id|nct_id|outcome_id|non_inferiority_type|non_inferiority_description|param_type|param_value|dispersion_type|dispersion_value|p_value_modifier|p_value|ci_n_sides|ci_percent|ci_lower_limit|ci_upper_limit|ci_upper_limit_na_comment|p_value_description|method|method_description|estimate_description|groups_description|other_analysis_description|ci_upper_limit_raw|ci_lower_limit_raw|p_value_raw
82377676|NCT04460885|164462989|NON_INFERIORITY|The response and change from baseline in response after 52 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment and region as fixed factors, and baseline response as covariate.|Treatment difference|-0.19|||<|0.0001|TWO_SIDED|95.0|-0.36|-0.03|||ANCOVA|||||-0.03|-0.36|<0.0001
82377677|NCT04205812|164463002|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0042|TWO_SIDED|95.0|0.6|0.93||The p-value was based on a stratified log-rank test at an overall 1-sided 2.5% level of significance, using O'Brien and Fleming boundary to adjust for alpha spending at interim analysis.|Log Rank||A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.93|0.60|0.0042
82377678|NCT04205812|164463003|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.79|||Log Rank|The p-value was based on the stratified log-rank test for PFS.|A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.79|0.52|<0.0001
82377679|NCT04205812|164463004|SUPERIORITY|||||||0.0012||||||The p-value was calculated at the 1-sided 2.5% level from stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|||||||0.0012
82377680|NCT03367572|164463084|SUPERIORITY||Mean Difference (Net)|0.7056||||0.008|TWO_SIDED||||||ANOVA|||||||0.008
82377681|NCT03367572|164463084|SUPERIORITY||Mean Difference (Net)|1.1486|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82377682|NCT03367572|164463085|SUPERIORITY||Mean Difference (Net)|0.4468||||0.01|TWO_SIDED||||||ANOVA|||||||0.010
82439057|NCT02226198|164586126|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.3||||0.005|TWO_SIDED|95.0|-33.5|-9.1||statistical significance set at 0.05|Mixed Models Analysis||Rosuvastatin treatment gives on average a 22.3% lower geometric LS mean than placebo.|cross-over, null hypothesis is no difference between ros and plc. Powered for 90% detection of 15% delta||-9.1|-33.5|0.005
82439058|NCT02226198|164586127|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.3||||0.005|TWO_SIDED|95.0|-33.5|-9.1||statistical significance set at 0.05|Mixed Models Analysis||Rosuvastatin treatment gives on average a 22.3% lower geometric LS mean than placebo.|cross-over, null hypothesis is no difference between ros and plc. Powered for 90% detection of 15% delta||-9.1|-33.5|0.005
82439059|NCT02226198|164586128|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.1||||0.003|TWO_SIDED|95.0|-29.7|-9.1||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-9.1|-29.7|0.003
82562194|NCT03141177|164834031|SUPERIORITY|Treatment A over Treatment C|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.64|||Stratified Log-Rank|||||0.64|0.41|<0.0001
82562195|NCT03141177|164834032|SUPERIORITY|Treatment A over Treatment C|Hazard Ratio (HR)|0.6||||0.001|TWO_SIDED|98.89|0.4|0.89|||Stratified Log-Rank|||||0.89|0.40|0.0010
82562196|NCT03141177|164834033|SUPERIORITY|Treatment A over Treatment C|Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.51|4.95|||Stratified Cochran-Mantel-Haenszel|||||4.95|2.51|<0.0001
82562197|NCT03141177|164834033|OTHER|Treatment A - Treatment C|Difference of Objective Response Rates|28.6|||||TWO_SIDED|95.0|21.7|35.6|||||Strata adjusted difference in objective response rate (Nivolumab+Cabozantinib - Sunitinib) based on DerSimonian and Laird.|||35.6|21.7|
82562198|NCT02221934|164834045|SUPERIORITY||Risk Difference (RD)|0.176||||0.002|TWO_SIDED|95.0|0.07|0.283|||Regression, Logistic||Difference in Responders between groups presented.|||0.283|0.070|0.002
82377683|NCT03367572|164463085|SUPERIORITY||Mean Difference (Net)|0.5632||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
82439060|NCT02226198|164586129|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.1||||0.003|TWO_SIDED|95.0|-29.7|-9.1||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-9.1|-29.7|0.003
82439061|NCT02226198|164586130|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.9||||0.003|TWO_SIDED|95.0|-33.7|-10.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.3|-33.7|0.003
82562199|NCT02834624|164834062|OTHER||||||<|0.05|||||||t-test, 1 sided|||Sample size calculations used a Chi-square for independence, u = 1, p =.05, power = .80, effect size = .60, which required 22 total subjects.||||<.05
82562200|NCT02834624|164834064|OTHER|||||||0.63|||||||t-test, 1 sided|||||||0.63
82377684|NCT03367572|164463086|SUPERIORITY||Mean Difference (Net)|-0.59||||0.019|TWO_SIDED||||||t-test, 2 sided|||"Secondary Aim 1 is to determine if olanzapine is more effective than prochlorperazine in controlling nausea at Cycle 2 in participants who experienced CINV at Cycle 1 when used in combination with netupitant, palonosetron and dexamethasone.~This will be assessed by estimating the contrast D = (3 - 1) - (2 - 1), where 3 is the Arm 3 mean, 2 is the Arm 2 mean, and 1 is the Control mean, and testing whether D = 0 versus the one-sided alternative hypothesis that D \> 0."||||0.019
82377685|NCT03367572|164463087|SUPERIORITY||Odds Ratio (OR)|1.31||||0.386|TWO_SIDED|97.5|0.65|2.66||prochlorperazine arm statistics|Regression, Logistic|||||2.66|0.65|0.386
82572725|NCT02783573|164855376|SUPERIORITY||LS Mean Difference (Final Values)|-15.2|STANDARD_ERROR_OF_MEAN|15.43||0.337|TWO_SIDED|95.0|-47.488|17.096|||ANCOVA|||||17.096|-47.488|0.337
82572726|NCT02783573|164855377|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.927|TWO_SIDED|95.0|-0.015|0.017|||ANCOVA|||||0.017|-0.015|0.927
82377686|NCT03367572|164463087|SUPERIORITY||Odds Ratio (OR)|0.16||||0.036|TWO_SIDED|97.5|0.02|1.13||olanzapine arm statistics|Regression, Logistic|||||1.13|0.02|0.036
82377687|NCT05026177|164463106|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.5335|TWO_SIDED|95.0|-0.96|1.86|||Mixed Models Analysis|||||1.86|-0.96|0.5335
82377688|NCT05026177|164463106|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.5836|TWO_SIDED|95.0|-0.99|1.76|||Mixed Models Analysis|||||1.76|-0.99|0.5836
82377689|NCT05026177|164463107|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.0763|TWO_SIDED|95.0|-3.3|0.17|||Mixed Models Analysis|||||0.17|-3.30|0.0763
82377690|NCT05026177|164463107|SUPERIORITY||Mean Difference (Final Values)|-1.24||||0.153|TWO_SIDED|95.0|-2.93|0.46|||Mixed Models Analysis|||||0.46|-2.93|0.1530
82377691|NCT03956355|164463122|SUPERIORITY||Risk Ratio (RR)|5.78|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82377692|NCT03956355|164463123|SUPERIORITY||Risk Ratio (RR)|2.76|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82377693|NCT03956355|164463124|SUPERIORITY||Risk Ratio (RR)|2.68||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
82439062|NCT02226198|164586131|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-22.9||||0.003|TWO_SIDED|95.0|-33.7|-10.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.3|-33.7|0.003
82562201|NCT05066230|164834065|SUPERIORITY||Difference of weighted percentages|39.7|||<|0.0001|TWO_SIDED|95.02|31.3|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||48.1|31.3|<0.0001
82562202|NCT05066230|164834066|SUPERIORITY||Difference of weighted percentages|-18.7|||<|0.0001|TWO_SIDED|95.02|-26.2|-11.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||-11.2|-26.2|<0.0001
82562203|NCT05066230|164834067|SUPERIORITY||Difference of weighted percentages|5.6||||0.0058|TWO_SIDED|95.02|1.6|9.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53), HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||9.5|1.6|0.0058
82562204|NCT05066230|164834068|SUPERIORITY||Difference of weighted percentages|-6.5||||0.0149|TWO_SIDED|95.02|-11.8|-1.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by baseline DRSS level (≤level 47 vs. ≥level 53) and HbA1c level (≤8.5% vs. \>8.5%).|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||-1.3|-11.8|0.0149
82562205|NCT03072238|164834080|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0335|TWO_SIDED|95.0|0.61|0.98|||Log Rank|||||0.98|0.61|0.0335
82562206|NCT03072238|164834081|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0431|TWO_SIDED|95.0|0.71|0.99|||Log Rank|||||0.99|0.71|0.0431
82562207|NCT03072238|164834082|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.5698|TWO_SIDED|95.0|0.76|1.17|||Log Rank|||||1.17|0.76|0.5698
82562208|NCT03072238|164834083|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2515|TWO_SIDED|95.0|0.79|1.07|||Log Rank|||||1.07|0.79|0.2515
82562209|NCT03072238|164834084|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.601|TWO_SIDED|95.0|0.58|1.01|||Log Rank|||||1.01|0.58|0.6010
82562210|NCT03072238|164834085|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1723|TWO_SIDED|95.0|0.72|1.06|||Log Rank|||||1.06|0.72|0.1723
82562211|NCT03072238|164834086|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1566|TWO_SIDED|95.0|0.65|1.07|||Log Rank|||||1.07|0.65|0.1566
82623775|NCT04507776|164962896|OTHER|||||||0.75|||||||t-test, 2 sided|||Year 1 Adherence: Baseline||||0.75
82377694|NCT03956355|164463125|SUPERIORITY||Least squares mean difference|-3.28|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82377695|NCT03956355|164463126|SUPERIORITY||Risk Ratio (RR)|8.54||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0005
82386638|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-6.0||||0.6676|TWO_SIDED|90.0|-25.9|15.9|||Chan and Zhang method|||Week 8||15.9|-25.9|0.6676
82562212|NCT03072238|164834087|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0419|TWO_SIDED|95.0|0.69|0.99|||Log Rank|||||0.99|0.69|0.0419
82562213|NCT03072238|164834088|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.3198|TWO_SIDED|95.0|0.89|1.45|||Log Rank|||||1.45|0.89|0.3198
82562214|NCT03072238|164834089|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.0071|TWO_SIDED|95.0|1.06|1.47|||Log Rank|||||1.47|1.06|0.0071
82562215|NCT03072238|164834090|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0045|TWO_SIDED|95.0|0.59|0.91|||Log Rank|||||0.91|0.59|0.0045
82562216|NCT03072238|164834091|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.83|||Log Rank|||||0.83|0.61|< 0.0001
82562217|NCT03072238|164834092|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.1359|TWO_SIDED|95.0|0.57|1.08|||Log Rank|||||1.08|0.57|0.1359
82562218|NCT03072238|164834093|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1398|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||||1.06|0.68|0.1398
82562219|NCT03072238|164834094|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8239|TWO_SIDED|95.0|0.61|1.48|||Log Rank|||||1.48|0.61|0.8239
82562220|NCT03072238|164834095|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6018|TWO_SIDED|95.0|0.66|1.27|||Log Rank|||||1.27|0.66|0.6018
82562221|NCT03072238|164834096|SUPERIORITY||Difference in Overall Response Rate|20.93||||0.003|TWO_SIDED|95.0|6.2|35.65|||Cochran-Mantel-Haenszel|||||35.65|6.20|0.0030
82562222|NCT03072238|164834097|SUPERIORITY||Difference in Overall Response Rate|16.46||||0.0008|TWO_SIDED|95.0|6.66|26.27|||Cochran-Mantel-Haenszel|||||26.27|6.66|0.0008
82562223|NCT03072238|164834100|SUPERIORITY||Difference in Overall Response Rate|11.81||||0.0012|TWO_SIDED|95.0|4.34|19.29|||Cochran-Mantel-Haenszel|||||19.29|4.34|0.0012
82562224|NCT03072238|164834101|SUPERIORITY||Difference in Overall Response Rate|5.87||||0.0178|TWO_SIDED|95.0|0.83|10.9|||Cochran-Mantel-Haenszel|||||10.90|0.83|0.0178
82562225|NCT03072238|164834102|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0246|TWO_SIDED|95.0|0.45|0.95|||Log Rank|||||0.95|0.45|0.0246
82562226|NCT01366976|164834128|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Mixed Models Analysis|||We hypothesized that acetaminophen would reduce peak isofuran concentrations by 22 pg/mL (40% reduction from peak concentrations). If the true difference in the acetaminophen and placebo group means is 22 pg/mL (SD=30 pg/mL), we would need to study 30 experimental subjects and 30 control subjects to be able to reject the null hypothesis that the population means of the acetaminophen and placebo groups are equal with probability (power) 0.8.||||0.05
82562227|NCT01366976|164834130|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
82562228|NCT00307489|164834132|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-values were from a Cochran-Mantel-Haenszel test, controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||.544
82562229|NCT00307489|164834133|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.208
82562230|NCT00307489|164834134|SUPERIORITY_OR_OTHER|||||||0.712||95.0||||Controlling for baseline HBeAg and prior lamivudine use.|van Elteren|||||||0.712
82562231|NCT00307489|164834135|SUPERIORITY_OR_OTHER|||||||0.988||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.988
82623776|NCT04507776|164962896|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 1 Adherence: Year 1 (Month 12)||||<0.05
82623777|NCT04507776|164962896|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 7 Adherence: Baseline||||<0.05
82623778|NCT04507776|164962896|OTHER|||||||0.43|||||||t-test, 2 sided|||Year 7 Adherence: Year 7||||0.43
82562232|NCT00307489|164834136|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||Controlling for baseline HBeAg status and prior lamivudine use|Cochran-Mantel-Haenszel|||||||0.423
82562233|NCT00307489|164834137|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.109
82562234|NCT00307489|164834138|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||Cochran-Mantel-Haenszel|Controlling for baseline HBeAg and prior lamivudine use.||||||0.952
82562235|NCT00307489|164834139|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.655
82562236|NCT00307489|164834140|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.401
82562237|NCT00307489|164834141|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.401
82562238|NCT00307489|164834142|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.103
82562239|NCT00307489|164834143|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|van Elteren|||||||0.999
82562240|NCT00307489|164834144|SUPERIORITY_OR_OTHER|||||||0.781||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.781
82562241|NCT00307489|164834145|SUPERIORITY_OR_OTHER|||||||0.936||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.936
82562242|NCT00307489|164834146|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.784
82562243|NCT00307489|164834147|SUPERIORITY_OR_OTHER|||||||0.703||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.703
82562244|NCT00307489|164834148|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.254
82562245|NCT00307489|164834149|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Controlling for baseline HBeAg status and prior lamivudine use.|Cochran-Mantel-Haenszel|||||||0.254
82562246|NCT00307489|164834150|SUPERIORITY_OR_OTHER|||||||0.878||95.0|||||Cochran-Mantel-Haenszel|||||||0.878
82562247|NCT01286311|164834173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.54|1.86|||Generalized Logistic Regression|||||1.86|0.54|0.99
82562248|NCT01286311|164834174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.27|TWO_SIDED|95.0|0.84|1.85|||Generalized Logistic Regression|||||1.85|0.84|0.27
82562249|NCT01286311|164834175|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.038|TWO_SIDED|95.0|1.05|4.32|||Generalized Logistic Regression|||||4.32|1.05|0.038
82562250|NCT01286311|164834176|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.72||||0.13|TWO_SIDED|95.0|0.73|10.1|||Generalized Logistic Regression|||||10.1|0.73|0.13
82562251|NCT01286311|164834177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18||||0.3|TWO_SIDED|95.0|0.5|9.5|||Generalized Logistic Regression|||||9.5|0.50|0.30
82562252|NCT03034863|164834178|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.03|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
82562253|NCT03034863|164834179|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.69
82386639|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|17.6||||0.0898|TWO_SIDED|90.0|-4.2|37.8|||Chan and Zhang method|||Week 8||37.8|-4.2|0.0898
82562254|NCT03034863|164834180|SUPERIORITY|||||||0.49||||||All p-values are two-tailed|Fisher Exact|Compares veterans who reported 1+ attempts at any follow-up wave out of total number of veterans in each group (i.e., 0/19 for SAFER; 2/20 for I-SPI).||||||.49
82562255|NCT03034863|164834181|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
82562256|NCT03034863|164834182|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.87|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.87
82562257|NCT03034863|164834183|SUPERIORITY||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.03
82562258|NCT03034863|164834184|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.16|TWO_SIDED||||||Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.16
82562259|NCT03034863|164834185|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.35||0.81|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.81
82562260|NCT03034863|164834186|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.62||0.55|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.55
82562261|NCT03034863|164834187|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.64|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.64
82562262|NCT03034863|164834188|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.62|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.62
82562263|NCT03034863|164834189|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.16|TWO_SIDED|||||All p-values are two-tailed|Hierarchical Linear Modeling/MLM|Hypothesis tested using a dummy code representing group assignment (1=SAFER; 0=I-SPI) in the Level 2 equation for the slope term.|Slope represents relative unit change/month between both conditions. Positive slope terms represent relative increases in SAFER compared to I-SPI. Negative slope terms represent relative reductions in SAFER compared to I-SPI.|||||.16
82562264|NCT01690000|164834263|SUPERIORITY_OR_OTHER||||||<|0.05||||||The p-value was calculated|t-test, 2 sided|||The p-value was calculated||||<0.05
82562265|NCT00813709|164834268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.555||||0.002|TWO_SIDED|95.0|0.378|0.816|||Log Rank|||||0.816|0.378|0.002
82439063|NCT02226198|164586132|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-17.1||||0.024|TWO_SIDED|95.0|-29.2|-2.9||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-2.9|-29.2|0.024
82439064|NCT02226198|164586133|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-17.1||||0.024|TWO_SIDED|95.0|-29.2|-2.9||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-2.9|-29.2|0.024
82562266|NCT00813709|164834268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.006|TWO_SIDED|95.0|0.391|0.839|||Log Rank|||||0.839|0.391|0.006
82562267|NCT00813709|164834268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.993||||0.941|TWO_SIDED|95.0|0.654|1.51|||Log Rank|||||1.510|0.654|0.941
82562268|NCT00813709|164834269|SUPERIORITY_OR_OTHER|||||||0.205||95.0|||||Log Rank|||||||0.205
82562269|NCT00813709|164834269|SUPERIORITY_OR_OTHER|||||||0.263||95.0|||||Log Rank|||||||0.263
82562270|NCT00813709|164834269|SUPERIORITY_OR_OTHER|||||||0.629||95.0|||||Log Rank|||||||0.629
82562271|NCT00759681|164834292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.0538||0.05|TWO_SIDED|95.0|0.103|0.314|||Exact binomial confidence limit|Effectiveness: 95% confidence limits of the difference between groups, and ensuring that the lower limit of the difference was greater than 10%.||Effectiveness was evaluated using a superiority hypothesis, comparing treatment sites with regards to the proportion achieving immediate suture line sealing between the groups. Effectiveness was based on a two-tailed, 0.05 hypothesis test, with a minimum effect size set at 10%. The mean difference in the proportion of sites achieving immediate suture line sealing was compared between the Control and Investigation Device groups.||0.314|0.103|0.05
82562272|NCT00759681|164834293|NON_INFERIORITY_OR_EQUIVALENCE|Safety was evaluated using non-inferiority hypothesis evaluating the proportion of cases with any instance of sign. bleeding, neurological deficit or immune/inflammatory allergic response. Safety based on one-tailed, 0.05 alpha, with equivalence limit set at 15%.|Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.0671||0.05|ONE_SIDED|95.0||-0.003|||Exact binomial confidence limit|Safety: 95% confidence limits of the difference between groups, and ensuring that the upper limit of the difference was less than or equal to 15%.|The cumulative incidence of safety endpoints for the Investigational Treatment group was an average of 13.5% less than for the Control group.|The mean difference is equivalent to the proportion of Investigational Device patients minus the proportion of Control patients experiencing any instance of significant bleeding, neurological deficit or immune/inflammatory allergic response.||-0.003||0.05
82562273|NCT04387773|164834294|SUPERIORITY||Mean Difference (Final Values)|2.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||We hypothesized that GOCOVRI would result in an increase of daily activity due to improvement in LID symptoms.||||>.05
82562274|NCT04387773|164834295|SUPERIORITY||Mean Difference (Final Values)|14.98|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||We hypothesized that GOCOVRI would result in an increase of daily activity due to improvement in LID symptoms.||||>.05
82562275|NCT04387773|164834296|SUPERIORITY||Mean Difference (Final Values)|2393.2||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
82562276|NCT04387773|164834297|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.012|TWO_SIDED||||||t-test, 2 sided|||||||0.012
82562277|NCT04387773|164834298|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82562278|NCT03403153|164834324|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
82562279|NCT03403153|164834325|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82562280|NCT03403153|164834326|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82562281|NCT03403153|164834327|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82562282|NCT03403153|164834328|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82562283|NCT03403153|164834329|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82562284|NCT03403153|164834330|OTHER||||||<|0.01|||||||t-test, 1 sided|||||||<.01
82572727|NCT02783573|164855377|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.93|TWO_SIDED|95.0|-0.015|0.017|||ANCOVA|||||0.017|-0.015|0.930
82572728|NCT02783573|164855378|SUPERIORITY||LS Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|1.06||0.127|TWO_SIDED|95.0|-3.708|0.464|||ANCOVA|||||0.464|-3.708|0.127
82439065|NCT02226198|164586134|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|7.4||||0.314|TWO_SIDED|95.0|-7.4|24.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||24.5|-7.4|0.314
82439066|NCT02226198|164586135|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|7.4||||0.314|TWO_SIDED|95.0|-7.4|24.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||24.5|-7.4|0.314
82439067|NCT02226198|164586136|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-26.3||||0.08|TWO_SIDED|95.0|-48.7|6.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||6.0|-48.7|0.080
82562285|NCT00795639|164834377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0||||0.0104|TWO_SIDED|95.0|3.0|26.0||Significance test performed using non-parametric analysis of covariance controlling for Baseline 6MWD and PAH etiology and PAH not secondary to a connective tissue disease (other).|ANCOVA||Missing value at Week 12 assigned as zero if the subject had a predefined clinical worsening event, otherwise, missing value at Week 12 imputed with the last non-missing 6MWD based on LOCF.|||26|3|0.0104
82439068|NCT02226198|164586137|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-26.3||||0.08|TWO_SIDED|95.0|-48.7|6.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||6.0|-48.7|0.080
82562286|NCT00795639|164834378|SUPERIORITY_OR_OTHER|||||||0.2908|TWO_SIDED|||||Significance tests of WHO Functional Class performed using the Cochran-Mantel-Haenszel (CMH) test, stratified by Baseline 6MWD (less than 310 meters and greater than or equal to 310 meters) and PAH Etiology (Connective Tissue Disease and others).|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores, and the p-value corresponding to ANCOVA (row mean scores) statistics were used.||Week 12||||0.2908
82562287|NCT00248794|164834383|SUPERIORITY_OR_OTHER||||||<|0.97|||||||ANOVA|||||||<.97
82562288|NCT00248794|164834384|SUPERIORITY_OR_OTHER|||||||0.77|||||||ANOVA|||||||.77
82562289|NCT00244751|164834401|SUPERIORITY_OR_OTHER|||||||0.3608|||||||reduced regression model|||||||0.3608
82562290|NCT00244751|164834401|SUPERIORITY_OR_OTHER|||||||0.3575|||||||reduced regression model|||||||0.3575
82562291|NCT00244751|164834402|SUPERIORITY_OR_OTHER|||||||0.9157|||||||reduced regression model|||||||0.9157
82377696|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|3.53||||0.045|TWO_SIDED|95.0|0.08|6.99||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|Linear ANCOVA model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||6.99|0.08|0.045
82439069|NCT02226198|164586148|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-30.4||||0.004|TWO_SIDED|95.0|-44.2|-13.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-13.3|-44.2|0.004
82439070|NCT02226198|164586149|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-30.4||||0.004|TWO_SIDED|95.0|-44.2|-13.3||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-13.3|-44.2|0.004
82439071|NCT02226198|164586150|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-27.6||||0.006|TWO_SIDED|95.0|-41.2|-11.0||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-11.0|-41.2|0.006
82439072|NCT02226198|164586151|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-25.6||||0.005|TWO_SIDED|95.0|-38.1|-10.5||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-10.5|-38.1|0.005
82562292|NCT00244751|164834402|SUPERIORITY_OR_OTHER|||||||0.9501|||||||reduced regression model|||||||0.9501
82562293|NCT00244751|164834403|SUPERIORITY_OR_OTHER|||||||0.6483|||||||Cochran-Mantel-Haenszel Test|||Comparison for Ranked assessment (fibrosis)||||0.6483
82562294|NCT00244751|164834403|SUPERIORITY_OR_OTHER|||||||0.1776|||||||Cochran-Mantel-Haenszel Test|||Comparison for Ranked assessment (necrosis)||||0.1776
82562295|NCT01694199|164834435|SUPERIORITY_OR_OTHER|||||||0.3529|||||||ANCOVA|||||||0.3529
82562296|NCT01694199|164834436|SUPERIORITY_OR_OTHER|||||||0.2766|||||||ANCOVA|||||||0.2766
82562297|NCT01694199|164834437|SUPERIORITY_OR_OTHER|||||||0.1467|||||||ANOVA|||P=0.1467||||0.1467
82562298|NCT01694199|164834438|SUPERIORITY_OR_OTHER|||||||0.5009|||||||ANOVA|||P = 0.5009||||0.5009
82562299|NCT01694199|164834439|SUPERIORITY_OR_OTHER|||||||0.9038|||||||ANOVA|||||||0.9038
82562300|NCT03031782|164834479|SUPERIORITY||Cox Proportional Hazard|0.28|||<|0.001|TWO_SIDED|95.0|0.13|0.63|||Log Rank|Hazard ratios and associated 95% confidence intervals are based on a Cox proportional hazards model with treatment and analysis factors||Survival analysis of time to flare - TP2 (FAS2)||0.63|0.13|<0.001
82562301|NCT00424476|164834519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0006||95.0|1.3|2.59||For the primary analysis of the primary efficacy endpoint, a step-down sequential testing procedure was used to control the type 1 error.|Regression, Logistic|Adjusted for baseline stratification factors (SELENA SLEDAI Score: ≤9 vs ≥10; proteinuria: \<2g vs ≥2g per 24hr; Race: African/indig-American vs Other)||||2.59|1.30|0.0006
82562302|NCT00424476|164834519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.0129|TWO_SIDED|95.0|1.1|2.19||After superiority of 10 mg/kg vs placebo was established, the 1 mg/kg group was tested vs placebo (2-sided alpha=0.05).|Regression, Logistic|Adjusted for baseline stratification factors.||||2.19|1.10|0.0129
82562303|NCT00424476|164834520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.0024|TWO_SIDED|95.0|1.21|2.41|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.41|1.21|0.0024
82562304|NCT00424476|164834520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0189|TWO_SIDED|95.0|1.07|2.14|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.14|1.07|0.0189
82562305|NCT00424476|164834521|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANCOVA|Adjusted for baseline PGA score and baseline stratification factors.||||||0.0003
82562306|NCT00424476|164834521|SUPERIORITY_OR_OTHER|||||||0.2712||95.0|||||ANCOVA|Adjusted for baseline PGA score and baseline stratification factors.||||||0.2712
82439073|NCT02226198|164586152|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-28.2||||0.005|TWO_SIDED|95.0|-41.7|-11.4||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-11.4|-41.7|0.005
82439074|NCT02226198|164586153|SUPERIORITY_OR_OTHER||Relative difference in geometric LSM|-20.4||||0.013|TWO_SIDED|95.0|-32.8|-5.6||statistical significance set at 0.05|Mixed Models Analysis|||cross-over, null hypothesis is no difference between ros and plc.||-5.6|-32.8|0.013
82562307|NCT00424476|164834522|SUPERIORITY_OR_OTHER|||||||0.887|||||||ANCOVA|Adjusted for the baseline PCS score and baseline stratification factors.||||||0.8870
82562308|NCT00424476|164834522|SUPERIORITY_OR_OTHER|||||||0.8127|||||||ANCOVA|Adjusted for the baseline PCS score and baseline stratification factors.||||||0.8127
82562309|NCT00424476|164834523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0526|TWO_SIDED|95.0|0.99|3.08|||Regression, Logistic|Adjusted for baseline prednisone dose level and baseline stratification factors.||||3.08|0.99|0.0526
82562310|NCT00424476|164834523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0252|TWO_SIDED|95.0|1.08|3.31|||Regression, Logistic|Adjusted for baseline prednisone dose level and baseline stratification factors.||||3.31|1.08|0.0252
82562311|NCT03979040|164834525|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5||||P value = .025 (one-sided) and sign test below|Sign test|||||||.025
82562312|NCT03979040|164834526|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5|||||Sign test|||||||.025
82439075|NCT03895632|164586158|OTHER|A linear mixed-effects model was fit to assess the association between α (the slope of the Power Spectral Density (PSD) plot) and signal segment.|||||<|0.0001||||||p-value obtained form the Wald statistics of the linear mixed-effects model. The threshold for statistical signifiance was p=0.01.|Linear mixed-effects model|||The null hypothesis was that α (the slope of the Power Spectral Density (PSD) plot) is not related to signal segment (off-, approaching- and on-target).||||<0.0001
82562313|NCT03979040|164834527|NON_INFERIORITY|A non-inferiority margin of -.5 was set for outcome analysis with a one-sided alpha of .025.|Mean Difference (Net)|-0.5||||0.025|ONE_SIDED|97.5|||||Sign test|||||||.025
82562314|NCT03032965|164834528|SUPERIORITY|||||||0.83|||||||Log Rank|Kaplan Meier log rank||||||.83
82562315|NCT03032965|164834529|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.35
82562316|NCT03032965|164834531|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82562317|NCT02978183|164834547|SUPERIORITY|||||||0.0882||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0882
82562318|NCT02978183|164834547|SUPERIORITY|||||||0.8032||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 5 Minutes Post-CAC||||0.8032
82562319|NCT02978183|164834547|SUPERIORITY|||||||0.9003||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 7 Minutes Post-CAC||||0.9003
82562320|NCT02978183|164834547|SUPERIORITY|||||||0.9523||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9523
82562321|NCT02978183|164834547|SUPERIORITY|||||||0.9071||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.9071
82562322|NCT02978183|164834547|SUPERIORITY|||||||0.7509||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7509
82562323|NCT02978183|164834547|SUPERIORITY|||||||0.2824||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.2824
82562324|NCT02978183|164834547|SUPERIORITY|||||||0.4017||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.4017
82562325|NCT02978183|164834547|SUPERIORITY|||||||0.4497||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.4497
82562326|NCT02978183|164834547|SUPERIORITY|||||||0.165||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.1650
82562327|NCT02978183|164834547|SUPERIORITY|||||||0.3494||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 5 Minutes Post-CAC||||0.3494
82562328|NCT02978183|164834547|SUPERIORITY|||||||0.4781||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 7 Minutes Post-CAC||||0.4781
82562329|NCT02978183|164834547|SUPERIORITY|||||||0.9847||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.9847
82562330|NCT02978183|164834547|SUPERIORITY|||||||0.9731||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.9731
82562331|NCT02978183|164834547|SUPERIORITY|||||||0.6984||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.6984
82562332|NCT02978183|164834547|SUPERIORITY|||||||0.6265||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.6265
82562333|NCT02978183|164834547|SUPERIORITY|||||||0.7848||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.7848
82562334|NCT02978183|164834547|SUPERIORITY|||||||0.5789||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.5789
82562335|NCT02978183|164834548|SUPERIORITY|||||||0.8165||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.8165
82386640|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|11.8||||0.2707|TWO_SIDED|90.0|-10.1|32.9|||Chan and Zhang method|||Week 10||32.9|-10.1|0.2707
82386641|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|9.0||||0.2981|TWO_SIDED|90.0|-14.2|31.0|||Chan and Zhang method|||Week 10||31.0|-14.2|0.2981
82562336|NCT02978183|164834548|SUPERIORITY|||||||0.659||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.6590
82562337|NCT02978183|164834548|SUPERIORITY|||||||0.7455||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.7455
82562338|NCT02978183|164834548|SUPERIORITY|||||||0.9212||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.9212
82562339|NCT02978183|164834548|SUPERIORITY|||||||0.9509||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.9509
82562340|NCT02978183|164834548|SUPERIORITY|||||||0.7897||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.7897
82562341|NCT02978183|164834548|SUPERIORITY|||||||0.3183||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.3183
82562342|NCT02978183|164834548|SUPERIORITY|||||||0.7604||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.7604
82562343|NCT02978183|164834548|SUPERIORITY|||||||0.7343||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7343
82562344|NCT02978183|164834548|SUPERIORITY|||||||0.153||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.1530
82562345|NCT02978183|164834548|SUPERIORITY|||||||0.3307||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.3307
82562346|NCT02978183|164834548|SUPERIORITY|||||||0.3399||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.3399
82562347|NCT02978183|164834548|SUPERIORITY|||||||0.5137||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.5137
82562348|NCT02978183|164834548|SUPERIORITY|||||||0.9962||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.9962
82562349|NCT02978183|164834549|SUPERIORITY|||||||0.3259||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.3259
82562350|NCT02978183|164834549|SUPERIORITY|||||||0.9785||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9785
82562351|NCT02978183|164834549|SUPERIORITY|||||||0.5112||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.5112
82562352|NCT02978183|164834549|SUPERIORITY|||||||0.7771||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7771
82439076|NCT04545047|164586163|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-2.3|3.6||||||The investigators estimated the 30-day mortality risk difference comparing patients assigned to each group. Adjustment for covariates would be carried out via inverse probability weighting.||3.60|-2.30|
82562353|NCT02978183|164834549|SUPERIORITY|||||||0.6232||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.6232
82562354|NCT02978183|164834549|SUPERIORITY|||||||0.8895||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.8895
82562355|NCT02978183|164834549|SUPERIORITY|||||||0.8974||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.8974
82562356|NCT02978183|164834549|SUPERIORITY|||||||0.9604||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.9604
82562357|NCT02978183|164834549|SUPERIORITY|||||||0.5301||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 minutes Post-CAC||||0.5301
82562358|NCT02978183|164834549|SUPERIORITY|||||||0.0386||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.0386
82562359|NCT02978183|164834549|SUPERIORITY|||||||0.1034||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.1034
82562360|NCT02978183|164834549|SUPERIORITY|||||||0.0985||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.0985
82623779|NCT04507776|164962897|OTHER|||||||0.0001|||||||t-test, 2 sided|||Year 1 Adherence: Change at Year 1 (Month 12)||||0.0001
82562361|NCT02978183|164834549|SUPERIORITY|||||||0.2342||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.2342
82562362|NCT02978183|164834549|SUPERIORITY|||||||0.3016||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.3016
82562363|NCT02978183|164834550|SUPERIORITY|||||||0.4927||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.4927
82562364|NCT02978183|164834550|SUPERIORITY|||||||0.8686||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.8686
82562365|NCT02978183|164834550|SUPERIORITY|||||||0.5772||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.5772
82562366|NCT02978183|164834550|SUPERIORITY|||||||0.97||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.9700
82562367|NCT02978183|164834550|SUPERIORITY|||||||0.7516||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.7516
82562368|NCT02978183|164834550|SUPERIORITY|||||||0.9532||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.9532
82562369|NCT02978183|164834550|SUPERIORITY|||||||0.7522||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.7522
82562370|NCT02978183|164834550|SUPERIORITY|||||||0.6804||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.6804
82562371|NCT02978183|164834550|SUPERIORITY|||||||0.6267||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.6267
82562372|NCT02978183|164834550|SUPERIORITY|||||||0.0976||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.0976
82562373|NCT02978183|164834550|SUPERIORITY|||||||0.4687|||||||ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.4687
82562374|NCT02978183|164834550|SUPERIORITY|||||||0.0421||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.0421
82562375|NCT02978183|164834550|SUPERIORITY|||||||0.6085||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.6085
82562376|NCT02978183|164834550|SUPERIORITY|||||||0.9634||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.9634
82562377|NCT02978183|164834551|SUPERIORITY|||||||0.3322||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.3322
82562378|NCT02978183|164834551|SUPERIORITY|||||||0.8026||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Pre-CAC||||0.8026
82562379|NCT02978183|164834551|SUPERIORITY|||||||0.9981||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Pre-CAC||||0.9981
82562380|NCT02978183|164834551|SUPERIORITY|||||||0.5645||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.5645
82562381|NCT02978183|164834551|SUPERIORITY|||||||0.5455||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5455
82562382|NCT02978183|164834551|SUPERIORITY|||||||0.698||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6980
82562383|NCT02978183|164834551|SUPERIORITY|||||||0.6115||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.6115
82562384|NCT02978183|164834551|SUPERIORITY|||||||0.4528||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.4528
82562385|NCT02978183|164834551|SUPERIORITY|||||||0.7551||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7551
82562386|NCT02978183|164834551|SUPERIORITY|||||||0.5318||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.5318
82562387|NCT02978183|164834551|SUPERIORITY|||||||0.9748||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.9748
82562388|NCT02978183|164834551|SUPERIORITY|||||||0.7706||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.7706
82623780|NCT04507776|164962897|OTHER|||||||0.247|||||||t-test, 2 sided|||Year 7 Adherence: Change at Year 7||||0.247
82623781|NCT04507776|164962898|OTHER|||||||0.21|||||||t-test, 2 sided|||Year 1 Adherence: Baseline||||0.21
82623782|NCT04507776|164962898|OTHER||||||<|0.05|||||||t-test, 2 sided|||Year 1 Adherence: Year 1 (Month 12)||||<0.05
82562389|NCT02978183|164834551|SUPERIORITY|||||||0.3414||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.3414
82562390|NCT02978183|164834551|SUPERIORITY|||||||0.4361||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.4361
82562391|NCT02978183|164834552|SUPERIORITY|||||||0.0603||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0603
82439077|NCT04545047|164586163|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.64|1.62||||||The investigators estimated the 30-day mortality hazard ratio comparing patients assigned to each group. The hazard ratio was estimated from pooled logistic models with inverse probability weighting to adjust for confounding.||1.62|0.64|
82439078|NCT01288612|164586171|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Chi-squared|||||||0.25
82439079|NCT01288612|164586171|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Chi-squared|||||||0.42
82439080|NCT01288612|164586171|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Chi-squared|||||||0.27
82439081|NCT01288612|164586171|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Chi-squared|||||||0.82
82439082|NCT01288612|164586172|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Kruskal-Wallis|||||||0.06
82439083|NCT01288612|164586173|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Fisher Exact|||||||0.08
82623783|NCT04507776|164962898|OTHER|||||||0.62|||||||t-test, 2 sided|||Year 7 Adherence: Baseline||||0.62
82623784|NCT04507776|164962898|OTHER|||||||0.18|||||||t-test, 2 sided|||Year 7 Adherence: Year 7||||0.18
82439084|NCT01288612|164586174|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||||||0.001
82439085|NCT01288612|164586175|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82439086|NCT01288612|164586176|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82439087|NCT01288612|164586177|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for pain scale||||<0.001
82439088|NCT01288612|164586177|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for choking scale||||<0.001
82439089|NCT01288612|164586177|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for gagging scale||||<0.001
82439090|NCT01288612|164586177|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the arms for anxiety scale||||<0.001
82439091|NCT01288612|164586177|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||Comparison between arms for overall tolerance scale||||<0.001
82439092|NCT01288612|164586178|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||||||0.001
82439093|NCT01263015|164586186|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \> -10%.|Difference in percentage|7.3||||0.003|TWO_SIDED|95.0|2.3|12.2||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||The estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||12.2|2.3|0.003
82439094|NCT01263015|164586188|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \> -10%.|Difference in percentage|7.1||||0.016|TWO_SIDED|95.0|1.2|13.1||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||Week 96:The estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||13.1|1.2|0.016
82439095|NCT01263015|164586188|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG + ABC/3TC minus EFV/TDF/FTC) in percentages between the two treatment arms was \>-10%.|Difference in percentage|8.3||||0.01|TWO_SIDED|95.0|1.9|14.6||P-value is for the test of superiority.|Wilcoxon (Mann-Whitney)||Week 144:Estimated value reflects the percentage on DTG + ABC/3TC minus the percentage on EFV/TDF/FTC.|||14.6|1.9|0.010
82439096|NCT01263015|164586191|NON_INFERIORITY_OR_EQUIVALENCE|Adjusted mean is the estimated mean change from baseline (BL) in CD4 + Cell Count at Week 144 in each arm calculated from a repeated measures model including the following covariates: treatment, visit, BL plasma HIV-1 RNA, BL CD4 cell count, treatment\*visit interaction, BL HIV-1 RNA\*visit interaction and BL CD4 cell count\*visit interaction. No assumptions were made about the correlations between a par.'s readings of CD4 i.e. the correlation matrix for within-subject errors is unstructured.||||||0.003||95.0||||P-value is for the test of superiority.|Repeated Measure Mixed Model|||||||0.003
82562392|NCT02978183|164834552|SUPERIORITY|||||||0.4857||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.4857
82562393|NCT02978183|164834552|SUPERIORITY|||||||0.9815||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.9815
82562394|NCT02978183|164834552|SUPERIORITY|||||||0.6213||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.6213
82562395|NCT02978183|164834552|SUPERIORITY|||||||0.1831||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.1831
82562396|NCT02978183|164834552|SUPERIORITY|||||||0.6489||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6489
82562397|NCT02978183|164834552|SUPERIORITY|||||||0.2622||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.2622
82562398|NCT02978183|164834552|SUPERIORITY|||||||0.2397||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.2397
82562399|NCT02978183|164834552|SUPERIORITY|||||||0.3202||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.3202
82562400|NCT02978183|164834552|SUPERIORITY|||||||0.2663||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.2663
82562401|NCT02978183|164834552|SUPERIORITY|||||||0.5672||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.5672
82562402|NCT02978183|164834552|SUPERIORITY|||||||0.5055||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.5055
82623785|NCT04507776|164962899|OTHER|||||||0.0001|||||||t-test, 2 sided|||Year 1 Adherence: Change at Year 1 (Month 12)||||0.0001
82623786|NCT04507776|164962899|OTHER|||||||0.003|||||||t-test, 2 sided|||Year 7 Adherence: Change at Year 7||||0.003
82439097|NCT03392883|164586229|OTHER|Paired version (T-test for paired sample, Friedman and McNemar tests) was used for contrasting the equality among the variables at different moments of time. In order to adjust our results by potential confounders, ANCOVA analyses was performed. Symmetric 95% confidence intervals will be provided for relevant parameters. All p-values were referred to two-sided hypotheses. P-values below 0.05 were considered statistically significant.|||||<|0.001|TWO_SIDED|95.0||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale. This Statistical Analysis describes the Adoption subscale results.||||<0.001
82439098|NCT03392883|164586229|OTHER|||||||0.552||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Acceptability subscale results.||||0.552
82439099|NCT03392883|164586229|OTHER|||||||0.32||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Appropriateness subscale results.||||0.320
82562403|NCT02978183|164834552|SUPERIORITY|||||||0.8143||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8143
82562404|NCT02978183|164834552|SUPERIORITY|||||||0.6901||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6901
82562405|NCT02978183|164834553|SUPERIORITY|||||||0.4032||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.4032
82562406|NCT02978183|164834553|SUPERIORITY|||||||0.2946||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.2946
82639408|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.2|||<|0.0001|TWO_SIDED|95.0|5.44|32.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||32.0|5.44|<.0001
82377697|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.507|TWO_SIDED|95.0|-2.42|4.73||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||4.73|-2.42|0.507
82439100|NCT03392883|164586229|OTHER|||||||0.879||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Feasibility subscale results.||||0.879
82439101|NCT03392883|164586229|OTHER|||||||0.242||||||p\<0.05 is the threshold for statistical significance.|t-test, 2 sided|||We analyzed changes over time for every subscale in this instrument. This Statistical Analysis describes the Reach/Access subscale results.||||0.242
82439102|NCT03392883|164586230|OTHER|||||||0.237||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.237
82439103|NCT03392883|164586230|OTHER|||||||0.492||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Accessibility subscale results.||||0.492
82439104|NCT03392883|164586230|OTHER|||||||0.285||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Appropriateness subscale results.||||0.285
82562407|NCT02978183|164834553|SUPERIORITY|||||||0.2863||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.2863
82562408|NCT02978183|164834553|SUPERIORITY|||||||0.0891||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.0891
82562409|NCT02978183|164834553|SUPERIORITY|||||||0.5347||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5347
82562410|NCT02978183|164834553|SUPERIORITY|||||||0.3733||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.3733
82562411|NCT02978183|164834553|SUPERIORITY|||||||0.2506||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.2506
82562412|NCT02978183|164834553|SUPERIORITY|||||||0.8667||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.8667
82562413|NCT02978183|164834553|SUPERIORITY|||||||0.764||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7640
82562414|NCT02978183|164834553|SUPERIORITY|||||||0.8008||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.8008
82562415|NCT02978183|164834553|SUPERIORITY|||||||0.4729||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.4729
82562416|NCT02978183|164834553|SUPERIORITY|||||||0.4742||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.4742
82562417|NCT02978183|164834553|SUPERIORITY|||||||0.2922||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.2922
82562418|NCT02978183|164834553|SUPERIORITY|||||||0.3657||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.3657
82562419|NCT02978183|164834554|SUPERIORITY|||||||0.66||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.6600
82562420|NCT02978183|164834554|SUPERIORITY|||||||0.6877||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.6877
82562421|NCT02978183|164834554|SUPERIORITY|||||||0.334||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.3340
82562422|NCT02978183|164834554|SUPERIORITY|||||||0.7874||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7874
82562423|NCT02978183|164834554|SUPERIORITY|||||||0.3812||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.3812
82562424|NCT02978183|164834554|SUPERIORITY|||||||0.6987|||||||ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.6987
82562425|NCT02978183|164834554|SUPERIORITY|||||||0.6832||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.6832
82377698|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|4.98||||0.014|TWO_SIDED|95.0|1.14|8.83||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.83|1.14|0.014
82377699|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.237|TWO_SIDED|95.0|-1.66|6.42||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||6.42|-1.66|0.237
82562426|NCT02978183|164834554|SUPERIORITY|||||||0.8521||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.8521
82562427|NCT02978183|164834554|SUPERIORITY|||||||0.7516||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7516
82562428|NCT02978183|164834554|SUPERIORITY|||||||0.6252||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.6252
82562429|NCT02978183|164834554|SUPERIORITY|||||||0.8321||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.8321
82562430|NCT02978183|164834554|SUPERIORITY|||||||0.8173||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.8173
82377700|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.486|TWO_SIDED|95.0|-2.8|5.7||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||5.70|-2.80|0.486
82562431|NCT02978183|164834554|SUPERIORITY|||||||0.5445||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.5445
82562432|NCT02978183|164834554|SUPERIORITY|||||||0.681||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6810
82562433|NCT02978183|164834555|SUPERIORITY|||||||0.0111||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.0111
82562434|NCT02978183|164834555|SUPERIORITY|||||||0.3391||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.3391
82562435|NCT02978183|164834555|SUPERIORITY|||||||0.239||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.2390
82377701|NCT03355469|164463129|SUPERIORITY||Mean Difference (Final Values)|3.83||||0.081|TWO_SIDED|95.0|-0.53|8.19||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention FMD.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention 0 min unscaled FMD change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.19|-0.53|0.081
82386642|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|31.0||||0.011|TWO_SIDED|90.0|8.0|51.4|||Chan and Zhang method|||Week 10||51.4|8.0|0.0110
82386643|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|33.3||||0.0083|TWO_SIDED|90.0|9.1|53.2|||Chan and Zhang method|||Week 10||53.2|9.1|0.0083
82562436|NCT02978183|164834555|SUPERIORITY|||||||0.3068||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.3068
82562437|NCT02978183|164834555|SUPERIORITY|||||||0.4914||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.4914
82562438|NCT02978183|164834555|SUPERIORITY|||||||0.5185||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.5185
82562439|NCT02978183|164834555|SUPERIORITY|||||||0.5262||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.5262
82562440|NCT02978183|164834555|SUPERIORITY|||||||0.6098||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.6098
82562441|NCT02978183|164834555|SUPERIORITY|||||||0.8849||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.8849
82562442|NCT02978183|164834555|SUPERIORITY|||||||0.6941||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.6941
82562443|NCT02978183|164834555|SUPERIORITY|||||||0.5728||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.5728
82562444|NCT02978183|164834555|SUPERIORITY|||||||0.5931||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.5931
82562445|NCT02978183|164834555|SUPERIORITY|||||||0.7513||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.7513
82562446|NCT02978183|164834555|SUPERIORITY|||||||0.7297||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.7297
82562447|NCT02978183|164834556|SUPERIORITY|||||||0.1259||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.1259
82562448|NCT02978183|164834556|SUPERIORITY|||||||0.9234||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 Minutes Post-CAC||||0.9234
82562449|NCT02978183|164834556|SUPERIORITY|||||||0.8816||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.8816
82562450|NCT02978183|164834556|SUPERIORITY|||||||0.5703||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.5703
82562451|NCT02978183|164834556|SUPERIORITY|||||||0.5428||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.5428
82562452|NCT02978183|164834556|SUPERIORITY|||||||0.7454||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.7454
82562453|NCT02978183|164834556|SUPERIORITY|||||||0.8195||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.8195
82562454|NCT02978183|164834556|SUPERIORITY|||||||0.0909||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.0909
82562455|NCT02978183|164834556|SUPERIORITY|||||||0.4881||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.4881
82562456|NCT02978183|164834556|SUPERIORITY|||||||0.3391||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.3391
82562457|NCT02978183|164834556|SUPERIORITY|||||||0.6065||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.6065
82377702|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|0.0073||||0.373|TWO_SIDED|95.0|-0.0093|0.024||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0240|-0.0093|0.373
82377703|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|0.0097||||0.198|TWO_SIDED|95.0|-0.0055|0.025||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0250|-0.0055|0.198
82377704|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|0.0041||||0.622|TWO_SIDED|95.0|-0.0129|0.0211||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0211|-0.0129|0.622
82377705|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|-0.0024||||0.666|TWO_SIDED|95.0|-0.0136|0.0088||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0088|-0.0136|0.666
82562458|NCT02978183|164834556|SUPERIORITY|||||||0.3393||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.3393
82377706|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|-0.0032||||0.634|TWO_SIDED|95.0|-0.0169|0.0104||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0104|-0.0169|0.634
82439105|NCT03392883|164586230|OTHER|||||||0.964||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Feasibility subscale results.||||0.964
82439106|NCT03392883|164586230|OTHER|||||||0.942||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Resources subscale results.||||0.942
82386644|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|4.8||||0.4217|TWO_SIDED|90.0|-18.3|27.5|||Chan and Zhang method|||Week 10||27.5|-18.3|0.4217
82386645|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|1.3||||0.5152|TWO_SIDED|90.0|-20.8|23.2|||Chan and Zhang method|||Week 10||23.2|-20.8|0.5152
82439107|NCT03392883|164586230|OTHER|||||||0.366||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Scope subscale results.||||0.366
82439108|NCT03392883|164586230|OTHER|||||||0.021||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Organizational Climate subscale results.||||0.021
82562459|NCT02978183|164834556|SUPERIORITY|||||||0.8364||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8364
82439109|NCT03392883|164586230|OTHER|||||||0.832||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Leadership in Implementing subscale results.||||0.832
82562460|NCT02978183|164834556|SUPERIORITY|||||||0.8858||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.8858
82562461|NCT02978183|164834557|SUPERIORITY|||||||0.8818||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: Pre-CAC||||0.8818
82562462|NCT02978183|164834557|SUPERIORITY|||||||0.8679||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 10 minutes Post-CAC||||0.8679
82562463|NCT02978183|164834557|SUPERIORITY|||||||0.7856||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 15 Minutes Post-CAC||||0.7856
82562464|NCT02978183|164834557|SUPERIORITY|||||||0.7507||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 20 Minutes Post-CAC||||0.7507
82562465|NCT02978183|164834557|SUPERIORITY|||||||0.8189||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 25 Minutes Post-CAC||||0.8189
82562466|NCT02978183|164834557|SUPERIORITY|||||||0.9206||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: 30 Minutes Post-CAC||||0.9206
82562467|NCT02978183|164834557|SUPERIORITY|||||||0.9591||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 7: All Post-CAC Time Points||||0.9591
82562468|NCT02978183|164834557|SUPERIORITY|||||||0.5302||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: Pre-CAC||||0.5302
82562469|NCT02978183|164834557|SUPERIORITY|||||||0.7591||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 10 Minutes Post-CAC||||0.7591
82562470|NCT02978183|164834557|SUPERIORITY|||||||0.8978||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 15 Minutes Post-CAC||||0.8978
82562471|NCT02978183|164834557|SUPERIORITY|||||||0.7179||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 20 Minutes Post-CAC||||0.7179
82562472|NCT02978183|164834557|SUPERIORITY|||||||0.7262||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 25 Minutes Post-CAC||||0.7262
82562473|NCT02978183|164834557|SUPERIORITY|||||||0.8275||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: 30 Minutes Post-CAC||||0.8275
82562474|NCT02978183|164834557|SUPERIORITY|||||||0.618||||||Adjustments for multiplicity were not employed|ANCOVA|||Day 8: All Post-CAC Time Points||||0.6180
82562475|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity were not employed|Fisher Exact|||Day 7: 10 minutes post-CAC||||>0.9999
82562476|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 15 minutes post-CAC||||>0.9999
82562477|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 20 minutes post-CAC||||>0.9999
82623787|NCT00962754|164962900|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority since our hypothesis was that there would be no difference in outcome between the intervention and the control group.|Adjusted ratio of geometric means|1.0|||<|0.05|TWO_SIDED|95.0|0.81|1.19||"log transformation of mean duration of hospitalization,difference between two groups expressed as ratio of geometric means for duration. 95% confidence intervals calculated using bootstrapping method.~correction by linear regression model"|t-test, 2 sided|||We calculated that 85 patients in each group would give a power in excess of 85% to detect a difference of two days or more in the geometric mean length of hospital stay with a two-sided significance level of 0.05.||1.19|0.81|<0.05
82623788|NCT03943446|164962911|SUPERIORITY||Estimated Difference in ER Rate|-0.1|||=|0.59|TWO_SIDED|95.0|-0.44|0.23|||Fisher Exact|||||0.23|-0.44|=0.590
82623789|NCT03943446|164962911|SUPERIORITY||Estimated difference in ERR|-0.01|||=|1|TWO_SIDED|95.0|-0.34|0.31|||Fisher Exact|||||0.31|-0.34|=1.000
82623790|NCT01281189|164962954|SUPERIORITY||LS Mean Difference (Final Values)|2.91||||0.8568|TWO_SIDED|95.0|-28.751|34.576|||ANCOVA|Includes treatment as a fixed effect and adjusts for baseline ALSFRS-R total score, duration from sx onset, site of onset, and use of riluzole.||||34.576|-28.751|0.8568
82623791|NCT01281189|164962955|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8375|TWO_SIDED|95.0|0.75|1.427|||Cox Proportional Hazards model|Adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole.|||Hazard Ratio (HR) (Dex/PBO)|1.427|0.750|0.8375
82377707|NCT03355469|164463130|SUPERIORITY||Mean Difference (Final Values)|-0.0056||||0.336|TWO_SIDED|95.0|-0.0174|0.0062||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention GIR.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention GIR, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.0062|-0.0174|0.336
82377708|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|1.51||||0.671|TWO_SIDED|95.0|-5.68|8.69||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.69|-5.68|0.671
82377709|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|-4.82||||0.17|TWO_SIDED|95.0|-11.84|2.19||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||2.19|-11.84|0.170
82439110|NCT03392883|164586230|OTHER|||||||0.827||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the General Leadership Skills subscale results.||||0.827
82562478|NCT02978183|164834558|SUPERIORITY|||||||0.7312||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 25 minutes post-CAC||||0.7312
82562479|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 7: 30 minutes post-CAC||||>0.9999
82562480|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 10 minutes post-CAC||||>0.9999
82562481|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 15 minutes post-CAC||||>0.9999
82562482|NCT02978183|164834558|SUPERIORITY||||||>|0.9999||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 20 minutes post-CAC||||>0.9999
82562483|NCT02978183|164834558|SUPERIORITY|||||||0.4297||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 25 minutes post-CAC||||0.4297
82562484|NCT02978183|164834558|SUPERIORITY|||||||0.4791||||||Adjustments for multiplicity will not be employed|Fisher Exact|||Day 8: 30 minutes post-CAC||||0.4791
82562485|NCT01297595|164834599|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.58|||||TWO_SIDED|90.0|91.08|108.87||||||Natural log transformed AUC (0 - ∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||108.87|91.08|
82623792|NCT01281189|164962956|SUPERIORITY||LS Mean Difference (Net)|0.076||||0.9019|TWO_SIDED|95.0|-1.128|1.28|||mixed-effects repeated-measures model|Mixed-effects repeated-measures model with treatment, visit, treatment-by visit interaction, baseline ALSFRS-R score, baseline-by-visit interaction|The mixed-effects repeated-measures model also adjusted for the following covariates: duration from symptom onset, site of onset, and use of riluzole.|||1.280|-1.128|0.9019
82623793|NCT01281189|164962957|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7715|TWO_SIDED|95.0|0.801|1.348|||Cox Proportional Hazards model|Adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole||||1.348|0.801|0.7715
82623794|NCT01281189|164962958|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9033|TWO_SIDED|95.0|0.745|1.298|||Cox Proportional Hazards model|adjusted for baseline ALSFRS-R total score, duration from symptom onset to the first dose of study treatment, site of onset, and use of riluzole||||1.298|0.745|0.9033
82623795|NCT01281189|164962959|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.772|TWO_SIDED|95.0|0.789|1.192|||Cox Proportional Hazards model||Hazard ratio (Dex/PBO)|||1.192|0.789|0.7720
82623796|NCT05355818|164962960|SUPERIORITY||Diff. in proportion of responders in %|37.9|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian|Historical information from LP0133-1401 (NCT04871711)/LP0133-1402 (NCT04872101) as prior information is used.|There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 13.5% to 58.2%.|Based on the primary estimand 'composite'. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
82623797|NCT05355818|164962961|SUPERIORITY||Diff. in proportion of responders in %|36.4|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 12.3% to 59.9%.|Primary estimand: Composite. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
82623798|NCT05355818|164962962|SUPERIORITY||Diff. in proportion of responders in %|31.7|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 5.6% to 51.1%.|||||
82623799|NCT05355818|164962963|SUPERIORITY||Diff. in proportion of responders in %|31.2|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 8.7% to 49.4%|||||
82562486|NCT01297595|164834601|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.35|||||TWO_SIDED|90.0|90.51|109.07||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||109.07|90.51|
82562487|NCT01297595|164834602|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|96.84|||||TWO_SIDED|90.0|88.22|106.32||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as a fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. This was an estimation study and there was no formal statistical hypothesis.||106.32|88.22|
82562488|NCT01974102|164834621|SUPERIORITY||||||<|0.015|||||||t-test, 2 sided|||||||<0.015
82562489|NCT01974102|164834622|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
82562490|NCT03659136|164834628|OTHER||Hazard Ratio (HR)|1.19||||0.6534|TWO_SIDED|95.0|0.55|2.59|||Log-rank test|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior (CDK) 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+Everolimus+Exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||2.59|0.55|0.6534
82623800|NCT05355818|164962964|SUPERIORITY||Diff. in proportion of responders in %|25.1|||||TWO_SIDED|||||There are no p-values when performing a Bayesian analysis. Instead, the probability that the difference in the posterior distributions is \> 0 is used.|Bayesian||There is no confidence interval when performing Bayesian analyses - instead a 95% credibility interval is used: 3.9% to 42.3%.|Primary estimand: Composite. Data considered non-response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed as non-response.||||
82562491|NCT03659136|164834629|OTHER||Hazard Ratio (HR)|0.5||||0.1797|TWO_SIDED|95.0|0.18|1.4|||Log rank test|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+Everolimus+Exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||1.40|0.18|0.1797
82562492|NCT03659136|164834630|OTHER||Odds Ratio (OR)|1.31||||0.4932|TWO_SIDED|95.0|0.6|2.86|||Regression, Logistic|Logistic regression model adjusted for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+everolimus+exemestane. An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||2.86|0.60|0.4932
82439111|NCT03392883|164586231|OTHER|||||||0.118||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.118
82386646|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-11.8||||0.7002|TWO_SIDED|90.0|-33.1|11.7|||Chan and Zhang method|||Week 10||11.7|-33.1|0.7002
82386647|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|27.6||||0.0169|TWO_SIDED|90.0|5.2|47.9|||Chan and Zhang method|||Week 12||47.9|5.2|0.0169
82386648|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|25.9||||0.0283|TWO_SIDED|90.0|3.2|46.2|||Chan and Zhang method|||Week 12||46.2|3.2|0.0283
82439112|NCT03392883|164586231|OTHER|||||||0.896||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Accessibility subscale results.||||0.896
82562493|NCT03659136|164834632|OTHER||Odds Ratio (OR)|1.2||||0.7759|TWO_SIDED|95.0|0.34|4.43|||Regression, Logistic|Logistic regression model adjusted for presence of baseline bone-only metastases, prior CDK 4/6 inhibitor treatment and menopause status.|Comparison vs. Placebo+everolimus+exemestane. An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||4.43|0.34|0.7759
82562494|NCT03659136|164834633|OTHER||Cox Proportional Hazard|0.97||||0.9279|TWO_SIDED|95.0|0.54|1.76|||Log Rank|Two-sided log-rank test stratified for presence of baseline bone-only metastases, prior CDK4/6 inhibitor treatment and menopause status.|Comparison versus Placebo+everolimus+exemestane.|Cox proportional hazards model stratified for presence of baseline bone-only metastases, prior cyclin-dependent kinase (CDK) 4/6 inhibitor treatment and menopause status.||1.76|0.54|0.9279
82562495|NCT01215253|164834640|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.117|TWO_SIDED|95.0|0.67|1.05|||Regression, Cox|||||1.05|0.67|0.117
82562496|NCT01215253|164834641|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.891|TWO_SIDED|95.0|0.76|1.26|||Regression, Cox|||||1.26|0.76|0.891
82562497|NCT01215253|164834642|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.028|TWO_SIDED|95.0|0.51|0.96|||Anderson-Gill analysis|||||0.96|0.51|0.028
82562498|NCT01215253|164834643|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.398|TWO_SIDED|95.0|0.38|1.47|||Regression, Cox|||||1.47|0.38|0.398
82562499|NCT01215253|164834644|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.316|TWO_SIDED|95.0|0.91|1.34|||Regression, Cox|||||1.34|0.91|0.316
82623801|NCT05355818|164962965|SUPERIORITY||Risk Difference (RD)|17.47||||0.0054|TWO_SIDED|95.0|5.16|29.78|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||29.78|5.16|0.0054
82623802|NCT05355818|164962966|SUPERIORITY||Risk Difference (RD)|21.21||||0.0248|TWO_SIDED|95.0|2.69|39.72|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||39.72|2.69|0.0248
82562500|NCT01215253|164834645|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.577|TWO_SIDED|95.0|0.84|1.37|||Regression, Cox|||||1.37|0.84|0.577
82562501|NCT01215253|164834646|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.871|TWO_SIDED|95.0|0.69|1.37|||Regression, Cox|||||1.37|0.69|0.871
82562502|NCT01215253|164834647|SUPERIORITY|||||||0.508|||||||nonparametric Wilcoxon rank-sum test|||||||0.508
82562503|NCT01215253|164834648|SUPERIORITY|||||||0.948|||||||nonparametric Wilcoxon rank-sum test|||||||0.948
82562504|NCT01215253|164834649|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.038|TWO_SIDED|95.0|0.55|0.98|||Regression, Cox|||||0.98|0.55|0.038
82562505|NCT01215253|164834650|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.947|TWO_SIDED|95.0|0.73|1.41|||Regression, Cox|||||1.41|0.73|0.947
82562506|NCT01215253|164834651|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.414|TWO_SIDED|95.0|0.36|1.52|||Anderdon-Gill analysis|||||1.52|0.36|0.414
82623803|NCT05355818|164962967|SUPERIORITY||Risk Difference (RD)|11.08||||0.332|TWO_SIDED|95.0|-11.3|33.46|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||33.46|-11.30|0.3320
82562507|NCT00267956|164834740|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The study is designed to maintain a Type I error of 0.05 or less for the primary analysis|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by subject's prior anti-Tumor Necrosis Factor (TNF) exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05. Sample Size and power: With 70 partcipants in each treatment group, 5000 repetitions. Assuming a 20% ACR20 response in placebo participants regardless of prior anti-TNF exposure and a 35% ACR 20 and 45% ACR20 response in ustekinumab group for participants who had prior anti-TNF exposure, and who had no prior anti-TNF exposures, the power to detect the treatment difference is 0.85.||||<0.001
82562508|NCT00267956|164834741|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between Group II and Group I at a significant level of 0.05.||||0.004
82439113|NCT03392883|164586231|OTHER|||||||0.739||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Appropriateness subscale results.||||0.739
82562509|NCT00267956|164834742|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||0.005
82562510|NCT00267956|164834743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA on van der Waerden normal scores|Treatment and prior anti-TNF exposure (Yes/No) as factors in the model.||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||<0.001
82439114|NCT03392883|164586231|OTHER|||||||0.724||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Feasibility subscale results.||||0.724
82562511|NCT00267956|164834744|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel (CMH) chi-square|Stratified by participant's prior anti-TNF exposure status (Yes/No).||Hypothesis: No difference between ustekinumab x 4 and placebo at a significant level of 0.05.||||<0.001
82562512|NCT00267956|164834745|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA on van der Waerden normal scores|Treatment and prior anti-TNF exposure (Yes/No) as factors in the model.||Hypothesis: No difference between ustekinumab x 4 and placebo at asignificant level of 0.05.||||<0.001
82562513|NCT01263223|164834746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|||<|0.0001|TWO_SIDED|95.0|7.4|12.0||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||12.0|7.4|<0.0001
82572729|NCT02783573|164855378|SUPERIORITY||LS Mean Difference (Final Values)|-3.08|STANDARD_ERROR_OF_MEAN|1.06||0.004|TWO_SIDED|95.0|-5.172|-0.991|||ANCOVA|||||-0.991|-5.172|0.004
82623804|NCT05355818|164962968|SUPERIORITY||Risk Difference (RD)|33.02||||0.0016|TWO_SIDED|95.0|12.51|53.52|||Regression, Logistic||Risk difference estimated using logistic regression stratified by baseline IGA-CHE score.|The primary estimand using the composite strategy is used for the analysis. Data is considered non response after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data is imputed as non-response.||53.52|12.51|0.0016
82623805|NCT05355818|164962969|SUPERIORITY||Mean Difference (Net)|-2.65||||0.0038|TWO_SIDED|95.0|-4.42|-0.88|||ANCOVA|||Primary estimand: Composite. Data considered non-response by using WOCF (including the baseline value) after initiation of rescue treatment or after permanent discontinuation of IMP. Missing data imputed using WOCF (including the baseline value).||-0.88|-4.42|0.0038
82623806|NCT00092677|164963019|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.591||95.0|0.826|1.115|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.115|0.826|0.591
82623807|NCT00092677|164963020|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.973||||0.732||95.0|0.833|1.137|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.137|0.833|0.732
82623808|NCT00092677|164963021|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.024||95.0|0.628|0.967|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||0.967|0.628|0.024
82623809|NCT00092677|164963022|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.829||||0.344||95.0|0.563|1.222|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.222|0.563|0.344
82623810|NCT00092677|164963023|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.997||||0.968||95.0|0.842|1.179|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.179|0.842|0.968
82623811|NCT00092677|164963024|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.088||||0.771||95.0|0.617|1.917|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.917|0.617|0.771
82623812|NCT00092677|164963025|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.636||||0.147||95.0|0.345|1.173|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.173|0.345|0.147
82623813|NCT00092677|164963026|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.683||||0.015||95.0|0.503|0.929|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||0.929|0.503|0.015
82623814|NCT00092677|164963027|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.456||||||95.0|0.197|1.057||The p-value was not provided as there were less than 40 patients who reported the specific endpoint.|Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.057|0.197|
82623815|NCT00092677|164963028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.608||||||95.0|0.199|1.86||The p-value was not provided as there were less than 40 patients who reported the specific endpoint.|Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.860|0.199|
82562514|NCT01263223|164834746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4|||<|0.0001|TWO_SIDED|95.0|17.9|30.9||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||30.9|17.9|<0.0001
82562515|NCT01263223|164834747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|||<|0.0001|TWO_SIDED|95.0|3.9|8.8||P-value is for the Mean Change in ABPM systolic BP.|Mixed Models Analysis|||||8.8|3.9|<0.0001
82623816|NCT00092677|164963029|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.124||||0.647||95.0|0.682|1.85|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.850|0.682|0.647
82623817|NCT00092677|164963030|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.036||||0.799||95.0|0.788|1.363|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||1.363|0.788|0.799
82623818|NCT00092677|164963031|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.667||||0.052||95.0|0.996|2.791|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||2.791|0.996|0.052
82439115|NCT03392883|164586231|OTHER|||||||0.301||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Adoption subscale results.||||0.301
82562516|NCT01263223|164834747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.0025|TWO_SIDED|95.0|2.6|11.6||P-value is for the Maximum Change in ABPM systolic BP.|Mixed Models Analysis|||||11.6|2.6|0.0025
82562517|NCT01263223|164834747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.51|||<|0.0001|TWO_SIDED|95.0|3.81|7.21||P-value is for the Mean Change in ABPM diastolic BP.|Mixed Models Analysis|||||7.21|3.81|<0.0001
82623819|NCT00092677|164963032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.504||||0.008||95.0|1.111|2.035|||Regression, Cox|Model terms: treatment and baseline peak transaortic jet velocity (as continuous covariate)|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on EZ/Simva 10/40 mg compared to Placebo|||2.035|1.111|0.008
82439116|NCT03392883|164586231|OTHER|||||||0.034||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Organizational Climate subscale results.||||0.034
82623820|NCT00092677|164963033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.029||0.829||95.0|-0.063|0.051|||ANCOVA|Model terms: treatment and baseline peak transaortic jet velocity|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||0.051|-0.063|0.829
82562518|NCT01263223|164834747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66||||0.002|TWO_SIDED|95.0|2.13|9.2||P-value is for the Maximum Change in ABPM diastolic BP.|Mixed Models Analysis|||||9.20|2.13|0.0020
82439117|NCT03392883|164586231|OTHER|||||||0.015||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Leadership in Implementing subscale results.||||0.015
82439118|NCT03392883|164586231|OTHER|||||||0.081||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the General Leadership Skills subscale results.||||0.081
82562519|NCT01263223|164834748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.0224|TWO_SIDED|95.0|0.418|5.38||P-value is for the Mean Change in ABPM systolic BP.|Mixed Models Analysis|||||5.38|0.418|0.0224
82623821|NCT00092677|164963034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.1|STANDARD_ERROR_OF_MEAN|0.6|<=|0.001||95.0|-33.3|-31.0|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-31.0|-33.3|<=0.001
82623822|NCT00092677|164963035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|0.9|<=|0.001||95.0|-51.8|-48.2|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-48.2|-51.8|<=0.001
82623823|NCT00092677|164963036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|0.8|<=|0.001||95.0|2.4|5.5|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||5.5|2.4|<=0.001
82439119|NCT03392883|164586231|OTHER|||||||0.79||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes over time in this data for every sub-scale. This Statistical Analysis describes the Knowledge subscale results.||||0.790
82562520|NCT01263223|164834748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7||||0.2453|TWO_SIDED|95.0|-1.88|7.29||P-value is for the Maximum Change in ABPM systolic BP.|Mixed Models Analysis|||||7.29|-1.88|0.2453
82562521|NCT01263223|164834748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||<|0.0001|TWO_SIDED|95.0|3.37|6.82||P-value if for the Mean Change in ABPM diastolic BP.|Mixed Models Analysis|||||6.82|3.37|<0.0001
82562522|NCT01263223|164834748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.53||||0.0005|TWO_SIDED|95.0|2.95|10.1||P-value is for the Maximum Change in ABPM diastolic BP.|Mixed Models Analysis|||||10.1|2.95|0.0005
82562523|NCT01263223|164834749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|||<|0.0001|TWO_SIDED|95.0|8.7|16.9||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||16.9|8.7|<0.0001
82377710|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|-0.66||||0.839|TWO_SIDED|95.0|-7.29|5.97||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||5.97|-7.29|0.839
82439120|NCT03392883|164586232|OTHER|||||||0.023||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes in the overall scores over time.||||0.023
82439121|NCT03392883|164586233|OTHER|||||||0.589||||||p\<0.05 is the threshold for statistical significance.|Regression, Linear|||We analyzed changes in the overall scores over time in this data.||||0.589
82439122|NCT03392883|164586234|OTHER||Mean Difference (Net)|-6.65|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the scores at baseline assessment and at 12-month follow-up assessment.||||
82562524|NCT01263223|164834749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0||||0.0001|TWO_SIDED|95.0|11.4|34.5||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||34.5|11.4|0.0001
82562525|NCT01263223|164834750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.212|TWO_SIDED|95.0|-1.6|7.2||P-value is for the Mean Change in ABPM Systolic BP.|Mixed Models Analysis|||||7.2|-1.6|0.2120
82562526|NCT01263223|164834750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6||||0.064|TWO_SIDED|95.0|-0.4|15.5||P-value is for the Maximum Change in ABPM Systolic BP.|Mixed Models Analysis|||||15.5|-0.4|0.0640
82562527|NCT01263223|164834750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.0211|TWO_SIDED|95.0|0.5|6.7||P-value is for the Mean Change in ABPM Diastolic BP.|Mixed Models Analysis|||||6.7|0.5|0.0211
82562528|NCT01263223|164834750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.8719|TWO_SIDED|95.0|-5.7|6.8||P-value is for the Maximum Change in ABPM Diastolic BP.|Mixed Models Analysis|||||6.8|-5.7|0.8719
82562529|NCT01263223|164834751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.7133|TWO_SIDED|95.0|-5.3|3.7||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||3.7|-5.3|0.7133
82623824|NCT00092677|164963037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|STANDARD_ERROR_OF_MEAN|1.3|<=|0.001||95.0|-22.6|-17.3|||ANOVA|Model terms: treatment|Direction of the Comparison: EZ/Simva 10/40 mg minus Placebo|||-17.3|-22.6|<=0.001
82386649|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|37.9||||0.002|TWO_SIDED|90.0|14.3|57.1|||Chan and Zhang method|||Week 12||57.1|14.3|0.0020
82386650|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|31.4||||0.0095|TWO_SIDED|90.0|8.4|51.5|||Chan and Zhang method|||Week 12||51.5|8.4|0.0095
82439123|NCT03392883|164586235|OTHER||Mean Difference (Net)|-4.48|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the total scores (sum of 12 items) at baseline assessment and at 12-month follow-up assessment.||||
82439124|NCT03392883|164586236|OTHER||Mean Difference (Net)|-5.77|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the scores at baseline assessment and at 12-month follow-up assessment.||||
82439125|NCT03392883|164586237|OTHER||Mean Difference (Net)|-2.59|||||TWO_SIDED|||||||||We analyzed changes over time by calculating the mean difference of the number of standard drinks per week at baseline assessment and at 12-month follow-up assessment.||||
82439126|NCT01545232|164586300|SUPERIORITY_OR_OTHER||Adjusted Relative Risk|0.75||||0.12|TWO_SIDED|95.0|0.52|1.08|||Mantel Haenszel|The critical level for significance (p\<0.044) was adjusted for two interim analyses, and all tests were conducted using two-sided tests.||Initial sample size (580) planned to detect a clinically meaningful 10% difference in 24-hour mortality (11% vs. 21%) supported by prior data. Data Safety Monitoring Board (DSMB) increased sample size to 680 according to trial's adaptive design. With 680 pts. \& given the final observed mortality proportions in 1:1:1 group, PROPPR had 95% power to detect the pre-specified 10% difference at 24 hours if such differences existed.||1.08|0.52|0.12
82562530|NCT01263223|164834751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.4638|TWO_SIDED|95.0|-17.2|7.9||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||7.9|-17.2|0.4638
82562531|NCT01263223|164834752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||<|0.0001|TWO_SIDED|95.0|11.3|15.9||P-value is for the Mean Change in ABPM heart rate.|Mixed Models Analysis|||||15.9|11.3|<0.0001
82562532|NCT01263223|164834752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.6|||<|0.0001|TWO_SIDED|95.0|21.1|34.2||P-value is for the Maximum Change in ABPM heart rate.|Mixed Models Analysis|||||34.2|21.1|<0.0001
82562533|NCT01263223|164834753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9609|TWO_SIDED|95.0|-4.9|4.7||P-value is for the Mean Change in ABPM Systolic BP.|Mixed Models Analysis|||||4.7|-4.9|0.9609
82623825|NCT00010803|164963044|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.12||||0.21|TWO_SIDED|95.0|0.94|1.33|||Log Rank|Time to dementia in Ginkgo vs placebo groups. The Cox proportional hazards model was used to compute hazard ratios and log-rank tests.||The null hypothesis is that the instantaneous hazard rate for Ginkgo biloba and placebo are the same. Assumptions were based on 4%/yr dementia and 6%/yr mortality and dropout combined. A sample size of 3000 with an average follow up of 5 years resulted in 96% power to detecting a 30% reduction in the rate of dementia at a 2-sided significance level of 0.5.||1.33|0.94|0.21
82623826|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.04||||0.7|TWO_SIDED|95.0|0.85|1.27|||Log Rank|||Total Mortality||1.27|0.85|0.70
82623827|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.06||||0.78|TWO_SIDED|95.0|0.7|1.62|||Log Rank|||Atherosclerotic CHD mortality||1.62|0.70|0.78
82623828|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.12||||0.54|TWO_SIDED|95.0|0.79|1.58|||Log Rank|||Incident Myocardial Infarction||1.58|0.79|0.54
82623829|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously Provided|Hazard Ratio (HR)|0.84||||0.32|TWO_SIDED|95.0|0.61|1.18|||Log Rank|||Incident Angina||1.18|0.61|0.32
82500661|NCT02927080|164692218|SUPERIORITY|Percent Change in Total Muscle Volume (TMV) of the TA muscle in patients with FSHD administered ACE-083 when compared to placebo During Part 2 (randomized, controlled portion)|Mean Difference (Net)|9.54|STANDARD_ERROR_OF_MEAN|3.876||0.0138|TWO_SIDED|90.0|3.17|15.92|||ANCOVA|||D190 Percent change from baseline in TMV||15.92|3.17|0.0138
82386651|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|21.0||||0.0798|TWO_SIDED|90.0|-2.7|42.6|||Chan and Zhang method|||Week 12||42.6|-2.7|0.0798
82562534|NCT01263223|164834753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.2731|TWO_SIDED|95.0|-3.9|13.6||P-value is for the Maximum Change in ABPM Systolic BP.|Mixed Models Analysis|||||13.6|-3.9|0.2731
82562535|NCT01263223|164834753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.3779|TWO_SIDED|95.0|-4.8|1.8||P-value is for the Mean Change in ABPM Diastolic BP.|Mixed Models Analysis|||||1.8|-4.8|0.3779
82562536|NCT01263223|164834753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.0828|TWO_SIDED|95.0|-12.8|0.8||P-value is for the Maximum Change in ABPM Diastolic BP.|Mixed Models Analysis|||||0.8|-12.8|0.0828
82562537|NCT02246647|164834754|OTHER||Mean Difference (Final Values)|0.01||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.87
82562538|NCT01580306|164834814|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|113.57|STANDARD_DEVIATION|93.2|||TWO_SIDED|90.0|41.58|310.17|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison mild : normal||310.17|41.58|
82623830|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.94||||0.66|TWO_SIDED|95.0|0.72|1.23|||Log Rank|||Incident CHD||1.23|0.72|0.66
82623831|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously Provided|Hazard Ratio (HR)|0.91||||0.48|TWO_SIDED|95.0|0.71|1.18|||Log Rank|||Incident CHF||1.18|0.71|0.48
82562539|NCT01580306|164834814|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|178.31|STANDARD_DEVIATION|78.9|||TWO_SIDED|90.0|85.23|373.03|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison moderate : normal||373.03|85.23|
82623832|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.87||||0.25|TWO_SIDED|95.0|0.52|1.45|||Log Rank|||Incident Stroke||1.45|0.52|0.25
82623833|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|0.87||||0.59|TWO_SIDED|95.0|0.52|1.45|||Log Rank|||Incident TIA||1.45|0.52|0.59
82623834|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Cox Proportional Hazard|1.12||||0.42|TWO_SIDED|95.0|0.84|1.5|||Log Rank|||Incident CVD||1.50|0.84|0.42
82623835|NCT00010803|164963045|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.8|1.25|||Log Rank|||Total CHD and CVD combined||1.25|0.80|0.98
82623836|NCT00010803|164963046|SUPERIORITY_OR_OTHER||Treatment X Time interaction|-0.002||||0.65|TWO_SIDED|95.0|-0.009|0.005|||Mixed Models Analysis|||Linear mixed models comparing rates of change in global cognition scores (z-scores) by treatment group||0.005|-0.009|.65
82639409|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|23.8|||<|0.0001|TWO_SIDED|95.0|10.7|53.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.3|10.7|<.0001
82386652|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|10.9||||0.2848|TWO_SIDED|90.0|-11.3|31.8|||Chan and Zhang method|||Week 12||31.8|-11.3|0.2848
82386653|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|0.5||||0.5062|TWO_SIDED|90.0|-21.1|23.1|||Chan and Zhang method|||Week 12||23.1|-21.1|0.5062
82562540|NCT01580306|164834814|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|169.21|STANDARD_DEVIATION|97.7|||TWO_SIDED|90.0|73.19|391.17|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison severe : normal||391.17|73.19|
82562541|NCT01580306|164834815|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|107.22|STANDARD_DEVIATION|107.7|||TWO_SIDED|90.0|35.16|327.01|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison mild : normal||327.01|35.16|
82562542|NCT01580306|164834815|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|175.52|STANDARD_DEVIATION|70.4|||TWO_SIDED|90.0|89.55|344.06|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison moderate : normal||344.06|89.55|
82562543|NCT01580306|164834815|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|120.98|STANDARD_DEVIATION|115.0|||TWO_SIDED|90.0|47.257|309.736|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison severe : normal||309.736|47.257|
82562544|NCT01494467|164834818|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82562545|NCT01494467|164834819|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.22|||<|0.001|TWO_SIDED|95.0|-10.18|-6.25|||ANCOVA|||||-6.25|-10.18|<0.001
82562546|NCT01494467|164834820|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82562547|NCT03386344|164834830|SUPERIORITY||Difference in Least Squares (LS) Means|-0.45|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.649|-0.25|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline HbA1c as a covariate.||-0.250|-0.649|<0.0001
82562548|NCT03386344|164834830|SUPERIORITY||Difference in LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.634|-0.235|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline HbA1c as a covariate.||-0.235|-0.634|<0.0001
82377711|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|6.33||||0.024|TWO_SIDED|95.0|0.86|11.8||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||11.80|0.86|0.024
82562549|NCT03386344|164834831|SUPERIORITY||Difference in LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.423||0.5707|TWO_SIDED|95.0|-1.07|0.59|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||0.590|-1.070|0.5707
82562550|NCT03386344|164834831|SUPERIORITY||Difference in LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.419||0.7247|TWO_SIDED|95.0|-0.969|0.674|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||0.674|-0.969|0.7247
82562551|NCT03386344|164834832|SUPERIORITY||Difference in LS Means|0.14|STANDARD_ERROR_OF_MEAN|0.308||0.6454|TWO_SIDED|95.0|-0.462|0.745|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline lumbar spine as a covariate.||0.745|-0.462|0.6454
82562552|NCT03386344|164834832|SUPERIORITY||Difference in LS Means|0.19|STANDARD_ERROR_OF_MEAN|0.308||0.5289|TWO_SIDED|95.0|-0.41|0.798|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline lumbar spine as a covariate.||0.798|-0.410|0.5289
82386654|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|36.9||||0.0012|TWO_SIDED|90.0|16.7|55.3|||Chan and Zhang method|||Week 14||55.3|16.7|0.0012
82562553|NCT03386344|164834833|SUPERIORITY||Difference in LS Means|0.75|STANDARD_ERROR_OF_MEAN|0.462||0.105|TWO_SIDED|95.0|-0.157|1.654|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||1.654|-0.157|0.1050
82562554|NCT03386344|164834833|SUPERIORITY||Difference in LS Means|0.32|STANDARD_ERROR_OF_MEAN|0.46||0.4804|TWO_SIDED|95.0|-0.577|1.226|||ANCOVA|||Percent change from baseline to Week 26 was analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline BMD as a covariate.||1.226|-0.577|0.4804
82562555|NCT03386344|164834834|SUPERIORITY||Difference in LS Means|-1.91|STANDARD_ERROR_OF_MEAN|0.336|<|0.0001|TWO_SIDED|95.0|-2.568|-1.252|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline body weight as a covariate.||-1.252|-2.568|<0.0001
82562556|NCT03386344|164834834|SUPERIORITY||Difference in LS Means|-1.7|STANDARD_ERROR_OF_MEAN|0.335|<|0.0001|TWO_SIDED|95.0|-2.36|-1.046|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline body weight as a covariate.||-1.046|-2.360|<0.0001
82386655|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|38.7||||0.0007|TWO_SIDED|90.0|17.3|57.4|||Chan and Zhang method|||Week 14||57.4|17.3|0.0007
82386656|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|47.0||||0.0001|TWO_SIDED|90.0|24.6|65.1|||Chan and Zhang method|||Week 14||65.1|24.6|0.0001
82562557|NCT03386344|164834835|SUPERIORITY||Difference in LS Means|-18.891|STANDARD_ERROR_OF_MEAN|4.5766|<|0.0001|TWO_SIDED|95.0|-27.8605|-9.9205|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, baseline fasting plasma glucose as a covariate.||-9.9205|-27.8605|<0.0001
82562558|NCT03386344|164834835|SUPERIORITY||Difference in LS Means|-21.333|STANDARD_ERROR_OF_MEAN|4.5902|<|0.0001|TWO_SIDED|95.0|-30.3294|-12.336|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, baseline fasting plasma glucose as a covariate.||-12.3360|-30.3294|<0.0001
82562559|NCT03386344|164834836|SUPERIORITY||Difference in LS Means|-0.8|STANDARD_ERROR_OF_MEAN|1.48||0.5864|TWO_SIDED|95.0|-3.705|2.095|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline SBP as a covariate.||2.095|-3.705|0.5864
82562560|NCT03386344|164834836|SUPERIORITY||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|1.478||0.4315|TWO_SIDED|95.0|-4.058|1.734|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of sex (male, female), and country as fixed effects, and baseline SBP as a covariate.||1.734|-4.058|0.4315
82562561|NCT03386344|164834837|SUPERIORITY||Percentage Difference|10.5||||0.0172|TWO_SIDED|95.0|1.78|19.23|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from randomization strata of HbA1c (≤8.5, \>8.5%) at screening and randomization strata of sex (male, female) using Cochran-Mantel-Haenszel weights.||19.23|1.78|0.0172
82562562|NCT03386344|164834837|SUPERIORITY||Percentage Difference|12.0||||0.0076|TWO_SIDED|95.0|3.23|20.86|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from randomization strata of HbA1c (≤8.5, \>8.5%) at screening and randomization strata of sex (male, female) using Cochran-Mantel-Haenszel weights.||20.86|3.23|0.0076
82562563|NCT01180400|164834858|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.91||0.944|TWO_SIDED|95.0|-1.86|1.73||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.73|-1.86|0.944
82562564|NCT01180400|164834859|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.26||0.974|TWO_SIDED|95.0|0.61|1.66|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.66|0.61|0.974
82562565|NCT01180400|164834860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45|STANDARD_ERROR_OF_MEAN|0.41||0.184|TWO_SIDED|95.0|0.84|2.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.53|0.84|0.184
82562566|NCT01180400|164834861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.71||0.461|TWO_SIDED|95.0|0.55|3.78|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||3.78|0.55|0.461
82562567|NCT01180400|164834862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87|STANDARD_ERROR_OF_MEAN|0.31||0.689|TWO_SIDED|95.0|0.43|1.75|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.75|0.43|0.689
82562568|NCT01180400|164834863|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.44||0.831|TWO_SIDED|95.0|0.35|2.32|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.32|0.35|0.831
82562569|NCT01180400|164834864|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.72||0.525|TWO_SIDED|95.0|-0.96|1.89|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.89|-0.96|0.525
82562570|NCT01180400|164834865|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.964||95.0|-0.28|0.26|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.26|-0.28|0.964
82572730|NCT00013611|164855419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.47|TWO_SIDED|95.0|0.7|1.18|||Regression, Cox|Stratification by CD4+ count stratum (50-199 or 200-299) and country of randomization.||Null hypothesis was that event rates in two groups are equal. Study was designed with 80%, two-sided alpha=.05, assuming a 28% reduction in the hazard of opportunistic disease or death.||1.18|0.70|0.47
82377712|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.385|TWO_SIDED|95.0|-7.16|2.83||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||2.83|-7.16|0.385
82386657|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|29.9||||0.0039|TWO_SIDED|90.0|9.5|48.7|||Chan and Zhang method|||Week 14||48.7|9.5|0.0039
82386658|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|4.5||||0.3895|TWO_SIDED|90.0|-17.5|26.5|||Chan and Zhang method|||Week 14||26.5|-17.5|0.3895
82386659|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|10.1||||0.2793|TWO_SIDED|90.0|-11.8|31.8|||Chan and Zhang method|||Week 14||31.8|-11.8|0.2793
82562571|NCT01180400|164834866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.25||0.783|TWO_SIDED|95.0|0.54|1.58|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.58|0.54|0.783
82562572|NCT01180400|164834867|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.832|TWO_SIDED|95.0|-0.89|1.11||Analysis for change in MADRS total score from randomization to Week 9.|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-0.89|0.832
82562573|NCT01180400|164834868|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.67||0.468|TWO_SIDED|95.0|-0.84|1.82|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.82|-0.84|0.468
82562574|NCT01180400|164834869|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.77||0.187|TWO_SIDED|95.0|-0.49|2.52|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.52|-0.49|0.187
82562575|NCT01180400|164834870|SUPERIORITY_OR_OTHER||LS mean|1.3|STANDARD_ERROR_OF_MEAN|0.86||0.145|TWO_SIDED|95.0|-0.44|2.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||2.95|-0.44|0.145
82562576|NCT01180400|164834871|SUPERIORITY_OR_OTHER||LS mean|-0.04|STANDARD_ERROR_OF_MEAN|0.766||0.956|TWO_SIDED|95.0|-1.549|1.466||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.466|-1.549|0.956
82562577|NCT01180400|164834872|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.201|TWO_SIDED|95.0|-0.98|0.21||Analysis for change in SDS work/school domain score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.21|-0.98|0.201
82562578|NCT01180400|164834873|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.756|TWO_SIDED|95.0|-0.62|0.45|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.45|-0.62|0.756
82562579|NCT01180400|164834874|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.62|TWO_SIDED|95.0|-0.4|0.68|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.68|-0.40|0.620
82562580|NCT01180400|164834875|SUPERIORITY_OR_OTHER||LS mean|0.15|STANDARD_ERROR_OF_MEAN|1.592||0.924|TWO_SIDED|95.0|-2.981|3.286|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||3.286|-2.981|0.924
82562581|NCT01180400|164834876|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.345|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.10|-0.30|0.345
82562582|NCT01180400|164834877|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.942|TWO_SIDED|95.0|-0.2|0.19|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.19|-0.20|0.942
82562583|NCT01180400|164834878|SUPERIORITY_OR_OTHER||LS mean|-0.011|STANDARD_ERROR_OF_MEAN|0.0198||0.576|TWO_SIDED|95.0|-0.05|0.0279||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0279|-0.0500|0.576
82562584|NCT01180400|164834878|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|2.11||0.842|TWO_SIDED|95.0|-4.58|3.73||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||3.73|-4.58|0.842
82562585|NCT00700999|164834897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|STANDARD_DEVIATION|0.9||0.001|TWO_SIDED|95.0|-1.38|-0.45|||t-test, 2 sided|||||-0.45|-1.38|.001
82562586|NCT00700999|164834897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|1.78||0.869|TWO_SIDED|95.0|-0.84|0.99|||t-test, 2 sided|||||.99|-.84|.869
82562587|NCT02379078|164834898|SUPERIORITY|||||||0.0246|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.0246
82562588|NCT02379078|164834899|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82562589|NCT02379078|164834900|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
82386660|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-8.5||||0.7027|TWO_SIDED|90.0|-28.4|12.2|||Chan and Zhang method|||Week 14||12.2|-28.4|0.7027
82386661|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|37.0||||0.0009|TWO_SIDED|90.0|15.4|55.2|||Chan and Zhang method|||Week 16||55.2|15.4|0.0009
82562590|NCT02379078|164834901|SUPERIORITY|||||||0.468|||||||Mixed Models Analysis|||||||0.468
82562591|NCT02379078|164834902|SUPERIORITY|||||||0.6|||||||ANOVA|||||||0.60
82562592|NCT01133678|164834912|OTHER|||||||0.19||||||A recommendation to stop the trial early was stipulated if the conditional power at the interim analysis (after 50 patients) was \<10% using a stochastic curtailment approach.. This would occur if the interim test statistic is t \< -0.287.|t-test, 2 sided|t-statistic = -1.330, exceeding threshold (\<-0.287, conditional power\<10%) for early termination.||||||0.190
82562593|NCT03122860|164834940|SUPERIORITY||Median Difference (Final Values)|-0.46||||0.179|TWO_SIDED|95.0|-1.13|0.21|||ANCOVA|||||0.21|-1.13|0.179
82562594|NCT03122860|164834940|SUPERIORITY||Median Difference (Final Values)|-0.7||||0.031|TWO_SIDED|95.0|-1.34|-0.06|||ANCOVA|||||-0.06|-1.34|0.031
82562595|NCT03122860|164834940|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.675|TWO_SIDED|95.0|-0.81|0.52|||ANCOVA|||||0.52|-0.81|0.675
82562596|NCT03122860|164834940|SUPERIORITY||Mean Difference (Final Values)|-0.82||||0.022|TWO_SIDED|95.0|-1.51|-0.12|||ANCOVA|||||-0.12|-1.51|0.022
82562597|NCT03122860|164834940|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.78|TWO_SIDED|95.0|-0.79|0.59|||ANCOVA|||||0.59|-0.79|0.780
82562598|NCT03122860|164834941|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.612|TWO_SIDED|95.0|-8.32|4.91|||ANCOVA|||||4.91|-8.32|0.612
82562599|NCT03122860|164834941|SUPERIORITY||Mean Difference (Final Values)|-4.01||||0.223|TWO_SIDED|95.0|-10.47|2.46|||ANCOVA|||||2.46|-10.47|0.223
82562600|NCT03122860|164834941|SUPERIORITY||Mean Difference (Final Values)|1.84||||0.59|TWO_SIDED|95.0|-4.89|8.57|||ANCOVA|||||8.57|-4.89|0.590
82562601|NCT03122860|164834941|SUPERIORITY||Mean Difference (Final Values)|-7.36||||0.031|TWO_SIDED|95.0|-14.03|-0.69|||ANCOVA|||||-0.69|-14.03|0.031
82562602|NCT03122860|164834941|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.403|TWO_SIDED|95.0|-9.7|3.92|||ANCOVA|||||3.92|-9.70|0.403
82562603|NCT03122860|164834942|SUPERIORITY||Mean Difference (Final Values)|-2.58||||0.432|TWO_SIDED|95.0|-9.04|3.88|||ANCOVA|||||3.88|-9.04|0.432
82562604|NCT03122860|164834942|SUPERIORITY||Mean Difference (Final Values)|-4.34||||0.18|TWO_SIDED|95.0|-10.69|2.02|||ANCOVA|||||2.02|-10.69|0.180
82562605|NCT03122860|164834942|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.718|TWO_SIDED|95.0|-5.33|7.72|||ANCOVA|||||7.72|-5.33|0.718
82562606|NCT03122860|164834942|SUPERIORITY||Mean Difference (Final Values)|-7.99||||0.017|TWO_SIDED|95.0|-14.54|-1.45|||ANCOVA|||||-1.45|-14.54|0.017
82562607|NCT03122860|164834942|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.682|TWO_SIDED|95.0|-8.06|5.29|||ANCOVA|||||5.29|-8.06|0.682
82562608|NCT03122860|164834943|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.822|TWO_SIDED|95.0|-0.16|0.21|||ANCOVA|||||0.21|-0.16|0.822
82562609|NCT03122860|164834943|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.162|TWO_SIDED|95.0|-0.27|0.04|||ANCOVA|||||0.04|-0.27|0.162
82562610|NCT03122860|164834943|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.267|TWO_SIDED|95.0|-0.34|0.09|||ANCOVA|||||0.09|-0.34|0.267
82562611|NCT03122860|164834943|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.685|TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|0.685
82562612|NCT03122860|164834943|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.342|TWO_SIDED|95.0|-0.09|0.24|||ANCOVA|||||0.24|-0.09|0.342
82562613|NCT03122860|164834944|SUPERIORITY||Mean Difference (Final Values)|-2.13||||0.5|TWO_SIDED|95.0|-8.36|4.1|||ANCOVA|||||4.10|-8.36|0.500
82562614|NCT03122860|164834944|SUPERIORITY||Mean Difference (Final Values)|-5.54||||0.082|TWO_SIDED|95.0|-11.8|0.72|||ANCOVA|||||0.72|-11.80|0.082
82562615|NCT03122860|164834944|SUPERIORITY||Mean Difference (Final Values)|-1.94||||0.552|TWO_SIDED|95.0|-8.36|4.48|||ANCOVA|||||4.48|-8.36|0.552
82562616|NCT03122860|164834944|SUPERIORITY||Mean Difference (Final Values)|-6.86||||0.033|TWO_SIDED|95.0|-13.16|-0.56|||ANCOVA|||||-0.56|-13.16|0.033
82562617|NCT03122860|164834944|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.887|TWO_SIDED|95.0|-5.79|6.68|||ANCOVA|||||6.68|-5.79|0.887
82377713|NCT03355469|164463131|SUPERIORITY||Mean Difference (Final Values)|4.17||||0.08|TWO_SIDED|95.0|-0.53|8.86||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention AIx75.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention AIx75 change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||8.86|-0.53|0.080
82562618|NCT03122860|164834945|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.473|TWO_SIDED|95.0|-7.99|3.72|||ANCOVA|||||3.72|-7.99|0.473
82562619|NCT03122860|164834945|SUPERIORITY||Mean Difference (Final Values)|-6.31||||0.04|TWO_SIDED|95.0|-12.33|-0.29|||ANCOVA|||||-0.29|-12.33|0.040
82562620|NCT03122860|164834945|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.577|TWO_SIDED|95.0|-4.35|7.79|||ANCOVA|||||7.79|-4.35|0.577
82562621|NCT03122860|164834945|SUPERIORITY||Mean Difference (Final Values)|-8.95||||0.003|TWO_SIDED|95.0|-14.9|-3.01|||ANCOVA|||||-3.01|-14.90|0.003
82562622|NCT03122860|164834945|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.947|TWO_SIDED|95.0|-6.37|5.96|||ANCOVA|||||5.96|-6.37|0.947
82562623|NCT03122860|164834946|SUPERIORITY||Mean Difference (Final Values)|-3.05||||0.299|TWO_SIDED|95.0|-8.83|2.73|||ANCOVA|||||2.73|-8.83|0.299
82562624|NCT03122860|164834946|SUPERIORITY||Mean Difference (Final Values)|-7.18||||0.021|TWO_SIDED|95.0|-13.24|-1.12|||ANCOVA|||||-1.12|-13.24|0.021
82562625|NCT03122860|164834946|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.675|TWO_SIDED|95.0|-4.75|7.33|||ANCOVA|||||7.33|-4.75|0.675
82562626|NCT03122860|164834946|SUPERIORITY||Mean Difference (Final Values)|-8.63||||0.006|TWO_SIDED|95.0|-14.7|-2.55|||ANCOVA|||||-2.55|-14.70|0.006
82562627|NCT03122860|164834946|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.925|TWO_SIDED|95.0|-5.99|6.59|||ANCOVA|||||6.59|-5.99|0.925
82562628|NCT03122860|164834947|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.062|TWO_SIDED|95.0|-1.18|0.03|||ANCOVA|||||0.03|-1.18|0.062
82562629|NCT03122860|164834947|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.001|TWO_SIDED|95.0|-1.54|-0.37|||ANCOVA|||||-0.37|-1.54|0.001
82562630|NCT03122860|164834947|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.693|TWO_SIDED|95.0|-0.75|0.5|||ANCOVA|||||0.50|-0.75|0.693
82562631|NCT03122860|164834947|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.012|TWO_SIDED|95.0|-1.39|-0.17|||ANCOVA|||||-0.17|-1.39|0.012
82562632|NCT03122860|164834947|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.697|TWO_SIDED|95.0|-0.49|0.74|||ANCOVA|||||0.74|-0.49|0.697
82562633|NCT03122860|164834948|SUPERIORITY||Mean Difference (Final Values)|-3.32||||0.254|TWO_SIDED|95.0|-9.04|2.4|||ANCOVA|||||2.40|-9.04|0.254
82377714|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.088|TWO_SIDED|95.0|-0.069|0.005||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.005|-0.069|0.088
82377715|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.96|TWO_SIDED|95.0|-0.059|0.062||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.062|-0.059|0.960
82377716|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|-0.052||||0.075|TWO_SIDED|95.0|-0.109|0.006||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.006|-0.109|0.075
82377717|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|-0.033||||0.258|TWO_SIDED|95.0|-0.094|0.028||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.028|-0.094|0.258
82377718|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.443|TWO_SIDED|95.0|-0.075|0.035||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.035|-0.075|0.443
82439127|NCT01545232|164586301|SUPERIORITY_OR_OTHER||Adjusted Relative Risk|0.86||||0.26|TWO_SIDED|95.0|0.65|1.12|||Mantel Haenszel|The critical level for significance (p\<0.044) was adjusted for two interim analyses, and all tests were conducted using two-sided tests.||Initial sample size of 580 planned to detect clinically meaningful a 12% difference in 30-day mortality (23% vs. 35%),supported by prior data. DSMB increased sample size to 680 according to trial's adaptive design. With 680 patients \& given final observed mortality proportions in the 1:1:1 group, PROPPR had 92% power to detect the pre-specified 12% difference at 30 days, if such differences existed.||1.12|0.65|0.26
82562634|NCT03122860|164834948|SUPERIORITY||Mean Difference (Final Values)|-6.86||||0.031|TWO_SIDED|95.0|-13.1|-0.63|||ANCOVA|||||-0.63|-13.10|0.031
82439128|NCT01545232|164586303|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||van Elteren's test for medians|||||||0.83
82562635|NCT03122860|164834948|SUPERIORITY||Mean Difference (Final Values)|-1.46||||0.616|TWO_SIDED|95.0|-7.2|4.28|||ANCOVA|||||4.28|-7.20|0.616
82562636|NCT03122860|164834948|SUPERIORITY||Mean Difference (Final Values)|-7.62||||0.01|TWO_SIDED|95.0|-13.41|-1.82|||ANCOVA|||||-1.82|-13.41|0.010
82562637|NCT03122860|164834948|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.961|TWO_SIDED|95.0|-5.74|5.46|||ANCOVA|||||5.46|-5.74|0.961
82439129|NCT01545232|164586304|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||van Elteren's test for medians|||||||0.44
82562638|NCT01138657|164834949|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.36|0.7|||Log Rank|||The primary analysis of the primary endpoint was performed on Main Study data, excluding the Japanese sub-study. The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.||0.70|0.36|<0.001
82562639|NCT01138657|164834949|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.4|0.76|||Log Rank|||An additional analysis of the primary endpoint was performed using the Integrated Study data (Main Study + Japan sub-study). The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.||0.76|0.40|< 0.001
82562640|NCT01138657|164834950|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.29||||0.011|TWO_SIDED|95.0|-0.51|-0.07|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations (i.e., observations from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.07|-0.51|0.011
82572731|NCT00013611|164855420|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.73|TWO_SIDED|95.0|0.77|1.44|||Regression, Cox|Stratification by CD4+ stratum and country of randomization.||||1.44|0.77|0.73
82386662|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|23.0||||0.0205|TWO_SIDED|90.0|4.1|43.2|||Chan and Zhang method|||Week 16||43.2|4.1|0.0205
82386663|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|46.8||||0.0001|TWO_SIDED|90.0|24.6|65.7|||Chan and Zhang method|||Week 16||65.7|24.6|0.0001
82439130|NCT01545232|164586306|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||van Elteren's test for medians|||||||0.11
82439131|NCT01545232|164586307|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-2.8|8.3||||||||8.3|-2.8|
82377719|NCT03355469|164463132|SUPERIORITY||Mean Difference (Final Values)|-0.053||||0.144|TWO_SIDED|95.0|-0.126|0.02||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBF.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBF change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.020|-0.126|0.144
82377720|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.147|TWO_SIDED|95.0|-0.017|0.003||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.003|-0.017|0.147
82377721|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.943|TWO_SIDED|95.0|-0.016|0.017||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.017|-0.016|0.943
82377722|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.108|TWO_SIDED|95.0|-0.027|0.003||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.003|-0.027|0.108
82377723|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.319|TWO_SIDED|95.0|-0.024|0.009||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.009|-0.024|0.319
82377724|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.496|TWO_SIDED|95.0|-0.019|0.01||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.010|-0.019|0.496
82439132|NCT01545232|164586308|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.8|1.7||||||||1.7|-0.8|
82562641|NCT01138657|164834950|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.25||||0.019|TWO_SIDED|95.0|-0.46|-0.04|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations (from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.04|-0.46|0.019
82562642|NCT01138657|164834951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.43|-0.11|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.11|-0.43|<0.001
82562643|NCT01138657|164834951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.43|-0.12|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.12|-0.43|<0.001
82572732|NCT00013611|164855421|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1|TWO_SIDED|95.0|0.51|1.06|||Regression, Cox|Stratification by CD4+ stratum and country of randomization.||||1.06|0.51|0.10
82439133|NCT01545232|164586309|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||generalized logit model regression|||||||0.37
82439134|NCT01545232|164586310|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||van Elteren's test for medians|||||||0.14
82439135|NCT01545232|164586311|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||van Elteren's test for medians|||||||0.10
82500662|NCT02927080|164692218|SUPERIORITY|Percent Change in Total Muscle Volume (TMV) of the BB muscle in patients with FSHD administered ACE-083 when compared to placebo During Part 2 (randomized, controlled portion)|Mean Difference (Net)|16.39|STANDARD_ERROR_OF_MEAN|4.032|<|0.0001|TWO_SIDED|90.0|9.75|23.02|||ANCOVA|||D190 Percent change from baseline in TMV||23.02|9.75|<0.0001
82439136|NCT00378599|164586334|SUPERIORITY_OR_OTHER||Binomial Approximation|0.288|||||TWO_SIDED|95.0|0.21|0.38||||||||0.38|0.21|
82439137|NCT00521599|164586341|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|assume n=240 per group and standard deviation (STD) = 45 L/min for AM Peak Flow Rate at Week 8. If the two actives are the same, 95% CI of their mean difference has 90% probability to be completely within +/- 15 L/min.|Mean Difference (Net)|-1.62|STANDARD_DEVIATION|37.0||0.654|TWO_SIDED|95.0|-8.74|5.49|||ANOVA|||Week 8 End scores||5.49|-8.74|0.654
82500663|NCT02927080|164692220|SUPERIORITY||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|1.299||0.0359|TWO_SIDED|90.0|-4.86|-0.59|||ANCOVA|||D190 Absolute change from baseline in FF for the TA group administered ACE-083 when compared to Placebo in part 2||-0.59|-4.86|0.0359
82377725|NCT03355469|164463133|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.187|TWO_SIDED|95.0|-0.031|0.007||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MFV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MFV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.007|-0.031|0.187
82377726|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.086|TWO_SIDED|95.0|-0.495|0.035||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.008.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.035|-0.495|0.086
82377727|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.608|TWO_SIDED|95.0|-0.354|0.574||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.050.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.574|-0.354|0.608
82377728|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|-0.344||||0.11|TWO_SIDED|95.0|-0.779|0.09||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.017.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.090|-0.779|0.110
82562644|NCT01138657|164834952|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.07||||0.003|TWO_SIDED|95.0|-0.11|-0.02|||ANOVA|ANOVA with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.02|-0.11|0.003
82562645|NCT01138657|164834952|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.06||||0.008|TWO_SIDED|95.0|-0.1|-0.02|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.02|-0.10|0.008
82562646|NCT01138657|164834953|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.231|TWO_SIDED|95.0|0.39|1.26|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.26|0.39|0.231
82377729|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.145|TWO_SIDED|95.0|-0.818|0.137||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.033.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.137|-0.818|0.145
82377730|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|-0.114||||0.565|TWO_SIDED|95.0|-0.538|0.309||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.042.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.309|-0.538|0.565
82439138|NCT00521599|164586341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||ANOVA|||Week 8 End scores||||0.003
82562647|NCT01138657|164834953|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68||||0.191|TWO_SIDED|95.0|0.38|1.21|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.21|0.38|0.191
82572733|NCT00013611|164855422|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.35|TWO_SIDED|95.0|0.9|1.34|||Regression, Cox|||||1.34|0.90|0.35
82572734|NCT00013611|164855423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.0|STANDARD_ERROR_OF_MEAN|6.5|<|0.001|TWO_SIDED|95.0|40.3|65.7|||Mixed Models Analysis|||||65.7|40.3|< 0.001
82377731|NCT03355469|164463134|SUPERIORITY||Mean Difference (Final Values)|-0.454||||0.11|TWO_SIDED|95.0|-1.025|0.116||Benjamini and Hochberg method was used to decrease the false discovery rate with an overall error rate of 0.05. The B\&H P-value threshold for this comparison was 0.025.|ANCOVA|ANCOVA linear model adjusted for pre-intervention MBV.||Intention to treat Full Maximum Likelihood based comparisons of baseline covariate adjusted pre- to post-intervention MBV change, where the difference is between treatment combination #2 and treatment combination #1 (i.e. treatment combination # 2 - treatment combination #1).||0.116|-1.025|0.110
82377732|NCT03765788|164463167|SUPERIORITY||Odds Ratio (OR)|9.31|||||TWO_SIDED|95.0|3.54|26.29|||||Odd Ratio (posterior median) median and 95% credibility interval calculated using the Bayesian inference|Odds Ratio||26.29|3.54|
82377733|NCT00733005|164463209|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||95.0|||||ANCOVA|||||||0.102
82377734|NCT00733005|164463210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0|||||ANCOVA|||||||0.019
82439139|NCT00521599|164586341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANOVA|||Week 8 End scores||||0.001
82562648|NCT01138657|164834954|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-11.4||||0.02|TWO_SIDED|95.0|-20.9|-1.8|||ANOVA|ANOVA with treatment and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-1.8|-20.9|0.020
82377735|NCT01023035|164463273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-8.6|7.2|||Mantel-Haenszel, modified Koch method|||The modified Koch method was used to calculate the stratum-adjusted Mantel-Haenszel (MH) difference between the SVR rates for the Erythropoietin Use Arm versus the Ribavirin Dose Reduction Arm and corresponding 95% confidence interval with continuity correction.||7.2|-8.6|
82377736|NCT00247676|164463355|SUPERIORITY_OR_OTHER||clinical benefit response rate|37.8||||||95.0|22.5|55.2|||||Clinical benefit response rate: percent of patients with confirmed CR, confirmed PR, or SD for at least 12 weeks according to RECIST, relative to total treated patients.|||55.2|22.5|
82377737|NCT00247676|164463360|SUPERIORITY_OR_OTHER||objective response rate|2.7||||||95.0|0.1|14.2|||||percentage of patients with confirmed CR or confirmed PR according to RECIST, relative to the total number of treated patients.|||14.2|0.1|
82377738|NCT00247676|164463364|SUPERIORITY_OR_OTHER||probability|0.324||||||95.0|0.168|0.479|||||probability derived from Kaplan-Meier estimate.|||0.479|0.168|
82377739|NCT00911300|164463378|SUPERIORITY_OR_OTHER||Percentage of participants|0.5||||1|TWO_SIDED|95.0|-2.0|3.1|||Fisher Exact||The estimated value is the absolute percent difference between Fondaparinux and UFH/VKA.|||3.1|-2.0|1.000
82377740|NCT02664181|164463388|SUPERIORITY|||||||0.05|||||||Fisher Exact|||Partial remission rate was compared between both arms. The null hypothesis is that there is no difference in partial remission rate between the two arms, with a p-value of \< 0.05 indicating significance||||0.05
82377741|NCT02664181|164463389|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.06|TWO_SIDED|95.0|0.13|1.21|||Log Rank|||||1.21|0.13|0.06
82377742|NCT02664181|164463390|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.19|TWO_SIDED|95.0|0.11|1.62|||Log Rank||Data from Kaplan-Meier analyses|||1.62|0.11|0.19
82572735|NCT02577003|164855425|SUPERIORITY||Difference in least squares means|-0.77|||<|0.001|TWO_SIDED|95.0|-0.98|-0.57|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-0.57|-0.98|<0.001
82377743|NCT03668808|164463404|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in Time in Range (70-140mg/dl) in the initial 24 hours at destination, whether after Eastward travel or Westward travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance set at 0.05; using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
82377744|NCT03668808|164463405|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||Null hypothesis is there was no difference in Time in Range (70-180mg/dl) in the initial 24 hours at destination, whether after Eastward travel or Westward travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance set at 0.05; using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
82377745|NCT03668808|164463406|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in Mean ± SD CGM glucose (mg/dl) in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
82377746|NCT03668808|164463407|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time \<70 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
82377747|NCT03668808|164463408|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time 70-180 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
82377748|NCT03668808|164463409|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in CGM % time \>180 mg/dl in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
82377749|NCT03668808|164463410|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in CGM - Coefficient of Variation (CV) in flight, East or West travel, and in 72 hours at destination, whether after East or West travel, between Insulin Degludec \& Insulin Glargine U100. Travel direction not tested. Criterion for significance was at 0.05. Using paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the SD of the difference is \<106 minutes.||||<0.05
82386664|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|44.6||||0.0002|TWO_SIDED|90.0|21.5|62.9|||Chan and Zhang method|||Week 16||62.9|21.5|0.0002
82572736|NCT02577003|164855428|SUPERIORITY||Difference in least squares means|-28.1|||<|0.001|TWO_SIDED|95.0|-34.8|-21.5|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-21.5|-34.8|<0.001
82562649|NCT01138657|164834954|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-5.1||||0.428|TWO_SIDED|95.0|-17.7|7.5|||Chi-squared, Corrected|ANOVA with treatment, race (Japanese versus non-Japanese) and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||7.5|-17.7|0.428
82377750|NCT03668808|164463411|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is there was no difference in CGM Fasting Blood Glucose (FBG) at 0600 local time at destination, whether after East or West travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. Criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins assuming the standard deviation of the difference is \<106 minutes.||||<0.05
82562650|NCT01138657|164834955|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|4.2||||0.01|TWO_SIDED|95.0|1.02|7.38|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||7.38|1.02|0.010
82562651|NCT01138657|164834955|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|3.67||||0.019|TWO_SIDED|95.0|0.62|6.71|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.71|0.62|0.019
82562652|NCT01138657|164834956|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.86||||0.346|TWO_SIDED|95.0|-2.03|5.75|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.75|-2.03|0.346
82562653|NCT01138657|164834956|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.31||||0.496|TWO_SIDED|95.0|-2.47|5.09|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.09|-2.47|0.496
82377751|NCT03668808|164463412|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||Null hypothesis is that there was no difference in Liverpool Jet-Lag Questionnaire after 24 and 48 hours at the destination, whether after Eastward travel or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.01
82377752|NCT03668808|164463413|SUPERIORITY||||||<|0.05||||||The tests were performed with a significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in Sleep quantity measured by ActiGraph in 24 hours at the destination, whether after Eastward or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.05
82377753|NCT03668808|164463414|SUPERIORITY||||||<|0.05||||||The tests were performed with a significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is there was no difference in Sleep efficiency measured by ActiGraph in 24 hours at the destination, whether after Eastward or after Westward travel, between Insulin Degludec and Insulin Glargine U100. Travel direction not tested. The criterion for significance was set at 0.05, and using a paired t-test analysis, a sample size of 21 subjects would achieve a power of at least 77% to detect a difference of 10% between basal insulins.||||<0.05
82377754|NCT04138823|164463420|OTHER||Probability of DLT rate in [0.16,0.33)|0.172|||||||||||Bayesian logistic regression model|||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82377755|NCT04138823|164463420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.01||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82377756|NCT04138823|164463420|OTHER||Probabilty of DLT rate in [0.16, 0.33)|0.362||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82377757|NCT04138823|164463420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.046||||||||||||||Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82377758|NCT04138823|164463420|OTHER||Probability of DLT rate in [0.16, 0.33)|0.478||||||||||||||"Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.~The 200 mg BI 891065 BID dose was modelled as equivalent to a 300 mg QD dose in terms of dose-toxicity relationship."||||
82377759|NCT04138823|164463420|OTHER||Probability of DLT rate in [0.33, 1.00]|0.118||||||||||||||"Probability of DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.~The 200 mg BI 891065 BID dose was modelled as equivalent to a 300 mg QD dose in terms of dose-toxicity relationship."||||
82377760|NCT02466685|164463427|SUPERIORITY||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|9.4|<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
82377761|NCT01277211|164463432|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Pearl Indices|0.61||||0.531|TWO_SIDED|95.0|0.19|2.29|||Poisson distribution method|Differences between treatment groups was explored using an exact 95% CI for the ratio of the two Pearl Indices based on the Poisson distribution.||Differences between the two treatment groups (ENG-EE vs. DRSP-EE) were explored using an exact 95% CI for the Ratio of the two Pearl Indices based on the Poisson distribution.||2.29|0.19|0.531
82562654|NCT01138657|164834957|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|5.12||||0.036|TWO_SIDED|95.0|0.34|9.9|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||9.90|0.34|0.036
82562655|NCT01138657|164834957|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|4.14||||0.077|TWO_SIDED|95.0|-0.45|8.72|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||8.72|-0.45|0.077
82562656|NCT01138657|164834958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|10.02|||<|0.001|TWO_SIDED|95.0|4.86|15.19|||ANOVA|ANOVA with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||15.19|4.86|<0.001
82562657|NCT01138657|164834958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|8.83|||<|0.001|TWO_SIDED|95.0|3.88|13.79|||ANOVA|ANOVA with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%||13.79|3.88|<0.001
82562658|NCT02159352|164834959|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.384|||||TWO_SIDED|90.0|0.348|0.423||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax.||0.423|0.348|
82562659|NCT02159352|164834959|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.337|||||TWO_SIDED|90.0|0.306|0.371||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax.||0.371|0.306|
82377762|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 1|-3.0||||0.346|TWO_SIDED|95.0|-9.9|3.1|||Miettinen and Nurminen method|||For Cycle 1, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||3.1|-9.9|0.346
82377763|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 2|-6.2||||0.029|TWO_SIDED|95.0|-12.7|-0.6|||Miettinen and Nurminen method|||For Cycle 2, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.6|-12.7|0.029
82562660|NCT02159352|164834960|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.703|||||TWO_SIDED|90.0|0.658|0.75||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed AUC(TAU).||0.750|0.658|
82562661|NCT02159352|164834960|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.577|||||TWO_SIDED|90.0|0.535|0.622||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed AUC(TAU).||0.622|0.535|
82562662|NCT02159352|164834963|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.768|||||TWO_SIDED|90.0|0.697|0.846||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax/D.||0.846|0.697|
82377764|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 3|-5.8||||0.019|TWO_SIDED|95.0|-11.8|-0.9|||Miettinen and Nurminen method|||For Cycle 3, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.9|-11.8|0.019
82377765|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 4|-8.0||||0.001|TWO_SIDED|95.0|-14.0|-2.9|||Miettinen and Nurminen method|||For Cycle 4, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.9|-14.0|0.001
82562663|NCT02159352|164834963|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|0.673|||||TWO_SIDED|90.0|0.611|0.742||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed Cmax/D.||0.742|0.611|
82377766|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 5|-1.3||||0.556|TWO_SIDED|95.0|-6.4|2.6|||Miettinen and Nurminen method|||For Cycle 5, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.6|-6.4|0.556
82562664|NCT02159352|164834964|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|1.406|||||TWO_SIDED|90.0|1.317|1.501||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed (AUC(TAU)/D).||1.501|1.317|
82377767|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 6|-3.9||||0.089|TWO_SIDED|95.0|-9.5|0.5|||Miettinen and Nurminen method|||For Cycle 6, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.5|-9.5|0.089
82562665|NCT02159352|164834964|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|1.154|||||TWO_SIDED|90.0|1.07|1.244||||||A general linear mixed effect model (restricted maximum likelihood) with treatment as fixed effect and measurements within each participant as repeated measures was fitted to the log-transformed (AUC(TAU)/D).||1.244|1.070|
82562666|NCT01214109|164834970|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|82.62||||||90.0|74.45|91.69|||ANOVA|||0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||91.69|74.45|
82562667|NCT01214109|164834970|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|96.17||||||90.0|69.33|133.42|||ANOVA|||0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||133.42|69.33|
82377768|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 7|-3.7||||0.11|TWO_SIDED|95.0|-9.4|0.8|||Miettinen and Nurminen method|||For Cycle 7, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.8|-9.4|0.110
82377769|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 8|-4.3||||0.049|TWO_SIDED|95.0|-9.8|0.0|||Miettinen and Nurminen method|||For Cycle 8, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.0|-9.8|0.049
82377770|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 9|-1.1||||0.621|TWO_SIDED|95.0|-6.2|2.9|||Miettinen and Nurminen method|||For Cycle 9, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.9|-6.2|0.621
82377771|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 10|-4.4||||0.041|TWO_SIDED|95.0|-10.0|-0.2|||Miettinen and Nurminen method|||For Cycle 10, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.2|-10.0|0.041
82562668|NCT01214109|164834971|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|88.01||||||90.0|80.76|95.92|||ANOVA|||0.125 mg t.i.d. IR vs. 0.375 mg q.d. ER 0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||95.92|80.76|
82562669|NCT01214109|164834971|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|89.37||||||90.0|81.16|98.42|||ANOVA|||0.5 mg t.i.d. IR vs. 1.5 mg q.d. ER 0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||98.42|81.16|
82562670|NCT01214109|164834972|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|88.82||||||90.0|79.89|98.76|||ANOVA|||0.125 mg t.i.d. IR vs. 0.375 mg q.d. ER 0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||98.76|79.89|
82377772|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 11|-3.8||||0.046|TWO_SIDED|95.0|-8.9|-0.1|||Miettinen and Nurminen method|||For Cycle 11, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-8.9|0.046
82377773|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 12|-4.4||||0.037|TWO_SIDED|95.0|-9.9|-0.2|||Miettinen and Nurminen method|||For Cycle 12, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.2|-9.9|0.037
82377774|NCT01277211|164463433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 13|-4.5||||0.048|TWO_SIDED|95.0|-10.4|0.0|||Miettinen and Nurminen method|||For Cycle 13, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.0|-10.4|0.048
82377775|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 1|-6.0||||0.015|TWO_SIDED|95.0|-12.0|-1.1|||Miettinen and Nurminen method|||For Cycle 1, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.1|-12.0|0.015
82377776|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 2|-4.9||||0.012|TWO_SIDED|95.0|-10.1|-1.0|||Miettinen and Nurminen method|||For Cycle 2, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.0|-10.1|0.012
82562671|NCT01214109|164834972|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|91.97||||||90.0|60.07|140.25|||ANOVA|||0.5 mg t.i.d. IR vs. 1.5 mg q.d. ER 0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||140.25|60.07|
82562672|NCT01214109|164834973|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|92.84||||||90.0|83.8|102.86|||ANOVA|||0.125 mg t.i.d. IR is the reference treatment, 0.375 mg q.d. ER is the test treatment||102.86|83.8|
82562673|NCT01214109|164834973|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|95.05||||||90.0|84.88|106.43|||ANOVA|||0.5 mg t.i.d. IR is the reference treatment, 1.5 mg q.d. ER is the test treatment||106.43|84.88|
82562674|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.75|||<|0.001||95.0|-13.17|-8.34||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-8.34|-13.17|<0.001
82377777|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 3|-6.5||||0.002|TWO_SIDED|95.0|-12.0|-2.2|||Miettinen and Nurminen method|||For Cycle 3, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.2|-12.0|0.002
82377778|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 4|-3.6||||0.044|TWO_SIDED|95.0|-8.5|-0.1|||Miettinen and Nurminen method|||For Cycle 4, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-8.5|0.044
82377779|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 5|-1.0||||0.609|TWO_SIDED|95.0|-5.7|2.5|||Miettinen and Nurminen method|||For Cycle 5, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||2.5|-5.7|0.609
82377780|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 6|-3.9||||0.062|TWO_SIDED|95.0|-9.3|0.2|||Miettinen and Nurminen method|||For Cycle 6, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.2|-9.3|0.062
82377781|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 7|-4.1||||0.019|TWO_SIDED|95.0|-9.0|-0.6|||Miettinen and Nurminen method|||For Cycle 7, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.6|-9.0|0.019
82572737|NCT02577003|164855429|SUPERIORITY||Difference in least squares means|-48.5|||<|0.001|TWO_SIDED|95.0|-59.6|-37.5|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-37.5|-59.6|<0.001
82572738|NCT02577003|164855430|SUPERIORITY||Difference in least squares means|-84.6|||<|0.001|TWO_SIDED|95.0|-102.6|-66.6|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-66.6|-102.6|<0.001
82572739|NCT02577003|164855431|SUPERIORITY||Difference in least squares means|-1.8|||<|0.001|TWO_SIDED|95.0|-2.5|-1.1|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-1.1|-2.5|<0.001
82572740|NCT00476242|164855435|SUPERIORITY_OR_OTHER|||||||0.047|||||||Log Rank|||||||.047
82572741|NCT04486313|164855437|SUPERIORITY|||||||0.8786|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.8786
82572742|NCT04486313|164855438|SUPERIORITY|||||||0.074||||||Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness|Cochran-Mantel-Haenszel|||||||0.0740
82572743|NCT04486313|164855439|SUPERIORITY|||||||0.4479|||||||Cochran-Mantel-Haenszel|||Comparison of proportion positive for SARS-CoV-2 at Day 4||||0.4479
82377782|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 8|-1.9||||0.308|TWO_SIDED|95.0|-6.7|1.6|||Miettinen and Nurminen method|||For Cycle 8, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||1.6|-6.7|0.308
82572744|NCT04486313|164855439|SUPERIORITY|||||||0.2814|||||||Cochran-Mantel-Haenszel|||Comparison of proportion positive for SARS-CoV-2 at Day 10||||0.2814
82572745|NCT04486313|164855440|SUPERIORITY|||||||0.0665|||||||t-test, 2 sided|||Comparison of change from Baseline to Day 4||||0.0665
82377783|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 9|-4.2||||0.027|TWO_SIDED|95.0|-9.3|-0.4|||Miettinen and Nurminen method|||For Cycle 9, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.4|-9.3|0.027
82377784|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 10|-2.9||||0.098|TWO_SIDED|95.0|-7.6|0.5|||Miettinen and Nurminen method|||For Cycle 10, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||0.5|-7.6|0.098
82377785|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 11|-4.4||||0.009|TWO_SIDED|95.0|-9.4|-1.0|||Miettinen and Nurminen method|||For Cycle 11, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-1.0|-9.4|0.009
82377786|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 12|-6.2||||0.002|TWO_SIDED|95.0|-11.7|-2.1|||Miettinen and Nurminen method|||For Cycle 12, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-2.1|-11.7|0.002
82377787|NCT01277211|164463434|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages, Cycle 13|-4.5||||0.043|TWO_SIDED|95.0|-10.2|-0.1|||Miettinen and Nurminen method|||For Cycle 13, a two-sided 95% CI for the difference in percentage between the treatment groups (ENG-EE vs. DRSP-EE) was calculated using the method of Miettinen and Nurminen.||-0.1|-10.2|0.043
82377788|NCT03452943|164463435|OTHER||LS mean difference|-0.7||||0.692|TWO_SIDED|95.0|-4.1|2.8||Threshold for significance at 0.05 level.|Mixed Models Analysis|||||2.8|-4.1|0.692
82377789|NCT02213289|164463510|SUPERIORITY|||||||0.0024|||||||One-sided Z-test|This was a test of whether the observed 1-year survival rate was significantly different from historical 50% rate.||||||0.0024
82377790|NCT01579747|164463525|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Normality of distribution was assessed with the Shapiro-Wilk test. For normally-distributed continuous variables, the groups' distributions were described as means and standard deviations (SD). Student's t-test was used to compare groups in these cases with statistically-significant differences summarized using 95% confidence intervals as appropriate. For all comparisons, two-tailed p\<0.05 was considered statistically significant.||||<0.05
82377791|NCT00352417|164463531|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|Satterthwaite's method||||||0.97
82377792|NCT00352417|164463532|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|Satterthwaite's method||||||0.37
82623837|NCT03351478|164963052|SUPERIORITY||Difference in Least Square (LS) Means|-0.43|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.62|-0.25|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline HbA1c as a covariate.||-0.25|-0.62|< 0.0001
82623838|NCT03351478|164963052|SUPERIORITY||Difference in LS Means|0.12|STANDARD_ERROR_OF_MEAN|0.08||0.145|TWO_SIDED|95.0|-0.04|0.28|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline HbA1c as a covariate.||0.28|-0.04|0.145
82623839|NCT03351478|164963053|SUPERIORITY||Difference in LS Means|-2.05|STANDARD_ERROR_OF_MEAN|1.43||0.1529|TWO_SIDED|95.0|-4.87|0.76|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||0.76|-4.87|0.1529
82623840|NCT03351478|164963053|SUPERIORITY||Difference in LS Means|1.17|STANDARD_ERROR_OF_MEAN|1.21||0.3377|TWO_SIDED|95.0|-1.21|3.55|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||3.55|-1.21|0.3377
82377793|NCT00352417|164463533|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82377794|NCT00352417|164463534|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|ANCOVA was performed on the natural log transformed data||||||<0.01
82439140|NCT03119181|164586368|SUPERIORITY|||||||0.0097|||||||one-sided permutation test|||one-sided permutation test at 2.5% significance||||0.0097
82439141|NCT01774097|164586370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.238|TWO_SIDED|95.0|-0.6|2.5||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||2.5|-0.6|0.238
82562675|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.08|||<|0.001|TWO_SIDED|95.0|-14.48|-9.67||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.67|-14.48|<0.001
82377795|NCT00352417|164463535|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82386665|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-18.5||||0.9209|TWO_SIDED|90.0|-38.3|3.2|||Chan and Zhang method|||Week 16||3.2|-38.3|0.9209
82386666|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-13.9||||0.793|TWO_SIDED|90.0|-34.4|8.7|||Chan and Zhang method|||Week 16||8.7|-34.4|0.7930
82386667|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-5.1||||0.6156|TWO_SIDED|90.0|-28.0|20.1|||Chan and Zhang method|||Week 16||20.1|-28.0|0.6156
82439142|NCT01774097|164586371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.6||0.116|TWO_SIDED|95.0|-0.2|2.1||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||2.1|-0.2|0.116
82439143|NCT01774097|164586372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.978|TWO_SIDED|95.0|-0.8|0.8||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||0.8|-0.8|0.978
82377796|NCT01983566|164463557|NON_INFERIORITY_OR_EQUIVALENCE|The actual number of subjects analyzed is 16. No formal statistical hypothesis was tested.|Geometric mean ratio (%)|115.8||||0.3944|TWO_SIDED|90.0|63.52|211.11||The p-value relates to the null hypothesis of non-equivalence (bioequivalence test). P-value for ratio outside interval 80-125%.|ANOVA||This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The statistical analysis result is based on the adjusted means.|"The difference between the expected means for log(Dele low fat) and log(Dele fasted) was estimated by the differences in the adjusted means (Least Squares Means), and a 2 sided 90% confidence interval (CI) based on the t-distribution was computed.~These were then back transformed. The estimation model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'."||211.11|63.52|0.3944
82377797|NCT01983566|164463558|NON_INFERIORITY_OR_EQUIVALENCE|The actual number of subjects analyzed is 16. No formal statistical hypothesis was tested.|Geometric mean ratio (%)|114.83||||0.3674|TWO_SIDED|90.0|74.803|176.281||The p-value relates to the null hypothesis of non-equivalence (bioequivalence test). P-value for ratio outside interval 80-125%.|ANOVA||This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The statistical analysis result is based on the adjusted means.|"The difference between the expected means for log(Dele low fat) and log(Dele fasted) was estimated by the differences in the adjusted means (Least Squares Means), and a 2 sided 90% CI based on the t-distribution was computed.~These were then back transformed. This estimation model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'."||176.281|74.803|0.3674
82377798|NCT01644617|164463603|SUPERIORITY_OR_OTHER||Difference in Least Squares Means (LSM)|-3.62|||<|0.001|TWO_SIDED|95.0|-4.85|-2.39|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-2.39|-4.85|<0.001
82377799|NCT01644617|164463603|SUPERIORITY_OR_OTHER||Difference in LSM|-1.98||||0.003|TWO_SIDED|95.0|-3.24|-0.72|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.72|-3.24|0.003
82377800|NCT01644617|164463604|SUPERIORITY_OR_OTHER||Difference in LSM|-2.08|||<|0.001|TWO_SIDED|95.0|-3.14|-1.03|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-1.03|-3.14|<0.001
82377801|NCT01644617|164463604|SUPERIORITY_OR_OTHER||Difference in LSM|-1.23||||0.032||95.0|-2.36|-0.11|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.11|-2.36|0.032
82377802|NCT01644617|164463605|SUPERIORITY_OR_OTHER||Difference in LSM|-1.37||||0.007|TWO_SIDED|95.0|-2.34|-0.39|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.39|-2.34|0.007
82377803|NCT01644617|164463605|SUPERIORITY_OR_OTHER||Difference in LSM|-0.54||||0.198|TWO_SIDED|95.0|-1.38|0.29|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.29|-1.38|0.198
82439144|NCT01774097|164586373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.55||0.752|TWO_SIDED|95.0|-1.26|0.91||Threshold 0.05; no adjustment for multiple comparisons per protocol.|t-test, 2 sided|||||0.91|-1.26|0.752
82439145|NCT01774097|164586374|SUPERIORITY_OR_OTHER||interaction term|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.871|TWO_SIDED|95.0|-0.02|0.03||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||0.03|-0.02|0.871
82500664|NCT02927080|164692220|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|1.359||0.3582|TWO_SIDED|90.0|-3.49|0.99|||ANCOVA|||D190 Absolute change from baseline in FF for the BB group administered ACE-083 when compared to Placebo in part 2||0.99|-3.49|0.3582
82377804|NCT01644617|164463606|SUPERIORITY_OR_OTHER||Difference in LSM|-4.84|||<|0.001|TWO_SIDED|95.0|-6.59|-3.09|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-3.09|-6.59|<0.001
82439146|NCT01774097|164586375|SUPERIORITY_OR_OTHER||interaction term|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.256|TWO_SIDED|95.0|-0.06|0.02||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||0.02|-0.06|0.256
82439147|NCT01774097|164586376|SUPERIORITY_OR_OTHER||interaction term|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.241|TWO_SIDED|95.0|-0.2|0.6|||Regression, Linear|||||0.6|-0.2|0.241
82500665|NCT02927080|164692221|SUPERIORITY||Mean Difference (Final Values)|-5.28|STANDARD_ERROR_OF_MEAN|4.068||0.1945|TWO_SIDED|90.0|-11.97|1.41|||ANCOVA|||D190 Percent change from baseline in 6 Minute Walk Test (MWT) distance from baseline||1.41|-11.97|0.1945
82572746|NCT04486313|164855440|SUPERIORITY|||||||0.4974|||||||t-test, 2 sided|||Comparison of change from Baseline to Day 10||||0.4974
82572747|NCT04486313|164855441|SUPERIORITY|||||||0.1771|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.1771
82572748|NCT04486313|164855442|SUPERIORITY|||||||0.2399|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.2399
82572749|NCT04486313|164855443|SUPERIORITY|||||||0.09|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.09
82572750|NCT04486313|164855444|SUPERIORITY|||||||0.0077|||||||Gehan-Wilcoxon Test|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.0077
82572751|NCT04486313|164855445|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.05
82572752|NCT04486313|164855446|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.05
82572753|NCT04486313|164855447|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|Stratified by Baseline COVID-19 severity (mild/moderate), time from onset of symptoms to randomization (\<36 hours/≥36 hours), risk of severe illness||||||0.08
82377805|NCT01644617|164463606|SUPERIORITY_OR_OTHER||Difference in LSM|-2.65||||0.003|TWO_SIDED|95.0|-4.35|-0.95|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.95|-4.35|0.003
82377806|NCT01644617|164463607|SUPERIORITY_OR_OTHER||Difference in LSM|-2.62|||<|0.001|TWO_SIDED|95.0|-4.12|-1.13|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-1.13|-4.12|<0.001
82377807|NCT01644617|164463607|SUPERIORITY_OR_OTHER||Difference in LSM|-1.37||||0.091|TWO_SIDED|95.0|-2.96|0.22|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.22|-2.96|0.091
82377808|NCT01644617|164463608|SUPERIORITY_OR_OTHER||Difference in LSM|-1.97||||0.004|TWO_SIDED|95.0|-3.3|-0.64|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.64|-3.30|0.004
82377809|NCT01644617|164463608|SUPERIORITY_OR_OTHER||Difference in LSM|-0.83||||0.181|TWO_SIDED|95.0|-2.06|0.4|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.40|-2.06|0.181
82377810|NCT01644617|164463609|SUPERIORITY_OR_OTHER||Difference in LSM|-1.27|||<|0.001|TWO_SIDED|95.0|-1.92|-0.62|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.62|-1.92|<0.001
82623841|NCT03351478|164963054|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.33|-0.5|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline 2-hour postprandial glucose as a covariate.||-0.5|-1.33|<0.0001
82623842|NCT03351478|164963054|SUPERIORITY||Difference in LS Means|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.8397|TWO_SIDED|95.0|-0.37|0.3|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥ 130 mmHg) at screening, and the country as fixed effects, and baseline 2-hour postprandial glucose as a covariate.||0.3|-0.37|0.8397
82377811|NCT01644617|164463609|SUPERIORITY_OR_OTHER||Difference in LSM|-0.77||||0.023|TWO_SIDED|95.0|-1.43|-0.11|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.11|-1.43|0.023
82377812|NCT01644617|164463610|SUPERIORITY_OR_OTHER||Difference in LSM|-0.53||||0.082|TWO_SIDED|95.0|-1.13|0.07|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.07|-1.13|0.082
82623843|NCT03351478|164963055|SUPERIORITY||Difference in LS Means|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0005|TWO_SIDED|95.0|-1.25|-0.35|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.35|-1.25|0.0005
82623844|NCT03351478|164963055|SUPERIORITY||Difference in LS Means|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1339|TWO_SIDED|95.0|-0.09|0.7|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline fasting plasma glucose as a covariate.||0.7|-0.09|0.1339
82377813|NCT01644617|164463610|SUPERIORITY_OR_OTHER||Difference in LSM|-0.13||||0.691|TWO_SIDED|95.0|-0.79|0.52|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.52|-0.79|0.691
82377814|NCT01644617|164463611|SUPERIORITY_OR_OTHER||Difference in LSM|-0.61||||0.023|TWO_SIDED|95.0|-1.14|-0.09|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||-0.09|-1.14|0.023
82377815|NCT01644617|164463611|SUPERIORITY_OR_OTHER||Difference in LSM|-0.34||||0.235|TWO_SIDED|95.0|-0.9|0.22|||ANCOVA||Analysis by ANCOVA with treatment and baseline endpoint score as fixed effects and adjusted for different error variation for each treatment group.|||0.22|-0.90|0.235
82377816|NCT01644617|164463614|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.55|||<|0.001|TWO_SIDED|95.0|0.43|0.68|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.68|0.43|<0.001
82377817|NCT01644617|164463614|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.42|||<|0.001|TWO_SIDED|95.0|0.33|0.52|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.52|0.33|<0.001
82377818|NCT01644617|164463614|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.52|||<|0.001|TWO_SIDED|95.0|0.41|0.64|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.64|0.41|<0.001
82377819|NCT01644617|164463614|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.39|||<|0.001|TWO_SIDED|95.0|0.3|0.48|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.48|0.30|<0.001
82377820|NCT01644617|164463615|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.33|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.33|0.13|<0.001
82377821|NCT01644617|164463615|SUPERIORITY_OR_OTHER||Difference in LSM: D. pteronyssinus|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.25|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.25|0.12|<0.001
82377822|NCT01644617|164463615|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.32|||<|0.001|TWO_SIDED|95.0|0.23|0.42|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.42|0.23|<0.001
82377823|NCT01644617|164463615|SUPERIORITY_OR_OTHER||Difference in LSM: D. farinae|0.25|||<|0.001|TWO_SIDED|95.0|0.16|0.33|||ANOVA||Analysis by ANOVA with treatment as fixed effect and adjusted for different error variation for each treatment group.|||0.33|0.16|<0.001
82623845|NCT03351478|164963056|SUPERIORITY||Difference in LS Means|-2.25|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.95|-1.54|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline weight as a covariate.||-1.54|-2.95|<0.0001
82377824|NCT01644617|164463616|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|12.4||||||95.0|-3.6|28.9|||||Analysis based on the Miettinen and Nurminen method|||28.9|-3.6|
82377825|NCT01644617|164463616|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|9.8|||||TWO_SIDED|95.0|-7.0|26.6|||||Analysis based on the Miettinen and Nurminen method|||26.6|-7.0|
82377826|NCT01644617|164463617|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|-7.5|||||TWO_SIDED|95.0|-22.6|6.7|||||Analysis based on the Miettinen and Nurminen method|||6.7|-22.6|
82439148|NCT01774097|164586378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.4||0.131|TWO_SIDED|95.0|-0.6|4.8||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.8|-0.6|0.131
82439149|NCT01774097|164586379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.7||0.626|TWO_SIDED|95.0|-2.6|4.2||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.2|-2.6|0.626
82623846|NCT03351478|164963056|SUPERIORITY||Difference in LS Means|0.51|STANDARD_ERROR_OF_MEAN|0.34||0.1407|TWO_SIDED|95.0|-0.17|1.19|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and the country as fixed effects, and baseline weight as a covariate.||1.19|-0.17|0.1407
82623847|NCT03351478|164963057|SUPERIORITY||Difference in LS Means|-2.03|STANDARD_ERROR_OF_MEAN|0.95||0.0325|TWO_SIDED|95.0|-3.89|-0.17|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||-0.17|-3.89|0.0325
82623848|NCT03351478|164963057|SUPERIORITY||Difference in LS Means|1.1|STANDARD_ERROR_OF_MEAN|0.78||0.1565|TWO_SIDED|95.0|-0.42|2.63|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model using multiple imputations to fill in missing data and is parameterized with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No) and the country as fixed effects, and baseline SBP as a covariate.||2.63|-0.42|0.1565
82623849|NCT03351478|164963058|SUPERIORITY||percentage difference|8.1||||0.0048|TWO_SIDED|95.0|3.36|12.89|||Cochran-Mantel-Haenszel|||The percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at the screening.||12.89|3.36|0.0048
82377827|NCT01644617|164463617|SUPERIORITY_OR_OTHER||Difference in Percentage Versus Placebo|-14.6|||||TWO_SIDED|95.0|-28.5|-5.4|||||Analysis based on the Miettinen and Nurminen method|||-5.4|-28.5|
82377828|NCT02964312|164463621|SUPERIORITY||Proportion|89.5|||||TWO_SIDED|95.0|83.5|93.9||||||The null hypothesis was that the proportion of responders at 6 months would be 50%. Since there was not direct comparison group, the hypothesis was set as a superiority comparison to a target proportion (66%) with a power level \>90%.||93.9|83.5|
82377829|NCT02964312|164463624|SUPERIORITY||||||<|0.001||||||P values are based on paired t-tests for change from baseline with p\<0.05 indicating significance.|t-test, 2 sided|||||||<0.001
82377830|NCT02413229|164463675|SUPERIORITY|||||||0.3571|||||||Cochran-Mantel-Haenszel|||||||0.3571
82377831|NCT02413229|164463675|SUPERIORITY|||||||0.5224|||||||Cochran-Mantel-Haenszel|||||||0.5224
82377832|NCT02413229|164463675|SUPERIORITY|||||||0.389|||||||Cochran-Mantel-Haenszel|||||||0.3890
82377833|NCT02413229|164463675|SUPERIORITY|||||||0.0325|||||||Cochran-Mantel-Haenszel|||||||.0325
82377834|NCT01232452|164463676|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.848|TWO_SIDED|95.0|0.73|1.47|||Log Rank|||||1.47|0.73|0.848
82377835|NCT01232452|164463677|SUPERIORITY|||||||0.338|||||||Fisher Exact|||||||0.338
82377836|NCT05219448|164463696|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.17|TWO_SIDED|95.0|-3.2|18.0||Unadjusted p value presented. The a priori threshold for statistical significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same when compared to children in the no-treatment control arm (measured through hair biomarker).||18.0|-3.2|0.17
82439150|NCT01774097|164586380|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.6||0.591|TWO_SIDED|95.0|-4.1|2.3||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||2.3|-4.1|0.591
82439151|NCT01774097|164586381|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|2.0||0.722|TWO_SIDED|95.0|-3.3|4.7||Threshold 0.05; no adjustment for multiple comparisons per protocol.|Regression, Linear|||||4.7|-3.3|0.722
82439152|NCT00557310|164586382|SUPERIORITY_OR_OTHER|||||||0.363||95.0|||||Mixed Model Repeated Measurements|||||||0.363
82439153|NCT00557310|164586383|SUPERIORITY_OR_OTHER|||||||0.837||95.0|||||Mixed Model Repeated Measurements|||||||0.837
82439154|NCT00557310|164586384|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||P-value is for the percent change from baseline at 18 months.|Mixed Model Repeated Measurements|||||||0.816
82439155|NCT00557310|164586384|SUPERIORITY_OR_OTHER|||||||0.934||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.934
82439156|NCT00557310|164586385|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||P-value is for the percent change from baseline at 18 months.|Mixed Model Repeated Measures|||||||0.324
82377837|NCT05219448|164463697|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.6|TWO_SIDED|95.0|-24.3|14.0||Unadjusted P-value. The threshold for significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same for caregivers in community A arm when compared to caregivers in the no-treatment control arm (measured through hair biomarker).||14.0|-24.3|0.60
82377838|NCT05219448|164463697|SUPERIORITY||Mean Difference (Final Values)|-24.7||||0.013|TWO_SIDED|95.0|-44.1|-5.4||The P-value is unadjusted. The threshold for significance is 0.05.|Regression, Linear|||Null hypothesis: The change in added sugar intake from baseline to 6-months will be the same for caregivers in community B when compared to caregivers in the no-treatment control arm (measured through hair biomarker).||-5.4|-44.1|0.013
82377839|NCT03022370|164463702|SUPERIORITY||Odds Ratio (OR)|0.92|||=|0.686|TWO_SIDED|95.0|0.62|1.37|||Regression, Logistic|||||1.37|0.62|=0.686
82377840|NCT03022370|164463702|SUPERIORITY||Odds Ratio (OR)|0.71|||=|0.032|TWO_SIDED|95.0|0.51|0.97|||Regression, Logistic|||||0.97|0.51|=0.032
82377841|NCT03022370|164463703|SUPERIORITY||Odds Ratio (OR)|0.9||||0.555|TWO_SIDED|95.0|0.64|1.28|||Regression, Logistic|||||1.28|0.64|0.555
82377842|NCT03022370|164463703|SUPERIORITY||Odds Ratio (OR)|0.74||||0.072|TWO_SIDED|95.0|0.54|1.03|||Regression, Logistic|||||1.03|0.54|0.072
82377843|NCT03022370|164463704|SUPERIORITY||Odds Ratio (OR)|0.93||||0.672|TWO_SIDED|95.0|0.66|1.31|||Regression, Logistic|||||1.31|0.66|0.672
82377844|NCT03022370|164463704|SUPERIORITY||Odds Ratio (OR)|0.7||||0.019|TWO_SIDED|95.0|0.52|0.94|||Regression, Logistic|||||0.94|0.52|0.019
82439157|NCT00557310|164586385|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measures|||||||0.089
82439158|NCT00557310|164586386|SUPERIORITY_OR_OTHER|||||||0.847||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 18 months.||||||0.847
82439159|NCT00557310|164586386|SUPERIORITY_OR_OTHER|||||||0.212||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.212
82377845|NCT03022370|164463705|SUPERIORITY||Slope|-0.01||||0.984|TWO_SIDED|95.0|-0.88|0.86|||Regression, Linear|||||0.86|-0.88|0.984
82377846|NCT03022370|164463705|SUPERIORITY||Slope|0.06||||0.839|TWO_SIDED|95.0|-0.51|0.63|||Regression, Linear|||||0.63|-0.51|0.839
82377847|NCT03022370|164463706|SUPERIORITY||Slope|0.97|||<|0.0001|TWO_SIDED|95.0|0.43|1.51|||Tobit|Log + 1 performed on data||||1.51|0.43|<0.0001
82377848|NCT03022370|164463706|SUPERIORITY||Slope|0.21||||0.521|TWO_SIDED|95.0|-0.42|0.83|||Tobit|Log plus 1 to transform data||||0.83|-0.42|0.521
82377849|NCT03022370|164463707|SUPERIORITY||Slope|0.25||||0.718|TWO_SIDED|95.0|-1.09|1.58|||Regression, Linear|||||1.58|-1.09|0.718
82377850|NCT03022370|164463707|SUPERIORITY||Slope|-0.3||||0.712|TWO_SIDED|95.0|-1.87|1.28|||Regression, Linear|||||1.28|-1.87|0.712
82439160|NCT00557310|164586387|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 3 months.||||||0.335
82377851|NCT03022370|164463708|SUPERIORITY||Slope|-1.52||||0.067|TWO_SIDED|95.0|-3.14|0.11|||Regression, Linear|||||0.11|-3.14|0.067
82377852|NCT03022370|164463708|SUPERIORITY||Slope|-0.75||||0.398|TWO_SIDED|95.0|-2.48|0.99|||Regression, Linear|||||0.99|-2.48|0.398
82377853|NCT03022370|164463709|SUPERIORITY||Odds Ratio (OR)|1.29||||0.228|TWO_SIDED|95.0|0.85|1.97|||Regression, Logistic|||||1.97|0.85|0.228
82377854|NCT03022370|164463709|SUPERIORITY||Odds Ratio (OR)|0.86||||0.558|TWO_SIDED|95.0|0.53|1.41|||Regression, Logistic|||||1.41|0.53|0.558
82377855|NCT03022370|164463710|SUPERIORITY||Slope|0.14||||0.679|TWO_SIDED|95.0|-0.52|0.8|||Regression, Linear|||||0.80|-0.52|0.679
82377856|NCT03022370|164463710|SUPERIORITY||Slope|0.55||||0.08|TWO_SIDED|95.0|-0.07|1.16|||Regression, Linear|||||1.16|-0.07|0.08
82377857|NCT03022370|164463711|SUPERIORITY||Slope|-0.13||||0.81|TWO_SIDED|95.0|-1.21|0.95|||Regression, Linear|||||0.95|-1.21|0.810
82377858|NCT03022370|164463711|SUPERIORITY||Slope|-1.03||||0.041|TWO_SIDED|95.0|-2.01|-0.04|||Regression, Linear|||||-0.04|-2.01|0.041
82377859|NCT03022370|164463712|SUPERIORITY||Odds Ratio (OR)|1.14||||0.635|TWO_SIDED|95.0|0.67|1.92|||Regression, Logistic|||||1.92|0.67|0.635
82377860|NCT03022370|164463712|SUPERIORITY||Odds Ratio (OR)|0.72||||0.256|TWO_SIDED|95.0|0.41|1.27|||Regression, Logistic|||||1.27|0.41|0.256
82377861|NCT03022370|164463713|SUPERIORITY||Odds Ratio (OR)|1.16||||0.526|TWO_SIDED|95.0|0.73|1.84|||Regression, Logistic|||||1.84|0.73|0.526
82377862|NCT03022370|164463713|SUPERIORITY||Odds Ratio (OR)|1.02||||0.931|TWO_SIDED|95.0|0.67|1.56|||Regression, Logistic|||||1.56|0.67|0.931
82377863|NCT03022370|164463714|SUPERIORITY||Odds Ratio (OR)|0.92||||0.691|TWO_SIDED|95.0|0.63|1.36|||Regression, Logistic|||||1.36|0.63|0.691
82377864|NCT03022370|164463714|SUPERIORITY||Odds Ratio (OR)|0.92||||0.692|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||||1.40|0.60|0.692
82377865|NCT03022370|164463715|SUPERIORITY||Slope|-0.31||||0.137|TWO_SIDED|95.0|-0.72|0.24|||Regression, Linear|||||0.24|-0.72|0.137
82377866|NCT03022370|164463715|SUPERIORITY||Slope|-0.09||||0.721|TWO_SIDED|95.0|-0.58|0.4|||Regression, Linear|||||0.40|-0.58|0.721
82377867|NCT03022370|164463716|SUPERIORITY||Slope|-0.23||||0.332|TWO_SIDED|95.0|-0.7|0.24|||Regression, Linear|||||0.24|-0.70|0.332
82377868|NCT03022370|164463716|SUPERIORITY||Slope|-0.19||||0.468|TWO_SIDED|95.0|-0.71|0.32|||Regression, Linear|||||0.32|-0.71|0.468
82377869|NCT03022370|164463717|SUPERIORITY||Odds Ratio (OR)|1.3||||0.174|TWO_SIDED|95.0|0.89|1.9|||Regression, Logistic|||||1.90|0.89|0.174
82377870|NCT03022370|164463717|SUPERIORITY||Odds Ratio (OR)|1.49||||0.129|TWO_SIDED|95.0|0.89|2.5|||Regression, Logistic|||||2.50|0.89|0.129
82377871|NCT03022370|164463718|SUPERIORITY||Odds Ratio (OR)|1.3||||0.174|TWO_SIDED|95.0|0.89|1.9|||Regression, Logistic|||||1.90|0.89|0.174
82439161|NCT00557310|164586387|SUPERIORITY_OR_OTHER|||||||0.916||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||0.916
82439162|NCT00557310|164586387|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||P-value is for the percent change from baseline at 12 months.|Mixed Model Repeated Measurements|||||||0.610
82439163|NCT00557310|164586387|SUPERIORITY_OR_OTHER|||||||0.363||95.0|||||Mixed Model Repeated Measurements|P-value is for the percent change from baseline at 18 months.||||||0.363
82439164|NCT00557310|164586387|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.837
82439165|NCT00557310|164586388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82439166|NCT00557310|164586389|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||ANOVA|||||||0.021
82439167|NCT00557310|164586390|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82439168|NCT00557310|164586391|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
82623850|NCT03351478|164963059|SUPERIORITY||Percentage Difference|16.9||||0.0001|TWO_SIDED|95.0|9.26|24.52|||Cochran-Mantel-Haenszel|||The percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at the screening.||24.52|9.26|0.0001
82439169|NCT00557310|164586392|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||<0.001
82439170|NCT00557310|164586392|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||<0.001
82439171|NCT00557310|164586393|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.011
82439172|NCT00557310|164586393|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.049
82623851|NCT02141217|164963126|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|1.5|||||TWO_SIDED|95.0|-4.9|8.0||||||||8.0|-4.9|
82623852|NCT02141217|164963127|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|0.9|||||TWO_SIDED|95.0|-5.6|7.4||||||||7.4|-5.6|
82623853|NCT02141217|164963128|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of non-inferiority was based on Farrington and Manning method. The upper limit of two-sided 95% confidence interval of less than 10 % provide enough evidence to show the non-inferiority between the treatment arms.|Treatment Difference (percentage)|2.3|||||TWO_SIDED|95.0|-4.4|9.0||||||||9.0|-4.4|
82623854|NCT01899677|164963140|SUPERIORITY_OR_OTHER|||||||0.32|||||||Mann whitney U|||Mann Whitney U test was used to compare cytokine levels between groups.||||0.32
82623855|NCT01899677|164963141|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mann whitney U|||||||0.73
82623856|NCT01899677|164963142|SUPERIORITY_OR_OTHER|||||||0.66|||||||Mann whitney U|||||||0.66
82623857|NCT01899677|164963143|SUPERIORITY_OR_OTHER|||||||0.76|||||||Mann whitney U|||||||0.76
82623858|NCT00618995|164963154|NON_INFERIORITY_OR_EQUIVALENCE|Two treatments are comparable if the geometric mean ratio (GMR) is contained within the interval \[0.50-2.00\].|Geometric least-squares mean ratio|0.97||||||90.0|0.8|1.18||||||The endpoint is the urine levels of 11-dTxB2 on Day 7 following a 7 day course of daily dosing in the overall 24 hour collection interval. The point estimate and 90% confidence intervals (CIs) were calculated for the geometric mean ratio (GMR) \[Treatment A/B\] of the urine levels of 11-dTxB2 on Day 7.||1.18|0.8|
82377872|NCT03022370|164463718|SUPERIORITY||Odds Ratio (OR)|0.96||||0.836|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||||1.43|0.64|0.836
82377873|NCT01565356|164463721|SUPERIORITY_OR_OTHER||Kappa statistic|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||Cohen's (simple) kappa statistic||1.00|1.00|
82439173|NCT00557310|164586394|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.700
82439174|NCT00557310|164586394|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.092
82439175|NCT00557310|164586395|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.013
82439176|NCT00557310|164586395|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.005
82439177|NCT00557310|164586396|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||P-value is for the percent change from baseline at 18 months.|ANOVA|||||||0.106
82439178|NCT00557310|164586396|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||P-value is for the percent change from baseline at 24 months.|ANOVA|||||||0.436
82439179|NCT00557310|164586397|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 3 months.|Mixed Model Repeated Measurements|||||||<0.001
82439180|NCT00557310|164586397|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||<0.001
82439181|NCT00557310|164586397|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||<0.001
82439182|NCT00557310|164586398|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for the percent change from baseline at 3 months.|Mixed Model Repeated Measurements|||||||0.012
82439183|NCT00557310|164586398|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for the percent change from baseline at 6 months.|Mixed Model Repeated Measurements|||||||0.012
82439184|NCT00557310|164586398|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for the percent change from baseline at 24 months.|Mixed Model Repeated Measurements|||||||0.016
82623859|NCT00618995|164963154|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.77|1.14||||||||1.14|0.77|
82623860|NCT00618995|164963154|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.87||||||90.0|0.71|1.05||||||||1.05|0.71|
82623861|NCT00618995|164963154|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.84||||||90.0|0.69|1.02||||||||1.02|0.69|
82623862|NCT00618995|164963154|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.92||||||90.0|0.76|1.13||||||||1.13|0.76|
82623863|NCT00618995|164963154|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.9||||||90.0|0.74|1.09||||||||1.09|0.74|
82623864|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.84|1.06||||||||1.06|0.84|
82623865|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.94||||||90.0|0.84|1.05||||||||1.05|0.84|
82623866|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.57||||||90.0|0.51|0.64||||||||0.64|0.51|
82623867|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.54||||||90.0|0.48|0.6||||||||0.60|0.48|
82623868|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.6||||||90.0|0.54|0.67||||||||0.67|0.54|
82623869|NCT00618995|164963155|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|0.57||||||90.0|0.51|0.64||||||||0.64|0.51|
82623870|NCT01306032|164963163|SUPERIORITY_OR_OTHER|||||||0.034|||||||Log Rank|||||||0.034
82439185|NCT01271712|164586472|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-06|||||||Log Rank|stratified||The two treatment groups were compared using a stratified log rank test with a one-sided alpha of 0.01 stratified by (3rd vs 4th-line; and geographical region). The null hypothesis that both treatment arms have the same PFS distribution was tested against the alternative hypothesis that the distribution of PFS in the regorafenib arm is different from the control arm according to a proportional hazards relation between the treatment arms.||||<0.000001
82439186|NCT01271712|164586472|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.268|||||TWO_SIDED|95.0|0.185|0.388|||Regression, Cox|stratified|regorafenib over placebo|Hazard ratio and its 95% CI (Confidence Interval) was based on stratified Cox Regression Model||0.388|0.185|
82439187|NCT01271712|164586473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.285777|||||||Log Rank|stratified||||||0.285777
82439188|NCT01271712|164586473|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.909|||||TWO_SIDED|95.0|0.653|1.265|||Regression, Cox|stratified|regorafenib over control. 58 (87.9%) patients in placebo group and 91 (68.4%) patients in regorafenib had started open-label treatment with regorafenib before time of final database cutoff 08 Jun 2015.|Hazard ratio and its 95% CI was based on stratified Cox Regression Model||1.265|0.653|
82439189|NCT01271712|164586474|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-06|||||||Log Rank|stratified||||||<0.000001
82439190|NCT01271712|164586474|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.248|||||TWO_SIDED|95.0|0.17|0.364|||Regression, Cox|stratified||||0.364|0.170|
82439191|NCT02308163|164586497|SUPERIORITY||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.76|5.58||Closed testing procedure was used for multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR20-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.58|1.76|<0.001
82439192|NCT02308163|164586497|SUPERIORITY||Odds Ratio (OR)|6.59|||<|0.001|TWO_SIDED|95.0|3.56|12.2||Closed testing procedure was used for multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR20-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.20|3.56|<0.001
82439193|NCT02308163|164586499|SUPERIORITY||Odds Ratio (OR)|4.79|||<|0.001|TWO_SIDED|95.0|2.14|10.75||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR50-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||10.75|2.14|<0.001
82439194|NCT02308163|164586499|SUPERIORITY||Odds Ratio (OR)|7.86|||<|0.001|TWO_SIDED|95.0|3.53|17.5||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR50-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||17.50|3.53|<0.001
82623871|NCT01306032|164963163|SUPERIORITY_OR_OTHER|||||||0.68|||||||Log Rank|||||||0.68
82439195|NCT02308163|164586501|SUPERIORITY||Odds Ratio (OR)|39.93|||<|0.001|TWO_SIDED|95.0|5.29|301.61||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: ACR70-CRP response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo. Difference vs. Peficitinib 100mg was not estimable.||301.61|5.29|<0.001
82439196|NCT02308163|164586503|SUPERIORITY||LS mean|-1.06|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.41|-0.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.71|-1.41|<0.001
82439197|NCT02308163|164586503|SUPERIORITY||LS mean|-1.55|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.86|-1.24||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.24|-1.86|<0.001
82439198|NCT02308163|164586505|SUPERIORITY||LS mean|-1.03|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.38|-0.67||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.67|-1.38|<0.001
82439199|NCT02308163|164586505|SUPERIORITY||LS mean|-1.64|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.96|-1.31||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: DAS28 Change = Treatment + Baseline DAS28 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.31|-1.96|<0.001
82500666|NCT02927080|164692221|SUPERIORITY||Mean Difference (Final Values)|4.69|STANDARD_ERROR_OF_MEAN|4.968||0.3451|TWO_SIDED|90.0|-3.48|12.86|||ANCOVA|||D190 Percent change from baseline in time to complete a 10 meter walk/run||12.86|-3.48|0.3451
82572754|NCT01271504|164855470|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.56|1.5||||||||1.50|0.56|
82572755|NCT01271504|164855471|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.57|1.5||||||||1.50|0.57|
82572756|NCT01271504|164855473|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.6|1.62||||||||1.62|0.60|
82623872|NCT02988219|164963168|SUPERIORITY_OR_OTHER|||||||0.3861|||||||Chi-squared|||Bradycardia during surgery||||0.3861
82572757|NCT01667406|164855475|OTHER|Fishers exact conditional test was used to confirm significance|Mean Difference (Final Values)|6.0|||||ONE_SIDED|95.0||||||||Data presented using descriptive statistics. Confidence intervals were derived for the difference between the means of different doses.||||
82572758|NCT01667406|164855475|OTHER||||||<|0.05|||||||Fisher Exact|||Phase 2||||<0.05
82439200|NCT02308163|164586507|SUPERIORITY||LS mean|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-6.8|-2.4||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-2.4|-6.8|<0.001
82439201|NCT02308163|164586507|SUPERIORITY||LS mean|-6.1|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-8.1|-4.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-4.0|-8.1|<0.001
82439202|NCT02308163|164586509|SUPERIORITY||LS mean|-3.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-4.6|-1.4||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.4|-4.6|<0.001
82439203|NCT02308163|164586509|SUPERIORITY||LS mean|-5.3|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-6.8|-3.9||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: TJC68 Change = Treatment + Baseline TJC68 + the prior biologic - DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-3.9|-6.8|<0.001
82439204|NCT02308163|164586511|SUPERIORITY||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.31|17.67||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||17.67|2.31|<0.001
82439205|NCT02308163|164586511|SUPERIORITY||Odds Ratio (OR)|10.13|||<|0.001|TWO_SIDED|95.0|3.76|27.27||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||27.27|3.76|<0.001
82439206|NCT02308163|164586513|SUPERIORITY||Odds Ratio (OR)|21.72||||0.003|TWO_SIDED|95.0|2.83|166.66||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score \< 2.6 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo. Difference vs. Peficitinib 100mg was not estimable.||166.66|2.83|0.003
82439207|NCT02308163|164586515|SUPERIORITY||Odds Ratio (OR)|5.8|||<|0.001|TWO_SIDED|95.0|2.74|12.29||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.29|2.74|<0.001
82439208|NCT02308163|164586515|SUPERIORITY||Odds Ratio (OR)|9.66|||<|0.001|TWO_SIDED|95.0|4.57|20.41||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-CRP score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||20.41|4.57|<0.001
82439209|NCT02308163|164586517|SUPERIORITY||Odds Ratio (OR)|3.24||||0.012|TWO_SIDED|95.0|1.29|8.12||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||8.12|1.29|0.012
82439210|NCT02308163|164586517|SUPERIORITY||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|96.0|3.42|19.63||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: DAS28-ESR score ≤ 3.2 (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||19.63|3.42|<0.001
82439211|NCT02308163|164586519|SUPERIORITY||LS Mean|-1.112|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.546|-0.679||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: CRP Change = Treatment + Baseline CRP + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-0.679|-1.546|<0.001
82439212|NCT02308163|164586519|SUPERIORITY||LS mean|-1.677|STANDARD_ERROR_OF_MEAN|0.221|<|0.001|TWO_SIDED|95.0|-2.114|-1.241||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: CRP Change = Treatment + Baseline CRP + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.241|-2.114|<0.001
82623873|NCT02988219|164963168|SUPERIORITY_OR_OTHER|||||||0.2591|||||||Chi-squared|||No bradycardia observed in the perioperative period||||0.2591
82623874|NCT02988219|164963169|SUPERIORITY_OR_OTHER|||||||0.597|||||||Chi-squared|||Arrhythmia before surgery||||0.597
82623875|NCT02988219|164963169|SUPERIORITY_OR_OTHER|||||||0.4|||||||Chi-squared|||arrhythmia during surgery||||0.4
82623876|NCT02988219|164963169|SUPERIORITY_OR_OTHER|||||||0.6544|||||||Chi-squared|||arrhythmia after surgery||||0.6544
82623877|NCT02988219|164963169|SUPERIORITY_OR_OTHER|||||||0.077|||||||Chi-squared|||long QTc \> 0.45s after surgery||||0.077
82623878|NCT02988219|164963169|SUPERIORITY_OR_OTHER|||||||0.0174|||||||Chi-squared|||long QTc \> 0.24 s in the perioperative time||||0.0174
82439213|NCT02308163|164586521|SUPERIORITY||LS mean|-10.9|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-15.95|-5.84||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: ESR Change = Treatment + Baseline ESR + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-5.84|-15.95|<0.001
82439214|NCT02308163|164586521|SUPERIORITY||LS mean|-21.14|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-26.01|-16.27||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: ESR Change = Treatment + Baseline ESR + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-16.27|-26.01|<0.001
82439215|NCT02308163|164586523|SUPERIORITY||Odds Ratio (OR)|6.64|||<|0.001|TWO_SIDED|95.0|2.98|14.83||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||14.83|2.98|<0.001
82439216|NCT02308163|164586523|SUPERIORITY||Odds Ratio (OR)|10.86|||<|0.001|TWO_SIDED|95.0|4.91|24.03||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||24.03|4.91|<0.001
82439217|NCT02308163|164586525|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.001|TWO_SIDED|95.0|2.38|8.04||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||8.04|2.38|<0.001
82439218|NCT02308163|164586525|SUPERIORITY||Odds Ratio (OR)|16.78|||<|0.001|TWO_SIDED|95.0|7.31|38.51||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||38.51|7.31|<0.001
82439219|NCT02308163|164586527|SUPERIORITY||Odds Ratio (OR)|4.29||||0.006|TWO_SIDED|95.0|1.52|12.08||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||12.08|1.52|0.006
82439220|NCT02308163|164586527|SUPERIORITY||Odds Ratio, log|11.01|||<|0.001|TWO_SIDED|95.0|4.07|29.74||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||29.74|4.07|<0.001
82439221|NCT02308163|164586529|SUPERIORITY||Odds Ratio (OR)|3.82|||<|0.001||95.0|2.11|6.93||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||6.93|2.11|<0.001
82443431|NCT04557787|164595217|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.532|TWO_SIDED|95.0|-0.54|0.28||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.28|-0.54|0.532
82623879|NCT04446299|164963227|NON_INFERIORITY|The predetermined non-inferiority margin was 10%.|Risk Difference (RD)|3.42|||<|0.001|TWO_SIDED|95.0|-1.68|8.52|||Mantel Haenszel|||||8.52|-1.68|<0.001
82623880|NCT01700985|164963234|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82623881|NCT01700985|164963235|SUPERIORITY||||||<|0.0001||||||At Day 15.|Fisher Exact|||||||<0.0001
82623882|NCT01700985|164963236|SUPERIORITY||||||<|0.0001||||||At Day 15.|Fisher Exact|||||||<0.0001
82623883|NCT01192204|164963282|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||Statistical analyses reflect percent change intrapatient pre versus post histologic grade scores|Wilcoxon matched-pairs signed rank test|We used a 2-tailed Mann Whitney U test to evaluate these data.||Wilcoxon matched-pairs signed rank test (intrapatient pre versus post treatment scores)||||0.048
82623884|NCT01192204|164963282|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Statistical analyses reflect percent change pre versus post histologic grade scores|Wilcoxon matched-pairs signed rank test|||Wilcoxon matched-pairs signed rank test (pre versus post treatment scores)||||0.50
82623885|NCT01192204|164963283|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||Wilcoxon matched-pairs signed rank test|specifically, we used the Wilcoxon matched-pairs signed rank test.||||||<0.002
82623886|NCT01192204|164963283|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Wilcoxon matched-pairs signed rank test|||||||0.036
82623887|NCT01192204|164963284|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||2-tailed unpaired t test|||||||0.002
82623888|NCT01192204|164963284|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||two-tailed unpaired t test|||||||0.16
82623889|NCT00493974|164963361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3876||95.0|||||Wilcoxon (Mann-Whitney)|||||||.3876
82623890|NCT00493974|164963362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6413||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6413
82623891|NCT00493974|164963363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6433||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6433
82623892|NCT00493974|164963364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0|||||Chi-squared|||||||0.63
82623893|NCT00493974|164963365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4957||95.0|||||t-test, 2 sided|||||||0.4957
82623894|NCT00493974|164963366|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82439222|NCT02308163|164586529|SUPERIORITY||Odds Ratio (OR)|13.65|||<|0.001|TWO_SIDED|95.0|6.39|29.17||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Wald's chi-squared test||Based on logistic regression model: Good or Moderate Response (responder, non-responder) = Treatment + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||29.17|6.39|<0.001
82439223|NCT02308163|164586535|SUPERIORITY||LS Mean|-9.94|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-13.66|-6.22||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SDAI Change = Treatment + Baseline SDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-6.22|-13.66|<0.001
82439224|NCT02308163|164586535|SUPERIORITY||Odds Ratio (OR)|-14.43|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-17.71|-11.15||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SDAI Change = Treatment + Baseline SDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-11.15|-17.71|<0.001
82439225|NCT02308163|164586539|SUPERIORITY||LS mean|-8.69|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-12.19|-5.2||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|ANCOVA||Based on ANCOVA Model: CDAI Change = Treatment + Baseline CDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-5.20|-12.19|<0.001
82439226|NCT02308163|164586539|SUPERIORITY||LS mean|-12.83|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-15.96|-9.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|ANCOVA||Based on ANCOVA Model: CDAI Change = Treatment + Baseline CDAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.71|-15.96|<0.001
82439227|NCT02308163|164586541|SUPERIORITY||LS mean|-15.2|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|-21.4|-9.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.00|-21.40|<0.001
82439228|NCT02308163|164586541|SUPERIORITY||LS mean|-23.14|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-28.78|-17.51||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.51|-28.78|<0.001
82439229|NCT02308163|164586543|SUPERIORITY||LS mean|-16.88|STANDARD_ERROR_OF_MEAN|3.51|<|0.001|TWO_SIDED|95.0|-23.81|-9.95||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-9.95|-23.81|<0.001
82439230|NCT02308163|164586543|SUPERIORITY||LS mean|-23.56|STANDARD_ERROR_OF_MEAN|3.18|<|0.001|TWO_SIDED|95.0|-29.83|-17.28||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.28|-29.83|<0.001
82439231|NCT02308163|164586545|SUPERIORITY||LS mean|-17.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-24.36|-10.81||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA of pain (100 mm VAS) Change = Treatment + Baseline SGA of pain (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.81|-24.36|<0.001
82439232|NCT02308163|164586545|SUPERIORITY||LS mean|-23.9|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-30.24|-17.57||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SGA of pain (100 mm VAS) Change = Treatment + Baseline SGA of pain (100 mm VAS) + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-17.57|-30.24|<0.001
82439233|NCT02308163|164586547|SUPERIORITY|||||||0.033||||||No Multiplicity Adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Fisher Exact|||Treatment Difference vs Placebo||||0.033
82439234|NCT02308163|164586547|SUPERIORITY|||||||0.035||||||No Multiplicity Adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Fisher Exact|||Treatment Difference vs Placebo||||0.035
82439235|NCT02308163|164586548|SUPERIORITY||LS mean|-0.34|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.48|-0.2||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: HAQ-DI Change = Treatment + Baseline HAQ-DI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea., and Taiwan)|Treatment Difference vs Placebo||-0.20|-0.48|<0.001
82623895|NCT00493974|164963367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||t-test, 2 sided|||||||0.006
82623896|NCT01861054|164963415|OTHER|||||||0.3149||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Comparison on ALDH+ cells by ALDEFLUOR assay||||0.3149
82623897|NCT01861054|164963415|OTHER|||||||0.8148||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Comparison on CD44+/CD24- by flow citometry||||0.8148
82623898|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho AKT Extent||||>0.9999
82623899|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho-AKT Intensity||||>0.9999
82439236|NCT02308163|164586548|SUPERIORITY||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.53|-0.26||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: HAQ-DI Change = Treatment + Baseline HAQ-DI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea., and Taiwan)|Treatment Difference vs Placebo||-0.26|-0.53|<0.001
82439237|NCT02308163|164586550|SUPERIORITY||LS mean|6.87|STANDARD_ERROR_OF_MEAN|1.61|<|0.001|TWO_SIDED|95.0|3.69|10.05||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||10.05|3.69|<0.001
82439238|NCT02308163|164586550|SUPERIORITY||LS mean|6.98|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|4.11|9.85||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||9.85|4.11|<0.001
82439239|NCT02308163|164586552|SUPERIORITY||LS mean|2.89|STANDARD_ERROR_OF_MEAN|1.0||0.004|TWO_SIDED|95.0|0.91|4.87||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||4.87|0.91|0.004
82439240|NCT02308163|164586552|SUPERIORITY||LS mean|3.25|STANDARD_ERROR_OF_MEAN|0.98||0.001|TWO_SIDED|95.0|1.3|5.19||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.19|1.30|0.001
82439241|NCT02308163|164586554|SUPERIORITY||LS mean|2.27|STANDARD_ERROR_OF_MEAN|1.8||0.21|TWO_SIDED|95.0|-1.29|5.83||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||5.83|-1.29|0.210
82439242|NCT02308163|164586554|SUPERIORITY||LS mean|6.23|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|2.74|9.71||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: SF-36v2 Change = Treatment + Baseline SF-36v2 + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||9.71|2.74|<0.001
82439243|NCT02308163|164586556|SUPERIORITY||LS mean|-8.55|STANDARD_ERROR_OF_MEAN|3.81||0.027|TWO_SIDED|95.0|-16.11|-1.0||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-1.00|-16.11|0.027
82623900|NCT01861054|164963416|OTHER|||||||0.2245|||||||Wilcoxon (Mann-Whitney)|||AKT Extent||||0.2245
82439244|NCT02308163|164586556|SUPERIORITY||LS mean|-10.17|STANDARD_ERROR_OF_MEAN|3.88||0.01|TWO_SIDED|95.0|-17.88|-2.47||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-2.47|-17.88|0.010
82623901|NCT01861054|164963416|OTHER|||||||0.5785|||||||Wilcoxon (Mann-Whitney)|||AKT Intensity||||0.5785
82623902|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||Phospho-FAK Extent||||>0.9999
82439245|NCT02308163|164586558|SUPERIORITY||LS mean|-20.67|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|TWO_SIDED|95.0|-30.44|-10.89||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.89|-30.44|<0.001
82439246|NCT02308163|164586558|SUPERIORITY||LS mean|-22.01|STANDARD_ERROR_OF_MEAN|5.06|<|0.001|TWO_SIDED|95.0|-32.06|-11.97||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-11.97|-32.06|<0.001
82500667|NCT02927080|164692221|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|6.03||0.9402|TWO_SIDED|90.0|-9.47|10.37|||ANCOVA|||D190 Percent change from baseline in time to complete 4-stair climb (ascend)||10.37|-9.47|0.9402
82623903|NCT01861054|164963416|OTHER|||||||0.3139|||||||Wilcoxon (Mann-Whitney)|||Phospho-FAK Intensity||||0.3139
82623904|NCT01861054|164963416|OTHER|||||||0.212|||||||Wilcoxon (Mann-Whitney)|||FAK Extent||||0.2120
82623905|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||FAK Intensity||||>0.9999
82623906|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||C-PTEN Extent||||>0.9999
82623907|NCT01861054|164963416|OTHER|||||||0.8728|||||||Wilcoxon (Mann-Whitney)|||C-PTEN Intensity||||0.8728
82623908|NCT01861054|164963416|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||D-PTEN Extent||||>0.9999
82623909|NCT01861054|164963416|OTHER|||||||0.8728|||||||Wilcoxon (Mann-Whitney)|||D-PTEN Intensity||||0.8728
82623910|NCT01861054|164963416|OTHER|||||||0.2265|||||||Wilcoxon (Mann-Whitney)|||CXCR1 Extent||||0.2265
82623911|NCT01861054|164963416|OTHER|||||||0.2403|||||||Wilcoxon (Mann-Whitney)|||CXCR1 Intensity||||0.2403
82623912|NCT01861054|164963417|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Interleukin 1 Beta||||>0.9999
82439247|NCT02308163|164586560|SUPERIORITY||LS mean|-20.22|STANDARD_ERROR_OF_MEAN|5.12|<|0.001|TWO_SIDED|95.0|-30.38|-10.06||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.06|-30.38|<0.001
82439248|NCT02308163|164586560|SUPERIORITY||LS mean|-23.67|STANDARD_ERROR_OF_MEAN|5.28|<|0.001|TWO_SIDED|95.0|-34.16|-13.17|||Covariance model|No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-13.17|-34.16|<0.001
82439249|NCT02308163|164586562|SUPERIORITY||LS mean|-17.3|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-24.0|-10.61||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-10.61|-24.00|<0.001
82439250|NCT02308163|164586562|SUPERIORITY||LS mean|-20.41|STANDARD_ERROR_OF_MEAN|3.13|<|0.001|TWO_SIDED|95.0|-26.59|-14.24||No multiplicity adjustment. Etanercept was open-label reference group and it was not included in statistical test.|Covariance model||Based on analysis of covariance model: WPAI Change = Treatment + Baseline WPAI + the prior biologic-DMARD-IR (No, Yes) + concomitant DMARD use (No, Yes) + study region (Japan, Korea, and Taiwan).|Treatment Difference vs Placebo||-14.24|-26.59|<0.001
82439251|NCT02118766|164586574|SUPERIORITY_OR_OTHER|||||||0.038|||||||Regression, Logistic|||||||0.038
82439252|NCT00118846|164586590|SUPERIORITY||Slope|-0.91||||0.35|TWO_SIDED|95.0|-2.86|1.05|||Mixed Models Analysis||Slope = Mean difference in annualized rate of change|||1.05|-2.86|0.35
82439253|NCT00118846|164586591|OTHER||Mean Difference (Net)|0.11||||0.36|TWO_SIDED|95.0|-0.13|0.35|||ANCOVA|||||0.35|-0.13|0.36
82439254|NCT00443053|164586598|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Fisher Exact|||||0.26|0.08|<0.001
82623913|NCT01861054|164963417|OTHER|||||||0.6945||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups|Wilcoxon (Mann-Whitney)|||Interleukin 6||||0.6945
82439255|NCT00443053|164586599|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.32|||Fisher Exact|||||0.32|0.12|<0.001
82439256|NCT05463744|164586631|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|0.052|||||TWO_SIDED|95.0|-0.077|0.181|||ANCOVA|||||0.181|-0.077|
82439257|NCT05463744|164586632|SUPERIORITY||LS Mean Difference|0.052||||0.432|TWO_SIDED|95.0|-0.077|0.181|||ANCOVA|||||0.181|-0.077|0.432
82439258|NCT05463744|164586633|SUPERIORITY||LS Mean Difference|-0.31||||0.751|TWO_SIDED|95.0|-2.22|1.6|||ANCOVA|||||1.60|-2.22|0.751
82439259|NCT05463744|164586634|SUPERIORITY||Relative Rate|1.02||||0.9|TWO_SIDED|95.0|0.79|1.31|||Negative binomial model|||||1.31|0.79|0.900
82439260|NCT05463744|164586635|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0682|||TWO_SIDED|95.0|-0.11|0.157|||ANCOVA|||||0.157|-0.110|
82439261|NCT05463744|164586636|SUPERIORITY||LS Mean Difference|-1.22||||0.697|TWO_SIDED|95.0|-7.38|4.93|||ANCOVA|||Week 26||4.93|-7.38|0.697
82439262|NCT05463744|164586636|SUPERIORITY||LS Mean Difference|-4.84||||0.163|TWO_SIDED|95.0|-11.64|1.96|||ANCOVA|||Week 52||1.96|-11.64|0.163
82439263|NCT05463744|164586637|SUPERIORITY||LS Mean Difference|0.02||||0.939|TWO_SIDED|95.0|-0.61|0.66|||Mixed Models Analysis|||Week 23 to Week 26||0.66|-0.61|0.939
82439264|NCT05463744|164586637|SUPERIORITY||LS Mean Difference|0.52||||0.116|TWO_SIDED|95.0|-0.13|1.17|||Mixed Models Analysis|||Week 49 to Week 52||1.17|-0.13|0.116
82439265|NCT05463744|164586638|SUPERIORITY||LS Mean Difference|0.54||||0.61|TWO_SIDED|95.0|-1.54|2.62|||ANCOVA|||||2.62|-1.54|0.610
82439266|NCT05463744|164586639|SUPERIORITY||LS Mean Difference|-8.96||||0.155|TWO_SIDED|95.0|-21.3|3.38|||Mixed Models Analysis|||Week 26||3.38|-21.30|0.155
82439267|NCT05463744|164586639|SUPERIORITY||LS Mean Difference|-6.88||||0.278|TWO_SIDED|95.0|-19.31|5.55|||Mixed Models Analysis|||Week 52||5.55|-19.31|0.278
82439268|NCT05463744|164586640|SUPERIORITY||LS Mean Difference|-3.77|||<|0.001|TWO_SIDED|95.0|-5.52|-2.03|||Mixed Models Analysis|||Week 26||-2.03|-5.52|<0.001
82439269|NCT05463744|164586640|SUPERIORITY||LS Mean Difference|-3.49|||<|0.001|TWO_SIDED|95.0|-5.26|-1.71|||Mixed Models Analysis|||Week 52||-1.71|-5.26|<0.001
82439270|NCT05463744|164586641|SUPERIORITY||LS Mean Difference|-39.28|||<|0.001|TWO_SIDED|95.0|-57.59|-20.98|||Mixed Models Analysis|||Week 26||-20.98|-57.59|<0.001
82572759|NCT01667406|164855475|OTHER||Odds Ratio (OR)|0.05|||<|0.05|ONE_SIDED|95.0|||||Regression, Logistic||Estimate of difference in success rates and estimate of odds ratio for success were derived, with P value comparing 2 treatment groups, 95% conﬁdence intervals.|Phase 3||||<0.05
82439271|NCT05463744|164586641|SUPERIORITY||LS Mean Difference|-35.94|||<|0.001|TWO_SIDED|95.0|-54.44|-17.43|||Mixed Models Analysis|||Week 52||-17.43|-54.44|<0.001
82439272|NCT05463744|164586642|SUPERIORITY||LS Mean Difference|3.19|||<|0.001|TWO_SIDED|95.0|1.32|5.06|||Mixed Models Analysis|||Week 26||5.06|1.32|<0.001
82439273|NCT05463744|164586642|SUPERIORITY||LS Mean Difference|2.8||||0.004|TWO_SIDED|95.0|0.91|4.7|||Mixed Models Analysis|||Week 52||4.70|0.91|0.004
82572760|NCT01667406|164855476|OTHER|secondary outcomes were analysed using descriptive statistics.||||||||||||||||Study data were summarised using standard descriptive methods. Continuous variables following a normal distribution have been summarised using mean and SD.|secondary outcomes were analysed using descriptive statistics.|||
82572761|NCT03865953|164855481|SUPERIORITY|Analysis used a two-period two-treatment crossover design|Mean Difference (Net)|-0.14||||0.67|TWO_SIDED|95.0|-0.76|0.49|||Mixed Models Analysis|||Subject numbers gave a 90% power to demonstrate a statistically significant difference in the mean change from baseline NPRS for the active treatment compared with placebo of at least 1 unit, with a two sided test at a 5% level of significance||0.49|-0.76|0.67
82572762|NCT00882115|164855496|OTHER||||||<|0.001|||||||ANOVA|Data followed the normal distribution, therefore, a parametric repeated measure (mixed model) ANOVA model was used to compare means.||Comparison was made to the 24 h minus baseline change in both control phase and intervention phase.||||<0.001
82439274|NCT05463744|164586643|SUPERIORITY||Relative Rate|1.21||||0.016|TWO_SIDED|95.0|1.04|1.41|||Negative binomial model|||||1.41|1.04|0.016
82439275|NCT05463744|164586644|SUPERIORITY||LS Mean Difference|0.086||||0.702|TWO_SIDED|95.0|-0.35|0.53|||Mixed Models Analysis|||Week 26||0.53|-0.35|0.702
82439276|NCT05463744|164586644|SUPERIORITY||LS Mean Difference|0.12||||0.609|TWO_SIDED|95.0|-0.33|0.56|||Mixed Models Analysis|||Week 52||0.56|-0.33|0.609
82439277|NCT05463744|164586645|SUPERIORITY||LS Mean Difference|0.03||||0.681|TWO_SIDED|95.0|-0.13|0.19|||ANCOVA|||Week 23 to Week 26||0.19|-0.13|0.681
82439278|NCT05463744|164586645|SUPERIORITY||LS Mean Difference|0.1||||0.182|TWO_SIDED|95.0|-0.05|0.24|||ANCOVA|||Week 49 to Week 52||0.24|-0.05|0.182
82439279|NCT05463744|164586646|SUPERIORITY||LS Mean Difference|0.0||||0.999|TWO_SIDED|95.0|-2.06|2.05|||ANCOVA|||Week 23 to Week 26||2.05|-2.06|0.999
82439280|NCT05463744|164586647|SUPERIORITY||LS Mean Difference|-0.83||||0.468|TWO_SIDED|95.0|-3.06|1.41|||ANCOVA|||||1.41|-3.06|0.468
82439281|NCT05463744|164586648|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82623914|NCT01861054|164963417|OTHER|||||||0.9448||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Interleukin 8||||0.9448
82500668|NCT02927080|164692222|SUPERIORITY||Mean Difference (Final Values)|36.12|STANDARD_ERROR_OF_MEAN|14.18||0.0183|TWO_SIDED|90.0|11.78|60.46|||ANCOVA|||||60.46|11.78|0.0183
82623915|NCT01861054|164963417|OTHER|||||||0.6292||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Tumor Necrosis Factor - alpha||||0.6292
82623916|NCT01861054|164963417|OTHER|||||||0.2354||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Granulocyte Macrophage Colony Stm Factor||||0.2354
82623917|NCT01861054|164963417|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Vascular Endothelial Growth Factor||||>0.9999
82439282|NCT05463744|164586649|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82439283|NCT05463744|164586650|SUPERIORITY||LS Mean Difference|0.43||||0.27|TWO_SIDED|95.0|-0.33|1.19|||Mixed Models Analysis|||Physical Component Score: Week 26||1.19|-0.33|0.270
82439284|NCT05463744|164586650|SUPERIORITY||LS Mean Difference|0.73||||0.05|TWO_SIDED|95.0|0.0|1.45|||Mixed Models Analysis|||Physical Component Score: Week 52||1.45|0.000|0.050
82439285|NCT05463744|164586650|SUPERIORITY||LS Mean Difference|0.22||||0.71|TWO_SIDED|95.0|-0.94|1.38|||Mixed Models Analysis|||Mental Component Score: Week 26||1.38|-0.94|0.710
82439286|NCT05463744|164586650|SUPERIORITY||LS Mean Difference|0.45||||0.447|TWO_SIDED|95.0|-0.71|1.61|||Mixed Models Analysis|||Mental Component Score: Week 52||1.61|-0.71|0.447
82439287|NCT00350272|164586665|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-13.5|||||TWO_SIDED|95.0|-35.2|8.2||||||The difference in proportions between the group of participants who received lamivudine 300 mg/day (in combination with efavirenz and tenofovir) over 12 weeks and the group of participants who received elvucitabine 10 mg/day (in combination with efavirenz and tenofovir) over 12 weeks along with corresponding 2-sided 95% confidence interval for risk difference using asymptotic normal theory.||8.2|-35.2|
82439288|NCT01357161|164586667|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.08|TWO_SIDED|80.0|0.45|0.89|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||0.89|0.45|0.080
82439289|NCT01357161|164586669|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55||||0.03|TWO_SIDED|80.0|0.39|0.79|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||0.79|0.39|0.030
82439290|NCT01357161|164586671|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|3.3|||||TWO_SIDED|95.0|-2.9|11.4||||||P-values and 95% confidence intervals were calculated using the Miettinen and Nurminen method for between-treatment differences (MK-1775 vs. placebo) in the percentage of participants with events.||11.4|-2.9|
82439291|NCT01357161|164586672|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|-1.3|||||TWO_SIDED|95.0|-16.2|13.6||||||P-values and 95% confidence intervals were calculated using the Miettinen and Nurminen method for between-treatment differences (MK-1775 vs. placebo) in the percentage of participants with events.||13.6|-16.2|
82439292|NCT01357161|164586673|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rat|5.2||||0.5247|TWO_SIDED|95.0|-10.9|21.1|||Miettinen and Nurminen's Method|||Stratified Miettinen and Nurminen's method with a two-sided p-Value for testing was used for comparison of the ORRs between the treatment groups in Part 2 portion of the study. A 95% confidence interval (CI) for the difference in response rates was provided.||21.1|-10.9|0.5247
82443432|NCT04557787|164595218|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.461|TWO_SIDED|95.0|-0.26|0.56||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.56|-0.26|0.461
82500669|NCT02927080|164692223|SUPERIORITY||Mean Difference (Final Values)|2.89|STANDARD_ERROR_OF_MEAN|1.7||0.0895|TWO_SIDED|90.0|0.09|5.69|||ANCOVA|||||5.69|0.09|0.0895
82623918|NCT01861054|164963417|OTHER|||||||0.4719||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|Wilcoxon (Mann-Whitney)|||Basic Fibroblast Growth Factor||||0.4719
82623919|NCT01861054|164963418|OTHER|||||||0.0951|||||||Wilcoxon (Mann-Whitney)|||CD31 Extent||||0.0951
82623920|NCT01861054|164963418|OTHER|||||||0.1643|||||||Wilcoxon (Mann-Whitney)|||CD31 Intensity||||0.1643
82623921|NCT01861054|164963419|OTHER|||||||0.4183|||||||Wilcoxon (Mann-Whitney)|||P62 Extent||||0.4183
82623922|NCT01861054|164963419|OTHER|||||||0.3702|||||||Wilcoxon (Mann-Whitney)|||P62 Intensity||||0.3702
82439293|NCT01357161|164586674|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.15||||0.8|TWO_SIDED|95.0|0.4|3.34|||Cox proportional hazards model|||A stratified \[number of prior platinum based regimens (1 vs. 2 and 3), time since last platinum based therapy (\<12 months vs. ≥12 months)\] Cox proportional hazards model, with Efron method of tie handling, was used to assess the magnitude of the treatment difference between the treatment arms. The p-value from the score test was used in the significance test and the hazard ratio (MK-1775 versus Placebo) and its 95% confidence interval from the same Cox model was reported.||3.34|0.40|0.800
82439294|NCT00068250|164586675|OTHER||||||||||||||||||Dose escalation followed the standard 3+3 design, although up to six patients could be accrued per dose level before suspending accrual for toxicity evaluation. If none of the first three patients (0/3), or one of the first three and none of the second three (1/3 and 0/3), experience a DLT, then the current dose level would be considered acceptable, and the next dose opened. Otherwise, the current dose level would be considered too toxic. The highest dose achieved with an acceptable level of toxicity was to considered the Maximum Tolerable Dose (MTD). If at any time a grade 5 toxicity was observed, accrual will be suspended, and the Study Chair would review the event. Furthermore, if the cumulative incidence (obtained by time to event analysis), at any time, of combined acute/late DLTs estimated the toxicity rate to be greater than 30% at any dose level, then the Executive Committee will be notified, and the committee would determine whether to stop accrual.|||
82439295|NCT00068250|164586676|SUPERIORITY|||||||0.006|||||||One-sample z-test|||Null hypothesis: Two-year survival rate \<= 64%; Alternative hypothesis: Two-year survival rate \> 64%. The fixed survival rate for comparison comes from Radiation Therapy Oncology Group (RTOG) trial 9310. (RTOG 9310 does not fall within ClinicalTrials.gov registration/reporting requirements.)||||0.006
82439296|NCT00068250|164586677|OTHER|||||||0.82|||||||Chi-squared|One-sample test of proportions||RTOG 93-10 reported a pre-irradiation chemotherapy complete response rate of 59%. A chi-square test with a 0.20 one-sided significance level provides 81% power to detect the difference between a null hypothesis complete response rate of 59% and the alternative rate of 71% (a 20% increase) for the planned sample size of 52 patients.||||0.82
82439297|NCT00098748|164586688|NON_INFERIORITY_OR_EQUIVALENCE|For hypothesis of superiority, if upper bound of 97.5% confidence interval (CI) of TX difference was \<0 log10 copies/mL, it was concluded that MVC regimen was superior to PBO meaning that MVC added to Optimized Background Therapy (OBT) provides an additional reduction in plasma HIV-1 RNA compared to OBT alone. If superiority could not be concluded, then a hypothesis of noninferiority was tested. If upper bound of CI is \<0.25 log10 copies/mL, noninferiority of MVC regimen to placebo was claimed.|Least squares mean|0.055|STANDARD_ERROR_OF_MEAN|0.2575|||TWO_SIDED|97.5|-0.528|0.638|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC versus (vs) PBO=advantage of MVC.|Maraviroc (MVC) QD versus placebo (PBO) treatment (TX) difference at Week 24. If upper bound of 97.5% confidence interval is \<0, it is concluded that dose is superior to PBO. If upper bound is \<0.25, it is concluded that MVC is non-inferior to PBO. Assumption: 79% of subjects are dual-tropic; total N=192 needed to be randomized to get N=150 dual-tropic. Standard deviation=0.8 with 2-sided p-value=0.025: 80% power for TX difference of 0.5 for change from baseline in log10-transformed viral load.||0.638|-0.528|
82439298|NCT00098748|164586688|SUPERIORITY_OR_OTHER||Least squares mean|-0.232|STANDARD_ERROR_OF_MEAN|0.2637|||TWO_SIDED|97.5|-0.829|0.364|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||0.364|-0.829|
82439299|NCT00098748|164586688|SUPERIORITY_OR_OTHER||Least squares mean|0.229|STANDARD_ERROR_OF_MEAN|0.2567|||TWO_SIDED|97.5|-0.351|0.81|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||0.810|-0.351|
82439300|NCT00098748|164586688|SUPERIORITY_OR_OTHER||Least squares mean|-0.261|STANDARD_ERROR_OF_MEAN|0.2628|||TWO_SIDED|97.5|-0.856|0.333|||ANCOVA|TX difference adjusted for randomization strata. Bonferroni adjustment for multiple comparisons by use of 2-sided 97.5% CI to maintain alpha=0.05.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||0.333|-0.856|
82439301|NCT00098748|164586689|SUPERIORITY_OR_OTHER||difference in proportions|0.03|||||TWO_SIDED|95.0|-0.12|0.18|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.18|-0.12|
82439302|NCT00098748|164586689|SUPERIORITY_OR_OTHER||difference in proportions|0.07|||||TWO_SIDED|95.0|-0.08|0.23|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.23|-0.08|
82572763|NCT00882115|164855496|OTHER||||||<|0.01|||||||ANOVA|Data followed the normal distribution, therefore, a parametric repeated measure (mixed model) ANOVA model was used to compare means.||Comparison waws made to the 6 hour minus baseline change in both control phase and intervention phase.||||<0.01
82623923|NCT01861054|164963424|OTHER|||||||0.6168||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Lymphocyte in WBC||||0.6168
82572764|NCT02768597|164855497|SUPERIORITY|||||||0.552|||||||ANOVA|||||||.552
82572765|NCT02768597|164855498|SUPERIORITY|||||||0.558|||||||ANOVA|||||||.558
82572766|NCT02768597|164855499|SUPERIORITY|||||||0.274|||||||Kruskal-Wallis|||||||.274
82572767|NCT02768597|164855500|SUPERIORITY|||||||0.539|||||||Kruskal-Wallis|||||||.539
82572768|NCT02768597|164855501|SUPERIORITY|||||||0.478|||||||Kruskal-Wallis|||||||.478
82572769|NCT02768597|164855502|SUPERIORITY|||||||0.527|||||||ANOVA|||||||.527
82572770|NCT02768597|164855503|SUPERIORITY|||||||0.823|||||||ANOVA|||||||.823
82572771|NCT02768597|164855504|SUPERIORITY|||||||0.231|||||||ANOVA|||||||.231
82572772|NCT02768597|164855505|SUPERIORITY|||||||0.595|||||||Kruskal-Wallis|||||||.595
82572773|NCT02768597|164855506|SUPERIORITY|||||||0.789|||||||Kruskal-Wallis|||||||.789
82439303|NCT00098748|164586689|SUPERIORITY_OR_OTHER||difference in proportions|0.02|||||TWO_SIDED|95.0|-0.12|0.17|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.17|-0.12|
82439304|NCT00098748|164586689|SUPERIORITY_OR_OTHER||difference in proportions|0.09|||||TWO_SIDED|95.0|-0.07|0.25|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.25|-0.07|
82439305|NCT00098748|164586690|SUPERIORITY_OR_OTHER||difference in proportions|0.03|||||TWO_SIDED|95.0|-0.15|0.2|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.20|-0.15|
82439306|NCT00098748|164586690|SUPERIORITY_OR_OTHER||difference in proportions|0.08|||||TWO_SIDED|95.0|-0.1|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.26|-0.10|
82439307|NCT00098748|164586690|SUPERIORITY_OR_OTHER||difference in proportions|-0.06|||||TWO_SIDED|95.0|-0.22|0.1|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.10|-0.22|
82439308|NCT00098748|164586690|SUPERIORITY_OR_OTHER||difference in proportions|0.11|||||TWO_SIDED|95.0|-0.07|0.28|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.28|-0.07|
82439309|NCT00098748|164586691|SUPERIORITY_OR_OTHER||difference in proportions|-0.05|||||TWO_SIDED|95.0|-0.21|0.12|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.12|-0.21|
82439310|NCT00098748|164586691|SUPERIORITY_OR_OTHER||difference in proportions|0.08|||||TWO_SIDED|95.0|-0.1|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 24.||0.26|-0.10|
82439311|NCT00098748|164586691|SUPERIORITY_OR_OTHER||difference in proportions|-0.02|||||TWO_SIDED|95.0|-0.18|0.13|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.13|-0.18|
82439312|NCT00098748|164586691|SUPERIORITY_OR_OTHER||difference in proportions|0.12|||||TWO_SIDED|95.0|-0.04|0.29|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.29|-0.04|
82439313|NCT00098748|164586692|SUPERIORITY_OR_OTHER||difference in proportions|0.07|||||TWO_SIDED|95.0|-0.07|0.2|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 24.||0.20|-0.07|
82377874|NCT02839772|164463723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.581|STANDARD_ERROR_OF_MEAN|0.296|<|0.001|TWO_SIDED|95.0|0.997|2.164|||Mixed Models Analysis|t=5.341, df=89.347||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function (SBF) in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the top of the outer lower legs by group from baseline after 3 months of interventions."||2.164|0.997|<0.001
82439314|NCT00098748|164586692|SUPERIORITY_OR_OTHER||difference in proportions|0.11|||||TWO_SIDED|95.0|-0.03|0.26|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO difference in proportions at Week 24.||0.26|-0.03|
82439315|NCT00098748|164586692|SUPERIORITY_OR_OTHER||difference in proportions|-0.04|||||TWO_SIDED|95.0|-0.18|0.1|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC QD vs PBO treatment difference in proportions at Week 48.||0.10|-0.18|
82439316|NCT00098748|164586692|SUPERIORITY_OR_OTHER||difference in proportions|0.06|||||TWO_SIDED|95.0|-0.1|0.21|||||The TX difference is weighted (by inverse of the variance) difference in proportions adjusted for randomization strata. Positive values for TX difference favor MVC. CI estimated using the normal approximation to the binomial distribution.|MVC BID vs PBO treatment difference in proportions at Week 48.||0.21|-0.10|
82439317|NCT00098748|164586693|SUPERIORITY_OR_OTHER||Least squares mean|23.927|STANDARD_ERROR_OF_MEAN|12.8025|||TWO_SIDED|95.0|-1.359|49.213|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 24.||49.213|-1.359|
82439318|NCT00098748|164586693|SUPERIORITY_OR_OTHER||Least squares mean|26.679|STANDARD_ERROR_OF_MEAN|13.0678|||TWO_SIDED|95.0|0.869|52.49|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||52.490|0.869|
82623924|NCT01861054|164963424|OTHER|||||||0.6168||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Total T cell in lymphocytes||||0.6168
82439319|NCT00098748|164586693|SUPERIORITY_OR_OTHER||Least squares mean|14.61|STANDARD_ERROR_OF_MEAN|16.412|||TWO_SIDED|95.0|-17.8|47.03|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||47.03|-17.80|
82439320|NCT00098748|164586693|SUPERIORITY_OR_OTHER||Least squares mean|27.71|STANDARD_ERROR_OF_MEAN|16.754|||TWO_SIDED|95.0|-5.38|60.8|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||60.80|-5.38|
82439321|NCT00098748|164586694|SUPERIORITY_OR_OTHER||Least squares mean|234.499|STANDARD_ERROR_OF_MEAN|80.799|||TWO_SIDED|95.0|74.913|394.084|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 24.||394.084|74.913|
82439322|NCT00098748|164586694|SUPERIORITY_OR_OTHER||Least squares mean|188.817|STANDARD_ERROR_OF_MEAN|83.4484|||TWO_SIDED|95.0|23.999|353.635|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 24.||353.635|23.999|
82439323|NCT00098748|164586694|SUPERIORITY_OR_OTHER||Least squares mean|155.94|STANDARD_ERROR_OF_MEAN|87.304|||TWO_SIDED|95.0|-16.49|328.37|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC QD vs PBO treatment difference at Week 48.||328.37|-16.49|
82439324|NCT00098748|164586694|SUPERIORITY_OR_OTHER||Least squares mean|182.91|STANDARD_ERROR_OF_MEAN|90.174|||TWO_SIDED|95.0|4.81|361.02|||ANCOVA|TX difference adjusted for randomization strata.|Negative values for change from baseline=benefit of TX; negative values for MVC vs PBO=advantage of MVC.|MVC BID vs PBO treatment difference at Week 48.||361.02|4.81|
82439325|NCT00098748|164586695|SUPERIORITY_OR_OTHER|||||||0.7524||95.0|||||Log Rank|||MVC QD vs PBO at Week 24. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.7524
82623925|NCT01861054|164963424|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||B cell in lymphocytes||||0.1453
82439326|NCT00098748|164586695|SUPERIORITY_OR_OTHER|||||||0.254||95.0|||||Log Rank|||MVC BID vs PBO at Week 24. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.2540
82439327|NCT00098748|164586695|SUPERIORITY_OR_OTHER|||||||0.8243||95.0|||||Log Rank|||MVC QD vs PBO at Week 48. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.8243
82439328|NCT00098748|164586695|SUPERIORITY_OR_OTHER|||||||0.6657||95.0|||||Log Rank|||MVC BID vs PBO at Week 48. Kaplan-Meier survival estimates. TX difference evaluated by log-rank test.||||0.6657
82439329|NCT00098748|164586696|SUPERIORITY_OR_OTHER||Least squares mean|0.069|STANDARD_ERROR_OF_MEAN|0.2356|||TWO_SIDED|95.0|-0.396|0.535|||ANCOVA|TX difference adjusted for randomization strata.||MVC QD vs PBO treatment difference at Week 24.||0.535|-0.396|
82439330|NCT00098748|164586696|SUPERIORITY_OR_OTHER||Least squares mean|-0.218|STANDARD_ERROR_OF_MEAN|0.2413|||TWO_SIDED|95.0|-0.694|0.258|||ANCOVA|TX difference adjusted for randomization strata.||MVC BID vs PBO treatment difference at Week 24.||0.258|-0.694|
82439331|NCT00098748|164586696|SUPERIORITY_OR_OTHER||Least squares mean|0.209|STANDARD_ERROR_OF_MEAN|0.2388|||TWO_SIDED|95.0|-0.262|0.681|||ANCOVA|TX difference adjusted for randomization strata.||MVC QD vs PBO treatment difference at Week 48.||0.681|-0.262|
82439332|NCT00098748|164586696|SUPERIORITY_OR_OTHER||Least squares mean|-0.284|STANDARD_ERROR_OF_MEAN|0.2445|||TWO_SIDED|95.0|-0.767|0.199|||ANCOVA|TX difference adjusted for randomization strata.||MVC BID vs PBO treatment difference at Week 48.||0.199|-0.767|
82439333|NCT03955250|164586704|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82439334|NCT03955250|164586705|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|time||||||<0.05
82439335|NCT03955250|164586705|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
82439336|NCT03955250|164586706|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|time||||||>0.05
82439337|NCT03955250|164586706|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
82439338|NCT03955250|164586707|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|time||||||<0.05
82439339|NCT03955250|164586707|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|condition||||||>0.05
82439340|NCT00433160|164586718|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement Point. No adjustments for multiplicity was performed.|t-test, 2 sided|||Null hypothesis: there is no difference in the percent change in bone mineral density at lumbar spine (L2-L4) after 52-week treatment between the two treatment groups.||||<0.001
82439341|NCT00433160|164586722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 4-week treatment between the two treatment groups.||||<0.001
82439342|NCT00433160|164586722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 12-week treatment between the two treatment groups.||||<0.001
82439343|NCT00433160|164586722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 24-week treatment between the two treatment groups.||||<0.001
82439344|NCT00433160|164586722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP after 52-week treatment between the two treatment groups.||||<0.001
82439345|NCT00433160|164586722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in PINP from baseline to the last measurement point between the two treatment groups.||||<0.001
82439346|NCT00433160|164586723|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 4-week treatment between the two treatment groups.||||<0.001
82623926|NCT01861054|164963424|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||T-helper cell in lymphocytes||||0.1453
82439347|NCT00433160|164586723|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 12-week treatment between the two treatment groups.||||<0.001
82439348|NCT00433160|164586723|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 24-week treatment between the two treatment groups.||||<0.001
82439349|NCT00433160|164586723|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wicoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP after 52-week treatment between the two treatment groups.||||0.060
82439350|NCT00433160|164586723|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in BAP from baseline to the last measurement point between the two treatment groups.||||0.130
82439351|NCT00433160|164586724|SUPERIORITY_OR_OTHER|||||||0.976||95.0||||P-value for Percent Change to Week 4. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 4-week treatment between the two treatment groups.||||0.976
82439352|NCT00433160|164586724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 12. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 12-week treatment between the two treatment groups.||||<0.001
82439353|NCT00433160|164586724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 24. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 24-week treatment between the two treatment groups.||||<0.001
82439354|NCT00433160|164586724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Week 52. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX after 52-week treatment between the two treatment groups.||||<0.001
82439355|NCT00433160|164586724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Percent Change to Last Measurement. No adjustment for multiplicity was performed.|Wilcoxon's Rank Sum Test|||Null hypothesis: there is no difference in the percent change in CTX from baseline to the last measurement point between the two treatment groups.||||<0.001
82439356|NCT02793817|164586743|SUPERIORITY||Difference in percentage of responders|8.3||||0.0105|TWO_SIDED|95.0|2.0|14.7||To account for multiplicity, a step-down testing procedure was applied, whereby inference for a test in the pre-defined hierarchy was dependent upon statistical significance having been demonstrated for the previous test in the hierarchy.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|P-values were based on 2-sided chi-squared tests (unadjusted) wherein the a priori significance level was 0.05.||14.7|2.0|0.0105
82623927|NCT01861054|164963424|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CTL in lymphocytes||||0.1453
82377875|NCT02839772|164463724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.684|STANDARD_ERROR_OF_MEAN|0.346|<|0.001|TWO_SIDED|95.0|1.002|2.367|||Mixed Models Analysis|t=4.871, df=189.789||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the mid-point of the outer lower legs by group from baseline after 3 months of interventions."||2.367|1.002|<0.001
82439357|NCT02793817|164586744|SUPERIORITY||Difference in percentage of responders|20.0|||<|0.0001|TWO_SIDED|95.0|11.6|28.4||To account for multiplicity, a step-down closed testing procedure was applied, whereby inference for a test in the pre-defined hierarchy was dependent upon statistical significance having been demonstrated for the previous test in the hierarchy.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|P-values were based on 2-sided chi-squared test (unadjusted), wherein a priori significance level was 0.05||28.4|11.6|<0.0001
82439358|NCT02793817|164586745|SUPERIORITY||Difference in percentage of responders|17.1|||<|0.0001|TWO_SIDED|95.0|9.1|25.0||P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|||25.0|9.1|<0.0001
82439359|NCT02793817|164586746|SUPERIORITY||Difference in percentage of responders|19.0|||<|0.0001|TWO_SIDED|95.0|11.0|26.9||P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.|Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|||26.9|11.0|<0.0001
82439360|NCT02793817|164586747|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0078|TWO_SIDED|95.0|-0.31|-0.05|||Chi-squared|Without adjustment for any covariates|Estimated Value is the between-group difference for change from BL.|P-value was based on a 2-sided chi-squared test (unadjusted) wherein the a priori significance level was 0.0167 for each secondary endpoint. Overall alpha for all secondary endpoints was controlled at 0.05.||-0.05|-0.31|0.0078
82439361|NCT02793817|164586748|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.0005|TWO_SIDED|95.0|-0.38|-0.11||P-values have no inferential value for post hoc evaluations.|Chi-squared|Without any adjustment for covariates|Estimated Value is the between-group difference in change from BL|||-0.11|-0.38|0.0005
82439362|NCT02793817|164586749|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.0169|TWO_SIDED|95.0|-0.28|-0.03||P-values have no inferential value for post hoc evaluations.|Chi-squared|Without adjustments for any covariates.|Estimated Value is the between-group difference for change from BL|||-0.03|-0.28|0.0169
82623928|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||NKT cell in lymphocytes||||>0.9999
82439363|NCT03222973|164586753|SUPERIORITY||Treatment Difference|0.15||||0.1479|TWO_SIDED|95.0|-0.05|0.35||P-values are based on the Mixed Model for Repeated Measures (MMRM) adjusted for background DMT group, baseline magnetization transfer ratio (MTR)/diffusion tensor imaging (DTI) category and baseline component assessments.|MMRM|||Over 72 weeks: Overall Response Score||0.35|-0.05|0.1479
82439364|NCT03222973|164586755|SUPERIORITY||Odds Ratio (OR)|1.08||||0.7682|TWO_SIDED|95.0|0.65|1.79||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.79|0.65|0.7682
82439365|NCT03222973|164586756|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2131|TWO_SIDED|95.0|0.41|1.22||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.22|0.41|0.2131
82439366|NCT03222973|164586757|SUPERIORITY||Odds Ratio (OR)|0.81||||0.4654|TWO_SIDED|95.0|0.47|1.41||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||1.41|0.47|0.4654
82439367|NCT03222973|164586758|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0417|TWO_SIDED|95.0|1.02|3.11||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||3.11|1.02|0.0417
82439368|NCT03222973|164586759|SUPERIORITY||Odds Ratio (OR)|1.35||||0.2908|TWO_SIDED|95.0|0.78|2.33||Odds ratio (active vs. placebo), 95% CI and p-value are based on logistic regression adjusted for background DMT group, baseline MTR/DTI category and baseline component assessments.|Regression, Logistic|||||2.33|0.78|0.2908
82439369|NCT02080481|164586771|SUPERIORITY_OR_OTHER||ratio of geometric means|0.68|||<|0.001|TWO_SIDED|95.0|0.61|0.76|||Regression, Linear|intraoperative management strategy was imbalanced between randomized groups and was adjusted for in the linear regression model.||||0.76|0.61|< 0.001
82439370|NCT02080481|164586772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.56|TWO_SIDED|98.3|0.25|9.6|||Regression, Logistic|intraoperative management strategy was imbalanced between randomized groups and was adjusted for in the logistic regression model.|Odds ratio for Infiniti Plus versus conventional needle patients|||9.6|0.25|0.56
82439371|NCT02080481|164586773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13||||0.06|TWO_SIDED|98.3|0.01|1.78||Intraoperative management strategy was imbalanced between groups and adjusted for in the logistic regression model.|Regression, Logistic|||||1.78|0.01|0.06
82439372|NCT02080481|164586774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.74|TWO_SIDED|98.3|-7.7|14.6|||Regression, Linear|Intraoperative management strategy was imbalanced between randomized groups and adjusted for in the linear regression model.||||14.6|-7.7|0.74
82439373|NCT03998670|164586775|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.5|1.1|||||Difference in mean control and 95% confidence interval (CI) are from ANCOVA model adjusting for corresponding baseline control score. Prism group minus Non-Prism group (positive difference indicates Prism group worse than Non-Prism group).|The primary analysis was the treatment group difference (and 95% CI) in mean distance control at the 8-week outcome visit using an ANCOVA adjusted for baseline distance control. The planned convenience sample size of 64 was expected to provide outcome data for at least 60 participants (30 per group).||1.1|-0.5|
82439374|NCT03998670|164586776|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-17.0|32.0|||||Difference between Prism minus Non-Prism group (positive difference indicates Prism group better than Non-Prism group).|||32|-17|
82439375|NCT03998670|164586777|SUPERIORITY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-27.0|19.0|||||Difference between Prism minus Non-Prism group (positive difference indicates Prism group better than Non-Prism group).|||19|-27|
82439376|NCT03998670|164586779|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.7|0.7|||||Difference in mean control and 95% confidence interval (CI) are from ANCOVA model adjusting for corresponding baseline control score. Prism group minus Non-Prism group (positive difference indicates Prism group worse than Non-Prism group).|The secondary analysis was the treatment group difference (and 95% CI) in mean near control at the 8-week outcome visit using an ANCOVA adjusted for baseline near control.||0.7|-0.7|
82439377|NCT01444027|164586802|SUPERIORITY|||||||0.002||||||Bonferroni adjusted p-value for 3 pairwise comparisons|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status||||||0.002
82439378|NCT01444027|164586802|SUPERIORITY|||||||0.9||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|||||||0.90
82439379|NCT01444027|164586802|SUPERIORITY|||||||0.002||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.002
82439380|NCT01444027|164586803|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for the baseline value of the measure, hospice agency, and bereaved status.||||||0.001
82439381|NCT01444027|164586803|SUPERIORITY|||||||0.48||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.48
82500670|NCT02927080|164692224|SUPERIORITY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|3.459||0.5661|TWO_SIDED|90.0|-7.67|3.7|||ANCOVA|||Change from baseline in FSHD-HI, patient-reported outcome (PRO) measures Part 2 (Randomized, Controlled Portion)- Total Score for TA group part 2; compared to Placebo||3.70|-7.67|0.5661
82439382|NCT01444027|164586803|SUPERIORITY|||||||0.01||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||.01
82439383|NCT01444027|164586804|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
82439384|NCT01444027|164586804|SUPERIORITY|||||||0.83|||||||Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.83
82439385|NCT01444027|164586804|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
82500671|NCT02927080|164692224|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|3.618||0.976|TWO_SIDED|90.0|-6.06|5.84|||ANCOVA|||Change from baseline in FSHD-HI, patient-reported outcome (PRO) measures Part 2 (Randomized, Controlled Portion)- Total Score for BB group part 2; compared to Placebo||5.84|-6.06|0.9760
82439386|NCT01444027|164586805|SUPERIORITY|||||||0.003||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.003
82439387|NCT01444027|164586805|SUPERIORITY|||||||0.16||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.16
82623929|NCT01861054|164963424|OTHER|||||||0.7634||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||ADCC NK subsets in lymphocytes||||0.7634
82623930|NCT01861054|164963424|OTHER|||||||0.5487||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Regulatory NK subsets in lymphocytes||||0.5487
82623931|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Exhausted NK subsets in lymphocytes||||>0.9999
82623932|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD56-CD16+ NK subsets in lymphocytes||||>0.9999
82623933|NCT01861054|164963424|OTHER|||||||0.1451||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD11b in PMNs - IL-8||||0.1451
82623934|NCT01861054|164963424|OTHER|||||||0.2779||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD18 in PMNs - IL-8||||0.2779
82623935|NCT01861054|164963424|OTHER|||||||0.1444||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD11b - IL-8||||0.1444
82623936|NCT01861054|164963424|OTHER|||||||0.1453||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD66b - IL-8||||0.1453
82623937|NCT01861054|164963424|OTHER|||||||0.92||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD18 - IL-8||||0.9200
82623938|NCT01861054|164963424|OTHER|||||||0.2779||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD11b in PMNs - US||||0.2779
82623939|NCT01861054|164963424|OTHER|||||||0.6164||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||CD18 in PMNs - US||||0.6164
82377876|NCT02839772|164463725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|0.386|<|0.001|TWO_SIDED|95.0|1.21|2.731|||Mixed Models Analysis|t=5.111, df=189.620||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the base of the outer lower legs by group from baseline after 3 months of interventions."||2.731|1.210|<0.001
82439388|NCT01444027|164586805|SUPERIORITY|||||||0.17||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.17
82439389|NCT01444027|164586806|SUPERIORITY|||||||0.001||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.001
82439390|NCT01444027|164586806|SUPERIORITY|||||||0.78||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.78
82439391|NCT01444027|164586806|SUPERIORITY|||||||0.004||||||Bonferroni adjusted p-value for 3 pairwise comparisons.|Regression, Linear|Adjusted for baseline value of the measure, hospice agency, and bereaved status.||||||0.004
82623940|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD11b - US||||>0.9999
82623941|NCT01861054|164963424|OTHER|||||||0.2032||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD66b - US||||0.2032
82623942|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||MFI of CD18 - US||||>0.9999
82623943|NCT01861054|164963424|OTHER|||||||0.525||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - IL-8||||0.5250
82623944|NCT01861054|164963424|OTHER|||||||0.6706||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - IL-8||||0.6706
82623945|NCT01861054|164963424|OTHER|||||||0.8312||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - IL-8||||0.8312
82623946|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - IL-8||||0.3992
82623947|NCT01861054|164963424|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - IL-8||||0.2952
82623948|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - IL-8||||0.3992
82623949|NCT01861054|164963424|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - IL-8||||0.2952
82623950|NCT01861054|164963424|OTHER|||||||0.525||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - IL-8||||0.5250
82623951|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - US||||0.3992
82623952|NCT01861054|164963424|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - US||||0.2952
82623953|NCT01861054|164963424|OTHER||||||>|0.9999||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - US||||>0.9999
82623954|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - US||||0.3992
82623955|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - US||||0.3992
82623956|NCT01861054|164963424|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - US||||0.2952
82623957|NCT01861054|164963424|OTHER|||||||0.3992||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - US||||0.3992
82623958|NCT01861054|164963424|OTHER|||||||0.2952||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - US||||0.2952
82623959|NCT01861054|164963424|OTHER|||||||0.2238||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - LPS||||0.2238
82623960|NCT01861054|164963424|OTHER|||||||0.2238||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - LPS||||0.2238
82623961|NCT01861054|164963424|OTHER|||||||0.1543||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - LPS||||0.1543
82377877|NCT02839772|164463726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.751|STANDARD_ERROR_OF_MEAN|0.39||0.002|TWO_SIDED|95.0|0.656|2.846|||Mixed Models Analysis|t=3.154, df=189.580||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in TEWL at the top of the feet by group from baseline after 3 months of interventions."||2.846|0.656|0.002
82623962|NCT01861054|164963424|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - LPS||||0.1547
82623963|NCT01861054|164963424|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - LPS||||0.1547
82623964|NCT01861054|164963424|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - LPS||||0.1547
82623965|NCT01861054|164963424|OTHER|||||||0.4314||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - LPS||||0.4314
82623966|NCT01861054|164963424|OTHER|||||||0.3153||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - LPS||||0.3153
82623967|NCT01861054|164963424|OTHER|||||||0.47||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL6 - LPS+IL-8||||0.4700
82623968|NCT01861054|164963424|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL1b - LPS+IL-8||||0.1605
82623969|NCT01861054|164963424|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing IL8 - LPS+IL-8||||0.1605
82623970|NCT01861054|164963424|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Monocytes expressing TNFa - LPS+IL-8||||0.1605
82623971|NCT01861054|164963424|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL6 - LPS+IL-8||||0.1547
82623972|NCT01861054|164963424|OTHER|||||||0.1547||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL1b - LPS+IL-8||||0.1547
82623973|NCT01861054|164963424|OTHER|||||||0.3153||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing IL8 - LPS+IL-8||||0.3153
82623974|NCT01861054|164963424|OTHER|||||||0.1543||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent Neutrophils expressing TNFa - LPS+IL-8||||0.1543
82623975|NCT01861054|164963424|OTHER|||||||0.1601||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent FITC eColi Control||||0.1601
82623976|NCT01861054|164963424|OTHER|||||||0.2368||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent FITC eColi Test||||0.2368
82623977|NCT01861054|164963424|OTHER|||||||0.1605||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent PMNs unstimulated||||0.1605
82623978|NCT01861054|164963424|OTHER|||||||0.47||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent PMNs fMLP||||0.4700
82623979|NCT01861054|164963424|OTHER|||||||0.3392||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent L-selectin unstimulated||||0.3392
82623980|NCT01861054|164963424|OTHER|||||||0.808||||||P-Value is based on two-sample t-test or Wilcoxon Rank-Sum test, where appropriate, comparing the 2 study groups.|t-test, 2 sided|||Percent L-selectin fMLP||||0.8080
82623981|NCT00405821|164963428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED|95.0|0.58|0.99||P-value was adjusted to include multiple looks at data including an interim efficacy review at 50% and 75% accrual of person-years on study|Regression, Cox|adjusted for baseline log10 viral load, baseline CD4 count, gender, and age||Intent-to-treat analysis used Cox proportional hazards (CPH) models, adjusting for baseline log10 viral load (VL), CD4 cell count, gender and age to assess the risk of disease progression||0.99|0.58|<0.05
82623982|NCT00405821|164963429|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31|||<|0.05|TWO_SIDED|95.0|0.19|0.48||we included multiple GUD events per subject in the estimate of GUD incidence|rate ratio with 95% CI|||Null hypothesis is no difference by treatment arm in rate of GUD.||0.48|0.19|<0.05
82623983|NCT00405821|164963430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.463||||0.05|TWO_SIDED|95.0|-0.731|-0.194|||t-test, 2 sided|||Null hypothesis is no difference in annual rate of change in log10 viral load by arm.||-0.194|-0.731|0.05
82623984|NCT04962503|164963434|OTHER|||||||0.0313||||||Change from baseline to Day 3|Wilcoxon (Mann-Whitney)|||||||0.0313
82623985|NCT04962503|164963434|OTHER|||||||0.0625||||||Change from baseline to Day 9|Wilcoxon (Mann-Whitney)|||||||0.0625
82623986|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0507|STANDARD_ERROR_OF_MEAN|0.0339|||ONE_SIDED|90.0|0.0059||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90 percent (%) confidence interval (CI) was reported.|||0.0059|
82623987|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0788|STANDARD_ERROR_OF_MEAN|0.027|||ONE_SIDED|90.0|0.0431||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0431|
82522904|NCT02954354|164741241|SUPERIORITY||Difference|-20.7||||0.0027||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Nasal Congestion||||0.0027
82623988|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0927|STANDARD_ERROR_OF_MEAN|0.0277|||ONE_SIDED|90.0|0.056||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0560|
82623989|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0613|STANDARD_ERROR_OF_MEAN|0.03|||ONE_SIDED|90.0|0.0215||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 90% CI was reported.|||0.0215|
82623990|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0105|STANDARD_ERROR_OF_MEAN|0.0309|||ONE_SIDED|80.0|-0.0371||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||-0.0371|
82623991|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0175|STANDARD_ERROR_OF_MEAN|0.0246|||ONE_SIDED|80.0|-0.0037||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||-0.0037|
82623992|NCT01033487|164963437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0315|STANDARD_ERROR_OF_MEAN|0.0294|||ONE_SIDED|80.0|0.0062||||Emax Model|||Emax model was used with sequence, period and baseline covariate as fixed effects. Lower (1-sided) 80% CI was reported.|||0.0062|
82623993|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0989|STANDARD_ERROR_OF_MEAN|0.242|||ONE_SIDED|90.0|0.0676||||ANOVA|||Mixed effects analysis of variance (ANOVA) was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0676|
82623994|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1748|STANDARD_ERROR_OF_MEAN|0.0245|||ONE_SIDED|90.0|0.1431||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1431|
82623995|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1909|STANDARD_ERROR_OF_MEAN|0.0243|||ONE_SIDED|90.0|0.1594||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1594|
82623996|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1528|STANDARD_ERROR_OF_MEAN|0.0237|||ONE_SIDED|90.0|0.1222||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1222|
82623997|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0539|STANDARD_ERROR_OF_MEAN|0.0239|||ONE_SIDED|90.0|-0.0849||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0849|
82623998|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_DEVIATION|0.0238|||ONE_SIDED|90.0|-0.0088||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0088|
82377878|NCT02839772|164463727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.075|STANDARD_ERROR_OF_MEAN|0.515|<|0.001|TWO_SIDED|95.0|-3.042|-1.1078|||Mixed Models Analysis|t=-4.236,df=165.310||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the top of the outer lower legs by group from baseline after 3 months of interventions."||-1.1078|-3.042|<0.001
82623999|NCT01033487|164963446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0381|STANDARD_ERROR_OF_MEAN|0.0242|||ONE_SIDED|90.0|0.0068||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0068|
82624000|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0852|STANDARD_ERROR_OF_MEAN|0.0214|||ONE_SIDED|90.0|0.0576||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.0576|
82624001|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1418|STANDARD_ERROR_OF_MEAN|0.0219|||ONE_SIDED|90.0|0.1136||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1136|
82624002|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1692|STANDARD_ERROR_OF_MEAN|0.0216|||ONE_SIDED|90.0|0.1413||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1413|
82624003|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1526|STANDARD_ERROR_OF_MEAN|0.0212|||ONE_SIDED|90.0|0.1252||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||0.1252|
82624004|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0674|STANDARD_ERROR_OF_MEAN|0.0211|||ONE_SIDED|90.0|-0.0946||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0946|
82624005|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0108|STANDARD_ERROR_OF_MEAN|0.0213|||ONE_SIDED|90.0|-0.0383||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0383|
82624006|NCT01033487|164963447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0166|STANDARD_ERROR_OF_MEAN|0.213|||ONE_SIDED|90.0|-0.011||||ANOVA|||Mixed effects ANOVA was used with sequence, period and baseline covariate as fixed effects, and participant within sequence as a random effect. Lower (1-sided) 90% CI was reported.|||-0.0110|
82624007|NCT03812588|164963450|SUPERIORITY||Slope|7.9|STANDARD_ERROR_OF_MEAN|7.261||0.292|TWO_SIDED|||||Linear regression model of condition in predicting change in HRSD-24. P-value and coefficient are Medication:Track. Medication (Escitalopram or Placebo) with Track (RFM or CFM) as co-variates. The threshold for statistical significance was p\>0.05.|Regression, Linear|||||||0.292
82624008|NCT02259127|164963462|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.08|||=|0.004|TWO_SIDED|95.0|-0.14|-0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Primary: Diff in adj. KM estimates (\>=14kg)~Number of subjects included in analysis: 707~Analysis specification: Pre-specified"||-0.03|-0.14|= 0.004
82624009|NCT02259127|164963462|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.18|||=|0.057|TWO_SIDED|95.0|-0.36|0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Diff in adj. KM estimates (Frequentist \<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||0.02|-0.36|=0.057
82624010|NCT02259127|164963462|NON_INFERIORITY|Bayesian estimation was used for the primary analysis of the difference in treatment failure by 96 weeks by arm in \<14kg cohort. An informative prior distribution was used based on the treatment effect observed in \>=14kg cohort, with relative weight defined by clinical opinion, solicited prior to the main trial results.|Risk Difference (RD)|-0.1||||0.02|TWO_SIDED|95.0|-0.19|-0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Primary: diff in adj. KM estimates (Bayesian \<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||-0.02|-0.19|0.02
82624011|NCT02259127|164963462|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.12||||0.003|TWO_SIDED|95.0|-0.21|-0.04|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A\>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.04|-0.21|0.003
82624012|NCT02259127|164963462|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.05||||0.22|TWO_SIDED|95.0|-0.12|0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (primary endpoint) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.03|-0.12|0.22
82624013|NCT02259127|164963463|SUPERIORITY||Risk Difference (RD)|5.0|||=|0.1377|TWO_SIDED|95.0|-1.0|11.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 665~Analysis Specification: Pre-specified"||11|-1|= 0.1377
82624014|NCT02259127|164963463|SUPERIORITY||Risk Difference (RD)|-1.0|||=|0.8895|TWO_SIDED|95.0|-10.0|8.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted difference (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 286~Analysis Specification: Pre-specified"||8|-10|= 0.8895
82624015|NCT02259127|164963463|SUPERIORITY||Risk Difference (RD)|9.0|||=|0.0435|TWO_SIDED|95.0|0.4|17.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 381~Analysis Specification: Pre-specified"||17|0.4|=0.0435
82624016|NCT02259127|164963463|SUPERIORITY||Risk Difference (RD)|26.0||||0.021|TWO_SIDED|95.0|6.0|47.0|||Regression, Logistic|||||47|6|0.021
82624017|NCT02259127|164963464|SUPERIORITY||Risk Difference (RD)|3.0|||=|0.2256|TWO_SIDED|95.0|-2.0|8.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 670~Analysis Specification: Pre-specified"||8|-2|= 0.2256
82624018|NCT02259127|164963464|SUPERIORITY||Risk Difference (RD)|0.0|||=|0.9536|TWO_SIDED|95.0|-8.0|7.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 286~Analysis Specification: Pre-specified"||7|-8|= 0.9536
82624019|NCT02259127|164963464|SUPERIORITY||Risk Difference (RD)|6.0|||=|0.1104|TWO_SIDED|95.0|-1.0|12.0|||Regression, Logistic|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 384~Analysis Specification: Pre-specified"||12|-1|= 0.1104
82624020|NCT02259127|164963464|SUPERIORITY||Risk Difference (RD)|19.0||||0.038|TWO_SIDED|95.0|2.0|37.0|||Regression, Logistic|||||37|2|0.038
82624021|NCT02259127|164963465|SUPERIORITY||Mean Difference (Final Values)|35.0|||=|0.144|TWO_SIDED|95.0|-12.0|82.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusted for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||82|-12|= 0.144
82624022|NCT02259127|164963465|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.185|TWO_SIDED|95.0|-21.0|109.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusting for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||109|-21|0.185
82624023|NCT02259127|164963465|SUPERIORITY||Mean Difference (Final Values)|27.0|||=|0.427|TWO_SIDED|95.0|-39.0|93.0|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of CD4 at week 96, adjusting for randomised arm, baseline CD4 and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||93|-39|= 0.427
82624024|NCT02259127|164963465|SUPERIORITY||Median Difference (Final Values)|30.0||||0.86|TWO_SIDED|95.0|-308.0|368.0|||Regression, Linear|||||368|-308|0.86
82624025|NCT02259127|164963466|SUPERIORITY||Mean Difference (Final Values)|-15.1|||<|0.001|TWO_SIDED|95.0|-19.0|-11.1|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-11.1|-19|< 0.001
82624026|NCT02259127|164963466|SUPERIORITY||Mean Difference (Final Values)|-24.4|||=|0.0032|TWO_SIDED|95.0|-40.3|-8.5|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\<14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||-8.5|-40.3|= 0.0032
82624027|NCT02259127|164963466|SUPERIORITY||Mean Difference (Final Values)|-17.5|||<|0.001|TWO_SIDED|95.0|-23.9|-11.1|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-11.1|-23.9|< 0.001
82624028|NCT02259127|164963466|SUPERIORITY||Mean Difference (Final Values)|-13.4|||<|0.001|TWO_SIDED|95.0|-18.5|-8.4|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of total cholesterol at week 96, adjusting for randomised arm, baseline total cholesterol and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||-8.4|-18.5|< 0.001
82624029|NCT02259127|164963467|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.53|TWO_SIDED|95.0|0.55|1.36|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.36|0.55|= 0.53
82624030|NCT02259127|164963467|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.86|TWO_SIDED|95.0|0.47|2.49|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||2.49|0.47|= 0.86
82624031|NCT02259127|164963467|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.52|TWO_SIDED|95.0|0.48|1.46|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.46|0.48|= 0.52
82624032|NCT02259127|164963467|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.86|TWO_SIDED|95.0|0.42|2.04|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||2.04|0.42|= 0.86
82624033|NCT02259127|164963468|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.24|TWO_SIDED|95.0|0.61|1.13|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.13|0.61|= 0.24
82443433|NCT04557787|164595218|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.12|TWO_SIDED|95.0|-0.09|0.73||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.73|-0.09|0.120
82624034|NCT02259127|164963468|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.83|TWO_SIDED|95.0|0.5|1.74|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||1.74|0.5|= 0.83
82624035|NCT02259127|164963468|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.57|TWO_SIDED|95.0|0.75|1.7|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.7|0.75|= 0.57
82624036|NCT02259127|164963468|SUPERIORITY||Hazard Ratio (HR)|0.54|||=|0.01|TWO_SIDED|95.0|0.33|0.88|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.88|0.33|= 0.01
82624037|NCT02259127|164963469|SUPERIORITY||Hazard Ratio (HR)|0.29|||=|0.01|TWO_SIDED|95.0|0.11|0.77|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||0.77|0.11|= 0.01
82624038|NCT02259127|164963469|SUPERIORITY||Hazard Ratio (HR)|0.35|||=|0.13|TWO_SIDED|95.0|0.09|1.33|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||1.33|0.09|= 0.13
82624039|NCT02259127|164963469|SUPERIORITY||Hazard Ratio (HR)|0.22||||0.055|TWO_SIDED|95.0|0.05|1.03|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||1.03|0.05|0.055
82624040|NCT02259127|164963470|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.06|||=|0.003|TWO_SIDED|95.0|-0.1|-0.02|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-0.02|-0.1|= 0.003
82624041|NCT02259127|164963470|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.07|||=|0.035|TWO_SIDED|95.0|-0.13|-0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.01|-0.13|= 0.035
82624042|NCT02259127|164963470|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.05|||=|0.039|TWO_SIDED|95.0|-0.11|-0.004|||Bootstrap method||The probability of having virological or clinical treatment failure by 48 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 48 weeks after randomisation.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||-0.004|-0.11|= 0.039
82377879|NCT02839772|164463728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.658|STANDARD_ERROR_OF_MEAN|0.467|<|0.001|TWO_SIDED|95.0|-2.581|-0.736|||Mixed Models Analysis|t=-3.549, df=180.923||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the mid-point of the outer lower legs by group from baseline after 3 months of interventions."||-0.736|-2.581|<0.001
82377880|NCT02839772|164463729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.641|STANDARD_ERROR_OF_MEAN|0.473||0.001|TWO_SIDED|95.0|-2.574|-0.708|||Mixed Models Analysis|t=-3.471, df=186.308||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the base of the outer lower legs by group from baseline after 3 months of interventions."||-0.708|-2.574|0.001
82377881|NCT02839772|164463730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.041|STANDARD_ERROR_OF_MEAN|0.572|<|0.001|TWO_SIDED|95.0|-3.168|-0.911|||Mixed Models Analysis|t=-3.565, df=186.739||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis compared the changes in SCH at the base of the top of the feet by group from baseline after 3 months of interventions."||-0.911|-3.168|<0.001
82377882|NCT02839772|164463731|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.452|STANDARD_ERROR_OF_MEAN|0.255||0.076|TWO_SIDED|95.0|-0.048|0.952||A cumulative logistic link function was used|Generalized estimating equation analysis|Wald Chi squared=3.138, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of the stage of podoconiosis by group being more severe at the 4th visit."||0.952|-0.048|0.076
82377883|NCT02839772|164463732|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.224||||0.527|TWO_SIDED|95.0|-0.469|0.917||A Bernouilli distribution with a logistic link function was used.|Generalized estimating equation analysis|Wald chi-square=0.410, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of mossy changes being present in the lower legs/feet by group at the 4th visit."||0.917|-0.469|0.527
82439392|NCT01730339|164586807|SUPERIORITY_OR_OTHER||Least Square mean difference|0.68|STANDARD_ERROR_OF_MEAN|0.29||0.0219|TWO_SIDED|90.0|0.19|1.16|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||1.16|0.19|0.0219
82572774|NCT02229578|164855507|SUPERIORITY||Mean Difference (Final Values)|0.45|||<|0.05|TWO_SIDED|95.0|-1.2|2.1|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop pain on 24 hour pain. This allows patient to serve as own control for intial values.||2.1|-1.2|<0.05
82572775|NCT02229578|164855508|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.79|<|0.05|TWO_SIDED|95.0|-1.77|1.49|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop pain on 24 hour pain. This allows patient to serve as own control for intial values.||1.49|-1.77|<0.05
82377884|NCT02839772|164463733|SUPERIORITY_OR_OTHER||Odds Ratio, log|-1.29|STANDARD_ERROR_OF_MEAN|0.446||0.031|TWO_SIDED|95.0|-2.161|-0.411||A Bernouilli distribution with a logistic link function was used|Generalized estimating equation analysis|Wald chi-square=8.304, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of participants having a bad odour emanating from their lower legs/feet by group at the 4th visit. Bad odour results in a decease in quality of life."||-0.411|-2.161|0.031
82377885|NCT02839772|164463734|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.062|STANDARD_ERROR_OF_MEAN|0.741||0.005|TWO_SIDED|95.0|0.61|3.514||A Poisson distribution with a logarithmic link function was used|Generalized estimating equation analysis|Wald chi-square=7.745, df=1||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds of wounds being present on the lower legs/feet of participants by group at the 4th visit."||3.514|0.610|0.005
82377886|NCT02839772|164463735|SUPERIORITY_OR_OTHER||Group ratio estimate|2.09|STANDARD_ERROR_OF_MEAN|1.102||0.058|TWO_SIDED|0.058|-0.069|4.25||A Poisson distribution with a logarithmic link function was used.|Generalized estimation equation|df=1|Those in the experimental group were expected to have fewer work days lost due to ADL.|"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Statistical analysis calculated the odds by group of having had fewer work days lost in the previous month at the 4th visit due to ADL."||4.250|-0.069|0.058
82377887|NCT02839772|164463736|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value was \< 0.001 at all time points.|Spearman's correlation coefficient|The correlation at the 1st visit was 0.252, at the 2nd 0.306, at the 3rd 0.291 and at the 4th 0.265.||The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.||||<0.001
82377888|NCT02839772|164463737|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.204||0.158|TWO_SIDED|95.0|-0.113|0.69|||Mixed Models Analysis|df=185.386||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~A reduction in leg circumference indicates an improvement in the disease."||0.690|-0.113|0.158
82377889|NCT02839772|164463738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.575|STANDARD_ERROR_OF_MEAN|0.162|<|0.001|TWO_SIDED|95.0|0.255|0.895|||Mixed Models Analysis|df=169.916, t=3.550||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~A reduction in foot circumference indicates an improvement in the disease."||0.895|0.255|<0.001
82377890|NCT02839772|164463739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.54||0.907|TWO_SIDED|95.0|-1.129|1.002|||Mixed Models Analysis|t=-0.117, df=178.814||"The null hypothesis was that an evidence-based skin care intervention with added glycerine does not improve skin barrier function in the legs/feet or enhance the disease related quality of life of Ethiopian people with podoconiosis when compared to the control group using the current skin care regimen.~Podoconiosis has a large effect on a person's quality of life. abnormal looking legs/feet, wounds and the related bad odour plus social isolation result in stigma and social isolation.."||1.002|-1.129|0.907
82377891|NCT01526655|164463740|SUPERIORITY|||||||0.011||||||Main effect over time p\<0.001; Interaction effect p=0.65. Threshold for statistical significance p\<0.05|ANOVA|||||||0.011
82377892|NCT01526655|164463741|SUPERIORITY|||||||0.03||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p 0.02.~Threshold for statistical significance p\<0.05."|ANOVA||||Tukey post hoc test (p-values): hsCRP time 4 p 0.02; hsCRP time 5 p \<0.001.|||0.03
82377893|NCT01526655|164463742|SUPERIORITY||||||<|0.01||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.0001.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): WBC time 3 p \< 0.0001.|||<0.01
82377894|NCT01526655|164463743|SUPERIORITY|||||||0.03|||||||ANOVA||||Tukey post hoc test (p-value): IL-6 time 3 p \< 0.01.|||0.03
82377895|NCT01526655|164463744|SUPERIORITY|||||||0.03||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.01.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): CK time 4 p \< 0.0001.|||0.03
82377896|NCT01526655|164463745|SUPERIORITY|||||||0.06||||||"P-value main effect between groups. Effect over time p \< 0.0001. Interaction effect p \< 0.01.~Threshold for statistical significance p \< 0.05."|ANOVA||||Tukey post hoc test (p-value): cortisol time 3 p \< 0.0001.|||0.06
82377897|NCT01526655|164463746|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82377898|NCT01526655|164463747|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82377899|NCT01965860|164463804|SUPERIORITY|||||||0.001|||||||ANOVA|||"Prior to the study a power analysis was performed to calculate the number of participants required in each of the three groups. Previous work comparing OSATS derived scores in endovascular interventions shows a Cohen D of two. Using a of .05, a power of .80, and an expected dropout rate of 10%, the minimum number of surgical trainees required per group was seven.~Null hypothesis for primary outcome: no difference in technical performance during real life procedures between the three groups"||||0.001
82377900|NCT01965860|164463804|OTHER|||||||0.003|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.003
82377901|NCT01965860|164463804|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.001
82624043|NCT02259127|164963470|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.18||||0.057|TWO_SIDED|95.0|-0.36|0.02|||Other [Bootstrap method]|||||0.02|-0.36|0.057
82377902|NCT01965860|164463804|OTHER|||||||0.228|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test MCQ score||||0.228
82377903|NCT01965860|164463804|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.001
82377904|NCT01965860|164463804|OTHER|||||||0.008|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.008
82377905|NCT01965860|164463804|OTHER|||||||0.164|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test GRS score||||0.164
82377906|NCT01965860|164463804|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.001
82377907|NCT01965860|164463804|OTHER|||||||0.001|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.001
82377908|NCT01965860|164463804|OTHER|||||||0.19|||||||ANOVA|||Null Hypothesis: There is no difference in Pre and Post test Examiner's checklist score||||0.190
82377909|NCT02064296|164463810|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||Salience co-activation pattern at rest vs. with pressure pain.||||0.3330
82377910|NCT02064296|164463810|SUPERIORITY|||||||0.6474|||||||t-test, 2 sided|||This statistical analysis covers the sensorimotor co-activation pattern at rest vs. with pressure pain for Healthy controls||||0.6474
82377911|NCT02064296|164463810|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Salience co-activation pattern at rest vs. with pressure pain||||<0.0001
82377912|NCT02064296|164463810|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||This statistical analysis covers the sensorimotor co-activation pattern at rest vs. with pressure pain for Fibromyalgia patients||||0.0004
82377913|NCT02064296|164463811|SUPERIORITY|||||||0.0653|||||||t-test, 2 sided|||This is a comparison of Mock Laser Acupuncture pre-and post 4 weeks of treatment.||||0.0653
82377914|NCT02064296|164463811|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||This is a P value for the change in Traditional Acupuncture, pre and post 4 weeks of treatment.||||<0.0001
82377915|NCT02064296|164463812|SUPERIORITY|||||||0.7399|||||||t-test, 2 sided|||Glx statistical comparison||||0.7399
82377916|NCT02064296|164463812|SUPERIORITY|||||||0.6226|||||||t-test, 2 sided|||Glx statistical comparison||||0.6226
82377917|NCT02064296|164463813|SUPERIORITY|||||||0.6344|||||||t-test, 2 sided|||GABA statistical comparison||||0.6344
82377918|NCT02064296|164463813|SUPERIORITY|||||||0.7985|||||||t-test, 2 sided|||GABA statistical comparison||||0.7985
82377919|NCT01894087|164463816|SUPERIORITY||Incidence Rate Ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||||Numerator is Therapist-led Brief Intervention, Denominator is Enhanced Usual Care only.|Multivariable Poisson regression of outcome of overdose risk behavior sum score at 6 months, adjusting for baseline level of the outcome||0.87|0.59|
82377920|NCT01894087|164463817|SUPERIORITY||Slope|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Numerator is the Therapist-Led Brief Intervention and Denominator is Enhanced Usual Care only|Multivariable linear regression of the outcome of standardized sum score of overdose symptom knowledge at 6 months follow-up, adjusted for baseline level of overdose symptom knowledge.||0.40|-0.20|
82377921|NCT01894087|164463818|SUPERIORITY||Incidence Rate Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of using opioids as prescribed). Numerator was the Therapist-Led Brief Intervention and the denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to use opioids as prescribed, adjusting for baseline level of the outcome.||1.33|0.93|
82377922|NCT01894087|164463818|SUPERIORITY||Incidence Rate Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.9|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of reducing or avoiding opioid use). Numerator was the Therapist-Led Brief Intervention and the denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to avoid or reduce opioid use, adjusting for baseline level of the outcome.||0.90|0.65|
82377923|NCT01894087|164463818|SUPERIORITY||Incidence Rate Ratio|0.97|||||TWO_SIDED|95.0|0.8|1.19|||||This item was reverse coded; higher scores indicate lower intention to avoid overdose risk (for the strategy of not combining opioids with other drugs). Numerator was Therapist-Led Brief Intervention and denominator was Enhanced Usual Care only.|Multivariable Poisson regression of the outcome of intention to avoid combining opioids with other substances, adjusting for baseline level of the outcome.||1.19|0.80|
82377924|NCT01894087|164463819|SUPERIORITY||Incidence Rate Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.92|||||Numerator is Therapist-Led Brief Intervention, Denominator is Enhanced Usual Care only|Multivariable Poisson regression for the outcome of total COMM score at follow-up, adjusting for baseline level of the outcome||0.92|0.70|
82377925|NCT02288325|164463821|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0212|TWO_SIDED|95.0|0.33|0.92|||Log Rank|||||0.92|0.33|0.0212
82377926|NCT04020887|164463822|SUPERIORITY||Median Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-6.01|18.01||||||Difference in time to PACU discharge determination from observation to interaction phase \[ Time Frame: 6 months\]: The difference in discharge readiness time between the observation and interaction phases will be compared.||18.01|-6.01|
82377927|NCT04020887|164463823|SUPERIORITY||Difference Between Proportions|29.8|||||TWO_SIDED|95.0|23.82|35.66||||||||35.66|23.82|
82377928|NCT04020887|164463824|SUPERIORITY||Difference Between Proportions|-2.67|||||TWO_SIDED|95.0|-8.18|3.02||||||||3.02|-8.18|
82377929|NCT04020887|164463825|SUPERIORITY||Difference Between Proportions|13.03|||||TWO_SIDED|95.0|5.16|20.79||||||||20.79|5.16|
82377930|NCT04020887|164463826|SUPERIORITY||Difference Between Proportions|0.51|||||TWO_SIDED|95.0|-1.63|3.07||||||||3.07|-1.63|
82377931|NCT04020887|164463827|SUPERIORITY||Difference Between Proportions|7.9|||||TWO_SIDED|95.0|3.13|12.71||||||||12.71|3.13|
82377932|NCT03735121|164463829|NON_INFERIORITY|The null hypothesis that atezolizumab SC is inferior to atezolizumab IV is rejected if the lower bound of the 2-sided 90% confidence interval \[CI\] of the geometric mean ratio is greater than or equal to (≥) the non-inferiority margin 0.8.|Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.88|1.24||||||||1.24|0.88|
82377933|NCT03735121|164463830|NON_INFERIORITY|The null hypothesis that atezolizumab SC is inferior to atezolizumab IV is rejected if the lower bound of the 2-sided 90% CI of the geometric mean ratio is ≥ the non-inferiority margin 0.8.|Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.83|0.92||||||||0.92|0.83|
82377934|NCT02593110|164463870|SUPERIORITY||Mean Difference (Final Values)|-24.41||||0.1107|TWO_SIDED|95.0|-54.59|5.78|||ANCOVA|||||5.78|-54.59|0.1107
82377935|NCT02593110|164463870|SUPERIORITY||Mean Difference (Final Values)|9.78||||0.5378|TWO_SIDED|95.0|-21.84|41.39|||ANCOVA|||||41.39|-21.84|0.5378
82377936|NCT02593110|164463870|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.956|TWO_SIDED|95.0|-24.96|26.38|||ANCOVA|||||26.38|-24.96|0.9560
82377937|NCT02593110|164463871|SUPERIORITY||Mean Difference (Final Values)|31.35||||0.6121|TWO_SIDED|95.0|-92.42|155.12|||ANCOVA|||||155.12|-92.42|0.6121
82377938|NCT02593110|164463871|SUPERIORITY||Mean Difference (Final Values)|141.78||||0.0116|TWO_SIDED|95.0|33.14|250.42|||ANCOVA|||||250.42|33.14|0.0116
82377939|NCT02593110|164463871|SUPERIORITY||Mean Difference (Final Values)|-14.75||||0.8146|TWO_SIDED|95.0|-140.89|111.39|||ANCOVA|||||111.39|-140.89|0.8146
82377940|NCT02593110|164463872|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.8755|TWO_SIDED|95.0|-10.84|12.68|||ANCOVA|||||12.68|-10.84|0.8755
82377941|NCT02593110|164463872|SUPERIORITY||Mean Difference (Final Values)|2.44||||0.7651|TWO_SIDED|95.0|-13.83|18.7|||ANCOVA|||||18.70|-13.83|0.7651
82377942|NCT02593110|164463872|SUPERIORITY||Mean Difference (Final Values)|6.88||||0.3776|TWO_SIDED|95.0|-8.65|22.41|||ANCOVA|||||22.41|-8.65|0.3776
82377943|NCT02593110|164463873|SUPERIORITY||Mean Difference (Final Values)|-8.06||||0.1782|TWO_SIDED|95.0|-19.91|3.79|||ANCOVA|||||3.79|-19.91|0.1782
82377944|NCT02593110|164463873|SUPERIORITY||Mean Difference (Final Values)|-5.27||||0.3555|TWO_SIDED|95.0|-16.61|6.07|||ANCOVA|||||6.07|-16.61|0.3555
82377945|NCT02593110|164463873|SUPERIORITY||Mean Difference (Final Values)|5.75||||0.3294|TWO_SIDED|95.0|-5.99|17.49|||ANCOVA|||||17.49|-5.99|0.3294
82377946|NCT02593110|164463874|SUPERIORITY||Mean Difference (Final Values)|-8.72||||0.1569|TWO_SIDED|95.0|-20.91|3.47|||ANCOVA|||||3.47|-20.91|0.1569
82377947|NCT02593110|164463874|SUPERIORITY||Mean Difference (Final Values)|-2.07||||0.7692|TWO_SIDED|95.0|-16.16|12.02|||ANCOVA|||||12.02|-16.16|0.7692
82377948|NCT02593110|164463874|SUPERIORITY||Mean Difference (Final Values)|3.09||||0.6306|TWO_SIDED|95.0|-9.74|15.91|||ANCOVA|||||15.91|-9.74|0.6306
82500672|NCT00754624|164692245|SUPERIORITY_OR_OTHER||Slope|-0.048|||||TWO_SIDED|95.0|-0.059|-0.037|||Random coefficient|Adjusted for Baseline FEV1 value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed FEV1 data to estimate the annual rate of decline. The model included terms for baseline FEV1 and time (in years) of FEV1 measurements. Missing pulmonary functions were not imputed.||-0.037|-0.059|
82377949|NCT02593110|164463875|SUPERIORITY||Mean Difference (Final Values)|-7.86||||0.3542|TWO_SIDED|95.0|-24.74|9.02|||ANCOVA|||||9.02|-24.74|0.3542
82377950|NCT02593110|164463875|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.9417|TWO_SIDED|95.0|-17.98|16.71|||ANCOVA|||||16.71|-17.98|0.9417
82377951|NCT02593110|164463875|SUPERIORITY||Mean Difference (Final Values)|5.45||||0.4508|TWO_SIDED|95.0|-8.96|19.86|||ANCOVA|||||19.86|-8.96|0.4508
82377952|NCT00207883|164463913|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82377953|NCT02359994|164463915|NON_INFERIORITY|Non-inferiority was assessed with a pre-specified non-inferiority margin of 10%, such that the endpoint is successfully met if the non-inferiority one-sided p-value is less than 0.025 or, equivalently, if the lower bound of a two-sided 95% confidence interval for the difference between PerClot and Arista hemostasis rates is greater than -10%.|Difference in percentage of participants|-1.4||||0.005|TWO_SIDED|95.0|-7.5|4.8|||Farrington-Manning score test||Directionality for difference in the percentage of participants achieving endpoint: PerClot - Arista|The primary efficacy hypothesis is that the percentage of participants achieving hemostasis of the treated bleeding site at 7 minutes in the overall PerClot group is non-inferior to the percentage of participants achieving hemostasis at 7 minutes in the Arista group, the active control.||4.8|-7.5|0.005
82377954|NCT02359994|164463916|NON_INFERIORITY|Non-inferiority was assessed with a pre-specified non-inferiority margin of 10%, such that the endpoint is successfully met if the non-inferiority one-sided p-value is less than 0.025 or, equivalently, if the lower bound of a two-sided 95% confidence interval for the difference between PerClot and Arista hemostasis rates is greater than -10%.|Difference in Percentage of Participants|4.8|||<|0.001|TWO_SIDED|95.0|-2.4|12.0|||Farrington-Manning score test||Directionality for difference in the percentage of participants achieving endpoint: PerClot - Arista|The secondary efficacy hypothesis is that the percentage of participants achieving hemostasis of the treated bleeding site at 5 minutes in the overall PerClot group is non-inferior to the percentage of participants achieving hemostasis at 5 minutes in the Arista group, the active control.||12.0|-2.4|<0.001
82377955|NCT04386616|164463946|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9266|TWO_SIDED|95.0|0.75|1.36||p\<0.05 threshold for statistical significance|Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.36|0.75|0.9266
82377956|NCT04386616|164463946|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.357|TWO_SIDED|95.0|0.86|1.54||p\<0.05 threshold for statistical significance|Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.54|0.86|0.3570
82377957|NCT04386616|164463946|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9812|TWO_SIDED|95.0|0.74|1.36||p\<0.05 threshold for statistical significance|Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.36|0.74|0.9812
82377958|NCT04386616|164463946|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5151|TWO_SIDED|95.0|0.82|1.49||p\<0.05 threshold for statistical significance|Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.49|0.82|0.5151
82377959|NCT04386616|164463947|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8373|TWO_SIDED|95.0|0.77|1.39|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.39|0.77|0.8373
82377960|NCT04386616|164463947|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3396|TWO_SIDED|95.0|0.86|1.55|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.55|0.86|0.3396
82377961|NCT04386616|164463947|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8619|TWO_SIDED|95.0|0.76|1.39|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.39|0.76|0.8619
82377962|NCT04386616|164463947|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.4913|TWO_SIDED|95.0|0.82|1.5|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.50|0.82|0.4913
82377963|NCT04386616|164463948|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.4711|TWO_SIDED|95.0|0.83|1.49|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.49|0.83|0.4711
82377964|NCT04386616|164463948|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.3135|TWO_SIDED|95.0|0.87|1.56|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.56|0.87|0.3135
82639410|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.7||||0.0003|TWO_SIDED|95.0|10.6|57.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||57.4|10.6|0.0003
82377965|NCT04386616|164463948|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.5735|TWO_SIDED|95.0|0.81|1.48|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.48|0.81|0.5735
82377966|NCT04386616|164463948|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5973|TWO_SIDED|95.0|0.8|1.46|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.46|0.80|0.5973
82377967|NCT04386616|164463949|SUPERIORITY||Median Difference (Net)|-1.0||||0.5304|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.5304
82377968|NCT04386616|164463949|SUPERIORITY||Median Difference (Net)|-4.5||||0.5058|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.5058
82377969|NCT04386616|164463950|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8451|TWO_SIDED|95.0|0.64|1.72|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.72|0.64|0.8451
82377970|NCT04386616|164463950|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7267|TWO_SIDED|95.0|0.67|1.79|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.79|0.67|0.7267
82377971|NCT04386616|164463950|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8458|TWO_SIDED|95.0|0.63|1.79|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.79|0.63|0.8458
82377972|NCT04386616|164463950|SUPERIORITY||Odds Ratio (OR)|1.08||||0.7907|TWO_SIDED|95.0|0.64|1.81|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.81|0.64|0.7907
82377973|NCT04386616|164463951|SUPERIORITY||Median Difference (Final Values)|0.0||||0.5273|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.5273
82377974|NCT04386616|164463951|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6515|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.6515
82377975|NCT04386616|164463951|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5475|TWO_SIDED|95.0|0.71|1.91|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.91|0.71|0.5475
82377976|NCT04386616|164463951|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5652|TWO_SIDED|95.0|0.71|1.89|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.89|0.71|0.5652
82377977|NCT04386616|164463952|SUPERIORITY||Median Difference (Final Values)|0.0||||0.3401|||||||Van Elteren||The median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.3401
82377978|NCT04386616|164463952|SUPERIORITY||Median Difference (Final Values)|0.0||||0.4676|||||||Van Elteren||The median difference was calculated as the UTT1147A Arm minus the Placebo Arm.|||||0.4676
82377979|NCT04386616|164463952|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3408|TWO_SIDED|95.0|0.75|2.29|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.29|0.75|0.3408
82377980|NCT04386616|164463952|SUPERIORITY||Odds Ratio (OR)|1.32||||0.332|TWO_SIDED|95.0|0.76|2.29|||Proportional Odds Model|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.29|0.76|0.3320
82377981|NCT04386616|164463953|SUPERIORITY||Difference in percentage of participants|3.83|||||TWO_SIDED|95.0|-7.57|15.24|||||The difference in percentage of participants was calculated as the MSTT1041A Arm minus the Placebo Arm.|||15.24|-7.57|
82377982|NCT04386616|164463953|SUPERIORITY||Difference in percentage of participants|-0.38|||||TWO_SIDED|95.0|-11.46|10.7|||||The difference in percentage of participants was calculated as the UTTR1147A Arm minus the Placebo Arm.|||10.70|-11.46|
82377983|NCT04386616|164463953|SUPERIORITY||Odds Ratio (OR)|1.22||||0.4804|TWO_SIDED|95.0|0.7|2.1|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.10|0.70|0.4804
82377984|NCT04386616|164463953|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9418|TWO_SIDED|95.0|0.56|1.71|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.71|0.56|0.9418
82377985|NCT04386616|164463953|SUPERIORITY||Odds Ratio (OR)|1.29||||0.4988|TWO_SIDED|95.0|0.68|2.44|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.44|0.68|0.4988
82377986|NCT04386616|164463953|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9043|TWO_SIDED|95.0|0.54|1.96|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.96|0.54|0.9043
82377987|NCT04386616|164463954|SUPERIORITY||Median Difference (Net)|0.0||||0.8007|||||||Van Elteren||Median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.8007
82377988|NCT04386616|164463954|SUPERIORITY||Median Difference (Net)|0.0||||0.8633|||||||Van Elteren||Median difference was calculated as the UTTR1147A Arm minus the Placebo Arm.|||||0.8633
82377989|NCT04386616|164463955|SUPERIORITY||Difference in percentage of participants|-3.59|||||TWO_SIDED|95.0|-16.31|9.12|||||The difference in percentage of participants was calculated as the MSTT1041A Arm minus the Placebo Arm.|||9.12|-16.31|
82377990|NCT04386616|164463955|SUPERIORITY||Difference in percentage of participants|-12.0|||||TWO_SIDED|95.0|-24.67|0.67|||||The difference in percentage of participants was calculated as the UTTR1147A Arm minus the Placebo Arm.|||0.67|-24.67|
82377991|NCT04386616|164463955|SUPERIORITY||Odds Ratio (OR)|0.86||||0.556|TWO_SIDED|95.0|0.53|1.41|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.41|0.53|0.5560
82377992|NCT04386616|164463955|SUPERIORITY||Odds Ratio (OR)|0.62||||0.0502|TWO_SIDED|95.0|0.38|1.0|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.00|0.38|0.0502
82377993|NCT04386616|164463955|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7002|TWO_SIDED|95.0|0.51|1.6|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.60|0.51|0.7002
82377994|NCT04386616|164463955|SUPERIORITY||Odds Ratio (OR)|0.57||||0.0448|TWO_SIDED|95.0|0.32|0.99|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||0.99|0.32|0.0448
82377995|NCT04386616|164463956|SUPERIORITY||Median Difference (Net)|-0.48||||0.4845|||||||Van Elteren||Median difference was calculated as the MSTT1041A Arm minus the Placebo Arm.|||||0.4845
82377996|NCT04386616|164463956|SUPERIORITY||Median Difference (Net)|-3.1||||0.057|||||||Van Elteren||Median difference was calculated as the UTTR1147A Arm minus the Placebo Arm.|||||0.0570
82377997|NCT04386616|164463957|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.4456|TWO_SIDED|95.0|0.76|1.88|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.88|0.76|0.4456
82377998|NCT04386616|164463957|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7213|TWO_SIDED|95.0|0.57|1.48|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.48|0.57|0.7213
82377999|NCT04386616|164463957|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.3963|TWO_SIDED|95.0|0.77|1.96|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||1.96|0.77|0.3963
82378000|NCT04386616|164463957|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9174|TWO_SIDED|95.0|0.6|1.58|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||1.58|0.60|0.9174
82378001|NCT04386616|164463958|OTHER||Difference in Mortality Rates|2.49|||||TWO_SIDED|95.0|-4.51|9.49|||||The difference in mortality rates is calculated as the MSTT1041A Arm minus the Placebo Arm.|||9.49|-4.51|
82378002|NCT04386616|164463958|OTHER||Difference in Mortality Rates|2.36|||||TWO_SIDED|95.0|-4.58|9.31|||||The difference in mortality rates is calculated as the UTTR1147A Arm minus the Placebo Arm.|||9.31|-4.58|
82562676|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.21|||<|0.001|TWO_SIDED|95.0|-15.62|-10.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-10.81|-15.62|<0.001
82378003|NCT04386616|164463958|SUPERIORITY||Odds Ratio (OR)|1.46||||0.4336|TWO_SIDED|95.0|0.57|3.74|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||3.74|0.57|0.4336
82378004|NCT04386616|164463958|SUPERIORITY||Odds Ratio (OR)|1.43||||0.4543|TWO_SIDED|95.0|0.56|3.68|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||3.68|0.56|0.4543
82378005|NCT04386616|164463958|SUPERIORITY||Odds Ratio (OR)|1.46||||0.49|TWO_SIDED|95.0|0.54|3.97|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||3.97|0.54|0.4900
82378006|NCT04386616|164463958|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3595|TWO_SIDED|95.0|0.58|4.28|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||4.28|0.58|0.3595
82378007|NCT04386616|164463959|OTHER||Difference in Mortality Rates|3.42|||||TWO_SIDED|95.0|-5.42|12.26|||||The difference in mortality rates is calculated as the MSTT1041A Arm minus the Placebo Arm.|||12.26|-5.42|
82378008|NCT04386616|164463959|OTHER||Difference in Mortality Rates|1.68|||||TWO_SIDED|95.0|-6.89|10.26|||||The difference in mortality rates is calculated as the UTTR1147A Arm minus the Placebo Arm.|||10.26|-6.89|
82378009|NCT04386616|164463959|SUPERIORITY||Odds Ratio (OR)|1.36||||0.4067|TWO_SIDED|95.0|0.66|2.8|||Chi-squared||The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.80|0.66|0.4067
82378010|NCT04386616|164463959|SUPERIORITY||Odds Ratio (OR)|1.17||||0.6728|TWO_SIDED|95.0|0.56|2.46|||Chi-squared||The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.46|0.56|0.6728
82378011|NCT04386616|164463959|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5495|TWO_SIDED|95.0|0.62|2.87|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.87|0.62|0.5495
82378012|NCT04386616|164463959|SUPERIORITY||Odds Ratio (OR)|1.24||||0.5551|TWO_SIDED|95.0|0.57|2.71|||Cochran-Mantel-Haenszel|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The odds ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.71|0.57|0.5551
82378013|NCT04386616|164463960|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.3831|TWO_SIDED|95.0|0.71|2.4|||Unstratified Log Rank||The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.40|0.71|0.3831
82378014|NCT04386616|164463960|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5925|TWO_SIDED|95.0|0.65|2.15|||Unstratified Log Rank||The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.15|0.65|0.5925
82378015|NCT04386616|164463960|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.7487|TWO_SIDED|95.0|0.6|2.05|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the MSTT1041A Arm relative to the Placebo Arm.|||2.05|0.60|0.7487
82378016|NCT04386616|164463960|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.6092|TWO_SIDED|95.0|0.63|2.21|||Stratified Log Rank|The analysis was adjusted for the baseline characteristics of region of enrollment and need for mechanical ventilation.|The hazard ratio was calculated as the UTTR1147A Arm relative to the Placebo Arm.|||2.21|0.63|0.6092
82378017|NCT01377012|164463971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0004|TWO_SIDED|95.0|1.4|3.4|||Regression, Logistic|||||3.4|1.4|0.0004
82378018|NCT01377012|164463971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0004|TWO_SIDED|95.0|1.4|3.4|||Regression, Logistic|||||3.4|1.4|0.0004
82378019|NCT02448368|164463990|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the Pharmacokinetics (PK), Pharmacodynamics (PD), and safety profile of RDEA3170.|Geometric Least Squares Mean Ratio|232.0|||||TWO_SIDED|90.0|202.0|266.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||266|202|
82378020|NCT02448368|164463990|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|181.0|||||TWO_SIDED|90.0|164.0|200.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||200|164|
82378021|NCT02448368|164463990|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|106.0|||||TWO_SIDED|90.0|91.5|124.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||124|91.5|
82378022|NCT02448368|164463992|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|170.0|||||TWO_SIDED|90.0|147.0|195.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||195|147|
82378023|NCT02448368|164463992|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|170.0|||||TWO_SIDED|90.0|146.0|199.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||199|146|
82378024|NCT02448368|164463992|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|129.0|||||TWO_SIDED|90.0|114.0|146.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||146|114|
82378025|NCT02448368|164463993|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|161.0|||||TWO_SIDED|90.0|139.0|187.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||187|139|
82378026|NCT02448368|164463993|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|159.0|||||TWO_SIDED|90.0|135.0|188.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||188|135|
82439393|NCT01730339|164586807|SUPERIORITY_OR_OTHER||Least Square mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.4038|TWO_SIDED|90.0|-0.24|0.72|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.72|-0.24|0.4038
82378027|NCT02448368|164463993|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|131.0|||||TWO_SIDED|90.0|116.0|147.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||147|116|
82378028|NCT02448368|164463995|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|99.4|||||TWO_SIDED|90.0|88.3|112.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||112|88.3|
82624044|NCT02259127|164963471|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.09|||=|0.003|TWO_SIDED|95.0|-0.16|-0.04|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||-0.04|-0.16|= 0.003
82378029|NCT02448368|164463995|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|99.9|||||TWO_SIDED|90.0|85.5|117.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||117|85.5|
82378030|NCT02448368|164463995|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|116.0|||||TWO_SIDED|90.0|94.8|143.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||143|94.8|
82378031|NCT02448368|164463996|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|107.0|||||TWO_SIDED|90.0|98.3|116.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||116|98.3|
82378032|NCT02448368|164463996|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio|104.0|||||TWO_SIDED|90.0|95.0|113.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||113|95.0|
82378033|NCT02448368|164463996|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|115.0|||||TWO_SIDED|90.0|95.3|140.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||140|95.3|
82378034|NCT02448368|164463997|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|107.0|||||TWO_SIDED|90.0|98.1|116.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||116|98.1|
82378035|NCT02448368|164463997|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|103.0|||||TWO_SIDED|90.0|94.6|113.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||113|94.6|
82378036|NCT02448368|164463997|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170|Geometric Least Squares mean Ratio|113.0|||||TWO_SIDED|90.0|93.3|137.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||137|93.3|
82378037|NCT03086551|164464014|OTHER||Effect Size - Cohen's d|0.2|||||TWO_SIDED||||||||Cohen's d was calculated as time to complete the sequence at the pre-baseline assessment minus the time it took to complete the sequence at the post-intervention assessment. The denominator reflected pooled variance.|Magnitude of change in sequence completion time from pre-baseline to post-intervention for the Active arm. Cohen's d was calculated as a measure of effect size.||||
82378038|NCT03086551|164464014|OTHER||Effect Size - Cohen's d|0.69|||||TWO_SIDED||||||||Cohen's d was calculated as time to complete the sequence at the pre-baseline assessment minus the time it took to complete the sequence at the post-intervention assessment. The denominator reflected pooled variance.|Magnitude of change in sequence completion time from pre-baseline to post-intervention for the Sham arm. Cohen's d was calculated as a measure of effect size.||||
82378039|NCT03086551|164464014|OTHER|Cohen's d effect size was calculated to compare the magnitude of change in time to complete the movement sequence from pre-baseline to post-intervention across the Active and Sham arms.|Effect Size - Cohen's d|-0.8|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|||||
82378040|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|-0.08|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Active arm.||||
82378041|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|0.5|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Sham arm.||||
82378042|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|-1.84|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison across study arm of the magnitude of improvement in aggregate time to complete all elements of the Jebsen-Taylor Hand Function Test for the stroke affected limb. Cohen's d was calculated as a measure of effect size.||||
82378043|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|0.38|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the non-stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Active arm.||||
82378044|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|0.08|||||TWO_SIDED||||||||Cohen's d was calculated as aggregate time to complete all elements at the pre-baseline assessment minus the aggregate time it took to complete all elements at the post-intervention assessment. The denominator reflected pooled variance.|The magnitude of transfer of the task specific practice to functional activities of daily live for the non-stroke affected limb was assessed by calculating the magnitude of change (Cohen's d) in time to complete the activities of the Jebsen-Taylor Hand Function Test from pre-baseline to post-intervention in the Sham arm.||||
82378045|NCT03086551|164464015|OTHER||Effect Size - Cohen's d|0.38|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison across study arm of the magnitude of improvement in aggregate time to complete all elements of the Jebsen-Taylor Hand Function Test for the non-stroke affected limb. Cohen's d was calculated as a measure of effect size.||||
82378046|NCT03086551|164464016|OTHER||Effect Size - Cohen's d|-0.86|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 1 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
82378047|NCT03086551|164464016|OTHER||Effect Size - Cohen's d|-0.04|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 2 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
82378048|NCT03086551|164464016|OTHER||Effect Size - Cohen's d|-0.69|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 3 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
82378049|NCT03086551|164464016|OTHER||Effect Size - Cohen's d|0.28|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to immediately post-stimulation (within the same session) for the Active arm minus the change from pre- to immediately post-stimulation for the Sham arm. The denominator reflected pooled variance.|The immediate effect of continuous theta burst stimulation over dorsolateral prefrontal cortex prior to practice was assessed by determining the magnitude of the effect of Active stimulation from pre-intervention to immediately post-intervention in Session 4 of the intervention. Cohen's d was used to derive effect size. The Sham stimulation change was used as the control.||||
82378050|NCT03086551|164464017|OTHER||Effect Size - Cohen's d|-0.31|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Active arm when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
82378051|NCT03086551|164464017|OTHER||Effect Size - Cohen's d|-0.85|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Sham arm when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
82378052|NCT03086551|164464017|OTHER||Effect Size - Cohen's d|-0.35|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Active arm when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
82378053|NCT03086551|164464017|OTHER||Effect Size - Cohen's d|1.13|||||TWO_SIDED||||||||Cohen's d was calculated as the amplitude of the motor evoked potential at the post-intervention assessment minus the amplitude of the motor evoked potential at the pre-baseline assessment. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention for the Sham arm when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Estimate of effect size was derived using Cohen's d.||||
82378054|NCT03086551|164464018|OTHER||Effect Size - Cohen's d|-0.15|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention across the Active and Sham arms when transcranial magnetic stimulator intensity was set to 120% of resting motor threshold. Comparison quantified as effect size using Cohen's d.||||
82439394|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.43|0.2||||||Vascularity: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.20|-0.43|
82378055|NCT03086551|164464018|OTHER||Effect Size - Cohen's d|-1.46|||||TWO_SIDED||||||||Cohen's d was calculated as the change from pre- to post-intervention for the Active arm minus the change from pre- to post-intervention for the Sham arm. The denominator reflected pooled variance.|Comparison of the first dorsal interosseous motor evoked potential (MEP) amplitude elicited from the ipsilesional motor cortex pre-baseline to post-intervention across the Active and Sham arms when transcranial magnetic stimulator intensity was set to 150% of resting motor threshold. Comparison quantified as effect size using Cohen's d.||||
82378056|NCT03736031|164464019|SUPERIORITY|||||||0.09|||||||two-sample independent t-test|An alpha of 0.05 was used.||||||0.09
82378057|NCT03736031|164464020|SUPERIORITY|||||||0.81|||||||two-sample independent t-test|An alpha of 0.05 was used.||||||0.81
82378058|NCT03736031|164464021|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
82378059|NCT03736031|164464022|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82378060|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.989|||||TWO_SIDED|95.0|0.223|4.393|||||Hazard ratio comparing PFS of participants with a high expression of EIF4EBP1 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of EIF4EBP1 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker EIF4EBP1 Cytoplasm with PFS.||4.393|0.223|
82378061|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.071|||||TWO_SIDED|95.0|0.316|3.628|||||Hazard ratio comparing PFS of participants with a high expression of EIF4E Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of EIF4E Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker EIF4E Cytoplasm with PFS.||3.628|0.316|
82378062|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.658|||||TWO_SIDED|95.0|0.454|6.053|||||Hazard ratio comparing PFS of participants with a high expression of HDAC2 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of HDAC2 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker HDAC2 Nucleus with PFS.||6.053|0.454|
82378063|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|4.082|||||TWO_SIDED|95.0|0.455|36.628|||||Hazard ratio comparing PFS of participants with a high expression of PCREB Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PCREB Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PCREB Nucleus with PFS.||36.628|0.455|
82378064|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.636|||||TWO_SIDED|95.0|0.18|2.253|||||Hazard ratio comparing PFS of participants with a high expression of PEIF3746 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIF3746 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIF3746 Cytoplasm with PFS.||2.253|0.180|
82378065|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.362|||||TWO_SIDED|95.0|0.083|1.576|||||Hazard ratio comparing PFS of participants with a high expression of PEIF3746 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIF3746 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIF3746 Nucleus with PFS.||1.576|0.083|
82624045|NCT02259127|164963471|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.12|||=|0.009|TWO_SIDED|95.0|-0.21|-0.03|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||-0.03|-0.21|= 0.009
82378066|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.522|||||TWO_SIDED|95.0|0.473|4.901|||||Hazard ratio comparing PFS of participants with a high expression of PEIFS209 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFS209 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFS209 Cytoplasm with PFS.||4.901|0.473|
82378067|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.908|||||TWO_SIDED|95.0|0.223|3.699|||||Hazard ratio comparing PFS of participants with a high expression of PEIFS65 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFS65 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFS65 Nucleus with PFS.||3.699|0.223|
82378068|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.843|||||TWO_SIDED|95.0|0.432|7.867|||||Hazard ratio comparing PFS of participants with a high expression of PEIFT70 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PEIFT70 Nucleus \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PEIFT70 Nucleus with PFS.||7.867|0.432|
82378069|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.926|||||TWO_SIDED|95.0|0.276|3.109|||||Hazard ratio comparing PFS of participants with a high expression of P GSK3B Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of P GSK3B Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker P GSK3B Cytoplasm with PFS.||3.109|0.276|
82378070|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.985|||||TWO_SIDED|95.0|0.32|3.033|||||Hazard ratio comparing PFS of participants with a high expression of PKCb2 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PKCb2 Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PKCb2 Cytoplasm with PFS.||3.033|0.320|
82378071|NCT00451178|164464032|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.817|||||TWO_SIDED|95.0|0.242|2.758|||||Hazard ratio comparing PFS of participants with a high expression of PTEN Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\] versus participants with a low expression of PTEN Cytoplasm \[(R-CHOP and Enzastaurin) and (R-CHOP) combined\].|The correlation of biomarker PTEN Cytoplasm with PFS.||2.758|0.242|
82378072|NCT03573830|164464079|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.002|TWO_SIDED|95.0|0.04|0.2||Threshold for significance: \<0.05|t-test, 2 sided|||||0.20|0.04|0.002
82378073|NCT03573830|164464080|SUPERIORITY||Mean Difference (Final Values)|0.15||||0|TWO_SIDED|95.0|0.07|0.22||Threshold for significance: 0.05|t-test, 2 sided|||||0.22|0.07|0.000
82378074|NCT03573830|164464081|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.352|TWO_SIDED|95.0|-0.03|0.07||Threshold for significance: 0.05|t-test, 2 sided|||||0.07|-0.03|0.352
82378075|NCT03573830|164464082|SUPERIORITY||Mean Difference (Final Values)|0.45||||0|TWO_SIDED|95.0|0.34|0.56||Threshold for significance: \<0.05|t-test, 2 sided|||||0.56|0.34|0.000
82378076|NCT03573830|164464083|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.002|TWO_SIDED|95.0|0.05|0.22||Threshold for significance: 0.05|t-test, 2 sided|||||0.22|0.05|0.002
82378077|NCT03573830|164464084|SUPERIORITY||Mean Difference (Final Values)|32.56||||0.033|TWO_SIDED|95.0|2.65|62.46||Threshold for significance: \<0.05|t-test, 2 sided|||||62.46|2.65|0.033
82378078|NCT03573830|164464086|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.065|TWO_SIDED|95.0|0.0|0.19||Threshold for significance: \<0.05|t-test, 2 sided|||||0.19|0.00|0.065
82378079|NCT03573830|164464087|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.03|TWO_SIDED|95.0|0.01|0.28||Threshold for significance: \<0.05|t-test, 2 sided|||||0.28|0.01|0.030
82378080|NCT03860974|164464132|NON_INFERIORITY|"We tested the non-inferiority of serratus block compared with PVB using the 95% CI associated with the Wilcoxon-Mann-Whitney test with continuity correction. If the lower limit of the 95% CI for median average PACU pain scores was greater than -1.25 , we would conclude non-inferiority. The non-inferiority of serratus blocks with regard to opioid consumption was similarly tested to a predefined non-inferiority margin of 2 mg intravenous morphine equivalents."|Median Difference (Final Values)|4.0||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82378081|NCT00886015|164464283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.96|1.93||||||||1.93|0.96|
82378082|NCT00886015|164464284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.46|0.98||||||||0.98|0.46|
82378083|NCT00886015|164464285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.66|1.18||||||||1.18|0.66|
82378084|NCT00886015|164464286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.44|0.98||||||||0.98|0.44|
82378085|NCT00886015|164464287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.42|0.97||||||Mild ECA compared with Normal||0.97|0.42|
82378086|NCT00886015|164464287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.39|1.01||||||Moderate ECA compared with Normal||1.01|0.39|
82378087|NCT00886015|164464287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.35|1.1||||||Severe ECA compared with Normal||1.10|0.35|
82378088|NCT00886015|164464288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.97|1.53||||||||1.53|0.97|
82378089|NCT02548156|164464296|SUPERIORITY_OR_OTHER||Ratio of LS mean|1.52|||<|0.0001|TWO_SIDED|95.0||||From ANCOVA of log transformed data: subject (random), treatment (fixed) and period (fixed) as factors, participant-level baseline and period-level baseline minus participant-level baseline as covariates.|ANCOVA||Treatment difference from ANCOVA of log transformed data. This therefore represents the ratio of the first named treatment to the second named treatment. A ratio \>1 favors the first named treatment.|Test and Reference dentifrice combined vs. Comparator dentifrice||||<0.0001
82378090|NCT03071692|164464300|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.92|1.16||||||||1.16|0.92|
82378091|NCT03071692|164464301|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.92|1.2||||||||1.20|0.92|
82378092|NCT03071692|164464302|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.89|1.18||||||||1.18|0.89|
82378093|NCT03071692|164464303|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.93|1.16||||||||1.16|0.93|
82378094|NCT03071692|164464304|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.93|1.13||||||||1.13|0.93|
82378095|NCT03071692|164464305|SUPERIORITY||Event Rate Ration|0.99|||||TWO_SIDED|95.0|0.87|1.13||||||||1.13|0.87|
82378096|NCT03071692|164464306|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.09||||||||1.09|0.69|
82378097|NCT03071692|164464307|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.95|1.41||||||||1.41|0.95|
82378098|NCT03071692|164464308|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.19||||||||1.19|0.69|
82378099|NCT03071692|164464309|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.84|1.14||||||||1.14|0.84|
82378100|NCT03071692|164464310|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.83|1.32||||||||1.32|0.83|
82378101|NCT03071692|164464311|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.75|1.26||||||TT Variant||1.26|0.75|
82378102|NCT03071692|164464311|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.96|1.47||||||CT Variant||1.47|0.96|
82378103|NCT03071692|164464311|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.69|1.39||||||CC Variant||1.39|0.69|
82378104|NCT03071692|164464312|SUPERIORITY|||||||0.13496|||||||ANCOVA|||||||0.13496
82378105|NCT03071692|164464313|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378106|NCT03071692|164464314|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378107|NCT03071692|164464315|SUPERIORITY|||||||0.96689|||||||ANCOVA|||||||0.96689
82378108|NCT03071692|164464316|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378109|NCT03071692|164464317|SUPERIORITY|||||||0.09178|||||||ANCOVA|||||||0.09178
82378110|NCT03071692|164464318|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378111|NCT03071692|164464319|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378112|NCT03071692|164464320|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82378113|NCT01473407|164464342|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|95.0|-0.25|0.01||||||Least Square (LS) mean and 95 percent confidence interval (CI) were derived from an ANCOVA model with fixed effect of treatment.||0.01|-0.25|
82378114|NCT01473407|164464343|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|5.483|||TWO_SIDED|95.0|-10.4|11.13||||||LS mean and 95 percent CI were derived from an ANCOVA model with fixed effect of treatment.||11.13|-10.40|
82378115|NCT01473407|164464344|SUPERIORITY_OR_OTHER|||||||0.7563||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.7563
82378116|NCT01473407|164464345|SUPERIORITY_OR_OTHER|||||||0.1061||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.1061
82378117|NCT01473407|164464346|SUPERIORITY_OR_OTHER|||||||0.3369||||||P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.|Wilcoxon Rank Sum test|||||||0.3369
82378118|NCT01027702|164464439|OTHER|||||||||||||||||"This was a dose-escalation study to determine a target DLI dose at which the:~1. Probability of CD4+ cells \> 100/µL by Day +120 is at least 66% and~2. Probability of grade II and III GVHD is at most 33%, probability of grade III GVHD is at most 17%, and no grade IV GVHD occurs Patients were assigned in cohorts of 3."|"The study design consisted of two phases, a dose-escalation phase and a dose-confirmation phase. In the dose-escalation phase, patients were assigned in cohorts of 3. The dose escalation plan was:~* If a grade IV acute GVHD event was observed at any dose, no more patients were assigned to this or higher dose levels unless the methotrexate dosing was modified.~* If none of the initial three patients at a dose level experienced grade II/III GVHD and \< 2/3 had a CD4+ count \> 100 at Day +120, the next three patients were assigned to the next higher dose level.~* If 1 out of 3 patients had grade III GVHD or 1 - 2 out of 3 patients had grade II GVHD and/or \> 2/3 have a CD4+ count \> 100 at Day +120, the dose was repeated for the next 3 patients.~The dose of 5 x 10\^4 CD3+ cells/kg was determined to be the optimal dose."|||
82378119|NCT01027702|164464440|OTHER|||||||||||||||||"This was a dose-escalation study to determine a target DLI dose at which the:~1. Probability of CD4+ cells \> 100/µL by Day +120 is at least 66% and~2. Probability of grade II and III GVHD is at most 33%, probability of grade III GVHD is at most 17%, and no grade IV GVHD occurs Patients were assigned in cohorts of 3."|"The study design consisted of two phases, a dose-escalation phase and a dose-confirmation phase. In the dose-escalation phase, patients were assigned in cohorts of 3. The dose escalation plan was:~If a grade IV acute GVHD event was observed at any dose, no more patients were assigned to this or higher dose levels unless the methotrexate dosing was modified.~If none of the initial three patients at a dose level experienced grade II/III GVHD and \< 2/3 had a CD4+ count \> 100 at Day +120, the next three patients were assigned to the next higher dose level.~If 1 out of 3 patients had grade III GVHD or 1 - 2 out of 3 patients had grade II GVHD and/or \> 2/3 have a CD4+ count \> 100 at Day +120, the dose was repeated for the next 3 patients.~The dose of 5 x 10\^4 CD3+ cells/kg was determined to be the optimal dose."|||
82378120|NCT00403585|164464442|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 156.|Wilcoxon signed rank|||||||<0.001
82378121|NCT03127514|164464478|SUPERIORITY|||||||0.03||||||A two-tailed P value of 0.05 or less was considered to indicate statistical significance.|Mixed Models Analysis|Random-slope, shared-baseline, linear mixed model was adjusted for age and prebaseline ALSFRS-R slope||||||0.03
82378122|NCT02932462|164464488|SUPERIORITY|||||||0.4557|||||||Cochran-Mantel-Haenszel|||||||0.4557
82378123|NCT02932462|164464489|SUPERIORITY|||||||0.8096|||||||Cochran-Mantel-Haenszel|||||||0.8096
82378124|NCT02932462|164464490|SUPERIORITY|||||||0.7652|||||||Cochran-Mantel-Haenszel|||||||0.7652
82378125|NCT01995513|164464491|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.828||||0.2176|TWO_SIDED|95.0|0.612|1.119||P-value was based on log-rank test stratified by PSA response (greater than or equal to \[\>=\] 0 percent \[%\] to less than \[\<\] 30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.119|0.612|0.2176
82378126|NCT01995513|164464492|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.874||||0.45|TWO_SIDED|95.0|0.617|1.239||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.239|0.617|0.4500
82378127|NCT01995513|164464493|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-1.65||||0.3101|TWO_SIDED|95.0|-4.82|1.51||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in response rate was based upon standard normal approximation.|This analysis is reported for participants with \>=50% decrease from baseline in PSA response.||1.51|-4.82|0.3101
82378128|NCT01995513|164464493|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-0.04||||0.9917|TWO_SIDED|95.0|-3.9|3.82||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in response rate was based upon standard normal approximation.|This analysis is reported for participants with \>=30% decrease from baseline in PSA response.||3.82|-3.90|0.9917
82378129|NCT01995513|164464494|SUPERIORITY_OR_OTHER_LEGACY||Difference in Objective Response Rate|-5.0||||0.1653|TWO_SIDED|95.0|-11.75|1.75||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in objective response rate was based upon standard normal approximation.|This analysis is reported for participants with CR+PR.||1.75|-11.75|0.1653
82378130|NCT01995513|164464494|SUPERIORITY_OR_OTHER_LEGACY||Difference in Objective Response Rate|10.92||||0.3216|TWO_SIDED|95.0|-10.37|32.21||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in objective response rate was based upon standard normal approximation.|This analysis is reported for participants with CR+PR+SD.||32.21|-10.37|0.3216
82378131|NCT01995513|164464495|SUPERIORITY_OR_OTHER_LEGACY||Difference in Progression Rate|9.09||||0.2963|TWO_SIDED|95.0|-7.69|25.87||P-value was based on Cochran-Mantel-Haenszel mean score test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Cochran-Mantel-Haenszel||Difference in Progression Rate was based upon normal approximation.|||25.87|-7.69|0.2963
82439395|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.43|0.11||||||Vascularity: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.11|-0.43|
82439396|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.15|0.52||||||Vascularity: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.15|
82378132|NCT01995513|164464496|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.861||||0.3818|TWO_SIDED|95.0|0.616|1.204||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period.|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||1.204|0.616|0.3818
82378133|NCT01995513|164464503|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.399||||0.0739|TWO_SIDED|95.0|0.967|2.025||P-value was based on log-rank test stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period|Log Rank||Hazard ratio was based on a Cox regression model (with treatment as the only covariate) stratified by PSA response (\>=0% to \<30% vs \>=30%) at Week 13 in the open-label period and is relative to Enzalutamide-placebo with \< 1 favoring Enzalutamide.|||2.025|0.967|0.0739
82378134|NCT01750190|164464508|SUPERIORITY||Least Square Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|1.735|1.967|||ANCOVA|MI (Multiple Imputation) ANCOVA|Roxadustat - Placebo Treatment Difference|Treatment comparison was made using the multiple imputation strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb and baseline estimated glomerular filtration rate (eGFR) as covariates and treatment and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 milliliters \[mL\]/minutes \[min\]/1.73 meters \[m\]\^2), as fixed effects.||1.967|1.735|<0.0001
82378135|NCT01750190|164464509|SUPERIORITY||Odds Ratio (OR)|77.56|||<|0.0001|TWO_SIDED|95.0|44.73|134.48|||Cochran-Mantel-Haenszel||Roxadustat/Placebo Odds ratio|||134.48|44.73|<0.0001
82378136|NCT01750190|164464510|SUPERIORITY||Least Square Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|1.73|2.037|||Mixed Models Analysis|MMRM Analysis|Roxadustat - placebo treatment difference|Treatment comparison was made using MMRM with baseline Hb and baseline eGFR as covariates, and treatment, visit, visit-by-treatment interaction, and the randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73m\^2), as fixed effects.||2.037|1.730|<0.0001
82378137|NCT01750190|164464511|SUPERIORITY||Least Square Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|1.663|2.143|||ANCOVA|MI ANCOVA|Roxadustat - placebo treatment difference|Treatment comparison was made using the multiple imputation strategy by combining the results of ANCOVA model with baseline Hb and baseline eGFR as covariates , and treatment and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73m\^2 ), as fixed effects.||2.143|1.663|<0.0001
82378138|NCT01750190|164464512|SUPERIORITY||Odds Ratio (OR)|15.47|||<|0.0001|TWO_SIDED|95.0|10.79|22.189|||Cochran-Mantel-Haenszel||Roxadustat/placebo odds ratio|||22.189|10.79|<0.0001
82378139|NCT01750190|164464513|SUPERIORITY||Least Square Mean Difference|-17.26|STANDARD_ERROR_OF_MEAN|1.73|<|0.0001|TWO_SIDED|95.0|-20.65|-13.87|||Mixed Models Analysis|MMRM Analysis|Roxadustat- placebo treatment difference|Treatment comparison was made using MMRM with baseline LDL cholesterol as a covariate, and treatment, visit, visit-by-treatment interaction, and the randomization stratification factors as fixed effects.||-13.87|-20.65|<0.0001
82378140|NCT01750190|164464514|SUPERIORITY||Least Square Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.528||0.6924|TWO_SIDED|95.0|-0.827|1.245|||ANCOVA|MI ANCOVA|Roxadustat - placebo treatment difference|||1.245|-0.827|0.6924
82378141|NCT01750190|164464515|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.165|0.406||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73 m\^2).|Cox Proportional hazards model|||||0.406|0.165|<0.0001
82378142|NCT01750190|164464516|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.108|0.267||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and the randomization stratification factors, except baseline Hb (\<=8 g/dL versus \>8 g/dL) and eGFR (\<30 versus \>=30 mL/min/1.73m\^2).|Cox Proportional hazards model|||First 24 Weeks of Treatment||0.267|0.108|<0.0001
82378143|NCT01750190|164464516|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.138|0.276||From a Cox Proportional hazards model adjusting for baseline Hb, baseline eGFR and other randomization stratification factors, except baseline Hb (≤8 g/dL versus \>8 g/dL) and eGFR (\<30 versus ≥30 mL/min/1.73 m\^2).|Cox Proportional hazards model|||First 52 Weeks of Treatment||0.276|0.138|<0.0001
82439397|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.22|0.36||||||Vascularity: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.36|-0.22|
82378144|NCT04584684|164464520|SUPERIORITY|||||||0.89||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.89
82378145|NCT04584684|164464520|SUPERIORITY|||||||0.88||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.88
82378146|NCT04584684|164464520|SUPERIORITY|||||||0.82||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.82
82378147|NCT04584684|164464520|SUPERIORITY|||||||0.65||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.65
82378148|NCT04584684|164464520|SUPERIORITY|||||||0.77||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.77
82378149|NCT04584684|164464520|SUPERIORITY|||||||0.76||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.76
82378150|NCT04584684|164464520|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.80
82378151|NCT04584684|164464520|SUPERIORITY|||||||0.71||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.71
82378152|NCT04584684|164464520|SUPERIORITY|||||||0.6||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.60
82378153|NCT04584684|164464520|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.80
82378154|NCT02955212|164464525|SUPERIORITY||Response Rate Difference|40.2|||<|0.001|TWO_SIDED|95.0|30.5|50.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||50.0|30.5|<0.001
82378155|NCT02955212|164464526|SUPERIORITY||Least Squares (LS) Mean Difference|-1.61|||<|0.001|TWO_SIDED|95.0|-1.86|-1.36|||ANCOVA|ANCOVA model including treatment as the fixed factor, and Baseline value and the stratification factor country as the covariates.|LS Mean Difference = Upadacitinib - Placebo|||-1.36|-1.86|<0.001
82378156|NCT02955212|164464527|SUPERIORITY||LS Mean Difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.55|-0.33|||ANCOVA|ANCOVA model including treatment as the fixed factor, and Baseline value and the stratification factor country as the covariates.|LS Mean Difference = Upadacitinib - Placebo|||-0.33|-0.55|<0.001
82378157|NCT02955212|164464528|SUPERIORITY||LS Mean Difference|5.57|||<|0.001|TWO_SIDED|95.0|4.13|7.01|||Mixed Effect Model Repeat Measurement|MMRM model with treatment, visit, treatment-by-visit interaction and stratification factor of country as fixed effects and Baseline value as covariate|LS Mean Difference = Upadacitinib - Placebo|||7.01|4.13|<0.001
82378158|NCT02955212|164464529|SUPERIORITY||Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|23.4|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor country.|Response Rate Difference = Upadacitinib - Placebo|||41.7|23.4|<0.001
82378159|NCT02955212|164464530|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|24.3|16.6|31.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||31.9|16.6|<0.001
82378160|NCT02955212|164464531|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|95.0|15.6|32.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||32.9|15.6|<0.001
82439398|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|0.07|0.77||||||Vascularity: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.77|0.07|
82639411|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.3||||0.0002|TWO_SIDED|95.0|9.21|54.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||54.1|9.21|0.0002
82378161|NCT02955212|164464532|SUPERIORITY||Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|24.0|41.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||41.0|24.0|<0.001
82378162|NCT02955212|164464533|SUPERIORITY||Response Rate Difference|17.8|||<|0.001|TWO_SIDED|95.0|11.0|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country.|Response Rate Difference = Upadacitinib - Placebo|||24.5|11.0|<0.001
82378163|NCT02955212|164464534|SUPERIORITY||Response Rate Difference|19.5|||<|0.001|TWO_SIDED|95.0|12.1|27.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of country|Response Rate Difference = Upadacitinib - Placebo|||27.0|12.1|<0.001
82378164|NCT05387889|164464545|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.054|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.054
82378165|NCT05387889|164464546|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.25|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.25
82439399|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.05|0.65||||||Vascularity: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.65|0.05|
82378166|NCT05387889|164464547|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.07|TWO_SIDED|95.0||||The threshold for the level of significance is set at less than or equal to 0.05|ANCOVA|||||||< 0.07
82378167|NCT01311687|164464555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.35|0.59|||Stratified Log Rank Test|Stratified by age, disease population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.59|0.35|<0.001
82378168|NCT01311687|164464556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.39|0.61|||Stratified log-rank test|Stratified by age, disease population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.61|0.39|<0.001
82378169|NCT01311687|164464558|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.37|0.74|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.74|0.37|<0.001
82378170|NCT01311687|164464559|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.009|TWO_SIDED|95.0|0.54|0.92|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.92|0.54|0.009
82378171|NCT01311687|164464560|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91|||Log Rank||Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.91|0.60|0.005
82378172|NCT01311687|164464561|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.53|||<|0.001|TWO_SIDED|95.0|3.19|17.77|||Fisher Exact||Odds ratio is for pomalidomide plus low-dose dexamethasone : high dose dexamethasone|||17.77|3.19|< 0.001
82378173|NCT01311687|164464562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.44|||<|0.001|TWO_SIDED|95.0|3.32|21.42|||Fisher Exact||Odds ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||21.42|3.32|< 0.001
82378174|NCT01311687|164464563|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.36|0.59|||Stratified Log Rank Test|Stratified by age, diseases population, and prior number of anti myeloma therapy.|Hazard ratio is for Pomalidomide Plus Low-Dose Dexamethasone : High Dose Dexamethasone|||0.59|0.36|< 0.001
82378175|NCT01895777|164464606|NON_INFERIORITY|Non-inferiority margin of 20%|Difference in Rates|-0.038|||=|0.0001|TWO_SIDED|90.0|-0.141|0.066||p-value for non-inferiority is actually \<0.0001|Cochran-Mantel-Haenszel||Difference in rates (SOC - DE)|The primary analysis of the primary efficacy endpoint used the randomised set, following the intention-to-treat principle, based on adjudication-confirmed data. Age group was used as stratification factor using a Mantel-Haenszel type weighted average of differences.||0.066|-0.141|= 0.0001
82378176|NCT01895777|164464607|OTHER||Kaplan-Meier estimate|0.0|||||TWO_SIDED|90.0|-0.032|0.032|||Kaplan-Meier estimate||Kaplan-Meier estimate of rate difference.|Time-to event endpoint using Kaplan-Meier estimates based on adjudication-confirmed data. Due to the low event rate of major bleeding, age group stratification was not considered.||0.032|-0.032|
82378177|NCT01895777|164464613|OTHER||Hazard Ratio (HR)|1.145|||||TWO_SIDED|90.0|0.736|1.78||||||Any bleeding events was analysed as time-to-event endpoint using a stratified Cox proportional hazard model with treatment as a covariate in the model and age group as the stratification factor. A pooling of age groups was performed as no events were observed in certain age group.||1.780|0.736|
82378178|NCT01895777|164464614|OTHER||Hazard Ratio (HR)|69990000.0||||0.9976|TWO_SIDED|90.0|0.0|999999999.0|||Cox proportional hazard model||Upper Limit of the 90% confidence interval was not assessable|All-cause mortality was analyzed as time-to-event endpoint using a stratified Cox proportional hazard model with treatment as a covariate in the model.||999999999|0.000|0.9976
82378179|NCT01342081|164464619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.1|-1.3|||ANCOVA|||||-1.3|-2.1|< 0.001
82378180|NCT01342081|164464619|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.5 mmHg was used. Non-inferiority was claimed if the upper limit of the confidence interval of the difference is 1.5 mmHg or less.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.7|0.1||||||Non-inferiority was evaluated after superiority to tafluprost was confirmed.||0.1|-0.7|
82378181|NCT00839254|164464698|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN3+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster-related effect.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|82.8|100.0||P-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||100|82.8|<0.0001
82378182|NCT00839254|164464699|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN2+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster-related effect.|VE (1-RR)|91.8|||=|0.0009|TWO_SIDED|95.0|58.3|99.6||p-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||99.6|58.3|= 0.0009
82378183|NCT04140032|164464814|SUPERIORITY||Difference between groups in change in B|-0.18|STANDARD_DEVIATION|0.06||0.003|TWO_SIDED|95.0|-0.31|-0.06|||Mixed Models Analysis|p \< 0.05 considered significant||||-0.06|-0.31|0.003
82378184|NCT04140032|164464815|SUPERIORITY||Odds ratio for difference between groups|1.29||||0.7|TWO_SIDED|95.0|0.034|4.91|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||4.91|.034|0.7
82378185|NCT04140032|164464816|SUPERIORITY||Difference between groups in change in f|-0.2|STANDARD_DEVIATION|0.19||0.3|TWO_SIDED|95.0|-0.58|0.17|||Mixed Models Analysis|||||0.17|-0.58|0.3
82378186|NCT04140032|164464820|SUPERIORITY||Odds ratio for difference between groups|1.1|STANDARD_ERROR_OF_MEAN|0.35||0.8|TWO_SIDED|95.0|0.56|2.16|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||2.16|0.56|0.8
82378187|NCT04140032|164464820|SUPERIORITY||Odds ratio for difference between groups|1.1||||0.8|TWO_SIDED|95.0|0.56|2.16|||Mixed Models Analysis|p \< 0.05 considered significant|Reported dispersion parameter is standard error of log(OR)|||2.16|0.56|0.8
82439400|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.03|0.68||||||Vascularity: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.68|-0.03|
82378188|NCT04856917|164464821|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.21||0.3757|TWO_SIDED|90.0|-2.47|8.19|||LRMM|||Least square (LS) Mean, SE, 90% CI, \& p-value was based on a linear repeated measures model (LRMM) which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.||8.19|-2.47|0.3757
82378189|NCT04856917|164464821|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|3.22||0.6183|TWO_SIDED|90.0|-3.73|6.95|||LRMM|||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.||6.95|-3.73|0.6183
82378190|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.7||0.249|TWO_SIDED|90.0|-0.85|4.8||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||4.80|-0.85|0.2490
82378191|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.72||0.0708|TWO_SIDED|90.0|0.28|5.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||5.99|0.28|0.0708
82378192|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|2.68||0.004|TWO_SIDED|90.0|3.44|12.34||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||12.34|3.44|0.0040
82439401|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.52||||||Vascularity: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.09|
82378193|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.71||0.206|TWO_SIDED|90.0|-1.05|7.94||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||7.94|-1.05|0.2060
82378194|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.66||0.4341|TWO_SIDED|90.0|-2.33|6.51||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||6.51|-2.33|0.4341
82378195|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.73||0.7307|TWO_SIDED|90.0|-3.59|5.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||5.48|-3.59|0.7307
82378196|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.93||0.3261|TWO_SIDED|90.0|-1.97|7.77||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||7.77|-1.97|0.3261
82378197|NCT04856917|164464822|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.95||0.8221|TWO_SIDED|90.0|-5.56|4.23||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||4.23|-5.56|0.8221
82378198|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|6.2||0.3008|TWO_SIDED|90.0|-3.84|16.73||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||16.73|-3.84|0.3008
82378199|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|6.27||0.0878|TWO_SIDED|90.0|0.4|21.19||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||21.19|0.40|0.0878
82378200|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|26.6|STANDARD_ERROR_OF_MEAN|8.42||0.002|TWO_SIDED|90.0|12.64|40.57||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||40.57|12.64|0.0020
82378201|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|14.0|STANDARD_ERROR_OF_MEAN|8.5||0.1029|TWO_SIDED|90.0|-0.12|28.09||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||28.09|-0.12|0.1029
82378202|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|8.82||0.5427|TWO_SIDED|90.0|-9.25|20.02||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||20.02|-9.25|0.5427
82378203|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|9.06||0.5833|TWO_SIDED|90.0|-10.05|20.02||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||20.02|-10.05|0.5833
82378204|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|10.98||0.3293|TWO_SIDED|90.0|-7.46|28.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||28.99|-7.46|0.3293
82378205|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|14.5|STANDARD_ERROR_OF_MEAN|10.99||0.19|TWO_SIDED|90.0|-3.74|32.74||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||32.74|-3.74|0.1900
82378206|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|11.7|STANDARD_ERROR_OF_MEAN|9.38||0.2168|TWO_SIDED|90.0|-3.91|27.23||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||27.23|-3.91|0.2168
82639412|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|59.1||||0.428|TWO_SIDED|95.0|23.3|150.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||150|23.3|0.4280
82378207|NCT04856917|164464823|SUPERIORITY||LS Mean Difference|7.8|STANDARD_ERROR_OF_MEAN|9.42||0.4089|TWO_SIDED|90.0|-7.82|23.45||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial inflammatory lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||23.45|-7.82|0.4089
82378208|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.53||0.4229|TWO_SIDED|90.0|-2.16|6.24||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||6.24|-2.16|0.4229
82378209|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.56||0.6027|TWO_SIDED|90.0|-2.91|5.59||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||5.59|-2.91|0.6027
82378210|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|2.5||0.2655|TWO_SIDED|90.0|-1.35|6.95||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||6.95|-1.35|0.2655
82378211|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|2.53||0.6229|TWO_SIDED|90.0|-2.95|5.44||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||5.44|-2.95|0.6229
82378212|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.74||0.4091|TWO_SIDED|90.0|-3.1|9.3||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||9.30|-3.10|0.4091
82378213|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.83||0.1274|TWO_SIDED|90.0|-0.47|12.25||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||12.25|-0.47|0.1274
82378214|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|3.76||0.2075|TWO_SIDED|90.0|-1.47|11.01||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||11.01|-1.47|0.2075
82378215|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|3.77||0.2484|TWO_SIDED|90.0|-1.88|10.64||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||10.64|-1.88|0.2484
82378216|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|3.61||0.3399|TWO_SIDED|90.0|-2.53|9.45||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||9.45|-2.53|0.3399
82378217|NCT04856917|164464824|SUPERIORITY||LS Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|3.62||0.0545|TWO_SIDED|90.0|1.03|13.05||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||13.05|1.03|0.0545
82378218|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|11.69||0.9679|TWO_SIDED|90.0|-19.86|18.91||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||18.91|-19.86|0.9679
82378219|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|11.83||0.9152|TWO_SIDED|90.0|-20.87|18.35||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||18.35|-20.87|0.9152
82378220|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|9.64||0.449|TWO_SIDED|90.0|-8.67|23.32||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||23.32|-8.67|0.4490
82378221|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|9.74||0.7246|TWO_SIDED|90.0|-12.72|19.6||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||19.60|-12.72|0.7246
82439402|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.18|0.42||||||Pigmentation: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.18|
82439403|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.35|0.22||||||Pigmentation: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.22|-0.35|
82439404|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.47|0.24||||||Pigmentation: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.47|
82439405|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.6|0.06||||||Pigmentation: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.06|-0.60|
82439406|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.35|0.41||||||Pigmentation: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.41|-0.35|
82378222|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|13.8|STANDARD_ERROR_OF_MEAN|18.88||0.4655|TWO_SIDED|90.0|-17.49|45.14||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||45.14|-17.49|0.4655
82378223|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|30.5|STANDARD_ERROR_OF_MEAN|19.33||0.1178|TWO_SIDED|90.0|-1.59|62.54||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||62.54|-1.59|0.1178
82378224|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|23.1|STANDARD_ERROR_OF_MEAN|17.71||0.1938|TWO_SIDED|90.0|-6.22|52.52||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||52.52|-6.22|0.1938
82378225|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|29.7|STANDARD_ERROR_OF_MEAN|17.85||0.0991|TWO_SIDED|90.0|0.08|59.29||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||59.29|0.08|0.0991
82378226|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|15.0|STANDARD_ERROR_OF_MEAN|15.44||0.3337|TWO_SIDED|90.0|-10.62|40.59||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||40.59|-10.62|0.3337
82378227|NCT04856917|164464825|SUPERIORITY||LS Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|15.48||0.0465|TWO_SIDED|90.0|5.5|56.87||LS Mean, SE, 90% CI, \& p-value was based on LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs 4) as categorical covariates \& baseline facial non-inflammatory lesion count as continuous covariate|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||56.87|5.50|0.0465
82378228|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|2.95||0.215|TWO_SIDED|90.0|-1.21|8.56||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||8.56|-1.21|0.2150
82378229|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|2.97||0.0864|TWO_SIDED|90.0|0.21|10.05||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||10.05|0.21|0.0864
82378230|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|3.88||0.0084|TWO_SIDED|90.0|3.97|16.85||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||16.85|3.97|0.0084
82378231|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.91||0.16|TWO_SIDED|90.0|-0.95|12.01||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||12.01|-0.95|0.1600
82378232|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|5.23||0.3671|TWO_SIDED|90.0|-3.94|13.41||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||13.41|-3.94|0.3671
82378233|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.35||0.1587|TWO_SIDED|90.0|-1.28|16.46||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||16.46|-1.28|0.1587
82378234|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.8||0.1932|TWO_SIDED|90.0|-2.03|17.21||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||17.21|-2.03|0.1932
82378235|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|5.82||0.2518|TWO_SIDED|90.0|-2.95|16.37||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||16.37|-2.95|0.2518
82378236|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|5.53||0.232|TWO_SIDED|90.0|-2.53|15.83||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||15.83|-2.53|0.2320
82439407|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.33|0.37||||||Pigmentation: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.37|-0.33|
82378237|NCT04856917|164464826|SUPERIORITY||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.55||0.2014|TWO_SIDED|90.0|-2.08|16.35||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||16.35|-2.08|0.2014
82378238|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|4.94||0.4361|TWO_SIDED|90.0|-4.34|12.06||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||12.06|-4.34|0.4361
82378239|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|8.2|STANDARD_ERROR_OF_MEAN|4.98||0.1018|TWO_SIDED|90.0|-0.04|16.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||16.48|-0.04|0.1018
82378240|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|16.3|STANDARD_ERROR_OF_MEAN|5.79||0.0059|TWO_SIDED|90.0|6.66|25.88||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||25.88|6.66|0.0059
82378241|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|9.9|STANDARD_ERROR_OF_MEAN|5.83||0.0913|TWO_SIDED|90.0|0.26|19.59||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||19.59|0.26|0.0913
82378242|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|7.7||0.4921|TWO_SIDED|90.0|-7.47|18.09||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||18.09|-7.47|0.4921
82378243|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|11.1|STANDARD_ERROR_OF_MEAN|7.89||0.1607|TWO_SIDED|90.0|-1.95|24.24||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||24.24|-1.95|0.1607
82378244|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|14.2|STANDARD_ERROR_OF_MEAN|9.19||0.1244|TWO_SIDED|90.0|-1.02|29.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||29.48|-1.02|0.1244
82378245|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|15.2|STANDARD_ERROR_OF_MEAN|9.2||0.1004|TWO_SIDED|90.0|-0.02|30.51||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||30.51|-0.02|0.1004
82378246|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|9.64||0.2015|TWO_SIDED|90.0|-3.61|28.39||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||28.39|-3.61|0.2015
82439408|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.24|0.53||||||Pigmentation: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.53|-0.24|
82378247|NCT04856917|164464827|SUPERIORITY||LS Mean Difference|15.8|STANDARD_ERROR_OF_MEAN|9.66||0.1057|TWO_SIDED|90.0|-0.27|31.81||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline total facial lesion count as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||31.81|-0.27|0.1057
82378248|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.08||0.5157|TWO_SIDED|90.0|-0.08|0.19||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||0.19|-0.08|0.5157
82378249|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0178|TWO_SIDED|90.0|0.06|0.34||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||0.34|0.06|0.0178
82439409|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.39|0.32||||||Pigmentation: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.32|-0.39|
82439410|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.22|0.58||||||Thickness: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.58|-0.22|
82439411|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.42|0.35||||||Thickness: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.35|-0.42|
82639413|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|107.0||||0.999|TWO_SIDED|95.0|44.8|255.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||255|44.8|0.9990
82378250|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.3|STANDARD_DEVIATION|0.12||0.0132|TWO_SIDED|90.0|0.1|0.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||0.48|0.10|0.0132
82439412|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.05|0.84||||||Thickness: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.84|-0.05|
82439413|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.62|0.23||||||Thickness: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.62|
82439414|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.94|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|0.4|1.49||||||Thickness: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.49|0.40|
82439415|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.3|0.72||||||Thickness: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.72|-0.30|
82439416|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.68|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.13|1.24||||||Thickness: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.24|0.13|
82439417|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.38|0.67||||||Thickness: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.38|
82439418|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.01|0.78||||||Relief: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.78|-0.01|
82439419|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.5|0.28||||||Relief: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.28|-0.50|
82439420|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.23|0.67||||||Relief: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.23|
82439421|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.63|0.24||||||Relief: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.63|
82439422|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.74|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|0.21|1.26||||||Relief: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.26|0.21|
82439423|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.41|0.59||||||Relief: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.59|-0.41|
82439424|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.02|1.02||||||Relief: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.02|0.02|
82439425|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.33|0.63||||||Relief: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.63|-0.33|
82439426|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.09|0.67||||||Pliability: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.67|-0.09|
82439427|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.39|0.34||||||Pliability: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.34|-0.39|
82439428|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.12|0.74||||||Pliability: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.74|-0.12|
82439429|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.76|0.05||||||Pliability: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.05|-0.76|
82439430|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|0.25|1.2||||||Pliability: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.20|0.25|
82439431|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.46|0.42||||||Pliability: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.46|
82378251|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0034|TWO_SIDED|90.0|0.16|0.54||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||0.54|0.16|0.0034
82439432|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|0.01|1.05||||||Pliability: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.05|0.01|
82439433|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.0|0.98||||||Pliability: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.98|0.00|
82439434|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.29|0.62||||||Surface Area: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.62|-0.29|
82439435|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|-0.28|0.43||||||Surface Area: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.43|-0.28|
82439436|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.02|1.0||||||Surface Area: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.00|0.02|
82439437|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.53|0.23||||||Surface Area: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.53|
82439438|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.08|1.2||||||Surface Area: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.20|0.08|
82439439|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.44|0.42||||||Surface Area : Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.42|-0.44|
82439440|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.69|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|0.09|1.28||||||Surface Area: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.28|0.09|
82439441|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.23|0.69||||||Surface Area: week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.69|-0.23|
82439442|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.22||0.2778|TWO_SIDED|90.0|-0.12|0.6|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Week 8 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.60|-0.12|0.2778
82439443|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.22||0.6888|TWO_SIDED|90.0|-0.28|0.45|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 8 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.45|-0.28|0.6888
82439444|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3515|TWO_SIDED|90.0|-0.18|0.65|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 11 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.65|-0.18|0.3515
82439445|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.3788|TWO_SIDED|90.0|-0.64|0.19|||Repeated measures model|Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||Overall Opinion: Weekl 11 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.19|-0.64|0.3788
82439446|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.28||0.0044|TWO_SIDED|90.0|0.35|1.29|||Repeated measures model|||Overall Opinion: Weekl 18 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||1.29|0.35|0.0044
82439447|NCT01730339|164586808|SUPERIORITY_OR_OTHER||Least Square mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.6848|TWO_SIDED|90.0|-0.35|0.58|||Repeated measures model|||Overall Opinion: Weekl 18 A total sample size of 100 (accounting for approximately 10% drop rate) that is approximately 50 per group at one sided 0.05 level with delta of 1.5 points with standard deviation of 2 provided at least 80% power to detect a difference from placebo using a paired test. Statistical significance was tested at the two-sided significance level of 0.1, without adjusting for multiplicity.||0.58|-0.35|0.6848
82439448|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.32||0.7552|TWO_SIDED|90.0|-0.44|0.64|||Repeated measures model|||Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.64|-0.44|0.7552
82439449|NCT01730339|164586809|SUPERIORITY_OR_OTHER||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.25||0.6605|TWO_SIDED|90.0|-0.3|0.52|||Repeated measures model|||Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.52|-0.30|0.6605
82439450|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.9842|TWO_SIDED|90.0|-0.55|0.56|||Repeated measures model|||Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.56|-0.55|0.9842
82439451|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.25||0.401|TWO_SIDED|90.0|-0.21|0.63|||Repeated measures model|||Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.63|-0.21|0.4010
82439452|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.38||0.2491|TWO_SIDED|90.0|-0.19|1.07|||Repeated measures model|||Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.07|-0.19|0.2491
82439453|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.998|TWO_SIDED|90.0|-0.47|0.47|||Repeated measures model|||Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.47|-0.47|0.9980
82439454|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.39||0.473|TWO_SIDED|90.0|-0.37|0.93|||Repeated measures model|||Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.93|-0.37|0.4730
82439455|NCT01730339|164586809|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.3||0.5413|TWO_SIDED|90.0|-0.67|0.31|||Repeated measures model|||Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.31|-0.67|0.5413
82439456|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|1.32|STANDARD_ERROR_OF_MEAN|2.76|||TWO_SIDED|90.0|-3.28|5.92||||||Appearance: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||5.92|-3.28|
82439457|NCT01730339|164586810|SUPERIORITY_OR_OTHER||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-3.63|2.91||||||Appearance: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||2.91|-3.63|
82439458|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|3.82|STANDARD_ERROR_OF_MEAN|3.85|||TWO_SIDED|90.0|-2.6|10.24||||||Appearance: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||10.24|-2.60|
82439459|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|0.16|STANDARD_ERROR_OF_MEAN|2.72|||TWO_SIDED|90.0|-4.37|4.68||||||Appearance: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||4.68|-4.37|
82439460|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|2.19|||TWO_SIDED|90.0|-4.34|2.95||||||Symptoms: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||2.95|-4.34|
82639414|NCT05664672|164993881|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|110.0||||0.9958|TWO_SIDED|95.0|44.9|272.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||272|44.9|0.9958
82439461|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|-1.54|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|90.0|-4.53|1.45||||||Symptoms: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.45|-4.53|
82439462|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|1.75|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|90.0|-2.07|5.58||||||Symptoms: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||5.58|-2.07|
82439463|NCT01730339|164586810|SUPERIORITY_OR_OTHER||Least Square mean difference|-1.13|STANDARD_ERROR_OF_MEAN|1.87|||TWO_SIDED|90.0|-4.24|1.99||||||Symptoms: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||1.99|-4.24|
82439464|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.15|0.35||||||Physician: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.35|-0.15|
82439465|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.22|0.29||||||Physician: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.29|-0.22|
82439466|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.04|0.54||||||Physician: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.54|0.04|
82439467|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.36|0.15||||||Physician: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.15|-0.36|
82439468|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.57|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.32|0.82||||||Physician: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.82|0.32|
82439469|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.21|0.3||||||Physician: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.30|-0.21|
82439470|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.18|0.68||||||Physician: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.68|0.18|
82439471|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_DEVIATION|0.15|||TWO_SIDED|90.0|-0.18|0.32||||||Physician: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.32|-0.18|
82439472|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.2|0.39||||||Participant: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.39|-0.20|
82439473|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.28|0.23||||||Participant: Week 8: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.23|-0.28|
82439474|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.29|0.3||||||Participant: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.30|-0.29|
82439475|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.18|0.33||||||Participant: Week 11: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.33|-0.18|
82439476|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.12|0.72||||||Participant: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.72|0.12|
82439477|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.27|0.24||||||Participant: Week 18: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.24|-0.27|
82439478|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.5||||||Participant: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.50|-0.09|
82439479|NCT01730339|164586811|SUPERIORITY_OR_OTHER||Least Square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.11|0.4||||||Participant: Week 24: Difference is calculated as Placebo minus PF-06473871. A positive difference favors PF-06473871||0.40|-0.11|
82439480|NCT04098367|164586884|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|30.6|||||TWO_SIDED|97.5|13.34|46.79|||Miettinen-Nurminen||VIVITY minus SYMFONY|||46.79|13.34|
82439481|NCT04098367|164586884|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|30.1|||||TWO_SIDED|97.5|12.54|46.68|||Miettinen-Nurminen||VIVITY minus AT LARA|||46.68|12.54|
82439482|NCT04098367|164586885|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|-2.3|||||TWO_SIDED|97.5|-21.91|17.42|||Miettinen-Nurminen||VIVITY minus SYMFONY|||17.42|-21.91|
82439483|NCT04098367|164586885|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|8.2|||||TWO_SIDED|97.5|-12.0|27.8|||Miettinen-Nurminen||VIVITY minus AT LARA|||27.80|-12.00|
82439484|NCT04098367|164586886|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|23.5|||||TWO_SIDED|97.5|4.66|40.86|||Miettinen-Nurminen||VIVITY minus SYMFONY|||40.86|4.66|
82439485|NCT04098367|164586886|SUPERIORITY|Superiority is concluded if the lower limit of the two-sided 97.5% confidence interval exceeds zero.|Difference in percentage|40.7|||||TWO_SIDED|97.5|21.16|57.22|||Miettinen-Nurminen||VIVITY minus AT LARA|||57.22|21.16|
82439486|NCT00322023|164586944|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|These are paired t test baseline vs final for the 30 mg/kg dose||||||<0.0001
82439487|NCT00322023|164586944|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|These are paired t test baseline vs final for the 60 mg/kg dose||||||<0.05
82378252|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.051|TWO_SIDED|90.0|0.04|0.47||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||0.47|0.04|0.0510
82378253|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0608|TWO_SIDED|90.0|0.03|0.47||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||0.47|0.03|0.0608
82378254|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2702|TWO_SIDED|90.0|-0.1|0.48||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||0.48|-0.10|0.2702
82439488|NCT00322023|164586944|SUPERIORITY|These are paired t test baseline vs final for the 120 mg/kg dose|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82439489|NCT00322023|164586945|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|TWO_SIDED|95.0||||These are paired t test baseline vs final for 30mg/kg|t-test, 2 sided|||||||0.39
82439490|NCT00322023|164586945|SUPERIORITY||||||<|0.001||||||These are paired t test baseline vs final for 60mg/kg|t-test, 2 sided|||||||<0.001
82439491|NCT00322023|164586945|SUPERIORITY|||||||0.01||||||These are paired t test baseline vs final for 120mg/kg|t-test, 2 sided|||||||0.01
82439492|NCT03920293|164586946|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.49|=|0.0009|TWO_SIDED|95.0|-2.6|-0.7||Statistical significance was tested at α=0.05.|MMRM|||||-0.7|-2.6|=0.0009
82439493|NCT01691885|164586967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.83|||<|0.001|TWO_SIDED|95.0|2.74|8.91|||ANCOVA|Analysis was performed using an ANCOVA model with covariates of treatment, baseline, period and subject as a random effect.||||8.91|2.74|<0.001
82439494|NCT04035564|164586988|SUPERIORITY||Risk Ratio (RR)|0.2||||0.71|TWO_SIDED|95.0|0.026|1.533|||Chi-squared|||||1.533|0.026|0.71
82439495|NCT04035564|164586989|SUPERIORITY||Risk Ratio (RR)|1.21||||0.89|TWO_SIDED|95.0|0.081|18.09|||Chi-squared|||||18.09|0.081|0.89
82439496|NCT04035564|164586990|SUPERIORITY||Mean Difference (Final Values)|-2.861|STANDARD_ERROR_OF_MEAN|1.286||0.032|TWO_SIDED|95.0|-5.461|-0.261|||t-test, 2 sided|||||-0.261|-5.461|0.032
82439497|NCT04035564|164586990|SUPERIORITY||Mean Difference (Final Values)|-2.86|STANDARD_ERROR_OF_MEAN|1.286||0.032|TWO_SIDED|95.0|-5.461|-0.261|||ANOVA|||||-0.261|-5.461|0.032
82439498|NCT04035564|164586991|SUPERIORITY||Mean Difference (Final Values)|-3.788|STANDARD_ERROR_OF_MEAN|2.299||0.107|TWO_SIDED|95.0|-8.43|0.858|||t-test, 2 sided|||||0.858|-8.43|0.107
82439499|NCT04035564|164586991|SUPERIORITY||Mean Difference (Final Values)|-3.78|STANDARD_ERROR_OF_MEAN|2.299||0.107|TWO_SIDED|95.0|-8.43|0.85|||ANOVA|||||0.85|-8.43|0.107
82439500|NCT04035564|164586992|SUPERIORITY||Mean Difference (Final Values)|-39.38|STANDARD_ERROR_OF_MEAN|17.22||0.028|TWO_SIDED|95.0|-74.18|-4.57|||t-test, 2 sided|||||-4.57|-74.18|0.028
82439501|NCT04035564|164586992|SUPERIORITY||Mean Difference (Final Values)|-39.38|STANDARD_ERROR_OF_MEAN|17.22||0.028|TWO_SIDED|95.0|-74.18|-4.57|||ANOVA|||||-4.57|-74.18|0.028
82439502|NCT04035564|164586993|SUPERIORITY||Risk Ratio (RR)|0.75||||0.55|TWO_SIDED|95.0|0.296|1.932|||Chi-squared|||||1.932|0.296|0.55
82439503|NCT04035564|164586994|SUPERIORITY||Risk Ratio (RR)|1.09||||0.84|TWO_SIDED|95.0|0.169|7.096|||Chi-squared|||||7.096|0.169|0.84
82439504|NCT04035564|164586995|SUPERIORITY||Risk Ratio (RR)|0.8||||0.7|TWO_SIDED|95.0|0.266|2.448|||Chi-squared|||||2.448|0.266|0.70
82439505|NCT04035564|164586996|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
82439506|NCT04035564|164586996|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.57|TWO_SIDED||||||Regression, Cox|||||||0.57
82443434|NCT04557787|164595218|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.404|TWO_SIDED|95.0|-0.58|0.24||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.24|-0.58|0.404
82378255|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0249|TWO_SIDED|90.0|0.11|0.69||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||0.69|0.11|0.0249
82378256|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1853|TWO_SIDED|90.0|-0.06|0.55||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||0.55|-0.06|0.1853
82378257|NCT04856917|164464828|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.2974|TWO_SIDED|90.0|-0.11|0.5||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline facial IGA as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||0.50|-0.11|0.2974
82378258|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-2.5||||0.339|TWO_SIDED|90.0|-6.62|1.63||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 4||1.63|-6.62|0.3390
82378259|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-2.6||||0.3243|TWO_SIDED|90.0|-6.79|1.59||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 4||1.59|-6.79|0.3243
82378260|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-5.91|5.91||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 8||5.91|-5.91|1.0000
82439507|NCT03777709|164587007|SUPERIORITY||Mean Difference (Final Values)|1.45|STANDARD_DEVIATION|2.0|<|0.0001|TWO_SIDED|||||unadjusted p-value|Regression, Linear||A recruitment aim of 40 participants per church (16 churches, 8 per arm, mean of 5 participants per church) provides 80% power to detect a difference of 1.45 in mean LS7 score change between groups (effect size 0.73).|Effect size of 1-unit difference in mean LS7 score was based on meta-analysis indicating each unit increase in mean LS7 metrics equates to a 19% and 11% reduction in CVD and all-cause mortality, respectively. Power calculations to estimate sample size: church goal of 16 churches (8/arm), with mean 5 participants/church (40/arm) to provide 80% power to detect 1.45 difference in average LS7 score change between groups (.01 intracluster correlation, and .5 coefficient of variation of church sizes).||||<0.0001
82378261|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-2.66||||0.332|TWO_SIDED|90.0|-6.96|1.63||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 8||1.63|-6.96|0.3320
82378262|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-2.45||||0.7595|TWO_SIDED|90.0|-15.5|10.59||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 12||10.59|-15.50|0.7595
82639415|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-50.8|||<|0.0001|TWO_SIDED|95.0|-77.7|-23.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-23.9|-77.7|<.0001
82378263|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-14.11||||0.0209|TWO_SIDED|90.0|-23.66|-4.57||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 12||-4.57|-23.66|0.0209
82378264|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-4.56||||0.6094|TWO_SIDED|90.0|-18.99|9.87||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 400/200 mg vs Placebo: Week 20||9.87|-18.99|0.6094
82378265|NCT04856917|164464829|SUPERIORITY||Risk Difference (RD)|-10.28||||0.2076|TWO_SIDED|90.0|-23.34|2.78||P-value for the adjusted risk difference between imsidolimab and placebo was obtained from generalized Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA score at baseline.|Cochran-Mantel-Haenszel|||Imsidolimab 200/100 mg vs Placebo: Week 20||2.78|-23.34|0.2076
82378266|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|0.1||||0.4482|TWO_SIDED|90.0|-0.1|0.29||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 2||0.29|-0.10|0.4482
82378267|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|0.14||||0.4529|TWO_SIDED|90.0|-0.05|0.33||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.33|-0.05|0.4529
82378268|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.01||||0.932|TWO_SIDED|90.0|-0.2|0.18||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 4||0.18|-0.20|0.9320
82378269|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.03||||0.3151|TWO_SIDED|90.0|-0.22|0.16||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 4||0.16|-0.22|0.3151
82378270|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.14||||0.2908|TWO_SIDED|90.0|-0.32|0.06||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 8||0.06|-0.32|0.2908
82378271|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|0.05||||0.7277|TWO_SIDED|90.0|-0.15|0.24||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 8||0.24|-0.15|0.7277
82378272|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.03||||0.8463|TWO_SIDED|90.0|-0.23|0.17||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 12||0.17|-0.23|0.8463
82378273|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.08||||0.5281|TWO_SIDED|90.0|-0.28|0.11||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 12||0.11|-0.28|0.5281
82378274|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.09||||0.5747|TWO_SIDED|90.0|-0.28|0.11||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 20||0.11|-0.28|0.5747
82378275|NCT04856917|164464830|SUPERIORITY||Risk Difference (RD)|-0.05||||0.5081|TWO_SIDED|90.0|-0.24|0.14||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 20||0.14|-0.24|0.5081
82439508|NCT03575065|164587039|SUPERIORITY|||||||0.021||||||p-value was based on an exact binomial test with historic control ORR=0.25|Exact Binomial Test|||||||0.0210
82378276|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|0.01||||0.8338|TWO_SIDED|90.0|-0.19|0.2||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 2||0.20|-0.19|0.8338
82378277|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.12||||0.1142|TWO_SIDED|90.0|-0.31|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.09|-0.31|0.1142
82378278|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.2||||0.3433|TWO_SIDED|90.0|-0.38|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 4||0.00|-0.38|0.3433
82378279|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.17||||0.1129|TWO_SIDED|90.0|-0.37|0.04||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 2||0.04|-0.37|0.1129
82439509|NCT03344549|164587053|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|0.8||0.37|TWO_SIDED|95.0||||The threshoid for statistical significance was p \<0.05|t-test, 2 sided|||U Mann Whitney was used for inter-group comparison||||0.37
82562677|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.687|TWO_SIDED|95.0|-1.55|2.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||2.35|-1.55|0.687
82378280|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.2||||0.2842|TWO_SIDED|90.0|-0.38|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 8||0.00|-0.38|0.2842
82378281|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.34||||0.0212|TWO_SIDED|90.0|-0.52|-0.13||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 8||-0.13|-0.52|0.0212
82378282|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.07||||0.7665|TWO_SIDED|90.0|-0.28|0.14||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 12||0.14|-0.28|0.7665
82378283|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.22||||0.1777|TWO_SIDED|90.0|-0.42|0.0||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 12||-0.00|-0.42|0.1777
82378284|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.12||||0.3741|TWO_SIDED|90.0|-0.33|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 400/200 mg vs Placebo: Week 20||0.09|-0.33|0.3741
82378285|NCT04856917|164464831|SUPERIORITY||Risk Difference (RD)|-0.13||||0.3321|TWO_SIDED|90.0|-0.33|0.09||Adjusted P-value obtained from Cochran-Mantel-Haenszel test (ANOVA for row means), adjusting for facial IGA at baseline.|Cochran-Mantel-Haenszel||Somers'D statistic and tanh\^(-1) transformed 90% CI.|Imsidolimab 200/100 mg vs Placebo: Week 20||0.09|-0.33|0.3321
82378286|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.11||0.7932|TWO_SIDED|90.0|-1.56|2.14||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||2.14|-1.56|0.7932
82439510|NCT03344549|164587054|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|0.8||0.46|TWO_SIDED|95.0||||The threshold for statistical significance was p\<0.05|t-test, 2 sided|U Mann Whitney was used for inter-group comparison||||||0.46
82439511|NCT03344549|164587055|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82378287|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.12||0.4365|TWO_SIDED|90.0|-0.99|2.73||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||2.73|-0.99|0.4365
82378288|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.8543|TWO_SIDED|90.0|-1.92|1.54||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||1.54|-1.92|0.8543
82378289|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05||0.8726|TWO_SIDED|90.0|-1.91|1.58||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||1.58|-1.91|0.8726
82378290|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.07||0.5983|TWO_SIDED|90.0|-1.22|2.35||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||2.35|-1.22|0.5983
82378291|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.09||0.3396|TWO_SIDED|90.0|-0.77|2.86||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||2.86|-0.77|0.3396
82439512|NCT01528891|164587059|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, 1 minute, 2 minutes, 3 minutes, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|t-test, 2 sided|||Heart rate values at each time point were compared between groups.||||<0.01
82439513|NCT01528891|164587059|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 1 minute, 2 minutes, 3 minutes, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|ANOVA|||Heart rate values were compared over time against the baseline value.||||<0.01
82378292|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.97||0.5305|TWO_SIDED|90.0|-2.23|1.01||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||1.01|-2.23|0.5305
82439514|NCT01528891|164587059|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|ANOVA|||Heart rate values were compared over time against the baseline value.||||<0.01
82378293|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.96||0.0819|TWO_SIDED|90.0|0.09|3.29||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||3.29|0.09|0.0819
82378294|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.09||0.0243|TWO_SIDED|90.0|0.69|4.31||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||4.31|0.69|0.0243
82378295|NCT04856917|164464832|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.05||0.1061|TWO_SIDED|90.0|-0.03|3.46||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline DLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||3.46|-0.03|0.1061
82378296|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.67||0.9333|TWO_SIDED|90.0|-2.69|2.97||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 2||2.97|-2.69|0.9333
82378297|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.3972|TWO_SIDED|90.0|-1.4|4.27||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 2||4.27|-1.40|0.3972
82439515|NCT01528891|164587060|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P\<0.0001 was calculated for both groups.|Fisher Exact|||The incidence of agitated patients in each group was compared.||||<0.0001
82439516|NCT01528891|164587061|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points: 1 minute, 4 minutes, 5 minutes, and PACU.~P-values are adjusted for multiple comparisons."|t-test, 2 sided|||Systolic blood pressure values were compared between groups at each time point.||||<0.01
82439517|NCT01528891|164587061|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 1 minute, 3 minutes, 4 minutes, and 5 minutes.~P-values are adjusted for multiple comparisons."|ANOVA|||SBP values were compared against the baseline value within each group over time.||||<0.01
82439518|NCT01528891|164587061|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to the baseline value: 5 minutes and PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||SBP values were compared against the baseline within each group over time.||||<0.01
82439519|NCT01528891|164587062|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points: 1 minute and PACU.~P-values were adjusted for multiple comparisons."|t-test, 2 sided|||DBP values were compared between groups at each time point.||||<0.01
82439520|NCT01528891|164587062|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to baseline: 1 minute, 3 minutes, 4 minutes, 5 minutes, PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||DBP values were compared within each group against the baseline value.||||<0.01
82439521|NCT01528891|164587062|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||"P\<0.01 for the following time points, as compared to baseline: 4 minutes, 5 minutes, PACU.~P-values were adjusted for multiple comparisons."|ANOVA|||DBP values were compared against the baseline value within each group over time.||||<0.01
82439522|NCT01703208|164587120|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.77|1.29|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.29|0.77|
82439523|NCT01703208|164587121|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.43|||||TWO_SIDED|95.0|-0.48|-0.37||||||||-0.37|-0.48|
82439524|NCT01703208|164587122|SUPERIORITY_OR_OTHER||Difference in the LS Means vs Placebo|-0.39|||<|0.001|TWO_SIDED|95.0|-0.5|-0.27|||Longitudinal data analysis|Longitudinal data analysis model including terms for treatment, time and the interaction of time by treatment.||||-0.27|-0.50|<0.001
82439525|NCT01703208|164587123|SUPERIORITY_OR_OTHER||Difference in Percent vs. Placebo|-1.1|||||TWO_SIDED|95.0|-7.2|4.9|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||4.9|-7.2|
82439526|NCT01703208|164587124|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Placebo|0.3|||||TWO_SIDED|95.0|-1.0|1.7|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||1.7|-1.0|
82439527|NCT01703208|164587126|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.66|1.68|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.68|0.66|
82439528|NCT01703208|164587128|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.6|1.26|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.26|0.60|
82439529|NCT01703208|164587130|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.58|1.52|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.52|0.58|
82439530|NCT01703208|164587132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.88|1.85|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.85|0.88|
82439531|NCT01703208|164587133|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.3|||||TWO_SIDED|95.0|-0.46|-0.14|||||Longitudinal Data Analysis (LDA) model including terms for treatment, time, and the interaction of time by treatment.|||-0.14|-0.46|
82439532|NCT01703208|164587139|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.1||||0.421|TWO_SIDED|95.0|-10.8|4.5|||Longitudinal constrained data analysis||Based on a LDA model including terms for treatment, time and the interaction of time by treatment.|||4.5|-10.8|0.421
82439533|NCT01703208|164587140|SUPERIORITY_OR_OTHER||Between group rate difference|11.9|||<|0.001|TWO_SIDED|95.0|6.9|16.8||Estimated using standard multiple imputation techniques.|Miettinen & Nurminen method|||||16.8|6.9|<0.001
82439534|NCT01703208|164587142|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.35|1.05|||||Based on the proportional hazards model that includes treatment as an explanatory factor.|||1.05|0.35|
82439535|NCT00252694|164587143|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1994|TWO_SIDED|95.0|0.704|1.076|||Log Rank|Generalized||||1.076|0.704|0.1994
82562678|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.352|TWO_SIDED|95.0|-2.87|1.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||1.02|-2.87|0.352
82439536|NCT04699032|164587147|OTHER|Analysis of variance (ANOVA) was used to compare the natural log transformed Cmax for apraglutide between normal renal function group (Reference) and the severe impaired renal group (Test). Estimates of the mean differences and corresponding 90% confidence intervals (CIs) were obtained from the model. The mean differences and 90% CIs for the mean differences were exponentiated to provide estimates of the geometric least-square mean ratio (Test/Reference) and 90% CIs for the ratios.|Geometric least-square mean ratio|0.62|||||TWO_SIDED|90.0|0.423|0.909||||||||0.909|0.423|
82439537|NCT04699032|164587148|OTHER|ANOVA was used to compare the natural log transformed AUCinf for apraglutide between normal renal function group (Reference) and the severe impaired renal group (Test). Estimates of the mean differences and corresponding 90% CIs were obtained from the model. The mean differences and 90% CIs for the mean differences were exponentiated to provide estimates of the geometric least-square mean ratio (Test/Reference) and 90% CIs for the ratios.|Geometric least-square mean ratio|0.694|||||TWO_SIDED|90.0|0.458|1.05||||||||1.050|0.458|
82439538|NCT00522418|164587157|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||F Test|||||||.01
82439539|NCT00522418|164587160|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||F-Test|||||||0.17
82439540|NCT00522418|164587163|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||F-Test|||||||0.17
82439541|NCT00522418|164587164|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||F-Test|||||||0.28
82439542|NCT00522418|164587165|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||F-Test|||||||0.03
82439543|NCT00522418|164587166|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||F-Test|||||||0.26
82439544|NCT01574157|164587179|SUPERIORITY||Mean Difference (Final Values)|12.6|||||TWO_SIDED|95.0|-9.6|40.1||||||The primary analysis compared the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||40.1|-9.6|
82439545|NCT01574157|164587180|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-38.2|30.8||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||30.8|-38.2|
82439546|NCT01574157|164587181|SUPERIORITY||Mean Difference (Final Values)|-32.5|||||TWO_SIDED|95.0|-56.3|4.2||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||4.2|-56.3|
82439547|NCT01574157|164587182|SUPERIORITY||Mean Difference (Final Values)|7.7|||||TWO_SIDED|95.0|-15.1|36.5||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||36.5|-15.1|
82439548|NCT01574157|164587183|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-24.6|35.9||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||35.9|-24.6|
82439549|NCT01574157|164587184|SUPERIORITY||Mean Difference (Final Values)|3.37|||||TWO_SIDED|95.0|-0.05|6.79||||||The main analytic strategy for this secondary outcome was a comparison of the mean change from baseline in the sodium bicarbonate group to the mean change from baseline in the placebo group.||6.79|-0.05|
82439550|NCT01632241|164587215|SUPERIORITY||Odds Ratio (OR)|1.4||||0.1068|TWO_SIDED|95.0|0.93|2.11|||Regression, Logistic|||||2.11|0.93|0.1068
82439551|NCT01632241|164587224|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0937|TWO_SIDED|95.0|0.94|2.15||Nominal p-value due to step-down sequential testing procedure.|Regression, Logistic|||||2.15|0.94|0.0937
82439552|NCT01632241|164587226|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.2264|TWO_SIDED|95.0|0.51|1.17||Nominal p-value due to step-down sequential testing procedure.|Cox proportional hazards model|||||1.17|0.51|0.2264
82439553|NCT01632241|164587228|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4996|TWO_SIDED|95.0|0.61|2.8||Nominal p-value due to step-down sequential testing procedure.|Regression, Logistic|||||2.80|0.61|0.4996
82439554|NCT01686750|164587240|SUPERIORITY||Risk Ratio (RR)|1.31||||0.09|TWO_SIDED|95.0|0.95|1.81|||Prevalence ratio||Therefore, the exponentiated coefficients for intervention status represent the prevalence ratio with 95% confidence interval (CI) and are interpreted as the relative percentage difference in the outcome associated with the intervention.|We compared the sampling-weighted prevalence of outcomes at Integrated Care Centers (ICCs) and usual care from the evaluation survey. We used linear regression models that had terms for intervention status (integrated care vs usual care), stratum (PWID and MSM), and the baseline proportion of the outcome being assessed. Site-level proportions from both evaluation and baseline respondent-driven sampling were log transformed before being entered into the regression model.||1.81|0.95|0.09
82439555|NCT01686750|164587241|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.8|1.5||||||||1.50|0.80|
82439556|NCT01686750|164587242|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.61|1.81||||||||1.81|0.61|
82439557|NCT01686750|164587243|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.77|2.41||||||||2.41|0.77|
82439558|NCT01686750|164587245|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.28||||||||1.28|0.65|
82439559|NCT01686750|164587247|SUPERIORITY||Risk Ratio, log|1.44|||||TWO_SIDED|95.0|0.42|4.93||||||||4.93|0.42|
82439560|NCT01686750|164587248|SUPERIORITY||Risk Ratio, log|1.87|||||TWO_SIDED|95.0|0.49|7.16||||||||7.16|0.49|
82439561|NCT01686750|164587249|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.53|1.56||||||||1.56|0.53|
82439562|NCT01686750|164587250|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-4.2|4.2||||||||4.2|-4.2|
82439563|NCT01686750|164587252|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.47|1.52||||||||1.52|0.47|
82439564|NCT01686750|164587254|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-3.0|-0.6||||||||-0.6|-3.0|
82439565|NCT01686750|164587255|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.64|1.36||||||||1.36|0.64|
82439566|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|108.73|||||TWO_SIDED|95.0|94.35|125.3|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric Least Square (LS) Mean was used as PK parameters||125.30|94.35|
82439567|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|95.05|||||TWO_SIDED|90.0|84.73|106.63|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||106.63|84.73|
82439568|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|89.44|||||TWO_SIDED|90.0|70.39|113.65|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||113.65|70.39|
82439569|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|111.95|||||TWO_SIDED|90.0|97.02|129.19|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||129.19|97.02|
82439570|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|126.68|||||TWO_SIDED|90.0|112.08|143.17|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||143.17|112.08|
82439571|NCT02956044|164587256|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|98.48|||||TWO_SIDED|90.0|84.9|114.23|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||114.23|84.90|
82439572|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|87.36|||||TWO_SIDED|90.0|80.02|95.38|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||95.38|80.02|
82439573|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|103.24|||||TWO_SIDED|90.0|94.59|112.68|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||112.68|94.59|
82439574|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|Ratio of Geometric LSM|94.46|||||TWO_SIDED|90.0|80.34|111.06|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||111.06|80.34|
82439575|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|[Ratio of Geometric LSM]|127.19|||||TWO_SIDED|90.0|110.33|146.62|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||146.62|110.33|
82439576|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|[Ratio of Geometric LSM]|113.09|||||TWO_SIDED|90.0|107.61|118.86|||||Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|Geometric LS Mean was used as PK parameters||118.86|107.61|
82439577|NCT02956044|164587259|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%|[Ratio of Geometric LSM]|103.16|||||TWO_SIDED|90.0|99.3|107.17||||||Geometric LS Mean was used as PK parameters|Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subject as a random effect|107.17|99.30|
82439578|NCT03832114|164587261|OTHER|Log Ratio to Baseline|Mean Difference (Final Values)|0.55||||0.0003|TWO_SIDED|80.0|0.46|0.65|||Mixed Model Repeated Measures (MMRM)|||||0.65|0.46|0.0003
82439579|NCT03832114|164587262|OTHER||Median Difference (Final Values)|-2.5||||0.0313|TWO_SIDED|80.0|-3.75|-0.75|||Wilcoxon (Mann-Whitney)|||||-0.75|-3.75|0.0313
82439580|NCT03832114|164587263|OTHER||Mean Difference (Final Values)|0.55||||0.0003|TWO_SIDED|80.0|0.46|0.65|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.65|0.46|0.0003
82439581|NCT03832114|164587263|OTHER||Mean Difference (Final Values)|0.79||||0.4766|TWO_SIDED|80.0|0.49|1.28|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.28|0.49|0.4766
82439582|NCT03832114|164587263|OTHER||Mean Difference (Final Values)|0.59||||0.0002|TWO_SIDED|80.0|0.51|0.69|||Mixed Model of Repeated Measures (MMRM)|||Overall- Day 84||0.69|0.51|0.0002
82439583|NCT03832114|164587264|OTHER||Mean Difference (Final Values)|0.57||||0.0011|TWO_SIDED|80.0|0.47|0.68|||Mixed Model Repeated Measures (MMRM|||Day 84||0.68|0.47|0.0011
82439584|NCT03832114|164587264|OTHER||Mean Difference (Final Values)|1.0||||0.9998|TWO_SIDED|80.0|0.75|1.33|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.33|0.75|0.9998
82439585|NCT03832114|164587264|OTHER||Mean Difference (Final Values)|0.66||||0.0016|TWO_SIDED|80.0|0.56|0.77|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||0.77|0.56|0.0016
82439586|NCT03832114|164587265|OTHER||Mean Difference (Final Values)|0.55|||<|0.0001|TWO_SIDED|80.0|0.47|0.64|||Mixed Model Repeated Measures (MRM)|||Day 84||0.64|0.47|<0.0001
82439587|NCT03832114|164587265|OTHER||Mean Difference (Final Values)|0.61||||0.3707|TWO_SIDED|80.0|0.3|1.27|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.27|0.30|0.3707
82439588|NCT03832114|164587265|OTHER||Mean Difference (Final Values)|0.6||||0.0002|TWO_SIDED|80.0|0.51|0.71|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||0.71|0.51|0.0002
82439589|NCT03832114|164587266|OTHER||Mean Difference (Final Values)|0.57||||0.0018|TWO_SIDED|80.0|0.47|0.7|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.70|0.47|0.0018
82439590|NCT03832114|164587266|OTHER||Mean Difference (Final Values)|0.81||||0.1632|TWO_SIDED|80.0|0.67|0.98|||Mixed Model Repeated Measures (MMRM)|||Day 84||0.98|0.67|0.1632
82439591|NCT03832114|164587266|OTHER||Mean Difference (Final Values)|0.67||||0.004|TWO_SIDED|80.0|0.57|0.79|||Mixed Model Repeated Measure (MMRM)|||Overall- Day 84||0.79|0.57|0.0040
82439592|NCT03832114|164587267|OTHER||Mean Difference (Final Values)|2.59||||0.1795|TWO_SIDED|80.0|0.12|5.06|||Mixed Model of Repeated Measures (MMRM)|||Day 84||5.06|0.12|0.1795
82439593|NCT03832114|164587267|OTHER||Mean Difference (Final Values)|-0.61||||0.7763|TWO_SIDED|0.7763|-3.36|2.15|||Mixed Model Repeated Measures (MMRM)|||Day 84||2.15|-3.36|0.7763
82439594|NCT03832114|164587267|OTHER||Mean Difference (Final Values)|1.32||||0.3754|TWO_SIDED|80.0|-0.59|3.22|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||3.22|-0.59|0.3754
82439595|NCT03832114|164587268|OTHER||Mean Difference (Final Values)|-5.04||||0.1364|TWO_SIDED|80.0|-9.36|-0.72|||Mixed Model Repeated Measuers (MMRM)|||Day 84||-0.72|-9.36|0.1364
82439596|NCT03832114|164587268|OTHER||Mean Difference (Final Values)|7.17||||0.3038|TWO_SIDED|80.0|-1.79|16.13|||Mixed Model Repeated Measures (MMRM)|||Day 84||16.13|-1.79|0.3038
82439597|NCT03832114|164587268|OTHER||Mean Difference (Final Values)|-0.77||||0.8352|TWO_SIDED|80.0|-5.56|4.01|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||4.01|-5.56|0.8352
82439598|NCT03832114|164587269|OTHER||Mean Difference (Final Values)|1.07||||0.2752|TWO_SIDED|80.0|0.99|1.17|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.17|0.99|0.2752
82439599|NCT03832114|164587269|OTHER||Mean Difference (Final Values)|1.2||||0.476|TWO_SIDED|80.0|0.83|1.72|||Mixed Model Repeated Measures (MMRM)|||Day 84||1.72|0.83|0.476
82439600|NCT03832114|164587269|OTHER||Mean Difference (Final Values)|1.1||||0.1963|TWO_SIDED|80.0|1.0|1.2|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 84||1.20|1.00|0.1963
82439601|NCT03832114|164587271|OTHER||Mean Difference (Final Values)|0.56|||<|0.0001|TWO_SIDED|80.0|0.48|0.65|||Mixed Model Repeated Measures (MMRM)|||Day 64||0.65|0.48|<0.0001
82439602|NCT03832114|164587271|OTHER||Mean Difference (Final Values)|0.99||||0.9544|TWO_SIDED|80.0|0.76|1.28|||Mixed Model Repeated Measures (MMRM)|||Day 64||1.28|0.76|0.9544
82439603|NCT03832114|164587271|OTHER||Mean Difference (Final Values)|0.64|||<|0.0001|TWO_SIDED|80.0|0.56|0.72|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 64||0.72|0.56|<.0001
82439604|NCT03832114|164587272|OTHER||Mean Difference (Final Values)|0.59|||<|0.0001|TWO_SIDED|80.0|0.5|0.69|||Mixed Model Repeated Measures (MMRM)|||Day 64||0.69|0.50|<.0001
82439605|NCT03832114|164587272|OTHER||Median Difference (Final Values)|0.87||||0.6209|TWO_SIDED|80.0|0.6|1.26|||Mixed Model Repeated Measures (MMRM)|||Day 64||1.26|0.60|0.6209
82439606|NCT03832114|164587272|OTHER||Mean Difference (Final Values)|0.63||||0.0002|TWO_SIDED|80.0|0.54|0.73|||Mixed Model Repeated Measures (MMRM)|||Overall- Day 64||0.73|0.54|0.0002
82439607|NCT01939002|164587283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||1-sample Chi-square test comparing to Null hypotheses at 25%.|Chi-squared|||||||<0.0001
82439608|NCT01939002|164587284|SUPERIORITY_OR_OTHER|||||||0.2037||||||Chi-square test between 2 treatment arms.|Chi-squared|||||||0.2037
82439609|NCT01939002|164587286|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|McNemar tests the null hypothesis of no difference in FLS between 4WRI and F8W.||||||1.00
82439610|NCT01939002|164587286|SUPERIORITY_OR_OTHER|||||||0.5078|||||||McNemar|||||||0.5078
82439611|NCT01939002|164587286|SUPERIORITY_OR_OTHER|||||||0.5811|||||||McNemar|||||||0.5811
82439612|NCT01939002|164587287|SUPERIORITY_OR_OTHER|||||||0.0525|||||||McNemar|||||||0.0525
82439613|NCT01939002|164587287|SUPERIORITY_OR_OTHER|||||||0.0654|||||||McNemar|||||||0.0654
82439614|NCT01939002|164587287|SUPERIORITY_OR_OTHER|||||||0.5488|||||||McNemar|||||||0.5488
82439615|NCT01939002|164587288|SUPERIORITY_OR_OTHER|||||||0.0945|||||||paired t-test within 1 arm|||||||0.0945
82439616|NCT01939002|164587288|SUPERIORITY_OR_OTHER|||||||0.8246|||||||paired t-test within 1 arm|||||||0.8246
82439617|NCT01939002|164587288|SUPERIORITY_OR_OTHER|||||||0.2533|||||||paired t-test within 1 arm|||||||0.2533
82439618|NCT01939002|164587288|SUPERIORITY_OR_OTHER|||||||0.1631|||||||2-sample t-test between 2 arms|||||||0.1631
82439619|NCT01939002|164587289|SUPERIORITY_OR_OTHER|||||||0.3189|||||||paired t-test within 1 arm|||||||0.3189
82439620|NCT01939002|164587289|SUPERIORITY_OR_OTHER|||||||0.3582|||||||paired t-test within 1 arm|||||||0.3582
82439621|NCT01939002|164587289|SUPERIORITY_OR_OTHER|||||||0.8484|||||||paired t-test within 1 arm|||||||0.8484
82439622|NCT01939002|164587289|SUPERIORITY_OR_OTHER|||||||0.1771|||||||2-sample t-test between 2 arms|||||||0.1771
82439623|NCT01939002|164587290|SUPERIORITY_OR_OTHER|||||||0.0009|||||||paired t-test within 1 arm|||||||0.0009
82439624|NCT01939002|164587290|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
82439625|NCT01939002|164587290|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
82439626|NCT01939002|164587290|SUPERIORITY_OR_OTHER|||||||0.3792|||||||2-sample t-test between 2 arms|||||||0.3792
82439627|NCT01939002|164587291|SUPERIORITY_OR_OTHER|||||||0.0019|||||||paired t-test within 1 arm|||||||0.0019
82439628|NCT01939002|164587291|SUPERIORITY_OR_OTHER|||||||0.0009|||||||paired t-test within 1 arm|||||||0.0009
82439629|NCT01939002|164587291|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||||||<0.0001
82439630|NCT01939002|164587292|SUPERIORITY_OR_OTHER|||||||0.0105|||||||paired t-test within 1 arm|||||||0.0105
82439631|NCT01939002|164587292|SUPERIORITY_OR_OTHER|||||||0.0789|||||||paired t-test within 1 arm|||||||0.0789
82439632|NCT01939002|164587292|SUPERIORITY_OR_OTHER|||||||0.0027|||||||paired t-test within 1 arm|||||||0.0027
82439633|NCT01939002|164587292|SUPERIORITY_OR_OTHER|||||||0.838|||||||2-sample t-test between 2 arms|||||||0.8380
82439634|NCT01939002|164587293|SUPERIORITY_OR_OTHER|||||||0.1407|||||||paired t-test within 1 arm|||||||0.1407
82439635|NCT01939002|164587293|SUPERIORITY_OR_OTHER|||||||0.7805|||||||paired t-test within 1 arm|||||||0.7805
82439636|NCT01939002|164587293|SUPERIORITY_OR_OTHER|||||||0.2186|||||||paired t-test within 1 arm|||||||0.2186
82439637|NCT01939002|164587293|SUPERIORITY_OR_OTHER|||||||0.4234|||||||2-sample t-test between 2 arms|||||||0.4234
82439638|NCT01939002|164587294|SUPERIORITY_OR_OTHER|||||||0.009|||||||paired t-test within 1 arm|||||||0.0090
82572776|NCT02229578|164855509|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|3.61|<|0.05|TWO_SIDED|95.0|-9.62|6.09|||t-test, 2 sided|||Outcome was residual change score calculated by regressing immediate postop hydromorphone on 24 hour hydromorphone. This allows patient to serve as own control for intial values.||6.09|-9.62|<0.05
82439639|NCT01939002|164587294|SUPERIORITY_OR_OTHER|||||||0.0075|||||||paired t-test within 1 arm|||||||0.0075
82439640|NCT01939002|164587294|SUPERIORITY_OR_OTHER|||||||0.0002|||||||paired t-test within 1 arm|||||||0.0002
82439641|NCT01939002|164587294|SUPERIORITY_OR_OTHER|||||||0.7497|||||||2-sample t-test between 2 arms|||||||0.7497
82439642|NCT01939002|164587295|SUPERIORITY_OR_OTHER|||||||0.0545|||||||paired t-test within 1 arm|||||||0.0545
82439643|NCT01939002|164587295|SUPERIORITY_OR_OTHER|||||||0.3377|||||||paired t-test within 1 arm|||||||0.3377
82439644|NCT01939002|164587295|SUPERIORITY_OR_OTHER|||||||0.0391|||||||paired t-test within 1 arm|||||||0.0391
82439645|NCT01939002|164587295|SUPERIORITY_OR_OTHER|||||||0.4861|||||||2-sample t-test between 2 arms|||||||0.4861
82439646|NCT01939002|164587296|SUPERIORITY_OR_OTHER|||||||0.0834|||||||Fisher Exact|||first 8 weeks||||0.0834
82439647|NCT01939002|164587296|SUPERIORITY_OR_OTHER|||||||0.0767|||||||Fisher Exact|||Weeks 0-2||||0.0767
82439648|NCT01939002|164587296|SUPERIORITY_OR_OTHER|||||||0.732|||||||Fisher Exact|||Weeks 3-4||||0.7320
82439649|NCT01939002|164587296|SUPERIORITY_OR_OTHER|||||||0.5008|||||||Fisher Exact|||Weeks 5-6||||0.5008
82439650|NCT01939002|164587296|SUPERIORITY_OR_OTHER|||||||0.6422|||||||Fisher Exact|||Weeks 7-8||||0.6422
82439651|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.2123|||||||paired t-test within 1 arm|||change at Week 4||||0.2123
82439652|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.5834|||||||paired t-test within 1 arm|||change at Week 12||||0.5834
82439653|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.8723|||||||paired t-test within 1 arm|||change at Week 24||||0.8723
82439654|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.4173|||||||paired t-test within 1 arm|||change at Week 36||||0.4173
82439655|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.2267|||||||paired t-test within 1 arm|||change at Week 48||||0.2267
82439656|NCT01939002|164587297|SUPERIORITY_OR_OTHER|||||||0.0171|||||||paired t-test within 1 arm|||change at Early Term||||0.0171
82439657|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.0001|||||||paired t-test within 1 arm|||change at Week 4||||0.0001
82439658|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.0007|||||||paired t-test within 1 arm|||change at Week 12||||0.0007
82439659|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.0365|||||||paired t-test within 1 arm|||change at Week 24||||0.0365
82439660|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.0197|||||||paired t-test within 1 arm|||change at Week 36||||0.0197
82439661|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.4031|||||||paired t-test within 1 arm|||change at Week 48||||0.4031
82439662|NCT01939002|164587298|SUPERIORITY_OR_OTHER|||||||0.006|||||||paired t-test within 1 arm|||change at Early Termination||||0.0060
82439663|NCT01939002|164587299|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
82439664|NCT01939002|164587299|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 12||||<0.0001
82439665|NCT01939002|164587299|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 24||||<0.0001
82439666|NCT01939002|164587299|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 36||||<0.0001
82439667|NCT01939002|164587299|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 48||||<0.0001
82439668|NCT01939002|164587299|SUPERIORITY_OR_OTHER|||||||0.1789|||||||paired t-test within 1 arm|||change at Early Termination||||0.1789
82439669|NCT01939002|164587299|SUPERIORITY_OR_OTHER|||||||0.2248||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.2248
82439670|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
82439671|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 12||||<0.0001
82572777|NCT02472145|164855552|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4747|TWO_SIDED|95.0|0.8|2.8|||Chi-squared|||Statistical Analysis 1||2.8|0.8|0.4747
82572778|NCT02472145|164855553|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7817|TWO_SIDED|95.0|0.79|1.37|||Log Rank|||Statistical Analysis 1||1.37|0.79|0.7817
82439672|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 24||||<0.0001
82439673|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 36||||<0.0001
82439674|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 48||||<0.0001
82439675|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Early Termination||||<0.0001
82439676|NCT01939002|164587300|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||<0.0001
82439677|NCT01939002|164587301|SUPERIORITY_OR_OTHER|||||||0.7012|||||||paired t-test within 1 arm|||change at Week 4||||0.7012
82439678|NCT01939002|164587301|SUPERIORITY_OR_OTHER|||||||0.0548|||||||paired t-test within 1 arm|||change at Week 4||||0.0548
82439679|NCT01939002|164587301|SUPERIORITY_OR_OTHER|||||||0.0782|||||||2-sample t-test between 2 arms|||change at Week 4||||0.0782
82439680|NCT01939002|164587302|SUPERIORITY_OR_OTHER|||||||0.0006|||||||paired t-test within 1 arm|||change at Week 4||||0.0006
82439681|NCT01939002|164587302|SUPERIORITY_OR_OTHER|||||||0.0792|||||||paired t-test within 1 arm|||change at Week 4||||0.0792
82439682|NCT01939002|164587302|SUPERIORITY_OR_OTHER|||||||0.0961|||||||2-sample t-test between 2 arms|||change at Week 4||||0.0961
82439683|NCT01939002|164587303|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
82439684|NCT01939002|164587303|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
82439685|NCT01939002|164587303|SUPERIORITY_OR_OTHER|||||||0.4973|||||||2-sample t-test between 2 arms|||change at Week 4||||0.4973
82439686|NCT01939002|164587304|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired t-test within 1 arm|||change at Week 4||||<0.0001
82439687|NCT01939002|164587304|SUPERIORITY_OR_OTHER|||||||0.0464|||||||paired t-test within 1 arm|||change at Week 4||||0.0464
82439688|NCT01939002|164587304|SUPERIORITY_OR_OTHER|||||||0.1905|||||||2-sample t-test between 2 arms|||change at Week 4||||0.1905
82439689|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.6569|||||||paired t-test within 1 arm|||change at Week 12||||0.6569
82439690|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.1584|||||||paired t-test within 1 arm|||change at Week 24||||0.1584
82439691|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.5106|||||||paired t-test within 1 arm|||change at Week 36||||0.5106
82439692|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.5927|||||||paired t-test within 1 arm|||change at Week 48||||0.5927
82439693|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.384|||||||paired t-test within 1 arm|||change at Early Termination||||0.3840
82439694|NCT01939002|164587305|SUPERIORITY_OR_OTHER|||||||0.4182||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.4182
82439695|NCT01939002|164587306|SUPERIORITY_OR_OTHER|||||||0.2588|||||||paired t-test within 1 arm|||change at Week 12||||0.2588
82439696|NCT01939002|164587306|SUPERIORITY_OR_OTHER|||||||0.1092|||||||paired t-test within 1 arm|||change at Week 24||||0.1092
82439697|NCT01939002|164587306|SUPERIORITY_OR_OTHER|||||||1|||||||paired t-test within 1 arm|||change at Week 36||||1.0000
82439698|NCT01939002|164587306|SUPERIORITY_OR_OTHER|||||||0.219|||||||paired t-test within 1 arm|||change at Week 48||||0.2190
82439699|NCT01939002|164587306|SUPERIORITY_OR_OTHER|||||||0.6402||||||p-value on slope is based on general linear model with repeat measures over all visits.|general linear model|||||||0.6402
82439700|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.4821|||||||paired t-test within 1 arm|||change at Week 12||||0.4821
82439701|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.5298|||||||paired t-test within 1 arm|||change at Week 24||||0.5298
82439702|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.1584|||||||paired t-test within 1 arm|||change at Week 36||||0.1584
82439703|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.2547|||||||paired t-test within 1 arm|||change at Week 48||||0.2547
82439704|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.0824|||||||paired t-test within 1 arm|||change at Early Termination||||0.0824
82439705|NCT01939002|164587307|SUPERIORITY_OR_OTHER|||||||0.3148||||||p-value on slope is based GLM with repeat measures over all visits.|general linear model|||||||0.3148
82439706|NCT01939002|164587308|SUPERIORITY_OR_OTHER|||||||0.6508|||||||paired t-test within 1 arm|||change at Week 12||||0.6508
82439707|NCT01939002|164587308|SUPERIORITY_OR_OTHER|||||||0.0315|||||||paired t-test within 1 arm|||change at Week 48||||0.0315
82439708|NCT01939002|164587308|SUPERIORITY_OR_OTHER|||||||0.119|||||||paired t-test within 1 arm|||change at Early Termination||||0.1190
82439709|NCT01939002|164587308|SUPERIORITY_OR_OTHER|||||||0.152||||||p-value on slope is based GLM with repeat measures over all visits.|general linear model|||||||0.1520
82439710|NCT01939002|164587310|SUPERIORITY_OR_OTHER|||||||0.0049|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.0049
82439711|NCT01939002|164587310|SUPERIORITY_OR_OTHER|||||||0.223|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.2230
82439712|NCT01939002|164587310|SUPERIORITY_OR_OTHER|||||||0.0031|||||||paired t-test within 1 arm|||Change from 4WRI to L4W||||0.0031
82439713|NCT01939002|164587310|SUPERIORITY_OR_OTHER|||||||0.1624|||||||2-sample t-test between 2 arms|||Change from 4WRI to L4W||||0.1624
82439714|NCT02240368|164587328|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||bootstrap|||||||<0.01
82439715|NCT02240368|164587329|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||bootstrap|||||||<0.01
82439716|NCT02240368|164587330|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82439717|NCT02240368|164587331|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82439718|NCT00871117|164587332|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% confidence interval (CI) for the between-group differences in booster response to diphtheria was greater than or equal to (≥)-10%.|Difference in booster response rates|0.01|||||TWO_SIDED|95.0|-2.54|2.58||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of diphtheria (D) booster response one month after vaccination with DTaP-IPV vaccine.||2.58|-2.54|
82572779|NCT03563313|164855582|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82572780|NCT03563313|164855583|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82439719|NCT00871117|164587332|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to tetanus was ≥ -10%.|Difference in booster response rates|0.98|||||TWO_SIDED|95.0|-1.99|4.26||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of tetanus (T) booster response one month after vaccination with DTaP-IPV vaccine.||4.26|-1.99|
82439720|NCT00871117|164587333|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to PT was ≥ -10%|Difference in booster response rates|-0.76|||||TWO_SIDED|95.0|-5.07|3.51||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of pertussis toxoid (PT) booster response one month after vaccination with DTaP-IPV vaccine.||3.51|-5.07|
82439721|NCT00871117|164587333|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to FHA was ≥ -10%.|Difference in booster response rates|-0.91|||||TWO_SIDED|95.0|-3.59|1.39||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of filamentous hemagglutinin (FHA) booster response one month after vaccination with DTaP-IPV vaccine.||1.39|-3.59|
82439722|NCT00871117|164587333|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the between-group differences in booster response to PRN, was ≥ -10%.|Difference in booster response rates|1.42|||||TWO_SIDED|95.0|-0.32|4.08||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of pertactin (PRN) booster response one month after vaccination with DTaP-IPV vaccine.||4.08|-0.32|
82439723|NCT00871117|164587334|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios for poliovirus type 1 antigens was ≥ 0.67.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.76|1.1||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 1 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||1.1|0.76|
82439724|NCT00871117|164587334|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios of poliovirus type 2 antigens was ≥ 0.67.|Adjusted GMT ratio|0.83|||||TWO_SIDED|95.0|0.7|0.99||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 2 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||0.99|0.7|
82439725|NCT00871117|164587334|NON_INFERIORITY|Lower limit of the 95% CI for the GMT ratios of poliovirus type 3 antigens was ≥ 0.67.|Adjusted GMT ratio|0.84|||||TWO_SIDED|95.0|0.71|1.01||||||To demonstrate the non-inferiority of DTaP-IPV vaccine co-administered with Varicella and MMR vaccines compared to DTaP-IPV vaccine co-administered with MMR only in terms of poliovirus type 3 geometric mean titers (GMTs), one month after vaccination with DTaP-IPV vaccine.||1.01|0.71|
82439726|NCT03551665|164587354|OTHER||Mean Difference (Final Values)|0.029||||0.036|TWO_SIDED|95.0|0.002|0.056|||Regression, Linear|||These data are the immediate improvements (base 2 - post 1) in the MS group.||0.056|.002|0.036
82439727|NCT03551665|164587355|OTHER||Spearman's Rho|0.019||||0.92|||||||Spearman Correlation|||We correlated cognition (SDMT; above) to the improvement in performance (margin of stability) to to determine whether cognition predicted improvement in stepping outcomes.||||.92
82439728|NCT03551665|164587356|OTHER||Mean Difference (Final Values)|0.026||||0.119||95.0|-0.007|0.059|||Regression, Linear|||We assessed the change in reactive step length before (Baseline 2) to immediately after (post 1) training in the MS group||0.059|-0.007|0.119
82439729|NCT03551665|164587357|OTHER||Mean Difference (Final Values)|-0.041||||0.012||95.0|-0.073|-0.009|||Regression, Linear|||We assessed the change in reactive step latency before (Baseline 2) to immediately after (post 1) training in the MS group||-0.009|-0.073|0.012
82439730|NCT05538312|164587358|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|168.9|||||TWO_SIDED|90.0|157.66|180.94|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUCinf was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||180.94|157.66|
82500673|NCT00754624|164692246|SUPERIORITY_OR_OTHER||Slope|-0.058|||||TWO_SIDED|95.0|-0.072|-0.043|||Random Coefficient|Adjusted for Baseline FVC value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed FVC data to estimate the annual rate of decline. The model included terms for baseline FVC and time (in years) of FVC measurements. Missing pulmonary functions were not imputed.||-0.043|-0.072|
82439731|NCT05538312|164587359|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|152.19|||||TWO_SIDED|90.0|136.9|169.18|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.18|136.90|
82439732|NCT05538312|164587360|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|161.99|||||TWO_SIDED|90.0|148.7|176.47|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUC120 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||176.47|148.70|
82522905|NCT02954354|164741241|SUPERIORITY||Difference|-4.9||||0.0003||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||Feverishness or chills||||0.0003
82439733|NCT05538312|164587361|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|153.13|||||TWO_SIDED|90.0|138.51|169.3|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.30|138.51|
82439734|NCT05538312|164587362|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|171.63|||||TWO_SIDED|90.0|159.96|184.15|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||184.15|159.96|
82439735|NCT05538312|164587363|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|157.8|||||TWO_SIDED|90.0|146.51|169.95|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUC120 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||169.95|146.51|
82439736|NCT05538312|164587368|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|192.86|||||TWO_SIDED|90.0|178.86|207.94|||||The ratios (and 90% CIs) are expressed as percentages.|ARV-471 administered alone as Reference, ARV-471 administered after multiple doses of itraconazole as Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||207.94|178.86|
82439737|NCT03571672|164587390|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.08|STANDARD_DEVIATION|5.98||0.868|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.868
82439738|NCT03571672|164587390|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.23|STANDARD_DEVIATION|5.445||0.606|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.606
82439739|NCT03571672|164587390|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.43|STANDARD_DEVIATION|4.212||0.224|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.224
82439740|NCT03571672|164587391|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|6.682||0.715|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.715
82439741|NCT03571672|164587391|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.526||0.956|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.956
82439742|NCT03571672|164587391|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.17|STANDARD_DEVIATION|4.584||0.771|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.771
82439743|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.959|||||TWO_SIDED|95.0|0.944|0.97||||||Inter-Reader Variability Echo Enhanced||0.970|0.944|
82439744|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.95|||||TWO_SIDED|95.0|0.931|0.964||||||Inter-Reader Variability Echo Unenhanced||0.964|0.931|
82439745|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.957|||||TWO_SIDED|95.0|0.941|0.969||||||Inter-Reader Variability Echo Enhanced||0.969|0.941|
82439746|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.934|||||TWO_SIDED|95.0|0.909|0.952||||||Inter-Reader Variability Echo Unenhanced||0.952|0.909|
82439747|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.946|0.972||||||Inter-Reader Variability Echo Enhanced||0.972|0.946|
82439748|NCT03571672|164587392|OTHER||Intra-class Correlation Coefficient|0.937|||||TWO_SIDED|95.0|0.913|0.954||||||Inter-Reader Variability Echo Unenhanced||0.954|0.913|
82439749|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.988|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-reader Variability End Diastolic Echo Enhanced||0.992|0.984|
82439750|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.986|||||TWO_SIDED|95.0|0.981|0.99||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.990|0.981|
82439751|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.96|||||TWO_SIDED|95.0|0.945|0.971||||||Inter-reader Variability End Diastolic Echo Enhanced||0.971|0.945|
82439752|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.925|||||TWO_SIDED|95.0|0.897|0.945||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.945|0.897|
82439753|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.97|||||TWO_SIDED|95.0|0.958|0.978||||||Inter-reader Variability End Diastolic Echo Enhanced||0.978|0.958|
82439754|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.909|||||TWO_SIDED|95.0|0.876|0.934||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.934|0.876|
82439755|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.989|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-reader Variability End Systolic Echo Enhanced||0.992|0.984|
82439756|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.985|||||TWO_SIDED|95.0|0.979|0.989||||||Inter-reader Variability End Systolic Echo Unenhanced||0.989|0.979|
82439757|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.962|0.98||||||Inter-reader Variability End Systolic Echo Enhanced||0.980|0.962|
82439758|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.947|||||TWO_SIDED|95.0|0.927|0.961||||||Inter-reader Variability End Systolic Echo Unenhanced||0.961|0.927|
82439759|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.969|0.984||||||Inter-reader Variability End Systolic Echo Enhanced||0.984|0.969|
82439760|NCT03571672|164587393|OTHER||Intra-class Correlation Coefficient|0.937|||||TWO_SIDED|95.0|0.914|0.954||||||Inter-reader Variability End Systolic Echo Unenhanced||0.954|0.914|
82439761|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.945|||||TWO_SIDED|95.0|0.909|0.967||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.967|0.909|
82439762|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.917|||||TWO_SIDED|95.0|0.864|0.95||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.950|0.864|
82439763|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.939|||||TWO_SIDED|95.0|0.9|0.963||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.963|0.900|
82439764|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.894|||||TWO_SIDED|95.0|0.827|0.935||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.935|0.827|
82439765|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.952|||||TWO_SIDED|95.0|0.92|0.971||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.971|0.920|
82439766|NCT03571672|164587394|OTHER||Intra-class Correlation Coefficient|0.9|||||TWO_SIDED|95.0|0.838|0.939||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.939|0.838|
82439767|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.961|0.986||||||Inter-reader Variability End Diastolic Echo Enhanced||0.986|0.961|
82439768|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.974|0.991||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.991|0.974|
82439769|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.933|||||TWO_SIDED|95.0|0.89|0.96||||||Inter-reader Variability End Diastolic Echo Enhanced||0.960|0.890|
82439770|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.857|||||TWO_SIDED|95.0|0.77|0.912||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.912|0.770|
82439771|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.914|0.969||||||Inter-reader Variability End Diastolic Echo Enhanced||0.969|0.914|
82439772|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.824|||||TWO_SIDED|95.0|0.721|0.892||||||Inter-reader Variability End Diastolic Echo Unenhanced||0.892|0.721|
82439773|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.982|||||TWO_SIDED|95.0|0.97|0.989||||||Inter-reader Variability End Systolic Echo Enhanced||0.989|0.970|
82439774|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.974|||||TWO_SIDED|95.0|0.957|0.985||||||Inter-reader Variability End Systolic Echo Unenhanced||0.985|0.957|
82439775|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.915|0.969||||||Inter-reader Variability End Systolic Echo Enhanced||0.969|0.915|
82439776|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.89|||||TWO_SIDED|95.0|0.822|0.933||||||Inter-reader Variability End Systolic Echo Unenhanced||0.933|0.822|
82562679|NCT00696241|164835057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06||||0.038|TWO_SIDED|95.0|-4.0|-0.12||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-0.12|-4.00|0.038
82439777|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.959|||||TWO_SIDED|95.0|0.932|0.975||||||Inter-reader Variability End Systolic Echo Enhanced||0.975|0.932|
82439778|NCT03571672|164587395|OTHER||Intra-class Correlation Coefficient|0.872|||||TWO_SIDED|95.0|0.794|0.922||||||Inter-reader Variability End Systolic Echo Unenhanced||0.922|0.794|
82439779|NCT05858450|164587399|OTHER||Weighted Hazard Ratio|1.108|||||TWO_SIDED|95.0|1.018|1.205||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an inverse probability of treatment weights (IPTW) was applied. Analysis performed using IPTW method.||1.205|1.018|
82439780|NCT05858450|164587399|OTHER||Weighted Hazard Ratio|0.634|||||TWO_SIDED|95.0|0.606|0.664||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.664|0.606|
82439781|NCT05858450|164587400|OTHER||Weighted Hazard Ratio|1.061|||||TWO_SIDED|95.0|1.016|1.107||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.107|1.016|
82439782|NCT05858450|164587400|OTHER||Weighted Hazard Ratio|0.897|||||TWO_SIDED|95.0|0.875|0.919||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.919|0.875|
82439783|NCT05858450|164587401|OTHER||Weighted Hazard Ratio|1.543|||||TWO_SIDED|95.0|1.133|2.1||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.1|1.133|
82439784|NCT05858450|164587401|OTHER||Weighted Hazard Ratio|1.106|||||TWO_SIDED|95.0|1.014|1.206||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.206|1.014|
82439785|NCT05858450|164587402|OTHER||Weighted Hazard Ratio|1.048|||||TWO_SIDED|95.0|0.903|1.217||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.217|0.903|
82439786|NCT05858450|164587402|OTHER||Weighted Hazard Ratio|0.908|||||TWO_SIDED|95.0|0.846|0.973||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.973|0.846|
82439787|NCT05858450|164587403|OTHER||Weighted Hazard Ratio|1.137|||||TWO_SIDED|95.0|1.068|1.211||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.211|1.068|
82439788|NCT05858450|164587403|OTHER||Weighted Hazard Ratio|1.057|||||TWO_SIDED|95.0|1.007|1.11||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.11|1.007|
82439789|NCT05858450|164587404|OTHER||Weighted Hazard Ratio|0.761|||||TWO_SIDED|95.0|0.718|0.807||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.807|0.718|
82439790|NCT05858450|164587404|OTHER||Weighted Hazard Ratio|0.858|||||TWO_SIDED|95.0|0.811|0.907||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.907|0.811|
82439791|NCT05858450|164587405|OTHER||Weighted Hazard Ratio|1.55|||||TWO_SIDED|95.0|0.88|2.731||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.731|0.88|
82439792|NCT05858450|164587405|OTHER||Weighted Hazard Ratio|1.035|||||TWO_SIDED|95.0|0.865|1.238||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.238|0.865|
82439793|NCT05858450|164587406|OTHER||Weighted Hazard Ratio|0.921|||||TWO_SIDED|95.0|0.687|1.233||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.233|0.687|
82439794|NCT05858450|164587406|OTHER||Weighted Hazard Ratio|0.826|||||TWO_SIDED|95.0|0.722|0.945||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||0.945|0.722|
82439795|NCT05858450|164587407|OTHER||Weighted Hazard Ratio|1.569|||||TWO_SIDED|95.0|1.088|2.264||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||2.264|1.088|
82439796|NCT05858450|164587407|OTHER||Weighted Hazard Ratio|1.118|||||TWO_SIDED|95.0|1.015|1.233||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.233|1.015|
82439797|NCT05858450|164587408|OTHER||Weighted Hazard Ratio|1.082|||||TWO_SIDED|95.0|0.911|1.286||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.286|0.911|
82439798|NCT05858450|164587408|OTHER||Weighted Hazard Ratio|0.932|||||TWO_SIDED|95.0|0.859|1.01||||||To account for imbalance in participant characteristics between the vaccine exposure groups, an IPTW was applied. Analysis performed using IPTW method.||1.01|0.859|
82439799|NCT00642174|164587409|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Net)|61.6|||<|0.0001||95.0|53.83|69.31||P-value is for 4 Hours After Loading Dose.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (i.e. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there is no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 4 hours after administration of loading dose. Assuming 90% power, 2-sided alpha of 0.05, and a 17.5% difference in IPA between treatment groups with a standard deviation of 20, a total of 15 completed subjects per sequence group (i.e., 15 subject who receive prasugrel first, then clopidogrel; and 15 subjects who receive clopidogrel first, then prasugrel) was determined.||69.31|53.83|<0.0001
82439800|NCT00642174|164587410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.5|||<|0.0001||95.0|27.43|45.52||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 1 hour after administration of the loading dose.||45.52|27.43|<0.0001
82439801|NCT00642174|164587410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.9|||<|0.0001||95.0|49.56|66.19||P-value for 24 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 24 hours after administration of the loading dose.||66.19|49.56|<0.0001
82439802|NCT00642174|164587410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.7|||<|0.0001||95.0|10.27|25.04||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: there was no difference between prasugrel and clopidogrel in IPA assessed by Accumetrics VerifyNow™ P2Y12 24 hours post-Last Maintenance Dose (LMD).||25.04|10.27|<0.0001
82439803|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.5466||95.0|-3.66|1.97||P-value for Baseline (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||1.97|-3.66|0.5466
82439804|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.0|||<|0.0001||95.0|-28.45|-17.55||P-value for 1 After Post Loading Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-17.55|-28.45|<0.0001
82439805|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.6|||<|0.0001||95.0|-31.18|-22.02||P-value for 4 Hour After Loading Dose (5 uM ADP). A priori threshold for statisitical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-22.02|-31.18|<0.0001
82439806|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.3|||<|0.0001||95.0|-27.42|-19.17||P-value for 24 Hour After Loading Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-19.17|-27.42|<0.0001
82522906|NCT02954354|164741241|SUPERIORITY||Difference|-8.1||||0.0094||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Muscle or joint pain||||0.0094
82439807|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.7||||0.0001||95.0|-12.78|-4.58||P-value for 24 Hour After Last Maintenance Dose (5 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-4.58|-12.78|0.0001
82439808|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.8779||95.0|-2.8|3.26||P-value for Baseline (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||3.26|-2.80|0.8779
82439809|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.2|||<|0.0001||95.0|-32.43|-17.87||P-value for 1 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-17.87|-32.43|<0.0001
82439810|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.1|||<|0.0001||95.0|-40.32|-29.78||P-value for 4 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-29.78|-40.32|<0.0001
82439811|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|||<|0.0001||95.0|-36.32|-25.66||P-value for 24 Hour After Loading Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-25.66|-36.32|<0.0001
82439812|NCT00642174|164587411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.4|||<|0.0001||95.0|-17.19|-7.58||P-value for 24 Hour After Last Maintenance Dose (20 uM ADP). A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in MPA assessed by Light Transmittance Aggregometry (LTA).||-7.58|-17.19|<0.0001
82439813|NCT00642174|164587412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.3692||95.0|-3.6|9.44||P-value for Baseline. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||9.44|-3.60|0.3692
82439814|NCT00642174|164587412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.2|||<|0.0001||95.0|-47.43|-24.98||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-24.98|-47.43|<0.0001
82439815|NCT00642174|164587412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-53.0|||<|0.0001||95.0|-61.89|-44.02||P-value for 4 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-44.02|-61.89|<0.0001
82439816|NCT00642174|164587412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.8|||<|0.0001||95.0|-50.03|-35.55||P-value for 24 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-35.55|-50.03|<0.0001
82439817|NCT00642174|164587412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.9||||0.0012||95.0|-23.42|-6.37||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set to p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|The null hypothesis was that there was no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as assessed by VASP.||-6.37|-23.42|0.0012
82439818|NCT00642174|164587413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.5238||95.0|-5.35|2.78||P-value for Baseline. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||2.78|-5.35|0.5238
82572781|NCT03563313|164855584|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82572782|NCT03563313|164855585|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82572783|NCT03563313|164855586|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82439819|NCT00642174|164587413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.2|||<|0.0001||95.0|-21.15|-11.33||P-value for 1 Hour After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-11.33|-21.15|<0.0001
82439820|NCT00642174|164587413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.9|||<|0.0001||95.0|-29.67|-18.11||P-value for 4 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-18.11|-29.67|<0.0001
82439821|NCT00642174|164587413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.9|||<|0.0001||95.0|-24.97|-14.9||P-value for 24 Hours After Loading Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||-14.90|-24.97|<0.0001
82439822|NCT00642174|164587413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.3725||95.0|-8.46|3.26||P-value for 24 Hours After Last Maintenance Dose. A priori threshold for statistical significance was set at p=0.05 level.|Mixed Models Analysis|Linear mixed model with treatment, sequence and treatment by sequence (ie. period) as fixed effects and subject as random effect.|Least Squares Mean Difference = Prasugrel minus Clopidogrel.|Null hypothesis: no difference between prasugrel and clopidogrel in Inhibition of Platelet Function as measured by Thromboelastography (TEG)-Platelet Mapping Maximum Amplitude - Adenosine Diphosphate (ADP).||3.26|-8.46|0.3725
82439823|NCT00896363|164587414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85|||||TWO_SIDED|90.0|-1.62|3.32|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 1 mg on Day 14||3.32|-1.62|
82439824|NCT00896363|164587414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|||||TWO_SIDED|90.0|-2.12|2.78|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 3 mg on Day 14||2.78|-2.12|
82439825|NCT00896363|164587414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.57|||||TWO_SIDED|90.0|-2.01|5.14|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 1 mg on Day 42||5.14|-2.01|
82439826|NCT00896363|164587414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|||||TWO_SIDED|90.0|-1.81|5.13|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of HAMD17|Comparison of placebo and GSK163090 3 mg on Day 42||5.13|-1.81|
82439827|NCT00896363|164587415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31|||||TWO_SIDED|90.0|-0.93|1.56|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 1 mg on Day 14||1.56|-0.93|
82439828|NCT00896363|164587415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|||||TWO_SIDED|90.0|-0.73|1.75|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 3 mg on Day 14||1.75|-0.73|
82439829|NCT00896363|164587415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|||||TWO_SIDED|90.0|-1.1|2.42|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 1 mg on Day 42||2.42|-1.10|
82439830|NCT00896363|164587415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|||||TWO_SIDED|90.0|-0.93|2.48|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of BECH 6 scale|Comparison of placebo and GSK163090 3 mg on Day 42||2.48|-0.93|
82439831|NCT00896363|164587416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|||||TWO_SIDED|90.0|-0.94|2.37|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 1 mg on Day 14||2.37|-0.94|
82439832|NCT00896363|164587416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44|||||TWO_SIDED|90.0|-2.1|1.21|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 3 mg on Day 14||1.21|-2.10|
82439833|NCT00896363|164587416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84|||||TWO_SIDED|90.0|-1.22|2.9|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 1 mg on Day 42||2.90|-1.22|
82439834|NCT00896363|164587416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81|||||TWO_SIDED|90.0|-1.22|2.85|||Mixed model repeated measures analysis||The point estimate was calculated as least square mean difference (net values) of QIDS-SR scale|Comparison of placebo and GSK163090 3 mg on Day 42||2.85|-1.22|
82439835|NCT03095027|164587447|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.05. With a sample size of 10, there was approximately 80% power to reject the null hypothesis of inferiority in visual acuity with assumed standard deviation of 0.0474 (one-sided alpha=0.05)|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0||0.01||||||||0.01||
82522907|NCT02954354|164741241|SUPERIORITY||Difference|-15.3||||0.0007||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Fatigue||||0.0007
82639416|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-45.0|||<|0.0001|TWO_SIDED|95.0|-69.6|-20.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-20.3|-69.6|<.0001
82439836|NCT00132691|164587464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.03||0.16|TWO_SIDED|95.0|-1.16|6.68||unadjusted|Generalized estimating equations, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|"Null hypothesis: There will be no difference in change in visual acuity between treatment groups.~Assuming 67% bilateral disease, between eye correlation of 0.4, SD of 16 letters' change over 2 years and two-sided type 1 error rate of .05, a sample size of 250 provided 91% power (assuming 10% crossover) to detect a treatment difference of 7.5 standard ETDRS letters' change in visual acuity from baseline to 24 months."||6.68|-1.16|0.16
82439837|NCT00132691|164587465|SUPERIORITY_OR_OTHER||Ratio of odds ratios|0.61||||0.071|TWO_SIDED|95.0|0.34|1.03||unadjusted|GEE, logistic||For each treatment group the odds of macular edema at 2 yrs as compared to baseline was computed. The treatment effect is the ratio of these odds (implant divided by systemic).|||1.03|0.34|0.071
82439838|NCT00132691|164587466|SUPERIORITY_OR_OTHER||Ratio of odds ratios|0.29||||0.001|TWO_SIDED|95.0|0.13|0.6||unadjusted|GEE, logistic||For each treatment group the odds of uveitis activity at 2 years as compared to baseline was computed. The treatment effect represents the ratio of these odds (implant divided by systemic).|||.60|.13|0.001
82439839|NCT00132691|164587467|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.08|||<|0.0001|TWO_SIDED|95.0|3.32|11.15||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP of 30 mmHg or greater. The systemic arm was the reference group.|||11.15|3.32|<.0001
82439840|NCT00132691|164587468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.34|5.5||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP of 24 mmHg or greater. The systemic arm was the reference group|||5.50|2.34|<.0001
82439841|NCT00132691|164587469|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.78|6.58||unadjusted|Cox proportional hazards with RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of experiencing an IOP that was 10mmHg or greater than the baseline value. The systemic arm was the reference group.|||6.58|2.78|<.0001
82439842|NCT00132691|164587470|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.19||||0.0008|TWO_SIDED|95.0|1.82|9.63||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of developing glaucoma. The systemic arm was the reference group.|||9.63|1.82|0.0008
82439843|NCT00132691|164587471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.16|||<|0.0001|TWO_SIDED|95.0|2.67|6.47||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of using an IOP-lowering therapy. The systemic arm was the reference group.|||6.47|2.67|<.0001
82439844|NCT00132691|164587472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|8.4|||<|0.0001|TWO_SIDED|95.0|3.39|20.82||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of having surgery to lower IOP. The systemic arm was the reference group.|||20.82|3.39|<0.0001
82439845|NCT00132691|164587473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.21|7.67||unadjusted|Cox proportional hazards w/ RE||A Cox proportional hazards model with a random effect to account for between-eye correlation was used to estimate the relative hazard of developing a cataract. The systemic arm was the reference group.|||7.67|2.21|<0.0001
82439846|NCT00132691|164587474|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.64|STANDARD_ERROR_OF_MEAN|2.3||0.043|TWO_SIDED|95.0|0.14|9.15||unadjusted|GEE, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|||9.15|0.14|0.043
82439847|NCT00132691|164587475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.62|STANDARD_ERROR_OF_MEAN|1.6||0.023|TWO_SIDED|95.0|0.49|6.76||unadjusted|GEE, linear||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic)|||6.76|0.49|0.023
82439848|NCT00132691|164587476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.95|STANDARD_ERROR_OF_MEAN|1.23||0.016|TWO_SIDED|95.0|0.54|5.36||unadjusted|Generalized Estimating Equations||The treatment effect is a model-based comparison of within group treatment change from enrollment to 24 months (the difference of the differences - implant minus systemic).|||5.36|0.54|0.016
82439849|NCT00132691|164587477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.84|TWO_SIDED|95.0|0.39|2.15||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of hyperlipidemia for the implant and systemic treatments. The systemic treatment is the reference group.|||2.15|0.39|0.84
82439850|NCT00132691|164587478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.13|TWO_SIDED|95.0|0.13|1.29||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of hypertension for the implant and systemic treatments. The systemic treatment is the reference group.|||1.29|0.13|0.13
82439851|NCT00132691|164587479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.24|TWO_SIDED|95.0|0.03|2.44||unadjusted|Regression, Cox||A Cox proportional hazards model was used to evaluate the relative hazard of diabetes mellitus for the implant and systemic treatments. The systemic treatment is the reference group.|||2.44|0.03|0.24
82439852|NCT01679600|164587517|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||F1-LD-F1 model by Brunner and Langer|||||||0.53
82439853|NCT00108303|164587518|SUPERIORITY_OR_OTHER||Log (odd ratio)|5.2|||||TWO_SIDED|||||||||||||
82439854|NCT00108303|164587518|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||This parameter was estimated by simulating 1000 samples with random genotypes and finding no value equal to or greater than 5.2.|Simulation|||||||<0.001
82562680|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.23|||<|0.001|TWO_SIDED|95.0|-15.45|-9.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.00|-15.45|<0.001
82439855|NCT00108303|164587519|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Firsher's transform r to Z|||The coefficient of segregation versus no segregation of the P50 sensory gating percent in families with schizophrenia.||||0.001
82439856|NCT01685801|164587521|SUPERIORITY_OR_OTHER||Posterior Mean|2.251|STANDARD_DEVIATION|0.961|||TWO_SIDED|95.0|0.383|4.144|||||The posterior distribution of overall treatment difference was obtained using the Bayesian hierarchical model and 95% credible interval of the treatment effect (posterior mean) was calculated.|"This statistical analysis is for Overall category."||4.144|0.383|
82439857|NCT01437098|164587585|SUPERIORITY_OR_OTHER||Proportion of IF Implanted Subjects|91.7|||<|0.001|TWO_SIDED|95.0|77.5|98.2|||Exact binomial|||||98.2|77.5|<0.001
82439858|NCT00834990|164587633|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|103.41||||||90.0|97.13|110.08|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110.08|97.13|
82439859|NCT00834990|164587634|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|101.68||||||90.0|96.79|106.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.83|96.79|
82439860|NCT00834990|164587635|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|103.17||||||90.0|98.5|108.05|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.05|98.5|
82439861|NCT00791479|164587638|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439862|NCT00791479|164587638|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
82439863|NCT00791479|164587638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.069||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.069
82439864|NCT00791479|164587638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439865|NCT00791479|164587638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439866|NCT00791479|164587638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439867|NCT00791479|164587639|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439868|NCT00791479|164587639|SUPERIORITY_OR_OTHER|||||||0.023||||||Treatment comparison at Week 4. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.023
82439869|NCT00791479|164587639|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439870|NCT00791479|164587639|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. A priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
82439871|NCT00791479|164587640|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439872|NCT00791479|164587640|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
82439873|NCT00791479|164587640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.81||||0.456||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.456
82439874|NCT00791479|164587640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.53|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439875|NCT00791479|164587640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.96|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439876|NCT00791479|164587640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.71|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439877|NCT00791479|164587641|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of glycosylated hemoglobin (HbA1c) levels \<7.0%.|Cochran-Armitage trend test|The Cochran-Armitage trend test included the placebo arm.||||||<0.001
82439878|NCT00791479|164587641|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of glycosylated hemoglobin (HbA1c) levels ≤6.5%.|Cochran-Armitage trend test|The Cochran-Armitage trend test included the placebo arm.||||||<0.001
82439879|NCT00791479|164587642|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439880|NCT00791479|164587642|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||<0.001
82439881|NCT00791479|164587642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.65||||0.378||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.378
82572784|NCT03563313|164855587|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82439882|NCT00791479|164587642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.09|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439883|NCT00791479|164587642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.34|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439884|NCT00791479|164587642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.67|||<|0.001||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||<0.001
82439885|NCT00791479|164587643|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||<0.001
82439886|NCT00791479|164587643|SUPERIORITY_OR_OTHER|||||||0.036||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.036
82439887|NCT00791479|164587644|SUPERIORITY_OR_OTHER|||||||0.45||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||0.450
82439888|NCT00791479|164587644|SUPERIORITY_OR_OTHER|||||||0.329||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.329
82439889|NCT00791479|164587652|SUPERIORITY_OR_OTHER|||||||0.969||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response with placebo.||||0.969
82439890|NCT00791479|164587652|SUPERIORITY_OR_OTHER|||||||0.009||||||A priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Test of log linear dose response without placebo.||||0.009
82439891|NCT00791479|164587652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.14||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.140
82439892|NCT00791479|164587652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.247||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.247
82439893|NCT00791479|164587652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.975||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||0.975
82439894|NCT00791479|164587652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||1||||||An adjustment for multiplicity was performed when comparing the individual doses to placebo using a Dunnett's test.|Mixed Models Analysis|||||||1.00
82439895|NCT00934947|164587671|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||.36
82439896|NCT00934947|164587672|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||.32
82562681|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.42|||<|0.001|TWO_SIDED|95.0|-15.64|-9.2||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-9.20|-15.64|<0.001
82439897|NCT00934947|164587673|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||.48
82439898|NCT01920568|164587677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||<|0.0001|TWO_SIDED|95.0|-0.44|-0.192|||ANCOVA||Primary analysis evaluated the log transformed chg from BL, i.e. log\[(Wk 13 uNTx/Cr) / (BL uNTx/Cr)\] by ANCOVA model with trt group as main effect and the stratification factor (breast cancer, yes or no) and log transformed BL value as covariates.|||-0.192|-0.440|<0.0001
82439899|NCT01920568|164587678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||<|0.0001|TWO_SIDED|95.0|-0.444|-0.188|||ANCOVA||Secondary analysis evaluated the log transformed chg from BL, ie log\[(Wk 13 uNTx/Cr)/(BL uNTx/Cr)\] by ANCOVA model with trt group as main effect and the stratification factor (Chinese participants, yes or no) and log transformed BL value|||-0.188|-0.444|<0.0001
82439900|NCT01920568|164587679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.366|||<|0.0001|TWO_SIDED|95.0|-0.539|-0.193|||ANCOVA||Secondary analysis evaluated the log transformed chg from BL, i.e. log\[(Wk 13 uNTx/Cr) / (BL uNTx/Cr)\] by ANCOVA model with trt group as main effect, stratification factor (Breast cancer, yes or no) and log transformed BL value as covariates.|||-0.193|-0.539|<0.0001
82439901|NCT03664674|164587692|SUPERIORITY||Mean Difference (Net)|-0.221|STANDARD_ERROR_OF_MEAN|0.218||0.312|TWO_SIDED|95.0|-0.648|0.207||Generalized Linear Model - Negative Binomial Regression Model with count data by subject transformed using the log-link function.|Regression, Linear|The parameter estimate + conf. int. results back-transform to the ratio of adjusted mean DVDs (OTO-104/Placebo) to be 0.802 (0.523, 1.230).||||0.207|-0.648|0.312
82439902|NCT03022097|164587717|SUPERIORITY||Least squares mean difference|0.092|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.06|0.124||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.124|0.060|<0.001
82439903|NCT03022097|164587718|SUPERIORITY||Least squares mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.053|0.117||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.117|0.053|<0.001
82439904|NCT03022097|164587719|SUPERIORITY||Least squares mean difference|0.134|STANDARD_ERROR_OF_MEAN|0.016|<|0.001|TWO_SIDED|95.0|0.103|0.166||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.166|0.103|<0.001
82439905|NCT03022097|164587720|SUPERIORITY||Least squares mean difference|0.217|STANDARD_ERROR_OF_MEAN|0.017|<|0.001|TWO_SIDED|95.0|0.184|0.25||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|Screening pre- and post-bronchodilator FEV1, age, baseline FEV1 as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||0.250|0.184|<0.001
82439906|NCT03022097|164587721|SUPERIORITY||Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|0.2|1.3||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|BDI, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||1.3|0.2|0.005
82439907|NCT03022097|164587721|SUPERIORITY||Least squares mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.132|TWO_SIDED|95.0|-0.1|1.0||Pre-specified hierarchical sequence of testing used to adjust for multiplicity.|Mixed Models Analysis|BDI, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||1.0|-0.1|0.132
82439908|NCT03022097|164587722|SUPERIORITY||Least squares mean difference|-4.0|STANDARD_ERROR_OF_MEAN|1.3||0.003|TWO_SIDED|95.0|-6.7|-1.4||Pre-specified hierarchical sequence of testing used to adjust for multiplicity. P-value is nominal.|Mixed Models Analysis|Baseline SGRQ, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||-1.4|-6.7|0.003
82439909|NCT03022097|164587722|SUPERIORITY||Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.3||0.031|TWO_SIDED|95.0|-5.5|-0.3||Pre-specified hierarchical sequence of testing used to adjust for multiplicity. P-value is nominal.|Mixed Models Analysis|Baseline SGRQ, age as covariates; treatment, country, smoking, visit and group-by-visit as factors.||||-0.3|-5.5|0.031
82439910|NCT04270682|164587732|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed urine 23S-pentol in the adult cohort.|Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|0.332|<|0.0001|TWO_SIDED|95.0|-3.794|-2.331|||paired t-test|||||-2.331|-3.794|<0.0001
82439911|NCT04270682|164587733|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed plasma cholestanol in the adult cohort.|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.241||0.0083|TWO_SIDED|95.0|-1.64|-0.399|||paired t-test|||||-0.399|-1.640|0.0083
82439912|NCT04270682|164587734|EQUIVALENCE|The null (H0) hypothesis and the alternative (Ha) hypothesis to be tested for the primary efficacy endpoint are that H0: Δ = 0 versus Ha: Δ ≠ 0 where Δ is the true paired treatment difference between CDCA and placebo for the change from baseline in loge-transformed Plasma 7αC4 in the adult cohort.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.224|<|0.0001|TWO_SIDED|95.0|-4.193|-3.207|||paired t-test|||||-3.207|-4.193|<0.0001
82439913|NCT04270682|164587735|EQUIVALENCE|Exact 2 sided p-value for observing contingency tables of rescue data with equal or more extreme values is calculated using Prescott's method. Rejection of the null hypothesis for no association suggests there is a difference between two treatments.|proportion|0.077||||0.0006|TWO_SIDED|95.0|0.0|0.36|||Prescott's|||||0.36|0.00|0.0006
82439914|NCT04270682|164587735|EQUIVALENCE|Exact 2 sided p-value for observing contingency tables of rescue data with equal or more extreme values is calculated using Prescott's method. Rejection of the null hypothesis for no association suggests there is a difference between two treatments.|proportion|0.62||||0.0006|TWO_SIDED|95.0|0.32|0.86|||Prescott's|||||0.86|0.32|0.0006
82439915|NCT00855933|164587744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.066||0.126|TWO_SIDED|95.0|-0.03|0.24||a priori threshold for statistical significance = 0.05|ANCOVA||2-sided with the significance level set at 5%|||0.24|-0.03|0.126
82439916|NCT01960998|164587746|SUPERIORITY|||||||0.22||||||P value not adjusted for multiple comparisons|Log Rank||||Data were not collected beyond the 12-month follow up, at which point fewer than 50% of participants in both groups had achieved continence. Thus, their time to continence could not be determined and the medians could not be calculated.|||0.22
82439917|NCT01960998|164587747|SUPERIORITY|||||||0.7||||||P values were not corrected for multiple testing|ANCOVA|Baseline score was included as a covariate in analysis.|||Mean values for the telehealth and no telehealth groups on the ICIQ-SF are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean ICIQ-SF score in the no telehealth group at 6 months was 7.0 (standard deviation 4.4) and in the telehealth group was 7.1 (SD 4.3). Analysis of covariance (ANCOVA) was performed with each of the 10 imputations, adjusting for baseline ICIQ-SF score, and p values were combined using the Rubin-Licht method.|||0.70
82439918|NCT01960998|164587748|SUPERIORITY|||||||0.7||||||P values were not adjusted for multiple comparisons.|ANCOVA||||Mean values for the telehealth and no telehealth groups on the EPIC-UI are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean EPIC-UI score in the no telehealth group at 6 months was 63.5 (standard deviation 24.1) and in the telehealth group was 63.9 (SD 22.1). Analysis of covariance (ANCOVA) was performed with each of the 10 imputations, adjusting for baseline EPIC-UI score, and p values were combined using the Rubin-Licht method.|||0.70
82439919|NCT01960998|164587749|SUPERIORITY|||||||0.46||||||P values not adjusted for multiple comparisons.|t-test, 2 sided||||Mean values for the telehealth and no telehealth groups on the IIQ are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean IIQ score in the no telehealth group at 6 months was 22.3 (standard deviation 24.1) and in the telehealth group was 19.4 (SD 22.4). Two-sample t-tests were performed with each of the 10 imputations, and p values were combined using the Rubin-Licht method.|||0.46
82439920|NCT01960998|164587750|SUPERIORITY|||||||0.63||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Quality of Life question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 31.4% (Delighted/Pleased), 22.8% (Mostly Satisfied), 19.4% (Mixed), 12.0% (Mostly Dissatisfied), and 14.4% (Unhappy/Terrible) and in the telehealth group were 20.8%, 26.3%, 26.3%, 12.6%, and 14.0%, respectively. Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 5 levels of the IPSS Quality of Life question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.63
82443435|NCT04557787|164595219|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.478|TWO_SIDED|95.0|-0.33|0.71||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.71|-0.33|0.478
82439921|NCT01960998|164587751|SUPERIORITY|||||||0.04||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Patient Satisfaction question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 51.0% (Completely Satisfied), 40.2% (Somewhat Satisfied), and 8.7% (Not at All Satisfied) and in the telehealth group were 34.8%, 59.9%, and 5.3%, respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the Patient Satisfaction question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.04
82439922|NCT01960998|164587752|SUPERIORITY|||||||0.67||||||P values not adjusted for multiple comparisons|t-test, 2 sided||||Mean values for the telehealth and no telehealth groups on the Estimated Percent Improvement (EPI) are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean EPI score in the no telehealth group at 6 months was 65.1 (standard deviation 34.5) and in the telehealth group was 69.6 (SD 29.6). Two-sample t-tests were performed with each of the 10 imputations, and p values were combined using the Rubin-Licht method.|||0.67
82439923|NCT01960998|164587753|SUPERIORITY|||||||0.65|||||||Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Global Perception of Improvement (GPI) question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 46.3% (Much Better), 30.7% (Better), 16.7% (About the Same), 2.3% (Worse), and 3.9% (Much Worse) and in the telehealth group were 38.3%, 41.1%, 15.3%, 2.9%, and 2.5%, respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 5 levels of the Global Perception of Improvement question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.65
82624046|NCT02259127|164963471|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.08|||=|0.079|TWO_SIDED|95.0|-0.16|0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 144 weeks was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 144 weeks after randomisation.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.01|-0.16|= 0.079
82439924|NCT01960998|164587754|SUPERIORITY|||||||0.37||||||P values were not corrected for multiple comparisons|Chi-squared, Corrected||||"Frequencies for the telehealth and no telehealth groups on the How Disturbing is the Urine Leakage? question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 43.5% (Not at All), 44.4% (Somewhat), and 12.1% (Extremely) and in the telehealth group were 38.9%, 53.2%, and 7.9% respectively. Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the How Disturbing is the Urine Leakage? question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method."|||0.37
82439925|NCT01960998|164587755|SUPERIORITY|||||||0.63||||||P values were not adjusted for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Activity Restriction question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 51.0% (Not at all), 36.5% (Some of the time), 7.2% (Most of the time), and 5.3% (All of the time) and in the telehealth group were 56.5%, 33.5%, 4.2%, and 5.8% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 4 levels of the Activity Restriction question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.63
82439926|NCT01960998|164587756|SUPERIORITY|||||||0.71||||||P values not adjusted for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Return to Work question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 52.3% (Yes), 5.0% (No, not yet recovered from surgery), 1.9% (No, other reason), and 40.7% (Retired or disabled) and in the telehealth group were 62.3%, 3.5%, 0.8%, and 33.5% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 4 levels of the Return to Work question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.71
82439927|NCT01960998|164587757|SUPERIORITY|||||||0.41||||||P values not corrected for multiple comparisons|Chi-squared, Corrected||||Frequencies for the telehealth and no telehealth groups on the Resumption of Normal Activities question relative to the expected frequencies question are presented above. Multiple imputation was performed to account for missing data, using the Multiple Imputation via Chained Equations (MICE) package in R. Across 10 imputations, the mean frequencies for the no telehealth group at 6 months were 7.4% (None), 29.8% (Some), 62.8% (All) and in the telehealth group were 4.9%, 23.0%, and 72.2% respectively (frequencies to not add to exactly 100% due to rounding). Chi-squared analysis with continuity correction was used to determine if there were differences in the observed frequencies between groups (telehealth versus no telehealth) across the 3 levels of the Resumption of Normal Activities question relative to the expected frequencies with each of the imputations, and p values were combined using the Enders (2001) method.|||0.41
82439928|NCT00835640|164587758|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|81.33||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
82439929|NCT00835640|164587759|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|87.87||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
82439930|NCT00835640|164587760|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|88.45||||||90.0|||||||To establish bioequivalence, the ratio of the mean must fall within 80-125.|||||
82439931|NCT00812006|164587761|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
82439932|NCT00812006|164587762|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|A compound-symmetry covariance matrix was used to model the correlation among repeated measurements within a patient, due to a convergence issue.||||||<0.001
82439933|NCT00812006|164587763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
82439934|NCT00812006|164587764|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's falsediscovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|An unstructured covariance matrix was used to model the correlation among repeated measurements within a patient.||||||<0.001
82439935|NCT00812006|164587765|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Nominal p-value was adjusted under Benjamini and Hochberg's false discovery rate procedure for the multiple secondary endpoints at α=0.1 significance level.|Generalized Linear Mixed Model|A compound-symmetry covariance matrix was used to model the correlation among repeated measurements within a patient, due to a convergence issue.||||||<0.001
82439936|NCT02499900|164587793|SUPERIORITY||Mean Difference (Final Values)|0.321|||<|0.001|TWO_SIDED|95.0|0.1615|0.4814||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-value are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: MSQ=baseline MSQ score+treatment+visit+treatment by visit interaction. Treatment-naïve patients are not included in this analysis as MSQ is not measured at baseline for these patients.||0.4814|0.1615|<0.001
82439937|NCT02499900|164587794|SUPERIORITY||Mean Difference (Final Values)|9.448|||<|0.001|TWO_SIDED|95.0|6.9538|11.9429||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-value are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: TSQM-9 convenience score=baseline TSQM-9 convenience score+treatment+CGR+treatment by visit interaction. Treatment-naïve patients are not included in this analysis as TSQM-9 is not measured at baseline for these patients.||11.9429|6.9538|<0.001
82439938|NCT02499900|164587795|SUPERIORITY||Mean Difference (Final Values)|-0.802||||0.208|TWO_SIDED|95.0|-2.05|0.4461||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Total Score Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.4461|-2.0500|0.208
82439939|NCT02499900|164587795|SUPERIORITY||Mean Difference (Final Values)|-0.231||||0.47|TWO_SIDED|95.0|-0.8588|0.3962||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Physical Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.3962|-0.8588|0.470
82439940|NCT02499900|164587795|SUPERIORITY||Mean Difference (Final Values)|-0.639||||0.043|TWO_SIDED|95.0|-1.2564|-0.0214||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Cognitive Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||-0.0214|-1.2564|0.043
82439941|NCT02499900|164587795|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.237|TWO_SIDED|95.0|-0.0672|0.2711||0.05 level of significance|Repeated Measures ANCOVA|||MFIS Psychosocial Subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MFIS score=baseline MFIS score+treatment+visit +CGR+treatment by visit interaction.||0.2711|-0.0672|0.237
82439942|NCT02499900|164587796|SUPERIORITY||Mean Difference (Final Values)|0.706||||0.287|TWO_SIDED|95.0|-0.5947|1.0074||0.05 level of significance|Repeated Measures ANCOVA|||Total Score Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.0074|-0.5947|0.287
82439943|NCT02499900|164587796|SUPERIORITY||Mean Difference (Final Values)|0.141||||0.868|TWO_SIDED|95.0|-1.5179|1.7991||0.05 level of significance|Repeated Measures ANCOVA|||Anxiety subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.7991|-1.5179|0.868
82439944|NCT02499900|164587796|SUPERIORITY||Mean Difference (Final Values)|0.481||||0.544|TWO_SIDED|95.0|-1.0734|2.0348||0.05 level of significance|Repeated Measures ANCOVA|||Depression subscale estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||2.0348|-1.0734|0.544
82562682|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.53|||<|0.001|TWO_SIDED|95.0|-18.74|-12.31||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-12.31|-18.74|<0.001
82439945|NCT02499900|164587796|SUPERIORITY||Mean Difference (Final Values)|1.867||||0.014|TWO_SIDED|95.0|0.3843|3.3487||0.05 level of significance|Repeated Measures ANCOVA|||Behavioral Control subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||3.3487|0.3843|0.014
82439946|NCT02499900|164587796|SUPERIORITY||Mean Difference (Final Values)|-0.092||||0.919|TWO_SIDED|95.0|-1.8565|1.6728||0.05 level of significance|Repeated Measures ANCOVA|||MHI Positive Affect subscale Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline MHI score=baseline MHI Total Score +treatment +visit +country/geographic region +treatment by visit interaction.||1.6728|-1.8565|0.919
82439947|NCT02499900|164587797|SUPERIORITY||Mean Difference (Final Values)|-0.059||||0.851|TWO_SIDED|95.0|-0.6777|0.5592||0.05 level of significance|Repeated Measures ANCOVA|||Estimates and p-values are obtained from baseline-adjusted repeated measures ANCOVA model with visit as a repeated effect: change from baseline BDI-II total score=baseline BDI-II total score+treatment+visit+country/geographic region +treatment by visit interaction.||0.5592|-0.6777|0.851
82439948|NCT01071200|164587809|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon two sample test|||Change at hCG day : Wilcoxon two sample test was used to calculate p-value.||||0.07
82439949|NCT01527513|164587821|NON_INFERIORITY_OR_EQUIVALENCE|"A 121ms non-inferiority margin was selected based on a previous study with Cognitive Drug Research (CDR) system comparing newly diagnosed patients to a healthy normative sample.~Assuming a Standard Deviation (SD) of 202.3 for the Power of Attention score, a total of 102 patients in the PP population would provide 80% power to reject the null hypothesis that the mean increase from baseline Power of Attention was at least 121 ms smaller in the placebo group."|Mean Difference (Final Values)|33.2001||||0.7|TWO_SIDED|95.0|-137.593|203.993|||95% CI lower bound vs non-inf margin|||||203.993|-137.593|0.700
82439950|NCT01527513|164587822|NON_INFERIORITY_OR_EQUIVALENCE|"A 121ms non-inferiority margin was selected based on a previous study with Cognitive Drug Research (CDR) system comparing newly diagnosed patients to a healthy normative sample.~Assuming a Standard Deviation (SD) of 202.3 for the Power of Attention score, a total of 102 patients in the PP population would provide 80% power to reject the null hypothesis that the mean increase from baseline Power of Attention was at least 121 ms smaller in the placebo group."|95% CI lower bound vs non-inf margin|33.2001|||<|0.7|TWO_SIDED|95.0|-137.593|203.993|||ANCOVA||The predefined non-inferiority margin was -121ms.|||203.993|-137.593|<0.700
82439951|NCT04049266|164587842|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4 ETDRS letters, i.e. the non-inferiority margin (NI) is 4 letters.|Adjusted mean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.01|>|0.9999|TWO_SIDED|95.03|-8.0|-4.0|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, categories for baseline BCVA, BCVA-low luminance VA baseline, geographical location.||||-4|-8|> 0.9999
82439952|NCT01509677|164587882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7922||||||"This is p-value testing significance of treatment effect"|Poisson regression model|||2-sided test at 5% significant level||||0.7922
82439953|NCT01509677|164587882|SUPERIORITY||Risk Ratio (RR)|1.03|STANDARD_ERROR_OF_MEAN|0.12||0.7917|TWO_SIDED|95.0|0.82|1.3|||Poisson regression model|||||1.30|0.82|0.7917
82439954|NCT01509677|164587883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7145||||||"This is p-value testing significance of treatment effect"|Poisson regression model|||2-sided, 5% test||||0.7145
82439955|NCT01509677|164587884|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.04|STANDARD_ERROR_OF_MEAN|0.119||0.7136|TWO_SIDED|95.0|0.83|1.3|||Poisson regression model|||2-sided 5% test||1.30|0.83|0.7136
82439956|NCT01509677|164587885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.4|STANDARD_ERROR_OF_MEAN|15.45||0.4606||95.0|-19.2|42.1|||ANCOVA|||2-sided 5% test||42.1|-19.2|0.4606
82439957|NCT01509677|164587886|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19|STANDARD_ERROR_OF_MEAN|0.194||0.2744|TWO_SIDED|95.0|0.87|1.64|||Poisson regression model|||2-sided 5% test||1.64|0.87|0.2744
82439958|NCT01509677|164587887|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.85|STANDARD_ERROR_OF_MEAN|0.086||0.1128|TWO_SIDED|95.0|0.7|1.04|||Poisson regression model|||2-sided 5% test||1.04|0.70|0.1128
82624047|NCT02259127|164963472|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.993|TWO_SIDED|95.0|0.38|2.68|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||2.68|0.38|= 0.993
82439959|NCT01509677|164587888|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|STANDARD_ERROR_OF_MEAN|0.164||0.674|TWO_SIDED|95.0|0.66|1.31|||Regression, Linear|Poisson regression model||2-sided 5% test||1.31|0.66|0.6740
82439960|NCT01509677|164587889|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.84|STANDARD_ERROR_OF_MEAN|0.082||0.0677|TWO_SIDED|95.0|0.69|1.01|||Poisson regression model|||2-sided 5% test||1.01|0.69|0.0677
82439961|NCT01509677|164587890|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.82|STANDARD_ERROR_OF_MEAN|0.177||0.3566|TWO_SIDED|95.0|0.54|1.25|||Poisson regression model|||2-sided 5% test||1.25|0.54|0.3566
82439962|NCT01509677|164587891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6354|STANDARD_ERROR_OF_MEAN|2.30185||0.4794|TWO_SIDED|95.0|-2.9429|6.2137|||ANCOVA|||2 sided 5% test||6.2137|-2.9429|0.4794
82439963|NCT01509677|164587892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4727|STANDARD_ERROR_OF_MEAN|0.32866||0.1541|TWO_SIDED|95.0|-0.181|1.1264|||ANCOVA|||2 sided 5% test||1.1264|-0.1810|0.1541
82439964|NCT01509677|164587893|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0626|STANDARD_ERROR_OF_MEAN|0.03681||0.0927|TWO_SIDED|95.0|-0.1358|0.0106|||ANCOVA|||2 sided 5% test||0.0106|-0.1358|0.0927
82439965|NCT01509677|164587894|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0107|STANDARD_ERROR_OF_MEAN|0.01647||0.5175|TWO_SIDED|95.0|-0.0435|0.022|||ANCOVA|||2 sided 5% test||0.0220|-0.0435|0.5175
82624048|NCT02259127|164963472|SUPERIORITY||Hazard Ratio (HR)|0.5|||=|0.33|TWO_SIDED|95.0|0.13|2.0|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (\<14kg)~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||2|0.13|= 0.33
82439966|NCT01509677|164587895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.146|STANDARD_ERROR_OF_MEAN|3.3253||0.5205|TWO_SIDED|95.0|-4.466|8.757|||ANCOVA|||2-sided 5 % test||8.757|-4.466|0.5205
82439967|NCT01509677|164587896|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.141|STANDARD_ERROR_OF_MEAN|3.0057||0.7052|TWO_SIDED|95.0|-4.835|7.117|||ANCOVA|||2-sided 5 % test||7.117|-4.835|0.7052
82439968|NCT01509677|164587897|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.867|STANDARD_ERROR_OF_MEAN|0.7331||0.0127|TWO_SIDED|95.0|-3.324|-0.409|||ANCOVA|||2-sided 5 % test||-0.409|-3.324|0.0127
82439969|NCT01509677|164587898|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.1871||0.7862|TWO_SIDED|95.0|-0.423|0.321|||ANCOVA|||2-sided 5 % test||0.321|-0.423|0.7862
82439970|NCT01509677|164587899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.005||0.8769|TWO_SIDED|95.0|-1.84|2.15|||ANCOVA|||2-sided 5% test||2.15|-1.84|0.8769
82439971|NCT01509677|164587900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|711.1|STANDARD_ERROR_OF_MEAN|2768.79||0.7978|TWO_SIDED|95.0|-4778.3|6200.5|||ANCOVA|||2-sided 5% test||6200.5|-4778.3|0.7978
82439972|NCT01509677|164587901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|88.5|STANDARD_ERROR_OF_MEAN|79.26||0.2669|TWO_SIDED|95.0|-68.6|245.6|||ANCOVA|||2-sided 5% test||245.6|-68.6|0.2669
82439973|NCT01509677|164587902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.9|STANDARD_ERROR_OF_MEAN|67.78||0.7033|TWO_SIDED|95.0|-160.3|108.5|||ANCOVA|||2-sided 5% test||108.5|-160.3|0.7033
82439974|NCT01509677|164587903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.79|STANDARD_ERROR_OF_MEAN|18.039||0.1264|TWO_SIDED|95.0|-7.97|63.55|||ANCOVA|||2-sided 5% test||63.55|-7.97|0.1264
82439975|NCT01509677|164587904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|296.8|STANDARD_ERROR_OF_MEAN|124.07||0.0185|TWO_SIDED|95.0|50.9|542.7|||ANCOVA|||2-sided 5% test||542.7|50.9|0.0185
82439976|NCT01509677|164587905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.086||0.9989|TWO_SIDED|95.0|-0.17|0.17|||ANCOVA|||2-sided 5% test||0.17|-0.17|0.9989
82439977|NCT01509677|164587906|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.309||0.6701|TWO_SIDED|95.0|-3.15|2.03|||ANCOVA|||2-sided 5% test||2.03|-3.15|0.6701
82439978|NCT01509677|164587907|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.1||0.1105|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA|||2-sided 5% test||3.9|-0.4|0.1105
82439979|NCT01509677|164587908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|15.62||0.9261|TWO_SIDED|95.0|-32.4|29.5|||ANCOVA|||2-sided 5% test||29.5|-32.4|0.9261
82439980|NCT01509677|164587909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|4.49||0.0257|TWO_SIDED|95.0|1.2|19.0|||ANCOVA|||2-sided 5% test||19.0|1.2|0.0257
82439981|NCT01509677|164587910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.8|STANDARD_ERROR_OF_MEAN|18.11||0.0728|TWO_SIDED|95.0|-3.0|168.6|||ANCOVA|||2-sided 5% test||168.6|-3.0|0.0728
82439982|NCT01509677|164587911|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.03||0.038|TWO_SIDED|95.0|0.004|0.122|||ANCOVA|||2-sided 5% test||0.122|0.004|0.0380
82562683|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.662|TWO_SIDED|95.0|-2.05|3.22||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||3.22|-2.05|0.662
82439983|NCT01509677|164587912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.0552||0.2482|TWO_SIDED|95.0|-0.045|0.173|||ANCOVA|||2-sided 5% test||0.173|-0.045|0.2482
82439984|NCT01509677|164587913|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-1.0||||0.2629|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|Between treatment difference||2 sided 5 % test||1.00|-2.00|0.2629
82439985|NCT02780856|164587933|SUPERIORITY||||||<|0.0001|||||||exact binomial|An exact binomial test was used and an exact 97.5% Confidence Level using the Clopper-Pearson method was calculated||The null and alternative hypothesis for each tooth population was of chance agreement (50%) and was tested against an exact binomial one-sided 97.5% confidence interval||||<0.0001
82439986|NCT02780856|164587933|SUPERIORITY||||||<|0.0001|||||||exact binomial|An exact binomial test was used and an exact 97.5% Confidence Level using the Clopper-Pearson method was calculated||The null and alternative hypothesis for each tooth population was of chance agreement (50%) and was tested against an exact binomial one-sided 97.5% confidence interval||||<0.0001
82439987|NCT05479097|164587937|SUPERIORITY||Median Difference (Net)|-7.5||||0.03232|TWO_SIDED|95.0|-12.0|-1.0||A priori threshold for statistical significance was P \<0.05.|Wilcoxon signed rank test|Systolic blood pressure was not normally distributed in the study sample, so nonparametric analysis was used.||The null hypothesis was that there was no change in systolic blood pressure.||-1.0|-12.0|0.03232
82439988|NCT05479097|164587938|SUPERIORITY||Mean Difference (Net)|-3.1||||0.045|TWO_SIDED|95.0|-6.1|-0.1||The a priori threshold for statistical significance was P \<0.05.|t-test, 2 sided|As diastolic blood pressure was normally distributed in our sample, we used a paired t-test to evaluate the mean difference in measurements.||The null hypothesis was that there was no change in diastolic blood pressure.||-0.1|-6.1|0.045
82439989|NCT05479097|164587939|SUPERIORITY|||||||0.7237||||||The a priori threshold for statistical significance was P \<0.05|McNemar|||The null hypothesis was no change in the proportion of patients with systolic blood pressure well-controlled (\<=140 mmHg) from baseline to 6 months.||||0.7237
82439990|NCT05479097|164587940|SUPERIORITY|||||||0.7237||||||The a priori threshold for statistical significance was P \<0.05|McNemar|||The null hypothesis was that there was no difference in the proportion of patients with systolic blood pressure less than or equal to their personalized goal from baseline to 6 months.||||0.7237
82439991|NCT03894969|164587950|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PD is \> 0.667. The anti-PD GMC ratio is presented in this test with its 95% CI.|GMC ratio|0.942|||||TWO_SIDED|0.95|0.765|1.159|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.159|0.765|
82443436|NCT04557787|164595219|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.824|TWO_SIDED|95.0|-0.46|0.58||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.58|-0.46|0.824
82439992|NCT03894969|164587950|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PE is \> 0.667. The anti-PE GMC ratio is presented in this test with its 95% CI.|GMC ratio|0.887|||||TWO_SIDED|0.95|0.719|1.093|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.093|0.719|
82439993|NCT03894969|164587950|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-PilA is \> 0.667. The anti-PilA GMC ratio is presented in this test with its 95% CI.|GMC ratio|1.142|||||TWO_SIDED|0.95|0.884|1.474|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.474|0.884|
82439994|NCT03894969|164587950|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the GMC ratio for anti-UspA2 is \> 0.667. The anti-UspA2 GMC ratio is presented in this test with its 95% CI.|GMC ratio|1.087|||||TWO_SIDED|0.95|0.948|1.245|||ANCOVA|ANCOVA model with treatment group, age category, smoking status and center as fixed effects and pre-Dose 1 log-concentration as a covariate.||To demonstrate the non-inferiority (NI) of the humoral immune response 1 month after Dose 2 of GSK Biologicals' NTHi-Mcat investigational vaccine when administered 1 after Shingrix vaccine versus the humoral immune response 1 month after Dose 2 of GSKBiologicals' NTHi-Mcat investigational vaccine alone.||1.245|0.948|
82439995|NCT00468676|164587964|SUPERIORITY_OR_OTHER||scaled marginal model parameter|-1.57|STANDARD_ERROR_OF_MEAN|0.28||0.001|TWO_SIDED|95.0|-2.12|-1.02||Significance of the four outcome composite|Scaled Marginal Model||Intervention group had significantly lower scaled marginal mean scores than usual care|||-1.02|-2.12|.001
82439996|NCT00468676|164587965|SUPERIORITY_OR_OTHER||Slope|0.01|||<|0.01||95.0|||||general estimating equations|||Disability outcomes were measured at six and 12 months after randomization using linear regression models adjusted for baseline values. The disability models combined information across time points and were estimated using general estimating equations to account for correlation. All analyses were based on intent to treat principles||||<0.01
82439997|NCT00468676|164587967|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.56|-0.26|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||-0.26|-0.56|<0.001
82439998|NCT00468676|164587968|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-3.4|||||TWO_SIDED|95.0|-6.9|0.1|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||0.1|-6.9|
82439999|NCT00468676|164587969|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-9.1|||||TWO_SIDED|95.0|-17.5|-0.8|||Regression, Linear||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a linear-regression model predicting a 12-month outcome.|||-0.8|-17.5|
82440000|NCT00468676|164587970|SUPERIORITY_OR_OTHER||Estimated Between Group Difference|-0.56|||||TWO_SIDED|95.0|-0.85|-0.27|||Generalized-Estimating-Equation Model||Between Group Difference is the difference in the change from Baseline to 12 month data calculated from a generalized-estimating-equation model predicting a 6- and 12-month outcome.|||-0.27|-0.85|
82440001|NCT04762043|164587982|SUPERIORITY||Mean Difference (Final Values)|56.55|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|53.33|59.76|||Mixed Models Analysis|Effect size used for mixed effects model is partial eta-squared (ηp2).||||59.76|53.33|<.001
82440002|NCT01779869|164587983|SUPERIORITY|Accuracy was assessed compared to an imaging reference standard.||||||0.35|||||||Chi-squared|||Significance testing between the diagnostic accuracy of SPECT and PET, and SPECT and MR, and SPECT and PET/MR was performed by using chi square test. A P value \< 0.05 was considered significant.||||0.35
82440003|NCT00957944|164588034|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0302||||||90.0|0.9693|1.0951|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0951|0.9693|
82440004|NCT00957944|164588035|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0571||||||90.0|0.9903|1.1284|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.1284|0.9903|
82440005|NCT00957944|164588036|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|1.0289||||||90.0|0.9714|1.0899|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0899|0.9714|
82624049|NCT02259127|164963472|SUPERIORITY||Hazard Ratio (HR)|1.01|||=|0.991|TWO_SIDED|95.0|0.32|3.12|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY A \>=14kg)~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||3.12|0.32|= 0.991
82440006|NCT01468233|164588057|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|31.5|||<|0.001|TWO_SIDED|95.0|20.7|42.2||P-value adjusted for baseline Hurley Stage and for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||42.2|20.7|<0.001
82440007|NCT01468233|164588057|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|25.5|||<|0.001|TWO_SIDED|95.0|10.5|40.5||P-value adjusted for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||40.5|10.5|<0.001
82440008|NCT01468233|164588057|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|38.1|||<|0.001|TWO_SIDED|95.0|22.8|53.3||P-value adjusted for baseline antibiotic use (Y/N).|Cochran-Mantel-Haenszel|||||53.3|22.8|<0.001
82440009|NCT01468233|164588058|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|19.5|||=|0.01|TWO_SIDED|95.0|4.7|34.2||P-value adjusted for baseline antibiotics use (Y/N).|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||34.2|4.7|=0.01
82440010|NCT01468233|164588059|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|25.1|||<|0.001|TWO_SIDED|95.0|12.7|37.6||P-value adjusted for baseline Hurley Stage and antibiotics use (Y/N).|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||37.6|12.7|<0.001
82440011|NCT01468233|164588060|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.4|||<|0.001|TWO_SIDED|95.0|-28.6|-10.1||P-value calculated from ANCOVA with stratum (baseline Hurley Stage and antibiotics use), baseline value, and treatment as covariates.|ANCOVA|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||-10.1|-28.6|<0.001
82440012|NCT00457821|164588066|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
82440013|NCT00457821|164588067|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
82440014|NCT00457821|164588069|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Within-dose group and between-dose group analyses were performed, using a linear mixed effect model with baseline, dose, and period as fixed effects and subject as a random effect.||||<0.05
82440015|NCT03549871|164588125|SUPERIORITY||ABR ratio|0.389|||=|0.0008|TWO_SIDED|95.0|0.224|0.675||The threshold for significance was \<0.05.|Repeated measures NB regression model|||Analyzed using repeated measures NB model with fixed effect of treatment period (fitusiran efficacy period or factor/BPA prophylaxis period) and robust sandwich covariance matrix was constructed to account for within participant dependence, logarithm of duration (in years) that each participant spends in each study period matching BE data being analyzed as an offset variable.||0.675|0.224|=0.0008
82440016|NCT03549871|164588127|SUPERIORITY||ABR ratio|0.444|||||TWO_SIDED|95.0|0.234|0.842||||||||0.842|0.234|
82440017|NCT03549871|164588129|SUPERIORITY||ABR ratio|0.485|||||TWO_SIDED|95.0|0.259|0.91||||||||0.910|0.259|
82440018|NCT00737568|164588152|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value for the two-sided Cochran-Mantel-Haenszel test was controlled for strata (HBeAg status and ALT level).|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference between the FTC/TDF and TDF treatment groups. The alternative hypothesis is that there is a difference between the FTC/TDF and TDF treatment groups. These hypotheses were evaluated using a Cochran-Mantel-Haenszel (CMH) test, controlling for randomization strata, with the missing = failure method in which participants with missing data were considered to have failed to achieve the endpoint.||||0.43
82440019|NCT01133626|164588165|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower limit of a two-sided 95% CI for the geometric mean ratio of BDP HFA 320 mcg/day to placebo was greater than 0.80.|geometric mean ratio|0.96|||||TWO_SIDED|95.0|0.87|1.06|||ANCOVA|||||1.06|0.87|
82440020|NCT00759356|164588166|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|Mean ratio|109.8||||||90.0|95.3|126.5|||ANOVA|||||126.5|95.3|
82562684|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.768|TWO_SIDED|95.0|-2.24|3.03||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||3.03|-2.24|0.768
82440021|NCT00759356|164588168|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.5||||||90.0|95.6|107.9|||ANOVA|||||107.9|95.6|
82440022|NCT00759356|164588169|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.7||||||90.0|95.9|107.9|||ANOVA|log-transformation||||107.9|95.9|
82440023|NCT03054350|164588232|SUPERIORITY||Least squares mean difference|1.19|STANDARD_ERROR_OF_MEAN|0.314||0.0004|TWO_SIDED|95.0|0.56|1.82|||ANCOVA|The analysis of covariance (ANCOVA) model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||1.82|0.56|0.0004
82440024|NCT03054350|164588232|SUPERIORITY||Least squares mean difference|1.56|STANDARD_ERROR_OF_MEAN|0.315|<|0.0001|TWO_SIDED|95.0|0.93|2.19|||ANCOVA|The ANCOVA model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.19|0.93|<0.0001
82440025|NCT03054350|164588232|SUPERIORITY||Least squares mean difference|1.89|STANDARD_ERROR_OF_MEAN|0.326|<|0.0001|TWO_SIDED|95.0|1.23|2.54|||ANCOVA|The ANCOVA model includes treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.54|1.23|<0.0001
82440026|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.122||0.0232|TWO_SIDED|95.0|0.04|0.54|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups;1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.54|0.04|0.0232
82440027|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.121||0.0033|TWO_SIDED|95.0|0.13|0.62|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.62|0.13|0.0033
82440028|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.12||0.0002|TWO_SIDED|95.0|0.26|0.74|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.74|0.26|0.0002
82440029|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.3289|TWO_SIDED|94.0|-0.01|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.01|0.3289
82440030|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.007||0.2607|TWO_SIDED|95.0|-0.01|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.01|0.2607
82440031|NCT03054350|164588238|SUPERIORITY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.007||0.0252|TWO_SIDED|95.0|0.0|0.03|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.03|0.00|0.0252
82440032|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|3.31|STANDARD_ERROR_OF_MEAN|1.303||0.0154|TWO_SIDED|95.0|0.67|5.94|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||5.94|0.67|0.0154
82440033|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|4.61|STANDARD_ERROR_OF_MEAN|1.261||0.0008|TWO_SIDED|95.0|2.06|7.16|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||7.16|2.06|0.0008
82440034|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|5.93|STANDARD_ERROR_OF_MEAN|1.296|<|0.0001|TWO_SIDED|95.0|3.31|8.56|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||8.56|3.31|<0.0001
82440035|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.273||0.3572|TWO_SIDED|95.0|-0.3|0.81|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.81|-0.30|0.3572
82440036|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.252||0.4758|TWO_SIDED|95.0|-0.33|0.69|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.69|-0.33|0.4758
82440037|NCT03054350|164588240|SUPERIORITY||Least squares mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.254||0.2048|TWO_SIDED|95.0|-0.19|0.84|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.84|-0.19|0.2048
82440038|NCT03054350|164588242|SUPERIORITY|||||||0.9373|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.9373
82440039|NCT03054350|164588242|SUPERIORITY|||||||0.6623|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.6623
82440040|NCT03054350|164588242|SUPERIORITY|||||||0.9374|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.9374
82440041|NCT03054350|164588242|SUPERIORITY|||||||0.2085|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.2085
82440042|NCT03054350|164588242|SUPERIORITY|||||||0.0016|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0016
82500674|NCT00754624|164692247|SUPERIORITY_OR_OTHER||Slope|-0.311|||||TWO_SIDED|95.0|-0.454|-0.168|||Random Coefficient|Adjusted for Baseline DLCo value||A random coefficient model with a random intercept and slope associated with each subject, was fitted (using the PROC MIXED procedure in SAS) to the observed DLco data to estimate the annual rate of decline. The model included terms for baseline DLco and time (in years) of DLco measurements. Missing pulmonary functions were not imputed.||-0.168|-0.454|
82440043|NCT03054350|164588242|SUPERIORITY|||||||0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0001
82440044|NCT03054350|164588244|SUPERIORITY|||||||0.2708|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.2708
82440045|NCT03054350|164588244|SUPERIORITY|||||||0.0966|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.0966
82440046|NCT03054350|164588244|SUPERIORITY|||||||0.0424|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.0424
82440047|NCT03054350|164588246|SUPERIORITY|||||||0.0207|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0207
82440048|NCT03054350|164588246|SUPERIORITY|||||||0.0022|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0022
82440049|NCT03054350|164588246|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||<0.0001
82440050|NCT03054350|164588246|SUPERIORITY|||||||0.0062|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0062
82440051|NCT03054350|164588246|SUPERIORITY|||||||0.0002|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0002
82440052|NCT03054350|164588246|SUPERIORITY||||||<|0.0001||||||test of treatment group difference based on ANCOVA model|ANCOVA|||Hepcidin||||<0.0001
82440053|NCT03730961|164588293|SUPERIORITY|Drug - placebo|Mean Difference (Net)|-448.0||||0.0021|TWO_SIDED|95.0|-714.0|-183.0|||t-test, 2 sided|||||-183|-714|0.0021
82440054|NCT03730961|164588293|SUPERIORITY|Percent change Drug - placebo|Mean Difference (Net)|-22.1||||0.0222|TWO_SIDED|95.0|-40.7|-3.51|||t-test, 2 sided|||||-3.51|-40.7|0.0222
82440055|NCT03730961|164588294|SUPERIORITY|Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|-4.25||||0.0163|TWO_SIDED|95.0|-7.63|-0.876|||t-test, 2 sided|||||-0.876|-7.63|0.0163
82440056|NCT03730961|164588294|SUPERIORITY|Percent change Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|-15.0||||0.2018|TWO_SIDED|95.0|-38.8|8.77|||t-test, 2 sided|||||8.77|-38.8|0.2018
82440057|NCT03730961|164588294|SUPERIORITY|Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|-3.61||||0.0526|TWO_SIDED|95.0|-7.27|0.0446|||t-test, 2 sided|||||0.0446|-7.27|0.0526
82440058|NCT03730961|164588294|SUPERIORITY|Percent change Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|-14.9||||0.2076|TWO_SIDED|95.0|-38.8|9.0|||t-test, 2 sided|||||9|-38.8|0.2076
82440059|NCT03730961|164588295|SUPERIORITY|Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|0.431||||0.1621|TWO_SIDED|95.0|-0.189|1.05|||t-test, 2 sided|||||1.05|-0.189|0.1621
82440060|NCT03730961|164588295|SUPERIORITY|Percent change Drug - placebo, 0-4 hours after furosemide|Mean Difference (Net)|32.0||||0.0338|TWO_SIDED|95.0|2.72|61.3|||t-test, 2 sided|||||61.3|2.72|0.0338
82440061|NCT03730961|164588295|SUPERIORITY|Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|0.766||||0.06|TWO_SIDED|95.0|-0.0353|1.57|||t-test, 2 sided|||||1.57|-0.0353|0.0600
82440062|NCT03730961|164588295|SUPERIORITY|Percent change Drug - placebo, 0-8 hours after start of infusion|Mean Difference (Net)|33.5||||0.028|TWO_SIDED|95.0|4.02|63.0|||t-test, 2 sided|||||63|4.02|0.0280
82440063|NCT03730961|164588298|SUPERIORITY||Difference between drug and placebo|-4.0|STANDARD_DEVIATION|4.74||||||||||||||||
82440064|NCT05894538|164588322|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.92|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.92|
82440065|NCT05894538|164588323|SUPERIORITY|Due to the low event rate, a posterior probability was not estimated.|Hazard Ratio (HR)|3.57|||||TWO_SIDED|95.0|0.74|17.18|||||Low event rate precluded covariate adjustment.|||17.18|0.74|
82440066|NCT05894538|164588326|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.6|1.45|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.45|0.60|
82440067|NCT05894538|164588330|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||0.96|0.61|
82440068|NCT05894538|164588330|OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.49|0.85|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||0.85|0.49|
82440069|NCT05894538|164588330|OTHER||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||0.92|0.52|
82440070|NCT05894538|164588330|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.72|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.36|0.72|
82440071|NCT05894538|164588331|OTHER||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|1.03|1.56|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.56|1.03|
82440072|NCT05894538|164588331|OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|1.0|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.51|1.00|
82440073|NCT05894538|164588331|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.87|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.35|0.87|
82440074|NCT05894538|164588331|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.86|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.32|0.86|
82440075|NCT05894538|164588332|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.81|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.26|0.81|
82440076|NCT05894538|164588332|OTHER||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|1.0|1.66|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.66|1.00|
82440077|NCT05894538|164588332|OTHER||Odds Ratio (OR)|1.52|||||TWO_SIDED|95.0|1.15|2.02|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||2.02|1.15|
82440078|NCT05894538|164588332|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.86|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.47|0.86|
82440079|NCT05894538|164588333|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.76|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.24|0.76|
82440080|NCT05894538|164588333|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.75|1.3|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.30|0.75|
82440081|NCT05894538|164588333|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.25|0.72|
82440082|NCT05894538|164588333|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.28|0.75|
82440083|NCT05894538|164588334|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.33|0.84|
82440084|NCT05894538|164588334|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.87|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.43|0.87|
82440085|NCT05894538|164588334|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.91|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.55|0.91|
82440086|NCT05894538|164588334|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.26|0.75|
82440087|NCT05894538|164588335|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.79|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.20|0.79|
82440088|NCT05894538|164588335|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.63|1.02|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.02|0.63|
82440089|NCT05894538|164588335|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.69|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.69|
82440090|NCT05894538|164588335|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.35|0.84|
82440091|NCT05894538|164588336|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.78|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.19|0.78|
82440092|NCT05894538|164588336|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.92|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.39|0.92|
82440093|NCT05894538|164588336|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.91|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.36|0.91|
82440094|NCT05894538|164588336|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.82|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.21|0.82|
82440095|NCT05894538|164588337|SUPERIORITY||Difference in model estimate time unwell|-0.04|||||TWO_SIDED|95.0|-0.39|0.32|||||The interval is a highest-density credible interval.|||0.32|-0.39|
82440096|NCT02323204|164588339|OTHER|||||||0.6298|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.6298
82440097|NCT02323204|164588339|OTHER|||||||0.2341|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2341
82440098|NCT02323204|164588340|OTHER|||||||0.7893|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7893
82440099|NCT02323204|164588340|OTHER|||||||0.2951|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2951
82440100|NCT02323204|164588341|OTHER|||||||0.7166|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7166
82440101|NCT02323204|164588341|OTHER|||||||0.4501|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.4501
82443437|NCT04557787|164595219|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.626|TWO_SIDED|95.0|-0.39|0.65||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.65|-0.39|0.626
82440102|NCT02323204|164588342|OTHER|||||||0.6756|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.6756
82440103|NCT02323204|164588342|OTHER|||||||0.5381|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.5381
82440104|NCT02323204|164588343|OTHER|||||||0.1507|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.1507
82440105|NCT02323204|164588343|OTHER|||||||0.0769|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0769
82440106|NCT02323204|164588344|OTHER|||||||0.0654|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0654
82440107|NCT02323204|164588344|OTHER|||||||0.7957|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.7957
82440108|NCT02323204|164588345|OTHER|||||||0.0286|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0286
82440109|NCT02323204|164588345|OTHER|||||||0.0201|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0201
82440110|NCT02323204|164588346|OTHER|||||||0.9928|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.9928
82440111|NCT02323204|164588346|OTHER|||||||0.0982|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0982
82440112|NCT02323204|164588347|OTHER|||||||0.0325|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.0325
82440113|NCT02323204|164588347|OTHER|||||||0.2568|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.2568
82624050|NCT02259127|164963472|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.997|TWO_SIDED|95.0|0.14|7.13|||Regression, Cox|||"Statistical Analysis Title: Adjusted time to first event (ODYSSEY B \>=14kg)~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||7.13|0.14|= 0.997
82440114|NCT02323204|164588348|OTHER|||||||0.5824|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.5824
82522908|NCT02954354|164741242|SUPERIORITY||Difference|6.8||||0.6623||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Cough||||0.6623
82440115|NCT02323204|164588348|OTHER|||||||0.4635|||||||Wald 2-sided t-test|||"A Generalized Linear Mixed Model (GLMM) with log link and gamma distribution was fit to five imputed data sets. Obtained estimates and standard errors were adjusted accordingly.~A comparison of intervention efficacy was made through the intervention-time interaction effect included in the model. Statistical significance of the interaction effect is indicative of a difference in effect between interventions over time."||||0.4635
82440116|NCT02323204|164588349|OTHER|||||||0.7949|||||||Wald 2-sided t-test|||A Generalized Linear Mixed Model (GLMM) with cumulative logit link and multinomial distribution was fit to the data. A comparison of implementation over time between interventions was made through the intervention-time interaction effect included in the model. Significance in the interaction effect is indicative of a difference in the rate of change in implementation between interventions over time.||||0.7949
82440117|NCT02323204|164588349|OTHER|||||||0.0003|||||||Wald 2-sided t-test|||A Generalized Linear Mixed Model (GLMM) with cumulative logit link and multinomial distribution was fit to the data. A comparison of implementation between interventions was made through the intervention main effect included in the model. The model at hand does not contain an interaction between intervention and time. Significance in the main intervention effect is indicative of a difference in implementation between intervention groups.||||0.0003
82440118|NCT02752958|164588374|OTHER||Mean Difference (Final Values)|5.89||||0.0944|TWO_SIDED|95.0|-1.018|12.8|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus Week 4 score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (Baseline ) versus (vs.) Week 4||12.80|-1.018|0.0944
82440119|NCT02752958|164588375|OTHER||Mean Difference (Final Values)|16.99|||<|0.0001|TWO_SIDED|95.0|10.128|23.849|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 8||23.849|10.128|<0.0001
82440120|NCT02752958|164588376|OTHER||Mean Difference (Final Values)|22.7|||<|0.0001|TWO_SIDED|95.0|15.87|29.539|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 12||29.539|15.870|<0.0001
82440121|NCT02752958|164588377|OTHER||Mean Difference (Final Values)|27.21|||<|0.0001|TWO_SIDED|95.0|20.245|34.165|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 16||34.165|20.245|<0.0001
82440122|NCT02752958|164588378|OTHER||Mean Difference (Final Values)|31.42|||<|0.0001|TWO_SIDED|95.0|24.464|38.385|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.||Week 0 Vs Week 20||38.385|24.464|<.0001
82440123|NCT02752958|164588379|OTHER||Mean Difference (Final Values)|32.55|||<|0.0001|TWO_SIDED|95.0|25.585|39.506|||ANOVA|From ANOVA model with visit and site as fixed effect and participant as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 (baseline) vs. Week 24||39.506|25.585|<.0001
82440124|NCT02752958|164588380|OTHER||Mean Difference (Final Values)|1.18||||0.0312|TWO_SIDED|95.0|0.108|2.262|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 4||2.262|0.108|0.0312
82440125|NCT02752958|164588381|OTHER||Mean Difference (Final Values)|2.8|||<|0.0001|TWO_SIDED|95.0|1.728|3.866|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 8||3.866|1.728|<.0001
82440126|NCT02752958|164588382|OTHER||Mean Difference (Final Values)|3.26|||<|0.0001|TWO_SIDED|95.0|2.192|4.322|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 12||4.322|2.192|<.0001
82440127|NCT02752958|164588383|OTHER||Mean Difference (Final Values)|3.93|||<|0.0001|TWO_SIDED|95.0|2.844|5.012|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||5.012|2.844|<.0001
82440128|NCT02752958|164588384|OTHER||Mean Difference (Final Values)|4.15|||<|0.0001|TWO_SIDED|95.0|3.063|5.232|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||5.232|3.063|<.0001
82440129|NCT02752958|164588385|OTHER||Mean Difference (Final Values)|4.74|||<|0.0001|TWO_SIDED|95.0|3.654|5.823|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||5.823|3.654|<.0001
82440130|NCT02752958|164588386|OTHER||Mean Difference (Final Values)|1.11||||0.4185|TWO_SIDED|95.0|-1.592|3.821|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline|Week 0 Vs Week 4||3.821|-1.592|0.4185
82440131|NCT02752958|164588387|OTHER||Mean Difference (Final Values)|7.08|||<|0.0001|TWO_SIDED|95.0|4.391|9.764|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||9.764|4.391|<.0001
82440132|NCT02752958|164588388|OTHER||Mean Difference (Final Values)|8.35|||<|0.0001|TWO_SIDED|95.0|5.674|11.026|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Valu|Week 0 Vs Week 12||11.026|5.674|<.0001
82440133|NCT02752958|164588389|OTHER|Week 0 Vs Week 16|Mean Difference (Final Values)|10.43|||<|0.0001|TWO_SIDED|95.0|7.708|13.158|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||13.158|7.708|<.0001
82500675|NCT01529346|164692263|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.38|0.22||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.22|-0.38|
82500676|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.2|0.39||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.39|-0.20|
82500677|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.28|0.32||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.32|-0.28|
82500678|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.41|0.24||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.24|-0.41|
82500679|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.32|0.44||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.44|-0.32|
82440134|NCT02752958|164588390|OTHER||Mean Difference (Final Values)|11.73|||<|0.0001|TWO_SIDED|95.0|9.008|14.459|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||14.459|9.008|<.0001
82440135|NCT02752958|164588391|OTHER||Mean Difference (Final Values)|11.96|||<|0.0001|TWO_SIDED|95.0|9.235|14.686|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||14.686|9.235|<.0001
82440136|NCT02752958|164588392|OTHER||Mean Difference (Final Values)|0.57||||0.3415|TWO_SIDED|95.0|-0.604|1.738|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 4||1.738|-0.604|0.3415
82500680|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.01|0.77||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|0.01|
82500681|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.22|0.54||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.54|-0.22|
82500682|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.24|1.07||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.07|0.24|
82500683|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.37|0.42||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.42|-0.37|
82500684|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.0|0.78||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.78|-0.00|
82500685|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.29|0.5||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.50|-0.29|
82500686|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|0.59|1.45||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.45|0.59|
82500687|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.21|0.62||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.21|
82500688|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.07|0.76||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.76|-0.07|
82500689|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.11|0.72||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.72|-0.11|
82500690|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|0.85|1.75||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.75|0.85|
82500691|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.04|0.81||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.81|-0.04|
82500692|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.1|0.75||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.75|-0.10|
82500693|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.05|0.81||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.81|-0.05|
82500694|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.69|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|1.22|2.15||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.15|1.22|
82500695|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.01|0.99||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.99|0.01|
82500696|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.05|1.03||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.03|0.05|
82500697|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.04|0.94||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.94|-0.04|
82500698|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.79|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|1.26|2.31||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.31|1.26|
82500699|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.06|1.11||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.11|0.06|
82500700|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.11|1.17||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.17|0.11|
82500701|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|0.11|1.15||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.15|0.11|
82500702|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|1.33|2.4||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.40|1.33|
82500703|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.07|1.05||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.05|-0.07|
82500704|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.24|0.91||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.91|-0.24|
82440137|NCT02752958|164588393|OTHER||Mean Difference (Final Values)|1.77||||0.0029|TWO_SIDED|95.0|0.61|2.935|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline|Week 0 Vs Week 8||2.935|0.610|0.0029
82440138|NCT02752958|164588394|OTHER||Mean Difference (Final Values)|2.42|||<|0.0001|TWO_SIDED|95.0|1.266|3.582|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||3.582|1.266|<0.0001
82500705|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.13|0.98||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.98|-0.13|
82500706|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|1.05|2.17||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||2.17|1.05|
82500707|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-0.74|0.64||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.64|-0.74|
82500708|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.86|0.56||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.56|-0.86|
82500709|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-0.57|0.8||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.80|-0.57|
82500710|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|0.22|1.58||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.58|0.22|
82500711|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|90.0|-0.93|0.59||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.59|-0.93|
82500712|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.98|0.62||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.98|
82500713|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.05|0.45||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-1.05|
82500714|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-0.47|1.02||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.02|-0.47|
82500715|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|0.15|1.11||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.11|0.15|
82500716|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.27|0.74||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.74|-0.27|
82624051|NCT02259127|164963473|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.07|||=|0.015|TWO_SIDED|95.0|-0.12|-0.01|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Diff in adj. KM estimates (\>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 677~Analysis Specification: Pre-specified"||-0.01|-0.12|= 0.015
82624052|NCT02259127|164963473|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.172|||=|0.075|TWO_SIDED|95.0|-0.362|0.029|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for trial cohort (ODYSSEY A or ODYSSEY B)|"Statistical Analysis Title: Adjusted difference (frequentist \<14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 85~Analysis Specification: Pre-specified"||0.029|-0.362|= 0.075
82624053|NCT02259127|164963473|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.126|||=|0.004|TWO_SIDED|95.0|-0.21|-0.036|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 295~Analysis Specification: Pre-specified"||-0.036|-0.21|= 0.004
82624054|NCT02259127|164963473|NON_INFERIORITY|"\>=14kg cohort: Non-inferiority margin 10% in total population and 12% in ODYSSEY A/ODYSSEY B.~\<14kg cohort: power for efficacy was not prespecified for this cohort."|Risk Difference (RD)|-0.023|||=|0.547|TWO_SIDED|95.0|-0.096|0.056|||Bootstrap method||The probability of having virological or clinical treatment failure by 96 weeks (per protocol analysis) was estimated using Kaplan-Meier curves adjusted for stratification factors.|"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Difference in adjusted (for stratification factors) Kaplan-Meier survival function estimates at 96 weeks after randomisation.~Number of subjects included in analysis: 382~Analysis Specification: Pre-specified"||0.056|-0.096|= 0.547
82624055|NCT02259127|164963488|SUPERIORITY||Mean Difference (Final Values)|1.0|||=|0.004|TWO_SIDED|95.0|0.3|1.7|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||1.7|0.3|= 0.004
82624056|NCT02259127|164963488|SUPERIORITY||Mean Difference (Final Values)|1.4|||=|0.024|TWO_SIDED|95.0|0.2|2.5|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of weight at week 96, adjusting for randomised arm, baseline weight and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||2.5|0.2|= 0.024
82624057|NCT02259127|164963488|SUPERIORITY||Mean Difference (Final Values)|0.8|||=|0.075|TWO_SIDED|95.0|-0.1|1.6|||Regression, Linear|||"Statistical Analysis Title: Adjusting Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of weight at week 96, adjusting for randomised arm, baseline weight and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||1.6|-0.1|= 0.075
82624058|NCT02259127|164963488|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.8|0.5|||Regression, Linear|||||0.5|-0.8|0.67
82624059|NCT02259127|164963489|SUPERIORITY||Mean Difference (Final Values)|0.13|||=|0.036|TWO_SIDED|95.0|0.01|0.25|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (\>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 707~Analysis Specification: Pre-specified"||0.25|0.01|= 0.036
82624060|NCT02259127|164963489|SUPERIORITY||Mean Difference (Final Values)|0.17|||=|0.092|TWO_SIDED|95.0|-0.03|0.36|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY A \>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 311~Analysis Specification: Pre-specified"||0.36|-0.03|=0.092
82624061|NCT02259127|164963489|SUPERIORITY||Mean Difference (Final Values)|0.1|||=|0.176|TWO_SIDED|95.0|-0.05|0.25|||Regression, Linear|||"Statistical Analysis Title: Adjusted Difference (ODYSSEY B \>=14kg)~Statistical analysis description: Linear regression of BMI-for-age at week 96, adjusting for randomised arm, baseline BMI-for-age and stratification factors. Presenting mean difference between arms.~Number of subjects included in analysis: 396~Analysis Specification: Pre-specified"||0.25|-0.05|=0.176
82624062|NCT02259127|164963489|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.5|TWO_SIDED|95.0|-1.1|0.5|||Regression, Linear|||||0.5|-1.1|0.50
82624063|NCT00719862|164963490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_DEVIATION|0.3782||0.005||95.0|-1.8|-0.31|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.31|-1.80|0.005
82440139|NCT02752958|164588395|OTHER||Mean Difference (Final Values)|3.55|||<|0.0001|TWO_SIDED|95.0|2.371|4.729|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 16||4.729|2.371|<.0001
82500717|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.03|0.91||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.91|-0.03|
82500718|NCT01529346|164692263|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.3|0.67||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.67|-0.30|
82500719|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.19|0.14||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.14|-0.19|
82500720|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|0.03|0.37||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.37|0.03|
82500721|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.1|0.24||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.24|-0.10|
82500722|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.16|0.21||||||15 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.21|-0.16|
82440140|NCT02752958|164588396|OTHER||Mean Difference (Final Values)|4.39|||<|0.0001|TWO_SIDED|95.0|3.21|5.568|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||5.568|3.210|<0.0001
82440141|NCT02752958|164588397|OTHER||Mean Difference (Final Values)|4.3|||<|0.0001|TWO_SIDED|95.0|3.119|5.477|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||5.477|3.119|<0.0001
82440142|NCT02752958|164588398|OTHER||Mean Difference (Final Values)|2.42||||0.0145|TWO_SIDED|95.0|0.483|4.352|||ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||4.352|0.483|0.0145
82440143|NCT02752958|164588399|OTHER||Mean Difference (Final Values)|4.42|||<|0.0001|TWO_SIDED|95.0|2.498|6.339|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||6.339|2.498|<0.0001
82440144|NCT02752958|164588400|OTHER||Mean Difference (Final Values)|6.85|||<|0.0001|TWO_SIDED|95.0|4.933|8.759|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||8.759|4.933|<0.0001
82440145|NCT02752958|164588401|OTHER||Mean Difference (Final Values)|7.17|||<|0.0001|TWO_SIDED|95.0|5.219|9.115|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||9.115|5.219|<.0001
82440146|NCT02752958|164588402|OTHER||Mean Difference (Final Values)|8.39|||<|0.0001|TWO_SIDED|95.0|6.438|10.335|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||10.335|6.438|<0.0001
82440147|NCT02752958|164588403|OTHER||Mean Difference (Final Values)|8.67|||<|0.0001|TWO_SIDED|95.0|6.726|10.623|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 24||10.623|6.726|<0.0001
82440148|NCT02752958|164588404|OTHER||Mean Difference (Final Values)|0.63||||0.3676|TWO_SIDED|95.0|-0.738|1.989|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.989|-0.738|0.3676
82562685|NCT00696241|164835058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.043|TWO_SIDED|95.0|-5.34|-0.09||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-0.09|-5.34|0.043
82500723|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.06|0.45||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-0.06|
82440149|NCT02752958|164588405|OTHER||Mean Difference (Final Values)|0.9||||0.1907|TWO_SIDED|95.0|-0.451|2.255|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 8||2.255|-0.451|0.1907
82440150|NCT02752958|164588406|OTHER||Mean Difference (Final Values)|1.81||||0.0085|TWO_SIDED|95.0|0.467|3.162|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 12||3.162|0.467|0.0085
82500724|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.19|0.7||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.70|0.19|
82500725|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.04|0.54||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.54|0.04|
82500726|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.32|0.87||||||30 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.87|0.32|
82500727|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.16|0.4||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.40|-0.16|
82500728|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.12|0.68||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.68|0.12|
82500729|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.05|0.5||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.50|-0.05|
82500730|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|0.4|1.01||||||45 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.01|0.40|
82500731|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.19|0.4||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.40|-0.19|
82500732|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.1|0.49||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.49|-0.10|
82500733|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.16|0.43||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.43|-0.16|
82440151|NCT02752958|164588407|OTHER||Mean Difference (Final Values)|2.12||||0.0026|TWO_SIDED|95.0|0.744|3.489|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 16||3.489|0.744|0.0026
82440152|NCT02752958|164588408|OTHER||Mean Difference (Final Values)|2.74||||0.0001|TWO_SIDED|95.0|1.371|4.116|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.||Week 0 Vs Week 20||4.116|1.371|0.0001
82500734|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|0.41|1.06||||||60 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.06|0.41|
82500735|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.01|0.64||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.64|0.01|
82500736|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.01|0.62||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.62|-0.01|
82500737|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.08|0.71||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.71|0.08|
82500738|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|90.0|0.92|1.61||||||90 Minutes: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.61|0.92|
82500739|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|0.04|0.76||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.76|0.04|
82500740|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.03|0.69||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.69|-0.03|
82500741|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|0.05|0.77||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|0.05|
82500742|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.92|1.68||||||2 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.68|0.92|
82500743|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.16|0.95||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.95|0.16|
82500744|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.17|0.97||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.97|0.17|
82500745|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.24|1.03||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.03|0.24|
82500746|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|0.97|1.78||||||3 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.78|0.97|
82500747|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.08|0.92||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.92|0.08|
82500748|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.03|0.84||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.84|-0.03|
82500749|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.09|0.93||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.93|0.09|
82500750|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|0.75|1.59||||||4 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.59|0.75|
82500751|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.27|0.72||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.72|-0.27|
82562686|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.78|||<|0.001|TWO_SIDED|95.0|-8.34|-5.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-8.34|<0.001
82500752|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.37|0.65||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.65|-0.37|
82500753|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-0.23|0.77||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.77|-0.23|
82500754|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|0.33|1.31||||||6 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.31|0.33|
82500755|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.24|0.89||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.89|-0.24|
82500756|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-0.25|0.94||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.94|-0.25|
82500757|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.31|0.8||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.80|-0.31|
82500758|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|0.08|1.19||||||8 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||1.19|0.08|
82500759|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|0.07|0.83||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.83|0.07|
82500760|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.36|0.44||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.44|-0.36|
82500761|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.07|0.68||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.68|-0.07|
82500762|NCT01529346|164692264|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.32|0.45||||||24 Hours: repeated measures model included baseline pain intensity, treatment, time, the treatment by time interaction and the time by baseline pain intensity interaction as fixed effects. The unstructured covariance matrix was used to estimate the variances and covariance within participant across time points.||0.45|-0.32|
82500763|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.43|3.71||||||SPID(6): LS mean estimate of the treatment difference along with 90% confidence interval (CI) were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.71|0.43|
82500764|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|1.69|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.05|3.33||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.33|0.05|
82500765|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|2.34|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|90.0|0.69|3.99||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||3.99|0.69|
82562687|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.68|||<|0.001|TWO_SIDED|95.0|-9.24|-6.13||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.13|-9.24|<0.001
82500766|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|6.99|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|5.19|8.79||||||SPID(6): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||8.79|5.19|
82440153|NCT02752958|164588409|OTHER||Mean Difference (Final Values)|2.85|||<|0.0001|TWO_SIDED|95.0|1.477|4.222|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 24||4.222|1.477|<.0001
82440154|NCT02752958|164588410|OTHER||Mean Difference (Final Values)|0.09||||0.2326|TWO_SIDED|95.0|-0.059|0.243|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Valu|Week 0 Vs Week 4||0.243|-0.059|0.2326
82440155|NCT02752958|164588411|OTHER||Mean Difference (Final Values)|0.07||||0.3934|TWO_SIDED|95.0|-0.085|0.216||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||0.216|-0.085|0.3934
82440156|NCT02752958|164588412|OTHER||Mean Difference (Final Values)|0.13||||0.0795|TWO_SIDED|95.0|-0.016|0.284|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||0.284|-0.016|0.0795
82440157|NCT02752958|164588413|OTHER||Mean Difference (Final Values)|0.14||||0.0682|TWO_SIDED|95.0|-0.011|0.294|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 vs Week 16||0.294|-0.011|0.0682
82440158|NCT02752958|164588414|OTHER||Mean Difference (Final Values)|0.13||||0.0844|TWO_SIDED|95.0|-0.018|0.287|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 20||0.287|-0.018|0.0844
82440159|NCT02752958|164588415|OTHER||Mean Difference (Final Values)|0.18||||0.0211|TWO_SIDED|95.0|0.027|0.332|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 24||0.332|0.027|0.0211
82440160|NCT02752958|164588416|OTHER||Mean Difference (Final Values)|0.6||||0.0493|TWO_SIDED|95.0|0.002|1.194|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 4||1.194|0.002|0.0493
82440161|NCT02752958|164588417|OTHER||Mean Difference (Final Values)|1.42|||<|0.0001|TWO_SIDED|95.0|0.83|2.013|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||2.013|0.830|<0.0001
82440162|NCT02752958|164588418|OTHER||Mean Difference (Final Values)|1.87|||<|0.0001|TWO_SIDED|95.0|1.278|2.457||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||2.457|1.278|<0.0001
82440163|NCT02752958|164588419|OTHER||Mean Difference (Final Values)|2.03|||<|0.0001|TWO_SIDED|95.0|1.429|2.629|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 16||2.629|1.429|<.0001
82440164|NCT02752958|164588420|OTHER||Mean Difference (Final Values)|2.34|||<|0.0001|TWO_SIDED|95.0|1.743|2.943|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 20||2.943|1.743|<.0001
82440165|NCT02752958|164588421|OTHER||Mean Difference (Final Values)|2.34|||<|0.0001|TWO_SIDED|95.0|1.743|2.943|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.943|1.743|<.0001
82440166|NCT02752958|164588422|OTHER||Mean Difference (Final Values)|0.88|||<|0.0001|TWO_SIDED|95.0|0.474|1.295|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.295|0.474|<.0001
82440167|NCT02752958|164588423|OTHER||Mean Difference (Final Values)|1.28|||<|0.0001|TWO_SIDED|95.0|0.875|1.69|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||1.690|0.875|<.0001
82500767|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|90.0|1.97|17.63||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||17.63|1.97|
82500768|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|3.55|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|90.0|-4.28|11.37||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||11.37|-4.28|
82500769|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|10.82|STANDARD_ERROR_OF_MEAN|4.76|||TWO_SIDED|90.0|2.97|18.68||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||18.68|2.97|
82440168|NCT02752958|164588424|OTHER||Mean Difference (Final Values)|1.74|||<|0.0001|TWO_SIDED|95.0|1.333|2.145|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 12||2.145|1.333|<.0001
82624064|NCT00719862|164963491|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.2987|STANDARD_DEVIATION|0.1881||0.112||95.0|-0.67|0.07|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.07|-0.67|0.112
82440169|NCT02752958|164588425|OTHER||Mean Difference (Final Values)|1.96|||<|0.0001|TWO_SIDED|95.0|1.545|2.371|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 16||2.371|1.545|<.0001
82440170|NCT02752958|164588426|OTHER||Mean Difference (Final Values)|2.06|||<|0.0001|TWO_SIDED|95.0|1.643|2.469|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||2.469|1.643|<.0001
82440171|NCT02752958|164588427|OTHER||Mean Difference (Final Values)|2.21|||<|0.0001|TWO_SIDED|95.0|1.794|2.62||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.620|1.794|<.0001
82440172|NCT02752958|164588428|OTHER||Mean Difference (Final Values)|1.18|||<|0.0001|TWO_SIDED|95.0|0.703|1.66|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 4||1.660|0.703|<0.0001
82440173|NCT02752958|164588429|OTHER||Mean Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.977|1.926|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 8||1.926|0.977|<.0001
82440174|NCT02752958|164588430|OTHER||Mean Difference (Final Values)|1.95|||<|0.0001|TWO_SIDED|95.0|1.473|2.418|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|"Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice.~Week 0 = Baseline Value"|Week 0 Vs Week 12||2.418|1.473|<.0001
82440175|NCT02752958|164588431|OTHER||Mean Difference (Final Values)|2.33|||<|0.0001|TWO_SIDED|95.0|1.848|2.81|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week16||2.810|1.848|<.0001
82440176|NCT02752958|164588432|OTHER||Mean Difference (Final Values)|2.21|||<|0.0001|TWO_SIDED|95.0|1.732|2.694|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs. Week 20||2.694|1.732|<.0001
82440177|NCT02752958|164588433|OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|2.02|2.982|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 Vs Week 24||2.982|2.020|<.0001
82440178|NCT02752958|164588434|OTHER||Mean Difference (Final Values)|0.43||||0.0786|TWO_SIDED|95.0|-0.05|0.919|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 4||0.919|-0.050|0.0786
82500770|NCT01529346|164692265|SUPERIORITY_OR_OTHER||LS Mean Difference|22.39|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|90.0|13.82|30.97||||||SPID(24): LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model included treatment as a fixed effect and baseline pain intensity as a covariate.||30.97|13.82|
82440179|NCT02752958|164588435|OTHER||Mean Difference (Final Values)|0.69||||0.005|TWO_SIDED|95.0|0.21|1.171|||ANOVA|\[1\] From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 8||1.171|0.210|0.0050
82500771|NCT01529346|164692266|SUPERIORITY_OR_OTHER||LS Mean Difference|12.26|STANDARD_ERROR_OF_MEAN|6.66|||TWO_SIDED|90.0|1.26|23.27||||||LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||23.27|1.26|
82440180|NCT02752958|164588436|OTHER||Mean Difference (Final Values)|1.4|||<|0.0001|TWO_SIDED|95.0|0.918|1.875|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 12||1.875|0.918|<.0001
82440181|NCT02752958|164588437|OTHER||Mean Difference (Final Values)|1.44|||<|0.0001|TWO_SIDED|95.0|0.951|1.926|||ANOVA|\[From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||1.926|0.951|<.0001
82500772|NCT01529346|164692266|SUPERIORITY_OR_OTHER||LS Mean Difference|4.18|STANDARD_ERROR_OF_MEAN|6.66|||TWO_SIDED|90.0|-6.82|15.18||||||LS mean estimate of the treatment difference along with 90% CI were based on an ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||15.18|-6.82|
82440182|NCT02752958|164588438|OTHER||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.678|1.653||From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|ANOVA||Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|Week 0 vs Week 20||1.653|0.678|<.0001
82500773|NCT01529346|164692266|SUPERIORITY_OR_OTHER||LS Mean Difference|12.57|STANDARD_ERROR_OF_MEAN|6.69|||TWO_SIDED|90.0|1.52|23.61||||||||23.61|1.52|
82440183|NCT02752958|164588439|OTHER||Mean Difference (Final Values)|1.56|||<|0.0001|TWO_SIDED|95.0|1.072|2.047|||ANOVA|From ANOVA model with visit and site as fixed effect and subject as random effect. Visit\*site interaction included where significant at 10% level.|Difference is the baseline score minus other weeks score such that a positive difference favour to test dentifrice. Week 0 = Baseline Value|||2.047|1.072|<.0001
82440184|NCT00072293|164588451|NON_INFERIORITY_OR_EQUIVALENCE|As originally designed, target accrual was 1960 patients with analysis planned after 558 events. These targets were based on having 90% power to detect non-inferiority of no axillary dissection with a one-sided statistical signifi cance level of 10% (ie, α=0·10) under the assumption that 5-year disease-free survival with axillary dissection was 70% and defining non-inferiority as a hazard ratio (HR) of less than 1·25 (no axillary dissection relative to axillary dissection).|Hazard Ratio (HR)|0.78||||0.004|TWO_SIDED|95.0|0.55|1.11||Test for non-inferiority of no axillary dissection. Stratified logrank test compared groups. HR (no-AD vs AD) estimated from test statistic and variance as HR=exp(\[O-E\]/V), compared to 1.25 in 1-sided test of non-inferiority.|1-sided non-inferiority test||Hazard Ratio is no axillary dissection/axillary dissection.|||1.11|0.55|0.004
82440185|NCT00072293|164588452|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.73|TWO_SIDED|90.0|0.52|1.54|||Log Rank||Hazard Ratio is no axillary dissection/axillary dissection.|||1.54|0.52|0.73
82440186|NCT00901511|164588465|SUPERIORITY||Median Difference (Final Values)|12.0||||0.0078|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the median time to rescue WLL in the GM-CSF Group minus the median the time to rescue WLL in the Control Group|||||0.0078
82440187|NCT00901511|164588466|SUPERIORITY||Risk Ratio (RR)|7.0||||0.0152|TWO_SIDED|95.0|1.6|39.9|||Fisher Exact||Calculated as risk ratio of rescue WLL in the Control Group compared to the risk ratio of rescue WLL in the GM-CSF Group|||39.9|1.60|0.0152
82440188|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|9.5|||<|0.0001|TWO_SIDED|95.0|5.7|13.3|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean PaO2 in the GM-CSF Group minus the between group difference in mean PaO2 in the Control Group|||13.3|5.7|<0.0001
82440189|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|15.1|STANDARD_ERROR_OF_MEAN|6.16||0.0261|TWO_SIDED|95.0|2.04|28.16|||t-test, 2 sided||Calculated as the difference at the pre-WLL visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the pre-WLL visit after imputation of missing data using a last observation carried forward method.||28.16|2.04|0.0261
82440190|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|9.56|STANDARD_ERROR_OF_MEAN|6.36||0.1521|TWO_SIDED|95.0|3.92|23.03|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||23.03|3.92|0.1521
82440191|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|18.04|STANDARD_ERROR_OF_MEAN|5.56||0.0051|TWO_SIDED|95.0|6.26|29.82|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||29.82|6.26|0.0051
82440192|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|20.26|STANDARD_ERROR_OF_MEAN|4.54||0.0004|TWO_SIDED|95.0|10.63|29.88|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||29.88|10.63|0.0004
82440193|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|19.91|STANDARD_ERROR_OF_MEAN|5.89||0.0038|TWO_SIDED|95.0|7.43|32.4|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||32.40|7.43|0.0038
82440194|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|16.92|STANDARD_ERROR_OF_MEAN|6.15||0.0149|TWO_SIDED|95.0|3.81|30.03|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||30.03|3.81|0.0149
82440195|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|19.02|STANDARD_ERROR_OF_MEAN|6.97||0.0148|TWO_SIDED|95.0|4.26|33.79|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||33.79|4.26|0.0148
82440196|NCT00901511|164588467|SUPERIORITY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|6.62||0.1158|TWO_SIDED|95.0|-3.02|25.02|||t-test, 2 sided|||The secondary analysis includes evaluation of the difference in mean PaO2 between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.|Calculated as the difference at the 30-month visit in the mean PaO2 in the GM-CSF Group minus the mean PaO2 in the Control Group|25.02|-3.02|0.1158
82440197|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.8|-5.4|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of A-aDO2 in the GM-CSF Group minus the mean value of A-aDO2 in the Control Group|Primary analysis||-5.4|-14.8|<0.0001
82624065|NCT00719862|164963492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8617|STANDARD_DEVIATION|0.3803||0.023||95.0|-1.61|-0.12|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.12|-1.61|0.023
82500774|NCT01529346|164692266|SUPERIORITY_OR_OTHER||LS Mean Difference|32.56|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|90.0|20.51|44.61||||||||44.61|20.51|
82440198|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-12.46|STANDARD_ERROR_OF_MEAN|6.0||0.0545|TWO_SIDED|95.0|-25.19|0.27|||t-test, 2 sided||Calculated as the difference at the pre-WLL visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.27|-25.19|0.0545
82440199|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-7.08|STANDARD_ERROR_OF_MEAN|6.34||0.2802|TWO_SIDED|95.0|-20.52|6.35|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||6.35|-20.52|0.2802
82440200|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-16.81|STANDARD_ERROR_OF_MEAN|6.16||0.0148|TWO_SIDED|95.0|-29.85|-3.76|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||-3.76|-29.85|0.0148
82440201|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-18.77|STANDARD_ERROR_OF_MEAN|4.91||0.0015|TWO_SIDED|95.0|-29.18|-8.36|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 3 -month visit after imputation of missing data using a last observation carried forward method.||-8.36|-29.18|0.0015
82440202|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-19.09|STANDARD_ERROR_OF_MEAN|5.85||0.0049|TWO_SIDED|95.0|-31.49|-6.7|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||-6.70|-31.49|0.0049
82440203|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-15.85|STANDARD_ERROR_OF_MEAN|5.84||0.0152|TWO_SIDED|95.0|-28.23|-3.48|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||-3.48|-28.23|0.0152
82440204|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-17.01|STANDARD_ERROR_OF_MEAN|6.27||0.0154|TWO_SIDED|95.0|-30.31|-3.71|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||-3.71|-30.31|0.0154
82440205|NCT00901511|164588468|SUPERIORITY||Mean Difference (Final Values)|-11.01|STANDARD_ERROR_OF_MEAN|6.15||0.0921|TWO_SIDED|95.0|-24.05|2.02|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean A-aDO2 in the GM-CSF Group minus the mean A-aDO2 in the Control Group|The secondary analysis includes evaluation of the difference in mean A-aDO2 between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||2.02|-24.05|0.0921
82440206|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|11.6||||0.022|TWO_SIDED|95.0|1.9|21.3|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of the DLCO in the GM-CSF Group minus the mean value of the DLCO in the Control Group|Primary Analysis||21.3|1.9|0.0220
82440207|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|8.29|STANDARD_ERROR_OF_MEAN|7.96||0.3186|TWO_SIDED|95.0|-9.06|25.63|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||25.63|-9.06|0.3186
82440208|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|5.56|STANDARD_ERROR_OF_MEAN|6.58||0.4111|TWO_SIDED|95.0|-8.4|19.51|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||19.51|-8.40|0.4111
82440209|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|12.89|STANDARD_ERROR_OF_MEAN|6.53||0.0658|TWO_SIDED|95.0|-0.95|26.73|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||26.73|-0.95|0.0658
82440210|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|9.78|STANDARD_ERROR_OF_MEAN|7.81||0.2287|TWO_SIDED|95.0|-6.78|26.34|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||26.34|-6.78|0.2287
82500775|NCT01529346|164692267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.6|1.5||||||Hazard Ratio (HR) estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.5|0.6|
82500776|NCT01529346|164692267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|90.0|0.9|1.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.9|0.9|
82500777|NCT01529346|164692267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.7|1.6||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.6|0.7|
82440211|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|12.86|STANDARD_ERROR_OF_MEAN|8.37||0.1432|TWO_SIDED|95.0|-4.86|30.64|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||30.64|-4.86|0.1432
82440212|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|11.78|STANDARD_ERROR_OF_MEAN|8.47||0.1833|TWO_SIDED|95.0|-6.17|29.73|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||29.73|-6.17|0.1833
82440213|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|12.67|STANDARD_ERROR_OF_MEAN|9.23||0.1888|TWO_SIDED|95.0|-6.9|32.23|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||32.23|-6.90|0.1888
82440214|NCT00901511|164588469|SUPERIORITY||Mean Difference (Final Values)|4.22|STANDARD_ERROR_OF_MEAN|8.79||0.6374|TWO_SIDED|95.0|-14.41|22.85|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean DLCO in the GM-CSF Group minus the mean DLCO in the Control Group|The secondary analysis includes evaluation of the difference in mean DLCO between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||22.85|-14.41|0.6374
82440215|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.532|TWO_SIDED|95.0|-5.3|9.9|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the mean value of VC in the GM-CSF Group minus the mean value of VC in the Control Group|Primary Analysis||9.90|-5.30|0.5320
82500778|NCT01529346|164692267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6|||||TWO_SIDED|90.0|1.0|2.4||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.4|1.0|
82500779|NCT01529346|164692268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|90.0|1.1|3.8||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||3.8|1.1|
82500780|NCT01529346|164692268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6|||||TWO_SIDED|90.0|1.4|4.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||4.9|1.4|
82500781|NCT01529346|164692268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.2|||||TWO_SIDED|90.0|1.1|4.1||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||4.1|1.1|
82500782|NCT01529346|164692268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.3|||||TWO_SIDED|90.0|2.8|9.9||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||9.9|2.8|
82500783|NCT01529346|164692269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|90.0|0.4|1.0||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.0|0.4|
82500784|NCT01529346|164692269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.5|1.2||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.2|0.5|
82500785|NCT01529346|164692269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||||TWO_SIDED|90.0|0.3|0.8||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||0.8|0.3|
82500786|NCT01529346|164692269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|90.0|0.2|0.6||||||HR estimates of the treatment difference along with 90% CI were based on Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||0.6|0.2|
82500787|NCT01493570|164692301|OTHER||Ratio CSF to Plasma in %|28.31||||1|TWO_SIDED|90.0|25.418|31.532||p-value for ratio outside interval 80% - 125%|ANOVA||Intra Individual geometric coefficient of variation (gCV \[%\]) = 17.50 .|Dose-adjusted CSF to plasma ratio for Cmax. The Analysis of Variance (ANOVA) model was used with 'subject nested within treatment' considered as random effect.||31.532|25.418|1.0000
82500788|NCT03103919|164692322|SUPERIORITY||Mean Difference (Final Values)|-4.31|||=|0.134|TWO_SIDED|95.0|-10.04|1.41|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||1.41|-10.04|=0.134
82440216|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|7.55||0.6772|TWO_SIDED|95.0|-13.09|19.52|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||19.52|-13.09|0.6772
82440217|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|6.7||0.832|TWO_SIDED|95.0|-12.52|15.64|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||15.64|-12.52|0.8320
82440218|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|7.82||0.8532|TWO_SIDED|95.0|-15.19|18.14|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||18.14|-15.19|0.8532
82440219|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|7.66||0.7752|TWO_SIDED|95.0|-14.0|18.44|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||18.44|-14.00|0.7752
82440220|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|5.74|STANDARD_ERROR_OF_MEAN|8.65||0.5174|TWO_SIDED|95.0|-12.7|24.18|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean value of VC in the GM-CSF Group minus the mean value of VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||24.18|-12.70|0.5174
82440221|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|3.67|STANDARD_ERROR_OF_MEAN|7.68||0.6393|TWO_SIDED|95.0|-12.61|19.94|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||19.94|-12.61|0.6393
82440222|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|5.22|STANDARD_ERROR_OF_MEAN|8.26||0.5361|TWO_SIDED|95.0|-12.28|22.73|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|The secondary analysis includes evaluation of the difference in mean VC between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||22.73|-12.28|0.5361
82500789|NCT03103919|164692323|SUPERIORITY||Mean Difference (Final Values)|0.01|||=|0.982|TWO_SIDED|95.0|-0.44|0.45|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.45|-0.44|=0.982
82500790|NCT03103919|164692324|SUPERIORITY||Mean Difference (Final Values)|-0.18|||=|0.566|TWO_SIDED|95.0|-0.81|0.45|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.45|-0.81|=0.566
82500791|NCT03103919|164692325|SUPERIORITY||Mean Difference (Final Values)|-0.07|||=|0.72|TWO_SIDED|95.0|-0.5|0.35|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.35|-0.50|=0.720
82500792|NCT03103919|164692326|SUPERIORITY||Mean Difference (Final Values)|0.15|||=|0.443|TWO_SIDED|95.0|-0.24|0.53|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.53|-0.24|=0.443
82500793|NCT03103919|164692327|SUPERIORITY||Mean Difference (Final Values)|-0.09|||=|0.777|TWO_SIDED|95.0|-0.75|0.57|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.57|-0.75|=0.777
82500794|NCT03103919|164692328|SUPERIORITY||Mean Difference (Final Values)|-0.01|||=|0.947|TWO_SIDED|95.0|-0.33|0.31|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.31|-0.33|=0.947
82500795|NCT03103919|164692329|SUPERIORITY||Mean Difference (Final Values)|-0.27|||=|0.306|TWO_SIDED|95.0|-0.79|0.26|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.26|-0.79|=0.306
82500796|NCT03103919|164692330|SUPERIORITY||Mean Difference (Final Values)|0.03|||=|0.819|TWO_SIDED|95.0|-0.25|0.31|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.|The difference presented is Experimental Group (Rotigotine + Standard Care + Kinesia-360™ wearable device FAS) minus Control Group (Rotigotine + Standard Care FAS).|||0.31|-0.25|=0.819
82500797|NCT03103919|164692331|SUPERIORITY||Mean Difference (Final Values)|0.07|||=|0.663|TWO_SIDED|95.0|-0.26|0.41|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.||||0.41|-0.26|=0.663
82500798|NCT03103919|164692332|SUPERIORITY||Mean Difference (Final Values)|-0.2|||=|0.197|TWO_SIDED|95.0|-0.51|0.11|||ANCOVA|The model used an ANCOVA with baseline as a covariate, center as factor, and group as main factor.||||0.11|-0.51|=0.197
82500799|NCT03103919|164692335|SUPERIORITY||Odds Ratio (OR)|1.14|||=|0.876|TWO_SIDED|95.0|0.23|5.66||P-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment and center.|Regression, Logistic||Odds ratio was calculated as Control Group/Experimental Group (Rotigotine + Standard Care SS / Rotigotine + Standard Care + Kinesia-360™ wearable device SS) calculated using logistic regression with factors for treatment and center.|||5.66|0.23|=0.876
82500800|NCT03070782|164692430|SUPERIORITY||Mean Difference in % CFB|-31.0||||0.0032|TWO_SIDED|95.0|-46.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-12|-46|0.0032
82500801|NCT03070782|164692430|SUPERIORITY||Mean Difference in % CFB|-54.0|||<|0.0001|TWO_SIDED|95.0|-64.0|-41.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-41|-64|<.0001
82500802|NCT03070782|164692430|SUPERIORITY||Mean Difference in % CFB|-70.0|||<|0.0001|TWO_SIDED|95.0|-77.0|-62.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-62|-77|<.0001
82500803|NCT03070782|164692430|SUPERIORITY||Mean Difference in % CFB|-56.0|||<|0.0001|TWO_SIDED|95.0|-65.0|-43.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-43|-65|<.0001
82500804|NCT03070782|164692430|SUPERIORITY||Mean Difference in % CFB|-78.0|||<|0.0001|TWO_SIDED|95.0|-83.0|-72.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-72|-83|<.0001
82500805|NCT03070782|164692434|SUPERIORITY||Mean Difference in % CFB|-6.0||||0.4407|TWO_SIDED|95.0|-19.0|9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||9|-19|0.4407
82500806|NCT03070782|164692434|SUPERIORITY||Mean Difference in % CFB|-25.0|||<|0.0001|TWO_SIDED|95.0|-35.0|-13.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-13|-35|<.0001
82500807|NCT03070782|164692434|SUPERIORITY||Mean Difference in % CFB|-14.0||||0.0368|TWO_SIDED|95.0|-26.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-1|-26|0.0368
82500808|NCT03070782|164692434|SUPERIORITY||Mean Difference in % CFB|-16.0||||0.0216|TWO_SIDED|95.0|-28.0|-3.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-3|-28|0.0216
82500809|NCT03070782|164692434|SUPERIORITY||Mean Difference in % CFB|-22.0||||0.0012|TWO_SIDED|95.0|-33.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-33|0.0012
82500810|NCT03070782|164692435|SUPERIORITY||Odds Ratio (OR)|4.98||||0.0286|TWO_SIDED|95.0|1.2|21.0|||Regression, Logistic|||||21.0|1.2|0.0286
82500811|NCT03070782|164692435|SUPERIORITY||Odds Ratio (OR)|31.07|||<|0.0001|TWO_SIDED|95.0|7.3|131.4|||Regression, Logistic|||||131.4|7.3|<.0001
82500812|NCT03070782|164692435|SUPERIORITY||Odds Ratio (OR)|122.81|||<|0.0001|TWO_SIDED|95.0|24.0|627.4|||Regression, Logistic|||||627.4|24.0|<.0001
82500813|NCT03070782|164692435|SUPERIORITY||Odds Ratio (OR)|43.78|||<|0.0001|TWO_SIDED|95.0|9.8|195.0|||Regression, Logistic|||||195.0|9.8|<.0001
82500814|NCT03070782|164692435|SUPERIORITY||Odds Ratio (OR)|1124.56|||<|0.0001|TWO_SIDED|95.0|109.3|11571.0|||Regression, Logistic|||||11571|109.3|<.0001
82500815|NCT03070782|164692436|SUPERIORITY||Odds Ratio (OR)|7.34||||0.2007|TWO_SIDED|95.0|0.3|155.3|||Regression, Logistic|||||155.3|0.3|0.2007
82500816|NCT03070782|164692436|SUPERIORITY||Odds Ratio (OR)|27.92||||0.0258|TWO_SIDED|95.0|1.5|521.5|||Regression, Logistic|||||521.5|1.5|0.0258
82500817|NCT03070782|164692436|SUPERIORITY||Odds Ratio (OR)|113.92||||0.0014|TWO_SIDED|95.0|6.2|2098.5|||Regression, Logistic|||||2098.5|6.2|0.0014
82500818|NCT03070782|164692436|SUPERIORITY||Odds Ratio (OR)|59.85||||0.0063|TWO_SIDED|95.0|3.2|1128.0|||Regression, Logistic|||||1128.0|3.2|0.0063
82500819|NCT03070782|164692436|SUPERIORITY||Odds Ratio (OR)|347.02|||<|0.0001|TWO_SIDED|95.0|18.3|6597.9|||Regression, Logistic|||||6597.9|18.3|<.0001
82500820|NCT03070782|164692437|SUPERIORITY||Mean Difference in % CFB|-4.0||||0.4022|TWO_SIDED|95.0|-12.0|5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||5|-12|0.4022
82500821|NCT03070782|164692437|SUPERIORITY||Mean Difference in % CFB|-16.0|||<|0.0001|TWO_SIDED|95.0|-23.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-23|<.0001
82500822|NCT03070782|164692437|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0323|TWO_SIDED|95.0|-17.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-1|-17|0.0323
82500823|NCT03070782|164692437|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.0157|TWO_SIDED|95.0|-18.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-2|-18|0.0157
82500824|NCT03070782|164692437|SUPERIORITY||Mean Difference in % CFB|-17.0|||<|0.0001|TWO_SIDED|95.0|-24.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-9|-24|<.0001
82500825|NCT03070782|164692438|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.4956|TWO_SIDED|95.0|-32.0|21.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||21|-32|0.4956
82500826|NCT03070782|164692438|SUPERIORITY||Mean Difference in % CFB|-36.0||||0.0027|TWO_SIDED|95.0|-52.0|-14.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-14|-52|0.0027
82500827|NCT03070782|164692438|SUPERIORITY||Mean Difference in % CFB|-54.0|||<|0.0001|TWO_SIDED|95.0|-65.0|-38.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-38|-65|<.0001
82500828|NCT03070782|164692438|SUPERIORITY||Mean Difference in % CFB|-31.0||||0.0114|TWO_SIDED|95.0|-48.0|-8.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-8|-48|0.0114
82500829|NCT03070782|164692438|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-49.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-49|-72|<.0001
82500830|NCT03070782|164692439|SUPERIORITY||Mean Difference in % CFB|-45.0||||0.002|TWO_SIDED|95.0|-62.0|-19.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-19|-62|0.0020
82500831|NCT03070782|164692439|SUPERIORITY||Mean Difference in % CFB|-63.0|||<|0.0001|TWO_SIDED|95.0|-74.0|-46.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-46|-74|<.0001
82500832|NCT03070782|164692439|SUPERIORITY||Mean Difference in % CFB|-82.0|||<|0.0001|TWO_SIDED|95.0|-87.0|-73.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-73|-87|<.0001
82500833|NCT03070782|164692439|SUPERIORITY||Mean Difference in % CFB|-68.0|||<|0.0001|TWO_SIDED|95.0|-78.0|-54.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-54|-78|<.0001
82562688|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||<|0.001|TWO_SIDED|95.0|-9.47|-6.36||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.36|-9.47|<0.001
82624066|NCT00719862|164963493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7395|STANDARD_DEVIATION|0.3305||0.025||95.0|-1.39|-0.09|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline||-0.09|-1.39|0.025
82624067|NCT00719862|164963494|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANOVA|||Change from baseline||||0.051
82624068|NCT04268303|164963522|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82624069|NCT04268303|164963522|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82443438|NCT04557787|164595220|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.03|TWO_SIDED|95.0|0.09|1.64||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.64|0.09|0.030
82443439|NCT04557787|164595220|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.027|TWO_SIDED|95.0|0.11|1.66||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.66|0.11|0.027
82443440|NCT04557787|164595220|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.956|TWO_SIDED|95.0|-0.8|0.75||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.75|-0.80|0.956
82443441|NCT04557787|164595221|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.084|TWO_SIDED|95.0|-0.05|0.78||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.78|-0.05|0.084
82443442|NCT04557787|164595221|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.063|TWO_SIDED|95.0|-0.02|0.81||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.81|-0.02|0.063
82443443|NCT04557787|164595221|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.885|TWO_SIDED|95.0|-0.44|0.38||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.38|-0.44|0.885
82443444|NCT00815191|164595239|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority delta of 0.5°C|Mean Difference (Final Values)|0.091|||<|0.0001|TWO_SIDED|95.0|-0.139|0.321|||ANOVA|Repeated measures ANOVA||||0.321|-0.139|<0.0001
82443445|NCT01241760|164595264|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% confidence interval of the difference in proportions was above the pre-determined non-inferiority margin of -11%, non-inferiority was established.|Difference in proportion of response, %|1.5||||||95.0|-4.9|12.0|||Regression, Logistic|The 95% confidence interval of the difference in proportions was estimated using a logistic regression model.|Observed data|||12|-4.9|
82443446|NCT00897390|164595319|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.042|||||TWO_SIDED|90.0|1.009|1.075||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.075|1.009|
82443447|NCT00897390|164595319|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.988|||||TWO_SIDED|90.0|0.958|1.019||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.019|0.958|
82443448|NCT00897390|164595321|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.045|||||TWO_SIDED|90.0|1.013|1.077||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.077|1.013|
82500834|NCT03070782|164692439|SUPERIORITY||Mean Difference in % CFB|-89.0|||<|0.0001|TWO_SIDED|95.0|-93.0|-84.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-84|-93|<.0001
82500835|NCT00558025|164692448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: -15 %, power: 80%|Risk Difference (RD)|-10.75||||||95.0|-20.51|1.48|||Wilson score interval|||Successfully switched patients||1.48|-20.51|
82500836|NCT00558025|164692448|SUPERIORITY_OR_OTHER|||||||0.0803||95.0|||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.0803
82500837|NCT00558025|164692449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.2061||95.0|-2.8|0.6|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.6|-2.8|0.2061
82500838|NCT00558025|164692450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.4694||95.0|-0.8|0.4|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.4|-0.8|0.4694
82500839|NCT00558025|164692451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.1804||95.0|-2.3|0.4|||ANCOVA|ANCOVA with factors of treatment, country and baseline as covariate||||0.4|-2.3|0.1804
82500840|NCT00558025|164692452|SUPERIORITY_OR_OTHER|||||||0.1623|||||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.1623
82500841|NCT00558025|164692453|SUPERIORITY_OR_OTHER|||||||0.1299|||||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.1299
82500842|NCT00558025|164692454|SUPERIORITY_OR_OTHER|||||||0.619||95.0|||||Cochran-Mantel-Haenszel|test with stratification by country||||||0.6190
82500843|NCT02288559|164692456|SUPERIORITY||Difference in Adjusted Means|0.435||||0.0428|TWO_SIDED|80.0|0.162|0.707|||Mixed-Effect Model Repeated Measures|MMRM analysis variables: treatment group, visit, treatment-by-visit interaction, baseline GA area, and BCVA ETDRS chart Snellen equivalent category.||||0.707|0.162|0.0428
82500844|NCT02288559|164692456|SUPERIORITY||Difference in Adjusted Means|-0.21||||0.3361|TWO_SIDED|80.0|-0.491|0.071|||MMRM|MMRM analysis variables: treatment group, visit, treatment-by-visit interaction, baseline GA area, and BCVA ETDRS chart Snellen equivalent category.||||0.071|-0.491|0.3361
82500845|NCT06073119|164692465|SUPERIORITY||Response rate difference (RRD), %|23.43||||0.0874|TWO_SIDED|95.0|-2.74|45.98||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 200 mg BID - placebo.|||45.98|-2.74|0.0874
82500846|NCT06073119|164692465|SUPERIORITY||RRD, %|33.08||||0.0185|TWO_SIDED|95.0|5.71|54.83||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 100 mg BID - placebo.|||54.83|5.71|0.0185
82500847|NCT06073119|164692465|SUPERIORITY||RRD, %|38.02||||0.0077|TWO_SIDED|95.0|10.62|58.84||A hierarchical testing was used to control the overall type I error of 0.05 (two-sided). Testing was performed in the order of 200 mg BID, 100 mg BID, 200 mg QD versus placebo.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 200 mg QD - placebo.|||58.84|10.62|0.0077
82500848|NCT06073119|164692465|SUPERIORITY||RRD, %|9.35||||0.4576|TWO_SIDED|95.0|-14.72|32.4||No multiplicity adjustment, hence p-value is nominal.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 100 mg QD - placebo.|||32.40|-14.72|0.4576
82500849|NCT06073119|164692465|SUPERIORITY||RRD, %|13.44||||0.3051|TWO_SIDED|95.0|-11.38|36.72||No multiplicity adjustment, hence p-value is nominal.|Cochran-Mantel-Haenszel|Adjusted for baseline PASI score (\<=20, \>20).|Difference = SAR441566 Dose Regimen 50 mg QD - placebo.|||36.72|-11.38|0.3051
82500850|NCT00456547|164692471|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Adjusted for 12 comparisons|t-test, 2 sided|||||||<0.05
82500851|NCT00456547|164692472|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons.|t-test, 2 sided|||||||<0.05
82500852|NCT00456547|164692473|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons|t-test, 2 sided|||||||<0.05
82500853|NCT00456547|164692474|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Corrected for 12 comparisons|Wilcoxon (Mann-Whitney)|||||||<0.05
82500854|NCT05185089|164692536|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.305||0.989|TWO_SIDED|95.0|-0.62|0.63|||ANCOVA|||||0.63|-0.62|0.989
82500855|NCT05185089|164692536|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.293||0.054|TWO_SIDED|95.0|-1.16|0.01|||ANCOVA|||||0.01|-1.16|0.054
82500856|NCT05185089|164692537|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.28||0.872|TWO_SIDED|95.0|-0.52|0.62|||ANCOVA|||||0.62|-0.52|0.872
82500857|NCT05185089|164692537|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.276||0.041|TWO_SIDED|95.0|-1.14|-0.02|||ANCOVA|||||-0.02|-1.14|0.041
82500858|NCT05185089|164692538|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.303||0.991|TWO_SIDED|95.0|-0.61|0.6|||ANCOVA|||||0.60|-0.61|0.991
82500859|NCT05185089|164692538|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.298||0.215|TWO_SIDED|95.0|-0.97|0.22|||ANCOVA|||||0.22|-0.97|0.215
82500860|NCT05185089|164692539|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.291||0.639|TWO_SIDED|95.0|-0.73|0.45|||ANCOVA|||||0.45|-0.73|0.639
82500861|NCT05185089|164692539|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.271||0.092|TWO_SIDED|95.0|-1.0|0.08|||ANCOVA|||||0.08|-1.00|0.092
82500862|NCT05185089|164692540|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.104||0.65|TWO_SIDED|95.0|-0.17|0.26|||ANCOVA|||||0.26|-0.17|0.650
82500863|NCT05185089|164692540|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.085||0.01|TWO_SIDED|95.0|-0.41|-0.06|||ANCOVA|||||-0.06|-0.41|0.010
82500864|NCT05185089|164692541|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.856|TWO_SIDED|95.0|-0.44|0.53|||ANCOVA|||||0.53|-0.44|0.856
82500865|NCT05185089|164692541|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.21||0.036|TWO_SIDED|95.0|-0.87|-0.03|||ANCOVA|||||-0.03|-0.87|0.036
82500866|NCT05185089|164692542|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.462||0.678|TWO_SIDED|95.0|-0.73|1.11|||ANCOVA|||||1.11|-0.73|0.678
82500867|NCT05185089|164692542|SUPERIORITY||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.525||0.025|TWO_SIDED|95.0|0.16|2.31|||ANCOVA|||||2.31|0.16|0.025
82500868|NCT05185089|164692543|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.143||0.633|TWO_SIDED|95.0|-0.22|0.35|||ANCOVA|||||0.35|-0.22|0.633
82500869|NCT05185089|164692543|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.139||0.063|TWO_SIDED|95.0|-0.02|0.56|||ANCOVA|||||0.56|-0.02|0.063
82500870|NCT05185089|164692544|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.185||0.732|TWO_SIDED|95.0|-0.44|0.31|||ANCOVA|||||0.31|-0.44|0.732
82500871|NCT05185089|164692544|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.214||0.044|TWO_SIDED|95.0|0.01|0.89|||ANCOVA|||||0.89|0.01|0.044
82500872|NCT05185089|164692545|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.19||0.318|TWO_SIDED|95.0|-0.19|0.58|||ANCOVA|||||0.58|-0.19|0.318
82500873|NCT05185089|164692545|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.228||0.03|TWO_SIDED|95.0|0.05|0.98|||ANCOVA|||||0.98|0.05|0.030
82500874|NCT05185089|164692546|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.105||0.438|TWO_SIDED|95.0|0.88|1.33|||ANCOVA|||||1.33|0.88|0.438
82500875|NCT05185089|164692546|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.04|STANDARD_ERROR_OF_MEAN|1.122||0.761|TWO_SIDED|95.0|0.82|1.31|||ANCOVA|||||1.31|0.82|0.761
82500876|NCT05185089|164692547|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.108||0.449|TWO_SIDED|95.0|0.88|1.34|||ANCOVA|||||1.34|0.88|0.449
82500877|NCT05185089|164692547|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.04|STANDARD_ERROR_OF_MEAN|1.125||0.732|TWO_SIDED|95.0|0.82|1.32|||ANCOVA|||||1.32|0.82|0.732
82500878|NCT05185089|164692548|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.14|STANDARD_ERROR_OF_MEAN|1.161||0.4|TWO_SIDED|95.0|0.84|1.54|||ANCOVA|||||1.54|0.84|0.400
82500879|NCT05185089|164692548|SUPERIORITY||Ratio of Geometric LS Mean Ratios|0.98|STANDARD_ERROR_OF_MEAN|1.187||0.912|TWO_SIDED|95.0|0.69|1.4|||ANCOVA|||||1.40|0.69|0.912
82500880|NCT05185089|164692549|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.09|STANDARD_ERROR_OF_MEAN|1.084||0.287|TWO_SIDED|95.0|0.93|1.29|||ANCOVA|||||1.29|0.93|0.287
82500881|NCT05185089|164692549|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.08|STANDARD_ERROR_OF_MEAN|1.092||0.42|TWO_SIDED|95.0|0.9|1.29|||ANCOVA|||||1.29|0.90|0.420
82624070|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
82500882|NCT05185089|164692550|SUPERIORITY||Ratio of Geometric LS Mean Ratios|1.01|STANDARD_ERROR_OF_MEAN|1.022||0.765|TWO_SIDED|95.0|0.96|1.05|||ANCOVA|||||1.05|0.96|0.765
82500883|NCT05185089|164692550|SUPERIORITY||Ratio of Geometric LS Mean Ratios|0.9|STANDARD_ERROR_OF_MEAN|1.033||0.004|TWO_SIDED|95.0|0.85|0.97|||ANCOVA|||||0.97|0.85|0.004
82500884|NCT00667368|164692551|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.9||||0.754|TWO_SIDED|95.0|-12.0|10.1|||Two-sample test, Poisson||The risk difference reflects the treatment arm minus the control arm. The units are the number of positive tests for chlamydia and gonorrhea per 100 person-years.|||10.1|-12.0|0.754
82500885|NCT00667368|164692552|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82440223|NCT00901511|164588470|SUPERIORITY||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|7.04||0.8159|TWO_SIDED|95.0|-13.26|16.6|||t-test, 2 sided|||The secondary analysis includes evaluation of the difference in mean VC between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.|Calculated as the difference at the 30-month visit in the mean VC in the GM-CSF Group minus the mean VC in the Control Group|16.60|-13.26|0.8159
82440224|NCT00901511|164588471|SUPERIORITY||Mean Difference (Final Values)|-0.822||||0.053|TWO_SIDED|95.0|-1.7|0.01|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the median value of the GGO Score in the GM-CSF Group minus the median value of the GGO Score in the Control Group|Primary Analysis||0.01|-1.70|0.0530
82440225|NCT00901511|164588471|SUPERIORITY||Median Difference (Final Values)|0.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||>0.9999
82440226|NCT00901511|164588471|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0332|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.0332
82500886|NCT01712490|164692620|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.035|TWO_SIDED|95.0|0.603|0.983|||Log Rank|||Hazard ratio (A+AVD/ABVD) and 95% confidence interval (CI) are based on a stratified Cox's proportional hazard regression model with stratification factors region and number of International Prognostic Factor Project (IPFP) risk factors at baseline with treatment as the explanatory variable in the model. Hazard ratio less than (\<) 1 favors A+AVD arm.||0.983|0.603|0.035
82500887|NCT01712490|164692621|SUPERIORITY||Hazard Ratio (HR)|0.728||||0.199|TWO_SIDED|95.0|0.448|1.184|||Log Rank|||Hazard ratio (A+AVD/ABVD) and 95% CI are based on a stratified Cox's proportional hazard regression model with stratification factors region and number of IPFP risk factors at baseline with treatment as the explanatory variable in the model. Hazard ratio \<1 favors A+AVD arm.||1.184|0.448|0.199
82500888|NCT01862874|164692677|SUPERIORITY||Vaccine Efficacy|85.9|||<|0.001|TWO_SIDED|95.0|52.7|97.3|||One-sided exact test||Vaccine efficacy is defined as the percentage reduction in relative risk for the V501 group versus the placebo group.||If the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%, then superiority of the V501 group is demonstrated.|97.3|52.7|<0.001
82500889|NCT01862874|164692678|OTHER|Statistical testing of no difference in incidence of maximum temperature ≥37.5°C|Risk Difference (RD)|-1.2||||0.256|TWO_SIDED|95.0|-3.5|0.9|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||0.9|-3.5|0.256
82500890|NCT01862874|164692679|OTHER|Statistical testing of no difference in incidence of injection-site erythema|Risk Difference (RD)|2.9||||0.251|TWO_SIDED|95.0|-2.1|7.9|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site erythema||7.9|-2.1|0.251
82440227|NCT00901511|164588471|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0676|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.0676
82440228|NCT00901511|164588471|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.0629|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.0629
82440229|NCT00901511|164588471|SUPERIORITY||Median Difference (Final Values)|0.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median GGO Score in the GM-CSF Group minus the median GGO Score in the Control Group|The secondary analysis includes evaluation of the difference in median GGO Score between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||>0.9999
82440230|NCT00901511|164588472|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.001|TWO_SIDED|95.0|-0.71|-0.22|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the CEA levels in the GM-CSF Group minus the CEA levels in the Control Group|Primary Analysis||-0.22|-0.71|0.0010
82440231|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-12.0||||0.0059|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.0059
82440232|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-3.45||||0.0382|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.0382
82500891|NCT01862874|164692679|OTHER|Statistical testing of no difference in incidence of injection-site pain|Risk Difference (RD)|6.4||||0.033|TWO_SIDED|95.0|0.5|12.2|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site pain||12.2|0.5|0.033
82500892|NCT01862874|164692679|OTHER|Statistical testing of no difference in incidence of injection-site swelling|Risk Difference (RD)|6.8||||0.003|TWO_SIDED|95.0|2.3|11.3|||Miettinen & Nurminen||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|Injection-site swelling||11.3|2.3|0.003
82500893|NCT01862874|164692680|OTHER|Statistical testing of no difference in incidence of systemic AEs|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-5.2|3.3|||||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||3.3|-5.2|
82500894|NCT01862874|164692681|OTHER|Statistical testing of no difference in incidence of vaccine-related systemic AEs|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-4.1|0.8|||||Risk difference (V501 - placebo) was estimated using the Miettinen \& Nurminen method.|||0.8|-4.1|
82500895|NCT01862874|164692682|SUPERIORITY||Vaccine Efficacy|86.5|||<|0.001|TWO_SIDED|95.0|55.2|97.4|||One-sided exact test||Vaccine efficacy is defined as the percentage reduction in relative risk for the V501 versus the placebo group.||If the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%, superiority of the V501 group is demonstrated.|97.4|55.2|<0.001
82500896|NCT00824512|164692715|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9133|TWO_SIDED|95.0||||No multiplicity adjustment performed for this study and all statistical tests are two-sided at the 5% significance level.|Non parametric ANCOVA on the rank test|The baseline value was used as a covariate.||||||0.9133
82500897|NCT02260921|164692772|SUPERIORITY||Difference in Least Squares (LS) Means|-7.53||||0.0002|TWO_SIDED|95.0|-11.48|-3.58||P-values are obtained by fitting an ANCOVA model with treatment as factor and WOMAC baseline pain score as a covariate.|ANCOVA||LS estimates are obtained by fitting an ANCOVA model with treatment as factor and WOMAC baseline pain score as a covariate.|||-3.58|-11.48|0.0002
82500898|NCT01244425|164692781|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||likelihood-ratio chi square test|||||||<0.001
82500899|NCT01244425|164692782|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||likelihood ratio chi-square test|||||||<0.001
82500900|NCT01244425|164692783|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||likelihood ratio chi-square test|||||||0.028
82500901|NCT01244425|164692784|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||likelihood ratio chi-square test|||||||0.017
82500902|NCT01244425|164692785|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||likelihood ratio chi-square test|||||||0.293
82500903|NCT01244425|164692786|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||likelihood ratio chi-square test|||||||0.237
82500904|NCT01244425|164692787|SUPERIORITY_OR_OTHER|||||||0.808||95.0|||||likelihood ratio chi-square test|||||||0.808
82500905|NCT02848651|164692806|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3502|TWO_SIDED|90.0|0.54|1.18|||Log Rank|||||1.18|0.54|0.3502
82500906|NCT02848651|164692813|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.1783|TWO_SIDED|90.0|0.4|1.1|||Log Rank|||||1.10|0.40|0.1783
82500907|NCT02848651|164692813|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0358|TWO_SIDED|90.0|0.23|0.85|||Log Rank|||||0.85|0.23|0.0358
82500908|NCT02848651|164692814|SUPERIORITY||Differences in Rates|13.27||||0.0326|TWO_SIDED|90.0|2.53|24.0|||Cochran-Mantel-Haenszel|||||24.00|2.53|0.0326
82500909|NCT02848651|164692814|SUPERIORITY||Difference in Rates|30.22|||<|0.0001|TWO_SIDED|90.0|14.82|45.62|||Cochran-Mantel-Haenszel|||||45.62|14.82|<0.0001
82500910|NCT02848651|164692814|SUPERIORITY||Differences in Rates|41.37|||<|0.0001|TWO_SIDED|90.0|22.13|60.61|||Cochran-Mantel-Haenszel|||||60.61|22.13|<0.0001
82500911|NCT02480114|164692820|SUPERIORITY||Odds Ratio (OR)|0.549||||0.004|TWO_SIDED|95.0|0.364|0.827|||Proportional Odds Regression|||||0.827|0.364|0.004
82500912|NCT02480114|164692821|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
82500913|NCT02480114|164692822|SUPERIORITY||Odds Ratio (OR)|0.371|||<|0.001|TWO_SIDED|95.0|0.244|0.597|||Proportional Odds Regression|||||0.597|0.244|<0.001
82500914|NCT01031069|164692840|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the ratio of GMTs (Cervarix over Gardasil) being above (\>) 0.5 for HPV-16 type.|Adjusted GMT ratio|2.95|||||TWO_SIDED|95.0|1.92|4.52||||||Adjusted GMT ratios for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was non-inferior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) one month after the administration of the third dose of vaccine in HIV+ subjects.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|4.52|1.92|
82500915|NCT01031069|164692840|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the ratio of GMTs (Cervarix over Gardasil) being above (\>) 0.5 for HPV-18 type.|Adjusted GMT ratio|7.83|||||TWO_SIDED|95.0|4.84|12.66||||||Adjusted GMT ratios for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was non-inferior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) one month after the administration of the third dose of vaccine in HIV+ subjects.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|12.66|4.84|
82500916|NCT01031069|164692841|SUPERIORITY|Superiority was defined as the lower limit of the 95% CI for the ratio of GMTs (Cervarix over Gardasil) being above 1 for HPV-18 type, with a statistically significant p-value.|Adjusted GMT ratio|7.44|||<|0.0001|TWO_SIDED|95.0|4.79|11.54|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV+ subjects and including the vaccine group as fixed effect.||Adjusted GMT ratios for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was superior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) in HIV+ subjects, assessed following a sequential approach.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|11.54|4.79|<0.0001
82500917|NCT01031069|164692841|SUPERIORITY|Superiority was defined as the lower limit of the 95% CI for the ratio of GMTs (Cervarix over Gardasil) being above 1 for HPV-16 type, with a statistically significant p-value.|Adjusted GMT ratio|2.74|||<|0.0001|TWO_SIDED|95.0|1.83|4.11|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV+ subjects and including the vaccine group as fixed effect.||Adjusted GMT ratios for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV+/Cervarix Group) was superior to that of Gardasil vaccine (HIV+/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) in HIV+ subjects, following a sequential approach.|Primary objectives were to be assessed sequentially: firstly, non-inferiority for both HPV-16 and HPV-18, and then, superiority for HPV-18 followed by superiority for HPV-16.|4.11|1.83|<0.0001
82500918|NCT01031069|164692858|SUPERIORITY|Superiority was defined as the lower limit of the 97.5% CI for the ratio of GMTs (Cervarix over Gardasil) for HPV-18 type being above 1, with a statistically significant p-value.|Adjusted GMT ratio|5.38|||<|0.0001|TWO_SIDED|97.5|3.2|9.06|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV- subjects and including the vaccine group as fixed effect.||Adjusted GMT ratio for anti-HPV-18 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV-/Cervarix Group) was superior to that of Gardasil vaccine (HIV-/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-18, measured by Pseudovirion-based neutralization assay (PBNA) in HIV- subjects.||9.06|3.20|<0.0001
82500919|NCT01031069|164692858|SUPERIORITY|Superiority was defined as the lower limit of the 97.5% CI for the ratio of GMTs (Cervarix over Gardasil) for HPV-16 type being above 1, with a statistically significant p-value.|Adjusted GMT ratio|3.05|||<|0.0001|TWO_SIDED|97.5|1.84|5.06|||ANOVA|ANOVA model on the log10 transformation of the titers for HIV- subjects and including the vaccine group as fixed effect.||Adjusted GMT ratio for anti-HPV-16 neutra antibody (ED50): To demonstrate that the immunogenicity of Cervarix vaccine (HIV-/Cervarix Group) was superior to that of Gardasil vaccine (HIV-/Gardasil Group), in terms of geometric mean titers (GMTs) against HPV-16, measured by Pseudovirion-based neutralization assay (PBNA) in HIV- subjects.||5.06|1.84|<0.0001
82500920|NCT01317160|164692876|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042|TWO_SIDED||||||Chi-squared|||Domeij-Arverud et al., Bone Joint J 2015;97-B:675-80.||||0.042
82500921|NCT01317160|164692876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.81|||<|0.05|TWO_SIDED|95.0|1.25|6.32|||Regression, Logistic|Age was adjusted for in the calculation.|Risk of VTE by routine care (numerator) divided by IPC treatment (denominator)|||6.32|1.25|<0.05
82500922|NCT01317160|164692878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.737|TWO_SIDED||||||Chi-squared|||||||0.737
82500923|NCT03653637|164692930|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.263|TWO_SIDED|95.0|0.43|1.3|||Regression, Cox|This model adjusted for site and lifetime suicide attempt history.|The HR represents the PLF+TAU group compared to TAU.|||1.30|0.43|0.263
82500924|NCT03653637|164692933|SUPERIORITY||Slope|-0.07||||0.72|TWO_SIDED|95.0|-0.43|0.3||p-value is for the treatment-by-time interaction|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.30|-.43|.72
82500925|NCT03653637|164692934|SUPERIORITY||Slope|-0.1||||0.23|TWO_SIDED|95.0|-0.43|0.3||The p-value is for the treatment-by-time interaction|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.30|-.43|.23
82500926|NCT03653637|164692935|SUPERIORITY||Slope|0.27||||0.09|TWO_SIDED|96.0|-0.04|0.58||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.58|-.04|.09
82500927|NCT03653637|164692936|SUPERIORITY||Slope|1.17||||0.15|TWO_SIDED|95.0|-0.42|2.76||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site.|PLF is coded as 1 and TAU is coded as 0.|||2.76|-.42|.15
82500928|NCT03653637|164692937|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.52|TWO_SIDED|95.0|-1.78|0.91|||t-test, 2 sided|||||.91|-1.78|.52
82624071|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
82500929|NCT03653637|164692938|SUPERIORITY||Median Difference (Final Values)|188.5||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The estimation parameter statistic provided is the U value from the Mann-Whitney U test.|||||.83
82500930|NCT03653637|164692940|SUPERIORITY||Slope|-0.22||||0.24|TWO_SIDED|95.0|-0.58|0.15||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|||PLF is coded as 1 and TAU is coded as 0.|.15|-.58|.24
82500931|NCT03653637|164692941|SUPERIORITY||Slope|0.07||||0.28|TWO_SIDED|95.0|-0.06|0.19||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.||"This analysis concerns the verbal aggression subscale."|PLF is coded as 1 and TAU is coded as 0.|.19|-.06|.28
82500932|NCT03653637|164692941|SUPERIORITY||Slope|-0.07||||0.48|TWO_SIDED|95.0|-0.25|0.12||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|"This analysis concerns the physical aggression subscale."||.12|-.25|.48
82500933|NCT03653637|164692941|SUPERIORITY||Slope|-0.08||||0.3|TWO_SIDED|95.0|-0.24|0.07||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|"This analysis concerns the anger subscale."||.07|-.24|.30
82500934|NCT03653637|164692941|SUPERIORITY||Slope|0.02||||0.82|TWO_SIDED|95.0|-0.17|0.22||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.||"This analysis concerns the hostility subscale."|PLF is coded as 1 and TAU is coded as 0.|.22|-.17|.82
82500935|NCT03653637|164692942|SUPERIORITY||Slope|-0.08||||0.41|TWO_SIDED|95.0|-0.27|0.11||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|||.11|-.27|.41
82500936|NCT03653637|164692943|SUPERIORITY||Slope|-0.13||||0.67|TWO_SIDED|95.0|-0.68|0.48||The p-value is for the treatment-by-time interaction.|Mixed Models Analysis|The mixed model has a random intercept for participant and is adjusted for site. Time is a linear effect.|PLF is coded as 1 and TAU is coded as 0.|||.48|-.68|.67
82500937|NCT00127712|164692965|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
82500938|NCT00127712|164692966|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82500939|NCT00127712|164692967|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
82500940|NCT00127712|164692968|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
82500941|NCT02664441|164692969|SUPERIORITY||Mean Difference (Net)|-1.7||||0.4|TWO_SIDED|95.0|-4.1|0.6|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||0.6|-4.1|0.40
82500942|NCT02664441|164692970|SUPERIORITY||Mean Difference (Net)|-3.1||||0.02|TWO_SIDED|95.0|-5.7|-0.4|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||-0.4|-5.7|0.02
82500943|NCT02664441|164692971|SUPERIORITY||Mean Difference (Final Values)|-20.2||||0.032|TWO_SIDED|95.0|-37.8|-2.7|||Regression, Linear|Adjusted for baseline values||Analysis for Fat Intake||-2.7|-37.8|.032
82500944|NCT02664441|164692971|SUPERIORITY||Mean Difference (Net)|-430.0||||0.02|TWO_SIDED|95.0|-761.0|-100.0|||Regression, Linear|Adjusted for baseline values||Analysis for Total Calorie Intake||-100|-761|.02
82500945|NCT02664441|164692972|SUPERIORITY||Geometric Mean Ratio|1.42||||0.19|TWO_SIDED|95.0|0.97|2.08|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||2.08|0.97|0.19
82500946|NCT02664441|164692973|SUPERIORITY||Geometric Mean Ratio|1.0||||0.82|TWO_SIDED|95.0|0.91|1.11|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|Analysis for HDL Cholesterol||1.11|0.91|0.82
82500947|NCT02664441|164692973|SUPERIORITY||Geometric Mean Ratio|1.0||||0.92|TWO_SIDED|95.0|0.83|1.19|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|Analysis for Triglycerides||1.19|0.83|0.92
82500948|NCT02664441|164692974|SUPERIORITY||Geometric Mean Ratio|0.62||||0.03|TWO_SIDED|95.0|0.41|0.92|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||0.92|0.41|0.03
82500949|NCT02664441|164692975|SUPERIORITY||Geometric Mean Ratio|1.39||||0.32|TWO_SIDED|95.0|0.9|2.14|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) as covariates|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals|||2.14|0.90|0.32
82500950|NCT02664441|164692976|SUPERIORITY||Geometric Mean Ratio|0.95||||0.69|TWO_SIDED|95.0|0.81|1.1|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.|Data were log-transformed prior to analysis. Results were back-transformed through exponentiation and presented as geometric mean ratios with 95% confidence intervals.|||1.10|0.81|0.69
82500951|NCT02664441|164692977|SUPERIORITY||Mean Difference (Net)|-166.4||||0.004|TWO_SIDED|95.0|-269.7|-63.1|||Regression, Linear|Adjusted for baseline values||||-63.1|-269.7|0.004
82500952|NCT02664441|164692978|SUPERIORITY||Mean Difference (Net)|-145.0||||0.58|TWO_SIDED|95.0|-653.5|363.4|||Regression, Linear|Adjusted for baseline||||363.4|-653.5|0.58
82500953|NCT02664441|164692979|SUPERIORITY||Mean Difference (Net)|-8.5||||0.088|TWO_SIDED|95.0|-19.1|2.1|||Mixed Models Analysis|Randomization stratification variables (site, sex and age group) were used as covariates.||||2.1|-19.1|0.088
82562689|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.679|TWO_SIDED|95.0|-0.99|1.52||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.52|-0.99|0.679
82500954|NCT02560584|164692994|SUPERIORITY||||||<|0.0001|||||||Exact one-sided test for a single propor|||"The proportion of patients with malignancy detected only with BLC with Cysview was to be analyzed using an exact one-sided test for a single proportion based on the cumulative binomial distribution with a significance level of 2.5%.~Null hypothesis: Malignancy is detected with BL only in 0.5% or less of the patients"||||<0.0001
82500955|NCT02560584|164692996|SUPERIORITY||||||<|0.0001|||||||Exact one-sided test for single proporti|||"The proportion of patients with one or more CIS lesions detected with BL and none with WL was to be evaluated using an exact binomial test for single proportion with a significance level of 2.5% (one-sided).~Null hypothesis: One or more CIS lesions are detected with BLC with Cysview and none with WL in less than or equal to 0.1% of the patients."||||<0.0001
82500956|NCT00715078|164692997|NON_INFERIORITY_OR_EQUIVALENCE|Cohort B is considered non-inferior to Cohort A if the lower limit of the 90% confidence interval (CI) for the ratio of Cohort B vs. Cohort A in the geometric mean of cumulative CD54 upregulation ratio is \>0.8. The use of one-sided CI is based on an assumption that a higher concentration will correspond to a higher CD54 upregulation ratio. The use of 0.8 as margin is based on the assumption that a relative difference of \<20% in upregulation ratios may not be clinically significant.|ratio of geometric means (GeoMean)|1.046||||0.5019|TWO_SIDED|90.0|0.936|1.168|||ANOVA|||The sample size determination is based on a standard deviation of 0.45 for the log transformed CD54 upregulation ratio estimated from previous studies assuming there is no difference in central values between the two compared cohorts. A sample size of 38 subjects per cohort will provide 70% power for the non-inferiority test for the two pairwise comparisons (Cohort B vs. Cohort A and Cohort C vs. Cohort A).||1.168|0.936|0.5019
82500957|NCT00715078|164692997|NON_INFERIORITY_OR_EQUIVALENCE|Cohort C is considered non-inferior to Cohort A if the lower limit of the 90% confidence interval for the ratio of Cohort C vs. Cohort A in the geometric mean of cumulative CD54 upregulation ratio is \>0.8. The use of one-sided CI is based on an assumption that a higher concentration will correspond to a higher CD54 upregulation ratio. The use of 0.8 as margin is based on the assumption that a relative difference of \<20% in upregulation ratios may not be clinically significant.|the ratio of geometric means|0.907||||0.1443|TWO_SIDED|90.0|0.813|1.013|||ANOVA|||The sample size determination is based on a standard deviation of 0.45 for the log transformed CD54 upregulation ratio estimated from previous studies assuming there is no difference in central values between the two compared cohorts. A sample size of 38 subjects per cohort will provide 70% power for the non-inferiority test for the two pairwise comparisons (Cohort B vs. Cohort A and Cohort C vs. Cohort A).||1.013|0.813|0.1443
82500958|NCT00412854|164693062|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|0.61|||||TWO_SIDED|95.0|-1.68|3.39||||||"Difference in seroprotection rates against diphteria toxoid:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose primary vaccination course."||3.39|-1.68|
82500959|NCT00412854|164693062|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in seroprotection rates against tetanus toxoid:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
82500960|NCT00412854|164693063|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of seroprotected subjects was ≤ 10%.|Difference in seroprotection rate|2.47|||||TWO_SIDED|95.0|0.15|6.18||||||"Difference in seroprotection rates against PRP:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||6.18|0.15|
82500961|NCT00412854|164693064|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in vaccine response rates against PT:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
82500962|NCT00412854|164693064|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|0.0|||||TWO_SIDED|95.0|-2.29|2.3||||||"Difference in vaccine response rates against FHA:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||2.30|-2.29|
82500963|NCT00412854|164693064|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix+Hiberix Group minus Infanrix/Hib Group\] in percentage of subjects with a vaccine response was ≤ 10%.|Difference in seroresponse rate|1.23|||||TWO_SIDED|95.0|-2.17|5.07||||||"Difference in vaccine response rates against PRN:~To demonstrate that the immunogenicity of Infanrix™/Hib vaccine administered at 3, 4 and 5 months of age (Infanrix/Hib Group) was non-inferior to that of the concomitant administration of Infanrix™ and Hiberix™ vaccines at the same age (Infanrix+Hiberix Group), in terms of immune response to all vaccine antigens, one month after the three-dose vaccination course."||5.07|-2.17|
82500964|NCT01084174|164693074|OTHER|||||||0.003|||||||Regression, Linear|Analyzed by linear regression models using generalized estimating equations to account for repeated measures over time with robust standard errors||||||.003
82500965|NCT01084174|164693075|OTHER||||||<|0.001|||||||Regression, Linear|||||||<.001
82500966|NCT01084174|164693076|OTHER||||||<|0.001|||||||Regression, Linear|||||||<.001
82500967|NCT01084174|164693077|OTHER|||||||0.4|||||||Regression, Linear|||||||0.40
82500968|NCT01084174|164693078|OTHER|||||||0.07|||||||Regression, Linear|||||||.07
82500969|NCT01084174|164693079|OTHER|||||||0.007|||||||Regression, Linear|||||||.007
82500970|NCT01988103|164693093|SUPERIORITY_OR_OTHER_LEGACY||Difference|16.4||||0.0032|TWO_SIDED|95.0|5.8|27.0|||Chi-squared|||||27.0|5.8|0.0032
82500971|NCT01988103|164693093|SUPERIORITY_OR_OTHER_LEGACY||Difference|21.1||||0.0003|TWO_SIDED|95.0|10.1|32.1|||Chi-squared|||||32.1|10.1|0.0003
82500972|NCT01988103|164693094|SUPERIORITY_OR_OTHER_LEGACY||Difference|15.1||||0.0165|TWO_SIDED|95.0|3.1|27.1|||Chi-squared|||||27.1|3.1|0.0165
82500973|NCT01988103|164693094|SUPERIORITY_OR_OTHER_LEGACY||Difference|20.8||||0.002|TWO_SIDED|95.0|8.2|33.3|||Chi-squared||Missing values were imputed using the LOCF method.|||33.3|8.2|0.0020
82500974|NCT01988103|164693095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.1||||0.0003|TWO_SIDED|95.0|-44.5|-13.6|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-13.6|-44.5|0.0003
82500975|NCT01988103|164693095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.0|||<|0.0001|TWO_SIDED|95.0|-53.4|-22.6|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-22.6|-53.4|<0.0001
82624072|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
82500976|NCT01988103|164693096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.5||||0.0002|TWO_SIDED|95.0|-44.9|-14.0|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-14.0|-44.9|0.0002
82500977|NCT01988103|164693096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.5|||<|0.0001|TWO_SIDED|95.0|-54.9|-24.1|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-24.1|-54.9|<0.0001
82500978|NCT01988103|164693097|SUPERIORITY_OR_OTHER_LEGACY||Difference|19.7||||0.0057|TWO_SIDED|95.0|6.1|33.4|||Chi-squared|||||33.4|6.1|0.0057
82500979|NCT01988103|164693097|SUPERIORITY_OR_OTHER_LEGACY||Difference|29.2|||<|0.0001|TWO_SIDED|95.0|15.4|42.9|||Chi-squared|||||42.9|15.4|<0.0001
82500980|NCT01988103|164693098|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6||||0.0003|TWO_SIDED|95.0|-22.6|-6.7|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-6.7|-22.6|0.0003
82500981|NCT01988103|164693098|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.8|||<|0.0001|TWO_SIDED|95.0|-32.7|-16.9|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate. Missing values were imputed using the LOCF method.|||-16.9|-32.7|<0.0001
82500982|NCT01988103|164693099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0204|TWO_SIDED|95.0|-3.2|-0.3|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-0.3|-3.2|0.0204
82500983|NCT01988103|164693099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|||<|0.0001|TWO_SIDED|95.0|-4.9|-2.0|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||-2.0|-4.9|<0.0001
82500984|NCT01988103|164693100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88||||0.5149|TWO_SIDED|95.0|-1.78|3.53|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||3.53|-1.78|0.5149
82500985|NCT01988103|164693100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.85||||0.1693|TWO_SIDED|95.0|-0.79|4.5|||ANCOVA||2-sided 95% CI and p-values were based on an analysis of covariance model with treatment arm as a factor and baseline value as a covariate. Means (LS Means) and p-values were adjusted by covariate.|||4.50|-0.79|0.1693
82500986|NCT02598076|164693116|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
82500987|NCT02598076|164693117|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||||||0.034
82500988|NCT02598076|164693118|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82500989|NCT02598076|164693119|SUPERIORITY|||||||0.095|||||||Fisher Exact|||||||0.095
82500990|NCT02598076|164693120|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
82500991|NCT02135146|164693184|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
82500992|NCT02135146|164693184|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82500993|NCT00333866|164693190|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-0.23||||0.2361|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using Analysis of Covariance (ANCOVA) with treatment and center in the model, and the baseline mean pain score as covariate.||0.15|-0.61|0.2361
82500994|NCT00333866|164693190|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.0132|TWO_SIDED|95.0|-0.94|-0.17|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using ANCOVA with treatment and center in the model, and the baseline mean pain score as covariate.||-0.17|-0.94|0.0132
82500995|NCT00333866|164693190|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-0.33||||0.1694|TWO_SIDED|95.0|-0.72|0.05|||ANCOVA|Hochberg's approach was used to protect the Type I error rate at 0.05 level, Hochberg adjusted p-values were presented.||P value was calculated using ANCOVA with treatment and center in the model, and the baseline mean pain score as covariate.||0.05|-0.72|0.1694
82500996|NCT00333866|164693191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0227||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0227
82500997|NCT00333866|164693191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0017
82500998|NCT00333866|164693191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0768||95.0|||||Cochran-Mantel-Haenszel|||P-values less than 0.05 (2-sided) considered statistically significant. P-values were calculated using a modified ridit transformation with the Cochran-Mantel-Haenszel procedure, adjusting for center.||||0.0768
82500999|NCT00333866|164693192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.01|||<|0.0001|TWO_SIDED|95.0|-1.42|-0.6|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.60|-1.42|<.0001
82501000|NCT00333866|164693192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.78||||0.0002|TWO_SIDED|95.0|-1.2|-0.37|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.37|-1.20|0.0002
82501001|NCT00333866|164693192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48||||0.0222|TWO_SIDED|95.0|-0.89|-0.07|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline mean sleep score as covariate.||-0.07|-0.89|0.0222
82501002|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
82501003|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7||||0.0003|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.1|0.0003
82501004|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 1: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501005|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.3|<.0001
82501006|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501007|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 2: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
82501008|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.5|<.0001
82501009|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501010|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67||||0.0005|TWO_SIDED|95.0|-1.0|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 3: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.0|0.0005
82501011|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.28|||<|0.0001||95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
82501012|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.3|<.0001
82501013|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 4: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501014|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.17|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
82501015|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
82501016|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 5: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.2|<.0001
82501017|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
82501018|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
82501019|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72||||0.0003|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 6: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.1|0.0003
82501020|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
82501021|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
82501022|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.0037|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 7: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0037
82501023|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.27|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.7|<.0001
82501024|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.4|<.0001
82501025|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0031|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 8: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0031
82501026|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.7|-1.5|<.0001
82501027|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501028|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53||||0.0117|TWO_SIDED|95.0|-0.9|-0.1|||Mixed Model Repeated Measures ANCOVA|||Week 9: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.1|-0.9|0.0117
82501029|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
82501030|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
82501031|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.004|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 10: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0040
82562690|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.319|TWO_SIDED|95.0|-1.89|0.62||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.62|-1.89|0.319
82501032|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.7|-1.6|<.0001
82501033|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.2|<.0001
82501034|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.01|TWO_SIDED|95.0|-1.0|-0.1|||Mixed Model Repeated Measures ANCOVA|||Week 11: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.1|-1.0|0.0100
82501035|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.5|<.0001
82501036|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73||||0.0006|TWO_SIDED|95.0|-1.2|-0.3|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.3|-1.2|0.0006
82501037|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4||||0.069|TWO_SIDED|95.0|-0.8|0.0|||Mixed Model Repeated Measures ANCOVA|||Week 12: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||0.0|-0.8|0.0690
82501038|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
82501039|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.5|-1.3|<.0001
82501040|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0054|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 13: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.0|0.0054
82501041|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.8|-1.6|<.0001
82501042|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.4|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.3|<.0001
82501043|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.65||||0.0036|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Model Repeated Measures ANCOVA|||Week 14: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.2|-1.1|0.0036
82501044|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.16|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.9|-1.5|<.0001
82501045|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.6|-1.1|<.0001
82501046|NCT00333866|164693193|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.4|||Mixed Model Repeated Measures ANCOVA|||Overall: P-values less than 0.05 (2-sided) considered statistically significant. A mixed model repeated measures ANCOVA using treatment, center, week, and treatment-by-week interaction in the model and baseline mean sleep score as the covariate.||-0.4|-1.0|<.0001
82501047|NCT00333866|164693194|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.537|TWO_SIDED|95.0|0.71|1.95|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||1.95|0.71|0.5370
82501048|NCT00333866|164693194|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.92||||0.0109|TWO_SIDED|95.0|1.16|3.18|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||3.18|1.16|0.0109
82501049|NCT00333866|164693194|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.9613|TWO_SIDED|95.0|0.61|1.68|||Regression, Logistic|||P-values less than 0.05 (2-sided) considered statistically significant. Logistic regression method was used with treatment and center in the model, and the baseline score as covariate.||1.68|0.61|0.9613
82501050|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.71|||<|0.0001|TWO_SIDED|95.0|-17.56|-7.86|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-7.86|-17.56|<.0001
82501051|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.28|||<|0.0001|TWO_SIDED|95.0|-18.18|-8.38|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-8.38|-18.18|<.0001
82501052|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.2||||0.0038|TWO_SIDED|95.0|-12.06|-2.33|||ANCOVA|||Sleep Disturbance: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.33|-12.06|0.0038
82501053|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.9||||0.0142|TWO_SIDED|95.0|1.19|10.61|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||10.61|1.19|0.0142
82501054|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.92||||0.0414|TWO_SIDED|95.0|0.19|9.66|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.66|0.19|0.0414
82501055|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.21||||0.6165|TWO_SIDED|95.0|-3.53|5.95|||ANCOVA|||Snoring: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.95|-3.53|0.6165
82501056|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.24||||0.0005|TWO_SIDED|95.0|-14.44|-4.05|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-4.05|-14.44|0.0005
82501057|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.92|||<|0.0001||95.0|-17.17|-6.68|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-6.68|-17.17|<.0001
82501058|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.95||||0.0008|TWO_SIDED|95.0|-14.16|-3.74|||ANCOVA|||Shortness of Breath, Headache: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-3.74|-14.16|0.0008
82501059|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.36||||0.0127|TWO_SIDED|95.0|0.08|0.64|||ANCOVA|||Quantity of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.64|0.08|0.0127
82501060|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.0005|TWO_SIDED|95.0|0.22|0.79|||ANCOVA|||Quantity of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.79|0.22|0.0005
82501061|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21||||0.1453|TWO_SIDED|95.0|-0.07|0.49|||ANCOVA|||Quality of Sleep: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.49|-0.07|0.1453
82501062|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.34||||0.1033|TWO_SIDED|95.0|-0.88|9.57|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.57|-0.88|0.1033
82624073|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
82501063|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.14||||0.0007|TWO_SIDED|95.0|3.88|14.41|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||14.41|3.88|0.0007
82501064|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.56||||0.337|TWO_SIDED|95.0|-2.68|7.81|||ANCOVA|||Sleep Adequacy: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.81|-2.68|0.3370
82501065|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.01||||0.3308|TWO_SIDED|95.0|-2.05|6.07|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.07|-2.05|0.3308
82501066|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7||||0.7364|TWO_SIDED|95.0|-3.39|4.8|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.80|-3.39|0.7364
82501067|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.76||||0.7132|TWO_SIDED|95.0|-3.31|4.84|||ANCOVA|||Somnolence: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.84|-3.31|0.7132
82501068|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.9||||0.0002|TWO_SIDED|95.0|-10.54|-3.25|||ANCOVA|||Overall sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-3.25|-10.54|0.0002
82501069|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.25|||<|0.0001|TWO_SIDED|95.0|-11.94|-4.55|||ANCOVA|||Overall Sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-4.55|-11.94|<.0001
82501070|NCT00333866|164693195|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.36||||0.0197|TWO_SIDED|95.0|-8.02|-0.7|||ANCOVA|||Overall Sleep Problem Index: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.70|-8.02|0.0197
82501071|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17||||0.3627|TWO_SIDED|95.0|-0.54|0.2|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.20|-0.54|0.3627
82501072|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26||||0.1686|TWO_SIDED|95.0|-0.63|0.11|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.11|-0.63|0.1686
82501073|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18||||0.3468|TWO_SIDED|95.0|-0.55|0.19|||ANCOVA|||FIQ Physical Impairment: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.19|-0.55|0.3468
82501074|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11||||0.7147|TWO_SIDED|95.0|-0.71|0.49|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.49|-0.71|0.7147
82501075|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.63||||0.0409|TWO_SIDED|95.0|-1.23|-0.03|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.03|-1.23|0.0409
82501076|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04||||0.9077|TWO_SIDED|95.0|-0.56|0.63|||ANCOVA|||FIQ Feel Good: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.63|-0.56|0.9077
82501077|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5923|TWO_SIDED|95.0|-0.64|0.37|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.37|-0.64|0.5923
82501078|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61||||0.0174|TWO_SIDED|95.0|-1.12|-0.11|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.11|-1.12|0.0174
82501079|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16||||0.5408|TWO_SIDED|95.0|-0.66|0.35|||ANCOVA|||FIQ Work Missed: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.35|-0.66|0.5408
82501080|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.7236|TWO_SIDED|95.0|-0.57|0.4|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.40|-0.57|0.7236
82562691|NCT00696241|164835059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.172|TWO_SIDED|95.0|-2.13|0.38||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.38|-2.13|0.172
82501081|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.71||||0.0045|TWO_SIDED|95.0|-1.19|-0.22|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.22|-1.19|0.0045
82501082|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5613||95.0|-0.63|0.34|||ANCOVA|||FIQ Do Work: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.63|0.5613
82501083|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14||||0.5609|TWO_SIDED|95.0|-0.6|0.33|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.33|-0.60|0.5609
82501084|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75||||0.0016|TWO_SIDED|95.0|-1.22|-0.28|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.28|-1.22|0.0016
82501085|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21||||0.3692|TWO_SIDED|95.0|-0.68|0.25|||ANCOVA|||FIQ Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.25|-0.68|0.3692
82501086|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24||||0.3294|TWO_SIDED|95.0|-0.73|0.25|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.25|-0.73|0.3294
82501087|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56||||0.027|TWO_SIDED|95.0|-1.05|-0.06|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.06|-1.05|0.0270
82501088|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05||||0.8432|TWO_SIDED|95.0|-0.54|0.44|||ANCOVA|||FIQ Fatigue: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.44|-0.54|0.8432
82501089|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46||||0.0806|TWO_SIDED|95.0|-0.98|0.06|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.06|-0.98|0.0806
82501090|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53||||0.047|TWO_SIDED|95.0|-1.06|-0.01|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.01|-1.06|0.0470
82501091|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23||||0.3845|TWO_SIDED|95.0|-0.75|0.29|||ANCOVA|||FIQ Rested: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.29|-0.75|0.3845
82501092|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12||||0.6326|TWO_SIDED|95.0|-0.37|0.6|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.60|-0.37|0.6326
82501093|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22||||0.374|TWO_SIDED|95.0|-0.71|0.27|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.27|-0.71|0.3740
82501094|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03||||0.8936|TWO_SIDED|95.0|-0.45|0.52|||ANCOVA|||FIQ Stiffness: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.52|-0.45|0.8936
82501095|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19||||0.4743|TWO_SIDED|95.0|-0.73|0.34|||ANCOVA|||FIQ Anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.73|0.4743
82501096|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64||||0.0192|TWO_SIDED|95.0|-1.18|-0.1|||ANCOVA|||FIQ Anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.10|-1.18|0.0192
82501097|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18||||0.5101|TWO_SIDED|95.0|-0.71|0.35|||ANCOVA|||FIQ anxiety: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.35|-0.71|0.5101
82501098|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2||||0.4617|TWO_SIDED|95.0|-0.75|0.34|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.34|-0.75|0.4617
82501099|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.97||||0.0006|TWO_SIDED|95.0|-1.51|-0.42|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-0.42|-1.51|0.0006
82501100|NCT00333866|164693196|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33||||0.229|TWO_SIDED|95.0|-0.88|0.21|||ANCOVA|||FIQ Depression: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.21|-0.88|0.2290
82501101|NCT00333866|164693197|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.44||||0.42|TWO_SIDED|95.0|-4.95|2.06|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||2.06|-4.95|0.4200
82501102|NCT00333866|164693197|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.85||||0.0012|TWO_SIDED|95.0|-9.38|-2.31|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.31|-9.38|0.0012
82501103|NCT00333866|164693197|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.17||||0.5126|TWO_SIDED|95.0|-4.68|2.34|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||2.34|-4.68|0.5126
82501104|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51||||0.7781|TWO_SIDED|95.0|-4.07|3.05|||ANCOVA|||Physical functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||3.05|-4.07|0.7781
82501105|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.99||||0.2792|TWO_SIDED|95.0|-1.62|5.59|||ANCOVA|||Physical Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.59|-1.62|0.2792
82624074|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
82501106|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.58||||0.7512|TWO_SIDED|95.0|-3.0|4.15|||ANCOVA|||Physical Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.15|-3.00|0.7512
82501107|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.02||||0.649|TWO_SIDED|95.0|-3.39|5.43|||ANCOVA|||Physical role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.43|-3.39|0.6490
82501108|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5||||0.5105|TWO_SIDED|95.0|-2.96|5.96|||ANCOVA|||Physical Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.96|-2.96|0.5105
82501109|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.39||||0.8625|TWO_SIDED|95.0|-4.04|4.82|||ANCOVA|||Physical Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.82|-4.04|0.8625
82501110|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.87||||0.1489|TWO_SIDED|95.0|-1.39|9.12|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.12|-1.39|0.1489
82501111|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.24||||0.0213|TWO_SIDED|95.0|0.93|11.54|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||11.54|0.93|0.0213
82501112|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.75||||0.162|TWO_SIDED|95.0|-1.51|9.02|||ANCOVA|||Emotional Role Limitations: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.02|-1.51|0.1620
82624075|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
82501113|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.85||||0.2446|TWO_SIDED|95.0|-1.95|7.65|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.65|-1.95|0.2446
82501114|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.01||||0.0429|TWO_SIDED|95.0|0.16|9.85|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.85|0.16|0.0429
82501115|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.35||||0.1721|TWO_SIDED|95.0|-1.46|8.16|||ANCOVA|||Social Functioning: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.16|-1.46|0.1721
82501116|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.08||||0.0291|TWO_SIDED|95.0|0.42|7.74|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||7.74|0.42|0.0291
82501117|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.93||||0.0017|TWO_SIDED|95.0|2.23|9.62|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||9.62|2.23|0.0017
82501118|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.32||||0.0763|TWO_SIDED|95.0|-0.35|6.99|||ANCOVA|||Mental Health: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.99|-0.35|0.0763
82501119|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.58||||0.1524|TWO_SIDED|95.0|-0.95|6.11|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.11|-0.95|0.1524
82501120|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.36||||0.0032|TWO_SIDED|95.0|1.8|8.93|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.93|1.80|0.0032
82501121|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.82||||0.118|TWO_SIDED|95.0|-0.72|6.36|||ANCOVA|||Bodily Pain: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.36|-0.72|0.1180
82501122|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.15||||0.1081|TWO_SIDED|95.0|-0.69|6.99|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||6.99|-0.69|0.1081
82501123|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.1||||0.0101|TWO_SIDED|95.0|1.22|8.99|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||8.99|1.22|0.0101
82501124|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.75||||0.7031|TWO_SIDED|95.0|-3.1|4.6|||ANCOVA|||Vitality: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.60|-3.10|0.7031
82501125|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.27||||0.4253|TWO_SIDED|95.0|-1.86|4.39|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.39|-1.86|0.4253
82501126|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.73||||0.091|TWO_SIDED|95.0|-0.44|5.89|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.89|-0.44|0.0910
82501127|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.82||||0.2526|TWO_SIDED|95.0|-1.3|4.95|||ANCOVA|||General Health Perception: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.95|-1.30|0.2526
82501128|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.62||||0.0195|TWO_SIDED|95.0|0.42|4.82|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.82|0.42|0.0195
82501129|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.66||||0.0013|TWO_SIDED|95.0|1.44|5.88|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||5.88|1.44|0.0013
82624076|NCT04268303|164963523|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 30 minutes post-dose||||<0.0001
82501130|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.14||||0.0568|TWO_SIDED|95.0|-0.06|4.34|||ANCOVA|||Mental Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||4.34|-0.06|0.0568
82501131|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13||||0.8529|TWO_SIDED|95.0|-1.54|1.27|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.27|-1.54|0.8529
82501132|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.54||||0.4564|TWO_SIDED|95.0|-0.88|1.96|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.96|-0.88|0.4564
82501133|NCT00333866|164693198|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13||||0.8576|TWO_SIDED|95.0|-1.28|1.54|||ANCOVA|||Physical Component Score: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.54|-1.28|0.8576
82501134|NCT00333866|164693199|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.29||||0.7384|TWO_SIDED|95.0|-1.98|1.4|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.40|-1.98|0.7384
82501135|NCT00333866|164693199|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.41||||0.1044|TWO_SIDED|95.0|-3.12|0.29|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.29|-3.12|0.1044
82501136|NCT00333866|164693199|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87||||0.3137|TWO_SIDED|95.0|-2.58|0.83|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.83|-2.58|0.3137
82501137|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.09|TWO_SIDED|95.0|-1.28|0.09|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.09|-1.28|0.0900
82501138|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5||||0.1564|TWO_SIDED|95.0|-1.2|0.19|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.19|-1.20|0.1564
82501139|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11||||0.7519|TWO_SIDED|95.0|-0.8|0.58|||ANCOVA|||HADS-Anxiety Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.58|-0.80|0.7519
82501140|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15||||0.6416|TWO_SIDED|95.0|-0.5|0.8|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.80|-0.50|0.6416
82501141|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59||||0.0778|TWO_SIDED|95.0|-1.25|0.07|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.07|-1.25|0.0778
82501142|NCT00333866|164693200|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21||||0.5191|TWO_SIDED|95.0|-0.87|0.44|||ANCOVA|||HADS-Depression Total: P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||0.44|-0.87|0.5191
82501143|NCT00333866|164693201|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.44||||0.534|TWO_SIDED|95.0|-5.97|3.09|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||3.09|-5.97|0.5340
82501144|NCT00333866|164693201|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.44||||0.0014|TWO_SIDED|95.0|-12.0|-2.88|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||-2.88|-12.00|0.0014
82501145|NCT00333866|164693201|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56||||0.2694|TWO_SIDED|95.0|-7.09|1.98|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. ANCOVA method was used with treatment and center in the model, and the baseline score as covariate.||1.98|-7.09|0.2694
82501146|NCT00333866|164693202|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|263.77||||0.1277|TWO_SIDED|95.0|-75.78|603.33|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using analysis of variance (ANOVA), with treatment and center in the model.||603.33|-75.78|0.1277
82562692|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.02|||<|0.001|TWO_SIDED|95.0|-8.83|-5.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-8.83|<0.001
82501147|NCT00333866|164693202|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|47.89||||0.7829|TWO_SIDED|95.0|-293.2|389.02|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using ANOVA, with treatment and center in the model.||389.02|-293.2|0.7829
82501148|NCT00333866|164693202|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.51||||0.9471|TWO_SIDED|95.0|-351.9|328.86|||ANCOVA|||P-values less than 0.05 (2-sided) considered statistically significant. P value was calculated using ANOVA, with treatment and center in the model.||328.86|-351.9|0.9471
82501149|NCT00556712|164693211|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.82|||Log Rank|||||0.82|0.62|<0.0001
82501150|NCT00556712|164693215|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0097|TWO_SIDED|95.0|0.72|0.96|||Log Rank|||||0.96|0.72|0.0097
82501151|NCT00556712|164693218|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.005|TWO_SIDED|95.0|0.66|0.93|||Log Rank|||||0.93|0.66|0.0050
82501152|NCT00556712|164693221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.1768|TWO_SIDED|95.0|0.51|1.14|||Log Rank|||||1.14|0.51|0.1768
82501153|NCT00556712|164693224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4797|TWO_SIDED|95.0|0.49|1.4|||Log Rank|||||1.40|0.49|0.4797
82501154|NCT00556712|164693226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.61|0.82|||Log Rank|||||0.82|0.61|<0.0001
82501155|NCT00556712|164693228|SUPERIORITY_OR_OTHER||Difference in Response Rates|6.53||||0.0006|TWO_SIDED|95.0|2.7|10.3|||Chi-squared||The approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||10.3|2.7|0.0006
82501156|NCT00556712|164693230|SUPERIORITY_OR_OTHER||Difference in Response Upgrade Rates|4.2||||0.0007|TWO_SIDED|95.0|1.6|6.7|||Chi-squared||The approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||6.7|1.6|0.0007
82501157|NCT00556712|164693232|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|9.8||||0.0035|TWO_SIDED|95.0|3.1|16.4|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|Analysis included CR + PR + SD rate.||16.4|3.1|0.0035
82501158|NCT00556712|164693232|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|13.4|||<|0.0001|TWO_SIDED|95.0|7.1|19.7|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|Analysis included CR + PR + SD \> 12 weeks rate.||19.7|7.1|<0.0001
82501159|NCT00556712|164693234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.3787|TWO_SIDED|95.0|0.74|1.12|||Log Rank|||||1.12|0.74|0.3787
82501160|NCT00556712|164693236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82|||Log Rank|||||0.82|0.58|< 0.0001
82501161|NCT00556712|164693239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5385|TWO_SIDED|95.0|0.87|1.31|||Log Rank|||||1.31|0.87|0.5385
82501162|NCT00556712|164693242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.653|TWO_SIDED|95.0|0.79|1.16|||Log Rank|||||1.16|0.79|0.6530
82501163|NCT02671422|164693279|OTHER||1 year-survival rate|0.342|||||TWO_SIDED|95.0|0.0|0.894|||||Confidence interval is computed based on the LOGLOG method.|||0.894|0.000|
82501164|NCT03194698|164693305|SUPERIORITY|||||||0.0312|||||||Wilcoxon (Mann-Whitney)|||||||0.0312
82501165|NCT03194698|164693306|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82501166|NCT03194698|164693307|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82501167|NCT04772755|164693308|SUPERIORITY|||||||0.0249|||||||Chi-squared|||||||0.0249
82501168|NCT04772755|164693309|SUPERIORITY|||||||0.8918|||||||Mantel Haenszel|||||||0.8918
82501169|NCT04772755|164693310|SUPERIORITY|||||||0.6587|||||||Wilcoxon (Mann-Whitney)|||||||0.6587
82501170|NCT04772755|164693311|SUPERIORITY|||||||0.0059|||||||Wilcoxon (Mann-Whitney)|||||||0.0059
82562693|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.07|||<|0.001|TWO_SIDED|95.0|-8.87|-5.27||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.27|-8.87|<0.001
82440233|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.0770
82501171|NCT04772755|164693312|SUPERIORITY|||||||0.1647|||||||Chi-squared|||||||0.1647
82501172|NCT04772755|164693313|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.0090
82501173|NCT04772755|164693314|SUPERIORITY|||||||0.0273|||||||Wilcoxon (Mann-Whitney)|||||||0.0273
82501174|NCT04772755|164693315|SUPERIORITY|||||||0.0458|||||||Chi-squared|||||||0.0458
82501175|NCT04772755|164693316|SUPERIORITY|||||||0.0976|||||||Chi-squared|||||||0.0976
82501176|NCT00662363|164693321|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||independent sample t test|||Primary outcome measures chosen were between group comparisons for change on Constipation Symptom Questionnaire ratings at exit from the study. The PAC-SYM is a symptom scale where higher numbers indicate more symptoms. Change from baseline to Day 7 was calculated and larger negative differences indicated greater improvement in constipation symptoms. The PAC-QOL is a quality of life scale where higher numbers indicate better quality of life. Change from baseline to 7 days was calculated.||||<0.05
82501177|NCT01905657|164693323|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.54||||0.00024|TWO_SIDED|95.0|0.38|0.77|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.77|0.38|0.00024
82501178|NCT01905657|164693323|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.5||||2e-05|TWO_SIDED|95.0|0.36|0.7|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.70|0.36|0.00002
82501179|NCT01905657|164693323|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.71||||0.00076|TWO_SIDED|95.0|0.58|0.88|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.88|0.58|0.00076
82501180|NCT01905657|164693323|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.49|0.75|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.75|0.49|<0.00001
82501181|NCT01905657|164693324|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.58||||9e-05|TWO_SIDED|95.0|0.43|0.77|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.77|0.43|0.00009
82501182|NCT01905657|164693324|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.59||||7e-05|TWO_SIDED|95.0|0.45|0.78|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with strongly PD-L1 positive tumors||0.78|0.45|0.00007
82501183|NCT01905657|164693324|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.88||||0.06758|TWO_SIDED|95.0|0.73|1.04|||Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||1.04|0.73|0.06758
82501184|NCT01905657|164693324|SUPERIORITY_OR_OTHER_LEGACY|Hazard Ratio based on stratified Cox regression model with treatment as a covariate and p-value based on stratified log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.79||||0.00462|TWO_SIDED|95.0|0.66|0.94|||Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Docetaxel 75 mg/m\^2|In participants with PD-L1 positive tumors||0.94|0.66|0.00462
82501185|NCT01905657|164693327|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|-2.3||||0.66608|TWO_SIDED|95.0|-12.7|8.2||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage not equal to 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with strongly PD-L1 positive tumors||8.2|-12.7|0.66608
82501186|NCT01905657|164693327|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|22.2|||<|1e-05|TWO_SIDED|95.0|14.0|30.7||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with strongly PD-L1 positive tumors||30.7|14.0|<0.00001
82501187|NCT01905657|164693327|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|8.7||||0.00045|TWO_SIDED|95.0|3.6|13.9||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with PD-L1 positive tumors||13.9|3.6|0.00045
82501188|NCT01905657|164693327|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|9.1||||0.00024|TWO_SIDED|95.0|4.1|14.3||P-value indicated for testing a difference in percentage equal to 0 versus a difference in percentage greater than 0, in accordance with the statistical analysis plan.|Miettinen & Nurminen method||This is an adjusted risk difference estimated by stratified Miettinen \& Nurminen method.|In participants with PD-L1 positive tumors||14.3|4.1|0.00024
82501189|NCT05838742|164693355|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.47|||||TWO_SIDED|95.0|-0.23|1.17|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|1.17|-0.23|
82501190|NCT05838742|164693355|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.25|||||TWO_SIDED|95.0|-0.46|0.95|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|0.95|-0.46|
82501191|NCT05838742|164693355|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.39|||||TWO_SIDED|95.0|-0.31|1.1|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|1.10|-0.31|
82501192|NCT05838742|164693355|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Difference in Posterior Mean Change|0.11|||||TWO_SIDED|95.0|-0.6|0.8|||Mixed Models Analysis|Analyzed using a joint model for change from baseline in average weekly pain score and time to intercurrent event handled using a composite strategy.|||Posterior mean difference with 95% credible interval is reported.|0.80|-0.60|
82501193|NCT02607033|164693366|OTHER|Wilxocon signed Rank test||||||0.028|||||||Wilxocon signed Rank test|||Wilxocon signed Rank test to compare pre to post onset of pain time in the Exercise + Weight loss group. Due to low sample size were unable to compare changes between the Exercise + Weight Loss group and the Exercise only groups.||||0.028
82501194|NCT06092710|164693370|OTHER|Then, to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected.||||||0.05572|||||||Kruskal-Wallis|||Non-parametric tests on patient sensitivity, given the non-normal distribution, (based on the median of the data) were applied to analyse the diﬀerences between the groups (ST1+ ST2 according to the STATUS3 and STATUS4 classification criteria). To analyse any diﬀerences in sensitivity between patient groups, Kruskal-Wallis tests were applied. In this type of analysis, having a p-value greater than 1% and ideally greater than 5% would indicate the absence of diﬀerences between groups.||||0.05572
82501195|NCT06092710|164693370|OTHER|Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected.|||||<|8e-07|||||||Wilcoxon (Mann-Whitney)|||to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.||||<0.0000008
82440234|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-4.0||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.0400
82522909|NCT02954354|164741242|SUPERIORITY||Difference|1.8||||0.8184||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Sore throat||||0.8184
82522910|NCT02954354|164741242|SUPERIORITY||Difference|1.3||||0.9989||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Headache||||0.9989
82562694|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.62|||<|0.001|TWO_SIDED|95.0|-10.42|-6.82||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.82|-10.42|<0.001
82522911|NCT02954354|164741242|SUPERIORITY||Difference|1.7||||0.3706||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Nasal congestion||||0.3706
82501196|NCT06092710|164693370|OTHER|Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.|||||<|1e-07|||||||Wilcoxon (Mann-Whitney)|||to see if the median of a particular group is diﬀerent from 0 (= no sensitivity: not feeling the diﬀerences in airflow induced by the diﬀerent tests given by the operator), Wilcoxon tests were performed on each group of data. If the p-value is small (less than 5%, ideally less than 1%), the null hypothesis that the score is identical to 0 is rejected. In this case, it means that the patients in the test group feel the diﬀerences in airflow depending on their position.||||<0.0000001
82501197|NCT06092710|164693371|SUPERIORITY|||||||1.06e-06||||||Confidence level used: 0.95 Tukey multiple comparisons of means (95% family-wise confidence level)|ANOVA|||Parametric tests on the prediction of patients' pathological status with SFI (Intermediate Final Score) For these analyses, as the SFI score follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value, a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another.||||0.00000106
82501198|NCT06092710|164693371|SUPERIORITY|||||||48||||||Confidence level used: 0.95 Tukey multiple comparisons of means (95% family-wise confidence level)|ANOVA|||"Parametric tests on the prediction of patients' pathological status with SFT score (Final Total score):~For these analyses, as SFT score follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value, a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0000000048
82501199|NCT06092710|164693371|SUPERIORITY||Odds Ratio (OR)|8.73||||7.7e-07|TWO_SIDED||||||Fisher Exact|||"Determination of cut-oﬀ values for SFI:~The Cutoﬀ\_final txt file includes the various sensitivity and specificity calculations as well as the Youden index in order to determine the best cut-oﬀ value (largest Youden). The ROC curves allow the values in the file to be appreciated graphically."||||0.00000077
82501200|NCT06092710|164693371|SUPERIORITY||Odds Ratio (OR)|9.37||||6.9e-07|TWO_SIDED||||||Fisher Exact|||"Determination of cut-oﬀ values for SFT:~The Cutoﬀ\_final txt file includes the various sensitivity and specificity calculations as well as the Youden index in order to determine the best cut-oﬀ value (largest Youden). The ROC curves allow the values in the file to be appreciated graphically."||||0.00000069
82501201|NCT06092710|164693372|SUPERIORITY|||||||0.0142266|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0142266
82501202|NCT06092710|164693372|SUPERIORITY|||||||0.0023308|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0023308
82501203|NCT06092710|164693372|SUPERIORITY|||||||0.0023308|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.0023308
82501204|NCT06092710|164693372|SUPERIORITY|||||||0.9915779|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9915779
82501205|NCT06092710|164693372|SUPERIORITY|||||||0.9999943|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9999943
82501206|NCT06092710|164693372|SUPERIORITY|||||||0.9905111|||||||TUKEY TEST|||"Parametric tests on the prediction of patients' pathological status (SFI and SFT scores):~For these analyses, as the SFI and SFT scores follow a normal distribution, ANOVAs (analyses of variance) were performed. For discrete variables with more than 2 levels of value (STATUS4), a post-hoc 2-to-2 comparison analysis was performed (Tukey) to see which level of the variable diﬀered from one another."||||0.9905111
82501207|NCT05119569|164693373|SUPERIORITY||Rate Ratio|0.313||||0.0022|TWO_SIDED|95.0|0.149|0.658|||Negative Binomial Regression Model|||||0.658|0.149|0.0022
82501208|NCT05119569|164693374|SUPERIORITY||Rate Ratio|0.265||||0.0004|TWO_SIDED|95.0|0.128|0.55|||Negative Binomial Regression Model|||||0.550|0.128|0.0004
82562695|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.908|TWO_SIDED|95.0|-1.39|1.56||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.56|-1.39|0.908
82501209|NCT05119569|164693375|SUPERIORITY||Odds Ratio (OR)|4.005||||0.0117|TWO_SIDED|95.0|1.317|13.078|||Logistic Regression Model|||||13.078|1.317|0.0117
82501210|NCT05119569|164693380|SUPERIORITY||Rate Ratio|0.78||||0.5889|TWO_SIDED|95.0|0.316|1.922|||Negative Binomial Regression Model|||||1.922|0.316|0.5889
82501211|NCT05119569|164693381|SUPERIORITY||Rate Ratio|0.076||||0.0011|TWO_SIDED|95.0|0.016|0.355|||Negative Binomial Regression Model|||||0.355|0.016|0.0011
82501212|NCT05119569|164693382|SUPERIORITY||Rate Ratio|0.104||||0.0038|TWO_SIDED|95.0|0.022|0.481|||Negative Binomial Regression Model|||||0.481|0.022|0.0038
82501213|NCT05119569|164693383|SUPERIORITY||Rate Ratio|0.512||||0.0958|TWO_SIDED|95.0|0.233|1.126|||Negative Binomial Regression Model|||||1.126|0.233|0.0958
82501214|NCT05119569|164693384|SUPERIORITY||Rate Ratio|0.105|||<|0.0001|TWO_SIDED|95.0|0.039|0.283|||Negative Binomial Regression Model|||||0.283|0.039|<0.0001
82501215|NCT05119569|164693385|SUPERIORITY||Rate Ratio|0.053||||0.0001|TWO_SIDED|95.0|0.012|0.233|||Negative Binomial Regression Model|||||0.233|0.012|0.0001
82501216|NCT03700671|164693405|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||A P-value of 0.05 was used as the threshold for significance|ANOVA|||A sample size of 38 using G\*Power 3.1 software was calculated based on previously published data in which the mean difference between HIIT and moderate intensity continuous training (MICT) was 3.2 ml.kg-1.min-1 with a pooled standard deviation of 3 ml.kg-1.min-1. Statistical significance was set at = 0.05 and power set to 0.95. To allow for 10% attrition 42 individuals were recruited to the study||||<0.01
82501217|NCT03700671|164693406|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||0.05 was used as a threshold for significance|ANOVA|||||||<0.01
82501218|NCT03578367|164693430|OTHER|No test performed|Risk Difference (RD)|19.5|||||TWO_SIDED|90.0|5.0|33.1||||||||33.1|5.0|
82501219|NCT03578367|164693430|OTHER|No test performed|Risk Difference (RD)|28.57|||||TWO_SIDED|90.0|12.4|44.8||||||||44.8|12.4|
82501220|NCT03578367|164693431|OTHER|No test performed|Risk Difference (RD)|14.29|||||TWO_SIDED|90.0|-1.7|30.3||||||||30.3|-1.7|
82501221|NCT03578367|164693431|OTHER|No test performed|Risk Difference (RD)|23.81|||||TWO_SIDED|90.0|5.9|41.7||||||||41.7|5.9|
82501222|NCT01705288|164693449|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Intention to Treat Analysis||||0.36
82501223|NCT01705288|164693450|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Intention to Treat Analysis||||0.05
82501224|NCT01705288|164693451|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82501225|NCT01346839|164693477|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Cox|||||||<0.05
82501226|NCT04203238|164693488|SUPERIORITY||Median Difference (Final Values)|0.89|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82501227|NCT01134783|164693489|SUPERIORITY_OR_OTHER|||||||0.707|TWO_SIDED|||||The analysis used hierarchical linear models having repeated measures of the outcome regressed on experimental condition, adjusted for baseline age, sex, race, and household education level as well as wave and college.|Regression, Logistic|||||||0.707
82501228|NCT01134783|164693490|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||The analysis used hierarchical linear models having repeated measures of the outcome regressed on experimental condition, adjusted for baseline age, sex, race, and household education level as well as wave and college.|Regression, Logistic|||||||0.049
82562696|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.956|TWO_SIDED|95.0|-1.43|1.52||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.52|-1.43|0.956
82562697|NCT00696241|164835060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.044|TWO_SIDED|95.0|-2.98|-0.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.04|-2.98|0.044
82501229|NCT04346537|164693497|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< 0.001
82501230|NCT04346537|164693498|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< 0.001
82501231|NCT04346537|164693499|OTHER|Two-one sided t-tests (TOST) -- the 90% confidence interval was required to be contained with 300 and 1300 ohms.|||||<|0.001|||||||Two one-sided t-tests|||||||< 0.001
82501232|NCT02723084|164693600|NON_INFERIORITY|The percentage of participants achieving SVR12 was calculated for each arm and a 2- sided 95% confidence interval (CI) for the difference in SVR12 rates (Arm A minus Arm B) was calculated using the normal approximation to the binomial distribution to assess non-inferiority in SVR12 rates of arm A to arm B. If the lower bound of the CI for the difference was above the noninferiority margin of -10%, then arm A was considered non-inferior to arm B.|Risk Difference (RD)|4.3|||||TWO_SIDED|95.0|-3.5|12.1|||||95% CI was calculated using the normal approximation to the binomial distribution.|Difference in SVR12 rates (Arm A - Arm B)||12.1|-3.5|
82562698|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.03|||<|0.001|TWO_SIDED|95.0|-13.59|-8.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.48|-13.59|<0.001
82501233|NCT02801942|164693623|OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|3.307|||TWO_SIDED|95.0|-4.59|9.21|||||The mean difference in circulating B lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||9.21|-4.59|
82501234|NCT02801942|164693623|OTHER||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|2.398|||TWO_SIDED|95.0|-1.46|8.54|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||8.54|-1.46|
82501235|NCT02801942|164693623|OTHER||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|1.854|||TWO_SIDED|95.0|-6.87|0.86|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||0.86|-6.87|
82501236|NCT02801942|164693623|OTHER||Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|4.482||||95.0|-11.86|6.84|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) in blood has been presented.|||6.84|-11.86|
82501237|NCT02801942|164693624|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|2.658|||TWO_SIDED|95.0|-2.22|8.98|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.98|-2.22|
82501238|NCT02801942|164693624|OTHER||Mean Difference (Final Values)|8.59|STANDARD_ERROR_OF_MEAN|5.833|||TWO_SIDED|95.0|-3.72|20.91|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||20.91|-3.72|
82501239|NCT02801942|164693624|OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|2.347|||TWO_SIDED|95.0|-6.53|3.38|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.38|-6.53|
82501240|NCT02801942|164693624|OTHER||Mean Difference (Final Values)|-8.31|STANDARD_ERROR_OF_MEAN|5.221|||TWO_SIDED|95.0|-19.32|2.71|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.71|-19.32|
82501241|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-0.9|2.75|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.75|-0.90|
82501242|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.07|0.19|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.19|-0.07|
82501243|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-3.41|2.84|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in blood has been presented.|||2.84|-3.41|
82501244|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.1|0.13|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in blood has been presented.|||0.13|-0.10|
82501245|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|95.0|-0.19|0.31|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.31|-0.19|
82440235|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-7.9||||0.0142|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||0.0142
82501246|NCT02801942|164693625|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|1.482|||TWO_SIDED|95.0|-3.23|2.96|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.96|-3.23|
82501247|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|2.231|||TWO_SIDED|95.0|-3.14|6.23|||||The mean difference in B-cells in (Healthy participants versus NOT1D participants) iLN has been presented.|||6.23|-3.14|
82501248|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.25|0.34|||||The mean difference in CD56bright sNK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.25|
82501249|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.253|||TWO_SIDED|95.0|-0.54|0.52|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.52|-0.54|
82501250|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.15|0.1|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.10|-0.15|
82501251|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|-0.21|0.34|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.21|
82501252|NCT02801942|164693626|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.487|||TWO_SIDED|95.0|-1.1|0.96|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.96|-1.10|
82501253|NCT02801942|164693627|OTHER||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.326|||TWO_SIDED|95.0|-1.73|3.8|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.80|-1.73|
82501254|NCT02801942|164693627|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|2.324|||TWO_SIDED|95.0|-7.54|2.16|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in blood has been presented.|||2.16|-7.54|
82501255|NCT02801942|164693627|OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.738|||TWO_SIDED|95.0|-1.12|1.95|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in blood has been presented.|||1.95|-1.12|
82562699|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|||<|0.001|TWO_SIDED|95.0|-14.75|-9.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.65|-14.75|<0.001
82501256|NCT02801942|164693628|OTHER||Mean Difference (Final Values)|6.84|STANDARD_ERROR_OF_MEAN|5.564|||TWO_SIDED|95.0|-4.92|18.6|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||18.60|-4.92|
82501257|NCT02801942|164693628|OTHER||Mean Difference (Final Values)|-7.89|STANDARD_ERROR_OF_MEAN|7.918|||TWO_SIDED|95.0|-24.77|9.0|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) in iLN has been presented.|||9.00|-24.77|
82501258|NCT02801942|164693628|OTHER||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|2.379|||TWO_SIDED|95.0|-6.66|3.73|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.73|-6.66|
82501259|NCT02801942|164693629|OTHER||Mean Difference (Final Values)|1.33|STANDARD_ERROR_OF_MEAN|4.558|||TWO_SIDED|95.0|-8.17|10.84|||||The mean difference in myeloid dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||10.84|-8.17|
82501260|NCT02801942|164693629|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|4.658|||TWO_SIDED|95.0|-11.57|7.86|||||The mean difference in plasmacytoid dendritic cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.86|-11.57|
82501261|NCT02801942|164693630|OTHER||Mean Difference (Final Values)|12.23|STANDARD_ERROR_OF_MEAN|5.658|||TWO_SIDED|95.0|0.38|24.09|||||The mean difference in myeloid dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||24.09|0.38|
82501262|NCT02801942|164693630|OTHER||Mean Difference (Final Values)|-10.87|STANDARD_ERROR_OF_MEAN|6.961|||TWO_SIDED|95.0|-25.52|3.78|||||The mean difference in plasmacytoid dendritic cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.78|-25.52|
82501263|NCT02801942|164693633|OTHER||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|6.329|||TWO_SIDED|95.0|-11.41|14.99|||||The mean difference in CD45RA+ Effector Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||14.99|-11.41|
82501264|NCT02801942|164693633|OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-4.6|4.91|||||The mean difference in Central Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||4.91|-4.60|
82501265|NCT02801942|164693633|OTHER||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|3.297|||TWO_SIDED|95.0|-2.5|11.26|||||The mean difference in Effector Memory CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||11.26|-2.50|
82501266|NCT02801942|164693633|OTHER||Mean Difference (Final Values)|-6.06|STANDARD_ERROR_OF_MEAN|5.729|||TWO_SIDED|95.0|-18.01|5.89|||||The mean difference in Naive CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||5.89|-18.01|
82501267|NCT02801942|164693633|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-0.67|0.6|||||The mean difference in Stem Cell Memory-like CD8 (Healthy participants versus NOT1D participants) in blood has been presented.|||0.60|-0.67|
82501268|NCT02801942|164693634|OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|3.133|||TWO_SIDED|95.0|-5.33|7.73|||||The mean difference in CD45RA+ Effector Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.73|-5.33|
82501269|NCT02801942|164693634|OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.466|||TWO_SIDED|95.0|-3.73|2.41|||||The mean difference in Central Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.41|-3.73|
82501270|NCT02801942|164693634|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|-7.67|3.96|||||The mean difference in Effector Memory CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.96|-7.67|
82501271|NCT02801942|164693634|OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|6.342|||TWO_SIDED|95.0|-12.54|13.87|||||The mean difference in Naive CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||13.87|-12.54|
82501272|NCT02801942|164693634|OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.492|||TWO_SIDED|95.0|-1.71|0.36|||||The mean difference in Stem Cell Memory-like CD8 (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.36|-1.71|
82501273|NCT02801942|164693637|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.236|||TWO_SIDED|95.0|-0.84|0.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.16|-0.84|
82501274|NCT02801942|164693638|OTHER||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|4.362|||TWO_SIDED|95.0|-15.37|2.96|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.96|-15.37|
82501275|NCT02801942|164693639|OTHER||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.269|||TWO_SIDED|95.0|-1.61|3.68|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.68|-1.61|
82501276|NCT02801942|164693639|OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|3.152|||TWO_SIDED|95.0|-8.12|5.03|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||5.03|-8.12|
82501277|NCT02801942|164693639|OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|2.089|||TWO_SIDED|95.0|-4.59|4.13|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||4.13|-4.59|
82501278|NCT02801942|164693639|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|3.835|||TWO_SIDED|95.0|-7.08|8.92|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||8.92|-7.08|
82501279|NCT02801942|164693639|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|95.0|-0.4|0.21|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.21|-0.40|
82501280|NCT02801942|164693640|OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.236||||95.0|-0.23|0.75|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.75|-0.23|
82501281|NCT02801942|164693640|OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|3.943|||TWO_SIDED|95.0|-10.2|6.29|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.29|-10.20|
82501282|NCT02801942|164693640|OTHER||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.621|||TWO_SIDED|95.0|-5.38|9.69|||||The mean difference in Effector Memory Conv T cells(Healthy participants versus NOT1D participants) in iLN has been presented.|||9.69|-5.38|
82624077|NCT04268303|164963523|SUPERIORITY|||||||0.0075|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 30 minutes post-dose||||0.0075
82501283|NCT02801942|164693640|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|4.629|||TWO_SIDED|95.0|-10.47|8.86|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.86|-10.47|
82501284|NCT02801942|164693640|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.268|||TWO_SIDED|95.0|-0.77|0.34|||||The mean difference in Stem cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.34|-0.77|
82624078|NCT04268303|164963523|SUPERIORITY|||||||0.0032|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 20 minutes post-dose||||0.0032
82501285|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|2.556|||TWO_SIDED|95.0|-10.42|0.25|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.25|-10.42|
82501286|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.15|0.07|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.07|-0.15|
82501287|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.428|||TWO_SIDED|95.0|-3.08|2.88|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.88|-3.08|
82501288|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|4.294|||TWO_SIDED|95.0|-6.87|11.05|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||11.05|-6.87|
82501289|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|2.382|||TWO_SIDED|95.0|-4.94|5.0|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||5.00|-4.94|
82501290|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.112|||TWO_SIDED|95.0|-2.31|2.32|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.32|-2.31|
82501291|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|95.0|-2.73|1.55|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.55|-2.73|
82501292|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|1.57|STANDARD_ERROR_OF_MEAN|1.474|||TWO_SIDED|95.0|-1.51|4.64|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||4.64|-1.51|
82501293|NCT02801942|164693641|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.504|||TWO_SIDED|95.0|-1.05|1.05|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.05|-1.05|
82501294|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|3.607|||TWO_SIDED|95.0|-5.99|9.07|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||9.07|-5.99|
82624079|NCT04268303|164963523|SUPERIORITY|||||||0.4097|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 20 minutes post-dose||||0.4097
82501295|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.855|||TWO_SIDED|95.0|-2.43|1.18|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.18|-2.43|
82501296|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.391|||TWO_SIDED|95.0|-2.49|3.31|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.31|-2.49|
82501297|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.824|||TWO_SIDED|95.0|-9.39|2.39|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.39|-9.39|
82501298|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.738|||TWO_SIDED|95.0|-1.29|1.78|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.78|-1.29|
82501299|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.544|||TWO_SIDED|95.0|-0.73|1.54|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.54|-0.73|
82501300|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|1.246|||TWO_SIDED|95.0|-2.12|3.07|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.07|-2.12|
82501301|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|2.641|||TWO_SIDED|95.0|-2.45|8.55|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||8.55|-2.45|
82501302|NCT02801942|164693642|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|95.0|-0.92|0.96|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||0.96|-0.92|
82501303|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|-4.83|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-10.71|1.05|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.05|-10.71|
82501304|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.953|||TWO_SIDED|95.0|-2.82|1.16|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.16|-2.82|
82501305|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|-2.88|STANDARD_ERROR_OF_MEAN|1.536||||95.0|-6.08|0.33|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.33|-6.08|
82501306|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|0.963|||TWO_SIDED|95.0|-0.2|3.81|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.81|-0.20|
82501307|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.289|||TWO_SIDED|95.0|-2.99|2.39|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.39|-2.99|
82501308|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|1.907|||TWO_SIDED|95.0|-0.59|7.36|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.36|-0.59|
82501309|NCT02801942|164693643|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|1.413|||TWO_SIDED|95.0|-4.11|1.78|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.78|-4.11|
82501310|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.918|||TWO_SIDED|95.0|-5.6|6.63|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.63|-5.60|
82562700|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.41|||<|0.001|TWO_SIDED|95.0|-15.97|-10.86||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.86|-15.97|<0.001
82501311|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.842|||TWO_SIDED|95.0|-7.93|-0.26|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||-0.26|-7.93|
82501312|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|1.209|||TWO_SIDED|95.0|-4.34|1.24|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.24|-4.34|
82501313|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.725|||TWO_SIDED|95.0|-4.51|2.77|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.77|-4.51|
82501314|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|2.193|||TWO_SIDED|95.0|-5.02|4.09|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.09|-5.02|
82501315|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|3.405|||TWO_SIDED|95.0|-6.52|7.68|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.68|-6.52|
82501316|NCT02801942|164693644|OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.811|||TWO_SIDED|95.0|-2.21|1.4|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.40|-2.21|
82501317|NCT02801942|164693645|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.601|||TWO_SIDED|95.0|-0.86|1.65|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.65|-0.86|
82501318|NCT02801942|164693646|OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.929|||TWO_SIDED|95.0|-2.18|1.7|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||1.70|-2.18|
82501319|NCT02801942|164693647|OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|95.0|0.02|1.87|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.87|0.02|
82501320|NCT02801942|164693647|OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.04|0.38|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.38|-2.04|
82501321|NCT02801942|164693648|OTHER||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|4.299|||TWO_SIDED|95.0|-11.81|6.27|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.27|-11.81|
82501322|NCT02801942|164693648|OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|95.0|-0.04|4.44|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.44|-0.04|
82440236|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-6.5||||0.0071|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.0071
82501323|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|2.214|||TWO_SIDED|95.0|-5.91|3.32|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.32|-5.91|
82501324|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|0.28|1.57|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|0.28|
82501325|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|4.21|STANDARD_ERROR_OF_MEAN|3.017|||TWO_SIDED|95.0|-2.08|10.51|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||10.51|-2.08|
82501326|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.985|||TWO_SIDED|95.0|-3.03|1.08|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.08|-3.03|
82501327|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|-4.86|STANDARD_ERROR_OF_MEAN|3.802|||TWO_SIDED|95.0|-12.8|3.07|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.07|-12.80|
82501328|NCT02801942|164693649|OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|4.733|||TWO_SIDED|95.0|-1.27|18.47|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||18.47|-1.27|
82501329|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|6.53|STANDARD_ERROR_OF_MEAN|4.905||||95.0|-3.78|16.85|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||16.85|-3.78|
82501330|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|-8.54|STANDARD_ERROR_OF_MEAN|4.595|||TWO_SIDED|95.0|-18.17|1.1|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.10|-18.17|
82501331|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|2.519|||TWO_SIDED|95.0|-3.23|7.45|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.45|-3.23|
82501332|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-0.98|7.59|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) in blood has been presented.|||7.59|-0.98|
82624080|NCT04268303|164963523|SUPERIORITY|||||||0.0457|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 10 minutes post-dose||||0.0457
82501333|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|4.026|||TWO_SIDED|95.0|-8.23|8.67|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||8.67|-8.23|
82562701|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.879|TWO_SIDED|95.0|-1.9|2.22||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.22|-1.90|0.879
82440237|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-5.6||||0.0137|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.0137
82501334|NCT02801942|164693650|OTHER||Mean Difference (Final Values)|8.31|STANDARD_ERROR_OF_MEAN|4.595|||TWO_SIDED|95.0|-1.32|17.95|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||17.95|-1.32|
82501335|NCT02801942|164693651|OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.601|||TWO_SIDED|95.0|-0.94|1.57|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|-0.94|
82501336|NCT02801942|164693651|OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|95.0|0.0|1.28|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.28|0.00|
82501337|NCT02801942|164693651|OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|95.0|-0.33|1.11|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.11|-0.33|
82501338|NCT02801942|164693651|OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.78|0.47|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.47|-0.78|
82501339|NCT02801942|164693652|OTHER||Mean Difference (Final Values)|1.78|STANDARD_ERROR_OF_MEAN|0.989|||TWO_SIDED|95.0|-0.3|3.86|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.86|-0.30|
82501340|NCT02801942|164693652|OTHER||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|4.716|||TWO_SIDED|95.0|-12.45|7.35|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.35|-12.45|
82501341|NCT02801942|164693652|OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.957|||TWO_SIDED|95.0|-1.86|2.14|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||2.14|-1.86|
82501342|NCT02801942|164693652|OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|0.872|||TWO_SIDED|95.0|0.9|4.58|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||4.58|0.90|
82624081|NCT04268303|164963523|SUPERIORITY|||||||0.972|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 10 minutes post-dose||||0.9720
82501343|NCT02801942|164693653|OTHER||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|1.344|||TWO_SIDED|95.0|-2.23|3.38|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||3.38|-2.23|
82501344|NCT02801942|164693653|OTHER||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|0.1|1.57|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||1.57|0.10|
82501345|NCT02801942|164693653|OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.594|||TWO_SIDED|95.0|-0.41|2.07|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||2.07|-0.41|
82501346|NCT02801942|164693653|OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|95.0|-1.54|0.92|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) in blood has been presented.|||0.92|-1.54|
82501347|NCT02801942|164693654|OTHER||Mean Difference (Final Values)|3.01|STANDARD_ERROR_OF_MEAN|1.728|||TWO_SIDED|95.0|-0.62|6.63|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||6.63|-0.62|
82501348|NCT02801942|164693654|OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|4.392|||TWO_SIDED|95.0|-11.33|7.21|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||7.21|-11.33|
82501349|NCT02801942|164693654|OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|2.042|||TWO_SIDED|95.0|-14.56|17.13|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||17.13|-14.56|
82501350|NCT02801942|164693654|OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|0.843|||TWO_SIDED|95.0|0.36|3.92|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) in iLN has been presented.|||3.92|0.36|
82501351|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|3.097|||TWO_SIDED|95.0|-4.24|8.83|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.83|-4.24|
82501352|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|2.334|||TWO_SIDED|95.0|-0.47|9.39|||||The mean difference in Circulating B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||9.39|-0.47|
82501353|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|11.54|STANDARD_ERROR_OF_MEAN|7.693|||TWO_SIDED|95.0|-5.24|28.32|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||28.32|-5.24|
82501354|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|5.64|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-7.73|19.01|||||The mean difference in Classical B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||19.01|-7.73|
82501355|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|3.336|||TWO_SIDED|95.0|-8.46|5.71|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.71|-8.46|
82501356|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|1.755|||TWO_SIDED|95.0|-5.54|1.98|||||The mean difference in Double Negative B Lymphocytes (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.98|-5.54|
82501357|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-21.58|4.98|||||The mean difference in Naive B Lymphocytes (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.98|-21.58|
82501358|NCT02801942|164693655|OTHER||Mean Difference (Final Values)|-8.31|STANDARD_ERROR_OF_MEAN|6.019|||TWO_SIDED|95.0|-21.49|4.87|||||The mean difference in Naive B Lymphocytes by (Healthy participants versus NOT1D participants) core biopsy method has been presented.|||4.87|-21.49|
82501359|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|2.538|||TWO_SIDED|95.0|-0.54|10.48|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||10.48|-0.54|
82501360|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|95.0|-8.37|4.61|||||The mean difference in B-cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.61|-8.37|
82501361|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|-0.26|0.54|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.54|-0.26|
82501362|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.147|||TWO_SIDED|95.0|-0.37|0.27|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.27|-0.37|
82501363|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.402|||TWO_SIDED|95.0|-1.27|0.49|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.49|-1.27|
82501364|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.312|||TWO_SIDED|95.0|-0.33|1.07|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.07|-0.33|
82501365|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|95.0|-0.16|0.13|||||The mean difference in CD56lo CD16- by (Healthy participants versus NOT1D participants) FNA method has been presented.|||0.13|-0.16|
82501366|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|95.0|-0.17|0.12|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.12|-0.17|
82501367|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED|95.0|-0.03|0.47|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.47|-0.03|
82501368|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|95.0|-0.59|0.4|||||The mean difference in Dendritic cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.40|-0.59|
82501369|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.766|||TWO_SIDED|95.0|-1.72|1.6|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.60|-1.72|
82501370|NCT02801942|164693656|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.417|||TWO_SIDED|95.0|-0.99|0.82|||||The mean difference in NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.82|-0.99|
82501371|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|13.72|STANDARD_ERROR_OF_MEAN|7.475|||TWO_SIDED|95.0|-2.72|30.15|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||30.15|-2.72|
82501372|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|7.566|||TWO_SIDED|95.0|-16.85|16.78|||||The mean difference in CD56bright NK cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||16.78|-16.85|
82501373|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|-20.03|STANDARD_ERROR_OF_MEAN|8.586|||TWO_SIDED|95.0|-38.98|-1.08|||||The mean difference in CD56lo CD16+ (Healthy participants versus NOT1D participants) by FNA method has been presented.|||-1.08|-38.98|
82501374|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|4.25|STANDARD_ERROR_OF_MEAN|12.739|||TWO_SIDED|95.0|-24.14|32.65|||||The mean difference in CD56lo CD16+ by (Healthy participants versus NOT1D participants) core biopsy method has been presented.|||32.65|-24.14|
82501375|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|2.429|||TWO_SIDED|95.0|-5.54|5.26|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.26|-5.54|
82501376|NCT02801942|164693657|OTHER||Mean Difference (Final Values)|-2.79|STANDARD_ERROR_OF_MEAN|4.148|||TWO_SIDED|95.0|-12.31|6.73|||||The mean difference in CD56lo CD16- (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.73|-12.31|
82501377|NCT02801942|164693658|OTHER||Mean Difference (Final Values)|8.25|STANDARD_ERROR_OF_MEAN|7.673|||TWO_SIDED|95.0|-8.58|25.08|||||The mean difference in Myeloid Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||25.08|-8.58|
82501378|NCT02801942|164693658|OTHER||Mean Difference (Final Values)|16.22|STANDARD_ERROR_OF_MEAN|6.189|||TWO_SIDED|95.0|3.17|29.26|||||The mean difference in Myeloid Dendritic cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||29.26|3.17|
82501379|NCT02801942|164693658|OTHER||Mean Difference (Final Values)|-7.89|STANDARD_ERROR_OF_MEAN|10.509|||TWO_SIDED|95.0|-31.03|15.25|||||The mean difference in Plasmacytoid Dendritic cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||15.25|-31.03|
82501380|NCT02801942|164693658|OTHER||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|5.781|||TWO_SIDED|95.0|-26.04|-1.66|||||The mean difference in (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||-1.66|-26.04|
82501381|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|3.561|||TWO_SIDED|95.0|-9.05|5.82|||||The mean difference in CD45RA+ Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.82|-9.05|
82501382|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|4.01|STANDARD_ERROR_OF_MEAN|3.418|||TWO_SIDED|95.0|-3.13|11.16|||||The mean difference in CD45RA+ Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||11.16|-3.13|
82501383|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|1.428|||TWO_SIDED|95.0|-3.14|2.82|||||The mean difference in Central Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.82|-3.14|
82501384|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|1.851|||TWO_SIDED|95.0|-5.03|2.71|||||The mean difference in Central Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.71|-5.03|
82501385|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|3.132|||TWO_SIDED|95.0|-8.65|4.43|||||The mean difference in Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.43|-8.65|
82501386|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|3.071|||TWO_SIDED|95.0|-8.0|4.81|||||The mean difference in Effector Memory CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.81|-8.00|
82501387|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|3.51|STANDARD_ERROR_OF_MEAN|6.594|||TWO_SIDED|95.0|-10.21|17.24|||||The mean difference in Naive CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||17.24|-10.21|
82501388|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|7.155|||TWO_SIDED|95.0|-17.1|12.74|||||The mean difference in Naive CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||12.74|-17.10|
82501389|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.708|||TWO_SIDED|95.0|-2.42|0.58|||||The mean difference in Stem Cell Memory-like CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.58|-2.42|
82501390|NCT02801942|164693660|OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.372|||TWO_SIDED|95.0|-1.19|0.35|||||The mean difference in Stem Cell Memory-like CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.35|-1.19|
82501391|NCT02801942|164693662|OTHER||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|2.545|||TWO_SIDED|95.0|-11.56|0.78|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.78|-11.56|
82501392|NCT02801942|164693662|OTHER||Mean Difference (Final Values)|-7.03|STANDARD_ERROR_OF_MEAN|7.114|||TWO_SIDED|95.0|-22.22|8.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by core biopsy FNA method has been presented.|||8.16|-22.22|
82501393|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.358|||TWO_SIDED|95.0|-0.36|1.14|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.14|-0.36|
82501394|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|95.0|-0.25|0.52|||||The mean difference in CD45RA+ Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.52|-0.25|
82501395|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-9.02|8.64|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.64|-9.02|
82501396|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|-3.72|STANDARD_ERROR_OF_MEAN|4.223|||TWO_SIDED|95.0|-12.57|5.13|||||The mean difference in Central Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.13|-12.57|
82501397|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|2.25|STANDARD_ERROR_OF_MEAN|4.034|||TWO_SIDED|95.0|-6.16|10.66|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||10.66|-6.16|
82501398|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|3.994|||TWO_SIDED|95.0|-6.27|10.39|||||The mean difference in Effector Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.39|-6.27|
82501399|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|5.727|||TWO_SIDED|95.0|-14.09|9.92|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.92|-14.09|
82501400|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|4.976|||TWO_SIDED|95.0|-9.91|10.87|||||The mean difference in Naive Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.87|-9.91|
82501401|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.314|||TWO_SIDED|95.0|-0.67|0.65|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.65|-0.67|
82501402|NCT02801942|164693663|OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.325|||TWO_SIDED|95.0|-1.1|0.26|||||The mean difference in Stem Cell Memory-like Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.26|-1.10|
82501403|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|4.671|||TWO_SIDED|95.0|-2.8|16.81|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||16.81|-2.80|
82501404|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-3.93|STANDARD_ERROR_OF_MEAN|4.828|||TWO_SIDED|95.0|-14.02|6.17|||||The mean difference in TFH cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.17|-14.02|
82501405|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.651|||TWO_SIDED|95.0|-2.69|0.16|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.16|-2.69|
82501406|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|1.507|||TWO_SIDED|95.0|-3.21|3.24|||||The mean difference in PD-1+ ICOS+ TFH cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.24|-3.21|
82501407|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|95.0|-2.78|4.33|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.33|-2.78|
82501408|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.339|||TWO_SIDED|95.0|-2.75|2.85|||||The mean difference in TH17 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.85|-2.75|
82501409|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|3.631|||TWO_SIDED|95.0|-8.56|6.63|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.63|-8.56|
82501410|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-6.03|STANDARD_ERROR_OF_MEAN|2.708|||TWO_SIDED|95.0|-11.69|-0.38|||||The mean difference in TH1 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||-0.38|-11.69|
82501411|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.889|||TWO_SIDED|95.0|-1.98|1.78|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.78|-1.98|
82501412|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.787|||TWO_SIDED|95.0|-1.07|2.24|||||The mean difference in TH1 TH17 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.24|-1.07|
82501413|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.613|||TWO_SIDED|95.0|-0.85|1.72|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.72|-0.85|
82501414|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|95.0|-0.8|1.56|||||The mean difference in TH1 TH17 TH2 T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.56|-0.80|
82501415|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|1.546|||TWO_SIDED|95.0|-2.71|3.76|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.76|-2.71|
82501416|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-2.95|3.79|||||The mean difference in TH1 TH2 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.79|-2.95|
82501417|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.356|||TWO_SIDED|95.0|-4.84|9.14|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.14|-4.84|
82501418|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|2.481|||TWO_SIDED|95.0|-1.25|9.15|||||The mean difference in TH2 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||9.15|-1.25|
82501419|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.627|||TWO_SIDED|95.0|-1.28|1.38|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.38|-1.28|
82501420|NCT02801942|164693664|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.438|||TWO_SIDED|95.0|-0.93|0.91|||||The mean difference in TH22 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.91|-0.93|
82501421|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-7.4|8.0|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.00|-7.40|
82501422|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|2.694|||TWO_SIDED|95.0|-4.9|6.35|||||The mean difference in TFH cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.35|-4.90|
82501423|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|2.377|||TWO_SIDED|95.0|-9.89|0.08|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||0.08|-9.89|
82501424|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-3.29|STANDARD_ERROR_OF_MEAN|1.682|||TWO_SIDED|95.0|-6.82|0.24|||||The mean difference in TH1 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||0.24|-6.82|
82501425|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|95.0|-2.67|2.1|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.10|-2.67|
82501426|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|1.929|||TWO_SIDED|95.0|-7.2|1.59|||||The mean difference in TH1 TH17 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.59|-7.20|
82501427|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|2.117|||TWO_SIDED|95.0|-5.98|3.11|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.11|-5.98|
82501428|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.047|||TWO_SIDED|95.0|-4.59|3.99|||||The mean difference in TH1 TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.99|-4.59|
82501429|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|2.645|||TWO_SIDED|95.0|-6.99|4.06|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.06|-6.99|
82501430|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|2.185|||TWO_SIDED|95.0|-4.05|5.11|||||The mean difference in TH17 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.11|-4.05|
82501431|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|4.299|||TWO_SIDED|95.0|-11.23|6.73|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.73|-11.23|
82501432|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|3.42|STANDARD_ERROR_OF_MEAN|3.472|||TWO_SIDED|95.0|-3.84|10.67|||||The mean difference in TH2 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.67|-3.84|
82501433|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|1.153|||TWO_SIDED|95.0|-3.3|2.0|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.00|-3.30|
82501434|NCT02801942|164693665|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.869|||TWO_SIDED|95.0|-2.06|1.72|||||The mean difference in TH22 cells-like Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.72|-2.06|
82501435|NCT02801942|164693666|OTHER||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|1.304|||TWO_SIDED|95.0|-2.27|3.19|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||3.19|-2.27|
82501436|NCT02801942|164693666|OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.056|||TWO_SIDED|95.0|-3.24|1.36|||||The mean difference in Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||1.36|-3.24|
82501437|NCT02801942|164693667|OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|5.069|||TWO_SIDED|95.0|-11.91|9.58|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.58|-11.91|
82501438|NCT02801942|164693667|OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|5.301|||TWO_SIDED|95.0|-15.85|7.1|||||The mean difference in CD69+ CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||7.10|-15.85|
82501439|NCT02801942|164693667|OTHER||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|1.374|||TWO_SIDED|95.0|-1.62|4.59|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.59|-1.62|
82501440|NCT02801942|164693667|OTHER||Mean Difference (Final Values)|2.91|STANDARD_ERROR_OF_MEAN|1.291|||TWO_SIDED|95.0|-0.05|5.88|||||The mean difference in Ki67+ CD8 cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||5.88|-0.05|
82501441|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|4.86|STANDARD_ERROR_OF_MEAN|3.083|||TWO_SIDED|95.0|-1.6|11.31|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||11.31|-1.60|
82501442|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|8.21|STANDARD_ERROR_OF_MEAN|6.78|||TWO_SIDED|95.0|-6.15|22.57|||||The mean difference in CD15s+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||22.57|-6.15|
82501443|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|-11.19|STANDARD_ERROR_OF_MEAN|5.812|||TWO_SIDED|95.0|-23.48|1.11|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||1.11|-23.48|
82501444|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|-5.89|STANDARD_ERROR_OF_MEAN|3.855|||TWO_SIDED|95.0|-14.14|2.37|||||The mean difference in CD69+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.37|-14.14|
82501445|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|1.65|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|95.0|-3.54|6.84|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.84|-3.54|
82501446|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|2.57|STANDARD_ERROR_OF_MEAN|2.937|||TWO_SIDED|95.0|-3.84|8.98|||||The mean difference in Helios+ Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||8.98|-3.84|
82501447|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|2.781|||TWO_SIDED|95.0|-2.67|9.12|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||9.12|-2.67|
82501448|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|3.38|STANDARD_ERROR_OF_MEAN|1.337|||TWO_SIDED|95.0|0.55|6.21|||||The mean difference in Ki67+ T Reg cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.21|0.55|
82501449|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|4.736|||TWO_SIDED|95.0|-11.49|8.58|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.58|-11.49|
82501450|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|1.88|STANDARD_ERROR_OF_MEAN|4.142|||TWO_SIDED|95.0|-6.81|10.58|||||The mean difference in Memory Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||10.58|-6.81|
82501451|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|10.45|STANDARD_ERROR_OF_MEAN|5.79|||TWO_SIDED|95.0|-2.01|22.92|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||22.92|-2.01|
82501452|NCT02801942|164693668|OTHER||Mean Difference (Final Values)|6.17|STANDARD_ERROR_OF_MEAN|4.913|||TWO_SIDED|95.0|-4.24|16.59|||||The mean difference in Resting Reg T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||16.59|-4.24|
82501453|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|0.696|||TWO_SIDED|95.0|-0.08|2.83|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.83|-0.08|
82501454|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|1.324|||TWO_SIDED|95.0|-0.61|4.98|||||The mean difference in CD15s+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.98|-0.61|
82501455|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|6.389|||TWO_SIDED|95.0|-14.66|12.85|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||12.85|-14.66|
82501456|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|-4.19|STANDARD_ERROR_OF_MEAN|4.862|||TWO_SIDED|95.0|-14.71|6.33|||||The mean difference in CD69+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.33|-14.71|
82501457|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.234|||TWO_SIDED|95.0|-2.73|2.47|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||2.47|-2.73|
82501458|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.859|||TWO_SIDED|95.0|-1.45|2.28|||||The mean difference in Helios+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||2.28|-1.45|
82501459|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|1.205|||TWO_SIDED|95.0|0.64|5.78|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||5.78|0.64|
82501460|NCT02801942|164693669|OTHER||Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|0.712|||TWO_SIDED|95.0|0.75|3.79|||||The mean difference in Ki67+ Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.79|0.75|
82501461|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|0.4|6.15|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||6.15|0.40|
82501462|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|2.109|||TWO_SIDED|95.0|-1.68|7.17|||||The mean difference in CD15s+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||7.17|-1.68|
82501463|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|6.712|||TWO_SIDED|95.0|-14.49|14.48|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||14.48|-14.49|
82501464|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|-4.12|STANDARD_ERROR_OF_MEAN|3.947|||TWO_SIDED|95.0|-12.67|4.43|||||The mean difference in CD69+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||4.43|-12.67|
82501465|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|1.33|STANDARD_ERROR_OF_MEAN|2.967|||TWO_SIDED|95.0|-5.48|8.13|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||8.13|-5.48|
82501466|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|2.287|||TWO_SIDED|95.0|-4.36|6.84|||||The mean difference in Helios+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||6.84|-4.36|
82501467|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|2.69|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|95.0|0.54|4.84|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) by FNA method has been presented.|||4.84|0.54|
82501468|NCT02801942|164693670|OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|0.737|||TWO_SIDED|95.0|0.03|3.13|||||The mean difference in Ki67+ Memory Conv T cells (Healthy participants versus NOT1D participants) by core biopsy method has been presented.|||3.13|0.03|
82501469|NCT04615923|164693698|SUPERIORITY||Disease Rate Ratio|0.99|STANDARD_DEVIATION|0.103|||TWO_SIDED|95.0|0.801|1.207||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. Pridopidine slowed progression) was (0.5475). NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by verdiperstat relative to placebo.Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.207|0.801|
82501470|NCT04615923|164693700|SUPERIORITY||Median Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.334||0.78|TWO_SIDED|95.0|-0.75|0.57|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.57|-0.75|0.78
82501471|NCT04615923|164693701|SUPERIORITY||Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.217||0.6594|TWO_SIDED|95.0|-0.33|0.52|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.52|-0.33|0.6594
82501472|NCT04615923|164693702|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|1.745||0.7918|TWO_SIDED|95.0|-3.89|2.96|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||2.96|-3.89|0.7918
82501473|NCT04615923|164693703|SUPERIORITY||Median Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.426||0.9903|TWO_SIDED|95.0|-0.83|0.84|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||0.84|-0.83|0.9903
82501474|NCT04615923|164693704|SUPERIORITY|Analysis performed using interval-censored survival analysis. This type of model accommodates interval censoring between ALSFRS-R assessments|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.69|1.27|||Regression, Cox|Interval censored cox model adjusted for time since symptom onset, pre-baseline change in ALSFRS-R, baseline use of edaravone, riluzole, and neudexta||||1.27|0.69|
82501475|NCT04615923|164693705|SUPERIORITY||Mean Difference (Net)|-1.78|STANDARD_ERROR_OF_MEAN|3.285||0.5888|TWO_SIDED|95.0|-8.23|4.67|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Pridopidine 24-week change from baseline relative to placebo 24-week change from baseline.|||4.67|-8.23|0.5888
82501476|NCT04615923|164693706|SUPERIORITY|||||||0.969|||||||Log Rank|||||||0.9690
82501477|NCT01034462|164693745|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.095||||0.0051|TWO_SIDED|95.0|-5.256|-0.935|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.935|-5.256|0.0051
82501478|NCT01034462|164693746|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.632||||0.001|TWO_SIDED|95.0|-4.193|-1.07|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-1.070|-4.193|0.0010
82501479|NCT00708643|164693747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0047|STANDARD_ERROR_OF_MEAN|2.2863|||TWO_SIDED|98.75|-3.0047|2.7153|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|The alternative hypothesis is that narafilcon A will provide a lower level of limbal hyperemia than the habitual lens.||2.7153|-3.0047|
82501480|NCT00708643|164693748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0804|STANDARD_ERROR_OF_MEAN|0.7605|||TWO_SIDED|99.0|-0.0804|1.8821|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides better comfort than the habitual lens by having a lower rating on the scale.||1.8821|-0.0804|
82501481|NCT00708643|164693749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2228|STANDARD_ERROR_OF_MEAN|1.7002|||TWO_SIDED|99.0|0.2228|4.6564|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|The alternative hypothesis is that narafilcon A provides a lowe level of upper lid margin staining than the habitual lens.||4.6564|0.2228|
82501482|NCT00708643|164693750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2596|STANDARD_ERROR_OF_MEAN|1.1873|||TWO_SIDED|98.75|1.2596|4.2599|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus the habitual lens.|||4.2599|1.2596|
82501483|NCT00708643|164693751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8625|STANDARD_ERROR_OF_MEAN|2.3407|||TWO_SIDED|98.75|-0.8625|5.0524|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides a lower level of tarsal hyperemia than the habitual lens.||5.0524|-0.8625|
82501484|NCT00708643|164693752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.241|STANDARD_ERROR_OF_MEAN|1.6975|||TWO_SIDED|98.75|-0.241|4.0043|||Mixed Models Analysis||The mean difference is calculated as narafilcon A minus habitual lens.|The alternative hypothesis is that narafilcon A provides lower levels of corneal staining than the habitual lens.||4.0043|-0.2410|
82501485|NCT01129960|164693788|SUPERIORITY_OR_OTHER|||||||0.3726|||||||Dunnett's test (analysis of covariance)|||||||0.3726
82501486|NCT01129960|164693788|SUPERIORITY_OR_OTHER|||||||0.8034|||||||Dunnett's test (analysis of covariance)|||||||0.8034
82501487|NCT01129960|164693788|SUPERIORITY_OR_OTHER|||||||0.1391|||||||Dunnett's test (analysis of covariance)|||||||0.1391
82501488|NCT02622321|164693802|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.13|||<|0.0001|TWO_SIDED|95.0|0.057|0.277||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (less than \[\<\] 9 or greater than or equal to \[\>/=\] 9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.277|0.057|<0.0001
82501489|NCT02622321|164693803|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.2|||<|0.0001|TWO_SIDED|95.0|0.102|0.375||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.375|0.102|<0.0001
82501490|NCT02622321|164693804|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.11|||<|0.0001|TWO_SIDED|95.0|0.055|0.218||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for all bleeds was performed using an NB regression model.||0.218|0.055|<0.0001
82501491|NCT02622321|164693805|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.031|0.198||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for treated bleeds was performed using an NB regression model.||0.198|0.031|<0.0001
82522912|NCT02954354|164741242|SUPERIORITY||Difference|-0.1||||0.9973||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Feverishness or chills||||0.9973
82501492|NCT02622321|164693806|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.11||||0.005|TWO_SIDED|95.0|0.025|0.52||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.520|0.025|0.0050
82501493|NCT02622321|164693807|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.119|0.435||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for all bleeds was performed using an NB regression model.||0.435|0.119|<0.0001
82501494|NCT02622321|164693808|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.21||||0.0003|TWO_SIDED|95.0|0.089|0.486||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Non-Stratified Wald Test|||This intra-participant comparison of ABR for treated bleeds was performed using an NB regression model.||0.486|0.089|0.0003
82501495|NCT02622321|164693809|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.037|0.154||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.154|0.037|<0.0001
82501496|NCT02622321|164693810|SUPERIORITY_OR_OTHER_LEGACY||ABR Ratio|0.05||||0.0002|TWO_SIDED|95.0|0.009|0.227||Statistical significance was controlled at a two-sided alpha level of 0.05 based on a Wald testing procedure.|Stratified Wald Test|||Analysis was performed using an NB regression model, which accounted for different follow-up times, with the participant's number of bleeds as a function of randomization and the time that each participant stays in the study included as an offset in the model. The model also included the number of bleeds (\<9 or \>/=9) in the last 24 weeks prior to study entry as a stratification factor in the randomization.||0.227|0.009|0.0002
82501497|NCT02622321|164693814|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|21.55||||0.0029|TWO_SIDED|95.0|7.89|35.22||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 25. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm. Analysis was performed using Analysis of Covariance (ANCOVA).||35.22|7.89|0.0029
82501498|NCT02622321|164693815|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|14.01||||0.0019|TWO_SIDED|95.0|5.56|22.45||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 25. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||22.45|5.56|0.0019
82501499|NCT02622321|164693816|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-9.72||||0.0171|TWO_SIDED|95.0|-17.62|-1.82||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 29. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||-1.82|-17.62|0.0171
82501500|NCT02622321|164693817|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.16||||0.0014|TWO_SIDED|95.0|-0.25|-0.07||Statistical significance was controlled at a two-sided alpha level of 0.05.|ANCOVA|||Actual number of participants included for inferential statistics in Arm A is 29. Means adjusted for covariates: baseline score, treatment group and treatment by baseline interaction arm.||-0.07|-0.25|0.0014
82501501|NCT00965718|164693838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.123||||||Global health status scores at baseline and final observation point were compared via a 2-sided t-test.|t-test, 2 sided|||||||0.123
82501502|NCT00147199|164693885|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate|20.0||||0.00044|TWO_SIDED|95.0|8.0|32.8|||ANCOVA|Lowest rank was assigned for death, discontinuation due to disease progression, and for patients who initiated additional approved PAH therapy.||Sample size was calculated based on the primary endpoint; change in 6MWD at Week 12. Assuming a between-treatment difference of 35m, a standard deviation of 75m, and a type I (alpha) error of 0.05 (i.e., two-sided p-value of less than 0.05), in order to have 90% power to detect this difference, 100 subjects per treatment group were required for this trial (total n=200). This allowed for a dropout rate of 10% as 110 subjects per group was planned.||32.8|8.0|0.00044
82440238|NCT00901511|164588472|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.0315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum CEA levels in the GM-CSF Group minus the median serum CEA levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum CEA levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.0315
82440239|NCT00901511|164588473|SUPERIORITY||Mean Difference (Final Values)|-3689.0||||0.03|TWO_SIDED|95.0|-6972.0|-406.0|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the between group difference in the KL-6 levels in the GM-CSF Group minus the KL-6 levels in the Control Group|Primary Analysis||-406|-6972|0.0300
82501503|NCT00147199|164693887|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.623|TWO_SIDED|95.0|-0.5|0.0|||Wilcoxon rank sum test|||||0.0|-0.5|0.623
82501504|NCT00147199|164693888|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.807|TWO_SIDED|95.0|0.0|0.0||Imputation strategies were implemented for 16 inhaled treprostinil subjects and 9 placebo subjects without values reported at Week 12|Wilcoxon rank sum test|||||0.0|0.0|0.807
82501505|NCT00147199|164693889|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|13.7||||0.007|TWO_SIDED|95.0|4.0|24.8|||ANCOVA|||||24.8|4.0|0.007
82501506|NCT00147199|164693890|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|18.5||||0.0003|TWO_SIDED|95.0|8.5|28.3|||Wilcoxon rank sum test|||||28.3|8.5|0.0003
82501507|NCT00147199|164693891|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-4.0||||0.027|TWO_SIDED|95.0|-8.0|0.0|||Wilcoxon rank sum test|||Global Score||0|-8.0|0.027
82501508|NCT00147199|164693891|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-2.0||||0.037|TWO_SIDED|95.0|-3.0|0.0|||Wilcoxon rank sum test|||Physical Dimension||0.0|-3.0|0.037
82501509|NCT00147199|164693891|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-1.0||||0.173|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon rank sum test|||Emotional Dimension Score||0.0|-2.0|0.173
82501510|NCT00147199|164693893|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman Estimate|-167.0||||0.001|TWO_SIDED|95.0|-333.0|-64.0|||Wilcoxon rank sum test|||||-64|-333|0.001
82501511|NCT04059094|164693910|OTHER||Adjusted means difference|1.5|STANDARD_ERROR_OF_MEAN|2.45||0.5468|TWO_SIDED|95.0|-3.5|6.5|||Mixed model with repeated measurements||Adjusted means difference was calculated as value from BI 1265162 200μg minus value from placebo group.|Mixed Model for Repeated Measures (MMRM) with fixed effects for baseline, visit, treatment, treatment-by-visit interaction, baseline-by-visit interaction, and random effect for patient was applied. No hypothesis testing was performed, as this trial was prematurely discontinued. MMRM only included data from 200µg BI and placebo, as the sample size of the BI 20µg, BI 50µg and BI 100µg dose levels was limited because of the premature discontinuation of the trial.||6.5|-3.5|0.5468
82501512|NCT04059094|164693911|OTHER||Adjuste means difference|2.1|STANDARD_ERROR_OF_MEAN|1.83||0.3039|TWO_SIDED|95.0|-2.4|6.5|||ANCOVA||Adjusted means difference was calculated as value from BI 1265162 200μg minus value from placebo group.|ANCOVA based on analysis of covariance with fixed effects for baseline and treatment was applied. Statistical analysis was performed for 200μg BI and placebo groups only. No hypothesis testing was performed, as this trial was prematurely discontinued. ANCOVA only included data from 200µg BI and placebo, as the sample size of the BI 20µg, BI 50µg and BI 100µg dose levels was limited because of the premature discontinuation of the trial.||6.5|-2.4|0.3039
82501513|NCT00459667|164693942|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|17.4||||||95.0|14.4|20.7||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||20.7|14.4|
82501514|NCT00459667|164693942|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|15.8||||||95.0|13.1|18.9||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||18.9|13.1|
82501515|NCT00459667|164693942|SUPERIORITY_OR_OTHER||Number of patients w/ Flu-Like-Syndrome|31.1||||||95.0|24.4|38.4||||||The 95% Confidence Interval was calculated for number of patients w/ Flu-Like-Syndrome||38.4|24.4|
82501516|NCT00459667|164693943|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|31.7||||||95.0|28.0|35.7||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||35.7|28.0|
82501517|NCT00459667|164693943|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|26.2||||||95.0|22.8|29.8||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||29.8|22.8|
82501518|NCT00459667|164693943|SUPERIORITY_OR_OTHER||number of patients w/ IS reactions.|31.7||||||95.0|24.9|39.0||||||The 95% Confidence Interval was calculated for number of patients w/ Injection-site (IS) reactions.||39.0|24.9|
82501519|NCT04434092|164693990|NON_INFERIORITY|Non-inferiority is met when the lower limit of the 95% CI is greater than -20%.|Weighted Difference in Proportion|-2.8|||||TWO_SIDED|95.0|-15.67|11.14|||||95% CI for the difference in proportions of participants with TA is calculated by Stratified Newcombe CI method.|||11.14|-15.67|
82501520|NCT04434092|164693991|NON_INFERIORITY|Non-inferiority is met if the lower limit of the 95% confidence interval (CI) for the odds ratio is above 0.2|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.57|1.82||||||||1.82|0.57|
82501521|NCT04434092|164693992|NON_INFERIORITY|Non-inferiority is met if the upper limit (UL) of the 95% CI for the difference between crovalimab and eculizumab in the proportion of participants with BTH is less than the non-inferiority margin of 20%|Weighted Difference in Proportion|-3.9|||||TWO_SIDED|95.0|-14.82|5.26|||||95% CI for the difference in proportions of participants is calculated by Stratified Newcombe CI method.|||5.26|-14.82|
82501522|NCT04434092|164693993|NON_INFERIORITY|Non-inferiority is met when the lower limit of the 95% CI is greater than -20%.|Weighted Difference in Proportion|2.2|||||TWO_SIDED|95.0|-11.37|16.31|||||95% CI for the difference in proportions of participants is calculated by Stratified Newcombe CI method.|||16.31|-11.37|
82501523|NCT04434092|164693994|NON_INFERIORITY|The non-inferiority margin was a -5 point score, where higher scores indicated less fatigue, and hence non-inferiority hypothesis was tested comparing the lower limit of the 95% CI for the difference with a non-inferiority margin of -5 points.|Difference in Adjusted mean|2.64|STANDARD_ERROR_OF_MEAN|0.993|||TWO_SIDED|95.0|0.68|4.6|||||Non-inferiority is met when the lower limit of the 95% CI is greater than -5.|||4.60|0.68|
82501524|NCT00157950|164694020|SUPERIORITY_OR_OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.6|99.8|||||Exact binomial confidence interval|||99.8|93.6|
82501525|NCT00157950|164694021|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|100.0|||||TWO_SIDED|95.0|96.8|100.0|||||Exact binomial confidence interval|||100|96.8|
82501526|NCT00157950|164694022|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|99.1|||||TWO_SIDED|95.0|95.2|100.0|||||Exact binomial confidence interval|||100|95.2|
82501527|NCT00157950|164694023|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of the 95% confidence interval for the proportion of subjects receiving Gardasil who were seropositive at Week 4 postdose 3 must be greater than 90%|Proportion|99.1|||||TWO_SIDED|95.0|95.0|100.0|||||Exact binomial confidence interval|||100|95.0|
82501528|NCT01287897|164694045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|10.5||0.3406|TWO_SIDED|90.0|-13.0|21.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|Generalized linear mixed model (GLMM)|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||21.7|-13.0|0.3406
82501529|NCT01287897|164694045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|11.0||0.0438|TWO_SIDED|90.0|0.7|36.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||36.7|0.7|0.0438
82501530|NCT01287897|164694046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|STANDARD_ERROR_OF_MEAN|13.6||0.2258|TWO_SIDED|90.0|-12.1|32.6||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||32.6|-12.1|0.2258
82562702|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.334|TWO_SIDED|95.0|-3.07|1.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.04|-3.07|0.334
82501531|NCT01287897|164694047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|10.5||0.2627|TWO_SIDED|90.0|-10.6|23.9||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||23.9|-10.6|0.2627
82501532|NCT01287897|164694047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.8|STANDARD_ERROR_OF_MEAN|10.9||0.0425|TWO_SIDED|90.0|0.8|36.7||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||36.7|0.8|0.0425
82501533|NCT01287897|164694048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1|STANDARD_ERROR_OF_MEAN|13.7||0.1362|TWO_SIDED|90.0|-7.5|37.6||Type I rate was controlled for the 2 time points (Week 8 and Week 12) at 0.05 (one sided).|GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||||37.6|-7.5|0.1362
82501534|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|7.0||0.1527|TWO_SIDED|90.0|-4.3|18.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 2.||18.6|-4.3|0.1527
82440240|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-3265.0||||0.077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.0770
82501535|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.1|STANDARD_ERROR_OF_MEAN|9.1||0.0235|TWO_SIDED|90.0|3.1|33.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 4.||33.2|3.1|0.0235
82501536|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|9.9||0.0792|TWO_SIDED|90.0|-2.3|30.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 6.||30.2|-2.3|0.0792
82501537|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|STANDARD_ERROR_OF_MEAN|11.0||0.1909||90.0|-8.4|27.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 10-mg arm at Week 10.||27.6|-8.4|0.1909
82501538|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|6.8||0.1981|TWO_SIDED|90.0|-5.4|17.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 2.||17.0|-5.4|0.1981
82440241|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-5018.0||||0.0745|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.0745
82501539|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|STANDARD_ERROR_OF_MEAN|9.3||0.0132|TWO_SIDED|90.0|5.3|35.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 4.||35.8|5.3|0.0132
82501540|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1|STANDARD_ERROR_OF_MEAN|10.1||0.0063|TWO_SIDED|90.0|8.6|41.7|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 6.||41.7|8.6|0.0063
82440242|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-6343.0||||0.2581|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.2581
82501541|NCT01287897|164694049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.7|STANDARD_ERROR_OF_MEAN|11.2||0.0138|TWO_SIDED|90.0|6.2|43.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 50-mg arm at Week 10.||43.1|6.2|0.0138
82501542|NCT01287897|164694050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4|STANDARD_ERROR_OF_MEAN|10.2||0.0662|TWO_SIDED|90.0|-1.4|32.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 2.||32.1|-1.4|0.0662
82501543|NCT01287897|164694050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.5|STANDARD_ERROR_OF_MEAN|10.0||0.1708|TWO_SIDED|90.0|-6.9|25.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 4.||25.8|-6.9|0.1708
82501544|NCT01287897|164694050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|11.1||0.2416|TWO_SIDED|90.0|-10.5|26.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 6.||26.0|-10.5|0.2416
82501545|NCT01287897|164694050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.1|STANDARD_ERROR_OF_MEAN|14.1||0.088|TWO_SIDED|90.0|-4.1|42.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-70 response rate for the 200-mg arm at Week 10.||42.3|-4.1|0.0880
82501546|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|3.2||0.261|TWO_SIDED|90.0|-3.2|7.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 2.||7.2|-3.2|0.2610
82501547|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.8||0.4291|TWO_SIDED|90.0|-5.6|7.0|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 4.||7.0|-5.6|0.4291
82501548|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|6.0||0.5791|TWO_SIDED|90.0|-11.0|8.6|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 6.||8.6|-11.0|0.5791
82501549|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|8.0||0.7544|TWO_SIDED|90.0|-18.8|7.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 8.||7.7|-18.8|0.7544
82501550|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|9.2||0.2308||90.0|-8.3|21.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 10.||21.9|-8.3|0.2308
82501551|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|7.1||0.5038|TWO_SIDED|90.0|-11.8|11.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 10-mg arm at Week 12.||11.7|-11.8|0.5038
82501552|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|4.9||0.0498|TWO_SIDED|90.0|0.0|16.0|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 2.||16.0|0.0|0.0498
82501553|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.3|STANDARD_ERROR_OF_MEAN|7.6||0.0155|TWO_SIDED|90.0|3.9|28.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 4.||28.7|3.9|0.0155
82501554|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|8.5||0.0399|TWO_SIDED|90.0|0.9|28.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 6.||28.9|0.9|0.0399
82501555|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|9.6||0.1866|TWO_SIDED|90.0|-7.2|24.3|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 8.||24.3|-7.2|0.1866
82501556|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|10.3||0.0415|TWO_SIDED|90.0|0.9|34.7|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 10.||34.7|0.9|0.0415
82501557|NCT01287897|164694051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|9.5||0.0408|TWO_SIDED|90.0|0.9|32.1|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 50-mg arm at Week 12.||32.1|0.9|0.0408
82501558|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|5.3||0.1342|TWO_SIDED|90.0|-2.8|14.5|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 2.||14.5|-2.8|0.1342
82501559|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|4.3||0.2623|TWO_SIDED|90.0|-4.3|9.8|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 4.||9.8|-4.3|0.2623
82501560|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|6.3||0.3324|TWO_SIDED|90.0|-7.7|13.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 6.||13.2|-7.7|0.3324
82501561|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|7.5||0.6637|TWO_SIDED|90.0|-15.5|9.1|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 8.||9.1|-15.5|0.6637
82501562|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|9.0||0.2721||90.0|-9.3|20.2|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 10.||20.2|-9.3|0.2721
82501563|NCT01287897|164694052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|7.8||0.3022|TWO_SIDED|90.0|-8.8|16.9|||GLMM|Status of anti-TNF experience and concomitant immunosuppressant therapy were included as covariates.||LSM difference from placebo in CDAI remission rate for the 200-mg arm at Week 12.||16.9|-8.8|0.3022
82501564|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|7.0||0.2687|TWO_SIDED|90.0|-7.2|15.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 2.||15.8|-7.2|0.2687
82501565|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|7.4||0.246|TWO_SIDED|90.0|-7.1|17.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 4.||17.3|-7.1|0.2460
82501566|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.2|STANDARD_ERROR_OF_MEAN|9.3||0.0633|TWO_SIDED|90.0|-1.1|29.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 6.||29.5|-1.1|0.0633
82501567|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|9.9||0.4036|TWO_SIDED|90.0|-13.8|18.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 8.||18.6|-13.8|0.4036
82501568|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|10.2||0.1921||90.0|-7.9|25.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 10.||25.6|-7.9|0.1921
82501569|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.5|STANDARD_ERROR_OF_MEAN|10.3||0.1541|TWO_SIDED|90.0|-6.5|27.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 10-mg arm at Week 12.||27.5|-6.5|0.1541
82501570|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|6.5||0.4893|TWO_SIDED|90.0|-10.5|10.9|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 2.||10.9|-10.5|0.4893
82501571|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|STANDARD_ERROR_OF_MEAN|8.6||0.0619|TWO_SIDED|90.0|-0.9|27.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 4.||27.4|-0.9|0.0619
82501572|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.7|STANDARD_ERROR_OF_MEAN|9.3||0.029|TWO_SIDED|90.0|2.3|33.1|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 6.||33.1|2.3|0.0290
82501573|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|10.7||0.0988|TWO_SIDED|90.0|-3.8|31.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 8.||31.4|-3.8|0.0988
82501574|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.2|STANDARD_ERROR_OF_MEAN|10.8||0.0549|TWO_SIDED|90.0|-0.5|35.0|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 10.||35.0|-0.5|0.0549
82501575|NCT01287897|164694053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|10.5||0.092|TWO_SIDED|90.0|-3.3|31.3|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 50-mg arm at Week 12.||31.3|-3.3|0.0920
82501576|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|6.8||0.4031|TWO_SIDED|90.0|-9.5|12.9|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 2.||12.9|-9.5|0.4031
82501577|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|9.6||0.1219|TWO_SIDED|90.0|-4.6|26.8|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 4.||26.8|-4.6|0.1219
82501578|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|STANDARD_ERROR_OF_MEAN|10.0||0.16|TWO_SIDED|90.0|-6.5|26.4|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 6.||26.4|-6.5|0.1600
82501579|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|10.3||0.6019|TWO_SIDED|90.0|-19.5|14.2|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 8.||14.2|-19.5|0.6019
82501580|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|STANDARD_ERROR_OF_MEAN|12.3||0.1601||90.0|-8.0|32.5|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 10.||32.5|-8.0|0.1601
82501581|NCT01287897|164694054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|11.7||0.2622|TWO_SIDED|90.0|-11.8|26.6|||GLMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in CDAI-100 response rate for the 200-mg arm at Week 12.||26.6|-11.8|0.2622
82501582|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|12.22||0.2173|TWO_SIDED|90.0|-29.8|10.6|||Linear mixed model (LMM)|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 2.||10.6|-29.8|0.2173
82501583|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0|STANDARD_ERROR_OF_MEAN|12.95||0.1778|TWO_SIDED|90.0|-33.4|9.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 4.||9.4|-33.4|0.1778
82501584|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|16.37||0.1661|TWO_SIDED|90.0|-43.0|11.2|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 6.||11.2|-43.0|0.1661
82501585|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|17.66||0.1993|TWO_SIDED|90.0|-44.1|14.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 8.||14.3|-44.1|0.1993
82501586|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|19.66||0.0632|TWO_SIDED|90.0|-62.7|2.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 10.||2.3|-62.7|0.0632
82501587|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|19.71||0.1975|TWO_SIDED|90.0|-49.4|15.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 10-mg arm at Week 12.||15.8|-49.4|0.1975
82501588|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|12.25||0.5868|TWO_SIDED|90.0|-17.6|22.9|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 2.||22.9|-17.6|0.5868
82501589|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|12.93||0.0243|TWO_SIDED|90.0|-47.0|-4.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 4.||-4.3|-47.0|0.0243
82501590|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.4|STANDARD_ERROR_OF_MEAN|16.12||0.0834|TWO_SIDED|90.0|-49.0|4.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 6.||4.3|-49.0|0.0834
82501591|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.8|STANDARD_ERROR_OF_MEAN|17.43||0.0499|TWO_SIDED|90.0|-57.7|0.0|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 8.||-0.0|-57.7|0.0499
82501592|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.9|STANDARD_ERROR_OF_MEAN|19.45||0.0111|TWO_SIDED|90.0|-77.1|-12.7|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 10.||-12.7|-77.1|0.0111
82501593|NCT01287897|164694055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.5|STANDARD_ERROR_OF_MEAN|19.49||0.0221|TWO_SIDED|90.0|-71.7|-7.3|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 50-mg arm at Week 12.||-7.3|-71.7|0.0221
82501594|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|18.27||0.3157|TWO_SIDED|90.0|-39.0|21.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 2.||21.4|-39.0|0.3157
82501595|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|18.28||0.4171|TWO_SIDED|90.0|-34.0|26.4|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 4.||26.4|-34.0|0.4171
82501596|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|18.79||0.3837|TWO_SIDED|90.0|-36.6|25.5|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 6.||25.5|-36.6|0.3837
82501597|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|19.27||0.3204|TWO_SIDED|90.0|-40.8|22.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 8.||22.8|-40.8|0.3204
82501598|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.9|STANDARD_ERROR_OF_MEAN|19.64||0.0649|TWO_SIDED|90.0|-62.3|2.6|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 10.||2.6|-62.3|0.0649
82501599|NCT01287897|164694056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.0|STANDARD_ERROR_OF_MEAN|19.87||0.0598|TWO_SIDED|90.0|-63.9|1.8|||LMM|Status of anti-TNF experience, concomitant immunosuppressant therapy, and baseline were included as covariates.||LSM difference from placebo in change from baseline in CDAI score for the 200-mg arm at Week 12.||1.8|-63.9|0.0598
82501600|NCT02902965|164694065|OTHER||median PFS|8.5|||||TWO_SIDED|95.0|6.2|10.8|||||Kaplan-Meier estimates for median PFS and its associated 95% confidence intervals using log-log transformed Greenwood variance estimate were calculated.|||10.8|6.2|
82624082|NCT01135394|164963554|OTHER|The genes with p-values below 10\^-6 were identified|Pearson correlation p-value|0.0000001|||<|1e-07|TWO_SIDED|||||The genes with p-values below 10\^-6 were identified|Genes with p-values below 10^-6|||After the change (end-of-treatment minus baseline) in HOMA-IR index had been calculated for each subject, the change (end-of-treatment minus baseline) in expression of each of approximately 45,000 transcripts contained in a human gene array was calculated. A Pearson correlation p-value was calculated for the correlation between change in gene expression and change in HOMA-IR index, with the purpose of identifying the genes whose expression changed in concert with changes in HOMA-IR index.|The genes with P-values below 10\^-6 were identified|||<0.0000001
82624083|NCT02088541|164963559|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4221|TWO_SIDED|95.0|0.79|1.75|||Log Rank|||||1.75|0.79|0.4221
82501601|NCT02902965|164694066|OTHER||ORR in %|56.8|||||TWO_SIDED|95.0|44.7|68.2|||||Overall response = confirmed sCR + CR + VGPR + PR with corresponding 95% Exact binomial Cl|||68.2|44.7|
82501602|NCT02902965|164694067|OTHER||PFS rate|6.6|||||TWO_SIDED|95.0|1.6|16.9|||||Kaplan-Meier method used for PFS rate and its associated 95% confidence intervals using log-log transformed Greenwood variance estimate were calculated.|||16.9|1.6|
82501603|NCT02902965|164694070|OTHER||median TTP|10.6|||||TWO_SIDED|95.0|7.8|12.0|||||KM estimates for median TTP with associated 95% CI|||12|7.8|
82562703|NCT00696241|164835061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.034|TWO_SIDED|95.0|-4.28|-0.16||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.16|-4.28|0.034
82624084|NCT02088541|164963560|SUPERIORITY|||||||0.9464|||||||Log Rank|||||||0.9464
82624085|NCT02088541|164963561|SUPERIORITY|||||||0.0986|||||||Cochran-Mantel-Haenszel|||||||0.0986
82624086|NCT02088541|164963563|SUPERIORITY|||||||0.0844|||||||Cochran-Mantel-Haenszel|||||||0.0844
82624087|NCT05742841|164963571|SUPERIORITY||Median Difference (Final Values)|-16.5|||||TWO_SIDED|||||||||||||
82501604|NCT02259582|164694089|SUPERIORITY|Based on RECIST v1.1. Response outcomes from an assessment done anytime less than Day 35 were considered as not evaluable unless the response assessment was progress disease.|Hazard Ratio (HR)|0.04|||=|0.0401|TWO_SIDED|95.0|0.013|0.095|||Log Rank|||The Kaplan-Meier method was used to estimate both the survival curves and the median survival time. The 95% confidence interval (CI) for the median survival time was calculated. A p-value for treatment effect was generated using a stratified Cox proportional hazards model.||.095|.013|=0.0401
82501605|NCT01969240|164694091|SUPERIORITY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|0.46|0.86||||||||0.86|0.46|
82501606|NCT01969240|164694092|SUPERIORITY||||||<|0.013|||||||t-test, 2 sided|The a-priori significance level was 0.05.||||||<0.013
82501607|NCT01969240|164694093|SUPERIORITY||Mean Difference (Final Values)|10.3|||||TWO_SIDED|95.0|9.1|11.5||||||||11.5|9.1|
82501608|NCT01969240|164694094|SUPERIORITY|||||||0.998|||||||Regression, Logistic|||||||0.998
82501609|NCT01969240|164694095|SUPERIORITY||||||<|0.001|||||||negative binomial model|||||||<0.001
82501610|NCT01969240|164694096|SUPERIORITY||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-4.8|-0.9||||||||-0.90|-4.8|
82501611|NCT01969240|164694097|SUPERIORITY||Median Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-0.2|3.6||||||||3.6|-0.2|
82501612|NCT02436889|164694157|SUPERIORITY|||||||0.949|||||||ANCOVA|||||||0.949
82501613|NCT02436889|164694158|SUPERIORITY||Mean Difference (Final Values)|3.11||||0.2415|TWO_SIDED|95.0|-2.09|8.31|||ANCOVA|change from baseline, adjusted for baseline value||||8.31|-2.09|0.2415
82501614|NCT02436889|164694159|SUPERIORITY||Mean Difference (Final Values)|-12.01||||0.0001|TWO_SIDED|95.0|-18.16|-5.87|||ANCOVA|||||-5.87|-18.16|0.0001
82501615|NCT02436889|164694160|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.1956|TWO_SIDED|95.0|-1.59|0.33|||ANCOVA|||||0.33|-1.59|0.1956
82501616|NCT02436889|164694161|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.0168|TWO_SIDED|95.0|0.34|3.4|||ANCOVA|||||3.40|0.34|0.0168
82501617|NCT02436889|164694162|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.0101|TWO_SIDED|95.0|0.5|3.71|||ANCOVA|||||3.71|0.50|0.0101
82501618|NCT00227903|164694163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0||||Not corrected for multiple comparison|Mixed Models Analysis|2 degrees of freedom||We estimated that 110 people with 10% attrition would provide 80% power||||0.88
82501619|NCT00227903|164694164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0|||||Fisher Exact|||||||0.08
82501620|NCT00227903|164694165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0||||Not corrected for multiple comparison.|Mixed Models Analysis|2 degrees of freedom||We estimated that 110 people with 10% attrition would provide 80% power.||||0.88
82501621|NCT00227903|164694166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||95.0|||||Fisher Exact|||||||0.41
82501622|NCT00227903|164694167|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77||||0.79|TWO_SIDED|95.0|0.36|1.67|||Regression, Logistic|||||1.67|0.36|0.79
82501623|NCT00227903|164694168|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.79|TWO_SIDED|95.0|0.42|2.62|||Regression, Logistic|||||2.62|0.42|0.79
82501624|NCT00227903|164694169|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.88|TWO_SIDED|95.0|0.34|2.72|||Regression, Logistic|||||2.72|0.34|0.88
82501625|NCT00227903|164694170|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.88|TWO_SIDED|95.0|0.57|2.57|||Regression, Logistic|||||2.57|0.57|0.88
82501626|NCT00227903|164694171|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77||||0.5|TWO_SIDED|95.0|0.32|1.84|||Regression, Logistic|||||1.84|0.32|0.50
82501627|NCT00227903|164694172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
82501628|NCT00227903|164694173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
82501629|NCT00227903|164694174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
82501630|NCT00227903|164694175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Mixed Models Analysis|||||||0.10
82501631|NCT00227903|164694176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.5|TWO_SIDED|95.0|0.27|2.11|||Regression, Logistic|||||2.11|0.27|0.50
82501632|NCT00227903|164694177|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.07|TWO_SIDED|95.0|0.44|3.14|||Regression, Logistic|||||3.14|0.44|0.07
82501633|NCT00227903|164694178|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.07|TWO_SIDED|95.0|0.47|4.52|||Regression, Logistic|||||4.52|0.47|0.07
82501634|NCT00227903|164694179|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.07|TWO_SIDED|95.0|0.08|1.02|||Regression, Logistic|||||1.02|0.08|0.07
82501635|NCT00227903|164694180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.62||||0.07|TWO_SIDED|95.0|0.1|3.9|||Regression, Logistic|||||3.90|0.10|0.07
82501636|NCT00227903|164694181|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.91|TWO_SIDED|95.0|0.32|4.2|||Regression, Logistic|||||4.20|0.32|0.91
82501637|NCT00227903|164694182|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.91|TWO_SIDED|95.0|0.35|5.07|||Regression, Logistic|||||5.07|0.35|0.91
82501638|NCT00227903|164694183|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.85||||0.91|TWO_SIDED|95.0|0.14|5.23|||Regression, Logistic|||||5.23|0.14|0.91
82501639|NCT00227903|164694184|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.91|TWO_SIDED|95.0|0.21|7.12|||Regression, Logistic|||||7.12|0.21|0.91
82501640|NCT00227903|164694185|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.04|TWO_SIDED|95.0|0.46|3.55|||Regression, Logistic|||||3.55|0.46|.04
82501641|NCT00227903|164694186|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.04|TWO_SIDED|95.0|0.35|4.17|||Regression, Logistic|||||4.17|0.35|0.04
82501642|NCT00227903|164694187|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.25||||0.04|TWO_SIDED|95.0|0.04|1.63|||Regression, Logistic|||||1.63|0.04|0.04
82501643|NCT00227903|164694188|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.04|TWO_SIDED|95.0|0.04|3.74|||Regression, Logistic|||||3.74|0.04|0.04
82501644|NCT00227903|164694189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||||||0.01
82501645|NCT00227903|164694190|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
82501646|NCT04309656|164694207|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|85.85||||0.0001|TWO_SIDED|90.0|81.21|90.75|||ANOVA|||||90.75|81.21|0.0001
82501647|NCT04309656|164694207|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|92.99||||0.3001|TWO_SIDED|90.0|82.65|104.62|||ANOVA|||||104.62|82.65|0.3001
82501648|NCT04309656|164694208|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|100.6||||0.6686|TWO_SIDED|90.0|98.23|103.03|||ANOVA|||||103.03|98.23|0.6686
82501649|NCT04309656|164694208|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|89.7||||0.0745|TWO_SIDED|90.0|81.2|99.1|||ANOVA|||||99.10|81.20|0.0745
82501650|NCT04309656|164694209|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|101.03||||0.4683|TWO_SIDED|90.0|98.65|103.47|||ANOVA|||||103.47|98.65|0.4683
82501651|NCT04309656|164694209|EQUIVALENCE|Comparisons performed: Treatment B (test) versus Treatment A (reference). Relative bioavailability of test compared to reference assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model.|Geometric mean ratio (%)|89.63||||0.0734|TWO_SIDED|90.0|81.1|99.05|||ANOVA|||||99.05|81.10|0.0734
82501652|NCT03720470|164694214|SUPERIORITY||Difference in percentage|23.1|||<|0.0001|TWO_SIDED|95.0|14.7|31.4|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and confidence interval (CI) for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||31.4|14.7|<0.0001
82501653|NCT03720470|164694214|SUPERIORITY||Difference in Percentage|34.8|||<|0.0001|TWO_SIDED|95.0|26.1|43.5|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.5|26.1|<0.0001
82501654|NCT03720470|164694215|SUPERIORITY||Difference in percentage|31.9|||<|0.0001|TWO_SIDED|95.0|22.2|41.6|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||41.6|22.2|<0.0001
82501655|NCT03720470|164694215|SUPERIORITY||Difference in Percentage|43.2|||<|0.0001|TWO_SIDED|95.0|33.7|52.7|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||52.7|33.7|<0.0001
82501656|NCT03720470|164694216|SUPERIORITY||Difference in percentage|17.9||||0.0002|TWO_SIDED|95.0|9.5|26.3|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||26.3|9.5|0.0002
82501657|NCT03720470|164694216|SUPERIORITY||Difference in Percentage|34.9|||<|0.0001|TWO_SIDED|95.0|26.0|43.7|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.7|26.0|<.0001
82501658|NCT03720470|164694216|SUPERIORITY||Difference in Percentage|5.2||||0.2084|TWO_SIDED|95.0|-2.9|13.4|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||13.4|-2.9|0.2084
82501659|NCT03720470|164694216|SUPERIORITY||Difference in Percentage|22.1|||<|0.0001|TWO_SIDED|95.0|13.5|30.7|||Cochran-Mantel-Haenszel|||Week 2: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||30.7|13.5|<0.0001
82501660|NCT03720470|164694217|OTHER||Difference in Percentage|22.1|||<|0.0001|TWO_SIDED|95.0|13.7|30.5|||Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||30.5|13.7|<0.0001
82501661|NCT03720470|164694217|OTHER||Difference in Percentage|35.0|||<|0.0001|TWO_SIDED|95.0|26.3|43.7|||Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||43.7|26.3|<0.0001
82501662|NCT03720470|164694217|OTHER||Difference in Percentage|-3.5|||||TWO_SIDED|95.0|-12.2|5.2||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||5.2|-12.2|
82501663|NCT03720470|164694217|OTHER||Difference in Percentage|9.4|||||TWO_SIDED|95.0|0.4|18.5||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||18.5|0.4|
82501664|NCT03720470|164694218|OTHER||Difference in percentage|24.1|||<|0.0001|TWO_SIDED|95.0|14.0|34.1|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||34.1|14.0|<0.0001
82501665|NCT03720470|164694218|OTHER||Difference in Percentage|30.1|||<|0.0001|TWO_SIDED|95.0|20.3|39.8|||Cochran-Mantel-Haenszel|||Difference in percentage (PF-04965842 versus placebo) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||39.8|20.3|<0.0001
82501666|NCT03720470|164694218|OTHER||Difference in Percentage|-2.7|||||TWO_SIDED|95.0|-9.6|4.2||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||4.2|-9.6|
82501667|NCT03720470|164694218|OTHER||Difference in Percentage|3.1|||||TWO_SIDED|95.0|-3.3|9.6||||||Week 16: Difference in percentage (PF-04965842 versus dupilumab) and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions. P-value was adjusted by baseline disease severity.||9.6|-3.3|
82501668|NCT02451839|164694253|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||< 0.001
82501669|NCT02451839|164694254|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501670|NCT02451839|164694255|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501671|NCT02451839|164694256|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501672|NCT02451839|164694257|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501673|NCT02451839|164694258|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501674|NCT02451839|164694259|SUPERIORITY|||||||0.015|||||||paired t-test|||||||0.015
82501675|NCT02451839|164694260|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501676|NCT02451839|164694261|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
82501677|NCT02451839|164694262|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501678|NCT02451839|164694263|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501679|NCT02451839|164694264|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
82501680|NCT02451839|164694265|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501681|NCT02451839|164694266|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501682|NCT02451839|164694267|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82624088|NCT04134728|164963572|SUPERIORITY||Odds Ratio (OR)|1.38||||0.2868|TWO_SIDED|0.95|0.76|2.48|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 90 mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from placebo in the proportion of participants with ACR20 response at Week 12||2.48|0.76|0.2868
82501683|NCT02451839|164694268|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82501684|NCT01949051|164694276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.943|-0.756|||Mixed Model ANOVA|||||-0.756|-1.943|<0.0001
82501685|NCT01949051|164694276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.118||||0.0003|TWO_SIDED|95.0|-1.712|-0.525|||Mixed Model ANOVA|||||-0.525|-1.712|0.0003
82501686|NCT01949051|164694276|NON_INFERIORITY_OR_EQUIVALENCE|Levocabastine OD would be declared as non-inferior to levocabastine BID if upper limit of 95% confidence interval of the treatment difference estimate (OD vs BD) was less than 1|Mean Difference (Final Values)|0.231|||||TWO_SIDED|95.0|-0.361|0.823||||||||0.823|-0.361|
82639417|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-42.3||||0.0003|TWO_SIDED|95.0|-68.2|-16.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-16.5|-68.2|0.0003
82501687|NCT00530764|164694326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.33|TWO_SIDED|95.0|0.72|2.6|||Regression, Logistic|||The proportions of responders were compared between the treatment groups using logistic regression with region and treatment groups as factors. The null hypothesis was that there was no difference between each of the Sativex treatment groups and placebo. The estimated response rates, odds ratios, 95% CIs for the odds ratios and p-values were presented.||2.60|0.72|0.33
82501688|NCT00530764|164694326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.62|TWO_SIDED|95.0|0.46|1.76|||Regression, Logistic|||As for Sativex Low dose versus placebo||1.76|0.46|0.62
82501689|NCT00530764|164694326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.61|TWO_SIDED|95.0|0.62|2.28|||Regression, Logistic|||As for Sativex Low dose versus placebo||2.28|0.62|0.61
82501690|NCT00530764|164694327|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.5||||0.0077|TWO_SIDED|95.0|-21.35|-3.33|||Wilcoxon rank sum tests|||Each of the active treatment groups were compared with placebo using pairwise Wilcoxon rank-sum tests. The Hodges-Lehmann estimates and 95% CI for the median differences were also presented.||-3.33|-21.35|0.0077
82501691|NCT00530764|164694327|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.97||||0.67|TWO_SIDED|95.0|-11.04|7.14|||Wilcoxin rank sum test|||As for Sativex low dose versus placebo||7.14|-11.04|0.67
82501692|NCT00530764|164694327|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.75||||0.039|TWO_SIDED|95.0|-17.14|0.0|||Wilcoxin rank sum test|||As for Sativex low dose versus placebo||0.00|-17.14|0.039
82501693|NCT00530764|164694328|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.75||||0.006|TWO_SIDED|95.0|-1.28|-0.22|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors.||-0.22|-1.28|0.006
82501694|NCT00530764|164694328|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.09||||0.75|TWO_SIDED|95.0|-0.62|0.44|||ANCOVA|||As for Sativex low dose versus placebo||0.44|-0.62|0.75
82501695|NCT00530764|164694328|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.36||||0.19|TWO_SIDED|95.0|-0.89|0.18|||ANCOVA|||As for Sativex low dose versus placebo||0.18|-0.89|0.19
82501696|NCT00530764|164694329|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.73||||0.011|TWO_SIDED|95.0|-1.3|-0.17|||ANCOVA|||The change in mean pain NRS score (worst pain) was analyzed using ANCOVA with the baseline value as a covariate and region and treatment group as factors.||-0.17|-1.30|0.011
82501697|NCT00530764|164694329|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.35||||0.14|TWO_SIDED|95.0|-0.81|0.11|||ANCOVA|||As for Sativex low dose versus placebo||0.11|-0.81|0.14
82501698|NCT00530764|164694329|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.24||||0.4|TWO_SIDED|95.0|-0.81|0.32|||ANCOVA|||As for Sativex low dose versus placebo||0.32|-0.81|0.40
82501699|NCT00530764|164694330|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.88||||0.003|TWO_SIDED|95.0|-1.45|-0.31|||ANCOVA|||The change in mean sleep disturbance NRS score was analyzed using ANCOVA with the baseline value as a covariate and region and treatment group as factors.||-0.31|-1.45|0.003
82501700|NCT00530764|164694330|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.08||||0.78|TWO_SIDED|95.0|-0.65|0.49|||ANCOVA|||As for Sativex low dose versus placebo||0.49|-0.65|0.78
82501701|NCT00530764|164694330|SUPERIORITY_OR_OTHER||Estimated Treatment Effect|-0.33||||0.26|TWO_SIDED|95.0|-0.9|0.24|||ANCOVA|||As for Sativex low dose versus placebo.||0.24|-0.90|0.26
82501702|NCT02056340|164694349|OTHER|||||||0.611||||||Threshold for significaance was p value \<0.05.|Mixed Models Analysis|||We used a linear mixed-effects model which accounted for all measurements taken and the time that those measurements were taken.||||0.611
82501703|NCT02056340|164694350|OTHER|||||||0.029||||||P value reflects baseline to 72 hours between groups. A p-value \<0.05 will be considered significant.|Mixed Models Analysis|||The primary comparison was at 72 hours for the self-reported influenza severity score.||||0.029
82501704|NCT02028065|164694358|SUPERIORITY_OR_OTHER||Difference in incidence|5.3|||||TWO_SIDED|95.0|-0.9|10.7|||||Difference is Sugammadex 4 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|Planned sample size of 150 participants in each sugammadex group (4 mg/kg and 16 mg/kg) allowed estimation of adjudicated hypersensitivity in each sugammadex group with a 95% confidence interval with a half-width between 1.2 and 4.2 percentage points. Calculation, based on method of Clopper and Pearson (Biometrika 1934;26\[4\]:404-413), used underlying event rate of up to 6% in the sugammadex high dose group, based on study results from protocol P06042 (NCT00988065).||10.7|-0.9|
82501705|NCT02028065|164694358|SUPERIORITY_OR_OTHER||Difference in incidence|8.1|||||TWO_SIDED|95.0|1.7|14.2|||||Difference is Sugammadex 16 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen(Statistics in Medicine 1985;4:213-226).|Planned sample size of 150 participants in each sugammadex group (4 mg/kg and 16 mg/kg) allowed estimation of adjudicated hypersensitivity in each sugammadex group with a 95% confidence interval with a half-width between 1.2 and 4.2 percentage points. Calculation, based on method of Clopper and Pearson (Biometrika 1934;26\[4\]:404-413), used underlying event rate of up to 6% in the sugammadex high dose group, based on study results from protocol P06042 (NCT00988065).||14.2|1.7|
82501706|NCT02028065|164694359|SUPERIORITY_OR_OTHER||Difference in incidence|0.0|||||TWO_SIDED|95.0|-4.8|2.5|||||Difference is Sugammadex 4 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|||2.5|-4.8|
82501707|NCT02028065|164694359|SUPERIORITY_OR_OTHER||Difference in incidence|0.7|||||TWO_SIDED|95.0|-4.2|3.7|||||Difference is Sugammadex 16 mg/kg incidence minus Placebo incidence. Confidence interval calculated using method of Miettinen and Nurminen (Statistics in Medicine 1985;4:213-226).|||3.7|-4.2|
82501708|NCT00867009|164694368|SUPERIORITY_OR_OTHER||Percentage of participants with response|38.5|||||TWO_SIDED|80.0|32.3|45.09||||||||45.09|32.30|
82501709|NCT00867009|164694369|SUPERIORITY_OR_OTHER||Median number of months|5.82|||||TWO_SIDED|80.0|4.4|6.7||||||||6.70|4.40|
82501710|NCT00867009|164694370|SUPERIORITY_OR_OTHER||Percentage of participants with response|45.0|||||TWO_SIDED|80.0|39.0|51.0||||||||51|39|
82501711|NCT00867009|164694371|SUPERIORITY_OR_OTHER||Percentage of participants with response|59.6|||||TWO_SIDED|80.0|53.06|65.94||||||||65.94|53.06|
82501712|NCT01850524|164694387|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.073|TWO_SIDED|95.0|0.676|1.018|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.||||1.018|0.676|0.073
82501713|NCT01850524|164694388|SUPERIORITY||Hazard Ratio (HR)|0.998||||0.988|TWO_SIDED|95.0|0.79|1.261|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an Unadjusted Cox's proportional hazard regression model is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.261|0.790|0.988
82501714|NCT01850524|164694389|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.43|3.09|||Cochran-Mantel-Haenszel|CMH test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Odds ratio and confidence interval are based on logistic regression model with treatment group as categorical predictor variable,age(\<75 years vs \>=75), ISS(stage I or II vs stage III),and BPI-SF worst pain score(\<4 vs \>=4)at screening as covariates.|||3.09|1.43|<0.001
82501715|NCT01850524|164694390|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9195|TWO_SIDED|95.0|0.656|1.463|||Regression, Logistic|Logistic regression model with prognostic factor: age (\<75 years vs \>=75) and ISS (stage I or II vs stage III).|Odds ratio \> 1 favors Ixazomib+LenDex versus LenDex alone.|||1.463|0.656|0.9195
82501716|NCT01850524|164694391|SUPERIORITY||Odds Ratio (OR)|1.16||||0.436|TWO_SIDED|95.0|0.79|1.7|||Cochran-Mantel-Haenszel|CMH test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Odds ratio and confidence interval are based on logistic regression model with treatment group as categorical predictor variable,age(\<75 years vs \>=75), ISS(stage I or II vs stage III),and BPI-SF worst pain score(\<4 vs \>=4)at screening as covariates.|||1.70|0.79|0.436
82522913|NCT02954354|164741242|SUPERIORITY||Difference|-0.7||||0.676||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Muscle or joint pain||||0.6760
82501717|NCT01850524|164694392|SUPERIORITY||Hazard Ratio (HR)|1.402|||<|0.001|TWO_SIDED|95.0|1.185|1.659|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.659|1.185|<0.001
82501718|NCT01850524|164694394|SUPERIORITY||Hazard Ratio (HR)|0.738||||0.008|TWO_SIDED|95.0|0.589|0.925|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||0.925|0.589|0.008
82501719|NCT01850524|164694395|SUPERIORITY||Hazard Ratio (HR)|0.859||||0.189|TWO_SIDED|95.0|0.684|1.078|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|||1.078|0.684|0.189
82501720|NCT01850524|164694401|SUPERIORITY||Hazard Ratio (HR)|1.118||||0.662|TWO_SIDED|95.0|0.678|1.845|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|OS in High-risk Population Carrying Del(17p), Amp(1q21), t(4;14), or t(14;16) Mutations||1.845|0.678|0.662
82501721|NCT01850524|164694402|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.271|TWO_SIDED|95.0|0.466|1.24|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|PFS in High-risk Population Carrying del(17p), t(4;14), or t(14;16) Mutations||1.240|0.466|0.271
82501722|NCT01850524|164694404|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.26|TWO_SIDED|95.0|0.661|1.12|||Log Rank|Log-rank test is stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by age (\<75 years vs \>=75), ISS (stage I or II vs stage III), and BPI-SF worst pain score (\<4 vs \>=4) at screening.|Time to Pain Progression||1.120|0.661|0.260
82501723|NCT03171415|164694414|SUPERIORITY||||||>|0.05|TWO_SIDED|5.0|||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||>0.05
82501724|NCT03171415|164694414|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups, at day 28 and Day 56||||<0.05
82501725|NCT03171415|164694414|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||<0.05
82501726|NCT03171415|164694414|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||The Kruskal-Wallis T-test was applied for analyzing the difference in between the study groups||||<0.05
82501727|NCT03171415|164694415|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82501728|NCT03171415|164694415|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82501729|NCT03171415|164694415|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82501730|NCT03171415|164694415|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82501731|NCT03171415|164694421|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82501732|NCT01199289|164694450|SUPERIORITY||LS Mean Difference|-0.068||||0.5838|TWO_SIDED|95.0|-0.311|0.175|||ANCOVA|||||0.175|-0.311|0.5838
82501733|NCT01199289|164694450|SUPERIORITY||LS Mean Difference|-0.075||||0.5391|TWO_SIDED|95.0|-0.316|0.166|||ANCOVA|||||0.166|-0.316|0.5391
82501734|NCT01199289|164694450|SUPERIORITY||LS Mean Difference|-0.113||||0.3583|TWO_SIDED|95.0|-0.355|0.129|||ANCOVA|||||0.129|-0.355|0.3583
82501735|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|-0.047||||0.4076|TWO_SIDED|95.0|-0.157|0.064|||ANCOVA|||Pre-Bronchodilator||0.064|-0.157|0.4076
82501736|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|-0.022||||0.6915|TWO_SIDED|95.0|-0.13|0.086|||ANCOVA|||Pre-Bronchodilator||0.086|-0.130|0.6915
82501737|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|-0.019||||0.7271|TWO_SIDED|95.0|-0.126|0.088|||ANCOVA|||Pre-Bronchodilator||0.088|-0.126|0.7271
82501738|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|0.005||||0.921|TWO_SIDED|95.0|-0.086|0.095|||ANCOVA|||Post-Bronchodilator||0.095|-0.086|0.9210
82501739|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|0.07||||0.1139|TWO_SIDED|95.0|-0.017|0.157|||ANCOVA|||Post-Bronchodilator||0.157|-0.017|0.1139
82501740|NCT01199289|164694451|SUPERIORITY||LS Mean Difference|0.021||||0.6426|TWO_SIDED|95.0|-0.066|0.107|||ANCOVA|||Post-Bronchodilator||0.107|-0.066|0.6426
82501741|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-16.847||||0.0262|TWO_SIDED|95.0|-31.686|-2.009|||ANCOVA|||AM||-2.009|-31.686|0.0262
82501742|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-6.723||||0.3627|TWO_SIDED|95.0|-21.239|7.793|||ANCOVA|||AM||7.793|-21.239|0.3627
82501743|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-5.488||||0.4507|TWO_SIDED|95.0|-19.791|8.814|||ANCOVA|||AM||8.814|-19.791|0.4507
82501744|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-10.426||||0.1228|TWO_SIDED|95.0|-23.686|2.834|||ANCOVA|||PM||2.834|-23.686|0.1228
82501745|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-6.738||||0.3092|TWO_SIDED|95.0|-19.758|6.281|||ANCOVA|||PM||6.281|-19.758|0.3092
82501746|NCT01199289|164694452|SUPERIORITY||LS Mean Difference|-8.043||||0.2167|TWO_SIDED|95.0|-20.831|4.744|||ANCOVA|||PM||4.744|-20.831|0.2167
82501747|NCT01199289|164694453|SUPERIORITY||LS Mean Difference|0.331||||0.5157|TWO_SIDED|95.0|-0.67|1.332|||ANCOVA|||||1.332|-0.670|0.5157
82501748|NCT01199289|164694453|SUPERIORITY||LS Mean Difference|-0.234||||0.6434|TWO_SIDED|95.0|-1.229|0.76|||ANCOVA|||||0.760|-1.229|0.6434
82501749|NCT01199289|164694453|SUPERIORITY||LS Mean Difference|-0.199||||0.6954|TWO_SIDED|95.0|-1.196|0.799|||ANCOVA|||||0.799|-1.196|0.6954
82501750|NCT01199289|164694454|SUPERIORITY||LS Mean Difference|-0.283||||0.5577|TWO_SIDED|95.0|-1.231|0.665|||ANCOVA|||||0.665|-1.231|0.5577
82501751|NCT01199289|164694454|SUPERIORITY||LS Mean Difference|0.038||||0.9366|TWO_SIDED|95.0|-0.904|0.98|||ANCOVA|||||0.980|-0.904|0.9366
82501752|NCT01199289|164694454|SUPERIORITY||LS Mean Difference|0.138||||0.7745|TWO_SIDED|95.0|-0.808|1.084|||ANCOVA|||||1.084|-0.808|0.7745
82501753|NCT01199289|164694455|SUPERIORITY||LS Mean Difference|0.026||||0.8524|TWO_SIDED|95.0|-0.251|0.303|||ANCOVA|||||0.303|-0.251|0.8524
82501754|NCT01199289|164694455|SUPERIORITY||LS Mean Difference|-0.033||||0.8139|TWO_SIDED|95.0|-0.305|0.24|||ANCOVA|||||0.240|-0.305|0.8139
82501755|NCT01199289|164694455|SUPERIORITY||LS Mean Difference|-0.002||||0.9881|TWO_SIDED|95.0|-0.281|0.276|||ANCOVA|||||0.276|-0.281|0.9881
82501756|NCT01199289|164694456|SUPERIORITY|With use of SABA|LS Mean Difference|-0.062||||0.1213|TWO_SIDED|95.0|-0.141|0.017|||ANCOVA|||||0.017|-0.141|0.1213
82501757|NCT01199289|164694456|SUPERIORITY|With use of SABA|LS Mean Difference|-0.017||||0.6643|TWO_SIDED|95.0|-0.095|0.061|||ANCOVA|||||0.061|-0.095|0.6643
82501758|NCT01199289|164694456|SUPERIORITY||LS Mean Difference|-0.042||||0.2879|TWO_SIDED|95.0|-0.121|0.036|||ANCOVA|With use of SABA||||0.036|-0.121|0.2879
82501759|NCT01199289|164694456|SUPERIORITY|Without use of SABA|LS Mean Difference|-0.074||||0.0546|TWO_SIDED|95.0|-0.15|0.001|||ANCOVA|||||0.001|-0.150|0.0546
82501760|NCT01199289|164694456|SUPERIORITY||LS Mean Difference|-0.004||||0.9078|TWO_SIDED|95.0|-0.08|0.071|||ANCOVA|||Without use of SABA||0.071|-0.080|0.9078
82501761|NCT01199289|164694456|SUPERIORITY||LS Mean Difference|-0.035||||0.3616|TWO_SIDED|95.0|-0.111|0.04|||ANCOVA|||Without use of SABA||0.040|-0.111|0.3616
82501762|NCT01409564|164694479|SUPERIORITY_OR_OTHER|||||||0.14|||||||Repeated ANOVA|Uncorrected, Repeated ANOVA||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Left Parietal Lobe in two groups on two data points (baseline, 24-week).||||0.14
82440243|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-4102.0||||0.4894|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.4894
82501763|NCT01409564|164694479|SUPERIORITY_OR_OTHER|||||||0.08|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Right Parietal Lobe in two groups on two data points (baseline, 24-week).||||0.08
82501764|NCT01409564|164694479|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Left Inferior Frontal Gyrus in two groups on two data points (baseline, 24-week).||||<0.01
82501765|NCT01409564|164694479|SUPERIORITY_OR_OTHER|||||||0.08|||||||Repeated ANOVA|||Repeated-measures analysis of variance (ANOVA) was used to test group\*time interaction effect in glucose uptake of Right Inferior Frontal Gyrus in two groups on two data points (baseline, 24-week).||||0.08
82501766|NCT01409564|164694480|SUPERIORITY_OR_OTHER|||||||0.93|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of ADAS-Cog scores on three data points (Baseline, 12-week, 24-week)||||0.93
82501767|NCT01409564|164694481|SUPERIORITY_OR_OTHER|||||||0.15|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of MMSE scores on three data points (Baseline, 12-week, 24-week)||||0.15
82501768|NCT01409564|164694482|SUPERIORITY_OR_OTHER|||||||0.82|||||||Repeated ANOVA|||Repeated ANOVA, tested for group\*time interaction effect of ADCS-ADL scores on three data points (Baseline, 12-week, 24-week)||||0.82
82501769|NCT01409564|164694483|SUPERIORITY_OR_OTHER|||||||0.79|||||||Chi-squared|||Repeated ANOVA, tested for group\*time interaction effect of Summed CDR scores on three data points (Baseline, 12-week, 24-week)||||0.79
82501770|NCT01409564|164694484|SUPERIORITY_OR_OTHER|||||||0.87|||||||Chi-squared|||Distribution of Fazekas scale in two groups according to Chi-square test results.||||0.87
82501771|NCT00254540|164694485|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|48.0||||||95.0|27.8|68.7||||||||68.7|27.8|
82501772|NCT00254540|164694485|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|46.2||||||95.0|26.6|66.6||||||||66.6|26.6|
82501773|NCT00225251|164694501|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|||<|0.05|||||||t-test, 2 sided|||||||<.05
82501774|NCT01313767|164694525|NON_INFERIORITY_OR_EQUIVALENCE|90% of the power, 0.45 of non-inferiority margin|Mean Difference (Final Values)|0.17||||0.1347|TWO_SIDED|95.0|-0.05|0.4|||t-test, 2 sided|||The difference between the two groups was provided with 95% CI. If the upper limit of CI is no greater than 0.45 (non-inferiority margin), the study group was determined not inferior to the control group. Additionally, difference between groups in change from baseline to week 4 in wrist flexor MAS score was compared using two sample t-test.||0.40|-0.05|0.1347
82501775|NCT01313767|164694526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.2591|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in wrist flexor MAS score was compared using two sample t-test.||||0.2591
82501776|NCT01313767|164694526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.3395|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in wrist flexor MAS score was compared using two sample t-test.||||0.3395
82501777|NCT01313767|164694527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0675|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in elbow flexor MAS score was compared using two sample t-test.||||0.0675
82501778|NCT01313767|164694527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0605|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in elbow flexor MAS score was compared using two sample t-test.||||0.0605
82501779|NCT01313767|164694527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.0429|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in elbow flexor MAS score was compared using two sample t-test.||||0.0429
82501780|NCT01313767|164694528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.6954|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in finger flexor MAS score was compared using two sample t-test.||||0.6954
82624089|NCT04134728|164963572|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0596|TWO_SIDED|0.95|0.98|3.15|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 150 mg dose of GSK3196165 and placebo in the percentage of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 150 mg dose of GSK3196165 differs from placebo in the percentage of participants with ACR20 response at Week 12||3.15|0.98|0.0596
82624090|NCT04134728|164963572|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0049|TWO_SIDED|0.95|1.29|4.23|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 200 mg dose of Sarilumab alternating with placebo every week and placebo in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 200 mg dose of Sarilumab alternating with placebo every week differs from placebo in the proportion of participants with ACR20 response at Week 12||4.23|1.29|0.0049
82624091|NCT04134728|164963572|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0293|TWO_SIDED|0.95|0.36|0.95|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 90 mg dose of GSK3196165 and 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants with ACR20 response at Week 12||0.95|0.36|0.0293
82624092|NCT04134728|164963572|SUPERIORITY||Odds Ratio (OR)|0.75||||0.2308|TWO_SIDED|0.95|0.47|1.2|||Regression, Logistic|OR and corresponding 95%CI are generated from logistic regression model adjusted for Baseline, Treatment Group, Previously Failed Medical Category.||The null hypothesis is that there is no difference between 150 mg dose of GSK3196165 and 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants achieving ACR20 response at Week 12 versus the alternative hypothesis that the 150 mg dose of GSK3196165 differs from 200 mg dose of sarilumab alternating with placebo every week in the proportion of participants with ACR20 response at Week 12||1.20|0.47|0.2308
82624093|NCT03518034|164963665|NON_INFERIORITY|Noninferiority margin in terms of HR is 1.5.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.78|1.17|||||HR of AndroGel to placebo and 95% CI were estimated from Cox proportional-hazards regression model, with adjustment for pre-existing CVD.|The hazard ratio (HR) and 2-sided 95% confidence interval (CI) were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing cardiovascular disease (CVD) status. In this analysis, the time to event for a participant is defined as the time from randomization to the first component event of MACE. If a subject does not experience a MACE during the study, the time is right-censored at the time of participant's last available follow-up observation.||1.17|0.78|
82624094|NCT03518034|164963667|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.86|1.21|||||HR of AndroGel to placebo and 2-sided 95% CI were estimated from a Cox proportional-hazards regression model with adjustment of pre-existing CVD status.|The HR and 2-sided 95% CI were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing CVD status. In this analysis, the time to event for a participant is defined as the time from randomization to the first component event of CV safety endpoint. If a participant does not experience a CV safety endpoint during the study, the time is right-censored at the time of participant's last available follow-up observation.||1.21|0.86|
82624095|NCT03518034|164963668|SUPERIORITY||Hazard Ratio (HR)|1.62|||||TWO_SIDED|95.0|0.39|6.77|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior cardiovascular disease (CVD).|The high grade prostate cancer endpoint was analyzed using a discrete time proportional hazard regression model with event time intervals based on scheduled visits, and adjusting for pre-existing CVD status. The HR of AndroGel to Placebo and its 2-sided 95% CI were provided.||6.77|0.39|
82440244|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-6818.0|||>|0.9999|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||>0.9999
82440245|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-1570.0||||0.8633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.8633
82501781|NCT01313767|164694528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.6024|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in finger flexor MAS score was compared using two sample t-test.||||0.6024
82624096|NCT03518034|164963669|SUPERIORITY|||||||0.011||||||P-value is derived from the omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using linear mixed regression model.|linear mixed regression model|Omnibus likelihood-ratio chi-square test from linear mixed regression model||A linear mixed regression model was used to analyze the change in PDQ-Q4 from baseline to months 6, 12, and 24, with the dependent variable being the change in PDQ-Q4 score. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CVD status. An unstructured covariance matrix was used to account for correlations among repeated measures within-subject.||||0.011
82440246|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-4200.0||||0.3401|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 18-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.3401
82624097|NCT03518034|164963669|SUPERIORITY||LS Mean of Difference|0.49|||||TWO_SIDED|95.0|0.19|0.79|||||LS mean difference (AndroGel - Placebo) at month 6 was derived from linear mixed regression model.|Month 6 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.79|0.19|
82624098|NCT03518034|164963669|SUPERIORITY||LS Mean of Difference|0.47|||||TWO_SIDED|95.0|0.11|0.83|||||LS mean difference (AndroGel - Placebo) at month 12 was derived from linear mixed regression model.|Month 12 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.83|0.11|
82624099|NCT03518034|164963669|SUPERIORITY||LS Mean of Difference|0.48|||||TWO_SIDED|95.0|-0.01|0.96|||||LS mean difference (AndroGel - Placebo) at month 24 was derived from linear mixed regression model.|Month 24 (results were derived from a linear mixed regression model that had a dependent variable of the change in PDQ-Q4 from baseline to months 6, 12, and 24. The model included fixed effects for treatment, visit, and the interaction between treatment and visit, while adjusting for baseline PDQ-Q4 score and pre-existing CV disease status. Additionally, an unstructured covariance matrix was used to account for correlations among repeated measures within participants).||0.96|-0.01|
82624100|NCT03518034|164963670|SUPERIORITY||Risk Ratio (RR)|1.92|||||TWO_SIDED|95.0|0.96|3.86||||||Month 6 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||3.86|0.96|
82624101|NCT03518034|164963670|SUPERIORITY||Risk Ratio (RR)|1.52|||||TWO_SIDED|95.0|0.64|3.63||||||Month 12 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||3.63|0.64|
82624102|NCT03518034|164963670|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.42|1.94||||||Month 24 risk ratio of remission of LG-PDD in the AndroGel versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||1.94|0.42|
82440247|NCT00901511|164588473|SUPERIORITY||Median Difference (Final Values)|-4307.0||||0.2973|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum KL-6 levels in the GM-CSF Group minus the median KL-6 levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum KL-6 levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.2973
82501782|NCT01313767|164694528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9316|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in finger flexor MAS score was compared using two sample t-test.||||0.9316
82624103|NCT03518034|164963670|SUPERIORITY|||||||0.197||||||The omnibus test p value is a test of the null hypothesis of no difference between AndroGel and placebo groups across all time points.|GEE Poisson regression model|||Risk ratio of remission of LG-PDD in the TRT versus placebo group was estimated by a repeated measures generalized estimating equations (GEE) Poisson regression model with fixed effects for treatment, visit, treatment-visit interaction, pre- existing CVD, and an unstructured working correlation matrix to account for repeated measures at multiple visits.||||0.197
82624104|NCT03518034|164963672|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|1.04|1.97|||||Cox proportional-hazards model.|The HR and 2-sided 95% CI were calculated using a Cox proportional-hazards regression model, with adjustment for pre-existing CVD status. In this analysis, the time to event for a subject is defined as the time from randomization to the first occurrence of a clinical fracture. If a subject does not experience a clinic fracture during the study, the follow-up time is right-censored at the time of subject's last available follow-up observation.||1.97|1.04|
82624105|NCT03518034|164963673|OTHER|||||||0.002||||||p-value is from an omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using repeated measure log-binomial regression.|omnibus likelihood-ratio chi-square test|||Repeated measures log-binomial regression with effects for treatment, visit, treatment-by-visit interaction, and adjusted for pre-existing CVD, and an unstructured covariance matrix to account for correlations among repeated measures within-subject.||||0.002
82624106|NCT03518034|164963674|SUPERIORITY|||||||0.494||||||P-value is from an omnibus likelihood-ratio chi-square test of the current model versus the null (intercept) model using repeated measure log-binomial regression.|Repeated measures log-binomial regr.|||The risk ratio of progression to diabetes in the AndroGel versus placebo group was estimated by a repeated measures log-binomial regression with fixed effects for treatment, visit, treatment-visit interaction, and pre-existing CVD, and an unstructured covariance matrix to account for correlations among repeated measures within-subject.||||0.494
82440248|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.22|TWO_SIDED|95.0|-0.44|-0.04|||Repeated measures ANOVA||Calculated as the between group difference in the serum Cyfra21.1 levels in the GM-CSF Group minus the serum Cyfra21.1 levels in the Control Group|Primary Analysis||-0.04|-0.44|0.220
82624107|NCT03518034|164963675|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.78|1.23|||||Cox proportional-hazards model adjusting for prior CVD.|||1.23|0.78|
82501783|NCT01313767|164694529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.2284|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 4 in thumb flexor MAS score was compared using two sample t-test.||||0.2284
82501784|NCT01313767|164694529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.3221|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 8 in thumb flexor MAS score was compared using two sample t-test.||||0.3221
82624108|NCT03518034|164963676|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.76|1.62|||||Cox proportional-hazards model adjusting for prior CVD.|||1.62|0.76|
82624109|NCT03518034|164963677|SUPERIORITY||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|0.92|2.32|||||Cox proportional-hazards model adjusting for prior CVD.|||2.32|0.92|
82624110|NCT03518034|164963678|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.56|1.51|||||Cox proportional-hazards model adjusting for prior CVD.|||1.51|0.56|
82440249|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-14.19|STANDARD_ERROR_OF_MEAN|6.76||0.056|TWO_SIDED|95.0|-28.8|0.42|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|•The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.42|-28.80|0.0560
82440250|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|2.15||0.0648|TWO_SIDED|95.0|-8.8|0.29|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||0.29|-8.80|0.0648
82440251|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-6.27|STANDARD_ERROR_OF_MEAN|2.36||0.0175|TWO_SIDED|95.0|-11.28|-1.25|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||-1.25|-11.28|0.0175
82440252|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-16.81|STANDARD_ERROR_OF_MEAN|6.16||0.0148|TWO_SIDED|95.0|-29.85|-3.76|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||-3.76|-29.85|0.0148
82440253|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-5.41|STANDARD_ERROR_OF_MEAN|1.82||0.0089|TWO_SIDED|95.0|-9.27|-1.56|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||-1.56|-9.27|0.0089
82440254|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-5.18|STANDARD_ERROR_OF_MEAN|2.24||0.0343|TWO_SIDED|95.0|-9.92|-0.43|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||-0.43|-9.92|0.0343
82440255|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|2.33||0.0871|TWO_SIDED|95.0|-9.21|0.69|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||0.69|-9.21|0.0871
82440256|NCT00901511|164588474|SUPERIORITY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|2.4||0.2265|TWO_SIDED|95.0|-8.09|2.06|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean serum Cyfra21.1 levels in the GM-CSF Group minus the mean serum Cyfra21.1 levels in the Control Group|The secondary analysis includes evaluation of the difference in mean serum Cyfra21.1 levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||2.06|-8.09|0.2265
82440257|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|8.78||||0.3865|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the Pre-WLL visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||||0.3865
82440258|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|7.82||||0.1672|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the baseline visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||||0.1672
82501785|NCT01313767|164694529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.593|TWO_SIDED||||||t-test, 2 sided|||Difference between groups in change from baseline to week 12 in thumb flexor MAS score was compared using two sample t-test.||||0.5930
82624111|NCT03518034|164963679|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.55|2.31|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.31|0.55|
82624112|NCT03518034|164963680|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.47|2.42|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.42|0.47|
82624113|NCT03518034|164963681|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.65|2.41|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||2.41|0.65|
82624114|NCT03518034|164963682|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.87|1.54|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||1.54|0.87|
82624115|NCT03518034|164963683|SUPERIORITY||Hazard Ratio (HR)|1.91|||||TWO_SIDED|95.0|0.95|3.84|||||Discrete-time proportional hazards model with event time intervals based on scheduled visits, and adjusting for prior CVD.|||3.84|0.95|
82440259|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|4.24||||0.4363|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 1-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||||0.4363
82440260|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|7.34||||0.1615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 3-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||||0.1615
82440261|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|13.71||||0.1615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 6-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||||0.1615
82440262|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|11.1||||0.3865|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 10-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||||0.3865
82440263|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|5.4||||0.6475|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||• Calculated as the difference at the 18-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||||0.6475
82440264|NCT00901511|164588475|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.6481|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Calculated as the difference at the 30-month visit in the median serum GMAb levels in the GM-CSF Group minus the median serum GMAb levels in the Control Group|The secondary analysis includes evaluation of the difference in median serum GMAb levels between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||||0.6481
82440265|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.78||0.0582|TWO_SIDED|95.0|-3.17|0.06|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||0.06|-3.17|0.0582
82440266|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|1.09||0.3068|TWO_SIDED|95.0|-1.17|3.48|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||3.48|-1.17|0.3068
82440267|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.75||0.5647|TWO_SIDED|95.0|-2.04|1.15|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||1.15|-2.04|0.5647
82440268|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.59||0.1669|TWO_SIDED|95.0|-2.11|0.4|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||0.40|-2.11|0.1669
82440269|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|0.69||0.453|TWO_SIDED|95.0|-1.99|0.93|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||0.93|-1.99|0.4530
82440270|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.71||0.4594|TWO_SIDED|95.0|-2.04|0.97|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||0.97|-2.04|0.4594
82440271|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.62||0.6302|TWO_SIDED|95.0|-1.61|1.0|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||1.00|-1.61|0.6302
82440272|NCT00901511|164588476|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.72||0.33|TWO_SIDED|95.0|-2.24|0.8|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean WBC count in the GM-CSF Group minus the mean WBC count in the Control Group|The secondary analysis includes evaluation of the difference in mean WBC counts between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||0.80|-2.24|0.3300
82501786|NCT01313767|164694530|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.1585|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.1585
82440273|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-53.72|STANDARD_ERROR_OF_MEAN|38.79||0.1864|TWO_SIDED|95.0|-136.4|28.96|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||28.96|-136.4|0.1864
82440274|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-21.17|STANDARD_ERROR_OF_MEAN|46.3||0.6541|TWO_SIDED|95.0|-119.8|77.51|||t-test, 2 sided||Calculated as the difference at the baseline visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the baseline visit after imputation of missing data using a last observation carried forward method.||77.51|-119.8|0.6541
82440275|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-18.78|STANDARD_ERROR_OF_MEAN|24.58||0.456|TWO_SIDED|95.0|-70.89|33.33|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||33.33|-70.89|0.4560
82440276|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-28.44|STANDARD_ERROR_OF_MEAN|30.98||0.3721|TWO_SIDED|95.0|-94.12|37.23|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||37.23|-94.12|0.3721
82440277|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-28.78|STANDARD_ERROR_OF_MEAN|20.58||0.1812|TWO_SIDED|95.0|-72.41|14.86|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||14.86|-72.41|0.1812
82440278|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-26.11|STANDARD_ERROR_OF_MEAN|23.38||0.2805|TWO_SIDED|95.0|-75.67|23.44|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||23.44|-75.67|0.2805
82440279|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-27.33|STANDARD_ERROR_OF_MEAN|22.75||0.247|TWO_SIDED|95.0|-75.56|20.89|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||20.89|-75.56|0.2470
82440280|NCT00901511|164588477|SUPERIORITY||Mean Difference (Final Values)|-31.0|STANDARD_ERROR_OF_MEAN|23.57||0.207|TWO_SIDED|95.0|-80.97|18.97|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean platelet count in the GM-CSF Group minus the mean platelet count in the Control Group|The secondary analysis includes evaluation of the difference in mean platelet counts between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||18.97|-80.97|0.2070
82440281|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|4.72||||0.149|TWO_SIDED|95.0|-1.88|11.33|||Repeated measures ANOVA|Data was evaluated via repeated measures ANOVA after adjustment for baseline values, gender, age, and number of patients at risk at each time point.|Calculated as the difference in the mean value of the SF-36 General Health Score in the GM-CSF Group minus the Control Group|Primary analysis||11.33|-1.88|0.1490
82440282|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|-4.31|STANDARD_ERROR_OF_MEAN|12.07||0.7263|TWO_SIDED|95.0|-30.04|21.43|||t-test, 2 sided||Calculated as the difference at the Pre-WLL visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the Pre-WLL visit after imputation of missing data using a last observation carried forward method.||21.43|-30.04|0.7263
82440283|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|8.29||0.3298|TWO_SIDED|95.0|-9.24|25.91|||t-test, 2 sided||Calculated as the difference at the 1-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in SF-36 General Health Score between groups at the 1-month visit after imputation of missing data using a last observation carried forward method.||25.91|-9.24|0.3298
82501787|NCT01313767|164694530|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0028||||0.9596|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.9596
82624116|NCT01019252|164963684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.24|||<|0.0001|TWO_SIDED|95.0|3.28|7.21|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||7.21|3.28|<.0001
82440284|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|13.89|STANDARD_ERROR_OF_MEAN|6.48||0.0478|TWO_SIDED|95.0|-0.15|27.62|||t-test, 2 sided||Calculated as the difference at the 3-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in SF-36 General Health Score between groups at the 3-month visit after imputation of missing data using a last observation carried forward method.||27.62|-0.15|0.0478
82501788|NCT01313767|164694530|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0304||||0.6164|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in wrist flexor was compared using Pearson's chi-square test.||||0.6164
82624117|NCT01019252|164963685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.94|1.39|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||1.39|.94|<.0001
82501789|NCT01313767|164694531|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.098||||0.1802|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1802
82440285|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|17.78|STANDARD_ERROR_OF_MEAN|7.37||0.0281|TWO_SIDED|95.0|2.16|33.39|||t-test, 2 sided||Calculated as the difference at the 6-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 6-month visit after imputation of missing data using a last observation carried forward method.||33.39|2.16|0.0281
82440286|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|11.67|STANDARD_ERROR_OF_MEAN|10.07||0.2634|TWO_SIDED|95.0|-9.67|33.0|||t-test, 2 sided||Calculated as the difference at the 10-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 10-month visit after imputation of missing data using a last observation carried forward method.||33.00|-9.67|0.2634
82440287|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|10.49||0.3548|TWO_SIDED|95.0|-12.24|32.24|||t-test, 2 sided||Calculated as the difference at the 18-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 18-month visit after imputation of missing data using a last observation carried forward method.||32.24|-12.24|0.3548
82440288|NCT00901511|164588478|SUPERIORITY||Mean Difference (Final Values)|16.67|STANDARD_ERROR_OF_MEAN|9.68||0.1043|TWO_SIDED|95.0|-3.85|37.18|||t-test, 2 sided||Calculated as the difference at the 30-month visit in the mean SF-36 General Health Score in the GM-CSF Group minus the mean SF-36 General Health Score in the Control Group|The secondary analysis includes evaluation of the difference in mean SF-36 General Health Score between groups at the 30-month visit after imputation of missing data using a last observation carried forward method.||37.18|-3.85|0.1043
82440289|NCT02436668|164588479|SUPERIORITY||Hazard Ratio (HR)|1.525|||<|0.0001|TWO_SIDED|95.0|1.241|1.873||P-value is from log-rank test stratified by the three randomization stratification factors \[KPS (70-80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\].|Log Rank|||The treatment effect was tested with an stratified log rank test. Hazard ratio is estimated using Cox regression model stratified by the three randomization stratification factors \[KPS (70 80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\] and with treatment as the only covariate.||1.873|1.241|<0.0001
82440290|NCT02436668|164588480|SUPERIORITY|P-value is based on log-rank test stratified by the three randomization stratification factors \[KPS (70-80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\].|Hazard Ratio (HR)|1.109||||0.3225|TWO_SIDED|95.0|0.903|1.363|||Log Rank|||The treatment effect was tested with an stratified log rank test. Hazard ratio is estimated using Cox regression model stratified by the three randomization stratification factors \[KPS (70 80 vs. 90-100), liver metastasis (present vs. absent), and age (≤65 vs. \>65)\] and with treatment as the only covariate.||1.363|0.903|0.3225
82440291|NCT02436668|164588482|SUPERIORITY||Risk Ratio (RR)|0.695||||0.0058|TWO_SIDED|95.0|0.535|0.903|||Cochran-Mantel-Haenszel|||For rate ratio, numerator is Ibr+Gem/Abr arm and denominator is Pbo + Gem/Abr arm. P-value for rate ratio is based on Cochran-Mantel-Haenszel (CMH) test adjusted for the three randomization stratification factors. Two-sided 95% confidence interval for rate ratio is based on Mantel-Haenszel method.||0.903|0.535|0.0058
82440292|NCT02436668|164588484|SUPERIORITY||Risk Ratio (RR)|0.85||||0.0488|TWO_SIDED|95.0|0.722|1.0|||Cochran-Mantel-Haenszel||This 0.85 (0.722 to 1.0) with CI is referring to risk ratio not proportional/percentage of patients.|For rate ratio, numerator is Ibr+Gem/Abr arm and denominator is Pbo+Gem/Abr arm. P-value for rate ratio is based on Cochran-Mantel-Haenszel (CMH) test adjusted for the three randomization stratification factors. Two-sided 95% confidence interval for rate ratio is based on Mantel-Haenszel method.||1.0|0.722|0.0488
82440293|NCT02436668|164588485|SUPERIORITY||Hazard Ratio (HR)|1.265||||0.0782|TWO_SIDED|95.0|0.975|1.642||P-value is from log-rank test stratified by the three randomization stratification factors.|Log Rank|||\[1\] Hazard ratio is based on a Cox proportional hazards model stratified by the three randomization stratification factors for time until definitive deterioration (TUDD1), a hazard ratio \< 1 favors Ibr + Gem/Abr. TUDD1 is defined as the time interval between randomization and the first occurrence of a decrease in score by \>= 10 points without any further improvement in score by \>= 10 points or any further available QoL data due to dropout after deterioration.||1.642|0.975|0.0782
82440294|NCT02436668|164588486|SUPERIORITY|||||||0.3343|||||||Chi-squared|||"For rate of VTEs, denominator is number of subjects in the Intent-to-Treat population and numerator is number of Intent-to-Treat subjects with at least one VTE observed any time on study. Confidence interval for rate of VTEs is based on Clopper-Pearson method.~\[1\] P value is based on Chi-square test."||||0.3343
82440295|NCT01514240|164588496|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 90% CI for the observed difference in the primary outcome measure (remission rate) between the D9421-C 9mg group and the Mesalazine 3 g group was calculated at week 8 using the Newcombe-Wilson score method without continuity correction. Noninferiority was concluded if the lower limit of the 90% CI was higher than -10% in FAS Population.|Difference of proportion|5.4||||0.526|TWO_SIDED|90.0|-8.49|18.94|||Chi-squared|||The primary objective of this study was to determine non-inferiority in the differences in remission rates at Week 8 for D9421-C 9 mg as compared to Mesalazine 3 g.||18.94|-8.49|0.526
82440296|NCT01514240|164588497|SUPERIORITY_OR_OTHER||Difference of proportion|1.8||||0.768|TWO_SIDED|90.0|-8.54|12.15|||Chi-squared||Differences in remission rate at Week 2 between D9421-C 9 mg and Mesalazine 3 g along with their 2-sided 90% CIs calculated by the Newcombe-Wilson score method without continuity correction|||12.15|-8.54|0.768
82440297|NCT01514240|164588498|SUPERIORITY_OR_OTHER||Difference of proportion|8.9||||0.208|TWO_SIDED|90.0|-2.87|20.58|||Chi-squared||Differences in remission rate at Week 4 between D9421-C 9 mg and Mesalazine 3 g along with their 2-sided 90% CIs calculated by the Newcombe-Wilson score method without continuity correction|||20.58|-2.87|0.208
82501790|NCT01313767|164694531|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1164||||0.1176|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1176
82440298|NCT01514240|164588499|SUPERIORITY_OR_OTHER||LS mean difference between group|-22.8|STANDARD_ERROR_OF_MEAN|11.89||0.058|TWO_SIDED|90.0|-42.55|-3.09|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||-3.09|-42.55|0.058
82440299|NCT01514240|164588500|SUPERIORITY_OR_OTHER||LS mean difference between group|-30.0|STANDARD_ERROR_OF_MEAN|12.05||0.014|TWO_SIDED|90.0|-49.95|-9.96|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||-9.96|-49.95|0.014
82440300|NCT01514240|164588501|SUPERIORITY_OR_OTHER||LS mean difference between group|-21.4|STANDARD_ERROR_OF_MEAN|14.53||0.144|TWO_SIDED|90.0|-45.47|2.74|||Mixed Models Analysis||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.74|-45.47|0.144
82440301|NCT01514240|164588505|SUPERIORITY_OR_OTHER||Difference of proportions|14.3|||||TWO_SIDED|90.0|0.5|27.4|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||27.40|0.50|
82440302|NCT01514240|164588506|SUPERIORITY_OR_OTHER||Difference of proportions|16.1|||||TWO_SIDED|90.0|1.66|29.61|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||29.61|1.66|
82440303|NCT01514240|164588507|SUPERIORITY_OR_OTHER||Difference of proportions|16.1|||||TWO_SIDED|90.0|0.85|30.29|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||30.29|0.85|
82440304|NCT01514240|164588508|SUPERIORITY_OR_OTHER||Difference of proportions|7.1|||||TWO_SIDED|90.0|-5.67|19.71|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||19.71|-5.67|
82440305|NCT01514240|164588509|SUPERIORITY_OR_OTHER||Difference of proportions|14.3|||||TWO_SIDED|90.0|0.5|27.4|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||27.40|0.50|
82440306|NCT01514240|164588510|SUPERIORITY_OR_OTHER||Difference of proportions|12.5|||||TWO_SIDED|90.0|-2.44|26.68|||||90% CI calculated using the Newcombe-Wilson score method without continuity corrections.|||26.68|-2.44|
82501791|NCT01313767|164694531|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1138||||0.1252|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in elbow flexor was compared using Pearson's chi-square test.||||0.1252
82440307|NCT01514240|164588511|SUPERIORITY_OR_OTHER||LS mean difference between group|10.5|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|90.0|4.86|16.14|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||16.14|4.86|
82440308|NCT01514240|164588512|SUPERIORITY_OR_OTHER||LS mean difference between group|12.6|STANDARD_ERROR_OF_MEAN|3.93|||TWO_SIDED|90.0|6.07|19.11|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||19.11|6.07|
82440309|NCT01514240|164588513|SUPERIORITY_OR_OTHER||LS mean difference between group|12.6|STANDARD_ERROR_OF_MEAN|4.31|||TWO_SIDED|90.0|5.4|19.72|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||19.72|5.40|
82440310|NCT01514240|164588514|SUPERIORITY_OR_OTHER||LS mean difference between group|14.1|STANDARD_ERROR_OF_MEAN|4.32|||TWO_SIDED|90.0|6.9|21.23|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||21.23|6.90|
82440311|NCT01514240|164588515|SUPERIORITY_OR_OTHER||LS mean difference between group|3.4|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|1.49|5.29|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.29|1.49|
82440312|NCT01514240|164588516|SUPERIORITY_OR_OTHER||LS mean difference between group|3.8|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|1.64|5.97|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.97|1.64|
82440313|NCT01514240|164588517|SUPERIORITY_OR_OTHER||LS mean difference between group|4.1|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|90.0|1.58|6.64|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||6.64|1.58|
82440314|NCT01514240|164588518|SUPERIORITY_OR_OTHER||LS mean difference between group|3.3|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|90.0|0.9|5.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||5.76|0.90|
82440315|NCT01514240|164588519|SUPERIORITY_OR_OTHER||LS mean difference between group|2.0|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|0.89|3.17|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.17|0.89|
82440316|NCT01514240|164588520|SUPERIORITY_OR_OTHER||LS mean difference between group|2.0|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|0.73|3.19|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.19|0.73|
82440317|NCT01514240|164588521|SUPERIORITY_OR_OTHER||LS mean difference between group|2.4|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|0.96|3.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.76|0.96|
82440318|NCT01514240|164588522|SUPERIORITY_OR_OTHER||LS mean difference between group|2.6|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|90.0|1.15|4.09|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||4.09|1.15|
82440319|NCT01514240|164588523|SUPERIORITY_OR_OTHER||LS mean difference between group|3.8|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|90.0|1.44|6.19|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||6.19|1.44|
82440320|NCT01514240|164588524|SUPERIORITY_OR_OTHER||LS mean difference between group|4.9|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|90.0|2.14|7.65|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||7.65|2.14|
82440321|NCT01514240|164588525|SUPERIORITY_OR_OTHER||LS mean difference between group|4.3|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|1.4|7.25|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||7.25|1.40|
82440322|NCT01514240|164588526|SUPERIORITY_OR_OTHER||LS mean difference between group|6.6|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|3.56|9.72|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||9.72|3.56|
82440323|NCT01514240|164588527|SUPERIORITY_OR_OTHER||LS mean difference between group|1.2|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|0.01|2.43|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.43|0.01|
82440324|NCT01514240|164588528|SUPERIORITY_OR_OTHER||LS mean difference between group|1.8|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|90.0|0.42|3.12|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.12|0.42|
82440325|NCT01514240|164588529|SUPERIORITY_OR_OTHER||LS mean difference between group|1.6|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|0.19|3.04|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||3.04|0.19|
82440326|NCT01514240|164588530|SUPERIORITY_OR_OTHER||LS mean difference between group|1.3|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|90.0|-0.15|2.76|||||The analysis using a MMRM analysis including a covariate of the corresponding score at baseline,fixed effects of time (as a categorical factor) and treatment and interaction between time and treatment group.|||2.76|-0.15|
82440327|NCT01103063|164588537|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.11|STANDARD_DEVIATION|0.0647||0.12237|TWO_SIDED|95.0|0.97|1.25||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint)|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.25|0.97|0.12237
82440328|NCT01103063|164588538|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|STANDARD_DEVIATION|0.1243||0.84117|TWO_SIDED|95.0|0.8|1.31||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint)|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.31|0.80|0.84117
82440329|NCT01103063|164588539|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87|STANDARD_DEVIATION|0.1745||0.4428|TWO_SIDED|95.0|0.62|1.23||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.23|0.62|0.4428
82440330|NCT01103063|164588540|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91|STANDARD_DEVIATION|0.1882||0.6086|TWO_SIDED|95.0|0.63|1.31||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.31|0.63|0.6086
82440331|NCT01103063|164588541|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|STANDARD_DEVIATION|0.2866||0.7035|TWO_SIDED|95.0|0.51|1.57||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.57|0.51|0.7035
82440332|NCT01103063|164588542|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|STANDARD_DEVIATION|0.04||0.4605|TWO_SIDED|95.0|0.95|1.11||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.11|0.95|0.4605
82440333|NCT01103063|164588543|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|STANDARD_DEVIATION|0.1817||0.7105|TWO_SIDED|95.0|0.65|1.33||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.33|0.65|0.7105
82501792|NCT01313767|164694532|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.098||||0.3431|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in finger flexor was compared using Pearson's chi-square test.||||0.3431
82440334|NCT01103063|164588544|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|STANDARD_DEVIATION|0.1842||0.3468|TWO_SIDED|95.0|0.59|1.21||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.21|0.59|0.3468
82440335|NCT01103063|164588545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0011|TWO_SIDED|95.0|-0.08|-0.02||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable. A negative mean difference between treatment groups favors Azithromycin + Chloroquine (reduction in number of STIs).|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.02|-0.08|0.0011
82440336|NCT01103063|164588546|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|STANDARD_DEVIATION|0.0604||0.2265|TWO_SIDED|95.0|0.96|1.21||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.21|0.96|0.2265
82440337|NCT01103063|164588547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0131|TWO_SIDED|95.0|-0.24|-0.03||Analysis based on an ANCOVA model with model terms for baseline value, treatment group and randomization stratification variable.|ANCOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.03|-0.24|0.0131
82440338|NCT01103063|164588548|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|STANDARD_DEVIATION|0.2694||0.6978|TWO_SIDED|95.0|0.53|1.53||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.53|0.53|0.6978
82440339|NCT01103063|164588549|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.14|STANDARD_DEVIATION|0.2908||0.6542|TWO_SIDED|95.0|0.64|2.01||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||2.01|0.64|0.6542
82440340|NCT01103063|164588550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|19.71||0.9145|TWO_SIDED|95.0|-36.5|40.8||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable.|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||40.8|-36.5|0.9145
82440341|NCT01103063|164588551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.09|-0.04||Analysis based on an ANOVA model with model terms for treatment group and randomization stratification variable. A negative mean difference between treatment groups favors Azithromycin + Chloroquine (reduction in number of symptomatic malaria).|ANOVA|||The 2-sided P-value tests the null hypothesis that the mean difference is 0 (treatment group equality) versus not equal 0.||-0.04|-0.09|<0.0001
82440342|NCT01103063|164588552|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|STANDARD_DEVIATION|0.1221|<|0.0001|TWO_SIDED|95.0|0.38|0.62||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.62|0.38|<0.0001
82440343|NCT01103063|164588553|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|STANDARD_DEVIATION|0.2295||0.036|TWO_SIDED|95.0|0.39|0.97||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.97|0.39|0.0360
82440344|NCT01103063|164588554|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|STANDARD_DEVIATION|0.163||0.1975|TWO_SIDED|95.0|0.59|1.12||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.12|0.59|0.1975
82440345|NCT01103063|164588555|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|STANDARD_DEVIATION|0.5675||0.4655|TWO_SIDED|95.0|0.22|2.01||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its SE, with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||2.01|0.22|0.4655
82440346|NCT01103063|164588556|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75|STANDARD_DEVIATION|0.0918||0.0016|TWO_SIDED|95.0|0.62|0.9||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.90|0.62|0.0016
82624118|NCT01019252|164963686|SUPERIORITY||Mean Difference (Net)|10.93|||<|0.0001|TWO_SIDED|95.0|8.93|12.93|||Mixed Models Analysis|A longitudinal general linear mixed effects model was used.||||12.93|8.93|<.0001
82440347|NCT01103063|164588557|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.34|STANDARD_DEVIATION|0.5338||0.1113|TWO_SIDED|95.0|0.82|6.66||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||6.66|0.82|0.1113
82440348|NCT01103063|164588558|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.25|STANDARD_DEVIATION|0.6386||0.0284|TWO_SIDED|95.0|0.07|0.86||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.86|0.07|0.0284
82440349|NCT01103063|164588559|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46|STANDARD_DEVIATION|0.3291||0.0188|TWO_SIDED|95.0|0.24|0.88||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.88|0.24|0.0188
82440350|NCT01103063|164588560|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|STANDARD_DEVIATION|0.1336||0.0527|TWO_SIDED|95.0|0.59|1.0||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.00|0.59|0.0527
82440351|NCT01103063|164588561|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73|STANDARD_DEVIATION|0.1536||0.0384|TWO_SIDED|95.0|0.54|0.98||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.98|0.54|0.0384
82440352|NCT01103063|164588562|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.09|STANDARD_DEVIATION|0.8648||0.3942|TWO_SIDED|95.0|0.38|11.38||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||11.38|0.38|0.3942
82440353|NCT01103063|164588563|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.39|STANDARD_DEVIATION|0.4439||0.0332|TWO_SIDED|95.0|0.16|0.93||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||0.93|0.16|0.0332
82440354|NCT01103063|164588564|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.61|STANDARD_DEVIATION|0.4195||0.2321|TWO_SIDED|95.0|0.27|1.38||Mantel-Haenszel estimate of the common relative risk is presented, adjusting for randomization strata. A relative risk less than 1 favors Azithromycin + Chloroquine treatment group (reduction in risk for the endpoint).|Mantel Haenszel||The estimated risk ratio is presented along with its standard error (SE), with the SE on the log(e) scale.|The 2-sided P-value tests the null hypothesis that the relative risk equals 1 (treatment group equality) versus not equal 1.||1.38|0.27|0.2321
82440355|NCT01103063|164588565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.76||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 6 presented above.||||1.0000
82501793|NCT01313767|164694532|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1097||||0.1329|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in finger flexor was compared using Pearson's chi-square test||||0.1329
82440356|NCT01103063|164588565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 7 presented above.||||1.0000
82501794|NCT01313767|164694532|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0853||||0.2611|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in finger flexor was compared using Pearson's chi-square test||||0.2611
82440357|NCT01103063|164588566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 6 presented above.||||1.0000
82440358|NCT01103063|164588566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for Visit 7 presented above.||||1.0000
82440359|NCT05320393|164588567|OTHER|This study was not powered for formal hypothesis testing; analyses were intended for interpretation purposes only. Analysis was performed using the modified Intent-to-Treat population and regardless of responder status.||||||0.0109|TWO_SIDED|95.0|||||Log Rank|||The primary effectiveness endpoint was a measure of duration of effect, described by Kaplan-Meier curves and the median times, with associated 2-sided 95% confidence intervals for each treatment group.||||0.0109
82440360|NCT00798317|164588584|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.13|||<|0.001|TWO_SIDED|95.0|1.97|17.0||Comparing placebo and ocriplasmin|Fisher Exact|||||17.00|1.97|<0.001
82501795|NCT01313767|164694533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0654||||0.4623|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 4 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.4623
82501796|NCT01313767|164694533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1194||||0.2007|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 8 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.2007
82440361|NCT00823212|164588607|NON_INFERIORITY_OR_EQUIVALENCE|A 2-group Farrington-Manning test was used to test the 1-sided hypothesis of non-inferiority in differences with a non-inferiority margin of 3.5%. A p value \<0.05 would indicate non-inferiority and correspond to the upper limit of the 1-sided 95% confidence interval of the difference not exceeding 3.5%.|Difference in percent of participants|0.5||||0.001|ONE_SIDED|95.0||2.13|||Farrington-Manning test||The standard error for the difference was estimated according to the Farrington-Manning test.|Study had 89% statistical power to demonstrate non-inferiority for target lesion failure (TLF, accounting for an expected 1-year attrition rate of 5%), assuming a 1-year TLF rate of 5.5% for both stents.||2.13||0.001
82440362|NCT00496197|164588646|SUPERIORITY_OR_OTHER||percentage of participants|83.7|||||TWO_SIDED|95.0|78.7|88.8|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOT||88.8|78.7|
82440363|NCT00496197|164588647|SUPERIORITY_OR_OTHER||percentage of participants|93.0|||||TWO_SIDED|95.0|89.4|96.7|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at EOT||96.7|89.4|
82440364|NCT00496197|164588648|SUPERIORITY_OR_OTHER||percentage of participants|95.3|||||TWO_SIDED|95.0|92.3|98.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at EOT||98.3|92.3|
82440365|NCT00496197|164588649|SUPERIORITY_OR_OTHER||percentage of participants|88.5|||||TWO_SIDED|95.0|84.4|92.6|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOIV||92.6|84.4|
82440366|NCT00496197|164588650|SUPERIORITY_OR_OTHER||percentage of participants|93.1|||||TWO_SIDED|95.0|89.8|96.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at EOIV||96.4|89.8|
82440367|NCT00496197|164588651|SUPERIORITY_OR_OTHER||percentage of participants|92.6|||||TWO_SIDED|95.0|89.3|95.9|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at EOIV||95.9|89.3|
82440368|NCT00496197|164588652|SUPERIORITY_OR_OTHER||percentage of participants|76.3|||||TWO_SIDED|95.0|70.3|82.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 2 Follow-up||82.3|70.3|
82440369|NCT00496197|164588653|SUPERIORITY_OR_OTHER||percentage of participants|94.8|||||TWO_SIDED|95.0|91.5|98.1|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at Week 2 Follow-up||98.1|91.5|
82440370|NCT00496197|164588654|SUPERIORITY_OR_OTHER||percentage of participants|95.4|||||TWO_SIDED|95.0|92.2|98.5|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at Week 2 Follow-up||98.5|92.2|
82440371|NCT00496197|164588655|SUPERIORITY_OR_OTHER||percentage of participants|70.1|||||TWO_SIDED|95.0|63.5|76.6|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 6 Follow-up (EOS)||76.6|63.5|
82440372|NCT00496197|164588656|SUPERIORITY_OR_OTHER||percentage of participants|93.6|||||TWO_SIDED|95.0|89.7|97.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Clinical response of Success (cure or improvement) at Week 6 Follow-up (EOS)||97.4|89.7|
82440373|NCT00496197|164588657|SUPERIORITY_OR_OTHER||percentage of participants|93.6|||||TWO_SIDED|95.0|89.7|97.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Microbiological response of Success (eradication or presumed eradication) at Week 6 Follow-up (EOS)||97.4|89.7|
82440374|NCT00496197|164588658|SUPERIORITY_OR_OTHER||percentage of participants|82.5|||||TWO_SIDED|95.0|75.7|89.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOT||89.3|75.7|
82501797|NCT01313767|164694533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0172||||0.8553|TWO_SIDED||||||Chi-squared|||Difference between groups in frequency of responders who have improved at least 1-point on the MAS at week 12 from baseline in thumb flexor was compared using Pearson's chi-square test.||||0.8553
82440375|NCT00496197|164588659|SUPERIORITY_OR_OTHER||percentage of participants|85.6|||||TWO_SIDED|95.0|79.8|91.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at EOIV||91.4|79.8|
82440376|NCT00496197|164588660|SUPERIORITY_OR_OTHER||percentage of participants|76.7|||||TWO_SIDED|95.0|69.0|84.4|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 2 Follow-up||84.4|69.0|
82440377|NCT00496197|164588661|SUPERIORITY_OR_OTHER||percentage of participants|67.6|||||TWO_SIDED|95.0|58.9|76.3|||||95% Confidence interval based on normal approximation to the binomial. Percentages based on the number of participants in analysis.|Global response of Success (cure or improvement) at Week 6 Follow-up (EOS)||76.3|58.9|
82440378|NCT01344538|164588680|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82440379|NCT00297102|164588681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|39.0|STANDARD_ERROR_OF_MEAN|11.0||0.0003|TWO_SIDED|95.0|18.0|60.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||60|18|0.0003
82440380|NCT00297102|164588682|SUPERIORITY_OR_OTHER||Rate ratio|0.851|STANDARD_ERROR_OF_MEAN|0.062||0.0278|TWO_SIDED|95.0|0.737|0.982||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||0.982|0.737|0.0278
82501798|NCT01313767|164694534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.604|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.6040
82440381|NCT00297102|164588683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|26.0|71.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||71|26|<0.0001
82440382|NCT00297102|164588684|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035|STANDARD_ERROR_OF_MEAN|0.357||0.9212|TWO_SIDED|95.0|0.526|2.034||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Cox proportional hazards regression||The statistical analysis is based on the ITT Analysis Set (n= 765 in the roflumilast group, n= 758 in the placebo group).|||2.034|0.526|0.9212
82440383|NCT00297102|164588685|SUPERIORITY_OR_OTHER||Mean Difference calculated as ratio|0.9521||||0.4089|TWO_SIDED|95.0|0.8472|1.0699||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|ANCOVA model including last observation carried forward (LOCF) method||||1.0699|0.8472|0.4089
82440384|NCT00297102|164588686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.111||0.0356|TWO_SIDED|95.0|0.016|0.449||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||0.449|0.016|0.0356
82440385|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.025|TWO_SIDED|97.5|-0.26|0.22|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|SMT Component Main Effects at 4 weeks||0.22|-0.26|0.025
82440386|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.025|TWO_SIDED|97.5|-0.43|0.09|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|SMT Component Main Effects after 12 weeks||0.09|-0.43|0.025
82440387|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.025|TWO_SIDED|97.5|-0.11|0.38|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Mobilizing Exercise Treatment Component Main Effects at 4 weeks||0.38|-0.11|0.025
82440388|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.025|TWO_SIDED|97.5|-0.23|0.29|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Mobilizing Exercise Component Main Effects at 12 weeks||0.29|-0.23|0.025
82440389|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.025|TWO_SIDED|97.5|-0.45|0.04|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in stiffness when the component was used|Activating Exercise Component Main Effect at 4 weeks||0.04|-0.45|0.025
82440390|NCT02868034|164588752|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.025|TWO_SIDED|97.5|-0.45|0.07|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater change when the component was used|Activating Exercise Component Main Effect at 12 weeks||0.07|-0.45|0.025
82501799|NCT01313767|164694534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.3233|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.3233
82501800|NCT01313767|164694534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.4469|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of hygiene was compared using wilcoxon rank sum test.||||0.4469
82440391|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|-0.17||||0.025|TWO_SIDED|97.5|-0.66|0.32|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||0.32|-0.66|0.025
82440392|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|-0.1||||0.025|TWO_SIDED|97.5|-0.62|0.42|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||0.42|-0.62|0.025
82440393|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|0.13||||0.025|TWO_SIDED|97.5|-0.36|0.62|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||0.62|-0.36|0.025
82440394|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|0.5||||0.025|TWO_SIDED|97.5|-0.02|1.02|||Mixed Models Analysis|||||1.02|-0.02|0.025
82440395|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|-0.17||||0.025|TWO_SIDED|97.5|-0.66|0.32|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||0.32|-0.66|0.025
82440396|NCT02868034|164588752|SUPERIORITY||interaction relative mean difference|0.39||||0.025|TWO_SIDED|97.5|-0.13|0.91|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||0.91|-0.13|0.025
82440397|NCT02868034|164588752|SUPERIORITY||3-way interaction relative mean dif.|0.25||||0.025|TWO_SIDED|97.5|-0.24|0.74|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||0.74|-0.24|0.025
82440398|NCT02868034|164588752|SUPERIORITY||3-way interaction relative mean dif.|0.4||||0.025|TWO_SIDED|97.5|-0.12|0.92|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||0.92|-0.12|0.025
82440399|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.025|TWO_SIDED|97.5|-2.67|1.52|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.||SMT Component Main Effects at 4 weeks|A positive value indicates greater improvement in muscle activation when the component was used|1.52|-2.67|0.025
82501801|NCT01313767|164694535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.122|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.1220
82440400|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.025|TWO_SIDED|97.5|-2.76|2.02|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|SMT Component Main Effects at 12 weeks||2.02|-2.76|0.025
82440401|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.025|TWO_SIDED|97.5|-2.03|2.16|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Mobilizing Component Main Effects at 4 weeks||2.16|-2.03|0.025
82440402|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.025|TWO_SIDED|97.5|-1.68|3.11|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Mobilizing Component Main Effects at 12 weeks||3.11|-1.68|0.025
82440403|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.025|TWO_SIDED|97.5|-2.94|1.25|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Activating Exercise Component at 4 weeks||1.25|-2.94|0.025
82440404|NCT02868034|164588753|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.025|TWO_SIDED|97.5|-2.97|1.82|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A positive value indicates greater improvement in muscle activation when the component was used|Activating Exercise Component at 12 weeks||1.82|-2.97|0.025
82440405|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|0.8||||0.025|TWO_SIDED|97.5|-3.39|4.99|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||4.99|-3.39|0.025
82440406|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|-0.68||||0.025|TWO_SIDED|97.5|-5.47|4.11|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||4.11|-5.47|0.025
82440407|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|-1.56||||0.025|TWO_SIDED|97.5|-5.75|2.63|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||2.63|-5.75|0.025
82440408|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|1.42||||0.025|TWO_SIDED|97.5|-3.37|6.21|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||6.21|-3.37|0.025
82440409|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|-0.44||||0.025|TWO_SIDED|97.5|-4.63|3.75|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||3.75|-4.63|0.025
82440410|NCT02868034|164588753|SUPERIORITY||interaction relative mean difference|2.01||||0.025|TWO_SIDED|97.5|-2.77|6.8|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||6.80|-2.77|0.025
82440411|NCT02868034|164588753|SUPERIORITY||3-way interaction relative mean dif.|-0.18||||0.025|TWO_SIDED|97.5|-4.37|4.01|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||4.01|-4.37|0.025
82440412|NCT02868034|164588753|SUPERIORITY||3-way interaction relative mean dif.|0.56||||0.025|TWO_SIDED|97.5|-4.22|5.35|||Mixed Models Analysis|||Three-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||5.35|-4.22|0.025
82440413|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.025|TWO_SIDED|97.5|-4.0|1.68|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|SMT Treatment Component Main Effect at 4-weeks||1.68|-4.0|0.025
82440414|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.025|TWO_SIDED|97.5|-3.46|3.07|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|SMT Treatment Component Main Effect at 12-weeks||3.07|-3.46|0.025
82440415|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.025|TWO_SIDED|97.5|-4.2|1.48|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Mobilizing Exercise Treatment Component main effect after 4-weeks||1.48|-4.2|0.025
82440416|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-1.72||||0.025|TWO_SIDED|97.5|-4.99|1.55|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Mobilizing Exercise Treatment Component main effect after 12-weeks||1.55|-4.99|0.025
82440417|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-2.34||||0.025|TWO_SIDED|97.5|-5.18|0.5|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Activating Exercise Treatment Component main effect after 4-weeks||0.50|-5.18|0.025
82440418|NCT02868034|164588754|SUPERIORITY||Mean Difference (Final Values)|-3.62||||0.025|TWO_SIDED|97.5|-6.89|-0.35|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater improvement in disability when the component was used|Activating Treatment Component Main Effect after 12-weeks||-0.35|-6.89|0.025
82440419|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|3.24||||0.025|TWO_SIDED|97.5|-2.45|8.92|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||8.92|-2.45|0.025
82440420|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|4.34||||0.025|TWO_SIDED|97.5|-2.19|10.87|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||10.87|-2.19|0.025
82440421|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|0.57||||0.025|TWO_SIDED|97.5|-5.12|6.25|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||6.25|-5.12|0.025
82440422|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|-0.67||||0.025|TWO_SIDED|97.5|-7.2|5.87|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||5.87|-7.20|0.025
82440423|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|4.64||||0.025|TWO_SIDED|97.5|-1.04|10.32|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 4 weeks||10.32|-1.04|0.025
82440424|NCT02868034|164588754|SUPERIORITY||interaction relative mean difference|1.49||||0.025|TWO_SIDED|97.5|-5.04|8.02|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||8.02|-5.04|0.025
82440425|NCT02868034|164588754|SUPERIORITY||3-way interaction relative mean dif.|-0.86||||0.025|TWO_SIDED|97.5|-6.54|4.82|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||4.82|-6.54|0.025
82440426|NCT02868034|164588754|SUPERIORITY||3-way interaction relative mean dif.|0.04||||0.025|TWO_SIDED|97.5|-6.5|6.57|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||6.57|-6.50|0.025
82440427|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.025|TWO_SIDED|97.5|-0.6|0.32|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|SMT Treatment Component Main Effect at 4-weeks||0.32|-0.60|0.025
82440428|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.025|TWO_SIDED|97.5|-0.44|0.61|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|SMT Treatment Component Main Effects at 12 weeks||0.61|-0.44|0.025
82440429|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.025|TWO_SIDED|97.5|-0.92|0.0|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Mobilizing Exercise Component Main Effects at 4 weeks||0.0|-0.92|0.025
82501802|NCT01313767|164694535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.1016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.1016
82440430|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.025|TWO_SIDED|97.5|-0.7|0.34|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Mobilizing Exercise Component Main Effects at 12 weeks||0.34|-0.70|0.025
82440431|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.025|TWO_SIDED|97.5|-0.62|0.3|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Activating Exercise Component Main Effects at 4 weeks||0.30|-0.62|0.025
82440432|NCT02868034|164588755|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.025|TWO_SIDED|97.5|-0.71|0.33|||Mixed Models Analysis|Consistent with the randomized design, mean values for the Phase II baseline were constrained to be equal to a common overall mean.|A negative value indicates greater reduction in pain intensity when the component was used|Activating Exercise Component Main Effects at 12 weeks||0.33|-0.71|0.025
82440433|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|0.38||||0.025|TWO_SIDED|97.5|-0.54|1.3|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 4 weeks||1.30|-0.54|0.025
82440434|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|0.45||||0.025|TWO_SIDED|97.5|-0.6|1.49|||Mixed Models Analysis|||Pairwise interaction effect of mobilizing and activating exercise components after 12 weeks||1.49|-0.60|0.025
82440435|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|0.12||||0.025|TWO_SIDED|97.5|-0.8|1.04|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 4 weeks||1.04|-0.80|0.025
82440436|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|0.23||||0.025|TWO_SIDED|97.5|-0.81|1.28|||Mixed Models Analysis|||Pairwise interaction effect of SMT and activating exercise components after 12 weeks||1.28|-0.81|0.025
82440437|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|0.89||||0.025|TWO_SIDED|97.5|-0.03|1.81|||Mixed Models Analysis|||||1.81|-0.03|0.025
82440438|NCT02868034|164588755|SUPERIORITY||interaction relative mean difference|-0.02||||0.025|TWO_SIDED|97.5|-1.07|1.02|||Mixed Models Analysis|||Pairwise interaction effect of SMT and mobilizing exercise components after 12 weeks||1.02|-1.07|0.025
82440439|NCT02868034|164588755|SUPERIORITY||3-way interaction relative mean dif.|0.71||||0.025|TWO_SIDED|97.5|-0.21|1.63|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 4 weeks||1.63|-0.21|0.025
82440440|NCT02868034|164588755|SUPERIORITY||3-way interaction relative mean dif.|0.0||||0.025|TWO_SIDED|97.5|-1.05|1.04|||Mixed Models Analysis|||3-way interaction effect of SMT, activating exercise and mobilizing exercise components after 12 weeks||1.04|-1.05|0.025
82440441|NCT01431014|164588761|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||>0.05
82440442|NCT03640052|164588762|SUPERIORITY||Mean Difference (Final Values)|3.6|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
82440443|NCT03640052|164588762|SUPERIORITY||Mean Difference (Net)|-2.0|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
82440444|NCT03640052|164588762|SUPERIORITY||Mean Difference (Net)|-6.8|||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||>0.5
82440445|NCT03640052|164588762|SUPERIORITY||Mean Difference (Net)|-11.7||||0.33|TWO_SIDED||||||Mixed Models Analysis|||mean difference vs Placebo||||0.33
82440446|NCT03640052|164588763|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
82440447|NCT01057225|164588768|SUPERIORITY_OR_OTHER||Dose Level|1.0|||||TWO_SIDED||||||||Using a cohort of 3 design, it was determined the maximum tolerated dose of carfilzomib is Dose Level 1: 20 mg/m\^2 for the first cycle and 36 mg/m\^2 for subsequent cycles.|||||
82440448|NCT03242772|164588788|OTHER|||||||0.2664||||||Significance at \<0.05|95% confidence interval|confidence interval (CI) = -3.5729 - 11.6929|||Presentation of results will include p-values and 95% confidence intervals for the least mean square values at weeks 0, 10, 24 (week 24 is exploratory).|||0.2664
82440449|NCT03242772|164588789|OTHER|||||||0.3721||||||Significance at \<0.05|95% confidence interval|confidence interval (CI) = -17.7698 - 7.2698|||Presentation of results will include p-values and 95% confidence intervals for the least mean square values at weeks 0, 10, 24 (week 24 is exploratory).|||0.3721
82440450|NCT03995680|164588802|SUPERIORITY||Difference in Egg Reduction Rate (%)|2.3|||||TWO_SIDED|95.0|-7.8|12.6|||Regression, Logistic|Adjusted for age, sex, weight and baseline hookworm infection intensity (light or moderate/heavy)||The 95% confidence intervals (CIs) for ERRs and the difference between ERRs were estimated via bootstrap resampling. Superiority was claimed if the 95% confidence interval of the difference in ERRs did not include unity. Logistic regression models were used to assess efficacy in terms of CRs. In a subsequent analysis an adjusted logistic regression (adjustment for age, sex, weight and baseline infection intensity) was performed.||12.6|-7.8|
82440451|NCT03385265|164588803|SUPERIORITY||partial eta squared|0.02|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440452|NCT03385265|164588804|SUPERIORITY||partial eta squared|0.12|||||TWO_SIDED||||||repeated measures ANOVA|CESD-R = within subject variable; group = between subject variable||||||
82440453|NCT03385265|164588805|SUPERIORITY||partial eta squared|0.03|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440454|NCT03385265|164588806|SUPERIORITY||partial eta squared|0.06|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440455|NCT03385265|164588807|SUPERIORITY||partial eta squared|0.04|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440456|NCT03385265|164588808|SUPERIORITY||partial eta squared|0.04|||<|0.05|TWO_SIDED||||||repeated measures ANOVA|||||||<0.05
82440457|NCT03385265|164588809|SUPERIORITY||partial eta squared|0.24|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440458|NCT03385265|164588810|SUPERIORITY||partial eta squared|0.03|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440459|NCT03385265|164588811|SUPERIORITY||partial eta squared|0.04|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82440460|NCT02437305|164588812|SUPERIORITY_OR_OTHER|||||||0.048||||||P-value compares the increase in skin self-exams from pre-intervention to 2-months follow-up between the 2 groups.|McNemar|||||||0.048
82440461|NCT02437305|164588813|SUPERIORITY_OR_OTHER||||||>|0.5||||||P-value compares the increase in knowledge from pre-intervention to 2-months follow-up between the 2 groups.|McNemar|||||||>0.50
82440462|NCT03220581|164588815|SUPERIORITY||F|9.026||||0.004|TWO_SIDED||||||ANCOVA|Baseline number of days of game play in the past week was included as a covariate.||||||.004
82440463|NCT03220581|164588816|SUPERIORITY||F|7.922||||0.007|TWO_SIDED||||||ANCOVA|Covariate = number of days of gaming in the past week at baseline, reported by the parent.||||||.007
82440464|NCT03220581|164588817|SUPERIORITY||F|3.73||||0.059|TWO_SIDED||||||ANCOVA|Controlled for number of symptoms of Internet gaming disorder at baseline - assessed through clinical interview with child||||||.059
82440465|NCT03220581|164588818|SUPERIORITY||F|2.91||||0.095|TWO_SIDED||||||ANCOVA|Controlled for baseline number of symptoms of Internet gaming disorder, assessed through clinical interview with the parent||||||.095
82440466|NCT01920893|164588820|SUPERIORITY||Least Square (LS) mean difference|-1.55||||0.0009|TWO_SIDED|95.0|-2.43|-0.67||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg QW vs Placebo|Analysis was performed by a mixed model repeated measures (MMRM) model.||-0.67|-2.43|0.0009
82440467|NCT01396265|164588849|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|66.2|STANDARD_DEVIATION|16.1|||TWO_SIDED|90.0|60.815|72.057|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||72.057|60.815|
82440468|NCT01396265|164588850|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|66.18|STANDARD_DEVIATION|16.5|||TWO_SIDED|90.0|60.656|72.213|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||72.213|60.656|
82440469|NCT01396265|164588851|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|78.41|STANDARD_DEVIATION|15.6|||TWO_SIDED|90.0|72.363|84.968|||ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||84.968|72.363|
82440470|NCT00884039|164588873|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher Exact|||||||0.57
82440471|NCT02648022|164588874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.91||||0.07|TWO_SIDED|95.0|0.92|9.27|||Regression, Linear|Multivariable Regression Analysis||||9.27|0.92|0.07
82440472|NCT00405964|164588887|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Determined for site. P-value of \<.001 for treatment as well.|ANOVA|||||||<.001
82440473|NCT00405964|164588888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0||||Determined for site. Treatment p-value \<.001|ANOVA|||||||0.035
82440474|NCT00405964|164588889|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Same p-value for treatment and site.|ANOVA|||||||<.001
82440475|NCT01300819|164588926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.147|TWO_SIDED|95.0|-8.43|1.26||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysing was performed with ANCOVA model, adjusted for several terms.||Null hypothesis: mean change in the total Nonmotor Symptoms Scale (NMSS) score is the same for rotigotine- and placebo-treated group.||1.26|-8.43|0.147
82440476|NCT01300819|164588927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.002|TWO_SIDED|95.0|-4.27|-0.92||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.92|-4.27|0.002
82440477|NCT01300819|164588928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.79||||0.024|TWO_SIDED|95.0|-5.21|-0.37||Two-sided p-values are presented.|ANCOVA|Testing was performed using an ANCOVA model, adjusted for several terms.||||-0.37|-5.21|0.024
82440478|NCT01300819|164588929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.773|TWO_SIDED|95.0|-0.67|0.5||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.50|-0.67|0.773
82440479|NCT01300819|164588930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.122|TWO_SIDED|95.0|-2.41|0.29||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.29|-2.41|0.122
82440480|NCT01300819|164588931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81||||0.047|TWO_SIDED|95.0|-3.59|-0.02||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.02|-3.59|0.047
82440481|NCT01300819|164588932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.601|TWO_SIDED|95.0|-0.22|0.37||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.37|-0.22|0.601
82440482|NCT01300819|164588933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.997|TWO_SIDED|95.0|-0.99|0.99||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.99|-0.99|0.997
82440483|NCT01300819|164588934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.584|TWO_SIDED|95.0|-0.87|0.49||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.49|-0.87|0.584
82440484|NCT01300819|164588935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.536|TWO_SIDED|95.0|-0.84|1.6||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||1.60|-0.84|0.536
82440485|NCT01300819|164588936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.889|TWO_SIDED|95.0|-0.81|0.94||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||0.94|-0.81|0.889
82440486|NCT01300819|164588937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.043|TWO_SIDED|95.0|-2.06|-0.03||Two-sided p-value is presented. No multiplicity adjustment is performed.|ANCOVA|Analysis was performed with ANCOVA model, adjusted for several terms.||||-0.03|-2.06|0.043
82440487|NCT02818036|164588938|OTHER|difference in neural activity to social task when taking naltrexone as compared to placebo|||||<|0.01||||||a priori threshold for significance was p\<.05|t-test, 1 sided|degrees of freedom = 75||||||<.01
82440488|NCT02818036|164588939|OTHER|differences in feelings of social connection between those who took naltrexone and those who took placebo||||||0.338||||||a priori threshold for statistical significance was p\<.05|t-test, 2 sided|||||||.338
82440489|NCT01319721|164588974|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82440490|NCT01319721|164588975|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82440491|NCT01319721|164588976|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
82440492|NCT01319721|164588977|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82440493|NCT01319721|164588978|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82624119|NCT03657810|164963707|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0||||Type III P-Value are from the likelihood ration test from the logistic regression model with factors of treatment, gender, and investigator.|Regression, Logistic|||||||<0.001
82440494|NCT00438854|164588979|SUPERIORITY_OR_OTHER||Estimating proportion of responders|0.2||||||||||||||The primary measures of efficacy of tumor response were: complete remission (CR), nodular partial remission (nPR), or partial remission (PR), as per NCI-WG criteria. The true ORR is reported as percentage and 90% CI calculated using the binomial exact test. Time to treatment failure (TTF) was defined from the date on study to date of progression, death in remission, initiation of non-protocol therapy in the absence of progression, or censored on the last visit.||||
82440495|NCT00468845|164588983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1378||95.0||||Weighted Z-score test method of Fisher (1998) and Cui et al (1999)applied to maintain alpha level. A step down procedure for multiple comparisons to control the maximum experiment wise type I error rate at 0.05 level. 300mg tested prior to 150mg.|ANOVA|||||||0.1378
82440496|NCT00468845|164588983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.471||95.0||||Weighted Z-score test method of Fisher (1998) and Cui et al (1999)applied to maintain alpha level. A step down procedure for multiple comparisons to control the maximum experiment wise type I error rate at 0.05 level. 300mg tested prior to 150mg.|ANOVA|||||||0.4710
82440497|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.7752
82440498|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3375||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.3375
82440499|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7029||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.7029
82440500|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8618||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.8618
82440501|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2117||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2117
82440502|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6255||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.6255
82440503|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0942||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.0942
82440504|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9907||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.9907
82440505|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4678||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.4678
82440506|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.5500
82440507|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9333||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.9333
82624120|NCT03657810|164963708|SUPERIORITY|||||||0.052|TWO_SIDED|95.0||||Type III P-Value are from the likelihood ration test from the logistic regression model with factors of treatment, gender, and investigator|Regression, Logistic|||||||0.052
82440508|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7396||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.7396
82440509|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2932||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.2932
82440510|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0164||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0164
82440511|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2468||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.2468
82440512|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.7022
82440513|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7257||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.7257
82440514|NCT00468845|164588984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3854||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.3854
82440515|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5997||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5997
82440516|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8582||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8582
82440517|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3704||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.3704
82440518|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9747||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.9747
82440519|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2033||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2033
82440520|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2752
82624121|NCT03325556|164963716|SUPERIORITY||Hazard Ratio (HR)|0.353|STANDARD_ERROR_OF_MEAN|0.3676||0.0023|TWO_SIDED|95.0|0.172|0.727||1-sided p-value reported. The protocol-defined O'Brien Flemming stopping boundary for the planned IA was a 1-sided p-value equal to 0.0033|Regression, Cox||Model included covariates for Treatment group, dementia subtype, and region, and robust sandwich-type variance estimator.|||0.727|0.172|0.0023
82440521|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0183||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.0183
82440522|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6906||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.6906
82440523|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5446||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.5446
82440524|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4852||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.4852
82440525|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5879||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.5879
82440526|NCT00468845|164588985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7699||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||144 hours PS||||0.7699
82440527|NCT00468845|164588986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9676||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.9676
82440528|NCT00468845|164588986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4944||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4944
82440529|NCT00468845|164588987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4801||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4801
82440530|NCT00468845|164588987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8832||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.8832
82440531|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2125||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 Hours PS||||0.2125
82440532|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7602||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 Hour PS||||0.7602
82440533|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4053||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 Hours PS||||0.4053
82440534|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4147||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 Hours PS||||0.4147
82440535|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5556||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.5556
82440536|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.482||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.4820
82440537|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5088||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 Hours PS||||0.5088
82440538|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 Hours PS||||0.3900
82440539|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9659||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 Hours PS||||0.9659
82440540|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3968||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 Hours PS||||0.3968
82440541|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8308||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.8308
82440542|NCT00468845|164588988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0902||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.0902
82440543|NCT00468845|164588989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4388||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.4388
82440544|NCT00468845|164588989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3364||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||||||0.3364
82440545|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2409||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.2409
82440546|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1654||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.1654
82440547|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.1110
82440548|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0598||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.0598
82440549|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0398||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.0398
82440550|NCT00468845|164588990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0623||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.0623
82440551|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||0-24 Hours PS||||0.2730
82501803|NCT01313767|164694535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.2235|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of dressing was compared using wilcoxon rank sum test.||||0.2235
82501804|NCT01313767|164694536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.503|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.5030
82440552|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1015||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||0-24 Hours PS||||0.1015
82440553|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2438||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24-48 Hours PS||||0.2438
82440554|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0102||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24-48 Hours PS||||0.0102
82440555|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2063||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48-72 Hours PS||||0.2063
82440556|NCT00468845|164588991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0387||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48-72 Hours PS||||0.0387
82440557|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5995||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5995
82440558|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 Hours PS||||0.9104
82440559|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2177||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 Hours PS||||0.2177
82440560|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.1770
82440561|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1229||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.1229
82440562|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1274||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.1274
82440563|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0568||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.0568
82440564|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0354||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.0354
82440565|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4269||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.4269
82440566|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2058||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.2058
82440567|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8215||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.8215
82440568|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5331||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.5331
82440569|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7365||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.7365
82440570|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9989||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.9989
82501805|NCT01313767|164694536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.6934|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.6934
82440571|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2501||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.2501
82440572|NCT00468845|164588992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6021||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.6021
82440573|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6613||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (prior to first dose)||||0.6613
82440574|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1311||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (prior to first dose)||||0.1311
82440575|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6574||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (1 hour after dosing)||||0.6574
82440576|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6949||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day (1 hour after dosing)||||0.6949
82440577|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2008||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.2008
82440578|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.3022
82440579|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6382||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.6382
82440580|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8624||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.8624
82501806|NCT01313767|164694536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9574|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of limb position was compared using wilcoxon rank sum test.||||0.9574
82440581|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3858||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.3858
82440582|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4814||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4814
82440583|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.952||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.9520
82440584|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2315||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.2315
82440585|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7061||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.7061
82440586|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2908||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.2908
82440587|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4782||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.4782
82440588|NCT00468845|164588993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.813||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.8130
82440589|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.894||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8940
82440590|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5938||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.5938
82440591|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4306||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.4306
82440592|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5899||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.5899
82624122|NCT03325556|164963717|SUPERIORITY||Hazard Ratio (HR)|0.452|STANDARD_ERROR_OF_MEAN|0.2812||0.0024|TWO_SIDED|95.0|0.261|0.785||1-sided p-value|Regression, Cox||Model included covariates for Treatment group, dementia subtype, and region, and robust sandwich-type variance estimator.|||0.785|0.261|0.0024
82440593|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2209||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2209
82440594|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7145||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.7145
82440595|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1022||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.1022
82440596|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7243||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||1st Week PS||||0.7243
82440597|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.2310
82440598|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9192||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS||||0.9192
82440599|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.3214
82440600|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8641||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS||||0.8641
82440601|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3024||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.3024
82440602|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7359||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS||||0.7359
82440603|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.4303
82440604|NCT00468845|164588994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2133||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Till Discharge||||0.2133
82440605|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5682||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 hours PS||||0.5682
82440606|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1005||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||8 hours PS||||0.1005
82440607|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8261||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 hours PS||||0.8261
82440608|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9981||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||16 hours PS||||0.9981
82440609|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8884||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.8884
82440610|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4507||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours PS||||0.4507
82440611|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2994||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 hours PS||||0.2994
82440612|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4371||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||32 hours PS||||0.4371
82440613|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8295||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 hours PS||||0.8295
82440614|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8783||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||40 hours PS||||0.8783
82440615|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2161||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.2161
82440616|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||48 hours PS||||0.0440
82440617|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3855||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||56 hours PS||||0.3855
82440618|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.201||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||56 hours PS||||0.2010
82440619|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||64 hours PS||||0.7104
82440620|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6107||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||64 hours PS||||0.6107
82440621|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6705||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.6705
82501807|NCT01313767|164694537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.7237|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in DAS score of pain was compared using wilcoxon rank sum test.||||0.7237
82440622|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2083||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||72 hours PS||||0.2083
82440623|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3234||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||80 hours PS||||0.3234
82440624|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5938||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||80 hours PS||||0.5938
82440625|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9711||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||88 hours PS||||0.9711
82440626|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||88 hours PS||||0.4869
82440627|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7439||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.7439
82440628|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8045||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||96 hours PS||||0.8045
82440629|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5925||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||104 hours PS||||0.5925
82440630|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.683||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||104 hours PS||||0.6830
82440631|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8266||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||112 hours PS||||0.8266
82440632|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1929||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||112 hours PS||||0.1929
82440633|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7071||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.7071
82501808|NCT01313767|164694537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.7237|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in DAS score of pain was compared using wilcoxon rank sum test.||||0.7237
82440634|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||120 hours PS||||0.9367
82440635|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6046||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||128 hours PS||||0.6046
82440636|NCT00468845|164588995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5119||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||128 hours PS||||0.5119
82440637|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6966||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.6966
82440638|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS||||0.1808
82440639|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2616||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.2616
82440640|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1014||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.1014
82440641|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4401||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4401
82440642|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5615||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.5615
82501809|NCT01313767|164694537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.4017|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in DAS score of pain was compared using wilcoxon rank sum test.||||0.4017
82440643|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7615||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.7615
82440644|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6204||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.6204
82440645|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8766||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.8766
82440646|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1717||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.1717
82440647|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4065||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.4065
82440648|NCT00468845|164588996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0746
82440649|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2201||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.2201
82440650|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.0606
82440651|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.5303
82440652|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2227||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.2227
82440653|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8237||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.8237
82624123|NCT00510484|164963729|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82440654|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7476||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.7476
82440655|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6882||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.6882
82440656|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9689||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.9689
82440657|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.501||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.5010
82440658|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9143||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.9143
82440659|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7381||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.7381
82440660|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5336||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.5336
82440661|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6479||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.6479
82440662|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1133||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.1133
82440663|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7637||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.7637
82440664|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1056||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.1056
82501810|NCT01313767|164694538|SUPERIORITY_OR_OTHER|||||||0.2346|TWO_SIDED||||||Fisher Exact|||Difference between groups in frequency distribution of responders on the Global Assessment at week 12 was compared using Fisher's exact test.||||0.2346
82440665|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8079||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.8079
82440666|NCT00468845|164588997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0917||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.0917
82440667|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7511||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.7511
82440668|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6742||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6742
82440669|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3808||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.3808
82440670|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7021||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.7021
82440671|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0045
82440672|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7916||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.7916
82440673|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3682||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.3682
82440674|NCT00468845|164588998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1419||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.1419
82440675|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3323||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.3323
82440676|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5662||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS||||0.5662
82440677|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9538||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.9538
82440678|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4592||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS||||0.4592
82440679|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4793||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.4793
82440680|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8517||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS||||0.8517
82440681|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1829||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.1829
82440682|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3544||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS||||0.3544
82501811|NCT01313767|164694539|SUPERIORITY_OR_OTHER|||||||0.9513|TWO_SIDED||||||Fisher Exact|||Difference between groups in frequency distribution of responders on the Global Assessment at week 12 was compared using Fisher's exact test.||||0.9513
82440683|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1718||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.1718
82440684|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5078||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 6 PS||||0.5078
82440685|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2443||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.2443
82440686|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8296||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7 PS||||0.8296
82440687|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3243||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.3243
82440688|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3755||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||2nd Week PS (Average)||||0.3755
82440689|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9584||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.9584
82440690|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1187||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||3rd Week PS (Average)||||0.1187
82440691|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7915||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.7915
82440692|NCT00468845|164588999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0703||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||4th Week PS (Average)||||0.0703
82440693|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1975||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge;||||0.1975
82440694|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2784||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge;||||0.2784
82440695|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0271||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0271
82440696|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0881||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0881
82440697|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0159||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0159
82440698|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.187||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.1870
82440699|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1752||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.1752
82440700|NCT00468845|164589000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6923||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.6923
82440701|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6295||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6295
82440702|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.689||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6890
82440703|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5094||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.5094
82440704|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8741||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.8741
82440705|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.0214
82440706|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9366||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.9366
82440707|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7833||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.7833
82440708|NCT00468845|164589003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2983||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.2983
82440709|NCT00468845|164589006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6861||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers and salpingo-oophorectomy strata.||Surgery Day||||0.6861
82440710|NCT00468845|164589006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Surgery Day||||0.9905
82440711|NCT00468845|164589007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4264||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 1 PS||||0.4264
82440712|NCT00468845|164589007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3045||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 1 PS||||0.3045
82440713|NCT00468845|164589008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0714||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 2 PS||||0.0714
82440714|NCT00468845|164589008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4455||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 2 PS||||0.4455
82440715|NCT00468845|164589009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7418||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 3 PS||||0.7418
82624124|NCT00510484|164963730|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82440716|NCT00468845|164589009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5154||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 3 PS||||0.5154
82440717|NCT00468845|164589010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6715||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 4 PS||||0.6715
82440718|NCT00468845|164589010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9013||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 4 PS||||0.9013
82440719|NCT00468845|164589011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9126||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 5 PS||||0.9126
82440720|NCT00468845|164589011|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 5 PS||||1.0000
82440721|NCT00468845|164589012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1233||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Discharge||||0.1233
82440722|NCT00468845|164589012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1666||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Discharge||||0.1666
82440723|NCT00468845|164589013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0361||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 7||||0.0361
82440724|NCT00468845|164589013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0797||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 7||||0.0797
82440725|NCT00468845|164589014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 14||||0.0206
82440726|NCT00468845|164589014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 14||||0.0011
82440727|NCT00468845|164589016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3506||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||24 hours||||0.3506
82440728|NCT00468845|164589017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 28||||0.0287
82440729|NCT00468845|164589017|SUPERIORITY_OR_OTHER_LEGACY|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|CMH test adjusted for pooled centers and salpingo-oophorectomy strata.||Day 28||||0.2270
82440730|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1872||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Discharge||||0.1872
82440731|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3994||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Discharge||||0.3994
82440732|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0422||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Day 28||||0.0422
82440733|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3647||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Medication Subscale at Day 28||||0.3647
82440734|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1729||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Discharge||||0.1729
82440735|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2234||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Discharge||||0.2234
82440736|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.095||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Day 28||||0.0950
82440737|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4345||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Characteristics at Day 28||||0.4345
82440738|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Discharge||||0.2840
82440739|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6404||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Discharge||||0.6404
82440740|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Day 28||||0.0550
82440741|NCT00468845|164589018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4531||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Efficacy at Day 28||||0.4531
82440742|NCT00468845|164589019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9712||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.9712
82440743|NCT00468845|164589019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0112||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.0112
82440744|NCT00468845|164589019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.0090
82440745|NCT00468845|164589019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.865||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.8650
82440746|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8914||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Discharge||||0.8914
82440747|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2214||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Discharge||||0.2214
82440748|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1008||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Day 28||||0.1008
82440749|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9135||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 1997 Day 28||||0.9135
82440750|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Discharge||||0.5609
82440751|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4047||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Discharge||||0.4047
82440752|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1663||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Day 28||||0.1663
82440753|NCT00468845|164589020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8364||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||EQ-5D 2001 Day 28||||0.8364
82440754|NCT00468845|164589021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7218||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.7218
82440755|NCT00468845|164589021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4425||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.4425
82440756|NCT00468845|164589022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7889||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.7889
82440757|NCT00468845|164589022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1565||95.0|||||Log Rank|||Kaplan-Meier method was used for survival distribution estimation;||||0.1565
82440758|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6211||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Total subscale||||0.6211
82440759|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3687||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Total subscale||||0.3687
82440760|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7078||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Burning Spontaneous subscale||||0.7078
82440761|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8696||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Burning Spontaneous subscale||||0.8696
82440762|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Pressing Spontaneous subscale||||0.4320
82440763|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8843||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Pressing Spontaneous subscale||||0.8843
82440764|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6215||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paroxysmal pain subscale||||0.6215
82440765|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2722||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paroxysmal pain subscale||||0.2722
82440766|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Evoked Pain subscale||||0.5500
82440767|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9942||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Evoked Pain subscale||||0.9942
82440768|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0075||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paresthesia/dysesthesia||||0.0075
82440769|NCT00468845|164589023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1464||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Paresthesia/dysesthesia||||0.1464
82440770|NCT00468845|164589024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9877||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 3 PS.||||0.9877
82440771|NCT00468845|164589024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1334||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 3 PS.||||0.1334
82440772|NCT00468845|164589024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3566||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 6 PS.||||0.3566
82440773|NCT00468845|164589024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6262||95.0|||||Cochran-Mantel-Haenszel|p-values are derived from CMH test adjusted for pooled centers and salpingo-oophorectomy strata||Incidence of chronic PS pain at Month 6 PS.||||0.6262
82440774|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9463||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day;||||0.9463
82440775|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7347||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Surgery day;||||0.7347
82440776|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4132||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS;||||0.4132
82440777|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4929||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 1 PS;||||0.4929
82440778|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6003||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS;||||0.6003
82440779|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9343||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 2 PS;||||0.9343
82440780|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3838||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS;||||0.3838
82440781|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1351||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 3 PS;||||0.1351
82440782|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3343||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS;||||0.3343
82440783|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7948||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 4 PS;||||0.7948
82440784|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS;||||0.8090
82440785|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4035||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 5 PS;||||0.4035
82440786|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6009||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.6009
82440787|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7597||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Discharge||||0.7597
82440788|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7804||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.7804
82440789|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0463||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 7||||0.0463
82440790|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4951||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.4951
82440791|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.303||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 14||||0.3030
82440792|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.0104
82440793|NCT00468845|164589025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6978||95.0|||||ANOVA|LS Means from ANOVA model with terms of treatment, pooled center and salpingo-oophorectomy strata.||Day 28||||0.6978
82440794|NCT00461305|164589026|SUPERIORITY_OR_OTHER||Incidence on one treatment arm|13.4|||||TWO_SIDED|95.0|9.73|17.77|||Binominal parameter by exact method||No group comparison were planned. Binomial parameter on each treatment arm was estimated by exact method.|Exact 95% confident intervals were calculated using F-distribution by treatment group. If the upper confidence limit is lower than 27.56% (threshold incidence), the treatment arm will be concluded to be acceptable. No group comparison was planned.||17.77|9.73|
82440795|NCT00461305|164589026|SUPERIORITY_OR_OTHER||Incidence on one treatment arm|7.1||||||95.0|1.98|17.29|||Binominal parameter by exact method|||Exact 95% confident intervals were calculated using F-distribution by treatment group.||17.29|1.98|
82440796|NCT00953680|164589068|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.993||||||90.0|0.95|1.039||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.039|0.950|
82501812|NCT01313767|164694540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8088|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.8088
82440797|NCT00953680|164589069|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.835||||||90.0|0.749|0.931||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100-mg tablet + HCTZ 12.5 mg capsule||0.931|0.749|
82440798|NCT00953680|164589070|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.924||||||90.0|0.825|1.035||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.035|0.825|
82440799|NCT00953680|164589071|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.931||||||90.0|0.836|1.037||||||Least-Squares Mean Ratio (A/B); A= Single dose losartan 100 mg-HCTZ 12.5 mg combination tablet; B= Single dose losartan 100 mg tablet + HCTZ 12.5 mg capsule||1.037|0.836|
82440800|NCT02210832|164589081|SUPERIORITY|38.27% vs. 9.09%|||||<|0.001||||||p value is not adjusted for multiple comparisons. A priori threshold for significance was P \< 0.05.|Chi-squared|chi square test statistic = 20.23, df = 1||Hypothesized that women assigned to Best practices plus financial incentives would achieve greater abstinence than women assigned to Best practices only.||||<0.001
82440801|NCT02210832|164589082|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|Used generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||||||<0.05
82440802|NCT02210832|164589082|SUPERIORITY|||||||0.003||||||chi square test statistic = 21.93, df=7|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Trial condition by assessment time interaction||||0.003
82440803|NCT02210832|164589083|SUPERIORITY|||||||0.48||||||chi square test statistic = 9.52, df = 10|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Interaction of trial condition and time||||0.48
82440804|NCT02210832|164589084|SUPERIORITY||||||<|0.0001||||||chi square test statistic = 33.51, df = 2|Mixed Models Analysis|Conducted a generalized estimating equation utilizing a logistic link function with treatment condition and assessment time adjusting for covariates.||Examining main effect of treatment condition.||||<0.0001
82440805|NCT02210832|164589084|SUPERIORITY|||||||0.89||||||chi square test statistic = 5.00, df = 10.|Mixed Models Analysis|||Testing interaction of treatment condition and assessment time||||0.89
82440806|NCT02210832|164589085|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||<0.001
82440807|NCT02210832|164589086|SUPERIORITY||||||<|0.001||||||F\[7,922\]=3.62|ANCOVA|Repeated measures analysis of covariance was conducted with Bonferroni corrections for post-doc tests and across repeated assessments.||Examine interaction of treatment condition and assessment time.||||<0.001
82440808|NCT02210832|164589086|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||<0.001
82440809|NCT02210832|164589087|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|Method was mixed model repeated measures analysis of covariance.||||||0.009
82440810|NCT02210832|164589088|SUPERIORITY|||||||0.01|||||||Regression, Logistic|Method is logistic regression adjusted for covariates.||||||0.01
82440811|NCT02210832|164589089|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82440812|NCT02210832|164589090|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82440813|NCT02210832|164589092|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82440814|NCT02210832|164589096|SUPERIORITY|||||||0.006|||||||ANCOVA|All comparisons adjusted for infant gestational age at time of delivery.||||||0.006
82440815|NCT00623545|164589130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|185.0|STANDARD_DEVIATION|240.0||0.001|TWO_SIDED|95.0||||The a prior threshold for statistical significance was p\< 0.05|ANOVA||units are kcal/d|Previously published literature showed an average weight loss of 1.8 kg at 12 weeks of exenatide treatment. This was converted to differ- ence in TEE, estimating an average imbalance of 2 kg × 7800 kcal·kg-1 divided by 84 days or 185 kcal·day-1.We demonstrated an average reproducibility of the DLW method of 6% or 240 kcal·day-1. For a 5% probability of finding this difference with a power of 80%, we determined a need for 14 subjects to complete the study.||||0.001
82440816|NCT00623545|164589130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82440817|NCT00623545|164589131|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis was that energy intake was unchanged between the period before treatment and at the end of treatment.||||< 0.05
82440818|NCT00623545|164589131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82440819|NCT04239222|164589132|SUPERIORITY|A sample size of 22 subjects was required to provide 80% power to detect a difference of 5 points on the PLUS-M scale using Wilcoxon's matched pairs signed ranks test and alpha of 0.05. A standard deviation of 7.7 was used to calculate the sample size.|Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|4.17||0.286|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot,|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean PLUS-M score using the Revo-M and μEveryday is the mean PLUS-M score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (11 negative, 8 positive and 4 null), Z=-1.066.|||0.286
82440820|NCT04239222|164589133|SUPERIORITY|A sample size of 21 subjects was required to provide 80% power to detect a difference of 0.2 points in the TAPES-AR score using Wilcoxon's matched pairs signed ranks test and alpha of 0.05. A standard deviation of 0.3 was used to calculate the sample size.|Mean Difference (Final Values)|-0.094|STANDARD_DEVIATION|0.212||0.031|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≥ μEveryday, μRevo-M is the mean TAPES-AR score using the Revo-M and μEveryday is the mean TAPES-AR score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (5 negative, 13 positive and 5 null), Z=-2.156|||0.031
82440821|NCT04239222|164589135|SUPERIORITY||Mean Difference (Final Values)|0.331|STANDARD_DEVIATION|8.29||0.421|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean ABC score using the Revo-M and μEveryday is the mean ABC score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (12 negative, 7 positive and 4 null), Z=-0.805.|||0.421
82624125|NCT00510484|164963731|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82440822|NCT04239222|164589136|SUPERIORITY||Mean Difference (Final Values)|0.087|STANDARD_DEVIATION|0.844||0.443|TWO_SIDED||||||Wilcoxon Signed Rank Test||Difference represents Revo-M - Everyday Foot.|HO: μRevo-M ≤ μEveryday, μRevo-M is the mean TAPES-FUN score using the Revo-M and μEveryday is the mean TAPES-FUN score using the Everyday foot at baseline.|2-sided Wilcoxon matched pairs signed ranks test, n=23 (6 negative, 9 positive and 8 null), Z=-0.767.|||0.443
82440823|NCT00328653|164589177|SUPERIORITY|Comparisons of NOVA22007 0.05% to vehicle|M-H Chi-square|1.2187||||0.2699|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2699
82440824|NCT00328653|164589177|SUPERIORITY|Comparisons of NOVA22007 0.1% to vehicle|M-H Chi-square|1.2359||||0.2719|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2719
82440825|NCT00328653|164589180|SUPERIORITY|Comparisons of NOVA22007 0.05% to vehicle|M-H-Chi-square|4.2925||||0.0386|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0386
82440826|NCT00328653|164589180|SUPERIORITY|Comparisons of NOVA22007 0.1% to vehicle|M-H-Chi-square|5.3007||||0.0208|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0208
82440827|NCT04754230|164589192|OTHER|||||||0.8|||||||two sided Z-test|This estimate uses two sided Z-test while assuming type I error=0.05||Comparison of bleeding at day 1||||0.8
82440828|NCT01459653|164589206|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.884||||0.3038|TWO_SIDED|95.0|0.6989|1.1182|||Chi-squared|||||1.1182|0.6989|0.3038
82440829|NCT01459653|164589207|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1897||||0.1432|TWO_SIDED|95.0|0.9428|1.5012|||Chi-squared|||||1.5012|0.9428|0.1432
82440830|NCT01459653|164589208|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8794||||0.6483|TWO_SIDED|95.0|0.5063|1.5276|||Chi-squared|||||1.5276|0.5063|0.6483
82440831|NCT01459653|164589218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2989|||<|0.0001|TWO_SIDED|95.0|1.8113|2.9177|||Chi-squared|||||2.9177|1.8113|<0.0001
82440832|NCT01459653|164589219|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4963|||<|0.0001|TWO_SIDED|95.0|0.373|0.6605|||Chi-squared|||||0.6605|0.3730|<0.0001
82440833|NCT01459653|164589220|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9451||||0.7509|TWO_SIDED|95.0|0.6671|1.3391|||Chi-squared|||||1.3391|0.6671|0.7509
82440834|NCT01459653|164589221|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2683||||0.0067|TWO_SIDED|95.0|1.068|1.5061|||Chi-squared|||||1.5061|1.0680|0.0067
82440835|NCT01459653|164589229|SUPERIORITY_OR_OTHER||Slope|1.0628|||<|0.0001|TWO_SIDED|95.0|0.6382|1.4874|||ANOVA|degrees of freedom: 4507||||1.4874|0.6382|<0.0001
82440836|NCT01459653|164589230|SUPERIORITY_OR_OTHER||Slope|-0.2739||||0.0103|TWO_SIDED|95.0|-0.4832|-0.0646|||ANOVA|degrees of freedom: 4507||||-0.0646|-0.4832|0.0103
82440837|NCT01459653|164589231|SUPERIORITY_OR_OTHER||Slope|0.3812|||<|0.0001|TWO_SIDED|95.0|0.233|0.5295|||ANOVA|degrees of freedom: 4495||||0.5295|0.2330|<0.0001
82440838|NCT01459653|164589239|SUPERIORITY_OR_OTHER||Slope|0.1031||||0.0677|TWO_SIDED|95.0|-0.0075|0.2136|||ANOVA|degrees of freedom: 4516||||0.2136|-0.0075|0.0677
82440839|NCT01459653|164589240|SUPERIORITY_OR_OTHER||Slope|0.0018||||0.8968|TWO_SIDED|95.0|-0.0259|0.0295|||ANOVA|degrees of freedom: 4516||||0.0295|-0.0259|0.8968
82440840|NCT01459653|164589241|SUPERIORITY_OR_OTHER||Slope|0.0741|||<|0.0001|TWO_SIDED|95.0|-0.0452|0.1029|||ANOVA|degrees of freedom: 4505||||0.1029|-0.0452|<0.0001
82440841|NCT01459653|164589249|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.735||||0.2698|TWO_SIDED|95.0|0.4255|1.2698|||Chi-squared|||||1.2698|0.4255|0.2698
82440842|NCT01459653|164589250|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
82440843|NCT01459653|164589267|SUPERIORITY_OR_OTHER|||||||0.5977|TWO_SIDED||||||Log Rank|||||||0.5977
82440844|NCT01459653|164589268|SUPERIORITY_OR_OTHER|||||||0.2435|TWO_SIDED||||||Log Rank|||||||0.2435
82440845|NCT01459653|164589269|SUPERIORITY_OR_OTHER|||||||0.763|TWO_SIDED||||||Log Rank|||||||0.7630
82440846|NCT01459653|164589270|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED||||||Log Rank|||||||0.3830
82440847|NCT01459653|164589271|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Log Rank|||||||0.0002
82440848|NCT01459653|164589272|SUPERIORITY_OR_OTHER|||||||0.0301|TWO_SIDED||||||Log Rank|||||||0.0301
82440849|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|0.92||||0.0683|TWO_SIDED|95.0|0.84|1.01|||Regression, Logistic|degrees of freedom: 3181||GCSF treatment decision (under vs correct) as predictor for ANC||1.01|0.84|0.0683
82440850|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|0.89||||0.0019|TWO_SIDED|95.0|0.82|0.96|||Regression, Logistic|degrees of freedom: 3181||GCSF decision (Over vs correct) as predictor for ANC||0.96|0.82|0.0019
82440851|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|1.04||||0.4469|TWO_SIDED|95.0|0.94|1.15|||Regression, Logistic|degrees of freedom: 3181||GCSF decision (Under vs over) as predictor for ANC||1.15|0.94|0.4469
82440852|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|1.11||||0.0079|TWO_SIDED|95.0|1.03|1.19|||Regression, Logistic|||Study drug dose (higher vs lower) as predictor for ANC||1.19|1.03|0.0079
82440853|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|0.81||||0.0004|TWO_SIDED|95.0|0.72|0.91|||Regression, Logistic|||Tumor type (hematological vs solid) as predictor for ANC||0.91|0.72|0.0004
82440854|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|0.86|||<|0.0001|TWO_SIDED|95.0|0.8|0.92|||Regression, Logistic|||Patient gender (female vs male) as predictor for ANC||0.92|0.80|<0.0001
82440855|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|1.04||||0.0235|TWO_SIDED|95.0|1.01|1.08|||Regression, Linear|||ECOG (per 1 point) as predictor for ANC||1.08|1.01|0.0235
82440856|NCT01459653|164589273|SUPERIORITY_OR_OTHER||Slope|1.03|||<|0.0001|TWO_SIDED|95.0|1.02|1.05|||Regression, Linear|||Hb (per g/dL) as predictor for ANC||1.05|1.02|<0.0001
82440857|NCT01459653|164589274|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.09||||0.0003|TWO_SIDED||||||ANCOVA||The intra-class correlation coefficient (ICC) was computed to quantify the variability in patient outcome attributable to within-center variability before any patient-level determinants are considered.|ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the center-level.||||0.0003
82440858|NCT01459653|164589274|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.41|||<|0.0001|TWO_SIDED||||||ANCOVA|||ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the patient within center-level.||||<0.0001
82440859|NCT01459653|164589274|SUPERIORITY_OR_OTHER||Intra-class correlation coefficient|0.5|||<|0.0001|TWO_SIDED||||||ANCOVA|||ANCOVA model was used taking into account center, patient within center-level and within-patient level (over time). This appendix describes the within-patient level.||||<0.0001
82440860|NCT01459653|164589279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.544||||0.003|TWO_SIDED|95.0|0.365|0.812|||Regression, Logistic|||GIS (1 vs. 0) as cycle-level predictor for CIN grade 4 episode||0.812|0.365|0.003
82440861|NCT01459653|164589279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.795|||<|0.001|TWO_SIDED|95.0|3.242|7.092|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for CIN grade 4 episode||7.092|3.242|<0.001
82440862|NCT01459653|164589279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.083|||<|0.001|TWO_SIDED|95.0|3.242|7.092|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for CIN grade 4 episode||7.092|3.242|<0.001
82440863|NCT01459653|164589279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||<|0.001|TWO_SIDED|95.0|1.542|3.925|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for CIN grade 4 episode||3.925|1.542|<0.001
82440864|NCT01459653|164589279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.452||||0.003|TWO_SIDED|95.0|0.267|0.766|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN grade 4 episode||0.766|0.267|0.003
82440865|NCT01459653|164589280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.925||||0.001|TWO_SIDED|95.0|1.592|5.374|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for CIN grade 4 episode||5.374|1.592|0.001
82440866|NCT01459653|164589280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.572||||0.005|TWO_SIDED|95.0|1.331|4.969|||Regression, Logistic|||Concomitant antibiotic prophylaxis as patient-level predictor for CIN grade 4 episode||4.969|1.331|0.005
82440867|NCT01459653|164589280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.328|||<|0.001|TWO_SIDED|95.0|0.193|0.557|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN grade 4 episode||0.557|0.193|<0.001
82440868|NCT01459653|164589281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.673|||<|0.001|TWO_SIDED|95.0|1.284|2.179|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for FN episode||2.179|1.284|<0.001
82440869|NCT01459653|164589281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.704|||<|0.001|TWO_SIDED|95.0|2.777|7.968|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for FN episode||7.968|2.777|<0.001
82501813|NCT01313767|164694540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.3702|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.3702
82440870|NCT01459653|164589281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.002|TWO_SIDED|95.0|1.342|3.574|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for FN episode||3.574|1.342|0.002
82440871|NCT01459653|164589281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.215||||0.01|TWO_SIDED|95.0|0.067|0.687|||Regression, Logistic|||History of anaemia at enrollment as patient-level predictor for FN episode||0.687|0.067|0.010
82501814|NCT01313767|164694540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.1497|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cleaning the palm was compared using wilcoxon rank sum test.||||0.1497
82440872|NCT01459653|164589281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.501||||0.025|TWO_SIDED|95.0|1.169|10.487|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for FN episode||10.487|1.169|0.025
82440873|NCT01459653|164589282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.975||||0.003|TWO_SIDED|95.0|0.958|0.991|||Regression, Logistic|||Patient age (per 1 year) as patient-level predictor for FN episode||0.991|0.958|0.003
82440874|NCT01459653|164589282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.398|||<|0.001|TWO_SIDED|95.0|1.61|3.57|||Regression, Logistic|||ECOG ≥2 during study as patient-level predictor for FN episode||3.570|1.610|<0.001
82440875|NCT01459653|164589282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.562||||0.001|TWO_SIDED|95.0|1.45|4.527|||Regression, Logistic|||Concomitant antibiotic prophylaxis as patient-level predictor for FN episode||4.527|1.450|0.001
82440876|NCT01459653|164589282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.232|||<|0.001|TWO_SIDED|95.0|0.108|0.499|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for FN episode||0.499|0.108|<0.001
82440877|NCT01459653|164589282|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.261||||0.011|TWO_SIDED|95.0|1.315|8.084|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for FN episode||8.084|1.315|0.011
82440878|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.814|||<|0.001|TWO_SIDED|95.0|1.397|2.355|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for CIN/FN-related hospitalization||2.355|1.397|<0.001
82440879|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.296|||<|0.001|TWO_SIDED|95.0|1.791|6.065|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for CIN/FN-related hospitalization||6.065|1.791|<0.001
82440880|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.205||||0.001|TWO_SIDED|95.0|1.38|3.524|||Regression, Logistic|||CIN1/4 in previous cycles as cycle-level predictor for CIN/FN-related hospitalization||3.524|1.380|0.001
82440881|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.863||||0.032|TWO_SIDED|95.0|1.054|3.293|||Regression, Logistic|||Under- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||3.293|1.054|0.032
82440882|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.385||||0.024|TWO_SIDED|95.0|0.168|0.879|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||0.879|0.168|0.024
82440883|NCT01459653|164589283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.843||||0.001|TWO_SIDED|95.0|1.964|11.942|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for CIN/FN-related hospitalization||11.942|1.964|0.001
82440884|NCT01459653|164589284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.473|||<|0.001|TWO_SIDED|95.0|1.55|3.946|||Regression, Logistic|||ECOG ≥2 during study as patient-level predictor for CIN/FN-related hospitalization||3.946|1.550|<0.001
82440885|NCT01459653|164589284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.382||||0.002|TWO_SIDED|95.0|0.21|0.695|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for CIN/FN-related hospitalization||0.695|0.210|0.002
82440886|NCT01459653|164589284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.108||||0.001|TWO_SIDED|95.0|1.56|6.192|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for CIN/FN-related hospitalization||6.192|1.560|0.001
82501815|NCT01313767|164694541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.9634|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.9634
82440887|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.931|||<|0.001|TWO_SIDED|95.0|5.426|14.699|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for CIN/FN-related chemotherapy disturbance||14.699|5.426|<0.001
82440888|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.336||||0.007|TWO_SIDED|95.0|0.152|0.74|||Regression, Logistic|||Hematological cancer (vs. oncologic) as patient-level predictor for CIN/FN-related chemotherapy disturbance||0.740|0.152|0.007
82440889|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.006|TWO_SIDED|95.0|0.999|1.0|||Regression, Logistic|||Cancer patients seen in 2009 (per 1 patient) as center-level predictor for CIN/FN-related chemotherapy disturbance||1.000|0.999|0.006
82440890|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.001|||<|0.001|TWO_SIDED|95.0|1.0|1.001|||Regression, Logistic|||Chemotherapy-treated cancer patients in 2009 (per 1 patient) as center-level predictor for CIN/FN-related chemotherapy disturbance||1.001|1.000|<0.001
82440891|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.456||||0.024|TWO_SIDED|95.0|1.127|5.353|||Regression, Logistic|||Center type: academic vs non-academic as center-level predictor for CIN/FN-related chemotherapy disturbance||5.353|1.127|0.024
82440892|NCT01459653|164589285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.344||||0.01|TWO_SIDED|95.0|1.342|8.331|||Regression, Logistic|||Center type: academic-affiliated vs non-academic as center-level predictor for CIN/FN-related chemotherapy disturbance||8.331|1.342|0.010
82440893|NCT01459653|164589286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.965||||0.006|TWO_SIDED|95.0|1.218|3.172|||Regression, Logistic|||Female gender as patient-level predictor for CIN/FN-related chemotherapy disturbance||3.172|1.218|0.006
82440894|NCT01459653|164589286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.594||||0.001|TWO_SIDED|95.0|1.469|4.581|||Regression, Logistic|||History of CIN4 at enrollment as patient-level predictor for CIN/FN-related chemotherapy disturbance||4.581|1.469|0.001
82440895|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.002|TWO_SIDED|95.0|0.424|0.821|||Regression, Logistic|||GIS (1 vs. 0) as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.821|0.424|0.002
82440896|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.644||||0.003|TWO_SIDED|95.0|0.489|0.859|||Regression, Logistic|||Zarzio duration: 4-5 days vs. 6 or more as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.859|0.489|0.003
82440897|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.004|TWO_SIDED|95.0|0.398|0.842|||Regression, Logistic|||Zarzio duration: 1-3 days vs. 6 or more as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.842|0.398|0.004
82440898|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.369||||0.001|TWO_SIDED|95.0|1.14|1.643|||Regression, Logistic|||ECOG score (per 1 point) as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||1.643|1.140|0.001
82440899|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.499|||<|0.001|TWO_SIDED|95.0|2.456|4.985|||Regression, Logistic|||Concomitant antibiotic prophylaxis as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||4.985|2.456|<0.001
82440900|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.064|||<|0.001|TWO_SIDED|95.0|3.096|5.336|||Regression, Logistic|||CIN1/4 in previous cycle as cycle-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||5.336|3.096|<0.001
82440901|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.545||||0.002|TWO_SIDED|95.0|1.175|2.033|||Regression, Logistic|||Female gender as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.033|1.175|0.002
82440902|NCT01459653|164589287|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.596||||0.017|TWO_SIDED|95.0|1.088|2.34|||Regression, Logistic|||History of CIN Grade 4 at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.340|1.088|0.017
82440903|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.621||||0.006|TWO_SIDED|95.0|1.152|2.281|||Regression, Logistic|||Female gender as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.281|1.152|0.006
82440904|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.898||||0.005|TWO_SIDED|95.0|1.209|2.979|||Regression, Logistic|||History of CIN4 at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||2.979|1.209|0.005
82440905|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.016|TWO_SIDED|95.0|1.2|5.984|||Regression, Logistic|||History of repeated infections at enrollment as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||5.984|1.200|0.016
82440906|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.438|||<|0.001|TWO_SIDED|95.0|0.291|0.66|||Regression, Logistic|||Over- vs. correctly prophylacted as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.660|0.291|<0.001
82440907|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.053||||0.002|TWO_SIDED|95.0|1.295|3.256|||Regression, Logistic|||Under- vs. over-prophylacted as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||3.256|1.295|0.002
82440908|NCT01459653|164589288|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.558||||0.028|TWO_SIDED|95.0|0.332|0.939|||Regression, Logistic|||GIS at enrollment (1 vs. 0) as patient-level predictor for composite outcome (any of CIN Grade 4, FN, CIN/FN-related hospitalization, CIN/FN-related chemotherapy disturbance)||0.939|0.332|0.028
82440909|NCT01459653|164589289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2064||||0.0116|TWO_SIDED|95.0|1.1931|4.0803|||Regression, Logistic|||Patient level predictor: History of anemia at enrollment||4.0803|1.1931|0.0116
82440910|NCT01459653|164589289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3049||||0.0057|TWO_SIDED|95.0|1.2754|4.1656|||Regression, Logistic|||Liver/renal/cardiac comorbidity as patient level predictor||4.1656|1.2754|0.0057
82440911|NCT01459653|164589289|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.535|||<|0.0001|TWO_SIDED|95.0|8.2159|37.4243|||Regression, Logistic|||Poor performance (ECOG \>=2) during study as patient level predictor||37.4243|8.2159|<0.0001
82440912|NCT01459653|164589293|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8703|||<|0.0001|TWO_SIDED|95.0|5.9567|37.1225|||Regression, Logistic|||Female gender as patient-level predictor for cancer-related mortality||37.1225|5.9567|<0.0001
82440913|NCT01459653|164589293|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8703|||<|0.0001|TWO_SIDED|95.0|5.9567|37.1225|||Regression, Logistic|||Poor performance (ECOG \>=2) during study as patient-level predictor||37.1225|5.9567|<0.0001
82440914|NCT00445848|164589302|OTHER||proportion of participants|0.78|||||TWO_SIDED|95.0|0.67|0.85||||||The overall survival rate at year 1 was estimated using Kaplan-Meier.||0.85|0.67|
82440915|NCT00445848|164589302|OTHER||proportion of participants|0.57|||||TWO_SIDED|95.0|0.46|0.67||||||The overall survival rate at year 2 was estimated using Kaplan-Meier.||0.67|0.46|
82440916|NCT00445848|164589302|OTHER||proportion of participants|0.43|||||TWO_SIDED|95.0|0.32|0.53||||||The overall survival rate at year 3 was estimated using Kaplan-Meier.||0.53|0.32|
82440917|NCT02139878|164589306|SUPERIORITY_OR_OTHER||||||=|0.088|||||||ANCOVA|||||||=0.088
82440918|NCT02139878|164589307|SUPERIORITY_OR_OTHER||||||=|0.98|||||||ANCOVA|||||||=0.980
82440919|NCT05074888|164589308|SUPERIORITY|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.0016
82440920|NCT05074888|164589309|SUPERIORITY|||||||0.3183|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.3183
82440921|NCT05074888|164589310|SUPERIORITY|||||||0.5805|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.5805
82440922|NCT05074888|164589311|SUPERIORITY|||||||0.2143|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 4 weeks later row.||||0.2143
82501816|NCT01313767|164694541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.7302|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.7302
82501817|NCT01313767|164694541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.7715|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cutting the finger-nails was compared using wilcoxon rank sum test.||||0.7715
82501818|NCT01313767|164694542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9362|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.9362
82440923|NCT05074888|164589312|SUPERIORITY|||||||0.8156|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.8156
82440924|NCT05074888|164589313|SUPERIORITY|||||||0.1049|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.1049
82440925|NCT05074888|164589314|SUPERIORITY|||||||0.726|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.7260
82440926|NCT05074888|164589315|SUPERIORITY|||||||0.6808|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between value after 4 weeks and after 8 weeks row.||||0.6808
82440927|NCT05074888|164589316|SUPERIORITY|||||||0.54||||||"The p-value associated with treatment\*visit interaction of pulse rate (heart rate) from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.54
82440928|NCT05074888|164589317|SUPERIORITY|||||||0.49||||||"The p-value associated with treatment\*visit interaction of respiration rate (breathing rate) from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.49
82440929|NCT05074888|164589318|SUPERIORITY|||||||0.87||||||"The p-value associated with treatment\*visit interaction of systolic blood pressure from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to SBP/Visit1, SBP/Visit2 and SBP/Visit3 rows.||||0.87
82440930|NCT05074888|164589318|SUPERIORITY|||||||0.22||||||"The p-value associated with treatment\*visit interaction of diastolic blood pressure from Visit 1 to 3 between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to DBP/Visit1, DBP/Visit2 and DBP/Visit3 rows.||||0.22
82440931|NCT05074888|164589319|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82440932|NCT05074888|164589320|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82440933|NCT05074888|164589321|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
82440934|NCT05074888|164589322|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82440935|NCT00027378|164589340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|0.702||0.05||95.0|||||ANOVA|repeated measures||Repeated measures ANOVA||||.05
82440936|NCT03199053|164589396|SUPERIORITY||Adjusted mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.274|<|0.001|TWO_SIDED|95.0|-1.57|-0.49|||ANCOVA|||||-0.49|-1.57|< 0.001
82440937|NCT03199053|164589397|SUPERIORITY||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.251||0.078|TWO_SIDED|95.0|-0.93|0.05|||ANCOVA|||||0.05|-0.93|0.078
82440938|NCT03199053|164589398|SUPERIORITY||Adjusted mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.3||0.004|TWO_SIDED|95.0|-1.44|-0.27|||ANCOVA|||||-0.27|-1.44|0.004
82440939|NCT03199053|164589399|SUPERIORITY||Adjusted mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.277||0.067|TWO_SIDED|95.0|-1.05|0.04|||ANCOVA|||||0.04|-1.05|0.067
82440940|NCT03199053|164589400|SUPERIORITY||Adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.76|-0.62|||ANCOVA|||||-0.62|-1.76|< 0.001
82440941|NCT03199053|164589401|SUPERIORITY||Adjusted mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.146|TWO_SIDED|95.0|-0.92|0.14|||ANCOVA|||||0.14|-0.92|0.146
82440942|NCT03199053|164589402|SUPERIORITY||Adjusted mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.479||0.024|TWO_SIDED|95.0|-2.02|-0.14|||ANCOVA|||||-0.14|-2.02|0.024
82501819|NCT01313767|164694542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.7998|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.7998
82440943|NCT03199053|164589403|SUPERIORITY||Adjusted mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.528||0.833|TWO_SIDED|95.0|-1.15|0.92|||ANCOVA|||||0.92|-1.15|0.833
82440944|NCT03199053|164589404|SUPERIORITY||Adjusted mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.525||0.047|TWO_SIDED|95.0|-2.07|-0.01|||ANCOVA|||||-0.01|-2.07|0.047
82440945|NCT03199053|164589405|SUPERIORITY||Adjusted mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.49||0.268|TWO_SIDED|95.0|-1.5|0.42|||ANCOVA|||||0.42|-1.50|0.268
82440946|NCT03199053|164589406|SUPERIORITY||Adjusted mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.505||0.026|TWO_SIDED|95.0|-2.11|-0.13|||ANCOVA|||||-0.13|-2.11|0.026
82440947|NCT03199053|164589407|SUPERIORITY||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.618||0.644|TWO_SIDED|95.0|-0.92|1.5|||ANCOVA|||||1.50|-0.92|0.644
82440948|NCT03199053|164589408|SUPERIORITY||Adjusted Odds Ratio|3.8||||0.019|TWO_SIDED|95.0|1.2|11.7|||Regression, Logistic|||||11.7|1.2|0.019
82440949|NCT03199053|164589408|SUPERIORITY||Adjusted Odds Ratio|2.6||||0.114|TWO_SIDED|95.0|0.8|8.6|||Regression, Logistic|||||8.6|0.8|0.114
82501820|NCT01313767|164694542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.5436|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of putting shirts on was compared using wilcoxon rank sum test.||||0.5436
82440950|NCT03199053|164589409|SUPERIORITY||Adjusted Odds Ratio|3.5||||0.042|TWO_SIDED|95.0|1.0|11.4|||Weighted Logistic Regression|||||11.4|1.0|0.042
82440951|NCT03199053|164589409|SUPERIORITY||Adjusted Odds Ratio|2.3||||0.175|TWO_SIDED|95.0|0.7|7.4|||Weighted Logistic Regression|||||7.4|0.7|0.175
82440952|NCT03199053|164589410|SUPERIORITY||Adjusted Odds Ratio|4.4||||0.009|TWO_SIDED|95.0|1.4|13.2|||Weighted Logistic Regression|||||13.2|1.4|0.009
82501821|NCT01313767|164694543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.7014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 4 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.7014
82501822|NCT01313767|164694543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8884|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 8 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.8884
82440953|NCT03199053|164589410|SUPERIORITY||Adjusted Odds Ratio|3.8||||0.042|TWO_SIDED|95.0|1.1|13.5|||Weighted Logistic Regression|||||13.5|1.1|0.042
82440954|NCT03199053|164589411|SUPERIORITY||Adjusted mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.496||0.955|TWO_SIDED|95.0|-1.0|0.94|||ANCOVA|||||0.94|-1.00|0.955
82440955|NCT03199053|164589411|SUPERIORITY||Adjusted mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.495||0.64|TWO_SIDED|95.0|-1.2|0.74|||ANCOVA|||||0.74|-1.20|0.640
82440956|NCT03199053|164589412|SUPERIORITY||Adjusted mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.896||0.476|TWO_SIDED|95.0|-2.39|1.12|||ANCOVA|||||1.12|-2.39|0.476
82440957|NCT03199053|164589412|SUPERIORITY||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|1.017||0.075|TWO_SIDED|95.0|-3.81|0.18|||ANCOVA|||||0.18|-3.81|0.075
82440958|NCT03199053|164589413|SUPERIORITY||Unadjusted Difference in Percentage|-19.7||||0.182|TWO_SIDED|95.0|-44.5|5.7|||Fisher Exact|||||5.7|-44.5|0.182
82440959|NCT03199053|164589414|SUPERIORITY||Unadjusted Difference in Percentage|-6.3||||0.65|TWO_SIDED|95.0|-29.8|16.5|||Fisher Exact|||||16.5|-29.8|0.650
82440960|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.6|1.5||||||Diphtheria: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.5|-1.6|
82440961|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Tetanus: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440962|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|-1.3|||||TWO_SIDED|95.0|-4.7|1.9||||||Pertussis toxoid: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.9|-4.7|
82440963|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Pertussis filamentous hemagglutinin: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440964|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Pertussis pertactin: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440965|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|-1.2|||||TWO_SIDED|95.0|-3.6|0.8||||||Pertussis fimbrial agglutinogens types 2+3: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||0.8|-3.6|
82440966|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 1: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440967|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 2: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440968|NCT01323270|164589480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority criteria margin was 10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Poliovirus type 3: Exact 2-sided confidence interval (based on Chan and Zhang) was reported for the difference in proportions, expressed as a percentage.||1.1|-1.1|
82440969|NCT04065074|164589527|OTHER|Proportion of Successful Administrations|Proportion of Successful Administrations|0.75|||||TWO_SIDED|90.0|0.51|0.9||||||||0.90|0.51|
82501823|NCT01313767|164694543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.284|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference between groups in change from baseline to week 12 in carer burden scale of cleaning the armpit was compared using wilcoxon rank sum test.||||0.2840
82501824|NCT01067456|164694547|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.57||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
82440970|NCT01185964|164589534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.672||||0.0615|TWO_SIDED|95.0|0.442|1.021|||Log Rank|||||1.021|0.442|0.0615
82440971|NCT01185964|164589537|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.463||||0.0003|TWO_SIDED|95.0|0.301|0.71|||Log Rank|||||0.710|0.301|0.0003
82440972|NCT04346108|164589568|SUPERIORITY||Poisson Estimate|1.65|||||TWO_SIDED|95.0|0.73|3.15||||||||3.15|0.73|
82440973|NCT04346108|164589568|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
82440974|NCT04346108|164589568|SUPERIORITY||Poisson Estimate|2.48|||||TWO_SIDED|95.0|1.34|4.13||||||||4.13|1.34|
82440975|NCT04346108|164589569|SUPERIORITY||Poisson Estimate|2.6|||||TWO_SIDED|95.0|1.02|5.3||||||||5.30|1.02|
82440976|NCT04346108|164589569|SUPERIORITY||Poisson Estimate|9.82|||||TWO_SIDED|95.0|2.82|23.82||||||||23.82|2.82|
82440977|NCT04346108|164589569|SUPERIORITY||Poisson Estimate|2.87|||||TWO_SIDED|95.0|1.37|5.18||||||||5.18|1.37|
82440978|NCT04346108|164589570|SUPERIORITY||Poisson Estimate|4.01||||||95.0|1.46|8.54||||||||8.54|1.46|
82440979|NCT04346108|164589570|SUPERIORITY||Poisson Estimate|3.07|||||TWO_SIDED|95.0|0.37|10.74||||||||10.74|0.37|
82440980|NCT04346108|164589570|SUPERIORITY||Poisson Estimate|5.87|||||TWO_SIDED|95.0|2.32|11.93||||||||11.93|2.32|
82440981|NCT04346108|164589571|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
82440982|NCT04346108|164589571|SUPERIORITY||Poisson Estimate|0.13|||||TWO_SIDED|95.0|0.03|0.35||||||||0.35|0.03|
82440983|NCT04346108|164589571|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
82440984|NCT04346108|164589572|SUPERIORITY||Poisson Estimate|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
82440985|NCT04346108|164589572|SUPERIORITY||Poisson Estimate|1.04|||||TWO_SIDED|95.0|0.25|2.76||||||||2.76|0.25|
82440986|NCT04346108|164589573|SUPERIORITY||Poisson Estimate|1.18|||||TWO_SIDED|95.0|0.38|2.68||||||||2.68|0.38|
82440987|NCT04346108|164589573|SUPERIORITY||Poisson Estimate|2.35|||||TWO_SIDED|95.0|0.91|4.82||||||||4.82|0.91|
82440988|NCT04346108|164589573|SUPERIORITY||Poisson Estimate|0.61|||||TWO_SIDED|95.0|0.07|2.15||||||||2.15|0.07|
82440989|NCT01081301|164589579|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of the Herth Hope Index over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
82440990|NCT01081301|164589580|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of SF-12v2 Mental health scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
82440991|NCT01081301|164589581|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures||Generalized estimating equations were used to determine change in patterns of General Self Efficacy Scale scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
82440992|NCT01081301|164589582|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of Non Death Revised Grief Experience Inventory scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||>0.05
82440993|NCT01081301|164589583|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value were not adjusted for multiple comparisons and a p-value of 0.05 was used for statistical significance.|ANOVA|Modified version of ANOVA as it overcomes the shortcoming of the ANOVA model by taking into account unbalanced data and repeated measures.||Generalized estimating equations were used to determine change in patterns of SF-12v2 Physical health scores over time (Day 7, 14 and 3, 6, and 12 months) compared to baseline. The advantage of utilizing general estimating equations was that it effectively increases the sample size (increasing power) and estimated more robust standard errors by taking into account the repeated measures and adjusting for covariates.||||<0.05
82440994|NCT01095653|164589591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.0975|<|0.0001|TWO_SIDED|95.0|-0.94|-0.56||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.56|-0.94|<0.0001
82440995|NCT01095653|164589591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.0962|<|0.0001|TWO_SIDED|95.0|-1.01|-0.63||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.63|-1.01|<0.0001
82440996|NCT01095653|164589592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.7|STANDARD_ERROR_OF_MEAN|3.203|<|0.0001|TWO_SIDED|95.0|-34.0|-21.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-21.4|-34.0|<0.0001
82440997|NCT01095653|164589592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.2|STANDARD_ERROR_OF_MEAN|3.174|<|0.0001|TWO_SIDED|95.0|-40.4|-27.9||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-27.9|-40.4|<0.0001
82440998|NCT01095653|164589593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.9|STANDARD_ERROR_OF_MEAN|6.5667|<|0.0001|TWO_SIDED|95.0|-60.8|-34.96||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-34.96|-60.80|<0.0001
82501825|NCT02328755|164694551|OTHER|Single group|cumulative incidence|0.39|||||TWO_SIDED|95.0|0.24|0.58||||||The analysis applies only to the first row, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).||0.58|0.24|
82501826|NCT02328755|164694552|OTHER|Single group|Kaplan-Meier|55.0|||||TWO_SIDED|95.0|40.0|75.0||||||The analysis applies only to the first row, data at 6 months, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).|Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|75|40|
82501827|NCT02328755|164694552|OTHER|Single group|Kaplan-Meier|33.0|||||TWO_SIDED|95.0|19.0|58.0||||||The analysis applies only to the 3rd row, data at 24 months, for recipients of HLA-matched HCT who received the phase II MTD (180mcg) peg-IFN-a (n=31).|Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|58|19|
82440999|NCT01095653|164589593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.0|STANDARD_ERROR_OF_MEAN|6.4489|<|0.0001|TWO_SIDED|95.0|-68.66|-43.28||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-43.28|-68.66|<0.0001
82441000|NCT01095653|164589594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3259|<|0.0001|TWO_SIDED|95.0|-2.01|-0.73||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.73|-2.01|<0.0001
82501828|NCT02328755|164694553|OTHER|Single group|||||||||||||||||Survival proportion estimates at 6 months and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method.|||
82441001|NCT01095653|164589594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.3242|<|0.0001|TWO_SIDED|95.0|-2.62|-1.34||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-1.34|-2.62|<0.0001
82441002|NCT01095653|164589595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.3|STANDARD_ERROR_OF_MEAN|5.238|<|0.0001|TWO_SIDED|95.0|11.1|31.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||31.6|11.1|<0.0001
82441003|NCT01095653|164589595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5|STANDARD_ERROR_OF_MEAN|5.022|<|0.0001|TWO_SIDED|95.0|18.6|38.3||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||38.3|18.6|<0.0001
82441004|NCT02182440|164589599|SUPERIORITY||Difference in LS means|-16.53|STANDARD_ERROR_OF_MEAN|19.243||0.949|TWO_SIDED|95.0|-62.57|29.5|||ANOVA|||Analysis for Part 1||29.50|-62.57|0.949
82441005|NCT02182440|164589599|SUPERIORITY||Difference in LS means|-4.65|STANDARD_ERROR_OF_MEAN|9.305||0.691|TWO_SIDED|95.0|-23.09|13.8|||ANOVA|||Analysis for Part 2||13.80|-23.09|0.691
82441006|NCT02182440|164589599|SUPERIORITY||Combined p-value|0.896||||0.896|TWO_SIDED||||||Inverse normal method||The p-values from Part 1 (see Statistical Analysis 1) and Part 2 (see Statistical Analysis 2) were combined to an overall p-value using the inverse normal method.|Combination of analysis results from Part 1 (see statistical Analysis 1) and Part 2 (see Statistical analysis 2)||||0.896
82441007|NCT02182440|164589600|SUPERIORITY||Odds Ratio (OR)|1.4||||0.28|TWO_SIDED|95.0|0.8|2.4|||Chi-squared|||||2.4|0.8|0.28
82501829|NCT02328755|164694554|OTHER|Single group|||||||||||||||||GVHD proportion estimates and corresponding 95% confidence intervals were calculated using methods of Fine and Gray.|||
82441008|NCT02182440|164589601|SUPERIORITY||Mean Difference (Net)|0.12||||0.02|TWO_SIDED|95.0|0.02|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.02|0.02
82441009|NCT02182440|164589602|SUPERIORITY||Mean Difference (Net)|0.12||||0.03|TWO_SIDED|95.0|0.01|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.01|0.03
82441010|NCT02182440|164589603|SUPERIORITY||Hazard Ratio (HR)|1.77||||0.045|TWO_SIDED|95.0|1.0|3.1|||Regression, Logistic|||||3.1|1.0|0.045
82441011|NCT02182440|164589604|SUPERIORITY||Hazard Ratio (HR)|1.85||||0.03|TWO_SIDED|95.0|1.06|3.26|||Regression, Logistic|||||3.26|1.06|0.03
82441012|NCT02680574|164589628|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change of hemoglobin: Vadadustat minus Darbepoetin alfa|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.042|||TWO_SIDED|95.0|-0.09|0.07||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.07|-0.09|
82441013|NCT02680574|164589629|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.3 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|1.16|||=|0.2015|TWO_SIDED|95.0|0.93|1.446|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.446|0.930|=0.2015
82441014|NCT02680574|164589629|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.17|||=|0.0725|TWO_SIDED|95.0|1.012|1.355|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 382 and 344 respectively; median time to first event (Q1, Q3) = 50.07 (23.00, 82.86) weeks versus 51.93 (27.79, 91.00) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.355|1.012|=0.0725
82441015|NCT02680574|164589630|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.1|0.09||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.09|-0.10|
82441016|NCT02680574|164589631|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.777|TWO_SIDED|95.0|0.851|1.268|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.268|0.851|=0.7770
82501830|NCT02328755|164694555|OTHER|Single group|||||||||||||||||Non-relapse mortality estimates and corresponding 95% confidence intervals were calculated using methods of Fine and Gray.|||
82501831|NCT04483011|164694556|SUPERIORITY||Mean Difference (Net)|2.12|STANDARD_DEVIATION|4.72||0.034|TWO_SIDED|||||\< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Dave 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.034
82501832|NCT04483011|164694556|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|2.79||0.265|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation of Comparator.||||0.265
82441017|NCT02680574|164589631|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.2305|TWO_SIDED|95.0|0.972|1.267|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE plus hospitalization for heart failure or thromboembolic events excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 451 and 424 respectively; median time to first event (Q1, Q3) = 42.86 (19.71, 73.43) weeks versus 43.86 (21.36, 80.43) weeks, respectively.||1.267|0.972|=0.2305
82441018|NCT02680574|164589632|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.5509|TWO_SIDED|95.0|0.817|1.501|||Gray's Test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.501|0.817|=0.5509
82441019|NCT02680574|164589632|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.2531|TWO_SIDED|95.0|0.947|1.42|||Gray's Test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 198 and 178 respectively; median time to first event (Q1, Q3) = 45.57 (21.71, 73.29) weeks versus 47.36 (20.00, 88.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.420|0.947|=0.2531
82441020|NCT02680574|164589633|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|0.88|||=|0.4184|TWO_SIDED|95.0|0.61|1.258|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.258|0.610|=0.4184
82441021|NCT02680574|164589633|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.01|||=|0.8613|TWO_SIDED|95.0|0.792|1.293|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 127 and 131 respectively; median time to first event (Q1, Q3) = 48.29 (28.86, 76.14) weeks versus 48.43 (21.29, 92.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.293|0.792|=0.8613
82441022|NCT02680574|164589634|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.8041|TWO_SIDED|95.0|0.82|1.315|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0015 has been reported in this section.||1.315|0.820|=0.8041
82441023|NCT02680574|164589634|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.09|||=|0.4577|TWO_SIDED|95.0|0.93|1.274|||Log Rank|||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 319 and 307 respectively; median time to first event (Q1, Q3) = 52.14 (28.71, 84.71) weeks versus 53.00 (30.71, 94.14) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.274|0.930|=0.4577
82441024|NCT02880514|164589664|SUPERIORITY|||||||0.0391||||||P-value not adjusted for multiplicity.|McNemar|McNemar's exact binomial test was employed to obtain the two-sided p-value at alpha level of 0.05.||||||0.0391
82441025|NCT02880514|164589665|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
82441026|NCT00681564|164589732|SUPERIORITY_OR_OTHER|||||||0.98||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||Analyzed variable: Brachial Artery Flow-mediated Dilation (baseline). Note: data analysis of patients who completed the study protocol (n=86). Intention-to-treat analysis analysis was not used because its application for the evaluation of continuous data would imply imputing missing data for patients lost to follow-up. Mean and standard deviation of flow-mediated dilatation, including data from all patients randomized in this study, is reported in the field of baseline characteristics.||||0.98
82441027|NCT00681564|164589732|SUPERIORITY_OR_OTHER|||||||0.005||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||Analyzed variable: Brachial Artery Flow-mediated Dilation (24 hours).||||0.005
82501833|NCT04483011|164694556|SUPERIORITY||Mean Difference (Net)|2.12|STANDARD_DEVIATION|4.72||0.044|TWO_SIDED|||||\< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator groups.||||0.044
82624126|NCT00510484|164963732|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82441028|NCT00681564|164589732|SUPERIORITY_OR_OTHER|||||||0.43||||||A P value of 0.05 was used as a cut-off for statistical significance.|Kruskal-Wallis|Non-parametric test appropriate for the analysis of non-normally distributed data.||"Statistical analysis: Brachial Artery Flow-mediated Dilation (12 weeks). Intention-to-treat analysis was not used because input of values for patients lost at follow-up will artificially amplify the precision of outcome measures.~Higgins JPT, Deeks JJ, Altman DG (editors). Chapter 16: Special topics in statistics. In: Higgins JPT, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions. Version 5.0.1. The Cochrane Collaboration, 2008. www.cochrane-handbook.org."||||0.43
82441029|NCT02230761|164589749|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.020
82441030|NCT02230761|164589750|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82441031|NCT02230761|164589751|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
82441032|NCT02210221|164589752|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in 6-month mortality||||<0.0001
82441033|NCT02210221|164589752|OTHER||observed to expected ratio|0.7|||||TWO_SIDED|95.0|0.62|0.76|||||numerator: 6-month mortality observed denominator: 6-month mortality expected 95% CIs estimated according to a Poisson distribution|||0.76|0.62|
82624127|NCT00510484|164963733|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82501834|NCT04483011|164694557|SUPERIORITY||Mean Difference (Net)|1.33|STANDARD_DEVIATION|1.88||0.008|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation of RiaGev.||||0.008
82501835|NCT04483011|164694557|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_DEVIATION|1.34||0.297|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.297
82501836|NCT04483011|164694557|SUPERIORITY||Mean Difference (Net)|1.33|STANDARD_DEVIATION|1.88||0.04|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator supplementation.||||0.04
82501837|NCT04483011|164694558|SUPERIORITY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|6.57||0.004|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in the RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.004
82501838|NCT04483011|164694558|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|3.88||0.64|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.640
82501839|NCT04483011|164694558|SUPERIORITY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|6.57||0.014|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 over Day 1 is reported.|A comparison between RiaGev and Comparator supplementation.||||0.014
82441034|NCT02210221|164589753|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in SF-12v2 mental component summary||||<0.0001
82501840|NCT04483011|164694559|SUPERIORITY||Mean Difference (Net)|-1037.92|STANDARD_DEVIATION|1590.74||0.013|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 8 over Day 1 is reported.|A comparison before and after RiaGev supplementation.||||0.013
82501841|NCT04483011|164694559|SUPERIORITY||Mean Difference (Net)|-302.08|STANDARD_DEVIATION|1427.42||0.382|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 8 over Day 1 is reported.|A comparison before before and after supplementation with Comparator.||||0.382
82501842|NCT04483011|164694560|SUPERIORITY||Mean Difference (Net)|-135.13|STANDARD_DEVIATION|2153.66||0.793|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 8 over Day 1 baseline is reported.|A comparison between before and after RiaGev supplementation||||0.793
82624128|NCT00510484|164963734|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82441035|NCT02210221|164589753|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in SF-12v2 physical component summary||||<0.0001
82441036|NCT02210221|164589754|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No corrections for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum in Qolibri Overall Scale||||<0.0001
82441037|NCT02210221|164589755|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441038|NCT02210221|164589756|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441039|NCT02210221|164589757|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001||||||No correlations for multiple comparisons were done|ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441040|NCT02210221|164589758|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441041|NCT02210221|164589759|NON_INFERIORITY|non-inferiority margin = 0||||||0.169|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.169
82441042|NCT02210221|164589760|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||Fisher Exact|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441043|NCT02210221|164589761|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441044|NCT02210221|164589762|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441045|NCT02210221|164589763|NON_INFERIORITY|non-inferiority margin = 0||||||0.637|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.637
82441046|NCT02210221|164589764|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441047|NCT02210221|164589765|NON_INFERIORITY|non-inferiority margin = 0||||||0.48|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.480
82501843|NCT04483011|164694560|SUPERIORITY||Mean Difference (Net)|-134.79|STANDARD_DEVIATION|1830.16||0.758|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 8 over Day 1 baseline is reported.|A comparison between before and after supplementation with Comparator.||||0.758
82501844|NCT04483011|164694561|SUPERIORITY||Mean Difference (Net)|70.2|STANDARD_DEVIATION|123.89||0.003|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation||||0.003
82501845|NCT04483011|164694561|SUPERIORITY||Mean Difference (Net)|15.55|STANDARD_DEVIATION|88.62||0.766|TWO_SIDED|||||p \> 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.766
82501846|NCT04483011|164694562|SUPERIORITY||Mean Difference (Net)|24.01|STANDARD_DEVIATION|58.2||0.029|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 is reported.|A comparison between RiaGev and Comparator groups after 7-day supplementation.||||0.029
82501847|NCT04483011|164694563|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_DEVIATION|0.32||0.034|TWO_SIDED|||||p \< 0.05|ANCOVA||The p value between RiaGev and Comparator groups at Day 5 is reported.|A comparison between RiaGev and Comparator groups.||||0.034
82501848|NCT04483011|164694564|SUPERIORITY||Mean Difference (Net)|-8.33|STANDARD_DEVIATION|12.99||0.014|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in RiaGev group at Day 5 over Day 1 is reported.|A comparison between before and after RiaGev supplementation.||||0.014
82501849|NCT04483011|164694564|SUPERIORITY||Mean Difference (Net)|-2.56|STANDARD_DEVIATION|5.66||0.049|TWO_SIDED|||||p \< 0.05|Wilcoxon (Mann-Whitney)||The p value in Comparator group at Day 5 over Day 1 is reported.|A comparison between before and after supplementation with Comparator.||||0.049
82501850|NCT00799487|164694568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|95.0|-34.4|-20.2||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||-20.2|-34.4|<0.0001
82501851|NCT00799487|164694569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.0|||<|0.0001|TWO_SIDED|95.0|-35.1|-20.8||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||-20.8|-35.1|<0.0001
82501852|NCT00799487|164694570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.0|||<|0.0001|TWO_SIDED|95.0|3.4|6.6||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||6.6|3.4|<0.0001
82501853|NCT00799487|164694571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.5|||<|0.0001|TWO_SIDED|95.0|3.2|5.8||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||5.8|3.2|<0.0001
82501854|NCT00799487|164694572|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|9.5|||<|0.0001|TWO_SIDED|95.0|6.9|12.0||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis||Placebo minus Concerta|||12.0|6.9|<0.0001
82501855|NCT00799487|164694573|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.51|||<|0.0001|TWO_SIDED|95.0|-4.27|-2.74||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-2.74|-4.27|<0.0001
82501856|NCT00799487|164694574|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.58|||<|0.0001|TWO_SIDED|95.0|-23.72|-11.45||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-11.45|-23.72|<0.0001
82501857|NCT00799487|164694575|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.33|||<|0.0001|TWO_SIDED|95.0|-39.29|-21.37||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-21.37|-39.29|<0.0001
82501858|NCT00799487|164694576|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13||||0.0297|TWO_SIDED|95.0|-2.15|-0.12||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.12|-2.15|0.0297
82501859|NCT00799487|164694577|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84||||0.0955|TWO_SIDED|95.0|-1.84|0.15||P-values were determined by using a general linear mixed model. Finger Windows Forwards was the first non-significant p-value in the gatekeeper sequence.|Mixed Models Analysis|Testing of additional endpoints in the sequence was still performed without any unqualified statements about the individual statistical significance.|Placebo minus Concerta|||0.15|-1.84|0.0955
82501860|NCT00799487|164694578|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.37||||0.0002|TWO_SIDED|95.0|-21.52|-7.23||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-7.23|-21.52|0.0002
82501861|NCT00799487|164694579|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26||||0.2335|TWO_SIDED|95.0|-0.7|0.17||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.17|-0.70|0.2335
82501862|NCT00799487|164694580|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.51||||0.2321|TWO_SIDED|95.0|-6.67|1.65||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||1.65|-6.67|0.2321
82501863|NCT00799487|164694581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.52||||0.0015|TWO_SIDED|95.0|-5.64|-1.4||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-1.40|-5.64|0.0015
82501864|NCT00799487|164694582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.38||||0.0101|TWO_SIDED|95.0|-9.43|-1.33||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-1.33|-9.43|0.0101
82501865|NCT00799487|164694583|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09||||0.6642|TWO_SIDED|95.0|-0.53|0.34||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.34|-0.53|0.6642
82501866|NCT00799487|164694584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.3||||0.004|TWO_SIDED|95.0|-58.89|-11.71||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-11.71|-58.89|0.0040
82501867|NCT00799487|164694585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08||||0.0012|TWO_SIDED|95.0|-0.14|-0.03||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.03|-0.14|0.0012
82501868|NCT00799487|164694586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07||||0.0051|TWO_SIDED|95.0|-0.12|-0.02||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||-0.02|-0.12|0.0051
82624129|NCT00510484|164963735|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.013
82624130|NCT00510484|164963736|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82501869|NCT00799487|164694587|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05||||0.1768|TWO_SIDED|95.0|-0.13|0.02||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.02|-0.13|0.1768
82501870|NCT00799487|164694588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02||||0.4245|TWO_SIDED|95.0|-0.09|0.04||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.04|-0.09|0.4245
82501871|NCT00799487|164694589|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|0.0||||0.9729|TWO_SIDED|95.0|-0.09|0.09||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.09|-0.09|0.9729
82501872|NCT00799487|164694590|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04||||0.3486|TWO_SIDED|95.0|-0.12|0.04||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.04|-0.12|0.3486
82501873|NCT00799487|164694591|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03||||0.1466|TWO_SIDED|95.0|-0.07|0.01||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.01|-0.07|0.1466
82501874|NCT00799487|164694592|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03||||0.1368|TWO_SIDED|95.0|-0.01|0.08||P-values were determined by using a general linear mixed model.|Mixed Models Analysis||Placebo minus Concerta|||0.08|-0.01|0.1368
82501875|NCT03518073|164694595|SUPERIORITY||Posterior Mean Ratio|1.1|||||TWO_SIDED|95.0|0.959|1.265|||||Posterior mean ratio with 95% credible interval is reported.|||1.265|0.959|
82501876|NCT03518073|164694595|SUPERIORITY||Posterior Mean Ratio|1.05|||||TWO_SIDED|95.0|0.907|1.209|||||Posterior mean ratio with 95% credible interval is reported.|||1.209|0.907|
82501877|NCT03518073|164694596|SUPERIORITY||Posterior Mean Ratio|1.11|||||TWO_SIDED|95.0|0.943|1.29|||||Posterior mean ratio with 95% credible interval is reported.|||1.290|0.943|
82501878|NCT03518073|164694596|SUPERIORITY||Posterior Mean Ratio|0.89|||||TWO_SIDED|95.0|0.737|1.053|||||Posterior mean ratio with 95% credible interval is reported.|||1.053|0.737|
82501879|NCT03518073|164694597|SUPERIORITY||Posterior Mean Ratio|1.06|||||TWO_SIDED|95.0|0.873|1.284|||||Posterior mean ratio with 95% credible interval is reported.|||1.284|0.873|
82501880|NCT03518073|164694597|SUPERIORITY||Posterior Mean Ratio|1.21|||||TWO_SIDED|95.0|1.006|1.453|||||Posterior mean ratio with 95% credible interval is reported.|||1.453|1.006|
82441048|NCT02210221|164589766|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82441049|NCT02210221|164589767|NON_INFERIORITY|non-inferiority margin = 0||||||0.024|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.024
82501881|NCT03518073|164694598|SUPERIORITY||Posterior Mean Ratio|1.12|||||TWO_SIDED|95.0|0.963|1.3|||||Posterior mean ratio with 95% credible interval is reported.|||1.300|0.963|
82501882|NCT03518073|164694598|SUPERIORITY||Posterior Mean Ratio|0.95|||||TWO_SIDED|95.0|0.805|1.119|||||Posterior mean ratio with 95% credible interval is reported.|||1.119|0.805|
82501883|NCT03518073|164694599|SUPERIORITY||Posterior Mean Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.221|||||Posterior mean ratio with 95% credible interval is reported.|||1.221|0.880|
82501884|NCT03518073|164694599|SUPERIORITY||Posterior Mean Ratio|0.89|||||TWO_SIDED|95.0|0.742|1.065|||||Posterior mean ratio with 95% credible interval is reported.|||1.065|0.742|
82501885|NCT03518073|164694600|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.253|TWO_SIDED|95.0|-0.01|0.05|||Mixed Models Analysis|||||0.05|-0.01|0.253
82501886|NCT03518073|164694600|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.354|TWO_SIDED|95.0|-0.02|0.05|||Mixed Models Analysis|||||0.05|-0.02|0.354
82501887|NCT03518073|164694601|SUPERIORITY||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|1.554||0.691|TWO_SIDED|95.0|-2.44|3.68|||Mixed Models Analysis|||||3.68|-2.44|0.691
82501888|NCT03518073|164694601|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.599||0.749|TWO_SIDED|95.0|-2.64|3.66|||Mixed Models Analysis|||||3.66|-2.64|0.749
82501889|NCT03045081|164694604|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. GEE allows for the analysis of repeated measures with unknown covariance structure and uses all available data that participants provide, even if follow-up data are missing (ie, intent-to-treat analysis). Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months; i.e., as treated 'completer' analysis) were evaluated (see Statistical Analysis 2).|||||<|0.05||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interactions.|Wald χ2|Intent-to-treat analysis (full sample)||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in pain self efficacy over time compared to the usual care group.||||<0.05
82501890|NCT03045081|164694604|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 values \< 0.05 considered statistically significant for group x time interactions.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in chronic pain self-efficacy over time compared to the usual care group. This analysis was limited to those participants who provided data at each of the study time points ('completer analysis').||||<0.05
82501891|NCT03045081|164694605|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months; 'study completers') were evaluated (see Statistical Analysis 2).||||||0.068||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Intent-to-treat analysis (full sample)||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improvement in chronic pain acceptance - Activity Engagement - over time compared to the usual care group. Note: this questionnaire has 2 subscales, Activity Engagement and Pain Willingness. Intent-to-treat and as treated analyses were conducted for each subscale.||||0.068
82441050|NCT02210221|164589768|NON_INFERIORITY|non-inferiority margin = 0||||||0.064|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||0.064
82501892|NCT03045081|164694605|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 \<0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group by time interaction, such that the PTSM group would demonstrate improvement in chronic pain acceptance - Activity Engagement - over time compared to the usual care group.This analysis was limited to those participants who provided data at each of the study time points ('completer' analysis).||||<0.05
82522914|NCT02954354|164741242|SUPERIORITY||Difference|2.2||||0.4241||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Fatigue||||0.4241
82501893|NCT03045081|164694605|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.||||||0.173||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group by time interaction such that the PTSM group would demonstrate improvement in chronic pain acceptance - Pain Willingness - over time compared to the usual care group.||||0.173
82501894|NCT03045081|164694605|OTHER|Generalized estimating equations were used to test this hypothesis.||||||0.167||||||Wald χ2 \>0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group by time interaction such that the PTSM group would demonstrate improvement in chronic pain acceptance - Pain Willingness - over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points ('completer' analysis).||||0.167
82501895|NCT03045081|164694606|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).||||||0.176||||||Wald χ2 p-values \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved confidence in patient-provider interactions over time compared to the usual care group.||||0.176
82501896|NCT03045081|164694606|OTHER|Generalized estimating equations were used to test this hypothesis.||||||0.143||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved confidence in patient-provider interactions over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points ('completer' analysis).||||0.143
82501897|NCT03045081|164694607|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis. Main effects of group and time, and group × time interactions were evaluated. Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).|||||<|0.05||||||Wald χ2 p-values \< 0.05 considered statistically significant.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved satisfaction with pain treatment over time compared to the usual care group.||||<0.05
82501898|NCT03045081|164694607|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.001||||||Wald χ2 \< 0.05 were considered statistically significant for the group x time interaction.|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate improved satisfaction with pain treatment over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each of the study time points (i.e., 'completer' analysis).||||<0.001
82501899|NCT03045081|164694609|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.Models for the entire study sample and for only those who provided outcome data at all study time points (0, 3, 6 months) were evaluated (see Statistical Analysis 2).||||||0.102||||||Wald χ2 p-values \< 0.05 considered statistically significant.|Wald χ2|Intent-to-treat analysis (full sample).||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate greater reductions in pain intensity and interference over time compared to the usual care group.||||0.102
82501900|NCT03045081|164694609|OTHER|Generalized estimating equations (GEE) were used to test this hypothesis.|||||<|0.05||||||Wald χ2 \< 0.05 considered statistically significant for group x time interaction|Wald χ2|Study 'completers' only||We hypothesized that we would observe a group (usual care vs PTSM) by time (0, 3, 6 months) interaction, such that the PTSM group would demonstrate greater reductions in pain intensity and interference over time compared to the usual care group. This analysis was restricted to those study participants who provided data at each time point (as treated, 'completer' analysis).||||<0.05
82501901|NCT00065507|164694615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.18|||Regression, Linear|Linear regression model adjusted for baseline HBV DNA and LVDr status.||||-1.18|-2.30|<0.0001
82501902|NCT00065507|164694616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.85|-0.96|||Regression, Linear|adjusted for baseline HBV DNA and LVDr Status||||-0.96|-1.85|<0.0001
82501903|NCT00065507|164694617|SUPERIORITY_OR_OTHER||Mean Percent Difference|32.7|||<|0.0001|TWO_SIDED|95.0|20.2|45.2|||Cochran-Mantel-Haenszel|||||45.2|20.2|<0.0001
82441051|NCT02210221|164589769|NON_INFERIORITY|non-inferiority margin = 0|||||<|0.0001|||||||ANOVA|||null hypothesis: no difference between ER stratum, Admission stratum and ICU stratum||||<0.0001
82501904|NCT00065507|164694618|SUPERIORITY_OR_OTHER||Mean percent treatment difference|38.0|||<|0.0001|TWO_SIDED|95.0|24.8|50.3|||Cochran-Mantel-Haenszel|||||50.3|24.8|<0.0001
82501905|NCT00065507|164694619|SUPERIORITY_OR_OTHER||percent treatment difference|19.2||||0.0193|TWO_SIDED|95.0|3.7|34.6|||Cochran-Mantel-Haenszel|||Week 24 treatment difference||34.6|3.7|0.0193
82501906|NCT00065507|164694619|SUPERIORITY_OR_OTHER||percent treatment difference|16.4||||0.0425|TWO_SIDED|95.0|0.9|32.0|||Cochran-Mantel-Haenszel|||Week 48 treatment difference||32.0|0.9|0.0425
82501907|NCT00065507|164694625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.51|TWO_SIDED|95.0|-1.63|0.82|||Regression, Linear|Model estimate incorporates prognostic factors measured at baseline. Adjusted for baseline||Covariate adjusted model for MELD score at Week 24||0.82|-1.63|0.51
82441052|NCT03710876|164589805|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.284|TWO_SIDED|95.0|0.43|1.59||1-sided|Log Rank|||||1.59|0.43|0.2840
82501908|NCT00065507|164694625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|||<|0.0001|TWO_SIDED|95.0|-1.08|1.88|||Regression, Linear|Model estimate incorporates prognostic factors measured at baseline. Adjusted for baseline||Covariate adjusted model for MELD score at Week 48||1.88|-1.08|<0.0001
82501909|NCT00065507|164694633|SUPERIORITY_OR_OTHER||Difference Estimate|10.4|||||TWO_SIDED|95.0|-4.5|25.2||||||Difference estimate ETV - ADV at Week 48||25.2|-4.5|
82501910|NCT00065507|164694634|SUPERIORITY_OR_OTHER||Difference Estimate|-0.4|||||TWO_SIDED|95.0|-8.7|8.0||||||Difference Estimate at Week 48||8.0|-8.7|
82501911|NCT00065507|164694635|SUPERIORITY_OR_OTHER||Difference Estimate|-7.2|||||TWO_SIDED|95.0|-21.3|6.9||||||Difference Estimate at Week 48||6.9|-21.3|
82501912|NCT00065507|164694636|SUPERIORITY_OR_OTHER||Difference Estimate|5.7|||||TWO_SIDED|95.0|-0.3|11.7||||||Difference Estimate at Week 48||11.7|-0.3|
82501913|NCT00065507|164694637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2|TWO_SIDED|95.0|0.46|1.18|||Regression, Cox|Cox proportional hazard model, adjusted for age \<=45 versus age \>45 years, gender, and race (white versus non-white).||treatment comparison of HCC-free survival at Week 48||1.18|0.46|0.20
82501914|NCT01506479|164694651|SUPERIORITY||Mean Difference (Final Values)|14.3|||<|0.0001|TWO_SIDED|95.0|12.0|16.6|||t-test, 2 sided|||||16.6|12.0|<0.0001
82441053|NCT03710876|164589807|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-17.3|24.3||2-sided|Fisher Exact||Risk difference is proportion achieving objective response in r+C+G group minus the proportion achieving objective response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||24.3|-17.3|1.0000
82441054|NCT03710876|164589808|SUPERIORITY||Risk Difference (RD)|2.2||||1|TWO_SIDED|95.0|-25.2|29.2|||Fisher Exact||Risk difference is proportion achieving response in r+C+G group minus the proportion achieving response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||29.2|-25.2|1.0000
82441055|NCT03710876|164589809|SUPERIORITY||Risk Difference (RD)|-7.6||||0.7665|TWO_SIDED|95.0|-34.9|20.3|||Fisher Exact||Risk difference is proportion achieving response in r+C+G group minus the proportion achieving response in C+ G group. The confidence interval was calculated by the exact conditional method of Chan and Zhang.|||20.3|-34.9|0.7665
82441056|NCT03710876|164589810|SUPERIORITY||Risk Difference (RD)|-4.4||||0.7537|TWO_SIDED|95.0|-31.7|23.0||2-sided.|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||23.0|-31.7|0.7537
82441057|NCT03710876|164589811|SUPERIORITY||Risk Difference (RD)|18.4||||0.1855|TWO_SIDED|95.0|-8.8|45.6||2-sided|Chi-squared|Variance calculated by Greenwood's method|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||45.6|-8.8|0.1855
82441058|NCT03710876|164589812|SUPERIORITY||Risk Difference (RD)|12.2||||0.357|TWO_SIDED|95.0|-13.8|38.3||2-sided|Chi-squared|Variance calculated by Greenwood's method|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||38.3|-13.8|0.3570
82441059|NCT03710876|164589813|SUPERIORITY||Risk Difference (RD)|13.5||||0.2856|TWO_SIDED|95.0|-11.3|38.3||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||38.3|-11.3|0.2856
82441060|NCT03710876|164589814|SUPERIORITY||Risk Difference (RD)|6.1||||0.6173|TWO_SIDED|95.0|-17.8|30.0||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||30.0|-17.8|0.6173
82441061|NCT03710876|164589815|SUPERIORITY||Risk Difference (RD)|6.1||||0.6173|TWO_SIDED|95.0|-17.8|30.0||2-sided|Chi-squared|Variance calculated by Greenwood's method.|Risk difference is estimated probability of survival in r+C+G minus the estimated probability of survival in C+G group.|Percentage proportion calculated by Kaplan-Meier method.||30.0|-17.8|0.6173
82441062|NCT01007123|164589817|SUPERIORITY_OR_OTHER||||||<|0.2|TWO_SIDED|0.0|||||ANCOVA|||||||<0.2
82441063|NCT01007123|164589817|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|0.0|||||ANCOVA|||||||0.002
82441064|NCT01007123|164589817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
82441065|NCT01007123|164589818|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|0.0|||||Fisher Exact|||||||0.03
82441066|NCT01007123|164589818|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|0.0|||||Fisher Exact|||||||0.008
82441067|NCT01007123|164589818|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||Fisher Exact|||||||<0.001
82441068|NCT01007123|164589819|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED|0.0|||||Fisher Exact|||||||0.06
82441069|NCT01007123|164589819|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|0.0|||||Fisher Exact|||||||0.03
82441070|NCT01007123|164589819|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|0.0|||||Fisher Exact|||||||0.04
82441071|NCT01007123|164589820|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|0.0|||||ANCOVA|||||||0.44
82441072|NCT01007123|164589820|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
82501915|NCT01506479|164694652|OTHER||Mean Difference (Final Values)|2.9||||0.34|ONE_SIDED|90.0||4.6||The a priori threshold for statistical significance was 0.10|t-test, 1 sided|||The null hypothesis is that the vigorous exercise group warrants further investigation using a futility threshold of 3.5 compared to the control group (difference between the mean change in the control group and the mean change in the vigorous exercise group). The alternative hypothesis is that vigorous exercise does not warrant further investigation.||4.6||0.34
82624131|NCT00762268|164963741|SUPERIORITY_OR_OTHER|||||||1|||||||Regression, Linear|||||||1.0
82441073|NCT01007123|164589820|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
82441074|NCT01007123|164589821|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|0.0|||||ANCOVA|||Comparison vs placebo||||0.01
82441075|NCT01007123|164589821|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|0.0|||||ANCOVA|||Comparison vs placebo||||<0.05
82501916|NCT01506479|164694652|OTHER||Mean Difference (Final Values)|1.2||||0.03|ONE_SIDED|90.0||2.8||The a priori threshold for statistical significance was set to 0.10. If the p-value is less than 0.10, the null hypothesis is rejected in favor of the alternative (moderate exercise does not warrant further investigation).|t-test, 1 sided||"The estimate is the difference between the control group and the moderate exercise group.~The upper bound of the confidence interval should be compared to the futility threshold of 3.5 to reject or not reject the null hypothesis."|The null hypothesis is that the moderate exercise group warrants further investigation using a futility threshold of 3.5 compared to the control group (difference in the mean change between the control group and the moderate exercise group). The alternative hypothesis is that moderate exercise does not warrant further investigation .||2.8||0.03
82501917|NCT01506479|164694653|SUPERIORITY|||||||0.1334|||||||t-test, 2 sided|||||||0.1334
82624132|NCT00762268|164963742|OTHER|||||||0.05|||||||Chi-squared|||Change from intake scores.||||0.05
82501918|NCT04249310|164694677|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.32|2.46|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox-regression was used to estimate the hazard ratios and 95% confidence intervals.|||2.46|0.32|
82501919|NCT04249310|164694678|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.63|1.15|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Moderate or Severe COPD Exacerbation||1.15|0.63|
82501920|NCT04249310|164694678|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.43|1.01|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Moderate COPD Exacerbation||1.01|0.43|
82501921|NCT04249310|164694678|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.62|1.31|||||\[(Tiotropium/Olodaterol) / Tiotropium\] Cox regression was used to estimate the hazard ratios and 95% confidence intervals.|Severe COPD Exacerbation||1.31|0.62|
82501922|NCT01896531|164694700|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.12|||=|0.56|TWO_SIDED|90.0|0.81|1.55|||Log Rank|||All randomized participants||1.55|0.81|= 0.56
82501923|NCT01896531|164694700|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.07|||=|0.86|TWO_SIDED|90.0|0.54|2.11|||Log Rank|||Participants with PTEN loss tumors||2.11|0.54|= 0.86
82441076|NCT01007123|164589822|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|0.0|||||ANCOVA|||||||0.17
82501924|NCT01896531|164694701|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.52|||=|0.0234|TWO_SIDED|90.0|1.12|2.07|||Log Rank|||All randomized participants||2.07|1.12|= 0.0234
82501925|NCT01896531|164694701|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.66|||=|0.2867|TWO_SIDED|90.0|0.75|3.65|||Log Rank|||Participants with PTEN loss tumors||3.65|0.75|= 0.2867
82501926|NCT01896531|164694701|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.66|||=|0.1369|TWO_SIDED|90.0|0.94|2.93|||Log Rank|||Participants who are Akt Dx+||2.93|0.94|= 0.1369
82501927|NCT01896531|164694702|SUPERIORITY||Difference in Response Rates|-5.2|||=|0.5202|TWO_SIDED|90.0|-18.46|8.06|||Cochran-Mantel-Haenszel|||All randomized participants||8.06|-18.46|= 0.5202
82501928|NCT01896531|164694702|SUPERIORITY||Difference in Response Rates|-23.33|||=|0.2035|TWO_SIDED|90.0|-52.24|5.58|||Cochran-Mantel-Haenszel|||Participants with PTEN loss tumors||5.58|-52.24|= 0.2035
82501929|NCT01896531|164694702|SUPERIORITY||Difference in Response Rates|-4.35|||=|0.7697|TWO_SIDED|90.0|-28.48|19.79|||Cochran-Mantel-Haenszel|||Participants who are Akt Dx+||19.79|-28.48|= 0.7697
82501930|NCT01896531|164694703|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|1.14|||=|0.5974|TWO_SIDED|90.0|0.76|1.73|||Log Rank|||All randomized participants||1.73|0.76|= 0.5974
82501931|NCT01896531|164694703|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.71|||=|0.5385|TWO_SIDED|90.0|0.28|1.79|||Log Rank|||Participants with PTEN loss tumors||1.79|0.28|= 0.5385
82441077|NCT01007123|164589822|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
82441078|NCT01007123|164589822|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|0.0|||||ANCOVA|||||||<0.001
82501932|NCT01896531|164694703|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.78|||=|0.6097|TWO_SIDED|90.0|0.35|1.75|||Log Rank|||Participants who are Akt Dx+||1.75|0.35|= 0.6097
82501933|NCT00268996|164694706|SUPERIORITY_OR_OTHER||Adjusted percentage change|-11.717||||0.348|TWO_SIDED|95.0|-31.995|14.607|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|||14.607|-31.995|0.348
82501934|NCT00268996|164694707|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.082||||0.22|TWO_SIDED|95.0|-0.214|0.049|||ANCOVA||Difference in adjusted means is shown (Darapladib 160 mg EC tablet - Placebo).|||0.049|-0.214|0.220
82501935|NCT00268996|164694708|SUPERIORITY_OR_OTHER||Adjusted percentage change|3.977||||0.751|TWO_SIDED|95.0|-18.331|32.379|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|||32.379|-18.331|0.751
82501936|NCT00268996|164694709|SUPERIORITY_OR_OTHER||Adjusted percentage change|-60.737|||<|0.001|TWO_SIDED|95.0|-63.486|-57.78|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet at Week 26 (LOCF)||-57.780|-63.486|<0.001
82501937|NCT00268996|164694709|SUPERIORITY_OR_OTHER||Adjusted percentage change|-59.326|||<|0.001|TWO_SIDED|95.0|-62.21|-56.222|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet at Week 52 (LOCF)||-56.222|-62.210|<0.001
82501938|NCT00268996|164694710|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.253||||0.945|TWO_SIDED|95.0|-6.998|7.504|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||7.504|-6.998|0.945
82501939|NCT00268996|164694711|SUPERIORITY_OR_OTHER||Difference in adjusted means|-0.062||||0.898|TWO_SIDED|95.0|-1.009|0.886|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||0.886|-1.009|0.898
82501940|NCT00268996|164694712|SUPERIORITY_OR_OTHER||Difference in adjusted means|-5.165||||0.012|TWO_SIDED|95.0|-9.185|-1.145|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||-1.145|-9.185|0.012
82501941|NCT00268996|164694713|SUPERIORITY_OR_OTHER||Difference in adjusted means|-1.967||||0.047|TWO_SIDED|95.0|-3.912|-0.022|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet - Placebo).|||-0.022|-3.912|0.047
82501942|NCT00268996|164694714|SUPERIORITY_OR_OTHER||Adjusted percentage change|6.958||||0.487|TWO_SIDED|95.0|-11.568|29.364|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Week 26 (LOCF): Comparison between Placebo vs Darapladib 160 mg EC tablet||29.364|-11.568|0.487
82501943|NCT00268996|164694714|SUPERIORITY_OR_OTHER||Adjusted percentage change|12.255||||0.247|TWO_SIDED|95.0|-7.725|36.562|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet /Placebo) - 1 multiplied by 100\]|Week 52 (LOCF): Comparison between Placebo Vs Darapladib 160 mg EC tablet||36.562|-7.725|0.247
82501944|NCT00268996|164694715|SUPERIORITY_OR_OTHER||Adjusted percentage change|-1.112||||0.687|TWO_SIDED|95.0|-6.363|4.433|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||4.433|-6.363|0.687
82501945|NCT00268996|164694715|SUPERIORITY_OR_OTHER||Adjusted percentage change|-3.237||||0.29|TWO_SIDED|95.0|-8.976|2.865|||ANOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|||2.865|-8.976|0.290
82624133|NCT00762268|164963743|OTHER|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
82624134|NCT00881361|164963824|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82501946|NCT00268996|164694716|SUPERIORITY_OR_OTHER||Adjusted percentage change|16.725||||0.022|TWO_SIDED|95.0|2.232|33.271|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||33.271|2.232|0.022
82501947|NCT00268996|164694716|SUPERIORITY_OR_OTHER||Adjusted percentage change|9.256||||0.252|TWO_SIDED|95.0|-6.136|27.172|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||27.172|-6.136|0.252
82501948|NCT00268996|164694717|SUPERIORITY_OR_OTHER||Adjusted percentage change|15.449||||0.196|TWO_SIDED|95.0|-7.204|43.632|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26||43.632|-7.204|0.196
82501949|NCT00268996|164694717|SUPERIORITY_OR_OTHER||Adjusted percentage change|38.567||||0.024|TWO_SIDED|95.0|4.355|83.997|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52||83.997|4.355|0.024
82501950|NCT00268996|164694718|SUPERIORITY_OR_OTHER||Adjusted percentage change|-2.098||||0.79|TWO_SIDED|95.0|-16.303|14.517|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||14.517|-16.303|0.790
82501951|NCT00268996|164694718|SUPERIORITY_OR_OTHER||Adjusted percentage change|1.986||||0.818|TWO_SIDED|95.0|-13.807|20.673|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||20.673|-13.807|0.818
82501952|NCT00268996|164694719|SUPERIORITY_OR_OTHER||Adjusted percentage change|-0.252||||0.98|TWO_SIDED|95.0|-18.151|21.561|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 26 (LOCF)||21.561|-18.151|0.980
82441079|NCT02838901|164589823|OTHER|This was a descriptive analysis, and was based on the overall assessment of feasibility of the intervention.||||||0.058||||||The p value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||The null hypothesis was used, and the assumption was there would be no difference in adherence between the Active Juice and the Placebo Juice, and therefore a two-sided t approximation was reported. Since this was a pilot study, power calculations were not performed. The adherence in the two groups was compared using the Wilcoxon two-sample test.||||0.058
82441080|NCT02838901|164589824|OTHER|This was a descriptive analysis and was under the goal of assessing safety of the intervention.||||||1|||||||Fisher Exact|||Null hypothesis was assumed, no power calculation was done since this was a pilot study.||||1.00
82441081|NCT02838901|164589825|OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was assumed, and no power calculation was performed since this was a pilot study.||||0.0003
82501953|NCT00268996|164694719|SUPERIORITY_OR_OTHER||Adjusted percentage change|-8.585||||0.663|TWO_SIDED|95.0|-39.007|37.012|||ANCOVA||Adjusted percentage change is shown \[(Darapladib 160 mg EC tablet once daily/Placebo) - 1 multiplied by 100\]|Placebo vs Darapladib 160 mg EC tablet once daily at Week 52 (LOCF)||37.012|-39.007|0.663
82501954|NCT00268996|164694721|SUPERIORITY_OR_OTHER||Adjusted treatment Difference|1.758||||0.811|TWO_SIDED|95.0|-12.675|16.192|||ANCOVA||Difference in adjusted means are shown (Darapladib 160mg EC tablet once daily - Placebo).|For vessel volume||16.192|-12.675|0.811
82501955|NCT00268996|164694721|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.627||||0.708|TWO_SIDED|95.0|-11.171|16.425|||ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet once daily - Placebo).|For lumen volume||16.425|-11.171|0.708
82441082|NCT02838901|164589826|OTHER|This was a descriptive analysis for a pilot study, and no power calculations were performed.||||||0.1023|||||||Wilcoxon (Mann-Whitney)|||||||0.1023
82501956|NCT00268996|164694722|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.012||||0.873|TWO_SIDED|95.0|-0.16|0.136||Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean vessel area||0.136|-0.160|0.873
82501957|NCT00268996|164694722|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.048||||0.756|TWO_SIDED|95.0|-0.258|0.354|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean vessel area||0.354|-0.258|0.756
82501958|NCT00268996|164694722|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.061||||0.687|TWO_SIDED|95.0|-0.237|0.36|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value , matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Mean lumen area||0.360|-0.237|0.687
82501959|NCT00268996|164694723|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-0.584||||0.854|TWO_SIDED|95.0|-6.819|5.65|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibrous tissue volume||5.650|-6.819|0.854
82501960|NCT00268996|164694723|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|1.926||||0.418|TWO_SIDED|95.0|-2.748|6.6||Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|ANCOVA||Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibro-fatty volume||6.600|-2.748|0.418
82501961|NCT00268996|164694724|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.0||||0.021|TWO_SIDED|95.0|0.299|3.701|||ANOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibrous tissue as % of VH plaque||3.701|0.299|0.021
82501962|NCT00268996|164694724|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.739||||0.54|TWO_SIDED|95.0|-1.635|3.114|||ANCOVA|Data analyzed using ANCOVA, with ACS status, pooled country, baseline value, matched segment length and treatment included as covariates.|Difference in adjusted means are shown (Darapladib 160 mg EC tablet one daily - Placebo).|Placebo vs Darapladib 160 mg EC tablet: Fibro-fatty as percentage of VH plaque||3.114|-1.635|0.540
82501963|NCT02956486|164694725|SUPERIORITY||Least Square (LS) Mean Difference|-0.17||||0.385|TWO_SIDED|95.0|-0.57|0.22|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (mild cognitive impairment \[MCI\]/Prodromal, mild alzheimer's disease \[AD\]), concurrent AD medication use, region, apolipoprotein E (ApoE4) status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.22|-0.57|0.385
82501964|NCT02956486|164694727|SUPERIORITY||LS Mean Difference|-0.02||||0.345|TWO_SIDED|95.0|-0.06|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.02|-0.06|0.345
82501965|NCT02956486|164694728|SUPERIORITY||LS Mean Difference|-12.83|||<|0.001|TWO_SIDED|95.0|-18.79|-6.88|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||-6.88|-18.79|<.001
82501966|NCT02956486|164694729|SUPERIORITY||LS Mean Difference|-0.23||||0.316|TWO_SIDED|95.0|-0.67|0.22|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.22|-0.67|0.316
82501967|NCT02956486|164694730|SUPERIORITY||LS Mean Difference|-0.03||||0.254|TWO_SIDED|95.0|-0.07|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.02|-0.07|0.254
82501968|NCT02956486|164694731|SUPERIORITY||Difference of Mean Slope|-0.008||||0.9088|TWO_SIDED|95.0|-0.145|0.129|||Linear mixed effects model|||Based on the linear mixed effects model, which included assessment time and treatment group by assessment time interaction as covariate with random intercept and slope.||0.129|-0.145|0.9088
82501969|NCT02956486|164694732|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.6155|TWO_SIDED|95.0|0.77|1.16|||Regression, Cox|||Based on a Cox regression model which included treatment group, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, APOE4 status (positive, negative) as covariate.||1.16|0.77|0.6155
82501970|NCT02956486|164694733|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.1281|TWO_SIDED|95.0|0.96|1.35|||Regression, Cox|||Based on a Cox regression model which included treatment group, concurrent AD medication use, region, APOE4 status (positive, negative) as covariate.||1.35|0.96|0.1281
82441083|NCT02838901|164589827|OTHER|This was a descriptive analysis for a pilot study to gather preliminary data for a larger trial. No power calculations were performed for this outcome.||||||0.9581|||||||Wilcoxon (Mann-Whitney)|||||||.9581
82441084|NCT02838901|164589827|OTHER|||||||0.6678|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was assumed, and no power calculation was performed since this was a pilot study and the purpose was to collect preliminary data for a larger trial.||||.6678
82441085|NCT02838901|164589829|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82501971|NCT02956486|164694734|SUPERIORITY||LS Mean Difference|-0.43||||0.525|TWO_SIDED|95.0|-1.75|0.9|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.90|-1.75|0.525
82501972|NCT02956486|164694735|SUPERIORITY||LS Mean Difference|-0.01||||0.977|TWO_SIDED|95.0|-0.64|0.62|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.62|-0.64|0.977
82501973|NCT02956486|164694736|SUPERIORITY||LS Mean Difference|0.11||||0.854|TWO_SIDED|95.0|-1.09|1.32|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||1.32|-1.09|0.854
82501974|NCT02956486|164694737|SUPERIORITY||LS Mean Difference|-0.27||||0.314|TWO_SIDED|95.0|-0.79|0.26|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||0.26|-0.79|0.314
82501975|NCT02956486|164694738|SUPERIORITY||LS Mean Difference|0.07||||0.895|TWO_SIDED|95.0|-0.93|1.07|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value and the baseline value by visit interaction as covariate.||1.07|-0.93|0.895
82562704|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.12|||<|0.001|TWO_SIDED|95.0|-8.79|-5.45||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.45|-8.79|<0.001
82441086|NCT02838901|164589829|OTHER|||||||0.876|||||||Wilcoxon (Mann-Whitney)|||||||.876
82441087|NCT02838901|164589830|OTHER|||||||0.889|||||||Wilcoxon (Mann-Whitney)|||||||.889
82441088|NCT02838901|164589830|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||||||0.532
82441089|NCT02838901|164589831|OTHER|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.888
82441090|NCT02838901|164589832|OTHER|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||||||0.475
82501976|NCT02956486|164694739|SUPERIORITY||LS Mean Difference|0.04||||0.542|TWO_SIDED|95.0|-0.09|0.17|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.17|-0.09|0.542
82501977|NCT02956486|164694740|SUPERIORITY||LS Mean Difference|-0.01||||0.38|TWO_SIDED|95.0|-0.02|0.01|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.01|-0.02|0.380
82441091|NCT02838901|164589833|OTHER|||||||0.135|||||||Wilcoxon (Mann-Whitney)|||||||0.135
82501978|NCT02956486|164694741|SUPERIORITY||LS Mean Difference|-0.4||||0.063|TWO_SIDED|95.0|-0.82|0.02|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.02|-0.82|0.063
82501979|NCT02956486|164694742|SUPERIORITY||LS Mean Difference|-0.56||||0.045|TWO_SIDED|95.0|-1.11|-0.01|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||-0.01|-1.11|0.045
82501980|NCT02956486|164694743|SUPERIORITY||LS Mean Difference|-0.04||||0.799|TWO_SIDED|95.0|-0.32|0.24|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||0.24|-0.32|0.799
82501981|NCT02956486|164694744|SUPERIORITY||LS Mean Difference|-0.32||||0.012|TWO_SIDED|95.0|-0.56|-0.07|||MMRM|||Analysis was based on the MMRM and factors for treatment group, visit, treatment group by visit interaction, clinical disease staging (MCI/Prodromal, mild AD), concurrent AD medication use, region, ApoE4 status (positive, negative) as fixed effects, and the baseline value as covariate.||-0.07|-0.56|0.012
82501982|NCT00862745|164694829|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustment for multiple comparisons, threshold for significance is P \< .05|ANCOVA|Mean difference=Drug A minus Drug B||Null hypothesis: fesoterodine treatment is not associated with greater reduction in urgency incontinence frequency compared to placebo in women diagnosed using the 3IQ||||<0.001
82501983|NCT04446377|164694872|SUPERIORITY|The alternative hypothesis for the statistical testing was that LAM-002A would induce greater changes in viral load from Day 1 to Day 4 than would Placebo.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.51||0.35|TWO_SIDED|95.0|-1.47|0.53||Pre-specified 2-sided significance level of 0.20|Mixed Models Analysis|ANCOVA linear mixed model to evaluate the relative differences between the LAM-002A and Placebo groups in the log10 viral load from Day 1 to Day 4.|The difference between the groups (LAM-002A vs Placebo).|The analysis tested whether the viral load in nasopharyngeal samples was lower at Day 4 in those receiving LAM-002A compared to Placebo.||0.53|-1.47|0.35
82501984|NCT04446377|164694874|SUPERIORITY|The alternative hypothesis for the statistical testing was that LAM-002A would reduce the cumulative rate of hospitalization or death during the 28-day period comprising 10 days of study drug administration and a further 18 days of observation.|Odds Ratio (OR)|2.03||||0.55|TWO_SIDED|95.0|0.18|22.89|||Log Rank|||||22.89|0.18|0.55
82501985|NCT04446377|164694876|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-1.4|||||TWO_SIDED|||||||||Risk Difference from generalized estimating equations (GEE) logistic regression at Baseline||||
82501986|NCT04446377|164694876|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-1.0|||||TWO_SIDED|||||||||Risk Difference from GEE Logistic Regression at Day 1||||
82501987|NCT04446377|164694876|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-8.8|||||TWO_SIDED|||||||||Risk Difference from GEE logistic regression at Day 4||||
82501988|NCT04446377|164694876|SUPERIORITY|The alternative hypothesis for the statistical testing was that a higher proportion of participants would have ≥95% oxygen saturation during LAM-002A administration than during Placebo administration as assessed across Days 1, 4, and 11 of the study drug course.|Risk Difference (RD)|-3.7|||||TWO_SIDED|||||||||Risk Difference from GEE logistic regression at Day 11||||
82501989|NCT04446377|164694877|SUPERIORITY|The alternative hypothesis for the statistical testing was that, relative to Placebo, LAM-002A would result in a greater proportion of participants with a SARS-CoV-2 viral load \<LLOQ on Day 4.|Relative Risk|2.51||||0.2|TWO_SIDED|95.0|0.74|8.48||Prespecified significance level of 0.20.|Fisher Exact|||||8.48|0.74|0.20
82501990|NCT00923598|164694887|EQUIVALENCE|A method by Armitage et al was used, where by equivalence of treatments would be concluded if the 95% CI for the difference fell within the prespecified tolerated interval. Under these assumptions, a trial with 36 subjects (72 limbs) would correctly conclude there is no treatment difference with probability 80%, and incorrectly conclude equivalence when there is a difference of 20% with probability 5%.|Mean Difference (Final Values)|3.0||||0.05|TWO_SIDED|95.0|-10.0|17.0|||Fisher Exact|||||17|-10|0.05
82501991|NCT00467259|164694905|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
82441092|NCT02838901|164589834|OTHER|||||||0.185|||||||Wilcoxon (Mann-Whitney)|||||||0.185
82501992|NCT00467259|164694906|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
82501993|NCT00467259|164694907|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|p-value obtained from Fisher's Exact test and corresponds to the test of the null hypothesis of no treatment difference.||1000 naturally postmenopausal women not on concomitant E+P therapy at baseline were to be randomized (800 TTS; 200 placebo). It was assumed 60% would complete 1 year and 80% of these would have evaluable biopsies. Of the 800 randomized to TTS approximately 380 were expected to have evaluable biopsies at 1 year. 380 patients on TTS with evaluable biopsies at 1 year would provide 90% power to rule out an incidence of hyperplasia of 2% using the upper bound of a 2-sided 95% CI.||||1.0000
82501994|NCT01846611|164694931|SUPERIORITY||Hazard Ratio (HR)|0.925|||=|0.5236|TWO_SIDED|95.0|0.727|1.177|||Unstratified log rank test|||||1.177|0.727|= 0.5236
82501995|NCT01846611|164694932|SUPERIORITY||Hazard Ratio (HR)|0.935|||=|0.5174|TWO_SIDED|95.0|0.762|1.147|||Unstratified log rank test|||||1.147|0.762|= 0.5174
82501996|NCT01846611|164694933|SUPERIORITY||Odds Ratio (OR)|1.523|||=|0.0142|TWO_SIDED|95.0|1.075|2.158|||Fisher Exact|||||2.158|1.075|= 0.0142
82501997|NCT00680043|164694934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|97.5|-0.79|0.29|||ANOVA|||||0.29|-0.79|
82501998|NCT00680043|164694934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|97.5|-0.56|0.52|||ANOVA|||||0.52|-0.56|
82501999|NCT00680043|164694936|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.84|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.84|
82502000|NCT00680043|164694936|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.92|1.03|||Cochran-Mantel-Haenszel|||||1.03|0.92|
82502001|NCT03061331|164694937|SUPERIORITY||Least Squares Mean Difference|0.1||||0.9277|TWO_SIDED|95.0|-2.5|2.7|||Mixed Model Repeated Measure (MMRM)|||||2.7|-2.5|0.9277
82502002|NCT00513474|164694944|SUPERIORITY|||||||0.036|||||||Gray's test for competing risks|||||||.036
82502003|NCT01686633|164694948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.045|0.171|||ANCOVA|||||0.171|0.045|<0.001
82502004|NCT01686633|164694948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|||||TWO_SIDED|95.0|-0.037|0.086||||||||0.086|-0.037|
82499061|NCT03978520|164689011|SUPERIORITY||Response Rate Difference|16.7|||=|0.007|TWO_SIDED|95.0|4.5|28.9|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||28.9|4.5|=0.007
82562705|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.84|||<|0.001|TWO_SIDED|95.0|-9.51|-6.18||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.18|-9.51|<0.001
82562706|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.28|||<|0.001|TWO_SIDED|95.0|-9.94|-6.61||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.61|-9.94|<0.001
82502007|NCT02879305|164695002|NON_INFERIORITY|Non-inferiority was achieved if the upper limit of the two-sided 95% CI for the hazard ratio was below the pre-specified non-inferiority margin of 1.25.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.81|1.07|||||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.81|
82502008|NCT02879305|164695003|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than -0.75 g/dL.|Least square (LS) mean difference|0.18|||||TWO_SIDED|95.0|0.12|0.24|||||Analysis of covariance (ANCOVA) model adjusted for treatment, Baseline Hgb, dialysis type and region along with 95% CI for treatment difference (daprodustat-rhEPO).|||0.24|0.12|
82502009|NCT02879305|164695004|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.156123|TWO_SIDED|95.0|0.81|1.07||The p-value was compared against 0.0125 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.81|0.156123
82502010|NCT02879305|164695005|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.023539|TWO_SIDED|95.0|0.78|1.0||The p-value was compared against 0.006250 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.00|0.78|0.023539
82502011|NCT02879305|164695006|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.325797|TWO_SIDED|95.0|0.85|1.11||The p-value was compared against 0.025000 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.11|0.85|0.325797
82562707|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.877|TWO_SIDED|95.0|-1.24|1.45||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.45|-1.24|0.877
82562708|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.369|TWO_SIDED|95.0|-1.96|0.73||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.73|-1.96|0.369
82562709|NCT00696241|164835062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.126|TWO_SIDED|95.0|-2.39|0.3||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.30|-2.39|0.126
82624135|NCT01457924|164963843|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||Note: There is a discrepancy in the number of par. in ITT populations at Wk 24 and Wk 48: 228 and 229 respectively. This resulted from a data issue: one par was incorrectly excluded from ITT pop. at Wk 24, but correctly included in Wk 48. This error affects all source tables, analyses relating to ITT and per protocol populations, primary endpoint and secondary MRI endpoints reported at Wk 24. This discrepancy affects all statistical analyses, but not summary statistics.||0.548|0.221|<0.001
82499062|NCT03978520|164689011|SUPERIORITY||Response Rate Difference|31.0|||<|0.001|TWO_SIDED|95.0|18.1|44.0|||Cochran-Mantel-Haenszel|||Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo||44.0|18.1|<0.001
82562710|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.13|||<|0.001|TWO_SIDED|95.0|-12.79|-7.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.48|-12.79|<0.001
82562711|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.43|||<|0.001|TWO_SIDED|95.0|-14.07|-8.78||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.78|-14.07|<0.001
82562712|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-15.03|-9.73||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.73|-15.03|<0.001
82562713|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.346|TWO_SIDED|95.0|-1.12|3.18||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.18|-1.12|0.346
82562714|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.811|TWO_SIDED|95.0|-2.4|1.88||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.88|-2.40|0.811
82562715|NCT00696241|164835063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.267|TWO_SIDED|95.0|-3.35|0.93||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.93|-3.35|0.267
82562716|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03|||<|0.001|TWO_SIDED|95.0|-7.84|-4.21||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.21|-7.84|<0.001
82562717|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.94|||<|0.001|TWO_SIDED|95.0|-8.75|-5.13||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.13|-8.75|<0.001
82562718|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|||<|0.001|TWO_SIDED|95.0|-8.65|-5.03||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.03|-8.65|<0.001
82562719|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.394|TWO_SIDED|95.0|-0.83|2.1||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.10|-0.83|0.394
82562720|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.712|TWO_SIDED|95.0|-1.74|1.19||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.19|-1.74|0.712
82562721|NCT00696241|164835064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.818|TWO_SIDED|95.0|-1.63|1.29||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.29|-1.63|0.818
82562722|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.35|||<|0.001|TWO_SIDED|95.0|-14.05|-8.64||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.64|-14.05|<0.001
82562723|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.001|TWO_SIDED|95.0|-15.38|-9.98||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.98|-15.38|<0.001
82562724|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.81|||<|0.001|TWO_SIDED|95.0|-16.51|-11.11||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.11|-16.51|<0.001
82562725|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.75|TWO_SIDED|95.0|-1.83|2.54||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.54|-1.83|0.750
82562726|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.378|TWO_SIDED|95.0|-3.16|1.2||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.20|-3.16|0.378
82562727|NCT00696241|164835065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.059|TWO_SIDED|95.0|-4.28|0.08||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.08|-4.28|0.059
82562728|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.25|||<|0.001|TWO_SIDED|95.0|-9.02|-5.48||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.48|-9.02|<0.001
82562729|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.16|||<|0.001|TWO_SIDED|95.0|-9.92|-6.4||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.40|-9.92|<0.001
82562730|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||<|0.001|TWO_SIDED|95.0|-10.17|-6.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.65|-10.17|<0.001
82562731|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.845|TWO_SIDED|95.0|-1.29|1.57||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.57|-1.29|0.845
82624136|NCT01457924|164963843|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
82624137|NCT01457924|164963843|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
82624138|NCT01457924|164963843|SUPERIORITY_OR_OTHER||Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.221|0.548|||Non-Linear Emax Model|||||0.548|0.221|<0.001
82624139|NCT01457924|164963844|SUPERIORITY_OR_OTHER||Ratio|0.38||||0.003|TWO_SIDED|95.0|0.2|0.72|||Generalized Linear Model|||||0.72|0.20|0.003
82624140|NCT01457924|164963844|SUPERIORITY_OR_OTHER||Ratio|0.38||||0.003|TWO_SIDED|95.0|0.2|0.72|||Generalized Linear Model|||||0.72|0.20|0.003
82624141|NCT01457924|164963844|SUPERIORITY_OR_OTHER||Ratio|0.35||||0.001|TWO_SIDED|95.0|0.19|0.65|||Generalized Linear Model|||||0.65|0.19|0.001
82624142|NCT01457924|164963844|SUPERIORITY_OR_OTHER||Ratio|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.39|||Generalized Linear Model|||||0.39|0.13|<0.001
82624143|NCT01457924|164963847|SUPERIORITY_OR_OTHER||Ratio|0.31|||<|0.001|TWO_SIDED|95.0|0.16|0.6|||Generalized Linear Model|||||0.60|0.16|<0.001
82624144|NCT01457924|164963847|SUPERIORITY_OR_OTHER||Ratio|0.56||||0.075|TWO_SIDED|95.0|0.29|1.06|||Generalized Linear Model|||||1.06|0.29|0.075
82624145|NCT01457924|164963847|SUPERIORITY_OR_OTHER||Ratio|0.51||||0.035|TWO_SIDED|95.0|0.27|0.95|||Generalized Linear Model|||||0.95|0.27|0.035
82624146|NCT01457924|164963847|SUPERIORITY_OR_OTHER||Ratio|0.32|||<|0.001|TWO_SIDED|95.0|0.19|0.55|||Generalized Linear Model|||||0.55|0.19|<0.001
82624147|NCT01457924|164963848|SUPERIORITY_OR_OTHER||Ratio|0.22||||0.026|TWO_SIDED|95.0|0.06|0.84|||Generalized Linear Model|||||0.84|0.06|0.026
82624148|NCT01457924|164963848|SUPERIORITY_OR_OTHER||Ratio|0.49||||0.296|TWO_SIDED|95.0|0.13|1.86|||Generalized Linear Model|||||1.86|0.13|0.296
82502012|NCT02879305|164695007|SUPERIORITY||LS mean difference|-9.1||||0.026947|TWO_SIDED|95.0|-18.4|0.2||The p-value was compared against 0.008333 based on the Holm-Bonferonni adjustment.|ANCOVA||Analysis was carried out by using ANCOVA model with terms for treatment, Baseline monthly IV iron dose, dialysis type and region.|||0.2|-18.4|0.026947
82502013|NCT02879305|164695008|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.3281|TWO_SIDED|95.0|0.82|1.13|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.13|0.82|0.3281
82502014|NCT02879305|164695009|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3553|TWO_SIDED|95.0|0.74|1.23|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.23|0.74|0.3553
82502015|NCT02879305|164695010|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0524|TWO_SIDED|95.0|0.63|1.04|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.04|0.63|0.0524
82502016|NCT02879305|164695011|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1927|TWO_SIDED|95.0|0.56|1.25|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.25|0.56|0.1927
82502017|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.0351|TWO_SIDED|95.0|0.8|1.01|||Chi-squared||Overall HR is presented using Model 1. Model 1 assumed a common treatment effect, regardless of number of events experienced. HR was estimated using a Prentice, Williams and Peterson(PWP) model, with treatment, dialysis type and region as covariates.|||1.01|0.80|0.0351
82502018|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3258|TWO_SIDED|95.0|0.85|1.11|||Chi-squared||First Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. Hazard Ratio (HR) was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.11|0.85|0.3258
82502019|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0158|TWO_SIDED|95.0|0.58|0.98|||Chi-squared||Second Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||0.98|0.58|0.0158
82502020|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0981|TWO_SIDED|95.0|0.47|1.17|||Chi-squared||Third Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.17|0.47|0.0981
82502021|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3258|TWO_SIDED|95.0|0.85|1.11|||Chi-squared||First Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.11|0.85|0.3258
82502022|NCT02879305|164695012|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0058|TWO_SIDED|95.0|0.6|0.94|||Chi-squared||Subsequent Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||0.94|0.60|0.0058
82502023|NCT02879305|164695013|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0872|TWO_SIDED|95.0|0.73|1.06|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.06|0.73|0.0872
82502024|NCT02879305|164695014|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.154|TWO_SIDED|95.0|0.87|1.04|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.04|0.87|0.1540
82502025|NCT02879305|164695015|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.1244|TWO_SIDED|95.0|0.77|1.07|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.07|0.77|0.1244
82502026|NCT02879305|164695016|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.054|TWO_SIDED|95.0|0.81|1.02|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.02|0.81|0.0540
82502027|NCT02879305|164695017|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.7658|TWO_SIDED|95.0|0.84|1.45|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.45|0.84|0.7658
82502028|NCT02879305|164695018|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0425|TWO_SIDED|95.0|0.69|1.02|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, dialysis type and region as covariates.|||1.02|0.69|0.0425
82624149|NCT01457924|164963848|SUPERIORITY_OR_OTHER||Ratio|0.5||||0.285|TWO_SIDED|95.0|0.14|1.78|||Generalized Linear Model|||||1.78|0.14|0.285
82624150|NCT01457924|164963848|SUPERIORITY_OR_OTHER||Ratio|0.25||||0.009|TWO_SIDED|95.0|0.09|0.71|||Non-Linear Emax Model|||||0.71|0.09|0.009
82624151|NCT01457924|164963849|SUPERIORITY_OR_OTHER||Ratio|0.18||||0.004|TWO_SIDED|95.0|0.05|0.58|||Generalized Linear Model|||||0.58|0.05|0.004
82624152|NCT01457924|164963849|SUPERIORITY_OR_OTHER||Ratio|0.5||||0.248|TWO_SIDED|95.0|0.15|1.63|||Generalized Linear Model|||||1.63|0.15|0.248
82624153|NCT01457924|164963849|SUPERIORITY_OR_OTHER||Ratio|0.46||||0.181|TWO_SIDED|95.0|0.15|1.43|||Generalized Linear Model|||||1.43|0.15|0.181
82624154|NCT01457924|164963849|SUPERIORITY_OR_OTHER||Ratio|0.24||||0.003|TWO_SIDED|95.0|0.1|0.62|||Generalized Linear Model|||||0.62|0.10|0.003
82624155|NCT01457924|164963850|SUPERIORITY_OR_OTHER||Ratio|0.29|||<|0.001|TWO_SIDED|95.0|0.15|0.58|||Generalized Linear Model|||||0.58|0.15|<0.001
82624156|NCT01457924|164963850|SUPERIORITY_OR_OTHER||Ratio|0.34||||0.002|TWO_SIDED|95.0|0.17|0.68|||Generalized Linear Model|||||0.68|0.17|0.002
82624157|NCT01457924|164963850|SUPERIORITY_OR_OTHER||Ratio|0.4||||0.006|TWO_SIDED|95.0|0.21|0.77|||Generalized Linear Model|||||0.77|0.21|0.006
82624158|NCT01457924|164963850|SUPERIORITY_OR_OTHER||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.11|0.35|||Generalized Linear Model|||||0.35|0.11|<0.001
82624159|NCT01226706|164963862|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||"A sample of 16 subjects per group was required to detect a mean difference of 50 mL in maximum capacity at cystoscopy between botulinum toxin and placebo at 90% power with a two-sided type I error of 5%.~Difference scores were computed for the primary outcome, which were then compared using the Wilcoxon- Mann-Whitney U test. This type of analysis was used to identify both between group differences and within group differences (over time) while using non-parametric statistics."||||.016
82624160|NCT01226706|164963863|SUPERIORITY_OR_OTHER|||||||0.152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.152
82624161|NCT01226706|164963864|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.095
82624162|NCT01226706|164963865|SUPERIORITY_OR_OTHER|||||||0.067|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.067
82624163|NCT01226706|164963869|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.038
82624164|NCT01226706|164963870|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.095
82624165|NCT01226706|164963871|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.038
82624166|NCT01226706|164963875|SUPERIORITY_OR_OTHER|||||||0.904|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.904
82502029|NCT02879305|164695019|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.12|||||TWO_SIDED|95.0|0.03|0.21||||||||0.21|0.03|
82624167|NCT01226706|164963876|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.080
82624168|NCT01226706|164963877|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.230
82624169|NCT01226706|164963881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.021|TWO_SIDED|95.0|-2.1|-0.2|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.2|-2.1|0.021
82624170|NCT01226706|164963882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.007|TWO_SIDED|95.0|-2.1|-0.5|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.5|-2.1|0.007
82624171|NCT01226706|164963883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.013|TWO_SIDED|95.0|-2.0|-0.4|||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||-0.4|-2.0|0.013
82624172|NCT01226706|164963884|SUPERIORITY_OR_OTHER|||||||0.173|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.173
82624173|NCT01226706|164963885|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.051
82624174|NCT01226706|164963886|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.051
82624175|NCT01226706|164963887|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.557
82624176|NCT01226706|164963888|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.029
82624177|NCT01226706|164963889|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.132
82624178|NCT01226706|164963890|SUPERIORITY_OR_OTHER|||||||0.085|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.085
82624179|NCT01226706|164963891|SUPERIORITY_OR_OTHER|||||||0.099|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.099
82624180|NCT01226706|164963892|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.132
82624181|NCT01226706|164963893|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.072
82624182|NCT01226706|164963894|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.230
82624183|NCT01226706|164963895|SUPERIORITY_OR_OTHER|||||||0.314|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.314
82624184|NCT01226706|164963896|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.013
82562732|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.29|TWO_SIDED|95.0|-2.19|0.65||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.65|-2.19|0.290
82562733|NCT00696241|164835066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.161|TWO_SIDED|95.0|-2.44|0.41||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.41|-2.44|0.161
82562734|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.94|||<|0.001|TWO_SIDED|95.0|-13.88|-8.0||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.00|-13.88|<0.001
82562735|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.18|||<|0.001|TWO_SIDED|95.0|-14.11|-8.24||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.24|-14.11|<0.001
82562736|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.21|||<|0.001|TWO_SIDED|95.0|-15.15|-9.28||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.28|-15.15|<0.001
82562737|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.385|TWO_SIDED|95.0|-3.43|1.33||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.33|-3.43|0.385
82562738|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.285|TWO_SIDED|95.0|-3.66|1.08||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.08|-3.66|0.285
82562739|NCT00696241|164835067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.054|TWO_SIDED|95.0|-4.7|0.04||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.04|-4.70|0.054
82562740|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|||<|0.001|TWO_SIDED|95.0|-8.93|-4.75||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.75|-8.93|<0.001
82562741|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|||<|0.001|TWO_SIDED|95.0|-8.89|-4.72||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.72|-8.89|<0.001
82562742|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.55|||<|0.001|TWO_SIDED|95.0|-9.64|-5.47||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.47|-9.64|<0.001
82562743|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.642|TWO_SIDED|95.0|-2.09|1.29||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.29|-2.09|0.642
82562744|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.672|TWO_SIDED|95.0|-2.05|1.32||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.32|-2.05|0.672
82562745|NCT00696241|164835068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.196|TWO_SIDED|95.0|-2.8|0.57||P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.57|-2.80|0.196
82562746|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48|||<|0.001|TWO_SIDED|95.0|2.71|7.39||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.39|2.71|<0.001
82562747|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97|||<|0.001|TWO_SIDED|95.0|3.01|8.2||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||8.20|3.01|<0.001
82562748|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.53|||<|0.001|TWO_SIDED|95.0|3.95|10.79||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||10.79|3.95|<0.001
82562749|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.173|TWO_SIDED|95.0|0.57|1.11||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.11|0.57|0.173
82562750|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.449|TWO_SIDED|95.0|0.63|1.23||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.23|0.63|0.449
82562751|NCT00696241|164835069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.402|TWO_SIDED|95.0|0.83|1.62||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.62|0.83|0.402
82562752|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86|||<|0.001|TWO_SIDED|95.0|1.82|4.48||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.48|1.82|<0.001
82562753|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39|||<|0.001|TWO_SIDED|95.0|2.15|5.35||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.35|2.15|<0.001
82562754|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81|||<|0.001|TWO_SIDED|95.0|2.41|6.02||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.02|2.41|<0.001
82562755|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.177|TWO_SIDED|95.0|0.52|1.13||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.13|0.52|0.177
82562756|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.628|TWO_SIDED|95.0|0.61|1.35||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.35|0.61|0.628
82562757|NCT00696241|164835070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.928|TWO_SIDED|95.0|0.68|1.52||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.52|0.68|0.928
82562758|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.001|TWO_SIDED|95.0|2.66|7.72||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.72|2.66|<0.001
82562759|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.04|||<|0.001|TWO_SIDED|95.0|2.96|8.58||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||8.58|2.96|<0.001
82562760|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.75|||<|0.001|TWO_SIDED|95.0|3.96|11.48||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||11.48|3.96|<0.001
82562761|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.217|TWO_SIDED|95.0|0.58|1.13||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.13|0.58|0.217
82562762|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.537|TWO_SIDED|95.0|0.64|1.26||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.26|0.64|0.537
82562763|NCT00696241|164835071|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.276|TWO_SIDED|95.0|0.86|1.68||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||1.68|0.86|0.276
82562764|NCT01047709|164835074|SUPERIORITY_OR_OTHER||relative % difference|19.5|STANDARD_DEVIATION|23.0||0.011|TWO_SIDED|95.0|4.9|31.9|||GEE||SD of control night|Relative treatment effect on AHI, using GEE modeling, accounting for crossover design.||31.9|4.9|0.011
82562765|NCT01047709|164835074|SUPERIORITY_OR_OTHER||Relative % difference|19.5|STANDARD_DEVIATION|16.0||0.011||95.0|4.9|31.9|||GEE||SD of intervention night|Relative treatment effect on AHI, using GEE modeling, accounting for crossover design.||31.9|4.9|0.011
82562766|NCT01970527|164835088|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
82562767|NCT01970527|164835090|SUPERIORITY|||||||0.71|||||||Log Rank|||||||0.71
82562768|NCT03060525|164835091|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|1.51||0.026|TWO_SIDED|95.0|-6.32|-0.41|||Mixed Models Analysis|||Difference in weight change from Baseline to 6months, between Immediate Intervention participants (group and videophone combined) vs. Delayed Intervention participants (group and videophone combined). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||-0.41|-6.32|0.026
82562769|NCT03060525|164835092|SUPERIORITY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.59||0.03|TWO_SIDED|95.0|-2.42|-0.12|||Mixed Models Analysis|||Difference in Body Mass Index (BMI) change from Baseline to 6months, between Immediate Intervention participants (group and videophone combined) vs. Delayed Intervention participants (group and videophone combined). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||-0.12|-2.42|0.03
82562770|NCT03060525|164835093|SUPERIORITY||Median Difference (Net)|247.5||||0.63|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in amount of physical activity = 6-month MET-minutes/week - baseline MET-minutes/week (change from pre to post intervention), using the International Physical Activity Questionnaire. IPAQ score is a continuous measure and reports median MET-minutes per week (a combination of walking met-minutes/week + moderate activity MET-minutes/week + vigorous activity MET-minutes/week). \[analysis of 2 arms, immediate intervention vs. delayed intervention\]||||0.63
82562771|NCT01294644|164835137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|1.52|4.43|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||4.43|1.52|<0.001
82624185|NCT01226706|164963897|SUPERIORITY_OR_OTHER|||||||0.888|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|A Bonferroni correction (0.05/n) was used for multiple comparisons||||||0.888
82562772|NCT01294644|164835137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.83|5.36|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||5.36|1.83|<0.001
82624186|NCT00118911|164963906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.631|STANDARD_DEVIATION|7.337|<|0.03|TWO_SIDED|95.0|-8.3|-0.963|||ANCOVA|We used multiple imputation.||Hypothesis was that CBT would be superior to RES||-0.963|-8.30|<.03
82562773|NCT01294644|164835138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.71||||0.02|TWO_SIDED|95.0|1.48|92.67|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||92.67|1.48|0.020
82562774|NCT01294644|164835138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.53||||0.021|TWO_SIDED|95.0|1.46|91.24|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||91.24|1.46|0.021
82562775|NCT01294644|164835139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.37|||<|0.001|TWO_SIDED|95.0|3.06|9.44|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model.|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||9.44|3.06|<0.001
82562776|NCT01294644|164835139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.62|||<|0.001|TWO_SIDED|95.0|2.65|8.04|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||8.04|2.65|<0.001
82562777|NCT01294644|164835140|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|||<|0.001|TWO_SIDED|95.0|-0.51|-0.19|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline CR-SMFRS values as covariate.||||-0.19|-0.51|<0.001
82562778|NCT01294644|164835140|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.56|-0.24|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.24|-0.56|<0.001
82562779|NCT01294644|164835141|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|||<|0.001|TWO_SIDED|95.0|0.97|1.75|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.75|0.97|<0.001
82562780|NCT01294644|164835141|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|||<|0.001|TWO_SIDED|95.0|0.87|1.65|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.65|0.87|<0.001
82562781|NCT01294644|164835142|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.09|TWO_SIDED|95.0|-1.72|0.13|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||0.13|-1.72|0.090
82562782|NCT01294644|164835142|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.97||||0.04|TWO_SIDED|95.0|-1.89|-0.05|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||-0.05|-1.89|0.040
82562783|NCT01294644|164835143|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Pearson's chi-square test|||||||0.009
82562784|NCT01294644|164835143|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Pearson's chi-square test|||||||0.001
82562785|NCT02548585|164835155|SUPERIORITY||||||<|0.0001|||||||ANCOVA|p-value was based on pairwise comparison using analysis of covariance (ANCOVA) adjusted by baseline value.||||||< 0.0001
82562786|NCT02548585|164835156|SUPERIORITY|||||||0.0008|||||||ANCOVA|p-value was based on pairwise comparison using ANCOVA adjusted by baseline value.||||||0.0008
82562787|NCT04919499|164835201|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|-0.0252|STANDARD_ERROR_OF_MEAN|0.0376|||TWO_SIDED|95.0|-0.1048|0.0545|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0545|-0.1048|
82562788|NCT04919499|164835202|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|-0.0101|STANDARD_ERROR_OF_MEAN|0.0236|||TWO_SIDED|95.0|-0.0625|0.0422|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0422|-0.0625|
82562789|NCT04919499|164835203|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|0.0016|STANDARD_ERROR_OF_MEAN|0.0181|||TWO_SIDED|95.0|-0.0504|0.0536|||||Calculated as \[high-dose BI 765128\] - \[Sham\]|||0.0536|-0.0504|
82562790|NCT04919499|164835204|OTHER|A mixed model with repeated measurements (MMRM) was used for the analysis with fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.|Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-4.7|5.0|||||"Calculated as \[high-dose BI 765128\] - \[Sham\]~Results were rounded to one decimal place."|||5.0|-4.7|
82562791|NCT01416285|164835235|SUPERIORITY|||||||0.004|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||All-cause death||||0.004
82562792|NCT01416285|164835235|SUPERIORITY|||||||0.003|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||Heart failure-related re-hospitalizations||||0.003
82562793|NCT01416285|164835235|SUPERIORITY||||||<|0.001|||||||Kaplan-Meier and COX regression|Univariate and multi-variable||a composite outcome of both death and heart failure-related re-hospitalizations||||<0.001
82562794|NCT01248715|164835242|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||.460
82562795|NCT01248715|164835243|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
82562796|NCT01248715|164835244|SUPERIORITY|||||||0.732|||||||Wilcoxon (Mann-Whitney)|||||||.732
82562797|NCT01248715|164835245|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
82562798|NCT01248715|164835246|SUPERIORITY|||||||0.685|||||||Wilcoxon (Mann-Whitney)|||||||.685
82562799|NCT01248715|164835247|SUPERIORITY|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||||||.796
82624187|NCT00118911|164963907|SUPERIORITY_OR_OTHER||Slope|-0.12|STANDARD_DEVIATION|0.59|>|0.05|TWO_SIDED|95.0|-0.41|0.18|||Mixed Models Analysis||Those who were assigned to CBT and made a partial or full response maintained their gains over follow-up|We examined whether those in the CBT condition maintained their gains over time. Analysis was restricted to those assigned to CBT who were responders or partial responders.||.18|-.41|>.05
82639418|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-44.8||||0.0004|TWO_SIDED|95.0|-72.6|-17.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||-17.0|-72.6|0.0004
82499063|NCT03978520|164689011|SUPERIORITY||Response Rate Difference|-13.7|||=|0.068|TWO_SIDED|95.0|-28.4|1.0|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||1.0|-28.4|=0.068
82562800|NCT01248715|164835248|SUPERIORITY|||||||0.9999|||||||Wilcoxon (Mann-Whitney)|||||||.9999
82562801|NCT00828139|164835267|SUPERIORITY_OR_OTHER||3-month PFS|0.24|||||TWO_SIDED|90.0|0.14|0.37|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier. The 3-month PFS estimated value corresponds to the probability of PFS at month 3.||0.37|0.14|
82562802|NCT00828139|164835267|SUPERIORITY_OR_OTHER||3-month PFS|0.15|||||TWO_SIDED|90.0|0.07|0.27|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.27|0.07|
82562803|NCT00828139|164835267|SUPERIORITY_OR_OTHER||3-month PFS|0.27|||||TWO_SIDED|90.0|0.18|0.39|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.39|0.18|
82562804|NCT00828139|164835267|SUPERIORITY_OR_OTHER||3-month PFS|0.1|||||TWO_SIDED|90.0|0.04|0.2|||||The estimated value corresponds to the probability of PFS at month 3.|3-month PFS was estimated using the method of Kaplan-Meier.||0.2|0.04|
82562805|NCT00828139|164835267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|90.0|0.91|1.92||||||Hazard Ratio was evaluated using a logrank test.||1.92|0.91|
82562806|NCT00828139|164835267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||||TWO_SIDED|90.0|1.08|2.1||||||Hazard Ratio was evaluated using log-rank test.||2.10|1.08|
82562807|NCT01877720|164835322|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
82562808|NCT01877720|164835323|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Paired t-test|||||||0.001
82562809|NCT01877720|164835324|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Paired t-test|||||||0.74
82562810|NCT01877720|164835325|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Paired t-test|||||||0.003
82562811|NCT01877720|164835326|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Paired t-test|||||||0.002
82562812|NCT01877720|164835327|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Paired t-test|||||||0.003
82562813|NCT01877720|164835328|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Paired t-test|||||||0.012
82562814|NCT01877720|164835329|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Paired t-test|||||||0.67
82562815|NCT01877720|164835330|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<0.001
82562816|NCT01877720|164835331|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<0.001
82562817|NCT02068352|164835339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|11.93||||0.069|TWO_SIDED|95.0|-0.08|23.95||P-value was derived using Cochran-Mantel-Haenszel (CMH) test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||23.95|-0.08|0.0690
82562818|NCT02068352|164835339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|18.23||||0.0165|TWO_SIDED|95.0|4.99|31.46||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||31.46|4.99|0.0165
82562819|NCT02068352|164835339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|12.3||||0.0617|TWO_SIDED|95.0|0.06|24.53||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||24.53|0.06|0.0617
82562820|NCT02068352|164835340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47||||0.0128|TWO_SIDED|95.0|-0.84|-0.1|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, and interaction of treatment by visit as terms, Baseline score as a covariate.||||-0.10|-0.84|0.0128
82562821|NCT02068352|164835340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46||||0.0134|TWO_SIDED|95.0|-0.81|-0.1|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||-0.10|-0.81|0.0134
82562822|NCT02068352|164835341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0048|TWO_SIDED|95.0|-0.85|-0.16|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.16|-0.85|0.0048
82562823|NCT02068352|164835341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0045|TWO_SIDED|95.0|-0.84|-0.16|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.16|-0.84|0.0045
82562824|NCT02068352|164835343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.26||||0.4173|TWO_SIDED|95.0|-8.99|21.52||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||21.52|-8.99|0.4173
82624188|NCT05014542|164963908|SUPERIORITY||Mean Difference (Final Values)|-42.8|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 15) - mean (WOMAC total of group C in Week 15)|WOMAC total analysis between groups at Week 15. The Shapiro-Wilk test (S-W) was used for testing the normality of the data distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
82502030|NCT02879305|164695020|SUPERIORITY||Difference in response rate|3.5||||0.0367|TWO_SIDED|95.0|-0.1|7.1|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test adjusted for dialysis type, and region was used to compare the number of responders between the treatment groups.|||7.1|-0.1|0.0367
82502031|NCT02879305|164695021|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|1.06|||||TWO_SIDED|95.0|0.0|3.86|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-rhEPO) and associated two-sided asymptotic 95% CI is presented.|||3.86|0.00|
82502032|NCT02879305|164695022|SUPERIORITY||Probability|0.52||||0.0805|TWO_SIDED|95.0|0.49|0.54|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.54|0.49|0.0805
82502033|NCT02879305|164695023|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|2.18|||||TWO_SIDED|95.0|0.28|4.05|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-rhEPO) and associated two-sided asymptotic 95% CI is presented.|||4.05|0.28|
82502034|NCT02879305|164695024|SUPERIORITY||Probability|0.53||||0.0139|TWO_SIDED|95.0|0.5|0.55|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.55|0.50|0.0139
82502035|NCT02879305|164695025|SUPERIORITY||LS mean difference|0.33||||0.6551|TWO_SIDED|95.0|-1.28|1.94|||MMRM||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||1.94|-1.28|0.6551
82502036|NCT02879305|164695025|SUPERIORITY||LS mean difference|-0.46||||0.1586|TWO_SIDED|95.0|-1.36|0.44|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||0.44|-1.36|0.1586
82502037|NCT02879305|164695025|SUPERIORITY||LS mean difference|-0.18||||0.3646|TWO_SIDED|95.0|-1.2|0.84|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in means between arms.|||0.84|-1.20|0.3646
82502038|NCT02879305|164695026|SUPERIORITY||LS mean difference|0.0||||0.5012|TWO_SIDED|95.0|-1.54|1.54|||ANCOVA||For SBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.54|-1.54|0.5012
82502039|NCT02879305|164695026|SUPERIORITY||LS mean difference|0.45||||0.8451|TWO_SIDED|95.0|-0.42|1.31|||ANCOVA||For DBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.31|-0.42|0.8451
82502040|NCT02879305|164695026|SUPERIORITY||LS mean difference|0.31||||0.7312|TWO_SIDED|95.0|-0.67|1.28|||ANCOVA||For MAP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, dialysis type, region and Baseline value.|||1.28|-0.67|0.7312
82502041|NCT02879305|164695027|SUPERIORITY||Ratio of exacerbation rate|1.0||||0.529|TWO_SIDED|95.0|0.91|1.11|||Negative binomial model||Ratio of model estimated exacerbation rates and CIs were estimated using a negative binomial model for the treatment group comparison.|||1.11|0.91|0.5290
82502042|NCT02879305|164695029|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5772|TWO_SIDED|95.0|0.71|1.52|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, dialysis type and region.|||1.52|0.71|0.5772
82502043|NCT02879305|164695030|SUPERIORITY||LS mean difference|0.29||||0.162|TWO_SIDED|95.0|-0.29|0.86|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and the model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.86|-0.29|0.1620
82502044|NCT02879305|164695030|SUPERIORITY||LS mean difference|0.61||||0.018|TWO_SIDED|95.0|0.04|1.18|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and the model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.18|0.04|0.0180
82502045|NCT02879305|164695030|SUPERIORITY||LS mean difference|0.33||||0.153|TWO_SIDED|95.0|-0.31|0.97|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and the model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.97|-0.31|0.1530
82502046|NCT02879305|164695030|SUPERIORITY||LS mean difference|0.53||||0.0686|TWO_SIDED|95.0|-0.17|1.22|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and the model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.22|-0.17|0.0686
82502047|NCT02879305|164695031|SUPERIORITY||LS mean difference|-0.17||||0.6807|TWO_SIDED|95.0|-0.88|0.54|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and the model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.54|-0.88|0.6807
82502048|NCT02879305|164695031|SUPERIORITY||LS mean difference|0.17||||0.3256|TWO_SIDED|95.0|-0.57|0.91|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and the model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.91|-0.57|0.3256
82502049|NCT02879305|164695031|SUPERIORITY||LS mean difference|-0.01||||0.5144|TWO_SIDED|95.0|-0.81|0.78|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and the model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.78|-0.81|0.5144
82441093|NCT03397134|164589876|SUPERIORITY|All statistical tests will be 2-sided hypothesis tests performed at the 5% level of significance. All confidence intervals will be 2-sided 95% confidence intervals||||||0.043||||||The p-values must be ≤0.025 to allow for rejecting the null hypothesis for the representative dose.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||To evaluate the efficacy of 2 fixed doses (32 mg and 64 mg) of MIN-101 compared to placebo in improving the negative symptoms of schizophrenia as measured by the change from Baseline in the PANSS Marder negative symptoms factor score (NSFS) over 12 weeks of double-blind treatment. Approximation 501 eligible patients will be randomized in a 2:2:1:1 ratio at baseline to 1 of 4 treatment arms.||||0.043
82441094|NCT03397134|164589877|SUPERIORITY|All statistical tests will be 2-sided hypothesis tests performed at the 5% level of significance. All confidence intervals will be 2-sided 95% confidence intervals.||||||0.016||||||The p-values must be ≤0.025 to allow for rejecting the null hypothesis for the representative dose.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||The PSP involves four subscale domains: (a) socially useful activities, (b) personal and social relationships, (c) self-care, and (d) disturbing and aggressive behaviors. After each of these four areas is scored on an anchored Likert-type scale (0-5), raters are instructed to select a 10-point range within a 100-point scale, guided by the area scores assigned during assessment.||||0.016
82441095|NCT00929773|164589902|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82441096|NCT00929773|164589903|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<.0001
82562825|NCT02068352|164835343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.47||||0.4895|TWO_SIDED|95.0|-9.43|20.36||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||20.36|-9.43|0.4895
82562826|NCT02068352|164835343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.19||||0.2677|TWO_SIDED|95.0|-6.74|25.12||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||25.12|-6.74|0.2677
82562827|NCT02068352|164835343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.12||||0.2319|TWO_SIDED|95.0|-5.63|25.87||P-value was derived using CMH test stratified by age group (\< 18 or ≥ 18) and region.|Cochran-Mantel-Haenszel|||||25.87|-5.63|0.2319
82562828|NCT02068352|164835344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11||||0.3213|TWO_SIDED|95.0|-3.33|1.11|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||1.11|-3.33|0.3213
82562829|NCT02068352|164835344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.09||||0.0594|TWO_SIDED|95.0|-4.27|0.08|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.08|-4.27|0.0594
82562830|NCT02068352|164835344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03||||0.396|TWO_SIDED|95.0|-3.43|1.37|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||1.37|-3.43|0.396
82562831|NCT02068352|164835344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.1135|TWO_SIDED|95.0|-4.26|0.46|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.46|-4.26|0.1135
82562832|NCT02068352|164835345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49||||0.1703|TWO_SIDED|95.0|-3.63|0.65|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||0.65|-3.63|0.1703
82562833|NCT02068352|164835345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.56||||0.0176|TWO_SIDED|95.0|-4.67|-0.45|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.45|-4.67|0.0176
82562834|NCT02068352|164835345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.41||||0.2381|TWO_SIDED|95.0|-3.78|0.95|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||0.95|-3.78|0.2381
82562835|NCT02068352|164835345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.36||||0.047|TWO_SIDED|95.0|-4.68|-0.03|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.03|-4.68|0.047
82562836|NCT02068352|164835346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.8196|TWO_SIDED|95.0|-13.5|10.7|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||10.7|-13.5|0.8196
82562837|NCT02068352|164835346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.83||||0.0503|TWO_SIDED|95.0|-23.69|0.02|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||0.02|-23.69|0.0503
82624189|NCT05014542|164963909|SUPERIORITY||Mean Difference (Final Values)|-8.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain of group A at Week 15) - mean (WOMAC pain of group C at Week 15)|WOMAC pain analysis between groups at Week 15. The Shapiro-Wilk test (S-W) was used for testing the normality of the data distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at assessments.||||<.001
82441097|NCT00929773|164589904|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82441098|NCT00929773|164589905|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82441099|NCT00929773|164589906|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82441100|NCT00929773|164589907|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82562838|NCT02068352|164835346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68||||0.5902|TWO_SIDED|95.0|-17.22|9.85|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||9.85|-17.22|0.5902
82441101|NCT03061721|164589921|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82441102|NCT03061721|164589921|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
82441103|NCT03061721|164589921|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82441104|NCT03061721|164589922|SUPERIORITY|||||||0.5681|||||||ANCOVA|||||||0.5681
82441105|NCT03061721|164589922|SUPERIORITY|||||||0.4487|||||||ANCOVA|||||||0.4487
82441106|NCT03061721|164589922|SUPERIORITY|||||||0.0021|||||||ANCOVA|||||||0.0021
82441107|NCT03061721|164589923|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.0070
82441108|NCT03061721|164589923|SUPERIORITY|||||||0.0031|||||||Chi-squared|||||||0.0031
82441109|NCT03061721|164589923|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
82441110|NCT03061721|164589924|SUPERIORITY|||||||0.2241|||||||ANCOVA|||||||0.2241
82441111|NCT03061721|164589924|SUPERIORITY|||||||0.0304|||||||ANCOVA|||||||0.0304
82441112|NCT03061721|164589924|SUPERIORITY|||||||0.0595|||||||ANCOVA|||||||0.0595
82441113|NCT03061721|164589925|SUPERIORITY|||||||0.0449|||||||ANCOVA|||||||0.0449
82441114|NCT03061721|164589925|SUPERIORITY|||||||0.0053|||||||ANCOVA|||||||0.0053
82441115|NCT03061721|164589925|SUPERIORITY|||||||0.0036|||||||ANCOVA|||||||0.0036
82441116|NCT03061721|164589926|SUPERIORITY|||||||0.0045|||||||ANCOVA|||||||0.0045
82441117|NCT03061721|164589926|SUPERIORITY|||||||0.0026|||||||ANCOVA|||||||0.0026
82441118|NCT03061721|164589926|SUPERIORITY|||||||0.0004|||||||ANCOVA|||||||0.0004
82441119|NCT03061721|164589935|SUPERIORITY|||||||0.2387|||||||ANCOVA|||||||0.2387
82441120|NCT03061721|164589935|SUPERIORITY|||||||0.1496|||||||ANCOVA|||||||0.1496
82441121|NCT03061721|164589935|SUPERIORITY|||||||0.0445|||||||ANCOVA|||||||0.0445
82441122|NCT02685748|164589990|OTHER||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.444||0.863|TWO_SIDED|95.0|-0.969|0.815|||t-test, 2 sided|||||0.815|-0.969|0.863
82441123|NCT02685748|164589991|OTHER|T test for independent samples|Mean Difference (Final Values)|3.616|STANDARD_ERROR_OF_MEAN|2.364||0.133|TWO_SIDED|95.0|-1.147|8.379|||t-test, 2 sided|||||8.379|-1.147|0.133
82441124|NCT02685748|164589992|OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.43||1.607|TWO_SIDED|95.0|-1.1553|0.172|||t-test, 2 sided|||||0.172|-1.1553|1.607
82441125|NCT02685748|164589993|OTHER||Mean Difference (Final Values)|-1.282|STANDARD_ERROR_OF_MEAN|1.754||0.468|TWO_SIDED|95.0|-4.807|2.241|||t-test, 2 sided|||||2.241|-4.807|0.468
82441126|NCT02685748|164589994|OTHER||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.406||0.899|TWO_SIDED|95.0|-0.869|0.765|||t-test, 2 sided|||||0.765|-0.869|0.899
82441127|NCT02685748|164589995|OTHER||Mean Difference (Final Values)|7.05|STANDARD_DEVIATION|6.797||0.305|TWO_SIDED|95.0|-6.602|20.703|||t-test, 2 sided|||||20.703|-6.602|0.305
82441128|NCT02685748|164589996|OTHER||Mean Difference (Final Values)|160.298|STANDARD_ERROR_OF_MEAN|159.525||0.32|TWO_SIDED|95.0|-160.118|480.714|||t-test, 2 sided|||||480.714|-160.118|0.320
82441129|NCT02685748|164589997|OTHER||Mean Difference (Final Values)|-1.495|STANDARD_ERROR_OF_MEAN|3.558||0.676|TWO_SIDED|95.0|-8.642|5.651|||t-test, 2 sided|||||5.651|-8.642|0.676
82441130|NCT03500172|164589998|SUPERIORITY|||||||0.455||||||Threshold for significance: 0.05|Two sample test of proportions|||||||0.455
82441131|NCT03500172|164589999|SUPERIORITY|||||||0.962||||||Statistical significance threshold: 0.05|Two sample test of proportions|||||||0.962
82441132|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.05|TWO_SIDED|95.0|0.61|0.99||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for steady partner, living together vs. single.||0.99|0.61|<0.05
82441133|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|1.6|||<|0.05|TWO_SIDED|95.0|1.02|2.51||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for 5-9 new clients in the past month vs. 0 clients in the past month.||2.51|1.02|<0.05
82441134|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|1.31|||<|0.05|TWO_SIDED|95.0|1.09|1.57||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU for use of marijuana in the past 30 days vs. no marijuana use in the past 30 days||1.57|1.09|<0.05
82441135|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|1.24|||<|0.05|TWO_SIDED|95.0|1.01|1.52||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those experiencing physical violence in the past 6 months vs. no experience of physical violence in the past 6 months.||1.52|1.01|<0.05
82441136|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|1.62|||<|0.05|TWO_SIDED|95.0|1.31|2.0||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those who have experienced sexual violence in the past 6 months vs. those who have not||2.00|1.31|<0.05
82441137|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|2.33|||<|0.05|TWO_SIDED|95.0|1.65|3.29||Threshold for statistical significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those with viral loads from 50-1000 copies/mL at baseline vs. \<50 copies/mL.||3.29|1.65|<0.05
82441138|NCT03500172|164590000|SUPERIORITY||Hazard Ratio (HR)|2.47|||<|0.05|TWO_SIDED|95.0|1.82|3.36||Threshold for significance: 0.05|Regression, Cox|||Statistical test for risk of LTFU among those with viral load greater than 1000 copies/mL vs. those with viral load less than 50 copies/mL.||3.36|1.82|<0.05
82441139|NCT03500172|164590001|SUPERIORITY|||||||0.756||||||Threshold of significance: 0.05|Two sample test of proportions|||||||0.756
82441140|NCT03500172|164590002|SUPERIORITY|||||||0.295||||||Threshold of statistical significance: 0.05|Two sample test of proportions|||||||0.295
82441141|NCT03500172|164590003|SUPERIORITY|||||||0.149||||||Threshold for statistical significance: 0.05|Two sample test of proportions|||||||0.149
82441142|NCT03500172|164590004|SUPERIORITY|||||||0.301||||||Threshold of significance: 0.05|Two sample test of proportions|||||||0.301
82441143|NCT03500172|164590007|SUPERIORITY|||||||0.212||||||Threshold of statistical significance: 0.05|Chi-squared|||||||0.212
82441144|NCT00090233|164590024|NON_INFERIORITY_OR_EQUIVALENCE|Relative Risk ≤10.0 (non-inferiority margin).|relative risk|1.6||||0.006||95.0|0.4|6.4||"p≤ 10/11, where p is proportion of participants with intussusception in vaccine group relative to total number of participants with intussusception. Based on conditional binomial approach.~Adjusted for group-sequential design."|Exact binomial test|Exact binomial test adjusted for group-sequential design.||||6.4|0.4|0.006
82441145|NCT00090233|164590025|SUPERIORITY_OR_OTHER||Proportion|81.2|||<|0.001||95.0|72.9|87.8||p≥42%, where p is proportion of participants with ≥3-fold rise in antibody titer from Predose 1 to Postdose 3 in vaccine group. Based on binomial approach.|Exact binomial test|||||87.8|72.9|<0.001
82639419|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-6.05||||0.9551|TWO_SIDED|95.0|-35.2|23.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||23.1|-35.2|0.9551
82562839|NCT02068352|164835346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.42||||0.0482|TWO_SIDED|95.0|-26.73|-0.11|||Mixed Models Analysis|MMRM with fixed effects of treatment, region, visit, age group, interaction of treatment by visit, Baseline score as a covariate.||||-0.11|-26.73|0.0482
82562840|NCT02068352|164835347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.8633|TWO_SIDED|95.0|-12.48|10.48|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||10.48|-12.48|0.8633
82562841|NCT02068352|164835347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.54||||0.0452|TWO_SIDED|95.0|-22.83|-0.25|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.25|-22.83|0.0452
82562842|NCT02068352|164835347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73||||0.6746|TWO_SIDED|95.0|-15.58|10.12|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||10.12|-15.58|0.6746
82562843|NCT02068352|164835347|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.05||||0.0432|TWO_SIDED|95.0|-25.69|-0.4|||ANCOVA|ANCOVA model with treatment, region, age group as terms, and Baseline score as a covariate for change from Baseline.||||-0.4|-25.69|0.0432
82562844|NCT01129011|164835355|SUPERIORITY_OR_OTHER||proportions|11.9||||0.001|TWO_SIDED|95.0|7.9|17.1|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjetcs developing gastric ulcers throughout 6 months of study treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 6 months. The cumulative proportion of subjects developing gastric ulcers at 6 months was analyzed using the CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||17.1|7.9|0.001
82562845|NCT01129011|164835356|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82562846|NCT01129011|164835357|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Cochran-Mantel-Haenszel|||||||0.009
82562847|NCT01129011|164835358|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Cochran-Mantel-Haenszel|||||||0.007
82562848|NCT01129011|164835359|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82562849|NCT03745651|164835364|SUPERIORITY||Odds Ratio (OR)|8.84|||<|0.0001|TWO_SIDED|95.0|4.125|21.202||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||21.202|4.125|< 0.0001
82562850|NCT03745651|164835364|SUPERIORITY||Odds Ratio (OR)|15.8|||<|0.0001|TWO_SIDED|95.0|7.354|38.061||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||38.061|7.354|< 0.0001
82562851|NCT03745651|164835365|SUPERIORITY||Odds Ratio (OR)|6.84|||<|0.0001|TWO_SIDED|95.0|3.723|13.184||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.184|3.723|< 0.0001
82562852|NCT03745651|164835365|SUPERIORITY||Odds Ratio (OR)|10.67|||<|0.0001|TWO_SIDED|95.0|5.775|20.732||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||20.732|5.775|< 0.0001
82562853|NCT03745651|164835366|SUPERIORITY||Odds Ratio (OR)|4.17|||<|0.0001|TWO_SIDED|95.0|2.045|9.036||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||9.036|2.045|< 0.0001
82562854|NCT03745651|164835366|SUPERIORITY||Odds Ratio (OR)|5.8|||<|0.0001|TWO_SIDED|95.0|2.833|12.657||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||12.657|2.833|< 0.0001
82562855|NCT03745651|164835367|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8553|TWO_SIDED|95.0|0.598|2.094||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||2.094|0.598|0.8553
82562856|NCT03745651|164835367|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2359|TWO_SIDED|95.0|0.805|2.741||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||2.741|0.805|0.2359
82562857|NCT03745651|164835368|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1784|TWO_SIDED|95.0|0.827|3.342||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.342|0.827|0.1784
82562858|NCT03745651|164835368|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0472|TWO_SIDED|95.0|1.007|4.0||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||4.000|1.007|0.0472
82562859|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-31.91|STANDARD_ERROR_OF_MEAN|4.92|<|0.0001|TWO_SIDED|95.0|-41.57|-22.25|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-22.25|-41.57|<0.0001
82562860|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-35.13|STANDARD_ERROR_OF_MEAN|4.93|<|0.0001|TWO_SIDED|95.0|-44.81|-25.44|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-25.44|-44.81|<0.0001
82562861|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-44.56|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|95.0|-53.19|-35.92|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-35.92|-53.19|<0.0001
82562862|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-45.91|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|95.0|-54.55|-37.26|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-37.26|-54.55|<0.0001
82562863|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-44.53|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-53.08|-35.98|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-35.98|-53.08|<0.0001
82562864|NCT03745651|164835378|SUPERIORITY||Least Squares Mean Difference|-46.0|STANDARD_ERROR_OF_MEAN|4.33|<|0.0001|TWO_SIDED|95.0|-54.51|-37.48|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-37.48|-54.51|<0.0001
82562865|NCT03745651|164835379|SUPERIORITY||Least Squares Mean Difference|-39.4|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001|TWO_SIDED|95.0|-46.48|-32.38|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-32.38|-46.48|<0.0001
82562866|NCT03745651|164835379|SUPERIORITY||Least Squares Mean Difference|-43.5|STANDARD_ERROR_OF_MEAN|3.56|<|0.0001|TWO_SIDED|95.0|-50.51|-36.53|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-36.53|-50.51|<0.0001
82562867|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.02|-1.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.01|-2.02|<0.0001
82639420|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|-0.198||||1|TWO_SIDED|95.0|-27.3|26.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||26.9|-27.3|1.0000
82441146|NCT00090233|164590026|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|74.0|||<|0.001||95.0|66.8|79.9||"Efficacy≥35%. Based on p≤.65/(.65+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, k is ratio of follow-up time; placebo/vaccine.~Based on conditional binomial approach."|Exact binomial test|Exact binomial test.|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|||79.9|66.8|<0.001
82562868|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.24|-1.24|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.24|-2.24|<0.0001
82562869|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.36|-1.23|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.23|-2.36|<0.0001
82562870|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.53|-1.4|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.40|-2.53|<0.0001
82562871|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.49|-1.29|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.29|-2.49|<0.0001
82562872|NCT03745651|164835380|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.10|-2.30|<0.0001
82562873|NCT03745651|164835382|SUPERIORITY||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.94|-0.97|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.97|-1.94|<0.0001
82562874|NCT03745651|164835382|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.72|-0.76|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.76|-1.72|<0.0001
82562875|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.57||0.2903|TWO_SIDED|95.0|-1.71|0.51|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||0.51|-1.71|0.2903
82562876|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.57||0.0837|TWO_SIDED|95.0|-2.09|0.13|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||0.13|-2.09|0.0837
82441147|NCT00090233|164590027|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|94.5|||<|0.001||95.0|91.2|96.6||Rate Reduction\>0%|Poisson regression|"Poisson regression with generalized estimating equations.~Validated with Van Elteren's extension of Wilcoxon Rank Sum test."|Risk ratio of rate of hospitalizations and emergency department visits between treatment groups. Reported here are results after 12 additional emergency department visits were identified among placebo recipients and data were re-analyzed.|||96.6|91.2|<0.001
82441148|NCT00090233|164590028|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|81.5|||<|0.001||95.0|74.9|86.7||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Estimated value is based on the worst episode scores.|||86.7|74.9|<0.001
82441149|NCT00090233|164590029|SUPERIORITY_OR_OTHER||Efficacy=1-Relative Risk|98.0|||<|0.001||95.0|88.3|100.0||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of participants with outcome in vaccine group relative to total number of participants with outcome, and k is ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact binomial test|||||100|88.3|<0.001
82441150|NCT00090233|164590030|NON_INFERIORITY_OR_EQUIVALENCE|Difference (vaccine-placebo) in seroprotection rates was greater than -.10 (non-inferiority margin).|||||<|0.001||95.0||||p\<0.001 was obtained for all comparisons. pv - pp ≥-.10, where p is proportion of participants who achieved seroprotection in the vaccine and placebo groups, respectively.|Miettenen and Nurminen|||||||<0.001
82441151|NCT00090233|164590031|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis PT|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis PT was used for analysis.||1.1|0.7|<0.001
82441152|NCT00090233|164590031|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis FHA|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis FHA was used for analysis.||1.1|0.7|<0.001
82441153|NCT00090233|164590031|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for Pertussis Pertactin|0.6||||0.193|TWO_SIDED|95.0|0.4|0.8|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for Pertussis Pertactin was used for analysis.||0.8|0.4|0.193
82441154|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 4|1.2|||<|0.001||95.0|1.0|1.4|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 4 was used for analysis.||1.4|1.0|<0.001
82441155|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 6B|1.4|||<|0.001|TWO_SIDED|95.0|1.0|1.9|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 6B was used for analysis.||1.9|1.0|<0.001
82441156|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 9V|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 9V was used for analysis.||1.3|0.9|<0.001
82441157|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 14|1.0|||<|0.001|TWO_SIDED|95.0|0.7|1.3|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 14 was used for analysis.||1.3|0.7|<0.001
82441158|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 18C|1.3|||<|0.001|TWO_SIDED|95.0|1.1|1.6|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 18C was used for analysis.||1.6|1.1|<0.001
82441159|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 19F|1.1|||<|0.001|TWO_SIDED|95.0|0.8|1.4|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 19F was used for analysis.||1.4|0.8|<0.001
82441160|NCT00090233|164590032|NON_INFERIORITY_OR_EQUIVALENCE|GMTR was greater than 0.5 (non-inferiority margin).|GMTR for pneumococcal serotype 23F|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.5|||t-test, 1 sided|t-test on natural log of titers||The GMT Ratio between RotaTeq™ and Placebo (GMTR) for pneumococcal serotype 23F was used for analysis.||1.5|0.9|<0.001
82441161|NCT01035346|164590034|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|8.33||||0.228|TWO_SIDED|95.0|-7.94|24.6||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95 percent (%) confidence interval (CI) were calculated based on Least-squares (LS) means from the Analysis of Variance (ANOVA) model.||24.60|-7.94|0.228
82562877|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.61||0.6272|TWO_SIDED|95.0|-1.5|0.91|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||0.91|-1.50|0.6272
82562878|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.61||0.1609|TWO_SIDED|95.0|-2.07|0.34|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||0.34|-2.07|0.1609
82441162|NCT01035346|164590035|SUPERIORITY_OR_OTHER||LS mean difference|5.99||||0.171|TWO_SIDED|95.0|-3.99|15.97||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||STEMPD 0-4: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||15.97|-3.99|0.171
82441163|NCT01035346|164590035|SUPERIORITY_OR_OTHER||LS mean difference|8.96||||0.354|TWO_SIDED|95.0|-14.78|32.69||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||STEMPD 0-8: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||32.69|-14.78|0.354
82441164|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.576|TWO_SIDED|95.0|-0.84|0.54||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.54|-0.84|0.576
82441165|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.502|TWO_SIDED|95.0|-0.5|0.87||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.87|-0.50|0.502
82441166|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|1.31||||0.116|TWO_SIDED|95.0|-0.51|3.12||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.12|-0.51|0.116
82441167|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|1.58||||0.161|TWO_SIDED|95.0|-0.98|4.14||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.14|-0.98|0.161
82441168|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|1.87||||0.215|TWO_SIDED|95.0|-1.66|5.41||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.41|-1.66|0.215
82441169|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|1.17||||0.388|TWO_SIDED|95.0|-2.18|4.52||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.52|-2.18|0.388
82562879|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.73||0.3362|TWO_SIDED|95.0|-2.13|0.73|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||0.73|-2.13|0.3362
82562880|NCT03745651|164835385|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.269|TWO_SIDED|95.0|-2.23|0.62|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||0.62|-2.23|0.2690
82562881|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.54||0.0482|TWO_SIDED|95.0|-2.13|-0.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.01|-2.13|0.0482
82624190|NCT05014542|164963910|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness of group A at Week 15) - mean (WOMAC stiffness of group C at Week 15)|WOMAC stiffness between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
82624191|NCT05014542|164963911|SUPERIORITY||Mean Difference (Final Values)|-30.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability of group A in Week 15) - mean (WOMAC functional disability of group C in Week 15)|WOMAC functional disability between groups at Week 15. The Shapiro-Wilk test (S-W) tests normality distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with a power of 95 % and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessment (the mid-spread).||||<0.001
82624192|NCT05014542|164963912|SUPERIORITY||Mean Difference (Final Values)|-48.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS of group A in Week 15) - mean (VAS of group C in Week 15)|Visual Analogue Scale (VAS) was compared between groups at Week 15, when the acupuncture of group A ended. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) presented the statistical dispersion of sample data at specified assessments.||||<0.001
82624193|NCT05014542|164963913|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ of group A in Week 15) - mean (KDSQ of group C in Week 15)|The Kidney Deficiency Syndrome Questionnaire (KDSQ) was compared between groups in Week 15. The Shapiro-Wilk test (S-W) tests the normality of data distribution. The comparability of groups regarding the null hypothesis of similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were used to analyse the statistical dispersion of specified sample data at specified assessment.||||<0.001
82639421|NCT05664672|164993882|SUPERIORITY||Ratio of geometric LS means|2.48||||0.9981|TWO_SIDED|95.0|-25.6|30.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||30.6|-25.6|0.9981
82624194|NCT05014542|164963914|SUPERIORITY||Mean Difference (Final Values)|-774.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG of A group in Week 15) - mean (DRUG of C group in Week 15)|In Week 15, DRUG was compared between groups. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||<0.001
82624195|NCT05014542|164963915|SUPERIORITY||Mean Difference (Final Values)|0.009||||0.8493|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (A group L knee in Week 15) - mean (C group L knee in Week 15)|Active extension of left (L) knees in Week 15 in the between-group analysis. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.8493
82624196|NCT05014542|164963915|SUPERIORITY||Mean Difference (Final Values)|-0.107||||0.69654|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (A group R knee in Week 15) - mean (C group R knee in Week 15)|Active extension of the right (R) knees in Week 15 in the between-group analysis. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.69654
82624197|NCT05014542|164963916|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (active flexion L knee of group A at Week 15) - mean (active flexion L knee of group C at Week 15)|L knee flexion between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.490
82624198|NCT05014542|164963916|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.517|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (active flexion R knee of group A at Week 15) - mean (active flexion R knee of group C at Week 15)|Right (R) knee flexion between groups in Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups regarding specified variables to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.517
82624199|NCT05014542|164963917|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.083|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L upper leg of group A at Week 15) - mean (circumference of L upper leg of group C at Week 15)|Circumference of the left (L) upper leg between groups analysis at Week 15. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessment.||||0.083
82624200|NCT05014542|164963917|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.084|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R upper leg of group A at Week 15) - mean (circumference of R upper leg of group C at Week 15)|Circumference of the right (R) upper leg between groups analysis at Week 15. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessments.||||0.084
82624201|NCT05014542|164963918|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.341|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L knee of group A at Week 15) - mean (circumference of L knee of group C at Week 15)|Circumference of the left (L) knee in Week 15 was analysed between groups. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.341
82624202|NCT05014542|164963918|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.317|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R knee of group A at Week 15) - mean (circumference of R knee of group C at Week 15)|Circumference of the right (R) knee in between groups at Week 15. The Shapiro-Wilk test (S-W) was used to test the data distribution's normality. The comparability of groups to accept or reject the null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and standard deviation (SD) were calculated to present the statistical dispersion of sample data at specified assessments.||||0.317
82441170|NCT01035346|164590036|SUPERIORITY_OR_OTHER||LS mean difference|0.31||||0.849|TWO_SIDED|95.0|-3.98|4.61||p-value was calculated using ANOVA model with treatment and baseline temperature terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium-Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.61|-3.98|0.849
82441171|NCT01035346|164590038|SUPERIORITY_OR_OTHER||difference in proportion|11.11||||0.378|TWO_SIDED|95.0|-10.67|32.89||p-value was calculated using CMH general association test using table scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium-Placebo) and its associated CI were calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportion and the corresponding standard errors.||32.89|-10.67|0.378
82562882|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.54||0.0271|TWO_SIDED|95.0|-2.26|-0.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.14|-2.26|0.0271
82624203|NCT05014542|164963919|SUPERIORITY||Mean Difference (Final Values)|-33.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 24) -mean (WOMAC total of group C in Week 24)|WOMAC total was analysed in Week 24 between groups, nine weeks after acupuncture ended. The Shapiro-Wilk test (S-W) tested the normality of the distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with 95 % power and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
82624204|NCT05014542|164963920|SUPERIORITY||Mean Difference (Final Values)|-6.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain of group A at Week 24) - mean (WOMAC pain of group C at Week 24)|WOMAC pain was analysed between groups 9 weeks after acupuncture ended in Week 24. The Shapiro-Wilk test (S-W) tested the normality distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data (the mid-spread).||||<.001
82624205|NCT05014542|164963921|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness of group A in Week 24) - mean (WOMAC stiffness of group C in Week 24)|WOMAC stiffness between groups A and C in Week 24, 9 weeks after acupuncture ended. The Shapiro-Wilk test (S-W) tests the normality of distribution. Group comparability was tested with the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
82624206|NCT05014542|164963922|SUPERIORITY||Mean Difference (Final Values)|-24.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability of group A in Week 24) - mean (WOMAC functional disability of group C in Week 24)|WOMAC functional disability at Week 24 was analysed between groups. The Shapiro-Wilk test (S-W) tests the normality of data. The comparability of groups regarding specified variables (to accept or reject the null hypothesis of comparability) was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of specified sample data at specified assessments.||||<0.001
82624207|NCT05014542|164963923|SUPERIORITY||Mean Difference (Final Values)|-45.7|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 24 of group A) - mean (VAS in Week 24 of group C)|VAS was compared between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. The comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
82624208|NCT05014542|164963924|SUPERIORITY||Mean Difference (Final Values)|-11.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 24 of group A) - mean (KDSQ in Week 24 of group C)|KDSQ between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. The comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
82624209|NCT05014542|164963925|SUPERIORITY||Mean Difference (Final Values)|-581.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 24 of group A) - mean (DRUG in Week 24 of group C)|The DRUG between groups in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data.||||<0.001
82624210|NCT05014542|164963926|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||mean (Act ext L of A group in Week 24) - mean (Act ext L of C group in Week 24)|Left (L) knee analysis between groups A and C in Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of comparability was tested with the Mann-Whitney U test, with 95% statistical power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessment.||||
82624211|NCT05014542|164963926|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||mean (Act ext R knee of A group in Week 24) - mean (Act ext R knee of C group in Week 24)|Right (R) knee analysis between groups at Week 24. For group normality statistics, the Shapiro-Wilk test (S-W) was used. Furthermore, the comparability of groups regarding specified variables to accept or reject the hypothesis of comparability between groups was tested by the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at specified assessment.||||
82624212|NCT05014542|164963927|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.953|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (L knee act flexion of group A in Week 24) - mean (L knee act flexion of group C in Week 24)|Left (L) knee flexion between groups at Week 24. The Shapiro-Wilk test (S-W) tests the normality of the distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of equality was tested with the Mann-Whitney U test, with 95% power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion of specified sample data at a specified assessment (time-point).||||0.953
82624213|NCT05014542|164963927|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (R knee act flexion of group A in Week 24) - mean (R knee act flexion of group C in Week 24)|Right (R) knee flexion between groups at Week 24. The Shapiro-Wilk test (S-W) tests the normality of the distribution. Furthermore, the comparability of groups regarding specified variables to accept or reject the null hypothesis of comparability was tested with the Mann-Whitney U test, with 95% power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion of sample data at an assessment.||||0.491
82562883|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.6||0.2091|TWO_SIDED|95.0|-1.94|0.42|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||0.42|-1.94|0.2091
82562884|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.6||0.0111|TWO_SIDED|95.0|-2.71|-0.35|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.35|-2.71|0.0111
82624214|NCT05014542|164963928|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.261|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L upper leg of group A in Week 24) - mean (circumference of L upper leg of group C in Week 24)|Circumference of the left (L) upper leg between groups in Week 24. The Shapiro-Wilk test (S-W) was used to test the normality of a distribution. The comparability of groups regarding specified variables to accept or reject the hypothesis of groups comparability was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessments.||||0.261
82624215|NCT05014542|164963928|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.273|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R upper leg of group A in Week 24) - mean (circumference of R upper leg of group C in Week 24)|Circumference of the R upper leg between groups at Week 24. The Shapiro-Wilk test (S-W) was used to test the normality of distribution. The comparability of groups regarding specified variables (null hypothesis) was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range (IQR) and SD were analysed to present the statistical dispersion of sample data at assessments.||||0.273
82441172|NCT01035346|164590039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.324|TWO_SIDED|95.0|-0.3|1.27||p-value was calculated using CMH test with modified ridit scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium-Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||1.27|-0.30|0.324
82562885|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.68||0.0802|TWO_SIDED|95.0|-2.51|0.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||0.14|-2.51|0.0802
82562886|NCT03745651|164835386|SUPERIORITY||Least Squares Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.67||0.0666|TWO_SIDED|95.0|-2.56|0.09|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||0.09|-2.56|0.0666
82624216|NCT05014542|164963929|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.445|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of L knees in Week 24 of group A) - mean (circumference of L knees in Week 24 of group C)|Circumference of left (L) knees in Week 24, in between-groups. The Shapiro-Wilk test (S-W) tests normality distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of similarity was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Standard deviation was calculated to present the statistical dispersion of sample data at an assessment.||||0.445
82624217|NCT05014542|164963929|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (circumference of R knees in Week 24 of group A) - mean (circumference of R knees in Week 24 of group C)|Circumference of right (R) knees at Week 24 was analysed between groups. The Shapiro-Wilk test (S-W) tests normality distribution. The comparability of groups regarding specified variables to accept or reject the null hypothesis of similarity was tested with the Mann-Whitney U test with 95% power and a level of significance α = 0,05. Standard deviation was calculated to present the statistical dispersion of sample data at assessments.||||0.260
82624218|NCT05014542|164963930|SUPERIORITY||Mean Difference (Final Values)|-34.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total of group A in Week 39) - mean (WOMAC total of group A in Week 0)|Western Ontario and McMaster University Osteoarthritis Index (WOMAC) total of group A in Week 39 (24 weeks after acupunctures ended) was compared with the pre-experimental baseline assessment by within-group analysis. The Shapiro-Wilk test (S-W) tests normality distribution. The null hypothesis at weeks 0 and 39 was tested with the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Standard deviation (SD) was calculated to present the statistical dispersion of the sample.||||<0.001
82624219|NCT05014542|164963930|SUPERIORITY||Mean Difference (Final Values)|-39.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC total in Week 39 of group C) - mean (WOMAC total in Week 0 of group C).|WOMAC total of group C in Week 39 was tested for the significance level and mean difference by within-group analysis. The Shapiro-Wilk test (S-W) tests normality distribution. WOMAC total at Week 0 (pre-experimental baseline assessment) and Week 39 were compared to test the null hypothesis of group comparability by the Mann-Whitney U test with 95 % power and a level of significance α=0,05. Standard deviation (SD) was calculated to present the statistical dispersion of a sample.||||< 0.001
82624220|NCT05014542|164963931|SUPERIORITY||Mean Difference (Final Values)|-6.2|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain in Week 39 of group A) - mean (WOMAC pain in Week 0 of group A)|The pain subscale of the WOMAC index of group A in Week 39 (24 weeks after acupunctures ended) was compared with baseline by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of sample data at assessments.||||<0.001
82624221|NCT05014542|164963931|SUPERIORITY||Mean Difference (Final Values)|-7.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC pain in Week 39 of group C) - mean (WOMAC pain in Week 0 of group C)|The pain subscale of the WOMAC index of group C in Week 39 (end of acupuncture of group C) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of data.||||<0.001
82562887|NCT03745651|164835389|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.84|-2.97|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.97|-4.84|<0.0001
82562888|NCT03745651|164835389|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-5.47|-3.63|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-3.63|-5.47|<0.0001
82562889|NCT03745651|164835391|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-7.38|-4.86|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-4.86|-7.38|<0.0001
82562890|NCT03745651|164835391|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-7.17|-4.67|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-4.67|-7.17|<0.0001
82562891|NCT03745651|164835393|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.19|-2.32|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-2.32|-4.19|<0.0001
82562892|NCT03745651|164835393|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-3.67|-1.83|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-1.83|-3.67|<0.0001
82562893|NCT03745651|164835395|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.55||0.0099|TWO_SIDED|95.0|-7.24|-1.03|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-1.03|-7.24|0.0099
82562894|NCT03745651|164835395|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.59||0.0542|TWO_SIDED|95.0|-6.3|0.06|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||0.06|-6.30|0.0542
82562895|NCT03745651|164835399|SUPERIORITY||Odds Ratio (OR)|5.16|||<|0.0001|TWO_SIDED|95.0|2.987|9.049||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||9.049|2.987|<0.0001
82502050|NCT02879305|164695031|SUPERIORITY||LS mean difference|-0.6||||0.912|TWO_SIDED|95.0|-1.47|0.27|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and the model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.27|-1.47|0.9120
82502051|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.25||||0.7432|TWO_SIDED|95.0|-0.99|0.5|||MMRM||Bodily pain,Week8: Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.50|-0.99|0.7432
82502052|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.58||||0.0631|TWO_SIDED|95.0|-0.16|1.33|||MMRM||Bodily pain,Week12: Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.33|-0.16|0.0631
82502053|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.04||||0.4604|TWO_SIDED|95.0|-0.79|0.87|||MMRM||Bodily pain,Week28: Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.87|-0.79|0.4604
82502054|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.28||||0.2688|TWO_SIDED|95.0|-0.6|1.15|||MMRM||Bodily pain,Week52: Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.15|-0.60|0.2688
82502055|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.26||||0.1918|TWO_SIDED|95.0|-0.32|0.84|||MMRM||General health,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.84|-0.32|0.1918
82502056|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.45||||0.0677|TWO_SIDED|95.0|-0.14|1.04|||MMRM||General health,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.04|-0.14|0.0677
82502057|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.33||||0.8386|TWO_SIDED|95.0|-0.98|0.32|||MMRM||General health,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.32|-0.98|0.8386
82502058|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.29||||0.7928|TWO_SIDED|95.0|-0.99|0.41|||MMRM||General health,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.41|-0.99|0.7928
82502059|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.04||||0.4537|TWO_SIDED|95.0|-0.63|0.71|||MMRM||Mental health,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.71|-0.63|0.4537
82441173|NCT01035346|164590040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.21|TWO_SIDED|95.0|-0.12|1.18||p-value was calculated using CMH test with modified ridit scores. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium-Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||1.18|-0.12|0.210
82441174|NCT03541187|164590041|SUPERIORITY|The comparison between arms will be conducted using an analysis of covariance (ANCOVA) model, in which the change from the baseline to the 12-month TNSS mean serves as the outcome. The ANCOVA model will incorporate factors for treatment while adjusting for both the baseline TNSS mean and site.|Least Square Mean Difference|-0.23||||0.63|TWO_SIDED|95.0|-1.15|0.7|||ANCOVA|||||0.70|-1.15|0.63
82502060|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.05||||0.5548|TWO_SIDED|95.0|-0.74|0.65|||MMRM||Mental health,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.65|-0.74|0.5548
82502061|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.13||||0.3626|TWO_SIDED|95.0|-0.61|0.88|||MMRM||Mental health,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.88|-0.61|0.3626
82502062|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.81||||0.9721|TWO_SIDED|95.0|-1.64|0.02|||MMRM||Mental health,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.02|-1.64|0.9721
82502063|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.09||||0.5789|TWO_SIDED|95.0|-0.96|0.78|||MMRM||Role-emotional,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.78|-0.96|0.5789
82502064|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.37||||0.2054|TWO_SIDED|95.0|-0.51|1.24|||MMRM||Role-emotional,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.24|-0.51|0.2054
82502065|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.05||||0.5389|TWO_SIDED|95.0|-0.98|0.89|||MMRM||Role-emotional,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||0.89|-0.98|0.5389
82502066|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.09||||0.4289|TWO_SIDED|95.0|-0.91|1.09|||MMRM||Role-emotional,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions.|||1.09|-0.91|0.4289
82502067|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.08||||0.4096|TWO_SIDED|95.0|-0.6|0.75|||MMRM||Role-physical,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.75|-0.60|0.4096
82502068|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.4||||0.1196|TWO_SIDED|95.0|-0.27|1.07|||MMRM||Role-physical,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.07|-0.27|0.1196
82502069|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.3||||0.2093|TWO_SIDED|95.0|-0.42|1.01|||MMRM||Role-physical,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.01|-0.42|0.2093
82502070|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.39||||0.1674|TWO_SIDED|95.0|-0.4|1.19|||MMRM||Role-physical,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region,Baseline value and Baseline value by time and treatment by time interactions|||1.19|-0.40|0.1674
82502071|NCT02879305|164695032|SUPERIORITY||LS mean difference|-0.14||||0.6585|TWO_SIDED|95.0|-0.82|0.54|||MMRM||Social fun, Week 8: Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.54|-0.82|0.6585
82502072|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.69||||0.0293|TWO_SIDED|95.0|-0.03|1.4|||MMRM||Social fun, Week 12: Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.40|-0.03|0.0293
82502073|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.33||||0.2057|TWO_SIDED|95.0|-0.45|1.11|||MMRM||Social fun, Week 28: Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.11|-0.45|0.2057
82502074|NCT02879305|164695032|SUPERIORITY||LS mean difference|0.02||||0.4849|TWO_SIDED|95.0|-0.86|0.9|||MMRM||Social fun, Week 52: Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.90|-0.86|0.4849
82502075|NCT02879305|164695033|SUPERIORITY||LS mean difference|0.03||||0.4621|TWO_SIDED|95.0|-0.58|0.64|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.64|-0.58|0.4621
82502076|NCT02879305|164695033|SUPERIORITY||LS mean difference|0.35||||0.1439|TWO_SIDED|95.0|-0.29|0.98|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.98|-0.29|0.1439
82441175|NCT03541187|164590043|SUPERIORITY||Least Square Means Difference|-0.17||||0.69|TWO_SIDED|95.0|-0.99|0.66|||ANCOVA|||||0.66|-0.99|0.69
82502077|NCT02879305|164695033|SUPERIORITY||LS mean difference|0.24||||0.2392|TWO_SIDED|95.0|-0.43|0.92|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.92|-0.43|0.2392
82502078|NCT02879305|164695033|SUPERIORITY||LS mean difference|-0.15||||0.6545|TWO_SIDED|95.0|-0.9|0.6|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.60|-0.90|0.6545
82441176|NCT03541187|164590044|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.51|TWO_SIDED|95.0|0.42|1.54|||Regression, Cox||At the reactive dose of 15.4 mcg/mL after 12 months, there were 11 participants who were right-censored in the Cockroach SCIT arm and 8 participants who were right-censored in the Placebo arm.|||1.54|0.42|.51
82441177|NCT03541187|164590045|SUPERIORITY||Least Square Means Difference|-0.03||||0.91|TWO_SIDED|95.0|-0.54|0.49|||ANCOVA|||||0.49|-0.54|0.91
82441178|NCT03541187|164590046|SUPERIORITY||Least Square Means Difference|5.32|||<|0.001|TWO_SIDED|95.0|4.77|5.87|||ANCOVA|||||5.87|4.77|<0.001
82441179|NCT00246025|164590069|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-16.8||||0.0155||95.0|-30.2|-3.4||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-3.4|-30.2|0.0155
82441180|NCT00246025|164590069|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-23.7||||0.0006||95.0|-37.0|-10.5||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-10.5|-37.0|0.0006
82441181|NCT00246025|164590069|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-32.5|||<|0.0001||95.0|-45.4|-19.6||Multiplicity was not adjusted because of hierarchical testing from highest to lowest dose.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.|The risk differences are calculated as risk in the dabigatran groups minus risk in the placebo group.|Superiority of dabigatran etexilate to placebo was tested by means of hierarchical tests. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-19.6|-45.4|<0.0001
82441182|NCT00246025|164590070|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1124||95.0|-9.1|1.0||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||1.0|-9.1|0.1124
82441183|NCT00246025|164590070|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1183||95.0|-9.1|1.1||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||1.1|-9.1|0.1183
82441184|NCT00246025|164590070|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.8||||0.0138||95.0|-10.3|-1.3||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||-1.3|-10.3|0.0138
82441185|NCT00246025|164590071|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1124||95.0|-9.1|1.0||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||1.0|-9.1|0.1124
82441186|NCT00246025|164590071|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.1183||95.0|-9.1|1.1||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||1.1|-9.1|0.1183
82441187|NCT00246025|164590071|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.8||||0.0138||95.0|-10.3|-1.3||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-1.3|-10.3|0.0138
82502079|NCT02879305|164695034|SUPERIORITY||LS mean difference|0.64||||0.029|TWO_SIDED|95.0|-0.02|1.31|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.31|-0.02|0.0290
82562896|NCT03745651|164835399|SUPERIORITY||Odds Ratio (OR)|7.47|||<|0.0001|TWO_SIDED|95.0|4.23|13.415||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||13.415|4.230|<0.0001
82562897|NCT03745651|164835400|SUPERIORITY||Least Squares Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|1.78||0.015|TWO_SIDED|95.0|0.85|7.86|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||7.86|0.85|0.0150
82562898|NCT03745651|164835400|SUPERIORITY||Least Squares Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|1.77||0.0044|TWO_SIDED|95.0|1.59|8.54|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.54|1.59|0.0044
82562899|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|3.81||0.142|TWO_SIDED|95.0|-13.12|1.89|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||1.89|-13.12|0.1420
82562900|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|3.82||0.0375|TWO_SIDED|95.0|-15.51|-0.47|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-0.47|-15.51|0.0375
82562901|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|2.75||0.0012|TWO_SIDED|95.0|-14.48|-3.63|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-3.63|-14.48|0.0012
82562902|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.74||0.0095|TWO_SIDED|95.0|-12.58|-1.77|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-1.77|-12.58|0.0095
82562903|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-22.69|-7.73|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.73|-22.69|<0.0001
82562904|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-12.6|STANDARD_ERROR_OF_MEAN|3.79||0.001|TWO_SIDED|95.0|-20.1|-5.18|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.18|-20.10|0.0010
82562905|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-16.18|-7.95|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.95|-16.18|<0.0001
82562906|NCT03745651|164835401|SUPERIORITY||Least Squares Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.53|-6.37|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.37|-14.53|<0.0001
82562907|NCT02410278|164835436|SUPERIORITY||Odds Ratio (OR)|3.931||||0.0617|TWO_SIDED|95.0|0.938|20.832|||weighted logistic regression model|||Odds ratio is the odds of an event in the Montelukast treatment group divided by the odds of an event in the placebo treatment group. P-value is from the likelihood ratio test that the odds ratio is 1. CI = profile likelihood confidence interval.||20.832|0.938|0.0617
82562908|NCT02410278|164835437|SUPERIORITY||adjusted mean difference|0.084||||0.3753|TWO_SIDED|95.0|-0.104|0.273|||ANCOVA|||Results are obtained from an ANCOVA model for comparing average change of the GSRS score in the two treatment groups, adjusted for age, weight and baseline GSRS score. Weights, defined as the proportions of days with GSRS score recorded during the Day 1 - Day 10 period are applied to adjust for missing data.||0.273|-0.104|0.3753
82562909|NCT02410278|164835438|SUPERIORITY||adjusted mean difference|0.081||||0.0376|TWO_SIDED|95.0|0.005|0.158|||Repeated measures model|||Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and Week 10.||0.158|0.005|0.0376
82562910|NCT02410278|164835439|SUPERIORITY||Hazard Ratio (HR)|1.094||||0.7952|TWO_SIDED|95.0|0.554|2.164|||Regression, Cox|||Hazard ratio and the P-value are based on the Cox's proportional hazard regression model, adjusted for age, weight and baseline GSRS score. Hazard ratio (HR) is the ratio of hazard rates of Montelukast and placebo treatment groups. P-value is from the Wald test that HR is 1. CI = Wald confidence interval.||2.164|0.554|0.7952
82562911|NCT02410278|164835440|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.8328|TWO_SIDED|95.0|0.563|1.589|||Regression, Cox|||Hazard ratio and the P-value are based on the Cox's proportional hazard regression model, adjusted for age, weight and baseline GSRS score. Hazard ratio (HR) is the ratio of hazard rates of Montelukast and placebo treatment groups. P-value is from the Wald test that HR is 1. CI = Wald confidence interval.||1.589|0.563|0.8328
82562912|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.115||||0.1743|TWO_SIDED|95.0|-0.052|0.283|||Repeated measures model|||Change from Day 1 to Week 1: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.283|-0.052|0.1743
82562913|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.079||||0.2677|TWO_SIDED|95.0|-0.063|0.221|||Repeated measures model|||Change from Day 1 to Week 2: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.221|-0.063|0.2677
82562914|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.085||||0.1788|TWO_SIDED|95.0|-0.04|0.211|||Repeated measures model|||Change from Day 1 to Week 3: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.211|-0.040|0.1788
82562915|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.1||||0.0866|TWO_SIDED|95.0|-0.015|0.216|||Repeated measures model|||Change from Day 1 to Week 4: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.216|-0.015|0.0866
82562916|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.1||||0.0509|TWO_SIDED|95.0|0.0|0.201|||Repeated measures model|||Change from Day 1 to Week 5: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.201|-0.000|0.0509
82562917|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.088||||0.0649|TWO_SIDED|95.0|-0.006|0.182|||Repeated measures model|||Change from Day 1 to Week 6: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.182|-0.006|0.0649
82562918|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.088||||0.0479|TWO_SIDED|95.0|0.001|0.176|||Repeated measures model|||Change from Day 1 to Week 7: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.176|0.001|0.0479
82562919|NCT02410278|164835441|SUPERIORITY||adjusted mean difference|0.082||||0.054|TWO_SIDED|95.0|-0.001|0.166|||Repeated measures model|||Change from Day 1 to Week 8: Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight(kg) and baseline GSRS score, and has spatial-exponential variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and the specified time point.||0.166|-0.001|0.0540
82562920|NCT02410278|164835442|SUPERIORITY||adjusted mean difference|0.129||||0.2469|TWO_SIDED|95.0|-0.092|0.349|||Repeated measures model|||Results are obtained from a repeated measures model for change from baseline (Day 0) in the GSRS score. The model includes treatment, day and treatment by day interaction, adjusted for age, weight (kg) and baseline GSRS score, and has unstructured variance-covariance structure. The P-value is for testing the null hypothesis of no difference between the two treatment groups in the average change from baseline (Day 0) between Day 1 and Day 3.||0.349|-0.092|0.2469
82562921|NCT02410278|164835443|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
82562922|NCT02410278|164835444|SUPERIORITY|||||||1|||||||Fisher's Exact|||||||1.0000
82624222|NCT05014542|164963932|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness in Week 39 of group A) - mean (WOMAC stiffness in Week 0 of group A)|The stiffness subscale of the WOMAC index of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82639422|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|31.7|||<|0.0001|TWO_SIDED|95.0|18.7|53.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.9|18.7|<.0001
82562923|NCT02410278|164835445|SUPERIORITY|||||||0.2604|||||||Chi-squared|||||||0.2604
82562924|NCT03693989|164835446|OTHER|||||||0.065|||||||t-test, 2 sided|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.065
82562925|NCT03693989|164835447|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.223|||||||t-test, 2 sided|||||||0.223
82562926|NCT03693989|164835448|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.621|||||||Chi-squared, Corrected|||||||0.621
82562927|NCT03693989|164835449|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.246|||||||Fisher Exact|||||||0.246
82562928|NCT03693989|164835450|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.497|||||||Fisher Exact|||||||0.497
82624223|NCT05014542|164963932|SUPERIORITY||Mean Difference (Final Values)|-3.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC stiffness in Week 39 of group C) - mean (WOMAC stiffness in Week 0 of group C)|The stiffness subscale of the WOMAC index of group C in Week 39 (end of acupuncture of group C) was compared with the pre-experimental baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α = 0,05. Interquartile range and standard deviation were calculated to present the statistical dispersion of data.||||<0.001
82624224|NCT05014542|164963933|SUPERIORITY||Mean Difference (Final Values)|-25.3|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability in Week 39 of group A) - mean(WOMAC functional disability in Week 0 of group A)|The functional disability subscale of the WOMAC index of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82624225|NCT05014542|164963933|SUPERIORITY||Mean Difference (Final Values)|-29.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (WOMAC functional disability in Week 39 of group C) - mean (WOMAC functional disability in Week 0 of group C)|The functional disability subscale of the WOMAC index of group C in Week 39 (when acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82624226|NCT05014542|164963934|SUPERIORITY||Mean Difference (Final Values)|-41.2|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 39 of group A) - mean (VAS in Week 0 of group A)|VAS of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82624227|NCT05014542|164963934|SUPERIORITY||Mean Difference (Final Values)|-31.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (VAS in Week 39 of group C) - mean (VAS in Week 0 of group C)|VAS of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||< 0.001
82624228|NCT05014542|164963935|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 39 of group A) - mean (KDSQ in Week 0 of group A)|KDSQ of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82624229|NCT05014542|164963935|SUPERIORITY||Mean Difference (Final Values)|-11.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (KDSQ in Week 39 of group C) - mean (KDSQ in Week 0 of group C)|KDSQ of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||<0.001
82639423|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.5|||<|0.0001|TWO_SIDED|95.0|17.6|46.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||46.2|17.6|<.0001
82502080|NCT02879305|164695034|SUPERIORITY||LS mean difference|0.56||||0.0509|TWO_SIDED|95.0|-0.11|1.24|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.24|-0.11|0.0509
82502081|NCT02879305|164695034|SUPERIORITY||LS mean difference|0.77||||0.0237|TWO_SIDED|95.0|0.01|1.53|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.53|0.01|0.0237
82502082|NCT02879305|164695034|SUPERIORITY||LS mean difference|0.58||||0.0828|TWO_SIDED|95.0|-0.24|1.39|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||1.39|-0.24|0.0828
82502083|NCT02879305|164695035|SUPERIORITY||LS mean difference|0.0003||||0.4939|TWO_SIDED|95.0|-0.0326|0.0331|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.0331|-0.0326|0.4939
82502084|NCT02879305|164695036|SUPERIORITY||LS mean difference|-1.8||||0.9292|TWO_SIDED|95.0|-4.2|0.6|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.6|-4.2|0.9292
82502085|NCT02879305|164695037|SUPERIORITY||LS mean difference|-0.06||||0.0428|TWO_SIDED|95.0|-0.13|0.01|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.01|-0.13|0.0428
82624230|NCT05014542|164963936|SUPERIORITY||Mean Difference (Final Values)|-361.4||||0.204|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 39 of group A) - mean (DRUG in Week 0 of group A)|The DRUG of group A in Week 39 (24 weeks after acupuncture of group A ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||0.204
82624231|NCT05014542|164963936|SUPERIORITY||Mean Difference (Final Values)|-305.4||||0.134|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (DRUG in Week 39 of group C) - mean (DRUG in Week 0 of group C)|The DRUG of group C in Week 39 (when acupuncture of group C ended) was compared with baseline values by within-group analysis. The Shapiro-Wilk test (S-W) was used for testing the normality of the distribution. The null hypothesis of groups' similarity was tested with the Mann-Whitney U test, with 95% power and a significance level α=0,05. Interquartile range and SD were calculated to present the statistical dispersion of the data.||||0.134
82624232|NCT05014542|164963937|SUPERIORITY||Mean Difference (Final Values)|-7.53|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||mean (Lequesne index in Week 24 of A group) - mean (Lequesne index in Week 24 of C group)|The Lequesne index in Week 24 compared two confirmed comparable groups (at baseline), 9 weeks after acupuncture treatment in group A ended, while the C group was still a control. The Shapiro-Wilk test (S-W) tests normality distribution. The between-group comparability test at Week 24 was provided to accept or reject the null hypothesis by the Mann-Whitney U test, with 95 % power and a level of significance α = 0,05. Standard deviation (SD) was calculated to present the statistical dispersion.||||< 0.001
82624233|NCT04024072|164964002|EQUIVALENCE|8AM Day 14|Mean Difference (Net)|-0.46|||||TWO_SIDED|95.0|-0.93|0.01||||||||0.01|-0.93|
82624234|NCT04024072|164964002|EQUIVALENCE|10AM Day 14|Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.7|0.24||||||||0.24|-0.70|
82624235|NCT04024072|164964002|EQUIVALENCE|8AM Day 42|Mean Difference (Net)|-0.24|||||TWO_SIDED|95.0|-0.74|0.27||||||||0.27|-0.74|
82624236|NCT04024072|164964002|EQUIVALENCE|10AM Day 42|Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.51|0.51||||||||0.51|-0.51|
82441188|NCT00246025|164590072|SUPERIORITY_OR_OTHER|||||||0.6107||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||0.6107
82441189|NCT00246025|164590072|SUPERIORITY_OR_OTHER|||||||1||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||1.0000
82441190|NCT00246025|164590072|SUPERIORITY_OR_OTHER|||||||0.6162||95.0||||Multiplicity was not adjusted.|Fisher Exact|||"Superiority of dabigatran etexilate to placebo was tested based on Fisher's exact test.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||||0.6162
82441191|NCT00246025|164590073|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-16.8||||0.0155|TWO_SIDED|95.0|-30.2|-3.4||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-3.4|-30.2|0.0155
82441192|NCT00246025|164590073|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-23.7||||0.0006|TWO_SIDED|95.0|-37.0|-10.5||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-10.5|-37.0|0.0006
82562929|NCT03693989|164835451|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.047|||||||t-test, 2 sided|||||||0.047
82562930|NCT03693989|164835452|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.3|||||||Chi-squared, Corrected|||||||0.300
82624237|NCT03970824|164964006|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|105.79|||||TWO_SIDED|90.0|97.19|115.16||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||115.16|97.19|
82624238|NCT03970824|164964006|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|92.63|||||TWO_SIDED|90.0|85.29|100.61||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||100.61|85.29|
82562931|NCT03693989|164835453|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.045|||||||t-test, 2 sided|||||||0.045
82562932|NCT03693989|164835454|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.346|||||||Fisher Exact|||burning eyes comparison||||0.346
82441193|NCT00246025|164590073|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-32.5|||<|0.0001|TWO_SIDED|95.0|-45.4|-19.6||Multiplicity was not adjusted.|normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||"Superiority of dabigatran etexilate to placebo was tested. Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.~The dabigatran groups were compared to the placebo group.. The null hypotheses are Ho: placebo = 220mg, Ho: placebo = 150mg and Ho: placebo = 110mg. ,All comparisons were two-sided with a significance level of 5%. Confidence intervals were two-sided with a level of 95%."||-19.6|-45.4|<.0001
82441194|NCT00246025|164590076|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||1.0000
82441195|NCT00246025|164590076|SUPERIORITY_OR_OTHER|||||||0.496||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||0.4960
82441196|NCT00246025|164590076|SUPERIORITY_OR_OTHER|||||||0.6223||95.0|||||Fisher Exact|||Comparison versus Placebo for the category major bleeding events||||0.6223
82441197|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|-2.5||||0.1513|TWO_SIDED|95.0|-5.9|1.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||1.0|-5.9|0.1513
82441198|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|-2.4||||0.1696|TWO_SIDED|95.0|-5.9|1.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||1.0|-5.9|0.1696
82441199|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|0.7||||0.7802|TWO_SIDED|95.0|-3.9|5.2|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category major and clinically relevant bleeding events||5.2|-3.9|0.7802
82441200|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|1.7||||0.6313|TWO_SIDED|95.0|-5.3|8.7|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||8.7|-5.3|0.6313
82441201|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|2.3||||0.5377|TWO_SIDED|95.0|-4.9|9.4|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||9.4|-4.9|0.5377
82441202|NCT00246025|164590076|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|2.8||||0.4493|TWO_SIDED|95.0|-4.4|10.0|||normal approximation method|Statistical inference was made on the basis of the normal approximation of two independent binomial distributions.||Absolute difference versus Placebo for the category any bleeding events||10.0|-4.4|0.4493
82441203|NCT01643850|164590081|SUPERIORITY||Mean Difference (Net)|0.98||||0.915|TWO_SIDED|95.0|0.71|1.36|||ANCOVA|||||1.36|0.71|0.915
82441204|NCT01643850|164590081|SUPERIORITY||Median Difference (Net)|0.78||||0.117|TWO_SIDED|95.0|0.57|1.07|||ANCOVA|||||1.07|0.57|0.117
82441205|NCT01643850|164590081|SUPERIORITY||Mean Difference (Net)|0.69||||0.01|TWO_SIDED|95.0|0.52|0.91|||ANCOVA|||||0.91|0.52|0.010
82441206|NCT01118520|164590190|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||||||0.78
82624239|NCT03970824|164964006|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|98.0|||||TWO_SIDED|90.0|90.06|106.63||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||106.63|90.06|
82624240|NCT03970824|164964007|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|107.3|||||TWO_SIDED|90.0|98.29|117.13||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||117.13|98.29|
82624241|NCT03970824|164964007|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|93.93|||||TWO_SIDED|90.0|86.08|102.5||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||102.50|86.08|
82441207|NCT01118520|164590190|SUPERIORITY|||||||0.89|||||||Mixed Models Analysis|||||||0.89
82441208|NCT01089023|164590208|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value measures the significance between each visit using analysis of variance|ANOVA|||||||<0.0001
82441209|NCT01089023|164590209|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value measures the significance between each visit using analysis of variance|ANOVA|||||||<0.0001
82441210|NCT00904618|164590211|SUPERIORITY_OR_OTHER|||||||0.0087||95.0|||||Fisher Exact|||The test applies to the number of participants improved.||||0.0087
82441211|NCT03410797|164590213|OTHER|Due to small sample size, nonparametric Wilcoxon signed-rank tests were used to compare VHI-10 before and after therapy.|Median Difference (Net)|7.0||||0.0076|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Descriptive statistics characterized this patient perception measurement.||||.0076
82441212|NCT03410797|164590214|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Final Values)|-1.53||||0.0329|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0329
82441213|NCT03410797|164590215|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|15.39||||0.0164|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0164
82441214|NCT03410797|164590216|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|-52.0||||0.1141|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1141
82441215|NCT03410797|164590217|OTHER|Descriptive statistics characterized acoustic and aerodynamic measures, and patient perception measurements.|Median Difference (Net)|-1.7||||0.3329|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.3329
82441216|NCT03883113|164590219|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||||||0.1711
82624242|NCT03970824|164964007|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|100.79|||||TWO_SIDED|90.0|92.42|109.92||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||109.92|92.42|
82624243|NCT03970824|164964008|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|101.89|||||TWO_SIDED|90.0|95.33|108.89||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||108.89|95.33|
82624244|NCT03970824|164964008|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|98.2|||||TWO_SIDED|90.0|91.91|104.92||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||104.92|91.91|
82624245|NCT03970824|164964008|EQUIVALENCE|PK equivalence was concluded if 90% confidence intervals (CIs) for percent ratios of geometric least squares means in AUC0-inf, AUC0-last, and Cmax were within the equivalence margin of 80-125%.|Ratio of geometric least squares means|100.05|||||TWO_SIDED|90.0|93.69|106.85||||||Statistical analysis of primary PK parameters was performed using an analysis of covariance model (ANCOVA) including covariates for gender, study center, and body weight.||106.85|93.69|
82624246|NCT01488409|164964012|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||||||0.97
82624247|NCT01488409|164964013|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
82624248|NCT01488409|164964014|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||t-test, 2 sided|||||||0.52
82624249|NCT01488409|164964015|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
82624250|NCT01488409|164964016|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||||||0.007
82624251|NCT02146248|164964031|SUPERIORITY_OR_OTHER|||||||0.4795||||||The two-tailed P value equals 0.4795|McNemar|||McNemar paired. Hypothesis is no change in tubal patency status. All subjects know to have bilateral patency in one of the exams during natural cycle||||0.4795
82624252|NCT02372097|164964049|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two tablets of SYR-472 25 mg and 1 tablet of SYR-472 50 mg were considered bioequivalent if 90% CI of the mean differences of natural log-transformed AUC(0-168) of SYR-472Z was within the range of ln(0.80) to ln(1.25) or within the range of ln(0.9) to ln(1.11) and the results of dissolution test satisfied the requirement.|Least square (LS) mean difference|-0.017|||||TWO_SIDED|90.0|-0.0344|0.0004||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the AUC(0-168) as a dependent variable, and product, group and period as fixed effects.||0.0004|-0.0344|
82624253|NCT02372097|164964050|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two tablets of SYR-472 25 mg and 1 tablet of SYR-472 50 mg were considered bioequivalent if 90% CI of the mean differences of natural log-transformed Cmax of SYR-472Z was within the range of ln(0.80) to ln(1.25) or within the range of ln(0.9) to ln(1.11) and the results of dissolution test satisfied the requirement.|LS mean difference|-0.1292|||||TWO_SIDED|90.0|-0.2177|-0.0406||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the Cmax as a dependent variable, and product, group and period as fixed effects.||-0.0406|-0.2177|
82624254|NCT02372097|164964051|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.021||||||90.0|-0.0362|-0.0058||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the AUC(0-inf) as a dependent variable, and product, group and period as fixed effects.||-0.0058|-0.0362|
82378298|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.11||0.0662|TWO_SIDED|90.0|0.23|3.99||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 4||3.99|0.23|0.0662
82624255|NCT02372097|164964052|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.375|||||TWO_SIDED|90.0|-0.1452|0.8952||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with Tmax as a dependent variable, and product, group and period as fixed effects.||0.8952|-0.1452|
82624256|NCT02372097|164964053|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.0168|||||TWO_SIDED|90.0|-0.0504|0.0169||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the MRT as a dependent variable, and product, group and period as fixed effects.||0.0169|-0.0504|
82624257|NCT02372097|164964054|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1099|||||TWO_SIDED|90.0|0.0235|0.1963||||||The 2-sided 90% confidence interval for the difference between the products (2 tablets of SYR-472 25 mg, 1 tablet of SYR-472 50 mg) was determined from the ANOVA model with the natural logarithms of the λz as a dependent variable, and product, group and period as fixed effects.||0.1963|0.0235|
82624258|NCT00862654|164964067|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Each test was two-sided, at the 0.050 significance level.||The primary efficacy criterion was analyzed by using the Cochran-Mantel-Haenszel (CMH) statistic, stratified by center (or analysis-center) after ridit transformation with the row mean difference statistics, testing the hypothesis of equality. The p-value had to be inferior to 0.05 at week 4, in the ITT/LOCF population. PP analysis was also performed to assess the robustness of the results obtained in the ITT/LOCF population.||||<0.01
82441217|NCT03883113|164590219|OTHER|||||||0.1654|||||||Wilcoxon (Mann-Whitney)|||||||0.1654
82441218|NCT03883113|164590219|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||||||0.1711
82441219|NCT03883113|164590220|OTHER|||||||1|||||||Fisher Exact|||The statistical analysis applies to participants with Virologically confirmed Influenza-like Illness versus participants without Virologically confirmed Influenza-like Illness||||1.000
82441220|NCT03883113|164590221|OTHER|||||||0.143|||||||Fisher Exact|||This statistical analysis applies to participants with qPCR confirmed Influenza versus participants with no qPCR confirmed Influenza||||0.143
82441221|NCT03883113|164590222|OTHER|||||||0.3504|||||||Fisher Exact|||This statistical analysis applies to participants with qCulture confirmed Influenza versus participants without qCulture confirmed Influenza||||0.3504
82441222|NCT03883113|164590223|OTHER|||||||0.5558|||||||Log Rank|||||||0.5558
82441223|NCT03883113|164590224|OTHER|||||||0.6534|||||||Log Rank|||||||0.6534
82441224|NCT03883113|164590225|OTHER|||||||0.5485|||||||Wilcoxon (Mann-Whitney)|||||||0.5485
82441225|NCT03883113|164590226|OTHER|||||||0.6753|||||||Wilcoxon (Mann-Whitney)|||||||0.6753
82441226|NCT03883113|164590227|OTHER|||||||0.711|||||||Log Rank|||||||0.711
82441227|NCT03883113|164590228|OTHER|||||||0.4689|||||||Log Rank|||||||0.4689
82441228|NCT03883113|164590231|OTHER|||||||0.5001|||||||Wilcoxon (Mann-Whitney)|||||||0.5001
82441229|NCT03883113|164590232|OTHER|||||||0.6799|||||||zero-inflated poisson model|||||||0.6799
82441230|NCT03883113|164590233|OTHER|||||||0.5911|||||||Wilcoxon (Mann-Whitney)|||||||0.5911
82441231|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-2.12||||0.956|TWO_SIDED|95.0|-79.67|75.42|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 1||75.42|-79.67|0.956
82441232|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.995|TWO_SIDED|95.0|-105.41|106.07|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 14||106.07|-105.41|0.995
82441233|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-59.35||||0.366|TWO_SIDED|95.0|-191.15|72.45|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 5 mg and placebo on Day 28||72.45|-191.15|0.366
82441234|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-100.02||||0.016|TWO_SIDED|95.0|-179.96|-20.08|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 1||-20.08|-179.96|0.016
82441235|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-137.85||||0.014|TWO_SIDED|95.0|-245.28|-30.43|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 14||-30.43|-245.28|0.014
82441236|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-229.04||||0.001|TWO_SIDED|95.0|-362.17|-95.91|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 10 mg and placebo on Day 28||-95.91|-362.17|0.001
82562933|NCT03693989|164835454|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.489|||||||Fisher Exact|||Itching eyes comparison||||0.489
82441237|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-89.98||||0.025|TWO_SIDED|95.0|-167.62|-12.33|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 1||-12.33|-167.62|0.025
82441238|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-222.02|||<|0.001|TWO_SIDED|95.0|-326.54|-117.51|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 14||-117.51|-326.54|<0.001
82441239|NCT04465877|164590244|SUPERIORITY||Mean Difference (Final Values)|-248.82|||<|0.001|TWO_SIDED|95.0|-379.35|-118.28|||Mixed Models Analysis|||Difference between change from baseline in PPG (AUEC0-4) value for JTT-662 20 mg and placebo on Day 28||-118.28|-379.35|<0.001
82441240|NCT00395135|164590245|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.6|||<|0.0001|TWO_SIDED|95.0|3.0|4.2|||ANCOVA|||||4.2|3.0|<0.0001
82441241|NCT00395135|164590247|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|-3.67|||<|0.001|TWO_SIDED|95.0|-4.09|-3.25|||ANCOVA|||||-3.25|-4.09|<0.001
82441242|NCT00395135|164590248|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.29|-1.88|||ANCOVA|||||-1.88|-3.29|<0.001
82441243|NCT00395135|164590248|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion (%)|1.64|||<|0.001|TWO_SIDED|95.0|1.1|2.19|||ANCOVA|||||2.19|1.10|<0.001
82441244|NCT04962230|164590249|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|specify in comments|56.82||||0.05|TWO_SIDED|90.0|47.04|68.62|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||68.62|47.04|0.05
82441245|NCT04962230|164590250|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|44.5||||0.05|TWO_SIDED|90.0|33.77|58.65|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||58.65|33.77|0.05
82441246|NCT04962230|164590251|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|25.59||||0.05|TWO_SIDED|90.0|18.76|34.91|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||34.91|18.76|0.05
82441247|NCT04962230|164590252|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|16.57||||0.05|TWO_SIDED|90.0|13.32|20.6|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||20.60|13.32|0.05
82441248|NCT04962230|164590258|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|44.59||||0.05|TWO_SIDED|90.0|33.99|58.5|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||58.50|33.99|0.05
82441249|NCT04962230|164590263|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir coadministered with carbamazepine was the Test treatment.|Specified in comments|12.92||||0.05|TWO_SIDED|90.0|9.28|17.99|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of adjusted geometric means 2.90% CI for the ratios"|||17.99|9.28|0.05
82441250|NCT02081638|164590278|OTHER||||||>|0.05||||||Threshold for statistical significance was a priori set to \<0.05|Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||>0.05
82441251|NCT02081638|164590278|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.022
82441252|NCT02081638|164590279|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.13
82441253|NCT02081638|164590279|OTHER|||||||0.097|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.097
82441254|NCT02081638|164590279|OTHER|||||||0.0269|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the change of sCD14 from baseline and month 12 measurement within each arm.||||0.0269
82441255|NCT02081638|164590279|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82441256|NCT02081638|164590279|OTHER||||||||||||||||||Plasma biomarkers (CRP, sCD14, TF, IL-6) were log(e) transformed and a linear mixed effect model with the biomarker as outcome and with random slope per participant was used to calculate the percentage of change from baseline.|||
82441257|NCT02275117|164590282|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|12.6||||0.033|TWO_SIDED|95.0|1.3|24.0|||Cochran-Mantel-Haenszel|||||24.0|1.3|0.0330
82441258|NCT02275117|164590282|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|10.7||||0.0715|TWO_SIDED|95.0|-0.5|21.8|||Cochran-Mantel-Haenszel|||||21.8|-0.5|0.0715
82441259|NCT02275117|164590282|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|7.5||||0.2013|TWO_SIDED|95.0|-3.5|18.5|||Cochran-Mantel-Haenszel|||||18.5|-3.5|0.2013
82441260|NCT02275117|164590282|SUPERIORITY|75% Migraine Responder Rate - Week 1-12 (Modified Full Analysis Population)|Mean Difference (Final Values)|6.1||||0.2938|TWO_SIDED|95.0|-4.6|16.9|||Cochran-Mantel-Haenszel|||||16.9|-4.6|0.2938
82441261|NCT02159118|164590302|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82441262|NCT02159118|164590303|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82441263|NCT02159118|164590304|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82441264|NCT02159118|164590305|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82441265|NCT02159118|164590306|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82441266|NCT02159118|164590307|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||||||0.93
82441267|NCT02159118|164590308|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82562934|NCT03693989|164835454|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||0.497|||||||Fisher Exact|||foreign body sensation eyes comparison||||0.497
82441268|NCT02159118|164590309|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82441269|NCT02159118|164590310|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82441270|NCT01865812|164590311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.51|-0.24||||||||-0.24|-0.51|
82441271|NCT01865812|164590312|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44|||||TWO_SIDED|95.0|-0.63|-0.25||||||||-0.25|-0.63|
82441272|NCT01865812|164590313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-1.58|1.46||||||||1.46|-1.58|
82441273|NCT01865812|164590364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.852|||||||ANCOVA|||||||0.852
82441274|NCT01865812|164590365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.549|||||||ANCOVA|||||||0.549
82441275|NCT01865812|164590366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.912|||||||ANCOVA|||||||0.912
82441276|NCT01819129|164590367|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomized treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.15|0.1|||||The estimated parameter i.e mean difference is the estimated treatment difference for Faster aspart vs. NovoRapid (Faster aspart - NovoRapid).|Change from baseline in HbA1c is analysed using a mixed-effect model for repeated measurements including changes from baseline in HbA1c at visit 14, 18, 22, 26, 30 and 36. The model includes treatment, region and continuous glucose monitoring (CGM) strata as fixed effects, subject as random effect, HbA1c at baseline as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.10|-0.15|
82441277|NCT02825966|164590373|EQUIVALENCE|The two one-sided t-test (TOST) was used to test equivalence. Using TOST, equivalence was established at α = 0.05 significance level if a (1-2α)\*100% confidence interval for the average difference in EMAT (WCD-AUDICOR) was contained within the interval \[-12, 12\].|Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|90.0|-2.89|4.69|||two one-sided test (TOST)|||First, the difference in EMAT between the LifeVest and AUDICOR device (first wear) was calculated for each subject. Then the mean and standard deviation of the differences in EMAT were calculated. The 2 devices were considered equivalent if the 90% confidence interval for mean difference in EMAT was within the pre-specified margin of \[-12, 12\] ms.||4.69|-2.89|< 0.001
82441278|NCT02836873|164590377|SUPERIORITY||Difference of LS Means|-0.28||||0.0026|TWO_SIDED|95.0|-0.46|-0.1|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||This is a mixed-effects repeated measures analysis including region, screening anti-diabetic treatment regimen, baseline eGFR, treatment, visit, treatment-by-visit interaction and baseline HbA1c as a fixed effect covariate. Data from Weeks 6, 12, and 24 are used in the model.||-0.10|-0.46|0.0026
82441279|NCT02836873|164590378|SUPERIORITY||Difference of LS Means|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.03|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||-1.03|-2.50|< 0.0001
82441280|NCT02836873|164590379|SUPERIORITY||Difference of LS Means|-2.63||||0.2035|TWO_SIDED|95.0|-6.7|1.44|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||1.44|-6.70|0.2035
82562935|NCT03693989|164835454|OTHER|The study analysis was comparative, it was only sought to determine if the difference between treatments is statistically significant or not.||||||1|||||||Fisher Exact|||blurred vision comparison||||1.000
82441281|NCT02836873|164590380|SUPERIORITY||Difference of LS Means|-0.2||||0.1156|TWO_SIDED|95.0|-0.44|0.05|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||0.05|-0.44|0.1156
82441282|NCT02836873|164590381|SUPERIORITY||Difference of LS Means|-0.37||||0.0078|TWO_SIDED|95.0|-0.65|-0.1|||Mixed-effects repeated measures|Region, screening anti-diabetic treatment, baseline eGFR, treatment, visit, treatment-by-visit and baseline HbA1c value as fixed effect covariates.||||-0.10|-0.65|0.0078
82441283|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.3||||0.0001|TWO_SIDED|95.0|1.15|1.47||Adjusted for age, sex, race and utilization|Regression, Logistic|||||1.47|1.15|0.0001
82441284|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.2||||0.0026|TWO_SIDED|95.0|1.07|1.36|||Regression, Logistic|||||1.36|1.07|.0026
82441285|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.16||||0.0206|TWO_SIDED|95.0|1.02|1.31|||Regression, Logistic|||||1.31|1.02|.0206
82441286|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|1.07||||0.233|TWO_SIDED|95.0|0.96|1.21|||Regression, Logistic|||||1.21|.96|.2330
82441287|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio, log|1.12||||0.0579|TWO_SIDED|95.0|0.996|1.26|||Regression, Logistic|||||1.26|.996|.0579
82441288|NCT02266277|164590382|SUPERIORITY|"We calculated frequencies and performed intention-to-treat bivariate analyses. We then performed multivariate logistic regression analyses.~With our proposed sample size and using a factorial design, power calculations based on estimates of baseline vaccination rates indicated that 4286 participants per arm would give 80% power to detect a 3% improvement in influenza vaccination rates between groups (α=.05; 2-sided)."|Odds Ratio (OR)|0.99||||0.87|TWO_SIDED|95.0|0.86|1.14|||Regression, Logistic|||||1.14|.86|.87
82441289|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|1.03||||0.82|TWO_SIDED|95.0|0.81|1.31|||Regression, Logistic|||||1.31|.81|.82
82441290|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio, log|0.9||||0.36|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic|||||1.13|.71|.36
82441291|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.89||||0.33|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic|||||1.13|.71|.33
82441292|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.87||||0.23|TWO_SIDED|95.0|0.69|1.09|||Regression, Logistic|||||1.09|.69|.23
82441293|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|0.99||||0.96|TWO_SIDED|95.0|0.79|1.25|||Regression, Logistic|||||1.25|.79|.96
82441294|NCT02266277|164590383|SUPERIORITY|Using as a denominator those patients identified as being overdue for pneumococcal vaccine at the time of randomization, we calculated frequencies and performed bivariate and multivariate logistic regression analyses, examining the association between randomization group and completion of pneumococcal vaccine. We analyzed portal users and non-portal users separately.|Odds Ratio (OR)|1.04||||0.76|TWO_SIDED|95.0|0.82|1.31|||Regression, Logistic|||||1.31|.82|.76
82502086|NCT02879305|164695037|SUPERIORITY||LS mean difference|-0.04||||0.1155|TWO_SIDED|95.0|-0.11|0.03|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.11|0.1155
82441295|NCT00747344|164590401|SUPERIORITY_OR_OTHER||||||<|0.001||||||The study was designed to maintain a Type I error of 0.05 or less for the primary analysis.|Cochran-Mantel-Haenszel|Stratified by baseline weight (≤ 65 kg vs \> 65 kg).||Null Hypothesis: No difference between ustekinumab 45 mg and placebo for the primary endpoint at a significance level of 0.05. With 120 subjects (60 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab 45 mg group and placebo using a CMH test stratified by baseline weight (\<=65kg vs \> 65 kg). For all the scenarios evaluated, the power was \> 99% at a significance level of 0.05.||||<0.001
82441296|NCT00747344|164590402|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel|Stratified by baseline weight (≤ 65 kg vs \> 65 kg).||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
82441297|NCT00747344|164590403|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 65kg vs \> 65 kg) as factors in the model.||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
82441298|NCT03093974|164590407|SUPERIORITY|The number of NCFB pulmonary exacerbations was compared between treatment groups using a negative binomial model including treatment, pooled site (country) and baseline use of stable concomitant therapy with oral macrolides as fixed effects and log-time on treatment as an offset.|LS Mean rate ratio|0.612||||0.00101|TWO_SIDED|95.0|0.457|0.82|||two-sided Wald chi-square test|||||0.820|0.457|0.00101
82441299|NCT00434759|164590445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.82|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value is not adjusted for multiple comparisons|ANOVA|We report the interaction effect.|The reported interaction effect is significant (p\< .05) in favour of standard therapy.|||||<0.05
82441300|NCT00434759|164590446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value ist not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is not significant.|||||<0.05
82441301|NCT00434759|164590447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||<|0.05||95.0||||p-value is not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is not significant.|||||<0.05
82441302|NCT00434759|164590448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43|||<|0.05||95.0||||priori threshold for statistical significance is 0.05 p-value ist not adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction is not significant.|||||<0.05
82441303|NCT00434759|164590449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|||<|0.05||95.0||||priori threshold for statistical significance ist 0.05 p-value ist nor adjusted for multiple comparisons|ANOVA|we report the interaction effect|The reported interaction effect is significant (p \< .05) in favour of standard therapy|||||<0.05
82441304|NCT01038713|164590484|SUPERIORITY_OR_OTHER|||||||0.22||||||Analysis comparing the number of patients who had stent occlusion|Chi-squared|3 x 2 contingency table comparing all three groups||||||0.22
82441305|NCT01038713|164590484|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|3 x 2 contingency table comparing all three groups||Analysis comparing the rate of attempted surgical resection||||0.14
82441306|NCT01038713|164590484|SUPERIORITY_OR_OTHER|||||||0.96|||||||Chi-squared|3 x 2 contingency table comparing all three groups||Analysis comparing the rate of death between groups||||0.96
82441307|NCT01038713|164590485|SUPERIORITY_OR_OTHER|||||||1|||||||ANOVA|||||||1.00
82441308|NCT03777917|164590489|SUPERIORITY||Difference in Response Rates|72.1|||<|0.0001|TWO_SIDED|95.0|47.5|83.5|||Fisher Exact|The Fisher's exact test was used to test for the superiority of treatment (Belotero Balance®) over control.|Two-sided Newcombe confidence interval (CI) for the difference in response rates.|||83.5|47.5|< 0.0001
82441309|NCT00657150|164590500|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%|Risk Difference (Percentage)|-1.08|||<|0.0001||95.0|-3.79|1.64||Superiority p-value = 0.4367|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.64|-3.79|< 0.0001
82441310|NCT00657150|164590501|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.91||||0.029||95.0|-3.64|-0.19|||Normal approximation|Normal approximation of independent binomial distribution without stratification||||-0.19|-3.64|0.029
82441311|NCT00657150|164590502|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.79||||0.0358||95.0|-3.47|-0.12|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||-0.12|-3.47|0.0358
82441312|NCT00657150|164590503|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.96||||0.4839|TWO_SIDED|95.0|-3.65|1.73|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.73|-3.65|0.4839
82441313|NCT00657150|164590504|SUPERIORITY_OR_OTHER|||||||0.0612||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0612
82441314|NCT00657150|164590505|SUPERIORITY_OR_OTHER|||||||0.6231||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6231
82441315|NCT00657150|164590506|SUPERIORITY_OR_OTHER|||||||0.4977||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4977
82441316|NCT00657150|164590507|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6870
82441317|NCT00657150|164590508|SUPERIORITY_OR_OTHER|||||||0.4022||95.0|||||Fisher Exact|||Comparison versus Enoxaparin for the category major bleeding events||||0.4022
82441318|NCT00657150|164590508|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|0.8||||0.3305|TWO_SIDED|95.0|-0.8|2.3|||Normal approximation|Normal approximation of independent binomial distribution||Absolute difference versus Enoxaparin for the category major and clinically relevant bleeding events||2.3|-0.8|0.3305
82441319|NCT00657150|164590508|SUPERIORITY_OR_OTHER||Absolute Difference (Percentage)|1.4||||0.2626|TWO_SIDED|95.0|-1.1|3.9|||Normal approximation|Normal approximation of independent binomial distribution||Absolute difference versus Enoxaparin for the category any bleeding events||3.9|-1.1|0.2626
82441320|NCT00432744|164590515|SUPERIORITY_OR_OTHER||Kendall's Tau B|0.015|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED|95.0|-0.44|0.48||Two-sided Test|Wilcoxon (Mann-Whitney)||Positive value of Tau-B would favor CoQ.|Study intended to accrue 40 subjects, but only obtained 14 evaluable on this endpoint.||0.48|-0.44|0.95
82441321|NCT00432744|164590516|SUPERIORITY_OR_OTHER||Kendall's Tau B|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.18|TWO_SIDED|95.0|-0.12|0.72|||Wilcoxon (Mann-Whitney)||A positive value would favor CoQ.|Study intended to accrue 40 subjects, but only obtained 14 evaluable on this endpoint.||0.72|-0.12|0.18
82441322|NCT00432744|164590517|SUPERIORITY_OR_OTHER|||||||0.42||||||The Hotelling T-sq=1.74 and 42% of the rerandomizations to groups of 7 and 8 had Hotelling T-sq of at least 1.74. This is the standard method for permutation tests. The large sample null is chi-sq with 2 df, which has a mean=2.|Non-parametric Hotelling T-square|||The actual study was powered to have 40 participants but only 24 participated and of these only 15 had outcome data.||||0.42
82441323|NCT04030247|164590539|OTHER|||||||0.03|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.03
82441324|NCT04030247|164590540|OTHER|||||||0.16|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.16
82441325|NCT04030247|164590541|OTHER|||||||0.03|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.03
82441326|NCT04030247|164590542|OTHER|||||||0.9|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.9
82441327|NCT04030247|164590543|OTHER|||||||0.5|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.5
82441328|NCT04030247|164590544|OTHER|||||||0.4|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.4
82441329|NCT04030247|164590546|OTHER|||||||0.6|||||||t-test, 2 sided|||Difference between baseline and month 3||||0.6
82441330|NCT01460719|164590559|OTHER|The statistical criterion for significance requires that the lower bound of the 2-sided 90% confidence interval of the GMFR is \>1.0.|||||<|0.001|||||||Single longitudinal regression model|Adjustments made for pre-vaccination values||||||<0.001
82441331|NCT02209948|164590568|OTHER|Log Rank (Mantel-Cox)||||||0.943||||||Threshold P-value of 0.05|Log Rank|||||||0.943
82441332|NCT02209948|164590569|OTHER||Hazard Ratio (HR)|1.3||||0.16|TWO_SIDED|95.0|0.9|1.88||Threshold of significance P-value 0.05|Regression, Cox|||||1.88|0.90|0.16
82441333|NCT02209948|164590570|OTHER||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.65|1.5||Threshold for significance P-value 0.05|Regression, Cox|||||1.5|0.65|0.99
82441334|NCT02209948|164590571|OTHER||Hazard Ratio (HR)|1.45||||0.13|TWO_SIDED|95.0|0.89|2.33||threshold for significance 0.05|Regression, Cox|||||2.33|0.89|0.13
82441335|NCT06276881|164590596|SUPERIORITY|||||||0.37|||||||t-test, 1 sided||||Multiple regression analysis|||.37
82441336|NCT06276881|164590597|SUPERIORITY|||||||0.07|||||||ANOVA|||||||.07
82441337|NCT02124512|164590598|SUPERIORITY||||||>|0.05||||||The p-value was calculated to be \>0.05.|ANOVA|||Comparison of the pre- and post-treatment timecourse between untreated and rifaximin-treated participants.||||>0.05
82441338|NCT02124512|164590599|SUPERIORITY|||||||0.12||||||unpaired Student's t-test|t-test, 2 sided|||Treatment difference (change in placebo pre- and post-treatment versus change in rifaximin pre- and post-treatment).||||0.12
82441339|NCT03315104|164590634|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.174|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test|FLU-IGIV High Dose (450 mL) - Placebo|Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.174
82441340|NCT03315104|164590634|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Mean Difference (Net)|0.0||||0.572|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test||Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.572
82441341|NCT03315104|164590634|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.534|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons. two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test||Pairwise Wilcoxon rank-sum test for a location shift||1.000|0.000|0.534
82441342|NCT03315104|164590634|SUPERIORITY|A median estimated value of 0.000 indicates no difference between groups.|Median Difference (Net)|0.0||||0.534|TWO_SIDED|95.0|0.0|1.0||No adjustment for multiple comparisons, two-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|Exact test|FLU-IGIV pooled (450 mL + 250 mL) - Placebo|Pairwise Wilcoxon rank-sum test for a location shift where the two active dose groups were pooled and compared to placebo.||1.000|0.000|0.534
82441343|NCT05257148|164590635|SUPERIORITY||Mean Difference (Final Values)|-9.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82441344|NCT00294645|164590643|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Modified Peto-Peto|A one-sided test was used.||Null hypothesis: control rate = remote rate||||<0.0001
82441345|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|111.7|||||TWO_SIDED|90.0|91.01|137.1||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||137.1|91.01|
82441346|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.78|||||TWO_SIDED|90.0|78.67|124.0||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||124.0|78.67|
82441347|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|108.3|||||TWO_SIDED|90.0|85.5|137.3||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment A (test) versus Treatment C (reference)||137.3|85.50|
82441348|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|94.88|||||TWO_SIDED|90.0|74.69|120.5||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment B (test) versus Treatment C (reference)||120.5|74.69|
82441349|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|109.1|||||TWO_SIDED|90.0|97.02|122.7||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||122.7|97.02|
82441350|NCT04600505|164590664|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|100.1||||||90.0|83.78|119.5||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||119.5|83.78|
82441351|NCT04600505|164590665|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|104.7|||||TWO_SIDED|90.0|91.95|119.2||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||119.2|91.95|
82441352|NCT04600505|164590665|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.03|||||TWO_SIDED|90.0|83.33|115.3||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||115.3|83.33|
82441353|NCT04600505|164590665|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|96.0||||||90.0|70.33|131.0||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||131.0|70.33|
82441354|NCT04600505|164590665|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|116.7||||||90.0|86.31|157.8||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||157.8|86.31|
82441355|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|107.3|||||TWO_SIDED|90.0|94.53|121.9||||||Statistical Comparison of Budesonide PK Parameters for Treatment A (test) versus Treatment C (reference)||121.9|94.53|
82441356|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.8|||||TWO_SIDED|90.0|84.59|115.4||||||Statistical Comparison of Budesonide PK Parameters for Treatment B (test) versus Treatment C (reference)||115.4|84.59|
82441357|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|106.1|||||TWO_SIDED|90.0|86.18|130.6||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment A (test) versus Treatment C (reference)||130.6|86.18|
82441358|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|99.71|||||TWO_SIDED|90.0|80.84|123.0||||||Statistical Comparison of Glycopyrronium PK Parameters for Treatment B (test) versus Treatment C (reference)||123.0|80.84|
82441359|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|98.13|||||TWO_SIDED|90.0|86.44|111.4||||||Statistical Comparison of Formoterol PK Parameters for Treatment A (test) versus Treatment C (reference)||111.4|86.44|
82441360|NCT04600505|164590666|OTHER|Results based on linear mixed-effects analysis of variance model|Geometric mean Ratio (%)|107.0|||||TWO_SIDED|90.0|88.82|128.9||||||Statistical Comparison of Formoterol PK Parameters for Treatment B (test) versus Treatment C (reference)||128.9|88.82|
82441361|NCT04612842|164590695|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82441362|NCT02419131|164590711|SUPERIORITY|Superiority of the experimental arms (CBTH and CPT) compared to usual care (TAU)|Aggregated contrast CBTH to TAU|-3.4|||<|0.001|TWO_SIDED|95.0|-5.4|-1.4||p-value represents an aggregate of post-treatment outcomes (i.e., post-treatment, 3-month, and 6-month outcomes entered simultaneously into the GLMM to represent a single metric of all post-treatment assessment intervals into one estimate).|Mixed Models Analysis|Outcome observations at posttreatment, 3-month and 6-month follow-ups were entered simultaneously into the mixed model to provide a single inference.|Contrast of aggregated post-treatment outcomes of HIT-6 total score for CBTH compared to TAU|Sample size based on 2-tailed specified joint superiority testing of 2 primary outcomes at α = .025 and power of 0.80 to detect an effect size (d) of 0.52 for both primary outcomes (representing a clinically significant change of 2.8 points on the HIT-6). The primary analysis set was intention to treat (ITT). multiple imputation accounted for missing data in ITT. Missing outcome scores at posttreatment, 3-month, and 6-month follow-ups were multiply imputed (m = 100) using multilevel models.||-1.4|-5.4|<0.001
82441363|NCT02419131|164590711|SUPERIORITY|See previous section for analysis|Aggregated contrast CPT to TAU|-1.4||||0.21|TWO_SIDED|95.0|-3.7|0.8||For comparison of post-treatment HIT-6 total score between CPT and TAU|Mixed Models Analysis|See above for details.|See above.|See previous section for power||0.8|-3.7|0.21
82441364|NCT02419131|164590712|SUPERIORITY|Key parameters and details the same as HIT-6 described above.|Aggregated contrast CBTH to TAU|-6.5||||0.04|TWO_SIDED|95.0|-12.7|-0.3||Contrast of aggregate post-treatment outcomes between CBTH and TAU|Mixed Models Analysis|Contrast of aggregate post-treatment outcomes between CBTH and TAU||Same sample size calculation as HIT-6 analyses, powered to detect a difference of 8.2 points on the PCL-5 total score.||-0.3|-12.7|0.04
82441365|NCT02419131|164590712|SUPERIORITY|Contrast of aggregate post-treatment outcomes between CPT and TAU|Aggregated contrast CPT to TAU|-8.9||||0.01|TWO_SIDED|95.0|-15.9|-1.9||Contrast of aggregate post-treatment outcomes between CPT and TAU|Mixed Models Analysis|Contrast of aggregate post-treatment outcomes between CPT and TAU||See above.||-1.9|-15.9|0.01
82441366|NCT03060512|164590714|OTHER|||||||0.9239|||||||Prescott's test|||Assessment of the difference in preference for the two treatments (Prefer Movantik, No Preference, Prefer PEG 3350) in subjects who completed the entire treatment sequence.||||0.9239
82441367|NCT03060512|164590714|OTHER|||||||0.8874|||||||Prescott's test|||Assessment of the difference between preference for treatment in Period 1, preference for treatment in Period 2, no preference||||0.8874
82441368|NCT03060512|164590717|OTHER||Least Squares (LS) Means difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.3|0.3||||||Analysis of variance (ANOVA) model assessing treatment difference in PGIC at Visits 3 and 5 between Movantik and PEG 3350 treatment. Adjustments were performed for treatment, period and sequence.||0.3|-0.3|
82562936|NCT00113529|164835466|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|37.1||||||95.0|21.5|55.1|||||ORR=proportion of subjects with confirmed CR or PR, relative to total subjects who received at least 1 dose of study medication, had a baseline disease assessment, and had the correct histological cancer type.|||55.1|21.5|
82441369|NCT03060512|164590719|OTHER||LS Means difference|-0.9|STANDARD_ERROR_OF_MEAN|1.95|||TWO_SIDED|95.0|-4.7|3.0||||||Analysis of Covariance (ANCOVA) model assessing treatment difference in BFI change from baseline at Visits 3/5 between Movantik and PEG 3350. Adjustments were performed for for baseline BFI score, treatment, period and sequence.||3.0|-4.7|
82441370|NCT03831880|164590725|SUPERIORITY||Mean Difference (Final Values)|-15.49|||<|0.0001|TWO_SIDED|95.0|-19.71|-11.27||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-11.27|-19.71|<0.0001
82441371|NCT03831880|164590727|SUPERIORITY||Mean Difference (Final Values)|-5.39||||0.0017|TWO_SIDED|95.0|-8.69|-2.09||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-2.09|-8.69|0.0017
82562937|NCT00113529|164835472|SUPERIORITY_OR_OTHER||probability|82.4||||||95.0|64.9|91.7||||||||91.7|64.9|
82562938|NCT00113529|164835481|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.075
82441372|NCT03831880|164590729|SUPERIORITY||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-19.74|-7.45||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-7.45|-19.74|<0.0001
82441373|NCT03831880|164590731|SUPERIORITY||Mean Difference (Final Values)|-24.34|||<|0.0001|TWO_SIDED|95.0|-30.1|-18.57||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-18.57|-30.10|<0.0001
82441374|NCT03831880|164590733|SUPERIORITY||Mean Difference (Final Values)|-7.83||||0.0739|TWO_SIDED|95.0|-16.42|0.77||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||0.77|-16.42|0.0739
82441375|NCT03831880|164590735|SUPERIORITY||Mean Difference (Final Values)|-17.6|||<|0.0001|TWO_SIDED|95.0|-25.15|-10.06||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-10.06|-25.15|<0.0001
82441376|NCT03831880|164590737|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.6137|TWO_SIDED|95.0|-2.09|3.51||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||3.51|-2.09|0.6137
82441377|NCT03831880|164590739|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.8404|TWO_SIDED|95.0|-5.29|6.41||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||6.41|-5.29|0.8404
82441378|NCT03831880|164590741|SUPERIORITY||Mean Difference (Final Values)|-13.47|||<|0.0001|TWO_SIDED|95.0|-17.59|-9.35||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-9.35|-17.59|<0.0001
82441379|NCT03831880|164590743|SUPERIORITY||Mean Difference (Final Values)|-2.76||||0.0245|TWO_SIDED|95.0|-5.16|-0.36||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-0.36|-5.16|0.0245
82441380|NCT03831880|164590755|SUPERIORITY||Mean Difference (Final Values)|-14.58|||<|0.0001|TWO_SIDED|95.0|-18.72|-10.44||95% CI: Model-based difference in means. Results were based on a linear mixed effects model including sequence, period, and treatment as fixed effects and participant within sequence and within-participant error as random effects.|Mixed Models Analysis|||||-10.44|-18.72|<0.0001
82441381|NCT01327274|164590764|OTHER|Pre-treatment and post-treatment Pectus Severity Indices were compared using the Wilcoxon matched-pairs signed rank test.||||||0.486|||||||Wilcoxon (Mann-Whitney)|||||||0.486
82441382|NCT00386477|164590766|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55||||0.11||95.0|0.26|1.11|||Chi-squared, Corrected|||||1.11|0.26|0.11
82441383|NCT02446418|164590767|NON_INFERIORITY|Non-inferiority of fixed combination FF/VI to usual ICS/LABA in inhalation powder was assessed assuming a non-inferiority margin of -1.5.|Mean Difference (Net)|0.8||||0.033|TWO_SIDED|95.0|0.1|1.5|||Mixed model repeated measures (MMRM)||||The analysis method was an MMRM adjusted for randomized treatment, visit (Week 6 and Week 12), Baseline ACT total score, randomized treatment-by-visit interaction, Baseline ACT total score-by-visit interaction, gender, age, country and participant fitted as a random factor. The Restricted Maximum Likelihood (REML) estimation approach was used with a default covariance structure of unstructured.|1.5|0.1|0.033
82441384|NCT02446418|164590768|NON_INFERIORITY|Non-inferiority of fixed combination FF/VI to usual ICS/LABA in inhalation powder was assessed assuming a non-inferiority margin of -1.5.|Mean Difference (Net)|0.4||||0.224|TWO_SIDED|95.0|-0.3|1.1|||Mixed model repeated measures (MMRM)||||The analysis method was an MMRM adjusted for randomized treatment, visit (Week 6, Week 12, Week 18 and Week 24), Baseline ACT total score, randomized treatment-by-visit interaction, Baseline ACT total score-by visit interaction, gender, age, country and participant fitted as a random factor. The REML estimation approach was used with a default covariance structure of unstructured.|1.1|-0.3|0.224
82441385|NCT02446418|164590769|SUPERIORITY||Adjusted Odds Ratio|1.11||||0.82|TWO_SIDED|95.0|0.47|2.62|||Regression, Logistic|||Week 12|The analysis method was logistic regression adjusted for randomized treatment, correct use of inhaler device at Baseline, gender, age and country.|2.62|0.47|0.820
82441386|NCT02446418|164590769|SUPERIORITY||Adjusted Odds Ratio|1.41||||0.566|TWO_SIDED|95.0|0.43|4.6|||Regression, Logistic|||Week 24|The analysis method was logistic regression adjusted for randomized treatment, correct use of inhaler device at Baseline, gender, age and country.|4.60|0.43|0.566
82441387|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.065|0.151||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 milliliters (mL) at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.151|0.065|<0.001
82441388|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|||<|0.001|TWO_SIDED|95.0|0.064|0.149||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.149|0.064|<0.001
82562939|NCT00113529|164835481|SUPERIORITY_OR_OTHER|||||||0.749||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.749
82624259|NCT00862654|164964067|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Cochran-Mantel-Haenszel|Each test was two-sided, at the 0.050 significance level.||The primary efficacy criterion was analyzed by using the Cochran-Mantel-Haenszel (CMH) statistic, stratified by center (or analysis-center) after ridit transformation with the row mean difference statistics, testing the hypothesis of equality. The p-value had to be inferior to 0.05 at week 4, in the ITT/LOCF population. PP analysis was also performed to assess the robustness of the results obtained in the ITT/LOCF population.||||0.039
82441389|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|||<|0.001|TWO_SIDED|95.0|0.086|0.171||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.171|0.086|<0.001
82441390|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|||<|0.001|TWO_SIDED|95.0|0.04|0.125||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.125|0.040|<0.001
82441391|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|||<|0.001|TWO_SIDED|95.0|0.036|0.12||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.120|0.036|<0.001
82441392|NCT02014480|164590770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057||||0.008|TWO_SIDED|95.0|0.015|0.099||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.099|0.015|0.008
82624260|NCT03954444|164964068|EQUIVALENCE|90% Confidence Interval, should be within -20% to +20%|Mean Difference (Net)|2.7|||||TWO_SIDED|90.0|-2.6|8.0||||||||8.0|-2.6|
82624261|NCT03954444|164964068|SUPERIORITY|||||||0.04|||||||Cochran-Mantel-Haenszel|||||||0.04
82624262|NCT03954444|164964068|SUPERIORITY|||||||0.1126|||||||Cochran-Mantel-Haenszel|||||||0.1126
82502087|NCT02879305|164695037|SUPERIORITY||LS mean difference|-0.04||||0.1426|TWO_SIDED|95.0|-0.12|0.03|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.12|0.1426
82624263|NCT02713789|164964074|SUPERIORITY|||||||0.827|||||||ANCOVA|||SEP2||||0.827
82624264|NCT02713789|164964074|SUPERIORITY|||||||0.594|||||||ANCOVA|||SEP2||||0.594
82441393|NCT00435162|164590789|SUPERIORITY_OR_OTHER||Slope|-1.05||||0.099|TWO_SIDED|95.0|-2.31|0.2|||Regression, Linear|||Slope change across all 3 active treatment groups.||0.20|-2.31|0.0990
82441394|NCT00977938|164590829|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.001|TWO_SIDED|95.0|0.59|0.85||P-value was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|The primary efficacy analysis was a superiority analysis. We controlled the two-sided family-wise error rate of 0.05 across the two coprimary end points using the Hochberg-Benjamini method. With this method, the null hypothesis of randomized treatment equivalence is rejected if significance is achieved for both end points at a two-sided alpha level of 0.05 or for one end point at a two-sided alpha level of 0.025.||0.85|0.59|<0.001
82502088|NCT02879305|164695037|SUPERIORITY||LS mean difference|-0.05||||0.1152|TWO_SIDED|95.0|-0.13|0.03|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented, with factors for treatment, time, dialysis type, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.13|0.1152
82502089|NCT02636868|164695038|SUPERIORITY|||||||0.363||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline fraction of inspired oxygen (FiO₂) in model||Null hypothesis is no difference across treatment groups||||0.363
82502090|NCT02636868|164695038|SUPERIORITY|||||||0.36||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatments||||0.360
82502091|NCT02636868|164695038|SUPERIORITY|||||||0.461||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatments||||0.461
82502092|NCT02636868|164695039|SUPERIORITY|||||||0.401||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.401
82502093|NCT02636868|164695039|SUPERIORITY|||||||0.372||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.372
82502094|NCT02636868|164695039|SUPERIORITY|||||||0.648||||||a priori threshold of statistical significance set at 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis is no difference across treatment groups||||0.648
82502095|NCT02636868|164695040|SUPERIORITY|||||||0.996||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference across treatments||||0.996
82502096|NCT02636868|164695040|SUPERIORITY|||||||0.951||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference between treatments||||0.951
82502097|NCT02636868|164695040|SUPERIORITY|||||||0.995||||||a priori threshold of statistical significance set at 0.05|Log Rank|||Null hypothesis of no difference between treatments||||0.995
82624265|NCT02713789|164964074|SUPERIORITY|||||||0.274|||||||ANCOVA|||SEP3||||0.274
82624266|NCT02713789|164964074|SUPERIORITY|||||||0.766|||||||ANCOVA|||SEP3||||0.766
82624267|NCT02713789|164964075|SUPERIORITY|||||||0.384|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.384
82378299|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.11||0.8898|TWO_SIDED|90.0|-1.73|2.04||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 4||2.04|-1.73|0.8898
82378300|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.06||0.3664|TWO_SIDED|90.0|-0.85|2.82||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 8||2.82|-0.85|0.3664
82378301|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.1||0.0655|TWO_SIDED|90.0|0.25|4.05||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 8||4.05|0.25|0.0655
82378302|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.2||0.6921|TWO_SIDED|90.0|-1.61|2.57||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 12||2.57|-1.61|0.6921
82378303|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.23||0.0406|TWO_SIDED|90.0|0.59|4.88||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 12||4.88|0.59|0.0406
82378304|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.04||0.6872|TWO_SIDED|90.0|-2.24|1.38||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 400/200 mg vs Placebo: Week 20||1.38|-2.24|0.6872
82378305|NCT04856917|164464833|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.08||0.3392|TWO_SIDED|90.0|-0.81|2.92||LS Mean, SE, 90% CI, \& p-value was based on a LRMM which included treatment, visit, treatment by visit interaction \& facial IGA at baseline (Grade 3 vs. 4) as categorical covariates \& baseline CDLQI as continuous covariate.|LRMM|||Imsidolimab 200/100 mg vs Placebo: Week 20||2.92|-0.81|0.3392
82378306|NCT03631199|164464867|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.62||||0.00164|TWO_SIDED|95.0|0.45|0.86|||Log Rank|||Chest pain||0.86|0.45|0.00164
82378307|NCT03631199|164464867|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.59||||0.00069|TWO_SIDED|95.0|0.43|0.82|||Log Rank|||Cough||0.82|0.43|0.00069
82378308|NCT03631199|164464867|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.66||||0.00045|TWO_SIDED|95.0|0.51|0.84|||Log Rank|||Dyspnea||0.84|0.51|0.00045
82378309|NCT03631199|164464868|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.86||||0.113|TWO_SIDED|95.0|0.66|1.1|||Log Rank|||Quality of Life||1.10|0.66|0.113
82378310|NCT03631199|164464868|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.68||||0.00433|TWO_SIDED|95.0|0.51|0.91|||Log Rank|||Shortness of Breath||0.91|0.51|0.00433
82378311|NCT03631199|164464868|EQUIVALENCE|Nominal p-values are presented without any statistical inference since there was no adjustment for multiplicity.|Hazard Ratio (HR)|0.93||||0.294|TWO_SIDED|95.0|0.72|1.2|||Log Rank|||Pain||1.20|0.72|0.294
82378312|NCT03690388|164464960|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|96.0|0.13|0.36|||Log Rank|||||0.36|0.13|< 0.0001
82378313|NCT02543944|164465004|SUPERIORITY||Risk Ratio (RR)|-0.0944|STANDARD_ERROR_OF_MEAN|0.32||0.77|TWO_SIDED|95.0|-0.72|0.53|||Regression, Logistic|||||0.53|-0.72|0.77
82378314|NCT02543944|164465005|SUPERIORITY||Odds Ratio (OR)|0.3||||0.58|TWO_SIDED||||||Chi-squared|||||||0.58
82378315|NCT02543944|164465006|SUPERIORITY||Odds Ratio (OR)|0.16||||0.69|TWO_SIDED||||||Chi-squared|||||||0.69
82378316|NCT02543944|164465007|SUPERIORITY||Odds Ratio (OR)|0.96||||0.32|TWO_SIDED||||||Chi-squared|||||||0.32
82378317|NCT00629018|164465008|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Log Rank|||The minimal sample size for the study was calculated using a pre-specified power of 90% and P value of 0.05.||||0.01
82378318|NCT05534061|164465037|SUPERIORITY||Odds Ratio (OR)|0.98||||0.944|TWO_SIDED|95.0|0.62|1.56||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||1.56|0.62|.944
82378319|NCT05534061|164465038|SUPERIORITY||Odds Ratio (OR)|1.01||||0.952|TWO_SIDED|95.0|0.62|1.65||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||1.65|0.62|.952
82378320|NCT05534061|164465039|SUPERIORITY||Odds Ratio (OR)|1.16||||0.768|TWO_SIDED|95.0|0.43|3.11||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||3.11|0.43|.768
82378321|NCT05534061|164465040|SUPERIORITY||Odds Ratio (OR)|3.96||||0.008|TWO_SIDED|95.0|1.43|10.94||A priori threshold for statistical significance was p\<.05.|Regression, Logistic|A multilevel logistic regression model was specified.|Contingency Management Alone coded as the reference group.|||10.94|1.43|.008
82562940|NCT00113529|164835481|SUPERIORITY_OR_OTHER|||||||0.834||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.834
82441395|NCT00977938|164590830|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.17|0.48||P-value was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|The primary efficacy analysis was a superiority analysis. We controlled the two-sided family-wise error rate of 0.05 across the two coprimary end points using the Hochberg-Benjamini method. With this method, the null hypothesis of randomized treatment equivalence is rejected if significance is achieved for both end points at a two-sided alpha level of 0.05 or for one end point at a two-sided alpha level of 0.025.||0.48|0.17|<0.001
82441396|NCT00977938|164590831|NON_INFERIORITY_OR_EQUIVALENCE|The primary safety analysis was a noninferiority analysis performed with the use of the Farrington-Manning risk-difference approach. Assuming an annualized rate for moderate or severe bleeding of 1.9% and an absolute noninferiority margin of 0.8%, at a one-sided alpha level of significance of 0.025, we calculated that a sample size of 9960 patients would give the study 80% power to detect noninferiority.|Risk Difference (RD)|0.96||||0.704|TWO_SIDED|95.0|0.38|1.53||One-sided P-value for non-inferiority|Farrington-Manning||30-month DAPT vs. 12-month DAPT|||1.53|0.38|0.704
82441397|NCT00977938|164590832|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.28% (0.0228)|Risk Difference (RD)|-1.82|||<|0.001|ONE_SIDED|97.5||0.03||One-sided P-value for non-inferiority|Nam and Kwon|P-value was computed for clustered matched pairs based on Nam and Kwon (2009).|Weighted RD and 1-sided 97.5% upper CL were computed for clustered matched pairs based on Nam and Kwon (2009).|The null hypothesis was that DAPT patients treated with DES would have MACCE rate between 0 and 33 months post-index procedure that exceeds that of the control arm (patients treated with BMS) by at least a pre-specified absolute margin of δ.||0.03||<0.001
82441398|NCT00977938|164590833|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.97% (0.0097)|Risk Difference (RD)|-1.05|||<|0.001|ONE_SIDED|97.5||-0.27||One-sided P-value for non-inferiority|Nam and Kwon|P-value was computed for clustered matched pairs based on Nam and Kwon (2009).|Weighted RD and 1-sided 95% upper CL were computed for clustered matched pairs based on Nam and Kwon (2009).|The null hypothesis was that DAPT patients treated with DES would have stent thrombosis rate between 0 and 33 months post-index procedure that exceeds that of the control arm (patients treated with BMS) by at least a pre-specified absolute margin of δ.||-0.27||<0.001
82441399|NCT00977938|164590834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.7|0.97|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||0.97|0.70|
82441400|NCT00977938|164590835|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.29|0.69|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||0.69|0.29|
82441401|NCT00977938|164590836|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.86|||||TWO_SIDED|95.0|0.24|1.48|||||30-month DAPT vs. 12-month DAPT|||1.48|0.24|
82441402|NCT00977938|164590837|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.722|TWO_SIDED|95.0|0.57|1.47||This analysis was not powered. P-value was stratified according to geographic region, thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|This analysis was not powered.||1.47|0.57|0.722
82441403|NCT00977938|164590838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.478|TWO_SIDED|95.0|0.15|1.64||This analysis was not powered. P-value was stratified according to geographic region, thienopyridine received at the time of randomization, and presence or absence of risk factors for ST; P-value was adjudsted using the Benjamini Hochberg approach.|Log Rank||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|This analysis was not powered.||1.64|0.15|0.478
82441404|NCT00977938|164590839|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.12||||0.706|TWO_SIDED|95.0|-0.06|2.31|||Farrington-Manning|No formal hypothesis testing was done.|30-month DAPT vs. 12-month DAPT|||2.31|-0.06|0.706
82441405|NCT00977938|164590840|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.58|1.4|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis|||1.40|0.58|
82441406|NCT00977938|164590841|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.15|1.64|||||30-month DAPT vs. 12-month DAPT; HR was stratified according to geographic region (NA, EU, or AU and NZ), thienopyridine drug received at the time of randomization, and presence or absence of risk factors for stent thrombosis.|||1.64|0.15|
82441407|NCT00977938|164590842|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.03|||||TWO_SIDED|95.0|-0.21|2.28|||||30-month DAPT vs. 12-month DAPT|||2.28|-0.21|
82441408|NCT03373890|164590846|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
82441409|NCT03373890|164590847|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
82441410|NCT03373890|164590848|OTHER|Independent samples Mann Whitney U||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||.03
82441411|NCT03373890|164590849|OTHER|Independent samples Mann Whitney U||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
82441412|NCT03373890|164590850|OTHER|Independent samples Mann Whitney U||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
82441413|NCT03373890|164590851|OTHER|Independent samples Mann Whitney U||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||.99
82441414|NCT03373890|164590852|OTHER|LInear mixed model||||||0.008|||||||Regression, Logistic|||||||.008
82441415|NCT03373890|164590853|OTHER|Linear mixed model regression||||||0.34|||||||Regression, Linear|||||||.34
82502098|NCT02636868|164695041|SUPERIORITY|||||||0.312||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatment groups||||0.312
82441416|NCT02214225|164590957|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.92|||||TWO_SIDED|95.0|0.87|0.98||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.87|
82441417|NCT02214225|164590957|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.93|||||TWO_SIDED|95.0|0.88|0.98||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.88|
82441418|NCT02214225|164590957|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.87|||||TWO_SIDED|95.0|0.81|0.93||||||For B/Yamagata strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.93|0.81|
82441419|NCT02214225|164590957|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|0.94|||||TWO_SIDED|95.0|0.86|1.01||||||For B/Victoria strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.01|0.86|
82441420|NCT02214225|164590958|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-1.1|||||TWO_SIDED|95.0|-4.4|2.2||||||||2.2|-4.4|
82441421|NCT02214225|164590958|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|-1.7|||||TWO_SIDED|95.0|-5.0|1.6||||||||1.6|-5.0|
82441422|NCT02214225|164590958|NON_INFERIORITY_OR_EQUIVALENCE|For B/Yamagata. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-3.2|||||TWO_SIDED|95.0|-7.0|0.5||||||||0.5|-7.0|
82441423|NCT02214225|164590958|NON_INFERIORITY_OR_EQUIVALENCE|For B/Victoria. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|-1.6|||||TWO_SIDED|95.0|-5.6|2.4||||||||2.4|-5.6|
82441424|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.93|||||TWO_SIDED|95.0|0.85|1.02||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.85|
82441425|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.91|||||TWO_SIDED|95.0|0.83|0.99||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.99|0.83|
82624268|NCT02713789|164964075|SUPERIORITY|||||||0.144|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.144
82441426|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.86|||||TWO_SIDED|95.0|0.76|0.97||||||For B/YAM strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.97|0.76|
82441427|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|0.86|||||TWO_SIDED|95.0|0.76|0.98||||||For B/VIC strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.98|0.76|
82502099|NCT02636868|164695041|SUPERIORITY|||||||0.094||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model||Null hypothesis of no difference between treatment groups||||0.094
82624269|NCT02713789|164964075|SUPERIORITY|||||||0.022|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.022
82624270|NCT02713789|164964075|SUPERIORITY|||||||0.137|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.137
82624271|NCT02713789|164964075|SUPERIORITY|||||||0.123|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.123
82441428|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H1N1)|0.95|||||TWO_SIDED|95.0|0.88|1.02||||||For A/H1N1 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.88|
82441429|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (A/H3N2)|0.95|||||TWO_SIDED|95.0|0.89|1.02||||||For A/H3N2 strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.02|0.89|
82441430|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/YAM)|0.9|||||TWO_SIDED|95.0|0.84|0.97||||||For B/YAM strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||0.97|0.84|
82441431|NCT02214225|164590959|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criterion for the GMT ratio was that the upper bound of two-sided 95% CI on the ratio of Pooled TIV (for A strains) or TIV-1 (B Yamagata) or TIV-2 (B Victoria)/ bioCSL QIV should not exceed 1.5.|GMT ratio (B/VIC)|1.03|||||TWO_SIDED|95.0|0.94|1.14||||||For B/VIC strain. The GMT ratio (defined as the geometric mean of postvaccination (day 21) HI titer for TIV divided by the geometric mean of the postvaccination HI titer for QIV) for each virus strain included in the vaccines was determined: bioCSL TIV-1 and bioCSL TIV-2 GMTs were pooled for analysis of the A strains.||1.14|0.94|
82441432|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-2.1|||||TWO_SIDED|95.0|-6.9|2.6||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||2.6|-6.9|
82441433|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|-4.6|||||TWO_SIDED|95.0|-9.3|0.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||0.2|-9.3|
82441434|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For B/YAM. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-4.5|||||TWO_SIDED|95.0|-10.3|1.3||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||1.3|-10.3|
82441435|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For B/VIC. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|-4.6|||||TWO_SIDED|95.0|-10.5|1.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||1.2|-10.5|
82441436|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For A/H1N1. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H1N1)|-0.2|||||TWO_SIDED|95.0|-4.4|4.0||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||4.0|-4.4|
82441437|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For A/H3N2. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (A/H3N2)|1.1|||||TWO_SIDED|95.0|-3.1|5.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||5.2|-3.1|
82441438|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For B/YAM. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/YAM)|-2.2|||||TWO_SIDED|95.0|-6.3|2.0||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||2.0|-6.3|
82441439|NCT02214225|164590960|NON_INFERIORITY_OR_EQUIVALENCE|For B/VIC. The non-inferiority criterion was that the upper bound of the two sided 95% CI on the difference between SCRs (Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus bioCSL QIV) should not exceed 10%.|Difference in SCR (B/VIC)|1.2|||||TWO_SIDED|95.0|-3.7|6.2||||||The SCR difference was defined as the SCR percentage for bioCSL Pooled TIV or TIV-1 (B Yamagata) or TIV-2 (B Victoria) minus the SCR percentage for bioCSL QIV.||6.2|-3.7|
82502100|NCT02636868|164695041|SUPERIORITY|||||||0.414||||||A priori threshold of statistical significance set at 0.10|Regression, Linear|Generalized linear model using Poisson distribution with pooled site, treatment, gender, birth weight, and baseline FiO₂ in model.||Null hypothesis of no difference between treatment groups||||0.414
82624272|NCT02713789|164964076|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.160
82624273|NCT02713789|164964076|SUPERIORITY|||||||0.208|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.208
82624274|NCT02713789|164964076|SUPERIORITY|||||||0.316|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.316
82441440|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) overall|1.47|||||TWO_SIDED|95.0|1.38|1.57|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT ratio was greater than 1.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.57|1.38|
82441441|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) overall|1.57|||||TWO_SIDED|95.0|1.45|1.7|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT ratio was greater than 1.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.70|1.45|
82441442|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) 18 through 64 years|1.67|||||TWO_SIDED|95.0|1.5|1.87|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.87|1.50|
82624275|NCT02713789|164964076|SUPERIORITY|||||||0.221|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.221
82624276|NCT02713789|164964076|SUPERIORITY|||||||0.172|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.172
82624277|NCT02713789|164964077|SUPERIORITY|||||||0.199|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.199
82624278|NCT02713789|164964077|SUPERIORITY|||||||0.203|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.203
82624279|NCT02713789|164964077|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.500
82441443|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) 18 through 64 years|1.76|||||TWO_SIDED|95.0|1.55|2.01|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||2.01|1.55|
82499064|NCT03978520|164689012|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.527|=|0.71|TWO_SIDED|95.0|-0.84|1.23|||Mixed-effect model repeat measurement|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.23|-0.84|=0.710
82624280|NCT02713789|164964077|SUPERIORITY|||||||0.296|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.296
82624281|NCT02713789|164964077|SUPERIORITY|||||||0.286|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.286
82624282|NCT02713789|164964078|SUPERIORITY|||||||0.449|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.449
82624283|NCT02713789|164964078|SUPERIORITY|||||||0.381|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.381
82624284|NCT02713789|164964078|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.011
82624285|NCT02713789|164964078|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.05
82624286|NCT02713789|164964078|SUPERIORITY|||||||0.09|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.09
82624287|NCT02713789|164964079|SUPERIORITY|||||||0.074|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.074
82624288|NCT02713789|164964079|SUPERIORITY|||||||0.468|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.468
82624289|NCT02713789|164964079|SUPERIORITY|||||||0.109|||||||t-test, 1 sided|one-sided paired t-test at 5% significance level||||||0.109
82624290|NCT02713789|164964079|SUPERIORITY|||||||0.493|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.493
82624291|NCT02713789|164964079|SUPERIORITY|||||||0.235|||||||t-test, 1 sided|p-value (one-sided) corresponds to the two sample t-test analysis||||||0.235
82624292|NCT02713789|164964080|SUPERIORITY|||||||0.136|||||||ANCOVA|||SEP1||||0.136
82624293|NCT02713789|164964080|SUPERIORITY|||||||0.498|||||||ANCOVA|||SEP1||||0.498
82624294|NCT02713789|164964080|SUPERIORITY|||||||0.369|||||||ANCOVA|||SEP4||||0.369
82624295|NCT02713789|164964080|SUPERIORITY|||||||0.337|||||||ANCOVA|||SEP4||||0.337
82624296|NCT02713789|164964080|SUPERIORITY|||||||0.16|||||||ANCOVA|||SEP5||||0.160
82624297|NCT01293084|164964095|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.2||||0.62|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.62
82624298|NCT01293084|164964096|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.3||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.32
82624299|NCT01626989|164964100|NON_INFERIORITY_OR_EQUIVALENCE|Friedman Test comparing all 3 nights||||||0.001|||||||nonparametric Wilcoxon Signed Rank test|||||||.001
82624300|NCT02437487|164964114|SUPERIORITY||Relative Risk|1.2217|||||TWO_SIDED|95.0|0.7919|1.8849||||||||1.8849|0.7919|
82441444|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/YAM) ≥ 65 years|1.3|||||TWO_SIDED|95.0|1.21|1.4|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.40|1.21|
82441445|NCT02214225|164590961|SUPERIORITY_OR_OTHER||GMT ratio (B/VIC) ≥ 65 years|1.38|||||TWO_SIDED|95.0|1.27|1.51|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in the bioCSL QIV but not in the bioCSL TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI on GMT was greater than 1|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. The GMT ratio was calculated as bioCSL QIV GMT/bioCSL TIV GMT for the superiority analyses, which is the reverse of how it was calculated for the non-inferiority analyses.||1.51|1.27|
82441446|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) overall|15.3|||||TWO_SIDED|95.0|12.1|18.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||18.6|12.1|
82441447|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) overall|20.1|||||TWO_SIDED|95.0|16.5|23.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||23.6|16.5|
82499065|NCT03978520|164689012|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.545|=|0.963|TWO_SIDED|95.0|-1.05|1.1|||Mixed-effect model repeat measurement|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.10|-1.05|=0.963
82502101|NCT02636868|164695042|SUPERIORITY|||||||0.099||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline fraction of inspired oxygen (FiO2) in model||Null hypothesis of no difference between treatment groups||||0.099
82502102|NCT02636868|164695042|SUPERIORITY|||||||0.09||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO2 in model||Null hypothesis of no difference between treatments||||0.090
82502103|NCT02636868|164695042|SUPERIORITY|||||||0.461||||||A priori statistical significance of 0.05|Regression, Logistic|Pooled site, treatment, gender, birth weight, and baseline FiO2 in model||Null hypothesis of no difference between treatment groups||||0.461
82502104|NCT02636868|164695043|SUPERIORITY|||||||0.534||||||A priori threshold for statistical significance set at 0.05|ANOVA|treatment and pooled site in model||Null hypothesis of no treatment between treatments||||0.534
82502105|NCT02636868|164695043|SUPERIORITY|||||||0.48||||||A priori threshold for statistical significance set at 0.05|ANOVA|Treatment and pooled site in model||Null hypothesis of no difference between treatment groups||||0.480
82502106|NCT02636868|164695043|SUPERIORITY|||||||0.313||||||A priori threshold for statistical significance set at 0.05|ANOVA|Treatment and pooled site in model||Null hypothesis of no difference between treatment groups||||0.313
82562941|NCT00113529|164835481|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||1.000
82502107|NCT00312494|164695073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1077||95.0||||The p-values reported are unadjusted for multiple comparisons. Dunnet's procedure for multiple dose comparisons to placebo was used for primary efficacy measure at Week 3.|Mixed Models Analysis|||N=135/arm (405 total) for 85% power for 2-sample t-test (2-sided alpha=0.05) based on true mean difference=3.5 and SD=10. Interim Analysis (IA) to validate sample-size assumptions and adjust sample-size if needed. Based on IA results total sample-size increased to N=223/arm (669 total) to maintain desired power. Null Hypothesis=No statistically significant difference between add-on ziprasidone (higher, lower dose) and add-on placebo groups with respect to the population mean for primary endpoint||||0.1077
82502108|NCT00312494|164695073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4274||95.0||||The p-values reported are unadjusted for multiple comparisons. Dunnet's procedure for multiple dose comparisons to placebo was used for primary efficacy measure at Week 3.|Mixed Models Analysis|||Week 3 Mixed Model Repeated Measures (MMRM) with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score. Tests were 2-sided and performed at the 0.05 significance level.||||0.4274
82502109|NCT00312494|164695074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4025||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.4025
82562942|NCT00113529|164835481|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.332
82562943|NCT00113529|164835482|SUPERIORITY_OR_OTHER|||||||0.473||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.473
82562944|NCT00113529|164835482|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.286
82562945|NCT00113529|164835482|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.277
82562946|NCT00113529|164835482|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.956
82624301|NCT02437487|164964116|SUPERIORITY||Relative Risk|1.2624|||||TWO_SIDED|95.0|0.7668|2.0785||||||||2.0785|0.7668|
82441448|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) 18 through 64y|22.9|||||TWO_SIDED|95.0|17.7|28.2|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||28.2|17.7|
82441449|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) 18 through 64y|28.6|||||TWO_SIDED|95.0|23.1|34.1|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||34.1|23.1|
82441450|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/YAM) ≥ 65 years|8.0|||||TWO_SIDED|95.0|4.3|11.6|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage||11.6|4.3|
82502110|NCT00312494|164695074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.2830
82441451|NCT02214225|164590962|SUPERIORITY_OR_OTHER||Difference in SCR (B/VIC) ≥ 65 years|11.9|||||TWO_SIDED|95.0|7.7|16.0|||||Immunologic superiority of the alternate B strain (eg, the influenza B strain included in bioCSL QIV but not in the TIV formulation) in bioCSL QIV was demonstrated if the lower bound of the two-sided 95% CI for the difference in SCRs was \> 0.|Immunologic superiority of the alternate B strain (ie, the influenza B strain included in the QIV but not in the TIV formulation) in bioCSL QIV was assessed separately within each age group (18 to \< 65 years and ≥ 65 years of age), and overall. Seroconversion rate difference = bioCSL QIV SCR percentage - bioCSL TIV-1 or TIV-2 SCR percentage.||16.0|7.7|
82441452|NCT01605227|164590995|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.213|TWO_SIDED|95.0|0.76|1.06|||Log Rank|The Log-Rank test was stratified by prior cabazitaxel, baseline pain severity and baseline ECOG performance status.||||1.06|0.76|0.213
82502111|NCT00312494|164695074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4125||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.4125
82562947|NCT00113529|164835482|SUPERIORITY_OR_OTHER|||||||0.278||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.278
82562948|NCT00113529|164835483|SUPERIORITY_OR_OTHER|||||||0.275||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.275
82562949|NCT00113529|164835483|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.227
82562950|NCT00113529|164835483|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.029
82562951|NCT00113529|164835483|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||1.000
82562952|NCT00113529|164835483|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||1.000
82562953|NCT00113529|164835484|SUPERIORITY_OR_OTHER|||||||0.435||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.435
82562954|NCT00113529|164835484|SUPERIORITY_OR_OTHER|||||||0.722||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.722
82562955|NCT00113529|164835484|SUPERIORITY_OR_OTHER|||||||0.645||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.645
82562956|NCT00113529|164835484|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.140
82562957|NCT00113529|164835484|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.046
82562958|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
82562959|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.854
82562960|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.230
82562961|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.067
82624302|NCT02437487|164964117|SUPERIORITY||Relative Risk|1.2217|||||TWO_SIDED|95.0|0.7919|1.8849||||||||1.8849|0.7919|
82562962|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.164
82562963|NCT00113529|164835485|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
82562964|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
82562965|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.462||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.462
82562966|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.423
82624303|NCT02437487|164964118|SUPERIORITY||Relative Risk|1.0878|||||TWO_SIDED|95.0|0.7383|1.6029||||||||1.6029|0.7383|
82624304|NCT00379236|164964136|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|Screening pain score was the covariate; study center was modeled as a random effect while all other variables were modeled as fixed effects.||||||0.008
82624305|NCT00379236|164964137|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is purely nominal|ANCOVA|||||||0.001
82624306|NCT00379236|164964138|SUPERIORITY_OR_OTHER|||||||0.202||95.0|||||Chi-squared|||||||0.202
82624307|NCT00379236|164964139|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Chi-squared|||||||0.047
82441453|NCT01605227|164590996|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) Test was stratified by prior cabazitaxel, baseline pain severity and baseline ECOG performance status.||||||<0.001
82441454|NCT01605227|164590997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.4|0.57|||Log Rank|The Log-Rank Test was stratified by prior cabazitaxel, baseline pain severity, and baseline Eastern Cooperative Oncology Group Performance Status.||||0.57|0.40|<0.001
82441455|NCT02847858|164591001|SUPERIORITY||Slope|1.16||||0.011|TWO_SIDED|95.0|0.26|2.07||Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) minus Arm2 (Control); Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to Post-visit Follow-up||2.07|0.26|0.011
82441456|NCT02847858|164591001|SUPERIORITY||Slope|1.64|||<|0.001|TWO_SIDED|95.0|1.01|2.07||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No Time difference (Post-visit Follow-up vs. Baseline) in outcome||2.07|1.01|<0.001
82441457|NCT02847858|164591001|SUPERIORITY||Slope|0.48||||0.108|TWO_SIDED|95.0|-0.1|1.05||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is Post-visit Follow-up minus Baseline|Null hypothesis: No Time difference (Post-visit Follow-up vs. Baseline) in outcome||1.05|-0.10|0.108
82441458|NCT02847858|164591002|SUPERIORITY||F statistic:Time X Arm Interaction|3.23||||0.04|TWO_SIDED|||||Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|df=2,1611; Arm comparison is Intervention - Control; Time comparisons are 3 months - Baseline and 6 months - Baseline and 6 months - 3 months|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 3 months or from Baseline to 6 months||||0.04
82441459|NCT02847858|164591002|SUPERIORITY||Slope|0.82||||0.218|TWO_SIDED|95.0|-0.48|2.11||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site||Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 3 months|Arm comparison is Intervention - Control; Time comparison is 3 months - Baseline|2.11|-0.48|.218
82441460|NCT02847858|164591002|SUPERIORITY||Slope|1.58||||0.008|TWO_SIDED|95.0|0.38|2.77||Post hoc comparison pursuant to significant Arm by Time interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention - Control; Time comparison is 6 months - Baseline|Null hypothesis: No difference between study arms in change in mean self-efficacy from Baseline to 6 months||2.77|0.38|0.008
82441461|NCT02847858|164591003|SUPERIORITY||F statistic:Time X Arm Interaction|3.72||||0.025|TWO_SIDED|||||Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|df=2, 1007; Arm comparison is Intervention/Control; Time comparisons are 3 months/Baseline and 6 months/Baseline and 6 months/3 months|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 3 months or to 6 months||||0.025
82441462|NCT02847858|164591003|SUPERIORITY||Odds Ratio (OR)|3.29||||0.042|TWO_SIDED|95.0|1.04|10.36||Post hoc comparison pursuant to significant Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention / Control; Time comparison is 3 months / Baseline|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 3 months||10.36|1.04|0.042
82441463|NCT02847858|164591003|SUPERIORITY||Odds Ratio (OR)|5.54||||0.005|TWO_SIDED|95.0|1.7|18.06||Post hoc comparison pursuant to significant Arm by Time Interaction; a priori threshold for statistical significance p\<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Arm comparison is Intervention / Control; Time comparison is 6 months / Baseline|Null hypothesis: No difference between arms in change in percentage of participants using non-barrier method from Baseline to 6 months||18.06|1.7|0.005
82441464|NCT02847858|164591004|SUPERIORITY||Slope|1.62|||<|0.001|TWO_SIDED|95.0|1.43|1.82||Time main effect; a priori threshold for statistical significance p \<.05|Mixed Models Analysis|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; random intercepts and slopes over time; clustering by recruitment site|Time comparison is post-app minus pre-app|Null hypothesis: No change in contraception knowledge from immediate pre-app to immediate post-app among Intervention group participants||1.82|1.43|<0.001
82441465|NCT02847858|164591005|SUPERIORITY||Odds Ratio (OR)|2.22||||0.055|TWO_SIDED|95.0|0.98|5.01||Arm main effect; a priori threshold for statistical significance p\<.05|Regression, Logistic|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) / Arm2 (Control)|Null hypothesis: No difference between study arms in percentage of participants who discussed birth control with health care provider at visit||5.01|0.98|0.055
82562967|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.510
82562968|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.608
82624308|NCT00379236|164964140|SUPERIORITY_OR_OTHER|||||||0.618||95.0|||||Chi-squared|||||||0.618
82624309|NCT00379236|164964141|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Chi-squared|||||||0.028
82441466|NCT02847858|164591006|SUPERIORITY||Odds Ratio (OR)|1.66||||0.227|TWO_SIDED|95.0|0.73|3.78||Arm main effect; a priori threshold for statistical significance p\<.05|Regression, Logistic|Adjusted for age, purpose of visit, and whether sexually active prior 3 months; clustering by recruitment site|Arm comparison is Arm 1 (Intervention) / Arm2 (Control)|Null hypothesis: No difference between study arms in percentage of participants who receive/make appointment/get prescription for a non-barrier method||3.78|0.73|0.227
82441467|NCT00042432|164591086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.67||||0.006||95.0|1.6|20.06|||Cochran-Mantel-Haenszel|Adjusted for baseline glomenular filtration rate (GFR) strata|Logit estimates|||20.06|1.60|0.006
82441468|NCT00042432|164591087|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|Adusted for baseline glomerular filtration rate (GFR) strata||||||<0.001
82441469|NCT03849690|164591088|OTHER|Analysis of variance (ANOVA) performed on natural log(ln)-transformed TAK-906 Cmax which exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as random effect. Each ANOVA included calculation of least-squares means(LSM) and difference between treatment LSM. Geometric mean ratios and 90% confidence interval (CI) were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.87||||0.3011|TWO_SIDED|90.0|0.7|1.09|||ANOVA|||||1.09|0.70|0.3011
82441470|NCT03849690|164591089|OTHER|ANOVA was performed on ln-transformed TAK-906 AUClast which were exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as a random effect. Each ANOVA included calculation of LSM and difference between treatment LSM. Geometric mean ratios and 90 percent (%) CI were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.88||||0.0865|TWO_SIDED|90.0|0.77|0.99|||ANOVA|||||0.99|0.77|0.0865
82441471|NCT03849690|164591090|OTHER|ANOVA was performed on ln-transformed TAK-906 AUC∞ which were exponentiated to provide estimates on original scale. ANOVA model included treatment as fixed effect and participant as a random effect. Each ANOVA included calculation of LSM and difference between treatment LSM. Geometric mean ratios and 90% CI were determined by exponentiation of appropriate estimates for difference between treatments in log-transformed parameters.|Geometric mean ratio|0.88||||0.3011|TWO_SIDED|90.0|0.78|1.0|||ANOVA|||||1.00|0.78|0.3011
82441472|NCT01400243|164591140|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANCOVA|||||||.05
82441473|NCT01400243|164591141|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82441474|NCT01071356|164591146|SUPERIORITY_OR_OTHER||Time averaged post-bline diff in diff|-0.006||||0.47|TWO_SIDED|95.0|-0.023|0.011|||Random Effects modeling||Stat Mixed Model: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended.|Stat Mixed Model Estimated was: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended. This was done because a statistical test of trend of the post-baseline effect across the 3 post interviews indicated a homogeneous post-baseline treatment effect across time for both MI1 and MI9 conditions.||.011|-.023|.47
82441475|NCT01071356|164591147|SUPERIORITY_OR_OTHER||Time averaged post-bline diff in diff|0.007||||0.034|TWO_SIDED|95.0|0.001|0.013|||Random effects model||Stat Mixed Model: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended.|Stat Mixed Model Estimated was: MI9 (Post - Bline) - MI1 (Post - Bline) taken across 2, 4, and 6 month follow-ups adjusted for gender, age, and # sessions attended. This was done because a statistical test of trend of the post-baseline effect across the 3 post interviews indicated a homogeneous post-baseline treatment effect across time for both MI1 and MI9 conditions.||.013|.001|.034
82441476|NCT02278614|164591148|OTHER|The change from baseline in mean IOP on Day 84 for the contralateral eye,|Adjusted mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.57|0.43|||Mixed Models Analysis|||||0.43|-0.57|
82441477|NCT02278614|164591148|OTHER|The change from baseline in mean IOP on D42 for the worse eye|Adjusted mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|-0.69|0.31|||Mixed Models Analysis|||||0.31|-0.69|
82441478|NCT00262847|164591155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.954||||0.448||95.0|0.844|1.078|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.078|0.844|0.448
82441479|NCT00262847|164591155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.765|||<|0.001||95.0|0.676|0.866|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||0.866|0.676|<0.001
82441480|NCT00262847|164591156|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.069||||0.41||95.0|0.912|1.255|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.255|0.912|0.410
82441481|NCT00262847|164591156|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.131||95.0|0.746|1.039|||Regression, Cox|Proportional Hazards model stratified by stage of disease and size of residual disease following initial staging surgery.||||1.039|0.746|0.131
82441482|NCT05693922|164591175|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.34
82441483|NCT05693922|164591176|SUPERIORITY|||||||0.54|||||||ANOVA|||||||0.54
82441484|NCT05693922|164591177|SUPERIORITY|||||||0.865|||||||ANOVA|||||||0.865
82441485|NCT03559699|164591183|OTHER|||||||0.0002|TWO_SIDED|95.0||||1-sided P-value|Binomial exact test|||||||0.0002
82441486|NCT02091284|164591214|OTHER||||||<|0.01||||||Two-way ANOVA with repeated measures followed by Bonferroni's multiple comparisons as post-hoc test and linear regression analyses. Additional comparisons between initial and final OCDS scores were done by paired t tests for each group.|ANOVA|||||||< 0.01
82441487|NCT02091284|164591214|OTHER||||||<|0.05|||||||t-test, 2 sided|||Additional comparisons between initial and final OCDS scores were done by paired t tests for each group, and differences between final and initial scores were compared between sham-tDCS and tDCS groups with unpaired t tests.||||<0.05
82441488|NCT01151761|164591269|SUPERIORITY_OR_OTHER||months|8.5|||||TWO_SIDED|95.0|7.0|10.0|||||There were only two patients in the study. Both died without having any local failure. One patient died at 10 months, the other at 7 months. The range for the 95%CI is both the full range and the 95%CI.|The median Progression Free Survival (PFS) time as calculated using Kaplan Meier methodology. For PFS both death and progression are counted as events.||10|7|
82441489|NCT01151761|164591274|SUPERIORITY_OR_OTHER||proportion of participants|0.0|||||TWO_SIDED||||||||None of the two patients who participated had a local recurrence before they died.|||||
82562969|NCT00113529|164835486|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
82441490|NCT01030874|164591432|OTHER||Odds Ratio (OR)|1.16||||0.6|TWO_SIDED|95.0|0.67|1.99|||Regression, Logistic|Adjusted for whether patient had orthostatic hypotension at baseline.|Arm 2 is in the numerator of OR calculation.|||1.99|0.67|0.6
82441491|NCT01030874|164591433|OTHER||Odds Ratio (OR)|1.53||||0.3|TWO_SIDED|95.0|0.74|3.24|||Regression, Logistic|Adjusted for whether patient had orthostatic hypotension at discharge.|Arm 2 is in the numerator of OR calculation.|||3.24|0.74|0.3
82441492|NCT03554772|164591438|SUPERIORITY||||||<|0.0001||||||p-value for each dose group vs placebo comparison|ANCOVA|ANCOVA model included treatment as main effect , baseline NPRS and basline BMI as covariates P-value is Dunnett adjusted (individual treatment arms)||||||<0.0001
82441493|NCT00089986|164591458|SUPERIORITY_OR_OTHER||Rate difference|1.1||||0.329|ONE_SIDED|90.0|-2.1||||Chi-squared||||||-2.1|0.329
82441494|NCT00089986|164591458|SUPERIORITY_OR_OTHER||Rate Difference|-4.4||||0.879|ONE_SIDED|90.0|-9.4||||Chi-squared||||||-9.4|0.879
82441495|NCT00241631|164591463|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
82441496|NCT00241631|164591464|SUPERIORITY||||||<|0.05||||||calculated|Mixed Models Analysis|||||||<0.05
82441497|NCT00241631|164591465|SUPERIORITY||||||<|0.05||||||calculated|Mixed Models Analysis|||||||<0.05
82441498|NCT01187004|164591470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Regression, Logistic|significant level for inclusion at the univariate analysis was p\<0.05.||Our hypothesis was that mechanical ventilation with large tidal volume might represent a risk factor for acute lung injury in patients undergoing cardiopulmonary bypass.||||<0.05
82441499|NCT01187004|164591471|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.199|||<|0.001|TWO_SIDED|95.0|1.129|1.272|||Wilcoxon (Mann-Whitney)|||||1.272|1.129|<0.001
82441500|NCT01852825|164591484|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.355||||0.003|TWO_SIDED|90.0|1.515|3.661|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|The hypothesis is supported if the lower bound of the two-sided 90% confidence interval for the Week 12 geometric mean fold difference is \>1.0.||3.661|1.515|0.003
82441501|NCT01852825|164591485|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.182||||0.01|TWO_SIDED|90.0|1.364|3.49|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|The hypothesis is supported if the lower bound of the two-sided 90% confidence interval for the Week 12 geometric mean fold difference is \>1.0.||3.490|1.364|0.010
82441502|NCT01852825|164591486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.027|TWO_SIDED|90.0|0.066|0.41|||Constrained Longitudinal Data Analysis||MK-8237 treatment minus Placebo treatment|The hypothesis is supported if the lower bound of the 1-tailed 95% CI around the mean difference in change from baseline excludes zero||0.410|0.066|0.027
82441503|NCT01852825|164591487|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.068||||0.935|TWO_SIDED|90.0|0.272|4.19|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|||4.190|0.272|0.935
82441504|NCT01852825|164591488|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.21||||0.296|TWO_SIDED|90.0|0.605|8.066|||Constrained Longitudinal Data Analysis||MK-8237 treatment divided by Placebo treatment|||8.066|0.605|0.296
82441505|NCT01852825|164591489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.115||||0.014|TWO_SIDED|90.0|-100.185|-22.045|||Constrained Longitudinal Data Analysis||MK-8237 treatment minus Placebo treatment|||-22.045|-100.185|0.014
82441506|NCT01854632|164591490|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Log Rank|||||||0.996
82441507|NCT01457950|164591531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21|||<|0.0001|TWO_SIDED|95.0|2.06|4.36|||ANCOVA|||||4.36|2.06|<0.0001
82441508|NCT02370641|164591629|OTHER||Mean Difference (Final Values)|-4.0||||0.012|TWO_SIDED|||||p\<0.05 is defined as significant|Wilcoxon (Mann-Whitney)|||Comparison was made to week 4 minus baseline change of phylum Firmicutes abundance between urolithin excretors and non excretors||||0.012
82441509|NCT02370641|164591629|OTHER||Mean Difference (Final Values)|2.6||||0.009|TWO_SIDED|||||p\<0.05 was defined as significant|Wilcoxon (Mann-Whitney)|||Comparison was made to week 4 minus baseline change of phylum Proteobacteria abundance between urolithin excretors and non excretors||||0.009
82441510|NCT00320372|164591647|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|38.1|||||TWO_SIDED|95.0|36.3|39.9|||||Mixed Model Repeated Measure analysis on MADRS responders (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||39.9|36.3|
82441511|NCT00320372|164591647|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|17.0|||||TWO_SIDED|95.0|15.2|19.0|||||Mixed Model Repeated Measure analysis on MADRS responders (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||19.0|15.2|
82441512|NCT00320372|164591647|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||||<.0001
82441513|NCT00320372|164591648|SUPERIORITY_OR_OTHER|||||||0.1015|TWO_SIDED|||||Comparison for Kaplan Meier Median Time until recurrence|Log Rank|Null hypothesis: median TUR between 2 groups is not different. Alternate hypothesis: median TUR between 2 groups is different.||||||0.1015
82441514|NCT00320372|164591649|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|19.8|||||TWO_SIDED|95.0|18.4|21.3|||||Mixed Model Repeated Measure analysis on MADRS remitters (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of remitters across groups is the same. Alternate Hypothesis: Percentage of remitters across groups is different.||21.3|18.4|
82441515|NCT00320372|164591649|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|8.1|||||TWO_SIDED|95.0|6.9|9.5|||||Mixed Model Repeated Measure analysis on MADRS remitters (binary variable with 1=yes, 0=no) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|Null Hypothesis: Percentage of remitters across groups is the same. Alternate Hypothesis: Percentage of remitters across groups is different.||9.5|6.9|
82441516|NCT00320372|164591649|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Null Hypothesis: Percentage of responders across groups is the same. Alternate Hypothesis: Percentage of responders across groups is different.||||<.0001
82441517|NCT00320372|164591655|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.34997|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline suicidal thoughts.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline suicidal thoughts."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<0.0001
82441518|NCT00320372|164591656|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||3 Month Time point||||<.0001
82441519|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||6 Month Time point||||.0068
82441520|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||9 Month Time point||||.0008
82441521|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||12 Month Time point||||.0003
82441522|NCT00320372|164591656|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||18 Month Time point||||<.0001
82441523|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||24 Month Time point||||.0059
82441524|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0028|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||30 Month Time point||||.0028
82441525|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||36 Month Time point||||.0002
82441526|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0051|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||42 Month Time point||||.0051
82441527|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0363|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||48 Month Time point||||.0363
82441528|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||54 Month Time point||||.0048
82441529|NCT00320372|164591656|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."|F-Test|||60 Month Time point||||.0009
82441530|NCT00320372|164591656|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|12.1009|||||TWO_SIDED|95.0|10.8979|13.3039|||||Mixed Model Repeated Measure analysis on Q-LES-Q change from baseline score (continuous var) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||13.3039|10.8979|
82562970|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.910
82562971|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.020
82562972|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
82562973|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.509
82562974|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||0.883||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.883
82562975|NCT00113529|164835487|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.582
82562976|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.428
82562977|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.075
82562978|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
82562979|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.019
82562980|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.124
82562981|NCT00113529|164835488|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.055
82562982|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
82562983|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.854
82562984|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.230
82441531|NCT00320372|164591656|SUPERIORITY_OR_OTHER||MMRM Least Squares Mean|7.5964|||||TWO_SIDED|95.0|6.1327|9.0602|||||Mixed Model Repeated Measure analysis on Q-LES-Q change from baseline score (continuous var) as the response variable in the model. The covariates are treatment, visit and propensity quintile. This analysis of covariance produced least square means.|"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||9.0602|6.1327|
82562985|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.067
82562986|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.164
82441532|NCT00320372|164591656|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||"Null Hypothesis: Difference between change from baseline value of two treatment groups equals zero.~Alternate Hypothesis: Difference between change from baseline value of two treatment groups is not equal to zero."||||<.0001
82441533|NCT00320372|164591657|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.14837|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline medical threat to life.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline medical threat to life."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<.0001
82441534|NCT00320372|164591658|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.14819|||<|0.0001|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS f/u suicidal thoughts and baseline intent of suicidal gesture.~Alternate hypothesis: There is no correlation between MADRS f/u suicidal thoughts and baseline intent of suicidal gesture."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||<.0001
82441535|NCT00320372|164591659|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficients|0.04625||||0.0012|TWO_SIDED|||||"Null hypothesis: There is a correlation between MADRS follow-up suicidal thoughts and baseline primary diagnosis of MDE.~Alternate hypothesis: There is no correlation between MADRS follow-up suicidal thoughts and baseline primary diagnosis of MDE."|Pearson Correlation Coefficients|||The statistical modeling of predictors of suicide attempts and suicidal ideations considered 15 variables, defined in the protocol a priori to determine which ones were predictive of suicide attempts and suicidal ideations. Four variables representing the baseline disease and patient factors were considered predictors of suicidality. This outcome measure presents the underlying data collected and the corresponding correlation coefficient for one of the 4 variables identified.||||.0012
82441536|NCT01853072|164591660|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.5|3.0|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for United States (US) registration and secondary for European Union (EU) registration.||3.0|1.5|<0.001
82441537|NCT01853072|164591661|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.1|0.3|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for EU registration and secondary for US registration.||0.3|0.1|<0.001
82441538|NCT01287221|164591666|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.82
82441539|NCT01287221|164591667|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.62
82441540|NCT01287221|164591668|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.23
82441541|NCT01287221|164591669|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.31
82441542|NCT01287221|164591670|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.65
82562987|NCT00113529|164835489|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
82562988|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.734||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.734
82562989|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.462||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.462
82562990|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.423
82562991|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.510
82562992|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.608
82562993|NCT00113529|164835490|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.121
82562994|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.910
82562995|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.020
82562996|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
82441543|NCT01287221|164591671|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.61
82562997|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.509
82562998|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||0.883||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.883
82562999|NCT00113529|164835491|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.582
82563000|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 1||||0.428
82563001|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.075
82563002|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||1.000
82563003|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.019
82563004|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.124
82563005|NCT00113529|164835492|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.055
82563006|NCT01077284|164835497|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.001
82563007|NCT01077284|164835497|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.003
82563008|NCT01077284|164835498|SUPERIORITY_OR_OTHER|||||||0.13||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.130
82441544|NCT01287221|164591672|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||Given that there were no imbalances identified between the two groups at baseline and the slope estimates for the two treatment arms did not support assumption of normality, the analysis was performed using Wilcoxon rank-sum test.||||0.22
82441545|NCT02649192|164591674|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2015-16 season||||0.90
82563009|NCT01077284|164835498|SUPERIORITY_OR_OTHER|||||||0.348||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.348
82563010|NCT01077284|164835499|SUPERIORITY_OR_OTHER|||||||0.403||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.403
82563011|NCT01077284|164835499|SUPERIORITY_OR_OTHER|||||||0.413||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|Wilcoxon (Mann-Whitney)|||||||0.413
82563012|NCT01077284|164835500|SUPERIORITY_OR_OTHER|||||||0.5535||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|ANOVA|P-values are from ANOVA with treatment as a fixed effect.||||||0.5535
82563013|NCT01077284|164835500|SUPERIORITY_OR_OTHER|||||||0.94||||||Hochberg's method for multiple comparisons was used to ensure that the overall 0.050 level of significance was maintained for comparisons of febuxostat to allopurinol and to placebo.|ANOVA|P-values are from ANOVA with treatment as a fixed effect.||||||0.9400
82563014|NCT00841321|164835509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1|TWO_SIDED|95.0|-0.5|0.1||Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||PASAT Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.1|-0.5|.1
82563015|NCT00841321|164835509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.9|-0.1||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||Stroop Exit Z-score least square means difference adjusted for baseline.Positive values indicate a beneficial effect from treatment with Ginkgo.||-0.1|-0.9|0.007
82563016|NCT00841321|164835509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5|TWO_SIDED|95.0|-0.2|0.3||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||COWAT Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.3|-0.2|0.5
82563017|NCT00841321|164835509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.5||95.0|-0.3|0.3||Not adjusted for multiple comparison. Nominal value. Per protocol univariate tests would only be considered significant in the multivariate test was significant.|ANCOVA|||CVLT-II Delayed Recall Exit Z-score least square means difference adjusted for baseline. Positive values indicate a beneficial effect from treatment with Ginkgo.||0.3|-0.3|0.5
82563018|NCT00841321|164835509|SUPERIORITY_OR_OTHER|||||||0.19|||||||MANCOVA|MANCOVA||MANCOVA for all four cognitive tests at exit adjusting for baseline. Individual ANOVAs were to follow if the multivariate test was significant.||||0.19
82563019|NCT00841321|164835510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.7||0.4|TWO_SIDED|95.0|-5.7|4.7|||ANCOVA||Positive values indicate a beneficial effect from Ginkgo.|Perceived Deficits Questionnaire||4.7|-5.7|0.4
82563020|NCT00841321|164835510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.0||0.7||95.0|-3.2|4.8|||ANCOVA||Positive values indicate a beneficial effect from Ginkgo.|Multiple Sclerosis Neuropsychological Questionnaire||4.8|-3.2|0.7
82563021|NCT00841321|164835510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.6||0.4||95.0|-1.3|0.8|||ANCOVA|||Community Integration Questionnaire||0.8|-1.3|0.4
82563022|NCT00379210|164835515|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANOVA|||Statistical tests are evaluated at an alpha level of 0.05 (corrected, when appropriate, for multiple comparisons). Analyses are performed on both response latency and accuracy on behavioral data. For latency analyses, mean response times for correct trials are calculated for each subject. Repeated-measures ANOVA are used for omnibus tests; paired t-tests are used for individual planned contrasts, with Bonferroni-corrected significance levels to maintain a .05 alpha level||||<0.01
82563023|NCT02077374|164835547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.0||||0.0195|TWO_SIDED|95.0|-30.7|-2.5|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in mean change in alanine aminotransferase (ALT) from Baseline to Day28/ET between IDN-6556 and placebo||-2.5|-30.7|0.0195
82563024|NCT02077374|164835549|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.8||||0.8724|TWO_SIDED|95.0|-14.5|11.2|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change in aspartate aminotransferase (AST) from baseline to Day 28/ET between IDN-6556 and placebo||11.2|-14.5|0.8724
82563025|NCT02077374|164835550|SUPERIORITY_OR_OTHER||Median Difference (Net)|-145.0||||0.1149|TWO_SIDED|95.0|-336.0|55.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change for cCK18/M30 from Baseline to Day 28/ET between IDN-6556 and Placebo||55|-336|0.1149
82563026|NCT02077374|164835551|SUPERIORITY_OR_OTHER||Median Difference (Net)|-250.0||||0.1365|TWO_SIDED|95.0|-590.0|63.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis for the difference in change for caspase 3/7 from Baseline to Day 28/ET between IDN-6556 and Placebo||63|-590|0.1365
82563027|NCT02077374|164835552|SUPERIORITY_OR_OTHER||Median Difference (Net)|-327.0||||0.0471|TWO_SIDED|95.0|-628.0|-7.0|||Wilcoxon (Mann-Whitney)||Based on Hodges-Lehmann estimator|Statistical Analysis of the difference in the change in full-length cytokeratine 18 (flCK18/M65) from Baseline to Day 28/ET between IDN-6556 and placebo||-7|-628|0.0471
82563028|NCT03875729|164835553|SUPERIORITY||Mean Difference (Net)|0.1253|||<|0.001|TWO_SIDED|95.0|0.0852|0.1653||ITT: The ANCOVA model included treatment, age group at randomization, and baseline C-peptide ln(AUC+1) as independent variables. Missing data at Week 78 were multiply imputed using pattern-mixture model under the missing not at random assumption.|ANCOVA||Least squares mean (LSmean) difference = Teplizumab - Placebo|This study was designed to show a difference of at least a 40% in C-peptide response between teplizumab and placebo. In geometric means, this translates to a value of (1.4×0.28) = 0.392. Consequently, approximately 300 participants were planned for enrollment, assuming 2-sided α=0.05, 90% power, 2:1 randomization, and a 10% dropout rate.||0.1653|0.0852|<0.001
82563029|NCT03875729|164835553|SUPERIORITY||Mean Difference (Net)|0.1385|||<|0.001|TWO_SIDED|95.0|0.0994|0.1776||PP: The ANCOVA model included treatment, age group at randomization, and baseline C-peptide ln(AUC+1) as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||Least squares mean (LSmean) difference = teplizumab - placebo|||0.1776|0.0994|<0.001
82563030|NCT03875729|164835554|SUPERIORITY||Mean Difference (Final Values)|-0.131||||0.085|TWO_SIDED|95.0|-0.28|0.018||ITT: ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||0.018|-0.280|0.085
82563031|NCT03875729|164835554|SUPERIORITY||Mean Difference (Final Values)|-0.167|||<|0.001|TWO_SIDED|95.0|-0.256|-0.078||PP: ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data at Week 78 were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||-0.078|-0.256|<0.001
82563032|NCT03875729|164835555|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.606|TWO_SIDED|95.0|-0.42|0.24||ITT: ANCOVA model included treatment, age group at randomization, screening peak C-peptide category, baseline HbA1c as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA|||||0.24|-0.42|0.606
82563033|NCT03875729|164835555|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.454|TWO_SIDED|95.0|-0.46|0.2||PP: ANOVA model included treatment, age group at randomization, screening peak C-peptide category, baseline HbA1c as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||0.20|-0.46|0.454
82563034|NCT03875729|164835556|SUPERIORITY||Mean Difference (Final Values)|4.71||||0.151|TWO_SIDED|95.0|-1.72|11.15||ITT: The ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||11.15|-1.72|0.151
82563035|NCT03875729|164835556|SUPERIORITY||Mean Difference (Final Values)|6.17||||0.045|TWO_SIDED|95.0|0.13|12.22||PP: The ANCOVA model included treatment, age group at randomization, and screening peak C-peptide category as independent variables. Missing data were multiply imputed using a pattern-mixture model under the missing not at random assumption.|ANCOVA||LSmean difference = teplizumab - placebo.|||12.22|0.13|0.045
82563036|NCT03875729|164835557|SUPERIORITY||Rate ratio|1.1||||0.634|TWO_SIDED|95.0|0.74|1.64||ITT: Estimates and p-values were obtained from a negative binomial regression model using rate of hypoglycemic episodes as dependent variable and treatment, age group at randomization, and screening peak C-peptide category as independent variables.|Negative binomial regression model||Rate ratio = teplizumab / placebo.|||1.64|0.74|0.634
82563037|NCT03875729|164835557|SUPERIORITY||Rate ratio|1.09||||0.69|TWO_SIDED|95.0|0.72|1.65||PP: Estimates and p-values were obtained from a negative binomial regression model using rate of hypoglycemic episodes as dependent variable and treatment age group at randomization, and screening peak C-peptide category as independent variables.|Rate ratio||Rate ratio = teplizumab / placebo.|||1.65|0.72|0.690
82563038|NCT05265247|164835567|EQUIVALENCE|The two formulations were considered to be bioequivalent if the point estimate for the ratio lies completely within the range of 0.8-1.25.|Ratio of Geometric least squares mean|0.9531|||||TWO_SIDED|90.0|0.851|1.0673||||||||1.0673|0.8510|
82563039|NCT05265247|164835568|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% 2-sided confidence interval (CI) for the ratio lies completely within the range of 0.8-1.25.|Ratio of Geometric least squares mean|0.9538|||||TWO_SIDED|90.0|0.898|1.0132||||||||1.0132|0.8980|
82563040|NCT02516202|164835578|SUPERIORITY|||||||0.25||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.25
82563041|NCT02516202|164835578|SUPERIORITY|||||||0.31||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.31
82563042|NCT02516202|164835579|SUPERIORITY|||||||0.99||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.99
82563043|NCT02516202|164835579|SUPERIORITY|||||||0.05||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.05
82563044|NCT02516202|164835580|SUPERIORITY|||||||0.64||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.64
82563045|NCT02516202|164835580|SUPERIORITY|||||||0.17||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|Regression, Linear|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||||||0.17
82563046|NCT02516202|164835582|SUPERIORITY|||||||0.02||||||p-value calculation includes 195 participants with known responses at week 12.|Chi-squared|||||||0.02
82563047|NCT02516202|164835583|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82563048|NCT02516202|164835583|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
82563049|NCT02516202|164835584|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82563050|NCT02516202|164835584|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82563051|NCT02841449|164835585|OTHER|||||||0.886|||||||t-test, 2 sided|paired sample||||||0.886
82563052|NCT02841449|164835585|OTHER|||||||0.43||||||The above is the trial\*time interaction. trial, p = 0.627; time, p \< 0.001|ANOVA|repeated measures||||||0.430
82563053|NCT02841449|164835586|OTHER|||||||0.369|||||||t-test, 2 sided|paired samples||||||0.369
82563054|NCT02841449|164835586|OTHER|||||||0.859||||||The above is the trial\*time interaction. trial p = 0.200; time p \< 0.001|ANOVA|repeated measures||||||0.859
82563055|NCT02841449|164835587|OTHER||||||<|0.001|||||||t-test, 2 sided|paired samples||||||<0.001
82563056|NCT02841449|164835587|OTHER|||||||0.261||||||The above is the trial\*time interaction. trial p = 0.002; time p = 0.282|ANOVA|repeated measures||||||0.261
82563057|NCT02841449|164835588|OTHER|||||||0.736|||||||t-test, 2 sided|paired samples||||||0.736
82563058|NCT02841449|164835589|OTHER|||||||0.542|||||||t-test, 2 sided|paired samples||||||0.542
82563059|NCT02841449|164835590|OTHER|||||||0.4|||||||t-test, 2 sided|paired samples||||||0.400
82563060|NCT02841449|164835591|OTHER|||||||0.646|||||||ANOVA|repeated measures||Visual analogue scale for thirst||||0.646
82563061|NCT02841449|164835591|OTHER|||||||0.403|||||||ANOVA|repeated measures||visual analogue scale for desire for savoury||||0.403
82563062|NCT02841449|164835591|OTHER|||||||0.022|||||||ANOVA|repeated measures||visual analogue scale for desire for salt||||0.022
82563063|NCT02841449|164835591|OTHER|||||||0.849|||||||ANOVA|repeated measures||visual analogue scale for hunger||||0.849
82563064|NCT02841449|164835591|OTHER|||||||0.062|||||||ANOVA|repeated measures||visual analogue scale for fullness||||0.062
82563065|NCT02841449|164835591|OTHER|||||||0.549|||||||ANOVA|repeated measures||visual analogue scale for how much participants felt they could eat||||0.549
82563066|NCT02841449|164835591|OTHER|||||||0.402|||||||ANOVA|repeated measures||visual analogue scale for sweet desire||||0.402
82563067|NCT02841449|164835591|OTHER|||||||0.138|||||||ANOVA|repeated measures||visual analogue scale for fatty food desire||||0.138
82563068|NCT02841449|164835592|OTHER|||||||0.055||||||Above is trial\*time effect. trial p = 0.135; time p = 0.011|ANOVA|repeated measures||||||0.055
82563069|NCT02841449|164835593|OTHER|||||||0.226|||||||t-test, 2 sided|paired sample||||||0.226
82563070|NCT02841449|164835594|OTHER||||||<|0.001|||||||t-test, 2 sided|paired samples||||||< 0.001
82563071|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|4.1|||||TWO_SIDED|95.0|-0.9|9.2||||||Tx 1 - SBP (Unadjusted)||9.2|-0.9|
82563072|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.4|5.3||||||Tx 1 - DBP (Unadjusted)||5.3|-0.4|
82563073|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-6.2|5.6||||||Wk 3 - SBP (Unadjusted)||5.6|-6.2|
82563074|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-4.0|3.5||||||Wk 3 - DBP (Unadjusted)||3.5|-4.0|
82563075|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-1.9|8.9||||||Wk 6 - SBP (Unadjusted)||8.9|-1.9|
82563076|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-2.1|5.0||||||Wk 6 - DBP (Unadjusted)||5.0|-2.1|
82563077|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|4.7|||||TWO_SIDED|95.0|-0.4|9.8||||||Tx 1 - SBP (Adjusted)||9.8|-0.4|
82563078|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|3.6|||||TWO_SIDED|95.0|0.6|6.5||||||Tx 1 - DBP (Adjusted)||6.5|0.6|
82563079|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-5.0|6.9||||||Wk 3 - SBP (Adjusted)||6.9|-5.0|
82563080|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9||||||Wk 3 - DBP (Adjusted)||4.9|-2.8|
82563081|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-0.4|10.0||||||Wk 6 - SBP (Adjusted)||10.0|-0.4|
82563082|NCT01020435|164835599|OTHER||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|-1.2|5.8||||||Wk 6 - DBP (Adjusted)||5.8|-1.2|
82563083|NCT02707952|164835602|NON_INFERIORITY|The percentage of participants achieving SVR12 was calculated for each arm and a 2-sided 95% CI for the difference in SVR12 rates (Arm A minus Arm B) was calculated using the normal approximation to the binomial distribution to assess non-inferiority in SVR12 rates of arm A to arm B. If the lower bound of the confidence interval (CI) for the difference was above the non-inferiority margin of -10%, then arm A was considered non-inferior to arm B.|Rate Difference|-0.9|||||TWO_SIDED|95.0|-2.8|0.9|||||95% CI was calculated using the normal approximation to the binomial distribution.|||0.9|-2.8|
82563084|NCT01697956|164835646|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of BDP nasal aerosol versus placebo was greater than 0.80.|ratio of BDP nasal aerosol to placebo|0.91|||||TWO_SIDED|95.0|0.81|1.03||||||The standard deviation of the logarithmically transformed data on the change from baseline (expressed as a ratio) in 24-hr serum cortisol weighted mean is assumed to be 0.30. Using this standard deviation, 90 subjects (approximately 60 and 30 subjects in the BDP Nasal Aerosol and placebo groups, respectively) will yield approximately 90% power to demonstrate non-inferiority between BDP Nasal Aerosol and placebo, if there is no true difference between treatment groups.||1.03|0.81|
82563085|NCT01964547|164835656|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size is adequate to confirm the non-inferiority of Sativex with a clinical relevant reduction delta of 10%, assuming there is no difference between treatments in the actual change in cognition and also assuming a standard deviation for treatment difference of 10, using a one-tailed 2.5% significance level and power of 90%. Sativex is deemed to be non-inferior to placebo if the lower 1-sided 97.5% CI of the estimated mean treatment difference (Sativex-Placebo) is greater than -10%.|Estimated mean treatment difference|-1.47|STANDARD_ERROR_OF_MEAN|2.492|||ONE_SIDED|97.5|-6.41||||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate. The planned sample size was 120 participants(60 patients in the Sativex arm and 60 in the placebo arm).|||-6.41|
82563086|NCT01964547|164835657|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sativex is deemed to be non-inferior to placebo if the upper 1-sided 97.5% CI of the estimated mean treatment difference (Sativex-Placebo) is less than +5%.|Estimated mean treatment difference|-0.29|STANDARD_ERROR_OF_MEAN|1.323|||ONE_SIDED|97.5||2.33|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate.||2.33||
82563087|NCT01964547|164835658|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.02||||0.0001|TWO_SIDED|95.0|1.96|8.22|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||8.22|1.96|0.0001
82563088|NCT01964547|164835659|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.79||||0.0142|TWO_SIDED|95.0|1.23|6.31|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||6.31|1.23|0.0142
82563089|NCT01964547|164835660|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.07||||0.0019|TWO_SIDED|95.0|1.51|6.21|||Regression, Logistic|||Data were analysed using ordinal logistic regression using the cumulative proportional odds model, with global impression of change as the dependent variable and treatment group as factor.||6.21|1.51|0.0019
82563090|NCT01964547|164835661|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.36|STANDARD_ERROR_OF_MEAN|1.88||0.212|TWO_SIDED|95.0|-6.09|1.37|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and center grouping as factors and the baseline score as covariate.||1.37|-6.09|0.212
82563091|NCT01964547|164835664|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|4.88|STANDARD_ERROR_OF_MEAN|8.25||0.556|TWO_SIDED|95.0|-11.51|21.27|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment group and centre grouping as factors and baseline score as covariate.||21.27|-11.51|0.556
82563092|NCT01964547|164835664|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann median difference|-1.0||||0.088|TWO_SIDED|95.0|-3.0|0.0|||Wilcoxon (Mann-Whitney)|||The change at end of treatment was compared between treatment groups using non-parametric methods as the distribution of data was non-normal.||0|-3|0.088
82563093|NCT01115309|164835667|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82563094|NCT01115309|164835668|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82563095|NCT03246724|164835678|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. A 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||As a sensitivity analysis, an ANCOVA model will be fit to the data adjusting for factors that are out of balance following randomization. The mean difference between the adjusted means will be calculated.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, the oral sedation will be deemed non-inferior to IV.||"Testable hypothesis: Patient satisfaction mean will be non-inferior when given oral triazolam in comparison to IV midazolam during all basic cataracts, retina, cornea, and glaucoma ocular procedures.~Null hypothesis: The null hypothesis is that the oral sedation group will have a primary endpoint mean equal to or less than that of the IV sedation group by the non-inferiority margin or more."||||<0.05
82624310|NCT00379236|164964142|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|Baseline pain score was the covariate; study center was modeled as a random effect while all other variables were modeled as fixed effects.||||||0.002
82624311|NCT00379236|164964153|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
82624312|NCT00438464|164964176|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82563096|NCT03246724|164835679|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. We determined a 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||Surgeon satisfaction score will be independently analyzed. Summary statistics including, means, standard deviations along with points estimates of the mean difference between the two groups and 90% Confidence Intervals.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, oral sedation will be deemed non-inferior to IV.||"Null hypothesis: Mean surgeon satisfaction score for oral triazolam will be statistically significant in comparison to mean surgeon satisfaction score for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures.~Alternate hypothesis: Mean surgeon satisfaction score for oral triazolam will not be statistically significant in comparison to mean surgeon satisfaction score for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures."||||<0.05
82563097|NCT03246724|164835680|NON_INFERIORITY|A non-inferiority margin of 0.5, will assure that, if non-inferiority is proven, the mean patient satisfaction with oral sedation will correspond to scores corresponding to satisfied or higher. We determined a 0.5 margin to be considered clinically similar enough to declare non-inferiority because it allows for expected patient satisfaction variability, and demonstrates ample justification for providers to offer oral sedation as a safe alternative.|||||<|0.05||||||Anesthesiologist/CRNA satisfaction score will be independently analyzed. Summary statistics including, means, standard deviations along with points estimates of the mean difference between the two groups and 90% Confidence Intervals.|ANCOVA|If lower bound of the 90% two-sided Confidence Interval of mean difference is higher than -0.5, the oral sedation will be deemed non-inferior to IV.||"Null hypothesis: Mean anesthesiologist/CRNA satisfaction score for oral triazolam will be statistically significant in comparison to mean anesthesiologist/CRNA satisfaction score for IV midazolam during cataracts, retina, cornea, and glaucoma procedures.~Alternate hypothesis:Mean anesthesiologist/CRNA satisfaction score for oral triazolam will not be statistically significant in comparison to mean satisfaction score for IV midazolam during cataracts, retina, cornea, and glaucoma procedures."||||<0.05
82563098|NCT03246724|164835681|OTHER|Additional anesthesia intervention will be using summary statistics including, counts and proportions along with point's estimates of the proportion difference between the two groups and 90% Confidence Intervals.|||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis:The total additional anesthesia interventions for oral triazolam will be statistically significant in comparison to additional anesthesia interventions for IV midazolam during cataracts, retina, cornea, and glaucoma procedures.~Alternate hypothesis:The total additional anesthesia interventions for oral triazolam will not be statistically significant in comparison to additional anesthesia interventions for IV midazolam during cataracts, retina, cornea, and glaucoma procedures"||||<0.05
82563099|NCT03246724|164835682|OTHER|Surgical complications will be using summary statistics including, counts and proportions along with point's estimates of the proportion difference between the two groups and 90% Confidence Intervals.|||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis: The total surgical complications for oral triazolam will be statistically significant in comparison to total surgical complications for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures.~Alternate hypothesis: The total surgical complications for oral triazolam will not be statistically significant in comparison to total surgical complications for IV midazolam during all cataracts, retina, cornea, and glaucoma ocular procedures."||||<0.05
82563100|NCT02978716|164835683|SUPERIORITY||Mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.7048|TWO_SIDED|95.0|-0.8|1.5||A Hochberg-based gatekeeping procedure was used to control the global family-wise error rate across the multiple null hypotheses in the strong sense at a 1-sided 0.025 level.|Analysis of covariance (ANCOVA)|||Duration of SN in Cycle 1 in Group 3 vs Group 1.||1.5|-0.8|0.7048
82563101|NCT02978716|164835683|SUPERIORITY||Mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.71||0.3364|TWO_SIDED|95.0|-0.6|2.3||2-sided p-value was calculated using a ANCOVA with study baseline ANC value as covariate, stratification factors of lines of systemic therapy, liver involvement and treatment as fixed effects.|ANCOVA|||Duration of SN in Cycle 1 in Group 2 vs Group 1.||2.3|-0.6|0.3364
82563102|NCT02978716|164835684|SUPERIORITY||Adjusted rate ratio|0.776|STANDARD_ERROR_OF_MEAN|0.2762||0.7048|TWO_SIDED|95.0|0.386|1.559||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|Modified Poisson method|||Number of participants with SN in Group 3 vs Group 1.||1.559|0.386|0.7048
82563103|NCT02978716|164835684|SUPERIORITY||Adjusted rate ratio|0.961|STANDARD_ERROR_OF_MEAN|0.364||0.9154|TWO_SIDED|95.0|0.457|2.019||The p-value was calculated using modified Poisson method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors and baseline ANC as a covariate.|Modified Poisson Regression|||Number of participants with SN in Group 2 vs Group 1.||2.019|0.457|0.9154
82563104|NCT02978716|164835687|SUPERIORITY||Adjusted hazard ratio (HR)|0.4|STANDARD_ERROR_OF_MEAN|0.125||0.0004|TWO_SIDED|95.0|0.22|0.74||P-value was calculated using the stratified log-rank test to account for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|stratified log-rank test||Cox regression model.|Overall survival in Group 3 vs Group 1.||0.74|0.22|0.0004
82563105|NCT02978716|164835687|SUPERIORITY||Adjusted HR|0.31|STANDARD_ERROR_OF_MEAN|0.111||0.0016|TWO_SIDED|95.0|0.15|0.63||P-value was calculated using the stratified log-rank test to account for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|stratified log-rank test||Cox regression model.|Overall survival in Group 2 vs Group 1.||0.63|0.15|0.0016
82563106|NCT02978716|164835707|SUPERIORITY||Adjusted HR|0.493|STANDARD_ERROR_OF_MEAN|0.1957||0.7048|TWO_SIDED|95.0|0.226|1.073||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||RBC Transfusions in Group 3 vs Group 1.||1.073|0.226|0.7048
82563107|NCT02978716|164835707|SUPERIORITY||Adjusted rate ratio|0.885|STANDARD_ERROR_OF_MEAN|0.3089||0.7272|TWO_SIDED|95.0|0.447|1.754||P-value was calculated using modified Poisson method adjusting for duration of treatment in days accounting for number of prior lines of therapy (0 versus 1 - 2); liver involvement as the stratification factors and baseline hemoglobin as a covariate.|Modified Poisson Regression|||RBC Transfusions in Group 2 vs Group 1.||1.754|0.447|0.7272
82563108|NCT02978716|164835708|SUPERIORITY||Adjusted rate ratio|0.988|STANDARD_ERROR_OF_MEAN|0.6105||0.7048|TWO_SIDED|95.0|0.294|3.317||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||Platelet Transfusions in Group 3 vs Group 1.||3.317|0.294|0.7048
82563109|NCT02978716|164835708|SUPERIORITY||Adjusted rate ratio|0.527|STANDARD_ERROR_OF_MEAN|0.4077||0.4078|TWO_SIDED|95.0|0.116|2.399||P-value: calculated using modified Poisson method adjusting for duration of treatment in days accounting for number of prior lines of therapy (0 versus 1 - 2); liver involvement as stratification factors and baseline platelet count as a covariate.|Modified Poisson Regression|||Platelet Transfusions in Group 2 vs Group 1.||2.399|0.116|0.4078
82563110|NCT02978716|164835709|SUPERIORITY||Adjusted rate ratio|0.645|STANDARD_ERROR_OF_MEAN|0.1902||0.7048|TWO_SIDED|95.0|0.362|1.15||A 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global familywise error rate across the multiple null hypotheses.|modified Poisson regression|||G-CSF Administration in Group 3 vs Group 1.||1.150|0.362|0.7048
82563111|NCT02978716|164835709|SUPERIORITY||Adjusted rate ratio|0.936|STANDARD_ERROR_OF_MEAN|0.226||0.7835|TWO_SIDED|95.0|0.583|1.502||P-value was calculated using modified Poisson method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors and baseline ANC as a covariate.|Modified Poisson Regression|||G-CSF Administration in Group 2 vs Group 1.||1.502|0.583|0.7835
82563112|NCT02978716|164835712|SUPERIORITY||Adjusted rate ratio|0.991|STANDARD_ERROR_OF_MEAN|0.3718||0.7048|TWO_SIDED|95.0|0.475|2.067||The 1-sided p-value was calculated using Hochberg-based gatekeeping procedure to control the global family wise error rate across the multiple null hypotheses.|negative binomial regression|||All-cause Dose Reductions in Group 3 vs Group 1.||2.067|0.475|0.7048
82441546|NCT02649192|164591674|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2016-17 season||||0.49
82441547|NCT02649192|164591674|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG1 at day 56 in 2017-18 season||||0.50
82441548|NCT02649192|164591674|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2015-16 season||||0.90
82563113|NCT02978716|164835712|SUPERIORITY||Adjusted rate ratio|0.82|STANDARD_ERROR_OF_MEAN|0.2744||0.5541|TWO_SIDED|95.0|0.426|1.58||P-value was calculated using negative binomial method adjusting for number of cycles, accounting for the number of prior lines of therapy (0 versus 1 - 2) and liver involvement as the stratification factors.|negative binomial regression|||All-cause Dose Reductions in Group 2 vs Group 1.||1.580|0.426|0.5541
82563114|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.77|||||TWO_SIDED|95.0|0.62|0.97|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 4: Ratio of geometric means (13vPnC, 7vPnC)||0.97|0.62|
82441549|NCT02649192|164591674|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2016-17 season||||0.76
82441550|NCT02649192|164591674|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG2 at day 56 in 2017-18 season||||0.65
82441551|NCT02649192|164591674|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2015-16 season||||0.90
82563115|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.17|||||TWO_SIDED|95.0|0.87|1.57|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6B: Ratio of geometric means (13vPnC, 7vPnC)||1.57|0.87|
82624313|NCT00438464|164964177|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
82441552|NCT02649192|164591674|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2016-17 season||||0.76
82441553|NCT02649192|164591674|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgG3 at day 56 in 2017-18 season||||0.54
82441554|NCT02649192|164591674|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2015-16 season||||0.90
82441555|NCT02649192|164591674|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2016-17 season||||0.95
82441556|NCT02649192|164591674|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference between intervention and placebo groups in the ratio of IgA/IgM at day 56 in 2017-18 season||||0.34
82441557|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|H1N1||0|0|
82441558|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-23.6|||||TWO_SIDED|95.0|-51.7|6.2|||||Treatment group minus placebo|H1N1||6.2|-51.7|
82441559|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-13.0|||||TWO_SIDED|95.0|-49.4|26.5|||||Treatment group minus placebo|H1N1||26.5|-49.4|
82441560|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-10.0|||||TWO_SIDED|95.0|-70.1|56.1|||||Treatment group minus placebo|H3N2||56.1|-70.1|
82441561|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-8.6|||||TWO_SIDED|95.0|-38.8|20.6|||||Treatment group minus placebo|H3N2||20.6|-38.8|
82441562|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|22.7|||||TWO_SIDED|95.0|-17.5|57.9|||||Treatment group minus placebo|H3N2||57.9|-17.5|
82441563|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|B/Phuket||0|0|
82441564|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-26.4|||||TWO_SIDED|95.0|-54.1|5.8|||||Treatment group minus placebo|B/Phuket||5.8|-54.1|
82563116|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.88|||||TWO_SIDED|95.0|0.73|1.07|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 9V: Ratio of geometric means (13vPnC, 7vPnC)||1.07|0.73|
82563117|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.91|||||TWO_SIDED|95.0|0.7|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 14: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.70|
82563118|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97|||||TWO_SIDED|95.0|0.79|1.18|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 18C: Ratio of geometric means (13vPnC, 7vPnC)||1.18|0.79|
82563119|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.71|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19F: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.71|
82563120|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.04|||||TWO_SIDED|95.0|0.8|1.36|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 23F: Ratio of geometric means (13vPnC, 7vPnC)||1.36|0.80|
82563121|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|329.44|||||TWO_SIDED|95.0|242.98|446.67|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 1: Ratio of geometric means (13vPnC, 7vPnC)||446.67|242.98|
82563122|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|40.79|||||TWO_SIDED|95.0|30.27|54.97|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 3: Ratio of geometric means (13vPnC, 7vPnC)||54.97|30.27|
82563123|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|13.12|||||TWO_SIDED|95.0|9.92|17.34|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 5: Ratio of geometric means (13vPnC, 7vPnC)||17.34|9.92|
82563124|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|9.01|||||TWO_SIDED|95.0|6.46|12.56|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6A: Ratio of geometric means (13vPnC, 7vPnC)||12.56|6.46|
82563125|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|165.9|||||TWO_SIDED|95.0|122.95|223.85|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 7F: Ratio of geometric means (13vPnC, 7vPnC)||223.85|122.95|
82563126|NCT00689351|164835727|SUPERIORITY_OR_OTHER||Ratio of geometric means|2.24|||||TWO_SIDED|95.0|1.83|2.75|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19A: Ratio of geometric means (13vPnC, 7vPnC)||2.75|1.83|
82563127|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.78|||||TWO_SIDED|95.0|0.6|1.02|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 4: Ratio of geometric means (13vPnC, 7vPnC)||1.02|0.60|
82563128|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.11|||||TWO_SIDED|95.0|0.83|1.48|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6B: Ratio of geometric means (13vPnC, 7vPnC)||1.48|0.83|
82563129|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.95|||||TWO_SIDED|95.0|0.76|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 9V: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.76|
82563130|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.74|||||TWO_SIDED|95.0|0.57|0.95|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 14: Ratio of geometric means (13vPnC, 7vPnC)||0.95|0.57|
82624314|NCT00438464|164964178|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82624315|NCT00438464|164964179|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.805
82624316|NCT00438464|164964180|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.254
82563131|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.72|1.19|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 18C: Ratio of geometric means (13vPnC, 7vPnC)||1.19|0.72|
82563132|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.45|||||TWO_SIDED|95.0|1.11|1.88|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19F: Ratio of geometric means (13vPnC, 7vPnC)||1.88|1.11|
82563133|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.78|1.4|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 23F: Ratio of geometric means (13vPnC, 7vPnC)||1.40|0.78|
82563134|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|234.33|||||TWO_SIDED|95.0|176.33|311.41|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 1: Ratio of geometric means (13vPnC, 7vPnC)||311.41|176.33|
82563135|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|16.63|||||TWO_SIDED|95.0|12.19|22.69|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 3: Ratio of geometric means (13vPnC, 7vPnC)||22.69|12.19|
82563136|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|6.84|||||TWO_SIDED|95.0|5.39|8.67|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 5: Ratio of geometric means (13vPnC, 7vPnC)||8.67|5.39|
82563137|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|4.08|||||TWO_SIDED|95.0|3.07|5.43|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 6A: Ratio of geometric means (13vPnC, 7vPnC)||5.43|3.07|
82563138|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|110.92|||||TWO_SIDED|95.0|77.09|159.59|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 7F: Ratio of geometric means (13vPnC, 7vPnC)||159.59|77.09|
82563139|NCT00689351|164835728|SUPERIORITY_OR_OTHER||Ratio of geometric means|4.25|||||TWO_SIDED|95.0|3.39|5.33|||Student t distribution|Geometric mean ratio computed using Student t distribution for the mean difference of the measures on the log scale.|CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Serotype 19A: Ratio of geometric means (13vPnC, 7vPnC)||5.33|3.39|
82563140|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.862|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.862
82441565|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|16.9|||||TWO_SIDED|95.0|-23.1|53.3|||||Treatment group minus placebo|B/Phuket||53.3|-23.1|
82563141|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.157|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.157
82563142|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.55|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.550
82563143|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.052|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.052
82563144|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.366|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.366
82563145|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.301|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.301
82563146|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.362|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.362
82563147|NCT00689351|164835729|SUPERIORITY_OR_OTHER|||||||0.718|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.718
82563148|NCT00689351|164835730|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||>0.99
82563149|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.245
82563150|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.447|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.447
82563151|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.684|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.684
82563152|NCT00689351|164835730|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||>0.99
82563153|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.578|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.578
82563154|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.451|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.451
82624317|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within GG3||||0.70
82563155|NCT00689351|164835730|SUPERIORITY_OR_OTHER|||||||0.712|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.712
82563156|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.681|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.681
82563157|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.482|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.482
82624318|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Estrogen receptor beta (ERβ), Within GG3||||0.38
82563158|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.683|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.683
82563159|NCT00689351|164835731|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||>0.99
82563160|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.533|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.533
82563161|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.692|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.692
82563162|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||Comparison between treatments for mild redness.||||0.662
82563163|NCT00689351|164835731|SUPERIORITY_OR_OTHER|||||||0.331|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.331
82563164|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.409|||||||Fisher Exact|||Comparison between treatments for any tenderness.||||0.409
82563165|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.617|||||||Fisher Exact|||Comparison between treatments for significant tenderness.||||0.617
82563166|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.807|||||||Fisher Exact|||Comparison between treatments for any swelling.||||0.807
82563167|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.527|||||||Fisher Exact|||Comparison between treatments for mild swelling.||||0.527
82563168|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.144|||||||Fisher Exact|||Comparison between treatments for moderate swelling.||||0.144
82563169|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.495|||||||Fisher Exact|||Comparison between treatments for severe swelling.||||0.495
82563170|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.506|||||||Fisher Exact|||Comparison between treatments for any redness.||||0.506
82563171|NCT00689351|164835732|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for mild redness.||||>0.99
82563172|NCT00689351|164835732|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||Comparison between treatments for moderate redness.||||0.200
82563173|NCT00689351|164835733|SUPERIORITY_OR_OTHER|||||||0.633|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but but less than or equal to (≤)39 degrees C.||||0.633
82563174|NCT00689351|164835733|SUPERIORITY_OR_OTHER|||||||0.721|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.721
82563175|NCT00689351|164835733|SUPERIORITY_OR_OTHER|||||||0.009|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.009
82563176|NCT00689351|164835733|SUPERIORITY_OR_OTHER|||||||0.253|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.253
82563177|NCT00689351|164835733|SUPERIORITY_OR_OTHER|||||||0.143|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.143
82563178|NCT00689351|164835734|SUPERIORITY_OR_OTHER|||||||0.781|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.781
82563179|NCT00689351|164835734|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.060
82563180|NCT00689351|164835734|SUPERIORITY_OR_OTHER|||||||0.159|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.159
82563181|NCT00689351|164835734|SUPERIORITY_OR_OTHER|||||||0.839|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.839
82563182|NCT00689351|164835734|SUPERIORITY_OR_OTHER|||||||0.264|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.264
82563183|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.563|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.563
82563184|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.468|||||||Fisher Exact|||Comparison between treatments for fever \>39 degrees C but ≤40 degrees C.||||0.468
82563185|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.535|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.535
82563186|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.019|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.019
82563187|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.398|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.398
82563188|NCT00689351|164835735|SUPERIORITY_OR_OTHER|||||||0.125|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.125
82563189|NCT00689351|164835736|SUPERIORITY_OR_OTHER|||||||0.596|||||||Fisher Exact|||Comparison between treatments for fever ≥38 degrees C but ≤39 degrees C.||||0.596
82563190|NCT00689351|164835736|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Comparison between treatments for fever \>39 degrees C but ≤40 degrees C.||||>0.99
82563191|NCT00689351|164835736|SUPERIORITY_OR_OTHER|||||||0.663|||||||Fisher Exact|||Comparison between treatments for decreased appetite.||||0.663
82563192|NCT00689351|164835736|SUPERIORITY_OR_OTHER|||||||0.439|||||||Fisher Exact|||Comparison between treatments for irritability.||||0.439
82563193|NCT00689351|164835736|SUPERIORITY_OR_OTHER|||||||0.613|||||||Fisher Exact|||Comparison between treatments for increased sleep.||||0.613
82563194|NCT00689351|164835736|SUPERIORITY_OR_OTHER|||||||0.138|||||||Fisher Exact|||Comparison between treatments for decreased sleep.||||0.138
82563195|NCT02158806|164835747|SUPERIORITY|Participants analysed in the groups to which they were randomised (intention to treat analysis).|Cox Proportional Hazard|0.85|STANDARD_ERROR_OF_MEAN|0.146||0.246|TWO_SIDED|95.0|0.64|1.13|||Log Rank||Placebo group = reference group|Placebo group = reference group||1.13|0.64|0.246
82563196|NCT02158806|164835748|SUPERIORITY|Participants analysed in the groups to which they were randomised (intention to treat analysis).|Risk Ratio (RR)|0.88||||0.073|TWO_SIDED|95.0|0.76|1.01|||Chi-squared|||||1.01|0.76|0.073
82563197|NCT02158806|164835749|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.25|TWO_SIDED|95.0|-1.9|0.5||Adjusted for baseline values.|ANCOVA|One participant in aspirin group had missing data for 24 week endpoint visit; we used the baseline value for imputation.|Placebo group = reference group.|||0.5|-1.9|0.25
82563198|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|1.1||||0.714|TWO_SIDED|95.0|-5.0|7.2|||Regression, Linear|Adjusted for baseline values||Change in Physical Functioning||7.2|-5.0|0.714
82563199|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|1.4||||0.768|TWO_SIDED|95.0|-8.0|10.8|||Regression, Linear|Adjusted for baseline values||Change in Role Physical||10.8|-8.0|0.768
82563200|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|2.3||||0.449|TWO_SIDED|95.0|-3.7|8.4|||Regression, Linear|Adjusted for baseline values||Change in Bodily Pain||8.4|-3.7|0.449
82624319|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Androgen receptor (AR), Within GG3||||0.41
82563201|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|-0.3||||0.873|TWO_SIDED|95.0|-4.3|3.6|||Regression, Linear|Adjusted for baseline values||Change in General Health||3.6|-4.3|0.873
82563202|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|4.2||||0.057|TWO_SIDED|95.0|-0.1|8.5|||Regression, Linear|Adjusted for baseline values||Change in Vitality||8.5|-0.1|0.057
82563203|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|1.0||||0.756|TWO_SIDED|95.0|-5.1|7.0|||Regression, Linear|Adjusted for baseline values||Change in Social Functioning||7.0|-5.1|0.756
82563204|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|3.7||||0.4|TWO_SIDED|95.0|-4.9|12.3|||Regression, Linear|Adjusted for baseline values||Change in Role Emotional||12.3|-4.9|0.400
82563205|NCT02158806|164835750|SUPERIORITY||Mean Difference (Net)|-2.3||||0.236|TWO_SIDED|95.0|-6.2|1.5|||Regression, Linear|Adjusted for baseline values||Change in Mental Health||1.5|-6.2|0.236
82563206|NCT02158806|164835751|SUPERIORITY||Mean Difference (Net)|3.4||||0.156|TWO_SIDED|95.0|-1.3|8.0||Adjusted for baseline values|Regression, Linear|||||8.0|-1.3|0.156
82563207|NCT02158806|164835752|SUPERIORITY||Mean Difference (Net)|-1.5||||0.438|TWO_SIDED|95.0|-5.2|2.2|||Regression, Linear|Adjusted for baseline values||Change in social function||2.2|-5.2|0.438
82563208|NCT02158806|164835752|SUPERIORITY||Mean Difference (Net)|-1.3||||0.408|TWO_SIDED|95.0|-4.5|1.9|||Regression, Linear|Adjusted for baseline values||Change in domestic activities||1.9|-4.5|0.408
82563209|NCT02158806|164835752|SUPERIORITY||Mean Difference (Net)|-1.3||||0.568|TWO_SIDED|95.0|-5.6|3.1|||Regression, Linear|Adjusted for baseline values||Change in cosmesis||3.1|-5.6|0.568
82563210|NCT02158806|164835752|SUPERIORITY||Mean Difference (Net)|-3.0||||0.257|TWO_SIDED|95.0|-8.1|2.2|||Regression, Linear|Adjusted for baseline values||Change in emotional status||2.2|-8.1|0.257
82563211|NCT02158806|164835752|SUPERIORITY||Mean Difference (Net)|-1.9||||0.273|TWO_SIDED|95.0|-5.2|1.5|||Regression, Linear|Adjusted for baseline values||||1.5|-5.2|0.273
82563212|NCT02158806|164835753|SUPERIORITY||Risk Ratio (RR)|1.01||||0.917|TWO_SIDED|95.0|0.87|1.17|||Chi-squared|||||1.17|0.87|0.917
82563213|NCT02158806|164835754|SUPERIORITY||Incidence Rate Ratio|1.1||||0.71|TWO_SIDED|95.0|0.7|1.7|||IRR test statistic|Incidence Rate Ratio (IRR) test statistic compared to probability of the same obtained from standard normal distribution tables.||||1.7|0.7|0.71
82563214|NCT01898299|164835755|SUPERIORITY||Cohen's d effectsize|0.48||||0.036|TWO_SIDED||||||ANCOVA|Control for Chlopromazine equivalents||||||0.036
82563215|NCT00760877|164835772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.096||||0.1083|TWO_SIDED|95.0|0.766|5.738|||Cochran-Mantel-Haenszel|||||5.738|0.766|0.1083
82563216|NCT01020487|164835816|SUPERIORITY_OR_OTHER||Difference|27.8||||0.045|TWO_SIDED|95.0|7.5|52.8|||Fisher Exact|||Treatment effects were evaluated based on a two-sided significance level of 0.050. The primary efficacy analysis was a comparison between the paricalcitol capsules and placebo groups in the percentage of participants achieving 2 consecutive ≥ 30% reductions in iPTH from baseline regardless of CKD stage conducted using Fisher's exact test.||52.8|7.5|0.045
82563217|NCT01020487|164835817|SUPERIORITY_OR_OTHER|||||||0.128|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.128
82563218|NCT01020487|164835818|SUPERIORITY_OR_OTHER||Differenbce|-72.4|||<|0.001|TWO_SIDED|95.0|-108.05|-36.75|||Mixed Models Analysis|||Overall Comparison (all time points): A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-36.75|-108.05|< 0.001
82563219|NCT01020487|164835818|SUPERIORITY_OR_OTHER||Difference|-62.55||||0.006|TWO_SIDED|95.0|-105.6|-19.49|||Mixed Models Analysis|||Week 2 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-19.49|-105.60|0.006
82563220|NCT01020487|164835818|SUPERIORITY_OR_OTHER||Difference|-68.43||||0.032|TWO_SIDED|95.0|-130.39|-6.47|||Mixed Models Analysis|||Week 4 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-6.47|-130.39|0.032
82563221|NCT01020487|164835818|SUPERIORITY_OR_OTHER||Difference|-70.09||||0.043|TWO_SIDED|95.0|-137.82|-2.37|||Mixed Models Analysis|||Week 8 Comparison: A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-2.37|-137.82|0.043
82563222|NCT01020487|164835818|SUPERIORITY_OR_OTHER||Difference|-88.52||||0.002|TWO_SIDED|95.0|-142.04|-35.01|||Mixed Models Analysis|||Week 12 Comparison: A mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||-35.01|-142.04|0.002
82563223|NCT01020487|164835819|SUPERIORITY_OR_OTHER|||||||0.327|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.327
82563224|NCT01020487|164835820|SUPERIORITY_OR_OTHER|||||||0.194|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CHM) test, adjusting for CKD Stage.||||||0.194
82563225|NCT01020487|164835821|SUPERIORITY_OR_OTHER||Difference|0.14||||0.469|TWO_SIDED|95.0|-0.25|0.53|||Mixed Models Analysis|||Overall Comparison (all time points): a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||0.53|-0.25|0.469
82563226|NCT01020487|164835821|SUPERIORITY_OR_OTHER||Difference|-0.01||||0.975|TWO_SIDED|95.0|-0.39|0.37|||Mixed Models Analysis|||Week 4 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement.||0.37|-0.39|0.975
82624320|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within GG3||||0.75
82624321|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3-oxo-5α-steroid 4-dehydrogenase 2 (SRD5A2), Within GG3||||0.57
82624322|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ubiquitin-conjugating enzyme E2C (UBE2C), Within GG3||||0.12
82563227|NCT01020487|164835821|SUPERIORITY_OR_OTHER||Difference|0.12||||0.567|TWO_SIDED|95.0|-0.32|0.56|||Mixed Models Analysis|||Week 8 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||0.56|-0.32|0.567
82563228|NCT01020487|164835821|SUPERIORITY_OR_OTHER||Difference|0.3||||0.462|TWO_SIDED|95.0|-0.53|1.12|||Mixed Models Analysis|||Week 12 Comparison: a mixed effects repeated measures analysis using all the longitudinal observations across the visits including the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous covariate of baseline measurement||1.12|-0.53|0.462
82563229|NCT00507429|164835863|SUPERIORITY_OR_OTHER|||||||0.223|||||||Log Rank|||||||0.223
82563230|NCT01574105|164835871|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes of 26 in heparin resistant group and 26 in heparin sensitive group achieve 90% power at the 0.025 level of significance to detect a non-inferiority using a one-sided two-sample t-test, assuming a noninferiority margin is 200 milliliters in the postoperative chest tube loss.|||||<|0.1||95.0|||||ANCOVA|||For the analysis of the patient characteristics Wilcoxon, Chi-square and Fischer's exact tests were used. An upper bound of a two-sided 95% confidence interval (CI) of the mean difference between resistant and sensitive groups for all values of chest tube losses was computed by analysis of covariance (ANCOVA), and compared with pre-specified noninferiority limits. Covariates in the ANCOVA model included patient characteristics differing between two groups with a p-value \<0.1.||||<0.1
82563231|NCT00608959|164835873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91|STANDARD_DEVIATION|1.563|<|0.001||95.0|-2.55|-1.26|||t-test, 2 sided|||Based on a two-sided test at the 5% level of significance, and assuming a SD of 1.3, a sample size of 20 subjects would provide 90% power to detect a mean change of 0.942. No information was available concerning the within-subject variability between the arms.||-1.26|-2.55|<0.001
82563232|NCT00608959|164835873|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.87|STANDARD_DEVIATION|1.656|<|0.001||95.0|-2.57|-1.17|||t-test, 2 sided|||Based on a two-sided test at the 5% level of significance, and assuming a SD of 1.3, a sample size of 20 subjects would provide 90% power to detect a mean change of 0.942. No information was available concerning the within-subject variability between the arms.||-1.17|-2.57|<0.001
82563233|NCT03884478|164835878|OTHER||Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|0.82||0.0001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.0001
82563234|NCT03884478|164835878|OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|0.77||0.005|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Control Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.005
82563235|NCT03884478|164835878|OTHER||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.82||0.25|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol Only Arm.||||.25
82563236|NCT03884478|164835879|OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.84||0.025|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.025
82563237|NCT03884478|164835879|OTHER||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.79||0.11|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*T2 interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.11
82563238|NCT03884478|164835879|OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.84||0.66|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.66
82563239|NCT03884478|164835880|OTHER||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
82624323|NCT00438464|164964181|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Cleaved Caspase 3 (Caspase), Within GG3||||0.03
82624324|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Vascular Epithelial Growth Factor (VEGF3), Within GG4||||0.45
82441566|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Treatment group minus placebo|B/Brisbane||0|0|
82563240|NCT03884478|164835880|OTHER||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks at the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||<.001
82563241|NCT03884478|164835880|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.25||0.88|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks at the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.88
82563242|NCT03884478|164835881|OTHER||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.26||0.03|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||.03
82563243|NCT03884478|164835881|OTHER||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.24||0.059|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on peak drinks. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.059
82563244|NCT03884478|164835881|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.71|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on weekly drinks. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.71
82563245|NCT03884478|164835882|OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
82563246|NCT03884478|164835882|OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||<.001
82563247|NCT03884478|164835882|OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.19||0.87|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 2 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.87
82563248|NCT03884478|164835883|OTHER||Median Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Control Arm.||||<.001
82563249|NCT03884478|164835883|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Control Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Control Arm versus the Control Arm.||||.002
82563250|NCT03884478|164835883|OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.2||0.43|TWO_SIDED||||||Mixed Models Analysis|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, relationship status, sexual identity, and sexual minority interpersonal stigma exposure in examining Time\*Arm interactions on negative consequences. To probe the significant Alcohol+Coping Arm\*Time interaction, a Tukey post-hoc test examined the change in negative consequences from baseline to the 4 month follow-up in the Alcohol+Coping Arm versus the Alcohol+Control Arm.||||.43
82563251|NCT01074229|164835895|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|Using Dunns test with Bonferroni conrrection for individual comparisons.||||||.05
82563252|NCT01074229|164835895|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|28.0||||0.05|TWO_SIDED|95.0|9.0|37.0|||Dunns test|Bonferonni correction||||37|9|.05
82441567|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-26.4|||||TWO_SIDED|95.0|-54.1|5.8|||||Treatment group minus placebo|B/Brisbane||5.8|-54.1|
82441568|NCT02649192|164591675|SUPERIORITY||Treatment Difference in Seroconversion R|-8.4|||||TWO_SIDED|95.0|-45.4|30.5|||||Treatment group minus placebo|B/Brisbane||30.5|-45.4|
82563253|NCT01074229|164835895|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0||||0.05|TWO_SIDED|95.0|14.0|42.0|||Dunns Test|Bonferroni correction||||42|14|.05
82563254|NCT01074229|164835896|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|With Dunns test and Bonferonni correction.||||||.05
82563255|NCT01074229|164835896|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.0||||0.003|TWO_SIDED|95.0|3.0|15.0|||Dunns test|||||15|3|0.003
82563256|NCT01074229|164835896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.14|TWO_SIDED|95.0|-1.0|12.0|||Dunns test|||||12|-1|0.14
82563257|NCT01322347|164835999|SUPERIORITY_OR_OTHER||Difference in LS Means between SFP & PBO|3.6|STANDARD_ERROR_OF_MEAN|1.39||0.011|TWO_SIDED|95.0||||LS Mean (SE) and p-value are from ANCOVA model with baseline Hgb as covariate. Model also includes indicator variable for baseline ESA dose stratum.|ANCOVA|||||||0.011
82563258|NCT04883541|164836017|SUPERIORITY|the t-test in independent groups|Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.8|<|0.05|TWO_SIDED|0.05|||||t-test, 2 sided|||||||<0.05
82563259|NCT02823574|164836025|SUPERIORITY||Odds Ratio (OR)|0.68||||0.2897|TWO_SIDED|95.5|0.33|1.43|||Mantel Haenszel|||Treatment A over Treatment B||1.43|0.33|0.2897
82563260|NCT02823574|164836030|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.78|1.41|||||computed using a cox proportional hazard model stratified by randomization PD-L1 and HPV status|||1.41|0.78|
82563261|NCT02823574|164836031|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.78|1.41|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.41|0.78|
82563262|NCT02823574|164836032|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.36|0.87|
82563263|NCT02823574|164836033|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.81|1.45|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.45|0.81|
82563264|NCT02823574|164836034|SUPERIORITY||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.81|1.61|||||computed using a cox proportional hazard model stratified by randomization PDL-1 and HPV status|||1.61|0.81|
82563265|NCT02823574|164836059|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.32|1.29|||Mantel Haenszel|||Treatment A over Treatment B||1.29|0.32|
82441569|NCT00787930|164591697|SUPERIORITY_OR_OTHER||||||>|0.05||||||a priori threshold for significance was 0.05|Chi-squared|||||||>0.05
82563266|NCT02991118|164836064|SUPERIORITY||Difference in LS mean|-17.42|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-20.951|-13.896|||ANCOVA|||||-13.896|-20.951|<0.001
82563267|NCT02991118|164836065|SUPERIORITY||Difference in LS mean|-14.77|STANDARD_ERROR_OF_MEAN|2.418|<|0.001|TWO_SIDED|95.0|-19.504|-10.027|||ANCOVA|||||-10.027|-19.504|<0.001
82563268|NCT02991118|164836066|SUPERIORITY||Difference in LS mean|-13.03|STANDARD_ERROR_OF_MEAN|1.652|<|0.001|TWO_SIDED|95.0|-16.27|-9.794|||ANCOVA|||||-9.794|-16.270|<0.001
82441570|NCT00787930|164591698|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|df=1||||||1.00
82563269|NCT02991118|164836067|SUPERIORITY||Difference in LS mean|-11.2|STANDARD_ERROR_OF_MEAN|1.224|<|0.001|TWO_SIDED|95.0|-13.599|-8.801|||ANCOVA|||||-8.801|-13.599|<0.001
82563270|NCT02991118|164836068|SUPERIORITY||Difference in LS mean|-13.02|STANDARD_ERROR_OF_MEAN|1.587|<|0.001|TWO_SIDED|95.0|-16.13|-9.907|||ANCOVA|||||-9.907|-16.130|<0.001
82563271|NCT02991118|164836069|SUPERIORITY||Location shift|-8.733|||<|0.039|TWO_SIDED|95.0|-17.238|-0.434|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-0.434|-17.238|<0.039
82563272|NCT02991118|164836072|SUPERIORITY||Difference in LS mean|4.89|STANDARD_ERROR_OF_MEAN|3.258||0.134|TWO_SIDED|95.0|-1.504|11.292|||ANCOVA|||||11.292|-1.504|0.134
82563273|NCT02991118|164836073|SUPERIORITY||Difference in LS mean|-6.13|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-8.369|-3.896|||ANCOVA|||||-3.896|-8.369|<0.001
82563274|NCT02991118|164836074|SUPERIORITY||Difference in LS mean|-12.27|STANDARD_ERROR_OF_MEAN|2.314|<|0.001|TWO_SIDED|95.0|-16.813|-7.722|||ANCOVA|||||-7.722|-16.813|<0.001
82563275|NCT02991118|164836075|SUPERIORITY||Difference in LS mean|-12.63|STANDARD_ERROR_OF_MEAN|2.01|<|0.001|TWO_SIDED|95.0|-16.58|-8.682|||ANCOVA|||||-8.682|-16.580|<0.001
82563276|NCT02991118|164836076|SUPERIORITY||Difference in LS mean|-9.92|STANDARD_ERROR_OF_MEAN|1.976|<|0.001|TWO_SIDED|95.0|-13.803|-6.037|||ANCOVA|||||-6.037|-13.803|<0.001
82563277|NCT02991118|164836077|SUPERIORITY||Difference in LS mean|-10.77|STANDARD_ERROR_OF_MEAN|1.489|<|0.001|TWO_SIDED|95.0|-13.698|-7.848|||ANCOVA|||||-7.848|-13.698|<0.001
82441571|NCT00787930|164591699|SUPERIORITY_OR_OTHER|||||||0.6056||||||No adjustment for multiple comparisons|Chi-squared|df=1||||||0.6056
82563278|NCT02991118|164836078|SUPERIORITY||Difference in LS mean|-8.36|STANDARD_ERROR_OF_MEAN|1.458|<|0.001|TWO_SIDED|95.0|-11.223|-5.493|||ANCOVA|||||-5.493|-11.223|<0.001
82563279|NCT02991118|164836079|SUPERIORITY||Difference in LS mean|-13.0|STANDARD_ERROR_OF_MEAN|2.451|<|0.001|TWO_SIDED|95.0|-17.829|-8.175|||ANCOVA|||||-8.175|-17.829|<0.001
82563280|NCT02991118|164836080|SUPERIORITY||Difference in LS mean|-9.58|STANDARD_ERROR_OF_MEAN|1.796|<|0.001|TWO_SIDED|95.0|-13.107|-6.047|||ANCOVA|||||-6.047|-13.107|<0.001
82563281|NCT02991118|164836081|SUPERIORITY||Location shift|-21.278|||<|0.001|TWO_SIDED|95.0|-32.25|-10.034|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-10.034|-32.250|<0.001
82563282|NCT02991118|164836082|SUPERIORITY||Location shift|-7.587||||0.102|TWO_SIDED|95.0|-16.978|1.653|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||1.653|-16.978|0.102
82563283|NCT02991118|164836083|SUPERIORITY||Difference in LS mean|-15.07|STANDARD_ERROR_OF_MEAN|2.641|<|0.001|TWO_SIDED|95.0|-20.26|-9.878|||ANCOVA|||||-9.878|-20.260|<0.001
82563284|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.9|||||TWO_SIDED|95.0|0.81|0.99|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||0.99|0.81|
82624325|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Estrogen receptor beta (ERβ), Within GG4||||0.83
82563285|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.02|||||TWO_SIDED|95.0|0.93|1.13|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.93|
82563286|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 44/76-SL strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.14|||||TWO_SIDED|95.0|1.03|1.27|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for 44/76-SL strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.27|1.03|
82563287|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.88|||||TWO_SIDED|95.0|0.78|0.98|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||0.98|0.78|
82563288|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.99|||||TWO_SIDED|95.0|0.88|1.1|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.1|0.88|
82563289|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 5/99 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.12|||||TWO_SIDED|95.0|1.0|1.26|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for 5/99 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.26|1.0|
82563290|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for for NZ98/254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.04||||||95.0|0.88|1.23|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot2 for NZ98/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.23|0.88|
82563291|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for for NZ98/254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.96||||||95.0|0.81|1.13|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot1 to rMenB Lot3 for NZ98/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.81|
82563292|NCT00657709|164836108|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following third vaccination was within this equivalence interval for each of the two co-primary comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for for NZ98 /254 strain with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.92|||||TWO_SIDED|95.0|0.78|1.08|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log-transformed titers and both the limits of 95% CIs.||"The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing rMenB Lot2 to rMenB Lot3 for NZ98~/254 strain at one month after the third vaccination was contained within the equivalence interval (0.5, 2.0)."||1.08|0.78|
82624326|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Androgen receptor (AR), Within GG4||||0.04
82624327|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within GG4||||0.80
82624328|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3-oxo-5α-steroid 4-dehydrogenase 2 (SRD5A2), Within GG4||||0.61
82441572|NCT00787930|164591700|NON_INFERIORITY_OR_EQUIVALENCE|Exploratory hypothesis|t-stat estimated value|1.52|STANDARD_DEVIATION|8.2||0.081|ONE_SIDED|95.0|0.0||||t-test, 1 sided|missing values: 6 df=7|||||0|0.081
82563293|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at one month after the third vaccination, were entirely within the interval \[-10%, 10%\].||1|-1|
82563294|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
82563295|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 44/76-SL strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
82563296|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for 5/99 strain.|Vaccines Group Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||1|-1|
82563297|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for 5/99 strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
82563298|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for 5/99 strain.|Vaccines Group Differences|1.0|||||TWO_SIDED|95.0|0.0|2.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1month after the third dose, were entirely within the interval \[-10%, 10%\].||2|0|
82563299|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot2 would be equivalent for NZ98/254 strain.|Percentage group difference|3.0|||||TWO_SIDED|95.0|-2.0|8.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentages of subjects with hSBA titers ≥ 1:5 at 1 month after the third dose, were entirely within the interval \[-10%, 10%\].||8|-2|
82563300|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot1 and rMenB Lot3 would be equivalent for NZ 98/254 strain.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-6.0|4.0|||Miettinen and Nurminen|The lot-to-lot difference in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at 1 month after the third dise, were entirely within the interval \[-10%, 10%\].||4|-6|
82624329|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within GG4||||0.86
82624330|NCT00438464|164964182|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within GG4||||0.02
82624331|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within Finasteride Arm||||0.84
82441573|NCT00787930|164591701|NON_INFERIORITY_OR_EQUIVALENCE|Exploratory analyses|t-stat estimated value|1.47|STANDARD_DEVIATION|6.56||0.091|ONE_SIDED|95.0|0.0|||no adjustment for multiple analyses|t-test, 1 sided|missing values: 5 df=7|||||0|0.091
82624332|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||ERβ, Within Finasteride Arm||||0.36
82624333|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||AR, Within Finasteride||||0.09
82624334|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within Finasteride Arm||||0.46
82563301|NCT00657709|164836110|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided (5% CIs of the differences in the percentages of subjects at one month following third vaccination was within this equivalence interval for each of the two comparisons, rMenB Lot2 and rMenB Lot3 would be equivalent for NZ98/254 strain.|Percentage group difference|-4.0|||||TWO_SIDED|95.0|-9.0|1.0|||Miettinen and Nurminen|The lot-to-lot differences in these percentages and associated 95% CIs were computed for each pair of rMenB+OMV lots.||The three vaccine lots would be considered equivalent if for each of the three strains and each pair of vaccine lots, the 95% CIs of the differences in the percentage of subjects with hSBA titers ≥ 1:5 at one month after the third dose, were entirely within the interval \[-10%, 10%\].||1|-9|
82563302|NCT00657709|164836113|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.84|||||TWO_SIDED|95.0|0.76|0.94|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least squares means of the log10-transformed titers and their associated 95% CIs.||Immunogenicity of the pertussis components (FHA) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.94|0.76|
82563303|NCT00657709|164836113|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.77|||||TWO_SIDED|95.0|0.67|0.89|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least square means of the log10-transformed titers and their associated 95% CIs.||Immunogenicity of the pertussis component (Pertactin) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of the routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.89|0.67|
82563304|NCT00657709|164836113|NON_INFERIORITY_OR_EQUIVALENCE|GMCs (GMCrMenB+OMV NZ lot1+lot2+lot3+InfanrixHexa / GMCInfanrixHexa)|Geometric group difference|0.8|||||TWO_SIDED|95.0|0.71|0.91|||ANOVA|GMCs and 95% CIs were constructed by exponentiating (base 10) the least squares means of the log10-transformed titers and their associated 95% CIS.||Immunogenicity of the pertussis components (PT) of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 would be considered non-inferior to that of the routine vaccines given alone if the lower limit of the two-sided CI for the ratio of GMCs one month after the third vaccination is ≥0.67.||0.91|0.71|
82563305|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age,would be considered non-inferior to that of routine infant vaccines given alone, for diphtheria toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥0.1 IU/mL for that antigen.||2|-1|
82563306|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for diphtheria toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥1.0 IU/mL for that antigen.||1|-12|
82563307|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for Tetanus toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥0.1 IU/mL for that antigen.||2|-2|
82563308|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-4.0|||||TWO_SIDED|95.0|-9.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the routine infant vaccines, when given concomitantly with rMenB+OMV NZ at 2, 4, and 6 months of age, would be considered non-inferior to that of routine infant vaccines given alone, for Tetanus toxoids antigen, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than or equal to the cut-off level ≥1.0 IU/mL for that antigen.||1|-9|
82563309|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-5.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 1 of Diphtheria-Tetanus-Acellular Pertussis, Hepatitis B, Inactivated Poliovirus and Haemophilus influenzae type b (DTPa-HBV-IPV) when given concomitantly with rMenB and Pneumococcal 7-valent conjugate vaccine (PCV7) at 2, 4, and 6 months of age would be considered non-inferior to that of the confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||2|-5|
82563310|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-11.0|-1.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 2 of Diphtheria-Tetanus-Acellular Pertussis, Hepatitis B, Inactivated Poliovirus and Haemophilus influenzae type b (DTPa-HBVIPV) when given concomitantly with rMenB and Pneumococcal 7-valent conjugate vaccine (PCV7) at 2, 4, and 6 months of age would be considered non-inferior to that of the confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||-1|-11|
82624335|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||SRD5A2, Within Finasteride Arm||||0.88
82624336|NCT00438464|164964187|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within Finasteride Arm||||0.18
82624337|NCT00438464|164964187|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within Finasteride Arm||||<0.001
82624338|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VEGF3, Within Placebo Arm||||0.32
82624339|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||ERβ, Within Placebo Arm||||0.83
82563311|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the polio type 3 of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 at 2,4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with NT titers ≥1:8 was greater than -10%.||2|-4|
82563312|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-2.0|||||TWO_SIDED|95.0|-5.0|-1.0|||Miettinen and Nurminen|||Immunogenicity of the hepatitis B surface antigen component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with NT ≥10.0 mIU/ml was greater than -10%||-1|-5|
82563313|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the PRP-Hib component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferiority that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with Hib capsular polysaccharide (PRP) antibody response greater than the protective cutoff of ≥0.15 μg/mL was greater than -10%.||1|-3|
82563314|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|vaccine group difference|0.0|||||TWO_SIDED|95.0|-7.0|7.0|||Miettinen and Nurminen|||Immunogenicity of the PRP-Hib component of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% confidence interval for the difference in the percentage of subjects with Hib capsular polysaccharide (PRP) antibody response greater than the protective cutoff of ≥1.0 μg/mL was greater than -10%.||7|-7|
82563315|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|percentage group difference|-2.0|||||TWO_SIDED|95.0|-4.0|0.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% confidence interval for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL was, for the pneumococcal antigen PnC4.||0|-4|
82563316|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|2.0|||||TWO_SIDED|95.0|-4.0|8.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 6B antigen greater than -10%.||8|-4|
82563317|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-2.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa\_HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 9V, greater than -10%.||1|-2|
82563318|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 vaccine when given concomitantly with rMenB and DTPa-HBV-IPV at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC14 antigen, greater than -10%.||3|-4|
82563319|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was, for PnC 18C antigen greater than -10%.||1|-3|
82563320|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|0.0|||||TWO_SIDED|95.0|-3.0|4.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was for PnC 19F antigen, greater than -10%.||4|-3|
82563321|NCT00657709|164836114|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the 7 components of PCV7 when given concomitantly with rMenB and DTPa-HBV-IPV vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response greater than the cutoff of ≥0.35 μg/mL, was for PnC 23F antigen, greater than -10%.||2|-8|
82563322|NCT00657709|164836115|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||Miettinen and Nurminen|||Immunogenicity of the FHA antigen of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 vaccine at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||4|-9|
82563323|NCT00657709|164836115|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-9.0|||||TWO_SIDED|95.0|-16.0|-3.0|||Miettinen and Nurminen|||Immunogenicity of the Pertactin antigen of DTPa-HBV-IPV when given concomitantly with rMenB and PCV7 at 2, 4 and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||-3|-16|
82563324|NCT00657709|164836115|NON_INFERIORITY_OR_EQUIVALENCE|{PConcomitant Vaccine +rMenB+OMV NZ lot1+lot2+lot3 minus PConcomitant Vaccine}|Percentage group difference|-2.0|||||TWO_SIDED|95.0|-7.0|2.0|||Miettinen and Nurminen|||Immunogenicity of the PT antigen of DTPa-HBV-IPV vaccine given concomitantly with rMenB and PCV7 vaccine at 2, 4, and 6 months of age would be considered non-inferior to that of the routine vaccinations given alone if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects was greater than -10%.||2|-7|
82563325|NCT00886834|164836119|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
82563326|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and confidence intervals (CIs) were estimated from an analysis of covariance (ANCOVA) of natural log transformed values.|Ratio|1.89|||||TWO_SIDED|90.0|1.18|3.03|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as a multiplier in the Modified Diet in Renal Disease Study Group (MDRD) equation.|||3.03|1.18|
82563327|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.27|||||TWO_SIDED|90.0|1.43|3.59|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||3.59|1.43|
82563328|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.63|||||TWO_SIDED|90.0|1.71|4.06|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.06|1.71|
82563329|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.39|||||TWO_SIDED|90.0|0.888|2.18|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||2.18|0.888|
82563330|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.94|||||TWO_SIDED|90.0|1.14|3.31|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||3.31|1.14|
82563331|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.44|||||TWO_SIDED|90.0|1.41|4.22|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.22|1.41|
82563332|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.86|||||TWO_SIDED|90.0|1.74|4.7|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.7|1.74|
82563333|NCT00999336|164836143|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.47|||||TWO_SIDED|90.0|0.944|2.3|||||Statistical comparison of AUC0-24 on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||2.3|0.944|
82563334|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.88|||||TWO_SIDED|90.0|1.05|3.35|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||3.35|1.05|
82563335|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.32|||||TWO_SIDED|90.0|1.32|4.07|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.07|1.32|
82563336|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.52|||||TWO_SIDED|90.0|1.48|4.29|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||4.29|1.48|
82563337|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.34|||||TWO_SIDED|90.0|0.772|2.32|||||Statistical comparison of Cmax on Day 8 for participants grouped using 186 as multiplier in the MDRD equation.|||2.32|0.772|
82563338|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.96|||||TWO_SIDED|90.0|1.01|3.78|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||3.78|1.01|
82563339|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.38|||||TWO_SIDED|90.0|1.21|4.67|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.67|1.21|
82563340|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|2.69|||||TWO_SIDED|90.0|1.46|4.96|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||4.96|1.46|
82563341|NCT00999336|164836144|OTHER|Geometric least squares means, ratios, and CIs were estimated from an ANCOVA of natural log transformed values.|Ratio|1.37|||||TWO_SIDED|90.0|0.793|2.38|||||Statistical comparison of Cmax on Day 8 for participants grouped using 175 as multiplier in the MDRD equation.|||2.38|0.793|
82563342|NCT00346398|164836154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.28|TWO_SIDED|95.0|0.5|10.5||Odds Ratios are calculated using a logistic regression with a Wald chi square test. Experimental group participants had a higher proportion of allergic sensitization than participants who received placebo|Chi-squared|||Participants who drop out (have missing efficacy endpoints) are considered treatment failures.||10.5|0.5|0.28
82563343|NCT00346398|164836155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.85|TWO_SIDED|95.0|0.2|6.1||Odds Ratios are calculated using unadjusted exact logistic regression with mid p-value to adjust for the discreteness of the distribution|Chi-squared|||Participants who drop out (have missing efficacy endpoints) are considered treatment failures.||6.1|0.2|0.85
82563344|NCT00346398|164836156|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.28|TWO_SIDED|95.0|0.6|5.6||P-value is calculated using a log-rank test|Regression, Logistic||Hazard ratio and 95% confidence intervals are calculated using an unadjusted Cox regression|||5.6|0.6|0.28
82563345|NCT02607956|164836157|NON_INFERIORITY|A sample of approximately 600 participants randomized 1:1 achieves at least 95% power using a non-inferiority margin of 12% assuming a response rate in both groups of 91% (Reference Genvoya studies) and a one-sided alpha level of 0.025.|Difference in Percentages|-3.5|||||TWO_SIDED|95.002|-7.9|1.0|||||Differences in percentages of participants between groups and their 95.002% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||1.0|-7.9|
82624340|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||AR, Within Placebo Arm||||0.77
82624341|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ki-67 protein, Within Placebo Arm||||0.87
82624342|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||SRD5A2, Within Placebo Arm||||0.91
82624343|NCT00438464|164964188|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||UBE2C, Within Placebo Arm||||0.90
82624344|NCT00438464|164964188|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Caspase, Within Placebo Arm||||<0.001
82624345|NCT01090102|164964193|SUPERIORITY_OR_OTHER|||||||0.63||||||Significant at p\<0.05|t-test, 2 sided|||||||0.63
82624346|NCT01090102|164964194|SUPERIORITY_OR_OTHER|||||||0.77||||||significant at p\<0.05|t-test, 2 sided|||||||0.77
82624347|NCT01601704|164964195|NON_INFERIORITY_OR_EQUIVALENCE|At the pre-planned 50% interim analysis, a non-inferiority analysis was conducted based on the estimated hazard ratio (NB32/Placebo) for the time to the first confirmed occurrence of MACE. The upper-bound of the 99.7% confidence interval for the hazard ratio was compared to 1.4, the non-inferiority margin.|Cox Proportional Hazard|0.88|||||TWO_SIDED|99.7|0.57|1.34|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.34|0.57|
82624348|NCT01601704|164964196|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93|||||TWO_SIDED|99.7|0.66|1.33|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.33|0.66|
82441574|NCT01294462|164591714|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.94|2.53||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison.||2.53|0.94|
82441575|NCT01294462|164591715|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.88|2.44||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison based on hypothesis test.||2.44|0.88|
82563346|NCT02607956|164836157|SUPERIORITY|||||||0.12|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.12
82563347|NCT02607956|164836158|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-7.9|3.2|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.2|-7.9|
82624349|NCT01601704|164964197|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.5|||||TWO_SIDED|99.7|0.21|1.19|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.19|0.21|
82624350|NCT01601704|164964198|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.96|||||TWO_SIDED|99.7|0.55|1.67|||||Hazard ratio is based on CPH model with treatment as a factor.|||1.67|0.55|
82563348|NCT02607956|164836158|OTHER|||||||0.41|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.41
82624351|NCT01601704|164964199|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04|||||TWO_SIDED|99.7|0.43|2.55|||||Hazard ratio is based on CPH model with treatment as a factor.|||2.55|0.43|
82624352|NCT01181141|164964216|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-3.5|||||TWO_SIDED|95.0|-18.8|6.0|||Wilcoxon (Mann-Whitney)|||||6.0|-18.8|
82624353|NCT03819478|164964278|SUPERIORITY|||||||0.488|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.4880
82624354|NCT03819478|164964278|SUPERIORITY|||||||0.1683|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1683
82624355|NCT03819478|164964279|SUPERIORITY|||||||0.7636|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.7636
82624356|NCT03819478|164964280|SUPERIORITY|||||||0.1584|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1584
82624357|NCT03819478|164964280|SUPERIORITY|||||||0.1623|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1623
82624358|NCT03819478|164964281|SUPERIORITY|||||||0.035|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.0350
82624359|NCT03819478|164964282|SUPERIORITY|||||||0.2422|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.2422
82624360|NCT03819478|164964282|SUPERIORITY|||||||0.5082|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5082
82624361|NCT03819478|164964283|SUPERIORITY|||||||0.5119|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5119
82624362|NCT03819478|164964283|SUPERIORITY|||||||0.4902|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.4902
82624363|NCT03819478|164964284|SUPERIORITY|||||||0.85|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.8500
82624364|NCT03819478|164964285|SUPERIORITY|||||||0.3685|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.3685
82624365|NCT03819478|164964285|SUPERIORITY|||||||0.0894|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.0894
82624366|NCT03819478|164964286|SUPERIORITY|||||||0.5334|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.5334
82624367|NCT03819478|164964287|SUPERIORITY|||||||0.1573|||||||ANCOVA|Adjusted for age, sex, race, and baseline bone measure||||||0.1573
82624368|NCT00091962|164964292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001||||0.001|TWO_SIDED|95.0||||repeated measures mixed-effect model with treatment, time (4 time points), and sex; all 2- and 3-factor interaction terms with subject intercepts were treated as a random effect to account for individual differences at randomization.|Mixed Models Analysis|||||||0.001
82563349|NCT02607956|164836159|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-7.8|3.9|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.9|-7.8|
82563350|NCT02607956|164836159|OTHER|||||||0.52|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.52
82563351|NCT02607956|164836160|OTHER||Difference in Percentages|-3.9|||||TWO_SIDED|95.0|-9.4|1.5|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||1.5|-9.4|
82563352|NCT02607956|164836160|OTHER|||||||0.16|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.16
82563353|NCT02607956|164836161|OTHER||Difference in Percentages|-2.5|||||TWO_SIDED|95.0|-8.8|3.8|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.8|-8.8|
82563354|NCT02607956|164836161|OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.44
82563355|NCT02607956|164836162|OTHER||Difference in Percentages|-1.1|||||TWO_SIDED|95.0|-7.4|5.3|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||5.3|-7.4|
82563356|NCT02607956|164836162|OTHER|||||||0.74|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.74
82563357|NCT02607956|164836163|OTHER||Difference in LSM|0.08||||0.081|TWO_SIDED|95.0|-0.01|0.17|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in least-squares mean (LSM), and its 95% confidence interval (CI) were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.17|-0.01|0.081
82563358|NCT02607956|164836164|OTHER||Difference in LSM|0.06||||0.18|TWO_SIDED|95.0|-0.03|0.15|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.15|-0.03|0.18
82563359|NCT02607956|164836165|OTHER||Difference in LSM|0.09||||0.054|TWO_SIDED|95.0|0.0|0.18|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.18|0.00|0.054
82441576|NCT01294462|164591716|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72|||||TWO_SIDED|95.0|1.23|2.4||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison.||2.40|1.23|
82441577|NCT01294462|164591717|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||||TWO_SIDED|95.0|0.91|2.5||No P-value provided since the objective was not to perform formal statistical comparison.|Regression, Cox|Analyzed based on proportional hazards model including treatment group only.|Ticagrelor/Placebo|No formal statistical comparison based on hypothesis test.||2.50|0.91|
82563360|NCT02607956|164836166|OTHER||Difference in LSM|-23.0||||0.096|TWO_SIDED|95.0|-49.0|4.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||4|-49|0.096
82563361|NCT02607956|164836167|OTHER||Difference in LSM|-47.0||||0.008|TWO_SIDED|95.0|-81.0|-12.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||-12|-81|0.008
82563362|NCT02607956|164836168|OTHER||Difference in LSM|-14.0||||0.48|TWO_SIDED|95.0|-52.0|25.0|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||25|-52|0.48
82563363|NCT02006641|164836184|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.51||1|TWO_SIDED|95.0|-1.1|0.92||Corrected for multiplicity|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.92|-1.10|1.000
82563364|NCT02006641|164836184|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.52||0.2223|TWO_SIDED|95.0|-0.38|1.65||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.65|-0.38|0.2223
82572785|NCT01182181|164855638|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.6|||||TWO_SIDED|90.0|92.34|98.95|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.95|92.34|
82624369|NCT00425100|164964305|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.1|<|0.0001||95.0|-3.2|-2.7||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of micturition episodes per 24 hours at Week 12 is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-2.7|-3.2|<0.0001
82624370|NCT00425100|164964306|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|2.4|<|0.0001||95.0|-2.0|-1.4||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of urgency urinary incontinence per 24 hours is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-1.4|-2.0|<0.0001
82624371|NCT00425100|164964307|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|STANDARD_DEVIATION|4.8|<|0.0001||95.0|-5.4|-4.5||All paired t-tests were performed with a two-sided test at significance level of 5%. Efficacy was claimed only when all 3 primary diary endpoints demonstrated statistical significance in change from baseline to Week 12.|2-sided paired t-test|paired t-test comparing baseline with post-baseline values||Open-label study with statistical comparison between baseline and Week 12. Null hypothesis: The mean change from baseline in number of urgency episodes per 24 hours is equal to 0. The sample size was based on a statistical power for each of the three individual diary endpoints of .95 which would yield an overall power of 85%.||-4.5|-5.4|<0.0001
82624372|NCT00425100|164964309|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.2|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2 sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624373|NCT00425100|164964310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_DEVIATION|4.1|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624374|NCT00425100|164964311|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624375|NCT00425100|164964312|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|1.3|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624376|NCT00425100|164964314|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|0.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624377|NCT00425100|164964316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.6|STANDARD_DEVIATION|26.4|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624378|NCT00425100|164964317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|30.6|STANDARD_DEVIATION|26.6|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624379|NCT00425100|164964318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.9|STANDARD_DEVIATION|27.3|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624380|NCT00425100|164964319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.8|STANDARD_DEVIATION|21.1|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624381|NCT00425100|164964320|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.1|STANDARD_DEVIATION|22.8|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624382|NCT00425100|164964321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.7|STANDARD_DEVIATION|22.7|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624383|NCT00425100|164964323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.2|STANDARD_DEVIATION|14.2|<|0.0001||||||P-value was not adjusted for multiple comparisons. All paired t-tests were performed with a two-sided test at significance level of 5%.|2-sided paired t-test|||This is an open-label study with statistical comparison between baseline and Week 12.||||<0.0001
82624384|NCT03418051|164964344|SUPERIORITY|||||||0.824||||||A priori alpha level was set to 0.05|ANOVA|||||||0.824
82624385|NCT03418051|164964344|SUPERIORITY|||||||0.426||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.426
82624386|NCT03418051|164964345|SUPERIORITY|||||||0.722||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.722
82624387|NCT03418051|164964345|SUPERIORITY|||||||0.843||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.843
82624388|NCT03418051|164964346|SUPERIORITY|||||||0.046||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.046
82624389|NCT03418051|164964346|SUPERIORITY|||||||0.845||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.845
82563365|NCT02006641|164836185|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.65||1|TWO_SIDED|95.0|-1.11|1.46||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.46|-1.11|1.000
82563366|NCT02006641|164836185|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.27|1.33||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||1.33|-1.27|1.000
82563367|NCT02006641|164836186|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||1|TWO_SIDED|95.0|-0.23|0.1||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.10|-0.23|1.000
82563368|NCT02006641|164836186|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.12|0.21||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) at Week 24 had to show statistically significant favourable differences compared to placebo at Week 24. Overall, type 1 error was controlled at 5% by multiplicity adjustment. Testing of the doses was done in a gated manner, first testing 30 mg at a 5% significance level, and only if found efficacious, then moving on to 10 mg.||0.21|-0.12|1.000
82563369|NCT02312258|164836211|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.473|TWO_SIDED|95.0|0.861|1.381|||Log Rank||||"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), International Staging System (ISS) stage before initial therapy (stage I or II vs stage III), age (\<75 versus \[vs\] \>=75 years) at randomization, and best response to initial therapy (complete response (CR) or very good partial response (VGPR) vs partial response (PR)).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 versus\[vs\] \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.381|0.861|=0.473
82563370|NCT02312258|164836213|SUPERIORITY||Hazard Ratio (HR)|0.655|||<|0.001|TWO_SIDED|95.0|0.537|0.799|||Log Rank||||"P-value comparing TTP between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.799|0.537|<0.001
82563371|NCT02312258|164836214|SUPERIORITY||Hazard Ratio (HR)|0.984|||=|0.893|TWO_SIDED|95.0|0.777|1.246|||Log Rank||||"P-value comparing PFS2 between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.246|0.777|=0.893
82563372|NCT02312258|164836215|SUPERIORITY||Hazard Ratio (HR)|0.777|||=|0.018|TWO_SIDED|95.0|0.631|0.957|||Log Rank||||"P-value comparing TTNT between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.957|0.631|=0.018
82563373|NCT02312258|164836216|SUPERIORITY||Hazard Ratio (HR)|1.111|||=|0.462|TWO_SIDED|95.0|0.839|1.47|||Log Rank||||"P-value comparing Time to End of Next Line Therapy between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.470|0.839|=0.462
82563374|NCT02312258|164836217|SUPERIORITY||Hazard Ratio (HR)|1.293|||||TWO_SIDED|95.0|0.968|1.727|||||||Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant.|1.727|0.968|
82563375|NCT02312258|164836220|SUPERIORITY||Hazard Ratio (HR)|0.582|||=|0.001|TWO_SIDED|95.0|0.425|0.796|||Log Rank|||PFS for Participants with Known MRD+ at Study Entry|"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.796|0.425|=0.001
82563376|NCT02312258|164836220|SUPERIORITY||Hazard Ratio (HR)|1.537|||=|0.398|TWO_SIDED|95.0|0.563|4.194|||Log Rank|||PFS for Participants with Known MRD- at Study Entry|"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|4.194|0.563|=0.398
82563377|NCT02312258|164836220|SUPERIORITY||Hazard Ratio (HR)|10.173|||=|0.012|TWO_SIDED|95.0|1.194|86.649|||Log Rank|||OS for Participants with Known MRD Status (MRD- Status, MRD+ Status) at Study Entry|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|86.649|1.194|=0.012
82563378|NCT02312258|164836222|SUPERIORITY||Hazard Ratio (HR)|1.011|||=|0.963|TWO_SIDED|95.0|0.631|1.621|||Log Rank||||"P-value comparing PFS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.621|0.631|=0.963
82563379|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.387|0.727|||Log Rank|||PFS Based on Frailty Status of Fit|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|0.727|0.387|<0.001
82563380|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|0.746|||=|0.098|TWO_SIDED|95.0|0.526|1.058|||Log Rank|||PFS Based on Frailty Status of Unfit|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.058|0.526|=0.098
82572786|NCT01182181|164855639|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.3|||||TWO_SIDED|90.0|93.14|99.57|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.57|93.14|
82563381|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|0.733|||=|0.147|TWO_SIDED|95.0|0.481|1.117|||Log Rank|||PFS Based on Frailty Status of Frail|"P-value comparing PFS between treatment groups was based on Log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization.~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), and age (\<75 vs \>=75 years) at randomization, comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.117|0.481|=0.147
82563382|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|0.897|||=|0.714|TWO_SIDED|95.0|0.502|1.602|||Log Rank|||OS Based on Frailty Status of Fit|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.602|0.502|=0.714
82563383|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|1.75|||=|0.124|TWO_SIDED|95.0|0.85|3.601|||Log Rank|||OS Based on Frailty Status of Unfit|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|3.601|0.850|=0.124
82563384|NCT02312258|164836226|SUPERIORITY||Hazard Ratio (HR)|0.854|||=|0.63|TWO_SIDED|95.0|0.448|1.627|||Log Rank|||OS Based on Frailty Status of Frail|"P-value comparing OS between treatment groups was based on log-rank test stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR).~Hazard ratio was based on an unadjusted Cox's proportional hazard regression model stratified by initial therapy (proteasome inhibitor-containing or not), ISS stage before initial therapy (stage I or II vs stage III), age (\<75 vs \>=75 years) at randomization, and best response to initial therapy (CR or VGPR vs PR), comparing the hazard rate of ixazomib arm over the hazard rate of placebo arm. A less than 1 hazard ratio was to be considered statistically significant."|1.627|0.448|=0.630
82563385|NCT01313663|164836240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|90.0|0.32|2.65|||||HRs were estimated using the Pike estimator. The hazard ratio and p-value from the stratified log-rank test were adjusted for disease stage at Baseline only, due to sparse data.|||2.65|0.32|
82563386|NCT02340806|164836282|SUPERIORITY|||||||0.67|||||||Chi-squared, Corrected|||||||.67
82563387|NCT02340806|164836283|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
82563388|NCT02340806|164836284|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||.21
82563389|NCT02340806|164836285|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
82563390|NCT02340806|164836286|SUPERIORITY|||||||0.66|||||||Kruskal-Wallis|||||||.66
82563391|NCT02340806|164836288|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||.92
82563392|NCT02340806|164836289|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||.58
82563393|NCT02340806|164836290|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||.67
82563394|NCT02340806|164836291|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||.99
82563395|NCT02340806|164836292|SUPERIORITY|||||||0.37|||||||Kruskal-Wallis|||||||.37
82563396|NCT01922102|164836329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.2|||<|0.001|TWO_SIDED|95.0|3.3|7.1||Superiority could be claimed if the corresponding one-sided p-value was ≤ 0.025/2 = 0.0125, or if both one-sided p-values were ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|2 one-sided hypotheses were tested under the Type I error rate of 0.025, using the Hochberg procedure: H01: μRanibizumab-I - μvPDT ≤ 0 vs. HA1: μRanibizumab-I - μvPDT \> 0 and H02: μRanibizumab-II - μvPDT ≤ 0 vs. HA2: μRanibizumab-II - μvPDT \> 0, where μRanibizumab-I, μRanibizumab-II and μvPDT were the means of the primary efficacy variable for ranibizumab treatment Group I, ranibizumab treatment Group II, and vPDT treatment Group III, respectively.||7.1|3.3|<0.001
82563397|NCT01922102|164836329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|3.5|7.6||Superiority could be claimed if the corresponding one-sided p-value was ≤ 0.025/2 = 0.0125, or if both one-sided p-values were ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|"The following 2 one-sided hypotheses were tested under the Type I error rate of 0.025, using the Hochberg procedure:~H01: μRanibizumab-I - μvPDT ≤ 0 vs. HA1: μRanibizumab-I - μvPDT \> 0 and H02: μRanibizumab-II - μvPDT ≤ 0 vs. HA2: μRanibizumab-II - μvPDT \> 0, where μRanibizumab-I, μRanibizumab-II and μvPDT were the means of the primary efficacy variable for ranibizumab treatment Group I, ranibizumab treatment Group II, and vPDT treatment Group III, respectively."||7.6|3.5|<0.001
82563398|NCT01922102|164836330|NON_INFERIORITY_OR_EQUIVALENCE|"one-sided hypotheses were tested under the Type I error rate of 0.025, if H01 and H02 were rejected: H03: μRanibizumab-II - μRanibizumab-I ≤ -5 vs. HA3: μRanibizumab-II - μRanibizumab-I \> -5.~Otherwise, H03 was not to be considered as rejected."|Mean Difference (Net)|0.4|||<|0.001|TWO_SIDED|95.0|-1.3|2.1||Non-inferiority could be claimed if the corresponding one-sided p-value was ≤ 0.025.|Cochran-Mantel-Haenszel||Differences in LS means and the two-sided 95% CIs are estimated from pairwise ANOVA (stratified) model.|||2.1|-1.3|<0.001
82572787|NCT01587118|164855660|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance was p\</= 0.05|ANOVA|Change from baseline analyses were conducted using simple one-way analysis of variance; and were recalculated using the Kruskal Wallis procedure.||||||<.0001
82563399|NCT01345253|164836343|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.99||||0.0001|TWO_SIDED|95.0|1.4|2.82|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, Baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement (C) levels (low C3 and/or C4 vs. no low C3 or C4).|||2.82|1.40|0.0001
82563400|NCT01345253|164836344|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.0001|TWO_SIDED|95.0|1.41|2.83|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, Baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement levels (low C3 and/or C4 vs. no low C3 or C4).|||2.83|1.41|0.0001
82563401|NCT01345253|164836345|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.76||||0.0116|TWO_SIDED|95.0|1.13|2.74|||Regression, Logistic||Odds Ratio (95% CI) and p-value were estimated by a logistic regression model with independent variables treatment group, country, baseline SELENA SLEDAI score (\<=9 vs. \>=10) and complement levels (low C3 and/or C4 vs. no low C3 or C4).|||2.74|1.13|0.0116
82563402|NCT01345253|164836346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0288|||||||Rank ANCOVA|||||||0.0288
82563403|NCT01345253|164836347|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5||||0.0004|TWO_SIDED|95.0|0.34|0.73|||Regression, Cox|||||0.73|0.34|0.0004
82563404|NCT05361304|164836351|NON_INFERIORITY||Least square Mean (LSM) Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.012|||TWO_SIDED|95.0|-0.04|0.0|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology for distance (4m) under HLLC.||0.000|-0.040|
82563405|NCT05361304|164836351|NON_INFERIORITY||Least square Mean (LSM) Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.012|||TWO_SIDED|95.0|-0.03|0.02|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology for distance (4m) under LLHC.||0.020|-0.030|
82563406|NCT05361304|164836352|NON_INFERIORITY||Least square Mean (LSM) Difference|0.27|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.46|1.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 80% statistical power, that 100 subjects were required to test for non-inferiority of the Senofilcon A contact lenses made with a novel manufacturing technology compared to the Senofilcon A contact lenses made with the current manufacturing technology.||1.010|-0.460|
82563407|NCT05361304|164836353|NON_INFERIORITY||LSM Difference|4.0|STANDARD_ERROR_OF_MEAN|4.06|||TWO_SIDED|95.0|-4.1|12.0|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|||12.0|-4.1|
82563408|NCT05361304|164836354|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the confidence interval of the mean difference between Senofilcon A contact lenses made with a novel manufacturing technology and Senofilcon A contact lenses made with the current manufacturing technology is greater than -5.|LSM Differences|-0.3|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-7.1|6.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Senofilcon A contact lenses made with a novel manufacturing technology minus Senofilcon A contact lenses made with the current manufacturing technology|||6.5|-7.1|
82563409|NCT00476151|164836355|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED|95.0|||||ANCOVA|||||||0.083
82563410|NCT03557307|164836360|OTHER||percentage|62.9|||||TWO_SIDED|95.0|58.86|66.76|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieved 100% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||66.76|58.86|
82563411|NCT03557307|164836361|OTHER||percentage|81.9|||||TWO_SIDED|95.0|78.62|84.94|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieve 100% reduction or a daily OCS dose of \<=5mg, if reason for no further OCS reduction is Adrenal Insufficiency, that are sustained over at least 4 weeks without worsening of asthma|||84.94|78.62|
82563412|NCT03557307|164836362|OTHER||percentage|91.5|||||TWO_SIDED|95.0|88.94|93.58|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage of patients who achieve a daily OCS dose of ≤5 mg (regardless of reason for no further OCS reduction), that are sustained over at least 4 weeks without worsening of asthma|||93.58|88.94|
82563413|NCT03557307|164836363|OTHER||percentage|64.0|||||TWO_SIDED|95.0|60.06|67.9|||Clopper-Pearson Exact CI|One sample Confidence Interval (≥90% reduction)|Percentage of patients who achieve \>=90% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||67.90|60.06|
82563414|NCT03557307|164836363|OTHER||percentage|68.9|||||TWO_SIDED|95.0|65.02|72.59|||Clopper-Pearson Exact CI|One sample Confidence Interval (\>=75% reduction)|Percentage of patients who achieve \>=75% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||72.59|65.02|
82563415|NCT03557307|164836363|OTHER||percentage|81.8|||||TWO_SIDED|95.0|78.44|84.79|||Clopper-Pearson Exact CI|One sample Confidence Interval (\>=50% reduction)|Percentage of patients who achieve \>=50% reduction in daily OCS dose that are sustained over at least 4 weeks without worsening of asthma|||84.79|78.44|
82563416|NCT03557307|164836364|OTHER||percentage change from baseline|-76.92|||||TWO_SIDED|95.0|-79.9|-73.94|||Clopper-Pearson Exact CI|One sample Confidence Interval|Percentage change from baseline in daily OCS dose at the end of OCS reduction phase|||-73.94|-79.90|
82563417|NCT01383616|164836369|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||Comparison of 3 month ODI Score between Unipedicular and Bipedicular kyphoplasty groups||||0.85
82563418|NCT01383616|164836370|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82563419|NCT01383616|164836371|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82563420|NCT01383616|164836372|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
82563421|NCT01383616|164836373|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82563422|NCT01383616|164836374|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82563423|NCT01383616|164836375|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
82563424|NCT01383616|164836376|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82563425|NCT01383616|164836377|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82563426|NCT01383616|164836378|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82563427|NCT04239911|164836382|EQUIVALENCE|A p\<0.05 considered the threshold for statistical significance.|Odds Ratio (OR)|0.97||||0.974|TWO_SIDED|95.0|0.14|6.85|||Regression, Logistic||The comparison group is enhanced usual care arm|"Outcome measures workers' intentions of leaving their current job. Responses included 7-point likert scale of very strongly disagree-very strongly agree. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare outcome between and within study arm. Mixed effects included a variable for time point (baseline/90 days), indicator for study arm, a study arm by time point interaction and subject random intercept."||6.85|0.14|0.974
82563428|NCT04239911|164836382|EQUIVALENCE|A p\< 0.05 considered the threshold for statistical significance|Odds Ratio (OR)|0.8||||0.846|TWO_SIDED|95.0|0.08|7.72|||Regression, Logistic||The comparison group is enhanced usual care arm|"Outcome measures workers' intentions of searching for a new job. Responses included 7-point likert scale of very strongly disagree-very strongly agree. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare outcome between and within study arm. Mixed effects included a variable for time point (baseline/90 days), indicator for study arm, a study arm by time point interaction and subject random intercept."||7.72|0.08|0.846
82563429|NCT04239911|164836385|EQUIVALENCE|A p\<0.05 was considered the threshold for statistical significance.|Odds Ratio (OR)|0.18||||0.043|TWO_SIDED|95.0|0.03|0.94|||Regression, Logistic||The comparison group is enhanced usual care arm|"Preventable 911 calls if had been able to reach the doctor. Dichotomized into agree, strongly agree, and very strongly vs. all other responses. We used logistic mixed regression model to compare trajectory of all outcomes between and within study arms. Mixed effects included a fixed effects categorical variable for time point (baseline/90days), and indicator for study arm (enhanced usual care/intervention), a study arm by time point interaction and subject specific random intercept."||0.94|0.03|0.043
82563430|NCT04239911|164836385|EQUIVALENCE|A p\<0.05 considered the threshold for statistical significance.|Odds Ratio (OR)|1.01||||0.99|TWO_SIDED|95.0|0.22|4.58|||Regression, Logistic|||"Preventable 911 calls if had been able to reach the nurse/supervisor. Dichotomized into agree, strongly agree, and very strongly vs. other responses. We used logistic mixed regression model to compare trajectory of all outcomes between and within study arms. Mixed effects included a fixed effects categorical variable for time point (baseline/90days), and indicator for study arm (enhanced usual care/intervention), a study arm by time point interaction and subject specific random intercept."||4.58|0.22|0.99
82563431|NCT03456856|164836386|SUPERIORITY||least square mean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.7||0.013|TWO_SIDED|95.0|-8.0|-1.0|||repeated measures linear model|||The estimated mean treatment difference (95% CI) takes into account a presumed -5 bpm change from baseline heart rate in the absence of ivabradine (as seen in the placebo group in the SHIFT study, (NCT02441218, PMID 20801500).||-1.0|-8.0|0.013
82563432|NCT02105688|164836424|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided exact test|||A one-sided exact test was used to test the null hypothesis, which was that the SVR12 rate for the ITA was less than 67% (historical reference rate derived from NCT01667731). The p-value was based on a one-sided exact test for a binomial proportion. A one-sided p-value \<0.025 supports a conclusion that the true SVR12 is \>67%.||||<0.001
82563433|NCT02105688|164836425|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-8.3|10.0||||||Categorical AE parameters were assessed via point estimates with 95% confidence intervals provided for between-treatment differences in the percentage of participants with events using the Miettinen and Nurminen method, an unconditional, asymptotic method.||10.0|-8.3|
82563434|NCT02105688|164836426|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-0.5|||||TWO_SIDED|95.0|-5.0|1.9||||||Categorical AE parameters were assessed via point estimates with 95% confidence intervals provided for between-treatment differences in the percentage of participants with events using the Miettinen and Nurminen method, an unconditional, asymptotic method.||1.9|-5.0|
82563435|NCT00237718|164836428|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82563436|NCT00237718|164836429|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82563437|NCT04908488|164836430|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Means Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||-0.01|||Mixed effects repeated measures model|Within subject correlation due to eye and the crossover design were accounted for in the model.|Lens difference (P1fA minus AMfA)|||-0.01||
82563438|NCT01107912|164836432|NON_INFERIORITY_OR_EQUIVALENCE|The difference of median MPA to 20 μM ADP of a prasugrel 5-mg in the elderly group to the 75th percentile of the MPA to 20 μM ADP of a prasugrel 10 mg MD in the non-elderly group at the end of Period 1 was estimated from the observed data. The upper limit of the one-sided 97.5% confidence interval for the difference was estimated from resampling data with replacement through bootstrap methodology and was used to compare with the non-inferiority margin of 15 percentage points.|Estimate of the difference|6.0|||||TWO_SIDED|95.0|1.0|9.0||||||||9.00|1.00|
82563439|NCT02432183|164836437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||Kruskal-Wallis|post-hoc comparison with Dunn's multiple comparison test: p=0.0326 between arm 1 and 2; p=0.0147 between arm 1 and 3||||||0.0061
82563440|NCT00595959|164836440|SUPERIORITY_OR_OTHER|||||||0.001||||||No adjustments|t-test, 1 sided|||Comparing to an expected value of 20% reduction from initial to post-laser||||0.001
82563441|NCT01280656|164836478|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
82563442|NCT01280656|164836479|SUPERIORITY_OR_OTHER|||||||0.693|||||||Chi-squared|||||||0.693
82624390|NCT03418051|164964347|SUPERIORITY|||||||0.138||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.138
82563443|NCT01280656|164836481|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||Chi-squared|||||||0.573
82624391|NCT03418051|164964347|SUPERIORITY|||||||0.523||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.523
82563444|NCT01280656|164836483|SUPERIORITY_OR_OTHER|||||||0.982|TWO_SIDED||||||Chi-squared|||Mean at the site||||0.982
82563445|NCT01280656|164836483|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Chi-squared|||Mean at home||||0.012
82563446|NCT01280656|164836484|SUPERIORITY_OR_OTHER|||||||0.476|||||||t-test, 2 sided|||Responders vs Non-responders||||0.476
82563447|NCT01280656|164836484|SUPERIORITY_OR_OTHER|||||||0.32|||||||t-test, 2 sided|||Responders vs Non-Responders||||0.320
82563448|NCT01280656|164836485|SUPERIORITY_OR_OTHER|||||||0.792|TWO_SIDED||||||Chi-squared|||||||0.792
82563449|NCT01280656|164836486|SUPERIORITY_OR_OTHER|||||||0.202|TWO_SIDED||||||Chi-squared|||||||0.202
82563450|NCT01280656|164836487|SUPERIORITY_OR_OTHER|||||||0.921|TWO_SIDED||||||Chi-squared|||||||0.921
82563451|NCT01280656|164836488|SUPERIORITY_OR_OTHER|||||||0.202|TWO_SIDED||||||Chi-squared|||||||0.202
82563452|NCT01280656|164836489|SUPERIORITY_OR_OTHER|||||||0.973|TWO_SIDED||||||Chi-squared|||Total||||0.973
82563453|NCT00636168|164836498|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0013|TWO_SIDED|95.0|0.64|0.9|||Log Rank|stratified 2-sided log-rank test||The hazard ratio, and its 95 % confidence interval was estimated using a Cox proportional hazards model, stratified by stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as indicated at randomization, with treatment as the single covariate.. The analysis was performed after 528 RFS events per IRC were reported. Two-sided, 95% confidence intervals for median RFS were computed by the Brookmeyer and Crowley method using log-log transformation.||0.90|0.64|0.0013
82563454|NCT00636168|164836501|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0024|TWO_SIDED|95.8|0.64|0.92|||Log Rank|stratified 2-sided log-rank test||Medians and associated 2-sided 95% confidence intervals are calculated using the method of Brookmeyer and Crowley. Analysis was stratified for stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as recorded at randomization. P-value was based on stratified 2-sided log-rank test. Hazard of 10 mg/kg Ipilimumab over hazard of Placebo, with 2-sided 95.8% confidence interval are based on a stratified Cox proportional hazards model||0.92|0.64|0.0024
82563455|NCT00636168|164836504|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0013|TWO_SIDED|95.1|0.58|0.88|||Log Rank|stratified 2-sided log-rank test||Medians and associated 2-sided 95% confidence intervals are calculated using the method of Brookmeyer and Crowley. Analysis was stratified for stage (IIIa vs. IIIb vs. IIIc with 1-3 positive lymph-nodes vs. IIIc with \>= 4 positive lymph-nodes) as recorded at randomization. P-value was based on stratified 2-sided log-rank test. Hazard of 10 mg/kg Ipilimumab over hazard of Placebo, with 2-sided 95.1% confidence interval are based on a stratified Cox proportional hazards model||0.88|0.58|0.0013
82563456|NCT03015220|164836532|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.5||||0.2963|TWO_SIDED|95.0|0.7|3.2||Unadjusted two-sided p-value for the test of no difference from 1.|Regression, Cox||"Oral Semaglutide 3 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||3.20|0.70|0.2963
82563457|NCT03015220|164836532|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.8||||0.5997|TWO_SIDED|95.0|0.35|1.83||Unadjusted two-sided p-value for the test of no difference from 1.|Regression, Cox||"Oral Semaglutide 7 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.83|0.35|0.5997
82563458|NCT03015220|164836532|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.55||||0.1871|TWO_SIDED|95.0|0.23|1.33||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 14 mg~/Dulaglutide 0.75 mg"|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.33|0.23|0.1871
82563459|NCT03015220|164836533|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.9||||0.1672|TWO_SIDED|95.0|0.76|4.72||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 3 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||4.72|0.76|0.1672
82563460|NCT03015220|164836533|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.6||||0.3391|TWO_SIDED|95.0|0.21|1.72||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 7 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.72|0.21|0.3391
82563461|NCT03015220|164836533|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.12||||0.011|TWO_SIDED|95.0|0.02|0.62||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||"Oral Semaglutide 14 mg~/Dulaglutide 0.75 mg"|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and strata as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.62|0.02|0.0110
82563462|NCT02291549|164836545|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.0074|TWO_SIDED|95.0|-0.39|-0.06||The 2-sided alpha was 0.05. P-value was not adjusted for multiple comparison.|ANCOVA|Where appropriate, confidence intervals of the difference were constructed using the estimate of the least-squares means||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The primary efficacy hypothesis was that the use of the S8 Sinus Implant would reduce the Nasal Obstruction/Congestion score compared to the control group. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.06|-0.39|0.0074
82624392|NCT03418051|164964348|SUPERIORITY|||||||0.069||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.069
82563463|NCT02291549|164836546|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.0073|TWO_SIDED|95.0|-0.6|-0.09||The 2-sided alpha was 0.05. P-value was not adjusted for multiple comparisons.|ANCOVA|ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups.||The between treatment group difference was estimated using the ANCOVA model with site and treatment group as fixed effects. The primary efficacy hypothesis was that the use of the S8 Sinus Implant would reduce the bilateral polyp grade compared to the control group. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.09|-0.60|0.0073
82563464|NCT02291549|164836547|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0004|TWO_SIDED|95.0|1.63|4.44||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Adjusted p-value is presented.||Test: H0: OR = 1 vs. OR ≠ 1 by Cochrane-Mantel-Haenszel test||4.44|1.63|0.0004
82563465|NCT02291549|164836548|SUPERIORITY||Mean Difference (Final Values)|-7.96||||0.0007|TWO_SIDED|95.0|-12.1|-3.83||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups.The null hypothesis was H0: β1 = 0 and the alternative hypothesis was H1: β1 ≠ 0. Although the alternative hypothesis was specified as 2-sided, only a statistically significant, negative estimate of β1 constituted evidence of effectiveness. The 2-sided alpha for this test was 0.05.||-3.83|-12.10|0.0007
82563466|NCT02291549|164836549|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.0248|TWO_SIDED|95.0|-0.48|-0.07||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and the alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.07|-0.48|0.0248
82563467|NCT02291549|164836550|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.047|TWO_SIDED|95.0|-0.85|-0.06||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|The adjusted p-value is presentenced.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||-0.06|-0.85|0.0470
82563468|NCT02291549|164836551|SUPERIORITY|||||||0.913||||||P-value adjusted for multiplicity using the Holm's step-down procedure at a 2-sided significance level of 0.05.|ANCOVA|Adjusted p-value is presented.||ANCOVA model with site and treatment group as fixed effects and contrasts constructed to estimate the difference between treatment groups. The null hypothesis was H0: β1=0 and alternative hypothesis was H1: β1 ≠ 0. Only a statistically significant, negative estimate of β1 was to constitute evidence of effectiveness.||||0.9130
82563469|NCT04447287|164836573|OTHER||Geometric LS Mean Ratio|89.72|||||TWO_SIDED|90.0|81.21|99.11||||||||99.11|81.21|
82563470|NCT04447287|164836574|OTHER||Geometric LS Mean Ratio|92.15|||||TWO_SIDED|90.0|80.22|105.86||||||||105.86|80.22|
82563471|NCT04447287|164836575|OTHER||Geometric LS Mean Ratio|109.09|||||TWO_SIDED|90.0|101.1|117.71||||||||117.71|101.10|
82563472|NCT04447287|164836576|OTHER||Geometric LS Mean Ratio|117.77|||||TWO_SIDED|90.0|106.41|130.34||||||||130.34|106.41|
82563473|NCT04447287|164836577|OTHER||Geometric LS Mean Ratio|79.39|||||TWO_SIDED|90.0|68.1|92.55||||||||92.55|68.10|
82563474|NCT04447287|164836578|OTHER||Geometric LS Mean Ratio|74.45|||||TWO_SIDED|90.0|59.28|93.5||||||||93.50|59.28|
82563475|NCT00912964|164836579|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.005|TWO_SIDED|95.0|-0.74|-0.06||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.06|-0.74|0.005
82563476|NCT00912964|164836579|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.001|TWO_SIDED|95.0|-0.76|-0.08||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.08|-0.76|0.001
82563477|NCT00912964|164836580|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6||||0.15|TWO_SIDED|95.0|-1.6|10.8||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||10.8|-1.6|0.15
82441578|NCT02076399|164591734|SUPERIORITY||Risk Difference (RD)|17.6||||0.0261|TWO_SIDED|95.0|7.2|28.1|||Fisher Exact|||||28.1|7.2|0.0261
82572788|NCT01587118|164855661|SUPERIORITY_OR_OTHER|||||||0.0006||||||The a priori threshold for statistical significance was p\</= 0.05|ANOVA|Change from baseline analyses were conducted using simple one-way analysis of variance; and were recalculated using the Kruskal Wallis procedure.||||||.0006
82563478|NCT00912964|164836580|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.4|||<|0.001|TWO_SIDED|95.0|6.3|18.6||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||18.6|6.3|<0.001
82563479|NCT00912964|164836581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47||||0.007|TWO_SIDED|95.0|-0.82|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.82|0.007
82563480|NCT00912964|164836581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.015|TWO_SIDED|95.0|-0.76|-0.08||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.08|-0.76|0.015
82563481|NCT00912964|164836582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34||||0.039|TWO_SIDED|95.0|-0.68|-0.01||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.01|-0.68|0.039
82563482|NCT00912964|164836582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.85|-0.17||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.17|-0.85|<0.001
82563483|NCT00912964|164836583|SUPERIORITY_OR_OTHER_LEGACY||LS Difference|-0.18||||0.3|TWO_SIDED|95.0|-0.53|0.16||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.16|-0.53|0.30
82563484|NCT00912964|164836583|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.37||||0.035|TWO_SIDED|95.0|-0.71|-0.03||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.03|-0.71|0.035
82563485|NCT00912964|164836584|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.07||||0.083|TWO_SIDED|95.0|-0.15|0.01||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.01|-0.15|0.083
82572789|NCT00409409|164855662|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|||||||0.0010
82624393|NCT03418051|164964348|SUPERIORITY|||||||0.413||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.413
82624394|NCT03418051|164964349|SUPERIORITY|||||||0.604||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.604
82624395|NCT03418051|164964349|SUPERIORITY|||||||0.499||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.499
82624396|NCT03418051|164964350|SUPERIORITY|||||||0.005||||||A priori threshold was set at 0.05.|ANOVA|||||||0.005
82624397|NCT03418051|164964350|SUPERIORITY|||||||0.853||||||A priori threshold set at 0.05.|ANOVA|||||||0.853
82624398|NCT03418051|164964351|SUPERIORITY|||||||0.142||||||A priori threshold set to 0.05|ANOVA|||||||0.142
82624399|NCT03418051|164964351|SUPERIORITY|||||||0.167||||||A priori threshold set at 0.05.|ANOVA|||||||0.167
82624400|NCT03418051|164964352|SUPERIORITY|||||||0.849||||||A priori alpha set at 0.05.|ANOVA|||||||0.849
82624401|NCT03418051|164964352|SUPERIORITY|||||||0.993||||||A priori threshold set at 0.05.|ANOVA|||||||0.993
82624402|NCT03418051|164964353|SUPERIORITY|||||||0.535||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.535
82624403|NCT03418051|164964353|SUPERIORITY|||||||0.569||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.569
82624404|NCT03418051|164964354|SUPERIORITY|||||||0.405||||||A priori threshold was 0.05.|ANOVA|||||||0.405
82624405|NCT03418051|164964354|SUPERIORITY|||||||0.229||||||A priori threshold set to 0.05.|ANOVA|||||||0.229
82624406|NCT03418051|164964355|SUPERIORITY|||||||0.609||||||A priori threshold set at 0.05.|ANOVA|||||||0.609
82624407|NCT03418051|164964355|SUPERIORITY|||||||0.027||||||A priori threshold was set at 0.05.|ANOVA|||||||0.027
82624408|NCT03418051|164964356|SUPERIORITY|||||||0.613||||||A priori alpha set at 0.05.|Independent sample Mann-Whitney U|||||||0.613
82563486|NCT00912964|164836584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|||<|0.001|TWO_SIDED|95.0|-0.22|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.06|-0.22|<0.001
82624409|NCT03418051|164964357|SUPERIORITY|||||||0.925||||||A priori threshold set at 0.05.|Independent sample Mann-Whitney U|||||||0.925
82624410|NCT03418051|164964358|SUPERIORITY|||||||0.641||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.641
82624411|NCT03418051|164964358|SUPERIORITY|||||||0.897||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.897
82624412|NCT03418051|164964359|SUPERIORITY|||||||0.561||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.561
82624413|NCT03418051|164964359|SUPERIORITY|||||||0.925||||||A priori threshold set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.925
82624414|NCT03418051|164964360|SUPERIORITY|||||||0.233||||||A priori threshold set at 0.05|ANOVA|||||||0.233
82624415|NCT03418051|164964360|SUPERIORITY|||||||0.634||||||A priori threshold set at 0.05|ANOVA|||||||0.634
82624416|NCT03418051|164964361|SUPERIORITY|||||||0.233||||||A priori threshold set at 0.05.|ANOVA|||||||0.233
82624417|NCT03418051|164964361|SUPERIORITY|||||||0.634||||||A priori threshold set at 0.05.|ANOVA|||||||0.634
82624418|NCT03418051|164964362|SUPERIORITY|||||||0.03||||||A priori threshold set at 0.05.|ANOVA|||||||0.030
82624419|NCT03418051|164964362|SUPERIORITY|||||||0.618||||||A priori threshold set at 0.05.|ANOVA|||||||0.618
82624420|NCT03418051|164964363|SUPERIORITY|||||||0.456||||||A priori threshold set at 0.05.|ANOVA|||||||0.456
82624421|NCT03418051|164964363|SUPERIORITY|||||||0.568||||||A priori threshold set to 0.05.|ANOVA|||||||0.568
82624422|NCT03418051|164964364|SUPERIORITY|||||||0.919||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.919
82624423|NCT03418051|164964364|SUPERIORITY|||||||0.558||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.558
82624424|NCT03418051|164964365|SUPERIORITY|||||||0.796||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.796
82624425|NCT03418051|164964365|SUPERIORITY|||||||0.558||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.558
82624426|NCT03418051|164964366|SUPERIORITY|||||||0.701||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.701
82624427|NCT03418051|164964366|SUPERIORITY|||||||0.68||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.68
82624428|NCT03418051|164964367|SUPERIORITY|||||||0.883||||||A priori threshold set at 0.05.|ANOVA|||||||0.883
82624429|NCT03418051|164964367|SUPERIORITY|||||||0.401||||||A priori threshold set at 0.05.|ANOVA|||||||0.401
82624430|NCT03418051|164964368|SUPERIORITY|||||||0.393||||||A priori threshold set at 0.05.|ANOVA|||||||0.393
82624431|NCT03418051|164964368|SUPERIORITY|||||||0.779||||||A priori threshold set at 0.05.|ANOVA|||||||0.779
82624432|NCT03418051|164964369|SUPERIORITY|||||||0.246||||||A priori threshold set at 0.05.|ANOVA|||||||0.246
82624433|NCT03418051|164964369|SUPERIORITY|||||||0.191||||||A priori threshold set at 0.05.|ANOVA|||||||0.191
82624434|NCT03418051|164964370|SUPERIORITY|||||||0.703||||||A priori threshold set at 0.05.|ANOVA|||||||0.703
82624435|NCT03418051|164964370|SUPERIORITY|||||||0.282||||||A priori threshold set at 0.05.|ANOVA|||||||0.282
82624436|NCT03418051|164964371|SUPERIORITY|||||||0.925||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.925
82624437|NCT03418051|164964371|SUPERIORITY|||||||0.551||||||A priori alpha level was set to 0.05.|ANOVA|||||||0.551
82624438|NCT03418051|164964372|SUPERIORITY|||||||0.506||||||A priori threshold set at 0.05.|ANOVA|||||||0.506
82624439|NCT03418051|164964372|SUPERIORITY|||||||0.753||||||A priori threshold at 0.05.|ANOVA|||||||0.753
82624440|NCT03418051|164964373|SUPERIORITY|||||||0.777||||||A priori threshold set at 0.05.|ANOVA|||||||0.777
82624441|NCT03418051|164964373|SUPERIORITY|||||||0.475||||||A priori threshold set at 0.05.|ANOVA|||||||0.475
82624442|NCT03418051|164964374|SUPERIORITY|||||||0.738||||||A priori threshold set at 0.05.|ANOVA|||||||0.738
82624443|NCT03418051|164964374|SUPERIORITY|||||||0.042||||||A priori threshold set at 0.05.|ANOVA|||||||0.042
82624444|NCT03418051|164964375|SUPERIORITY|||||||0.738||||||A priori threshold set at 0.05.|ANOVA|||||||0.738
82624445|NCT03418051|164964375|SUPERIORITY|||||||0.83||||||A priori threshold set at 0.05.|ANOVA|||||||0.830
82624446|NCT03418051|164964376|SUPERIORITY|||||||0.7||||||A priori threshold set at 0.05.|ANOVA|||||||0.700
82624447|NCT03418051|164964376|SUPERIORITY|||||||0.492||||||A priori threshold set at 0.05.|ANOVA|||||||0.492
82624448|NCT03418051|164964377|SUPERIORITY|||||||0.82||||||A priori threshold set at 0.05.|ANOVA|||||||0.820
82624449|NCT03418051|164964377|SUPERIORITY|||||||0.526||||||A priori threshold set at 0.05.|ANOVA|||||||0.526
82624450|NCT02781454|164964402|SUPERIORITY||linear contrast active vs placebo|-5.558||||0.039|TWO_SIDED|95.0|-10.8|-0.315|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||-0.315|-10.80|0.039
82624451|NCT02781454|164964403|SUPERIORITY||linear contrast active vs placebo|0.792||||0.332|TWO_SIDED|95.0|0.484|1.296||linear contrast active vs placebo|Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||1.296|0.484|0.332
82563487|NCT00912964|164836585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36||||0.004|TWO_SIDED|95.0|-0.67|-0.05||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.05|-0.67|0.004
82563488|NCT00912964|164836585|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39||||0.002|TWO_SIDED|95.0|-0.69|-0.08||The response variable for the stratified rank ANCOVA was standardized ranks on change from Baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.08|-0.69|0.002
82563489|NCT00912964|164836586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33||||0.13|TWO_SIDED|95.0|-0.76|0.1||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||0.10|-0.76|0.13
82563490|NCT00912964|164836586|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59||||0.007|TWO_SIDED|95.0|-1.01|-0.16||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 6 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (8 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.16|-1.01|0.007
82563491|NCT00960206|164836653|SUPERIORITY_OR_OTHER|||||||0.0832|||||||Log Rank|||To compare the Kaplan-Meier survivorship between the two systems||||0.0832
82563492|NCT00960206|164836653|SUPERIORITY_OR_OTHER|||||||0.1657|||||||Log Rank|||To compare the Kaplan-Meier survivorship between the two systems||||0.1657
82563493|NCT00960206|164836654|SUPERIORITY_OR_OTHER|||||||0.3701|||||||Fisher Exact|||To compare the # of cases at 10 years for those that have a HHS ≥ 80 to those that have \< 80 for all three arms||||0.3701
82563494|NCT00960206|164836656|SUPERIORITY_OR_OTHER|||||||0.6011|||||||Fisher Exact|||Compare the # of cases at 10 years satisfied with their total hip replacement for all three groups||||0.6011
82563495|NCT00960206|164836656|SUPERIORITY_OR_OTHER|||||||0.206|||||||Fisher Exact|||Compare the # of cases at 10 years for having pain in their hip for all three groups||||0.2060
82563496|NCT02470806|164836666|NON_INFERIORITY|Stepwise regression method - Primary efficacy analysis, difference between treatment groups in percentage change in wound area from baseline visit to end of 12-week treatment period for the PP population.||||||0.001|TWO_SIDED|95.0|||||Stepwise regression|||Percentage change in wound area from Baseline to end of 12-week treatment period (PP population - all wounds)||||0.001
82563497|NCT00866619|164836672|SUPERIORITY|Criterion for success = lower limit (LL) of 97.5% confidence interval (CI) of VE \> 0.|Vaccine efficacy|55.8|||<|0.0001|TWO_SIDED|97.5|50.6|60.4|||Regression, Cox|||The analysis aimed to compare RfoCPFMI between groups over the Months 2.5-14 time period. Using RfoCFPMI, a Cox regression model was used to evaluate vaccine efficacy (VE) allowing for adjustment by factors. VE was calculated as 1 minus \[Hazard Ratio (HR) in GSK257049 \[5-17M\] Group (HR1) divided by HR in control VeroRab Comparator \[5-17M\] Group (HR2)\]; i. e. 1 - (HR1/HR2).||60.4|50.6|<0.0001
82563498|NCT00866619|164836673|SUPERIORITY|Point estimate of efficacy was adjusted for study site as stratification factor for the analysis. Criterion for success = lower limit (LL) of 97.5% confidence interval (CI) of VE \> 0.|Vaccine efficacy|31.315|||<|0.0001|TWO_SIDED|97.5|23.556|38.286|||Regression, Cox|||The analysis aimed to compare RfoCPFMI between groups over the Months 2.5-14 time period. Using RfoCFPMI, a Cox regression model was used to evaluate vaccine efficacy (VE) allowing for adjustment by factors. VE was calculated as 1 minus \[Hazard Ratio (HR) in GSK257049 \[6-12W\] Group (HR1) divided by HR in control Menjugate Comparator \[6-12W\] Group (HR2)\]; i. e. 1 - (HR1/HR2).||38.286|23.556|<0.0001
82563499|NCT02591056|164836760|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|t=+7.45; df=26||||||<0.0001
82563500|NCT01159600|164836761|SUPERIORITY_OR_OTHER||Mean difference|-1.63|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.17|-1.08||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.08|-2.17|<0.0001
82624452|NCT02781454|164964404|SUPERIORITY||linear contrast active vs placebo|0.411||||0.013|TWO_SIDED|95.0|0.208|0.81|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||0.810|0.208|0.013
82624453|NCT02781454|164964405|SUPERIORITY||linear contrast active vs placebo|0.343||||0.986|TWO_SIDED|95.0|-41.36|42.042|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||42.042|-41.36|0.986
82563501|NCT01159600|164836761|SUPERIORITY_OR_OTHER||Mean difference|-2.01|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.56|-1.46||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.46|-2.56|<0.0001
82563502|NCT01159600|164836761|SUPERIORITY_OR_OTHER||Mean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|97.5|-2.25|-1.28||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.28|-2.25|<0.0001
82563503|NCT01159600|164836761|SUPERIORITY_OR_OTHER||Mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|97.5|-2.48|-1.5||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|ANCOVA with baseline HbA1c and baseline body weight as linear covariates and baseline eGFR, geographical region and treatment as fixed effects|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in body weight between Empagliflozin 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons (10mg vs placebo and 25mg vs placebo) within each background therapy group (metformin and metformin + SU). If for a specific dose the null hypothesis was rejected for the primary endpoint, the same dose was tested against placebo for the change from baseline in body weight.||-1.50|-2.48|<0.0001
82563504|NCT01159600|164836762|SUPERIORITY_OR_OTHER||Mean difference|-7.65|STANDARD_ERROR_OF_MEAN|2.74||0.0055|TWO_SIDED|97.5|-13.81|-1.48||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-1.48|-13.81|0.0055
82563505|NCT01159600|164836762|SUPERIORITY_OR_OTHER||Mean difference|-12.37|STANDARD_ERROR_OF_MEAN|2.75|<|0.0001|TWO_SIDED|97.5|-18.55|-6.19||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-6.19|-18.55|<0.0001
82563506|NCT01159600|164836762|SUPERIORITY_OR_OTHER||Mean difference|-10.02|STANDARD_ERROR_OF_MEAN|2.53|<|0.0001|TWO_SIDED|97.5|-15.72|-4.32||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 10mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-4.32|-15.72|<0.0001
82563507|NCT01159600|164836762|SUPERIORITY_OR_OTHER||Mean difference|-13.06|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|97.5|-19.15|-6.98||Each of the hypotheses (10mg vs placebo and 25mg vs placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c and baseline MDG as linear covariates and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis (H0): No difference in change from baseline to week 24 in MDG between Empa 25mg and placebo. A hierarchical testing approach was applied to each of the two dose comparisons within each background therapy group. If for a specific dose H0 was rejected for the primary endpoint, the same dose was tested against placebo for change from baseline in body weight. If superiority over placebo was shown at this gate level, then testing proceeded to change from baseline in MDG with that dose||-6.98|-19.15|<0.0001
82624454|NCT02781454|164964406|SUPERIORITY||linear contrast active vs placebo|0.994||||0.915|TWO_SIDED|95.0|0.876|1.126|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo ratio of week 4 to week 0||1.126|0.876|0.915
82624455|NCT02781454|164964407|SUPERIORITY||linear contrast active vs placebo|1.089||||0.694|TWO_SIDED|95.0|-4.609|6.786|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||6.786|-4.609|0.694
82441579|NCT02076399|164591739|SUPERIORITY||Risk Difference (RD)|-0.01||||0.6642|TWO_SIDED|95.0|-0.01|0.0||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.0|-0.01|0.6642
82563508|NCT01159600|164836763|SUPERIORITY_OR_OTHER||Mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.72|-0.42||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR (renal function), geographical region and treatment as fixed effects.|Difference calculated as Met: empa 10mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 10mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.42|-0.72|<0.0001
82624456|NCT02781454|164964408|SUPERIORITY||linear contrast active vs placebo|0.242||||0.969|TWO_SIDED|95.0|-12.64|13.126|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||13.126|-12.64|0.969
82624457|NCT02781454|164964409|SUPERIORITY||linear contrast active vs placebo|2.597||||0.323|TWO_SIDED|95.0|-2.772|7.966|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||7.966|-2.772|0.323
82624458|NCT02781454|164964410|SUPERIORITY||linear contrast active vs placebo|-2.017||||0.273|TWO_SIDED|95.0|-5.767|1.733|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||1.733|-5.767|0.273
82624459|NCT02781454|164964411|SUPERIORITY||linear contrast active vs placebo|0.708||||0.713|TWO_SIDED|95.0|0.111|4.535|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo||4.535|0.111|0.713
82624460|NCT02781454|164964413|SUPERIORITY||linear contrast active vs placebo|-0.399||||0.601|TWO_SIDED|95.0|-1.966|1.169|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||1.169|-1.966|0.601
82441580|NCT02076399|164591740|SUPERIORITY||Risk Difference (RD)|0.15||||0.3365|TWO_SIDED|95.0|-0.2|0.5||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.5|-0.2|0.3365
82441581|NCT04342689|164591743|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||0.99
82563509|NCT01159600|164836763|SUPERIORITY_OR_OTHER||Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.79|-0.48||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met: empa 25mg minus Met: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 25mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.48|-0.79|<0.0001
82563510|NCT01159600|164836763|SUPERIORITY_OR_OTHER||Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.79|-0.49||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 10mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 10mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.49|-0.79|<0.0001
82624461|NCT02781454|164964414|SUPERIORITY||linear contrast active vs placebo|-2.734||||0.285|TWO_SIDED|95.0|-7.938|2.471|||Mixed Models Analysis|||Comparison of active (300 and 600 mg) vs placebo for change from baseline to week 4||2.471|-7.938|0.285
82624462|NCT03796182|164964420|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|98.5|||||TWO_SIDED|90.0|82.09|118.2||||||||118.20|82.09|
82624463|NCT03796182|164964421|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|93.49|||||TWO_SIDED|90.0|85.15|102.65||||||||102.65|85.15|
82624464|NCT03796182|164964422|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|88.07|||||TWO_SIDED|90.0|80.99|95.76||||||||95.76|80.99|
82624465|NCT03796182|164964424|EQUIVALENCE|The corresponding 90% confidence intervals equivalence criteria was (80%, 125%) acceptance range.|Ratio|94.25|||||TWO_SIDED|90.0|88.19|100.73||||||||100.73|88.19|
82624466|NCT04682353|164964437|OTHER||Geometric Mean Ratio|0.976|||||TWO_SIDED|90.0|0.748|1.274||||||||1.274|0.748|
82624467|NCT04682353|164964437|OTHER||Geometric Mean Ratio|1.226|||||TWO_SIDED|90.0|0.94|1.598||||||||1.598|0.940|
82624468|NCT04682353|164964437|OTHER||Geometric Mean Ratio|1.817|||||TWO_SIDED|90.0|1.38|2.392||||||||2.392|1.380|
82441582|NCT04342689|164591744|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
82624469|NCT04682353|164964439|OTHER||Geometric Mean Ratio|1.202|||||TWO_SIDED|90.0|0.96|1.506||||||||1.506|0.960|
82624470|NCT04682353|164964439|OTHER||Geometric Mean Ratio|1.393|||||TWO_SIDED|90.0|1.07|1.815||||||||1.815|1.070|
82624471|NCT04682353|164964439|OTHER||Geometric Mean Ratio|2.301|||||TWO_SIDED|90.0|1.806|2.933||||||||2.933|1.806|
82441583|NCT04342689|164591745|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82441584|NCT01460407|164591746|SUPERIORITY_OR_OTHER||Ratio of geometric LS mean|1.28|||||TWO_SIDED|90.0|1.16|1.42|||||Ratio of LY2216684 and Clarithromycin to LY2216684|||1.42|1.16|
82624472|NCT04682353|164964440|OTHER||Geometric Mean Ratio|1.699|||||TWO_SIDED|90.0|0.921|3.135||||||||3.135|0.921|
82624473|NCT04682353|164964440|OTHER||Geometric Mean Ratio|2.364|||||TWO_SIDED|90.0|1.273|4.39||||||||4.390|1.273|
82624474|NCT04682353|164964440|OTHER||Geometric Mean Ratio|3.748|||||TWO_SIDED|90.0|2.033|6.908||||||||6.908|2.033|
82624475|NCT04682353|164964441|OTHER||Geometric Mean Ratio|1.904|||||TWO_SIDED|90.0|0.886|4.093||||||||4.093|0.886|
82624476|NCT04682353|164964441|OTHER||Geometric Mean Ratio|3.317|||||TWO_SIDED|90.0|1.585|6.942||||||||6.942|1.585|
82624477|NCT04682353|164964441|OTHER||Geometric Mean Ratio|5.824|||||TWO_SIDED|90.0|2.796|12.135||||||||12.135|2.796|
82624478|NCT04682353|164964442|OTHER||Geometric Mean Ratio|1.095|||||TWO_SIDED|90.0|0.92|1.302||||||||1.302|0.920|
82624479|NCT04682353|164964442|OTHER||Geometric Mean Ratio|1.415|||||TWO_SIDED|90.0|1.148|1.744||||||||1.744|1.148|
82624480|NCT04682353|164964442|OTHER||Geometric Mean Ratio|2.017|||||TWO_SIDED|90.0|1.692|2.405||||||||2.405|1.692|
82563511|NCT01159600|164836763|SUPERIORITY_OR_OTHER||Mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.74|-0.44||Each of the hypotheses (10mg vs placebo and 25mg vs. placebo) were tested (two-sided test) at the significance level of 0.025.|ANCOVA|Based on ANCOVA with baseline HbA1c as a linear covariate and baseline eGFR, geographical region and treatment as fixed effects.|Difference calculated as Met+SU: empa 25mg minus Met+SU: placebo|Null hypothesis: No difference in change from baseline to week 24 in HbA1c between Empagliflozin 25mg and placebo. The study consisted of two substudies as defined by the two background medications 'metformin' and 'metformin + SU'. Within each group of background medication, each of the two hypotheses (10mg vs placebo and 25mg vs. placebo) was tested in a two-sided test.||-0.44|-0.74|<0.0001
82563512|NCT00946998|164836765|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
82563513|NCT00946998|164836766|SUPERIORITY|||||||0.28||||||Represents the response outcome.|Mixed Models Analysis|||||||0.28
82563514|NCT00946998|164836766|SUPERIORITY|||||||0.86||||||Represents remission outcome.|Mixed Models Analysis|||||||0.86
82563515|NCT00946998|164836767|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
82563516|NCT00946998|164836768|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
82563517|NCT00946998|164836769|SUPERIORITY||||||>|0.99||||||For death|Chi-squared|||||||>.99
82563518|NCT00946998|164836769|SUPERIORITY|||||||0.77||||||For comparison of dialysis initiation between groups.|Chi-squared|||||||0.77
82563519|NCT00946998|164836769|SUPERIORITY||||||>|0.99||||||Hospitalization other than dialysis initiation|Chi-squared|||||||>0.99
82563520|NCT00946998|164836769|SUPERIORITY|||||||0.5||||||For comparison of acute suicidal intent.|Chi-squared|||||||0.5
82563521|NCT00946998|164836769|SUPERIORITY||||||>|0.99||||||For comparison of bleeding requiring blood transfusion or hospitalization.|Chi-squared|||||||>0.99
82563522|NCT01857362|164836770|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established if the 90% confidence interval for the ratio is completely within the acceptance range (0.80-1.25)|Ratio of geomectric means|1.0|||||TWO_SIDED|90.0|0.988|1.045|||ANOVA|||||1.045|0.988|
82563523|NCT01857362|164836771|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established if the 90% confidence interval for the ratio is completely within the acceptance range (0.80-1.25)|ratio of geometric means|0.989|||||TWO_SIDED|90.0|0.945|1.034|||ANOVA|||||1.034|0.945|
82563524|NCT00674609|164836790|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.67||||0.014|TWO_SIDED|95.0|-1.21|-0.14|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors. The null hypothesis was that of no treatment difference.||-0.14|-1.21|0.014
82563525|NCT00674609|164836790|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.32||||0.244|TWO_SIDED|95.0|-0.86|0.22|||ANCOVA|||The change in mean pain NRS score (average pain) was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and region and treatment group as factors. The null hypothesis was that of no treatment difference.||0.22|-0.86|0.244
82441585|NCT01460407|164591747|SUPERIORITY_OR_OTHER||Ratio of geometric LS mean|1.21|||||TWO_SIDED|90.0|1.12|1.31|||||Ratio of LY2216684 and Clarithromycin to LY2216684|||1.31|1.12|
82563526|NCT00674609|164836791|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.31||||0.346|TWO_SIDED|95.0|-0.97|0.34|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||0.34|-0.97|0.346
82563527|NCT00674609|164836791|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.02||||0.95|TWO_SIDED|95.0|-0.64|0.68|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||0.68|-0.64|0.95
82563528|NCT00674609|164836792|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.49||||0.11|TWO_SIDED|95.0|-0.11|1.09|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.09|-0.11|0.11
82563529|NCT00674609|164836792|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.46||||0.126|TWO_SIDED|95.0|-0.13|1.05|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.05|-0.13|0.126
82563530|NCT00674609|164836793|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.65||||0.045|TWO_SIDED|95.0|0.01|1.28|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.28|0.01|0.045
82563531|NCT00674609|164836793|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.62||||0.053|TWO_SIDED|95.0|-0.01|1.25|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.25|-0.01|0.053
82563532|NCT00674609|164836794|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|0.83||||0.016|TWO_SIDED|95.0|0.16|1.51|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.51|0.16|0.016
82624481|NCT04682353|164964443|OTHER||Geometric Mean Ratio|1.112|||||TWO_SIDED|90.0|0.948|1.303||||||||1.303|0.948|
82624482|NCT04682353|164964443|OTHER||Geometric Mean Ratio|1.439|||||TWO_SIDED|90.0|1.174|1.762||||||||1.762|1.174|
82624483|NCT04682353|164964443|OTHER||Geometric Mean Ratio|2.075|||||TWO_SIDED|90.0|1.751|2.459||||||||2.459|1.751|
82563533|NCT00674609|164836794|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.66||||0.056|TWO_SIDED|95.0|-0.02|1.33|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.33|-0.02|0.056
82563534|NCT00674609|164836795|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.68||||0.021|TWO_SIDED|95.0|0.1|1.25|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.25|0.10|0.021
82563535|NCT00674609|164836795|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|0.64||||0.028|TWO_SIDED|95.0|0.07|1.22|||ANCOVA|||Each secondary variable was tested using a two-sided significance level of α=0.05, unless otherwise specified. P-values of \< 0.05 were considered statistically significant. If the overall treatment effect for the secondary variables was statistically significant then treatment comparisons was made between active treatments and placebo.||1.22|0.07|0.028
82563536|NCT00674609|164836796|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|2.47||||0.443|TWO_SIDED|95.0|-3.87|8.81|||ANCOVA|||Analysis of the change from baseline was assessed using ANCOVA, adjusting for the effects of the baseline value. The significance of the treatment effect, after adjusting for the baseline value, was assessed using the F-test from the ANCOVA. If found significant at the 5% level, then the mean difference between treatments together with 95% CI were presented.||8.81|-3.87|0.443
82563537|NCT00674609|164836796|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|0.84||||0.793|TWO_SIDED|95.0|-5.46|7.13|||ANCOVA|||Analysis of the change from baseline was assessed using ANCOVA, adjusting for the effects of the baseline value. The significance of the treatment effect, after adjusting for the baseline value, was assessed using the F-test from the ANCOVA. If found significant at the 5% level, then the mean difference between treatments together with 95% CI were presented.||7.13|-5.46|0.793
82563538|NCT00674609|164836797|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.04||||0.619|TWO_SIDED|95.0|-5.23|3.15|||ANCOVA|||Change in pain scores on-treatment were be compared between groups using analysis of covariance (ANCOVA). The baseline pain score was fitted as a covariate in the model. The significance of the treatment effect after adjusting for baseline pain score was assessed using the F-test from the ANCOVA. If this was significant at the 5% level, then the mean difference between treatments together with the 95% confidence interval was presented for Sativex versus placebo and THC versus placebo.||3.15|-5.23|0.619
82563539|NCT00674609|164836797|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-4.07||||0.048|TWO_SIDED|95.0|-8.1|-0.05|||ANCOVA|||Change in pain scores on-treatment were be compared between groups using analysis of covariance (ANCOVA). The baseline pain score was fitted as a covariate in the model. The significance of the treatment effect after adjusting for baseline pain score was assessed using the F-test from the ANCOVA. If this was significant at the 5% level, then the mean difference between treatments together with the 95% confidence interval was presented for Sativex versus placebo and THC versus placebo.||-0.05|-8.10|0.048
82563540|NCT00674609|164836798|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.04||||0.688|TWO_SIDED|95.0|-0.25|0.16|||Regression, Logistic|||The on-treatment data was calculated from all available data during the last three days. The number of days the escape medication was used out of the last three days taken in the study was compared between treatments using logistic regression with a cumulative logit model. From this analysis the frequency distribution (%) of number days escape medication was used was presented together with the odds ratio, p-value and 95% CI for the treatment contrasts.||0.16|-0.25|0.688
82563541|NCT00674609|164836798|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.01||||0.899|TWO_SIDED|95.0|-0.19|0.22|||Regression, Logistic|||The on-treatment data was calculated from all available data during the last three days. The number of days the escape medication was used out of the last three days taken in the study was compared between treatments using logistic regression with a cumulative logit model. From this analysis the frequency distribution (%) of number days escape medication was used was presented together with the odds ratio, p-value and 95% CI for the treatment contrasts.||0.22|-0.19|0.899
82563542|NCT00234832|164836799|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.162||||0.015|TWO_SIDED|95.0|1.029|1.311||No adjustment for multiple testing or interim analysis was performed. The primary outcome was tested at a 2-sided alpha level of 0.05.|Log Rank||The Cox model included factors for treatment, country, gender, and age (continuous) at Lead-in Period baseline. For the calculation of risk, the sibutramine arm is the numerator and the placebo arm is the denominator.|For the sample size calculation, a two-tailed alpha level of 0.05 was used along with power of 90%. The annual composite event rate in the placebo arm was assumed to be 7.0%. A sample of 3983 subjects in each of the 2 groups, corrected for a 30% noncompliance rate (15% in Year 1 and 6.3% in each year, Years 2 to 4), followed for at least 3 years was expected to have 90% power to detect a relative risk reduction of 15% with sibutramine relative to placebo.||1.311|1.029|0.015
82563543|NCT00234832|164836799|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01||||0.948|TWO_SIDED|95.0|0.738|1.384|||Log Rank|||This analysis included only subjects with DM only in a comparison of sibutramine and placebo.||1.384|0.738|0.948
82563544|NCT00234832|164836799|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.276||||0.149|TWO_SIDED|95.0|0.916|1.776|||Log Rank|||This analysis included only subjects with CV only in a comparison of sibutramine and placebo.||1.776|0.916|0.149
82563545|NCT00234832|164836799|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.182||||0.022|TWO_SIDED|95.0|1.024|1.365|||Log Rank|||This analysis included only subjects with CV + DM in a comparison of sibutramine and placebo.||1.365|1.024|0.022
82563546|NCT00234832|164836800|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.043||||0.543|TWO_SIDED|95.0|0.91|1.196|||Log Rank|||||1.196|0.910|0.543
82441586|NCT01460407|164591748|SUPERIORITY_OR_OTHER||Median of paired differences|0.0||||0.7656|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)||LY2216684 and Clarithromycin minus (-) LY2216684|||0.50|-0.50|0.7656
82563547|NCT00234832|164836801|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.097||||0.051|TWO_SIDED|95.0|0.999|1.204|||Log Rank|||||1.204|0.999|0.051
82441587|NCT01049802|164591749|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82624484|NCT04682353|164964444|OTHER||Geometric Mean Ratio|1.115|||||TWO_SIDED|90.0|0.993|1.252||||||||1.252|0.993|
82624485|NCT04682353|164964444|OTHER||Geometric Mean Ratio|1.53|||||TWO_SIDED|90.0|1.277|1.833||||||||1.833|1.277|
82563548|NCT00234832|164836802|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.276||||0.022|TWO_SIDED|95.0|1.036|1.571|||Log Rank|||||1.571|1.036|0.022
82441588|NCT01049802|164591750|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82441589|NCT01049802|164591751|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82563549|NCT00234832|164836803|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.355||||0.025|TWO_SIDED|95.0|1.038|1.767|||Log Rank|||||1.767|1.038|0.025
82563550|NCT00234832|164836804|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.582||||0.343|TWO_SIDED|95.0|0.613|4.081|||Log Rank|||||4.081|0.613|0.343
82563551|NCT00234832|164836805|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.988||||0.899|TWO_SIDED|95.0|0.822|1.188|||Log Rank|||||1.188|0.822|0.899
82563552|NCT02301299|164836848|OTHER|For power calculation, we assumed that the intervention would be almost fully implemented in May 2016 and the early hospital arrival would be observed until Dec 2017. Therefore, a post-intervention period would be 20 months. To have one-third of the study period as an intervention period, we planned to analyze five-year (60-month) data from January 2013 to December 2017.|||||<|0.0001|||||||Regression, Linear|Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG.||The effect size was defined as the sum of expected slope change in monthly early hospital arrival rate over the standard deviation. Assuming an autocorrelation level of 0.3, both level and trend change effect size of 0.5 would be detectable at 90% power at a significance level of 0.05.|Using SAS PROC TIMESERIES, individual admission data were aggregated into monthly time series data to calculate a monthly early arrival rate. In this procedure, we also generated seasonally adjusted time series data to take into account a seasonal pattern. Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG. The statistical hypothesis of the regression model was that there are a level change and a slope change after the intervention. In the regression model, we included a time variable to account for a natural trend prior to the intervention introduction (or in absence of the intervention). We assumed that the patient population was stable during the five-year period and no other factors than the intervention affected the outcome; no other potential confounding factors were not considered. A backward elimination was used to correct for autocorrelation. Maximum likelihood method was used to estimate parameters.|||<.0001
82563553|NCT02301299|164836849|OTHER|For power calculation, we assumed that the intervention would be almost fully implemented in May 2016 and the EMS use would be observed until Dec 2017. Therefore, a post-intervention period would be 20 months. To have one-third of the study period as an intervention period, we planned to analyze five-year (60-month) data from January 2013 to December 2017.|||||<|0.0001|||||||Regression, Linear|||The effect size was defined as the sum of expected slope change in monthly EMS use rate over the standard deviation. Assuming an autocorrelation level of 0.3, both level and trend change effect size of 0.5 would be detectable at 90% power at a significance level of 0.05. The effect size is measured in slope of change over time (negative values indicate a decrease while positive values indicate an increase in % EMS use/month).|Using SAS PROC TIMESERIES, individual admission data were aggregated into monthly time series data to calculate a monthly EMS arrival rate. In this procedure, we also generated seasonally adjusted time series data to take into account a seasonal pattern. Using the seasonally adjusted time series data, we conducted linear regression analysis for time series data in PROC AUTOREG. The statistical hypothesis of the regression model was that there are a level change and a slope change after the intervention. In the regression model, we included a time variable to account for a natural trend prior to the intervention introduction (or in absence of the intervention). We assumed that the patient population was stable during the five-year period and no other factors than the intervention affected the outcome; no other potential confounding factors were not considered. A backward elimination was used to correct for autocorrelation. Maximum likelihood method was used to estimate parameters.|||<.0001
82563554|NCT03512041|164836851|SUPERIORITY|||||||0.172|||||||ANOVA|||||||0.172
82563555|NCT03512041|164836852|SUPERIORITY|||||||0.169|||||||ANOVA|||||||0.169
82563556|NCT03512041|164836853|SUPERIORITY|||||||0.501|||||||ANOVA|||||||0.501
82563557|NCT03320941|164836903|OTHER|Dose Finding|Mean Difference (Net)|-1.99|||||TWO_SIDED|95.0|-2.92|-0.21||||||||-0.21|-2.92|
82563558|NCT03320941|164836903|OTHER|Dose Finding|Mean Difference (Net)|-3.0|||||TWO_SIDED|95.0|-4.15|-1.7||||||||-1.70|-4.15|
82563559|NCT03320941|164836903|OTHER|Dose Finding|Mean Difference (Net)|-3.54|||||TWO_SIDED|95.0|-4.54|-2.26||||||||-2.26|-4.54|
82563560|NCT03320941|164836903|OTHER|Dose Finding|Mean Difference (Net)|-3.91|||||TWO_SIDED|95.0|-5.01|-2.77||||||||-2.77|-5.01|
82563561|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|2.299||||0.39|TWO_SIDED|95.0|0.344|15.35|||Regression, Logistic|||\>= 3% Percent decrease in body weight||15.350|0.344|0.390
82563562|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|15.78||||0.002|TWO_SIDED|95.0|2.844|87.552|||Regression, Logistic|||\>= 3% Percent decrease in body weight||87.552|2.844|0.002
82563563|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|12.708||||0.002|TWO_SIDED|95.0|2.511|64.32|||Regression, Logistic|||\>= 3% Percent decrease in body weight||64.320|2.511|0.002
82563564|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|16.813|||<|0.001|TWO_SIDED|95.0|3.362|84.085|||Regression, Logistic|||\>= 3% Percent decrease in body weight||84.085|3.362|<0.001
82563565|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|1.697||||0.727|TWO_SIDED|95.0|0.087|33.006|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||33.006|0.087|0.727
82563566|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|28.26||||0.012|TWO_SIDED|95.0|2.066|386.473|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||386.473|2.066|0.012
82563567|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|10.333||||0.059|TWO_SIDED|95.0|0.914|116.82|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||116.820|0.914|0.059
82563568|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|9.456||||0.062|TWO_SIDED|95.0|0.891|100.292|||Regression, Logistic|||\>= 3% Percent decrease in body weight (Dysglycemic)||100.292|0.891|0.062
82563569|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|3.59||||0.336|TWO_SIDED|95.0|0.265|48.552|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||48.552|0.265|0.336
82563570|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio, log|9.112||||0.075|TWO_SIDED|95.0|0.799|103.872|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||103.872|0.799|0.075
82563571|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|29.312||||0.006|TWO_SIDED|95.0|2.665|322.412|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||322.412|2.665|0.006
82563572|NCT03320941|164836904|OTHER|Dose Finding|Odds Ratio (OR)|37.949||||0.003|TWO_SIDED|95.0|3.477|414.232|||Regression, Logistic|||\>= 3% Percent decrease in body weight (T2DM)||414.232|3.477|0.003
82563573|NCT03320941|164836905|OTHER|Dose Finding|Median Difference (Final Values)|-1.84|||||TWO_SIDED|95.0|-3.56|-0.19||||||Dysglycemic||-0.19|-3.56|
82563574|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-2.98|||||TWO_SIDED|95.0|-4.56|-1.46||||||Dysglycemic||-1.46|-4.56|
82563575|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-4.71|-1.82||||||Dysglycemic||-1.82|-4.71|
82563576|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-3.51|||||TWO_SIDED|95.0|-4.93|-1.74||||||Dysglycemic||-1.74|-4.93|
82563577|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-1.96|||||TWO_SIDED|95.0|-3.12|-0.15||||||T2DM||-0.15|-3.12|
82563578|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-2.88|||||TWO_SIDED|95.0|-4.37|-0.61||||||T2DM||-0.61|-4.37|
82563579|NCT03320941|164836905|OTHER|Dose Finding|Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-5.2|-1.52||||||T2DM||-1.52|-5.20|
82563580|NCT03320941|164836905|OTHER|Dose Finding|Median Difference (Final Values)|-4.37|||||TWO_SIDED|95.0|-5.93|-2.79||||||T2DM||-2.79|-5.93|
82563581|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.011||0.278|TWO_SIDED|95.0|-3.104|0.9|||ANCOVA|||Overall Study||0.900|-3.104|0.278
82563582|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|1.013||0.216|TWO_SIDED|95.0|-3.265|0.747|||ANCOVA|||Overall Study||0.747|-3.265|0.216
82563583|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.902||0.158|TWO_SIDED|95.0|-3.069|0.504|||ANCOVA|||Overall Study||0.504|-3.069|0.158
82563584|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|0.89||0.053|TWO_SIDED|95.0|-3.401|0.022|||ANCOVA|||Overall Study||0.022|-3.401|0.053
82563585|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-2.36|STANDARD_ERROR_OF_MEAN|1.534||0.13|TWO_SIDED|95.0|-5.444|0.717|||ANCOVA|||Dysglycemic||0.717|-5.444|0.130
82563586|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-4.08|STANDARD_ERROR_OF_MEAN|1.534||0.011|TWO_SIDED|95.0|-7.156|-0.994|||ANCOVA|||Dysglycemic||-0.994|-7.156|0.011
82563587|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|1.325||0.215|TWO_SIDED|95.0|-4.322|0.996|||ANCOVA|||Dysglycemic||0.996|-4.322|0.215
82563588|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|1.346||0.184|TWO_SIDED|95.0|-4.515|0.888|||ANCOVA|||Dysglycemic||0.888|-4.515|0.184
82563589|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|1.292||0.982|TWO_SIDED|95.0|-2.611|2.552|||ANCOVA|||T2DM||2.552|-2.611|0.982
82563590|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.304||0.544|TWO_SIDED|95.0|-1.809|3.401|||ANCOVA|||T2DM||3.401|-1.809|0.544
82563591|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.188||0.552|TWO_SIDED|95.0|-3.084|1.663|||ANCOVA|||T2DM||1.663|-3.084|0.552
82563592|NCT03320941|164836906|OTHER|Dose Finding|Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|1.139||0.143|TWO_SIDED|95.0|-3.964|0.588|||ANCOVA|||T2DM||0.588|-3.964|0.143
82563593|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.206|STANDARD_ERROR_OF_MEAN|0.086||0.018|TWO_SIDED|95.0|-0.376|-0.035|||ANCOVA|||Overall Study||-0.035|-0.376|0.018
82563594|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.0863||0.002|TWO_SIDED|95.0|-0.447|-0.105|||ANCOVA|||Overall Study||-0.105|-0.447|0.002
82563595|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.287|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|95.0|-0.437|-0.136|||ANCOVA|||Overall Study||-0.136|-0.437|<0.001
82563596|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.338|STANDARD_ERROR_OF_MEAN|0.0747|<|0.001|TWO_SIDED|95.0|-0.486|-0.19|||ANCOVA|||Overall Study||-0.190|-0.486|<0.001
82563597|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.089|STANDARD_ERROR_OF_MEAN|0.0775||0.258|TWO_SIDED|95.0|-0.245|0.067|||ANCOVA|||Dysglycemic||0.067|-0.245|0.258
82563598|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.134|STANDARD_ERROR_OF_MEAN|0.0774||0.088|TWO_SIDED|95.0|-0.29|0.021|||ANCOVA|||Dysglycemic||0.021|-0.290|0.088
82563599|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.0673||0.035|TWO_SIDED|95.0|-0.282|-0.011|||ANCOVA|||Dysglycemic||-0.011|-0.282|0.035
82563600|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.113|STANDARD_ERROR_OF_MEAN|0.0673||0.1|TWO_SIDED|95.0|-0.248|0.022|||ANCOVA|||Dysglycemic||0.022|-0.248|0.100
82563601|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.313|STANDARD_ERROR_OF_MEAN|0.1399||0.029|TWO_SIDED|95.0|-0.592|-0.033|||ANCOVA|||T2DM||-0.033|-0.592|0.029
82563602|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.399|STANDARD_ERROR_OF_MEAN|0.1411||0.006|TWO_SIDED|95.0|-0.681|-0.117|||ANCOVA|||T2DM||-0.117|-0.681|0.006
82563603|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.409|STANDARD_ERROR_OF_MEAN|0.1253||0.002|TWO_SIDED|95.0|-0.66|-0.159|||ANCOVA|||T2DM||-0.159|-0.660|0.002
82563604|NCT03320941|164836907|OTHER|Dose Finding|Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.1217|<|0.001|TWO_SIDED|95.0|-0.769|-0.282|||ANCOVA|||T2DM||-0.282|-0.769|<0.001
82563605|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.2094||0.408|TWO_SIDED|95.0|-0.589|0.241|||ANCOVA|||Overall Study||0.241|-0.589|0.408
82563606|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.505|STANDARD_ERROR_OF_MEAN|0.2115||0.018|TWO_SIDED|95.0|-0.924|-0.087|||ANCOVA|||Overall Study||-0.087|-0.924|0.018
82563607|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.587|STANDARD_ERROR_OF_MEAN|0.1866||0.002|TWO_SIDED|95.0|-0.956|-0.217|||ANCOVA|||Overall Study||-0.217|-0.956|0.002
82563608|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|0.1831|<|0.001|TWO_SIDED|95.0|-1.188|-0.463|||ANCOVA|||Overall Study||-0.463|-1.188|<0.001
82624486|NCT04682353|164964444|OTHER||Geometric Mean Ratio|2.14|||||TWO_SIDED|90.0|1.888|2.425||||||||2.425|1.888|
82563609|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.2054||0.293|TWO_SIDED|95.0|-0.194|0.631|||ANCOVA|||Dysglycemic||0.631|-0.194|0.293
82563610|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.2068||0.665|TWO_SIDED|95.0|-0.325|0.506|||ANCOVA|||Dysglycemic||0.506|-0.325|0.665
82563611|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.1791||0.803|TWO_SIDED|95.0|-0.405|0.315|||ANCOVA|||Dysglycemic||0.315|-0.405|0.803
82563612|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.256|STANDARD_ERROR_OF_MEAN|0.1787||0.159|TWO_SIDED|95.0|-0.615|0.103|||ANCOVA|||Dysglycemic||0.103|-0.615|0.159
82563613|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-0.527|STANDARD_ERROR_OF_MEAN|0.3249||0.11|TWO_SIDED|95.0|-1.176|0.122|||ANCOVA|||T2DM||0.122|-1.176|0.110
82563614|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-1.032|STANDARD_ERROR_OF_MEAN|0.3296||0.003|TWO_SIDED|95.0|-1.691|-0.373|||ANCOVA|||T2DM||-0.373|-1.691|0.003
82563615|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-1.065|STANDARD_ERROR_OF_MEAN|0.2946|<|0.001|TWO_SIDED|95.0|-1.654|-0.476|||ANCOVA|||T2DM||-0.476|-1.654|<0.001
82563616|NCT03320941|164836908|OTHER|Dose Finding|Mean Difference (Final Values)|-1.298|STANDARD_ERROR_OF_MEAN|0.2855|<|0.001|TWO_SIDED|95.0|-1.869|-0.728|||ANCOVA|||T2DM||-0.728|-1.869|<0.001
82563617|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|2.707||0.865|TWO_SIDED|95.0|-4.898|5.822|||ANCOVA|||Overall Study||5.822|-4.898|0.865
82563618|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.765||0.931|TWO_SIDED|95.0|-5.235|5.716|||ANCOVA|||Overall Study||5.716|-5.235|0.931
82563619|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.433||0.682|TWO_SIDED|95.0|-5.817|3.82|||ANCOVA|||Overall Study||3.820|-5.817|0.682
82563620|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|2.387||0.508|TWO_SIDED|95.0|-6.312|3.142|||ANCOVA|||Overall Study||3.142|-6.312|0.508
82563621|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|4.206||0.757|TWO_SIDED|95.0|-7.138|9.749|||ANCOVA|||Dysglycemic||9.749|-7.138|0.757
82563622|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|4.267||0.999|TWO_SIDED|95.0|-8.571|8.563|||ANCOVA|||Dysglycemic||8.563|-8.571|0.999
82563623|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|3.668||0.342|TWO_SIDED|95.0|-3.848|10.88|||ANCOVA|||Dysglycemic||10.880|-3.848|0.342
82563624|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|2.92|STANDARD_ERROR_OF_MEAN|3.673||0.43|TWO_SIDED|95.0|-4.454|10.292|||ANCOVA|||Dysglycemic||10.292|-4.454|0.430
82563625|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.461||0.909|TWO_SIDED|95.0|-7.312|6.52|||ANCOVA|||T2DM||6.520|-7.312|0.909
82563626|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|3.563||0.821|TWO_SIDED|95.0|-6.311|7.93|||ANCOVA|||T2DM||7.930|-6.311|0.821
82563627|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|-4.87|STANDARD_ERROR_OF_MEAN|3.19||0.132|TWO_SIDED|95.0|-11.24|1.508|||ANCOVA|||T2DM||1.508|-11.240|0.132
82563628|NCT03320941|164836909|OTHER|Dose Finding|Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|3.07||0.093|TWO_SIDED|95.0|-11.367|0.905|||ANCOVA|||T2DM||0.905|-11.367|0.093
82563629|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|2.013||0.769|TWO_SIDED|95.0|-4.579|3.393|||ANCOVA|||Overall Study||3.393|-4.579|0.769
82563630|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.043||0.839|TWO_SIDED|95.0|-4.462|3.63|||ANCOVA|||Overall Study||3.630|-4.462|0.839
82563631|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.807||0.496|TWO_SIDED|95.0|-4.811|2.345|||ANCOVA|||Overall Study||2.345|-4.811|0.496
82563632|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|1.774||0.237|TWO_SIDED|95.0|-5.622|1.402|||ANCOVA|||Overall Study||1.402|-5.622|0.237
82563633|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|3.2||0.758|TWO_SIDED|95.0|-5.435|7.415|||ANCOVA|||Dysglycemic||7.415|-5.435|0.758
82563634|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|3.23||0.978|TWO_SIDED|95.0|-6.574|6.397|||ANCOVA|||Dysglycemic||6.397|-6.574|0.978
82563635|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|2.79||0.512|TWO_SIDED|95.0|-3.758|7.444|||ANCOVA|||Dysglycemic||7.444|-3.758|0.512
82624487|NCT02193828|164964476|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
82563636|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|2.792||0.985|TWO_SIDED|95.0|-5.552|5.657|||ANCOVA|||Dysglycemic||5.657|-5.552|0.985
82563637|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|2.599||0.428|TWO_SIDED|95.0|-7.268|3.121|||ANCOVA|||T2DM||3.121|-7.268|0.428
82563638|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|2.669||0.846|TWO_SIDED|95.0|-5.853|4.812|||ANCOVA|||T2DM||4.812|-5.853|0.846
82563639|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-4.05|STANDARD_ERROR_OF_MEAN|2.388||0.095|TWO_SIDED|95.0|-8.825|0.721|||ANCOVA|||T2DM||0.721|-8.825|0.095
82563640|NCT03320941|164836910|OTHER|Dose Finding|Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.31||0.089|TWO_SIDED|95.0|-8.61|0.623|||ANCOVA|||T2DM||0.623|-8.610|0.089
82563641|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-15.561|STANDARD_ERROR_OF_MEAN|21.4808||0.47|TWO_SIDED|95.0|-58.106|26.985|||ANCOVA|||Overall Study||26.985|-58.106|0.470
82563642|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-6.343|STANDARD_ERROR_OF_MEAN|21.6316||0.77|TWO_SIDED|95.0|-49.187|36.501|||ANCOVA|||Overall Study||36.501|-49.187|0.770
82563643|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|26.527|STANDARD_ERROR_OF_MEAN|19.1803||0.169|TWO_SIDED|95.0|-11.462|64.516|||ANCOVA|||Overall Study||64.516|-11.462|0.169
82624488|NCT02193828|164964476|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
82563644|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-12.094|STANDARD_ERROR_OF_MEAN|18.8076||0.521|TWO_SIDED|95.0|-49.345|25.157|||ANCOVA|||Overall Study||25.157|-49.345|0.521
82563645|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-22.115|STANDARD_ERROR_OF_MEAN|38.7858||0.571|TWO_SIDED|95.0|-100.058|55.828|||ANCOVA|||Dysglycemic||55.828|-100.058|0.571
82563646|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-22.948|STANDARD_ERROR_OF_MEAN|39.4994||0.564|TWO_SIDED|95.0|-102.325|56.429|||ANCOVA|||Dysglycemic||56.429|-102.325|0.564
82563647|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|31.322|STANDARD_ERROR_OF_MEAN|33.855||0.359|TWO_SIDED|95.0|-36.712|99.356|||ANCOVA|||Dysglycemic||99.356|-36.712|0.359
82563648|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-6.901|STANDARD_ERROR_OF_MEAN|34.4309||0.842|TWO_SIDED|95.0|-76.093|62.29|||ANCOVA|||Dysglycemic||62.290|-76.093|0.842
82563649|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-12.79|STANDARD_ERROR_OF_MEAN|24.3259||0.601|TWO_SIDED|95.0|-61.417|35.836|||ANCOVA|||T2DM||35.836|-61.417|0.601
82563650|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|9.302|STANDARD_ERROR_OF_MEAN|24.422||0.705|TWO_SIDED|95.0|-39.517|58.121|||ANCOVA|||T2DM||58.121|-39.517|0.705
82563651|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|20.94|STANDARD_ERROR_OF_MEAN|22.0444||0.346|TWO_SIDED|95.0|-23.126|65.007|||ANCOVA|||T2DM||65.007|-23.126|0.346
82563652|NCT03320941|164836911|OTHER|Dose Finding|Mean Difference (Final Values)|-13.863|STANDARD_ERROR_OF_MEAN|21.2205||0.516|TWO_SIDED|95.0|-56.283|28.556|||ANCOVA|||T2DM||28.556|-56.283|0.516
82563653|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|0.955|STANDARD_ERROR_OF_MEAN|3.605||0.792|TWO_SIDED|95.0|-6.185|8.095|||ANCOVA|||Overall Study||8.095|-6.185|0.792
82563654|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|-0.739|STANDARD_ERROR_OF_MEAN|3.7167||0.843|TWO_SIDED|95.0|-8.1|6.623|||ANCOVA|||Overall Study||6.623|-8.100|0.843
82563655|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|3.128|STANDARD_ERROR_OF_MEAN|3.2564||0.339|TWO_SIDED|95.0|-3.322|9.578|||ANCOVA|||Overall Study||9.578|-3.322|0.339
82563656|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|2.546|STANDARD_ERROR_OF_MEAN|3.1859||0.426|TWO_SIDED|95.0|-3.764|8.856|||ANCOVA|||Overall Study||8.856|-3.764|0.426
82563657|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|0.504|STANDARD_ERROR_OF_MEAN|5.8734||0.932|TWO_SIDED|95.0|-11.299|12.307|||ANCOVA|||Dysglycemic||12.307|-11.299|0.932
82563658|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|-2.458|STANDARD_ERROR_OF_MEAN|6.3493||0.7|TWO_SIDED|95.0|-15.217|10.302|||ANCOVA|||Dysglycemic||10.302|-15.217|0.700
82563659|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|7.832|STANDARD_ERROR_OF_MEAN|5.0946||0.131|TWO_SIDED|95.0|-2.406|18.07|||ANCOVA|||Dysglycemic||18.070|-2.406|0.131
82563660|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|1.825|STANDARD_ERROR_OF_MEAN|5.197||0.727|TWO_SIDED|95.0|-8.619|12.269|||ANCOVA|||Dysglycemic||12.269|-8.619|0.727
82563661|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|0.828|STANDARD_ERROR_OF_MEAN|4.5876||0.857|TWO_SIDED|95.0|-8.342|9.999|||ANCOVA|||T2DM||9.999|-8.342|0.857
82563662|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|-0.696|STANDARD_ERROR_OF_MEAN|4.7173||0.883|TWO_SIDED|95.0|-10.126|8.734|||ANCOVA|||T2DM||8.734|-10.126|0.883
82624489|NCT02193828|164964476|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||For surface area||||<.0001
82624490|NCT02193828|164964476|SUPERIORITY_OR_OTHER|||||||0.0713|TWO_SIDED||||||ANOVA|||For surface area||||.0713
82563663|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|-0.975|STANDARD_ERROR_OF_MEAN|4.2883||0.821|TWO_SIDED|95.0|-9.547|7.597|||ANCOVA|||T2DM||7.597|-9.547|0.821
82563664|NCT03320941|164836912|OTHER|Dose Finding|Mean Difference (Final Values)|2.488|STANDARD_ERROR_OF_MEAN|4.1111||0.547|TWO_SIDED|95.0|-5.73|10.706|||ANCOVA|||T2DM||10.706|-5.730|0.547
82563665|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|4.954|STANDARD_ERROR_OF_MEAN|3.4006||0.148|TWO_SIDED|95.0|-1.781|11.689|||ANCOVA|||Overall Study||11.689|-1.781|0.148
82563666|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|0.993|STANDARD_ERROR_OF_MEAN|3.4645||0.775|TWO_SIDED|95.0|-5.869|7.855|||ANCOVA|||Overall Study||7.855|-5.869|0.775
82563667|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|-1.799|STANDARD_ERROR_OF_MEAN|3.0432||0.556|TWO_SIDED|95.0|-7.826|4.229|||ANCOVA|||Overall Study||4.229|-7.826|0.556
82563668|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|3.566|STANDARD_ERROR_OF_MEAN|3.0079||0.238|TWO_SIDED|95.0|-2.391|9.524|||ANCOVA|||Overall Study||9.524|-2.391|0.238
82563669|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|3.811|STANDARD_ERROR_OF_MEAN|5.4552||0.488|TWO_SIDED|95.0|-7.152|14.774|||ANCOVA|||Dysglycemic||14.774|-7.152|0.488
82563670|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|4.659|STANDARD_ERROR_OF_MEAN|5.4845||0.4|TWO_SIDED|95.0|-6.363|15.68|||ANCOVA|||Dysglycemic||15.680|-6.363|0.400
82563671|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|4.7651||0.826|TWO_SIDED|95.0|-8.525|10.626|||ANCOVA|||Dysglycemic||10.626|-8.525|0.826
82563672|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|4.182|STANDARD_ERROR_OF_MEAN|4.7627||0.384|TWO_SIDED|95.0|-5.389|13.753|||ANCOVA|||Dysglycemic||13.753|-5.389|0.384
82563673|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|5.563|STANDARD_ERROR_OF_MEAN|4.4636||0.217|TWO_SIDED|95.0|-3.36|14.486|||ANCOVA|||T2DM||14.486|-3.360|0.217
82563674|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|-2.019|STANDARD_ERROR_OF_MEAN|4.5491||0.659|TWO_SIDED|95.0|-11.112|7.074|||ANCOVA|||T2DM||7.074|-11.112|0.659
82563675|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|-4.316|STANDARD_ERROR_OF_MEAN|4.0556||0.291|TWO_SIDED|95.0|-12.423|3.791|||ANCOVA|||T2DM||3.791|-12.423|0.291
82563676|NCT03320941|164836913|OTHER|Dose Finding|Mean Difference (Final Values)|2.913|STANDARD_ERROR_OF_MEAN|4.0035||0.47|TWO_SIDED|95.0|-5.09|10.916|||ANCOVA|||T2DM||10.916|-5.090|0.470
82563677|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|1.308|STANDARD_ERROR_OF_MEAN|5.2049||0.802|TWO_SIDED|95.0|-9.001|11.617|||ANCOVA|||Overall Study||11.617|-9.001|0.802
82624491|NCT02193828|164964476|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANOVA|||For volume||||.0002
82563678|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|-1.812|STANDARD_ERROR_OF_MEAN|5.4301||0.739|TWO_SIDED|95.0|-12.567|8.943|||ANCOVA|||Overall Study||8.943|-12.567|0.739
82563679|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|0.588|STANDARD_ERROR_OF_MEAN|4.7125||0.901|TWO_SIDED|95.0|-8.745|9.922|||ANCOVA|||Overall Study||9.922|-8.745|0.901
82563680|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|5.278|STANDARD_ERROR_OF_MEAN|4.6095||0.255|TWO_SIDED|95.0|-3.852|14.407|||ANCOVA|||Overall Study||14.407|-3.852|0.255
82563681|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|0.928|STANDARD_ERROR_OF_MEAN|8.5585||0.914|TWO_SIDED|95.0|-16.271|18.127|||ANCOVA|||Dysglycemic||18.127|-16.271|0.914
82563682|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|9.2308||0.959|TWO_SIDED|95.0|-19.03|18.07|||ANCOVA|||Dysglycemic||18.070|-19.030|0.959
82563683|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|6.572|STANDARD_ERROR_OF_MEAN|7.422||0.38|TWO_SIDED|95.0|-8.343|21.487|||ANCOVA|||Dysglycemic||21.487|-8.343|0.380
82624492|NCT02193828|164964476|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||For volume||||.0001
82563684|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|6.121|STANDARD_ERROR_OF_MEAN|7.5174||0.419|TWO_SIDED|95.0|-8.986|21.228|||ANCOVA|||Dysglycemic||21.228|-8.986|0.419
82563685|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|0.785|STANDARD_ERROR_OF_MEAN|6.6209||0.906|TWO_SIDED|95.0|-12.45|14.02|||ANCOVA|||T2DM||14.020|-12.450|0.906
82563686|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|-4.504|STANDARD_ERROR_OF_MEAN|6.8489||0.513|TWO_SIDED|95.0|-18.195|9.187|||ANCOVA|||T2DM||9.187|-18.195|0.513
82563687|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|-4.237|STANDARD_ERROR_OF_MEAN|6.23||0.499|TWO_SIDED|95.0|-16.691|8.216|||ANCOVA|||T2DM||8.216|-16.691|0.499
82563688|NCT03320941|164836914|OTHER|Dose Finding|Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|5.9073||0.516|TWO_SIDED|95.0|-7.948|15.669|||ANCOVA|||T2DM||15.669|-7.948|0.516
82563689|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|44.82||||0.625|TWO_SIDED|95.0|-136.644|226.284|||ANCOVA|||Overall Study||226.284|-136.644|0.625
82563690|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|162.273||||0.079|TWO_SIDED|95.0|-19.326|343.871|||ANCOVA|||Overall Study||343.871|-19.326|0.079
82563691|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|69.062||||0.384|TWO_SIDED|95.0|-87.493|225.617|||ANCOVA|||Overall Study||225.617|-87.493|0.384
82563692|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|37.733||||0.627|TWO_SIDED|95.0|-115.58|191.045|||ANCOVA|||Overall Study||191.045|-115.580|0.627
82563693|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|22.879||||0.797|TWO_SIDED|95.0|-155.244|201.003|||ANCOVA|||Dysglycemic||201.003|-155.244|0.797
82563694|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|12.891||||0.882|TWO_SIDED|95.0|-160.215|185.996|||ANCOVA|||Dysglycemic||185.996|-160.215|0.882
82563695|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|-30.447||||0.675|TWO_SIDED|95.0|-175.796|114.902|||ANCOVA|||Dysglycemic||114.902|-175.796|0.675
82563696|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|-37.264||||0.607|TWO_SIDED|95.0|-182.099|107.571|||ANCOVA|||Dysglycemic||107.571|-182.099|0.607
82563697|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|84.822||||0.591|TWO_SIDED|95.0|-229.131|398.775|||ANCOVA|||T2DM||398.775|-229.131|0.591
82563698|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|287.328||||0.066|TWO_SIDED|95.0|-19.533|594.19|||ANCOVA|||T2DM||594.190|-19.533|0.066
82563699|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|156.017||||0.252|TWO_SIDED|95.0|-113.963|425.997|||ANCOVA|||T2DM||425.997|-113.963|0.252
82563700|NCT03320941|164836915|OTHER|Dose Finding|Mean Difference (Final Values)|103.135||||0.431|TWO_SIDED|95.0|-157.287|363.556|||ANCOVA|||T2DM||363.556|-157.287|0.431
82563701|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-65.1|STANDARD_ERROR_OF_MEAN|13.03|<|0.001|TWO_SIDED|95.0|-90.864|-39.251|||ANCOVA|||Overall Study||-39.251|-90.864|<0.001
82563702|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-67.7|STANDARD_ERROR_OF_MEAN|13.21|<|0.001|TWO_SIDED|95.0|-93.848|-41.542|||ANCOVA|||Overall Study||-41.542|-93.848|<0.001
82563703|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-70.8|STANDARD_ERROR_OF_MEAN|11.67|<|0.001|TWO_SIDED|95.0|-93.942|-47.735|||ANCOVA|||Overall Study||-47.735|-93.942|<0.001
82563704|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-74.4|STANDARD_ERROR_OF_MEAN|11.47|<|0.001|TWO_SIDED|95.0|-97.117|-51.704|||ANCOVA|||Overall Study||-51.704|-97.117|<0.001
82563705|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-86.9|STANDARD_ERROR_OF_MEAN|24.35|<|0.001|TWO_SIDED|95.0|-135.78|-38.013|||ANCOVA|||Dysglycemic||-38.013|-135.780|<0.001
82563706|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-86.1|STANDARD_ERROR_OF_MEAN|24.01|<|0.001|TWO_SIDED|95.0|-134.266|-37.874|||ANCOVA|||Dysglycemic||-37.874|-134.266|<0.001
82563707|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-81.1|STANDARD_ERROR_OF_MEAN|21.04|<|0.001|TWO_SIDED|95.0|-123.369|-38.883|||ANCOVA|||Dysglycemic||-38.883|-123.369|<0.001
82563708|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-84.9|STANDARD_ERROR_OF_MEAN|21.03|<|0.001|TWO_SIDED|95.0|-127.104|-42.669|||ANCOVA|||Dysglycemic||-42.669|-127.104|<0.001
82563709|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-47.5|STANDARD_ERROR_OF_MEAN|13.52|<|0.001|TWO_SIDED|95.0|-74.493|-20.461|||ANCOVA|||T2DM||-20.461|-74.493|<0.001
82563710|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-53.1|STANDARD_ERROR_OF_MEAN|13.93|<|0.001|TWO_SIDED|95.0|-80.914|-25.251|||ANCOVA|||T2DM||-25.251|-80.914|<0.001
82563711|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-61.8|STANDARD_ERROR_OF_MEAN|12.43|<|0.001|TWO_SIDED|95.0|-86.627|-36.937|||ANCOVA|||T2DM||-36.937|-86.627|<0.001
82563712|NCT03320941|164836916|OTHER|Dose Finding|Mean Difference (Final Values)|-65.0|STANDARD_ERROR_OF_MEAN|12.15|<|0.001|TWO_SIDED|95.0|-89.291|-40.713|||ANCOVA|||T2DM||-40.713|-89.291|<0.001
82563713|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-0.556|STANDARD_ERROR_OF_MEAN|1.845||0.764|TWO_SIDED|95.0|-4.21|3.098|||ANCOVA|||Overall Study||3.098|-4.210|0.764
82563714|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|1.289|STANDARD_ERROR_OF_MEAN|1.8741||0.493|TWO_SIDED|95.0|-2.423|5.001|||ANCOVA|||Overall Study||5.001|-2.423|0.493
82624493|NCT02193828|164964476|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||For volume||||.0001
82624494|NCT02193828|164964476|SUPERIORITY_OR_OTHER|||||||0.0446|TWO_SIDED||||||ANOVA|||For volume||||.0446
82624495|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.2431|TWO_SIDED||||||ANOVA|||For surface area||||.2431
82624496|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED||||||ANOVA|||For surface area||||.0625
82624497|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.3409|TWO_SIDED||||||ANOVA|||For surface area||||.3409
82624498|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.704|TWO_SIDED||||||ANOVA|||For surface area||||.7040
82624499|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.3556|TWO_SIDED||||||ANOVA|||For volume||||0.3556
82624500|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.1275|TWO_SIDED||||||ANOVA|||For volume||||.1275
82441590|NCT01049802|164591752|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82441591|NCT01049802|164591753|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82441592|NCT02193087|164591757|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|0.29|||||TWO_SIDED|90.0|0.23|0.36||||||DEN-1||0.36|0.23|
82441593|NCT02193087|164591757|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|1.06|||||TWO_SIDED|90.0|0.9|1.26||||||DEN-2||1.26|0.90|
82563715|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-2.621|STANDARD_ERROR_OF_MEAN|1.6596||0.117|TWO_SIDED|95.0|-5.908|0.666|||ANCOVA|||Overall Study||0.666|-5.908|0.117
82624501|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.7883|TWO_SIDED||||||ANOVA|||For volume||||.7883
82624502|NCT02193828|164964477|SUPERIORITY_OR_OTHER|||||||0.9123|TWO_SIDED||||||ANOVA|||For volume||||.9123
82624503|NCT02193828|164964478|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Kruskal-Wallis|||||||.0002
82441594|NCT02193087|164591757|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|1.46|||||TWO_SIDED|90.0|1.13|1.89||||||DEN-3||1.89|1.13|
82441595|NCT02193087|164591757|NON_INFERIORITY_OR_EQUIVALENCE|Based on the Two One-Sided Tests (TOST) with α=0.05, if the 90% CI for the ratio of GMT for a given dengue serotype for the comparison was within the range of 0.67 and 1, then the 2 formulations were deemed equivalent.|LS Mean Ratio|0.74|||||TWO_SIDED|90.0|0.57|0.95||||||DEN-4||0.95|0.57|
82563716|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-1.818|STANDARD_ERROR_OF_MEAN|1.6349||0.269|TWO_SIDED|95.0|-5.056|1.421|||ANCOVA|||Overall Study||1.421|-5.056|0.269
82563717|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|1.671|STANDARD_ERROR_OF_MEAN|1.1677||0.159|TWO_SIDED|95.0|-0.676|4.017|||ANCOVA|||Dysglycemic||4.017|-0.676|0.159
82563718|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|5.641|STANDARD_ERROR_OF_MEAN|1.1678|<|0.001|TWO_SIDED|95.0|3.294|7.988|||ANCOVA|||Dysglycemic||7.988|3.294|<0.001
82563719|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|1.155|STANDARD_ERROR_OF_MEAN|1.0371||0.271|TWO_SIDED|95.0|-0.929|3.239|||ANCOVA|||Dysglycemic||3.239|-0.929|0.271
82563720|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|1.019||0.841|TWO_SIDED|95.0|-1.842|2.253|||ANCOVA|||Dysglycemic||2.253|-1.842|0.841
82624504|NCT02193828|164964478|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.0001
82441596|NCT00737711|164591789|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Paired t-test was used to estimation of p-value.|t-test, 2 sided|||||||<0.0001
82441597|NCT03880838|164591910|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.391|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.391
82441598|NCT03880838|164591910|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.861|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.861
82563721|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-3.725|STANDARD_ERROR_OF_MEAN|2.518||0.144|TWO_SIDED|95.0|-8.758|1.309|||ANCOVA|||T2DM||1.309|-8.758|0.144
82563722|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-0.877|STANDARD_ERROR_OF_MEAN|2.5906||0.736|TWO_SIDED|95.0|-6.055|4.302|||ANCOVA|||T2DM||4.302|-6.055|0.736
82624505|NCT02193828|164964478|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0002
82624506|NCT02193828|164964478|SUPERIORITY_OR_OTHER|||||||0.0139|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0139
82624507|NCT02193828|164964479|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANOVA|||||||.0004
82624508|NCT02193828|164964479|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||ANOVA|||||||.0075
82624509|NCT02193828|164964479|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<.0001
82624510|NCT02193828|164964479|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||ANOVA|||||||.0031
82624511|NCT02193828|164964480|SUPERIORITY_OR_OTHER|||||||0.3135|TWO_SIDED||||||ANOVA|||||||.3135
82624512|NCT02193828|164964480|SUPERIORITY_OR_OTHER|||||||0.7249|TWO_SIDED||||||ANOVA|||||||.7249
82624513|NCT02193828|164964480|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED||||||ANOVA|||||||.1573
82624514|NCT02193828|164964480|SUPERIORITY_OR_OTHER|||||||0.1234|TWO_SIDED||||||ANOVA|||||||.1234
82624515|NCT02193828|164964481|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kruskal-Wallis|||||||.0006
82624516|NCT02193828|164964481|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0014
82624517|NCT02193828|164964481|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0012
82624518|NCT02193828|164964481|SUPERIORITY_OR_OTHER|||||||0.1298|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.1298
82624519|NCT02193828|164964482|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||Kruskal-Wallis|||||||.0048
82624520|NCT02193828|164964482|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0034
82624521|NCT02193828|164964482|SUPERIORITY_OR_OTHER|||||||0.0079|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0079
82624522|NCT02193828|164964482|SUPERIORITY_OR_OTHER|||||||0.3216|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.3216
82624523|NCT02193828|164964483|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED||||||Fisher Exact|||||||.0065
82624524|NCT02193828|164964483|SUPERIORITY_OR_OTHER|||||||0.0349|TWO_SIDED||||||Fisher Exact|||||||.0349
82624525|NCT02193828|164964483|SUPERIORITY_OR_OTHER|||||||0.0033|TWO_SIDED||||||Fisher Exact|||||||.0033
82624526|NCT02193828|164964483|SUPERIORITY_OR_OTHER|||||||0.3423|TWO_SIDED||||||Fisher Exact|||||||.3423
82624527|NCT03219567|164964484|OTHER|||||||0.35|||||||t-test, 2 sided|||OCT compared to MRI||||0.35
82624528|NCT01313208|164964538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.055|TWO_SIDED|95.0|0.99|3.41|||Mantel Haenszel|P-value from Mantel-Haenszel test stratified by participant's baseline methotrexate use (yes or no).|Etanercept/Placebo|||3.41|0.99|0.055
82624529|NCT03258632|164964580|SUPERIORITY||Odds Ratio (OR)|1.17|||<|0.05|TWO_SIDED|95.0|0.73|1.9|||Mixed Models Analysis|||||1.90|0.73|<.05
82624530|NCT01957787|164964582|OTHER|||||||0.41||||||Estimates of the log odds and Wald standard error from a random effects logistic regression model were combined across imputed datasets for reference.|Random effects logistic regression model|||The null hypothesis was tested comparing the lower bound of the Wald 97.5% 1-sided confidence interval for the estimated rate of local tumor control to the performance goal of 84.0%. If the lower bound was greater than 84.0%, the null hypothesis was rejected and the endpoint was considered met.||||0.410
82624531|NCT00187889|164964598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.6|STANDARD_ERROR_OF_MEAN|6.7||0.15|TWO_SIDED|95.0|-22.8|3.6||The P-value applies to this comparison, without adjustment, to the completers of the trial.|Satterthwaite corrected t-test||An expanded definition of the outcome measure is the difference between the percentage change (week 16) and the percentage change week 0). This is a calculation based on 4 measurements.|The null hypothesis is that the treatments are equivalent with respect to the primary outcome. The Satterthwaite corrected t-tests adjusts for potentially unequal variance in the groups.||3.6|-22.8|0.15
82624532|NCT00187889|164964598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.39||0.92|TWO_SIDED|95.0|-0.79|0.72|||Satterthwaite corrected t-test||The Satterthwaite corrected t-tests adjusts for potentially unequal variance in the groups. This is a different outcome variable than the primary.|The null hypothesis is that treatments are equivalent on this outcome. The study was powered around the primary outcome. No adjustment for multiple comparisons was planned.||0.72|-0.79|0.92
82624533|NCT04046341|164964605|OTHER|||||||0.008||||||A priori statistical significance threshold = p\<.05|McNemar|||||||.008
82624534|NCT04046341|164964606|SUPERIORITY|||||||0.014||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.014
82624535|NCT04046341|164964607|SUPERIORITY|||||||0.013||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.013
82624536|NCT04046341|164964608|SUPERIORITY|||||||0.001||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.001
82624537|NCT04046341|164964609|SUPERIORITY|||||||0.209||||||A priori statistical significance threshold = p\<.05|t-test, 2 sided|||||||.209
82624538|NCT03162458|164964615|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82624539|NCT03162458|164964616|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
82624540|NCT03162458|164964617|SUPERIORITY|||||||0.055|||||||Log Rank|||||||0.055
82624541|NCT03162458|164964618|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||||||0.051
82624542|NCT03162458|164964619|SUPERIORITY|||||||0.19|||||||ANOVA|||Mean body temperatures, measured in the morning on Days 2-5 (based on patient diary data)||||0.19
82624543|NCT03162458|164964619|SUPERIORITY|||||||0.44|||||||ANOVA|||Mean body temperatures, measured in the evening on Days 2-5 (based on patient diary data)||||0.44
82624544|NCT03162458|164964620|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
82624545|NCT03162458|164964621|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
82624546|NCT03162458|164964622|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82624547|NCT03162458|164964623|SUPERIORITY|||||||0.63|||||||ANOVA|||||||0.63
82624548|NCT03162458|164964624|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82624549|NCT05109702|164964628|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.094||0.764|TWO_SIDED|95.0|-0.214|0.157|||MMRM|||The Least Square (LS) means, LS mean difference, Standard Errors (SEs), two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the Mixed model repeated measures (MMRM) model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.157|-0.214|0.764
82624550|NCT05109702|164964629|SUPERIORITY||LS Mean Difference|4.34|STANDARD_ERROR_OF_MEAN|2.969||0.144|TWO_SIDED|95.0|-1.483|10.155|||MMRM|||The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.155|-1.483|0.144
82624551|NCT05109702|164964630|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.094||0.056|TWO_SIDED|95.0|-0.005|0.363|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.363|-0.005|0.056
82624552|NCT05109702|164964630|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.094||0.064|TWO_SIDED|95.0|-0.01|0.359|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.359|-0.010|0.064
82563723|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-3.431|STANDARD_ERROR_OF_MEAN|2.3113||0.143|TWO_SIDED|95.0|-8.051|1.19|||ANCOVA|||T2DM||1.190|-8.051|0.143
82563724|NCT03320941|164836917|OTHER|Dose Finding|Mean Difference (Final Values)|-1.991|STANDARD_ERROR_OF_MEAN|2.2659||0.383|TWO_SIDED|95.0|-6.521|2.538|||ANCOVA|||T2DM||2.538|-6.521|0.383
82563725|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.654|STANDARD_ERROR_OF_MEAN|1.1543||0.572|TWO_SIDED|95.0|-1.632|2.941|||ANCOVA|||Overall Study||2.941|-1.632|0.572
82563726|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.655|STANDARD_ERROR_OF_MEAN|1.1738||0.578|TWO_SIDED|95.0|-1.67|2.98|||ANCOVA|||Overall Study||2.980|-1.670|0.578
82563727|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|-1.048|STANDARD_ERROR_OF_MEAN|1.0479||0.319|TWO_SIDED|95.0|-3.124|1.028|||ANCOVA|||Overall Study||1.028|-3.124|0.319
82563728|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|-0.374|STANDARD_ERROR_OF_MEAN|1.0303||0.717|TWO_SIDED|95.0|-2.416|1.667|||ANCOVA|||Overall Study||1.667|-2.416|0.717
82563729|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.563||0.317|TWO_SIDED|95.0|-0.562|1.701|||ANCOVA|||Dysglycemic||1.701|-0.562|0.317
82563730|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|1.609|STANDARD_ERROR_OF_MEAN|0.5716||0.007|TWO_SIDED|95.0|0.46|2.758|||ANCOVA|||Dysglycemic||2.758|0.460|0.007
82563731|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.352|STANDARD_ERROR_OF_MEAN|0.5029||0.487|TWO_SIDED|95.0|-0.659|1.362|||ANCOVA|||Dysglycemic||1.362|-0.659|0.487
82563732|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.4917||0.833|TWO_SIDED|95.0|-0.884|1.092|||ANCOVA|||Dysglycemic||1.092|-0.884|0.833
82563733|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|0.605|STANDARD_ERROR_OF_MEAN|2.073||0.771|TWO_SIDED|95.0|-3.541|4.752|||ANCOVA|||T2DM||4.752|-3.541|0.771
82563734|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|2.1453||0.991|TWO_SIDED|95.0|-4.315|4.267|||ANCOVA|||T2DM||4.267|-4.315|0.991
82563735|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|-2.166|STANDARD_ERROR_OF_MEAN|1.9486||0.271|TWO_SIDED|95.0|-6.064|1.732|||ANCOVA|||T2DM||1.732|-6.064|0.271
82563736|NCT03320941|164836918|OTHER|Dose Finding|Mean Difference (Final Values)|-0.792|STANDARD_ERROR_OF_MEAN|1.8889||0.676|TWO_SIDED|95.0|-4.57|2.986|||ANCOVA|||T2DM||2.986|-4.570|0.676
82563737|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|4.7535||0.968|TWO_SIDED|95.0|-9.603|9.222|||ANCOVA|||Overall Study||9.222|-9.603|0.968
82563738|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-1.883|STANDARD_ERROR_OF_MEAN|4.7545||0.693|TWO_SIDED|95.0|-11.297|7.531|||ANCOVA|||Overall Study||7.531|-11.297|0.693
82563739|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-5.236|STANDARD_ERROR_OF_MEAN|4.2623||0.222|TWO_SIDED|95.0|-13.676|3.203|||ANCOVA|||Overall Study||3.203|-13.676|0.222
82563740|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-7.403|STANDARD_ERROR_OF_MEAN|4.1637||0.078|TWO_SIDED|95.0|-15.648|0.841|||ANCOVA|||Overall Study||0.841|-15.648|0.078
82563741|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-1.142|STANDARD_ERROR_OF_MEAN|6.0033||0.85|TWO_SIDED|95.0|-13.194|10.91|||ANCOVA|||Dysglycemic||10.910|-13.194|0.850
82563742|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-6.048|STANDARD_ERROR_OF_MEAN|5.7919||0.301|TWO_SIDED|95.0|-17.676|5.58|||ANCOVA|||Dysglycemic||5.580|-17.676|0.301
82563743|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-5.587|STANDARD_ERROR_OF_MEAN|5.2598||0.293|TWO_SIDED|95.0|-16.147|4.972|||ANCOVA|||Dysglycemic||4.972|-16.147|0.293
82563744|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-6.943|STANDARD_ERROR_OF_MEAN|5.2191||0.189|TWO_SIDED|95.0|-17.421|3.535|||ANCOVA|||Dysglycemic||3.535|-17.421|0.189
82563745|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|0.676|STANDARD_ERROR_OF_MEAN|7.2441||0.926|TWO_SIDED|95.0|-13.8|15.152|||ANCOVA|||T2DM||15.152|-13.800|0.926
82563746|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|1.202|STANDARD_ERROR_OF_MEAN|7.5086||0.873|TWO_SIDED|95.0|-13.802|16.207|||ANCOVA|||T2DM||16.207|-13.802|0.873
82563747|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-5.779|STANDARD_ERROR_OF_MEAN|6.6977||0.391|TWO_SIDED|95.0|-19.164|7.605|||ANCOVA|||T2DM||7.605|-19.164|0.391
82563748|NCT03320941|164836919|OTHER|Dose Finding|Mean Difference (Final Values)|-7.591|STANDARD_ERROR_OF_MEAN|6.3822||0.239|TWO_SIDED|95.0|-20.345|5.163|||ANCOVA|||T2DM||5.163|-20.345|0.239
82563749|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-3.086|STANDARD_ERROR_OF_MEAN|2.8326||0.278|TWO_SIDED|95.0|-8.696|2.525|||ANCOVA|||Overall Study||2.525|-8.696|0.278
82563750|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-0.977|STANDARD_ERROR_OF_MEAN|2.859||0.733|TWO_SIDED|95.0|-6.639|4.686|||ANCOVA|||Overall Study||4.686|-6.639|0.733
82563751|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-4.507|STANDARD_ERROR_OF_MEAN|2.5118||0.075|TWO_SIDED|95.0|-9.482|0.468|||ANCOVA|||Overall Study||0.468|-9.482|0.075
82563752|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-2.268|STANDARD_ERROR_OF_MEAN|2.4659||0.36|TWO_SIDED|95.0|-7.152|2.616|||ANCOVA|||Overall Study||2.616|-7.152|0.360
82563753|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-3.147|STANDARD_ERROR_OF_MEAN|4.1699||0.416|TWO_SIDED|95.0|-11.792|4.959|||ANCOVA|||Dysglycemic||4.959|-11.792|0.416
82563754|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-1.634|STANDARD_ERROR_OF_MEAN|4.1121||0.693|TWO_SIDED|95.0|-9.893|6.625|||ANCOVA|||Dysglycemic||6.625|-9.893|0.693
82563755|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-2.906|STANDARD_ERROR_OF_MEAN|3.6351||0.428|TWO_SIDED|95.0|-10.207|4.396|||ANCOVA|||Dysglycemic||4.396|-10.207|0.428
82563756|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|2.201|STANDARD_ERROR_OF_MEAN|3.6414||0.548|TWO_SIDED|95.0|-5.113|9.515|||ANCOVA|||Dysglycemic||9.515|-5.113|0.548
82563757|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-2.636|STANDARD_ERROR_OF_MEAN|3.8828||0.5|TWO_SIDED|95.0|-10.4|5.128|||ANCOVA|||T2DM||5.128|-10.400|0.500
82563758|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|3.9906||0.837|TWO_SIDED|95.0|-8.805|7.154|||ANCOVA|||T2DM||7.154|-8.805|0.837
82624553|NCT05109702|164964630|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.095||0.328|TWO_SIDED|95.0|-0.093|0.279|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.279|-0.093|0.328
82624554|NCT05109702|164964630|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.096||0.837|TWO_SIDED|95.0|-0.208|0.168|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.168|-0.208|0.837
82624555|NCT05109702|164964631|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.079||0.686|TWO_SIDED|95.0|-0.123|0.187|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.187|-0.123|0.686
82624556|NCT05109702|164964631|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.079||0.68|TWO_SIDED|95.0|-0.123|0.188|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.188|-0.123|0.680
82624557|NCT05109702|164964631|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.529|TWO_SIDED|95.0|-0.107|0.207|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.207|-0.107|0.529
82624558|NCT05109702|164964631|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.081||0.745|TWO_SIDED|95.0|-0.132|0.185|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.185|-0.132|0.745
82624559|NCT05109702|164964632|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.085||0.765|TWO_SIDED|95.0|-0.141|0.192|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.192|-0.141|0.765
82624560|NCT05109702|164964632|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.085||0.053|TWO_SIDED|95.0|-0.002|0.331|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.331|-0.002|0.053
82624561|NCT05109702|164964632|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.086||0.552|TWO_SIDED|95.0|-0.117|0.219|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.219|-0.117|0.552
82624562|NCT05109702|164964632|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.087||0.593|TWO_SIDED|95.0|-0.216|0.124|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.124|-0.216|0.593
82624563|NCT05109702|164964633|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.087||0.884|TWO_SIDED|95.0|-0.183|0.158|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.158|-0.183|0.884
82624564|NCT05109702|164964633|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.474|TWO_SIDED|95.0|-0.109|0.233|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.233|-0.109|0.474
82624565|NCT05109702|164964633|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.088||0.202|TWO_SIDED|95.0|-0.06|0.285|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.285|-0.060|0.202
82624566|NCT05109702|164964633|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.089||0.013|TWO_SIDED|95.0|0.047|0.396|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.396|0.047|0.013
82624567|NCT05109702|164964634|OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.604|TWO_SIDED|95.0|-0.131|0.224|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.224|-0.131|0.604
82624568|NCT05109702|164964634|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.091||0.519|TWO_SIDED|95.0|-0.119|0.236|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.236|-0.119|0.519
82624569|NCT05109702|164964634|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.092||0.299|TWO_SIDED|95.0|-0.085|0.275|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.275|-0.085|0.299
82624570|NCT05109702|164964634|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.093||0.124|TWO_SIDED|95.0|-0.039|0.324|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.324|-0.039|0.124
82624571|NCT05109702|164964635|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.215||0.293|TWO_SIDED|95.0|-0.196|0.647|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.647|-0.196|0.293
82624572|NCT05109702|164964635|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.215||0.094|TWO_SIDED|95.0|-0.062|0.783|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.783|-0.062|0.094
82624573|NCT05109702|164964635|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.217||0.404|TWO_SIDED|95.0|-0.245|0.608|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.608|-0.245|0.404
82624574|NCT05109702|164964635|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.22||0.806|TWO_SIDED|95.0|-0.485|0.377|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.377|-0.485|0.806
82624575|NCT05109702|164964636|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.157||0.824|TWO_SIDED|95.0|-0.273|0.343|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.343|-0.273|0.824
82624576|NCT05109702|164964636|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.157||0.437|TWO_SIDED|95.0|-0.186|0.431|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.431|-0.186|0.437
82624577|NCT05109702|164964636|SUPERIORITY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.159||0.193|TWO_SIDED|95.0|-0.105|0.519|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.519|-0.105|0.193
82624578|NCT05109702|164964636|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.161||0.024|TWO_SIDED|95.0|0.048|0.679|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.679|0.048|0.024
82624579|NCT05109702|164964637|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.329||0.43|TWO_SIDED|95.0|-0.386|0.907|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.907|-0.386|0.430
82624580|NCT05109702|164964637|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.33||0.143|TWO_SIDED|95.0|-0.164|1.132|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.132|-0.164|0.143
82624581|NCT05109702|164964637|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.333||0.245|TWO_SIDED|95.0|-0.267|1.042|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.042|-0.267|0.245
82624582|NCT05109702|164964637|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.337||0.359|TWO_SIDED|95.0|-0.352|0.97|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.970|-0.352|0.359
82624583|NCT05109702|164964638|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.067||0.016|TWO_SIDED|95.0|0.03|0.292|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.292|0.030|0.016
82624584|NCT05109702|164964638|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.067||0.099|TWO_SIDED|95.0|-0.021|0.242|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.242|-0.021|0.099
82624585|NCT05109702|164964638|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.068||0.493|TWO_SIDED|95.0|-0.086|0.179|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.179|-0.086|0.493
82624586|NCT05109702|164964638|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.068||0.987|TWO_SIDED|95.0|-0.133|0.135|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.135|-0.133|0.987
82624587|NCT05109702|164964639|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.072||0.655|TWO_SIDED|95.0|-0.109|0.173|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.173|-0.109|0.655
82624588|NCT05109702|164964639|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.072||0.826|TWO_SIDED|95.0|-0.157|0.125|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.125|-0.157|0.826
82624589|NCT05109702|164964639|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.073||0.861|TWO_SIDED|95.0|-0.155|0.13|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.130|-0.155|0.861
82624590|NCT05109702|164964639|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.073||0.556|TWO_SIDED|95.0|-0.101|0.187|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.187|-0.101|0.556
82624591|NCT05109702|164964640|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.527|TWO_SIDED|95.0|-0.116|0.226|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.226|-0.116|0.527
82624592|NCT05109702|164964640|SUPERIORITY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.087||0.005|TWO_SIDED|95.0|0.077|0.418|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.418|0.077|0.005
82563759|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-5.594|STANDARD_ERROR_OF_MEAN|3.4818||0.113|TWO_SIDED|95.0|-12.556|1.368|||ANCOVA|||T2DM||1.368|-12.556|0.113
82563760|NCT03320941|164836920|OTHER|Dose Finding|Mean Difference (Final Values)|-5.66|STANDARD_ERROR_OF_MEAN|3.3512||0.096|TWO_SIDED|95.0|-12.361|1.041|||ANCOVA|||T2DM||1.041|-12.361|0.096
82563761|NCT01767376|164836933|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup A between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.19|||||TWO_SIDED|95.0|0.97|1.48|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup A, one month after Nimenrix vaccination.||1.48|0.97|
82563762|NCT01767376|164836933|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup C between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.12|||||TWO_SIDED|95.0|0.85|1.47|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup C, one month after Nimenrix vaccination.||1.47|0.85|
82563763|NCT01767376|164836933|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup W-135 between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.06|||||TWO_SIDED|95.0|0.86|1.32|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup W-135, one month after Nimenrix vaccination.||1.32|0.86|
82563764|NCT01767376|164836933|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardised asymptotic 95% confidence interval (CI) for rSBA GMT ratios for serogroup Y between the two groups (Nimenrix+Boostrix Group minus Nimenrix Group) being greater than or equal to (≥) the pre-defined limit of 0.5.|Adjusted GMT ratio|1.27|||||TWO_SIDED|95.0|1.02|1.59|||ANCOVA|||To demonstrate the non-inferiority of Nimenrix co-administered with Boostrix (Nimenrix+Boostrix Group) compared to Nimenrix administered alone (Nimenrix Group) with respect to serum bactericidal assay using rabbit complement (rSBA) geometric mean titers (GMTs) for serogroup Y, one month after Nimenrix vaccination.||1.59|1.02|
82563765|NCT01767376|164836934|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group), in terms of percentage of subjects with anti-D concentrations ≥ 1.0 IU/mL, being greater than or equal to (≥) the pre-defined limit of -10%.|Difference in percentage|-2.14|||||TWO_SIDED|95.0|-7.88|3.53||||||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) in terms of anti-diphtheria toxoid (anti-D) antibody concentrations one month after Boostrix vaccination.||3.53|-7.88|
82563766|NCT01767376|164836934|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group), in terms of percentage of subjects with anti-T concentrations ≥ 1.0 IU/mL, being greater than or equal to (≥) the pre-defined limit of -10%.|Difference in percentage|-0.44|||||TWO_SIDED|95.0|-2.48|1.26||||||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) in terms of anti-tetanus toxoid (anti-T) antibody concentrations one month after Boostrix vaccination.||1.26|-2.48|
82563767|NCT01767376|164836935|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the pertussis (PT) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.76|||||TWO_SIDED|95.0|0.66|0.89|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against pertussis toxoid (PT), one month after Boostrix vaccination.||0.89|0.66|
82563768|NCT01767376|164836935|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the filamentous haemagglutinin (FHA) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.57|||||TWO_SIDED|95.0|0.5|0.65|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against filamentous haemagglutinin (FHA), one month after Boostrix vaccination.||0.65|0.50|
82563769|NCT01767376|164836935|NON_INFERIORITY|Non-inferiority was defined as the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) between the two groups (Nimenrix+Boostrix Group minus Boostrix Group) for GMC ratios of antibodies against the pertactin (PRN) antigen, being greater than or equal to (≥) the predefined limit of 0.67.|Adjusted GMC ratio|0.72|||||TWO_SIDED|95.0|0.59|0.88|||ANCOVA|||To demonstrate the non-inferiority of Boostrix co-administered with Nimenrix (Nimenrix+Boostrix Group) compared to Boostrix administered alone (Boostrix Group) with respect to geometric mean concentrations (GMCs) of antibodies against pertactin (PRN), one month after Boostrix vaccination.||0.88|0.59|
82624593|NCT05109702|164964640|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.088||0.92|TWO_SIDED|95.0|-0.164|0.181|||MMRM|||Wek 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.181|-0.164|0.920
82624594|NCT05109702|164964640|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.089||0.286|TWO_SIDED|95.0|-0.08|0.269|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.269|-0.080|0.286
82624595|NCT05109702|164964641|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.098||0.071|TWO_SIDED|95.0|-0.015|0.369|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.369|-0.015|0.071
82624596|NCT05109702|164964641|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.098||0.384|TWO_SIDED|95.0|-0.107|0.278|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.278|-0.107|0.384
82624597|NCT05109702|164964641|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.099||0.391|TWO_SIDED|95.0|-0.109|0.28|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.280|-0.109|0.391
82624598|NCT05109702|164964641|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.802|TWO_SIDED|95.0|-0.171|0.222|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.222|-0.171|0.802
82624599|NCT05109702|164964642|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.098||0.884|TWO_SIDED|95.0|-0.206|0.178|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.178|-0.206|0.884
82563770|NCT00896389|164836956|OTHER|Association between genotypes and phenotypes were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82624600|NCT05109702|164964642|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.098||0.303|TWO_SIDED|95.0|-0.091|0.293|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.293|-0.091|0.303
82624601|NCT05109702|164964642|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.099||0.554|TWO_SIDED|95.0|-0.135|0.253|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.253|-0.135|0.554
82624602|NCT05109702|164964642|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.051|TWO_SIDED|95.0|-0.001|0.391|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.391|-0.001|0.051
82624603|NCT05109702|164964643|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.17||0.131|TWO_SIDED|95.0|-0.077|0.591|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.591|-0.077|0.131
82563771|NCT00896389|164836957|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||<|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||||||<0.05
82624604|NCT05109702|164964643|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.171||0.04|TWO_SIDED|95.0|0.016|0.685|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.685|0.016|0.040
82624605|NCT05109702|164964643|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.172||0.767|TWO_SIDED|95.0|-0.287|0.389|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.389|-0.287|0.767
82624606|NCT05109702|164964643|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.174||0.41|TWO_SIDED|95.0|-0.198|0.485|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.485|-0.198|0.410
82624607|NCT05109702|164964644|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.17||0.324|TWO_SIDED|95.0|-0.166|0.501|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.501|-0.166|0.324
82624608|NCT05109702|164964644|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.262|TWO_SIDED|95.0|-0.143|0.525|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.525|-0.143|0.262
82624609|NCT05109702|164964644|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.172||0.391|TWO_SIDED|95.0|-0.19|0.485|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.485|-0.190|0.391
82624610|NCT05109702|164964644|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.174||0.192|TWO_SIDED|95.0|-0.114|0.568|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.568|-0.114|0.192
82624611|NCT05109702|164964645|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.29||0.14|TWO_SIDED|95.0|-0.141|0.999|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.999|-0.141|0.140
82624612|NCT05109702|164964645|SUPERIORITY||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.291||0.061|TWO_SIDED|95.0|-0.025|1.117|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.117|-0.025|0.061
82624613|NCT05109702|164964645|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.294||0.49|TWO_SIDED|95.0|-0.374|0.78|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.780|-0.374|0.490
82624614|NCT05109702|164964645|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.297||0.212|TWO_SIDED|95.0|-0.212|0.953|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.953|-0.212|0.212
82624615|NCT05109702|164964646|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.784|TWO_SIDED|95.0|-0.134|0.101|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.101|-0.134|0.784
82441599|NCT03880838|164591910|SUPERIORITY||Slope|-0.02|STANDARD_DEVIATION|0.01||0.835|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.835
82624616|NCT05109702|164964646|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.324|TWO_SIDED|95.0|-0.058|0.176|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.176|-0.058|0.324
82624617|NCT05109702|164964646|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED|95.0|-0.027|0.21|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.210|-0.027|0.130
82624618|NCT05109702|164964646|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.061||0|TWO_SIDED|95.0|0.11|0.35|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.350|0.110|0.000
82624619|NCT05109702|164964647|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.623||0.532|TWO_SIDED|95.0|-0.834|1.613|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.613|-0.834|0.532
82624620|NCT05109702|164964647|SUPERIORITY||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.63||0.252|TWO_SIDED|95.0|-0.515|1.959|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||1.959|-0.515|0.252
82624621|NCT05109702|164964647|SUPERIORITY||LS Mean Difference|1.98|STANDARD_ERROR_OF_MEAN|0.636||0.002|TWO_SIDED|95.0|0.732|3.231|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||3.231|0.732|0.002
82624622|NCT05109702|164964648|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.167||0.723|TWO_SIDED|95.0|-0.386|0.268|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.268|-0.386|0.723
82624623|NCT05109702|164964648|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.167||0.254|TWO_SIDED|95.0|-0.519|0.137|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.137|-0.519|0.254
82624624|NCT05109702|164964648|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.169||0.034|TWO_SIDED|95.0|-0.69|-0.028|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||-0.028|-0.690|0.034
82624625|NCT05109702|164964648|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.171||0.64|TWO_SIDED|95.0|-0.255|0.414|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.414|-0.255|0.640
82624626|NCT05109702|164964649|SUPERIORITY|Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.|LS Mean Difference|1.45|STANDARD_DEVIATION|2.893||0.615|TWO_SIDED|95.0|-4.223|7.133|||MMRM|||||7.133|-4.223|0.615
82624627|NCT05109702|164964649|SUPERIORITY||LS Mean Difference|4.81|STANDARD_DEVIATION|2.894||0.097|TWO_SIDED|95.0|-0.866|10.494|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.494|-0.866|0.097
82624628|NCT05109702|164964649|SUPERIORITY||LS Mean Difference|1.06|STANDARD_DEVIATION|2.93||0.718|TWO_SIDED|95.0|-4.69|6.81|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.810|-4.690|0.718
82624629|NCT05109702|164964649|SUPERIORITY||LS Mean Difference|3.09|STANDARD_ERROR_OF_MEAN|2.963||0.298|TWO_SIDED|95.0|-2.728|8.903|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||8.903|-2.728|0.298
82624630|NCT05109702|164964650|SUPERIORITY||LS Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|2.814||0.343|TWO_SIDED|95.0|-2.854|8.191|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.191|-2.854|0.343
82624631|NCT05109702|164964650|SUPERIORITY||LS Mean Difference|3.71|STANDARD_ERROR_OF_MEAN|2.814||0.188|TWO_SIDED|95.0|-1.813|9.232|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||9.232|-1.813|0.188
82624632|NCT05109702|164964650|SUPERIORITY||LS Mean Difference|2.55|STANDARD_ERROR_OF_MEAN|2.849||0.371|TWO_SIDED|95.0|-3.04|8.143|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||8.143|-3.040|0.371
82624633|NCT05109702|164964650|SUPERIORITY||LS Mean Difference|6.92|STANDARD_ERROR_OF_MEAN|2.883||0.017|TWO_SIDED|95.0|1.259|12.573|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||12.573|1.259|0.017
82624634|NCT05109702|164964651|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|2.7||0.754|TWO_SIDED|95.0|-4.452|6.147|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.147|-4.452|0.754
82624635|NCT05109702|164964651|SUPERIORITY||LS Mean Difference|2.43|STANDARD_ERROR_OF_MEAN|2.7||0.368|TWO_SIDED|95.0|-2.865|7.731|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||7.731|-2.865|0.368
82624636|NCT05109702|164964651|SUPERIORITY||LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|2.734||0.621|TWO_SIDED|95.0|-4.014|6.715|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||6.715|-4.014|0.621
82624637|NCT05109702|164964651|SUPERIORITY||LS Mean Difference|4.74|STANDARD_ERROR_OF_MEAN|2.766||0.087|TWO_SIDED|95.0|-0.688|10.168|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.168|-0.688|0.087
82441600|NCT03880838|164591910|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.877|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.877
82624638|NCT05109702|164964652|SUPERIORITY||LS Mean Difference|4.23|STANDARD_ERROR_OF_MEAN|2.646||0.11|TWO_SIDED|95.0|-0.958|9.425|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.425|-0.958|0.110
82624639|NCT05109702|164964652|SUPERIORITY||LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|2.647||0.315|TWO_SIDED|95.0|-2.535|7.855|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.855|-2.535|0.315
82624640|NCT05109702|164964652|SUPERIORITY||LS Mean Difference|2.67|STANDARD_DEVIATION|2.678||0.318|TWO_SIDED|95.0|-2.582|7.928|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.928|-2.582|0.318
82624641|NCT05109702|164964652|SUPERIORITY||LS Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|2.71||0.303|TWO_SIDED|95.0|-2.525|8.111|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.111|-2.525|0.303
82563772|NCT00896389|164836958|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
82563773|NCT00896389|164836959|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
82563774|NCT00896389|164836960|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35909607 genotype group and phenotypes collected in this study.||||>0.05
82563775|NCT00896389|164836961|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82563776|NCT00896389|164836962|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82563777|NCT00896389|164836963|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82563778|NCT00896389|164836964|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05||||||Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.|Chi-squared|||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82563779|NCT00896389|164836965|OTHER|Association between genotype and phenotype were tested using a linear mixed model, coding genotype as an independent variable with an additive genetic effect, and including age, age\^2, and sex as covariates in the model. All association analyses were run using the Mixed Models for Pedigree Analysis (MMAP) software program to account for the relatedness among study subjects. MMAP User Guide is available from http://edn.som.umaryland.edu/mmap/index.php.|||||>|0.05|||||||Chi-squared|Because no P-values less than 0.05 was observed, we did not adjust them for multiple comparison to avoid false positives.||Null hypothesis: There is no association between STK39 SNP rs35929607 genotype group and phenotypes collected in this study.||||>0.05
82563780|NCT03184519|164836966|SUPERIORITY||Area Under Curve|0.79||||0.025|ONE_SIDED||||||t-test, 1 sided|||||||0.025
82563781|NCT03345407|164836969|OTHER||Posterior adjusted median difference|-0.022|||||TWO_SIDED|95.0|-0.143|0.103|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 12.5 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.103|-0.143|
82563782|NCT03345407|164836969|OTHER||Posterior adjusted median difference|-0.027|||||TWO_SIDED|95.0|-0.098|0.036|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.036|-0.098|
82624642|NCT05109702|164964653|SUPERIORITY||LS Mean Difference|4.44|STANDARD_ERROR_OF_MEAN|2.975||0.136|TWO_SIDED|95.0|-1.402|10.273|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||10.273|-1.402|0.136
82624643|NCT05109702|164964653|SUPERIORITY||LS Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|2.972||0.165|TWO_SIDED|95.0|-1.7|9.966|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||9.966|-1.700|0.165
82624644|NCT05109702|164964653|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.008||0.665|TWO_SIDED|95.0|-4.6|7.207|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||7.207|-4.600|0.665
82624645|NCT05109702|164964653|SUPERIORITY||LS Mean Difference|5.02|STANDARD_ERROR_OF_MEAN|3.043||0.099|TWO_SIDED|95.0|-0.95|10.995|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||10.995|-0.950|0.099
82624646|NCT05109702|164964654|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|2.926||0.861|TWO_SIDED|95.0|-5.232|6.254|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.254|-5.232|0.861
82624647|NCT05109702|164964654|SUPERIORITY||LS Mean Difference|1.76|STANDARD_ERROR_OF_MEAN|2.925||0.548|TWO_SIDED|95.0|-3.983|7.497|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.497|-3.983|0.548
82624648|NCT05109702|164964654|SUPERIORITY||LS Mean Difference|3.97|STANDARD_ERROR_OF_MEAN|2.96||0.18|TWO_SIDED|95.0|-1.839|9.777|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.777|-1.839|0.180
82624649|NCT05109702|164964654|SUPERIORITY||LS Mean Difference|3.93|STANDARD_ERROR_OF_MEAN|2.993||0.189|TWO_SIDED|95.0|-1.941|9.807|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.807|-1.941|0.189
82624650|NCT05109702|164964655|SUPERIORITY||LS Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|2.608||0.613|TWO_SIDED|95.0|-3.799|6.438|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.438|-3.799|0.613
82624651|NCT05109702|164964655|SUPERIORITY||LS Mean Difference|4.53|STANDARD_ERROR_OF_MEAN|2.609||0.083|TWO_SIDED|95.0|-0.586|9.653|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.653|-0.586|0.083
82624652|NCT05109702|164964655|SUPERIORITY||LS Mean Difference|3.67|STANDARD_ERROR_OF_MEAN|2.639||0.165|TWO_SIDED|95.0|-1.508|8.851|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.851|-1.508|0.165
82624653|NCT05109702|164964655|SUPERIORITY||LS Mean Difference|4.28|STANDARD_ERROR_OF_MEAN|2.672||0.11|TWO_SIDED|95.0|-0.964|9.522|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||9.522|-0.964|0.110
82441601|NCT03880838|164591910|SUPERIORITY||Slope|0.004|STANDARD_ERROR_OF_MEAN|0.01||0.969|TWO_SIDED||||||Regression, Logistic|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.969
82624654|NCT05109702|164964656|SUPERIORITY||LS Mean Difference|3.57|STANDARD_ERROR_OF_MEAN|1.743||0.041|TWO_SIDED|95.0|0.154|6.994|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.994|0.154|0.041
82624655|NCT05109702|164964656|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.743||0.122|TWO_SIDED|95.0|-0.723|6.118|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||6.118|-0.723|0.122
82624656|NCT05109702|164964656|SUPERIORITY||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.76||0.009|TWO_SIDED|95.0|1.146|8.056|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||8.056|1.146|0.009
82624657|NCT05109702|164964656|SUPERIORITY||LS Mean Difference|4.04|STANDARD_ERROR_OF_MEAN|1.781||0.024|TWO_SIDED|95.0|0.544|7.536|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||7.536|0.544|0.024
82624658|NCT05109702|164964657|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.282|TWO_SIDED|95.0|-0.115|0.394|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.394|-0.115|0.282
82624659|NCT05109702|164964657|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.353|TWO_SIDED|95.0|-0.134|0.375|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.375|-0.134|0.353
82624660|NCT05109702|164964657|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.131||0.764|TWO_SIDED|95.0|-0.297|0.218|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.218|-0.297|0.764
82624661|NCT05109702|164964657|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.133||0.104|TWO_SIDED|95.0|-0.044|0.476|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.476|-0.044|0.104
82624662|NCT05109702|164964658|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15||0.969|TWO_SIDED|95.0|-0.3|0.288|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.288|-0.300|0.969
82624663|NCT05109702|164964658|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.504|TWO_SIDED|95.0|-0.194|0.394|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.394|-0.194|0.504
82624664|NCT05109702|164964658|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.152||0.915|TWO_SIDED|95.0|-0.281|0.314|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.314|-0.281|0.915
82624665|NCT05109702|164964658|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.153||0.195|TWO_SIDED|95.0|-0.102|0.499|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.499|-0.102|0.195
82639424|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.3|||<|0.0001|TWO_SIDED|95.0|14.7|40.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||40.2|14.7|<.0001
82441602|NCT03880838|164591910|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.893|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.893
82502112|NCT00312494|164695074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1527||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline YMRS total score.||||0.1527
82563783|NCT03345407|164836969|OTHER||Posterior adjusted median difference|-0.038|||||TWO_SIDED|95.0|-0.102|0.028|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.028|-0.102|
82563784|NCT03345407|164836969|OTHER||Posterior adjusted median difference|0.005|||||TWO_SIDED|95.0|-0.064|0.071|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.071|-0.064|
82563785|NCT03345407|164836969|OTHER||Posterior adjusted median difference|-0.003|||||TWO_SIDED|95.0|-0.075|0.061|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.061|-0.075|
82563786|NCT03345407|164836969|OTHER||Posterior adjusted median difference|-0.004|||||TWO_SIDED|95.0|-0.051|0.042|||||Treatment comparison (posterior adjusted median difference and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for Day 84 change from Baseline FEV1 measured post-bronchodilator has been presented.|||0.042|-0.051|
82563787|NCT03345407|164836970|OTHER||Posterior median exacerbation rate ratio|0.92|||||TWO_SIDED|95.0|0.6|1.4|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for moderate/severe exacerbations has been presented.|||1.40|0.60|
82563788|NCT03345407|164836970|OTHER||Posterior median exacerbation rate ratio|0.89|||||TWO_SIDED|95.0|0.57|1.35|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for moderate/severe exacerbations has been presented.|||1.35|0.57|
82563789|NCT03345407|164836970|OTHER||Posterior median exacerbation rate ratio|1.01|||||TWO_SIDED|95.0|0.65|1.5|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for moderate/severe exacerbations has been presented.|||1.50|0.65|
82563790|NCT03345407|164836970|OTHER||Posterior median exacerbation rate ratio|0.63|||||TWO_SIDED|95.0|0.37|1.02|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for moderate/severe exacerbations has been presented.|||1.02|0.37|
82563791|NCT03345407|164836970|OTHER||Posterior median exacerbation rate ratio|1.13|||||TWO_SIDED|95.0|0.85|1.52|||||Treatment comparison (posterior median exacerbation rate ratio and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for moderate/severe exacerbations has been presented.|||1.52|0.85|
82563792|NCT03345407|164836971|OTHER||Posterior median hazard ratio|0.455|||||TWO_SIDED|95.0|0.054|1.103|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 12.5 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.103|0.054|
82563793|NCT03345407|164836971|OTHER||Posterior median hazard ratio|0.991|||||TWO_SIDED|95.0|0.58|1.5|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 50 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.500|0.580|
82563794|NCT03345407|164836971|OTHER||Posterior median hazard ratio|0.975|||||TWO_SIDED|95.0|0.581|1.467|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 100 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.467|0.581|
82563795|NCT03345407|164836971|OTHER||Posterior median hazard ratio|1.132|||||TWO_SIDED|95.0|0.682|1.709|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 250 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.709|0.682|
82563796|NCT03345407|164836971|OTHER||Posterior median hazard ratio|0.556|||||TWO_SIDED|95.0|0.268|0.902|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 500 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||0.902|0.268|
82563797|NCT03345407|164836971|OTHER||Posterior median hazard ratio|1.149|||||TWO_SIDED|95.0|0.8|1.539|||||Treatment comparison (Hazard Ratio and 95% HPD CrI) of Nemiralisib 750 mcg and placebo for time to next moderate/severe exacerbations has been presented.|||1.539|0.800|
82563798|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.01|||||TWO_SIDED|95.0|0.21|2.3|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.30|0.21|
82563799|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.37|||||TWO_SIDED|95.0|0.76|2.17|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.76|
82563800|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.99|||||TWO_SIDED|95.0|0.54|1.61|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.61|0.54|
82563801|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.94|||||TWO_SIDED|95.0|0.5|1.49|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.49|0.50|
82563802|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.75|||||TWO_SIDED|95.0|0.38|1.25|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.25|0.38|
82563803|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.77|1.63|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 14 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.63|0.77|
82563804|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.21|||||TWO_SIDED|95.0|0.36|2.69|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.69|0.36|
82563805|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.82|2.33|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.33|0.82|
82563806|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.67|1.79|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.79|0.67|
82502113|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0101||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0101
82502114|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0694||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0694
82502115|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0183||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0183
82502116|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0176||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0176
82502117|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2302||95.0||||The p-values reported are unadjusted for multiple comparisons|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.2302
82563807|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.12|||||TWO_SIDED|95.0|0.63|1.74|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.74|0.63|
82563808|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.55|||||TWO_SIDED|95.0|0.28|0.88|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.88|0.28|
82563809|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.72|1.49|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.49|0.72|
82563810|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.0|||||TWO_SIDED|95.0|0.3|2.17|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.30|
82563811|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.46|||||TWO_SIDED|95.0|0.84|2.27|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.27|0.84|
82563812|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.15|||||TWO_SIDED|95.0|0.65|1.78|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.78|0.65|
82563813|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.09|||||TWO_SIDED|95.0|0.62|1.67|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.67|0.62|
82563814|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.49|||||TWO_SIDED|95.0|0.26|0.77|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.77|0.26|
82563815|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.04|||||TWO_SIDED|95.0|0.71|1.42|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.42|0.71|
82563816|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.32|2.38|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.38|0.32|
82563817|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.29|||||TWO_SIDED|95.0|0.7|2.0|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.00|0.70|
82563818|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.12|||||TWO_SIDED|95.0|0.63|1.71|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.71|0.63|
82563819|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.55|1.48|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.48|0.55|
82563820|NCT03345407|164836974|OTHER||Posterior median odds ratio|0.56|||||TWO_SIDED|95.0|0.31|0.87|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.87|0.31|
82563821|NCT03345407|164836974|OTHER||Posterior median odds ratio|1.08|||||TWO_SIDED|95.0|0.73|1.47|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.47|0.73|
82563822|NCT03345407|164836975|OTHER||Posterior median hazard ratio|1.053|||||TWO_SIDED|95.0|0.477|1.765|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.765|0.477|
82563823|NCT03345407|164836975|OTHER||Posterior median hazard ratio|1.2|||||TWO_SIDED|95.0|0.84|1.597|||||Treatment comparison between placebo and Nemiralisib 50 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.597|0.840|
82563824|NCT03345407|164836975|OTHER||Posterior median hazard ratio|1.06|||||TWO_SIDED|95.0|0.734|1.432|||||Treatment comparison between placebo and Nemiralisib 100 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.432|0.734|
82563825|NCT03345407|164836975|OTHER||Posterior median hazard ratio|1.03|||||TWO_SIDED|95.0|0.719|1.413|||||Treatment comparison between placebo and Nemiralisib 250 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.413|0.719|
82563826|NCT03345407|164836975|OTHER||Posterior median hazard ratio|0.751|||||TWO_SIDED|95.0|0.487|1.057|||||Treatment comparison between placebo and Nemiralisib 500 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.057|0.487|
82624666|NCT05109702|164964659|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.148||0.287|TWO_SIDED|95.0|-0.133|0.449|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.449|-0.133|0.287
82624667|NCT05109702|164964659|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.148||0.26|TWO_SIDED|95.0|-0.124|0.458|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.458|-0.124|0.260
82624668|NCT05109702|164964659|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.987|TWO_SIDED|95.0|-0.296|0.291|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.291|-0.296|0.987
82624669|NCT05109702|164964659|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.151||0.143|TWO_SIDED|95.0|-0.075|0.519|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.519|-0.075|0.143
82624670|NCT05109702|164964660|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.151||-0.198|TWO_SIDED|95.0|-0.102|0.49|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.490|-0.102|-0.198
82624671|NCT05109702|164964660|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.151||0.076|TWO_SIDED|95.0|-0.028|0.564|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.564|-0.028|0.076
82624672|NCT05109702|164964660|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.152||0.656|TWO_SIDED|95.0|-0.231|0.367|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.367|-0.231|0.656
82624673|NCT05109702|164964660|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.154||0.324|TWO_SIDED|95.0|-0.15|0.454|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors.||0.454|-0.150|0.324
82624674|NCT05109702|164964661|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.146||0.477|TWO_SIDED|95.0|-0.182|0.39|||MMRM|||Week 1 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.390|-0.182|0.477
82624675|NCT05109702|164964661|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.146||0.033|TWO_SIDED|95.0|0.026|0.598|||MMRM|||Week 2 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.598|0.026|0.033
82624676|NCT05109702|164964661|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.147||0.374|TWO_SIDED|95.0|-0.158|0.42|||MMRM|||Week 4 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.420|-0.158|0.374
82624677|NCT05109702|164964661|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.149||0.114|TWO_SIDED|95.0|-0.056|0.529|||MMRM|||Week 8 : The LS means, LS mean difference, SEs, two-sided 95% CIs, and pvalues of the LS mean difference will be reported from the MMRM model. MMRM p-value calculated using the final model defined for the primary analysis endpoints, including terms for baseline, grouped sites, visit (as categorical term), treatment group and the interaction of treatment group and visit as fixed effects with correlated errors||0.529|-0.056|0.114
82624678|NCT05109702|164964662|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.329||0.598|TWO_SIDED|95.0|-0.822|0.475|||t-test, 2 sided|||Immediately Upon Instillation at Week 1||0.475|-0.822|0.598
82624679|NCT05109702|164964662|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.268||0.343|TWO_SIDED|95.0|-0.783|0.273|||t-test, 2 sided|||1 Minute Post Instillation at Week 1||0.273|-0.783|0.343
82441603|NCT03880838|164591910|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.689|TWO_SIDED||||||Regression, Linear|||In this contrast, In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.689
82624680|NCT05109702|164964662|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.359|TWO_SIDED|95.0|-0.721|0.262|||t-test, 2 sided|||2 Minutes Post Instillation at Week 1||0.262|-0.721|0.359
82624681|NCT00180271|164964663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.001|TWO_SIDED|95.0|0.52|0.84||The trial involved prespecified event monitoring at up to 20 successive periods by an independent DSMB to permit trial termination if the CRT-D was superior to, inferior to, or not different from ICD according to prespecified stopping rules.|Log Rank||A Hazard ratio \< 1.0 would indicate that the result favors CRT-D.|The trial utilized a Wang-Tsiatis (delta=0.1) group-sequential design with 95% power to detect a hazard ratio of 0.75 at a two-sided significance level of 0.05. Primary analysis based on statistical evaluation comparing the life-table event-free survival time graphs for CRT-D and ICD-only arms of the trial. Stratified Cox proportional-hazards regression was used to estimate a hazard ratio and statistical significance was evaluated with the log-rank test. Stratified by center and ischemic status.||0.84|0.52|< 0.001
82624682|NCT00180271|164964664|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.001|TWO_SIDED|95.0|0.53|0.86|||Andersen-Gill|Andersen-Gill model performed, adjusted for a previous HF event in the study, stratified by ischemic status and using robust variance estimation.|Model adjusted for previously experienced heart failure event in the study. Hazard Ratio (95% CI) comparing patients with a previous heart failure event to those patients without a prior heart failure event equaled 8.84 (6084, 11.43), p\<0.001.|||0.86|0.53|0.001
82624683|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.0856|TWO_SIDED|95.0|0.69|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.69|0.0856
82624684|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.8546|TWO_SIDED|95.0|0.84|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.84|0.8546
82624685|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.73||||0.0012|TWO_SIDED|95.0|0.62|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.62|0.0012
82624686|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.02||||0.8414|TWO_SIDED|95.0|0.87|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.87|0.8414
82624687|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.83||||0.2412|TWO_SIDED|95.0|0.64|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.64|0.2412
82624688|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.4548|TWO_SIDED|95.0|0.88|1.44||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.44|0.88|0.4548
82624689|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.69||||0.0093|TWO_SIDED|95.0|0.53|0.88||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.88|0.53|0.0093
82624690|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.8414|TWO_SIDED|95.0|0.86|1.42||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.42|0.86|0.8414
82624691|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.1749|TWO_SIDED|95.0|0.75|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.75|0.1749
82624692|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.3121|TWO_SIDED|95.0|0.96|1.27||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.27|0.96|0.3121
82624693|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.1351|TWO_SIDED|95.0|0.78|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.78|0.1351
82624694|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.07||||0.8414|TWO_SIDED|95.0|0.93|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.93|0.8414
82624695|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.83||||0.2158|TWO_SIDED|95.0|0.67|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.67|0.2158
82624696|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.3279|TWO_SIDED|95.0|0.71|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.71|0.3279
82624697|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2472|TWO_SIDED|95.0|0.72|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.72|0.2472
82624698|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.8414|TWO_SIDED|95.0|0.79|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.79|0.8414
82624699|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6193|TWO_SIDED|95.0|0.81|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.81|0.6193
82624700|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.3121|TWO_SIDED|95.0|0.96|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.96|0.3121
82624701|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.0191|TWO_SIDED|95.0|0.7|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.70|0.0191
82624702|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.14||||0.8414|TWO_SIDED|95.0|0.97|1.33||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.33|0.97|0.8414
82624703|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.76|0.2412
82624704|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.15||||0.3121|TWO_SIDED|95.0|0.99|1.35||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.35|0.99|0.3121
82624705|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.8||||0.0135|TWO_SIDED|95.0|0.68|0.94||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.94|0.68|0.0135
82624706|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.8414|TWO_SIDED|95.0|0.87|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.87|0.8414
82624707|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.1749|TWO_SIDED|95.0|0.66|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.66|0.1749
82624708|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.15||||0.3121|TWO_SIDED|95.0|0.93|1.41||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.41|0.93|0.3121
82624709|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.7||||0.0038|TWO_SIDED|95.0|0.57|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.57|0.0038
82624710|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.8414|TWO_SIDED|95.0|0.84|1.27||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.27|0.84|0.8414
82624711|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.76|0.2412
82624712|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.2||||0.2053|TWO_SIDED|95.0|1.02|1.41||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.41|1.02|0.2053
82624713|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.0241|TWO_SIDED|95.0|0.7|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.70|0.0241
82624714|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.8414|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.8414
82624715|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.0732|TWO_SIDED|95.0|0.69|0.94||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.94|0.69|0.0732
82624716|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.609|TWO_SIDED|95.0|0.82|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.82|0.6090
82624717|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.65|||<|0.0001|TWO_SIDED|95.0|0.56|0.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.76|0.56|<0.0001
82624718|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.8414|TWO_SIDED|95.0|0.82|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.82|0.8414
82624719|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.7828|TWO_SIDED|95.0|0.82|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.82|0.7828
82624720|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.21||||0.2053|TWO_SIDED|95.0|1.02|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|1.02|0.2053
82624721|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.77||||0.0093|TWO_SIDED|95.0|0.65|0.92||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.92|0.65|0.0093
82624722|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.8414|TWO_SIDED|95.0|0.93|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.93|0.8414
82624723|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2412|TWO_SIDED|95.0|0.73|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.73|0.2412
82624724|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.14||||0.3121|TWO_SIDED|95.0|0.95|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.95|0.3121
82624725|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.77||||0.0135|TWO_SIDED|95.0|0.64|0.93||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.93|0.64|0.0135
82624726|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.8414|TWO_SIDED|95.0|0.92|1.34||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.34|0.92|0.8414
82624727|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.79|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.79|0.2412
82624728|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.6652|TWO_SIDED|95.0|0.91|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.91|0.6652
82624729|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.0275|TWO_SIDED|95.0|0.75|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.75|0.0275
82624730|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.8414|TWO_SIDED|95.0|0.93|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.93|0.8414
82624731|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.2412|TWO_SIDED|95.0|0.76|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.76|0.2412
82624732|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.3121|TWO_SIDED|95.0|0.96|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.96|0.3121
82624733|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.0387|TWO_SIDED|95.0|0.72|0.99||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.99|0.72|0.0387
82624734|NCT01392378|164964665|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.8414|TWO_SIDED|95.0|0.89|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.89|0.8414
82624735|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.935|TWO_SIDED|95.0|0.82|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.82|0.9350
82624736|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.7918|TWO_SIDED|95.0|0.93|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.93|0.7918
82624737|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.6922|TWO_SIDED|95.0|0.8|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.80|0.6922
82624738|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.11||||0.9765|TWO_SIDED|95.0|0.93|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.93|0.9765
82624739|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6915|TWO_SIDED|95.0|0.78|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.78|0.6915
82624740|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.7918|TWO_SIDED|95.0|0.94|1.36||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.36|0.94|0.7918
82624741|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.4389|TWO_SIDED|95.0|0.75|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.75|0.4389
82624742|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.85|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.85|0.9765
82624743|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.935|TWO_SIDED|95.0|0.87|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.87|0.9350
82624744|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.7918|TWO_SIDED|95.0|0.9|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.90|0.7918
82624745|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.943|TWO_SIDED|95.0|0.88|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.88|0.9430
82441604|NCT03880838|164591910|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.427|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.427
82563827|NCT03345407|164836975|OTHER||Posterior median hazard ratio|1.149|||||TWO_SIDED|95.0|0.899|1.426|||||Treatment comparison between placebo and Nemiralisib 750 mcg was performed and posterior median hazard ratio and 95% HPD CrI has been presented.|||1.426|0.899|
82563828|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.22|||||TWO_SIDED|95.0|0.35|2.7|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.70|0.35|
82563829|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.11|||||TWO_SIDED|95.0|0.63|1.77|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.77|0.63|
82563830|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.41|||||TWO_SIDED|95.0|0.77|2.17|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.17|0.77|
82563831|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.28|||||TWO_SIDED|95.0|0.71|2.0|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.00|0.71|
82563832|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.11|||||TWO_SIDED|95.0|0.61|1.75|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.75|0.61|
82563833|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.7|||||TWO_SIDED|95.0|0.46|0.99|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||0.99|0.46|
82563834|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.64|||||TWO_SIDED|95.0|0.2|1.41|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.41|0.20|
82563835|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.84|2.46|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.46|0.84|
82563836|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.53|1.48|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.48|0.53|
82563837|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.36|||||TWO_SIDED|95.0|0.74|2.16|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.16|0.74|
82563838|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.76|||||TWO_SIDED|95.0|0.43|1.17|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.17|0.43|
82563839|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.93|||||TWO_SIDED|95.0|0.63|1.27|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.27|0.63|
82563840|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.54|||||TWO_SIDED|95.0|0.16|1.2|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.20|0.16|
82563841|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.53|||||TWO_SIDED|95.0|0.79|2.56|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.56|0.79|
82563842|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.83|||||TWO_SIDED|95.0|0.46|1.3|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.30|0.46|
82563843|NCT03345407|164836977|OTHER||Posterior median odds ratio|1.16|||||TWO_SIDED|95.0|0.62|1.86|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.86|0.62|
82563844|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.65|||||TWO_SIDED|95.0|0.36|1.02|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.02|0.36|
82563845|NCT03345407|164836977|OTHER||Posterior median odds ratio|0.85|||||TWO_SIDED|95.0|0.57|1.17|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.17|0.57|
82563846|NCT03345407|164836978|OTHER||Posterior adjusted median difference|2.4|||||TWO_SIDED|95.0|-0.5|5.2|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.2|-0.5|
82563847|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.7|||||TWO_SIDED|95.0|-0.8|2.3|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-0.8|
82563848|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.8|2.4|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.4|-0.8|
82563849|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-2.0|1.2|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.2|-2.0|
82563850|NCT03345407|164836978|OTHER||Posterior adjacent median difference|1.6|||||TWO_SIDED|95.0|0.0|3.3|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.3|0.0|
82563851|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-1.1|
82563852|NCT03345407|164836978|OTHER||Posterior adjusted median difference|2.3|||||TWO_SIDED|95.0|-0.5|5.4|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.4|-0.5|
82563853|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.9|2.4|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.4|-0.9|
82624746|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.9765|TWO_SIDED|95.0|0.85|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.85|0.9765
82624747|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.5167|TWO_SIDED|95.0|0.74|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.74|0.5167
82624748|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.7918|TWO_SIDED|95.0|0.78|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.78|0.7918
82624749|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.2514|TWO_SIDED|95.0|0.73|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.73|0.2514
82624750|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.9872|TWO_SIDED|95.0|0.84|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.84|0.9872
82624751|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2582|TWO_SIDED|95.0|0.73|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.73|0.2582
82624752|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.7918|TWO_SIDED|95.0|0.91|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.91|0.7918
82624753|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.2514|TWO_SIDED|95.0|0.74|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.74|0.2514
82624754|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.88|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.88|0.9765
82624755|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.6915|TWO_SIDED|95.0|0.86|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.86|0.6915
82624756|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.13||||0.7918|TWO_SIDED|95.0|0.93|1.38||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.38|0.93|0.7918
82624757|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.78|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.78|0.6922
82624758|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.01||||0.9872|TWO_SIDED|95.0|0.83|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.83|0.9872
82624759|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.3609|TWO_SIDED|95.0|0.7|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.70|0.3609
82624760|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.08||||0.7918|TWO_SIDED|95.0|0.89|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.89|0.7918
82624761|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.2514|TWO_SIDED|95.0|0.71|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.71|0.2514
82624762|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.9765|TWO_SIDED|95.0|0.86|1.26||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.26|0.86|0.9765
82624763|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.6304|TWO_SIDED|95.0|0.79|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.79|0.6304
82624764|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.7918|TWO_SIDED|95.0|0.91|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.91|0.7918
82624765|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.2514|TWO_SIDED|95.0|0.75|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.75|0.2514
82624766|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.9765|TWO_SIDED|95.0|0.88|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.88|0.9765
82624767|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.2582|TWO_SIDED|95.0|0.71|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.71|0.2582
82624768|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.9279|TWO_SIDED|95.0|0.84|1.18||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.18|0.84|0.9279
82624769|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2514|TWO_SIDED|95.0|0.72|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.72|0.2514
82624770|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.9765|TWO_SIDED|95.0|0.76|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.76|0.9765
82624771|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.1424|TWO_SIDED|95.0|0.71|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.71|0.1424
82624772|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.7918|TWO_SIDED|95.0|0.84|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.84|0.7918
82624773|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.2514|TWO_SIDED|95.0|0.73|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.73|0.2514
82624774|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.9765|TWO_SIDED|95.0|0.79|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.79|0.9765
82624775|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.6304|TWO_SIDED|95.0|0.78|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.78|0.6304
82624776|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.7918|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.7918
82624777|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.81|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.81|0.6922
82624778|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.9765|TWO_SIDED|95.0|0.82|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.82|0.9765
82624779|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6572|TWO_SIDED|95.0|0.84|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.84|0.6572
82624780|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.7918|TWO_SIDED|95.0|0.86|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.86|0.7918
82624781|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.2514|TWO_SIDED|95.0|0.79|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.79|0.2514
82624782|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.9872|TWO_SIDED|95.0|0.88|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.88|0.9872
82624783|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.6304|TWO_SIDED|95.0|0.78|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.78|0.6304
82624784|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.7918|TWO_SIDED|95.0|0.88|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.88|0.7918
82624785|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.6922|TWO_SIDED|95.0|0.8|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.80|0.6922
82624786|NCT01392378|164964667|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.9765|TWO_SIDED|95.0|0.81|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of IgG GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.81|0.9765
82624787|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7148|TWO_SIDED|95.0|0.82|1.66||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.66|0.82|0.7148
82624788|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.7907|TWO_SIDED|95.0|0.75|1.45||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.45|0.75|0.7907
82624789|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.4765|TWO_SIDED|95.0|0.81|1.6||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.60|0.81|0.4765
82624790|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.5037|TWO_SIDED|95.0|0.89|1.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 4: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.76|0.89|0.5037
82624791|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.9414|TWO_SIDED|95.0|0.52|2.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.17|0.52|0.9414
82624792|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7907|TWO_SIDED|95.0|0.45|1.71||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.71|0.45|0.7907
82624793|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.29|TWO_SIDED|95.0|0.32|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.32|0.2900
82624794|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.44|1.77||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6B: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.77|0.44|0.8826
82624795|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.5||||0.5823|TWO_SIDED|95.0|0.18|1.4||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.40|0.18|0.5823
82502118|NCT00312494|164695075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0796||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline MADRS total score.||||0.0796
82624796|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.7636|TWO_SIDED|95.0|0.27|1.8||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.80|0.27|0.7636
82624797|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.4||||0.2407|TWO_SIDED|95.0|0.14|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.14|0.2407
82624798|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.8826|TWO_SIDED|95.0|0.43|3.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 9V: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||3.22|0.43|0.8826
82624799|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.5||||0.0961|TWO_SIDED|95.0|0.26|0.81||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.81|0.26|0.0961
82624800|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.7636|TWO_SIDED|95.0|0.38|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.38|0.7636
82624801|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.29|TWO_SIDED|95.0|0.39|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.39|0.2900
82624802|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.8826|TWO_SIDED|95.0|0.6|1.82||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 14: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.82|0.60|0.8826
82624803|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.0||||0.9925|TWO_SIDED|95.0|0.65|1.54||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.54|0.65|0.9925
82624804|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.7636|TWO_SIDED|95.0|0.52|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.52|0.7636
82624805|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.3929|TWO_SIDED|95.0|0.53|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.53|0.3929
82624806|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.62|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 18C: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.62|0.8826
82624807|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7433|TWO_SIDED|95.0|0.7|2.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.20|0.70|0.7433
82624808|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.7636|TWO_SIDED|95.0|0.46|1.35||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.35|0.46|0.7636
82502119|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6191||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.6191
82563854|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-1.9|1.4|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.4|-1.9|
82563855|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.0|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.0|-2.3|
82563856|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.4|||||TWO_SIDED|95.0|-1.2|2.2|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.2|-1.2|
82563857|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-1.4|1.0|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.0|-1.4|
82624809|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.2407|TWO_SIDED|95.0|0.34|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.34|0.2407
82624810|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.8826|TWO_SIDED|95.0|0.61|1.83||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.83|0.61|0.8826
82624811|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.9414|TWO_SIDED|95.0|0.51|1.71||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.71|0.51|0.9414
82624812|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.2||||0.7636|TWO_SIDED|95.0|0.68|2.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.14|0.68|0.7636
82624813|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.738|TWO_SIDED|95.0|0.5|1.63||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.63|0.50|0.7380
82624814|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.49|1.58||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 23F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.58|0.49|0.8826
82624815|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.9414|TWO_SIDED|95.0|0.67|1.65||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.65|0.67|0.9414
82624816|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7907|TWO_SIDED|95.0|0.58|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.58|0.7907
82624817|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2407|TWO_SIDED|95.0|0.43|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.43|0.2407
82624818|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.42|1.02||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.02|0.42|0.2670
82624819|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.62|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.62|0.5823
82624820|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7636|TWO_SIDED|95.0|0.65|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.65|0.7636
82624821|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.6||||0.0422|TWO_SIDED|95.0|0.48|0.86||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.86|0.48|0.0422
82624822|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.53|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.53|0.2670
82624823|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.8454|TWO_SIDED|95.0|0.72|1.78||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.78|0.72|0.8454
82624824|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.7636|TWO_SIDED|95.0|0.81|2.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.00|0.81|0.7636
82624825|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2824|TWO_SIDED|95.0|0.45|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.45|0.2824
82624826|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.3||||0.5155|TWO_SIDED|95.0|0.83|2.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 5: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||2.06|0.83|0.5155
82624827|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.5823|TWO_SIDED|95.0|0.5|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.50|0.5823
82624828|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.7636|TWO_SIDED|95.0|0.78|1.7||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.70|0.78|0.7636
82624829|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.4644|TWO_SIDED|95.0|0.56|1.25||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.25|0.56|0.4644
82624830|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.8826|TWO_SIDED|95.0|0.59|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 6A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.59|0.8826
82624831|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.61|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.61|0.5823
82624832|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.9||||0.7636|TWO_SIDED|95.0|0.65|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.65|0.7636
82624833|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.3299|TWO_SIDED|95.0|0.6|1.13||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.13|0.60|0.3299
82624834|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.54|1.03||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 7F: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.03|0.54|0.2670
82624835|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.5823|TWO_SIDED|95.0|0.48|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.48|0.5823
82624836|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|1.1||||0.7907|TWO_SIDED|95.0|0.68|1.69||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.69|0.68|0.7907
82441605|NCT03880838|164591910|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.504|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.504
82624837|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.2742|TWO_SIDED|95.0|0.43|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.43|0.2742
82624838|NCT01392378|164964669|SUPERIORITY_OR_OTHER||GMT Ratio|0.7||||0.267|TWO_SIDED|95.0|0.42|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Serotype 19A: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.42|0.2670
82624839|NCT01392378|164964670|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.813|TWO_SIDED|95.0|0.71|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.71|0.813
82624840|NCT01392378|164964670|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.845|TWO_SIDED|95.0|0.79|1.34||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.34|0.79|0.845
82624841|NCT01392378|164964670|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.461|TWO_SIDED|95.0|0.65|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.65|0.461
82624842|NCT01392378|164964670|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.545|TWO_SIDED|95.0|0.68|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.68|0.545
82624843|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.91||||0.712|TWO_SIDED|95.0|0.79|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.79|0.712
82624844|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.97||||0.837|TWO_SIDED|95.0|0.84|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.84|0.837
82624845|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.357|TWO_SIDED|95.0|0.78|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.78|0.357
82624846|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.88||||0.19|TWO_SIDED|95.0|0.76|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.76|0.190
82624847|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.813|TWO_SIDED|95.0|0.83|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.83|0.813
82624848|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.136|TWO_SIDED|95.0|0.73|0.96||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.96|0.73|0.136
82624849|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.85||||0.104|TWO_SIDED|95.0|0.74|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.74|0.104
82624850|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.73|||<|0.001|TWO_SIDED|95.0|0.64|0.85||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.85|0.64|<0.001
82441606|NCT03880838|164591910|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.893|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.893
82624851|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.712|TWO_SIDED|95.0|0.72|1.04||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.04|0.72|0.712
82624852|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.206|TWO_SIDED|95.0|0.7|1.01||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.01|0.70|0.206
82624853|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.78||||0.066|TWO_SIDED|95.0|0.65|0.93||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.93|0.65|0.066
82624854|NCT01392378|164964671|SUPERIORITY_OR_OTHER||GMC Ratio|0.81||||0.085|TWO_SIDED|95.0|0.67|0.97||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.97|0.67|0.085
82624855|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.9||||0.712|TWO_SIDED|95.0|0.77|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.77|0.712
82624856|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.206|TWO_SIDED|95.0|0.74|1.0||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.00|0.74|0.206
82624857|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.84||||0.104|TWO_SIDED|95.0|0.72|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.72|0.104
82624858|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.74||||0.001|TWO_SIDED|95.0|0.63|0.87||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.87|0.63|0.001
82624859|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.95||||0.813|TWO_SIDED|95.0|0.82|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.82|0.813
82624860|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.837|TWO_SIDED|95.0|0.9|1.19||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.19|0.90|0.837
82624861|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.534|TWO_SIDED|95.0|0.81|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.81|0.534
82624862|NCT01392378|164964672|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.961|TWO_SIDED|95.0|0.87|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.87|0.961
82624863|NCT01392378|164964673|SUPERIORITY_OR_OTHER||GMC Ratio|1.03||||0.85|TWO_SIDED|95.0|0.75|1.42||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.42|0.75|0.850
82624864|NCT01392378|164964673|SUPERIORITY_OR_OTHER||GMC Ratio|1.05||||0.837|TWO_SIDED|95.0|0.77|1.44||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.44|0.77|0.837
82624865|NCT01392378|164964673|SUPERIORITY_OR_OTHER||GMC Ratio|0.94||||0.695|TWO_SIDED|95.0|0.69|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.69|0.695
82624866|NCT01392378|164964673|SUPERIORITY_OR_OTHER||GMC Ratio|0.82||||0.408|TWO_SIDED|95.0|0.6|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.60|0.408
82624867|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.813|TWO_SIDED|95.0|0.69|1.3||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.30|0.69|0.813
82502120|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5629||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.5629
82624868|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.92||||0.837|TWO_SIDED|95.0|0.68|1.25||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.25|0.68|0.837
82624869|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.94||||0.695|TWO_SIDED|95.0|0.68|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.68|0.695
82624870|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.961|TWO_SIDED|95.0|0.71|1.36||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.36|0.71|0.961
82624871|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|1.18||||0.808|TWO_SIDED|95.0|0.85|1.65||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.65|0.85|0.808
82624872|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|1.09||||0.837|TWO_SIDED|95.0|0.8|1.5||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.50|0.80|0.837
82624873|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.92||||0.695|TWO_SIDED|95.0|0.66|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.66|0.695
82624874|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.82||||0.408|TWO_SIDED|95.0|0.58|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.58|0.408
82624875|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|1.07||||0.813|TWO_SIDED|95.0|0.78|1.46||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.46|0.78|0.813
82624876|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.8||||0.343|TWO_SIDED|95.0|0.59|1.08||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.08|0.59|0.343
82624877|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|1.12||||0.695|TWO_SIDED|95.0|0.82|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.82|0.695
82624878|NCT01392378|164964674|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.925|TWO_SIDED|95.0|0.69|1.31||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.31|0.69|0.925
82624879|NCT01392378|164964675|SUPERIORITY_OR_OTHER||GMC Ratio|1.08||||0.91|TWO_SIDED|95.0|0.81|1.43||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.43|0.81|0.910
82441607|NCT03880838|164591910|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.918|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.918
82441608|NCT03880838|164591910|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.755|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.755
82441609|NCT03880838|164591910|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.858|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.858
82624880|NCT01392378|164964675|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.85|TWO_SIDED|95.0|0.79|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.79|0.850
82441610|NCT03880838|164591911|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.46||0.436|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.436
82441611|NCT03880838|164591911|SUPERIORITY||Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.45||0.539|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.539
82441612|NCT03880838|164591911|SUPERIORITY||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.66||0.994|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.994
82624881|NCT01392378|164964675|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.868|TWO_SIDED|95.0|0.7|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.70|0.868
82624882|NCT01392378|164964675|SUPERIORITY_OR_OTHER||GMC Ratio|0.87||||0.914|TWO_SIDED|95.0|0.67|1.15||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.15|0.67|0.914
82441613|NCT03880838|164591911|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.66||0.7|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.700
82441614|NCT03880838|164591911|SUPERIORITY||Slope|0.75|STANDARD_ERROR_OF_MEAN|0.66||0.258|TWO_SIDED||||||Regression, Logistic|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.258
82441615|NCT03880838|164591911|SUPERIORITY||Slope|-0.49|STANDARD_ERROR_OF_MEAN|0.62||0.428|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.428
82441616|NCT03880838|164591911|SUPERIORITY||Slope|-0.48|STANDARD_ERROR_OF_MEAN|0.62||0.434|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.434
82441617|NCT03880838|164591911|SUPERIORITY||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.62||0.228|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.228
82441618|NCT03880838|164591911|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.674|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.674
82441619|NCT03880838|164591911|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.61||0.799|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.799
82441620|NCT03880838|164591911|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.61||0.794|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.794
82624883|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|1.05||||0.91|TWO_SIDED|95.0|0.89|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.89|0.910
82441621|NCT03880838|164591911|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.871|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.871
82441622|NCT03880838|164591911|SUPERIORITY||Slope|0.9|STANDARD_ERROR_OF_MEAN|0.62||0.139|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.139
82441623|NCT03880838|164591912|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.29||0.357|TWO_SIDED||||||Regression, Linear|||In this contrast, letter was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.357
82441624|NCT03880838|164591912|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.28||0.294|TWO_SIDED||||||Regression, Linear|||In this contrast, no contact control was compared against all other conditions (coded into one category and set as the reference group). The key outcome is the interaction between conditions and time (2019 as the reference group).||||.294
82441625|NCT03880838|164591912|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|0.4||0.496|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.496
82441626|NCT03880838|164591912|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.4||0.722|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.722
82441627|NCT03880838|164591912|SUPERIORITY||Slope|0.31|STANDARD_ERROR_OF_MEAN|0.4||0.445|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against no nudge conditions (coded into one category and set as the reference group).||||.445
82441628|NCT03880838|164591912|SUPERIORITY||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.38||0.531|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.531
82441629|NCT03880838|164591912|SUPERIORITY||Slope|-0.51|STANDARD_ERROR_OF_MEAN|0.38||0.177|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.177
82441630|NCT03880838|164591912|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.38||0.314|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.314
82441631|NCT03880838|164591912|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.38||0.85|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the letter condition (set as the reference group).||||.850
82441632|NCT03880838|164591912|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.37||0.391|TWO_SIDED||||||Regression, Linear|||In this contrast, no nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.391
82441633|NCT03880838|164591912|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.37||0.906|TWO_SIDED||||||Regression, Linear|||In this contrast, prevention conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.906
82441634|NCT03880838|164591912|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.37||0.635|TWO_SIDED||||||Regression, Linear|||In this contrast, commitment conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||.635
82441635|NCT03880838|164591912|SUPERIORITY||Slope|0.63|STANDARD_ERROR_OF_MEAN|0.37||0.093|TWO_SIDED||||||Regression, Linear|||In this contrast, both nudge conditions (coded into one category) were compared against the no contact condition (set as the reference group).||||0.093
82441636|NCT04411420|164591932|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.169|TWO_SIDED|97.5|-1.55|0.37||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway 3-month change minus Coordinated Care Management Pathway 3-month change.|||0.37|-1.55|0.169
82441637|NCT04411420|164591933|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.139|TWO_SIDED|97.5|-0.33|1.52||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway 3-month change minus Coordinated Care Management Pathway 3-month change.|||1.52|-0.33|0.139
82441638|NCT04411420|164591934|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.417|TWO_SIDED|95.0|-1.69|0.72||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.||||0.72|-1.69|0.417
82441639|NCT04411420|164591935|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.409|TWO_SIDED|95.0|-1.37|0.57||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.57|-1.37|0.409
82441640|NCT04411420|164591935|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.899|TWO_SIDED|95.0|-1.04|0.91||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.91|-1.04|0.899
82441641|NCT04411420|164591935|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.946|TWO_SIDED|95.0|-1.01|1.08||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||1.08|-1.01|0.946
82563858|NCT03345407|164836978|OTHER||Posterior adjusted median difference|1.9|||||TWO_SIDED|95.0|-1.4|5.1|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||5.1|-1.4|
82563859|NCT03345407|164836978|OTHER||Posterior adjusted median difference|1.1|||||TWO_SIDED|95.0|-0.7|2.8|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.8|-0.7|
82624884|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|1.04||||0.85|TWO_SIDED|95.0|0.89|1.22||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.22|0.89|0.850
82624885|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|1.0||||0.961|TWO_SIDED|95.0|0.85|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.85|0.961
82624886|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.916|TWO_SIDED|95.0|0.85|1.16||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PT: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.16|0.85|0.916
82624887|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.99||||0.91|TWO_SIDED|95.0|0.87|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.87|0.910
82624888|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|1.01||||0.909|TWO_SIDED|95.0|0.89|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.89|0.909
82624889|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|1.06||||0.868|TWO_SIDED|95.0|0.93|1.2||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.20|0.93|0.868
82624890|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.914|TWO_SIDED|95.0|0.81|1.05||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis FHA: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.05|0.81|0.914
82624891|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.91|TWO_SIDED|95.0|0.76|1.11||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.11|0.76|0.910
82624892|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.91||||0.85|TWO_SIDED|95.0|0.76|1.09||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.09|0.76|0.850
82624893|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.93||||0.868|TWO_SIDED|95.0|0.78|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.78|0.868
82624894|NCT01392378|164964676|SUPERIORITY_OR_OTHER||GMC Ratio|0.92||||0.914|TWO_SIDED|95.0|0.76|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Pertussis PRN: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.76|0.914
82624895|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.96||||0.91|TWO_SIDED|95.0|0.83|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.83|0.910
82624896|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.94||||0.85|TWO_SIDED|95.0|0.82|1.07||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.07|0.82|0.850
82624897|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.939|TWO_SIDED|95.0|0.86|1.12||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.12|0.86|0.939
82624898|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.279|TWO_SIDED|95.0|0.75|0.98||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Tetanus: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.98|0.75|0.279
82563860|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 84 was performed and posterior adjsted median difference and 95% HPD CrI has been presented.|||1.1|-2.3|
82441642|NCT04411420|164591936|SUPERIORITY||Odds Ratio, log|-0.004||||0.992|TWO_SIDED|95.0|-4.62|4.61||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Regression, Logistic|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Odds Ratio calculated for Integrated Sequenced Care Pathway relative to Coordinated Care Management Pathway.|||4.61|-4.62|0.992
82441643|NCT04411420|164591937|SUPERIORITY||Median Difference (Final Values)|-2.67||||0.262|TWO_SIDED|95.0|-7.52|2.18||P-value is not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|||2.18|-7.52|0.262
82441644|NCT04411420|164591938|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.37|TWO_SIDED|97.5|-1.31|0.5||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.50|-1.31|0.37
82441645|NCT04411420|164591938|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.24|TWO_SIDED|97.5|-1.54|0.39||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.39|-1.54|0.24
82441646|NCT04411420|164591938|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.37|TWO_SIDED|97.5|-1.43|0.54|||Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.54|-1.43|0.37
82441647|NCT04411420|164591939|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.727|TWO_SIDED|97.5|-0.51|0.72||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.72|-0.51|0.727
82624899|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.86||||0.149|TWO_SIDED|95.0|0.76|0.97||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.97|0.76|0.149
82441648|NCT04411420|164591939|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.478|TWO_SIDED|97.5|-0.43|0.91||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.91|-0.43|0.478
82441649|NCT04411420|164591939|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.894|TWO_SIDED|97.5|-0.75|0.66||Threshold for significance is 0.025 due to dual primary outcomes.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.66|-0.75|0.894
82441650|NCT04411420|164591940|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.222|TWO_SIDED|95.0|-0.15|0.04||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.04|-0.15|0.222
82441651|NCT04411420|164591940|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-0.1|0.09||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.09|-0.10|0.988
82441652|NCT04411420|164591940|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.269|TWO_SIDED|95.0|-0.16|0.05||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.05|-0.16|0.269
82441653|NCT04411420|164591941|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.477|TWO_SIDED|95.0|-0.22|0.1||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.10|-0.22|0.477
82441654|NCT04411420|164591941|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.877|TWO_SIDED|95.0|-0.19|0.17||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.17|-0.19|0.877
82441655|NCT04411420|164591941|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.36|TWO_SIDED|95.0|-0.29|0.11|||Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.11|-0.29|0.360
82624900|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|1.02||||0.85|TWO_SIDED|95.0|0.91|1.14||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.14|0.91|0.850
82624901|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.89||||0.394|TWO_SIDED|95.0|0.79|0.99||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||0.99|0.79|0.394
82624902|NCT01392378|164964677|SUPERIORITY_OR_OTHER||GMC Ratio|0.98||||0.916|TWO_SIDED|95.0|0.87|1.1||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Diphtheria: Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.10|0.87|0.916
82624903|NCT01392378|164964678|SUPERIORITY_OR_OTHER||GMC Ratio|1.26||||0.869|TWO_SIDED|95.0|0.9|1.76||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.76|0.90|0.869
82624904|NCT01392378|164964678|SUPERIORITY_OR_OTHER||GMC Ratio|1.07||||0.85|TWO_SIDED|95.0|0.78|1.48||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.48|0.78|0.850
82624905|NCT01392378|164964678|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.868|TWO_SIDED|95.0|0.8|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.80|0.868
82624906|NCT01392378|164964678|SUPERIORITY_OR_OTHER||GMC Ratio|1.1||||0.916|TWO_SIDED|95.0|0.8|1.52||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Ratio of GMCs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.52|0.80|0.916
82624907|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.91|TWO_SIDED|95.0|0.78|1.24||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.24|0.78|0.910
82624908|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|1.05||||0.85|TWO_SIDED|95.0|0.83|1.32||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.32|0.83|0.850
82624909|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|1.09||||0.868|TWO_SIDED|95.0|0.87|1.37||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.37|0.87|0.868
82563861|NCT03345407|164836978|OTHER||Posterior adjusted median difference|-0.1|||||TWO_SIDED|95.0|-1.9|1.7|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.7|-1.9|
82624910|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|1.02||||0.916|TWO_SIDED|95.0|0.81|1.28||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 1: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.28|0.81|0.916
82624911|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.99||||0.91|TWO_SIDED|95.0|0.79|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.79|0.910
82624912|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.94||||0.85|TWO_SIDED|95.0|0.76|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.76|0.850
82563862|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.8|||||TWO_SIDED|95.0|-0.9|2.8|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.8|-0.9|
82563863|NCT03345407|164836978|OTHER||Posterior adjusted median difference|0.4|||||TWO_SIDED|95.0|-0.8|1.7|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.7|-0.8|
82563864|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.51|||||TWO_SIDED|95.0|0.03|1.41|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.41|0.03|
82563865|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.87|||||TWO_SIDED|95.0|0.42|1.47|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.47|0.42|
82624913|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.95||||0.868|TWO_SIDED|95.0|0.77|1.17||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.17|0.77|0.868
82624914|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.916|TWO_SIDED|95.0|0.79|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 2: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.79|0.916
82624915|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.97||||0.91|TWO_SIDED|95.0|0.77|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.77|0.910
82624916|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.84||||0.85|TWO_SIDED|95.0|0.67|1.06||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen twice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.06|0.67|0.850
82624917|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.98||||0.939|TWO_SIDED|95.0|0.78|1.23||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Paracetamol thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.23|0.78|0.939
82624918|NCT01392378|164964679|SUPERIORITY_OR_OTHER||GMT Ratio|0.96||||0.916|TWO_SIDED|95.0|0.76|1.21||P-values were adjusted using false discovery rate procedure.|General Linear Model|||Poliomyelitis Type 3: Ratio of GMTs along with 2-sided 95% CI were back transformed from the difference of the LS mean of 13vPnC + INFANRIX hexa + Ibuprofen thrice daily group minus the LS mean of 13vPnC + INFANRIX hexa group.||1.21|0.76|0.916
82624919|NCT00788697|164964689|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|11.3||||0.0754|TWO_SIDED|95.0|-1.0|23.6|||McNemar|||||23.6|-1.0|0.0754
82624920|NCT00788697|164964689|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|19.4||||0.0011|TWO_SIDED|95.0|8.3|30.5|||McNemar|||||30.5|8.3|0.0011
82563866|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.37|||||TWO_SIDED|95.0|0.69|2.24|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.24|0.69|
82563867|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.78|||||TWO_SIDED|95.0|0.95|2.91|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.91|0.95|
82563868|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.24|||||TWO_SIDED|95.0|0.61|2.08|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.08|0.61|
82563869|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.95|||||TWO_SIDED|95.0|0.6|1.4|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 28 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.40|0.60|
82563870|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.54|||||TWO_SIDED|95.0|0.14|1.16|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.16|0.14|
82563871|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.27|||||TWO_SIDED|95.0|0.74|1.98|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.98|0.74|
82563872|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.29|||||TWO_SIDED|95.0|0.73|1.97|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.97|0.73|
82563873|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.47|||||TWO_SIDED|95.0|0.83|2.27|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.27|0.83|
82563874|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.04|||||TWO_SIDED|95.0|0.57|1.62|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.62|0.57|
82563875|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.1|||||TWO_SIDED|95.0|0.75|1.5|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 56 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.50|0.75|
82563876|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.63|||||TWO_SIDED|95.0|0.17|1.39|||||Treatment comparison between placebo and nemiralisib 12.5 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.39|0.17|
82563877|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.27|||||TWO_SIDED|95.0|0.72|2.01|||||Treatment comparison between placebo and nemiralisib 50 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.01|0.72|
82563878|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.13|||||TWO_SIDED|95.0|0.64|1.79|||||Treatment comparison between placebo and nemiralisib 100 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.79|0.64|
82563879|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.35|||||TWO_SIDED|95.0|0.75|2.14|||||Treatment comparison between placebo and nemiralisib 250 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||2.14|0.75|
82563880|NCT03345407|164836979|OTHER||Posterior median odds ratio|0.94|||||TWO_SIDED|95.0|0.53|1.45|||||Treatment comparison between placebo and nemiralisib 500 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.45|0.53|
82563881|NCT03345407|164836979|OTHER||Posterior median odds ratio|1.03|||||TWO_SIDED|95.0|0.71|1.43|||||Treatment comparison between placebo and nemiralisib 750 mcg at Day 84 was performed and posterior median odds ratio and 95% HPD CrI has been presented.|||1.43|0.71|
82563882|NCT03345407|164836980|OTHER||Posterior adjusted median difference|2.0|||||TWO_SIDED|95.0|-4.8|8.3|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||8.3|-4.8|
82563883|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.5|||||TWO_SIDED|95.0|-4.0|3.1|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.1|-4.0|
82441656|NCT04411420|164591942|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.858|TWO_SIDED|95.0|-0.23|0.28||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.28|-0.23|0.858
82441657|NCT04411420|164591942|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.688|TWO_SIDED|95.0|-0.32|0.21||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.21|-0.32|0.688
82441658|NCT04411420|164591942|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.833|TWO_SIDED|95.0|-0.32|0.26||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.26|-0.32|0.833
82441659|NCT04411420|164591943|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.259|TWO_SIDED|95.0|-0.18|0.64||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.64|-0.18|0.259
82441660|NCT04411420|164591943|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.068|TWO_SIDED|95.0|-0.03|0.81||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.81|-0.03|0.068
82441661|NCT04411420|164591943|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.514|TWO_SIDED|95.0|-0.29|0.57||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.57|-0.29|0.514
82441662|NCT04411420|164591944|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.895|TWO_SIDED|95.0|-0.22|0.2||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.20|-0.22|0.895
82441663|NCT04411420|164591944|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.438|TWO_SIDED|95.0|-0.13|0.3||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.30|-0.13|0.438
82441664|NCT04411420|164591944|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.89|TWO_SIDED|95.0|-0.24|0.21||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.21|-0.24|0.890
82441665|NCT04411420|164591945|SUPERIORITY||Median Difference (Final Values)|-0.01||||0.508|TWO_SIDED|95.0|-0.04|0.02||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 3 months||0.02|-0.04|0.508
82441666|NCT04411420|164591945|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.03|0.03||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 6 months||0.03|-0.03|0.992
82441667|NCT04411420|164591945|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.389|TWO_SIDED|95.0|-0.05|0.02||P-values are not adjusted for multiple comparisons. Threshold for significance is 0.05.|Mixed Models Analysis|Hierarchical linear model fit included random effects for clinic and clinic by time and pre-specified clinic- and patient-level covariates.|Difference is calculated as Integrated Sequenced Care Pathway change minus Coordinated Care Management Pathway change.|Baseline to 12 months||0.02|-0.05|0.389
82441668|NCT02406443|164591971|SUPERIORITY||Mean Difference (Final Values)|46.0|||=|0.012|TWO_SIDED||||||Regression, Linear|||||||=0.012
82441669|NCT02406443|164591972|SUPERIORITY||Median Difference (Final Values)|5.7||||0.4|TWO_SIDED||||||Regression, Linear|||||||0.40
82441670|NCT02406443|164591973|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.15|TWO_SIDED||||||Regression, Linear|||||||0.15
82441671|NCT02406443|164591974|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82441672|NCT02406443|164591975|SUPERIORITY||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82441673|NCT02406443|164591976|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.42|TWO_SIDED||||||Regression, Linear|||||||0.42
82441674|NCT02937766|164592011|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.25||0.093|TWO_SIDED|95.0|-0.1|0.9|||t-test, 2 sided|The t-test tested the hypothesis of no treatment difference between treatment groups.||||0.9|-0.1|0.093
82624921|NCT00788697|164964689|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|-19.4||||0.0016|TWO_SIDED|95.0|-30.9|-7.8|||McNemar|||||-7.8|-30.9|0.0016
82624922|NCT00788697|164964690|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|47.4|||<|0.0001|TWO_SIDED|95.0|37.4|57.4|||McNemar|||||57.4|37.4|<.0001
82624923|NCT00788697|164964690|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|60.3|||<|0.0001|TWO_SIDED|95.0|50.5|70.2|||McNemar|||||70.2|50.5|<.0001
82624924|NCT00788697|164964690|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|29.3|||<|0.0001|TWO_SIDED|95.0|19.7|38.9|||McNemar|||||38.9|19.7|<.0001
82624925|NCT00788697|164964691|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|28.8|||<|0.0001|TWO_SIDED|95.0|20.5|37.0|||McNemar|||||37.0|20.5|<.0001
82624926|NCT00788697|164964691|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|39.2|||<|0.0001|TWO_SIDED|95.0|31.3|47.1|||McNemar|||||47.1|31.3|<.0001
82624927|NCT00788697|164964691|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|4.2||||0.3173|TWO_SIDED|95.0|-4.0|12.3|||McNemar|||||12.3|-4.0|0.3173
82624928|NCT00788697|164964692|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82624929|NCT00788697|164964692|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82624930|NCT00788697|164964692|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wald Test|||||||0.0004
82624931|NCT00788697|164964693|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82624932|NCT00788697|164964693|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82624933|NCT00788697|164964693|SUPERIORITY_OR_OTHER|||||||0.761|||||||Wald Test|||||||0.7610
82441675|NCT02937766|164592012|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.234|TWO_SIDED|95.0|-0.2|0.7||The t-test tested the hypothesis of no treatment difference between treatment groups.|t-test, 2 sided|||||0.7|-0.2|0.234
82624934|NCT01998880|164964699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.36|0.59||Type I error controlled through closed test procedure.|Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.59|0.36|<0.0001
82624935|NCT01998880|164964701|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.31|0.5|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.50|0.31|<0.0001
82624936|NCT01998880|164964702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2841|TWO_SIDED|95.0|0.61|1.16|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||1.16|0.61|0.2841
82624937|NCT01998880|164964703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.31|||<|0.0001|TWO_SIDED|95.0|23.5|45.1|||Chi-squared|||||45.1|23.5|<0.0001
82624938|NCT01998880|164964705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.35|0.61|||Log-ranked, Stratified||Stratified by Binet stage at Baseline.|||0.61|0.35|<0.0001
82624939|NCT01998880|164964709|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.4|||<|0.0001|TWO_SIDED|95.0|0.3|0.53|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.53|0.30|<0.0001
82624940|NCT01998880|164964710|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.45|||<|0.0001|TWO_SIDED|95.0|0.31|0.65|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.65|0.31|<0.0001
82624941|NCT01998880|164964711|SUPERIORITY||Difference in Response Rates|33.04|||<|0.0001|TWO_SIDED|95.0|22.1|43.9|||Chi-squared|||Includes subjects with best overall response: CR, CRi, PR or nPR.||43.9|22.1|< 0.0001
82624942|NCT00004732|164964712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.81|1.51|||||HR (95% CI) adjusted for age, sex and symptomatic status|||1.51|0.81|
82624943|NCT00004732|164964713|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.82|2.23|||||HR (95% CI) for WOMEN CAS vs CEA (adjusted for age and symptomatic status)|||2.23|0.82|
82624944|NCT00014911|164964718|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.0|||||TWO_SIDED|95.0|30.0|61.0|||Fisher Exact|||||61|30|
82624945|NCT00014911|164964719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.0|||||TWO_SIDED|95.0|16.0|44.0|||Fisher Exact|||||44|16|
82624946|NCT00014911|164964720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|58.0|||||TWO_SIDED|95.0|42.0|63.0|||Fisher Exact|||||63|42|
82624947|NCT05064332|164964730|OTHER||Ratio of Adjusted Geometric Means|101.43|||||TWO_SIDED|90.0|93.01|110.61||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed AUClast was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.61|93.01|
82624948|NCT05064332|164964731|OTHER||Ratio of Adjusted Geometric Means|108.51|||||TWO_SIDED|90.0|98.85|119.11||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed AUClast was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||119.11|98.85|
82624949|NCT05064332|164964732|OTHER||Ratio of Adjusted Geometric Means|95.07|||||TWO_SIDED|90.0|84.44|107.04||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed Cmax was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.04|84.44|
82624950|NCT05064332|164964733|OTHER||Ratio of Adjusted Geometric Means|117.99|||||TWO_SIDED|90.0|101.82|136.73||||||OC alone as the Reference and co-administration of PF-06650833 and OC as the Test. Natural log transformed Cmax was analyzed using a mixed effects model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||136.73|101.82|
82624951|NCT00141037|164964744|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon Nonparametric Test|||The endpoint is assessed using a Wilcoxon nonparametric test and missing values are imputed using the last observation carried forward.||||0.79
82624952|NCT00141037|164964745|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||The difference was analyzed using a Fisher's exact test.||||0.85
82441676|NCT00098722|164592014|SUPERIORITY_OR_OTHER||LS mean difference|-1.021|STANDARD_ERROR_OF_MEAN|0.1802|||TWO_SIDED|97.5|-1.426|-0.616||||||The difference between the treatment least square means (LS means) adjusted for randomization strata was presented in addition to 2-sided 97.5% confidence interval (CI) as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.616|-1.426|
82441677|NCT00098722|164592014|SUPERIORITY_OR_OTHER||LS mean difference|-1.042|STANDARD_ERROR_OF_MEAN|0.1786|||TWO_SIDED|97.5|-1.444|-0.64||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.640|-1.444|
82441678|NCT00098722|164592015|SUPERIORITY_OR_OTHER||LS mean difference|-0.961|STANDARD_ERROR_OF_MEAN|0.1856|||TWO_SIDED|97.5|-1.379|-0.544||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.544|-1.379|
82441679|NCT00098722|164592015|SUPERIORITY_OR_OTHER||LS mean difference|-1.109|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|97.5|-1.523|-0.695||||||The difference between the treatment LS means adjusted for randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.695|-1.523|
82441680|NCT00098722|164592016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|95.0|2.56|8.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (less than \[\<\] 100,000 or greater than or equal to \[\>=\] 100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio greater than (\>) 1 favors maraviroc.||8.23|2.56|<0.0001
82441681|NCT00098722|164592016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.01|||<|0.0001|TWO_SIDED|95.0|3.35|10.78|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||10.78|3.35|<0.0001
82441682|NCT00098722|164592016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||<|0.0001|TWO_SIDED|95.0|2.25|7.2|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.20|2.25|<0.0001
82441683|NCT00098722|164592016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.47|7.85|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.85|2.47|<0.0001
82441684|NCT00098722|164592017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.69|||<|0.0001|TWO_SIDED|95.0|2.72|8.1|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.10|2.72|<0.0001
82502121|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9049||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.9049
82563884|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-2.9|||||TWO_SIDED|95.0|-6.2|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-6.2|
82563885|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-3.2|||||TWO_SIDED|95.0|-6.7|0.4|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||0.4|-6.7|
82563886|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.1|||||TWO_SIDED|95.0|-4.0|3.5|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.5|-4.0|
82563887|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-2.7|2.3|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 28 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-2.7|
82563888|NCT03345407|164836980|OTHER||Posterior adjusted median difference|4.1|||||TWO_SIDED|95.0|-2.5|11.0|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||11.0|-2.5|
82563889|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-1.2|||||TWO_SIDED|95.0|-4.8|2.5|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.5|-4.8|
82563890|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-2.7|||||TWO_SIDED|95.0|-6.3|1.1|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.1|-6.3|
82563891|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-3.3|||||TWO_SIDED|95.0|-7.3|0.4|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||0.4|-7.3|
82563892|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.8|||||TWO_SIDED|95.0|-4.6|3.0|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.0|-4.6|
82563893|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.4|||||TWO_SIDED|95.0|-2.9|2.5|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 56 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.5|-2.9|
82441685|NCT00098722|164592017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.01|||<|0.0001|TWO_SIDED|95.0|2.91|8.62|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.62|2.91|<0.0001
82441686|NCT00098722|164592017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.13|6.32|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.32|2.13|<0.0001
82624953|NCT00637377|164964746|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.2|||||TWO_SIDED|95.0|-4.86|2.46|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 2mg Q4 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 2mg Q4, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 2mg Q4).||2.46|-4.86|
82624954|NCT00637377|164964746|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.84|||||TWO_SIDED|95.0|-5.4|1.71|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 0.5mg Q4 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 0.5mg Q4, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 0.5mg Q4).||1.71|-5.40|
82624955|NCT00637377|164964746|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set to 10. The power is 90 % according to the sample size estimation of the study protocol.|Risk Difference (RD)|-1.13|||||TWO_SIDED|95.0|-4.81|2.55|||||The difference is calculated as Ranibizumab minus Aflibercept. A negative value favors the Aflibercept 2mg Q8 group. As adjustment of multiple comparisons a conditional sequence of statistical hypotheses is used with alpha = 0.05.|null hypothesis: pi ≤ pc-delta where pi is the probability that a participant maintained vision at week 52 under Aflibercept 2mg Q8, pc is the probability that a participant maintained vision at week 52 under Ranibizumab 0.5mg Q4 and delta is the non-inferiority margin. The null hypothesis is tested calculating a two-sided 95 % confidence using normal approximation of the difference of percentages of participants maintaining vision at week 52 (Ranibizumab 0.5mg Q4 minus Aflibercept 2mg Q8).||2.55|-4.81|
82624956|NCT00637377|164964747|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.9484||||0.076|TWO_SIDED|95.0|-4.1009|0.204||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||0.2040|-4.1009|0.076
82624957|NCT00637377|164964747|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.062||||0.9555|TWO_SIDED|95.0|-2.2398|2.1158||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 0.5mg Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||2.1158|-2.2398|0.9555
82624958|NCT00637377|164964747|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.9014||||0.4131|TWO_SIDED|95.0|-3.0615|1.2587||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q8 group|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline ETDRS letter score as covariate. The null hypothesis is that both mean changes are equal.||1.2587|-3.0615|0.4131
82624959|NCT00637377|164964748|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.57||||0.229|TWO_SIDED|95.0|-12.02|2.88||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q4 group|The null hypothesis is that the two proportions are equal.||2.88|-12.02|0.229
82624960|NCT00637377|164964748|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.78||||0.843|TWO_SIDED|95.0|-6.91|8.46||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 0.5mg Q4 group|The null hypothesis is that the two proportions are equal.||8.46|-6.91|0.843
82624961|NCT00637377|164964748|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.65||||0.49|TWO_SIDED|95.0|-10.18|4.88||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|Chi-squared||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors the Aflibercept 2mg Q8 group|The null hypothesis is that the two proportions are equal.||4.88|-10.18|0.490
82624962|NCT00637377|164964749|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-2.7885||||0.0097|TWO_SIDED|95.0|-4.9012|-0.6757||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||-0.6757|-4.9012|0.0097
82624963|NCT00637377|164964749|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.932||||0.3917|TWO_SIDED|95.0|-3.0658|1.2019||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 0.5mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||1.2019|-3.0658|0.3917
82624964|NCT00637377|164964749|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.947||||0.0717|TWO_SIDED|95.0|-4.0659|0.1718||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A positive value favors Aflibercept 2mg Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline NEI VFQ-25 total score as covariate. The null hypothesis is that both mean changes are equal.||0.1718|-4.0659|0.0717
82624965|NCT00637377|164964750|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-1.18||||0.0038|TWO_SIDED|95.0|-1.979|-0.382||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 2mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||-0.382|-1.979|0.0038
82624966|NCT00637377|164964750|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.17||||0.6784|TWO_SIDED|95.0|-0.632|0.972||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 0.5mg Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||0.972|-0.632|0.6784
82624967|NCT00637377|164964750|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.733||||0.0727|TWO_SIDED|95.0|-1.534|0.068||as adjustment of multiple comparisons a conditional sequence of statistical hypotheses (a-priori ordered hypotheses) is used with alpha = 0.05.|ANCOVA||The difference is calculated as Aflibercept minus Ranibizumab. A negative value favors Aflibercept 2mg Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline CNV area as covariate. The null hypothesis is that both mean changes are equal.||0.068|-1.534|0.0727
82624968|NCT01375647|164964772|SUPERIORITY||Risk Difference (RD)|-2.9||||0.4|TWO_SIDED|95.0|-9.6|3.9|||Chi-squared|2 sided, not adjusted||||3.9|-9.6|0.4
82624969|NCT01375647|164964773|SUPERIORITY||Risk Difference (RD)|13.4||||4e-05|TWO_SIDED|95.0|7.0|19.8||2-sided, no adjustment|Chi-squared|||||19.8|7.0|0.00004
82624970|NCT01375647|164964774|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.5|TWO_SIDED||||||t-test, 2 sided|||Sabin type 1 shedding||||0.5
82624971|NCT01375647|164964774|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.2|TWO_SIDED||||||t-test, 2 sided|||Sabin type 2 shedding||||0.2
82624972|NCT01375647|164964774|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.1|TWO_SIDED||||||t-test, 2 sided|||Sabin type 3 shedding||||0.1
82624973|NCT01375647|164964776|SUPERIORITY||Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-7.3|4.5||||||Sabin type 1||4.5|-7.3|
82624974|NCT01375647|164964776|SUPERIORITY||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.2|0.9||||||Sabin type 2||0.9|-7.2|
82624975|NCT01375647|164964776|SUPERIORITY||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-3.2|6.1||||||||6.1|-3.2|
82441687|NCT00098722|164592017|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.64|||<|0.0001|TWO_SIDED|95.0|2.69|8.02|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.02|2.69|<0.0001
82624976|NCT01375647|164964777|SUPERIORITY||Risk Difference (RD)|-33.7|||||TWO_SIDED|95.0|-40.7|-26.5||||||||-26.5|-40.7|
82624977|NCT01375647|164964777|SUPERIORITY||Risk Difference (RD)|-24.3|||||TWO_SIDED|95.0|-31.1|-17.5||||||||-17.5|-31.1|
82624978|NCT01375647|164964777|SUPERIORITY||Risk Difference (RD)|-45.6|||||TWO_SIDED|95.0|-52.6|-38.0||||||||-38.0|-52.6|
82624979|NCT01375647|164964778|SUPERIORITY|||||||0.981|||||||Wilcoxon (Mann-Whitney)|||||||0.981
82624980|NCT01375647|164964779|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82624981|NCT00595868|164964809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.06|TWO_SIDED|95.0|1.0|2.9|||Chi-squared|||||2.9|1.0|0.06
82624982|NCT00595868|164964810|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.1|TWO_SIDED|95.0|0.9|5.2|||Chi-squared|||||5.2|0.9|0.10
82624983|NCT03788967|164964819|NON_INFERIORITY|The non-inferiority hypothesis test was a 1-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in overall response was greater than -12.5%, non-inferiority was declared.|Risk Difference|-3.3|||||TWO_SIDED|95.0|-9.7|3.2||||||||3.2|-9.7|
82624984|NCT03788967|164964821|OTHER||Risk Difference|-4.7|||||TWO_SIDED|95.0|-11.3|1.9||||||||1.9|-11.3|
82624985|NCT03788967|164964822|OTHER||Risk Difference|1.4|||||TWO_SIDED|95.0|-0.1|3.4||||||Statistical Analysis 1 (EOT)||3.4|-0.1|
82624986|NCT03788967|164964822|OTHER||Risk Difference|-0.6|||||TWO_SIDED|95.0|-4.0|2.8||||||Statistical Analysis 2 (TOC)||2.8|-4|
82624987|NCT03788967|164964822|OTHER||Risk Difference|-1.5|||||TWO_SIDED|95.0|-5.7|2.6||||||Statistical Analysis 3 (LFU)||2.6|-5.7|
82624988|NCT03788967|164964823|OTHER||Risk Difference|0.7|||||TWO_SIDED|95.0|-0.3|2.0||||||||2.0|-0.3|
82624989|NCT03788967|164964824|OTHER||Risk Difference|-1.6|||||TWO_SIDED|95.0|-3.8|0.6||||||||0.6|-3.8|
82624990|NCT03788967|164964825|OTHER||Risk Difference|-0.5|||||TWO_SIDED|95.0|-3.3|2.3||||||||2.3|-3.3|
82624991|NCT03788967|164964826|OTHER||Risk Difference|1.3|||||TWO_SIDED|95.0|-0.2|3.2||||||||3.2|-0.2|
82624992|NCT03788967|164964827|OTHER||Risk Difference|-2.2|||||TWO_SIDED|95.0|-5.3|0.8||||||||0.8|-5.3|
82624993|NCT03788967|164964828|OTHER||Risk Difference|-1.2|||||TWO_SIDED|95.0|-5.1|2.6||||||||2.6|-5.1|
82624994|NCT03788967|164964829|OTHER||Risk Difference|1.5|||||TWO_SIDED|95.0|-0.8|4.1||||||Statistical Analysis 1 (EOT)||4.1|-0.8|
82624995|NCT03788967|164964829|OTHER||Risk Difference|-4.5|||||TWO_SIDED|95.0|-10.8|1.9||||||Statistical Analysis 2 (TOC)||1.9|-10.8|
82624996|NCT03788967|164964829|OTHER||Risk Difference|-1.5|||||TWO_SIDED|95.0|-7.9|5.0||||||||5|-7.9|
82624997|NCT03788967|164964833|OTHER||Risk Difference|-0.2|||||TWO_SIDED|95.0|-1.6|1.2||||||||1.2|-1.6|
82624998|NCT03788967|164964834|OTHER||Risk Difference|-5.9|||||TWO_SIDED|95.0|-12.4|0.7||||||||0.7|-12.4|
82624999|NCT03788967|164964835|OTHER||Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-8.5|5.3||||||||5.3|-8.5|
82625000|NCT03788967|164964839|OTHER||Risk Difference|-4.7|||||TWO_SIDED|95.0|-13.5|4.1||||||Overall response for participants with AP||4.1|-13.5|
82625001|NCT03788967|164964839|OTHER||Risk Difference|-1.6|||||TWO_SIDED|95.0|-11.0|7.7||||||Overall response in participants with cUTI||7.7|-11.0|
82625002|NCT03788967|164964840|OTHER||Risk Difference|1.4|||||TWO_SIDED|95.0|-7.2|9.9||||||||9.9|-7.2|
82625003|NCT03788967|164964840|OTHER||Risk Difference (RD)|-8.4|||||TWO_SIDED|95.0|-20.6|3.8||||||≥65 to \<75 years||3.8|-20.6|
82625004|NCT03788967|164964840|OTHER||Risk Difference (RD)|-7.5|||||TWO_SIDED|95.0|-23.8|8.7||||||≥75 years||8.7|-23.8|
82625005|NCT03788967|164964841|OTHER||Risk Difference|-3.1|||||TWO_SIDED|95.0|-9.6|3.5||||||Central and Eastern Europe||3.5|-9.6|
82625006|NCT03788967|164964842|OTHER|||||||0.044|||||||Log Rank|||||||0.044
82625007|NCT03788967|164964843|OTHER|||||||0.736|||||||Log Rank|||||||0.736
82625008|NCT00713284|164964851|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82625009|NCT02061748|164964876|SUPERIORITY_OR_OTHER|||||||0.0111|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0111
82625010|NCT02061748|164964877|SUPERIORITY_OR_OTHER|||||||0.0861|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0861
82625011|NCT02061748|164964878|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0011
82625012|NCT02061748|164964879|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0019
82625013|NCT02061748|164964880|SUPERIORITY_OR_OTHER|||||||0.0808|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0808
82625014|NCT02061748|164964881|SUPERIORITY_OR_OTHER|||||||0.3502|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.3502
82625015|NCT02061748|164964882|SUPERIORITY_OR_OTHER|||||||0.0068|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0068
82625016|NCT02061748|164964883|SUPERIORITY_OR_OTHER|||||||0.0271|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0271
82625017|NCT02061748|164964884|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0749
82625018|NCT02061748|164964885|SUPERIORITY_OR_OTHER|||||||0.0072|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0072
82625019|NCT02061748|164964886|SUPERIORITY_OR_OTHER|||||||0.0055|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0055
82625020|NCT02061748|164964887|SUPERIORITY_OR_OTHER|||||||0.0284|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0284
82625021|NCT02061748|164964888|SUPERIORITY_OR_OTHER|||||||0.907|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.907
82625022|NCT02061748|164964889|SUPERIORITY_OR_OTHER|||||||0.8208|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8208
82625023|NCT02061748|164964890|SUPERIORITY_OR_OTHER|||||||0.1534|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.1534
82625024|NCT02061748|164964891|SUPERIORITY_OR_OTHER|||||||0.3055|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.3055
82625025|NCT02061748|164964892|SUPERIORITY_OR_OTHER|||||||0.9573|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.9573
82625026|NCT02061748|164964893|SUPERIORITY_OR_OTHER|||||||0.8465|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8465
82625027|NCT02061748|164964894|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0006
82625028|NCT02061748|164964895|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||<0.0001
82625029|NCT02061748|164964896|SUPERIORITY_OR_OTHER|||||||0.0185|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0185
82625030|NCT02061748|164964897|SUPERIORITY_OR_OTHER|||||||0.0138|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0138
82625031|NCT02061748|164964898|SUPERIORITY_OR_OTHER|||||||0.261|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.261
82625032|NCT02061748|164964899|SUPERIORITY_OR_OTHER|||||||0.4407|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.4407
82625033|NCT02061748|164964900|SUPERIORITY_OR_OTHER|||||||0.2665|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.2665
82625034|NCT02061748|164964901|SUPERIORITY_OR_OTHER|||||||0.8017|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.8017
82625035|NCT02061748|164964902|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||<0.0001
82502122|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7153||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.7153
82625036|NCT02061748|164964903|SUPERIORITY_OR_OTHER|||||||0.2083|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.2083
82625037|NCT02061748|164964904|SUPERIORITY_OR_OTHER|||||||0.0023|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0023
82625038|NCT02061748|164964905|SUPERIORITY_OR_OTHER|||||||0.5331|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.5331
82625039|NCT02061748|164964906|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0003
82625040|NCT02061748|164964907|SUPERIORITY_OR_OTHER|||||||0.2646|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.2646
82625041|NCT02061748|164964908|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||Study outcomes for the primary analysis were identified using either the admitting diagnoses or on any of the service lines associated with an inpatient hospitalization.||||0.0004
82625042|NCT02061748|164964909|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||The post-hoc analysis defined the principal diagnosis as the primary diagnosis on the first inpatient hospital claim with a room and board charge.||||0.0004
82625043|NCT03788616|164964929|EQUIVALENCE|assuming 95% power of the study|Median Difference (Final Values)|0.05||||0.478|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.478
82625044|NCT02574481|164964932|NON_INFERIORITY|A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions.|||||<|0.0001||||||A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions. If the P-value from the one-sided Farrington-Manning test is \<0.05, Eluvia is concluded to be non-inferior to Zilver PTX.|Farrington-Manning|||||||<0.0001
82625045|NCT02574481|164964933|NON_INFERIORITY|A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions..|||||<|0.0001||||||A two-group Farrington-Manning test is used to test the one-sided hypothesis of non-inferiority in proportions. If the P-value from the one-sided Farrington-Manning test is \<0.05, Eluvia is concluded to be non-inferior to Zilver PTX.|Farrington-Manning|||||||<0.0001
82625046|NCT01673490|164964966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82625047|NCT01673490|164964967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||for Month 3|t-test, 2 sided|||||||<0.001
82625048|NCT01673490|164964967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||for Month 6|t-test, 2 sided|||||||<0.001
82625049|NCT02940860|164964974|NON_INFERIORITY|Non-inferiority could be claimed if the lower bound of the 95% confidence interval (CI) was above -0.5 g/dL.|Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.06|0.23|||||The Mixed Model for Repeated Measurement (MMRM) used for testing, included the fixed, categorical effects of treatment, week, treatment-by-week interaction, strata, and the continuous covariates of baseline Hb and baseline Hb-by-week interaction.|"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose treatment group and with N=500 subjects in the iron sucrose treatment group, assuming no difference between the treatment groups and assuming a common standard deviation (SD) of 1.5 g/dL, the power was 100% for demonstrating non-inferiority of the change in Hb from baseline to week 8, using a non-inferiority margin of -0.5 g/dL.~The significance level was set to 5%."||0.23|-0.06|
82625050|NCT02940860|164964975|OTHER||95% two-sided CI (iron isomaltoside)|0.3|||||TWO_SIDED|95.0|0.06|0.86||||||"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose, the power was 88% to demonstrate that the upper bound of the 95% CI of the incidence of treatment-emergent serious and/or severe non-serious hypersensitivity AEs was less than 3%.~The significance level was set to 5%."||0.86|0.06|
82625051|NCT02940860|164964975|OTHER||Risk Difference (RD)|0.29|||||TWO_SIDED|95.0|-0.19|0.77||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the individual trial with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.77|-0.19|
82625052|NCT02940860|164964975|NON_INFERIORITY|Non-inferiority can be claimed if the upper bound of the 95% CI is below 1.5 % point.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.57|0.48||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the pooled FERWON-IDA and FERWON-NEPHRO trials (2008 subjects treated with iron isomaltoside/ferric derisomaltose and 1000 subjects treated with iron sucrose) with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.48|-0.57|
82625053|NCT02940860|164964976|SUPERIORITY|||||||0.0248|||||||Fisher Exact|||Adjudicated and confirmed treatment-emergent composite cardiovascular AEs. Any treatment emergent composite cardiovascular AEs were included in the statistical evaluation. The overall incidence of adjudicated and confirmed composite cardiovascular AEs was tabulated and compared between the treatment groups by a Fisher's exact test.||||0.0248
82625054|NCT02940860|164964977|SUPERIORITY|||||||0.0185|||||||Log Rank|||The time to first adjudicated and confirmed composite cardiovascular AEs was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a log-rank test.||||0.0185
82625055|NCT02940860|164964979|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0478|TWO_SIDED|95.0|1.0|1.87|||Repeated measures logistic regressioin|||"Week 1~Hb increase of ≥1 g/dL from baseline to week 1.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.87|1.00|0.0478
82625056|NCT02940860|164964979|SUPERIORITY||Odds Ratio (OR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.39|2.36|||Repeated measures logistic regressioin|||"Week 2~Hb increase of ≥1 g/dL from baseline to week 2.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||2.36|1.39|<0.0001
82625057|NCT02940860|164964979|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0048|TWO_SIDED|95.0|1.11|1.79|||Repeated measures logistic regressioin|||"Week 4~Hb increase of ≥1 g/dL from baseline to week 4.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.79|1.11|0.0048
82625058|NCT02940860|164964979|SUPERIORITY||Odds Ratio (OR)|1.01||||0.944|TWO_SIDED|95.0|0.8|1.27|||Repeated measures logistic regressioin|||"Week 8~Hb increase of ≥1 g/dL from baseline to week 8.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.27|0.80|0.9440
82625059|NCT02940860|164964980|SUPERIORITY|||||||0.0174|||||||Log Rank|||Time to Hb response was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a 2-sided log-rank test.||||0.0174
82625060|NCT02940860|164964981|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5074|TWO_SIDED|95.0|0.83|1.45|||Regression, Logistic|||The proportion of subjects who achieved a Hb level of \>12 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects. The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value.||1.45|0.83|0.5074
82625061|NCT02940860|164964982|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1035|TWO_SIDED|95.0|0.96|1.6|||Regression, Logistic|||"The proportion of subjects who achieved an increase in Hb concentration ≥2 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose was presented with 95% CI and corresponding p-value."||1.60|0.96|0.1035
82625062|NCT02940860|164964983|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.0001|TWO_SIDED|95.0|1.38|2.4|||Regression, Logistic|||"Proportion of subject who achieved a s-ferritin level of ≥100 ng/mL AND a TSAT of 20-50% at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value."||2.40|1.38|<0.0001
82625063|NCT02940860|164964984|SUPERIORITY||Mean Difference (Final Values)|0.22|||<|0.0001|TWO_SIDED|95.0|0.12|0.31|||Mixed model for repeated measures|||"Week 1~Change in Hb concentration from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.31|0.12|<0.0001
82625064|NCT02940860|164964984|SUPERIORITY||Mean Difference (Final Values)|0.25|||<|0.0001|TWO_SIDED|95.0|0.14|0.36|||Mixed model for repeated measures|||"Week 2~Change in Hb concentration from baseline to week 2 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.36|0.14|<0.0001
82625065|NCT02940860|164964984|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0208|TWO_SIDED|95.0|0.02|0.28|||Mixed model for repeated measures|||"Week 4~Change in Hb concentration from baseline to week 4 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.28|0.02|0.0208
82625066|NCT02940860|164964985|SUPERIORITY||Mean Difference (Final Values)|309.2|||<|0.0001|TWO_SIDED|95.0|280.7|337.8|||Mixed model for repeated measures|||"Week 1~Change in concentrations of s-ferritin from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||337.8|280.7|<0.0001
82625067|NCT02940860|164964985|SUPERIORITY||Mean Difference (Final Values)|95.8|||<|0.0001|TWO_SIDED|95.0|67.9|123.7|||Mixed model for repeated measures|||"Week 2~Change in concentrations of s-ferritin from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||123.7|67.9|<0.0001
82625068|NCT02940860|164964985|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.7834|TWO_SIDED|95.0|-21.2|28.1|||Mixed model for repeated measures|||"Week 4~Change in concentrations of s-ferritin from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||28.1|-21.2|0.7834
82625069|NCT02940860|164964985|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.7621|TWO_SIDED|95.0|-18.1|24.7|||Mixed model for repeated measures|||"Week 8~Change in concentrations of s-ferritin from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||24.7|-18.1|0.7621
82625070|NCT02940860|164964986|SUPERIORITY||Mean Difference (Final Values)|8.8|||<|0.0001|TWO_SIDED|95.0|6.9|10.7|||Mixed model for repeated measures|||"Week 1~Change in TSAT from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||10.7|6.9|<0.0001
82625071|NCT02940860|164964986|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.0129|TWO_SIDED|95.0|0.3|2.4|||Mixed model for repeated measures|||"Week 2~Change in TSAT from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.4|0.3|0.0129
82625072|NCT02940860|164964986|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.2403|TWO_SIDED|95.0|-0.4|1.5|||Mixed model for repeated measures|||"Week 4~Change in TSAT from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.5|-0.4|0.2403
82625073|NCT02940860|164964986|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8094|TWO_SIDED|95.0|-0.9|1.2|||Mixed model for repeated measures|||"Week 8~Change in TSAT from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.2|-0.9|0.8094
82625074|NCT02940860|164964987|SUPERIORITY||Mean Difference (Final Values)|26.5|||<|0.0001|TWO_SIDED|95.0|20.4|32.7|||Mixed model for repeated measures|||"Week 1~Change in s-iron from baseline to week 1 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||32.7|20.4|<0.0001
82625075|NCT02940860|164964987|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.2229|TWO_SIDED|95.0|-1.2|5.1|||Mixed model for repeated measures|||"Week 2~Change in s-iron from baseline to week 2 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||5.1|-1.2|0.2229
82625076|NCT02940860|164964987|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.9046|TWO_SIDED|95.0|-2.9|2.6|||Mixed model for repeated measures|||"Week 4~Change in s-iron from baseline to week 4 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||2.6|-2.9|0.9046
82625077|NCT02940860|164964987|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.1307|TWO_SIDED|95.0|-5.8|0.8|||Mixed model for repeated measures|||"Week 8~Change in s-iron from baseline to week 8 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by week interaction effects are presented by week, including 95% CIs and corresponding p-value."||0.8|-5.8|0.1307
82625078|NCT02940860|164964988|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8196|TWO_SIDED|95.0|-0.73|0.92|||Mixed model for repeated measures|||"Week 1~Change in fatigue symptoms score from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.92|-0.73|0.8196
82625079|NCT02940860|164964988|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.7132|TWO_SIDED|95.0|-1.06|0.73|||Mixed model for repeated measures|||"Week 2~Change in fatigue symptoms score from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.73|-1.06|0.7132
82625080|NCT02940860|164964988|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.586|TWO_SIDED|95.0|-0.71|1.25|||Mixed model for repeated measures|||"Week 8~Change in fatigue symptoms score from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||1.25|-0.71|0.5860
82502123|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.2420
82625081|NCT03404219|164964994|OTHER|Single group pre-post, follow-up|Mean Difference (Final Values)|2.56||||0.09|TWO_SIDED||||||General Linear Model (repeated measures)|||Single arm||||0.09
82625082|NCT04914819|164964997|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.048|TWO_SIDED|95.0|0.04|10.8|||Mixed Models Analysis|||Change in weight among participants who completed final assessment||10.8|0.04|0.048
82625083|NCT04914819|164964998|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.3
82625084|NCT04914819|164964999|SUPERIORITY|||||||0.331|||||||Chi-squared|||||||0.331
82625085|NCT04914819|164965000|SUPERIORITY|||||||0.734|||||||Fisher Exact|||||||0.734
82625086|NCT03961295|164965012|OTHER||Ratio of Geometric LSMs|1.2984|||||TWO_SIDED|90.0|1.0786|1.5486||||||Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of variance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.5486|1.0786|
82625087|NCT03961295|164965013|OTHER||Ratio of Geometric LSMs|1.3274|||||TWO_SIDED|90.0|1.1147|1.5807||||||Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.5807|1.1147|
82625088|NCT03961295|164965014|OTHER||Ratio of Geometric LSMs|1.1978|||||TWO_SIDED|90.0|1.0394|1.3804||||||Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.||1.3804|1.0394|
82625089|NCT00608881|164965044|SUPERIORITY_OR_OTHER||π hat|0.494|||||TWO_SIDED|95.0|0.454|0.534|||||π hat is the estimate of the probability π that a randomly selected subject treated with CoQ has a better outcome than a randomly selected subject treated with placebo. Under the null hypothesis of no effect of CoQ, π = 0.50.|In this joint rank analysis, subjects are ranked from worst to best outcome with subjects who die being assigned the worst ranks (and ranked according to the time of death) and subjects who survive being ranked more favorably in the order of the change from baseline to Month 60 in TFC score.||0.534|0.454|
82502124|NCT00312494|164695076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6121||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline as covariate.||||0.6121
82625090|NCT00608881|164965045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.44|0.91||||||||0.91|-0.44|
82625091|NCT00608881|164965046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-1.4|1.58||||||||1.58|-1.40|
82625092|NCT00608881|164965047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.44|||||TWO_SIDED|95.0|-6.68|3.79||||||||3.79|-6.68|
82625093|NCT00608881|164965048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|||||TWO_SIDED|95.0|-4.4|2.16||||||||2.16|-4.40|
82625094|NCT00608881|164965049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-1.48|1.39||||||||1.39|-1.48|
82502125|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6138||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.6138
82563894|NCT03345407|164836980|OTHER||Posterior adjusted median difference|2.4|||||TWO_SIDED|95.0|-4.8|9.4|||||Treatment comparison between placebo and Nemiralisib 12.5 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||9.4|-4.8|
82625095|NCT00608881|164965050|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-4.78|3.23||||||||3.23|-4.78|
82625096|NCT00608881|164965051|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||||TWO_SIDED|95.0|-1.32|2.14||||||||2.14|-1.32|
82625097|NCT00608881|164965052|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.71|1.51||||||||1.51|-2.71|
82625098|NCT00608881|164965053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||||TWO_SIDED|95.0|-2.28|2.87||||||||2.87|-2.28|
82625099|NCT00608881|164965054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.88|||||TWO_SIDED|95.0|0.31|7.44||||||||7.44|0.31|
82625100|NCT00608881|164965055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.04|||||TWO_SIDED|95.0|-1.1|3.18||||||||3.18|-1.10|
82625101|NCT00608881|164965056|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.81|1.2||||||||1.20|0.81|
82625102|NCT00608881|164965057|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.75|1.15||||||||1.15|0.75|
82625103|NCT00270998|164965069|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||<0.0492
82625104|NCT00270998|164965069|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.02||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||0.02
82625105|NCT00270998|164965069|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.49||||||A priori threshold for statistical significance set at p = 0.0492 to account for interim analysis|Regression, Logistic|||A priori, the combination treatment was considered superior (75% success rate) to either single-modality therapy (60% success rate) at 80% power with 150 participants per group.||||0.49
82625106|NCT00270998|164965070|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.006|||||||Regression, Logistic|||||||0.006
82625107|NCT00270998|164965070|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.048|||||||Regression, Logistic|||||||0.048
82625108|NCT00270998|164965070|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.42|||||||Regression, Logistic|||||||0.42
82625109|NCT00270998|164965071|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625110|NCT00270998|164965071|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625111|NCT00270998|164965071|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625112|NCT00270998|164965072|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625113|NCT00270998|164965072|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625114|NCT00270998|164965072|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625115|NCT00270998|164965073|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625116|NCT00270998|164965073|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625117|NCT00270998|164965073|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625118|NCT00270998|164965074|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625119|NCT00270998|164965074|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625120|NCT00270998|164965074|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625121|NCT00270998|164965075|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.03|||||||Regression, Logistic|||||||0.03
82625122|NCT00270998|164965075|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.||||||0.048|||||||Regression, Logistic|||||||0.048
82502126|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6536||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 1 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.6536
82625123|NCT00270998|164965075|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625124|NCT00270998|164965076|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625125|NCT00270998|164965076|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625126|NCT00270998|164965076|NON_INFERIORITY|Logistic regression was used to adjust for randomization stratification variables of incontinence type and incontinence severity. No parameter estimates were reported. No adjustments for multiple comparisons made.|||||<|0.0492|||||||Regression, Logistic|||||||<0.0492
82625127|NCT00763243|164965085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|2.17||0.766|TWO_SIDED|95.0|-1.44|1.89|||t-test, 2 sided|t(8)=0.31||Change during waiting period (no intervention); no change was hypothesized||1.89|-1.44|0.766
82625128|NCT00763243|164965085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_DEVIATION|1.0|<|0.001|TWO_SIDED|95.0|0.9|2.44|||t-test, 2 sided|t(8)=5.0||Change during the training period||2.44|0.90|<0.001
82502127|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4758||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.4758
82625129|NCT00763243|164965085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78|STANDARD_DEVIATION|1.86||0.021|TWO_SIDED|95.0|0.35|3.2|||t-test, 2 sided|t(8)=2.87||Change from pre-training through follow-up period||3.20|0.35|0.021
82625130|NCT00763243|164965085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_DEVIATION|1.12||0.4|TWO_SIDED|95.0|-0.53|1.19|||t-test, 2 sided|t(8)=0.89||Change from pretraining to 6 month follow up||1.19|-0.53|0.40
82625131|NCT00763243|164965086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|2.24||0.11|TWO_SIDED|95.0|-0.39|3.05|||t-test, 2 sided|t(8)=1.79||Change during waiting period of no intervention||3.05|-0.39|0.11
82625132|NCT00763243|164965086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|STANDARD_DEVIATION|1.81||0.004|TWO_SIDED|95.0|1.05|3.84|||t-test, 2 sided|t(8)=4.05||Change during training period||3.84|1.05|0.004
82625133|NCT00763243|164965086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11|STANDARD_DEVIATION|3.06||0.072|TWO_SIDED|95.0|-0.24|4.46|||t-test, 2 sided|t(8)=2.07||1 Month Follow Up change from pre-training||4.46|-0.24|0.072
82625134|NCT00763243|164965086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|2.28||0.34|TWO_SIDED|95.0|-0.97|2.53|||t-test, 2 sided|t(8)=1.02||6 month follow up change from pre-training||2.53|-0.97|0.34
82625135|NCT00763243|164965087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|1.86||0.729|TWO_SIDED|95.0|-1.2|1.65|||t-test, 2 sided|t(8)=0.36||Waiting period - no treatment||1.65|-1.20|0.729
82625136|NCT00763243|164965087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_DEVIATION|2.17||0.039|TWO_SIDED|95.0|-3.44|-0.11|||t-test, 2 sided|t(8)=2.46||Training Period - Pretraining to Post-Training Visit||-0.11|-3.44|0.039
82625137|NCT00763243|164965087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_DEVIATION|2.98||0.4|TWO_SIDED|95.0|-3.17|1.4|||t-test, 2 sided|t(8)=0.90||1 Month Follow Up Period from Pretraining||1.40|-3.17|0.40
82625138|NCT00763243|164965087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_DEVIATION|2.5||0.4|TWO_SIDED|95.0|-2.59|1.26|||t-test, 2 sided|t(8)=0.89||6 Month Follow Up period from pretraining||1.26|-2.59|0.40
82625139|NCT01248364|164965092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.279|TWO_SIDED|95.0|-0.16|0.55|||ANCOVA|Based on ANCOVA with terms for baseline FPG, diagnosis group, and baseline FPG by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.55|-0.16|0.2790
82441688|NCT00098722|164592018|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|2.64|7.92|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.92|2.64|<0.0001
82625140|NCT01248364|164965093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2438|TWO_SIDED|95.0|-0.16|0.62|||ANCOVA|Based on ANCOVA with terms for baseline FPG, diagnosis group and baseline FPG by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.62|-0.16|0.2438
82625141|NCT01248364|164965094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6931|TWO_SIDED|95.0|-1.19|1.79|||ANCOVA|Based on ANCOVA with terms for baseline EPG fast, diagnosis group and baseline EPG fast by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||1.79|-1.19|0.6931
82625142|NCT01248364|164965095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|1.12||0.1028|TWO_SIDED|95.0|-0.38|4.07|||ANCOVA|Based on ANCOVA with terms for baseline EPG fast, diagnosis group and baseline EPG fast by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||4.07|-0.38|0.1028
82625143|NCT01248364|164965096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|2.52||0.0326|TWO_SIDED|95.0|0.47|10.5|||ANCOVA|Based on ANCOVA with terms for baseline EPG AUC 5h, diagnosis group and baseline EPG AUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||10.50|0.47|0.0326
82625144|NCT01248364|164965097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.81||0.0552|TWO_SIDED|95.0|-3.2|0.04|||ANCOVA|Based on ANCOVA with terms for baseline PPG iAUC 5h, diagnosis group and baseline PPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||0.04|-3.20|0.0552
82625145|NCT01248364|164965098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.99||0.7561|TWO_SIDED|95.0|-1.66|2.27|||ANCOVA|Based on ANCOVA with terms for baseline PPG iAUC 5h, diagnosis group and baseline PPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||2.27|-1.66|0.7561
82625146|NCT01248364|164965099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.13|STANDARD_ERROR_OF_MEAN|1.89||0.1024|TWO_SIDED|95.0|-0.64|6.9|||ANCOVA|Based on ANCOVA with terms for baseline EPG AUC 5h, diagnosis group and baseline EPG AUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||6.90|-0.64|0.1024
82625147|NCT01248364|164965100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|2.93||0.6576|TWO_SIDED|95.0|-4.53|7.14|||ANCOVA|Based on ANCOVA with terms for baseline EPG iAUC 5h, diagnosis group and baseline EPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||7.14|-4.53|0.6576
82625148|NCT01248364|164965101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|3.38||0.2795|TWO_SIDED|95.0|-10.41|3.05|||ANCOVA|Based on ANCOVA with terms for baseline EPG iAUC 5h, diagnosis group and baseline EPG iAUC 5h by diagnosis group interaction.|Difference calculated as T2DM metformin minus T2DM Naive|No formal testing, exploratory analysis only.||3.05|-10.41|0.2795
82639425|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.1|||<|0.0001|TWO_SIDED|95.0|16.6|47.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||47.7|16.6|<.0001
82625149|NCT03846219|164965133|SUPERIORITY||rate ratio|0.38||||0.0002|TWO_SIDED|95.0|0.22|0.64||A one-sided alpha level of 0.1 was used.|generalized linear model|Estimates were adjusted for baseline volume of T2 lesions, MRI field strength (1.5 or 3.0 Tesla), and baseline number of Gd+ lesions (0, ≥1).|Rate ratio of 45 mg IMU-838 / placebo|H0: cumulative number of CUA MRI lesions up to Week 24 with 45 mg IMU-838 equal to or higher than that with placebo. A generalized linear model with a negative binomial distribution and logarithmic link function was used. Log transformation of time from 1st IMP dose to date of last MRI assessment was used as offset term. 51 patients per group were necessary to have 80% power to detect a difference of 3.5 in mean event rate with a significance level 0.1, 1-sided.||0.64|0.22|0.0002
82625150|NCT03846219|164965134|SUPERIORITY||Rate ratio|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.53||A hierarchical testing procedure with a one-sided alpha level of 0.1 was used.|Generalized linear model|Estimates were adjusted for baseline volume of T2 lesions, MRI field strength (1.5 or 3.0 Tesla), and baseline number of Gd+ lesions (0, ≥1).|Rate ratio of 30 mg IMU-838 / placebo|A generalized linear model with a negative binomial distribution and logarithmic link function was used. Log transformation of time from 1st IMP dose to date of last MRI assessment was used as offset term.||0.53|0.17|<.0001
82502128|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7581||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 2 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.7581
82625151|NCT01412060|164965223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.001|TWO_SIDED|95.0|0.28|0.73|||Log Rank||Hazard ratio (cariprazine 3-9 mg vs placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||0.73|0.28|0.0010
82625152|NCT01183312|164965229|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||wilcoxon signed rank (paired)|||||||0.77
82625153|NCT01183312|164965230|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.51
82625154|NCT01183312|164965231|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.32
82625155|NCT01183312|164965232|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.56
82625156|NCT01183312|164965233|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.14
82625157|NCT01183312|164965234|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.89
82625158|NCT01183312|164965235|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Wilcoxon Signed Rank (paired)|||||||0.13
82625159|NCT04491240|164965241|SUPERIORITY||Mean Difference (Net)|73.29|STANDARD_DEVIATION|82.91404||0.020875|TWO_SIDED|95.0|13.97687|132.6031|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||132.6031|13.97687|0.020875
82625160|NCT04491240|164965241|SUPERIORITY||Mean Difference (Net)|69.56|STANDARD_DEVIATION|45.67648||0.000953|TWO_SIDED|95.0|36.88502|102.235|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||102.2350|36.88502|0.000953
82625161|NCT04491240|164965241|SUPERIORITY||Mean Difference (Net)|53.21|STANDARD_DEVIATION|39.85531||0.002233|TWO_SIDED|95.0|24.69923|81.72077|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||81.72077|24.69923|0.002233
82625162|NCT04491240|164965242|SUPERIORITY||Mean Difference (Net)|331.52|STANDARD_DEVIATION|315.823||0.008948|TWO_SIDED|95.0|105.5938|557.4462|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||557.4462|105.5938|0.008948
82625163|NCT04491240|164965242|SUPERIORITY||Mean Difference (Net)|366.63|STANDARD_DEVIATION|414.9726||0.020921|TWO_SIDED|95.0|69.77651|663.4835|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||663.4835|69.77651|0.020921
82625164|NCT04491240|164965242|SUPERIORITY||Mean Difference (Net)|239.2|STANDARD_DEVIATION|204.0934||0.004873|TWO_SIDED|95.0|93.20037|385.1996|||t-test, 2 sided|||The study results were statistically processed using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of inhalation and after were compared using the T-test for depended group criterion, data between the main group and the control group were compared using the non-parametric method, box-plot. The data in the table presented as a Mean with full range (min-max). The difference calculated as Mean difference with 95% confidence interval and Standard Deviation (SD)||385.1996|93.20037|0.004873
82563895|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.2|||||TWO_SIDED|95.0|-4.1|3.6|||||Treatment comparison between placebo and Nemiralisib 50 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.6|-4.1|
82625165|NCT03549117|164965249|SUPERIORITY||Least square (LS) mean difference|0.15||||0.8142|TWO_SIDED|95.0|-1.14|1.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||1.45|-1.14|0.8142
82625166|NCT03549117|164965249|SUPERIORITY||LS mean difference|-0.7||||0.369|TWO_SIDED|95.0|-2.23|0.84||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep Time Problems.||0.84|-2.23|0.3690
82625167|NCT03549117|164965249|SUPERIORITY||LS mean difference|-0.18||||0.7995|TWO_SIDED|95.0|-1.61|1.25||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline; between treatment 95% CI.|Treatment comparison of NRQLQ between active and placebo strip group for Symptoms on Waking in the Morning.||1.25|-1.61|0.7995
82625168|NCT03549117|164965249|SUPERIORITY||LS mean difference|0.15||||0.7285|TWO_SIDED|95.0|-0.69|0.98||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Practical Problems.||0.98|-0.69|0.7285
82625169|NCT03549117|164965250|SUPERIORITY||LS mean difference|-0.18||||0.7961|TWO_SIDED|95.0|-1.52|1.17||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||1.17|-1.52|0.7961
82625170|NCT03549117|164965250|SUPERIORITY||LS mean difference|-0.86||||0.271|TWO_SIDED|95.0|-2.41|0.68||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep time problems.||0.68|-2.41|0.2710
82625171|NCT03549117|164965250|SUPERIORITY||LS mean difference|-0.07||||0.9236|TWO_SIDED|95.0|-1.6|1.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for symptoms on waking in the morning.||1.45|-1.60|0.9236
82625172|NCT03549117|164965250|SUPERIORITY||LS mean difference|-0.05||||0.8756|TWO_SIDED|95.0|-0.87|0.75||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for practical problems.||0.75|-0.87|0.8756
82625173|NCT03549117|164965251|SUPERIORITY||LS mean difference|0.02||||0.9314|TWO_SIDED|95.0|-0.38|0.42||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.42|-0.38|0.9314
82625174|NCT03549117|164965251|SUPERIORITY||LS mean difference|-0.05||||0.8005|TWO_SIDED|95.0|-0.45|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.35|-0.45|0.8005
82625175|NCT03549117|164965251|SUPERIORITY||LS mean difference|0.01||||0.9613|TWO_SIDED|95.0|-0.38|0.4||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.40|-0.38|0.9613
82625176|NCT03549117|164965251|SUPERIORITY||LS mean difference|-0.14||||0.4966|TWO_SIDED|95.0|-0.54|0.26||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.26|-0.54|0.4966
82625177|NCT03549117|164965252|SUPERIORITY||LS mean difference|0.03||||0.8775|TWO_SIDED|95.0|-0.39|0.45||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.45|-0.39|0.8775
82625178|NCT03549117|164965252|SUPERIORITY||LS mean difference|-0.06||||0.7747|TWO_SIDED|95.0|-0.47|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.35|-0.47|0.7747
82625179|NCT03549117|164965252|SUPERIORITY||LS mean difference|0.04||||0.8535|TWO_SIDED|95.0|-0.39|0.47||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.47|-0.39|0.8535
82441689|NCT00098722|164592018|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.42|||<|0.0001|TWO_SIDED|95.0|3.13|9.39|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||9.39|3.13|<0.0001
82625180|NCT03549117|164965252|SUPERIORITY||LS mean difference|-0.06||||0.772|TWO_SIDED|95.0|-0.47|0.35||Between treatment p-values.|ANCOVA|From ANCOVA model, baseline used as a covariate and site as a factor in the model.|Difference between treatments of LS mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.35|-0.47|0.7720
82625181|NCT03549117|164965253|SUPERIORITY|||||||0.9258|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.9258
82625182|NCT03549117|164965253|SUPERIORITY|||||||0.2368|||||||Chi-squared|P-value are based on chi-square test.||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.2368
82625183|NCT03549117|164965253|SUPERIORITY|||||||0.4432|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.4432
82441690|NCT00098722|164592018|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.29|7.0|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.00|2.29|<0.0001
82625184|NCT03549117|164965253|SUPERIORITY|||||||0.9856|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.9856
82625185|NCT03549117|164965253|SUPERIORITY|||||||0.7854|||||||Chi-squared|P-value are based on chi-square test.||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.7854
82625186|NCT03549117|164965253|SUPERIORITY|||||||0.4141|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.4141
82625187|NCT03549117|164965253|SUPERIORITY|||||||0.3028|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.3028
82625188|NCT03549117|164965253|SUPERIORITY|||||||0.3955|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.3955
82625189|NCT03549117|164965254|SUPERIORITY|||||||0.3826|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.3826
82625190|NCT03549117|164965254|SUPERIORITY|||||||0.6251|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.6251
82625191|NCT03549117|164965254|SUPERIORITY|||||||0.2381|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.2381
82625192|NCT03549117|164965254|SUPERIORITY|||||||0.4245|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.4245
82625193|NCT03549117|164965254|SUPERIORITY|||||||0.8213|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.8213
82625194|NCT03549117|164965254|SUPERIORITY|||||||0.1823|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.1823
82625195|NCT03549117|164965254|SUPERIORITY|||||||0.7744|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.7744
82441691|NCT00098722|164592018|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.08|||<|0.0001|TWO_SIDED|95.0|2.91|8.89|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.89|2.91|<0.0001
82441692|NCT00098722|164592019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55|||<|0.0001|TWO_SIDED|95.0|1.95|6.48|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.48|1.95|<0.0001
82502129|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2221||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.2221
82625196|NCT03549117|164965254|SUPERIORITY|||||||0.5811|||||||Chi-squared|P-value are based on chi-square test||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.5811
82625197|NCT00605072|164965309|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||p-value for between group comparison (group\*visit)|Mixed Models Analysis|Adjusted for baseline AGE and Mini-Mental-State-Examination||||||0.008
82625198|NCT00605072|164965310|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Mixed Models Analysis|adjusted for age||||||0.74
82625199|NCT00605072|164965311|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Mixed Models Analysis|Adjusted for age at baseline||||||0.81
82625200|NCT00605072|164965312|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Mixed Models Analysis|||||||0.87
82625201|NCT00605072|164965313|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Mixed Models Analysis|||||||0.79
82625202|NCT01938001|164965314|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.34|0.62|||Log Rank|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).|Hazard ratio and its confidence interval (CI) were estimated from Cox proportional hazard model adjusting for the stratification factors noted above.|||0.62|0.34|< 0.0001
82625203|NCT01938001|164965315|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||0.0006
82625204|NCT01938001|164965316|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.37|0.95||||||Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||0.95|0.37|
82625205|NCT01938001|164965317|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||< 0.0001
82625206|NCT01938001|164965318|SUPERIORITY||||||=|0.001|||||||Cochran-Mantel-Haenszel|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||||= 0.0010
82625207|NCT01938001|164965319|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0015|TWO_SIDED|95.0|0.36|0.79|||Log Rank|||||0.79|0.36|0.0015
82625208|NCT01938001|164965320|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.2993|TWO_SIDED|95.0|0.32|1.43|||Log Rank|||||1.43|0.32|0.2993
82625209|NCT01938001|164965321|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Stratified Log-Rank Test|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).|Hazard ratio and its CI were estimated from Cox proportional hazard model adjusting for the stratification factors noted above.|||0.67|0.38|< 0.0001
82625210|NCT01938001|164965322|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.39|0.71|||Stratified Log Rank Test|Stratified by 3 factors: previous rituximab treatment, time since last antilymphoma therapy (≤ 2, \> 2 years), and disease histology (FL, MZL).||||0.71|0.39|<0.0001
82625211|NCT01569087|164965324|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
82625212|NCT02293902|164965330|SUPERIORITY||Odds Ratio (OR)|12.185|||<|0.0001|TWO_SIDED|95.0|5.583|26.594||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test stratified by prior biologic use (Yes, No) and weight at screening (\<55 kg, \>=55 kg).|Placebo vs. Sarilumab 150 mg|26.594|5.583|<0.0001
82625213|NCT02293902|164965330|SUPERIORITY||Odds Ratio (OR)|7.227|||<|0.0001|TWO_SIDED|95.0|3.446|15.158||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using CMH test stratified by prior biologic use (Yes, No) and weight at screening (\<55 kg, \>=55 kg).|Placebo vs. Sarilumab 200 mg|15.158|3.446|<0.0001
82625214|NCT03170258|164965381|OTHER|||||||0.0015|||||||t-test, 2 sided|One-sample 2-sided t-test against a mean of 0 used to evaluate the main effect of VTA activation during neurofeedback.||||||0.0015
82625215|NCT03170258|164965382|OTHER||||||>|0.1|||||||t-test, 1 sided|One-sample t-test against 0 for the ratio of Beta to Theta power.||||||>0.10
82625216|NCT02707601|164965400|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
82625217|NCT02707601|164965400|SUPERIORITY|||||||0.042||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.042
82625218|NCT02707601|164965401|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
82625219|NCT02707601|164965401|SUPERIORITY|||||||0.002||||||The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 88%.|Binomial test|||||||0.002
82625220|NCT02707601|164965402|OTHER||Difference in Percentages|0.0||||1|TWO_SIDED|95.0|-6.1|6.1|||Fisher exact test||The differences in percentages of participants between treatment groups and their 95% confidence intervals (CIs) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||6.1|-6.1|1.00
82625221|NCT01391468|164965423|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82625222|NCT01391468|164965424|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.744
82625223|NCT01391468|164965425|SUPERIORITY_OR_OTHER|||||||0.0042|TWO_SIDED|||||Only the probiotics group arrived at the reported p-value after 6 months|Wilcoxon (Mann-Whitney)|||||||0.0042
82625224|NCT01391468|164965426|SUPERIORITY_OR_OTHER|||||||0.0099|TWO_SIDED|||||Only the probiotics group arrived at the reported p-value after 6 months|Wilcoxon (Mann-Whitney)|||||||0.0099
82625225|NCT01783470|164965434|EQUIVALENCE|All p values presented are two tailed. p values \< 0.05 were considered to indicate statistical significance for the primary outcome.||||||0.001|||||||Wilcoxon sign-ranks test|||Since the sample size of twelve subjects limited the ability to demonstrate that measurements were normally distributed, we used the non-parametric Wilcoxon sign-ranks test to assess the primary and secondary endpoints. All p values presented are two tailed. p values \< 0.05 were considered to indicate statistical significance for the primary outcome.||||0.001
82625226|NCT00247273|164965436|NON_INFERIORITY_OR_EQUIVALENCE|In order to establish noninferiority for the primary efficacy variable at one-sided α of 2.5% with 90% power, a total of 1068 patients, 534 per treatment group, is required. This calculation is based on the following assumptions: the noninferiority margin (or delta) = 1.5%, the common SD (standard deviation) of the percent change from baseline in lumbar spine BMD at Month 12 = 4.5%, the 1 year dropout rate = 20%, and the true mean difference μD - μM = 0.5%.|Least Square (LS) Mean Difference|-0.115|||||TWO_SIDED|95.0|-0.505|0.274|||ANOVA|Fixed effects for treatment and pooled center||||0.274|-0.505|
82625227|NCT00247273|164965437|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.076|||||TWO_SIDED|95.0|-0.475|0.323|||ANOVA|Fixed effects for treatment and pooled center.||||0.323|-0.475|
82625228|NCT00247273|164965438|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0005|||||TWO_SIDED|95.0|-0.0035|0.0024|||ANOVA|Fixed effects for treatment and pooled center.||||0.0024|-0.0035|
82625229|NCT00247273|164965439|NON_INFERIORITY_OR_EQUIVALENCE|The estimates of the common SD, dropout rate at month 24 and true difference are also based on previous risedronate Phase III studies (RVN008993, RVE009093, ROE009394, HMR4003E/3001).|LS Mean Difference|-0.239|||||TWO_SIDED|95.0|-0.727|0.249|||ANOVA|Fixed effects for treatment and pooled centers.||The sample size of 1068 patients will provide approximately 90% power to demonstrate the noninferiority of the monthly regimen at month 24, using a 2% noninferiority margin and assuming a common SD of the percent change from baseline in lumbar spine BMD at month 24 of 5%, a 2-year dropout rate of 30%, and a true mean difference (uDaily-uMonthly) of 0.8%.||0.249|-0.727|
82625230|NCT00247273|164965440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.085|||||TWO_SIDED|95.0|-0.609|0.439|||ANOVA|Fixed Effects for treatment \& pooled center||||0.439|-0.609|
82625231|NCT00247273|164965441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0009|||||TWO_SIDED|95.0|-0.0048|0.0029|||ANOVA|Fixed effects for treatment and pooled center.||||0.0029|-0.0048|
82625232|NCT00247273|164965442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|-2.83|3.28|||ANOVA|Fixed effects for treatment and pooled center.||||3.28|-2.83|
82625233|NCT00247273|164965443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57|||||TWO_SIDED|95.0|-4.47|1.33|||ANOVA|Fixed effects for treatment and pooled center||||1.33|-4.47|
82625234|NCT00247273|164965444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.54|4.53|||ANOVA|Fixed effects for treatment and pooled center||||4.53|-2.54|
82625235|NCT00247273|164965445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.83|||||TWO_SIDED|95.0|-6.45|0.8|||ANOVA|Fixed effects for treatment and pooled center.||||0.80|-6.45|
82625236|NCT00247273|164965446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.05|0.0|||ANOVA|Fixed effects for treatment and pooled center||||0.00|-0.05|
82625237|NCT00247273|164965447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-7.98|-0.36|||ANOVA|Fixed effects for treatment and pooled center||||-0.36|-7.98|
82625238|NCT00247273|164965448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.01|||ANOVA|Fixed effects for treatment and pooled center||||0.01|-0.06|
82625239|NCT00247273|164965449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69|||||TWO_SIDED|95.0|-12.04|0.66|||ANOVA|Fixed effects for treatment and pooled center||||0.66|-12.04|
82625240|NCT00247273|164965450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.29|0.64|||ANOVA|Fixed effects for treatment and pooled center||||0.64|-0.29|
82625241|NCT00247273|164965451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31|||||TWO_SIDED|95.0|-0.85|3.48|||ANOVA|Fixed effects for treatment and pooled center||||3.48|-0.85|
82625242|NCT00247273|164965452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.45|0.7|||ANOVA|Fixed effects for treatment and pooled center||||0.70|-0.45|
82625243|NCT00247273|164965453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-3.96|2.43|||ANOVA|Fixed effects for treatment and pooled center||||2.43|-3.96|
82625244|NCT00247273|164965454|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||1|TWO_SIDED|95.0|0.36|2.54|||Fisher Exact|||||2.54|0.36|1.0000
82625245|NCT00247273|164965455|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98||||1|TWO_SIDED|95.0|0.47|2.03|||Fisher Exact|||||2.03|0.47|1.0000
82625246|NCT00607919|164965489|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82625247|NCT00527072|164965567|SUPERIORITY_OR_OTHER||Proportion|0.654||||0.05|TWO_SIDED|95.0|0.586|0.718|||exact binomial distribution|||null hypothesis H0: proportion = 0.30||0.718|0.586|0.05
82625248|NCT00527072|164965568|SUPERIORITY_OR_OTHER||proportion|0.791||||0.05|TWO_SIDED|95.0|0.73|0.844|||exact binomial distribution|||||0.844|0.730|0.05
82625249|NCT00527072|164965569|SUPERIORITY_OR_OTHER||proportion|0.646||||0.05|TWO_SIDED|95.0|0.577|0.711|||exact binomial distribution|||||0.711|0.577|0.05
82625250|NCT02007252|164965570|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.1037|||||||ANCOVA|||Month 3||||= 0.1037
82625251|NCT02007252|164965570|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.4806|||||||ANCOVA|||Month 12||||= 0.4806
82625252|NCT02657434|164965571|OTHER|Unstratified Analysis|Hazard Ratio, log|0.562|||<|0.0001|TWO_SIDED|95.0|0.471|0.671|||Log Rank|||||0.671|0.471|<0.0001
82502130|NCT00312494|164695077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5665||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, and treatment by visit interaction.||||0.5665
82625253|NCT02657434|164965572|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.866||||0.1559|TWO_SIDED|95.0|0.709|1.056|||Log Rank|||||1.056|0.709|0.1559
82625254|NCT02657434|164965572|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.864||||0.1546|TWO_SIDED|95.0|0.707|1.056|||Log Rank|||||1.056|0.707|0.1546
82625255|NCT02657434|164965573|SUPERIORITY||Difference in event free rate|4.68||||0.2606|TWO_SIDED|95.0|-3.47|12.83|||z test|||||12.83|-3.47|0.2606
82625256|NCT02657434|164965574|SUPERIORITY||Difference in Event Free Rate|5.12||||0.209|TWO_SIDED|95.0|-2.87|13.11|||Z-test|||||13.11|-2.87|0.2090
82625257|NCT02657434|164965575|SUPERIORITY||Difference in response rate|14.3||||0.0005|TWO_SIDED|95.0|5.9|22.7|||Cochran-Mantel-Haenszel|||||22.7|5.9|0.0005
82625258|NCT02657434|164965576|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0024|TWO_SIDED|95.0|0.45|0.85|||Log Rank|||||0.85|0.45|0.0024
82625259|NCT00511108|164965588|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.7||||0.002||95.0|-48.7|-10.6|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and baseline value as a covariate||||-10.6|-48.7|0.002
82625260|NCT00511108|164965589|SUPERIORITY_OR_OTHER||Geometric Mean Difference|73.8|||<|0.001||95.0|44.2|104.4|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and log-scaled baseline value as a covariate|The outcome was analyzed by ANCOVA on the log scale. Results have been back-transformed to the original scale.|||104.4|44.2|<0.001
82625261|NCT00511108|164965590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-407.8|||<|0.001||95.0|-513.4|-302.1|||ANCOVA|Model terms: treatment, prior diabetes pharmacotherapy (yes or no), and baseline value as a covariate||||-302.1|-513.4|<0.001
82625262|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for RVR at Week 4.||||0.000
82625263|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Regression, Linear|||Binary logistic regression for gender at Week 4.||||0.018
82625264|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for liver fibrosis at Week 4.||||0.062
82625265|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for HCV genotype at Week 4.||||0.050
82625266|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for height at Week 4.||||0.001
82625267|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for treatment duration at Week 4.||||0.001
82625268|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for EVR at Week 12.||||0.037
82625269|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for gender at Week 12.||||0.018
82625270|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for liver fibrosis at Week 12.||||0.092
82625271|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for height at Week 12.||||0.001
82625272|NCT01392742|164965625|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Regression, Logistic|||Binary logistic regression for treatment duration at Week 12.||||0.042
82625273|NCT01628393|164965663|SUPERIORITY||||||<|0.0001||||||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.04944 level of significance to keep the overall level of significance at 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625274|NCT01628393|164965663|SUPERIORITY||||||<|0.0001||||||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.04944 level of significance to keep the overall level of significance at 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625275|NCT01628393|164965664|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625276|NCT01628393|164965664|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625277|NCT01628393|164965665|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625278|NCT01628393|164965665|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon-Mann-Whitney test stratified by absence or presence of gadolinium-enhancing lesions at Baseline.||||||<0.0001
82625279|NCT01628393|164965666|SUPERIORITY||Rate Ratio|0.47||||0.0531|TWO_SIDED|95.0|0.22|1.01|||Poisson regression model|Adjusted for region, the number of relapses within 24 months prior to the study, and the absence or presence of GdE lesions at Baseline.|Rate ratio = Ozanimod / Placebo|||1.01|0.22|0.0531
82625280|NCT01628393|164965666|SUPERIORITY||Rate Ratio|0.69||||0.2714|TWO_SIDED|95.0|0.36|1.34|||Poisson regression model|Adjusted for region, the number of relapses within 24 months prior to the study, and the absence or presence of GdE lesions at Baseline.|Rate ratio = Ozanimod / Placebo|||1.34|0.36|0.2714
82625281|NCT01989754|164965673|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.57|0.73|||Cox proportional hazard method|||||0.73|0.57|<.0001
82441693|NCT00098722|164592019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.0005|TWO_SIDED|95.0|1.59|5.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odd ratio \>1 favors maraviroc.||5.23|1.59|0.0005
82441694|NCT00098722|164592019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.26|7.92|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.92|2.26|<0.0001
82625282|NCT01989754|164965674|SUPERIORITY||Hazard Ratio (HR)|0.72|||=|0.0148|TWO_SIDED|95.0|0.55|0.94|||Stratified Cox proportional hazard|||||0.94|0.55|=0.0148
82625283|NCT01989754|164965675|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.4067|TWO_SIDED|95.0|0.61|1.22|||Stratified Cox proportional hazard|||||1.22|0.61|=0.4067
82625284|NCT03037307|164965726|OTHER||Least square (LS) mean difference|2.76|||<|0.0001|TWO_SIDED|95.0|1.89|3.63||Treatment Comparison for study validity.|ANCOVA|ANCOVA: factors for participant (random effect); period \& treatment, participant-level \& period-level pre-treatment baseline bite force as covariates.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||3.63|1.89|<.0001
82625285|NCT03037307|164965727|OTHER||Least Square (LS) mean difference|2.12|||<|0.0001|TWO_SIDED|95.0|1.25|3.0|||ANCOVA|ANCOVA: factors for participant (random effect); period \& treatment, participant-level \& period-level pre-treatment baseline bite force as covariates|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||3.00|1.25|<.0001
82625286|NCT00047853|164965752|OTHER||||||<|0.001|||||||ANOVA|||||||< 0.001
82625287|NCT00047853|164965753|OTHER|||||||9.3e-05|||||||t-test, 2 sided|||||||0.000093
82625288|NCT00305604|164965779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.81|<|0.001||95.0|-0.94|-0.47|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-0.47|-0.94|<0.001
82625289|NCT00305604|164965780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.8|STANDARD_DEVIATION|45.0|<|0.001||95.0|-40.0|-13.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-13.5|-40.0|<0.001
82625290|NCT00305604|164965781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.0|STANDARD_DEVIATION|63.0|<|0.001||95.0|-82.1|-40.0|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-40.0|-82.1|<0.001
82625291|NCT00305604|164965782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.5|STANDARD_DEVIATION|25.2|<|0.001||95.0|-32.6|-14.4|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy (yes/no); age (\< 75/\>= 75 yr); baseline creatinine clearance (\< 50/\>= 50 mL/min)||||-14.4|-32.6|<0.001
82625292|NCT00753623|164965786|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82625293|NCT03332303|164965787|EQUIVALENCE|If the 90% confidence interval (calculated using Yates' continuity correction) on the absolute difference between the proportion of patients identified as Responders in the Test and Reference groups (pT - pR) is contained within the range \[-20%, +20%\] then therapeutic equivalence of the Test product to the Reference product was considered to have been demonstrated.|Mean Difference (Final Values)|-5.1|||||TWO_SIDED|90.0|-13.0|2.8||||||Therapeutic equivalence was evaluated for both primary and secondary endpoints in the per-protocol (PP) population.||2.8|-13.0|
82441695|NCT00098722|164592019|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.2|7.64|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.64|2.20|<0.0001
82625294|NCT03332303|164965787|SUPERIORITY||% Difference|23.4|||<|0.0001|TWO_SIDED|||||The a priori threshold for statistical significance is p \< 0.05.|Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the primary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||<0.0001
82625295|NCT03332303|164965787|SUPERIORITY||% Difference|28.7|||<|0.0001|TWO_SIDED|||||The a priori threshold for statistical significance is p \< 0.05.|Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the primary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||<0.0001
82625296|NCT03332303|164965788|EQUIVALENCE|If the 90% confidence interval (calculated using Yates' continuity correction) on the absolute difference between the proportion of patients identified as Treatment Successes in the Test and Reference groups (pT - pR) is contained within the range \[-20%, +20%\] then therapeutic equivalence of the Test product to the Reference product was considered to have been demonstrated.|Mean Difference (Final Values)|-2.0|||||TWO_SIDED|90.0|-10.7|6.7||||||Therapeutic equivalence was evaluated for both primary and secondary endpoints in the per-protocol (PP) population.||6.7|-10.7|
82625297|NCT03332303|164965788|SUPERIORITY|To conclude superiority of the Test product over Placebo, the proportion of Treatment Successes in the Test product group must be numerically and statistically superior to that of the Placebo (p \< 0.05; using a two-sided Cochran-Mantel-Haenszel \[CMH\] test).|% Difference|-0.8||||0.8068|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the secondary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||0.8068
82625298|NCT03332303|164965788|SUPERIORITY|To conclude superiority of the Reference product over Placebo, the proportion of Treatment Successes in the Reference product group must be numerically and statistically superior to that of the Placebo (p \< 0.05; using a two-sided Cochran-Mantel-Haenszel \[CMH\] test).|% Difference|1.8||||0.8003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Superiority of the Test and Reference products against the Placebo product for the secondary endpoint was evaluated in the modified Intent-to-Treat (mITT) population using last observation carried forward (LOCF).||||0.8003
82625299|NCT00435994|164965826|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||0.0020
82625300|NCT00435994|164965827|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||.0020
82625301|NCT01230749|164965878|SUPERIORITY_OR_OTHER||Difference in LSM|-27.4||||0.006|TWO_SIDED|95.0|-46.792|-8.008|||ANCOVA|||||-8.008|-46.792|0.006
82625302|NCT01230749|164965878|SUPERIORITY_OR_OTHER||Difference in LSM|-20.47||||0.038|TWO_SIDED|95.0|-39.801|-1.142|||ANCOVA|||||-1.142|-39.801|0.038
82625303|NCT01230749|164965878|SUPERIORITY_OR_OTHER||Difference in LSM|-13.24||||0.178|TWO_SIDED|95.0|-32.635|6.151|||ANCOVA|||||6.151|-32.635|0.178
82625304|NCT01230749|164965879|SUPERIORITY_OR_OTHER||Difference in LSM|-28.28||||0.005|TWO_SIDED|95.0|-47.606|-8.957|||ANCOVA|||||-8.957|-47.606|0.005
82625305|NCT01230749|164965879|SUPERIORITY_OR_OTHER||Difference in LSM|-21.97||||0.025|TWO_SIDED|95.0|-41.154|-2.786|||ANCOVA|||||-2.786|-41.154|0.025
82625306|NCT01230749|164965879|SUPERIORITY_OR_OTHER||Difference in LSM|-17.71||||0.069|TWO_SIDED|95.0|-36.86|1.431|||ANCOVA|||||1.431|-36.860|0.069
82625307|NCT01230749|164965880|SUPERIORITY_OR_OTHER||Difference in LSM|2.76||||0.628|TWO_SIDED|95.0|-8.542|14.054|||ANCOVA|||||14.054|-8.542|0.628
82625308|NCT01230749|164965880|SUPERIORITY_OR_OTHER||Difference in LSM|13.7||||0.018|TWO_SIDED|95.0|2.392|25.008|||ANCOVA|||||25.008|2.392|0.018
82625309|NCT01230749|164965880|SUPERIORITY_OR_OTHER||Difference in LSM|5.87||||0.303|TWO_SIDED|95.0|-5.417|17.148|||ANCOVA|||||17.148|-5.417|0.303
82625310|NCT01230749|164965881|SUPERIORITY_OR_OTHER||Difference in LSM|-1.86||||0.041|TWO_SIDED|95.0|-3.634|-0.082|||ANCOVA|||||-0.082|-3.634|0.041
82625311|NCT01230749|164965881|SUPERIORITY_OR_OTHER||Difference in LSM|-0.26||||0.769|TWO_SIDED|95.0|-2.033|1.509|||ANCOVA|||||1.509|-2.033|0.769
82625312|NCT01230749|164965881|SUPERIORITY_OR_OTHER||Difference in LSM|-0.69||||0.444|TWO_SIDED|95.0|-2.463|1.091|||ANCOVA|||||1.091|-2.463|0.444
82625313|NCT01230749|164965882|SUPERIORITY_OR_OTHER||GMR mulitplied by 100 percent|95.1||||0.774|TWO_SIDED|90.0|71.031|127.324|||ANCOVA|||||127.324|71.031|0.774
82625314|NCT01230749|164965882|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|89.9||||0.555|TWO_SIDED|90.0|66.567|121.403|||ANCOVA|||||121.403|66.567|0.555
82625315|NCT01230749|164965883|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|100.17||||0.968|TWO_SIDED|90.0|93.217|107.647|||ANCOVA|||||107.647|93.217|0.968
82625316|NCT01230749|164965883|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|101.18||||0.785|TWO_SIDED|90.0|94.179|108.7|||ANCOVA|||||108.700|94.179|0.785
82625317|NCT01230749|164965884|SUPERIORITY_OR_OTHER||GMR multiplied by 100 percent|133.27||||0.097|TWO_SIDED|90.0|100.275|177.115|||ANCOVA|||||177.115|100.275|0.097
82625318|NCT01230749|164965884|SUPERIORITY_OR_OTHER||GMR mulitplied by 100 percent|101.82||||0.917|TWO_SIDED|90.0|76.26|135.942|||ANCOVA|||||135.942|76.260|0.917
82625319|NCT01230749|164965885|SUPERIORITY_OR_OTHER||Difference in LSM|0.46||||0.295|TWO_SIDED|95.0|-0.408|1.323|||ANCOVA|||||1.323|-0.408|0.295
82625320|NCT01230749|164965885|SUPERIORITY_OR_OTHER||Difference in LSM|0.03||||0.941|TWO_SIDED|95.0|-0.838|0.904|||ANCOVA|||||0.904|-0.838|0.941
82625321|NCT01230749|164965885|SUPERIORITY_OR_OTHER||Difference in LSM|1.02||||0.022|TWO_SIDED|95.0|0.15|1.892|||ANCOVA|||||1.892|0.150|0.022
82625322|NCT00107172|164965886|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.01||||0.98|TWO_SIDED|95.0|0.51|1.98|||Log Rank|Competing risk P-value = 0.91.||The competing risk analysis accounting for death/regional and distant recurrence as competing events was performed.||1.98|0.51|0.98
82625323|NCT00107172|164965887|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.07||||0.75|TWO_SIDED|95.0|0.71|1.61|||Log Rank|||||1.61|0.71|0.75
82625324|NCT00107172|164965892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ adverse events incidence reported from day 0 to 30 between arms.||||0.37
82625325|NCT00107172|164965892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ adverse events incidence reported from day 0 to 90 between arms.||||0.25
82625326|NCT00107172|164965893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ respiratory adverse events incidence reported from day 0 to 30 between arms.||||0.35
82625327|NCT00107172|164965893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|TWO_SIDED||||||Fisher Exact|||Compare the grade 3+ respiratory adverse events incidence reported from day 0 to 90 between arms.||||0.31
82441696|NCT00098722|164592021|SUPERIORITY_OR_OTHER||LS mean difference|47.94|STANDARD_ERROR_OF_MEAN|13.383|||TWO_SIDED|95.0|21.64|74.25||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||74.25|21.64|
82441697|NCT00098722|164592021|SUPERIORITY_OR_OTHER||LS mean difference|38.12|STANDARD_ERROR_OF_MEAN|13.313|||TWO_SIDED|95.0|11.96|64.28||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||64.28|11.96|
82625328|NCT00107172|164965896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR arm.||||0.03
82625329|NCT00107172|164965896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR + BX arm.||||0.18
82625330|NCT00107172|164965897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR arm.||||0.38
82625331|NCT00107172|164965897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||Wilcoxon Signed Rank|||Compare the percentage change from baseline to 3-month value for SR + BX arm.||||0.16
82625332|NCT02688153|164965898|SUPERIORITY||Median Difference (Final Values)|-4.5||||0.366|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3660
82625333|NCT02688153|164965899|SUPERIORITY||Median Difference (Final Values)|2.0||||0.8377|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8377
82625334|NCT03706040|164965929|SUPERIORITY||Adjusted Difference|13.0||||0.084|TWO_SIDED|95.0|-1.7|27.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||27.7|-1.7|0.084
82625335|NCT03706040|164965929|SUPERIORITY||Adjusted Difference|10.0||||0.179|TWO_SIDED|95.0|-4.6|24.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.6|-4.6|0.179
82625336|NCT03706040|164965930|SUPERIORITY||Adjusted Difference|8.7||||0.129|TWO_SIDED|95.0|-2.5|20.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||20.0|-2.5|0.129
82625337|NCT03706040|164965930|SUPERIORITY||Adjusted Difference|0.0||||0.994|TWO_SIDED|95.0|-9.4|9.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||9.4|-9.4|0.994
82625338|NCT03706040|164965931|SUPERIORITY||Adjusted Difference|13.7||||0.001|TWO_SIDED|95.0|5.4|22.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||22.1|5.4|0.001
82625339|NCT03706040|164965931|SUPERIORITY||Adjusted Difference|15.3|||<|0.001|TWO_SIDED|95.0|6.6|24.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.0|6.6|<0.001
82625340|NCT03706040|164965932|SUPERIORITY||Least Squares (LS) Mean Difference|-10.32|STANDARD_ERROR_OF_MEAN|11.073||0.353|TWO_SIDED|95.0|-32.25|11.61|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||11.61|-32.25|0.353
82625341|NCT03706040|164965932|SUPERIORITY||LS Mean Difference|-16.86|STANDARD_ERROR_OF_MEAN|11.305||0.139|TWO_SIDED|95.0|-39.24|5.53|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||5.53|-39.24|0.139
82625342|NCT03706040|164965935|SUPERIORITY||Adjusted Difference|12.9||||0.171|TWO_SIDED|95.0|-5.6|31.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||31.4|-5.6|0.171
82625343|NCT03706040|164965935|SUPERIORITY||Adjusted Difference|5.7||||0.552|TWO_SIDED|95.0|-13.1|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.5|-13.1|0.552
82625344|NCT03706040|164965937|SUPERIORITY||Adjusted Difference|11.6||||0.022|TWO_SIDED|95.0|1.7|21.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||21.6|1.7|0.022
82625345|NCT03706040|164965937|SUPERIORITY||Adjusted Difference|5.8||||0.192|TWO_SIDED|95.0|-2.9|14.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||14.4|-2.9|0.192
82625346|NCT03706040|164965940|SUPERIORITY||LS Mean Difference|-6.24|STANDARD_ERROR_OF_MEAN|4.506||0.169|TWO_SIDED|95.0|-15.15|2.68|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||2.68|-15.15|0.169
82625347|NCT03706040|164965940|SUPERIORITY||LS Mean Difference|-5.86|STANDARD_ERROR_OF_MEAN|4.589||0.204|TWO_SIDED|95.0|-14.94|3.22|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||3.22|-14.94|0.204
82625348|NCT03706040|164965942|SUPERIORITY||Adjusted Difference|6.7||||0.422|TWO_SIDED|95.0|-9.7|23.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||23.1|-9.7|0.422
82625349|NCT03706040|164965942|SUPERIORITY||Adjusted Difference|-5.2||||0.505|TWO_SIDED|95.0|-20.3|10.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||10.0|-20.3|0.505
82625350|NCT03706040|164965944|SUPERIORITY||Adjusted Difference|10.1||||0.005|TWO_SIDED|95.0|3.0|17.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||17.3|3.0|0.005
82625351|NCT03706040|164965944|SUPERIORITY||Adjusted Difference|2.9||||0.151|TWO_SIDED|95.0|-1.1|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||6.8|-1.1|0.151
82625352|NCT03706040|164965946|SUPERIORITY||Adjusted Difference|5.9||||0.035|TWO_SIDED|95.0|0.4|11.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||11.3|0.4|0.035
82625353|NCT03706040|164965946|SUPERIORITY||Adjusted Difference|1.5||||0.311|TWO_SIDED|95.0|-1.4|4.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||4.4|-1.4|0.311
82625354|NCT03706040|164965948|SUPERIORITY||Adjusted Difference|-0.3||||0.965|TWO_SIDED|95.0|-12.0|11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||11.5|-12.0|0.965
82625355|NCT03706040|164965948|SUPERIORITY||Adjusted Difference|-3.1||||0.583|TWO_SIDED|95.0|-14.3|8.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||8.1|-14.3|0.583
82625356|NCT03706040|164965952|SUPERIORITY||Adjusted Difference|5.9||||0.539|TWO_SIDED|95.0|-13.0|24.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||24.9|-13.0|0.539
82625357|NCT03706040|164965952|SUPERIORITY||Adjusted Difference|12.2||||0.213|TWO_SIDED|95.0|-7.0|31.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline disease severity (moderate \[vIGA-AD 3\] versus severe \[vIGA-AD 4\]).|Between Group Difference = Risankizumab - Placebo|||31.5|-7.0|0.213
82625358|NCT03706040|164965954|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.82||0.988|TWO_SIDED|95.0|-3.6|3.6|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||3.6|-3.6|0.988
82625359|NCT03706040|164965954|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.86||0.594|TWO_SIDED|95.0|-4.7|2.7|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||2.7|-4.7|0.594
82625360|NCT03706040|164965958|SUPERIORITY||LS Mean Difference|-1.318|STANDARD_ERROR_OF_MEAN|0.6137||0.033|TWO_SIDED|95.0|-2.531|-0.105|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||-0.105|-2.531|0.033
82625361|NCT03706040|164965958|SUPERIORITY||LS Mean Difference|-1.648|STANDARD_ERROR_OF_MEAN|0.626||0.009|TWO_SIDED|95.0|-2.885|-0.411|||Mixed Effect Model Repeated Measurement|MMRM analysis with treatment, visit, treatment-by-visit interaction, vIGA-AD categories (moderate vs severe) and Baseline value in the model.|Between Group Difference = Risankizumab - Placebo|||-0.411|-2.885|0.009
82625362|NCT00439725|164965963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.185|STANDARD_ERROR_OF_MEAN|0.3858|<|0.0001||95.0|0.087|0.393||1st test in a hierarchy, a p-value of less than 0.05 would be considered significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing).||0.393|0.087|< 0.0001
82502131|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1063||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 total score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS total score.||||0.1063
82502132|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2499||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 total score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS total score.||||0.2499
82625363|NCT00439725|164965964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.18|STANDARD_ERROR_OF_MEAN|0.385|<|0.0001||95.0|0.085|0.383||2nd test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the 1st test in hierarchy was significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.383|0.085|< 0.0001
82625364|NCT00439725|164965965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.198|STANDARD_ERROR_OF_MEAN|0.3659|<|0.0001||95.0|0.096|0.405||3rd test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the previous tests in hierarchy were significant|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.405|0.096|< 0.0001
82625365|NCT00439725|164965966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.278|STANDARD_ERROR_OF_MEAN|0.3274|<|0.0001||95.0|0.146|0.528||4th test in a hierarchy, a p-value of less than 0.05 would be considered significant. If the previous tests in hierarchy were significant|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing).||0.528|0.146|< 0.0001
82625366|NCT00439725|164965969|SUPERIORITY_OR_OTHER|||||||0.1121||||||No adjustment for multiple comparison.|Log Rank|||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing), comparison was done for the treatment emergent (within two days after end of treatment) bleeding events.||||0.1121
82625367|NCT00439725|164965970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.185|STANDARD_ERROR_OF_MEAN|0.4131|<|0.0001||95.0|2.307|11.652||No adjustment for multiple comparison, a p-value of less than 0.05 would be considered significant.|Regression, Cox|Stratified by intended treatment duration, adjusted for pre-treatment done for treatment-emergent (time window: 2 days)||The rivaroxaban to comparator hazard ratio was computed with a 95% CI (two-sided testing), comparison was done for the treatment emergent (within two days after end of treatment) bleeding events.||11.652|2.307|< 0.0001
82625368|NCT04038385|164966056|SUPERIORITY||Mean Difference (Net)|-42.87||||0.001|TWO_SIDED|95.0|-65.25|-20.49|||Mixed Models Analysis|||||-20.49|-65.25|0.001
82625369|NCT04038385|164966057|SUPERIORITY||Median Difference (Net)|23.91||||0.031|TWO_SIDED|95.0|2.21|45.62|||Mixed Models Analysis|||||45.62|2.21|0.031
82625370|NCT04038385|164966058|SUPERIORITY||Median Difference (Net)|-0.06||||0.662|TWO_SIDED|95.0|-0.33|0.21|||Mixed Models Analysis|||||0.21|-0.33|0.662
82625371|NCT04038385|164966059|SUPERIORITY||Mean Difference (Net)|0.28||||0.047|TWO_SIDED|95.0|0.0|0.55|||Mixed Models Analysis|||||0.55|0.00|0.047
82625372|NCT04038385|164966060|SUPERIORITY||Odds Ratio (OR)|17.39|||<|0.01|TWO_SIDED|95.0|8.64|35.02|||Regression, Logistic|||||35.02|8.64|<0.01
82625373|NCT04038385|164966061|SUPERIORITY||Odds Ratio (OR)|3.9||||0.056|TWO_SIDED|95.0|1.0|16.1|||Mixed Models Analysis|||||16.1|1.0|0.056
82625374|NCT04038385|164966062|SUPERIORITY||Odds Ratio (OR)|4.0||||0.05|TWO_SIDED|95.0|1.0|16.3|||Mixed Models Analysis|||||16.3|1.0|0.050
82625375|NCT04038385|164966063|SUPERIORITY||Mean Difference (Net)|-1.7||||0.001|TWO_SIDED|95.0|-2.5|-1.0|||Mixed Models Analysis|||||-1.0|-2.5|0.001
82625376|NCT04038385|164966064|SUPERIORITY||Median Difference (Net)|-0.7||||0.082|TWO_SIDED|95.0|-1.4|0.1|||Mixed Models Analysis|||||0.1|-1.4|0.082
82441698|NCT00098722|164592021|SUPERIORITY_OR_OTHER||LS mean difference|52.15|STANDARD_ERROR_OF_MEAN|14.803|||TWO_SIDED|95.0|23.06|81.25||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||81.25|23.06|
82563896|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-2.3|||||TWO_SIDED|95.0|-6.1|1.8|||||Treatment comparison between placebo and Nemiralisib 100 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||1.8|-6.1|
82625377|NCT04038385|164966065|SUPERIORITY||Mean Difference (Net)|-1.5||||0.001|TWO_SIDED|95.0|-2.2|-0.8|||Mixed Models Analysis|||||-0.8|-2.2|0.001
82625378|NCT04038385|164966066|SUPERIORITY||Median Difference (Net)|-0.7||||0.039|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|||||-0.0|-1.4|0.039
82625379|NCT04038385|164966067|SUPERIORITY||Mean Difference (Net)|0.0||||0.962|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.962
82625380|NCT04038385|164966068|SUPERIORITY||Mean Difference (Net)|-0.2||||0.277|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|.277
82625381|NCT04038385|164966069|SUPERIORITY||Median Difference (Net)|-0.4||||0.155|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis|||||0.2|-1.0|0.155
82625382|NCT04038385|164966070|SUPERIORITY||Mean Difference (Net)|0.1||||0.74|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||||0.7|-0.5|0.740
82625383|NCT04038385|164966071|SUPERIORITY||Median Difference (Net)|-0.2||||0.122|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|.122
82625384|NCT04038385|164966072|SUPERIORITY||Mean Difference (Net)|-0.2||||0.177|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|.177
82625385|NCT04038385|164966073|SUPERIORITY||Median Difference (Net)|0.1||||0.514|TWO_SIDED|95.0|-0.3|0.5|||Mixed Models Analysis|||||0.5|-0.3|0.514
82625386|NCT04038385|164966074|SUPERIORITY||Median Difference (Net)|0.2||||0.335|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.335
82625387|NCT04038385|164966075|SUPERIORITY||Mean Difference (Net)|0.1||||0.75|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||||0.6|-0.4|0.750
82625388|NCT04038385|164966076|SUPERIORITY||Mean Difference (Net)|-0.2||||0.455|TWO_SIDED|95.0|-0.7|0.3|||Mixed Models Analysis|||||0.3|-0.7|0.455
82625389|NCT04038385|164966077|SUPERIORITY||Mean Difference (Net)|0.9||||0.053|TWO_SIDED|95.0|0.0|1.8|||Mixed Models Analysis|||||1.8|-0.0|0.053
82625390|NCT04038385|164966078|SUPERIORITY||Mean Difference (Net)|0.0||||0.986|TWO_SIDED|95.0|-0.9|0.9|||Mixed Models Analysis|||||0.9|-0.9|.986
82625391|NCT04038385|164966079|SUPERIORITY||Odds Ratio (OR)|1.1||||0.81|TWO_SIDED|95.0|0.6|2.2|||Mixed Models Analysis|||||2.2|0.6|0.810
82625392|NCT04038385|164966080|SUPERIORITY||Odds Ratio (OR)|0.8||||0.591|TWO_SIDED|95.0|0.4|1.7|||Mixed Models Analysis|||||1.7|0.4|0.591
82441699|NCT00098722|164592021|SUPERIORITY_OR_OTHER||LS mean difference|58.46|STANDARD_ERROR_OF_MEAN|14.725|||TWO_SIDED|95.0|29.53|87.4||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||87.40|29.53|
82563897|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-1.8|||||TWO_SIDED|95.0|-5.7|2.3|||||Treatment comparison between placebo and Nemiralisib 250 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||2.3|-5.7|
82625393|NCT00810043|164966101|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Anterior vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.430
82625394|NCT00810043|164966101|SUPERIORITY_OR_OTHER|||||||0.643|||||||t-test, 2 sided|||Middle vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.643
82625395|NCT00810043|164966101|SUPERIORITY_OR_OTHER|||||||0.165|||||||t-test, 2 sided|||Posterior vertebral body height restoration as a percent (Post-procedure change from baseline)||||0.165
82625396|NCT00810043|164966102|SUPERIORITY_OR_OTHER|||||||0.402|||||||t-test, 2 sided|||Anterior VBH restored||||0.402
82625397|NCT00810043|164966102|SUPERIORITY_OR_OTHER|||||||0.578|||||||t-test, 2 sided|||Middle VBH restored||||0.578
82625398|NCT00810043|164966102|SUPERIORITY_OR_OTHER|||||||0.166|||||||t-test, 2 sided|||Posterior VBH restored||||0.166
82625399|NCT00810043|164966104|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||Anterior VBH gained by postural reduction||||0.900
82625400|NCT00810043|164966104|SUPERIORITY_OR_OTHER|||||||0.62|||||||t-test, 2 sided|||Middle VBH gained by postural reduction||||0.620
82625401|NCT00810043|164966104|SUPERIORITY_OR_OTHER|||||||0.349|||||||t-test, 2 sided|||Posterior VBH gained by postural reduction||||0.349
82625402|NCT00810043|164966105|SUPERIORITY_OR_OTHER|||||||0.889|||||||t-test, 2 sided|||||||0.889
82625403|NCT00810043|164966106|SUPERIORITY_OR_OTHER|||||||0.486|||||||t-test, 2 sided|||||||0.486
82625404|NCT00810043|164966107|SUPERIORITY_OR_OTHER|||||||0.144|||||||t-test, 2 sided|||||||0.144
82625405|NCT00810043|164966108|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.360
82625406|NCT02001688|164966109|SUPERIORITY|||||||0.0005||||||One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance|Wilcoxon (Mann-Whitney)|||||||0.0005
82625407|NCT02001688|164966109|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.020
82625408|NCT02001688|164966109|SUPERIORITY|||||||0.0192|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.0192
82625409|NCT02001688|164966110|SUPERIORITY|||||||0.0005||||||One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance|Wilcoxon (Mann-Whitney)|p-value of Stratified Wilcoxon test||||||0.0005
82625410|NCT02001688|164966110|SUPERIORITY|||||||0.0193|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.0193
82625411|NCT02001688|164966110|SUPERIORITY|||||||0.2485|||||||Wilcoxon (Mann-Whitney)|One-sided test was used for antigenic and functional AAT levels to maintain overall 2.5% level of significance||||||0.2485
82625412|NCT02001688|164966111|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|p-value of Kruskal-Wallis test (3 groups: Kamada-AAT for Inhalation, 80mg,Kamada-AAT for Inhalation, 160mg and placebo)||||||<0.0001
82563898|NCT03345407|164836980|OTHER||Posterior adjusted median difference|-0.3|||||TWO_SIDED|95.0|-4.5|3.8|||||Treatment comparison between placebo and Nemiralisib 500 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||3.8|-4.5|
82625413|NCT02001688|164966112|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|p-value of Kruskal-Wallis test (3 groups: Kamada-AAT for Inhalation, 80mg, Kamada-AAT for Inhalation, 160mg and placebo)||||||<0.0001
82625414|NCT02864706|164966122|SUPERIORITY|||||||0.0043|||||||ANCOVA|Incidence of CAV at 5-7 yrs was compared between groups using Cochran-Mantel-Haenszel test with stratification according to baseline distribution||||||0.0043
82625415|NCT02864706|164966123|SUPERIORITY|||||||0.037|||||||Cochran-Mantel-Haenszel|||||||0.037
82625416|NCT03051217|164966130|SUPERIORITY||Estimated difference in responder rate|65.1|||||TWO_SIDED|95.0|48.22|81.9|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||81.90|48.22|
82625417|NCT03051217|164966130|SUPERIORITY||Estimated difference in responder rate|79.1|||||TWO_SIDED|95.0|65.1|93.17|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||93.17|65.10|
82625418|NCT03051217|164966130|SUPERIORITY||Odds Ratio (OR)|31.695|||<|0.0001|TWO_SIDED|97.5|5.129|195.877||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||195.877|5.129|<0.0001
82625419|NCT03051217|164966130|SUPERIORITY||Odds Ratio (OR)|79.112|||<|0.0001|TWO_SIDED|97.5|11.739|533.168||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||533.168|11.739|<0.0001
82625420|NCT03051217|164966131|SUPERIORITY||Estimated difference in responder rate|52.7|||||TWO_SIDED|95.0|29.95|75.39|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||75.39|29.95|
82625421|NCT03051217|164966131|SUPERIORITY||Estimated difference in responder rate|66.7|||||TWO_SIDED|95.0|43.34|90.15|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||90.15|43.34|
82625422|NCT03051217|164966131|SUPERIORITY||Odds Ratio (OR)|38.193|||<|0.0001|TWO_SIDED|97.5|6.113|238.619||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||238.619|6.113|<0.0001
82625423|NCT03051217|164966131|SUPERIORITY||Odds Ratio (OR)|69.58|||<|0.0001|TWO_SIDED|97.5|11.138|434.659||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||434.659|11.138|<0.0001
82625424|NCT03051217|164966132|SUPERIORITY||Estimated difference in responder rate|53.6|||||TWO_SIDED|95.0|30.67|76.47|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||76.47|30.67|
82625425|NCT03051217|164966132|SUPERIORITY||Estimated difference in responder rate|75.5|||||TWO_SIDED|95.0|51.95|99.04|||Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.|The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||99.04|51.95|
82625426|NCT03051217|164966132|SUPERIORITY||Odds Ratio (OR)|38.696|||<|0.0001|TWO_SIDED|97.5|6.047|247.634||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||247.634|6.047|<0.0001
82441700|NCT00098722|164592022|SUPERIORITY_OR_OTHER||LS mean difference|218.57|STANDARD_ERROR_OF_MEAN|71.225|||TWO_SIDED|95.0|78.59|358.54||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||358.54|78.59|
82625427|NCT03051217|164966132|SUPERIORITY||Odds Ratio (OR)|100.459|||<|0.0001|TWO_SIDED|97.5|15.54|649.437||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|If there is a group without a responder, in this case the biological exposure will be excluded from the model, an exact logistic regression applied.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||649.437|15.540|<0.0001
82625428|NCT03051217|164966133|SUPERIORITY||Adjusted Mean Treatment Difference|-6.5|||<|0.0001|TWO_SIDED|97.5|-9.1|-3.844||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group and prior biologic exposure as factors and Baseline DLQI score as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.844|-9.100|<0.0001
82625429|NCT03051217|164966133|SUPERIORITY||Adjusted Mean Treatment Difference|-6.5|||<|0.0001|TWO_SIDED|97.5|-9.099|-3.91||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group and prior biologic exposure as factors and Baseline DLQI score as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.910|-9.099|<0.0001
82625430|NCT03051217|164966134|SUPERIORITY||Adjusted Mean Treatment Difference|-3.1|||<|0.0001|TWO_SIDED|95.0|-4.265|-2.002||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline Itch NRS with treatment group and prior biologic exposure as factors and Baseline Itch NRS as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-2.002|-4.265|<0.0001
82625431|NCT03051217|164966134|SUPERIORITY||Adjusted Mean Treatment Difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.295|-3.069||p-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline Itch NRS with treatment group and prior biologic exposure as factors and Baseline Itch NRS as a covariate.||The primary and secondary efficacy endpoints were evaluated using a fixed-sequence testing procedure to account for multiplicity.||-3.069|-5.295|<0.0001
82625432|NCT00109772|164966148|SUPERIORITY_OR_OTHER|||||||0.894||95.0|||||Cochran-Mantel-Haenszel|controlled for centers||||||.8940
82625433|NCT05441540|164966169|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82625434|NCT05441540|164966170|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82625435|NCT05441540|164966171|OTHER|||||||0.7613|||||||Kruskal-Wallis|||||||0.7613
82625436|NCT05441540|164966172|OTHER|||||||0.764|||||||Wilcoxon (Mann-Whitney)|||||||0.7640
82625437|NCT00813917|164966173|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||For this randomized phase II we used a one sided test with a false positive(type I error)rate of 0.20 to assess whether additional studies of the experimental arm are warranted.|Chi-squared|1 sided||Data were compared between treatment groups using Chi Square test.||||0.126
82625438|NCT01359046|164966174|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
82625439|NCT01359046|164966175|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82625440|NCT03364491|164966182|SUPERIORITY|Model included treatment and preoperative hemoglobin level \<8 g/dL (yes/no) as covariates. We estimated that a total sample size of 11,000 participants (5,500 per group) would achieve 85% power to detect a 33% lower incidence of the primary outcome (1.67%) in the TXA group, at a type I error rate (two-sided) of 5%.|Risk Ratio (RR)|0.89||||0.19|TWO_SIDED|95.26|0.74|1.07||Following two interim analyses, a two-tailed P value of less than 0.047 was considered to indicate statistical significance.|Other (Log-binomial regression model)|||||1.07|0.74|0.19
82625441|NCT04539262|164966199|SUPERIORITY||Least Square Mean Difference by Day 7|-0.66|STANDARD_ERROR_OF_MEAN|0.4||0.1117|TWO_SIDED|95.0|-1.49|0.16||Least square (LS) Mean, Standard Error (SE), 95% CI and p-value were from Analysis of covariance (ANCOVA) with baseline viral load as a covariate.|ANCOVA|||||0.16|-1.49|0.1117
82625442|NCT04539262|164966199|SUPERIORITY||LS Mean Difference by Day 7|-0.35|STANDARD_ERROR_OF_MEAN|0.4||0.3793|TWO_SIDED|95.0|-1.16|0.46||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.46|-1.16|0.3793
82625443|NCT04539262|164966199|SUPERIORITY||LS Mean Difference by Day 7|-0.24|STANDARD_ERROR_OF_MEAN|0.37||0.5248|TWO_SIDED|95.0|-1.0|0.52||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate|ANCOVA|||||0.52|-1.00|0.5248
82625444|NCT04539262|164966199|SUPERIORITY||LS Mean Difference by Day 7|-0.25|STANDARD_ERROR_OF_MEAN|0.34||0.461|TWO_SIDED|95.0|-0.94|0.44|||ANCOVA|LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate||||0.44|-0.94|0.4610
82625445|NCT04539262|164966199|SUPERIORITY||LS Mean Difference by Day 7|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5006|TWO_SIDED|95.0|-0.4|0.81||LS Mean (SE), 95% CI and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.81|-0.40|0.5006
82625446|NCT04539262|164966200|SUPERIORITY||LS Mean Difference by Day 7|0.33|STANDARD_ERROR_OF_MEAN|0.34||0.3417|TWO_SIDED|95.0|-0.37|1.02||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||1.02|-0.37|0.3417
82625447|NCT04539262|164966200|SUPERIORITY||LS Mean Difference by Day 7|0.49|STANDARD_ERROR_OF_MEAN|0.35||0.1803|TWO_SIDED|95.0|-0.24|1.21||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||1.21|-0.24|0.1803
82625448|NCT04539262|164966200|SUPERIORITY||LS Mean Difference by Day 7|-0.55|STANDARD_ERROR_OF_MEAN|0.35||0.1233|TWO_SIDED|95.0|-1.27|0.16||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.16|-1.27|0.1233
82625449|NCT04539262|164966200|SUPERIORITY||LS Mean Difference by Day 7|0.08|STANDARD_ERROR_OF_MEAN|0.35||0.8203|TWO_SIDED|95.0|-0.64|0.8||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.80|-0.64|0.8203
82625450|NCT04539262|164966200|SUPERIORITY||LS Mean Difference by Day 7|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.6458|TWO_SIDED|95.0|-0.65|0.41||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.41|-0.65|0.6458
82625451|NCT04539262|164966201|SUPERIORITY||LS Mean Difference by Day 7|-0.22|STANDARD_ERROR_OF_MEAN|0.4||0.5951|TWO_SIDED|95.0|-1.05|0.61||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.61|-1.05|0.5951
82441701|NCT00098722|164592022|SUPERIORITY_OR_OTHER||LS mean difference|133.22|STANDARD_ERROR_OF_MEAN|70.855|||TWO_SIDED|95.0|-6.03|272.47||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||272.47|-6.03|
82441702|NCT00098722|164592022|SUPERIORITY_OR_OTHER||LS mean difference|136.93|STANDARD_ERROR_OF_MEAN|57.85|||TWO_SIDED|95.0|23.24|250.62||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||250.62|23.24|
82625452|NCT04539262|164966201|SUPERIORITY|LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|LS Mean Difference by Day 7|-0.71|STANDARD_ERROR_OF_MEAN|0.4||0.0872|TWO_SIDED|95.0|-1.54|0.11|||ANCOVA|||||0.11|-1.54|0.0872
82625453|NCT04539262|164966201|SUPERIORITY||LS Mean Difference by Day 7|-0.19|STANDARD_ERROR_OF_MEAN|0.36||0.6031|TWO_SIDED|95.0|-0.94|0.56||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.56|-0.94|0.6031
82625454|NCT04539262|164966201|SUPERIORITY||LS Mean Difference by Day 7|0.12|STANDARD_ERROR_OF_MEAN|0.37||0.7578|TWO_SIDED|95.0|-0.64|0.87||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.87|-0.64|0.7578
82625455|NCT04539262|164966201|SUPERIORITY||LS Mean Difference by Day 7|0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8846|TWO_SIDED|95.0|-0.48|0.56||LS Mean (SE), 95% CI, and p-value were from ANCOVA with baseline viral load as a covariate.|ANCOVA|||||0.56|-0.48|0.8846
82625456|NCT00294684|164966318|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14||||0.43|TWO_SIDED|95.0|0.83|1.57|||Log binomial|||RR greater than one indicates benefit of steriods and a P value of treatment success from a log-binomial model with these covariates: Treatment group, age a HPE, BASM as fixed effects, and site as a random effect.||1.57|0.83|0.43
82625457|NCT00294684|164966319|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.6|1.8|||Regression, Cox|||||1.8|0.6|0.99
82625458|NCT00294684|164966320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6||||0.0973|TWO_SIDED|95.0|-3.49|0.3|||Mixed Models Analysis|||LS Mean difference reported as steroid minus placebo (negative values mean larger average values of total bilirubin in placebo).||0.3|-3.49|0.0973
82625459|NCT00294684|164966321|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.3||||0.0552|TWO_SIDED|95.0|-4.65|0.05|||Mixed Models Analysis|||LS Mean difference of steroid minus placebo (negative values indicate larger average values of bilirubin in placebo)||0.05|-4.65|0.0552
82625460|NCT00294684|164966322|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.39||||0.6607||95.0|-2.16|1.38|||Mixed Models Analysis|||LS Mean difference of steroid minus placebo (negative values indicate larger average bilirubin in placebo)||1.38|-2.16|0.6607
82625461|NCT00294684|164966323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1603|||||||Mixed Models Analysis|||||||0.1603
82625462|NCT00294684|164966324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2801|||||||Mixed Models Analysis|||||||0.2801
82625463|NCT00294684|164966325|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.4||||0.41|TWO_SIDED|95.0|0.62|3.14|||Log Binomial|||||3.14|0.62|0.41
82625464|NCT00294684|164966326|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.3||||0.29|TWO_SIDED|95.0|0.03|2.92|||Log Binomial|||||2.92|0.03|0.29
82625465|NCT02443805|164966335|SUPERIORITY||||||<|0.0001||||||Source Model: Type III effects Covariates: Treatment group, Gender, Age Class, Sensitization Status, Asthma Status, Pooled Center, Baseline Average RTSS.|ANCOVA|||||||<0.0001
82625466|NCT00968708|164966338|NON_INFERIORITY_OR_EQUIVALENCE|If after accrual of 550 participants with MACE events, the upper bound of a 1-sided repeated CI for the hazard ratio (alogliptin to placebo) was \<1.0, superiority of alogliptin to placebo for the primary MACE composite would be concluded. If the upper bound of the 1-sided repeated CI for the hazard ratio of the primary MACE composite was \<1.3 but ≥1.0 then non-inferiority but not superiority of alogliptin to placebo was to be concluded.|Hazard Ratio (HR)|0.962||||0.315|ONE_SIDED|97.5||1.16|||Cox proportional hazards|||Statistical analyses of the primary MACE composite endpoint was based on sequences of 1-sided repeated confidence intervals (CIs) to assess non-inferiority or statistical superiority with respect to the null hypotheses. Each sequence of repeated CIs was constructed using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%. Each sequence of 1-sided repeated CIs had a simultaneous coverage probability of 97.5%.||1.160||0.315
82625467|NCT00968708|164966338|NON_INFERIORITY_OR_EQUIVALENCE|If after accrual of 550 participants with MACE events, the upper bound of a 1-sided repeated CI for the hazard ratio (alogliptin to placebo) was \<1.0, superiority of alogliptin to placebo for the primary MACE composite would be concluded. If the upper bound of the 1-sided repeated CI for the hazard ratio of the primary MACE composite was \<1.3 but ≥1.0 then non-inferiority but not superiority of alogliptin to placebo was to be concluded.|Hazard Ratio (HR)|0.965||||0.332|ONE_SIDED|97.5||1.169||Stratified by endpoint renal function (defined as the last observed postbaseline renal function (normal renal function/mild renal impairment vs moderate/severe renal impairment including end-stage renal disease)) and geographic region.|Cox proportional hazards|||Stratified by endpoint renal function and geographic region||1.169||0.332
82441703|NCT00098722|164592022|SUPERIORITY_OR_OTHER||LS mean difference|140.25|STANDARD_ERROR_OF_MEAN|57.55|||TWO_SIDED|95.0|27.15|253.35||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||253.35|27.15|
82441704|NCT00098722|164592023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.29|0.56|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.56|0.29|<0.0001
82625468|NCT00968708|164966339|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the confidence interval for the primary MACE composite was \<1.0, then statistical superiority of alogliptin to placebo for the secondary MACE composite would be demonstrated.|Hazard Ratio (HR)|0.952|||||ONE_SIDED|97.5||1.135||||||||1.135||
82625469|NCT01515488|164966359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.3|STANDARD_ERROR_OF_MEAN|5.2|<|0.0005|TWO_SIDED|95.0|22.1|42.6|||t-test, 2 sided|DF=331.2||||42.6|22.1|<0.0005
82625470|NCT00861380|164966396|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN3+1 vs Control). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster- related effect.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|82.8|100.0||P-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 =(vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||100|82.8|<0.0001
82625471|NCT00861380|164966397|SUPERIORITY|VE (defined as 1 minus Relative Risk (RR)) was calculated by comparing numbers of culture-confirmed IPD. The number of subjects with IPD in each cluster was compared between groups (10PN2+1vsControl). This comparison was done using a negative binomial log-linear model with correction for dispersion group- and cluster- related effect.|VE (1-RR)|91.8|||=|0.0009|TWO_SIDED|95.0|58.3|99.6||p-value was calculated using a classical log linear Poisson regression with strata, without taking into account the multiplicity of the endpoints.|Regression, Linear|||Analysis aimed at providing an estimate of vaccine effectiveness (VE) at preventing culture-confirmed IPD by comparing PYARs between groups taking into account the following parameters: T, n, n+ (number of clusters with at least one event culture-confirmed ID), and n/T. VE of the 10Pn vaccine in preventing culture-confirmed IPD due to the 10 vaccine serotypes was demonstrated if the 2-sided p-value calculated for the null hypothesis H0 = (vaccine-type \[VT\] IPD VE = 0%) was lower than (\<) 5%.||99.6|58.3|= 0.0009
82625472|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|14.657|||||TWO_SIDED|95.0|13.229|16.197|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||16.197|13.229|
82625473|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|13.582|||||TWO_SIDED|95.0|11.691|15.693|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||15.693|11.691|
82625474|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|8.452|||||TWO_SIDED|95.0|7.376|9.639|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||9.639|7.376|
82639426|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|113.0||||0.9511|TWO_SIDED|95.0|64.7|197.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||197|64.7|0.9511
82563899|NCT03345407|164836980|OTHER||Posterior adjusted median difference|1.2|||||TWO_SIDED|95.0|-1.7|4.0|||||Treatment comparison between placebo and Nemiralisib 750 mcg at Day 84 was performed and posterior adjusted median difference and 95% HPD CrI has been presented.|||4.0|-1.7|
82563900|NCT00065611|164836995|SUPERIORITY_OR_OTHER|||||||0.9074||95.0|||||Chi-squared|||||||0.9074
82625475|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|7.603|||||TWO_SIDED|95.0|6.206|9.221|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.221|6.206|
82625476|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 2626735.|PYAR|1.637|||||TWO_SIDED|95.0|1.185|2.205|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||2.205|1.185|
82625477|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons = 1354702.|PYAR|1.845|||||TWO_SIDED|95.0|1.194|2.724|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.724|1.194|
82625478|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as . 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons = 2626735.|PYAR|3.997|||||TWO_SIDED|95.0|3.269|4.839|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||4.839|3.269|
82625479|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons = 1354702.|PYAR|3.322|||||TWO_SIDED|95.0|2.423|4.445|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||4.445|2.423|
82625480|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|14.487|||||TWO_SIDED|95.0|13.071|16.015|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||16.015|13.071|
82625481|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|13.74|||||TWO_SIDED|95.0|11.841|15.857|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||15.857|11.841|
82563901|NCT00065611|164836996|SUPERIORITY_OR_OTHER|||||||0.4566||95.0|||||ANOVA|||||||0.4566
82625482|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|7.813|||||TWO_SIDED|95.0|6.782|8.955|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||8.955|6.782|
82625483|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|7.789|||||TWO_SIDED|95.0|6.377|9.42|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.420|6.377|
82625484|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|2.313|||||TWO_SIDED|95.0|1.77|2.972|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||2.972|1.770|
82625485|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|1.984|||||TWO_SIDED|95.0|1.307|2.886|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.886|1.307|
82639427|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||1|TWO_SIDED|95.0|60.4|170.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||170|60.4|1.0000
82441705|NCT00098722|164592023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.23|0.46|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.46|0.23|<0.0001
82441706|NCT00098722|164592024|SUPERIORITY_OR_OTHER||LS mean difference|-0.876|STANDARD_ERROR_OF_MEAN|0.1534|||TWO_SIDED|95.0|-1.177|-0.575||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.575|-1.177|
82441707|NCT00098722|164592024|SUPERIORITY_OR_OTHER||LS mean difference|-0.882|STANDARD_ERROR_OF_MEAN|0.1521|||TWO_SIDED|95.0|-1.181|-0.584||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.584|-1.181|
82441708|NCT00098722|164592024|SUPERIORITY_OR_OTHER||LS mean difference|-0.855|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-1.189|-0.521||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.521|-1.189|
82441709|NCT00098722|164592024|SUPERIORITY_OR_OTHER||LS mean difference|-1.033|STANDARD_ERROR_OF_MEAN|0.1685|||TWO_SIDED|95.0|-1.364|-0.701||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.701|-1.364|
82441710|NCT02351349|164592038|OTHER|paired t test pre compared to post readings||||||0.0143|||||||t-test, 2 sided|||||||0.0143
82502133|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0876||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 positive score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS positive score.||||0.0876
82563902|NCT00065611|164836997|SUPERIORITY_OR_OTHER|||||||0.3792||95.0|||||ANOVA|||||||0.3792
82563903|NCT01358175|164837013|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.2|6.42|||Regression, Logistic|||||6.42|2.20|<0.0001
82441711|NCT02351349|164592039|OTHER|as above||||||0.1416|||||||t-test, 2 sided|||pre and post comparison of time up and go in intervention group||||0.1416
82441712|NCT02351349|164592040|OTHER|||||||0.9013|||||||t-test, 2 sided|||pre and post value comparison with paired t test was carried out||||0.9013
82441713|NCT02583230|164592048|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was used to evaluate the change in PHQ-9 total scores over the eight-week study period.||||||.0005
82441714|NCT02583230|164592049|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was used to evaluate the change in QIDS total scores over the eight-week study period.||||||.0008
82441715|NCT01340937|164592050|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the Geometric Mean Concentration (GMC) ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.91|||||TWO_SIDED|95.0|0.77|1.08|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.08|0.77|
82563904|NCT01358175|164837013|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.89|||<|0.0001|TWO_SIDED|95.0|2.28|6.65|||Regression, Logistic|||||6.65|2.28|<0.0001
82563905|NCT02469155|164837031|SUPERIORITY||Least Squares Mean Difference|0.1||||0.972|TWO_SIDED|95.0|-3.39|3.51|||Mixed Models for Repeated Measure|||||3.51|-3.39|0.972
82563906|NCT02469155|164837031|SUPERIORITY||Least Squares Mean Difference|0.5||||0.789|TWO_SIDED|95.0|-2.92|3.84|||Mixed Effects Model for Repeated Measure|||||3.84|-2.92|0.789
82563907|NCT03014726|164837034|OTHER|Recurrence \< 0.5 as defined by an IPSS score of less than or equal to 11. The performance goal is met if the upper limit of the one-sided 95% confidence interval for recurrence is less than 50%.|||||<|0.001|||||||1-sample binomial z-test|||||||<0.001
82563908|NCT00901459|164837035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|0.44||0.014|TWO_SIDED|95.0|0.51|2.43||A Holm correction to p values was made to control for type 1 error.|t-test, 2 sided|df=14|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 10Hz sfg condition (Frequency control)and the corresponding craving change in the 1Hz sfg condition (active).|A pairwise t-test was performed to contrast the active rTMS condition with the frequency control condition.||2.43|0.51|0.014
82563909|NCT00901459|164837035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.4||0.49|TWO_SIDED|95.0|-0.64|1.22|||t-test, 2 sided|df=13|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 1Hz sfg condition (active)and the corresponding craving change in the 1Hz moc condition (location control).|A pairwise t-test was performed to contrast the active rTMS condition with the location control condition.||1.22|-0.64|0.49
82563910|NCT00901459|164837035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|0.44||0.09|TWO_SIDED|95.0|0.52|1.39||A Holm correction to p values was made to control for type 1 error.|t-test, 2 sided|df=13|The parameter estimated is the difference in craving change between smoking cues and neutral cues in the 10Hz sfg condition (frequency control)and the corresponding craving change in the 1Hz moc condition (location control).|A pairwise t-test was performed to contrast the location control rTMS condition with the frequency control condition.||1.39|0.52|0.09
82563911|NCT01989156|164837049|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|12.58|||<|0.001|TWO_SIDED|95.0|9.27|17.05||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS Mean Ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the biomarkers of exposure (BoExp) was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||17.05|9.27|<0.001
82563912|NCT01989156|164837050|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|45.77|||<|0.001|TWO_SIDED|95.0|39.22|53.41||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||53.41|39.22|<0.001
82441716|NCT01340937|164592050|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.86|||||TWO_SIDED|95.0|0.72|1.02|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.02|0.72|
82441717|NCT01340937|164592050|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.94|||||TWO_SIDED|95.0|0.79|1.12|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.12|0.79|
82441718|NCT01340937|164592050|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.63|||<|0.001|TWO_SIDED|95.0|1.35|1.98|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.98|1.35|<0.001
82441719|NCT01340937|164592051|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-0.48|||||TWO_SIDED|95.0|-4.31|3.35|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||3.35|-4.31|
82625486|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model without strata). Total number of non-vaccinated persons =2636783.|PYAR|4.172|||||TWO_SIDED|95.0|3.429|5.028|||Negative Binomial model without strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||5.028|3.429|
82441720|NCT01340937|164592051|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-1.62|||||TWO_SIDED|95.0|-5.38|2.12|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||2.12|-5.38|
82625487|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model without strata). Total number of non-vaccinated persons =1360966.|PYAR|3.968|||||TWO_SIDED|95.0|2.981|5.177|||Negative Binomial model without strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||5.177|2.981|
82625488|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|14.017|||||TWO_SIDED|95.0|12.628|15.516|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||15.516|12.628|
82625489|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|15.066|||||TWO_SIDED|95.0|13.079|17.269|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (any serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||17.269|13.079|
82625490|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|5.916|||||TWO_SIDED|95.0|5.026|6.917|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||6.917|5.026|
82625491|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|8.557|||||TWO_SIDED|95.0|7.077|10.255|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine serotype), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.255|7.077|
82625492|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons =2654010.|PYAR|2.977|||||TWO_SIDED|95.0|2.357|3.71|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||3.710|2.357|
82441721|NCT01340937|164592051|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.16|||||TWO_SIDED|95.0|-4.89|2.58|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|Equivalence for titer \>=1 µg/mL||2.58|-4.89|
82563913|NCT01989156|164837051|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|12.58|||<|0.001|TWO_SIDED|95.0|9.54|16.58||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||16.58|9.54|<0.001
82563914|NCT01989156|164837052|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|26.41|||<|0.001|TWO_SIDED|95.0|17.31|40.26||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on Total NNAL levels with product, sex, cigarette consumption, and baseline value as covariates|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||40.26|17.31|<0.001
82563915|NCT01989156|164837053|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|38.14|||<|0.001|TWO_SIDED|95.0|34.24|42.47||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||42.47|34.24|<0.001
82563916|NCT00850993|164837054|OTHER|Pairwise comparison for each Stannsoporfin treatment group versus placebo.|LS Mean Difference|-13.45|||=|0.04|TWO_SIDED|95.0|-26.27|-0.62|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Least-squares means are from an ANCOVA model for adjusted TSB with treatment and gestational age as fixed effects and baseline adjusted TSB as a covariate. TSB is calculated as \[(TSB - Phototherapy(PT) threshold)/ PT threshold \] X 100%.||-0.62|-26.27|=0.040
82563917|NCT00850993|164837054|OTHER||LS Mean Difference|-10.02|||=|0.117|TWO_SIDED|95.0|-22.61|2.58|||ANCOVA|||||2.58|-22.61|=0.117
82563918|NCT00850993|164837054|OTHER||LS Mean Difference|-14.93|||=|0.057|TWO_SIDED|95.0|-30.31|0.44|||ANCOVA|||||0.44|-30.31|=0.057
82563919|NCT00850993|164837055|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-1.81|||=|0.061|TWO_SIDED|95.0|-3.71|0.09|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||0.09|-3.71|=0.061
82563920|NCT00850993|164837055|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-1.34|||=|0.163|TWO_SIDED|95.0|-3.24|0.56|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||0.56|-3.24|=0.163
82625493|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a classical log linear Poisson regression with strata). Total number of non-vaccinated persons =1367343.|PYAR|2.048|||||TWO_SIDED|95.0|1.361|2.96|||Regression, Linear|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||2.960|1.361|
82625494|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|5.011|||||TWO_SIDED|95.0|4.196|5.939|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||5.939|4.196|
82441722|NCT01340937|164592051|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|7.93|||<|0.001|TWO_SIDED|95.0|3.38|13.17|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=1 µg/mL||13.17|3.38|<0.001
82441723|NCT01340937|164592051|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|2.2|||<|0.001|TWO_SIDED|95.0|0.39|5.12|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=0.15 µg/mL||5.12|0.39|<0.001
82441724|NCT01340937|164592052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.87|||||TWO_SIDED|95.0|0.76|0.98|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.98|0.76|
82441725|NCT01340937|164592052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.85|||||TWO_SIDED|95.0|0.74|0.96|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.74|
82441726|NCT01340937|164592052|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.98|||||TWO_SIDED|95.0|0.86|1.11|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.11|0.86|
82441727|NCT01340937|164592053|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.95|||||TWO_SIDED|95.0|0.84|1.07|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.07|0.84|
82441728|NCT01340937|164592053|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.97|||||TWO_SIDED|95.0|0.86|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.86|
82441729|NCT01340937|164592053|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.02|||||TWO_SIDED|95.0|0.9|1.14|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.14|0.90|
82441730|NCT01340937|164592054|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.97|||||TWO_SIDED|95.0|0.91|1.04|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.04|0.91|
82441731|NCT01340937|164592054|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|1.02|||||TWO_SIDED|95.0|0.95|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.95|
82441732|NCT01340937|164592054|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.05|||||TWO_SIDED|95.0|0.98|1.13|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.13|0.98|
82563921|NCT00850993|164837055|OTHER|Pairwise comparison for Change from Baseline at 48 hours (Row 3) for Stannsoporfin treatment group versus placebo|LS Mean Difference|-2.63|||=|0.028|TWO_SIDED|95.0|-4.97|-0.3|||ANCOVA|||Last Observation Carry Forward (LOCF) is used to impute missing post-baseline TSB. Analysis of covariance (ANCOVA) is conducted for TSB including treatment and gestational age as fixed effects and baseline TSB as a covariate. Least-squares means (LS means) and standard errors (SEM) are estimated for each treatment group and placebo. LS mean difference, 95% Confidence Interval, and p-value are estimated based on LS mean difference between each stannsoporfin group and placebo.||-0.3|-4.97|=0.028
82441733|NCT01340937|164592055|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|1.03|||||TWO_SIDED|95.0|0.96|1.1|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.10|0.96|
82441734|NCT01340937|164592055|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|1.02|||||TWO_SIDED|95.0|0.95|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.95|
82441735|NCT01340937|164592055|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.06|0.92|
82441736|NCT01340937|164592055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.2|||<|0.001|TWO_SIDED|95.0|1.11|1.29|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.29|1.11|<0.001
82441737|NCT01340937|164592056|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.89|||||TWO_SIDED|95.0|0.83|0.96|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.83|
82441738|NCT01340937|164592056|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.78|||||TWO_SIDED|95.0|0.72|0.83|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.83|0.72|
82441739|NCT01340937|164592056|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.87|||||TWO_SIDED|95.0|0.81|0.94|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.94|0.81|
82441740|NCT01340937|164592056|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.67||||0.419|TWO_SIDED|95.0|0.62|0.73|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||0.73|0.62|0.419
82502134|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3623||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 positive score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS positive score.||||0.3623
82625495|NCT00861380|164966401|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a culture confirmed IPD divided by sum of follow-up period expressed in years (per 100000), as well as the 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|4.315|||||TWO_SIDED|95.0|3.285|5.566|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Culture-confirmed IPD (non-vaccine \& non-vaccine related), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||5.566|3.285|
82625496|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2626735.|PYAR|9.218|||||TWO_SIDED|95.0|9.103|9.335|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||9.335|9.103|
82625497|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1354702.|PYAR|9.212|||||TWO_SIDED|95.0|9.052|9.375|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||9.375|9.052|
82625498|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2636783.|PYAR|10.5|||||TWO_SIDED|95.0|10.378|10.624|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||10.624|10.378|
82625499|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1360966.|PYAR|10.429|||||TWO_SIDED|95.0|10.259|10.601|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.601|10.259|
82639428|NCT05664672|164993883|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.5||||0.9003|TWO_SIDED|95.0|50.6|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|50.6|0.9003
82441741|NCT01340937|164592057|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.97|||||TWO_SIDED|95.0|0.87|1.09|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.87|
82502135|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4686||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 negative score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS negative score.||||0.4686
82441742|NCT01340937|164592057|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.93|||||TWO_SIDED|95.0|0.83|1.05|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.05|0.83|
82441743|NCT01340937|164592057|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|0.96|||||TWO_SIDED|95.0|0.85|1.08|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.08|0.85|
82441744|NCT01340937|164592057|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.17|0.90|<0.001
82441745|NCT01340937|164592058|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot B)|0.78|||||TWO_SIDED|95.0|0.72|0.85|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.85|0.72|
82441746|NCT01340937|164592058|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot A/Lot C)|0.8|||||TWO_SIDED|95.0|0.73|0.87|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.87|0.73|
82441747|NCT01340937|164592058|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMC ratio are within the margin 0.67 to 1.5|GMC Ratio (Lot B/Lot C)|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||GMC ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.11|0.93|
82441748|NCT01340937|164592058|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.51|||<|0.001|TWO_SIDED|95.0|1.37|1.66|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Secondary analysis||1.66|1.37|<0.001
82441749|NCT01340937|164592059|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the Geometric Mean Titer (GMT) ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|0.86|||||TWO_SIDED|95.0|0.76|0.96|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.96|0.76|
82441750|NCT01340937|164592059|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|0.88|||||TWO_SIDED|95.0|0.79|0.99|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||0.99|0.79|
82441751|NCT01340937|164592059|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|1.03|||||TWO_SIDED|95.0|0.92|1.15|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.15|0.92|
82441752|NCT01340937|164592060|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|0.94|||||TWO_SIDED|95.0|0.84|1.05|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.05|0.84|
82441753|NCT01340937|164592060|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|0.91|||||TWO_SIDED|95.0|0.82|1.02|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.02|0.82|
82441754|NCT01340937|164592060|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|0.98|||||TWO_SIDED|95.0|0.87|1.09|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.09|0.87|
82441755|NCT01340937|164592061|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot B)|1.06|||||TWO_SIDED|95.0|0.92|1.22|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.22|0.92|
82441756|NCT01340937|164592061|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot A/Lot C)|1.09|||||TWO_SIDED|95.0|0.95|1.26|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.26|0.95|
82441757|NCT01340937|164592061|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% confidence intervals of the GMT ratio are within the margin 0.67 to 1.5|GMT Ratio (Lot B/Lot C)|1.03|||||TWO_SIDED|95.0|0.9|1.19|||||GMT ratio was adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine|||1.19|0.90|
82441758|NCT01340937|164592062|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-0.34|||||TWO_SIDED|95.0|-1.23|0.3|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.30|-1.23|
82441759|NCT01340937|164592062|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-0.34|||||TWO_SIDED|95.0|-1.23|0.32|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.32|-1.23|
82441760|NCT01340937|164592062|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.64|0.66|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.66|-0.64|
82441761|NCT01340937|164592062|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.92|||<|0.001|TWO_SIDED|95.0|0.2|2.9|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.90|0.20|<0.001
82441762|NCT01340937|164592063|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|0.25|||||TWO_SIDED|95.0|-3.74|4.24|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||4.24|-3.74|
82441763|NCT01340937|164592063|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-1.35|||||TWO_SIDED|95.0|-5.26|2.57|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.57|-5.26|
82441764|NCT01340937|164592063|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.64|||||TWO_SIDED|95.0|-5.56|2.28|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.28|-5.56|
82441765|NCT01340937|164592063|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-2.35|||<|0.001|TWO_SIDED|95.0|-6.02|2.09|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.09|-6.02|<0.001
82441766|NCT01340937|164592064|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|-0.16|||||TWO_SIDED|95.0|-0.91|0.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.47|-0.91|
82441767|NCT01340937|164592064|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|-0.16|||||TWO_SIDED|95.0|-0.9|0.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.47|-0.90|
82441768|NCT01340937|164592064|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.63|0.62|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.62|-0.63|
82441769|NCT01340937|164592064|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|1.28|||<|0.001|TWO_SIDED|95.0|0.46|3.33|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.33|0.46|<0.001
82441770|NCT01340937|164592065|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|1.73|||||TWO_SIDED|95.0|0.37|3.4|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||3.40|0.37|
82441771|NCT01340937|164592065|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|0.36|||||TWO_SIDED|95.0|-0.77|1.63|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||1.63|-0.77|
82441772|NCT01340937|164592065|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.36|||||TWO_SIDED|95.0|-3.03|0.15|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.15|-3.03|
82441773|NCT01340937|164592065|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.72|||<|0.001|TWO_SIDED|95.0|-0.59|3.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.14|-0.59|<0.001
82441774|NCT01340937|164592066|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-1.35|||||TWO_SIDED|95.0|-5.17|2.47|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||2.47|-5.17|
82441775|NCT01340937|164592066|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-3.06|||||TWO_SIDED|95.0|-6.79|0.67|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.67|-6.79|
82441776|NCT01340937|164592066|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-1.71|||||TWO_SIDED|95.0|-5.37|1.94|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||1.94|-5.37|
82441777|NCT01340937|164592066|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-4.7|||<|0.001|TWO_SIDED|95.0|-7.73|-0.86|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||-0.86|-7.73|<0.001
82441778|NCT01340937|164592067|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|2.77|||||TWO_SIDED|95.0|-1.83|7.39|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||7.39|-1.83|
82441779|NCT01340937|164592067|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|2.41|||||TWO_SIDED|95.0|-2.21|7.06|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||7.06|-2.21|
82441780|NCT01340937|164592067|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-0.36|||||TWO_SIDED|95.0|-5.14|4.42|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||4.42|-5.14|
82502136|NCT00312494|164695078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2202||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 negative score MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline PANSS negative score.||||0.2202
82563922|NCT00872339|164837099|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
82563923|NCT00872339|164837101|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<.001
82441781|NCT01340937|164592067|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|3.28|||<|0.001|TWO_SIDED|95.0|-1.7|8.85|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||8.85|-1.70|<0.001
82441782|NCT01340937|164592068|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot B)|-4.12|||||TWO_SIDED|95.0|-7.69|-0.63|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||-0.63|-7.69|
82441783|NCT01340937|164592068|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot A - Lot C)|-4.17|||||TWO_SIDED|95.0|-7.75|-0.66|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||-0.66|-7.75|
82441784|NCT01340937|164592068|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -10% and 10%|Response Rate Difference (Lot B - Lot C)|-0.07|||||TWO_SIDED|95.0|-3.32|3.2|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||3.20|-3.32|
82441785|NCT01340937|164592068|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|2.85|||<|0.001|TWO_SIDED|95.0|-0.85|7.36|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||7.36|-0.85|<0.001
82441786|NCT01340937|164592069|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441787|NCT01340937|164592069|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82639429|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|46.4|||<|0.0001|TWO_SIDED|95.0|37.1|58.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||58.0|37.1|<.0001
82441788|NCT01340937|164592069|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441789|NCT01340937|164592069|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.66|||<|0.001|TWO_SIDED|95.0|0.18|2.36|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.36|0.18|<0.001
82441790|NCT01340937|164592070|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441791|NCT01340937|164592070|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.6|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.60|-0.61|
82441792|NCT01340937|164592070|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.6|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.60|-0.61|
82441793|NCT01340937|164592070|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.0|||<|0.001|TWO_SIDED|95.0|-0.2|1.24|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.24|-0.20|<0.001
82441794|NCT01340937|164592071|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot B)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441795|NCT01340937|164592071|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot A - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441796|NCT01340937|164592071|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence requires that the 2-sided 95% Confidence Intervals of the response rate difference are between -5% and 5%|Response Rate Difference (Lot B - Lot C)|0.0|||||TWO_SIDED|95.0|-0.61|0.61|||||Response rate difference was stratified by brand of birth dose of Hepatitis B vaccine|||0.61|-0.61|
82441797|NCT01340937|164592071|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (Comb - Ctrl)|0.33|||<|0.001|TWO_SIDED|95.0|0.05|1.85|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.85|0.05|<0.001
82441798|NCT01340937|164592072|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.07|||<|0.001|TWO_SIDED|95.0|0.98|1.17|||Analysis of Covariance|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.17|0.98|<0.001
82441799|NCT01340937|164592073|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.95|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.95|0.79|<0.001
82441800|NCT01340937|164592074|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.74||||0.035|TWO_SIDED|95.0|0.66|0.83|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.83|0.66|0.035
82441801|NCT01340937|164592075|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.31|||<|0.001|TWO_SIDED|95.0|1.17|1.46|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.46|1.17|<0.001
82441802|NCT01340937|164592076|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|0.12|||<|0.001|TWO_SIDED|95.0|-1.11|2.58|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.58|-1.11|<0.001
82441803|NCT01340937|164592077|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|-0.16|||<|0.001|TWO_SIDED|95.0|-2.41|3.22|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.22|-2.41|<0.001
82441804|NCT01340937|164592078|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|1.15|||<|0.001|TWO_SIDED|95.0|-2.13|5.47|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||5.47|-2.13|<0.001
82441805|NCT01340937|164592079|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (Comb - Ctrl)|3.0|||<|0.001|TWO_SIDED|95.0|-0.39|7.4|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||7.40|-0.39|<0.001
82625500|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =2654010.|PYAR|10.118|||||TWO_SIDED|95.0|9.997|10.239|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||10.239|9.997|
82639430|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|43.1|||<|0.0001|TWO_SIDED|95.0|35.1|52.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||52.9|35.1|<.0001
82441806|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.92|||<|0.001|TWO_SIDED|95.0|0.82|1.04|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 1||1.04|0.82|<0.001
82441807|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.06|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 3||1.06|0.84|<0.001
82441808|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.89|1.12|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 4||1.12|0.89|<0.001
82441809|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.93|||<|0.001|TWO_SIDED|95.0|0.8|1.07|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 5||1.07|0.80|<0.001
82441810|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.87|||<|0.001|TWO_SIDED|95.0|0.77|0.99|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 6A||0.99|0.77|<0.001
82441811|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.79||||0.055|TWO_SIDED|95.0|0.64|0.96|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 6B||0.96|0.64|0.055
82502137|NCT00312494|164695079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0728||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline GAF score.||||0.0728
82441812|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 7F||0.99|0.80|<0.001
82625501|NCT00861380|164966409|OTHER|In 5 to 99+ Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with a Hospital-diagnosed Pneumonia divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =1367343.|PYAR|9.921|||||TWO_SIDED|95.0|9.755|10.088|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Hospital-diagnosed Pneumonia, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||10.088|9.755|
82625502|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|22.624|||||TWO_SIDED|95.0|22.02|23.24|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||23.240|22.020|
82625503|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|22.747|||||TWO_SIDED|95.0|21.912|23.606|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||23.606|21.912|
82625504|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|24.503|||||TWO_SIDED|95.0|23.852|25.166|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||25.166|23.852|
82625505|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|26.236|||||TWO_SIDED|95.0|25.308|27.189|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||27.189|25.308|
82625506|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|27.502|||||TWO_SIDED|95.0|26.81|28.207|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||28.207|26.810|
82563924|NCT02138838|164837104|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|8.1||||0.48|TWO_SIDED|95.0|-13.7|29.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline age group|SOC+Cinacalcet - SOC|||29.9|-13.7|0.48
82441813|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.88|1.13|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 9V||1.13|0.88|<0.001
82441814|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.95|||<|0.001|TWO_SIDED|95.0|0.82|1.1|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 14||1.10|0.82|<0.001
82625507|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|26.1||||||95.0|25.171|27.055|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||27.055|25.171|
82625508|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|28.661|||||TWO_SIDED|95.0|27.958|29.377|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||29.377|27.958|
82625509|NCT00861380|164966417|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Tympanostomy Tube Placement divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|29.835|||||TWO_SIDED|95.0|28.843|30.85|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Tympanostomy Tube Placements, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||30.850|28.843|
82625510|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|816.813|||||TWO_SIDED|95.0|815.226|818.392|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||818.392|815.226|
82625511|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|841.176|||||TWO_SIDED|95.0|839.098|843.239|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||843.239|839.098|
82625512|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =229978.|PYAR|702.245|||||TWO_SIDED|95.0|700.372|704.114|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for Acute Otitis Media (AOM)/Respiratory Tract Infections (RTI), number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||704.114|700.372|
82441815|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.0|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 18C||1.00|0.79|<0.001
82625513|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2009, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =120190.|PYAR|720.9|||||TWO_SIDED|95.0|718.355|723.435|||negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||723.435|718.355|
82625514|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|929.844|||||TWO_SIDED|95.0|928.755|930.923|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||930.923|928.755|
82625515|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|953.025|||||TWO_SIDED|95.0|951.77|954.257|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||954.257|951.770|
82625516|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =214181.|PYAR|804.703|||||TWO_SIDED|95.0|803.017|806.38|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||806.380|803.017|
82625517|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2010, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =112060.|PYAR|818.66|||||TWO_SIDED|95.0|816.391|820.912|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||820.912|816.391|
82625518|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|916.079|||||TWO_SIDED|95.0|914.891|917.256|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||917.256|914.891|
82625519|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|928.568|||||TWO_SIDED|95.0|927.038|930.076|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||930.076|927.038|
82441816|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.91|||<|0.001|TWO_SIDED|95.0|0.8|1.03|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 19A||1.03|0.80|<0.001
82441817|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.08|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 19F||1.08|0.87|<0.001
82441818|NCT01340937|164592080|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (Combined/Control)|0.9|||<|0.001|TWO_SIDED|95.0|0.77|1.06|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||Pneumococcal Serotype 23F||1.06|0.77|<0.001
82441819|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||||TWO_SIDED|95.0|-18.8|-8.4|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \<38.0°C||-8.4|-18.8|
82441820|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||||TWO_SIDED|95.0|-0.9|8.3|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=38°C and \<38.5°||8.3|-0.9|
82441821|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|4.8|11.9|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=38.5°C and \<39.5°||11.9|4.8|
82441822|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.7|2.2|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, all routes \>=39.5°C||2.2|-0.7|
82441823|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||||TWO_SIDED|95.0|-16.6|-5.9|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference; rectal \<38.0°C||-5.9|-16.6|
82441824|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-1.4|7.8|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference; rectal \>=38.0°C and \<38.5°C||7.8|-1.4|
82441825|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|||||TWO_SIDED|95.0|4.6|11.6|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, rectal \>=38.5°C and \<39.5°C||11.6|4.6|
82441826|NCT01340937|164592082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.7|2.1|||||Mean Difference is V419 - Control. The 95% confidence interval is based on the unstratified Miettinen and Nurminen method.|Estimated Difference, rectal \>=39.5°C||2.1|-0.7|
82441827|NCT01610596|164592111|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82563925|NCT02138838|164837105|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-9.9||||0.42|TWO_SIDED|95.0|-33.3|13.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel stratified by baseline age group (6-\<12 years, 12-\<18 years)|SOC+Cinacalcet - SOC|A hierarchical testing procedure was used to test the primary and biochemical secondary endpoints. The primary endpoint was tested at a 2-sided significance level of 0.05. The secondary endpoints were tested using Holm's method at 0.05 (2-sided) should the primary endpoint achieve a significant result.||13.4|-33.3|0.42
82563926|NCT02138838|164837106|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-10.4||||0.25|TWO_SIDED|95.0|-27.7|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline age group|SOC+Cinacalcet - SOC|||6.8|-27.7|0.25
82441828|NCT02317809|164592119|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Geometric least squares (LS) mean ratio|114.45|||||TWO_SIDED|90.0|110.87|118.15|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||118.15|110.87|
82441829|NCT02317809|164592120|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|106.99|||||TWO_SIDED|90.0|101.42|112.86|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||112.86|101.42|
82441830|NCT02317809|164592121|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|112.67|||||TWO_SIDED|90.0|106.44|119.27|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||119.27|106.44|
82441831|NCT02317809|164592122|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Geometric least squares (LS) mean ratio|103.27|||||TWO_SIDED|90.0|93.16|114.47|||||Percentage of geometric LS mean ratio was presented.|Mixed model analysis was used.||114.47|93.16|
82441832|NCT01974752|164592143|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.3195|TWO_SIDED|95.0|0.48|1.27|||Log Rank|Factor for treatment and liver metastases|A hazard ratio \< 1 favours Selumetinib in combination with Dacarbazine|||1.27|0.48|0.3195
82441833|NCT01974752|164592145|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.94||||0.1284|TWO_SIDED|95.0|0.88|1.02|||ANCOVA|ANCOVA of log (W6/BL) tumour assessments with a factor for trt, and covariates for liver mets, log BL tumour size, and time from BL scan to rand.|A geometric least squares mean ratio \< 1 favours Selumetinib in combination with Dacarbazine|||1.02|0.88|0.1284
82441834|NCT01974752|164592146|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.4011|TWO_SIDED|95.0|0.39|1.46|||Log Rank|||||1.46|0.39|0.4011
82563927|NCT02138838|164837107|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.0||||0.23|TWO_SIDED|95.0|-12.5|50.5|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.|SOC+Cinacalcet - SOC|||50.5|-12.5|0.23
82441835|NCT00909545|164592210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|2.03||0.9834|TWO_SIDED|95.0|-3.99|4.07||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model.|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 5mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 5mg/day arm is compared to placebo group.||4.07|-3.99|0.9834
82441836|NCT00909545|164592210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.97||0.5761|TWO_SIDED|95.0|-5.01|2.8||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model.|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 10mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 10mg/day arm is compared to placebo group.||2.80|-5.01|0.5761
82441837|NCT00909545|164592210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|2.01||0.322|TWO_SIDED|95.0|-5.98|1.99||P-values for efficacy outcomes will be one-sided test with alpha = 0.05|ANCOVA|Analysis of covariance is used, with terms representing assigned treatment group and baseline value of the measure in the model|Least square mean(standard error) and 95% confidence intervals of the difference between Isradipine CR 20mg and placebo groups is estimated.|Change in UPDRS total score of Isradipine CR 20mg/day arm is compared to placebo group.||1.99|-5.98|0.322
82441838|NCT00909545|164592211|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|STANDARD_ERROR_OF_MEAN|1.1587||0.1383|TWO_SIDED|95.0|0.0196|1.8411|||Fisher Exact|||The tolerability of 5mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||1.8411|0.0196|0.1383
82441839|NCT00909545|164592211|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1086|STANDARD_ERROR_OF_MEAN|0.1114||0.0248|TWO_SIDED|95.0|0.0123|0.9591|||Fisher Exact|||The tolerability of 10mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||0.9591|0.0123|0.0248
82441840|NCT00909545|164592211|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.024|STANDARD_ERROR_OF_MEAN|1.1035|<|0.0001|TWO_SIDED|95.0|0.0028|0.2087|||Fisher Exact|||The tolerability of 20mg/day dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.||0.2087|0.0028|<0.0001
82441841|NCT00909545|164592212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2324|TWO_SIDED|95.0|-0.3|1.22|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||1.22|-0.30|0.2324
82441842|NCT00909545|164592212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.37||1|TWO_SIDED|95.0|-0.73|0.73|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||0.73|-0.73|1
82441843|NCT00909545|164592212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.37||0.4675|TWO_SIDED|95.0|-1.02|0.47|||ANCOVA|||Change in Mental UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||0.47|-1.02|0.4675
82441844|NCT00909545|164592213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4648|TWO_SIDED|95.0|-1.03|2.23|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||2.23|-1.03|0.4648
82441845|NCT00909545|164592213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.8||0.525|TWO_SIDED|95.0|-2.09|1.07|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||1.07|-2.09|0.525
82639431|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|44.1|||<|0.0001|TWO_SIDED|95.0|35.5|54.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||54.6|35.5|<.0001
82441846|NCT00909545|164592213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.81||0.3674|TWO_SIDED|95.0|-2.36|0.88|||ANCOVA|||Change in ADL UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||0.88|-2.36|0.3674
82441847|NCT00909545|164592214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|1.5||0.579|TWO_SIDED|95.0|-3.8|2.14|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 5mg/day arm is compared to placebo group.||2.14|-3.80|0.579
82441848|NCT00909545|164592214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|1.46||0.7778|TWO_SIDED|95.0|-3.3|2.48|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 10mg/day arm is compared to placebo group.||2.48|-3.30|0.7778
82441849|NCT00909545|164592214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|1.48||0.669|TWO_SIDED|95.0|-3.58|2.31|||ANCOVA|||Change in Motor UPDRS subscale of Isradipine CR 20mg/day arm is compared to placebo group.||2.31|-3.58|0.669
82441850|NCT00909545|164592215|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6677|TWO_SIDED|95.0|-0.27|0.17|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 5mg/day arm is compared to placebo group.||0.17|-0.27|0.6677
82441851|NCT00909545|164592215|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1755|TWO_SIDED|95.0|-0.36|0.07|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 10mg/day arm is compared to placebo group.||0.07|-0.36|0.1755
82441852|NCT00909545|164592215|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.1463|TWO_SIDED|95.0|-0.38|0.06|||ANCOVA|||Change in Modified Hoehn \& Yahr Scale of Isradipine CR 20mg/day arm is compared to placebo group.||0.06|-0.38|0.1463
82441853|NCT00909545|164592216|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|1.4||0.7111|TWO_SIDED|95.0|-3.3|2.26|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 5mg/day arm is compared to placebo group.||2.26|-3.30|0.7111
82441854|NCT00909545|164592216|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35|STANDARD_ERROR_OF_MEAN|1.36||0.3237|TWO_SIDED|95.0|-1.35|4.04|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 10mg/day arm is compared to placebo group.||4.04|-1.35|0.3237
82441855|NCT00909545|164592216|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|1.4||0.3658|TWO_SIDED|95.0|-1.51|4.05|||ANCOVA|||Change in Modified Schwab \& England Independence Scale of Isradipine CR 20mg/day arm is compared to placebo group.||4.05|-1.51|0.3658
82441856|NCT00909545|164592217|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.32||0.0608|TWO_SIDED|95.0|-0.12|5.13|||ANCOVA|||Change in BDI-II of Isradipine CR 5mg/day arm is compared to placebo group.||5.13|-0.12|0.0608
82441857|NCT00909545|164592217|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|1.36||0.6445|TWO_SIDED|95.0|-2.07|3.33|||ANCOVA|||Change in BDI-II of Isradipine CR 10mg/day arm is compared to placebo group.||3.33|-2.07|0.6445
82441858|NCT00909545|164592217|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.52||0.1336|TWO_SIDED|95.0|-0.63|4.67|||ANCOVA|||Change in BDI-II of Isradipine CR 20mg/day arm is compared to placebo group.||4.67|-0.63|0.1336
82441859|NCT00909545|164592218|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.56||0.3533|TWO_SIDED|95.0|-1.64|0.59|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 5mg/day arm is compared to placebo group.||0.59|-1.64|0.3533
82441860|NCT00909545|164592218|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.56||0.4045|TWO_SIDED|95.0|-1.59|0.65|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 10mg/day arm is compared to placebo group.||0.65|-1.59|0.4045
82625520|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =211914.|PYAR|796.894||||||95.0|795.175|798.605|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||798.605|795.175|
82441861|NCT00909545|164592218|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.57||0.7049|TWO_SIDED|95.0|-1.36|0.92|||ANCOVA|||Change in Montreal Cognitive Assessment of Isradipine CR 20mg/day arm is compared to placebo group.||0.92|-1.36|0.7049
82441862|NCT00909545|164592219|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.19|STANDARD_ERROR_OF_MEAN|1.8||0.2278|TWO_SIDED|95.0|-1.4|5.79|||ANCOVA|||Change in PDQ-39 of Isradipine CR 5mg/day arm is compared to placebo group.||5.79|-1.40|0.2278
82441863|NCT00909545|164592219|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.72|STANDARD_ERROR_OF_MEAN|1.86||0.356|TWO_SIDED|95.0|-1.97|5.42|||ANCOVA|||Change in PDQ-39 of Isradipine CR 5mg/day arm is compared to placebo group.||5.42|-1.97|0.356
82441864|NCT00909545|164592219|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|1.83||0.26|TWO_SIDED|95.0|-1.56|5.71|||ANCOVA|||Change in PDQ-39 of Isradipine CR 20mg/day arm is compared to placebo group.||5.71|-1.56|0.2600
82441865|NCT00909545|164592226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2632|STANDARD_ERROR_OF_MEAN|1.159||0.1384|TWO_SIDED|95.0|0.5432|50.9977||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||The analyses is to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||50.9977|0.5432|0.1384
82441866|NCT00909545|164592226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.625|STANDARD_ERROR_OF_MEAN|1.097||0.0024|TWO_SIDED|95.0|1.8214|134.0403||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||134.0403|1.8214|0.0024
82502138|NCT00312494|164695079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3174||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline GAF score.||||0.3174
82502139|NCT00312494|164695080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline LIFE-RIFT total score.||||0.4460
82502140|NCT00312494|164695080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3253||95.0||||The p-values reported are unadjusted for multiple comparisons.|Mixed Models Analysis|||Week 3 MMRM with model terms: treatment, length of prior lithium/divalproex usage, type of mood stabilizer therapy, rapid cycling, hospitalization status, visit, treatment by visit interaction, and baseline LIFE-RIFT total score.||||0.3253
82502141|NCT00501293|164695082|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.028
82502142|NCT00501293|164695082|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||<0.001
82502143|NCT00501293|164695083|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.027
82563928|NCT02138838|164837108|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.34||||0.059|TWO_SIDED|95.0|-0.7|0.01|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.||||0.01|-0.70|0.059
82502144|NCT00501293|164695083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||<0.001
82502145|NCT00501293|164695086|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|t-test of MTS at baseline and 6 months||||||0.071
82502146|NCT00501293|164695086|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|t-test of placebo at baseline and 6 months||||||0.017
82563929|NCT02138838|164837109|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.76||||0.039|TWO_SIDED|95.0|0.04|1.48|||ANCOVA|Analysis of covariance (ANCOVA) with baseline age group as the covariate.|SOC+Cinacalcet - SOC|||1.48|0.04|0.039
82502147|NCT02127567|164695108|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.5|2.7|||Mixed Models Analysis|||||2.7|1.5|<0.001
82502148|NCT02127567|164695109|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||<|0.01|TWO_SIDED|95.0|1.1|4.4|||Mixed Models Analysis|||||4.4|1.1|<0.01
82502149|NCT02127567|164695110|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.44|TWO_SIDED|95.0|-0.7|2.0|||Mixed Models Analysis|||||2.0|-0.7|0.44
82502150|NCT02127567|164695111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|||<|0.01|TWO_SIDED|95.0|0.8|3.6|||Mixed Models Analysis|||||3.6|0.8|<0.01
82502151|NCT02127567|164695112|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.8|||<|0.01|TWO_SIDED|95.0|0.7|2.9|||Mixed Models Analysis|||||2.9|0.7|<0.01
82502152|NCT02127567|164695113|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.78|TWO_SIDED|95.0|-2.0|1.3|||Mixed Models Analysis|||||1.3|-2.0|0.78
82502153|NCT02127567|164695114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4|||<|0.01|TWO_SIDED|95.0|4.1|6.7|||Mixed Models Analysis|||||6.7|4.1|<0.01
82639432|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|39.1|||<|0.0001|TWO_SIDED|95.0|31.0|49.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||49.4|31.0|<.0001
82502154|NCT02127567|164695115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.002|TWO_SIDED|95.0|0.5|2.3|||Mixed Models Analysis|||||2.3|0.5|0.002
82502155|NCT00786487|164695141|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82502156|NCT00786487|164695141|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82502157|NCT01853046|164695142|SUPERIORITY_OR_OTHER||LS Mean|1.14|||||TWO_SIDED|90.0|0.796|1.63||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of regorafenib calculated by re-transformation of the logarithmic data from ANOVAs.||1.63|0.796|
82502158|NCT01853046|164695142|SUPERIORITY_OR_OTHER||LS-means|0.684|||||TWO_SIDED|90.0|0.397|1.18||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of metabolites M-2 calculated by re-transformation of the logarithmic data from ANOVAs.||1.18|0.397|
82502159|NCT01853046|164695142|SUPERIORITY_OR_OTHER||LS-means|0.446|||||TWO_SIDED|90.0|0.2|0.996||||||Point estimates (LS-means) and 2-sided exploratory 90% confidence intervals for AUC(0-tlast) of metabolites M-5 calculated by re-transformation of the logarithmic data from ANOVAs||0.996|0.200|
82563930|NCT00623714|164837123|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.34||||0.011|TWO_SIDED|90.0|0.16|0.7||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.70|0.16|0.011
82502160|NCT00708162|164695167|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the EVG group was at least 10% worse than the RAL group with respect to percentage of participants achieving and maintaining HIV-1 RNA \< 50 copies/mL through Week 48; alternative hypothesis: the EVG group was less than 10% worse than the RAL group.|Difference in percentages|1.1|||||TWO_SIDED|95.0|-6.0|8.2|||||The difference in percentages and its 95% confidence interval (CI) were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using Mantel-Haenszel (MH) proportions and normal approximation.|The planned sample size of 700 HIV-1 infected participants, (350 in each group) was estimated to provide at least 85% power to establish noninferiority in the percentage of participants achieving and maintaining confirmed HIV-1 RNA \< 50 copies/mL through Week 48. For sample size and power computation, it was assumed that both elvitegravir and raltegravir arms have a response rate of 0.74, that a noninferiority margin was 0.10, and that the significance level of the test was 1-sided 0.025 level.||8.2|-6.0|
82502161|NCT00708162|164695168|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the EVG arm was at least 10% worse than the RAL arm with respect to percentage of participants achieving and maintaining HIV-1 RNA \< 50 copies/mL through Week 48; alternative hypothesis: the EVG arm was less than 10% worse than the RAL arm.|Difference in percentages|2.6|||||TWO_SIDED|95.0|-4.6|9.9|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||9.9|-4.6|
82502162|NCT00708162|164695169|SUPERIORITY_OR_OTHER||Difference in percentages|0.9|||||TWO_SIDED|95.0|-6.0|7.7|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||7.7|-6.0|
82502163|NCT00708162|164695170|SUPERIORITY_OR_OTHER||Difference in percentages|0.9|||||TWO_SIDED|95.0|-6.4|8.2|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||8.2|-6.4|
82502164|NCT00708162|164695171|SUPERIORITY_OR_OTHER||Difference in percentages|2.2|||||TWO_SIDED|95.0|-5.0|9.3|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||9.3|-5.0|
82502165|NCT00708162|164695172|SUPERIORITY_OR_OTHER||Difference in percentages|-0.5|||||TWO_SIDED|95.0|-7.9|6.8|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||6.8|-7.9|
82502166|NCT00708162|164695177|SUPERIORITY_OR_OTHER||Difference in percentages|0.2|||||TWO_SIDED|95.0|-6.9|7.3|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||7.3|-6.9|
82502167|NCT00708162|164695178|SUPERIORITY_OR_OTHER||Difference in percentages|-2.9|||||TWO_SIDED|95.0|-10.2|4.4|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||4.4|-10.2|
82502168|NCT00708162|164695179|SUPERIORITY_OR_OTHER||Difference in percentages|-2.0|||||TWO_SIDED|95.0|-8.6|4.7|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||4.7|-8.6|
82625521|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2011, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111071.|PYAR|803.918|||||TWO_SIDED|95.0|801.571|806.25|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||806.250|801.571|
82625522|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|865.679|||||TWO_SIDED|95.0|864.227|867.121|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||867.121|864.227|
82625523|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|871.749|||||TWO_SIDED|95.0|869.771|873.707|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||873.707|869.771|
82625524|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received 10Pn-PD-DiT vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =213913.|PYAR|753.423|||||TWO_SIDED|95.0|751.591|755.249|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any 10PN-PD-DIT vaccine - age stratum schedules).||755.249|751.591|
82625525|NCT00861380|164966421|OTHER|In 0 to 7 Years Old Population, in Year 2012, for Non-vaccinated persons living in study cluster areas, in which study participants received control vaccine, PYAR was calculated (= number of subjects reported with recommended Antimicrobial Prescriptions divided by sum of follow-up period expressed in years (per 1000), as well as 95% CI (2-sided profile log-likelihood ratio 95% CI using a Negative Binomial regression model with strata). Total number of non-vaccinated persons =111414.|PYAR|755.542|||||TWO_SIDED|95.0|753.008|758.064|||Negative Binomial model with strata|Analysis performed on non-vaccinated persons, not enrolled in the study, but living in cluster areas in which study participants received vaccine.||For indirect effectiveness analysis at preventing Antimicrobial Prescriptions recommended for AOM/RTI, number of events in the unvaccinated cohort, which occurred around 6 months or more after study start was compared with treated group numbers (applicable to any control (HAV or HBV) vaccine - age stratum schedules).||758.064|753.008|
82625526|NCT03205982|164966441|EQUIVALENCE|If the difference (between treatment and control arm) is greater than the minimal clinically important difference (MCID), we consider the treatment arm is different from the control arm. MCID is calculated as 0.25-0.5\* standard deviation (SD). Conversely, the equivalence margin is the biggest difference (between 2 arms) to be considered no difference between 2 arms. Therefore, the equivalence margin should be smaller than MCID, i.e., it should be smaller than the smallest possible MCID.|Odds Ratio (OR)|0.9943|STANDARD_ERROR_OF_MEAN|0.0005|<|0.0001|TWO_SIDED|95.0|0.993|0.995|||Mixed Models Analysis|generalized linear mixed model with logit link (logistic model)||Compares difference in adherence changes between Intervention and Control arms||0.995|0.993|<0.0001
82625527|NCT03136367|164966468|SUPERIORITY|||||||0.045||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.045
82625528|NCT03136367|164966468|SUPERIORITY|||||||0.2||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.20
82625529|NCT03136367|164966468|SUPERIORITY|||||||0.82||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.82
82625530|NCT03136367|164966469|SUPERIORITY|||||||0.048||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.048
82625531|NCT03136367|164966469|SUPERIORITY|||||||0.015||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.015
82441867|NCT00909545|164592226|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|50.0|STANDARD_ERROR_OF_MEAN|1.108|<|0.0001|TWO_SIDED|95.0|5.7004|438.5694||The analysis of common AE of each active dosage of isradipine CR will be compared with that of the placebo group using one-sided Fisher's exact tests. No adjustment will be made for multiple comparisons in these analyses.|Fisher Exact|||Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Oedema Peripheral.||438.5694|5.7004|<.0001
82441868|NCT00909545|164592227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.754|STANDARD_ERROR_OF_MEAN|0.6715||0.7735|TWO_SIDED|95.0|0.2022|2.812|||Fisher Exact|||one-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||2.8120|0.2022|0.7735
82441869|NCT00909545|164592227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8143|STANDARD_ERROR_OF_MEAN|0.6419||0.7385|TWO_SIDED|95.0|0.2314|2.8658|||Fisher Exact|||one-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||2.8658|0.2314|0.7385
82441870|NCT00909545|164592227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9048|STANDARD_ERROR_OF_MEAN|0.6463||0.6823|TWO_SIDED|95.0|0.2549|3.2112|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dizziness.||3.2112|0.2549|0.6823
82441871|NCT00909545|164592228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5263|STANDARD_ERROR_OF_MEAN|0.9188||0.2756|TWO_SIDED|95.0|0.4172|15.2975|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||15.2975|0.4172|0.2756
82625532|NCT03136367|164966469|SUPERIORITY|||||||0.43||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.43
82625533|NCT03136367|164966470|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.46
82625534|NCT03136367|164966470|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.34
82625535|NCT03136367|164966470|SUPERIORITY|||||||0.165|||||||Mixed Models Analysis|Mixed effects linear regression that accounted clustering and was adjusted for surgeon and patient characteristics.||||||0.165
82625536|NCT03136367|164966472|SUPERIORITY|||||||0.25||||||Adjusted for repeated within-patient measurements|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.25
82625537|NCT03136367|164966472|SUPERIORITY|||||||0.89||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.89
82625538|NCT03136367|164966472|SUPERIORITY|||||||0.54||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.54
82441872|NCT00909545|164592228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4211|STANDARD_ERROR_OF_MEAN|0.8584||0.07|TWO_SIDED|95.0|0.8217|23.7875|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||23.7875|0.8217|0.07
82502169|NCT00708162|164695180|SUPERIORITY_OR_OTHER||Difference in percentages|-1.7|||||TWO_SIDED|95.0|-8.8|5.5|||||The difference in percentages and its 95% CI were based on stratum-adjusted HIV-1 RNA level and the class of second agent (NRTI or other classes) using MH proportions and normal approximation.|||5.5|-8.8|
82502170|NCT00708162|164695181|SUPERIORITY_OR_OTHER||Difference in log10 copies/mL|0.01|||||TWO_SIDED|95.0|-0.16|0.19|||||The difference in least squares means (LSM) and its 95% CI were obtained using an analysis of variance model (ANOVA) adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||0.19|-0.16|
82625539|NCT03136367|164966473|SUPERIORITY|||||||0.72||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.72
82625540|NCT03136367|164966473|SUPERIORITY|||||||0.41||||||Adjusted for repeated within-patient measurements.|McNemar|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.41
82625541|NCT03136367|164966473|SUPERIORITY|||||||0.28||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.28
82625542|NCT03136367|164966474|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.01
82625543|NCT03136367|164966474|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.12
82625544|NCT03136367|164966474|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.78
82441873|NCT00909545|164592228|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|STANDARD_ERROR_OF_MEAN|0.9174||0.2953|TWO_SIDED|95.0|0.3975|14.4919|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nasopharyngitis.||14.4919|0.3975|0.2953
82502171|NCT00708162|164695182|SUPERIORITY_OR_OTHER||Difference in log10 copies/mL|0.05|||||TWO_SIDED|95.0|-0.12|0.22|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||0.22|-0.12|
82502172|NCT00708162|164695183|SUPERIORITY_OR_OTHER||Difference in cells/mm^3|-9.0|||||TWO_SIDED|95.0|-33.0|16.0|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||16|-33|
82502173|NCT00708162|164695184|SUPERIORITY_OR_OTHER||Difference in cells/mm^3|7.0|||||TWO_SIDED|95.0|-25.0|39.0|||||The difference in LSM and its 95% CI were obtained using ANOVA adjusting for baseline HIV-1 RNA level and class of the second agent (NRTI or other classes).|||39|-25|
82502174|NCT02611778|164695313|EQUIVALENCE|The confidence interval (CI) for treatment difference (FYB201 - Lucentis) was calculated using Least Square Means. If the 90% CI was completely contained in the interval \]-3.5;3.5\[ ETDRS letters, equivalence of FYB201 and Lucentis could be concluded.|Difference in least square means|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.6|0.9|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 8 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|The hypothesis of biosimilarity of FYB201 and Lucentis was tested with a two-sided equivalence test with an equivalence margin of 3 ETDRS letters. An ANCOVA model was used with the change in BCVA between baseline and Week 8 as the dependent variable, the baseline BCVA as covariate, and the country and the treatment group as fixed effects.||0.9|-1.6|
82502175|NCT02611778|164695314|OTHER||Difference in least square means|0.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|90.0|-1.6|1.5|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 24 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.5|-1.6|
82502176|NCT02611778|164695315|OTHER||Difference in least square means|-0.1|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|90.0|-1.8|1.7|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and Week 48 as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.7|-1.8|
82378322|NCT03762239|164465055|SUPERIORITY||Relative (percent) changes in the median|1.37||||0.52|TWO_SIDED|95.0|-2.81|5.56|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in better performance, relative to the classroom without air filter (normal air), in attention measures among adolescents in high schools.||5.56|-2.81|0.52
82441874|NCT00909545|164592229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|STANDARD_ERROR_OF_MEAN|0.8719||0.6049|TWO_SIDED|95.0|0.2082|6.3508|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||6.3508|0.2082|0.6049
82441875|NCT00909545|164592229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|STANDARD_ERROR_OF_MEAN|0.7704||0.2327|TWO_SIDED|95.0|0.5081|10.4105|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||10.4105|0.5081|0.2327
82441876|NCT00909545|164592229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5333|STANDARD_ERROR_OF_MEAN|0.8227||0.4534|TWO_SIDED|95.0|0.3057|7.6897|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Headache.||7.6897|0.3057|0.4534
82441877|NCT00909545|164592230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||4.8065|0.1109|0.7852
82441878|NCT00909545|164592230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.8681||0.666|TWO_SIDED|95.0|0.1824|5.482|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||5.4820|0.1824|0.666
82441879|NCT00909545|164592230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5333|STANDARD_ERROR_OF_MEAN|0.8227||0.4534|TWO_SIDED|95.0|0.3057|7.6897|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Constipation.||7.6897|0.3057|0.4534
82441880|NCT00909545|164592231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5455|STANDARD_ERROR_OF_MEAN|1.2596||0.8589|TWO_SIDED|95.0|0.0462|6.4433|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||6.4433|0.0462|0.8589
82441881|NCT00909545|164592231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5652|STANDARD_ERROR_OF_MEAN|0.9584||0.5|TWO_SIDED|95.0|0.2392|10.241|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||10.2410|0.2392|0.5000
82441882|NCT00909545|164592231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7143|STANDARD_ERROR_OF_MEAN|0.9605||0.4609|TWO_SIDED|95.0|0.2609|11.2639|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Fatigue.||11.2639|0.2609|0.4609
82441883|NCT00909545|164592232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||4.8065|0.1109|0.7852
82441884|NCT00909545|164592232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||3.1612|0.0297|0.9448
82441885|NCT00909545|164592232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.697|STANDARD_ERROR_OF_MEAN|0.9604||0.7996|TWO_SIDED|95.0|0.1061|4.5779|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Nausea.||4.5779|0.1061|0.7996
82441886|NCT00909545|164592233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.381|STANDARD_ERROR_OF_MEAN|1.2599||0.4532|TWO_SIDED|95.0|0.2015|28.1366|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Tract Infection.||28.1366|0.2015|0.4532
82441887|NCT00909545|164592233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.9524|STANDARD_ERROR_OF_MEAN|1.1347||0.0953|TWO_SIDED|95.0|0.6439|55.0272|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Tract Infection.||55.0272|0.6439|0.0953
82441888|NCT00909545|164592234|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402||95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||11.8558|0.2733|0.4402
82441889|NCT00909545|164592234|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|1.2577||0.8824|TWO_SIDED|95.0|0.0408|5.6461|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||5.6461|0.0408|0.8824
82441890|NCT00909545|164592234|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0909|STANDARD_ERROR_OF_MEAN|1.0428||0.6641|TWO_SIDED|95.0|0.1413|8.4197|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Depression.||8.4197|0.1413|0.6641
82441891|NCT00909545|164592235|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402|TWO_SIDED|95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Somnolence.||11.8558|0.2733|0.4402
82441892|NCT00909545|164592235|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0409||0.6951|TWO_SIDED|95.0|0.13|7.6906|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Somnolence.||7.6906|0.1300|0.6951
82441893|NCT00909545|164592236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.9617||0.4402|TWO_SIDED|95.0|0.2733|11.8558|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||11.8558|0.2733|0.4402
82625545|NCT03136367|164966475|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||<0.01
82441894|NCT00909545|164592236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|1.2577||0.8824|TWO_SIDED|95.0|0.0408|5.6461|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||5.6461|0.0408|0.8824
82441895|NCT00909545|164592236|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5217|STANDARD_ERROR_OF_MEAN|1.2594||0.8673|TWO_SIDED|95.0|0.0442|6.1537|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Insomnia .||6.1537|0.0442|0.8673
82441896|NCT00909545|164592237|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3485|STANDARD_ERROR_OF_MEAN|1.1919||0.9294|TWO_SIDED|95.0|0.0337|3.6084|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.6084|0.0337|0.9294
82441897|NCT00909545|164592237|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.1612|0.0297|0.9448
82441898|NCT00909545|164592237|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3333|STANDARD_ERROR_OF_MEAN|1.1924||0.9351|TWO_SIDED|95.0|0.0322|3.4459|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Dyspepsia .||3.4459|0.0322|0.9351
82441899|NCT00909545|164592238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5455|STANDARD_ERROR_OF_MEAN|1.2596||0.8589|TWO_SIDED|95.0|0.0462|6.4433|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||6.4433|0.0462|0.8589
82441900|NCT00909545|164592238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0409||0.6951|TWO_SIDED|95.0|0.13|7.6906|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||7.6906|0.1300|0.6951
82441901|NCT00909545|164592238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5217|STANDARD_ERROR_OF_MEAN|1.2594||0.8673|TWO_SIDED|95.0|0.0442|6.1537|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Diarrhoea.||6.1537|0.0442|0.8673
82441902|NCT00909545|164592239|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7302|STANDARD_ERROR_OF_MEAN|0.9616||0.7852|TWO_SIDED|95.0|0.1109|4.8065|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Sinusitis.||4.8065|0.1109|0.7852
82441903|NCT00909545|164592239|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3067|STANDARD_ERROR_OF_MEAN|1.1912||0.9448|TWO_SIDED|95.0|0.0297|3.1612|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Sinusitis.||3.1612|0.0297|0.9448
82441904|NCT00909545|164592240|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0833|STANDARD_ERROR_OF_MEAN|1.2576||0.5|TWO_SIDED|95.0|0.1771|24.5057|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Back Pain.||24.5057|0.1771|0.5000
82441905|NCT00909545|164592240|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5714|STANDARD_ERROR_OF_MEAN|1.192||0.2746|TWO_SIDED|95.0|0.3453|36.9408|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Back Pain.||36.9408|0.3453|0.2746
82625546|NCT03136367|164966475|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||<0.01
82441906|NCT00909545|164592241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1364|STANDARD_ERROR_OF_MEAN|1.4444||0.7236|TWO_SIDED|95.0|0.067|19.264|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 5mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||19.2640|0.0670|0.7236
82441907|NCT00909545|164592241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0833|STANDARD_ERROR_OF_MEAN|1.2576||0.5|TWO_SIDED|95.0|0.1771|24.5057|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 10mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||24.5057|0.1771|0.5000
82441908|NCT00909545|164592241|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2727|STANDARD_ERROR_OF_MEAN|1.2592||0.4694|TWO_SIDED|95.0|0.1926|26.8124|||Fisher Exact|||One-sided Fisher's exact test will be used to compare Isradipine CR 20mg group to the placebo group with regard to the proportion of subjects experiencing the adverse event of Hypotension.||26.8124|0.1926|0.4694
82441909|NCT01891344|164592247|SUPERIORITY||Cox Proportional Hazard|0.273|||||TWO_SIDED|95.0|0.17|0.437||||||||0.437|0.170|
82441910|NCT01891344|164592247|SUPERIORITY||Cox Proportional Hazard|0.61|||||TWO_SIDED|95.0|0.428|0.871||||||||0.871|0.428|
82441911|NCT01414205|164592261|SUPERIORITY_OR_OTHER||Difference (Hauck-Anderson)|17.89||||0.0779|TWO_SIDED|95.0|-4.95|40.72|||Cochran-Mantel-Haenszel|P-values based on stratified Cochran-Mantel-Haenszel test by the randomization stratification factors as supportive analyses.||||40.72|-4.95|0.0779
82441912|NCT02498067|164592276|OTHER|||||||0.177||||||a priori threshold for statistical significance: p\<0.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants' mean reported scores for frequency of dual method use differ between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.177
82441913|NCT02498067|164592277|OTHER|||||||0.318||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants' mean reported scores for frequency of condom use alone (without another method) differ between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.318
82441914|NCT02498067|164592278|OTHER|||||||0||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of whether participants reported more consistent contraceptive use (i.e., using contraception every time they had sex) between baseline (pre-rPlan) and 3-month follow-up (post-rPlan)||||.000
82441915|NCT02498067|164592280|OTHER|||||||0.03||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use an IUD in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.030
82441916|NCT02498067|164592281|OTHER|||||||0.14||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use an implant in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.140
82441917|NCT02498067|164592282|OTHER|||||||0.315||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported likelihood to use condoms in the future (on a scale ranging from 1- very unlikely, to 5- very likely) before and directly after using the rPlan app||||.315
82441918|NCT02498067|164592283|OTHER|||||||0.028||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported contraceptive self-efficacy (on a scale ranging from 1- not at all confident, to 5- extremely confident) before and 3 months after engaging in rPlan||||.028
82441919|NCT02498067|164592284|OTHER|||||||0.918||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported condom use self-efficacy (on a scale ranging from 1- not at all confident, to 5- extremely confident) before and 3 months after engaging in rPlan||||.918
82441920|NCT02498067|164592286|OTHER|||||||0.209||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' self-reported number of sexual partners in the past 3 months (for those were sexually active) between baseline and 3-month follow-up||||.209
82441921|NCT02498067|164592287|OTHER|||||||0.652||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported degree to which they endorse negative condom attitudes (on a scale ranging from 1- strongly disagree, to 5- strongly agree) before and 3 months after engaging in rPlan||||.652
82441922|NCT02498067|164592288|OTHER|||||||0.498||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' reported degree to which they endorse positive motivators for condom use (on a scale ranging from 1- strongly disagree, to 5- strongly agree) before and 3 months after engaging in rPlan||||.498
82441923|NCT02498067|164592289|OTHER|||||||0.977||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' rated importance of negative contraceptive attitudes on their decision to use contraception (on a scale ranging from 1- not at all important, to 5- extremely important) before and 3 months after engaging in rPlan||||.977
82502177|NCT02611778|164695316|OTHER||Difference in least square means|0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.6|1.8|||ANCOVA||An ANCOVA model was used for the analysis with the change in BCVA between baseline and 12 months (average of Weeks 40, 44 and 48) as the dependent variable, the baseline BCVA as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.8|-1.6|
82625547|NCT03136367|164966476|SUPERIORITY|||||||0.06||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.06
82441924|NCT02498067|164592290|OTHER|||||||0.673||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of participants' rated importance of positive motivators for contraceptive use on their decision to use contraception (on a scale ranging from 1- not at all important, to 5- extremely important) before and 3 months after engaging in rPlan||||.673
82441925|NCT02498067|164592291|OTHER|||||||0.049||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of proportion of participants who provided correct answers to whether pills or condoms are more effective at preventing pregnancy, before and 3 months after engaging in rPlan||||.049
82625548|NCT03136367|164966476|SUPERIORITY|||||||0.65||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.65
82441926|NCT02498067|164592291|OTHER|||||||0.265||||||a priori threshold for statistical significance: p\<.05|t-test, 2 sided|||Paired samples t-test comparison of proportion of participants who provided correct answers to whether the IUD or shot is more effective at preventing pregnancy, before and 3 months after engaging in rPlan||||.265
82441927|NCT01229943|164592292|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.12|TWO_SIDED|95.0|0.55|1.17||Tests were stratified by: prior treatment with cytotoxic chemotherapy (no vs yes), prior use of octreotide (no vs yes), and prior therapy with sunitinib (no vs yes).|Log Rank|||Based on the log rank test, with 130 patients enrolled over 22 months and followed an additional 24 months, the difference in median PFS between 9 months and 14 months can be detected with approximately 90% power (1-sided, α=0.15).||1.17|0.55|0.12
82441928|NCT02370095|164592318|SUPERIORITY|||||||0.2416|||||||Wilcoxon (Mann-Whitney)|||Only one placebo subject had data to allow for change from baseline to be calculated||||0.2416
82441929|NCT02370095|164592319|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|The change in S/F ratio over time was evaluated using a mixed model for repeated measures||||||0.06
82441930|NCT02370095|164592320|SUPERIORITY|||||||0.0679|||||||Wilcoxon (Mann-Whitney)|||||||0.0679
82441931|NCT02370095|164592325|SUPERIORITY|||||||0.567|||||||Mixed Models Analysis|Measurement of MAP were evaluated from baseline to end of treatment||||||0.567
82625549|NCT03136367|164966476|SUPERIORITY|||||||0.36||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.36
82441932|NCT02370095|164592326|SUPERIORITY|||||||0.2507||||||The threshold for statistical significance was 0.05|Fisher Exact|||||||0.2507
82441933|NCT02370095|164592328|SUPERIORITY|||||||0.5055|||||||Fisher Exact|||||||0.5055
82441934|NCT02130986|164592339|SUPERIORITY||Mean Difference (Net)|-0.05||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
82441935|NCT02130986|164592340|NON_INFERIORITY|Procalcitonin algorithm implementation increases or does not change the proportion of subjects who experience a composite endpoint of adverse outcomes by Day 30. The prespecified noninferiority margin is 4.5 percentage.|Risk Difference (RD)|-0.015|||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82441936|NCT02130986|164592341|SUPERIORITY||Risk Difference (RD)|-4.6|||||TWO_SIDED|95.0|-12.2|30.0||||||||30|-12.2|
82441937|NCT02305849|164592342|SUPERIORITY||Percent Difference|36.9|||<|0.001|TWO_SIDED|95.0|26.7|47.0||Closed testing procedure was used for multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution.|Treatment Difference vs Placebo||47.0|26.7|<0.001
82441938|NCT02305849|164592342|SUPERIORITY||Percent difference|42.6|||<|0.001|TWO_SIDED|95.0|32.6|52.6||Closed testing procedure was used for multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution.|Treatment Difference vs Placebo||52.6|32.6|<0.001
82625550|NCT03136367|164966477|SUPERIORITY|||||||0.11||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.11
82441939|NCT02305849|164592343|SUPERIORITY||||||<|0.001||||||Closed testing procedure was used for multiplicity adjustment.|RANCOVA|Based on Rank Analysis of Covariance (RANCOVA) Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.||Treatment Difference vs Placebo||||<0.001
82441940|NCT02305849|164592343|SUPERIORITY||||||<|0.001||||||Closed testing procedure was used for multiplicity adjustment.|RANCOVA|Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.||Treatment Difference vs Placebo||||<0.001
82502178|NCT02611778|164695317|OTHER||Difference in least square means|0.69|STANDARD_ERROR_OF_MEAN|11.469|||TWO_SIDED|90.0|-18.22|19.6|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCP retinal thickness between baseline and Week 24 as the dependent variable, the baseline FCP retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||19.60|-18.22|
82502179|NCT02611778|164695318|OTHER||Difference in least square means|2.68|STANDARD_ERROR_OF_MEAN|11.632|||TWO_SIDED|90.0|-16.49|21.85|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCP retinal thickness between baseline and Week 48 as the dependent variable, the baseline FCP retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||21.85|-16.49|
82441941|NCT02305849|164592345|SUPERIORITY||Percent Difference|22.2|||<|0.001|TWO_SIDED|95.0|13.8|30.7||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||30.7|13.8|<0.001
82441942|NCT02305849|164592345|SUPERIORITY||Percent Difference|38.3|||<|0.001|TWO_SIDED|95.0|29.3|47.3||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||47.3|29.3|<0.001
82441943|NCT02305849|164592347|SUPERIORITY||Percent Difference|9.7|||<|0.001|TWO_SIDED|95.0|3.8|15.6||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||15.6|3.8|<0.001
82441944|NCT02305849|164592347|SUPERIORITY||Percent Difference|21.2|||<|0.001|TWO_SIDED|95.0|13.9|28.5||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||28.5|13.9|<0.001
82441945|NCT02305849|164592349|SUPERIORITY||||||<|0.001||||||Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.|RANCOVA|||Treatment Difference vs Placebo||||<0.001
82441946|NCT02305849|164592349|SUPERIORITY||||||<|0.001||||||Based on RANCOVA Model: Rank of mTSS Change = Treatment + Baseline Rank of mTSS.|RANCOVA|||Treatment Difference vs Placebo||||<0.001
82441947|NCT02305849|164592350|SUPERIORITY|||||||0.018|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN score.||Week 28/ET: Treatment Difference vs Placebo||||0.018
82441948|NCT02305849|164592350|SUPERIORITY|||||||0.002|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN score.||Week 28/ET: Treatment Difference vs Placebo||||0.002
82625551|NCT03136367|164966477|SUPERIORITY|||||||0.037||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.037
82441949|NCT02305849|164592350|SUPERIORITY|||||||0.039|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN Score.||Week 52/ET: Treatment Difference vs Placebo||||0.039
82441950|NCT02305849|164592350|SUPERIORITY|||||||0.006|||||||RANCOVA|Based on RANCOVA Model: Rank of JSN Score Change = Treatment + Baseline Rank of JSN Score.||Week 52/ET: Treatment Difference vs Placebo||||0.006
82441951|NCT02305849|164592351|SUPERIORITY|||||||0.036|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 28/ET: Treatment Difference vs Placebo||||0.036
82441952|NCT02305849|164592351|SUPERIORITY||||||<|0.001|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 28/ET: Treatment Difference vs Placebo||||<0.001
82441953|NCT02305849|164592351|SUPERIORITY|||||||0.013|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 52/ET: Treatment Difference vs Placebo||||0.013
82441954|NCT02305849|164592351|SUPERIORITY||||||<|0.001|||||||RANCOVA|Based on RANCOVA Model: Rank of Erosion Score Change = Treatment + Baseline Rank of Erosion Score.||Week 52/ET: Treatment Difference vs Placebo||||<0.001
82441955|NCT02305849|164592352|SUPERIORITY||Percent Difference|21.3|||<|0.001|TWO_SIDED|95.0|10.0|32.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 28/ET: Treatment Difference vs Placebo||32.6|10.0|<0.001
82441956|NCT02305849|164592352|SUPERIORITY||Percent Difference|26.8|||<|0.001|TWO_SIDED|95.0|15.7|37.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 28/ET: Treatment Difference vs Placebo||37.9|15.7|<0.001
82441957|NCT02305849|164592352|SUPERIORITY||Percent Difference|21.5|||<|0.001|TWO_SIDED|95.0|10.2|32.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 52/ET: Treatment Difference vs Placebo||32.9|10.2|<0.001
82441958|NCT02305849|164592352|SUPERIORITY||Percent Difference|26.4|||<|0.001|TWO_SIDED|95.0|15.2|37.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Week 52/ET: Treatment Difference vs Placebo||37.6|15.2|<0.001
82441959|NCT02305849|164592353|SUPERIORITY||LS Mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.46|-0.97||No multiplicity adjustment.|ANCOVA|Based on ANCOVA (analysis of covariance) Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-0.97|-1.46|<0.001
82441960|NCT02305849|164592353|SUPERIORITY||LS Mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.85|-1.33||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-1.33|-1.85|<0.001
82441961|NCT02305849|164592355|SUPERIORITY||LS Mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.44|-0.94||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-0.94|-1.44|<0.001
82441962|NCT02305849|164592355|SUPERIORITY||LS Mean difference|-1.63|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.89|-1.36||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: DAS28 Change = Treatment + Baseline DAS28.||Treatment Difference vs Placebo||-1.36|-1.89|<0.001
82441963|NCT02305849|164592357|SUPERIORITY||LS Mean difference|-5.2|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-6.9|-3.5||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: TJC68 Change = Treatment + Baseline TJC68.||Treatment Difference vs Placebo||-3.5|-6.9|<0.001
82441964|NCT02305849|164592357|SUPERIORITY||LS Mean difference|-7.2|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-8.9|-5.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: TJC68 Change = Treatment + Baseline TJC68.||Treatment Difference vs Placebo||-5.6|-8.9|<0.001
82441965|NCT02305849|164592359|SUPERIORITY||LS Mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.3|-2.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SJC66 Change = Treatment + Baseline SJC66.||Treatment Difference vs Placebo||-2.6|-5.3|<0.001
82441966|NCT02305849|164592359|SUPERIORITY||LS Mean difference|-5.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-6.9|-4.3||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SJC66 Change = Treatment + Baseline SJC66.||Treatment Difference vs Placebo||-4.3|-6.9|<0.001
82441967|NCT02305849|164592361|SUPERIORITY||Percent Difference|23.7|||<|0.001|TWO_SIDED|95.0|15.1|32.3||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||32.3|15.1|<0.001
82441968|NCT02305849|164592361|SUPERIORITY||Percent Difference|27.4|||<|0.001|TWO_SIDED|95.0|18.6|36.2||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||36.2|18.6|<0.001
82441969|NCT02305849|164592363|SUPERIORITY||Percent Difference|10.4|||<|0.001|TWO_SIDED|95.0|4.3|16.5||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected)|Treatment Difference vs Placebo||16.5|4.3|<0.001
82441970|NCT02305849|164592363|SUPERIORITY||Percent Difference|16.9|||<|0.001|TWO_SIDED|95.0|10.0|23.9||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected)|Treatment Difference vs Placebo||23.9|10.0|<0.001
82441971|NCT02305849|164592365|SUPERIORITY||Percent Difference|34.7|||<|0.001|TWO_SIDED|95.0|25.1|44.2||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||44.2|25.1|<0.001
82441972|NCT02305849|164592365|SUPERIORITY||Percent Difference|45.5|||<|0.001|TWO_SIDED|95.0|36.0|55.0||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||55.0|36.0|<0.001
82441973|NCT02305849|164592367|SUPERIORITY||Percent Difference|20.3|||<|0.001|TWO_SIDED|95.0|12.5|28.1||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||28.1|12.5|<0.001
82441974|NCT02305849|164592367|SUPERIORITY||Percent Difference|31.5|||<|0.001|TWO_SIDED|95.0|23.1|40.0||No multiplicity adjustment.|Fisher Exact||C.I. was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||40.0|23.1|<0.001
82502180|NCT02611778|164695319|OTHER||Difference in least square means|-5.91|STANDARD_ERROR_OF_MEAN|10.136|||TWO_SIDED|90.0|-22.62|10.8|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCS retinal thickness between baseline and Week 24 as the dependent variable, the baseline FCS retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||10.80|-22.62|
82502181|NCT02611778|164695320|OTHER||Difference in least square means|3.68|STANDARD_ERROR_OF_MEAN|10.285|||TWO_SIDED|90.0|-13.28|20.63|||ANCOVA||An ANCOVA model was used for the analysis with the change in FCS retinal thickness between baseline and Week 48 as the dependent variable, the baseline FCS retinal thickness as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||20.63|-13.28|
82502182|NCT02611778|164695321|OTHER||Difference in least square means|0.07|STANDARD_ERROR_OF_MEAN|0.4709|||TWO_SIDED|90.0|-0.706|0.846|||ANCOVA||An ANCOVA model was used for the analysis with the change in total lesion area between baseline and Week 24 as the dependent variable, the baseline total lesion area as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||0.846|-0.706|
82441975|NCT02305849|164592369|SUPERIORITY||LS Mean Difference|-1.597|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.948|-1.247||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: CRP Change = Treatment + Baseline CRP.||Treatment Difference vs Placebo||-1.247|-1.948|<0.001
82441976|NCT02305849|164592369|SUPERIORITY||LS Mean Difference|-1.458|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.852|-1.065||No multiplicity adjustment.|ANCOVA|||Treatment Difference vs Placebo||-1.065|-1.852|<0.001
82441977|NCT02305849|164592371|SUPERIORITY||LS Mean Difference|-17.89|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-21.61|-14.17||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: ESR Change = Treatment + Baseline ESR.||Treatment Difference vs Placebo||-14.17|-21.61|<0.001
82441978|NCT02305849|164592371|SUPERIORITY||LS Mean Difference|-20.61|STANDARD_ERROR_OF_MEAN|2.06|<|0.001|TWO_SIDED|95.0|-24.67|-16.56||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: ESR Change = Treatment + Baseline ESR.||Treatment Difference vs Placebo||-16.56|-24.67|<0.001
82441979|NCT02305849|164592373|SUPERIORITY||Percent Difference|33.0|||<|0.001|TWO_SIDED|95.0|23.7|42.2||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||42.2|23.7|<0.001
82441980|NCT02305849|164592373|SUPERIORITY||Percent Difference|45.5|||<|0.001|TWO_SIDED|95.0|36.2|54.8||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||54.8|36.2|<0.001
82441981|NCT02305849|164592375|SUPERIORITY||Percent Difference|42.4|||<|0.001|TWO_SIDED|95.0|32.3|52.5||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected|Treatment Difference vs Placebo||52.5|32.3|<0.001
82441982|NCT02305849|164592375|SUPERIORITY||Percent Difference|49.3|||<|0.001|TWO_SIDED|95.0|39.7|58.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected|Treatment Difference vs Placebo||58.9|39.7|<0.001
82502183|NCT02611778|164695322|OTHER||Difference in least square means|0.342|STANDARD_ERROR_OF_MEAN|0.5387|||TWO_SIDED|90.0|-0.547|1.23|||ANCOVA||An ANCOVA model was used for the analysis with the change in total lesion area between baseline and Week 48 as the dependent variable, the baseline total lesion area as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.230|-0.547|
82502184|NCT02611778|164695323|OTHER||Difference in least square means|0.21|STANDARD_ERROR_OF_MEAN|0.886|||TWO_SIDED|90.0|-1.25|1.67|||ANCOVA||An ANCOVA model was used for the analysis with change in NEI VFQ-25 composite score between baseline and Week 24 as dependent variable, baseline NEI VFQ-25 composite score as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||1.67|-1.25|
82625552|NCT03136367|164966477|SUPERIORITY|||||||0.28||||||Adjusted for repeated within-patient measurements.|Mixed Models Analysis|Mixed effects linear regression that accounted for clinician and site clustering and was adjusted for surgeon and patient characteristics.||||||0.28
82441983|NCT02305849|164592377|SUPERIORITY||Percent Difference|19.7|||<|0.001|TWO_SIDED|95.0|12.1|27.3|||Fisher Exact|No multiplicity adjustment.|CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||27.3|12.1|<0.001
82441984|NCT02305849|164592377|SUPERIORITY||Percent Difference|30.4|||<|0.001|TWO_SIDED|95.0|22.0|38.7||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||38.7|22.0|<0.001
82625553|NCT03366844|164966574|OTHER||Proportion|0.6|||||TWO_SIDED|95.0|0.465|0.724|||||95% confidence interval for one proportion were estimated using the Exact (Clopper-Pearson) method.|||0.724|0.465|
82625554|NCT00191386|164966619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 6 Months|Paired t-test|||||||<0.001
82441985|NCT02305849|164592379|SUPERIORITY||Percent Difference|42.5|||<|0.001|TWO_SIDED|95.0|32.3|52.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||52.6|32.3|<0.001
82441986|NCT02305849|164592379|SUPERIORITY||Percent Difference|47.0|||<|0.001|TWO_SIDED|95.0|37.1|56.9||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||56.9|37.1|<0.001
82441987|NCT02305849|164592381|SUPERIORITY||Percent Difference|5.2||||0.011|TWO_SIDED|95.0|1.0|9.5||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||9.5|1.0|0.011
82441988|NCT02305849|164592381|SUPERIORITY||Percent Difference|9.3|||<|0.001|TWO_SIDED|95.0|4.1|14.6||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||14.6|4.1|<0.001
82441989|NCT02305849|164592383|SUPERIORITY|No multiplicity adjustment.|Percent Difference|6.4||||0.003|TWO_SIDED|95.0|1.8|11.0|||Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||11.0|1.8|0.003
82441990|NCT02305849|164592383|SUPERIORITY||Percent Difference|13.4|||<|0.001|TWO_SIDED|95.0|7.5|19.4||No multiplicity adjustment.|Fisher Exact||CI was based on normal approximation to the binomial distribution (continuity corrected).|Treatment Difference vs Placebo||19.4|7.5|<0.001
82441991|NCT02305849|164592385|SUPERIORITY||LS Mean Difference|-11.22|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|-13.84|-8.6||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SDAI Change = Treatment + Baseline SDAI.||Treatment Difference vs Placebo||-8.60|-13.84|<0.001
82441992|NCT02305849|164592385|SUPERIORITY||LS Mean Difference|-14.67|STANDARD_ERROR_OF_MEAN|1.36|<|0.001|TWO_SIDED|95.0|-17.35|-11.98||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SDAI Change = Treatment + Baseline SDAI.||Treatment Difference vs Placebo||-11.98|-17.35|<0.001
82441993|NCT02305849|164592387|SUPERIORITY||LS Mean difference|-17.67|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-22.11|-13.22||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS).||Treatment Difference vs Placebo||-13.22|-22.11|<0.001
82441994|NCT02305849|164592387|SUPERIORITY||LS Mean Difference|-24.09|STANDARD_ERROR_OF_MEAN|2.33|<|0.001||95.0|-28.66|-19.51||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: PGA (100 mm VAS) Change = Treatment + Baseline PGA (100 mm VAS).||Treatment Difference vs Placebo||-19.51|-28.66|<0.001
82441995|NCT02305849|164592389|SUPERIORITY||LS Mean Difference|-16.64|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-21.09|-12.19||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS)||Treatment Difference vs Placebo||-12.19|-21.09|<0.001
82441996|NCT02305849|164592389|SUPERIORITY||LS Mean difference|-20.34|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-25.07|-15.61||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGA (100 mm VAS) Change = Treatment + Baseline SGA (100 mm VAS).||Treatment Difference vs Placebo||-15.61|-25.07|<0.001
82441997|NCT02305849|164592391|SUPERIORITY||LS Mean Difference|-17.19|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-22.0|-12.38||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGAP (100 mm VAS) Change = Treatment + Baseline SGAP (100 mm VAS).||Treatment Difference vs Placebo||-12.38|-22.00|<0.001
82441998|NCT02305849|164592391|SUPERIORITY||LS Mean difference|-20.89|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-25.8|-15.98||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SGAP (100 mm VAS) Change = Treatment + Baseline SGAP (100 mm VAS).||Treatment Difference vs Placebo||-15.98|-25.80|<0.001
82441999|NCT02305849|164592394|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.36|-0.17||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: HAQ-DI Change = Treatment + Baseline HAQ-DI.||Treatment Difference vs Placebo||-0.17|-0.36|<0.001
82442000|NCT02305849|164592394|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.48|-0.29||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: HAQ-DI Change = Treatment + Baseline HAQ-DI.||Treatment Difference vs Placebo||-0.29|-0.48|<0.001
82442001|NCT02305849|164592396|SUPERIORITY||LS Mean Difference|6.41|STANDARD_ERROR_OF_MEAN|1.18|<|0.001|TWO_SIDED|95.0|4.09|8.74||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||8.74|4.09|<0.001
82442002|NCT02305849|164592396|SUPERIORITY||LS Mean Difference|8.61|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|6.36|10.86||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||10.86|6.36|<0.001
82563931|NCT00623714|164837124|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.4||||0.002|TWO_SIDED|95.0|0.26|0.63||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.63|0.26|0.002
82442003|NCT02305849|164592398|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|1.21|4.18||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||4.18|1.21|<0.001
82442004|NCT02305849|164592398|SUPERIORITY||LS Mean Difference|1.65|STANDARD_ERROR_OF_MEAN|0.78||0.036|TWO_SIDED|95.0|0.11|3.19||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||3.19|0.11|0.036
82442005|NCT02305849|164592400|SUPERIORITY||LS Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|1.39||0.099|TWO_SIDED|95.0|-0.44|5.02||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||5.02|-0.44|0.099
82442006|NCT02305849|164592400|SUPERIORITY||LS Mean Difference|4.22|STANDARD_ERROR_OF_MEAN|1.37||0.002|TWO_SIDED|95.0|1.53|6.91||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: SF36-v2 Change = Treatment + Baseline SF36-v2.||Treatment Difference vs Placebo||6.91|1.53|0.002
82442007|NCT02305849|164592402|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|2.43||0.879|TWO_SIDED|95.0|-5.16|4.42||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||4.42|-5.16|0.879
82442008|NCT02305849|164592402|SUPERIORITY||LS Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|2.05||0.377|TWO_SIDED|95.0|-5.86|2.23||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||2.23|-5.86|0.377
82442009|NCT02305849|164592404|SUPERIORITY||LS Mean Difference|-9.63|STANDARD_ERROR_OF_MEAN|3.5||0.007|TWO_SIDED|95.0|-16.54|-2.73||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-2.73|-16.54|0.007
82442010|NCT02305849|164592404|SUPERIORITY||LS Mean Difference|-14.17|STANDARD_ERROR_OF_MEAN|3.58|<|0.001|TWO_SIDED|95.0|-21.24|-7.1||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-7.10|-21.24|<0.001
82442011|NCT02305849|164592406|SUPERIORITY||LS Mean Difference|-9.43|STANDARD_ERROR_OF_MEAN|3.63||0.01|TWO_SIDED|95.0|-16.6|-2.25||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-2.25|-16.60|0.010
82442012|NCT02305849|164592406|SUPERIORITY||LS Mean Difference|-14.61|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-21.92|-7.31||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-7.31|-21.92|<0.001
82442013|NCT02305849|164592408|SUPERIORITY||LS Mean Difference|-13.19|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-18.23|-8.16||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-8.16|-18.23|<0.001
82563932|NCT02367794|164837125|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0006|TWO_SIDED|95.0|0.64|0.88|||Log Rank|||||0.88|0.64|0.0006
82563933|NCT02367794|164837126|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1581|TWO_SIDED|95.0|0.73|1.05|||Log Rank|||||1.05|0.73|0.1581
82442014|NCT02305849|164592408|SUPERIORITY||LS Mean Difference|-17.61|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-22.57|-12.66||No multiplicity adjustment.|ANCOVA|Based on ANCOVA Model: WPAI Change = Treatment + Baseline WPAI.||Treatment Difference vs Placebo||-12.66|-22.57|<0.001
82442015|NCT00355342|164592413|EQUIVALENCE|The null hypothesis for the primary measure is that the difference between the effects of fluticasone propionate/salmeterol combination product 250/50mcg BID and salmeterol 50mcg BID on the change in BMD assessed at the L1-L4 region of the spine is greater than 1 %/year.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|0.06|1.49|||||Analysis Model: Percent change from baseline BMD = treatment + time (years) + treatment\*time + baseline BMD + sex + investigator + age + BMI + FEV1 severity + b/l activity level + b/l calcium supp. use + smoking status.|The analysis is presented for slope estimate calculated for the percent change from Baseline values at Week 26, 52, 78, 104, 130, and 156.|Age split by category (40-64 years old, 65 or older). FEV1 severity based on GOLD Stage (Mild/Moderate, Severe/Very Severe). Activity based on 0-10 Physical Activity Scale (split by median, \<7, \>=7). Slope estimates based on treatment\*time via repeated measures model with unstructured covariance.|1.49|0.06|
82442016|NCT00355342|164592414|EQUIVALENCE|The null hypothesis for the primary measure is that the difference between the effects of fluticasone propionate/salmeterol combination product 250/50mcg BID and salmeterol 50mcg BID on the change in BMD assessed at the L1-L4 region of the spine is greater than 1 %/year.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.78|0.24|||||Analysis Model: Percent change from baseline BMD = treatment + time (years) + treatment\*time + baseline BMD + sex + investigator + age + BMI + FEV1 severity + b/l activity level + b/l calcium supp. use + smoking status|The analysis is presented for slope estimate calculated for the percent change from Baseline values at Week 26, 52, 78, 104, 130, and 156.|Age split by category (40-64 years old, 65 or older). FEV1 severity based on GOLD Stage (Mild/Moderate, Severe/Very Severe). Activity based on 0-10 Physical Activity Scale (split by median, \<7, \>=7). Slope estimates based on treatment\*time via repeated measures model with unstructured covariance.|0.24|-0.78|
82442017|NCT00997425|164592422|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED|||||values above 0.05 are considered statistically not significant in this study|paired t-test|statistical analysis applies to door approach behavior||||||0.098
82442018|NCT00997425|164592422|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P values above 0.05 are considered statistically not significant in this study|paired t-test|statistical analysis applies to door pass through behavior||||||0.045
82442019|NCT02084238|164592424|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparing the data between baseline and week 10.||||<0.01
82442020|NCT02575118|164592435|OTHER||||||<|0.05|||||||linear mixed-effects regression models|All available data, and hence data for participants with missing observations at some time points, were included in the model.||In one saliva sample collected before treatment, the BPA concentration was more than 100 times higher (11.6 ng/ml) than the mean value and more than 100 SD from the mean of the remaining 19 samples. This saliva sample was excluded from the statistical analysis because it was probably contaminated. One participant had breakfast before the sample time point 1 wk after treatment, and thus the samples collected from this participant at this time point were not included in the statistical analysis.|We used mixed effects models and all available data (also data for participants with missing observations at some time points) were included in the model. Using mixed effects models is a recognized method when there are missing data. Thus, data from all 20 individuals were used for estimations at all time points (see: Rabe-Hesketh and Skrondal. Multilevel and Longitudinal Modeling Using Stata, Volume I, Third Edition. 2012, page 279).|||<0.05
82442021|NCT02575118|164592436|OTHER||||||<|0.05|||||||linear mixed-effects regression models|All available data, and hence data for participants with missing observations at some time points, were included in the model.||One participant had breakfast before the sample time point 1 wk after treatment, and thus the samples collected from this participant at this time point were not included in the statistical analysis.|We used mixed effects models and all available data (also data for participants with missing observations at some time points), were included in the model. Using mixed effects models is a recognized method when there are missing data. Thus, data from all 20 individuals were used for estimations at all time points (see: Rabe-Hesketh and Skrondal. Multilevel and Longitudinal Modeling Using Stata, Volume I, Third Edition. 2012, page 279).|||<0.05
82442022|NCT02032641|164592454|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05|t-test, 1 sided|||||||<0.05
82442023|NCT02032641|164592454|SUPERIORITY_OR_OTHER||||||>|0.1||||||The threshold for significance is p\<0.05|t-test, 1 sided|||||||>0.10
82442024|NCT01822535|164592478|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Between-group differences in percent changes in core body temperature from baseline values to after cool exposure were analyzed. Because individuals with tetraplegia have impaired thermoregulatory mechanisms, we hypothesized that their percent change in core body temperature would be significantly larger than that of able-bodied controls.||||<0.01
82563934|NCT02367794|164837127|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.876||||0.4451|TWO_SIDED|95.0|0.623|1.231|||Log Rank|||Teff \>=-1.91 in ITT||1.231|0.623|0.4451
82563935|NCT02367794|164837127|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.941||||0.7343|TWO_SIDED|95.0|0.664|1.335|||Log Rank|||Teff \>=-1.91 in ITT||1.335|0.664|0.7343
82442025|NCT01822535|164592479|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANOVA|||"Between-group comparisons of percent changes in Stroop Interference T-scores from baseline values to after cool exposure were analyzed.~We hypothesized that subjects with tetraplegia would have greater declines in cognitive performance after cool exposure than able-bodied controls."||||0.018
82442026|NCT01822535|164592480|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED||||||ANOVA|||"Between-group comparisons of percent changes in Delayed Recall from baseline values to after cool exposure were analyzed.~We hypothesized that subjects with tetraplegia would have greater declines in cognitive performance after cool exposure than able-bodied controls."||||0.0431
82442027|NCT01822535|164592481|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||"We hypothesized that administration of midodrine would attenuate the fall in core body temperature.~Within-group percent changes in core body temperature were analyzed to compare data from visit 1 (no drug) to visit 2 (drug)."||||0.30
82563936|NCT02367794|164837127|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.942||||0.661|TWO_SIDED|95.0|0.72|1.232|||Log Rank|||Teff \<-1.91 Negative in ITT||1.232|0.720|0.6610
82563937|NCT02367794|164837127|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.253||||0.0893|TWO_SIDED|95.0|0.965|1.627|||Log Rank|||Teff \<-1.91 Negative in ITT||1.627|0.965|0.0893
82442028|NCT01048866|164592482|SUPERIORITY_OR_OTHER||least-square means difference|-196.6||||0.0021|TWO_SIDED|95.0|-321.0|-72.2||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-72.2|-321.0|0.0021
82442029|NCT01048866|164592483|SUPERIORITY_OR_OTHER||least-square means difference|-19.0||||0.0002|TWO_SIDED|95.0|-28.7|-9.3||The a priori threshold for statistical significance is 0.05.|ANOVA|Baseline DSS fitted as a covariate and centre as a fixed effect.||||-9.3|-28.7|0.0002
82442030|NCT01048866|164592484|SUPERIORITY_OR_OTHER||least-square means difference|-179.7||||0.0054|TWO_SIDED|95.0|-305.7|-53.8||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-53.8|-305.7|0.0054
82442031|NCT01048866|164592485|SUPERIORITY_OR_OTHER||least-square means difference|-16.4||||0.0008|TWO_SIDED|95.0|-25.9|-7.0||The a priori threshold for statistical significance is 0.05.|ANOVA|||||-7.0|-25.9|0.0008
82442032|NCT01048866|164592486|SUPERIORITY_OR_OTHER||least-square means difference|-168.4||||0.0087|TWO_SIDED|95.0|-293.7|-43.1|||ANOVA|||||-43.1|-293.7|0.0087
82442033|NCT01048866|164592487|SUPERIORITY_OR_OTHER||least-square means difference|-19.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-10.0|||ANOVA|Baseline STPIS fitted as a covariate and centre as a fixed effect.||||-10.0|-28.0|<0.0001
82442034|NCT01048866|164592488|SUPERIORITY_OR_OTHER||least-square means difference|-118.9||||0.1844|TWO_SIDED|95.0|-295.3|57.5|||ANOVA|Baseline STPIS fitted as a covariate and centre as a fixed effect.||||57.5|-295.3|0.1844
82442035|NCT01048866|164592489|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82442036|NCT01048866|164592490|SUPERIORITY_OR_OTHER|||||||0.8827|||||||Wilcoxon (Mann-Whitney)|||||||0.8827
82625555|NCT00191386|164966619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 12 Months|Paired t-test|||||||<0.001
82442037|NCT01048866|164592491|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Wilcoxon (Mann-Whitney)|Stratified by centre||||||0.0105
82442038|NCT01048866|164592493|SUPERIORITY_OR_OTHER||least-square means difference|-5.9||||0.0743|TWO_SIDED|95.0|-12.4|0.6|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.6|-12.4|0.0743
82442039|NCT01048866|164592494|SUPERIORITY_OR_OTHER||least-square means difference|-5.5||||0.0871|TWO_SIDED|95.0|-11.7|0.8|||ANOVA|Repeated measures ANOVA model with patient as a random effect.||||0.8|-11.7|0.0871
82442040|NCT01048866|164592495|SUPERIORITY_OR_OTHER||least-square means difference|-6.0||||0.0595|TWO_SIDED|95.0|-12.3|0.2|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.2|-12.3|0.0595
82442041|NCT01048866|164592496|SUPERIORITY_OR_OTHER||least-square means difference|0.5||||0.0195|TWO_SIDED|95.0|0.1|0.9|||ANOVA|Repeated measures ANOVA model with participant as a random effect.||||0.9|0.1|0.0195
82442042|NCT01048866|164592497|SUPERIORITY_OR_OTHER|||||||0.0322|||||||Regression, Logistic|Effect for centre||||||0.0322
82442043|NCT01048866|164592498|SUPERIORITY_OR_OTHER|||||||0.0276|||||||Log Rank|||||||0.0276
82442044|NCT01048866|164592499|SUPERIORITY_OR_OTHER||least-square means difference|-0.2||||0.0288|TWO_SIDED|95.0|-0.4|0.0|||ANOVA|||||-0.0|-0.4|0.0288
82442045|NCT01048866|164592500|SUPERIORITY_OR_OTHER||least-square means difference|-0.1||||0.4274|TWO_SIDED|95.0|-0.3|0.1|||ANOVA|||||0.1|-0.3|0.4274
82442046|NCT03582813|164592501|SUPERIORITY||MIXREG Estimate|4.27|STANDARD_ERROR_OF_MEAN|1.61|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-perceived Recovery and that this effect would be maintained overtime;||||<.01
82442047|NCT03582813|164592502|SUPERIORITY||MIXREG Estimate|0.9|STANDARD_ERROR_OF_MEAN|0.42||0.031|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-esteem that would be maintained longitudinally||||.031
82442048|NCT03582813|164592503|SUPERIORITY||MIXREG Estimate|0.12|STANDARD_ERROR_OF_MEAN|0.04|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in coping mastery that would be maintained longitudinally||||<0.01
82442049|NCT03582813|164592504|SUPERIORITY||MIXREG Estimate|0.29|STANDARD_ERROR_OF_MEAN|0.13||0.03|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in perceived autonomy support that would be maintained longitudinally||||0.030
82442050|NCT03582813|164592505|SUPERIORITY||Odds Ratio (OR)|2.19||||0.046|TWO_SIDED|95.0|1.01|4.74|||Regression, Logistic|||This mixed effects random regression analysis tested whether intervention participants would report greater likelihood of employment that would be maintained longitudinally||4.74|1.01|0.046
82442051|NCT03582813|164592506|SUPERIORITY||Odds Ratio (OR)|4.14|||<|0.01|TWO_SIDED|95.0|1.5|11.44|||Regression, Logistic|||This mixed effects random regression analysis tested whether intervention participants would report greater likelihood of enrollment in educational classes that would be maintained longitudinally||11.44|1.50|<0.01
82442052|NCT01800318|164592513|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||RM Anova of effects of treatment groups on PIPP scores: .|ANOVA|||||||0.07
82442053|NCT01800318|164592513|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with 24% sucrose and sham NESAP.||||<0.05
82442054|NCT01800318|164592513|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with NESAP and oral water.||||<0.01
82442055|NCT01800318|164592513|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Bonferroni correction||t test comparing baseline PIPP score with heel stick PIPP scores in group with 24% sucrose and NESAp combined.||||<0.05
82442056|NCT01800318|164592513|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|Bonferroni||t test comparing baseline PIPP score with heel stick PIPP scores in standard care group (Sham NESAP with oral water).||||<0.01
82442057|NCT01800318|164592514|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.9
82442058|NCT01800318|164592515|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.9
82442059|NCT01800318|164592517|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANOVA|F4.048||||||0.008
82625556|NCT00191386|164966619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 2 Years.|Paired t-test|||||||<0.001
82625557|NCT00191386|164966619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 3 Years.|Paired t-test|||||||<0.001
82625558|NCT00191386|164966619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score 4 Years.|Paired t-test|||||||<0.001
82442060|NCT00628589|164592540|SUPERIORITY|LS mean was used in the primary efficacy analysis||||||0.0004|||||||ANCOVA|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model||||||0.0004
82442061|NCT00628589|164592540|SUPERIORITY||||||<|0.0001|||||||ANCOVA|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model||||||<0.0001
82442062|NCT00628589|164592541|SUPERIORITY|||||||0.0015|||||||Fisher Exact|||||||0.0015
82442063|NCT00628589|164592541|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82442064|NCT00628589|164592542|SUPERIORITY|||||||0.0015|||||||Fisher Exact|||||||0.0015
82442065|NCT00628589|164592542|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82442066|NCT01519674|164592554|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.24||||0.011||95.0|0.06|0.43||No corrections for multiplicity were performed.|Regression, Linear|||"The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by:~H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Met and BID+Sita+Met)."||0.43|0.06|0.011
82442067|NCT01519674|164592554|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.11||||0.231||95.0|-0.3|0.07|||Regression, Linear|||The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by: H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Sita+Met and OD+Sita+Met).||0.07|-0.30|0.231
82442068|NCT01519674|164592554|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.36|||<|0.001||95.0|-0.54|-0.17|||Regression, Linear|||The null-hypothesis (H0) was tested against the alternative hypothesis (HA) in each of the comparisons as given by: H0: D = 0% against HA: D ≠ 0% D being the mean treatment difference for change from baseline in HbA1c after 24 weeks of treatment between the two treatment group comparisons (BID+Sita+Met and OD+Sita+Met).||-0.17|-0.54|<0.001
82442069|NCT01519674|164592555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.022||95.0|0.39|0.93|||Regression, Logistic|||||0.93|0.39|0.022
82442070|NCT01519674|164592555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.618||95.0|0.73|1.71|||Regression, Logistic|||||1.71|0.73|0.618
82442071|NCT01519674|164592555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.005||95.0|1.2|2.85|||Regression, Logistic|||||2.85|1.20|0.005
82442072|NCT01519674|164592556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.02||95.0|0.38|0.92|||Regression, Logistic|||||0.92|0.38|0.020
82442073|NCT01519674|164592556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.286||95.0|0.81|2.07|||Regression, Logistic|||||2.07|0.81|0.286
82442074|NCT01519674|164592556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2|||<|0.001||95.0|1.39|3.47|||Regression, Logistic|||||3.47|1.39|<0.001
82442075|NCT01519674|164592557|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.13||||0.52||95.0|-0.26|0.52|||Regression, Linear|||||0.52|-0.26|0.520
82442076|NCT01519674|164592557|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.05||||0.788||95.0|-0.34|0.45|||Regression, Linear|||||0.45|-0.34|0.788
82442077|NCT01519674|164592557|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.07||||0.708||95.0|-0.46|0.31|||Regression, Linear|||||0.31|-0.46|0.708
82442078|NCT01519674|164592558|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.28||||0.291||95.0|-0.24|0.81|||Regression, Linear|||||0.81|-0.24|0.291
82442079|NCT01519674|164592558|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.88||||0.001||95.0|-1.41|-0.35|||Regression, Linear|||||-0.35|-1.41|0.001
82442080|NCT01519674|164592558|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.16|||<|0.001||95.0|-1.69|-0.64|||Regression, Linear|||||-0.64|-1.69|<0.001
82442081|NCT01519674|164592559|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.85||||0.005||95.0|0.26|1.45|||Regression, Linear|||||1.45|0.26|0.005
82442082|NCT01519674|164592559|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.52||||0.085||95.0|-0.07|1.12|||Regression, Linear|||||1.12|-0.07|0.085
82442083|NCT01519674|164592559|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.33||||0.275||95.0|-0.92|0.26|||Regression, Linear|||||0.26|-0.92|0.275
82442084|NCT01519674|164592560|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.12||||0.674||95.0|-0.7|0.45|||Regression, Linear|||||0.45|-0.70|0.674
82442085|NCT01519674|164592560|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.72||||0.015||95.0|0.14|1.3|||Regression, Linear|||||1.30|0.14|0.015
82442086|NCT01519674|164592560|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.84||||0.004||95.0|0.27|1.41|||Regression, Linear|||||1.41|0.27|0.004
82442087|NCT01519674|164592561|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.31||||0.08||95.0|-0.04|0.65|||Regression, Linear|||||0.65|-0.04|0.080
82442088|NCT01519674|164592561|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.09||||0.613||95.0|-0.26|0.43|||Regression, Linear|||||0.43|-0.26|0.613
82442089|NCT01519674|164592561|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.22||||0.213||95.0|-0.56|0.13|||Regression, Linear|||||0.13|-0.56|0.213
82442090|NCT01519674|164592564|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.29||||0.8||95.0|-1.97|2.56|||Regression, Linear|||||2.56|-1.97|0.800
82442091|NCT01519674|164592564|SUPERIORITY_OR_OTHER||Estimated treatment difference|0.02||||0.989||95.0|-2.26|2.29|||Regression, Linear|||||2.29|-2.26|0.989
82442092|NCT01519674|164592564|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.28||||0.809||95.0|-2.52|1.97|||Regression, Linear|||||1.97|-2.52|0.809
82442093|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|4.5||||0.0036|TWO_SIDED|95.0|1.4|7.5||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the A/H1N1 strain.||7.5|1.4|0.0036
82502185|NCT02611778|164695324|OTHER||Difference in least square means|1.73|STANDARD_ERROR_OF_MEAN|1.027|||TWO_SIDED|90.0|0.04|3.42|||ANCOVA||An ANCOVA model was used for the analysis with change in NEI VFQ-25 composite score between baseline and Week 48 as dependent variable, baseline NEI VFQ-25 composite score as covariate, and (pooled) country and treatment group as fixed effects.|There was no formal hypothesis testing.||3.42|0.04|
82502186|NCT02746874|164695330|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||.978
82442094|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|-3.0||||0.1465|TWO_SIDED|95.0|-7.0|1.0||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the A/H1N1 strain.||1.0|-7.0|0.1465
82442095|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|8.0|||<|0.001|TWO_SIDED|95.0|3.3|12.7||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the A/H3N2 strain.||12.7|3.3|<0.001
82442096|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|0.9||||0.7493|TWO_SIDED|95.0|-4.5|6.2||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the A/H3N2 strain.||6.2|-4.5|0.7493
82442097|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|20.2||||0|TWO_SIDED|95.0|13.5|27.0||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.5 mL Inflexal V vs. 0.25 mL Agrippal for the B-strain.||27.0|13.5|0.0000
82442098|NCT01310400|164592614|NON_INFERIORITY_OR_EQUIVALENCE|This study evaluated the non-inferiority of 0.5 mL Inflexal V and 0.25 mL Inflexal V in comparison to 0.25 mL Agrippal. Seroconversion rate was the primary endpoint. The difference in seroconversion rates between each Inflexal V and the control group was used for the evaluation of non-inferiority. If the lower limit of the 95% CI of this difference was greater than -10% for all 3 strains, the Inflexal V group was considered non-inferior to the control group.|Difference in seroconversion rates|10.7||||0.0029|TWO_SIDED|95.0|3.7|17.6||The significance level α = 0.05 (one-sided) was adjusted to α = 0.025 (one-sided) for the primary endpoint|Chi-squared|||This statistical anaylsis evaluated the non-inferiority of 0.25 mL Inflexal V vs. 0.25 mL Agrippal for the B-strain.||17.6|3.7|0.0029
82442099|NCT02370004|164592618|OTHER|||||||0.1|||||||t-test, 2 sided|||Paired T-tests were used to evaluate changes in spirometry results||||.10
82442100|NCT02963987|164592659|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82442101|NCT02963987|164592660|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
82502187|NCT02746874|164695332|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||.978
82502188|NCT02746874|164695333|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||.371
82502189|NCT02746874|164695334|SUPERIORITY|||||||0.325|||||||t-test, 2 sided|||||||.325
82502190|NCT02746874|164695335|SUPERIORITY|||||||0.466|||||||t-test, 2 sided|||||||.466
82502191|NCT02746874|164695336|SUPERIORITY|||||||0.368|||||||Wilcoxon (Mann-Whitney)|||||||.368
82502192|NCT02746874|164695337|SUPERIORITY|||||||0.509|||||||Wilcoxon (Mann-Whitney)|||||||.509
82502193|NCT02746874|164695338|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||.593
82502194|NCT02746874|164695339|SUPERIORITY|||||||0.687|||||||Wilcoxon (Mann-Whitney)|||||||0.687
82502195|NCT02746874|164695340|SUPERIORITY|||||||0.813|||||||Wilcoxon (Mann-Whitney)|||||||.813
82502196|NCT02746874|164695341|SUPERIORITY|||||||0.687|||||||Wilcoxon (Mann-Whitney)|||||||.687
82563938|NCT02367794|164837128|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.61||||0.0006|TWO_SIDED|95.0|0.46|0.81|||Log Rank|||Teff\>=-1.91||0.81|0.46|0.0006
82563939|NCT02367794|164837128|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.06||||0.63|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Teff\>=-1.91||1.33|0.84|0.630
82502197|NCT02746874|164695342|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.840
82563940|NCT02367794|164837128|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.88||||0.258|TWO_SIDED|95.0|0.7|1.1|||Log Rank|||Teff\<-1.91||1.10|0.70|0.258
82563941|NCT02367794|164837128|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.06||||0.63|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Teff\<-1.91||1.33|0.84|0.630
82502198|NCT02746874|164695343|SUPERIORITY|||||||0.913|||||||Wilcoxon (Mann-Whitney)|||||||.913
82502199|NCT02746874|164695344|SUPERIORITY|||||||0.301|||||||Wilcoxon (Mann-Whitney)|||||||0.301
82502200|NCT02746874|164695345|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
82563942|NCT02367794|164837129|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.4|0.72|||Log Rank|||||0.72|0.40|<.0001
82563943|NCT02367794|164837129|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61||||0.0018|TWO_SIDED|95.0|0.45|0.84|||Log Rank|||||0.84|0.45|0.0018
82563944|NCT02367794|164837130|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.48|0.77|||Log Rank|||||0.77|0.48|<.0001
82563945|NCT02367794|164837130|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.48|0.77|||Log Rank|||||0.77|0.48|<.0001
82563946|NCT02367794|164837131|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.725||||0.0518|TWO_SIDED|95.0|0.524|1.004|||Log Rank|||||1.004|0.524|0.0518
82502201|NCT02746874|164695346|SUPERIORITY|||||||0.813|||||||Wilcoxon (Mann-Whitney)|||||||.813
82502202|NCT02746874|164695348|SUPERIORITY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||.047
82502203|NCT02746874|164695349|SUPERIORITY|||||||0.115|||||||Wilcoxon (Mann-Whitney)|||||||.115
82502204|NCT02746874|164695350|SUPERIORITY|||||||0.349|||||||Wilcoxon (Mann-Whitney)|||||||.349
82502205|NCT01454947|164695357|SUPERIORITY|||||||0.007||||||P values computed using difference between proportions (z value) with Bonferroni correction.|2 proportion Z-test|||||||0.007
82502206|NCT03108027|164695358|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6096|||||TWO_SIDED|90.0|0.538|0.6811|||Mixed Models Analysis|||||0.6811|0.5380|
82502207|NCT03108027|164695358|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6152|||||TWO_SIDED|90.0|0.5437|0.6868|||Mixed Models Analysis|||||0.6868|0.5437|
82502208|NCT03108027|164695358|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-0.0057|||||TWO_SIDED|90.0|-0.076|0.0647|||Mixed Models Analysis|||||0.0647|-0.0760|
82625559|NCT00191386|164966620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 6 Months.|Paired t-test|||||||<0.001
82502209|NCT03108027|164695359|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.6206|||||TWO_SIDED|90.0|0.5335|0.7077|||Mixed Models Analysis|||||0.7077|0.5335|
82502210|NCT03108027|164695359|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|0.7347|||||TWO_SIDED|90.0|0.6469|0.8225|||Mixed Models Analysis|||||0.8225|0.6469|
82502211|NCT03108027|164695359|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-0.1141|||||TWO_SIDED|90.0|-0.197|-0.0311|||Mixed Models Analysis|||||-0.0311|-0.1970|
82502212|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|72.1|||||TWO_SIDED|90.0|61.3|82.9|||Mixed Models Analysis|||Morning average PEF||82.9|61.3|
82625560|NCT00191386|164966620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 12 Months.|Paired t-test|||||||<0.001
82502213|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|86.9|||||TWO_SIDED|90.0|76.1|97.8|||Mixed Models Analysis|||Morning average PEF||97.8|76.1|
82502214|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|-14.8|||||TWO_SIDED|90.0|-25.6|-4.1|||Mixed Models Analysis|||Morning average PEF||-4.1|-25.6|
82502215|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|73.1|||||TWO_SIDED|90.0|61.9|84.2|||Mixed Models Analysis|||Evening average PEF||84.2|61.9|
82502216|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|58.7||||||90.0|47.5|69.9|||Mixed Models Analysis|||Evening average PEF||69.9|47.5|
82502217|NCT03108027|164695360|OTHER|A hypothesis test is not planned for this study, inferences are to be performed by interpreting confidence interval of treatment difference.'|Mean Difference (Net)|14.4|||||TWO_SIDED|90.0|3.3|25.5|||Mixed Models Analysis|||Evening average PEF||25.5|3.3|
82502218|NCT02574247|164695368|OTHER|||||||0.34|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM at -9 dB SNR||||0.34
82502219|NCT02574247|164695368|OTHER|||||||0.64|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM at -6 dB SNR||||0.64
82502220|NCT02574247|164695368|OTHER|||||||0.24|||||||Spearman partial rank correlation|Age and high-frequency average controlled for.||Statistical analysis for the row IEEE at -6 dB SNR||||0.24
82502221|NCT02574247|164695368|OTHER|||||||0.2|||||||Spearman partial rank correlation|Age and high-frequency average controlled for.||Statistical analysis for the row IEEE at -3 dB SNR||||0.20
82502222|NCT02574247|164695371|OTHER|||||||0.03|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for the row CRM slope||||0.03
82502223|NCT02574247|164695371|OTHER|||||||0.04|||||||Spearman partial rank correlation|Age and high-frequency pure-tone average controlled for.||Statistical analysis for row IEEE slope||||0.04
82502224|NCT00770289|164695393|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.899|||<|0.0001|TWO_SIDED|95.0|0.886|0.911||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.911|0.886|<0.0001
82502225|NCT00770289|164695393|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.797|||<|0.0001|TWO_SIDED|95.0|0.771|0.82||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.820|0.771|<0.0001
82502226|NCT00770289|164695393|SUPERIORITY_OR_OTHER||Pearson's correlation coefficient|0.765|||<|0.0001|TWO_SIDED|95.0|0.736|0.791||The statistical testing was done at alpha = 0.05.|Pearson's correlation|||Change from baseline at Week 12: Pearson's correlation coefficient was used to evaluate compatibility between the questionnaires.||0.791|0.736|<0.0001
82625561|NCT00191386|164966620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 2 Years.|Paired t-test|||||||<0.001
82625562|NCT00191386|164966620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 3 Years.|Paired t-test|||||||<0.001
82625563|NCT00191386|164966620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 4 Years.|Paired t-test|||||||<0.001
82625564|NCT02038790|164966622|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||>0.5000
82625565|NCT02038790|164966623|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.0196
82502227|NCT02733991|164695395|SUPERIORITY||Mean Difference (Final Values)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.51|-2.25|||Mixed Models Analysis||Model based Estimated mean; Treatment arm - Control arm|||-2.25|-3.51|<0.0001
82502228|NCT02733991|164695396|SUPERIORITY||Mean Difference (Final Values)|-42.62|||<|0.0001|TWO_SIDED|95.0|-52.01|-33.19|||Mixed Models Analysis||Model based Estimated mean; Treatment arm - Control arm|||-33.19|-52.01|<0.0001
82625566|NCT02038790|164966624|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.0006
82625567|NCT02038790|164966625|SUPERIORITY_OR_OTHER|||||||0.4422|TWO_SIDED|||||Two-tailed level of significance of 0.05 and no adjustments made for the number of tests conducted.|Chi-squared|||||||0.4422
82625568|NCT02038790|164966626|SUPERIORITY_OR_OTHER|||||||0.2377|TWO_SIDED||||||Chi-squared|||||||0.2377
82625569|NCT02038790|164966627|SUPERIORITY_OR_OTHER|||||||0.0603|TWO_SIDED||||||Chi-squared|||||||0.0603
82625570|NCT02038790|164966628|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.0010
82625571|NCT02911519|164966643|SUPERIORITY||Risk Ratio (RR)|0.95||||0.59|TWO_SIDED|95.0|0.77|1.16|||Mixed Models Analysis||This is intention-to-treat analysis. The Brief Group Psychoeducation is the numerator and the group of Treatment as Usual Only is the denominator for relative risk.|||1.16|0.77|0.59
82625572|NCT02911519|164966644|SUPERIORITY||Risk Ratio (RR)|0.98||||0.73|TWO_SIDED|95.0|0.87|1.1|||Mixed Models Analysis||The Brief Group Psychoeducation is the numerator and the group of Treatment as Usual Only is the denominator for relative risk. This is intention-to-treat analysis.|||1.10|0.87|0.73
82625573|NCT02911519|164966645|SUPERIORITY||Slope|0.01||||0.94|TWO_SIDED|95.0|-0.36|0.39|||Mixed Models Analysis||This is intention-to-treat analysis.|||0.39|-0.36|0.94
82625574|NCT02911519|164966645|SUPERIORITY||Slope|-0.19||||0.3|TWO_SIDED|95.0|-0.57|0.18|||Mixed Models Analysis||This is intention-to-treat analysis.|||0.18|-0.57|0.30
82442102|NCT02963987|164592661|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82442103|NCT03180398|164592662|SUPERIORITY|It was hoped to compare radiomics features, using non-parametric tests, but this was not possible because of the small number of patients accrued.|||||||||||||||||Not enough patients were accrued for radiomics analysis. PI left institution and country. Analysis could not be completed.|||
82442104|NCT03180398|164592663|OTHER|Analysis could not be completed.|||||||||||||||||PI left institution and country. Analysis could not be completed.|||
82442105|NCT01394614|164592703|SUPERIORITY_OR_OTHER||Incidence-rate difference|0.41|||||TWO_SIDED||||||||Difference between the incidence rate of exposed-to-vaccine cases (0.52) and that of unexposed cases (0.11) is 0.41 per 100,000 persons-years|||||
82442106|NCT01394614|164592703|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.32|||||TWO_SIDED|95.0|1.5|11.12|||||Risk of developing narcolepsy if exposed to H1N1 vaccination (using the 16-week post-vaccination period as reference).|||11.12|1.5|
82442107|NCT01669421|164592704|OTHER|Data was analyzed with multiple repeat ANOVA for all visits and paired samples were also evaluated.|||||<|0.05|||||||Kruskal-Wallis|||IL-2||||<0.05
82442108|NCT01669421|164592704|OTHER|Kruskal-Wallis||||||0.035|||||||Kruskal-Wallis|||IL-4||||0.035
82442109|NCT01669421|164592704|OTHER|||||||0.33|||||||Kruskal-Wallis|||IL-8||||0.33
82442110|NCT01669421|164592704|OTHER|||||||0.68|||||||Kruskal-Wallis|||IL-9||||0.68
82442111|NCT01669421|164592704|OTHER|||||||0.02|||||||Kruskal-Wallis|||IL-17||||0.020
82442112|NCT01669421|164592704|OTHER|||||||0.021|||||||Kruskal-Wallis|||FGF||||0.021
82442113|NCT01669421|164592704|OTHER|||||||0.02|||||||Kruskal-Wallis|||Eotaxin||||0.02
82442114|NCT01669421|164592704|OTHER|||||||0.045|||||||Kruskal-Wallis|||GM-CSF||||0.045
82442115|NCT01669421|164592704|OTHER|||||||0.47|||||||Kruskal-Wallis|||IL15||||0.47
82442116|NCT01669421|164592704|OTHER|||||||0.9|||||||Kruskal-Wallis|||IL-1a||||0.90
82442117|NCT01669421|164592704|OTHER|||||||0.8|||||||Kruskal-Wallis|||IL18||||0.80
82442118|NCT01669421|164592704|OTHER|||||||0.027|||||||Kruskal-Wallis|||M-CSF||||0.027
82442119|NCT01669421|164592705|OTHER|||||||0.07|||||||Kruskal-Wallis|||No power calculation and this is an exploratory pilot analysis We expected cytokines to decrease after subjects receive double dose and a rebound after administering standard dose.||||0.07
82442120|NCT01669421|164592707|OTHER|between Week 4 and Week 8||||||0.03|||||||t-test, 2 sided|||Desmosine (DES) and isodesmosine (IDES) are used as indicator of elastin degradation. Levels of DES/IDES were measured using high-performance liquid chromatography and tandem mass spectrometry.||||0.03
82442121|NCT01669421|164592707|OTHER|||||||0.33|||||||t-test, 2 sided|||between Week 8 and Week 12||||0.33
82442122|NCT01669421|164592707|OTHER|||||||0.029|||||||Kruskal-Wallis|||between Week 4 and Week 12||||0.029
82442123|NCT01149486|164592708|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|93.45|||||TWO_SIDED|90.0|80.2|108.88|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.88|80.20|
82442124|NCT01149486|164592709|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.45|||||TWO_SIDED|90.0|93.15|106.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.18|93.15|
82442125|NCT01149486|164592710|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.4|||||TWO_SIDED|90.0|93.1|106.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.12|93.10|
82502229|NCT02733991|164695397|NON_INFERIORITY|Non-inferiority margin of 40 min/day|Mean Difference (Final Values)|-38.8|||||ONE_SIDED|97.5||-0.46|||||Model based Estimated mean; difference = control arm - treatment arm|||-0.46||
82502230|NCT02733991|164695397|SUPERIORITY||Mean Difference (Final Values)|38.8||||0.0474|TWO_SIDED|95.0|0.46|77.11|||Mixed Models Analysis||Model based Estimated mean; Difference = Treatment arm - Control arm|||77.11|0.46|0.0474
82502231|NCT03336853|164695427|SUPERIORITY||Mean Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.66|0.82|||t-test, 2 sided|||||0.82|0.66|<.0001
82502232|NCT01119131|164695428|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED||||||ANOVA|||||||0.699
82502233|NCT01119131|164695429|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||ANOVA|||||||0.308
82502234|NCT01119131|164695430|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED||||||ANOVA|||||||0.419
82502235|NCT01119131|164695431|SUPERIORITY_OR_OTHER|||||||0.253|TWO_SIDED||||||ANOVA|||||||0.253
82502236|NCT01119131|164695432|SUPERIORITY_OR_OTHER|||||||0.793|TWO_SIDED||||||ANOVA|||||||0.793
82502237|NCT01119131|164695434|SUPERIORITY_OR_OTHER|||||||0.949|TWO_SIDED||||||ANOVA|||||||0.949
82502238|NCT01119131|164695435|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANOVA|||||||0.957
82502239|NCT00732615|164695436|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|52.3|||<|0.001|TWO_SIDED|95.0|40.6|64.0||A fixed sequence test procedure was used to control the study level type I error. Order of test sequence started with the primary efficacy endpoint and proceeded to the 3 secondary efficacy endpoints, in the order defined in the protocol.|Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference between NPSP558 and the placebo treatment groups.|The above two sided asymptotic 95% confidence interval is based on normal approximation.|The null hypothesis is that the % of subjects meeting primary efficacy endpoint criteria are the same for both tmt arms. The sample size was determined based on the assumption that 40% and 10% of subjects for NPSP558 and pbo arms would meet the endpt criteria, respectively. Based on 2-tailed test, alpha of 0.05 and 2-to-1 randomization ratio, 84 (56 NPSP558, 28 pbo) subjects who completing the study would achieve 80% statistical power. Adjusted for dropouts, planned enrollment was 110 subjects.||64.0|40.6|<0.001
82625575|NCT02911519|164966647|SUPERIORITY||Slope|0.03||||0.61|TWO_SIDED|95.0|-0.1|0.17|||Mixed Models Analysis||This is an intention to treat analysis.|||0.17|-0.10|0.61
82502240|NCT00732615|164695437|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the primary endpoint reached statistical significance.|ANCOVA|ANCOVA analysis conducted using percentage change from baseline as dependent variable, treatment as factor, and baseline calcium dose as covariate.||The null hypothesis is that there is no difference between the percentage changes from baseline for the two treatment arms.||||<0.001
82502241|NCT00732615|164695438|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.711|||<|0.001|TWO_SIDED|95.0|2.619|52.363||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the first secondary endpoint reached statistical significance.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference between the proportions of subjects (who achieved this secondary endpoint) from the two treatment arms.||52.363|2.619|<0.001
82502242|NCT00732615|164695439|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.879||||0.747|TWO_SIDED|95.0|0.402|1.922||Following fixed sequence test procedure described in the primary endpoint section, statistical hypothesis testing was conducted for this secondary endpoint after the testing for the second secondary endpoint reached statistical significance.|Cochran-Mantel-Haenszel|||The null hypothesis is that the percentages of subjects with any reported clinical symptoms for the two treatment arms are the same.||1.922|0.402|0.747
82502243|NCT01528254|164695462|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.45|0.58|||Regression, Cox|||||0.58|0.45|<0.001
82502244|NCT01528254|164695463|OTHER||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.042|TWO_SIDED|95.0|-0.05|0.0|||Mixed Models Analysis|||||0.00|-0.05|0.042
82502245|NCT01528254|164695464|OTHER||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.19||0.635|TWO_SIDED|95.0|-0.29|0.47|||Mixed Models Analysis|||||0.47|-0.29|0.635
82502246|NCT01528254|164695465|OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.53|TWO_SIDED|95.0|-0.05|0.02|||Mixed Models Analysis|||||0.02|-0.05|0.530
82502247|NCT01528254|164695466|OTHER||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.32||0.381|TWO_SIDED|95.0|-0.35|0.9|||Mixed Models Analysis|||||0.90|-0.35|0.381
82502248|NCT01528254|164695467|OTHER||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.23||0.744|TWO_SIDED|95.0|-0.53|0.38|||Mixed Models Analysis|||From Week 13 to end of Period 1||0.38|-0.53|0.744
82502249|NCT01528254|164695467|OTHER||Slope|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.017|TWO_SIDED|95.0|-0.91|-0.09|||Mixed Models Analysis|||From Week 13 to end of Period 2||-0.09|-0.91|0.017
82502250|NCT01528254|164695467|OTHER||Slope|-0.58|STANDARD_ERROR_OF_MEAN|0.21||0.006|TWO_SIDED|95.0|-0.99|-0.17|||Mixed Models Analysis|||From Week 13 to end of study||-0.17|-0.99|0.006
82502251|NCT01528254|164695468|OTHER||Slope|-5.03|STANDARD_ERROR_OF_MEAN|2.16||0.02|TWO_SIDED|95.0|-9.26|-0.79|||Mixed Models Analysis|||From Week 13 to end of Period 1||-0.79|-9.26|0.020
82502252|NCT01528254|164695468|OTHER||Slope|-5.08|STANDARD_ERROR_OF_MEAN|1.73||0.003|TWO_SIDED|95.0|-8.46|-1.69|||Mixed Models Analysis|||From Week 13 to end of Period 2||-1.69|-8.46|0.003
82502253|NCT01528254|164695468|OTHER||Slope|-5.38|STANDARD_ERROR_OF_MEAN|1.64||0.001|TWO_SIDED|95.0|-8.61|-2.16|||Mixed Models Analysis|||From Week 13 to end of study||-2.16|-8.61|0.001
82502254|NCT01414075|164695485|OTHER|||||||0.0757||||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis of covariance (ANCOVA) model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.0757
82502255|NCT01414075|164695485|OTHER|||||||0.063||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.0630
82502256|NCT01414075|164695485|OTHER|||||||0.8653||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.8653
82625576|NCT02911519|164966648|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 1ST DOMAIN (physical health) in the first row.|Slope|0.04||||0.81|TWO_SIDED|95.0|-0.38|0.3|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 1ST DOMAIN (physical health) in the first row.|||0.30|-0.38|0.81
82502257|NCT01414075|164695485|OTHER|||||||0.8982||||||Threshold for significance at 0.05 level.|ANCOVA|||ANCOVA model with treatment as a factor, baseline Hb and iron repletion status as covariates was used to compare treatments.||||0.8982
82502258|NCT00840294|164695539|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
82502259|NCT00828347|164695543|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Fisher Exact|||||||0.036
82502260|NCT02669433|164695544|SUPERIORITY||Mean Difference (Final Values)|-2.01||||0.158|TWO_SIDED|95.0|-4.8|0.79||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.79|-4.80|0.158
82502261|NCT02669433|164695544|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.6069|TWO_SIDED|95.0|-2.08|3.55||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||3.55|-2.08|0.6069
82502262|NCT02669433|164695545|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.6531|TWO_SIDED|95.0|-2.55|1.6|||Mixed Models Analysis||Placebo - active|||1.60|-2.55|0.6531
82502263|NCT02669433|164695545|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.5274|TWO_SIDED|95.0|-1.41|2.75||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||2.75|-1.41|0.5274
82502264|NCT02669433|164695546|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.3953|TWO_SIDED|95.0|-0.2|0.5||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.5|-0.2|0.3953
82502265|NCT02669433|164695546|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.7008|TWO_SIDED|95.0|-0.28|0.42||The threshold for statistical significance was p=0.05|Mixed Models Analysis||Placebo - active|||0.42|-0.28|0.7008
82502266|NCT00576927|164695548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.655|TWO_SIDED|95.0|0.156|8.717||p-value suspect because of sparse cell counts|Chi-squared|||||8.717|0.156|0.655
82502267|NCT00883116|164695551|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.0397|TWO_SIDED|95.0|1.0|1.7|||Log Rank|||||1.7|1.0|0.0397
82625577|NCT02911519|164966648|SUPERIORITY|This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 2ND DOMAIN (psychological) in the second row.|Slope|-0.04||||0.81|TWO_SIDED|95.0|-0.38|0.29|||Mixed Models Analysis||This is an intention to treat analysis.This statistical Analysis applies to WHOQOL-BREF 2ND DOMAIN (psychological) in the second row.|||0.29|-0.38|0.81
82502268|NCT00883116|164695552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.8011|TWO_SIDED|95.0|0.8|1.3|||Log Rank|||||1.3|0.8|0.8011
82502269|NCT03715764|164695555|SUPERIORITY|||||||0.87||||||Results for the final model, variable GROUP, adjusted for confounders.|Mixed Models Analysis|||||||0.87
82502270|NCT03715764|164695555|SUPERIORITY||||||<|0.001||||||Results for the final model for the variable TIME, adjusted for confounders.|Mixed Models Analysis|||||||<0.001
82502271|NCT03715764|164695555|SUPERIORITY|||||||0.18||||||Results for the final model, variable Group x Time (Statistical interaction of group and time), adjusted for confounders.|Mixed Models Analysis|||||||0.18
82502272|NCT03715764|164695556|SUPERIORITY|||||||0.56||||||Results for the final model, variable GROUP, adjusted for confounders.|Mixed Models Analysis|||||||0.56
82502273|NCT03715764|164695556|SUPERIORITY|||||||0.0049||||||Results for the final model, variable TIME, adjusted for confounders.|Mixed Models Analysis|||||||0.0049
82502274|NCT03715764|164695556|SUPERIORITY|||||||0.49||||||Results for the final model, adjusted for confounders, for the variable Group x Time (Statistical interaction of group and time).|Mixed Models Analysis|||||||0.49
82502275|NCT03715764|164695557|SUPERIORITY|Used as a confounder in the mixed effect model analysis for primary outcome. All participants enrolled in the study were included in the 12 months analysis.|||||<|0.2||||||Confounding variables with p-values \< 0.2 were carried forward to the final model.|Mixed Models Analysis|||||||<0.2
82502276|NCT03715764|164695558|SUPERIORITY|Used as a confounder in the mixed effect model analysis for primary outcome. All participants enrolled in the study were included in the 12 months analysis.|||||<|0.2||||||Confounding variables with p-values \< 0.2 were carried forward to the final model.|Mixed Models Analysis|||||||<0.2
82502277|NCT01698801|164695569|SUPERIORITY_OR_OTHER||Overall dichotomized response rate|87.5|||<|0.0001|TWO_SIDED|95.0|74.269|100.0||One sample binomial test for the overall response rate was performed to provide p-value (significance level: 0.05) based on EE population. The hypotheses of interest are: H0: p = 0.3, H1: p ≠ 0.3, where p is overall response.|Binomial test for dichotomized response|||||100|74.269|<0.0001
82502278|NCT00775645|164695595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.17|TWO_SIDED|95.0|-2.2|0.4|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||0.4|-2.2|0.17
82502279|NCT00775645|164695596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.92|TWO_SIDED|95.0|-3.0|2.7|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||2.7|-3|0.92
82502280|NCT00775645|164695597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2|TWO_SIDED|95.0|-0.7|3.3|||Regression, Linear|Linear regression model adjusted for baseline score, taxane regiment, and age.||||3.3|-0.7|0.20
82502281|NCT00775645|164695598|SUPERIORITY|||||||0.46|||||||Regression, Linear|Adjusted for randomization stratification factors.||||||0.46
82502282|NCT02625259|164695603|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.36|||||TWO_SIDED|90.0|1.0|1.83||||||Analysis of variance was performed for calculating 90 percent (%) confidence intervals (CIs) for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet versus capsule dosage form.||1.83|1.00|
82502283|NCT02625259|164695603|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.2|||||TWO_SIDED|90.0|0.86|1.67||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet dosage form with food versus without food.||1.67|0.86|
82502284|NCT02625259|164695603|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.03|||||TWO_SIDED|90.0|0.02|0.07||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean Cmax of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.07|0.02|
82502285|NCT02625259|164695605|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.47|||||TWO_SIDED|90.0|0.98|2.18||||||Analysis of variance was performed for calculating 90 % CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet versus capsule dosage form.||2.18|0.98|
82502286|NCT02625259|164695605|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.76|||||TWO_SIDED|90.0|1.11|2.78||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet dosage form with food versus without food.||2.78|1.11|
82502287|NCT02625259|164695605|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.02|||||TWO_SIDED|90.0|0.01|0.04||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUClast of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.04|0.01|
82502288|NCT02625259|164695606|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.53|||||TWO_SIDED|90.0|0.93|2.51||||||Analysis of variance was performed for calculating 90 % CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet versus capsule dosage form.||2.51|0.93|
82502289|NCT02625259|164695606|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.5|||||TWO_SIDED|90.0|1.0|2.25||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet dosage form with food versus without food.||2.25|1.00|
82502290|NCT02625259|164695606|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.08|||||TWO_SIDED|90.0|0.03|0.18||||||Analysis of variance was performed for calculating 90% CIs for the ratios of log-transformed geometric mean AUC∞ of TAK-117 tablet dosage form with lansoprazole versus a single dose of TAK-117 alone.||0.18|0.03|
82502291|NCT00665847|164695620|SUPERIORITY_OR_OTHER||Proportion|52.5|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|42.7|62.2|||||The standard error for a proportion was calculated as the square root of the variance divided by the number of patients. The variance for a proportion is equal to p\*(1-p), with p being the proportion.|||62.2|42.7|
82502292|NCT01662908|164695644|OTHER||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|10.74|||TWO_SIDED|95.0|-12.7|30.2||||||||30.2|-12.7|
82502293|NCT03274687|164695657|NON_INFERIORITY|The non-inferiority margin for the difference in mean change score (∆2 - ∆1) is -5.||||||0.98|||||||t-test, 1 sided|||Null hypothesis (H0): mean change score of HYPORT (∆2) is worse than that of COPORT (∆1), specifically ∆2 - ∆1 \< -5. Alternative hypothesis (HA): ∆2 is not worse than ∆1, specifically ∆2 - ∆1 ≥ -5. The study sample size is based on 90% power for this endpoint and 91% power for the bowel endpoint (resulting in 81.9% statistical power to reject the null hypothesis for both endpoints) and a one-sided alpha=0.025 with an overall type I error of 0.05 with a Bonferroni adjustment.||||0.98
82502294|NCT03274687|164695658|NON_INFERIORITY|The non-inferiority margin for the difference in mean change score (∆2 - ∆1) is -6.||||||0.96|||||||t-test, 1 sided|||Null hypothesis (H0): mean change score of HYPORT (∆2) is worse than that of COPORT (∆1), specifically ∆2 - ∆1 \< -5. Alternative hypothesis (HA): ∆2 is not worse than ∆1, specifically ∆2 - ∆1 ≥ -5. The study sample size is based on 91% power for this endpoint and 90% power for the urinary endpoint (resulting in 81.9% statistical power to reject the null hypothesis for both endpoints) and a one-sided alpha=0.025 with an overall type I error of 0.05 with a Bonferroni adjustment.||||0.96
82502295|NCT03274687|164695659|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||End of RT||||0.70
82502296|NCT03274687|164695659|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||6 months||||0.67
82502297|NCT03274687|164695659|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||1 year||||0.66
82502298|NCT03274687|164695660|SUPERIORITY|||||||0.0011|||||||t-test, 2 sided|||End of RT||||0.0011
82502299|NCT03274687|164695660|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||6 months||||0.93
82502300|NCT03274687|164695660|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||1 year||||0.30
82502301|NCT03274687|164695661|SUPERIORITY|||||||0.29|||||||Gray's test|Two-sided significance level 0.05||Protocol definition of biochemical failure||||0.29
82502302|NCT03274687|164695661|SUPERIORITY|||||||0.22|||||||Gray's test|Two-sided significance level 0.05||Phoenix definition of biochemical failure||||0.22
82502303|NCT03274687|164695662|SUPERIORITY|||||||0.96||||||Two-sided significance level 0.05|Gray's test|||||||0.96
82502304|NCT03274687|164695663|SUPERIORITY|||||||0.35||||||Two-sided significance level 0.05|Gray's test|||||||0.35
82502305|NCT03274687|164695664|SUPERIORITY|||||||0.41||||||Two-sided significance level 0.05|Gray's test|||||||0.41
82502306|NCT03274687|164695665|SUPERIORITY|||||||0.6||||||Two-sided significance level 0.05|Gray's test|||||||0.60
82502307|NCT03274687|164695667|SUPERIORITY||Hazard Ratio (HR)|1.58||||0.61|TWO_SIDED|95.0|0.26|9.47||Two-side significance level 0.05|Log Rank||Reference = COPORT|||9.47|0.26|0.61
82502308|NCT03274687|164695668|SUPERIORITY|||||||0.53|||||||Chi-squared|||Patients with any grade 3 or higher adverse event of any attribution||||0.53
82502309|NCT03274687|164695668|SUPERIORITY|||||||0.6929|||||||Chi-squared|||Patients with any grade 3 or higher gastrointestinal adverse event of any attribution||||0.6929
82502310|NCT03274687|164695668|SUPERIORITY|||||||0.2605|||||||Chi-squared|||Patients with any grade 3 or higher genitourinary adverse event of any attribution||||0.2605
82502311|NCT00613938|164695669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.4|STANDARD_ERROR_OF_MEAN|11.9|<|0.001||95.0|39.01|85.73||Comparisons of tapentadol dose groups and placebo was performed with Hochberg procedure for adjustment for the multiple tests.|ANCOVA||The results shown are the treatment group differences between Tapentadol IR 50mg group and placebo.|Null hypothesis: There are no differences in pain intensity measured by SPID-48 hours between any of tapentadol dose groups and placebo. ANCOVA model with factors of treatment, center and baseline pain intensity score was used for the primary analysis.||85.73|39.01|<0.001
82502312|NCT01163279|164695815|SUPERIORITY_OR_OTHER|||||||0.03||||||Statistical analysis applies to post intervention performance category|Chi-squared|||||||0.03
82502313|NCT01163279|164695815|SUPERIORITY_OR_OTHER|||||||0.32||||||Statistical analysis applies to post intervention satisfaction category|Chi-squared|||||||0.32
82502314|NCT01163279|164695815|SUPERIORITY_OR_OTHER|||||||0.54||||||Statistical analysis applies to 3-month follow up performance category|Chi-squared|||||||0.54
82502315|NCT01163279|164695815|SUPERIORITY_OR_OTHER|||||||0.26||||||Statistical analysis applies to 3-month follow up satisfaction category|Chi-squared|||||||0.26
82502316|NCT01163279|164695816|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
82502317|NCT01163279|164695817|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
82502318|NCT01163279|164695818|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
82502319|NCT01163279|164695819|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
82502320|NCT01163279|164695820|SUPERIORITY_OR_OTHER||||||<|0.1||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.1
82502321|NCT01163279|164695820|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
82502322|NCT01163279|164695821|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.05
82502323|NCT01163279|164695821|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||>0.05
82502324|NCT01163279|164695822|SUPERIORITY_OR_OTHER||||||<|0.1||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||<0.1
82502325|NCT01163279|164695822|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
82502326|NCT01163279|164695823|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||<0.05
82502327|NCT01163279|164695824|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention category|ANOVA|||||||>0.05
82502328|NCT01163279|164695824|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical analysis applies to 3 months post intervention category|ANOVA|||||||<0.05
82502329|NCT01163279|164695825|SUPERIORITY_OR_OTHER||||||>|0.05||||||Statistical analysis applies to immediately post intervention and 3 months post intervention categories|ANOVA|||||||>0.05
82502330|NCT03914326|164695865|SUPERIORITY|Time from randomisation to first EAC-confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor.|Hazard Ratio (HR)|0.86||||0.0028|TWO_SIDED|95.0|0.77|0.96|||Regression, Cox|||||0.96|0.77|0.0028
82502331|NCT03274440|164695890|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.577|||||||Linear mixed effects regression|||Test for interaction effect between condition and time (includes all three groups and all time points)||||.577
82502332|NCT03274440|164695890|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.|||||<|0.001|||||||Linear mixed effects regression|F=10.50; df=6, 10||Test for main effect of time (includes all three groups and all time points)||||<.001
82502333|NCT03274440|164695890|OTHER|A random-effects linear mixed model evaluated changes in YBOCCS as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.72|||||||Linear mixed effects regression|||Test for main effect of condition (includes all three groups and all time points)||||.72
82502334|NCT03274440|164695891|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.577|||||||Linear mixed effects regression|||Test for interaction between condition and time||||.577
82502335|NCT03274440|164695891|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.|||||<|0.001|||||||Linear mixed effects regression|F=7.00, df=6,10||Test for main effect of time||||<.001
82502336|NCT03274440|164695891|OTHER|A random-effects linear mixed model evaluated changes in STAI-S as a function of condition (THC, CBD, placebo \[PBO\]), time point, and their interaction.||||||0.002|||||||Linear mixed effects regression|F=6.26, df=2, 10||Test for main effect of condition||||.002
82502337|NCT01291173|164695892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.014||||0.8825|TWO_SIDED|95.0|-0.203|0.175|||Mixed Models Analysis|||||0.175|-0.203|0.8825
82563947|NCT02367794|164837131|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.832||||0.2841|TWO_SIDED|95.0|0.594|1.165|||Log Rank|||||1.165|0.594|0.2841
82502338|NCT01291173|164695892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.258||||0.0077|TWO_SIDED|95.0|-0.446|-0.069|||Mixed Models Analysis|||||-0.069|-0.446|0.0077
82502339|NCT01291173|164695892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.345||||0.0004|TWO_SIDED|95.0|-0.534|-0.155|||Mixed Models Analysis|||||-0.155|-0.534|0.0004
82502340|NCT01291173|164695893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4676|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.4676
82502341|NCT01291173|164695893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0198|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0198
82502342|NCT01291173|164695893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0031
82502343|NCT01291173|164695894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3341|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.3341
82502344|NCT01291173|164695894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0063
82502345|NCT01291173|164695894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0022
82563948|NCT02367794|164837132|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.871||||0.2956|TWO_SIDED|95.0|0.671|1.129|||Log Rank|||||1.129|0.671|0.2956
82563949|NCT02367794|164837132|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.861||||0.2473|TWO_SIDED|95.0|0.668|1.109|||Log Rank|||||1.109|0.668|0.2473
82502346|NCT01291173|164695895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0937|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0937
82502347|NCT01291173|164695895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0127
82502348|NCT01291173|164695895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0009
82502349|NCT01291173|164695898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0091|TWO_SIDED|95.0|||||Chi-squared|||||||0.0091
82502350|NCT01291173|164695898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED|95.0|||||Chi-squared|||||||0.0004
82502351|NCT01291173|164695898|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Chi-squared|||||||<0.0001
82502352|NCT01291173|164695899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.97||||0.0142|TWO_SIDED|95.0|-5.34|-0.6|||Mixed Models Analysis|||||-0.60|-5.34|0.0142
82502353|NCT01291173|164695899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.25||||0.0075|TWO_SIDED|95.0|-5.62|-0.88|||Mixed Models Analysis|||||-0.88|-5.62|0.0075
82563950|NCT02367794|164837133|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.0248|TWO_SIDED|95.0|1.04|1.91|||Cochran-Mantel-Haenszel|||||1.91|1.04|0.0248
82563951|NCT02367794|164837133|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.4||||0.0308|TWO_SIDED|95.0|1.03|1.9|||Cochran-Mantel-Haenszel|||||1.90|1.03|0.0308
82563952|NCT02367794|164837134|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.408|0.689|||Log Rank|||||0.689|0.408|<.0001
82563953|NCT02367794|164837134|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.64||||0.0007|TWO_SIDED|95.0|0.493|0.831|||Log Rank|||||0.831|0.493|0.0007
82502354|NCT01291173|164695899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.93|||<|0.0001|TWO_SIDED|95.0|-7.3|-2.56|||Mixed Models Analysis|||||-2.56|-7.30|<0.0001
82502355|NCT01291173|164695900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15||||0.7538|TWO_SIDED|95.0|-1.11|0.8|||Mixed Models Analysis|||||0.80|-1.11|0.7538
82502356|NCT01291173|164695900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49||||0.3062|TWO_SIDED|95.0|-0.45|1.44|||Mixed Models Analysis|||||1.44|-0.45|0.3062
82502357|NCT01291173|164695900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14||||0.7697|TWO_SIDED|95.0|-0.81|1.09|||Mixed Models Analysis|||||1.09|-0.81|0.7697
82502358|NCT01291173|164695901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53||||0.2046|TWO_SIDED|95.0|-0.29|1.35|||Mixed Models Analysis|||||1.35|-0.29|0.2046
82502359|NCT01291173|164695901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3348|TWO_SIDED|95.0|-0.42|1.22|||Mixed Models Analysis|||||1.22|-0.42|0.3348
82502360|NCT01291173|164695901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81||||0.0505|TWO_SIDED|95.0|0.0|1.63|||Mixed Models Analysis|||||1.63|-0.00|0.0505
82502361|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0371|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.0371
82502362|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.1380
82502363|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0459|TWO_SIDED|95.0|||||Mixed Models Analysis|||Cognitive Restraint of Eating||||0.0459
82502364|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0278|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||0.0278
82502365|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||0.0022
82502366|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Disinhibition||||<0.0001
82502367|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0149|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||0.0149
82502368|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||0.0009
82502369|NCT01291173|164695902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Hunger||||<0.0001
82502370|NCT01291173|164695903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9||||0.03|TWO_SIDED|95.0|-7.44|-0.38|||Mixed Models Analysis|||||-0.38|-7.44|0.030
82625578|NCT02911519|164966648|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 3RD DOMAIN (social relationships) in the third row.|Slope|0.16||||0.52|TWO_SIDED|95.0|-0.33|0.65|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 3RD DOMAIN (social relationships) in the third row.|||0.65|-0.33|0.52
82502371|NCT01291173|164695903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4||||0.002|TWO_SIDED|95.0|-8.95|-1.94|||Mixed Models Analysis|||||-1.94|-8.95|0.002
82502372|NCT01291173|164695903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|||<|0.001|TWO_SIDED|95.0|-11.99|-4.92|||Mixed Models Analysis|||||-4.92|-11.99|<0.001
82502373|NCT01291173|164695904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.65||||0.0824|TWO_SIDED|95.0|-5.64|0.34|||Mixed Models Analysis|||||0.34|-5.64|0.0824
82502374|NCT01291173|164695904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.07||||0.1725|TWO_SIDED|95.0|-5.05|0.91|||Mixed Models Analysis|||||0.91|-5.05|0.1725
82502375|NCT01291173|164695904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.71||||0.0148|TWO_SIDED|95.0|-6.69|-0.73|||Mixed Models Analysis|||||-0.73|-6.69|0.0148
82502376|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.25||||0.2504|TWO_SIDED|95.0|-0.89|3.38|||Mixed Models Analysis|||Aggregate Physical Score||3.38|-0.89|0.2504
82502377|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.09||||0.309|TWO_SIDED|95.0|-1.02|3.21|||Mixed Models Analysis|||Aggregate Physical Score||3.21|-1.02|0.3090
82502378|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.0216|TWO_SIDED|95.0|0.37|4.64|||Mixed Models Analysis|||Aggregate Physical Score||4.64|0.37|0.0216
82502379|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.9587|TWO_SIDED|95.0|-2.75|2.9|||Mixed Models Analysis|||Aggregate Mental Score||2.90|-2.75|0.9587
82502380|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64||||0.653|TWO_SIDED|95.0|-2.17|3.45|||Mixed Models Analysis|||Aggregate Mental Score||3.45|-2.17|0.6530
82502381|NCT01291173|164695905|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.9814|TWO_SIDED|95.0|-2.79|2.86|||Mixed Models Analysis|||Aggregate Mental Score||2.86|-2.79|0.9814
82502382|NCT04984993|164695917|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 0 versus alternative hypothesis: mu \>0, where mu is the population mean change from baseline in the EF domain of the IIEF questionnaire at week 24.||||<0.001
82502383|NCT04984993|164695918|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 15 minutes.||||<0.001
82502384|NCT04984993|164695918|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 10 minutes.||||<0.001
82502385|NCT04984993|164695918|OTHER|||||||0.89||||||Significance level of 0.025|t-test, 1 sided|||Null hypothesis: mu \<= 30 versus alternative hypothesis: mu \>30, where mu is the population mean percentage of MED3000 uses per patient that resulted in the patient noticing their erection starting within 5 minutes.||||0.890
82502386|NCT04984993|164695919|OTHER||||||<|0.001||||||Significance level of 0.025|t-test, 1 sided|||||||<0.001
82502387|NCT04984993|164695919|OTHER|||||||0.3327||||||Significance level of 0.025|t-test, 1 sided|||||||0.3327
82502388|NCT04984993|164695919|OTHER||||||>|0.999||||||Significance level of 0.025|t-test, 1 sided|||||||>0.999
82502389|NCT00810407|164695935|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||"The factor tested was diagnosis. The null hypothesis was that there was no association between diagnosis and the number of participants with treatment-related adverse events."||||<0.001
82502390|NCT00810407|164695936|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||"The factor tested was gender. The null hypothesis was that there was no association between gender and the number of participants with treatment-related adverse events."||||<0.001
82625579|NCT02911519|164966648|SUPERIORITY|This statistical Analysis applies to WHOQOL-BREF 4TH DOMAIN (environment) in the fourth row.|Slope|0.19||||0.27|TWO_SIDED|95.0|-0.15|0.53|||Mixed Models Analysis||This is an intention to treat analysis. This statistical Analysis applies to WHOQOL-BREF 4TH DOMAIN (environment) in the fourth row.|||0.53|-0.15|0.27
82625580|NCT02911519|164966649|SUPERIORITY|This analysis applies to SSFB objective domain in the first row.|Slope|-0.01||||0.33|TWO_SIDED|95.0|-0.01|0.01|||Mixed Models Analysis||This is an intention to treat analysis. This analysis applies to SSFB objective domain in the first row.|||0.01|-0.01|0.33
82625581|NCT02911519|164966649|SUPERIORITY|This is an intention to treat analysis. This analysis applies to SSFB subjective domain in the second row.|Slope|-0.01||||0.19|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis||This is an intention to treat analysis. This analysis applies to SSFB subjective domain in the second row.|||0.01|-0.02|0.19
82625582|NCT02911519|164966650|SUPERIORITY||Slope|0.01||||0.97|TWO_SIDED|95.0|-0.19|0.19|||Mixed Models Analysis||This is an intention to treat analysis.|||0.19|-0.19|0.97
82625583|NCT00792701|164966674|OTHER|Correlation|Correlation Coefficient|0.39||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82625584|NCT00792701|164966677|SUPERIORITY_OR_OTHER_LEGACY||Correlation Coefficient|0.39||||0.0003|TWO_SIDED||||||Chi-squared|||Comparing RRM1 levels and ERCC1 levels between all patients.||||.0003
82625585|NCT01525667|164966695|SUPERIORITY_OR_OTHER||Least Square Means (LSM) Difference|25.74|STANDARD_ERROR_OF_MEAN|8.94||0.0067|TWO_SIDED|95.0|7.61|43.86|||Mixed Models Analysis||LSM difference =LSM Low dose - LSM Placebo|||43.86|7.61|0.0067
82625586|NCT01525667|164966695|SUPERIORITY_OR_OTHER||Least Square Means (LSM) difference|14.93|STANDARD_ERROR_OF_MEAN|10.8||0.18|TWO_SIDED|95.0|-7.12|36.99|||Mixed Models Analysis||LSM difference= LSM High Dose - LSM Placebo|||36.99|-7.12|0.18
82625587|NCT01525667|164966696|SUPERIORITY_OR_OTHER||LSM Difference|18.03|STANDARD_ERROR_OF_MEAN|5.97||0.004|TWO_SIDED|95.0|6.03|30.02|||Mixed Models Analysis|||||30.02|6.03|0.004
82625588|NCT01525667|164966696|SUPERIORITY_OR_OTHER||LSM difference|9.23|STANDARD_ERROR_OF_MEAN|6.91||0.19|TWO_SIDED|95.0|-4.72|23.17|||Mixed Models Analysis|||||23.17|-4.72|0.19
82625589|NCT01525667|164966697|SUPERIORITY_OR_OTHER||LSM Difference|6.45|STANDARD_ERROR_OF_MEAN|4.64||0.19|TWO_SIDED|95.0|-3.5|16.41|||ANCOVA|||||16.41|-3.50|0.19
82625590|NCT01525667|164966697|SUPERIORITY_OR_OTHER||LSM difference|5.49|STANDARD_ERROR_OF_MEAN|4.56||0.25|TWO_SIDED|95.0|-4.29|15.26|||ANCOVA|||||15.26|-4.29|0.25
82625591|NCT01525667|164966698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.19||0.4|TWO_SIDED|95.0|-0.21|0.53|||Mixed Models Analysis|||||0.53|-0.21|0.4
82625592|NCT01525667|164966698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.011|STANDARD_ERROR_OF_MEAN|0.2||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||0.96
82625593|NCT01525667|164966699|SUPERIORITY_OR_OTHER||LSM difference|16.81|STANDARD_ERROR_OF_MEAN|8.37||0.05|TWO_SIDED|95.0|0.16|33.47|||Mixed Models Analysis|||||33.47|0.16|0.05
82625594|NCT01525667|164966699|SUPERIORITY_OR_OTHER||LSM difference|10.7|STANDARD_ERROR_OF_MEAN|9.01||0.24|TWO_SIDED|95.0|-7.26|28.65|||Mixed Models Analysis|||||28.65|-7.26|0.24
82625595|NCT01112982|164966700|OTHER|||||||0.34|||||||t-test, 2 sided|||Presence of synovial pannus and the serum urate level.||||0.34
82625596|NCT01112982|164966702|OTHER|Spearman Correlation Coefficient||||||0.73|||||||t-test, 1 sided|||The Severity of Synovial Pannus and the Serum Urate level.||||0.73
82625597|NCT01112982|164966703|OTHER|correlation between severity of synovial pannus and the serum urate level.||||||0.73|||||||t-test, 1 sided|||||||0.73
82625598|NCT01112982|164966704|OTHER|||||||0.32||||||"The presence of synovial pannus in the index joint."|t-test, 1 sided|||||||0.32
82625599|NCT01112982|164966705|OTHER|Kappa Coefficient||||||0.09|||||||t-test, 2 sided|||The absence of erosive changes.||||0.09
82625600|NCT01112982|164966705|OTHER|the absence of Intraosseous Tophi.||||||0.33|||||||t-test, 2 sided|||||||0.33
82625601|NCT01112982|164966705|OTHER|The absence of Soft Tissue Tophi||||||0.09|||||||t-test, 2 sided|||||||0.09
82625602|NCT01112982|164966705|OTHER|The absence of Joint Effusion.||||||0.31|||||||t-test, 2 sided|||||||0.31
82563954|NCT02367794|164837135|SUPERIORITY||Difference in Event Free Rate|0.06||||0.9871|TWO_SIDED|95.0|-7.48|7.61|||Z-test|||Event Free Rate (%) at Year 1||7.61|-7.48|0.9871
82625603|NCT01112982|164966705|OTHER|The absence of Bone Marrow Edema.||||||0.25|||||||t-test, 2 sided|||||||0.25
82625604|NCT01112982|164966705|OTHER|The absence of Soft Tissue Edema.||||||0.14|||||||t-test, 2 sided|||||||0.14
82625605|NCT01112982|164966706|OTHER|||||||0.32||||||"The Presence of synovial Pannus in the index joint."|t-test, 1 sided|||||||0.32
82625606|NCT01112982|164966706|OTHER|||||||0.99||||||"The Severity of Synovial Pannus in the index joint."|t-test, 1 sided|||||||0.99
82625607|NCT00587834|164966730|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact Bionomial Test|||Superiority relative to a pre-defined standard (50% success)||||<0.0001
82625608|NCT00587834|164966731|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||McNemar|||Compare participants with (1) Gintuit equally red and Control not equally red to (2) Gintuit not equally red and Control equally red||||<0.0001
82625609|NCT00587834|164966732|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||McNemar|||Compare participants with (1)Gintuit equally firm and Control not equally firm to (2) Gintuit not equally firm and Control equally firm||||<0.0001
82625610|NCT00587834|164966733|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact binomial test|||Superiority relative to a pre-defined threshold (80%) success||||<0.0001
82625611|NCT00587834|164966734|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Exact binomial test|||The proportion of Gintuit as the preferred procedure.||||<0.0001
82625612|NCT00587834|164966735|SUPERIORITY_OR_OTHER|||||||0.3173||95.0|||||McNemar|McNemar's paired comparison test||Compare participants with (1) Gintuit not sensitive and Control sensitive to (2) Gintuit sensitive and Control not sensitive.||||0.3173
82639433|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|119.0||||0.2351|TWO_SIDED|95.0|93.2|151.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||151|93.2|0.2351
82502391|NCT00810407|164695937|SUPERIORITY_OR_OTHER|||||||0.587|||||||Fisher Exact|||"The factor tested was age. The null hypothesis was that there was no association between age of participants and the number of participants with treatment-related adverse events."||||0.587
82502392|NCT00810407|164695937|SUPERIORITY_OR_OTHER|||||||0.428|||||||Cochran-Armitage (EXACT)|||"The factor tested was age. The null hypothesis was that there was no ordinal trend in the number of participants with treatment-related adverse events across the age at baseline."||||0.428
82625613|NCT01001234|164966740|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.025|TWO_SIDED|95.0|1.06|2.26||The statistical significance level for the primary endpoint was α=0.0477, and had been adjusted to account for the interim sample size adjustment.|Regression, Logistic|Testing of primary endpoint and secondary endpoints was conducted sequentially in a pre-specified order, thus strongly controlling Type I error.||The comparison of rizatriptan versus placebo with respect to the primary outcome was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe) and region (United States \[US\] or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||2.26|1.06|0.025
82625614|NCT01001234|164966741|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|95.0|0.96|1.9||Secondary endpoints were to be formally tested only if the test of the primary endpoint was statistically significant at the α=0.0477 level. The secondary endpoints were then tested sequentially in a pre-specified order, each at the α=0.05 level.|Regression, Logistic|This first secondary hypothesis was not statistically significant, therefore the other two were not formally tested for statistical significance.||The comparison of rizatriptan versus placebo with respect to pain relief at 2 hours post Stage 2 dose for participants between 12 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe) and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||1.90|0.96|0.080
82625615|NCT01001234|164966742|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.01|TWO_SIDED|95.0|1.1|2.1||This second secondary hypothesis was not formally tested since the first secondary was not statistically significant.|Regression, Logistic|||The comparison of rizatriptan versus placebo with respect to pain freedom at 2 hours post Stage 2 dose for participants between 6 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe), age (6 to 11 years old or 12 to 17 years old), and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||2.10|1.10|0.010
82625616|NCT01001234|164966743|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.178|TWO_SIDED|95.0|0.91|1.63||This third secondary hypothesis was not formally tested since the first secondary was not statistically significant.|Regression, Logistic|||The comparison of rizatriptan versus placebo with respect to pain relief at 2 hours post Stage 2 dose for participants between 6 and 17 years of age was conducted using a logistic regression model with factors for treatment, Stage 2 baseline pain severity (moderate or severe), age (6 to 11 years old or 12 to 17 years old), and region (US or ex-US). Model-derived odds ratio and a two-sided p-value were provided. An odds ratio \>1 is in favor of the rizatriptan group.||1.63|0.91|0.178
82625617|NCT01150760|164966744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0007|||||||Chi-squared|||||||0.0007
82625618|NCT01150760|164966745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9|||<|0.0001|||||||Chi-squared|||||||< 0.0001
82625619|NCT01150760|164966746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.0001|||||||Chi-squared|||||||0.0001
82625620|NCT01150760|164966747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.1022|||||||Chi-squared|||||||0.1022
82625621|NCT01150760|164966748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001|||||||Chi-squared|||||||< 0.0001
82625622|NCT01150760|164966749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82625623|NCT01150760|164966750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0012|||||||Chi-squared|||||||0.0012
82625624|NCT01150760|164966751|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.003|||||||Chi-squared|||||||0.0030
82625625|NCT01150760|164966752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.7637|||||||Chi-squared|||||||0.7637
82625626|NCT01150760|164966753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.0402|||||||Chi-squared|||||||0.0402
82625627|NCT01150760|164966754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0755|||||||Chi-squared|||||||0.0755
82625628|NCT01150760|164966755|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.0532|||||||Chi-squared|||||||0.0532
82625629|NCT01150760|164966756|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||< 0.0001
82563955|NCT02367794|164837135|SUPERIORITY||Difference in Event Free Rate|5.93||||0.1133|TWO_SIDED|95.0|-1.41|13.26|||Z-test|||Event Free Rate (%) at Year 2||13.26|-1.41|0.1133
82625630|NCT01150760|164966757|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82625631|NCT00971633|164966847|NON_INFERIORITY_OR_EQUIVALENCE|Study Secondary Hypothesis: A single dose of U.K. ZOFRAN (ondansetron) 8-mg table over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN tablet over-encapsulated/U.K. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.904|||||TWO_SIDED|95.0|0.796|1.028|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.K. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.K. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||1.028|0.796|
82502393|NCT04008030|164695960|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.62||||0.0003|TWO_SIDED|95.0|0.48|0.81||Boundary for statistical significance p-value \< 0.0095.|Log Rank|Log-rank test stratified by the same factors as used in the Cox proportional hazard model.|a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.81|0.48|0.0003
82563956|NCT02367794|164837135|SUPERIORITY||Difference in Event Free Rate|-3.97||||0.3072|TWO_SIDED|95.0|-11.6|3.65|||Z-test|||Event Free Rate (%) at Year 1||3.65|-11.60|0.3072
82502394|NCT04008030|164695961|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.14|0.32||Boundary for statistical significance p-value \< 0.0209.|Log Rank|Log-rank test stratified by the same factors as used in the Cox proportional hazard model.|From a Cox Model stratified by tumor sidedness (left vs. right) as entered into the IRT.|||0.32|0.14|<0.0001
82502395|NCT04008030|164695963|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.52|0.79|||||from a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.79|0.52|
82502396|NCT04008030|164695964|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.32|||||TWO_SIDED|95.0|0.23|0.46|||||From a Cox Model stratified by tumor sidedness (left vs. right) as entered into the IRT.|||0.46|0.23|
82502397|NCT04008030|164695966|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.6||||||95.0|0.45|0.8|||||from a Cox proportional hazard model stratified by tumor sidedness (left vs right) and prior lines of therapy (0, 1, ≥ 2) per IRT.|||0.80|0.45|
82502398|NCT04008030|164695967|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.63||||||95.0|0.48|0.83|||||from a Cox proportional hazard model stratified by tumor sidedness (left vs right) and prior lines of therapy (0, 1, ≥ 2) per IRT.|||0.83|0.48|
82502399|NCT04008030|164695968|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.2||||||95.0|0.12|0.31|||||From a stratified Cox proportional hazard model by tumor sidedness (left vs. right) as entered into the IRT.|||0.31|0.12|
82502400|NCT04008030|164695969|SUPERIORITY|Arm B over Arm C|Hazard Ratio (HR)|0.2||||||95.0|0.12|0.31|||||From a stratified Cox proportional hazard model by tumor sidedness (left vs. right) as entered into the IRT.|||0.31|0.12|
82502401|NCT04008030|164695970|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.64||||||95.0|0.52|0.79|||||from a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.79|0.52|
82502402|NCT04008030|164695971|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.62||||||95.0|0.48|0.8|||||Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.80|0.48|
82502403|NCT04008030|164695973|SUPERIORITY|Arm B over Arm A|Odds Ratio (OR)|1.77||||0.0011||95.0|1.26|2.5||Boundary for statistical significance p-value \< 0.006|Cochran-Mantel-Haenszel|Two-sided p-value from stratified CMH Test.|||Stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT|2.50|1.26|0.0011
82502404|NCT04008030|164695974|SUPERIORITY|Arm B over Arm C|Odds Ratio (OR)|7.02||||||95.0|3.91|12.62|||||Stratified by tumor sidedness (left vs. right)|||12.62|3.91|
82502405|NCT04008030|164695974|SUPERIORITY|Arm B over Arm A|Odds Ratio (OR)|1.67||||||95.0|1.06|2.63|||||Stratified by tumor sidedness (left vs. right)|||2.63|1.06|
82502406|NCT04008030|164695975|SUPERIORITY|Arm B over Arm A|Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.45|0.83|||||From a Cox Model stratified by tumor sidedness (left vs. right) and prior lines of therapy (0, 1, \>= 2) as entered into the IRT.|||0.83|0.45|
82625632|NCT00971633|164966847|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet over-encapsulated is bioequivalent to a single dose of the U.S. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean rations (U.K. ZOFRAN tablet over-encapsulated/U.S. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.991|||||TWO_SIDED|95.0|0.873|1.126|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.S. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.S. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United States (U.S.) taken orally||1.126|0.873|
82502407|NCT04191499|164696020|SUPERIORITY||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.32|0.59|||Log Rank|||Hazard ratios were estimated by Cox regression. Hazard ratios and log-rank p-values are using stratified methods by stratifying Visceral Disease, Endocrine Resistance, and Region.||0.59|0.32|<0.0001
82502408|NCT00680745|164696034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.0867|<|0.0001|TWO_SIDED|95.0|-0.61|-0.27||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.27|-0.61|<0.0001
82502409|NCT00680745|164696034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.0885|<|0.0001|TWO_SIDED|95.0|-0.67|-0.32||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided).||-0.32|-0.67|<0.0001
82502410|NCT00680745|164696034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.0873|<|0.0001|TWO_SIDED|95.0|-0.86|-0.51||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided).||-0.51|-0.86|<0.0001
82502411|NCT00680745|164696035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.3153||0.141|TWO_SIDED|95.0|-1.08|0.15||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||0.15|-1.08|0.1410
82563957|NCT02367794|164837135|SUPERIORITY||Difference in Event Free Rate|1.21||||0.743|TWO_SIDED|95.0|-6.01|8.42|||Z-test|||Event Free Rate (%) at Year 2||8.42|-6.01|0.7430
82563958|NCT02367794|164837136|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.797||||0.0461|TWO_SIDED|95.0|0.638|0.996|||Log Rank|||||0.996|0.638|0.0461
82502412|NCT00680745|164696035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.3217||0.0091|TWO_SIDED|95.0|-1.47|-0.21||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.21|-1.47|0.0091
82502413|NCT00680745|164696035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.3168|<|0.0001|TWO_SIDED|95.0|-2.17|-0.92||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.92|-2.17|<0.0001
82502414|NCT00680745|164696036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.5|STANDARD_ERROR_OF_MEAN|6.874|||TWO_SIDED|95.0|-45.0|-18.0||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-18.0|-45.0|
82502415|NCT00680745|164696036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0|STANDARD_ERROR_OF_MEAN|6.968||0.0002|TWO_SIDED|95.0|-39.7|-12.3||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-12.3|-39.7|0.0002
82502416|NCT00680745|164696036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.9|STANDARD_ERROR_OF_MEAN|6.77|<|0.0001|TWO_SIDED|95.0|-42.2|-15.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-15.6|-42.2|<0.0001
82502417|NCT00680745|164696037|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.7|STANDARD_ERROR_OF_MEAN|4.265|||TWO_SIDED|95.0|5.4|22.1||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||22.1|5.4|
82502418|NCT00680745|164696037|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.3|STANDARD_ERROR_OF_MEAN|4.392||0.0001|TWO_SIDED|95.0|8.7|25.9||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||25.9|8.7|0.0001
82502419|NCT00680745|164696037|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|4.457|<|0.0001|TWO_SIDED|95.0|9.9|27.4||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||27.4|9.9|<0.0001
82502420|NCT00680745|164696038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.4159|||TWO_SIDED|95.0|-1.19|0.45||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||0.45|-1.19|
82502421|NCT00680745|164696038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.4234||0.0262|TWO_SIDED|95.0|-1.78|-0.11||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.11|-1.78|0.0262
82502422|NCT00680745|164696038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.4211|<|0.0001|TWO_SIDED|98.0|-2.5|-0.84||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.84|-2.50|<0.0001
82502423|NCT00680745|164696039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|3.522|||TWO_SIDED|95.0|-21.8|-7.9||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-7.9|-21.8|
82639434|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|110.0||||0.657|TWO_SIDED|95.0|87.7|138.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||138|87.7|0.6570
82502424|NCT00680745|164696039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|STANDARD_ERROR_OF_MEAN|3.594|<|0.0001|TWO_SIDED|95.0|-26.3|-12.2||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-12.2|-26.3|<0.0001
82502425|NCT00680745|164696039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.5|STANDARD_ERROR_OF_MEAN|3.545|<|0.0001|TWO_SIDED|95.0|-33.5|-19.5||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-19.5|-33.5|<0.0001
82502426|NCT01928329|164696045|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.0816|TWO_SIDED|95.0|-0.5|0.03||The \<0.05 is the apriori threshold for statistical significance.|Mixed Models Analysis|HbA1c Linear Mixed Model Results (adjusts the model for: baseline BMI, gender, study site, race (White/Non White) and Baseline C-Peptide production).||||0.03|-0.50|0.0816
82502427|NCT01928329|164696046|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.912|TWO_SIDED|95.0|-0.28|0.25||The \<0.05 is the apriori threshold for statistical significance.|Mixed Models Analysis|HbA1c Linear Mixed Model Results (adjusts the model for: baseline BMI, gender, study site, race (White/Non White) and Baseline C-Peptide production).||||0.25|-0.28|0.912
82502428|NCT01928329|164696047|SUPERIORITY||Z score|-0.801||||0.423|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.423
82502429|NCT01928329|164696048|SUPERIORITY||Z score|-1.312||||0.189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.189
82502430|NCT02141997|164696050|SUPERIORITY_OR_OTHER||||||=|0.863|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.863
82502431|NCT02141997|164696050|SUPERIORITY_OR_OTHER||||||=|0.414|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.414
82502432|NCT02141997|164696050|SUPERIORITY_OR_OTHER||||||=|0.196|||||||Fisher Exact|||P-value calculated using 1-sided Fisher's Exact test.||||=0.196
82502433|NCT03557151|164696086|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.33||0.895|TWO_SIDED|95.0|-0.68|0.6|||Mixed Models Analysis|||Transdisciplinary Care is being compared to Usual Care using the Time 2 HbA1c (as baseline) and Time 5 HbA1c (as the outcome) controlling for race/ethnicity, gender, and age of the patient. The interaction of condition and time is used to evaluate the treatment effect. Missing data were not imputed.||0.60|-0.68|0.895
82502434|NCT03557151|164696087|SUPERIORITY||Slope|2.29|STANDARD_ERROR_OF_MEAN|2.34||0.33|TWO_SIDED|95.0|-2.29|6.88|||Mixed Models Analysis|||TC is being compared to UC using baseline and 12 month data, controlling for patient age, sex, and race/ethnicity. The interaction between condition and time is used to examine the treatment effect. Missing data were not imputed.||6.88|-2.29|.33
82502435|NCT03557151|164696088|SUPERIORITY||Slope|4.1|STANDARD_ERROR_OF_MEAN|2.25||0.07|TWO_SIDED|95.0|-0.32|8.53|||Mixed Models Analysis|||TC is being compared to UC using baseline and 12 month data and controlling for patient age, sex, and race/ethnicity. The interaction between condition and time is used to evaluate the treatment effect. Missing data are not imputed.||8.53|-.32|.07
82502436|NCT03557151|164696089|SUPERIORITY||Slope|-2.38|STANDARD_ERROR_OF_MEAN|3.77||0.527|TWO_SIDED|95.0|-9.77|5.0|||Mixed Models Analysis|||This analysis included baseline and 12-month data. The interaction of condition (TC or UC) and time was used to examine the treatment effect. Child sex, age, and race/ethnicity were covariates. Missing data were not imputed.||5.0|-9.77|.527
82502437|NCT03557151|164696090|SUPERIORITY||Slope|-3.3|STANDARD_ERROR_OF_MEAN|2.89||0.253|TWO_SIDED|95.0|-8.94|2.35|||Mixed Models Analysis|||This analysis uses baseline and 12 month data. The interaction of condition and time is used to evaluate the treatment effect. Child sex, age, and race/ethnicity were used as covariates. Missing data were not imputed.||2.35|-8.94|.253
82502438|NCT03557151|164696091|SUPERIORITY||Slope|9.69|STANDARD_ERROR_OF_MEAN|3.77||0.01|TWO_SIDED|95.0|2.31|17.08|||Mixed Models Analysis|||This analysis included baseline and 12 month data. The condition by time interaction was used to evaluate the treatment effect. Child age, sex, and race/ethnicity were included as covariates. Missing data were not imputed.||17.08|2.31|0.01
82502439|NCT03557151|164696092|SUPERIORITY||Slope|0.45|STANDARD_ERROR_OF_MEAN|2.07||0.83|TWO_SIDED|95.0|-3.62|4.35|||Mixed Models Analysis|||This analysis uses baseline and 12-month data. The interaction between condition and time is used to evaluate the treatment effect. Child age, sex, and race/ethnicity were covariates. Missing data were not imputed.||4.35|-3.62|.83
82502440|NCT00818662|164696119|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.8||||0.476||95.0|-3.1|1.5|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||1.5|-3.1|0.476
82502441|NCT00818662|164696119|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.53||95.0|-1.6|3.0|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||3.0|-1.6|0.530
82502442|NCT00818662|164696120|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.812||95.0|-2.9|3.7|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||3.7|-2.9|0.812
82502443|NCT00818662|164696120|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.9||||0.602||95.0|-4.3|2.5|||ANCOVA||Results combined from 100 imputations from estimates \& standard errors from 100 ANCOVA results for fixed effect of treatment, E4 allele of apolipoprotein E carrier status, \& continuous covariates age at baseline, baseline ADAS-Cog \& education level|||2.5|-4.3|0.602
82502444|NCT00818662|164696121|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.7||||0.368||95.0|-2.3|0.8|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADAS-Cog and education level (in years)|||0.8|-2.3|0.368
82563959|NCT02367794|164837136|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.04||||0.7295|TWO_SIDED|95.0|0.834|1.296|||Log Rank|||||1.296|0.834|0.7295
82502445|NCT00818662|164696121|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.8||||0.319||95.0|-0.8|2.4|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADAS-Cog and education level (in years)|||2.4|-0.8|0.319
82502446|NCT00818662|164696122|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.3||||0.778||95.0|-1.8|2.4|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADCS-ADL and education level (in years)|||2.4|-1.8|0.778
82502447|NCT00818662|164696122|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.2||||0.851||95.0|-2.3|1.9|||ANCOVA||Estimated within a ANCOVA model accounting for the fixed effect of treatment, E4 allele of apolipoprotein E carrier status, and for the continuous covariates age at baseline, baseline ADCS-ADL and education level (in years)|||1.9|-2.3|0.851
82502448|NCT00818662|164696123|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.1||||0.306||95.0|-0.1|0.3|||Mixed Models Analysis|||||0.3|-0.1|0.306
82502449|NCT00818662|164696123|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.3||||0.028||95.0|0.0|0.5|||Mixed Models Analysis|||||0.5|0.0|0.028
82502450|NCT00818662|164696124|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.1||||0.66||95.0|-0.3|0.2|||Mixed Models Analysis|||||0.2|-0.3|0.660
82502451|NCT00818662|164696124|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.766||95.0|-0.2|0.3|||Mixed Models Analysis|||||0.3|-0.2|0.766
82502452|NCT00818662|164696125|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.9||||0.206||95.0|-1.0|4.8|||ANCOVA|||||4.8|-1.0|0.206
82502453|NCT00818662|164696125|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.4||||0.331||95.0|-4.3|1.5|||ANCOVA|||||1.5|-4.3|0.331
82625633|NCT00971633|164966848|NON_INFERIORITY_OR_EQUIVALENCE|Study Secondary Hypothesis: A single dose of U.K. ZOFRAN (ondansetron) 8-mg table over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K.) ZOFRAN tablet over-encapsulated/U.K. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.886|||||TWO_SIDED|95.0|0.813|0.966|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.K. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally Treatment U.K. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||0.966|0.813|
82502454|NCT00818662|164696126|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.64||95.0|-2.1|3.4|||ANCOVA|||||3.4|-2.1|0.640
82502455|NCT00818662|164696126|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|2.5||||0.075||95.0|-0.3|5.3|||ANCOVA|||||5.3|-0.3|0.075
82502456|NCT00818662|164696127|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.1||||0.093||95.0|-0.2|2.3|||ANCOVA|||||2.3|-0.2|0.093
82502457|NCT00818662|164696127|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.1||||0.094||95.0|-0.2|2.3|||ANCOVA|||||2.3|-0.2|0.094
82502458|NCT00818662|164696128|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.1||||0.096||95.0|-2.3|0.2|||ANCOVA|||||0.2|-2.3|0.096
82502459|NCT00818662|164696128|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.0||||0.123||95.0|-2.2|0.3|||ANCOVA|||||0.3|-2.2|0.123
82502460|NCT00818662|164696129|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.167||95.0|-0.2|1.0|||ANCOVA|||||1.0|-0.2|0.167
82502461|NCT00818662|164696129|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.998||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.998
82502462|NCT00818662|164696130|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.173||95.0|-0.2|0.9|||ANCOVA|||||0.9|-0.2|0.173
82502463|NCT00818662|164696130|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.1||||0.744||95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.744
82502464|NCT00818662|164696131|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|1.5||||0.238||95.0|-1.0|4.0|||ANCOVA|||||4.0|-1.0|0.238
82502465|NCT00818662|164696131|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.1||||0.4||95.0|-3.6|1.4|||ANCOVA|||||1.4|-3.6|0.400
82502466|NCT00818662|164696132|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.6||||0.695||95.0|-3.6|2.4|||ANCOVA|||||2.4|-3.6|0.695
82502467|NCT00818662|164696132|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.3||||0.41||95.0|-4.5|1.9|||ANCOVA|||||1.9|-4.5|0.410
82502468|NCT00818662|164696133|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.0||||0.988||95.0|-1.5|1.5|||ANCOVA|||||1.5|-1.5|0.988
82502469|NCT00818662|164696133|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.4||||0.555||95.0|-1.0|1.9|||ANCOVA|||||1.9|-1.0|0.555
82502470|NCT00818662|164696134|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.5||||0.783||95.0|-12.2|9.2|||ANCOVA|||||9.2|-12.2|0.783
82502471|NCT00818662|164696134|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-2.1||||0.7||95.0|-13.1|8.8|||ANCOVA|||||8.8|-13.1|0.700
82502472|NCT00818662|164696135|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-15.2||||0.191||95.0|-38.0|7.7|||ANCOVA|||||7.7|-38.0|0.191
82502473|NCT00818662|164696135|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-1.6||||0.892||95.0|-25.4|22.1|||ANCOVA|||||22.1|-25.4|0.892
82502474|NCT00818662|164696136|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.1||||0.588||95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.588
82502475|NCT00818662|164696136|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-0.2||||0.351||95.0|-0.5|0.2|||ANCOVA|||||0.2|-0.5|0.351
82502476|NCT01722071|164696146|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 18 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.890
82502477|NCT01722071|164696146|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 8 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.422
82502478|NCT01722071|164696146|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED|||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||A two-sided paired t-test was performed to determine whether oxytocin administration was associated with reward-related BOLD signal changes (within the Nucleus Accumbens \[Bilateral\]). For the group of 10 participants, BOLD signal activity was compared between oxytocin and placebo scanning days.||||0.814
82502479|NCT01338493|164696147|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82502480|NCT01338493|164696148|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82502481|NCT04702997|164696165|SUPERIORITY||LS Mean difference (Net)|7.71|STANDARD_ERROR_OF_MEAN|1.268|<|0.0001|TWO_SIDED|95.0|5.18|10.24||KDIGO strata, treatment group, time (Week 1 to 12), and the interaction between treatment and time were used as fixed factors.|Mixed Models Analysis||Difference is bardoxolone methyl - placebo|||10.24|5.18|<0.0001
82502482|NCT00353262|164696292|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.9|||||TWO_SIDED|90.0|0.79|1.02||||||Cycle 2, Day 1 versus Cycle 1, Day 1||1.02|0.79|
82502483|NCT00353262|164696292|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.76|0.99||||||Cycle 3, Day 1 versus Cycle 1, Day 1||0.99|0.76|
82502484|NCT00353262|164696292|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.85|1.1||||||Cycle 3, Day 1 to Cycle 2, Day 1||1.10|0.85|
82502485|NCT00353262|164696293|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|1.01|1.08||||||Cycle 2, Day 1 versus Cycle 1, Day 2||1.08|1.01|
82502486|NCT00353262|164696293|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.98|1.05||||||Cycle 3, Day 1 to Cycle 1, Day 2||1.05|0.98|
82625634|NCT00971633|164966848|NON_INFERIORITY_OR_EQUIVALENCE|§ Study Primary Hypothesis: A single dose of the U.K. ZOFRAN (ondansetron) 8-mg tablet over-encapsulated is bioequivalent to a single dose of the U.S. ZOFRAN (ondansetron) 8-mg tablet. That is, the true geometric mean rations (U.K. ZOFRAN tablet over-encapsulated/U.S. ZOFRAN tablet) of the area under the plasma concentration vs. time curve (AUC) from zero to infinity and maximum plasma concentration (Cmax) for ondansetron each lie within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.951|||||TWO_SIDED|95.0|0.872|1.037|||||Geometric Mean Ratio (Treatment OE U.K. tablet / Treatment U.S. tablet)|Treatment OE U.K. tablet: an over-encapsulated single 8-mg tablet of United Kingdom (U.K.) ZOFRAN (ondansetron) taken orally. Treatment U.S. tablet: a single 8-mg tablet of ZOFRAN (ondansetron) which is marketed in the United States (U.S.) taken orally||1.037|0.872|
82502487|NCT00353262|164696293|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.94|1.0||||||Cycle 3, Day 1 to Cycle 2, Day 1||1.00|0.94|
82502488|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.83|1.24||||||Capecitabine: Cycle 2, Day 1 versus Cycle 1, Day 1||1.24|0.83|
82502489|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.16|||||TWO_SIDED|90.0|0.94|1.42||||||Capecitabine: Cycle 3, Day 1 to Cycle 2, Day 1||1.42|0.94|
82502490|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.17|||||TWO_SIDED|90.0|0.96|1.44||||||Capecitabine: Cycle 3, Day 1 to Cycle 1, Day 1||1.44|0.96|
82502491|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.69|1.08||||||5'-DFCR: Cycle 2, Day 1 versus Cycle 1, Day 1||1.08|0.69|
82502492|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.86|1.34||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 1, Day 1||1.34|0.86|
82502493|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.25|||||TWO_SIDED|90.0|1.0|1.55||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.55|1.00|
82502494|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.81|||||TWO_SIDED|90.0|0.66|1.01||||||5-FU: Cycle 2, Day 1 versus Cycle 1, Day 1||1.01|0.66|
82502495|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.79|||||TWO_SIDED|90.0|0.64|0.97||||||5-FU: Cycle 3, Day 1 versus Cycle 1, Day 1||0.97|0.64|
82563960|NCT02367794|164837137|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.828||||0.0942|TWO_SIDED|95.0|0.663|1.033|||Log Rank|||||1.033|0.663|0.0942
82563961|NCT02367794|164837137|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.968||||0.7709|TWO_SIDED|95.0|0.776|1.207|||Log Rank|||||1.207|0.776|0.7709
82502496|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.78|1.19||||||5-FU: Cycle 3, Day 1 versus Cycle 2, Day 1||1.19|0.78|
82502497|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||FBAL: Cycle 2, Day 1 versus Cycle 1, Day 1||1.04|0.91|
82502498|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.9|1.04||||||FBAL: Cycle 3, Day 1 versus Cycle 1, Day 1||1.04|0.90|
82502499|NCT00353262|164696294|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.93|1.07||||||FBAL: Cycle 3, Day 1 versus Cycle 2, Day 1||1.07|0.93|
82502500|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.74|||||TWO_SIDED|90.0|0.61|0.9||||||5'-DFUR: Cycle 2, Day 1 versus Cycle 1, Day 1||0.90|0.61|
82502501|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.64|||||TWO_SIDED|90.0|0.53|0.79||||||5'-DFUR: Cycle 3, Day 1 versus Cycle 1, Day 1||0.79|0.53|
82502502|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.71|1.06||||||5'-DFUR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.06|0.71|
82502503|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|90.0|0.63|1.08||||||Capecitabine: Cycle 2, Day 1 versus Cycle 1, Day 1||1.08|0.63|
82502504|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.03|||||TWO_SIDED|90.0|0.78|1.34||||||Capecitabine: Cycle 3, Day 1 versus Cycle 2, Day 1||1.34|0.78|
82502505|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.65|1.1||||||Capecitabine: Cycle 3, Day 1 versus Cycle 1, Day 1||1.10|0.65|
82502506|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.65|1.18||||||5'-DFCR: Cycle 2, Day 1 versus Cycle 1, Day 1||1.18|0.65|
82563962|NCT02367794|164837139|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.93||||0.4007|TWO_SIDED|95.0|0.784|1.102|||Log Rank|||||1.102|0.784|0.4007
82563963|NCT00882050|164837148|OTHER|||||||0.05|||||||Regression, Logistic|||logistic regression|Because we tested interventions against the placebo arm, we increased our subjects to overcome loss of power. 23 per group will provide 80% power assuming a reduced alpha of 0.01 to accommodate the multiple testing issues.|||0.05
82502507|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.71|1.3||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 1, Day 1||1.30|0.71|
82625635|NCT01998399|164966849|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Chi-squared|||Total enrollment only 25 patients and the study was terminated early due to low enrollment. No further statistical analysis was done.||||0.41
82625636|NCT01269047|164966863|OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|2.4||0.04|TWO_SIDED|95.0|-4.2|-0.2|||ANOVA|||||-0.2|-4.2|0.04
82625637|NCT01269047|164966863|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_DEVIATION|2.7||0.008|TWO_SIDED|95.0|-5.8|-1.3|||ANOVA|||||-1.3|-5.8|0.008
82625638|NCT01269047|164966863|OTHER||Mean Difference (Final Values)|-4.2|STANDARD_DEVIATION|2.6||0.003|TWO_SIDED|95.0|-6.4|-2.0|||ANOVA|||||-2.0|-6.4|0.003
82625639|NCT01269047|164966863|OTHER||Mean Difference (Final Values)|-0.66|STANDARD_DEVIATION|2.0||0.37|TWO_SIDED|95.0|-2.3|0.98|||ANOVA|||||0.98|-2.3|0.37
82625640|NCT01269047|164966864|OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.8||0.2|TWO_SIDED|95.0|-0.21|0.81|||t-test, 2 sided|||||0.81|-0.21|0.2
82625641|NCT01269047|164966864|OTHER||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|0.6||0.48|TWO_SIDED|95.0|-0.25|0.5|||t-test, 2 sided|||||0.50|-0.25|0.48
82625642|NCT01269047|164966864|OTHER||Mean Difference (Final Values)|0.23|STANDARD_DEVIATION|0.6||0.18|TWO_SIDED|95.0|-0.12|0.57|||t-test, 2 sided|||||0.57|-0.12|0.18
82625643|NCT01269047|164966864|OTHER||Mean Difference (Final Values)|-0.004|STANDARD_DEVIATION|1.0||1|TWO_SIDED|95.0|-0.62|0.61|||t-test, 2 sided|||||0.61|-0.62|1.0
82625644|NCT01455415|164966871|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.3287|TWO_SIDED|95.0|0.83|1.73||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Regression, Logistic|||Analysis was done using a logistic regression model which included baseline pain, sequence, period and treatment as covariate.||1.73|0.83|0.3287
82625645|NCT01455415|164966872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.0625|TWO_SIDED|95.0|0.98|2.51||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Regression, Logistic|||Analysis was done using a logistic regression model which included baseline pain, sequence, period and treatment as covariate.||2.51|0.98|0.0625
82625646|NCT01455415|164966873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9448|TWO_SIDED|95.0|-0.21|0.22||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline pain severity, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.22|-0.21|0.9448
82625647|NCT01455415|164966874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4548|TWO_SIDED|95.0|-0.32|0.14||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline interference score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.14|-0.32|0.4548
82625648|NCT01455415|164966875|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.0272|TWO_SIDED|95.0|-0.44|-0.03||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using linear mixed effects model including baseline score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||-0.03|-0.44|0.0272
82625649|NCT01455415|164966876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.7344|TWO_SIDED|95.0|-0.42|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline HADS-A score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.30|-0.42|0.7344
82502508|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.1|||||TWO_SIDED|90.0|0.81|1.49||||||5'-DFCR: Cycle 3, Day 1 versus Cycle 2, Day 1||1.49|0.81|
82502509|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.74|||||TWO_SIDED|90.0|0.56|0.98||||||5-FU: Cycle 2, Day 1 versus Cycle 1, Day 1||0.98|0.56|
82502510|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.58|||||TWO_SIDED|90.0|0.44|0.76||||||5-FU: Cycle 3, Day 1 versus Cycle 1, Day 1||0.76|0.44|
82502511|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.78|||||TWO_SIDED|90.0|0.59|1.03||||||5-FU: Cycle 3, Day 1 versus Cycle 2, Day 1||1.03|0.59|
82502512|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||FBAL: Cycle 2, Day 1 versus Cycle 1, Day 1||1.00|0.83|
82625650|NCT01455415|164966877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.6007|TWO_SIDED|95.0|-0.42|0.24||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline HADS-D score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.24|-0.42|0.6007
82625651|NCT01455415|164966878|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|1.04||0.2987|TWO_SIDED|95.0|-3.13|0.96||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline total score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.96|-3.13|0.2987
82502513|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.76|0.91||||||FBAL: Cycle 3, Day 1 versus Cycle 1, Day 1||0.91|0.76|
82502514|NCT00353262|164696296|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||FBAL: Cycle 3, Day 1 versus Cycle 2, Day 1||1.00|0.83|
82502515|NCT00353262|164696298|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.2|||||TWO_SIDED|90.0|1.09|1.33||||||Total Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.33|1.09|
82502516|NCT00353262|164696298|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.34|||||TWO_SIDED|90.0|1.21|1.48||||||Total Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.48|1.21|
82502517|NCT00353262|164696298|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.01|1.23||||||Total Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.23|1.01|
82502518|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||Total Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.09|0.96|
82502519|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||Total Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.08|0.95|
82502520|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05||||||Total Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.05|0.93|
82502521|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.94|1.09||||||Free Platinum: Cycle 2, Day 1 versus Cycle 1, Day 2||1.09|0.94|
82502522|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.92|1.08||||||Free Platinum: Cycle 3, Day 1 versus Cycle 1, Day 2||1.08|0.92|
82502523|NCT00353262|164696300|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.91|1.07||||||Free Platinum: Cycle 3, Day 1 versus Cycle 2, Day 1||1.07|0.91|
82625652|NCT01455415|164966879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.26||0.1769|TWO_SIDED|95.0|-0.85|0.16||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline symptoms domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.16|-0.85|0.1769
82502524|NCT01103284|164696398|SUPERIORITY_OR_OTHER|||||||0.33||||||The a priori threshold for statistical significance was 0.05|Mixed Models Analysis|The Mixed-Effect Model Repeated Measure (MMRM) was adjusted for the following baseline covariates: age, C-peptide, insulin dose by body weight and AUC||||||0.33
82502525|NCT01103284|164696399|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED|||||A priori threshold for statistical significance was 0.05|Mixed Models Analysis|The MMRM model was adjusted for the following covariates: age, Baseline C-peptide, Baseline insulin dose adjusted for body weight, and Baseline AUC.||||||0.68
82502526|NCT01103284|164696400|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05|Mixed Models Analysis|The MMRM model was adjusted for the following covariates: age, Baseline C-peptide, Baseline insulin dose adjusted for body weight, and Baseline AUC||||||0.44
82502527|NCT01103284|164696402|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.07|TWO_SIDED|95.0|-0.02|0.79||Standard multiple imputation was used to predict the number and timing of hypoglycemic events after discontinuing the study for subjects who did not remain in the study until Month 25.|negative binomial regression|||The number of hypoglycemia events during the study was analyzed using a negative binomial regression model, with number of events as the dependent variable, and treatment, age, baseline daily insulin dose, and baseline C-peptide as covariates. The log of duration in the study for each patient was used as an offset variable in the model.||0.79|-0.02|0.07
82502528|NCT03182829|164696410|NON_INFERIORITY|non-inferiority was chosen|Mean Difference (Final Values)|100.0|||<|0.05|TWO_SIDED|95.0|90.0|100.0|||Chi-squared||||Fisher's exact test|100|90|<0.05
82502529|NCT03316131|164696411|OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|-8.67|9.22||||||||9.22|-8.67|
82502530|NCT03316131|164696412|OTHER||Geometric mean ratio|1.14|||||TWO_SIDED|90.0|1.03|1.25||||||Treatment A/Treatment B, for Verinurad||1.25|1.03|
82502531|NCT03316131|164696412|OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.88|1.07||||||Treatment A/Treatment B, for M1||1.07|0.88|
82502532|NCT03316131|164696412|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.91|1.08||||||Treatment A/Treatment B, for M8||1.08|0.91|
82502533|NCT03316131|164696413|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|1.0|1.13||||||Treatment A/Treatment B, for Verinurad||1.13|1.00|
82502534|NCT03316131|164696413|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||Treatment A/Treatment B, for M1||1.02|0.90|
82502535|NCT03316131|164696413|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.94|1.04||||||Treatment A/Treatment B, for M8||1.04|0.94|
82502536|NCT03316131|164696417|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|1.0|1.13||||||Treatment A/Treatment B, for Verinurad||1.13|1.00|
82502537|NCT03316131|164696417|OTHER||Geometric mean ratio|0.96||||||90.0|0.9|1.02||||||Treatment A/Treatment B, for M1||1.02|0.90|
82502538|NCT03316131|164696417|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.94|1.04||||||Treatment A/Treatment B, for M8||1.04|0.94|
82502539|NCT05022784|164696464|OTHER||||||<|0.0001|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compares the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||<.0001
82502540|NCT05022784|164696465|OTHER||||||<|0.0001|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||<.0001
82502541|NCT05022784|164696466|OTHER|||||||0.37|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.37
82502542|NCT05022784|164696467|OTHER|||||||0.477|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.477
82502543|NCT05022784|164696468|OTHER|||||||0.644|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.644
82502544|NCT05022784|164696469|OTHER|||||||0.206|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.206
82502545|NCT05022784|164696470|OTHER|||||||0.052|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.052
82502546|NCT05022784|164696471|OTHER|||||||0.044|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.044
82502547|NCT05022784|164696472|OTHER|||||||0.525|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.525
82502548|NCT05022784|164696473|OTHER|||||||0.024|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.024
82502549|NCT05022784|164696474|OTHER|||||||0.016|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.016
82502550|NCT05022784|164696475|OTHER|||||||0.913|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.913
82502551|NCT05022784|164696476|OTHER|||||||0.448|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.448
82502552|NCT05022784|164696477|OTHER|||||||0.515|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.515
82502553|NCT05022784|164696478|OTHER|||||||0.829|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.829
82502554|NCT05022784|164696479|OTHER|||||||0.471|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.471
82502555|NCT05022784|164696480|OTHER|||||||0.915|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.915
82502556|NCT05022784|164696481|OTHER|||||||0.19|||||||Chi-squared|||||||0.190
82502557|NCT05022784|164696482|OTHER|||||||0.928|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.928
82502558|NCT05022784|164696483|OTHER|||||||0.49|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.490
82502559|NCT05022784|164696484|OTHER|||||||0.667|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.667
82502560|NCT05022784|164696485|OTHER|||||||0.032|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.032
82502561|NCT05022784|164696486|OTHER|||||||0.721|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.721
82502562|NCT05022784|164696487|OTHER|||||||0.352|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.352
82502563|NCT05022784|164696488|OTHER|||||||0.136|||||||Chi-squared|||The statistical method applied in this analysis is Chi-squared hypothesis test, which tested if the count in each group was impacted by any confounding variable.||||0.136
82502564|NCT05022784|164696489|OTHER|||||||0.27|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.270
82502565|NCT05022784|164696490|OTHER|||||||0.306|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.306
82502566|NCT05022784|164696491|OTHER|||||||0.145|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.145
82502567|NCT05022784|164696492|OTHER|||||||0.109|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.109
82502568|NCT05022784|164696493|OTHER|||||||0.454|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.454
82502569|NCT05022784|164696494|OTHER|||||||0.96|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.960
82502570|NCT05022784|164696495|OTHER|||||||0.265|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.265
82502571|NCT05022784|164696496|OTHER|||||||0.026|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.026
82502572|NCT05022784|164696497|OTHER|||||||0.016|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.016
82625653|NCT01455415|164966880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.5119|TWO_SIDED|95.0|-0.48|0.24||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline activities of daily living domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.24|-0.48|0.5119
82502573|NCT05022784|164696498|OTHER|||||||0.937|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.937
82502574|NCT05022784|164696499|OTHER|||||||0.948|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.948
82502575|NCT05022784|164696500|OTHER|||||||0.574|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.574
82502576|NCT05022784|164696501|OTHER|||||||0.491|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.491
82502577|NCT05022784|164696502|OTHER|||||||0.432|||||||ANOVA|||The statistical method applied in this analysis is Analysis of Variance (ANOVA), which compared the mean value in each group and tests if they are significantly different via a fixed-effect regression model.||||0.432
82502578|NCT01985581|164696510|SUPERIORITY_OR_OTHER||LS mean difference|-3.0||||0.0392|TWO_SIDED|95.0|-5.9|-0.2|||ANOVA|||||-0.2|-5.9|0.0392
82502579|NCT01985581|164696511|SUPERIORITY_OR_OTHER||LS mean difference|0.3||||0.894|TWO_SIDED|95.0|-4.0|4.6|||ANOVA|||||4.6|-4.0|0.894
82502580|NCT01985581|164696512|SUPERIORITY_OR_OTHER||LS mean difference|-6.2||||0.0001|TWO_SIDED|95.0|-9.1|-3.2|||ANOVA|||||-3.2|-9.1|0.0001
82625654|NCT01455415|164966881|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.62||0.4335|TWO_SIDED|95.0|-1.72|0.74||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline physical functioning / large fiber domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.74|-1.72|0.4335
82502581|NCT01985581|164696514|SUPERIORITY_OR_OTHER||LS mean difference|0.3||||0.8706|TWO_SIDED|95.0|-3.2|3.7|||ANOVA|||||3.7|-3.2|0.8706
82502582|NCT03878745|164696518|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> 0, we can conclude in superiority.|Overall Mean|0.21|||||TWO_SIDED|95.0|0.07|0.35||||||||0.35|0.07|
82502583|NCT03878745|164696519|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.6|1.6||||||||1.6|-1.6|
82502584|NCT03878745|164696520|OTHER||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.6|0.1||||||||0.1|-3.6|
82502585|NCT03878745|164696521|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Terumo PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Median Difference (Final Values)|-0.5|||<|0.001|ONE_SIDED|95.0||-0.026|||Mixed Models Analysis|||||-0.026||<0.001
82502586|NCT03878745|164696522|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.2|1.2||||||||1.2|-1.2|
82502587|NCT01042236|164696547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.88||0.4907|TWO_SIDED|95.0|-1.18|2.41||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||2.41|-1.18|0.4907
82502588|NCT01042236|164696547|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.88||0.5944|TWO_SIDED|95.0|-2.27|1.32||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.32|-2.27|0.5944
82502589|NCT01042236|164696548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.94||0.987|TWO_SIDED|95.0|-1.91|1.94||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.94|-1.91|0.9870
82522915|NCT02954354|164741243|SUPERIORITY|The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Difference|-39.5||||0.0563|||||||Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.0563
82625655|NCT01455415|164966882|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.16||0.9653|TWO_SIDED|95.0|-0.31|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline small fiber domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.30|-0.31|0.9653
82625656|NCT01455415|164966883|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.12||0.269|TWO_SIDED|95.0|-0.38|0.11||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline autonomic domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.11|-0.38|0.2690
82625657|NCT01455415|164966884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.9951|TWO_SIDED|95.0|-0.05|0.05||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline mobility domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.05|-0.05|0.9951
82625658|NCT01455415|164966885|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9726|TWO_SIDED|95.0|-0.05|0.05||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline self-care domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.05|-0.05|0.9726
82625659|NCT01455415|164966886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.5497|TWO_SIDED|95.0|-0.04|0.08||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline usual activities domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.08|-0.04|0.5497
82625660|NCT01455415|164966887|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1495|TWO_SIDED|95.0|-0.02|0.11||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline pain / discomfort domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.11|-0.02|0.1495
82625661|NCT01455415|164966888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1297|TWO_SIDED|95.0|-0.11|0.01||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline anxiety / depression domain score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.01|-0.11|0.1297
82625662|NCT01455415|164966889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.4279|TWO_SIDED|95.0|-0.04|0.02||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline Dolan 1997 index summary score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.02|-0.04|0.4279
82625663|NCT01455415|164966890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.5505|TWO_SIDED|95.0|-0.04|0.02||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Mixed Models Analysis|||Analysis was done using a linear mixed effects model which included baseline Dolan 2001 index summary score, sequence, period, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. The treatment difference (pregabalin - placebo) has been tested using within-participant variability as error term.||0.02|-0.04|0.5505
82625664|NCT01455415|164966891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0604|TWO_SIDED|||||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Cochran-Mantel-Haenszel|||Analysis was done using a Cochran-Mantel-Haenszel (CMH) test with modified ridit transformation, under alternative hypothesis of raw mean scores differ.||||0.0604
82625665|NCT01455415|164966892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.106||0.7174|TWO_SIDED|95.0|-0.248|0.171||Primary analysis was two-sided and performed at the 0.05 significance level.|Repeated measure mixed effects model|The Kenward-Roger method was used to estimate denominator degrees of freedom.||A longitudinal analysis was done using a repeated measure linear mixed effects model including visit, treatment, an indicator variable for Week 6, and treatment by visit and by the indicator variable interaction as fixed effect factors and participant within sequence and within-participant error (estimated by using an unstructured covariance structure) as random factors. The treatment differences were tested using within-participant variability as the error term.||0.171|-0.248|0.7174
82625666|NCT01455415|164966893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1511|TWO_SIDED|||||Secondary analysis was two-sided and performed at the 0.05 significance level, without multiple comparisons' adjustment.|Cochran-Mantel-Haenszel|||Analysis was done using a CMH test with modified ridit transformation, under alternative hypothesis of raw mean scores differ.||||0.1511
82502590|NCT01042236|164696548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.94||0.4167|TWO_SIDED|95.0|-2.71|1.15||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||1.15|-2.71|0.4167
82502591|NCT01042236|164696549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.12||0.9403|TWO_SIDED|95.0|-0.24|0.26||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.26|-0.24|0.9403
82502592|NCT01042236|164696549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.1881|TWO_SIDED|95.0|-0.42|0.09||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.09|-0.42|0.1881
82502593|NCT01042236|164696550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.8602|TWO_SIDED|95.0|-0.26|0.22||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.22|-0.26|0.8602
82502594|NCT01042236|164696550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1271|TWO_SIDED|95.0|-0.43|0.06||A treatment by period interaction term (fixed effect) was included if significant at 10% significance level.|ANCOVA|||Change from baseline (prior to Period 1) at the end of the treatment period was analyzed using an analysis of covariance (ANCOVA) model, with fixed effect terms for sequence, period and treatment, using baseline (prior to Period 1) as a covariate, and participant within sequence as a random effect.||0.06|-0.43|0.1271
82502595|NCT01172847|164696574|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.91|1.05|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir||1.05|0.91|
82502596|NCT01172847|164696574|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.95|1.02|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir carboxylate||1.02|0.95|
82502597|NCT01172847|164696575|SUPERIORITY_OR_OTHER||mean exposure ratio|1.03|||||TWO_SIDED|90.0|1.0|1.06|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of rimantadine||1.06|1.00|
82502598|NCT01172847|164696576|SUPERIORITY_OR_OTHER||mean exposure ratio|0.86|||||TWO_SIDED|90.0|0.77|0.96|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir||0.96|0.77|
82502599|NCT01172847|164696576|SUPERIORITY_OR_OTHER||mean exposure ratio|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|Mean exposure ratio of oseltamivir carboxylate||1.05|0.92|
82502600|NCT01172847|164696577|SUPERIORITY_OR_OTHER||mean exposure ratio|1.03|||||TWO_SIDED|90.0|0.99|1.06|||||Estimate of the treatment difference and corresponding 90% CI was derived from the back-transformed model.|mean exposure ratio of rimantadine||1.06|0.99|
82502601|NCT02493608|164696589|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82502602|NCT02493608|164696590|OTHER|||||||0.218||||||POD 1|t-test, 2 sided|||||||0.218
82502603|NCT02493608|164696590|OTHER|||||||0.638||||||POD 2|t-test, 2 sided|||||||0.638
82502604|NCT02493608|164696591|OTHER|||||||0.113|||||||t-test, 2 sided|||||||0.113
82502605|NCT00453921|164696592|OTHER||||||<|0.04||||||For active therapy/placebo relative to both placebo|Kruskal-Wallis|||||||<0.04
82502606|NCT00453921|164696594|EQUIVALENCE|Looking for statistical difference, p \< .01, between groups looking at change scores|||||<|0.05|||||||ANOVA|||||||<0.05
82502607|NCT00453921|164696595|EQUIVALENCE|group differences|||||<|0.05|||||||ANCOVA|||||||<0.05
82502608|NCT00453921|164696598|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82502609|NCT00453921|164696598|SUPERIORITY||||||<|0.05||||||a priopr|ANCOVA|||||||<0.05
82502610|NCT00303498|164696599|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|43.0||||0.0302|||||||ANCOVA|Change at Week 24: P-value was obtained from the non-parametric analysis of covariance (ANCOVA) controlling for baseline treadmill exercise time.||The median of the treatment difference was calculated using the Hodges-Lehmann estimator.||||0.0302
82502611|NCT00303498|164696600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5||||0.495|||||||ANCOVA|Change at Week 24: P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.4950
82502612|NCT00303498|164696601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.6||||0.3874|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||Change at Week 24 for PLAX 2D mode||||0.3874
82502613|NCT00303498|164696601|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.8||||0.7038|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||Change at Week 24 for PSAX M-mode||||0.7038
82502614|NCT00303498|164696602|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.9||||0.8998|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.8998
82502615|NCT00303498|164696603|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.7||||0.7245|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.7245
82502616|NCT00303498|164696604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5||||0.8649|||||||ANCOVA|P-value was calculated from an ANCOVA with effect for treatment and baseline value as a covariate.||||||0.8649
82502617|NCT00303498|164696605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5909||||||The statistical analysis (P value) was performed on the composite change for all categories.|Cochran-Mantel-Haenszel|||Change at Week 24||||0.5909
82502618|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL versus \[v.\] \>1.5 mg/dL).||||||<0.001
82502619|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502620|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The overall 0.05 level of significance for the multiple comparisons of each febuxostat dose to placebo was controlled using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502621|NCT00174915|164696606|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 80 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|25.7||||||97.5|16.7|34.7||||||||34.7|16.7|
82502622|NCT00174915|164696606|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 120 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|42.7||||||97.5|34.0|51.3||||||||51.3|34.0|
82502623|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502624|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method. The p-value was statistically significant.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502625|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502626|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502627|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502628|NCT00174915|164696606|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.479
82625667|NCT01062009|164966897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Chi-squared|||Chi square analysis comparing number of participants with new fever in each group||||0.24
82625668|NCT01468701|164966900|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.6|0.9|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.90|0.60|
82625669|NCT01468701|164966902|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.63|0.98|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.98|0.63|
82502629|NCT00174915|164696606|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502630|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502631|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502632|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502633|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502634|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82625670|NCT01468701|164966903|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.57|1.11|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.11|0.57|
82502635|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502636|NCT00174915|164696607|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.011
82502637|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502638|NCT00174915|164696607|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.091
82502639|NCT00174915|164696607|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502640|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502641|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502642|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82625671|NCT01468701|164966905|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.57|1.14|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.14|0.57|
82502643|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502644|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502645|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502646|NCT00174915|164696608|SUPERIORITY_OR_OTHER|||||||0.074||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.074
82502647|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502648|NCT00174915|164696608|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.001
82502649|NCT00174915|164696608|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||<0.001
82502650|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502651|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502652|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502653|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502654|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502655|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502656|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502657|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502658|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502659|NCT00174915|164696609|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502660|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502661|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502662|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82625672|NCT01468701|164966913|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.38|0.73|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, abnormal kidney function, concomitant antiplatelets use and concomitant use of drugs related to bleeding.||0.73|0.38|
82502663|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502664|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502665|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502666|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502667|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502668|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502669|NCT00174915|164696610|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the ANOVA model with treatment and baseline renal function as factors. Statistical significance was determined at the 0.05 level without adjustments for multiple comparisons.|ANOVA|||||||<0.001
82502670|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.789
82502671|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.320
82502672|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.381
82502673|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.809
82502674|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.154
82502675|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.247
82625673|NCT01468701|164966917|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.6|1.57|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, concomitant antiplatelets use, concomitant use of drugs related to bleeding, hypertension, and diabetes.||1.57|0.60|
82625674|NCT01468701|164966919|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.54|0.8|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||0.80|0.54|
82502676|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.415
82625675|NCT02758119|164966931|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82625676|NCT04209400|164966934|NON_INFERIORITY|P \< 0.05 is considered a statistically significant difference in seroconversion between the two groups.||||||1|||||||Chi-squared|||The null hypothesis is that the vaccines equally affect the achievement of seroconversion level.||||1
82625677|NCT00631540|164966959|SUPERIORITY_OR_OTHER||Mean Patency Rate|91.7|||<|0.0001|TWO_SIDED|95.0|84.2|95.9|||Z-test, 1-sided||GEE model estimate.|Alternative hypothesis is 9-month primary patency rate greater than 60%.||95.9|84.2|<0.0001
82625678|NCT00523614|164967035|NON_INFERIORITY_OR_EQUIVALENCE|"Size of the study adapted to the use of DNG/EE in female fertile age. Market share of DNG/EE of 13% in Germany. Assuming that 30% of women in the fertile age range were current users of OCs, a prevalence of current use of DNG/EE of about 4% was estimated.~Based on these data the number of cases needed to exclude a twofold increased VTE risk was estimated at about 500-700 cases (based on four controls per case)."|Odds Ratio (OR)|0.89|||<|0.05||95.0|0.57|1.39|||Regression, Logistic|||Null hypothesis: OR ≥ 2 (VTE of DNG/EE vs. other low-dose COC)||1.39|0.57|<0.05
82625679|NCT02483078|164967040|SUPERIORITY|||||||0.0032|||||||Fisher Exact|The Fisher's Exact test if the count in any cell was less than 5; otherwise Chi-Square test was to be used||||||.0032
82625680|NCT02483078|164967041|SUPERIORITY|||||||0.0377|||||||Fisher Exact|||||||.0377
82625681|NCT02483078|164967042|SUPERIORITY|||||||0.1201|||||||Fisher Exact|||||||.1201
82625682|NCT02483078|164967043|SUPERIORITY|||||||0.0013|||||||ANCOVA|||||||.0013
82625683|NCT02483078|164967047|SUPERIORITY|||||||0.7123|||||||ANCOVA|||The raw and change from baseline in CD4 cell count at the end of the 1-week double blind treatment period was to be summarized by treatment group for the first week during the double-blind treatment phase. For change from baseline summaries, subjects with an undefined change from baseline, because of missing data, were to be excluded.||||.7123
82625684|NCT02483078|164967049|SUPERIORITY|||||||0.0993|||||||Fisher Exact|||||||.0993
82625685|NCT03296787|164967054|SUPERIORITY|TAK-954 (Total): An analysis of variance (ANOVA) were performed on log transformed Cmax (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.7265|||||||ANOVA|||||||0.7265
82625686|NCT03296787|164967054|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed Cmax (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.9839|||||||ANOVA|||||||0.9839
82625687|NCT03296787|164967054|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of Cmax (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.9393|||||||ANOVA|||||||0.9393
82625688|NCT03296787|164967054|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of Cmax (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.1321|||||||ANOVA|||||||0.1321
82625689|NCT03296787|164967055|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC(0-72) (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.36|||||||ANOVA|||||||0.3600
82625690|NCT03296787|164967055|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC(0-72) (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0816|||||||ANOVA|||||||0.0816
82625691|NCT03296787|164967055|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC(0-72) (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.2686|||||||ANOVA|||||||0.2686
82625692|NCT03296787|164967055|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC(0-72) (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0059|||||||ANOVA|||||||0.0059
82625693|NCT03296787|164967056|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0998|||||||ANOVA|||||||0.0998
82625694|NCT03296787|164967056|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0155|||||||ANOVA|||||||0.0155
82625695|NCT03296787|164967056|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUClast (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0916|||||||ANOVA|||||||0.0916
82625696|NCT03296787|164967056|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUClast (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0014|||||||ANOVA|||||||0.0014
82625697|NCT03296787|164967057|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC∞ (total TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0038|||||||ANOVA|||||||0.0038
82625698|NCT03296787|164967057|SUPERIORITY|TAK-954 (Total): An ANOVA were performed on log transformed AUC∞ (total TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0004|||||||ANOVA|||||||0.0004
82625699|NCT03296787|164967057|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC∞ (free TAK-954) to compare moderate renal impairment group with the normal renal function group.||||||0.0389|||||||ANOVA|||||||0.0389
82625700|NCT03296787|164967057|SUPERIORITY|TAK-954 (Free): An ANOVA were performed on natural logarithm of AUC∞ (free TAK-954) to compare severe renal impairment group with the normal renal function group.||||||0.0011|||||||ANOVA|||||||0.0011
82625701|NCT01060098|164967072|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.003
82625702|NCT01060098|164967072|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.04
82625703|NCT01060098|164967072|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||week 0 compared to week 12||||0.48
82502677|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.649||95.0||||Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.649
82502678|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.807
82625704|NCT02971007|164967092|OTHER|Statistical analyses primarily descriptive with no formal statistical hypothesis testing. Summary statistics are presented by treatment group. For continuous variables, the number of observations, mean, standard deviation, median, minimum and maximum are provided as summary statistics.||||||||||||||||No formal sample size calculations were made. The sample size was determined empirically rather than with a specific statistical rationale and is considered sufficient to achieve the study objectives of this proof of concept study. Women with moderate to severe Vulvovaginal candidiasis were randomized in a 1:1:1 ratio to 1 of 3 treatment groups, stratified by signs and symptoms composite score of up to 12 (moderate) and greater than 13 (severe).|Statistical analyses primarily descriptive with no formal statistical hypothesis testing. Summary statistics are presented by treatment group. For continuous variables, the number of observations, mean, standard deviation, median, minimum and maximum are provided as summary statistics.|||
82625705|NCT05302804|164967096|SUPERIORITY|||||||0.742||||||p-value reflects main effect of treatment.|ANOVA|||"Null hypothesis was there was no difference between menthol gel and control gel~time x trial ANOVA statistical analysis"||||0.742
82625706|NCT05302804|164967097|SUPERIORITY|||||||0.742||||||p-value is main effect of menthol|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||0.742
82625707|NCT05302804|164967098|SUPERIORITY|||||||0.048||||||p-value reflects main effect of menthol|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||0.048
82625708|NCT05302804|164967099|SUPERIORITY|||||||0.104|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between menthol and control trials||||.104
82502679|NCT00174915|164696611|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.844
82502680|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.699
82625709|NCT05302804|164967100|SUPERIORITY|||||||0.051|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between menthol and control trials||||.051
82625710|NCT05302804|164967101|SUPERIORITY||||||<|0.001||||||Main effect of treatment|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||< 0.001
82625711|NCT05302804|164967102|SUPERIORITY|||||||0.026|||||||ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||.026
82502681|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.822
82502682|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.579
82502683|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.679
82625712|NCT05302804|164967103|SUPERIORITY|||||||0.001||||||p-value at time 30 min of exercise|ANOVA|||The null hypothesis is that there is no difference between menthol and control trials||||.001
82625713|NCT05302804|164967104|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82625714|NCT02052141|164967117|SUPERIORITY||Mean difference|-0.4|STANDARD_DEVIATION|0.58||0.03|TWO_SIDED|90.0|-0.71|-0.1|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.10|-0.71|0.03
82625715|NCT02052141|164967118|SUPERIORITY||Mean difference|-0.7|STANDARD_DEVIATION|1.06||0.05|TWO_SIDED|90.0|-1.2|-0.11|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.11|-1.20|0.05
82502684|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.278
82502685|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.104||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.104
82502686|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.56||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.560
82502687|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.309||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.309
82502688|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.759
82502689|NCT00174915|164696612|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.385
82502690|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.949
82502691|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.050
82625716|NCT02052141|164967119|SUPERIORITY||Mean difference|-1.9|STANDARD_DEVIATION|2.82||0.04|TWO_SIDED|90.0|-3.31|-0.38|||Paired t-test||The difference between treatment B over treatment A was estimated.|||-0.38|-3.31|0.04
82625717|NCT02052141|164967120|SUPERIORITY||Mean difference|-0.2|STANDARD_DEVIATION|0.37||0.07|TWO_SIDED|90.0|-0.41|-0.03|||Paired t-test||The difference between treatment B over treatment A was estimated|||-0.03|-0.41|0.07
82625718|NCT00879437|164967126|NON_INFERIORITY|if 19 evaluable patients enrolled for DIPG, study is powered at 80% to detect a 20% improvement in 1-year EFS compared to historical control if 21 evaluable patients enrolled for HGG, study is powered at 80% to detect a 20% improvement in 1-year EFS compared to historical control|||||<|0.05|||||||Log Rank|one sample log-rank||comparing 1-year EFS of DIPG on this trial versus historical control (1-year EFS of 17% from CCG-9941; PMID 12177103) comparing 1-year EFS of HGG on this trial versus historical control (1-year EFS of 36% from ACNS0126; PMID 21339192)||||< 0.05
82625719|NCT00879437|164967166|OTHER|The Kaplan-Meier method was used to estimate the median EFS for each cohort with 95% confidence intervals. All analyses were performed in SAS version 9.4 statistical software (SAS Institute Inc) and R (https://cran.r-project.org/).|||||||TWO_SIDED|95.0|||||||||The Kaplan-Meier method was used to estimate the median EFS for each cohort with 95% confidence intervals.|||
82625720|NCT00879437|164967167|OTHER|The Kaplan-Meier method was used to estimate the one-year EFS for each cohort with 95% confidence intervals. All analyses were performed in SAS version 9.4 statistical software (SAS Institute Inc) and R (https://cran.r-project.org/).|||||||TWO_SIDED|95.0|||||||||The Kaplan-Meier method was used to estimate the one-year EFS for each cohort with 95% confidence intervals.|||
82625721|NCT00879437|164967168|OTHER|||||||||||||||||partial response defined as 51% to 99% reduction in tumor size,determined using WHO bi-dimensional criteria (product of the greatest tumor diameter and its perpendicular diameter)|Not applicable (8 partial responses in 16 patients = 50%)|||
82625722|NCT03000686|164967176|OTHER||Median Difference (Net)|0.021|STANDARD_DEVIATION|1.1339|||TWO_SIDED|95.0|-2.249|2.295|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 15 minutes post-infusion|||2.295|-2.249|
82625723|NCT03000686|164967176|OTHER||Median Difference (Net)|-4.021|STANDARD_DEVIATION|2.5923|||TWO_SIDED|95.0|-9.168|1.146|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 60 minutes post-chamber entry.|||1.146|-9.168|
82625724|NCT03000686|164967176|OTHER||Median Difference (Net)|-1.668|STANDARD_DEVIATION|4.4927|||TWO_SIDED|95.0|-10.576|7.231|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for immediately post-exercise|||7.231|-10.576|
82625725|NCT03000686|164967176|OTHER||Median Difference (Net)|-0.824|STANDARD_DEVIATION|1.6695|||TWO_SIDED|95.0|-4.142|2.506|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 30 minutes post-chamber exit|||2.506|-4.142|
82625726|NCT03000686|164967177|OTHER||Median Difference (Net)|-0.662|STANDARD_DEVIATION|2.1933|||TWO_SIDED|95.0|-5.037|3.815|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 15 minutes post-infusion|||3.815|-5.037|
82625727|NCT03000686|164967177|OTHER||Median Difference (Net)|-2.796|STANDARD_DEVIATION|3.4297|||TWO_SIDED|95.0|-9.729|4.027|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 60 minutes post-chamber entry.|||4.027|-9.729|
82625728|NCT03000686|164967177|OTHER||Median Difference (Net)|-0.018|STANDARD_DEVIATION|4.145|||TWO_SIDED|95.0|-8.475|8.086|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 2 minutes post-exercise start|||8.086|-8.475|
82625729|NCT03000686|164967177|OTHER||Median Difference (Net)|-0.291|STANDARD_DEVIATION|2.3277|||TWO_SIDED|95.0|-4.96|4.386|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval is presented for 30 minutes post-chamber exit|||4.386|-4.960|
82625730|NCT03000686|164967184|OTHER||Median Difference (Net)|-0.148|STANDARD_DEVIATION|0.5622|||TWO_SIDED|95.0|-1.264|0.973|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 15 minutes post-infusion is presented.|||0.973|-1.264|
82625731|NCT03000686|164967184|OTHER||Median Difference (Net)|-1.172|STANDARD_DEVIATION|2.072|||TWO_SIDED|95.0|-5.271|2.942|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 60 minutes post-chamber entry is presented.|||2.942|-5.271|
82625732|NCT03000686|164967184|OTHER||Median Difference (Net)|-0.169|STANDARD_DEVIATION|2.2351|||TWO_SIDED|95.0|-4.624|4.258|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation immediately post-exercise is presented.|||4.258|-4.624|
82625733|NCT03000686|164967184|OTHER||Median Difference (Net)|-0.367|STANDARD_DEVIATION|0.5649|||TWO_SIDED|95.0|-1.498|0.753|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 30 minutes post-chamber exit is presented.|||0.753|-1.498|
82625734|NCT03000686|164967185|OTHER||Median Difference (Net)|0.203|STANDARD_DEVIATION|0.8872|||TWO_SIDED|95.0|-1.578|1.968|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 15 minutes post-infusion is presented.|||1.968|-1.578|
82625735|NCT03000686|164967185|OTHER||Median Difference (Net)|3.76|STANDARD_DEVIATION|1.8799|||TWO_SIDED|95.0|-0.001|7.495|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 60 minutes post-chamber entry is presented.|||7.495|-0.001|
82625736|NCT03000686|164967185|OTHER||Median Difference (Net)|-1.029|STANDARD_DEVIATION|2.8146|||TWO_SIDED|95.0|-6.673|4.578|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 2 minutes post-exercise start is presented.|||4.578|-6.673|
82625737|NCT03000686|164967185|OTHER||Median Difference (Net)|-0.873|STANDARD_DEVIATION|0.762|||TWO_SIDED|95.0|-2.38|0.669|||||Posterior median difference (GSK2586881 0.8 mg/kg - Placebo) and 95% credible interval for oxygen saturation at 30 minutes post-chamber exit is presented.|||0.669|-2.380|
82625738|NCT01484561|164967249|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.92|||||TWO_SIDED|90.0|0.86|0.98|||ANCOVA||Analysis of covariance (ANCOVA) with change in logarithmic mGFR from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold Change (CP-690,550-placebo vs. placebo-placebo)||0.98|0.86|
82625739|NCT01484561|164967250|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|0.97|1.11|||ANCOVA||ANCOVA with change in logarithmic mGFR from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.11|0.97|
82625740|NCT01484561|164967251|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.09|||||TWO_SIDED|90.0|1.02|1.16|||ANCOVA||ANCOVA with change in logarithmic mGFR from Period 2 baseline/the end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/the end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.16|1.02|
82625741|NCT01484561|164967252|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.94|||||TWO_SIDED|90.0|0.91|0.97|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||0.97|0.91|
82625742|NCT01484561|164967253|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.99|||||TWO_SIDED|90.0|0.96|1.02|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.02|0.96|
82625743|NCT01484561|164967254|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|1.0|1.08|||ANCOVA||ANCOVA with change in logarithmic eGFR (MDRD) from Period 2 baseline/end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.08|1.00|
82625744|NCT01484561|164967255|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.95|||||TWO_SIDED|90.0|0.92|0.98|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||0.98|0.92|
82625745|NCT01484561|164967256|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.99|||||TWO_SIDED|90.0|0.97|1.02|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.02|0.97|
82625746|NCT01484561|164967257|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.04|||||TWO_SIDED|90.0|1.01|1.07|||ANCOVA||ANCOVA with change in logarithmic eGFR (Cockcroft-Gault) from Period 2 baseline/end of Period 1 as dependent variable, treatment and logarithmic Period 2 baseline/end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.07|1.01|
82625747|NCT01484561|164967258|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.05|||||TWO_SIDED|90.0|1.02|1.08|||ANCOVA||ANCOVA with change in logarithmic creatinine from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.08|1.02|
82625748|NCT01484561|164967259|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|1.01|||||TWO_SIDED|90.0|0.98|1.04|||ANCOVA||ANCOVA with change in logarithmic creatinine from baseline as dependent variable, treatment and logarithmic baseline as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.04|0.98|
82625749|NCT01484561|164967260|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geo Mean-Fold Change|0.97|||||TWO_SIDED|90.0|0.94|1.0|||ANCOVA||ANCOVA with change in logarithmic creatinine from Period 2 baseline/the end of Period 1 as dependent variable, treatment and Period 2 baseline/the end of Period 1 as covariate.|Ratio of adjusted geometric mean-fold change (CP-690,550-placebo vs. placebo-placebo)||1.00|0.94|
82625750|NCT01484561|164967261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.16|STANDARD_ERROR_OF_MEAN|7.64|<|0.001|TWO_SIDED|90.0|23.6|48.73||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR20 Response at End of Period 1||48.73|23.60|<0.001
82625751|NCT01484561|164967261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.95|STANDARD_ERROR_OF_MEAN|8.14||0.05|TWO_SIDED|90.0|2.56|29.34||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR20 Response at End of Period 2||29.34|2.56|0.050
82625752|NCT01484561|164967262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.02|STANDARD_ERROR_OF_MEAN|5.94|<|0.001|TWO_SIDED|90.0|11.24|30.8||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR50 Response at End of Period 1||30.80|11.24|<0.001
82625753|NCT01484561|164967262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_ERROR_OF_MEAN|6.13||0.006|TWO_SIDED|90.0|6.92|27.08||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR50 Response at End of Period 2||27.08|6.92|0.006
82625754|NCT01484561|164967263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.56|STANDARD_ERROR_OF_MEAN|3.95|<|0.001|TWO_SIDED|90.0|12.06|25.05||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR70 Response at End of Period 1||25.05|12.06|<0.001
82625755|NCT01484561|164967263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.32|STANDARD_ERROR_OF_MEAN|3.53||0.038|TWO_SIDED|90.0|1.51|13.12||Two-sided test at 5% significance level.|Normal approximation for proportions|||Between-group difference in ACR70 Response at End of Period 2||13.12|1.51|0.038
82625756|NCT01484561|164967264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|90.0|-1.53|-0.78||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.78|-1.53|<0.001
82625757|NCT01484561|164967265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.21||0.028|TWO_SIDED|90.0|-0.83|-0.12||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.12|-0.83|0.028
82625758|NCT01484561|164967266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.22||0.002|TWO_SIDED|90.0|0.32|1.04||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.04|0.32|0.002
82625759|NCT01484561|164967267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|-1.67|-0.84||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.84|-1.67|<0.001
82625760|NCT01484561|164967268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.031|TWO_SIDED|90.0|-0.88|-0.12||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.12|-0.88|0.031
82625761|NCT01484561|164967269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.24||0.002|TWO_SIDED|90.0|0.36|1.15||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.15|0.36|0.002
82625762|NCT01484561|164967270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.09|STANDARD_ERROR_OF_MEAN|2.02||0.045|TWO_SIDED|90.0|-7.44|-0.74||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.74|-7.44|0.045
82625763|NCT01484561|164967271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.76||0.936|TWO_SIDED|90.0|-2.78|3.06||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||3.06|-2.78|0.936
82625764|NCT01484561|164967272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|1.93||0.03|TWO_SIDED|90.0|1.04|7.42||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||7.42|1.04|0.030
82625765|NCT01484561|164967273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26|STANDARD_ERROR_OF_MEAN|1.03||0.03|TWO_SIDED|90.0|-3.96|-0.55||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.55|-3.96|0.030
82625766|NCT01484561|164967274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.11||0.472|TWO_SIDED|90.0|-2.64|1.04||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||1.04|-2.64|0.472
82625767|NCT01484561|164967275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|1.03||0.158|TWO_SIDED|90.0|-0.24|3.15||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||3.15|-0.24|0.158
82625768|NCT01484561|164967276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.73|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|90.0|-19.87|-7.59||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.59|-19.87|<0.001
82625769|NCT01484561|164967277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.89|STANDARD_ERROR_OF_MEAN|4.04||0.029|TWO_SIDED|90.0|-15.58|-2.21||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-2.21|-15.58|0.029
82625770|NCT01484561|164967278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.84|STANDARD_ERROR_OF_MEAN|2.98||0.107|TWO_SIDED|90.0|-0.1|9.77||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||9.77|-0.10|0.107
82625771|NCT01484561|164967279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|4.87||0.001|TWO_SIDED|90.0|-23.96|-7.84||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.84|-23.96|0.001
82625772|NCT01484561|164967280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|4.95||0.251|TWO_SIDED|90.0|-13.9|2.5||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||2.50|-13.90|0.251
82625773|NCT01484561|164967281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.19|STANDARD_ERROR_OF_MEAN|4.42||0.023|TWO_SIDED|90.0|2.87|17.52||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||17.52|2.87|0.023
82625774|NCT01484561|164967282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.12|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|90.0|-21.58|-8.67||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-8.67|-21.58|<0.001
82625775|NCT01484561|164967283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.77||0.616|TWO_SIDED|90.0|-10.3|5.5||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||5.50|-10.30|0.616
82625776|NCT01484561|164967284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.72|STANDARD_ERROR_OF_MEAN|4.17||0.003|TWO_SIDED|90.0|5.82|19.62||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||19.62|5.82|0.003
82625777|NCT01484561|164967285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|90.0|-22.78|-7.82||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-7.82|-22.78|<0.001
82625778|NCT01484561|164967286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.62|STANDARD_ERROR_OF_MEAN|4.83||0.247|TWO_SIDED|90.0|-13.62|2.38||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||2.38|-13.62|0.247
82625779|NCT01484561|164967287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.68|STANDARD_ERROR_OF_MEAN|4.67||0.04|TWO_SIDED|90.0|1.95|17.41||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||17.41|1.95|0.040
82625780|NCT01484561|164967288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|90.0|-0.56|-0.23||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.23|-0.56|<0.001
82625781|NCT01484561|164967289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.09||0.053|TWO_SIDED|90.0|-0.31|-0.03||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||-0.03|-0.31|0.053
82625782|NCT01484561|164967290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|90.0|0.1|0.35||Two-sided test at 5% significance level.|Mixed Models Analysis||Linear mixed-effects model for longitudinal data was used with actual value as dependent variable, treatment group, visit (baseline, end of Period 1, end of Period 2), treatment group by visit interaction as fixed effect, participant as random effect|||0.35|0.10|0.003
82625783|NCT03371251|164967292|SUPERIORITY||Observed Difference vs. Placebo|2.0||||0.8434|TWO_SIDED|90.0|-14.5|18.5|||Pearson's chi-square test|||Statistical Analysis: SRI-4 Response||18.5|-14.5|0.8434
82625784|NCT03371251|164967292|SUPERIORITY||Observed Difference vs. Placebo|2.0||||0.8434|TWO_SIDED|90.0|-14.5|18.5|||Pearson's chi-square test|||Statistical Analysis: \>= 4-Point Reduction from Baseline in SLEDAI-2K Global Score||18.5|-14.5|0.8434
82625785|NCT03371251|164967292|SUPERIORITY||Observed Difference vs. Placebo|17.7||||0.0141|TWO_SIDED|90.0|4.5|30.9|||Pearson's chi-square test|||Statistical Analysis: No New BILAG A or More than One BILAG B Organ Score Compared with Baseline||30.9|4.5|0.0141
82625786|NCT03371251|164967292|SUPERIORITY||Observed Difference vs. Placebo|17.7||||0.0141|TWO_SIDED|90.0|4.5|30.9|||Pearson's chi-square test|||Statistical Analysis: No Deterioration from Baseline in PGA by \>=30mm||30.9|4.5|0.0141
82625787|NCT03371251|164967308|SUPERIORITY||Observed Difference vs. Placebo|-2.6||||0.7985|TWO_SIDED|90.0|-19.8|14.5|||Pearson's chi-square test|||||14.5|-19.8|0.7985
82625788|NCT03371251|164967309|SUPERIORITY||Observed Difference vs. Placebo|-6.9||||0.3498|TWO_SIDED|90.0|-22.9|9.8|||Pearson's chi-square test|||Statistical Analysis for Overall||9.8|-22.9|0.3498
82625789|NCT03371251|164967310|SUPERIORITY||Observed Difference vs. Placebo|-21.8||||0.0072|TWO_SIDED|90.0|-36.2|-7.4|||Pearson's chi-square test|||Statistical analysis for Overall||-7.4|-36.2|0.0072
82625790|NCT03371251|164967310|SUPERIORITY||Observed Difference vs. Placebo|-17.7||||0.0141|TWO_SIDED|90.0|-30.9|-4.5|||Pearson's chi-square test|||Statistical Analysis for Day 210||-4.5|-30.9|0.0141
82625791|NCT03371251|164967311|SUPERIORITY||Observed Difference vs. Placebo|4.9||||0.6107|TWO_SIDED|90.0|-10.7|20.5|||Pearson's chi-square test|||||20.5|-10.7|0.6107
82625792|NCT03371251|164967312|SUPERIORITY||Observed Difference vs. Placebo|15.4||||0.1237|TWO_SIDED|90.0|-0.9|31.8|||Pearson's chi-square test|||||31.8|-0.9|0.1237
82625793|NCT03371251|164967313|SUPERIORITY||Observed Difference vs. Placebo|-13.7||||0.0581|TWO_SIDED|90.0|-26.7|-0.7|||Pearson's chi-square test|||Statistical Analysis for Overall||-0.7|-26.7|0.0581
82625794|NCT03371251|164967313|SUPERIORITY||Observed Difference vs. Placebo|-14.3||||0.0471|TWO_SIDED|90.0|-31.2|3.2|||Pearson's chi-square test|||Statistical Analysis for Day 210||3.2|-31.2|0.0471
82625795|NCT03371251|164967314|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|-0.3|STANDARD_ERROR_OF_MEAN|0.78||0.6596|TWO_SIDED|90.0|-1.63|0.94|||ANCOVA||This is based on LS Means|Statistical Analysis for CLASI-A (Total Activity)||0.94|-1.63|0.6596
82625796|NCT03371251|164967314|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.3|STANDARD_ERROR_OF_MEAN|0.33||0.4105|TWO_SIDED|90.0|-0.27|0.81|||ANCOVA||This is based on LS Means|Statistical Analysis for CLASI-B (Total Damage)||0.81|-0.27|0.4105
82625797|NCT03371251|164967315|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|4.11||0.8546|TWO_SIDED|90.0|-6.07|7.58|||ANCOVA||This is based on LS Means|Statistical Analysis for Day 210||7.58|-6.07|0.8546
82625798|NCT03371251|164967316|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4455|TWO_SIDED|90.0|-0.63|1.71|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Swelling for Day 210||1.71|-0.63|0.4455
82625799|NCT03371251|164967316|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.9|STANDARD_ERROR_OF_MEAN|0.94||0.3367|TWO_SIDED|90.0|-0.65|2.47|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Tenderness for Day 210||2.47|-0.65|0.3367
82625800|NCT03371251|164967316|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|0.66||0.255|TWO_SIDED|90.0|-0.34|1.86|||ANCOVA||This is based on LS Means|Statistical Analysis for Sum of Active Joints for Day 210||1.86|-0.34|0.2550
82625801|NCT03371251|164967317|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.8|STANDARD_ERROR_OF_MEAN|0.68||0.2498|TWO_SIDED|90.0|-0.34|1.93|||ANCOVA||This is based on LS Means|||1.93|-0.34|0.2498
82625802|NCT03371251|164967318|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.2558|TWO_SIDED|90.0|-0.02|0.12|||ANCOVA||This is based on LS Means|Statistical Analysis for Day 180||0.12|-0.02|0.2558
82625803|NCT03371251|164967319|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.0479|TWO_SIDED|90.0|0.18|0.88|||Log Rank||Hazard rate of BOS161721 120 mg / Hazard rate of placebo|||0.88|0.18|0.0479
82625804|NCT03371251|164967321|SUPERIORITY||Treatment Difference (BOS161721-Placebo)|4.4|STANDARD_ERROR_OF_MEAN|16.4||0.7898|TWO_SIDED|90.0|-22.92|31.7|||ANOVA||This is based on LS Means|||31.70|-22.92|0.7898
82625805|NCT03371251|164967322|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.0083|TWO_SIDED|90.0|0.16|0.68|||Log-Rank Test (2-Sided)||Hazard rate of BOS161721 120mg / Hazard rate of placebo|||0.68|0.16|0.0083
82625806|NCT00291187|164967324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|||<|0.001|TWO_SIDED|95.0|-33.1|-9.9|||ANCOVA|||||-9.9|-33.1|<0.001
82625807|NCT00291187|164967324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.3|||<|0.001|TWO_SIDED|95.0|-37.8|-14.7|||ANCOVA|||||-14.7|-37.8|<0.001
82625808|NCT00291187|164967324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8|||<|0.001|TWO_SIDED|95.0|-34.2|-11.3|||ANCOVA|||||-11.3|-34.2|<0.001
82625809|NCT00291187|164967325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2||||0.017|TWO_SIDED|95.0|-44.1|-4.3|||ANCOVA|||||-4.3|-44.1|0.017
82625810|NCT00291187|164967325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.7||||0.001|TWO_SIDED|95.0|-53.6|-13.9|||ANCOVA|||||-13.9|-53.6|0.001
82625811|NCT00291187|164967325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4||||0.081|TWO_SIDED|95.0|-37.0|2.1|||ANCOVA|||||2.1|-37.0|0.081
82625812|NCT00291187|164967326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.7||||0.002|TWO_SIDED|95.0|13.0|54.5|||ANCOVA|||||54.5|13.0|0.002
82625813|NCT00291187|164967326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.9|||<|0.001|TWO_SIDED|95.0|27.2|68.6|||ANCOVA|||||68.6|27.2|<0.001
82625814|NCT00291187|164967326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.6||||0.005|TWO_SIDED|95.0|9.1|50.0|||ANCOVA|||||50.0|9.1|0.005
82625815|NCT00291187|164967327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1||||0.006|TWO_SIDED|95.0|-18.9|-3.3|||ANCOVA|||||-3.3|-18.9|0.006
82625816|NCT00291187|164967327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.3|||<|0.001|TWO_SIDED|95.0|-22.1|-6.5|||ANCOVA|||||-6.5|-22.1|<0.001
82625817|NCT00291187|164967327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3||||0.002|TWO_SIDED|95.0|-20.0|-4.6|||ANCOVA|||||-4.6|-20.0|0.002
82625818|NCT04362813|164967328|SUPERIORITY||Odds Ratio (OR)|1.39||||0.2874|TWO_SIDED|95.0|0.76|2.54|||Regression, Logistic|||Odds ratio is based on a Logistic regression model adjusted by treatment, region (North America vs Europe), and baseline 9-point ordinal scale (\<=4, \>=5).||2.54|0.76|0.2874
82502692|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.577
82625819|NCT04362813|164967329|SUPERIORITY||Odds Ratio (OR)|0.67||||0.3303|TWO_SIDED|95.0|0.3|1.5|||Regression, Logistic|||Odds ratio is based on a Logistic regression model adjusted by treatment, region (North America vs Europe), and baseline 9-point ordinal scale (\<=4, \>=5)||1.50|0.30|0.3303
82625820|NCT01363258|164967352|OTHER|Generalized linear mixed models fitted with binomial (logit link) and gamma (log link) distributions, with additional dispersion parameters, were used to estimate and test intervention effects in terms of occurrence and intensity of CRBs, respectively. Inference was conducted in the link scale, but inverse-link estimates in the original scales (proportions and CRB scores, for the binomial and gamma models, respectively) were computed to facilitate interpretation.|Effect size|-0.16||||0.1433|TWO_SIDED||||||Time by group interaction test|||||||0.1433
82625821|NCT00918346|164967359|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence limit was set to 1.5 mmHg. Equivalence was shown if the two-sided 95% confidence interval for the difference (unpreserved-preserved) lay entirely within the equivalence range (-1.5 mmHg, 1.5 mmHg). Target sample size was 34 evaluable patients (40 randomized), assuming a standard deviation of 3.0 mmHg change in IOP, a power of 80%, an intra-class correlation coefficient of 0.60 and a twosided type 1 error rate of 5%.|Mean Difference (Final Values)|0.01||||0.96||95.0|-0.46|0.49|||ANCOVA|Baseline IOP a covariate|Analysis model used IOP measurements at four timepoints (at 8, 12, 16 and 20 o'clock) on Baseline and Week 4.|H1 (the alternative hypothesis aimed to be proven): the unpreserved formulation is equivalent with the preserved formulation||0.49|-0.46|0.96
82625822|NCT00918346|164967360|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence limit was set to 1.5 mmHg. Equivalence was shown if the two-sided 95% confidence interval for the difference (unpreserved-preserved) lay entirely within the equivalence range (-1.5 mmHg, 1.5 mmHg). Target sample size was 34 evaluable patients (40 randomized), assuming a standard deviation of 3.0 mmHg change in IOP, a power of 80%, an intra-class correlation coefficient of 0.60 and a twosided type I error rate of 5%.|Median Difference (Final Values)|-0.05||||0.83||95.0|-0.52|0.42|||ANCOVA|Baseline IOP a covariate|Analysis model used IOP measurements at four timepoints (at 8, 12, 16 and 20 o'clock) on Baseline and Week 4|H1 (the alternative hypothesis aimed to be proven): the unpreserved formulation is equivalent with the preserved formulation||0.42|-0.52|0.83
82625823|NCT03238352|164967361|OTHER||Difference of Least Square mean|-1.22|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.657|-0.782|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Test Product versus Negative Control at Week 8 is a primary endpoint comparison.||-0.782|-1.657|<0.0001
82625824|NCT03238352|164967361|OTHER||Difference of Least Square mean|-1.28|STANDARD_ERROR_OF_MEAN|0.213|<|0.0001|TWO_SIDED|95.0|-1.705|-0.858|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.858|-1.705|<.0001
82625825|NCT03238352|164967361|OTHER||Difference of Least Square mean|-1.25|STANDARD_ERROR_OF_MEAN|0.176|<|0.0001|TWO_SIDED|95.0|-1.6|-0.901|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Test Product versus Combined Control (Placebo and Negative Control) group was obtained by using estimates statement in the ANCOVA model.||-0.901|-1.600|<0.0001
82502693|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.598||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.598
82625826|NCT03238352|164967362|OTHER||Diference of Least Square mean|37.46|STANDARD_ERROR_OF_MEAN|7.306|<|0.0004|TWO_SIDED|95.0|22.916|51.995||P-value from Van Elteren test|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|||51.995|22.916|<0.0004
82625827|NCT03238352|164967362|OTHER||Diference of Least Square mean|49.88|STANDARD_ERROR_OF_MEAN|7.079|<|0.0001|TWO_SIDED|95.0|35.791|63.966||P-value from Van Elteren test|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|||63.966|35.791|<.0001
82625828|NCT03238352|164967362|OTHER||Diference of Least Square mean|43.67|STANDARD_ERROR_OF_MEAN|5.862|<|0.0001|TWO_SIDED|95.0|32.001|55.334||P-value from Van Elteren test.|ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is the first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Test Product versus Combined Control (Placebo and Negative Control) group is obtained by using estimates statement in the ANCOVA model||55.334|32.001|<.0001
82625829|NCT02157168|164967381|SUPERIORITY|||||||0.624||||||This comparison reflects intent to treat and is the main comparison in the study.|Chi-squared|||CG and IG (IG1+IG2)||||0.624
82625830|NCT02157168|164967381|SUPERIORITY|||||||0.001||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.001
82625831|NCT02157168|164967382|SUPERIORITY|||||||0.278||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.278
82625832|NCT02157168|164967382|SUPERIORITY|||||||0.056||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.056
82625833|NCT02157168|164967383|SUPERIORITY|||||||0.889||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.889
82625834|NCT02157168|164967383|SUPERIORITY|||||||0.691||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.691
82625835|NCT02157168|164967384|SUPERIORITY|||||||0.741||||||This comparison reflects intent to treat and compares the two randomized groups CG and IG (IG1+IG2).|Chi-squared|||CG and IG (IG1+IG2)||||0.741
82625836|NCT02157168|164967384|SUPERIORITY|||||||0.966||||||This comparison could be considered to be a per protocol analysis. Note, however, that the IG1 group was self-selected.|Chi-squared|||||||0.966
82625837|NCT02157168|164967385|SUPERIORITY|||||||0.117||||||This comparison captures the change over the intervention period.|Chi-squared|||||||.117
82625838|NCT02157168|164967385|SUPERIORITY|||||||0.638||||||This comparison is an indication of whether the change seen between baseline and 6 months in the IG1 was due to the intervention or simply due to 6 months' enrollment.|Chi-squared|||||||.638
82625839|NCT02971293|164967386|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625840|NCT02971293|164967386|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625841|NCT02971293|164967386|SUPERIORITY|||||||0.02|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.020
82625842|NCT02971293|164967398|SUPERIORITY|||||||0.002|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.002
82625843|NCT02971293|164967398|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625844|NCT02971293|164967398|SUPERIORITY|||||||0.011|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.011
82625845|NCT02971293|164967399|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625846|NCT02971293|164967399|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625847|NCT02971293|164967399|SUPERIORITY|||||||0.201|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.201
82625848|NCT02971293|164967400|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625849|NCT02971293|164967400|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625850|NCT02971293|164967400|SUPERIORITY|||||||0.02|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.020
82625851|NCT02971293|164967401|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625852|NCT02971293|164967401|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625853|NCT02971293|164967401|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||<0.001
82625854|NCT02971293|164967402|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625855|NCT02971293|164967402|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625856|NCT02971293|164967402|SUPERIORITY|||||||0.092|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.092
82625857|NCT02971293|164967403|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625858|NCT02971293|164967403|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625859|NCT02971293|164967403|SUPERIORITY|||||||0.279|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.279
82625860|NCT02971293|164967404|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 100 µg vs placebo||||<0.001
82625861|NCT02971293|164967404|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625862|NCT02971293|164967404|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effect: treatment, sequence, period, treatment\*day. Repeat factor: day. Random effect: patient nested in sequence. Continuous covar: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||<0.001
82625863|NCT02971293|164967405|SUPERIORITY|||||||0.205|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.205
82625864|NCT02971293|164967405|SUPERIORITY|||||||0.002|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.002
82625865|NCT02971293|164967405|SUPERIORITY|||||||0.06|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.060
82625866|NCT02971293|164967406|SUPERIORITY|||||||0.111|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.111
82625867|NCT02971293|164967406|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625868|NCT02971293|164967406|SUPERIORITY|||||||0.015|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.015
82625869|NCT02971293|164967407|SUPERIORITY|||||||0.621|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.621
82625870|NCT02971293|164967407|SUPERIORITY|||||||0.138|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.138
82625871|NCT02971293|164967407|SUPERIORITY|||||||0.333|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.333
82625872|NCT02971293|164967408|SUPERIORITY|||||||0.748|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.748
82625873|NCT02971293|164967408|SUPERIORITY|||||||0.005|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.005
82625874|NCT02971293|164967408|SUPERIORITY|||||||0.013|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.013
82502694|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.062
82625875|NCT02971293|164967409|SUPERIORITY|||||||0.064|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.064
82625876|NCT02971293|164967409|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625877|NCT02971293|164967409|SUPERIORITY|||||||0.03|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.030
82625878|NCT02971293|164967410|SUPERIORITY|||||||0.018|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.018
82625879|NCT02971293|164967410|SUPERIORITY||||||<|0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||<0.001
82625880|NCT02971293|164967410|SUPERIORITY|||||||0.047|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.047
82625881|NCT02971293|164967411|SUPERIORITY|||||||0.477|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.477
82625882|NCT02971293|164967411|SUPERIORITY|||||||0.014|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.014
82502695|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.969
82625883|NCT02971293|164967411|SUPERIORITY|||||||0.084|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.084
82625884|NCT02971293|164967412|SUPERIORITY|||||||0.213|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 100 µg vs placebo||||0.213
82625885|NCT02971293|164967412|SUPERIORITY|||||||0.001|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs placebo||||0.001
82625886|NCT02971293|164967412|SUPERIORITY|||||||0.046|||||||ANCOVA|Fixed effects: treatment, sequence, period. Random effect for patient nested within sequence. Continuous covariate: baseline.||Comparison of AZD8871 600 µg vs AZD8871 100 µg||||0.046
82625887|NCT00729326|164967413|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-values were not adjusted. The primary measure was change in 24-hour glucose without multiplicity adjustments for other analyses.|ANCOVA|Analyses for continuous variables adjusted for treatment, period, sequence, baseline of the continuous variable.Analysis method was Grizzle's model.||Null hypothesis: The 24-hour average glucose for exenatide was greater than or equal to that for sitagliptin after 4 weeks of treatment. The primary objective was to compare exenatide with sitagliptin on the time-averaged glucose during the 24-hour inpatient periods after 4 weeks of treatment.||||<.001
82625888|NCT00729326|164967414|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625889|NCT00729326|164967415|SUPERIORITY_OR_OTHER|||||||0.766||95.0|||||ANCOVA|||||||.766
82625890|NCT00729326|164967416|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625891|NCT00729326|164967417|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625892|NCT00729326|164967418|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||ANCOVA|||||||.117
82625893|NCT00729326|164967419|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625894|NCT00729326|164967420|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625895|NCT00729326|164967421|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82502696|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.056
82502697|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.659
82625896|NCT00729326|164967422|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625897|NCT00729326|164967423|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625898|NCT00729326|164967424|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625899|NCT00729326|164967425|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82625900|NCT00996593|164967436|SUPERIORITY_OR_OTHER||Percentage of participants|65.0|||||TWO_SIDED|95.0|50.0|80.0|||||The estimated value represents the percentage of participants with complete response.|||80|50|
82625901|NCT00996593|164967437|SUPERIORITY_OR_OTHER||Percentage of participants|23.0|||||TWO_SIDED|95.0|10.0|35.0|||||The estimated value represents the percentage of participants with complete response.|||35|10|
82625902|NCT00996593|164967438|SUPERIORITY_OR_OTHER||Percentage of participants|38.0|||||TWO_SIDED|95.0|22.0|53.0|||||The estimated value represents the percentage of participants with complete response.|||53|22|
82625903|NCT00996593|164967439|SUPERIORITY_OR_OTHER||Percentage of participants|28.0|||||TWO_SIDED|95.0|14.0|41.0|||||The estimated value represents the percentage of participants with complete response.|||41|14|
82625904|NCT00996593|164967444|SUPERIORITY_OR_OTHER||Percentage of responders|75.0||||1|TWO_SIDED|95.0|54.0|96.0||With prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||96|54|1.0
82625905|NCT00996593|164967444|SUPERIORITY_OR_OTHER||Percentage of responders|70.0||||1|TWO_SIDED|95.0|51.0|88.0||Without prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||88|51|1.0
82625906|NCT00996593|164967445|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Fisher Exact|||||||0.8
82625907|NCT00996593|164967446|SUPERIORITY_OR_OTHER||Percentage of responders|31.0||||1|TWO_SIDED|95.0|9.0|54.0||With prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||54|9|1.0
82625908|NCT00996593|164967446|SUPERIORITY_OR_OTHER||Percentage of responders|17.0||||1|TWO_SIDED|95.0|2.0|33.0||Without prior response|Fisher Exact||The estimated value represents the percentage of participants with response.|||33|2|1.0
82625909|NCT00996593|164967447|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
82625910|NCT00996593|164967448|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Log Rank|||||||0.9
82625911|NCT00871572|164967480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0296|TWO_SIDED|90.0|-1.64|-0.23|||Mixed Models Analysis|||||-0.23|-1.64|0.0296
82625912|NCT00871572|164967480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0418|TWO_SIDED|90.0|-1.37|-0.15|||Mixed Models Analysis|||||-0.15|-1.37|0.0418
82625913|NCT00871572|164967480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0514|TWO_SIDED|90.0|-1.41|-0.12|||Mixed Models Analysis|||||-0.12|-1.41|0.0514
82625914|NCT00871572|164967481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.2565|TWO_SIDED|95.0|-4.46|1.21|||Mixed Models Analysis|||||1.21|-4.46|0.2565
82625915|NCT00871572|164967481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.1245|TWO_SIDED|95.0|-4.25|0.53|||Mixed Models Analysis|||||0.53|-4.25|0.1245
82625916|NCT00871572|164967481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.0594|TWO_SIDED|95.0|-4.92|0.1|||Mixed Models Analysis|||||0.10|-4.92|0.0594
82625917|NCT00871572|164967482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-124.56||||0.4978|TWO_SIDED|95.0|-490.02|240.9|||ANCOVA|||||240.90|-490.02|0.4978
82625918|NCT00871572|164967482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-338.64||||0.0372|TWO_SIDED|95.0|-656.55|-20.72|||ANCOVA|||||-20.72|-656.55|0.0372
82625919|NCT00871572|164967482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-466.83||||0.0068|TWO_SIDED|95.0|-799.48|-134.18|||ANCOVA|||||-134.18|-799.48|0.0068
82625920|NCT00871572|164967483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.814|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.814
82502698|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.197||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.197
82502699|NCT00174915|164696613|SUPERIORITY_OR_OTHER|||||||0.521||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.521
82502700|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.683
82502701|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.078
82502702|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.442
82502703|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.990
82502704|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.077
82625921|NCT00871572|164967483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.681|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||||0.7|-0.4|0.681
82625922|NCT00871572|164967483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.715|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||||0.5|-0.7|0.715
82625923|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.56||||0.0248|TWO_SIDED|95.0|-44.03|-3.09||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-3.09|-44.03|0.0248
82502705|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.662
82502706|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.139
82502707|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.705
82502708|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.337
82502709|NCT00174915|164696614|SUPERIORITY_OR_OTHER|||||||0.643||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.643
82625924|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.28||||0.0002|TWO_SIDED|95.0|-53.08|-17.48||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-17.48|-53.08|0.0002
82502710|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.645
82502711|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.756
82502712|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.428
82502713|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.076||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons..|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL)||||||0.076
82502714|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.106
82502715|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.069
82502716|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.837
82502717|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.749
82502718|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.581
82502719|NCT00174915|164696615|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by baseline renal function (serum creatinine ≤1.5 mg/dL v. \>1.5 mg/dL).||||||0.311
82502720|NCT03060447|164696617|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 1: Day 2||||0.55
82502721|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 1: Day 8||||0.54
82625925|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.32|||<|0.0001|TWO_SIDED|95.0|-58.12|-20.53||P-value is for Pre-Morning Meal (fasting).|Mixed Models Analysis|||||-20.53|-58.12|<0.0001
82625926|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42||||0.6513|TWO_SIDED|95.0|-34.66|21.82||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||21.82|-34.66|0.6513
82502722|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 2: Day 1||||0.54
82502723|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 2: Day 8||||0.54
82502724|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 3: Day 1||||0.54
82502725|NCT03060447|164696617|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 3: Day 8||||0.57
82502726|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 1||||0.54
82502727|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 2||||0.52
82502728|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 4||||0.52
82502729|NCT03060447|164696617|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 4: Day 8||||0.61
82502730|NCT03060447|164696617|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 5: Day 1||||0.54
82502731|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 5: Day 8||||0.52
82502732|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 6: Day 1||||0.52
82502733|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 6: Day 4||||0.52
82502734|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 6: Day 8||||0.52
82502735|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 7: Day 1||||0.52
82502736|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 7 - Day 8||||0.52
82502737|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 8: Day 1||||0.52
82502738|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 8: Day 8||||0.52
82502739|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 9: Day 1||||0.52
82502740|NCT03060447|164696617|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 9: Day 8||||1.00
82502741|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests||Dose 10: Day 1||||0.52
82502742|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 2||||0.52
82502743|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 4||||0.52
82502744|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 8||||0.52
82502745|NCT03060447|164696617|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||Dose 10: Day 14||||0.52
82502746|NCT03060447|164696618|SUPERIORITY|||||||0.035|||||||Log Rank|P-value between treatment groups was based on log-rank test.||≥ 50 Copies/mL||||0.035
82502747|NCT03060447|164696618|SUPERIORITY|||||||0.024|||||||Log Rank|P-value between treatment groups was based on log-rank test.||≥ 200 Copies/mL||||0.024
82502748|NCT03060447|164696619|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|P-values between treatment groups were based on Wilcoxon rank sum test.||||||0.67
82502749|NCT03060447|164696620|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|P-values between treatment groups were based on Wilcoxon rank sum test.||||||0.78
82502750|NCT03060447|164696621|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Baseline||||0.34
82502751|NCT03060447|164696621|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 1: Day 2||||0.11
82502752|NCT03060447|164696621|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 1: Day 8||||0.81
82502753|NCT03060447|164696621|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 1||||0.83
82502754|NCT03060447|164696621|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 2||||0.12
82502755|NCT03060447|164696621|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 4: Day 8||||0.45
82502756|NCT03060447|164696621|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 1||||0.25
82502757|NCT03060447|164696621|SUPERIORITY|||||||0.053|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 2||||0.053
82502758|NCT03060447|164696621|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, Dose 10: Day 8||||0.16
82502759|NCT03060447|164696621|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IFN-a, ATI Remission Visit||||0.27
82502760|NCT03060447|164696621|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Baseline||||0.35
82502761|NCT03060447|164696621|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 1: Day 2||||0.013
82502762|NCT03060447|164696621|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 1: Day 8||||0.15
82502763|NCT03060447|164696621|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 1||||0.30
82625927|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.5045|TWO_SIDED|95.0|-32.61|16.21||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||16.21|-32.61|0.5045
82625928|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2||||0.5774|TWO_SIDED|95.0|-32.9|18.49||P-value is for 2 Hours After Morning Meal.|Mixed Models Analysis|||||18.49|-32.90|0.5774
82625929|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.81||||0.0045|TWO_SIDED|95.0|-60.1|-11.53||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-11.53|-60.10|0.0045
82625930|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.15||||0.0024|TWO_SIDED|95.0|-54.1|-12.21||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-12.21|-54.10|0.0024
82625931|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.87||||0.0011|TWO_SIDED|95.0|-59.98|-15.75||P-value is for Pre-Mid-Day Meal.|Mixed Models Analysis|||||-15.75|-59.98|0.0011
82625932|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.48||||0.0389|TWO_SIDED|95.0|-55.47|-1.49||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||-1.49|-55.47|0.0389
82625933|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65||||0.1896|TWO_SIDED|95.0|-39.24|7.94||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||7.94|-39.24|0.1896
82625934|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.56||||0.0729|TWO_SIDED|95.0|-47.28|2.16||P-value is for 2 Hours After Mid-Day Meal.|Mixed Models Analysis|||||2.16|-47.28|0.0729
82625935|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.78||||0.0041|TWO_SIDED|95.0|-74.79|-14.77||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-14.77|-74.79|0.0041
82625936|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.45|||<|0.0001|TWO_SIDED|95.0|-80.42|-28.48||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-28.48|-80.42|<0.0001
82625937|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.19||||0.0013|TWO_SIDED|95.0|-73.57|-18.81||P-value is for Pre Evening Meal.|Mixed Models Analysis|||||-18.81|-73.57|0.0013
82625938|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.82||||0.0118|TWO_SIDED|95.0|-70.51|-9.13||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-9.13|-70.51|0.0118
82625939|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.8||||0.0016|TWO_SIDED|95.0|-70.42|-17.18||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-17.18|-70.42|0.0016
82625940|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.56||||0.0065|TWO_SIDED|95.0|-67.63|-11.48||P-value is for 2 Hours After Evening Meal.|Mixed Models Analysis|||||-11.48|-67.63|0.0065
82625941|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.88||||0.0154|TWO_SIDED|95.0|-66.43|-7.33||P-value is for Bedtime.|Mixed Models Analysis|||||-7.33|-66.43|0.0154
82502764|NCT03060447|164696621|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 2||||0.003
82502765|NCT03060447|164696621|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 4: Day 8||||0.49
82625942|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.5||||0.0006|TWO_SIDED|95.0|-71.93|-21.07||P-value is for Bedtime.|Mixed Models Analysis|||||-21.07|-71.93|0.0006
82625943|NCT00871572|164967486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.07||||0.0029|TWO_SIDED|95.0|-69.13|-15.01||P-value is for Bedtime.|Mixed Models Analysis|||||-15.01|-69.13|0.0029
82625944|NCT00871572|164967487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.62||||0.3815|TWO_SIDED|95.0|-32.44|83.68|||Mixed Models Analysis|||||83.68|-32.44|0.3815
82625945|NCT00871572|164967487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4||||0.8315|TWO_SIDED|95.0|-45.12|55.93|||Mixed Models Analysis|||||55.93|-45.12|0.8315
82625946|NCT00871572|164967487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.25||||0.3658|TWO_SIDED|95.0|-28.93|77.44|||Mixed Models Analysis|||||77.44|-28.93|0.3658
82625947|NCT00871572|164967488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|55.06||||0.2131|TWO_SIDED|95.0|-32.24|142.37|||Mixed Models Analysis|||||142.37|-32.24|0.2131
82625948|NCT00871572|164967488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|89.68||||0.022|TWO_SIDED|95.0|13.27|166.1|||Mixed Models Analysis|||||166.10|13.27|0.0220
82625949|NCT00871572|164967488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|107.26||||0.0101|TWO_SIDED|95.0|26.29|188.22|||Mixed Models Analysis|||||188.22|26.29|0.0101
82625950|NCT00871572|164967489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87||||0.1596|TWO_SIDED|95.0|-0.75|4.49|||Mixed Models Analysis|||||4.49|-0.75|0.1596
82625951|NCT00871572|164967489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.0791|TWO_SIDED|95.0|-0.24|4.31|||Mixed Models Analysis|||||4.31|-0.24|0.0791
82625952|NCT00871572|164967489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.1564|TWO_SIDED|95.0|-0.67|4.1|||Mixed Models Analysis|||||4.10|-0.67|0.1564
82625953|NCT00871572|164967490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8018.51||||0.45|TWO_SIDED|95.0|-13104.14|29141.16|||ANCOVA|||||29141.16|-13104.14|0.4500
82625954|NCT00871572|164967490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5174.85||||0.5739|TWO_SIDED|95.0|-13158.65|23508.35|||ANCOVA|||||23508.35|-13158.65|0.5739
82625955|NCT00871572|164967490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18153.92||||0.0653|TWO_SIDED|95.0|-1188.23|37496.06|||ANCOVA|||||37496.06|-1188.23|0.0653
82625956|NCT00871572|164967491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18094.32||||0.6209|TWO_SIDED|95.0|-54734.08|90922.71|||ANCOVA|||||90922.71|-54734.08|0.6209
82625957|NCT00871572|164967491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5783.59||||0.8581|TWO_SIDED|95.0|-58650.71|70217.89|||ANCOVA|||||70217.89|-58650.71|0.8581
82625958|NCT00871572|164967491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36218.98||||0.285|TWO_SIDED|95.0|-30955.5|103393.46|||ANCOVA|||||103393.46|-30955.50|0.2850
82625959|NCT00871572|164967492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.584|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.584
82625960|NCT00871572|164967492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.426|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||||0.3|-0.7|0.426
82625961|NCT00871572|164967492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.657|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||||0.4|-0.6|0.657
82625962|NCT00871572|164967493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.365|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.365
82502766|NCT03060447|164696621|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 1||||0.25
82502767|NCT03060447|164696621|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 2||||0.055
82502768|NCT03060447|164696621|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, Dose 10: Day 8||||0.90
82502769|NCT03060447|164696621|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IL-1RA, ATI Remission Visit||||0.39
82502770|NCT03060447|164696621|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Baseline||||0.75
82502771|NCT03060447|164696621|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 1: Day 2||||<0.001
82502772|NCT03060447|164696621|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 1: Day 8||||0.69
82502773|NCT03060447|164696621|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 1||||0.15
82502774|NCT03060447|164696621|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 2||||0.018
82502775|NCT03060447|164696621|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 4: Day 8||||0.030
82502776|NCT03060447|164696621|SUPERIORITY|||||||0.087|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 1||||0.087
82502777|NCT03060447|164696621|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 2||||<0.001
82502778|NCT03060447|164696621|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, Dose 10: Day 8||||0.066
82502779|NCT03060447|164696621|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||IP-10, ATI Remission||||0.86
82502780|NCT03060447|164696621|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Baseline||||0.19
82502781|NCT03060447|164696621|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 1: Day 2||||0.021
82502782|NCT03060447|164696621|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 1: Day 8||||0.31
82502783|NCT03060447|164696621|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 1||||0.10
82502784|NCT03060447|164696621|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 2||||0.018
82502785|NCT03060447|164696621|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 4: Day 8||||0.69
82502786|NCT03060447|164696621|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 1||||0.46
82502787|NCT03060447|164696621|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 2||||0.21
82502788|NCT03060447|164696621|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, Dose 10: Day 8||||0.67
82502789|NCT03060447|164696621|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ITAC, ATI Remission||||0.60
82502790|NCT03060447|164696622|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 1: Day 2||||0.002
82502791|NCT03060447|164696622|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 4: Day 1||||0.58
82502792|NCT03060447|164696622|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 4: Day 2||||0.009
82502793|NCT03060447|164696622|SUPERIORITY|ISG15, Dose 10: Day 1||||||0.031|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.031
82502794|NCT03060447|164696622|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||ISG15, Dose 10: Day 2||||0.001
82502795|NCT03060447|164696622|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 1: Day 2||||0.003
82502796|NCT03060447|164696622|SUPERIORITY|||||||0.057|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 4: Day 1||||0.057
82502797|NCT03060447|164696622|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 4: Day 2||||0.009
82502798|NCT03060447|164696622|SUPERIORITY|||||||0.057|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 10: Day 1||||0.057
82502799|NCT03060447|164696622|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||OAS-1, Dose 10: Day 2||||0.005
82502800|NCT03060447|164696622|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 1: Day 2||||<0.001
82502801|NCT03060447|164696622|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 4: Day 1||||0.17
82502802|NCT03060447|164696622|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 4: Day 2||||0.003
82502803|NCT03060447|164696622|SUPERIORITY|MX1, Dose 10: Day 1||||||0.1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.100
82502804|NCT03060447|164696622|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||MX1, Dose 10: Day 2||||<0.001
82502805|NCT03060447|164696623|SUPERIORITY|||||||0.7469|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Baseline||||0.7469
82502806|NCT03060447|164696623|SUPERIORITY|||||||0.1207|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 1||||0.1207
82502807|NCT03060447|164696623|SUPERIORITY|||||||0.4113|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 2||||0.4113
82502808|NCT03060447|164696623|SUPERIORITY|||||||0.1113|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 4: Day 4||||0.1113
82502809|NCT03060447|164696623|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 6: Day 1||||0.2410
82502810|NCT03060447|164696623|SUPERIORITY|||||||0.1098|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 6: Day 4||||0.1098
82502811|NCT03060447|164696623|SUPERIORITY|||||||0.0369|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 1||||0.0369
82502812|NCT03060447|164696623|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 2||||0.0814
82502813|NCT03060447|164696623|SUPERIORITY|||||||0.1658|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 4||||0.1658
82502814|NCT03060447|164696623|SUPERIORITY|||||||0.9431|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD4/CD38/HLADR, Dose 10: Day 14||||0.9431
82502815|NCT03060447|164696623|SUPERIORITY|||||||0.6514|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Baseline||||0.6514
82502816|NCT03060447|164696623|SUPERIORITY|||||||0.0821|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 1||||0.0821
82502817|NCT03060447|164696623|SUPERIORITY|||||||0.2353|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 2||||0.2353
82502818|NCT03060447|164696623|SUPERIORITY|||||||0.1779|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 4: Day 4||||0.1779
82502819|NCT03060447|164696623|SUPERIORITY|||||||0.7491|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 6: Day 1||||0.7491
82502820|NCT03060447|164696623|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 6: Day 4||||0.0700
82502821|NCT03060447|164696623|SUPERIORITY|||||||0.3711|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 1||||0.3711
82502822|NCT03060447|164696623|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 2||||0.0814
82502823|NCT03060447|164696623|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 4||||0.0700
82502824|NCT03060447|164696623|SUPERIORITY|||||||0.8303|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD8/CD38/HLADR, Dose 10: Day 14||||0.8303
82502825|NCT03060447|164696623|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Baseline||||0.9530
82502826|NCT03060447|164696623|SUPERIORITY|||||||0.1735|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 1||||0.1735
82502827|NCT03060447|164696623|SUPERIORITY|||||||0.2971|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 2||||0.2971
82502828|NCT03060447|164696623|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 4: Day 4||||1.0000
82502829|NCT03060447|164696623|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 6: Day 1||||1.0000
82625963|NCT00871572|164967493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.191|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.191
82502830|NCT03060447|164696623|SUPERIORITY|||||||0.3374|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 6: Day 4||||0.3374
82502831|NCT03060447|164696623|SUPERIORITY|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 1||||0.7656
82502832|NCT03060447|164696623|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 2||||0.0814
82502833|NCT03060447|164696623|SUPERIORITY|||||||0.3374|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 4||||0.3374
82502834|NCT03060447|164696623|SUPERIORITY|||||||0.432|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56+CD16+, Dose 10: Day 14||||0.4320
82502835|NCT03060447|164696623|SUPERIORITY|||||||0.8597|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Baseline||||0.8597
82502836|NCT03060447|164696623|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 1||||1.0000
82502837|NCT03060447|164696623|SUPERIORITY|||||||0.0306|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 2||||0.0306
82502838|NCT03060447|164696623|SUPERIORITY|||||||0.8345|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 4: Day 4||||0.8345
82625964|NCT00871572|164967493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.297|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||||0.4|-0.1|0.297
82502839|NCT03060447|164696623|SUPERIORITY|||||||0.9151|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 6: Day 1||||0.9151
82502840|NCT03060447|164696623|SUPERIORITY|||||||0.1098|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 6: Day 4||||0.1098
82502841|NCT03060447|164696623|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 1||||1.0000
82502842|NCT03060447|164696623|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 2||||0.0814
82625965|NCT00871572|164967494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.523|TWO_SIDED|95.0|-0.8|0.4|||ANCOVA|||||0.4|-0.8|0.523
82625966|NCT00871572|164967494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.476|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||||0.3|-0.7|0.476
82502843|NCT03060447|164696623|SUPERIORITY|||||||0.4555|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 4||||0.4555
82502844|NCT03060447|164696623|SUPERIORITY|||||||0.6171|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56dimCD16neg, Dose 10: Day 14||||0.6171
82502845|NCT03060447|164696623|SUPERIORITY|||||||0.0677|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Baseline||||0.0677
82502846|NCT03060447|164696623|SUPERIORITY|||||||0.4712|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 1||||0.4712
82502847|NCT03060447|164696623|SUPERIORITY|||||||0.6889|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 2||||0.6889
82502848|NCT03060447|164696623|SUPERIORITY|||||||0.1437|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 4: Day 4||||0.1437
82502849|NCT03060447|164696623|SUPERIORITY|||||||0.7491|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 6: Day 1||||0.7491
82502850|NCT03060447|164696623|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 6: Day 4||||0.0700
82502851|NCT03060447|164696623|SUPERIORITY|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 1||||0.7656
82502852|NCT03060447|164696623|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 2||||0.1752
82502853|NCT03060447|164696623|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||CD69+CD56brCD16dim, Dose 10: Day 4||||0.0700
82502854|NCT03060447|164696623|SUPERIORITY|CD69+CD56brCD16dim, Dose 10: Day 14||||||0.2246|||||||Wilcoxon (Mann-Whitney)|P-values are based on two-sided Wilcoxon rank sum tests.||||||0.2246
82625967|NCT00871572|164967494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.634|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.634
82625968|NCT00871572|164967495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.919
82502855|NCT00665353|164696629|SUPERIORITY_OR_OTHER||proportion|0.158||||0.29|ONE_SIDED|90.0|0.059|||This is an unadjusted p-value. Statistical significance was defined a priori as 0.10.|Exact test of proportions|||The proportion of subjects responding was compared to a historical null rate of 0.10. The hypothesized response rate was 0.30.|||0.059|0.29
82502856|NCT00665353|164696632|SUPERIORITY_OR_OTHER||proportion|0.053||||0.42|ONE_SIDED|90.0|0.001|||This is an unadjusted p-value. Statistical significance was defined a priori as 0.10.|Exact test of proportions|||The proportion of subjects responding was compared to a historical null rate of 0.02. The hypothesized response rate was 0.15.|||0.001|0.42
82502857|NCT03045887|164696664|OTHER||Ratio|0.41|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|90.0|0.27|0.61|||||AUC(0-t). Standard error of mean was on logged scale|||0.61|0.27|
82502858|NCT03045887|164696664|OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|90.0|0.65|1.47|||||AUC(0-t).Standard error of mean was on logged scale|||1.47|0.65|
82502859|NCT03045887|164696664|OTHER||Ratio|1.33|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|1.01|1.74|||||AUC(0-t).Standard error of mean was on logged scale|||1.74|1.01|
82502860|NCT03045887|164696664|OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|0.69|1.62|||||AUC(0-t).Standard error of mean was on logged scale|||1.62|0.69|
82502861|NCT03045887|164696664|OTHER||Ratio|1.25|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|0.95|1.64|||||AUC(0-t).Standard error of mean was on logged scale|||1.64|0.95|
82502862|NCT03045887|164696665|OTHER||Ratio|1.22|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|90.0|1.01|1.47|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for AUC(0-24) is presented|||1.47|1.01|
82502863|NCT03045887|164696666|OTHER||ratio|0.78|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.61|0.99||||||||0.99|0.61|
82502864|NCT03045887|164696666|OTHER||ratio|0.96|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.75|1.22||||||||1.22|0.75|
82502865|NCT03045887|164696666|OTHER||ratio|0.81|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|0.68|0.97||||||||0.97|0.68|
82502866|NCT03045887|164696666|OTHER||ratio|0.66|STANDARD_ERROR_OF_MEAN|0.154|||TWO_SIDED|90.0|0.51|0.86||||||||0.86|0.51|
82502867|NCT03045887|164696666|OTHER||ratio|0.76|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|0.63|0.9||||||||0.90|0.63|
82502868|NCT03045887|164696667|OTHER||ratio|1.14|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|0.96|1.36|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for Cmax is presented|||1.36|0.96|
82502869|NCT03045887|164696673|OTHER||Ratio|2.06|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|90.0|1.67|2.55|||||Treatment ratio of adjusted geometric mean (Day 14/Day 1) for Ctau is presented.|||2.55|1.67|
82502870|NCT02632552|164696676|EQUIVALENCE|Using a pre-intervention rate of 18 for both intervention and control, and a post-control change of 1, assuming an alpha of 0.05, we have power (0.8) to detect a difference of differences in change in mean urgent care/ED utilization of 0.75 with a standard deviation equal to the control mean; however, the equivalence boundary did not apply because this is a pragmatic trial.|Incidence Rate Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.15||0.45|TWO_SIDED|95.0|0.85|1.45|||Mixed Effects Negative Binomial Model|A segmented negative binomial regression model was used to estimate changes in ED/urgent care utilization between the intervention and control groups.||||1.45|0.85|0.45
82502871|NCT02632552|164696677|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-1.8||||0.05|TWO_SIDED|95.0|-7.21|3.61|||Mixed Models Analysis|||||3.61|-7.21|0.05
82522916|NCT02954354|164741244|SUPERIORITY||Difference|-0.6||||0.7176||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.7176
82625969|NCT00871572|164967495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.864|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.864
82625970|NCT00871572|164967495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.726|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.726
82625971|NCT01654523|164967496|SUPERIORITY_OR_OTHER||Mean change in the single arm trial|6.695|STANDARD_DEVIATION|5.505|<|0.05|TWO_SIDED|95.0|4.041|9.348|||Paired t-test|||||9.348|4.041|<0.05
82502872|NCT02632552|164696678|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.38||0.03|TWO_SIDED|95.0|0.08|1.57|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||1.57|0.08|0.03
82502873|NCT02632552|164696679|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.75|TWO_SIDED|95.0|-0.41|0.29|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||0.29|-0.41|0.75
82502874|NCT02632552|164696680|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.74|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||0.70|-0.50|0.74
82502875|NCT02632552|164696681|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.87||0.63|TWO_SIDED|95.0|-2.21|1.29|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||1.29|-2.21|0.63
82502876|NCT02632552|164696682|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta of Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|1.26||0.23|TWO_SIDED|95.0|-0.97|4.05|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||4.05|-0.97|0.23
82502877|NCT02632552|164696683|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|2.8||0.38|TWO_SIDED|95.0|-7.95|3.1||MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.|Mixed Models Analysis|||||3.10|-7.95|0.38
82502878|NCT02632552|164696684|EQUIVALENCE|We initially powered at 80% to detect an effect size of 0.5 for all secondary outcomes; however, the equivalence boundary did not apply because this is a pragmatic trial.|Beta for the Mean Difference|-2.79|STANDARD_ERROR_OF_MEAN|3.2||0.38|TWO_SIDED|95.0|-9.1|3.52|||Mixed Models Analysis|MMA by group, time, and group by time as predictors. We also adjusted by: Marital Status and indicator variable for problems learning online.||||3.52|-9.10|0.38
82502879|NCT02132767|164696685|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82502880|NCT02132767|164696686|SUPERIORITY_OR_OTHER|||||||0.003|||||||Log Rank|||||||0.003
82502881|NCT02132767|164696687|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|||||||0.14
82502882|NCT02132767|164696688|SUPERIORITY_OR_OTHER|||||||0.71|||||||Chi-squared|||||||0.71
82502883|NCT02132767|164696689|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
82502884|NCT02132767|164696690|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82502885|NCT02132767|164696691|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
82502886|NCT02132767|164696692|SUPERIORITY_OR_OTHER|||||||0.73|||||||Regression, Poisson|||||||0.73
82502887|NCT00778700|164696705|SUPERIORITY||Least Squares (LS) Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.406||0.0041|TWO_SIDED|90.0|-1.85|-0.51|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.51|-1.85|0.0041
82502888|NCT00778700|164696705|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.408||0.0007|TWO_SIDED|90.0|-2.08|-0.73|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.73|-2.08|0.0007
82502889|NCT00778700|164696705|SUPERIORITY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.407||0.0035|TWO_SIDED|90.0|-1.88|-0.53|||ANCOVA|The ANCOVA model included treatment as the main factor and Baseline score as the covariate.||||-0.53|-1.88|0.0035
82502890|NCT03227029|164696726|OTHER||% vaccine recipients with solicited AEs|64.0|||||TWO_SIDED|90.0|46.0|80.0|||||Proportions of study participants were calculated and presented with 90% exact confidence intervals. This highlights that we are 95% sure that the true proportion is not higher that the upper limit of the confidence interval.|||80|46|
82502891|NCT03227029|164696726|OTHER||% vaccine recipients with solicited AEs|84.0|||||TWO_SIDED|90.0|67.0|94.0||||||||94|67|
82502892|NCT03227029|164696726|OTHER||% placebo recipients with solicited AEs|58.0|||||TWO_SIDED|90.0|32.0|82.0||||||||82|32|
82502893|NCT03227029|164696727|OTHER||% vaccine recipients with usolicited AEs|36.0|||||TWO_SIDED|90.0|20.0|54.0||||||||54|20|
82502894|NCT03227029|164696727|OTHER||% vaccine recipients with usolicited AEs|52.0|||||TWO_SIDED|90.0|34.0|69.0||||||||69|34|
82502895|NCT03227029|164696727|OTHER||% placebo recipients with usolicited AEs|42.0|||||TWO_SIDED|90.0|18.0|68.0||||||||68|18|
82502896|NCT03227029|164696729|OTHER||% recipients infected with vaccine virus|88.0|||||TWO_SIDED|90.0|72.0|97.0||||||||97|72|
82502897|NCT03227029|164696729|OTHER||% recipients infected with vaccine virus|96.0|||||TWO_SIDED|90.0|82.0|100.0||||||||100|82|
82502898|NCT03227029|164696729|OTHER||% recipients infected with vaccine virus|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
82502899|NCT03227029|164696732|OTHER||% with >=4 fold rise in RSV-PRNT|60.0|||||TWO_SIDED|90.0|42.0|76.0||||||||76|42|
82502900|NCT03227029|164696732|OTHER||% with >=4 fold rise in RSV-PRNT|92.0|||||TWO_SIDED|90.0|76.0|98.0||||||||98|76|
82502901|NCT03227029|164696732|OTHER||% with >=4 fold rise in RSV-PRNT|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
82502902|NCT03227029|164696732|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
82502903|NCT03227029|164696732|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
82502904|NCT03227029|164696733|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
82502905|NCT03227029|164696733|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
82502906|NCT03227029|164696734|OTHER||% with >=4 fold rise in RSV F protein|60.0|||||TWO_SIDED|90.0|42.0|76.0||||||||76|42|
82502907|NCT03227029|164696734|OTHER||% with >=4 fold rise in RSV F protein|92.0|||||TWO_SIDED|90.0|76.0|98.0||||||||98|76|
82502908|NCT03227029|164696734|OTHER||% with >=4 fold rise in RSV F protein|0.0|||||TWO_SIDED|90.0|0.0|22.0||||||||22|0|
82502909|NCT03227029|164696734|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
82502910|NCT03227029|164696734|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
82502911|NCT03227029|164696735|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
82502912|NCT03227029|164696735|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Wilcoxon test was used to test the hypothesis that antibody levels at Day 56 were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.01
82502913|NCT05167734|164696755|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.02|TWO_SIDED|95.0|0.1|1.2|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|values greater than 0 infer higher hemoglobin in active intervention|||1.2|0.1|0.02
82502914|NCT05167734|164696756|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.04|TWO_SIDED|95.0|0.0|1.1|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|adjusted mean difference|3-months post hospitalization||1.1|0.0|0.04
82502915|NCT05167734|164696756|SUPERIORITY||Mean Difference (Net)|0.2||||0.42|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|linear mixed effects model adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission||Hospital Discharge||0.7|-0.3|0.42
82502916|NCT05167734|164696757|SUPERIORITY|||||||0.352|||||||Mixed Models Analysis|||||||0.352
82502917|NCT05167734|164696758|SUPERIORITY||||||<|0.001||||||threshold for significance - p\<0.05|Mixed Models Analysis|||||||<0.001
82502918|NCT05167734|164696759|SUPERIORITY||Odds Ratio (OR)|1.03||||0.94|TWO_SIDED|95.0|0.44|2.4|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|Hospital Discharge||2.40|0.44|0.94
82502919|NCT05167734|164696759|SUPERIORITY||Odds Ratio (OR)|1.79||||0.18|TWO_SIDED|95.0|0.76|4.2|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||4.20|0.76|0.18
82502920|NCT05167734|164696759|SUPERIORITY||Odds Ratio (OR)|1.23||||0.64|TWO_SIDED|95.0|0.51|3.0|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||3.00|0.51|0.64
82502921|NCT05167734|164696760|SUPERIORITY||Odds Ratio (OR)|1.81||||0.23|TWO_SIDED|95.0|0.68|4.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|Hospital discharge||4.80|0.68|0.23
82502922|NCT05167734|164696760|SUPERIORITY||Odds Ratio (OR)|2.43||||0.09|TWO_SIDED|95.0|0.87|6.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||6.80|0.87|0.09
82502923|NCT05167734|164696760|SUPERIORITY||Odds Ratio (OR)|2.52||||0.084|TWO_SIDED|95.0|0.88|7.2|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||7.20|0.88|0.084
82502924|NCT05167734|164696761|SUPERIORITY||Mean Difference (Net)|218.0||||0.13|TWO_SIDED|95.0|-73.0|510.0|||Mixed Models Analysis|adjusting for baseline hemoglobin, age, sex, surgical vs. non-surgical admission, and baseline ADLs|scores greater than 0 reflect greater ambulatory distance in active intervention|1-month post hospitalization||510|-73|0.13
82502925|NCT05167734|164696761|SUPERIORITY||Median Difference (Net)|178.0||||0.27|TWO_SIDED|95.0|-154.0|510.0|||Mixed Models Analysis|adjusting for baseline hemoglobin, age, sex, surgical vs. non-surgical admission, baseline ADLs||3-months post hospitalization||510|-154|0.27
82502926|NCT05167734|164696762|SUPERIORITY||Odds Ratio (OR)|2.49||||0.12|TWO_SIDED|95.0|0.79|7.8|||proportional odds|adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||7.80|0.79|0.12
82502927|NCT05167734|164696762|SUPERIORITY||Odds Ratio (OR)|3.1||||0.07|TWO_SIDED|95.0|0.91|10.5|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||10.5|0.91|0.07
82502928|NCT05167734|164696763|SUPERIORITY||Odds Ratio (OR)|0.5||||0.29|TWO_SIDED|95.0|0.14|1.8|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization for anxiety score||1.80|0.14|0.29
82502929|NCT05167734|164696763|SUPERIORITY||Odds Ratio (OR)|0.68||||0.57|TWO_SIDED|95.0|0.18|2.6|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization for anxiety score||2.60|0.18|0.57
82502930|NCT05167734|164696763|SUPERIORITY||Odds Ratio (OR)|0.36||||0.12|TWO_SIDED|95.0|0.1|1.3|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization for depression score||1.30|0.10|0.12
82502931|NCT05167734|164696763|SUPERIORITY||Odds Ratio (OR)|0.62||||0.48|TWO_SIDED|95.0|0.16|2.4|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization for depression score||2.40|0.16|0.48
82502932|NCT05167734|164696764|SUPERIORITY||Odds Ratio (OR)|1.48||||0.56|TWO_SIDED|95.0|0.39|5.6|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|1-month post hospitalization||5.60|0.39|0.56
82502933|NCT05167734|164696764|SUPERIORITY||Odds Ratio (OR)|9.16||||0.02|TWO_SIDED|95.0|1.4|59.9|||proportional odds|proportional odds models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|3-months post hospitalization||59.9|1.40|0.02
82502934|NCT05167734|164696765|SUPERIORITY||Odds Ratio (OR)|0.16||||0.09|TWO_SIDED|95.0|0.02|1.4|||Regression, Logistic|adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds of higher value/score associated with active intervention|||1.40|0.02|0.09
82502935|NCT05167734|164696767|SUPERIORITY||Odds Ratio (OR)|0.73||||0.48|TWO_SIDED|95.0|0.3|1.8|||Regression, Logistic|logistic models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds for the given event associated with intervention associated with active intervention|3-months post hospitalization||1.80|0.30|0.48
82502936|NCT05167734|164696768|SUPERIORITY||Odds Ratio (OR)|2.13||||0.54|TWO_SIDED|95.0|0.19|24.0|||Regression, Logistic|logistic models adjusting for baseline hemoglobin, age, sex, and surgical vs. non-surgical admission|Estimates are odds ratios and correspond to the multiplicative increase in odds for the given event associated with intervention associated with active intervention|3-months post hospitalization||24.0|0.19|0.54
82502937|NCT00598663|164696781|SUPERIORITY||Mean Difference (Final Values)|0.43|||<|0.0001|ONE_SIDED|97.5|||||ANCOVA|ANOVA with adjustment for period effect and subject as random effect. Period was included in the model regardless of statistical significance.||||||<0.0001
82502938|NCT01341964|164696788|SUPERIORITY||Median Difference (Final Values)|0.05||||0.66|TWO_SIDED||||||t-test, 2 sided|not normally distributed, values were log-transformed.||||||0.66
82502939|NCT00597766|164696789|SUPERIORITY_OR_OTHER||GroupXtime interaction|-0.17||||0.16|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,92)=2.06, p=0.16|Linear mixed model|1st order antedependence covariance structure||"Hypothesis that 60mg group would have greater pain relief than the the 20mg group.~The study was powered to detect the difference in pain between the 40mg and placebo at 4-wks. To detect effect size 0.75 with alpha of 0.05, beta of 0.20, 31 the difference between the 60mg and placebo groups (effect size \> 1.0),18 participants per group are needed. \*NOTE\* the design was changed from placebo-control due to ethical concerns arising from ethical concerns of placebo injection."||||0.16
82502940|NCT00597766|164696789|SUPERIORITY_OR_OTHER||group x time interaction|-0.04||||0.77|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,90)=0.1, p=0.77|linear mixed model|first order antedependent covariance structure||"Hypothesis that 40mg group would have greater pain reduction than the 20mg group.~The study was powered to detect the difference in pain between the 40mg and placebo at 4-wks. To detect effect size 0.75 with alpha of 0.05, beta of 0.20, 31 the difference between the 60mg and placebo groups (effect size \> 1.0),18 participants per group are needed. \*NOTE\* the design was changed from placebo-control due to ethical concerns arising from ethical concerns of placebo injection."||||0.77
82625972|NCT00735670|164967497|SUPERIORITY_OR_OTHER|||||||0.445|||||||Fisher Exact|||||||0.445
82625973|NCT00735670|164967498|SUPERIORITY_OR_OTHER||REML|-0.31||||0.725|TWO_SIDED|95.0|-0.48|-0.15||Comparison of venlafaxine vs. placebo on change of PHQ-9 over time controlling for baseline PHQ-9 score.|Mixed Models Analysis|||A linear mixed model (LMM) analysis was used and included a random intercept effect based on lowest Akaike's Information Criterion values when we compared three random coefficient models (intercept, slope and intercept and slope). To examine whether allocation group influenced the effect of time and baseline PHQ-9 sore on the trajectory of PHQ-9 scores, we included two interaction terms (time by allocation group and baseline PHQ-9 score by allocation group).||-0.15|-0.48|0.725
82522917|NCT02954354|164741245|SUPERIORITY|||||||0.6728||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.6728
82625974|NCT01686958|164967503|OTHER|This is a primarily descriptive study, no statistical analysis is planned; however, analyses were performed at the alpha=0.05 level of significance and exact analyses will be used wherever possible.|||||||ONE_SIDED|95.0||||Confidence intervals \[CI\] will be constructed for outcomes of interest at the alpha=0.05 level of significance, i.e. 95% CI.||||A total of 30 subjects will be accrued to this study and treated with the PAD-105. The sample size is based primarily on feasibility and logistical concerns, however, is sufficiently large to allow the safety objectives to be met. Specifically, with 30 total patients, if no treatment-related grade 4 or 5 adverse events are observed, then a one-sided, 95% confidence interval would have an upper bound of 0.095.|For continuous outcomes, standard summary statistics will include n, mean, standard deviation, median, minimum and maximum. For categorical data, tables will show n and % of patients.|||
82625975|NCT01575899|164967528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.629|STANDARD_ERROR_OF_MEAN|3.1526||0.008|TWO_SIDED|95.0|1.28|5.42|||Chi-squared|||||5.42|1.28|0.008
82625976|NCT01575899|164967530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87|STANDARD_ERROR_OF_MEAN|3.2589||0.004|TWO_SIDED|95.0|1.5|10.02|||Chi-squared|||||10.02|1.5|0.004
82625977|NCT00108953|164967602|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.6||||0.016||95.0|0.33|0.95|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups.||0.95|0.33|0.016
82625978|NCT00108953|164967603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.007||95.0|0.37|0.74|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||0.74|0.37|0.007
82625979|NCT00108953|164967604|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.018||95.0|0.45|0.83|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||0.83|0.45|0.018
82625980|NCT00108953|164967606|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.038||95.0|0.4|1.05|||Log Rank||Hazard ratio: nexavar+doxorubicin over placebo+doxorubicin|The comparison between the 2 groups is done using the log rank test stratified by tumor burden. The null hypothesis is: TTP is the same in both treatment groups||1.05|0.40|0.038
82625981|NCT00753688|164967610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.26|0.48||Stratified two-sided log rank p-value|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.48|0.26|<0.001
82625982|NCT00753688|164967611|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.256|TWO_SIDED|95.0|0.67|1.12||Stratified two-sided log rank p-value|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||1.12|0.67|0.256
82625983|NCT00753688|164967615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.23|0.6||Stratified two-sided log rank p-value for leiomyosarcoma|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.60|0.23|<0.001
82625984|NCT00753688|164967615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.005|TWO_SIDED|95.0|0.19|0.98||Stratified two-sided log rank p-value for synovial sarcoma|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.98|0.19|0.005
82625985|NCT00753688|164967615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.25|0.6||Stratified two-sided log rank p-value for other STS histologies|Log Rank||The HR was adjusted for World Health Organization (WHO) performance status scale (0 versus 1 at Baseline) and number of prior lines of systemic treatment for advanced disease (0/1 versus 2+).|||0.60|0.25|<0.001
82625986|NCT02481596|164967623|SUPERIORITY|||||||0.045||||||Beta=.083. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.045
82625987|NCT02481596|164967623|SUPERIORITY|||||||0.006||||||Beta=.126. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.006
82625988|NCT02481596|164967624|SUPERIORITY|||||||0.518||||||Beta=.031. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.518
82625989|NCT02481596|164967624|SUPERIORITY|||||||0.092||||||Beta=.092. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.092
82522918|NCT02954354|164741246|SUPERIORITY|||||||0.2217||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.2217
82625990|NCT02481596|164967625|SUPERIORITY|||||||0.53||||||Beta=-.027. Threshold p\<.05|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations||||.53
82625991|NCT02481596|164967625|SUPERIORITY|||||||0.41||||||Beta=-.037. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.41
82625992|NCT02481596|164967626|SUPERIORITY|||||||0.024||||||Beta=.088. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for harmful involvement subscale of FIAD due to suppression effect.||3 months. Multiply imputed data (m=20) using chained equations.||||.024
82502941|NCT00597766|164696790|SUPERIORITY_OR_OTHER||group x time interaction|-0.3||||0.2|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=1.7, p=0.2|Linear mixed model|first order antedpendent covariance structure||This study was not powered for secondary outcomes. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.2
82502942|NCT00597766|164696790|SUPERIORITY_OR_OTHER||group x time interaction|-0.02||||0.9|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=0.0, p=0.9|linear mixed model|1st order antedependence covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.9
82502943|NCT00597766|164696791|SUPERIORITY_OR_OTHER||Groupxtime interaction|1.3||||0.2|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=1.6, p=0.2|linear mixed model|unstructured covariance structure||The study was not powered for secondary analyses. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.2
82502944|NCT00597766|164696791|SUPERIORITY_OR_OTHER||Groupxtime interaction|1.1||||0.3|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=1.0, p=0.3|linear mixed model|Unstructured covariance structure||Secondary outcomes were not powered for analysis. The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.3
82502945|NCT00597766|164696792|SUPERIORITY_OR_OTHER||group x time interaction|0.4||||0.8|TWO_SIDED|95.0||||Comparison 60mg vs. 20mg: F (1,36)=0.06, p=0.8|linear mixed model|first order antedepentent covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.8
82502946|NCT00597766|164696792|SUPERIORITY_OR_OTHER||group x time interaction|1.7||||0.3|TWO_SIDED|95.0||||Comparison 40mg vs. 20mg: F (1,35)=1.1, p=0.3|linear mixed model|first order antedependent covariance structure||This study was not powered for secondary outcomes.The effect of treatment group over time was analyzed using a linear mixed model for repeated measures with random intercept and subject effects. The dependent variable was treatment group and variables for week (continuous) and group interaction term was included in the model. The effect of treatment at discrete time points was analyzed using a linear mixed model with categorical time.||||0.3
82502947|NCT04339296|164696795|EQUIVALENCE|An independent sample t-test was performed between intervention and control group to determine if the difference of the mean medication adherence is equal to zero (null hypothesis).|Mean Difference (Net)|7.18|||<|0.01|TWO_SIDED|||||Statistical test was set at 95% confidence level.|t-test, 2 sided||Medication Adherence Difference = Intervention Adherence - Control Adherence|||||<0.01
82502948|NCT04339296|164696796|EQUIVALENCE|The null hypothesis assumes that the true mean difference for intervention participants self-reported medication adherence scores (from baseline to 6-month) is equal to zero.|Mean Difference (Net)|-1.5|||<|0.01|TWO_SIDED|||||Statistical test was set at 95% confidence level.|t-test, 2 sided||Mean difference (intervention participants self-reported score) = baseline minus 6-month.|||||<0.01
82502949|NCT04339296|164696796|EQUIVALENCE|The null hypothesis assumes that the true mean difference for control participants self-reported medication adherence scores (from baseline to 6-month) is equal to zero.|Mean Difference (Net)|-1.07||||0.07|TWO_SIDED|||||Statistical tests was set at 95% confidence level.|t-test, 2 sided||Mean difference (control participants self-reported score) = baseline minus 6-month.|||||0.07
82502950|NCT01857232|164696821|SUPERIORITY|||||||0.004|||||||Regression, Logistic|||||||0.004
82502951|NCT01857232|164696821|SUPERIORITY|||||||0.0987|||||||Regression, Logistic|||||||0.0987
82502952|NCT01857232|164696821|SUPERIORITY|||||||0.1041|||||||Regression, Logistic|||||||0.1041
82502953|NCT01857232|164696822|SUPERIORITY|||||||0.0235|||||||Chi-squared, Corrected|1-sided||||||0.0235
82502954|NCT01857232|164696822|SUPERIORITY|||||||0.1651|||||||Chi-squared, Corrected|1-sided||||||0.1651
82502955|NCT01857232|164696822|SUPERIORITY|||||||0.1332|||||||Chi-squared, Corrected|1-sided||||||0.1332
82502956|NCT02157298|164696839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1053|<|0.0001|TWO_SIDED|95.0|-0.81|-0.39||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-0.39|-0.81|<0.0001
82502957|NCT02157298|164696840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|5.301|<|0.0001|TWO_SIDED|95.0|-33.2|-12.2||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-12.2|-33.2|<0.0001
82502958|NCT02157298|164696841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.255|<|0.0001|TWO_SIDED|95.0|-1.7|-0.7||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||-0.7|-1.7|<0.0001
82502959|NCT02157298|164696842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.4017||0.0743|TWO_SIDED|95.0|-1.51|0.07||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Mixed Models Analysis|with fixed categorical effects of treatment, week, DPP-4, baseline eGFR, treatment-by-week interaction, continuous fixed covariate of baseline value.||H0: mean(dapa) minus mean(placebo) = 0 versus alternative HA: mean(dapa) minus mean(placebo) =/= 0||0.07|-1.51|0.0743
82502960|NCT02157298|164696843|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.4|STANDARD_ERROR_OF_MEAN|3.769||0.3727|TWO_SIDED|95.0|-4.0|10.7||Significant at alpha=0.05 (two-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Tsitatis, Davidian, Zhang \& Lu, with adjustment with adjustment for baseline value and DPP-4||H0: proportion(dapa) minus proportion(placebo) = 0 versus alternative HA: proportion(dapa) minus proportion(placebo) =/= 0||10.7|-4.0|0.3727
82502961|NCT00056407|164696855|SUPERIORITY_OR_OTHER||Relative Risk Reduction|23.3|||<|0.0001||95.0|15.6|30.3||The p value is given is for the overall assessment.|Mantel-Cox||Estimation data given are for the overall assessment.|||30.3|15.6|<0.0001
82502962|NCT00056407|164696856|SUPERIORITY_OR_OTHER||Relative Risk Reduction|23.1|||<|0.0001||95.0|15.5|30.0||The p value is given is for the overall assessment.|Mantel-Cox||Estimation data are given are for the overall assessment.|||30.0|15.5|<0.0001
82502963|NCT00056407|164696857|SUPERIORITY_OR_OTHER||Relative Risk Reduction|22.8|||<|0.0001||95.0|15.2|29.8||The p value is given for the overall assessment.|Mantel-Cox||Estimation data are given for the overall assessment.|||29.8|15.2|<0.0001
82502964|NCT00056407|164696880|SUPERIORITY_OR_OTHER||Difference in adjusted means|18.8|||<|0.001||95.0|17.3|20.4|||general linear model, t-test||The adjusted mean difference was calculated as the difference between the adjusted means (-6.1 and 12.7) for the placebo and Dutasteride arms, respectively.|||20.4|17.3|<0.001
82502965|NCT02642614|164696909|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.59|STANDARD_ERROR_OF_MEAN|0.51||0.154|TWO_SIDED|90.0|0.93|2.72|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 5 milligram BI 1026706 divided by Placebo."|Adjusted means were calculated by exponentiating Least Square (LS) means of corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive pharmacokinetic (PK) sub-study participation and Multiple-breath washout (MBW) sub-study participation)||2.72|0.93|0.1540
82502966|NCT02642614|164696909|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.58|STANDARD_ERROR_OF_MEAN|0.49||0.143|TWO_SIDED|90.0|0.94|2.65|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 25 milligram BI 1026706 divided by Placebo."|The adjusted means were calculated by exponentiating the LS means of the corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive PK sub-study participation and MBW sub-study participation)||2.65|0.94|0.1430
82502967|NCT02642614|164696909|SUPERIORITY_OR_OTHER||Ratio of adjusted mean|1.44|STANDARD_ERROR_OF_MEAN|0.45||0.2398|TWO_SIDED|90.0|0.86|2.41|||ANCOVA||"Standard Error of Mean is actually Standard Error of ratio of adjusted means, adjusted means ratio is calculated as 100 milligram BI 1026706 divided by Placebo."|The adjusted means were calculated by exponentiating the LS means of the corresponding values obtained from fitting an ANCOVA model to the natural log transformed endpoint variable, including treatment effect and study baseline as covariates, and adjusting for stratification factors (extensive PK sub-study participation and MBW sub-study participation)||2.41|0.86|0.2398
82502968|NCT02057198|164696926|SUPERIORITY||Slope|-0.15||||0.52|TWO_SIDED|95.0|-0.34|0.05||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.|Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||||0.05|-0.34|0.52
82502969|NCT02057198|164696926|SUPERIORITY||Slope|-0.17||||0.66|TWO_SIDED|95.0|-0.69|0.35||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.|Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||||0.35|-0.69|0.66
82502970|NCT02057198|164696927|SUPERIORITY||||||<|0.001|||||||Chi square (2 proportion test)|||||||<0.001
82502971|NCT02057198|164696927|SUPERIORITY|||||||0.01|||||||Chi square (2 proportion test)|||||||0.01
82502972|NCT02057198|164696928|SUPERIORITY|||||||0.99|||||||Chi square (2 proportion test)|||||||0.99
82502973|NCT02057198|164696928|SUPERIORITY|||||||0.52|||||||Chi square (2 proportion test)|||||||0.52
82502974|NCT02057198|164696929|SUPERIORITY||Slope|-0.43||||0.05|TWO_SIDED|95.0|-0.67|-0.19|||Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models. Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.||-0.19|-0.67|0.05
82522919|NCT02460692|164741283|SUPERIORITY|||||||0.78||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||This is the primary comparison.||||0.78
82522920|NCT02460692|164741283|SUPERIORITY|||||||0.07||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||This is the secondary comparison.||||0.070
82625993|NCT02481596|164967626|SUPERIORITY|||||||0.003||||||Beta=.128. Threshold p\<.05|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for harmful involvement subscale of FIAD due to suppression effect.||6 months. Multiply imputed data (m=20) using chained equations.||||.003
82502975|NCT02057198|164696929|SUPERIORITY||Slope|-0.85||||0.002|TWO_SIDED|95.0|-1.14|-0.57|||Mixed Models Analysis|A mixed effects model was used to compare decay slopes for the reduction in log(CFUs)/day according to each treatment group||Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models. Data from the specified time points were combined to construct a decay slope, representing the reduction in log(CFUs)/day for each treatment group. We compared the slope (rate of change) between treatment groups using mixed effects models.||-0.57|-1.14|0.002
82502976|NCT02057198|164696931|SUPERIORITY|||||||0.48|||||||Chi square (two proportion test)|||||||0.48
82502977|NCT02057198|164696931|SUPERIORITY|||||||0.66|||||||Chi square (two proportion test)|||||||0.66
82502978|NCT03232281|164696936|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was confirmed.|Rate difference (%)|-0.7|||||TWO_SIDED|95.0|-4.41|2.58|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||2.58|-4.41|
82502979|NCT03232281|164696937|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-1.3|||||TWO_SIDED|95.0|-5.26|1.93|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 4. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.93|-5.26|
82502980|NCT03232281|164696937|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-2.7|||||TWO_SIDED|95.0|-6.8|-0.16|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 8. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||-0.16|-6.80|
82502981|NCT03232281|164696938|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-1.3|||||TWO_SIDED|95.0|-5.26|1.93|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 4. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.93|-5.26|
82502982|NCT03232281|164696938|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-4.1|||||TWO_SIDED|95.0|-8.93|-0.52|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 8. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||-0.52|-8.93|
82502983|NCT03232281|164696938|NON_INFERIORITY|If the lower limit of the 95% CI for the difference was \>-10%, triptorelin pamoate PR 3-month non-inferiority to triptorelin acetate PR 1-month was observed without multiplicity adjustment.|Rate difference (%)|-2.7|||||TWO_SIDED|95.0|-7.44|1.17|||||The rate difference (triptorelin pamoate PR 3-month - triptorelin acetate PR 1-month) and the 2-sided 95% CI of the difference were calculated using the Miettinen and Nurminen method, stratified by randomisation stratification factors.|Rate difference at Week 12. The null hypothesis was that triptorelin pamoate PR 3-month was inferior to triptorelin acetate PR 1-month. The alternative hypothesis was that triptorelin pamoate PR 3-month was non-inferior to triptorelin acetate PR 1-month.||1.17|-7.44|
82502984|NCT00605813|164697008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was renal dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction in the participants of responders."||||0.003
82502985|NCT00605813|164697009|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||<0.001
82625994|NCT02481596|164967627|SUPERIORITY|||||||0.001||||||Beta=-.133. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for helpful involvement subscale of FIAD due to suppression effect.||3 months. Multiply imputed data (m=20) using chained equations.||||.001
82625995|NCT02481596|164967627|SUPERIORITY|||||||0.012||||||Beta=-.115. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots); also adjusted for helpful involvement subscale of FIAD due to suppression effect.||6 months. Multiply imputed data (m=20) using chained equations.||||.012
82625996|NCT02481596|164967628|SUPERIORITY|||||||0.015||||||Beta=.114. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||3 months. Multiply imputed data (m=20) using chained equations.||||.015
82625997|NCT02481596|164967628|SUPERIORITY|||||||0.034||||||Beta=.101. Threshold p\<.05.|Regression, Linear|Adjusted for baseline values with cubic splines (3 knots).||6 months. Multiply imputed data (m=20) using chained equations.||||.034
82502986|NCT00605813|164697010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was non-pharmaceutical therapies. The null hypothesis is there is no difference between with or without non-pharmaceutical therapies in the participants of responders."||||0.040
82502987|NCT00605813|164697011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was present or past history of intentional suicidal ideation. The null hypothesis is there is no difference between present or past history of intentional suicidal ideation (including suicide attempt) in the participants of responders."||||0.004
82502988|NCT00183092|164697012|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.43||||0.43|TWO_SIDED|95.0|0.58|3.53|||Regression, Cox|||||3.53|0.58|0.43
82502989|NCT00183092|164697013|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5||||0.54||95.0||||Threshold for statistical significance = 0.05. One subject in the placebo group was administered only 25 items on the MMSE due to visual impairment, and this subject's score was scaled based on percentage correct.|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||.54
82502990|NCT00183092|164697014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.9||||0.36||95.0||||significance threshold p=0.05|Quade's rank analysis of covariance|||The difference between scores, adjusted for Month-0 performance.||||.36
82502991|NCT00183092|164697015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.01||95.0||||Significance threshold p\<0.05|Quade's rank analysis of covariance|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||.01
82502992|NCT00183092|164697016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.03||95.0||||Threshold for significance p\<0.05|Quade's rank analysis of covariance|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.03
82502993|NCT00183092|164697017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.92||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.92
82502994|NCT00183092|164697018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.71||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted changed (worsening) in the quinacrine group.||||0.71
82502995|NCT00183092|164697019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.7||95.0||||Significance threshold p\<0.05|ANCOVA|||The difference between change scores, adjusted for Month-0 performance. Positive adjusted differences indicate greater adjusted change (worsening) in the placebo group; negative indicate greater adjusted change (worsening) in the quinacrine group.||||0.70
82502996|NCT00594997|164697027|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||p\<0.05 threshold for statistical significance|Regression, Linear|||||||<0.0001
82502997|NCT00546637|164697030|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1959||95.0|-0.9|0.2||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (Net) = Least squares mean|The null hypothesis was that the mean change from Baseline in 24-hour micturition-related urgency was the same at Week 12 for the two treatment groups: fesoterodine + alpha-blocker vs. placebo + alpha-blocker. It was estimated that 900 randomized subjects would have 85% power to detect a mean difference of -0.93(SD = 4.15) between the 2 treatments on the primary endpoint,mean reduction of micturition-related urgency episodes/24hr from Baseline to Week 12,assuming a 10% non-evaluability rate.||0.2|-0.9|0.1959
82502998|NCT00546637|164697031|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0621||95.0|-1.0|0.0||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|||0.0|-1.0|0.0621
82502999|NCT00546637|164697033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0056||95.0|-0.8|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.1|-0.8|0.0056
82503000|NCT00546637|164697033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.009||95.0|-0.7|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||-0.1|-0.7|0.0090
82503001|NCT00546637|164697034|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||P-value was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 4||||0.0012
82522921|NCT02460692|164741283|SUPERIORITY|||||||0.044||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||This is an exploratory comparison||||0.044
82522922|NCT02460692|164741284|SUPERIORITY|||||||0.27||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.27
82522923|NCT02460692|164741284|SUPERIORITY|||||||0.96||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.96
82625998|NCT01216397|164967629|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.4||||||90.0|94.2|105.0|||ANOVA|||Standard batch vs. Side batch||105.0|94.2|
82625999|NCT01216397|164967630|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.1||||||90.0|96.1|104.2|||ANOVA|||Standard batch vs. Side batch||104.2|96.1|
82503002|NCT00546637|164697034|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 12||||0.0027
82503003|NCT00546637|164697035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1112||95.0|-0.2|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.2|0.1112
82503004|NCT00546637|164697035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0855||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.0|-0.3|0.0855
82503005|NCT00546637|164697037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.3847||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was estimated using Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.3847
82503006|NCT00546637|164697037|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.4449||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was estimated using Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.4449
82503007|NCT00546637|164697039|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.33||||0.0062||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.0062
82503008|NCT00546637|164697039|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.0825||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.0825
82503009|NCT00546637|164697040|SUPERIORITY_OR_OTHER|||||||0.0025||95.0||||P-value for median was based on a ranked ANCOVA model with terms for country, treatment, and ranked baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|Ranked ANCOVA|Treatment comparisons were performed only if the corresponding numerical change from Baseline at the same visit was statistically significant.||Week 4||||0.0025
82503010|NCT00546637|164697041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1748||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.3|0.1748
82503011|NCT00546637|164697041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6572||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.2|-0.1|0.6572
82503012|NCT00546637|164697043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.0051||95.0|-2.9|-0.5||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.5|-2.9|0.0051
82503013|NCT00546637|164697043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1231||95.0|-2.3|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.3|-2.3|0.1231
82626000|NCT01216397|164967631|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.1||||||90.0|94.7|105.8|||ANOVA|||Standard batch vs. Side batch||105.8|94.7|
82626001|NCT01216397|164967639|SUPERIORITY_OR_OTHER||adjusted gMean ratio|97.9||||||90.0|92.5|103.7|||ANOVA|||Standard batch vs. Side batch||103.7|92.5|
82503014|NCT00546637|164697044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.3579||95.0|-1.0|0.4||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.4|-1.0|0.3579
82503015|NCT00546637|164697044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9274||95.0|-0.8|0.7||P-value was based on an ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.7|-0.8|0.9274
82503016|NCT00546637|164697045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0223||95.0|-0.7|-0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.1|-0.7|0.0223
82503017|NCT00546637|164697045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1744||95.0|-0.6|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.1|-0.6|0.1744
82503018|NCT00546637|164697046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7564||95.0|-0.4|0.5||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.5|-0.4|0.7564
82503019|NCT00546637|164697046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.401||95.0|-0.3|0.7||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as a covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.7|-0.3|0.4010
82522924|NCT02460692|164741284|SUPERIORITY|||||||0.3||||||The average change of impact scores at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.30
82626002|NCT01216397|164967640|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.4||||||90.0|95.7|105.4|||ANOVA|||||105.4|95.7|
82626003|NCT01216397|164967641|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.3||||||90.0|95.7|105.2|||ANOVA|||Standard batch vs. Side batch||105.2|95.7|
82626004|NCT01496274|164967680|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P value is based on a Wilcoxon signed-rank test of H0: AsBR ratio (prophylaxis regimen/on-demand regimen) ≥ 0.50. The ratio was based on the original scale.|Wilcoxon signed-rank test|||A test of null hypothesis that the ratio of AsBR (prophylaxis regimen/on-demand regimen) was ≥ 0.50 was conducted at the 1-sided 0.025 level. Matched pairs design with 19 subjects and 2 observations per subject.||||<0.0001
82626005|NCT00418717|164967732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||||95.0|-0.25|0.06||||||||0.06|-0.25|
82626006|NCT00249795|164967760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.857|TWO_SIDED|95.0|0.907|1.085||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 4.5% level to account for multiplicity.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of any component of the composite event in Irbesartan group versus Placebo group.|||1.085|0.907|0.8570
82626007|NCT00249795|164967761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.12|TWO_SIDED|95.0|0.869|1.016||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 1% level to account for multiplicity.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of any component of the composite event in Irbesartan group versus Placebo group.|||1.016|0.869|0.1200
82626008|NCT00249795|164967762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.916||||0.2162|TWO_SIDED|95.0|0.796|1.053||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of a stroke in Irbesartan group versus Placebo group.|||1.053|0.796|0.2162
82626009|NCT00249795|164967763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014||||0.759|TWO_SIDED|95.0|0.927|1.11||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of death in Irbesartan group versus Placebo group.|||1.110|0.927|0.7590
82626010|NCT00249795|164967764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.897||||0.0369|TWO_SIDED|95.0|0.809|0.993||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of HF episodes in Irbesartan group versus Placebo group.|||0.993|0.809|0.0369
82626011|NCT00249795|164967765|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.0175|TWO_SIDED|95.0|0.763|0.975||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of hospitalization for Heart Failure in Irbesartan group versus Placebo group.|||0.975|0.763|0.0175
82626012|NCT00249795|164967766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008||||0.8377|TWO_SIDED|95.0|0.93|1.093||The cumulative incidence function of this event was calculated for each treatment group using the non-parametric Kaplan-Meier method and the comparison was performed using a 2-sided Log Rank test at 5% level.|Log Rank|Logrank statistic was stratified on ACTIVE A/W strata.|HR was estimated using a Cox's proportional hazard model stratified on ACTIVE A/W strata with treatment group factor. It provides the relative hazard of hospitalization for other CV cause in Irbesartan group versus Placebo group.|||1.093|0.930|0.8377
82626013|NCT01142193|164967768|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.85|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
82626014|NCT01142193|164967768|SUPERIORITY_OR_OTHER||Median Difference (Net)|18.5|||||TWO_SIDED|95.0|8.53|28.1|||Hodges-Lehmann|||||28.1|8.53|
82626015|NCT01142193|164967769|SUPERIORITY_OR_OTHER||Difference in Percentages|14.7||||0.013|||||||Fisher Exact|||||||0.013
82626016|NCT01142193|164967770|SUPERIORITY_OR_OTHER||Difference in Percentages|16.3||||0.007|||||||Cochran-Mantel-Haenszel|Analysis was stratified by Geographic Region.||||||0.007
82626017|NCT01142193|164967771|SUPERIORITY_OR_OTHER||Median Difference (Net)|25.36|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82626018|NCT01142193|164967772|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.85|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82626019|NCT01142193|164967776|SUPERIORITY_OR_OTHER||Median Difference (Net)|23.61||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82626020|NCT01142193|164967777|SUPERIORITY_OR_OTHER||Difference in Percentages|13.4||||0.048|||||||Cochran-Mantel-Haenszel|Analysis was stratified by Geographic Region.||||||0.048
82626021|NCT03549429|164967784|SUPERIORITY||Percent difference|8.0||||0.03|TWO_SIDED|95.0|1.5|14.4|||McNemar|||We compared the proportion of patients who had postoperative eyelid erythema with Tegaderm™ to those who had postop eyelid erythema with EyeGard®.||14.4|1.5|0.03
82626022|NCT03549429|164967785|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.23|TWO_SIDED||||||t-test, 2 sided|paired||||||0.23
82503020|NCT00546637|164697047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1472||95.0|-0.2|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||0.0|-0.2|0.1472
82503021|NCT00546637|164697047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5839||95.0|-0.2|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||0.1|-0.2|0.5839
82378323|NCT03762239|164465056|SUPERIORITY||Beta coefficient|0.013||||0.72|TWO_SIDED|95.0|-0.0607|0.0865|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher riskloving behavior, relative to the classroom without air filter (normal air), in the combined risk taking measures among adolescents in high schools.||0.0865|-0.0607|0.72
82503022|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6621||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q1||0.2|-0.1|0.6621
82503023|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.5|-0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q2||-0.2|-0.5|<.0001
82503024|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3242||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q3||0.2|-0.1|0.3242
82503025|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1604||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q4||0.0|-0.3|0.1604
82503026|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4102||95.0|-0.2|0.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q5||0.1|-0.2|0.4102
82503027|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3079||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q6||0.2|-0.1|0.3079
82503028|NCT00546637|164697048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4066|TWO_SIDED|95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4 Q7||0.2|-0.1|0.4066
82503029|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1595||95.0|0.0|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q1||0.3|-0.0|0.1595
82503030|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0614||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q2||0.0|-0.3|0.0614
82503031|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2032||95.0|-0.1|0.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q3||0.3|-0.1|0.2032
82503032|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0631||95.0|-0.3|0.0||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q4||0.0|-0.3|0.0631
82503033|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9706||95.0|-0.2|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q5||0.2|-0.2|0.9706
82503034|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8058||95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q6||0.2|-0.1|0.8058
82503035|NCT00546637|164697049|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3302|TWO_SIDED|95.0|-0.1|0.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12 Q7||0.2|-0.1|0.3302
82503036|NCT00546637|164697050|SUPERIORITY_OR_OTHER|||||||0.1136||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.1136
82503037|NCT00546637|164697051|SUPERIORITY_OR_OTHER|||||||0.5775||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.5775
82503038|NCT00546637|164697052|SUPERIORITY_OR_OTHER|||||||0.7433||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.7433
82503039|NCT00546637|164697053|SUPERIORITY_OR_OTHER|||||||0.9402||95.0||||P-value was obtained from a Cochran-Mantel-Haenszel test with modified ridit scoring, stratified by center. No adjustment of p-value was made for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.9402
82503040|NCT00546637|164697054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|0.9||0.004||95.0|-4.5|-0.9||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 4||-0.9|-4.5|0.0040
82503041|NCT00546637|164697054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|1.0||0.0068||95.0|-4.8|-0.8||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean difference (net) = Least squares mean|Week 12||-0.8|-4.8|0.0068
82503042|NCT00546637|164697055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.9||0.0412||95.0|0.1|3.6||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||3.6|0.1|0.0412
82503043|NCT00546637|164697055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|1.0||0.1373||95.0|-0.5|3.4||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 12||3.4|-0.5|0.1373
82503044|NCT00546637|164697056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.0||0.0941||95.0|-0.3|3.8||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 4||3.8|-0.3|0.0941
82503045|NCT00546637|164697056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.1||0.2273||95.0|-0.8|3.4||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||3.4|-0.8|0.2273
82503046|NCT00546637|164697057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.1||0.0507||95.0|0.0|4.3||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||4.3|-0.0|0.0507
82503047|NCT00546637|164697057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.2||0.1136||95.0|-0.4|4.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 12||4.1|-0.4|0.1136
82503048|NCT00546637|164697058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.1||0.0845||95.0|-0.3|4.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net)= Least squares mean|Week 4||4.1|-0.3|0.0845
82503049|NCT00546637|164697058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.2||0.0662||95.0|-0.2|4.6||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||4.6|-0.2|0.0662
82503050|NCT00546637|164697059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|0.9||0.1085||95.0|-0.3|3.2||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 4||3.2|-0.3|0.1085
82503051|NCT00546637|164697059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.9||0.7685||95.0|-1.6|2.1||P-value was based on ANCOVA model with terms for country, treatment, and baseline value as covariate. No adjustment of p-value was made for multiple comparisons.|ANCOVA||Mean Difference (net) = Least squares mean|Week 12||2.1|-1.6|0.7685
82503052|NCT00546637|164697060|SUPERIORITY_OR_OTHER||Median Difference (Net)|6.0||||0.0005||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 4||||0.0005
82503053|NCT00546637|164697060|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.0|||<|0.0001||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 8||||<.0001
82503054|NCT00546637|164697060|SUPERIORITY_OR_OTHER||Median Difference (Net)|9.0||||0.0003||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|Week 12||||0.0003
82503055|NCT00546637|164697061|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.4||||0.2251||95.0||||P-value was based on Van Elteren's Test adjusted by baseline quartiles. No adjustment of p-value was made for multiple comparisons.|Van Elteren's Test||Median difference was based on Hodges-Lehmann estimate of the location shift between the two groups.|||||0.2251
82503056|NCT02024867|164697066|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 120 per group was calculated according to an assumed treatment cure rate of 95% with 10 days of antibiotics, and a non-inferiority margin of 7% (allowing up to 88% cure rate with 3 days of antibiotics), to achieve a power of 0.80 (alpha=0.05). An additional 25 patients were recruited to account for an estimated 10% lost to follow-up.|Rate Difference|4.0||||0.25|TWO_SIDED|95.0|-1.5|9.5|||Chi-squared|||||9.5|-1.5|0.25
82503057|NCT02024867|164697067|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.7||||0.02|TWO_SIDED|95.0|2.1|19.2|||Chi-squared|||||19.2|2.1|0.02
82503058|NCT02024867|164697068|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.1||||0.03|TWO_SIDED|95.0|2.1|18.2|||Chi-squared|||||18.2|2.1|0.03
82503059|NCT02024867|164697069|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|0.1|||>|0.05|TWO_SIDED|95.0|-6.9|7.0|||Chi-squared|||||7.0|-6.9|>0.05
82503060|NCT02024867|164697070|NON_INFERIORITY_OR_EQUIVALENCE|described previously|Rate Difference|10.3||||0.046|TWO_SIDED|95.0|0.8|19.9|||Chi-squared|||||19.9|0.8|0.046
82503061|NCT02024867|164697071|NON_INFERIORITY_OR_EQUIVALENCE|described previously|rate difference|0.0|||>|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||>0.05
82503062|NCT02865187|164697072|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|7.0||0.71|TWO_SIDED|95.0|-7.4|5.1||a priori threshold for significance was set at p\<0.05|t-test, 2 sided|||||5.1|-7.4|0.71
82503063|NCT02865187|164697073|SUPERIORITY||Chi square|0.0||||1|TWO_SIDED|||||a priori threshold for significance was set at p\< 0.05.|Chi-squared|||||||1.00
82503064|NCT00003901|164697114|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.59||||0.007|TWO_SIDED|95.0|1.13|2.23|||Regression, Cox|||||2.23|1.13|0.007
82503065|NCT00003901|164697115|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.886|TWO_SIDED|95.0|0.69|1.54|||Regression, Cox|||||1.54|0.69|0.886
82503066|NCT00003901|164697116|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.63||||0.009|TWO_SIDED|95.0|1.13|2.36|||Regression, Cox|||||2.36|1.13|0.009
82503067|NCT00003901|164697117|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.78||||0.332|TWO_SIDED|95.0|0.48|1.28|||Regression, Cox|||||1.28|0.48|0.332
82378324|NCT03762239|164465057|SUPERIORITY||Beta coefficient|-0.029||||0.5|TWO_SIDED|95.0|-0.117|0.0584|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher level of patience, relative to the classroom without air filter (normal air), in the combined patience measures among adolescents in high schools.||0.0584|-0.1170|0.50
82503068|NCT02707991|164697118|SUPERIORITY||Mean Difference (Final Values)|22.0|STANDARD_ERROR_OF_MEAN|0.115||0.036|ONE_SIDED|||||one-sided test|z-test for difference in proportions|||||||0.036
82503069|NCT02612428|164697142|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.762|TWO_SIDED|95.0|0.509|1.64|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-treat (ITT) population utilizing a log-rank test.||1.640|0.509|0.762
82503070|NCT02612428|164697143|SUPERIORITY|||||||0.6829|||||||Chi-squared|||||||0.6829
82626023|NCT00701441|164967803|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||For comparing pre versus post, paired t tests were used. We considered tests in the hypothesized direction conclusive|t-test, 2 sided|For each comparison, we tested at the 0.05 level with double-sided P values. We used no correction for multiple testing when declaring significance.||Flow mediated dilation = \[(average maximum dilation post cuff deflation - average baseline diameter)/ average baseline diameter\]100||||0.02
82503071|NCT02612428|164697144|SUPERIORITY|||||||0.048|||||||Chi-squared|||||||0.048
82503072|NCT01516424|164697151|NON_INFERIORITY_OR_EQUIVALENCE|The power is 80%, non-inferiority margin is 7.0.|Mean Difference (Final Values)|3.69|||<|0.05|TWO_SIDED|95.0|-0.36|7.75||Satisfaction with the non-inferiority criteria was determined by the upper limit of confidence interval. If the upper limit of 95% confidence interval was less than 7.0, then non-inferiority was concluded.|ANCOVA|Study center and grouping as fixed effects.|This is ITT analysis data.|"ANCOVA was employed to compare the changes of PANSS scores at week 8 relative to the baseline in these 2 groups. Least Squares Means for the differences in changes between the 2 groups (μ blonanserin - μ risperidone) and the two-sided 95% Confidence Interval were calculated in accordance with the main model.~H0: Compared with risperidone, blonanserin reduced more than 7.0 in mean change in PANSS total score from baseline at week 8 of treatment (μ blonanserin-μ risperidone\> 7.0)."||7.75|-0.36|<0.05
82503073|NCT01516424|164697151|NON_INFERIORITY_OR_EQUIVALENCE|The power is 80%, non-inferiority margin is 7.0.|Mean Difference (Final Values)|2.94|||<|0.05|TWO_SIDED|95.0|-0.76|6.65||Satisfaction with the non-inferiority criteria was determined by the upper limit of confidence interval. If the upper limit of 95% confidence interval was less than 7.0, then non-inferiority was concluded.|ANCOVA|Study center and grouping as fixed effects.|This is PPS analysis data.|"ANCOVA was employed to compare the changes of PANSS total scores at end of treatment relative to the baseline in these 2 groups. LSMeans for the differences in changes between the 2 groups (μ blonanserin - μ risperidone) and the two-sided 95% Confidence Interval were calculated in accordance with the main model.~H0: Compared with risperidone, blonanserin reduced more than 7.0 in mean change in PANSS total score from baseline at week 8 of treatment (μ blonanserin-μ risperidone\> 7.0)."||6.65|-0.76|<0.05
82503074|NCT00416078|164697171|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||F test of time X group effect F(1,3)=.26|Mixed Models Analysis|||intent to treat||||.65
82503075|NCT00416078|164697172|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|||||t test of differential change over time in the two groups t(30)=.67|Mixed Models Analysis|||intent to treat analysis||||.51
82503076|NCT00416078|164697173|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|||||t test of differential change over time in the two groups t(29)=.27|Mixed Models Analysis|||intent to treat analysis||||.79
82503077|NCT00416078|164697174|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||t test for differential change over time in the two groups t(29)=.70|Mixed Models Analysis|||intent to treat analysis||||.49
82503078|NCT00416078|164697175|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||t test for differential change over time in the two groups t(29)=.43|Mixed Models Analysis|||intent to treat analysis||||.67
82503079|NCT00416078|164697176|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Fisher Exact|||||||.64
82503080|NCT00553150|164697185|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|70.0|||||TWO_SIDED|||||||||||||
82503081|NCT03761147|164697191|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82626024|NCT00701441|164967804|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||We only consider tests in the hypothesized direction conclusive, so testing is conservative from that perspective. However, we used no correction for multiple testing when declaring significance|t-test, 2 sided|||For comparing pre- versus post-treatment, paired t tests were used. For each variable and comparison, we tested at the 0.05 level with double-sided P values.||||0.02
82503082|NCT03143569|164697200|OTHER|||||||0.45|||||||Fisher Exact|||||||.45
82503083|NCT03143569|164697201|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82503084|NCT03143569|164697202|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82503085|NCT03143569|164697203|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82503086|NCT03143569|164697204|OTHER|||||||0.018|||||||Chi-squared|||||||.018
82503087|NCT00870363|164697262|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
82503088|NCT00527943|164697280|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.92||||0.072|TWO_SIDED|95.0|0.85|1.01|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.01|0.85|0.072
82503089|NCT00527943|164697281|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.018|TWO_SIDED|95.0|0.81|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.81|0.018
82503090|NCT00527943|164697282|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.36|||<|0.001|TWO_SIDED|95.0|1.18|1.57|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.57|1.18|<0.001
82503091|NCT00527943|164697283|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.41|||<|0.001|TWO_SIDED|95.0|1.29|1.54|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.54|1.29|<0.001
82503092|NCT00527943|164697284|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.038|TWO_SIDED|95.0|0.84|1.0|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.00|0.84|0.038
82626025|NCT02690168|164967805|OTHER|||||||0.0053|||||||t-test, 2 sided|||||||0.0053
82626026|NCT02690168|164967806|OTHER|||||||0.477|||||||t-test, 2 sided|||||||0.477
82503093|NCT00527943|164697285|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.027|TWO_SIDED|95.0|0.81|0.99|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.99|0.81|0.027
82503094|NCT00527943|164697286|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.94||||0.174|TWO_SIDED|95.0|0.87|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.87|0.174
82503095|NCT00527943|164697287|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.108|TWO_SIDED|95.0|0.86|1.02|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.02|0.86|0.108
82503096|NCT00527943|164697288|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.963|TWO_SIDED|95.0|0.83|1.22|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.22|0.83|0.963
82503097|NCT00527943|164697289|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.021|TWO_SIDED|95.0|0.79|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.79|0.021
82503098|NCT00527943|164697290|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.418|TWO_SIDED|95.0|0.83|1.58|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.58|0.83|0.418
82503099|NCT00527943|164697291|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.07||||0.493|TWO_SIDED|95.0|0.88|1.31|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.31|0.88|0.493
82503100|NCT00527943|164697292|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.05||||0.515|TWO_SIDED|95.0|0.9|1.23|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.23|0.90|0.515
82503101|NCT00527943|164697293|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.606|TWO_SIDED|95.0|0.7|1.23|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.23|0.70|0.606
82503102|NCT00137423|164697311|SUPERIORITY_OR_OTHER||Objective Response Rate|28.3||||||95.0|16.8|42.3|||F distribution|||Objective response rate required a sample size of 100 to test null hypothesis that true response rate was \<=5% versus alternative hypothesis that true response rate was \>=15% with 90% power and alpha level of 0.05. If number of OR\> =11 null hypothesis that true response rate was \<=5% could be rejected with a target α error rate of 0.05.||42.3|16.8|
82503103|NCT00137423|164697311|SUPERIORITY_OR_OTHER||Objective Response Rate|11.5||||||95.0|4.4|23.4|||F distribution|||Objective response rate required a sample size of 100 to test null hypothesis that true response rate was \<=5% versus alternative hypothesis that true response rate was \>=15% with 90% power and alpha level of 0.05. If number of OR\> =11 null hypothesis that true response rate was \<=5% could be rejected with a target α error rate of 0.05.||23.4|4.4|
82503104|NCT00137423|164697315|SUPERIORITY_OR_OTHER||1-year survival rate|77.4||||||95.0|63.6|86.5|||Kaplan-Meier method||valid presentation only if at least 1 patient has overall survival \>=1 year. Based on normal approximation, 95% CI will be derived by log transformation of the cumulative hazard rate.|||86.5|63.6|
82503105|NCT00137423|164697315|SUPERIORITY_OR_OTHER||1-year survival rate|66.0||||||95.0|51.6|77.1|||Kaplan-Meier method||valid presentation only if at least 1 patient has overall survival \>=1 year. Based on normal approximation, 95% CI will be derived by log transformation of the cumulative hazard rate.|||77.1|51.6|
82503106|NCT04105998|164697320|SUPERIORITY|Exploratory analysis without power calculation||||||0.64|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.64
82503107|NCT04105998|164697321|SUPERIORITY|Exploratory analysis without power calculation||||||0.19|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.19
82503108|NCT04105998|164697322|SUPERIORITY|Exploratory analysis without power calculation||||||0.067|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.067
82626027|NCT02690168|164967807|OTHER|||||||0.917|||||||t-test, 2 sided|||||||0.917
82503109|NCT04105998|164697323|SUPERIORITY|Exploratory analysis without power calculation||||||0.25|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.25
82503110|NCT04105998|164697324|SUPERIORITY|Exploratory analysis without power calculation||||||0.058|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.058
82503111|NCT04105998|164697325|SUPERIORITY|Exploratory analysis without power calculation||||||0.111|||||||t-test, 2 sided|||Exploratory analysis without power calculation||||0.111
82626028|NCT02690168|164967809|OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
82626029|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test.||||||0.09|||||||Paired t-test|||P-value comparing AL between G6 and IOLM||||0.09
82503112|NCT02604212|164697346|SUPERIORITY||LS Mean Difference|-0.042|STANDARD_ERROR_OF_MEAN|0.102||0.6815|TWO_SIDED|95.0|-0.243|0.159|||MMRM|||||0.159|-0.243|0.6815
82503113|NCT02604212|164697346|SUPERIORITY||LS Mean Difference|-0.438|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.638|-0.237|||MMRM|||||-0.237|-0.638|<.0001
82503114|NCT02604212|164697346|SUPERIORITY||LS Mean Difference|-0.396|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.569|-0.223|||MMRM|||||-0.223|-0.569|<.0001
82503115|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.208|STANDARD_ERROR_OF_MEAN|0.083||0.0131|TWO_SIDED|95.0|-0.372|-0.044|||MMRM|||Day 15||-0.044|-0.372|0.0131
82503116|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.247|STANDARD_ERROR_OF_MEAN|0.084||0.0036|TWO_SIDED|95.0|-0.412|-0.082|||MMRM|||Day 15||-0.082|-0.412|0.0036
82503117|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.039|STANDARD_ERROR_OF_MEAN|0.077||0.6136|TWO_SIDED|95.0|-0.192|0.113|||MMRM|||Day 15||0.113|-0.192|0.6136
82503118|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.085|STANDARD_ERROR_OF_MEAN|0.083||0.3104|TWO_SIDED|95.0|-0.249|0.08|||MMRM|||Day 29||0.080|-0.249|0.3104
82503119|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.174|STANDARD_ERROR_OF_MEAN|0.084||0.0401|TWO_SIDED|95.0|-0.34|-0.008|||MMRM|||Day 29||-0.008|-0.340|0.0401
82503120|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.077||0.2494|TWO_SIDED|95.0|-0.242|0.063|||MMRM|||Day 29||0.063|-0.242|0.2494
82626030|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.001|||||||Paired t-test|||P-value comparing AL between G6 and LS||||<0.001
82503121|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.211|STANDARD_ERROR_OF_MEAN|0.085||0.0149|TWO_SIDED|95.0|-0.38|-0.042|||MMRM|||Day 43||-0.042|-0.380|0.0149
82626031|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing AL between IOLM and LS||||<0.0001
82503122|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.319|STANDARD_ERROR_OF_MEAN|0.086||0.0003|TWO_SIDED|95.0|-0.489|-0.149|||MMRM|||Day 43||-0.149|-0.489|0.0003
82503123|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.108|STANDARD_ERROR_OF_MEAN|0.078||0.1655|TWO_SIDED|95.0|-0.262|0.045|||MMRM|||Day 29||0.045|-0.262|0.1655
82503124|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.088||0.0889|TWO_SIDED|95.0|-0.324|0.023|||MMRM|||Day 57||0.023|-0.324|0.0889
82503125|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.322|STANDARD_ERROR_OF_MEAN|0.088||0.0004|TWO_SIDED|95.0|-0.497|-0.147|||MMRM|||Day 57||-0.147|-0.497|0.0004
82503126|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.172|STANDARD_ERROR_OF_MEAN|0.078||0.0298|TWO_SIDED|95.0|-0.326|-0.017|||MMRM|||Day 57||-0.017|-0.326|0.0298
82503127|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.184|STANDARD_ERROR_OF_MEAN|0.089||0.0415|TWO_SIDED|95.0|-0.361|-0.007|||MMRM|||Day 71||-0.007|-0.361|0.0415
82503128|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.441|STANDARD_ERROR_OF_MEAN|0.091|<|0.0001|TWO_SIDED|95.0|-0.62|-0.261|||MMRM|||Day 71||-0.261|-0.620|<.0001
82503129|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.257|STANDARD_ERROR_OF_MEAN|0.079||0.0015|TWO_SIDED|95.0|-0.413|-0.1|||MMRM|||Day 71||-0.100|-0.413|0.0015
82503130|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.086|STANDARD_ERROR_OF_MEAN|0.092||0.351|TWO_SIDED|95.0|-0.268|0.096|||MMRM|||Day 85||0.096|-0.268|0.3510
82503131|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.404|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.59|-0.219|||MMRM|||Day 85||-0.219|-0.590|<.0001
82503132|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.318|STANDARD_ERROR_OF_MEAN|0.082||0.0002|TWO_SIDED|95.0|-0.481|-0.156|||MMRM|||Day 85||-0.156|-0.481|0.0002
82503133|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.151|STANDARD_ERROR_OF_MEAN|0.096||0.1198|TWO_SIDED|95.0|-0.341|0.04|||MMRM|||Day 99||0.040|-0.341|0.1198
82503134|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.516|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.708|-0.325|||MMRM|||Day 99||-0.325|-0.708|<.0001
82503135|NCT02604212|164697347|SUPERIORITY||LS Mean Difference|-0.366|STANDARD_ERROR_OF_MEAN|0.085|<|0.0001|TWO_SIDED|95.0|-0.535|-0.197|||MMRM|||Day 99||-0.197|-0.535|<.0001
82503136|NCT02604212|164697348|SUPERIORITY|||||||0.0867|||||||Fisher Exact|||||||0.0867
82503137|NCT02604212|164697348|SUPERIORITY|||||||0.6285|||||||Fisher Exact|||||||0.6285
82626032|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing CCT between G6 and LS||||<0.0001
82626033|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing ACD between G6 and IOLM||||<0.0001
82503138|NCT02604212|164697348|SUPERIORITY|||||||0.7214|||||||Fisher Exact|||||||0.7214
82503139|NCT02604212|164697349|SUPERIORITY|||||||0.0325|||||||Fisher Exact|||||||0.0325
82503140|NCT02604212|164697349|SUPERIORITY|||||||0.1409|||||||Fisher Exact|||||||0.1409
82503141|NCT02604212|164697349|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82503142|NCT02604212|164697350|SUPERIORITY|||||||0.0824|||||||Fisher Exact|||||||0.0824
82503143|NCT02604212|164697350|SUPERIORITY|||||||0.2217|||||||Fisher Exact|||||||0.2217
82503144|NCT02604212|164697350|SUPERIORITY|||||||0.1409|||||||Fisher Exact|||||||0.1409
82503145|NCT02604212|164697351|SUPERIORITY|||||||0.0625|||||||Fisher Exact|||||||0.0625
82503146|NCT02604212|164697351|SUPERIORITY|||||||0.0684|||||||Fisher Exact|||||||0.0684
82503147|NCT02604212|164697351|SUPERIORITY|||||||0.2105|||||||Fisher Exact|||||||0.2105
82503148|NCT02604212|164697352|SUPERIORITY|||||||0.175|||||||Fisher Exact|||||||0.1750
82503149|NCT02604212|164697352|SUPERIORITY|||||||0.0229|||||||Fisher Exact|||||||0.0229
82503150|NCT02604212|164697352|SUPERIORITY|||||||0.0294|||||||Fisher Exact|||||||0.0294
82503151|NCT02604212|164697353|SUPERIORITY|||||||0.4615|||||||Fisher Exact|||||||0.4615
82503152|NCT02604212|164697353|SUPERIORITY|||||||0.0508|||||||Fisher Exact|||||||0.0508
82503153|NCT02604212|164697353|SUPERIORITY|||||||0.0769|||||||Fisher Exact|||||||0.0769
82503154|NCT02604212|164697354|SUPERIORITY|||||||0.0699|||||||Fisher Exact|||||||0.0699
82503155|NCT02604212|164697354|SUPERIORITY|||||||0.0179|||||||Fisher Exact|||||||0.0179
82503156|NCT02604212|164697354|SUPERIORITY|||||||0.043|||||||Fisher Exact|||||||0.0430
82503157|NCT02604212|164697355|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82503158|NCT02604212|164697355|SUPERIORITY|||||||0.0849|||||||Fisher Exact|||||||0.0849
82503159|NCT02604212|164697355|SUPERIORITY|||||||0.0849|||||||Fisher Exact|||||||0.0849
82503160|NCT06273124|164697381|SUPERIORITY||Kaplan-Meier 7 Day Survival Estimate|95.0|||<|0.001|TWO_SIDED|95.0|94.0|97.0|||Bootstrapping Kaplan-Meier estimates|||Ninety-five percent confidence intervals for the 7-day survival rates and p-values for the survival probabilities being greater than 75% were calculated with a bootstrap to account for the correlated data from having each participant wear multiple infusion sets.||97|94|<0.001
82503161|NCT06273124|164697382|SUPERIORITY||Kaplan-Meier 7 Day Survival Estimate|95.0|||<|0.001|TWO_SIDED|95.0|93.0|96.0|||Bootstrapping Kaplan-Meier estimates|||Ninety-five percent confidence intervals for the 7-day survival rates and p-values for the survival probabilities being greater than 75% were calculated with a bootstrap to account for the correlated data from having each participant wear multiple infusion sets.||96|93|<0.001
82503162|NCT01340898|164697457|SUPERIORITY_OR_OTHER||Percentage of subjects|100.0|||||TWO_SIDED|95.0|98.9|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup A one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||100|98.9|
82503163|NCT01340898|164697457|SUPERIORITY_OR_OTHER||Percentage of subjects|99.7|||||TWO_SIDED|95.0|98.3|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup C one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants.||100|98.3|
82503164|NCT01340898|164697457|SUPERIORITY_OR_OTHER||Percentage of subjects|99.4|||||TWO_SIDED|95.0|97.8|99.9|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup W-135 one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||99.9|97.8|
82503165|NCT01340898|164697457|SUPERIORITY_OR_OTHER||Percentage of subjects|99.7|||||TWO_SIDED|95.0|98.3|100.0|||||Immunogenicity was considered demonstrated if the lower limit of the two-sided exact 95% confidence interval (CI) for the percentage of subjects with rSBA titre ≥ 1:8 was greater than or equal to the pre-defined clinical limit of 80%.|Demonstration of the immunogenicity of the Nimenrix™ conjugate vaccine in terms of bactericidal antibodies to N. meningitidis serogroup Y one-month post-dose 3 of Nimenrix™ vaccine at 7 months of age in healthy infants||100|98.3|
82503166|NCT04501666|164697536|SUPERIORITY||Strata adjusted percentage difference|40.1|||<|0.0001|TWO_SIDED|95.0|29.4|50.8||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||50.8|29.4|< 0.0001
82503167|NCT04501666|164697537|SUPERIORITY||Strata adjusted percentage difference|14.6||||0.0025|TWO_SIDED|95.0|6.7|22.6||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||22.6|6.7|0.0025
82522925|NCT02460692|164741285|SUPERIORITY|||||||0.44||||||The average NPS change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.44
82522926|NCT02460692|164741285|SUPERIORITY|||||||0.53||||||The average pain change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|Unstructured covariance model|||||||0.53
82522927|NCT02460692|164741285|SUPERIORITY|||||||0.18||||||The average NPS change at the treatment period (weeks 5-8) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect|Unstructured covariance model|||||||0.18
82503168|NCT04501666|164697539|SUPERIORITY||Strata adjusted percentage difference|31.7|||<|0.0001|TWO_SIDED|95.0|23.0|40.4||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||40.4|23.0|< 0.0001
82503169|NCT04501666|164697540|SUPERIORITY||Strata adjusted percentage difference|30.5|||<|0.0001|TWO_SIDED|95.0|22.3|38.7||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.7|22.3|< 0.0001
82503170|NCT04501666|164697541|SUPERIORITY||Strata adjusted percentage difference|38.0|||<|0.0001|TWO_SIDED|95.0|27.8|48.2||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||48.2|27.8|< 0.0001
82503171|NCT04501666|164697542|SUPERIORITY||Strata adjusted percentage difference|22.7|||<|0.0001|TWO_SIDED|95.0|14.7|30.7||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||30.7|14.7|< 0.0001
82503172|NCT04501666|164697543|SUPERIORITY||Strata adjusted percentage difference|18.7|||<|0.0001|TWO_SIDED|95.0|12.3|25.0||A 2-sided p-value was derived from CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||25.0|12.3|< 0.0001
82503173|NCT03204305|164697544|SUPERIORITY||t-test|-2.51||||0.02|TWO_SIDED|||||p \< 0.05 for all analyses. Bonferroni corrections were made to reduce family-wise error rate.|t-test, 2 sided|Composite VT was compared using independent t-tests.||VT in the 8 volumes of interest were analyzed using linear regression model group coded encoded as a dummy variable \[1=females cannabis users; 2= female healthy controls\], age as a covariate, and VT for VOIs (ventral striatum, amygdala, putamen, cingulate, globus pallidus, insula, frontal cortex, and hippocampus) as dependent variables, followed by post hoc Tukey's HSD between between groups.||||0.02
82503174|NCT03204305|164697544|SUPERIORITY||t-test|-2.36||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82503175|NCT03204305|164697544|SUPERIORITY||t-test|-2.35||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82503176|NCT03204305|164697544|SUPERIORITY||t-test|-2.23||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
82503177|NCT03204305|164697545|SUPERIORITY||t test|-2.52||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82503178|NCT03388294|164697550|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|7.32||||0.028|TWO_SIDED||||||Mixed Models Analysis|||||||0.028
82503179|NCT03388294|164697551|OTHER||Mean Difference (Net)|12.75|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||The focus for this analysis is change over time||||<0.001
82503180|NCT03388294|164697552|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||||||0.87
82503181|NCT03388294|164697553|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.61||||0.006|TWO_SIDED||||||Mixed Models Analysis|||||||0.006
82503182|NCT03388294|164697554|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
82378325|NCT03762239|164465058|SUPERIORITY||Beta coefficient|0.06||||0.13|TWO_SIDED|95.0|-0.0184|0.1394|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher level of positive reciprocity behavior, relative to the classroom without air filter (normal air), in the positive reciprocity measures among adolescents in high schools||0.1394|-0.0184|0.13
82503183|NCT03388294|164697555|OTHER|The focus for this analysis is change over time||||||0.849|||||||Mixed Models Analysis|||||||0.849
82503184|NCT03388294|164697556|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.2||||0.063|TWO_SIDED||||||Mixed Models Analysis|||||||0.063
82503185|NCT03388294|164697557|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.48|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82503186|NCT03388294|164697561|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|-2.9||||0.036|TWO_SIDED||||||Mixed Models Analysis|||||||0.036
82503187|NCT03388294|164697562|OTHER|The focus for this analysis is change over time||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
82503188|NCT03388294|164697563|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.36||||0.864|TWO_SIDED||||||Mixed Models Analysis|||||||0.864
82503189|NCT03388294|164697564|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|3.14||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
82503190|NCT03388294|164697565|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.02||||0.881|TWO_SIDED||||||Mixed Models Analysis|||||||0.881
82503191|NCT03388294|164697566|OTHER|The focus for this analysis is change over time|Mean Difference (Net)|0.02||||0.846|TWO_SIDED||||||Mixed Models Analysis|||||||0.846
82503192|NCT00735787|164697595|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Fisher Exact|||The primary null hypothesis for this study was that there was no difference in the proportion of subjects that achieved PGA clear or almost clear at Week 16 between the adalimumab and placebo groups. Analysis was done using a two-sided Fisher's exact test at alpha level=0.05.||||0.014
82503193|NCT01765153|164697631|SUPERIORITY_OR_OTHER|||||||0.04366667|||||||t-test, 2 sided|||||||0.04366667
82503194|NCT00319644|164697677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0||||0.26||95.0|||||Chi-squared|||The chi-square test(or Fisher exact test where needed) was used to compare proportions with dichotomous variables. The Student-t test was used for quantitative variables woth normal distribution, and Mann-Whitney-U test was used for data not normally distributed.||||0.26
82503195|NCT02472795|164697836|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.39|TWO_SIDED|95.0|-0.56|0.22|||ANCOVA|||||0.22|-0.56|0.39
82503196|NCT02472795|164697836|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.02|TWO_SIDED|95.0|-0.91|0.09|||ANCOVA|||||0.09|-0.91|0.02
82503197|NCT02472795|164697836|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.95|-0.19|||ANCOVA|||||-0.19|-0.95|0.004
82503198|NCT02472795|164697836|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.19||0.06|TWO_SIDED|95.0|-0.75|0.02|||ANCOVA|||||0.02|-0.75|0.06
82503199|NCT02472795|164697838|SUPERIORITY||Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.134||0.2837|TWO_SIDED|95.0|-0.413|0.123|||ANCOVA|||||0.123|-0.413|0.2837
82503200|NCT02472795|164697838|SUPERIORITY||Mean Difference (Final Values)|-0.515|STANDARD_ERROR_OF_MEAN|0.14||0.0006|TWO_SIDED|95.0|-0.797|-0.234|||ANCOVA|||||-0.234|-0.797|0.0006
82503201|NCT02472795|164697838|SUPERIORITY||Mean Difference (Final Values)|-0.565|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.825|-0.305|||ANCOVA|||||-0.305|-0.825|0.0001
82503202|NCT02472795|164697838|SUPERIORITY||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.147|<|0.0001|TWO_SIDED|95.0|-1.173|-0.586|||ANCOVA|||||-0.586|-1.173|<0.0001
82503203|NCT02472795|164697840|SUPERIORITY||Mean Difference (Final Values)|-13.214|STANDARD_ERROR_OF_MEAN|9.626||0.1755|TWO_SIDED|95.0|-32.513|6.085|||ANCOVA|||||6.085|-32.513|0.1755
82503204|NCT02472795|164697840|SUPERIORITY||Mean Difference (Final Values)|-39.311|STANDARD_ERROR_OF_MEAN|10.096||0.0003|TWO_SIDED|95.0|-59.552|-19.069|||ANCOVA|||||-19.069|-59.552|0.0003
82503205|NCT02472795|164697840|SUPERIORITY||Mean Difference (Final Values)|-47.278|STANDARD_ERROR_OF_MEAN|9.329|<|0.0001|TWO_SIDED|95.0|-65.981|-28.574|||ANCOVA|||||-28.574|-65.981|<0.0001
82503206|NCT02472795|164697840|SUPERIORITY||Mean Difference (Final Values)|-56.452|STANDARD_ERROR_OF_MEAN|10.541|<|0.0001|TWO_SIDED|95.0|-77.585|-35.32|||ANCOVA|||||-35.320|-77.585|<0.0001
82503207|NCT00597012|164697868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4||||0.26|TWO_SIDED|95.0|-1.8|6.5|||ANCOVA|||"The primary analysis was implemented with an analysis of covariance with changes in the WOMAC physical-function score from baseline to 6 months as the dependent variable, treatment as the independent variable of interest, and study site as a covariate.~The primary analysis used a modified intention-to-treat approach in which patients who did not withdraw from the study were evaluated in the group to which they were randomly assigned."||6.5|-1.8|0.26
82503208|NCT00597012|164697869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.9||||0.16|TWO_SIDED|95.0|-1.2|7.0|||ANCOVA|||||7.0|-1.2|0.16
82626034|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.01|||||||Paired t-test|||P-value comparing ACD between G6 and LS||||<0.01
82503209|NCT00597012|164697870|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.1||||0.68|TWO_SIDED|95.0|-4.4|6.6|||ANCOVA|||||6.6|-4.4|0.68
82503210|NCT00670800|164697878|SUPERIORITY_OR_OTHER|||||||0.143||95.0|||||t-test, 2 sided|||||||0.143
82503211|NCT00670800|164697878|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||||||0.900
82503212|NCT00670800|164697878|SUPERIORITY_OR_OTHER|||||||0.133||95.0|||||t-test, 2 sided|||||||0.133
82503213|NCT00670800|164697879|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||||||0.049
82503214|NCT00670800|164697879|SUPERIORITY_OR_OTHER|||||||0.717||95.0|||||t-test, 2 sided|||||||0.717
82503215|NCT00670800|164697879|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||||||0.038
82503216|NCT00670800|164697880|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||t-test, 2 sided|||||||0.498
82503217|NCT00670800|164697880|SUPERIORITY_OR_OTHER|||||||0.835||95.0|||||t-test, 2 sided|||||||0.835
82503218|NCT00670800|164697880|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||t-test, 2 sided|||||||0.606
82503219|NCT00670800|164697881|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||t-test, 2 sided|||||||0.118
82503220|NCT00670800|164697881|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||t-test, 2 sided|||||||0.581
82503221|NCT00670800|164697881|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||t-test, 2 sided|||||||0.190
82503222|NCT01277523|164697911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.055||0.0457|TWO_SIDED|95.0|0.002|0.22||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.220|0.002|0.0457
82503223|NCT01277523|164697911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.055||0.1039|TWO_SIDED|95.0|-0.019|0.198||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.198|-0.019|0.1039
82503224|NCT01277523|164697912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.059||0.0509|TWO_SIDED|95.0|0.0|0.231||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.231|-0.000|0.0509
82503225|NCT01277523|164697912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.058||0.3605|TWO_SIDED|95.0|-0.061|0.168||Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo.|Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.168|-0.061|0.3605
82503226|NCT01277523|164697913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.059||0.1264|TWO_SIDED|95.0|-0.026|0.207|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.207|-0.026|0.1264
82503227|NCT01277523|164697913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.059||0.2845|TWO_SIDED|95.0|-0.053|0.179|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.179|-0.053|0.2845
82503228|NCT01277523|164697914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.053||0.0338|TWO_SIDED|95.0|0.009|0.217|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.217|0.009|0.0338
82503229|NCT01277523|164697914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.053||0.0999|TWO_SIDED|95.0|-0.017|0.191|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.191|-0.017|0.0999
82503230|NCT01277523|164697915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.057||0.1252|TWO_SIDED|95.0|-0.024|0.198|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.198|-0.024|0.1252
82503231|NCT01277523|164697915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.056||0.3549|TWO_SIDED|95.0|-0.058|0.163|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.163|-0.058|0.3549
82503232|NCT01277523|164697916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.088||0.1819|TWO_SIDED|95.0|-0.055|0.292|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.292|-0.055|0.1819
82503233|NCT01277523|164697916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.088||0.5448|TWO_SIDED|95.0|-0.119|0.226|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.226|-0.119|0.5448
82503234|NCT01277523|164697918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.082||0.4762|TWO_SIDED|95.0|-0.102|0.219|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.219|-0.102|0.4762
82503235|NCT01277523|164697918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.081||0.6558|TWO_SIDED|95.0|-0.123|0.196|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.196|-0.123|0.6558
82503236|NCT01277523|164697920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.153||0.996|TWO_SIDED|95.0|-0.301|0.3|||Mixed Models Analysis|||||0.300|-0.301|0.9960
82503237|NCT01277523|164697920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.151||0.703|TWO_SIDED|95.0|-0.355|0.239|||Mixed Models Analysis|||||0.239|-0.355|0.7030
82503238|NCT01277523|164697921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.094||0.7309|TWO_SIDED|95.0|-0.217|0.153|||Mixed Models Analysis|||||0.153|-0.217|0.7309
82503239|NCT01277523|164697921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.093||0.5954|TWO_SIDED|95.0|-0.232|0.133|||Mixed Models Analysis|||||0.133|-0.232|0.5954
82503240|NCT01277523|164697922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.083||0.2841|TWO_SIDED|95.0|-0.074|0.252|||Mixed Models Analysis|||||0.252|-0.074|0.2841
82503241|NCT01277523|164697922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.082||0.795|TWO_SIDED|95.0|-0.14|0.182|||Mixed Models Analysis|||||0.182|-0.140|0.7950
82503242|NCT01277523|164697923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.9671|TWO_SIDED|95.0|0.07|16.95|||Regression, Cox|||||16.95|0.07|0.9671
82503243|NCT01277523|164697923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.5557|TWO_SIDED|95.0|0.19|22.7|||Regression, Cox|||||22.70|0.19|0.5557
82503244|NCT01277523|164697924|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.3567|TWO_SIDED|95.0|0.41|1.38|||Regression, Cox|||||1.38|0.41|0.3567
82503245|NCT01277523|164697924|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1168|TWO_SIDED|95.0|0.32|1.14|||Regression, Cox|||||1.14|0.32|0.1168
82503246|NCT02389998|164697954|SUPERIORITY||||||<|0.03|||||||ANCOVA|||||||<0.03
82503247|NCT02389998|164697955|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||.001
82503248|NCT02389998|164697956|SUPERIORITY|||||||0.3|||||||McNemar|||||||0.3
82503249|NCT01770379|164697976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.2001|TWO_SIDED|95.0|0.79|3.03|||Regression, Logistic|||||3.03|0.79|0.2001
82503250|NCT01770379|164697976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1574|TWO_SIDED|95.0|0.83|3.15|||Regression, Logistic|||||3.15|0.83|0.1574
82626035|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.02|||||||Paired t-test|||P-value comparing ACD between IOLM and LS||||0.02
82626036|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.01|||||||Paired t-test|||P-value comparing LT between G6 and LS||||<0.01
82503251|NCT01074450|164697990|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.93|||||TWO_SIDED|90.0|94.23|108.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.1|94.23|
82503252|NCT01074450|164697991|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.71|||||TWO_SIDED|90.0|99.74|109.92|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.92|99.74|
82503253|NCT01074450|164697992|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.15|||||TWO_SIDED|90.0|99.05|109.52|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.52|99.05|
82626037|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing WtW between G6 and IOLM||||<0.0001
82626038|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.0001|||||||Paired t-test|||P-value comparing WtW between G6 and LS||||<0.0001
82503254|NCT00385996|164698026|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Binomial distribution|Binomial distribution and test proportion =0.50||One arm phase 2 trial. This study is designed to asses response rate and defined as the percentage of subjects achieving at least 50% tumor volume. One-sided alpha is set at no more than 5% and the power no less than 90%,and the null hypothesis of RR of less than 10% and alternative hypothesis of RR of greater than 30%, a total of 30 patients will be enrolled (Fleming 1982).At least 7 responders out of 30 patients are needed to reject the null hypothesis of a 10% RR.||||<0.01
82503255|NCT00385996|164698028|OTHER||TTP [% without disease at 24 months]|63.6|||||TWO_SIDED|95.0|43.4|83.8|||||Using the Kaplan-Meier method.|One arm study||83.8|43.4|
82503256|NCT00385996|164698029|OTHER||% alive without disease at 25 months|72.7|||||TWO_SIDED|95.0|54.1|91.3|||||Using the Kaplan-Meier method.|One arm study||91.3|54.1|
82503257|NCT03164928|164698030|SUPERIORITY||Least Squares Mean Difference|0.11||||0.68|TWO_SIDED|95.0|-0.45|0.673|||ANCOVA|||||0.673|-0.450|0.68
82503258|NCT03164928|164698031|SUPERIORITY||Least Squares Mean Difference|0.17||||0.34|TWO_SIDED|95.0|-0.194|0.542|||Repeated Measures Model|||Month 6||0.542|-0.194|0.34
82503259|NCT03164928|164698031|SUPERIORITY||Least Squares Mean Difference|0.03||||0.93|TWO_SIDED|95.0|-0.609|0.661|||Repeated Measures Model|||Month 18||0.661|-0.609|0.93
82503260|NCT03164928|164698031|SUPERIORITY||Least Squares Mean Difference|0.11||||0.74|TWO_SIDED|95.0|-0.572|0.795|||Repeated Measures Model|||Month 24||0.795|-0.572|0.74
82503261|NCT03164928|164698031|SUPERIORITY||Least Squares Means Difference|-0.8||||0.12|TWO_SIDED|95.0|-1.848|0.239|||Repeated Measures Model|||Month 36||0.239|-1.848|0.12
82503262|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.41||||0.19|TWO_SIDED|95.0|-1.05|0.223|||Repeated Measures Model|||Month 6 (Total Hip)||0.223|-1.050|0.19
82503263|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.06||||0.83|TWO_SIDED|95.0|-0.631|0.515|||Repeated Measures Model|||Month 12 (Total Hip)||0.515|-0.631|0.83
82503264|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.27||||0.51|TWO_SIDED|95.0|-1.108|0.565|||Repeated Measures Model|||Month 18 (Total Hip)||0.565|-1.108|0.51
82503265|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.18||||0.69|TWO_SIDED|95.0|-1.098|0.746|||Repeated Measures Model|||Month 24 (Total Hip)||0.746|-1.098|0.69
82503266|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.09||||0.89|TWO_SIDED|95.0|-1.465|1.286|||Repeated Measures Model|||Month 36 (Total Hip)||1.286|-1.465|0.89
82503267|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|-0.18||||0.64|TWO_SIDED|95.0|-0.969|0.614|||Repeated Measures Model|||Month 6 (Femoral Neck)||0.614|-0.969|0.64
82503268|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|0.1||||0.83|TWO_SIDED|95.0|-0.808|1.0|||Repeated Measures Model|||Month 12 (Femoral Neck)||1.000|-0.808|0.83
82503269|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|0.37||||0.48|TWO_SIDED|95.0|-0.697|1.442|||Repeated Measures Model|||Month 18 (Femoral Neck)||1.442|-0.697|0.48
82503270|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|0.11||||0.86|TWO_SIDED|95.0|-1.222|1.443|||Repeated Measures Model|||Month 24 (Femoral Neck)||1.443|-1.222|0.86
82503271|NCT03164928|164698032|SUPERIORITY||Least Squares Mean Difference|0.38||||0.66|TWO_SIDED|95.0|-1.378|2.13|||Repeated Measures Model|||Month 36 (Femoral Neck)||2.130|-1.378|0.66
82503272|NCT03033511|164698068|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.537|TWO_SIDED|95.0|0.84|1.36||stratified log-rank test|Log Rank|||||1.36|0.84|0.537
82503273|NCT03033511|164698069|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.237|TWO_SIDED|95.0|0.92|1.36||stratified log-rank test|Log Rank|||||1.36|0.92|0.237
82503274|NCT03033511|164698070|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.36|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|-3.08|2.35||||||Change at Week 6||2.35|-3.08|
82503275|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-10.43|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-14.58|-6.29||||||Change at Week 12||-6.29|-14.58|
82503276|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-27.67|STANDARD_ERROR_OF_MEAN|10.57|||TWO_SIDED|95.0|-46.19|-9.16||||||Change at Week 18||-9.16|-46.19|
82503277|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-18.44|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-38.28|1.39||||||Change at Week 24||1.39|-38.28|
82503278|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-22.0|STANDARD_ERROR_OF_MEAN|11.27|||TWO_SIDED|95.0|-42.63|-1.37||||||Change at Week 30||-1.37|-42.63|
82503279|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 36||||
82503280|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|3.33|||||TWO_SIDED|||||||||Change at Week 42||||
82503281|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-56.67|||||TWO_SIDED|||||||||Change at Week 48||||
82503282|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 60||||
82503283|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 66||||
82503284|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|0.0|||||TWO_SIDED|||||||||Change at Week 78||||
82503285|NCT03033511|164698070|SUPERIORITY||LS Mean of Difference|-9.17|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|95.0|-12.16|-6.19||||||Change at Final Visit||-6.19|-12.16|
82503286|NCT03742037|164698072|SUPERIORITY||LS mean difference to placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.54||0.4749|TWO_SIDED|95.0|-1.45|0.68|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||0.68|-1.45|0.4749
82503287|NCT03742037|164698072|SUPERIORITY||LS mean to placebo|-0.57|STANDARD_ERROR_OF_MEAN|0.54||0.2941|TWO_SIDED|95.0|-1.65|0.49|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||0.49|-1.65|0.2941
82522928|NCT02460692|164741286|SUPERIORITY|||||||0.95||||||The average change of learning scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.95
82503288|NCT03742037|164698072|SUPERIORITY||LS mean difference to placebo|0.01|STANDARD_ERROR_OF_MEAN|0.54||0.9802|TWO_SIDED|95.0|-1.05|1.08|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||1.08|-1.05|0.9802
82503289|NCT03742037|164698072|SUPERIORITY||LS mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.54||0.0291|TWO_SIDED|95.0|-2.25|-0.12|||Mixed Models Analysis|||The analysis was performed on the Full Analysis Set (FAS). The FAS included all participants who were randomized. Baseline was defined as the last measurement before randomization.||-0.12|-2.25|0.0291
82503290|NCT03742037|164698073|SUPERIORITY||Odds Ratio (OR)|1.01||||0.974|TWO_SIDED|95.0|0.54|1.9|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||1.9|0.54|0.974
82503291|NCT03742037|164698073|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2845|TWO_SIDED|95.0|0.75|2.65|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.65|0.75|0.2845
82503292|NCT03742037|164698073|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5115|TWO_SIDED|95.0|0.66|2.32|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.32|0.66|0.5115
82503293|NCT03742037|164698073|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5115|TWO_SIDED|95.0|0.66|2.32|||Mixed Models Analysis|||A generalized mixed effects model for repeated measures was applied to the SRI-4 response from Month 1 through 6 with treatment group, month, treatment group by month interaction, and stratification factors (oral corticosteroids dose \& mSLEDAI-2K) as fixed effects \& participant as random effect.||2.32|0.66|0.5115
82503294|NCT04600414|164698090|SUPERIORITY||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.03|0.38|||Multi-level model to account for cluster|||||0.38|0.03|<0.001
82503295|NCT04600414|164698091|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.532|TWO_SIDED|95.0|-4.97|2.57|||Multi-level model to account for cluster|||||2.57|-4.97|0.532
82503296|NCT00969150|164698132|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.49||||0.2492|TWO_SIDED|95.0|-4.02|1.05|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||1.05|-4.02|0.2492
82503297|NCT00969150|164698133|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.54||||0.5625|TWO_SIDED|95.0|-2.38|1.29|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||1.29|-2.38|0.5625
82503298|NCT00202644|164698232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-100.5|STANDARD_ERROR_OF_MEAN|39.93|||TWO_SIDED|95.0|-179.42|-21.49||||||||-21.49|-179.42|
82503299|NCT00202644|164698233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-113.1|STANDARD_ERROR_OF_MEAN|37.56|||TWO_SIDED|95.0|-187.4|-38.83||||||Month 3||-38.83|-187.40|
82503300|NCT00202644|164698233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of anagrelide could be concluded if lower limit of 95% Confidence Interval for the difference between treatment groups (Hydroxyurea - Anagrelide) was \> -100 x 10\^9/Liter.|Least Square Mean|-68.3|STANDARD_ERROR_OF_MEAN|43.83|||TWO_SIDED|95.0|-154.95|18.43||||||Month 36||18.43|-154.95|
82626039|NCT01961089|164967816|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test|||||<|0.001|||||||Paired t-test|||P-value comparing WtW between IOLM and LS||||<0.001
82626040|NCT01961089|164967817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||ANOVA|||Repeatability was determined with random effect ANOVAs (estimates of random effects). They were calculated as the square root of the sum of the (Device x EyeID) interaction component plus (EyeID) and (Device) variance components plus the residual variance component. A (Device x Operator) interaction component was not assessed because each device was consistently operated by the same operator such that there was no Device x Operator interaction component. CV = Coefficient of Variation = SD/mean.||||0.05
82378326|NCT03762239|164465059|SUPERIORITY||Beta coefficient|0.022||||0.58|TWO_SIDED|95.0|-0.0595|0.1035|||Regression, Linear|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher Altruism behavior, relative to the classroom without air filter (normal air), in the Altruism measures among adolescents in high schools.||0.1035|-0.0595|0.58
82503301|NCT00861146|164698257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Chi-squared|df = 1||||||<.01
82503302|NCT00861146|164698258|SUPERIORITY_OR_OTHER_LEGACY||mixed model regression analyses (F)|2.04|||>|0.15|||||||mixed model regression analyses|||Drinking outcomes assessed using the timeline follow-back were evaluated with mixed model regression analyses using maximum likelihood estimation. Time was measured in three monthly periods and treated as a repeated factor (due to the fixed time period between estimates).||||> .15
82503303|NCT00861146|164698259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|df=1||||||<.001
82503304|NCT02981342|164698260|SUPERIORITY|||||||0.0495|||||||Cochran-Mantel-Haenszel|||||||0.0495
82503305|NCT02981342|164698260|SUPERIORITY|||||||0.023|||||||Cochran-Mantel-Haenszel|||||||0.0230
82503306|NCT02981342|164698261|SUPERIORITY|||||||0.0085|||||||Log Rank|||||||0.0085
82503307|NCT02981342|164698261|SUPERIORITY|||||||0.0123|||||||Log Rank|||||||0.0123
82503308|NCT02981342|164698262|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1
82503309|NCT02981342|164698262|SUPERIORITY|||||||0.3017|||||||Cochran-Mantel-Haenszel|||||||0.3017
82503310|NCT02981342|164698267|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1
82503311|NCT02981342|164698267|SUPERIORITY|||||||0.3017|||||||Cochran-Mantel-Haenszel|||||||0.3017
82503312|NCT02981342|164698269|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.1938|TWO_SIDED|95.0|0.782|3.272|||Log Rank|||||3.272|0.782|0.1938
82503313|NCT02981342|164698269|SUPERIORITY||Hazard Ratio (HR)|1.533||||0.2477|TWO_SIDED|95.0|0.746|3.15|||Log Rank|||||3.150|0.746|0.2477
82503314|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.74||0.383|TWO_SIDED|95.0|-0.84|2.13|||Mixed Models Analysis|||Pain at its Worst in Last 24 Hours||2.13|-0.84|0.383
82503315|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.79||0.692|TWO_SIDED|95.0|-1.91|1.28|||Mixed Models Analysis|||Pain at its Worst in Last 24 Hours||1.28|-1.91|0.692
82503316|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.66||0.469|TWO_SIDED|95.0|-0.85|1.8|||Mixed Models Analysis|||Pain at its Least in Last 24 Hours||1.80|-0.85|0.469
82503317|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.776|TWO_SIDED|95.0|-1.62|1.22|||Mixed Models Analysis|||Pain at its Least in Last 24 Hours||1.22|-1.62|0.776
82503318|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.7||0.328|TWO_SIDED|95.0|-0.72|2.11|||Mixed Models Analysis|||Pain on the Average||2.11|-0.72|0.328
82503319|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.74||0.954|TWO_SIDED|95.0|-1.45|1.54|||Mixed Models Analysis|||Pain on the Average||1.54|-1.45|0.954
82503320|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.8||0.35|TWO_SIDED|95.0|-0.85|2.36|||Mixed Models Analysis|||Pain Right Now||2.36|-0.85|0.350
82503321|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.85||0.405|TWO_SIDED|95.0|-1.01|2.44|||Mixed Models Analysis|||Pain right now.||2.44|-1.01|0.405
82503322|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.73||0.565|TWO_SIDED|95.0|-1.06|1.91|||Mixed Models Analysis|||Pain Interfered General Activity||1.91|-1.06|0.565
82503323|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.79||0.848|TWO_SIDED|95.0|-1.74|1.43|||Mixed Models Analysis|||Pain Interfered General Activity||1.43|-1.74|0.848
82503324|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.65||0.928|TWO_SIDED|95.0|-1.37|1.25|||Mixed Models Analysis|||Pain Interfered with Mood||1.25|-1.37|0.928
82503325|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.69||0.65|TWO_SIDED|95.0|-1.71|1.08|||Mixed Models Analysis|||Pain Interfered with Mood||1.08|-1.71|0.650
82503326|NCT02981342|164698271|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.86||0.865|TWO_SIDED|95.0|-1.89|1.6|||Mixed Models Analysis|||Pain Interfered Walking Ability||1.60|-1.89|0.865
82503327|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.92||0.497|TWO_SIDED|95.0|-1.23|2.5|||Mixed Models Analysis|||Pain Interfered Walking Ability||2.50|-1.23|0.497
82503328|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.89|STANDARD_ERROR_OF_MEAN|0.8||0.272|TWO_SIDED|95.0|-0.72|2.5|||Mixed Models Analysis|||Pain Interfered with Normal Work||2.50|-0.72|0.272
82503329|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.47|STANDARD_ERROR_OF_MEAN|0.85||0.583|TWO_SIDED|95.0|-1.25|2.19|||Mixed Models Analysis|||Pain Interfered with Normal Work||2.19|-1.25|0.583
82503330|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.82||0.876|TWO_SIDED|95.0|-1.53|1.79|||Mixed Models Analysis|||Pain Interfered with Relations||1.79|-1.53|0.876
82503331|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.88||0.644|TWO_SIDED|95.0|-1.37|2.19|||Mixed Models Analysis|||Pain Interfered with relations.||2.19|-1.37|0.644
82503332|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.85||0.384|TWO_SIDED|95.0|-0.97|2.48|||Mixed Models Analysis|||Pain Interfered with Sleep||2.48|-0.97|0.384
82503333|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.89||0.318|TWO_SIDED|95.0|-0.9|2.71|||Mixed Models Analysis|||||2.71|-0.90|0.318
82503334|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.97||0.407|TWO_SIDED|95.0|-1.15|2.78|||Mixed Models Analysis|||Pain Interfered Enjoyment of Life||2.78|-1.15|0.407
82503335|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.52|STANDARD_ERROR_OF_MEAN|1.04||0.62|TWO_SIDED|95.0|-1.58|2.62|||Mixed Models Analysis|||Pain Interfered Enjoyment of Life||2.62|-1.58|0.620
82626041|NCT01961089|164967818|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.13|||||||Paired t-test|||P-value comparing SimK between G6 and IOLM||||0.13
82503336|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.475|TWO_SIDED|95.0|-0.9|1.91|||Mixed Models Analysis|||BPI-Mean Interference Score||1.91|-0.90|0.475
82503337|NCT02981342|164698271|SUPERIORITY||LSMean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.74||0.54|TWO_SIDED|95.0|-1.04|1.96|||Mixed Models Analysis|||BPI-Mean Interference Score||1.96|-1.04|0.540
82503338|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-1.39|STANDARD_ERROR_OF_MEAN|5.98||0.818|TWO_SIDED|95.0|-13.46|10.68|||Mixed Models Analysis|||Global health status||10.68|-13.46|0.818
82503339|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-3.8|STANDARD_ERROR_OF_MEAN|6.06||0.533|TWO_SIDED|95.0|-16.03|8.42|||Mixed Models Analysis|||Global health status||8.42|-16.03|0.533
82503340|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-2.79|STANDARD_ERROR_OF_MEAN|6.75||0.681|TWO_SIDED|95.0|-16.4|10.82|||Mixed Models Analysis|||Functional Scales: Physical functioning||10.82|-16.40|0.681
82503341|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-9.02|STANDARD_ERROR_OF_MEAN|6.75||0.189|TWO_SIDED|95.0|-22.63|4.59|||Mixed Models Analysis|||Functional Scales: Physical functioning||4.59|-22.63|0.189
82503342|NCT02981342|164698272|SUPERIORITY||LSMean Difference|0.96|STANDARD_ERROR_OF_MEAN|9.54||0.921|TWO_SIDED|95.0|-18.29|20.21|||Mixed Models Analysis|||Functional Scales: Role functioning||20.21|-18.29|0.921
82503343|NCT02981342|164698272|SUPERIORITY||LSMean Difference|0.01|STANDARD_ERROR_OF_MEAN|9.62||0.999|TWO_SIDED|95.0|-19.4|19.42|||Mixed Models Analysis|||Functional Scales: Role functioning.||19.42|-19.40|0.999
82503344|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-4.26|STANDARD_ERROR_OF_MEAN|6.91||0.541|TWO_SIDED|95.0|-18.2|9.68|||Mixed Models Analysis|||Functional Scales: Emotional functioning||9.68|-18.20|0.541
82503345|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-6.95|STANDARD_ERROR_OF_MEAN|7.05||0.33|TWO_SIDED|95.0|-21.17|7.27|||Mixed Models Analysis|||Functional Scales: Emotional functioning||7.27|-21.17|0.330
82503346|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-2.04|STANDARD_ERROR_OF_MEAN|6.29||0.747|TWO_SIDED|95.0|-14.74|10.66|||Mixed Models Analysis|||Functional Scales: Cognitive Functioning||10.66|-14.74|0.747
82503347|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-5.25|STANDARD_ERROR_OF_MEAN|6.43||0.419|TWO_SIDED|95.0|-18.22|7.73|||Mixed Models Analysis|||Functional Scales: Cognitive functioning||7.73|-18.22|0.419
82503348|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-4.02|STANDARD_ERROR_OF_MEAN|7.53||0.596|TWO_SIDED|95.0|-19.23|11.19|||Mixed Models Analysis|||Functional Scales: Social functioning||11.19|-19.23|0.596
82503349|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-19.12|STANDARD_ERROR_OF_MEAN|7.71||0.017|TWO_SIDED|95.0|-34.68|-3.55|||Mixed Models Analysis|||Functional Scales: Social functioning||-3.55|-34.68|0.017
82503350|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-0.77|STANDARD_ERROR_OF_MEAN|7.57||0.919|TWO_SIDED|95.0|-16.03|14.49||Social Scales: Fatigue|Mixed Models Analysis|||Symptoms Scales: Fatigue||14.49|-16.03|0.919
82503351|NCT02981342|164698272|SUPERIORITY||LSMean Difference|8.48|STANDARD_ERROR_OF_MEAN|7.54||0.267|TWO_SIDED|95.0|-6.72|23.69|||Mixed Models Analysis|||Symptom Scales: Fatigue||23.69|-6.72|0.267
82503352|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-1.45|STANDARD_ERROR_OF_MEAN|8.54||0.866|TWO_SIDED|95.0|-18.66|15.77|||Mixed Models Analysis|||Symptom Scales: Nausea and Vomiting||15.77|-18.66|0.866
82503353|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-3.9|STANDARD_ERROR_OF_MEAN|8.59||0.652|TWO_SIDED|95.0|-21.23|13.43|||Mixed Models Analysis|||Symptom Scales: Nausea and Vomiting||13.43|-21.23|0.652
82503354|NCT02981342|164698272|SUPERIORITY||LSMean Difference|7.11|STANDARD_ERROR_OF_MEAN|8.67||0.417|TWO_SIDED|95.0|-10.39|24.6|||Mixed Models Analysis|||Symptom Scales: Pain||24.60|-10.39|0.417
82503355|NCT02981342|164698272|SUPERIORITY||LSMean Difference|4.36|STANDARD_ERROR_OF_MEAN|8.69||0.618|TWO_SIDED|95.0|-13.16|21.89|||Mixed Models Analysis|||Symptom Scales: Pain||21.89|-13.16|0.618
82503356|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-10.84|STANDARD_ERROR_OF_MEAN|8.44||0.206|TWO_SIDED|95.0|-27.85|6.18|||Mixed Models Analysis|||Symptom Scales: Dyspnoea||6.18|-27.85|0.206
82503357|NCT02981342|164698272|SUPERIORITY||LSMean Difference|4.86|STANDARD_ERROR_OF_MEAN|8.4||0.566|TWO_SIDED|95.0|-12.08|21.8|||Mixed Models Analysis|||Symptom Scales: Dyspnoea||21.80|-12.08|0.566
82503358|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-7.02|STANDARD_ERROR_OF_MEAN|7.93||0.38|TWO_SIDED|95.0|-23.01|8.96|||Mixed Models Analysis|||Symptom Scales: Insomnia||8.96|-23.01|0.380
82503359|NCT02981342|164698272|SUPERIORITY||LSMean Difference|1.52|STANDARD_ERROR_OF_MEAN|7.99||0.85|TWO_SIDED|95.0|-14.6|17.64|||Mixed Models Analysis|||Symptom Scales: Insomnia||17.64|-14.60|0.850
82503360|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-2.79|STANDARD_ERROR_OF_MEAN|8.91||0.756|TWO_SIDED|95.0|-20.78|15.21|||Mixed Models Analysis|||Symptom Scales: Appetite loss||15.21|-20.78|0.756
82503361|NCT02981342|164698272|SUPERIORITY||LSMean Difference|3.02|STANDARD_ERROR_OF_MEAN|9.31||0.747|TWO_SIDED|95.0|-15.77|21.82|||Mixed Models Analysis|||Symptom Scales: Appetite loss||21.82|-15.77|0.747
82503362|NCT02981342|164698272|SUPERIORITY||LSMean Difference|9.47|STANDARD_ERROR_OF_MEAN|9.23||0.311|TWO_SIDED|95.0|-9.16|28.09|||Mixed Models Analysis|||Symptom Scales: Constipation||28.09|-9.16|0.311
82503363|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-9.97|STANDARD_ERROR_OF_MEAN|9.3||0.29|TWO_SIDED|95.0|-28.75|8.8|||Mixed Models Analysis|||Symptom Scales: Constipation||8.80|-28.75|0.290
82503364|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-10.57|STANDARD_ERROR_OF_MEAN|10.58||0.323|TWO_SIDED|95.0|-31.93|10.78|||Mixed Models Analysis|||Symptom Scales: Diarrhoea||10.78|-31.93|0.323
82503365|NCT02981342|164698272|SUPERIORITY||LSMean Difference|-4.8|STANDARD_ERROR_OF_MEAN|10.54||0.651|TWO_SIDED|95.0|-26.08|16.48|||Mixed Models Analysis|||Symptom Scales: Diarrhoea||16.48|-26.08|0.651
82503366|NCT02981342|164698272|SUPERIORITY||LSMean Difference|1.51|STANDARD_ERROR_OF_MEAN|7.47||0.841|TWO_SIDED|95.0|-13.57|16.59|||Mixed Models Analysis|||Symptom Scales: Financial Difficulties||16.59|-13.57|0.841
82503367|NCT02981342|164698272|SUPERIORITY||LSMean Difference|7.26|STANDARD_ERROR_OF_MEAN|7.57||0.344|TWO_SIDED|95.0|-8.03|22.54|||Mixed Models Analysis|||Symptom Scales: Financial Difficulties||22.54|-8.03|0.344
82522929|NCT02460692|164741286|SUPERIORITY|||||||0.94||||||The average change of learning scores at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.94
82522930|NCT02460692|164741286|SUPERIORITY|||||||0.9||||||The average change of learning score at the treatment period (weeks 5-8) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||.90
82503368|NCT00587483|164698283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.427|TWO_SIDED|95.0|0.48|1.37||An alpha of 0.0167 was used to account for multiple comparisons among the 3 groups. Given the total of 3 comparisons, 0.05/3 = 0.0167 was used in the calculation.|Regression, Logistic|||The expected overall incidence of ventricular fibrillation after removal of the aortic clamp is at least 70%. Using a chi square analysis with 80% power and an alpha of 0.0167, we estimate that we will need 113 patients in each group to show a 30% reduction in the incidence of ventricular fibrillation with amiodarone.||1.37|0.48|0.427
82503369|NCT00587483|164698283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.117|TWO_SIDED|95.0|0.39|1.11|||Regression, Logistic|||||1.11|0.39|0.117
82503370|NCT00587483|164698283|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.433|TWO_SIDED|95.0|0.47|1.37|||Regression, Logistic|||||1.37|0.47|0.433
82503371|NCT00587483|164698284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.215|TWO_SIDED|95.0|0.45|1.19|||Regression, Logistic|||||1.19|0.45|0.215
82503372|NCT00587483|164698284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.008|TWO_SIDED|95.0|0.32|0.84|||Regression, Logistic|||||0.84|0.32|0.008
82503373|NCT00587483|164698284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.424|TWO_SIDED|95.0|0.52|1.33|||Regression, Logistic|||||1.33|0.52|0.424
82503374|NCT00469092|164698290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is shown if the upper limit of the 95% CI is less than 0.4%. Furthermore, superiority of BIAsp 30 OD over insulin glargine OD was shown if the upper limit of the 95% CI for the difference is lower than 0%. Equivalence is shown if the upper limit of the 95% CI for the difference is lower than 0.4% and the lower limit of the 95% CI is greater than -0.4%.|Mean Difference (Net)|-0.16||||0.029||95.0|-0.3|-0.02||P-value is for the test for difference in means equals 0 against the alternative that the difference is different from 0.|Regression, Linear|||HbA1c was compared between the treatment groups by fitting a linear regression model (ANCOVA) with treatment and country as factors and the baseline values as a continuous covariate. Mean and SE are estimated from the model.||-0.02|-0.30|0.029
82503375|NCT00469092|164698291|SUPERIORITY_OR_OTHER|||||||0.0059||95.0||||P-value for parallelism is overall test for parallel time profiles between treatment groups i.e. time by treatment group interaction effect.|Mixed Models Analysis|||The profiles were compared between the treatment groups by fitting a repeated measures mixed model including treatment, time, the treatment-by-time interaction and country as fixed effects, and subject as random effect.||||0.0059
82503376|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.914||||||95.0|0.57|1.47|||||The OR and 95% CI is for the HbA1c \<= 6.5% treatment target.|||1.47|0.57|
82503377|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||||95.0|0.67|1.54|||||The OR and 95% CI is for the HbA1c \< 7.0% treatment target.|||1.54|0.67|
82503378|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||||95.0|0.72|1.77|||||The OR and 95% CI is for the reduction more than 1.0% from baseline treatment target.|||1.77|0.72|
82503379|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.905||||||95.0|0.59|1.38|||||The OR and 95% CI is for the HbA1c \< 7% no nocturnal (00:00-06:00) hypoglycemia treatment target|||1.38|0.59|
82503380|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.181||||||95.0|0.74|1.87|||||The OR and 95% CI is for the HbA1c \< 7%, no daytime (06:01-23:59) hypoglycemia treatment target|||1.87|0.74|
82503381|NCT00469092|164698292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.122||||||95.0|0.69|1.82|||||The OR and 95% CI is for the HbA1c \< 7%, no hypoglycemia treatment target.|||1.82|0.69|
82503382|NCT00469092|164698293|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||||95.0|-2.4|2.48|||||The mean difference and 95% CI is for the burden score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.48|-2.40|
82503383|NCT00469092|164698293|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||||95.0|-3.56|3.11|||||The mean difference and 95% CI is for the efficacy score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||3.11|-3.56|
82503384|NCT00469092|164698293|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||||95.0|-3.14|2.35|||||The mean difference and 95% CI is for the symptoms score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|The Diab MedSat measure was scored as an overall score as well as three subscale scores. The scores were transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.35|-3.14|
82503385|NCT00469092|164698293|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||||95.0|-2.36|2.14|||Regression, Linear||The mean difference and 95% CI is for the overall score. The scores were compared between the treatment groups by fitting a linear regression model with treatment and country as factors and the baseline values as a continuous covariate.|Diab MedSat measure was scored as an overall score as well as three subscale scores, and transformed to a 0-100 scale with higher scores indicating greater satisfaction. The score of the subscales was computed as the mean of the items in each subscale. The overall score is the mean of all three subscales.||2.14|-2.36|
82522931|NCT02460692|164741287|SUPERIORITY|||||||0.93||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8 at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.93
82626042|NCT01961089|164967818|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.25|||||||Paired t-test|||P-value comparing SimK between G6 and LS||||0.25
82626043|NCT01961089|164967818|EQUIVALENCE|The significance of a difference in a measured parameter between two devices was assessed using a paired t-test||||||0.21|||||||Paired t-test|||P-value comparing SimK between IOLM and LS||||0.21
82503386|NCT01086540|164698308|SUPERIORITY||Median Difference (Final Values)|23.1|STANDARD_ERROR_OF_MEAN|14.71||0.12|TWO_SIDED||||||Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 24.|The null hypothesis was that the mean change in 6MWD between baseline and Week 24 does not differ between rituximab and placebo. A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 24.||||0.12
82503387|NCT01086540|164698309|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.71||0.42|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis|||A repeated measures mixed model was fit with PVR as the outcome and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.42
82503388|NCT01086540|164698310|SUPERIORITY||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|15.1||0.28|TWO_SIDED|||||Week 48 value. P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 48.||||0.28
82503389|NCT01086540|164698310|SUPERIORITY||Mean Difference (Final Values)|25.1|STANDARD_ERROR_OF_MEAN|11.5||0.031|TWO_SIDED|||||Week 24 value. P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 24.|A repeated measures random effect model was fit to model the distance walked as a function of treatment, visit week, a treatment by visit week interaction, and a quadratic visit term. A random slope and intercept were fit for each participant using a separate unstructured covariance matrix for each treatment group. The model included all available data up to Week 48.||||0.031
82503390|NCT01086540|164698311|SUPERIORITY|||||||0.92||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to clinical worsening were compared using a log-rank test.||||0.92
82503391|NCT01086540|164698312|SUPERIORITY|||||||0.36||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to change or addition of PAH medications were compared using a log-rank test.||||0.36
82503392|NCT01086540|164698313|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.7||0.81|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with the mental component score as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.81
82503393|NCT01086540|164698314|SUPERIORITY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|2.1||0.3|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with the physical component score as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.30
82503394|NCT01086540|164698315|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.58|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with HAQ-DI as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.58
82639435|NCT05664672|164993884|SUPERIORITY||Ratio of geometric LS means|113.0||||0.5112|TWO_SIDED|95.0|89.1|142.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric least squares means were calculated by transforming the natural-log LS means back to the linear scale. Est. para. is ratio of geometric LS means for natural-log (expressed as a percentage), natural-log transformed back to the linear scale.|||142|89.1|0.5112
82503395|NCT01086540|164698316|SUPERIORITY|||||||0.47||||||P-values not adjusted for multiple comparisons.|Regression, Linear|||A Poisson model was used to describe the rate of new digital ulcers (per week) as the outcome with treatment, number of digital ulcers at Baseline, and if the measurement was affected by changed or new PAH therapeutic agents as covariates.||||0.47
82503396|NCT01086540|164698317|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|5.7||0.43|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with severity of Raynaud's (0 to 100) as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.43
82503397|NCT01086540|164698318|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.8||0.65|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis||Estimate is for the difference (Rituximab - Placebo) at Week 48.|A repeated measures random effect model was fit with DLCO as the outcome, and treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.65
82503398|NCT01086540|164698320|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|9.7||0.42|TWO_SIDED|||||P-values not adjusted for multiple comparisons.|Mixed Models Analysis|||A repeated measures mixed model was fit with percent change in PVR as the outcome and baseline PVR, treatment, visit week (actual observed week), and their interaction as predictors. Random intercepts and slopes were fit for each participant using an unstructured covariance structure for each treatment group.||||0.42
82503399|NCT01086540|164698325|SUPERIORITY|||||||0.17||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to all-cause mortality were compared using a log-rank test.||||0.17
82503400|NCT01086540|164698326|SUPERIORITY|||||||0.35||||||P-values not adjusted for multiple comparisons.|Log Rank|||Kaplan-Meier curves for time to all-cause mortality were compared using a log-rank test.||||0.35
82503401|NCT03338855|164698440|SUPERIORITY||Least Square (LS) Mean Difference|-1.068|STANDARD_ERROR_OF_MEAN|1.014||0.3047|TWO_SIDED|95.0|-3.183|1.047|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta RD (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||1.047|-3.183|0.3047
82503402|NCT03338855|164698441|SUPERIORITY||LS Mean Difference|-1.705|STANDARD_ERROR_OF_MEAN|0.517||0.0036|TWO_SIDED|95.0|-2.784|-0.625|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta EGP (basal vs low insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.625|-2.784|0.0036
82503403|NCT03338855|164698441|SUPERIORITY||LS Mean Difference|-2.292|STANDARD_ERROR_OF_MEAN|0.409|<|0.0001|TWO_SIDED|95.0|-3.146|-1.438|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta EGP (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-1.438|-3.146|<0.0001
82503404|NCT03338855|164698442|SUPERIORITY||LS Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.009||0.1842|TWO_SIDED|95.0|-0.006|0.03|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of delta RER (basal vs high insulin) between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||0.030|-0.006|0.1842
82503405|NCT03338855|164698443|SUPERIORITY||LS Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.005||0.0001|TWO_SIDED|95.0|-0.033|-0.013|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of 24-hour RER between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.013|-0.033|0.0001
82503406|NCT03338855|164698444|SUPERIORITY||LS Mean Difference|-0.109|STANDARD_ERROR_OF_MEAN|0.065||0.1095|TWO_SIDED|95.0|-0.245|0.027|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of energy expenditure between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||0.027|-0.245|0.1095
82503407|NCT03338855|164698445|SUPERIORITY||LS Mean Difference|-246.7|STANDARD_ERROR_OF_MEAN|464.3||0.6005|TWO_SIDED|95.0|-1209.5|716.2|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of fat mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||716.2|-1209.5|0.6005
82563964|NCT00882050|164837148|SUPERIORITY|Demographic data analyzed with nominal data tested by chi-square, ordinal data by Mann-Whitney, and normal data by t-test. Further, a linear regression analysis to determine the effect of intervention dose on glucose level and typical confounders such as age, weight, and type of surgery was completed. Adverse and SAEs were analyzed by chi-square for occurrence.||||||0.05||||||Due to have 3 trial groups our p value was adjusted for multiple comparisons as a a priori threshold (if a single comparison) was 0.05.|Regression, Logistic|The regression (see above) is a secondary analysis. Groups had been stratified on diabetic (y/n) to balance this potential confounder||Primary t tests of glucose between the 3 groups at 90 minutes post. Secondary MANOVA to determine the effect over time. Change in mean glucose of 20 mg/dl between all groups detectable by 18 subjects per group assuming a SD of 20mg/dl., an 82% power with an alpha of 0.05. Because we tested interventions against the placebo arm, we increased our subjects to overcome loss of power. 23 per group will provide 80% power assuming a reduced alpha of 0.01 to accommodate the multiple testing issues.||||0.05
82563965|NCT00091572|164837165|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2663||95.0|0.8|1.06|||Log Rank||Temozolomide events (progressions/deaths) = 401. Dacarbazine events (progressions/deaths) = 398.|||1.06|0.80|0.2663
82563966|NCT00091572|164837166|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9999||95.0|0.86|1.17|||Log Rank||Temozolomide events (deaths) = 320. Dacarbazine events (deaths) = 325.|||1.17|0.86|0.9999
82563967|NCT00091572|164837167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.0718||95.0|0.97|2.12|||Cochran-Mantel-Haenszel||Temozolomide numerator (responders) = 55. Dacarbazine numerator (responders) = 37.|||2.12|0.97|0.0718
82503408|NCT03338855|164698445|SUPERIORITY||LS Mean Difference|-666.5|STANDARD_ERROR_OF_MEAN|301.1||0.0376|TWO_SIDED|95.0|-1291.0|-41.9|||Linear Mixed Effects Model|A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.||Comparison of lean mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-41.9|-1291.0|0.0376
82503409|NCT03338855|164698446|SUPERIORITY||LS Mean Difference|-1.256|STANDARD_ERROR_OF_MEAN|0.289||0.0003|TWO_SIDED|95.0|-1.854|-0.657|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of total mass between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||-0.657|-1.854|0.0003
82563968|NCT05356130|164837188|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||"We conducted the same two independent planned comparisons: Enhanced BLT Encouragement + Adherence Promotion compared to Minimal BLT Encouragement; Minimal BLT Encouragement and Enhanced BLT Encouragement + Adherence Promotion compared to TAU."||||0.014
82563969|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.61||||0.32|TWO_SIDED|95.0|0.23|1.61|||Generalized linear model, repeat measure|Generalized linear model (GLM) fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group arm, visit, interaction term (arm\*visit) and adjusting for visit 2 severe asthma exacerbation.|Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||1.61|0.23|0.32
82503410|NCT03338855|164698447|SUPERIORITY||LS Mean Difference|-244.301|STANDARD_ERROR_OF_MEAN|165.168||0.1555|TWO_SIDED|95.0|-590.002|101.401|||Linear Mixed Effects Model||A linear mixed model with treatment group, treatment sequence, and period as fixed effects and patient as random effect.|Comparison of FGF21 AUC between dapagliflozin and placebo after 5 weeks of treatment was performed using a random effects analysis of variance model.||101.401|-590.002|0.1555
82503411|NCT00455429|164698448|SUPERIORITY_OR_OTHER|||||||0.6|||||||Cochran-Mantel-Haenszel|||||||0.600
82503412|NCT00455429|164698448|SUPERIORITY_OR_OTHER|||||||0.822|||||||Cochran-Mantel-Haenszel|||||||0.822
82503413|NCT00455429|164698448|SUPERIORITY_OR_OTHER|||||||0.656|||||||Cochran-Mantel-Haenszel|||||||0.656
82503414|NCT00455429|164698449|SUPERIORITY_OR_OTHER||LS Mean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.63||0.427|TWO_SIDED|95.0|-9.7|2.9|||Dunnett-Hsu|||||2.90|-9.70|0.427
82503415|NCT00455429|164698449|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.55||0.922|TWO_SIDED|95.0|-7.37|4.82|||Dunnett-Hsu|||||4.82|-7.37|0.922
82503416|NCT00455429|164698449|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.24||0.919|TWO_SIDED|95.0|-6.49|4.21|||Dunnett-Hsu|||||4.21|-6.49|0.919
82503417|NCT00455429|164698450|SUPERIORITY_OR_OTHER||LS Mean difference|3.7|STANDARD_ERROR_OF_MEAN|8.15||0.941|TWO_SIDED|95.0|-15.83|23.18|||Dunnett-Hsu|||||23.18|-15.83|0.941
82503418|NCT00455429|164698450|SUPERIORITY_OR_OTHER||LS Mean Difference|14.2|STANDARD_ERROR_OF_MEAN|8.07||0.196|TWO_SIDED|95.0|-5.12|33.52|||Dunnett-Hsu|||||33.52|-5.12|0.196
82503419|NCT00455429|164698450|SUPERIORITY_OR_OTHER||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|7.08||0.096|TWO_SIDED|95.0|-2.0|31.86|||Dunnett-Hsu|||||31.86|-2.00|0.096
82503420|NCT00455429|164698451|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Logistic|||||||0.460
82503421|NCT00455429|164698451|SUPERIORITY_OR_OTHER|||||||0.479|||||||Regression, Logistic|||||||0.479
82503422|NCT00455429|164698451|SUPERIORITY_OR_OTHER|||||||0.462|||||||Regression, Logistic|||||||0.462
82503423|NCT00455429|164698452|SUPERIORITY_OR_OTHER|||||||0.363|||||||Regression, Logistic|||||||0.363
82503424|NCT00455429|164698452|SUPERIORITY_OR_OTHER|||||||0.968|||||||Regression, Logistic|||||||0.968
82503425|NCT00455429|164698452|SUPERIORITY_OR_OTHER|||||||0.501|||||||Regression, Logistic|||||||0.501
82503426|NCT00455429|164698453|SUPERIORITY_OR_OTHER|||||||0.333|||||||Regression, Logistic|||||||0.333
82503427|NCT00455429|164698453|SUPERIORITY_OR_OTHER|||||||0.527|||||||Regression, Logistic|||||||0.527
82503428|NCT00455429|164698453|SUPERIORITY_OR_OTHER|||||||0.353|||||||Regression, Logistic|||||||0.353
82503429|NCT00455429|164698454|SUPERIORITY_OR_OTHER|||||||0.631|||||||Regression, Logistic|||||||0.631
82503430|NCT00455429|164698454|SUPERIORITY_OR_OTHER|||||||0.523|||||||Regression, Logistic|||||||0.523
82503431|NCT00455429|164698454|SUPERIORITY_OR_OTHER|||||||0.101|||||||Regression, Logistic|||||||0.101
82503432|NCT00455429|164698455|SUPERIORITY_OR_OTHER|||||||0.429|||||||Regression, Logistic|||||||0.429
82503433|NCT00455429|164698455|SUPERIORITY_OR_OTHER|||||||0.206|||||||Regression, Logistic|||||||0.206
82503434|NCT00455429|164698455|SUPERIORITY_OR_OTHER|||||||0.107|||||||Regression, Logistic|||||||0.107
82503435|NCT00455429|164698456|SUPERIORITY_OR_OTHER|||||||0.097|||||||Regression, Logistic|||||||0.097
82503436|NCT00455429|164698456|SUPERIORITY_OR_OTHER|||||||0.077|||||||Regression, Logistic|||||||0.077
82503437|NCT00455429|164698456|SUPERIORITY_OR_OTHER|||||||0.489|||||||Regression, Logistic|||||||0.489
82503438|NCT00455429|164698457|SUPERIORITY_OR_OTHER|||||||0.566|||||||Regression, Logistic|||||||0.566
82503439|NCT00455429|164698457|SUPERIORITY_OR_OTHER|||||||0.382|||||||Regression, Logistic|||||||0.382
82503440|NCT00455429|164698457|SUPERIORITY_OR_OTHER|||||||0.282|||||||Regression, Logistic|||||||0.282
82503441|NCT00455429|164698458|SUPERIORITY_OR_OTHER|||||||0.206|||||||Regression, Logistic|||||||0.206
82503442|NCT00455429|164698458|SUPERIORITY_OR_OTHER|||||||0.433|||||||Regression, Logistic|||||||0.433
82503443|NCT00455429|164698458|SUPERIORITY_OR_OTHER|||||||0.29|||||||Regression, Logistic|||||||0.290
82503444|NCT00455429|164698459|SUPERIORITY_OR_OTHER|||||||0.484|||||||Regression, Logistic|||||||0.484
82503445|NCT00455429|164698459|SUPERIORITY_OR_OTHER|||||||0.952|||||||Regression, Logistic|||||||0.952
82503446|NCT00455429|164698459|SUPERIORITY_OR_OTHER|||||||0.35|||||||Regression, Logistic|||||||0.350
82503447|NCT01566461|164698479|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||z-test|||||||<0.001
82503448|NCT01566461|164698480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503449|NCT01566461|164698481|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503450|NCT01566461|164698482|SUPERIORITY_OR_OTHER|||||||0.926|TWO_SIDED||||||Chi-squared|||||||0.926
82503451|NCT01566461|164698483|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503452|NCT01566461|164698484|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503453|NCT01566461|164698485|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||t-test, 1 sided|||||||0.859
82503454|NCT01566461|164698486|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
82503455|NCT01566461|164698487|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED||||||Chi-squared|||||||0.096
82503456|NCT01566461|164698488|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503457|NCT01566461|164698489|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED||||||Chi-squared|||||||0.121
82503458|NCT01566461|164698490|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
82503459|NCT01566461|164698491|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82503460|NCT01566461|164698492|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||t-test, 1 sided|||||||0.095
82503461|NCT01566461|164698493|SUPERIORITY_OR_OTHER|||||||0.878|TWO_SIDED||||||t-test, 1 sided|||||||0.878
82503462|NCT01566461|164698494|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 1 sided|||||||0.590
82503463|NCT01566461|164698495|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED||||||Chi-squared|||||||0.302
82503464|NCT01566461|164698496|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED||||||Chi-squared|||||||0.111
82503465|NCT01566461|164698497|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Chi-squared|||||||0.103
82503466|NCT01566461|164698498|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||t-test, 1 sided|||||||0.049
82503467|NCT00657241|164698502|SUPERIORITY|All hemodynamic variables are continuous and all participants received both treatments, so paired-t analysis could be used. While paired t-tests do not necessarily require a power and sample size analysis, we estimated that 30 subjects were sufficient to detect an 8% difference in CTTI between comparators at p\<0.05 with a conservatively estimated power of 0.8.|||||<|0.05|||||||t-test, 2 sided|||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||<0.05
82503468|NCT00657241|164698504|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
82503469|NCT00657241|164698505|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|Paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
82503470|NCT00657241|164698506|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
82503471|NCT00657241|164698507|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|paired t-test||Statistical analysis performed on treatment groups (valsartan or carvedilol CR) at end of treatment period (4 weeks), not on the randomization arms in the crossover design (which controlled for carryover effects of the prior treatment arm).||||0.05
82503472|NCT03658538|164698513|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.025|TWO_SIDED|95.0|-8.2|-0.5||P-value corresponds to the statistical significance of the group difference (active vs. control) in the primary outcome, and was not adjusted for the multiple comparison and based on the a priori threshold for statistical significance (P\<0.05).|Generalized Linear Mixed Model (GLMM)|The analysis was adjusted for covariates.||||-0.5|-8.2|0.025
82503473|NCT03658538|164698514|SUPERIORITY|||||||0.061||||||P-value corresponds to the statistical significance of the group difference (active vs. control) in the primary outcome, and was not adjusted for the multiple comparison and based on the a priori threshold for statistical significance (P\<0.05).|Generalized Linear Mixed Model (GLMM)|The analysis was adjusted for covariates.||||||0.061
82503474|NCT03649711|164698539|OTHER|Post treatment values were compared using ANCOVA||||||0.002|||||||ANCOVA|||||||0.002
82503475|NCT03649711|164698539|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||mean changes in values were compared by Wilcoxon rank sum test adjusted for multiple comparisons (Bonferonni method) between CKD-ticagrelor arm, and the non-CKD controls||||0.18
82503476|NCT03649711|164698540|OTHER|||||||0.22|||||||ANCOVA|||CKD groups randomized were compared for post treatment values.||||0.22
82503477|NCT02921776|164698541|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
82503478|NCT02921776|164698542|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.55
82503479|NCT02921776|164698543|OTHER|||||||0.1|||||||Effect size|Effect size =-0.29||||||0.10
82503480|NCT02921776|164698543|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||.10
82503481|NCT02921776|164698544|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Benzodiazepine exposure||||0.02
82503482|NCT02921776|164698544|SUPERIORITY|||||||0.291|||||||Mixed Models Analysis|||Opioid Exposure||||0.291
82503483|NCT02921776|164698545|SUPERIORITY||Mean Difference (Final Values)|3.04||||0.38|TWO_SIDED||||||t-test, 2 sided|||||||0.38
82503484|NCT02921776|164698546|SUPERIORITY|||||||0.32|TWO_SIDED|95.0|||||Chi-squared|||||||0.32
82503485|NCT02921776|164698547|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.19|4.72|||Mixed Models Analysis|||||4.72|0.19|0.93
82503486|NCT02921776|164698548|SUPERIORITY||Mean Difference (Final Values)|10.6||||0.07|TWO_SIDED||||||t-test, 2 sided|||||||0.07
82503487|NCT02921776|164698550|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82503488|NCT02921776|164698551|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Baseline||||0.94
82503489|NCT02921776|164698551|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Patient Extubation or Discharge from ICU||||0.89
82503490|NCT02921776|164698551|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||1-Month||||0.38
82503491|NCT02921776|164698551|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||3-Month||||0.63
82503492|NCT02921776|164698551|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||.73
82503493|NCT02921776|164698552|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Baseline||||0.82
82503494|NCT02921776|164698552|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||Patient extubation or discharge from ICU||||0.84
82503495|NCT02921776|164698552|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||1-month||||0.96
82503496|NCT02921776|164698552|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||3-Month||||0.17
82503497|NCT02921776|164698552|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||.39
82503498|NCT02921776|164698553|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||1-month||||0.26
82503499|NCT02921776|164698553|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||3-month||||0.25
82503500|NCT02921776|164698553|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||6-month||||0.79
82503501|NCT02921776|164698561|SUPERIORITY||Odds Ratio (OR)|0.23||||0.05|TWO_SIDED|95.0|0.05|1.01|||t-test, 2 sided|||||1.01|0.05|0.05
82503502|NCT02921776|164698561|SUPERIORITY||Odds Ratio (OR)|0.27||||0.1|TWO_SIDED|95.0|0.06|1.3|||Regression, Linear|||Adjusted for baseline communication difficulty||1.30|0.06|0.10
82503503|NCT05247229|164698562|SUPERIORITY||Slope|0.37||||0.05|TWO_SIDED|95.0|0.0|0.73|||Chi-squared|||Q10 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.73|0.00|0.05
82503504|NCT05247229|164698562|SUPERIORITY||Slope|0.22||||0.36|TWO_SIDED|95.0|-0.25|0.7|||Chi-squared|||Q13 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.70|-0.25|0.36
82503505|NCT05247229|164698563|SUPERIORITY||Slope|-0.42||||0.12|TWO_SIDED|95.0|-0.96|0.11|||Chi-squared|||Q6 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.11|-0.96|0.12
82503506|NCT05247229|164698563|SUPERIORITY||Slope|0.41||||0.21|TWO_SIDED|95.0|-0.23|1.05|||Chi-squared|||Q7 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||1.05|-0.23|0.21
82503507|NCT05247229|164698563|SUPERIORITY||Slope|0.07||||0.78|TWO_SIDED|95.0|-0.41|0.54|||Chi-squared|||Q15 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.54|-0.41|0.78
82503508|NCT05247229|164698564|SUPERIORITY||Slope|0.51||||0.01|TWO_SIDED|95.0|0.16|0.86|||Chi-squared|||Q1 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.86|0.16|0.01
82503509|NCT05247229|164698564|SUPERIORITY||Slope|0.09||||0.67|TWO_SIDED|95.0|-0.34|0.52|||Chi-squared|||Q2 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.52|-0.34|0.67
82503510|NCT05247229|164698564|SUPERIORITY||Slope|0.13||||0.35|TWO_SIDED|95.0|-0.15|0.41|||Chi-squared|||Q3 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.41|-0.15|0.35
82503511|NCT05247229|164698564|SUPERIORITY||Slope|0.09||||0.73|TWO_SIDED|95.0|-0.43|0.61|||Chi-squared|||Q4 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.61|-0.43|0.73
82503512|NCT05247229|164698564|SUPERIORITY||Slope|0.2||||0.23|TWO_SIDED|95.0|-0.13|0.52|||Chi-squared|||Q5 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.52|-0.13|0.23
82503513|NCT05247229|164698564|SUPERIORITY||Slope|0.71||||0|TWO_SIDED|95.0|0.27|1.15|||Chi-squared|||Q9 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||1.15|0.27|0.00
82503514|NCT05247229|164698564|SUPERIORITY||Slope|0.37||||0.05|TWO_SIDED|95.0|0.0|0.73|||Chi-squared|||Q10 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.73|0.00|0.05
82503515|NCT05247229|164698564|SUPERIORITY||Slope|0.37||||0.1|TWO_SIDED|95.0|-0.07|0.82|||Chi-squared|||Q11 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.82|-0.07|0.10
82503516|NCT05247229|164698564|SUPERIORITY||Slope|0.3||||0.32|TWO_SIDED|95.0|-0.3|0.91|||Chi-squared|||Q12 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.91|-0.30|0.32
82503517|NCT05247229|164698564|SUPERIORITY||Slope|0.22||||0.36|TWO_SIDED|95.0|-0.25|0.7|||Chi-squared|||Q13 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.70|-0.25|0.36
82503518|NCT05247229|164698564|SUPERIORITY||Slope|0.35||||0.11|TWO_SIDED|95.0|-0.07|0.78|||Chi-squared|||Q14 Difference between pre- and post-program surveys from generalized estimating equation linear regressions accounting for clustering of longitudinal observations within person, adjusted associations and 95% confidence intervals.||0.78|-0.07|0.11
82522932|NCT02460692|164741287|SUPERIORITY|||||||0.92||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.92
82503519|NCT04318080|164698640|SUPERIORITY|Analysis tested whether ORR with tislelizumab was superior to a historical ORR of 45% using a one-sided binomial exact test (α = 0.05).|Z-test|2.62||||0.0044|TWO_SIDED|||||One-sided p-value based on a binomial exact test comparing observed ORR to historical rate of 45%.|Binomial Exact Test|||The primary analysis was conducted on both cohorts combined, A binomial exact test was performed to test the null hypothesis (H0: ORR = 45% based on previous clinical trials) and alternative hypothesis (ORR \>45%). If the one-sided p-value was ≤ 0.05, tislelizumab was considered to statistically significantly increase ORR compared to the historical control.||||0.0044
82503520|NCT04788953|164698731|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects tobit regression model (censored normal). Group (Solriamfetol, Placebo), visit (Baseline, End-of-Treatment), trial (1-4) main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||The statistical null hypothesis was that solriamfetol does not improve change in MWT scores versus placebo after 4 weeks of treatment (H0: µsol - µpl ≤ 0). Study was designed to have 97% power to detect a difference of 5.7 minutes or greater on MWT sleep latency (α=0.05, assumed σ=7.2) with 100 participants. Blinded interim power analysis on the baseline data conducted in October 2023 indicated the trial would have \>99% power to detect a similar difference with only 74 participants.||||<0.001
82503521|NCT04788953|164698732|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol, Placebo), visit (Baseline, End-of-Treatment), trial (1-4) main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||<0.001
82503522|NCT04788953|164698733|SUPERIORITY|||||||0.01||||||"Chi-squared tests performed on dichotomized CGI-Change data (Improved \[very much improved, much improved, minimally improved\] vs. Not Improved \[no change, minimally worse, much worse, very much worse\])."|Chi-squared|P-value is difference between groups.||||||0.01
82503523|NCT04788953|164698735|SUPERIORITY|Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.||||||0.02|||||||Mixed Models Analysis|P-value is difference between groups.||||||0.02
82503524|NCT04788953|164698736|SUPERIORITY|||||||0.64||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.64
82503525|NCT04788953|164698737|SUPERIORITY|||||||0.04||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.04
82503526|NCT04788953|164698738|SUPERIORITY|||||||0.61||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and Condition (Baseline vs. Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.61
82503527|NCT04788953|164698739|SUPERIORITY|||||||0.57||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and Condition (Baseline vs. Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||0.57
82503528|NCT04788953|164698740|SUPERIORITY||||||<|0.001||||||Change from baseline using mixed-effects linear regression model. Group (Solriamfetol vs. Placebo) and visit (Baseline vs. End-of-Treatment) as main factors and their interactions. Covariates considered: age, sex, ethnicity, race.|Mixed Models Analysis|P-value is difference between groups.||||||<0.001
82503529|NCT02278263|164698741|SUPERIORITY||||||<|0.05|||||||ANOVA|||Assuming a common standard deviation of 412 mL, to detect a difference of 300 mL of blood loss between the two treatment arms (sTXA and tTXA) and the placebo group, a sample size of 125 participants is required for a statistical power of 0.85, and a type I error of 0.05. The sample size required was 125 participants in total. The was increased by 15% to allow for expected dropouts. Therefore, a minimum of 147 patients was required for the study.||||<0.05
82503530|NCT01304966|164698768|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 1 sided|||||||0.013
82503531|NCT00531817|164698780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.85|||<|0.0001|TWO_SIDED|95.0|12.29|25.42||The p-value was not adjusted. The primary objective was a single comparison with an a priori threshold of 0.05 for statistical significance.|Fisher Exact|||Power calculation: Assuming placebo+DMARDs response rate of 15% and tocilizumab 8 mg/kg+DMARDs response rate of 28% based on previous trials, a sample size of 570 patients (2:1 ratio, tocilizumab+DMARDs n=380 and placebo+DMARDs n=190) will provide \> 90% power to detect a difference between 2 treatment arms with 5% Type I error with a 2-sided Fisher's exact test. Null Hypothesis: The percentage of patients responding in each treatment group (tocilizumab+DMARDs vs placebo+ DMARDs) is the same.||25.42|12.29|<0.0001
82503532|NCT00951808|164698843|SUPERIORITY_OR_OTHER||optimal threshold level of sPLA2|48.0|STANDARD_DEVIATION|5.0|||TWO_SIDED|95.0|38.0|58.0|||||The optimal threshold level (TL) was determined to be the same for all analysis groups.|The optimal threshold level (TL), determined via receiver operating characteristic (ROC) curve analysis, maximizes the difference between the true positive rate (TPR) and the false positive rate (FPR). Since there is no corresponding analytic standard deviation (SD) for this value, we computed a robust SD based upon the interquartile range (IQR)/1.35 from a bootstrap sample of optimal TLs.||58|38|
82503533|NCT00399360|164698880|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||||||0.37
82639436|NCT04095039|164993891|SUPERIORITY|||||||0.077||||||p-value is based on a sample that is less than 10% of the planned sample size (planned n=4,000)|Finkelstein-Schoenfeld method|||Primary outcome is for the individually randomized cohort since DSMB had concerns about selection bias for the cluster-randomized population due to differences in baseline characteristics that leaned towards the arm objectives.||||0.077
82503534|NCT00399360|164698881|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
82503535|NCT00399360|164698882|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.08
82503536|NCT00399360|164698883|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||||||0.13
82503537|NCT00399360|164698884|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
82503538|NCT00399360|164698885|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
82503539|NCT00399360|164698886|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||||||0.10
82503540|NCT00399360|164698887|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|||||||0.63
82503541|NCT00399360|164698888|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82503542|NCT00399360|164698889|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
82503543|NCT03194555|164698913|SUPERIORITY||Risk Difference (RD)|-2.17||||0.4267|TWO_SIDED|95.0|-3.67|8.01|||Chi-squared|||||8.01|-3.67|0.4267
82503544|NCT03194555|164698914|SUPERIORITY||Risk Difference (RD)|2.0||||0.268|TWO_SIDED|95.0|-18.46|66.83|||Chi-squared|||||66.83|-18.46|0.268
82503545|NCT03194555|164698915|SUPERIORITY||Risk Difference (RD)|3.0||||0.0926|TWO_SIDED|95.0|-17.2|67.4|||Chi-squared|||||67.4|-17.2|0.0926
82503546|NCT03194555|164698916|SUPERIORITY||Risk Difference (RD)|2.0||||0.2894|TWO_SIDED|95.0|-17.2|67.4|||Chi-squared|||||67.4|-17.2|0.2894
82503547|NCT03194555|164698917|SUPERIORITY||Risk Difference (RD)|-1.83||||0.5724|TWO_SIDED|95.0|-5.1557|8.8157|||Chi-squared|||||8.8157|-5.1557|0.5724
82639437|NCT01314261|164993942|SUPERIORITY_OR_OTHER|||||||0.336|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV subgenotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.336
82503548|NCT03194555|164698918|SUPERIORITY||Risk Difference (RD)|-9.84||||0.2998|TWO_SIDED|95.0|-11.15|30.83|||Chi-squared|||||30.83|-11.15|0.2998
82503549|NCT03194555|164698919|SUPERIORITY||Risk Difference (RD)|-11.67||||0.2673|TWO_SIDED||||||Chi-squared|||||||0.2673
82503550|NCT03194555|164698922|SUPERIORITY||Risk Difference (RD)|28.76||||0.3527|TWO_SIDED|95.0|-94.5005|36.9805|||Chi-squared|||||36.9805|-94.5005|0.3527
82503551|NCT03194555|164698923|SUPERIORITY||Risk Difference (RD)|-1.95||||0.5246|TWO_SIDED||||||Chi-squared|||||||0.5246
82503552|NCT03194555|164698925|SUPERIORITY||Risk Difference (RD)|0.34||||0.8649|TWO_SIDED||||||Chi-squared|||||||0.8649
82503553|NCT01831154|164698926|SUPERIORITY_OR_OTHER|||||||0.512|||||||Chi-squared|Chi-squared value of 1.34 and Cramer's V .190||Cross tabulation with statistical testing with chi-square and Cramer's V was performed on infection to determine if there was any difference in surgical site infections between the interventional groups in 30 day period.||||0.512
82503554|NCT01831154|164698927|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||||||0.024
82503555|NCT01831154|164698929|SUPERIORITY_OR_OTHER|||||||0.132|||||||ANOVA|||||||0.132
82503556|NCT01831154|164698930|SUPERIORITY_OR_OTHER|||||||0.908||||||A one way ANOVA was used to determine if participants in the tight glycemic group had shorter intensive care unit (ICU) length of stay (LOS) than participants in the other interventional groups.|ANOVA|||||||0.908
82503557|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066||||0.036|TWO_SIDED|95.0|0.004|0.127|||Mixed Models Analysis|||||0.127|0.004|0.036
82503558|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.331|TWO_SIDED|95.0|-0.03|0.09|||Mixed Models Analysis|||||0.090|-0.030|0.331
82503559|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.272|TWO_SIDED|95.0|-0.027|0.095|||Mixed Models Analysis|||||0.095|-0.027|0.272
82503560|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.005|TWO_SIDED|95.0|0.026|0.149|||Mixed Models Analysis|||||0.149|0.026|0.005
82503561|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.722|TWO_SIDED|95.0|-0.05|0.073|||Mixed Models Analysis|||||0.073|-0.050|0.722
82503562|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057||||0.076|TWO_SIDED|95.0|-0.006|0.119|||Mixed Models Analysis|||||0.119|-0.006|0.076
82503563|NCT01641692|164698933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051||||0.101|TWO_SIDED|95.0|-0.01|0.113|||Mixed Models Analysis|||||0.113|-0.010|0.101
82503564|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.1|1.7|||Mixed Models Analysis|||||1.7|-2.1|0.840
82503565|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.553|TWO_SIDED|95.0|-2.4|1.3|||Mixed Models Analysis|||||1.3|-2.4|0.553
82503566|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.121|TWO_SIDED|95.0|-0.4|3.3|||Mixed Models Analysis|||||3.3|-0.4|0.121
82503567|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.814|TWO_SIDED|95.0|-2.1|1.7|||Mixed Models Analysis|||||1.7|-2.1|0.814
82503568|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.683|TWO_SIDED|95.0|-1.5|2.3|||Mixed Models Analysis|||||2.3|-1.5|0.683
82503569|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.456|TWO_SIDED|95.0|-1.2|2.7|||Mixed Models Analysis|||||2.7|-1.2|0.456
82503570|NCT01641692|164698936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.399|TWO_SIDED|95.0|-2.7|1.1|||Mixed Models Analysis|||||1.1|-2.7|0.399
82503571|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.03|TWO_SIDED|95.0|0.2|3.2|||Mixed Models Analysis|||||3.2|0.2|0.030
82503572|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.077|TWO_SIDED|95.0|-0.1|2.8|||Mixed Models Analysis|||||2.8|-0.1|0.077
82503573|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.01|TWO_SIDED|95.0|0.5|3.5|||Mixed Models Analysis|||||3.5|0.5|0.010
82503574|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.002|TWO_SIDED|95.0|0.9|3.9|||Mixed Models Analysis|||||3.9|0.9|0.002
82503575|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.005|TWO_SIDED|95.0|0.7|3.7|||Mixed Models Analysis|||||3.7|0.7|0.005
82503576|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.001|TWO_SIDED|95.0|1.2|4.3|||Mixed Models Analysis|||||4.3|1.2|<0.001
82503577|NCT01641692|164698937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.054|TWO_SIDED|95.0|0.0|3.0|||Mixed Models Analysis|||||3.0|0.0|0.054
82503578|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.752|TWO_SIDED|95.0|-1.4|2.0|||Mixed Models Analysis|||||2.0|-1.4|0.752
82503579|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.072|TWO_SIDED|95.0|-0.1|3.2|||Mixed Models Analysis|||||3.2|-0.1|0.072
82503580|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.503|TWO_SIDED|95.0|-1.1|2.2|||Mixed Models Analysis|||||2.2|-1.1|0.503
82503581|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.476|TWO_SIDED|95.0|-1.1|2.3|||Mixed Models Analysis|||||2.3|-1.1|0.476
82503582|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.084|TWO_SIDED|95.0|-0.2|3.2|||Mixed Models Analysis|||||3.2|-0.2|0.084
82503583|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.97|TWO_SIDED|95.0|-1.8|1.7|||Mixed Models Analysis|||||1.7|-1.8|0.970
82503584|NCT01641692|164698938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.423|TWO_SIDED|95.0|-2.4|1.0|||Mixed Models Analysis|||||1.0|-2.4|0.423
82503585|NCT01412021|164698967|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503586|NCT01412021|164698968|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503587|NCT01412021|164698969|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503588|NCT01412021|164698970|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503589|NCT01412021|164698971|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503590|NCT01412021|164698973|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503591|NCT01412021|164698975|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503592|NCT01412021|164698976|SUPERIORITY||||||<|0.0001|||||||paired t-test|redundancy is not taken into consideration||||||< 0.0001
82503593|NCT01412021|164698977|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503594|NCT01412021|164698978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503595|NCT01412021|164698979|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503596|NCT01412021|164698980|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503597|NCT01412021|164698981|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503598|NCT01412021|164698982|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503599|NCT01412021|164698983|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503600|NCT01412021|164698984|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503601|NCT01412021|164698985|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503602|NCT01412021|164698987|SUPERIORITY|||||||0.0132|||||||paired t-test|||||||0.0132
82503603|NCT01412021|164698988|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503604|NCT01412021|164698989|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503605|NCT01412021|164698990|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503606|NCT01412021|164698991|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503607|NCT01412021|164698992|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503608|NCT01412021|164698993|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503609|NCT01412021|164698994|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503610|NCT01412021|164698995|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503611|NCT01412021|164698996|SUPERIORITY||||||<|0.0001|||||||paired t-test|||||||< 0.0001
82503612|NCT02448654|164699003|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.18
82503613|NCT02448654|164699004|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.03
82503614|NCT02448654|164699005|SUPERIORITY|||||||0.037||||||The a priori threshold for statistical significance was p\<0.05.|ANOVA|||||||0.037
82503615|NCT00484939|164699006|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
82503616|NCT00484939|164699007|SUPERIORITY_OR_OTHER|||||||0.029|||||||Fisher Exact|||This statistical analysis compared the number of responders in the 2 treatment groups. A responder was defined as any participant with a best overall response of complete response or partial response. There were 28 responders in the bevacizumab + capecitabine group and 14 responders in the capecitabine group.||||0.029
82503617|NCT00484939|164699010|SUPERIORITY_OR_OTHER|||||||0.13|||||||Log Rank|||||||0.130
82503618|NCT00449644|164699018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.77||||0.0034|TWO_SIDED|95.0|2.26|61.23|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||61.23|2.26|0.0034
82503619|NCT00449644|164699019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.57|3.8|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||3.80|1.57|<0.0001
82503620|NCT00449644|164699020|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.14||||0.0022|TWO_SIDED|95.0|1.51|6.53|||Cox-proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||||6.53|1.51|0.0022
82503621|NCT00449644|164699021|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.029|TWO_SIDED|95.0|1.05|2.59|||Cox proportional hazards model|Treatment, lung cavitation and pooled center were used as covaritates.||MGIT negative (Responders)||2.59|1.05|0.0290
82503622|NCT00449644|164699022|SUPERIORITY_OR_OTHER||Risk Difference (RD)|38.9|STANDARD_ERROR_OF_MEAN|12.38||0.003|TWO_SIDED|95.0|13.97|63.88|||Regression, Logistic|Treatment as covariate||Week 8||63.88|13.97|0.003
82503623|NCT00449644|164699022|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.7|STANDARD_ERROR_OF_MEAN|13.12||0.237|TWO_SIDED|95.0|-10.7|42.17|||Regression, Logistic|Treatment as covariate||Week 24||42.17|-10.70|0.237
82503624|NCT00449644|164699022|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.9|STANDARD_ERROR_OF_MEAN|15.02||0.5564|TWO_SIDED|95.0|-21.37|39.18|||Regression, Logistic|Treatment as covariate||Week 104 (Stage 1 Trial End)||39.18|-21.37|0.5564
82503625|NCT00449644|164699023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.2|STANDARD_ERROR_OF_MEAN|7.9||0.008|TWO_SIDED|95.0|5.59|36.83|||Regression, Logistic|Treatment as covariate||Week 24||36.83|5.59|0.008
82503626|NCT00449644|164699023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|STANDARD_ERROR_OF_MEAN|8.27||0.069|TWO_SIDED|95.0|-1.21|31.51|||Regression, Logistic|Treatment as covariate||Week 72||31.51|-1.21|0.069
82503627|NCT00449644|164699023|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.2|STANDARD_ERROR_OF_MEAN|8.54||0.035|TWO_SIDED|95.0|1.28|35.08|||Regression, Logistic|Treatment as covariate||Week 120||35.08|1.28|0.035
82503628|NCT00529542|164699024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.58|TWO_SIDED|95.0|-9.3|5.3||All hypotheses tests were two-sided.|Linear mixed-effects models|Linear mixed-effects models were fit to continuous outcomes to assess the change from baseline to 6 weeks between groups.|This analysis revealed that the required sample size was 235 subjects per group for 80% power to detect an absolute 2% increase in FMD with Atorvastatin vs. Placebo. We stopped the trial because we had insufficient funds for the required sample size.|This study was initiated as a pilot study with the goal of enrolling 19 women in each group, which we hypothesized would provide 80% power to detect an absolute difference in the change in FMD from baseline between the two groups (Atorvastatin vs. Placebo) of 3.75%, assuming a common standard deviation (SD) of 4%, using a two-sided, two-sample t-test with α=0.05. Recruitment was slow due to strict inclusion/ exclusion criteria so we analyzed our data after the first 20 women completed the study.||5.3|-9.3|0.58
82503629|NCT00529542|164699025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.39|TWO_SIDED|95.0|-0.9|2.3|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||2.3|-0.9|0.39
82503630|NCT00529542|164699026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-70.8|||<|0.001|TWO_SIDED|95.0|-95.2|-46.4|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-46.4|-95.2|<0.001
82503631|NCT00529542|164699027|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.6|||<|0.001|TWO_SIDED|95.0|-79.3|-35.9|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-35.9|-79.3|<0.001
82503632|NCT00529542|164699028|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4||||0.26|TWO_SIDED|95.0|-2.7|9.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||9.5|-2.7|0.26
82503633|NCT00529542|164699029|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-82.2|||<|0.001|TWO_SIDED|95.0|-126.2|-38.1|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-38.1|-126.2|<0.001
82503634|NCT00529542|164699030|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.45|TWO_SIDED|95.0|-12.4|5.8|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||5.8|-12.4|0.45
82503635|NCT00529542|164699031|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.33|TWO_SIDED|95.0|-2.8|7.9|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||7.9|-2.8|0.33
82503636|NCT00529542|164699032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|586.0||||0.61|TWO_SIDED|95.0|-1811.0|2983.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||2983|-1811|0.61
82503637|NCT00529542|164699033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3385.0||||0.07|TWO_SIDED|95.0|-287.0|7056.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||7056|-287|0.07
82503638|NCT00529542|164699034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.88|TWO_SIDED|95.0|-24.1|27.8|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||27.8|-24.1|0.88
82503639|NCT00529542|164699035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.6|-0.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-0.5|-1.6|<0.001
82503640|NCT00529542|164699036|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-364.3||||0.02|TWO_SIDED|95.0|-655.3|-73.2|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||-73.2|-655.3|0.02
82503641|NCT00529542|164699037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.21|TWO_SIDED|95.0|-6.4|1.5|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||1.5|-6.4|0.21
82503642|NCT00529542|164699038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9||||0.27|TWO_SIDED|95.0|-16.9|5.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||5.0|-16.9|0.27
82503643|NCT00529542|164699039|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.8||||0.05|TWO_SIDED|95.0|-15.8|0.1|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||0.1|-15.8|0.05
82503644|NCT00529542|164699040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.5||||0.48|TWO_SIDED|95.0|-6.8|13.7|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||13.7|-6.8|0.48
82503645|NCT00529542|164699041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.63|TWO_SIDED|95.0|-0.6|1.0|||Linear mixed-effects models|||"What is being compared for this analysis is the change from baseline for Atorvastatin to the change from baseline for Placebo."||1.0|-0.6|0.63
82503646|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.0164|TWO_SIDED||||||Regression, Logistic|||Treatment response and participant age||||0.0164
82503647|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Logistic|||Treatment response and presence of enthesitis at Visit 0||||0.0200
82503648|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.0867|TWO_SIDED||||||Regression, Logistic|||Treatment response and BASDAI score at Visit 0||||0.0867
82503649|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Regression, Logistic|||Remission and participant age||||0.0001
82503650|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.0734|TWO_SIDED||||||Regression, Logistic|||Remission and positive tuberculosis screening at Visit 0||||0.0734
82503651|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.0438|TWO_SIDED||||||Regression, Logistic|||Remission and male gender||||0.0438
82503652|NCT01474876|164699053|SUPERIORITY_OR_OTHER|||||||0.503|TWO_SIDED||||||Regression, Logistic|||Remission and BASDAI score at Visit 0||||0.5030
82503653|NCT01474876|164699062|SUPERIORITY_OR_OTHER|||||||0.0576|TWO_SIDED||||||Regression, Logistic|||Treatment response and presence of enthesitis at Visit 0||||0.0576
82503654|NCT01474876|164699062|SUPERIORITY_OR_OTHER|||||||0.1739|TWO_SIDED||||||Regression, Logistic|||Treatment response and BASDAI score at Visit 0||||0.1739
82503655|NCT01474876|164699062|SUPERIORITY_OR_OTHER|||||||0.0733|TWO_SIDED||||||Regression, Logistic|||Remission and Psoriasis at Visit 0||||0.0733
82503656|NCT01474876|164699062|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Regression, Logistic|||Remission and BASDAI at Visit 0||||0.5000
82503657|NCT04035161|164699100|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.15|0.16||||||"Abdomen at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the abdomen at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.16|-0.15|
82503658|NCT04035161|164699100|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|-0.24|||||TWO_SIDED|95.0|-0.43|-0.05||||||"Groin at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the groin at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||-0.05|-0.43|
82503659|NCT04035161|164699100|SUPERIORITY||Mean Difference (Final Values)|1.82|||||TWO_SIDED|95.0|1.66|1.97||||||"Abdomen at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the abdomen at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||1.97|1.66|
82503660|NCT04035161|164699100|SUPERIORITY||Mean Difference (Final Values)|2.38|||||TWO_SIDED|95.0|2.19|2.56||||||"Groin at 10 minutes post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the groin at 10 minutes post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||2.56|2.19|
82503661|NCT04035161|164699103|NON_INFERIORITY|A non-inferiority criterion with a 0.5 log10 margin will be implemented for the average treatment effect (ATE) of the Investigational Product compared to the Active Control (i.e., the upper two-sided 95% confidence bound of the post-product application bacterial load corrected for pre-product application bacterial load of the Investigational Product - Active Control should be less than 0.5 log10).|Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.08|0.23||||||"Abdomen at 30 seconds post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Active Control on the abdomen at 30 seconds post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.23|-0.08|
82503662|NCT04035161|164699103|SUPERIORITY||Mean Difference (Final Values)|1.99|||||TWO_SIDED|95.0|1.84|2.15||||||"Abdomen at 30 seconds post-product application.~Average treatment effect (ATE) of the Investigational Product compared to the Negative Control on the abdomen at 30 seconds post-product application. ATE was calculated using a linear regression model for each body site used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||2.15|1.84|
82503663|NCT02226003|164699175|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.49|-0.84|||Constrained Longitudinal Data Analysis|||||-0.84|-1.49|< 0.001
82503664|NCT02226003|164699175|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.24|||<|0.001|TWO_SIDED|95.0|-1.57|-0.91|||Constrained Longitudinal Data Analysis|||||-0.91|-1.57|< 0.001
82503665|NCT02226003|164699176|SUPERIORITY_OR_OTHER||Difference in Percentage vs Placebo|2.6|||||TWO_SIDED|95.0|-11.2|16.4||||||||16.4|-11.2|
82503666|NCT02226003|164699176|SUPERIORITY_OR_OTHER||Difference in Percentage vs Placebo|2.5|||||TWO_SIDED|95.0|-11.4|16.4||||||||16.4|-11.4|
82503667|NCT02226003|164699178|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-38.94|||<|0.001|TWO_SIDED|95.0|-49.93|-27.96|||Constrained Longitudinal Data Analysis|||||-27.96|-49.93|< 0.001
82503668|NCT02226003|164699178|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-46.05|||<|0.001|TWO_SIDED|95.0|-57.09|-35.02|||Constrained Longitudinal Data Analysis|||||-35.02|-57.09|< 0.001
82503669|NCT02226003|164699179|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-62.42|||<|0.001|TWO_SIDED|95.0|-80.47|-44.37|||Constrained Longitudinal Data Analysis|||||-44.37|-80.47|< 0.001
82503670|NCT02226003|164699179|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-69.65|||<|0.001|TWO_SIDED|95.0|-87.83|-51.46|||Constrained Longitudinal Data Analysis|||||-51.46|-87.83|< 0.001
82503671|NCT02226003|164699180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.88|||<|0.001|TWO_SIDED|95.0|2.81|16.83|||Logistic regression model|||||16.83|2.81|< 0.001
82503672|NCT02226003|164699180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.39|||<|0.001|TWO_SIDED|95.0|2.98|18.31|||Logistic regression model|||||18.31|2.98|< 0.001
82503673|NCT02226003|164699181|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.0|||<|0.001|TWO_SIDED|95.0|-2.99|-1.01|||Constrained Longitudinal Data Analysis|||||-1.01|-2.99|< 0.001
82503674|NCT02226003|164699181|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.1|||<|0.001|TWO_SIDED|95.0|-3.1|-1.11|||Constrained Longitudinal Data Analysis|||||-1.11|-3.10|< 0.001
82503675|NCT02226003|164699182|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-4.44||||0.011|TWO_SIDED|95.0|-7.87|-1.01|||Constrained Longitudinal Data Analysis|||||-1.01|-7.87|0.011
82503676|NCT02226003|164699182|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-6.39|||<|0.001|TWO_SIDED|95.0|-9.83|-2.95|||Constrained Longitudinal Data Analysis|||||-2.95|-9.83|< 0.001
82503677|NCT02226003|164699183|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.65||||0.184|TWO_SIDED|95.0|-4.09|0.79|||Constrained Longitudinal Data Analysis|||||0.79|-4.09|0.184
82503678|NCT02226003|164699183|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-2.18||||0.08|TWO_SIDED|95.0|-4.62|0.26|||Constrained Longitudinal Data Analysis|||||0.26|-4.62|0.080
82503679|NCT02467465|164699185|SUPERIORITY|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||||||0.175
82503680|NCT02467465|164699186|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.250
82503681|NCT02467465|164699187|SUPERIORITY|||||||0.466|||||||Wilcoxon (Mann-Whitney)|||||||0.466
82503682|NCT02467465|164699189|SUPERIORITY|||||||0.737|||||||Wilcoxon (Mann-Whitney)|||||||0.737
82503683|NCT02467465|164699190|SUPERIORITY|||||||0.275|||||||Wilcoxon (Mann-Whitney)|||||||0.275
82503684|NCT02467465|164699191|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
82503685|NCT02467465|164699193|SUPERIORITY|||||||0.849|||||||Wilcoxon (Mann-Whitney)|||||||0.849
82503686|NCT02467465|164699194|SUPERIORITY|||||||0.425|||||||Wilcoxon (Mann-Whitney)|||||||0.425
82503687|NCT02467465|164699195|SUPERIORITY|||||||0.487|||||||Wilcoxon (Mann-Whitney)|||||||0.487
82503688|NCT02467465|164699197|SUPERIORITY|||||||0.651|||||||t-test, 1 sided|||||||0.651
82503689|NCT02467465|164699198|SUPERIORITY|||||||0.387|||||||t-test, 1 sided|||||||0.387
82503690|NCT02467465|164699199|SUPERIORITY|||||||0.755|||||||t-test, 1 sided|||||||0.755
82503691|NCT02467465|164699201|SUPERIORITY|||||||0.032|||||||t-test, 1 sided|||||||0.032
82503692|NCT02467465|164699202|SUPERIORITY|||||||0.058|||||||t-test, 1 sided|||||||0.058
82503693|NCT02467465|164699203|SUPERIORITY|||||||0.279|||||||t-test, 1 sided|||||||0.279
82503694|NCT01499563|164699204|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.4||0.017|TWO_SIDED|95.0|-11.1|-0.4|||Mixed Effects model for Repeated Measure||95% CI for LS Mean difference are with Bonferroni correction|The study was powered for prespecified comparison of both doses of ITI-007 with placebo using a Bonferroni correction for multiple comparisons. The study was not statistically powered to include multiple comparisons of risperidone to placebo and thus, this comparison is not presented here.||-0.4|-11.1|0.017
82503695|NCT01499563|164699204|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|2.4||0.708|TWO_SIDED|95.0|-6.3|4.5|||Mixed Effects Model for Repeated Measure||95% CI for LS Mean difference are with Bonferroni correction|The study was powered for prespecified comparison of both doses of ITI-007 with placebo using a Bonferroni correction for multiple comparisons. The study was not statistically powered to include multiple comparisons of risperidone to placebo and thus, this comparison is not presented here.||4.5|-6.3|0.708
82503696|NCT04262232|164699228|SUPERIORITY||Mean Difference (Net)|-1.8||||0.0001|TWO_SIDED|95.0|-2.6|-0.95|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||-0.95|-2.6|0.0001
82503697|NCT04262232|164699229|SUPERIORITY||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|1.17|1.63|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||1.63|1.17|<0.0001
82503698|NCT04262232|164699231|SUPERIORITY||Mean Difference (Net)|-2.8||||0.01|TWO_SIDED|95.0|-4.99|-0.61|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||-0.61|-4.99|0.01
82503699|NCT04262232|164699233|SUPERIORITY||Mean Difference (Net)|0.5||||0.51|TWO_SIDED|95.0|-1.02|2.02|||Paired t-test, two-sided||Baseline value minus two weeks post-intervention value.|||2.02|-1.02|0.51
82503700|NCT01975909|164699234|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of SARA (i.e., greater percent decrease of SARA score from baseline) as compared to the sham TMS.||||||0.29|||||||t-test, 2 sided|||||||0.29
82503701|NCT01975909|164699235|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 25-foot walking test (i.e., greater percent increase of walking speed from baseline) as compared to the sham TMS.||||||0.47|||||||t-test, 2 sided|||||||0.47
82503702|NCT01975909|164699236|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 9-hole peg test (i.e., greater percent decrease of time to complete the test from baseline) as compared to the sham TMS.||||||0.12|||||||t-test, 2 sided|||||||0.12
82503703|NCT01975909|164699237|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of 90-second walking test (i.e., greater percent increase of walking speed from baseline) as compared to the sham TMS.||||||0.69|||||||t-test, 2 sided|||||||0.69
82503704|NCT01975909|164699238|EQUIVALENCE|We hypothesized that the real TMS would improve the standing postural control stability (i.e., greater percent decrease increase of postural sway speed from baseline) as compared to the sham TMS.||||||0.009|||||||t-test, 2 sided|||||||0.009
82503705|NCT01975909|164699239|EQUIVALENCE|We hypothesized that the real TMS would improve the performance of TUG test (i.e., greater percent decrease of time to complete TUG test from baseline) as compared to the sham TMS.||||||0.18|||||||t-test, 2 sided|||||||0.18
82503706|NCT05027438|164699266|SUPERIORITY||Mean Difference (Net)|-7.58|STANDARD_DEVIATION|5.19|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 1.42 (large \>=0.35)|||<0.001
82503707|NCT05027438|164699266|SUPERIORITY||Mean Difference (Net)|-7.06|STANDARD_DEVIATION|4.4|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 1.54 (large \>=0.35)|||<0.001
82503708|NCT05027438|164699267|SUPERIORITY||Mean Difference (Net)|58.55|STANDARD_DEVIATION|43.98||0.004|TWO_SIDED|||||Bonferroni correction|Friedman test|||% change in medication dose from baseline to post-treatment||||0.004
82503709|NCT05027438|164699267|SUPERIORITY||Mean Difference (Net)|62.26|STANDARD_DEVIATION|54.93||0.005|TWO_SIDED|||||Bonferroni correction|Friedman test|||% change in medication dose from baseline to 3-month follow-up||||0.005
82503710|NCT05027438|164699268|SUPERIORITY||Proportion (%)|31.8||||0.052|TWO_SIDED||||||Cochran's Q test|Bonferroni correction||baseline to post-treatment||||0.052
82503711|NCT05027438|164699268|SUPERIORITY||Proportion (%)|60.0|||<|0.001|TWO_SIDED||||||Cochran's Q test|Bonferroni correction||baseline to 3-month follow-up||||<0.001
82503712|NCT05027438|164699269|SUPERIORITY||Mean Difference (Net)|-16.67|STANDARD_DEVIATION|20.57|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 0.54 (large \>=0.35)|||<0.001
82503713|NCT05027438|164699269|SUPERIORITY||Mean Difference (Net)|-17.11|STANDARD_DEVIATION|22.11|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 0.47 (large \>=0.35)|||<0.001
82503714|NCT05027438|164699270|SUPERIORITY||Mean Difference (Net)|-6.24|STANDARD_DEVIATION|20.34||0.101|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates reduction of symptoms)|baseline to post-treatment|effect size (f2) = 0.10 (small \>=0.02)|||0.101
82503715|NCT05027438|164699270|SUPERIORITY||Mean Difference (Net)|-10.34|STANDARD_DEVIATION|18.28|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates reduction of symptoms)|baseline to 3-month follow-up|effect size (f2) = 0.34 (medium; large \>=0.35)|||<0.001
82503716|NCT05027438|164699271|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_DEVIATION|6.0|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (positive value indicates improvement)|baseline to post-treatment|effect size (f2) = 0.87 (large \>=0.35)|||<0.001
82503717|NCT05027438|164699271|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_DEVIATION|6.0|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (positive value indicates improvement)|baseline to 3-month follow-up|effect size (f2) = 0.96 (large \>=0.35)|||<0.001
82503718|NCT05027438|164699272|SUPERIORITY||Mean Difference (Net)|-7.48|STANDARD_DEVIATION|6.08|<|0.001|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (negative value indicates improvement)|Sleep Disturbance - higher scores indicate more sleep disturbance. The T-score rescales the raw score into a standardized T-score with a mean of 50 and a standard deviation (SD) of 10.|effect size (f2) = 1.14 (large \>=0.35)|||<0.001
82503719|NCT05027438|164699272|SUPERIORITY||Mean Difference (Net)|-7.82|STANDARD_DEVIATION|5.62|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (negative value indicates improvement)|Sleep Disturbance - higher scores indicate more sleep disturbance. The T-score rescales the raw score into a standardized T-score with a mean of 50 and a standard deviation (SD) of 10.|effect size (f2) = 1.21 (large \>=0.35)|||<0.001
82503720|NCT05027438|164699273|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_DEVIATION|0.21||0.22|TWO_SIDED||||||Mixed Models Analysis||post-treatment - baseline (positive value indicates improvement)||effect size (f2) = 0.18 (medium \>=0.15)|||0.22
82503721|NCT05027438|164699273|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.12|<|0.001|TWO_SIDED||||||Mixed Models Analysis||3-month follow-up - baseline (positive value indicates improvement)||effect size (f2) = 1.99 (large \>=0.35)|||<0.001
82503722|NCT01921179|164699274|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on neurocognitive performance Attention and Executive Function Overall Domain Z Score|||||<|0.01|||||||ANOVA|||||||<0.01
82503723|NCT01921179|164699275|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare neurocognitive performance on Overall Attention /Executive Function overall score at baseline and at 6+ month post-GOALS training follow-up|||||<|0.001|||||||ANOVA|Repeated measure MANOVA was used to compare performance on neurocognitive domain scores at baseline and at 6+ month follow-up post-GOALS training||||||<0.001
82503724|NCT01921179|164699276|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on functional performance|||||>|0.05|||||||ANOVA|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on functional performance||||||>0.05
82503725|NCT01921179|164699277|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare performance on Goal Processing Scale Overall domain scores at baseline and 6+ month post-GOALS training follow-up|||||<|0.001|||||||ANOVA|||||||<0.001
82503726|NCT01921179|164699278|EQUIVALENCE|A repeated measures MANOVA was used to compare the impact of GOALS training versus the BHE training on emotional regulation measures - POMS Total score|||||<|0.05|||||||ANOVA|A repeated measures MANOVA was used to compare the impact of GOALS versus the BHE training on emotional regulation measures - POMS Total score||||||<0.05
82503727|NCT01921179|164699279|EQUIVALENCE|A repeated measure multivariate analysis of variance (MANOVA) was used to compare participants' self-report on POMS Total Mood Disturbance overall score at baseline and 6+ month post-GOALS training follow-up|||||<|0.01|||||||ANOVA|||||||<0.01
82503728|NCT01190254|164699282|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-4.8||||0.07|TWO_SIDED|95.0|-9.9|0.4||p-value is adjusted by Hochberg's method for testing two asenapine groups versus the placebo group|Mixed Model for Repeated Measures (MMRM)|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.4|-9.9|0.070
82503729|NCT01190254|164699282|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.6||||0.064|TWO_SIDED|95.0|-10.7|-0.5||p-value is adjusted by Hochberg's method for testing two asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.5|-10.7|0.064
82503730|NCT01190254|164699282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||||||p-value (adjusted to control Type I error in multiple testing) for Linear dose-response pattern (Placebo\<2.5 mg\<5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.064
82503731|NCT01190254|164699282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||||||p-value (adjusted to control Type I error in multiple testing) for Convex dose-response pattern (Placebo\<2.5 mg=5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.046
82503732|NCT01190254|164699282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||||||p-value (adjusted to control Type I error in multiple testing) for Concave dose-response pattern (Placebo=2.5 mg\<5.0 mg)|MMRM|||Investigation of dose-response relationship of change from baseline to Day 56 in PANSS Total Score was a Secondary study endpoint. Multiple contrast testing using MMRM model was used to evaluate 3 pre-defined dose-response patterns (Linear, Convex, Concave)||||0.273
82503733|NCT01190254|164699283|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.2||||0.218|TWO_SIDED|95.0|-0.5|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Confirmative testing for the key secondary endpoint was to be performed only if both asenapine doses were superior to placebo in change from baseline in PANSS total score at Day 56 (hypotheses associated with Primary outcome measure). If this did not occur, no confirmative testing could be performed and multiplicity unadjusted p-values are provided. Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-0.5|0.218
82503734|NCT01190254|164699283|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.3||||0.024||95.0|-0.6|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Confirmative testing for the key secondary endpoint was to be performed only if both asenapine doses were superior to placebo in change from baseline in PANSS total score at Day 56 (hypotheses associated with Primary outcome measure). If this did not occur, no confirmative testing could be performed and multiplicity unadjusted p-values are provided. Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.0|-0.6|0.024
82503735|NCT01190254|164699284|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.6||||0.067|TWO_SIDED|95.0|-3.3|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-3.3|0.067
82503736|NCT01190254|164699284|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.1||||0.012|TWO_SIDED|95.0|-3.8|-0.5|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.5|-3.8|0.012
82503737|NCT01190254|164699285|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.097|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.097
82503738|NCT01190254|164699285|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.099|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.099
82503739|NCT01190254|164699286|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.7||||0.062|TWO_SIDED|95.0|-5.6|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-5.6|0.062
82503740|NCT01190254|164699286|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-3.2||||0.025|TWO_SIDED|95.0|-6.0|-0.4|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.4|-6.0|0.025
82503741|NCT01190254|164699287|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.1||||0.098|TWO_SIDED|95.0|-4.6|0.4|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.4|-4.6|0.098
82503742|NCT01190254|164699287|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.3||||0.071|TWO_SIDED|95.0|-4.8|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-4.8|0.071
82503743|NCT01190254|164699288|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.4||||0.106|TWO_SIDED|95.0|-3.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-3.1|0.106
82503744|NCT01190254|164699288|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.9||||0.026|TWO_SIDED|95.0|-3.6|-0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.2|-3.6|0.026
82503745|NCT01190254|164699289|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.2||||0.083|TWO_SIDED|95.0|-2.6|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-2.6|0.083
82503746|NCT01190254|164699289|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.3||||0.067|TWO_SIDED|95.0|-2.7|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-2.7|0.067
82503747|NCT01190254|164699290|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.131|TWO_SIDED|95.0|-2.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-2.1|0.131
82503748|NCT01190254|164699290|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.135|TWO_SIDED|95.0|-2.1|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-2.1|0.135
82503749|NCT01190254|164699291|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.0||||0.071|TWO_SIDED|95.0|-2.0|0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.1|-2.0|0.071
82503750|NCT01190254|164699291|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.8||||0.12|TWO_SIDED|95.0|-1.9|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-1.9|0.120
82503751|NCT01190254|164699292|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.4||||0.263|TWO_SIDED|95.0|-1.2|0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.3|-1.2|0.263
82503752|NCT01190254|164699292|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.5||||0.146|TWO_SIDED|95.0|-1.3|0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.2|-1.3|0.146
82503753|NCT01190254|164699293|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.028|TWO_SIDED|95.0|1.1|3.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of (pooled) site, treatment, and baseline PANSS Total Score|OR was adjusted for baseline and (pooled) site. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total PANSS 30% response|||3.6|1.1|0.028
82503754|NCT01190254|164699293|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.048|TWO_SIDED|95.0|1.0|3.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of (pooled) site, treatment, and baseline PANSS Total Score|OR was adjusted for baseline and (pooled) site. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total PANSS 30% response|||3.3|1.0|0.048
82503755|NCT01190254|164699294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.576||||||p-value is for Log Rank test of difference in time to event (PANSS 30% response) curves between the three treatment groups|Log Rank|||||||0.576
82503756|NCT01190254|164699294|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3||||0.171|TWO_SIDED|95.0|0.9|2.0|||Regression, Cox|Model included factors for (pooled) site, treatment and baseline PANSS Total Score|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a Total PANSS 30% Responder than placebo|||2.0|0.9|0.171
82503757|NCT01190254|164699294|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2||||0.368|TWO_SIDED|95.0|0.8|1.8|||Regression, Cox|Model included factors for (pooled) site, treatment and baseline PANSS Total Score|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a Total PANSS 30% Responder than placebo|||1.8|0.8|0.368
82503758|NCT01190254|164699295|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.3||||0.094|TWO_SIDED|95.0|-0.6|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, and the interaction of visit by treatment|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||0.0|-0.6|0.094
82503759|NCT01190254|164699295|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.5||||0.003|TWO_SIDED|95.0|-0.8|-0.2|||MMRM|Model included terms of (pooled) site, treatment, visit, and the interaction of visit by treatment|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||-0.2|-0.8|0.003
82503760|NCT01190254|164699296|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||0.177|TWO_SIDED|95.0|0.8|2.8||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of region (Asia-Pacific, North America, Eastern Europe \[Africa/Latin America sites assigned to this region\]) and treatment|OR was adjusted for region. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving CGI-I response|||2.8|0.8|0.177
82503761|NCT01190254|164699296|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.114|TWO_SIDED|95.0|0.9|2.9||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of region (Asia-Pacific, North America, Eastern Europe \[Africa/Latin America sites assigned to this region\]) and treatment|OR was adjusted for region. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving CGI-I response|||2.9|0.9|0.114
82503762|NCT01190254|164699297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||||||p-value is for Log Rank test of difference in time to event (CGI-I response) curves between the three treatment groups|Log Rank|||||||0.057
82503763|NCT01190254|164699297|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.4||||0.135|TWO_SIDED|95.0|0.9|2.3|||Regression, Cox|Model included factors for (pooled) site and treatment|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a CGI-I Responder than placebo|||2.3|0.9|0.135
82503764|NCT01190254|164699297|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.8||||0.01|TWO_SIDED|95.0|1.2|2.9|||Regression, Cox|Model included factors for (pooled) site and treatment|An HR of \>1 is considered to mean that asenapine has a higher likelihood of being a CGI-I Responder than placebo|||2.9|1.2|0.010
82503765|NCT01190254|164699298|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.4||||0.417|TWO_SIDED|95.0|-2.0|4.8|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||4.8|-2.0|0.417
82503766|NCT01190254|164699298|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.2||||0.017|TWO_SIDED|95.0|0.8|7.6|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 100, asenapine 2.5 mg - 96, asenapine - 104)||7.6|0.8|0.017
82378327|NCT03762239|164465060|SUPERIORITY||Beta coefficient|0.013||||0.89|TWO_SIDED|95.0|-0.1786|0.2049|||Ordered logistic regression|Using multiple imputation by chained equations. Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher trust, relative to the classroom without air filter (normal air), in the subjective trust measure among adolescents in high schools.||0.2049|-0.1786|0.89
82503767|NCT01190254|164699299|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.6||||0.6|TWO_SIDED|95.0|-1.6|2.8|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||2.8|-1.6|0.600
82503768|NCT01190254|164699299|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.1||||0.064|TWO_SIDED|95.0|-0.1|4.3|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||4.3|-0.1|0.064
82503769|NCT01190254|164699300|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.407|TWO_SIDED|95.0|-0.13|0.33|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||0.33|-0.13|0.407
82503770|NCT01190254|164699300|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.19||||0.111|TWO_SIDED|95.0|-0.04|0.42|||ANCOVA|Model included terms of (pooled) site, treatment, and baseline|Estimate is asenapine versus placebo|||0.42|-0.04|0.111
82503771|NCT01729754|164699303|SUPERIORITY||Difference in percentages|59.8|||<|0.001|TWO_SIDED|95.0|52.9|65.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and confidence intervals (CIs) are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||65.9|52.9|<0.001
82503772|NCT01729754|164699303|SUPERIORITY||Difference in percentages|55.5|||<|0.001|TWO_SIDED|95.0|48.3|61.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||61.8|48.3|<0.001
82503773|NCT01729754|164699304|SUPERIORITY||Difference in percentages|54.7|||<|0.001|TWO_SIDED|95.0|47.9|60.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||60.8|47.9|<0.001
82503774|NCT01729754|164699304|SUPERIORITY||Difference in percentages|50.2|||<|0.001|TWO_SIDED|95.0|43.2|56.5||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||56.5|43.2|<0.001
82522933|NCT02460692|164741287|SUPERIORITY|||||||0.85||||||The average change of total time completing task in grooved pegboard test on dominant hand (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.85
82503775|NCT01729754|164699307|SUPERIORITY||Difference in percentages|19.2|||<|0.001|TWO_SIDED|95.0|11.5|26.7||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||26.7|11.5|<0.001
82503776|NCT01729754|164699307|SUPERIORITY||Difference in percentages|20.1|||<|0.001|TWO_SIDED|95.0|12.4|27.6||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||27.6|12.4|<0.001
82503777|NCT01729754|164699310|SUPERIORITY||Difference in percentages|24.1|||<|0.001|TWO_SIDED|95.0|16.2|31.7|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||31.7|16.2|<0.001
82503778|NCT01729754|164699310|SUPERIORITY||Difference in percentages|19.6|||<|0.001|TWO_SIDED|95.0|11.7|27.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights|||27.3|11.7|<0.001
82503779|NCT01729754|164699313|SUPERIORITY||Difference in percentages|35.3|||<|0.001|TWO_SIDED|95.0|29.2|41.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||41.1|29.2|<0.001
82503780|NCT01729754|164699313|SUPERIORITY||Difference in percentages|37.5|||<|0.001|TWO_SIDED|95.0|31.1|43.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights|||43.4|31.1|<0.001
82503781|NCT01729754|164699313|SUPERIORITY||Difference in percentages|15.2|||<|0.001|TWO_SIDED|95.0|8.3|22.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.1|8.3|<0.001
82503782|NCT01729754|164699313|SUPERIORITY||Difference in percentages|17.4|||<|0.001|TWO_SIDED|95.0|10.3|24.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||24.4|10.3|<0.001
82503783|NCT01729754|164699314|OTHER||Difference in percentages|27.1|||<|0.001|TWO_SIDED|95.0|19.1|34.7||Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Cochran-Mantel-Haenszel||Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||34.7|19.1|<0.001
82503784|NCT01729754|164699314|OTHER||Difference in percentages|24.9|||<|0.001|TWO_SIDED|95.0|17.0|32.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||32.6|17.0|<0.001
82503785|NCT01729754|164699317|SUPERIORITY||Difference in percentages|11.7|||<|0.001|TWO_SIDED|95.0|7.8|16.0|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||16.0|7.8|<0.001
82503786|NCT01729754|164699317|SUPERIORITY||Difference in percentages|12.4|||<|0.001|TWO_SIDED|95.0|8.5|16.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||16.6|8.5|<0.001
82378328|NCT03762239|164465061|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5|TWO_SIDED|95.0|-0.49|0.24|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|||0.24|-0.49|0.50
82522934|NCT02460692|164741288|SUPERIORITY|||||||0.89||||||The average change in Wechsler Adult Intelligence Scale (WAIS)-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model.|Unstructured covariance model|||||||0.89
82503787|NCT01729754|164699317|SUPERIORITY||Difference in percentages|7.0||||0.001|TWO_SIDED|95.0|2.8|11.6|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||11.6|2.8|0.001
82503788|NCT01729754|164699317|SUPERIORITY||Difference in percentages|7.6|||<|0.001|TWO_SIDED|95.0|3.3|12.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||12.3|3.3|<0.001
82503789|NCT01729754|164699318|SUPERIORITY||Difference in percentages|15.7|||<|0.001|TWO_SIDED|95.0|9.4|22.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.1|9.4|<0.001
82503790|NCT01729754|164699318|SUPERIORITY||Difference in percentages|11.7|||<|0.001|TWO_SIDED|95.0|5.6|17.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||17.9|5.6|<0.001
82503791|NCT01729754|164699322|OTHER||Difference in least squares means|-8.2|||<|0.001|TWO_SIDED|95.0|-9.3|-7.2|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-7.2|-9.3|<0.001
82503792|NCT01729754|164699322|OTHER||Difference in least squares means|-8.3|||<|0.001|TWO_SIDED|95.0|-9.3|-7.3|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-7.3|-9.3|<0.001
82503793|NCT01729754|164699322|OTHER||Difference in least squares means|-1.3||||0.002|TWO_SIDED|95.0|-2.1|-0.5|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-0.5|-2.1|0.002
82503794|NCT01729754|164699322|OTHER||Difference in least squares means|-1.4||||0.001|TWO_SIDED|95.0|-2.2|-0.6|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-0.6|-2.2|0.001
82503795|NCT01729754|164699323|OTHER||Difference in least squares means|-1.7|||<|0.001|TWO_SIDED|95.0|-2.4|-1.0|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-1.0|-2.4|<0.001
82503796|NCT01729754|164699323|OTHER||Difference in least squares means|-2.2|||<|0.001|TWO_SIDED|95.0|-2.9|-1.5|||cLDA|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-1.5|-2.9|<0.001
82503797|NCT01729754|164699326|OTHER||Difference in percentages|39.3|||<|0.001|TWO_SIDED|95.0|31.8|46.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||46.1|31.8|<0.001
82503798|NCT01729754|164699326|OTHER||Difference in percentages|32.1|||<|0.001|TWO_SIDED|95.0|24.5|39.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||39.1|24.5|<0.001
82503799|NCT01729754|164699326|OTHER||Difference in percentages|11.9||||0.003|TWO_SIDED|95.0|4.1|19.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||19.5|4.1|0.003
82503800|NCT01729754|164699326|OTHER||Difference in percentages|4.8||||0.221|TWO_SIDED|95.0|-2.9|12.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||12.5|-2.9|0.221
82503801|NCT01729754|164699327|OTHER||Difference in percentages|25.7|||<|0.001|TWO_SIDED|95.0|17.7|33.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||33.4|17.7|<0.001
82503802|NCT01729754|164699327|OTHER||Difference in percentages|15.0|||<|0.001|TWO_SIDED|95.0|6.9|22.9|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.|Difference and CIs are calculated using Miettinen-Nurminen stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no) with sample size weights.|||22.9|6.9|<0.001
82503803|NCT00773292|164699337|OTHER|change from baseline||||||0.24|||||||t-test, 2 sided|||||||0.24
82503804|NCT04729127|164699338|OTHER|||||||0.79|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.79
82503805|NCT04729127|164699338|OTHER|||||||0.27|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.27
82503806|NCT04729127|164699339|OTHER|||||||0.04|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.04
82503807|NCT04729127|164699339|OTHER|||||||0.02|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.02
82503808|NCT04729127|164699340|OTHER|||||||0.78|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.78
82503809|NCT04729127|164699340|OTHER|||||||0.89|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.89
82503810|NCT04729127|164699341|OTHER|||||||0.07|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.07
82503811|NCT04729127|164699341|OTHER|||||||0.88|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.88
82503812|NCT04729127|164699344|OTHER|||||||0.26|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.26
82503813|NCT04729127|164699344|OTHER|||||||0.74|||||||Regression, Linear|||See protocol for full statistical analysis plan.||||.74
82503814|NCT01245270|164699346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"For the incremental area under the curve (AUCi), only the extent of interpolated values above baseline contributed.~Values obtained following the control and extract capsules were compared by paired t-tests."|t-test, 2 sided|||||||0.003
82503815|NCT01245270|164699347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028||95.0||||For incremental area under the curve (AUCi), only the extent of interpolated values above baseline contributed. Values obtained following the control and extract capsules were compared by paired t-tests.|t-test, 2 sided|||||||0.028
82503816|NCT02432846|164699350|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.978||||0.964|TWO_SIDED|95.0|0.371|2.579|||Log Rank|||||2.579|0.371|0.964
82503817|NCT02432846|164699350|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.619||||0.163|TWO_SIDED|95.0|0.314|1.222|||Log Rank|||||1.222|0.314|0.163
82503818|NCT02432846|164699350|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.732||||0.25|TWO_SIDED|95.0|0.421|1.27|||Log Rank|||||1.270|0.421|0.250
82503819|NCT02432846|164699351|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.756||||0.596|TWO_SIDED|95.0|0.268|2.134|||Log Rank|||||2.134|0.268|0.596
82503820|NCT02432846|164699351|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.661||||0.285|TWO_SIDED|95.0|0.308|1.418|||Log Rank|||||1.418|0.308|0.285
82639438|NCT01314261|164993942|SUPERIORITY_OR_OTHER|||||||0.171|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.171
82503821|NCT02432846|164699351|OTHER|Exploratory superiority (non-powered)|Hazard Ratio (HR)|0.699||||0.24|TWO_SIDED|95.0|0.378|1.29|||Log Rank|||||1.290|0.378|0.240
82503822|NCT02432846|164699352|OTHER|Exploratory superiority (non-powered)|||||=|0.812|||||||Log Rank|||||||= 0.812
82503823|NCT02432846|164699353|OTHER|Exploratory superiority (non-powered)|||||=|0.861|||||||Log Rank|||||||= 0.861
82503824|NCT01912287|164699365|SUPERIORITY||Odds Ratio (OR)|2.46||||0.03|TWO_SIDED|95.0|1.12|5.42|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of KY vs. SE at post-treatment||5.42|1.12|.03
82503825|NCT01912287|164699365|SUPERIORITY||Odds Ratio, log|5.0|||<|0.001|TWO_SIDED|95.0|2.12|11.82|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of CBT vs. SE at post-treatment||11.82|2.12|<.001
82503826|NCT01912287|164699365|SUPERIORITY||Odds Ratio (OR)|0.49||||0.07|TWO_SIDED|95.0|0.24|1.03|||Generalized Linear Mixed Models|||This comparison is from the Generalized Linear Mixed Models (GLMM) analysis using a quadratic growth curve over time. This comparison is at post-treatment. Note, although all 3 groups are included in the GLMM, this statistical test specifically compares response rates of KY vs. CBT at post-treatment||1.03|0.24|0.07
82503827|NCT03226392|164699367|SUPERIORITY||Mean Difference (Net)|-0.031||||0.214|TWO_SIDED|95.0|-0.08|0.018|||ANCOVA|||||0.018|-0.080|0.214
82503828|NCT03226392|164699368|SUPERIORITY||Mean Difference (Net)|-0.1||||0.035|TWO_SIDED|0.035|-0.19|0.01|||ANCOVA|||||0.01|-0.19|0.035
82503829|NCT03226392|164699369|SUPERIORITY||Mean Difference (Net)|0.093||||0.893|TWO_SIDED|95.0|-0.2|0.17|||ANCOVA|||||0.17|-0.20|0.893
82503830|NCT03226392|164699370|SUPERIORITY||Mean Difference (Net)|0.061||||0.448|TWO_SIDED|95.0|-0.07|0.17|||ANCOVA|||||0.17|-0.07|0.448
82503831|NCT03992781|164699394|SUPERIORITY||Relative change|-53.1|||<|0.001|||||||t-test|||Relative change in CUDOS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503832|NCT03992781|164699395|SUPERIORITY||Relative change|-35.4|||<|0.001|||||||t-test|||Relative change in CUDOS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503833|NCT03992781|164699396|SUPERIORITY||Relative change|-33.2|||<|0.001|||||||t-test|||Relative change in CUXOS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503834|NCT03992781|164699396|SUPERIORITY||Relative change|-47.1|||<|0.001|||||||t-test|||Relative change in CUXOS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503835|NCT03992781|164699397|SUPERIORITY||Relative change|-27.6|||<|0.001|||||||t-test|||Relative change in JSEQ score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503836|NCT03992781|164699397|SUPERIORITY||Relative change|-34.5|||<|0.001|||||||t-test|||Relative change in JSEQ score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503837|NCT03992781|164699398|SUPERIORITY||Relative change|-43.4|||<|0.001|||||||t-test|||Relative change in VAS score between Visit 2 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503838|NCT03992781|164699398|SUPERIORITY||Relative change|-35.4|||<|0.001|||||||t-test|||Relative change in VAS score between Visit 3 and Visit 1 was tested by ratio t-test (paired t-test of logarithm) at 0.05 alpha level. This was expressed in percentage.||||<0.001
82503839|NCT00518323|164699415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|3.17||0.508||95.0|-8.36|4.16||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||4.16|-8.36|0.508
82503840|NCT00518323|164699415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|STANDARD_ERROR_OF_MEAN|3.27||0.006||95.0|-16.58|-3.67||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||-3.67|-16.58|0.006
82503841|NCT00518323|164699415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6|STANDARD_ERROR_OF_MEAN|3.29||0.086||95.0|-13.07|-0.09||The p value was associated with the closed testing procedure using Dunnett's test.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.|The 95% confidence intervals were unadjusted for multiplicity.|If there were approximately 49 subjects per treatment group who had Week 6 (LOCF or end point) PANSS total measurements, the study was expected to have approximately 80% power to detect a clinically relevant difference of 13.2 points between any paliperidone ER group compared with placebo for the primary outcome measure.||-0.09|-13.07|0.086
82503842|NCT00518323|164699416|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.968
82503843|NCT00518323|164699416|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||<0.001
82503844|NCT00518323|164699416|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.021
82503845|NCT00518323|164699417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.1||0.846||95.0|-4.54|3.73||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment (placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||3.73|-4.54|0.846
82503846|NCT00518323|164699417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|2.17|<|0.001||95.0|4.28|12.82||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||12.82|4.28|<0.001
82503847|NCT00518323|164699417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|2.18||0.067||95.0|-0.28|8.33||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||8.33|-0.28|0.067
82503848|NCT00518323|164699418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|4.27||0.058||95.0|-0.29|16.56||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||16.56|-0.29|0.058
82503849|NCT00518323|164699418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.8|STANDARD_ERROR_OF_MEAN|4.4|<|0.001||95.0|8.08|25.43||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||25.43|8.08|<0.001
82503850|NCT00518323|164699418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.5|STANDARD_ERROR_OF_MEAN|4.43||0.003||95.0|4.76|22.23||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||22.23|4.76|0.003
82503851|NCT00518323|164699419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|4.15||0.237||95.0|-13.11|3.26||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||3.26|-13.11|0.237
82503852|NCT00518323|164699419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|4.28||0.119||95.0|-15.15|1.74||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||1.74|-15.15|0.119
82503853|NCT00518323|164699419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.34||0.574||95.0|-11.0|6.11||Comparison with placebo was without multiplicity adjustment.|ANCOVA|Used ANCOVA model with treatment(placebo, pali ER Low, pali ER Medium, and pali ER High) and country as factors and baseline value as a covariate.||||6.11|-11.00|0.574
82503854|NCT01514760|164699432|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANCOVA|||This a comparison for participants with uncontrolled asthma at baseline and change in scores over time.||||0.03
82503855|NCT02337907|164699443|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.073||0.7907|TWO_SIDED|95.0|-0.163|0.124||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.124|-0.163|0.7907
82503856|NCT02337907|164699443|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.075||0.7622|TWO_SIDED|95.0|-0.125|0.171||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.171|-0.125|0.7622
82503857|NCT02337907|164699443|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.071||0.8789|TWO_SIDED|95.0|-0.13|0.152||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.152|-0.130|0.8789
82503858|NCT02337907|164699443|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.074||0.0609|TWO_SIDED|95.0|-0.285|0.006||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.006|-0.285|0.0609
82503859|NCT02337907|164699443|SUPERIORITY|H1-0: Mean NTB response of pooled doses of 10 mg QD, 25 mg QD, 25 mg BID and 50 mg QD = Mean NTB response of placebo|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.053||0.5687|TWO_SIDED|95.0|-0.135|0.074||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.074|-0.135|0.5687
82503860|NCT02337907|164699444|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.8694|TWO_SIDED|95.0|-0.101|0.12||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.120|-0.101|0.8694
82503861|NCT02337907|164699444|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.057||0.9512|TWO_SIDED|95.0|-0.116|0.109||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.109|-0.116|0.9512
82503862|NCT02337907|164699444|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.056||0.9321|TWO_SIDED|95.0|-0.105|0.115||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.115|-0.105|0.9321
82503863|NCT02337907|164699444|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.057||0.1288|TWO_SIDED|95.0|-0.199|0.025||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.025|-0.199|0.1288
82503864|NCT02337907|164699444|SUPERIORITY|H1-0: Mean NTB response of pooled doses of 10 mg QD, 25 mg QD, 25 mg BID and 50 mg QD = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.041||0.6492|TWO_SIDED|95.0|-0.098|0.061||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.||0.061|-0.098|0.6492
82503865|NCT02337907|164699445|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|1.066||0.5287|TWO_SIDED|95.0|-1.43|2.77||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||2.77|-1.43|0.5287
82503866|NCT02337907|164699445|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.099||0.7105|TWO_SIDED|95.0|-2.57|1.76||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.76|-2.57|0.7105
82503867|NCT02337907|164699445|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.064||0.3822|TWO_SIDED|95.0|-1.16|3.03||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.03|-1.16|0.3822
82503868|NCT02337907|164699445|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.066||0.6472|TWO_SIDED|95.0|-2.59|1.61||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.61|-2.59|0.6472
82503869|NCT02337907|164699446|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7551|TWO_SIDED|95.0|-0.46|0.64||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.64|-0.46|0.7551
82503870|NCT02337907|164699446|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.28||0.3643|TWO_SIDED|95.0|-0.29|0.8||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.80|-0.29|0.3643
82503871|NCT02337907|164699446|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7822|TWO_SIDED|95.0|-0.45|0.6||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.60|-0.45|0.7822
82522935|NCT02460692|164741288|SUPERIORITY|||||||0.13||||||The average change in WAIS-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.13
82522936|NCT02460692|164741288|SUPERIORITY|||||||0.14||||||The average change in WAIS-III test score (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model|unstructured covariance model|||||||0.14
82378329|NCT03762239|164465062|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.47|TWO_SIDED|95.0|-0.2|0.1|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.|Change comparing the filter group to the non-filter group|||0.10|-0.20|0.47
82503872|NCT02337907|164699446|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.6889|TWO_SIDED|95.0|-0.43|0.65||p-value was nominal and not adjusted.|Mixed-effects Model for Repeated Measure|Kenward-Roger was used to model degrees of freedom.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.||0.65|-0.43|0.6889
82503873|NCT02337907|164699447|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.933||0.1595|TWO_SIDED|95.0|-0.52|3.15||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.15|-0.52|0.1595
82503874|NCT02337907|164699447|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.962||0.2455|TWO_SIDED|95.0|-0.77|3.01||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.01|-0.77|0.2455
82503875|NCT02337907|164699447|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.94||0.1732|TWO_SIDED|95.0|-0.57|3.13||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||3.13|-0.57|0.1732
82503876|NCT02337907|164699447|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|2.47|STANDARD_ERROR_OF_MEAN|0.936||0.0088|TWO_SIDED|95.0|0.63|4.31||p-value was nominal and not adjusted.|ANCOVA||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.||4.31|0.63|0.0088
82503877|NCT01592344|164699448|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0048
82503878|NCT01592344|164699449|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82503879|NCT01592344|164699450|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82503880|NCT01592344|164699451|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82503881|NCT04327388|164699490|SUPERIORITY||Hazard Ratio (HR)|1.026||||0.9561|TWO_SIDED|95.0|0.751|1.402|||Log-rank test|Analyzed based on logrank test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|Hazard ratio for estimation of treatment effect of each sarilumab dose versus placebo was assessed by cox proportional hazard model stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|||1.402|0.751|0.9561
82503882|NCT04327388|164699490|SUPERIORITY||Hazard Ratio (HR)|1.135||||0.3376|TWO_SIDED|95.0|0.835|1.543|||Log-rank test|Analyzed based on logrank test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|Hazard ratio for estimation of treatment effect of each sarilumab dose versus placebo was assessed by cox proportional hazard model stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.|||1.543|0.835|0.3376
82503883|NCT04327388|164699491|SUPERIORITY||Difference in percentage|-1.7||||0.628|TWO_SIDED|95.0|-9.27|5.81|||Cochran-Mantel-Haenszel|By Cochran-Mantel-Haenszel test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.||||5.81|-9.27|0.6280
82503884|NCT04327388|164699491|SUPERIORITY||Difference in percentage|0.2||||0.8478|TWO_SIDED|95.0|-6.93|7.41|||Cochran-Mantel-Haenszel|By Cochran-Mantel-Haenszel test stratified by severity of illness (severe, critical) and use of systemic corticosteroids (Yes, No) as entered in IRT.||||7.41|-6.93|0.8478
82503885|NCT02073279|164699704|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.0184|TWO_SIDED|95.0|0.23|0.89|||Log Rank|||Stratified by prior therapy (B-cell depleting therapy or immunosuppressants/others) and most recent attack (first attack or relapse).||0.89|0.23|0.0184
82503886|NCT02073279|164699705|SUPERIORITY||Mean Difference (Final Values)|3.215|STANDARD_ERROR_OF_MEAN|4.178||0.4436||95.0|-5.086|11.515|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||11.515|-5.086|0.4436
82503887|NCT02073279|164699706|SUPERIORITY||Mean Difference (Final Values)|2.107|STANDARD_ERROR_OF_MEAN|1.567||0.1824||95.0|-1.008|5.221|||ANCOVA|ANCOVA model included treatment group as fixed effect. Baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||5.221|-1.008|0.1824
82503888|NCT01519414|164699765|OTHER|||||||0.02|||||||Log Rank|||||||0.02
82503889|NCT00391274|164699809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.1326||95.0|0.76|8.25||Logistic regression of best overall tumor response (complete response + partial response).|Regression, Logistic|Treatment was the only covariate.||||8.25|0.76|0.1326
82503890|NCT00391274|164699810|SUPERIORITY_OR_OTHER|||||||0.7704||95.0|||||Log Rank|||||||0.7704
82503891|NCT00391274|164699810|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.7784||95.0|0.75|1.46|||Regression, Cox|Treatment was the only covariate.||||1.46|0.75|0.7784
82503892|NCT00391274|164699813|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.4921||95.0|0.78|1.68||P-value for Overall Survival (up to 24 months)|Regression, Cox|Treatment was the only covariate.||||1.68|0.78|0.4921
82503893|NCT00391274|164699813|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9256|TWO_SIDED|95.0|0.74|1.4||P-value for Overall Survival (up to 30 months)|Regression, Cox|||||1.40|0.74|0.9256
82503894|NCT00894322|164699826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.269||0.0013|TWO_SIDED|95.0|-1.5|-0.4||Treatment group and HbA1c stratum at screening were factors. Placebo was reference group.|ANOVA|||||-0.40|-1.50|0.0013
82503895|NCT00894322|164699827|SUPERIORITY_OR_OTHER|||||||0.0033|||||||Cochran-Mantel-Haenszel|Adjusted for HbA1c strata at screening.||||||0.0033
82503896|NCT00894322|164699828|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.835||0.2285|TWO_SIDED|95.0|-2.73|0.68|||ANOVA|treatment group and HbA1c stratum at screening were factors.||Least square mean (LS) mean, 95% confidence interval (CI) and p-value calculated for the changes in weight from baseline in participants in cohort 2 treated with exenatide with placebo as reference group.||0.68|-2.73|0.2285
82503897|NCT00894322|164699829|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.4|STANDARD_ERROR_OF_MEAN|12.8||0.0035|TWO_SIDED|95.0|-66.5|-14.3|||ANOVA|treatment group and HbA1c stratum at screening were factors.||||-14.3|-66.5|0.0035
82503898|NCT01895855|164699840|SUPERIORITY|The lower, two sided 95% confidence bound on protective efficacy must be \>/= 30%.|Vaccine Efficacy|90.3|||||ONE_SIDED|95.1|62.7||||||Confidence intervals for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.|||62.7|
82503899|NCT01895855|164699841|SUPERIORITY|The lower, two sided 95% confidence bound on protective efficacy must be \>/= 30%.|Vaccine Efficacy|79.5|||||ONE_SIDED|95.1|49.9||||||Confidence intervals for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.|||49.9|
82503900|NCT01895855|164699842|SUPERIORITY|||||||0.0073|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0073
82503901|NCT01895855|164699843|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenge 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
82503902|NCT01895855|164699844|SUPERIORITY||Vaccine Efficacy|84.5|||||TWO_SIDED|95.0|67.0|100.0|||||Confidence interval for the protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||100.0|67.0|
82503903|NCT01895855|164699845|SUPERIORITY||Vaccine Efficacy|50.8|||||TWO_SIDED|95.0|33.6|66.8|||||Confidence interval for protective vaccine efficacy (PE) estimates were calculated using the method of Farrington and Manning (Farrington 1990).|33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||66.8|33.6|
82503904|NCT01895855|164699846|SUPERIORITY|||||||0.0025|||||||Fisher Exact|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0025
82503905|NCT01895855|164699847|SUPERIORITY|||||||0.0159|||||||Fisher Exact|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||0.0159
82503906|NCT01895855|164699848|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
82503907|NCT01895855|164699849|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
82503908|NCT01895855|164699850|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||35 participants were challenged 10 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
82503909|NCT01895855|164699851|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||33 participants were challenged 90 days after receiving PXVX0200. 66 participants were challenged either 10 days or 90 days after receiving placebo.||||<0.0001
82503910|NCT03559257|164699853|SUPERIORITY||LSMean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.92|-2.32|||Mixed Models Analysis|||||-2.32|-3.92|<0.0001
82503911|NCT03559257|164699854|SUPERIORITY||LSMean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.41|-1.72|||Mixed Models Analysis|||||-1.72|-3.41|<0.0001
82503912|NCT03559257|164699855|SUPERIORITY||Odds Ratio (OR)|3.935|||<|0.0001|TWO_SIDED|95.0|2.719|5.693|||pseudo likelihood-based repeated measure|||||5.693|2.719|<0.0001
82503913|NCT03559257|164699856|SUPERIORITY||Odds Ratio (OR)|3.481|||<|0.0001|TWO_SIDED|95.0|2.252|5.381|||Pseudo likelihood-based repeated measure|||||5.381|2.252|<0.0001
82503914|NCT03559257|164699857|SUPERIORITY||LSMean Difference|12.53|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|9.19|15.87|||Mixed Models Analysis|||||15.87|9.19|<0.0001
82503915|NCT03559257|164699858|SUPERIORITY||LSMean Difference|11.51|STANDARD_ERROR_OF_MEAN|2.22|<|0.0001|TWO_SIDED|95.0|7.14|15.89|||Mixed Models Analysis|||||15.89|7.14|<0.0001
82503916|NCT03559257|164699859|SUPERIORITY||Odds Ratio (OR)|5.878||||0.0001|TWO_SIDED|95.0|2.374|14.554|||Pseudo likelihood-based repeated measure|||||14.554|2.374|0.0001
82503917|NCT03559257|164699860|SUPERIORITY||Odds Ratio (OR)|999.999|||<|0.0001|TWO_SIDED|95.0|548.706|999.999|||Pseudo likelihood-based repeated measure||Estimated value and upper bound are \>999.999|||999.999|548.706|<0.0001
82503918|NCT03559257|164699861|SUPERIORITY||Odds Ratio (OR)|5.012|||<|0.0001|TWO_SIDED|95.0|2.352|10.679|||pseudo likelihood-based repeated measure|||||10.679|2.352|<0.0001
82503919|NCT03559257|164699862|SUPERIORITY||Odds Ratio (OR)|999.99|||<|0.0001|TWO_SIDED|95.0|999.99|999.99|||Pseudo likelihood-based repeated measure||Point estimate, upper limit and lower limit are \>999.99|||999.99|999.99|<0.0001
82503920|NCT03559257|164699863|SUPERIORITY||LSMean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-4.14|-2.65|||Mixed Models Analysis|||||-2.65|-4.14|<0.0001
82503921|NCT03559257|164699864|SUPERIORITY||LSMean Difference|-3.13|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.96|-2.29|||Mixed Models Analysis|||||-2.29|-3.96|<0.0001
82503922|NCT03559257|164699865|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82503923|NCT03559257|164699866|SUPERIORITY||LSMean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-1.58|-0.54|||Mixed Models Analysis|||||-0.54|-1.58|<0.0001
82503924|NCT03559257|164699867|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Activity Impairment.||||<0.0001
82503925|NCT03559257|164699867|SUPERIORITY|||||||0.388|||||||ANCOVA|||Absenteeism.||||0.3880
82503926|NCT03559257|164699867|SUPERIORITY|||||||0.0004|||||||ANCOVA|||Presenteeism.||||0.0004
82503927|NCT03559257|164699867|SUPERIORITY|||||||0.0003|||||||ANCOVA|||Work impairment.||||0.0003
82503928|NCT03559257|164699868|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
82503929|NCT03559257|164699869|SUPERIORITY|||||||0.1267|||||||ANCOVA|||||||0.1267
82503930|NCT03559257|164699870|SUPERIORITY|||||||0.163|||||||ANCOVA|||||||0.1630
82503931|NCT03559257|164699871|SUPERIORITY|||||||0.0277|||||||ANCOVA|||||||0.0277
82503932|NCT01387347|164699883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.2596|||||||t-test, 2 sided|||Inferior corneal fluorescein staining score at Day 29(primary sign) was summarized using descriptive statistics (number of observations, mean, standard deviation, median, minimum, and maximum). Active treatment was compared to placebo using a two-sample t-test assuming unequal variances, assessed at the α = 0.05 level||||0.2596
82503933|NCT01387347|164699883|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||t-test, 2 sided|||Comparison of central corneal fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0075
82503934|NCT01387347|164699883|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||t-test, 2 sided|||Comparison of superior corneal fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0210
82503935|NCT01387347|164699884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.3734|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups uses a two-sample t-test assuming unequal variances, assessed at the alpha = 0.05 level.||||0.3734
82503936|NCT01387347|164699884|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED||||||t-test, 2 sided|||Comparison of discomfort score between the placebo and Thymosin beta 4 groups on Day 28||||0.0244
82503937|NCT02335099|164699898|SUPERIORITY||Odds Ratio (OR)|3.77||||0.32|TWO_SIDED|95.0|0.27|217.52|||Fisher Exact|||||217.52|0.27|0.32
82503938|NCT02335099|164699899|SUPERIORITY||Cox Proportional Hazard|0.86||||0.82|TWO_SIDED|95.0|0.23|3.2|||Log Rank|||||3.20|0.23|0.82
82503939|NCT03255382|164699912|OTHER||Adjusted percentage difference|73.3|||<|0.001|TWO_SIDED|95.0|61.3|85.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) test adjusted for strata (prior phototherapy \[yes/no\]).||85.3|61.3|< 0.001
82503940|NCT03255382|164699913|OTHER||Adjusted percentage difference|46.8|||<|0.001|TWO_SIDED|95.0|32.8|60.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||60.8|32.8|< 0.001
82503941|NCT03255382|164699914|OTHER||Adjusted percentage difference|63.4|||<|0.001|TWO_SIDED|95.0|50.2|76.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||76.6|50.2|< 0.001
82503942|NCT03255382|164699915|OTHER||Adjusted percentage difference|53.1|||<|0.001|TWO_SIDED|95.0|40.4|65.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||65.7|40.4|< 0.001
82503943|NCT03255382|164699916|OTHER||Adjusted percentage difference|39.6|||<|0.001|TWO_SIDED|95.0|27.3|51.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||51.9|27.3|< 0.001
82503944|NCT03255382|164699917|OTHER||Adjusted percentage difference|36.3|||<|0.001|TWO_SIDED|95.0|24.1|48.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||48.5|24.1|< 0.001
82503945|NCT03255382|164699918|OTHER||Adjusted percentage difference|46.4|||<|0.001|TWO_SIDED|95.0|33.7|59.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||59.0|33.7|< 0.001
82503946|NCT03255382|164699919|OTHER||Adjusted percentage difference|9.9||||0.047|TWO_SIDED|95.0|0.1|19.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||19.7|0.1|0.047
82503947|NCT03255382|164699920|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.5|53.8|< 0.001
82503948|NCT03255382|164699921|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.3|79.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.9|53.3|< 0.001
82503949|NCT03255382|164699922|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.5|53.8|< 0.001
82503950|NCT03255382|164699923|OTHER||Adjusted percentage difference|56.5|||<|0.001|TWO_SIDED|95.0|43.0|70.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.0|43.0|< 0.001
82503951|NCT03255382|164699924|OTHER||Adjusted percentage difference|64.8|||<|0.001|TWO_SIDED|95.0|52.5|77.2|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||77.2|52.5|< 0.001
82503952|NCT03255382|164699925|OTHER||Adjusted percentage difference|1.7||||0.392|TWO_SIDED|95.0|-2.1|5.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||5.4|-2.1|0.392
82503953|NCT03255382|164699926|OTHER||Adjusted percentage difference|36.6|||<|0.001|TWO_SIDED|95.0|23.8|49.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||49.3|23.8|< 0.001
82503954|NCT03255382|164699927|OTHER||Adjusted percentage difference|56.6|||<|0.001|TWO_SIDED|95.0|43.2|70.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.0|43.2|< 0.001
82503955|NCT03255382|164699928|OTHER||Adjusted percentage difference|64.9|||<|0.001|TWO_SIDED|95.0|51.5|78.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||78.3|51.5|< 0.001
82503956|NCT03255382|164699929|OTHER||Adjusted percentage difference|66.6|||<|0.001|TWO_SIDED|95.0|53.3|79.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||79.8|53.3|< 0.001
82503957|NCT03255382|164699930|OTHER||Adjusted percentage difference|0.0||||0.991|TWO_SIDED|95.0|-2.0|2.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||2.1|-2.0|0.991
82503958|NCT03255382|164699931|OTHER||Adjusted percentage difference|3.3||||0.323|TWO_SIDED|95.0|-3.2|9.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||9.8|-3.2|0.323
82503959|NCT03255382|164699932|OTHER||Adjusted percentage difference|21.5|||<|0.001|TWO_SIDED|95.0|10.4|32.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||32.6|10.4|< 0.001
82503960|NCT03255382|164699933|OTHER||Adjusted percentage difference|33.1|||<|0.001|TWO_SIDED|95.0|20.7|45.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||45.5|20.7|< 0.001
82503961|NCT03255382|164699934|OTHER||Adjusted percentage difference|41.3|||<|0.001|TWO_SIDED|95.0|27.3|55.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||55.3|27.3|< 0.001
82639439|NCT01314261|164993942|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||Ten participants in an ABT-267 arm and nine participants in the placebo arm would provide 84% power using Fisher's exact test with two-sided significance level of 0.05 to detect a difference of approximately 70% between the two arms.||||0.030
82503962|NCT03255382|164699935|OTHER||Adjusted percentage difference|44.7|||<|0.001|TWO_SIDED|95.0|30.9|58.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||58.5|30.9|< 0.001
82503963|NCT03255382|164699936|OTHER||Least Squares Mean Difference|-7.19|STANDARD_ERROR_OF_MEAN|0.825|<|0.001|TWO_SIDED|95.0|-8.82|-5.56|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-5.56|-8.82|< 0.001
82503964|NCT03255382|164699937|OTHER||Least Squares Mean Difference|-9.58|STANDARD_ERROR_OF_MEAN|0.936|<|0.001|TWO_SIDED|95.0|-11.43|-7.72|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.72|-11.43|< 0.001
82503965|NCT03255382|164699938|OTHER||Least Squares Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|0.972|<|0.001|TWO_SIDED|95.0|-10.72|-6.87|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.87|-10.72|< 0.001
82503966|NCT03255382|164699939|OTHER||Least Squares Mean Difference|-7.78|STANDARD_ERROR_OF_MEAN|0.958|<|0.001|TWO_SIDED|95.0|-9.68|-5.88|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.88|-9.68|< 0.001
82503967|NCT03255382|164699940|OTHER||Least Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|1.101|<|0.001|TWO_SIDED|95.0|-10.07|-5.71|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.71|-10.07|< 0.001
82503968|NCT03255382|164699941|OTHER||Least Squares Mean Difference|-8.39|STANDARD_ERROR_OF_MEAN|1.175|<|0.001|TWO_SIDED|95.0|-10.71|-6.06|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.06|-10.71|< 0.001
82503969|NCT03255382|164699942|OTHER||Adjusted percentage difference|29.7|||<|0.001|TWO_SIDED|95.0|17.1|42.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||42.4|17.1|< 0.001
82639440|NCT01314261|164993943|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.102
82503970|NCT03255382|164699943|OTHER||Adjusted percentage difference|66.7|||<|0.001|TWO_SIDED|95.0|53.4|80.0|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||80.0|53.4|< 0.001
82503971|NCT03255382|164699944|OTHER||Adjusted percentage difference|56.8|||<|0.001|TWO_SIDED|95.0|42.7|70.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.8|42.7|< 0.001
82503972|NCT03255382|164699945|OTHER||Adjusted percentage difference|59.9|||<|0.001|TWO_SIDED|95.0|46.3|73.6|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||73.6|46.3|< 0.001
82503973|NCT03255382|164699946|OTHER||Adjusted percentage difference|44.9|||<|0.001|TWO_SIDED|95.0|30.8|59.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||59.1|30.8|< 0.001
82503974|NCT03255382|164699947|OTHER||Adjusted percentage difference|55.0|||<|0.001|TWO_SIDED|95.0|41.2|68.8|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||68.8|41.2|< 0.001
82503975|NCT03255382|164699948|OTHER||Adjusted percentage difference|1.7||||0.392|TWO_SIDED|95.0|-2.1|5.4|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||5.4|-2.1|0.392
82503976|NCT03255382|164699949|OTHER||Adjusted percentage difference|8.4||||0.048|TWO_SIDED|95.0|0.1|16.7|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||16.7|0.1|0.048
82503977|NCT03255382|164699950|OTHER||Adjusted percentage difference|18.3||||0.001|TWO_SIDED|95.0|7.1|29.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||29.5|7.1|0.001
82503978|NCT03255382|164699951|OTHER||Adjusted percentage difference|33.0|||<|0.001|TWO_SIDED|95.0|20.2|45.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||45.9|20.2|< 0.001
82503979|NCT03255382|164699952|OTHER||Adjusted percentage difference|41.3|||<|0.001|TWO_SIDED|95.0|27.3|55.3|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||55.3|27.3|< 0.001
82503980|NCT03255382|164699953|OTHER||Adjusted percentage difference|46.4|||<|0.001|TWO_SIDED|95.0|32.6|60.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||60.1|32.6|< 0.001
82503981|NCT03255382|164699954|OTHER||Adjusted percentage difference|19.8||||0.001|TWO_SIDED|95.0|7.6|31.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||31.9|7.6|0.001
82503982|NCT03255382|164699955|OTHER||Adjusted percentage difference|38.3|||<|0.001|TWO_SIDED|95.0|25.0|51.5|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||51.5|25.0|< 0.001
82503983|NCT03255382|164699956|OTHER||Least Squares Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.5|-2.0|||van Elteren test|||P-values were calculated by stratified van Elteren test.||-2.0|-4.5|< 0.001
82503984|NCT03255382|164699957|OTHER||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-5.1|-2.7|||van Elteren test|||P-values were calculated by stratified van Elteren test.||-2.7|-5.1|< 0.001
82503985|NCT03255382|164699958|OTHER||Least Squares Mean Difference|1.146|||<|0.001|TWO_SIDED|95.0|0.764|1.528|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||1.528|0.764|< 0.001
82503986|NCT03255382|164699959|OTHER||Least Squares Mean Difference|1.32|||<|0.001|TWO_SIDED|95.0|0.936|1.704|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||1.704|0.936|< 0.001
82503987|NCT03255382|164699960|OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-3.6|-1.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.1|-3.6|< 0.001
82503988|NCT03255382|164699961|OTHER||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.66|<|0.001|TWO_SIDED|95.0|-4.3|-1.6|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.6|-4.3|< 0.001
82503989|NCT03255382|164699962|OTHER||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.307||0.352|TWO_SIDED|95.0|-0.9|0.32|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.32|-0.90|0.352
82503990|NCT03255382|164699963|OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.296||0.315|TWO_SIDED|95.0|-0.88|0.29|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.29|-0.88|0.315
82503991|NCT03255382|164699964|OTHER||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|-6.9|-2.7|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-2.7|-6.9|< 0.001
82503992|NCT03255382|164699965|OTHER||Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|-12.6|-6.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.1|-12.6|< 0.001
82503993|NCT03255382|164699966|OTHER||Least Squares Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|1.51|<|0.001|TWO_SIDED|95.0|-13.2|-7.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.2|-13.2|< 0.001
82503994|NCT03255382|164699967|OTHER||Least Squares Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|1.51|<|0.001|TWO_SIDED|95.0|-12.8|-6.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.8|-12.8|< 0.001
82503995|NCT03255382|164699968|OTHER||Least Squares Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-12.4|-6.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-6.8|-12.4|< 0.001
82503996|NCT03255382|164699969|OTHER||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|-12.9|-7.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-7.1|-12.9|< 0.001
82503997|NCT03255382|164699970|OTHER||Least Squares Mean Difference|4.49|STANDARD_ERROR_OF_MEAN|1.385||0.002|TWO_SIDED|95.0|1.74|7.23|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||7.23|1.74|0.002
82503998|NCT03255382|164699971|OTHER||Least Squares Mean Difference|4.63|STANDARD_ERROR_OF_MEAN|1.322|<|0.001|TWO_SIDED|95.0|2.01|7.25|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||7.25|2.01|< 0.001
82503999|NCT03255382|164699972|OTHER||Least Squares Mean Difference|6.66|STANDARD_ERROR_OF_MEAN|1.787|<|0.001|TWO_SIDED|95.0|3.11|10.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||10.20|3.11|< 0.001
82504000|NCT03255382|164699973|OTHER||Least Squares Mean Difference|7.85|STANDARD_ERROR_OF_MEAN|1.784|<|0.001|TWO_SIDED|95.0|4.31|11.38|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||11.38|4.31|< 0.001
82504001|NCT03255382|164699974|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.7|-1.2|< 0.001
82504002|NCT03255382|164699975|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.8|-1.3|< 0.001
82504003|NCT03255382|164699976|OTHER||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.2|-0.9|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-0.9|-3.2|< 0.001
82504004|NCT03255382|164699977|OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.5|-1.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.1|-3.5|< 0.001
82504005|NCT03255382|164699978|OTHER||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-4.3|-1.9|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.9|-4.3|< 0.001
82504006|NCT03255382|164699979|OTHER||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-4.4|-1.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-1.8|-4.4|< 0.001
82504007|NCT03255382|164699980|OTHER||Adjusted percentage difference|38.3|||<|0.001|TWO_SIDED|95.0|23.6|53.1|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||53.1|23.6|< 0.001
82504008|NCT03255382|164699981|OTHER||Adjusted percentage difference|56.8|||<|0.001|TWO_SIDED|95.0|42.7|70.9|||Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test adjusted for strata (prior phototherapy \[yes/no\]).||70.9|42.7|< 0.001
82504009|NCT03255382|164699982|OTHER||Least Squares Mean Difference|-7.4|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|-9.6|-5.1|||ANCOVA|||P-values were calculated using ANCOVA with prior phototherapy (yes/no), baseline value, and treatment in the model.||-5.1|-9.6|< 0.001
82504010|NCT03255382|164699983|OTHER||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|-9.7|-5.5|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.5|-9.7|< 0.001
82504011|NCT03255382|164699984|OTHER||Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.23|<|0.001|TWO_SIDED|95.0|-9.0|-4.1|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-4.1|-9.0|< 0.001
82639441|NCT01314261|164993943|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.362
82504012|NCT03255382|164699985|OTHER||Least Squares Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|1.53|<|0.001|TWO_SIDED|95.0|-11.1|-5.0|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||-5.0|-11.1|< 0.001
82504013|NCT03255382|164699986|OTHER||Least Squares Mean Difference|0.087|STANDARD_ERROR_OF_MEAN|0.0215|<|0.001|TWO_SIDED|95.0|0.045|0.13|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.130|0.045|< 0.001
82504014|NCT03255382|164699987|OTHER||Least Squares Mean Difference|0.059|STANDARD_ERROR_OF_MEAN|0.0186||0.002|TWO_SIDED|95.0|0.022|0.096|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||0.096|0.022|0.002
82504015|NCT03255382|164699988|OTHER||Least Squares Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|9.4|20.5|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||20.5|9.4|< 0.001
82504016|NCT03255382|164699989|OTHER||Least Squares Mean Difference|16.8|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|11.4|22.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and treatment in the model.||22.2|11.4|< 0.001
82504017|NCT03255382|164699990|OTHER||Least Squares Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-16.6|-6.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-6.2|-16.6|< 0.001
82504018|NCT03255382|164699991|OTHER||Least Squares Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-19.1|-8.4|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-8.4|-19.1|< 0.001
82504019|NCT03255382|164699992|OTHER||Least Squares Mean Difference|-17.3|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-24.8|-9.8|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-9.8|-24.8|< 0.001
82504020|NCT03255382|164699993|OTHER||Least Squares Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-28.8|-14.2|||ANCOVA|||P-values were calculated using ANCOVA with strata (phototherapy \[yes/no\]), baseline value, and the treatment in this model.||-14.2|-28.8|< 0.001
82504021|NCT02113956|164700012|SUPERIORITY||Incident Rate Ratio (IRR)|1.42|||||TWO_SIDED|95.0|0.79|2.57|||Poisson regression||Adjusted for age and baseline number of condomless sex acts|||2.57|0.79|
82504022|NCT02113956|164700013|SUPERIORITY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.36|1.12|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|1.12|0.36|
82504023|NCT02113956|164700014|SUPERIORITY||Incident Rate Ratio|0.95|||||TWO_SIDED|95.0|0.45|2.02|||Poisson||||Adjusted for age and baseline number of condomless sex acts|2.02|0.45|
82504024|NCT02113956|164700015|SUPERIORITY||Incident Rate Ratio (IRR)|0.62|||||TWO_SIDED|95.0|0.12|3.18|||Poisson||||Adjusted for age and baseline number of condomless sex acts|3.18|0.12|
82504025|NCT02113956|164700016|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.23|0.997|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|0.997|0.23|
82504026|NCT02113956|164700017|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.38|2.53|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|2.53|0.38|
82504027|NCT02113956|164700018|SUPERIORITY||Odds Ratio (OR)|3.42|||||TWO_SIDED|95.0|1.65|7.09|||Regression, Logistic||||Adjusted for age and baseline rate of HIV testing|7.09|1.65|
82504028|NCT02113956|164700019|SUPERIORITY||Incident Risk Ratio (IRR)|0.58|||||TWO_SIDED|95.0|0.22|1.5|||Poisson||||Adjusted for age and baseline number of condomless sex acts|1.5|0.22|
82504029|NCT02113956|164700020|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.6|2.09|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|2.09|0.6|
82504030|NCT02113956|164700021|SUPERIORITY||Incident Rate Ratio (IRR)|0.6|||||TWO_SIDED|95.0|0.22|1.68|||||||Adjusted for age and baseline number of condomless sex acts|1.68|0.22|
82504031|NCT02113956|164700022|SUPERIORITY||Incident Rate Ratio (IRR)|1.1|||||TWO_SIDED|95.0|0.01|92.03|||||||Adjusted for age and baseline number of condomless sex acts|92.03|0.01|
82504032|NCT02113956|164700023|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.46|1.88|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|1.88|0.46|
82504033|NCT02113956|164700024|SUPERIORITY||Odds Ratio (OR)|3.4|||||TWO_SIDED|95.0|0.88|16.95|||Regression, Logistic||||Adjusted for age and baseline rate of abstinence|16.95|0.88|
82504034|NCT02113956|164700025|SUPERIORITY||Odds Ratio (OR)|3.39|||||TWO_SIDED|95.0|1.52|7.58|||Regression, Logistic||||Adjusted for age and baseline rate of HIV testing|7.58|1.52|
82504035|NCT02446990|164700026|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.08|STANDARD_ERROR_OF_MEAN|0.06||0.1969|TWO_SIDED|95.0|0.96|1.2|||Regression, Cox|||||1.2|0.96|0.1969
82504036|NCT02446990|164700027|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06|STANDARD_ERROR_OF_MEAN|0.07||0.3461|TWO_SIDED|95.0|0.94|1.21|||Regression, Cox|||||1.21|0.94|0.3461
82504037|NCT02446990|164700028|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.1|STANDARD_ERROR_OF_MEAN|0.09||0.2493|TWO_SIDED|95.0|0.94|1.28|||Regression, Cox|||||1.28|0.94|0.2493
82504038|NCT02446990|164700029|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06|STANDARD_ERROR_OF_MEAN|0.09||0.5162|TWO_SIDED|95.0|0.89|1.26|||Regression, Cox|||||1.26|0.89|0.5162
82504039|NCT02446990|164700030|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.35|STANDARD_ERROR_OF_MEAN|0.29||0.1647|TWO_SIDED|95.0|0.88|2.05|||Regression, Cox|||||2.05|0.88|0.1647
82504040|NCT02446990|164700031|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.04|STANDARD_ERROR_OF_MEAN|0.08||0.6024|TWO_SIDED|95.0|0.9|1.21|||Regression, Cox|||||1.21|0.90|0.6024
82504041|NCT02446990|164700032|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.89||||0.1458|TWO_SIDED|95.0|0.75|1.04|||Regression, Cox|||||1.04|0.75|0.1458
82504042|NCT02446990|164700033|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.0||||0.979|TWO_SIDED|95.0|0.89|1.12|||Regression, Cox|||||1.12|0.89|0.9790
82504043|NCT02446990|164700034|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.4299|TWO_SIDED|95.0|0.92|1.22|||Regression, Cox|||||1.22|0.92|0.4299
82504044|NCT02446990|164700035|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.97||||0.5916|TWO_SIDED|95.0|0.88|1.08|||Regression, Cox|||||1.08|0.88|0.5916
82504045|NCT02446990|164700036|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.98||||0.6963|TWO_SIDED|95.0|0.89|1.08|||Regression, Cox|||||1.08|0.89|0.6963
82504046|NCT02446990|164700037|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.2222|TWO_SIDED|95.0|0.96|1.18|||Regression, Cox|||||1.18|0.96|0.2222
82504047|NCT02446990|164700038|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.3671|TWO_SIDED|95.0|0.94|1.18|||Regression, Cox|||||1.18|0.94|0.3671
82504048|NCT02446990|164700039|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.97||||0.5285|TWO_SIDED|95.0|0.87|1.07|||Regression, Cox|||||1.07|0.87|0.5285
82504049|NCT01064401|164700040|SUPERIORITY_OR_OTHER||Rate Ratio|0.55|||<|0.0001|TWO_SIDED|95.0|0.469|0.645||Estimated from a negative binomial regression model adjusted for the baseline relapse rate, history of prior IFN beta use, baseline EDSS (≤ 2.5 vs \> 2.5) and baseline age (≤ 35 vs \> 35 years).|Negative Binomial Regression|||||0.645|0.469|< 0.0001
82504050|NCT01064401|164700040|SUPERIORITY_OR_OTHER||Percent Reduction|45.0|||||TWO_SIDED|95.0|35.5|53.1||||||||53.1|35.5|
82504051|NCT01064401|164700041|SUPERIORITY_OR_OTHER||Percent Reduction|54.4|||<|0.0001|TWO_SIDED|95.0|46.9|60.8||Estimated from a negative binomial regression model, adjusted for baseline volume of T2 hyperintense lesions, history of prior IFN beta use and baseline age (≤ 35 vs \> 35 years).|Negative Binomial Regression|The logarithmic transformation of the scan number of the MRI assessment was included in the model as the 'offset' parameter.||||60.8|46.9|< 0.0001
82504052|NCT01064401|164700042|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.1575|TWO_SIDED|95.0|0.66|1.07||Based on Cox Proportional Hazards model, adjusted by baseline EDSS values as continuous variable, history of prior IFN beta use, and baseline age (≤ 35 vs \> 35 years).|Cox Proportional Hazard|||||1.07|0.66|0.1575
82504053|NCT01064401|164700042|SUPERIORITY_OR_OTHER||Percent Reduction|16.1|||||TWO_SIDED|95.0|-7.0|34.2||||||||34.2|-7.0|
82504054|NCT01064401|164700043|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.59|||<|0.0001|TWO_SIDED|95.0|0.5|0.69||Based on Cox proportional hazards model, adjusted for baseline relapse rate, history of prior IFN beta use, baseline EDSS (EDSS ≤ 2.5 vs EDSS \> 2.5) and baseline age (≤ 35 vs \> 35 years).|Cox Proportional Hazard|||||0.69|0.50|< 0.0001
82504055|NCT01064401|164700043|SUPERIORITY_OR_OTHER||Percent Reduction in Risk of Relapse|40.9|||||TWO_SIDED|95.0|30.8|49.5||||||||49.5|30.8|
82504056|NCT01064401|164700044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.0176|TWO_SIDED|95.0|0.6|0.95||Based on logistic regression model, adjusted for baseline MSIS-29 physical score, baseline Beck Depression Inventory (BDI) score, history of prior IFN beta use, and baseline age (≤ 35 vs \> 35 years).|Regression, Logistic|||||0.95|0.60|0.0176
82504057|NCT01064401|164700044|SUPERIORITY_OR_OTHER||Percent Reduction in Odds of Worsening|24.2|||||TWO_SIDED|95.0|4.7|39.6||||||||39.6|4.7|
82504058|NCT02738151|164700071|NON_INFERIORITY|Non-inferiority of Toujeo vs Tresiba was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<0.3%.|Least Square (LS) Mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.152|0.051||Threshold for significance at 0.025 level.|Mixed Models Analysis||Toujeo vs. Tresiba|A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using a MMRM approach with treatment groups, randomization strata, visit, and treatment-by-visit interaction as fixed categorical effects and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates.||0.051|-0.152|<.0001
82504059|NCT02738151|164700071|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.052||0.3302|TWO_SIDED|95.0|-0.152|0.051|||Mixed Models Analysis|||Superiority of Toujeo over Tresiba was demonstrated if the upper bound of the two-sided 95% CI for the difference in the mean change in HbA1c from baseline to Week 24 between Toujeo over Tresiba on ITT population was \<0 (zero).||0.051|-0.152|0.3302
82639442|NCT01314261|164993943|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.079
82504060|NCT02807350|164700107|OTHER||Risk Difference (RD)|19.0|||||TWO_SIDED|95.0|7.0|29.0||||||\>1 point analysis||29|7|
82504061|NCT02807350|164700107|OTHER|\>2 points analysis|Risk Difference (RD)|20.0|||||TWO_SIDED|95.0|10.0|28.0||||||||28|10|
82504062|NCT02807350|164700108|OTHER|\>1 analysis|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-7.0|15.0||||||||15|-7|
82504063|NCT02807350|164700108|OTHER|\>2 analysis|Risk Difference (RD)|8.0|||||TWO_SIDED|95.0|-2.0|17.0||||||||17|-2|
82504064|NCT01959542|164700128|OTHER|Pearson's product-moment correlation|Pearson's product-moment correlation|-0.53||||0.09|TWO_SIDED|95.0|-86.0|0.1|||Pearson's product-moment correlation|||||0.10|-086|0.09
82504065|NCT01959542|164700129|OTHER||Pearson's product-moment correlation|-0.62||||0.03|TWO_SIDED|95.0|-0.62|-0.15|||Pearson's product-moment correlation|Pearson's product moment correlation||||-0.15|-0.62|0.03
82504066|NCT03388138|164700172|NON_INFERIORITY|Non-inferiority of the etafilcon A with ketotifen lens relative to the etafilcon A lens was established if the upper limit of the 95% confidence interval was below 0.1 logMAR.|Least-Square Mean Difference|0.0017|STANDARD_ERROR_OF_MEAN|0.01169|||TWO_SIDED|95.0|-0.021|0.025|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as etafilcon A with ketotifen - etafilcon A|||0.025|-0.021|
82504067|NCT03388138|164700173|NON_INFERIORITY|Non-inferiority of the etafilcon A with ketotifen lens relative to the etafilcon A lens was established if the upper limit of the 95% confidence interval was below 0.1 logMAR.|Least-Square Mean Difference|0.0007|STANDARD_ERROR_OF_MEAN|0.01158|||TWO_SIDED|95.0|-0.022|0.024|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as etafilcon A with ketotifen - etafilcon A|||0.024|-0.022|
82504068|NCT02357901|164700246|SUPERIORITY||||||<|0.0001||||||significance at the 0.025 level|Wilcoxon rank-sum test|||||||<0.0001
82504069|NCT02357901|164700246|SUPERIORITY||||||<|0.0001||||||significance at the 0.025 level|Wilcoxon rank-sum test|||||||<0.0001
82504070|NCT02357901|164700247|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Cochran-Mantel-Haenszel|||||||<0.0001
82504071|NCT02357901|164700247|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Cochran-Mantel-Haenszel|||||||<0.0001
82504072|NCT02357901|164700248|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
82504073|NCT02357901|164700248|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
82504074|NCT02357901|164700249|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
82504075|NCT02357901|164700249|SUPERIORITY||||||<|0.0001||||||Significance level of 0.05.|Wilcoxon rank-sum test|||||||<0.0001
82504076|NCT02357901|164700250|SUPERIORITY||LSM difference|-9.4|STANDARD_ERROR_OF_MEAN|2.62||0.0003|TWO_SIDED|95.0|-14.56|-4.3||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-4.30|-14.56|0.0003
82504077|NCT02357901|164700250|SUPERIORITY||LSM difference|-12.4|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-17.51|-7.28||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-7.28|-17.51|<0.0001
82504078|NCT02357901|164700251|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
82504079|NCT02357901|164700251|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
82504080|NCT02357901|164700252|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
82504081|NCT02357901|164700252|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
82504082|NCT02357901|164700253|SUPERIORITY||LSM difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.96|-0.46||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.46|-0.96|<0.0001
82504083|NCT02357901|164700253|SUPERIORITY||LSM difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.12|-0.62||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.62|-1.12|<0.0001
82504084|NCT02357901|164700254|SUPERIORITY||LSM difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.89|-0.33||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.33|-0.89|<0.0001
82504085|NCT02357901|164700254|SUPERIORITY||LSM difference|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.41||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.41|-0.97|<0.0001
82504086|NCT02357901|164700255|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.38||0.3143|TWO_SIDED|95.0|-1.13|0.36||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||0.36|-1.13|0.3143
82504087|NCT02357901|164700255|SUPERIORITY||LSM difference|-1.0|STANDARD_ERROR_OF_MEAN|0.38||0.0101|TWO_SIDED|95.0|-1.72|-0.23||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.23|-1.72|0.0101
82504088|NCT02357901|164700256|SUPERIORITY||LSM difference|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0726|TWO_SIDED|95.0|-3.29|0.14||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||0.14|-3.29|0.0726
82504089|NCT02357901|164700256|SUPERIORITY||LSM difference|-2.6|STANDARD_ERROR_OF_MEAN|0.87||0.0028|TWO_SIDED|95.0|-4.32|-0.9||Significance level of 0.05.|mixed model for repeated measures|||Change from baseline was analyzed using a mixed model for repeated measures (MMRM) with terms for treatment, visit, and treatment-by-visit interaction as factors and baseline value as a covariate. Center was included in the model as a random effect.||-0.90|-4.32|0.0028
82504090|NCT02357901|164700257|SUPERIORITY||LSM difference|7.5|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|5.81|9.2||Significance level of 0.05.|ANOVA|a random effects ANOVA model with treatment included as fixed effect and center as random effect.||||9.20|5.81|<0.0001
82504091|NCT02357901|164700257|SUPERIORITY||LSM difference|7.5|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|5.82|9.21||Significance level of 0.05.|ANOVA|a random effects ANOVA model with treatment included as fixed effect and center as random effect.||||9.21|5.82|<0.0001
82504092|NCT04259762|164700261|OTHER|This is a summary of the total number of participants in the focus groups who endorsed the particular theme.|Proportion endorsing themes|1.0|||||TWO_SIDED|||||||||All focus groups were summarized together and, therefore, the denominators (N=85 \[Community\], N=11 \[Provider\]) for each theme are the same. Further, the focus groups only made qualitative (and no quantitative) assessments/endoresement of themes. No formal comparisons among groups were made.||||
82504093|NCT04259762|164700263|OTHER|Formal statistical comparisons were not made.|Proportion endorsing attempt to screen|0.567|||||TWO_SIDED|95.0|0.303|0.831|||||"Pooled estimate of attempt to screening. Using R:~n1 \<- c(20,28,11,15,26,23,21); nt \<- c(45,50,45,50,50,50,22) p1 \<- n1/nt; v1 \<- p1\*(1-p1)/nt fit \<- lm(p1 \~ 1,weight=1/v1) summary(fit)$coef\[1\] + qt(.975,6)\*c(0,-1,1)\*summary(fit)$coef\[2\]"|||0.831|0.303|
82504094|NCT01203046|164700264|NON_INFERIORITY_OR_EQUIVALENCE|It was used for the calculation of statistical power an author of 5% level, it was felt that the difference between the minimum value of non inferiority does not exceed 10%.|Odds Ratio (OR)|2.65|||<|0.05|TWO_SIDED|95.0|0.35|19.83|||Regression, Logistic|||||19.83|0.35|<0.05
82504095|NCT01203046|164700265|NON_INFERIORITY_OR_EQUIVALENCE|Consider a 5% confidence level, the power of assigned contrast was 80% to detect a difference minima of at least 10% of equivalence between the analyzed groups.|Odds Ratio (OR)|1.18|||<|0.05|TWO_SIDED|95.0|0.21|6.51|||Regression, Logistic|||||6.51|0.21|<0.05
82504096|NCT03453684|164700266|OTHER||Overall SE of the estimate|0.009|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.45 Standard error of the estimate of w\^2: 0.39|||||
82504097|NCT03453684|164700267|OTHER||Overall Standard Error of the Estimate|9.85|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.61 Standard error of the estimate of ꙍ\^2 (intersubject variability): \^a (fixed to 0)|||||
82504098|NCT03453684|164700268|OTHER||Overall Standard Error of the Estimate|8.37|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.02 Standard error of the estimate of ꙍ\^2 (intersubject variability): \^a (fixed to 0)|||||
82504099|NCT03453684|164700269|OTHER||Overall Standard Error of the Estimate|4.83|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.003 Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.03|||||
82504100|NCT03453684|164700270|OTHER||Overall Standard Error of the Estimate|17.21|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.13|||||
82504101|NCT03453684|164700271|OTHER||SE of the estimate of Typical Value|0.2|||||TWO_SIDED|||||||||||||
82504102|NCT03453684|164700272|OTHER||SE of the estimate of Typical Value|2.1|||||TWO_SIDED||||||||Standard error of the estimate of Typical value should be read as: 2.1E-06 Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.24|||||
82504103|NCT03453684|164700273|OTHER||SE of the estimate of Typical Value|2.3|||||TWO_SIDED||||||||Standard error of the estimate of ꙍ\^2 (intersubject variability): 0.08|||||
82504104|NCT03453684|164700274|OTHER||Overall Standard Error of the Estimate|10.8|||||TWO_SIDED||||||||Standard error of the estimate of Typical value: 0.02|||||
82504105|NCT03453684|164700275|OTHER||SE of the estimate of Typical Value|0.9|||||TWO_SIDED|||||||||||||
82504106|NCT02063516|164700276|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||It was calculated that 80 adult patients randomized from different surgical department would have 80% power to detect a difference in 2 point in mean. Sampling size was determined using 2 sided t-test (alpha=0.05).||||0.04
82504107|NCT02063516|164700277|SUPERIORITY_OR_OTHER|||||||0.836|TWO_SIDED|95.0|||||Chi-squared|||||||0.836
82504108|NCT02063516|164700278|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 30 minutes to maintain cuff pressure 60cmH2O||||0.0035
82504109|NCT02063516|164700278|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 60 minutes to maintain cuff pressure 60cmH2O||||0.003
82504110|NCT02063516|164700278|SUPERIORITY_OR_OTHER|||||||0.0042|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 90 minutes to maintain cuff pressure 60cmH2O||||0.0042
82504111|NCT02063516|164700278|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Amount of air added at 120 minutes to maintain cuff pressure 60cmH2O||||0.004
82504112|NCT02293655|164700280|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|2.6||0.55|TWO_SIDED||||||t-test, 2 sided|||Compared at Baseline Time point||||0.55
82504113|NCT02293655|164700280|SUPERIORITY||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|2.3||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison at MPH Maintenance Visit (Week 8)||||.30
82504114|NCT02293655|164700280|SUPERIORITY||Mean Difference (Final Values)|4.01|STANDARD_ERROR_OF_MEAN|3.9||0.28|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 1 (Week 9)||||.28
82504115|NCT02293655|164700280|SUPERIORITY||Mean Difference (Final Values)|9.64|STANDARD_ERROR_OF_MEAN|2.5||0|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 2 (Week 10)||||.00
82504116|NCT02293655|164700280|SUPERIORITY||Mean Difference (Final Values)|7.96|STANDARD_ERROR_OF_MEAN|3.2||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 3 (Week 12)||||.01
82504117|NCT02293655|164700281|SUPERIORITY||Mean Difference (Final Values)|36.04|STANDARD_ERROR_OF_MEAN|25.4||0.32|TWO_SIDED||||||t-test, 2 sided|||Compared at baseline timepoint||||.32
82504118|NCT02293655|164700281|SUPERIORITY||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|30.1||0.9|TWO_SIDED||||||t-test, 2 sided|||Compared at Maintenance Time Point (week 8)||||.90
82504119|NCT02293655|164700281|SUPERIORITY||Mean Difference (Final Values)|100.81|STANDARD_ERROR_OF_MEAN|37.5||0.007|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 1 (week 9)||||.007
82504120|NCT02293655|164700281|SUPERIORITY||Mean Difference (Final Values)|49.07|STANDARD_ERROR_OF_MEAN|56.6||0.26|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 2 (week 10)||||.26
82504121|NCT02293655|164700281|SUPERIORITY||Mean Difference (Final Values)|123.9|STANDARD_ERROR_OF_MEAN|37.6||0.01|TWO_SIDED||||||t-test, 2 sided|||Compared at Randomization Phase 3 (week 12)||||.01
82504122|NCT02293655|164700282|SUPERIORITY||Mean Difference (Final Values)|31.13|STANDARD_ERROR_OF_MEAN|32.9||0.33|TWO_SIDED||||||t-test, 2 sided|||Comparison at Baseline||||.33
82504123|NCT02293655|164700282|SUPERIORITY||Mean Difference (Final Values)|56.86|STANDARD_ERROR_OF_MEAN|29.5||0.06|TWO_SIDED||||||t-test, 2 sided|||Comparison at Maintenance (week 8)||||.06
82504124|NCT02293655|164700282|SUPERIORITY||Mean Difference (Final Values)|108.78|STANDARD_ERROR_OF_MEAN|46.8||0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 1 (week 9)||||.05
82504125|NCT02293655|164700282|SUPERIORITY||Mean Difference (Final Values)|118.12|STANDARD_ERROR_OF_MEAN|44.2||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 2 (week 10)||||.008
82504126|NCT02293655|164700282|SUPERIORITY||Mean Difference (Final Values)|77.09|STANDARD_ERROR_OF_MEAN|42.9||0.07|TWO_SIDED||||||t-test, 2 sided|||Comparison at Randomization Phase 3 (week 12)||||.07
82504127|NCT03814746|164700298|SUPERIORITY||Rate ratio|1.08|||>|0.999|TWO_SIDED|95.0|0.76|1.55|||negative binomial regression model|||||1.55|0.76|> 0.999
82504128|NCT03814746|164700298|SUPERIORITY||Rate ratio|0.89|||>|0.999|TWO_SIDED|95.0|0.62|1.27|||negative binomial regression model|||||1.27|0.62|> 0.999
82504129|NCT03814746|164700299|SUPERIORITY||Rate ratio|1.21|||||TWO_SIDED|95.0|0.87|1.7|||negative binomial regression model|||||1.70|0.87|
82504130|NCT03814746|164700299|SUPERIORITY||Rate ratio|0.83|||||TWO_SIDED|95.0|0.59|1.17|||negative binomial regression model|||||1.17|0.59|
82504131|NCT03814746|164700304|SUPERIORITY||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.92|1.97|||Cox Model|for time to first occurrence of VOC||||1.97|0.92|
82504132|NCT03814746|164700304|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.72|1.58|||Cox Model|for time to first occurrence of VOC||||1.58|0.72|
82504133|NCT03814746|164700304|SUPERIORITY|for time to second occurrence of VOC|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.81|2.04|||Cox Model|||||2.04|0.81|
82504134|NCT03814746|164700304|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.59|1.54|||Cox Model|for time to second occurrence of VOC||||1.54|0.59|
82504135|NCT03814746|164700305|SUPERIORITY||Rate ratio|1.03|||||TWO_SIDED|95.0|0.75|1.43|||Negative binomial regression model|for the Annualized rate of all visits to clinics, emergency rooms and hospitalizations||||1.43|0.75|
82504136|NCT03814746|164700305|SUPERIORITY||Rate ratio|0.82|||||TWO_SIDED|95.0|0.59|1.14|||Negative binomial regression model|for the Annualized rate of all visits to clinics, emergency rooms and hospitalizations||||1.14|0.59|
82504137|NCT03814746|164700305|SUPERIORITY||Rate ratio|1.11|||||TWO_SIDED|95.0|0.77|1.59|||Negative binomial regression model|for the Annualized rate of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.59|0.77|
82504138|NCT03814746|164700305|SUPERIORITY||Rate ratio|0.87|||||TWO_SIDED|95.0|0.6|1.25|||Negative binomial regression model|for the Annualized rate of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.25|0.60|
82504139|NCT03814746|164700306|SUPERIORITY||Rate ratio|1.34|||||TWO_SIDED|95.0|0.85|2.09|||Negative binomial regression model|for the Annualized days of all visits to clinics, emergency rooms and hospitalizations||||2.09|0.85|
82504140|NCT03814746|164700306|SUPERIORITY||Rate ratio|0.88|||||TWO_SIDED|95.0|0.57|1.38|||Negative binomial regression model|for the Annualized days of all visits to clinics, emergency rooms and hospitalizations||||1.38|0.57|
82504141|NCT03814746|164700306|SUPERIORITY||Rate ratio|1.27|||||TWO_SIDED|95.0|0.77|2.09|||Negative binomial regression model|for the Annualized days of VOC-related visits to clinics, emergency rooms and hospitalizations||||2.09|0.77|
82504142|NCT03814746|164700306|SUPERIORITY||Rate ratio|0.87|||||TWO_SIDED|95.0|0.52|1.44|||Negative binomial regression model|for the Annualized days of VOC-related visits to clinics, emergency rooms and hospitalizations||||1.44|0.52|
82504143|NCT00706979|164700330|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.008|TWO_SIDED|95.0|1.1|1.4|||Regression, Logistic|||A logistic regression model was used to examine the primary hypothesis that NRT-enhanced PQAs would yield a higher rate of any ever-occurring quit attempt.||1.4|1.1|0.008
82504144|NCT00706979|164700331|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.09|TWO_SIDED|95.0|1.0|1.7|||Regression, Logistic|||A logistic regression model was used to examine the secondary hypothesis that NRT-enhanced PQAs would yield a higher rate of 7 days of abstinence at some point during the study.||1.7|1.0|0.09
82504145|NCT00706979|164700332|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.004|TWO_SIDED|95.0|1.1|1.5|||Regression, Logistic|||A logistic regression model was used to examine the primary hypothesis that NRT-enhanced PQAs would yield a higher rate for the primary outcome of any 24hr quit attempt.||1.5|1.1|0.004
82504146|NCT00706979|164700333|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.3|TWO_SIDED|95.0|0.9|1.6|||Regression, Logistic|||A logistic regression model was used to examine the secondary hypothesis that NRT-enhanced PQAs would yield a higher rate for 7 days of abstinence at the six month follow-up.||1.6|0.9|0.3
82504147|NCT01996826|164700334|OTHER|Based on prior studies endothelial rejection episodes tend to occur in the range of about 60% of transplants. We used rates ranging from 50 to 70 % to compute the sample size. We specified the probability of a type 1 error equal to 0.05, study power equal to 80%, a follow-up period of 12 months, and 4% loss to follow-up. Calculations resulted in sample size estimates of between 65 and 124 participants.|Hazard Ratio (HR)|0.35||||0.1|TWO_SIDED|95.0|0.12|1.14|||Log Rank|||Endothelial rejection rates in patients in the treatment group and the control group were calculated using the Kaplan-Meier survival curve. The Kaplan-Meier/product limit estimator is a non-parametric statistical test used to show the probability of an event occurring at a given time interval. The Kaplan-Meier estimator is used to show what the probability of corneal transplant rejection (and therefore transplant survival) after administration of the active treatment or control.||1.14|0.12|0.10
82504148|NCT01996826|164700335|OTHER|The count of ocular adverse events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.|Risk Ratio (RR)|0.92||||0.36|TWO_SIDED|95.0|0.78|1.06|||Fisher Exact|||The incidence of Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||1.06|0.78|0.36
82504149|NCT01996826|164700335|OTHER|Mild ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.63|1.4|||Fisher Exact|||The number of mild severity Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||1.4|0.63|0.82
82504150|NCT01996826|164700335|OTHER|Moderate severity ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.95|||>|0.99|TWO_SIDED|95.0|0.41|2.2|||Fisher Exact|||The number of moderate severity Ocular Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||2.2|0.41|>0.99
82504151|NCT01996826|164700335|OTHER|Severe ocular adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|0.63||||0.51|TWO_SIDED|95.0|0.2|1.9|||Fisher Exact|||Severe ocular adverse events for subjects in intervention group and control group were counted and compared.||1.9|0.20|0.51
82504152|NCT01996826|164700336|OTHER|The incidence of Systematic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were calculated and compared.|Risk Ratio (RR)|0.92||||0.24|TWO_SIDED|95.0|0.79|1.02|||Fisher Exact|||||1.02|0.79|0.24
82504153|NCT01996826|164700336|OTHER|Mild severity systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.62||||0.4|TWO_SIDED|95.0|0.68|3.9|||Fisher Exact|||The number of mild systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||3.9|0.68|0.40
82504154|NCT01996826|164700336|OTHER|Moderate severity systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.95|||>|0.99|TWO_SIDED|95.0|0.26|14.5|||Fisher Exact|||The number of moderate severity systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||14.5|0.26|>0.99
82504155|NCT01996826|164700336|OTHER|Severe systemic adverse events for subjects in intervention group and control group were counted and compared.|Risk Ratio (RR)|1.9|||>|0.99|TWO_SIDED|95.0|0.26|14.5|||Fisher Exact|||The number of severe systemic Adverse Events for subjects in intervention group (Avastin® (bevacizumab) and control group (0.9% NaCl \& Refresh Liquigel) were counted and compared.||14.5|0.26|>0.99
82504156|NCT03329690|164700409|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|CMH test with region as a stratification factor||||||<0.0001
82504157|NCT01817725|164700426|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82504158|NCT00525733|164700480|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Chi-squared|||||||0.46
82504159|NCT00189228|164700485|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||t-test, 2 sided|||This is not a drug study.||||<0.01
82504160|NCT01519960|164700492|OTHER||Odds Ratio (OR)|5.43|||=|0.0043|TWO_SIDED|95.0|1.54|19.2|||Cochran-Mantel-Haenszel|||Analysis stratified by hepatitis B virus (HBV) genotype A versus non-A genotypes and alanine aminotransferase (ALT) less than (\<) 5 times (×) upper limit of normal (ULN) versus greater than or equal to (≥) 5 × ULN at Baseline. The OR was calculated using Group B as reference.||19.2|1.54|= 0.0043
82504161|NCT01519960|164700492|OTHER||||||=|0.3732|||||||Breslow-Day|||||||= 0.3732
82504162|NCT00561080|164700565|NON_INFERIORITY_OR_EQUIVALENCE|Superiority was achieved if the lower bound of the 2-sided 95% CI of the GMT ratio was greater than 1.2|Geometric Mean Titer Ratio (GMTR)|1.11||||0.948|TWO_SIDED|95.0|1.02|1.22|||ANOVA||GMTR = GMT Post Dose 2/GMT Post dose 1|||1.22|1.02|0.948
82504163|NCT00561080|164700565|NON_INFERIORITY_OR_EQUIVALENCE|Superiority was achieved if the lower bound of the 2-sided 95% CI of the GMT ratio was greater than 1.2|GMTR|0.78|||>|0.999|TWO_SIDED|95.0|0.73|0.85|||ANOVA||GMTR = GMT Post Dose 2/GMT Post dose 1|||0.85|0.73|>0.999
82504164|NCT00561080|164700566|SUPERIORITY_OR_OTHER||GMFR|2.35|||||TWO_SIDED|95.0|2.11|2.62|||||GMFR=GMT Post Dose/GMT Pre Dose|||2.62|2.11|
82504165|NCT00561080|164700568|SUPERIORITY_OR_OTHER||GMT Ratio|1.06|||||TWO_SIDED|95.0|0.96|1.17|||||GMT Ratio = Group 2 GMT/Group 1 GMT|ANCOVA model includes country and age at first vaccination as independent variables and baseline antibody titre as covariate. The GMT 12-month post-last dose is the GMT adjusted from the ANCOVA model||1.17|0.96|
82504166|NCT00561080|164700568|SUPERIORITY_OR_OTHER||GMT Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.19|||||GMT Ratio = GMT Group 3/GMT Group 1|ANCOVA model includes country and age at first vaccination as independent variables and baseline antibody titre as covariate. The GMT 12-month post-last dose is the GMT adjusted from the ANCOVA model||1.19|0.98|
82504167|NCT01252940|164700621|NON_INFERIORITY_OR_EQUIVALENCE|A 95% confidence interval (CI) for the difference between treatment groups in the percentages of virologic success was constructed using normal approximation. Noninferiority was assessed using a conventional 95% CI approach, with a noninferiority margin of 12%. It would be concluded that the FTC/RPV/TDF STR group was not inferior to the SBR group if the lower bound of the 2-sided 95% CI of the difference (FTC/RPV/TDF STR - SBR) in the response rate was greater than -12%.|Mean Difference (Net)|3.8|||||TWO_SIDED|95.0|-1.6|9.1||||||||9.1|-1.6|
82504168|NCT00380978|164700655|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence|Risk Ratio (RR)|1.04||||0.65|TWO_SIDED|95.0|0.9|1.2|||Chi-squared, Corrected|||Group sample sizes of 800 in each group achieve 80% power to detect equivalence when the margin of equivalence extends from 0.1 to 0.25||1.20|0.90|0.65
82504169|NCT00380978|164700656|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98||||0.63|TWO_SIDED|95.0|0.8|1.2|||Chi-squared|||There rate of instrumented vaginal delivery will be equal in both groups.||1.20|0.80|0.63
82504170|NCT00380978|164700657|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Log Rank|||||||0.047
82504171|NCT00380978|164700658|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Chi-squared|||||||0.35
82504172|NCT00380978|164700659|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0|||<|0.005|TWO_SIDED|95.0|-4.0|-3.0|||Wilcoxon (Mann-Whitney)|||||-3|-4|<0.005
82504173|NCT00380978|164700660|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Chi-squared, Corrected|||||||<0.005
82504174|NCT00380978|164700661|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Fisher Exact|||||||0.11
82504175|NCT00380978|164700662|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Chi-squared, Corrected|||||||<0.005
82504176|NCT00887354|164700663|SUPERIORITY_OR_OTHER_LEGACY||LS Mean|0.04|||<|0.0001|TWO_SIDED|95.0|0.025|0.055|||Mixed Models Analysis|||||0.055|0.025|<.0001
82504177|NCT01466348|164700680|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.6||||0.0008|TWO_SIDED|95.0|1.5|5.6|||ANOVA|No baseline covariate adjustment was carried out.|A positive difference favors the paracetamol/ caffeine treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||5.6|1.5|0.0008
82504178|NCT01466348|164700681|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.5|||<|0.0001|TWO_SIDED|95.0|4.5|8.4|||ANOVA|No baseline covariate adjustment was applied.|A positive difference favors the paracetamol/ caffeine treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||8.4|4.5|<0.0001
82504179|NCT01955161|164700730|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.9591|TWO_SIDED|95.0|-0.59|1.26||Corrected for multiplicity|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.26|-0.59|0.9591
82504180|NCT01955161|164700730|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||1|TWO_SIDED|95.0|-0.88|0.98||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.98|-0.88|1.000
82504181|NCT01955161|164700731|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.37|1.21||Corrected for multiplicity according toe the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.21|-1.37|1.000
82504182|NCT01955161|164700731|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.66||1|TWO_SIDED|95.0|-1.29|1.31||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||1.31|-1.29|1.000
82504183|NCT01955161|164700732|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.15|0.2||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.20|-0.15|1.000
82504184|NCT01955161|164700732|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.09||1|TWO_SIDED|95.0|-0.34|0.02||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Treatment, country, MMSE stratum, week as fixed effects, baseline score, treatment-by-week, MMSE stratum-by-week, and baseline-by-week interactions|A negative mean difference indicates a treatment effect in favour of idalopirdine.|For demonstrating efficacy of a dose, ADAS-cog total score and either ADCS-ADL23 total score or ADCS CGIC had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for each dose at significance level 2.5%.||0.02|-0.34|1.000
82504185|NCT01010906|164700757|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for mild HI participants.|Geometric Least-Square Mean Ratio|1.82|||||TWO_SIDED|90.0|0.96|3.43||||||||3.43|0.96|
82504186|NCT01010906|164700757|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for moderate HI participants.|Geometric Least-Square Mean Ratio|3.11|||||TWO_SIDED|90.0|1.6|6.04||||||||6.04|1.60|
82504187|NCT01010906|164700757|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval falls within the interval \[0.50, 2.00\], then treatment of HI participants is similar to treatment of healthy matched for severe HI participants.|Geometric Least-Square Mean Ratio|8.42|||||TWO_SIDED|90.0|5.2|13.64||||||||13.64|5.20|
82504188|NCT01010906|164700758|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|1.57|||||TWO_SIDED|90.0|0.76|3.24||||||||3.24|0.76|
82504189|NCT01010906|164700758|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|2.21|||||TWO_SIDED|90.0|1.21|4.03||||||||4.03|1.21|
82504190|NCT01010906|164700758|SUPERIORITY_OR_OTHER||Geometric Least-Square Mean Ratio|6.16|||||TWO_SIDED|90.0|3.9|9.71||||||||9.71|3.90|
82504191|NCT03928847|164700759|SUPERIORITY|The mean EGCG blood levels were compared among 450 mg, 600 mg, and 750 mg groups.|Mean Difference (Net)|250.0|||||TWO_SIDED|||||||||||||
82504192|NCT03928847|164700760|OTHER|ELISA data from each patient before and after EGCG treatment were compared and analyzed with the use of the Wilcoxon signed-rank test (two-tailed).|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82504193|NCT03928847|164700761|OTHER|ELISA data from each patient before and after EGCG treatment were compared and analyzed with the use of the Wilcoxon signed-rank test (two-tailed).|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82504194|NCT03928847|164700762|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
82504195|NCT03928847|164700763|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
82504196|NCT03928847|164700764|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
82504197|NCT00909779|164700829|NON_INFERIORITY_OR_EQUIVALENCE|"The study was powered under a one-sided alternative hypothesis, in which arformoterol is superior to placebo, with a hazard ratio of 0.80 or less. To achieve 80% power, it was necessary to observe 86 total events for the primary endpoint adjusted for interim analysis. Assuming an annual event proportion of 17.3% in the placebo group and 30% lost to follow-up, we anticipated to randomize approximately 900 subjects (450 per arm).~The non-inferiority margin for the hazard ratio is 1.4."|Hazard Ratio (HR)|0.606|||||TWO_SIDED|95.0|0.425|0.864|||Regression, Cox||Hazard ratio was calculated as arformoterol vs. placebo.|"The null hypothesis is: There is 40% or higher excess risk of the primary events in the arformoterol group relative to placebo (a constant hazard ratio of 1.4).~The primary analysis was a Cox proportional hazards regression model, with treatment group, baseline smoking status, sex, age, BMI, and baseline FEV1 as covariates. The hazard ratio and 90% two-sided confidence interval for the hazard ratio (adjusted for the interim analysis) comparing arformoterol to placebo were estimated."||0.864|0.425|
82504198|NCT00117559|164700838|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<.05
82504199|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.8096|||<|0.0001|TWO_SIDED|95.0|15.0866|26.5327|||Mixed Models Analysis|Mixed-effect model was implemented with Restricted Maximum Likelihood (REML) estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95 percent (%) Confidence Interval (CI) were obtained from the model.||26.5327|15.0866|<0.0001
82504200|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4625|||<|0.0001|TWO_SIDED|95.0|18.7321|30.1929|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.1929|18.7321|<0.0001
82504201|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5792||||0.8428|TWO_SIDED|95.0|-6.3385|5.18|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.1800|-6.3385|0.8428
82504202|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9993||||0.4957|TWO_SIDED|95.0|-7.7832|3.7845|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.7845|-7.7832|0.4957
82504203|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9683||||0.7431|TWO_SIDED|95.0|-4.8567|6.7932|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.7932|-4.8567|0.7431
82504204|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.3889|||<|0.0001|TWO_SIDED|95.0|-27.1044|-15.6734|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.6734|-27.1044|<0.0001
82504205|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.809|||<|0.0001|TWO_SIDED|95.0|-28.5584|-17.0596|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.0596|-28.5584|<0.0001
82504206|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-19.8414|||<|0.0001|TWO_SIDED|95.0|-25.6435|-14.0393|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.0393|-25.6435|<0.0001
82504207|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0418|||<|0.0001|TWO_SIDED|95.0|-30.6705|-19.413|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.4130|-30.6705|<0.0001
82504208|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.4618|||<|0.0001|TWO_SIDED|95.0|-32.1455|-20.7782|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.7782|-32.1455|<0.0001
82504209|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4943|||<|0.0001|TWO_SIDED|95.0|-29.244|-17.7445|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.7445|-29.2440|<0.0001
82522937|NCT02460692|164741289|SUPERIORITY|||||||0.1||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|Unstructured covariance model|||||||0.10
82522938|NCT02460692|164741289|SUPERIORITY|||||||0.67||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.67
82504210|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4538||||0.572|TWO_SIDED|95.0|-6.5274|3.6198|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.6198|-6.5274|0.5720
82504211|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9938||||0.0006|TWO_SIDED|95.0|-14.0695|-3.918|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.9180|-14.0695|0.0006
82504212|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8686||||0.4704|TWO_SIDED|95.0|-3.2342|6.9713|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.9713|-3.2342|0.4704
82504213|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0725||||0.4255|TWO_SIDED|95.0|-3.0533|7.1984|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.1984|-3.0533|0.4255
82504214|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3425||||0.8959|TWO_SIDED|95.0|-5.5053|4.8204|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.8204|-5.5053|0.8959
82504215|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3224||||0.1967|TWO_SIDED|95.0|-1.7402|8.385|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.3850|-1.7402|0.1967
82504216|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5264||||0.1733|TWO_SIDED|95.0|-1.5676|8.6203|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.6203|-1.5676|0.1733
82504217|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1113||||0.6697|TWO_SIDED|95.0|-4.0285|6.2512|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2512|-4.0285|0.6697
82504218|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8623|||<|0.0001|TWO_SIDED|95.0|5.8712|15.8535|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||15.8535|5.8712|<0.0001
82504219|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0663|||<|0.0001|TWO_SIDED|95.0|6.0281|16.1045|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.1045|6.0281|<0.0001
82522939|NCT02460692|164741289|SUPERIORITY|||||||0.25||||||The average change of total mood disturbance scores (weeks 5-8, at the treatment period) from baseline were compared between the two arms using an unstructured covariance model, excluding main group effect.|unstructured covariance model|||||||0.25
82522940|NCT02460692|164741290|SUPERIORITY|||||||0.84||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.84
82504220|NCT00975481|164700888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6513||||0.001|TWO_SIDED|95.0|3.5552|13.7474|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||13.7474|3.5552|0.0010
82504221|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.6388|||<|0.0001|TWO_SIDED|95.0|10.5727|22.7049|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||22.7049|10.5727|<0.0001
82504222|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.8432|||<|0.0001|TWO_SIDED|95.0|13.7627|25.9238|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||25.9238|13.7627|<0.0001
82504223|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6121||||0.6029|TWO_SIDED|95.0|-7.7209|4.4967|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.4967|-7.7209|0.6029
82504224|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9241||||0.3477|TWO_SIDED|95.0|-9.0571|3.2089|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.2089|-9.0571|0.3477
82504225|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0908||||0.9769|TWO_SIDED|95.0|-6.085|6.2667|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2667|-6.0850|0.9769
82504226|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.2509|||<|0.0001|TWO_SIDED|95.0|-24.3155|-12.1864|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-12.1864|-24.3155|<0.0001
82504227|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5629|||<|0.0001|TWO_SIDED|95.0|-25.6616|-13.4642|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-13.4642|-25.6616|<0.0001
82504228|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.548|||<|0.0001|TWO_SIDED|95.0|-22.7036|-10.3923|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.3923|-22.7036|<0.0001
82639443|NCT01314261|164993947|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.083
82504229|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4554|||<|0.0001|TWO_SIDED|95.0|-27.4199|-15.4908|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.4908|-27.4199|<0.0001
82504230|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7673|||<|0.0001|TWO_SIDED|95.0|-28.7925|-16.7422||Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Mixed Models Analysis|||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.7422|-28.7925|<0.0001
82639444|NCT01314261|164993947|SUPERIORITY_OR_OTHER|||||||0.515|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.515
82504231|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.7524|||<|0.0001|TWO_SIDED|95.0|-25.8485|-13.6563|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-13.6563|-25.8485|<0.0001
82504232|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0888||||0.0006|TWO_SIDED|95.0|5.3225|18.8551|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.8551|5.3225|0.0006
82504233|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0768||||0.0038|TWO_SIDED|95.0|3.3132|16.8403|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.8403|3.3132|0.0038
82504234|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1875||||0.2257|TWO_SIDED|95.0|-10.989|2.6139|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.6139|-10.9890|0.2257
82504235|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8589||||0.8042|TWO_SIDED|95.0|-7.6927|5.975|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9750|-7.6927|0.8042
82504236|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6335||||0.6399|TWO_SIDED|95.0|-8.5177|5.2506|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.2506|-8.5177|0.6399
82504237|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2763|||<|0.0001|TWO_SIDED|95.0|-23.0228|-9.5229|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.5229|-23.0228|<0.0001
82504238|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9477||||0.0002|TWO_SIDED|95.0|-19.7374|-6.158|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.1580|-19.7374|0.0002
82504239|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7223||||0.0001|TWO_SIDED|95.0|-20.572|-6.8727|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.8727|-20.5720|0.0001
82504240|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2643|||<|0.0001|TWO_SIDED|95.0|-20.9226|-7.606|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-7.6060|-20.9226|<0.0001
82504241|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9356||||0.0016|TWO_SIDED|95.0|-17.6548|-4.2165|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.2165|-17.6548|0.0016
82504242|NCT00975481|164700889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7103||||0.0008|TWO_SIDED|95.0|-18.5055|-4.9151|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.9151|-18.5055|0.0008
82522941|NCT02460692|164741290|SUPERIORITY|||||||0.91||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.91
82504243|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.009|||<|0.0001|TWO_SIDED|95.0|13.7265|34.2916|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||34.2916|13.7265|<0.0001
82504244|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.4156|||<|0.0001|TWO_SIDED|95.0|19.116|39.7151|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||39.7151|19.1160|<0.0001
82504245|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3979||||0.2239|TWO_SIDED|95.0|-16.7479|3.9521|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.9521|-16.7479|0.2239
82504246|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1396||||0.4326|TWO_SIDED|95.0|-14.5328|6.2526|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.2526|-14.5328|0.4326
82504247|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7283||||0.7447|TWO_SIDED|95.0|-12.195|8.7383|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.7383|-12.1950|0.7447
82504248|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.4069|||<|0.0001|TWO_SIDED|95.0|-40.6795|-20.1343|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1343|-40.6795|<0.0001
82504249|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.1487|||<|0.0001|TWO_SIDED|95.0|-38.4812|-17.8161|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.8161|-38.4812|<0.0001
82504250|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7374|||<|0.0001|TWO_SIDED|95.0|-36.1651|-15.3096|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.3096|-36.1651|<0.0001
82504251|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.8134|||<|0.0001|TWO_SIDED|95.0|-45.9257|-25.7012|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-25.7012|-45.9257|<0.0001
82504252|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.5552|||<|0.0001|TWO_SIDED|95.0|-43.7675|-23.3429|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-23.3429|-43.7675|<0.0001
82504253|NCT00975481|164700890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1439|||<|0.0001|TWO_SIDED|95.0|-41.4754|-20.8124|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.8124|-41.4754|<0.0001
82504254|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.8779|||<|0.0001|TWO_SIDED|95.0|19.5658|30.1899|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.1899|19.5658|<0.0001
82504255|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.9857|||<|0.0001|TWO_SIDED|95.0|20.667|31.3043|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||31.3043|20.6670|<0.0001
82504256|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0544||||0.4489|TWO_SIDED|95.0|-3.2911|7.3998|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.3998|-3.2911|0.4489
82504257|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5743||||0.8329|TWO_SIDED|95.0|-4.7941|5.9427|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9427|-4.7941|0.8329
82504258|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6863||||0.5387|TWO_SIDED|95.0|-3.7203|7.0929|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.0929|-3.7203|0.5387
82626044|NCT01068717|164967819|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric least squares (LS) mean|109.53|||||TWO_SIDED|90.0|102.67|116.85||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||116.85|102.67|
82504259|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8235|||<|0.0001|TWO_SIDED|95.0|-28.1283|-17.5187|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.5187|-28.1283|<0.0001
82504260|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.3036|||<|0.0001|TWO_SIDED|95.0|-29.64|-18.9672|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.9672|-29.6400|<0.0001
82504261|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.1916|||<|0.0001|TWO_SIDED|95.0|-28.5768|-17.8064|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.8064|-28.5768|<0.0001
82504262|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9313|||<|0.0001|TWO_SIDED|95.0|-29.1559|-18.7066|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.7066|-29.1559|<0.0001
82522942|NCT02460692|164741290|SUPERIORITY|||||||0.75||||||The average change of beck score (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model, excluding main group effect|unstructured covariance model|||||||0.75
82504263|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4114|||<|0.0001|TWO_SIDED|95.0|-30.6869|-20.1358|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1358|-30.6869|<0.0001
82504264|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2994|||<|0.0001|TWO_SIDED|95.0|-29.6361|-18.9626|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-18.9626|-29.6361|<0.0001
82504265|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4301||||0.5349|TWO_SIDED|95.0|-5.9725|3.1123|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.1123|-5.9725|0.5349
82504266|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1367||||0.0001|TWO_SIDED|95.0|-13.6684|-4.605|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.6050|-13.6684|0.0001
82504267|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3357||||0.5637|TWO_SIDED|95.0|-3.2244|5.8958|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.8958|-3.2244|0.5637
82504268|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4065||||0.8612|TWO_SIDED|95.0|-4.1779|4.9909|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.9909|-4.1779|0.8612
82504269|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9175||||0.6954|TWO_SIDED|95.0|-3.7022|5.5373|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.5373|-3.7022|0.6954
82639445|NCT01314261|164993947|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Cochran-Mantel-Haenszel|Controlled for interleukin 28B genotype (CC or non-CC), HCV sub-genotype (1a or 1b), and baseline HCV RNA levels (≤ median or \> median).||||||0.221
82504270|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7658||||0.2287|TWO_SIDED|95.0|-1.7552|7.2868|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.2868|-1.7552|0.2287
82504271|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8366||||0.4267|TWO_SIDED|95.0|-2.7158|6.389|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.3890|-2.7158|0.4267
82504272|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3476||||0.314|TWO_SIDED|95.0|-2.2429|6.9381|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.9381|-2.2429|0.3140
82504273|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4724|||<|0.0001|TWO_SIDED|95.0|5.9992|14.9456|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.9456|5.9992|<0.0001
82522943|NCT02460692|164741291|SUPERIORITY|||||||0.24||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.24
82639446|NCT01314261|164993948|SUPERIORITY_OR_OTHER|||||||0.155|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.155
82504274|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.5432|||<|0.0001|TWO_SIDED|95.0|5.032|14.0544|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.0544|5.0320|<0.0001
82504275|NCT00975481|164700891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0542|||<|0.0001|TWO_SIDED|95.0|5.494|14.6144|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||14.6144|5.4940|<0.0001
82504276|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4728|||<|0.0001|TWO_SIDED|95.0|9.4718|19.4737|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||19.4737|9.4718|<0.0001
82504277|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7284|||<|0.0001|TWO_SIDED|95.0|14.7131|24.7437|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||24.7437|14.7131|<0.0001
82504278|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2088||||0.9348|TWO_SIDED|95.0|-4.8289|5.2466|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.2466|-4.8289|0.9348
82504279|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7271||||0.5009|TWO_SIDED|95.0|-6.7841|3.3299|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.3299|-6.7841|0.5009
82504280|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3325||||0.8975|TWO_SIDED|95.0|-5.4245|4.7595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.7595|-5.4245|0.8975
82504281|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.264|||<|0.0001|TWO_SIDED|95.0|-19.266|-9.2619|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.2619|-19.2660|<0.0001
82504282|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1999|||<|0.0001|TWO_SIDED|95.0|-21.2294|-11.1704|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-11.1704|-21.2294|<0.0001
82504283|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.8053|||<|0.0001|TWO_SIDED|95.0|-19.8822|-9.7283|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.7283|-19.8822|<0.0001
82504284|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5195|||<|0.0001|TWO_SIDED|95.0|-24.4361|-14.603|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.6030|-24.4361|<0.0001
82504285|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4555|||<|0.0001|TWO_SIDED|95.0|-26.423|-16.488|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.4880|-26.4230|<0.0001
82504286|NCT00975481|164700892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0609|||<|0.0001|TWO_SIDED|95.0|-25.0872|-15.0345|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.0345|-25.0872|<0.0001
82504287|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1634|||<|0.0001|TWO_SIDED|95.0|1.9014|4.4254|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.4254|1.9014|<0.0001
82504288|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6706|||<|0.0001|TWO_SIDED|95.0|3.4066|5.9346|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.9346|3.4066|<0.0001
82504289|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1478||||0.8184|TWO_SIDED|95.0|-1.1217|1.4173|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.4173|-1.1217|0.8184
82504290|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2211||||0.7324|TWO_SIDED|95.0|-1.054|1.4963|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.4963|-1.0540|0.7324
82504291|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0946||||0.8844|TWO_SIDED|95.0|-1.1898|1.3791|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.3791|-1.1898|0.8844
82504292|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0156|||<|0.0001|TWO_SIDED|95.0|-4.2754|-1.7558|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.7558|-4.2754|<0.0001
82504293|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9423|||<|0.0001|TWO_SIDED|95.0|-4.2101|-1.6745|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.6745|-4.2101|<0.0001
82504294|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0688|||<|0.0001|TWO_SIDED|95.0|-4.3484|-1.7891|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.7891|-4.3484|<0.0001
82639447|NCT01314261|164993948|SUPERIORITY_OR_OTHER|||||||0.214|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.214
82639448|NCT01314261|164993948|SUPERIORITY_OR_OTHER|||||||0.231|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.231
82639449|NCT01314261|164993949|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.127
82504295|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5228|||<|0.0001|TWO_SIDED|95.0|-5.7651|-3.2805|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.2805|-5.7651|<0.0001
82522944|NCT02460692|164741291|SUPERIORITY|||||||0.08||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.080
82639450|NCT01314261|164993949|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.328
82504296|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4495|||<|0.0001|TWO_SIDED|95.0|-5.7031|-3.1959|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.1959|-5.7031|<0.0001
82504297|NCT00975481|164700893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.576|||<|0.0001|TWO_SIDED|95.0|-5.8438|-3.3081|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.3081|-5.8438|<0.0001
82504298|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.0798|||<|0.0001|TWO_SIDED|95.0|34.0453|58.1142|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||58.1142|34.0453|<0.0001
82504299|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.8771|||<|0.0001|TWO_SIDED|95.0|37.8247|61.9295|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||61.9295|37.8247|<0.0001
82504300|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5797||||0.9248|TWO_SIDED|95.0|-12.6918|11.5325|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.5325|-12.6918|0.9248
82504301|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3632||||0.5857|TWO_SIDED|95.0|-15.5264|8.8|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.8000|-15.5264|0.5857
82504302|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4225||||0.4768|TWO_SIDED|95.0|-7.827|16.6719|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.6719|-7.8270|0.4768
82504303|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.6594|||<|0.0001|TWO_SIDED|95.0|-58.6804|-34.6385|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-34.6385|-58.6804|<0.0001
82504304|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.443|||<|0.0001|TWO_SIDED|95.0|-61.5346|-37.3514|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-37.3514|-61.5346|<0.0001
82504305|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.6573|||<|0.0001|TWO_SIDED|95.0|-53.86|-29.4546|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-29.4546|-53.8600|<0.0001
82504306|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.4567|||<|0.0001|TWO_SIDED|95.0|-62.2925|-38.621|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-38.6210|-62.2925|<0.0001
82504307|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.2403|||<|0.0001|TWO_SIDED|95.0|-65.1923|-41.2882|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-41.2882|-65.1923|<0.0001
82504308|NCT00975481|164700894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.4546|||<|0.0001|TWO_SIDED|95.0|-57.5459|-33.3633|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-33.3633|-57.5459|<0.0001
82504309|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.845|||<|0.0001|TWO_SIDED|95.0|34.6464|59.0436|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||59.0436|34.6464|<0.0001
82504310|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|57.5013|||<|0.0001|TWO_SIDED|95.0|45.3036|69.6991|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||69.6991|45.3036|<0.0001
82504311|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0913||||0.4129|TWO_SIDED|95.0|-17.3421|7.1595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||7.1595|-17.3421|0.4129
82504312|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1893||||0.8488|TWO_SIDED|95.0|-13.4954|11.1168|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.1168|-13.4954|0.8488
82504313|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1995||||0.4086|TWO_SIDED|95.0|-7.1963|17.5954|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||17.5954|-7.1963|0.4086
82504314|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.9363|||<|0.0001|TWO_SIDED|95.0|-64.1108|-39.7618|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-39.7618|-64.1108|<0.0001
82504315|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.0343|||<|0.0001|TWO_SIDED|95.0|-60.2801|-35.7885|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.7885|-60.2801|<0.0001
82504316|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.6455|||<|0.0001|TWO_SIDED|95.0|-53.9964|-29.2946|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-29.2946|-53.9964|<0.0001
82504317|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.5926|||<|0.0001|TWO_SIDED|95.0|-74.5881|-50.5971|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-50.5971|-74.5881|<0.0001
82504318|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.6906|||<|0.0001|TWO_SIDED|95.0|-70.7965|-46.5847|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-46.5847|-70.7965|<0.0001
82504319|NCT00975481|164700895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-52.3018|||<|0.0001|TWO_SIDED|95.0|-64.5427|-40.0609|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-40.0609|-64.5427|<0.0001
82563970|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.31||||0.29|TWO_SIDED|95.0|0.03|2.76|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 severe asthma exacerbation.|Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||2.76|0.03|0.29
82504320|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4604||||0.0016|TWO_SIDED|95.0|6.321|26.5998|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||26.5998|6.3210|0.0016
82504321|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.9971|||<|0.0001|TWO_SIDED|95.0|17.8247|38.1696|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||38.1696|17.8247|<0.0001
82504322|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1425||||0.8254|TWO_SIDED|95.0|-11.3591|9.0742|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||9.0742|-11.3591|0.8254
82504323|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.747||||0.8858|TWO_SIDED|95.0|-9.5075|11.0015|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.0015|-9.5075|0.8858
82504324|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4279||||0.5128|TWO_SIDED|95.0|-6.8972|13.7529|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||13.7529|-6.8972|0.5128
82504325|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6028||||0.0008|TWO_SIDED|95.0|-27.7485|-7.4572|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-7.4572|-27.7485|0.0008
82504326|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7134||||0.0028|TWO_SIDED|95.0|-25.9136|-5.5132|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-5.5132|-25.9136|0.0028
82639451|NCT01314261|164993949|SUPERIORITY_OR_OTHER|||||||0.166|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.166
82504327|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0325||||0.0135|TWO_SIDED|95.0|-23.3295|-2.7355|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.7355|-23.3295|0.0135
82504328|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.1396|||<|0.0001|TWO_SIDED|95.0|-39.1071|-19.1721|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.1721|-39.1071|<0.0001
82504329|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.2502|||<|0.0001|TWO_SIDED|95.0|-37.3224|-17.178|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-17.1780|-37.3224|<0.0001
82504330|NCT00975481|164700896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.5693|||<|0.0001|TWO_SIDED|95.0|-34.7614|-14.3772|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.3772|-34.7614|<0.0001
82504331|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2535||||0.0005|TWO_SIDED|95.0|0.5623|1.9446|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.9446|0.5623|0.0005
82639452|NCT01314261|164993950|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.007
82504332|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.501|||<|0.0001|TWO_SIDED|95.0|2.8073|4.1948|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.1948|2.8073|<0.0001
82504333|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3418||||0.3347|TWO_SIDED|95.0|-0.3559|1.0396|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.0396|-0.3559|0.3347
82504334|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3208||||0.3678|TWO_SIDED|95.0|-0.3808|1.0225|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.0225|-0.3808|0.3678
82504335|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.9197|TWO_SIDED|95.0|-0.6686|0.7406|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.7406|-0.6686|0.9197
82504336|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9117||||0.0099|TWO_SIDED|95.0|-1.6013|-0.222|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2220|-1.6013|0.0099
82504337|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9326||||0.0088|TWO_SIDED|95.0|-1.6269|-0.2384|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2384|-1.6269|0.0088
82504338|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2175||||0.0008|TWO_SIDED|95.0|-1.9171|-0.5178|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.5178|-1.9171|0.0008
82504339|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1592|||<|0.0001|TWO_SIDED|95.0|-3.838|-2.4804|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.4804|-3.8380|<0.0001
82504340|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1802|||<|0.0001|TWO_SIDED|95.0|-3.8656|-2.4947|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.4947|-3.8656|<0.0001
82504341|NCT00975481|164700897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.465|||<|0.0001|TWO_SIDED|95.0|-4.1583|-2.7717|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.7717|-4.1583|<0.0001
82504342|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2943|||<|0.0001|TWO_SIDED|95.0|4.0783|6.5102|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||6.5102|4.0783|<0.0001
82522945|NCT02460692|164741291|SUPERIORITY|||||||0.005||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.005
82522946|NCT02460692|164741292|SUPERIORITY|||||||0.6|||||||unstructured covariance model|||||||0.60
82522947|NCT02460692|164741292|SUPERIORITY|||||||0.4|||||||unstructured covariance model|||||||0.40
82442126|NCT01149486|164592711|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|111.62|||||TWO_SIDED|90.0|101.47|122.79|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||122.79|101.47|
82442127|NCT01149486|164592712|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.8|||||TWO_SIDED|90.0|99.58|112.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.41|99.58|
82442128|NCT01149486|164592713|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.55|||||TWO_SIDED|90.0|99.64|111.82|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.82|99.64|
82442129|NCT01149486|164592714|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.78|||||TWO_SIDED|90.0|98.96|115.23|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||115.23|98.96|
82442130|NCT01149486|164592715|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.37|||||TWO_SIDED|90.0|98.75|106.14|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.14|98.75|
82442131|NCT01149486|164592716|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.3|||||TWO_SIDED|90.0|98.72|106.01|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.01|98.72|
82442132|NCT02961790|164592720|SUPERIORITY|||||||0.0041|||||||Kruskal-Wallis|||||||0.0041
82442133|NCT02961790|164592720|SUPERIORITY|||||||0.0001|||||||Kruskal-Wallis|||||||0.0001
82442134|NCT02961790|164592721|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Adjusted for effects specified in outcome measure description.||||||<0.0001
82442135|NCT02961790|164592722|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Adjusted for effects specified in outcome measure description.||||||<0.0001
82442136|NCT02961790|164592723|SUPERIORITY|||||||0.0174|||||||Kruskal-Wallis|||||||0.0174
82442137|NCT02961790|164592723|SUPERIORITY|||||||0.0279|||||||Kruskal-Wallis|||||||0.0279
82442138|NCT02961790|164592724|SUPERIORITY|||||||0.0011|||||||Kruskal-Wallis|||||||0.0011
82442139|NCT02961790|164592724|SUPERIORITY|||||||0.0025|||||||Kruskal-Wallis|||||||0.0025
82442140|NCT02042534|164592751|SUPERIORITY_OR_OTHER|||||||0.6765|||||||Chi-squared|||||||0.6765
82442141|NCT02042534|164592752|SUPERIORITY_OR_OTHER|||||||0.3753|||||||Chi-squared|||||||0.3753
82442142|NCT02042534|164592753|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||<.0001
82442143|NCT02042534|164592754|SUPERIORITY_OR_OTHER|||||||0.3301|||||||Cochran-Mantel-Haenszel|||||||0.3301
82442144|NCT03906656|164592757|SUPERIORITY||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|8.1||0.0002|TWO_SIDED|||||Adjusted p-values based on Holm-Bonferroni method. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided||Mean difference is for paired data (n=73). This explains the discrepancy between the mean difference and the difference between the KAFO and C-Brace means (n=86 and n=77, respectively).|H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0002
82442145|NCT03906656|164592757|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|9.7|<|1e-05|TWO_SIDED|||||Adjusted p-values based on Holm-Bonferroni method. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided||Mean difference is for paired data (n=77). This explains the discrepancy between the mean difference and the difference between the KAFO and C-Brace means (n=86 and n=77, respectively).|H0: the mean difference (C-Brace - Baseline) \<= 0.||||<0.00001
82442146|NCT03906656|164592757|SUPERIORITY||Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|6.3|<|1e-05|TWO_SIDED||||||t-test, 2 sided||Mean difference is for paired data (n=86). This explains the discrepancy between the mean difference and the difference between the Baseline and KAFO means (n=102 and n=86, respectively).|KAFO vs. Baseline -- H0: the mean difference (KAFO - Baseline) \<= 0.||||<0.00001
82442147|NCT03906656|164592758|SUPERIORITY||Mean Difference (Final Values)|7.05|STANDARD_DEVIATION|26.3||0.005|TWO_SIDED|||||P-value not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|63.6 degrees of freedom.||H0: the mean difference (C-Brace - KAFO) \<= 0||||0.005
82522948|NCT02460692|164741292|SUPERIORITY|||||||0.72|||||||unstructured covariance model|||||||0.72
82504343|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8983|||<|0.0001|TWO_SIDED|95.0|5.6799|8.1167|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.1167|5.6799|<0.0001
82504344|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6545||||0.2917|TWO_SIDED|95.0|-0.5676|1.8767|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.8767|-0.5676|0.2917
82504345|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8489||||0.1738|TWO_SIDED|95.0|-0.3784|2.0763|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.0763|-0.3784|0.1738
82504346|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9372||||0.1373|TWO_SIDED|95.0|-0.3024|2.1767|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.1767|-0.3024|0.1373
82504347|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6397|||<|0.0001|TWO_SIDED|95.0|-5.8537|-3.4257|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.4257|-5.8537|<0.0001
82504348|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4453|||<|0.0001|TWO_SIDED|95.0|-5.6662|-3.2244|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.2244|-5.6662|<0.0001
82504349|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3571|||<|0.0001|TWO_SIDED|95.0|-5.5887|-3.1255|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-3.1255|-5.5887|<0.0001
82504350|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2437|||<|0.0001|TWO_SIDED|95.0|-7.4397|-5.0477|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-5.0477|-7.4397|<0.0001
82504351|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0493|||<|0.0001|TWO_SIDED|95.0|-7.2568|-4.8419|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.8419|-7.2568|<0.0001
82504352|NCT00975481|164700898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9611|||<|0.0001|TWO_SIDED|95.0|-7.1812|-4.741|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-4.7410|-7.1812|<0.0001
82504353|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.6205|||<|0.0001|TWO_SIDED|95.0|-33.1192|-20.1219|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-20.1219|-33.1192|<0.0001
82563971|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.51||||0.58|TWO_SIDED|95.0|0.05|5.68|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link||Outcome= severe asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 severe asthma exacerbation.|5.68|0.05|0.58
82504354|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.5724|||<|0.0001|TWO_SIDED|95.0|-39.1073|-26.0375|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.0375|-39.1073|<0.0001
82504355|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8966||||0.5685|TWO_SIDED|95.0|-4.6607|8.454|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.4540|-4.6607|0.5685
82504356|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5761||||0.2848|TWO_SIDED|95.0|-10.159|3.0068|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.0068|-10.1590|0.2848
82504357|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1754||||0.344|TWO_SIDED|95.0|-9.7855|3.4347|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.4347|-9.7855|0.3440
82504358|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5172|||<|0.0001|TWO_SIDED|95.0|22.0454|34.989|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||34.9890|22.0454|<0.0001
82504359|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0445|||<|0.0001|TWO_SIDED|95.0|16.5383|29.5506|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||29.5506|16.5383|<0.0001
82504360|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4452|||<|0.0001|TWO_SIDED|95.0|16.8772|30.0131|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||30.0131|16.8772|<0.0001
82504361|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.469|||<|0.0001|TWO_SIDED|95.0|28.1136|40.8244|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||40.8244|28.1136|<0.0001
82504362|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.9963|||<|0.0001|TWO_SIDED|95.0|22.5734|35.4192|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||35.4192|22.5734|<0.0001
82504363|NCT00975481|164700899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.397|||<|0.0001|TWO_SIDED|95.0|22.8946|35.8994|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||35.8994|22.8946|<0.0001
82504364|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.6044|||<|0.0001|TWO_SIDED|95.0|33.4091|59.7996|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||59.7996|33.4091|<0.0001
82522949|NCT02460692|164741293|SUPERIORITY|||||||0.19||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.19
82522950|NCT02460692|164741293|SUPERIORITY|||||||0.7||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.70
82504365|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.7222|||<|0.0001|TWO_SIDED|95.0|37.5038|63.9407|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||63.9407|37.5038|<0.0001
82504366|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6987||||0.9174|TWO_SIDED|95.0|-13.9815|12.584|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||12.5840|-13.9815|0.9174
82504367|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5629||||0.5002|TWO_SIDED|95.0|-17.9006|8.7749|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||8.7749|-17.9006|0.5002
82504368|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3982||||0.3482|TWO_SIDED|95.0|-7.0337|19.8301|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||19.8301|-7.0337|0.3482
82504369|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.3031|||<|0.0001|TWO_SIDED|95.0|-60.4869|-34.1193|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-34.1193|-60.4869|<0.0001
82504370|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.1672|||<|0.0001|TWO_SIDED|95.0|-64.4276|-37.9069|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-37.9069|-64.4276|<0.0001
82504371|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.2062|||<|0.0001|TWO_SIDED|95.0|-53.589|-26.8234|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.8234|-53.5890|<0.0001
82504372|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.421|||<|0.0001|TWO_SIDED|95.0|-64.3974|-38.4445|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-38.4445|-64.3974|<0.0001
82504373|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.2851|||<|0.0001|TWO_SIDED|95.0|-68.3904|-42.1798|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-42.1798|-68.3904|<0.0001
82639453|NCT01314261|164993950|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.029
82504374|NCT00975481|164700900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.3241|||<|0.0001|TWO_SIDED|95.0|-57.5825|-31.0656|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||Mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-31.0656|-57.5825|<0.0001
82504375|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.3823|||<|0.0001|TWO_SIDED|95.0|-62.1244|-30.6401|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI was obtained from the model.||-30.6401|-62.1244|<0.0001
82504376|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.5199|||<|0.0001|TWO_SIDED|95.0|-67.2633|-35.7765|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.7765|-67.2633|<0.0001
82639454|NCT01314261|164993950|SUPERIORITY_OR_OTHER|||||||0.105|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Log Rank|||||||0.105
82504377|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0366||||0.4524|TWO_SIDED|95.0|-9.7924|21.8657|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||21.8657|-9.7924|0.4524
82504378|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4423||||0.762|TWO_SIDED|95.0|-13.4599|18.3446|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.3446|-13.4599|0.7620
82504379|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1573||||0.9846|TWO_SIDED|95.0|-15.8609|16.1754|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||16.1754|-15.8609|0.9846
82504380|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.4189|||<|0.0001|TWO_SIDED|95.0|36.7157|68.1221|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||68.1221|36.7157|<0.0001
82504381|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.8246|||<|0.0001|TWO_SIDED|95.0|33.0228|64.6264|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||64.6264|33.0228|<0.0001
82504382|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.5395|||<|0.0001|TWO_SIDED|95.0|30.5968|62.4823|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||62.4823|30.5968|<0.0001
82626045|NCT01068717|164967819|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|100.37|||||TWO_SIDED|90.0|85.7|117.56||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||117.56|85.70|
82504383|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|57.5565|||<|0.0001|TWO_SIDED|95.0|42.0679|73.0451|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||73.0451|42.0679|<0.0001
82504384|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.9622|||<|0.0001|TWO_SIDED|95.0|38.3293|69.5952|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||69.5952|38.3293|<0.0001
82504385|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.6772|||<|0.0001|TWO_SIDED|95.0|35.866|67.4884|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For placebo, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||67.4884|35.8660|<0.0001
82504386|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.4454||||0.0003|TWO_SIDED|95.0|17.7051|57.1857|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||57.1857|17.7051|0.0003
82522951|NCT02460692|164741293|SUPERIORITY|||||||0.36||||||The average change of pain sensitivity (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model|unstructured covariance model|||||||0.36
82504387|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.6714|||<|0.0001|TWO_SIDED|95.0|22.2888|61.054|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||61.0540|22.2888|<0.0001
82504388|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.7583||||0.0744|TWO_SIDED|95.0|-37.2956|1.7789|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.7789|-37.2956|0.0744
82504389|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5551||||0.3458|TWO_SIDED|95.0|-29.5573|10.4471|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||10.4471|-29.5573|0.3458
82504390|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.792||||0.9375|TWO_SIDED|95.0|-19.1777|20.7616|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||20.7616|-19.1777|0.9375
82504391|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.2037|||<|0.0001|TWO_SIDED|95.0|-74.8113|-35.5961|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-35.5961|-74.8113|<0.0001
82504392|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.0005|||<|0.0001|TWO_SIDED|95.0|-67.002|-26.9989|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-26.9989|-67.0020|<0.0001
82626046|NCT01068717|164967820|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.02|||||TWO_SIDED|90.0|91.29|107.41||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states||107.41|91.29|
82504393|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.6534||||0.0004|TWO_SIDED|95.0|-56.7246|-16.5822|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-16.5822|-56.7246|0.0004
82504394|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-59.4297|||<|0.0001|TWO_SIDED|95.0|-78.5162|-40.3433|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-40.3433|-78.5162|<0.0001
82504395|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.2265|||<|0.0001|TWO_SIDED|95.0|-70.8131|-31.6399|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-31.6399|-70.8131|<0.0001
82504396|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8794||||0.0001|TWO_SIDED|95.0|-60.4726|-21.2862|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For benzodiazepines, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-21.2862|-60.4726|0.0001
82522952|NCT02460692|164741294|SUPERIORITY|||||||0.14|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.14
82522953|NCT02460692|164741294|SUPERIORITY|||||||0.6|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.60
82504397|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.5197||||0.0102|TWO_SIDED|95.0|5.7096|41.3298|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.3298|5.7096|0.0102
82504398|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.7321||||0.0021|TWO_SIDED|95.0|10.3632|45.1011|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||45.1011|10.3632|0.0021
82504399|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7334||||0.5935|TWO_SIDED|95.0|-22.2807|12.814|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||12.8140|-22.2807|0.5935
82504400|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5486||||0.6945|TWO_SIDED|95.0|-14.3397|21.437|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||21.4370|-14.3397|0.6945
82504401|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2936||||0.4177|TWO_SIDED|95.0|-10.4975|25.0847|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||25.0847|-10.4975|0.4177
82504402|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.2531||||0.0019|TWO_SIDED|95.0|-45.802|-10.7042|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.7042|-45.8020|0.0019
82504403|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9711||||0.0299|TWO_SIDED|95.0|-37.9541|-1.988|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.9880|-37.9541|0.0299
82504404|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2261||||0.0759|TWO_SIDED|95.0|-34.1785|1.7264|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.7264|-34.1785|0.0759
82504405|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.4655||||0.0002|TWO_SIDED|95.0|-49.2278|-15.7032|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.7032|-49.2278|0.0002
82639455|NCT01314261|164993953|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.028
82639456|NCT01314261|164993953|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.051
82504406|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1835||||0.0069|TWO_SIDED|95.0|-41.5832|-6.7838|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.7838|-41.5832|0.0069
82522954|NCT02460692|164741294|SUPERIORITY|||||||0.34|||||||Regression, Linear|||Change in withdrawal intensity from week 8 to week 10 was compared between the two arms.||||.34
82522955|NCT02460692|164741295|SUPERIORITY|||||||0.34|||||||unstructured covariance model|||||||0.34
82522956|NCT02460692|164741295|SUPERIORITY|||||||0.007|||||||unstructured covariance model|||||||0.007
82522957|NCT02460692|164741295|SUPERIORITY|||||||0.055|||||||unstructured covariance model|||||||0.055
82522958|NCT02460692|164741296|SUPERIORITY|||||||0.69|||||||unstructured covariance model|||||||0.69
82522959|NCT02460692|164741296|SUPERIORITY|||||||0.79|||||||unstructured covariance model|||||||0.79
82504407|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4385||||0.0222|TWO_SIDED|95.0|-37.8861|-2.991|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For codeine/morphine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.9910|-37.8861|0.0222
82504408|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.589||||0.0002|TWO_SIDED|95.0|12.0126|37.1654|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||37.1654|12.0126|0.0002
82504409|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.11|||<|0.0001|TWO_SIDED|95.0|16.4903|41.7298|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.7298|16.4903|<0.0001
82504410|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6428||||0.6809|TWO_SIDED|95.0|-10.0309|15.3165|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||15.3165|-10.0309|0.6809
82504411|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3215||||0.6067|TWO_SIDED|95.0|-16.0415|9.3985|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||9.3985|-16.0415|0.6067
82504412|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4722||||0.3999|TWO_SIDED|95.0|-7.335|18.2795|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||18.2795|-7.3350|0.3999
82504413|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.9461||||0.0007|TWO_SIDED|95.0|-34.5327|-9.3596|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-9.3596|-34.5327|0.0007
82504414|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.9105|||<|0.0001|TWO_SIDED|95.0|-40.564|-15.257|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-15.2570|-40.5640|<0.0001
82504415|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1168||||0.0036|TWO_SIDED|95.0|-31.8907|-6.3428|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-6.3428|-31.8907|0.0036
82504416|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.4672|||<|0.0001|TWO_SIDED|95.0|-38.8298|-14.1046|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-14.1046|-38.8298|<0.0001
82504417|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.4315|||<|0.0001|TWO_SIDED|95.0|-44.925|-19.938|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-19.9380|-44.9250|<0.0001
82522960|NCT02460692|164741296|SUPERIORITY|||||||0.97|||||||unstructured covariance model|||||||0.97
82522961|NCT02460692|164741297|SUPERIORITY|||||||0.21||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.21
82639457|NCT01314261|164993953|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Regression, Logistic|Treatment group, baseline HCV RNA level, HCV sub-genotype (1a or 1b), and interleukin 28B genotype (CC or non-CC) were predictors.||||||0.021
82504418|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.6378||||0.0003|TWO_SIDED|95.0|-36.2802|-10.9954|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For THC, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-10.9954|-36.2802|0.0003
82504419|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6675||||0.9728|TWO_SIDED|95.0|-39.708|41.043|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||41.0430|-39.7080|0.9728
82504420|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.7977||||0.0246|TWO_SIDED|95.0|6.1059|79.4894|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||79.4894|6.1059|0.0246
82504421|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5411||||0.7068|TWO_SIDED|95.0|-33.785|48.8672|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||48.8672|-33.7850|0.7068
82504422|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7069||||0.5492|TWO_SIDED|95.0|-26.0358|47.4496|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||47.4496|-26.0358|0.5492
82504423|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1248||||0.5899|TWO_SIDED|95.0|-31.3098|53.5595|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||53.5595|-31.3098|0.5899
82504424|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8736||||0.6998|TWO_SIDED|95.0|-29.8691|43.6163|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||43.6163|-29.8691|0.6998
82504425|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0394||||0.6187|TWO_SIDED|95.0|-31.4818|51.5606|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||51.5606|-31.4818|0.6187
82504426|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4573||||0.5863|TWO_SIDED|95.0|-29.0355|49.9502|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||49.9502|-29.0355|0.5863
82504427|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.2566||||0.0832|TWO_SIDED|95.0|-75.608|5.0948|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||5.0948|-75.6080|0.0832
82504428|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.0907||||0.0827|TWO_SIDED|95.0|-68.7519|4.5704|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||4.5704|-68.7519|0.0827
82504429|NCT00975481|164700901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.6728||||0.1386|TWO_SIDED|95.0|-74.5352|11.1895|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For pseudoephedrine, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||11.1895|-74.5352|0.1386
82522962|NCT02460692|164741297|SUPERIORITY|||||||0.029||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.029
82504430|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3637||||0.1691|TWO_SIDED|95.0|-0.1566|0.884|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.8840|-0.1566|0.1691
82504431|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8444||||0.0017|TWO_SIDED|95.0|0.3238|1.365|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||1.3650|0.3238|0.0017
82504432|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2093||||0.4305|TWO_SIDED|95.0|-0.3141|0.7327|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.7327|-0.3141|0.4305
82504433|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1206||||0.6517|TWO_SIDED|95.0|-0.4064|0.6476|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.6476|-0.4064|0.6517
82504434|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0374||||0.8892|TWO_SIDED|95.0|-0.5666|0.4919|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.4919|-0.5666|0.8892
82504435|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1544||||0.5576|TWO_SIDED|95.0|-0.6737|0.3649|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.3649|-0.6737|0.5576
82504436|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2431||||0.3594|TWO_SIDED|95.0|-0.7658|0.2796|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.2796|-0.7658|0.3594
82504437|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4011||||0.1355|TWO_SIDED|95.0|-0.9291|0.127|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.1270|-0.9291|0.1355
82504438|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6351||||0.0153|TWO_SIDED|95.0|-1.1466|-0.1236|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.1236|-1.1466|0.0153
82504439|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7238||||0.0065|TWO_SIDED|95.0|-1.2418|-0.2059|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.2059|-1.2418|0.0065
82522963|NCT02460692|164741297|SUPERIORITY|||||||0.001||||||Area under the time concentration curve (AUC) was calculated as the aggregate effect of response and compared between the arms.|Regression, Linear|||||||0.001
82522964|NCT02460692|164741298|SUPERIORITY|||||||0.084|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.084
82522965|NCT02460692|164741298|SUPERIORITY|||||||0.98|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.98
82522966|NCT02460692|164741298|SUPERIORITY|||||||0.085|||||||Regression, Linear|||Change in negative impact of withdrawal from week 8 to week 10 was compared between the two arms.||||0.085
82522967|NCT02460692|164741299|SUPERIORITY|||||||0.95||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model|unstructured covariance model|||||||0.95
82522968|NCT02460692|164741299|SUPERIORITY|||||||0.78||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.78
82563972|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.5||||0.02|TWO_SIDED|95.0|0.27|0.91|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||0.91|0.27|0.02
82504440|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8818||||0.0011|TWO_SIDED|95.0|-1.4042|-0.3594|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emax, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-0.3594|-1.4042|0.0011
82504441|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1614|||<|0.0001|TWO_SIDED|95.0|-2.9373|-1.3856|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-1.3856|-2.9373|<0.0001
82504442|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0336|||<|0.0001|TWO_SIDED|95.0|-3.8085|-2.2587|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||-2.2587|-3.8085|<0.0001
82504443|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2791||||0.4804|TWO_SIDED|95.0|-1.0586|0.5004|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.5004|-1.0586|0.4804
82504444|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.9519|TWO_SIDED|95.0|-0.7608|0.8087|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.8087|-0.7608|0.9519
82504445|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.497||||0.2152|TWO_SIDED|95.0|-1.286|0.2921|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||0.2921|-1.2860|0.2152
82504446|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8824|||<|0.0001|TWO_SIDED|95.0|1.1094|2.6553|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.6553|1.1094|<0.0001
82504447|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1854|||<|0.0001|TWO_SIDED|95.0|1.407|2.9638|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.9638|1.4070|<0.0001
82504448|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6645|||<|0.0001|TWO_SIDED|95.0|0.8786|2.4503|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||2.4503|0.8786|<0.0001
82626047|NCT01068717|164967820|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|100.21|||||TWO_SIDED|90.0|96.86|103.67||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||103.67|96.86|
82504449|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7545|||<|0.0001|TWO_SIDED|95.0|1.9912|3.5179|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.5179|1.9912|<0.0001
82522969|NCT02460692|164741299|SUPERIORITY|||||||0.99||||||The average change of pain tolerance (weeks 5-8 at the treatment period) from baseline were compared between the arms using an unstructured covariance model.|unstructured covariance model|||||||0.99
82504450|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0576|||<|0.0001|TWO_SIDED|95.0|2.2858|3.8294|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.8294|2.2858|<0.0001
82504451|NCT00975481|164700902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5366|||<|0.0001|TWO_SIDED|95.0|1.7578|3.3155|||Mixed Models Analysis|Mixed-effect model was implemented with REML estimation method and Kenward-Roger degrees of freedom algorithm.||For Emin, mixed-effect model was used which included treatment, period and sequence as fixed effects, baseline measurement as covariate where applicable, and participant nested within sequence as random effect. The estimates of adjusted mean differences and corresponding 95% CI were obtained from the model.||3.3155|1.7578|<0.0001
82504452|NCT04351087|164700911|EQUIVALENCE|Power analysis based on (MCID) for the KOOS-Pain, alpha 0.05 \& SD 15 points, 88 patients (44/group) would be required to detect a 9-point difference between treatment groups with 80% power. Due to change in regulatory requirements during accrual, enrollment was halted at 79 patients with 71 meeting inclusion criteria. A repeated power calculation demonstrated that the study achieved 56% power to detect a between-group difference in excess of the 9-point MCID for the KOOS-Pain.|Mean Difference (Final Values)|2.17||||0.69|TWO_SIDED|95.0|-8.57|12.92|||t-test, 2 sided|||||12.92|-8.57|0.69
82504453|NCT05517382|164700921|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||At baseline||||0.20
82504454|NCT05517382|164700921|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||At Post game||||0.59
82504455|NCT05517382|164700921|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||At 3 month||||0.94
82504456|NCT05517382|164700921|SUPERIORITY|||||||0.55|||||||GEE|Controlling for baseline thriving status, this reflects the interaction between the intervention group and time.||||||0.55
82504457|NCT05517382|164700922|SUPERIORITY||Mean Difference (Net)|-0.09||||0.1759|TWO_SIDED|95.0|-0.23|0.04|||Mixed Models Analysis||Group effect.|At post game.||0.04|-0.23|0.1759
82504458|NCT05517382|164700922|SUPERIORITY||Mean Difference (Net)|-0.16||||0.0857|TWO_SIDED|95.0|-0.35|0.02|||Mixed Models Analysis||Group effect.|At 3 month||0.02|-0.35|0.0857
82504459|NCT02461225|164700964|SUPERIORITY||||||<|0.0005|||||||Fisher Exact|||||||<.0005
82504460|NCT02461225|164700965|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82504461|NCT00651755|164700971|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.2|||||TWO_SIDED|90.0|1.08|1.33|||90% CI||Ratio Geometric Mean AUC (Area Under Curve) of Analyte,CP, between Aprepitant treatment to control Group.|||1.33|1.08|
82504462|NCT00651755|164700972|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|ratio Geometric mean AUC|0.75|STANDARD_DEVIATION|0.29|||TWO_SIDED|95.0|0.65|0.86|||equivalence analysis||The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment and the control group|||0.86|0.65|
82504463|NCT00651755|164700973|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|0.97|STANDARD_DEVIATION|0.35|||TWO_SIDED|90.0|0.83|1.13|||equivalence analysis|The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment to the control group|Ratio Geometric Mean AUC of Analyte, 4-OHCP, between Aprepitant treatment to control Group|||1.13|0.83|
82504464|NCT00651755|164700974|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.04|STANDARD_DEVIATION|0.68|||TWO_SIDED|90.0|0.82|1.33|||equivalence analysis||Ratio Geometric Mean AUC (Area Under Curve) of Analyte, VC, Between Aprepitant treatment to control Group.|||1.33|0.82|
82504465|NCT00651755|164700975|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.08|STANDARD_DEVIATION|0.17||||90.0|1.02|1.15|||equivalence analysis||The geometric mean AUC ratio is the ratio of geometric mean AUC between aprepitant treatment and the control group.|||1.15|1.02|
82504466|NCT00651755|164700976|NON_INFERIORITY_OR_EQUIVALENCE|The absence of pharmacokinetic drug interactions can be determined if the 90% CI of the geometric mean AUC ratio between 2 groups is within 0.80 to 1.25.|Ratio Geometric Mean AUC|1.16|STANDARD_DEVIATION|0.47|||TWO_SIDED|90.0|1.01|1.32|||equivalence analysis||Ratio Geometric Mean AUC (Area Under Curve) of Analyte,PL, Between Aprepitant treatment to control Group.|||1.32|1.01|
82504467|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||||95.0|0.47|1.66|||Cochran-Mantel-Haenszel|||||1.66|0.47|
82504468|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28||||||95.0|0.14|0.59|||Cochran-Mantel-Haenszel|||||0.59|0.14|
82563973|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.23||||0.03|TWO_SIDED|95.0|0.06|0.86|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||0.86|0.06|0.03
82504469|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||||95.0|0.12|0.48|||Cochran-Mantel-Haenszel|||||0.48|0.12|
82504470|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||||95.0|0.17|0.59|||Cochran-Mantel-Haenszel|||||0.59|0.17|
82504471|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||||95.0|0.15|0.49|||Cochran-Mantel-Haenszel|||||0.49|0.15|
82504472|NCT00624052|164700977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||||95.0|0.42|1.68|||Cochran-Mantel-Haenszel|||||1.68|0.42|
82504473|NCT03479307|164701070|SUPERIORITY||Mean Difference (Final Values)|-0.71|||<|0.0001|TWO_SIDED|95.0|-1.013|-0.407|||ANCOVA|||Treatment Difference (95% CI): Bilastine Ophthalmic Solution 0.6% arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 4b (including all time points).||-0.407|-1.013|< 0.0001
82504474|NCT03479307|164701070|SUPERIORITY||Mean Difference (Final Values)|-1.167|||<|0.0001|TWO_SIDED|95.0|-1.439|-0.895|||ANCOVA|||Treatment Difference (95% CI): Bilastine Ophthalmic Solution 0.6% arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 5 (including all time points).||-0.895|-1.439|< 0.0001
82504475|NCT03479307|164701070|SUPERIORITY||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.413|-0.868|||ANCOVA|||Treatment Difference (95% CI): Ketotifen Ophthalmic Solution 0.025% (Zaditen) arm minus Vehicle of Bilastine Ophthalmic Solution arm at Visit 5 (including all time points).||-0.868|-1.413|< 0.0001
82504476|NCT03479307|164701070|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|0.009||||0.0007|ONE_SIDED|97.5||0.235|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 3 minutes Post-CAC (non-inferiority test).||0.235||0.0007
82504477|NCT03479307|164701070|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|-0.077||||0.0002|ONE_SIDED|97.5||0.175|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 5 minutes Post-CAC (non-inferiority test).||0.175||0.0002
82504478|NCT03479307|164701070|NON_INFERIORITY|Non-inferiority margin of 0.40|Mean Difference (Final Values)|-0.159|||<|0.0001|ONE_SIDED|97.5||0.101|||ANCOVA|||Treatment Difference (one-sided, 97.5% CI): Bilastine Ophthalmic Solution 0.6% arm minus Ketotiphen Ophthalmic Solution 0.025% (Zaditen) arm at Visit 5, 7 minutes Post-CAC (non-inferiority test).||0.101||< 0.0001
82504479|NCT01464346|164701071|SUPERIORITY_OR_OTHER||Intercept from ANCOVA as agreement rate|88.01|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED|95.0|85.69|90.33|||ANCOVA|Mixed effects model was used, with day of sensor wear(1,3 or 6) as covariate. Day was centered to 0 to permit interpretation of the model intercept||||90.33|85.69|<0.05
82504480|NCT01464346|164701072|SUPERIORITY_OR_OTHER||Intercept from ANCOVA as agreement rate|90.52|STANDARD_ERROR_OF_MEAN|0.9|<|0.05|TWO_SIDED|95.0|88.77|92.28|||ANCOVA|Mixed effects model was used, with day of sensor wear(1,3 or 6) as covariate. Day was centered to 0 to permit interpretation of the model intercept||||92.28|88.77|< 0.05
82504481|NCT02295995|164701078|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for physical activity in this sample was 1.37|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
82504482|NCT02295995|164701079|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for PCL-5 in this sample was 0.38|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
82504483|NCT02295995|164701080|OTHER|||||||||||||||||The between-group difference at 12 weeks \[mean difference (MD) and 95% Confidence Interval\] was calculated for all outcome measures. Cohen's d effect sizes were calculated as the difference in mean-level change (from baseline to 12 weeks) between the two groups divided by the standard deviation (SD) and is interpreted as d=0.20 (small), d=0.50 (medium), and d=0.80 (large). Cohen's d for 6-minute walk in this sample was 0.50|Cohen's d calculated as the change from baseline to 12 weeks in both groups.|||
82504484|NCT03628703|164701095|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82504485|NCT04350788|164701099|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||We analyzed program satisfaction between SCP and ESCP by role (patient vs partner). The following result is for patient.||||0.02
82504486|NCT04350788|164701099|SUPERIORITY|||||||0.25|||||||t-test, 1 sided|||We analyzed program satisfaction between SCP and ESCP by role (patient vs partner). The following result is for partner.||||0.25
82504487|NCT04350788|164701100|SUPERIORITY|||||||0.36|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in general domain.||||0.36
82504488|NCT04350788|164701100|SUPERIORITY|||||||0.38|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in content domain.||||0.38
82504489|NCT04350788|164701100|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in navigation domain.||||0.02
82504490|NCT04350788|164701100|SUPERIORITY|||||||0.62|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in general domain.||||0.62
82504491|NCT04350788|164701100|SUPERIORITY|||||||0.65|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in content domain.||||0.65
82504492|NCT04350788|164701100|SUPERIORITY|||||||0.45|||||||t-test, 1 sided|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in navigation domain.||||0.45
82504493|NCT04350788|164701101|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||0.35
82504494|NCT04350788|164701102|SUPERIORITY|||||||0.01|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in urinary domain.||||0.01
82504495|NCT04350788|164701102|SUPERIORITY|||||||0.41|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in bowel domain.||||0.41
82504496|NCT04350788|164701102|SUPERIORITY|||||||0.21|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in sexual domain.||||0.21
82504497|NCT04350788|164701102|SUPERIORITY|||||||0.52|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for patient in hormonal domain.||||0.52
82504498|NCT04350788|164701102|SUPERIORITY|||||||0.79|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in urinary domain.||||0.79
82504499|NCT04350788|164701102|SUPERIORITY|||||||0.84|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in bowel domain.||||0.84
82504500|NCT04350788|164701102|SUPERIORITY|||||||0.82|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in sexual domain.||||0.82
82504501|NCT04350788|164701102|SUPERIORITY|||||||0.33|||||||ANCOVA|||We analyzed this measure between SCP and ESCP by role (patient vs partner) and by domain. The following result is for partner in hormonal domain.||||0.33
82504502|NCT04350788|164701103|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
82504503|NCT04350788|164701103|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
82504504|NCT04350788|164701104|SUPERIORITY|||||||0.05|||||||generalized linear regression|||||||0.05
82504505|NCT04350788|164701105|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.10
82563974|NCT04454125|164837242|SUPERIORITY||Odds Ratio (OR)|0.47||||0.3|TWO_SIDED|95.0|0.11|1.95|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit) and adjusting for visit 2 moderate asthma exacerbation.|Outcome= moderate asthma exacerbation at visit (yes, no), collected via questionnaire at visits 2-7(exit). Does not include randomization (visit 1).||1.95|0.11|0.30
82504506|NCT04350788|164701106|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
82504507|NCT04350788|164701107|SUPERIORITY|||||||0.49|||||||Mixed Models Analysis|||||||0.49
82504508|NCT04350788|164701108|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82504509|NCT04350788|164701109|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
82504510|NCT04350788|164701110|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.55
82504511|NCT02117999|164701114|NON_INFERIORITY|Sample size calculation was performed to detect a difference of 0.95 D between the average Kmax changes for the T-ionto CL and standard CL groups at 12 months, at a significance level of 5% and a power of 81%, assuming a standard deviation of 1.20 D.|||||<|0.05|||||||ANOVA|||Analysis of changes from baseline in each group was made using the paired Student t-test. Treatment effects were assessed using repeated measures ANOVA between groups and time (3 days, 7 days, 1-, 3-, 6- and 12-months). The outcome measures over time were corrected for baseline values. The relationship between the change in Kmax at 12 months and baseline parameters was assessed using Pearson's correlation analysis for either group.||||<0.05
82504512|NCT02117999|164701115|NON_INFERIORITY|sample size calculation was performed to detect a difference of 0.95 D between the average Kmax changes for the T-ionto CL and standard CL groups at 12 months, at a significance level of 5% and a power of 81%, assuming a standard deviation of 1.20 D. The sample size of the study was 34 cases (allocation ratio of 2:1)|Mean Difference (Final Values)|35.0||||0.05|TWO_SIDED||||||ANOVA|||Analysis of changes from baseline in each group was made using the paired Student t-test. Treatment effects were assessed using repeated measures ANOVA between groups and time (3 days, 7 days, 1-, 3-, 6- and 12-months). The outcome measures over time were corrected for baseline values.||||0.05
82504513|NCT05478252|164701159|NON_INFERIORITY|Non-inferiority of insulin semaglutide J versus insulin semaglutide B was considered as confirmed if the 95% confidence interval (CI) for the mean treatment difference lied entirely below 2.5%. Non-inferiority was investigated on the FAS.|Treatment difference|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.3|0.08|||ANCOVA|||||0.08|-0.30|<.0001
82504514|NCT03939897|164701169|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.506|||||||Log Rank|||||||0.5060
82504515|NCT03939897|164701172|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.2989|||||||Log Rank|||||||0.2989
82504516|NCT01536379|164701202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.4|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|95.0|-109.5|40.7||||||||40.7|-109.5|
82504517|NCT01536379|164701223|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|204.35|||||TWO_SIDED|95.0|90.0|550.0|||||Week 24 comparison|||550.00|90.00|
82504518|NCT01536379|164701223|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-33.06|||||TWO_SIDED|95.0|-169.84|25.0|||||Week 52 comparison|||25.00|-169.84|
82504519|NCT01536379|164701224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1232.4|STANDARD_ERROR_OF_MEAN|25735.56|||TWO_SIDED|95.0|-50457.0|52921.8|||||Week 24 comparison|||52921.8|-50457.0|
82504520|NCT01536379|164701224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13128.35|STANDARD_ERROR_OF_MEAN|24165.18|||TWO_SIDED|95.0|-61868.9|35612.2|||||Week 52 comparison|||35612.2|-61868.9|
82504521|NCT01536379|164701225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-31.3|3.7|||||Week 24 comparison|||3.7|-31.3|
82504522|NCT01536379|164701225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|7.68|||TWO_SIDED|95.0|-8.6|22.2|||||Week 52 comparison|||22.2|-8.6|
82504523|NCT01536379|164701226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2791.0|STANDARD_ERROR_OF_MEAN|4651.1|||TWO_SIDED|95.0|-12105.0|6524.0|||||Week 24 comparison|||6524|-12105|
82504524|NCT01536379|164701226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-458.0|STANDARD_ERROR_OF_MEAN|4501.8|||TWO_SIDED|95.0|-9487.0|8572.0|||||Week 52 comparison|||8572|-9487|
82504525|NCT01536379|164701227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|1.156|||TWO_SIDED|95.0|-3.59|1.01|||||Week 24 comparison|||1.01|-3.59|
82504526|NCT01536379|164701227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.017|||TWO_SIDED|95.0|-1.24|2.82|||||Week 52 comparison|||2.82|-1.24|
82504527|NCT01536379|164701228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30326.9|STANDARD_ERROR_OF_MEAN|34677.86|||TWO_SIDED|95.0|-100559.1|39905.3|||||Week 24 comparison|||39905.3|-100559.1|
82504528|NCT01536379|164701228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46955.3|STANDARD_ERROR_OF_MEAN|32594.81|||TWO_SIDED|95.0|-113218.9|19308.3|||||Week 52 comparison|||19308.3|-113218.9|
82504529|NCT01536379|164701229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-10.1|4.2|||||Week 24 comparison|||4.2|-10.1|
82504530|NCT01536379|164701229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|-7.2|6.3|||||Week 52 comparison|||6.3|-7.2|
82504531|NCT01536379|164701230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|648.3|STANDARD_ERROR_OF_MEAN|12618.44|||TWO_SIDED|95.0|-24661.1|25957.7|||||Week 24 comparison|||25957.7|-24661.1|
82504532|NCT01536379|164701230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5618.9|STANDARD_ERROR_OF_MEAN|12153.03|||TWO_SIDED|95.0|-29994.8|18757.0|||||Week 52 comparison|||18757.0|-29994.8|
82504533|NCT01536379|164701231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|-3.2|3.5|||||Week 24 comparison|||3.5|-3.2|
82504534|NCT01536379|164701231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|95.0|-3.5|2.3|||||Week 52 comparison|||2.3|-3.5|
82504535|NCT01536379|164701232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|1.255|||TWO_SIDED|95.0|-4.07|0.98|||||Week 24 comparison|||0.98|-4.07|
82504536|NCT01536379|164701232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.329|||TWO_SIDED|95.0|-3.68|1.67|||||Week 52 comparison|||1.67|-3.68|
82504537|NCT01536379|164701233|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.067|||||TWO_SIDED|95.0|-0.638|0.505|||||Week 24 comparison|||0.505|-0.638|
82504538|NCT01536379|164701233|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.267|||||TWO_SIDED|95.0|-0.838|0.305|||||Week 52 comparison|||0.305|-0.838|
82504539|NCT01536379|164701234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|52.06|||TWO_SIDED|95.0|-105.9|100.3|||||Week 24 comparison|||100.3|-105.9|
82504540|NCT01536379|164701234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|47.52|||TWO_SIDED|95.0|-107.1|81.4|||||Week 52 comparison|||81.4|-107.1|
82504541|NCT01536379|164701235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.92|STANDARD_ERROR_OF_MEAN|9.44|||TWO_SIDED|95.0|-31.56|5.71|||||Week 24 comparison|||5.71|-31.56|
82504542|NCT01536379|164701235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|8.315|||TWO_SIDED|95.0|-19.11|13.72|||||Week 52 comparison|||13.72|-19.11|
82504543|NCT01536379|164701236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.225|||TWO_SIDED|95.0|-4.84|3.96||||||||3.96|-4.84|
82504544|NCT04916600|164701252|SUPERIORITY||Difference in percentages|22.0||||0.043|TWO_SIDED|||||The threshold for statistical significance was p = .05|Chi-squared||Treatment difference = Active device \>=24 hour group - remainder of participants (Active \<24 hr, Sham \>=24 hr, and Sham \<24 hr groups)|||||.043
82504545|NCT04916600|164701253|SUPERIORITY||Mean Difference (Net)|-3.4||||0.032|TWO_SIDED|||||The threshold for statistical significance was p = .05|t-test, 2 sided|df=101||||||.032
82504546|NCT03971695|164701264|OTHER||Adjusted geometric mean (gMean) ratio(%)|100.26|||||TWO_SIDED|90.0|90.18|111.48|||||Intra-individual geometric coefficient of variance (gCV) = 14.2. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||111.48|90.18|
82522970|NCT02816138|164741344|OTHER||||||<|0.001|||||||Regression, Linear|For change in depression severity (MADRS) over time, we used a linear mixed effects model with autoregressive of order 1 (AR(1)) temporal process.||||||<0.001
82522971|NCT02816138|164741345|OTHER|||||||0.761|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.761
82522972|NCT02816138|164741346|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test assessing for change from baseline to 12-weeks||||0.084
82522973|NCT02816138|164741347|OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test assessing for change from baseline to 12-weeks||||0.073
82522974|NCT02816138|164741348|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.002
82522975|NCT02816138|164741349|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
82522976|NCT02816138|164741350|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test||||||0.049
82504547|NCT03971695|164701264|OTHER||Adjusted geometric mean (gMean) ratio(%)|91.63|||||TWO_SIDED|90.0|85.37|98.35|||||Intra-individual geometric coefficient of variance (gCV) = 9.5. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||98.35|85.37|
82504548|NCT03971695|164701265|OTHER||Adjusted geometric mean (gMean) ratio(%)|98.01|||||TWO_SIDED|90.0|84.2|114.08|||||Intra-individual geometric coefficient of variance (gCV) = 20.5. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||114.08|84.20|
82504549|NCT03971695|164701265|OTHER||Adjusted geometric mean (gMean) ratio(%)|77.52|||||TWO_SIDED|90.0|68.11|88.22|||||Intra-individual geometric coefficient of variance (gCV) = 17.4. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||88.22|68.11|
82504550|NCT03971695|164701269|OTHER||Adjusted geometric mean (gMean) ratio(%)|96.42|||||TWO_SIDED|90.0|86.96|106.9|||||Intra-individual geometric coefficient of variance (gCV) = 13.9. Ratio is T1/R.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||106.90|86.96|
82504551|NCT03971695|164701269|OTHER||Adjusted geometric mean (gMean) ratio(%)|91.27|||||TWO_SIDED|90.0|85.4|97.54|||||Intra-individual geometric coefficient of variance (gCV) = 8.9. Ratio is T2/T1.|Analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'. Confidence intervals were calculated based on the residual error from the ANOVA.||97.54|85.40|
82504552|NCT04447417|164701276|OTHER||Point estimate|0.43|||<=|0.0001|TWO_SIDED|90.0|0.37|0.49||One-sided p-value. Threshold for significance at 0.05 level.|linear mixed model||Point estimate obtained was back-transformed by exponentiation|TEWL data for linear mixed model was log-transformed to account for right skewness of data and heteroskedasticity. The linear mixed effect on log (TEWL) included age, sex, number of STS, localization on the body, visit, number of STS-by-visit interaction and number of STS-by-age interaction as fixed effects. Model was run on data on lesional skin area.||0.49|0.37|<=0.0001
82504553|NCT00858442|164701313|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks = 0.953, P\> 0.449 in group without PRP and in PRP group shapiro Wilks=0.946, P \> 0.259.~The data were normally distributed, with equal variances (Test of levene: F = 0.1234, P\> 0.99)"|Mean Difference (Final Values)|-2.452|STANDARD_ERROR_OF_MEAN|2.452|>|0.1574|TWO_SIDED|95.0|-7.332|2.428||Applies t-test for equality of means. t = -1.016 is obtained. p\> 0.1574|t-test, 1 sided|||||2.428|-7.332|>0.1574
82504554|NCT00858442|164701314|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks =0.972, P\> 0.687 in group without PRP and in PRP group shapiro Wilks = 0.964, P \> 0.410.~The data were normally distributed, with equal variances (Test of levene: F = 3.153, P\> 0.082)"|Mean Difference (Final Values)|-0.27186|STANDARD_ERROR_OF_MEAN|0.50519|>|0.593|TWO_SIDED|95.0|-1.28561|0.74189||Applies t-test for equality of means. t = -0.538 is obtained. p\> 0.593|t-test, 2 sided|||||0.74189|-1.28561|>0.593
82504555|NCT00858442|164701315|NON_INFERIORITY_OR_EQUIVALENCE|"Applies normality test of shapiro Wilks=0.822, P\<0.001 in group without PRP, and in PRP group shapiro Wilks =0.910, P\<0.017.~The data were no normally distributed, with equal variances (Test of levene, F=1.324, P\>0.255)"|||||>|0.398|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mean rank group without PRP= 28.88 Mean rank group with PRP= 26.31 Z value = -0.027||||||>0.398
82504556|NCT01280552|164701317|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Stratified for age and MGMT methylation status|Log Rank|||Stratified log rank p value stratified for age and MGMT methylation status||||0.010
82504557|NCT01280552|164701319|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Analyses were stratified for age and MGMT methylation status.|Log Rank|||||||0.033
82504558|NCT02016625|164701320|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis (H0): ratio is outside of interval (80%, 125%) vs. alternative hypothesis (H1): ratio is inside of interval (80%, 125%)|gMean ratio (%)|108.2|STANDARD_ERROR_OF_MEAN|11.5||0.0033|TWO_SIDED|90.0|99.992|117.076|||ANOVA||ratio of cyclo + FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|Geometric mean (gMean) ratio of cyclo + FDV to cyclo treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||117.076|99.992|0.0033
82504559|NCT02016625|164701321|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) vs. H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|106.6|STANDARD_ERROR_OF_MEAN|11.7||0.0019|TWO_SIDED|90.0|98.36|115.534|||ANOVA||gMean ratio of cyclo+FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to cyclo treatment The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||115.534|98.360|0.0019
82522977|NCT02816138|164741351|OTHER|||||||0.502|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.502
82522978|NCT02816138|164741352|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.049
82522979|NCT02816138|164741353|OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.068
82504560|NCT02016625|164701322|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|90.14|STANDARD_ERROR_OF_MEAN|16.6||0.0457|TWO_SIDED|90.0|80.281|101.205|||ANOVA||gMean ratio of cyclo+FDV to cyclo treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to cyclo treatment The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||101.205|80.281|0.0457
82504561|NCT02016625|164701323|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|140.98|STANDARD_ERROR_OF_MEAN|35.8||0.8122|TWO_SIDED|90.0|111.772|177.833|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||177.833|111.772|0.8122
82504562|NCT02016625|164701324|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|116.92|STANDARD_ERROR_OF_MEAN|11.0||0.065|TWO_SIDED|90.0|108.674|125.801|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||125.801|108.674|0.0650
82504563|NCT02016625|164701325|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|122.68|STANDARD_ERROR_OF_MEAN|23.9||0.4181|TWO_SIDED|90.0|104.8|143.6|||ANOVA||gMean ratio of cyclo+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of cyclo+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||143.60|104.80|0.4181
82504564|NCT02016625|164701326|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|127.41|STANDARD_ERROR_OF_MEAN|16.8||0.6207|TWO_SIDED|90.0|114.453|141.827|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||141.827|114.453|0.6207
82504565|NCT02016625|164701327|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|136.85|STANDARD_ERROR_OF_MEAN|22.4||0.8592|TWO_SIDED|90.0|118.683|157.793|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||157.793|118.683|0.8592
82504566|NCT02016625|164701328|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|99.15|STANDARD_ERROR_OF_MEAN|28.5||0.0269|TWO_SIDED|90.0|82.857|118.644|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||118.644|82.857|0.0269
82504567|NCT02016625|164701329|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|93.85|STANDARD_ERROR_OF_MEAN|25.1||0.0493|TWO_SIDED|90.0|80.059|110.022|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||110.022|80.059|0.0493
82504568|NCT02016625|164701330|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|99.54|STANDARD_ERROR_OF_MEAN|10.0||0|TWO_SIDED|90.0|93.375|106.115|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||106.115|93.375|0.0000
82504569|NCT02016625|164701331|NON_INFERIORITY_OR_EQUIVALENCE|H0: ratio is outside of interval (80%, 125%) VS H1: ratio is inside of interval (80%, 125%)|gMean ratio (%)|96.16|STANDARD_ERROR_OF_MEAN|12.9||0.0008|TWO_SIDED|90.0|88.53|104.45|||ANOVA||gMean ratio of tac+FDV to FDV treatment. The standard error of the mean actually is the geometric coefficient of variation (%).|gMean ratio of tac+FDV to FDV treatment. The statistical model used for the analysis of primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. This model accounted for variation from 'subject' and 'treatment' effects. The 'subject' effect was considered to be random, whereas the 'treatment' effect was considered as fixed.||104.45|88.53|0.0008
82504570|NCT02155738|164701332|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Aim 1: Quantify the impact of IV acetaminophen on 1a) postoperative pain scores ... 1a) To achieve this aim, we will measure the degree of postoperative pain using visual analog scales (VAS) at multiple specified time points throughout the postoperative period; we report on change from Baseline VAS at 24 Hours Postop. Null Hypothesis is that there is no difference between subgroups in VAS scores. Sample size was determined considering significant differences in VAS scores.||||<0.05
82504571|NCT02155738|164701333|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||1b) We will use equianalgesic dosage tables to convert intra- and postoperative narcotics into morphine equivalents to compare narcotic requirements for the first week after surgery. We hypothesize that those patients receiving preemptive IV acetaminophen will have lower postoperative VAS scores and reduced narcotic requirements compared to placebo.||||<0.05
82504572|NCT02603809|164701338|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrast Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran.r-projects.org/web/packages/DoseFinding.)"||||<0.001
82504573|NCT02603809|164701338|SUPERIORITY||LS Mean|-1.31|STANDARD_ERROR_OF_MEAN|1.548||0.8117|TWO_SIDED|95.0|-5.1|2.49|||ANCOVA|with Dunnett correction.||||2.49|-5.10|0.8117
82504574|NCT02603809|164701338|SUPERIORITY||LS Mean|-4.93|STANDARD_ERROR_OF_MEAN|1.532||0.0053|TWO_SIDED|95.0|-8.68|-1.17|||ANCOVA|with Dunnett correction.||||-1.17|-8.68|0.0053
82504575|NCT02603809|164701338|SUPERIORITY||LS Mean|-6.99|STANDARD_ERROR_OF_MEAN|1.554|<|0.0001|TWO_SIDED|95.0|-10.8|-3.19|||ANCOVA|with Dunnett correction.||||-3.19|-10.80|<.0001
82639458|NCT02129192|164993954|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|95.77|||||TWO_SIDED|90.0|88.89|103.17|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||103.17|88.89|
82504576|NCT02603809|164701338|SUPERIORITY||LS Mean|-4.95|STANDARD_ERROR_OF_MEAN|1.549||0.0057|TWO_SIDED|95.0|-8.75|-1.15|||ANCOVA|with Dunnett correction.||||-1.15|-8.75|0.0057
82504577|NCT02603809|164701339|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran-rprojects.org/web/packages/DoseFinding.)"||||<0.001
82504578|NCT02603809|164701339|SUPERIORITY||LS Mean|-2.45|STANDARD_ERROR_OF_MEAN|2.445||0.7071|TWO_SIDED|95.0|-8.44|3.54|||ANCOVA|with Dunnett correction.||||3.54|-8.44|0.7071
82504579|NCT02603809|164701339|SUPERIORITY||LS Mean|-7.05|STANDARD_ERROR_OF_MEAN|2.42||0.0138|TWO_SIDED|95.0|-12.98|-1.12|||ANCOVA|with Dunnett correction.||||-1.12|-12.98|0.0138
82504580|NCT02603809|164701339|SUPERIORITY||LS Mean|-9.9|STANDARD_ERROR_OF_MEAN|2.457||0.0003|TWO_SIDED|95.0|-15.92|-3.88|||ANCOVA|with Dunnett correction.||||-3.88|-15.92|0.0003
82504581|NCT02603809|164701339|SUPERIORITY||LS Mean|-7.58|STANDARD_ERROR_OF_MEAN|0.0077||0.0077|TWO_SIDED|95.0|-13.58|-1.59|||ANCOVA|with Dunnett correction.||||-1.59|-13.58|0.0077
82504582|NCT02603809|164701345|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Modeling|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all aprocitentan doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrast Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cran.r-projects.org/web/packages/DoseFinding.)"||||<0.001
82504583|NCT02603809|164701345|SUPERIORITY||LS Mean|-1.75|STANDARD_ERROR_OF_MEAN|1.401||0.5356|TWO_SIDED|95.0|-5.19|1.69|||ANCOVA|with Dunnett correction.||||1.69|-5.19|0.5356
82504584|NCT02603809|164701345|SUPERIORITY||LS Mean|-5.82|STANDARD_ERROR_OF_MEAN|1.396||0.0001|TWO_SIDED|95.0|-9.25|-2.4|||ANCOVA|with Dunnett correction.||||-2.40|-9.25|0.0001
82504585|NCT02603809|164701345|SUPERIORITY||LS Mean|-7.5|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-10.96|-4.04|||ANCOVA|with Dunnett correction.||||-4.04|-10.96|<.0001
82504586|NCT02603809|164701345|SUPERIORITY||LS Mean|-5.65|STANDARD_ERROR_OF_MEAN|1.41||0.0003|TWO_SIDED|95.0|-9.11|-2.19|||ANCOVA|with Dunnett correction.||||-2.19|-9.11|0.0003
82504587|NCT04608500|164701348|SUPERIORITY||Mean Difference (Final Values)|3.85|STANDARD_ERROR_OF_MEAN|0.861|<|0.0001|TWO_SIDED|95.0|2.16|5.54|||ANCOVA|Analysis of covariance (ANCOVA) model includes treatment, Baseline inflammatory lesion count, and analysis center.||||5.54|2.16|<0.0001
82504588|NCT04608500|164701349|SUPERIORITY||Risk Ratio (RR)|1.263||||0.0077|TWO_SIDED|95.0|1.064|1.499||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||||1.499|1.064|0.0077
82504589|NCT04608500|164701350|SUPERIORITY||Risk Ratio (RR)|1.193||||0.0189|TWO_SIDED|95.0|1.024|1.39||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.390|1.024|0.0189
82504590|NCT04608500|164701351|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|2.672|<|0.0001|TWO_SIDED|95.0|6.05|16.54|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||||16.54|6.05|<0.0001
82504591|NCT04608500|164701352|SUPERIORITY||Mean Difference (Final Values)|4.38|STANDARD_ERROR_OF_MEAN|0.821|<|0.0001|TWO_SIDED|95.0|2.77|5.99|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||Statistical Analysis For Week 4||5.99|2.77|<0.0001
82504592|NCT04608500|164701352|SUPERIORITY||Mean Difference (Final Values)|5.07|STANDARD_ERROR_OF_MEAN|0.793|<|0.0001|TWO_SIDED|95.0|3.52|6.63|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||Statistical Analysis For Week 8||6.63|3.52|<0.0001
82504593|NCT04608500|164701353|SUPERIORITY||Risk Ratio (RR)|1.715||||0.0114|TWO_SIDED|95.0|1.129|2.605||p-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical Analysis For Week 4||2.605|1.129|0.0114
82504594|NCT04608500|164701353|SUPERIORITY||Risk Ratio (RR)|1.319||||0.0061|TWO_SIDED|95.0|1.082|1.607||p-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical Analysis For Week 8||1.607|1.082|0.0061
82504595|NCT01881230|164701355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.692||||0.0183|TWO_SIDED|95.0|1.089|2.629|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||2.629|1.089|0.0183
82563975|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|0.17||||0.8|TWO_SIDED|95.0|-1.17|1.51|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||1.51|-1.17|0.80
82563976|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|2.02||||0.001|TWO_SIDED|95.0|0.88|3.15|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||3.15|0.88|0.001
82563977|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|1.85||||0.04|TWO_SIDED|95.0|0.09|3.61|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Asthma Control Test Score. Obtained at all visits.||3.61|0.09|0.04
82504596|NCT01881230|164701355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.581||||0.0152|TWO_SIDED|95.0|0.373|0.904|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||0.904|0.373|0.0152
82504597|NCT01881230|164701355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8599|TWO_SIDED|95.0|0.676|1.597|||Log Rank|||For stratified analysis, the stratified log-rank test and stratified Cox proportional hazards model were used, where the stratification factor is the disease free interval (\<= 1 year; \> 1 year).||1.597|0.676|0.8599
82504598|NCT01881230|164701358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.375||||0.1579|TWO_SIDED|95.0|0.882|2.143|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||2.143|0.882|0.1579
82504599|NCT01881230|164701358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.2945|TWO_SIDED|95.0|0.52|1.221|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||1.221|0.520|0.2945
82504600|NCT01881230|164701358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.101||||0.6691|TWO_SIDED|95.0|0.71|1.708|||Log Rank|||Hazard ratios and associated two-sided 95% confidence intervals were estimated using stratified Cox proportional hazard model. The stratification factor is the disease free interval (≤ 1 year; \> 1 year).||1.708|0.710|0.6691
82504601|NCT00112502|164701362|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.8|1.7||||||||1.7|0.8|
82504602|NCT00112502|164701363|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.6|1.2||||||||1.2|0.6|
82504603|NCT00112502|164701364|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|1.8||||||||1.8|0.9|
82504604|NCT00112502|164701365|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.6|1.3||||||||1.3|0.6|
82504605|NCT00112502|164701367|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.5||||||||1.5|0.7|
82504606|NCT00112502|164701368|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
82504607|NCT00112502|164701369|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.8|1.8||||||||1.8|0.8|
82504608|NCT00112502|164701370|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.1||||||||1.1|0.5|
82504609|NCT03538158|164701389|SUPERIORITY||Slope|5.7||||0.82|TWO_SIDED|95.0|-287.7|299.1|||Mixed Models Analysis|F(2,131)=.07||||299.1|-287.7|.82
82504610|NCT03538158|164701390|SUPERIORITY||Slope|0.5||||0.97|TWO_SIDED|95.0|-3.5|4.4|||Mixed Models Analysis|F(2,75)=.03||||4.4|-3.5|.97
82504611|NCT02418468|164701411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.262|TWO_SIDED|95.0|-0.26|0.07|||mixed models for repeated measures (MMRM|||||0.07|-0.26|0.262
82504612|NCT02876900|164701418|SUPERIORITY|Assuming an effect size of 0.35 on the change in PANSS total score from baseline to Week 6 for the 2 pairwise comparisons between each active asenapine maleate transdermal patch treatment arm and placebo, the power for detecting a statistically significant HP-3070 advantage was approximately 0.90, having 204 evaluable participants per each treatment arm using a 2-sided alpha level of 0.025 for each comparison.|Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.634||0.003|TWO_SIDED|95.0|-8.06|-1.64||Adjusted p-value was calculated according to the truncated Hochberg procedure with a truncation factor y=0.9. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-1.64|-8.06|0.003
82504613|NCT02876900|164701418|SUPERIORITY|Assuming an effect size of 0.35 on the change in PANSS total score from baseline to Week 6 for the 2 pairwise comparisons between each active asenapine maleate transdermal patch treatment arm and placebo, the power for detecting a statistically significant HP-3070 advantage was approximately 0.90, having 204 evaluable participants per each treatment arm using a 2-sided alpha level of 0.025 for each comparison.|Least Square Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-9.81|-3.4||Adjusted p-value was calculated according to the truncated Hochberg procedure with a truncation factor y=0.9. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-3.4|-9.81|<0.001
82504614|NCT02876900|164701419|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.16||Adjusted p-value was calculated according to the Hochberg procedure. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-0.16|-0.55|<0.001
82504615|NCT02876900|164701419|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.64|-0.25||Adjusted p-value was calculated according to the Hochberg procedure. Adjustment for multiple comparisons uses a parallel gatekeeping procedure.|Mixed Model Repeated Measures Analysis|||The mixed model for repeated measures includes treatment, country, visit, treatment by visit interaction, and baseline value as covariates, and participant as random effect. The correlation of repeated measures within a participant is estimated with an unstructured covariance matrix. The Kenward-Rogers method is used to estimate the denominator degrees of freedom.||-0.25|-0.64|<0.001
82504616|NCT02738333|164701436|NON_INFERIORITY|A sample size of 100 participants per treatment group would provide over 90% power to establish non-inferiority in the SVR12 rates between the LDV/SOF group and SOF+RBV group. Sample size was based on the assumptions that the clinically meaningful non-inferiority margin is 10%, both groups have a SVR12 rate of 96%, and the significance level is 0.025 one-sided.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.3|7.1|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||7.1|-5.3|
82504617|NCT00791518|164701462|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||||95.0|0.1|0.4|||||Least squares mean differences are calculated as \<80% group minus \>=80% group and are adjusted for Investigator.|||0.4|0.1|
82626048|NCT01068717|164967822|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.34|||||TWO_SIDED|90.0|97.96|106.91||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||106.91|97.96|
82504618|NCT00791518|164701463|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||||95.0|0.2|0.4|||||Least squares mean differences are calculated as \<50% group minus \>=50% group and was adjusted for Investigator.|||0.4|0.2|
82504619|NCT00791518|164701468|SUPERIORITY_OR_OTHER||Least squares mean difference|0.7||||||95.0|-0.4|1.7|||||Least squares mean differences are calculated as \<80% group minus \>=80% group and was adjusted for Investigator.|||1.7|-0.4|
82504620|NCT00791518|164701469|SUPERIORITY_OR_OTHER||Least squares mean difference|0.9||||||95.0|-0.2|2.1|||||Least squares mean differences are calculated as \<50% group minus \>=50% group and was adjusted for Investigator.|||2.1|-0.2|
82504621|NCT04949165|164701482|NON_INFERIORITY|The study employed a non-inferiority design with a non-inferiority margin of 1 g/dL for haemoglobin levels at 4 months, a 1-sided alpha level of 0.025, at least 85% power and under the assumption that the true difference in the means was 0.3 g/dL. The estimated sample size also allowed for up to 10% loss to follow- up or iron supplementation for those initially not requiring supplements, thus the sample size was 292.||||||0.025||||||Non-inferiority threshold of -1 g/dL for the lower bound of the 97.5% CI.|t-test, 1 sided|||||||0.025
82504622|NCT03245008|164701581|SUPERIORITY||Least Squares Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.57|-0.86||Adjusted P-value|Mixed Models Analysis|||||-0.86|-1.57|<0.001
82504623|NCT03245008|164701581|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.21||0.103|TWO_SIDED|95.0|-0.76|0.07||Adjusted P-value|Mixed Models Analysis|||||0.07|-0.76|0.103
82504624|NCT03245008|164701582|SUPERIORITY||Least Squares Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.6|-0.92||Adjusted P-value|Mixed Models Analysis|||||-0.92|-1.60|<0.001
82504625|NCT03245008|164701582|SUPERIORITY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.84|-0.05||||||||-0.05|-0.84|
82504626|NCT01286012|164701592|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82504627|NCT01286012|164701593|SUPERIORITY_OR_OTHER|||||||0.915|||||||Cochran-Mantel-Haenszel|||||||0.915
82504628|NCT01286012|164701594|SUPERIORITY_OR_OTHER|||||||0.6714|||||||Cochran-Mantel-Haenszel|||||||0.6714
82504629|NCT01286012|164701595|SUPERIORITY_OR_OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82504630|NCT01286012|164701596|SUPERIORITY_OR_OTHER|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
82504631|NCT01602380|164701604|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.797||||0.0486|TWO_SIDED|95.0|0.637|0.999||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced or metastatic disease and measurable disease at baseline.|A hazard ratio \< 1 favours fulvestrant.|If the true PFS HR for comparison of fulvestrant vs. anastrozole was 0.69 (likely to correspond to a 45% prolongation of PFS) the study had 90% power to demonstrate a statistically significant difference for PFS with a one-sided type 1 error of 2.5% (two-sided 5%).||0.999|0.637|0.0486
82626049|NCT01068717|164967822|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.78|||||TWO_SIDED|90.0|96.61|103.05||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||103.05|96.61|
82504632|NCT01602380|164701605|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.966||||0.7579|TWO_SIDED|95.0|0.773|1.206||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced or metastatic disease and measurable disease at baseline.|A HR of \<1 favours fulvestrant.|65% OS maturity||1.206|0.773|0.7579
82504633|NCT01602380|164701606|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.074||||0.729|TWO_SIDED|95.0|0.716|1.614||2-sided p-value|Regression, Logistic|||||1.614|0.716|0.7290
82504634|NCT01602380|164701608|SUPERIORITY_OR_OTHER_LEGACY||Rato of EDoR|1.52||||0.0367|TWO_SIDED|95.0|1.03|2.26||2-sided p-value|Method of Ellis et al|||||2.26|1.03|0.0367
82504635|NCT01602380|164701609|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.253||||0.3045|TWO_SIDED|95.0|0.815|1.932||2-sided p-value|Regression, Logistic|||||1.932|0.815|0.3045
82504636|NCT01602380|164701611|SUPERIORITY_OR_OTHER_LEGACY||Ratio of EDoCB|1.26||||0.0561||95.0|0.99|1.59||2-sided p-value|Method of Ellis et al|||||1.59|0.99|0.0561
82504637|NCT01602380|164701612|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.2846|TWO_SIDED|95.0|0.7|1.11||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced/metastatic disease and measurable/non-measurable disease at baseline|A hazard ratio \< 1 favours fulvestrant.|Comparative statistical analysis for time to deterioration of TOI score is presented (fulvestrant versus anastrozole).||1.11|0.70|0.2846
82504638|NCT01602380|164701612|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0844|TWO_SIDED|95.0|0.66|1.03||2-sided p-value|Log Rank|Stratified log-rank test with factors for prior chemotherapy for locally advanced/metastatic disease and measurable/non-measurable disease at baseline|A hazard ratio \< 1 favours fulvestrant.|Comparative statistical analysis for time to deterioration of FACT-B total score is presented (fulvestrant versus anastrozole).||1.03|0.66|0.0844
82504639|NCT00877058|164701615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.05|TWO_SIDED|95.0|0.15|0.48|||Chi-squared|||||0.48|0.15|<0.05
82504640|NCT00877058|164701615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.001|TWO_SIDED|0.05|0.24|0.68|||Chi-squared|||||0.68|0.24|0.001
82504641|NCT00877058|164701616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56|||<|0.05|TWO_SIDED|95.0|0.96|2.52|||Chi-squared|||||2.52|0.96|<0.05
82504642|NCT00877058|164701616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||<|0.05|TWO_SIDED|95.0|0.79|2.08|||Chi-squared|||||2.08|0.79|<0.05
82504643|NCT00877058|164701617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||<|0.05|TWO_SIDED|95.0|0.31|0.97|||Chi-squared|||||0.97|0.31|<0.05
82504644|NCT00877058|164701617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||<|0.05|TWO_SIDED|95.0|0.33|1.02|||Chi-squared|||||1.02|0.33|<0.05
82504645|NCT01698463|164701631|OTHER||||||<|0.05||||||\<0.05 (threshold for significance).|Wilcoxon (Mann-Whitney)|||||||<0.05
82504646|NCT04709575|164701637|SUPERIORITY||linear mixed-effect model|-0.995||||0.0497|TWO_SIDED|95.0|-1.9886|-0.0011|||LS Mean Difference|||||-0.0011|-1.9886|0.0497
82504647|NCT03989440|164701698|SUPERIORITY||LS Mean Difference|0.54||||0.59|TWO_SIDED|95.0|-1.48|2.55|||Mixed Models Analysis|||||2.55|-1.48|0.59
82504648|NCT03989440|164701699|SUPERIORITY||LS Mean Difference|-1.56||||0.13|TWO_SIDED|95.0|-3.62|0.5|||Mixed Models Analysis|||||0.50|-3.62|0.13
82504649|NCT03989440|164701700|SUPERIORITY||LS Mean Difference|-1.16||||0.16|TWO_SIDED|95.0|-2.81|0.5|||Mixed Models Analysis|||||0.50|-2.81|0.16
82504650|NCT03989440|164701701|SUPERIORITY||% Difference in responder rate|-9.3||||0.68|TWO_SIDED|95.0|-43.3|25.4|||Fisher Exact|||||25.4|-43.3|0.68
82504651|NCT00914810|164701725|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.55|TWO_SIDED|95.0|-0.8|1.5|||t-test, 2 sided|||||1.5|-0.8|0.55
82504652|NCT00914810|164701726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.5|||<|0.0001|TWO_SIDED|95.0|7.4|13.6|||t-test, 2 sided|||||13.6|7.4|<0.0001
82504653|NCT01925404|164701729|SUPERIORITY|We fitted difference-in-differences (DID) models between the two measurement waves and four study arms. The effect of the intervention was modeled as the wave by study arm interaction. All models used random effects to account for intra-class correlation within each park as well as fixed effects to account for observation times (time of day, weekend versus weekdays).||||||0.0063||||||Significance threshold. p=0.05|negative binomial distribution|||Comparison of change from baseline;||||.0063
82504654|NCT00706641|164701733|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||paired t-test|||Tumor samples from 20 patients were analyzed for expression of pSFK. A paired t-Test was used to calculate the significance of the difference in expression levels before and after treatment.||||0.003
82504655|NCT00706641|164701736|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||paired t-test|||||||0.20
82504656|NCT00706641|164701737|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||paired t-test|||||||0.42
82504657|NCT01327300|164701789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72||||0.001||95.0|||||t-test, 2 sided|||"The GIS scoring system is from 1-7 with one being a worse outcome and 7 the better outcome.~Comparisons below list the p values for comparison of difference in GIS between baseline and mesalamine."||||.001
82504658|NCT01327300|164701789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.008||95.0|||||t-test, 2 sided|||Comparisons of mean difference in GIS scores between baseline and placebo is made below.||||0.008
82626050|NCT01068717|164967827|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.34|||||TWO_SIDED|90.0|97.96|106.91||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||106.91|97.96|
82504659|NCT01327300|164701790|SUPERIORITY_OR_OTHER|||||||0.873|||||||Wilcoxon (Mann-Whitney)|||Correlation coefficients were used for each of three biomarkers in relation to other biomarkers and to the questionnaires and patient's symptoms.||||0.873
82504660|NCT01327300|164701790|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|Pearson's linear coefficient||The study tested three biomarkers and symptom domains at baseline and the end of 12 weeks of placebo using the Mann-Whitney test, as well as correlations between domains with Pearson's linear correlation coefficient.||||0.810
82504661|NCT01327300|164701791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.5||||0.67|||||||t-test, 2 sided|Two-tailed P values are listed for baseline versus 12 weeks of mesalamine||"The FBDSI score is based on the severity of abdominal pian. Severity is rated as the following:~None= 0 points Mild= (1-36) Moderate =(37-110) Severe= (\>110 points)"||||0.67
82504662|NCT01327300|164701791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0||||0.77|||||||t-test, 2 sided|||See prior description of the FBDSI score. Change in the FBDSI after 12 weeks of intervention is made using a two sided t-test.||||0.77
82504663|NCT01327300|164701792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0||||0.61|||||||t-test, 2 sided|||For the IBS QOL we compared the change in IBS-Quality of Life (IBS-QOL) after 12 weeks of mesalamine.||||0.61
82504664|NCT01327300|164701792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2||||0.33|||||||t-test, 2 sided|||Comparison of change in IBS-Quality of Life (IBS-QOL)from baseline after 12 weeks of intervention was made.||||0.33
82504665|NCT01327300|164701793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.71||95.0|||||t-test, 2 sided|||Comparison of the change in HADS score of baseline to 12 weeks of mesalamine is made.||||0.71
82504666|NCT01327300|164701793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.57||95.0|||||t-test, 2 sided|||Comparison of change in HADS score between baseline and after 12 weeks of placebo is made.||||0.57
82504667|NCT01327300|164701794|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||Comparison of the lactulose/mannitol ratio is made after a 12 week intervention with mesalamine to 12 weeks of placebo.||||0.55
82504668|NCT03739112|164701799|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) for relative vaccine efficacy (VE) was \> -20%.|percent VE|8.8|||||TWO_SIDED|95.0|-16.7|28.7|||||VE of VLP vaccine versus Fluarix = (1-ARVv/ARVc) x 100% where ARVv = attack rate in participants vaccinated with the Quadrivalent VLP Influenza vaccine and ARVc = attack rate in participants vaccinated with an active Fluarix.|||28.7|-16.7|
82504669|NCT02584504|164701906|SUPERIORITY||Least Square (LS) Mean Difference|-39.5|||<|0.0001|TWO_SIDED|97.5|-46.5|-32.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis|Threshold for significance at 0.025 level.|Alirocumab 150 mg Q4W vs. Placebo|Alirocumab 150 mg Q4W group was compared to placebo group using an appropriate contrast statement.||-32.4|-46.5|<0.0001
82504670|NCT02584504|164701906|SUPERIORITY||LS Mean Difference|-65.8|||<|0.0001|TWO_SIDED|97.5|-72.9|-58.7||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Alirocumab 150 mg Q2W group was compared to placebo group using an appropriate contrast statement.||-58.7|-72.9|<0.0001
82504671|NCT02584504|164701906|OTHER|Statistical test was not planned because this comparison was for a descriptive purpose.|LS Mean Difference|-26.3|||||TWO_SIDED|95.0|-32.5|-20.0|||||Alirocumab 150 mg Q4W group vs Alirocumab 150 mg Q2W|Alirocumab 150 mg Q4W group was compared to Alirocumab 150 mg Q2W group using an appropriate contrast statement.||-20.0|-32.5|
82504672|NCT02584504|164701907|SUPERIORITY||LS Mean Difference|-40.6|||<|0.0001|TWO_SIDED|97.5|-47.4|-33.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Hierarchical procedure for comparisons of Alirocumab 150 mg Q4W versus Placebo Q2W and Alirocumab 150 mg Q2W versus Placebo Q2W were processed separately.||-33.8|-47.4|<0.0001
82504673|NCT02584504|164701907|SUPERIORITY||LS Mean Difference|-67.4|||<|0.0001|TWO_SIDED|97.5|-74.2|-60.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-60.5|-74.2|<0.0001
82504674|NCT02584504|164701908|SUPERIORITY||LS Mean Difference|-50.5|||<|0.0001|TWO_SIDED|97.5|-56.6|-44.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-44.5|-56.6|<0.0001
82504675|NCT02584504|164701908|SUPERIORITY||LS Mean Difference|-66.2|||<|0.0001|TWO_SIDED|97.5|-72.3|-60.1||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-60.1|-72.3|<0.0001
82504676|NCT02584504|164701909|SUPERIORITY||LS Mean Difference|-51.4|||<|0.0001|TWO_SIDED|97.5|-57.4|-45.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-45.4|-57.4|<0.0001
82504677|NCT02584504|164701909|SUPERIORITY||LS Mean Difference|-67.3|||<|0.0001|TWO_SIDED|97.5|-73.3|-61.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-61.3|-73.3|<0.0001
82504678|NCT02584504|164701910|SUPERIORITY||LS Mean Difference|-26.2|||<|0.0001|TWO_SIDED|97.5|-32.5|-19.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-19.9|-32.5|<0.0001
82504679|NCT02584504|164701910|SUPERIORITY||LS Mean Difference|-51.9|||<|0.0001|TWO_SIDED|97.5|-58.3|-45.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-45.5|-58.3|<0.0001
82504680|NCT02584504|164701911|SUPERIORITY||LS Mean Difference|-27.2|||<|0.0001|TWO_SIDED|97.5|-33.5|-20.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-20.9|-33.5|<0.0001
82504681|NCT02584504|164701911|SUPERIORITY||LS Mean Difference|-53.4|||<|0.0001|TWO_SIDED|97.5|-59.7|-47.1||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-47.1|-59.7|<0.0001
82504682|NCT02584504|164701912|SUPERIORITY||LS Mean Difference|-31.3|||<|0.0001|TWO_SIDED|97.5|-37.7|-25.0||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-25.0|-37.7|<0.0001
82504683|NCT02584504|164701912|SUPERIORITY||LS Mean Difference|-56.2|||<|0.0001|TWO_SIDED|97.5|-62.5|-49.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-49.8|-62.5|<0.0001
82504684|NCT02584504|164701913|SUPERIORITY||LS Mean Difference|-32.4|||<|0.0001|TWO_SIDED|97.5|-38.6|-26.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-26.3|-38.6|<0.0001
82504685|NCT02584504|164701913|SUPERIORITY||LS Mean Difference|-57.6|||<|0.0001|TWO_SIDED|97.5|-63.8|-51.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-51.4|-63.8|<0.0001
82504686|NCT02584504|164701914|SUPERIORITY||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|97.5|-27.4|-17.6||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-17.6|-27.4|<0.0001
82504687|NCT02584504|164701914|SUPERIORITY||LS Mean Difference|-41.4|||<|0.0001|TWO_SIDED|97.5|-46.4|-36.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-36.5|-46.4|<0.0001
82504688|NCT02584504|164701915|SUPERIORITY||Odds Ratio (OR)|61.2|||<|0.0001|TWO_SIDED|97.5|13.9|268.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||268.9|13.9|<0.0001
82504689|NCT02584504|164701915|SUPERIORITY||Odds Ratio (OR)|281.4|||<|0.0001|TWO_SIDED|97.5|33.3|2382.2||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||2382.2|33.3|<0.0001
82504690|NCT02584504|164701916|SUPERIORITY||Odds Ratio (OR)|102.8|||<|0.0001|TWO_SIDED|97.5|19.0|556.8||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||556.8|19.0|<0.0001
82504691|NCT02584504|164701916|SUPERIORITY||Odds Ratio (OR)|500.8|||<|0.0001|TWO_SIDED|97.5|47.9|5230.9||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||5230.9|47.9|<0.0001
82504692|NCT02584504|164701917|SUPERIORITY||Adjusted Mean Difference|-32.9|||<|0.0001|TWO_SIDED|97.5|-43.4|-22.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-22.5|-43.4|<0.0001
82504693|NCT02584504|164701917|SUPERIORITY||Adjusted Mean Difference|-50.9|||<|0.0001|TWO_SIDED|97.5|-61.5|-40.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-40.3|-61.5|<0.0001
82504694|NCT02584504|164701918|SUPERIORITY||LS Mean Difference|5.7||||0.0241|TWO_SIDED|97.5|0.0|11.3||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||11.3|0.0|0.0241
82504695|NCT02584504|164701918|SUPERIORITY||LS Mean Difference|7.8||||0.0022|TWO_SIDED|97.5|2.1|13.5||Threshold for significance at 0.025 level for Bonferroni adjustment.|Mixed Models Analysis||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||13.5|2.1|0.0022
82504696|NCT02584504|164701919|SUPERIORITY||Adjusted Mean Difference|5.9||||0.2645|TWO_SIDED|97.5|-5.9|17.7||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||17.7|-5.9|0.2645
82504697|NCT02584504|164701919|SUPERIORITY||Adjusted Mean Difference|-11.6||||0.0299|TWO_SIDED|97.5|-23.5|0.4||Threshold for significance at 0.025 level for Bonferroni adjustment.|Regression, Robust||Alirocumab 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||0.4|-23.5|0.0299
82504698|NCT01232920|164701927|SUPERIORITY_OR_OTHER|||||||0.09|||||||Fisher Exact|||||||0.09
82504699|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-28.18|||<|0.0001|TWO_SIDED|95.0|-33.85|-22.51|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||-22.51|-33.85|<0.0001
82504700|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-25.29|||<|0.0001|TWO_SIDED|95.0|-31.23|-19.34|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||-19.34|-31.23|<0.0001
82504701|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-29.15|||<|0.0001|TWO_SIDED|95.0|-33.15|-25.15|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||-25.15|-33.15|<0.0001
82504702|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-22.25|||<|0.0001|TWO_SIDED|95.0|-26.36|-18.14|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||-18.14|-26.36|<0.0001
82504703|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-17.52|||<|0.0001|TWO_SIDED|95.0|-21.54|-13.5|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||-13.50|-21.54|<0.0001
82504704|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-15.51|||<|0.0001|TWO_SIDED|95.0|-19.53|-11.49|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||-11.49|-19.53|<0.0001
82563978|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|-0.31||||0.7|TWO_SIDED|95.0|-1.87|1.25|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Score. Obtained at all visits.||1.25|-1.87|0.70
82504705|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-9.74|||<|0.0001|TWO_SIDED|95.0|-13.97|-5.51|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||-5.51|-13.97|<0.0001
82504706|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-4.98||||0.0221|TWO_SIDED|95.0|-9.19|-0.76|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect||Cohort 4||-0.76|-9.19|0.0221
82504707|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-35.38|||<|0.0001|TWO_SIDED|95.0|-38.89|-31.87|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-31.87|-38.89|<0.0001
82504708|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-27.08|||<|0.0001|TWO_SIDED|95.0|-30.6|-23.57|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-23.57|-30.60|<0.0001
82504709|NCT02246673|164701933|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|-31.26|||<|0.0001|TWO_SIDED|95.0|-34.77|-27.75|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||-27.75|-34.77|<0.0001
82504710|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|24.27||||0.0002|TWO_SIDED|95.0|12.57|35.98|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||35.98|12.57|0.0002
82504711|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|20.08||||0.0013|TWO_SIDED|95.0|8.38|31.79|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||31.79|8.38|0.0013
82504712|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|23.7|||<|0.0001|TWO_SIDED|95.0|14.23|33.17|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||33.17|14.23|<0.0001
82504713|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|18.37||||0.0008|TWO_SIDED|95.0|8.3|28.44|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||28.44|8.30|0.0008
82504714|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|18.82||||0.0101|TWO_SIDED|95.0|4.86|32.79|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||32.79|4.86|0.0101
82504715|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|20.52||||0.0055|TWO_SIDED|95.0|6.56|34.48|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||34.48|6.56|0.0055
82504716|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|10.36||||0.0065|TWO_SIDED|95.0|3.13|17.59|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||17.59|3.13|0.0065
82504717|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|1.79||||0.614|TWO_SIDED|95.0|-5.37|8.94|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect||Cohort 4||8.94|-5.37|0.6140
82504718|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|30.83||||0.0002|TWO_SIDED|95.0|15.62|46.04|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||46.04|15.62|0.0002
82504719|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|24.38||||0.0019|TWO_SIDED|95.0|9.63|39.14|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||39.14|9.63|0.0019
82504720|NCT02246673|164701934|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|26.35||||0.0009|TWO_SIDED|95.0|11.59|41.11|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||41.11|11.59|0.0009
82504721|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|139.11|||<|0.0001|TWO_SIDED|95.0|93.92|184.31|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||184.31|93.92|<0.0001
82504722|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|174.47|||<|0.0001|TWO_SIDED|95.0|125.52|233.42|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||233.42|125.52|<0.0001
82563979|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|3.96||||0.14|TWO_SIDED|95.0|-1.27|9.2|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Score. Obtained at all visits.||9.20|-1.27|0.14
82563980|NCT04454125|164837243|SUPERIORITY||Mean Difference (Net)|4.27||||0.13|TWO_SIDED|95.0|-1.19|9.73|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome=Childhood Asthma Control Test Scores.||9.73|-1.19|0.13
82563981|NCT04454125|164837244|SUPERIORITY||Mean Difference (Net)|0.25||||0.11|TWO_SIDED|95.0|-0.06|0.55|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.55|-0.06|0.11
82504723|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|168.03|||<|0.0001|TWO_SIDED|95.0|123.13|212.93|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||212.93|123.13|<0.0001
82504724|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|188.75|||<|0.0001|TWO_SIDED|95.0|138.04|239.46|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||239.46|138.04|<0.0001
82504725|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|70.43||||0.0005|TWO_SIDED|95.0|33.74|107.12|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||107.12|33.74|0.0005
82504726|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|91.5|||<|0.0001|TWO_SIDED|95.0|54.81|128.19|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||128.19|54.81|<0.0001
82504727|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|40.11|||<|0.0001|TWO_SIDED|95.0|25.17|55.05|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||55.05|25.17|<0.0001
82504728|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|15.96||||0.035|TWO_SIDED|95.0|1.2|30.71|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||30.71|1.20|0.0350
82504729|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|236.08|||<|0.0001|TWO_SIDED|95.0|178.29|293.86|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||293.86|178.29|<0.0001
82504730|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|146.2|||<|0.0001|TWO_SIDED|95.0|90.4|202.01|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||202.01|90.40|<0.0001
82504731|NCT02246673|164701935|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|176.57|||<|0.0001|TWO_SIDED|95.0|120.77|232.38|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||232.38|120.77|<0.0001
82504732|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|135.82|||<|0.0001|TWO_SIDED|95.0|93.33|178.32|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||178.32|93.33|<0.0001
82504733|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|178.58|||<|0.0001|TWO_SIDED|95.0|129.25|227.9|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 1||227.90|129.25|<0.0001
82504734|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|163.98|||<|0.0001|TWO_SIDED|95.0|120.8|207.16|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||207.16|120.80|<0.0001
82504735|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|169.93|||<|0.0001|TWO_SIDED|95.0|122.82|217.03|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 2||217.03|122.82|<0.0001
82504736|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|59.6||||0.0007|TWO_SIDED|95.0|28.85|90.34|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||90.34|28.85|0.0007
82504737|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|73.54|||<|0.0001|TWO_SIDED|95.0|42.79|104.28|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 3||104.28|42.79|<0.0001
82504738|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|33.7|||<|0.0001|TWO_SIDED|95.0|21.21|46.2|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||46.20|21.21|<0.0001
82504739|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|27.08||||0.0001|TWO_SIDED|95.0|14.58|39.58|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 4||39.58|14.58|0.0001
82563982|NCT04454125|164837244|SUPERIORITY||Mean Difference (Net)|0.54||||0.002|TWO_SIDED|95.0|0.2|0.88|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.88|0.20|0.002
82504740|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|188.83|||<|0.0001|TWO_SIDED|95.0|152.55|225.1|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||225.10|152.55|<0.0001
82504741|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|116.83|||<|0.0001|TWO_SIDED|95.0|81.76|151.9|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||151.90|81.76|<0.0001
82504742|NCT02246673|164701936|SUPERIORITY_OR_OTHER||Geometric Least Squares mean Ratio|151.66|||<|0.0001|TWO_SIDED|95.0|116.59|186.73|||Mixed Models Analysis|The model included treatment and period as fixed effects and subject(s) as a random effect.||Cohort 5||186.73|116.59|<0.0001
82504743|NCT05413369|164701950|NON_INFERIORITY|The non-inferiority was assessed using the upper bound of the 2-sided 95% confidence interval (CI). Non-inferiority p-value was calculated from a non-inferiority margin of 0.3%.|Least Squares (LS) Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.33|-0.07|||ANCOVA|Treatment groups and randomization stratum of previous oral anti-diabetic drug(OADs) as fixed effects,and baseline HbA1c continuous value as covariate||Statistical analysis for change from baseline in HbA1c||-0.07|-0.33|<0.001
82504744|NCT05413369|164701951|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|97.5|-0.35|-0.05|||ANCOVA|Treatment groups and randomization stratum of previous as fixed effects, and baseline HbA1c continuous value as covariate||Statistical analysis for change from baseline in HbA1c||-0.05|-0.35|0.003
82504745|NCT05413369|164701952|SUPERIORITY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|97.5|-2.32|-0.66|||ANCOVA|Treatment groups, randomization stratums of HbA1c and previous OADs as fixed effects, and baseline body weight continuous value as covariate.||Statistical analysis for change from baseline in body weight||-0.66|-2.32|<0.001
82504746|NCT05413369|164701953|SUPERIORITY||Odds Ratio (OR)|1.89|||<|0.001|TWO_SIDED|97.5|1.25|2.85|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c||Statistical analysis for percentage of participants reaching HbA1c value \<7% at Week 24||2.85|1.25|<0.001
82504747|NCT05413369|164701954|SUPERIORITY||Odds Ratio (OR)|2.59|||<|0.001|TWO_SIDED|95.0|1.79|3.76|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c and body weight.||Statistical analysis for percentage of participants reaching HbA1c value \<7% with no body weight gain at Week 24||3.76|1.79|<0.001
82504748|NCT05413369|164701955|SUPERIORITY||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.52|3.6|||Regression, Logistic|Adjusted for treatment group, randomization stratum of previous OADs, and continuous baseline value of HbA1c and body weight.||Statistical analysis for percentage of participants reaching HbA1c value \<7% with no body weight gain at Week 24 and no hypoglycemia during treatment||3.60|1.52|<0.001
82504749|NCT00720057|164701969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The treatment differences between the two groups were tested each at the 5% two-sided significant level using a hierarchal testing procedure to control the overall type 1 error. SPID16-24 was eligible for testing only after a statistically significant difference between the two arms with respect to SPID0-24 was observed. The SPIDs were analyzed via ANCOVA model with treatment and trial site as fixed effects and baseline pain intensity score as the covariate.||||<0.001
82504750|NCT00720057|164701970|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82504751|NCT00720057|164701971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82504752|NCT00720057|164701972|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||The statistics are from the Kaplan-Meier method. The median for naproxen treatment arm was not estimable from Kaplan-Meier method, therefore it is presented as the maximum value from the full range.||||<0.001
82504753|NCT00720057|164701973|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82504754|NCT00720057|164701974|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
82504755|NCT00579826|164701976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82504756|NCT00579826|164701977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82626051|NCT01068717|164967827|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|101.82|||||TWO_SIDED|90.0|96.1|107.88||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||107.88|96.10|
82504757|NCT00579826|164701978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82504758|NCT00579826|164701979|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82504759|NCT00579826|164701980|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82504760|NCT00973479|164702001|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82504761|NCT00973479|164702002|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82504762|NCT00973479|164702003|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA of van der Waerden scores|||||||<0.001
82504763|NCT00973479|164702004|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82504764|NCT00973479|164702005|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA of van der Waerden scores|||||||<0.001
82504765|NCT01265849|164702018|SUPERIORITY|||||||0.4051||||||For the primary efficacy measure a two-sided p-value of 0.05 or less is considered to be statistically significant in comparing the LI+CIZ+SOC treatment vs. SOC alone for superiority.|Log Rank|Log Rank statistic is based on an unstratified analysis.||The primary objective was to compare overall survival in the LI + CIZ + SOC group to that in the SOC alone group for superiority of the former.||||0.4051
82504766|NCT01265849|164702018|SUPERIORITY|||||||0.5402|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.5402
82504767|NCT01265849|164702018|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4128|TWO_SIDED|95.0|0.89|1.32|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.32|0.89|0.4128
82504768|NCT01265849|164702018|SUPERIORITY|||||||0.7181|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.7181
82504769|NCT01265849|164702018|SUPERIORITY|||||||0.948|||||||Log Rank|This log Rank p-value is based on a stratified analysis.||||||0.9480
82504770|NCT01265849|164702018|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6101|TWO_SIDED|95.0|0.81|1.42|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A hazard Ratio \< 1.0 would favor LI + SOC.|||1.42|0.81|0.6101
82504771|NCT01265849|164702019|SUPERIORITY|||||||0.0478|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.0478
82504772|NCT01265849|164702019|SUPERIORITY|||||||0.0137|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.0137
82504773|NCT01265849|164702019|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0236|TWO_SIDED|95.0|0.48|0.95|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||0.95|0.48|0.0236
82504774|NCT01265849|164702019|SUPERIORITY|||||||0.4115|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.4115
82504775|NCT01265849|164702019|SUPERIORITY|||||||0.2862|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.|||This HR is presented as (LI + SOC) / SOC. A HR \< 1.0 favors LI+SOC. Wald p-value for this HR is 0.3859.|||0.2862
82504776|NCT01265849|164702019|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3859|TWO_SIDED|95.0|0.52|1.29|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.29|0.52|0.3859
82504777|NCT01265849|164702020|SUPERIORITY|||||||0.7304||||||P-values are not adjusted for multiple comparisons.|Log Rank|This Log Rank P-value is based on an unstratified analysis.||The secondary endpoint LRC failure is analyzed similar to the primary OS endpoint. The primary comparison is LI+CIZ+SOC vs SOC; LI+SOC vs SOC results are also reported.||||0.7304
82504778|NCT01265849|164702020|SUPERIORITY|||||||0.7171||||||P-values are reported unadjusted for multiplicity.|Log Rank|The Log Rank statistic is based on a stratified analysis.||||||0.7171
82504779|NCT01265849|164702020|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.802|TWO_SIDED|95.0|0.79|1.36|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.36|0.79|0.8020
82504780|NCT01265849|164702020|SUPERIORITY|||||||0.4231|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.4231
82504781|NCT01265849|164702020|SUPERIORITY|||||||0.6998|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.6998
82504782|NCT01265849|164702020|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.3944|TWO_SIDED|95.0|0.81|1.69|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.69|0.81|0.3944
82504783|NCT01265849|164702021|SUPERIORITY|||||||0.6142|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.6142
82504784|NCT01265849|164702021|SUPERIORITY|||||||0.3024|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.3024
82504785|NCT01265849|164702021|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.42082|TWO_SIDED|95.0|0.55|1.28|||Regression, Cox||A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.28|0.55|0.42082
82504786|NCT01265849|164702021|SUPERIORITY|||||||0.9784|||||||Log Rank|The Log Rank statistic is based on an unstratified analysis.||||||0.9784
82504787|NCT01265849|164702021|SUPERIORITY|||||||0.8461||||||This Log Rank statistic is based on a stratified analysis.|Log Rank|||||||0.8461
82504788|NCT01265849|164702021|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.8131|TWO_SIDED|95.0|0.53|1.65|||Regression, Cox||A Hazard Ratio of \< 1.0 would favor LI + SOC.|||1.65|0.53|0.8131
82378330|NCT03762239|164465063|SUPERIORITY||Mean Difference (Final Values)|-3.38||||0.2|TWO_SIDED|95.0|-8.51|1.74|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||1.74|-8.51|0.20
82504789|NCT01265849|164702022|SUPERIORITY|||||||0.3303|||||||Log Rank|This Log Rank statistic is from an unstratified analysis.||This secondary endpoint PFS is analyzed similar to OS and LRC.||||0.3303
82504790|NCT01265849|164702022|SUPERIORITY|||||||0.6669|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.6669
82504791|NCT01265849|164702022|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3728|TWO_SIDED|95.0|0.9|1.31|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + CIZ + SOC.|||1.31|0.90|0.3728
82504792|NCT01265849|164702022|SUPERIORITY|||||||0.5739|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.5739
82563983|NCT04454125|164837244|SUPERIORITY||Mean Difference (Net)|0.3||||0.2|TWO_SIDED|95.0|-0.16|0.75|||generalized linear model, repeat measure|GLM fitted with Normal/Gaussian distribution and identity link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Pediatric Asthma Quality of Life Questionnaire. Obtained at randomization and exit visits (visit 1 and visit 7).||0.75|-0.16|0.20
82378331|NCT03762239|164465064|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.92|TWO_SIDED|95.0|-5.1|4.6|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||4.60|-5.10|0.92
82504793|NCT01265849|164702022|SUPERIORITY|||||||0.8162|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.8162
82504794|NCT01265849|164702022|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.4728|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.43|0.84|0.4728
82504795|NCT01265849|164702023|SUPERIORITY|||||||0.1797|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.1797
82504796|NCT01265849|164702023|SUPERIORITY|||||||0.0159|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.0159
82504797|NCT01265849|164702023|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0896|TWO_SIDED|95.0|0.55|1.04|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio of \< 1.0 would favor LI + CIZ + SOC.|||1.04|0.55|0.0896
82504798|NCT01265849|164702023|SUPERIORITY|||||||0.5175|||||||Log Rank|This Log Rank statistic is based on an unstratified analysis.||||||0.5175
82504799|NCT01265849|164702023|SUPERIORITY|||||||0.453|||||||Log Rank|This Log Rank statistic is based on a stratified analysis.||||||0.4530
82504800|NCT01265849|164702023|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4376|TWO_SIDED|95.0|0.54|1.3|||Regression, Cox|The Cox Proportional Hazards Model included terms for treatment, tumor stage, tumor location, and geographic region.|A Hazard Ratio \< 1.0 would favor LI + SOC.|||1.30|0.54|0.4376
82504801|NCT01265849|164702024|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|2.395||0.21|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|Approximately 30% of participants completed the QOL instrument at first administration (Month2), thus the study did not have the power for QoL comparisons. These completer analyses are descriptive only.||||0.2100
82378332|NCT03762239|164465065|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.46|TWO_SIDED|95.0|-4.94|2.22|||Conditional linear regression|Class group as strata. Adjusted for year of birth, sex as well as average temperature, relative humidity and CO2 concentration during the experiment.||||2.22|-4.94|0.46
82504802|NCT01265849|164702024|SUPERIORITY||Mean Difference (Net)|4.67|STANDARD_ERROR_OF_MEAN|3.401||0.1701|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + SOC.|Approximately 30% of participants completed the QOL instrument at last administration (Month 36), thus the study did not have power for QoL comparisons. These completer analyses are descriptive only.||||0.1701
82504803|NCT01265849|164702025|SUPERIORITY|This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Median Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.397||0.5871|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|LI + CIZ + SOC, Standard of Care (SOC)||||0.5871
82504804|NCT01265849|164702025|SUPERIORITY||Mean Difference (Net)|4.46|STANDARD_ERROR_OF_MEAN|3.247||0.17|TWO_SIDED|||||This p-value for Long Term Follow-up at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Positive value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.1700
82504805|NCT01265849|164702026|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|2.183||0.6296|TWO_SIDED|||||This p-value for head and neck pain at Long Term Follow-up Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.6296
82504806|NCT01265849|164702026|SUPERIORITY||Mean Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|3.103||0.7454|TWO_SIDED|||||This p-value for head and neck pain at Long Term Follow-up Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.7454
82504807|NCT01265849|164702026|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|2.465||0.7452|TWO_SIDED|||||This p-value for Long Term Follow-up for swallowing at month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, tumor location \& stage, geographic region, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.7452
82504808|NCT01265849|164702026|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|3.496||0.771|TWO_SIDED|||||This p-value for Long Term Follow-up for swallowing at Month 2 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed effects of treatment, visit, treatment by visit, and baseline with compound symmetry.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.7710
82504809|NCT01265849|164702027|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|2.185||0.6337|TWO_SIDED|||||This p-value for Long Term Follow-up for head and neck pain at Month 36 is not adjusted for multiplicity|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + CIZ + SOC.|||||0.6337
82504810|NCT01265849|164702027|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.962||0.945|TWO_SIDED|||||This p-value for Long Term Follow-up for head and neck pain at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.9450
82504811|NCT01265849|164702027|SUPERIORITY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|2.465||0.4071|TWO_SIDED|||||This p-value for Long Term Follow-up for Swallowing at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI+ CIZ + SOC.|||||0.4071
82504812|NCT01265849|164702027|SUPERIORITY||Mean Difference (Net)|-7.29|STANDARD_ERROR_OF_MEAN|3.347||0.0296|TWO_SIDED|||||This p-value for Long Term Follow-up for Swallowing at Month 36 is not adjusted for multiplicity.|Repeated Measures ANCOVA (RMANCOVA)|RMANCOVA with fixed stratification factors, trt, visit, trt\*visit, and baseline, with a compound symmetry correlation structure.|Negative value for the difference (Mean Difference (Net)) favors LI + SOC.|||||0.0296
82504813|NCT01265849|164702028|SUPERIORITY|Statistical tests were for a significant treatment effect in the Cox Proportional Hazards model including treatment, disease stage, tumor location, and geographical region.|% of significant test results|21.6|||<|0.05|TWO_SIDED|95.0|17.0|26.9||"Under the null hypothesis of no effect the expected number of significant test results would be balanced between treatments.~The expected number (%) of statistically significant results would be approximately 14 (5%) of 282."|Regression, Cox|||"Treatment comparisons of LI+CIZ+SOC v. SOC were repeated at all levels of HP, HP ratios, and HP combinations for endpoints OS, PFS, and LRC.~Significant outcomes for the treatment term in the model (two-sided p\<0.05) were accumulated."||26.9|17.0|<0.05
82504814|NCT01265849|164702029|SUPERIORITY||Percent (%) of Participants|8.1|||<|0.0001|TWO_SIDED|95.0|5.6|11.2|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + CIZ + SOC and SOC.||11.2|5.6|<.0001
82504815|NCT01265849|164702029|SUPERIORITY||Percent (%) of Participants|9.7|||<|0.0001|TWO_SIDED|95.0|4.7|14.7|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + SOC and SOC.||14.7|4.7|<0.0001
82504816|NCT01265849|164702030|SUPERIORITY||Percent (%) of Participants|15.2|||<|0.0001|TWO_SIDED|95.0|9.6|20.8|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + CIZ + SOC and SOC.||20.8|9.6|<0.0001
82504817|NCT01265849|164702030|SUPERIORITY||Percent (%) of Participants|18.5|||<|0.0001|TWO_SIDED|95.0|8.2|28.9|||Fisher Exact|||Null hypothesis is that percent (%) of participants with an objective response (CR+PR) is the same for LI + SOC and SOC.||28.9|8.2|<0.0001
82504818|NCT01265849|164702031|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI + CIZ + SOC.||||0.0007
82504819|NCT01265849|164702031|SUPERIORITY|||||||0.0434|||||||Fisher Exact|||The null hypothesis is that survival is unrelated to objective response versus the alternative that response is predictive of increased survival in subjects receiving LI + SOC.||||0.0434
82504820|NCT01265849|164702031|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The null hypothesis is that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI, considering both treatment groups combined.||||<0.0001
82504821|NCT01265849|164702032|SUPERIORITY|||||||0.0101|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for low risk participants receiving LI + CIZ + SOC.||||0.0101
82504822|NCT01265849|164702032|SUPERIORITY|||||||0.4843|||||||Fisher Exact|||The null hypothesis that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for low risk participants receiving LI + SOC.||||0.4843
82563984|NCT04454125|164837245|SUPERIORITY||Odds Ratio (OR)|0.94||||0.87|TWO_SIDED|95.0|0.45|1.96|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||1.96|0.45|0.87
82504823|NCT01265849|164702032|SUPERIORITY||||||<|0.0067||||||The null hypothesis is that survival is unrelated to objective response versus the alternative hypothesis that objective response is predictive of increased survival for participants receiving LI, considering both treatment groups combined.|Fisher Exact|||||||<0.0067
82504824|NCT01265849|164702033|SUPERIORITY||Hazard Ratio (HR)|0.348||||0.0131|TWO_SIDED|95.0|0.152|0.801|||Regression, Cox|||Null hypothesis is that the Hazard Ratio (HR) for low risk subjects responding to LI (combined arms LI + CIZ + SOC, LI + SOC) is \>=1.0 versus the alternative hypothesis that subjects responding to LI are at reduced risk of death (HR \< 1.0).||0.801|0.152|0.0131
82504825|NCT01265849|164702033|SUPERIORITY||Hazard Ratio (HR)|0.246||||0.0181|TWO_SIDED|95.0|0.077|0.787|||Regression, Cox|||Null hypothesis is that the Hazard Ratio (HR) for low risk subjects responding to LI + CIZ + SOC is \>=1.0 versus the alternative hypothesis that subjects responding to LI + CIZ + SOC are at reduced risk of death (HR \< 1.0).||0.787|0.077|0.0181
82504826|NCT02188589|164702047|EQUIVALENCE|The difference between the mean baseline and mean follow-up NOSE scores was evaluated by paired t-test with significance indicated by p\<0.05.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82504827|NCT03341533|164702049|EQUIVALENCE|The null hypothesis is that there is no difference in NPIS between the two groups.|difference in medians|0.0||||0.39|TWO_SIDED||||||Kruskal-Wallis|||||||0.39
82504828|NCT03341533|164702050|EQUIVALENCE|The null hypothesis is that there is no difference in MME use on the hospital floor between groups.|Difference of medians|-4.5||||0.88|TWO_SIDED||||||Kruskal-Wallis||Ice packs - Usual care|||||0.88
82504829|NCT03341533|164702051|EQUIVALENCE|The null hypothesis is that the outpatient MME consumption will be the same across the two groups.|difference in medians|-7.5||||0.75|TWO_SIDED||||||Kruskal-Wallis||Ice packs - Usual Care|||||0.75
82504830|NCT03341533|164702052|EQUIVALENCE|The null hypothesis is that the postoperative BPI pain severity score will be the same between groups|difference in medians|-0.3||||0.8|TWO_SIDED||||||Kruskal-Wallis||Ice Packs - Usual Care|||||0.80
82504831|NCT03526458|164702065|SUPERIORITY||Mean Difference (Final Values)|16.6|STANDARD_ERROR_OF_MEAN|5.6||0.012|TWO_SIDED|95.0|4.4|28.9|||t-test, 2 sided|||||28.9|4.4|0.012
82504832|NCT03526458|164702066|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|7.3||0.132|TWO_SIDED|95.0|-3.6|26.3|||t-test, 2 sided|||||26.3|-3.6|0.132
82504833|NCT03526458|164702067|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|2.7||0.654|TWO_SIDED|95.0|-4.4|6.9|||t-test, 2 sided|||||6.9|-4.4|0.654
82504834|NCT03526458|164702068|SUPERIORITY|||||||0.299|||||||Chi-squared|||||||0.299
82504835|NCT03526458|164702069|SUPERIORITY|||||||0.076|||||||Chi-squared|||||||0.076
82504836|NCT03526458|164702070|SUPERIORITY||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|143.9||0.943|TWO_SIDED|95.0|-286.0|306.8|||t-test, 2 sided|||||306.8|-286|0.943
82504837|NCT03526458|164702071|SUPERIORITY|||||||0.185|||||||Chi-squared|||||||0.185
82522980|NCT04102579|164741367|OTHER||Least Squares (LS) Means Difference|-3.16|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-4.37|-1.95||Statistical significance achieved if p-value \<0.05.|MMRM||LS Means Difference = Valbenazine - Placebo|Results were analyzed using a mixed-effect model repeated measures (MMRM) analysis. The model included the screening period baseline TMC as a covariate, and treatment group, visit, treatment group-by-visit interaction, and baseline-by-visit interaction as fixed effects. Participant was included as a random effect.||-1.95|-4.37|<0.0001
82522981|NCT04102579|164741368|OTHER||Percent Difference in Responders|29.65||||0.0007|TWO_SIDED|95.0|10.77|45.37||Statistical significance achieved if p-value \<0.05.|Fisher Exact||Percent Difference in Responders (%) = Valbenazine - Placebo|||45.37|10.77|0.0007
82504838|NCT03011307|164702072|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference in score on a scale|0.1||||0.75|TWO_SIDED|95.0|0.0|0.2||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||.2|0|0.75
82504839|NCT03011307|164702073|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference|0.1||||0.057|TWO_SIDED|95.0|0.0|0.2||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||0.2|0.0|0.057
82504840|NCT03011307|164702074|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference in Daily Steps|-402.0||||0.41|TWO_SIDED|95.0|-1358.0|553.0||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||553|-1358|0.41
82504841|NCT03011307|164702075|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Mean Difference (Final Values)|344.0|||<|0.001|TWO_SIDED|95.0|173.0|515.0||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Slope Difference|||"The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.~The slope is the number of daily steps divided by the natural log of time in days."||515|173|<0.001
82504842|NCT03011307|164702076|SUPERIORITY|A likelihood-ratio test for change in World Health Organization Disability Assessment Score 2.0 value was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Intercept Difference: score on a scale|-5.9||||0.002|TWO_SIDED|95.0|-9.5|-2.3||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline World Health Organization Disability Assessment Score 2.0 value, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||-2.3|-9.5|0.002
82504843|NCT03011307|164702077|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference|1.5||||0.001|TWO_SIDED|95.0|0.6|2.4||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||2.4|0.6|0.001
82504844|NCT03011307|164702078|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Mean Difference (Final Values)|0.00035||||0.537|TWO_SIDED|95.0|-0.00085|0.0015||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Intercept difference: Opioid probability|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||.0015|-.00085|0.537
82522982|NCT04102579|164741369|OTHER||Percent Difference in Responders|26.31||||0.0062|TWO_SIDED|95.0|6.32|43.74||Statistical significance achieved if p-value \<0.05.|Fisher Exact||Percent Difference in Responders (%) = Valbenazine - Placebo|||43.74|6.32|0.0062
82522983|NCT04102579|164741370|OTHER||LS Means Difference|1.42|STANDARD_ERROR_OF_MEAN|1.46||0.3304|TWO_SIDED|95.0|-1.46|4.31||Statistical significance achieved if p-value \<0.05.|MMRM||LS Means Difference = Valbenazine - Placebo|LS mean was based on the MMRM model which included corresponding baseline value of the Neuro-QoL Upper Extremity Function T-score as a covariate; treatment group, visit, baseline-by-visit interaction, and treatment group-by-visit interaction as fixed effects; and participant as a random effect.||4.31|-1.46|0.3304
82522984|NCT05899686|164741372|EQUIVALENCE|Equivalence was defined as ANOVA p\<0.05||||||0.65|||||||ANOVA|||Maximum percent change from baseline (light transmittance) during 60 heart beats after the tetanic stimulus were compared between the three stimulus locations using ANOVA||||0.65
82522985|NCT00572195|164741373|OTHER||Wilson score interval|77.0|||||TWO_SIDED|95.0|71.1|81.9|||||The value is for all serious adverse events, regardless of device relation.||95% confidence interval estimated using the Wilson score interval|81.9|71.1|
82504845|NCT03011307|164702079|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without oxytocin treatment group. A statistically significant result is interpreted as evidence to support that the oxytocin treatment impacts some element of change after surgery (i.e, intercept or slope).|Slope Difference: Opioid probability|-0.166||||0.01|TWO_SIDED|95.0|-0.172|-0.16||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the oxytocin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, baseline opioid use, age, sex, baseline PROMIS depression and number of other painful conditions.||-0.160|-0.172|0.010
82504846|NCT03011307|164702080|SUPERIORITY||Mean Difference (Net)|3.0|STANDARD_DEVIATION|14.0||0.55|TWO_SIDED||||||Regression, Linear|||Scores were compared statistically at baseline and 2 months between groups using a generalized linear model with time as a fixed factor.||||.55
82504847|NCT03011307|164702081|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.2||0.46|TWO_SIDED||||||Regression, Linear|||Groups were compared over time from baseline to 2 months using a generalized linear model with time as a fixed factor.||||0.46
82504848|NCT03011307|164702082|SUPERIORITY||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.84||0.38|TWO_SIDED||||||Regression, Linear|||Groups were compared between preoperative and 2 month postoperative sessions using linear regression with time as a fixed factor.||||0.38
82504849|NCT02404285|164702106|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82504850|NCT02404285|164702108|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82504851|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the geometric mean ratio (GMR) for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.71|0.9||||||Serotype 1: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.90|0.71|
82504852|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.78|0.93||||||Serotype 3: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.93|0.78|
82504853|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.71|0.93||||||Serotype 4: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.93|0.71|
82504854|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.74|0.94||||||Serotype 5: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.94|0.74|
82504855|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.66|0.88||||||Serotype 6A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.88|0.66|
82504856|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.73|0.95||||||Serotype 6B: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.95|0.73|
82504857|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.86|||||TWO_SIDED|95.0|0.77|0.96||||||Serotype 7F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.96|0.77|
82504858|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.93|||||TWO_SIDED|95.0|0.82|1.05||||||Serotype 9V: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.05|0.82|
82504859|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.89|1.13||||||Serotype 14: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.13|0.89|
82504860|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.74|0.97||||||Serotype 18C: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.97|0.74|
82504861|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.71|0.9||||||Serotype 19A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.90|0.71|
82504862|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.7|0.91||||||Serotype 19F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.91|0.70|
82504863|NCT03760146|164702129|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.7|0.97||||||Serotype 23F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.97|0.70|
82504864|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.55|||||TWO_SIDED|95.0|0.49|0.62||||||Serotype 8: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||0.62|0.49|
82504865|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.86|||||TWO_SIDED|95.0|1.63|2.12||||||Serotype 10A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.12|1.63|
82504866|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.75|||||TWO_SIDED|95.0|1.52|2.01||||||Serotype 11A: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.01|1.52|
82504867|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.27|1.72||||||Serotype 12F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.72|1.27|
82504868|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.12|||||TWO_SIDED|95.0|2.62|3.71||||||Serotype 15B: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||3.71|2.62|
82504869|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.99|||||TWO_SIDED|95.0|1.7|2.32||||||Serotype 22F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||2.32|1.70|
82504870|NCT03760146|164702130|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.38|||||TWO_SIDED|95.0|1.21|1.57||||||Serotype 33F: Geometric mean ratio (20vPnC/Saline vs 13vPnC/PPSV23) and the 2-sided 95% CI||1.57|1.21|
82504871|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.26||||||Serotype 1: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.26|0.84|
82504872|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.06|||||TWO_SIDED|95.0|0.92|1.22||||||Serotype 3: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.22|0.92|
82504873|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.1|||||TWO_SIDED|95.0|0.87|1.38||||||Serotype 4: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.38|0.87|
82504874|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||Serotype 5: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.07|0.72|
82504875|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.21|||||TWO_SIDED|95.0|0.95|1.53||||||Serotype 6A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.53|0.95|
82504876|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.25|||||TWO_SIDED|95.0|1.0|1.56||||||Serotype 6B: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|1.00|
82504877|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.89|||||TWO_SIDED|95.0|0.74|1.07||||||Serotype 7F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.07|0.74|
82504878|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.83|1.26||||||Serotype 9V: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.26|0.83|
82504879|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.25|||||TWO_SIDED|95.0|1.01|1.54||||||Serotype 14: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.54|1.01|
82504880|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.33|||||TWO_SIDED|95.0|1.06|1.68||||||Serotype 18C: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.68|1.06|
82504881|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||Serotype 19A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.25|0.85|
82504882|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.8|1.22||||||Serotype 19F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.22|0.80|
82522986|NCT00572195|164741374|OTHER||||||<|0.05||||||For all 6-month periods, from 6 months through 9 years post-implant, p \<0.05.|Wilcoxon Signed Rank Test|||||||<0.05
82522987|NCT00572195|164741376|OTHER||GEE estimated intercept|48.0|||<|0.0001|TWO_SIDED|95.0|46.8|49.2|||Generalized estimating equation (GEE)|||||49.2|46.8|<0.0001
82522988|NCT00572195|164741376|OTHER||Slope|0.0||||0.6729|TWO_SIDED|95.0|-0.2|0.1|||Generalized estimating equation (GEE)|||||0.1|-0.2|0.6729
82523313|NCT00297115|164742002|SUPERIORITY_OR_OTHER||Mean Difference (Net)|58.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|41.0|75.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||75|41|<0.0001
82504883|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.68|||||TWO_SIDED|95.0|1.27|2.22||||||Serotype 23F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.22|1.27|
82504884|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.97|||||TWO_SIDED|95.0|0.78|1.2||||||Serotype 8: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.20|0.78|
82504885|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.28||||||Serotype 10A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.28|0.84|
82504886|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.22|||||TWO_SIDED|95.0|0.96|1.56||||||Serotype 11A: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|0.96|
82504887|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.11|||||TWO_SIDED|95.0|0.88|1.39||||||Serotype 12F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.39|0.88|
82504888|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.17|||||TWO_SIDED|95.0|0.88|1.56||||||Serotype 15B: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.56|0.88|
82504889|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||Serotype 22F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.17|0.69|
82504890|NCT03760146|164702131|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.81|1.3||||||Serotype 33F: GMR (20vPnC Cohort 2 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.30|0.81|
82504891|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.23|||||TWO_SIDED|95.0|1.01|1.5||||||Serotype 1: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.50|1.01|
82504892|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.87|1.16||||||Serotype 3: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.16|0.87|
82504893|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.31|||||TWO_SIDED|95.0|2.65|4.13||||||Serotype 4: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.13|2.65|
82504894|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||Serotype 5: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.36|0.91|
82504895|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.84|||||TWO_SIDED|95.0|3.06|4.83||||||Serotype 6A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.83|3.06|
82504896|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.41|||||TWO_SIDED|95.0|2.73|4.26||||||Serotype 6B: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.26|2.73|
82504897|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.58|||||TWO_SIDED|95.0|1.3|1.91||||||Serotype 7F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.91|1.30|
82504898|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.5|||||TWO_SIDED|95.0|2.83|4.33||||||Serotype 9V: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.33|2.83|
82504899|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.39|||||TWO_SIDED|95.0|1.93|2.96||||||Serotype 14: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.96|1.93|
82504900|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|3.2|||||TWO_SIDED|95.0|2.53|4.04||||||Serotype 18C: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||4.04|2.53|
82504901|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.31|||||TWO_SIDED|95.0|1.91|2.81||||||Serotype 19A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.81|1.91|
82523314|NCT00297115|164742003|SUPERIORITY_OR_OTHER||Rate ratio|0.815|STANDARD_ERROR_OF_MEAN|0.057||0.0035|TWO_SIDED|95.0|0.71|0.935||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||0.935|0.710|0.0035
82523315|NCT00297115|164742004|SUPERIORITY_OR_OTHER||Mean Difference (Net)|61.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|44.0|79.0||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||79|44|<0.0001
82504902|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|2.17|||||TWO_SIDED|95.0|1.76|2.68||||||Serotype 19F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.68|1.76|
82504903|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|4.8|||||TWO_SIDED|95.0|3.65|6.32||||||Serotype 23F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||6.32|3.65|
82504904|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.71|||||TWO_SIDED|95.0|1.38|2.12||||||Serotype 8: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.12|1.38|
82504905|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.62|||||TWO_SIDED|95.0|1.31|2.0||||||Serotype 10A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.00|1.31|
82504906|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.04|1.68||||||Serotype 11A: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.68|1.04|
82504907|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.91|||||TWO_SIDED|95.0|1.51|2.41||||||Serotype 12F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.41|1.51|
82504908|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.52|||||TWO_SIDED|95.0|1.13|2.05||||||Serotype 15B: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.05|1.13|
82504909|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.69|||||TWO_SIDED|95.0|1.3|2.2||||||Serotype 22F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||2.20|1.30|
82504910|NCT03760146|164702132|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR for that serotype was greater than 0.5 (2-fold criterion).|Ratio of GMTs|1.4|||||TWO_SIDED|95.0|1.1|1.79||||||Serotype 33F: GMR (20vPnC Cohort 3 vs 20vPnC Cohort 1 60-64 years of age) and the 2-sided 95% CI||1.79|1.10|
82504911|NCT01082965|164702142|SUPERIORITY_OR_OTHER||Leasts Square (LS) Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.265||0.9742|TWO_SIDED|95.0|-0.6|0.58||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Mixed model for repeated measures (MMRM) was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, Apolipoprotein E (ApoE) genotype, site as covariates.||0.58|-0.60|0.9742
82563985|NCT04454125|164837245|SUPERIORITY||Odds Ratio (OR)|6.89||||0.004|TWO_SIDED|95.0|1.85|25.6|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||25.6|1.85|0.004
82563986|NCT04454125|164837245|SUPERIORITY||Odds Ratio (OR)|7.31||||0.01|TWO_SIDED|95.0|1.62|32.9|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported checking the AQI prior to going outside to be active||32.9|1.62|0.01
82504912|NCT01082965|164702143|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.232||0.9638|TWO_SIDED|95.0|-0.51|0.49||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.49|-0.51|0.9638
82504913|NCT01082965|164702144|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.153||0.2548|TWO_SIDED|95.0|-0.53|0.16||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.16|-0.53|0.2548
82504914|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.057||0.6316|TWO_SIDED|95.0|-0.18|0.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.12|-0.18|0.6316
82504915|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.063||0.6256|TWO_SIDED|95.0|-0.12|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.12|0.6256
82504916|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.059||0.5847|TWO_SIDED|95.0|-0.12|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Whole Brain Gray: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.12|0.5847
82504917|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.123||0.1555|TWO_SIDED|95.0|-0.46|0.09||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.09|-0.46|0.1555
82504918|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.151||0.2416|TWO_SIDED|95.0|-0.51|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.51|0.2416
82504919|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.134||0.807|TWO_SIDED|95.0|-0.33|0.26||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Superior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.26|-0.33|0.8070
82442148|NCT03906656|164592759|SUPERIORITY|P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|3.7||0.005|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|74.4 degrees of freedom||H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.005
82504920|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.189||0.6828|TWO_SIDED|95.0|-0.59|0.43||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.43|-0.59|0.6828
82504921|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.109||0.8987|TWO_SIDED|95.0|-0.26|0.29||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.29|-0.26|0.8987
82504922|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.117||0.8922|TWO_SIDED|95.0|-0.28|0.25||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Medial Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.25|-0.28|0.8922
82504923|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.203||0.7555|TWO_SIDED|95.0|-0.39|0.52||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.52|-0.39|0.7555
82504924|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.218||0.1928|TWO_SIDED|95.0|-0.18|0.79||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.79|-0.18|0.1928
82563987|NCT04454125|164837246|SUPERIORITY||Odds Ratio (OR)|0.34||||0.15|TWO_SIDED|95.0|0.08|1.47|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||1.47|0.08|0.15
82563988|NCT04454125|164837246|SUPERIORITY||Odds Ratio (OR)|0.96||||0.94|TWO_SIDED|95.0|0.35|2.68|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||2.68|0.35|0.94
82504925|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.161||0.4946|TWO_SIDED|95.0|-0.26|0.49||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Temporal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.49|-0.26|0.4946
82504926|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.196||0.7029|TWO_SIDED|95.0|-0.56|0.4||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.40|-0.56|0.7029
82504927|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.171||0.1085|TWO_SIDED|95.0|-0.68|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.68|0.1085
82563989|NCT04454125|164837246|SUPERIORITY||Odds Ratio (OR)|2.79||||0.26|TWO_SIDED|95.0|0.47|16.5|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Outcome: Reported outdoor activity behavioral change in response to the AQI, obtained at all visits.||16.5|0.47|0.26
82563990|NCT04454125|164837247|SUPERIORITY||Odds Ratio (OR)|0.42||||0.004|TWO_SIDED|95.0|0.24|0.76|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the control group (Routine Care) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits||0.76|0.24|0.004
82563991|NCT04454125|164837247|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.05|0.31|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the intervention group (AQI Intervention) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits.||0.31|0.05|<0.0001
82563992|NCT04454125|164837247|SUPERIORITY||Odds Ratio (OR)|0.29||||0.03|TWO_SIDED|95.0|0.1|0.87|||generalized linear model, repeat measure|GLM fitted with binomial distribution and logit link|Estimate is for the interaction term (group\*visit) obtained from generalized linear model with repeat measures including group, visit, interaction term (group\*visit).|Obtained at all visits.||0.87|0.10|0.03
82563993|NCT04694300|164837248|SUPERIORITY|Lower the maximum pain intensity score the more effective the analgesic|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82563994|NCT04694300|164837249|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82563995|NCT04694300|164837250|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82563996|NCT04694300|164837251|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82504928|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.132||0.3588|TWO_SIDED|95.0|-0.44|0.18||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Medial Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.18|-0.44|0.3588
82504929|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.151||0.3053|TWO_SIDED|95.0|-0.2|0.53||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.53|-0.20|0.3053
82504930|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.9861|TWO_SIDED|95.0|-0.36|0.36||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.36|-0.36|0.9861
82504931|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6558|TWO_SIDED|95.0|-0.41|0.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.28|-0.41|0.6558
82504932|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.145||0.9471|TWO_SIDED|95.0|-0.53|0.51||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.51|-0.53|0.9471
82504933|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.186||0.2136|TWO_SIDED|95.0|-0.77|0.23||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.23|-0.77|0.2136
82504934|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.189||0.6435|TWO_SIDED|95.0|-0.47|0.67||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Superior Prefrontal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.67|-0.47|0.6435
82504935|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.086||0.0659|TWO_SIDED|95.0|-0.41|0.02||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.02|-0.41|0.0659
82504936|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.7687|TWO_SIDED|95.0|-0.41|0.31||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.31|-0.41|0.7687
82504937|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.163||0.1061|TWO_SIDED|95.0|-0.73|0.1||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Inferior Parietal Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.10|-0.73|0.1061
82504938|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.124||0.3925|TWO_SIDED|95.0|-0.41|0.19||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.19|-0.41|0.3925
82563997|NCT04694300|164837254|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82504939|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.161||0.1991|TWO_SIDED|95.0|-0.58|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.58|0.1991
82504940|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.151||0.5176|TWO_SIDED|95.0|-0.45|0.24||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Insula: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.24|-0.45|0.5176
82563998|NCT04694300|164837255|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82563999|NCT04694300|164837256|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|Higher percentage inhibition relates to greater selectivity for COX-2||||||0.59
82504941|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.143||0.314|TWO_SIDED|95.0|-0.5|0.18||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.18|-0.50|0.3140
82504942|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.171||0.6348|TWO_SIDED|95.0|-0.46|0.29||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.29|-0.46|0.6348
82504943|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.165||0.1491|TWO_SIDED|95.0|-0.64|0.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Precuneus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.12|-0.64|0.1491
82504944|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.192||0.4226|TWO_SIDED|95.0|-0.59|0.27||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.27|-0.59|0.4226
82504945|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.228||0.9778|TWO_SIDED|95.0|-0.49|0.5||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.50|-0.49|0.9778
82504946|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.179||0.9456|TWO_SIDED|95.0|-0.4|0.43||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Anterior Cingulate Cortex: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.43|-0.40|0.9456
82504947|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.162||0.2299|TWO_SIDED|95.0|-0.55|0.15||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.15|-0.55|0.2299
82504948|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.188||0.5069|TWO_SIDED|95.0|-0.54|0.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.28|-0.54|0.5069
82504949|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.143||0.3524|TWO_SIDED|95.0|-0.45|0.17||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Amygdala: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.17|-0.45|0.3524
82504950|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.358||0.4182|TWO_SIDED|95.0|-0.8|1.47||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||1.47|-0.80|0.4182
82504951|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_DEVIATION|0.326||0.363|TWO_SIDED|95.0|-0.42|1.04||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||1.04|-0.42|0.3630
82504952|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.263||0.9837|TWO_SIDED|95.0|-0.73|0.74||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Thalamus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.74|-0.73|0.9837
82504953|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.102||0.0974|TWO_SIDED|95.0|-0.04|0.42||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.42|-0.04|0.0974
82504954|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.067||0.1246|TWO_SIDED|95.0|-0.04|0.27||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.27|-0.04|0.1246
82504955|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.119||0.619|TWO_SIDED|95.0|-0.2|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Basal Ganglia: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.20|0.6190
82504956|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.635|TWO_SIDED|95.0|-0.39|0.25||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.25|-0.39|0.6350
82564000|NCT04694300|164837257|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82564001|NCT01951105|164837274|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82564002|NCT05072795|164837278|OTHER|||||||0.005|||||||t-test, 2 sided|||||||0.005
82564003|NCT01601821|164837292|SUPERIORITY_OR_OTHER||percent difference|-2.0||||0.341|TWO_SIDED|90.0|-5.5|1.5|||Chi-squared|||Chi-square test was used to test superiority of arm CsA+Rapamune+CS versus arm CsA+MMF+CS.||1.5|-5.5|0.341
82564004|NCT01601821|164837293|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way analysis of variance (ANOVA) was used to test the difference.||||0.870
82504957|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.164||0.8205|TWO_SIDED|95.0|-0.4|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.40|0.8205
82504958|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.123||0.2959|TWO_SIDED|95.0|-0.42|0.14||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Hippocampus: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.14|-0.42|0.2959
82504959|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.194||0.552|TWO_SIDED|95.0|-0.56|0.32||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 1, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.32|-0.56|0.5520
82504960|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.22||0.9046|TWO_SIDED|95.0|-0.5|0.45||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.45|-0.50|0.9046
82504961|NCT01082965|164702145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.125||0.0402|TWO_SIDED|95.0|-0.62|-0.02||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 4 on Day 8, Landau: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||-0.02|-0.62|0.0402
82504962|NCT01082965|164702146|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|12.11||0.688|TWO_SIDED|95.0|-21.82|31.82||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||31.82|-21.82|0.6880
82504963|NCT01082965|164702146|SUPERIORITY_OR_OTHER||LS Mean Difference|9.79|STANDARD_ERROR_OF_MEAN|9.143||0.3157|TWO_SIDED|95.0|-11.3|30.87||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||30.87|-11.30|0.3157
82504964|NCT01082965|164702146|SUPERIORITY_OR_OTHER||LS Mean Difference|9.86|STANDARD_ERROR_OF_MEAN|8.921||0.3228|TWO_SIDED|95.0|-13.56|33.28||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||33.28|-13.56|0.3228
82504965|NCT01082965|164702147|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.39|STANDARD_ERROR_OF_MEAN|3.479||0.254|TWO_SIDED|95.0|-12.9|4.12||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Total IR: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||4.12|-12.90|0.2540
82504966|NCT01082965|164702147|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.95||0.7684|TWO_SIDED|95.0|-4.17|5.37||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Total DR: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||5.37|-4.17|0.7684
82504967|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.059||0.494|TWO_SIDED|95.0|-0.09|0.17||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.17|-0.09|0.4940
82504968|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.057||0.1031|TWO_SIDED|95.0|-0.02|0.22||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.22|-0.02|0.1031
82504969|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.048||0.3277|TWO_SIDED|95.0|-0.06|0.16||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8, Detection Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.16|-0.06|0.3277
82504970|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.029||0.6585|TWO_SIDED|95.0|-0.05|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 1, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.05|0.6585
82504971|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.8863|TWO_SIDED|95.0|-0.07|0.08||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 0 on Day 8, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.08|-0.07|0.8863
82504972|NCT01082965|164702148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.044||0.4388|TWO_SIDED|95.0|-0.06|0.13||Statistical significance level alpha (2-sided) was 0.05.|Mixed Models Analysis|||Change at Hour 5 on Day 8, Identification Task: MMRM was used with treatment, time, treatment-by-time interaction as fixed effects and baseline, age, gender, ApoE genotype, site as covariates.||0.13|-0.06|0.4388
82504973|NCT02587065|164702149|OTHER||Spearman's correlation coefficient|-0.85||||0.56|TWO_SIDED|95.0|-3.72|2.02|||Mixed-effects REML regression|||Adjusted change of convenience satisfaction domain of TSQM-9.||2.02|-3.72|0.56
82504974|NCT01268111|164702174|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|||||||0.4
82504975|NCT02094716|164702180|SUPERIORITY|||||||0.6084|||||||Chi-squared|||||||0.6084
82504976|NCT02094716|164702182|SUPERIORITY|||||||0.6937|||||||Chi-squared|||||||0.6937
82504977|NCT02094716|164702183|SUPERIORITY|||||||0.101|||||||Fisher Exact|||||||0.1010
82504978|NCT02094716|164702183|SUPERIORITY|||||||0.0764|||||||Fisher Exact|||||||0.0764
82504979|NCT00697515|164702195|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82504980|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||ANOVA|||2.0 hours post-dose||||0.0017
82504981|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
82504982|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
82504983|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
82564005|NCT01601821|164837293|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.381
82564006|NCT01601821|164837293|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.096
82564007|NCT01601821|164837294|SUPERIORITY_OR_OTHER|||||||0.979|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way ANOVA was used to test the difference.||||0.979
82504984|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
82504985|NCT00697515|164702196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
82504986|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||Average over the treatment day||||<0.0001
82504987|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANOVA|||2.0 hours post-dose||||0.0010
82504988|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
82504989|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
82504990|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
82504991|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
82504992|NCT00697515|164702197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
82504993|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||Over the treatment day||||<0.0001
82504994|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031||95.0|||||ANOVA|||2.0 hours post-dose||||0.0031
82504995|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||4.0 hours post-dose||||<0.0001
82504996|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||8.0 hours post-dose||||<0.0001
82504997|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||10.0 hours post-dose||||<0.0001
82504998|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||12.0 hours post-dose||||<0.0001
82504999|NCT00697515|164702198|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||14.0 hours post-dose||||<0.0001
82505000|NCT00697515|164702199|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82505001|NCT00697515|164702200|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82505002|NCT00697515|164702203|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Prescott's Test|||||||<0.0001
82505003|NCT00697515|164702204|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82505004|NCT00697515|164702206|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82505005|NCT00697515|164702207|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82505006|NCT02436759|164702212|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Two-sided t-test with treatment as a fixed factor and baseline score as a covariate||||||<0.0001
82505007|NCT02436759|164702213|SUPERIORITY|||||||0.12|||||||ANCOVA|Two-sided t-test||||||0.12
82505008|NCT03054857|164702214|SUPERIORITY||Risk Ratio (RR)|1.532||||0.289|TWO_SIDED|95.0|0.689|3.406|||Chi-squared|||||3.406|0.689|0.289
82505009|NCT03054857|164702215|SUPERIORITY||Risk Ratio (RR)|1.329||||0.636|TWO_SIDED|95.0|0.409|4.319|||Chi-squared|||||4.319|0.409|0.636
82505010|NCT03054857|164702217|SUPERIORITY||Mean Difference (Final Values)|-1.053|STANDARD_DEVIATION|0.792||0.187|TWO_SIDED|95.0|-2.626|0.52|||t-test, 2 sided|||||0.52|-2.626|0.187
82505011|NCT03054857|164702218|SUPERIORITY||Mean Difference (Final Values)|-4.644|STANDARD_DEVIATION|7.606||0.543|TWO_SIDED|95.0|-19.74|10.45|||t-test, 2 sided|||||10.45|-19.74|0.543
82505012|NCT02603432|164702219|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0005|TWO_SIDED|95.0|0.556|0.863||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model.||||0.863|0.556|0.0005
82505013|NCT02603432|164702242|SUPERIORITY||Cox Proportional Hazard|1.26||||0.913|ONE_SIDED|95.0|0.901||||Log Rank||||||0.901|0.9130
82505014|NCT05352815|164702270|SUPERIORITY|Change in HbA1c from baseline to week 52 is analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors and baseline HbA1c as covariate. Missing HbA1c values at week 52 are imputed by using multiple imputation. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.|Treatment difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.57|||ANCOVA|||||-0.57|-0.76|<0.0001
82564008|NCT01601821|164837294|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.660
82564009|NCT01601821|164837294|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.518
82564010|NCT01601821|164837295|SUPERIORITY_OR_OTHER|||||||0.786|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 3: One-way ANOVA was used to test the difference.||||0.786
82505015|NCT02759120|164702321|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.83|TWO_SIDED|95.0|0.71|1.53|||Regression, Cox|||||1.53|0.71|0.83
82505016|NCT02759120|164702322|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.65|TWO_SIDED|95.0|0.7|1.78|||Regression, Cox|||||1.78|0.70|0.65
82505017|NCT02759120|164702323|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.25|TWO_SIDED|95.0|0.82|2.17|||Regression, Cox|||||2.17|0.82|0.25
82505018|NCT02759120|164702324|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.13|TWO_SIDED|95.0|0.91|2.01|||Regression, Cox|||||2.01|0.91|0.13
82505019|NCT02759120|164702325|SUPERIORITY||Risk Ratio (RR)|1.21||||0.4|TWO_SIDED|95.0|0.78|1.89|||Regression, Cox|||||1.89|0.78|0.40
82505020|NCT02759120|164702326|SUPERIORITY||Risk Ratio (RR)|1.29||||0.16|TWO_SIDED|95.0|0.9|1.83|||Regression, Cox|||||1.83|0.90|0.16
82505021|NCT02759120|164702327|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.19|TWO_SIDED|95.0|-0.56|2.83|||Regression, Cox|||||2.83|-0.56|0.19
82505022|NCT02759120|164702328|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.51|TWO_SIDED|95.0|-1.67|3.35|||Regression, Cox|||||3.35|-1.67|0.51
82505023|NCT02759120|164702329|SUPERIORITY||Risk Ratio (RR)|0.71||||0.13|TWO_SIDED|95.0|0.46|1.11|||Regression, Cox|||||1.11|0.46|0.13
82505024|NCT02759120|164702330|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.76|TWO_SIDED|95.0|-4.64|3.39|||Regression, Cox|||||3.39|-4.64|0.76
82505025|NCT02759120|164702331|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.54|TWO_SIDED|95.0|-0.24|0.46|||Regression, Cox|||||0.46|-0.24|0.54
82505026|NCT02759120|164702332|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.99|TWO_SIDED|95.0|-0.79|0.8|||Regression, Linear|||||0.80|-0.79|0.99
82505027|NCT02759120|164702333|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.76|TWO_SIDED|95.0|-4.64|3.39|||Regression, Cox|||||3.39|-4.64|0.76
82505028|NCT02759120|164702334|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.63|TWO_SIDED|95.0|-0.031|0.051|||Regression, Cox|||||0.051|-0.031|0.63
82505029|NCT02759120|164702335|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.15|TWO_SIDED|95.0|-0.007|0.043|||Regression, Cox|||||0.043|-0.007|0.15
82505030|NCT02759120|164702336|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.53|TWO_SIDED|95.0|-1.11|2.15|||Regression, Cox|||||2.15|-1.11|0.53
82505031|NCT02759120|164702337|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.75|TWO_SIDED|95.0|-1.61|2.2|||Regression, Linear|||||2.20|-1.61|0.75
82505032|NCT02063854|164702343|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using t-test at a one-sided significance level of 2.5% and a non-inferiority margin (Δ) of 1.5%.||||||0.1346|||||||t-test, 1 sided|With a non-inferiority margin (Δ) of 1.5%.||||||0.1346
82505033|NCT02063854|164702343|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using t-test at a one-sided significance level of 2.5% and a non-inferiority margin (Δ) of 1.5%.||||||0.6711|||||||t-test, 1 sided|With a non-inferiority margin (Δ) of 1.5%.||||||0.6711
82505034|NCT02063854|164702343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.92|0.001||||||||0.001|-1.920|
82505035|NCT02063854|164702343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-2.617|-0.794||||||||-0.794|-2.617|
82505036|NCT02063854|164702343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||||TWO_SIDED|95.0|-0.166|1.658||||||||1.658|-0.166|
82626052|NCT01068717|164967828|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio (%) of geometric LS mean|102.64|||||TWO_SIDED|90.0|98.31|107.16||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||107.16|98.31|
82626053|NCT01068717|164967828|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio (%) of geometric LS mean|99.22||||||90.0|96.48|102.04||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||102.04|96.48|
82626054|NCT01068717|164967829|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|99.04|||||TWO_SIDED|95.0|92.9|105.59||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||105.59|92.90|
82626055|NCT01068717|164967829|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals (CIs) were calculated for Treatment B to Treatment A and Treatment D to Treatment C ratios of geometric means for Cmax, AUC(INF), and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% CIs for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|Ratio geometric LS mean|102.77|||||TWO_SIDED|95.0|96.82|109.09||||||To demonstrate the bioequivalence of FDC tablet versus coadministration of saxagliptin and metformin tablets in the fasted and fed states, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\], and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period, and treatment as fixed effects and measurements within each subject as repeated measurements allowing for different covariance structures for the fasted and fed states.||109.09|96.82|
82626056|NCT00771173|164967831|SUPERIORITY_OR_OTHER|||||||0.745|TWO_SIDED||||||t-test, 2 sided|||The independent samples t-test was used to test the null hypothesis that the mean VAS score for the active treatment cohort (i.e., those receiving pyridium) was no different than the mean VAS score for those receiving placebo.||||.745
82626057|NCT01602549|164967835|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.965|||||TWO_SIDED|95.0|0.831|1.12|||||Day 1: The adjusted means (AMs) and ratios were estimated using a mixed model (MM) fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg : Placebo Day 1||1.120|0.831|
82626058|NCT01602549|164967835|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.886|||||TWO_SIDED|95.0|0.763|1.029|||||Day 8: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg : Placebo Day 8||1.029|0.763|
82626059|NCT01602549|164967835|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.937|||||TWO_SIDED|95.0|0.85|1.033|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8: Day 1||1.033|0.850|
82626060|NCT01602549|164967835|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.02|||||TWO_SIDED|95.0|0.89|1.17|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8:Day 1 Placebo||1.170|0.890|
82626061|NCT01602549|164967837|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.864|||||TWO_SIDED|95.0|0.702|1.064|||||Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 1||1.064|0.702|
82626062|NCT01602549|164967837|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.018|||||TWO_SIDED|95.0|0.824|1.257|||||Day 8: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 8||1.257|0.824|
82505037|NCT00930579|164702356|OTHER|This study used two-sided t-tests to compare changes within group- before and after metformin treatment.|Mean Difference (Final Values)|-0.006||||0.98|TWO_SIDED||||||paired t-test|||Null hypothesis: there will be no statistically significant change between the amount of Ki-67 (protein involved in cell proliferation) in participants' tumor cells before and after taking the prescribed dose of Metformin, as measured at the 5% significance level.||||0.98
82505038|NCT02255981|164702359|OTHER|Non-inferiority could be considered if the outcomes were comparable to the most known studies yet published or, in the case of non-treatable disorder, if the acupuncture treatment got to maintain the VA and prevent the losses. There are many known studies with conventional treatment and estimations of the worsening of vision in this pathologies on the time without treatment.|Mean Difference (Final Values)|15.392|||<|0.05|TWO_SIDED|95.0||||"Using the SPSS program and the non-parametrical technic of Wilcoxon it was determined the p-value.~It should be noted that the null hypothesis is that all these eyes should have a zero gain or perhaps a loss in VA at two years of follow-up."|t-test, 1 sided|From this estimation, it is induced that there are differences in results before and after the treatment.|The datum corresponds to the difference in letters seen between exams at the start and the final examination for all participants. Calculi were made by a Microsoft Excel Descriptive Statistics program.|"Besides that it is of interest to compare with the published studies outcomes, realized with anti-VEGF treatments, and with the known expectations of AV lost without treatment, the data were converted in letters ETDRS chart and here are registered the mean number of letters gained or lost in each group.~Ho: Differences between mean measurements before and after are similar H1: Differences between mean measurements before and after are different."|The null hypothesis was no gain or loss in VA. The alternative hypothesis was stabilization or some gain in letters seen over the baseline count.The published studies report a small gain in VA in about a third of participants and only in cases of NV-AMD with conventional treatment, and an expectancy of loss of vision in the other non treated or non-treatable macular diseases. Some of the participants in this trial had had ocular injections without positive change. Non-inferiority in this trial means outcomes of similar magnitude to the known studies.|||<0.05
82505039|NCT01046682|164702363|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon rank sum test|||Using data from a different population, ie, patients with peripheral artery disease, and a different intervention, ie, omega-3 fatty acids, 15 participants were needed per group to achieve 80% power to detect a difference in means of -3.6% (the difference between the control group mean of -0.3% and a treatment group mean of 3.3%) assuming a common standard deviation of 3.3 using a two group t-test with a 0.05 two-sided significance level. 5 patients added to each arm in case nonparametric.||||<0.05
82505040|NCT03054870|164702446|NON_INFERIORITY|The non-inferiority margin was determined from a separate study where 6 blinded readers read and re-read 75 Xe-133 planar ventilation imaging studies in 2 read sessions separated by a minimum of 4 weeks. The readers scored the 6 regions of the lung using the same ventilation scoring metric used in this study. Based on analysis of the read/re-read results, 60% was established as a suitable margin for establishing the non-inferiority of Technegas compared to Xe-133.|||||<|0.0141||||||P-value is one-sided; for testing non-inferiority the associated critical value for PA is provided by lower bound of the 97.18% confidence interval.|Mixed Models Analysis|Binary agreement scores between Technegas and Xe-133 ventilation scores by subject-lung region served as the dependent variable in the model.||PA between Technegas and Xe-133 from analysis of each of the 3 blinded readers' ventilation scores was subjected to the following test of null (H0) versus alternate hypotheses (HA): H0: PA \<= 60% versus HA: PA \> 60%. The original sample size of 240 subjects was based on 90% power and one-sided alpha=0.025. For the unplanned interim analysis of 200 subjects, testing for non-inferiority used one-sided alpha=0.0141 (critical value provided by lower bound of the 97.18% confidence interval).|Binary agreement scores were analyzed for each reader separately using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement (PA). For the study to be considered a success, the null hypothesis had to be rejected for at least 2 of the 3 blinded readers for the primary efficacy endpoint.|||<0.0141
82505041|NCT03054870|164702447|NON_INFERIORITY|The non-inferiority margin was determined from a separate study where 6 blinded readers read and re-read 75 Xe-133 planar ventilation imaging studies in 2 read sessions separated by a minimum of 4 weeks. The readers scored the 6 regions of the lung using the same ventilation scoring metric used in this study. Based on analysis of the read/re-read results, 60% was established as a suitable margin for establishing the non-inferiority of Technegas compared to Xe-133.|||||<|0.0141||||||P-value is one-sided; for testing non-inferiority the associated critical value for PA is provided by lower bound of the 97.18% confidence interval.|Mixed Models Analysis|Binary agreement scores between Technegas and Xe-133 ventilation scores by subject-lung region served as the dependent variable in the model.||PA between Technegas and Xe-133 from analysis of each of the 3 blinded readers' ventilation scores was subjected to the following test of null (H0) versus alternate hypotheses (HA): H0: PA \<= 60% versus HA: PA \> 60%. The original sample size of 240 subjects was based on 90% power and one-sided alpha=0.025. For the unplanned interim analysis of 200 subjects, testing for non-inferiority used one-sided alpha=0.0141 (critical value provided by lower bound of the 97.18% confidence interval).|Binary agreement scores were analyzed for each reader separately using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement (PA). For the study to be considered a success, the null hypothesis had to be rejected for at least 2 of the 3 blinded readers for the primary efficacy endpoint.|||<0.0141
82505042|NCT03054870|164702448|OTHER||||||||||||||||||Estimates of inter-observer percent agreement were obtained as follows. For each reader-pair, binary agreement scores by subject and lung region were analyzed using a generalized linear model with SAS® PROC GENMOD. The logit function (log odds ratio) was specified as the link function, and subject was specified as a repeated measure to allow for correlations between lung regions within a subject. The estimate of the intercept of the model using generalized estimating equation (GEE) methodology provided an overall estimate of the agreement and corresponding confidence interval in terms of the log odds ratio. Simple algebra was used to obtain the corresponding estimates and confidence intervals in terms of percent agreement.|||
82564011|NCT01601821|164837295|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 6: One-way ANOVA was used to test the difference.||||0.738
82378333|NCT03762239|164465066|SUPERIORITY||Beta coefficient|-0.1446||||0.232|TWO_SIDED|95.0|-0.382|0.0928|||Ordered logistic regression|Adjusted for a rich set or relevant controls. Standard errors clustered at the high school level.|Change comparing the filter group to the non-filter group|The hypothesis was that air filtration could result in higher assessment of math skills, relative to the classroom without air filter (normal air), in the self assessed math skills measure among adolescents in high schools.||0.0928|-0.3820|0.232
82505043|NCT03054870|164702449|OTHER||||||||||||||||||For each pair of readers, by lung region estimates of kappa statistics and their corresponding 95% confidence intervals were generated from cross-tabulation frequencies of the readers' ventilation scores using SAS® PROC FREQ and the AGREE option.|||
82505044|NCT00003641|164702498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.964|TWO_SIDED||||||Log Rank|stratified on the stratification factors used for randomization||||||0.964
82505045|NCT00003641|164702499|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558|TWO_SIDED||||||Log Rank|Stratified on the stratification factors used for randomization||||||0.558
82505046|NCT00944450|164702500|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence bounds = (0.80, 1.25) for AUC geometric mean ratio (B/A)|Geometric Mean Ratio|1.05||||||90.0|1.02|1.07||||||100 mg MK0431 monohydrate (Phase III/FMI formulation) (B) vs. 100 mg MK0431 anhydrous (Phase IIB formulation) (A)||1.07|1.02|
82505047|NCT00944450|164702501|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence bounds = (0.80, 1.25) for Cmax geometric mean ratio (B/A)|Geometric Mean Ratio|1.07||||||90.0|0.94|1.22||||||100 mg MK0431 monohydrate (Phase III/FMI formulation) (B) vs. 100 mg MK0431 anhydrous (Phase IIB formulation) (A)||1.22|0.94|
82505048|NCT03706794|164702528|SUPERIORITY||Mann-Whitney U|43.0||||0.829|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.829
82505049|NCT03706794|164702529|SUPERIORITY||Mann-Whitney U|45.5||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
82505050|NCT03706794|164702530|SUPERIORITY||Mann-Whitney U|45.5||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
82505051|NCT03706794|164702531|SUPERIORITY||Mann-Whitney U|46.0||||0.633|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.633
82505052|NCT03706794|164702532|SUPERIORITY||Mann-Whitney U|52.0||||0.315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.315
82505053|NCT03642717|164702568|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in Glycosylated hemoglobin (HbA1c) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
82505054|NCT03642717|164702571|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in Fasting Plasma Glucose (FPG) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
82505055|NCT03642717|164702572|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in body weight at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
82378334|NCT04471428|164465067|SUPERIORITY|Stratified Analysis: Stratification factors include histology, and prior NSCLC treatment regimens|Hazard Ratio (HR)|0.884||||0.3668|TWO_SIDED|95.0|0.676|1.156|||Log Rank||Hazard ratio was estimated by Cox regression model.|||1.156|0.676|0.3668
82505056|NCT03642717|164702573|OTHER|||||||0.0076||||||Paired t-test was applied comparing the difference in mean of change in systolic blood pressure (SBP) at Last Visit versus at Baseline.|Paired t-test|||||||0.0076
82505057|NCT03642717|164702574|OTHER||||||<|0.0001||||||Paired t-test was applied comparing the difference in mean of change in diastolic blood pressure (DBP) at Last Visit versus at Baseline.|Paired t-test|||||||< 0.0001
82505058|NCT01559012|164702576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_DEVIATION|2.7||0.001|TWO_SIDED|95.0|1.05|3.32||A sample size modeling (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01 and a beta \> 0.90.|Wilcoxon (Mann-Whitney)|Statistical signiﬁcance was assessed by the use of Mann-Whitney U test. P \< 0.05 was deﬁned as statistically signiﬁcant||This is an analysis between groups of intervention clonidine versus placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD.||3.32|1.05|0.001
82505059|NCT01559012|164702576|NON_INFERIORITY_OR_EQUIVALENCE|A sample size modeling (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01|within patient variation|1.83|||<|0.02|TWO_SIDED|95.0|0.43|3.24|||Wilcoxon (Mann-Whitney)|||This is a within patient variation between clonidine and placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean +/- Standard Deviation (SD).||3.24|0.43|<0.02
82505060|NCT01559012|164702577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.009|TWO_SIDED|95.0|1.78|11.5|||Wilcoxon (Mann-Whitney)|||Analysis within groups clonidine versus placebo. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||11.5|1.78|0.009
82505061|NCT01559012|164702577|NON_INFERIORITY_OR_EQUIVALENCE|A sample size modeling for crossover studies (MGH Mallinckrodt General Clinical Research Center) showed that a total of 12 patients were needed in order to detect a difference of 2 points of PUQE score between the two groups at P \< 0.01|within patient variation|7.5|||<|0.01|TWO_SIDED|95.0|2.17|12.83|||Wilcoxon (Mann-Whitney)|||Analysis within-patient. Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD.||12.83|2.17|<0.01
82505062|NCT01559012|164702578|SUPERIORITY_OR_OTHER||difference of percentage of positivity|0.3||||0|TWO_SIDED|95.0|0.04|0.47|||Wilcoxon (Mann-Whitney)|||"All patients were treated with TD clonidine for 5 days and switched to placebo for 5 days, or the other way round~Allocation order randomized"||0.47|0.04|0.000
82505063|NCT01559012|164702579|SUPERIORITY_OR_OTHER||mean values|0.8||||0.013|TWO_SIDED|95.0|0.13|1.57|||Wilcoxon (Mann-Whitney)|||Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||1.57|0.13|0.013
82505064|NCT01559012|164702580|SUPERIORITY_OR_OTHER||days off-therapy %|29.0||||0.051|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Statistical signiﬁcance was assessed by the use of Mann-Whitney U test P \< 0.05 was deﬁned as statistically signiﬁcant . Data are presented as mean + SD. .||||0.051
82564012|NCT01601821|164837295|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED|||||Statistical testing was based on 5% significance level.|ANOVA|||Month 12: One-way ANOVA was used to test the difference.||||0.977
82505065|NCT01559012|164702581|SUPERIORITY_OR_OTHER||proportion|0.0||||0.0089|TWO_SIDED|95.0|||||Fisher Exact|||||||0.0089
82505066|NCT01559012|164702584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0||||0.01|TWO_SIDED|95.0|0.9|10.9|||Wilcoxon (Mann-Whitney)|||||10.9|0.9|0.01
82505067|NCT01559012|164702585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.055|TWO_SIDED|95.0|0.3|6.3|||Wilcoxon (Mann-Whitney)|||||6.3|0.3|0.055
82505068|NCT00853723|164702614|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence test of means for the percentage change in PINP and CTX using two one-sided tests applied to data from the parallel group design with a sample size of 31 in the PTH(1-34) group and 62 in the combined PTHrP(1-36) group achieved 80% power at 2.5% significant level for two-sided hypothesis testing (adjusted for the hypothesis testing at two key endpoints).|||||<|0.0005|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline by day 15 in all three arms.|Kruskal-Wallis|||||||<0.0005
82505069|NCT00853723|164702615|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups.|Kruskal-Wallis|The threshold for stasistical significance was p=0.05||||||<0.05
82505070|NCT00853723|164702616|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence test of means for the percentage change in PINP and CTX using two one-sided tests applied to data from the parallel group design with a sample size of 31 in the PTH(1-34) group and 62 in the combined PTHrP(1-36) group achieved 80% power at 2.5% significant level for two-sided hypothesis testing (adjusted for the hypothesis testing at two key endpoints).|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline at Day 60 and at Day 90 for the PTH group and at day 90 for the PTHrP 400 and PTHrP 600 groups .|Kruskal-Wallis|||||||<0.05
82505071|NCT00853723|164702617|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in PTHrP 400 and 600 groups.|Kruskal-Wallis|The threshold for stastistical significance was p=0.05||||||<0.05
82505072|NCT00853723|164702618|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in the PTHrP 400 group|Kruskal-Wallis|The threshold for stastistical significance was p=0.05||||||<0.05
82505073|NCT00853723|164702619|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups|Kruskal-Wallis|The threshold for statistical signifcance was p=0.05||||||>0.05
82505074|NCT00853723|164702620|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds with percent change from baseline in all Arms/groups|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||>0.05
82505075|NCT00853723|164702621|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.0005|TWO_SIDED|||||The reported p-value corresponds to change from baseline at Day 15 and 30 in the PTHrP 400 group and at Day 15 in the PTHrP 600 group|F-test, one way analysis of variance|The threshold for statistical significance was p=0.05||||||<0.0005
82505076|NCT00853723|164702622|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds to PTH group on Day 60 compared to the PTHrP 400|F-test, one way analysis of variance|The threshold for statistical significance was p=0.05||||||<0.05
82505077|NCT00853723|164702622|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the PTH group on Day 30 compared to the PTHrP 400 group and Day 60 compared to the PTHRp 600 group|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.005
82505078|NCT00853723|164702622|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.0005|TWO_SIDED|||||The reported p-value correspond to the PTH group on Day 15 compared to the PTHrP 400 group and Day 15 and 30 compared to the PTHrP 600 group.|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.0005
82505079|NCT00853723|164702623|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the increase from baseline to D90 in the PTHrP 400 group.|F-test, one way analysis of variance|the threshold for statistical significance was p=0.05||||||<0.005
82505080|NCT00853723|164702624|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p value corresponds to an increased from baseline at all time points in all Arms/groups as well as to the increase in the in the PTHrP 400 group at Day 60 and 90 compared to the PTHrP 600 and PTH groups .|F-test, one way analysis of variance|the threshold for statistical significance was p=0.05||||||<0.05
82505081|NCT00853723|164702624|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes|||||<|0.005|TWO_SIDED|||||The reported p-value corresponds to the comparison of the PTHrP 400 group at Day 15 to the PTHrP 600 and PTH groups|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.005
82505082|NCT00853723|164702625|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds to an increase compared to baseline in the PTHrP 600 group at D15 and D30|F-test, one way analysis of variance|The threshold for stastistical significance was p=0.05||||||<0.05
82505083|NCT00853723|164702625|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.005|TWO_SIDED|||||the reported p-value corresponds to change from baseline in the PTHrP 400 group at Day 15,30, 60 and 90 and the PTH group at day 90.|Kruskal-Wallis|the threshold for statistical significance was p=0.05||||||<0.005
82378335|NCT04471428|164465067|SUPERIORITY||Hazard Ratio (HR)|0.907||||0.4709|TWO_SIDED|95.0|0.696|1.182|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.182|0.696|0.4709
82505084|NCT00853723|164702626|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate. See primary outcomes.|||||<|0.05|TWO_SIDED|||||The reported p-value corresponds the PTH group on Day 15 compared to the PTHrP 400 group and to the PTHrP 600 group at Day 30 and Day 60|Kruskal-Wallis|The threshold for statistical significance was p=0.05||||||<0.05
82505085|NCT00853723|164702626|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations for this study were determined considering the expected effects of PTHrP (1-36) relative to PTH (1-34) on the primary endpoints of P1NP and CTX after 3 months of treatment relative to baseline using previously published data as weel as anticipated attrition rate.|||||<|0.0005|TWO_SIDED|||||Thre reported p-value correspond to the PTH group compared to the PTHrp 600 group at day 15|Kruskal-Wallis|the threshold for statistical significance was p=0.05||||||<0.0005
82505086|NCT01787175|164702641|SUPERIORITY_OR_OTHER||Difference in time to complete A&P|-17.73||||0.047|TWO_SIDED|95.0|-35.24|-0.23|||Mixed-effects linear model|||Null hypothesis: Participants will require the same amount of time to complete assessments and plans using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||-0.23|-35.24|0.047
82505087|NCT01787175|164702642|SUPERIORITY_OR_OTHER||Value of problem scores for A&P complete|0.04||||0.15|TWO_SIDED|95.0|-0.01|0.09|||Mixed-effects linear model|||Null hypothesis: Participants will receive the same scores for assessments and plans completed using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||0.09|-0.01|0.15
82505088|NCT01787175|164702643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.005|TWO_SIDED|95.0|1.22|2.98|||Regression, Logistic|||Null hypothesis: Participants will receive the same proportion of acceptable scores for assessments and plans completed using either IMM or CPRS. Power calculation: With 2 replications per subject, and assuming an ICC of 0.15, a two-sided alpha 0.05 comparison adjusted for 5 multiple comparisons (adjusted alpha = 0.01), and power of 80%, an N of 32 clinicians was required for each group (32 using IMM, and 32 using CPRS).||2.98|1.22|0.005
82505089|NCT05778786|164702644|SUPERIORITY|A superiority margin of 0.0 logMAR was used.|Least-Square Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.012|||ONE_SIDED|95.0||-0.1|||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 9 subjects provide at least 99% statistical power to test for superiority.||-0.10||
82505090|NCT05778786|164702645|SUPERIORITY|A superiority margin of 62 points was used.|Least-quares mean|69.4|STANDARD_ERROR_OF_MEAN|2.13|||ONE_SIDED|95.0|65.2||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 165 subjects provide at least 99% statistical power to test for superiority.|||65.2|
82505091|NCT05778786|164702646|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.974|STANDARD_DEVIATION|0.01|||TWO_SIDED|95.0|0.95|0.989|||Bayesian beta- binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.989|0.950|
82505092|NCT05778786|164702647|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.989|STANDARD_DEVIATION|0.0054|||TWO_SIDED|95.0|0.976|0.997|||Bayesian beta-binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.997|0.976|
82505093|NCT05778786|164702648|SUPERIORITY|A superiority margin of 0.80 was used|Mean Central Posterior Proportion|0.989|STANDARD_DEVIATION|0.0053|||TWO_SIDED|95.0|0.977|0.997|||Bayesian beta- binomial model|Method used is Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible interval.||0.997|0.977|
82505094|NCT05778786|164702649|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Central Posterior Proportion|0.003|STANDARD_DEVIATION|0.0028|||TWO_SIDED|95.0|0.0|0.01|||Bayesian beta-binomial model|Bayesian beta- binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.01 and an intraclass correlation of 0.70, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible Interval.||0.010|0.000|
82505095|NCT05778786|164702650|SUPERIORITY|A superiority margin of 58 points was used.|Least-squares Mean|66.1|STANDARD_ERROR_OF_MEAN|2.48|||ONE_SIDED|95.0|61.2||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 135 subjects provide at least 97% statistical power to test for superiority.|||61.2|
82505096|NCT05778786|164702651|SUPERIORITY|A superiority margin of 61 points was used.|Least-squares Mean|69.9|STANDARD_ERROR_OF_MEAN|1.66|||ONE_SIDED|95.0|66.6||||Linear Mixed Model|||It was calculated using a 1-sided one sample mean t-test with a type I error rate of 0.025 that 135 subjects provide at least 97% statistical power to test for superiority.|||66.6|
82564013|NCT01601821|164837296|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
82505097|NCT02867709|164702652|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0285|TWO_SIDED|95.0|1.09|2.22||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.22|1.09|0.0285
82505098|NCT02867709|164702652|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0129|TWO_SIDED|95.0|1.14|2.29||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.29|1.14|0.0129
82505099|NCT02867709|164702653|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0711|TWO_SIDED|95.0|1.02|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||1.83|1.02|0.0711
82505100|NCT02867709|164702653|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0129|TWO_SIDED|95.0|1.25|2.2||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.20|1.25|0.0129
82505101|NCT02867709|164702654|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0711|TWO_SIDED|95.0|1.25|2.17||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.17|1.25|0.0711
82505102|NCT02867709|164702654|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0129|TWO_SIDED|95.0|1.35|2.32||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.32|1.35|0.0129
82505103|NCT02867709|164702655|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0711|TWO_SIDED|95.0|1.33|2.48||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.48|1.33|0.0711
82505104|NCT02867709|164702655|SUPERIORITY||Odds Ratio (OR)|2.16||||0.0129|TWO_SIDED|95.0|1.59|2.92||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.92|1.59|0.0129
82505105|NCT02867709|164702656|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0711|TWO_SIDED|95.0|1.04|2.53||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.53|1.04|0.0711
82505106|NCT02867709|164702656|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0129|TWO_SIDED|95.0|1.2|2.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.83|1.20|0.0129
82505107|NCT02867709|164702657|SUPERIORITY||Odds Ratio (OR)|1.28||||0.1833|TWO_SIDED|95.0|0.96|1.72||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||1.72|0.96|0.1833
82505108|NCT02867709|164702657|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0167|TWO_SIDED|95.0|1.14|2.02||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.02|1.14|0.0167
82505109|NCT02867709|164702658|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1066|TWO_SIDED|95.0|1.04|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.83|1.04|0.1066
82505110|NCT02867709|164702658|SUPERIORITY||Odds Ratio (OR)|1.39||||0.044|TWO_SIDED|95.0|1.05|1.84||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.84|1.05|0.0440
82505111|NCT02867709|164702659|SUPERIORITY||Odds Ratio (OR)|1.1||||0.9522|TWO_SIDED|95.0|0.81|1.49||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.49|0.81|0.9522
82505112|NCT02867709|164702659|SUPERIORITY||Odds Ratio (OR)|1.12||||0.9522|TWO_SIDED|95.0|0.83|1.51||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.51|0.83|0.9522
82505113|NCT00827983|164702660|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by calculating a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower bound of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and the test group considered not inferior to the control treatment.|Difference in pregnancy rates|-3.1||||0.37|TWO_SIDED|95.0|-9.9|3.7|||Chi-squared|||"The non -inferiority hypothesis to be tested for the primary endpoint was that the ongoing pregnancy rate (oPR) in the test group (Pe)was lower than the oPR in the control group (Pc)against the alternative one that the oPR in the test group was equal to or higher than the oPR in the control group.~H0 : Pc\>= Pe + d(-10%) H1 : Pc\< Pe + d(-10%)"||3.7|-9.9|0.37
82505114|NCT00827983|164702661|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.1||||0.37|TWO_SIDED|95.0|-9.87|3.68|||Chi-squared|||||3.68|-9.87|0.37
82505115|NCT00827983|164702662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.33||0.85|TWO_SIDED|95.0|-4.7|5.8|||t-test, 2 sided|||||5.8|-4.7|0.85
82505116|NCT00663052|164702698|SUPERIORITY_OR_OTHER||Proportion difference|18.34||||0.0015|TWO_SIDED|95.0|6.8|29.88|||Fisher Exact||Primary endpoint used 95% CI to compare to prespecified target rates for each treatment arm.|With 125 participants/group, estimation was: 1)approximately 90% power to reject null hypothesis- PASI 75 response rate at 24 weeks: 50% in ETN 50 mg QW, assuming true rate is 65% or greater; 2)90% power to reject null hypothesis- PASI 75 response rate at 24 weeks: 60% in 50 mg BIW, assuming true rate is 74% or greater. The 95% CI widths on these are approximately ±8.8%, indicating PASI 75 for ETN 50 mg QW and ETN 50 mg BIW must be at least 58.8% \& 68.8%, respectively to reject null hypotheses.||29.88|6.80|0.0015
82505117|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|3.14||||0.3605|TWO_SIDED|95.0|-3.88|10.16|||Fisher Exact|||Comparison between treatment groups at Week 2||10.16|-3.88|0.3605
82505118|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|17.91||||0.0013|TWO_SIDED|95.0|6.5|29.32|||Fisher Exact|||Comparison between treatment groups at Week 4||29.32|6.50|0.0013
82505119|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|19.6||||0.0011|TWO_SIDED|95.0|7.51|31.7|||Fisher Exact|||Comparison between treatment groups at Week 8||31.70|7.51|0.0011
82505120|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|20.09|||<|0.0001|TWO_SIDED|95.0|9.77|30.4|||Fisher Exact|||Comparison between treatment groups at Week 12||30.40|9.77|<.0001
82505121|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|14.38||||0.001|TWO_SIDED|95.0|5.39|23.37|||Fisher Exact|||Comparison between treatment groups at Week 16||23.37|5.39|0.0010
82505122|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|10.75||||0.0087|TWO_SIDED|95.0|2.35|19.16|||Fisher Exact|||Comparison between treatment groups at Week 20||19.16|2.35|0.0087
82505123|NCT00663052|164702699|SUPERIORITY_OR_OTHER||Proportion difference|11.46||||0.0068|TWO_SIDED|95.0|2.77|20.15|||Fisher Exact|||Comparison between treatment groups at Week 24||20.15|2.77|0.0068
82505124|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|1.5||||0.2435|TWO_SIDED|95.0|-1.31|4.32|||Fisher Exact|||Comparison between treatment groups at Week 2||4.32|-1.31|0.2435
82505125|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|1.64||||0.5929|TWO_SIDED|95.0|-4.4|7.67|||Fisher Exact|||Comparison between treatment groups at Week 4||7.67|-4.40|0.5929
82505126|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|13.44||||0.0156|TWO_SIDED|95.0|2.02|24.86|||Fisher Exact|||Comparison between treatment groups at Week 8||24.86|2.02|0.0156
82564014|NCT01601821|164837298|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.276
82564015|NCT01601821|164837299|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
82505127|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|25.18|||<|0.0001|TWO_SIDED|95.0|12.89|37.47|||Fisher Exact|||Comparison between treatment groups at Week 12||37.47|12.89|<.0001
82505128|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|21.84||||0.0003|TWO_SIDED|95.0|9.82|33.85|||Fisher Exact|||Comparison between treatment groups at Week 16||33.85|9.82|0.0003
82505129|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|19.8||||0.0006|TWO_SIDED|95.0|8.23|31.38|||Fisher Exact|||Comparison between treatment groups at Week 20||31.38|8.23|0.0006
82505130|NCT00663052|164702700|SUPERIORITY_OR_OTHER||Proportion difference|18.34||||0.0015|TWO_SIDED|95.0|6.8|29.88|||Fisher Exact|||Comparison between treatment groups at Week 24||29.88|6.80|0.0015
82505131|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74||The P-value at Week 2 was not applicable as the percentage of participants achieving 90% improvement in PASI in both treatment groups were 0%.|Fisher Exact|||Comparison between treatment groups at Week 2||0.74|-0.74|
82505132|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|0.02||||1|TWO_SIDED|95.0|-2.77|2.81|||Fisher Exact|||Comparison between treatment groups at Week 4||2.81|-2.77|1.0000
82505133|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|3.94||||0.2611|TWO_SIDED|95.0|-3.2|11.07|||Fisher Exact|||Comparison between treatment groups at Week 8||11.07|-3.20|0.2611
82505134|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|18.37||||0.0002|TWO_SIDED|95.0|8.3|28.45|||Fisher Exact|||Comparison between treatment groups at Week 12||28.45|8.30|0.0002
82505135|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|17.31||||0.0031|TWO_SIDED|95.0|5.43|29.19|||Fisher Exact|||Comparison between treatment groups at Week 16||29.19|5.43|0.0031
82505136|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|15.92||||0.0081|TWO_SIDED|95.0|3.8|28.04|||Fisher Exact|||Comparison between treatment groups at Week 20||28.04|3.80|0.0081
82505137|NCT00663052|164702701|SUPERIORITY_OR_OTHER||Proportion difference|16.78||||0.0064|TWO_SIDED|95.0|4.46|29.1|||Fisher Exact|||Comparison between treatment groups at Week 24||29.10|4.46|0.0064
82505138|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74||The P-value at Week 2 was to be calculated by Fisher Exact method but was not estimable as the percentage of participants achieving 100% improvement in PASI in both treatment groups were 0%.||||Comparison between treatment groups at Week 2||0.74|-0.74|
82505139|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|-0.73||||1|TWO_SIDED|95.0|-2.9|1.44|||Fisher Exact|||Comparison between treatment groups at Week 4||1.44|-2.90|1.0000
82505140|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|-1.46||||0.4983|TWO_SIDED|95.0|-4.21|1.29|||Fisher Exact|||Comparison between treatment groups at Week 8||1.29|-4.21|0.4983
82505141|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|1.57||||0.4957|TWO_SIDED|95.0|-3.23|6.37|||Fisher Exact|||Comparison between treatment groups at Week 12||6.37|-3.23|0.4957
82505142|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|3.14||||0.3115|TWO_SIDED|95.0|-3.24|9.52|||Fisher Exact|||Comparison between treatment groups at Week 16||9.52|-3.24|0.3115
82505143|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|6.99||||0.0773|TWO_SIDED|95.0|-1.13|15.1|||Fisher Exact|||Comparison between treatment groups at Week 20||15.10|-1.13|0.0773
82505144|NCT00663052|164702702|SUPERIORITY_OR_OTHER||Proportion difference|5.53||||0.183|TWO_SIDED|95.0|-2.82|13.87|||Fisher Exact|||Comparison between treatment groups at Week 24||13.87|-2.82|0.1830
82505145|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.3||||0.0103|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||-0.3|-2.3|0.0103
82505146|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.8||||0.0031|TWO_SIDED|95.0|-3.0|-0.6|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.6|-3.0|0.0031
82505147|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-3.0|||<|0.0001|TWO_SIDED|95.0|-4.4|-1.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-1.7|-4.4|<0.0001
82505148|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-3.6|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-2.2|-5.0|<0.0001
82505149|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.0|-1.5|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-1.5|-4.0|<0.0001
82505150|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.1||||0.0012|TWO_SIDED|95.0|-3.3|-0.8|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.8|-3.3|0.0012
82505151|NCT00663052|164702703|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.0||||0.0042|TWO_SIDED|95.0|-3.4|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.7|-3.4|0.0042
82505152|NCT00663052|164702704|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 50. Log rank test used to compare groups; CI based on product-limit method.||||<0.0001
82505153|NCT00663052|164702704|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 75. Log rank test used to compare groups; CI based on product-limit method.||||<0.0001
82505154|NCT00663052|164702704|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 90. Log rank test used to compare groups; CI based on product-limit method.||||0.0053
82505155|NCT00663052|164702704|SUPERIORITY_OR_OTHER|||||||0.0432|TWO_SIDED||||||Log Rank|||Comparison of treatment groups for PASI 100. Log rank test used to compare groups; CI based on product-limit method.||||0.0432
82505156|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|0.0|||||TWO_SIDED|95.0|-0.74|0.74|||Fisher Exact|||Comparison between treatment groups at Week 2||0.74|-0.74|
82505157|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|-0.73||||1|TWO_SIDED|95.0|-2.9|1.44|||Fisher Exact|||Comparison between treatment groups at Week 4||1.44|-2.90|1.0000
82505158|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|0.04||||1|TWO_SIDED|95.0|-3.58|3.67|||Fisher Exact|||Comparison between treatment groups at Week 8||3.67|-3.58|1.0000
82505159|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|6.1||||0.0401|TWO_SIDED|95.0|-0.26|12.47|||Fisher Exact|||Comparison between treatment groups at Week 12||12.47|-0.26|0.0401
82505160|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|3.29||||0.4415|TWO_SIDED|95.0|-4.95|11.54|||Fisher Exact|||Comparison between treatment groups at Week 16||11.54|-4.95|0.4415
82505161|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|8.6||||0.0617|TWO_SIDED|95.0|-0.67|17.87|||Fisher Exact|||Comparison between treatment groups at Week 20||17.87|-0.67|0.0617
82505162|NCT00663052|164702705|SUPERIORITY_OR_OTHER||Proportion difference|8.64||||0.072|TWO_SIDED|95.0|-0.96|18.24|||Fisher Exact|||Comparison between treatment groups at Week 24||18.24|-0.96|0.0720
82505163|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|-1.45||||0.6223|TWO_SIDED|95.0|-5.07|2.16|||Fisher Exact|||Comparison between treatment groups at Week 2||2.16|-5.07|0.6223
82505164|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|6.21||||0.1|TWO_SIDED|95.0|-1.56|13.98|||Fisher Exact|||Comparison between treatment groups at Week 4||13.98|-1.56|0.1000
82505165|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|15.59||||0.0037|TWO_SIDED|95.0|4.53|26.65|||Fisher Exact|||Comparison between treatment groups at Week 8||26.65|4.53|0.0037
82505166|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|22.04||||0.0004|TWO_SIDED|95.0|9.75|34.33|||Fisher Exact|||Comparison between treatment groups at Week 12||34.33|9.75|0.0004
82505167|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|13.46||||0.0285|TWO_SIDED|95.0|0.94|25.97|||Fisher Exact|||Comparison between treatment groups at Week 16||25.97|0.94|0.0285
82505168|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|15.05||||0.0139|TWO_SIDED|95.0|2.67|27.43|||Fisher Exact|||Comparison between treatment groups at Week 20||27.43|2.67|0.0139
82505169|NCT00663052|164702706|SUPERIORITY_OR_OTHER||Proportion difference|19.56||||0.0012|TWO_SIDED|95.0|7.38|31.74|||Fisher Exact|||Comparison between treatment groups at Week 24||31.74|7.38|0.0012
82505170|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|5.01||||0.3956|TWO_SIDED|95.0|-6.01|16.03|||Fisher Exact|||Comparison between treatment groups at Week 2||16.03|-6.01|0.3956
82505171|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|8.66||||0.1754|TWO_SIDED|95.0|-3.82|21.14|||Fisher Exact|||Comparison between treatment groups at Week 4||21.14|-3.82|0.1754
82505172|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|13.81||||0.0207|TWO_SIDED|95.0|1.9|25.72|||Fisher Exact|||Comparison between treatment groups at Week 8||25.72|1.90|0.0207
82505173|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|19.38|||<|0.0001|TWO_SIDED|95.0|9.23|29.53|||Fisher Exact|||Comparison between treatment groups at Week 12||29.53|9.23|<0.0001
82505174|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|13.54||||0.0044|TWO_SIDED|95.0|3.79|23.29|||Fisher Exact|||Comparison between treatment groups at Week 16||23.29|3.79|0.0044
82505175|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|10.62||||0.0223|TWO_SIDED|95.0|1.11|20.13|||Fisher Exact|||Comparison between treatment groups at Week 20||20.13|1.11|0.0223
82505176|NCT00663052|164702707|SUPERIORITY_OR_OTHER||Proportion difference|11.37||||0.0133|TWO_SIDED|95.0|1.96|20.78|||Fisher Exact|||Comparison between treatment groups at Week 24||20.78|1.96|0.0133
82505177|NCT00663052|164702708|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Log Rank|||Comparison between treatment groups for PGA Clear/Almost Clear (0,1). Log rank test used to compare groups; CI based on product-limit method.||||0.0003
82505178|NCT00663052|164702708|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||Log Rank|||Comparison between treatment groups for PGA Clear/Almost Clear/Mild (0,1,2). Log rank test used to compare groups; CI based on product-limit method.||||0.0022
82505179|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0193|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||-0.0|-0.3|0.0193
82505180|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0114|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.4|0.0114
82505181|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0006|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.5|0.0006
82505182|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.3|-0.7|<0.0001
82505183|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0058|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.1|-0.5|0.0058
82505184|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0018|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.1|-0.6|0.0018
82505185|NCT00663052|164702709|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0009|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.2|-0.6|0.0009
82564016|NCT01601821|164837300|SUPERIORITY_OR_OTHER|||||||0.868|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.868
82505186|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.6396|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.2|-0.3|0.6396
82505187|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0074|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.7|0.0074
82505188|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0007|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.9|0.0007
82505189|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.5|-1.1|<0.0001
82505190|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5||||0.004|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.1|-0.8|0.0040
82564017|NCT01601821|164837301|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.999
82505191|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0004|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.3|-0.9|0.0004
82505192|NCT00663052|164702710|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.1799|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||-0.1|-0.5|0.1799
82505193|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.7757|TWO_SIDED|95.0|-0.2|0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.3|-0.2|0.7757
82505194|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.2112|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||0.1|-0.4|0.2112
82505195|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.5467|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||0.2|-0.3|0.5467
82505196|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.3684|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.1|-0.4|0.3684
82505197|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||-0.2046|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||0.1|-0.4|-0.2046
82505198|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.0649|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||0.0|-0.5|0.0649
82505199|NCT00663052|164702711|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.8683|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.2|-0.3|0.8683
82505200|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.8898|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.2|-0.3|0.8898
82505201|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.009|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.1|-0.7|0.0090
82505202|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.4||||0.0028|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.2|-0.7|0.0028
82505203|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6||||0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.3|-0.9|0.0001
82505204|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.3|-0.9|<0.0001
82505205|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.5||||0.0016|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.2|-0.8|0.0016
82505206|NCT00663052|164702712|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.0602|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.0|-0.6|0.0602
82505207|NCT00663052|164702715|SUPERIORITY_OR_OTHER||Proportion difference|0.42||||1|TWO_SIDED|95.0|-7.7|8.55|||Fisher Exact|||Comparison between treatment groups at Week 12||8.55|-7.70|1.0000
82505208|NCT00663052|164702715|SUPERIORITY_OR_OTHER||Proportion difference|3.94||||0.4213|TWO_SIDED|95.0|-5.75|13.63|||Fisher Exact|||Comparison between treatment groups at Week 16||13.63|-5.75|0.4213
82505209|NCT00663052|164702715|SUPERIORITY_OR_OTHER||Proportion difference|3.98||||0.4039|TWO_SIDED|95.0|-5.38|13.35|||Fisher Exact|||Comparison between treatment groups at Week 20||13.35|-5.38|0.4039
82505210|NCT00663052|164702715|SUPERIORITY_OR_OTHER||Proportion difference|2.5||||0.6168|TWO_SIDED|95.0|-6.87|11.88|||Fisher Exact|||Comparison between treatment groups at Week 24||11.88|-6.87|0.6168
82505211|NCT00663052|164702716|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.2||||0.862|TWO_SIDED|95.0|-2.8|2.3|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||||2.3|-2.8|0.8620
82505212|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|5.68||||0.3525|TWO_SIDED|95.0|-6.05|17.4|||Fisher Exact|||Comparison between treatment groups at Week 2||17.40|-6.05|0.3525
82505213|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|14.7||||0.0202|TWO_SIDED|95.0|2.19|27.2|||Fisher Exact|||Comparison between treatment groups at Week 4||27.20|2.19|0.0202
82564018|NCT01601821|164837302|SUPERIORITY_OR_OTHER|||||||0.985|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.985
82564019|NCT01601821|164837303|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Fisher Exact|||Fisher's exact test was used to test the difference.||||0.172
82505214|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|14.41||||0.0178|TWO_SIDED|95.0|2.17|26.64|||Fisher Exact|||Comparison between treatment groups at Week 8||26.64|2.17|0.0178
82505215|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|21.52|||<|0.0001|TWO_SIDED|95.0|11.02|32.03|||Fisher Exact|||Comparison between treatment groups at Week 12||32.03|11.02|<0.0001
82505216|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|10.53||||0.0325|TWO_SIDED|95.0|0.43|20.64|||Fisher Exact|||Comparison between treatment groups at Week 16||20.64|0.43|0.0325
82505217|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|12.04||||0.0129|TWO_SIDED|95.0|2.1|21.97|||Fisher Exact|||Comparison between treatment groups at Week 20||21.97|2.10|0.0129
82505218|NCT00663052|164702717|SUPERIORITY_OR_OTHER||Proportion difference|11.28||||0.0209|TWO_SIDED|95.0|1.26|21.3|||Fisher Exact|||Comparison between treatment groups at Week 24||21.30|1.26|0.0209
82505219|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|12.1||||0.0461|TWO_SIDED|95.0|-0.24|24.44|||Fisher Exact|||Comparison between treatment groups at Week 2||24.44|-0.24|0.0461
82505220|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|8.83||||0.1314|TWO_SIDED|95.0|-2.44|20.1|||Fisher Exact|||Comparison between treatment groups at Week 4||20.10|-2.44|0.1314
82505221|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|11.2||||0.0289|TWO_SIDED|95.0|0.65|21.74|||Fisher Exact|||Comparison between treatment groups at Week 8||21.74|0.65|0.0289
82505222|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|8.52||||0.0433|TWO_SIDED|95.0|-0.04|17.07|||Fisher Exact|||Comparison between treatment groups at Week 12||17.07|-0.04|0.0433
82505223|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|7.06||||0.0902|TWO_SIDED|95.0|-1.32|15.43|||Fisher Exact|||Comparison between treatment groups at Week 16||15.43|-1.32|0.0902
82505224|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|7.79||||0.063|TWO_SIDED|95.0|-0.68|16.26|||Fisher Exact|||Comparison between treatment groups at Week 20||16.26|-0.68|0.0630
82505225|NCT00663052|164702718|SUPERIORITY_OR_OTHER||Proportion difference|7.7||||0.0907|TWO_SIDED|95.0|-1.53|16.93|||Fisher Exact|||Comparison between treatment groups at Week 24||16.93|-1.53|0.0907
82505226|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|3.25||||0.6255|TWO_SIDED|95.0|-9.39|15.9|||Fisher Exact|||Comparison between treatment groups at Week 2||15.90|-9.39|0.6255
82505227|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|9.3||||0.1292|TWO_SIDED|95.0|-2.85|21.45|||Fisher Exact|||Comparison between treatment groups at Week 4||21.45|-2.85|0.1292
82564020|NCT01601821|164837304|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED|||||Statistical testing was based on 5% significance level.|Chi-squared|||Chi-square test was used to test the difference.||||0.978
82564021|NCT01124916|164837315|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8728.0|STANDARD_ERROR_OF_MEAN|853.129|<|0.001|TWO_SIDED|95.0|7028.846|10427.154|||t-test, 2 sided|||The null hypothesis is that there is no difference in the total cost of care between standard and robotic-assisted laparoscopic abdominal sacrocolpopexy six weeks after surgery.||10427.154|7028.846|<.001
82505228|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|11.86||||0.0251|TWO_SIDED|95.0|0.94|22.78|||Fisher Exact|||Comparison between treatment groups at Week 8||22.78|0.94|0.0251
82505229|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|14.16||||0.0055|TWO_SIDED|95.0|3.68|24.64|||Fisher Exact|||Comparison between treatment groups at Week 12||24.64|3.68|0.0055
82505230|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|11.99||||0.0159|TWO_SIDED|95.0|1.78|22.2|||Fisher Exact|||Comparison between treatment groups at Week 16||22.20|1.78|0.0159
82505231|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|9.05||||0.0672|TWO_SIDED|95.0|-1.08|19.18|||Fisher Exact|||Comparison between treatment groups at Week 20||19.18|-1.08|0.0672
82505232|NCT00663052|164702721|SUPERIORITY_OR_OTHER||Proportion difference|10.51||||0.0351|TWO_SIDED|95.0|0.27|20.75|||Fisher Exact|||Comparison between treatment groups at Week 24||20.75|0.27|0.0351
82505233|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|6.24||||0.2283|TWO_SIDED|95.0|-4.11|16.58|||Fisher Exact|||Comparison between treatment groups at Week 2||16.58|-4.11|0.2283
82505234|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|5.49||||0.2326|TWO_SIDED|95.0|-3.68|14.66|||Fisher Exact|||Comparison between treatment groups at Week 4||14.66|-3.68|0.2326
82505235|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|10.0||||0.0165|TWO_SIDED|95.0|1.47|18.52|||Fisher Exact|||Comparison between treatment groups at Week 8||18.52|1.47|0.0165
82505236|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|10.0||||0.0165|TWO_SIDED|95.0|1.47|18.52|||Fisher Exact|||Comparison between treatment groups at Week 12||18.52|1.47|0.0165
82505237|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|4.85||||0.2536|TWO_SIDED|95.0|-3.46|13.15|||Fisher Exact|||Comparison between treatment groups at Week 16||13.15|-3.46|0.2536
82505238|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|5.6||||0.1761|TWO_SIDED|95.0|-2.59|13.78|||Fisher Exact|||Comparison between treatment groups at Week 20||13.78|-2.59|0.1761
82505239|NCT00663052|164702722|SUPERIORITY_OR_OTHER||Proportion difference|4.01||||0.3943|TWO_SIDED|95.0|-5.18|13.2|||Fisher Exact|||Comparison between treatment groups at Week 24||13.20|-5.18|0.3943
82505240|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.3||||0.5748|TWO_SIDED|95.0|-1.5|0.8|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 2||0.8|-1.5|0.5748
82505241|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.2||||0.0471|TWO_SIDED|95.0|-2.4|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 4||-0.0|-2.4|0.0471
82505242|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.0||||0.0025|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 8||-0.7|-3.3|0.0025
82505243|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-2.2||||0.0009|TWO_SIDED|95.0|-3.5|-0.9|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||-0.9|-3.5|0.0009
82505244|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.9||||0.0015|TWO_SIDED|95.0|-3.1|-0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 16||-0.7|-3.1|0.0015
82505245|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.5||||0.0197|TWO_SIDED|95.0|-2.7|-0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 20||-0.2|-2.7|0.0197
82505246|NCT00663052|164702723|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-1.3||||0.0506|TWO_SIDED|95.0|-2.6|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.0|-2.6|0.0506
82505247|NCT00663052|164702724|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.04||||0.0435|TWO_SIDED|95.0|0.0|0.09|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.09|0.00|0.0435
82505248|NCT00663052|164702724|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.05||||0.0275|TWO_SIDED|95.0|0.01|0.1|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.10|0.01|0.0275
82505249|NCT00663052|164702725|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|0.0||||0.9473|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.7|-0.7|0.9473
82505250|NCT00663052|164702725|SUPERIORITY_OR_OTHER||Difference of adjusted mean change|-0.1||||0.8217|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.6|-0.8|0.8217
82505251|NCT00663052|164702726|SUPERIORITY_OR_OTHER||Difference of Adjusted Mean Change|-0.7||||0.0539|TWO_SIDED|95.0|-1.4|0.0|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 12||0.0|-1.4|0.0539
82505252|NCT00663052|164702726|SUPERIORITY_OR_OTHER||Difference of Adjusted Mean Change|-0.5||||0.1494|TWO_SIDED|95.0|-1.3|0.2|||ANCOVA|ANCOVA model with treatment group as a factor and baseline measurement as a covariate were used for comparisons between treatment groups.||Comparison between treatment groups at Week 24||0.2|-1.3|0.1494
82505253|NCT00663052|164702732|SUPERIORITY_OR_OTHER|||||||0.2139|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 12||||0.2139
82505254|NCT00663052|164702732|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 24||||1.0000
82505255|NCT00663052|164702734|SUPERIORITY_OR_OTHER|||||||0.2443|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 12||||0.2443
82564022|NCT01124916|164837316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.2|STANDARD_ERROR_OF_MEAN|7.846||0.43|TWO_SIDED|95.0|-21.769|9.369|||t-test, 2 sided|||The null hypothesis is that there is no difference in urinary distress between women assigned to LASC and those assigned to RASC six months after intervention as measured by the UDI.||9.369|-21.769|.43
82564023|NCT00887471|164837322|SUPERIORITY_OR_OTHER|||||||0.59||||||A priori threshold for statistical significance was P\<.05.|Mixed Models Analysis|||The relationship of surgical group with AHI change was evaluated by constructing a mixed linear model (MLM). The dependent variable was the logarithm of the ratio of postoperative AHI score to preoperative AHI score; this transformation was chosen in order to minimize skew of model residuals. Surgical group was introduced as a fixed factor; subject pairs constituted levels of a random blocking) factor.||||.590
82505256|NCT00663052|164702734|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Comparison between treatment groups at Week 24||||1.0000
82505257|NCT00663052|164702735|SUPERIORITY_OR_OTHER|||||||0.0807|TWO_SIDED||||||ANCOVA|||Comparison of treatment groups at Week 12||||0.0807
82505258|NCT00663052|164702735|SUPERIORITY_OR_OTHER|||||||0.1454|TWO_SIDED||||||ANCOVA|||Comparison of treatment groups at Week 24||||0.1454
82505259|NCT01876485|164702736|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|Numerator degrees of freedom = 1 for both models (4mo and 10mo) and denominator degrees of freedom vary based on multiple imputation.||"We compared group differences in HbA1c at 4. The value of HbA1c at 4 months was the dependent variable, treatment group was the independent variable, and baseline HbA1c was a covariate.~Power calculations were based on effect sizes for the HbA1c in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n = 140 EPIC, n = 140 EUC) exceed the required 130 per group."||||0.003
82505260|NCT01876485|164702736|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.6|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|Numerator degrees of freedom = 1 for both models (4mo and 10mo) and denominator degrees of freedom vary based on multiple imputation.||"We compared group differences in HbA1c at 10 months. The value of HbA1c at 10 months was the dependent variable, treatment group was the independent variable, and baseline HbA1c was a covariate.~Power calculations were based on effect sizes for the HbA1c in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n = 140 EPIC, n = 140 EUC) exceed the required 130 per group."||||.60
82505261|NCT01876485|164702737|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|||We compared group differences in DDS at 4 months. The value of DDS at 4 months was the dependent variable, treatment group was the independent variable, and baseline DDS was a covariate. Power calculations were based on effect sizes for the DDS in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n=138 EPIC, n=135 EUC) exceed the required 130 per group.||||0.003
82505262|NCT01876485|164702737|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.003|TWO_SIDED||||||proc mixed in SAS (multilevel modeling)|||We compared group differences in DDS at 10 months. The value of DDS at 10 months was the dependent variable, treatment group was the independent variable, and baseline DDS was a covariate. Power calculations were based on effect sizes for the DDS in similar trial that revealed small-to-medium effect sizes. Our goal was to include 130 patients in each arm. The randomized samples (n=138 EPIC, n=135 EUC) exceed the required 130 per group.||||.003
82505263|NCT06002958|164702739|OTHER||Cohen's d|-0.29|||||TWO_SIDED|95.0|-0.815|0.255|||||Inner|||0.255|-0.815|
82505264|NCT06002958|164702739|OTHER||Cohen's d|0.02|||||TWO_SIDED|95.0|-0.503|0.545|||||Outer|||0.545|-0.503|
82505265|NCT06002958|164702739|OTHER||Cohen's d|-0.32|||||TWO_SIDED|95.0|-0.85|0.225|||||Individual|||0.225|-0.850|
82505266|NCT06002958|164702739|OTHER||Cohen's d|0.01|||||TWO_SIDED|95.0|-0.85|0.534|||||Process|||0.534|-0.850|
82505267|NCT05497284|164702745|OTHER|Probability (LTP001 is better than placebo)|Slope|-2.6|STANDARD_DEVIATION|2.07|||TWO_SIDED|80.0|-6.9|1.3||Probability that LTP001 is better than placebo is 10.3%|Baysesian random slope model|Bayesian random slope model to assess the difference in reduction rate (slope) in years between the treatment group and placebo group.||||1.3|-6.9|
82505268|NCT05760300|164702755|OTHER||Geometric Least-squares Mean Ratio|84.5|||||TWO_SIDED|90.0|60.1|119.0|||||Parametric (normal theory) analysis of covariance (ANOVA) model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||119|60.1|
82505269|NCT05760300|164702755|OTHER||Geometric Least-squares Mean Ratio|104.0|||||TWO_SIDED|90.0|80.8|133.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||133|80.8|
82505270|NCT05760300|164702756|OTHER||Geometric Least-squares Mean Ratio|106.0|||||TWO_SIDED|90.0|63.6|175.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||175|63.6|
82505271|NCT05760300|164702756|OTHER||Geometric Least-squares Mean Ratio|108.0|||||TWO_SIDED|90.0|77.8|151.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||151|77.8|
82505272|NCT05760300|164702757|OTHER||Geometric Least-squares Mean Ratio|83.8|||||TWO_SIDED|90.0|67.4|104.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||104|67.4|
82505273|NCT05760300|164702757|OTHER||Geometric Least-squares Mean Ratio|100.0|||||TWO_SIDED|90.0|56.2|179.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||179|56.2|
82505274|NCT05760300|164702758|OTHER||Geometric Least-squares Mean Ratio|96.5|||||TWO_SIDED|90.0|65.1|143.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||143|65.1|
82505275|NCT05760300|164702758|OTHER||Geometric Least-squares Mean Ratio|77.8|||||TWO_SIDED|90.0|42.7|142.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|||142|42.7|
82505276|NCT05760300|164702763|OTHER||Geometric Least-squares Mean Ratio|160.0|||||TWO_SIDED|90.0|97.2|263.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||263|97.2|
82505277|NCT05760300|164702763|OTHER||Geometric Least-squares Mean Ratio|65.9|||||TWO_SIDED|90.0|35.0|124.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||124|35.0|
82505278|NCT05760300|164702763|OTHER||Geometric Least-squares Mean Ratio|86.7|||||TWO_SIDED|90.0|53.3|141.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||141|53.3|
82505279|NCT05760300|164702763|OTHER||Geometric Least-squares Mean Ratio|72.6|||||TWO_SIDED|90.0|50.4|105.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||105|50.4|
82505280|NCT05760300|164702764|OTHER||Geometric Least-squares Mean Ratio|139.0|||||TWO_SIDED|90.0|87.8|221.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||221|87.8|
82505281|NCT05760300|164702764|OTHER||Geometric Least-squares Mean Ratio|66.8|||||TWO_SIDED|90.0|37.3|120.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||120|37.3|
82505282|NCT05760300|164702764|OTHER||Geometric Least-squares Mean Ratio|85.7|||||TWO_SIDED|90.0|54.5|135.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||135|54.5|
82505283|NCT05760300|164702764|OTHER||Geometric Least-squares Mean Ratio|70.3|||||TWO_SIDED|90.0|49.4|100.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||100|49.4|
82505284|NCT05760300|164702765|OTHER||Geometric Least-squares Mean Ratio|84.2|||||TWO_SIDED|90.0|32.7|217.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||217|32.7|
82505285|NCT05760300|164702765|OTHER||Geometric Least-squares Mean Ratio|58.0|||||TWO_SIDED|90.0|30.1|112.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||112|30.1|
82505286|NCT05760300|164702765|OTHER||Geometric Least-squares Mean Ratio|85.6|||||TWO_SIDED|90.0|54.1|135.0|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 1||135|54.1|
82505287|NCT05760300|164702765|OTHER||Geometric Least-squares Mean Ratio|69.6|||||TWO_SIDED|90.0|48.9|99.2|||||Parametric (normal theory) ANOVA model appropriate for a parallel design with renal function group as a fixed effect was fitted to the natural log-transformed values of the multiple dose PK parameter under evaluation.|Day 6||99.2|48.9|
82505288|NCT03878446|164702768|SUPERIORITY||Treatment difference|-1.4|||||TWO_SIDED|95.0|-3.2|0.4||||||||0.4|-3.2|
82505289|NCT03878446|164702768|SUPERIORITY||Treatment difference|0.7|||||TWO_SIDED|95.0|-1.1|2.5||||||||2.5|-1.1|
82505290|NCT03878446|164702768|SUPERIORITY||Treatment difference|-0.9|||||TWO_SIDED|95.0|-2.6|0.9||||||||0.9|-2.6|
82505291|NCT03878446|164702768|SUPERIORITY||Treatment difference|-0.6|||||TWO_SIDED|95.0|-2.4|1.2||||||||1.2|-2.4|
82505292|NCT01331148|164702800|OTHER|||||||0.0507|||||||t-test, 2 sided|||Due to the longitudinal nature of the data and presence of missing values, repeated measures analyses were conducted using the MIXED procedure in SAS. Spearman's rank correlation coefficient was used to quantify the relationship between PedsQL scores with 25OHD concentrations and pain days. Two-way analysis of variance models compared PedsQL scores between treatment groups over time.||||0.0507
82505293|NCT02967692|164702811|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.042|TWO_SIDED|95.0|0.655|1.027|||Log Rank|||||1.027|0.655|0.042
82378336|NCT04471428|164465068|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0079|TWO_SIDED|95.0|0.585|0.923|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors include histology, and prior NSCLC treatment regimens||0.923|0.585|0.0079
82505294|NCT02967692|164702819|SUPERIORITY||Hazard Ratio (HR)|1.183||||0.2975|TWO_SIDED|95.0|0.865|1.619|||Log Rank|||||1.619|0.865|0.2975
82505295|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||>|0.05||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 3 months post-therapy.||||>0.05
82505296|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||>|0.05||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 6 months post-therapy.||||>0.05
82505297|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in non-smokers was tested by comparing change in mean CAL in individuals at 12 months post-therapy.||||<0.05
82505298|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 3 months post-therapy.||||<0.05
82505299|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 6 months post-therapy.||||<0.05
82505300|NCT00066066|164702838|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05|ANOVA|||The null hypothesis of no difference among treatment groups in smokers was tested by comparing change in mean CAL in individuals at 12 months post-therapy.||||>0.05
82505301|NCT05477875|164702852|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.538|||||||Wilcoxon (Mann-Whitney)|||||||0.538
82505302|NCT05477875|164702853|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.538|||||||ANOVA|||||||0.538
82505303|NCT05477875|164702854|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.516|||||||ANOVA|||||||0.516
82564024|NCT00887471|164837322|SUPERIORITY_OR_OTHER|||||||0.022||||||P value for the variances. The a priori threshold for statistical significance was P \< .05.|Mixed Models Analysis|||A mixed linear model was constructed as described above. Variance was estimated separately for each group.||||.022
82505304|NCT05477875|164702855|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and PROWL-SS from (1-100) as the dependent variable."|||||<|0.851|||||||ANOVA|||||||<0.851
82505305|NCT05477875|164702856|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and QIRC from (1-100) as the dependent variable."|||||<|0.543|||||||ANOVA|||||||<0.543
82505306|NCT05477875|164702857|EQUIVALENCE|"Alpha = 0.05, two-way ANOVA with Group x Time Points as fixed factors and OSDI from (0-48) as the dependent variable."||||||0.725|||||||ANOVA|||||||0.725
82505307|NCT05477875|164702858|EQUIVALENCE|Two-way ANOVA using group and intervention as fixed factors were analyzed, with outcome variable p-value reported below, threshold 0.05.||||||0.516|||||||ANOVA|||||||0.516
82505308|NCT02529137|164702866|NON_INFERIORITY|the non-inferiority margin was set at 4%|difference|0.4|||||TWO_SIDED|95.0|-0.3|1.01||||||||1.01|-0.30|
82505309|NCT01649375|164702867|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0967|TWO_SIDED|95.0|0.9|3.67|||Regression, Logistic|Missing ASAS responses considered nonresponders||||3.67|0.90|0.0967
82505310|NCT01649375|164702867|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.0001|TWO_SIDED|95.0|2.14|8.96|||Regression, Logistic|Missing ASAS responses considered nonresponders||||8.96|2.14|<.0001
82505311|NCT01649375|164702868|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0194|TWO_SIDED|95.0|1.19|7.48|||Regression, Logistic|Missing ASAS responses considered nonresponders||||7.48|1.19|0.0194
82505312|NCT01649375|164702868|SUPERIORITY||Odds Ratio (OR)|5.07|||<|0.0004|TWO_SIDED|95.0|2.06|12.44|||Regression, Logistic|Missing ASAS responses considered nonresponders||||12.44|2.06|<.0004
82505313|NCT01649375|164702869|SUPERIORITY||Mean Difference (Net)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.71|||Mixed Models Analysis|||||0.71|0.41|<0.0001
82505314|NCT01649375|164702869|SUPERIORITY||Mean Difference (Net)|0.49|||<|0.0001|TWO_SIDED|95.0|0.37|0.64|||Mixed Models Analysis|||||0.64|0.37|<0.0001
82505315|NCT01649375|164702870|SUPERIORITY||Odds Ratio (OR)|6.13||||0.0003|TWO_SIDED|95.0|2.31|16.26|||Regression, Logistic|Missing ASAS responses considered nonresponders||||16.26|2.31|0.0003
82505316|NCT01649375|164702870|SUPERIORITY||Odds Ratio (OR)|9.15|||<|0.0001|TWO_SIDED|95.0|3.47|24.12|||Regression, Logistic|Missing ASAS responses considered nonresponders||||24.12|3.47|<.0001
82505317|NCT01649375|164702871|SUPERIORITY||Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|0.353|<|0.0001|TWO_SIDED|95.0|-1.77|-0.37|||Mixed Models Analysis|||||-0.37|-1.77|<0.0001
82505318|NCT01649375|164702871|SUPERIORITY||Mean Difference (Net)|-1.34|STANDARD_ERROR_OF_MEAN|0.353||0.0002|TWO_SIDED|95.0|-2.04|-0.65|||Mixed Models Analysis|||||-0.65|-2.04|0.0002
82505319|NCT01649375|164702872|SUPERIORITY||Mean Difference (Net)|2.84|STANDARD_ERROR_OF_MEAN|1.108||0.011|TWO_SIDED|95.0|0.66|5.03|||Mixed Models Analysis|||||5.03|0.66|0.0110
82378337|NCT04471428|164465068|SUPERIORITY||Hazard Ratio (HR)|0.731||||0.0061|TWO_SIDED|95.0|0.583|0.915|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified analysis||0.915|0.583|0.0061
82505320|NCT01649375|164702872|SUPERIORITY||Mean Difference (Net)|4.14|STANDARD_ERROR_OF_MEAN|1.105||0.0002|TWO_SIDED|95.0|1.96|6.32|||Mixed Models Analysis|||||6.32|1.96|0.0002
82505321|NCT01649375|164702873|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.748||0.0096|TWO_SIDED|95.0|-3.43|-0.48|||Mixed Models Analysis|||||-0.48|-3.43|0.0096
82505322|NCT01649375|164702873|SUPERIORITY||Mean Difference (Net)|-2.63|STANDARD_ERROR_OF_MEAN|0.743||0.0005|TWO_SIDED|95.0|-4.09|-1.16|||Mixed Models Analysis|||||-1.16|-4.09|0.0005
82564025|NCT00887471|164837323|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||The relationship of surgical group with postoperative AHI ≤ 5 was evaluated by exact conditional logistic regression, predicting AHI ≤ 5 from surgical group with subject pairs as strata.||||1.00
82378338|NCT04471428|164465069|SUPERIORITY||Difference in Response Rates|-1.51||||0.6846|TWO_SIDED|95.0|-8.85|5.84|||Cochran-Mantel-Haenszel||95% CIs was computed using the Wald method.|Stratified analysis; stratification factors- histology, prior NSCLC treatment regimens||5.84|-8.85|0.6846
82505323|NCT01649375|164702874|SUPERIORITY||Odds Ratio (OR)|4.28||||0.0325|TWO_SIDED|95.0|1.13|16.21|||Regression, Logistic|Missing ASAS responses considered nonresponders||||16.21|1.13|0.0325
82505324|NCT01649375|164702874|SUPERIORITY||Odds Ratio (OR)|3.91||||0.0471|TWO_SIDED|95.0|1.02|15.01|||Regression, Logistic|Missing ASAS responses considered nonresponders||||15.01|1.02|0.0471
82505325|NCT01124604|164702879|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.46||||95.0|-1.04|0.8|||||Test for no difference between treatments was derived from Analysis of covariance (ANCOVA) model with factors treatment, disease and Baseline pain intensity as covariate.|||0.80|-1.04|
82505326|NCT00952341|164702904|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant~chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.007
82505327|NCT00952341|164702905|SUPERIORITY_OR_OTHER|||||||0.942||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.942
82505328|NCT00952341|164702906|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant chemotherapy.~The apriori significance level was set at 0.05.~There was no adjustment for multiplicity."||||0.001
82505329|NCT00952341|164702907|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Regression, Logistic|||"Adjusted by gender and concomitant~chemotherapy."||||0.003
82505330|NCT00952341|164702908|SUPERIORITY_OR_OTHER|||||||0.882||95.0|||||Regression, Logistic|||Adjusted by gender and concomitant chemotherapy.||||0.882
82505331|NCT00952341|164702909|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|||Adjusted by gender and concomitant chemotherapy.||||0.001
82505332|NCT02066467|164702917|OTHER||||||<|0.0001|||||||exact binominal methodology|||||||<0.0001
82505333|NCT02066467|164702919|OTHER||||||<|0.0001|||||||exact binominal methodology|||||||<0.0001
82505334|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.14|STANDARD_ERROR_OF_MEAN|0.037||0.1351|TWO_SIDED|95.0|0.96|1.35|||ANOVA|||CREM; Placebo vs GSK256066 1 mcg||1.35|0.96|0.1351
82505335|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.19|STANDARD_ERROR_OF_MEAN|0.037||0.0383|TWO_SIDED|95.0|1.01|1.41|||ANOVA|||CREM; Placebo vs GSK256066 10 mcg||1.41|1.01|0.0383
82505336|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.2|STANDARD_ERROR_OF_MEAN|0.037||0.0325|TWO_SIDED|95.0|1.02|1.43|||ANOVA|||CREM; Placebo vs GSK256066 50 mcg||1.43|1.02|0.0325
82505337|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.42|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|1.2|1.68|||ANOVA|||CREM; Placebo vs GSK256066 200 mcg||1.68|1.20|<0.0001
82505338|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.45|STANDARD_ERROR_OF_MEAN|0.049||0.0015|TWO_SIDED|95.0|1.16|1.82|||ANOVA|||DUSP1; Placebo vs GSK256066 1 mcg||1.82|1.16|0.0015
82505339|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.049||0.0002|TWO_SIDED|95.0|1.24|1.93|||ANOVA|||DUSP1; Placebo vs GSK256066 10 mcg||1.93|1.24|0.0002
82505340|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.74|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.38|2.17|||ANOVA|||DUSP1; Placebo vs GSK256066 50 mcg||2.17|1.38|<0.0001
82505341|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.75|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|1.4|2.18|||ANOVA|||DUSP1; Placebo vs GSK256066 200 mcg||2.18|1.40|<0.0001
82505342|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.49|STANDARD_ERROR_OF_MEAN|0.043||0.0001|TWO_SIDED|95.0|1.22|1.81|||ANOVA|||FOSL2; Placebo vs GSK256066 1 mcg||1.81|1.22|0.0001
82505343|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.52|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.25|1.85|||ANOVA|||FOSL2; Placebo vs GSK256066 10 mcg||1.85|1.25|<0.0001
82505344|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.68|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.38|2.05|||ANOVA|||FOSL2; Placebo vs GSK256066 50 mcg||2.05|1.38|<0.0001
82378339|NCT04471428|164465069|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.47|1.63|||||Odds ratios were estimated by logistic regression. 95% CIs was computed using the Wald method.|Stratified analysis; stratification factors- histology, prior NSCLC treatment regimens||1.63|0.47|
82505345|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|1.28|1.89|||ANOVA|||FOSL2; Placebo vs GSK256066 200 mcg||1.89|1.28|<0.0001
82505346|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.064||0.0034|TWO_SIDED|95.0|1.16|2.07|||ANOVA|||IRS2; Placebo vs GSK256066 1 mcg||2.07|1.16|0.0034
82505347|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.55|STANDARD_ERROR_OF_MEAN|0.063||0.0029|TWO_SIDED|95.0|1.17|2.07|||ANOVA|||IRS2; Placebo vs GSK256066 10 mcg||2.07|1.17|0.0029
82505348|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.74|STANDARD_ERROR_OF_MEAN|0.064||0.0003|TWO_SIDED|95.0|1.3|2.33|||ANOVA|||IRS2; Placebo vs GSK256066 50 mcg||2.33|1.30|0.0003
82505349|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.56|STANDARD_ERROR_OF_MEAN|0.063||0.0027|TWO_SIDED|95.0|1.17|2.08|||ANOVA|||IRS2; Placebo vs GSK256066 200 mcg||2.08|1.17|0.0027
82505350|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.54|STANDARD_ERROR_OF_MEAN|0.092||0.0448|TWO_SIDED|95.0|1.01|2.34|||ANOVA|||NR4A2; Placebo vs GSK256066 1 mcg||2.34|1.01|0.0448
82505351|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.87|STANDARD_ERROR_OF_MEAN|0.091||0.0033|TWO_SIDED|95.0|1.24|2.83|||ANOVA|||NR4A2; Placebo vs GSK256066 10 mcg||2.83|1.24|0.0033
82505352|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|2.16|STANDARD_ERROR_OF_MEAN|0.092||0.0004|TWO_SIDED|95.0|1.42|3.3|||ANOVA|||NR4A2; Placebo vs GSK256066 50 mcg||3.30|1.42|0.0004
82505353|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|2.03|STANDARD_ERROR_OF_MEAN|0.091||0.001||95.0|1.34|3.08|||ANOVA|||NR4A2; Placebo vs GSK256066 200 mcg||3.08|1.34|0.0010
82505354|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.03|STANDARD_ERROR_OF_MEAN|0.072||0.8718|TWO_SIDED|95.0|0.74|1.43|||ANOVA|||PDE4A; Placebo vs GSK256066 1 mcg||1.43|0.74|0.8718
82505355|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.18|STANDARD_ERROR_OF_MEAN|0.071||0.3078|TWO_SIDED|95.0|0.86|1.63|||ANOVA|||PDE4A; Placebo vs GSK256066 10 mcg||1.63|0.86|0.3078
82505356|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.19|STANDARD_ERROR_OF_MEAN|0.072||0.2909|TWO_SIDED|95.0|0.86|1.66|||ANOVA|||PDE4A; Placebo vs GSK256066 50 mcg||1.66|0.86|0.2909
82505357|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.38|STANDARD_ERROR_OF_MEAN|0.071||0.0539|TWO_SIDED|95.0|0.99|1.91|||ANOVA|||PDE4A; Placebo vs GSK256066 200 mcg||1.91|0.99|0.0539
82505358|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.06|STANDARD_ERROR_OF_MEAN|0.081||0.7393|TWO_SIDED|95.0|0.74|1.54|||ANOVA|||RGS1; Placebo vs GSK256066 1 mcg||1.54|0.74|0.7393
82505359|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.21|STANDARD_ERROR_OF_MEAN|0.08||0.2967|TWO_SIDED|95.0|0.84|1.74|||ANOVA|||RGS1; Placebo vs GSK256066 10 mcg||1.74|0.84|0.2967
82505360|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.37|STANDARD_ERROR_OF_MEAN|0.081||0.0934|TWO_SIDED|95.0|0.95|1.98|||ANOVA|||RGS1; Placebo vs GSK256066 50 mcg||1.98|0.95|0.0934
82505361|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|1.37|STANDARD_ERROR_OF_MEAN|0.08||0.0919|TWO_SIDED|95.0|0.95|1.97|||ANOVA|||RGS1; Placebo vs GSK256066 200 mcg||1.97|0.95|0.0919
82505362|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|2.72|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|2.11|3.51|||ANOVA|||SNF1LK; Placebo vs GSK256066 1 mcg||3.51|2.11|<0.0001
82505363|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|3.04|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|2.37|3.9|||ANOVA|||SNF1LK; Placebo vs GSK256066 10 mcg||3.90|2.37|<0.0001
82505364|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|3.28|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|2.54|4.23|||ANOVA|||RGS1; Placebo vs GSK256066 50 mcg||4.23|2.54|<0.0001
82505365|NCT00464568|164702932|SUPERIORITY_OR_OTHER||Treatment Ratios|3.32|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|2.59|4.27|||ANOVA|||RGS1; Placebo vs GSK256066 200 mcg||4.27|2.59|<0.0001
82505366|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-0.5545|STANDARD_DEVIATION|7.79598||0.647226|||||||Mixed effects analysis of variance model|||Placebo vs GSK256066 1 mcg: VASP||||0.647226
82505367|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-0.3816|STANDARD_DEVIATION|9.00754||0.95084|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 10 mcg: VASP||||0.95084
82505368|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|0.0256|STANDARD_DEVIATION|9.24118||0.53499|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo Vs GSK256066 50 mcg: VASP||||0.53499
82505369|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.3371|STANDARD_DEVIATION|7.5459||0.81527|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 200 mcg: VASP||||0.81527
82505370|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-2.8053|STANDARD_DEVIATION|10.88217||0.32998|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo Vs GSK256066 1 mcg: pVASP||||0.32998
82505371|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.6602|STANDARD_DEVIATION|12.30724||0.65729|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 10 mcg: pVASP||||0.65729
82505372|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|0.156|STANDARD_DEVIATION|4.73976||0.89831|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 50 mcg: pVASP||||0.89831
82378340|NCT04471428|164465069|SUPERIORITY||Difference in Response Rates|-1.51||||0.7216|TWO_SIDED|95.0|-8.85|5.84|||Chi-squared, Corrected||95% CIs was computed using the Wald method.|Unstratified Analysis||5.84|-8.85|0.7216
82505373|NCT00464568|164702947|SUPERIORITY_OR_OTHER||Mean treatment difference|-1.5165|STANDARD_DEVIATION|12.70748||0.84479|||||||Mixed effects analysis of variance model||The mean treatment difference was calculated as treatment minus placebo|Placebo vs GSK256066 200 mcg: pVASP||||0.84479
82505374|NCT02864251|164702968|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0528|TWO_SIDED|95.0|0.56|1.0||Log-rank test stratified by PD-L1 expression (\>= 1% vs \<1%/indeterminate/not evaluable), brain metastases (presence vs absence), smoking history (current/former vs never smoker), and prior osimertinib use (yes vs no) from IRT.|Log Rank||Arm A over Arm C Stratified Cox proportional hazard model.|||1.00|0.56|0.0528
82505375|NCT02864251|164702968|SUPERIORITY||Hazard Ratio (HR)|2.07|||||TWO_SIDED|95.0|1.43|2.99|||||Arm B over Arm C Stratified Cox proportional hazard model.|||2.99|1.43|
82505376|NCT02864251|164702969|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.218|TWO_SIDED|95.0|0.62|1.12|||Log Rank||Hazard Ratio (Arm A over Arm C) is based on a stratified Cox proportional hazard model|||1.12|0.62|0.2180
82505377|NCT02864251|164702969|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.75|1.52|||||Hazard Ratio (Arm B over Arm C) is based on a stratified Cox proportional hazard model.|||1.52|0.75|
82505378|NCT02864251|164702970|SUPERIORITY||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.75|2.16|||||Strata adjusted odds ratio (Arm A over Arm C) using Mantel-Haenszel method.|||2.16|0.75|
82505379|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.109|1.535||||||Univariate Cox regression Hazard ratio (Positive / Negative) for the biomarker p95.||1.535|0.109|
82505380|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.43|3.282||||||Univariate Cox regression: Hazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker IGF1R.||3.282|0.430|
82505381|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.306|2.425||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker c-MET.||2.425|0.306|
82505382|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.164|1.453||||||Univariate Cox regression Hazard ratio (Cytoplasm H-Score: \<median / ≥median) for the biomarker PTEN.||1.453|0.164|
82505383|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.377|3.16||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker HER2.||3.160|0.377|
82505384|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.409|4.132||||||Univariate Cox regression Hazard ratio (Mutation Status: Wild type / Mutation) for the biomarker PI3K amino acids.||4.132|0.409|
82505385|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.183|||||TWO_SIDED|95.0|0.226|6.197||||||Univariate Cox regression Hazard ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||6.197|0.226|
82505386|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.989|||||TWO_SIDED|95.0|0.378|10.47||||||Univariate Cox regression Hazard ratio (Phenotype: FF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||10.470|0.378|
82505387|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.732|||||TWO_SIDED|95.0|0.235|12.783||||||Univariate Cox regression Hazard ratio (Phenotype: VF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||12.783|0.235|
82505388|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.0|0.067|4.968||||||Univariate Cox regression Hazard ratio (Phenotype: HH / HR) for the biomarker FC Gamma Receptor IIa R166H.||4.968|0.067|
82378341|NCT04471428|164465069|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.47|1.62|||||Odds ratios were estimated by logistic regression. 95% CIs was computed using the Wald method.|Unstratified Analysis||1.62|0.47|
82505389|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.743|||||TWO_SIDED|95.0|0.082|6.72||||||Univariate Cox regression Hazard ratio (Phenotype: HH / RR) for the biomarker FC Gamma Receptor IIa R166H.||6.720|0.082|
82505390|NCT00885755|164702981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073|||||TWO_SIDED|95.0|0.274|4.199||||||Univariate Cox regression Hazard ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H.||4.199|0.274|
82505391|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.12|1.79||||||Univariate Cox regression Hazard ratio (Positive / Negative) for the biomarker p95 HER2.||1.790|0.120|
82505392|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.394|3.518||||||Univariate Cox regressionHazard ratio (Membrane H-Score: \<median / ≥median) for the biomarker IGF1R.||3.518|0.394|
82505393|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.268|2.514||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker c-met.||2.514|0.268|
82505394|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.183|1.768||||||Univariate Cox regression Hazard ratio (Cytoplasm H-Score: \< median / ≥median) for the marker PTEN.||1.768|0.183|
82505395|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.242|2.733||||||Univariate Cox regression Hazard ratio (Membrane H-Score: \< median / ≥median) for the biomarker HER2.||2.733|0.242|
82505396|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.337|3.632||||||Univariate Cox regressionHazard ratio (Mutation Status: Wild type / Mutation) for the biomarker PI3K amino acids.||3.632|0.337|
82505397|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.957|||||TWO_SIDED|95.0|0.172|5.336||||||Hazard ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||5.336|0.172|
82505398|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.666|||||TWO_SIDED|95.0|0.298|9.305||||||Hazard ratio (Phenotype: FF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||9.305|0.298|
82505399|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.732|||||TWO_SIDED|95.0|0.235|12.783||||||Hazard ratio (Phenotype: VF / VV) for the biomarker FC Gamma Receptor IIIa F176V.||12.783|0.235|
82505400|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.0|0.067|4.968||||||Univariate Cox regression Hazard ratio (Phenotype: HH / HR) for the biomarker FC Gamma Receptor IIa R166H.||4.968|0.067|
82505401|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.956|||||TWO_SIDED|95.0|0.098|9.319||||||Univariate Cox regression Hazard ratio (Phenotype: HH / RR) for the biomarker FC Gamma Receptor IIa R166H.||9.319|0.098|
82505402|NCT00885755|164702984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.292|||||TWO_SIDED|95.0|0.296|5.64||||||Univariate Cox regression Hazard ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H.||5.640|0.296|
82505403|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.03|||||TWO_SIDED|95.0|0.001|0.641||||||Univariate logistic regression Odds ratio (Positive / Negative) for the biomarker p95 HER 2.||0.641|0.001|
82505404|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.208|||||TWO_SIDED|95.0|0.017|2.6||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥median /\<median) for the biomarker IGF1R.||2.600|0.017|
82505405|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.143|||||TWO_SIDED|95.0|0.169|27.103||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥ median /\<median) for the biomarker c-MET.||27.103|0.169|
82505406|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.875|||||TWO_SIDED|95.0|0.15|23.396||||||Univariate logistic regression Odds ratio (Cytoplasm H-Score: ≥ median /\< median) for the biomarker PTEN.||23.396|0.150|
82505407|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.857|||||TWO_SIDED|95.0|0.091|8.075||||||Univariate logistic regression Odds ratio (Membrane H-Score: ≥median /\< median) for the biomarker HER2.||8.075|0.091|
82505408|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.148|||||TWO_SIDED|95.0|0.012|1.9||||||Univariate logistic regression Odds ratio (PI3K mutation status: WT versus M) for the biomarker PI3K Amino Acids.||1.900|0.012|
82505409|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.053|18.915||||||Univariate logistic regressionOdds ratio (Phenotype: FF / VF) for the biomarker FC Gamma Receptor IIIa F176V.||18.915|0.053|
82505410|NCT00885755|164702992|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.083|||||TWO_SIDED|95.0|0.004|1.945||||||Univariate logistic regression Odds ratio (Phenotype: HR / RR) for the biomarker FC Gamma Receptor IIa R166H||1.945|0.004|
82505411|NCT00755131|164703001|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Sample size determination was based on a t-test assuming a normal distribution with non-equal variance with the mean and standard deviation for the experimental group (postinfarction patients) of HMGB1 levels equal to 15 ± 7 and 2 ± 1 ng/dl for the control group derived from a previous study, respectively. The required sample size was calculated to be 30 subjects per group to detect on the size of one SD with α value of 0.05 (two-sided) and power (1 - β) of 0.8.||||<0.05
82564026|NCT04791917|164837352|SUPERIORITY|||||||0.26|||||||ANCOVA|F(1,41) = 1.32, partial eta squared = .03||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on breakpoint for alcohol including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.26
82564027|NCT04791917|164837353|SUPERIORITY|||||||0.11|||||||ANCOVA|F(1,43) = 2.60, partial eta squared = .06||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for alcohol including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.11
82505412|NCT00755131|164703002|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82505413|NCT00755131|164703003|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82505414|NCT02120950|164703004|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.7||||0.548|TWO_SIDED|95.0|-2.9|1.6|||ANCOVA|||||1.6|-2.9|0.5480
82505415|NCT02120950|164703005|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|0.6||||0.7402|TWO_SIDED|95.0|-3.1|4.3|||Cochran-Mantel-Haenszel|||||4.3|-3.1|0.7402
82505416|NCT02120950|164703007|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1||||0.0682|TWO_SIDED|95.0|0.0|0.2|||ANCOVA||Point estimate, 95% CI and p-value are based on treatment difference (AFL-sham - AFL-PDT) of the LS mean changes using an ANOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects.|||0.2|0.0|0.0682
82505417|NCT02120950|164703008|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1||||0.164|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA||Point estimate, 95% CI and p-value are based on treatment difference (AFL-sham - AFL-PDT) of the LS mean changes using an ANOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects.|||0.3|-0.1|0.1640
82564028|NCT04791917|164837354|SUPERIORITY|||||||0.17|||||||ANCOVA|F(1,42) = 1.95, partial eta squared = .04||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on alcohol Pmax including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.17
82505418|NCT02120950|164703011|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-5.6||||0.2348|TWO_SIDED|95.0|-14.9|3.7|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 5||3.7|-14.9|0.2348
82505419|NCT02120950|164703011|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-2.2||||0.6877|TWO_SIDED|95.0|-13.1|8.6|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 10||8.6|-13.1|0.6877
82505420|NCT02120950|164703011|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-4.0||||0.4556|TWO_SIDED|95.0|-14.5|6.5|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Gained ≥ 15||6.5|-14.5|0.4556
82505421|NCT02120950|164703012|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|1.7||||0.5372|TWO_SIDED|95.0|-3.7|7.2|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 5||7.2|-3.7|0.5372
82505422|NCT02120950|164703012|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|0.6||||0.7569|TWO_SIDED|95.0|-3.4|4.7|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 10||4.7|-3.4|0.7569
82505423|NCT02120950|164703012|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-0.6||||0.7402|TWO_SIDED|95.0|-4.3|3.1|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|Category of Lost ≥ 15||3.1|-4.3|0.7402
82505424|NCT02120950|164703013|SUPERIORITY_OR_OTHER_LEGACY||treatment difference in %|-6.0||||0.3244|TWO_SIDED|95.0|-17.8|5.9|||Cochran-Mantel-Haenszel|The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12|CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12|||5.9|-17.8|0.3244
82505425|NCT02120950|164703014|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1||||0.7109|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with leakage in FA at baseline and Week 52. Baseline values were not carried forward.||0.6|-0.9|0.7109
82505426|NCT02120950|164703015|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.1||||0.8355|TWO_SIDED|95.0|-9.2|11.3|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with values for CST at baseline and Week 52. Baseline values were not carried forward.||11.3|-9.2|0.8355
82505427|NCT02120950|164703016|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7||||0.5069|TWO_SIDED|95.0|-2.9|1.4|||ANCOVA||Point estimate, 95% CI and p-value are based on difference (AFL-sham - AFL-PDT) of LS mean changes using an ANCOVA model with treatment group and ethnicity and qualification for rescue therapy at Week 12 as fixed effects, baseline value as covariate.|The analysis population included only subjects with values for NEI VFQ-25 score at baseline and Week 52.||1.4|-2.9|0.5069
82505428|NCT02120950|164703017|SUPERIORITY_OR_OTHER_LEGACY||Difference %|-0.6||||0.8423|TWO_SIDED|95.0|-6.3|5.1||The p-value is calculated from the 2-sided Cochran-Mantel-Haenszel test adjusted by ethnicity and qualification for rescue therapy at Week 12.|Cochran-Mantel-Haenszel||CI is based on the treatment difference in % (AFL-sham - AFL-PDT) using the Mantel-Haenszel weighting scheme adjusted by ethnicity and qualification for rescue therapy at Week 12.|||5.1|-6.3|0.8423
82505429|NCT01549964|164703063|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.108|<|0.001|TWO_SIDED|95.0|-0.77|-0.34||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.34|-0.77|<0.001
82505430|NCT01549964|164703063|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|0.15|0.49||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||0.49|0.15|<0.001
82505431|NCT01549964|164703063|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-1.03|-0.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.60|-1.03|<0.001
82505432|NCT01549964|164703063|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.087||0.524|TWO_SIDED|95.0|-0.12|0.23||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||0.23|-0.12|0.524
82505433|NCT01549964|164703064|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.05|TWO_SIDED|95.0|1.0|5.08||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||5.08|1.00|0.050
82505434|NCT01549964|164703064|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.23|0.67||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||0.67|0.23|<0.001
82505435|NCT01549964|164703064|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.06|||<|0.001|TWO_SIDED|95.0|2.24|11.42||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||11.42|2.24|<0.001
82505436|NCT01549964|164703064|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.493|TWO_SIDED|95.0|0.5|1.39||P-Value was obtained from a logistic model with treatment, schedule, baseline HbA1c as explanatory variables.|Regression, Logistic|||||1.39|0.50|0.493
82505437|NCT01549964|164703065|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-33.8|-16.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-16.6|-33.8|<0.001
82505438|NCT01549964|164703065|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|3.49||0.142|TWO_SIDED|95.0|-12.0|1.7||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||1.7|-12.0|0.142
82378342|NCT04471428|164465071|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.27|TWO_SIDED|95.0|0.59|1.16|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis: Stratification factors include histology, and prior NSCLC treatment regimens||1.16|0.59|0.2700
82378343|NCT04471428|164465071|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3031|TWO_SIDED|95.0|0.6|1.17|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.17|0.60|0.3031
82505439|NCT01549964|164703065|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-39.9|-22.6||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-22.6|-39.9|<0.001
82505440|NCT01549964|164703065|SUPERIORITY_OR_OTHER||Least Square Mean difference|-11.2|STANDARD_ERROR_OF_MEAN|3.53||0.002|TWO_SIDED|95.0|-18.1|-4.2||MMRM model with treatment, country, schedule, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-4.2|-18.1|0.002
82505441|NCT01835743|164703066|SUPERIORITY_OR_OTHER||||||<|5e-05|TWO_SIDED||||||Fisher Exact|||||||<0.00005
82505442|NCT01835743|164703067|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|t-test for two independent samples to compare the change in VAS scores across the evaluation period between the two procedure administration groups||||||<0.0001
82505443|NCT02449174|164703068|SUPERIORITY|||||||0.8958|||||||Chi-squared, Corrected|||||||0.8958
82505444|NCT02449174|164703069|SUPERIORITY|||||||0.2059|||||||Chi-squared, Corrected|||||||0.2059
82505445|NCT01520363|164703074|SUPERIORITY||Mean Difference (Net)|-1.182|STANDARD_DEVIATION|4.294||0.211|TWO_SIDED|95.0|-3.086|0.722|||t-test, 2 sided|df=21|||t= -1.291; p=.211|.722|-3.086|.211
82505446|NCT01520363|164703074|SUPERIORITY||Median Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.67||0.949|TWO_SIDED|95.0|-1.345|1.432|||t-test, 2 sided|df=22||||1.432|-1.345|.949
82505447|NCT01520363|164703075|SUPERIORITY||Mean Difference (Final Values)|0.333|STANDARD_DEVIATION|2.456||0.541|TWO_SIDED|95.0|-0.785|1.451||df=20|t-test, 2 sided|df=20|||t=0.622; p=.541|1.451|-0.785|.541
82505448|NCT01520363|164703075|SUPERIORITY||Mean Difference (Net)|-0.042|STANDARD_DEVIATION|2.956||0.946|TWO_SIDED|95.0|-1.29|1.206||df=23|t-test, 2 sided||||t=-.069; p=0.946|1.206|-1.290|.946
82505449|NCT01520363|164703076|SUPERIORITY||Mean Difference (Net)|-0.227|STANDARD_DEVIATION|3.116||0.736|TWO_SIDED|95.0|-1.609|1.154|||t-test, 2 sided|df=21|||t=-0.342; p=0.736|1.154|-1.609|.736
82505450|NCT01520363|164703076|SUPERIORITY||Mean Difference (Net)|0.409|STANDARD_DEVIATION|3.5||0.589|TWO_SIDED|95.0|-1.143|1.961|||t-test, 2 sided||||t=0.548; p=0.589|1.961|-1.143|.589
82505451|NCT01520363|164703077|SUPERIORITY||Mean Difference (Net)|-1.429|STANDARD_DEVIATION|3.203||0.05|TWO_SIDED|95.0|-2.886|0.029|||t-test, 2 sided|df=20|||t=-2.044; p=0.05|0.029|-2.886|.05
82505452|NCT01520363|164703077|SUPERIORITY||Mean Difference (Net)|0.042|STANDARD_DEVIATION|3.862||0.958|TWO_SIDED|95.0|-1.589|1.672|||t-test, 2 sided||||t=0.053; p=0.958|1.672|-1.589|0.958
82505453|NCT01520363|164703078|SUPERIORITY||Median Difference (Net)|0.227|STANDARD_DEVIATION|1.51||0.488|TWO_SIDED|95.0|-0.442|0.897|||t-test, 2 sided|df=21|||t=0.706; p=0.488|0.897|-0.442|0.488
82505454|NCT01520363|164703078|SUPERIORITY||Median Difference (Net)|0.24|STANDARD_DEVIATION|1.535||0.442|TWO_SIDED|95.0|-0.394|0.874|||t-test, 2 sided|df=24|||t=0.782; p=0.442|0.874|-0.394|0.442
82505455|NCT01520363|164703079|SUPERIORITY||Mean Difference (Net)|0.682|STANDARD_DEVIATION|2.317||0.182|TWO_SIDED|95.0|-0.346|1.709|||t-test, 2 sided|df=21|||t=1.380; p=0.182|1.709|-0.346|0.182
82505456|NCT01520363|164703079|SUPERIORITY||Mean Difference (Net)|1.16|STANDARD_DEVIATION|1.864|<|0.005|TWO_SIDED|95.0|0.391|1.929|||t-test, 2 sided|df=24|||t=3.112; p=0.005|1.929|0.391|<0.005
82505457|NCT01520363|164703080|SUPERIORITY||Mean Difference (Net)|0.091|STANDARD_DEVIATION|3.504||0.9|TWO_SIDED|95.0|-1.463|1.644|||t-test, 2 sided||||t=0.122; p=0.90|1.644|-1.463|0.90
82505458|NCT01520363|164703080|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|2.551||0.356|TWO_SIDED|95.0|-0.573|1.533|||t-test, 2 sided|df=24|||t=0.941; p=0.356|1.533|-0.573|0.356
82505459|NCT01520363|164703081|SUPERIORITY||Mean Difference (Net)|0.136|STANDARD_DEVIATION|3.06||0.836|TWO_SIDED|95.0|-1.22|1.493|||t-test, 2 sided||||t=0.209; p=0.836|1.493|-1.220|0.836
82505460|NCT01520363|164703081|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_DEVIATION|2.698||0.826|TWO_SIDED|95.0|-0.993|1.233|||t-test, 2 sided|df=24|||t=0.222; p=0.826|1.233|-0.993|0.826
82505461|NCT01520363|164703082|SUPERIORITY||Mean Difference (Net)|-3.38|STANDARD_ERROR_OF_MEAN|4.18||0.42|TWO_SIDED|95.0|-11.8|5.05|||t-test, 2 sided|||||5.05|-11.80|0.42
82505462|NCT01520363|164703083|SUPERIORITY||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|2.97|<|0.73|TWO_SIDED|95.0|-7.02|4.96|||t-test, 2 sided|||||4.96|-7.02|<0.73
82505463|NCT01520363|164703084|SUPERIORITY||Mean Difference (Net)|8.4615|STANDARD_DEVIATION|32.8016||0.371|TWO_SIDED|95.0|-11.3603|28.2834|||t-test, 2 sided|df=12|||t=0.903; p=0.371|28.2834|-11.3603|0.371
82505464|NCT01520363|164703084|SUPERIORITY||Mean Difference (Net)|4.9917|STANDARD_DEVIATION|18.0163||0.358|TWO_SIDED|95.0|-6.4553|16.4387|||t-test, 2 sided|df=11|t=0.960; p=0.358|||16.4387|-6.4553|0.358
82505465|NCT01520363|164703085|SUPERIORITY||Mean Difference (Net)|3.09412|STANDARD_DEVIATION|24.06228||0.603|TWO_SIDED|95.0|-9.27756|15.4658|||t-test, 2 sided|df=16|t=0.530; p=0.603|||15.46580|-9.27756|0.603
82505466|NCT01520363|164703085|SUPERIORITY||Mean Difference (Net)|2.42857|STANDARD_DEVIATION|11.21479||0.432|TWO_SIDED|95.0|-4.04665|8.9038|||t-test, 2 sided|df=13|t=0.810; p=0.432|||8.90380|-4.04665|0.432
82505467|NCT01520363|164703086|SUPERIORITY||Mean Difference (Net)|11.765|STANDARD_DEVIATION|26.276||0.083|TWO_SIDED|95.0|-1.745|25.275|||t-test, 2 sided|df=16|||t=1.846; p=0.083|25.275|-1.745|0.083
82505468|NCT01520363|164703086|SUPERIORITY||Mean Difference (Net)|7.5|STANDARD_DEVIATION|14.378||0.073|TWO_SIDED|95.0|-0.802|15.802|||t-test, 2 sided|df=13|||t=1.952; p=0.073|15.802|-0.802|0.073
82505469|NCT01520363|164703087|SUPERIORITY||Mean Difference (Net)|3.7474|STANDARD_DEVIATION|26.711||0.549|TWO_SIDED|95.0|-9.1269|16.6217|||t-test, 2 sided|df=18|t=0.612; p=0.549|||16.6217|-9.1269|0.549
82505470|NCT01520363|164703087|SUPERIORITY||Mean Difference (Net)|0.7143|STANDARD_DEVIATION|16.5084||0.874|TWO_SIDED|95.0|-8.8174|10.246|||t-test, 2 sided|df=13|t=0.162; p=0.874|||10.2460|-8.8174|0.874
82505471|NCT01520363|164703088|SUPERIORITY||Mean Difference (Net)|3.8167|STANDARD_DEVIATION|40.2609||0.693|TWO_SIDED|95.0|-16.2046|23.8379|||t-test, 2 sided|df=17|t=0.402; p=0.693|||23.8379|-16.2046|0.693
82505472|NCT01520363|164703088|SUPERIORITY||Mean Difference (Net)|0.84|STANDARD_DEVIATION|27.8994||0.909|TWO_SIDED|95.0|-14.6102|16.2902|||t-test, 2 sided|df=14|t=0.117; p=0.909|||16.2902|-14.6102|0.909
82505473|NCT01520363|164703089|SUPERIORITY||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.64||0.21|TWO_SIDED|95.0|-2.17|0.52|||t-test, 2 sided|||||0.52|-2.17|0.21
82505474|NCT01520363|164703090|SUPERIORITY||Mean Difference (Net)|0.74|STANDARD_ERROR_OF_MEAN|0.68||0.28|TWO_SIDED|95.0|-0.66|2.15|||t-test, 2 sided|||||2.15|-0.66|0.28
82505475|NCT01272830|164703094|SUPERIORITY|||||||0.0063||||||Significance threshold p\<0.05|paired t-test|||Change from baseline data.||||0.0063
82505476|NCT01272830|164703094|SUPERIORITY||||||>|0.05||||||Significant threshold p\<0.05|paired t-test|||Changes from baseline data||||>0.05
82505477|NCT01272830|164703095|SUPERIORITY|||||||0.0226||||||Significance threshold p\<0.5|paired|||Change from baseline data (HSS pain walking)||||0.0226
82505478|NCT01272830|164703095|SUPERIORITY|||||||0.0375||||||Significance threshold P\<0.05|paired t-test|||Change from baseline data (HSS total score)||||0.0375
82505479|NCT01272830|164703095|SUPERIORITY|||||||0.0391||||||Significance threshold p\<0.05|paired t-test|||Change from baseline data (KSS knee pain)||||0.0391
82505480|NCT01272830|164703095|SUPERIORITY|||||||0.2137|||||||paired t-test|||Changes from baseline data (HSS pain walking)||||0.2137
82505481|NCT01272830|164703095|SUPERIORITY|||||||0.1312|||||||paired t-test|||Change from baseline data (HSS total score)||||0.1312
82505482|NCT01272830|164703095|SUPERIORITY|||||||0.1578|||||||paired t-test|||Change from baseline data (KSS knee pain)||||0.1578
82505483|NCT01272830|164703096|SUPERIORITY|||||||0.0083||||||Significance threshold p\<0.05|t-test|||Changes from baseline data||||0.0083
82505484|NCT01272830|164703096|SUPERIORITY||||||>|0.05||||||Significant threshold p\<0.05|paired t-test|||Change from baseline data||||>0.05
82505485|NCT01272830|164703097|SUPERIORITY|||||||0.01||||||Significance threshold p\<0.05|ANOVA|||Change from baseline data||||0.01
82505486|NCT01272830|164703097|SUPERIORITY||||||>|0.05|||||||paired t-test|Significant threshold p\<0.05||Changes from baseline data||||>0.05
82505487|NCT00751348|164703098|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-measles was above -10%.|Difference in percentage|-1.36|||<|0.05|TWO_SIDED|95.0|-3.77|1.66||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-measles seroconversion rates.||1.66|-3.77|<0.05
82505488|NCT00751348|164703098|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-mumps was above -10%.|Difference in percentage|-5.34|||<|0.05|TWO_SIDED|95.0|-10.4|0.38||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-mumps seroconversion rates.||0.38|-10.4|<0.05
82505489|NCT00751348|164703098|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-rubella was above -10%.|Difference in percentage|-0.34|||<|0.05|TWO_SIDED|95.0|-1.88|2.06||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-rubella seroconversion rates.||2.06|-1.88|<0.05
82505490|NCT00751348|164703098|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the lower limit (LL) of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Priorix-Tetra Group minus Priorix+Varilrix Group) in seroconversion rate for anti-VZV was above -10%.|Difference in percentage|-1.06|||<|0.05|TWO_SIDED|95.0|-3.07|1.44||The P-value for all reactogenicity comparisons was below (\<) 0.05.|Fisher Exact|||Non-inferiority of Priorix-Tetra® vaccine vs Priorix™ and Varilrix™ administered as concomitant vaccine 42-56 days after vaccination at Day 0 in terms of anti-varicella zoster virus (anti-VZV) seroconversion rates.||1.44|-3.07|<0.05
82564029|NCT04791917|164837355|SUPERIORITY|||||||0.91|||||||ANCOVA|F(1,43)=.01, partial eta squared = .00||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on alcohol essential value including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.91
82505491|NCT04191382|164703108|OTHER|Other descriptive analysis|Ratio of Geometric Means|1.08|||||TWO_SIDED|95.0|0.72|1.63||||||Geometric LS-means ratio of proportional change was the ratio of geometric LS-means of the proportional change between groups (Amcenestrant 400 mg versus Letrozole 2.5 mg).||1.63|0.72|
82505492|NCT04191382|164703108|OTHER|Other descriptive analysis|Ratio of Geometric Means|1.42|||||TWO_SIDED|95.0|0.95|2.12||||||Geometric LS-means ratio of proportional change was the ratio of geometric LS-means of the proportional change between groups (Amcenestrant 200 mg versus Letrozole 2.5 mg).||2.12|0.95|
82505493|NCT01748643|164703115|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82505494|NCT01748643|164703116|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82505495|NCT01748643|164703117|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82505496|NCT01748643|164703118|SUPERIORITY|||||||0.97|||||||t-test, 1 sided|||||||0.97
82505497|NCT01748643|164703119|SUPERIORITY|||||||0.64|||||||t-test, 1 sided|||||||0.64
82505498|NCT01748643|164703120|SUPERIORITY|||||||0.58|||||||t-test, 1 sided|||||||0.58
82505499|NCT02009046|164703129|SUPERIORITY||Odds Ratio (OR)|1.09||||0.643|TWO_SIDED|95.0|0.75|1.6|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.60|0.75|0.6430
82626063|NCT01602549|164967837|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.018|||||TWO_SIDED|95.0|0.889|1.166|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8 VS Day 1 GSK962040 50 mg||1.166|0.889|
82378344|NCT04471428|164465072|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.2408|TWO_SIDED|95.0|0.86|1.79|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratification factors include histology, and prior NSCLC treatment regimens||1.79|0.86|0.2408
82505500|NCT02009046|164703129|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3718|TWO_SIDED|95.0|0.39|1.44|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.44|0.39|0.3718
82505501|NCT02009046|164703130|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8083|TWO_SIDED|95.0|0.67|1.37|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.37|0.67|0.8083
82505502|NCT02009046|164703130|SUPERIORITY||Odds Ratio (OR)|0.6||||0.1083|TWO_SIDED|95.0|0.32|1.13|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.13|0.32|0.1083
82505503|NCT02009046|164703131|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1006|TWO_SIDED|95.0|0.35|1.1|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.10|0.35|0.1006
82505504|NCT02009046|164703131|SUPERIORITY||Odds Ratio (OR)|0.49||||0.2117|TWO_SIDED|95.0|0.16|1.53|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.53|0.16|0.2117
82505505|NCT02009046|164703132|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0218|TWO_SIDED|95.0|1.05|1.78|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.78|1.05|0.0218
82505506|NCT02009046|164703132|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0211|TWO_SIDED|95.0|1.09|2.75|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.75|1.09|0.0211
82505507|NCT02009046|164703133|SUPERIORITY||Odds Ratio (OR)|1.25||||0.1763|TWO_SIDED|95.0|0.9|1.73|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.73|0.90|0.1763
82505508|NCT02009046|164703133|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5869|TWO_SIDED|95.0|0.45|1.58|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.58|0.45|0.5869
82505509|NCT02009046|164703134|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8102|TWO_SIDED|95.0|0.75|1.44|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.44|0.75|0.8102
82505510|NCT02009046|164703134|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2956|TWO_SIDED|95.0|0.39|1.34|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.34|0.39|0.2956
82505511|NCT02009046|164703135|SUPERIORITY||Odds Ratio (OR)|1.13||||0.4645|TWO_SIDED|95.0|0.82|1.56|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.56|0.82|0.4645
82505512|NCT02009046|164703135|SUPERIORITY||Odds Ratio (OR)|0.77||||0.3809|TWO_SIDED|95.0|0.43|1.4|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.40|0.43|0.3809
82505513|NCT02009046|164703136|SUPERIORITY||Odds Ratio (OR)|0.75||||0.1335|TWO_SIDED|95.0|0.52|1.09|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.09|0.52|0.1335
82505514|NCT02009046|164703136|SUPERIORITY||Odds Ratio (OR)|0.56||||0.0741|TWO_SIDED|95.0|0.29|1.06|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.06|0.29|0.0741
82505515|NCT02009046|164703137|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9085|TWO_SIDED|95.0|0.54|2.01|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.01|0.54|0.9085
82505516|NCT02009046|164703137|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8059|TWO_SIDED|95.0|0.36|3.62|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||3.62|0.36|0.8059
82505517|NCT02009046|164703138|SUPERIORITY||Odds Ratio (OR)|0.87||||0.6861|TWO_SIDED|95.0|0.44|1.71|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||1.71|0.44|0.6861
82505518|NCT02009046|164703138|SUPERIORITY||Odds Ratio (OR)|0.0||||0.9973|TWO_SIDED||||||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.|No results provided, as model would not converge.|||||0.9973
82505519|NCT02009046|164703139|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0002|TWO_SIDED|95.0|1.39|2.8|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||2.80|1.39|0.0002
82626064|NCT01602549|164967837|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.865|||||TWO_SIDED|95.0|0.709|1.055|||||Day 8:Day 1: The AMs and ratios were estimated using a mixed model fitting treatment, visit, treatment\*visit, Baseline L-dopa PK parameter and Baseline gastric emptying half time as fixed effects, and participant as a random effect.|Day 8 Vs Day 1 Placebo||1.055|0.709|
82626065|NCT01602549|164967838|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||Wilcoxon rank-sum test|||Day 1||||0.157
82626066|NCT01602549|164967838|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Wilcoxon rank-sum test|||Day 8||||0.186
82505520|NCT02009046|164703139|SUPERIORITY||Odds Ratio (OR)|2.71||||0.003|TWO_SIDED|95.0|1.44|5.09|||Regression, Logistic|Multilevel model to account for classroom/school clusters. Adjusted for student/classroom gender, student/classroom sexual experience, pretest score.||||5.09|1.44|0.0030
82505521|NCT00620828|164703140|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Patient cohort was inclusive of patient undergoing single TKA from June 2007 to July 2008. Effect size was calculated for the numeric pain rating scale at the immediate post-operative period, 4-hour, 8-hour , 12-hour, and 24-hour time periods as a means to assess post-operative pain control.||||<0.05
82505522|NCT00620828|164703141|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||Significant differences in Fentanyl PCA pump usage across study arms were assessed for the 4-8h,8-12h,and 12h-24h time frames.||||.05
82505523|NCT00620828|164703142|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||This analysis was performed on data collected 24-hours post-operatively for patient cohort.||||.05
82505524|NCT00620828|164703143|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||Knee extension and knee flexion measured at 24-hours post-operatively for patient cohort.||||.05
82505525|NCT00620828|164703144|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||Straight leg raise data collected at 4-hours, 8-hours, 12-hours and 24-hours post-operatively for patient cohort.||||.05
82505526|NCT01154218|164703147|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.56|||||TWO_SIDED|90.0|91.49|108.33||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.33|91.49|
82505527|NCT01154218|164703147|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|106.93|||||TWO_SIDED|90.0|98.26|116.35||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||116.35|98.26|
82505528|NCT01154218|164703147|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|85.76|||||TWO_SIDED|90.0|78.88|93.25||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||93.25|78.88|
82505529|NCT01154218|164703148|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|99.6|||||TWO_SIDED|90.0|91.3|108.66||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.66|91.30|
82505530|NCT01154218|164703148|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|107.56|||||TWO_SIDED|90.0|98.58|117.35||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.35|98.58|
82505531|NCT01154218|164703148|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|85.52|||||TWO_SIDED|90.0|78.45|93.22||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||93.22|78.45|
82505532|NCT01154218|164703151|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|106.97|||||TWO_SIDED|90.0|96.55|118.51||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.51|96.55|
82505533|NCT01154218|164703151|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|111.32|||||TWO_SIDED|90.0|100.47|123.33||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||123.33|100.47|
82505534|NCT01154218|164703151|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|86.22|||||TWO_SIDED|90.0|77.89|95.43||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||95.43|77.89|
82564030|NCT04791917|164837356|SUPERIORITY|||||||0.14|||||||ANCOVA|F(1,41) = 2.24, partial eta squared = .05||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on intensity of cannabis demand including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.14
82378345|NCT04471428|164465072|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.1992|TWO_SIDED|95.0|0.88|1.81|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||1.81|0.88|0.1992
82505535|NCT01154218|164703154|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|100.03|||||TWO_SIDED|90.0|90.16|110.97||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.97|90.16|
82505536|NCT01154218|164703154|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.85|||||TWO_SIDED|90.0|98.11|120.77||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||120.77|98.11|
82505537|NCT01154218|164703154|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|74.87|||||TWO_SIDED|90.0|67.55|82.98||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||82.98|67.55|
82505538|NCT01154218|164703155|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|100.08|||||TWO_SIDED|90.0|90.46|110.73||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||110.73|90.46|
82505539|NCT01154218|164703155|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.47|||||TWO_SIDED|90.0|98.03|120.02||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||120.02|98.03|
82505540|NCT01154218|164703155|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|76.59|||||TWO_SIDED|90.0|69.23|84.74||||||Natural log transformed AUC (0-∞) of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||84.74|69.23|
82505541|NCT01154218|164703156|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|102.11|||||TWO_SIDED|90.0|92.84|112.31||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||112.31|92.84|
82505542|NCT01154218|164703156|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|108.87|||||TWO_SIDED|90.0|98.98|119.75||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||119.75|98.98|
82505543|NCT01154218|164703156|SUPERIORITY_OR_OTHER||Ratio of Adjusted means|71.94|||||TWO_SIDED|90.0|65.46|79.05||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||79.05|65.46|
82505544|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0631|TWO_SIDED|95.0|-5.96|0.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.16|-5.96|0.0631
82505545|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.0008|TWO_SIDED|95.0|-8.33|-2.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.20|-8.33|0.0008
82505546|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.0188|TWO_SIDED|95.0|-6.73|-0.61||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.61|-6.73|0.0188
82505547|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0003|TWO_SIDED|95.0|-8.8|-2.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.63|-8.80|0.0003
82505548|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.0177|TWO_SIDED|95.0|-6.77|-0.65||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.65|-6.77|0.0177
82505549|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.855||95.0|-2.72|3.27||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.27|-2.72|0.8550
82505550|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1719|TWO_SIDED|95.0|-5.08|0.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.91|-5.08|0.1719
82505551|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7469|TWO_SIDED|95.0|-3.49|2.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.50|-3.49|0.7469
82505552|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.1001|TWO_SIDED|95.0|-5.55|0.49||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.49|-5.55|0.1001
82505553|NCT00362115|164703158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7294|TWO_SIDED|95.0|-3.52|2.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.47|-3.52|0.7294
82505554|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0111|TWO_SIDED|95.0|-10.84|-1.41||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.41|-10.84|0.0111
82505555|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||<|0.0001|TWO_SIDED|95.0|-15.51|-6.08||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.08|-15.51|< 0.0001
82505556|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8|||<|0.0001|TWO_SIDED|95.0|-14.53|-5.1||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.10|-14.53|< 0.0001
82505557|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.02|-7.52||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.52|-17.02|< 0.0001
82505558|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5||||0.0005|TWO_SIDED|95.0|-13.19|-3.76||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.76|-13.19|0.0005
82505559|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.2768|TWO_SIDED|95.0|-2.06|7.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.17|-2.06|0.2768
82505560|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.3688|TWO_SIDED|95.0|-6.74|2.51||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.51|-6.74|0.3688
82505561|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1||||0.6293|TWO_SIDED|95.0|-5.75|3.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.48|-5.75|0.6293
82505562|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.1298|TWO_SIDED|95.0|-8.25|1.06||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.06|-8.25|0.1298
82505563|NCT00362115|164703159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9315|TWO_SIDED|95.0|-4.41|4.82||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.82|-4.41|0.9315
82378346|NCT04471428|164465073|SUPERIORITY||Difference in Event Free Rate|15.85||||0.0014|TWO_SIDED|95.0|6.12|25.59|||z-test||The 95% CI for the difference in PFS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 6 months||25.59|6.12|0.0014
82505564|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.0016|TWO_SIDED|95.0|-13.17|-3.09||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.09|-13.17|0.0016
82505565|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-15.17|-5.09||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.09|-15.17|< 0.0001
82505566|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.0001|TWO_SIDED|95.0|-17.8|-7.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.72|-17.80|< 0.0001
82505567|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.36|-6.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.20|-16.36|< 0.0001
82505568|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7|||<|0.0001|TWO_SIDED|95.0|-15.75|-5.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.63|-15.75|< 0.0001
82505569|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9909|TWO_SIDED|95.0|-4.96|4.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.91|-4.96|0.9909
82505570|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.4213|TWO_SIDED|95.0|-6.96|2.92||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.92|-6.96|0.4213
82505571|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.0646|TWO_SIDED|95.0|-9.59|0.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.28|-9.59|0.0646
82505572|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.2107|TWO_SIDED|95.0|-8.15|1.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.80|-8.15|0.2107
82505573|NCT00362115|164703160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.3059|TWO_SIDED|95.0|-7.54|2.37||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.37|-7.54|0.3059
82505574|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1653|TWO_SIDED|95.0|-5.69|0.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.98|-5.69|0.1653
82505575|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.0151|TWO_SIDED|95.0|-7.5|-0.81||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.81|-7.50|0.0151
82505576|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.048|TWO_SIDED|95.0|-6.7|-0.03||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.03|-6.70|0.0480
82505577|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0098|TWO_SIDED|95.0|-7.81|-1.08||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.08|-7.81|0.0098
82505578|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0113|TWO_SIDED|95.0|-7.68|-0.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.98|-7.68|0.0113
82505579|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.3416|TWO_SIDED|95.0|-1.68|4.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.84|-1.68|0.3416
82505580|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8973|TWO_SIDED|95.0|-3.49|3.06||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.06|-3.49|0.8973
82505581|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.7292|TWO_SIDED|95.0|-2.69|3.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.84|-2.69|0.7292
82505582|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7646|TWO_SIDED|95.0|-3.79|2.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.79|-3.79|0.7646
82378347|NCT04471428|164465073|SUPERIORITY||Difference in Event Free Rate|6.32||||0.0719|TWO_SIDED|95.0|-0.56|13.21|||z-test||The 95% CI for the difference in PFS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 1 year||13.21|-0.56|0.0719
82505583|NCT00362115|164703161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8133|TWO_SIDED|95.0|-3.67|2.88||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.88|-3.67|0.8133
82505584|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-12.51|-4.51||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.51|-12.51|< 0.0001
82505585|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||<|0.0001|TWO_SIDED|95.0|-17.31|-8.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.90|-17.31|< 0.0001
82505586|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|||<|0.0001|TWO_SIDED|95.0|-16.27|-7.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.95|-16.27|< 0.0001
82505587|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.0001|TWO_SIDED|95.0|-21.07|-12.46||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-12.46|-21.07|< 0.0001
82505588|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.4|||<|0.0001|TWO_SIDED|95.0|-17.58|-9.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.17|-17.58|< 0.0001
82505589|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.3735|TWO_SIDED|95.0|-2.1|5.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.58|-2.10|0.3735
82505590|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.1668|TWO_SIDED|95.0|-6.91|1.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.20|-6.91|0.1668
82505591|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.3629|TWO_SIDED|95.0|-5.86|2.15||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.15|-5.86|0.3629
82505592|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0022|TWO_SIDED|95.0|-10.67|-2.36||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.36|-10.67|0.0022
82505593|NCT00362115|164703162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1303|TWO_SIDED|95.0|-7.18|0.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.93|-7.18|0.1303
82505594|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4|||<|0.0001|TWO_SIDED|95.0|-8.12|-2.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.72|-8.12|< 0.0001
82505595|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.33|-5.65||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.65|-11.33|< 0.0001
82505596|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.52|-5.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.90|-11.52|< 0.0001
82505597|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||<|0.0001|TWO_SIDED|95.0|-13.73|-7.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.91|-13.73|< 0.0001
82505598|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||<|0.0001|TWO_SIDED|95.0|-12.31|-6.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.64|-12.31|< 0.0001
82505599|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.1249|TWO_SIDED|95.0|-0.56|4.61||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.61|-0.56|0.1249
82505600|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.4542|TWO_SIDED|95.0|-3.79|1.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.70|-3.79|0.4542
82505601|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.3574|TWO_SIDED|95.0|-3.97|1.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.44|-3.97|0.3574
82505602|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.0184|TWO_SIDED|95.0|-6.18|-0.57||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.57|-6.18|0.0184
82505603|NCT00362115|164703163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.145|TWO_SIDED|95.0|-4.77|0.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.70|-4.77|0.1450
82505604|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9||||0.0009|TWO_SIDED|95.0|-12.46|-3.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.26|-12.46|0.0009
82505605|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-18.46|-8.77||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.77|-18.46|< 0.0001
82505606|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-17.21|-7.63||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.63|-17.21|< 0.0001
82505607|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-22.83|-12.92||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-12.92|-22.83|< 0.0001
82505608|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.52|-8.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.84|-18.52|< 0.0001
82505609|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9424|TWO_SIDED|95.0|-4.25|4.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.58|-4.25|0.9424
82505610|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.0189|TWO_SIDED|95.0|-10.26|-0.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.93|-10.26|0.0189
82505611|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0612|TWO_SIDED|95.0|-9.01|0.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.21|-9.01|0.0612
82505612|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.63|-5.07||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.07|-14.63|< 0.0001
82505613|NCT00362115|164703164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0175|TWO_SIDED|95.0|-10.33|-1.0||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.00|-10.33|0.0175
82505614|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.0108|TWO_SIDED|95.0|-7.26|-0.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.95|-7.26|0.0108
82505615|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|||<|0.0001|TWO_SIDED|95.0|-11.16|-4.55||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.55|-11.16|< 0.0001
82505616|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.82|-5.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.26|-11.82|< 0.0001
82505617|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|||<|0.0001|TWO_SIDED|95.0|-13.98|-7.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.20|-13.98|< 0.0001
82505618|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||<|0.0001|TWO_SIDED|95.0|-12.52|-5.9||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.90|-12.52|< 0.0001
82505619|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.306|TWO_SIDED|95.0|-1.45|4.59||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.59|-1.45|0.3060
82505620|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.1823|TWO_SIDED|95.0|-5.37|1.02||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.02|-5.37|0.1823
82505621|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0751|TWO_SIDED|95.0|-6.01|0.29||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.29|-6.01|0.0751
82505622|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0034|TWO_SIDED|95.0|-8.18|-1.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.64|-8.18|0.0034
82505623|NCT00362115|164703165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0306|TWO_SIDED|95.0|-6.72|-0.33||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.33|-6.72|0.0306
82505624|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.0061|TWO_SIDED|95.0|-13.9|-2.33||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.33|-13.90|0.0061
82505625|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.5||||0.0002|TWO_SIDED|95.0|-17.56|-5.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.44|-17.56|0.0002
82505626|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-18.34|-6.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.28|-18.34|< 0.0001
82505627|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|||<|0.0001|TWO_SIDED|95.0|-23.75|-11.34||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.34|-23.75|< 0.0001
82505628|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|||<|0.0001|TWO_SIDED|95.0|-19.86|-7.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.80|-19.86|< 0.0001
82505629|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.9355|TWO_SIDED|95.0|-5.74|5.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.28|-5.74|0.9355
82505630|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.2223|TWO_SIDED|95.0|-9.41|2.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.20|-9.41|0.2223
82505631|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1328|TWO_SIDED|95.0|-10.19|1.35||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.35|-10.19|0.1328
82505632|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7||||0.0016|TWO_SIDED|95.0|-15.61|-3.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.70|-15.61|0.0016
82505633|NCT00362115|164703166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.0437|TWO_SIDED|95.0|-11.7|-0.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.17|-11.70|0.0437
82505634|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0417|TWO_SIDED|95.0|-8.39|-0.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.16|-8.39|0.0417
82505635|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0053|TWO_SIDED|95.0|-10.44|-1.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.84|-10.44|0.0053
82505636|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8||||0.0004|TWO_SIDED|95.0|-12.12|-3.56||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.56|-12.12|0.0004
82505637|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|||<|0.0001|TWO_SIDED|95.0|-13.97|-5.16||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.16|-13.97|< 0.0001
82505638|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-13.6|-5.03||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.03|-13.60|< 0.0001
82505639|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.6372|TWO_SIDED|95.0|-2.97|4.85||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.85|-2.97|0.6372
82505640|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.6588|TWO_SIDED|95.0|-5.05|3.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.20|-5.05|0.6588
82505641|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2082|TWO_SIDED|95.0|-6.72|1.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.47|-6.72|0.2082
82505642|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0437|TWO_SIDED|95.0|-8.57|-0.12||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.12|-8.57|0.0437
82505643|NCT00362115|164703167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.0495|TWO_SIDED|95.0|-8.19|-0.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.01|-8.19|0.0495
82564031|NCT04791917|164837357|SUPERIORITY|||||||0.83|||||||ANCOVA|F(1,41) = .04, partial eta squared = .001||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on breakpoint of cannabis demand including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.83
82564032|NCT04791917|164837358|SUPERIORITY|||||||0.15|||||||ANCOVA|F(1,41) = 2.20, partial eta squared = .05||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.15
82626067|NCT01602549|164967840|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.239|||||TWO_SIDED|95.0|-16.015|7.537|||||Day 1: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit, and Baseline gastric half emptying time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 1||7.537|-16.015|
82378348|NCT04471428|164465074|SUPERIORITY||Difference in Event Free Rate|-0.85||||0.8767|TWO_SIDED|95.0|-11.63|9.92|||z-test||The 95% CI for the difference in OS rates were estimated using the normal approximation method, with standard errors computed using the Greenwood method.|At 1 year||9.92|-11.63|0.8767
82505644|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4||||0.0007|TWO_SIDED|95.0|-14.74|-3.97||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.97|-14.74|0.0007
82505645|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.4|||<|0.0001|TWO_SIDED|95.0|-19.02|-7.73||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.73|-19.02|< 0.0001
82505646|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.0003|TWO_SIDED|95.0|-16.0|-4.83||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.83|-16.00|0.0003
82505647|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.3|||<|0.0001|TWO_SIDED|95.0|-23.11|-11.47||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-11.47|-23.11|< 0.0001
82505648|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-18.01|-6.78||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.78|-18.01|< 0.0001
82505649|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.2594|TWO_SIDED|95.0|-2.17|8.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||8.01|-2.17|0.2594
82505650|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.6859|TWO_SIDED|95.0|-6.46|4.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.26|-6.46|0.6859
82505651|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.4898|TWO_SIDED|95.0|-3.43|7.15||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.15|-3.43|0.4898
82505652|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0||||0.076|TWO_SIDED|95.0|-10.55|0.53||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.53|-10.55|0.0760
82505653|NCT00362115|164703168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9647|TWO_SIDED|95.0|-5.44|5.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.21|-5.44|0.9647
82505654|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.13|-3.43||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.43|-11.13|0.0002
82505655|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.01|-6.97||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.97|-15.01|< 0.0001
82505656|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.59|-4.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.64|-12.59|< 0.0001
82505657|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|||<|0.0001|TWO_SIDED|95.0|-17.79|-9.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.50|-17.79|< 0.0001
82505658|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-12.69|-4.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.70|-12.69|< 0.0001
82505659|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.279|TWO_SIDED|95.0|-1.63|5.62||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||5.62|-1.63|0.2790
82505660|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3772|TWO_SIDED|95.0|-5.53|2.1||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.10|-5.53|0.3772
82505661|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.7302|TWO_SIDED|95.0|-3.11|4.43||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.43|-3.11|0.7302
82505662|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0302|TWO_SIDED|95.0|-8.31|-0.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.42|-8.31|0.0302
82505663|NCT00362115|164703169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.7644|TWO_SIDED|95.0|-3.22|4.38||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.38|-3.22|0.7644
82505664|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.4||||0.0001|TWO_SIDED|95.0|-12.7|-4.19||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.19|-12.70|0.0001
82505665|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.19|-9.24||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.24|-18.19|< 0.0001
82505666|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|||<|0.0001|TWO_SIDED|95.0|-16.66|-7.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.80|-16.66|< 0.0001
82505667|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-22.51|-13.35||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-13.35|-22.51|< 0.0001
82505668|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.21|-9.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.25|-18.21|< 0.0001
82505669|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.6905|TWO_SIDED|95.0|-3.26|4.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.91|-3.26|0.6905
82505670|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.0433|TWO_SIDED|95.0|-8.76|-0.13||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.13|-8.76|0.0433
82505671|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.1736|TWO_SIDED|95.0|-7.22|1.31||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.31|-7.22|0.1736
82505672|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7||||0.0001|TWO_SIDED|95.0|-13.08|-4.23||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.23|-13.08|0.0001
82505673|NCT00362115|164703170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.0429|TWO_SIDED|95.0|-8.77|-0.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANOVA|||||-0.14|-8.77|0.0429
82505674|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0009|TWO_SIDED|95.0|-7.77|-2.04||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-7.77|0.0009
82505675|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|||<|0.0001|TWO_SIDED|95.0|-11.33|-5.32||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.32|-11.33|< 0.0001
82505676|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.63|-5.67||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.67|-11.63|< 0.0001
82505677|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-14.34|-8.18||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.18|-14.34|< 0.0001
82505678|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|||<|0.0001|TWO_SIDED|95.0|-12.37|-6.36||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.36|-12.37|< 0.0001
82505679|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.2068|TWO_SIDED|95.0|-0.98|4.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.50|-0.98|0.2068
82505680|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.2622|TWO_SIDED|95.0|-4.56|1.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.25|-4.56|0.2622
82505681|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.173|TWO_SIDED|95.0|-4.85|0.88||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.88|-4.85|0.1730
82505682|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.0025|TWO_SIDED|95.0|-7.56|-1.62||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.62|-7.56|0.0025
82505683|NCT00362115|164703171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.0681|TWO_SIDED|95.0|-5.6|0.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.20|-5.60|0.0681
82505684|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.0004|TWO_SIDED|95.0|-13.28|-3.87||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.87|-13.28|0.0004
82505685|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.26|-7.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.42|-17.26|< 0.0001
82564033|NCT04791917|164837359|SUPERIORITY|||||||0.24|||||||ANCOVA|F(1,41) = 1.41, partial eta squared = .03||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Omax for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.24
82378349|NCT00535405|164465081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-17.5|-12.0||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-12.0|-17.5|<0.001
82505686|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.51|-6.78||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.78|-16.51|< 0.0001
82505687|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.38|-9.25||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.25|-19.38|< 0.0001
82505688|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.53|-7.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.70|-17.53|< 0.0001
82505689|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.1479|TWO_SIDED|95.0|-1.17|7.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||7.72|-1.17|0.1479
82505690|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.8382|TWO_SIDED|95.0|-5.16|4.19||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.19|-5.16|0.8382
82505691|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9317|TWO_SIDED|95.0|-4.42|4.82||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.82|-4.42|0.9317
82505692|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.3169|TWO_SIDED|95.0|-7.29|2.37||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.37|-7.29|0.3169
82505693|NCT00362115|164703172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.7488|TWO_SIDED|95.0|-5.44|3.91||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.91|-5.44|0.7488
82505694|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.0001|TWO_SIDED|95.0|-9.98|-3.4||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.40|-9.98|< 0.0001
82505695|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-12.76|-5.86||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.86|-12.76|< 0.0001
82505696|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.05|-5.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.22|-12.05|< 0.0001
82505697|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||<|0.0001|TWO_SIDED|95.0|-13.92|-6.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.79|-13.92|< 0.0001
82505698|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||<|0.0001|TWO_SIDED|95.0|-13.11|-6.2||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.20|-13.11|< 0.0001
82505699|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.4188|TWO_SIDED|95.0|-1.83|4.4||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||4.40|-1.83|0.4188
82505700|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.4255|TWO_SIDED|95.0|-4.62|1.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.95|-4.62|0.4255
82505701|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.6869|TWO_SIDED|95.0|-3.91|2.58||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.58|-3.91|0.6869
82505702|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1678|TWO_SIDED|95.0|-5.77|1.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.01|-5.77|0.1678
82505703|NCT00362115|164703173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3132|TWO_SIDED|95.0|-4.96|1.6||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.60|-4.96|0.3132
82505704|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0||||0.0005|TWO_SIDED|95.0|-12.48|-3.52||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.52|-12.48|0.0005
82505705|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|||<|0.0001|TWO_SIDED|95.0|-15.24|-5.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.93|-15.24|< 0.0001
82505706|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.7|-5.44||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.44|-14.70|< 0.0001
82505707|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|||<|0.0001|TWO_SIDED|95.0|-17.95|-8.42||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.42|-17.95|< 0.0001
82505708|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|||<|0.0001|TWO_SIDED|95.0|-16.74|-7.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.48|-16.74|< 0.0001
82505709|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.8103|TWO_SIDED|95.0|-4.79|3.75||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.75|-4.79|0.8103
82505710|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1702|TWO_SIDED|95.0|-7.57|1.34||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.34|-7.57|0.1702
82505711|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2504|TWO_SIDED|95.0|-7.02|1.84||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.84|-7.02|0.2504
82378350|NCT00535405|164465081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-10.3|-4.8||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-4.8|-10.3|<0.001
82505712|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.0144|TWO_SIDED|95.0|-10.28|-1.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.14|-10.28|0.0144
82505713|NCT00362115|164703174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.0402|TWO_SIDED|95.0|-9.06|-0.21||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.21|-9.06|0.0402
82505714|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2||||0.0014|TWO_SIDED|95.0|-8.41|-2.04||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-8.41|0.0014
82505715|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||<|0.0001|TWO_SIDED|95.0|-10.82|-4.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.22|-10.82|< 0.0001
82505716|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2|||<|0.0001|TWO_SIDED|95.0|-11.51|-4.93||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.93|-11.51|< 0.0001
82505717|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|||<|0.0001|TWO_SIDED|95.0|-12.49|-5.72||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.72|-12.49|< 0.0001
82505718|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|||<|0.0001|TWO_SIDED|95.0|-10.87|-4.3||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.30|-10.87|< 0.0001
82505719|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.5519|TWO_SIDED|95.0|-2.11|3.95||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.95|-2.11|0.5519
82505720|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3938|TWO_SIDED|95.0|-4.54|1.79||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.79|-4.54|0.3938
82505721|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1949|TWO_SIDED|95.0|-5.21|1.07||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.07|-5.21|0.1949
82505722|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0732|TWO_SIDED|95.0|-6.21|0.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.28|-6.21|0.0732
82505723|NCT00362115|164703175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3669|TWO_SIDED|95.0|-4.59|1.7||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.70|-4.59|0.3669
82505724|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2||||0.0019|TWO_SIDED|95.0|-14.94|-3.41||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.41|-14.94|0.0019
82505725|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.0008|TWO_SIDED|95.0|-16.15|-4.26||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.26|-16.15|0.0008
82505726|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9||||0.004|TWO_SIDED|95.0|-14.88|-2.85||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.85|-14.88|0.0040
82505727|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6||||0.0001|TWO_SIDED|95.0|-18.96|-6.22||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.22|-18.96|0.0001
82505728|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.0004|TWO_SIDED|95.0|-16.85|-4.89||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.89|-16.85|0.0004
82564034|NCT04791917|164837360|SUPERIORITY|||||||0.97|||||||ANCOVA|F(1,41) = .001, partial eta squared = .00||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Essential Value for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.97
82378351|NCT00535405|164465081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-11.0|-5.5||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANCOVA|ANCOVA mixed model with fixed effects for treatment, baseline LDL-C, study week, treatment by study week interaction, and a random subject effect.||||-5.5|-11.0|<0.001
82564035|NCT04791917|164837360|SUPERIORITY|||||||0.03|||||||ANCOVA|F(1,41) = 4.86, partial eta squared = .11||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Essential Value for cannabis including baseline urge to consume cannabis and CUDIT score as covariates. Here we report the results of the analysis of the Time X Group interaction.||||.03
82505729|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.3499|TWO_SIDED|95.0|-8.39|2.98||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.98|-8.39|0.3499
82505730|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.2115|TWO_SIDED|95.0|-9.61|2.14||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.14|-9.61|0.2115
82505731|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.4279|TWO_SIDED|95.0|-8.34|3.54||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||3.54|-8.34|0.4279
82505732|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0566|TWO_SIDED|95.0|-12.41|0.17||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.17|-12.41|0.0566
82505733|NCT00362115|164703176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1435|TWO_SIDED|95.0|-10.3|1.5||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.50|-10.30|0.1435
82505734|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.1162|TWO_SIDED|95.0|-6.16|0.68||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.68|-6.16|0.1162
82505735|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.2494|TWO_SIDED|95.0|-5.69|1.48||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.48|-5.69|0.2494
82505736|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.4247|TWO_SIDED|95.0|-5.01|2.12||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.12|-5.01|0.4247
82505737|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.3007|TWO_SIDED|95.0|-5.79|1.8||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.80|-5.79|0.3007
82505738|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.1195|TWO_SIDED|95.0|-6.67|0.77||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||0.77|-6.67|0.1195
82505739|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.2032|TWO_SIDED|95.0|-5.76|1.23||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.23|-5.76|0.2032
82505740|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3787|TWO_SIDED|95.0|-5.27|2.01||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.01|-5.27|0.3787
82505741|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.5967|TWO_SIDED|95.0|-4.59|2.64||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.64|-4.59|0.5967
82505742|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.4345|TWO_SIDED|95.0|-5.36|2.31||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||2.31|-5.36|0.4345
82505743|NCT00362115|164703177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.1954|TWO_SIDED|95.0|-6.24|1.28||P-value from analysis of covariance with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||1.28|-6.24|0.1954
82505744|NCT03965962|164703178|NON_INFERIORITY|The two-sided 95 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control group (Group 2) was greater than (\>) -5% at Day 28.|Difference in Percentage|-0.42|||||TWO_SIDED|95.0|-2.33|4.35||||||||4.35|-2.33|
82505745|NCT03965962|164703178|NON_INFERIORITY|The two-sided 95 % CI was calculated based on the Wilson score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control group (Group 3) was \> -5% at Day 28.|Difference in Percentage|0.86|||||TWO_SIDED|95.0|-1.32|6.5||||||||6.50|-1.32|
82564036|NCT04791917|164837361|SUPERIORITY|||||||0.04|||||||ANCOVA|F(1,42) = 4.66, partial eta squared = .10||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the Sex X Time X Group interaction.||||.04
82564037|NCT04791917|164837361|SUPERIORITY||Slope|0.1||||0.26|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for men in the DOMS group.||||.26
82564038|NCT04791917|164837361|SUPERIORITY||Slope|-0.09||||0.22|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for women in the DOMS group.||||.22
82505746|NCT00878709|164703190|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.008|TWO_SIDED|95.0|0.49|0.9|||Log Rank|The Log-rank test is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Invasive disease-free survival (iDFS) in neratinib arm compared to placebo arm.||0.90|0.49|0.008
82505747|NCT00878709|164703192|SUPERIORITY||Hazard Ratio (HR)|0.952||||0.6914|TWO_SIDED|95.0|0.747|1.212|||Log Rank|||The 2-sided P-value was based on stratified log-rank test (stratification factors: prior Trastuzumab (concurrent or sequential), nodal status (\<=3 or \>=4) and ER/PgR status (positive or negative). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.212|0.747|0.6914
82505748|NCT00878709|164703193|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.45|0.83|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Disease-free survival including ductal carcinoma in situ (DFS-DCIS) in neratinib arm compared to placebo arm.||0.83|0.45|
82505749|NCT00878709|164703195|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.05|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Distant disease free survival (DDFS) in neratinib arm compared to placebo arm.||1.05|0.52|
82505750|NCT00878709|164703197|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.51|1.04|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Time to distant recurrence (TTDR) in neratinib arm compared to placebo arm.||1.04|0.51|
82505751|NCT00878709|164703201|OTHER||Hazard Ratio (HR)|0.73||||0.008|TWO_SIDED|95.0|0.57|0.92||The Log-rank test is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Log Rank||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|Invasive disease-free survival (iDFS) in neratinib arm compared to placebo arm.||0.92|0.57|0.008
82505752|NCT00878709|164703203|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.56|0.89|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||0.89|0.56|
82505753|NCT00878709|164703204|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||1.01|0.6|
82505754|NCT00878709|164703205|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.6|1.03|||||The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by prior trastuzumab (concurrent or sequential), nodal status (\<= 3 or \>= 4) and ER/PgR status (positive or negative).|||1.03|0.60|
82505755|NCT03886220|164703216|SUPERIORITY||Odds Ratio (OR)|3.22||||0.035|TWO_SIDED|95.0|1.086|9.546||P-value for test of difference between elagolix dose group and placebo is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|Regression, Logistic|||||9.546|1.086|0.035
82505756|NCT00768300|164703217|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.66||P-value was based on a stratified log-rank test with strata of baseline presence of pulmonary hypertension and whether a surgical lung biopsy was performed with definite or probable usual interstitial pneumonia (UIP) based on core pathology review.|Log Rank||The hazard ratio was based on a stratified Cox proportional hazards model with strata of baseline presence of pulmonary hypertension and whether a surgical lung biopsy was performed with definite or probable UIP based on core pathology review.|||2.66|1.14|0.010
82505757|NCT00768300|164703219|SUPERIORITY_OR_OTHER||Point estimate|4.29||||0.086|TWO_SIDED|95.0|-0.805|9.376||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and 95% confidence interval (CI) were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||9.376|-0.805|0.086
82505758|NCT00768300|164703220|SUPERIORITY_OR_OTHER||Point estimate|2.85||||0.25|TWO_SIDED|95.0|-2.2|7.9||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and its 95% CI were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||7.90|-2.20|0.250
82505759|NCT00768300|164703221|SUPERIORITY_OR_OTHER||Point estimate|16.0||||0.15|TWO_SIDED|95.0|-5.0|37.0||P-value was calculated using the Van Elteren test with strata of baseline presence of PH and whether a SLB was performed with definite or probable UIP based on core pathology review.|Van Elteren test||The point estimate and 95% CI were based on the Hodges-Lehmann Estimate of treatment effect for percent change from baseline.|||37.00|-5.00|0.150
82505760|NCT00768300|164703224|SUPERIORITY_OR_OTHER||Point estimate|0.5||||0.793|TWO_SIDED|95.0|0.0|1.0||The p-value was based on a Wilcoxon rank sum test stratified by baseline pulmonary hypertension (Yes/No) and surgical lung biopsy was performed with definite or probable UIP based on core pathology review (Yes/No).|Wilcoxon (Mann-Whitney)||The point estimate and 95% confidence interval were based on the Hodges-Lehmann Estimate of treatment effect|||1.00|0.00|0.793
82505761|NCT00946712|164703257|OTHER||Hazard Ratio (HR)|0.93||||0.22|TWO_SIDED|95.0|0.83|1.04|||Log Rank|A stratified log rank test was used.||||1.04|0.83|0.22
82505762|NCT00946712|164703258|OTHER||Hazard Ratio (HR)|0.92||||0.4|TWO_SIDED|95.0|0.75|1.12|||Log Rank|A stratified log rank test was used.||||1.12|0.75|0.40
82505763|NCT00946712|164703259|OTHER||Hazard Ratio (HR)|0.81||||0.054|TWO_SIDED|95.0|0.66|1.0|||Log Rank|A stratified log rank test was used.||||1.00|0.66|0.054
82505764|NCT00946712|164703261|OTHER||Hazard Ratio (HR)|0.99||||0.83|TWO_SIDED|95.0|0.88|1.1|||Log Rank|A stratified log rank test was used.||||1.10|0.88|0.83
82505765|NCT00946712|164703263|OTHER|||||||0.48|||||||Cochran-Mantel-Haenszel|A stratified Cochran-Mantel-Haenszel test was conducted.||||||0.48
82505766|NCT00946712|164703264|OTHER|||||||0.06|||||||Cochran-Mantel-Haenszel|A stratified Cochran-Mantel-Haenszel test was conducted.||||||0.060
82505767|NCT04665050|164703266|OTHER|Estimated difference and confidence interval (CI) are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7|||||V116 minus PNEUMOVAX™23|Injection Site Erythema||12.7|-12.7|
82505768|NCT04665050|164703266|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|-11.8|||||TWO_SIDED|95.0|-30.0|7.3|||||V116 minus PNEUMOVAX™23|Injection Site Pain||7.3|-30.0|
82505769|NCT04665050|164703266|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||V116 minus PNEUMOVAX™23|Injection Site Swelling||14.1|-14.1|
82505770|NCT04665050|164703267|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|3.9|||||TWO_SIDED|95.0|-9.4|17.5|||||V116 minus PNEUMOVAX™23|Fatigue||17.5|-9.4|
82505771|NCT04665050|164703267|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-9.9|9.9|||||V116 minus PNEUMOVAX™23|Arthralgia||9.9|-9.9|
82505772|NCT04665050|164703267|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|-2.0|||||TWO_SIDED|95.0|-17.5|13.6|||||V116 minus PNEUMOVAX™23|Myalgia||13.6|-17.5|
82505773|NCT04665050|164703267|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7|||||V116 minus PNEUMOVAX™23|Headache||12.7|-12.7|
82505774|NCT04665050|164703268|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in percentage|0.0|||||TWO_SIDED|95.0|-7.1|7.1|||||V116 minus PNEUMOVAX™23|||7.1|-7.1|
82505775|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.07|2.4|||||V116/PNEUMOVAX™23|Serotype 3||2.40|1.07|
82505776|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.21|||||TWO_SIDED|95.0|0.69|2.11|||||V116/PNEUMOVAX™23|Serotype 7F||2.11|0.69|
82505777|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.0|||||TWO_SIDED|95.0|1.24|3.24|||||V116/PNEUMOVAX™23|Serotype 19A||3.24|1.24|
82505778|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.92|||||TWO_SIDED|95.0|1.04|3.57|||||V116/PNEUMOVAX™23|Serotype 22F||3.57|1.04|
82505779|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.71|1.86|||||V116/PNEUMOVAX™23|Serotype 33F||1.86|0.71|
82505780|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.78|||||TWO_SIDED|95.0|1.24|2.58|||||V116/PNEUMOVAX™23|Serotype 8||2.58|1.24|
82505781|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|1.89|||||TWO_SIDED|95.0|1.19|3.0|||||V116/PNEUMOVAX™23|Serotype 9N||3.00|1.19|
82505782|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.71|||||TWO_SIDED|95.0|1.47|5.0|||||V116/PNEUMOVAX™23|Serotype 10A||5.00|1.47|
82505783|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.43|||||TWO_SIDED|95.0|1.52|3.89|||||V116/PNEUMOVAX™23|Serotype 11A||3.89|1.52|
82505784|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.4|||||TWO_SIDED|95.0|1.2|4.83|||||V116/PNEUMOVAX™23|Serotype 12F||4.83|1.20|
82564039|NCT04791917|164837361|SUPERIORITY||Slope|-0.1||||0.27|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for men in the sham DOMS group.||||.27
82505785|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.57|||||TWO_SIDED|95.0|1.59|4.17|||||V116/PNEUMOVAX™23|Serotype 17F||4.17|1.59|
82505786|NCT04665050|164703269|OTHER|GMT ratio and 95% confidence interval CI are estimated from a cLDA model.|GMT Ratio|2.28|||||TWO_SIDED|95.0|1.46|3.56|||||V116/PNEUMOVAX™23|Serotype 20A||3.56|1.46|
82505787|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.54|||||TWO_SIDED|95.0|1.08|2.21|||||V116/PNEUMOVAX™23|Serotype 3||2.21|1.08|
82505788|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.21|||||TWO_SIDED|95.0|1.36|3.6|||||V116/PNEUMOVAX™23|Serotype 7F||3.60|1.36|
82505789|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.16|||||TWO_SIDED|95.0|1.45|3.23|||||V116/PNEUMOVAX™23|Serotype 19A||3.23|1.45|
82505790|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.33|||||TWO_SIDED|95.0|1.36|3.99|||||V116/PNEUMOVAX™23|Serotype 22F||3.99|1.36|
82505791|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.52|||||TWO_SIDED|95.0|0.97|2.37|||||V116/PNEUMOVAX™23|Serotype 33F||2.37|0.97|
82505792|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.88|||||TWO_SIDED|95.0|1.32|2.68|||||V116/PNEUMOVAX™23|Serotype 8||2.68|1.32|
82505793|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.37|||||TWO_SIDED|95.0|1.49|3.74|||||V116/PNEUMOVAX™23|Serotype 9N||3.74|1.49|
82505794|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.16|||||TWO_SIDED|95.0|1.28|3.65|||||V116/PNEUMOVAX™23|Serotype 10A||3.65|1.28|
82505795|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.92|||||TWO_SIDED|95.0|1.28|2.89|||||V116/PNEUMOVAX™23|Serotype 11A||2.89|1.28|
82505796|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.49|||||TWO_SIDED|95.0|1.94|6.27|||||V116/PNEUMOVAX™23|Serotype 12F||6.27|1.94|
82505797|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.88|||||TWO_SIDED|95.0|1.92|4.31|||||V116/PNEUMOVAX™23|Serotype 17F||4.31|1.92|
82505798|NCT04665050|164703270|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|2.05|||||TWO_SIDED|95.0|1.3|3.25|||||V116/PNEUMOVAX™23|Serotype 20A||3.25|1.30|
82505799|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|3.58|||||TWO_SIDED|95.0|1.86|6.88|||||V116/PNEUMOVAX™23|Serotype 6A||6.88|1.86|
82505800|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|6.23|||||TWO_SIDED|95.0|3.54|10.98|||||V116/PNEUMOVAX™23|Serotype 15A||10.98|3.54|
82505801|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|2.33|||||TWO_SIDED|95.0|1.23|4.39|||||V116/PNEUMOVAX™23|Serotype 15C||4.39|1.23|
82505802|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|10.06|||||TWO_SIDED|95.0|5.39|18.78|||||V116/PNEUMOVAX™23|Serotype 16F||18.78|5.39|
82505803|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|42.09|||||TWO_SIDED|95.0|19.67|90.03|||||V116/PNEUMOVAX™23|Serotype 23A||90.03|19.67|
82505804|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|12.37|||||TWO_SIDED|95.0|6.97|21.94|||||V116/PNEUMOVAX™23|Serotype 23B||21.94|6.97|
82505805|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|24.82|||||TWO_SIDED|95.0|11.65|52.86|||||V116/PNEUMOVAX™23|Serotype 24F||52.86|11.65|
82505806|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|25.66|||||TWO_SIDED|95.0|14.65|44.93|||||V116/PNEUMOVAX™23|Serotype 31||44.93|14.65|
82505807|NCT04665050|164703271|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|14.3|||||TWO_SIDED|95.0|8.72|23.47|||||V116/PNEUMOVAX™23|Serotype 35B||23.47|8.72|
82505808|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.0|||||TWO_SIDED|95.0|1.73|5.19|||||V116/PNEUMOVAX™23|Serotype 6A||5.19|1.73|
82505809|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.03|||||TWO_SIDED|95.0|4.61|13.98|||||V116/PNEUMOVAX™23|Serotype 15A||13.98|4.61|
82505810|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|3.14|||||TWO_SIDED|95.0|1.77|5.58|||||V116/PNEUMOVAX™23|Serotype 15C||5.58|1.77|
82505811|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|13.06|||||TWO_SIDED|95.0|8.45|20.19|||||V116/PNEUMOVAX™23|Serotype 16F||20.19|8.45|
82505812|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.55|||||TWO_SIDED|95.0|5.19|14.09|||||V116/PNEUMOVAX™23|Serotype 23A||14.09|5.19|
82505813|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|4.15|||||TWO_SIDED|95.0|2.72|6.36|||||V116/PNEUMOVAX™23|Serotype 23B||6.36|2.72|
82505814|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|28.68|||||TWO_SIDED|95.0|16.59|49.58|||||V116/PNEUMOVAX™23|Serotype 24F||49.58|16.59|
82505815|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|10.27|||||TWO_SIDED|95.0|6.71|15.73|||||V116/PNEUMOVAX™23|Serotype 31||15.73|6.71|
82505816|NCT04665050|164703272|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|15.95|||||TWO_SIDED|95.0|11.62|21.9|||||V116/PNEUMOVAX™23|Serotype 35B||21.90|11.62|
82505817|NCT03265249|164703298|SUPERIORITY||Median Difference (Final Values)|5.7||||0.8|TWO_SIDED|95.0|-17.5|29.0|||Mixed Models Analysis|||||29|-17.5|0.80
82505818|NCT00525174|164703344|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Regression, Logistic|||Logistic regression was performed comparing the proportions of patients in each treatment group who had no improvement or worsening in amblyopic eye visual acuity from baseline to 24 weeks (change from baseline \<= +4 letters for E-ETDRS testing).||||0.02
82505819|NCT00525174|164703345|NON_INFERIORITY_OR_EQUIVALENCE|The trial was designed as a non-inferiority study. The sample size was computed to be 170 subjects to have 90% power and a type I error rate of 5% for a noninferiority limit of 0.075 logarithm of minimum angle of resolution (logMAR), based on assumed standard deviation of 24-week visual acuity scores of 0.16 logMAR, a correlation between baseline and final acuities of 0.20, and 10% noncompletion of the study primary outcome examination.|Mean Difference (Net)|0.38|||||ONE_SIDED|95.0||0.76|||ANCOVA|The logMAR visual acuity scores were adjusted for baseline amblyopic eye acuity.||The trial was designed as a non-inferiority study. The sample size was computed to be 170 subjects to have 90% power and a type I error rate of 5% for a noninferiority limit of 0.075 logarithm of minimum angle of resolution (logMAR), based on assumed standard deviation of 24-week visual acuity scores of 0.16 logMAR, a correlation between baseline and final acuities of 0.20, and 10% noncompletion of the study primary outcome examination.||0.76||
82505820|NCT00525174|164703345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.09|TWO_SIDED|95.0|-0.06|0.83|||ANCOVA|The logMAR visual acuity scores were adjusted for baseline amblyopic eye acuity.||In addition to the test of non-inferiority, an efficacy test of Patching over Bangerter filters was also completed.||0.83|-0.06|0.09
82505821|NCT00525174|164703345|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Mixed Models Analysis|||Treatment group difference in rate of improvement was evaluated using a population averaged linear mixed model after performing an inverse transformation of time to obtain linearity.||||0.20
82505822|NCT00525174|164703345|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|||The relationship between the fellow eye blur from the Bangerter filter at baseline and amblyopic improvement at the 24-week outcome was evaluated with an ANCOVA model with acuity in the fellow eye being categorized as better than versus equal to or worse than acuity in the amblyopic eye.||||0.49
82505823|NCT00525174|164703345|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|||The association of fixation preference while the Bangerter filter was over the fellow eye at baseline (amblyopic eye, fellow eye, alternates) with 24-week amblyopic eye acuity was evaluated in an ANCOVA model.||||0.21
82505824|NCT00525174|164703347|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients in each treatment group with amblyopic eye visual acuity within 1 line of the fellow eye or better.||||0.27
82505825|NCT00525174|164703348|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients in each treatment group with amblyopic visual acuity 20/25 or better at 24 weeks.||||0.86
82505826|NCT00525174|164703348|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Cox|||The time to first achieve amblyopic eye visual acuity of 20/25 or better was evaluated using a Cox proportional hazard model.||||0.28
82505827|NCT00525174|164703349|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Regression, Logistic|||Logistic regression was used to compare the proportion of patients with 3 or more lines of amblyopic eye visual acuity improvement from baseline to 24 weeks.||||0.61
82505828|NCT00525174|164703352|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon rank-sum|||A Wilcoxon rank-sum test was used to evaluate change in Randot Preschool stereoacuity levels from baseline to 24 weeks by treatment group.||||0.90
82505829|NCT00525174|164703353|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Wilcoxon rank-sum|||A Wilcoxon rank-sum test was used to evaluate change in Randot Preschool stereoacuity levels from baseline to 24 weeks by treatment group.||||0.88
82505830|NCT00525174|164703355|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANCOVA|||A treatment group difference in the fellow eye visual acuity at 24 weeks was evaluated in an ANCOVA model adjusted for the baseline fellow eye acuity.||||0.07
82505831|NCT00525174|164703355|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Fisher Exact|||The Fisher exact test was used to compare the proportion of subjects in each treatment group who tested 2 or more logMAR lines worse in the fellow eye at 24 weeks compared with baseline.||||0.21
82505832|NCT00525174|164703356|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of impact of treatment at 6 weeks.||||0.03
82505833|NCT00525174|164703357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of impact of treatment at 24 weeks.||||<0.001
82564040|NCT04791917|164837361|SUPERIORITY||Slope|0.06||||0.49|TWO_SIDED||||||ANCOVA|||2 (Sex: men vs. women) X 2 (Time: Pre- vs. post-exercise) x 2 (Group: DOMS vs. sham DOMS) mixed general linear model on Intensity of alcohol demand including baseline urge to consume alcohol and AUDIT score as covariates. Here we report the results of the analysis of the effect of Time on Intensity for women in the sham DOMS group.||||.49
82626068|NCT01602549|164967840|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.327|||||TWO_SIDED|95.0|-17.567|6.914|||||Day 8: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit, and Baseline gastric half emptying time as fixed effects, and participant as a random effect.|GSK962040 50 mg Vs Placebo Day 8||6.914|-17.567|
82505834|NCT00525174|164703358|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the adverse effects subscale at 6 weeks.||||0.90
82505835|NCT00525174|164703359|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the adverse effects subscale at 24 weeks.||||0.01
82505836|NCT00525174|164703360|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the compliance subscale at 6 weeks.||||0.12
82505837|NCT00525174|164703361|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of the compliance subscale at 24 weeks.||||0.001
82505838|NCT00525174|164703362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of social stigma at 6 weeks.||||<0.001
82505839|NCT00525174|164703363|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||A t-test was used to evaluate treatment group difference of social stigma at 24 weeks.||||<0.001
82505840|NCT04254978|164703388|SUPERIORITY||||||<|0.0001|||||||Exact binomial distribution|||Comparison of the true response rate of bomedemstat to a fixed efficacy target of 5%: Null hypothesis (H0): p ≤ 0.05 versus alternate hypothesis (H1): p \> 0.05||||<.0001
82505841|NCT02515942|164703391|SUPERIORITY|Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.|Treatment Effect|-0.35||||0.0636|TWO_SIDED|80.0|-0.64|-0.06|||ANCOVA|||||-0.06|-0.64|0.0636
82505842|NCT02515942|164703391|SUPERIORITY||Treatment Effect|-0.29||||0.1019|TWO_SIDED|80.0|-0.59|0.0|||ANCOVA|||Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.||0.00|-0.59|0.1019
82505843|NCT02515942|164703391|SUPERIORITY||Treatment Effect|0.06||||0.5987|TWO_SIDED|80.0|-0.24|0.35|||ANCOVA|||Least squares mean for change from baseline from ANCOVA model with treatment, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal), baseline lesion size as covariates after multiple imputations.||0.35|-0.24|0.5987
82505844|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.0||||0.5029|TWO_SIDED|80.0|-0.11|0.11|||Mixed Models Analysis|||Change from baseline at Day 85||0.11|-0.11|0.5029
82505845|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.04||||0.682|TWO_SIDED|80.0|-0.07|0.14|||Mixed Models Analysis|||Change from baseline at Day 85||0.14|-0.07|0.6820
82505846|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.04||||0.6826|TWO_SIDED|80.0|-0.07|0.14|||Mixed Models Analysis|||Change from baseline at Day 85||0.14|-0.07|0.6826
82505847|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.12||||0.1545|TWO_SIDED|80.0|-0.28|0.03|||Mixed Models Analysis|||Change from baseline at Day 169||0.03|-0.28|0.1545
82505848|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.13||||0.1398|TWO_SIDED|80.0|-0.29|0.02|||Mixed Models Analysis|||Change from baseline at Day 169||0.02|-0.29|0.1398
82505849|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.01||||0.4717|TWO_SIDED|80.0|-0.16|0.14|||Mixed Models Analysis|||Change from baseline at Day 169||0.14|-0.16|0.4717
82505850|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.25||||0.053|TWO_SIDED|80.0|-0.45|-0.05|||Mixed Models Analysis|||Change from baseline at Day 253||-0.05|-0.45|0.0530
82505851|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.17||||0.1386|TWO_SIDED|80.0|-0.37|0.03|||Mixed Models Analysis|||Change from baseline at Day 253||0.03|-0.37|0.1386
82505852|NCT02515942|164703392|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.08||||0.7087|TWO_SIDED|80.0|-0.11|0.27|||Mixed Models Analysis|||Change from baseline at Day 253||0.27|-0.11|0.7087
82505853|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.72||||0.9243|TWO_SIDED|80.0|-5.15|-0.29|||Mixed Models Analysis|||Change from baseline at Day 2||-0.29|-5.15|0.9243
82505854|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.51||||0.3929|TWO_SIDED|80.0|-1.89|2.91|||Mixed Models Analysis|||Change from baseline at Day 2||2.91|-1.89|0.3929
82505855|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.23||||0.0418|TWO_SIDED|80.0|0.85|5.61|||Mixed Models Analysis|||Change from baseline at Day 2||5.61|0.85|0.0418
82505856|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.32||||0.5632|TWO_SIDED|80.0|-2.91|2.27|||Mixed Models Analysis|||Change from baseline at Day 8||2.27|-2.91|0.5632
82505857|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.29||||0.2575|TWO_SIDED|80.0|-1.25|3.83|||Mixed Models Analysis|||Change from baseline at Day 8||3.83|-1.25|0.2575
82505858|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.61||||0.2058|TWO_SIDED|80.0|-0.91|4.12|||Mixed Models Analysis|||Change from baseline at Day 8||4.12|-0.91|0.2058
82505859|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.94||||0.8392|TWO_SIDED|80.0|-4.44|0.57|||Mixed Models Analysis|||Change from baseline at Day 15||0.57|-4.44|0.8392
82505860|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effecgt|-0.12||||0.5255|TWO_SIDED|80.0|-2.59|2.35|||Mixed Models Analysis|||Change from baseline at Day 15||2.35|-2.59|0.5255
82505861|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.81||||0.1685|TWO_SIDED|80.0|-0.61|4.24|||Mixed Models Analysis|||Change from baseline at Day 15||4.24|-0.61|0.1685
82505862|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment|-2.01||||0.8544|TWO_SIDED|80.0|-4.45|0.43|||Mixed Models Analysis|||Change from baseline at Day 29||0.43|-4.45|0.8544
82505863|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.03||||0.1402|TWO_SIDED|80.0|-0.38|4.44|||Mixed Models Analysis|||Change from baseline at Day 29||4.44|-0.38|0.1402
82626069|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.16||||||95.0|-3.9|-0.41|||||Day 1; Part I: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part I-GSK962040 50 mg Vs Placebo Day 1||-0.41|-3.90|
82626070|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.63|||||TWO_SIDED|95.0|-5.41|-1.85|||||Day 8; Part I: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part I-GSK962040 50 mg Vs Placebo Day 8||-1.85|-5.41|
82505864|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|4.03||||0.015|TWO_SIDED|80.0|1.67|6.4|||Mixed Models Analysis|||Change from baseline at Day 29||6.40|1.67|0.0150
82505865|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.14||||0.4682|TWO_SIDED|80.0|-2.11|2.39|||Mixed Models Analysis|||Change from baseline at Day 30||2.39|-2.11|0.4682
82505866|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.38||||0.4125|TWO_SIDED|80.0|-1.84|2.6|||Mixed Models Analysis|||Change from baseline at Day 30||2.60|-1.84|0.4125
82505867|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.24||||0.4431|TWO_SIDED|80.0|-1.94|2.42|||Mixed Models Analysis|||Change from baseline at Day 30||2.42|-1.94|0.4431
82505868|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.04||||0.6924|TWO_SIDED|80.0|-3.72|1.63|||Mixed Models Analysis|||Change from baseline at Day 57||1.63|-3.72|0.6924
82505869|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.61||||0.616|TWO_SIDED|80.0|-3.26|2.04|||Mixed Models Analysis|||Change from baseline at Day 57||2.04|-3.26|0.6160
82505870|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.44||||0.4149|TWO_SIDED|80.0|-2.18|3.06|||Mixed Models Analysis|||Change from baseline at Day 57||3.06|-2.18|0.4149
82505871|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.29||||0.2582|TWO_SIDED|80.0|-1.27|3.85|||Mixed Models Analysis|||Change from baseline at Day 85||3.85|-1.27|0.2582
82505872|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.81||||0.3402|TWO_SIDED|80.0|-1.72|3.34|||Mixed Models Analysis|||Change from baseline at Day 85||3.34|-1.72|0.3402
82505873|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.48||||0.5976|TWO_SIDED|80.0|-2.99|2.03|||Mixed Models Analysis|||Change from baseline at Day 85||2.03|-2.99|0.5976
82505874|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.5||||0.5916|TWO_SIDED|80.0|-3.3|2.29|||Mixed Models Analysis|||Change from baseline at Day 113||2.29|-3.30|0.5916
82505875|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.3||||0.5564|TWO_SIDED|80.0|-3.05|2.45|||Mixed Models Analysis|||Change from baseline at Day 113||2.45|-3.05|0.5564
82523316|NCT00297115|164742005|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213|STANDARD_ERROR_OF_MEAN|0.35||0.5028|TWO_SIDED|95.0|0.689|2.137||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|Cox proportional hazards regression||The statistical analysis is based on the ITT Analysis Set (n= 772 in the roflumilast group, n= 796 in the placebo group).|||2.137|0.689|0.5028
82523317|NCT00297115|164742006|SUPERIORITY_OR_OTHER||Mean Difference calculated as ratio|1.0593||||0.3627|TWO_SIDED|95.0|0.9356|1.1994||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|ANCOVA model including last observation carried forward (LOCF) method||||1.1994|0.9356|0.3627
82626071|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.29|||||TWO_SIDED|95.0|-4.65|0.07|||||Day 1; Part II: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part II- GSK962040 50 mg Vs Placebo Day 1||0.07|-4.65|
82505876|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.2||||0.4625|TWO_SIDED|80.0|-2.53|2.93|||Mixed Models Analysis|||Change from baseline at Day 113||2.93|-2.53|0.4625
82505877|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.94||||0.8221|TWO_SIDED|80.0|-4.64|0.76|||Mixed Models Analysis|||Change from baseline at Day 141||0.76|-4.64|0.8221
82505878|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.98||||0.3179|TWO_SIDED|80.0|-1.68|3.64|||Mixed Models Analysis|||Change from baseline at Day 141||3.64|-1.68|0.3179
82505879|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.92||||0.0773|TWO_SIDED|80.0|0.29|5.55|||Mixed Models Analysis|||Change from baseline at Day 141||5.55|0.29|0.0773
82505880|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.95||||0.6708|TWO_SIDED|80.0|-3.71|1.81|||Mixed Models Analysis|||Change from baseline at Day 169||1.81|-3.71|0.6708
82505881|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.99||||0.679|TWO_SIDED|80.0|-3.71|1.74|||Mixed Models Analysis|||Change from baseline at Day 169||1.74|-3.71|0.6790
82505882|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.04||||0.507|TWO_SIDED|80.0|-2.72|2.64|||Mixed Models Analysis|||Change from baseline at Day 169||2.64|-2.72|0.5070
82505883|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.3||||0.5487|TWO_SIDED|80.0|-3.44|2.84|||Mixed Models Analysis|||Change from baseline at Day 197||2.84|-3.44|0.5487
82505884|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.25||||0.6973|TWO_SIDED|80.0|-4.35|1.85|||Mixed Models Analysis|||Change from baseline at Day 197||1.85|-4.35|0.6973
82505885|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.95||||0.6548|TWO_SIDED|80.0|-4.0|2.11|||Mixed Models Analysis|||Change from baseline at Day 197||2.11|-4.00|0.6548
82505886|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.35||||0.5533|TWO_SIDED|80.0|-3.76|3.05|||Mixed Models Analysis|||Change from baseline at Day 225||3.05|-3.76|0.5533
82505887|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.11||||0.3358|TWO_SIDED|80.0|-2.25|4.46|||Mixed Models Analysis|||Change from baseline at Day 225||4.46|-2.25|0.3358
82505888|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.46||||0.285|TWO_SIDED|80.0|-1.85|4.77|||Mixed Models Analysis|||Change from baseline at Day 225||4.77|-1.85|0.2850
82505889|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.55||||0.5778|TWO_SIDED|80.0|-4.14|3.04|||Mixed Models Analysis|||Change from baseline at Day 253||3.04|-4.14|0.5778
82505890|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.3||||0.2018|TWO_SIDED|80.0|-1.24|5.85|||Mixed Models Analysis|||Change from baseline at Day 253||5.85|-1.24|0.2018
82505891|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.85||||0.1457|TWO_SIDED|80.0|-0.62|6.32|||Mixed Models Analysis|||Change from baseline at Day 253||6.32|-0.62|0.1457
82505892|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.56||||0.5758|TWO_SIDED|80.0|-4.29|3.18|||Mixed Models Analysis|||Change from baseline at Day 281||3.18|-4.29|0.5758
82505893|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.85||||0.3833|TWO_SIDED|80.0|-2.84|4.55|||Mixed Models Analysis|||Change from baseline at Day 281||4.55|-2.84|0.3833
82505894|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.41||||0.3083|TWO_SIDED|80.0|-2.21|5.02|||Mixed Models Analysis|||Change from baseline at Day 281||5.02|-2.21|0.3083
82505895|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.54||||0.7063|TWO_SIDED|80.0|-5.19|2.11|||Mixed Models Analysis|||Change from baseline at Day 309||2.11|-5.19|0.7063
82505896|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.14||||0.2227|TWO_SIDED|80.0|-1.46|5.74|||Mixed Models Analysis|||Change from baseline at Day 309||5.74|-1.46|0.2227
82505897|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.68||||0.0907|TWO_SIDED|80.0|0.15|7.21|||Mixed Models Analysis|||Change from baseline at Day 309||7.21|0.15|0.0907
82505898|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.17||||0.4799|TWO_SIDED|80.0|-4.23|4.57|||Mixed Models Analysis|||Change from baseline at Day 337||4.57|-4.23|0.4799
82505899|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.2||||0.5237|TWO_SIDED|80.0|-4.54|4.14|||Mixed Models Analysis|||Change from baseline at Day 337||4.14|-4.54|0.5237
82505900|NCT02515942|164703394|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.37||||0.5451|TWO_SIDED|80.0|-4.62|3.87|||Mixed Models Analysis|||Change from baseline at Day 337||3.87|-4.62|0.5451
82505901|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.15||||0.4609|TWO_SIDED|80.0|-1.79|2.09|||Mixed Models Analysis|||Change from baseline at Day 2||2.09|-1.79|0.4609
82505902|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.46||||0.3771|TWO_SIDED|80.0|-1.44|2.37|||Mixed Models Analysis|||Change from baseline at Day 2||2.37|-1.44|0.3771
82505903|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.32||||0.4161|TWO_SIDED|80.0|-1.6|2.24|||Mixed Models Analysis|||Change from baseline at Day 2||2.24|-1.60|0.4161
82505904|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.88||||0.9385|TWO_SIDED|80.0|-5.26|-0.49|||Mixed Models Analysis|||Change from baseline at Day 29||-0.49|-5.26|0.9385
82505905|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.4||||0.5862|TWO_SIDED|80.0|-2.76|1.96|||Mixed Models Analysis|||Change from baseline at Day 29||1.96|-2.76|0.5862
82505906|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.48||||0.0875|TWO_SIDED|80.0|0.14|4.82|||Mixed Models Analysis|||Change from baseline at Day 29||4.82|0.14|0.0875
82626072|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.46|||||TWO_SIDED|95.0|-4.85|-0.07|||||Day 8; Part II: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part II- GSK962040 50 mg Vs Placebo Day 8||-0.07|-4.85|
82626073|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.38|||||TWO_SIDED|95.0|-10.28|-0.49|||||Day 8; Part III: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part III -GSK962040 50 mg Vs Placebo Day 8||-0.49|-10.28|
82626074|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.56|||||TWO_SIDED|95.0|-1.65|0.54|||||Day 1; Part IV: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part IV-GSK962040 50 mg Vs Placebo Day 1||0.54|-1.65|
82626075|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.9|||||TWO_SIDED|95.0|-2.02|0.22|||||Day 8; Part IV: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part IV-GSK962040 50 mg Vs Placebo Day 8||0.22|-2.02|
82626076|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.69|||||TWO_SIDED|95.0|-13.77|0.39|||||Day 1; Total: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Total- GSK962040 50 mg Vs Placebo Day 1||0.39|-13.77|
82626077|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-12.5|||||TWO_SIDED|95.0|-19.67|-5.29|||||Day 8; Total: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Total- GSK962040 50 mg Vs Placebo Day 8||-5.29|-19.67|
82626078|NCT01602549|164967841|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-1.7|||||TWO_SIDED|95.0|-6.53|3.13|||||Day 1; Part III: The AMs and differences (GSK 962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit interaction, and Baseline MDS-UPDR score as fixed effects, and participant as a random effect.|Part III- GSK962040 50 mg Vs Placebo Day 1||3.13|-6.53|
82626079|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.14|||||TWO_SIDED|95.0|-9.07|2.78|||||Day 1; Pre-dose: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|Pre dose: GSK962040 50 mg Vs Placebo Day 1||2.78|-9.07|
82626080|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.18|||||TWO_SIDED|95.0|-9.11|2.75|||||Day 1; 120 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 1||2.75|-9.11|
82626081|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.66|||||TWO_SIDED|95.0|-9.59|2.27|||||Day 1; 180 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 1:||2.27|-9.59|
82626082|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.15|||||TWO_SIDED|95.0|-10.07|1.76|||||Day 1; 240 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 1||1.76|-10.07|
82626083|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.8|||||TWO_SIDED|95.0|-12.79|-0.81|||||Day 8; Pre-dose: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|Pre dose: GSK962040 50 mg Vs Placebo Day 8||-0.81|-12.79|
82626084|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.97|||||TWO_SIDED|95.0|-9.96|2.03|||||Day 8; 120 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 8||2.03|-9.96|
82626085|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-5.29|||||TWO_SIDED|95.0|-11.29|0.71|||||Day 8; 180 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 8||0.71|-11.29|
82505907|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.53||||0.4059|TWO_SIDED|80.0|-2.32|3.37|||Mixed Models Analysis|||Change from baseline at Day 57||3.37|-2.32|0.4059
82505908|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.24||||0.286|TWO_SIDED|80.0|-1.58|4.05|||Mixed Models Analysis|||Change from baseline at Day 57||4.05|-1.58|0.2860
82505909|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.71||||0.3727|TWO_SIDED|80.0|-2.1|3.52|||Mixed Models Analysis|||Change from baseline at Day 57||3.52|-2.10|0.3727
82505910|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.91||||0.336|TWO_SIDED|80.0|-1.85|3.66|||Mixed Models Analysis|||Change from baseline at Day 85||3.66|-1.85|0.3360
82505911|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.95||||0.0316|TWO_SIDED|80.0|1.24|6.66|||Mixed Models Analysis|||Change from baseline at Day 85||6.66|1.24|0.0316
82505912|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.04||||0.0762|TWO_SIDED|80.0|0.32|5.76|||Mixed Models Analysis|||Change from baseline at Day 85||5.76|0.32|0.0762
82505913|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.68||||0.0544|TWO_SIDED|80.0|0.75|6.61|||Mixed Models Analysis|||Change from baseline at Day 113||6.61|0.75|0.0544
82505914|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.91||||0.1955|TWO_SIDED|80.0|-0.95|4.77|||Mixed Models Analysis|||Change from baseline at Day 113||4.77|-0.95|0.1955
82505915|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.77||||0.7844|TWO_SIDED|80.0|-4.65|1.12|||Mixed Models Analysis|||Change from baseline at Day 113||1.12|-4.65|0.7844
82505916|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.49||||0.2973|TWO_SIDED|80.0|-2.11|5.08|||Mixed Models Analysis|||Change from baseline at Day 141||5.08|-2.11|0.2973
82505917|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.33||||0.3127|TWO_SIDED|80.0|-2.18|4.84|||Mixed Models Analysis|||Change from baseline at Day 141||4.84|-2.18|0.3127
82626086|NCT01602549|164967842|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-8.9|||||TWO_SIDED|95.0|-14.88|-2.91|||||Day 8; 240 min PD: The AMs and differences (GSK962040 minus Placebo) were estimated using a mixed model fitting treatment, visit, treatment\*visit\*time point interaction, and Baseline UPDRS-3 score as fixed effects, and participant as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 8||-2.91|-14.88|
82626087|NCT01602549|164967843|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.31|||||TWO_SIDED|95.0|-3.71|-0.9|||||OFF: Treatment Period: The AMs and differences (GSK962040 minus Placebo) were estimated using an analysis of covariance (ANCOVA) model fitting treatment and Baseline amount of hours spent ON/OFF as main effects.|OFF: Treatment Period||-0.90|-3.71|
82626088|NCT01602549|164967843|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|1.88|||||TWO_SIDED|95.0|0.28|3.48|||||ON: Treatment Period: The AMs and differences (GSK962040 minus Placebo) were estimated using an analysis of covariance (ANCOVA) model fitting treatment and Baseline amount of hours spent ON/OFF as main effects.|ON: Treatment Period||3.48|0.28|
82626089|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.83|||||TWO_SIDED|95.0|-21.79|16.13|||||Day 1, pre-dose: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Pre-dose: Day GSK962040 50 mg Vs Placebo Day 1||16.13|-21.79|
82378352|NCT00535405|164465082|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|12.62|STANDARD_ERROR_OF_MEAN|3.23|<|0.001||95.0|7.64|20.83||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|"Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.~Generalized Estimating Equations (GEE)"|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||20.83|7.64|<0.001
82564041|NCT01755598|164837395|OTHER|Vaccine efficacy (VE) has been estimated from a Cox proportional hazard regression model (VE=1-hazard ratio) and 90% confidence intervals (CIs) and Wald p-value has been derived. The lower limit of the 90% two-sided CI for the VE against first occurrence of Definite pulmonary TB disease not associated with HIV-infection, meeting the case definition 1, is to be above 0%.|Vaccine efficacy rate|49.7||||0.043|TWO_SIDED|90.0|12.1|71.2|||Regression, Cox|||To evaluate the protective efficacy of two doses of the M72/AS01E candidate vaccine against Definite pulmonary TB disease not associated with HIV-infection, meeting the case definition 1, as compared to placebo.||71.2|12.1|0.0430
82626090|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.58|||||TWO_SIDED|95.0|-18.39|19.56|||||Day 1, 0 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|0 min PD: GSK962040 50 mg Vs Placebo Day 1||19.56|-18.39|
82626091|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|1.84|||||TWO_SIDED|95.0|-17.18|20.86|||||Day 1, 30 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Day 1, 30 min PD||20.86|-17.18|
82626092|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.28|||||TWO_SIDED|95.0|-18.72|19.28|||||Day 1, 60 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|60 min PD: GSK962040 50 mg Vs Placebo Day 1||19.28|-18.72|
82626093|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.38|||||TWO_SIDED|95.0|-22.35|15.58|||||Day 1, 90 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|90 min PD: GSK962040 50 mg Vs Placebo Day 1||15.58|-22.35|
82626094|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-4.18|||||TWO_SIDED|95.0|-23.13|14.76|||||Day 1, 120 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 1||14.76|-23.13|
82626095|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-6.39|||||TWO_SIDED|95.0|-25.36|12.58|||||Day 1, 180 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 1||12.58|-25.36|
82626096|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.77|||||TWO_SIDED|95.0|-18.2|19.75|||||Day 1, 240 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 1||19.75|-18.20|
82626097|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|0.51|||||TWO_SIDED|95.0|-18.51|19.52|||||Day 8, pre-dose: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|Pre-dose: GSK962040 50 mg Vs Placebo Day 8||19.52|-18.51|
82626098|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|3.32|||||TWO_SIDED|95.0|-15.7|22.33|||||Day 8, 0 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|0 min PD: GSK962040 50 mg Vs Placebo Day 8||22.33|-15.70|
82626099|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-2.94|||||TWO_SIDED|95.0|-21.97|16.08|||||Day 8, 30 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|30 min PD: GSK962040 50 mg Vs Placebo Day 8||16.08|-21.97|
82626100|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-3.12|||||TWO_SIDED|95.0|-22.13|15.88|||||Day 8, 60 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|60 min PD: GSK962040 50 mg Vs Placebo Day 8||15.88|-22.13|
82626101|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-1.38|||||TWO_SIDED|95.0|-20.4|17.63|||||Day 8, 90 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|90 min PD: GSK962040 50 mg Vs Placebo Day 8||17.63|-20.40|
82626102|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|-0.71|||||TWO_SIDED|95.0|-19.7|18.28|||||Day 8, 120 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|120 min PD: GSK962040 50 mg Vs Placebo Day 8||18.28|-19.70|
82626103|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|3.02|||||TWO_SIDED|95.0|-15.98|22.02|||||Day 8, 180 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|180 min PD: GSK962040 50 mg Vs Placebo Day 8||22.02|-15.98|
82505918|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.16||||0.5227|TWO_SIDED|80.0|-3.67|3.36|||Mixed Models Analysis|||Change from baseline at Day 141||3.36|-3.67|0.5227
82505919|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.63||||0.7643|TWO_SIDED|80.0|-4.54|1.28|||Mixed Models Analysis|||Change from baseline at Day 169||1.28|-4.54|0.7643
82505920|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.38||||0.7331|TWO_SIDED|80.0|-4.25|1.48|||Mixed Models Analysis|||Change from baseline at Day 169||1.48|-4.25|0.7331
82505921|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.25||||0.4557|TWO_SIDED|80.0|-2.59|3.09|||Mixed Models Analysis|||Change from baseline at Day 169||3.09|-2.59|0.4557
82505922|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.29||||0.4549|TWO_SIDED|80.0|-2.97|3.55|||Mixed Models Analysis|||Change from baseline at Day 197||3.55|-2.97|0.4549
82505923|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.93||||0.3535|TWO_SIDED|80.0|-2.26|4.13|||Mixed Models Analysis|||Change from baseline at Day 197||4.13|-2.26|0.3535
82505924|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.65||||0.397|TWO_SIDED|80.0|-2.54|3.84|||Mixed Models Analysis|||Change from baseline at Day 197||3.84|-2.54|0.3970
82505925|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.78||||0.2714|TWO_SIDED|80.0|-1.99|5.55|||Mixed Models Analysis|||Change from baseline at Day 225||5.55|-1.99|0.2714
82505926|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.72||||0.2741|TWO_SIDED|80.0|-1.97|5.41|||Mixed Models Analysis|||Change from baseline at Day 225||5.41|-1.97|0.2741
82505927|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.06||||0.5084|TWO_SIDED|80.0|-3.74|3.62|||Mixed Models Analysis|||Change from baseline at Day 225||3.62|-3.74|0.5084
82505928|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.82||||0.1537|TWO_SIDED|80.0|-0.73|6.37|||Mixed Models Analysis|||Change from baseline at Day 253||6.37|-0.73|0.1537
82505929|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.79||||0.2542|TWO_SIDED|80.0|-1.69|5.27|||Mixed Models Analysis|||Change from baseline at Day 253||5.27|-1.69|0.2542
82505930|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.03||||0.6504|TWO_SIDED|80.0|-4.46|2.4|||Mixed Models Analysis|||Change from baseline at Day 253||2.40|-4.46|0.6504
82505931|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.3||||0.3405|TWO_SIDED|80.0|-2.78|5.38|||Mixed Models Analysis|||Change from baseline at Day 281||5.38|-2.78|0.3405
82505932|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.41||||0.2194|TWO_SIDED|80.0|-1.59|6.42|||Mixed Models Analysis|||Change from baseline at Day 281||6.42|-1.59|0.2194
82505933|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.11||||0.3596|TWO_SIDED|80.0|-2.87|5.09|||Mixed Models Analysis|||Change from baseline at Day 281||5.09|-2.87|0.3596
82505934|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.07||||0.5086|TWO_SIDED|80.0|-4.04|3.9|||Mixed Models Analysis|||Change from baseline at Day 309||3.90|-4.04|0.5086
82505935|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.33||||0.2211|TWO_SIDED|80.0|-1.57|6.23|||Mixed Models Analysis|||Change from baseline at Day 309||6.23|-1.57|0.2211
82505936|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.4||||0.2126|TWO_SIDED|80.0|-1.47|6.26|||Mixed Models Analysis|||Change from baseline at Day 309||6.26|-1.47|0.2126
82505937|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.56||||0.2053|TWO_SIDED|80.0|-1.44|6.55|||Mixed Models Analysis|||Change from baseline at Day 337||6.55|-1.44|0.2053
82505938|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.2||||0.2353|TWO_SIDED|80.0|-1.72|6.12|||Mixed Models Analysis|||Change from baseline at Day 337||6.12|-1.72|0.2353
82505939|NCT02515942|164703395|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.36||||0.5471|TWO_SIDED|80.0|-4.24|3.53|||Mixed Models Analysis|||Change from baseline at Day 337||3.53|-4.24|0.5471
82505940|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.74||||0.0913|TWO_SIDED|80.0|-5.38|-0.11|||Mixed Models Analysis|||Change from baseline at Day 2||-0.11|-5.38|0.0913
82626104|NCT01602549|164967844|SUPERIORITY_OR_OTHER||Difference in AMs of change from BL|4.08|||||TWO_SIDED|95.0|-14.91|23.07|||||Day 8, 240 min PD: The AMs/differences (GSK962040 minus Placebo) were estimated using a MM fitting treatment, visit, time point (TP), treatment\*visit\*TP interaction, and BL score as fixed effects, TP as a repeated effect, and par. as a random effect.|240 min PD: GSK962040 50 mg Vs Placebo Day 8||23.07|-14.91|
82626105|NCT00807014|164967864|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Analysis of covariance (ANCOVA) model was used with terms for baseline value, treatment, and center. Treatment-by-center interaction was not included.|ANCOVA|||||||<0.001
82626106|NCT01379924|164967875|SUPERIORITY||Odds Ratio (OR)|0.25||||0.037|TWO_SIDED|95.0|0.07|0.92|||Regression, Logistic|Adjusted for group differences at baseline and variables associated with differential study retention.|Usual care arm is reference group|Multiple logistic regression modeling used to compute adjusted odds ratios for 12-month follow-up data.||.92|.07|.037
82626107|NCT01379924|164967876|SUPERIORITY||Odds Ratio (OR)|0.24||||0.029|TWO_SIDED|95.0|0.07|0.86|||Regression, Logistic|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.|Usual care arm is reference group.|||.86|.07|.029
82626108|NCT01379924|164967877|SUPERIORITY||Odds Ratio (OR)|0.2||||0.017|TWO_SIDED|95.0|0.06|0.75|||Regression, Logistic|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.|Usual care arm is the reference group|||.75|.06|.017
82626109|NCT01379924|164967878|SUPERIORITY||Group by time interaction term coefficie|4.75|STANDARD_ERROR_OF_MEAN|3.84||0.217|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.217
82626110|NCT01379924|164967879|SUPERIORITY||Group by time interaction term coefficie|2.89|STANDARD_ERROR_OF_MEAN|3.77||0.444|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.444
82505941|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.28||||0.4454|TWO_SIDED|80.0|-2.89|2.33|||Mixed Models Analysis|||Change from baseline at Day 2||2.33|-2.89|0.4454
82505942|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.46||||0.8861|TWO_SIDED|80.0|-0.16|5.08|||Mixed Models Analysis|||Change from baseline at Day 2||5.08|-0.16|0.8861
82505943|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.16||||0.713|TWO_SIDED|80.0|-1.49|3.8|||Mixed Models Analysis|||Change from baseline at Day 29||3.80|-1.49|0.7130
82505944|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.37||||0.8759|TWO_SIDED|80.0|-0.26|5.01|||Mixed Models Analysis|||Change from baseline at Day 29||5.01|-0.26|0.8759
82505945|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.22||||0.7256|TWO_SIDED|80.0|-1.39|3.82|||Mixed Models Analysis|||Change from baseline at Day 29||3.82|-1.39|0.7256
82505946|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.17||||0.3111|TWO_SIDED|80.0|-4.22|1.88|||Mixed Models Analysis|||Change from baseline at Day 57||1.88|-4.22|0.3111
82505947|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.7||||0.236|TWO_SIDED|80.0|-4.73|1.34|||Mixed Models Analysis|||Change from baseline at Day 57||1.34|-4.73|0.2360
82505948|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.53||||0.411|TWO_SIDED|80.0|-3.55|2.49|||Mixed Models Analysis|||Change from baseline at Day 57||2.49|-3.55|0.4110
82505949|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.13||||0.5247|TWO_SIDED|80.0|-2.57|2.83|||Mixed Models Analysis|||Change from baseline at Day 85||2.83|-2.57|0.5247
82505950|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.37||||0.0534|TWO_SIDED|80.0|-6.04|-0.7|||Mixed Models Analysis|||Change from baseline at Day 85||-0.70|-6.04|0.0534
82505951|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.5||||0.0475|TWO_SIDED|80.0|-6.18|-0.82|||Mixed Models Analysis|||Change from baseline at Day 85||-0.82|-6.18|0.0475
82505952|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.92||||0.0575|TWO_SIDED|80.0|-7.11|-0.74|||Mixed Models Analysis|||Change from baseline at Day 113||-0.74|-7.11|0.0575
82505953|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.16||||0.1876|TWO_SIDED|80.0|-5.29|0.97|||Mixed Models Analysis|||Change from baseline at Day 113||0.97|-5.29|0.1876
82505954|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.76||||0.7644|TWO_SIDED|80.0|-1.38|4.91|||Mixed Models Analysis|||Change from baseline at Day 113||4.91|-1.38|0.7644
82505955|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.85||||0.0838|TWO_SIDED|80.0|-7.42|-0.28|||Mixed Models Analysis|||Change from baseline at Day 141||-0.28|-7.42|0.0838
82505956|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.38||||0.4444|TWO_SIDED|80.0|-3.89|3.13|||Mixed Models Analysis|||Change from baseline at Day 141||3.13|-3.89|0.4444
82505957|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|3.47||||0.8977|TWO_SIDED|80.0|-0.04|6.97|||Mixed Models Analysis|||Change from baseline at Day 141||6.97|-0.04|0.8977
82505958|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.05||||0.4917|TWO_SIDED|80.0|-2.92|2.82|||Mixed Models Analysis|||Change from baseline at Day 169||2.82|-2.92|0.4917
82505959|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.05||||0.4909|TWO_SIDED|80.0|-2.89|2.79|||Mixed Models Analysis|||Change from baseline at Day 169||2.79|-2.89|0.4909
82505960|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.0||||0.4992|TWO_SIDED|80.0|-2.82|2.81|||Mixed Models Analysis|||Change from baseline at Day 169||2.81|-2.82|0.4992
82505961|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.09||||0.3285|TWO_SIDED|80.0|-4.25|2.07|||Mixed Models Analysis|||Change from baseline at Day 197||2.07|-4.25|0.3285
82505962|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.45||||0.1568|TWO_SIDED|80.0|-5.57|0.67|||Mixed Models Analysis|||Change from baseline at Day 197||0.67|-5.57|0.1568
82505963|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.36||||0.2867|TWO_SIDED|80.0|-4.46|1.74|||Mixed Models Analysis|||Change from baseline at Day 197||1.74|-4.46|0.2867
82505964|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.93||||0.0798|TWO_SIDED|80.0|-7.51|-0.35|||Mixed Models Analysis|||Change from baseline at Day 225||-0.35|-7.51|0.0798
82505965|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-1.47||||0.2962|TWO_SIDED|80.0|-5.0|2.06|||Mixed Models Analysis|||Change from baseline at Day 225||2.06|-5.00|0.2962
82626111|NCT01379924|164967880|SUPERIORITY||Group by time interaction term coefficie|9.76|STANDARD_ERROR_OF_MEAN|3.82||0.011|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.011
82378353|NCT00535405|164465082|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.83|STANDARD_ERROR_OF_MEAN|0.83|<|0.001||95.0|2.51|5.85||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||5.85|2.51|<0.001
82505966|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|2.46||||0.8163|TWO_SIDED|80.0|-1.05|5.98|||Mixed Models Analysis|||Change from baseline at Day 225||5.98|-1.05|0.8163
82505967|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.64||||0.0708|TWO_SIDED|80.0|-6.81|-0.47|||Mixed Models Analysis|||Change from baseline at Day 253||-0.47|-6.81|0.0708
82505968|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.46||||0.575|TWO_SIDED|80.0|-2.67|3.59|||Mixed Models Analysis|||Change from baseline at Day 253||3.59|-2.67|0.5750
82505969|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|4.1||||0.956|TWO_SIDED|80.0|1.03|7.17|||Mixed Models Analysis|||Change from baseline at Day 253||7.17|1.03|0.9560
82505970|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.22||||0.1283|TWO_SIDED|80.0|-6.86|0.42|||Mixed Models Analysis|||Change from baseline at Day 281||0.42|-6.86|0.1283
82505971|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.28||||0.2085|TWO_SIDED|80.0|-5.88|1.33|||Mixed Models Analysis|||Change from baseline at Day 281||1.33|-5.88|0.2085
82505972|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|0.94||||0.6335|TWO_SIDED|80.0|-2.61|4.49|||Mixed Models Analysis|||Change from baseline at Day 281||4.49|-2.61|0.6335
82505973|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.64||||0.1778|TWO_SIDED|80.0|-6.31|1.03|||Mixed Models Analysis|||Change from baseline at Day 309||1.03|-6.31|0.1778
82505974|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-0.7||||0.4027|TWO_SIDED|80.0|-4.33|2.94|||Mixed Models Analysis|||Change from baseline at Day 309||2.94|-4.33|0.4027
82505975|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.94||||0.757|TWO_SIDED|80.0|-1.64|5.53|||Mixed Models Analysis|||Change from baseline at Day 309||5.53|-1.64|0.7570
82505976|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-3.9||||0.1132|TWO_SIDED|80.0|-8.03|0.23|||Mixed Models Analysis|||Change from baseline at Day 337||0.23|-8.03|0.1132
82505977|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|-2.71||||0.1965|TWO_SIDED|80.0|-6.8|1.37|||Mixed Models Analysis|||Change from baseline at Day 337||1.37|-6.80|0.1965
82505978|NCT02515942|164703396|SUPERIORITY|Least squares mean for change from baseline from repeated measures mixed effect model with treatment, visit and treatment\*visit interaction, baseline lesion location (foveal vs. extrafoveal), baseline lesion type (unifocal vs. multifocal) and baseline value as fixed effects, and unstructured covariance for observations within the same subject.|Treatment Effect|1.18||||0.6471|TWO_SIDED|80.0|-2.85|5.21|||Mixed Models Analysis|||Change from baseline at Day 337||5.21|-2.85|0.6471
82505979|NCT04302389|164703409|OTHER||||||<|0.001|||||||t-test, 2 sided|||This was a within-subject comparison at two timepoints (baseline, 3 months)||||<0.001
82505980|NCT02438722|164703502|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.44|TWO_SIDED|95.0|0.5|1.36|||Log Rank|||||1.36|0.50|0.44
82505981|NCT02438722|164703503|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.72|1.43|||Log Rank|||||1.43|0.72|0.94
82505982|NCT02438722|164703505|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.54|TWO_SIDED|95.0|0.64|1.26|||Log Rank|||||1.26|0.64|0.54
82505983|NCT02438722|164703506|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.73|1.39|||Log Rank|||||1.39|0.73|0.95
82505984|NCT01466387|164703535|NON_INFERIORITY_OR_EQUIVALENCE|GMC TF+YF+MenACWY-CRM/GMC TF+YF.|Ratio of GMC|1.14|||||TWO_SIDED|95.0|0.81|1.6||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 29) was that the lower limit of the two-sided 95% confidence interval around the observed ratio of geometric mean concentrations between one dose of typhoid Vi polysaccharide and yellow fever vaccines given concomitantly with MenACWY-CRM197 to typhoid Vi polysaccharide and yellow fever vaccines given alone was greater than 0.5.||1.6|0.81|
82505985|NCT01466387|164703536|NON_INFERIORITY_OR_EQUIVALENCE|GMT TF+YF+MenACWY/GMT TF+YF.|Ratio of GMT.|0.96|||||TWO_SIDED|95.0|0.65|1.41||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 29) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean titers between one dose of typhoid Vi polysaccharide and yellow fever vaccines given concomitantly with MenACWY-CRM197 to typhoid Vi polysaccharide and yellow fever vaccines given alone was greater than 0.5.||1.41|0.65|
82505986|NCT01466387|164703537|NON_INFERIORITY_OR_EQUIVALENCE|GMT JE + Rab + MenACWY-CRM/GMT JE + Rab.|Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.7|1.16||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and centers as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 57) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean titers between the second dose of Japanese Encephalitis and third dose of rabies virus vaccines given concomitantly with MenACWY-CRM197 to Japanese Encephalitis and rabies virus vaccines given alone was greater than 0.5.||1.16|0.7|
82505987|NCT01466387|164703538|NON_INFERIORITY_OR_EQUIVALENCE|GMC JE + Rab + MenACWY-CRM/GMC JE + Rab.|Ratio of GMC|0.91|||||TWO_SIDED|95.0|0.71|1.17||The testing was done by assessing the confidence interval of the ratio.|ANCOVA|The ANCOVA model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity (postvaccination, day 57) was that the lower limit of the two sided 95% CI around the observed ratio of geometric mean concentrations between the second dose of Japanese encephalitis and third dose of rabies virus vaccines given concomitantly with MenACWY-CRM197 to Japanese encephalitis and rabies virus vaccines given alone was greater than 0.5.||1.17|0.71|
82505988|NCT02530450|164703549|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Testing the change between two time points within each group using Wilcoxon signed rank test.||||< 0.05
82505989|NCT00567892|164703609|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.944|TWO_SIDED|95.0|-6.0|4.0||All statistical tests were two-sided and were evaluated at the α = 0.05 level of significance.|Wilcoxon signed rank test|Since the assumptions of parametric tests were not met we used non-parametric tests for the analysis.||The null hypothesis for this study was the difference between the change in THI score due to active rTMS treatment and the change in THI score due to rTMS sham was not different from 0.||4|-6|0.944
82505990|NCT00567892|164703609|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0||||0.674|TWO_SIDED|95.0|-9.0|10.0|||Wilcoxon signed rank test|The assumptions of parametric tests were not met.|All statistical tests were two-sided and were evaluated at the α = 0.05 level of significance.|The null hypothesis for this study was the difference between the change in THI score due to 4 weeks active rTMS treatment and the change in THI score due to 4 weeks rTMS sham was not different from 0.||10|-9|0.674
82505991|NCT01344161|164703612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.001|TWO_SIDED|95.0|||||ANCOVA|An analysis of covariance (ANCOVA) was used to adjust mean differences on all variables.||||||0.001
82505992|NCT00277212|164703645|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.552||||0.058|TWO_SIDED|95.0|0.296|1.03||stratified Log-Rank test, controlling for type of index mood episode|Log Rank||Cox's proportional hazards model, with type of index modd episode as stratification factor, and randomized treatment group as covariate.|||1.030|0.296|0.058
82505993|NCT00277212|164703646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.671||||0.055|TWO_SIDED|95.0|0.446|1.011||p-value for equality of survival curves|Log Rank|stratified log-rank test, controlling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.011|0.446|0.055
82505994|NCT00277212|164703647|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.784||||0.381|TWO_SIDED|95.0|0.454|1.354||p-value for equality of survival curves|Log Rank|stratified log-rank test, conrolling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.354|0.454|0.381
82505995|NCT00277212|164703648|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.871||||0.295|TWO_SIDED|95.0|0.672|1.128||p-value for equality of survival curves|Log Rank|stratified Log-Rank Test, controlling for type of index mood episode|aripiprazole/placebo; Cox's proportional hazards model, with type of index mood episode as stratification facto, and randomized treatment group as covariate.|||1.128|0.672|0.295
82505996|NCT00277212|164703650|SUPERIORITY_OR_OTHER||Treatement Difference|2.24||||0.001|TWO_SIDED|95.0|0.91|3.57||ANOVA (main effects=double-blind treatment, covariate=index mood episode) used for baseline comparisons. ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons|ANCOVA||Aripiprazole vs. placebo|Week 52 LOCF||3.57|0.91|0.001
82505997|NCT00277212|164703651|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.56||||0.073|TWO_SIDED|95.0|0.29|1.07|||Cochran-Mantel-Haenszel||aripiprazole/placebo|Week 52 LOCF||1.07|0.29|0.073
82505998|NCT00277212|164703651|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||Cochran-Mantel-Haenszel|||At Any Time||||0.194
82505999|NCT00277212|164703652|SUPERIORITY_OR_OTHER||relative risk|3.41||||0.007|TWO_SIDED|95.0|1.3|8.94|||Cochran-Mantel-Haenszel|||Week 52 LOCF||8.94|1.30|0.007
82506000|NCT00277212|164703652|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82506001|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.467|TWO_SIDED|95.0|-2.37|1.09||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA model, with double-blind treatment as main effects and index mood episode as covariate, is used for Baseline comparisons.|aripiprazole - placebo|Baseline||1.09|-2.37|0.467
82626112|NCT01379924|164967882|SUPERIORITY||Group by time interaction term coefficie|0.64|STANDARD_ERROR_OF_MEAN|0.59||0.758|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.758
82506002|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|95.0|-0.06|0.78||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 12||0.78|-0.06|
82506003|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||||TWO_SIDED|95.0|0.19|1.3||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||1.30|0.19|
82523318|NCT00297115|164742007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.104||0.0059|TWO_SIDED|95.0|0.082|0.489||No adjustment of the significance level was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 52 weeks of treatment taking all post-randomization measurements into account).||||0.489|0.082|0.0059
82626113|NCT01379924|164967883|SUPERIORITY||Group by time interaction term coefficie|1.36|STANDARD_ERROR_OF_MEAN|0.6||0.024|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.024
82626114|NCT01379924|164967884|SUPERIORITY||Group by time interaction term coefficie|2.67|STANDARD_ERROR_OF_MEAN|2.88||0.354|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up||||||.354
82626115|NCT01379924|164967885|SUPERIORITY||Group by time interaction term coefficie|4.43|STANDARD_ERROR_OF_MEAN|2.85||0.121|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.121
82626116|NCT01379924|164967886|SUPERIORITY||Group by time interaction term coefficie|3.67|STANDARD_ERROR_OF_MEAN|2.89||0.205|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.205
82506004|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|||||TWO_SIDED|95.0|0.08|1.86||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 36||1.86|0.08|
82506005|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|-0.08|1.92||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||1.92|-0.08|
82506006|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.001|TWO_SIDED|95.0|0.31|1.26||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52 (LOCF)||1.26|0.31|0.001
82506007|NCT00277212|164703653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.002|TWO_SIDED|95.0|0.23|1.04||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariates=index mood episode \& baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from baseline||1.04|0.23|0.002
82506008|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.971|TWO_SIDED|95.0|-0.35|0.34||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANOVA|ANOVA model, with double-blind treatment as main effects, is used for Baseline comparisons.|aripiprazole - placebo|Baseline||0.34|-0.35|0.971
82506009|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.03|0.51||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 8||0.51|-0.03|
82506010|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.13|0.6||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||0.60|-0.13|
82506011|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.06|0.55||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 36||0.55|-0.06|
82506012|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||||TWO_SIDED|95.0|-0.06|0.65||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||0.65|-0.06|
82506013|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.095|TWO_SIDED|95.0|-0.04|0.52||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 52 (LOCF)||0.52|-0.04|0.095
82506014|NCT00277212|164703659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.061|TWO_SIDED|95.0|-0.01|0.63||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripirazole - placebo|Highest change from Baseline||0.63|-0.01|0.061
82506015|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.458||95.0|-0.25|0.11||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANOVA|ANOVA model, controlling for treatment, is used for baseline estimates.|aripiprazole - placebo|Baseline||0.11|-0.25|0.458
82523319|NCT02298361|164742046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|1.6|1.93|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of gaining Medicaid: intervention patients (numerator) relative to within-clinic comparison patients (denominator)|||1.93|1.60|
82626117|NCT01379924|164967887|SUPERIORITY||Group by time interaction term coefficie|0.65|STANDARD_ERROR_OF_MEAN|2.6||0.803|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.803
82626118|NCT01379924|164967888|SUPERIORITY||Group by time interaction term coefficie|2.41|STANDARD_ERROR_OF_MEAN|2.56||0.347|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.347
82378354|NCT00535405|164465082|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.66|STANDARD_ERROR_OF_MEAN|0.79|<|0.001||95.0|2.39|5.6|||Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||5.60|2.39|<0.001
82506016|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.05|0.26||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 8||0.26|-0.05|
82506017|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.11|0.2||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 24||0.20|-0.11|
82506018|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|0.0|0.42||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 36||0.42|0.00|
82506019|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.05|0.16||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at week 52||0.16|-0.05|
82506020|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.515|TWO_SIDED|95.0|-0.22|0.11||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52 (LOCF)||0.11|-0.22|0.515
82506021|NCT00277212|164703660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.73|TWO_SIDED|95.0|-0.16|0.23||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from Baseline||0.23|-0.16|0.730
82506022|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.435|TWO_SIDED|95.0|-0.08|0.2||Means, mean differences, 95% confidence intervals for the differences, and the p-values are based on ANOVA/ANCOVA model.|ANOVA|ANOVA, controlling for treatment, used for baseline estimates.|aripiprazole - placebo|Baseline||0.20|-0.08|0.435
82506023|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|0.04|0.3||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 8||0.30|0.04|
82506024|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.11|0.17||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 24||0.17|-0.11|
82506025|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.13|0.13||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 36||0.13|-0.13|
82506026|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.08|0.14||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from baseline at Week 52||0.14|-0.08|
82506027|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.358|TWO_SIDED|95.0|-0.06|0.17||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Change from Baseline at Week 52 (LOCF)||0.17|-0.06|0.358
82506028|NCT00277212|164703661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.021|TWO_SIDED|95.0|0.03|0.31||Means, treatment differences between aripiprazole and placebo, 95% confidence intervals for the differences and the p-values for treatment comparisons are based on ANOVA/ANCOVA model.|ANCOVA|ANCOVA (main effects=double-blind treatment, covariate=baseline assessment) used for mean change from baseline comparisons.|aripiprazole - placebo|Highest Change from Baseline||0.31|0.03|0.021
82506029|NCT03336216|164703662|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|60.0|1.19|1.82||||||||1.82|1.19|
82506030|NCT03336216|164703662|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|60.0|0.77|1.3||||||||1.30|0.77|
82442149|NCT03906656|164592760|SUPERIORITY||Mean Difference (Final Values)|0.185|STANDARD_DEVIATION|53.6||0.583|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=1207.5, effect size r = 0.026, p=0.583.|||0.583
82506031|NCT03336216|164703662|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|60.0|0.6|1.03||||||||1.03|0.60|
82506032|NCT03336216|164703663|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|60.0|1.33|2.02||||||||2.02|1.33|
82506033|NCT03336216|164703663|SUPERIORITY||Hazard Ratio (HR)|1.13||||||60.0|0.87|1.46||||||||1.46|0.87|
82506034|NCT03336216|164703663|SUPERIORITY||Hazard Ratio (HR)|0.72||||||60.0|0.55|0.94||||||||0.94|0.55|
82506035|NCT03336216|164703666|SUPERIORITY||Strata adjusted difference|1.8||||0.6537||95.0|-5.5|9.0||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||9.0|-5.5|0.6537
82506036|NCT03336216|164703666|SUPERIORITY||Strata adjusted difference|12.5||||0.0951||95.0|3.1|21.9||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||21.9|3.1|0.0951
82506037|NCT03336216|164703666|SUPERIORITY||Strata adjusted difference|5.0||||0.5171||95.0|-8.0|18.1||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||18.1|-8.0|0.5171
82506038|NCT03336216|164703667|SUPERIORITY||Strata adjusted difference|-0.8||||0.8505|TWO_SIDED|95.0|-9.4|7.7||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||7.7|-9.4|0.8505
82506039|NCT03336216|164703667|SUPERIORITY||Strata adjusted difference|1.5||||0.8144|TWO_SIDED|95.0|-9.9|12.8||Stratified CMH test stratified by ECOG and prior chemotherapy|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||12.8|-9.9|0.8144
82506040|NCT03336216|164703667|SUPERIORITY||Strata adjusted difference|0.7||||0.9087|TWO_SIDED|95.0|-10.7|12.1||Stratified CMH test stratified by ECOG and prior chemotherapy.|Cochran-Mantel-Haenszel||Based on Cochran-Mantel-Haenszel (CMH) method of weighting|||12.1|-10.7|0.9087
82506041|NCT03336216|164703670|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.76|1.96|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.96|0.76|
82506042|NCT03336216|164703670|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.59|1.86|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.86|0.59|
82506043|NCT03336216|164703670|SUPERIORITY||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.45|1.46|||||Stratified Cox proportional hazard model by ECOG and type of prior chemotherapy|||1.46|0.45|
82506044|NCT02666183|164703692|OTHER||Estimated marginal mean difference|-2.251||||0.162|TWO_SIDED|95.0|-5.051|0.55|||ANCOVA|Covariates: DCG age, gender, race, income||||0.550|-5.051|0.162
82506045|NCT02666183|164703692|OTHER||Estimated marginal mean difference|-3.663||||0.007|TWO_SIDED|95.0|-6.538|-0.789|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.789|-6.538|0.007
82506046|NCT02666183|164703692|OTHER||Estimated marginal mean difference|-1.413||||0.714|TWO_SIDED|95.0|-4.29|1.464|||ANCOVA|Covariates: DCG age, gender, race, income||||1.464|-4.290|0.714
82506047|NCT02666183|164703693|OTHER||Estimated marginal mean difference|-0.531||||0.173|TWO_SIDED|95.0|-1.297|0.234|||ANCOVA|Covariates: DCG age, gender, race, income||||0.234|-1.297|0.173
82506048|NCT02666183|164703693|OTHER||Estimated marginal mean difference|-1.456||||0.001|TWO_SIDED|95.0|-2.241|-0.671|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.671|-2.241|0.001
82506049|NCT02666183|164703693|OTHER||Estimated marginal mean difference|-0.925||||0.021|TWO_SIDED|95.0|-1.711|-0.139|||ANCOVA|Covariates: DCG age, gender, race, income||||-0.139|-1.711|0.021
82506050|NCT02666183|164703694|OTHER||Estimated marginal mean difference|-0.984||||0.323|TWO_SIDED|95.0|-2.939|0.971|||ANCOVA|Covariates: DCG age, gender, race, income||||0.971|-2.939|0.323
82506051|NCT02666183|164703694|OTHER||Estimated marginal mean difference|-1.768||||0.086|TWO_SIDED|95.0|-3.785|0.249|||ANCOVA|Covariates: DCG age, gender, race, income||||0.249|-3.785|0.086
82506052|NCT02666183|164703694|OTHER||Estimated marginal mean difference|-0.784||||0.443|TWO_SIDED|95.0|-2.794|1.226|||ANCOVA|Covariates: DCG age, gender, race, income||||1.226|-2.794|0.443
82506053|NCT00666757|164703695|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the remission rates at 12 week endpoint between treatment groups.||||0.26
82506054|NCT00666757|164703696|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis.Treatment comparisons will include the contrast between treatment groups at 12-week endpoint.||||0.07
82506055|NCT00666757|164703697|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). Repeated Measures Analysis. The analysis will contrast the remission remission rates at 12-week endpoint.||||0.03
82506056|NCT00666757|164703698|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the response rates at 12-week endpoint.||||0.09
82506057|NCT00666757|164703699|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Categorical, pseudo-likelihood-based repeated measures approach (MMRM-CAT). The analysis will contrast the response rates at 12-week endpoint.||||0.001
82506058|NCT00666757|164703700|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.002
82506059|NCT00666757|164703701|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.001
82506060|NCT00666757|164703702|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.003
82506061|NCT00666757|164703703|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis.Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.01
82506062|NCT00666757|164703704|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.02
82506063|NCT00666757|164703705|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.20
82506064|NCT00666757|164703706|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Only those patients who had at least moderate pain at baseline (defined as baseline BPI Average 24-Hour Pain Score greater than or equal to 3). Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.03
82506065|NCT00666757|164703707|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.03
82506066|NCT00666757|164703708|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at 12-Week endpoint.||||0.002
82506067|NCT00666757|164703709|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.01
82506068|NCT00666757|164703710|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||Between group P-value|ANCOVA|||||||0.07
82506069|NCT00666757|164703711|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||Between group P-value|ANCOVA|||||||0.34
82506070|NCT00666757|164703712|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.02
82506071|NCT00666757|164703713|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.01
82506072|NCT00666757|164703714|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.97
82506073|NCT00666757|164703715|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.32
82506074|NCT00666757|164703716|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||Between group P-value|ANCOVA|||Transformed absolute score||||0.12
82506075|NCT00666757|164703717|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Between group P-value|ANCOVA|||Transformed Absolute Score||||0.16
82506076|NCT00666757|164703718|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.002
82506077|NCT00666757|164703719|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Mixed Models Analysis|||Repeated Measures Analysis. Treatment comparisons will include the contrast between treatment groups at endpoint.||||0.53
82506078|NCT01231581|164703720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.352|TWO_SIDED|95.0|0.66|1.32|||Log Rank||Hazard ratios are estimated using a Pike estimator.|||1.32|0.66|0.352
82506079|NCT05954052|164703727|SUPERIORITY||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|9.0||0.1807|TWO_SIDED|95.0|-6.24|14.24|||Wilcoxon (Mann-Whitney)|||For the analysis of (ABC) scores at baseline and 12 weeks in this single-arm, open-label pilot study (n=6 participants, all with paired data including the early dropout), we use superiority test, This aligns with the study's hypothesis that oral glutathione supplementation would lead to an improvement (i.e., a decrease in ABC scores, indicating reduced irritability). Superiority testing evaluates whether the post-treatment mean (or median) is significantly lower than the baseline||14.24|-6.24|0.1807
82506080|NCT01344447|164703766|SUPERIORITY_OR_OTHER||Percentage difference|22.3|||<|0.0001|TWO_SIDED|95.1|20.4||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Majority reader; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||20.4|<0.0001
82506081|NCT01344447|164703766|SUPERIORITY_OR_OTHER||Percentage difference|63.8|||<|0.0001|TWO_SIDED|95.1|60.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 1; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||60.9|<0.0001
82506082|NCT01344447|164703766|SUPERIORITY_OR_OTHER||Percentage difference|19.6|||<|0.0001|TWO_SIDED|95.1|17.8||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 2; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||17.8|<0.0001
82506083|NCT01344447|164703766|SUPERIORITY_OR_OTHER||Percentage difference|15.0|||<|0.0001|TWO_SIDED|95.1|13.3||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 3; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||13.3|<0.0001
82506084|NCT01344447|164703766|SUPERIORITY_OR_OTHER||Percentage difference|18.5|||<|0.0001|TWO_SIDED|95.1|16.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Clinical investigator; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||16.5|<0.0001
82506085|NCT01344447|164703767|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.7|||||TWO_SIDED|95.1|-3.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-3.6|
82506086|NCT01344447|164703767|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.1|||||TWO_SIDED|95.1|-5.4||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.4|
82506087|NCT01344447|164703767|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|5.1|||||TWO_SIDED|95.1|-4.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-4.7|
82506088|NCT01344447|164703767|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|3.2|||||TWO_SIDED|95.1|-5.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.9|
82506089|NCT01344447|164703767|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|21.5|||||TWO_SIDED|95.1|14.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||14.1|
82506090|NCT01344447|164703768|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|8.8|||||TWO_SIDED|95.1|7.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.7|
82506091|NCT01344447|164703768|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|30.3|||||TWO_SIDED|95.1|28.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||28.6|
82506092|NCT01344447|164703768|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.7|||||TWO_SIDED|95.1|8.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||8.5|
82506093|NCT01344447|164703768|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|7.6|||||TWO_SIDED|95.1|6.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||6.6|
82506094|NCT01344447|164703768|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.1|||||TWO_SIDED|95.1|7.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.9|
82506095|NCT01344447|164703769|SUPERIORITY_OR_OTHER||percentage|61.7|||||ONE_SIDED|95.1|55.3||||One sided 95.1% confidence interval|||Majority reader|||55.3|
82506096|NCT01344447|164703769|SUPERIORITY_OR_OTHER||percentage|60.3|||||ONE_SIDED|95.1|53.6||||One sided 95.1% confidence interval|||Blinded Reader 1|||53.6|
82506097|NCT01344447|164703769|SUPERIORITY_OR_OTHER||percentage|59.6|||||ONE_SIDED|95.1|53.1||||One sided 95.1% confidence interval|||Blinded Reader 2|||53.1|
82506098|NCT01344447|164703769|SUPERIORITY_OR_OTHER||percentage|58.7|||||ONE_SIDED|95.1|52.2||||One sided 95.1% confidence interval|||Blinded Reader 3|||52.2|
82506099|NCT01344447|164703769|SUPERIORITY_OR_OTHER||percentage|61.5|||||ONE_SIDED|95.1|56.7||||One sided 95.1% confidence interval|||Clinical investigator|||56.7|
82564042|NCT01755598|164837396|OTHER|Vaccine efficacy (VE) has been estimated from a Cox proportional hazard regression model (VE=1-hazard ratio) and 90% confidence intervals (CIs) and Wald p-value has been derived. If the primary objective is met, this secondary objective is to be analysed using the following success criterion: The lower limit of the 90% two-sided CI for the VE against first occurrence of Definite pulmonary TB disease not associated with HIV infection, meeting the case definition 2, is to be above 0%.|Vaccine efficacy rate|61.67||||0.021|TWO_SIDED|90.0|24.084|80.647|||Regression, Cox|||To evaluate the protective efficacy of two doses of the M72/AS01E candidate vaccine against Definite Xpert MTB/Rif positive pulmonary TB disease not associated with HIV-infection, meeting the case definition 2, as compared to placebo.||80.647|24.084|0.0210
82564043|NCT02429115|164837410|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82506100|NCT01344447|164703770|SUPERIORITY_OR_OTHER||percentage|98.0|||||ONE_SIDED|95.1|97.7||||One sided 95.1% confidence interval|||Majority reader|||97.7|
82506101|NCT01344447|164703770|SUPERIORITY_OR_OTHER||percentage|97.6|||||ONE_SIDED|95.1|97.3||||One sided 95.1% confidence interval|||Blinded Reader 1|||97.3|
82506102|NCT01344447|164703770|SUPERIORITY_OR_OTHER||percentage|97.2|||||ONE_SIDED|95.1|96.9||||One sided 95.1% confidence interval|||Blinded Reader 2|||96.9|
82506103|NCT01344447|164703770|SUPERIORITY_OR_OTHER||percentage|98.0|||||ONE_SIDED|95.1|97.7||||One sided 95.1% confidence interval|||Blinded Reader 3|||97.7|
82506104|NCT01344447|164703770|SUPERIORITY_OR_OTHER||percentage|99.2|||||ONE_SIDED|95.1|98.9||||One sided 95.1% confidence interval|||Clinical investigator|||98.9|
82506105|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.21|STANDARD_DEVIATION|0.8|||||||||Mean Difference|||CTA Minus Unenhanced MRA for blinded Reader on vessel DIA at normal point||||
82506106|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.0|STANDARD_DEVIATION|0.79|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at normal point||||
82506107|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.29|STANDARD_DEVIATION|0.87|||||||||Mean Difference|||CTA minus Unenhanced MRA for blinded reader on vessel DIA at narrowest point||||
82506108|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.01|STANDARD_DEVIATION|0.8|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at narrowest point||||
82506109|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.48|STANDARD_DEVIATION|0.98|||||||||Mean Difference|||CTA minus Unenhanced MRA for clinical investigators on vessel DIA at normal point||||
82506110|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.33|STANDARD_DEVIATION|1.01|||||||||Mean Difference|||CTA minus Gadobutrol-enhanced MRA for clinical investigators on vessel DIA at normal point||||
82506111|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.02|STANDARD_DEVIATION|0.81|||||||||Mean Difference|||CTA minus Unenhanced MRA for clinical investigators on vessel DIA at narrowest point||||
82506112|NCT01344447|164703771|SUPERIORITY_OR_OTHER||Diameter difference|0.11|STANDARD_DEVIATION|0.79|||||||||Mean Difference|||CTA minus Gadobutrol-enhanced MRA for clinical investigators on vessel DIA at narrowest point||||
82506113|NCT02424383|164703967|OTHER||||||||||||||||||Freedom from Target LesionRevascularization (TLR) were reported through 12 months with frequency counts, percentages and 95% confidence intervals from exact binomial test. In addition, Kaplan-Meier tables and curves were created.|||
82506114|NCT02424383|164703968|OTHER||||||||||||||||||Freedom from composite of safety events from the time following the index procedure through 30 days post procedure were reported with frequency counts, percentages and 95% confidence intervals from exact binomial test. Kaplan-Meier tables and curves were also calculated.|||
82506115|NCT01334723|164703980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||||95.0|0.35|0.412|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.412|0.350|
82506116|NCT01334723|164703980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.294||||||95.0|0.235|0.368|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.368|0.235|
82506117|NCT01334723|164703981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.613||||||95.0|0.562|0.668|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.668|0.562|
82506118|NCT01334723|164703981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.542||||||95.0|0.427|0.689|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.689|0.427|
82506119|NCT01334723|164703982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.519||||||95.0|0.472|0.57|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.570|0.472|
82506120|NCT01334723|164703982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.436||||||95.0|0.333|0.57|||||A time-to-event analysis was used to evaluate the likelihood of AUR or prostate surgery.|||0.570|0.333|
82506121|NCT00867451|164704006|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<.05
82506122|NCT00323492|164704032|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.42||||0.034||95.0|-0.86|-0.03||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were applied.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.03|-0.86|0.034
82506123|NCT00323492|164704033|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.36||||0.031||95.0|-0.67|-0.03||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum text|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.03|-0.67|0.031
82506124|NCT00323492|164704034|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.1||||0.009||95.0|-0.18|-0.02||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.02|-0.18|0.009
82564044|NCT02429115|164837411|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82506125|NCT00323492|164704035|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.64|||<|0.001||95.0|-1.01|-0.27||No adjustments for multiple comparisons were made.|Wicoxon Rank Sum test|no adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||-0.27|-1.01|< 0.001
82506126|NCT00323492|164704036|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.1||||0.51||95.0|-0.44|0.19||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||0.19|-0.44|0.51
82506127|NCT00323492|164704037|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.79||95.0|-0.03|0.02||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.|Difference is for Truvada minus Maintain Baseline Regimen. The non-parametric estimate of the difference between groups (Hodges-Lehmann) and its 95% confidence intervals (Moses) are provided.|Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||0.02|-0.03|0.79
82506128|NCT00323492|164704038|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.86
82506129|NCT00323492|164704040|SUPERIORITY_OR_OTHER|||||||0.65||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.65
82564045|NCT02429115|164837412|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82626119|NCT01379924|164967889|SUPERIORITY||Group by time interaction term coefficie|-1.39|STANDARD_ERROR_OF_MEAN|2.59||0.591|TWO_SIDED||||||Mixed Models Analysis|Adjusted for any variables that differed between groups at baseline, and variables associated with likelihood of study retention at follow-up.||||||.591
82626120|NCT04532918|164967900|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|255.3|||||TWO_SIDED|90.0|208.7|312.3|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax||312.3|208.7|
82506130|NCT00323492|164704041|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||No adjustments were made.|Wilcoxon Signed Rank test|No adjustments were made.||Null Hypothesis: no indication of shift from 0 in distribution of change from baseline. Alternative Hypothesis: shift from 0 is observed in distribution of change from baseline.||||0.11
82506131|NCT00323492|164704041|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||No adjustments were made.|Wilcoxon Signed Rank test|No adjustments were made.||Null Hypothesis: no indication of shift from 0 in distribution of change from baseline. Alternative Hypothesis: shift from 0 is observed in distribution of change from baseline.||||0.34
82506132|NCT00323492|164704042|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments were made.|Fisher Exact|No adjustments were made.||Null Hypothesis: treatment is not associated with the observed virologic response. Alternative Hypothesis: treatment is associated with the observed virologic response||||1.00
82506133|NCT02486042|164704045|OTHER|T-test for equality in means. The p-value threshold for significance was p \< 0.05.||||||0.22|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T0 blood samples in the Standard of Care versus Omegaven group||||0.22
82506134|NCT02486042|164704045|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.15|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T0 blood samples in the Standard of Care versus Omegaven group||||0.15
82506135|NCT02486042|164704045|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.78|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T0 blood samples in the Standard of Care versus Omegaven group||||0.78
82506136|NCT02486042|164704049|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.43|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T1 blood samples in the Standard of Care versus Omegaven group||||0.43
82506137|NCT02486042|164704049|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.44|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T1 blood samples in the Standard of Care versus Omegaven group||||0.44
82506138|NCT02486042|164704049|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.5|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T1 blood samples in the Standard of Care versus Omegaven group||||0.50
82506139|NCT02486042|164704050|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.001|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STAT-3 in T2 blood samples in the Standard of Care versus Omegaven group||||0.001
82506140|NCT02486042|164704050|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.001|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of PPAR-gamma in T2 blood samples in the Standard of Care versus Omegaven group||||0.001
82506141|NCT02486042|164704050|OTHER|T-test for equality of means. The p-value threshold for significance was p \< 0.05.||||||0.01|||||||t-test, 2 sided|||Null hypothesis: there was no difference in the average dCt values for relative gene expression of STC-1 in T2 blood samples in the Standard of Care versus Omegaven group||||0.01
82564046|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine was considered non-inferior to egg-derived vaccine in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.85|||||TWO_SIDED|95.0|0.72|1.01|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI egg-derived antigen assay||1.01|0.72|
82506142|NCT00566150|164704052|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|TWO_SIDED|95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups at week 6.||||0.29
82506143|NCT00566150|164704053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|TWO_SIDED|95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups at week 6.||||0.07
82506144|NCT00566150|164704054|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||Statistical significance was p\<0.05|Fisher Exact|Fisher's exact test was used to test for significance between groups.||Week 6||||.038
82506145|NCT00566150|164704055|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79||95.0||||Unadjusted. Statistical significance was p\<0.05.|Mixed Models Analysis|Fixed categorical effects: group (as a between-subjects factor), time (as a within-subjects factor), group x time interaction.||Comparison of changes in outcome between treatment groups.||||0.79
82506146|NCT03979638|164704072|SUPERIORITY||Estimated percent change|-10.8||||0.1424|TWO_SIDED|95.0|-23.5|4.0|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||4.0|-23.5|0.1424
82506147|NCT03979638|164704072|SUPERIORITY||Estimated percent change|-6.1||||0.4602|TWO_SIDED|95.0|-20.8|11.2|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||11.2|-20.8|0.4602
82506148|NCT03979638|164704072|SUPERIORITY||Estimated percent change|-7.8||||0.4181|TWO_SIDED|95.0|-24.4|12.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||12.5|-24.4|0.4181
82506149|NCT03979638|164704072|SUPERIORITY||Estimated percent change|-16.7||||0.0855|TWO_SIDED|95.0|-32.3|2.6|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||2.6|-32.3|0.0855
82506150|NCT03979638|164704073|SUPERIORITY||Estimated percent change|-20.3||||0.001|TWO_SIDED|95.0|-29.9|-9.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-9.5|-29.9|0.0010
82506151|NCT03979638|164704073|SUPERIORITY||Estimated percent change|-17.7||||0.0186|TWO_SIDED|95.0|-29.9|-3.3|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-3.3|-29.9|0.0186
82506152|NCT03979638|164704073|SUPERIORITY||Estimated percent change|-19.4||||0.032|TWO_SIDED|95.0|-33.9|-1.9|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-1.9|-33.9|0.0320
82506153|NCT03979638|164704073|SUPERIORITY||Estimated percent change|-27.0||||0.0026|TWO_SIDED|95.0|-40.3|-10.8|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-10.8|-40.3|0.0026
82506154|NCT03979638|164704074|SUPERIORITY||Estimated percent change|-28.1||||0.0005|TWO_SIDED|95.0|-39.5|-14.5|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-14.5|-39.5|0.0005
82506155|NCT03979638|164704074|SUPERIORITY||Estimated percent change|-28.4||||0.0003|TWO_SIDED|95.0|-39.7|-15.0|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-15.0|-39.7|0.0003
82506156|NCT03979638|164704074|SUPERIORITY||Estimated percent change|-29.5||||0.0014|TWO_SIDED|95.0|-42.7|-13.2|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-13.2|-42.7|0.0014
82506157|NCT03979638|164704074|SUPERIORITY||Estimated percent change|-32.4||||0.0006|TWO_SIDED|95.0|-45.3|-16.4|||Mixed Models Analysis|Intention To Treat (ITT), statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between BLU-5937 and placebo was estimated by 100 x \[e\^diff - 1\] where 'e' = exponent of difference; and 'diff' = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-16.4|-45.3|0.0006
82506158|NCT02586896|164704090|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
82506159|NCT02586896|164704092|SUPERIORITY|||||||0.91|||||||ANOVA|||||||0.91
82506160|NCT02586896|164704093|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
82506161|NCT02586896|164704094|SUPERIORITY|||||||0.54|||||||ANOVA|||||||0.54
82506162|NCT03200899|164704141|SUPERIORITY|||||||0.926|||||||ANCOVA|||||||0.926
82506163|NCT03200899|164704142|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.750
82506164|NCT03200899|164704143|SUPERIORITY|||||||0.129|||||||ANCOVA|||||||0.129
82506165|NCT03200899|164704144|SUPERIORITY|||||||0.152|||||||ANCOVA|||||||0.152
82506166|NCT03200899|164704145|SUPERIORITY|||||||0.037|||||||ANCOVA|||||||0.037
82506167|NCT03200899|164704146|SUPERIORITY|||||||0.297|||||||ANCOVA|||||||0.297
82506168|NCT03200899|164704147|SUPERIORITY|||||||0.293|||||||ANCOVA|||||||0.293
82506169|NCT03200899|164704148|SUPERIORITY|||||||0.045|||||||ANCOVA|||||||0.045
82506170|NCT04646499|164704151|SUPERIORITY|||||||0.34|||||||Sign test|||||||0.34
82506171|NCT04646499|164704152|SUPERIORITY|||||||0.024|||||||Sign test|||||||0.024
82506172|NCT04646499|164704153|SUPERIORITY|||||||0.083|||||||Sign test|||||||0.083
82506173|NCT04646499|164704154|SUPERIORITY|||||||0.049|||||||Sign test|||||||0.049
82506174|NCT04646499|164704155|SUPERIORITY|||||||0.31|||||||Sign test|||||||0.31
82626121|NCT04532918|164967900|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|189.5|||||TWO_SIDED|90.0|154.0|233.1|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax||233.1|154.0|
82506175|NCT01400516|164704166|SUPERIORITY||Median Difference (Final Values)|9.5||||0.28|TWO_SIDED|||||A p-value \< 0.05 is considered statistically significant.|Linear mixed model||control-teriparatide|||||0.28
82506176|NCT01412866|164704169|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|df=1||||||0.08
82506177|NCT02496533|164704197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8|||<|0.001|TWO_SIDED|||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported anxiety as self-reported change of VAS between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.001
82506178|NCT02496533|164704198|SUPERIORITY_OR_OTHER||||||<|0.02||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported systolic blood pressure measurements between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.02
82564047|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV ) was considered non-inferior to egg-derived vaccine (eTIV) in postvaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs(cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.59|||||TWO_SIDED|95.0|0.49|0.72|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI egg-derived antigen assay.||0.72|0.49|
82564048|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV ) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.56|||||TWO_SIDED|95.0|0.46|0.68|||ANOVA|||Non-inferiority of cTIV to eTIV against influenza B strain as measured by HI egg-derived antigen assay.||0.68|0.46|
82564049|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV) in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.92|||||TWO_SIDED|95.0|0.79|1.08|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI cell-derived antigen assay.||1.08|0.79|
82564050|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV) was \>0.667.|Ratio of GMTs|0.65|||||TWO_SIDED|95.0|0.54|0.78|||ANOVA|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI cell-derived antigen assay.||0.78|0.54|
82564051|NCT00645411|164837469|NON_INFERIORITY_OR_EQUIVALENCE|Cell derived vaccine (cTIV) was considered non-inferior to egg-derived vaccine (eTIV)in post vaccination HI GMTs if, for all three influenza strains, the lower limit of the two-sided 95% confidence interval (CI) for day 50 ratio of GMTs (cTIV/eTIV)was \>0.667.|Ratio of GMTs|0.87|||||TWO_SIDED|95.0|0.71|1.06|||ANOVA|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI cell-derived antigen assay.||1.06|0.71|
82626122|NCT04532918|164967901|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|238.4|||||TWO_SIDED|90.0|207.6|273.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf||273.8|207.6|
82506179|NCT02496533|164704198|SUPERIORITY_OR_OTHER||||||<|0.09||||||No multiple comparisons were conducted in this analysis. P-Value not adjusted for multiple comparisons. No interim analyses were performed.|ANOVA|||H0: No difference in reported diastolic blood pressure between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.09
82506180|NCT02496533|164704199|SUPERIORITY_OR_OTHER||||||<|0.009||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported respiration rate between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.009
82506181|NCT02496533|164704200|SUPERIORITY_OR_OTHER||||||<|0.45||||||No multiple comparisons were conducted in this analysis. P-value not adjusted for multiple comparisons. No interim analyses performed.|ANOVA|||H0: No difference in reported pulse rate between Baseline and After Imaging time points between the Massage and No Massage groups After Imaging.||||<0.45
82506182|NCT04865354|164704264|NON_INFERIORITY|Noninferiority to be concluded if least squares means difference upper confidence limit is less than 0.05.|Least Squares Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0034|||ONE_SIDED|95.0||0.009||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.||LSM results based on general linear mixed effects model with terms for lens, period and sequence as fixed effects, subject as a random effect|Difference = PRECISION1 minus Clariti 1-Day|||0.009||
82522989|NCT04450108|164741391|SUPERIORITY|The change of FeNO values will be estimated in ANCOVA with baseline values as the covariable and will be reported as percent change together with the 95%-confidence interval.|||||<|0.001|||||||ANCOVA|||Since the effect size of the change (mean change / standard deviation) is on the order of 1 (resulting in N=10 and 13 for power = 80% and 90%, respectively) and therefore large, the sample size is not determined by the primary objective but by the necessity to achieve representative data of FeNO measurement data over all age groups, measurement ranges (\<, ≥ cut off) and sites. Thus, 120 subjects will be recruited.||||<0.001
82564052|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference in % (cTIV minus eTIV)|-1.0|||||TWO_SIDED|95.0|-4.0|1.0|||binomial or the method of Miettinen and|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI egg-derived antigen assay.||1|-4|
82626123|NCT04532918|164967901|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|148.9|||||TWO_SIDED|90.0|129.1|171.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf||171.7|129.1|
82564053|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV - eTIV)|-9.0|||||TWO_SIDED|95.0|-13.0|-4.0|||binomial or Miettinen & Nurimen method|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI egg-derived antigen assay.||-4|-13|
82564054|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|-15.0|||||TWO_SIDED|95.0|-21.0|-9.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI egg-derived antigen assay.||-9|-21|
82564055|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%|Difference % (cTIV minus eTIV)|-1.0|||||TWO_SIDED|95.0|-3.0|2.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against A/H1N1 influenza strain as measured by HI cell-derived antigen assay.||2|-3|
82564056|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|-5.0|||||TWO_SIDED|95.0|-9.5|0.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against A/H3N2 influenza strain as measured by HI cell-derived antigen assay.||0|-9.5|
82564057|NCT00645411|164837470|NON_INFERIORITY_OR_EQUIVALENCE|cTIV was considered non-inferior to eTIV in terms of the percentages of subjects achieving seroconversion or significant increase in antibody titer at day 50 if for all three strains, the lower limit of the two-sided 95% CI around the differences in the percentages of subjects achieving seroconversion and significant increase (cTIV minus eTIV) was \>-10%.|Difference % (cTIV minus eTIV)|0.0|||||TWO_SIDED|95.0|-6.0|6.0|||binominal or Miettinen &Nurimen method|||Non-inferiority of cTIV to eTIV against B influenza strain as measured by HI cell-derived antigen assay.||6|-6|
82564058|NCT01307800|164837481|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.1|STANDARD_ERROR_OF_MEAN|2.4||0.994|TWO_SIDED|95.0|-0.5|8.8||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 1-sided alpha level of 0.025, with adjustment for multiplicity by applying the Step-down Dunnett procedure.|Mixed Models Analysis|||||8.8|-0.5|0.994
82564059|NCT01307800|164837481|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.5||0.973|TWO_SIDED|95.0|-1.9|7.9||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 1-sided alpha level of 0.025, with adjustment for multiplicity by applying the Step-down Dunnett procedure.|Mixed Models Analysis|||||7.9|-1.9|0.973
82564060|NCT01307800|164837481|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|2.2||0.896|TWO_SIDED|95.0|-1.6|7.2||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||7.2|-1.6|0.896
82564061|NCT01307800|164837482|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.5||0.955|TWO_SIDED|95.0|-0.7|9.3||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||9.3|-0.7|0.955
82564062|NCT01307800|164837482|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|2.5||0.912|TWO_SIDED|95.0|-1.6|8.4||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||8.4|-1.6|0.912
82626124|NCT04532918|164967902|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|261.8|||||TWO_SIDED|90.0|229.8|298.1|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast||298.1|229.8|
82378355|NCT00535405|164465083|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|3.05|STANDARD_ERROR_OF_MEAN|0.62|<|0.001||95.0|2.04|4.55||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.55|2.04|<0.001
82564063|NCT01307800|164837482|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.9|STANDARD_ERROR_OF_MEAN|2.4||0.223|TWO_SIDED|95.0|-1.8|7.7||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||7.7|-1.8|0.223
82564064|NCT01307800|164837483|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.5||0.61|TWO_SIDED|95.0|-3.5|2.6||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.6|-3.5|0.610
82564065|NCT01307800|164837483|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.223|TWO_SIDED|95.0|-2.0|4.6||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.6|-2.0|0.223
82564066|NCT01307800|164837483|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.5||0.414|TWO_SIDED|95.0|-4.2|1.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.7|-4.2|0.414
82564067|NCT01307800|164837484|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.603|TWO_SIDED|95.0|-3.7|2.8||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.8|-3.7|0.603
82564068|NCT01307800|164837484|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.7||0.192|TWO_SIDED|95.0|-1.9|4.8||The p-value was 1-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.8|-1.9|0.192
82564069|NCT01307800|164837484|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.619|TWO_SIDED|95.0|-3.9|2.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.3|-3.9|0.619
82626125|NCT04532918|164967902|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|163.2|||||TWO_SIDED|90.0|142.8|186.6|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast||186.6|142.8|
82626126|NCT04532918|164967903|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|273.4|||||TWO_SIDED|90.0|227.9|328.1|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||328.1|227.9|
82626127|NCT04532918|164967903|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|275.9|||||TWO_SIDED|90.0|228.7|332.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||332.7|228.7|
82626128|NCT04532918|164967903|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|24.65|||||TWO_SIDED|90.0|19.15|31.72|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M8||31.72|19.15|
82626129|NCT04532918|164967903|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|37.82|||||TWO_SIDED|90.0|29.18|49.03|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M8||49.03|29.18|
82626130|NCT04532918|164967904|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|291.8|||||TWO_SIDED|90.0|260.6|326.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M1||326.8|260.6|
82626131|NCT04532918|164967904|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|215.8|||||TWO_SIDED|90.0|192.0|242.4|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for metabolite: M1||242.4|192.0|
82626132|NCT04532918|164967904|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|55.31|||||TWO_SIDED|90.0|47.19|64.83|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M8||64.83|47.19|
82626133|NCT04532918|164967904|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|68.28|||||TWO_SIDED|90.0|57.99|80.39|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for metabolite: M8||80.39|57.99|
82626134|NCT04532918|164967905|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|306.4|||||TWO_SIDED|90.0|273.3|343.6|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M1||343.6|273.3|
82626135|NCT04532918|164967905|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|227.4|||||TWO_SIDED|90.0|202.1|255.8|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M1||255.8|202.1|
82626136|NCT04532918|164967905|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|51.03|||||TWO_SIDED|90.0|43.8|59.45|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M8||59.45|43.80|
82626137|NCT04532918|164967905|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|70.45|||||TWO_SIDED|90.0|60.21|82.44|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for metabolite: M8||82.44|60.21|
82626138|NCT04532918|164967906|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|74.84|||||TWO_SIDED|90.0|59.42|94.26|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for allopurinol||94.26|59.42|
82626139|NCT04532918|164967906|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|80.99|||||TWO_SIDED|90.0|63.88|102.7|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for allopurinol||102.7|63.88|
82626140|NCT04532918|164967906|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|96.86|||||TWO_SIDED|90.0|92.11|101.8|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of Cmax for oxypurinol||101.8|92.11|
82626141|NCT04532918|164967906|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|99.07|||||TWO_SIDED|90.0|94.36|104.0|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of Cmax for oxypurinol||104.0|94.36|
82626142|NCT04532918|164967907|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.29|||||TWO_SIDED|90.0|91.26|105.9|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for allopurinol||105.9|91.26|
82626143|NCT04532918|164967907|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|101.2|||||TWO_SIDED|90.0|93.72|109.2|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for allopurinol||109.2|93.72|
82564070|NCT01307800|164837485|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.5|STANDARD_ERROR_OF_MEAN|4.1||0.022|TWO_SIDED|95.0|1.4|17.6||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||17.6|1.4|0.022
82564071|NCT01307800|164837485|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.7|STANDARD_ERROR_OF_MEAN|4.6||0.061|TWO_SIDED|95.0|-0.4|17.8||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||17.8|-0.4|0.061
82564072|NCT01307800|164837485|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.2|STANDARD_ERROR_OF_MEAN|4.1||0.304|TWO_SIDED|95.0|-3.9|12.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||12.3|-3.9|0.304
82564073|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6|STANDARD_ERROR_OF_MEAN|0.8||0.036|TWO_SIDED|95.0|0.1|3.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||3.1|0.1|0.036
82564074|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.616|TWO_SIDED|95.0|-1.2|2.0||The comparison between 40 mg LY2140023, BID and placebo for change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.0|-1.2|0.616
82564075|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.7||0.307|TWO_SIDED|95.0|-0.7|2.2||The comparison between 10 mg LY2140023, BID and placebo for change from baseline in PANSS positive subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.2|-0.7|0.307
82564076|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.7||0.382|TWO_SIDED|95.0|-0.8|2.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.1|-0.8|0.382
82564077|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.8||0.107|TWO_SIDED|95.0|-0.3|2.8||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.8|-0.3|0.107
82564078|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.436|TWO_SIDED|95.0|-0.9|2.0||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in PANSS negative subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.0|-0.9|0.436
82564079|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.3|STANDARD_ERROR_OF_MEAN|1.3||0.073|TWO_SIDED|95.0|-0.2|4.9||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.9|-0.2|0.073
82564080|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.4||0.28|TWO_SIDED|95.0|-1.2|4.2||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.2|-1.2|0.280
82564081|NCT01307800|164837486|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6|STANDARD_ERROR_OF_MEAN|1.3||0.209|TWO_SIDED|95.0|-0.9|4.0||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in PANSS general psychopathology subscores was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||4.0|-0.9|0.209
82564082|NCT01307800|164837487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.137||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||0.137
82564083|NCT01307800|164837487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.824||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||0.824
82564084|NCT01307800|164837487|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||The p-value was 2-sided without adjustment for multiplicity.|Fisher Exact|||||||>0.999
82564085|NCT01307800|164837489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.34|TWO_SIDED|95.0|-0.13|0.38||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.38|-0.13|0.340
82564086|NCT01307800|164837489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.14||0.659|TWO_SIDED|95.0|-0.33|0.21||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.21|-0.33|0.659
82564087|NCT01307800|164837489|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.413|TWO_SIDED|95.0|-0.14|0.35||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||0.35|-0.14|0.413
82564088|NCT01307800|164837490|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.5||0.91|TWO_SIDED|95.0|-3.1|2.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||2.7|-3.1|0.910
82564089|NCT01307800|164837490|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.6||0.265|TWO_SIDED|95.0|-4.9|1.3||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.3|-4.9|0.265
82564090|NCT01307800|164837490|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.4||0.531|TWO_SIDED|95.0|-3.7|1.9||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||1.9|-3.7|0.531
82564091|NCT01307800|164837491|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|2.62||0.983|TWO_SIDED|95.0|-5.21|5.1||The comparison between 80 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||5.10|-5.21|0.983
82564092|NCT01307800|164837491|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|2.74||0.351|TWO_SIDED|95.0|-7.94|2.83||The comparison between 40 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||2.83|-7.94|0.351
82564093|NCT01307800|164837491|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.12|STANDARD_ERROR_OF_MEAN|2.54||0.403|TWO_SIDED|95.0|-2.86|7.11||The comparison between 10 mg LY2140023, BID and placebo for the change from baseline in EQ-5D Questionnaire (VAS) was 2-sided without adjustment for multiplicity.|ANCOVA|||||7.11|-2.86|0.403
82564094|NCT01307800|164837494|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.4||0.021|TWO_SIDED|95.0|-10.4|-0.8||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||-0.8|-10.4|0.021
82564095|NCT01307800|164837494|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|2.6||0.487|TWO_SIDED|95.0|-3.3|6.9||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||6.9|-3.3|0.487
82564096|NCT01307800|164837494|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|2.4||0.693|TWO_SIDED|95.0|-5.6|3.7||The p-value was 2-sided without adjustment for multiplicity.|Mixed Models Analysis|||||3.7|-5.6|0.693
82564097|NCT01307800|164837495|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.661|TWO_SIDED|95.0|-0.1|0.06||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.06|-0.10|0.661
82564098|NCT01307800|164837495|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.201|TWO_SIDED|95.0|-0.14|0.03||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.03|-0.14|0.201
82564099|NCT01307800|164837495|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.697|TWO_SIDED|95.0|-0.09|0.06||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.06|-0.09|0.697
82564100|NCT01307800|164837496|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.694|TWO_SIDED|95.0|-0.2|0.31||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.31|-0.20|0.694
82564101|NCT01307800|164837496|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.596|TWO_SIDED|95.0|-0.34|0.2||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.20|-0.34|0.596
82564102|NCT01307800|164837496|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.13||0.055|TWO_SIDED|95.0|0.0|0.49||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.49|0.00|0.055
82564103|NCT01307800|164837497|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.929|TWO_SIDED|95.0|-0.27|0.29||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.29|-0.27|0.929
82564104|NCT01307800|164837497|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.15||0.519|TWO_SIDED|95.0|-0.19|0.38||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.38|-0.19|0.519
82564105|NCT01307800|164837497|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.14||0.323|TWO_SIDED|95.0|-0.13|0.4||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.40|-0.13|0.323
82564106|NCT01307800|164837498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758||95.0||||The comparison between 80 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.758
82564107|NCT01307800|164837498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.576||95.0||||The comparison between 40 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.576
82564108|NCT01307800|164837498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.425||95.0||||The comparison between 10 mg LY2140023, BID and placebo in the percentage of participants with a change from baseline in C-SSRS suicidal ideation was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Fisher Exact|||||||0.425
82564109|NCT01307800|164837501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.444||95.0||||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) model on rank-transformed change.||||||0.444
82564110|NCT01307800|164837501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||95.0||||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|ANOVA model on rank-transformed change.||||||0.799
82564111|NCT01307800|164837501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0||||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|ANOVA|ANOVA model on rank-transformed change.||||||0.073
82564112|NCT01307800|164837502|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.46||0.761|TWO_SIDED|95.0|-0.76|1.04||The comparison between 80 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||1.04|-0.76|0.761
82564113|NCT01307800|164837502|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.47||0.761|TWO_SIDED|95.0|-0.78|1.06||The comparison between 40 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||1.06|-0.78|0.761
82564114|NCT01307800|164837502|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.44||0.489|TWO_SIDED|95.0|-1.17|0.56||The comparison between 10 mg LY2140023, BID and placebo was conducted at a 2-sided alpha level of 0.05 without adjustment for multiplicity.|Mixed Models Analysis|||||0.56|-1.17|0.489
82564115|NCT02255474|164837520|SUPERIORITY||Mean Difference (Final Values)|-1.01|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons, treatment group p-value|Mixed Models Analysis|||Both eyes used in analysis adjusting for correlation.||||<0.01
82564116|NCT02255474|164837521|SUPERIORITY||quadratic coefficient|0.02||||0.05|TWO_SIDED||||||Mixed Models Analysis|||Individual subject eye length profiles were fit using quadratic equations as a function of gaze angle. The analysis of quadratic coefficients included treatment group, study year (categorical variable), and their interaction adjusted for age, study site, and ethnicity.||||0.05
82564117|NCT02255474|164837522|SUPERIORITY||regression coefficient|-0.12||||0.05|TWO_SIDED||||||Regression, Linear|Models control for age, sex, axial length at baseline, race, treatment group, treatment group by race interaction.||This analysis looks at the three-year change in spherical equivalent refractive error for different eccentricities of peripheral defocus measured with contact lenses in place||||0.05
82564118|NCT02255474|164837523|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.05|TWO_SIDED|||||Adjusted for multiple comparisons|Mixed Models Analysis|||Both eyes used in the analysis controlling for the correlation.||||0.05
82564119|NCT03444298|164837539|SUPERIORITY|||||||0.67||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.67
82564120|NCT03444298|164837540|SUPERIORITY|||||||0.43||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.43
82564121|NCT03444298|164837541|SUPERIORITY|||||||0.27||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.27
82564122|NCT03444298|164837542|SUPERIORITY|||||||0.92||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.92
82522990|NCT01031810|164741392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.56|STANDARD_DEVIATION|10.81||0.012|TWO_SIDED|95.0|3.25|19.86|||paired t-test 2 sided|||Compare the mean differences between baseline (week00) and week12 hamd17 summary scores||19.86|3.25|0.012
82564123|NCT03444298|164837543|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.99
82564124|NCT03444298|164837543|SUPERIORITY|||||||0.04||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.04
82564125|NCT03444298|164837544|SUPERIORITY|||||||0.98||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.98
82564126|NCT03444298|164837544|SUPERIORITY|||||||0.02||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.02
82564127|NCT03444298|164837545|SUPERIORITY|||||||0.84||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.84
82564128|NCT03444298|164837546|SUPERIORITY|||||||0.59||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.59
82564129|NCT03444298|164837547|SUPERIORITY|||||||0.83||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.83
82564130|NCT03444298|164837548|SUPERIORITY|||||||0.51||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||||||0.51
82564131|NCT03444298|164837549|SUPERIORITY|||||||0.48||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||0.48
82564132|NCT03444298|164837550|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||<0.01
82564133|NCT03444298|164837551|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||||<0.0001
82564134|NCT04520256|164837556|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82564135|NCT04520256|164837557|SUPERIORITY||Estimated Change|-0.27||||0.693|TWO_SIDED|95.0|-0.54|0.01|||Mixed Models Analysis|||||0.01|-.54|0.693
82564136|NCT04520256|164837557|SUPERIORITY||Estimated Change|0.09||||0.9|TWO_SIDED|95.0|0.01|0.18|||Mixed Models Analysis|||||0.18|0.01|0.900
82522991|NCT01024608|164741398|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.91|||<|0.001|TWO_SIDED|95.0|-1.3|-0.5||A priori threshold for statistical significance is p\<0.05.|ANCOVA|Repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.3|<0.001
82522992|NCT01024608|164741399|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.92|||<|0.001|TWO_SIDED|95.0|-1.3|-0.5||A priori threshold for statistical significance is p\<0.05|ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.3|<0.001
82522993|NCT01024608|164741400|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.48||||0.005|TWO_SIDED|95.0|-0.8|-0.1||A priori threshold for statistical significance is p\<0.05|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||||-0.1|-0.8|0.005
82522994|NCT01024608|164741401|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo|-0.56||||0.002|TWO_SIDED|95.0|-0.9|-0.2||A priori threshold for statistical significance is p\<0.05|ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction||||-0.2|-0.9|0.002
82522995|NCT02532179|164741415|SUPERIORITY||Mean Ratio|3.0|||<|0.001|TWO_SIDED|95.0|2.09|4.29||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||4.29|2.09|<0.001
82522996|NCT02532179|164741416|SUPERIORITY||Mean Ratio|3.82|||<|0.001|TWO_SIDED|95.0|2.77|5.25||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||5.25|2.77|<0.001
82522997|NCT02532179|164741417|SUPERIORITY||Mean Ratio|6.55|||<|0.001|TWO_SIDED|95.0|3.87|11.06||Null hypothesis: there is no difference in immune modulation over time|Mixed Models Analysis|||||11.06|3.87|<0.001
82564137|NCT04520256|164837557|SUPERIORITY||Estimated Change|-0.03||||0.96|TWO_SIDED|95.0|-0.06|0.01|||Mixed Models Analysis|||||0.01|-0.06|0.960
82564138|NCT04520256|164837557|SUPERIORITY||Estimated Change|0.44||||0.113|TWO_SIDED|95.0|0.01|0.88|||Mixed Models Analysis|||||0.88|0.01|0.113
82564139|NCT04520256|164837557|SUPERIORITY||Estimated Change|0.92||||0.187|TWO_SIDED|95.0|0.01|1.84|||Mixed Models Analysis|||||1.84|0.01|0.187
82564140|NCT04520256|164837558|SUPERIORITY|||||||0.999|||||||Mixed Models Analysis|||||||0.999
82564141|NCT04520256|164837559|SUPERIORITY||Estimated Proportion|0.12||||0.999|TWO_SIDED|95.0|0.0|0.56|||Mixed Models Analysis|||||.56|0|.999
82564142|NCT04520256|164837559|SUPERIORITY||Estimated Proportion|0.15||||0.999|TWO_SIDED|95.0|0.0|0.68|||Mixed Models Analysis|||||.68|0|.999
82564143|NCT04520256|164837559|SUPERIORITY||Estimated Proportion|0.11||||0.999|TWO_SIDED|95.0|0.0|0.52|||Mixed Models Analysis|||||.52|0|.999
82564144|NCT04520256|164837559|SUPERIORITY||Estimated Proportion|0.11||||0.999|TWO_SIDED|95.0|0.0|0.5|||Mixed Models Analysis|||||.50|0|.999
82564145|NCT04520256|164837559|SUPERIORITY||Estimated Proportion|0.1||||0.999|TWO_SIDED|95.0|0.0|0.47|||Mixed Models Analysis|||||.47|0|.999
82564146|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.1571||95.0|-0.41|0.07||The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.|ANCOVA|||Treatment comparisons are for fixed dose combination versus monotherapy.||0.07|-0.41|0.1571
82564147|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0016|TWO_SIDED|95.0|-0.6|-0.14|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.14|-0.60|0.0016
82564148|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0006|TWO_SIDED|95.0|-0.64|-0.18|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.18|-0.64|0.0006
82564149|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0003|TWO_SIDED|95.0|-0.67|-0.2|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.20|-0.67|0.0003
82564150|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.44|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.44|-0.91|<0.0001
82564151|NCT01183013|164837590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.12|-0.66|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-0.66|-1.12|<0.0001
82564152|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.246||||0.4639||95.0|0.692|2.242|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.242|0.692|0.4639
82626144|NCT04532918|164967907|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|99.16|||||TWO_SIDED|90.0|95.02|103.5|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for oxypurinol||103.5|95.02|
82564153|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.746||||0.0546||95.0|0.989|3.083|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.083|0.989|0.0546
82564154|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.903||||0.0254||95.0|1.083|3.345|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.345|1.083|0.0254
82564155|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.804||||0.0009||95.0|1.524|5.159|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.159|1.524|0.0009
82564156|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.429|||<|0.0001||95.0|2.947|10.001|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||10.001|2.947|<0.0001
82564157|NCT01183013|164837591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.614|||<|0.0001||95.0|5.187|17.821|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||17.821|5.187|<0.0001
82564158|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.126||||0.7359||95.0|0.565|2.243|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.243|0.565|0.7359
82564159|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.905||||0.0363||95.0|1.042|3.484|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||3.484|1.042|0.0363
82564160|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.269||||0.4039||95.0|0.726|2.217|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.217|0.726|0.4039
82564161|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0345||95.0|1.06|4.649|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||4.649|1.060|0.0345
82564162|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001||95.0|2.263|9.266|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||9.266|2.263|<0.0001
82564163|NCT01183013|164837592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.066|||<|0.0001||95.0|2.53|10.145|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||10.145|2.530|<0.0001
82564164|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.754||95.0|0.637|1.863|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.863|0.637|0.7540
82564165|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.707||||0.0506||95.0|0.999|2.918|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.918|0.999|0.0506
82564166|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.966||||0.0005|TWO_SIDED|95.0|1.604|5.485|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.485|1.604|0.0005
82564167|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.696||||0.0002||95.0|1.594|4.559|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||4.559|1.594|0.0002
82564168|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.017|||<|0.0001||95.0|2.348|6.873|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||6.873|2.348|<0.0001
82564169|NCT01183013|164837593|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.521|||<|0.0001||95.0|4.63|15.681|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||15.681|4.630|<0.0001
82564170|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68||||0.4275|TWO_SIDED|95.0|-12.77|5.42|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||5.42|-12.77|0.4275
82564171|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84||||0.6839|TWO_SIDED|95.0|-10.69|7.02|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||7.02|-10.69|0.6839
82564172|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.1466|TWO_SIDED|95.0|-15.29|2.28|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||2.28|-15.29|0.1466
82564173|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.38||||0.0002|TWO_SIDED|95.0|-26.35|-8.41|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-8.41|-26.35|0.0002
82564174|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.87|||<|0.0001|TWO_SIDED|95.0|-34.77|-16.98|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-16.98|-34.77|<0.0001
82564175|NCT01183013|164837595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.73|||<|0.0001|TWO_SIDED|95.0|-42.57|-24.89|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c, continuous baseline FPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-24.89|-42.57|<0.0001
82564176|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.61||||0.0057|TWO_SIDED|95.0|-62.42|-10.8|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-10.80|-62.42|0.0057
82564177|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.94||||0.7021||95.0|-30.39|20.51|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||20.51|-30.39|0.7021
82564178|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||0.8932|TWO_SIDED|95.0|-27.95|24.38|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||24.38|-27.95|0.8932
82564179|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65||||0.2706|TWO_SIDED|95.0|-43.6|12.3|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||12.30|-43.60|0.2706
82564180|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.33||||0.0126|TWO_SIDED|95.0|-64.78|-7.89|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-7.89|-64.78|0.0126
82564181|NCT01183013|164837597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.16||||0.0167|TWO_SIDED|95.0|-60.23|-6.08|||ANCOVA|The model includes fixed effects for treatment, continuous baseline HbA1c and 2-hour PPG, prior anti-diabetic medication and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||-6.08|-60.23|0.0167
82564182|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.649||||0.3052||95.0|0.284|1.482|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.482|0.284|0.3052
82564183|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.456||||0.0844|TWO_SIDED|95.0|0.187|1.112|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.112|0.187|0.0844
82564184|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.443||||0.1561|TWO_SIDED|95.0|0.143|1.365|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||1.365|0.143|0.1561
82564185|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.368||||0.0146||95.0|0.165|0.821|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.821|0.165|0.0146
82564186|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.238||||0.0009||95.0|0.102|0.557|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.557|0.102|0.0009
82564187|NCT01183013|164837599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.141||||0.0002||95.0|0.05|0.397|||Regression, Logistic|A logistic regression model with terms for treatment, continuous HbA1c baseline, prior use of antidiabetic agents and country.||Treatment comparisons are for fixed dose combination versus monotherapy.||0.397|0.050|0.0002
82564188|NCT04739306|164837600|EQUIVALENCE|Predefined equivalence margin: -3 letters to +3 letters|Estimated difference in LS means|0.58|||||TWO_SIDED|90.0|-0.52|1.67|||ANCOVA|Analysis conducted for study eye. Primary endpoint as the dependent variable, treatment as a factor, baseline BCVA and country as covariates.||||1.67|-0.52|
82564189|NCT02991456|164837621|OTHER|||||||0.2734|||||||Chi-squared|||||||0.2734
82564190|NCT02991456|164837622|OTHER|||||||0.7091|||||||Chi-squared|||||||0.7091
82564191|NCT02991456|164837623|EQUIVALENCE|This was tested as patients who preferred rolapitant + ondansetron vs. patients who did not prefer rolapitant + ondansetron. Patients who reported no preference and preference to Ondansetron were combined.||||||0.0004|||||||Exact Binomial|||||||0.0004
82564192|NCT02991456|164837623|EQUIVALENCE|Three outcomes tested by sequence.||||||0.5207|||||||Fisher Exact|||||||0.5207
82564193|NCT02991456|164837624|EQUIVALENCE|Effectiveness during weeks 1-3 between sequences.||||||0.0406|||||||t-test, 1 sided|T-test using the Satterthwaite method for unequal variances.||||||0.0406
82564194|NCT02991456|164837625|EQUIVALENCE|Convenience during weeks 1-3 between sequences.||||||0.0541|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.0541
82564195|NCT02991456|164837626|EQUIVALENCE|Overall satisfaction during weeks 1-3 between sequences.||||||0.0781|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.0781
82626145|NCT04532918|164967907|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|96.05|||||TWO_SIDED|90.0|92.15|100.1|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUCinf for oxypurinol||100.1|92.15|
82564196|NCT02991456|164837627|EQUIVALENCE|Effectiveness during weeks 4-6 between sequences.||||||0.4146|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.4146
82564197|NCT02991456|164837628|EQUIVALENCE|Convenience during weeks 4-6 between sequences.||||||0.2214|||||||t-test, 1 sided|T-test using the pooled method for equal variances.||||||0.2214
82564198|NCT02991456|164837629|EQUIVALENCE|Overall satisfaction during weeks 4-6 between sequences.||||||0.2028|||||||t-test, 1 sided|T-test using the Satterthwaite method for unequal variances.||||||0.2028
82564199|NCT02066389|164837664|SUPERIORITY|||||||0.153||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.153
82564200|NCT02066389|164837664|SUPERIORITY|||||||0.018||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.018
82564201|NCT02066389|164837664|SUPERIORITY|||||||0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.001
82564202|NCT02066389|164837664|SUPERIORITY|||||||0.008||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.008
82564203|NCT02066389|164837664|SUPERIORITY|||||||0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.001
82564204|NCT02066389|164837665|SUPERIORITY|||||||0.034||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.034
82564205|NCT02066389|164837665|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
82564206|NCT02066389|164837665|SUPERIORITY|||||||0.002||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.002
82564207|NCT02066389|164837665|SUPERIORITY|||||||0.01||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.010
82564208|NCT02066389|164837665|SUPERIORITY|||||||0.012||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.012
82564209|NCT02066389|164837666|SUPERIORITY|||||||0.023||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.023
82564210|NCT02066389|164837666|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
82564211|NCT02066389|164837666|SUPERIORITY|||||||0.145||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.145
82564212|NCT02066389|164837666|SUPERIORITY|||||||0.007||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.007
82564213|NCT02066389|164837666|SUPERIORITY|||||||0.014||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.014
82564214|NCT02066389|164837667|SUPERIORITY|||||||0.005||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.005
82564215|NCT02066389|164837667|SUPERIORITY||||||<|0.001||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||<0.001
82564216|NCT02066389|164837667|SUPERIORITY|||||||0.01||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.010
82564217|NCT02066389|164837667|SUPERIORITY|||||||0.002||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.002
82564218|NCT02066389|164837667|SUPERIORITY|||||||0.024||||||Statistical tests were 1-sided at a significance level of 0.05.|Fisher Exact|||||||0.024
82564219|NCT02066389|164837668|SUPERIORITY|||||||0.015||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.015
82564220|NCT02066389|164837668|SUPERIORITY|||||||0.008||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.008
82564221|NCT02066389|164837668|SUPERIORITY|||||||0.029||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.029
82564222|NCT02066389|164837668|SUPERIORITY|||||||0.003||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.003
82564223|NCT02066389|164837668|SUPERIORITY|||||||0.343||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.343
82564224|NCT02066389|164837669|SUPERIORITY|||||||0.039||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.039
82564225|NCT02066389|164837669|SUPERIORITY|||||||0.039||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.039
82564226|NCT02066389|164837669|SUPERIORITY|||||||0.046||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.046
82564227|NCT02066389|164837669|SUPERIORITY|||||||0.005||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.005
82626146|NCT04532918|164967908|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.25|||||TWO_SIDED|90.0|91.1|106.0|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for allopurinol||106.0|91.10|
82626147|NCT04532918|164967908|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|101.6|||||TWO_SIDED|90.0|93.99|109.8|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Statistical comparison of AUClast for allopurinol||109.8|93.99|
82626148|NCT04532918|164967908|OTHER|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects|Geometric Mean Ratio (%)|98.05|||||TWO_SIDED|90.0|94.5|101.7|||||Pairwise comparisons of Test 1/ reference (verinurad+allopurinol+cyclosporine/ verinurad+allopurinol alone)|Statistical comparison of AUClast for oxypurinol||101.7|94.50|
82626149|NCT04532918|164967908|OTHER||Geometric Mean Ratio (%)|95.98|||||TWO_SIDED|90.0|92.61|99.48|||||Pairwise comparisons of Test 2/ reference (verinurad+allopurinol+rifampicin/ verinurad+allopurinol alone)|Analysis of variance of log transformed PK parameter with treatment and participant as fixed effects||99.48|92.61|
82564228|NCT02066389|164837669|SUPERIORITY|||||||0.096||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.096
82564229|NCT02066389|164837670|SUPERIORITY|||||||0.269||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.269
82564230|NCT02066389|164837670|SUPERIORITY|||||||0.16||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.160
82564231|NCT02066389|164837670|SUPERIORITY|||||||1||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||1.000
82564232|NCT02066389|164837670|SUPERIORITY|||||||0.16||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||0.160
82564233|NCT02066389|164837670|SUPERIORITY|||||||1||||||Statistical tests were 1-sided at a significance level of 0.05.|Chi-squared|||||||1.000
82564234|NCT00762853|164837671|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82564235|NCT04016415|164837672|SUPERIORITY|Two-sided tests with the null hypothesis of no difference in chg from Baseline to 6MO between the two arms. The power calculation assumed a clinically meaningful diff of 0.5% and standard deviation of 0.9%. Assuming an avg class cohort size of 18 pts and an intraclass correlation coefficient estimate of 0.08 for correlation within cohorts yielded a design effect that inflated the sample size by 1+((18-1) multiplied by 0.08)=2.36. A 15% dropout rate was assumed. 145 pts per arm yielded 80% power.|Mean Difference (Net)|-0.01||||0.96|TWO_SIDED|95.0|-0.36|0.34||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.34|-0.36|0.96
82564236|NCT04016415|164837673|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|-0.07||||0.68|TWO_SIDED|95.0|-0.38|0.25||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.25|-0.38|0.68
82564237|NCT04016415|164837674|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|0.06||||0.41|TWO_SIDED|95.0|-0.09|0.21||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.21|-0.09|0.41
82442150|NCT03906656|164592761|SUPERIORITY||Mean Difference (Final Values)|1.28|STANDARD_DEVIATION|4.37||0.0078|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0. (SAI - Down)|Wilcoxon Signed Rank Test V=438, effect size r = 0.21, p=0.008|||0.0078
82506183|NCT02310919|164704275|NON_INFERIORITY|For the non-inferiority hypothesis testing of the primary outcome, a one-sided 95% CI was constructed for the relative risk. The alternative trigger will be considered non-inferior to the standard trigger if the lower bound of the one-sided CI of the relative risk is not less than 0.8 (i.e. risk reduction limit of 20%).|Risk Ratio (RR)|0.91|||||ONE_SIDED|95.0|0.83|||Using the standard trigger as the reference, the relative risk (i.e. risk ratio) (RR) with 95% confidence interval (CI) for the probability of the outcome was calculated using log-binomial regression models with application of GEE.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The alternative trigger will be considered non-inferior to the standard hCG trigger if it is at least 80% as effective at inducing oocyte competence. Considering a cluster size of 15 oocytes and an estimated intra-cluster correlation of 0.1, we calculated that approximately 50 participants were needed in each study arm when the non-inferiority difference is -0.1 (i.e. 20% of 0.5 total competent proportion) with a power of 0.8 and a one-sided alpha of 0.05.|||0.83|
82506184|NCT02310919|164704276|SUPERIORITY||Risk Ratio (RR)|0.85||||0.06|TWO_SIDED|95.0|0.71|1.01||The statistical significance was based on a two-sided alpha of 0.05.|generalized linear model with log link|Comparison was done using generalized linear modeling with log link function|The numerator was the outcome with the alternative trigger, and the denominator was the outcome with the standard trigger.|The null hypothesis was that there would be no difference in number of oocytes retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.01|0.71|0.06
82506185|NCT02310919|164704277|SUPERIORITY||Risk Ratio (RR)|0.87||||0.13|TWO_SIDED|95.0|0.72|1.04||The statistical significance was based on a two-sided alpha of 0.05.|generalized linear model with log link|Comparison was done using generalized linear modeling with log link function.|The numerator was the outcome with the alternative trigger, and the denominator was the outcome with the standard trigger.|The null hypothesis was that there would be no difference in the number of MII oocytes retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.04|0.72|0.13
82506186|NCT02310919|164704278|SUPERIORITY||Risk Ratio (RR)|0.97||||0.47|TWO_SIDED|95.0|0.9|1.05||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in oocyte maturity rate retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.05|0.90|0.47
82506187|NCT02310919|164704279|SUPERIORITY||Risk Ratio (RR)|0.88||||0.01|TWO_SIDED|95.0|0.76|0.97||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|||0.97|0.76|0.01
82506188|NCT02310919|164704280|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.9|1.1||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in ICSI fertilization rate retrieved between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.10|0.90|0.95
82506189|NCT02310919|164704281|SUPERIORITY||Risk Ratio (RR)|0.95||||0.52|TWO_SIDED|95.0|0.81|1.12||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in the percentage of high quality cleavage-stage embryos between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.12|0.81|0.52
82506190|NCT02310919|164704282|SUPERIORITY||Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.84|1.16||The statistical significance was based on a two-sided alpha of 0.05.|log-binomial regression with GEE||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|||1.16|0.84|0.87
82506191|NCT02310919|164704283|SUPERIORITY||Risk Ratio (RR)|1.01||||1|TWO_SIDED|95.0|0.59|1.74||The statistical significance was based on a two-sided alpha of 0.05.|Fisher Exact||The numerator was the probability of the outcome with the alternative trigger, and the denominator was the probability of the outcome with the standard trigger.|The null hypothesis was that there would be no difference in livebirths in fresh transfers between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||1.74|0.59|1.0
82506192|NCT02310919|164704284|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in bloating scores from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.98
82506193|NCT02310919|164704285|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in abdominal circumference from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.39
82564238|NCT04016415|164837675|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 6MO between the two arms.|Mean Difference (Net)|-0.05||||0.59|TWO_SIDED|95.0|-0.22|0.12||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||0.12|-0.22|0.59
82564239|NCT04016415|164837676|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 2MO between the two arms.|Mean Difference (Net)|1.57||||0.04|TWO_SIDED|95.0|0.07|3.06||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 2MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||3.06|0.07|0.04
82564240|NCT04016415|164837677|SUPERIORITY|All hypothesis tests are two-sided (any difference), with the null hypothesis of no difference in change from Baseline to 6MO between the two arms.|Mean Difference (Net)|0.83||||0.3|TWO_SIDED|95.0|-0.74|2.4||A priori significance level = 0.05; two-sided. Analyses were based upon pre-specified hypotheses, and therefore corrections for multiple testing were not made.|Mixed Models Analysis|Linear; Fixed: arm+visit\[base,2MO,6MO\]+insulin at base+(armXvisit interact); Random: subjects, cohort(arm); Residual: longitudinal repeated measures|Change = 6MO - Baseline; Difference = SME - MBSR; Contrasts were constructed from the linear mixed model to estimate the changes.|||2.40|-0.74|0.30
82564241|NCT00828178|164837678|SUPERIORITY_OR_OTHER|||||||0.87|||||||t-test, 2 sided|||Statistical analysis system (SAS) software was used (SAS Institute Inc. Cary, North Carolina, SAS 9.2). Baseline demographic and clinical characteristics were summarized using appropriate descriptive statistics and compared across treatment groups using Chi-square. Two-sample t tests were used in the statistical analysis of the FMD outcomes. ANCOVA was used to compare the groups with respect to changes in clinical variables adjusting for baseline values.||||0.87
82564242|NCT00828178|164837679|SUPERIORITY_OR_OTHER|||||||0.1801||||||This Statistical Analysis applies category SELENA-SLEDAI|t-test, 2 sided|||||||0.1801
82564243|NCT03905512|164837688|SUPERIORITY|Statistical significance was tested at a level of 0.05.||||||0.181|||||||Cochran-Mantel-Haenszel|||||||0.181
82564244|NCT03293238|164837699|SUPERIORITY|||||||0.527|||||||ANOVA|||||||0.527
82564245|NCT03293238|164837700|SUPERIORITY|||||||0.749|||||||ANOVA|||||||0.749
82564246|NCT05062343|164837740|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82564247|NCT05062343|164837741|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82564248|NCT05062343|164837742|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82564249|NCT05062343|164837743|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82564250|NCT05062343|164837744|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
82564251|NCT05062343|164837745|SUPERIORITY|||||||0.045|||||||Chi-squared|||||||0.045
82564252|NCT05062343|164837746|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82564253|NCT05062343|164837747|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82564254|NCT01082159|164837766|SUPERIORITY_OR_OTHER||change from baseline|3.59|STANDARD_DEVIATION|2.87|<|0.0001|TWO_SIDED|95.0|2.76|4.42|||t-test, 2 sided|||||4.42|2.76|<0.0001
82564255|NCT01082159|164837767|SUPERIORITY_OR_OTHER||Change from Baseline|12.17|STANDARD_DEVIATION|19.14|<|0.0001|TWO_SIDED|95.0|6.64|17.71|||t-test, 2 sided|||||17.71|6.64|<0.0001
82564256|NCT02009865|164837769|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-14.2||||0.017|TWO_SIDED|95.0|-26.2|-2.8|||Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure|Missing values were imputed using probabilities of missing estimated from logistic regression||-2.8|-26.2|0.017
82564257|NCT02009865|164837770|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-26.3||||0.0008|TWO_SIDED|95.0|-40.5|-11.5|||Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Main analysis with missing values imputed using probabilities of missing estimated from logistic regression||-11.5|-40.5|0.0008
82564258|NCT02009865|164837771|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-9.0||||0.018|TWO_SIDED|95.0|-14.8|-2.8||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||-2.8|-14.8|0.0180
82564259|NCT02009865|164837772|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.3||||0.7117|TWO_SIDED|95.0|-3.5|4.9||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||4.9|-3.5|0.7117
82564260|NCT02009865|164837773|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.3||||0.3034|TWO_SIDED|95.0|-23.9|3.5||Adjusted by using Hommel's procedure|Wilcoxon (Mann-Whitney)||The estimated median difference and its 95% CI were based on Hodges Lehmann procedure.|Missing values were imputed using probabilities of missing estimated from logistic regression||3.5|-23.9|0.3034
82564261|NCT00267774|164837784|OTHER||||||<|0.0001||||||A 2-sided value of P\<0.05 was considered to indicate statistical significance.|t-test, 2 sided|||||||<0.0001
82564262|NCT03677986|164837792|SUPERIORITY||Odds Ratio (OR)|0.92||||0.914|TWO_SIDED|95.0|0.21|4.14|||GEE|||||4.14|.21|0.914
82564263|NCT00424502|164837806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.017|STANDARD_DEVIATION|1.34|<|0.0001|TWO_SIDED|95.0|1.39|2.64|||t-test, 2 sided|||Change from Baseline to Week 24||2.64|1.39|<0.0001
82564264|NCT00424502|164837807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_DEVIATION|0.259|<|0.0001|TWO_SIDED|95.0|0.151|0.401|||t-test, 2 sided|||Change from baseline to Week 24||0.401|0.151|<0.0001
82564265|NCT00424502|164837810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4|STANDARD_DEVIATION|23.24||0.012|TWO_SIDED|95.0|3.52|25.28|||t-test, 2 sided|||Change from baseline to Week 24||25.28|3.52|0.012
82564266|NCT00424502|164837811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|STANDARD_DEVIATION|8.21||0.337|TWO_SIDED|95.0|-2.03|5.65|||t-test, 2 sided|||Change from baseline to Week 24||5.65|-2.03|0.337
82564267|NCT00635609|164837835|SUPERIORITY_OR_OTHER|||||||0.765||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site.||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.765
82564268|NCT00635609|164837836|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site.||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.290
82564269|NCT00635609|164837837|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Cochran-Mantel-Haenszel|Stratified on investigational site||Study not adequately powered to detect differences in efficacy outcomes. Results to provide estimates of safety and efficacy outcomes.||||0.033
82564270|NCT05492786|164837853|SUPERIORITY|||||||0.517||||||The p-value reported is 2-tailed and based on heteroskedasticity-robust standard errors.|Regression, Linear|||Null hypothesis: there is no difference in flu shots for patients whose clinicians were shown alerts with information about their risk status (patients randomized to the High-risk Alert or High-risk Alert with Risk Factors arms) compared with those whose clinicians were shown the standard alert. Alternative hypothesis: patients in the High-risk Alert and High-risk Alert with Risk Factors arms will exhibit improved flu vaccination rates compared with those in the standard Alert arm.||||0.517
82564271|NCT05492786|164837853|SUPERIORITY|||||||0.226||||||The p-value reported is 2-tailed and based on heteroskedasticity-robust standard errors.|Regression, Linear|||Null hypothesis: there is no difference in flu shots for patients whose clinicians were shown alerts the factors that contributed to a patient's high risk (High-risk Alert with Risk Factors arm) compared with those whose clinicians were shown the alert with risk level only (High-risk Alert arm). Alternative hypothesis: patients in the High-risk Alert with Risk Factors arm will exhibit improved flu vaccination rates compared with those in the High-risk Alert arm.||||0.226
82564272|NCT06091982|164837878|SUPERIORITY||Odds Ratio (OR)|10.6|||<|0.0001|TWO_SIDED|95.0|7.0|16.2|||Chi-squared|||Bivariable analysis of both groups||16.2|7.0|<0.0001
82564273|NCT06091982|164837878|OTHER|Multiple logistic regression|Odds Ratio, log|3.4|||<|0.0001|TWO_SIDED|95.0|2.0|6.1|||Regression, Logistic|||Multivariable analysis||6.1|2.0|<0.0001
82564274|NCT06091982|164837879|SUPERIORITY||Odds Ratio (OR)|12.5|||<|0.0001|TWO_SIDED|95.0|9.1|17.1|||Chi-squared|||||17.1|9.1|<0.0001
82564275|NCT06091982|164837879|SUPERIORITY||Odds Ratio, log|4.4|||<|0.0001|TWO_SIDED|95.0|2.8|7.0|||Regression, Logistic|||||7.0|2.8|<0.0001
82564276|NCT06091982|164837880|SUPERIORITY||Odds Ratio (OR)|15.6|||<|0.0001|TWO_SIDED|95.0|11.3|21.6|||Chi-squared|||||21.6|11.3|<0.0001
82564277|NCT06091982|164837880|OTHER||Odds Ratio, log|5.2|||<|0.0001|TWO_SIDED|95.0|3.3|8.2|||Regression, Logistic|||||8.2|3.3|<0.0001
82564278|NCT02680314|164837890|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
82564279|NCT04198428|164837911|SUPERIORITY||Odds Ratio (OR)|1.49|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
82564280|NCT04198428|164837912|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
82564281|NCT04198428|164837913|SUPERIORITY||Odds Ratio (OR)|1.43|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
82564282|NCT04198428|164837914|SUPERIORITY||Risk Ratio (RR)|0.99|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Zero-inflated negative binomial mixed-model regression adjusted for site and clinic factors balanced at randomization||||||<0.05
82564283|NCT04198428|164837915|SUPERIORITY||Risk Ratio (RR)|0.93|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors||||||<0.05
82564284|NCT04198428|164837916|SUPERIORITY||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors||||||<0.05
82564285|NCT04198428|164837917|SUPERIORITY||Mean Difference (Net)|-1068.0|||<|0.05|TWO_SIDED||||||Mixed Models Analysis||Generalized estimating equation comparing post- to pre-index costs in OUD-CDS vs. Usual Care, adjusted for site and balancing factors|||||<0.05
82564286|NCT04198428|164837918|SUPERIORITY||Odds Ratio (OR)|1.06|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82564287|NCT04198428|164837919|SUPERIORITY||Risk Ratio (RR)|1.08|||<|0.05|TWO_SIDED||||||Mixed Models Analysis||Generalized estimating equation comparing post- to pre-index rates in OUD-CDS vs. Usual Care, adjusted for site and balancing factors|||||<0.05
82564288|NCT04396860|164837920|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.96|TWO_SIDED|95.0|0.98|2.21|||Log Rank|Stratified log-rank|Reference level = Arm 1|For the phase II endpoint, observation of 100 PFS events among the 150 randomized patients (from both arms) provides 95% statistical power to detect an improvement in median PFS from 5.7 months in the control arm to 9.7 months in the experimental arm, corresponding to a hazard reduction of 42% (hazard ratio 0.58) at one-sided significance level of 0.15 (and 87% power for hazard ratio of 0.65 at this same alpha).||2.21|0.98|0.96
82564289|NCT02169089|164837935|SUPERIORITY||Median Difference (Final Values)|-7.78||||0.0293|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0293
82564290|NCT02169089|164837936|SUPERIORITY||Median Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -3.5 and 2.1 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||<0.0001
82564291|NCT02169089|164837937|SUPERIORITY||Median Difference (Final Values)|-40.7||||0.0189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -10.3 and 17.1 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||0.0189
82564292|NCT02169089|164837938|SUPERIORITY||Median Difference (Final Values)|-7.5||||0.1276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The mean reported -5.95 and 2 represents the mean change between follow-up \& baseline visit. The statistical test (Mann-Whitney) reported Median difference of -2.6, which corresponds to the difference between the spironolactone and placebo group.|||||0.1276
82564293|NCT01838499|164837985|SUPERIORITY_OR_OTHER||Difference in proportions|0.051|||>|0.05|TWO_SIDED|80.0|-0.067|0.169|||Mixed Models Analysis||MEDI8968 - placebo|Analysis of proportion of Responders for Physician's Global Assessment (PGA score 0, 1 or 2) at Week 12 - LOCF. Difference in proportions MEDI8968 - placebo. Wald asymptotic confidence limits calculated.||0.169|-0.067|>0.05
82564294|NCT01838499|164837986|SUPERIORITY_OR_OTHER||Difference in proportions|-0.065|||>|0.05|TWO_SIDED|80.0|-0.205|0.076|||Mixed Models Analysis|||Difference in proportions MEDI8968 - placebo. Wald asymptotic confidence limits calculated.||0.076|-0.205|>0.05
82564295|NCT01838499|164837987|SUPERIORITY_OR_OTHER||Change from baseline (at week 12)|-0.03||||0.945|TWO_SIDED|80.0|-0.63|0.57|||ANCOVA||MEDI8968 - Placebo|Analysis of change from baseline (Week 12) estimated from ANCOVA model with tmt group and PGA stratum at randomisation included in the model and average daily pain at baseline as a covariate||0.57|-0.63|0.945
82564296|NCT03614923|164837988|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints would be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|Least Squares (LS) Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.319||0.2364|TWO_SIDED|95.0|-1.01|0.25||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in NPS as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline NPS as covariate; and subject as random effect.||0.25|-1.01|0.2364
82564297|NCT03614923|164837988|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.316||0.2024|TWO_SIDED|95.0|-1.03|0.22||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in NPS as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline NPS as covariate; and subject as random effect.||0.22|-1.03|0.2024
82564298|NCT03614923|164837989|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-6.64|STANDARD_ERROR_OF_MEAN|4.383||0.133|TWO_SIDED|95.0|-15.34|2.06||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in SNOT-22 as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline SNOT-22 as covariate; and subject as random effect.||2.06|-15.34|0.1330
82564299|NCT03614923|164837989|SUPERIORITY|Statistical significance for the co-primary efficacy endpoints was to be declared if both p-values for the tests of the individual hypotheses were \< 0.05.|LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|4.375||0.6464|TWO_SIDED|95.0|-10.7|6.67||Testing was conducted in a hierarchical manner such that the comparison of etokimab Q4W versus placebo was conducted first. If the results of this comparison were statistically significant, the etokimab Q8W treatment arm would be compared to placebo.|General linear MMRM|||A general linear mixed effects model with repeated measures (MMRM) was used including the change from Baseline in SNOT-22 as dependent variable; treatment group, stratification factor, time (Weeks 4, 8, 12, and 16), treatment by stratification factor, and treatment by time interaction as fixed effect factors; Baseline SNOT-22 as covariate; and subject as random effect.||6.67|-10.70|0.6464
82564300|NCT01882088|164837991|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||2e-06|||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||0.000002
82564301|NCT01882088|164837992|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||0.2
82442151|NCT03906656|164592762|SUPERIORITY||Mean Difference (Final Values)|-3.41|STANDARD_DEVIATION|17.0||0.002|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||||Wilcoxon Signed Rank Test V=267, effect size r = 0.32, p=0.002|||0.0020
82506194|NCT02310919|164704286|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that there would be no difference in the change in body weight from day of baseline ultrasound to post-trigger day 5 between the patients triggered with low dose hCG plus FSH co-trigger and the standard hCG trigger.||||0.41
82506195|NCT02310919|164704287|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506196|NCT02310919|164704288|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506197|NCT02310919|164704289|SUPERIORITY|||||||0.08||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.08
82506198|NCT02310919|164704290|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506199|NCT02310919|164704291|SUPERIORITY|||||||0.67||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.67
82506200|NCT02310919|164704292|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506201|NCT02310919|164704293|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506202|NCT02310919|164704294|SUPERIORITY|||||||0.49||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.49
82506203|NCT02310919|164704295|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506204|NCT02310919|164704296|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506205|NCT02310919|164704297|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506206|NCT02310919|164704298|SUPERIORITY|||||||0.16||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.16
82506207|NCT02310919|164704299|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506208|NCT02310919|164704300|SUPERIORITY||||||<|0.001||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82506209|NCT02310919|164704301|SUPERIORITY|||||||0.95||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.95
82506210|NCT02310919|164704302|SUPERIORITY|||||||0.07||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.07
82506211|NCT02310919|164704303|SUPERIORITY|||||||0.66||||||The statistical significance was based on a two-sided alpha of 0.05.|Wilcoxon (Mann-Whitney)|||||||0.66
82506212|NCT03244865|164704304|NON_INFERIORITY|Non-inferiority will be verified if the RMSE between the two systems is within 7 BPM. A complete power analysis was not included as this is a pilot study.|||||<|0.1||||||Pilot Study|t-test, 2 sided|||There is only one ARM in the study. Standard monitoring and LaborView monitoring will be collected simultaneously and analyzed.||||<.1
82506213|NCT03616912|164704319|SUPERIORITY||Odds Ratio (OR)|1.57||||0.016|TWO_SIDED|95.0|1.09|2.27|||Regression, Logistic|||||2.27|1.09|0.016
82506214|NCT03616912|164704320|SUPERIORITY||Odds Ratio (OR)|1.14||||0.47|TWO_SIDED|95.0|0.79|1.65|||Regression, Logistic|||||1.65|0.79|0.470
82506215|NCT03616912|164704321|SUPERIORITY||Odds Ratio (OR)|0.96||||0.839|TWO_SIDED|95.0|0.63|1.45|||Regression, Logistic|||||1.45|0.63|0.839
82506216|NCT03616912|164704321|SUPERIORITY||Odds Ratio (OR)|1.19||||0.391|TWO_SIDED|95.0|0.8|1.79|||Regression, Logistic|||||1.79|0.80|0.391
82506217|NCT03616912|164704323|SUPERIORITY||Odds Ratio (OR)|0.94||||0.82|TWO_SIDED|95.0|0.53|1.66|||Regression, Logistic|||||1.66|0.53|0.820
82506218|NCT03616912|164704323|SUPERIORITY||Odds Ratio (OR)|1.18||||0.565|TWO_SIDED|95.0|0.67|2.08|||Regression, Logistic|||||2.08|0.67|0.565
82506219|NCT03616912|164704324|SUPERIORITY||LS Mean Difference Final Values|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.598|TWO_SIDED|95.0|-0.52|0.3|||Mixed Models Analysis|||||0.30|-0.52|0.598
82506220|NCT03616912|164704324|SUPERIORITY||LS Mean Difference Final Values|-0.09|STANDARD_ERROR_OF_MEAN|0.21||0.674|TWO_SIDED|95.0|-0.5|0.32|||Mixed Models Analysis|||||0.32|-0.50|0.674
82506221|NCT03616912|164704325|SUPERIORITY||LS Mean Difference Final Values|0.02|STANDARD_ERROR_OF_MEAN|0.85||0.979|TWO_SIDED|95.0|-1.65|1.7|||Mixed Models Analysis|||||1.70|-1.65|0.979
82506222|NCT03616912|164704325|SUPERIORITY||LS Mean Difference Final Values|-0.36|STANDARD_ERROR_OF_MEAN|0.86||0.678|TWO_SIDED|95.0|-2.03|1.32|||Mixed Models Analysis|||||1.32|-2.03|0.678
82506223|NCT03616912|164704326|SUPERIORITY||Odds Ratio (OR)|1.02||||0.965|TWO_SIDED|95.0|0.43|2.42|||Regression, Logistic|||||2.42|0.43|0.965
82506224|NCT03616912|164704326|SUPERIORITY||Odds Ratio (OR)|1.22||||0.661|TWO_SIDED|95.0|0.51|2.92|||Regression, Logistic|||||2.92|0.51|0.661
82506225|NCT03616912|164704327|SUPERIORITY||LS Mean Difference Final Values|0.24|STANDARD_ERROR_OF_MEAN|0.43||0.578|TWO_SIDED|95.0|-0.61|1.08|||Mixed Models Analysis|||||1.08|-0.61|0.578
82506226|NCT03616912|164704327|SUPERIORITY||LS Mean Difference Final Values|-0.44|STANDARD_ERROR_OF_MEAN|0.433||0.309|TWO_SIDED|95.0|-1.29|0.41|||Mixed Models Analysis|||||0.41|-1.29|0.309
82506227|NCT03616912|164704328|SUPERIORITY||LS Mean Difference Final Values|-0.29|STANDARD_ERROR_OF_MEAN|0.277||0.287|TWO_SIDED|95.0|-0.84|0.25|||Mixed Models Analysis|||||0.25|-0.84|0.287
82506228|NCT03616912|164704328|SUPERIORITY||LS Mean Difference Final Values|-0.44|STANDARD_ERROR_OF_MEAN|0.278||0.113|TWO_SIDED|95.0|-0.99|0.11|||Mixed Models Analysis|||||0.11|-0.99|0.113
82626150|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-8.6|-3.86|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-3.86|-8.60|
82506229|NCT01856790|164704335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.05
82506230|NCT01856790|164704336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.002
82506231|NCT01856790|164704338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.97
82506232|NCT01856790|164704342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon Matched Pairs signed rank tests|||||||.001
82506233|NCT01856790|164704343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon Matched Pairs signed rank tests|||||||0.005
82506234|NCT01921829|164704345|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82506235|NCT01921829|164704346|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
82506236|NCT01921829|164704348|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
82506237|NCT01921829|164704349|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
82506238|NCT01921829|164704350|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
82506239|NCT01921829|164704351|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
82564302|NCT01882088|164837993|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.002415|||||||Wilcoxon (Mann-Whitney)|||||||0.002415
82564303|NCT01882088|164837994|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.000438|||||||Wilcoxon (Mann-Whitney)|||||||0.000438
82564304|NCT01882088|164837995|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||||||0.023
82564305|NCT01882088|164837996|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82564306|NCT01882088|164837997|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82564307|NCT01882088|164837998|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
82564308|NCT01882088|164837999|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82564309|NCT01882088|164838000|EQUIVALENCE|Data were analyzed using Statistica 10 software. Wilcoxon matched pairs test of non-parametric module was used to assess changes of the studied parameters after the course of fiber supplementation in comparison to baseline. A P value of 0.05 was considered statistically significant. Sample size calculation was performed using 1-Way ANOVA. Effect size calculation was performed for every comparison.||||||2e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00002
82442152|NCT03906656|164592763|SUPERIORITY||Mean Difference (Final Values)|-1.11|STANDARD_DEVIATION|3.178||0.0023|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0. (Fear of falling - indoors)|Wilcoxon Signed Rank Test V=433, effect size r = 0.33, p=0.002|||0.0023
82564310|NCT00125619|164838001|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Between group comparison of Robot (Lokomat) vs. Manual (therapist-assisted) training.||||0.72
82564311|NCT00125619|164838001|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group test for change pre- vs. post-training due to Robot (Lokomat) training.||||<.05
82626151|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-7.78|-3.06|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-3.06|-7.78|
82564312|NCT00125619|164838001|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group test for change pre- vs. post-training due to Manual (Therapist Assisted) training.||||>.05
82564313|NCT00125619|164838002|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between-groups comparison of Robot vs. Manual training.||||>0.05
82564314|NCT00125619|164838002|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within groups comparison (pre- vs. post-treatment) due to Manual (therapist-assisted) treatment.||||>.05
82564315|NCT00125619|164838002|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within-groups comparison of pre- vs. post-treatment effects for Robot (Lokomat) training.||||<.05
82564316|NCT00125619|164838003|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between-groups comparison of robot vs. manual training.||||>.05
82564317|NCT00125619|164838003|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects for manual training.||||>.05
82564318|NCT00125619|164838003|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon signed ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||>.05
82564319|NCT00125619|164838004|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of effects of robot vs. manual training.||||>.05
82564320|NCT00125619|164838004|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within groups comparison of pre- vs. post-treatment effects of manual training.||||>.05
82564321|NCT00125619|164838004|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of robot training.||||<.05
82506240|NCT01921829|164704352|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
82506241|NCT01921829|164704353|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82506242|NCT01921829|164704354|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
82506243|NCT01921829|164704355|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
82506244|NCT01921829|164704356|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
82506245|NCT01921829|164704357|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
82506246|NCT01921829|164704358|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
82506247|NCT01921829|164704359|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82506248|NCT01921829|164704360|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82506249|NCT01921829|164704361|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
82506250|NCT01921829|164704362|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
82506251|NCT01921829|164704363|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82506252|NCT01921829|164704364|SUPERIORITY||||||>|0.95|||||||t-test, 2 sided|||||||>0.95
82506253|NCT01921829|164704365|SUPERIORITY||||||>|0.95|||||||Fisher Exact|||||||>0.95
82506254|NCT01762943|164704373|SUPERIORITY|||||||0.27|||||||repeated measures ANOVA|F=1.40, df=2,26||||||.27
82506255|NCT01762943|164704374|SUPERIORITY|||||||0.018|||||||repeated measures ANOVA|F=6.29, df=1,28||||||.018
82506256|NCT03090100|164704443|NON_INFERIORITY|Non-inferiority margin of 10%|Difference in percentage|14.2|||<|0.001|TWO_SIDED|95.0|9.2|19.2|||z-test|||||19.2|9.2|<0.001
82378356|NCT00535405|164465083|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.54|STANDARD_ERROR_OF_MEAN|0.32||0.039||95.0|1.02|2.32||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.32|1.02|0.039
82506257|NCT03090100|164704443|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82506258|NCT03090100|164704444|NON_INFERIORITY|Non-inferiority margin of 10%|Difference in percentage|4.3|||<|0.001|TWO_SIDED|95.0|-0.2|8.9|||z-test|||||8.9|-0.2|<0.001
82506259|NCT03090100|164704444|SUPERIORITY|||||||0.062|||||||Cochran-Mantel-Haenszel|||||||0.062
82506260|NCT03090100|164704445|OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-12.2|-1.7||||||||-1.7|-12.2|
82506261|NCT03090100|164704446|OTHER||Difference in percentage|-2.3|||||TWO_SIDED|95.0|-6.0|1.2||||||||1.2|-6.0|
82506262|NCT03090100|164704447|OTHER||Difference in percentage|9.7|||||TWO_SIDED|95.0|3.8|15.5||||||||15.5|3.8|
82506263|NCT03090100|164704448|OTHER||Difference in percentage|11.6|||||TWO_SIDED|95.0|5.8|17.4||||||||17.4|5.8|
82506264|NCT03090100|164704449|OTHER||Difference in percentage|9.7|||||TWO_SIDED|95.0|4.9|14.5||||||||14.5|4.9|
82506265|NCT03090100|164704450|OTHER||Difference in percentage|7.8|||||TWO_SIDED|95.0|2.3|13.2||||||||13.2|2.3|
82506266|NCT03090100|164704451|OTHER||Difference in percentage|-0.3|||||TWO_SIDED|95.0|-3.5|3.1||||||||3.1|-3.5|
82506267|NCT03090100|164704452|OTHER||Difference in percentage|-1.4|||||TWO_SIDED|95.0|-6.2|3.4||||||||3.4|-6.2|
82506268|NCT03090100|164704453|OTHER||Difference in percentage|9.8|||||TWO_SIDED|95.0|4.2|15.3||||||||15.3|4.2|
82506269|NCT03090100|164704454|OTHER||Difference in percentage|-0.1|||||TWO_SIDED|95.0|-4.2|3.9||||||||3.9|-4.2|
82506270|NCT03090100|164704455|OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-5.0|3.3||||||||3.3|-5.0|
82506271|NCT00159588|164704461|SUPERIORITY|||||||0.056||||||Between-group analysis|Kruskal-Wallis|||Kruskal-Wallis test||||0.056
82506272|NCT00159588|164704462|SUPERIORITY|Between-group analysis||||||0.012||||||Between-group analysis|t-test, 2 sided|Kruskal-Wallis test||Kruskal-Wallis test||||0.012
82506273|NCT00456521|164704475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.21|||<|0.001||95.0|-5.56|-2.86|||ANCOVA|||||-2.86|-5.56|<0.001
82506274|NCT00456521|164704476|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.89|||<|0.001||95.0|2.02|4.13|||Regression, Logistic|||||4.13|2.02|<0.001
82506275|NCT00456521|164704477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92|||<|0.001|TWO_SIDED|95.0|1.95|4.37|||Regression, Logistic|||||4.37|1.95|<0.001
82506276|NCT00456521|164704478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.21|||<|0.001|TWO_SIDED|95.0|-4.82|-1.6|||ANCOVA|||||-1.60|-4.82|<0.001
82506277|NCT00456521|164704479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.11||||0.004|TWO_SIDED||||||ANCOVA|||||||0.004
82506278|NCT00456521|164704480|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.53||||0.003|TWO_SIDED||||||ANCOVA|||||||0.003
82506279|NCT00456521|164704481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.23|||<|0.001|TWO_SIDED|95.0|1.52|4.95|||ANCOVA|||||4.95|1.52|<0.001
82506280|NCT00456521|164704482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.14||||0.001|TWO_SIDED|95.0|1.23|5.04|||ANCOVA|||||5.04|1.23|0.001
82506281|NCT00456521|164704483|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.37||||0.003|TWO_SIDED||||||ANCOVA|||||||0.003
82506282|NCT00456521|164704484|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.98||||0.165|TWO_SIDED||||||ANCOVA|||||||0.165
82506283|NCT00456521|164704485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.28|||||TWO_SIDED|95.0|-3.34|0.79||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.79|-3.34|
82506284|NCT00456521|164704486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|||||TWO_SIDED|95.0|-7.26|1.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.86|-7.26|
82506285|NCT00456521|164704487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.55|||||TWO_SIDED|95.0|0.97|4.14||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.14|0.97|
82506286|NCT00456521|164704488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37|||||TWO_SIDED|95.0|0.25|2.49||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.49|0.25|
82506287|NCT00456521|164704489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.7|0.87||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.87|-0.70|
82506288|NCT00456521|164704490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.85|0.63||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.63|-0.85|
82506289|NCT00456521|164704491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.78|0.6||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.60|-0.78|
82506290|NCT00456521|164704492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.29|||||TWO_SIDED|95.0|-9.16|-1.42||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-1.42|-9.16|
82522998|NCT01077830|164741419|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.84|2.09|||Regression, Cox||Hazard Ratio obtained by dividing the crude rate of death (any cause) reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of death (any cause) in the Placebo arm|||2.09|0.84|
82522999|NCT01077830|164741420|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.3|6.06|||||Hazard Ratio obtained by dividing the crude rate of death from cancer reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of death from cancer in the Placebo arm|||6.06|0.30|
82564322|NCT00125619|164838005|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
82564323|NCT00125619|164838005|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Within groups comparison for pre- vs. post-training effects of manual training.||||>.05
82564324|NCT00125619|164838005|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Within group comparison for pre- vs. post-training effects of robot training.||||>.05
82564325|NCT00125619|164838006|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
82564326|NCT00125619|164838006|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of manual training.||||>.05
82564327|NCT00125619|164838006|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||<.05
82564328|NCT00125619|164838007|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Between groups comparison of robot vs. manual training.||||>.05
82564329|NCT00125619|164838007|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-training effects of manual training.||||<.05
82564330|NCT00125619|164838007|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon Signed Ranks|||Within group comparison of pre- vs. post-treatment effects of robot training.||||<.05
82564331|NCT00168805|164838014|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2%. This results from the null-hypotheses of non-inferiority testing, where the absolute risk difference has to be below 9.2%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|-1.3||||0.6648||95.0|-7.3|4.6||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.6|-7.3|0.6648
82564332|NCT00168805|164838014|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2%. This results from the null-hypotheses of non-inferiority testing, where the absolute risk difference has to be below 9.2%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|2.8||||0.3553||95.0|-3.1|8.7||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||8.7|-3.1|0.3553
82564333|NCT00168805|164838015|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.0||||0.376||95.0|-3.1|1.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.2|-3.1|0.3760
82564334|NCT00168805|164838015|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.8151||95.0|-2.0|2.6|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.6|-2.0|0.8151
82564335|NCT00168805|164838016|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.8||||0.4715||95.0|-2.8|1.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.3|-2.8|0.4715
82564336|NCT00168805|164838016|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.1||||0.9325||95.0|-2.1|2.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.3|-2.1|0.9325
82564337|NCT00168805|164838017|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.4||||0.6463||95.0|-7.3|4.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.5|-7.3|0.6463
82564338|NCT00168805|164838017|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|2.7||||0.374||95.0|-3.2|8.6|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||8.6|-3.2|0.3740
82564339|NCT00168805|164838018|SUPERIORITY_OR_OTHER|||||||0.0385||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0385
82564340|NCT00168805|164838018|SUPERIORITY_OR_OTHER|||||||0.1414||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1414
82564341|NCT00168805|164838019|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82564342|NCT00168805|164838019|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82564343|NCT00168805|164838020|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82564344|NCT00168805|164838020|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82564345|NCT00168805|164838022|SUPERIORITY_OR_OTHER|||||||0.8209||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.8209
82564346|NCT00168805|164838022|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82564347|NCT02604199|164838047|SUPERIORITY||LS Mean Difference|-0.086|STANDARD_ERROR_OF_MEAN|0.048||0.081|TWO_SIDED|95.0|-0.183|0.011||Mixed effect model repeat measurement (MMRM) includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit.|MMRM|Within-subject covariance is unstructured.||||0.011|-0.183|0.0810
82564348|NCT02604199|164838047|SUPERIORITY||LS Mean Difference|-0.309|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.406|-0.212||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||||-0.212|-0.406|<.0001
82564349|NCT02604199|164838047|SUPERIORITY||LS Mean Difference|-0.223|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|-0.322|-0.124||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||||-0.124|-0.322|<.0001
82564350|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.089|STANDARD_ERROR_OF_MEAN|0.046||0.0583|TWO_SIDED|95.0|-0.181|0.003||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||0.003|-0.181|0.0583
82564351|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.176|STANDARD_ERROR_OF_MEAN|0.045||0.003|TWO_SIDED|95.0|-0.267|-0.085||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||-0.085|-0.267|0.003
82564352|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.087|STANDARD_ERROR_OF_MEAN|0.047||0.067|TWO_SIDED|95.0|-0.181|0.006||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 15||0.006|-0.181|0.0670
82564353|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0875|TWO_SIDED|95.0|-0.151|0.011||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||0.011|-0.151|0.0875
82564354|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.179|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.259|-0.1||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||-0.100|-0.259|<.0001
82564355|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.109|STANDARD_ERROR_OF_MEAN|0.041||0.0099|TWO_SIDED|95.0|-0.191|-0.027||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 29||-0.027|-0.191|0.0099
82564356|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.143|STANDARD_ERROR_OF_MEAN|0.043||0.0017|TWO_SIDED|95.0|-0.229|-0.057||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.057|-0.229|0.0017
82564357|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.265|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|-0.349|-0.18||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.180|-0.349|<.0001
82564358|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.122|STANDARD_ERROR_OF_MEAN|0.043||0.0072|TWO_SIDED|95.0|-0.209|-0.035||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 43||-0.035|-0.209|0.0072
82564359|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.118|STANDARD_ERROR_OF_MEAN|0.039||0.0043|TWO_SIDED|95.0|-0.197|-0.039||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.039|-0.197|0.0043
82564360|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.298|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.376|-0.221||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.221|-0.376|< 0.0001
82564361|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.181|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.261|-0.1||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 57||-0.100|-0.261|<.0001
82564362|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.132|STANDARD_ERROR_OF_MEAN|0.048||0.0084|TWO_SIDED|95.0|-0.228|-0.035||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.035|-0.228|0.0084
82564363|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.338|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|-0.433|-0.243||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.243|-0.433|<.0001
82564364|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.206|STANDARD_ERROR_OF_MEAN|0.049||0.0001|TWO_SIDED|95.0|-0.304|-0.108||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 71||-0.108|-0.304|0.0001
82442153|NCT03906656|164592763|SUPERIORITY||Mean Difference (Final Values)|-0.973|STANDARD_DEVIATION|3.43||0.0066|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||||Wilcoxon Signed Rank Test V=557.5, effect size r = 0.265, p=0.0066|||0.0066
82564365|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.096|STANDARD_ERROR_OF_MEAN|0.05||0.0589|TWO_SIDED|95.0|-0.195|0.004||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||0.004|-0.195|0.0589
82564366|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.335|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|-0.433|-0.236||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||-0.236|-0.433|<.0001
82564367|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.239|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.34|-0.137||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 85||-0.137|-0.340|<.0001
82564368|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.132|STANDARD_ERROR_OF_MEAN|0.052||0.0138|TWO_SIDED|95.0|-0.236|-0.028||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.028|-0.236|0.0138
82564369|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.355|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.458|-0.252||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.252|-0.458|<.0001
82564370|NCT02604199|164838048|SUPERIORITY||LS Mean|-0.223|STANDARD_ERROR_OF_MEAN|0.053||0.0001|TWO_SIDED|95.0|-0.329|-0.117||MMRM includes terms of parameter baseline as continuous covariate, and treatment and visit as fixed factors, interaction of treatment and visit, and interaction of parameter baseline and visit. Within-subject covariance is unstructured.|MMRM|||Day 99||-0.117|-0.329|0.0001
82564371|NCT02342275|164838064|NON_INFERIORITY|Assuming that the atenolol on the propranolol response rate does not fall by greater than 15%, the noninferiority margin was selected to be -15%.|Odds Ratio (OR)|0.15|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||Treatment Difference=Propranolol vs Atenolol|The sample size required to compare propranolol and atenolol at month 6 was calculated before enrollment. Assuming the ulceration rate in both groups to be 10%, a sample size of180 patients was required for each group to show the noninferiority ofatenolol treatment with a 2-sidedα level of .05 and approximately 90% power||||<0.05
82564372|NCT02100189|164838070|SUPERIORITY_OR_OTHER||Sensitivity|13.3|STANDARD_ERROR_OF_MEAN|0.062|||TWO_SIDED|95.0|3.76|30.72|||Sensitivity||Exact Binomial confidence interval.|||30.72|3.76|
82564373|NCT02100189|164838071|SUPERIORITY_OR_OTHER||Specificity|94.7|STANDARD_ERROR_OF_MEAN|0.051|||TWO_SIDED|95.0|73.97|99.87|||Specificity||Exact binomial confidence interval|||99.87|73.97|
82564374|NCT02213458|164838078|SUPERIORITY||Slope|0.539||||0.04|TWO_SIDED|95.0|0.259|1.337|||Mixed Models Analysis|Controlling for dementia severity (QDRS)||Linear mixed effects model||1.337|.259|0.04
82564375|NCT02213458|164838079|SUPERIORITY||Slope|-0.138||||0.05|TWO_SIDED|95.0|-0.295|-0.02|||Mixed Models Analysis|Linear mixed model controlling for dementia severity (QDRS)||||-.020|-.295|.05
82564376|NCT02213458|164838080|SUPERIORITY||Slope|-1.902||||0.07|TWO_SIDED|95.0|-3.885|-0.08|||Mixed Models Analysis|Linear mixed model controlling for dementia severity (QDRS)||||-0.080|-3.885|0.07
82564377|NCT02213458|164838082|SUPERIORITY||Slope|-1.143||||0.03|TWO_SIDED|95.0|-2.154|-0.132|||Mixed Models Analysis|||||-0.132|-2.154|0.03
82564378|NCT02213458|164838083|SUPERIORITY||Slope|0.635||||0.11|TWO_SIDED|95.0|-0.135|1.405|||Mixed Models Analysis|Controlling for dementia severity (QDRS)||||1.405|-0.135|0.11
82564379|NCT01721109|164838092|EQUIVALENCE|A sample size of 14 participants was estimated to provide over 95% power to show pharmacokinetic equivalence between adult and adolescent participants. EVG population PK from historical adult data was used for comparison. The inter-subject standard deviation (natural log scale) of EVG AUCtau observed in the population PK data was 0.31 (historical data).|Geometric least squares mean ratio|1.3029|||||TWO_SIDED|90.0|1.0479|1.62||||||||1.6200|1.0479|
82564380|NCT02907489|164838110|SUPERIORITY|||||||0.083||||||0.083 for 24 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.083
82564381|NCT02907489|164838110|SUPERIORITY|||||||0.041||||||0.041 for 48 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.041
82564382|NCT02907489|164838110|SUPERIORITY|||||||0.063||||||0.063 for 72 hours, Significant at P ≤ 0.05|Chi-squared|||||||0.063
82564383|NCT02907489|164838111|SUPERIORITY|||||||0.982||||||0.982 for S1, Significant at P ≤ 0.05|Chi-squared|||||||0.982
82564384|NCT02907489|164838111|SUPERIORITY|||||||0.467||||||0.467 for S2, Significant at P ≤ 0.05|Chi-squared|||||||0.467
82564385|NCT02907489|164838111|SUPERIORITY|||||||0.01||||||0.01 for S3 Significant at P ≤ 0.05|Chi-squared|||||||0.01
82564386|NCT01885559|164838190|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.58|TWO_SIDED|95.0|0.82|1.42|||Regression, Cox|Analyses were adjusted for age, sex, race, baseline estimated Glomerular Filtration Rate (eGFR) and clinical site|ACE+ARB (Lisinopril-telmisartan) compared to ACE+placebo (Lisinopril-placebo)|||1.42|0.82|0.58
82564387|NCT01885559|164838191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.88|TWO_SIDED|95.0|-3.2|2.8|||shared parameter model|shared parameter models used due to informative censoring that occurred when patients did not have secondary outcomes measured after reaching endpoint||||2.8|-3.2|0.88
82564388|NCT01885559|164838192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.17|TWO_SIDED|95.0|-3.9|0.7||controlling for age, sex, race, and clinical site|Mixed Models Analysis||ACE-I+ARB annual percent change minus ACE-I + placebo annual percent change|||0.7|-3.9|0.17
82564389|NCT01885559|164838193|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.85|TWO_SIDED|95.0|0.8|1.32|||Regression, Cox|adjusting for age, sex, race, and clinical site and recurrent events|Hazard ratio compares ACE-I + ARB compared to ACE-I + placebo|||1.32|0.80|0.85
82564390|NCT01885559|164838194|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.57|TWO_SIDED|95.0|0.42|1.6|||Regression, Cox|adjusting for age, sex, race, and clinical site and accounting for recurrent events|Hazard ratio is comparing ACE-I + ARB to ACE-I + placebo|||1.6|0.42|0.57
82564391|NCT01885559|164838195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.032||||0.75|TWO_SIDED|95.0|-0.23|0.16|||shared parameter model|Shared parameter models were used due to informed censoring when patients who reached the primary endpoint were no longer assessed on the measure.||||0.16|-0.23|0.75
82564392|NCT01885559|164838196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.047||||0.66|TWO_SIDED|95.0|-0.26|0.16|||shared parameter model|Shared parameter models were used due to the informative censoring when patients who reached endpoint were not longer assessed on this measure.||||0.16|-0.26|0.66
82564393|NCT01885559|164838197|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||0.64|TWO_SIDED|95.0|0.99|1.01|||Mixed Models Analysis|Generalized linear mixed models are used with a logit link. Model controlled for baseline age, sex, race, and clinical site.|"Odds ratio represents the multiplicative effect of ACE-I + ARB group compared to the ACE-I + placebo group in change in pain over time.~ACE-I + ARB OR per month was 1.01 (1.00, 1.01) and ACE-I + placebo OR was 1.01 (1.01, 1.01)."|||1.01|0.99|0.64
82564394|NCT00780741|164838198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.09|TWO_SIDED|95.0|-0.01|0.21|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the proportion with success in immediate group minus proportion with success in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||0.21|-0.01|0.09
82564395|NCT00780741|164838199|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-139.0||||0.24|TWO_SIDED|95.0|-377.0|94.0|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the average cost in immediate group minus average cost in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||94|-377|0.24
82564396|NCT00780741|164838200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-4.0|-1.8|||Point estimate on mean difference|Bootstrap sampling with replacement (N=10,000) was used to calculate the 95% confidence interval.|Mean difference calculated as the average months of symptoms in immediate group minus average months of symptoms in deferred group. 95% confidence interval obtained using bootstrap sampling with replacement.|||-1.8|-4.0|<0.0001
82564397|NCT01867307|164838204|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-220.0|STANDARD_ERROR_OF_MEAN|55.5|<|0.0001|TWO_SIDED|95.0|-440.6|-202.7||P-value is from a paired t-test.|Paired t- test||Difference calculated as (Day 14 - baseline) values|Point estimates of the changes from baseline and 95% Confidence interval around the estimates on treatment day 14 were computed.||-202.7|-440.6|<0.0001
82564398|NCT01867307|164838204|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-234.0|STANDARD_ERROR_OF_MEAN|25.8|<|0.0001|TWO_SIDED|95.0|-312.3|-201.5||P-value is from a paired t-test|Paired t-test||Difference calculated as (Day 14 - baseline) values|Point estimates of the changes from baseline and 95% Confidence interval around the estimates on treatment day 14 were computed.||-201.5|-312.3|<0.0001
82564399|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E Amygdala- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564400|NCT02069366|164838292|SUPERIORITY|||||||0.041||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E Hippocampus- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.041
82564401|NCT02069366|164838292|SUPERIORITY|||||||0.04||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS+E vmPFC- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U)||||0.040
82564402|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS- Amygdala- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564403|NCT02069366|164838292|SUPERIORITY|||||||0.041||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Extinction Learning CS- Hippocampus- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.041
82564404|NCT02069366|164838292|SUPERIORITY|||||||0.04||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus time factors.||This analysis corresponds to the row 'Extinction Learning CS- vmPFC- Visit 3' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.040
82564405|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E Amygdala- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564406|NCT02069366|164838292|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
82564407|NCT02069366|164838292|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+E vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
82564408|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564409|NCT02069366|164838292|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
82564410|NCT02069366|164838292|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS- vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
82564411|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564412|NCT02069366|164838292|SUPERIORITY|||||||0.027||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.027
82564413|NCT02069366|164838292|SUPERIORITY|||||||0.019||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Recall CS+U vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.019
82564414|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564415|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E Hippocampus- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564416|NCT02069366|164838292|SUPERIORITY|||||||0.025||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+E vmPFC- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.025
82564417|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- Amygdala- Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564418|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82442154|NCT03906656|164592764|SUPERIORITY|||||||0.006||||||P-value not adjusted for multiple comparisons|McNemar|||Paired dataset. H0: The probability of fallers wearing C-Brace becoming non-fallers wearing KAFO is the same as the probability of non-fallers wearing C-Brace becoming fallers wearing KAFO.||||0.006
82564419|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS- vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564420|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U Amygdala-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564421|NCT02069366|164838292|SUPERIORITY||||||>|0.05||||||RM-ANOVA. Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U Hippocampus-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||>0.05
82564422|NCT02069366|164838292|SUPERIORITY|||||||0.025||||||Repeated-measures ANOVA (SPM12, ROI small-volume corrected). Significance threshold p\<0.05, FWE-corrected.|ANOVA|RM-ANOVA with group and stimulus factors.||This analysis corresponds to the row 'Renewal CS+U vmPFC-Visit 4' in the Brain Measures outcome table. RM-ANOVA including stimulus (CS+E, CS-, CS+U).||||0.025
82564423|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+E Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564424|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+U Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82523000|NCT01077830|164741421|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.27|1.11|||||Hazard Ratio obtained by dividing the crude rate of new cancers reported in the Ezetimibe/Simvastatin 10/40 arm by the crude rate of newly diagnosed cancers in the the Placebo arm|||1.11|0.27|
82523320|NCT02298361|164742046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|1.91|2.72|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of gaining Medicaid: intervention patients (numerator) relative to control clinic comparison patients (denominator)|||2.72|1.91|
82523321|NCT02298361|164742047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.53|0.94|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of losing Medicaid: intervention patients (numerator) relative to within-clinic comparison patients (denominator)|||0.94|0.53|
82523322|NCT02298361|164742047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.45|0.67|||Generalized estimating equation|GEE model clustered by clinic, adjusted for demographics, number of visits, new/established patient at first visit, and household factors.|Adjusted odds of losing Medicaid: intervention patients (numerator) relative to control clinic comparison patients (denominator)|||0.67|0.45|
82523323|NCT02799784|164742062|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the (UMEC/VI 62.5/25 mcg versus TIO/OLO 5/5 mcg) treatment difference is above -50 milliliter then UMEC/VI 62.5/25 mcg was to be considered non-inferior to TIO/OLO 5/5 mcg.|Mean Difference (Final Values)|0.053|||<|0.001|TWO_SIDED|95.0|0.026|0.08|||Mixed Models Analysis|||||0.080|0.026|<0.001
82523324|NCT03387579|164742063|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.590
82523325|NCT03387579|164742063|SUPERIORITY|||||||0.224|||||||Fisher Exact|||||||0.224
82523326|NCT03387579|164742063|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82523327|NCT03387579|164742064|SUPERIORITY|||||||0.471|||||||Kruskal-Wallis|||||||0.471
82523328|NCT03387579|164742065|SUPERIORITY|||||||0.525|||||||Kruskal-Wallis|||||||0.525
82523329|NCT03387579|164742066|SUPERIORITY|||||||0.753|||||||Kruskal-Wallis|||||||0.753
82523330|NCT03387579|164742067|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
82523331|NCT03387579|164742068|SUPERIORITY|||||||0.127|||||||Fisher Exact|||||||0.127
82523332|NCT03387579|164742069|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82523333|NCT03387579|164742070|SUPERIORITY||estimate|8.553||||0.046|TWO_SIDED|||||Intralipid 20% reduction versus smoflipid 20%|Mixed Models Analysis||standard error 4.249|||||0.046
82523334|NCT03387579|164742070|SUPERIORITY||estimate|7.023||||0.04|TWO_SIDED|||||Intralipid 20% historic versus smoflipid|Mixed Models Analysis||standard error 3.376|||||0.040
82523335|NCT03387579|164742070|SUPERIORITY||estimate|-1.53||||0.718|TWO_SIDED|||||Intralipid 20% Historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 4.231|||||0.718
82523336|NCT03387579|164742071|SUPERIORITY||estimate|13.436||||0.003|TWO_SIDED|||||Intralipid 20% reduction versus Smoflipid 20%|Mixed Models Analysis||standard error 4.440|||||0.003
82523337|NCT03387579|164742071|SUPERIORITY||estimate|3.936||||0.27|TWO_SIDED|||||Intralipid 20% historic versus Smoflipid 20%|Mixed Models Analysis||standard error 3.553|||||0.270
82523338|NCT03387579|164742071|SUPERIORITY||estimate|-9.5||||0.034|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 4.416|||||0.034
82523339|NCT03387579|164742072|SUPERIORITY||estimate|42.674||||0.006|TWO_SIDED|||||Intralipid 20% reduction versus Smoflipid 20%|Mixed Models Analysis||standard error 15.216|||||0.006
82523340|NCT03387579|164742072|SUPERIORITY||estimate|11.117||||0.305|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 10.771|||||0.305
82523341|NCT03387579|164742072|SUPERIORITY||estimate|-31.557|||<|0.001|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 67.673|||||<0.001
82523342|NCT03387579|164742073|SUPERIORITY||estimate|-0.593||||0.835|TWO_SIDED|||||Intralipid 20% reduction versus smoflipid 20%|Mixed Models Analysis||standard error 2.848|||||0.835
82523343|NCT03387579|164742073|SUPERIORITY||estimate|-0.522||||0.799|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 2.050|||||0.799
82523344|NCT03387579|164742073|SUPERIORITY||estimate|0.714||||0.714|TWO_SIDED|||||Intralipid 20% historic versus Intralipid 20% reduction|Mixed Models Analysis||standard error 2.758|||||0.714
82523345|NCT03387579|164742074|SUPERIORITY||estimate|11.162||||0.379|TWO_SIDED||||||Mixed Models Analysis|Intralipid 20% reduction versus smoflipid 20%|standard error 12.626|||||0.379
82523346|NCT03387579|164742074|SUPERIORITY||estimate|3.853||||0.717|TWO_SIDED|||||Intralipid 20% historic versus smoflipid 20%|Mixed Models Analysis||standard error 10.615|||||0.717
82523347|NCT03387579|164742074|SUPERIORITY|Intralipid 20% historic versus intralipid 20% reduction|estimate|-7.31||||0.576|TWO_SIDED||||||Mixed Models Analysis||standard error 13.025|||||0.576
82523348|NCT03387579|164742075|SUPERIORITY|||||||1|||||||Fisher Exact|||ROP||||1.00
82523349|NCT03387579|164742075|SUPERIORITY|||||||1|||||||Fisher Exact|||ROP||||1.00
82523350|NCT03387579|164742076|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82523351|NCT03387579|164742076|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.640
82523352|NCT03387579|164742076|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82523353|NCT03387579|164742077|SUPERIORITY|||||||0.211|||||||Kruskal-Wallis|||||||0.211
82523354|NCT03387579|164742078|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.720
82523355|NCT03387579|164742079|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
82523356|NCT03387579|164742080|SUPERIORITY|||||||0.774|||||||t-test, 2 sided|||||||0.774
82523357|NCT03387579|164742081|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
82523358|NCT03387579|164742082|SUPERIORITY|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||||||0.475
82523359|NCT01804816|164742083|EQUIVALENCE|a=0.05||||||0.063|||||||t-test, 2 sided|||||||0.063
82523360|NCT01804816|164742084|EQUIVALENCE|a = 0.05||||||0.005|||||||t-test, 2 sided|||Based on results from prior small clinical trials we estimate the need for 20 patients enrolled to reach 80% statistical power.||||0.005
82523361|NCT01804816|164742084|EQUIVALENCE|a=0.05||||||0.002|||||||t-test, 2 sided|||||||0.002
82523362|NCT01804816|164742084|EQUIVALENCE|a=0.05||||||0.441|||||||t-test, 2 sided|||||||0.441
82523363|NCT01804816|164742085|EQUIVALENCE|a=0.05||||||0.729|||||||t-test, 2 sided|||||||0.729
82523364|NCT03086330|164742089|OTHER||Treatment difference|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.24|||ANCOVA|||The responses were analysed using an analysis of covariance (ANCOVA) with treatment, stratification factor and region as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including stratification factor and region as categorical effects and data from baseline and all previous visits as covariates.||-1.24|-1.61|<0.0001
82523365|NCT03086330|164742090|OTHER||Treatment difference|-3.81|||<|0.0001|TWO_SIDED|95.0|-4.7|-2.93|||ANCOVA|||The responses were analysed using an ANCOVA with treatment, stratification factor and region as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including stratification factor and region as categorical effects and data from baseline and all previous visits as covariates.||-2.93|-4.70|<0.0001
82523366|NCT00117676|164742163|NON_INFERIORITY_OR_EQUIVALENCE|With a sample size of 200 subjects in the tenofovir DF group and 100 subjects in the adefovir dipivoxil group, a two group large-sample normal approximation test of proportions with a one-sided 0.025 significance level would have 95% power to reject the null hypothesis that the tenofovir DF treatment was inferior to the adefovir dipivoxil treatment (difference in proportions was less than -0.100) in favor of the alternative hypothesis that the tenofovir DF treatment was not inferior.|Difference in proportions|23.5|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|13.2|33.8||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted (baseline ALT ≥ 2 x ULN or \> 2 x ULN) difference is 0.|Z-test|||A two-sided 95% confidence interval (CI), stratified by baseline ALT (≤ 2 x ULN or \> 2 x ULN) was used to evaluate the difference (tenofovir DF - adefovir dipivoxil) in the proportion of complete responders between treatment groups.||33.8|13.2|<0.001
82523367|NCT00117676|164742164|SUPERIORITY_OR_OTHER||Difference in proportions|30.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|21.3|39.2||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 2 x ULN or \> 2 x ULN).|Z-test|||||39.2|21.3|<0.001
82523368|NCT00117676|164742165|SUPERIORITY_OR_OTHER||Difference in proportions|1.4|STANDARD_ERROR_OF_MEAN|3.4||0.672|TWO_SIDED|95.0|-5.2|8.0||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Two-sided 95% confidence intervals, stratified by baseline ALT (baseline ALT ≤ 2 x ULN, \> 2 x ULN), were used to evaluate treatment arm differences.|Z-test|||||8.0|-5.2|0.672
82523369|NCT00117676|164742170|SUPERIORITY_OR_OTHER||Difference in proportions|5.2|STANDARD_ERROR_OF_MEAN|5.0||0.293|TWO_SIDED|95.0|-4.5|14.9||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero. Confidence interval stratum adjusted based on baseline ALT (≤ 2 x ULN, \> 2 x ULN).|Z-test|||||14.9|-4.5|0.293
82523370|NCT00117676|164742176|SUPERIORITY_OR_OTHER||Difference in proportions|-0.8|STANDARD_ERROR_OF_MEAN|4.8||0.859|TWO_SIDED|95.0|-10.2|8.5||Statistical tests were not adjusted for baseline ALT stratum. Analysis set included only randomized and treated participants with baseline ALT \> ULN (biochemically evaluable analysis set).|Z-test|P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.||||8.5|-10.2|0.859
82523371|NCT00117676|164742177|SUPERIORITY_OR_OTHER||Difference in proportions|4.9|STANDARD_ERROR_OF_MEAN|5.3||0.359|TWO_SIDED|95.0|-5.5|15.3||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and confidence interval are stratum adjusted (baseline ALT ≤ 2 x ULN or \> 2 x ULN).||||15.3|-5.5|0.359
82523372|NCT00952822|164742195|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence limits of -0.223 to 0.223 in accordance with FDA Guidance for Industry: Statistical Approaches to Establishing Bioequivalence; 2001.|Difference of Least-Squares Means|-0.052||||||90.0|-0.117|0.012||||||||0.012|-0.117|
82523373|NCT00952822|164742196|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence limits of -0.223 to 0.223 in accordance with FDA Guidance for Industry: Statistical Approaches to Establishing Bioequivalence; 2001.|Difference of Least-Squares Means|-0.016||||||90.0|-0.076|0.043||||||||0.043|-0.076|
82523374|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.284|TWO_SIDED|95.0|0.83|1.9|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.90|0.83|0.2840
82564425|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS-Early- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564426|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+E Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564427|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS+U Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564428|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Acquisition CS- Late- Visit 2' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564429|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS+E Early- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564430|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS- Early- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564431|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS+E Late-Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564432|NCT02069366|164838293|SUPERIORITY|||||||0.04||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10.||This analysis corresponds to the row 'Extinction CS- Late- Visit 3' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||0.04
82564433|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+E Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564434|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+U Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564435|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS- Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564436|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+E Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564437|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS+U Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564438|NCT02069366|164838293|SUPERIORITY|||||||0.033||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Recall CS- Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||0.033
82564439|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+E Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564440|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+U Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564441|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS- Early-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564442|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+E Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564443|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS+U Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82626152|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-7.6|-2.84|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||-2.84|-7.60|
82626153|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.58|3.2|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||3.20|-1.58|
82626154|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-3.43|1.41|||Mixed Model Repreated Measure Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||1.41|-3.43|
82564444|NCT02069366|164838293|SUPERIORITY||||||>|0.05||||||Chi-square test of independence; significance threshold p\<0.05.|Chi-squared|3 (response categories) × 6 (groups) contingency table; df=10||This analysis corresponds to the row 'Renewal CS- Late-Visit 4' in the Expectancy Ratings outcome table. Chi-square test comparing distribution of Yes/No/I don't know responses across 6 groups.||||>0.05
82564445|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Pre- Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564446|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Mid-Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564447|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Extinction Learning Post-Visit 3' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564448|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Pre-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564449|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Mid-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564450|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Recall Post-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564451|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Pre-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564452|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Mid-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564453|NCT02069366|164838294|SUPERIORITY||||||>|0.05||||||Significance threshold p\<0.05.|ANOVA|Group factor at specified phase/timepoint.||This analysis corresponds to the row 'Renewal Post-Visit 4' in the SUDS outcome table. ANOVA comparing mean SUDS ratings across 6 groups at the specified phase/timepoint.||||>0.05
82564454|NCT01114217|164838319|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82564455|NCT00422162|164838360|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||P-value for Change from Baseline. A priori alpha threshold was 0.05 with no adjustment for multiple testing.|ANCOVA|ANCOVA with stratification factors (country and pretreatment for MDD) and MADRS baseline as covariates and treatment regimen as the main factor.||||||0.88
82626155|NCT02564029|164967927|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-2.56|2.16|||Mixed Model Repeated Measures Analysis|||A mixed effects model was applied with fixed effects for period, time, treatment, and the interaction between treatment and time. Baseline was included as 2 separate covariates. The interaction between each baseline covariate and time were included as fixed effects. Participant was fitted as a random effect and time was fitted as a repeated effect within each participant × period. An unstructured correlation matrix was used. The effect reported is an average across all post-dose measurements.||2.16|-2.56|
82564456|NCT00422162|164838370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||<0.0001
82564457|NCT00422162|164838370|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||0.001
82564458|NCT00422162|164838370|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||<0.0001
82564459|NCT00422162|164838370|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value for Change from Baseline (within group)|t-test, 2 sided|paired t-test||||||0.28
82564460|NCT00848198|164838382|SUPERIORITY_OR_OTHER||Sensitivity|87.1|||||TWO_SIDED|95.0|83.2|90.9||||||||90.9|83.2|
82564461|NCT00848198|164838382|SUPERIORITY_OR_OTHER||Specificity|72.0|||||TWO_SIDED|95.0|66.9|77.1||||||||77.1|66.9|
82564462|NCT00848198|164838383|SUPERIORITY_OR_OTHER||Sensitivity|39.7|||||TWO_SIDED|95.0|34.2|45.3||||||||45.3|34.2|
82564463|NCT00848198|164838383|SUPERIORITY_OR_OTHER||Specificity|82.7|||||TWO_SIDED|95.0|78.4|87.0||||||||87.0|78.4|
82564464|NCT00848198|164838384|SUPERIORITY_OR_OTHER||Sensitivity|71.9|||||TWO_SIDED|95.0|66.8|77.0||||||||77.0|66.8|
82564465|NCT00848198|164838384|SUPERIORITY_OR_OTHER||Specificity|82.7|||||TWO_SIDED|95.0|78.4|87.0||||||||87.0|78.4|
82564466|NCT00848198|164838385|SUPERIORITY_OR_OTHER||Sensitivity|27.2|||||TWO_SIDED|95.0|22.2|32.3||||||||32.3|22.2|
82564467|NCT00848198|164838385|SUPERIORITY_OR_OTHER||Specificity|98.7|||||TWO_SIDED|95.0|97.4|100.0||||||||100.0|97.4|
82564468|NCT00848198|164838386|SUPERIORITY_OR_OTHER||Sensitivity|51.3|||||TWO_SIDED|95.0|45.7|57.0||||||||57.0|45.7|
82564469|NCT00848198|164838386|SUPERIORITY_OR_OTHER||Specificity|94.7|||||TWO_SIDED|95.0|92.1|97.2||||||||97.2|92.1|
82626156|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-8.6|-3.86|||Mixed Model Repeated Measure Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.86|-8.60|
82564470|NCT00848198|164838387|SUPERIORITY_OR_OTHER||Sensitivity|61.2|||||TWO_SIDED|95.0|55.6|66.7||||||||66.7|55.6|
82564471|NCT00848198|164838387|SUPERIORITY_OR_OTHER||Specificity|78.7|||||TWO_SIDED|95.0|74.0|83.3||||||||83.3|74.0|
82564472|NCT00848198|164838388|SUPERIORITY_OR_OTHER||Sensitivity|58.5|||||TWO_SIDED|95.0|52.9|64.1||||||||64.1|52.9|
82564473|NCT00848198|164838388|SUPERIORITY_OR_OTHER||Specificity|73.3|||||TWO_SIDED|95.0|68.3|78.3||||||||78.3|68.3|
82564474|NCT02790788|164838406|SUPERIORITY||Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|4.3||0.44|TWO_SIDED|95.0|-5.2|11.8|||t-test, 2 sided|||Independent Samples t-test||11.8|-5.2|0.44
82564475|NCT02790788|164838408|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.6||0.17|TWO_SIDED|95.0|-2.2|12.2|||t-test, 2 sided|||||12.2|-2.2|0.17
82564476|NCT02790788|164838409|SUPERIORITY||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|5.0||0.043|TWO_SIDED|95.0|0.4|20.8|||t-test, 2 sided|||||20.8|0.4|0.043
82564477|NCT02790788|164838410|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|3.7||0.59|TWO_SIDED|95.0|-9.3|5.3|||t-test, 2 sided|||||5.3|-9.3|0.59
82564478|NCT02790788|164838411|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.0||0.64|TWO_SIDED|95.0|-3.1|5.0|||t-test, 2 sided|||||5.0|-3.1|0.64
82564479|NCT02790788|164838412|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|3.0||0.2|TWO_SIDED|95.0|-10.1|2.1|||t-test, 2 sided|||||2.1|-10.1|0.20
82564480|NCT02790788|164838413|SUPERIORITY||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|1.9||0.14|TWO_SIDED|95.0|-0.9|6.6|||t-test, 2 sided|||||6.6|-0.9|0.14
82564481|NCT02790788|164838414|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|3.4||0.9|TWO_SIDED|95.0|-6.4|7.3|||t-test, 2 sided|||||7.3|-6.4|0.90
82564482|NCT02790788|164838415|SUPERIORITY||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|2.2||0.33|TWO_SIDED|95.0|-2.2|6.4|||t-test, 2 sided|||||6.4|-2.2|0.33
82564483|NCT02790788|164838416|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|2.8||0.92|TWO_SIDED|95.0|-5.3|5.8|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEDA WITHIN 12 HOURS AFTER ROSC||5.8|-5.3|0.92
82564484|NCT02790788|164838416|SUPERIORITY||Mean Difference (Net)|-0.81|STANDARD_ERROR_OF_MEAN|1.3||0.54|TWO_SIDED|95.0|-3.4|1.8|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEDA WITHIN 12 HOURS AFTER ROSC||1.8|-3.4|0.54
82564485|NCT02790788|164838416|SUPERIORITY||Mean Difference (Net)|4.6|STANDARD_ERROR_OF_MEAN|2.17||0.048|TWO_SIDED|95.0|0.04|9.15|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEDA AT 72 HOURS AFTER ROSC||9.15|0.04|0.048
82564486|NCT02790788|164838416|SUPERIORITY||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|1.4||0.18|TWO_SIDED|95.0|-1.0|4.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEDA AT 72 HOURS AFTER ROSC||4.7|-1.0|0.18
82564487|NCT02790788|164838417|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|3.6||0.32|TWO_SIDED|95.0|-10.9|3.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEF WITHIN 12 HOURS AFTER ROSC||3.7|-10.9|0.32
82564488|NCT02790788|164838417|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|3.1||0.76|TWO_SIDED|95.0|-7.2|5.3|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEF WITHIN 12 HOURS AFTER ROSC||5.3|-7.2|0.76
82564489|NCT02790788|164838417|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_ERROR_OF_MEAN|4.2||0.25|TWO_SIDED|95.0|-13.5|3.7|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO LVEF AT 72 HOURS AFTER ROSC||3.7|-13.5|0.25
82564490|NCT02790788|164838417|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|3.5||0.61|TWO_SIDED|95.0|-9.1|5.5|||t-test, 2 sided|||REPORTED RESULTS CORRESPOND TO RVEF WITHIN 72 HOURS AFTER ROSC||5.5|-9.1|0.61
82564491|NCT02790788|164838418|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED|95.0|-0.25|0.11|||t-test, 2 sided|||RESULTS CORRESPOND TO END-DIASTOLIC ECCI WITHIN 12 HOURS OF ROSC.||0.11|-0.25|0.41
82564492|NCT02790788|164838418|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.38|TWO_SIDED|95.0|-0.26|0.1|||t-test, 2 sided|||RESULTS CORRESPOND TO END-SYSTOLIC ECCI WITHIN 12 HOURS AFTER ROSC.||0.10|-0.26|0.38
82564493|NCT02790788|164838418|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.46|TWO_SIDED|95.0|-0.29|0.14|||t-test, 2 sided|||RESULTS CORRESPOND TO END-DIASTOLIC ECCI AT 72 HOURS AFTER ROSC.||0.14|-0.29|0.46
82564494|NCT02790788|164838418|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED|95.0|-0.33|0.12|||t-test, 2 sided|||RESULTS CORRESPOND TO END-SYSTOLIC ECCI AT 72 HOURS AFTER ROSC.||0.12|-0.33|0.34
82564495|NCT02790788|164838419|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.65||0.9|TWO_SIDED|95.0|-1.5|1.3|||t-test, 2 sided|||||1.3|-1.5|0.90
82564496|NCT02790788|164838420|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.37||0.59|TWO_SIDED|95.0|-0.54|0.94|||t-test, 2 sided|||||0.94|-0.54|0.59
82564497|NCT02790788|164838421|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.38||0.67|TWO_SIDED|95.0|-0.6|0.93|||t-test, 2 sided|||||0.93|-0.60|0.67
82564498|NCT02790788|164838422|SUPERIORITY||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.65|TWO_SIDED|95.0|-0.64|1.02|||t-test, 2 sided|||||1.02|-0.64|0.65
82564499|NCT02790788|164838423|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.0||0.41|TWO_SIDED|95.0|-1.2|2.8||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 0-6 HOURS AFTER ROSC.|t-test, 2 sided|||||2.8|-1.2|0.41
82564500|NCT02790788|164838423|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.28||0.2|TWO_SIDED|95.0|-0.92|0.19|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 12-18 HOURS AFTER ROSC.||0.19|-0.92|0.20
82564501|NCT02790788|164838423|SUPERIORITY||Median Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.26||0.07|TWO_SIDED|95.0|-1.0|0.04|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 12-18 HOURS AFTER ROSC.||0.04|-1.00|0.07
82564502|NCT02790788|164838423|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.29||0.36|TWO_SIDED|95.0|-0.85|0.31|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 18-24 HOURS AFTER ROSC.||0.31|-0.85|0.36
82564503|NCT02790788|164838423|SUPERIORITY||Median Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.25||0.54|TWO_SIDED|95.0|-0.66|0.35|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 24-30 HOURS AFTER ROSC.||0.35|-0.66|0.54
82564504|NCT02790788|164838423|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.62|TWO_SIDED|95.0|-0.69|0.42|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 30-36 HOURS AFTER ROSC.||0.42|-0.69|0.62
82564505|NCT02790788|164838423|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|95.0|-0.71|0.41|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 36-42 HOURS AFTER ROSC.||0.41|-0.71|0.60
82564506|NCT02790788|164838423|SUPERIORITY||Median Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.26||0.54|TWO_SIDED|95.0|-0.69|0.36|||t-test, 2 sided|||RESULTS CORRESPOND TO CORE BODY TEMPERATURE AVERAGED OVER 42-48 HOURS AFTER ROSC.||0.36|-0.69|0.54
82564507|NCT02790788|164838424|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|0.87||0.42|TWO_SIDED|95.0|-2.5|1.1|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 4 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 75.5 MMHG||1.1|-2.5|0.42
82564508|NCT02790788|164838424|SUPERIORITY||Median Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|0.79||0.4|TWO_SIDED|95.0|-0.94|2.3|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 4 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 96.0 MMHG||2.30|-0.94|0.40
82564509|NCT02790788|164838424|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.15||0.44|TWO_SIDED|95.0|-1.49|3.28|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 72 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 75.5 MMHG||3.28|-1.49|0.44
82564510|NCT02790788|164838424|SUPERIORITY||Median Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|1.23||0.36|TWO_SIDED|95.0|-1.4|3.7|||t-test, 2 sided|||RESULTS CORRESPOND TO CBFI AT 72 HOURS AFTER ROSC AND AT A MEAN MAP LEVEL OF 97.0 MMHG||3.70|-1.40|0.36
82564511|NCT02790788|164838425|SUPERIORITY|||||||0.84|||||||Mann Whitney|||||||0.84
82564512|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.144||0.86|TWO_SIDED|95.0|-0.311|0.262|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 4 HOURS AFTER ROSC||0.262|-0.311|0.86
82564513|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.064|STANDARD_ERROR_OF_MEAN|0.111||0.56|TWO_SIDED|95.0|-0.287|0.158|||t-test, 2 sided|||RESULTS CORRESPOND TO TNF-α AT 4 HOURS AFTER ROSC||0.158|-0.287|0.56
82564514|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.034|STANDARD_ERROR_OF_MEAN|0.053||0.52|TWO_SIDED|95.0|-0.071|0.139|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 4 HOURS AFTER ROSC||0.139|-0.071|0.52
82564515|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.041|STANDARD_ERROR_OF_MEAN|0.107||0.7|TWO_SIDED|95.0|-0.254|0.172|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 4 HOURS AFTER ROSC||0.172|-0.254|0.70
82564516|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.167||0.97|TWO_SIDED|95.0|-0.326|0.34|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 4 HOURS AFTER ROSC||0.340|-0.326|0.97
82564517|NCT02790788|164838426|SUPERIORITY||Median Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.129||0.61|TWO_SIDED|95.0|-0.192|0.326|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 24 HOURS AFTER ROSC||0.326|-0.192|0.61
82564518|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.014|STANDARD_ERROR_OF_MEAN|0.126||0.91|TWO_SIDED|95.0|-0.238|0.267|||t-test, 2 sided|||RESULTS CORRESPOND TO TNFα AT 24 HOURS AFTER ROSC||0.267|-0.238|0.91
82564519|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.19|TWO_SIDED|95.0|-0.1|0.021|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 24 HOURS AFTER ROSC||0.021|-0.100|0.19
82564520|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.022|STANDARD_ERROR_OF_MEAN|0.111||0.85|TWO_SIDED|95.0|-0.244|0.201|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 24 HOURS AFTER ROSC||0.201|-0.244|0.85
82564521|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.162||0.37|TWO_SIDED|95.0|-0.179|0.473|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 24 HOURS AFTER ROSC||0.473|-0.179|0.37
82564522|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.127||0.74|TWO_SIDED|95.0|-0.298|0.212|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 48 HOURS AFTER ROSC||0.212|-0.298|0.74
82564523|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.036|STANDARD_ERROR_OF_MEAN|0.14||0.8|TWO_SIDED|95.0|-0.246|0.318|||t-test, 2 sided|||RESULTS CORRESPOND TO ΤΝFα AT 48 HOURS AFTER ROSC||0.318|-0.246|0.80
82564524|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.056|STANDARD_ERROR_OF_MEAN|0.043||0.2|TWO_SIDED|95.0|-0.03|0.142|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 48 HOURS AFTER ROSC||0.142|-0.030|0.20
82564525|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|0.111||0.83|TWO_SIDED|95.0|-0.246|0.198|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 48 HOURS AFTER ROSC||0.198|-0.246|0.83
82564526|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.124||0.83|TWO_SIDED|95.0|-0.223|0.276|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 48 HOURS AFTER ROSC||0.276|-0.223|0.83
82564527|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.161||0.85|TWO_SIDED|95.0|-0.294|0.354|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-6 AT 72 HOURS AFTER ROSC||0.354|-0.294|0.85
82564528|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.048|STANDARD_ERROR_OF_MEAN|0.145||0.74|TWO_SIDED|95.0|-0.243|0.339|||t-test, 2 sided|||RESULTS CORRESPOND TO ΤΝFα AT 72 HOURS AFTER ROSC||0.339|-0.243|0.74
82564529|NCT02790788|164838426|SUPERIORITY||Median Difference (Net)|0.013|STANDARD_ERROR_OF_MEAN|0.039||0.75|TWO_SIDED|95.0|-0.066|0.091|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-1β AT 72 HOURS AFTER ROSC||0.091|-0.066|0.75
82564530|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.096||0.64|TWO_SIDED|95.0|-0.238|0.149|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-8 AT 72 HOURS AFTER ROSC||0.149|-0.238|0.64
82564531|NCT02790788|164838426|SUPERIORITY||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.147||0.23|TWO_SIDED|95.0|-0.116|0.475|||t-test, 2 sided|||RESULTS CORRESPOND TO IL-10 AT 72 HOURS AFTER ROSC||0.475|-0.116|0.23
82564532|NCT02790788|164838427|SUPERIORITY||Percent Difference|4.9||||0.45|TWO_SIDED|95.0|-4.8|14.6|||Fisher Exact|||||14.6|-4.8|0.45
82564533|NCT02790788|164838428|SUPERIORITY||Mann-Whitney U|50903.5||||0.68|TWO_SIDED||||||Mann Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF HYPERGLYCEMIA||||0.68
82564534|NCT02790788|164838428|SUPERIORITY||Mann Whitney U|52188.5||||0.68|TWO_SIDED||||||Mann-Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF HYPERNATREMIA||||0.68
82564535|NCT02790788|164838428|SUPERIORITY||Mann-Whitney U|1128.5||||0.37|TWO_SIDED||||||Mann-Whitney|||RESULTS CORRESPOND TO THE NUMBER OF EPISODES OF INFECTION||||0.37
82564536|NCT01357564|164838451|SUPERIORITY||Mean Difference (Net)|-0.72||||0.02|TWO_SIDED|95.0|-1.23|-0.13|||t-test, 2 sided|||Sample size calculation was based on the main study hypothesis tested at 80% power for a 2-sided alternative hypothesis using a t-test comparing the treatment groups on 4-month values. Based on previous trials, we sought a medium effect size of 0.50 using a type I error rate of .05.||-0.13|-1.23|.02
82564537|NCT01357564|164838452|SUPERIORITY||Mean Difference (Net)|-0.1||||0.03|TWO_SIDED|95.0|-0.14|-0.01|||t-test, 2 sided|||Sample size calculation was based on the main study hypothesis tested at 80% power for a 2-sided alternative hypothesis using a t-test comparing the treatment groups on 4-month values. Based on previous trials, we sought a medium effect size of 0.50 using a type I error rate of .05.||-0.01|-0.14|.03
82564538|NCT05878522|164838491|OTHER||LS Mean difference|11.73|||||TWO_SIDED|90.0|8.89|14.58||||||3- hours post-dose||14.58|8.89|
82564539|NCT05878522|164838491|OTHER||LS Mean difference|11.35|||||TWO_SIDED|90.0|8.5|14.2||||||4-hours post-dose||14.20|8.50|
82564540|NCT05878522|164838491|OTHER||LS Mean difference|8.35||||||90.0|5.51|11.2||||||5-hours post-dose||11.20|5.51|
82564541|NCT01842360|164838492|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82564542|NCT01842360|164838493|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Poisson|||||||<0.001
82564543|NCT01842360|164838494|SUPERIORITY|||||||0.0094|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean of health care consumption was 17.5±34.7 points in the placebo group versus 9.2±27.9 points in the MV130 group.||||0.0094
82564544|NCT01842360|164838495|SUPERIORITY|||||||0.3917|TWO_SIDED|95.0|||||Log Rank|||||||0.3917
82564545|NCT01842360|164838496|SUPERIORITY|||||||0.0232|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||As for the previous index the number of days with any of these drugs is used.||||0.0232
82564546|NCT01842360|164838497|SUPERIORITY|||||||0.0319|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0319
82564547|NCT01842360|164838498|SUPERIORITY|||||||0.0264|||||||Wilcoxon (Mann-Whitney)|||||||0.0264
82564548|NCT01842360|164838499|SUPERIORITY|||||||0.0037|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean number of emergency room visits was 0.37 (±1.15) for the MV130 group and 0.87 (±1.61) for the placebo group.||||0.0037
82564549|NCT01842360|164838500|SUPERIORITY|||||||0.1008|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The mean number of medical consultations was 0.08 (±0.31) for the MV130 group and 0.31 (±0.88) for the placebo group.||||0.1008
82626157|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-7.78|-3.06|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.06|-7.78|
82626158|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|90.0|-7.6|-2.84|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-2.84|-7.60|
82626159|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.58|3.2|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||3.20|-1.58|
82564550|NCT01842360|164838501|SUPERIORITY|||||||0.0367|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.0367
82564551|NCT01842360|164838503|SUPERIORITY|||||||0.3234|TWO_SIDED|95.0|||||Fisher Exact|||||||0.3234
82564552|NCT01842360|164838504|SUPERIORITY|||||||0.001|||||||Log Rank|||||||0.001
82564553|NCT05615870|164838514|SUPERIORITY||Mean Difference (Final Values)|5.41||||0.537|TWO_SIDED|95.0|-11.77|22.6|||Mixed Models Analysis|||Null hypothesis: mean of SFDs in the HEPA filtration home intervention group will not differ from the mean of SFDs in the control group||22.60|-11.77|0.537
82626160|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-3.43|1.41|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.41|-3.43|
82626161|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-2.56|2.16|||Mixed Model Repeated Measures Analysis|||In eye closure condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||2.16|-2.56|
82564554|NCT05615870|164838515|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.205|TWO_SIDED|95.0|-0.07|0.3|||Mixed Models Analysis|||Null hypothesis: mean of counts of hospitalizations for respiratory symptoms in the intervention group will not differ from the mean of counts of hospitalizations for respiratory symptoms in the control group||0.30|-0.07|0.205
82564555|NCT05615870|164838515|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.35|0.35|||Mixed Models Analysis|||Null hypothesis: mean of counts of emergency department or urgent care visits for respiratory symptoms in the intervention group will not differ from the mean of counts of emergency department or urgent care visits for respiratory symptoms in the control group||0.35|-0.35|0.992
82564556|NCT05615870|164838515|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.172|TWO_SIDED|95.0|-0.9|0.16|||Mixed Models Analysis|||Null hypothesis: mean of counts of other unscheduled healthcare visits for respiratory symptoms in the intervention group will not differ from the mean of counts of other unscheduled healthcare visits for respiratory symptoms in the control group||0.16|-0.90|0.172
82564557|NCT05615870|164838515|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.53|TWO_SIDED|95.0|-1.02|0.52|||Mixed Models Analysis|||Null hypothesis: mean of counts (or total counts) of visits of all metrics for respiratory symptoms in the intervention group will not differ from the mean of counts of visits of all metrics for respiratory symptoms in the control group||0.52|-1.02|0.530
82564558|NCT05615870|164838516|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.598|TWO_SIDED|95.0|-3.75|2.16|||Mixed Models Analysis|||Null hypothesis: mean of the Child QOL score in the HEPA intervention group will not differ from the mean of Child QOL score in the control group||2.16|-3.75|0.598
82564559|NCT05615870|164838517|SUPERIORITY||Mean Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.98|-3.42|||Mixed Models Analysis||The results were based on the average PM2.5 level of common room and sleep space.|Null hypothesis: the mean of the PM2.5 level of the common room and sleep space in the intervention group will not differ from the mean of the PM2.5 level in the control group||-3.42|-10.98|<0.001
82564560|NCT02819141|164838571|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance was p \< 0.05.|Generalized estimating equations|Controlling for age, daily sequential organ failure assessment (SOFA) score, sedation intensity, and time of day of assessment||We estimated the power for multilevel models approximating our study design. A sample size of 95 patients per arm, 190 total (at a minimum 7 data collection points for each, resulting in \~1,050 observations) will have greater than 80% power to detect small to moderate effects (i.e., 0.11 or greater) in between-group differences in anxiety, delirium, and duration of mechanical ventilation at alpha = .05 for all proposed models.||||0.30
82564561|NCT02819141|164838571|SUPERIORITY|Controlling for time of day, study day, age, sex, illness severity, and sedation frequency||||||0.9858|||||||Generalized Estimating equations|||||||0.9858
82564562|NCT02819141|164838572|SUPERIORITY|||||||0.02||||||a priori threshold for significance p \< 0.05.|t-test, 1 sided|||||||0.02
82564563|NCT02819141|164838573|SUPERIORITY|||||||0.97|||||||Generalized estimating equations|Controlling for sedation intensity, age, daily Sequential Organ Failure Assessment (SOFA) score, study day, and time of day assessment||||||0.97
82564564|NCT02819141|164838573|SUPERIORITY|||||||0.5647|||||||Generalized estimating equations|Controlling for sedation frequency, age, sex, illness severity, study day, and time of day assessment.||||||0.5647
82564565|NCT02819141|164838574|SUPERIORITY|||||||0.39|||||||Generalized estimating equation|controlling for age, daily Sequential Organ Failure Assessment (SOFA) score, time of day of assessment||||||0.39
82564566|NCT02819141|164838575|SUPERIORITY|||||||0.37|||||||GEE|||||||0.37
82564567|NCT02819141|164838576|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
82564568|NCT02819141|164838576|SUPERIORITY|||||||0.81|||||||t-test, 1 sided|||||||0.81
82564569|NCT02819141|164838577|SUPERIORITY|||||||0.47|||||||t-test, 1 sided|||||||0.47
82564570|NCT02819141|164838577|SUPERIORITY|||||||0.82|||||||t-test, 1 sided|||||||0.82
82564571|NCT02819141|164838578|SUPERIORITY|||||||0.164|||||||t-test, 1 sided|||3 months after ICU discharge||||0.164
82564572|NCT02819141|164838578|SUPERIORITY|||||||0.84|||||||t-test, 1 sided|||6 months after ICU discharge||||0.84
82564573|NCT02819141|164838579|SUPERIORITY|||||||0.26|||||||t-test, 1 sided|||||||0.26
82626162|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-6.51|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|90.0|-8.01|-5.01|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-5.01|-8.01|
82564574|NCT02819141|164838580|SUPERIORITY|||||||0.82|||||||t-test, 1 sided|||||||0.82
82564575|NCT02819141|164838581|SUPERIORITY|||||||0.018|||||||t-test, 1 sided|||||||0.018
82564576|NCT02819141|164838582|SUPERIORITY|||||||0.66|||||||t-test, 1 sided|||||||0.66
82564577|NCT02819141|164838583|SUPERIORITY|||||||0.63|||||||t-test, 1 sided|||||||0.63
82564578|NCT02819141|164838584|SUPERIORITY|||||||0.41|||||||t-test, 1 sided|||||||0.41
82564579|NCT02819141|164838585|SUPERIORITY|||||||0.06|||||||t-test, 1 sided|||||||0.06
82564580|NCT02819141|164838586|SUPERIORITY|||||||0.93|||||||t-test, 1 sided|||||||0.93
82626163|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-6.44|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|90.0|-7.93|-4.95|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-4.95|-7.93|
82626164|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-5.74|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-7.2|-4.28|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-4.28|-7.20|
82626165|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|90.0|-1.31|1.46|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.46|-1.31|
82626166|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|-2.19|0.65|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||0.65|-2.19|
82564581|NCT02819141|164838587|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||||||0.43
82564582|NCT02819141|164838588|SUPERIORITY|||||||0.69|||||||t-test, 1 sided|||||||0.69
82564583|NCT02819141|164838589|SUPERIORITY|||||||0.94|||||||t-test, 1 sided|||||||0.94
82564584|NCT02819141|164838590|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|||||||0.50
82564585|NCT02819141|164838591|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||||||0.03
82564586|NCT02819141|164838592|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
82564587|NCT02819141|164838593|SUPERIORITY|||||||0.85|||||||t-test, 1 sided|||||||0.85
82564588|NCT02819141|164838594|SUPERIORITY|||||||0.95|||||||t-test, 1 sided|||||||0.95
82564589|NCT00409006|164838596|SUPERIORITY_OR_OTHER|||||||0.0618||95.0|||||Log Rank|||||||0.0618
82564590|NCT00409006|164838597|SUPERIORITY_OR_OTHER|||||||0.369||95.0|||||Regression, Logistic|Used the Wald Chi-squared statistic from a logistic regression analysis.||||||0.369
82564591|NCT03050372|164838601|EQUIVALENCE|Significance level alpha=0.05; CI=95%.||||||0.329|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for active/sham LFMS are equal; Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SOL for active/sham LFMS are equal Ha: Means differ"||||0.329
82564592|NCT03050372|164838601|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.321|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SOL for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.321
82564593|NCT03050372|164838601|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.687|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SOL for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SOL for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.687
82564594|NCT03050372|164838602|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.925|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline WASO for active/sham LFMS are equal Ha: Means differ"||||0.925
82564595|NCT03050372|164838602|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.08|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline WASO for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.08
82564596|NCT03050372|164838602|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.221|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of WASO for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline WASO for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.221
82564597|NCT03050372|164838603|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.197|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline TST for active/sham LFMS are equal Ha: Means differ"||||0.197
82564598|NCT03050372|164838603|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.586|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline TST for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.586
82564599|NCT03050372|164838603|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.298|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of TST for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline TST for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.298
82564600|NCT03050372|164838604|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.424|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SE for active/sham LFMS are equal Ha: Means differ"||||0.424
82564601|NCT03050372|164838604|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.21|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SE for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.210
82564602|NCT03050372|164838604|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.19|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SE for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SE for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.190
82564603|NCT03050372|164838605|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.535|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline EOS for active/sham LFMS are equal Ha: Means differ"||||0.535
82564604|NCT03050372|164838605|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.196|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline EOS for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.196
82564605|NCT03050372|164838605|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.092|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of EOS for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline EOS for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.092
82564606|NCT03050372|164838606|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||1|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline SQS for active/sham LFMS are equal Ha: Means differ"||||1.00
82564607|NCT03050372|164838606|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.004|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SQS for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.004
82564608|NCT03050372|164838606|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.042|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of SQS for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline SQS for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.042
82564609|NCT03050372|164838607|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.05|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline #awake for active/sham LFMS are equal Ha: Means differ"||||0.05
82564610|NCT03050372|164838607|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.379|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline #awake for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.379
82523375|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.2008|TWO_SIDED|95.0|0.86|2.01|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||2.01|0.86|0.2008
82564611|NCT03050372|164838607|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.284|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of #awake for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline #awake for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.284
82564612|NCT03050372|164838608|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.226|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline Fatigue for active/sham LFMS are equal Ha: Means differ"||||0.226
82523376|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.4552|TWO_SIDED|95.0|0.78|1.74|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.74|0.78|0.4552
82523377|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.5579|TWO_SIDED|95.0|0.75|1.71|||Cox Proportional Hazard Model|||||1.71|0.75|0.5579
82523378|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.7214|TWO_SIDED|95.0|0.72|1.61|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.61|0.72|0.7214
82564613|NCT03050372|164838608|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.156|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Fatigue for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.156
82564614|NCT03050372|164838608|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.117|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Fatigue for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Fatigue for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.117
82564615|NCT03050372|164838609|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.13|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for active/sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to:~H0: Mean changes from Baseline Concentration for active/sham LFMS are equal Ha: Means differ"||||0.130
82564616|NCT03050372|164838609|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.249|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for Baseline and Active LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Concentration for Active LFMS is equal 0 Ha: Mean is not equal zero"||||0.249
82564617|NCT03050372|164838609|EQUIVALENCE|Significance level alpha=0.05; CI=95%||||||0.114|||||||t-test, 2 sided|||"This is a crossover study; we use a paired t-test to test the hypothesis:~H0: Means of Concentration for Baseline and Sham LFMS are equal Ha: Means differ~Note this paired t-test is equivalent to a one-sample t-test:~H0: Mean changes from Baseline Concentration for Sham LFMS is equal 0 Ha: Mean is not equal zero"||||0.114
82564618|NCT02123797|164838617|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0007|TWO_SIDED|95.0|1.35|3.06||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive stage confirmation (numerator=108/70) to Serial Care patients with and without invasive stage confirmation (denominator=168/180) after adjustment for matched study.|||3.06|1.35|0.0007
82626167|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|90.0|-2.09|0.7|||Mixed Model Repeated Measures Analysis|||In eyes closed condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||0.70|-2.09|
82626168|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|90.0|-5.6|-3.25|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.25|-5.60|
82626169|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-5.57|-3.17|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.17|-5.57|
82626170|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-5.57|-3.19|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||-3.19|-5.57|
82626171|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|90.0|-1.08|1.19|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.19|-1.08|
82626172|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|90.0|-1.18|1.1|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.10|-1.18|
82626173|NCT02564029|164967928|OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|-1.11|1.13|||Mixed Model Repeated Measures Analysis|||In eyes open condition. The same mixed model repeated measures analysis as applied to the primary outcome measure was used.||1.13|-1.11|
82626174|NCT00446641|164967938|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.654||95.0|||||Chi-squared|||We assumed that the prevalence of AR would be 12 % among ischemic stroke patients who were treated with aspirin 100 per day. The prevalence could be reduced to 4% with additional cilostazol therapy||||0.654
82626175|NCT00443846|164967996|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 95% confidence interval of the difference (Group 1 - Group 2) in seroprotection rate was greater than -10%.|Difference (Group 1 - Group 2)|0.0|||||TWO_SIDED|95.0|-3.7|3.7||||||Analysis of non-inferiority was based on the Miettinen and Nurminen method||3.7|-3.7|
82626176|NCT03437044|164968021|SUPERIORITY|||||||0.001|||||||ANCOVA|the corresponding baseline value of platelet reactivity was used as covariate||||||0.001
82626177|NCT03437044|164968022|SUPERIORITY||||||<|0.001|||||||ANCOVA|the corresponding baseline value of platelet reactivity was used as covariate||||||<0.001
82564619|NCT02123797|164838618|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0022|TWO_SIDED|95.0|1.25|2.8||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive mediastinal staging (numerator=91/87) to Serial Care patients with and without mediastinal invasive staging (denominator=126/222) after adjustment for matched study.|||2.80|1.25|0.0022
82564620|NCT02123797|164838619|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0004|TWO_SIDED|95.0|1.67|5.85||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without bi-modal staging (numerator=161/17) to Serial Care patients with and without bi-modal staging (denominator=267/81) after adjustment for matched study design.|||5.85|1.67|0.0004
82564621|NCT02123797|164838620|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.5|3.36||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without tri-modal staging (numerator=99/79) to Serial Care patients with and without tri-modal staging (denominator=132/216) after adjustment for matched study design.|||3.36|1.50|<0.0001
82564622|NCT02123797|164838621|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0366|TWO_SIDED|95.0|1.665|3.996||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without invasive staging (numerator=108/70) to Serial Care patients not in conference with and without invasive staging (denominator=122/150) after adjustment for matched study design.|||3.996|1.665|0.0366
82564623|NCT02123797|164838621|SUPERIORITY||Odds Ratio (OR)|2.621||||0.0779|TWO_SIDED|95.0|1.473|4.665||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without invasive staging (numerator=46/30) to Serial Care patients not in conference with and without invasive staging (denominator=122/150) after adjustment for matched study design.|||4.665|1.473|0.0779
82564624|NCT02123797|164838622|SUPERIORITY||Odds Ratio (OR)|2.358||||0.0703|TWO_SIDED|95.0|1.536|3.621||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without mediastinal staging (numerator=91/87) to Serial Care patients not in conference with and without mediastinal staging (denominator=86/186) after adjustment for matched study.|||3.621|1.536|0.0703
82564625|NCT02123797|164838622|SUPERIORITY||Odds Ratio (OR)|2.535||||0.0631|TWO_SIDED|95.0|1.446|4.444||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without mediastinal staging (numerator=40/36) to Serial Care patients not in conference with and without mediastinal staging (denominator=86/186) after adjustment for matched study.|||4.444|1.446|0.0631
82564626|NCT02123797|164838623|SUPERIORITY||Odds Ratio (OR)|3.191||||0.001|TWO_SIDED|95.0|1.671|6.093||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without bi-modal staging (numerator=161/17) to Serial Care patients not in conference with and without bi-modal staging (denominator=205/67) after adjustment for matched study.|||6.093|1.671|0.0010
82564627|NCT02123797|164838623|SUPERIORITY||Odds Ratio (OR)|1.103||||0.1972|TWO_SIDED|95.0|0.526|2.314||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without bi-modal staging (numerator=62/14) to Serial Care patients not in conference with and without bi-modal staging (denominator=205/67) after adjustment for matched study.|||2.314|0.526|0.1972
82564628|NCT02123797|164838624|SUPERIORITY||Odds Ratio (OR)|2.739||||0.0055|TWO_SIDED|95.0|1.785|4.203|||Regression, Logistic||Odds ratio comparing Multidisciplinary Clinic patients with and without tri-modal staging (numerator=99/79) to Serial Care patients not in conference with and without tri-modal staging (denominator=93/179) after adjustment for matched study.|||4.203|1.785|0.0055
82564629|NCT02123797|164838624|SUPERIORITY||Odds Ratio (OR)|2.242||||0.2572|TWO_SIDED|95.0|1.287|3.905||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing Serial Care patients in conference with and without tri-modal staging (numerator=39/37) to Serial Care patients not in conference with and without tri-modal staging (denominator=93/179) after adjustment for matched study.|||3.905|1.287|0.2572
82564630|NCT02123797|164838625|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0045|TWO_SIDED|95.0|1.24|3.25||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without stage appropriate treatment (numerator=140/33) to SC patients with and without stage appropriate treatment (denominator=232/106) after adjustment for matched study.|||3.25|1.24|0.0045
82564631|NCT02123797|164838626|SUPERIORITY||Odds Ratio (OR)|2.249||||0.0474|TWO_SIDED|95.0|1.368|3.699||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without stage appropriate treatment (numerator=140/33) to SC patients not in conference with and without stage appropriate treatment (denominator=174/91) after adjustment for matched study.|We examined treatment selection practices with or without MD care in a single healthcare system.||3.699|1.368|0.0474
82564632|NCT02123797|164838626|SUPERIORITY||Odds Ratio (OR)|1.751||||0.6353|TWO_SIDED|95.0|0.91|3.37||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing SC patients in conference with and without stage appropriate treatment (numerator=58/15) to SC patients not in conference with and without stage appropriate treatment (denominator=174/91) after adjustment for matched study.|||3.370|0.910|0.6353
82564633|NCT02123797|164838628|SUPERIORITY||Odds Ratio (OR)|2.955||||0.0014|TWO_SIDED|95.0|1.52|5.747||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=140/37) to SC conference patients with and without concordance to recommendations (denominator=45/30) after adjustment for matched study design.|||5.747|1.520|0.0014
82564634|NCT02123797|164838629|SUPERIORITY||Odds Ratio (OR)|3.093||||0.0019|TWO_SIDED|95.0|1.519|6.299||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=145/32) to SC conference patients with and without concordance to recommendations (denominator=49/26) after adjustment for matched study design.|||6.299|1.519|0.0019
82564635|NCT02123797|164838630|SUPERIORITY||Odds Ratio (OR)|40.892||||0.0499|TWO_SIDED|95.0|1.002|999.999||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=174/3) to SC conference patients with and without concordance to recommendations (denominator=71/4) after adjustment for matched study design.|||999.999|1.002|0.0499
82564636|NCT02123797|164838631|SUPERIORITY||Odds Ratio (OR)|2.663||||0.0263|TWO_SIDED|95.0|1.123|6.319||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=158/19) to SC conference patients with and without concordance to recommendations (denominator=60/15) after adjustment for matched study design.|||6.319|1.123|0.0263
82564637|NCT02123797|164838632|SUPERIORITY||Odds Ratio (OR)|2.566||||0.1503|TWO_SIDED|95.0|0.711|9.269||Conditional logistic regression adjusted for the matched study design, sex, age, and histology.|Regression, Logistic||Odds ratio comparing MD patients with and without concordance to recommendations (numerator=87/14) to SC conference patients with and without concordance to recommendations (denominator=38/8) after adjustment for matched study design.|||9.269|0.711|0.1503
82564638|NCT02123797|164838645|SUPERIORITY|||||||0.0042|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Diagnostic Biopsy||||0.0042
82564639|NCT02123797|164838645|SUPERIORITY|||||||0.0805|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Non-invasive Staging Test||||0.0805
82564640|NCT02123797|164838645|SUPERIORITY|||||||0.0073|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Invasive Staging Test||||0.0073
82564641|NCT02123797|164838645|SUPERIORITY|||||||0.0579|||||||Wilcoxon (Mann-Whitney)|||Time from Initial Detection of Lesion to Definitive Treatment||||0.0579
82564642|NCT02123797|164838646|SUPERIORITY|||||||0.0146|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Diagnostic Biopsy||||0.0146
82564643|NCT02123797|164838646|SUPERIORITY|||||||0.16|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Non-invasive Staging Test||||0.16
82564644|NCT02123797|164838646|SUPERIORITY|||||||0.0014|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Invasive Staging Test||||0.0014
82564645|NCT02123797|164838646|SUPERIORITY|||||||0.0037|||||||Kruskal-Wallis|||Time from Initial Detection of Lesion to Definitive Treatment||||0.0037
82564646|NCT02123797|164838653|SUPERIORITY|||||||0.7506|||||||Log Rank|||||||0.7506
82564647|NCT02123797|164838653|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.54|TWO_SIDED|95.0|0.85|1.36|||Regression, Cox||Comparison is Multidisciplinary/Serial Care.|||1.36|0.85|0.54
82564648|NCT02123797|164838654|SUPERIORITY|||||||0.4847|||||||Log Rank|||||||0.4847
82564649|NCT02123797|164838654|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.51|TWO_SIDED|95.0|0.87|1.43|||Regression, Cox||Comparison is Multidisciplinary/Serial Care Patients Not Presented in Conference|||1.43|0.87|0.51
82564650|NCT02123797|164838654|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.51|TWO_SIDED|95.0|0.84|1.67|||Regression, Cox||Comparison is Serial Care Patients Presented in Conference/Serial Care Patients Not Presented in Conference|||1.67|0.84|0.51
82564651|NCT02123797|164838655|SUPERIORITY|||||||0.9874|||||||Log Rank|||||||0.9874
82564652|NCT02123797|164838655|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8|TWO_SIDED|95.0|0.82|1.29|||Regression, Cox||Comparison is Multidisciplinary/Serial Care|||1.29|0.82|0.80
82523379|NCT01755702|164742209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.8192|TWO_SIDED|95.0|0.62|1.45|||Cox Proportional Hazard Model|||Null hypothesis considered no difference between the treatments in comparison.||1.45|0.62|0.8192
82523380|NCT03440372|164742231|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0049|TWO_SIDED|95.0|1.19|2.7|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.70|1.19|0.0049
82564653|NCT02123797|164838656|SUPERIORITY|||||||0.5377|||||||Log Rank|||||||0.5377
82523381|NCT03440372|164742232|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0179|TWO_SIDED|95.0|1.09|2.43|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.43|1.09|0.0179
82523382|NCT03440372|164742233|SUPERIORITY||Odds Ratio (OR)|1.27||||0.272|TWO_SIDED|95.0|0.83|1.93|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||1.93|0.83|0.2720
82564654|NCT02123797|164838656|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.73|TWO_SIDED|95.0|0.83|1.34|||Regression, Cox||Comparison is Multidisciplinary/Serial Care Patients Not Presented in Conference|||1.34|0.83|0.73
82564655|NCT02123797|164838656|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.73|TWO_SIDED|95.0|0.82|1.57|||Regression, Cox||Comparison is Serial Care Patients Presented in Conference/Serial Care Patients Not Presented in Conference|||1.57|0.82|0.73
82564656|NCT05030467|164838657|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.39|0.31||||||We used generalized estimating equations (GEE) to adjust for the cluster design with an identify link function and normally-distributed errors||0.31|-0.39|
82564657|NCT05030467|164838658|SUPERIORITY||Risk Ratio (RR)|1.02||||0.011|TWO_SIDED|95.0|1.0|1.03|||Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and Poisson-distributed errors, adjusting for clinic-level clustering.||1.03|1.00|0.011
82564658|NCT05030467|164838661|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.383|TWO_SIDED|95.0|-0.38|0.15|||Regression, Linear|||We used generalized estimating equations (GEE) to adjust for the cluster design with an identify link function and normally-distributed errors||0.15|-0.38|0.383
82564659|NCT00331799|164838683|SUPERIORITY_OR_OTHER|||||||0.00365|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Signed Rank test on the difference between the baseline and endpoint score on the CD-RISC.||||0.00365
82564660|NCT02889809|164838684|OTHER||Least Square (LS) Mean Difference|-0.16|||||TWO_SIDED|95.0|-0.462|0.142|||||Analysis was performed using an analysis of covariance (ANCOVA) model adjusting for Baseline growth velocity, age at Visit 1, gender and country.|||0.142|-0.462|
82564661|NCT02889809|164838687|OTHER||LS Mean Difference|0.059|||||TWO_SIDED|95.0|-0.455|0.572|||||Analysis was performed using an ANCOVA model adjusting for Baseline growth velocity, age at Visit 1(wk -16), gender and country|||0.572|-0.455|
82564662|NCT05065918|164838691|SUPERIORITY||Slope|-0.536||||0.448|TWO_SIDED|95.0|-1.929|0.857|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||0.857|-1.929|0.448
82564663|NCT05065918|164838692|SUPERIORITY||Slope|0.99||||0.969|TWO_SIDED|95.0|-1.152|1.108|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.108|-1.152|0.969
82564664|NCT05065918|164838693|SUPERIORITY||Slope|-0.5||||0.231|TWO_SIDED|95.0|-1.322|0.322|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.322|-1.322|0.231
82564665|NCT05065918|164838694|SUPERIORITY||Slope|-0.319||||0.398|TWO_SIDED|95.0|-1.064|0.425|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.425|-1.064|0.398
82564666|NCT05065918|164838695|SUPERIORITY||Slope|0.284||||0.382|TWO_SIDED|95.0|-0.356|0.924|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||.924|-.356|0.382
82564667|NCT05065918|164838696|SUPERIORITY||Slope|0.382||||0.266|TWO_SIDED|95.0|-0.284|1.025|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.025|-.284|0.266
82564668|NCT05065918|164838697|SUPERIORITY||Slope|0.53||||0.019|TWO_SIDED|95.0|0.089|0.97|||Regression, Linear|||||.970|0.089|0.019
82564669|NCT05065918|164838698|SUPERIORITY||Slope|0.277||||0.284|TWO_SIDED|95.0|-0.232|0.787|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||0.787|-.232|0.284
82564670|NCT05065918|164838699|SUPERIORITY||Slope|0.709||||0.076|TWO_SIDED|95.0|-0.076|1.494|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.494|-.076|0.076
82626178|NCT02980692|164968041|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
82626179|NCT02980692|164968041|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||||||0.0006
82626180|NCT02980692|164968041|SUPERIORITY|||||||0.0088|||||||Cochran-Mantel-Haenszel|||||||0.0088
82626181|NCT02980692|164968041|SUPERIORITY|||||||0.0041|||||||Cochran-Mantel-Haenszel|||||||0.0041
82626182|NCT02980692|164968042|SUPERIORITY||% response rate|92.54|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|86.24|98.83||||||||98.83|86.24|
82626183|NCT02980692|164968042|SUPERIORITY||% response rate|89.06|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|81.42|96.71||||||||96.71|81.42|
82442155|NCT03906656|164592765|SUPERIORITY||Mean Difference (Final Values)|2.82|STANDARD_DEVIATION|16.4||0.08|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=1325.5, effect size r = 0.181, p=0.08.|||0.08
82626184|NCT02980692|164968042|SUPERIORITY||% response rate|86.67|STANDARD_ERROR_OF_MEAN|4.39|||TWO_SIDED|95.0|78.07|95.27||||||||95.27|78.07|
82626185|NCT02980692|164968042|SUPERIORITY||% response rate|81.33|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|72.52|90.15||||||||90.15|72.52|
82626186|NCT02980692|164968042|SUPERIORITY||% response rate|81.33|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|72.52|90.15||||||||90.15|72.52|
82626187|NCT02980692|164968043|SUPERIORITY||% response rate|79.1|STANDARD_ERROR_OF_MEAN|4.97|||TWO_SIDED|95.0|69.37|88.84||||||||88.84|69.37|
82626188|NCT02980692|164968043|SUPERIORITY||% response rate|75.0|STANDARD_ERROR_OF_MEAN|5.41|||TWO_SIDED|95.0|64.39|85.61||||||||85.61|64.39|
82626189|NCT02980692|164968043|SUPERIORITY||% response rate|72.13|STANDARD_ERROR_OF_MEAN|5.74|||TWO_SIDED|95.0|60.88|83.38||||||||83.38|60.88|
82626190|NCT02980692|164968043|SUPERIORITY||% response rate|68.0|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|95.0|57.44|78.56||||||||78.56|57.44|
82626191|NCT02980692|164968043|SUPERIORITY||% response rate|62.67|STANDARD_ERROR_OF_MEAN|5.59|||TWO_SIDED|95.0|51.72|73.61||||||||73.61|51.72|
82626192|NCT02980692|164968044|SUPERIORITY||% response rate|58.21|STANDARD_ERROR_OF_MEAN|6.03|||TWO_SIDED|95.0|46.4|70.02||||||||70.02|46.40|
82564671|NCT05065918|164838700|SUPERIORITY||Slope|0.625||||0.136|TWO_SIDED|95.0|-0.199|1.449|||Regression, Linear|||Pilot sample size considerations: Assessing 70 students per arm (total n=140) that have completed the program and follow up would provide sufficient data on the full RCT protocol across multiple campuses as well as estimates of intervention effects. Assuming a retention rate of 70% for the three-month follow up, we would need to enroll 200 participants at baseline. We do not anticipate sufficient power to detect statistically and clinically significant results.||1.449|-.199|0.136
82564672|NCT03149887|164838703|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82564673|NCT03149887|164838704|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
82564674|NCT03149887|164838705|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82564675|NCT03149887|164838706|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82564676|NCT03149887|164838707|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82564677|NCT03149887|164838708|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82564678|NCT03149887|164838709|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
82564679|NCT03149887|164838710|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
82564680|NCT00113880|164838711|SUPERIORITY_OR_OTHER|||||||0.01||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the relative risk (RR) or hazard ratio (HR) is not estimable.||||0.01
82564681|NCT00113880|164838711|SUPERIORITY_OR_OTHER|||||||0.01||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.01
82564682|NCT00113880|164838711|SUPERIORITY_OR_OTHER|||||||0.02||||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Exact method or Cox model|||Breast lump/cyst event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.02
82626193|NCT02980692|164968044|SUPERIORITY||% response rate|48.44|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|36.19|60.68||||||||60.68|36.19|
82626194|NCT02980692|164968044|SUPERIORITY||% response rate|39.34|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|27.09|51.6||||||||51.60|27.09|
82626195|NCT02980692|164968044|SUPERIORITY||% response rate|40.0|STANDARD_ERROR_OF_MEAN|5.66|||TWO_SIDED|95.0|28.91|51.09||||||||51.09|28.91|
82626196|NCT02980692|164968044|SUPERIORITY||% response rate|37.33|STANDARD_ERROR_OF_MEAN|5.59|||TWO_SIDED|95.0|26.39|48.28||||||||48.28|26.39|
82626197|NCT02980692|164968045|SUPERIORITY|||||||0.085|||||||Cochran-Mantel-Haenszel|||||||0.0850
82626198|NCT02980692|164968045|SUPERIORITY|||||||0.0234|||||||Cochran-Mantel-Haenszel|||||||0.0234
82626199|NCT02980692|164968045|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|||||||0.0140
82626200|NCT02980692|164968045|SUPERIORITY|||||||0.0731|||||||Cochran-Mantel-Haenszel|||||||0.0731
82626201|NCT02980692|164968046|SUPERIORITY||Mean Difference (Net)|-12.3|STANDARD_DEVIATION|11.47|||TWO_SIDED|||||||||||||
82626202|NCT02980692|164968046|SUPERIORITY||Mean Difference (Net)|-13.7|STANDARD_DEVIATION|11.92|||TWO_SIDED|||||||||||||
82626203|NCT02980692|164968046|SUPERIORITY||Mean Difference (Net)|-16.0|STANDARD_DEVIATION|12.83|||TWO_SIDED|||||||||||||
82626204|NCT02980692|164968046|SUPERIORITY||Mean Difference (Net)|-14.0|STANDARD_DEVIATION|10.65|||TWO_SIDED|||||||||||||
82626205|NCT02980692|164968046|SUPERIORITY||Mean Difference (Net)|-13.9|STANDARD_DEVIATION|12.02|||TWO_SIDED|||||||||||||
82626206|NCT02980692|164968047|SUPERIORITY|||||||0.0111|||||||Cochran-Mantel-Haenszel|||||||0.0111
82626207|NCT02980692|164968047|SUPERIORITY|||||||0.0774|||||||Cochran-Mantel-Haenszel|||||||0.0774
82626208|NCT02980692|164968047|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|||||||0.0190
82626209|NCT02980692|164968047|SUPERIORITY|||||||0.1282|||||||Cochran-Mantel-Haenszel|||||||0.1282
82626210|NCT02980692|164968048|SUPERIORITY||Mean Difference (Net)|-8.7|STANDARD_DEVIATION|6.88|||TWO_SIDED|||||||||||||
82626211|NCT02980692|164968048|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|7.07|||TWO_SIDED|||||||||||||
82626212|NCT02980692|164968048|SUPERIORITY||Mean Difference (Net)|-9.2|STANDARD_DEVIATION|7.62|||TWO_SIDED|||||||||||||
82626213|NCT02980692|164968048|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|5.78|||TWO_SIDED|||||||||||||
82626214|NCT02980692|164968048|SUPERIORITY||Mean Difference (Net)|-9.0|STANDARD_DEVIATION|8.8|||TWO_SIDED|||||||||||||
82626215|NCT02980692|164968049|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
82626216|NCT02980692|164968049|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
82626217|NCT02980692|164968049|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
82626218|NCT02980692|164968049|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
82626219|NCT02980692|164968050|SUPERIORITY||Mean Difference (Net)|-40.0|STANDARD_DEVIATION|17.38|||TWO_SIDED|||||||||||||
82626220|NCT02980692|164968050|SUPERIORITY||Mean Difference (Net)|-44.3|STANDARD_DEVIATION|19.73|||TWO_SIDED|||||||||||||
82626221|NCT02980692|164968050|SUPERIORITY||Mean Difference (Net)|-45.3|STANDARD_DEVIATION|19.84|||TWO_SIDED|||||||||||||
82626222|NCT02980692|164968050|SUPERIORITY||Mean Difference (Net)|-42.7|STANDARD_DEVIATION|19.18|||TWO_SIDED|||||||||||||
82626223|NCT02980692|164968050|SUPERIORITY||Mean Difference (Net)|-42.0|STANDARD_DEVIATION|20.41|||TWO_SIDED|||||||||||||
82626224|NCT02980692|164968051|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82626225|NCT02980692|164968051|SUPERIORITY|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
82626226|NCT02980692|164968051|SUPERIORITY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||||||0.0011
82626227|NCT02980692|164968051|SUPERIORITY|||||||0.0167|||||||Cochran-Mantel-Haenszel|||||||0.0167
82626228|NCT02980692|164968052|SUPERIORITY||Mean Difference (Net)|-42.2|STANDARD_DEVIATION|22.74|||TWO_SIDED|||||||||||||
82626229|NCT02980692|164968052|SUPERIORITY||Mean Difference (Net)|-43.8|STANDARD_DEVIATION|24.01|||TWO_SIDED|||||||||||||
82626230|NCT02980692|164968052|SUPERIORITY||Mean Difference (Net)|-38.4|STANDARD_DEVIATION|27.9|||TWO_SIDED|||||||||||||
82626231|NCT02980692|164968052|SUPERIORITY||Mean Difference (Net)|-37.9|STANDARD_DEVIATION|24.65|||TWO_SIDED|||||||||||||
82626232|NCT02980692|164968052|SUPERIORITY||Mean Difference (Net)|-40.5|STANDARD_DEVIATION|28.13|||TWO_SIDED|||||||||||||
82564683|NCT00113880|164838711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59||||0.02|TWO_SIDED|95.0|0.64|3.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||3.92|0.64|0.02
82564684|NCT00113880|164838711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.35||||0.01|TWO_SIDED|95.0|2.2|24.54||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||24.54|2.20|0.01
82564685|NCT00113880|164838711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.17||||0.01|TWO_SIDED|95.0|2.13|24.13||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Mastitis event rates were presented per 1,000 person-months.||24.13|2.13|0.01
82564686|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05||||0.03|TWO_SIDED|95.0|0.0|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||0.79|0.00|0.03
82564687|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13||||0.05|TWO_SIDED|95.0|0.02|1.0||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||1.00|0.02|0.05
82564688|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11||||0.04|TWO_SIDED|95.0|0.01|0.86||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Heart murmur event rates were presented per 1,000 person-months.||0.86|0.01|0.04
82564689|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|95.0|0.2|0.7||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the 18-49 year age group.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.70|0.20|0.01
82564690|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.01|TWO_SIDED|95.0|0.22|0.74||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the all ages combined group.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.74|0.22|0.01
82564691|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05||||0.01|TWO_SIDED|95.0|0.03|0.08||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population was the 18-49 year age and the all ages combined groups.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.08|0.03|0.01
82564692|NCT00113880|164838712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.02||||0.01|TWO_SIDED|95.0|0.01|0.03|||Regression, Cox||Population was the 18-49 year age and all ages combined groups.|Pregnancy exam/supervision event rates were presented per 1,000 person-months.||0.03|0.01|0.01
82564693|NCT00113880|164838713|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.04|TWO_SIDED|95.0|1.02|4.13||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox|||Urticaria event rates were presented per 1,000 person-months.||4.13|1.02|0.04
82564694|NCT00113880|164838715|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71||||0.01|TWO_SIDED|95.0|0.56|0.89||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.89|0.56|0.01
82626233|NCT02980692|164968053|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82626234|NCT02980692|164968053|SUPERIORITY|||||||0.0055|||||||Cochran-Mantel-Haenszel|||||||0.0055
82626235|NCT02980692|164968053|SUPERIORITY|||||||0.0039|||||||Cochran-Mantel-Haenszel|||||||0.0039
82626236|NCT02980692|164968053|SUPERIORITY|||||||0.0487|||||||Cochran-Mantel-Haenszel|||||||0.0487
82626237|NCT02980692|164968054|SUPERIORITY||Mean Difference (Net)|-40.7|STANDARD_DEVIATION|21.59|||TWO_SIDED|||||||||||||
82626238|NCT02980692|164968054|SUPERIORITY||Mean Difference (Net)|-42.7|STANDARD_DEVIATION|25.67|||TWO_SIDED|||||||||||||
82626239|NCT02980692|164968054|SUPERIORITY||Mean Difference (Net)|-38.0|STANDARD_DEVIATION|29.26|||TWO_SIDED|||||||||||||
82626240|NCT02980692|164968054|SUPERIORITY||Mean Difference (Net)|-37.6|STANDARD_DEVIATION|26.63|||TWO_SIDED|||||||||||||
82626241|NCT02980692|164968054|SUPERIORITY||Mean Difference (Net)|-41.0|STANDARD_DEVIATION|29.83|||TWO_SIDED|||||||||||||
82626242|NCT02980692|164968055|SUPERIORITY|||||||0.0987|||||||Cochran-Mantel-Haenszel|||||||0.0987
82626243|NCT02980692|164968055|SUPERIORITY|||||||0.036|||||||Cochran-Mantel-Haenszel|||||||0.0360
82626244|NCT02980692|164968055|SUPERIORITY|||||||0.0346|||||||Cochran-Mantel-Haenszel|||||||0.0346
82626245|NCT02980692|164968055|SUPERIORITY|||||||0.4442|||||||Cochran-Mantel-Haenszel|||||||0.4442
82626246|NCT02980692|164968056|SUPERIORITY||Mean Difference (Net)|-0.4869|STANDARD_DEVIATION|0.52093|||TWO_SIDED|||||||||||||
82626247|NCT02980692|164968056|SUPERIORITY||Mean Difference (Net)|-0.543|STANDARD_DEVIATION|0.59145|||TWO_SIDED|||||||||||||
82626248|NCT02980692|164968056|SUPERIORITY||Mean Difference (Net)|-0.4857|STANDARD_DEVIATION|0.56968|||TWO_SIDED|||||||||||||
82626249|NCT02980692|164968056|SUPERIORITY||Mean Difference (Net)|-0.4583|STANDARD_DEVIATION|0.52285|||TWO_SIDED|||||||||||||
82626250|NCT02980692|164968056|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|0.54013|||TWO_SIDED|||||||||||||
82626251|NCT02980692|164968057|SUPERIORITY|||||||0.0064|||||||Cochran-Mantel-Haenszel|||||||0.0064
82626252|NCT02980692|164968057|SUPERIORITY|||||||0.0516|||||||Cochran-Mantel-Haenszel|||||||0.0516
82626253|NCT02980692|164968057|SUPERIORITY|||||||0.0114|||||||Cochran-Mantel-Haenszel|||||||0.0114
82626254|NCT02980692|164968057|SUPERIORITY|||||||0.082|||||||Cochran-Mantel-Haenszel|||||||0.0820
82626255|NCT02980692|164968058|SUPERIORITY||Mean Difference (Net)|-3.43|STANDARD_DEVIATION|12.506|||TWO_SIDED|||||||||||||
82626256|NCT02980692|164968058|SUPERIORITY||Mean Difference (Net)|-3.68|STANDARD_DEVIATION|10.77|||TWO_SIDED|||||||||||||
82523383|NCT03440372|164742234|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0193|TWO_SIDED|95.0|1.07|2.15|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.15|1.07|0.0193
82564695|NCT00113880|164838715|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.59||||0.01|TWO_SIDED|95.0|0.41|0.83||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.83|0.41|0.01
82564696|NCT00113880|164838715|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.04|TWO_SIDED|95.0|0.46|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.99|0.46|0.04
82564697|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.33||||0.01|TWO_SIDED|95.0|0.27|0.41||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.41|0.27|0.01
82564698|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3||||0.01|TWO_SIDED|95.0|0.22|0.42||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.42|0.22|0.01
82564699|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.34||||0.01|TWO_SIDED|95.0|0.24|0.47||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.47|0.24|0.01
82564700|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.23|0.75||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.75|0.23|0.01
82564701|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.01|TWO_SIDED|95.0|0.33|0.44||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.44|0.33|0.01
82564702|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.01|TWO_SIDED|95.0|0.32|0.5||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.50|0.32|0.01
82564703|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.36||||0.01|TWO_SIDED|95.0|0.28|0.45||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.45|0.28|0.01
82564704|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41||||0.01|TWO_SIDED|95.0|0.27|0.6||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 years within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.60|0.27|0.01
82564705|NCT00113880|164838716|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.05|TWO_SIDED|95.0|0.21|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 years, PD2 within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.99|0.21|0.05
82626257|NCT02980692|164968058|SUPERIORITY||Mean Difference (Net)|-6.05|STANDARD_DEVIATION|19.004|||TWO_SIDED|||||||||||||
82626258|NCT02980692|164968058|SUPERIORITY||Mean Difference (Net)|-4.61|STANDARD_DEVIATION|9.508|||TWO_SIDED|||||||||||||
82626259|NCT02980692|164968058|SUPERIORITY||Mean Difference (Net)|-6.75|STANDARD_DEVIATION|19.649|||TWO_SIDED|||||||||||||
82442156|NCT03906656|164592766|SUPERIORITY||Mean Difference (Final Values)|0.009|STANDARD_DEVIATION|0.184||0.151|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test||Wilcoxon Signed Rank Test V=1124.5, effect size r = 0.125 p=0.151|H0: the median of the population differences (C-Brace - KAFO) \<= 0||||0.151
82626260|NCT02980692|164968059|SUPERIORITY|||||||0.0351|||||||Cochran-Mantel-Haenszel|||||||0.0351
82442157|NCT03906656|164592767|SUPERIORITY|H0: the mean of the population differences (C-Brace - KAFO) \>= 0|Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|21.5||0.281|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|16.7 degrees of freedom||WLQ-25 - Physical||||0.281
82626261|NCT02980692|164968059|SUPERIORITY|||||||0.0876|||||||Cochran-Mantel-Haenszel|||||||0.0876
82626262|NCT02980692|164968059|SUPERIORITY|||||||0.0269|||||||Cochran-Mantel-Haenszel|||||||0.0269
82626263|NCT02980692|164968059|SUPERIORITY|||||||0.0185|||||||Cochran-Mantel-Haenszel|||||||0.0185
82506291|NCT02596854|164704509|NON_INFERIORITY|α=0.025 with a margin of Δ=0.5 were used for non-inferiority testing|Median Difference (Net)|-0.428|STANDARD_ERROR_OF_MEAN|0.3522|<|0.001|TWO_SIDED|95.0|-0.428|-0.269||No adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)||Notably, no separate comparative statistical analysis was performed for the 1.5T and 3.0T subgroups, which were pooled for analysis. All patients underwent both synthetic MR and commercial conventional MR in a single arm.|Non-inferiority of synthetic MR versus conventional commercial MR the hypothesis can be stated as H0: S ≤ -Δ and HA: S \> -Δ.|To mitigate possible bias, the hypothesis test was executed via pre-programmed SAS module, which does not show the data for individual synthetic and conventional group values. The data for these individual groups is thus not currently available as part of the study report held by the sponsor or submitted to FDA. Thus, this data cannot be presented without additional analysis (re-programming) of the original SAS used to perform the study. Data were only reported as the difference between synthetic - conventional to determine non-inferiority, and data for individual crossovers (synthetic vs. conventional) were not calculated.The raw conventional scan images and those post-processed with the research software were combined as pre-specified in the study protocol|-0.269|-0.428|<0.001
82506292|NCT03615326|164704536|SUPERIORITY|The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.61|0.87|||Log Rank|One-sided p-value based on log-rank test stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|PFS in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||0.87|0.61|0.0002
82506293|NCT03615326|164704537|SUPERIORITY|The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Hazard Ratio (HR)|0.8||||0.004|TWO_SIDED|95.0|0.67|0.94|||Log Rank|One-sided p-value based on log-rank test stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status, and chemotherapy regimen with small strata collapsed.|OS in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||0.94|0.67|0.0040
82506294|NCT03615326|164704538|SUPERIORITY|The difference in percentage and its 95% confidence interval (CI) were estimated using the Miettinen \& Nurminen method stratified by geographic region, PD-L1 status (positive vs. negative) at baseline, and chemotherapy regimen (FP or CAPOX).|Difference in Percentage|12.6||||0.0002|TWO_SIDED|95.0|5.6|19.4||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen Method|||ORR in all participants of the Global Pembrolizumab + SOC First Course was compared to PFS in all participants of the Global Standard of Care to address the hypothesis (pembrolizumab in combination with trastuzumab plus chemotherapy is superior to trastuzumab plus chemotherapy alone).||19.4|5.6|0.00020
82506295|NCT01480076|164704553|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 3: Mixed effect model for repeated measures with visit, baseline PCS score, baseline Expanded Disability Status Scale (EDSS) score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506296|NCT01480076|164704553|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 6: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506297|NCT01480076|164704553|SUPERIORITY_OR_OTHER||least squares mean|0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0007|TWO_SIDED||||||mixed effect model|||Difference of Month 3 versus Month 6: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
82506298|NCT01480076|164704553|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within-group p-value|mixed effect model|||Month 9: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82523384|NCT03440372|164742235|SUPERIORITY||Odds Ratio (OR)|1.28||||0.3167|TWO_SIDED|95.0|0.79|2.05|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.05|0.79|0.3167
82523385|NCT03440372|164742236|SUPERIORITY||Odds Ratio (OR)|1.28||||0.3167|TWO_SIDED|95.0|0.79|2.05|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.05|0.79|0.3167
82523386|NCT03440372|164742237|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2978|TWO_SIDED|95.0|0.73|2.77|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.77|0.73|0.2978
82523387|NCT03440372|164742238|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1895|TWO_SIDED|95.0|0.82|2.72|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.72|0.82|0.1895
82523388|NCT03440372|164742239|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0452|TWO_SIDED|95.0|1.0|2.97|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.97|1.00|0.0452
82523389|NCT03440372|164742240|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0173|TWO_SIDED|95.0|1.08|2.14|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.14|1.08|0.0173
82564706|NCT00113880|164838717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.01|TWO_SIDED|95.0|0.86|0.98||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.98|0.86|0.01
82564707|NCT00113880|164838717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.01|TWO_SIDED|95.0|0.75|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs., within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.92|0.75|0.01
82626264|NCT02980692|164968060|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_DEVIATION|19.58|||TWO_SIDED|||||||||||||
82442158|NCT03906656|164592768|SUPERIORITY||Mean Difference (Final Values)|1.99|STANDARD_DEVIATION|5.18||0.00019|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|48.4 degrees of freedom||OPUS - Low Extremity Functional Status. H0: the mean difference (C-Brace - KAFO) \<= 0||||0.00019
82626265|NCT02980692|164968060|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_DEVIATION|15.26|||TWO_SIDED|||||||||||||
82626266|NCT02980692|164968060|SUPERIORITY||Median Difference (Net)|-8.9|STANDARD_DEVIATION|20.48|||TWO_SIDED|||||||||||||
82626267|NCT02980692|164968060|SUPERIORITY||Mean Difference (Net)|-9.7|STANDARD_DEVIATION|19.02|||TWO_SIDED|||||||||||||
82442159|NCT03906656|164592769|SUPERIORITY||Mean Difference (Final Values)|3.19|STANDARD_DEVIATION|15.0||0.0226|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|22.1 degrees of freedom||Emotional well-being. H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0226
82626268|NCT02980692|164968060|SUPERIORITY||Mean Difference (Net)|-9.2|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||||||||||
82626269|NCT02980692|164968061|SUPERIORITY||Proportion with Adjustment of Background|1.27|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|0.0|3.73||||||||3.73|0.00|
82626270|NCT02980692|164968061|SUPERIORITY||Proportion with Adjustment of Background|1.3|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|0.0|3.83||||||||3.83|0.00|
82626271|NCT02980692|164968061|SUPERIORITY||Proportion with Adjustment of Background|2.56|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|0.0|6.07||||||||6.07|0.00|
82626272|NCT02980692|164968061|SUPERIORITY||Proportion with Adjustment of Background|1.27|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|0.0|3.73||||||||3.73|0.00|
82626273|NCT02980692|164968062|SUPERIORITY||% response rate|85.07|STANDARD_ERROR_OF_MEAN|4.35|||TWO_SIDED|95.0|76.54|93.61||||||||93.61|76.54|
82626274|NCT02980692|164968062|SUPERIORITY||% response rate|81.25|STANDARD_ERROR_OF_MEAN|4.88|||TWO_SIDED|95.0|71.69|90.81||||||||90.81|71.69|
82626275|NCT02980692|164968062|SUPERIORITY||% response rate|76.27|STANDARD_ERROR_OF_MEAN|5.54|||TWO_SIDED|95.0|65.42|87.13||||||||87.13|65.42|
82626276|NCT02980692|164968062|SUPERIORITY||% response rate|71.05|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|60.86|81.25||||||||81.25|60.86|
82626277|NCT02980692|164968062|SUPERIORITY||% response rate|65.33|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|54.56|76.1||||||||76.10|54.56|
82626278|NCT02980692|164968063|SUPERIORITY||% response rate|56.92|STANDARD_ERROR_OF_MEAN|6.14|||TWO_SIDED|95.0|44.88|68.96||||||||68.96|44.88|
82626279|NCT02980692|164968063|SUPERIORITY||% response rate|64.41|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|95.0|52.19|76.62||||||||76.62|52.19|
82626280|NCT02980692|164968063|SUPERIORITY||% response rate|45.0|STANDARD_ERROR_OF_MEAN|6.42|||TWO_SIDED|95.0|32.41|57.59||||||||57.59|32.41|
82626281|NCT02980692|164968063|SUPERIORITY||% response rate|47.06|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|35.2|58.92||||||||58.92|35.20|
82626282|NCT02980692|164968063|SUPERIORITY||% response rate|42.03|STANDARD_ERROR_OF_MEAN|5.94|||TWO_SIDED|95.0|30.38|53.68||||||||53.68|30.38|
82626283|NCT02980692|164968064|SUPERIORITY|||||||0.7081|||||||Cochran-Mantel-Haenszel|||||||0.7081
82626284|NCT02980692|164968064|SUPERIORITY|||||||0.9244|||||||Cochran-Mantel-Haenszel|||||||0.9244
82626285|NCT02980692|164968064|SUPERIORITY|||||||0.5365|||||||Cochran-Mantel-Haenszel|||||||0.5365
82626286|NCT02980692|164968064|SUPERIORITY|||||||0.2925|||||||Cochran-Mantel-Haenszel|||||||0.2925
82626287|NCT02980692|164968065|SUPERIORITY||Mean Difference (Net)|-14.453|STANDARD_DEVIATION|31.9358|||TWO_SIDED|||||||||||||
82626288|NCT02980692|164968065|SUPERIORITY||Mean Difference (Net)|-18.883|STANDARD_DEVIATION|57.1147|||TWO_SIDED|||||||||||||
82626289|NCT02980692|164968065|SUPERIORITY||Mean Difference (Net)|-27.084|STANDARD_DEVIATION|76.2272|||TWO_SIDED|||||||||||||
82626290|NCT02980692|164968065|SUPERIORITY||Mean Difference (Net)|-26.173|STANDARD_DEVIATION|87.5367|||TWO_SIDED|||||||||||||
82626291|NCT02980692|164968065|SUPERIORITY||Mean Difference (Net)|-50.399|STANDARD_DEVIATION|141.677|||TWO_SIDED|||||||||||||
82626292|NCT02980692|164968066|SUPERIORITY|||||||0.0203|||||||Cochran-Mantel-Haenszel|||||||0.0203
82626293|NCT02980692|164968066|SUPERIORITY|||||||0.5194|||||||Cochran-Mantel-Haenszel|||||||0.5194
82626294|NCT02980692|164968066|SUPERIORITY|||||||0.0599|||||||Cochran-Mantel-Haenszel|||||||0.0599
82626295|NCT02980692|164968066|SUPERIORITY|||||||0.122|||||||Cochran-Mantel-Haenszel|||||||0.1220
82626296|NCT02980692|164968067|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|1.86|||TWO_SIDED|||||||||||||
82626297|NCT02980692|164968067|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|1.56|||TWO_SIDED|||||||||||||
82626298|NCT02980692|164968067|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|2.08|||TWO_SIDED|||||||||||||
82626299|NCT02980692|164968067|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|1.75|||TWO_SIDED|||||||||||||
82626300|NCT02980692|164968067|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|1.82|||TWO_SIDED|||||||||||||
82626301|NCT04583969|164968076|SUPERIORITY||Odds Ratio (OR)|1.13||||0.691|TWO_SIDED|95.0|0.63|2.02|||Regression, Logistic||Odds ratio above 1 favors Remdesivir plus Lenzilumab.|Odds ratio, CI, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline OS, age (continuous), and baseline CRP. Missing data imputed using the 3-stage multiple imputation procedure described in the statistical analysis plan.||2.02|0.63|0.691
82564708|NCT00113880|164838717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.01|TWO_SIDED|95.0|0.81|0.94||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: All ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.94|0.81|0.01
82564709|NCT00113880|164838717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.01|TWO_SIDED|95.0|0.7|0.88||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.88|0.70|0.01
82564710|NCT00113880|164838717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.01|TWO_SIDED|95.0|0.29|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.79|0.29|0.01
82564711|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.01|TWO_SIDED|95.0|0.45|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages combined, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.51|0.45|0.01
82564712|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.51||||0.01|TWO_SIDED|95.0|0.47|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months||0.56|0.47|0.01
82564713|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.38|0.46||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.46|0.38|0.01
82523390|NCT03440372|164742241|SUPERIORITY||Odds Ratio (OR)|1.46||||0.067|TWO_SIDED|95.0|0.97|2.2|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.20|0.97|0.0670
82523391|NCT03440372|164742242|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0835|TWO_SIDED|95.0|0.95|2.16|||Mantel Haenszel|Cochran-Mantel-Haenszel (CMH) test||||2.16|0.95|0.0835
82523392|NCT03945292|164742243|SUPERIORITY||Difference|-66.81|STANDARD_ERROR_OF_MEAN|5.107|<|0.0001|TWO_SIDED|95.0|-77.18|-56.45||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|Mixed model repeated measures (MMRM)|NAFLD=non-alcoholic fatty liver disease; NSH=non-alcoholic steatohepatitis||||-56.45|-77.18|< 0.0001
82523393|NCT03945292|164742243|SUPERIORITY||Difference|-90.03|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-100.72|-79.34||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|MMRM|||||-79.34|-100.72|< 0.0001
82523394|NCT03945292|164742243|SUPERIORITY||Difference|-97.57|STANDARD_ERROR_OF_MEAN|5.24|<|0.0001|TWO_SIDED|95.0|-108.21|-86.94||From a mixed model with repeated measures, including fixed effects for treatment, week, treatment-by-week interaction, presence of metabolic syndrome, presence of NAFLD or NASH, baseline serum Z-AAT as covariate, and subject as a random effect.|MMRM|||||-86.94|-108.21|< 0.0001
82523395|NCT03945292|164742247|SUPERIORITY||Least Squares (LS) Mean Difference|-129.31|STANDARD_ERROR_OF_MEAN|36.409||0.0021|TWO_SIDED|95.0|-205.52|-53.11||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-53.11|-205.52|0.0021
82523396|NCT03945292|164742247|SUPERIORITY||LS Mean Difference|-124.03|STANDARD_ERROR_OF_MEAN|37.207||0.0035|TWO_SIDED|95.0|-201.9|-46.15||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-46.15|-201.9|0.0035
82523397|NCT03945292|164742247|SUPERIORITY||LS Mean Difference|-140.58|STANDARD_ERROR_OF_MEAN|30.906||0.0002|TWO_SIDED|95.0|-205.27|-75.89||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline total liver Z-AAT protein as a covariate.|ANCOVA|||||-75.89|-205.27|0.0002
82523398|NCT03945292|164742249|SUPERIORITY||LS Mean Difference|-98.07|STANDARD_ERROR_OF_MEAN|20.291||0.0001|TWO_SIDED|95.0|-140.53|-55.6||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-55.6|-140.53|0.0001
82506299|NCT01480076|164704553|SUPERIORITY_OR_OTHER||least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2531|TWO_SIDED||||||mixed effect model|||Difference of Month 6 versus Month 9: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2531
82506300|NCT01480076|164704553|SUPERIORITY_OR_OTHER||||||<|0.0001||||||within group p-value|mixed effect model|||Month 12: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506301|NCT01480076|164704553|SUPERIORITY_OR_OTHER||least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2299|TWO_SIDED||||||mixed effect model|||Difference of Month 9 versus Month 12: Mixed effect model for repeated measures with visit, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2299
82506302|NCT01480076|164704554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506303|NCT01480076|164704554|SUPERIORITY_OR_OTHER|||||||0.5405|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5405
82523399|NCT03945292|164742249|SUPERIORITY||LS Mean Difference|-109.56|STANDARD_ERROR_OF_MEAN|21.616|<|0.0001|TWO_SIDED|95.0|-154.81|-64.32||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-64.32|-154.81|< 0.0001
82523400|NCT03945292|164742249|SUPERIORITY||LS Mean Difference|-118.04|STANDARD_ERROR_OF_MEAN|17.16|<|0.0001|TWO_SIDED|95.0|-153.95|-82.12||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline soluble liver Z-AAT protein as a covariate.|ANCOVA|||||-82.12|-153.95|< 0.0001
82523401|NCT03945292|164742251|SUPERIORITY||LS Mean Difference|-180.7|STANDARD_ERROR_OF_MEAN|74.087||0.0247|TWO_SIDED|95.0|-335.77|-25.64||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-25.64|-335.77|0.0247
82523402|NCT03945292|164742251|SUPERIORITY||LS Mean Difference|-163.79|STANDARD_ERROR_OF_MEAN|73.513||0.0382|TWO_SIDED|95.0|-317.65|-9.93||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-9.93|-317.65|0.0382
82523403|NCT03945292|164742251|SUPERIORITY||LS Mean Difference|-193.2|STANDARD_ERROR_OF_MEAN|63.089||0.0064|TWO_SIDED|95.0|-325.25|-61.15||Model based summary statistics are from an analysis of covariance (ANCOVA) model with fixed effect factors treatment group and baseline insoluble liver Z-AAT protein as a covariate.|ANCOVA|||||-61.15|-325.25|0.0064
82523404|NCT02684006|164742271|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.0001|TWO_SIDED|95.0|0.475|0.79||2-sided p-value|Log Rank|||||0.790|0.475|0.0001
82523405|NCT02684006|164742272|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1509|TWO_SIDED|95.0|0.701|1.057||2-sided p-value|Log Rank|||||1.057|0.701|0.1509
82523406|NCT02684006|164742273|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0002|TWO_SIDED|95.0|0.563|0.84||2-sided p-value|Log Rank|||||0.840|0.563|0.0002
82523407|NCT02684006|164742274|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1338|TWO_SIDED|95.0|0.749|1.039||2-sided p-value|Log Rank|||||1.039|0.749|0.1338
82523408|NCT02684006|164742283|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.565|0.768||2-sided p-value|Log Rank|||||0.768|0.565|<.0001
82523409|NCT02684006|164742284|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.551|0.754||||||||0.754|0.551|
82523410|NCT00514735|164742311|SUPERIORITY_OR_OTHER||||||<|0.0001||||||In order to maintain the overall level of significance at the α=0.025 level after a planned interim analysis using α=0.003, this test will actually be performed using an adjusted α=0.0245 at the completion of the study.|Chi-squared|||"H0: Pa ≤ Pm Ha: Pa \> Pm~where Pa is the proportion of successfully treated subjects in the ablation management arm and Pm is the proportion of successfully treated subjects in the optimal medical management/drug therapy arm."||||<0.0001
82523411|NCT00514735|164742312|SUPERIORITY_OR_OTHER|||||||0.1427||||||An exact, one-sample binomial test was conducted at a one-sided α=0.025 level of significance.|Fisher Exact|||"H0: Pa ≥ 0.16 Ha: Pa \< 0.16~where Pa is the proportion of acute safety failures in the ablation management arm."||||0.1427
82523412|NCT00514735|164742313|NON_INFERIORITY_OR_EQUIVALENCE|This objective was not statistically powered. The non-inferiority chronic safety margin was 0.06.||||||0.0033|||||||t-test, 1 sided|||"H0: Pa ≥ Pm + 0.06 Ha: Pa \< Pm + 0.06~where Pa is the proportion of failed subjects in the ablation management arm and Pm is the proportion of failed subjects in the optimal medical management/drug therapy arm."||||0.0033
82523413|NCT00514735|164742315|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANOVA|||"H0: μa = μm Ha: μa ≠ μm~where μa is the change of LAD from baseline to 6 month in Ablation Management arm, and μm is the change of LAD from baseline to 6 month in Medical Management arm."||||0.35
82523414|NCT00514735|164742316|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||"H0: μa = μm Ha: μa ≠ μm~where μa is the change of LVEF from baseline to 6 month in Ablation Management arm, and μm is the change of LVEF from baseline to 6 month in Medical Management arm."||||0.06
82523415|NCT00514735|164742317|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82523416|NCT00514735|164742318|SUPERIORITY_OR_OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||<0.025
82523417|NCT01422408|164742346|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.|||||<|0.001||||||2.5% significance level to account for two co-primary endpoints.|Wilcoxon (Mann-Whitney)|||The primary endpoints (i.e., change in symptoms of vaginal dryness from the baseline to 4 weeks, and change in symptoms of dyspareunia from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-primary endpoints.||||<0.001
82523418|NCT01422408|164742346|OTHER|Exact McNemar's test was used to test if the proportion of severe symptoms at baseline are equal to the proportion of severe symptoms at the end of the study.|Odds Ratio (OR)|0.0||||0.001|TWO_SIDED|95.0|0.0|0.36||Since there are two-co-primary endpoints, the significance level is 2.5%|McNemar|||"GEE (general estimating equation) methods were planned as a secondary analysis of the primary endpoints. Missing data for some of the weeks prevented these models from converging and we could not obtain valid results with these methods. Since this is a secondary analysis, we decided to compare symptom severity at baseline vs. week 4 (end of study). Symptoms are considered severe for scores 3 or 4 and not severe for scores 0, 1, 2"||0.36|0|0.001
82564714|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57||||0.01|TWO_SIDED|95.0|0.49|0.67||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.67|0.49|0.01
82564715|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.51||||0.01|TWO_SIDED|95.0|0.33|0.76||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.76|0.33|0.01
82564716|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.39|0.45||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates event rates were presented per 1,000 person-months.||0.45|0.39|0.01
82564717|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.42||||0.01|TWO_SIDED|95.0|0.38|0.47||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.47|0.38|0.01
82564718|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.01|TWO_SIDED|95.0|0.34|0.41||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.41|0.34|0.01
82564719|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.58||||0.05|TWO_SIDED|95.0|0.49|0.68||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.68|0.49|0.05
82564720|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28||||0.01|TWO_SIDED|95.0|0.15|0.52||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD2. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/Rad event rates were presented per 1,000 person-months.||0.52|0.15|0.01
82564721|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.01|TWO_SIDED|95.0|0.66|0.85||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.85|0.66|0.01
82564722|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.02|TWO_SIDED|95.0|0.7|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 5-8 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.97|0.70|0.02
82564723|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.72||||0.01|TWO_SIDED|95.0|0.58|0.88||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.88|0.58|0.01
82564724|NCT00113880|164838718|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.01|TWO_SIDED|95.0|0.27|0.78||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 18-49 yrs, within 180 days, PD1. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Wheezing/SOB event rates were presented per 1,000 person-months.||0.78|0.27|0.01
82564725|NCT00113880|164838719|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.04|TWO_SIDED|95.0|0.0|0.82||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Encephalitis/encephalopathy event rates were presented per 1,000 person-months.||0.82|0.00|0.04
82564726|NCT00113880|164838720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.01|TWO_SIDED|95.0|0.47|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.91|0.47|0.01
82626302|NCT04583969|164968077|SUPERIORITY||Odds Ratio (OR)|1.24||||0.378|TWO_SIDED|95.0|0.77|1.99|||Regression, Logistic||Odds ratio above 1 favors Remdesivir plus Lenzilumab.|Odds ratio, CI, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline OS, age (continuous), and baseline CRP. Missing data imputed using the 3-stage multiple imputation procedure described in the statistical analysis plan.||1.99|0.77|0.378
82626303|NCT04583969|164968078|SUPERIORITY|Hazard ratio, confidence intervals, and p-value estimated from a Cox model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline CRP.|Hazard Ratio, log|0.96||||0.689|TWO_SIDED|95.0|0.76|1.2|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab.|||1.20|0.76|0.689
82626304|NCT04583969|164968079|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.718|TWO_SIDED|95.0|0.79|1.18|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab.|Hazard ratio, confidence intervals, and p-value estimated from a Cox model adjusted for baseline dexamethasone use, baseline ordinal Score, age, and baseline CRP.||1.18|0.79|0.718
82626305|NCT04583969|164968080|SUPERIORITY||Odds Ratio (OR)|1.02||||0.907|TWO_SIDED|95.0|0.75|1.39|||Proportional odds model||Odds ratio greater than 1 favors Remdesivir plus Lenzilumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while those participants lost to follow-up after discharge to home are assigned a score of 2.||1.39|0.75|0.907
82626306|NCT04583969|164968114|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.609|TWO_SIDED|95.0|0.87|1.27|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab|||1.27|0.87|0.609
82626307|NCT04583969|164968115|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.708|TWO_SIDED|95.0|0.85|1.26|||Regression, Cox||HR greater than 1 favors Remdesivir plus Lenzilumab|||1.26|0.85|0.708
82626308|NCT02665468|164968117|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82626309|NCT01057862|164968129|OTHER|We are including the mean and SD of each arm at the start and end of study only as a comparison and not a meaningful analysis. Since higher scores represent a more severe form of the disorder, a drop in scores is seen as an indicator that the treatment had an effect.|Mean Difference (Final Values)|6.0|STANDARD_DEVIATION|9.35|||TWO_SIDED||||||||The active arm had a mean PG-YBOCS score of 16 (n=5) at study start with a SD of 7.35. At end of study the active arm had a mean PG-YBOCS score of 10 (n=5) with a SD of 9.35. The placebo arm is not included here as there were only two scores.|Enrollment was lower than expected and due to the low numbers of subjects completing the study (7 subjects (5 active and 2 placebo) completed all interventions) the numbers were not powerful enough to conduct a full analysis or provide any meaningful statistical analyses. We are including the mean and SD of each arm at the beginning and end of the study only as a comparison and not as a meaningful analysis.||||
82626310|NCT01057862|164968130|OTHER|We are including the mean and SD of each arm at the start and end of study only as a comparison and not a meaningful analysis. Since higher scores represent a more severe form of the disorder, a drop in scores is seen as an indicator that the treatment had an effect.|Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|9.45|||TWO_SIDED||||||||The active treatment arm had a mean G-SAS score of 26.8 (n=5) at study start with a SD of 11.73. At end the active treatment arm had a mean G-SAS score of 12.6 (n=5) with a SD of 9.45. The placebo arm is not included as there were only 2 scores.|Enrollment was lower than expected and due to the low numbers of subjects completing the study (7 subjects (5 active and 2 placebo) completed all interventions) the numbers were not powerful enough to conduct a full analysis or provide any meaningful statistical analyses. We are including the mean and SD of each arm at the beginning and end of the study only as a comparison and not as a meaningful analysis.||||
82626311|NCT03363165|164968132|SUPERIORITY||Mean Difference (Final Values)|-13.54||||0.7586|ONE_SIDED|90.0|-38.52||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-38.52|0.7586
82626312|NCT03363165|164968133|SUPERIORITY||Mean Difference (Final Values)|2.25||||0.0298|ONE_SIDED|90.0|0.78||||ANCOVA|Adjusted for baseline maximal treadmill walking time, age, race, former smoker|||||0.78|0.0298
82626313|NCT03363165|164968134|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.4019|ONE_SIDED|90.0|-3.1||||ANCOVA|Adjusted for baseline perfusion, age, race, former smoker.|||||-3.10|0.4019
82506304|NCT01480076|164704554|SUPERIORITY_OR_OTHER||least squares mean|3.7|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82626314|NCT03363165|164968135|SUPERIORITY||Mean Difference (Final Values)|8.28||||0.208|ONE_SIDED|90.0|-5.37||||ANCOVA|Adjusted for baseline muscle measure, age, race, former smoker.|||||-5.37|0.2080
82626315|NCT03363165|164968136|SUPERIORITY||Mean Difference (Final Values)|2.02||||0.398|ONE_SIDED|90.0|-8.11||||ANCOVA|Adjusted for baseline WIQ distance score, age, race, former smoker|||||-8.11|0.3980
82626316|NCT03363165|164968137|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.7852|ONE_SIDED|90.0|-14.5||||ANCOVA|Adjusted for baseline SF-36 physical functioning score, age, race, former smoker.|||||-14.50|0.7852
82626317|NCT03363165|164968138|SUPERIORITY||Mean Difference (Final Values)|-5.14||||0.8414|ONE_SIDED|90.0|-11.76||||ANCOVA|Adjusted for baseline SF-36 physical functioning score, age, race, former smoker.|||||-11.76|0.8414
82626318|NCT03363165|164968139|SUPERIORITY||Mean Difference (Final Values)|-2.13||||0.5912|ONE_SIDED|90.0|-14.11||||ANCOVA|Adjusted for baseline WIQ distance score, age, race, former smoker.|||||-14.11|0.5912
82626319|NCT03363165|164968140|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.5442|ONE_SIDED|90.0|-25.47||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-25.47|0.5442
82626320|NCT03363165|164968141|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.6603|ONE_SIDED|90.0|-2.11|||Adjusted for baseline pain-free treadmill walking time, age, race, former smoker.|ANCOVA||||||-2.11|0.6603
82626321|NCT03363165|164968142|SUPERIORITY||Mean Difference (Final Values)|-2.78||||0.5647|ONE_SIDED|90.0|-24.99||||ANCOVA|Adjusted for baseline six-minute walk distance, age, race, former smoker.|||||-24.99|0.5647
82626322|NCT04153929|164968166|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod linear model fit|Model assumption: The maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626323|NCT04153929|164968166|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Exponential model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626324|NCT04153929|164968166|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Emax 1 model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626325|NCT04153929|164968166|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Emax 2 model fit|Model assumption: 70% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626326|NCT04153929|164968166|OTHER|Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.|||||<|0.0001|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 1.8 mg and 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626327|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.76|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.46||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-0.46|-1.06|<0.0001
82626328|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.01||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.01|-1.60|<0.0001
82626329|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.56|||<|0.0001|TWO_SIDED|95.0|-1.87|-1.26||P-value is considered nominal.|Mixed Model for Repeated Measures|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.26|-1.87|<0.0001
82506305|NCT01480076|164704554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506306|NCT01480076|164704554|SUPERIORITY_OR_OTHER|||||||0.7272|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7272
82506307|NCT01480076|164704554|SUPERIORITY_OR_OTHER||least squares mean|4.3|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506308|NCT01480076|164704554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506309|NCT01480076|164704554|SUPERIORITY_OR_OTHER|||||||0.7484|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7484
82506310|NCT01480076|164704554|SUPERIORITY_OR_OTHER||least squares mean|3.0|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506311|NCT01480076|164704554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506312|NCT01480076|164704554|SUPERIORITY_OR_OTHER|||||||0.1877|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1877
82506313|NCT01480076|164704554|SUPERIORITY_OR_OTHER||least squares mean|4.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506314|NCT01480076|164704554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506315|NCT01480076|164704554|SUPERIORITY_OR_OTHER|||||||0.546|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5460
82506316|NCT01480076|164704554|SUPERIORITY_OR_OTHER||least squares mean|3.3|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline PCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506317|NCT01480076|164704555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506318|NCT01480076|164704555|SUPERIORITY_OR_OTHER|||||||0.9073|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9073
82564727|NCT00113880|164838720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.01|TWO_SIDED|95.0|0.21|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.57|0.21|0.01
82564728|NCT00113880|164838720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.47|0.77||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.77|0.47|0.01
82564729|NCT00113880|164838720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.23|0.48||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 yrs, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.48|0.23|0.01
82564730|NCT00113880|164838721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.01|TWO_SIDED|95.0|0.47|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.91|0.47|0.01
82564731|NCT00113880|164838721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.01|TWO_SIDED|95.0|0.21|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 21 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.57|0.21|0.01
82564732|NCT00113880|164838721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.47|0.77||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.77|0.47|0.01
82564733|NCT00113880|164838721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.23|0.48||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 yrs, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|SAE event rates were presented per 1,000 person-months.||0.48|0.23|0.01
82564734|NCT00113880|164838722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.01|TWO_SIDED|95.0|0.57|0.73||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.73|0.57|0.01
82564735|NCT00113880|164838722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.01|TWO_SIDED|95.0|0.36|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.51|0.36|0.01
82626330|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.41|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.1||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17.|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.10|-1.72|<0.0001
82626331|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.49|||<|0.0001|TWO_SIDED|95.0|-1.78|-1.19||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.19|-1.78|<0.0001
82506319|NCT01480076|164704555|SUPERIORITY_OR_OTHER||least squares mean|3.0|STANDARD_ERROR_OF_MEAN|0.89||0.0009|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0009
82506320|NCT01480076|164704555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506321|NCT01480076|164704555|SUPERIORITY_OR_OTHER|||||||0.5542|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5542
82506322|NCT01480076|164704555|SUPERIORITY_OR_OTHER||least squares mean|4.8|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506323|NCT01480076|164704555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506324|NCT01480076|164704555|SUPERIORITY_OR_OTHER|||||||0.581|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5810
82506325|NCT01480076|164704555|SUPERIORITY_OR_OTHER||least squares mean|2.7|STANDARD_ERROR_OF_MEAN|1.08||0.014|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0140
82506326|NCT01480076|164704555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82564736|NCT00113880|164838723|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.01|TWO_SIDED|95.0|0.26|0.33||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.33|0.26|0.01
82564737|NCT00113880|164838723|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.01|TWO_SIDED|95.0|0.13|0.18||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.18|0.13|0.01
82564738|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.04|TWO_SIDED|95.0|0.03|0.93||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Sinusitis event rates were presented per 1,000 person-months.||0.93|0.03|0.04
82506327|NCT01480076|164704555|SUPERIORITY_OR_OTHER|||||||0.4138|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4138
82506328|NCT01480076|164704555|SUPERIORITY_OR_OTHER||least squares mean|1.3|STANDARD_ERROR_OF_MEAN|1.19||0.274|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2740
82506329|NCT01480076|164704555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506330|NCT01480076|164704555|SUPERIORITY_OR_OTHER|||||||0.6453|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6453
82506331|NCT01480076|164704555|SUPERIORITY_OR_OTHER||least squares mean|3.1|STANDARD_ERROR_OF_MEAN|1.18||0.009|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MCS score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0090
82506332|NCT01480076|164704556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506333|NCT01480076|164704556|SUPERIORITY_OR_OTHER|||||||0.2475|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2475
82506334|NCT01480076|164704556|SUPERIORITY_OR_OTHER||least squares mean|-8.2|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506335|NCT01480076|164704556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506336|NCT01480076|164704556|SUPERIORITY_OR_OTHER|||||||0.2422|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2422
82506337|NCT01480076|164704556|SUPERIORITY_OR_OTHER||least squares mean|-10.9|STANDARD_ERROR_OF_MEAN|1.72|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506338|NCT01480076|164704556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506339|NCT01480076|164704556|SUPERIORITY_OR_OTHER|||||||0.1262|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1262
82506340|NCT01480076|164704556|SUPERIORITY_OR_OTHER||least squares mean|-7.6|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506341|NCT01480076|164704556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506342|NCT01480076|164704556|SUPERIORITY_OR_OTHER|||||||0.8858|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8858
82506343|NCT01480076|164704556|SUPERIORITY_OR_OTHER||least squares mean|-8.6|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506344|NCT01480076|164704556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506345|NCT01480076|164704556|SUPERIORITY_OR_OTHER|||||||0.2111|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2111
82506346|NCT01480076|164704556|SUPERIORITY_OR_OTHER||least squares mean|-5.8|STANDARD_ERROR_OF_MEAN|2.16||0.0072|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 physical score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0072
82506347|NCT01480076|164704557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506348|NCT01480076|164704557|SUPERIORITY_OR_OTHER|||||||0.5577|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5577
82506349|NCT01480076|164704557|SUPERIORITY_OR_OTHER||least squares mean|-6.7|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506350|NCT01480076|164704557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506351|NCT01480076|164704557|SUPERIORITY_OR_OTHER|||||||0.9365|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9365
82506352|NCT01480076|164704557|SUPERIORITY_OR_OTHER||least squares mean|-9.4|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506353|NCT01480076|164704557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506354|NCT01480076|164704557|SUPERIORITY_OR_OTHER|||||||0.2008|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2008
82564739|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.02|TWO_SIDED|95.0|0.4|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.92|0.40|0.02
82506355|NCT01480076|164704557|SUPERIORITY_OR_OTHER||least squares mean|-5.1|STANDARD_ERROR_OF_MEAN|1.98||0.0102|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0102
82506356|NCT01480076|164704557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506357|NCT01480076|164704557|SUPERIORITY_OR_OTHER|||||||0.7134|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7134
82506358|NCT01480076|164704557|SUPERIORITY_OR_OTHER||least squares mean|-6.0|STANDARD_ERROR_OF_MEAN|2.2||0.0066|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0066
82564740|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.01|TWO_SIDED|95.0|0.28|0.84||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.84|0.28|0.01
82564741|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.02|TWO_SIDED|95.0|0.1|0.78||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|URI event rates were presented per 1,000 person-months.||0.78|0.10|0.02
82564742|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.02|TWO_SIDED|95.0|0.63|0.96||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: all ages, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.96|0.63|0.02
82564743|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69||||0.03|TWO_SIDED|95.0|0.5|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Fisher Exact||Population: 9-17 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.97|0.50|0.03
82564744|NCT00113880|164838724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.01||95.0|0.21|0.79||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 21 days. The rate of events during the risk period represents the numerator; the rate of events during the control period represents the denominator.|Any acute resp. tract event rates were presented per 1,000 person-months.||0.79|0.21|0.01
82564745|NCT00113880|164838725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.95||||0.02|TWO_SIDED|95.0|1.14|3.34||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Sinusitis event rates were presented per 1,000 person-months.||3.34|1.14|0.02
82564746|NCT00113880|164838725|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Exact method or Cox model|||Irritable bowel syndrome event rates were presented per 1,000 person-months. If the control group has no event, the RR or HR is not estimable.||||0.02
82564747|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|0.15|0.57||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.57|0.15|0.01
82564748|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.03|TWO_SIDED|95.0|0.12|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.92|0.12|0.03
82564749|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.01|TWO_SIDED|95.0|0.13|0.74||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.74|0.13|0.01
82506359|NCT01480076|164704557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506360|NCT01480076|164704557|SUPERIORITY_OR_OTHER|||||||0.8202|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8202
82506361|NCT01480076|164704557|SUPERIORITY_OR_OTHER||least squares mean|-6.4|STANDARD_ERROR_OF_MEAN|2.28||0.0049|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder status, visit by responder status interaction, baseline MSIS-29 psychological score, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0049
82506362|NCT01480076|164704558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506363|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.1324|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1324
82506364|NCT01480076|164704558|SUPERIORITY_OR_OTHER||least squares mean|-2.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506365|NCT01480076|164704558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506366|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.4759|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4759
82506367|NCT01480076|164704558|SUPERIORITY_OR_OTHER||least squares mean|-1.9|STANDARD_ERROR_OF_MEAN|0.59||0.0016|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
82506368|NCT01480076|164704558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error||||<0.0001
82506369|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.2489|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2489
82506370|NCT01480076|164704558|SUPERIORITY_OR_OTHER||least squares mean|-2.2|STANDARD_ERROR_OF_MEAN|0.71||0.0017|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0017
82506371|NCT01480076|164704558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506372|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.0126|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0126
82506373|NCT01480076|164704558|SUPERIORITY_OR_OTHER||least squares mean|-3.1|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506374|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.0033|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0033
82506375|NCT01480076|164704558|SUPERIORITY_OR_OTHER|||||||0.1758|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1758
82506376|NCT01480076|164704558|SUPERIORITY_OR_OTHER||least squares mean|-1.9|STANDARD_ERROR_OF_MEAN|0.84||0.0246|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the total activity limitation score of PRIMUS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0246
82506377|NCT01480076|164704559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506378|NCT01480076|164704559|SUPERIORITY_OR_OTHER|||||||0.0111|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0111
82506379|NCT01480076|164704559|SUPERIORITY_OR_OTHER||least squares mean|11.1|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506380|NCT01480076|164704559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506381|NCT01480076|164704559|SUPERIORITY_OR_OTHER|||||||0.097|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0970
82506382|NCT01480076|164704559|SUPERIORITY_OR_OTHER||least squares mean|11.1|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506383|NCT01480076|164704559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506384|NCT01480076|164704559|SUPERIORITY_OR_OTHER|||||||0.0789|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0789
82506385|NCT01480076|164704559|SUPERIORITY_OR_OTHER||least squares mean|9.7|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506386|NCT01480076|164704559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82442160|NCT03906656|164592769|SUPERIORITY||Mean Difference (Final Values)|6.79|STANDARD_DEVIATION|21.1||0.002|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|||Energy/Fatigue. H0: the mean difference (C-Brace - KAFO) \<= 0.||||0.0020
82506387|NCT01480076|164704559|SUPERIORITY_OR_OTHER|||||||0.0284|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0284
82506388|NCT01480076|164704559|SUPERIORITY_OR_OTHER||least squares mean|11.2|STANDARD_ERROR_OF_MEAN|2.16|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506389|NCT01480076|164704559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506390|NCT01480076|164704559|SUPERIORITY_OR_OTHER|||||||0.0108|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0108
82506391|NCT01480076|164704559|SUPERIORITY_OR_OTHER||least squares mean|12.3|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder Versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of the current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506392|NCT01480076|164704560|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506393|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.8392|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8392
82506394|NCT01480076|164704560|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0162|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0162
82506395|NCT01480076|164704560|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506396|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.6956|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6956
82506397|NCT01480076|164704560|SUPERIORITY_OR_OTHER||least squares mean|0.06|STANDARD_ERROR_OF_MEAN|0.02||0.0042|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0042
82506398|NCT01480076|164704560|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506399|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.7949|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7949
82564750|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.04|TWO_SIDED|95.0|0.55|0.99||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Pharyngitis event rates were presented per 1,000 person-months.||0.99|0.55|0.04
82564751|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.04|TWO_SIDED|95.0|0.14|0.93||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Pharyngitis event rates were presented per 1,000 person-months.||0.93|0.14|0.04
82506400|NCT01480076|164704560|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0679|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0679
82506401|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
82506402|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.8053|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8053
82506403|NCT01480076|164704560|SUPERIORITY_OR_OTHER||least squares mean|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.2638|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2638
82506404|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.0007|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
82506405|NCT01480076|164704560|SUPERIORITY_OR_OTHER|||||||0.8502|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8502
82506406|NCT01480076|164704560|SUPERIORITY_OR_OTHER||least squares mean|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0917|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of current health state of EQ-5D scores, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0917
82506407|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.1795|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1795
82506408|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.0715|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0715
82506409|NCT01480076|164704561|SUPERIORITY_OR_OTHER||least squares mean|5.8|STANDARD_ERROR_OF_MEAN|4.6||0.2065|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2065
82506410|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.1649|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1649
82564752|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.02|TWO_SIDED|95.0|0.71|0.97||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any acute respiratory tract event rates were presented per 1,000 person-months.||0.97|0.71|0.02
82506411|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.4894|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4894
82506412|NCT01480076|164704561|SUPERIORITY_OR_OTHER||least squares mean|1.0|STANDARD_ERROR_OF_MEAN|5.89||0.8611|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8611
82506413|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.0073|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0073
82506414|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.1343|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1343
82506415|NCT01480076|164704561|SUPERIORITY_OR_OTHER||least squares mean|2.3|STANDARD_ERROR_OF_MEAN|5.09||0.6468|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6468
82506416|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.6441|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6441
82506417|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.2176|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2176
82506418|NCT01480076|164704561|SUPERIORITY_OR_OTHER||least squares mean|8.5|STANDARD_ERROR_OF_MEAN|7.91||0.2814|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2814
82506419|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.7533|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7533
82506420|NCT01480076|164704561|SUPERIORITY_OR_OTHER|||||||0.0653|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0653
82523442|NCT01422408|164742370|OTHER|||||||0.2011||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2011
82626332|NCT04153929|164968166|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.84|-1.22||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 5, 8, 12, 16 and 17) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.22|-1.84|<0.0001
82523443|NCT01422408|164742371|OTHER|||||||0.1187||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.1187
82523444|NCT04672941|164742372|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was the CAT score at each visit. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|-5.28|||||TWO_SIDED|95.0|-5.67|-4.89|||||Least Square Mean for Visit, change from baseline (3 months - baseline) total CAT Score estimates.|||-4.89|-5.67|
82442161|NCT03906656|164592769|SUPERIORITY||Mean Difference (Final Values)|10.1|STANDARD_DEVIATION|29.528||0.0049|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||Health change. H0: the median of the population differences (C-Brace - KAFO) \<= 0.|Wilcoxon Signed Rank Test. V=649, effect size r = 0.285, p=0.00493|||0.0049
82506421|NCT01480076|164704561|SUPERIORITY_OR_OTHER||least squares mean|11.4|STANDARD_ERROR_OF_MEAN|6.65||0.0876|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage of work time missed due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0876
82506422|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.0281|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0281
82506423|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.0654|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0654
82506424|NCT01480076|164704562|SUPERIORITY_OR_OTHER||least squares mean|4.3|STANDARD_ERROR_OF_MEAN|4.47||0.34|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3400
82506425|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.0012|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0012
82506426|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.749|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7490
82506427|NCT01480076|164704562|SUPERIORITY_OR_OTHER||least squares mean|-5.1|STANDARD_ERROR_OF_MEAN|5.53||0.3592|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3592
82506428|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.0015|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0015
82506429|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.2967|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2967
82506430|NCT01480076|164704562|SUPERIORITY_OR_OTHER||least squares mean|-0.9|STANDARD_ERROR_OF_MEAN|5.34||0.8735|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8735
82506431|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.1696|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1696
82506432|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.0089|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0089
82523419|NCT01422408|164742347|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.||||||0.002||||||2.5% significance level to account for two co-primary endpoints.|Wilcoxon (Mann-Whitney)|||The primary endpoints (i.e., change in symptoms of vaginal dryness from the baseline to 4 weeks, and change in symptoms of dyspareunia from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-primary endpoints.||||0.002
82506433|NCT01480076|164704562|SUPERIORITY_OR_OTHER||least squares mean|14.9|STANDARD_ERROR_OF_MEAN|6.83||0.0297|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0297
82506434|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.8806|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8806
82506435|NCT01480076|164704562|SUPERIORITY_OR_OTHER|||||||0.217|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2170
82506436|NCT01480076|164704562|SUPERIORITY_OR_OTHER||least squares mean|8.1|STANDARD_ERROR_OF_MEAN|6.86||0.2392|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage impairment while working due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2392
82506437|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.0219|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0219
82506438|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.1259|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1259
82564753|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.01|TWO_SIDED|95.0|0.57|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any acute respiratory tract event rates were presented per 1,000 person-months.||0.92|0.57|0.01
82564754|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.01|TWO_SIDED|95.0|0.22|0.61||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.61|0.22|0.01
82564755|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.01|TWO_SIDED|95.0|0.16|0.68||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.68|0.16|0.01
82564756|NCT00113880|164838726|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.03|TWO_SIDED|95.0|0.0|0.82|||Fisher Exact||Population: 18-49, within 42 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.82|0.00|0.03
82564757|NCT00113880|164838727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.01|TWO_SIDED|95.0|0.58|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.58|0.01
82564758|NCT00113880|164838727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.01|TWO_SIDED|95.0|0.49|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.49|0.01
82564759|NCT00113880|164838727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.01|TWO_SIDED|95.0|0.61|0.92||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.92|0.61|0.01
82564760|NCT00113880|164838727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.01|TWO_SIDED|95.0|0.52|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the unvaccinated controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.91|0.52|0.01
82506439|NCT01480076|164704563|SUPERIORITY_OR_OTHER||least squares mean|3.6|STANDARD_ERROR_OF_MEAN|5.68||0.5312|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5312
82564761|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.01|TWO_SIDED|95.0|0.33|0.51||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.51|0.33|0.01
82564762|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|95.0|0.26|0.55||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.55|0.26|0.01
82506440|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.0022|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0022
82506441|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.4968|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4968
82506442|NCT01480076|164704563|SUPERIORITY_OR_OTHER||least squares mean|-3.2|STANDARD_ERROR_OF_MEAN|6.64||0.6283|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6283
82506443|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.0016|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
82506444|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.6631|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6631
82506445|NCT01480076|164704563|SUPERIORITY_OR_OTHER||least squares mean|-4.8|STANDARD_ERROR_OF_MEAN|6.77||0.477|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4770
82506446|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.4027|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4027
82506447|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.1077|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1077
82564763|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.01|TWO_SIDED|95.0|0.31|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.56|0.31|0.01
82626333|NCT04153929|164968167|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod linear model fit|Model assumption: The maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626334|NCT04153929|164968167|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod exponential model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626335|NCT04153929|164968167|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Emax 1 model fit|Model assumption: 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626336|NCT04153929|164968167|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Emax 2 model fit|Model assumption: 70% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626337|NCT04153929|164968167|OTHER|"Mixed Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod.~MMRM with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements."|||||<|0.0001|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 1.8 mg and 90% of the maximum effect is achieved at 3.6 mg dose.||A flat vs. non-flat dose-response relationship across the 6 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.025). For the twice weekly dosing schemes the total dose per week was considered for the MCP-Mod analysis.||||<0.0001
82626338|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.11||||0.2228|TWO_SIDED|95.0|-2.9|0.68||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||0.68|-2.90|0.2228
82626339|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.79|||<|0.0001|TWO_SIDED|95.0|-5.56|-2.01||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-2.01|-5.56|<0.0001
82626340|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.61|||<|0.0001|TWO_SIDED|95.0|-7.41|-3.81||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.81|-7.41|<0.0001
82506448|NCT01480076|164704563|SUPERIORITY_OR_OTHER||least squares mean|13.5|STANDARD_ERROR_OF_MEAN|9.98||0.1781|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1781
82506449|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.2422|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2422
82506450|NCT01480076|164704563|SUPERIORITY_OR_OTHER|||||||0.0994|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0994
82506451|NCT01480076|164704563|SUPERIORITY_OR_OTHER||least squares mean|8.8|STANDARD_ERROR_OF_MEAN|7.13||0.2194|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of percentage overall work impairment due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2194
82506452|NCT01480076|164704564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506453|NCT01480076|164704564|SUPERIORITY_OR_OTHER|||||||0.086|||||||mixed effect model|||Overall, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0860
82506454|NCT01480076|164704564|SUPERIORITY_OR_OTHER||least squares mean|-7.3|STANDARD_ERROR_OF_MEAN|2.2||0.001|TWO_SIDED||||||mixed effect model|||Overall, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0010
82506455|NCT01480076|164704564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506456|NCT01480076|164704564|SUPERIORITY_OR_OTHER|||||||0.2777|||||||mixed effect model|||Month 3, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2777
82506457|NCT01480076|164704564|SUPERIORITY_OR_OTHER||least squares mean|-10.4|STANDARD_ERROR_OF_MEAN|2.76||0.0002|TWO_SIDED||||||mixed effect model|||Month 3, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
82506458|NCT01480076|164704564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506459|NCT01480076|164704564|SUPERIORITY_OR_OTHER|||||||0.1078|||||||mixed effect model|||Month 6, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1078
82506460|NCT01480076|164704564|SUPERIORITY_OR_OTHER||least squares mean|-7.6|STANDARD_ERROR_OF_MEAN|2.87||0.0082|TWO_SIDED||||||mixed effect model|||Month 6, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0082
82626341|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-6.25|||<|0.0001|TWO_SIDED|95.0|-8.12|-4.38||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.38|-8.12|<0.0001
82564764|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.02|TWO_SIDED|95.0|0.26|0.91||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Asthma/RAD event rates were presented per 1,000 person-months.||0.91|0.26|0.02
82564765|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.01||95.0|0.37|0.55||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.55|0.37|0.01
82564766|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.01|TWO_SIDED|95.0|0.35|0.67||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 5-8 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.67|0.35|0.01
82564767|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.01|TWO_SIDED|95.0|0.33|0.56||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 9-17 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.56|0.33|0.01
82564768|NCT00113880|164838728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46||||0.01|TWO_SIDED|95.0|0.25|0.85||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment.|Regression, Cox||Population: 18-49 years, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Any asthma or wheezing event rates were presented per 1,000 person-months.||0.85|0.25|0.01
82564769|NCT00113880|164838729|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47||||0.01|TWO_SIDED|95.0|0.32|0.69||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple confidence intervals (CIs) were constructed without multiplicity adjustment.|Regression, Cox||Population: all ages, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.69|0.32|0.01
82564770|NCT00113880|164838729|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.01|TWO_SIDED|95.0|0.17|0.54||Due to the exploratory nature of the study and the lack of formal hypothesis testing, multiple CIs were constructed without multiplicity adjustment|Regression, Cox||Population: 18-49 yrs, within 180 days. The rate of events in FluMist recipients represents the numerator; the rate of events in the TIV controls represents the denominator.|Hospitalization or death event rates were presented per 1,000 person-months.||0.54|0.17|0.01
82564771|NCT03034772|164838749|SUPERIORITY|||||||0.04|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.04
82564772|NCT03034772|164838750|SUPERIORITY|||||||0.11|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.11
82564773|NCT03034772|164838751|SUPERIORITY|||||||0.01|||||||ANCOVA|Mean difference between the 2 groups derived using analysis of covariance, with the baseline value and type of anti-VEGF drug used as covariates.||||||0.01
82564774|NCT03034772|164838752|SUPERIORITY|||||||0.78|||||||ANCOVA|||||||0.78
82564775|NCT03034772|164838753|SUPERIORITY|||||||0.24|||||||ANCOVA|||||||0.24
82564776|NCT01136733|164838756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||=|0.0005|TWO_SIDED|95.0|0.24|0.68|||Log Rank||Hazard ratio between treatment groups and corresponding 95% CI was estimated using the stratified Cox regression model (stratified by hemoglobin and corrected serum calcium) with treatment as a factor.|Null hypothesis of no difference in PFS was analyzed using the stratified log-rank test with hemoglobin (less than or equal to 13 g/dL vs greater than 13 g/dL for males; and less than or equal to 11.5 g/dL vs greater than 11.5 g/dL for females) and corrected serum calcium (greater than or equal to 10 mg/dL vs less than 10 mg/dL) as stratification factors. Each null hypothesis was tested at a nominal alpha=0.05.||0.68|0.24|=0.0005
82564777|NCT01136733|164838756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0479|TWO_SIDED|95.0|0.38|0.98|||Log Rank|||||0.98|0.38|0.0479
82564778|NCT01136733|164838756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.1209|TWO_SIDED|95.0|0.39|1.1|||Log Rank|||||1.10|0.39|0.1209
82564779|NCT01136733|164838757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.514|||=|0.0242|TWO_SIDED|95.0|0.299|0.884|||Log Rank||Hazard ratio between treatment groups and corresponding 95% CI was estimated using the stratified Cox regression model (stratified by hemoglobin and corrected serum calcium) with treatment as a factor.|Planned analyses were performed to test null hypothesis of treatment difference in OS at a nominal significance level of 0.05 (2-sided) using the stratified log-rank test using stratification factors.||0.884|0.299|=0.0242
82506461|NCT01480076|164704564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506462|NCT01480076|164704564|SUPERIORITY_OR_OTHER|||||||0.1838|||||||mixed effect model|||Month 9, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1838
82506463|NCT01480076|164704564|SUPERIORITY_OR_OTHER||least squares mean|-6.3|STANDARD_ERROR_OF_MEAN|3.02||0.0364|TWO_SIDED||||||mixed effect model|||Month 9, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0364
82506464|NCT01480076|164704564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506465|NCT01480076|164704564|SUPERIORITY_OR_OTHER|||||||0.1714|||||||mixed effect model|||Month 12, Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1714
82506466|NCT01480076|164704564|SUPERIORITY_OR_OTHER||least squares mean|-4.8|STANDARD_ERROR_OF_MEAN|3.14||0.1259|TWO_SIDED||||||mixed effect model|||Month 12, Responder versus Non-responder: Mixed effect model for repeated measures with visit, responder group, visit and responder group interaction, baseline of regular activity productivity loss due to MS, baseline EDSS score, MS disease type, age, gender, total number of relapses experienced within the past 12 months and country as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1259
82506467|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506468|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506469|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506470|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0004|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0004
82564780|NCT01136733|164838757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.684|||=|0.1181|TWO_SIDED|95.0|0.411|1.138|||Log Rank|||||1.138|0.411|=0.1181
82564781|NCT01136733|164838757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751|||=|0.3157|TWO_SIDED|95.0|0.433|1.301|||Log Rank|||||1.301|0.433|=0.3157
82564782|NCT01136733|164838758|SUPERIORITY_OR_OTHER||Rate ratio|7.2|||<|0.0001|TWO_SIDED|95.0|2.3|22.5||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact||Rate ratio was based on the normal approximation.|||22.5|2.3|<0.0001
82564783|NCT01136733|164838758|SUPERIORITY_OR_OTHER||Rate ratio|4.5||||0.0067|TWO_SIDED|95.0|1.4|14.7||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact|||||14.7|1.4|0.0067
82564784|NCT01136733|164838758|SUPERIORITY_OR_OTHER||Rate ratio|1.6|||=|0.1007|TWO_SIDED|95.0|0.9|2.8||Analysis performed after database lock. P-value was based on the 2-sided Fisher's exact P-value.|Fisher Exact|||||2.8|0.9|=0.1007
82564785|NCT01403805|164838826|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Fisher's test 'Vaccine' versus 'Oral Care and Vaccines' and 'phumonia' and 'not pneumonia'|Fisher Exact|||The results were analyzed as means ± standard deviation (SD) or numbers (%). Differences between the 2 nursing homes were compared using Fisher's test.||||<0.001
82564786|NCT01403805|164838827|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Fisher Exact|||The results are expressed as means ± standard deviation (SD) or numbers (%). Differences between the 2 nursing homes were compared using Fisher's test.||||0.05
82564787|NCT00147745|164838832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5499||95.0|-0.1|0.19|||ANCOVA|||||0.19|-0.10|0.5499
82564788|NCT00147745|164838832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.5723||95.0|-0.23|0.13|||ANCOVA|||||0.13|-0.23|0.5723
82564789|NCT00147745|164838832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.091||0.3138||95.0|-0.09|0.28|||ANCOVA|||||0.28|-0.09|0.3138
82506471|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82564790|NCT00147745|164838833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.065||0.2042||95.0|-0.05|0.22|||ANCOVA|||||0.22|-0.05|0.2042
82626342|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-6.25|||<|0.0001|TWO_SIDED|95.0|-8.02|-4.47||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.47|-8.02|<0.0001
82564791|NCT00147745|164838833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.083||0.6855||95.0|-0.2|0.14|||ANCOVA|||||0.14|-0.20|0.6855
82564792|NCT00147745|164838833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.085||0.1727||95.0|-0.05|0.29|||ANCOVA|||||0.29|-0.05|0.1727
82564793|NCT00147745|164838834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.4|STANDARD_ERROR_OF_MEAN|53.17||0.4104||95.0|-152.8|64.1|||ANCOVA|||||64.1|-152.8|0.4104
82564794|NCT00147745|164838834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|69.98||0.8857||95.0|-132.6|152.9|||ANCOVA|||||152.9|-132.6|0.8857
82564795|NCT00147745|164838834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.5|STANDARD_ERROR_OF_MEAN|67.08||0.4226||95.0|-191.3|82.3|||ANCOVA|||||82.3|-191.3|0.4226
82564796|NCT00147745|164838835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.366||0.2286||95.0|-1.2|0.3|||ANCOVA|||||0.30|-1.20|0.2286
82564797|NCT00147745|164838835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.515||0.3184||95.0|-0.53|1.57|||ANCOVA|||||1.57|-0.53|0.3184
82564798|NCT00147745|164838835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.5||0.0613||95.0|-1.99|0.05|||ANCOVA|||||0.05|-1.99|0.0613
82564799|NCT00147745|164838836|SUPERIORITY_OR_OTHER|||||||0.0362||95.0|||||t-test, 2 sided|||||||0.0362
82564800|NCT00724750|164838839|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5%/day. For 80% power and a significance (alpha) level of 0.05; and assuming a common standard deviation of 9%, 41 subjects per group were needed.||||||0.6|TWO_SIDED|||||The rate of change for the 2 groups was compared by testing the treatment-by-time interaction in the model.|Mixed Models Analysis|||||||0.60
82564801|NCT00724750|164838840|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5%/day.||||||0.19|TWO_SIDED|||||The rate of change for the 2 groups was compared by testing the treatment-by-time interaction.|Mixed Models Analysis|||||||0.19
82564802|NCT00724750|164838842|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82564803|NCT00724750|164838843|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
82564804|NCT00724750|164838844|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82564805|NCT00134056|164838881|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.64|TWO_SIDED|95.0|0.9|1.19|||Log Rank|||The primary analysis was by intention to treat and the Hochberg procedure was used for multiple testing of co-primary endpoints. Assuming a 4 year accrual, 2.5 years of follow-up, and 930 eligible patients, the study was designed to have 87% power to detect a 25% increase from 18.0 months to 22.5 months in median overall survival with a one-sided log rank with alpha of 0.0125.||1.19|0.90|0.64
82564806|NCT00134056|164838882|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.81|TWO_SIDED|95.0|0.89|1.16|||Log Rank|||The primary analysis was by intention to treat and the Hochberg procedure was used for multiple testing of co-primary endpoints. Assuming a 4 year accrual, 2.5 years of follow-up, and 930 eligible patients, the study was designed to have 87% power to detect a 25% increase from 6.0 months to 7.5 months in median overall survival with a one-sided log rank with alpha of 0.0125.||1.16|0.89|0.81
82564807|NCT00348283|164838925|SUPERIORITY_OR_OTHER|||||||0.056||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|Because of the hierarchical testing scheme used for testing the ranked secondary endpoints, alpha level of 0.05 was used at each stage of testing.||ITT population: all subjects randomized at Week 4 who had at least 1 dose of blinded therapy. The sample-size (placebo = 65 subjects; adalimumab = 65 subjects) for the primary efficacy analysis was calculated using 88% power at 0.05 alpha level based on the assumption that 25% and 5% of subjects were without mucosal ulceration at Week 12 in adalimumab 40 mg eow and placebo groups, respectively. However, subjects without mucosal ulceration at Screening were excluded from the primary analysis.||||0.056
82564808|NCT00348283|164838926|SUPERIORITY_OR_OTHER|||||||0.021||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 12 in the two treatment groups.||||0.021
82626343|NCT04153929|164968167|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-7.68|||<|0.0001|TWO_SIDED|95.0|-9.52|-5.83||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-5.83|-9.52|<0.0001
82564809|NCT00348283|164838927|SUPERIORITY_OR_OTHER||||||<|0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference between proportions of subjects without mucosal ulceration at Week 52 in the two treatment groups.||||<0.001
82564810|NCT00348283|164838928|SUPERIORITY_OR_OTHER|||||||0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 52 in the two treatment groups.||||0.001
82564811|NCT00348283|164838929|SUPERIORITY_OR_OTHER|||||||0.15||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference between proportions of subjects without mucosal ulceration at both Week 12 and Week 52 in the two treatment groups.||||0.150
82626344|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.66||||0.4439|TWO_SIDED|95.0|-2.34|1.03||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.03|-2.34|0.4439
82626345|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.28||||0.0001|TWO_SIDED|95.0|-4.95|-1.61||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-1.61|-4.95|0.0001
82626346|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-4.93|||<|0.0001|TWO_SIDED|95.0|-6.62|-3.23||P-value is considered nominal|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.23|-6.62|<0.0001
82626347|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.76|||<|0.0001|TWO_SIDED|95.0|-7.53|-4.0||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-4.00|-7.53|<0.0001
82506472|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82564812|NCT00348283|164838930|SUPERIORITY_OR_OTHER||||||<|0.001||||||The P value is from Cochran-Mantel-Haenszel test with clinical response (CR-70 responder status) at Week 4 as the stratification factor.|Cochran-Mantel-Haenszel|||The null hypothesis was that there is no difference in proportion of subjects with clinical remission at Week 12 in the two treatment groups.||||<0.001
82564813|NCT02282761|164838935|SUPERIORITY||Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.83||0.182|TWO_SIDED|95.0|-6.17|1.05|||Mixed Effects Model for Repeated Measure|||||1.05|-6.17|0.182
82564814|NCT02282761|164838935|SUPERIORITY||Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.82||0.045|TWO_SIDED|95.0|-7.75|-0.6|||Mixed Effects Model for Repeated Measure|||||-0.60|-7.75|0.045
82564815|NCT02282761|164838936|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.045|TWO_SIDED|95.0|-0.54|-0.12|||Mixed Effects Model for Repeated Measure|||||-0.12|-0.54|0.045
82564816|NCT00515281|164838938|SUPERIORITY|||||||0.017|||||||Chi-squared|||||||0.017
82564817|NCT00515281|164838939|SUPERIORITY|||||||0.288|||||||Chi-squared|||||||0.288
82564818|NCT00515281|164838940|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
82564819|NCT00515281|164838941|SUPERIORITY|||||||0.97|||||||Chi-squared|||||||0.97
82564820|NCT00515281|164838942|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
82564821|NCT00515281|164838943|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82564822|NCT00515281|164838944|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
82564823|NCT06312566|164838965|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 92.016% CI limits for Cmax,ss was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.9726|||||TWO_SIDED|92.016|0.9257|1.022|||Linear mixed model analysis|||||1.022|0.9257|
82564824|NCT06312566|164838966|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for AUC(tau) was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.9999|||||TWO_SIDED|92.016|0.9881|1.012||||||||1.012|0.9881|
82564825|NCT04551053|164838970|SUPERIORITY|p-value for superiority is half of the CMH p-value.|Odds Ratio (OR)|1.8||||0.2567|TWO_SIDED|95.0|0.65|5.02||CMH test for un-equality stratified by Dynamic International Prognostic Scoring System (DIPSS) category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 × 10\^9/Liters \[L\] versus 50 to \<100 × 10\^9/L inclusive)|Cochran-Mantel-Haenszel|||||5.02|0.65|0.2567
82564826|NCT04551053|164838971|SUPERIORITY|p-value for superiority is half of the CMH p-value.|Odds Ratio (OR)|1.34||||0.5349|TWO_SIDED|95.0|0.53|3.39||calculated from Cochran Mantel-Haenszel test for un-equality stratified by DIPSS category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 × 10\^9/L versus 50 to \<100 × 10\^9/L inclusive)|Cochran-Mantel-Haenszel|||||3.39|0.53|0.5349
82564827|NCT04551053|164838973|SUPERIORITY|||||||0.2224||||||calculated from log-rank test stratified by DIPSS category (intermediate 1 versus intermediate 2 and high) and Baseline platelet count (≥100 x 10\^9/L versus 50 to \<100 x 10\^9/L inclusive)|Log Rank|||||||0.2224
82564828|NCT02971683|164838979|SUPERIORITY||Odds Ratio (OR)|1.8||||0.083|TWO_SIDED|95.0|0.9|3.5|||Regression, Logistic|||||3.5|0.9|0.083
82564829|NCT04206501|164838993|SUPERIORITY|||||||0.064||||||The rate of change in HF medications (beta-blocker, diuretic, and Sacubitril/Valsartan) was compared betweenICM Guidedand usual care control group using chi-square analysis.|Chi-squared|||Due to the unexpected low enrollment during COVID pandemic, we aimed to primarily focus the limited analysis/description on the primary endpoint and exploratory analysis related to QOL||||0.064
82564830|NCT02924051|164839019|EQUIVALENCE|With an alpha level of .05 and effective (post-attrition) sample size of approximately 25 participants per county, and 3 counties per treatment group, the power of the group comparison was at least 80%, assuming an ICC of .01 or less, and an observed difference in proportions of .25. The anticipated power for the longitudinal comparison of continuous outcomes was expected to be even greater under these assumptions given the greater power for the parametric tests.|Mean Difference (Final Values)|1.12||||0.26|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.26
82564831|NCT02924051|164839021|SUPERIORITY|||||||0.36|||||||t-test, 1 sided|||Comparison of Cooking Skills/Nutrition Education/MI at baseline and 12 months.||||0.36
82564832|NCT03000829|164839050|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82564833|NCT03000829|164839051|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
82564834|NCT03000829|164839052|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82564835|NCT03000829|164839053|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82564836|NCT03000829|164839054|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
82564837|NCT03000829|164839055|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
82564838|NCT03000829|164839056|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82564839|NCT03000829|164839057|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.40
82564840|NCT03000829|164839060|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
82564841|NCT06466655|164839067|EQUIVALENCE||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82564842|NCT06466655|164839068|EQUIVALENCE||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82564843|NCT01154699|164839092|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 2 sided|||The difference in the change in asthma control during the Usual care and the Bilevel PAP period were compared.||||0.8
82564844|NCT01154699|164839093|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||Change in PC20 between the two arms||||0.20
82564845|NCT01154699|164839094|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
82564846|NCT01154699|164839095|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
82564847|NCT01154699|164839096|SUPERIORITY_OR_OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
82564848|NCT01154699|164839097|SUPERIORITY_OR_OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
82564849|NCT04448561|164839125|OTHER||Geometric Least square (LS) mean ratio|100.64|||||TWO_SIDED|90.0|98.37|102.96|||||Assessment based on analysis of variance performed on natural log-transformed parameters with treatment as fixed effect and participant as random effect. Ratios and confidence limits: transformed back to raw scale and values expressed as percentages.|||102.96|98.37|
82564850|NCT04448561|164839126|OTHER||Geometric LS mean ratio|94.28|||||TWO_SIDED|90.0|89.29|99.54|||||Assessment based on analysis of variance performed on natural log-transformed parameters with treatment as fixed effect and participant as random effect. Ratios and confidence limits: transformed back to raw scale and values expressed as percentages.|||99.54|89.29|
82564851|NCT04448561|164839128|OTHER||Geometric LS mean ratio|100.79|||||TWO_SIDED|90.0|83.35|121.88|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||121.88|83.35|
82564852|NCT04448561|164839129|OTHER||Geometric LS mean ratio|100.58|||||TWO_SIDED|90.0|81.35|124.36|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||124.36|81.35|
82564853|NCT04448561|164839131|OTHER||Geometric LS mean ratio|89.08|||||TWO_SIDED|90.0|79.58|99.71|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||99.71|79.58|
82564854|NCT04448561|164839132|OTHER||Geometric LS mean ratio|96.11|||||TWO_SIDED|90.0|83.03|111.25|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits are transformed back to raw scale and values are expressed as percentages.|||111.25|83.03|
82564855|NCT04448561|164839134|OTHER||Geometric LS mean ratio|86.54|||||TWO_SIDED|90.0|76.01|98.52|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits are transformed back to raw scale and values are expressed as percentages.|||98.52|76.01|
82564856|NCT04448561|164839135|OTHER||Geometric LS mean ratio|95.1|||||TWO_SIDED|90.0|82.52|109.6|||||Assessment based on an analysis of variance performed on natural log-transformed parameters with treatment as a fixed effect. Ratios and confidence limits were transformed back to raw scale and values were expressed as percentages.|||109.60|82.52|
82564857|NCT01612221|164839138|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||.65
82564858|NCT01612221|164839139|SUPERIORITY|||||||0.76|||||||ANCOVA|||GCLM Biomarker analysis.||||0.76
82564859|NCT01612221|164839139|SUPERIORITY|||||||0.63|||||||ANCOVA|||SLC1A4 Biomarker analysis.||||0.63
82564860|NCT01612221|164839139|SUPERIORITY|||||||0.27|||||||ANCOVA|||SLC7A11 Biomarker analysis.||||0.27
82564861|NCT01044901|164839142|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
82564862|NCT01044901|164839143|OTHER||||||<|0.0001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney test).||||<0.0001
82564863|NCT01044901|164839144|OTHER|||||||0.0137|||||||t-test, 2 sided|P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0137
82564864|NCT01044901|164839145|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
82626348|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-5.44|||<|0.0001|TWO_SIDED|95.0|-7.11|-3.77||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.77|-7.11|<0.0001
82506473|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506474|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0069|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0069
82506475|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506476|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506477|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
82506478|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0006|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0006
82506479|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506480|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506481|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506482|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.004|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0040
82506483|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506484|NCT01480076|164704565|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506485|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0047|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0047
82506486|NCT01480076|164704565|SUPERIORITY_OR_OTHER|||||||0.0118|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline PCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0118
82506487|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82626349|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-7.05|||<|0.0001|TWO_SIDED|95.0|-8.79|-5.31||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-5.31|-8.79|<0.0001
82626350|NCT04153929|164968168|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.85|||<|0.0001|TWO_SIDED|95.0|-5.52|-2.18||P-value is considered nominal.|Mixed Model Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as Semaglutide - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 2, 3, 4, 5, 6, 7, 8, 12, 16 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-2.18|-5.52|<0.0001
82626351|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-0.62||||0.7708|TWO_SIDED|95.0|-4.82|3.57||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.3 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||3.57|-4.82|0.7708
82626352|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|0.68||||0.7462|TWO_SIDED|95.0|-3.44|4.79||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 0.9 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||4.79|-3.44|0.7462
82626353|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-3.32||||0.1302|TWO_SIDED|95.0|-7.62|0.98||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||0.98|-7.62|0.1302
82626354|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-4.61||||0.0414|TWO_SIDED|95.0|-9.03|-0.18||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 2.7 mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-0.18|-9.03|0.0414
82626355|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-2.55||||0.2273|TWO_SIDED|95.0|-6.71|1.6||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.2 twice weekly (2.4) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.60|-6.71|0.2273
82626356|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-8.4||||0.0002|TWO_SIDED|95.0|-12.81|-3.98||P-value is considered nominal.|Mixed Model for Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as BI 456906 1.8 twice weekly (3.6) mg - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||-3.98|-12.81|0.0002
82626357|NCT04153929|164968169|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-2.72||||0.1967|TWO_SIDED|95.0|-6.86|1.42||P-value is considered nominal.|Mixed Model Repeated Measures (MMRM)|Kenward-Roger was used to estimate denominator degrees of freedom.|"Difference was calculated as Semaglutide - Placebo at Week 17."|Mixed Model Repeated Measures (MMRM) with fixed, categorical factors of treatment at each visit, and continuous factors of baseline at each visit, using visit (Week 6 and 17 ) as repeated measures, subject as random effect, unstructured covariance matrix to model within subject measurements.||1.42|-6.86|0.1967
82626358|NCT04153929|164968170|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.28|5.2|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||5.20|0.28|
82564865|NCT01044901|164839146|OTHER|||||||0.16||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.16
82564866|NCT01044901|164839147|OTHER|||||||0.0039||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.0039
82564867|NCT01044901|164839148|OTHER|||||||0.0011||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0011
82626359|NCT04153929|164968170|OTHER||Odds Ratio (OR)|7.92|||||TWO_SIDED|95.0|2.43|25.74|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||25.74|2.43|
82626360|NCT04153929|164968170|OTHER||Odds Ratio (OR)|17.68|||||TWO_SIDED|95.0|5.21|60.03|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||60.03|5.21|
82626361|NCT04153929|164968170|OTHER||Odds Ratio (OR)|25.87|||||TWO_SIDED|95.0|7.31|91.55|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||91.55|7.31|
82626362|NCT04153929|164968170|OTHER||Odds Ratio (OR)|21.75|||||TWO_SIDED|95.0|6.57|72.04|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||72.04|6.57|
82626363|NCT04153929|164968170|OTHER||Odds Ratio (OR)|35.0|||||TWO_SIDED|95.0|9.84|124.47|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||124.47|9.84|
82626364|NCT04153929|164968170|OTHER||Odds Ratio (OR)|8.22|||||TWO_SIDED|95.0|2.52|26.79|||||Odds Ratio was calculated as Semaglutide / Placebo.|Method: Logistic regression model for body weight loss with treatment as fixed effect.||26.79|2.52|
82626365|NCT04153929|164968171|OTHER||Odds Ratio (OR)|3.67|||||TWO_SIDED|95.0|0.14|95.73|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||95.73|0.14|
82626366|NCT04153929|164968171|OTHER||Odds Ratio (OR)|7.97|||||TWO_SIDED|95.0|0.39|163.56|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||163.56|0.39|
82626367|NCT04153929|164968171|OTHER||Odds Ratio (OR)|25.17|||||TWO_SIDED|95.0|1.35|471.09|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||471.09|1.35|
82626368|NCT04153929|164968171|OTHER||Odds Ratio (OR)|33.01|||||TWO_SIDED|95.0|1.78|613.51||||||Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||613.51|1.78|
82626369|NCT04153929|164968171|OTHER||Odds Ratio (OR)|42.44|||||TWO_SIDED|95.0|2.37|761.44|||||Odds Ratio was calculated as BI 456906 / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||761.44|2.37|
82626370|NCT04153929|164968171|OTHER||Odds Ratio (OR)|84.53|||||TWO_SIDED|95.0|4.71|999.0|||||Odds Ratio was calculated as BI 456906 / Placebo. The upper limit is bigger than 999.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||999|4.71|
82626371|NCT04153929|164968171|OTHER||Odds Ratio (OR)|22.44|||||TWO_SIDED|95.0|1.22|413.33|||||Odds Ratio was calculated as Semaglutide / Placebo.|Method: Logistic regression model using Firth's bias-reducing penalized maximum likelihood estimation for body weight loss with treatment as fixed effect.||413.33|1.22|
82626372|NCT01975675|164968173|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment-naive noncirrhotic participants in the LDV/SOF (treatment naive) group were compared to the adjusted historical SVR null rate of 63% using a two-sided exact one-sample binomial test.|Binomial test|||||||< 0.001
82626373|NCT01975675|164968173|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment-naive noncirrhotic participants in the LDV/SOF+RBV (treatment naive) group were compared to the adjusted historical SVR null rate of 63% using a two-sided exact one-sample binomial test.|Binomial test|||||||< 0.001
82626374|NCT01975675|164968174|SUPERIORITY_OR_OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.2|1.0|||||The 95% confidence interval (CI) on the difference in proportions is based on the exact method (standardized statistic and inverting two 1-sided tests).|||1.0|-10.2|
82626375|NCT01975675|164968174|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-4.2|4.2|||||The 95% CI on the difference in proportions is based on the exact method (standardized statistic and inverting two 1-sided tests).|||4.2|-4.2|
82626376|NCT01854593|164968181|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
82626377|NCT01854593|164968182|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||||||0.006
82626378|NCT01854593|164968183|SUPERIORITY_OR_OTHER|||||||0.033|||||||Fisher Exact|||||||0.033
82626379|NCT01854593|164968184|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82626380|NCT01854593|164968185|SUPERIORITY_OR_OTHER|||||||0.667|||||||Wilcoxon (Mann-Whitney)|||||||0.667
82626381|NCT01854593|164968186|SUPERIORITY_OR_OTHER|||||||0.593|||||||Fisher Exact|||||||0.593
82626382|NCT01854593|164968187|SUPERIORITY_OR_OTHER|||||||0.298|||||||Wilcoxon (Mann-Whitney)|||||||0.298
82626383|NCT01854593|164968188|SUPERIORITY_OR_OTHER|||||||0.929|||||||Wilcoxon (Mann-Whitney)|||||||0.929
82626384|NCT01854593|164968189|SUPERIORITY_OR_OTHER|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||||||0.445
82626385|NCT01854593|164968190|SUPERIORITY_OR_OTHER|||||||0.131|||||||Chi-squared|||||||0.131
82626386|NCT01854593|164968191|SUPERIORITY_OR_OTHER|||||||0.149|||||||Fisher Exact|||||||0.149
82626387|NCT01854593|164968192|SUPERIORITY_OR_OTHER|||||||0.67|||||||Fisher Exact|||||||0.670
82626388|NCT01854593|164968193|SUPERIORITY_OR_OTHER|||||||0.378|||||||Chi-squared|||||||0.378
82626389|NCT03803202|164968207|OTHER||Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.7|1.85|||t-test, 2 sided|||Serotype 1, Day 1||1.85|0.70|
82564868|NCT01044901|164839149|OTHER|||||||0.1||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.10
82564869|NCT01044901|164839150|OTHER|||||||0.48||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.48
82564870|NCT01044901|164839151|OTHER|||||||0.08||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Fisher Exact|||Primary outcome was presented as frequencies and percentages, and then analyzed with a Fisher exact test.||||0.08
82564871|NCT01044901|164839152|OTHER|||||||0.91||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.91
82564872|NCT01044901|164839153|OTHER|||||||0.0038||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0038
82564873|NCT01044901|164839154|OTHER|||||||0.034||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.034
82564874|NCT01044901|164839155|OTHER|||||||0.25||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Fisher Exact|||Primary outcome was presented was as frequencies and percentages, and then analyzed with a Fisher exact test.||||0.25
82564875|NCT01044901|164839156|OTHER|||||||0.0288||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.0288
82564876|NCT01044901|164839157|OTHER|||||||0.14||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|Wilcoxon (Mann-Whitney)|||Primary outcome was presented at baseline as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon (Mann-Whitney) test.||||0.14
82564877|NCT01044901|164839158|OTHER|||||||0.13||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.13
82564878|NCT01044901|164839159|OTHER|||||||0.81||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.81
82564879|NCT01044901|164839160|OTHER|||||||0.3||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05.|t-test, 2 sided|||Primary outcome was presented at baseline as mean +/- standard deviation based upon the Shapiro-Wilks test of normality, and then analyzed with a Student t-test.||||0.30
82564880|NCT02878590|164839162|SUPERIORITY|||||||0.0093|||||||t-test, 2 sided|||||||0.0093
82564881|NCT03322514|164839189|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82564882|NCT03322514|164839189|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.04
82564883|NCT03322514|164839189|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.1
82564884|NCT03322514|164839190|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
82564885|NCT03322514|164839190|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.3
82564886|NCT03322514|164839190|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.3
82564887|NCT03322514|164839191|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
82564888|NCT03322514|164839191|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||Baseline to 12 weeks||||0.4
82564889|NCT03322514|164839191|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||baseline to 12 weeks||||0.7
82564890|NCT01184859|164839192|SUPERIORITY_OR_OTHER|||||||0.211||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.211
82564891|NCT01184859|164839192|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.010
82564892|NCT01184859|164839192|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||<0.001
82564893|NCT01184859|164839192|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||<0.001
82564894|NCT01184859|164839193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.272||||0.194|TWO_SIDED|95.0|-0.685|-0.141||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.141|-0.685|0.194
82626390|NCT03803202|164968207|OTHER||Ratio of GMT|1.17|||||TWO_SIDED|95.0|0.72|1.9|||t-test, 2 sided|||Serotype 1, Day 1||1.90|0.72|
82626391|NCT03803202|164968207|OTHER||Ratio of GMT|1.17|||||TWO_SIDED|95.0|0.74|1.87|||t-test, 2 sided|||Serotype 1, Day 1||1.87|0.74|
82626392|NCT03803202|164968207|OTHER||Ratio of GMT|1.57|||||TWO_SIDED|95.0|0.68|3.63|||t-test, 2 sided|||Serotype 3, Day 1||3.63|0.68|
82626393|NCT03803202|164968207|OTHER||Ratio of GMT|2.04|||||TWO_SIDED|95.0|0.86|4.82|||t-test, 2 sided|||Serotype 3, Day 1||4.82|0.86|
82626394|NCT03803202|164968207|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.31|1.46|||t-test, 2 sided|||Serotype 3, Day 1||1.46|0.31|
82626395|NCT03803202|164968207|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.27|4.55|||t-test, 2 sided|||Serotype 4, Day 1||4.55|0.27|
82626396|NCT03803202|164968207|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.19|2.61|||t-test, 2 sided|||Serotype 4, Day 1||2.61|0.19|
82626397|NCT03803202|164968207|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|0.49|6.85|||t-test, 2 sided|||Serotype 4, Day 1||6.85|0.49|
82626398|NCT03803202|164968207|OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|0.76|4.73|||t-test, 2 sided|||Serotype 5, Day 1||4.73|0.76|
82626399|NCT03803202|164968207|OTHER||Ratio of GMT|1.22|||||TWO_SIDED|95.0|0.62|2.4|||t-test, 2 sided|||Serotype 5, Day 1||2.40|0.62|
82626400|NCT03803202|164968207|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.52|1.65|||t-test, 2 sided|||Serotype 5, Day 1||1.65|0.52|
82626401|NCT03803202|164968207|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.25|2.82|||t-test, 2 sided|||Serotype 6A, Day 1||2.82|0.25|
82626402|NCT03803202|164968207|OTHER||Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.24|2.23|||t-test, 2 sided|||Serotype 6A, Day 1||2.23|0.24|
82626403|NCT03803202|164968207|OTHER||Ratio of GMT|1.03|||||TWO_SIDED|95.0|0.31|3.41|||t-test, 2 sided|||Serotype 6A, Day 1||3.41|0.31|
82626404|NCT03803202|164968207|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.32|4.46|||t-test, 2 sided|||Serotype 6B,Day 1||4.46|0.32|
82626405|NCT03803202|164968207|OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.42|4.05|||t-test, 2 sided|||Serotype 6B, Day 1||4.05|0.42|
82626406|NCT03803202|164968207|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.24|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.24|
82626407|NCT03803202|164968207|OTHER||Ratio of GMT|0.76|||||TWO_SIDED|95.0|0.26|2.17|||t-test, 2 sided|||Serotype 7F, Day 1||2.17|0.26|
82626408|NCT03803202|164968207|OTHER||Ratio of GMT|0.32|||||TWO_SIDED|95.0|0.11|0.89|||t-test, 2 sided|||Serotype 7F, Day 1||0.89|0.11|
82626409|NCT03803202|164968207|OTHER||Ratio of GMT|0.31|||||TWO_SIDED|95.0|0.1|0.93|||t-test, 2 sided|||Serotype 7F, Day 1||0.93|0.10|
82626410|NCT03803202|164968207|OTHER||Ratio of GMT|1.92|||||TWO_SIDED|95.0|0.74|4.99|||t-test, 2 sided|||Serotype 9V, Day 1||4.99|0.74|
82626411|NCT03803202|164968207|OTHER||Ratio of GMT|0.48|||||TWO_SIDED|95.0|0.15|1.61|||t-test, 2 sided|||Serotype 9V, Day 1||1.61|0.15|
82626412|NCT03803202|164968207|OTHER||Ratio of GMT|0.62|||||TWO_SIDED|95.0|0.21|1.9|||t-test, 2 sided|||Serotype 9V, Day 1||1.90|0.21|
82626413|NCT03803202|164968207|OTHER||Ratio of GMT|4.2|||||TWO_SIDED|95.0|1.17|15.09|||t-test, 2 sided|||Serotype 14, Day 1||15.09|1.17|
82626414|NCT03803202|164968207|OTHER||Ratio of GMT|1.91|||||TWO_SIDED|95.0|0.52|7.07|||t-test, 2 sided|||Serotype 14, Day 1||7.07|0.52|
82626415|NCT03803202|164968207|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.23|4.25|||t-test, 2 sided|||Serotype 14, Day 1||4.25|0.23|
82626416|NCT03803202|164968207|OTHER||Ratio of GMT|0.74|||||TWO_SIDED|95.0|0.21|2.62|||t-test, 2 sided|||Serotype 18C, Day 1||2.62|0.21|
82626417|NCT03803202|164968207|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.37|3.77|||t-test, 2 sided|||Serotype 18C, Day 1||3.77|0.37|
82626418|NCT03803202|164968207|OTHER||Ratio of GMT|1.22|||||TWO_SIDED|95.0|0.38|3.94|||t-test, 2 sided|||Serotype 18C, Day 1||3.94|0.38|
82626419|NCT03803202|164968207|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.51|2.45|||t-test, 2 sided|||Serotype 19A, Day 1||2.45|0.51|
82626420|NCT03803202|164968207|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.31|1.63|||t-test, 2 sided|||Serotype 19A, Day 1||1.63|0.31|
82626421|NCT03803202|164968207|OTHER||Ratio of GMT|0.74|||||TWO_SIDED|95.0|0.36|1.53|||t-test, 2 sided|||Serotype 19A, Day 1||1.53|0.36|
82626422|NCT03803202|164968207|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.24|2.08|||t-test, 2 sided|||Serotype 19F, Day 1||2.08|0.24|
82626423|NCT03803202|164968207|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.44|3.5|||t-test, 2 sided|||Serotype 19F, Day 1||3.50|0.44|
82626424|NCT03803202|164968207|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.58|3.61|||t-test, 2 sided|||Serotype 19F, Day 1||3.61|0.58|
82626425|NCT03803202|164968207|OTHER||Ratio of GMT|2.22|||||TWO_SIDED|95.0|0.46|10.69|||t-test, 2 sided|||Serotype 23F, Day 1||10.69|0.46|
82626426|NCT03803202|164968207|OTHER||Ratio of GMT|1.36|||||TWO_SIDED|95.0|0.31|5.99|||t-test, 2 sided|||Serotype 23F, Day 1||5.99|0.31|
82626427|NCT03803202|164968207|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.15|3.01|||t-test, 2 sided|||Serotype 23F, Day 1||3.01|0.15|
82626428|NCT03803202|164968207|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.5|1.74|||t-test, 2 sided|||Serotype 1, Day 30||1.74|0.50|
82626429|NCT03803202|164968207|OTHER||Ratio of GMT|0.72|||||TWO_SIDED|95.0|0.39|1.32|||t-test, 2 sided|||Serotype 1, Day 30||1.32|0.39|
82626430|NCT03803202|164968207|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.35|1.39|||t-test, 2 sided|||Serotype 1, Day 30||1.39|0.35|
82626431|NCT03803202|164968207|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.66|1.8|||t-test, 2 sided|||Serotype 3, Day 30||1.80|0.66|
82626432|NCT03803202|164968207|OTHER||Ratio of GMT|1.44|||||TWO_SIDED|95.0|0.9|2.29|||t-test, 2 sided|||Serotype 3, Day 30||2.29|0.90|
82626433|NCT03803202|164968207|OTHER||Ratio of GMT|1.28|||||TWO_SIDED|95.0|0.76|2.17|||t-test, 2 sided|||Serotype 3, Day 30||2.17|0.76|
82626434|NCT03803202|164968207|OTHER||Ratio of GMT|0.82|||||TWO_SIDED|95.0|0.5|1.35|||t-test, 2 sided|||Serotype 4, Day 30||1.35|0.50|
82626435|NCT03803202|164968207|OTHER||Ratio of GMT|0.5|||||TWO_SIDED|95.0|0.24|1.02|||t-test, 2 sided|||Serotype 4, Day 30||1.02|0.24|
82626436|NCT03803202|164968207|OTHER||Ratio of GMT|1.06|||||TWO_SIDED|95.0|0.6|1.89|||t-test, 2 sided|||Serotype 4, Day 30||1.89|0.60|
82626437|NCT03803202|164968207|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.41|1.15|||t-test, 2 sided|||Serotype 5, Day 30||1.15|0.41|
82626438|NCT03803202|164968207|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.31|1.2|||t-test, 2 sided|||Serotype 5, Day 30||1.20|0.31|
82626439|NCT03803202|164968207|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.48|1.32|||t-test, 2 sided|||Serotype 5, Day 30||1.32|0.48|
82626440|NCT03803202|164968207|OTHER||Ratio of GMT|0.52|||||TWO_SIDED|95.0|0.28|0.98|||t-test, 2 sided|||Serotype 6A, Day 30||0.98|0.28|
82626441|NCT03803202|164968207|OTHER||Ratio of GMT|0.32|||||TWO_SIDED|95.0|0.15|0.68|||t-test, 2 sided|||Serotype 6A, Day 30||0.68|0.15|
82564895|NCT01184859|164839193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.547||||0.015|TWO_SIDED|95.0|-0.985|-0.108||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.108|-0.985|0.015
82564896|NCT01184859|164839193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.854|||<|0.001|TWO_SIDED|95.0|-1.317|-0.391||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.391|-1.317|<0.001
82564897|NCT01184859|164839193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.888||||0.001|TWO_SIDED|95.0|-1.426|-0.351||The p-value was not adjusted for multiplicity, because this study was not a confirmatory trial. A priori threshold for statistical significance is 0.05.|ANCOVA|Gender is a factor, and duration of action and baseline number of nocturnal voids are covariates.||||-0.351|-1.426|0.001
82564898|NCT02186015|164839218|SUPERIORITY|A Wilcoxon signed rank test was performed.|||||<|0.01|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in serum 25(OH)D from week 0 to week 8.||||<0.01
82564899|NCT02186015|164839219|SUPERIORITY|A Wilcoxon signed rank test was performed.||||||0.24|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in worst pain rating from week 0 to week 8.||||0.24
82564900|NCT02186015|164839220|SUPERIORITY|||||||0.09|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in fatigue score from week 0 to week 8.||||0.09
82564901|NCT02186015|164839221|SUPERIORITY|||||||0.17|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in mood score from week 0 to week 8.||||0.17
82564902|NCT02186015|164839222|SUPERIORITY|||||||0.5|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in dominant handgrip strength from week 0 to week 8.||||0.50
82564903|NCT02186015|164839223|SUPERIORITY|||||||0.16|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in sleep quality assessment from week 0 to week 8.||||0.16
82564904|NCT02186015|164839224|SUPERIORITY|||||||0.75|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in functional assessment of cancer therapy-breast score from week 0 to week 8.||||0.75
82626442|NCT03803202|164968207|OTHER||Ratio of GMT|0.37|||||TWO_SIDED|95.0|0.21|0.66|||t-test, 2 sided|||Serotype 6A, Day 30||0.66|0.21|
82564905|NCT02186015|164839225|SUPERIORITY|||||||0.19|||||||Wilcoxon signed rank test|||The null hypothesis is that there is 0 change in functional assessment of cancer therapy-endocrine score from week 0 to week 8.||||0.19
82564906|NCT01837719|164839241|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% CI for the ratios of geometric means of the test formulation (fixed-dose combination \[FDC\] tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, area under the plasma concentration-time curve from time 0 to time of last quantifiable concentration (AUC\[0-T\]) and AUC from time 0 to infinity. (AUC\[0-T\])|Geometric mean ratio|1.073|||||TWO_SIDED|90.0|1.012|1.137|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir Cmax, with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.||1.137|1.012|
82564907|NCT01837719|164839241|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.423|||||TWO_SIDED|90.0|1.273|1.59|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.590|1.273|
82564908|NCT01837719|164839241|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.137|||||TWO_SIDED|90.0|1.0|1.292|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir Cmax with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.292|1.000|
82564909|NCT01837719|164839241|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.862|||||TWO_SIDED|90.0|0.701|1.059|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.059|0.701|
82564910|NCT01837719|164839241|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.643|||||TWO_SIDED|90.0|0.545|0.759|||Mixed Models Analysis||Geometric mean ratio is calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when given as an FDC||0.759|0.545|
82626443|NCT03803202|164968207|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.42|1.18|||t-test, 2 sided|||Serotype 6B, Day 30||1.18|0.42|
82626444|NCT03803202|164968207|OTHER||Ratio of GMT|0.45|||||TWO_SIDED|95.0|0.25|0.83|||t-test, 2 sided|||Serotype 6B, Day 30||0.83|0.25|
82626445|NCT03803202|164968207|OTHER||Ratio of GMT|0.43|||||TWO_SIDED|95.0|0.24|0.76|||t-test, 2 sided|||Serotype 6B, Day 30||0.76|0.24|
82626446|NCT03803202|164968207|OTHER||Ratio of GMT|0.81|||||TWO_SIDED|95.0|0.51|1.29|||t-test, 2 sided|||Serotype 7F, Day 30||1.29|0.51|
82626447|NCT03803202|164968207|OTHER||Ratio of GMT|0.68|||||TWO_SIDED|95.0|0.47|0.99|||t-test, 2 sided|||Serotype 7F, Day 30||0.99|0.47|
82626448|NCT03803202|164968207|OTHER||Ratio of GMT|0.82|||||TWO_SIDED|95.0|0.53|1.25|||t-test, 2 sided|||Serotype 7F, Day 30||1.25|0.53|
82626449|NCT03803202|164968207|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.35|1.08|||t-test, 2 sided|||Serotype 9V, Day 30||1.08|0.35|
82626450|NCT03803202|164968207|OTHER||Ratio of GMT|0.57|||||TWO_SIDED|95.0|0.31|1.03|||t-test, 2 sided|||Serotype 9V, Day 30||1.03|0.31|
82626451|NCT03803202|164968207|OTHER||Ratio of GMT|0.77|||||TWO_SIDED|95.0|0.46|1.28|||t-test, 2 sided|||Serotype 9V, Day 30||1.28|0.46|
82626452|NCT03803202|164968207|OTHER||Ratio of GMT|0.54|||||TWO_SIDED|95.0|0.27|1.08|||t-test, 2 sided|||Serotype 14, Day 30||1.08|0.27|
82626453|NCT03803202|164968207|OTHER||Ratio of GMT|0.28|||||TWO_SIDED|95.0|0.1|0.77|||t-test, 2 sided|||Serotype 14, Day 30||0.77|0.10|
82626454|NCT03803202|164968207|OTHER||Ratio of GMT|1.13|||||TWO_SIDED|95.0|0.56|2.3|||t-test, 2 sided|||Serotype 14, Day 30||2.30|0.56|
82626455|NCT03803202|164968207|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.53|1.5|||t-test, 2 sided|||Serotype 18C, Day 30||1.50|0.53|
82506488|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506489|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506490|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.1398|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1398
82506491|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506492|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506493|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506494|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.0935|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0935
82506495|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506496|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506497|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506498|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.076|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0760
82506499|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506500|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.0019|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0019
82506501|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.0037|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0037
82506502|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.2489|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2489
82506503|NCT01480076|164704566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82626456|NCT03803202|164968207|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.39|1.23|||t-test, 2 sided|||Serotype 18C, Day 30||1.23|0.39|
82626457|NCT03803202|164968207|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.5|1.28|||t-test, 2 sided|||Serotype 18C, Day 30||1.28|0.50|
82626458|NCT03803202|164968207|OTHER||Ratio of GMT|0.5|||||TWO_SIDED|95.0|0.32|0.79|||t-test, 2 sided|||Serotype 19A, Day 30||0.79|0.32|
82626459|NCT03803202|164968207|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.45|1.09|||t-test, 2 sided|||Serotype 19A, Day 30||1.09|0.45|
82506504|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
82506505|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.0052|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0052
82506506|NCT01480076|164704566|SUPERIORITY_OR_OTHER|||||||0.7714|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MCS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7714
82506507|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506508|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506509|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82564911|NCT01837719|164839242|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-T), with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.|Geometric mean ratio|1.065|||||TWO_SIDED|90.0|1.012|1.12|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) is calculated as Treatment B/Treatment A|Bioequivalence was concluded if the 90% confidence intervals for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T) and AUC(INF).||1.120|1.012|
82564912|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.275|||||TWO_SIDED|90.0|1.166|1.393|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as a random effect was used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as an FDC||1.393|1.166|
82564913|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.113|||||TWO_SIDED|90.0|0.993|1.248|||Mixed Models Analysis||Geometric mean ratio for AUC(0-T) is calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect||1.248|0.993|
82564914|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.804|1.122|||Mixed Models Analysis||Geometric mean ratio of AUC(0-T) was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of atazanavir when given as an FDC.||1.122|0.804|
82564915|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.746|||||TWO_SIDED|90.0|0.655|0.849|||Mixed Models Analysis||Geometric mean ratio of AUC(0-T) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and participant as a random effect will be used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when given as an FDC||0.849|0.655|
82564916|NCT01837719|164839242|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T) and AUC(INF).|Geometric mean ratio|1.064||||||90.0|1.011|1.12|||Mixed Models Analysis||Geometric mean ration for AUC(INF) is calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF), with treatment period and sequence as fixed effects, and patient (sequence) as a random effect.||1.120|1.011|
82564917|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.28|||||TWO_SIDED|90.0|1.171|1.398|||Mixed Models Analysis||Geometric mean ratio for AUC(INF) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and participant as a random effect was used to estimate the effect of a light meal and fthe fasted state on the natural logarithms of exposure of atazanavir when given as an FDC||1.398|1.171|
82626460|NCT03803202|164968207|OTHER||Ratio of GMT|0.63|||||TWO_SIDED|95.0|0.42|0.96|||t-test, 2 sided|||Serotype 19A, Day 30||0.96|0.42|
82626461|NCT03803202|164968207|OTHER||Ratio of GMT|0.56|||||TWO_SIDED|95.0|0.34|0.92|||t-test, 2 sided|||Serotype 19F, Day 30||0.92|0.34|
82626462|NCT03803202|164968207|OTHER||Ratio of GMT|0.64|||||TWO_SIDED|95.0|0.37|1.1|||t-test, 2 sided|||Serotype 19F, Day 30||1.10|0.37|
82506510|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506511|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506512|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506513|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506514|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506515|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506516|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506517|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82564918|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.11|||||TWO_SIDED|90.0|0.991|1.244|||Mixed Models Analysis||Geometric mean ratio of AUC(INF) was calculated as Treatment D/Treatment C|To assess the relative bioavailability of atazanavir under fasted (Treatment D) versus fed (Treatment C) states, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect||1.244|0.991|
82564919|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.956|||||TWO_SIDED|90.0|0.81|1.128|||Mixed Models Analysis||Geometric mean of AUC(INF) was calculated as Treatment E/Treatment D|||1.128|0.810|
82564920|NCT01837719|164839242|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.749|||||TWO_SIDED|90.0|0.658|0.852|||Mixed Models Analysis||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and participant as a random effect was used to estimate the effect of high fat and light meals on the natural logarithms of exposure of atazanavir when administered as an FDC.||0.852|0.658|
82564921|NCT01837719|164839247|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.084|||||TWO_SIDED|90.0|1.014|1.158|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment A|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.158|1.014|
82564922|NCT01837719|164839247|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.349|||||TWO_SIDED|90.0|1.215|1.498|||Mixed Models Analysis||Geometric mean ratio of C24 was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.498|1.215|
82626463|NCT03803202|164968207|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.56|1.55|||t-test, 2 sided|||Serotype 19F, Day 30||1.55|0.56|
82626464|NCT03803202|164968207|OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.08|0.46|||t-test, 2 sided|||Serotype 23F, Day 30||0.46|0.08|
82626465|NCT03803202|164968207|OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.08|0.47|||t-test, 2 sided|||Serotype 23F, Day 30||0.47|0.08|
82626466|NCT03803202|164968207|OTHER||Ratio of GMT|0.23|||||TWO_SIDED|95.0|0.09|0.57|||t-test, 2 sided|||Serotype 23F, Day 30||0.57|0.09|
82626467|NCT03803202|164968208|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.52|2.23|||t-test, 2 sided|||Serotype 1, Day 1||2.23|0.52|
82626468|NCT03803202|164968208|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.51|1.98|||t-test, 2 sided|||Serotype 1, Day 1||1.98|0.51|
82626469|NCT03803202|164968208|OTHER||Ratio of GMC|1.43|||||TWO_SIDED|95.0|0.72|2.83|||t-test, 2 sided|||Serotype 1, Day 1||2.83|0.72|
82626470|NCT03803202|164968208|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.59|2.68|||t-test, 2 sided|||Serotype 3, Day 1||2.68|0.59|
82626471|NCT03803202|164968208|OTHER||Ratio of GMC|1.65|||||TWO_SIDED|95.0|0.9|3.05|||t-test, 2 sided|||Serotype 3, Day 1||3.05|0.90|
82626472|NCT03803202|164968208|OTHER||Ratio of GMC|1.24|||||TWO_SIDED|95.0|0.68|2.25|||t-test, 2 sided|||Serotype 3, Day 1||2.25|0.68|
82626473|NCT03803202|164968208|OTHER||Ratio of GMC|1.03|||||TWO_SIDED|95.0|0.49|2.15|||t-test, 2 sided|||Serotype 4, Day 1||2.15|0.49|
82626474|NCT03803202|164968208|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.39|1.74|||t-test, 2 sided|||Serotype 4, Day 1||1.74|0.39|
82626475|NCT03803202|164968208|OTHER||Ratio of GMC|1.24|||||TWO_SIDED|95.0|0.59|2.59|||t-test, 2 sided|||Serotype 4, Day 1||2.59|0.59|
82626476|NCT03803202|164968208|OTHER||Ratio of GMC|1.71|||||TWO_SIDED|95.0|0.75|3.91|||t-test, 2 sided|||Serotype 5, Day 1||3.91|0.75|
82626477|NCT03803202|164968208|OTHER||Ratio of GMC|0.72|||||TWO_SIDED|95.0|0.36|1.46|||t-test, 2 sided|||Serotype 5, Day 1||1.46|0.36|
82626478|NCT03803202|164968208|OTHER||Ratio of GMC|0.93|||||TWO_SIDED|95.0|0.47|1.84|||t-test, 2 sided|||Serotype 5, Day 1||1.84|0.47|
82626479|NCT03803202|164968208|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.57|2.52|||t-test, 2 sided|||Serotype 6A, Day 1||2.52|0.57|
82626480|NCT03803202|164968208|OTHER||Ratio of GMC|1.28|||||TWO_SIDED|95.0|0.64|2.56|||t-test, 2 sided|||Serotype 6A, Day 1||2.56|0.64|
82626481|NCT03803202|164968208|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.52|2.28|||t-test, 2 sided|||Serotype 6A, Day 1||2.28|0.52|
82626482|NCT03803202|164968208|OTHER||Ratio of GMC|1.23|||||TWO_SIDED|95.0|0.49|3.09|||t-test, 2 sided|||Serotype 6B, Day 1||3.09|0.49|
82626483|NCT03803202|164968208|OTHER||Ratio of GMC|0.96|||||TWO_SIDED|95.0|0.43|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.43|
82626484|NCT03803202|164968208|OTHER||Ratio of GMC|0.81|||||TWO_SIDED|95.0|0.37|1.73|||t-test, 2 sided|||Serotype 6B, Day 1||1.73|0.37|
82626485|NCT03803202|164968208|OTHER||Ratio of GMC|1.51|||||TWO_SIDED|95.0|0.76|3.01|||t-test, 2 sided|||Serotype 7F, Day 1||3.01|0.76|
82442162|NCT03906656|164592769|SUPERIORITY||Mean Difference (Final Values)|12.6|STANDARD_DEVIATION|29.2||6.47e-05|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|t-test, 2 sided|37.35 degrees of freedom||Physical Functioning Score. H0: the mean difference (C-Brace - KAFO) \<= 0||||0.0000647
82626486|NCT03803202|164968208|OTHER||Ratio of GMC|1.16|||||TWO_SIDED|95.0|0.69|1.94|||t-test, 2 sided|||Serotype 7F, Day 1||1.94|0.69|
82626487|NCT03803202|164968208|OTHER||Ratio of GMC|1.69|||||TWO_SIDED|95.0|0.98|2.91|||t-test, 2 sided|||Serotype 7F, Day 1||2.91|0.98|
82626488|NCT03803202|164968208|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.54|2.22|||t-test, 2 sided|||Serotype 9V, Day 1||2.22|0.54|
82626489|NCT03803202|164968208|OTHER||Ratio of GMC|0.74|||||TWO_SIDED|95.0|0.41|1.36|||t-test, 2 sided|||Serotype 9V, Day 1||1.36|0.41|
82626490|NCT03803202|164968208|OTHER||Ratio of GMC|0.85|||||TWO_SIDED|95.0|0.47|1.55|||t-test, 2 sided|||Serotype 9V, Day 1||1.55|0.47|
82626491|NCT03803202|164968208|OTHER||Ratio of GMC|2.05|||||TWO_SIDED|95.0|0.84|4.99|||t-test, 2 sided|||Serotype 14, Day 1||4.99|0.84|
82626492|NCT03803202|164968208|OTHER||Ratio of GMC|2.6|||||TWO_SIDED|95.0|1.13|5.98|||t-test, 2 sided|||Serotype 14, Day 1||5.98|1.13|
82626493|NCT03803202|164968208|OTHER||Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.37|2.15|||t-test, 2 sided|||Serotype 14, Day 1||2.15|0.37|
82626494|NCT03803202|164968208|OTHER||Ratio of GMC|1.37|||||TWO_SIDED|95.0|0.61|3.06|||t-test, 2 sided|||Serotype 18C, Day 1||3.06|0.61|
82626495|NCT03803202|164968208|OTHER||Ratio of GMC|1.07|||||TWO_SIDED|95.0|0.55|2.09|||t-test, 2 sided|||Serotype 18C, Day 1||2.09|0.55|
82626496|NCT03803202|164968208|OTHER||Ratio of GMC|1.25|||||TWO_SIDED|95.0|0.59|2.65|||t-test, 2 sided|||Serotype 18C, Day 1||2.65|0.59|
82626497|NCT03803202|164968208|OTHER||Ratio of GMC|1.61|||||TWO_SIDED|95.0|0.74|3.49|||t-test, 2 sided|||Serotype 19A, Day 1||3.49|0.74|
82626498|NCT03803202|164968208|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.42|1.65|||t-test, 2 sided|||Serotype 19A, Day 1||1.65|0.42|
82626499|NCT03803202|164968208|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.49|2.05|||t-test, 2 sided|||Serotype 19A, Day 1||2.05|0.49|
82626500|NCT03803202|164968208|OTHER||Ratio of GMC|1.47|||||TWO_SIDED|95.0|0.63|3.39|||t-test, 2 sided|||Serotype 19F, Day 1||3.39|0.63|
82626501|NCT03803202|164968208|OTHER||Ratio of GMC|1.4|||||TWO_SIDED|95.0|0.64|3.07|||t-test, 2 sided|||Serotype 19F, Day 1||3.07|0.64|
82626502|NCT03803202|164968208|OTHER||Ratio of GMC|1.12|||||TWO_SIDED|95.0|0.53|2.34|||t-test, 2 sided|||Serotype 19F, Day 1||2.34|0.53|
82626503|NCT03803202|164968208|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.49|2.09|||t-test, 2 sided|||Serotype 23F, Day 1||2.09|0.49|
82626504|NCT03803202|164968208|OTHER||Ratio of GMC|0.94|||||TWO_SIDED|95.0|0.5|1.75|||t-test, 2 sided|||Serotype 23F, Day 1||1.75|0.50|
82626505|NCT03803202|164968208|OTHER||Ratio of GMC|0.91|||||TWO_SIDED|95.0|0.42|2.0|||t-test, 2 sided|||Serotype 23F, Day 1||2.00|0.42|
82626506|NCT03803202|164968208|OTHER||Ratio of GMC|0.7|||||TWO_SIDED|95.0|0.38|1.29|||t-test, 2 sided|||Serotype 1, Day 30||1.29|0.38|
82626507|NCT03803202|164968208|OTHER||Ratio of GMC|0.95|||||TWO_SIDED|95.0|0.52|1.73|||t-test, 2 sided|||Serotype 1, Day 30||1.73|0.52|
82626508|NCT03803202|164968208|OTHER||Ratio of GMC|1.5|||||TWO_SIDED|95.0|0.84|2.66|||t-test, 2 sided|||Serotype 1, Day 30||2.66|0.84|
82626509|NCT03803202|164968208|OTHER||Ratio of GMC|1.38|||||TWO_SIDED|95.0|0.84|2.28|||t-test, 2 sided|||Serotype 3, Day 30||2.28|0.84|
82626510|NCT03803202|164968208|OTHER||Ratio of GMC|2.68|||||TWO_SIDED|95.0|1.71|4.19|||t-test, 2 sided|||Serotype 3, Day 30||4.19|1.71|
82626511|NCT03803202|164968208|OTHER||Ratio of GMC|3.87|||||TWO_SIDED|95.0|2.47|6.06|||t-test, 2 sided|||Serotype 3, Day 30||6.06|2.47|
82626512|NCT03803202|164968208|OTHER||Ratio of GMC|1.27|||||TWO_SIDED|95.0|0.7|2.3|||t-test, 2 sided|||Serotype 4, Day 30||2.30|0.70|
82626513|NCT03803202|164968208|OTHER||Ratio of GMC|1.02|||||TWO_SIDED|95.0|0.57|1.81|||t-test, 2 sided|||Serotype 4, Day 30||1.81|0.57|
82626514|NCT03803202|164968208|OTHER||Ratio of GMC|2.24|||||TWO_SIDED|95.0|1.21|4.15|||t-test, 2 sided|||Serotype 4, Day 30||4.15|1.21|
82626515|NCT03803202|164968208|OTHER||Ratio of GMC|1.58|||||TWO_SIDED|95.0|0.7|3.57|||t-test, 2 sided|||Serotype 5, Day 30||3.57|0.70|
82564923|NCT01837719|164839247|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.144||||||90.0|1.006|1.3|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment D/Treatment C|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as an FDC||1.300|1.006|
82564924|NCT01837719|164839247|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.231|||||TWO_SIDED|90.0|1.023|1.483|||||Geometric mean ratio was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.483|1.023|
82564925|NCT01837719|164839247|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.912||||||90.0|0.789|1.054|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir when administered as a fixed-dose combination.||1.054|0.789|
82564926|NCT01837719|164839249|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.023|||||TWO_SIDED|90.0|0.991|1.057|||||Geometric mean ratio was calculated as Treatment B/Treatment A|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.057|0.991|
82626516|NCT03803202|164968208|OTHER||Ratio of GMC|0.84|||||TWO_SIDED|95.0|0.35|2.05|||t-test, 2 sided|||Serotype 5, Day 30||2.05|0.35|
82506518|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506519|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506520|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506521|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506522|NCT01480076|164704567|SUPERIORITY_OR_OTHER|||||||0.0009|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0009
82506523|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506524|NCT01480076|164704567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506525|NCT01480076|164704567|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
82564927|NCT01837719|164839249|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.305|||||TWO_SIDED|90.0|1.215|1.402|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.402|1.215|
82564928|NCT01837719|164839249|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.085|||||TWO_SIDED|90.0|0.925|1.273|||||Geometric mean ratio was calculated as Treatment D/Treatment C|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of atazanavir cobicistat||1.273|0.925|
82564929|NCT01837719|164839249|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.937|1.154|||||Geometric mean ratio was calculated asTreatment E/Treatment D|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||1.154|0.937|
82626517|NCT03803202|164968208|OTHER||Ratio of GMC|1.49|||||TWO_SIDED|95.0|0.65|3.39|||t-test, 2 sided|||Serotype 5, Day 30||3.39|0.65|
82626518|NCT03803202|164968208|OTHER||Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.41|1.93|||t-test, 2 sided|||Serotype 6A, Day 30||1.93|0.41|
82626519|NCT03803202|164968208|OTHER||Ratio of GMC|0.77|||||TWO_SIDED|95.0|0.33|1.79|||t-test, 2 sided|||Serotype 6A, Day 30||1.79|0.33|
82626520|NCT03803202|164968208|OTHER||Ratio of GMC|0.69|||||TWO_SIDED|95.0|0.32|1.48|||t-test, 2 sided|||Serotype 6A, Day 30||1.48|0.32|
82626521|NCT03803202|164968208|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.57|2.83|||t-test, 2 sided|||Serotype 6B, Day 30||2.83|0.57|
82626522|NCT03803202|164968208|OTHER||Ratio of GMC|0.75|||||TWO_SIDED|95.0|0.31|1.81|||t-test, 2 sided|||Serotype 6B, Day 30||1.81|0.31|
82506526|NCT01480076|164704567|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 physical score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
82506527|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506528|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506529|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506530|NCT01480076|164704568|SUPERIORITY_OR_OTHER|||||||0.0032|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0032
82506531|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506532|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506533|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506534|NCT01480076|164704568|SUPERIORITY_OR_OTHER|||||||0.0021|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0021
82506535|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506536|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506537|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506538|NCT01480076|164704568|SUPERIORITY_OR_OTHER|||||||0.0097|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0097
82506539|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506540|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82626523|NCT03803202|164968208|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.39|1.97|||t-test, 2 sided|||Serotype 6B, Day 30||1.97|0.39|
82626524|NCT03803202|164968208|OTHER||Ratio of GMC|1.86|||||TWO_SIDED|95.0|1.05|3.3|||t-test, 2 sided|||Serotype 7F, Day 30||3.30|1.05|
82626525|NCT03803202|164968208|OTHER||Ratio of GMC|1.98|||||TWO_SIDED|95.0|1.1|3.55|||t-test, 2 sided|||Serotype 7F, Day 30||3.55|1.10|
82626526|NCT03803202|164968208|OTHER||Ratio of GMC|2.88|||||TWO_SIDED|95.0|1.62|5.12|||t-test, 2 sided|||Serotype 7F, Day 30||5.12|1.62|
82626527|NCT03803202|164968208|OTHER||Ratio of GMC|0.96|||||TWO_SIDED|95.0|0.49|1.87|||t-test, 2 sided|||Serotype 9V, Day 30||1.87|0.49|
82626528|NCT03803202|164968208|OTHER||Ratio of GMC|1.39|||||TWO_SIDED|95.0|0.74|2.62|||t-test, 2 sided|||Serotype 9V, Day 30||2.62|0.74|
82626529|NCT03803202|164968208|OTHER||Ratio of GMC|1.68|||||TWO_SIDED|95.0|0.87|3.27|||t-test, 2 sided|||Serotype 9V, Day 30||3.27|0.87|
82564930|NCT01837719|164839249|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.784|||||TWO_SIDED|90.0|0.717|0.858|||Mixed Models Analysis||Geometric mean ratio was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effect and patient as random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when administered as a fixed-dose combination.||0.858|0.717|
82564931|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.983|1.057|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment B/Treatment A|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.057|0.983|
82564932|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.232||||||90.0|1.141|1.331|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC||1.331|1.141|
82564933|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.102|||||TWO_SIDED|90.0|0.929|1.307|||||Geometric mean ratio of AUC(0-T) was calculated as Treatment D/Treatment C|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(0-T) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.307|0.929|
82564934|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.127||||||90.0|1.017|1.248|||||Geometric mean ratio of AUC(0-T) was calculated asTreatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC.||1.248|1.017|
82564935|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.89|||||TWO_SIDED|90.0|0.825|0.96|||||Geometric mean ratio of AUC(0-T) was calculated asTreatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and a light meal on the natural logarithms of exposure of cobicistat when given as an FDC||0.960|0.825|
82564936|NCT01837719|164839251|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% CI for the ratios of geometric means of the test formulation (FDC tablet of 300/150 mg atazanavir/cobicistat) to the reference formulation (300-mg atazanavir capsule coadministered with 150-mg cobicistat) were contained within 0.80 to 1.25 for atazanavir Cmax, AUC(0-T), and AUC(INF).|Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.982|1.058|||||Geometric mean ratio of AUC(INF) was calculated as Treatment B/Treatment A|To demonstrate bioequivalence for atazanavir between the test (Treatment B) and reference (Treatment A) formulations, a linear mixed-effects model was applied to the natural logarithms of atazanavir AUC(0-INF), with treatment, period, and sequence as fixed effects, and participant (sequence) as a random effect.||1.058|0.982|
82564937|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|1.148|1.34|||||Geometric mean ratio of AUC(INF) was calculated as Treatment B/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a light meal and the fasted state on the natural logarithms of exposure of cobicistat when given as an FDC||1.340|1.148|
82564938|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.976|||||TWO_SIDED|90.0|0.886|1.075|||||Geometric mean ratio of AUC(INF) was calculated as Treatment D/Treatment C|A linear mixed-effect model was applied to the natural logarithms of cobicistat AUC(INF) with treatment, period, and sequence as fixed effects and participant (sequence) as a random effect.||1.075|0.886|
82564939|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.116|||||TWO_SIDED|90.0|1.012|1.231|||||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment D|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and fasted on the natural logarithms of exposure of cobicistat when given as an FDC.||1.231|1.012|
82564940|NCT01837719|164839251|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.904|||||TWO_SIDED|90.0|0.836|0.978|||||Geometric mean ratio of AUC(INF) was calculated as Treatment E/Treatment B|A linear mixed-effect model with treatment as fixed effects and participant as a random effect will be used to estimate the effect of a high fat meal and light meal on the natural logarithms of exposure of atazanavir when given as an FDC||0.978|0.836|
82564941|NCT02995733|164839259|SUPERIORITY|Asthma exacerbation rates during follow-up between two randomized treatment arms are compared using the Andersen-Gill adaptation of time-to-event Cox proportional hazard model with robust standard errors to account for multiple occurrences of the outcome in each patient (Andersen Gill, 1982). This analysis is based on intention-to-treat (ITT) patient population.|Cox Proportional Hazard|0.85||||0.048|TWO_SIDED|95.0|0.72|0.999|||Cox proportional hazard model|Pre-specified baseline covariates are adjusted in the model. A time-dependent covariate for the COVID pandemic is also included in adjustments.||||0.999|0.720|0.048
82564942|NCT02995733|164839260|SUPERIORITY|Mixed model is used to compare the treatment effects. The response variable is ACT change at each monthly assessment from baseline. The covariates (included as fixed effects) include randomized treatment arm, continuous time of assessment as a linear and quadratic term and the interactions of the treatment arm with the time variables. Independent random effects include intercept and time variables. The model adjusts for all the baseline covariates included in the primary analysis.|Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
82564943|NCT02995733|164839261|SUPERIORITY|Mixed model is used to compare the treatment effects. The response variable is ASUI change at each monthly assessment from baseline. The covariates (included as fixed effects) include randomized treatment arm, continuous time of assessment as a linear and quadratic term and the interactions of the treatment arm with the time variables. Independent random effects include intercept and time variables. The model adjusts for all the baseline covariates included in the primary analysis.|Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|0.02|0.05||||||||0.05|0.02|
82564944|NCT02995733|164839262|SUPERIORITY|Negative binomial regression model is used, with time as an offset to account for differential duration of follow-up. The model adjusts for all the baseline covariates included in the primary analysis.|Rate ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95||||||||0.95|0.67|
82564945|NCT02720198|164839263|SUPERIORITY||Mean Difference (Final Values)|1.159|STANDARD_ERROR_OF_MEAN|1.834||0.53|TWO_SIDED|95.0|-2.518|4.836|||t-test, 2 sided|||||4.836|-2.518|0.53
82564946|NCT02720198|164839264|SUPERIORITY||Odds Ratio (OR)|0.492|STANDARD_ERROR_OF_MEAN|0.806||0.428|TWO_SIDED|95.0|0.101|2.388|||Mantel Haenszel|||||2.388|0.101|0.428
82564947|NCT02720198|164839265|SUPERIORITY||Odds Ratio (OR)|0.451|STANDARD_ERROR_OF_MEAN|0.724||0.272|TWO_SIDED|95.0|0.109|1.866|||Mantel Haenszel|||||1.866|0.109|0.272
82564948|NCT02720198|164839266|SUPERIORITY||Mean Difference (Final Values)|-0.624|STANDARD_ERROR_OF_MEAN|1.428||0.664|TWO_SIDED|95.0|-3.484|2.236|||t-test, 2 sided|||||2.236|-3.484|0.664
82564949|NCT02720198|164839267|SUPERIORITY||Mean Difference (Final Values)|2.34|STANDARD_ERROR_OF_MEAN|2.199||0.292|TWO_SIDED|95.0|-2.07|6.75|||t-test, 2 sided|||||6.750|-2.070|0.292
82564950|NCT02720198|164839268|SUPERIORITY||Odds Ratio (OR)|1.063|STANDARD_ERROR_OF_MEAN|0.525||0.884|TWO_SIDED|95.0|0.38|2.971|||Mantel Haenszel|||||2.971|0.380|0.884
82564951|NCT02720198|164839269|SUPERIORITY||Odds Ratio (OR)|0.875|STANDARD_ERROR_OF_MEAN|0.65||0.905|TWO_SIDED|95.0|0.245|3.129|||Mantel Haenszel|||||3.129|0.245|0.905
82564952|NCT02720198|164839270|SUPERIORITY||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.423||0.254|TWO_SIDED|95.0|-1.211|4.492|||t-test, 2 sided|||||4.492|-1.211|0.254
82626530|NCT03803202|164968208|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.41|2.53|||t-test, 2 sided|||Serotype 14, Day 30||2.53|0.41|
82626531|NCT03803202|164968208|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.45|2.6|||t-test, 2 sided|||Serotype 14, Day 30||2.60|0.45|
82626532|NCT03803202|164968208|OTHER||Ratio of GMC|2.09|||||TWO_SIDED|95.0|0.86|5.04|||t-test, 2 sided|||Serotype 14, Day 30||5.04|0.86|
82626533|NCT03803202|164968208|OTHER||Ratio of GMC|1.09|||||TWO_SIDED|95.0|0.57|2.07|||t-test, 2 sided|||Serotype 18C, Day 30||2.07|0.57|
82626534|NCT03803202|164968208|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.53|1.89|||t-test, 2 sided|||Serotype 18C, Day 30||1.89|0.53|
82626535|NCT03803202|164968208|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.56|2.07|||t-test, 2 sided|||Serotype 18C, Day 30||2.07|0.56|
82626536|NCT03803202|164968208|OTHER||Ratio of GMC|0.68|||||TWO_SIDED|95.0|0.4|1.14|||t-test, 2 sided|||Serotype 19A, Day 30||1.14|0.40|
82626537|NCT03803202|164968208|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.46|1.61|||t-test, 2 sided|||Serotype 19A, Day 30||1.61|0.46|
82626538|NCT03803202|164968208|OTHER||Ratio of GMC|0.87|||||TWO_SIDED|95.0|0.47|1.6|||t-test, 2 sided|||Serotype 19A, Day 30||1.60|0.47|
82626539|NCT03803202|164968208|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.49|2.01|||t-test, 2 sided|||Serotype 19F, Day 30||2.01|0.49|
82626540|NCT03803202|164968208|OTHER||Ratio of GMC|1.38|||||TWO_SIDED|95.0|0.75|2.53|||t-test, 2 sided|||Serotype 19F, Day 30||2.53|0.75|
82626541|NCT03803202|164968208|OTHER||Ratio of GMC|1.41|||||TWO_SIDED|95.0|0.68|2.96|||t-test, 2 sided|||Serotype 19F, Day 30||2.96|0.68|
82626542|NCT03803202|164968208|OTHER||Ratio of GMC|0.46|||||TWO_SIDED|95.0|0.2|1.07|||t-test, 2 sided|||Serotype 23F, Day 30||1.07|0.20|
82626543|NCT03803202|164968208|OTHER||Ratio of GMC|0.5|||||TWO_SIDED|95.0|0.22|1.11|||t-test, 2 sided|||Serotype 23F, Day 30||1.11|0.22|
82626544|NCT03803202|164968208|OTHER||Ratio of GMC|0.64|||||TWO_SIDED|95.0|0.29|1.44|||t-test, 2 sided|||Serotype 23F, Day 30||1.44|0.29|
82626545|NCT03803202|164968212|OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.56|1.14|||t-test, 2 sided|||Serotype 1, Day 1||1.14|0.56|
82626546|NCT03803202|164968212|OTHER||Ratio of GMT|1.39|||||TWO_SIDED|95.0|0.89|2.16|||t-test, 2 sided|||Serotype 1, Day 1||2.16|0.89|
82626547|NCT03803202|164968212|OTHER||Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.51|1.06|||t-test, 2 sided|||Serotype 1, Day 1||1.06|0.51|
82626548|NCT03803202|164968212|OTHER||Ratio of GMT|1.33|||||TWO_SIDED|95.0|0.85|2.09|||t-test, 2 sided|||Serotype 3, Day 1||2.09|0.85|
82626549|NCT03803202|164968212|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.91|2.3|||t-test, 2 sided|||Serotype 3, Day 1||2.30|0.91|
82626550|NCT03803202|164968212|OTHER||Ratio of GMT|0.95|||||TWO_SIDED|95.0|0.6|1.49|||t-test, 2 sided|||Serotype 3, Day 1||1.49|0.60|
82626551|NCT03803202|164968212|OTHER||Ratio of GMT|0.81|||||TWO_SIDED|95.0|0.46|1.4|||t-test, 2 sided|||Serotype 4, Day 1||1.40|0.46|
82626552|NCT03803202|164968212|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.62|1.91|||t-test, 2 sided|||Serotype 4, Day 1||1.91|0.62|
82626553|NCT03803202|164968212|OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.4|1.23|||t-test, 2 sided|||Serotype 4, Day 1||1.23|0.40|
82626554|NCT03803202|164968212|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.58|1.68|||t-test, 2 sided|||Serotype 5, Day 1||1.68|0.58|
82626555|NCT03803202|164968212|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.76|2.29|||t-test, 2 sided|||Serotype 5, Day 1||2.29|0.76|
82626556|NCT03803202|164968212|OTHER||Ratio of GMT|0.88|||||TWO_SIDED|95.0|0.51|1.53|||t-test, 2 sided|||Serotype 5, Day 1||1.53|0.51|
82626557|NCT03803202|164968212|OTHER||Ratio of GMT|0.96|||||TWO_SIDED|95.0|0.54|1.72|||t-test, 2 sided|||Serotype 6A, Day 1||1.72|0.54|
82626558|NCT03803202|164968212|OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.57|2.14|||t-test, 2 sided|||Serotype 6B, Day 1||2.14|0.57|
82626559|NCT03803202|164968212|OTHER||Ratio of GMT|1.63|||||TWO_SIDED|95.0|0.86|3.1|||t-test, 2 sided|||Serotype 6A, Day 1||3.10|0.86|
82626560|NCT03803202|164968212|OTHER||Ratio of GMT|1.61|||||TWO_SIDED|95.0|0.83|3.14|||t-test, 2 sided|||Serotype 6A, Day 1||3.14|0.83|
82626561|NCT03803202|164968212|OTHER||Ratio of GMT|1.15|||||TWO_SIDED|95.0|0.59|2.24|||t-test, 2 sided|||Serotype 6B, Day 1||2.24|0.59|
82626562|NCT03803202|164968212|OTHER||Ratio of GMT|1.18|||||TWO_SIDED|95.0|0.58|2.39|||t-test, 2 sided|||Serotype 6B, Day 1||2.39|0.58|
82626563|NCT03803202|164968212|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.4|1.8|||t-test, 2 sided|||Serotype 7F, Day 1||1.80|0.40|
82626564|NCT03803202|164968212|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.63|2.87|||t-test, 2 sided|||Serotype 7F, Day 1||2.87|0.63|
82626565|NCT03803202|164968212|OTHER||Ratio of GMT|1.03|||||TWO_SIDED|95.0|0.45|2.37|||t-test, 2 sided|||Serotype 7F, Day 1||2.37|0.45|
82626566|NCT03803202|164968212|OTHER||Ratio of GMT|0.65||||||95.0|0.32|1.32|||t-test, 2 sided|||Serotype 9V, Day 1||1.32|0.32|
82626567|NCT03803202|164968212|OTHER||Ratio of GMT|0.78|||||TWO_SIDED|95.0|0.37|1.64|||t-test, 2 sided|||Serotype 9V, Day 1||1.64|0.37|
82626568|NCT03803202|164968212|OTHER||Ratio of GMT|0.66|||||TWO_SIDED|95.0|0.3|1.49|||t-test, 2 sided|||Serotype 9V, Day 1||1.49|0.30|
82626569|NCT03803202|164968212|OTHER||Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.31|1.18|||t-test, 1 sided|||Serotype 14, Day 1||1.18|0.31|
82626570|NCT03803202|164968212|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.54|2.18|||t-test, 2 sided|||Serotype 14, Day 1||2.18|0.54|
82626571|NCT03803202|164968212|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.66|2.65|||t-test, 2 sided|||Serotype 14, Day 1||2.65|0.66|
82626572|NCT03803202|164968212|OTHER||Ratio of GMT|0.54|||||TWO_SIDED|95.0|0.3|0.95|||t-test, 2 sided|||Serotype 18C, Day 1||0.95|0.30|
82626573|NCT03803202|164968212|OTHER||Ratio of GMT|1.37|||||TWO_SIDED|95.0|0.73|2.57|||t-test, 2 sided|||Serotype 18C, Day 1||2.57|0.73|
82626574|NCT03803202|164968212|OTHER||Ratio of GMT|0.58|||||TWO_SIDED|95.0|0.32|1.04|||t-test, 2 sided|||Serotype 18C, Day 1||1.04|0.32|
82626575|NCT03803202|164968212|OTHER||Ratio of GMT|0.76|||||TWO_SIDED|95.0|0.44|1.32|||t-test, 2 sided|||Serotype 19A, Day 1||1.32|0.44|
82626576|NCT03803202|164968212|OTHER||Ratio of GMT|1.15|||||TWO_SIDED|95.0|0.66|2.01|||t-test, 2 sided|||Serotype 19A, Day 1||2.01|0.66|
82626577|NCT03803202|164968212|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.48|1.5|||t-test, 2 sided|||Serotype 19A, Day 1||1.50|0.48|
82626578|NCT03803202|164968212|OTHER||Ratio of GMT|0.79|||||TWO_SIDED|95.0|0.45|1.38|||t-test, 2 sided|||Serotype 19F, Day 1||1.38|0.45|
82377553|NCT00486525|164462480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.5||0.01|TWO_SIDED|95.0|1.5|11.6|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||11.6|1.5|0.01
82564953|NCT02720198|164839271|SUPERIORITY||Mean Difference (Final Values)|-3.693|STANDARD_ERROR_OF_MEAN|1.91||0.058|TWO_SIDED|95.0|-7.52|0.134|||t-test, 2 sided|||||0.134|-7.520|0.058
82564954|NCT02720198|164839272|SUPERIORITY||Mean Difference (Final Values)|-0.236|STANDARD_ERROR_OF_MEAN|2.158||0.913|TWO_SIDED|95.0|-4.559|4.088|||t-test, 2 sided|||||4.088|-4.559|0.913
82378357|NCT00535405|164465083|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.81|STANDARD_ERROR_OF_MEAN|0.43||0.023||95.0|1.14|2.87||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.87|1.14|0.023
82506541|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82564955|NCT02720198|164839273|SUPERIORITY||Mean Difference (Final Values)|-0.459|STANDARD_ERROR_OF_MEAN|1.035||0.66|TWO_SIDED|95.0|-2.54|1.623|||t-test, 2 sided|||||1.623|-2.540|0.660
82564956|NCT03897075|164839274|SUPERIORITY|||||||0.00311|||||||Cochran-Mantel-Haenszel|||||||0.00311
82564957|NCT03897075|164839275|SUPERIORITY|||||||0.00079|||||||Cochran-Mantel-Haenszel|||||||0.00079
82564958|NCT03897075|164839276|SUPERIORITY|||||||0.09892|||||||Cochran-Mantel-Haenszel|||||||0.09892
82506542|NCT01480076|164704568|SUPERIORITY_OR_OTHER|||||||0.0103|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0103
82506543|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506544|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506545|NCT01480076|164704568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506546|NCT01480076|164704568|SUPERIORITY_OR_OTHER|||||||0.1227|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline MSIS-29 psychological score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1227
82506547|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506548|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506549|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.1754|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1754
82506550|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0192|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0192
82506551|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506552|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506553|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
82506554|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0157|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0157
82506555|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506556|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
82564959|NCT00385697|164839289|SUPERIORITY||Odds Ratio (OR)|0.963||||0.904|TWO_SIDED|95.0|0.521|1.779|||Mantel Haenszel|||||1.779|0.521|0.904
82564960|NCT00385697|164839289|SUPERIORITY||Odds Ratio (OR)|0.629||||0.222|TWO_SIDED|95.0|0.297|1.33|||Mantel Haenszel|||||1.330|0.297|0.222
82506557|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.1012|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1012
82506558|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0749|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0749
82564961|NCT00385697|164839289|SUPERIORITY||Odds Ratio (OR)|1.054||||0.885|TWO_SIDED|95.0|0.521|2.129|||Mantel Haenszel|||||2.129|0.521|0.885
82564962|NCT00385697|164839291|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.814|TWO_SIDED|95.0|-0.45|0.572|||ANCOVA|||||0.572|-0.450|0.814
82564963|NCT00385697|164839291|SUPERIORITY||Mean Difference (Final Values)|0.161||||0.593|TWO_SIDED|95.0|-0.433|0.755|||ANCOVA|||||0.755|-0.433|0.593
82564964|NCT00385697|164839291|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.886|TWO_SIDED|95.0|-0.594|0.513|||ANCOVA|||||0.513|-0.594|0.886
82564965|NCT00385697|164839293|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.049|TWO_SIDED|95.0|0.0|0.093|||ANCOVA|||||0.093|0.000|0.049
82564966|NCT00385697|164839293|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.937|TWO_SIDED|95.0|-0.061|0.056|||ANCOVA|||||0.056|-0.061|0.937
82564967|NCT00385697|164839293|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.382|TWO_SIDED|95.0|-0.032|0.084|||ANCOVA|||||0.084|-0.032|0.382
82564968|NCT00385697|164839295|SUPERIORITY||Odds Ratio (OR)|0.881||||0.775|TWO_SIDED|95.0|0.372|2.089|||Mantel Haenszel|||||2.089|0.372|0.775
82564969|NCT00385697|164839295|SUPERIORITY||Odds Ratio (OR)|0.628||||0.402|TWO_SIDED|95.0|0.212|1.861|||Mantel Haenszel|||||1.861|0.212|0.402
82564970|NCT00385697|164839295|SUPERIORITY||Odds Ratio (OR)|1.093||||0.859|TWO_SIDED|95.0|0.41|2.912|||Mantel Haenszel|||||2.912|0.410|0.859
82564971|NCT00385697|164839297|SUPERIORITY||Odds Ratio (OR)|1.265||||0.404|TWO_SIDED|95.0|0.727|2.2|||Mantel Haenszel|||||2.200|0.727|0.404
82564972|NCT00385697|164839297|SUPERIORITY||Odds Ratio (OR)|0.805||||0.528|TWO_SIDED|95.0|0.412|1.576|||Mantel Haenszel|||||1.576|0.412|0.528
82564973|NCT00385697|164839297|SUPERIORITY||Odds Ratio (OR)|1.133||||0.706|TWO_SIDED|95.0|0.594|2.164|||Mantel Haenszel|||||2.164|0.594|0.706
82564974|NCT00385697|164839299|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.872|TWO_SIDED|95.0|-0.455|0.536|||ANCOVA|||||0.536|-0.455|0.872
82564975|NCT00385697|164839299|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.979|TWO_SIDED|95.0|-0.581|0.556|||ANCOVA|||||0.556|-0.581|0.979
82564976|NCT00385697|164839299|SUPERIORITY||Mean Difference (Final Values)|-0.225||||0.4|TWO_SIDED|95.0|-0.75|0.301|||ANCOVA|||||0.301|-0.750|0.400
82564977|NCT00442559|164839313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16||||0.015|TWO_SIDED|95.0|-0.29|-0.03|||t-test, 2 sided|||Change from BL to Week 12 - Montelukast. The difference in mean change from baseline to 12 weeks in daytime asthma symptom score was tested by paired t-test (H0: difference =0) for the Montelukast treatment group. Subjects in this analysis: N=24 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.03|-0.29|0.015
82564978|NCT00442559|164839313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16||||0.027|TWO_SIDED|95.0|-0.3|-0.02|||t-test, 2 sided|||Change from BL to Week 12 - ICS. The difference in mean change from baseline to 12 weeks in daytime asthma symptom score was tested by paired t-test (H0: difference =0) for the ICS treatment group. Subjects in this analysis: N=29 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.02|-0.3|0.027
82564979|NCT00442559|164839314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.006|TWO_SIDED|95.0|-0.36|-0.07|||t-test, 2 sided|||Change from BL to Week 12 - Montelukast. The difference in mean change from baseline to 12 weeks in daily allergic rhinitis symptom score was tested by paired t-test (H0: difference =0) for the Montelukast treatment group. Subjects in this analysis: N=24 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.07|-0.36|0.006
82564980|NCT00442559|164839314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12||||0.032|TWO_SIDED|95.0|-0.24|-0.01|||t-test, 2 sided|||Change from BL to Week 12 - ICS. The difference in mean change from baseline to 12 weeks in daily allergic rhinitis symptom score was tested by paired t-test (H0: difference =0) for the ICS treatment group. Subjects in this analysis: N=28 subjects for the within arm (single arm) comparison between BL and Week 12 scores.||-0.01|-0.24|0.032
82564981|NCT02267746|164839332|EQUIVALENCE|Estimates of mean percent change from baseline were calculated (separately for inflammatory and non-inflammatory lesions) for the Test and Reference treatment, and then the 90% confidence interval (CI) for the mean ratio was constructed using Fieller's method.|Mean Difference (Net)|0.93|||||TWO_SIDED|90.0|0.86|1.02|||||Therapeutic equivalence was established if the 90% CIs for the ratio of Test/Reference means, for both lesion types, were contained within the interval \[0.80, 1.25\] for the PP population.|||1.02|0.86|
82564982|NCT02267746|164839333|EQUIVALENCE|Estimates of mean percent change from baseline were calculated (separately for inflammatory and non-inflammatory lesions) for the Test and Reference treatment, and then the 90% confidence interval (CI) for the mean ratio was constructed using Fieller's method.|Mean Difference (Net)|0.96|||||TWO_SIDED|90.0|0.89|1.04|||||Therapeutic equivalence was established if the 90% CIs for the ratio of Test/Reference means, for both lesion types, were contained within the interval \[0.80, 1.25\] for the PP population.|||1.04|0.89|
82564983|NCT02267746|164839334|EQUIVALENCE|Therapeutic equivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\] for PP population.|Mean Difference (Net)|-0.073|||||TWO_SIDED|90.0|-0.15|0.004|||||Therapeutic equivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\] for the PP population.|Success was defined as an IGA score at Week 12 that was at least two grades less than the baseline assessment. Failure was defined as an IGA score that was the same, higher, or one grade lower than the baseline assessment.||0.004|-0.150|
82564984|NCT04799587|164839381|SUPERIORITY|Sample size for the study was determined by assuming a baseline rate of 33% of IONV and that there will be a relative decrease of 50% in the group that receives P6 acupressure during CD. A two-sided Fisher's Exact Test, with a significance level of 0.05, group sizes of 98 are needed to achieve 80% power to detect a difference between the group proportions of 0.18. Group sizes were rounded up to 100. Statistical analyses were two-sided, and a P\<0.05 was required to reject the null hypothesis.||||||0.94|||||||Chi-squared|||The incidence of nausea and vomiting and the number of episodes between the P6 acupressure and sham acupressure groups were compared using a chi-square statistic (nominal data) or the Wilcoxon test (continuous data).||||.94
82506559|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506560|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0455|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0455
82626579|NCT03803202|164968212|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.47|1.52|||t-test, 2 sided|||Serotype 19F, Day 1||1.52|0.47|
82626580|NCT03803202|164968212|OTHER||Ratio of GMT|0.62|||||TWO_SIDED|95.0|0.34|1.12|||t-test, 2 sided|||Serotype 19F, Day 1||1.12|0.34|
82626581|NCT03803202|164968212|OTHER||Ratio of GMT|1.11|||||TWO_SIDED|95.0|0.64|1.94|||t-test, 2 sided|||Serotype 23F, Day 1||1.94|0.64|
82506561|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.4699|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4699
82506562|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.0235|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0235
82506563|NCT01480076|164704569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506564|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.1978|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1978
82506565|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.1977|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1977
82506566|NCT01480076|164704569|SUPERIORITY_OR_OTHER|||||||0.225|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the total ALS score, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2250
82506567|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506568|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506569|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506570|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.0649|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0649
82506571|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506572|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82626582|NCT03803202|164968212|OTHER||Ratio of GMT|1.37|||||TWO_SIDED|95.0|0.77|2.42|||t-test, 2 sided|||Serotype 23F, Day 1||2.42|0.77|
82626583|NCT03803202|164968212|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.66|2.14|||t-test, 2 sided|||Serotype 23F, Day 1||2.14|0.66|
82626584|NCT03803202|164968212|OTHER||Ratio of GMT|0.83|||||TWO_SIDED|95.0|0.47|1.47|||t-test, 2 sided|||Serotype 1, Day 30||1.47|0.47|
82626585|NCT03803202|164968212|OTHER||Ratio of GMT|0.87|||||TWO_SIDED|95.0|0.5|1.53|||t-test, 2 sided|||Serotype 1, Day 30||1.53|0.50|
82626586|NCT03803202|164968212|OTHER||Ratio of GMT|1.28|||||TWO_SIDED|95.0|0.74|2.2|||t-test, 2 sided|||Serotype 1, Day 30||2.20|0.74|
82626587|NCT03803202|164968212|OTHER||Ratio of GMT|25.03|||||TWO_SIDED|95.0|16.33|38.34|||t-test, 2 sided|||Serotype 2, Day 30||38.34|16.33|
82626588|NCT03803202|164968212|OTHER||Ratio of GMT|21.99|||||TWO_SIDED|95.0|14.31|33.77|||t-test, 2 sided|||Serotype 2, Day 30||33.77|14.31|
82564985|NCT04799587|164839382|SUPERIORITY|||||||0.95|||||||Chi-squared|||The sample size for the study was determined by assuming a baseline rate of 33% of intraoperative nausea and vomiting and that there will be a relative decrease of 50% in the group that receives P6 acupressure during CD.20 Using a two-sided Fisher's Exact Test, with a significance level of 0.05, group sizes of 98 are needed to achieve 80% power to detect a difference between the group proportions of 0.18. Group sizes were rounded up to 100||||.95
82564986|NCT01075815|164839471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0235||||0.8762|TWO_SIDED|95.0|-0.1546|0.1568|||Wilcoxon two sample test|||||0.1568|-0.1546|0.8762
82564987|NCT01075815|164839472|SUPERIORITY_OR_OTHER|||||||0.3589||95.0|||||ANOVA|||||||0.3589
82564988|NCT01075815|164839473|SUPERIORITY_OR_OTHER|||||||0.0629||95.0|||||Wilcoxon two sample test|||||||0.0629
82564989|NCT01075815|164839474|SUPERIORITY_OR_OTHER|||||||0.4728||95.0|||||ANOVA|||||||0.4728
82564990|NCT01075815|164839475|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Fisher Exact|||||||0.0950
82564991|NCT01075815|164839477|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9625||||0.9179|TWO_SIDED|95.0|0.4655|1.99|||Chi-squared|||||1.9900|0.4655|0.9179
82564992|NCT01075815|164839478|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.875||||0.7271|TWO_SIDED|95.0|0.4133|1.8524|||Chi-squared|||||1.8524|0.4133|0.7271
82564993|NCT01075815|164839479|SUPERIORITY_OR_OTHER|||||||0.3267||95.0|||||Wilcoxon two sample test|||||||0.3267
82564994|NCT01075815|164839480|SUPERIORITY_OR_OTHER|||||||0.4164||95.0|||||Wilcoxon two sample test|||||||0.4164
82564995|NCT01075815|164839481|SUPERIORITY_OR_OTHER|||||||0.5952||95.0|||||Wilcoxon two sample test|||||||0.5952
82564996|NCT01075815|164839483|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9444||||0.8852|TWO_SIDED|95.0|0.4347|2.0518|||Chi-squared|||||2.0518|0.4347|0.8852
82564997|NCT01292005|164839496|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.62
82564998|NCT01292005|164839496|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||1.0
82564999|NCT01292005|164839497|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.72
82565000|NCT01292005|164839497|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.50
82565001|NCT01292005|164839498|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.58
82565002|NCT01292005|164839498|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.80
82565003|NCT01292005|164839499|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 1. p\<0.05 was considered statistically significant.||||0.90
82565004|NCT01292005|164839499|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon (Mann-Whitney)|||Change from Day 0 to Day 3. p\<0.05 was considered statistically significant.||||0.56
82565005|NCT01292005|164839500|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||p\<0.05 was considered statistically significant.||||0.09
82565006|NCT01292005|164839501|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||p\<0.05 was considered statistically significant.||||0.22
82565007|NCT01292005|164839502|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Comparison between arms for length of hospitalization \> 4 days. P \< 0.05 was considered statistically significant.||||0.04
82565008|NCT01292005|164839502|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||Comparison was for length of hospitalization \>10 days. P \< 0.05 was considered statistically significant.||||0.03
82565009|NCT01292005|164839503|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||P \< 0.05 was considered statistically significant.||||0.06
82565010|NCT01292005|164839504|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||P \< 0.05 was considered statistically significant.||||0.03
82565011|NCT01292005|164839505|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||P \< 0.05 was considered statistically significant.||||0.04
82565012|NCT00914732|164839533|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.74|||||TWO_SIDED|97.5|-1.23|-0.25||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable||-0.25|-1.23|
82626589|NCT03803202|164968212|OTHER||Ratio of GMT|35.38|||||TWO_SIDED|95.0|23.09|54.22|||t-test, 2 sided|||Serotype 2, Day 30||54.22|23.09|
82626590|NCT03803202|164968212|OTHER||Ratio of GMT|1.81|||||TWO_SIDED|95.0|1.25|2.62|||t-test, 2 sided|||Serotype 3, Day 30||2.62|1.25|
82626591|NCT03803202|164968212|OTHER||Ratio of GMT|2.55|||||TWO_SIDED|95.0|1.83|3.56|||t-test, 2 sided|||Serotype 3, Day 30||3.56|1.83|
82626592|NCT03803202|164968212|OTHER||Ratio of GMT|3.14|||||TWO_SIDED|95.0|2.2|4.48|||t-test, 2 sided|||Serotype 3, Day 30||4.48|2.20|
82626593|NCT03803202|164968212|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.59|1.62|||t-test, 2 sided|||Serotype 4, Day 30||1.62|0.59|
82626594|NCT03803202|164968212|OTHER||Ratio of GMT|0.94|||||TWO_SIDED|95.0|0.59|1.51|||t-test, 2 sided|||Serotype 4, Day 30||1.51|0.59|
82626595|NCT03803202|164968212|OTHER||Ratio of GMT|1.23|||||TWO_SIDED|95.0|0.76|1.99|||t-test, 2 sided|||Serotype 4, Day 30||1.99|0.76|
82626596|NCT03803202|164968212|OTHER||Ratio of GMT|1.25|||||TWO_SIDED|95.0|0.71|2.21|||t-test, 2 sided|||Serotype 5, Day 30||2.21|0.71|
82626597|NCT03803202|164968212|OTHER||Ratio of GMT|1.45|||||TWO_SIDED|95.0|0.85|2.46|||t-test, 2 sided|||Serotype 5, Day 30||2.46|0.85|
82626598|NCT03803202|164968212|OTHER||Ratio of GMT|2.15|||||TWO_SIDED|95.0|1.25|3.72|||t-test, 2 sided|||Serotype 5, Day 30||3.72|1.25|
82626599|NCT03803202|164968212|OTHER||Ratio of GMT|0.94|||||TWO_SIDED|95.0|0.59|1.51|||t-test, 2 sided|||Serotype 6B, Day 30||1.51|0.59|
82626600|NCT03803202|164968212|OTHER||Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.56|1.29|||t-test, 2 sided|||Serotype 6B, Day 30||1.29|0.56|
82626601|NCT03803202|164968212|OTHER||Ratio of GMT|0.84|||||TWO_SIDED|95.0|0.54|1.3|||t-test, 2 sided|||Serotype 6B, Day 30||1.30|0.54|
82626602|NCT03803202|164968212|OTHER||Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.61|1.18|||t-test, 2 sided|||Serotype 7F, Day 30||1.18|0.61|
82626603|NCT03803202|164968212|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.65|1.21|||t-test, 2 sided|||Serotype 7F, Day 30||1.21|0.65|
82626604|NCT03803202|164968212|OTHER||Ratio of GMT|1.05|||||TWO_SIDED|95.0|0.73|1.5|||t-test, 2 sided|||Serotype 7F, Day 30||1.50|0.73|
82626605|NCT03803202|164968212|OTHER||Ratio of GMT|19.46|||||TWO_SIDED|95.0|12.26|30.87|||t-test, 2 sided|||Serotype 8, Day 30||30.87|12.26|
82626606|NCT03803202|164968212|OTHER||Ratio of GMT|19.65|||||TWO_SIDED|95.0|12.07|32.0|||t-test, 2 sided|||Serotype 8, Day 30||32.00|12.07|
82626607|NCT03803202|164968212|OTHER||Ratio of GMT|41.87|||||TWO_SIDED|95.0|26.2|66.9|||t-test, 2 sided|||Serotype 8, Day 30||66.90|26.20|
82626608|NCT03803202|164968212|OTHER||Ratio of GMT|4.75|||||TWO_SIDED|95.0|3.06|7.36|||t-test, 2 sided|||Serotype 9N, Day 30||7.36|3.06|
82626609|NCT03803202|164968212|OTHER||Ratio of GMT|5.66|||||TWO_SIDED|95.0|3.83|8.37|||t-test, 2 sided|||Serotype 9N, Day 30||8.37|3.83|
82626610|NCT03803202|164968212|OTHER||Ratio of GMT|7.84|||||TWO_SIDED|95.0|5.19|11.82|||t-test, 2 sided|||Serotype 9N, Day 30||11.82|5.19|
82626611|NCT03803202|164968212|OTHER||Ratio of GMT|0.83|||||TWO_SIDED|95.0|0.49|1.42|||t-test, 2 sided|||Serotype 9V, Day 30||1.42|0.49|
82626612|NCT03803202|164968212|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.44|1.14|||t-test, 2 sided|||Serotype 9V, Day 30||1.14|0.44|
82626613|NCT03803202|164968212|OTHER||Ratio of GMT|1.21|||||TWO_SIDED|95.0|0.76|1.95|||t-test, 2 sided|||Serotype 9V, Day 30||1.95|0.76|
82626614|NCT03803202|164968212|OTHER||Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.39|1.21|||t-test, 2 sided|||Serotype 6A, Day 30||1.21|0.39|
82626615|NCT03803202|164968212|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.54|1.5|||t-test, 2 sided|||Serotype 6A, Day 30||1.50|0.54|
82626616|NCT03803202|164968212|OTHER||Ratio of GMT|0.93|||||TWO_SIDED|95.0|0.53|1.64|||t-test, 2 sided|||Serotype 6A, Day 30||1.64|0.53|
82626617|NCT03803202|164968212|OTHER||Ratio of GMT|1.33|||||TWO_SIDED|95.0|0.84|2.11|||t-test, 2 sided|||Serotype 14, Day 30||2.11|0.84|
82626618|NCT03803202|164968212|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.55|1.43|||t-test, 2 sided|||Serotype 14, Day 30||1.43|0.55|
82626619|NCT03803202|164968212|OTHER||Ratio of GMT|1.54|||||TWO_SIDED|95.0|0.95|2.5|||t-test, 2 sided|||Serotype 14, Day 30||2.50|0.95|
82626620|NCT03803202|164968212|OTHER||Ratio of GMT|0.89|||||TWO_SIDED|95.0|0.55|1.44|||t-test, 2 sided|||Serotype 18C, Day 30||1.44|0.55|
82626621|NCT03803202|164968212|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.63|1.54|||t-test, 2 sided|||Serotype 18C, Day 30||1.54|0.63|
82626622|NCT03803202|164968212|OTHER||Ratio of GMT|1.32|||||TWO_SIDED|95.0|0.82|2.12|||t-test, 2 sided|||Serotype 18C, Day 30||2.12|0.82|
82626623|NCT03803202|164968212|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.7|1.37|||t-test, 2 sided|||Serotype 19A, Day 30||1.37|0.70|
82626624|NCT03803202|164968212|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.71|1.37|||t-test, 2 sided|||Serotype 19A, Day 30||1.37|0.71|
82626625|NCT03803202|164968212|OTHER||Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.78|1.67|||t-test, 2 sided|||Serotype 19A, Day 30||1.67|0.78|
82626626|NCT03803202|164968212|OTHER||Ratio of GMT|1.52||||||95.0|0.99|2.32|||t-test, 2 sided|||Serotype 19F, Day 30||2.32|0.99|
82626627|NCT03803202|164968212|OTHER||Ratio of GMT|1.48|||||TWO_SIDED|95.0|1.0|2.18|||t-test, 2 sided|||Serotype 19F, Day 30||2.18|1.00|
82626628|NCT03803202|164968212|OTHER||Ratio of GMT|2.08|||||TWO_SIDED|95.0|1.35|3.22|||t-test, 2 sided|||Serotype 19F, Day 30||3.22|1.35|
82626629|NCT03803202|164968212|OTHER||Ratio of GMT|0.67|||||TWO_SIDED|95.0|0.36|1.26|||t-test, 2 sided|||Serotype 23F, Day 30||1.26|0.36|
82626630|NCT03803202|164968212|OTHER||Ratio of GMT|0.71|||||TWO_SIDED|95.0|0.4|1.26|||t-test, 2 sided|||Serotype 23F, Day 30||1.26|0.40|
82626631|NCT03803202|164968212|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.47|1.73|||t-test, 2 sided|||Serotype 23F, Day 30||1.73|0.47|
82626632|NCT03803202|164968213|OTHER||Ratio of GMC|0.9|||||TWO_SIDED|95.0|0.57|1.42|||t-test, 2 sided|||Serotype 1, Day 1||1.42|0.57|
82626633|NCT03803202|164968213|OTHER||Ratio of GMC|1.85|||||TWO_SIDED|95.0|1.12|3.08|||t-test, 2 sided|||Serotype 1, Day 1||3.08|1.12|
82626634|NCT03803202|164968213|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.53|1.49|||t-test, 2 sided|||Serotype 1, Day 1||1.49|0.53|
82626635|NCT03803202|164968213|OTHER||Ratio of GMC|1.25|||||TWO_SIDED|95.0|0.84|1.87|||t-test, 2 sided|||Serotype 3, Day 1||1.87|0.84|
82626636|NCT03803202|164968213|OTHER||Ratio of GMC|1.79|||||TWO_SIDED|95.0|1.18|2.73|||t-test, 2 sided|||Serotype 3, Day 1||2.73|1.18|
82626637|NCT03803202|164968213|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.69|1.69|||t-test, 2 sided|||Serotype 3, Day 1||1.69|0.69|
82626638|NCT03803202|164968213|OTHER||Ratio of GMC|0.81|||||TWO_SIDED|95.0|0.54|1.21|||t-test, 2 sided|||Serotype 4, Day 1||1.21|0.54|
82626639|NCT03803202|164968213|OTHER||Ratio of GMC|1.16|||||TWO_SIDED|95.0|0.74|1.81|||t-test, 2 sided|||Serotype 4, Day 1||1.81|0.74|
82626640|NCT03803202|164968213|OTHER||Ratio of GMC|0.67|||||TWO_SIDED|95.0|0.44|1.0|||t-test, 2 sided|||Serotype 4, Day 1||1.00|0.44|
82626641|NCT03803202|164968213|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.65|1.78|||t-test, 2 sided|||Serotype 5, Day 1||1.78|0.65|
82626642|NCT03803202|164968213|OTHER||Ratio of GMC|1.59|||||TWO_SIDED|95.0|0.96|2.63|||t-test, 2 sided|||Serotype 5, Day 1||2.63|0.96|
82626643|NCT03803202|164968213|OTHER||Ratio of GMC|1.0|||||TWO_SIDED|95.0|0.58|1.72|||t-test, 2 sided|||Serotype 5, Day 1||1.72|0.58|
82626644|NCT03803202|164968213|OTHER||Ratio of GMC|0.88|||||TWO_SIDED|95.0|0.53|1.47|||t-test, 2 sided|||Serotype 6A, Day 1||1.47|0.53|
82626645|NCT03803202|164968213|OTHER||Ratio of GMC|1.39|||||TWO_SIDED|95.0|0.83|2.3|||t-test, 2 sided|||Serotype 6A, Day 1||2.30|0.83|
82626646|NCT03803202|164968213|OTHER||Ratio of GMC|1.4|||||TWO_SIDED|95.0|0.8|2.44|||t-test, 2 sided|||Serotype 6A, Day 1||2.44|0.80|
82626647|NCT03803202|164968213|OTHER||Ratio of GMC|1.17|||||TWO_SIDED|95.0|0.69|1.99|||t-test, 2 sided|||Serotype 6B, Day 1||1.99|0.69|
82626648|NCT03803202|164968213|OTHER||Ratio of GMC|2.09|||||TWO_SIDED|95.0|1.19|3.67|||t-test, 2 sided|||Serotype 6B, Day 1||3.67|1.19|
82626649|NCT03803202|164968213|OTHER||Ratio of GMC|1.59|||||TWO_SIDED|95.0|0.88|2.88|||t-test, 2 sided|||Serotype 6B, Day 1||2.88|0.88|
82626650|NCT03803202|164968213|OTHER||Ratio of GMC|1.01|||||TWO_SIDED|95.0|0.62|1.65|||t-test, 2 sided|||Serotype 7F, Day 1||1.65|0.62|
82626651|NCT03803202|164968213|OTHER||Ratio of GMC|1.58|||||TWO_SIDED|95.0|0.94|2.67|||t-test, 2 sided|||Serotype 7F, Day 1||2.67|0.94|
82565013|NCT00914732|164839534|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.83|||||TWO_SIDED|97.5|-1.32|-0.33||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable||-0.33|-1.32|
82565014|NCT00914732|164839535|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|97.5|-0.43|0.52||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.52|-0.43|
82565015|NCT00914732|164839536|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.27|||||TWO_SIDED|97.5|-0.77|0.23||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.23|-0.77|
82565016|NCT00914732|164839539|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.34|||||TWO_SIDED|97.5|-0.3|0.71||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.71|-0.3|
82565017|NCT00914732|164839540|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation subcutaneously (Liquid SC Group) and IMVAMUNE® (2x10\^7 TCID50) formulation intradermally (Liquid ID) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Liquid ID was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|0.02|||||TWO_SIDED|97.5|-0.31|0.35||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.35|-0.31|
82565018|NCT00914732|164839541|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x10\^8 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x10\^8 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Liquid SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.35|||||TWO_SIDED|97.5|-0.74|0.04||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||0.04|-0.74|
82626652|NCT03803202|164968213|OTHER||Ratio of GMC|0.9|||||TWO_SIDED|95.0|0.5|1.64|||t-test, 2 sided|||Serotype 7F, Day 1||1.64|0.50|
82626653|NCT03803202|164968213|OTHER||Ratio of GMC|0.79|||||TWO_SIDED|95.0|0.52|1.21|||t-test, 2 sided|||Serotype 9V, Day 1||1.21|0.52|
82626654|NCT03803202|164968213|OTHER||Ratio of GMC|1.57|||||TWO_SIDED|95.0|0.97|2.54|||t-test, 2 sided|||Serotype 9V, Day 1||2.54|0.97|
82626655|NCT03803202|164968213|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.6|1.6|||t-test, 2 sided|||Serotype 9V, Day 1||1.60|0.60|
82626656|NCT03803202|164968213|OTHER||Ratio of GMC|0.73|||||TWO_SIDED|95.0|0.4|1.33|||t-test, 2 sided|||Serotype 14, Day 1||1.33|0.40|
82626657|NCT03803202|164968213|OTHER||Ratio of GMC|1.33|||||TWO_SIDED|95.0|0.73|2.44|||t-test, 2 sided|||Serotype 14, Day 1||2.44|0.73|
82626658|NCT03803202|164968213|OTHER||Ratio of GMC|0.87|||||TWO_SIDED|95.0|0.46|1.63|||t-test, 2 sided|||Serotype 14, Day 1||1.63|0.46|
82626659|NCT03803202|164968213|OTHER||Ratio of GMC|0.69|||||TWO_SIDED|95.0|0.42|1.12|||t-test, 2 sided|||Serotype 18C, Day 1||1.12|0.42|
82626660|NCT03803202|164968213|OTHER||Ratio of GMC|1.53|||||TWO_SIDED|95.0|0.92|2.55|||t-test, 2 sided|||Serotype 18C, Day 1||2.55|0.92|
82626661|NCT03803202|164968213|OTHER||Ratio of GMC|0.78|||||TWO_SIDED|95.0|0.44|1.37|||t-test, 2 sided|||Serotype 18C, Day 1||1.37|0.44|
82626662|NCT03803202|164968213|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.54|1.25|||t-test, 2 sided|||Serotype 19A, Day 1||1.25|0.54|
82626663|NCT03803202|164968213|OTHER||Ratio of GMC|1.34|||||TWO_SIDED|95.0|0.84|2.12|||t-test, 2 sided|||Serotype 19A, Day 1||2.12|0.84|
82626664|NCT03803202|164968213|OTHER||Ratio of GMC|1.05|||||TWO_SIDED|95.0|0.66|1.66|||t-test, 2 sided|||Serotype 19A, Day 1||1.66|0.66|
82626665|NCT03803202|164968213|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.51|1.37|||t-test, 2 sided|||Serotype 19F, Day 1||1.37|0.51|
82626666|NCT03803202|164968213|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.75|2.11|||t-test, 2 sided|||Serotype 19F, Day 1||2.11|0.75|
82626667|NCT03803202|164968213|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.57|1.72|||t-test, 2 sided|||Serotype 19F, Day 1||1.72|0.57|
82626668|NCT03803202|164968213|OTHER||Ratio of GMC|1.08|||||TWO_SIDED|95.0|0.63|1.86|||t-test, 2 sided|||Serotype 23F, Day 1||1.86|0.63|
82626669|NCT03803202|164968213|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.69|2.08|||t-test, 2 sided|||Serotype 23F, Day 1||2.08|0.69|
82626670|NCT03803202|164968213|OTHER||Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.67|2.14|||t-test, 2 sided|||Serotype 23F, Day 1||2.14|0.67|
82626671|NCT03803202|164968213|OTHER||Ratio of GMC|0.82|||||TWO_SIDED|95.0|0.52|1.29|||t-test, 2 sided|||Serotype 1, Day 30||1.29|0.52|
82626672|NCT03803202|164968213|OTHER||Ratio of GMC|1.04|||||TWO_SIDED|95.0|0.68|1.59|||t-test, 2 sided|||Serotype 1, Day 30||1.59|0.68|
82626673|NCT03803202|164968213|OTHER||Ratio of GMC|1.17|||||TWO_SIDED|95.0|0.76|1.8|||t-test, 2 sided|||Serotype 1, Day 30||1.80|0.76|
82626674|NCT03803202|164968213|OTHER||Ratio of GMC|2.07|||||TWO_SIDED|95.0|1.42|3.01|||t-test, 2 sided|||Serotype 3, Day 30||3.01|1.42|
82626675|NCT03803202|164968213|OTHER||Ratio of GMC|3.29|||||TWO_SIDED|95.0|2.37|4.58|||t-test, 2 sided|||Serotype 3, Day 30||4.58|2.37|
82626676|NCT03803202|164968213|OTHER||Ratio of GMC|4.05|||||TWO_SIDED|95.0|2.83|5.79|||t-test, 2 sided|||Serotype 3, Day 30||5.79|2.83|
82626677|NCT03803202|164968213|OTHER||Ratio of GMC|0.79|||||TWO_SIDED|95.0|0.49|1.27|||t-test, 2 sided|||Serotype 4, Day 30||1.27|0.49|
82626678|NCT03803202|164968213|OTHER||Ratio of GMC|0.97|||||TWO_SIDED|95.0|0.63|1.48|||t-test, 2 sided|||Serotype 4, Day 30||1.48|0.63|
82626679|NCT03803202|164968213|OTHER||Ratio of GMC|1.05|||||TWO_SIDED|95.0|0.66|1.65|||t-test, 2 sided|||Serotype 4, Day 30||1.65|0.66|
82626680|NCT03803202|164968213|OTHER||Ratio of GMC|1.31|||||TWO_SIDED|95.0|0.75|2.29|||t-test, 2 sided|||Serotype 5, Day 30||2.29|0.75|
82626681|NCT03803202|164968213|OTHER||Ratio of GMC|1.3|||||TWO_SIDED|95.0|0.77|2.19|||t-test, 2 sided|||Serotype 5, Day 30||2.19|0.77|
82626682|NCT03803202|164968213|OTHER||Ratio of GMC|1.91|||||TWO_SIDED|95.0|1.08|3.37|||t-test, 2 sided|||Serotype 5, Day 30||3.37|1.08|
82626683|NCT03803202|164968213|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.5|1.49|||t-test, 2 sided|||Serotype 6A, Day 30||1.49|0.50|
82626684|NCT03803202|164968213|OTHER||Ratio of GMC|1.06|||||TWO_SIDED|95.0|0.65|1.72|||t-test, 2 sided|||Serotype 6A, Day 30||1.72|0.65|
82626685|NCT03803202|164968213|OTHER||Ratio of GMC|1.22|||||TWO_SIDED|95.0|0.71|2.1|||t-test, 2 sided|||Serotype 6A, Day 30||2.10|0.71|
82626686|NCT03803202|164968213|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.56|1.75|||t-test, 2 sided|||Serotype 6B, Day 30||1.75|0.56|
82626687|NCT03803202|164968213|OTHER||Ratio of GMC|1.44|||||TWO_SIDED|95.0|0.84|2.47|||t-test, 2 sided|||Serotype 6B, Day 30||2.47|0.84|
82626688|NCT03803202|164968213|OTHER||Ratio of GMC|1.77|||||TWO_SIDED|95.0|1.0|3.15|||t-test, 2 sided|||Serotype 6B, Day 30||3.15|1.00|
82626689|NCT03803202|164968213|OTHER||Ratio of GMC|1.54|||||TWO_SIDED|95.0|1.02|2.3|||t-test, 2 sided|||Serotype 7F, Day 30||2.30|1.02|
82626690|NCT03803202|164968213|OTHER||Ratio of GMC|1.55|||||TWO_SIDED|95.0|1.06|2.26|||t-test, 2 sided|||Serotype 7F, Day 30||2.26|1.06|
82626691|NCT03803202|164968213|OTHER||Ratio of GMC|1.66|||||TWO_SIDED|95.0|1.09|2.53|||t-test, 2 sided|||Serotype 7F, Day 30||2.53|1.09|
82626692|NCT03803202|164968213|OTHER||Ratio of GMC|1.29|||||TWO_SIDED|95.0|0.81|2.07|||t-test, 2 sided|||Serotype 9V, Day 30||2.07|0.81|
82626693|NCT03803202|164968213|OTHER||Ratio of GMC|1.64|||||TWO_SIDED|95.0|1.04|2.57|||t-test, 2 sided|||Serotype 9V, Day 30||2.57|1.04|
82626694|NCT03803202|164968213|OTHER||Ratio of GMC|2.16|||||TWO_SIDED|95.0|1.35|3.47|||t-test, 2 sided|||Serotype 9V, Day 30||3.47|1.35|
82626695|NCT03803202|164968213|OTHER||Ratio of GMC|0.99|||||TWO_SIDED|95.0|0.58|1.68|||t-test, 2 sided|||Serotype 14, Day 30||1.68|0.58|
82626696|NCT03803202|164968213|OTHER||Ratio of GMC|1.26|||||TWO_SIDED|95.0|0.77|2.05|||t-test, 2 sided|||Serotype 14, Day 30||2.05|0.77|
82626697|NCT03803202|164968213|OTHER||Ratio of GMC|1.67|||||TWO_SIDED|95.0|0.99|2.81|||t-test, 2 sided|||Serotype 14, Day 30||2.81|0.99|
82626698|NCT03803202|164968213|OTHER||Ratio of GMC|0.61|||||TWO_SIDED|95.0|0.39|0.95|||t-test, 2 sided|||Serotype 18C, Day 30||0.95|0.39|
82626699|NCT03803202|164968213|OTHER||Ratio of GMC|1.04|||||TWO_SIDED|95.0|0.7|1.54|||t-test, 2 sided|||Serotype 18C, Day 30||1.54|0.70|
82626700|NCT03803202|164968213|OTHER||Ratio of GMC|1.03|||||TWO_SIDED|95.0|0.67|1.57|||t-test, 2 sided|||Serotype 18C, Day 30||1.57|0.67|
82626701|NCT03803202|164968213|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.56|1.25|||t-test, 2 sided|||Serotype 19A, Day 30||1.25|0.56|
82626702|NCT03803202|164968213|OTHER||Ratio of GMC|1.07|||||TWO_SIDED|95.0|0.75|1.52|||t-test, 2 sided|||Serotype 19A, Day 30||1.52|0.75|
82626703|NCT03803202|164968213|OTHER||Ratio of GMC|1.2|||||TWO_SIDED|95.0|0.77|1.86|||t-test, 2 sided|||Serotype 19A, Day 30||1.86|0.77|
82626704|NCT03803202|164968213|OTHER||Ratio of GMC|1.2|||||TWO_SIDED|95.0|0.76|1.9|||t-test, 2 sided|||Serotype 19F, Day 30||1.90|0.76|
82626705|NCT03803202|164968213|OTHER||Ratio of GMC|1.69|||||TWO_SIDED|95.0|1.11|2.58|||t-test, 2 sided|||Serotype 19F, Day 30||2.58|1.11|
82626706|NCT03803202|164968213|OTHER||Ratio of GMC|2.23|||||TWO_SIDED|95.0|1.41|3.52|||t-test, 2 sided|||Serotype 19F, Day 30||3.52|1.41|
82626707|NCT03803202|164968213|OTHER||Ratio of GMC|0.86|||||TWO_SIDED|95.0|0.5|1.47|||t-test, 2 sided|||Serotype 23F, Day 30||1.47|0.50|
82626708|NCT03803202|164968213|OTHER||Ratio of GMC|0.83|||||TWO_SIDED|95.0|0.51|1.35|||t-test, 2 sided|||Serotype 23F, Day 30||1.35|0.51|
82626709|NCT03803202|164968213|OTHER||Ratio of GMC|1.18|||||TWO_SIDED|95.0|0.69|2.02|||t-test, 2 sided|||Serotype 23F, Day 30||2.02|0.69|
82506573|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506574|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.1138|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1138
82506575|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506576|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506577|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.0003|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0003
82506578|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.185|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1850
82506579|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506580|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506581|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506582|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.0887|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0887
82506583|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506584|NCT01480076|164704570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506585|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.0011|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0011
82626710|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.805|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Serotype 1, Day 30||0.5|-0.4|0.805
82626711|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.102|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 1, Day 30||0.9|-0.1|0.102
82506586|NCT01480076|164704570|SUPERIORITY_OR_OTHER|||||||0.1853|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1853
82506587|NCT01480076|164704571|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82626712|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.158|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 1, Day 30||0.9|-0.1|0.158
82626713|NCT03803202|164968216|OTHER||Mean Difference|-0.1||||0.596|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Serotype 2, Day 30||0.2|-0.4|0.596
82626714|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.025|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.0|0.025
82378358|NCT00535405|164465084|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|4.47|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|2.76|7.24||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||7.24|2.76|<0.001
82626715|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.005|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.1|0.005
82626716|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.037|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 3, Day 30||0.7|0.0|0.037
82626717|NCT03803202|164968216|OTHER||Mean Difference|0.6||||0.002|TWO_SIDED|95.0|0.2|0.9|||ANCOVA|||Serotype 3, Day 30||0.9|0.2|0.002
82626718|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.23|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 3, Day 30||0.6|-0.1|0.230
82626719|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.984|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 4, Day 30||0.4|-0.4|0.984
82626720|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.262|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.262
82626721|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.264|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.264
82626722|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.638|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 5, Day 30||0.6|-0.4|0.638
82626723|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.036|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 5, Day 30||1.0|0.0|0.036
82626724|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.094|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.094
82626725|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.266|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 6A, Day 30||0.8|-0.2|0.266
82626726|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.25|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 6A, Day 30||0.8|-0.2|0.250
82626727|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.927|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Serotype 6A, Day 30||0.5|-0.5|0.927
82626728|NCT03803202|164968216|OTHER||Mean Difference|-0.1||||0.679|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Serotype 6B, Day 30||0.3|-0.5|0.679
82626729|NCT03803202|164968216|OTHER||Mean Difference|-0.1||||0.589|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 6B, Day 30||0.3|-0.6|0.589
82626730|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.88|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 6B, Day 30||0.4|-0.5|0.880
82626731|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.623|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.2|0.623
82626732|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.232|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 7F, Day 30||0.6|-0.1|0.232
82626733|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.451|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 7F, Day 30||0.5|-0.2|0.451
82626734|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.785|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 8, Day 30||0.4|-0.3|0.785
82626735|NCT03803202|164968216|OTHER||Mean Difference|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.1|||ANCOVA|||Serotype 8, Day 30||1.1|0.4|<.001
82626736|NCT03803202|164968216|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.4|1.1|||ANCOVA|||Serotype 8, Day 30||1.1|0.4|<.001
82626737|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||Serotype 9N, Day 30||0.5|-0.1|0.146
82626738|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.003|TWO_SIDED|95.0|0.2|0.8|||ANCOVA|||Serotype 9N, Day 30||0.8|0.2|0.003
82626739|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.113|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 9N, Day 30||0.6|-0.1|0.113
82626740|NCT03803202|164968216|OTHER||Mean Difference|-0.2||||0.453|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 9V, Day 30||0.3|-0.6|0.453
82626741|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.111|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 9V, Day 30||0.8|-0.1|0.111
82626742|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.02|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 9V, Day 30||1.0|0.1|0.020
82626743|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.218|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 10A, Day 30||0.8|-0.2|0.218
82626744|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.125|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 10A, Day 30||0.9|-0.1|0.125
82626745|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.706|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 10A, Day 30||0.6|-0.4|0.706
82626746|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.246|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 11A, Day 30||0.6|-0.1|0.246
82626747|NCT03803202|164968216|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.1|||ANCOVA|||Serotype 11A, Day 30||1.1|0.3|<.001
82626748|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 11A, Day 30||0.9|0.1|0.010
82626749|NCT03803202|164968216|OTHER||Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Serotype 12F, Day 30||0.2|-0.7|0.260
82626750|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.366|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Serotype 12F, Day 30||0.7|-0.3|0.366
82626751|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.046|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 12F, Day 30||1.0|0.0|0.046
82626752|NCT03803202|164968216|OTHER||Mean Difference|-0.4||||0.101|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Serotype 14, Day 30||0.1|-0.8|0.101
82626753|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.522||95.0|-0.3|0.6|||ANCOVA|||Serotype 14, Day 30||0.6|-0.3|0.522
82626754|NCT03803202|164968216|OTHER||Mean Difference|0.5||||0.026|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 14, Day 30||1.0|0.1|0.026
82626755|NCT03803202|164968216|OTHER||Mean Difference|-0.2||||0.236|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Serotype 15B, Day 30||0.2|-0.6|0.236
82626756|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.528|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 15B, Day 30||0.5|-0.3|0.528
82626757|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.081|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 15B, Day 30||0.8|0.0|0.081
82626758|NCT03803202|164968216|OTHER||Mean Difference|-0.1||||0.388|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Serotype 17F, Day 30||0.2|-0.5|0.388
82626759|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.151|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.1|0.151
82626760|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.024|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Serotype 17F, Day 30||0.7|0.1|0.024
82506588|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0005|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0005
82506589|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
82626761|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.476|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 18C, Day 30||0.5|-0.3|0.476
82626762|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.077|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 18C, Day 30||0.8|0.0|0.077
82626763|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.262|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 18C, Day 30||0.6|-0.2|0.262
82626764|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.767|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 19A, Day 30||0.4|-0.3|0.767
82626765|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.364|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.2|0.364
82626766|NCT03803202|164968216|OTHER||Mean Difference|0.1||||0.522|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.2|0.522
82626767|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.962|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 19F, Day 30||0.4|-0.4|0.962
82626768|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.091|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.1|0.091
82626769|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.093|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.1|0.093
82626770|NCT03803202|164968216|OTHER||Mean Difference|-0.2||||0.455|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Serotype 20B, Day 30||0.3|-0.6|0.455
82626771|NCT03803202|164968216|OTHER||Mean Difference|0.4||||0.093|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 20B, Day 30||0.9|-0.1|0.093
82626772|NCT03803202|164968216|OTHER||Mean Difference|0.6||||0.017|TWO_SIDED|95.0|0.1|1.1|||ANCOVA|||Serotype 20B, Day 30||1.1|0.1|0.017
82626773|NCT03803202|164968216|OTHER||Mean Difference|-0.1||||0.561|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Serotype 22F, Day 30||0.3|-0.5|0.561
82626774|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.343|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 22F, Day 30||0.6|-0.2|0.343
82626775|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.132|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 22F, Day 30||0.7|-0.1|0.132
82626776|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.898|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Serotype 23F, Day 30||0.6|-0.5|0.898
82626777|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.313|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||Serotype 23F, Day 30||0.9|-0.3|0.313
82626778|NCT03803202|164968216|OTHER||Mean Difference|0.3||||0.366|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.3|0.366
82626779|NCT03803202|164968216|OTHER||Mean Difference|0.0||||0.961|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 33F, Day 30||0.4|-0.4|0.961
82626780|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.269|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 33F, Day 30||0.6|-0.2|0.269
82626781|NCT03803202|164968216|OTHER||Mean Difference|0.2||||0.245|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 33F, Day 30||0.6|-0.2|0.245
82626782|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.213|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 1, Day 30||0.7|-0.1|0.213
82626783|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.097|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 1, Day 30||0.8|-0.1|0.097
82626784|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.631|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 1, Day 30||0.5|-0.3|0.631
82626785|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.699|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 2, Day 30||0.4|-0.3|0.699
82626786|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.042|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|0.0|0.042
82626787|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.092|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 2, Day 30||0.7|-0.1|0.092
82626788|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.007|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 3, Day 30||0.8|0.1|0.007
82626789|NCT03803202|164968217|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|||Serotype 3, Day 30||1.0|0.3|<.001
82626790|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.237|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 3, Day 30||0.6|-0.1|0.237
82626791|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.248|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 4, Day 30||0.6|-0.2|0.248
82626792|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.193|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 4, Day 30||0.7|-0.1|0.193
82626793|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.838|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Serotype 4, Day 30||0.5|-0.4|0.838
82626794|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.898|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 5, Day 30||0.4|-0.5|0.898
82626795|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.143|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.143
82626796|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.108|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Serotype 5, Day 30||0.9|-0.1|0.108
82626797|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.396|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Serotype 6A, Day 30||0.7|-0.3|0.396
82626798|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.182|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Serotype 6A, Day 30||0.9|-0.2|0.182
82626799|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.593|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Serotype 6A, Day 30||0.6|-0.4|0.593
82626800|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.186|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Serotype 6B, Day 30||0.9|-0.2|0.186
82626801|NCT03803202|164968217|OTHER||Mean Difference|0.6||||0.038|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Serotype 6B, Day 30||1.1|0.0|0.038
82626802|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.408|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Serotype 6B, Day 30||0.8|-0.3|0.408
82626803|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.805|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.3|0.805
82626804|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.711|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 7F, Day 30||0.5|-0.3|0.711
82626805|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.891|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 7F, Day 30||0.4|-0.4|0.891
82626806|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.649|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 8, Day 30||0.4|-0.3|0.649
82626807|NCT03803202|164968217|OTHER||Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|||Serotype 8, Day 30||1.0|0.3|<.001
82626808|NCT03803202|164968217|OTHER||Mean Difference|0.6|||<|0.001|TWO_SIDED|95.0|0.3|0.9|||ANCOVA|||Serotype 8, Day 30||0.9|0.3|<.001
82626809|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.454|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Serotype 9N, Day 30||0.5|-0.2|0.454
82626810|NCT03803202|164968217|OTHER||Mean Difference|0.6||||0.003|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Serotype 9N, Day 30||1.0|0.2|0.003
82626811|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.021|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 9N, Day 30||0.9|0.1|0.021
82565019|NCT00914732|164839542|NON_INFERIORITY|The mean difference in log2 transformed peak titers between IMVAMUNE® (1x108 TCID50) liquid formulation (Liquid SC Group) and IMVAMUNE® (1x108 TCID50) lyophilized formulation (Lyophilized SC) with its associated two-sided 97.5% confidence interval (CI) was computed. If the upper limit of the 97.5% CI was less than 1, then the Lyophilized SC was considered non-inferior to the Lyophilized SC group. The difference and the CI are reported on the log2 scale.|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|97.5|-0.81|-0.12||||||The sample size calculations targeted at least 80% power to test non-inferiority for the primary and secondary immunogenicity end points for two investigational arms in reference to a control arm. Assuming a standard deviation of 2.8 for log2 peak PRNT or ELISA titer in each group, a non-inferiority margin of 2.0-fold, a type I error rate of 1.25% (Bonferroni adjusted for 2 comparisons), and drop-out rate of 10%, 165 participants in each group were to be enrolled to achieve 148 evaluable.||-0.12|-0.81|
82565020|NCT03005106|164839549|OTHER|Difference between treatment and control sites|Mean Difference (Final Values)|97.77|||<|0.0001|TWO_SIDED|||||Difference is (percent area of Autograft treatment site requiring autografting by Month 3) - (percent area of StrataGraft treatment site requiring autografting by Month 3).|one-sided Wilcoxin Signed RankTtest|||||||<0.0001
82565021|NCT03005106|164839550|OTHER||Percentage of participants|83.1|||||TWO_SIDED|95.0|74.4|91.8|||||95% confidence interval is derived using the normal approximation to the binomial distribution|||91.8|74.4|
82565022|NCT03005106|164839551|OTHER|Difference is Autograft - StrataGraft|Mean Difference (Final Values)|2.4|||<|0.0001|TWO_SIDED||||||1-sided, paired t-test|p-value from 1-sided, paired t-test on the mean difference(Autograft - StrataGraft)||||||<0.0001
82565023|NCT03005106|164839552|OTHER|Difference is Autograft - StrataGraft|Mean Difference (Final Values)|10.0|||<|0.0001|TWO_SIDED|||||Missing total score data were imputed using a multiple imputation analysis assuming a monotone missing data pattern. A linear regression model with ethnicity, race and age as predictive variables was used in the imputation.|1-sided, paired t-test|p-value from 1-sided, paired t-test on the difference (Autograft - StrataGraft)||||||<0.0001
82565024|NCT03163472|164839554|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565025|NCT03163472|164839555|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82565026|NCT03163472|164839556|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
82626812|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.205|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 9V, Day 30||0.6|-0.1|0.205
82626813|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.015|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 9V, Day 30||0.9|0.1|0.015
82626814|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.209|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 9V, Day 30||0.7|-0.1|0.209
82626815|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.502|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Serotype 10A, Day 30||0.6|-0.3|0.502
82378359|NCT00535405|164465084|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.77|STANDARD_ERROR_OF_MEAN|0.46||0.026||95.0|1.07|2.94||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.94|1.07|0.026
82565027|NCT03163472|164839557|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82565028|NCT00321672|164839560|SUPERIORITY_OR_OTHER|||||||0.0967||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||The null hypothesis was that there was no difference between the average percent change in NPRS scores from baseline to weeks 2-12 between the total control and total NGX-4010 groups. The ratio of means between the 30- and 60-minute control group \[1.57 (90% CI: 1.12-2.35)\] was \> than the pre-specified equivalence margin ratio of 80-125%. Hence, the control groups could not be pooled and comparisons were performed between the 30- and 60-minute NGX-4010 groups and their respective control groups.||||0.0967
82565029|NCT00321672|164839560|SUPERIORITY_OR_OTHER|||||||0.4884||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustment were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.4884
82565030|NCT00321672|164839560|SUPERIORITY_OR_OTHER|||||||0.1031||95.0||||All stastical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustment were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.1031
82626816|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.054|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 10A, Day 30||1.0|0.0|0.054
82626817|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.19|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 10A, Day 30||0.8|-0.2|0.190
82626818|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.616|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 11A, Day 30||0.4|-0.3|0.616
82626819|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.018|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 11A, Day 30||0.8|0.1|0.018
82626820|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.056|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Serotype 11A, Day 30||0.7|0.0|0.056
82565031|NCT00321672|164839561|SUPERIORITY_OR_OTHER|||||||0.0831||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||"The null hypothesis was: There is no difference between the total Control and total NGX-4010 in the absolute change in NPRS scores from Baseline during Weeks 2-12."||||0.0831
82565032|NCT00321672|164839561|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.4680
82626821|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.527|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Serotype 12F, Day 30||0.7|-0.4|0.527
82626822|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.444|TWO_SIDED|95.0|-0.4|0.8|||ANCOVA|||Serotype 12F, Day 30||0.8|-0.4|0.444
82626823|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.869|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Serotype 12F, Day 30||0.6|-0.5|0.869
82626824|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.305|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 14, Day 30||0.7|-0.2|0.305
82377554|NCT00486525|164462480|SUPERIORITY_OR_OTHER||Slope|2.1|STANDARD_ERROR_OF_MEAN|0.85||0.016|TWO_SIDED|95.0|0.4|3.75|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of vitality (SF-36) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||3.75|0.40|0.016
82506590|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0167|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0167
82506591|NCT01480076|164704571|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506592|NCT01480076|164704571|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506593|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0024|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0024
82506594|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0669|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0669
82506595|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0018|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0018
82506596|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0004|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
82506597|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.019|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0190
82506598|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0106|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0106
82506599|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0009|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0009
82506600|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.1937|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1937
82506601|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0445|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0445
82506602|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.6475|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6475
82506603|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0097|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0097
82506604|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0386|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0386
82626825|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.046|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|||Serotype 14, Day 30||1.0|0.0|0.046
82626826|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.299|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Serotype 14, Day 30||0.8|-0.2|0.299
82626827|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.14|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 15B, Day 30||0.7|-0.1|0.140
82626828|NCT03803202|164968217|OTHER||Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANCOVA|||Serotype 15B, Day 30||1.3|0.4|<.001
82626829|NCT03803202|164968217|OTHER||Mean Difference|0.6||||0.012|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 15B, Day 30||1.0|0.1|0.012
82626830|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.2|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.1|0.200
82626831|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.037|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Serotype 17F, Day 30||0.8|0.0|0.037
82626832|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.38|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Serotype 17F, Day 30||0.6|-0.2|0.380
82626833|NCT03803202|164968217|OTHER||Mean Difference|0.6||||0.006|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Serotype 18C, Day 30||1.0|0.2|0.006
82626834|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.018|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Serotype 18C, Day 30||1.0|0.1|0.018
82626835|NCT03803202|164968217|OTHER||Mean Difference|-0.1||||0.81|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 18C, Day 30||0.4|-0.5|0.810
82626836|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.173|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Serotype 19A, Day 30||0.7|-0.1|0.173
82626837|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.096|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 19A, Day 30||0.8|-0.1|0.096
82626838|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.71|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 19A, Day 30||0.5|-0.3|0.710
82626839|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.1|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 19F, Day 30||0.8|-0.1|0.100
82626840|NCT03803202|164968217|OTHER||Mean Difference|0.6||||0.007|TWO_SIDED|95.0|0.2|1.1|||ANCOVA|||Serotype 19F, Day 30||1.1|0.2|0.007
82626841|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.251|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 19F, Day 30||0.7|-0.2|0.251
82626842|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.618|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Serotype 20B, Day 30||0.5|-0.3|0.618
82626843|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.041|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Serotype 20B, Day 30||0.9|0.0|0.041
82626844|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.111|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 20B, Day 30||0.8|-0.1|0.111
82626845|NCT03803202|164968217|OTHER||Mean Difference|0.1||||0.758|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Serotype 22F, Day 30||0.4|-0.3|0.758
82626846|NCT03803202|164968217|OTHER||Mean Difference|0.5||||0.012|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Serotype 22F, Day 30||0.9|0.1|0.012
82626847|NCT03803202|164968217|OTHER||Mean Difference|0.4||||0.025|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Serotype 22F, Day 30||0.8|0.1|0.025
82626848|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.912|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Serotype 23F, Day 30||0.4|-0.5|0.912
82626849|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.174|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.1|0.174
82626850|NCT03803202|164968217|OTHER||Mean Difference|0.3||||0.138|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Serotype 23F, Day 30||0.8|-0.1|0.138
82626851|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.267|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 33F, Day 30||0.7|-0.2|0.267
82626852|NCT03803202|164968217|OTHER||Mean Difference|0.2||||0.3|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Serotype 33F, Day 30||0.7|-0.2|0.300
82626853|NCT03803202|164968217|OTHER||Mean Difference|0.0||||0.982|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Serotype 33F, Day 30||0.4|-0.4|0.982
82626854|NCT03803202|164968218|OTHER||Ratio of GMT|1.49|||||TWO_SIDED|95.0|1.06|2.08|||t-test, 2 sided|||Serotype 2||2.08|1.06|
82626855|NCT03803202|164968218|OTHER||Ratio of GMT|0.97|||||TWO_SIDED|95.0|0.68|1.37|||t-test, 2 sided|||Serotype 8||1.37|0.68|
82626856|NCT03803202|164968218|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.92|2.0|||t-test, 2 sided|||Serotype 9N||2.00|0.92|
82626857|NCT03803202|164968218|OTHER||Ratio of GMT|2.18|||||TWO_SIDED|95.0|1.25|3.79|||t-test, 2 sided|||Serotype 10A||3.79|1.25|
82626858|NCT03803202|164968218|OTHER||Ratio of GMT|1.19|||||TWO_SIDED|95.0|0.8|1.77|||t-test, 2 sided|||Serotype 11A||1.77|0.80|
82626859|NCT03803202|164968218|OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.73|2.0|||t-test, 2 sided|||Serotype 12F||2.00|0.73|
82626860|NCT03803202|164968218|OTHER||Ratio of GMT|1.47|||||TWO_SIDED|95.0|0.94|2.29|||t-test, 2 sided|||Serotype 15B||2.29|0.94|
82626861|NCT03803202|164968218|OTHER||Ratio of GMT|2.61|||||TWO_SIDED|95.0|1.68|4.04|||t-test, 2 sided|||Serotype 17F||4.04|1.68|
82626862|NCT03803202|164968218|OTHER||Ratio of GMT|9.05|||||TWO_SIDED|95.0|5.65|14.5|||t-test, 2 sided|||Serotype 20B||14.50|5.65|
82626863|NCT03803202|164968218|OTHER||Ratio of GMT|1.79|||||TWO_SIDED|95.0|1.09|2.95|||t-test, 2 sided|||Serotype 22F||2.95|1.09|
82626864|NCT03803202|164968218|OTHER|Serotype 33F|Ratio of GMT|1.34|||||TWO_SIDED|95.0|0.86|2.11|||t-test, 2 sided|||||2.11|0.86|
82626865|NCT03803202|164968218|OTHER||Ratio of GMT|1.31|||||TWO_SIDED|95.0|0.93|1.83|||t-test, 2 sided|||Serotype 2||1.83|0.93|
82626866|NCT03803202|164968218|OTHER||Ratio of GMT|0.98|||||TWO_SIDED|95.0|0.67|1.43|||t-test, 2 sided|||Serotype 8||1.43|0.67|
82626867|NCT03803202|164968218|OTHER||Ratio of GMT|1.62|||||TWO_SIDED|95.0|1.62|2.26|||t-test, 2 sided|||Serotype 9N||2.26|1.62|
82626868|NCT03803202|164968218|OTHER||Ratio of GMT|2.87|||||TWO_SIDED|95.0|1.68|4.9|||t-test, 2 sided|||Serotype 10A||4.90|1.68|
82626869|NCT03803202|164968218|OTHER||Ratio of GMT|1.42|||||TWO_SIDED|95.0|0.98|2.06|||t-test, 2 sided|||Serotype 11A||2.06|0.98|
82626870|NCT03803202|164968218|OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.54|1.48|||t-test, 2 sided|||Serotype 12F||1.48|0.54|
82626871|NCT03803202|164968218|OTHER||Ratio of GMT|1.09|||||TWO_SIDED|95.0|0.73|1.64|||t-test, 2 sided|||Serotype 15B||1.64|0.73|
82626872|NCT03803202|164968218|OTHER||Ratio of GMT|2.13|||||TWO_SIDED|95.0|1.4|3.25|||t-test, 2 sided|||Serotype 17F||3.25|1.40|
82626873|NCT03803202|164968218|OTHER||Ratio of GMT|7.28|||||TWO_SIDED|95.0|4.61|11.5|||t-test, 2 sided|||Serotype 20B||11.50|4.61|
82626874|NCT03803202|164968218|OTHER||Ratio of GMT|1.55|||||TWO_SIDED|95.0|0.96|2.48|||t-test, 2 sided|||Serotype 22F||2.48|0.96|
82626875|NCT03803202|164968218|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.83|1.84|||t-test, 2 sided|||Serotype 33F||1.84|0.83|
82626876|NCT03803202|164968218|OTHER||Ratio of GMT|2.1|||||TWO_SIDED|95.0|1.51|2.94|||t-test, 2 sided|||Serotype 2||2.94|1.51|
82565033|NCT00321672|164839561|SUPERIORITY_OR_OTHER|||||||0.0896||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|ANCOVA|Treatment differences were compared by a gender stratified analysis of covariance (ANCOVA) model with Baseline pain score as the only covariate.||||||0.0896
82565034|NCT00321672|164839562|SUPERIORITY_OR_OTHER|||||||0.0662||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||"The null hypothesis was: There is no difference between the total Control and total NGX-4010 group in the Proportion of Subjects Reaching 30% Decrease in Their Mean Average Pain for the Past 24 Hours NPRS Score From Baseline During Weeks 2 to 12."||||0.0662
82565035|NCT00321672|164839562|SUPERIORITY_OR_OTHER|||||||0.5582||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||||||0.5582
82565036|NCT00321672|164839562|SUPERIORITY_OR_OTHER|||||||0.0553||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. No multiplicity adjustments were made.|Regression, Logistic|A logistic regression analysis, with the Baseline NPRS score and gender as covariates, was performed.||||||0.0553
82565037|NCT00936065|164839572|SUPERIORITY_OR_OTHER|||||||0.0672|TWO_SIDED||||||Fisher Exact|||Overall treatment difference||||0.0672
82565038|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 2||||1.0000
82565039|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||0.0229|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 4||||0.0229
82565040|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||0.0256|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 8||||0.0256
82626877|NCT03803202|164968218|OTHER||Ratio of GMT|2.08|||||TWO_SIDED|95.0|1.46|2.97|||t-test, 2 sided|||Serotype 8||2.97|1.46|
82626878|NCT03803202|164968218|OTHER||Ratio of GMT|2.24|||||TWO_SIDED|95.0|1.56|3.2|||t-test, 2 sided|||Serotype 9N||3.20|1.56|
82626879|NCT03803202|164968218|OTHER||Ratio of GMT|3.24|||||TWO_SIDED|95.0|1.79|5.89|||t-test, 2 sided|||Serotype 10A||5.89|1.79|
82506605|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0219|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0219
82506606|NCT01480076|164704571|SUPERIORITY_OR_OTHER|||||||0.0076|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of the current health state of EQ-5D scores, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0076
82626880|NCT03803202|164968218|OTHER||Ratio of GMT|2.43|||||TWO_SIDED|95.0|1.63|3.62|||t-test, 2 sided|||Serotype 11A||3.62|1.63|
82506607|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.1471|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1471
82506608|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.5503|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5503
82506609|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.3854|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3854
82506610|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.4893|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4893
82506611|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.2166|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2166
82565041|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 12||||0.0004
82565042|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||0.0105|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 18||||0.0105
82565043|NCT00936065|164839573|SUPERIORITY_OR_OTHER|||||||0.0366|TWO_SIDED||||||Fisher Exact|||Overall treatment difference Week 24||||0.0366
82565044|NCT00936065|164839574|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||1.0000
82565045|NCT00936065|164839574|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.3230
82565046|NCT00936065|164839574|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||1.0000
82565047|NCT00936065|164839574|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||1.0000
82565048|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.3103|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.3103
82626881|NCT03803202|164968218|OTHER||Ratio of GMT|1.51|||||TWO_SIDED|95.0|0.89|2.55|||t-test, 2 sided|||Serotype 12 F||2.55|0.89|
82626882|NCT03803202|164968218|OTHER||Ratio of GMT|1.69|||||TWO_SIDED|95.0|1.11|2.57|||t-test, 2 sided|||Serotype 15B||2.57|1.11|
82626883|NCT03803202|164968218|OTHER||Ratio of GMT|3.37|||||TWO_SIDED|95.0|2.18|5.2|||t-test, 2 sided|||Serotype 17F||5.20|2.18|
82565049|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.4763|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.4763
82565050|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.1961|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1961
82565051|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.0272|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0272
82565052|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.5038|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.5038
82565053|NCT00936065|164839575|SUPERIORITY_OR_OTHER|||||||0.0374|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0374
82565054|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.6061|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.6061
82565055|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.2971|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.2971
82565056|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.1119|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.1119
82565057|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.1081|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1081
82565058|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0063
82565059|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.0055|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.0055
82565060|NCT00936065|164839576|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0031
82565061|NCT00936065|164839577|SUPERIORITY_OR_OTHER|||||||0.0033|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0033
82565062|NCT00936065|164839578|SUPERIORITY_OR_OTHER|||||||0.0448|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0448
82565063|NCT00936065|164839579|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.0041
82565064|NCT00936065|164839580|SUPERIORITY_OR_OTHER|||||||0.3536|TWO_SIDED||||||Log Rank|||Overall treatment difference||||0.3536
82565065|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0203|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.0203
82565066|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0102|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0102
82565067|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0056|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0056
82565068|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0006
82565069|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0066
82565070|NCT00936065|164839581|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0058
82565071|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.0329|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.0329
82565072|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0003
82565073|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.0598|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0598
82565074|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.0241|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0241
82565075|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.0543|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0543
82565076|NCT00936065|164839582|SUPERIORITY_OR_OTHER|||||||0.1205|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.1205
82565077|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.1385|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1385
82565078|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0019
82565079|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.0442|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0442
82565080|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0034
82565081|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.0454|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0454
82565082|NCT00936065|164839583|SUPERIORITY_OR_OTHER|||||||0.0539|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0539
82565083|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.1723|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1723
82565084|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.0292|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0292
82565085|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.0908|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0908
82565086|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.5678|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.5678
82565087|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.4820
82565088|NCT00936065|164839584|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0394
82506612|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.4149|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4149
82506613|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.3849|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3849
82506614|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.898|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8980
82506615|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.0046|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0046
82565089|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.1079|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1079
82565090|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0004
82565091|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.0146|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.0146
82565092|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0019
82565093|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0062
82565094|NCT00936065|164839585|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0197
82565095|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.1229|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 2||||0.1229
82565096|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 4||||0.0136
82565097|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 8||||0.1578
82565098|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.0565|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 12||||0.0565
82565099|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.0685|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 18||||0.0685
82565100|NCT00936065|164839586|SUPERIORITY_OR_OTHER|||||||0.0493|TWO_SIDED||||||ANCOVA|||Overall treatment difference at Week 24||||0.0493
82565101|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.3112|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3112
82565102|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0196
82565103|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.0109|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0109
82565104|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0035
82565105|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.0603|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0603
82565106|NCT00936065|164839587|SUPERIORITY_OR_OTHER|||||||0.2184|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.2184
82565107|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.1774|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.1774
82565108|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.1195|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1195
82565109|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.0606|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0606
82565110|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0030
82565111|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.1567|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1567
82565112|NCT00936065|164839588|SUPERIORITY_OR_OTHER|||||||0.2094|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.2094
82565113|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.0302|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0302
82565114|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0980
82565115|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.0711|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0711
82565116|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.0077|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0077
82565117|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.1553|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1553
82565118|NCT00936065|164839589|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0410
82565119|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0060
82565120|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0058
82565121|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.0127|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0127
82565122|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0068
82565123|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.0096|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0096
82506616|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.0594|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0594
82506617|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.2975|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2975
82506618|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.7155|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7155
82506619|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.507|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5070
82506620|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.5848|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5848
82506621|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.802|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8020
82506622|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.254|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2540
82506623|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.9057|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9057
82506624|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.9679|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9679
82506625|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.5875|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5875
82506626|NCT01480076|164704572|SUPERIORITY_OR_OTHER|||||||0.744|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of work time missed due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7440
82506627|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0032|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0032
82506628|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0828|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0828
82506629|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.7756|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7756
82565124|NCT00936065|164839590|SUPERIORITY_OR_OTHER|||||||0.0132|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0132
82565125|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.6904|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.6904
82506630|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.22|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2200
82565126|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.7021|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.7021
82565127|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.2199|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.2199
82565128|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.5071|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.5071
82565129|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.4765|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.4765
82565130|NCT00936065|164839591|SUPERIORITY_OR_OTHER|||||||0.8662|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.8662
82565131|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.1144|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.1144
82565132|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.4509|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4509
82565133|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.435|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4350
82565134|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.6085|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.6085
82565135|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.2582|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2582
82565136|NCT00936065|164839592|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.5490
82565137|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.3287|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3287
82565138|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.4149|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4149
82565139|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.3837|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.3837
82565140|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.6777|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.6777
82565141|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.4976|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.4976
82565142|NCT00936065|164839593|SUPERIORITY_OR_OTHER|||||||0.4189|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.4189
82565143|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.476|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.4760
82565144|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.404|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.4040
82565145|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.4753|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4753
82565146|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.5084|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.5084
82565147|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.2293|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2293
82565148|NCT00936065|164839594|SUPERIORITY_OR_OTHER|||||||0.3822|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3822
82565149|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.2691|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.2691
82565150|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.0142|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0142
82565151|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.0383|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0383
82565152|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.0026|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0026
82565153|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.0475|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0475
82565154|NCT00936065|164839595|SUPERIORITY_OR_OTHER|||||||0.0205|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0205
82565155|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.0512|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0512
82565156|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0024
82565157|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.0946|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0946
82565158|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.0935|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0935
82565159|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.2073|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2073
82565160|NCT00936065|164839596|SUPERIORITY_OR_OTHER|||||||0.3415|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3415
82565161|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.0202|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0202
82565162|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0090
82565163|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0742
82565164|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.0445|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0445
82565165|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.2211|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.2211
82565166|NCT00936065|164839597|SUPERIORITY_OR_OTHER|||||||0.1982|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.1982
82565167|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.0409|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0409
82565168|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.145|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1450
82565169|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.201|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.2010
82565170|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.0424|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0424
82565171|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0090
82565172|NCT00936065|164839598|SUPERIORITY_OR_OTHER|||||||0.0116|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0116
82565173|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.3355|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3355
82565174|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.0341|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0341
82565175|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0899
82565176|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0062
82565177|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.1241|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1241
82565178|NCT00936065|164839599|SUPERIORITY_OR_OTHER|||||||0.0393|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0393
82565179|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.3402|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.3402
82565180|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.1184|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1184
82565181|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.0104|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0104
82565182|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0010
82565183|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.0250
82565184|NCT00936065|164839600|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.0410
82565185|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.0894|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.0894
82565186|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.0084|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.0084
82565187|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.0727|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.0727
82565188|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.0337|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.0337
82565189|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1380
82565190|NCT00936065|164839601|SUPERIORITY_OR_OTHER|||||||0.3415|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.3415
82565191|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.4407|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 2||||0.4407
82565192|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.1768|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 4||||0.1768
82565193|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.4636|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 8||||0.4636
82565194|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.334|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 12||||0.3340
82565195|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.1785|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 18||||0.1785
82565196|NCT00936065|164839602|SUPERIORITY_OR_OTHER|||||||0.7428|TWO_SIDED||||||Kruskal-Wallis|||Overall treatment difference at Week 24||||0.7428
82565197|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.5377|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.5377
82565198|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.1419|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.1419
82565199|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.5391|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.5391
82626884|NCT03803202|164968218|OTHER||Ratio of GMT|13.7|||||TWO_SIDED|95.0|8.26|22.72|||t-test, 2 sided|||Serotype 20B||22.72|8.26|
82565200|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.2589|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.2589
82565201|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.0635|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0635
82565202|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.1172|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.1172
82565203|NCT00936065|164839603|SUPERIORITY_OR_OTHER|||||||0.1247|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.1247
82565204|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.9429|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Baseline||||0.9429
82565205|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 2||||0.0927
82626885|NCT03803202|164968218|OTHER||Ratio of GMT|2.17|||||TWO_SIDED|95.0|1.36|3.46|||t-test, 2 sided|||Serotype 22F||3.46|1.36|
82626886|NCT03803202|164968218|OTHER||Ratio of GMT|1.69|||||TWO_SIDED|95.0|1.11|2.57|||t-test, 2 sided|||Serotype 33F||2.57|1.11|
82626887|NCT03803202|164968219|OTHER||Ratio of GMT|1.35|||||TWO_SIDED|95.0|0.95|1.93|||t-test, 2 sided|||Serotype 2||1.93|0.95|
82626888|NCT03803202|164968219|OTHER||Ratio of GMT|1.51|||||TWO_SIDED|95.0|1.07|2.13|||t-test, 2 sided|||Serotype 8||2.13|1.07|
82626889|NCT03803202|164968219|OTHER||Ratio of GMT|1.59|||||TWO_SIDED|95.0|1.09|2.33|||t-test, 2 sided|||Serotype 9N||2.33|1.09|
82626890|NCT03803202|164968219|OTHER||Ratio of GMT|2.24|||||TWO_SIDED|95.0|1.45|3.47|||t-test, 2 sided|||Serotype 10A||3.47|1.45|
82626891|NCT03803202|164968219|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|1.27|2.65|||t-test, 2 sided|||Serotype 11A||2.65|1.27|
82626892|NCT03803202|164968219|OTHER||Ratio of GMT|1.31|||||TWO_SIDED|95.0|0.77|2.23|||t-test, 2 sided|||Serotype 12F||2.23|0.77|
82626893|NCT03803202|164968219|OTHER||Ratio of GMT|1.24|||||TWO_SIDED|95.0|0.8|1.91|||t-test, 2 sided|||Serotype 15B||1.91|0.80|
82626894|NCT03803202|164968219|OTHER||Ratio of GMT|2.63|||||TWO_SIDED|95.0|1.7|4.07|||t-test, 2 sided|||Serotype 17F||4.07|1.70|
82626895|NCT03803202|164968219|OTHER||Ratio of GMT|2.43|||||TWO_SIDED|95.0|1.61|3.67|||t-test, 2 sided|||Serotype 20B||3.67|1.61|
82626896|NCT03803202|164968219|OTHER||Ratio of GMT|2.49|||||TWO_SIDED|95.0|1.7|3.65|||t-test, 2 sided|||Serotype 22F||3.65|1.70|
82626897|NCT03803202|164968219|OTHER||Ratio of GMT|1.67|||||TWO_SIDED|95.0|1.1|2.54|||t-test, 2 sided|||Serotype 33F||2.54|1.10|
82626898|NCT03803202|164968219|OTHER||Ratio of GMT|1.42|||||TWO_SIDED|95.0|0.98|2.07|||t-test, 2 sided|||Serotype 2||2.07|0.98|
82626899|NCT03803202|164968219|OTHER||Ratio of GMT|1.58|||||TWO_SIDED|95.0|1.11|2.26|||t-test, 2 sided|||Serotype 8||2.26|1.11|
82626900|NCT03803202|164968219|OTHER||Ratio of GMT|1.83|||||TWO_SIDED|95.0|1.23|2.72|||t-test, 2 sided|||Serotype 9N||2.72|1.23|
82626901|NCT03803202|164968219|OTHER||Ratio of GMT|2.59|||||TWO_SIDED|95.0|1.66|4.05||||||Serotype 10A||4.05|1.66|
82565206|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.0151|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 4||||0.0151
82565207|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.1124|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 8||||0.1124
82565208|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.0242|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 12||||0.0242
82565209|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 18||||0.0237
82565210|NCT00936065|164839604|SUPERIORITY_OR_OTHER|||||||0.0176|TWO_SIDED||||||Fisher Exact|||Overall treatment difference at Week 24||||0.0176
82506631|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
82626902|NCT03803202|164968219|OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.32|2.73|||t-test, 2 sided|||Serotype 11A||2.73|1.32|
82506632|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0061|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0061
82506633|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.6258|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6258
82506634|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.6987|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6987
82506635|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0025|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0025
82506636|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0021|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0021
82506637|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.4385|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4385
82506638|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.2275|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2275
82506639|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0446|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0446
82506640|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.5757|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5757
82506641|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.8936|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8936
82506642|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.5675|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5675
82506643|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.2539|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.2539
82626903|NCT03803202|164968219|OTHER||Ratio of GMT|1.59|||||TWO_SIDED|95.0|0.93|2.71|||t-test, 2 sided|||Serotype 12F||2.71|0.93|
82626904|NCT03803202|164968219|OTHER||Ratio of GMT|1.68|||||TWO_SIDED|95.0|1.11|2.53|||t-test, 2 sided|||Serotype 15B||2.53|1.11|
82626905|NCT03803202|164968219|OTHER||Ratio of GMT|3.27|||||TWO_SIDED|95.0|2.17|4.93|||t-test, 2 sided|||Serotype 17F||4.93|2.17|
82626906|NCT03803202|164968219|OTHER||Ratio of GMT|2.79|||||TWO_SIDED|95.0|1.85|4.22|||t-test, 2 sided|||Serotype 20B||4.22|1.85|
82626907|NCT03803202|164968219|OTHER||Ratio of GMT|2.63|||||TWO_SIDED|95.0|1.79|3.88|||t-test, 2 sided|||Serotype 22F||3.88|1.79|
82626908|NCT03803202|164968219|OTHER||Ratio of GMT|2.05|||||TWO_SIDED|95.0|1.4|3.01|||t-test, 2 sided|||Serotype 33F||3.01|1.40|
82626909|NCT03803202|164968219|OTHER||Ratio of GMT|1.97|||||TWO_SIDED|95.0|1.37|2.84|||t-test, 2 sided|||Serotype 2||2.84|1.37|
82626910|NCT03803202|164968219|OTHER||Ratio of GMT|2.98|||||TWO_SIDED|95.0|2.12|4.18|||t-test, 2 sided|||Serotype 8||4.18|2.12|
82626911|NCT03803202|164968219|OTHER||Ratio of GMT|2.99|||||TWO_SIDED|95.0|2.02|4.44|||t-test, 2 sided|||Serotype 9N||4.44|2.02|
82626912|NCT03803202|164968219|OTHER||Ratio of GMT|3.63|||||TWO_SIDED|95.0|2.25|5.86|||t-test, 2 sided|||Serotype 10A||5.86|2.25|
82506644|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.6673|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6673
82626913|NCT03803202|164968219|OTHER||Ratio of GMT|2.86|||||TWO_SIDED|95.0|1.96|4.18|||t-test, 2 sided|||Serotype 11A||4.18|1.96|
82626914|NCT03803202|164968219|OTHER||Ratio of GMT|1.64|||||TWO_SIDED|95.0|0.91|2.96|||t-test, 2 sided|||Serotype 12F||2.96|0.91|
82626915|NCT03803202|164968219|OTHER||Ratio of GMT|2.93|||||TWO_SIDED|95.0|1.87|4.61|||t-test, 2 sided|||Serotype 15B||4.61|1.87|
82626916|NCT03803202|164968219|OTHER||Ratio of GMT|4.0|||||TWO_SIDED|95.0|2.55|6.26|||t-test, 2 sided|||Serotype 17F||6.26|2.55|
82626917|NCT03803202|164968219|OTHER||Ratio of GMT|3.82|||||TWO_SIDED|95.0|2.46|5.91|||t-test, 2 sided|||Serotype 22F||5.91|2.46|
82626918|NCT03803202|164968219|OTHER||Ratio of GMT|4.02|||||TWO_SIDED|95.0|2.74|5.9|||t-test, 2 sided|||Serotype 22F||5.90|2.74|
82626919|NCT03803202|164968219|OTHER||Ratio of GMT|2.11|||||TWO_SIDED|95.0|1.38|3.23|||t-test, 2 sided|||Serotype 33F||3.23|1.38|
82626920|NCT01125293|164968223|OTHER|||||||0.69|||||||Two stage design, exact method|||In a two-stage Simon design, a VGPR or better rate of at least 18% is considered promising versus a 5% or less rate. In stage 1, if 1 or fewer of 23 evaluable participants achieve VGPR, the regimen is considered non-promising else continue with 24 more patients enrolled. If \</=4 of 47 evaluable patients have VGPR or better, the regimen is considered non-promising. If \>/=5, then the regimen is considered promising for further study. With this design, there is 90% power and 1-sided 10% alpha.|The study did not continue to stage 2 given 1 VGPR or better response was observed in 23 evaluable participants in stage 1.|||0.69
82626921|NCT01367860|164968230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|1.06||0.05|TWO_SIDED|95.0|-4.05|0.26|||t-test, 2 sided|||||0.26|-4.05|0.05
82626922|NCT01367860|164968231|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82626923|NCT01367860|164968232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.9|<|0.05|TWO_SIDED|95.0|-2.21|1.43|||t-test, 2 sided|||||1.43|-2.21|<0.05
82626924|NCT01367860|164968233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.01|<|0.05|TWO_SIDED|95.0|-2.76|1.33|||t-test, 2 sided|||||1.33|-2.76|<0.05
82626925|NCT01367860|164968235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.13|<|0.05|TWO_SIDED|95.0|-2.58|2.01|||t-test, 2 sided|||||2.01|-2.58|<0.05
82626926|NCT01367860|164968236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|1.14|<|0.05|TWO_SIDED|95.0|-1.3|3.3|||t-test, 2 sided|||||3.3|-1.3|<0.05
82626927|NCT01367860|164968237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|2.77|<|0.05|TWO_SIDED|95.0|-2.36|8.8|||t-test, 2 sided|||||8.8|-2.36|<0.05
82626928|NCT01367860|164968238|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|3.3|<|0.05|TWO_SIDED|95.0|-4.4|8.9|||t-test, 2 sided|||||8.9|-4.4|<0.05
82626929|NCT01367860|164968239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|3.6|<|0.05|TWO_SIDED|95.0|-7.15|7.55|||t-test, 2 sided|||||7.55|-7.15|<0.05
82626930|NCT01367860|164968240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|3.65|<|0.05|TWO_SIDED|95.0|-7.14|7.67|||t-test, 2 sided|||||7.67|-7.14|<0.05
82626931|NCT01367860|164968241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|3.18|<|0.05|TWO_SIDED|95.0|-8.16|4.76|||t-test, 2 sided|||||4.76|-8.16|<0.05
82626932|NCT01367860|164968242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|0.88|<|0.05|TWO_SIDED|95.0|-0.12|3.46|||t-test, 2 sided|||||3.46|-0.12|<0.05
82626933|NCT01367860|164968243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|1.09|<|0.05|TWO_SIDED|95.0|-2.0|2.4|||t-test, 2 sided|||||2.4|-2|<0.05
82626934|NCT01367860|164968244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|1.08|<|0.05|TWO_SIDED|95.0|-2.55|1.85|||t-test, 2 sided|||||1.85|-2.55|<0.05
82626935|NCT01367860|164968245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|1.11|<|0.05|TWO_SIDED|95.0|-2.29|2.23|||t-test, 2 sided|||||2.23|-2.29|<0.05
82626936|NCT01367860|164968246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.17|<|0.05|TWO_SIDED|95.0|-1.67|3.08|||t-test, 2 sided|||||3.08|-1.67|<0.05
82626937|NCT02228564|164968263|NON_INFERIORITY|"The sample size calculation assumes the following:~The LIFESTREAM™ Covered Stent composite event rate is estimated at 10.5% The Performance Goal is set at 19.5% The Type 1 error, α = 0.05 (one-sided). The Type 2 error, β = 0.10 (Power = 1 - β = 90%). The calculated sample size is 139 subjects to be followed through the 9-month follow-up visit (using nQuery 7.0). To accommodate 10% censoring, the sample size is increased to 154."|||||<|0.0325|||||||Exact binomial test|||"H0: The proportion of subjects in the LifeStream™ Covered Stent group (PBBX) with events in the primary endpoint is greater than or equal to that of the PG of 19.5%.~H1: The proportion of subjects in the LifeStream™ Covered Stent group (PBBX) with events in the primary endpoint is less than that of the PG of 19.5%."||||<0.0325
82626938|NCT01324687|164968275|SUPERIORITY_OR_OTHER||Rate ratio|0.8387||||0.017|TWO_SIDED|95.0|0.7261|0.9689|||GEE / Poisson regression models|||Rate ratio of ED use rate of the intervention group as compared to the control group.||0.9689|0.7261|0.017
82626939|NCT02925312|164968312|SUPERIORITY|||||||0.05|||||||McNemar|||The study was powered to detect a difference of 0.5 in the change in HbA1c with SD=2 with 80% power at alpha=0.05 with a sample size of 128 in each group (paired t-test). Differences in patient characteristics and the unadjusted differences in the outcome measures between the intervention and control groups were tested using linear mixed models, McNemar tests and conditional logistic models due to matching.||||0.05
82626940|NCT01203787|164968398|SUPERIORITY_OR_OTHER|||||||0.0262|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.0262
82626941|NCT01576406|164968414|SUPERIORITY||Geometric mean ratio|91.2|||||TWO_SIDED|90.0|57.47|144.72||||||Confidence interval (CI): Geometric mean ratio and 90 percent (%) CI were derived from analysis of variance (ANOVA) model.||144.72|57.47|
82626942|NCT01576406|164968414|SUPERIORITY||Geometric mean ratio|143.82|||||TWO_SIDED|90.0|89.11|232.12||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||232.12|89.11|
82378360|NCT00535405|164465084|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.27|STANDARD_ERROR_OF_MEAN|0.71||0.017||95.0|1.23|4.18||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.18|1.23|0.017
82626943|NCT01576406|164968414|SUPERIORITY||Geometric mean ratio|108.87|||||TWO_SIDED|90.0|70.13|168.99||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||168.99|70.13|
82626944|NCT01576406|164968414|SUPERIORITY||Geometric mean ratio|72.63|||||TWO_SIDED|90.0|49.07|107.5||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||107.50|49.07|
82626945|NCT01576406|164968440|SUPERIORITY||Percentage of ratio of geometric mean|91.12|||||TWO_SIDED|90.0|56.56|146.79||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||146.79|56.56|
82626946|NCT01576406|164968440|SUPERIORITY||Percentage of ratio of geometric mean|149.54|||||TWO_SIDED|90.0|91.85|243.46||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||243.46|91.85|
82626947|NCT01576406|164968440|SUPERIORITY||Percentage of ratio of geometric mean|114.08|||||TWO_SIDED|90.0|73.57|176.89||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||176.89|73.57|
82626948|NCT01576406|164968440|SUPERIORITY||Percentage of ratio of geometric mean|64.67|||||TWO_SIDED|90.0|39.5|105.89||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||105.89|39.50|
82626949|NCT01576406|164968441|SUPERIORITY||Percentage of ratio of geometric mean|108.43|||||TWO_SIDED|90.0|63.47|185.26||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||185.26|63.47|
82626950|NCT01576406|164968441|SUPERIORITY||Percentage of ratio of geometric mean|202.89|||||TWO_SIDED|90.0|120.96|340.3||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||340.30|120.96|
82626951|NCT01576406|164968441|SUPERIORITY||Percentage of ratio of geometric mean|130.78|||||TWO_SIDED|90.0|86.61|197.47||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||197.47|86.61|
82626952|NCT01576406|164968441|SUPERIORITY||Percentage of ratio of geometric mean|62.82|||||TWO_SIDED|90.0|42.54|92.78||||||CI: Geometric mean ratio and 90% CI were derived from ANOVA model.||92.78|42.54|
82626953|NCT00892957|164968457|SUPERIORITY_OR_OTHER||||||<|0.0001|ONE_SIDED|95.0|||||Likelihood ratio chi-square test|||||||<0.0001
82626954|NCT00892957|164968458|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.001
82626955|NCT00892957|164968459|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.012
82626956|NCT00892957|164968460|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.158
82626957|NCT00892957|164968462|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.380
82626958|NCT00892957|164968463|SUPERIORITY_OR_OTHER|||||||0.545|TWO_SIDED|95.0|||||Likelihood ratio chi-square test|||||||0.545
82626959|NCT01962688|164968513|OTHER|||||||0.002|||||||Chi-squared|||||||0.002
82626960|NCT02823080|164968522|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82626961|NCT02823080|164968523|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82626962|NCT02823080|164968524|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82626963|NCT02823080|164968528|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82626964|NCT00676208|164968529|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.04
82626965|NCT00676208|164968530|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.04
82626966|NCT00669032|164968531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|ONE_SIDED||||||Chi-squared|||||||0.004
82626967|NCT00669032|164968532|SUPERIORITY_OR_OTHER_LEGACY|||||||0.525|TWO_SIDED||||||Chi-squared|||||||0.525
82626968|NCT00669032|164968533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||Chi-squared|||||||0.030
82626969|NCT00669032|164968534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
82626970|NCT00669032|164968535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
82626971|NCT00669032|164968536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
82626972|NCT00669032|164968537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
82626973|NCT00669032|164968538|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|TWO_SIDED||||||Chi-squared|||||||0.025
82626974|NCT00669032|164968539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED||||||Chi-squared|||||||0.023
82626975|NCT00669032|164968540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
82626976|NCT00669032|164968541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9129|TWO_SIDED||||||Chi-squared|||||||0.9129
82626977|NCT00617656|164968584|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.56|TWO_SIDED|95.0|0.76|1.67|||Log Rank|||This is a futility analysis. The initial hypothesis of the clinical trial was that the experimental group as a whole was superior to the control group.||1.67|0.76|0.56
82626978|NCT00617656|164968584|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.79|TWO_SIDED|95.0|0.73|1.51|||Log Rank|||||1.51|0.73|0.79
82626979|NCT00617656|164968584|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.0001|TWO_SIDED|95.0|1.38|2.95|||Log Rank|||||2.95|1.38|0.0001
82626980|NCT00617656|164968585|SUPERIORITY||Hazard Ratio (HR)|1.55||||0.006|TWO_SIDED|95.0|1.13|2.12|||Log Rank|||||2.12|1.13|0.006
82626981|NCT00878644|164968586|SUPERIORITY||Risk Difference (RD)|7.3||||0.14|TWO_SIDED|95.0|-1.5|16.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||16.1|-1.5|0.14
82626982|NCT00878644|164968587|SUPERIORITY||Risk Difference (RD)|9.1||||0.13|TWO_SIDED|95.0|-1.8|19.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||19.9|-1.8|0.13
82626983|NCT00878644|164968588|SUPERIORITY|||||||0.13|||||||Stratified Mann-Whitney Test|Test stratified by age category (\<2 years, 2 to \<12 years, or \>=12 years), for continuous (NOT categorized as reported above) 1-year change in VABS-II|||As the (nonparametric) comparison treated 1-year deaths as worst possible outcomes and worst possible 1-year VABS-II as next worst possible outcomes, using change in VABS-II for other participants alive at 1 year, no relevant estimation of effect size is possible for this secondary outcome.|||0.13
82626984|NCT00878644|164968589|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|"Test used the continuous (NOT categorized as reported above) neuropsychological scores, with Lowest Possible Score treated as lowest possible value."||||||0.81
82506645|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.0849|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0849
82626985|NCT01280812|164968591|SUPERIORITY||Median Difference (Net)|1100.0|STANDARD_DEVIATION|3000.0|||TWO_SIDED|95.0|||||Mixed Models Analysis|Two-sided P values less than .05 were considered statistically significant.||Intent to treat analysis||||
82626986|NCT00789724|164968597|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANOVA|||||||0.033
82626987|NCT00323310|164968631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|1.46|<|0.0001|TWO_SIDED|95.0|1.1|1.5||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.5|1.1|<0.0001
82626988|NCT00323310|164968632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.45|<|0.0001|TWO_SIDED|95.0|0.9|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.9|<0.0001
82626989|NCT00323310|164968633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|1.42|<|0.0001|TWO_SIDED|95.0|0.4|0.9||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||0.9|0.4|<0.0001
82626990|NCT00323310|164968634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|1.56|<|0.001|TWO_SIDED|95.0|1.1|1.6||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.6|1.1|<0.001
82626991|NCT00323310|164968635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|1.49|<|0.001|TWO_SIDED|95.0|0.8|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.8|<0.001
82626992|NCT00323310|164968636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|1.2|<|0.0001|TWO_SIDED|95.0|0.4|0.8||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||0.8|0.4|<0.0001
82626993|NCT00323310|164968637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.57|<|0.0001|TWO_SIDED|95.0|1.0|1.5||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.5|1.0|<0.0001
82626994|NCT00323310|164968638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.49|<|0.0001|TWO_SIDED|95.0|0.9|1.4||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.4|0.9|<0.0001
82626995|NCT00323310|164968639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|1.54|<|0.0001|TWO_SIDED|95.0|0.6|1.1||H0: udiff = 0; Ha: udiff not = 0|t-test, 2 sided|||Paired t-test to compare change from pre to pre+postdose||1.1|0.6|<0.0001
82626996|NCT01510834|164968786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.824|STANDARD_DEVIATION|14.148||0.001|TWO_SIDED|95.0|-10.578|-3.07|||t-test, 2 sided|||||-3.070|-10.578|.001
82626997|NCT01510834|164968787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0872|STANDARD_DEVIATION|15.731||0.001|TWO_SIDED|95.0|2.91|11.26|||t-test, 2 sided|||||11.26|2.91|.001
82626998|NCT01510834|164968788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.78|STANDARD_DEVIATION|7.78|<|0.001|TWO_SIDED|95.0|-5.84|-1.7|||t-test, 2 sided|||||-1.70|-5.84|<.001
82626999|NCT01510834|164968789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_DEVIATION|6.269||0.015|TWO_SIDED|95.0|-3.751|-0.4244|||t-test, 2 sided|||||-.4244|-3.751|.015
82627000|NCT03805971|164968806|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||"The objective of the test is to assess if the pCLE feature full chia seed sign is found statistically more frequently in the benign pleura group than in the malignant pleural infiltrations group."||||0.0003
82627001|NCT03805971|164968806|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"The objective is to assess if the abnormal tissular architecture is significantly more frequently found in the malignant pleural infiltrations group than in the benign pleura group."||||<0.0001
82627002|NCT03805971|164968806|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||"The objective is to assess if the pCLE feature cellular shape homogeneity is found statistically more frequently in the benign pleura group than in the malignant pleural infiltrations group."||||0.0052
82627003|NCT03805971|164968806|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"The objective is to assess if dysplastic vessels are more frequently found in the malignant pleural infiltrations group than in the benign pleura group."||||<0.0001
82627004|NCT04839393|164968811|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|108.86|||||TWO_SIDED|90.0|87.24|135.84|||Mixed Models Analysis|||||135.84|87.24|
82627005|NCT04839393|164968812|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio|113.14|||||TWO_SIDED|90.0|89.34|143.28|||Mixed Models Analysis|||||143.28|89.34|
82506646|NCT01480076|164704573|SUPERIORITY_OR_OTHER|||||||0.1187|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of impairment while working due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1187
82627006|NCT04839393|164968813|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|38.73|||||TWO_SIDED|90.0|32.8|45.74|||Mixed Models Analysis|||The test treatment was PF-06865571 300 mg + PF-06882961 200 mg BID (Period 3 - Day 47), which was reported separately in comparison to the reference treatment of PF-06865571 300 mg (Period 1 - Day 1).||45.74|32.80|
82627007|NCT04839393|164968814|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|73.91|||||TWO_SIDED|90.0|67.95|80.4|||Mixed Models Analysis|||||80.40|67.95|
82627008|NCT04839393|164968815|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|73.2|||||TWO_SIDED|90.0|66.82|80.18|||Mixed Models Analysis|||||80.18|66.82|
82506647|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0022|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0022
82506648|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0299|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0299
82506649|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.8135|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8135
82506650|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.3526|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3526
82506651|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
82506652|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0039|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0039
82506653|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.6924|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.6924
82506654|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.7639|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.7639
82506655|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0013|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0013
82506656|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0011|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0011
82506657|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.434|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4340
82506658|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.4224|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.4224
82627009|NCT04839393|164968816|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|115.3|||||TWO_SIDED|90.0|85.37|155.73|||Mixed Models Analysis|||||155.73|85.37|
82627010|NCT04839393|164968817|OTHER|The ratio and 90% confidence interval were expressed as percentages|Adjusted Geometric Mean Ratio|118.64|||||TWO_SIDED|90.0|94.05|149.66|||Mixed Models Analysis|||||149.66|94.05|
82627011|NCT03012594|164968838|SUPERIORITY|||||||0.07|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.07
82506659|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.1628|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1628
82506660|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.5666|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5666
82506661|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.8315|||||||mixed effect model|||Month 9, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.8315
82506662|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.3852|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.3852
82506663|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.0652|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0652
82506664|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.5719|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.5719
82506665|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.9237|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.9237
82506666|NCT01480076|164704574|SUPERIORITY_OR_OTHER|||||||0.131|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of overall work impairment due to MS, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1310
82506667|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506668|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506669|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Overall, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
82565211|NCT02389894|164839605|SUPERIORITY||Risk Difference (RD)|6.9||||0.22|TWO_SIDED|95.0|-4.2|17.9|||Chi-squared|The primary end point analysis used an iterative hot-deck multiple imputation approach, assuming a nonignorable missing data mechanism.|The absolute difference in the percentage of patients with freedom from clinical or radiographic central nervous system (CNS) infarction was computed as Embol-x minus control|A sample size of 165 patients in each group ensured that each comparison had a power of approximately 90% to detect a between-group difference of 17.5% from an assumed control rate of 50% in the incidence of postoperative CNS infarcts. A single interim analysis was prespecified and performed. Based on the recommendation of the DSMB, randomization but not follow-up was halted due to low conditional power of observing any between-group differences for the primary endpoint.||17.9|-4.2|0.22
82565212|NCT02389894|164839605|SUPERIORITY||Risk Difference (RD)|1.3||||0.84|TWO_SIDED|95.0|-11.2|13.8||The primary end point analysis used an iterative hot-deck multiple imputation approach, assuming a nonignorable missing data mechanism.|Chi-squared||The absolute difference in the percentage of patients with freedom from clinical or radiographic central nervous system (CNS) infarction was computed as Cardiogard minus control.|A sample size of 165 patients in each group ensured that each comparison had a power of approximately 90% to detect a between-group difference of 17.5% from an assumed control rate of 50% in the incidence of postoperative CNS infarcts. A single interim analysis was prespecified and performed. Based on the recommendation of the DSMB, randomization but not follow-up was halted due to low conditional power of observing any between-group differences for the primary endpoint.||13.8|-11.2|0.84
82565213|NCT02389894|164839606|SUPERIORITY||Risk Difference (RD)|9.7||||0.08|TWO_SIDED|95.0|-1.2|20.5|||Chi-squared||The absolute difference was computed as Embol-x minus control|||20.5|-1.2|0.08
82506670|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0003|||||||mixed effect model|||Overall, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0003
82565214|NCT02389894|164839606|SUPERIORITY||Risk Difference (RD)|-2.8||||0.61|TWO_SIDED|95.0|-13.5|7.9|||Chi-squared||The absolute difference was computed as Cardiogard minus control|||7.9|-13.5|0.61
82565215|NCT00738400|164839652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.76|||<|0.0001||95.0|-9.03|-4.49|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-4.49|-9.03|<0.0001
82565216|NCT00738400|164839653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.71|||<|0.0001||95.0|-30.66|-10.76|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-10.76|-30.66|<0.0001
82565217|NCT00738400|164839654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.16|||<|0.0001||95.0|-37.48|-14.83|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-14.83|-37.48|<0.0001
82565218|NCT00738400|164839655|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mantel Haenszel|||Mantel-Haenszel Test||||0.0004
82565219|NCT00738400|164839656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.57||||0.0003||95.0|-23.8|-7.34|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-7.34|-23.80|0.0003
82565220|NCT00738400|164839657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.33|||<|0.0001||95.0|-37.24|-17.43|||ANCOVA|||ANCOVA, baseline covariate, endpoint week 8 or LOCF. Factors: treatment, pooled centers. Ls mean at endpoint||-17.43|-37.24|<0.0001
82565221|NCT01542502|164839666|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
82565222|NCT01542502|164839667|SUPERIORITY_OR_OTHER|||||||0.87|||||||ANOVA|||||||0.87
82565223|NCT01052714|164839673|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82565224|NCT01052714|164839674|SUPERIORITY|||||||0.718|||||||Mixed Models Analysis|||||||0.718
82565225|NCT01052714|164839675|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82565226|NCT01052714|164839676|SUPERIORITY|||||||0.676|||||||Mixed Models Analysis|||||||0.676
82565227|NCT01052714|164839677|SUPERIORITY|||||||0.141|||||||Mixed Models Analysis|||||||0.141
82565228|NCT01052714|164839678|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
82565229|NCT01052714|164839679|SUPERIORITY|||||||0.322|||||||Mixed Models Analysis|||||||0.322
82565230|NCT01052714|164839680|SUPERIORITY|||||||0.652|||||||Mixed Models Analysis|||||||0.652
82565231|NCT01052714|164839681|SUPERIORITY|||||||0.663|||||||Mixed Models Analysis|||||||0.663
82565232|NCT01052714|164839682|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.9
82565233|NCT01052714|164839683|SUPERIORITY|||||||0.415|||||||Mixed Models Analysis|||||||0.415
82565234|NCT01052714|164839684|SUPERIORITY|||||||0.687|||||||Mixed Models Analysis|||||||0.687
82565235|NCT01052714|164839685|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
82565236|NCT01052714|164839686|SUPERIORITY|||||||0.059|||||||Mixed Models Analysis|||||||0.059
82565237|NCT01052714|164839687|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
82565238|NCT01052714|164839688|SUPERIORITY|||||||0.146|||||||Mixed Models Analysis|||||||0.146
82565239|NCT01052714|164839689|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82565240|NCT01052714|164839690|SUPERIORITY|||||||0.763|||||||Mixed Models Analysis|||||||0.763
82565241|NCT02168153|164839697|SUPERIORITY||Mean Difference (Final Values)|-3.49||||0.76|TWO_SIDED|95.0|-25.75|18.77|||ANCOVA|adjusted for age||Between group differences||18.77|-25.75|0.76
82565242|NCT02168153|164839698|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.92|TWO_SIDED|95.0|-18.04|19.98|||ANCOVA|adjusted for age||Between group differences||19.98|-18.04|0.92
82565243|NCT02168153|164839699|SUPERIORITY||Mean Difference (Final Values)|3.49||||0.7|TWO_SIDED|95.0|-14.4|21.39|||ANCOVA|adjusted for age||Between group differences||21.39|-14.4|0.70
82565244|NCT02168153|164839700|SUPERIORITY||Mean Difference (Final Values)|0.988||||0.15|TWO_SIDED|95.0|-0.373|2.349|||ANCOVA|adjusted for age||Between group differences||2.349|-0.373|0.15
82565245|NCT02168153|164839701|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.32|TWO_SIDED|95.0|-1.24|0.41|||ANCOVA|adjusted for age||Between group differences||0.41|-1.24|0.32
82565246|NCT02168855|164839702|SUPERIORITY||Odds Ratio (OR)|1.39||||0.46|TWO_SIDED|95.0|0.58|3.29|||Regression, Logistic|This is a logistic regression model of the active versus placebo arm, while controlling for age and cigarettes smoked per day at enrollment.|The active arm is the numerator and the placebo arm is the denominator of the odds ratio|||3.29|0.58|0.46
82565247|NCT02168855|164839703|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.0001|TWO_SIDED|95.0|1.83|1.98|||Mixed Models Analysis|Includes random subject intercept effect|Reflects an odds ratio relative to a 10-unit increase in craving. Temptations are the numerator and background is the denominator.|||1.98|1.83|<0.0001
82565248|NCT02168855|164839704|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.0001|TWO_SIDED|95.0|1.51|1.83|||Mixed Models Analysis|Includes random subject intercept effect|Reflects an odds ratio relative to a 10-unit increase in negative affect T-score. Temptations are the numerator and background is the denominator.|||1.83|1.51|<0.0001
82565249|NCT02168855|164839705|SUPERIORITY||Odds Ratio (OR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.14|0.21|||Regression, Logistic|Includes random subject intercept effect|Odds ratio where temptations are the numerator and background is the denominator, that no smoking cues were seen.|||0.21|0.14|<0.0001
82565250|NCT02168855|164839706|SUPERIORITY||Odds Ratio (OR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.15|0.23|||Regression, Logistic||Odds ratio where temptations are the numerator and background is the denominator, that no other people were seen smoking nearby.|||0.23|0.15|<0.0001
82627012|NCT00671970|164968848|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82627013|NCT00671970|164968849|SUPERIORITY_OR_OTHER|||||||0.613||95.0|||||Fisher Exact|||||||.613
82627014|NCT00671970|164968850|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82627015|NCT00671970|164968851|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82627016|NCT00671970|164968852|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82627017|NCT00671970|164968853|SUPERIORITY_OR_OTHER|||||||0.179||95.0|||||Wilcoxon (Mann-Whitney)|||||||.179
82627018|NCT00671970|164968854|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||||||.008
82627019|NCT00633893|164968883|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3283|||<|0.0001|TWO_SIDED|95.0|0.2225|0.4844||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced VTE/all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.4844|0.2225|<0.0001
82627020|NCT00633893|164968883|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3615|||<|0.0001|TWO_SIDED|95.0|0.2475|0.5281||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced VTE/all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat principle.||0.5281|0.2475|<0.0001
82627021|NCT00633893|164968884|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2891|||<|0.0001|TWO_SIDED|95.0|0.1902|0.4395||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/VTE-related death to proportion of placebo participants with VTE/ VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/ VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.4395|0.1902|<0.0001
82627022|NCT00633893|164968884|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3774|||<|0.0001|TWO_SIDED|95.0|0.2577|0.5525||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/VTE-related death to proportion of placebo participants with VTE/ VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/ VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.5525|0.2577|<0.0001
82627023|NCT00633893|164968885|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2422|||<|0.0001|TWO_SIDED|95.0|0.1476|0.3975||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.3975|0.1476|<0.0001
82627024|NCT00633893|164968885|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.1861|||<|0.0001|TWO_SIDED|95.0|0.1062|0.3261||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/all cause mortality to proportion of placebo participants with VTE/all cause mortality equal to 1.0. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.3261|0.1062|<0.0001
82627025|NCT00633893|164968886|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2799|||<|0.0001|TWO_SIDED|95.0|0.1844|0.4247||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/CV-related death to proportion of placebo participants with VTE/CV-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.4247|0.1844|<0.0001
82627026|NCT00633893|164968886|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3653|||<|0.0001|TWO_SIDED|95.0|0.25|0.5338||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE/CV-related death to proportion of placebo participants with VTE/CV-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE/CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.5338|0.2500|<0.0001
82627027|NCT00633893|164968887|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2615|||<|0.0001|TWO_SIDED|95.0|0.1593|0.4292||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal DVT to proportion of placebo participants with nonfatal DVT equal to 1.0. Participants with missing data were assumed to have experienced nonfatal DVT. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, Intent to treat (ITT) principle.||0.4292|0.1593|<0.0001
82627028|NCT00633893|164968887|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3972|||<|0.0001|TWO_SIDED|95.0|0.2595|0.6079||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal DVT to proportion of placebo participants with nonfatal DVT equal to 1.0. Participants with missing data were assumed to have experienced nonfatal DVT. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||0.6079|0.2595|<0.0001
82506671|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506672|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506673|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 3, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0002
82506674|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0102|||||||mixed effect model|||Month 3, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0102
82506675|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506676|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506677|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0001
82506678|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0012|||||||mixed effect model|||Month 6, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0012
82506679|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506680|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506681|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0026|||||||mixed effect model|||Month 9, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0026
82506682|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.0161|||||||mixed effect model|||Month 9, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0161
82506683|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, RRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82506684|NCT01480076|164704575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, SPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||<0.0001
82565251|NCT00627523|164839753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|0.82|1.59||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference in the mean change from Baseline after 24 months in height SDS between the Genotropin® and the untreated control groups. The alternative hypothesis was that there was a difference between the treatment groups.||1.59|0.82|<0.001
82565252|NCT00627523|164839754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.81||0.348|TWO_SIDED|95.0|-0.87|2.42||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||2.42|-0.87|0.348
82565253|NCT00627523|164839755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|0.55|1.23||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||1.23|0.55|<0.001
82565254|NCT00627523|164839756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|1.63|4.85||ANCOVA model, fitting treatment as a factor, and the baseline parameter value as covariate was used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||4.85|1.63|<0.001
82506685|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.1151|||||||mixed effect model|||Month 12, PPMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.1151
82506686|NCT01480076|164704575|SUPERIORITY_OR_OTHER|||||||0.004|||||||mixed effect model|||Month 12, PRMS. Mixed effect model for repeated measures with visit, baseline of percentage of regular activity productivity loss, MS type, age, gender, country, visit and MS type interaction, baseline EDSS score and total number of relapses experienced within the past 12 months as fixed effects. An unstructured covariance was used to model within-participant error.||||0.0040
82506687|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506688|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.6769|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6769
82506689|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506690|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.578|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5780
82506691|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|3.4|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565255|NCT00627523|164839757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|7.19||0.738|TWO_SIDED|95.0|-12.27|17.12||ANCOVA model, fitting treatment as a factor, and the baseline parameter value, age, and gender as covariates were used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||17.12|-12.27|0.738
82565256|NCT00627523|164839758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51|STANDARD_ERROR_OF_MEAN|4.27||0.301|TWO_SIDED|95.0|-13.27|4.26||ANCOVA model, fitting treatment as a factor, and the baseline parameter value, age, and gender as covariates were used. All hypotheses were tested at a 5% level of significance.|ANCOVA|No adjustments were made for multiple comparisons.||The null hypothesis was that there was no difference between the Genotropin® and the untreated control group in terms of the relevant secondary endpoints. The alternative hypothesis was that a difference existed.||4.26|-13.27|0.301
82565257|NCT00376935|164839764|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-9.0||||0.1996|ONE_SIDED|98.4||14.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (20 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (20 mcg/kg) arm.||14||0.1996
82565258|NCT00376935|164839764|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-4.0||||0.3135|ONE_SIDED|98.4||17.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (40 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (40 mcg/kg) arm.||17||0.3135
82565259|NCT00376935|164839764|SUPERIORITY_OR_OTHER_LEGACY||Shift parameter|-4.0||||0.3662|ONE_SIDED|98.4||22.0||P-value reported here was not adjusted for multiple comparisons. A 98.4% confidence upper bound for the shift parameter for each comparison adjusted the multiple comparison issues and restricted the familywise Type I error rate at 0.05.|Wilcoxon (Mann-Whitney)|One-sided Wilcoxon rank sum test was used to test the null hypothesis.A 98.4% confidence upper bound for the primary shift parameter was calculated.|The shift parameter (say, X), was calculated as the difference between the distribution of the primary endpoint in the placebo arm and that of in the palifermin arm. X\<0 indicates that palifermen is beneficial.|The null hypothesis is that the distribution of the change in absolute CD4+ lymphocyte counts from baseline to week 12 is the same in the placebo arm and palifermin (60 mcg/kg) arm. The 1-sided alternative hypothesis is that the endpoint distribution is shifted higher in the palifermin (60 mcg/kg) arm.||22||0.3662
82565260|NCT05129592|164839779|SUPERIORITY||Mean Difference (Final Values)|15.71|STANDARD_ERROR_OF_MEAN|7.3||0.095|TWO_SIDED|95.0|-1.87|33.3||Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective control and Nicotine corrective with both components of coherence|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective control to the Nicotine corrective with both components of coherence|||33.30|-1.87|0.095
82565261|NCT05129592|164839779|SUPERIORITY||Mean Difference (Final Values)|18.67|STANDARD_ERROR_OF_MEAN|7.3||0.022|TWO_SIDED|95.0|2.02|35.33||Sidak's adjustment for multiple comparisons|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective control to the Nicotine corrective with both components of coherence|Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective with causal explanation and Nicotine corrective with both components of coherence||35.33|2.02|0.022
82627029|NCT00633893|164968888|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6087||||0.1084|TWO_SIDED|95.0|0.3653|1.0145||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal PE to proportion of placebo participants with nonfatal PE equal to 1.0. Participants with missing data were assumed to have experienced nonfatal PE. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.0145|0.3653|0.1084
82627030|NCT00633893|164968888|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6846||||0.1329|TWO_SIDED|95.0|0.4164|1.1257||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with nonfatal PE to proportion of placebo participants with nonfatal PE equal to 1.0. Participants with missing data were assumed to have experienced nonfatal PE. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1257|0.4164|0.1329
82627031|NCT00633893|164968889|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.647||||0.3059|TWO_SIDED|95.0|0.3543|1.1813||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE-related death to proportion of placebo participants with VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1813|0.3543|0.3059
82627032|NCT00633893|164968889|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9416||||0.8288|TWO_SIDED|95.0|0.5458|1.6245||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with VTE-related death to proportion of placebo participants with VTE-related death equal to 1.0. Participants with missing data were assumed to have experienced VTE-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.6245|0.5458|0.8288
82627033|NCT00633893|164968890|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5794||||0.1316|TWO_SIDED|95.0|0.3215|1.0443||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with CV-related death to proportion of placebo participants with CV-related death equal to 1.0. Participants with missing data were assumed to have experienced CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.0443|0.3215|0.1316
82627034|NCT00633893|164968890|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8433||||0.5288|TWO_SIDED|95.0|0.4959|1.4341||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with CV-related death to proportion of placebo participants with CV-related death equal to 1.0. Participants with missing data were assumed to have experienced CV-related death. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.4341|0.4959|0.5288
82627035|NCT00633893|164968891|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6577||||0.2361|TWO_SIDED|95.0|0.3874|1.1169||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with all cause mortality to proportion of placebo participants with all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.1169|0.3874|0.2361
82627036|NCT00633893|164968891|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7708||||0.3155|TWO_SIDED|95.0|0.4631|1.2832||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with all cause mortality to proportion of placebo participants with all cause mortality equal to 1.0. Participants with missing data were assumed to have experienced all cause mortality. Events occurring anytime during the intended treatment period (12 months) were included regardless of whether the participant was on treatment or not or whether the participant ever took drug, ie, ITT principle.||1.2832|0.4631|0.3155
82627037|NCT00633893|164968893|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.485||||0.3925|TWO_SIDED|95.0|0.0891|2.6391||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major bleeding to proportion of placebo participants with major bleeding equal to 1.0. Treated participants with at least one dose of study drug were included.||2.6391|0.0891|0.3925
82627038|NCT00633893|164968893|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2457||||0.3551|TWO_SIDED|95.0|0.0269|2.2437||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major bleeding to proportion of placebo participants with major bleeding equal to 1.0. Participants treated with at least one dose of study drug were included.||2.2437|0.0269|0.3551
82627039|NCT00633893|164968894|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2027||||0.5148|TWO_SIDED|95.0|0.6897|2.0975||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major/clinically relevant non-major bleeding to proportion of placebo participants with major/clinically relevant non-major bleeding equal to 1.0.||2.0975|0.6897|0.5148
82627040|NCT00633893|164968894|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.616||||0.1412|TWO_SIDED|95.0|0.9554|2.7336||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with major/clinically relevant non-major bleeding to proportion of placebo participants with major/clinically relevant non-major bleeding equal to 1.0.||2.7336|0.9554|0.1412
82627041|NCT00633893|164968895|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2928||||0.3932|TWO_SIDED|95.0|0.7158|2.3348||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with clinically relevant non-major bleeding to proportion of placebo participants with clinically relevant non-major bleeding equal to 1.0.||2.3348|0.7158|0.3932
82627042|NCT00633893|164968895|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8235||||0.0621||95.0|1.047|3.176||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with clinically relevant non-major bleeding to proportion of placebo participants with clinically relevant non-major bleeding equal to 1.0.||3.1760|1.0470|0.0621
82627043|NCT00633893|164968896|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2579||||0.1691|TWO_SIDED|95.0|0.9064|1.7457||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with minor bleeding to proportion of placebo participants with minor bleeding equal to 1.0.||1.7457|0.9064|0.1691
82627044|NCT00633893|164968896|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6971||||0.0013|TWO_SIDED|95.0|1.2468|2.3102||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with minor bleeding to proportion of placebo participants with minor bleeding equal to 1.0.||2.3102|1.2468|0.0013
82627045|NCT00633893|164968897|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2374||||0.1466|TWO_SIDED|95.0|0.9276|1.6507||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with total bleeding to proportion of placebo participants with total bleeding equal to 1.0. Total bleeding was defined as any major, clinically relevant non-major, or minor bleeding.||1.6507|0.9276|0.1466
82627046|NCT00633893|164968897|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6468||||0.0005|TWO_SIDED|95.0|1.2552|2.1606||Hochberg adjusted p-value for superiority based on 2 hypotheses tests for apixaban 2.5mg group comparing with placebo group and for apixaban 5mg group comparing with placebo group.|Cochran-Mantel-Haenszel|||Null hypothesis is relative risk proportion of apixaban participants with total bleeding to proportion of placebo participants with total bleeding equal to 1.0. Total bleeding is any major, clinically relevant non-major, or minor bleeding.||2.1606|1.2552|0.0005
82627047|NCT02741310|164968905|OTHER|The clinical hypothesis was that there would be no clinically meaningful difference between the blood pressure effects of sumatriptan alone and the effects of a single dose of erenumab IV and sumatriptan concomitant therapy. A clinically meaningful difference was defined as the upper bound of the 90% confidence interval (CI) of treatment difference between erenumab IV and sumatriptan compared to sumatriptan alone being ≥ 5 mmHg on the time-weighted scale resting MAP.|LS Mean Difference|-0.04|||||TWO_SIDED|90.0|-2.16|2.08||||||A linear mixed effects regression analysis was performed to assess if the time-weighted average in MAP for erenumab with sumatriptan is similar to sumatriptan alone. A two-sided 90% confidence interval (equivalent to a one-sided upper 95% CI) for the mean treatment difference was calculated using a linear mixed-effects model with fixed effects for treatment and period and a random effect for subject.||2.08|-2.16|
82627048|NCT02741310|164968907|OTHER||Geometric Least Squares Mean Ratio|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.03|0.93|
82627049|NCT02741310|164968908|OTHER||Geometric Least Squares Mean Ratio|1.0|||||TWO_SIDED|90.0|0.96|1.05||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.05|0.96|
82627050|NCT02741310|164968909|OTHER||Geometric Least Squares Mean Ratio|0.95|||||TWO_SIDED|90.0|0.82|1.09||||||The mean for each treatment was compared using a linear mixed effects model with group A (sumatriptan alone) as the reference treatment group. The linear mixed effects model included treatment (erenumab with sumatriptan vs sumatriptan alone) and period as a fixed effect and subject as a random effect.||1.09|0.82|
82627051|NCT03417505|164968968|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|Paired t-test comparison||||||<0.01
82627052|NCT03417505|164968969|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank comparisons, one-sided||||||<0.05
82627053|NCT03417505|164968970|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|paired 1-sided t-test||||||<0.01
82627054|NCT03417505|164968971|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank comparison, one sided p value||||||<0.01
82627055|NCT03417505|164968972|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05.|t-test, 1 sided|paired||||||>0.05
82627056|NCT03417505|164968973|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.05
82627057|NCT03417505|164968974|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.01
82627058|NCT03417505|164968975|SUPERIORITY||||||<|0.05||||||Calculated p value was \<0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||<0.05
82627059|NCT03417505|164968976|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05.|Wilcoxon (Mann-Whitney)|paired, 1-sided||||||>0.05
82627060|NCT01444898|164969004|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||.07
82627061|NCT01444898|164969005|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82627062|NCT01444898|164969006|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||.8
82627063|NCT01444898|164969007|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
82627064|NCT01444898|164969008|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||.8
82627065|NCT01444898|164969009|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||.2
82627066|NCT01444898|164969010|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||.2
82627067|NCT01444898|164969011|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
82627068|NCT01444898|164969012|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||.004
82627069|NCT01819506|164969088|SUPERIORITY|||||||0.912|||||||ANOVA|||||||0.912
82627070|NCT01784614|164969095|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.96||||0.908|TWO_SIDED|90.0|0.56|1.65|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 0.1 mg LY2624803 / Placebo.|||1.65|0.56|0.908
82627071|NCT01784614|164969095|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.67||||0.083|TWO_SIDED|90.0|0.45|0.98|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 1.0 mg LY2624803 / Placebo.|||0.98|0.45|0.083
82627072|NCT01784614|164969095|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.53||||0.01|TWO_SIDED|90.0|0.36|0.78|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 3.0 mg LY2624803 / Placebo.|||0.78|0.36|0.010
82627073|NCT01784614|164969095|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean|0.3|||<|0.001|TWO_SIDED|90.0|0.18|0.51|||Mixed Models Analysis||Ratio of Geometric LS mean is WASO of 6.0 mg LY2624803 / Placebo.|||0.51|0.18|<0.001
82627074|NCT01963780|164969115|SUPERIORITY|Performance goal is 65%.|Proportion|0.544||||0.9663|TWO_SIDED|95.0|0.428|0.657|||one-sided exact binomial test|||||0.657|0.428|0.9663
82627075|NCT01963780|164969116|OTHER|No statistical hypothesis testing|Proportion|0.167|||||TWO_SIDED|95.0|0.092|0.268||||||||0.268|0.092|
82627076|NCT01963780|164969117|OTHER|No statistical hypothesis testing|Proportion|0.064|||||TWO_SIDED|95.0|0.021|0.143||||||||0.143|0.021|
82627077|NCT01963780|164969118|OTHER|No statistical hypothesis testing|Mean|0.3|||||TWO_SIDED|95.0|0.1|0.4||||||||0.4|0.1|
82627078|NCT02754661|164969124|NON_INFERIORITY|The non-inferiority margin (δ) is pre-defined to be 5% in this study. Posterior Probability was based on Bayesian analysis.|Posterior Probability Bayesian analysis|0.9999|||||TWO_SIDED||||||||Support the claim of statistical non-inferiority of CCE vs CTC|||||
82627079|NCT02754661|164969125|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.3732|||<|0.0001|TWO_SIDED|90.0|0.203|0.5434|||Farrington-Manning test||Based on Farrington-Manning Method|||0.5434|0.2030|<0.0001
82627080|NCT02754661|164969126|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|-0.026||||0.019|TWO_SIDED|90.0|-0.0847|0.0327|||Farrington-Manning test||Based on Farrington-Manning Method|||0.0327|-0.0847|0.0190
82627081|NCT02754661|164969127|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.0023||||0.093|TWO_SIDED|90.0|-0.1249|0.1249|||Farrington-Manning test||Based on Farrington-Manning Method|||0.1249|-0.1249|0.0930
82627082|NCT02754661|164969128|NON_INFERIORITY|Non-inferiority margin was set as 10%|Risk Difference (RD)|0.0607||||0.0034|TWO_SIDED|90.0|-0.0371|0.1585|||Farrington-Manning test||Based on Farrington-Manning Method|||0.1585|-0.0371|0.0034
82627083|NCT01000025|164969129|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.506|TWO_SIDED|95.0|0.83|1.21||Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.1-sied p-value.|Log Rank|Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.||The trial was designed to detect a 25% deduction in risk of death with PF-804 with 90% power using a 1-sided 2.5% level significance test. The sample size was estimated as 720 patients.||1.21|0.83|0.506
82627084|NCT01000025|164969130|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.043|TWO_SIDED|95.0|0.61|1.03||1-sided p-value|Log Rank|Stratified by stratification factors at randomization except study center.||||1.03|0.61|0.043
82627085|NCT01000025|164969131|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.46|TWO_SIDED|95.0|0.67|1.44||1-sided pvalue|Log Rank|||||1.44|0.67|0.46
82627086|NCT01000025|164969132|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.55|0.79|||Log Rank|Stratified by stratification factors at randomization except study center, but included K-Ras mutation status.||||0.79|0.55|< 0.0001
82627087|NCT01000025|164969133|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.11||||0.001|TWO_SIDED|95.0|1.84|20.3|||Cochran-Mantel-Haenszel|||||20.3|1.84|0.001
82506692|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|4.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506693|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506694|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.8886|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8886
82506695|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506696|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.3221|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3221
82506697|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|3.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506698|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|5.3|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506699|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506700|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.4668|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4668
82506701|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565262|NCT05129592|164839779|SUPERIORITY||Mean Difference (Final Values)|3.69|STANDARD_ERROR_OF_MEAN|7.3||0.931|TWO_SIDED|95.0|-12.76|20.15||Sidak's adjustment for multiple comparisons|ANCOVA|Controlling for baseline nicotine misperception (df=4)|Comparing Nicotine corrective with reason for misperception to the Nicotine corrective with both components of coherence|Sidak's adjusted p-value contrasting marginal linear predictions for the Nicotine corrective with reason for misperception and Nicotine corrective with both components of coherence||20.15|-12.76|0.931
82565263|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|1.54||||0.402|TWO_SIDED|95.0|0.56|4.24|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||4.24|0.56|0.402
82565264|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|1.83||||0.292|TWO_SIDED|95.0|0.59|5.62|||Regression, Logistic||Odds of believing e-cigarettes are somewhat or much less harmful than cigarettes in the control condition/odds of believing e-cigarettes are somewhat or much less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||5.62|0.59|0.292
82565265|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|0.77||||0.571|TWO_SIDED|95.0|0.3|1.93|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs||1.93|0.30|0.571
82565266|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|1.98|STANDARD_ERROR_OF_MEAN|1.44||0.349|TWO_SIDED|95.0|0.47|8.26|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the control condition/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||8.26|0.47|0.349
82506702|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.5695|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5695
82506703|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|2.4|STANDARD_ERROR_OF_MEAN|0.88||0.0058|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0058
82506704|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|4.6|STANDARD_ERROR_OF_MEAN|1.4||0.001|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0010
82506705|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506706|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.204|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2040
82506707|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506708|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.6306|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6306
82506709|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|3.9|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non- responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565267|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|1.76|STANDARD_ERROR_OF_MEAN|1.07||0.355|TWO_SIDED|95.0|0.53|5.81|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||5.81|0.53|0.355
82442163|NCT03906656|164592770|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|0.843||0.301|TWO_SIDED|||||P-values not adjusted for multiple comparisons. P-values \< 0.05 used as threshold for statistical significance.|Wilcoxon Signed Rank Test|||Device. H0: the median of the population differences (C-Brace - KAFO) \<= 0|Wilcoxon Signed Rank Test V=1018.5, effect size r = 0.056, p=0.301|||0.301
82442164|NCT01945775|164592812|SUPERIORITY||Hazard Ratio, log|0.542|||<|0.0001|TWO_SIDED|95.0|0.413|0.711|||Log Rank|||Hazard ratio was based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||0.711|0.413|<0.0001
82565268|NCT05129592|164839780|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.42||0.591|TWO_SIDED|95.0|0.24|2.25|||Regression, Logistic||Odds of believing e-cigarettes are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing e-cigarettes are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on e-cigarette relative harm beliefs controlling for baseline beliefs and e-cigarette use||2.25|0.24|0.591
82565269|NCT05129592|164839781|SUPERIORITY|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.99||0.98|TWO_SIDED|95.0|0.13|7.27|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the control condition/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|||7.27|0.13|0.980
82565270|NCT05129592|164839781|SUPERIORITY||Odds Ratio (OR)|0.47|STANDARD_ERROR_OF_MEAN|0.41||0.382|TWO_SIDED|95.0|0.09|2.56|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs||2.56|0.09|0.382
82565271|NCT05129592|164839781|SUPERIORITY||Odds Ratio, log|0.83|STANDARD_ERROR_OF_MEAN|0.79||0.846|TWO_SIDED|95.0|0.13|5.23|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs||5.23|0.13|0.846
82565272|NCT05129592|164839781|SUPERIORITY||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.05||0.99|TWO_SIDED|95.0|0.13|7.74|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the control condition/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||7.74|0.13|0.990
82565273|NCT05129592|164839781|SUPERIORITY||Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.46||0.458|TWO_SIDED|95.0|0.09|3.01|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||3.01|0.09|0.458
82565274|NCT05129592|164839781|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.7||0.754|TWO_SIDED|95.0|0.12|4.76|||Regression, Logistic||Odds of believing NRT is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing NRT is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on NRT relative harm beliefs controlling for NRT use||4.76|0.12|0.754
82565275|NCT05129592|164839782|SUPERIORITY||Odds Ratio, log|1.69|STANDARD_ERROR_OF_MEAN|0.78||0.256|TWO_SIDED|95.0|0.68|4.15|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the control condition/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||4.15|0.68|0.256
82565276|NCT05129592|164839782|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.43||0.961|TWO_SIDED|95.0|0.45|2.32|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||2.32|0.45|0.961
82506710|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|4.7|STANDARD_ERROR_OF_MEAN|1.51||0.002|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0020
82506711|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506712|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.4052|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4052
82506713|NCT01480076|164704576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506714|NCT01480076|164704576|SUPERIORITY_OR_OTHER|||||||0.8626|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8626
82506715|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|0.93||0.0004|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
82506716|NCT01480076|164704576|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|1.49||0.0263|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline PCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0263
82506717|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506718|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.8999|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8999
82506719|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506720|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.7156|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7156
82506721|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|2.9|STANDARD_ERROR_OF_MEAN|1.03||0.005|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0050
82506722|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|3.3|STANDARD_ERROR_OF_MEAN|1.68||0.049|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0490
82506723|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565277|NCT05129592|164839782|SUPERIORITY||Odds Ratio (OR)|0.67|STANDARD_ERROR_OF_MEAN|0.28||0.345|TWO_SIDED|95.0|0.3|1.53|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs||1.53|0.30|0.345
82565278|NCT05129592|164839782|SUPERIORITY||Odds Ratio (OR)|1.56|STANDARD_ERROR_OF_MEAN|0.76||0.36|TWO_SIDED|95.0|0.6|4.04|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the control condition/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||4.04|0.60|0.360
82565279|NCT05129592|164839782|SUPERIORITY||Odds Ratio (OR)|1.14|STANDARD_ERROR_OF_MEAN|0.5||0.765|TWO_SIDED|95.0|0.48|2.7|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||2.70|0.48|0.765
82565280|NCT05129592|164839782|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.27||0.252|TWO_SIDED|95.0|0.25|1.43|||Regression, Logistic||Odds of believing VLNC are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing VLNC are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on VLNC relative harm beliefs controlling for baseline beliefs and VLNC use||1.43|0.25|0.252
82565281|NCT05129592|164839783|SUPERIORITY||Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.2||0.077|TWO_SIDED|95.0|0.18|1.09|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the control condition/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs||1.09|0.18|0.077
82565282|NCT05129592|164839783|SUPERIORITY||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.4||0.853|TWO_SIDED|95.0|0.4|2.15|||Regression, Logistic|||Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs|Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|2.15|0.40|0.853
82565283|NCT05129592|164839783|SUPERIORITY||Odds Ratio, log|0.41|STANDARD_ERROR_OF_MEAN|0.18||0.037|TWO_SIDED|95.0|0.18|0.95|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with both components of coherence/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless tobacco relative harm beliefs||0.95|0.18|0.037
82565284|NCT05129592|164839783|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.33||0.349|TWO_SIDED|95.0|0.21|1.75|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the control condition/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||1.75|0.21|0.349
82565285|NCT05129592|164839783|SUPERIORITY||Odds Ratio (OR)|1.45|STANDARD_ERROR_OF_MEAN|0.74||0.464|TWO_SIDED|95.0|0.54|3.93|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||3.93|0.54|0.464
82627088|NCT04423757|164969135|OTHER||Adjusted mean difference|3.38|STANDARD_ERROR_OF_MEAN|3.1||0.2796|TWO_SIDED|90.0|-1.81|8.56|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||8.56|-1.81|0.2796
82627089|NCT04423757|164969136|OTHER||Odds Ratio (OR)|0.276||||0.0468|TWO_SIDED|90.0|0.091|0.781|||Regression, Logistic||For the calculation of the odds ratio Placebo is taken as reference.|Logistic regression includes treatment as covariate.||0.781|0.091|0.0468
82627090|NCT04423757|164969137|OTHER||Adjusted mean difference|1.35|STANDARD_ERROR_OF_MEAN|3.5||0.698|TWO_SIDED|90.0|-4.47|7.17|||Mixed Models Analysis||Difference calculated as BI - Placebo.|S-Anxiety scale - Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||7.17|-4.47|0.6980
82627091|NCT04423757|164969137|OTHER||Adjusted mean difference|3.54|STANDARD_ERROR_OF_MEAN|3.1||0.2589|TWO_SIDED|90.0|-1.67|8.76|||Mixed Models Analysis||Difference calculated as BI - Placebo.|T-Anxiety scale - Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||8.76|-1.67|0.2589
82627092|NCT04423757|164969138|OTHER||Adjusted mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.4||0.1863|TWO_SIDED|90.0|-0.13|1.15|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||1.15|-0.13|0.1863
82627093|NCT04423757|164969139|OTHER||Adjusted mean difference|0.65|STANDARD_ERROR_OF_MEAN|3.1||0.8326|TWO_SIDED|90.0|-4.46|5.76|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||5.76|-4.46|0.8326
82627094|NCT04423757|164969140|OTHER||Adjusted mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.4||0.5567|TWO_SIDED|90.0|-0.43|0.89|||Mixed Models Analysis||Difference calculated as BI - Placebo.|Mixed effects model for repeated measures (MMRM) with fixed effects of treatment, visit, treatment by visit interaction, baseline, and baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within-patient errors and Kenward-Roger approximation for denominator degrees of freedom.||0.89|-0.43|0.5567
82627095|NCT02738580|164969142|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|0.26|<|0.05|TWO_SIDED|||||The proportion of patients with elevated Progesterone on last day of stimulation(\>1.5 ng/mL) was compared between both groups using the Chi-square test.|t-test, 2 sided|||||||<0.05
82627096|NCT02738580|164969143|SUPERIORITY||||||<|0.49|||||||t-test, 1 sided|||||||<0.49
82627097|NCT00293241|164969221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.72|TWO_SIDED|95.0|0.612|1.405|||Log Rank||"Hospitalization:hospital admission with overnight stay;ER/office visits with cardioversions;acute treatment of worsened cardiac condition~CV:new/worsening HF,angina,MI,arrhythmia,stroke, TIA,acute peripheral vascular emergencies,pulmonary embolism"|"Analysis:Time to first cardiovascular hospitalization (CV hosp)~H0:freedom from CV hosp MVP=freedom from CV hosp DDD (dual chamber conventional pacing)~Ha:freedom from CV hosp MVP≠freedom from CV hosp DDD~Power calculation:~The study is designed to detect a difference event-free survival after 2 years of 5.5 % absolute, going from 91.5% to 97%.~Test=two-sided alpha=0.05 power=80% 1:1 randomization n=600"||1.405|0.612|0.72
82627098|NCT00293241|164969222|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.127||||0.48|TWO_SIDED|95.0|0.808|1.57|||Log Rank|||"Analysis:Time to first all cause death or cardiovascular hospitalization~H0:freedom from death or CV hospitalization=freedom from death or CV hospitalization~Ha:freedom from death or CV hospitalization≠freedom from death or CV hospitalization"||1.570|0.808|0.48
82627099|NCT00293241|164969223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.521||||0.08|TWO_SIDED|95.0|0.954|2.424|||Log Rank|||Analysis:Time to first persistent AT/AF H0:freedom from persistent AT/AF=freedom from persistent AT/AF Ha:freedom from persistent AT/AF≠freedom from persistent AT/AF||2.424|0.954|0.08
82627100|NCT00293241|164969224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.425||||0.44|TWO_SIDED|95.0|0.573|3.543|||Log Rank|||Analysis:Time to permanent AF H0:freedom from permanent AF=freedom from permanent AF Ha:freedom from permanent AF≠freedom from permanent AF||3.543|0.573|0.44
82627101|NCT00293241|164969225|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Analysis:Wilcoxon Test for Comparison of Percentage of Ventricular Pacing (%VP) During Followup by Randomization Arm~H0:distribution %VP MVP=distribution %VP DDD~Ha:distribution %VP MVP≠distribution %VP DDD~Ha:"||||<0.0001
82627102|NCT00293241|164969226|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Regression, Linear|||||||0.048
82627103|NCT00293241|164969228|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|95.0|||||Repeated measures logistic regression|||Analysis:Repeated measures logistic regression||||0.78
82627104|NCT00293241|164969229|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Beta-blockers=Change in Beta-blockers Ha:Change in Beta-blockers≠Change in Beta-blockers||||0.34
82627105|NCT00293241|164969229|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Digitalis/digoxin=Change in Digitalis/digoxin Ha:Change in Digitalis/digoxin≠Change in Digitalis/digoxin||||0.65
82627106|NCT00293241|164969229|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Calcium antagonists=Change in Calcium antagonists Ha:Change in Calcium antagonists≠Change in Calcium antagonists||||0.55
82627107|NCT00293241|164969229|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Regression, Logistic|||Analysis:Repeated measures logistic regression H0:Change in Antiarrhythmic drug=Change in Antiarrhythmic drug Ha:Change in Antiarrhythmic drug≠Change in Antiarrhythmic drug||||0.53
82627108|NCT00293241|164969231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.243||||0.33|TWO_SIDED|95.0|0.803|1.923|||Log Rank|||"Analysis:Time to all-cause death~H0:survival MVP ON=survival MVP OFF Ha:survival MVP ON≠survival MVP OFF"||1.923|0.803|0.33
82627109|NCT00293241|164969232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.492||||0.24|TWO_SIDED|95.0|0.148|1.637|||Log Rank|||||1.637|0.148|0.24
82506724|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.274|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2740
82506725|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506726|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.5556|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5556
82506727|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|5.2|STANDARD_ERROR_OF_MEAN|1.15|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506728|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|3.7|STANDARD_ERROR_OF_MEAN|1.88||0.0476|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0476
82506729|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506730|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.8627|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8627
82506731|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506732|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.4312|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4312
82506733|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|1.27||0.0305|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0305
82506734|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|2.6|STANDARD_ERROR_OF_MEAN|2.03||0.2059|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2059
82506735|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.0008|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0008
82627110|NCT00293241|164969233|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Statistical test for Number of subjects with CV hospitalization||||0.83
82627111|NCT00293241|164969236|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in P-R interval=Change in P-R interval Ha:Change in P-R interval≠Change in P-R interval||||0.34
82627112|NCT00293241|164969236|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in QRS duration=Change in QRS duration Ha:Change in QRS duration≠Change in QRS duration||||0.19
82627113|NCT00293241|164969236|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0:Change in P-wave duration=Change in P-wave duration Ha:Change in P-wave duration≠Change in P-wave duration||||0.29
82627114|NCT00293241|164969237|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|95.0|||||Fisher Exact|||No Symptoms (Baseline)||||0.24
82506736|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.3685|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3685
82506737|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.0016|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0016
82565286|NCT05129592|164839783|SUPERIORITY||Odds Ratio (OR)|0.5|STANDARD_ERROR_OF_MEAN|0.26||0.187|TWO_SIDED|95.0|0.18|1.4|||Regression, Logistic||Odds of believing smokeless tobacco is less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing smokeless tobacco is less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on smokeless relative harm beliefs controlling for baseline beliefs and smokeless tobacco use||1.40|0.18|0.187
82565287|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|1.06|STANDARD_ERROR_OF_MEAN|0.66||0.925|TWO_SIDED|95.0|0.31|3.62|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the control condition/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||3.62|0.31|0.925
82565288|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|0.66|STANDARD_ERROR_OF_MEAN|0.43||0.525|TWO_SIDED|95.0|0.19|2.35|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||2.35|0.19|0.525
82565289|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.44||0.586|TWO_SIDED|95.0|0.21|2.4|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Unadjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs||2.40|0.21|0.586
82565290|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.71||0.883|TWO_SIDED|95.0|0.31|3.9|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the control condition/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective control compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||3.90|0.31|0.883
82565291|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|0.66|STANDARD_ERROR_OF_MEAN|0.44||0.534|TWO_SIDED|95.0|0.18|2.41|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with causal explanation/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with causal explanation compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||2.41|0.18|0.534
82565292|NCT05129592|164839784|SUPERIORITY||Odds Ratio (OR)|0.76|STANDARD_ERROR_OF_MEAN|0.48||0.661|TWO_SIDED|95.0|0.22|2.62|||Regression, Logistic||Odds of believing cigarillos are less harmful than cigarettes in the Nicotine corrective with reason for misperception/odds of believing cigarillos are less harmful than cigarettes in the condition with both component of coherence|Adjusted logistic regression showing the effect of condition (Nicotine corrective with reason for misperception compared to the Nicotine corrective with both components of coherence (reference group)) on cigarillo relative harm beliefs controlling for smokeless tobacco use||2.62|0.22|0.661
82565293|NCT05129592|164839785|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|4.66||0.965|TWO_SIDED|95.0|-9.25|13.19|||ANCOVA|Sidak's adjusted p-value (df=4)|Nicotine corrective control - Nicotine corrective with both components of coherence|ANCOVA adjusted for baseline consideration of switching||13.19|-9.25|0.965
82565294|NCT05129592|164839785|SUPERIORITY||Mean Difference (Final Values)|1.57|STANDARD_ERROR_OF_MEAN|4.44||0.979|TWO_SIDED|95.0|-9.13|12.27|||ANCOVA|Sidak's adjusted p-value (df=4)||ANCOVA adjusted for baseline consideration of switching|Nicotine corrective with causal explanation - Nicotine corrective with both components of coherence|12.27|-9.13|0.979
82627115|NCT00293241|164969237|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Fisher Exact|||No Symptoms (12 months)||||0.92
82627116|NCT00293241|164969237|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||No Symptoms (24 Months)||||1.0
82627117|NCT00293241|164969238|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82639459|NCT02129192|164993954|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.4|||||TWO_SIDED|90.0|99.7|103.13|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||103.13|99.70|
82627118|NCT00583661|164969240|NON_INFERIORITY_OR_EQUIVALENCE|Sample size determination: A sample of 24 subjects followed for approximately 100 days provides greater than 80% power to conclude that, with a 1-sided alpha=0.025 test, the SAE rate of the EXCOR (assumed to be 0.21 per patient-day) is less than 0.25 per patient-day. This sample size was estimated using 10,000 simulations of this study. A total enrollment of 48 subjects (24 per cohort) were enrolled and implanted with the EXCOR® Pediatric.|Poisson confidence interval|0.25|||<|0.05|TWO_SIDED|95.0|0.0|0.25||A Poisson exact confidence interval was calculated and the critical-value method was used for the significance testing. Success was defined as the upper bound of the 95% Poisson exact confidence interval being less than 0.25.|Poisson confidence interval|||Ho: EXCOR® SAE Rate \>=0.25 Ha: EXCOR® SAE Rate \< 0.25 Where serious adverse event (SAE) rate is calculated as the total number of serious adverse events divided by the sum of days all patients are on the EXCOR® Pediatric device, and 0.25 serious adverse events per patient-day is the success criterion. Study success in terms of safety will be demonstrated by the upper bound of a two-sided 95% Poisson exact confidence interval being less than 0.25.||0.25|0|<0.05
82627119|NCT01270958|164969242|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627120|NCT01270958|164969243|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627121|NCT01270958|164969244|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627122|NCT01270958|164969245|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627123|NCT01270958|164969246|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627124|NCT01270958|164969247|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627125|NCT01270958|164969248|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627126|NCT01270958|164969249|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627127|NCT01270958|164969250|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||<0.01
82627128|NCT01270958|164969251|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627129|NCT01270958|164969252|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627130|NCT01270958|164969253|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627131|NCT01270958|164969254|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627132|NCT01270958|164969255|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627133|NCT01270958|164969256|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627134|NCT01270958|164969257|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627135|NCT01270958|164969258|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627136|NCT01270958|164969259|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627137|NCT01270958|164969260|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Comparison between Screening value and Visit 3 value|t-test, 2 sided|||||||>0.05
82627138|NCT02009930|164969296|OTHER||Wilson Method used|16.0|||||TWO_SIDED|95.0|9.4|22.9||||||||22.9|9.4|
82627139|NCT02009930|164969297|OTHER||||||||||||||||||Only descriptive statistics were calculated (frequency, percent). Inferential statistics were not necessary, nor appropriate|||
82627140|NCT02009930|164969298|OTHER|||||||0.79||||||Correlation between FRS and CAC risk categories in participants with at least 1 additional risk factor expressed as a p-value|Spearman's Rank Correlation Coefficient|Correlation between FRS and CAC risk categories in participants with at least 1 additional risk factor. Spearman's rho = 0.04||Compare risk categories (FRS and CAC)||||0.79
82627141|NCT02009930|164969299|OTHER|||||||0.063||||||Relationship between FRS and metabolic syndrome. FRS risk category (low, mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||FRS risk category (low, mod, mod-high, high, very high risk)||||0.063
82627142|NCT02009930|164969299|OTHER|||||||0.21||||||Relationship between CAC and metabolic syndrome. CAC risk category (low, low-mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high)||||0.21
82627143|NCT02009930|164969300|OTHER|||||||0.56||||||Relationship between FRS and living in the dorms. FRS risk category (low, mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||FRS risk categories (low, moderate, mod -high, high, and very high)||||0.56
82627144|NCT02009930|164969300|OTHER|||||||0.13||||||Relationship between CAC and living in the dorms. CAC risk category (low, low-mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||CAC risk category (low, low-mod, moderate - high, high, and very high)||||0.13
82627145|NCT02009930|164969301|OTHER|||||||0.44||||||Relationship between FRS and PT failures. FRS risk category (low, mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, PT failure - with/without PT failure) expressed as a p-value||FRS risk categories (low, moderate, moderate-high, high, and very high)||||0.44
82627146|NCT02009930|164969301|OTHER|||||||0.49||||||Relationship between CAC and PT failures. CAC risk category (low, low-mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, PT failure - with/without PT failure) expressed as a p-value||CAC risk categories (low, low-moderate, mod -high, high, and very high)||||0.49
82627147|NCT02009930|164969302|OTHER|||||||0.11||||||Relationship between FRS and overall years of service. FRS risk category (low, mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (FRS - each risk category, overall years of service) expressed as a p-value||FRS risk categories (low, moderate, moderate -high, high, and very high)||||0.11
82627148|NCT02009930|164969302|OTHER|||||||0.003||||||Relationship between CAC and overall years of service. CAC risk category (low, low-mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, overall years of service) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high risk)||||0.003
82627149|NCT02009930|164969304|OTHER|||||||0.21||||||Relationship between CAC and metabolic syndrome. CAC risk category (low, low-mod, mod-high, high, very high risk) and metabolic syndrome (presence/absence of metabolic syndrome)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, metabolic syndrome - presence/absence) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high)||||0.21
82627150|NCT02009930|164969305|OTHER|||||||0.13||||||Relationship between CAC and living in the dorms. CAC risk category (low, low-mod, mod-high, high, very high risk) and living in the dorms (\< 5 years, \> 5 years)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, living in the dorms - \<5 years/\> 5 years) expressed as a p-value||CAC risk category (low, low-mod, moderate - high, high, and very high)||||0.13
82627151|NCT02009930|164969306|OTHER|||||||0.49||||||Relationship between CAC and PT failures. CAC risk category (low, low-mod, mod-high, high, very high risk) and PT failures (with, without PT failure)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, PT failure - with/without PT failure) expressed as a p-value||CAC risk categories (low, low-moderate, mod -high, high, and very high)||||0.49
82627152|NCT02009930|164969307|OTHER|||||||0.003||||||Relationship between CAC and overall years of service. CAC risk category (low, low-mod, mod-high, high, very high risk) and overall years of service (15-19, 20-24, 25+)|Fisher Exact|Relationship between 2 variables (CAC - each risk category, overall years of service) expressed as a p-value||CAC risk category (low, low-mod, mod-high, high, very high risk)||||0.003
82627153|NCT05516134|164969345|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||baseline vs. treatment, paired sample t-test||||<0.01
82627154|NCT05516134|164969346|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
82627155|NCT05516134|164969347|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
82627156|NCT05516134|164969348|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
82627157|NCT05516134|164969349|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
82627158|NCT05516134|164969350|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||.11
82627159|NCT05516134|164969351|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
82627160|NCT05516134|164969352|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82627161|NCT01094808|164969419|SUPERIORITY_OR_OTHER||mean value for 200 mg Pregabalin|33.391|STANDARD_DEVIATION|22.106||0.14||95.0||||P-value not adjusted for multiple comparisons; alpha level of 0.05 used|ANCOVA||A confidence interval was not calculated|ANCOVA for overall treatment effects||||0.14
82627162|NCT01094808|164969420|SUPERIORITY_OR_OTHER||mean value for 200 mg Pregabalin|35.301|STANDARD_DEVIATION|22.295||0.12||95.0||||P-value not adjusted for multiple comparisons; alpha level of 0.05 used|ANCOVA||A confidence interval was not calculated|ANCOVA for overall treatment effects||||0.12
82627163|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-1.25||||0.3551|TWO_SIDED|90.0|-7.01|4.5|||ANOVA|||||4.50|-7.01|0.3551
82627164|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-1.32||||0.3474|TWO_SIDED|90.0|-7.08|4.48|||ANOVA|||||4.48|-7.08|0.3474
82627165|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-1.67||||0.3105|TWO_SIDED|90.0|-7.42|4.09|||ANOVA|||||4.09|-7.42|0.3105
82627166|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-6.25||||0.1346|TWO_SIDED|90.0|-15.8|3.27|||ANOVA|||||3.27|-15.8|0.1346
82627167|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-10.1||||0.0416|TWO_SIDED|90.0|-19.6|-0.56|||ANOVA|||||-0.56|-19.6|0.0416
82627168|NCT01263314|164969425|OTHER||Mean Difference (Final Values)|-8.2||||0.0762|TWO_SIDED|90.0|-17.7|1.32|||ANOVA|||||1.32|-17.7|0.0762
82627169|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|0.47||||0.418|TWO_SIDED|90.0|-3.47|4.41|||ANOVA|||||4.41|-3.47|0.418
82627170|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|4.12||||0.0434|TWO_SIDED|90.0|0.18|8.05|||ANOVA|||||8.05|0.18|0.0434
82627171|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|7.79||||0.0019|TWO_SIDED|90.0|3.85|11.72|||ANOVA|||||11.72|3.85|0.0019
82627172|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|1.15||||0.2223|TWO_SIDED|90.0|-1.42|3.71|||ANOVA|||||3.71|-1.42|0.2223
82627173|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|4.25||||0.0056|TWO_SIDED|90.0|1.69|6.82|||ANOVA|||||6.82|1.69|0.0056
82627174|NCT01263314|164969426|OTHER||Mean Difference (Final Values)|5.4||||0.0012|TWO_SIDED|90.0|2.83|7.96|||ANOVA|||||7.96|2.83|0.0012
82627175|NCT01263314|164969428|OTHER||GMR (Elderly female/Elderly male)|1.23|||||TWO_SIDED|90.0|0.85|1.76|||||GMR = geometric mean ratio|||1.76|0.85|
82627176|NCT01263314|164969429|OTHER||GMR (Elderly female/Elderly male)|1.08|||||TWO_SIDED|90.0|0.88|1.33||||||||1.33|0.88|
82627177|NCT01263314|164969429|OTHER||GMR (Elderly female/Elderly male)|1.26|||||TWO_SIDED|90.0|1.02|1.55||||||||1.55|1.02|
82627178|NCT01263314|164969429|OTHER||GMR (Elderly female/Elderly male)|1.2|||||TWO_SIDED|90.0|0.98|1.48||||||||1.48|0.98|
82627179|NCT01263314|164969432|SUPERIORITY||MK-8266 0.3 mg vs. placebo|9.58||||0.0253|TWO_SIDED|90.0|1.69|17.46|||ANOVA|||||17.46|1.69|0.0253
82627180|NCT01263314|164969432|SUPERIORITY||MK-8266 0.6 mg vs. placebo|-2.59||||0.2856|TWO_SIDED|90.0|-10.5|5.29|||ANOVA|||||5.29|-10.5|0.2856
82627181|NCT01263314|164969432|SUPERIORITY||MK-8266 0.7 mg/ 0.3 mg vs. placebo|-4.06||||0.1895|TWO_SIDED|90.0|-11.9|3.82|||ANOVA|||||3.82|-11.9|0.1895
82627182|NCT01263314|164969432|SUPERIORITY||MK-8266 0.3 mg vs. placebo|-4.16||||0.1157|TWO_SIDED|90.0|-10.0|1.7|||ANOVA|||||1.70|-10.0|0.1157
82627183|NCT01263314|164969432|SUPERIORITY||MK-8266 0.6 mg vs. placebo|-11.7||||0.0018|TWO_SIDED|90.0|-17.5|-5.79|||ANOVA|||||-5.79|-17.5|0.0018
82627184|NCT01263314|164969432|SUPERIORITY||MK-8266 0.7 mg/ 0.3 mg vs. placebo|-10.6||||0.0034|TWO_SIDED|90.0|-16.5|-4.77|||ANOVA|||||-4.77|-16.5|0.0034
82627185|NCT00282568|164969433|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|94.97|||||TWO_SIDED|90.0|90.72|99.41|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||99.41|90.72|
82627186|NCT00282568|164969435|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|88.15|||||TWO_SIDED|90.0|82.69|93.96|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmax. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform Cmax prior to analysis and the results were transformed back to the original scale for the presentation of results.||93.96|82.69|
82627187|NCT00282568|164969436|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|87.2|||||TWO_SIDED|90.0|82.72|91.93|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (steady state was defined as days 1 and 7) and for tacrolimus MR (steady state was defined as days 14 and 21). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||91.93|82.72|
82627188|NCT00324272|164969454|SUPERIORITY_OR_OTHER|||||||0.704||95.0|||||t-test, 2 sided|||||||0.704
82627189|NCT00324272|164969454|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||t-test, 2 sided|||||||0.217
82627190|NCT00324272|164969456|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||t-test, 2 sided|||||||0.988
82627191|NCT00324272|164969456|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||t-test, 2 sided|||||||0.426
82627192|NCT00324272|164969457|SUPERIORITY_OR_OTHER|||||||0.351||95.0|||||Fisher Exact|||||||0.351
82627193|NCT00324272|164969457|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher Exact|||||||0.480
82627194|NCT00324272|164969458|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82627195|NCT00324272|164969458|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.400
82627196|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Local recurrence in the groin cohort.||||1.00
82627197|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||Fisher Exact|||In transit or regional recurrence in the groin cohort.||||0.301
82627198|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Fisher Exact|||Distant metastasis in the groin cohort (with the patient being alive at the end of the study follow-up period on 1.6.10).||||0.474
82627199|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||Fisher Exact|||Local recurrence in the groin cohort.||||0.606
82627200|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||In transit or regional recurrence in the axillary cohort.||||1.000
82627201|NCT00324272|164969459|SUPERIORITY_OR_OTHER|||||||0.486||95.0|||||Fisher Exact|||Distant metastasis in the axillary cohort (with the patient being alive at the end of the study follow-up period on 1.6.10).||||0.486
82627202|NCT00324272|164969460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.963|TWO_SIDED|95.0|0.4|2.58|||Regression, Cox|||Death from metastatic disease in the groin cohort.||2.58|0.40|0.963
82627203|NCT00324272|164969460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.338|TWO_SIDED|95.0|0.03|3.2|||Regression, Cox|||Death from an unrelated cause in the groin cohort.||3.20|0.03|0.338
82627204|NCT00324272|164969460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.88|TWO_SIDED|95.0|0.35|2.47|||Regression, Cox|||Death from metastatic disease in the axillary cohort.||2.47|0.35|0.880
82627205|NCT00324272|164969460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.923||||0.923|TWO_SIDED|95.0|0.05|13.95|||Regression, Cox|||Death from an unrelated cause in the axillary cohort.||13.95|0.05|0.923
82627206|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|0.831||0.0009|TWO_SIDED|95.0|1.13|4.39||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.39|1.13|0.0009
82627207|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|0.825||0.0001|TWO_SIDED|95.0|1.53|4.77||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.77|1.53|0.0001
82377555|NCT00486525|164462480|SUPERIORITY_OR_OTHER||Slope|2.5|STANDARD_ERROR_OF_MEAN|0.85||0.0045|TWO_SIDED|95.0|0.77|4.14|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of vitality (SF-36) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||4.14|0.77|0.0045
82627208|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.49|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|5.86|9.12||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||9.12|5.86|<0.0001
82627209|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.33|STANDARD_ERROR_OF_MEAN|0.832|<|0.0001|TWO_SIDED|95.0|1.69|4.96||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.96|1.69|<0.0001
82627210|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|STANDARD_ERROR_OF_MEAN|0.828||0.0003|TWO_SIDED|95.0|1.38|4.63||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.63|1.38|0.0003
82627211|NCT00563368|164969498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.75|STANDARD_ERROR_OF_MEAN|0.831|<|0.0001|TWO_SIDED|95.0|5.11|8.38||Intersection-union method applied in a step-down testing approach|ANCOVA|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||8.38|5.11|<0.0001
82627212|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.028|STANDARD_ERROR_OF_MEAN|0.5832||0.014|TWO_SIDED|95.0|1.154|3.563||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.563|1.154|0.0140
82627213|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.246|STANDARD_ERROR_OF_MEAN|0.6418||0.0046|TWO_SIDED|95.0|1.283|3.932||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.932|1.283|0.0046
82627214|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.623|STANDARD_ERROR_OF_MEAN|3.644|<|0.0001|TWO_SIDED|95.0|5.424|20.81||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||20.81|5.424|<0.0001
82627215|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.568|STANDARD_ERROR_OF_MEAN|0.7391||0.0011|TWO_SIDED|95.0|1.46|4.514||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.514|1.460|0.0011
82627216|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.166|STANDARD_ERROR_OF_MEAN|0.6158||0.0066|TWO_SIDED|95.0|1.241|3.781||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.781|1.241|0.0066
82627217|NCT00563368|164969499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.063|STANDARD_ERROR_OF_MEAN|3.0857|<|0.0001|TWO_SIDED|95.0|4.65|17.66||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With 100 subjects in each of the seven arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and monotherapy or placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||17.66|4.650|<0.0001
82627218|NCT03434041|164969528|SUPERIORITY||Difference of Least Square (LS) Means|-2.0||||0.123|TWO_SIDED|95.0|-4.64|0.55||2-sided|Mixed-effects Model for Repeated Measure|||||0.55|-4.64|0.123
82627219|NCT03434041|164969529|SUPERIORITY||Difference of LS Means|-3.3|||||TWO_SIDED|95.0|-5.33|-1.33||||||||-1.33|-5.33|
82627220|NCT03434041|164969530|SUPERIORITY||Difference of LS Means|-1.0|||||TWO_SIDED|95.0|-2.96|0.97||||||||0.97|-2.96|
82627221|NCT00444080|164969542|OTHER|||||||0.013|||||||Fisher Exact|||||||0.013
82627222|NCT02057068|164969544|SUPERIORITY||||||<|0.001|||||||ANOVA|Intention to treat analysis with last observation carried forward|||Partial Eta Squared = .282|||<.001
82627223|NCT02057068|164969545|SUPERIORITY|Intention to treat analysis with last observation carried forward|||||>|0.05|||||||ANOVA|||||||>.05
82627224|NCT02057068|164969546|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82627225|NCT03168555|164969570|EQUIVALENCE|compares visit 1 with visit 2||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82627226|NCT03168555|164969572|EQUIVALENCE|compares visit 1 with visit 2||||||0.63|||||||paired t-test|lognormalized values||compares visit 1 with visit 2||||0.63
82627227|NCT03168555|164969573|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82627228|NCT03168555|164969574|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82627229|NCT03168555|164969575|OTHER|Spearman correlation||||||0.41|||||||Spearman correlation|||||||0.41
82627230|NCT03168555|164969576|OTHER|Spearman correlation||||||0.35|||||||Spearman correlation|||||||0.35
82627231|NCT03168555|164969576|OTHER|||||||0.03|||||||Spearman correlation|||||||0.03
82627232|NCT03168555|164969577|EQUIVALENCE|comparing visit 1 with visit 2||||||0.36|||||||paired t-test|||||||0.36
82627233|NCT03168555|164969578|SUPERIORITY|||||||0.29|||||||paired t-test|||||||0.29
82627234|NCT03168555|164969579|OTHER|Spearman correlation||||||0.73|||||||Spearman correlation|||||||0.73
82627235|NCT03168555|164969579|OTHER|||||||0.77|||||||Spearman correlation|||||||0.77
82627236|NCT03168555|164969580|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
82627237|NCT04445688|164969612|SUPERIORITY||difference in Least Squares Mean|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.2|-4.4|||ANOVA|||||-4.4|-10.2|<0.0001
82627238|NCT04445688|164969613|SUPERIORITY||difference in Least Squares Mean|-21.8|||<|0.0001|TWO_SIDED|95.0|-29.5|-14.1|||ANOVA|||||-14.1|-29.5|<0.0001
82627239|NCT04445688|164969614|SUPERIORITY||difference in Least Squares Mean|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.5|-4.2|||ANOVA|||||-4.2|-10.5|<0.0001
82378361|NCT00535405|164465085|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|7.6|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0|4.31|13.42||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||13.42|4.31|<0.001
82627240|NCT01235507|164969623|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627241|NCT01235507|164969623|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627242|NCT01235507|164969623|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627243|NCT01235507|164969625|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627244|NCT01235507|164969625|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627245|NCT01235507|164969625|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627246|NCT01235507|164969626|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627247|NCT01235507|164969626|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627248|NCT01235507|164969626|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627249|NCT01235507|164969627|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627250|NCT01235507|164969627|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627251|NCT01235507|164969627|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627252|NCT01235507|164969628|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627253|NCT01235507|164969628|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627254|NCT01235507|164969628|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627255|NCT01235507|164969629|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627256|NCT01235507|164969629|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627257|NCT01235507|164969629|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627258|NCT01235507|164969630|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||<0.0005
82627259|NCT01235507|164969630|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 16||||<0.0005
82627260|NCT01235507|164969630|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Wilcoxon signed rank test|||Change from Baseline to Week 24||||<0.0005
82627261|NCT01815580|164969685|OTHER||||||>|0.75|||||||Chi-squared|||||||>0.75
82627262|NCT01815580|164969686|OTHER|||||||0.14|||||||t-test, 2 sided|||||||0.14
82627263|NCT01815580|164969687|OTHER||||||>|0.3|||||||Chi-squared|||||||>0.3
82627264|NCT01815580|164969688|OTHER||||||>|0.12|||||||Chi-squared|||||||>0.12
82627265|NCT01815580|164969689|OTHER||||||>|0.22|||||||Chi-squared|||||||>0.22
82627266|NCT00444964|164969690|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82627267|NCT00444964|164969691|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82627268|NCT00444964|164969692|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82627269|NCT01711658|164969693|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.3436|TWO_SIDED|95.0|0.56|1.46|||Log Rank|One-sided significance level = 0.1803|Reference level = IMRT + cisplatin + placebo|Hazard ratio (lapatinib/placebo) set at 0.65 (35% reduction), 1-sided alpha 0.20 (final test at 0.1803 accounting for 1 interim analysis), logrank test, 80% power, 69 events in 128 randomized (142 total enrolled) patients required. Final analysis at 67 (of 69) events drops power to 79%.||1.46|0.56|0.3436
82627270|NCT01711658|164969694|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.5836|TWO_SIDED|95.0|0.61|1.86|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||1.86|0.61|0.5836
82627271|NCT01711658|164969695|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.1743|TWO_SIDED|95.0|0.25|1.65|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||1.65|0.25|0.1743
82627272|NCT01711658|164969696|SUPERIORITY|||||||0.7989|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.7989
82627273|NCT01711658|164969697|SUPERIORITY|||||||0.3728||||||IMRT|Fisher Exact|Two-sided significance level = 0.05||||||0.3728
82627274|NCT01711658|164969697|OTHER|||||||0.7781||||||Cisplatin|Fisher Exact|Two-sided significance level = 0.05||||||0.7781
82627275|NCT01711658|164969697|OTHER|||||||0.8||||||Pre-IMRT lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.8000
82442165|NCT01945775|164592813|SUPERIORITY||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.93|8.83|||Cochran-Mantel-Haenszel|||p-value was based on stratified Cochran-Mantel-Haenszel method. Stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status.||8.83|2.93|<0.0001
82627276|NCT01711658|164969697|OTHER|||||||0.6459||||||Concurrent lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.6459
82627277|NCT01711658|164969697|OTHER|||||||0.4792||||||Maintenance lapatinib/placebo|Fisher Exact|Two-sided significance level = 0.05||||||0.4792
82627278|NCT01711658|164969698|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.6735|TWO_SIDED|95.0|0.62|2.17|||Log Rank|One-sided significance level = 0.05|Reference level = IMRT + cisplatin + placebo|||2.17|0.62|0.6735
82627279|NCT00166517|164969703|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed versus a constant, 85%, based on historical data.||||||0.003||95.0||||p ≥.85, where p is the proportion of subjects who achieved ≥3-fold rise from baseline in the group that received RotaTeq®|Exact test of proportion|Exact test of proportion, based on binomial distribution||||||0.003
82627280|NCT02460978|164969731|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.0579|<|0.0001|TWO_SIDED|95.0|-0.49|-0.26|||Mixed Models Analysis|Model is adjusted for baseline HbA1c, treatment, week, randomization stratum, week\*treatment, and week\*baseline HbA1c.||Difference vs. placebo in adjusted mean change from baseline||-0.26|-0.49|<0.0001
82627281|NCT02460978|164969731|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.0578|<|0.0001|TWO_SIDED|95.0|-0.53|-0.3|||Mixed Models Analysis|Model is adjusted for baseline HbA1c, treatment, week, randomization stratum, week\*treatment, and week\*baseline HbA1c.||Difference vs. placebo in adjusted mean change from baseline||-0.30|-0.53|<0.0001
82627282|NCT02460978|164969732|SUPERIORITY||Mean Difference (Final Values)|-10.78|STANDARD_ERROR_OF_MEAN|1.5291|<|0.0001|TWO_SIDED|95.0|-13.73|-7.72|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-7.72|-13.73|<0.0001
82627283|NCT02460978|164969732|SUPERIORITY||Mean Difference (Final Values)|-11.08|STANDARD_ERROR_OF_MEAN|1.5331|<|0.0001|TWO_SIDED|95.0|-14.04|-8.02|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-8.02|-14.04|<0.0001
82627284|NCT02460978|164969733|SUPERIORITY||Mean Difference (Final Values)|-3.21|STANDARD_ERROR_OF_MEAN|0.3829|<|0.0001|TWO_SIDED|95.0|-3.96|-2.45|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-2.45|-3.96|<0.0001
82627285|NCT02460978|164969733|SUPERIORITY||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|0.3812|<|0.0001|TWO_SIDED|95.0|-4.49|-2.99|||Mixed Models Analysis|Adjusted for ln(baseline), treatment, week, randomization stratum, week\*treatment, and week\*ln(baseline).||Difference vs. placebo in adjusted mean percentage change from baseline||-2.99|-4.49|<0.0001
82627286|NCT02460978|164969734|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|2.3468|<|0.0001|TWO_SIDED|95.0|-20.26|-11.05|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-11.05|-20.26|<0.0001
82627287|NCT02460978|164969734|SUPERIORITY||Mean Difference (Final Values)|-19.74|STANDARD_ERROR_OF_MEAN|2.3419|<|0.0001|TWO_SIDED|95.0|-24.34|-15.14|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-15.14|-24.34|<0.0001
82627288|NCT02460978|164969735|SUPERIORITY||Mean Difference (Final Values)|-9.85|STANDARD_ERROR_OF_MEAN|2.4519|<|0.0001|TWO_SIDED|95.0|-14.66|-5.03|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-5.03|-14.66|<0.0001
82627289|NCT02460978|164969735|SUPERIORITY||Mean Difference (Final Values)|-9.36|STANDARD_ERROR_OF_MEAN|2.4487||0.0001|TWO_SIDED|95.0|-14.16|-4.55|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||-4.55|-14.16|0.0001
82627290|NCT02460978|164969736|SUPERIORITY||Mean Difference (Final Values)|9.02|STANDARD_ERROR_OF_MEAN|1.0415|<|0.0001|TWO_SIDED|95.0|6.97|11.06|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||11.06|6.97|<0.0001
82627291|NCT02460978|164969736|SUPERIORITY||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|1.0396|<|0.0001|TWO_SIDED|95.0|8.66|12.74|||Mixed Models Analysis|Adjusted for baseline, treatment, week, randomization stratum, week\*treatment, and week\*baseline.||Difference vs. placebo in adjusted mean change from baseline||12.74|8.66|<0.0001
82627292|NCT02460978|164969737|SUPERIORITY||Odds Ratio (OR)|2.71|STANDARD_ERROR_OF_MEAN|0.2058|<|0.0001|TWO_SIDED|95.0|1.81|4.06|||Regression, Logistic|Adjusted for baseline HbA1c and randomization strata||Odds Ratio vs. Placebo||4.06|1.81|<0.0001
82627293|NCT02460978|164969737|SUPERIORITY||Odds Ratio (OR)|3.07|STANDARD_ERROR_OF_MEAN|0.2054|<|0.0001|TWO_SIDED|95.0|2.05|4.6|||Regression, Logistic|Adjusted for baseline HbA1c and randomization strata||Odds Ratio vs. Placebo||4.60|2.05|<0.0001
82627294|NCT01459068|164969748|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We estimated 150 participants in each arm using the test for paired means, based on a moderate effect size (0.50), 80% power, two-tailed 5% significance level, design effect of 1.5, and up to a 50% expected drop-out rate (due to frequent cross-border movement).|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.59|-0.4||a priori threshold for statistical significance was 0.05.|longitudinal model|longitudinal to model within-person change in mean scores||||-0.40|-0.59|<0.001
82627295|NCT01459068|164969749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|power calculations were not done for secondary outcomes|Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.59|-0.28|||longitudinal model|||||-0.28|-0.59|<0.001
82627296|NCT01459068|164969750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We estimated 150 participants in each arm using the test for paired means, based on a moderate effect size (0.50), 80% power, two-tailed 5% significance level, design effect of 1.5, and up to a 50% expected drop-out rate (due to frequent cross-border movement).|Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.51|-0.35||a priori threshold for significance set at 0.05|longitudinal model|longitudinal analysis modeling within-person change in mean scores||||-0.35|-0.51|<0.001
82627297|NCT01459068|164969751|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations on secondary outcomes|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.61|-0.34|||longitudinal model|||||-0.34|-0.61|<0.001
82627298|NCT01459068|164969752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations for secondary measures|Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.34|-0.15|||longitudinal model|||||-0.15|-0.34|<0.001
82627299|NCT01459068|164969753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|no power calculations for secondary measures|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.26||0.896|TWO_SIDED|95.0|-0.44|0.5|||longitudinal model|||||0.50|-0.44|0.896
82627300|NCT02023112|164969757|SUPERIORITY_OR_OTHER_LEGACY||percentage of participants with SVR12|91.5|||||TWO_SIDED|95.0|80.1|96.6|||||Tested using the following hierarchical order: among non-cirrhotic treatment-naïve participants 1) superiority of 16-week treatment arm to a clinically relevant threshold; 2) superiority of 12-week treatment arm to a clinically relevant threshold.|"Among non-cirrhotic treatment-naïve participants, superiority of the 16-week treatment arm to a clinically relevant threshold.~Lower bound of 95% confidence interval (LCB) must have exceeded 67% to achieve superiority. Threshold indicates value the LCB had to exceed to demonstrate superiority for the treatment arm and was based on the SVR rates with pegylated-interferon (IFN) alfa-2a or 2b/RBV in treatment-naïve, noncirrhotic HCV genotype 2-infected participants."||96.6|80.1|
82627301|NCT02023112|164969757|SUPERIORITY_OR_OTHER_LEGACY||percentage of participants with SVR12|75.0|||||TWO_SIDED|95.0|61.2|85.1|||||Tested using the following hierarchical order: among non-cirrhotic treatment-naïve participants 1) superiority of 16-week treatment arm to a clinically relevant threshold; 2) superiority of 12-week treatment arm to a clinically relevant threshold.|"Among non-cirrhotic treatment-naïve participants, superiority of the 12-week treatment arm to a clinically relevant threshold.~LCB must have exceeded 67% to achieve superiority. Threshold indicates value the LCB had to exceed to demonstrate superiority for the treatment arm and was based on the SVR rates with pegylated-IFN alfa-2a or 2b/RBV in treatment-naïve, noncirrhotic HCV genotype 2-infected participants."||85.1|61.2|
82627302|NCT03136484|164969765|NON_INFERIORITY|The non-inferiority p-value was calculated as two times the one-sided p-value from a t-distributed test statistic comparing the treatment contrast with 0.3 rather than zero as in a superiority test.|Treatment difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.33|||ANCOVA||Semaglutide + canagliflozin placebo vs Canagliflozin + semaglutide placebo|The responses were analysed using an analysis of covariance (ANCOVA) with treatment, region and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including region and stratification factor as categorical effects and data from baseline and all previous visits as covariates.||-0.33|-0.65|<.0001
82627303|NCT03136484|164969765|SUPERIORITY||Treatment difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.33|||ANCOVA||Semaglutide + canagliflozin placebo vs Canagliflozin + semaglutide placebo|The responses were analysed using an ANCOVA with treatment, region and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomised treatment, using a regression model including region and stratification factor as categorical effects and data from baseline and all previous visits as covariates.||-0.33|-0.65|<.0001
82627304|NCT00360685|164969826|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Sample size was based on the difference in the proportion of patients in each arm who were predicted to develop severe mucositis defined as clinical grade 3 or 4 per the CTCAE. A sample-size of 42 evaluable subjects per study-arm allowed detection of an absolute difference of 30%, which corresponds to a reduction in the incidence of severe mucositis from 60% in the methotrexate arm to 30% in the MMF arm (alpha=0.05, power=0.80).||||0.06
82627305|NCT00360685|164969827|SUPERIORITY_OR_OTHER|||||||0.8|||||||K-sample tests for comparing the cumulat|||||||0.8
82627306|NCT00360685|164969828|SUPERIORITY_OR_OTHER|||||||0.58|||||||Log Rank|||||||0.58
82627307|NCT01449955|164969829|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||ANOVA comparing the results of change over time (e.g., comparing baseline to 1 month posttreatment) as well as comparing differences between condition (e.g., placebo compared to rapamycin).||||>0.05
82378362|NCT00535405|164465085|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.95|STANDARD_ERROR_OF_MEAN|0.69|<|0.001||95.0|1.86|4.67||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||4.67|1.86|<0.001
82627308|NCT01449955|164969830|SUPERIORITY||||||>|0.5|||||||ANOVA|||||||> 0.5
82627309|NCT01449955|164969831|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
82627310|NCT01449955|164969832|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
82627311|NCT01449955|164969833|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< .05
82627312|NCT01449955|164969834|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||> .05
82627313|NCT01176240|164969847|SUPERIORITY_OR_OTHER|||||||0.978|||||||ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||Study 306A was initially designed as a blinded interim analysis by an independent DMC to ensure that the overall study was adequately powered. Study 306A was not powered to provide statistical significance as a stand alone study. Thus, no additional efficacy end points were prospectively defined beyond the primary end point.||||0.978
82627314|NCT01176240|164969848|SUPERIORITY_OR_OTHER|||||||0.018||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.018
82627315|NCT01176240|164969850|SUPERIORITY_OR_OTHER|||||||0.6||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the first secondary endpoint was not positive, statistical analysis was not performed on additional secondary endpoints.|Wilcoxon (Mann-Whitney)|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.60
82627316|NCT01176240|164969856|SUPERIORITY_OR_OTHER|||||||0.238|||||||ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||||||0.238
82627317|NCT03627494|164969911|OTHER||Ratio|0.93|||||TWO_SIDED|90.0|0.84|1.03|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.03|0.84|
82442166|NCT01945775|164592814|SUPERIORITY||Hazard Ratio (HR)|0.848||||0.1693|TWO_SIDED|95.0|0.67|1.073|||Log Rank|||Hazard ratio was based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||1.073|0.670|0.1693
82378363|NCT00535405|164465085|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|2.15|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|1.42|3.27||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||3.27|1.42|<0.001
82627318|NCT03627494|164969912|OTHER||Ratio|0.93|||||TWO_SIDED|90.0|0.84|1.04|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.04|0.84|
82627319|NCT03627494|164969913|OTHER||Ratio|0.89|||||TWO_SIDED|90.0|0.79|1.01|||||"Analysis was performed using Mixed Effect Model with treatment and period as fixed effect and participant as random effect. Variance Components covariance structure was used."|||1.01|0.79|
82627320|NCT02443155|164969943|SUPERIORITY||Treatment ratio|1.48|||=|0.0017|TWO_SIDED|95.0|1.16|1.89|||Mixed model repeated measurements||NNC0114-0006 + liraglutide / Placebo|Ratio of week 54 to baseline are analysed using mixed model for repeated measurements (MMRM) with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.89|1.16|=0.0017
82627321|NCT02443155|164969943|SUPERIORITY||Treatment Ratio|1.23|||=|0.0927|TWO_SIDED|95.0|0.97|1.57|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.57|0.97|=0.0927
82627322|NCT02443155|164969943|SUPERIORITY||Treatment Ratio|1.12|||=|0.378|TWO_SIDED|95.0|0.87|1.42|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.42|0.87|=0.3780
82378364|NCT00535405|164465086|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|6.02|STANDARD_ERROR_OF_MEAN|2.45|<|0.001||95.0|2.71|13.38||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||13.38|2.71|<0.001
82627323|NCT02443155|164969943|SUPERIORITY||Treatment ratio|1.2|||=|0.1377|TWO_SIDED|95.0|0.94|1.53|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.53|0.94|=0.1377
82627324|NCT02443155|164969943|SUPERIORITY||Treatment ratio|1.33|||=|0.0214|TWO_SIDED|95.0|1.04|1.69|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.69|1.04|=0.0214
82627325|NCT02443155|164969943|SUPERIORITY||Treatmrnt ratio|1.1|||=|0.4187|TWO_SIDED|95.0|0.87|1.41|||Mixed model repeated measurements|||Ratio of week 54 to baseline are analysed using MMRM with an unstructured covariance matrix. Treatment, stratum and sex as factors and log baseline value and age as covariates, including the interaction between visit and all variables.||1.41|0.87|=0.4187
82627326|NCT02279160|164970064|SUPERIORITY||Multiple imputation|0.742||||0.022|TWO_SIDED|95.0|0.575|0.958|||ANCOVA|||||0.958|0.575|0.0220
82627327|NCT02279160|164970065|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9002|TWO_SIDED|95.0|-28.0|30.0|||Stratified Wilcoxon|||||30.0|-28.0|0.9002
82627328|NCT03300427|164970103|SUPERIORITY||difference in least square means|-900.0||||0.7594|TWO_SIDED|95.0|-6781.7|4981.8|||ANCOVA|||The study hypothesis is that short-term therapy with sacubitril/valsartan added on standard HF therapy improves cardiac efficiency in subjects with systolic HF.||4981.8|-6781.7|0.7594
82627329|NCT03300427|164970105|SUPERIORITY||difference in least square means|-575.5||||0.8422|TWO_SIDED|95.0|-6365.5|5214.5|||ANCOVA|||The study hypothesis is that short-term therapy with sacubitril/valsartan added on standard HF therapy improves cardiac efficiency in subjects with systolic HF.||5214.5|-6365.5|0.8422
82627330|NCT02853123|164970108|SUPERIORITY||Mean Difference (Final Values)|-0.357|STANDARD_ERROR_OF_MEAN|0.153||0.0217|TWO_SIDED|95.0|-0.661|-0.053|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.053|-0.661|0.0217
82627331|NCT02853123|164970109|SUPERIORITY||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.106|0.265|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|IC measured prior to exercise, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.265|0.106|<.0001
82627332|NCT02853123|164970110|SUPERIORITY||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.038||0.0852|TWO_SIDED|95.0|-0.009|0.141|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|IC measured end of exercise, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.141|-0.009|0.0852
82627333|NCT02853123|164970111|SUPERIORITY||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.117|0.194|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.194|0.117|<.0001
82627334|NCT02853123|164970112|SUPERIORITY||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.134|0.267|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.267|0.134|<.0001
82627335|NCT02853123|164970113|SUPERIORITY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.096||0.2645|TWO_SIDED|95.0|-0.3|0.083|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|1 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.083|-0.300|0.2645
82627336|NCT02853123|164970113|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.107||0.0267|TWO_SIDED|95.0|-0.452|-0.028|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|2 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.028|-0.452|0.0267
82378365|NCT00535405|164465086|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.67|STANDARD_ERROR_OF_MEAN|0.47||0.069||95.0|0.96|2.6||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.60|0.96|0.069
82442167|NCT01945775|164592822|SUPERIORITY||Mean Difference (Final Values)|8.4|||<|0.0001|TWO_SIDED|95.0|4.6|12.3|||Mixed Models Analysis|||Analysis was based on repeated measures mixed-effect model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate. Analysis was based on restricted maximum likelihood using unstructured covariance matrix.||12.3|4.6|<0.0001
82506738|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.9862|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9862
82506739|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|0.8|STANDARD_ERROR_OF_MEAN|1.38||0.5561|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5561
82506740|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|2.32||0.2281|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2281
82506741|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.0006|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0006
82506742|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.6004|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6004
82506743|NCT01480076|164704577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506744|NCT01480076|164704577|SUPERIORITY_OR_OTHER|||||||0.904|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9040
82506745|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|2.8|STANDARD_ERROR_OF_MEAN|1.38||0.0401|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0401
82506746|NCT01480076|164704577|SUPERIORITY_OR_OTHER||difference of LS means|4.1|STANDARD_ERROR_OF_MEAN|2.23||0.0651|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the 2-way and 3-way interactions among them, baseline MCS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0651
82506747|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506748|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.454|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4540
82506749|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565295|NCT05129592|164839785|SUPERIORITY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|4.37||0.73|TWO_SIDED|95.0|-6.46|14.59|||ANCOVA|Sidak's adjusted p-value (df=4)||ANCOVA adjusted for baseline consideration of switching|Nicotine corrective with reason for misperception - Nicotine corrective with both components of coherence|14.59|-6.46|0.73
82565296|NCT01234675|164839788|SUPERIORITY||Paired difference|4.6||||0.424|TWO_SIDED|95.0|-7.3|16.6|||Paired T test|||||16.6|-7.3|0.424
82506750|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.2949|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2949
82565297|NCT01234675|164839789|SUPERIORITY||Paired difference|-6.1||||0.049|TWO_SIDED|95.0|-12.2|-0.04|||Paired T test|||||-0.04|-12.2|0.049
82506751|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-8.1|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565298|NCT01234675|164839790|SUPERIORITY||Paired difference|22.6||||0.056|TWO_SIDED|95.0|-0.6|45.8|||Paired T test|||||45.8|-0.6|0.056
82565299|NCT01234675|164839791|SUPERIORITY||Paired difference|-6.1||||0.683|TWO_SIDED|95.0|-12.5|18.5|||Paired T test|||||18.5|-12.5|0.683
82565300|NCT01234675|164839792|SUPERIORITY||Paired difference|-1.502||||0.155|TWO_SIDED|95.0|-59.1|10.4|||Paired T test|||||10.4|-59.1|0.155
82506752|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-9.0|STANDARD_ERROR_OF_MEAN|3.16||0.0046|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0046
82506753|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-12.6|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506754|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.502|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5020
82506755|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565301|NCT01234675|164839793|SUPERIORITY||Paired difference|-1.0||||0.805|TWO_SIDED|95.0|-9.8|7.8|||Paired T test|||||7.8|-9.8|0.805
82565302|NCT01234675|164839794|SUPERIORITY||Paired difference|-1.0||||0.844|TWO_SIDED|95.0|-11.6|9.6|||Paired T test|||||9.6|-11.6|0.844
82565303|NCT01234675|164839795|SUPERIORITY||Paired difference|2.9||||0.509|TWO_SIDED|95.0|-6.4|12.2|||Paired T test|||||12.2|-6.4|0.509
82565304|NCT01234675|164839796|SUPERIORITY||Paired difference|0.32||||0.3|TWO_SIDED|95.0|-0.3|0.6|||Paired T test|||||0.6|-0.3|0.3
82565305|NCT01234675|164839797|SUPERIORITY||Paired difference|-1.03||||0.685|TWO_SIDED|95.0|-8.2|5.6|||Paired T test|||||5.6|-8.2|0.685
82565306|NCT01234675|164839798|SUPERIORITY||Paired difference|-5.3||||0.349|TWO_SIDED|95.0|-17.0|6.4|||Paired T test|||||6.4|-17.0|0.349
82565307|NCT01234675|164839799|SUPERIORITY||Paired difference|-0.6||||0.305|TWO_SIDED|95.0|-1.8|5.6|||Paired T test|||||5.6|-1.8|0.305
82565308|NCT01234675|164839800|SUPERIORITY||Paired difference|-0.5||||0.425|TWO_SIDED|95.0|-1.8|0.8|||Paired T test|||||0.8|-1.8|0.425
82565309|NCT00116584|164839861|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82565310|NCT00116584|164839862|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82565311|NCT00116584|164839863|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82565312|NCT03327051|164839864|OTHER|An increase in relative abundance of VSL3 bacterial strains at week 4 compared to week 0 (baseline) is considered significant if p\<0.05.||||||0.04|||||||ANOVA|Two-way ANOVA with Bonferroni post-test was used for multi-variable analysis||Within group difference between week 0 and week 4 was analyzed.||||0.04
82565313|NCT03327051|164839864|OTHER|An increase in relative abundance of VSL3 bacterial strains at week 4 compared to week 0 (baseline) is considered significant if p\<0.05.|||||>|0.99|||||||ANOVA|Two-way ANOVA with Bonferroni post-test was used for multi-variable analysis||Within group difference between week 0 and week 4 was analyzed.||||>0.99
82565314|NCT01533181|164839871|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.9||||0.0001|TWO_SIDED|95.0|1.9|8.1|||Kaplan-Meier|||||8.1|1.9|0.0001
82565315|NCT01533181|164839874|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.71|TWO_SIDED|95.0|0.6|2.2|||Kaplan-Meier|||||2.2|0.6|0.71
82565316|NCT04879823|164839879|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||Null hypothesis: Average pain scores before medication will not be lower in the dexamethasone group compared with the placebo group.||||0.03
82565317|NCT04879823|164839880|SUPERIORITY|||||||0.07|||||||Fisher Exact|||Null hypothesis: There will be no difference in the proportion of patients visiting the emergency department or urgent care (at least 1 time) post-operatively between dexamethasone and placebo groups.||||0.07
82377556|NCT00486525|164462481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.98||0.28|TWO_SIDED|95.0|-3.0|0.88|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.88|-3.0|0.28
82565318|NCT04879823|164839881|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: Average pain scores after medication will not be lower in the dexamethasone group compared with the placebo group.||||0.98
82565319|NCT04468633|164839895|OTHER|||||||0.687|||||||t-test, 2 sided|||Baseline||||0.687
82565320|NCT04468633|164839895|OTHER|||||||0.384|||||||t-test, 2 sided|||Day 1||||0.384
82565321|NCT04468633|164839895|OTHER|||||||0.597|||||||t-test, 2 sided|||Week 1||||0.597
82565322|NCT04468633|164839895|OTHER|||||||0.86|||||||t-test, 2 sided|||Week 4||||0.860
82565323|NCT04468633|164839895|OTHER|||||||0.032|||||||t-test, 2 sided|||Week 6||||0.032
82565324|NCT04468633|164839895|OTHER|||||||0.026|||||||t-test, 2 sided|||Month 3||||0.026
82565325|NCT04468633|164839895|OTHER|||||||0.172|||||||t-test, 2 sided|||Month 6||||0.172
82565326|NCT04468633|164839895|OTHER|||||||0.01|||||||t-test, 2 sided|||Year 1||||0.010
82565327|NCT04468633|164839899|OTHER|||||||0.759|||||||Wilcoxon rank sum test|||||||0.759
82565328|NCT04468633|164839900|OTHER|||||||0.603|||||||Wilcoxon rank sum test|||||||0.603
82565329|NCT04468633|164839909|OTHER|||||||0.833|||||||Wilcoxon rank sum test|||||||0.833
82565330|NCT02592434|164839944|SUPERIORITY||Difference in percentage|-23.69||||0.0031|TWO_SIDED|95.0|-39.41|-7.97||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||-7.97|-39.41|0.0031
82627337|NCT02853123|164970113|SUPERIORITY||Mean Difference (Final Values)|-0.318|STANDARD_ERROR_OF_MEAN|0.14||0.0258|TWO_SIDED|95.0|-0.596|-0.039|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|2.5 min, the adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||-0.039|-0.596|0.0258
82377557|NCT00486525|164462481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.99||0.21|TWO_SIDED|95.0|-3.2|0.69|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.69|-3.2|0.21
82565331|NCT02592434|164839945|SUPERIORITY||Difference in percentage|19.52||||0.0166|TWO_SIDED|95.0|3.55|35.5||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||35.50|3.55|0.0166
82565332|NCT02592434|164839946|SUPERIORITY||Difference in percentage|23.69||||0.0031|TWO_SIDED|95.0|7.97|39.41||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||39.41|7.97|0.0031
82565333|NCT02592434|164839947|SUPERIORITY||Difference in percentage|17.02||||0.0387|TWO_SIDED|95.0|0.88|33.17||Threshold for significance at 0.05 level.|Normal approximation to the binomial|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance.||33.17|0.88|0.0387
82565334|NCT02592434|164839948|SUPERIORITY||Ls mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0292|TWO_SIDED|95.0|-0.22|-0.01||Threshold for significance at 0.05 level.|Mixed Model for Repeated Measures (MMRM)|||In order to preserve type I error, each endpoint assessed sequentially using gate-keeping or step-down approach where statistical significance was claimed for the second endpoint only if the first endpoint in the sequence meets the requirements for significance. Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-0.01|-0.22|0.0292
82565335|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-1.71||||0.741|TWO_SIDED|95.0|-11.82|8.41|||Normal approximation to the binomial|||at Week 20||8.41|-11.82|0.7410
82565336|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-18.93||||0.0052|TWO_SIDED|95.0|-32.22|-5.64|||Normal approximation to the binomial|||at Week 24||-5.64|-32.22|0.0052
82565337|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-19.09||||0.0093|TWO_SIDED|95.0|-33.48|-4.7|||Normal approximation to the binomial|||at Week 28||-4.70|-33.48|0.0093
82565338|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-22.1||||0.0045|TWO_SIDED|95.0|-37.35|-6.86|||Normal approximation to the binomial|||at Week 32||-6.86|-37.35|0.0045
82565339|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-23.57||||0.0027|TWO_SIDED|95.0|-38.97|-8.17|||Normal approximation to the binomial|||at Week 36||-8.17|-38.97|0.0027
82565340|NCT02592434|164839950|SUPERIORITY||Difference in percentage|-25.08||||0.0016|TWO_SIDED|95.0|-40.69|-9.47|||Normal approximation to the binomial|||at Week 40||-9.47|-40.69|0.0016
82565341|NCT02592434|164839954|SUPERIORITY||Difference in percentage|6.03||||0.301|TWO_SIDED|95.0|-5.4|17.46|||Normal approximation to the binomial|||at Week 20||17.46|-5.40|0.3010
82565342|NCT02592434|164839954|SUPERIORITY||Difference in percentage|17.54||||0.0108|TWO_SIDED|95.0|4.05|31.03|||Normal approximation to the binomial|||at Week 24||31.03|4.05|0.0108
82565343|NCT02592434|164839954|SUPERIORITY||Difference in percentage|19.13||||0.0103|TWO_SIDED|95.0|4.51|33.74|||Normal approximation to the binomial|||at Week 28||33.74|4.51|0.0103
82565344|NCT02592434|164839954|SUPERIORITY||Difference in percentage|23.53||||0.0025|TWO_SIDED|95.0|8.27|38.8|||Normal approximation to the binomial|||at Week 32||38.80|8.27|0.0025
82565345|NCT02592434|164839954|SUPERIORITY||Difference in percentage|25.04||||0.0016|TWO_SIDED|95.0|9.52|40.56|||Normal approximation to the binomial|||at Week 36||40.56|9.52|0.0016
82565346|NCT02592434|164839954|SUPERIORITY||Difference in percentage|23.69||||0.0031|TWO_SIDED|95.0|7.97|39.41|||Normal approximation to the binomial|||at Week 40||39.41|7.97|0.0031
82565347|NCT02592434|164839956|SUPERIORITY||Difference in percentage|-1.15||||0.8119|TWO_SIDED|95.0|-10.63|8.33|||Normal approximation for binomial|||Double Blind Baseline (Week 18)||8.33|-10.63|0.8119
82506756|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.2157|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2157
82506757|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-11.2|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506758|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-10.0|STANDARD_ERROR_OF_MEAN|3.3||0.0026|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0026
82506759|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506760|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.3435|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3435
82506761|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506762|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.1357|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1357
82506763|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-7.8|STANDARD_ERROR_OF_MEAN|2.22||0.0004|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
82506764|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-7.0|STANDARD_ERROR_OF_MEAN|3.58||0.0511|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0511
82506765|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506766|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.8703|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8703
82506767|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565348|NCT02592434|164839956|SUPERIORITY||Difference in percentage|7.66||||0.2682|TWO_SIDED|95.0|-5.9|21.21|||Normal approximation for binomial|||Week 20||21.21|-5.90|0.2682
82442168|NCT01945775|164592823|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.257|0.549|||Log Rank|||Hazard ratio is based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system metastasis status).||0.549|0.257|<0.0001
82442169|NCT01945775|164592824|SUPERIORITY||Hazard Ratio (HR)|0.392||||0.0053|TWO_SIDED|95.0|0.198|0.775|||Log Rank|||Hazard ratio is based on stratified Cox regression model with treatment as the only covariate (stratification factors: number of prior cytotoxic chemotherapy regimens, triple negative status, history of central nervous system).||0.775|0.198|0.0053
82565349|NCT02592434|164839956|SUPERIORITY||Difference in percentage|21.98||||0.0034|TWO_SIDED|95.0|7.26|36.71|||Normal approximation for binomial|||Week 24||36.71|7.26|0.0034
82565350|NCT02592434|164839956|SUPERIORITY||Difference in percentage|17.9||||0.0233|TWO_SIDED|95.0|2.44|33.36|||Normal approximation for binomial|||Week 28||33.36|2.44|0.0233
82627338|NCT02853123|164970114|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.12||0.8025|TWO_SIDED|95.0|-0.268|0.208|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.208|-0.268|0.8025
82627339|NCT02853123|164970115|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.099||0.3634|TWO_SIDED|95.0|-0.106|0.286|||Mixed Effect Model Repeated Measures|Kenward-Roger approximation of denominator was used for degrees of freedom.|Mean difference means the treatment difference vs. Tiotropium (i.e. Tiotropium/Olodaterol - Tiotropium).|The adjusted means (SE) are obtained from fitting an Mixed-effects Model Repeated Measures (MMRM) model including treatment and period as fixed effects, patient as a random effect, and period baseline and patient baseline as covariates, compound symmetry covariance structure for within-patient variation.||0.286|-0.106|0.3634
82627340|NCT03250624|164970122|SUPERIORITY||Least Square (LS) Mean Difference|-0.28||||0.632|TWO_SIDED|95.0|-1.46|0.89|||ANCOVA|||||0.89|-1.46|0.632
82627341|NCT00106249|164970130|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82627342|NCT00106249|164970131|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82627343|NCT00948428|164970160|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Complete Clearance rates in the PP population were contained within the interval -0.20 to +0.20, and each of these rates was greater than, and statistically different (p\<0.05) from, the Vehicle rate in the ITT population, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent|Mean Difference (Net)|-0.85|||||TWO_SIDED|90.0|-10.84|9.15||||||||9.15|-10.84|
82627344|NCT00948428|164970160|SUPERIORITY|||||||0.0001|||||||ANOVA|||Based on Intent-to-Treat Population||||0.0001
82627345|NCT00948428|164970161|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Partial Clearance rates in the PP population were contained within the interval -0.20 to +0.20, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent.|Mean Difference (Net)|-3.1|||||TWO_SIDED|90.0|-12.11|5.95||||||||5.95|-12.11|
82565351|NCT02592434|164839956|SUPERIORITY||Difference in percentage|25.16||||0.0018|TWO_SIDED|95.0|9.39|40.93|||Normal approximation for binomial|||Week 32||40.93|9.39|0.0018
82565352|NCT02592434|164839956|SUPERIORITY||Difference in percentage|20.91||||0.0099|TWO_SIDED|95.0|5.01|36.81|||Normal approximation for binomial|||Week 36||36.81|5.01|0.0099
82565353|NCT02592434|164839956|SUPERIORITY||Difference in percentage|22.34||||0.0058|TWO_SIDED|95.0|6.46|38.22|||Normal approximation for binomial|||Week 40||38.22|6.46|0.0058
82565354|NCT02592434|164839958|SUPERIORITY||Difference in percentage|3.77||||0.6348|TWO_SIDED|95.0|-11.79|19.33|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||19.33|-11.79|0.6348
82565355|NCT02592434|164839958|SUPERIORITY||Difference in percentage|2.62||||0.7525|TWO_SIDED|95.0|-13.66|18.9|||Normal approximation to the binomial|||Week 20||18.90|-13.66|0.7525
82565356|NCT02592434|164839958|SUPERIORITY||Difference in percentage|14.05||||0.0908|TWO_SIDED|95.0|-2.23|30.33|||Normal approximation to the binomial|||Week 24||30.33|-2.23|0.0908
82565357|NCT02592434|164839958|SUPERIORITY||Difference in percentage|7.02||||0.4026|TWO_SIDED|95.0|-9.38|23.43|||Normal approximation to the binomial|||Week 28||23.43|-9.38|0.4026
82565358|NCT02592434|164839958|SUPERIORITY||Difference in percentage|18.37||||0.0258|TWO_SIDED|95.0|2.22|34.52|||Normal approximation to the binomial|||Week 32||34.52|2.22|0.0258
82565359|NCT02592434|164839958|SUPERIORITY||Difference in percentage|19.88||||0.0149|TWO_SIDED|95.0|3.88|35.88|||Normal approximation to the binomial|||Week 36||35.88|3.88|0.0149
82565360|NCT02592434|164839958|SUPERIORITY||Difference in percentage|19.88||||0.0149|TWO_SIDED|95.0|3.88|35.88|||Normal approximation to the binomial|||Week 40||35.88|3.88|0.0149
82565361|NCT02592434|164839960|SUPERIORITY||Difference in percentage|-5.24||||0.515|TWO_SIDED|95.0|-21.0|10.53|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||10.53|-21.00|0.5150
82565362|NCT02592434|164839960|SUPERIORITY||Difference in percentage|9.01||||0.24||95.0|-6.02|24.03|||Normal approximation to the binomial|||Week 20||24.03|-6.02|0.2400
82565363|NCT02592434|164839960|SUPERIORITY||Difference in percentage|8.93||||0.2557|TWO_SIDED|95.0|-6.47|24.33|||Normal approximation to the binomial|||Week 24||24.33|-6.47|0.2557
82565364|NCT02592434|164839960|SUPERIORITY||Difference in percentage|8.97||||0.2481|TWO_SIDED|95.0|-6.25|24.19|||Normal approximation to the binomial|||Week 28||24.19|-6.25|0.2481
82565365|NCT02592434|164839960|SUPERIORITY||Difference in percentage|16.03||||0.0356|TWO_SIDED|95.0|1.08|30.98|||Normal approximation to the binomial|||Week 32||30.98|1.08|0.0356
82377558|NCT00486525|164462481|SUPERIORITY_OR_OTHER||Slope|-0.66|STANDARD_ERROR_OF_MEAN|0.34||0.051|TWO_SIDED|95.0|-1.3|0.0039|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of CES-D for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.0039|-1.3|0.051
82506768|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.9049|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9049
82506769|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-7.6|STANDARD_ERROR_OF_MEAN|2.44||0.0019|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0019
82506770|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-12.3|STANDARD_ERROR_OF_MEAN|4.15||0.0033|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0033
82506771|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506772|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.4087|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4087
82506773|NCT01480076|164704578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506774|NCT01480076|164704578|SUPERIORITY_OR_OTHER|||||||0.2755|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2755
82506775|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-5.7|STANDARD_ERROR_OF_MEAN|2.52||0.0251|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0251
82506776|NCT01480076|164704578|SUPERIORITY_OR_OTHER||difference of LS means|-6.7|STANDARD_ERROR_OF_MEAN|4.08||0.0989|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 physical score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0989
82506777|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565366|NCT02592434|164839960|SUPERIORITY||Difference in percentage|18.89||||0.0115|TWO_SIDED|95.0|4.24|33.54|||Normal approximation to the binomial|||Week 36||33.54|4.24|0.0115
82565367|NCT02592434|164839960|SUPERIORITY||Difference in percentage|11.87||||0.115|TWO_SIDED|95.0|-2.89|26.62|||Normal approximation to the binomial|||Week 40||26.62|-2.89|0.1150
82565368|NCT02592434|164839960|SUPERIORITY||Difference in percentage|13.29||||0.0744|TWO_SIDED|95.0|-1.31|27.9|||Normal approximation to the binomial|||Week 44||27.90|-1.31|0.0744
82565369|NCT02592434|164839962|SUPERIORITY||Difference in percentage|-16.15||||0.0207|TWO_SIDED|95.0|-29.84|-2.46|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||-2.46|-29.84|0.0207
82442170|NCT02876328|164592825|SUPERIORITY||||||<|0.001||||||Each active group is compared to placebo using a 2-sided .0167 significance level.|Cochran-Mantel-Haenszel|Analyses are stratified by site.||Analysis applies to both adults and children.||||<.001
82565370|NCT02592434|164839962|SUPERIORITY||Difference in percentage|10.63||||0.1254|TWO_SIDED|95.0|-2.97|24.24|||Normal approximation to the binomial|||Week 20||24.24|-2.97|0.1254
82565371|NCT02592434|164839962|SUPERIORITY||Difference in percentage|3.49||||0.635|TWO_SIDED|95.0|-10.93|17.91|||Normal approximation to the binomial|||Week 24||17.91|-10.93|0.6350
82565372|NCT02592434|164839962|SUPERIORITY||Difference in percentage|2.1||||0.7732|TWO_SIDED|95.0|-12.2|16.41|||Normal approximation to the binomial|||Week 28||16.41|-12.20|0.7732
82506778|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.8767|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8767
82506779|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565373|NCT02592434|164839962|SUPERIORITY||Difference in percentage|6.35||||0.3782|TWO_SIDED|95.0|-7.77|20.47|||Normal approximation to the binomial|||Week 32||20.47|-7.77|0.3782
82442171|NCT04883528|164592829|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
82565374|NCT02592434|164839962|SUPERIORITY||Difference in percentage|11.98||||0.0936|TWO_SIDED|95.0|-2.02|25.99|||Normal approximation to the binomial|||Week 36||25.99|-2.02|0.0936
82565375|NCT02592434|164839962|SUPERIORITY||Difference in percentage|9.17||||0.2017|TWO_SIDED|95.0|-4.91|23.24|||Normal approximation to the binomial|||Week 40||23.24|-4.91|0.2017
82565376|NCT02592434|164839962|SUPERIORITY||Difference in percentage|12.02||||0.0858|TWO_SIDED|95.0|-1.69|25.74|||Normal approximation to the binomial|||Week 44||25.74|-1.69|0.0858
82565377|NCT02592434|164839964|SUPERIORITY||LS mean difference|-2.07|STANDARD_ERROR_OF_MEAN|0.78||0.0088|TWO_SIDED|95.0|-3.6|-0.53|||MMRM|||Week 20; Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.53|-3.60|0.0088
82565378|NCT02592434|164839964|SUPERIORITY||LS mean difference|-3.64|STANDARD_ERROR_OF_MEAN|1.28||0.0054|TWO_SIDED|95.0|-6.17|-1.1|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.10|-6.17|0.0054
82565379|NCT02592434|164839964|SUPERIORITY||LS mean difference|-3.85|STANDARD_ERROR_OF_MEAN|1.25||0.0039|TWO_SIDED|95.0|-6.38|-1.32|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.32|-6.38|0.0039
82565380|NCT02592434|164839964|SUPERIORITY||LS mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.98||0.0022|TWO_SIDED|95.0|-5.3|-1.29|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.29|-5.30|0.0022
82565381|NCT02592434|164839964|SUPERIORITY||LS mean difference|-6.21|STANDARD_ERROR_OF_MEAN|1.57||0.0005|TWO_SIDED|95.0|-9.42|-3.0|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-3.00|-9.42|0.0005
82565382|NCT02592434|164839964|SUPERIORITY||LS mean difference|-6.26|STANDARD_ERROR_OF_MEAN|1.63||0.0006|TWO_SIDED|95.0|-9.6|-2.92|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-2.92|-9.60|0.0006
82565383|NCT02592434|164839964|SUPERIORITY||LS mean difference|-4.36|STANDARD_ERROR_OF_MEAN|1.27||0.0027|TWO_SIDED|95.0|-7.02|-1.71|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.71|-7.02|0.0027
82627346|NCT00948428|164970162|EQUIVALENCE|If the 90% confidence interval around the difference between the Generic Imiquimod and Aldara Complete Clearance rates in the ITT population were contained within the interval -0.20 to +0.20, then Generic Imiquimod and Aldara were considered to be therapeutically equivalent.|Mean Difference (Net)|-0.5|||||TWO_SIDED|90.0|-9.92|8.88||||||||8.88|-9.92|
82627347|NCT02408484|164970205|OTHER|||||||0.0028||||||p-value for the change in MCF from baseline to 1 hour post infusion for the firstBLEED population|ANOVA|||||||0.0028
82627348|NCT02408484|164970205|OTHER|||||||0.0002||||||p-value for the change in MCF from baseline to 1 hour post infusion for the BLEED population|ANOVA|||||||0.0002
82565384|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.76||0.0172|TWO_SIDED|95.0|-3.32|-0.33|||MMRM|||Week 20: Analysis was based on Mixed Model for Repeated Measures (MMRM) with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-0.33|-3.32|0.0172
82565385|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|1.21||0.0057|TWO_SIDED|95.0|-5.81|-1.01|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.01|-5.81|0.0057
82565386|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|1.16||0.0038|TWO_SIDED|95.0|-5.94|-1.23|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.23|-5.94|0.0038
82565387|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|1.01||0.002|TWO_SIDED|95.0|-5.47|-1.36|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.36|-5.47|0.0020
82565388|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-5.66|STANDARD_ERROR_OF_MEAN|1.52||0.0007|TWO_SIDED|95.0|-8.74|-2.57|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.57|-8.74|0.0007
82565389|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-5.62|STANDARD_ERROR_OF_MEAN|1.49||0.0007|TWO_SIDED|95.0|-8.66|-2.58|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.58|-8.66|0.0007
82627349|NCT02436915|164970215|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of TUG (i.e., greater percent decrease of time to complete TUG from baseline to follow ups) as compared to the sham tDCS.||||||0.24|||||||ANOVA|||||||0.24
82627350|NCT02436915|164970216|EQUIVALENCE|We hypothesized that the real tDCS would improve the MoCA score (i.e., greater percent increase decrease of MoCA score from baseline to follow ups) as compared to the sham tDCS.||||||0.03|||||||ANOVA|||||||0.03
82627351|NCT02436915|164970217|EQUIVALENCE|We hypothesized that the real tDCS would improve the dual task performance of walking (i.e., greater percent decrease of dual task cost to walking speed from baseline to follow ups) as compared to the sham tDCS.||||||0.37|||||||ANOVA|||||||0.37
82627352|NCT02436915|164970218|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of dual task standing (i.e., greater percent decrease of dual task cost to standing sway speed from baseline to follow ups) as compared to the sham tDCS.||||||0.004|||||||ANOVA|||||||0.004
82627353|NCT02436915|164970219|EQUIVALENCE|We hypothesized that the real tDCS would reduce the depression (i.e., greater percent decrease of GDS score from baseline to follow ups) as compared to the sham tDCS.||||||0.37|||||||ANOVA|||||||0.37
82627354|NCT02436915|164970220|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of TMT (i.e., greater percent decrease of time to complete TMT from baseline to follow ups) as compared to the sham tDCS.||||||0.54|||||||ANOVA|||||||0.54
82627355|NCT02436915|164970221|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of dual task standing (i.e., greater percent decrease of dual task cost to standing postural sway area from baseline to follow ups) as compared to the sham tDCS.||||||0.0007|||||||ANOVA|||||||0.0007
82627356|NCT02436915|164970222|EQUIVALENCE|We hypothesized that the real tDCS would improve the performance of walking (i.e., greater percent decrease of dual task cost to stride time from baseline to follow ups) as compared to the sham tDCS.||||||0.04|||||||ANOVA|||||||0.04
82627357|NCT00927576|164970408|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis of the results showed a 95% chance of finding a p\<0.05 difference in 166 subjects and a 99% chance of finding a p \<0.05 difference in 230 subjects in comparison of Group 1 controls and sTBI patients.|Difference in z-score, sTBI vs. controls|2.04|||<|0.001|TWO_SIDED||||||ANOVA|for repeated measures with effect sizes (omega squared).||The null hypotheses was that the severe TBI group would not differ from the control group in SRT latencies.||||< 0.001
82627358|NCT00927576|164970408|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis of controls (i.e., with z-score = 0) showed a 95% chance of detecting a p \< 0.05 significance level for z-scores exceeding 0.54 in the mild TBI patient group..|z-score difference between groups|-0.3||||0.5|TWO_SIDED|||||The P-value reflects the likelihood of detection a difference of the magnitude observed.|ANOVA|||The null hypothesis was that the mild TBI group would not differ in age-corrected z-score from that of a control subjects in the large control group.||||.50
82627359|NCT04211961|164970435|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82627360|NCT04211961|164970436|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
82627361|NCT04211961|164970437|SUPERIORITY|||||||0.3|||||||Fisher Exact|||||||0.3
82506780|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.3673|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3673
82627362|NCT04211961|164970438|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82627363|NCT04211961|164970440|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
82627364|NCT04211961|164970441|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82627365|NCT04211961|164970442|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82627366|NCT04211961|164970444|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82627367|NCT04211961|164970445|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
82627368|NCT04211961|164970446|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
82627369|NCT04211961|164970447|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
82627370|NCT04211961|164970448|SUPERIORITY||||||>|0.9|||||||Fisher Exact|||||||>0.9
82627371|NCT01548417|164970454|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Linear Mixed Effects Modeling (MEM) with Restricted Maximum Likelihood estimation was used to measure differences in alcohol-cued craving..||||.003
82627372|NCT01548417|164970455|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||Linear Mixed Effect Modeling (MEM) with Restricted Maximum Likelihood estimation was used to measure differences in changes in drinking.||||.05
82627373|NCT01548417|164970455|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Data represent the estimated marginal mean + or - SEM. \*P\<0.05, mifepristone vs. placebo (linear mixed effects modeling).||||<0.05
82627374|NCT02420990|164970462|SUPERIORITY||Slope|-0.31|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
82627375|NCT02420990|164970462|SUPERIORITY||Slope|-0.67|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
82627376|NCT02420990|164970462|SUPERIORITY||Slope|0.05||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
82627377|NCT02420990|164970462|SUPERIORITY||Slope|0.56||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
82627378|NCT02420990|164970462|SUPERIORITY||Slope|-0.72||||0.05|TWO_SIDED||||||Latent Growth Curve Modeling|||||||0.05
82627379|NCT02420990|164970463|SUPERIORITY||Slope|-1.78|||||TWO_SIDED||||||Linear Growth Curve Modeling|||||||
82627380|NCT02420990|164970463|SUPERIORITY||Slope|-0.64|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
82627381|NCT02420990|164970463|SUPERIORITY||Slope|0.07|||||TWO_SIDED||||||Linear Growth Curve Modeling|||||||
82627382|NCT02420990|164970463|SUPERIORITY||Slope|0.0|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
82627383|NCT02420990|164970463|SUPERIORITY||Slope|-1.44|||||TWO_SIDED||||||Latent Growth Curve Modeling|||||||
82627384|NCT02420990|164970464|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.56|TWO_SIDED||||||Regression, Linear|||||||.56
82627385|NCT03326583|164970465|SUPERIORITY|||||||0.05|||||||Fisher Exact|||||||.05
82627386|NCT03326583|164970466|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
82627387|NCT03326583|164970467|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
82627388|NCT03326583|164970468|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
82627389|NCT01641081|164970552|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2644|STANDARD_ERROR_OF_MEAN|0.0148|<|0.0001|TWO_SIDED|95.0|0.2353|0.2934|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2934|0.2353|<0.0001
82627390|NCT01641081|164970552|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2524|STANDARD_ERROR_OF_MEAN|0.0156|<|0.0001|TWO_SIDED|95.0|0.2218|0.283|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2830|0.2218|<0.0001
82627391|NCT01641081|164970552|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2242|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.1941|0.2544|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2544|0.1941|<0.0001
82627392|NCT01641081|164970552|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2174|STANDARD_ERROR_OF_MEAN|0.0146|<|0.0001|TWO_SIDED|95.0|0.1887|0.2461|||Mixed Models Analysis|Treatment and period as fixed effects, and baseline FEV1 values at each period as a covariate||||0.2461|0.1887|<0.0001
82627393|NCT00588380|164970554|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Kruskal-Wallis|||Using the Kruskal-Wallis test (general allelic model), we assessed univariate associations of rs6923761 genotype with Phi Total in the presence of either glucose alone, glucose and 0.75 pmol/kg/min GLP-1 or glucose and 1.5 pmol/kg/min GLP-1 If the p-value for the overall univariate test of association was \<0.1, then the associations for specific genotype pairs (e.g.: 1,1 vs. 1,2 or 2,2 vs. 1,1) were also examined using a Mann-Whitney Rank Sum test.||||0.11
82627394|NCT00588380|164970555|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Kruskal-Wallis|||All data are presented as means ± SEM. Using the Kruskal-Wallis test (general allelic model), we assessed univariate associations of genotype with ΦTotal||||0.09
82627395|NCT02709109|164970617|SUPERIORITY||Least Square (LS) mean difference|0.2||||0.8173|TWO_SIDED|95.0|-1.4|1.8|||Mixed-effects Model for Repeated Measure|||||1.8|-1.4|0.8173
82627396|NCT02709109|164970617|SUPERIORITY||LS mean difference|-0.7||||0.5903|TWO_SIDED|95.0|-3.3|1.9|||Mixed-effects Model for Repeated Measure|||||1.9|-3.3|0.5903
82627397|NCT02709109|164970617|SUPERIORITY||LS mean difference|-0.7||||0.5917|TWO_SIDED|95.0|-3.4|1.9|||Mixed-effects Model for Repeated Measure|||||1.9|-3.4|0.5917
82627398|NCT02709109|164970617|SUPERIORITY||LS mean difference|-0.9||||0.5021|TWO_SIDED|95.0|-3.6|1.8|||Mixed-effects Model for Repeated Measure|||||1.8|-3.6|0.5021
82627399|NCT02709109|164970617|SUPERIORITY||LS mean difference|-1.6||||0.1382|TWO_SIDED|95.0|-3.8|0.5|||Mixed-effects Model for Repeated Measure|||||0.5|-3.8|0.1382
82627400|NCT02709109|164970617|SUPERIORITY||LS mean difference|0.9||||0.4962|TWO_SIDED|95.0|-1.7|3.5|||Mixed-effects Model for Repeated Measure|||||3.5|-1.7|0.4962
82627401|NCT04010370|164970621|SUPERIORITY||||||<|0.001|||||||Spearman correlation|||Correlation of McAuley index with PREDIM index at baseline.||||<0.001
82627402|NCT04010370|164970622|SUPERIORITY|||||||0.319|||||||Spearman correlation|||Correlation of Belfiore index with PREDIM index at baseline.||||0.319
82627403|NCT04010370|164970623|SUPERIORITY|||||||0.27|||||||Spearman correlation|||Correlation of Cederholm index with PREDIM index at baseline.||||0.27
82627404|NCT04010370|164970624|SUPERIORITY|||||||0.246|||||||Spearman correlation|||Correlation of Avignon index with PREDIM index at baseline.||||0.246
82627405|NCT04010370|164970625|SUPERIORITY|||||||0.259|||||||Spearman correlation|||Correlation of Matsuda index with PREDIM index at baseline.||||0.259
82627406|NCT04010370|164970626|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of Gutt index with PREDIM index at baseline.||||0.69
82627407|NCT04010370|164970627|SUPERIORITY|||||||0.022|||||||Spearman correlation|||Correlation of Stumvoll index with PREDIM index at baseline.||||0.022
82627408|NCT04010370|164970628|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of HOMA-IR index with PREDIM index at baseline.||||0.69
82627409|NCT04010370|164970629|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of ISI index with PREDIM index at baseline.||||0.69
82627410|NCT04010370|164970630|SUPERIORITY|||||||0.541|||||||Spearman correlation|||Correlation of Raynaud index with PREDIM index at baseline.||||0.541
82627411|NCT04010370|164970631|SUPERIORITY|||||||0.69|||||||Spearman correlation|||Correlation of QUICKI index with PREDIM index at baseline.||||0.69
82627412|NCT04010370|164970632|SUPERIORITY|||||||0.531|||||||Spearman correlation|||Correlation of FIRI index with PREDIM index at baseline.||||0.531
82627413|NCT04010370|164970633|SUPERIORITY|||||||0.726|||||||Spearman correlation|||Correlation of Bennett index with PREDIM index at baseline.||||0.726
82627414|NCT04010370|164970634|SUPERIORITY|||||||0.787|||||||Spearman correlation|||Correlation of TyG index with PREDIM index at baseline.||||0.787
82627415|NCT01015820|164970635|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Statistical significance p ≤ 0.05||||0.001
82627416|NCT01015820|164970636|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Statistical significance p ≤ 0.05||||0.03
82627417|NCT03906136|164970647|SUPERIORITY||Odds Ratio (OR)|0.69||||0.119|TWO_SIDED|95.0|0.43|1.1|||Regression, Logistic|||Week 24||1.10|0.43|0.119
82627418|NCT03906136|164970648|SUPERIORITY||Odds Ratio (OR)|0.59||||0.029|TWO_SIDED|95.0|0.37|0.95|||Regression, Logistic|||Week 12||0.95|0.37|0.029
82627419|NCT03906136|164970649|SUPERIORITY||Odds Ratio (OR)|0.71||||0.154|TWO_SIDED|95.0|0.45|1.14|||Regression, Logistic|||Week 12||1.14|0.45|0.154
82627420|NCT03906136|164970649|SUPERIORITY||Odds Ratio (OR)|0.87||||0.562|TWO_SIDED|95.0|0.54|1.39|||Regression, Logistic|||Week 24||1.39|0.54|0.562
82627421|NCT03906136|164970650|SUPERIORITY||Odds Ratio (OR)|0.55||||0.029|TWO_SIDED|95.0|0.32|0.94|||Regression, Logistic|||Week 12||0.94|0.32|0.029
82627422|NCT03906136|164970650|SUPERIORITY||Odds Ratio (OR)|0.74||||0.264|TWO_SIDED|95.0|0.44|1.25|||Regression, Logistic|||Week 24||1.25|0.44|0.264
82627423|NCT03906136|164970651|SUPERIORITY||Odds Ratio (OR)|0.49||||0.008|TWO_SIDED|95.0|0.29|0.83|||Regression, Logistic|||Week 12||0.83|0.29|0.008
82627424|NCT03906136|164970651|SUPERIORITY||Odds Ratio (OR)|0.47||||0.005|TWO_SIDED|95.0|0.28|0.8|||Regression, Logistic|||Week 24||0.80|0.28|0.005
82627425|NCT03906136|164970652|SUPERIORITY||Odds Ratio (OR)|0.72||||0.263|TWO_SIDED|95.0|0.4|1.28|||Regression, Logistic|||Week 12||1.28|0.40|0.263
82442172|NCT04883528|164592830|SUPERIORITY|||||||0.88|||||||Mixed Models Analysis|||||||0.88
82627426|NCT03906136|164970652|SUPERIORITY||Odds Ratio (OR)|0.61||||0.103|TWO_SIDED|95.0|0.34|1.1|||Regression, Logistic|||Week 24||1.10|0.34|0.103
82627427|NCT03906136|164970653|SUPERIORITY||Odds Ratio (OR)|0.64||||0.055|TWO_SIDED|95.0|0.4|1.01|||Regression, Logistic|||Week 12||1.01|0.40|0.055
82627428|NCT03906136|164970653|SUPERIORITY||Odds Ratio (OR)|0.82||||0.409|TWO_SIDED|95.0|0.52|1.31|||Regression, Logistic|||Week 24||1.31|0.52|0.409
82627429|NCT03906136|164970654|SUPERIORITY||Odds Ratio (OR)|0.85||||0.477|TWO_SIDED|95.0|0.53|1.34|||Regression, Logistic|||Week 12||1.34|0.53|0.477
82627430|NCT03906136|164970654|SUPERIORITY||Odds Ratio (OR)|1.01||||0.968|TWO_SIDED|95.0|0.63|1.61|||Regression, Logistic|||Week 24||1.61|0.63|0.968
82627431|NCT03906136|164970655|SUPERIORITY||Odds Ratio (OR)|0.3||||0.205|TWO_SIDED|95.0|-0.16|0.75|||Regression, Logistic|||Week 12||0.75|-0.16|0.205
82627432|NCT03906136|164970655|SUPERIORITY||Odds Ratio (OR)|0.37||||0.108|TWO_SIDED|95.0|-0.08|0.82|||Regression, Logistic|||Week 24||0.82|-0.08|0.108
82627433|NCT03906136|164970656|SUPERIORITY||Mean Difference (Net)|0.06||||0.525|TWO_SIDED|95.0|-0.12|0.23|||Mixed Models Analysis|||Week 12||0.23|-0.12|0.525
82627434|NCT03906136|164970656|SUPERIORITY||Mean Difference (Net)|-0.06||||0.577|TWO_SIDED|95.0|-0.25|0.14|||Mixed Models Analysis|||Week 24||0.14|-0.25|0.577
82627435|NCT03906136|164970657|SUPERIORITY||Odds Ratio (OR)|-0.89||||0.22|TWO_SIDED|95.0|-2.32|0.54|||Mixed Models Analysis|||Week 12||0.54|-2.32|0.220
82627436|NCT03906136|164970657|SUPERIORITY||Median Difference (Net)|-0.1||||0.745|TWO_SIDED|95.0|-0.7|0.5|||Regression, Logistic|||Week 24||0.50|-0.70|0.745
82627437|NCT03906136|164970658|SUPERIORITY||Mean Difference (Net)|-0.13||||0.768|TWO_SIDED|95.0|-1.01|0.74|||Mixed Models Analysis|||Week 12||0.74|-1.01|0.768
82627438|NCT03906136|164970658|SUPERIORITY||Mean Difference (Net)|-0.37||||0.451|TWO_SIDED|95.0|-1.34|0.6|||Mixed Models Analysis|||Week 24||0.60|-1.34|0.451
82627439|NCT03906136|164970659|SUPERIORITY||Mean Difference (Net)|0.26||||0.477|TWO_SIDED|95.0|-0.46|0.97|||Mixed Models Analysis|||Week 12||0.97|-0.46|0.477
82627440|NCT03906136|164970659|SUPERIORITY||Mean Difference (Net)|-0.17||||0.66|TWO_SIDED|95.0|-0.92|0.58|||Mixed Models Analysis|||Week 24||0.58|-0.92|0.660
82627441|NCT03906136|164970660|SUPERIORITY||Mean Difference (Net)|0.17||||0.586|TWO_SIDED|95.0|-0.45|0.79|||Mixed Models Analysis|||Week 12||0.79|-0.45|0.586
82627442|NCT03906136|164970660|SUPERIORITY||Median Difference (Net)|0.21||||0.491|TWO_SIDED|95.0|-0.39|0.82|||Mixed Models Analysis|||Week 24||0.82|-0.39|0.491
82627443|NCT03906136|164970661|SUPERIORITY|Week 12|Mean Difference (Net)|4.49||||0.082|TWO_SIDED|95.0|-0.58|9.56|||Mixed Models Analysis|||||9.56|-0.58|0.082
82627444|NCT03906136|164970661|SUPERIORITY||Median Difference (Net)|2.73||||0.292|TWO_SIDED|95.0|-2.35|7.81|||Mixed Models Analysis|||Week 24||7.81|-2.35|0.292
82627445|NCT00394277|164970675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.075||||0.584||95.0|0.831|1.391||All secondary comparisons were tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||This reflects the primary protocol-specified comparison (standard Pegasys induction dosing arms versus pooled Pegasys induction dosing arms). The study was designed to have at least 86% power for testing the null hypothesis of no difference between these two pooled groups, with assumed response rates of 28%, 32%, 36%, and 43% in the four treatment arms.||1.391|0.831|0.584
82627446|NCT00394277|164970676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.039||||0.775||95.0|0.803|1.344||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.344|0.803|0.775
82627447|NCT00394277|164970677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.004||||0.973||95.0|0.777|1.299||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.299|0.777|0.973
82627448|NCT00394277|164970678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.008||||0.951||95.0|0.78|1.304||All secondary comparisons are tested at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|P-value obtained from CMH test, stratified by country and ribavirin dose strata.||(PEG-IFN 180 µg + Ribavirin 1200 mg and PEG-IFN 180 µg + Ribavirin 1400/1600 mg) vs. (PEG-IFN 360/180 µg + Ribavirin 1200 mg and PEG-IFN 360/180 µg + Ribavirin 1400/1600 mg)||1.304|0.780|0.951
82627449|NCT02371980|164970679|SUPERIORITY||Hazard Ratio (HR)|0.517||||0.006|TWO_SIDED|95.0|0.323|0.828||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 5mg Vs Double-blind Placebo||0.828|0.323|0.006
82627450|NCT02371980|164970679|SUPERIORITY||Hazard Ratio (HR)|0.476||||0.002|TWO_SIDED|95.0|0.296|0.767||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 10 mg Vs Double-blind Placebo||0.767|0.296|0.002
82627451|NCT02371980|164970679|SUPERIORITY||Hazard Ratio (HR)|0.483||||0.003|TWO_SIDED|95.0|0.298|0.782||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 20 mg Vs Double-blind Placebo||0.782|0.298|0.003
82627452|NCT02371980|164970680|SUPERIORITY||Least Squares Mean (LSM) Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.59||0.421|TWO_SIDED|95.0|-1.63|0.68|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.68|-1.63|0.421
82506781|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-6.8|STANDARD_ERROR_OF_MEAN|1.91||0.0004|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0004
82506782|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-6.9|STANDARD_ERROR_OF_MEAN|3.12||0.0273|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0273
82506783|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506784|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.9091|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9091
82506785|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506786|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.7718|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7718
82506787|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|2.11|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506788|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-10.1|STANDARD_ERROR_OF_MEAN|3.5||0.0038|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0038
82506789|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506790|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.272|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2720
82565390|NCT02592434|164839966|SUPERIORITY||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|1.25||0.0018|TWO_SIDED|95.0|-6.99|-1.82|||MMRM|||Week 44:Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-1.82|-6.99|0.0018
82565391|NCT02592434|164839968|SUPERIORITY||Difference in percentage|1.47||||0.861|TWO_SIDED|95.0|-14.96|17.9|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||17.90|-14.96|0.8610
82565392|NCT02592434|164839968|SUPERIORITY||Difference in percentage|10.12||||0.2173|TWO_SIDED|95.0|-5.96|26.2|||Normal approximation to the binomial|||Week 20||26.20|-5.96|0.2173
82565393|NCT02592434|164839968|SUPERIORITY||Difference in percentage|12.94||||0.1135|TWO_SIDED|95.0|-3.08|28.96|||Normal approximation to the binomial|||Week 24||28.96|-3.08|0.1135
82506791|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506792|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.4767|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4767
82506793|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-4.5|STANDARD_ERROR_OF_MEAN|2.32||0.0553|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0553
82506794|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-6.9|STANDARD_ERROR_OF_MEAN|3.73||0.0632|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0632
82506795|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506796|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.9398|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9398
82506797|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506798|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.5655|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5655
82506799|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-5.9|STANDARD_ERROR_OF_MEAN|2.54||0.0204|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0204
82506800|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-6.4|STANDARD_ERROR_OF_MEAN|4.37||0.1414|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1414
82506801|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565394|NCT02592434|164839968|SUPERIORITY||Difference in percentage|11.51||||0.161|TWO_SIDED|95.0|-4.58|27.6|||Normal approximation to the binomial|||Week 28||27.60|-4.58|0.1610
82565395|NCT02592434|164839968|SUPERIORITY||Difference in percentage|7.42||||0.3571|TWO_SIDED|95.0|-8.37|23.21|||Normal approximation to the binomial|||Week 32||23.21|-8.37|0.3571
82565396|NCT02592434|164839968|SUPERIORITY||Difference in percentage|14.44||||0.0716|TWO_SIDED|95.0|-1.27|30.16|||Normal approximation to the binomial|||Week 36||30.16|-1.27|0.0716
82565397|NCT02592434|164839968|SUPERIORITY||Difference in percentage|14.4||||0.0746|TWO_SIDED|95.0|-1.43|30.24|||Normal approximation to the binomial|||Week 40||30.24|-1.43|0.0746
82565398|NCT02592434|164839968|SUPERIORITY||Difference in percentage|14.37||||0.0773|TWO_SIDED|95.0|-1.57|30.3|||Normal approximation to the binomial|||Week 44||30.30|-1.57|0.0773
82565399|NCT02592434|164839970|SUPERIORITY||Difference in percentage|-3.06||||0.5131|TWO_SIDED|95.0|-12.21|6.1|||Normal approximation to the binomial|||Double Blind Baseline (Week 18)||6.10|-12.21|0.5131
82565400|NCT02592434|164839970|SUPERIORITY||Difference in percentage|6.87||||0.0876|TWO_SIDED|95.0|-1.01|14.74|||Normal approximation to the binomial|||Week 20||14.74|-1.01|0.0876
82442173|NCT04883528|164592831|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
82627453|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.589||0.037|TWO_SIDED|95.0|-2.39|-0.08|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||-0.08|-2.39|0.037
82627454|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.592||0.488|TWO_SIDED|95.0|-1.57|0.75|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.75|-1.57|0.488
82627455|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.765||0.002|TWO_SIDED|95.0|-3.93|-0.93|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.93|-3.93|0.002
82627456|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.761|<|0.001|TWO_SIDED|95.0|-4.49|-1.51|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-1.51|-4.49|<0.001
82627457|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.775||0.001|TWO_SIDED|95.0|-4.02|-0.98|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.98|-4.02|0.001
82627458|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|0.924||0.001|TWO_SIDED|95.0|-4.76|-1.13|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-1.13|-4.76|0.001
82627459|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|0.919|<|0.001|TWO_SIDED|95.0|-5.64|-2.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-2.03|-5.64|<0.001
82627460|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.939||0.001|TWO_SIDED|95.0|-4.84|-1.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-1.16|-4.84|0.001
82627461|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.92|STANDARD_ERROR_OF_MEAN|0.938||0.002|TWO_SIDED|95.0|-4.76|-1.08|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-1.08|-4.76|0.002
82627462|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-4.51|STANDARD_ERROR_OF_MEAN|0.934|<|0.001|TWO_SIDED|95.0|-6.34|-2.68|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-2.68|-6.34|<0.001
82627463|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|0.949|<|0.001|TWO_SIDED|95.0|-5.5|-1.78|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-1.78|-5.50|<0.001
82565401|NCT02592434|164839970|SUPERIORITY||Difference in percentage|6.79||||0.1561|TWO_SIDED|95.0|-2.59|16.16|||Normal approximation to the binomial|||Week 24||16.16|-2.59|0.1561
82565402|NCT02592434|164839970|SUPERIORITY||Difference in percentage|2.58||||0.5795|TWO_SIDED|95.0|-6.54|11.7|||Normal approximation to the binomial|||Week 28||11.70|-6.54|0.5795
82565403|NCT02592434|164839970|SUPERIORITY||Difference in percentage|5.4||||0.2435|TWO_SIDED|95.0|-3.67|14.47|||Normal approximation to the binomial|||Week 32||14.47|-3.67|0.2435
82565404|NCT02592434|164839970|SUPERIORITY||Difference in percentage|9.52||||0.0758|TWO_SIDED|95.0|-0.99|20.04|||Normal approximation to the binomial|||Week 36||20.04|-0.99|0.0758
82565405|NCT02592434|164839970|SUPERIORITY||Difference in percentage|10.91||||0.0464|TWO_SIDED|95.0|0.17|21.65|||Normal approximation to the binomial|||Week 40||21.65|0.17|0.0464
82565406|NCT02592434|164839970|SUPERIORITY||Difference in percentage|8.06||||0.1634|TWO_SIDED|95.0|-3.27|19.38|||Normal approximation to the binomial|||Week 44||19.38|-3.27|0.1634
82565407|NCT02592434|164839971|SUPERIORITY||Difference in percentage|-17.42||||0.0062|TWO_SIDED|95.0|-29.88|-4.96|||Normal approximation to the binomial|||Double Blind baseline (Week 18)||-4.96|-29.88|0.0062
82565408|NCT02592434|164839971|SUPERIORITY||Difference in percentage|-0.44||||0.9427|TWO_SIDED|95.0|-12.34|11.47|||Normal approximation to the binomial|||Week 20||11.47|-12.34|0.9427
82565409|NCT02592434|164839971|SUPERIORITY||Difference in percentage|-0.6||||0.9308|TWO_SIDED|95.0|-14.03|12.84|||Normal approximation to the binomial|||Week 24||12.84|-14.03|0.9308
82565410|NCT02592434|164839971|SUPERIORITY||Difference in percentage|0.87||||0.8945|TWO_SIDED|95.0|-12.03|13.78|||Normal approximation to the binomial|||Week 28||13.78|-12.03|0.8945
82565411|NCT02592434|164839971|SUPERIORITY||Difference in percentage|2.22||||0.7455|TWO_SIDED|95.0|-11.2|15.64|||Normal approximation to the binomial|||Week 32||15.64|-11.20|0.7455
82565412|NCT02592434|164839971|SUPERIORITY||Difference in percentage|9.25||||0.1787|TWO_SIDED|95.0|-4.23|22.72|||Normal approximation to the binomial|||Week 36||22.72|-4.23|0.1787
82565413|NCT02592434|164839971|SUPERIORITY||Difference in percentage|12.1||||0.0695|TWO_SIDED|95.0|-0.97|25.17|||Normal approximation to the binomial|||Week 40||25.17|-0.97|0.0695
82565414|NCT02592434|164839971|SUPERIORITY||Difference in percentage|9.25||||0.1787|TWO_SIDED|95.0|-4.23|22.72|||Normal approximation to the binomial|||Week 44||22.72|-4.23|0.1787
82565415|NCT02592434|164839972|SUPERIORITY||Difference in percentage|-0.12||||0.9719|TWO_SIDED|95.0|-6.74|6.5|||Normal approximation to the binomial|||||6.50|-6.74|0.9719
82442174|NCT04883528|164592832|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.85
82627464|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.957||0.033|TWO_SIDED|95.0|-3.92|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.16|-3.92|0.033
82627465|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.69|STANDARD_ERROR_OF_MEAN|0.952|<|0.001|TWO_SIDED|95.0|-5.55|-1.82|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-1.82|-5.55|<0.001
82627466|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.967||0.007|TWO_SIDED|95.0|-4.52|-0.73|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.73|-4.52|0.007
82627467|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|0.912||0.004|TWO_SIDED|95.0|-4.4|-0.82|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.82|-4.40|0.004
82627468|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-4.09|STANDARD_ERROR_OF_MEAN|0.906|<|0.001|TWO_SIDED|95.0|-5.86|-2.31|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-2.31|-5.86|<0.001
82627469|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|0.921||0.003|TWO_SIDED|95.0|-4.57|-0.96|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.96|-4.57|0.003
82627470|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-1.92|STANDARD_ERROR_OF_MEAN|1.008||0.057|TWO_SIDED|95.0|-3.89|0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.06|-3.89|0.057
82627471|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.997|<|0.001|TWO_SIDED|95.0|-5.46|-1.55|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-1.55|-5.46|<0.001
82627472|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.011||0.012|TWO_SIDED|95.0|-4.51|-0.55|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-0.55|-4.51|0.012
82627473|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.012||0.061|TWO_SIDED|95.0|-3.88|0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.09|-3.88|0.061
82627474|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-2.36|STANDARD_ERROR_OF_MEAN|0.997||0.018|TWO_SIDED|95.0|-4.31|-0.4|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||-0.40|-4.31|0.018
82627475|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|1.015||0.065|TWO_SIDED|95.0|-3.87|0.12|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.12|-3.87|0.065
82627476|NCT02371980|164970680|SUPERIORITY||MMRM Model|-3.09|STANDARD_ERROR_OF_MEAN|1.136||0.007|TWO_SIDED|95.0|-5.31|-0.86|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.86|-5.31|0.007
82627477|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.97|STANDARD_ERROR_OF_MEAN|1.122|<|0.001|TWO_SIDED|95.0|-6.16|-1.77|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-1.77|-6.16|<0.001
82627478|NCT02371980|164970680|SUPERIORITY||Least Squares Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|1.143||0.002|TWO_SIDED|95.0|-5.82|-1.34|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-1.34|-5.82|0.002
82627479|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.085||0.732|TWO_SIDED|95.0|-0.2|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.14|-0.20|0.732
82627480|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.085||0.273|TWO_SIDED|95.0|-0.26|0.07|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.07|-0.26|0.273
82627481|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.085||0.361|TWO_SIDED|95.0|-0.24|0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 2||0.09|-0.24|0.361
82627482|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.099||0.004|TWO_SIDED|95.0|-0.48|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.09|-0.48|0.004
82565416|NCT02592434|164839974|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.61||0.1595|TWO_SIDED|95.0|-2.08|0.35|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.35|-2.08|0.1595
82565417|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.96||0.1421|TWO_SIDED|95.0|-3.32|0.48|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.48|-3.32|0.1421
82565418|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-1.66|STANDARD_ERROR_OF_MEAN|0.83||0.0552|TWO_SIDED|95.0|-3.37|0.04|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.04|-3.37|0.0552
82565419|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-1.17|STANDARD_ERROR_OF_MEAN|0.63||0.0822|TWO_SIDED|95.0|-2.5|0.17|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.17|-2.50|0.0822
82565420|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-3.98|STANDARD_ERROR_OF_MEAN|1.22||0.0041|TWO_SIDED|95.0|-6.53|-1.43|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.43|-6.53|0.0041
82565421|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-3.57|STANDARD_ERROR_OF_MEAN|1.22||0.0085|TWO_SIDED|95.0|-6.12|-1.02|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-1.02|-6.12|0.0085
82565422|NCT02592434|164839974|SUPERIORITY||LS Mean difference|-2.24|STANDARD_ERROR_OF_MEAN|1.03||0.0384|TWO_SIDED|95.0|-4.36|-0.13|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.13|-4.36|0.0384
82565423|NCT02592434|164839976|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.23||0.2595|TWO_SIDED|95.0|-0.72|0.19|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.19|-0.72|0.2595
82565424|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.0674|TWO_SIDED|95.0|-1.42|0.05|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.05|-1.42|0.0674
82565425|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.49||0.058|TWO_SIDED|95.0|-1.93|0.03|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.03|-1.93|0.0580
82565426|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.44||0.0751|TWO_SIDED|95.0|-1.67|0.08|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.08|-1.67|0.0751
82565427|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.43||0.0251|TWO_SIDED|95.0|-1.88|-0.13|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.13|-1.88|0.0251
82565428|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.49||0.0331|TWO_SIDED|95.0|-2.07|-0.09|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.09|-2.07|0.0331
82565429|NCT02592434|164839976|SUPERIORITY||LS Mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.42||0.0549|TWO_SIDED|95.0|-1.66|0.02|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.02|-1.66|0.0549
82565430|NCT02592434|164839978|SUPERIORITY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.25||0.0353|TWO_SIDED|95.0|-1.04|-0.04|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.04|-1.04|0.0353
82565431|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.32||0.0094|TWO_SIDED|95.0|-1.47|-0.21|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.21|-1.47|0.0094
82565432|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.28||0.0065|TWO_SIDED|95.0|-1.36|-0.23|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.23|-1.36|0.0065
82565433|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27||0.0018|TWO_SIDED|95.0|-1.43|-0.34|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.34|-1.43|0.0018
82565434|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|95.0|-2.24|-0.61|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.61|-2.24|0.0010
82565435|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.4||0.0002|TWO_SIDED|95.0|-2.42|-0.81|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.81|-2.42|0.0002
82565436|NCT02592434|164839978|SUPERIORITY||LS Mean difference|-1.58|STANDARD_ERROR_OF_MEAN|0.43||0.0007|TWO_SIDED|95.0|-2.44|-0.71|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.71|-2.44|0.0007
82565437|NCT02592434|164839980|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.0398|TWO_SIDED|95.0|-0.83|-0.02|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.02|-0.83|0.0398
82627483|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.099||0.002|TWO_SIDED|95.0|-0.5|-0.12|||Least Squares Mean Difference|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.12|-0.50|0.002
82627484|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 4||-0.16|-0.55|<0.001
82627485|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.121||0.014|TWO_SIDED|95.0|-0.54|-0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.06|-0.54|0.014
82627486|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.121||0.001|TWO_SIDED|95.0|-0.63|-0.16|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.16|-0.63|0.001
82627487|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.123||0.002|TWO_SIDED|95.0|-0.62|-0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 8||-0.14|-0.62|0.002
82627488|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.122||0.025|TWO_SIDED|95.0|-0.51|-0.03|||Least Squares Mean Difference|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.03|-0.51|0.025
82627489|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.74|-0.26|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.26|-0.74|<0.001
82627490|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.124||0.002|TWO_SIDED|95.0|-0.63|-0.15|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 12||-0.15|-0.63|0.002
82627491|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.123||0.333|TWO_SIDED|95.0|-0.36|0.12|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||0.12|-0.36|0.333
82627492|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.122||0.002|TWO_SIDED|95.0|-0.61|-0.13|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.13|-0.61|0.002
82627493|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.124||0.023|TWO_SIDED|95.0|-0.53|-0.04|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 16||-0.04|-0.53|0.023
82627494|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.121||0.092|TWO_SIDED|95.0|-0.44|0.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||0.03|-0.44|0.092
82627495|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.121|<|0.001|TWO_SIDED|95.0|-0.67|-0.2|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.20|-0.67|<0.001
82627496|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.122||0.008|TWO_SIDED|95.0|-0.57|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 20||-0.09|-0.57|0.008
82627497|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.248|TWO_SIDED|95.0|-0.42|0.11|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.11|-0.42|0.248
82627498|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.133||0.006|TWO_SIDED|95.0|-0.63|-0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||-0.10|-0.63|0.006
82627499|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.135||0.087|TWO_SIDED|95.0|-0.5|0.03|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 24||0.03|-0.50|0.087
82627500|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.131||0.362|TWO_SIDED|95.0|-0.38|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.14|-0.38|0.362
82627501|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.129||0.251|TWO_SIDED|95.0|-0.4|0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.10|-0.40|0.251
82627502|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.131||0.391|TWO_SIDED|95.0|-0.37|0.14|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 28||0.14|-0.37|0.391
82627503|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.141||0.209|TWO_SIDED|95.0|-0.45|0.1|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||0.10|-0.45|0.209
82627504|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.139||0.018|TWO_SIDED|95.0|-0.6|-0.06|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.06|-0.60|0.018
82627505|NCT02371980|164970681|SUPERIORITY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.141||0.009|TWO_SIDED|95.0|-0.65|-0.09|||MMRM|MMRM with treatment, visit, BL II score, treatment by visit interaction as fixed factors, center as random effect, and unstructured covariance matrix.||Change From Baseline II at Week 32||-0.09|-0.65|0.009
82627506|NCT02371980|164970683|SUPERIORITY||Hazard Ratio (HR)|0.481||||0.002|TWO_SIDED|95.0|0.302|0.766||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 5mg Vs Double-blind Placebo||0.766|0.302|0.002
82627507|NCT02371980|164970683|SUPERIORITY||Hazard Ratio (HR)|0.455|||<|0.001|TWO_SIDED|95.0|0.286|0.725||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 10 mg Vs Double-blind Placebo||0.725|0.286|<0.001
82627508|NCT02371980|164970683|SUPERIORITY||Hazard Ratio (HR)|0.484||||0.002|TWO_SIDED|95.0|0.304|0.771||Gate-keeping fixed-sequence testing procedure was used for multiple comparisons.|Cox Proportional Hazards Model|Cox proportional hazards model with a factor for treatment and baseline II MADRS total score as a covariate, using the exact method to handle ties.||Double-blind Vortioxetine 20 mg Vs Double-blind Placebo||0.771|0.304|0.002
82627509|NCT00922974|164970685|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Based on the one-sided exact binomial test with α=0.025 and a 2:1 randomization, 228 patients would be required to detect a 40% improvement in the response rate from 51% (external beam radiation therapy) to 70% (Radiosurgery/SBRT) with a statistical power of 0.80.||||0.99
82627510|NCT00922974|164970686|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.38|TWO_SIDED|95.0|0.72|1.27|||Stratified log rank|One-sided significance level = 0.025.|Reference level = Radiosurgery/SBRT|||1.27|0.72|0.38
82627511|NCT00922974|164970687|SUPERIORITY||Hazard Ratio (HR)|1.73||||0.29|TWO_SIDED|95.0|0.24|12.8|||Stratified log rank|One-sided significance level = 0.025|Significance level = Radiosurgery/SBRT|||12.8|0.24|0.29
82627512|NCT00922974|164970688|SUPERIORITY|||||||0.93||||||Two-sided significance level = 0.05|Chi-squared|||Percentage of patients with treatment-related adverse events.||||0.93
82627513|NCT00922974|164970688|SUPERIORITY|||||||0.09||||||Two-sided significance level = 0.05|Chi-squared|||Percentage of patients with any adverse events.||||0.09
82627514|NCT00922974|164970689|SUPERIORITY|||||||0.59||||||Two-sided significance level = 0.05|Gray's test|||||||0.59
82627515|NCT00922974|164970690|SUPERIORITY|||||||0.38||||||Two-sided significance level = 0.05|Gray's test|||||||0.38
82627516|NCT00922974|164970691|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Assuming that the data are normally distributed, the two sample t-test assuming equal variances will be used to test the hypothesis at the one-sided 0.025 significance level. A mean difference of 7 points represents a clinically meaningful change (CMC). A difference of less than 7 points between the treatment arms will not be considered meaningful, even if it has statistical significance.||||0.28
82627517|NCT00922974|164970692|SUPERIORITY|||||||0.4313|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.4313
82627518|NCT00922974|164970692|SUPERIORITY|||||||0.8707|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.8707
82627519|NCT00922974|164970692|SUPERIORITY|||||||0.1549|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.1549
82627520|NCT00922974|164970692|SUPERIORITY|||||||0.0193|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.0193
82627521|NCT00922974|164970692|SUPERIORITY|||||||0.0016|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||0.0016
82506802|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.6279|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6279
82627522|NCT00922974|164970692|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||0.0003
82627523|NCT00922974|164970692|SUPERIORITY|||||||0.6371|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with BPI Worst Pain Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.6371
82627524|NCT00922974|164970693|SUPERIORITY|||||||0.0218|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.0218
82627525|NCT00922974|164970693|SUPERIORITY|||||||0.9437|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.9437
82627526|NCT00922974|164970693|SUPERIORITY|||||||0.0696|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.0696
82627527|NCT00922974|164970693|SUPERIORITY|||||||0.114|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.1140
82627528|NCT00922974|164970693|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||0.0003
82627529|NCT00922974|164970693|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||<0.0001
82627530|NCT00922974|164970693|SUPERIORITY|||||||0.7732|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with EQ-5D Index Score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.7732
82627531|NCT00922974|164970694|SUPERIORITY|||||||0.5198|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Treatment Arm (External Beam Radiation Therapy vs. Radiosurgery/SBRT) is reported here.||||0.5198
82506803|NCT01480076|164704579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565438|NCT02592434|164839980|SUPERIORITY||LS Mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.28||0.0011|TWO_SIDED|95.0|-1.49|-0.39|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.39|-1.49|0.0011
82377559|NCT00486525|164462481|SUPERIORITY_OR_OTHER||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.34||0.098|TWO_SIDED|95.0|-1.2|0.1|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of CESD for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.10|-1.2|0.098
82377560|NCT01769456|164462483|OTHER||||||<|0.0001||||||Reported p-value is the calculated value provided by SAS output.|Wilcoxon Signed Rank Test|||||||< 0.0001
82377561|NCT01769456|164462484|OTHER|||||||0.0236|||||||Wilcoxon Signed Rank Test|||||||0.0236
82377562|NCT01769456|164462485|OTHER|||||||0.0003|||||||Wilcoxon Signed Rank Test|||||||0.0003
82377563|NCT01769456|164462486|OTHER|||||||0.0236|||||||Wilcoxon Signed Rank Test|||||||0.0236
82565439|NCT02592434|164839980|SUPERIORITY||LS mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0131|TWO_SIDED|95.0|-1.47|-0.18|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.18|-1.47|0.0131
82565440|NCT02592434|164839980|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.32||0.0039|TWO_SIDED|95.0|-1.62|-0.33|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.33|-1.62|0.0039
82565441|NCT02592434|164839980|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.29||0.0711|TWO_SIDED|95.0|-1.1|0.05|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.05|-1.10|0.0711
82377564|NCT02969382|164462518|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.23||0.001|TWO_SIDED|95.0|-11.9|-3.0|||Mixed Models Analysis|||||-3.0|-11.9|0.001
82377565|NCT02969382|164462519|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||||-0.2|-0.7|<0.001
82377566|NCT02969382|164462520|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.71||0.019|TWO_SIDED|95.0|-3.1|-0.3|||Mixed Models Analysis|||||-0.3|-3.1|0.019
82377567|NCT02969382|164462521|SUPERIORITY||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.55||0.008|TWO_SIDED|95.0|-2.6|-0.4|||Mixed Models Analysis|||||-0.4|-2.6|0.008
82506804|NCT01480076|164704579|SUPERIORITY_OR_OTHER|||||||0.2239|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2239
82565442|NCT02592434|164839980|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.34||0.0658|TWO_SIDED|95.0|-1.3|0.04|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.04|-1.30|0.0658
82442175|NCT04883528|164592833|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||||||0.80
82565443|NCT02592434|164839980|SUPERIORITY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.29||0.0154|TWO_SIDED|95.0|-1.31|-0.15|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.15|-1.31|0.0154
82565444|NCT02592434|164839982|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.4777|TWO_SIDED|95.0|-0.12|0.06|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.06|-0.12|0.4777
82565445|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0779|TWO_SIDED|95.0|-0.16|0.01|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.01|-0.16|0.0779
82565446|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0324|TWO_SIDED|95.0|-0.19|-0.01|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.01|-0.19|0.0324
82565447|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.1061|TWO_SIDED|95.0|-0.2|0.02|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.02|-0.20|0.1061
82565448|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0572|TWO_SIDED|95.0|-0.24|0.0|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.00|-0.24|0.0572
82565449|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.0689|TWO_SIDED|95.0|-0.24|0.01|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.01|-0.24|0.0689
82565450|NCT02592434|164839982|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0292|TWO_SIDED|95.0|-0.22|-0.01|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.01|-0.22|0.0292
82565451|NCT02592434|164839984|SUPERIORITY||LS Mean Difference|3.79|STANDARD_ERROR_OF_MEAN|3.77||0.3179|TWO_SIDED|95.0|-3.72|11.31|||MMRM|||Global Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.31|-3.72|0.3179
82565452|NCT02592434|164839984|SUPERIORITY||LS mean difference|3.28|STANDARD_ERROR_OF_MEAN|4.27||0.4452|TWO_SIDED|95.0|-5.23|11.78|||MMRM|||Physical Functioning: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.78|-5.23|0.4452
82565453|NCT02592434|164839984|SUPERIORITY||LS mean difference|5.47|STANDARD_ERROR_OF_MEAN|4.76||0.2539|TWO_SIDED|95.0|-4.01|14.95|||MMRM|||Social Limitations: Emotional: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||14.95|-4.01|0.2539
82565454|NCT02592434|164839984|SUPERIORITY||LS mean difference|7.22|STANDARD_ERROR_OF_MEAN|5.56||0.1981|TWO_SIDED|95.0|-3.86|18.3|||MMRM|||Social Limitations: Physical Subscale: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||18.30|-3.86|0.1981
82565455|NCT02592434|164839984|SUPERIORITY||LS mean difference|8.26|STANDARD_ERROR_OF_MEAN|4.36||0.062|TWO_SIDED|95.0|-0.43|16.94|||MMRM|||Bodily Pain: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||16.94|-0.43|0.0620
82442176|NCT04883528|164592834|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82442177|NCT04883528|164592835|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||0.23
82442178|NCT04883528|164592836|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|||||||0.95
82627532|NCT00922974|164970694|SUPERIORITY|||||||0.1197|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Age (\< 63 years vs. ≥ 63 years) is reported here.||||0.1197
82627533|NCT00922974|164970694|SUPERIORITY|||||||0.0306|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Gender (female vs. male) is reported here.||||0.0306
82627534|NCT00922974|164970694|SUPERIORITY|||||||0.7903|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Race (Other vs. while) is reported here.||||0.7903
82627535|NCT00922974|164970694|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Zubrod performance status (0 vs. 1,2) is reported here.||||<0.0001
82627536|NCT00922974|164970694|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Taking pain medication (No vs. Yes) is reported here.||||0.0026
82627537|NCT00922974|164970694|SUPERIORITY|||||||0.3282|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A general linear mixed-effect model was run with FACT-G total score (baseline, 3, 6, 12, and 24 months) as the outcome of interest. Age, gender, race, Zubrod performance status, pain medication, tumor type, time, and treatment arm were the covariates considered in each model. Tumor type (radioresistant vs. other) is reported here.||||0.3282
82627538|NCT00937326|164970701|SUPERIORITY|||||||0.4816||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 0.25 g/day in number of participants with any AE.||||0.4816
82627539|NCT00937326|164970701|SUPERIORITY|||||||0.1147||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 0.5 g/day in number of participants with any AE.||||0.1147
82627540|NCT00937326|164970701|SUPERIORITY|||||||1||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 1.0 g/day in number of participants with any AE.||||1.0000
82627541|NCT00937326|164970701|SUPERIORITY|||||||0.4816||||||No adjustments for covariates were made.|Fisher Exact|||Placebo versus SRT2104 2.0 g/day in number of participants with any AE.||||0.4816
82627542|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|168.4|||||TWO_SIDED|90.0|123.87|228.94|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding confidence interval (CI) were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 0.25 g/day.||228.94|123.87|
82442179|NCT04883528|164592837|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82627543|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|110.88|||||TWO_SIDED|90.0|88.18|139.43|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 0.25 g/day.||139.43|88.18|
82627544|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|133.11|||||TWO_SIDED|90.0|100.55|176.21|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 0.5 g/day.||176.21|100.55|
82627545|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Other|94.3|||||TWO_SIDED|90.0|70.31|126.48|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 0.5 g/day.||126.48|70.31|
82627546|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|141.63|||||TWO_SIDED|90.0|111.2|180.39|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 1.0 g/day.||180.39|111.20|
82565456|NCT02592434|164839984|SUPERIORITY||LS mean difference|-3.43|STANDARD_ERROR_OF_MEAN|2.83||0.2291|TWO_SIDED|95.0|-9.06|2.2|||MMRM|||Behavior: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||2.20|-9.06|0.2291
82565457|NCT02592434|164839984|SUPERIORITY||LS mean difference|-3.65|STANDARD_ERROR_OF_MEAN|3.9||0.353|TWO_SIDED|95.0|-11.43|4.13|||MMRM|||Global Behavior: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||4.13|-11.43|0.3530
82565458|NCT02592434|164839984|SUPERIORITY||LS mean difference|-3.47|STANDARD_ERROR_OF_MEAN|3.41||0.3114|TWO_SIDED|95.0|-10.26|3.32|||MMRM|||Mental Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||3.32|-10.26|0.3114
82565459|NCT02592434|164839984|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|4.46||0.8736|TWO_SIDED|95.0|-8.18|9.61|||MMRM|||Self Esteem: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||9.61|-8.18|0.8736
82565460|NCT02592434|164839984|SUPERIORITY||LS mean difference|1.77|STANDARD_ERROR_OF_MEAN|2.48||0.4778|TWO_SIDED|95.0|-3.18|6.72|||MMRM|||General Health Subscale: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||6.72|-3.18|0.4778
82565461|NCT02592434|164839984|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8909|TWO_SIDED|95.0|-0.28|0.25|||MMRM|||Change in Health: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||0.25|-0.28|0.8909
82565462|NCT02592434|164839984|SUPERIORITY||LS mean difference|8.97|STANDARD_ERROR_OF_MEAN|5.81||0.127|TWO_SIDED|95.0|-2.61|20.55|||MMRM|||Emotional Impact on Parent: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||20.55|-2.61|0.1270
82565463|NCT02592434|164839984|SUPERIORITY||LS mean difference|-6.72|STANDARD_ERROR_OF_MEAN|3.96||0.0944|TWO_SIDED|95.0|-14.62|1.18|||MMRM|||Time Impact on Parent: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||1.18|-14.62|0.0944
82565464|NCT02592434|164839984|SUPERIORITY||LS mean difference|-8.6|STANDARD_ERROR_OF_MEAN|3.23||0.0095|TWO_SIDED|95.0|-15.03|-2.17|||MMRM|||Family Activities: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||-2.17|-15.03|0.0095
82565465|NCT02592434|164839984|SUPERIORITY||LS mean difference|2.59|STANDARD_ERROR_OF_MEAN|4.29||0.5474|TWO_SIDED|95.0|-5.96|11.14|||MMRM|||Family Cohesion: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||11.14|-5.96|0.5474
82565466|NCT02592434|164839984|SUPERIORITY||LS mean difference|3.48|STANDARD_ERROR_OF_MEAN|2.03||0.0902|TWO_SIDED|95.0|-0.56|7.52|||MMRM|||Physical Health Summary: Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||7.52|-0.56|0.0902
82565467|NCT02592434|164839984|SUPERIORITY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|1.67||0.6539|TWO_SIDED|95.0|-4.07|2.57|||MMRM|||Psychosocial Health Summary : Analysis based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the Double-Blind baseline value.||2.57|-4.07|0.6539
82565468|NCT02592434|164839986|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.1894|TWO_SIDED|95.0|-0.8|0.16|||MMRM|||Week 20: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.16|-0.80|0.1894
82565469|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.31||0.0026|TWO_SIDED|95.0|-1.56|-0.34|||MMRM|||Week 24: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.34|-1.56|0.0026
82565470|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.31||0.0067|TWO_SIDED|95.0|-1.5|-0.25|||MMRM|||Week 28: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.25|-1.50|0.0067
82565471|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.37||0.0091|TWO_SIDED|95.0|-1.73|-0.25|||MMRM|||Week 32: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.25|-1.73|0.0091
82565472|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.28||0.0632|TWO_SIDED|95.0|-1.09|0.03|||MMRM|||Week 36: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||0.03|-1.09|0.0632
82565473|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.32||0.0306|TWO_SIDED|95.0|-1.35|-0.07|||MMRM|||Week 40: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.07|-1.35|0.0306
82565474|NCT02592434|164839986|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.31||0.0118|TWO_SIDED|95.0|-1.41|-0.18|||MMRM|||Week 44: Analysis was based on MMRM with fixed effects of treatment, visit, JIA category, open-label baseline CRP, treatment-by-visit interaction, and the double-blind baseline value.||-0.18|-1.41|0.0118
82565475|NCT01469819|164840016|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82565476|NCT01469819|164840017|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82565477|NCT01469819|164840018|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82565478|NCT01469819|164840019|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82377568|NCT02969382|164462522|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|-6.6|-2.0|||Mixed Models Analysis|||||-2.0|-6.6|<0.001
82506805|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-7.5|STANDARD_ERROR_OF_MEAN|2.67||0.0049|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0049
82506806|NCT01480076|164704579|SUPERIORITY_OR_OTHER||difference of LS means|-4.1|STANDARD_ERROR_OF_MEAN|4.32||0.3457|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline MSIS-29 psychological score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3457
82506807|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506808|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.2087|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2087
82506809|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506810|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.4487|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4487
82506811|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-2.1|STANDARD_ERROR_OF_MEAN|0.64||0.0013|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0013
82506812|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-2.7|STANDARD_ERROR_OF_MEAN|1.15||0.0188|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0188
82506813|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506814|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.4243|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4243
82506815|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506816|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.9989|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9989
82565479|NCT03082196|164840021|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.037|TWO_SIDED|95.0|-1.9|-0.1|||t-test, 2 sided||The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a lower caries increment in the test varnish as compared to the standard varnish.|||-0.1|-1.9|0.037
82377569|NCT02969382|164462523|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|1.26|<|0.001|TWO_SIDED|95.0|-6.8|-1.8|||Mixed Models Analysis|||||-1.8|-6.8|<0.001
82377570|NCT02969382|164462524|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.02|TWO_SIDED|95.0|-3.2|-0.3|||Mixed Models Analysis|||||-0.3|-3.2|0.020
82377571|NCT02969382|164462525|SUPERIORITY||Odds Ratio (OR)|2.645||||0.002|TWO_SIDED|95.0|1.422|4.921|||Regression, Logistic|||||4.921|1.422|0.002
82377572|NCT02969382|164462527|OTHER|||||||0.498|||||||Fisher Exact|||||||0.498
82377573|NCT02969382|164462528|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82377574|NCT02969382|164462529|OTHER|||||||0.498|||||||Fisher Exact|||||||0.498
82506817|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-1.6|STANDARD_ERROR_OF_MEAN|0.68||0.0207|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0207
82506818|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-2.9|STANDARD_ERROR_OF_MEAN|1.18||0.0161|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0161
82506819|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506820|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.4256|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4256
82506821|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506822|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.3313|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3313
82506823|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-1.9|STANDARD_ERROR_OF_MEAN|0.83||0.0238|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0238
82506824|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-3.4|STANDARD_ERROR_OF_MEAN|1.39||0.015|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0150
82506825|NCT01480076|164704580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506826|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.0171|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0171
82565480|NCT03082196|164840022|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.062|TWO_SIDED|95.0|-1.5|0.1|||t-test, 2 sided||The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a lower caries increment in the test varnish as compared to the standard varnish.|||0.1|-1.5|0.062
82565481|NCT03082196|164840023|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.11|TWO_SIDED|95.0|-0.5|0.1|||t-test, 2 sided||"The direction of the comparison (difference) is the test varnish to the standard varnish. A negative value for the difference indicates a happier response in the test varnish as compared to the standard varnish."|||0.1|-0.5|0.11
82565482|NCT03082196|164840024|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.74|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided||"The direction of the comparison (difference) is the test varnish to the standard varnish. A positive value for the difference indicates an unhappier response in the test varnish as compared to the standard varnish."|||0.3|-0.2|0.74
82377575|NCT05992623|164462544|SUPERIORITY|||||||0.565|||||||Chi-squared|||||||0.565
82377576|NCT05992623|164462545|SUPERIORITY|||||||0.617|||||||Chi-squared|||||||0.617
82377577|NCT05992623|164462546|SUPERIORITY||Mean Difference (Final Values)|0.04|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82627547|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|114.46|||||TWO_SIDED|90.0|85.56|153.11|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1for AUC 0-infinity of SRT2104 1.0 g/day.||153.11|85.56|
82627548|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|167.09|||||TWO_SIDED|90.0|120.73|231.25|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for AUC 0-t of SRT2104 2.0 g/day.||231.25|120.73|
82627549|NCT00937326|164970725|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|117.73|||||TWO_SIDED|90.0|85.14|162.79|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI. The AUC values included in the analysis were AUC 0-infinity on Day 1 and AUC 0-τ on Day 28.|Day 28 versus Day 1 for AUC 0-infinity of SRT2104 2.0 g/day.||162.79|85.14|
82627550|NCT00937326|164970726|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|122.22|||||TWO_SIDED|90.0|86.94|171.8|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 0.25 g/day.||171.80|86.94|
82627551|NCT00937326|164970726|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|94.45|||||TWO_SIDED|90.0|69.07|129.16|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 0.5 g/day.||129.16|69.07|
82627552|NCT00937326|164970726|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|114.79|||||TWO_SIDED|90.0|91.54|143.95|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 1.0 g/day.||143.95|91.54|
82627553|NCT00937326|164970726|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|120.3|||||TWO_SIDED|90.0|88.66|163.23|||ANOVA|Results obtained from a mixed model ANOVA on log10-transformed data with fixed effect of study day and a random effect of participant.|The difference in least squares means and corresponding CI were back-transformed to form ratio of geometric least squares means (Day 28/ Day 1) and CI.|Day 28 versus Day 1 for Cmax of SRT2104 2.0 g/day.||163.23|88.66|
82627554|NCT00937326|164970731|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 8 for FPG.||||0.997
82627555|NCT00937326|164970731|SUPERIORITY|||||||0.581||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 8 for FPG.||||0.581
82627556|NCT00937326|164970731|SUPERIORITY|||||||0.987||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 8 for FPG.||||0.987
82377578|NCT02794870|164462556|OTHER||% vaccine recipients with solicited AEs|60.0|||||TWO_SIDED|90.0|39.0|78.0||||||||78|39|
82377579|NCT02794870|164462556|OTHER||% placebo recipients with solicited AEs|27.0|||||TWO_SIDED|90.0|8.0|56.0||||||||56|8|
82377580|NCT02794870|164462557|OTHER||% vaccinees with unsolicited AEs|35.0|||||TWO_SIDED|90.0|18.0|56.0||||||||56|18|
82377581|NCT02794870|164462557|OTHER||% placebo with unsolicited AEs|18.0|||||TWO_SIDED|90.0|3.0|47.0||||||||47|3|
82627557|NCT00937326|164970731|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 8 for FPG.||||0.999
82627558|NCT00937326|164970731|SUPERIORITY|||||||0.85||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 15 for FPG.||||0.850
82377582|NCT02794870|164462562|SUPERIORITY||||||<|0.01||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.01
82377583|NCT02794870|164462563|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance is 0.05.|Log Rank|||||||<0.001
82442180|NCT04883528|164592841|SUPERIORITY||Least squares mean difference|-0.01||||0.64|TWO_SIDED|95.0|-0.07|0.04|||Mixed Models Analysis|||||0.04|-0.07|0.64
82442181|NCT04883528|164592842|SUPERIORITY||Least squares mean difference|-7.55||||0.04|TWO_SIDED|95.0|-14.59|0.52|||Mixed Models Analysis|||||0.52|-14.59|0.04
82627559|NCT00937326|164970731|SUPERIORITY|||||||0.843||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 15 for FPG.||||0.843
82627560|NCT00937326|164970731|SUPERIORITY|||||||0.961||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 15 for FPG.||||0.961
82627561|NCT00937326|164970731|SUPERIORITY|||||||0.939||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 15 for FPG.||||0.939
82627562|NCT00937326|164970731|SUPERIORITY|||||||0.966||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 22 for FPG.||||0.966
82627563|NCT00937326|164970731|SUPERIORITY|||||||0.075||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 22 for FPG.||||0.075
82627564|NCT00937326|164970731|SUPERIORITY|||||||0.7||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 22 for FPG.||||0.700
82627565|NCT00937326|164970731|SUPERIORITY|||||||0.732||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 22 for FPG.||||0.732
82627566|NCT00937326|164970731|SUPERIORITY|||||||0.552||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 28 for FPG.||||0.552
82627567|NCT00937326|164970731|SUPERIORITY|||||||0.196||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 28 for FPG.||||0.196
82627568|NCT00937326|164970731|SUPERIORITY|||||||0.393||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 28 for FPG.||||0.393
82627569|NCT00937326|164970731|SUPERIORITY|||||||0.775||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 28 for FPG.||||0.775
82627570|NCT00937326|164970731|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 35 for FPG.||||1.000
82627571|NCT00937326|164970731|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 35 for FPG.||||0.989
82627572|NCT00937326|164970731|SUPERIORITY|||||||0.603||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 35 for FPG.||||0.603
82627573|NCT00937326|164970731|SUPERIORITY|||||||0.108||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 35 for FPG.||||0.108
82506827|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.0007|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0007
82506828|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.5146|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5146
82506829|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0003|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0003
82506830|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-2.7|STANDARD_ERROR_OF_MEAN|1.72||0.1224|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1224
82506831|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.0168|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0168
82506832|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.2272|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2272
82506833|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.057|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0570
82506834|NCT01480076|164704580|SUPERIORITY_OR_OTHER|||||||0.5832|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5832
82506835|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-1.8|STANDARD_ERROR_OF_MEAN|0.94||0.0561|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0561
82506836|NCT01480076|164704580|SUPERIORITY_OR_OTHER||difference of LS means|-1.9|STANDARD_ERROR_OF_MEAN|1.86||0.2971|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the total ALS score, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2971
82506837|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506838|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.0029|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0029
82506839|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565483|NCT01695993|164840025|OTHER|Primary Analysis: The Primary Aim to determine whether acupressure bands provided with efficacy-enhancing supplementary material are more effective in controlling chemotherapy-induced nausea than acupressure bands provided with neutral supplementary material was examined using ANCOVA with Peak Nausea after the first chemotherapy as the response, Arm (Arms 2 and 3) as the factor and expectancy of acupressure bands as the covariate.|Mean Difference (Net)|0.03|STANDARD_DEVIATION|1.9||0.05|TWO_SIDED|||||Not adjusted|ANCOVA|||||||.05
82565484|NCT04057937|164840038|SUPERIORITY||Percentage Difference:Apremilast-Placebo|37.4||||0.0003|TWO_SIDED|95.0|18.6|56.1||Two-sided 0.10 significant level|Chi-squared||Confidence Intervals calculated using the Wald method (normal approximation).|||56.1|18.6|0.0003
82565485|NCT01072396|164840050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0087||95.0|0.02|0.11||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - crossover design||0.11|0.02|0.0087
82565486|NCT01072396|164840051|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.0685||||0.067||95.0|0.9953|1.147||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - corssover design||1.1470|0.9953|0.0670
82565487|NCT01072396|164840052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2059||||0.2417||95.0|-0.5527|0.1408||Based on mixed effect model with repeated measures (MMRM) with fixed categorical effects for treatment, period and random effect for patient. Period baseline and patient baseline (average of two period baselines) were covariates in the model.|Mixed Models Analysis|Restricted maximum likelihood (REML) based MMRM||Placebo versus Tiotropium - corssover design||0.1408|-0.5527|0.2417
82565488|NCT00472199|164840053|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.0||0.0077||95.0|-4.6|-0.7|||ANCOVA|||Analysis of covariance for changes from baseline with factors treatment and country and using baseline as covariate||-0.7|-4.6|0.0077
82565489|NCT00472199|164840054|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0010
82565490|NCT00472199|164840055|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||Cochran-Mantel-Haenszel|||||||0.0044
82565491|NCT00472199|164840056|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Cochran-Mantel-Haenszel|||||||0.0011
82565492|NCT00472199|164840057|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.0489||95.0|-1.1|-0.9|||Wilcoxon (Mann-Whitney)|||||-0.9|-1.1|0.0489
82627574|NCT00937326|164970732|SUPERIORITY|||||||0.525||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 8.||||0.525
82627575|NCT00937326|164970732|SUPERIORITY|||||||0.818||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 8.||||0.818
82565493|NCT00472199|164840058|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0315|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0315
82565494|NCT00472199|164840059|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0735|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0735
82442182|NCT00085254|164592858|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4|TWO_SIDED|95.0|0.5|1.3|||Regression, Cox|||||1.3|0.5|0.4
82565495|NCT00472199|164840060|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.841|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.8410
82565496|NCT00472199|164840061|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.9241|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.9241
82565497|NCT00472199|164840062|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8093|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.8093
82565498|NCT00472199|164840063|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0583|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.0|0.0583
82565499|NCT00472199|164840064|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.0||||0.0916|TWO_SIDED|95.0|-5.5|-4.5|||Wilcoxon (Mann-Whitney)|||||-4.5|-5.5|0.0916
82565500|NCT00472199|164840065|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.5905|TWO_SIDED|95.0|2.2|2.8|||Wilcoxon (Mann-Whitney)|||||2.8|2.2|0.5905
82565501|NCT00472199|164840066|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0||||0.0179|TWO_SIDED|95.0|1.6|2.4|||Wilcoxon (Mann-Whitney)|||||2.4|1.6|0.0179
82565502|NCT00472199|164840067|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0||||0.545|TWO_SIDED|95.0|1.7|2.3|||Wilcoxon (Mann-Whitney)|||||2.3|1.7|0.5450
82565503|NCT00472199|164840068|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1456|TWO_SIDED|95.0|-0.3|0.3|||Wilcoxon (Mann-Whitney)|||||0.3|-0.3|0.1456
82565504|NCT00472199|164840069|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2915|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.2915
82565505|NCT00472199|164840070|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3131|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.3131
82506840|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.8041|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8041
82506841|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|11.8|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506842|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|9.4|STANDARD_ERROR_OF_MEAN|3.1||0.0026|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0026
82506843|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506844|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.0689|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0689
82506845|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506846|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.7182|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7182
82506847|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|11.6|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506848|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|9.8|STANDARD_ERROR_OF_MEAN|3.57||0.0061|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0061
82506849|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506850|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.0179|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0179
82565506|NCT00472199|164840071|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5713|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.5713
82565507|NCT00472199|164840072|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8432|TWO_SIDED|95.0|-0.4|0.4|||Wilcoxon (Mann-Whitney)|||||0.4|-0.4|0.8432
82565508|NCT00472199|164840073|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.3||||0.0206|TWO_SIDED|95.0|5.9|6.6|||Wilcoxon (Mann-Whitney)|||||6.6|5.9|0.0206
82565509|NCT00472199|164840074|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.5602|TWO_SIDED|95.0|0.4|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|0.4|0.5602
82565510|NCT00472199|164840075|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.136|TWO_SIDED|95.0|0.8|1.1|||Wilcoxon (Mann-Whitney)|||||1.1|0.8|0.1360
82565511|NCT00472199|164840077|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Mantel Haenszel|||||||0.0022
82565512|NCT01014013|164840112|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint was based on the proportion of patients who had a favorable microbiological response assessment at follow-up 5 to 9 days post-therapy visit. The definition of non-inferiority is that the 95%(two-sided) confidence interval for the difference in response rate between the 2 treatment groups(MK0826 minus control group) contains zero and the lower limit of the CI is not less than -20 percentage points.|the difference between two response rate|-0.8|STANDARD_DEVIATION|10.9||||95.0|-11.7|10.2||||||||10.2|-11.7|
82565513|NCT01014013|164840114|NON_INFERIORITY_OR_EQUIVALENCE|The secondary efficacy endpoint was based on the proportion of patients who had a favorable clinical response assessment at follow-up 5 to 9 days post-therapy visit. The definition of non-inferiority is that the 95%(two-sided) confidence interval for the difference in response rate between the 2 treatment groups(MK0826 minus control group) contains zero and the lower limit of the CI is not less than -20 percentage points.|the difference between two response rate|-1.7|STANDARD_ERROR_OF_MEAN|4.9||||95.0|-6.6|3.2||||||||3.2|-6.6|
82565514|NCT03906240|164840132|SUPERIORITY||Cohen's d|1.44|||<|0.001|TWO_SIDED|95.0|1.0|2.49|||t-test, 2 sided|t = 5.78||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||2.49|1.00|<.001
82565515|NCT03906240|164840132|SUPERIORITY||Cohen's d|0.78||||0.002|TWO_SIDED|95.0|0.35|1.38|||t-test, 2 sided|t = 3.48||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.38|0.35|.002
82565516|NCT03906240|164840133|SUPERIORITY||Cohen's d|0.01||||0.957|TWO_SIDED|95.0|-0.45|0.91|||t-test, 2 sided|t = 0.06||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.91|-0.45|.957
82565517|NCT03906240|164840133|SUPERIORITY||Cohen's d|0.51||||0.033|TWO_SIDED|95.0|0.08|1.25|||t-test, 2 sided|t = 2.30||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.25|0.08|.033
82565518|NCT03906240|164840134|SUPERIORITY||Cohen's d|0.71||||0.015|TWO_SIDED|95.0|0.32|1.31|||t-test, 2 sided|t = 2.76||Physical Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.31|0.32|.015
82565519|NCT03906240|164840134|SUPERIORITY||Cohen's d|0.74||||0.012|TWO_SIDED|95.0|0.26|1.55|||t-test, 2 sided|t = 2.87||Psychological Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||1.55|0.26|.012
82565520|NCT03906240|164840134|SUPERIORITY||Cohen's d|0.02||||0.941|TWO_SIDED|95.0|-0.43|0.55|||t-test, 2 sided|t = 0.08||Physical Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.55|-0.43|.941
82565521|NCT03906240|164840134|SUPERIORITY||Cohen's d|0.25||||0.27|TWO_SIDED|95.0|-0.17|0.79|||t-test, 2 sided|t = 1.14||Psychological Domain: Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.79|-0.17|.270
82565522|NCT03906240|164840135|SUPERIORITY||Cohen's d|0.08||||0.768|TWO_SIDED|95.0|-0.45|0.71|||t-test, 2 sided|t = 0.30||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.71|-0.45|.768
82565523|NCT03906240|164840135|SUPERIORITY||Cohen's d|0.01||||0.975|TWO_SIDED|95.0|-0.53|0.42|||t-test, 2 sided|t = 0.05||Paired-samples t-test to conduct within-person comparison between baseline and follow-up.||0.42|-0.53|.975
82565524|NCT01426217|164840205|OTHER|Efficacy|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.63|0.98||||||||0.98|0.63|
82565525|NCT01426217|164840206|OTHER|Efficacy|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.62|1.35||||||||1.35|0.62|
82565526|NCT00145496|164840223|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7177||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.05 (0.049 to adjust for one interim analysis).|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in NSA Scale total score between asenapine and olanzapine at Day 182.||||0.7177
82565527|NCT00145496|164840224|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0565||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.025 nominal significance using the Bonferroni adjustment to account for multiplicity of the key secondary comparisons.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in QLS total score between asenapine and olanzapine at Day 182.||||0.0565
82565528|NCT00145496|164840225|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.025 nominal significance using the Bonferroni adjustment to account for multiplicity of the key secondary comparisons.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from baseline in body weight between asenapine and olanzapine at Day 182.||||<0.0001
82565529|NCT02680145|164840254|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.001
82565530|NCT02680145|164840255|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.001
82565531|NCT02680145|164840256|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Baseline score vs Follow-up score||||0.005
82565532|NCT01232569|164840259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.5|||<|0.001|TWO_SIDED|95.0|22.0|37.0|||Cochran-Mantel-Haenszel|Analysis adjusted for the randomization stratification factors applied at Baseline (region and weight category).||||37.0|22.0|<0.001
82565533|NCT01537120|164840315|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91|||||TWO_SIDED|90.0|0.85|0.96||||||||0.96|0.85|
82565534|NCT01537120|164840316|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|||||TWO_SIDED|90.0|-0.36|-0.23||||||||-0.23|-0.36|
82565535|NCT01537120|164840317|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.46|||||TWO_SIDED|90.0|-0.62|-0.3||||||||-0.30|-0.62|
82565536|NCT00644332|164840343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|0.5||||||||||||Mean change in angina frequency from Baseline to Week 4||||
82565537|NCT00644332|164840344|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|STANDARD_ERROR_OF_MEAN|0.5||||||||||||Mean change in NTG use from Baseline to Week 4||||
82565538|NCT00644332|164840345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|0.8||||||||||||||||
82565539|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.0011|TWO_SIDED|||||p-values of \<0.05 are considered significant.|Wilcoxon Signed Rank Test|||Physical Functioning: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0011
82565540|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.1152|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Role Limitations due to Physical Health: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.1152
82565541|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.0552|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Role Limitations due to Emotional Problems: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0552
82565542|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.039|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Energy/Fatigue: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.039
82565543|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.0223|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Emotional Well Being: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0223
82565544|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.4664|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Social Functioning: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.4664
82565545|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.0001|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||Pain: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0001
82565546|NCT03694210|164840355|SUPERIORITY||Mean Difference (Net)|0.0||||0.0639|TWO_SIDED|||||p-values of \<0.05 are considered significant|Wilcoxon Signed Rank Test|||General Health: 21 Day Post Necrosectomy SF-36v1 Score is compared to Baseline score for improvement.||||0.0639
82565547|NCT00443755|164840356|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565548|NCT00443755|164840357|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565549|NCT00443755|164840358|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
82565550|NCT00443755|164840359|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565551|NCT00443755|164840360|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of the mean change in triglyceride levels.||||0.03
82565552|NCT00443755|164840360|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of the mean change in HDL-C levels.||||0.06
82565553|NCT00443755|164840360|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||P-value is for comparison between groups of mean change in non-HDL-C levels.||||0.06
82565554|NCT00443755|164840361|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.23
82565555|NCT00443755|164840362|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82565556|NCT00443755|164840363|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.13
82565557|NCT00443755|164840364|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82565558|NCT00443755|164840365|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
82565559|NCT00443755|164840366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565560|NCT00443755|164840367|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.006
82565561|NCT00443755|164840368|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.18
82565562|NCT00443755|164840369|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
82565563|NCT03451292|164840418|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.17|TWO_SIDED|95.0|0.58|1.1|||Cox Proportional- Hazards (PH) model|||Stratification factors included were the region (Europe or North America) and history of hospitalization for acute decompensation of liver cirrhosis (yes or no).||1.10|0.58|0.17
82565564|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.23|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-54.52|-39.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-39.93|-54.52|<0.001
82565565|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.17|STANDARD_ERROR_OF_MEAN|3.66|<|0.001||95.0|-47.38|-32.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-32.95|-47.38|<0.001
82627576|NCT00937326|164970732|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 8.||||0.999
82627577|NCT00937326|164970732|SUPERIORITY|||||||0.809||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 8.||||0.809
82627578|NCT00937326|164970732|SUPERIORITY|||||||0.993||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 15.||||0.993
82627579|NCT00937326|164970732|SUPERIORITY|||||||0.954||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 15.||||0.954
82627580|NCT00937326|164970732|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 15.||||1.000
82627581|NCT00937326|164970732|SUPERIORITY|||||||0.344||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 15.||||0.344
82627582|NCT00937326|164970732|SUPERIORITY|||||||0.968||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 22.||||0.968
82627583|NCT00937326|164970732|SUPERIORITY|||||||0.316||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 22.||||0.316
82627584|NCT00937326|164970732|SUPERIORITY|||||||0.984||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 22.||||0.984
82627585|NCT00937326|164970732|SUPERIORITY|||||||0.235||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 22.||||0.235
82627586|NCT00937326|164970732|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 28.||||1.000
82627587|NCT00937326|164970732|SUPERIORITY|||||||0.656||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 28.||||0.656
82627588|NCT00937326|164970732|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 28.||||0.994
82627589|NCT00937326|164970732|SUPERIORITY|||||||0.285||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 28.||||0.285
82565566|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.27|STANDARD_ERROR_OF_MEAN|3.68|<|0.001|TWO_SIDED|95.0|-44.53|-30.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-30.02|-44.53|<0.001
82565567|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.53|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-59.67|-45.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-45.38|-59.67|<0.001
82565568|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.74|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-54.89|-40.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-40.60|-54.89|<0.001
82565569|NCT01375777|164840427|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.57|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-50.71|-36.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.42|-50.71|<0.001
82565570|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.9|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|-76.3|-55.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-55.6|-76.3|<0.001
82565571|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.7|STANDARD_ERROR_OF_MEAN|5.3|<|0.001||95.0|-73.2|-52.2||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-52.2|-73.2|<0.001
82565572|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.3|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-62.7|-41.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-41.9|-62.7|<0.001
82565573|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-72.3|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-82.2|-62.4||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-62.4|-82.2|<0.001
82565574|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-63.9|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-73.9|-54.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-54.0|-73.9|<0.001
82565575|NCT01375777|164840428|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-70.7|-50.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-50.9|-70.7|<0.001
82565576|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.15|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-51.72|-38.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-38.58|-51.72|<0.001
82565577|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.79|STANDARD_ERROR_OF_MEAN|3.29|<|0.001||95.0|-43.29|-30.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-30.29|-43.29|<0.001
82565578|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.06|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-41.59|-28.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-28.52|-41.59|<0.001
82565579|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.11|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-53.33|-40.89||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-40.89|-53.33|<0.001
82565580|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.89|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-48.11|-35.67||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-35.67|-48.11|<0.001
82565581|NCT01375777|164840429|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.7|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-43.92|-31.47||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.47|-43.92|<0.001
82565582|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.19|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-50.45|-37.94||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-37.94|-50.45|<0.001
82565583|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.87|STANDARD_ERROR_OF_MEAN|3.13|<|0.001||95.0|-42.06|-29.69||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-29.69|-42.06|<0.001
82565584|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.33|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-38.55|-26.11||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-26.11|-38.55|<0.001
82565585|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.48|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-48.63|-36.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-36.32|-48.63|<0.001
82565586|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.92|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-44.07|-31.76||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.76|-44.07|<0.001
82565587|NCT01375777|164840430|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.22|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-39.38|-27.07||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-27.07|-39.38|<0.001
82565588|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.49|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-43.43|-31.54||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-31.54|-43.43|<0.001
82565589|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.92|STANDARD_ERROR_OF_MEAN|2.98|<|0.001||95.0|-37.79|-26.04||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-26.04|-37.79|<0.001
82565590|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.86|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-34.77|-22.95||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-22.95|-34.77|<0.001
82565591|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.58|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-42.29|-30.88||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-30.88|-42.29|<0.001
82565592|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.21|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-36.92|-25.51||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-25.51|-36.92|<0.001
82565593|NCT01375777|164840431|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.69|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-34.39|-22.98||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-22.98|-34.39|<0.001
82565594|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.16|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-56.75|-43.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-43.58|-56.75|<0.001
82565595|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.33|STANDARD_ERROR_OF_MEAN|3.3|<|0.001||95.0|-46.84|-33.82||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-33.82|-46.84|<0.001
82565596|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.83|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-41.38|-28.28||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-28.28|-41.38|<0.001
82565597|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.47|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-52.12|-38.82||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-38.82|-52.12|<0.001
82565598|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.57|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-47.22|-33.92||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-33.92|-47.22|<0.001
82565599|NCT01375777|164840432|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.25|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-42.9|-29.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and the stratification factor.|Placebo is the reference|||-29.60|-42.90|<0.001
82565600|NCT03602053|164840444|NON_INFERIORITY|If the lower limit of the 95% CI of the ratio of GMCs between the ROTAVAC 5D® and ROTAVAC® groups was larger than 1/2 (i.e. \> 0.5), ROTAVAC 5D® would be considered non-inferior to ROTAVAC®.|GMC ratio|1.294|||||TWO_SIDED|95.0|0.862|1.924|||t-test, 2 sided|||||1.924|0.862|
82565601|NCT01636258|164840498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|2.1||0.72|TWO_SIDED|95.0|-1.4|2.0||P-value less than 0.05 considered statistically significant a priori. No multiple comparison adjustment made.|t-test, 2 sided|||No sample size calculation performed since it was a pilot study. Null hypothesis was no difference between groups.||2.0|-1.4|0.72
82565602|NCT01636258|164840499|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||No sample study calculation performed since it was a pilot study. Null hypothesis was no difference between groups.||||0.31
82565603|NCT01636258|164840500|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82565604|NCT01636258|164840501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82565605|NCT02446912|164840548|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|-4.2||||0.412|TWO_SIDED|95.0|-14.2|5.8||Nominal p-value|Cochran-Mantel-Haenszel|||||5.8|-14.2|0.412
82565606|NCT02446912|164840548|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-14.7|9.6||||||||9.6|-14.7|
82565607|NCT02446912|164840549|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|3.9||||0.455|TWO_SIDED|95.0|-6.3|14.1||Nominal p-value|Cochran-Mantel-Haenszel|||||14.1|-6.3|0.455
82565608|NCT02446912|164840549|SUPERIORITY||Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0|-6.7|17.8||||||||17.8|-6.7|
82627590|NCT00937326|164970732|SUPERIORITY|||||||0.992||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPG on Day 35.||||0.992
82627591|NCT00937326|164970732|SUPERIORITY|||||||0.822||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPG on Day 35.||||0.822
82627592|NCT00937326|164970732|SUPERIORITY|||||||0.538||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPG on Day 35.||||0.538
82627593|NCT00937326|164970732|SUPERIORITY|||||||0.907||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPG on Day 35.||||0.907
82627594|NCT00937326|164970733|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 8 for FPI.||||0.999
82627595|NCT00937326|164970733|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 8 for FPI.||||0.982
82627596|NCT00937326|164970733|SUPERIORITY|||||||0.677||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 8 for FPI.||||0.677
82627597|NCT00937326|164970733|SUPERIORITY|||||||0.688||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 8 for FPI.||||0.688
82627598|NCT00937326|164970733|SUPERIORITY|||||||0.903||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 15 for FPI.||||0.903
82627599|NCT00937326|164970733|SUPERIORITY|||||||0.945||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 15 for FPI.||||0.945
82627600|NCT00937326|164970733|SUPERIORITY|||||||0.949||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 15 for FPI.||||0.949
82627601|NCT00937326|164970733|SUPERIORITY|||||||0.924||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 15 for FPI.||||0.924
82627602|NCT00937326|164970733|SUPERIORITY|||||||0.394||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 22 for FPI.||||0.394
82627603|NCT00937326|164970733|SUPERIORITY|||||||0.687||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 22 for FPI.||||0.687
82506851|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506852|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.6911|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6911
82506853|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|10.8|STANDARD_ERROR_OF_MEAN|2.31|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506854|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|7.1|STANDARD_ERROR_OF_MEAN|3.85||0.0666|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0666
82506855|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506856|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.0158|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0158
82565609|NCT02446912|164840550|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|-3.4||||0.549|TWO_SIDED|95.0|-14.4|7.6||Nominal p-value|Cochran-Mantel-Haenszel|||||7.6|-14.4|0.549
82565610|NCT02446912|164840551|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|6.4||||0.261|TWO_SIDED|95.0|-4.8|17.7||Nominal p-value|Cochran-Mantel-Haenszel|||||17.7|-4.8|0.261
82506857|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506858|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.6684|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6684
82506859|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|11.6|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506860|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|10.5|STANDARD_ERROR_OF_MEAN|4.28||0.0141|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0141
82565611|NCT02446912|164840552|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|8.9||||0.18|TWO_SIDED|95.0|-4.1|21.9||Nominal p-value|Cochran-Mantel-Haenszel|||||21.9|-4.1|0.180
82506861|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506862|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.0042|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0042
82506863|NCT01480076|164704581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506864|NCT01480076|164704581|SUPERIORITY_OR_OTHER|||||||0.7329|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7329
82506865|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|13.2|STANDARD_ERROR_OF_MEAN|2.65|<|0.0001|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506866|NCT01480076|164704581|SUPERIORITY_OR_OTHER||difference of LS means|10.1|STANDARD_ERROR_OF_MEAN|4.49||0.0242|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0242
82506867|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
82506868|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.9151|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9151
82506869|NCT01480076|164704582|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506870|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.6128|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6128
82506871|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0331|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0331
82506872|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1919|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1919
82506873|NCT01480076|164704582|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506874|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.4481|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4481
82506875|NCT01480076|164704582|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506876|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.5454|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5454
82506877|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0516|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0516
82506878|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.09|STANDARD_ERROR_OF_MEAN|0.04||0.0175|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0175
82506879|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0001
82506880|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.9371|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9371
82506881|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0056|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0056
82506882|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.5475|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5475
82506883|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0699|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0699
82627604|NCT00937326|164970733|SUPERIORITY|||||||0.568||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 22 for FPI.||||0.568
82627605|NCT00937326|164970733|SUPERIORITY|||||||0.486||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 22 for FPI.||||0.486
82627606|NCT00937326|164970733|SUPERIORITY|||||||0.973||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 28 for FPI.||||0.973
82627607|NCT00937326|164970733|SUPERIORITY|||||||0.739||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 28 for FPI.||||0.739
82627608|NCT00937326|164970733|SUPERIORITY|||||||0.731||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 28 for FPI.||||0.731
82627609|NCT00937326|164970733|SUPERIORITY|||||||0.991||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 28 for FPI.||||0.991
82627610|NCT00937326|164970733|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day on Day 35 for FPI.||||0.994
82627611|NCT00937326|164970733|SUPERIORITY|||||||0.963||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day on Day 35 for FPI.||||0.963
82627612|NCT00937326|164970733|SUPERIORITY|||||||0.929||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day on Day 35 for FPI.||||0.929
82627613|NCT00937326|164970733|SUPERIORITY|||||||0.97||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day on Day 35 for FPI.||||0.970
82627614|NCT00937326|164970734|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 8.||||0.989
82627615|NCT00937326|164970734|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 8.||||0.989
82627616|NCT00937326|164970734|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 8.||||0.982
82627617|NCT00937326|164970734|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 8.||||0.999
82627618|NCT00937326|164970734|SUPERIORITY|||||||0.685||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 15.||||0.685
82627619|NCT00937326|164970734|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 15.||||0.999
82627620|NCT00937326|164970734|SUPERIORITY|||||||0.971||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 15.||||0.971
82627621|NCT00937326|164970734|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 15.||||1.000
82627622|NCT00937326|164970734|SUPERIORITY|||||||0.405||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 22.||||0.405
82627623|NCT00937326|164970734|SUPERIORITY|||||||0.975||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 22.||||0.975
82627624|NCT00937326|164970734|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 22.||||0.999
82627625|NCT00937326|164970734|SUPERIORITY|||||||0.629||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 22.||||0.629
82627626|NCT00937326|164970734|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 28.||||0.982
82627627|NCT00937326|164970734|SUPERIORITY|||||||0.982||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 28.||||0.982
82627628|NCT00937326|164970734|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 28.||||0.999
82627629|NCT00937326|164970734|SUPERIORITY|||||||0.874||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 28.||||0.874
82627630|NCT00937326|164970734|SUPERIORITY|||||||0.986||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in FPI on Day 35.||||0.986
82627631|NCT00937326|164970734|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in FPI on Day 35.||||0.997
82627632|NCT00937326|164970734|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in FPI on Day 35.||||1.000
82627633|NCT00937326|164970734|SUPERIORITY|||||||0.697||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in FPI on Day 35.||||0.697
82506884|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.587|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5870
82627634|NCT00937326|164970735|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 30 minutes for PPG.||||1.000
82627635|NCT00937326|164970735|SUPERIORITY|||||||0.812||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 30 minutes for PPG.||||0.812
82627636|NCT00937326|164970735|SUPERIORITY|||||||0.996||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 30 minutes for PPG.||||0.996
82627637|NCT00937326|164970735|SUPERIORITY|||||||0.198||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 30 minutes for PPG.||||0.198
82627638|NCT00937326|164970735|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 60 minutes for PPG.||||1.000
82627639|NCT00937326|164970735|SUPERIORITY|||||||0.358||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 60 minutes for PPG.||||0.358
82627640|NCT00937326|164970735|SUPERIORITY|||||||0.852||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 60 minutes for PPG.||||0.852
82627641|NCT00937326|164970735|SUPERIORITY|||||||0.678||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 60 minutes for PPG.||||0.678
82627642|NCT00937326|164970735|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 2 hour for PPG.||||1.000
82627643|NCT00937326|164970735|SUPERIORITY|||||||0.191||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 2 hour for PPG.||||0.191
82627644|NCT00937326|164970735|SUPERIORITY|||||||0.805||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 2 hour for PPG.||||0.805
82627645|NCT00937326|164970735|SUPERIORITY|||||||0.96||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 2 hour for PPG.||||0.960
82627646|NCT00937326|164970735|SUPERIORITY|||||||0.985||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 30 minutes for PPI.||||0.985
82627647|NCT00937326|164970735|SUPERIORITY|||||||0.733||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 30 minutes for PPI.||||0.733
82627648|NCT00937326|164970735|SUPERIORITY|||||||0.365||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 30 minutes for PPI.||||0.365
82506885|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0245|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0245
82506886|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.9926|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9926
82506887|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0027|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0027
82506888|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.6368|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6368
82506889|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3358|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3358
82506890|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.5089|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5089
82506891|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0141|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0141
82506892|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.428|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4280
82506893|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.0002|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0002
82506894|NCT01480076|164704582|SUPERIORITY_OR_OTHER|||||||0.3827|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3827
82506895|NCT01480076|164704582|SUPERIORITY_OR_OTHER||difference of LS means|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0748|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0748
82627649|NCT00937326|164970735|SUPERIORITY|||||||0.413||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 30 minutes for PPI.||||0.413
82627650|NCT00937326|164970735|SUPERIORITY|||||||0.765||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 60 minutes for PPI.||||0.765
82565612|NCT02446912|164840553|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.7||||0.013|TWO_SIDED|95.0|3.5|29.8||Nominal p-value|Cochran-Mantel-Haenszel|||||29.8|3.5|0.013
82627651|NCT00937326|164970735|SUPERIORITY|||||||0.434||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 60 minutes for PPI.||||0.434
82565613|NCT02446912|164840554|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|17.0||||0.054|TWO_SIDED|95.0|-0.3|34.3||Nominal p-value|Cochran-Mantel-Haenszel|||||34.3|-0.3|0.054
82565614|NCT02446912|164840555|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|18.7||||0.034|TWO_SIDED|95.0|1.4|36.0||Nominal p-value|Cochran-Mantel-Haenszel|||||36.0|1.4|0.034
82565615|NCT02446912|164840556|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|0.6||||0.905|TWO_SIDED|95.0|-9.4|10.6||Nominal p-value|Cochran-Mantel-Haenszel|||||10.6|-9.4|0.905
82565616|NCT02446912|164840557|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|3.3||||0.515|TWO_SIDED|95.0|-6.7|13.4||Nominal p-value|Cochran-Mantel-Haenszel|||||13.4|-6.7|0.515
82565617|NCT02446912|164840558|SUPERIORITY|Analysed using a negative binomial regression model. The response variable in the model is the number of flares over the 52-week treatment period. The model includes covariates of treatment group, and the stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>=10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]). The logarithm of the follow-up time is used as an offset variable.|Rate Ratio|0.83||||0.258|TWO_SIDED|95.0|0.6|1.14||Nominal p-value|Negative binomial regression|||||1.14|0.60|0.258
82565618|NCT02446912|164840559|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|0.6|19.7|||Cochran-Mantel-Haenszel|||||19.7|0.6|
82565619|NCT02446912|164840560|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.4|||||TWO_SIDED|95.0|6.7|26.2|||Cochran-Mantel-Haenszel|||||26.2|6.7|
82565620|NCT01106586|164840577|NON_INFERIORITY_OR_EQUIVALENCE|A total of 700 HIV-1 infected participants, randomized in a 1:1 ratio to 2 groups would achieve at least 95% power to establish noninferiority in Week 48 response (HIV-1 RNA \< 50 copies/mL per the FDA-defined snapshot analysis) rate difference between the 2 groups. For sample size and power computation, it was assumed that both treatment groups have a response rate of 0.795, a noninferiority margin of 0.12, and that the significance level of the test is at a one-sided, 0.025 level.|Difference in response rates|3.0|||||TWO_SIDED|95.2|-1.9|7.8|||||To preserve the overall alpha level: 0.05, accounting for 2 interim analyses for Independent Data Monitoring Committee meetings, the 95.2% CI was computed using normal approximation stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the Stribild group is at least 12% worse than the ATV/r + Truvada group with respect to percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 48; the alternative hypothesis was that the response rate in the Stribild group is less than 12% worse than that in the ATV/r + Truvada Group.||7.8|-1.9|
82565621|NCT00475735|164840620|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||Since this is a proof of concept study with one primary hypothesis (AISRS total score for MK-0249 vs. placebo), there is no multiplicity adjustment.|Mixed Models Analysis|The terms were tobacco use, prior stimulant use, time, site, period, sequence, treatment, period-by-time, sequence-by-time, and treatment-by-time.||||||0.341
82627652|NCT00937326|164970735|SUPERIORITY|||||||0.184||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 60 minutes for PPI.||||0.184
82627653|NCT00937326|164970735|SUPERIORITY|||||||0.142||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 60 minutes for PPI.||||0.142
82565622|NCT00475735|164840620|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Since this is a proof of concept study with one primary hypothesis (AISRS total score for MK-0249 vs. placebo), there is no multiplicity adjustment.|Mixed Models Analysis|The terms were tobacco use, prior stimulant use, time, site, period, sequence, treatment, period-by-time, sequence-by-time, and treatment-by-time.||||||0.001
82565623|NCT05319756|164840628|SUPERIORITY||Mean Difference (Final Values)|32.8|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|ONE_SIDED|95.0|26.1||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of oxycodone HCl, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 =15"|||26.1|<.0001
82565624|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|4.46||0.1041|ONE_SIDED|95.0||1.7|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||1.7||0.1041
82565625|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|4.46||0.3373|ONE_SIDED|95.0||5.5|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||5.5||0.3373
82565626|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|ONE_SIDED|95.0||-6.3|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μG ≤ 0.2(μC - 50) versus Ha: μC - μG \>0.2(μC - 50)"||-6.3||<.0001
82565627|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001|ONE_SIDED|95.0||-0.6|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μG ≤ 0.2(μC - 50) versus Ha: μC - μG \>0.2(μC - 50)"||-0.6||<0.0001
82565628|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|4.0||0.0232|ONE_SIDED|95.0||9.6|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μG - μP ≥ δ2 versus Ha: μG - μP \< δ2 where δ2 =11"||9.6||0.0232
82565629|NCT05319756|164840628|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|4.01||0.2767|ONE_SIDED|95.0||15.2|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (G) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μG - μP ≥ δ2 versus Ha: μG - μP \< δ2 where δ2 =11."||15.2||0.2767
82565630|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|267.1|STANDARD_ERROR_OF_MEAN|83.688||0.0016|TWO_SIDED|90.0|128.8|405.4|||Mixed Models Analysis|||||405.4|128.8|0.0016
82565631|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|29.19|STANDARD_ERROR_OF_MEAN|83.688||0.7276|TWO_SIDED|90.0|-109.0|167.5|||Mixed Models Analysis|||||167.5|-109|0.7276
82565632|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|50.41|STANDARD_ERROR_OF_MEAN|83.785||0.5481|TWO_SIDED|90.0|-88.0|188.9|||Mixed Models Analysis|||||188.9|-88.0|0.5481
82565633|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|350.7|STANDARD_ERROR_OF_MEAN|84.023|<|0.0001|TWO_SIDED|90.0|211.8|489.5|||Mixed Models Analysis|||||489.5|211.8|<0.0001
82565634|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|364.4|STANDARD_ERROR_OF_MEAN|83.785|<|0.0001|TWO_SIDED|90.0|225.9|502.8|||Mixed Models Analysis|||||502.8|225.9|<0.0001
82565635|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|-238.0|STANDARD_ERROR_OF_MEAN|83.785||0.005|TWO_SIDED|90.0|-376.0|-99.4|||Mixed Models Analysis|||||-99.4|-376|0.0050
82565636|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|-217.0|STANDARD_ERROR_OF_MEAN|84.023||0.0106|TWO_SIDED|90.0|-356.0|-77.8|||Mixed Models Analysis|||||-77.8|-356|0.0106
82565637|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|83.6|STANDARD_ERROR_OF_MEAN|83.785||0.3196|TWO_SIDED|90.0|-54.9|222.1|||Mixed Models Analysis|||||222.1|-54.9|0.3196
82565638|NCT05319756|164840630|OTHER||Mean Difference (Final Values)|97.29|STANDARD_ERROR_OF_MEAN|83.688||0.2464|TWO_SIDED|90.0|-41.0|235.6|||Mixed Models Analysis|||||235.6|-41.0|0.2464
82565639|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|64.67|STANDARD_ERROR_OF_MEAN|7.581|<|0.0001|TWO_SIDED|90.0|52.15|77.2|||Mixed Models Analysis|||||77.20|52.15|<.0001
82565640|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|14.66|STANDARD_ERROR_OF_MEAN|7.581||0.0546|TWO_SIDED|90.0|2.13|27.1|||Mixed Models Analysis|||||27.1|2.13|0.0546
82565641|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|11.58|STANDARD_ERROR_OF_MEAN|7.589||0.1286|TWO_SIDED|90.0|-0.96|24.12|||Mixed Models Analysis|||||24.12|-0.96|0.1286
82565642|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|68.99|STANDARD_ERROR_OF_MEAN|7.611|<|0.0001|TWO_SIDED|90.0|56.42|81.57|||Mixed Models Analysis|||||81.57|56.42|<.0001
82565643|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|76.37|STANDARD_ERROR_OF_MEAN|7.589|<|0.0001|TWO_SIDED|90.0|63.83|88.91|||Mixed Models Analysis|||||88.91|63.83|<.0001
82565644|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|7.589|<|0.0001|TWO_SIDED|90.0|-62.6|-37.5|||Mixed Models Analysis|||||-37.5|-62.6|<.0001
82565645|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|-53.1|STANDARD_ERROR_OF_MEAN|7.611|<|0.0001|TWO_SIDED|90.0|-65.7|-40.5|||Mixed Models Analysis|||||-40.5|-65.7|<.0001
82565646|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|7.589||0.5699|TWO_SIDED|90.0|-8.22|16.86|||Mixed Models Analysis|||||16.86|-8.22|0.5699
82565647|NCT05319756|164840636|OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|7.581||0.1243|TWO_SIDED|90.0|-0.83|24.23|||Mixed Models Analysis|||||24.23|-0.83|0.1243
82627654|NCT00937326|164970735|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at 2 hour for PPI.||||0.999
82506896|NCT01480076|164704582|SUPERIORITY_OR_OTHER||least squares mean|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.5663|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the current health state of EQ-5D index scores, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5663
82506897|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.1544|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1544
82506898|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.0167|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0167
82506899|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.3868|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3868
82506900|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.2214|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2214
82506901|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|8.9|STANDARD_ERROR_OF_MEAN|4.96||0.0743|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0743
82506902|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|-17.2|STANDARD_ERROR_OF_MEAN|12.22||0.1601|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1601
82506903|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.1251|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1251
82506904|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.1764|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1764
82506905|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.5528|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5528
82627655|NCT00937326|164970735|SUPERIORITY|||||||0.876||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at 2 hour for PPI.||||0.876
82565648|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|286.7|STANDARD_ERROR_OF_MEAN|50.879|<|0.0001|TWO_SIDED|90.0|202.6|370.8|||Mixed Models Analysis|||||370.8|202.6|<.0001
82506906|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.108|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1080
82565649|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|53.85|STANDARD_ERROR_OF_MEAN|50.879||0.2912|TWO_SIDED|90.0|-30.2|137.9|||Mixed Models Analysis|||||137.9|-30.2|0.2912
82565650|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|97.8|STANDARD_ERROR_OF_MEAN|50.938||0.0563|TWO_SIDED|90.0|13.62|182.0|||Mixed Models Analysis|||||182.0|13.62|0.0563
82565651|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|484.5|STANDARD_ERROR_OF_MEAN|51.083|<|0.0001|TWO_SIDED|90.0|400.1|569.0|||Mixed Models Analysis|||||569.0|400.1|<.0001
82565652|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|396.6|STANDARD_ERROR_OF_MEAN|50.938|<|0.0001|TWO_SIDED|90.0|312.4|480.8|||Mixed Models Analysis|||||480.8|312.4|<.0001
82565653|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|-233.0|STANDARD_ERROR_OF_MEAN|50.938|<|0.0001|TWO_SIDED|90.0|-317.0|-149.0|||Mixed Models Analysis|||||-149|-317|<.0001
82627656|NCT00937326|164970735|SUPERIORITY|||||||0.756||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at 2 hour for PPI.||||0.756
82627657|NCT00937326|164970735|SUPERIORITY|||||||0.983||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at 2 hour for PPI.||||0.983
82627658|NCT00937326|164970736|SUPERIORITY|||||||0.809||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 30 minutes.||||0.809
82627659|NCT00937326|164970736|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 30 minutes.||||1.000
82627660|NCT00937326|164970736|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 30 minutes.||||0.989
82627661|NCT00937326|164970736|SUPERIORITY|||||||0.13||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 30 minutes.||||0.130
82565654|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|-189.0|STANDARD_ERROR_OF_MEAN|51.083||0.0003|TWO_SIDED|90.0|-273.0|-105.0|||Mixed Models Analysis|||||-105|-273|0.0003
82565655|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|197.8|STANDARD_ERROR_OF_MEAN|50.938||0.0001|TWO_SIDED|90.0|113.7|282.0|||Mixed Models Analysis|||||282.0|113.7|0.0001
82565656|NCT05319756|164840638|OTHER||Mean Difference (Final Values)|109.9|STANDARD_ERROR_OF_MEAN|50.879||0.032|TWO_SIDED|90.0|25.8|194.0|||Mixed Models Analysis|||||194.0|25.80|0.0320
82565657|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|18.73|STANDARD_ERROR_OF_MEAN|2.276|<|0.0001|TWO_SIDED|90.0|14.98|22.48|||Mixed Models Analysis|||||22.48|14.98|<0.0001
82565658|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|2.302||0.5056|TWO_SIDED|90.0|-2.03|5.56|||Mixed Models Analysis|||||5.56|-2.03|0.5056
82565659|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|4.62|STANDARD_ERROR_OF_MEAN|2.307||0.076|TWO_SIDED|90.0|0.82|8.42|||Mixed Models Analysis|||||8.42|0.82|0.0760
82565660|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|25.73|STANDARD_ERROR_OF_MEAN|2.315|<|0.0001|TWO_SIDED|90.0|21.92|29.54|||Mixed Models Analysis|||||29.54|21.92|<0.0001
82565661|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|24.42|STANDARD_ERROR_OF_MEAN|2.27|<|0.0001|TWO_SIDED|90.0|20.68|28.16|||Mixed Models Analysis|||||28.16|20.68|<0.0001
82565662|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|-17.0|STANDARD_ERROR_OF_MEAN|2.297|<|0.0001|TWO_SIDED|90.0|-20.8|-13.2|||Mixed Models Analysis|||||-13.2|-20.8|<0.0001
82565663|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.299|<|0.0001|TWO_SIDED|90.0|-17.9|-10.3|||Mixed Models Analysis|||||-10.3|-17.9|<0.0001
82565664|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|2.298||0.0024|TWO_SIDED|90.0|3.22|10.79|||Mixed Models Analysis|||||10.79|3.22|0.0024
82565665|NCT05319756|164840639|OTHER||Mean Difference (Final Values)|5.69|STANDARD_ERROR_OF_MEAN|2.255||0.0118|TWO_SIDED|90.0|1.98|9.41|||Mixed Models Analysis|||||9.41|1.98|0.0118
82565666|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|20.31|STANDARD_ERROR_OF_MEAN|2.246|<|0.0001|TWO_SIDED|90.0|16.61|24.01|||Mixed Models Analysis|||||24.01|16.61|<0.0001
82565667|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|2.271||0.2439|TWO_SIDED|90.0|-1.09|6.39|||Mixed Models Analysis|||||6.39|-1.09|0.2439
82565668|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|2.276||0.0044|TWO_SIDED|90.0|2.75|10.25|||Mixed Models Analysis|||||10.25|2.75|0.0044
82565669|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|24.15|STANDARD_ERROR_OF_MEAN|2.284|<|0.0001|TWO_SIDED|90.0|20.39|27.91|||Mixed Models Analysis|||||27.91|20.39|<0.0001
82565670|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|28.19|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|90.0|24.5|31.88|||Mixed Models Analysis|||||31.88|24.50|<0.0001
82565671|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|-17.7|STANDARD_ERROR_OF_MEAN|2.266|<|0.0001|TWO_SIDED|90.0|-21.4|-13.9|||Mixed Models Analysis|||||-13.9|-21.4|<0.0001
82565672|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|2.268|<|0.0001|TWO_SIDED|90.0|-17.5|-10.1|||Mixed Models Analysis|||||-10.1|-17.5|<0.0001
82565673|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|3.84|STANDARD_ERROR_OF_MEAN|2.267||0.0907|TWO_SIDED|90.0|0.11|7.57|||Mixed Models Analysis|||||7.57|0.11|0.0907
82627662|NCT00937326|164970736|SUPERIORITY|||||||0.87||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 60 minutes.||||0.870
82627663|NCT00937326|164970736|SUPERIORITY|||||||0.864||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 60 minutes.||||0.864
82627664|NCT00937326|164970736|SUPERIORITY|||||||0.997||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 60 minutes.||||0.997
82627665|NCT00937326|164970736|SUPERIORITY|||||||0.682||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 60 minutes.||||0.682
82627666|NCT00937326|164970736|SUPERIORITY|||||||0.798||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPG at 2 hour.||||0.798
82627667|NCT00937326|164970736|SUPERIORITY|||||||0.73||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPG at 2 hour.||||0.730
82627668|NCT00937326|164970736|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPG at 2 hour.||||1.000
82627669|NCT00937326|164970736|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPG at 2 hour.||||1.000
82627670|NCT00937326|164970736|SUPERIORITY|||||||0.464||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 30 minutes.||||0.464
82627671|NCT00937326|164970736|SUPERIORITY|||||||0.634||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 30 minutes.||||0.634
82627672|NCT00937326|164970736|SUPERIORITY|||||||0.254||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 30 minutes.||||0.254
82627673|NCT00937326|164970736|SUPERIORITY|||||||0.034||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 30 minutes.||||0.034
82627674|NCT00937326|164970736|SUPERIORITY|||||||0.765||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 60 minutes.||||0.765
82627675|NCT00937326|164970736|SUPERIORITY|||||||0.434||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 60 minutes.||||0.434
82627676|NCT00937326|164970736|SUPERIORITY|||||||0.184||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 60 minutes.||||0.184
82565674|NCT05319756|164840640|OTHER||Mean Difference (Final Values)|7.88|STANDARD_ERROR_OF_MEAN|2.225||0.0004|TWO_SIDED|90.0|4.22|11.55|||Mixed Models Analysis|||||11.55|4.22|0.0004
82565675|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|25.37|STANDARD_ERROR_OF_MEAN|1.528|<|0.0001|TWO_SIDED|90.0|22.86|27.88|||Mixed Models Analysis|||||27.88|22.86|<0.0001
82565676|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.529||0.0189|TWO_SIDED|90.0|1.08|6.11|||Mixed Models Analysis|||||6.11|1.08|0.0189
82565677|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|6.18|STANDARD_ERROR_OF_MEAN|1.536|<|0.0001|TWO_SIDED|90.0|3.66|8.71|||Mixed Models Analysis|||||8.71|3.66|<0.0001
82565678|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|32.18|STANDARD_ERROR_OF_MEAN|1.537|<|0.0001|TWO_SIDED|90.0|29.65|34.71|||Mixed Models Analysis|||||34.71|29.65|<0.0001
82565679|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|30.17|STANDARD_ERROR_OF_MEAN|1.525|<|0.0001|TWO_SIDED|90.0|27.66|32.68|||Mixed Models Analysis|||||32.68|27.66|<0.0001
82565680|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|-21.8|STANDARD_ERROR_OF_MEAN|1.522|<|0.0001|TWO_SIDED|90.0|-24.3|-19.3|||Mixed Models Analysis|||||-19.3|-24.3|<0.0001
82565681|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|-19.2|STANDARD_ERROR_OF_MEAN|1.53|<|0.0001|TWO_SIDED|90.0|-21.7|-16.7|||Mixed Models Analysis|||||-16.7|-21.7|<0.0001
82565682|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|6.81|STANDARD_ERROR_OF_MEAN|1.524|<|0.0001|TWO_SIDED|90.0|4.3|9.31|||Mixed Models Analysis|||||9.31|4.30|<0.0001
82565683|NCT05319756|164840641|OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.514||0.0015|TWO_SIDED|90.0|2.31|7.29|||Mixed Models Analysis|||||7.29|2.31|0.0015
82565684|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|0.743|<|0.0001|TWO_SIDED|90.0|3.01|5.45|||Mixed Models Analysis|||||5.45|3.01|<.0001
82565685|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.743||0.3933|TWO_SIDED|90.0|-0.59|1.86|||Mixed Models Analysis|||||1.86|-0.59|0.3933
82565686|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.747||0.2916|TWO_SIDED|90.0|-0.44|2.02|||Mixed Models Analysis|||||2.02|-0.44|0.2916
82565687|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|3.92|STANDARD_ERROR_OF_MEAN|0.748|<|0.0001|TWO_SIDED|90.0|2.69|5.15|||Mixed Models Analysis|||||5.15|2.69|<.0001
82565688|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|0.742|<|0.0001|TWO_SIDED|90.0|2.0|4.44|||Mixed Models Analysis|||||4.44|2.00|<.0001
82565689|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|-3.59|STANDARD_ERROR_OF_MEAN|0.74|<|0.0001|TWO_SIDED|90.0|-4.81|-2.38|||Mixed Models Analysis|||||-2.38|-4.81|<.0001
82565690|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.744|<|0.0001|TWO_SIDED|90.0|-4.66|-2.22|||Mixed Models Analysis|||||-2.22|-4.66|<.0001
82565691|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.741||0.6765|TWO_SIDED|90.0|-1.53|0.91|||Mixed Models Analysis|||||0.91|-1.53|0.6765
82565692|NCT05319756|164840642|OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.737||0.1712|TWO_SIDED|90.0|-2.22|0.2|||Mixed Models Analysis|||||0.20|-2.22|0.1712
82565693|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|24.7|STANDARD_ERROR_OF_MEAN|1.526|<|0.0001|TWO_SIDED|90.0|22.19|27.21|||Mixed Models Analysis|||||27.21|22.19|<.0001
82565694|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|2.87|STANDARD_ERROR_OF_MEAN|1.527||0.0606|TWO_SIDED|90.0|0.35|5.38|||Mixed Models Analysis|||||5.38|0.35|0.0606
82565695|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|4.11|STANDARD_ERROR_OF_MEAN|1.534||0.0074|TWO_SIDED|90.0|1.59|6.64|||Mixed Models Analysis|||||6.64|1.59|0.0074
82565696|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|30.58|STANDARD_ERROR_OF_MEAN|1.536|<|0.0001|TWO_SIDED|90.0|28.05|33.1|||Mixed Models Analysis|||||33.10|28.05|<.0001
82565697|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|29.99|STANDARD_ERROR_OF_MEAN|1.524|<|0.0001|TWO_SIDED|90.0|27.48|32.5|||Mixed Models Analysis|||||32.50|27.48|<.0001
82565698|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|-21.8|STANDARD_ERROR_OF_MEAN|1.521|<|0.0001|TWO_SIDED|90.0|-24.3|-19.3|||Mixed Models Analysis|||||-19.3|-24.3|<.0001
82565699|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|-20.6|STANDARD_ERROR_OF_MEAN|1.529|<|0.0001|TWO_SIDED|90.0|-23.1|-18.1|||Mixed Models Analysis|||||-18.1|-23.1|<.0001
82565700|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|5.88|STANDARD_ERROR_OF_MEAN|1.523||0.0001|TWO_SIDED|90.0|3.37|8.38|||Mixed Models Analysis|||||8.38|3.37|0.0001
82565701|NCT05319756|164840643|OTHER||Mean Difference (Final Values)|5.29|STANDARD_ERROR_OF_MEAN|1.513||0.0005|TWO_SIDED|90.0|2.8|7.78|||Mixed Models Analysis|||||7.78|2.80|0.0005
82565702|NCT02032420|164840728|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Repeated-measures MANOVA|The reported p value is for the effect of group assignment across three iterations of the assigned task.||||||<0.001
82565703|NCT02032420|164840729|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Repeated-measures MANOVA|The p value is for the effect of group assignment across three iterations of the assigned task.||||||0.004
82565704|NCT02032420|164840730|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.038
82565705|NCT02032420|164840731|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
82565706|NCT02849509|164840735|OTHER||||||<|0.0001||||||p-value of paired t-test compared to baseline|Paired t-test|||Convenience dimension score of PACT-Q2 at the second assessment (Visit 2) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||<0.0001
82506907|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|4.6|STANDARD_ERROR_OF_MEAN|6.27||0.4644|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4644
82506908|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|-30.6|STANDARD_ERROR_OF_MEAN|17.91||0.0887|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0887
82506909|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.0071|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0071
82565707|NCT02849509|164840735|OTHER|||||||0.0174||||||p-value of paired t-test compared to baseline|Paired t-test|||Satisfaction dimension score of PACT-Q2 at the second assessment (Visit 2) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0174
82565708|NCT02849509|164840736|OTHER||||||<|0.0001||||||p-value of paired t-test compared to baseline|Paired t-test|||Convenience dimension score of PACT-Q2 at the last assessment (Visit 3) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||<0.0001
82565709|NCT02849509|164840736|OTHER|||||||0.0004||||||p-value of paired t-test compared to baseline|Paired t-test|||Satisfaction dimension score of PACT-Q2 at the last assessment (Visit 3) were compared with the baseline assessment (Visit 1). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0004
82565710|NCT02849509|164840737|OTHER|||||||0.0423||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0423
82565711|NCT02849509|164840737|OTHER|||||||0.2226||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.2226
82565712|NCT02849509|164840738|OTHER|||||||0.0287||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0287
82565713|NCT02849509|164840738|OTHER|||||||0.03||||||p-value of paired t-test compared between matched Pradaxa® and VKA patients|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort B, were compared between matched Pradaxa® and VKA patients at the second assessment. There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.0300
82627677|NCT00937326|164970736|SUPERIORITY|||||||0.142||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 60 minutes.||||0.142
82627678|NCT00937326|164970736|SUPERIORITY|||||||0.955||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day for change from Baseline in PPI at 2 hour.||||0.955
82627679|NCT00937326|164970736|SUPERIORITY|||||||0.985||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day for change from Baseline in PPI at 2 hour.||||0.985
82627680|NCT00937326|164970736|SUPERIORITY|||||||0.923||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day for change from Baseline in PPI at 2 hour.||||0.923
82627681|NCT00937326|164970736|SUPERIORITY|||||||0.883||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day for change from Baseline in PPI at 2 hour.||||0.883
82627682|NCT00937326|164970737|SUPERIORITY|||||||0.118||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.118
82627683|NCT00937326|164970737|SUPERIORITY|||||||0.119||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.119
82627684|NCT00937326|164970737|SUPERIORITY|||||||0.293||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.293
82627685|NCT00937326|164970737|SUPERIORITY|||||||0.966||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.966
82627686|NCT00937326|164970738|SUPERIORITY|||||||0.94||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.940
82506910|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.064|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0640
82565714|NCT02849509|164840744|OTHER|||||||0.1234||||||p-value of paired t-test compared between second assessment (Visit 2) and last assessment (Visit 3)|Paired t-test|||Convenience dimension score of PACT-Q2 for patients in Cohort A, were compared between second assessment (Visit 2) and last assessment (Visit 3). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.1234
82565715|NCT02849509|164840744|OTHER|||||||0.974||||||p-value of paired t-test compared between second assessment (Visit 2) and last assessment (Visit 3)|Paired t-test|||Satisfaction dimension score of PACT-Q2 for patients in Cohort A, were compared between second assessment (Visit 2) and last assessment (Visit 3). There was no (confirmatory) hypothesis testing foreseen in a strict statistical sense. Analyses were descriptive in nature and p-values from statistical models were used for exploratory purposes.||||0.9740
82565716|NCT00763919|164840746|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||<.001
82565717|NCT00763919|164840747|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.01
82565718|NCT00763919|164840748|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||<.001
82565719|NCT00763919|164840749|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||<.001
82565720|NCT00763919|164840750|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<.001
82565721|NCT00763919|164840751|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.042
82565722|NCT00763919|164840752|SUPERIORITY_OR_OTHER|||||||0.044||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.044
82565723|NCT00763919|164840753|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.002
82565724|NCT00763919|164840754|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 6 months and baseline equals zero.||||.001
82565725|NCT00763919|164840755|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.001
82565726|NCT00763919|164840756|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.001
82565727|NCT00763919|164840757|SUPERIORITY_OR_OTHER|||||||0.827||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.827
82565728|NCT00763919|164840758|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 6 months and baseline equals zero.||||.002
82565729|NCT00763919|164840759|SUPERIORITY_OR_OTHER|||||||0.246||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.246
82565730|NCT00763919|164840760|SUPERIORITY_OR_OTHER|||||||0.101||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.101
82565731|NCT00763919|164840761|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.003
82565732|NCT00763919|164840762|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.096
82565733|NCT00763919|164840763|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.072
82565734|NCT00763919|164840764|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<.001
82565735|NCT00763919|164840765|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.078
82565736|NCT00763919|164840766|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||.002
82565737|NCT00763919|164840767|SUPERIORITY_OR_OTHER|||||||0.562||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.562
82565738|NCT00763919|164840768|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||.12
82565739|NCT05431543|164840775|SUPERIORITY||Odds Ratio (OR)|83.988|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
82565740|NCT05431543|164840775|SUPERIORITY||Odds Ratio (OR)|102.093|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
82565741|NCT03247985|164840776|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Comparison between groups for bilateral operative time.||||0.17
82565742|NCT03247985|164840776|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Comparison between groups for unilateral operative time.||||0.09
82565743|NCT03247985|164840779|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||A p-value of 0.05 was considered statistically significant.||||0.02
82627687|NCT00937326|164970738|SUPERIORITY|||||||0.197||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.197
82627688|NCT00937326|164970738|SUPERIORITY|||||||0.097||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.097
82627689|NCT00937326|164970738|SUPERIORITY|||||||0.404||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.404
82627690|NCT00937326|164970739|SUPERIORITY|||||||0.206||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 1 for PPG.||||0.2060
82627691|NCT00937326|164970739|SUPERIORITY|||||||0.179||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 1 for PPG.||||0.1790
82627692|NCT00937326|164970739|SUPERIORITY|||||||0.2741||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 1 for PPG.||||0.2741
82627693|NCT00937326|164970739|SUPERIORITY|||||||0.6001||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 1 for PPG.||||0.6001
82627694|NCT00937326|164970739|SUPERIORITY|||||||0.6711||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPG.||||0.6711
82627695|NCT00937326|164970739|OTHER|||||||0.1361||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 28 for PPG.||||0.1361
82627696|NCT00937326|164970739|SUPERIORITY|||||||0.3369||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 28 for PPG.||||0.3369
82627697|NCT00937326|164970739|SUPERIORITY|||||||0.0975||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 28 for PPG.||||0.0975
82627698|NCT00937326|164970739|SUPERIORITY|||||||0.2184||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 1 for PPG.||||0.2184
82627699|NCT00937326|164970739|SUPERIORITY|||||||0.1013||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 1 for PPG.||||0.1013
82627700|NCT00937326|164970739|SUPERIORITY|||||||0.3286||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 1 for PPG.||||0.3286
82627701|NCT00937326|164970739|SUPERIORITY|||||||0.5193||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 1 for PPG.||||0.5193
82627702|NCT00937326|164970739|SUPERIORITY|||||||0.9788||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 28 for PPG.||||0.9788
82627703|NCT00937326|164970739|SUPERIORITY|||||||0.1214||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 28 for PPG.||||0.1214
82627704|NCT00937326|164970739|SUPERIORITY|||||||0.5751||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 28 for PPG.||||0.5751
82627705|NCT00937326|164970739|SUPERIORITY|||||||0.2409||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 28 for PPG.||||0.2409
82627706|NCT00937326|164970739|SUPERIORITY|||||||0.4829||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 1 for PPI.||||0.4829
82627707|NCT00937326|164970739|SUPERIORITY|||||||0.7563||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 1 for PPI.||||0.7563
82627708|NCT00937326|164970739|SUPERIORITY|||||||0.2907||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 1 for PPI.||||0.2907
82627709|NCT00937326|164970739|SUPERIORITY|||||||0.7663||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-1 at Day 1 for PPI.||||0.7663
82627710|NCT00937326|164970739|SUPERIORITY|||||||0.5825||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPI||||0.5825
82627711|NCT00937326|164970739|SUPERIORITY|||||||0.322||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-1 at Day 28 for PPI.||||0.3220
82627712|NCT00937326|164970739|SUPERIORITY|||||||0.0564||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-1 at Day 28 for PPI.||||0.0564
82627713|NCT00937326|164970739|SUPERIORITY|||||||0.196||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-1 at Day 28 for PPI.||||0.1960
82627714|NCT00937326|164970739|SUPERIORITY|||||||0.5997||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 1 for PPI.||||0.5997
82627715|NCT00937326|164970739|SUPERIORITY|||||||0.9637||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 1 for PPI.||||0.9637
82627716|NCT00937326|164970739|SUPERIORITY|||||||0.324||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 1 for PPI.||||0.3240
82627717|NCT00937326|164970739|SUPERIORITY|||||||0.844||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 1 for PPI.||||0.8440
82627718|NCT00937326|164970739|SUPERIORITY|||||||0.6483||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.25 g/day of AUC 0-2 at Day 28 for PPI.||||0.6483
82627719|NCT00937326|164970739|SUPERIORITY|||||||0.6452||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 0.5 g/day of AUC 0-2 at Day 28 for PPI.||||0.6452
82627720|NCT00937326|164970739|SUPERIORITY|||||||0.1253||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 1.0 g/day of AUC 0-2 at Day 28 for PPI.||||0.1253
82565744|NCT00318591|164840819|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The additional explanatory variables were removed using backwards-elimination removing the least significant additional variable for each iteration, until the effect of all included additional variables was significant on α=0.05 significant level. The null-hypothesis of no catheter difference was to be rejected on α=0.05 significant level.|Hazard Ratio (HR)|1.502||||0.0383|TWO_SIDED|95.0|1.022|2.207||p-value is adjusted for the following explanatory variables: catheterization frequency, technique (clean/sterile), procedure (participant/nurse), setting (hospital/community) and demographic measures.|Kaplan-Meier|||The analysis was done by comparing Kaplan-Meier estimates of the survival function of the two groups. The analysis was refined by a Cox proportional hazards regression model for survival data.||2.207|1.022|0.0383
82565745|NCT00318591|164840821|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA analysis. Limit of significant difference \<0.05||||||0.767||95.0||||baseline characteristics were used as covariates, catheterization procedure (participant or caregiver) as well as technique (sterile or clean). Backward elimination was used.|ANOVA|||||||0.7670
82565746|NCT00318591|164840822|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA. Level of significant difference \<0.05||||||0.0074||95.0||||baseline characteristics were used as covariates, catheterization procedure (participant or caregiver) as well as technique (sterile or clean). Backward elimination was used.|ANOVA|||||||0.0074
82565747|NCT04853394|164840826|SUPERIORITY||Risk Ratio (RR)|0.33|||<|0.01|TWO_SIDED|95.0|0.21|0.51|||Mixed Models Analysis|Mixed effects modified Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.51|.21|<.01
82565748|NCT04853394|164840827|SUPERIORITY||Risk Ratio (RR)|0.67||||0.01|TWO_SIDED|95.0|0.46|0.97|||Mixed Models Analysis|Mixed effects modified Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.97|.46|.01
82565749|NCT04853394|164840828|SUPERIORITY||Risk Ratio (RR)|0.86||||0.01|TWO_SIDED|95.0|0.77|0.95|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 6-month follow-up|||.95|.77|.01
82565750|NCT04853394|164840828|SUPERIORITY||Risk Ratio (RR)|1.19||||0.01|TWO_SIDED|95.0|0.98|1.45|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||1.45|.98|.01
82565751|NCT04853394|164840831|SUPERIORITY||Risk Ratio (RR)|0.12||||0.01|TWO_SIDED|95.0|0.07|0.19|||Mixed Models Analysis|Mixed effects Poisson regression model with random intercepts for participant and network cluster|Effect of MASLIHAT vs. comparison TANSIHAT condition at 12-month follow-up|||.19|.07|.01
82506911|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.1552|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1552
82506912|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.5979|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5979
82506913|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|4.3|STANDARD_ERROR_OF_MEAN|5.58||0.4444|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4444
82565752|NCT00748098|164840832|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-26.0|||<|0.0001|TWO_SIDED|95.0|-35.64|-16.36|||ANCOVA|Estimates were obtained using an ANCOVA model with period, group center, and treatment as fixed effects and participant as a random effect.||||-16.36|-35.64|<0.0001
82565753|NCT00748098|164840833|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-3.07||||0.002|TWO_SIDED|95.0|-5.04|-1.1|||ANCOVA|Estimates were obtained using an ANCOVA model with period, group center, and treatment as fixed effects and participant as a random effect.||||-1.10|-5.04|0.002
82565754|NCT01178281|164840913|OTHER|||||||1|||||||Fisher Exact|||||||1.000
82565755|NCT01178281|164840915|OTHER|||||||0.929|||||||Log Rank|||||||0.929
82565756|NCT00088452|164840923|SUPERIORITY||Odds Ratio (OR)|2.66|||<|0.001|TWO_SIDED|95.0|1.65|4.28|||Chi-squared||odds ratio with ethosuximide vs. lamotrigine|Calculations of sample size were based on the ability to detect a 20% difference in freedom-from failure rates (three pairwise comparisons) at 16 weeks with 80% power at a two-sided P value of 0.017 and one interim analysis. Sample size of 398 was increased to 446 subjects to account for two stratification factors and a 5% dropout rate; this sample size allowed the detection of a difference of 0.5 SD in the Confidence Index on the Conners' Continuous Performance Test with a power exceeding 80%.||4.28|1.65|<0.001
82565757|NCT00088452|164840923|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.06|5.42|||Chi-squared||odds ratio with valproic acid vs. lamotrigine|Calculations of sample size were based on the ability to detect a 20% difference in freedom-from failure rates (three pairwise comparisons) at 16 weeks with 80% power at a two-sided P value of 0.017 and one interim analysis. Sample size of 398 was increased to 446 subjects to account for two stratification factors and a 5% dropout rate; this sample size allowed the detection of a difference of 0.5 SD in the Confidence Index on the Conners' Continuous Performance Test with a power exceeding 80%.||5.42|2.06|<0.001
82506914|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|-10.7|STANDARD_ERROR_OF_MEAN|12.27||0.3863|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3863
82506915|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.6352|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6352
82506916|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.1265|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1265
82506917|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.6161|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6161
82506918|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.528|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5280
82506919|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|11.5|STANDARD_ERROR_OF_MEAN|8.51||0.1769|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1769
82506920|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|-16.0|STANDARD_ERROR_OF_MEAN|22.24||0.4743|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4743
82506921|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.6901|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6901
82506922|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.0245|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0245
82506923|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.7707|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7707
82565758|NCT00088452|164840924|SUPERIORITY||Odds Ratio (OR)|1.95||||0.03|TWO_SIDED|95.0|1.12|3.41|||Chi-squared||Percentage of subjects with a Confidence Index score of 0.60 or higher in the valproic acid group than in the ethosuximide group|||3.41|1.12|0.03
82565759|NCT00088452|164840924|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.001|TWO_SIDED|95.0|1.69|5.49|||Chi-squared||Percentage of subjects with a Confidence Index score of 0.60 or higher in the valproic acid group than in the lamotrigine group|||5.49|1.69|<0.001
82565760|NCT00088452|164840925|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.81|5.33|||Fisher Exact||Odds ratio for FFF for ethosuximide versus lamotrigine|||5.33|1.81|<0.001
82565761|NCT00088452|164840925|SUPERIORITY||Odds Ratio (OR)|2.88|||<|0.001|TWO_SIDED|95.0|1.68|5.02|||Fisher Exact||odds ratio for FFF for valproic acid versus lamotrigine|||5.02|1.68|<0.001
82565762|NCT04044352|164840942|OTHER|Likelihood ratio test was the statistical test.|Odds Ratio (OR)|0.81||||0.126|TWO_SIDED|95.0|0.62|1.06|||Wald Chi-Square||A two-fold increase in HAI pre-challenge titer (i.e. one unit increase in log-2 titer) corresponds to a 19% decrease in the odds of developing MMID during the study challenge period (Day 2 through Day 8).|Pre-challenge (baseline) HAI geometric mean titer was log-2 transformed and treated as a continuous variable in the model.||1.06|0.62|0.126
82565763|NCT02706834|164841000|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence interval of 0.80 to 1.25|Point estimate|0.43|||||TWO_SIDED|90.0|0.38|0.487|||||Exponentiated Least Square Means TAK-828 100 mg Fed/TAK-828 100 mg Fasted|Food Effect: A linear mixed effect model on the natural log (ln)-transformed parameters was performed with dosing condition as a fixed effect and participant as a random effect using the Kenward-Roger estimation for computing the denominator degrees of freedom. The least squares means and difference of least squared means for the ln-transformed parameters were exponentiated to obtain the geometric means on the original scale.||0.487|0.380|
82506924|NCT01480076|164704583|SUPERIORITY_OR_OTHER|||||||0.4989|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4989
82506925|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|15.2|STANDARD_ERROR_OF_MEAN|7.31||0.0387|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0387
82506926|NCT01480076|164704583|SUPERIORITY_OR_OTHER||difference of LS means|-11.7|STANDARD_ERROR_OF_MEAN|15.88||0.4635|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % work time missed due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4635
82506927|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.1392|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1392
82506928|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.1448|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1448
82506929|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.0187|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0187
82506930|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.292|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2920
82506931|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|4.2|STANDARD_ERROR_OF_MEAN|4.95||0.3968|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3968
82627721|NCT00937326|164970739|SUPERIORITY|||||||0.2583||||||No adjustments for covariates were made.|Wilcoxon test|||Placebo versus SRT2104 2.0 g/day of AUC 0-2 at Day 28 for PPI.||||0.2583
82627722|NCT00937326|164970740|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for fructosamine.||||1.000
82627723|NCT00937326|164970740|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for fructosamine.||||1.000
82627724|NCT00937326|164970740|SUPERIORITY|||||||0.901||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for fructosamine.||||0.901
82627725|NCT00937326|164970740|SUPERIORITY|||||||0.155||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for fructosamine.||||0.155
82627726|NCT00937326|164970740|SUPERIORITY|||||||0.845||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for fructosamine.||||0.845
82627727|NCT00937326|164970740|SUPERIORITY|||||||0.164||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for fructosamine.||||0.164
82565764|NCT02706834|164841007|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence interval of 0.80 to 1.25|Point estimate|0.896|||||TWO_SIDED|90.0|0.833|0.964|||||Exponentiated Least Square Means TAK-828 100 mg Fed/TAK-828 100 mg Fasted|Food Effect: A linear mixed effect model on the natural log (ln)-transformed parameters was performed with dosing condition as a fixed effect and participant as a random effect using the Kenward-Roger estimation for computing the denominator degrees of freedom. The least squares means and difference of least squared means for the ln-transformed parameters were exponentiated to obtain the geometric means and ratios of geometric means on the original scale.||0.964|0.833|
82565765|NCT04864236|164841011|EQUIVALENCE|We compared particle number counts between intervention and control groups using the Wilcoxon test. Analyses were conducted using IBM SPSS V28 and p-values \<0.05 were considered statistically significant.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82565766|NCT04864236|164841012|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.073|||||||t-test, 1 sided|||||||0.073
82565767|NCT04864236|164841013|EQUIVALENCE|Patient characteristics and study variables were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.67|||||||t-test, 1 sided|||||||0.670
82565768|NCT04864236|164841014|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.167|||||||t-test, 1 sided|||||||0.167
82565769|NCT04864236|164841015|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.198|||||||t-test, 1 sided|||||||0.198
82565770|NCT04864236|164841016|EQUIVALENCE|Patient characteristics were summarized between groups using mean (SD) and formally compared using the t-test.||||||0.442|||||||t-test, 1 sided|||||||0.442
82565771|NCT03751280|164841078|OTHER||Comparison of adjusted least square mean|0.61|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|90.0|-1.4|2.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||2.6|-1.4|
82565772|NCT03751280|164841078|OTHER||Comparison of adjusted least square mean|0.8|STANDARD_ERROR_OF_MEAN|1.279|||TWO_SIDED|90.0|-1.3|2.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||2.9|-1.3|
82565773|NCT03751280|164841078|OTHER||Comparison of adjusted least square mean|2.73|STANDARD_ERROR_OF_MEAN|1.611||0.0931|TWO_SIDED|90.0|0.1|5.4|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||5.4|0.1|0.0931
82565774|NCT03751280|164841080|OTHER||Comparison of adjusted least square mean|0.21|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-0.6|1.0|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1|-0.6|
82565775|NCT03751280|164841080|OTHER||Comparison of adjusted least square mean|0.61|STANDARD_ERROR_OF_MEAN|0.538|||TWO_SIDED|90.0|-0.3|1.5|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.5|-0.3|
82565776|NCT03751280|164841080|OTHER||Comparison of adjusted least square mean|0.82|STANDARD_ERROR_OF_MEAN|0.648||0.2069|TWO_SIDED|90.0|-0.3|1.9|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||1.9|-0.3|0.2069
82565777|NCT03751280|164841081|OTHER||Comparison of adjusted least square mean|0.51|STANDARD_ERROR_OF_MEAN|0.849|||TWO_SIDED|90.0|-0.9|1.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1.9|-0.9|
82565778|NCT03751280|164841081|OTHER||Comparison of adjusted least square mean|0.12|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|90.0|-1.4|1.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.6|-1.4|
82565779|NCT03751280|164841081|OTHER||Comparison of adjusted least square mean|1.61|STANDARD_ERROR_OF_MEAN|1.071||0.1368|TWO_SIDED|90.0|-0.2|3.4|||t-test, 2 sided|||Day 85||3.4|-0.2|0.1368
82565780|NCT03751280|164841082|OTHER||Comparison of adjusted least square mean|-0.13|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.8|0.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||0.6|-0.8|
82565781|NCT03751280|164841082|OTHER||Comparison of adjusted least square mean|0.15|STANDARD_ERROR_OF_MEAN|0.453|||TWO_SIDED|90.0|-0.6|0.9|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||0.9|-0.6|
82565782|NCT03751280|164841082|OTHER||Comparison of adjusted least square mean|0.51|STANDARD_ERROR_OF_MEAN|0.581||0.3798|TWO_SIDED|90.0|-0.5|1.5|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|||1.5|-0.5|0.3798
82565783|NCT03751280|164841083|OTHER||Comparison of adjusted least square mean|-0.79|STANDARD_ERROR_OF_MEAN|-0.79|||TWO_SIDED|90.0|-3.2|1.6|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29||1.6|-3.2|
82565784|NCT03751280|164841083|OTHER||Comparison of adjusted least square mean|-1.6|STANDARD_ERROR_OF_MEAN|2.006|||TWO_SIDED|90.0|-4.9|1.7|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 57||1.7|-4.9|
82565785|NCT03751280|164841083|OTHER||Comparison of adjusted least square mean|-4.07|STANDARD_ERROR_OF_MEAN|1.78||0.0245|TWO_SIDED|90.0|-7.0|-1.1|||t-test, 2 sided||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 85||-1.1|-7.0|0.0245
82506932|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|5.1|STANDARD_ERROR_OF_MEAN|10.95||0.642|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6420
82378366|NCT00535405|164465086|SUPERIORITY_OR_OTHER_LEGACY||Ratio of odds|1.78|STANDARD_ERROR_OF_MEAN|0.44||0.039|TWO_SIDED|95.0|1.1|2.9||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|Logistic Regression using GEE|Model include terms for treatment, baseline LDL-C, study week and treatment by study week interaction.|Ratio of odds of achieving pre-specified LDL-C level on EZ/Simva versus Atorva|||2.90|1.10|0.039
82506933|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.01|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0100
82506934|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.8634|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8634
82506935|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.0134|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0134
82506936|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.8147|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8147
82506937|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|-5.1|STANDARD_ERROR_OF_MEAN|6.06||0.4035|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4035
82506938|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|-4.8|STANDARD_ERROR_OF_MEAN|14.25||0.7385|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7385
82565786|NCT03751280|164841084|OTHER||Comparison of adjusted least square mean|-0.18|STANDARD_ERROR_OF_MEAN|0.516|||TWO_SIDED|90.0|-1.0|0.7|||||mixed effects model with treatment, visit as fixed effects, baseline and disease duration at baseline as continuous covariates, treatment \* visit and baseline \* visit interaction effects.|Day 29-Domain 1||0.7|-1.0|
82565787|NCT02162771|164841092|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed values were used to assess the bioequivalence between CT-P10 and Rituxan (bioequivalence range of 80% to 125%)|Ratio of geometric least square means|102.25|||||TWO_SIDED|90.0|94.05|111.17|||ANCOVA|Country, gender, race, the value of ECOG status and the FLIPI score (0 to 2 versus 3 to 5) at baseline were fitted as covariates.||Equivalence in AUCtau between CT-P10 and Rituxan||111.17|94.05|
82565788|NCT02162771|164841093|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed transformed values were used to assess the bioequivalence between CT-P10 and Rituxan (bioequivalence range of 80% to 125%)|Ratio of geometric least square means|100.67|||||TWO_SIDED|90.0|93.84|108.0|||ANCOVA|Country, gender, race, the value of ECOG status and the FLIPI score (0 to 2 versus 3 to 5) at baseline were fitted as covariates.||Equivalence in Cmax,ss between CT-P10 and Rituxan||108.00|93.84|
82565789|NCT02162771|164841094|NON_INFERIORITY|Non-inferiority margin of -7% was predefined.|Point estimate difference|4.3|||||TWO_SIDED|||||||||||||
82565790|NCT03594266|164841096|OTHER||||||<|0.0001|||||||paired t-test, two-sided|||||||<0.0001
82565791|NCT03594266|164841096|OTHER||||||<|0.0001|||||||paired t-test, two-sided|||||||<0.0001
82565792|NCT03594266|164841097|OTHER|||||||0.5482|||||||two-sample t-test, 2-sided|||||||0.5482
82565793|NCT03647709|164841104|OTHER||mean score|1.0|||||TWO_SIDED|95.0|0.9|1.2|||||Represents patients pain score post operative day 1 best with rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity.||1.2|0.9|
82627728|NCT00937326|164970740|SUPERIORITY|||||||0.699||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for fructosamine.||||0.699
82627729|NCT00937326|164970740|SUPERIORITY|||||||0.313||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for fructosamine.||||0.313
82627730|NCT00937326|164970741|SUPERIORITY|||||||0.896||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.896
82627731|NCT00937326|164970741|SUPERIORITY|||||||0.08||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.080
82627732|NCT00937326|164970741|SUPERIORITY|||||||0.792||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.792
82627733|NCT00937326|164970741|SUPERIORITY|||||||0.645||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.645
82627734|NCT00937326|164970742|SUPERIORITY|||||||0.992||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for HOMA-IR.||||0.992
82627735|NCT00937326|164970742|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for HOMA-IR.||||0.999
82627736|NCT00937326|164970742|SUPERIORITY|||||||0.548||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for HOMA-IR.||||0.548
82627737|NCT00937326|164970742|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for HOMA-IR.||||0.989
82627738|NCT00937326|164970742|SUPERIORITY|||||||0.877||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for HOMA-IR.||||0.877
82627739|NCT00937326|164970742|SUPERIORITY|||||||0.887||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for HOMA-IR.||||0.887
82627740|NCT00937326|164970742|SUPERIORITY|||||||0.916||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for HOMA-IR.||||0.916
82627741|NCT00937326|164970742|SUPERIORITY|||||||0.86||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for HOMA-IR.||||0.860
82627742|NCT00937326|164970743|SUPERIORITY|||||||0.996||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.996
82627743|NCT00937326|164970743|SUPERIORITY|||||||0.989||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.989
82627744|NCT00937326|164970743|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.999
82565794|NCT03647709|164841104|OTHER||mean score|2.4|||||TWO_SIDED|95.0|2.2|2.6|||||Represents patients reported pain score post operative day 1 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity.||2.6|2.2|
82565795|NCT03647709|164841104|OTHER||mean score|2.9|||||TWO_SIDED|95.0|2.7|3.1|||||Represents patients reported pain score post operative day 1 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.1|2.7|
82565796|NCT03647709|164841104|OTHER||mean score|4.6|||||TWO_SIDED|95.0|4.4|4.8|||||Represents patients reported pain score post operative day 1 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.8|4.4|
82565797|NCT03647709|164841104|OTHER||mean score|1.8|||||TWO_SIDED|95.0|1.6|2.0|||||Represents patients reported pain score post operative day 2 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.0|1.6|
82565798|NCT03647709|164841104|OTHER||mean score|3.4|||||TWO_SIDED|95.0|3.2|3.6|||||Represents patients reported pain score post operative day 2 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.6|3.2|
82565799|NCT03647709|164841104|OTHER||mean score|4.2|||||TWO_SIDED|95.0|4.0|4.4|||||Represents patients reported pain score post operative day 2 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.4|4.0|
82565800|NCT03647709|164841104|OTHER||mean score|5.9|||||TWO_SIDED|95.0|5.7|6.1|||||Represents patients reported pain score post operative day 2 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||6.1|5.7|
82565801|NCT03647709|164841104|OTHER||mean score|1.0|||||TWO_SIDED|95.0|0.8|1.2|||||Represents patients reported pain score post operative day 3 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.2|0.8|
82565802|NCT03647709|164841104|OTHER||mean score|2.4|||||TWO_SIDED|95.0|2.2|2.6|||||Represents patients reported pain score post operative day 3 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.6|2.2|
82565803|NCT03647709|164841104|OTHER||mean score|3.3|||||TWO_SIDED|95.0|3.1|3.5|||||Represents patients reported pain score post operative day 3 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.5|3.1|
82565804|NCT03647709|164841104|OTHER||mean score|5.0|||||TWO_SIDED|95.0|4.8|5.2|||||Represents patients reported pain score post operative day 3 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||5.2|4.8|
82565805|NCT03647709|164841104|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.7|||||Represents patients reported pain score post operative days 10-14 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.7|0.4|
82506939|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.0139|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0139
82506940|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.5207|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5207
82565806|NCT03647709|164841104|OTHER||mean score|2.1|||||TWO_SIDED|95.0|1.9|2.3|||||Represents patients reported pain score post operative days 10-14 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.3|1.9|
82565807|NCT03647709|164841104|OTHER||mean score|2.0|||||TWO_SIDED|95.0|1.8|2.2|||||Represents patients reported pain score post operative days 10-14 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.2|1.8|
82565808|NCT03647709|164841104|OTHER||mean score|4.0|||||TWO_SIDED|95.0|3.8|4.2|||||Represents patients reported pain score post operative days 10-14 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||4.2|3.8|
82565809|NCT03647709|164841104|OTHER||mean score|0.3|||||TWO_SIDED|95.0|0.2|0.4|||||Represents patients reported pain score post operative week 3 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.4|0.2|
82565810|NCT03647709|164841104|OTHER||mean score|1.5|||||TWO_SIDED|95.0|1.3|1.7|||||Represents patients reported pain score post operative week 3 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.7|1.3|
82627745|NCT00937326|164970743|SUPERIORITY|||||||0.763||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.763
82378367|NCT04807400|164465192|SUPERIORITY||Least Squares Mean|-31.8|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-37.91|-25.77||p-values are adjusted using Holm's procedure.|ANCOVA|||||-25.77|-37.91|<0.001
82627746|NCT00937326|164970744|SUPERIORITY|||||||0.81||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.810
82627747|NCT00937326|164970744|SUPERIORITY|||||||0.753||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.753
82378368|NCT04807400|164465192|SUPERIORITY||Least Squares Mean|-32.1|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-38.35|-25.94||p-values are adjusted using Holm's procedure.|ANCOVA|||||-25.94|-38.35|<0.001
82378369|NCT04807400|164465194|SUPERIORITY||Least-squares Mean|1.4|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|0.62|2.13|||ANOVA|||||2.13|0.62|<0.001
82627748|NCT00937326|164970744|SUPERIORITY|||||||0.404||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.404
82627749|NCT00937326|164970744|SUPERIORITY|||||||0.671||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 1 for HOMA-percentage of beta cell function.||||0.671
82565811|NCT03647709|164841104|OTHER||mean score|1.3|||||TWO_SIDED|95.0|1.2|1.5|||||Represents patients reported pain score post operative week 3 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||1.5|1.2|
82565812|NCT03647709|164841104|OTHER||mean score|3.1|||||TWO_SIDED|95.0|2.9|3.3|||||Represents patients reported pain score post operative week 3 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||3.3|2.9|
82565813|NCT03647709|164841104|OTHER||mean score|0.1|||||TWO_SIDED|95.0|0.0|0.2|||||Represents patients reported pain score post operative week 6 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.2|0.0|
82565814|NCT03647709|164841104|OTHER||mean score|0.7|||||TWO_SIDED|95.0|0.5|0.8|||||Represents patients reported pain score post operative week 6 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.8|0.5|
82565815|NCT03647709|164841104|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||Represents patients reported pain score post operative week 6 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.6|0.4|
82565816|NCT03647709|164841104|OTHER||mean score|1.9|||||TWO_SIDED|95.0|1.7|2.0|||||Represents patients reported pain score post operative week 6 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||2.0|1.7|
82565817|NCT03647709|164841104|OTHER||mean score|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Represents patients reported pain score post operative week 12 best at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.0|-0.0|
82565818|NCT03647709|164841104|OTHER||mean score|0.2|||||TWO_SIDED|95.0|0.1|0.2|||||Represents patients reported pain score post operative week 12 worst at rest|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.2|0.1|
82565819|NCT03647709|164841104|OTHER||mean score|0.0|||||TWO_SIDED|95.0|0.0|0.1|||||Represents patients reported pain score post operative week 12 best with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.1|-0.0|
82627750|NCT00937326|164970744|SUPERIORITY|||||||1||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.25 g/day at Day 28 for HOMA-percentage of beta cell function.||||1.000
82565820|NCT03647709|164841104|OTHER||mean score|0.5|||||TWO_SIDED|95.0|0.4|0.7|||||Represents patients reported pain score post operative week 12 worst with activity|Comparison of change in patient's reported pain with rest or during activity at various time intervals. Patients reported best and worst pain scores at rest and during activity||0.7|0.4|
82565821|NCT03647709|164841107|OTHER|||||||0.0015|||||||Fisher Exact|||||||0.0015
82565822|NCT03647709|164841108|OTHER|||||||0.6398|||||||Fisher Exact|||||||.6398
82565823|NCT03647709|164841109|OTHER|||||||0.0658|||||||Fisher Exact|||||||.0658
82565824|NCT03647709|164841110|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82565825|NCT05045638|164841118|OTHER||Ratio of GLSMs|1.6999|||||TWO_SIDED|90.0|1.186|2.4363||||||The ratios of geometric least squares means (GLSMs) and confidence intervals (CIs) were obtained by taking the exponential of the corresponding differences and CIs on the natural-log (ln) scale.||2.4363|1.1860|
82565826|NCT05045638|164841119|OTHER||Ratio of GLSMs|1.3389|||||TWO_SIDED|90.0|1.0334|1.7347||||||The ratios of GLSMs and CIs were obtained by taking the exponential of the corresponding differences and CIs on the ln scale.||1.7347|1.0334|
82565827|NCT05045638|164841120|OTHER||Ratio of GLSMs|1.3382|||||TWO_SIDED|90.0|0.9856|1.8169||||||The ratios of GLSMs and CIs were obtained by taking the exponential of the corresponding differences and CIs on the ln scale.||1.8169|0.9856|
82565828|NCT00832650|164841161|SUPERIORITY_OR_OTHER||LS Mean difference|0.051|||||TWO_SIDED|95.0|-0.334|0.436|||ANCOVA||Least squares mean was calculated based on the ANCOVA model with treatment group as a fixed effect and baseline values, age and Body Mass Index (BMI) as covariates.|Null H10: μF8mg=μS10mg where μF8mg and μS10mg are means of GC24 for fesoterodine 8mg and solifenacin 10mg, respectively.||0.436|-0.334|
82565829|NCT02332824|164841173|SUPERIORITY_OR_OTHER||LS Mean difference|-0.325|||<|0.0001|TWO_SIDED|95.0|-0.4845|-0.1649||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 5 mg-placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.1649|-0.4845|<0.0001
82565830|NCT02332824|164841173|SUPERIORITY_OR_OTHER||LS Mean difference|-0.469|||<|0.0001|TWO_SIDED|95.0|-0.6251|-0.3132||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 20 mg-placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.3132|-0.6251|<0.0001
82565831|NCT02332824|164841173|SUPERIORITY_OR_OTHER||LS Mean difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.7897|-0.4711||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 40 mg -placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.4711|-0.7897|<0.0001
82565832|NCT02332824|164841173|SUPERIORITY_OR_OTHER||LS Mean difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.8083|-0.4908||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (TAK-272 80 mg -placebo) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.4908|-0.8083|<0.0001
82565833|NCT02332824|164841173|SUPERIORITY_OR_OTHER||LS Mean difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.6874|-0.3719||In the primary analysis, each TAK-272 group will be compared with placebo group based on a step-down testing procedure, which will be employed for multiple comparison adjustment.|ANCOVA||Estimated Value was for LS mean differences (Candesartan cilexetil 8 mg -placebo group) in log-transformed UACR changes from baseline to the end of treatment period.|||-0.3719|-0.6874|<0.0001
82627751|NCT00937326|164970744|SUPERIORITY|||||||0.622||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 0.5 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.622
82627752|NCT00937326|164970744|SUPERIORITY|||||||0.332||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 1.0 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.332
82627753|NCT00937326|164970744|SUPERIORITY|||||||0.998||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||Placebo versus SRT2104 2.0 g/day at Day 28 for HOMA-percentage of beta cell function.||||0.998
82627754|NCT00937326|164970745|SUPERIORITY|||||||0.994||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.994
82627755|NCT00937326|164970745|SUPERIORITY|||||||0.979||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.979
82627756|NCT00937326|164970745|SUPERIORITY|||||||0.993||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.993
82627757|NCT00937326|164970745|SUPERIORITY|||||||0.999||||||Analysis was performed using ANOVA with Dunnett's test using the placebo group as the control, a 2-sided alpha of 0.05 was set as the significance threshold. No adjustments for covariates were made.|ANOVA|Dunnett's test was used to control for inflation of alpha due to multiple comparisons, using the placebo group as the control.||||||0.999
82627758|NCT03180294|164970757|SUPERIORITY|||||||0.46|||||||t-test, 1 sided|||Using a two sample t-test with a one-sided type I error of 0.05 (overall type I error of 0.1 after a Bonferroni correction) and an effect size of 0.45, 62 patients/arm were calculated to be needed to achieve 80% statistical power. Adjusting for 20% non-compliance resulted in a total sample size of 234 patients..||||0.46
82627759|NCT03180294|164970757|SUPERIORITY|||||||0.54|||||||t-test, 1 sided|||Using a two sample t-test with a one-sided type I error of 0.05 (overall type I error of 0.1 after a Bonferroni correction) and an effect size of 0.45, 62 patients/arm were calculated to be needed to achieve 80% statistical power. Adjusting for 20% non-compliance resulted in a total sample size of 234 patients..||||0.54
82627760|NCT03180294|164970758|SUPERIORITY|||||||0.95||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.95
82627761|NCT03180294|164970758|SUPERIORITY|||||||0.73||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.73
82627762|NCT03180294|164970758|SUPERIORITY|||||||0.46||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.46
82627763|NCT03180294|164970758|SUPERIORITY|||||||0.42||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.42
82627764|NCT03180294|164970759|SUPERIORITY|||||||0.24||||||One-side significance level 0.05|t-test, 1 sided|||||||0.24
82627765|NCT03180294|164970759|SUPERIORITY|||||||0.74||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.74
82627766|NCT03180294|164970760|SUPERIORITY|||||||0.41||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.41
82627767|NCT03180294|164970760|SUPERIORITY|||||||0.6||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.60
82627768|NCT03180294|164970760|SUPERIORITY|||||||0.9||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.90
82627769|NCT03180294|164970760|SUPERIORITY|||||||0.79||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.79
82627770|NCT03180294|164970761|SUPERIORITY|||||||0.41||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.41
82627771|NCT03180294|164970761|SUPERIORITY|||||||0.35||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.35
82627772|NCT03180294|164970761|SUPERIORITY|||||||0.83||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.83
82378370|NCT04807400|164465194|SUPERIORITY||Least-squares Mean|1.3|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|0.6|2.1|||ANOVA|||||2.10|0.60|<0.001
82565834|NCT03740919|164841200|NON_INFERIORITY|Noninferiority margin \[NIM\]=0.4% for HbA1c|Least Squares (LS) Mean Difference|-0.02||||0.783|TWO_SIDED|95.0|-0.17|0.13|||Mixed Models Analysis|||||0.13|-0.17|0.783
82627773|NCT03180294|164970761|SUPERIORITY|||||||0.79||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.79
82627774|NCT03180294|164970762|SUPERIORITY|||||||0.78||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.78
82627775|NCT03180294|164970762|SUPERIORITY|||||||0.51||||||One-sided significance level 0.05|t-test, 1 sided|||Week 5||||0.51
82627776|NCT03180294|164970762|SUPERIORITY|||||||0.49||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.49
82627777|NCT03180294|164970762|SUPERIORITY|||||||0.5||||||One-sided significance level 0.05|t-test, 1 sided|||Week 9||||0.50
82627778|NCT03180294|164970763|SUPERIORITY|||||||0.71|||||||Chi-squared|One-sided significance level 0.05||||||0.71
82627779|NCT03180294|164970763|SUPERIORITY|||||||0.34|||||||Chi-squared|One-sided significance level 0.05||||||0.34
82627780|NCT03180294|164970764|SUPERIORITY|||||||0.23||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.23
82627781|NCT03180294|164970764|SUPERIORITY|||||||0.25||||||One-sided significance level 0.05|t-test, 1 sided|||||||0.25
82627782|NCT01951326|164970823|SUPERIORITY|||||||0.0048|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0048
82627783|NCT01951326|164970824|SUPERIORITY|||||||0.0116|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0116
82627784|NCT01951326|164970825|SUPERIORITY|||||||0.0616|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0616
82627785|NCT01951326|164970826|SUPERIORITY|||||||0.0851|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0851
82627786|NCT01951326|164970827|SUPERIORITY|||||||0.0147|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0147
82627787|NCT01951326|164970828|SUPERIORITY|||||||0.151|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.1510
82627788|NCT01951326|164970829|SUPERIORITY|||||||0.2402|||||||Log Rank|||||||0.2402
82627789|NCT01951326|164970830|SUPERIORITY|||||||0.046|||||||Log Rank|||||||0.0460
82627790|NCT01951326|164970831|SUPERIORITY|||||||0.0031|||||||Log Rank|||||||0.0031
82627791|NCT01951326|164970832|SUPERIORITY|||||||0.01|||||||Log Rank|||||||0.0100
82627792|NCT01951326|164970833|SUPERIORITY|||||||0.0077|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0077
82627793|NCT01951326|164970834|SUPERIORITY|||||||0.0422|||||||Cochran-Mantel-Haenszel|Stratified according to anti-TNF agent use (Y/N).||||||0.0422
82627794|NCT01224106|164970837|SUPERIORITY||Effect Size|-0.044||||0.6744|TWO_SIDED|95.0|-0.248|0.161|||Mixed Models Analysis|||||0.161|-0.248|0.6744
82378371|NCT04807400|164465195|SUPERIORITY||Least-squares Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.326||0.9347|TWO_SIDED|95.0|-0.67|0.61|||ANOVA|||||0.61|-0.67|0.9347
82627795|NCT01224106|164970837|SUPERIORITY||Effect Size|-0.085||||0.4494|TWO_SIDED|95.0|-0.304|0.135|||Mixed Models Analysis|||||0.135|-0.304|0.4494
82627796|NCT01224106|164970839|SUPERIORITY||Effect Size|0.035||||0.7458|TWO_SIDED|95.0|-0.179|0.25|||Mixed Models Analysis|||||0.250|-0.179|0.7458
82627797|NCT01224106|164970839|SUPERIORITY||Effect Size|0.042||||0.723|TWO_SIDED|95.0|-0.191|0.275|||Mixed Models Analysis|||||0.275|-0.191|0.723
82627798|NCT01224106|164970843|SUPERIORITY||Effect Size|-0.191||||0.0825|TWO_SIDED|95.0|-0.407|0.025|||Mixed Models Analysis|||||0.025|-0.407|0.0825
82627799|NCT01224106|164970843|SUPERIORITY||Effect Size|0.043||||0.7171|TWO_SIDED|95.0|-0.19|0.276|||Mixed Models Analysis|||||0.276|-0.19|0.7171
82627800|NCT01224106|164970846|SUPERIORITY|||||||0.9734|||||||Mixed Models Analysis|||"Statistical analysis of the Abeta 1-42 CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.9734
82627801|NCT01224106|164970846|SUPERIORITY|||||||0.0629|||||||Mixed Models Analysis|||"Statistical analysis of the Abeta 1-42 CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0629
82627802|NCT01224106|164970846|SUPERIORITY|||||||0.0084|||||||Mixed Models Analysis|||"Statistical analysis of the p-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0084
82627803|NCT01224106|164970846|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||"Statistical analysis of the p-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0003
82627804|NCT01224106|164970846|SUPERIORITY|||||||0.0903|||||||Mixed Models Analysis|||"Statistical analysis of the t-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 105 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0903
82627805|NCT01224106|164970846|SUPERIORITY|||||||0.0434|||||||Mixed Models Analysis|||"Statistical analysis of the t-tau CSF biomarker between Placebo (Parts 1 and 2) and Gantenerumab 225 mg (Parts 1 and 2) treatment arms at Week 104."||||0.0434
82627806|NCT00420342|164970865|SUPERIORITY_OR_OTHER|||||||0.1182||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 1.5 mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.1182
82627807|NCT00420342|164970865|SUPERIORITY_OR_OTHER|||||||0.2224||95.0||||2.0 mg DRSP / 1.0 mg E2 vs 1.5mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.2224
82627808|NCT00420342|164970865|SUPERIORITY_OR_OTHER|||||||0.6929||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 2.0 mg DRSP / 1.0 mg E2.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.6929
82565835|NCT03740919|164841201|NON_INFERIORITY|NIM of 0.4%|LS Mean Difference|-0.02||||0.867|TWO_SIDED|95.0|-0.2|0.17|||Mixed Models Analysis|||||0.17|-0.20|0.867
82378372|NCT04807400|164465196|SUPERIORITY||Least-squares Mean|1.0|STANDARD_ERROR_OF_MEAN|2.34||0.6759|TWO_SIDED|95.0|-3.62|5.58|||ANCOVA|||||5.58|-3.62|0.6759
82378373|NCT04807400|164465196|SUPERIORITY||Least-squares Mean|1.3|STANDARD_ERROR_OF_MEAN|2.31||0.5756|TWO_SIDED|95.0|-3.25|5.84|||ANCOVA|||||5.84|-3.25|0.5756
82378374|NCT04807400|164465197|SUPERIORITY||Least-squares Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69||0.858|TWO_SIDED|95.0|-3.02|3.62|||ANCOVA|||||3.62|-3.02|0.8580
82565836|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.61||||0.008|TWO_SIDED|95.0|1.13|2.3|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||2.30|1.13|0.008
82565837|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.17||||0.487|TWO_SIDED|95.0|0.75|1.83|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||1.83|0.75|0.487
82565838|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.73||||0.153|TWO_SIDED|95.0|0.47|1.13|||Regression, Logistic|||\< 54 mg/dL 1 hour post-dose||1.13|0.47|0.153
82565839|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.49||||0.02|TWO_SIDED|95.0|1.06|2.08|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||2.08|1.06|0.020
82565840|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.17||||0.455|TWO_SIDED|95.0|0.78|1.76|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||1.76|0.78|0.455
82565841|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.79||||0.259|TWO_SIDED|95.0|0.52|1.19|||Regression, Logistic|||\< 54 mg/dL 2 hour post-dose||1.19|0.52|0.259
82565842|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.29|2.51|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||2.51|1.29|<0.001
82627809|NCT00420342|164970866|SUPERIORITY_OR_OTHER|||||||0.0702||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 1.5 mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.0702
82627810|NCT00420342|164970866|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||2.0 mg DRSP / 1.0 mg E2 vs 1.5mg MPA / 0.3 mg CEE.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.1980
82627811|NCT00420342|164970866|SUPERIORITY_OR_OTHER|||||||0.5777||95.0||||0.5 mg DRSP / 1.0 mg E2 vs 2.0 mg DRSP / 1.0 mg E2.|ANCOVA|No adjustments made for multiple comparisons||Pairwise comparisons among all three treatment groups were performed; both DRSP / E2 group vs MPA /CEE, and the two active doses against each other. Null hypotheses were that there were no differences between groups for each of the three pairwise comparison. Analysis of variance model was used, with terms for treatment, center, and baseline BP values.||||0.5777
82627812|NCT02580591|164970888|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|99.0|-0.46|-0.11|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.11|-0.46|<0.0001
82627813|NCT02580591|164970888|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.6|-0.3|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.30|-0.60|<0.0001
82627814|NCT02580591|164970888|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.68|-0.37|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.37|-0.68|<0.0001
82627815|NCT02580591|164970889|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.4|-0.14|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.14|-0.40|
82627816|NCT02580591|164970889|SUPERIORITY||Median Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.59|-0.28|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.28|-0.59|<0.0001
82627817|NCT02580591|164970889|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.66|-0.35|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.35|-0.66|<0.0001
82627818|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|0.94|||||TWO_SIDED|95.0|0.673|1.314|||Negative binomial model||Empagliflozin 2.5 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.314|0.673|
82627819|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|1.202||||0.2752|TWO_SIDED|97.75|0.818|1.766|||Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.766|0.818|0.2752
82627820|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|1.02||||0.9077|TWO_SIDED|97.75|0.693|1.501|||Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 5 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.501|0.693|0.9077
82627821|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|0.932|||||TWO_SIDED|95.0|0.682|1.274|||Negative binomial model|||For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.274|0.682|
82506941|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.0091|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0091
82506942|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.2312|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2312
82506943|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|-1.8|STANDARD_ERROR_OF_MEAN|5.89||0.7578|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7578
82506944|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|7.9|STANDARD_ERROR_OF_MEAN|13.42||0.5575|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5575
82506945|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.4486|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4486
82506946|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.0102|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0102
82506947|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.1185|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1185
82506948|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.7523|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7523
82506949|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|17.1|STANDARD_ERROR_OF_MEAN|7.38||0.0214|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0214
82506950|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|0.4|STANDARD_ERROR_OF_MEAN|19.12||0.9826|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9826
82506951|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.6627|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6627
82506952|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.4674|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4674
82506953|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.2965|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2965
82378375|NCT03656744|164465199|SUPERIORITY|||||||0.199|||||||ANCOVA|||||||0.199
82627822|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|1.258||||0.1438|TWO_SIDED|95.0|0.925|1.713||This is a nominal p-value.|Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.713|0.925|0.1438
82627823|NCT02580591|164970890|SUPERIORITY||Adjusted Rate Ratio (%)|1.051||||0.7543|TWO_SIDED|95.0|0.771|1.433||This is a nominal p-value.|Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For Week 1 to 26, negative binomial model includes baseline rate of hypoglycemia, baseline HbA1c, and baseline Estimated glomerular filtration rate (eGFR) as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.433|0.771|0.7543
82627824|NCT02580591|164970891|SUPERIORITY||Mean Difference (Final Values)|-1.76|||||TWO_SIDED|95.0|-2.32|-1.2|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.20|-2.32|
82627825|NCT02580591|164970891|SUPERIORITY||Mean Difference (Final Values)|-3.04|||<|0.0001|TWO_SIDED|99.75|-3.91|-2.18|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.18|-3.91|<0.0001
82627826|NCT02580591|164970891|SUPERIORITY||Mean Difference (Final Values)|-3.43|||<|0.0001|TWO_SIDED|99.75|-4.3|-2.57|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline weight, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.57|-4.30|<0.0001
82627827|NCT02580591|164970892|SUPERIORITY||Mean Difference (Final Values)|-0.049|||||TWO_SIDED|95.0|-0.069|-0.03|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.030|-0.069|
82627828|NCT02580591|164970892|SUPERIORITY||Mean Difference (Final Values)|-0.07|||<|0.0001|TWO_SIDED|99.75|-0.101|-0.039|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.039|-0.101|<0.0001
82627829|NCT02580591|164970892|SUPERIORITY||Mean Difference (Final Values)|-0.091|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|99.75|-0.122|-0.06|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model includes baseline total daily insulin dose, baseline estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.060|-0.122|<0.0001
82627830|NCT02580591|164970893|SUPERIORITY||Median Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-3.9|-0.2|||Mixed effect Model Repeat MeasurementMix||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.2|-3.9|
82627831|NCT02580591|164970893|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.0001|TWO_SIDED|99.75|-6.8|-1.1|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, , treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.1|-6.8|<0.0001
82627832|NCT02580591|164970893|SUPERIORITY||Mean Difference (Final Values)|-3.7|||<|0.0001|TWO_SIDED|99.75|-6.6|-0.9|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.9|-6.6|<0.0001
82378376|NCT03656744|164465199|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
82378377|NCT03656744|164465200|SUPERIORITY|||||||0.152|||||||ANCOVA|||||||0.152
82378378|NCT03656744|164465200|SUPERIORITY|||||||0.109|||||||ANCOVA|||||||0.109
82378379|NCT03656744|164465201|SUPERIORITY|||||||0.034|||||||ANCOVA|||||||0.034
82378380|NCT03656744|164465201|SUPERIORITY|||||||0.004|||||||ANCOVA|||||||0.004
82506954|NCT01480076|164704584|SUPERIORITY_OR_OTHER|||||||0.1778|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1778
82506955|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|6.6|STANDARD_ERROR_OF_MEAN|7.65||0.3903|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3903
82506956|NCT01480076|164704584|SUPERIORITY_OR_OTHER||difference of LS means|16.8|STANDARD_ERROR_OF_MEAN|15.53||0.2794|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % impairment while working due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2794
82506957|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.0628|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0628
82506958|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.1166|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1166
82506959|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.0451|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0451
82506960|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.9327|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9327
82506961|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|5.1|STANDARD_ERROR_OF_MEAN|6.28||0.4177|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4177
82565843|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.95||||0.822|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||1.43|0.64|0.822
82565844|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.53||||0.003|TWO_SIDED|95.0|0.35|0.8|||Regression, Logistic|||≤ 70 mg/dL 1 hour post-dose||0.80|0.35|0.003
82565845|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|1.42||||0.092|TWO_SIDED|95.0|0.94|2.14|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||2.14|0.94|0.092
82565846|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.71||||0.133|TWO_SIDED|95.0|0.45|1.11|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||1.11|0.45|0.133
82565847|NCT03740919|164841202|SUPERIORITY||Odds Ratio (OR)|0.5||||0.004|TWO_SIDED|95.0|0.31|0.8|||Regression, Logistic|||≤ 70 mg/dL 2 hour post-dose||0.80|0.31|0.004
82565848|NCT03740919|164841203|SUPERIORITY|||||||0.22|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.220
82565849|NCT03740919|164841203|SUPERIORITY|||||||0.599|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.599
82565850|NCT03740919|164841203|SUPERIORITY|||||||0.112|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 1 hour post-dose||||0.112
82565851|NCT03740919|164841203|SUPERIORITY|||||||0.034|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.034
82565852|NCT03740919|164841203|SUPERIORITY|||||||0.055|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.055
82565853|NCT03740919|164841203|SUPERIORITY|||||||0.814|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||\< 54 mg/dL 2 hour post-dose||||0.814
82565854|NCT03740919|164841203|SUPERIORITY|||||||0.194|||||||Negative binomial regression|||≤70 mg/dL 1 hour post-dose||||0.194
82565855|NCT03740919|164841203|SUPERIORITY|||||||0.428|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 1 hour post-dose||||0.428
82565856|NCT03740919|164841203|SUPERIORITY|||||||0.057|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 1 hour post-dose||||0.057
82627833|NCT02580591|164970893|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.5|0.9|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.9|-1.5|
82565857|NCT03740919|164841203|SUPERIORITY|||||||0.056|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model||≤70 mg/dL 2 hour post-dose||||0.056
82565858|NCT03740919|164841203|SUPERIORITY|||||||0.435|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 2 hour post-dose||||0.435
82565859|NCT03740919|164841203|SUPERIORITY|||||||0.404|||||||Negative binomial regression|Treatment and age group as covariates, log (exposure/365.25 days) as the offset in the model.||≤70 mg/dL 2 hour post-dose||||0.404
82565860|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|1.04||||0.864|TWO_SIDED|95.0|0.68|1.57|||Regression, Logistic|||\<54 mg/dL||1.57|0.68|0.864
82565861|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|0.69||||0.132|TWO_SIDED|95.0|0.43|1.12|||Regression, Logistic|||\<54 mg/dL||1.12|0.43|0.132
82565862|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|0.67||||0.104|TWO_SIDED|95.0|0.41|1.09|||Regression, Logistic|||||1.09|0.41|0.104
82565863|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|0.8||||0.489|TWO_SIDED|95.0|0.42|1.52|||Regression, Logistic|||≤70 mg/dL||1.52|0.42|0.489
82565864|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|0.45||||0.025|TWO_SIDED|95.0|0.23|0.9|||Regression, Logistic|||≤70 mg/dL||0.90|0.23|0.025
82565865|NCT03740919|164841204|SUPERIORITY||Odds Ratio (OR)|0.57||||0.099|TWO_SIDED|95.0|0.29|1.11|||Regression, Logistic|||≤70 mg/dL||1.11|0.29|0.099
82565866|NCT03740919|164841205|SUPERIORITY|||||||0.732|||||||Negative binomial regression|||\< 54 mg/dL||||0.732
82565867|NCT03740919|164841205|SUPERIORITY|||||||0.638|||||||Negative binomial regression|||\< 54 mg/dL||||0.638
82378381|NCT03656744|164465202|SUPERIORITY|||||||0.884|||||||Regression, Logistic|||||||0.884
82378382|NCT03656744|164465202|SUPERIORITY|||||||0.236|||||||Regression, Logistic|||||||0.236
82378383|NCT03656744|164465203|SUPERIORITY|||||||0.196|||||||ANCOVA|||||||0.196
82378384|NCT03656744|164465203|SUPERIORITY|||||||0.016|||||||ANCOVA|||||||0.016
82565868|NCT03740919|164841205|SUPERIORITY|||||||0.462|||||||Negative binomial regression|||\<54 mg/dL||||0.462
82565869|NCT03740919|164841205|SUPERIORITY|||||||0.632|||||||Negative binomial regression|||≤ 70 mg/dL||||0.632
82565870|NCT03740919|164841205|SUPERIORITY|||||||0.8|||||||Negative binomial regression|||≤ 70 mg/dL||||0.800
82565871|NCT03740919|164841205|SUPERIORITY|||||||0.889|||||||Negative binomial regression|||≤ 70 mg/dL||||0.889
82565872|NCT03740919|164841207|SUPERIORITY||LS Mean Difference|0.6||||0.13|TWO_SIDED|95.0|-0.2|1.4|||Mixed Models Analysis|||Total Daily Basal Insulin||1.4|-0.2|0.130
82565873|NCT03740919|164841207|SUPERIORITY||LS Mean Difference|0.4||||0.404|TWO_SIDED|95.0|-0.5|1.4|||Mixed Models Analysis|||Total Daily Basal Insulin||1.4|-0.5|0.404
82565874|NCT03740919|164841207|SUPERIORITY||LS Mean Difference|-0.2||||0.693|TWO_SIDED|95.0|-1.2|0.8|||Mixed Models Analysis|||Total Daily Basal Insulin||0.8|-1.2|0.693
82565875|NCT03740919|164841207|SUPERIORITY||LS Mean Difference|0.5||||0.625|TWO_SIDED|95.0|-1.4|2.3|||Mixed Models Analysis|||Total Daily Insulin Dose||2.3|-1.4|0.625
82565876|NCT03740919|164841207|SUPERIORITY||LS Mean Difference|-0.4||||0.758|TWO_SIDED|95.0|-2.6|1.9|||Mixed Models Analysis|||Total Daily Insulin Dose||1.9|-2.6|0.758
82565877|NCT03740919|164841207|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.485|TWO_SIDED|95.0|-3.1|1.5|||Mixed Models Analysis|||Total Daily Insulin Dose||1.5|-3.1|0.485
82565878|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|1.23||||0.396|TWO_SIDED|95.0|0.76|2.0|||Regression, Logistic|||HbA1c \< 7%||2.00|0.76|0.396
82565879|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|0.93||||0.814|TWO_SIDED|95.0|0.49|1.75|||Regression, Logistic|||HbA1c \< 7%||1.75|0.49|0.814
82565880|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|0.75||||0.384|TWO_SIDED|95.0|0.39|1.43|||Regression, Logistic|||HbA1c \< 7%||1.43|0.39|0.384
82565881|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|0.84||||0.4|TWO_SIDED|95.0|0.55|1.27|||Regression, Logistic|||HbA1c \< 7.5%||1.27|0.55|0.400
82565882|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|0.62||||0.094|TWO_SIDED|95.0|0.36|1.08|||Regression, Logistic|||HbA1c \< 7.5%||1.08|0.36|0.094
82565883|NCT03740919|164841208|SUPERIORITY||Odds Ratio (OR)|0.75||||0.306|TWO_SIDED|95.0|0.43|1.31|||Regression, Logistic|||HbA1c \< 7.5%||1.31|0.43|0.306
82565884|NCT00985621|164841213|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.49|-0.44|||ANCOVA|||Analysis was performed using analysis of co-variance (ANCOVA) model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.44|-1.49|<0.001
82565885|NCT00985621|164841213|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.43|||ANCOVA|||Analysis was performed using analysis of co-variance (ANCOVA) model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.43|-1.50|<0.001
82565886|NCT00985621|164841214|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.49|-0.45|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.45|-1.49|<0.001
82565887|NCT00985621|164841214|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.27||0.018|TWO_SIDED|95.0|-1.16|-0.11|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.11|-1.16|0.018
82565888|NCT00985621|164841214|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.7|TWO_SIDED|95.0|-0.43|0.65|||ANCOVA|||Analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.65|-0.43|0.700
82506962|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|-7.9|STANDARD_ERROR_OF_MEAN|14.64||0.5885|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5885
82506963|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.0059|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0059
82627834|NCT02580591|164970893|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.0047|TWO_SIDED|99.75|-3.6|0.1|||Mixed effect Model Repeat Measurement||Mean Difference= Empagliflozin 2.5 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, ß, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.1|-3.6|0.0047
82378385|NCT03656744|164465204|SUPERIORITY|||||||0.294|||||||Cochran-Mantel-Haenszel|||||||0.294
82378386|NCT03656744|164465205|SUPERIORITY|||||||0.287|||||||Regression, Logistic|||||||0.287
82378387|NCT03656744|164465205|SUPERIORITY|||||||0.09|||||||Regression, Logistic|||||||0.090
82506964|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.3467|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3467
82506965|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.0654|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0654
82506966|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.3965|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.3965
82506967|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|-1.3|STANDARD_ERROR_OF_MEAN|7.11||0.8548|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8548
82506968|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|-25.1|STANDARD_ERROR_OF_MEAN|21.35||0.2405|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2405
82506969|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.0056|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0056
82506970|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.8105|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8105
82506971|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.047|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0470
82506972|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.6067|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6067
82506973|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|-6.0|STANDARD_ERROR_OF_MEAN|7.56||0.4309|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4309
82378388|NCT03656744|164465206|SUPERIORITY|||||||0.201|||||||ANCOVA|||||||0.201
82565889|NCT00985621|164841215|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.177|TWO_SIDED|95.0|-0.78|0.14|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.14|-0.78|0.177
82378389|NCT03656744|164465206|SUPERIORITY|||||||0.534|||||||ANCOVA|||||||0.534
82378390|NCT03656744|164465207|SUPERIORITY|||||||0.955|||||||ANCOVA|||||||0.955
82565890|NCT00985621|164841215|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.24||0.416|TWO_SIDED|95.0|-0.66|0.28|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.28|-0.66|0.416
82565891|NCT00985621|164841215|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.5|-0.46|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.46|-1.50|<0.001
82565892|NCT00985621|164841215|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.48|-0.43|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.43|-1.48|<0.001
82565893|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.23||0.319|TWO_SIDED|95.0|-0.69|0.22|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.22|-0.69|0.319
82565894|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.23||0.916|TWO_SIDED|95.0|-0.43|0.48|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.48|-0.43|0.916
82565895|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.24||0.526|TWO_SIDED|95.0|-0.63|0.32|||ANCOVA|||Change at Week 2: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.32|-0.63|0.526
82565896|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.26||0.004|TWO_SIDED|95.0|-1.26|-0.24|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||-0.24|-1.26|0.004
82565897|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.26||0.134|TWO_SIDED|95.0|-0.9|0.12|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.12|-0.90|0.134
82565898|NCT00985621|164841216|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.27||0.497|TWO_SIDED|95.0|-0.71|0.35|||ANCOVA|||Change at Week 4: analysis was performed using ANCOVA model with treatment as main effect, baseline value, index joint, previous opioid use as covariates, and study site as a random effect.||0.35|-0.71|0.497
82565899|NCT00603278|164841305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|||<|0.001|TWO_SIDED|95.0|0.096|0.318|||ANCOVA|||||0.318|0.096|<0.001
82565900|NCT00603278|164841305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|||<|0.001|TWO_SIDED|95.0|0.127|0.349|||ANCOVA|||||0.349|0.127|<0.001
82565901|NCT00603278|164841305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|||<|0.001|TWO_SIDED|95.0|0.182|0.404|||ANCOVA|||||0.404|0.182|<0.001
82565902|NCT00603278|164841305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.279|||<|0.001|TWO_SIDED|95.0|0.167|0.392|||ANCOVA|||||0.392|0.167|<0.001
82565903|NCT00603278|164841305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|||<|0.001|TWO_SIDED|95.0|0.114|0.337|||ANCOVA|||||0.337|0.114|<0.001
82565904|NCT00924833|164841344|SUPERIORITY_OR_OTHER|||||||0.01||||||"Within subjects effects. Time: P \< 0.01. Time \* treatment: P=0.25~Bonferroni correction. Within the placebo, carvedilol and nebivolol group, p \< 0.01 for Time 3 - Time 1, and Time 3 - Time 2."|ANOVA|||"Differences among groups, changes over time and interactions: two-way repeated measures ANOVA with unpaired Student's t-test, Bonferroni correction.~No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects."||||0.01
82565905|NCT00924833|164841345|SUPERIORITY_OR_OTHER||||||<|0.05||||||P \< 0.05. Bonferroni correction: p \< 0.05 nebivolol versus carvedilol|ANOVA|||No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects.||||<0.05
82565906|NCT00924833|164841346|SUPERIORITY_OR_OTHER|||||||0.93||||||Within subjects effects. Time: p = 0.03. Time \* treatment: p = 0.12.|ANOVA|||"Differences among groups, changes over time and interactions: two-way repeated measures ANOVA with unpaired Student's t-test, Bonferroni correction.~No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects."||||0.93
82565907|NCT00924833|164841349|SUPERIORITY_OR_OTHER||||||<|0.05||||||ANOVA with unpaired Student's t-test, Bonferroni correction. Bonferroni correction. p = 0.05.|ANOVA|||No previous studies have compared carvedilol, nebivolol, and placebo with respecto to exercise performance in hypobaric hypoxia. The sample size set for each treatment arm was defined on the basis of the sample size of previous investigations showing significant changes in exercise performance in normal subjects.||||<0.05
82506974|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|0.5|STANDARD_ERROR_OF_MEAN|16.09||0.9761|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9761
82506975|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.6261|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.6261
82506976|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.086|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0860
82506977|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.2884|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2884
82506978|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.8854|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8854
82506979|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|16.9|STANDARD_ERROR_OF_MEAN|10.88||0.1226|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1226
82506980|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|26.07||0.7249|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7249
82506981|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.5129|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5129
82506982|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.1138|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1138
82506983|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.1086|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1086
82506984|NCT01480076|164704585|SUPERIORITY_OR_OTHER|||||||0.5746|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.5746
82506985|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|10.8|STANDARD_ERROR_OF_MEAN|8.07||0.1831|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1831
82627835|NCT02580591|164970893|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.0202|TWO_SIDED|99.75|-3.3|0.4|||Mixed effect Model Repeat Measurement|||For DBP, the model includes baseline DBP seated, baseline Estimated glomerular filtration rate (eGFR), baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, ß, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.4|-3.3|0.0202
82627836|NCT01599806|164970902|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Difference of symp resolution rates|4.0|||||TWO_SIDED|95.0|-2.39|10.42|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of symptomatic resolution rates ≤ non-inferiority margin||10.42|-2.39|
82506986|NCT01480076|164704585|SUPERIORITY_OR_OTHER||difference of LS means|2.1|STANDARD_ERROR_OF_MEAN|15.54||0.8917|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the % overall work impairment due to MS, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.8917
82627837|NCT01599806|164970903|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable combined resp rates|6.7|||||TWO_SIDED|95.0|0.3|13.12|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable combined response rates ≤ non-inferiority margin||13.12|0.30|
82378391|NCT03656744|164465207|SUPERIORITY|||||||0.072|||||||ANCOVA|||||||0.072
82378392|NCT03656744|164465208|SUPERIORITY|||||||0.041|||||||ANCOVA|||||||0.041
82378393|NCT03656744|164465208|SUPERIORITY|||||||0.12|||||||ANCOVA|||||||0.120
82506987|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506988|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.1152|||||||mixed effect model|||Overall, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1152
82506989|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506990|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.4578|||||||mixed effect model|||Overall, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.4578
82565908|NCT02577315|164841353|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|100.1|||||TWO_SIDED|90.0|97.466|102.804|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||102.804|97.466|
82565909|NCT02577315|164841354|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|95.51|||||TWO_SIDED|90.0|89.29|102.16|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||102.16|89.29|
82565910|NCT02577315|164841355|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|102.71|||||TWO_SIDED|90.0|97.309|108.413|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||108.413|97.309|
82378394|NCT03656744|164465209|SUPERIORITY|||||||0.955|||||||ANCOVA|||||||0.955
82565911|NCT02577315|164841356|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|101.07|||||TWO_SIDED|90.0|95.565|106.902|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||106.902|95.565|
82565912|NCT02577315|164841357|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|100.3|||||TWO_SIDED|90.0|97.532|103.149|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Empagliflozin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||103.149|97.532|
82565913|NCT02577315|164841358|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of geometric means|93.55|||||TWO_SIDED|90.0|82.86|105.61|||ANOVA|Analysis of variance (ANOVA) on log scale was used with subjects within sequences as random, whereas sequence, period and treatment as fixed effects.|Relative bioavailability of Metformin was estimated by the ratios of the adjusted geometric means (gMean).|Empagliflozin / Metformin (FDC) vs. Empagliflozin + Metformin free combination||105.61|82.86|
82378395|NCT03656744|164465209|SUPERIORITY|||||||0.072|||||||ANCOVA|||||||0.072
82627838|NCT01599806|164970904|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable response rates|6.4|||||TWO_SIDED|95.0|0.33|12.36|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates ≤ non-inferiority margin||12.36|0.33|
82627839|NCT01599806|164970905|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.4|||||TWO_SIDED|95.0|-2.7|3.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||3.56|-2.70|
82627840|NCT01599806|164970906|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.68|13.81|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.81|0.68|
82627841|NCT01599806|164970907|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.21|1.72|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.72|-1.21|
82627842|NCT01599806|164970908|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.8|||||TWO_SIDED|95.0|2.27|15.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||15.24|2.27|
82627843|NCT01599806|164970909|SUPERIORITY_OR_OTHER||Diff of favorable response rates|10.9|||||TWO_SIDED|95.0|2.86|18.85|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||18.85|2.86|
82627844|NCT01599806|164970910|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.17|1.68|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.68|-1.17|
82627845|NCT01599806|164970911|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.88|13.74|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.74|0.88|
82627846|NCT01599806|164970912|SUPERIORITY_OR_OTHER||Diff of favorable response rates|9.7|||||TWO_SIDED|95.0|1.72|17.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||17.55|1.72|
82378396|NCT03656744|164465210|SUPERIORITY|||||||0.488|||||||ANCOVA|||||||0.488
82378397|NCT03656744|164465210|SUPERIORITY|||||||0.022|||||||ANCOVA|||||||0.022
82378398|NCT03656744|164465211|SUPERIORITY|||||||0.674|||||||ANCOVA|||||||0.674
82378399|NCT03656744|164465211|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.030
82378400|NCT03656744|164465212|SUPERIORITY|||||||0.588|||||||Regression, Logistic|||||||0.588
82506991|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-6.4|STANDARD_ERROR_OF_MEAN|2.56||0.0125|TWO_SIDED||||||mixed effect model|||Overall, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0125
82506992|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-10.2|STANDARD_ERROR_OF_MEAN|4.23||0.0158|TWO_SIDED||||||mixed effect model|||Overall, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0158
82506993|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82627847|NCT01599806|164970913|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.4|||||TWO_SIDED|95.0|-4.07|1.02|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.02|-4.07|
82627848|NCT01599806|164970914|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-4.23|4.03|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.03|-4.23|
82627849|NCT01599806|164970915|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.3|||||TWO_SIDED|95.0|-3.71|6.3|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.30|-3.71|
82627850|NCT01599806|164970916|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.3|||||TWO_SIDED|95.0|-3.64|0.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.55|-3.64|
82627851|NCT01599806|164970917|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.2|||||TWO_SIDED|95.0|-2.03|4.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.56|-2.03|
82627852|NCT01599806|164970918|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.2|||||TWO_SIDED|95.0|-2.9|7.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.24|-2.90|
82627853|NCT01599806|164970919|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.9|||||TWO_SIDED|95.0|-4.3|0.04|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.04|-4.30|
82627854|NCT01599806|164970920|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.1|||||TWO_SIDED|95.0|-2.07|4.32|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.32|-2.07|
82627855|NCT01599806|164970921|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.0|||||TWO_SIDED|95.0|-2.94|6.91|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.91|-2.94|
82627856|NCT01599806|164970922|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-1.99|1.61|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.61|-1.99|
82627857|NCT01599806|164970923|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|3.7|||||TWO_SIDED|95.0|0.41|7.16|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.16|0.41|
82627858|NCT01599806|164970924|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|4.0|||||TWO_SIDED|95.0|-1.0|9.05|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||9.05|-1.00|
82627859|NCT01599806|164970925|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|0.0|||||TWO_SIDED|95.0|-10.4|10.1|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.1|-10.4|
82627860|NCT01599806|164970926|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.4|||||TWO_SIDED|95.0|-7.8|10.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.2|-7.8|
82627861|NCT01599806|164970927|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.2|||||TWO_SIDED|95.0|-7.5|9.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||9.2|-7.5|
82627862|NCT01599806|164970928|SUPERIORITY_OR_OTHER||Diff of favorable response rates|2.0|||||TWO_SIDED|95.0|-13.18|16.89|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||16.89|-13.18|
82627863|NCT01599806|164970929|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.0|||||TWO_SIDED|95.0|-10.03|25.21|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||25.21|-10.03|
82627864|NCT01599806|164970930|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.5|||||TWO_SIDED|95.0|-9.91|24.01|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||24.01|-9.91|
82627865|NCT01599806|164970931|SUPERIORITY_OR_OTHER|||||||0.038|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.038
82627866|NCT01599806|164970932|SUPERIORITY_OR_OTHER|||||||0.129|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.129
82627867|NCT01599806|164970933|SUPERIORITY_OR_OTHER|||||||0.08|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.080
82627868|NCT01599806|164970934|SUPERIORITY_OR_OTHER|||||||0.155|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.155
82627869|NCT03689972|164971004|SUPERIORITY||Ratio of Mean|4.24|||=|0.0755|TWO_SIDED|95.0|0.86|20.85|||Negative Binomial Regression|The model included treatment as classification variable \& baseline body weight, duration of natalizumab exposure at baseline, \& region as covariates.||||20.85|0.86|=0.0755
82627870|NCT03689972|164971005|SUPERIORITY||Percentage|87.8|||||TWO_SIDED|95.0|80.68|93.01|||Exact Binomial method|Percentage of participants preferring natalizumab SC at end of crossover period of Part 2, and 95% CI was calculated using the exact binomial method.||||93.01|80.68|
82627871|NCT03689972|164971007|SUPERIORITY||Ratio of annualized relapse rate|1.32481|||=|0.6312|TWO_SIDED|95.0|0.42016|4.17725|||Poisson Regression|Poisson regression model was adjusted for baseline body weight, duration of natalizumab exposure at baseline, and region.||||4.17725|0.42016|=0.6312
82627872|NCT03689972|164971013|SUPERIORITY||Difference|0.47|||=|0.764|TWO_SIDED|95.0|-2.61|3.54||Performed with factors:route of administration,period,sequence,body weight,duration of natalizumab exposure,stratification factor,baseline TSQM score.|Linear Mixed Effects Model|||||3.54|-2.61|=0.764
82627873|NCT03689972|164971020|SUPERIORITY||Difference|0.08|||=|0.357|TWO_SIDED|95.0|-0.09|0.25||Performed with factors:route of administration,period,sequence,body weight,duration of natalizumab exposure,stratification factor,baseline TSQM score.|Linear Mixed Effects Model|||||0.25|-0.09|=0.357
82627874|NCT02417064|164971027|SUPERIORITY||Difference of Least Square (LS) Means|-3.2||||0.088|TWO_SIDED|95.0|-6.88|0.45|||Mixed Model for Repeated Measures|||||0.45|-6.88|0.088
82627875|NCT02417064|164971027|SUPERIORITY||Difference of Least Square (LS) Means|-4.1|||||TWO_SIDED|95.0|-7.67|-0.49||||||||-0.49|-7.67|
82627876|NCT02417064|164971028|SUPERIORITY||Difference of Least Square (LS) Means|-2.0|||=|0.25|TWO_SIDED|95.0|-5.52|1.42|||ANCOVA|||||1.42|-5.52|= 0.250
82627877|NCT02417064|164971028|SUPERIORITY||Difference of Least Square (LS) Means|-4.1|||||TWO_SIDED|95.0|-7.53|-0.6||||||||-0.6|-7.53|
82627878|NCT04882072|164971043|SUPERIORITY||Hazard Ratio (HR)|1.86|||||TWO_SIDED|95.0|0.41|8.47||||||||8.47|0.41|
82627879|NCT01095666|164971097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.0869|<|0.0001|TWO_SIDED|95.0|-0.76|-0.42||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment.|ANCOVA|||||-0.42|-0.76|<0.0001
82627880|NCT01095666|164971097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.0865|<|0.0001|TWO_SIDED|95.0|-0.79|-0.45||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment.|ANCOVA|||||-0.45|-0.79|<0.0001
82627881|NCT01095666|164971098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|3.299|<|0.0001|TWO_SIDED|95.0|-28.6|-15.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-15.6|-28.6|<0.0001
82565914|NCT00417989|164841359|NON_INFERIORITY_OR_EQUIVALENCE|Superiority test with margin of 0.35|Mean Difference (Final Values)|0.35|STANDARD_DEVIATION|1.2||0.05|TWO_SIDED|95.0|0.24|0.46||Confidence Interval 95%|ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline glycated hemoglobin level (A1C)||Null - There is no treatment group difference in A1c change from baseline to Week 52. Calculated that the enrollment of 495 patients would provide a power of 90% to detect an absolute difference of 0.35 percentage points in the primary outcome, assuming a SD of 1.2%.||0.46|0.24|0.05
82565915|NCT00417989|164841361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_DEVIATION|2.0||0.84|TWO_SIDED|95.0|0.64|2.41|||Mantel Haenszel|||||2.41|0.64|0.84
82565916|NCT00417989|164841362|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation based on this endpoint. Results will be calculated on testing for statistical difference between arms.||||||0.05||95.0|||||ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline AUC||||||0.05
82565917|NCT00417989|164841363|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation based on this endpoint. Results will be calculated on testing for statistical difference between arms.||||||0.05||95.0|||||ANCOVA|ANVOCA is adjusted by study group, gender, pooled site, continuous age, duration of diabetes, BMI, and Baseline AUC||||||0.05
82565918|NCT00417989|164841364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_DEVIATION|16.0|<|0.001||95.0|-9.76|-3.273|||ANCOVA|||||-3.273|-9.760|< 0.001
82565919|NCT00417989|164841366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|7.75|||||||||Mean difference|||||||
82565920|NCT00417989|164841367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|STANDARD_DEVIATION|25.53|||TWO_SIDED||||||Mean Difference|||||||
82565921|NCT01245699|164841369|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82565922|NCT01245699|164841370|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82565923|NCT01245699|164841371|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
82565924|NCT01245699|164841372|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
82565925|NCT01636778|164841375|SUPERIORITY_OR_OTHER||Percentage|88.0|||||TWO_SIDED|95.0|74.0|96.0||||||||96|74|
82378401|NCT03656744|164465212|SUPERIORITY|||||||0.103|||||||Regression, Logistic|||||||0.103
82378402|NCT03656744|164465213|SUPERIORITY|||||||0.236|||||||ANCOVA|||||||0.236
82565926|NCT03530345|164841438|SUPERIORITY||Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|0.404||0.0111|TWO_SIDED|95.0|-1.89|-0.26||2-sided p-value for testing superiority of neridronic acid 400 mg compared to placebo.|Mixed Models Analysis|The degrees of freedom of the denominator are estimated using the Kenward-Roger approximation.|The primary endpoint estimate was the least squares mean differences of change from baseline in pain NRS (electronic diary) at Week 12 between neridronate and Placebo.|Mixed-effects model for repeated measures (MMRM) defined with baseline pain intensity as covariate, the factors geographic region, week, treatment and treatment-by-week as fixed effects, and an unstructured covariance matrix to model the covariance structure of the repeated measurements.||-0.26|-1.89|0.0111
82565927|NCT04150250|164841445|SUPERIORITY||Difference in Median|-7.1||||0.2254|TWO_SIDED|95.0|-30.9|28.6||The threshold to define success on the primary efficacy endpoint at the final analysis is one-sided alpha = 0.0238.|Van Elteren test|Stratified by blood type group (O vs. Non-O)||||28.6|-30.9|0.2254
82565928|NCT04150250|164841446|SUPERIORITY||Difference in Median|-3.8||||0.2751|TWO_SIDED|95.0|-26.3|27.4|||Van Elteren test|Stratified by blood type group||||27.4|-26.3|0.2751
82565929|NCT04150250|164841448|SUPERIORITY||Difference|-11.3||||0.5145|TWO_SIDED|95.0|-44.1|21.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||21.6|-44.1|0.5145
82565930|NCT04150250|164841449|SUPERIORITY||Difference|-6.3||||0.2636|TWO_SIDED|95.0|-18.1|5.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||5.6|-18.1|0.2636
82565931|NCT04150250|164841450|SUPERIORITY||Difference in Median|1.1||||0.5992|TWO_SIDED|95.0|-4.5|7.8|||Van Elteren test|Stratified by blood type group||||7.8|-4.5|0.5992
82565932|NCT04150250|164841452|SUPERIORITY|||||||0.6527|||||||Log Rank|Stratified by blood type group||||||0.6527
82565933|NCT04150250|164841453|SUPERIORITY||Difference in Median|1.5||||0.5377|TWO_SIDED|95.0|-7.0|5.5|||Van Elteren test|Stratified by blood type group||||5.5|-7.0|0.5377
82565934|NCT04150250|164841454|SUPERIORITY||Difference|1.3||||0.8705|TWO_SIDED|95.0|-14.0|16.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group.||||16.5|-14.0|0.8705
82565935|NCT04150250|164841455|SUPERIORITY||Difference|-18.8||||0.1404|TWO_SIDED|95.0|-41.1|3.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, stratified by blood type group||||3.6|-41.1|0.1404
82565936|NCT01436045|164841458|SUPERIORITY_OR_OTHER||Percent Change|-15.7|STANDARD_ERROR_OF_MEAN|7.0|<|0.05|TWO_SIDED|||||RBANS Line Orientation|t-test, 2 sided||Response to intranasal Insulin Glulisine \[(result post-insulin - result post-placebo)/(result post-placebo)\] x 100%|Response to intranasal Insulin Gluiline \[(result post-insulin - result post-placebo)/(result post-placebo)\] x 100%||||<0.05
82565937|NCT01436045|164841461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.26|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Difference in errors \[result post-insulin - result post-placebo\]||||<0.05
82565938|NCT01184755|164841462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.561256|STANDARD_ERROR_OF_MEAN|0.216403||0.01|TWO_SIDED|95.0|-0.987999|-0.134513||This is an intention-to-treat analysis|Mixed effects regression analysis|||This is the change in Systolic BP at 8 weeks||-.134513|-.987999|.01
82565939|NCT01184755|164841462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.391195|STANDARD_ERROR_OF_MEAN|0.140034||0.006|TWO_SIDED|95.0|-0.667312|-0.115079|||mixed effects regression analysis|||This is the analysis of change in diastolic BP from Ambulatory BP monitoring.||-.115079|-.667312|.006
82565940|NCT00925288|164841510|NON_INFERIORITY_OR_EQUIVALENCE|Since the standard schedule is at (0, 2, 6 months), and the modified schedule at (0, 3, 6 months), we will consider this a non-inferiority study. With 80% power, type 1 error of 0.05, standard deviations of 0.6, and an equivalence margin of 0.3, 64 women are needed per group to detect non-inferiority. Having 100 women in each study arm will yield over 94% power to detect non-inferiority of the modified schedule.|||||>|0.2||95.0|||||Regression, Logistic|||The null hypothesis is that both schedules will provide an equivalent antibody response.||||>0.20
82565941|NCT00925288|164841511|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Chi-squared|||Completion rates compared in the 2 study arms||||0.60
82565942|NCT00925288|164841512|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Chi-squared|||comparison of differences in HPV DNA prevalence by study arm.||||0.53
82627882|NCT01095666|164971098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.1|STANDARD_ERROR_OF_MEAN|3.271|<|0.0001|TWO_SIDED|95.0|-33.5|-20.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-20.7|-33.5|<0.0001
82378403|NCT03656744|164465213|SUPERIORITY|||||||0.944|||||||ANCOVA|||||||0.944
82565943|NCT02081196|164841515|OTHER||Mean Difference (Net)|4.13|STANDARD_DEVIATION|2.45|||TWO_SIDED|95.0|3.08|4.77|||||Treatment Effect =Control Flank Change-Treated Flank Change such (a positive results indicates treated area had a larger reduction in fat thickness than control area, and a negative result indicates that a greater reduction was seen in control area).|H0: μ(Control - Treated) \< +1 versus H1: μ(Control - Treated) \> +1||4.77|3.08|
82565944|NCT02081196|164841516|OTHER||sucess proportion|0.8476|||||TWO_SIDED|95.0|0.784|0.913|||||||Descriptive statistics (tabulation of Independent Panel Reviewer ratings) were used to analyze data.|.913|.784|
82565945|NCT00635570|164841551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Chi-squared, Corrected|Yates's chi-squared test with 1 degree of freedom was used for analysis||The trial sample size of 300 participants total (150 participants each group) was based on two-sided 5% significance testing with 80% power to detect a difference of 10% in adherence between students in the contraceptive vaginal ring group and oral contraceptive pill group.||||0.05
82565946|NCT00635570|164841552|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|0.0|||||Chi-squared, Corrected|||||||>0.05
82565947|NCT00635570|164841553|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82565948|NCT00635570|164841554|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82565949|NCT02552810|164841561|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculation, 30 (effect size: 0.5, alpha error: 0.05, power: 0.80).|||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82565950|NCT04050722|164841603|SUPERIORITY||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.08|-0.04||Analysis was performed using ANCOVA model with study product group, gender, and baseline MGI stratification (low/high) as factors and the baseline value as covariate.|ANCOVA|||||-0.04|-0.08|<0.0001
82565951|NCT00377312|164841630|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTH 2 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82627883|NCT01095666|164971099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.3|STANDARD_ERROR_OF_MEAN|5.8758|<|0.0001|TWO_SIDED|95.0|-53.84|-30.73||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-30.73|-53.84|<0.0001
82565952|NCT00377312|164841631|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTH 2 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82565953|NCT00377312|164841632|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82378404|NCT03656744|164465214|SUPERIORITY|||||||0.267|||||||ANCOVA|||||||0.267
82378405|NCT03656744|164465214|SUPERIORITY|||||||0.911|||||||ANCOVA|||||||0.911
82378406|NCT03656744|164465215|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.387
82565954|NCT00377312|164841633|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.01
82565955|NCT00377312|164841634|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.05|TWO_SIDED|||||the reported p-values correspond to the decrease compared to baseline in all arms/groups at Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.05
82565956|NCT00377312|164841635|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.002|TWO_SIDED|||||the reported p-value corresponds to the increase compared to baseline over time (days 2-8) in the PTH 2 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.002
82565957|NCT00377312|164841637|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.61|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTH 2 and PTH 4 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.61
82565958|NCT00377312|164841638|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.008|TWO_SIDED|||||The reported p-value corresponds to the % increase compared to baseline in all Arms/groups on Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.008
82627884|NCT01095666|164971099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.1|STANDARD_ERROR_OF_MEAN|5.7921|<|0.0001|TWO_SIDED|95.0|-60.53|-37.74||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-37.74|-60.53|<0.0001
82506994|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.2894|||||||mixed effect model|||Month 3, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2894
82627885|NCT01095666|164971100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.2765|<|0.0001|TWO_SIDED|95.0|-1.65|-0.56||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-0.56|-1.65|<0.0001
82627886|NCT01095666|164971100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|0.2747|<|0.0001|TWO_SIDED|95.0|-2.36|-1.28||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||-1.28|-2.36|<0.0001
82627887|NCT01095666|164971101|SUPERIORITY_OR_OTHER||Difference in percentage|15.4|STANDARD_ERROR_OF_MEAN|4.702||0.001|TWO_SIDED|95.0|6.2|24.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|Modified logistic regression|Modified logistic regression model, adjusted for baseline HbA1c||||24.7|6.2|0.0010
82627888|NCT01095666|164971101|SUPERIORITY_OR_OTHER||Difference in percentage|15.5|STANDARD_ERROR_OF_MEAN|4.594||0.0007|TWO_SIDED|95.0|6.5|24.5||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05.|Modified logistic regression|Modified logistic regression model, adjusted for baseline HbA1c||||24.5|6.5|0.0007
82627889|NCT01451398|164971113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.57|-0.23|||Mixed Models Analysis|Change in HbA1c = Baseline HbA1c + Region + Pooled OAD Strata + Visit + Treatment + (Treatment\*Visit), using AR(1) variance/covariance structure.||||-0.23|-0.57|<0.0001
82627890|NCT01451398|164971114|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.726||||0.0005|TWO_SIDED|95.0|1.55|4.8|||Regression, Logistic|Model: Treatment + Pooled OAD Stratum + Region + Baseline HbA1c||||4.80|1.55|0.0005
82627891|NCT01451398|164971115|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.361||||0.0021|TWO_SIDED|95.0|1.7|11.17|||Regression, Logistic|Model: Treatment + Pooled OAD Stratum + Region + Baseline HbA1c||||11.17|1.70|0.0021
82506995|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82506996|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.723|||||||mixed effect model|||Month 3, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7230
82506997|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-9.3|STANDARD_ERROR_OF_MEAN|3.2||0.0038|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0038
82506998|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-13.9|STANDARD_ERROR_OF_MEAN|5.37||0.0097|TWO_SIDED||||||mixed effect model|||Month 3, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0097
82627892|NCT01451398|164971116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.42|STANDARD_ERROR_OF_MEAN|5.4||0.1698|TWO_SIDED|95.0|-18.03|3.18|||Mixed Models Analysis|"Model: FPG = Baseline FPG + Region + Pooled OAD Stratum + Visit + Treatment + (Treatment \* Visit)~Variance/Covariance Matrix is Autoregression 1"||||3.18|-18.03|0.1698
82627893|NCT01451398|164971119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.018|||TWO_SIDED|95.0|-0.12|-0.05|||Mixed Models Analysis|FEV1 = Baseline FEV1 + Age + Gender + Race + Height + Visit + Treatment + (Treatment\*Visit)||||-0.05|-0.12|
82627894|NCT01451398|164971122|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Negative binomial regression|Model: Treatment + Region + OAD Stratum + Exposure Time||||||<0.0001
82378407|NCT03656744|164465215|SUPERIORITY|||||||0.855|||||||ANCOVA|||||||0.855
82506999|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82507000|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.0628|||||||mixed effect model|||Month 6, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0628
82627895|NCT01451398|164971123|SUPERIORITY_OR_OTHER|||||||0.2024|||||||Negative Binomial Regression|Model: Treatment + Region + OAD Stratum + Exposure Time||||||0.2024
82627896|NCT01451398|164971126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|0.365|<|0.0001|TWO_SIDED|95.0|0.9|2.34|||ANCOVA||Model: Baseline Weight + Change in HbA1c at Week 24 + Region + OAD Stratum + Treatment|||2.34|0.90|<0.0001
82627897|NCT03920865|164971157|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.802|||||TWO_SIDED|90.0|0.627|1.03||||||||1.03|0.627|
82627898|NCT03920865|164971157|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.842|||||TWO_SIDED|90.0|0.588|1.21||||||||1.21|0.588|
82507001|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82378408|NCT03656744|164465216|SUPERIORITY|||||||0.107|||||||ANCOVA|||||||0.107
82378409|NCT03656744|164465216|SUPERIORITY|||||||0.489|||||||ANCOVA|||||||0.489
82627899|NCT03920865|164971159|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.95|||||TWO_SIDED|90.0|0.695|1.3||||||||1.30|0.695|
82627900|NCT03920865|164971159|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.953|||||TWO_SIDED|90.0|0.715|1.27||||||||1.27|0.715|
82627901|NCT03920865|164971160|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|0.83|1.39||||||||1.39|0.830|
82627902|NCT03920865|164971160|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.947|||||TWO_SIDED|90.0|0.74|1.21||||||||1.21|0.740|
82627903|NCT03920865|164971162|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|1.2|||||TWO_SIDED|90.0|0.962|1.49||||||||1.49|0.962|
82627904|NCT03920865|164971162|OTHER|Descriptive statistics.|Ratio of Geometric Least Squares Means|0.991|||||TWO_SIDED|90.0|0.81|1.21||||||||1.21|0.810|
82627905|NCT02573233|164971185|SUPERIORITY|||||||0.84||||||Threshold for significance at 0.05 level|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.8400
82627906|NCT02573233|164971186|SUPERIORITY||LS Mean Difference|-235.02||||0.0336|TWO_SIDED|90.0|-414.19|-55.84||Threshold for significance at 0.05 level|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||-55.84|-414.19|0.0336
82627907|NCT02573233|164971187|SUPERIORITY||LS mean difference|13.89||||0.4795|TWO_SIDED|90.0|-19.0|46.78||Threshold for significance at 0.05 level.|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||46.78|-19.00|0.4795
82627908|NCT02573233|164971188|SUPERIORITY||LS mean difference|-18.98||||0.4494|TWO_SIDED|90.0|-60.92|22.97||Threshold for significance at 0.05 level.|Linear fixed-effect model|||Analysis was performed using a linear fixed-effect model with treatment, region and ICS dose level as fixed effects, and the baseline value as continuous covariate.||22.97|-60.92|0.4494
82627909|NCT02573233|164971189|SUPERIORITY|||||||0.6865||||||Threshold for significance at 0.05 level.|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.6865
82627910|NCT02573233|164971190|SUPERIORITY|||||||0.7588||||||Threshold for significance at 0.05 level|Rank ANCOVA|Rank ANCOVA model stratified by ICS dose level and region||Analysis was performed using a rank ANCOVA model stratified by ICS dose level and region.||||0.7588
82627911|NCT02573233|164971191|SUPERIORITY||LS Mean Difference|-22.4||||0.0012|TWO_SIDED|90.0|-32.9|-11.9||Threshold for significance at 0.05 level|MMRM|||Analysis was performed using a Mixed-effect Model with Repeated Measures (MRMM) with treatment, treatment-by-visit interaction, region, and ICS dose level as fixed effects, and baseline biomarker-by-visit interaction as fixed covariate, and assuming an unstructured covariance structure separately by treatment group.||-11.9|-32.9|0.0012
82378410|NCT03656744|164465217|SUPERIORITY|||||||0.515|||||||ANCOVA|||||||0.515
82627912|NCT02573233|164971192|SUPERIORITY||LS Mean Difference|-22.0||||0.0005|TWO_SIDED|90.0|-31.3|-12.8||Threshold for significance at 0.05 level|MMRM|||Analysis was performed using a Mixed-effect model with Repeated Measures (MMRM) with treatment, treatment-by-visit interaction, region, and ICS dose level as fixed effects, and baseline biomarker-by-visit interaction as fixed covariate, and assuming an unstructured covariance structure separately by treatment group.||-12.8|-31.3|0.0005
82627913|NCT00924729|164971196|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82627914|NCT02228824|164971204|SUPERIORITY||Mean Difference (Final Values)|1.51|||<|0.001|TWO_SIDED|95.0|0.86|2.17|||ANCOVA|ANCOVA was performed on 25 sets of imputed data and then analyzed using SAS PROC MIANALYZE||||2.17|0.86|<0.001
82627915|NCT02228824|164971206|SUPERIORITY||Mean Difference (Final Values)|-38.5||||0.041|TWO_SIDED|95.0|-75.21|-1.78|||Mixed Models Analysis|||||-1.78|-75.21|0.041
82627916|NCT02228824|164971207|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.016|TWO_SIDED|95.0|-1.26|-0.13|||ANCOVA|ANCOVA was performed on 25 sets of imputed data and then analyzed using SAS PROC MIANALYZE||||-0.13|-1.26|0.016
82627917|NCT02228824|164971208|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.03|TWO_SIDED|95.0|-0.04|-0.002|||Mixed Models Analysis|||||-0.002|-0.04|0.03
82627918|NCT02917629|164971247|SUPERIORITY||Mean Difference (Final Values)|1.0011|STANDARD_DEVIATION|0.024||0.031|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000229822 baseline and post exposure||||0.031
82627919|NCT02917629|164971247|SUPERIORITY||Mean Difference (Final Values)|-1.0217|STANDARD_DEVIATION|0.0257||0.031|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000230585 baseline and post exposure||||0.031
82627920|NCT02917629|164971247|SUPERIORITY||Mean Difference (Final Values)|-1.0098|STANDARD_DEVIATION|0.005|<|0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000249245 baseline and post exposure||||<0.001
82627921|NCT02917629|164971247|SUPERIORITY||Mean Difference (Final Values)|1.0007|STANDARD_DEVIATION|0.0063|<|0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000261792 baseline and post exposure||||<0.001
82627922|NCT02917629|164971248|SUPERIORITY||Mean Difference (Final Values)|1.006|STANDARD_DEVIATION|0.006||0.002|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000234806 baseline and post exposure||||0.002
82627923|NCT02917629|164971249|SUPERIORITY||Mean Difference (Final Values)|1.0013|STANDARD_DEVIATION|0.0072||0.002|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000232479 baseline and post exposure||||0.002
82627924|NCT02917629|164971249|SUPERIORITY||Mean Difference (Final Values)|1.0037|STANDARD_DEVIATION|0.0193||0.02|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000233163 baseline and post exposure||||0.020
82627925|NCT02917629|164971249|SUPERIORITY||Mean Difference (Final Values)|-1.0098|STANDARD_DEVIATION|0.005||0.001|TWO_SIDED||||||Benjamini and Hochberg|||ENSG00000249245 baseline and post-exposure||||0.001
82627926|NCT01042938|164971267|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7991|STANDARD_DEVIATION|0.7606||0.0077|TWO_SIDED|95.0|-1.3693|-0.2289|||Standard pooled variances t-test|||Hypothesis: The mean RDS for curcumin group is significantly different (i.e., lower) than mean RDS of placebo group at end of radiation treatment.||-0.2289|-1.3693|0.0077
82627927|NCT01042938|164971268|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Fisher Exact|||Hypothesis: The presence of moist desquamation significantly differed between the curcumin group and the placebo group.||||0.0022
82378411|NCT03656744|164465217|SUPERIORITY|||||||0.887|||||||ANCOVA|||||||0.887
82507002|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.9232|||||||mixed effect model|||Month 6, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9232
82507003|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-5.2|STANDARD_ERROR_OF_MEAN|3.37||0.1249|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.1249
82507004|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-14.1|STANDARD_ERROR_OF_MEAN|5.42||0.0093|TWO_SIDED||||||mixed effect model|||Month 6, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0093
82507005|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82507006|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.0937|||||||mixed effect model|||Month 9, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0937
82507007|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82507008|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.7814|||||||mixed effect model|||Month 9, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7814
82507009|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-3.9|STANDARD_ERROR_OF_MEAN|3.47||0.2561|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.2561
82507010|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-13.6|STANDARD_ERROR_OF_MEAN|6.07||0.0255|TWO_SIDED||||||mixed effect model|||Month 9, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0255
82507011|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82565959|NCT00377312|164841638|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82565960|NCT00377312|164841639|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to % change (increase) from baseline in all Arms/groups at Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82565961|NCT00377312|164841639|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82565962|NCT00377312|164841640|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||the reported p-value corresponds to % decrease compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82565963|NCT00377312|164841640|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups|Mixed Models Analysis|the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups||||||.01
82565964|NCT00377312|164841641|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||the reported p-value corresponds to % change compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>.05
82565965|NCT00609245|164841679|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANOVA|||||||0.016
82565966|NCT01090076|164841680|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||t-test, 2 sided|||||||0.023
82565967|NCT01090076|164841681|SUPERIORITY_OR_OTHER|||||||0.877||95.0|||||t-test, 2 sided|||||||0.877
82565968|NCT01090076|164841682|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
82378412|NCT03656744|164465218|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
82378413|NCT03656744|164465218|SUPERIORITY|||||||0.016|||||||ANCOVA|||||||0.016
82565969|NCT01763346|164841690|SUPERIORITY|||||||0.05||||||35 subjects per group provided 80% power to detect an effect size of 0.59, assuming a 2-sided p=0.05, adjustment for baseline measures using ANCOVA, and correlation of 0.5 between baseline and end-study measures.|General Linear Models|Differences in primary outcomes between groups at 24-months were compared using general linear models with baseline values included as covariates.||We selected a sample size that would allow detection of an effect size of \~0.6 or greater between gastric band and metformin groups for measures of β-cell function after two years, hypothesizing greater function in the gastric band group.||||0.05
82565970|NCT00694564|164841707|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was calculated as this was a pilot study to determine such parameters.||||||0.004||95.0|||||MANOVA|||||||0.004
82565971|NCT02402465|164841709|SUPERIORITY||Mean Difference (Final Values)|37.0|||>|0.05|TWO_SIDED||||||ANOVA||Mean difference is related to albumin levels in nasal lavages: Unit= ng/ml|||||>0.05
82565972|NCT02402465|164841710|SUPERIORITY||Friedman's Q|14.2||||0.001|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately yielding alpha=0.05/3.|Friedman|Non-parametric repeated measures ANOVA||||||0.001
82565973|NCT02402465|164841710|SUPERIORITY||Median Difference (Net)|24.5||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
82565974|NCT02402465|164841710|SUPERIORITY||Median Difference (Net)|4.5||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
82565975|NCT02402465|164841710|SUPERIORITY||Median Difference (Net)|48.5||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.53
82565976|NCT02402465|164841711|SUPERIORITY||Friedman's Q|5.22||||0.07|TWO_SIDED|||||Alpha=0.05/3 since 3 days are compared|Friedman's Test|||We used Friedman test to compare the distribution of total nasal symptom scores among three treatment groups (Placebo, Fluticasone propionate, Dymista) in each of the three days (day 1, day 2, and day 3).||||0.07
82565977|NCT02402465|164841712|SUPERIORITY||Friedman's Q|5.06||||0.08|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.08
82565978|NCT02402465|164841714|SUPERIORITY||Friedman's Q|6.53||||0.04|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.04
82627928|NCT01042938|164971269|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||ANOVA|||Hypothesis: There is a significant difference in mean redness (i.e., mean a\* number value) between the curcumin and placebo groups.||||0.145
82627929|NCT01042938|164971270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.685||||0.218|TWO_SIDED|95.0|-1.059|4.428|||ANCOVA|||Hypothesis: There is a significant difference in mean MPQ pain scores between the curcumin and placebo groups.||4.428|-1.059|0.218
82627930|NCT01042938|164971270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.152|TWO_SIDED|95.0|-0.6|3.6|||ANCOVA|||Hypothesis: There is a significant difference in mean sensory subscale pain scores between curcumin and placebo groups.||3.6|-0.6|0.152
82627931|NCT01042938|164971270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7|TWO_SIDED|95.0|-0.7|1.1|||ANCOVA|||Hypohesis: There is a signifcant difference in affective subscale pain scores between curcumin and placebo groups.||1.1|-0.7|0.700
82627932|NCT01042938|164971270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.559|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Hypothesis: There is a significant difference in mean perceived pain scores between curcumin and placebo groups.||0.7|-0.4|0.559
82627933|NCT00856986|164971271|SUPERIORITY_OR_OTHER||Estimated Treatment Difference, LSMean|-0.52||||||95.0|-0.68|-0.36|||ANCOVA|||The estimated treatment difference between Detemir+Lira 1.8 and Lira 1.8 as well as 95% confidence interval and p-value were calculated by an ANCOVA model with treatment, country and previous OAD as fixed factors and baseline value as covariate. The p-value reflects a two-sided test for the null hypothesis of no difference between the two treatment groups with a significance level of 5% and with the power of 90%.||-0.36|-0.68|
82627934|NCT00856986|164971272|SUPERIORITY_OR_OTHER||Estimated Treatment Difference, LSMean|-0.41||||||95.0|-0.6|-0.21|||ANCOVA||The analysis values for intensified Lira 1.8 mg subjects were kept in the treatment group and the last observation carried forward (LOCF) method was applied.|The estimated treatment difference between Detemir+Lira 1.8 and Lira 1.8 as well as 95% confidence interval and p-value were calculated by an ANCOVA model with treatment, country and previous OAD as fixed factors and baseline value as covariate. The p-value reflects a two-sided test for the null hypothesis of no difference between the two treatment groups with a significance level of 5%.||-0.21|-0.6|
82627935|NCT00856986|164971273|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS mean|-0.51||||||95.0|-0.7|-0.31|||ANCOVA||The mean change in HbA1c from randomisation to week 52 was analysed including the values before intensification as LOCF for intensified subjects|||-0.31|-0.7|
82627936|NCT03061812|164971306|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.0051|TWO_SIDED|95.0|1.17|1.82|||Log Rank|Two-sided p-value stratified by the randomization stratification factors.|Calculated using a Cox proportional hazards regression model, with treatment and randomization stratification factors as covariates.|||1.82|1.17|0.0051
82627937|NCT03061812|164971307|SUPERIORITY||Hazard Ratio (HR)|1.51|||<|0.0001|TWO_SIDED|95.0|1.22|1.87|||Log Rank|Two-sided p-value stratified by the randomization stratification factors.|Calculated using a Cox proportional hazards regression model, with treatment and randomization stratification factors as covariates.|||1.87|1.22|< 0.0001
82627938|NCT03061812|164971308|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|95.0|-5.66|4.65||||||||4.65|-5.66|
82627939|NCT03061812|164971309|SUPERIORITY||Odds Ratio (OR)|0.68||||0.3352|TWO_SIDED|95.0|0.39|1.18|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors.||||1.18|0.39|0.3352
82627940|NCT03061812|164971310|SUPERIORITY||Odds Ratio (OR)|0.73||||0.0358|TWO_SIDED|95.0|0.47|1.12|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors.||||1.12|0.47|0.0358
82627941|NCT04018612|164971320|SUPERIORITY||LS Mean Difference|-21.84|STANDARD_ERROR_OF_MEAN|11.091||0.0258|ONE_SIDED|90.0||-7.53|||ANCOVA||SPID24 was analyzed using ANCOVA model with treatment group as a fixed effect and baseline (BL) Pain Intensity-Numerical Pain Relief Scale (PI-NPRS) as a covariate. The lower limit of one-sided 90% confidence interval (CI) was -∞|||-7.53||0.0258
82627942|NCT04018612|164971320|SUPERIORITY||LS Mean Difference|-25.74|STANDARD_ERROR_OF_MEAN|11.154||0.0115|ONE_SIDED|90.0||-11.35|||ANCOVA||SPID24 was analyzed using an analysis of covariance (ANCOVA) model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The lower limit of one-sided 90% CI was -∞|||-11.35||0.0115
82627943|NCT04018612|164971321|SUPERIORITY||LS Mean Difference|12.72|STANDARD_ERROR_OF_MEAN|5.267||0.0087|ONE_SIDED|90.0|5.92||||ANCOVA||TOTPAR24 was analyzed using an ANCOVA model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The upper limit of one-sided 90% CI was +∞||||5.92|0.0087
82627944|NCT04018612|164971321|SUPERIORITY||LS Mean Difference|12.14|STANDARD_ERROR_OF_MEAN|5.297||0.012|ONE_SIDED|90.0|5.31||||ANCOVA||TOTPAR24 was analyzed using an ANCOVA model with treatment group as a fixed effect and baseline PI-NPRS as a covariate. The upper limit of one-sided 90% CI was +∞||||5.31|0.0120
82627945|NCT02999191|164971353|OTHER||Ratio|89.9|STANDARD_DEVIATION|36.0|||TWO_SIDED|90.0|73.304|110.25|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fasted (numerator) and Solution, fasted (denominator). The Standard Deviation \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.25|73.304|
82378414|NCT03656744|164465219|SUPERIORITY|||||||0.124|||||||ANCOVA|||||||0.124
82507012|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.7241|||||||mixed effect model|||Month 12, Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.7241
82507013|NCT01480076|164704586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||<0.0001
82507014|NCT01480076|164704586|SUPERIORITY_OR_OTHER|||||||0.0427|||||||mixed effect model|||Month 12, Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0427
82507015|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|-7.2|STANDARD_ERROR_OF_MEAN|3.67||0.0498|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Taking Additional MS Therapy) versus Non-responder (Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.0498
82507016|NCT01480076|164704586|SUPERIORITY_OR_OTHER||difference of LS means|0.7|STANDARD_ERROR_OF_MEAN|5.95||0.9078|TWO_SIDED||||||mixed effect model|||Month 12, Responder (Not Taking Additional MS Therapy) versus Non-responder (Not Taking Additional MS Therapy): Mixed effect model for repeated measures with visit, responder group, additional MS therapy, the two-way and three-way interactions among them, baseline of the regular activity productivity loss, age, gender, country, baseline EDSS score and total number of relapses experienced as fixed effects. An unstructured covariance was used to model within-patient error.||||0.9078
82507017|NCT01589445|164704596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.06|STANDARD_DEVIATION|39.47|<|0.161||95.0|-88.0|118.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||TC||118|-88.0|<0.161
82507018|NCT01589445|164704596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.66|STANDARD_DEVIATION|143.22|<|0.913|TWO_SIDED|95.0|-397.0|976.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||TG||976|-397.0|<0.913
82507019|NCT01589445|164704596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|9.59|<|0.322|TWO_SIDED|95.0|-35.0|19.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HDL||19.0|-35.0|<0.322
82507020|NCT01589445|164704596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.62|STANDARD_DEVIATION|32.05|<|0.21|TWO_SIDED|95.0|-113.8|76.2||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||LDL||76.2|-113.8|<0.210
82507021|NCT01589445|164704597|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_DEVIATION|2.41|<|0.05|TWO_SIDED|95.0|-7.9|8.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, Multiple Logistic Regression (MLR), OR, Pearson Correlation)|ANOVA||The group 001 was divided according to Pro12Pro and Pro12Ala groups.There was no Ala12Ala group.These two groups were compared also in accordance with all parameters (glycemic levels, insulin levels, lipid profiles, BMI).|Change from Baseline in FSG at 3rd month||8.0|-7.9|<0.05
82507022|NCT01589445|164704598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|STANDARD_DEVIATION|1.07|>|0.05|TWO_SIDED|95.0|-4.4|2.4||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||||2.4|-4.4|>0.05
82507023|NCT01589445|164704599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.12|<|0.001|TWO_SIDED|95.0|-0.4|0.27||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||||0.27|-0.40|<0.001
82507024|NCT01589445|164704599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|STANDARD_DEVIATION|4.25|<|0.004|TWO_SIDED|95.0|-14.12|15.52||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA IR||15.52|-14.12|<0.004
82507025|NCT01589445|164704600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.79|STANDARD_DEVIATION|84.46|<|0.808|TWO_SIDED|95.0|-346.4|328.1||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA B||328.10|-346.40|<0.808
82507026|NCT01589445|164704600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.53|STANDARD_DEVIATION|54.0|<|0.025|TWO_SIDED|95.0|-148.7|180.0||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||HOMA S||180|-148.70|<0.025
82565979|NCT02402465|164841715|SUPERIORITY||Friedman's Q|0.53|||>|0.05|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||>0.05
82507027|NCT01589445|164704601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|STANDARD_DEVIATION|10.2|<|0.039|TWO_SIDED|95.0|-27.04|26.52||Category: Univariate \& Multivariate analysis. (ANOVA, Pair t tests, MLR, OR, Pearson Correlation)|ANOVA|||FSI||26.52|-27.04|<0.039
82507028|NCT04649164|164704612|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||Paired t-tests comparing peer mentors' baseline and 16-week scores, and caregiver mentees' baseline and 16-week scores, respectively||||0.36
82378415|NCT03656744|164465219|SUPERIORITY|||||||0.171|||||||ANCOVA|||||||0.171
82507029|NCT04649164|164704614|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.30
82507030|NCT04649164|164704615|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82507031|NCT04649164|164704616|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
82565980|NCT02402465|164841716|SUPERIORITY||Friedman's Q|0.33||||0.85|TWO_SIDED|||||Bonferroni correction was used to adjust for the fact that each day was tested separately, giving alpha=0.05/3.|Friedman's Test|||||||0.85
82507032|NCT04649164|164704619|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82507033|NCT02063737|164704702|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3882||||0.083|TWO_SIDED|95.0|-0.8272|0.0508|||Mixed Models Analysis|adjusting for shift length|Adjusted difference between intervention groups (intervention - control) from the linear mixed model adjusting for shift length and repeated measures within individuals.|||0.0508|-0.8272|0.0830
82507034|NCT02063737|164704703|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.0114
82507035|NCT02063737|164704704|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||ANCOVA|adjusting for the baseline measure||||||.99
82507036|NCT02063737|164704705|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||ANCOVA|adjusted for baseline measure||||||0.0927
82507037|NCT02063737|164704706|SUPERIORITY_OR_OTHER|||||||0.0578|TWO_SIDED||||||ANCOVA|adjusting for the baseline measure||||||0.0578
82507038|NCT02063737|164704707|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.69
82507039|NCT02063737|164704708|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.65
82507040|NCT02063737|164704709|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.95
82507041|NCT02063737|164704710|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.21
82507042|NCT02063737|164704711|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.51
82507043|NCT02063737|164704712|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.28
82507044|NCT02063737|164704713|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.0930
82507045|NCT02063737|164704714|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.56
82507046|NCT02063737|164704715|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANCOVA|adjusting for baseline measure||||||0.20
82507047|NCT01358357|164704732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.078|TWO_SIDED|95.0|0.49|1.04||A hazard ratio of time to recurrence and its corresponding 95% Wald CI were estimated for the lurasidone arm vs.placebo arm, using a Cox proportional hazards model.Cox model included treatment effect as fixed effect, and stratified by pooled country.|Cox Proportional Hazards Model|||It was assumed that the recurrence event rates during the double-blind phase were to be 24% and 39% for subjects treated with lurasidone and placebo, respectively. A total of 120 recurrence events were required to achieve 90% power to detect the 15% difference in subjects who had a recurrence event during the double-blind phase between the treatment groups using a log-rank test with two sided alpha level of 0.05.||1.04|0.49|<0.078
82507048|NCT01358357|164704733|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72|||<|0.034|TWO_SIDED|95.0|0.54|0.98||A HR of time to discontinuation and corresponding 95% Wald CI were est. for lurasidone arm vs.the placebo arm, using a Cox proportional hazards model. Model included treatment effect including treatment as a fixed effect,stratified by pooled country.|Cox Proportional Hazards Model|||||0.98|0.54|<0.034
82507049|NCT01358357|164704734|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72||||0.113|TWO_SIDED|95.0|0.48|1.08||A HR of time to recurrence and its corresponding 95% Wald CI were estimated for lurasidone arm vs. placebo arm,using a Cox proportional hazards model. Model included treatment effect including treatment as a fixed effect stratified by pooled country.|Cox Proportional hazard Model|||||1.08|0.48|0.113
82507050|NCT01358357|164704736|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.09||||0.406|TWO_SIDED|95.0|-0.29|0.12||analysis of ANCOVA model contains treatment ,pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.12|-0.29|0.406
82507051|NCT01358357|164704737|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.11||||0.162|TWO_SIDED|95.0|-0.26|0.04||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.04|-0.26|0.162
82507052|NCT01358357|164704738|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.07||||0.496|TWO_SIDED|95.0|-0.27|0.13||Analysis of covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.13|-0.27|0.496
82507053|NCT01358357|164704739|SUPERIORITY_OR_OTHER||LS mean difference|-0.8||||0.128|TWO_SIDED|95.0|-1.8|0.2||Analysis of Covariance (ANCOVA) model contains treatment, and pool country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.2|-1.8|0.128
82507054|NCT01358357|164704740|SUPERIORITY_OR_OTHER||LS mean difference lurasdione vs.Placebo|-0.5||||0.485|TWO_SIDED|95.0|-1.9|0.9||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.9|-1.9|0.485
82507055|NCT01358357|164704741|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.582|TWO_SIDED|95.0|-0.8|0.5||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.5|-0.8|0.582
82507056|NCT01358357|164704742|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.01||||0.42|TWO_SIDED|95.0|-0.5|0.2||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.2|-0.5|0.420
82507057|NCT01358357|164704743|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.2||||0.788|TWO_SIDED|95.0|-1.6|1.2||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||1.2|-1.6|0.788
82507058|NCT01358357|164704744|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|-0.1||||0.38|TWO_SIDED|95.0|-0.3|0.1||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||0.1|-0.3|0.380
82507059|NCT01358357|164704745|SUPERIORITY_OR_OTHER||LS mean difference lurasidone vs.Placebo|0.37||||0.772|TWO_SIDED|95.0|-2.14|2.88||Analysis of Covariance (ANCOVA) model contains treatment, and pooled country, and mood stabilizer (lithium or divalproex) as fixed factors and baseline as a covariate.|ANCOVA|||||2.88|-2.14|0.772
82565981|NCT01284634|164841717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.89|STANDARD_ERROR_OF_MEAN|5.454||0.222|TWO_SIDED|90.0|-16.35|2.56|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||2.56|-16.35|0.222
82565982|NCT01284634|164841717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.35|STANDARD_ERROR_OF_MEAN|5.943||0.133|TWO_SIDED|90.0|-19.66|0.95|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||0.95|-19.66|0.133
82565983|NCT01284634|164841717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|6.158||0.302|TWO_SIDED|90.0|-17.22|4.14|||Regression, Linear|||The EOT liver triglyceride levels were analyzed using a linear regression model, with EOT liver triglyceride levels as the dependent variable, dose of GWP42003 as regressor, baseline liver triglyceride levels as a covariate, and gender as a factor.||4.14|-17.22|0.302
82565984|NCT02236598|164841723|SUPERIORITY|||||||0.5582|||||||ANCOVA|||||||0.5582
82565985|NCT02236598|164841724|SUPERIORITY|Change in Fasting Glucose||||||0.0963|||||||ANCOVA|||||||0.0963
82565986|NCT02236598|164841724|SUPERIORITY|Change in 1-hour Glucose||||||0.6671|||||||ANCOVA|||||||0.6671
82565987|NCT02236598|164841724|SUPERIORITY|Change in 2-hour Glucose||||||0.7913|||||||ANCOVA|||||||0.7913
82565988|NCT02236598|164841725|SUPERIORITY|||||||0.5294|||||||ANCOVA|||||||0.5294
82627946|NCT02999191|164971353|OTHER||Ratio|170.78|STANDARD_DEVIATION|33.9|||TWO_SIDED|90.0|139.85|208.54|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fed (numerator) and Tablets, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||208.54|139.85|
82627947|NCT02999191|164971354|OTHER||Ratio|84.17|STANDARD_DEVIATION|48.8|||TWO_SIDED|90.0|64.26|110.24|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fasted (numerator) and Solution, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.24|64.260|
82627948|NCT02999191|164971354|OTHER||Ratio|136.16|STANDARD_DEVIATION|54.8|||TWO_SIDED|90.0|99.885|185.61|||ANOVA||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 1467335: Tablets, fed (numerator) and Tablets, fasted (denominator). The parameter dispersion type \[SD\] is the intra-individual geometric coefficient of variation \[%\].|The statistical model used for the analysis of the endpoint was an ANOVA \[Analysis of Variance\] model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||185.61|99.885|
82627949|NCT02566109|164971392|OTHER|Estimation of Pearson correlation|Pearson Correlation Coefficient|-0.57472||||0.6102|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.6102
82627950|NCT02566109|164971392|OTHER|Correlation|Pearson Correlation Coefficient|0.25733||||0.8343|TWO_SIDED||||||Peason Correlation Coefficient|||Correlation between baseline and 6 months.||||0.8343
82627951|NCT02566109|164971393|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|-0.09487||||0.9395|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.9395
82627952|NCT02566109|164971393|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.97287||||0.1486|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 6 months.||||0.1486
82565989|NCT02236598|164841726|SUPERIORITY|||||||0.1604|||||||ANCOVA|||||||0.1604
82565990|NCT03334747|164841753|OTHER|||||||0.391|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||0.391
82565991|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565992|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565993|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565994|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565995|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565996|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565997|NCT03334747|164841753|OTHER|||||||1|||||||Fisher Exact|2-sided p-value results from Fisher exact test for each KAE609 treatment group compared to Pooled Coartem||||||1
82565998|NCT03303521|164841771|SUPERIORITY||Odds Ratio (OR)|68.77|||<|0.001|TWO_SIDED|95.0|10.85|2810.85|||Fisher Exact|||||2810.85|10.85|<0.001
82565999|NCT03303521|164841773|SUPERIORITY||Odds Ratio (OR)|35.51|||<|0.001|TWO_SIDED|95.0|8.53|309.48|||Fisher Exact|||||309.48|8.53|<0.001
82566000|NCT02137239|164841799|SUPERIORITY||Incidence of Change|-1.7|||||TWO_SIDED|95.0|-18.9|16.7||||||Change in Incidence of Treatment A as compared to Treatment B at 6 Months||16.7|-18.9|
82566001|NCT02137239|164841799|SUPERIORITY||Incidence of Change|-1.0|||||TWO_SIDED|95.0|-19.2|18.9||||||Change in Incidence of Treatment A as compared to Treatment B at 12 Months||18.9|-19.2|
82566002|NCT02137239|164841799|SUPERIORITY||Incidence of Change|2.9|||||TWO_SIDED|95.0|-16.1|23.9||||||Change in Incidence of Treatment A as compared to Treatment B at 24 Months||23.9|-16.1|
82566003|NCT04086576|164841826|SUPERIORITY||||||<|0.0001||||||Yes, used Tukey Kramer pairwise comparisons to adjust for multiple comparisons|ANOVA|ANOVA in repeated measures||Each breathalyzer is compared to the percentage of alcohol in the blood during the time of blood draw (90 minutes).||||<.0001
82566004|NCT00938041|164841841|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|10.0|40.0|||||The estimated value reflects the percentage of participants with complete response. Percentages are calculated using the number of participants in the ITT-Exposed Population as the denominator.|||40|10|
82566005|NCT00938041|164841841|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|10.0|40.0|||||The estimated value reflects the percentage of participants with confirmed complete response. Percentages are calculated using the number of participants in the ITT-Exposed Population as the denominator.|||40|10|
82566006|NCT03042559|164841860|SUPERIORITY|||||||||||||a priori threshold for statistical significance is \<0.05.|Wilcoxon (Mann-Whitney)|||Data analysis was performed using SPSS Statistics Software version 24.0. We compared mean age (years), Body Mass Index (kg/m2) (BMI), pain duration, and the outcome measures at baseline in both groups at baseline using independent t-test when the distribution of the variable was approximately normal and Mann-Whitney test when the distribution was not normal. The distribution of qualitative variables (gender, affected leg) by group type was examined using Chi Square test.|a priori threshold for statistical significance is \<0.05.|||
82566007|NCT03042559|164841867|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82566008|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||5.59e-06|TWO_SIDED||||||t-test, 2 sided|||rs1876154||||0.00000559
82566009|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||7.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs2812338||||0.00000766
82566010|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||9.82e-06|TWO_SIDED||||||t-test, 2 sided|||rs10824875||||0.00000982
82566011|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||1.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000127
82566012|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||3.96e-06|TWO_SIDED||||||t-test, 2 sided|||rs10851257||||0.00000396
82566013|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||6.48e-06|TWO_SIDED||||||t-test, 2 sided|||rs6492344||||0.00000648
82566014|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||2.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs12584550||||0.00000221
82566015|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||9.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs9555773||||0.00000902
82566016|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||7.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000077
82566017|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000048
82566018|NCT01855997|164841888|SUPERIORITY_OR_OTHER|||||||3.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000037
82566019|NCT01855997|164841889|SUPERIORITY_OR_OTHER|||||||9.87e-06|TWO_SIDED||||||t-test, 2 sided|||rs1876154||||0.00000987
82566020|NCT01855997|164841889|SUPERIORITY_OR_OTHER|||||||6.05e-06|TWO_SIDED||||||t-test, 2 sided|||rs7753766||||0.00000605
82566021|NCT01855997|164841889|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs604241||||0.00000946
82566022|NCT01855997|164841889|SUPERIORITY_OR_OTHER|||||||7.7e-07|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000077
82566023|NCT01855997|164841889|SUPERIORITY_OR_OTHER|||||||1.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000197
82566024|NCT01855997|164841890|SUPERIORITY_OR_OTHER|||||||6.77e-06|TWO_SIDED||||||t-test, 2 sided|||rs12210761||||0.00000677
82566025|NCT01855997|164841890|SUPERIORITY_OR_OTHER|||||||7.98e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000798
82566026|NCT01855997|164841890|SUPERIORITY_OR_OTHER|||||||5.12e-06|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000512
82566027|NCT01855997|164841890|SUPERIORITY_OR_OTHER|||||||3.45e-06|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000345
82566028|NCT01855997|164841890|SUPERIORITY_OR_OTHER|||||||3.72e-06|TWO_SIDED||||||t-test, 2 sided|||rs247878||||0.00000372
82566029|NCT01855997|164841891|SUPERIORITY_OR_OTHER|||||||4.59e-06|TWO_SIDED||||||t-test, 2 sided|||rs12210761||||0.00000459
82566030|NCT01855997|164841891|SUPERIORITY_OR_OTHER|||||||9.25e-06|TWO_SIDED||||||t-test, 2 sided|||rs1411283||||0.00000925
82566031|NCT01855997|164841891|SUPERIORITY_OR_OTHER|||||||7.72e-06|TWO_SIDED||||||t-test, 2 sided|||rs12446868||||0.00000772
82566032|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||4.7e-06|TWO_SIDED||||||t-test, 2 sided|||rs11163805||||0.00000470
82566033|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||6.74e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000674
82566034|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||9.52e-06|TWO_SIDED||||||t-test, 2 sided|||rs11139349||||0.00000952
82566035|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||6.08e-06|TWO_SIDED||||||t-test, 2 sided|||rs1831559||||0.00000608
82566036|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||4.04e-06|TWO_SIDED||||||t-test, 2 sided|||rs7983441||||0.00000404
82627953|NCT02566109|164971394|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.10327||||0.9341|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 2 months.||||0.9341
82627954|NCT02566109|164971394|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.99696||||0.0497|TWO_SIDED||||||Pearson Correlation Coefficient|||Correlation between baseline and 6 months.||||0.0497
82627955|NCT02566109|164971395|OTHER|Pearson Correlation Coefficient|Pearson Correlation Coefficient|0.98432||||0.1129|TWO_SIDED||||||Pearson Correlation Coefficient|||||||0.1129
82627956|NCT01906476|164971400|NON_INFERIORITY|Non-inferiority trials of pharmaceuticals have used 30% to 50% of the difference between treatment and control conditions to define non-inferiority margins. (Jones, Jarvis, Lewis, \& Ebbutt, 1996; Nutt et al., 2008). A meta-analysis of CBT found an overall effect size of d=0.82.(Cuijpers, Smit, Bohlmeijer, Hollon, \& Andersson, 2010). Using the midpoint of 40% for the acceptable criterion, we set d=0.33 as the non-inferiority criterion.|||||||||||||||||"Cohen's d and upper limits of one-sided 95% Confidence intervals for each time are as follows:~Mid-treatment -0.19 (95% upper limit= 0.06) End of treatment 0.03 (0.24) 3 months post treatment -0.02 (0.19) 6 months post treatment -0.07 (0.14)"|||
82566037|NCT01855997|164841892|SUPERIORITY_OR_OTHER|||||||4.07e-06|TWO_SIDED||||||t-test, 2 sided|||rs11868362||||0.00000407
82566038|NCT01855997|164841893|SUPERIORITY_OR_OTHER|||||||6.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs1384010||||0.00000666
82627957|NCT01906476|164971401|SUPERIORITY||ICER estimate|-152.55|||||TWO_SIDED|95.0|-1143.09|1094.72||||||We calculated the ICER (Incremental cost-effectiveness ratio) estimate, computed using the difference in average cost between the two arms, divided by the difference in average Depression Free Days (DFD) as defined using QIDS (Quick Inventory of Depressive Symptomatology), between the two arms, Stepped Care minus Telephone Cognitive Behavior Therapy. The confidence interval was created using bootstrapping.||1094.72|-1143.09|
82627958|NCT01041404|164971419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Log Rank|||||0.85|0.59|0.0002
82627959|NCT01041404|164971421|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.0|0.58|0.85|||Log Rank|||||0.85|0.58|0.0003
82627960|NCT01041404|164971422|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.8||||0.0017|TWO_SIDED|95.0|4.7|20.9|||Chi-squared|||||20.9|4.7|0.0017
82627961|NCT01041404|164971424|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.73|||Log Rank|||||0.73|0.40|<0.0001
82627962|NCT01041404|164971425|SUPERIORITY_OR_OTHER||Difference in Clinical Benefit Rate|9.6||||0.0081|TWO_SIDED|95.0|2.4|16.9|||Chi-squared|||||16.9|2.4|0.0081
82566039|NCT01855997|164841893|SUPERIORITY_OR_OTHER|||||||8.44e-06|TWO_SIDED||||||t-test, 2 sided|||rs1351518||||0.00000844
82566040|NCT01855997|164841893|SUPERIORITY_OR_OTHER|||||||7.94e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000794
82566041|NCT01855997|164841893|SUPERIORITY_OR_OTHER|||||||3.1e-06|TWO_SIDED||||||t-test, 2 sided|||rs11868362||||0.00000310
82566042|NCT01855997|164841894|SUPERIORITY_OR_OTHER|||||||2.07e-06|TWO_SIDED||||||t-test, 2 sided|||rs11139349||||0.00000207
82566043|NCT01855997|164841894|SUPERIORITY_OR_OTHER|||||||8.99e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000899
82566044|NCT01855997|164841895|SUPERIORITY_OR_OTHER|||||||5.73e-06|TWO_SIDED||||||t-test, 2 sided|||rs1384010||||0.00000573
82566045|NCT01855997|164841895|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs1351518||||0.00000946
82566046|NCT01855997|164841895|SUPERIORITY_OR_OTHER|||||||7.31e-06|TWO_SIDED||||||t-test, 2 sided|||rs1157322||||0.00000731
82566047|NCT01855997|164841895|SUPERIORITY_OR_OTHER|||||||9.45e-06|TWO_SIDED||||||t-test, 2 sided|||rs646097||||0.00000945
82566048|NCT01855997|164841896|SUPERIORITY_OR_OTHER|||||||1.6e-07|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000016
82566049|NCT01855997|164841897|SUPERIORITY_OR_OTHER|||||||8.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000088
82566050|NCT01855997|164841898|SUPERIORITY_OR_OTHER|||||||8.79e-06|TWO_SIDED||||||t-test, 2 sided|||rs2464266||||0.00000879
82566051|NCT01855997|164841899|SUPERIORITY_OR_OTHER|||||||4.52e-06|TWO_SIDED||||||t-test, 2 sided|||rs9496139||||0.00000452
82566052|NCT01855997|164841899|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2014238||||0.00000497
82566053|NCT01855997|164841899|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2980231||||0.00000497
82566054|NCT01855997|164841900|SUPERIORITY_OR_OTHER|||||||7.48e-06|TWO_SIDED||||||t-test, 2 sided|||exm2237722||||0.00000748
82566055|NCT01855997|164841900|SUPERIORITY_OR_OTHER|||||||7.3e-07|TWO_SIDED||||||t-test, 2 sided|||rs16924016||||0.00000073
82566056|NCT01855997|164841900|SUPERIORITY_OR_OTHER|||||||2.89e-06|TWO_SIDED||||||t-test, 2 sided|||rs2899723||||0.00000289
82566057|NCT01855997|164841900|SUPERIORITY_OR_OTHER|||||||9.12e-06|TWO_SIDED||||||t-test, 2 sided|||rs8027115||||0.00000912
82566058|NCT01855997|164841900|SUPERIORITY_OR_OTHER|||||||4.94e-06|TWO_SIDED||||||t-test, 2 sided|||exm2267780||||0.00000494
82566059|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||6.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs9973954||||0.00000627
82566060|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||6.96e-06|TWO_SIDED||||||t-test, 2 sided|||exm2237722||||0.00000696
82627963|NCT01041404|164971425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66|||||TWO_SIDED|95.0|1.14|2.41||||||||2.41|1.14|
82627964|NCT01041404|164971426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0046|TWO_SIDED|95.0|0.6|0.91|||Log Rank|||||0.91|0.60|0.0046
82627965|NCT01685203|164971440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381|TWO_SIDED||||||Regression, Logistic|Treatment group, baseline log(subscript)10(subscript) HCV RNA level and Interleukin-28B (IL28B) genotype (CC or non-CC) were used as predictors||||||0.381
82627966|NCT01685203|164971440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086|TWO_SIDED|||||Difference in rates after adjusting for Interleukin-28 (IL28) genotype (CC or Non-CC) using stratum-adjusted Mantel-Haenszel proportions and continuity-corrected variances.|Stratum-adjusted Mantel-Haenszel|||||||0.086
82507060|NCT01826487|164704746|OTHER||Mean Difference (Final Values)|12.98|STANDARD_ERROR_OF_MEAN|10.415||0.213|TWO_SIDED|95.0|-7.44|33.39||Threshold for significance at 0.05. Secondary endpoints were tested for significance, only if the primary endpoint was statistically significant.|Mixed Models Analysis|||Analysis was performed using analysis of covariance (ANCOVA) method including stratification factors for age (less than \[\<\] 9 years versus \[vs.\] greater than or equal to \[\>=\] 9 years), duration of use of corticosteroids at baseline (approx. \>=6 to \<12 months vs. \>=12 months), and baseline 6MWD category (\>=350 meters vs \<350 meters), as well as baseline 6MWD as covariate.||33.39|-7.44|0.213
82507061|NCT00788827|164704763|OTHER||||||<|0.05|||||||Mixed Models Analysis|||Each participants Hba1c (%) lab result was analysed pre and post stem cell infusion to achieve 2 mean readings per participant.||||<0.05
82566061|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||4.26e-06|TWO_SIDED||||||t-test, 2 sided|||rs1040084||||0.00000426
82566062|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||4.35e-06|TWO_SIDED||||||t-test, 2 sided|||rs1913484||||0.00000435
82566063|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||2.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs16924016||||0.00000221
82566064|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||5.23e-06|TWO_SIDED||||||t-test, 2 sided|||exm1010813||||0.00000523
82566065|NCT01855997|164841901|SUPERIORITY_OR_OTHER|||||||7.57e-06|TWO_SIDED||||||t-test, 2 sided|||rs6576456||||0.00000757
82566066|NCT01855997|164841902|SUPERIORITY_OR_OTHER|||||||1.53e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000153
82566067|NCT01855997|164841902|SUPERIORITY_OR_OTHER|||||||7.08e-06|TWO_SIDED||||||t-test, 2 sided|||rs10475403||||0.00000708
82566068|NCT01855997|164841902|SUPERIORITY_OR_OTHER|||||||7.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs715243||||0.00000727
82566069|NCT01855997|164841903|SUPERIORITY_OR_OTHER|||||||3.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000397
82566070|NCT01855997|164841904|SUPERIORITY_OR_OTHER|||||||6.86e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000686
82566071|NCT01855997|164841904|SUPERIORITY_OR_OTHER|||||||5.96e-06|TWO_SIDED||||||t-test, 2 sided|||rs2189452||||0.00000596
82627967|NCT00383708|164971444|OTHER||||||<|0.0001|||||||Exact test|One-sided p value||The percentage of subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
82566072|NCT01855997|164841904|SUPERIORITY_OR_OTHER|||||||4.89e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000489
82566073|NCT01855997|164841905|SUPERIORITY_OR_OTHER|||||||8.34e-06|TWO_SIDED||||||t-test, 2 sided|||rs2189452||||0.00000834
82566074|NCT01855997|164841905|SUPERIORITY_OR_OTHER|||||||4.87e-06|TWO_SIDED||||||t-test, 2 sided|||rs7968170||||0.00000487
82566075|NCT01855997|164841905|SUPERIORITY_OR_OTHER|||||||9.18e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000918
82566076|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||1.37e-06|TWO_SIDED||||||t-test, 2 sided|||rs9287655||||0.00000137
82566077|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||3.39e-06|TWO_SIDED||||||t-test, 2 sided|||rs2803073||||0.00000339
82566078|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||9.27e-06|TWO_SIDED||||||t-test, 2 sided|||rs1937590||||0.00000927
82566079|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||1.66e-06|TWO_SIDED||||||t-test, 2 sided|||rs2945861||||0.00000166
82566080|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||4.55e-06|TWO_SIDED||||||t-test, 2 sided|||rs1997894||||0.00000455
82566081|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||5.68e-06|TWO_SIDED||||||t-test, 2 sided|||rs1495471||||0.00000568
82566082|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||1.25e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000125
82566083|NCT01855997|164841906|SUPERIORITY_OR_OTHER|||||||9.82e-06|TWO_SIDED||||||t-test, 2 sided|||rs1152537||||0.00000982
82566084|NCT01855997|164841907|SUPERIORITY_OR_OTHER|||||||8.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs10236906||||0.00000846
82566085|NCT01855997|164841907|SUPERIORITY_OR_OTHER|||||||5.62e-06|TWO_SIDED||||||t-test, 2 sided|||rs2945861||||0.00000562
82566086|NCT01855997|164841907|SUPERIORITY_OR_OTHER|||||||4.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs7042473||||0.00000497
82566087|NCT01855997|164841907|SUPERIORITY_OR_OTHER|||||||9.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs2077415||||0.00000997
82566088|NCT01855997|164841907|SUPERIORITY_OR_OTHER|||||||8.64e-06|TWO_SIDED||||||t-test, 2 sided|||rs9324018||||0.00000864
82566089|NCT01855997|164841908|SUPERIORITY_OR_OTHER|||||||3.68e-06|TWO_SIDED||||||t-test, 2 sided|||rs17037122||||0.00000368
82566090|NCT01855997|164841908|SUPERIORITY_OR_OTHER|||||||5.77e-06|TWO_SIDED||||||t-test, 2 sided|||rs715243||||0.00000577
82566091|NCT01855997|164841909|SUPERIORITY_OR_OTHER|||||||9.5e-06|TWO_SIDED||||||t-test, 2 sided|||rs2302503||||0.00000950
82566092|NCT01855997|164841909|SUPERIORITY_OR_OTHER|||||||7.41e-06|TWO_SIDED||||||t-test, 2 sided|||rs6015181||||0.00000741
82566093|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||8.05e-06|TWO_SIDED||||||t-test, 2 sided|||rs1550116||||0.00000805
82566094|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs1550115||||0.00000702
82566095|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs2082881||||0.00000702
82566096|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.43e-06|TWO_SIDED||||||t-test, 2 sided|||exm2265462||||0.00000743
82566097|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000078
82566098|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||8.94e-06|TWO_SIDED||||||t-test, 2 sided|||rs1403069||||0.00000894
82566099|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||5.71e-06|TWO_SIDED||||||t-test, 2 sided|||rs9691873||||0.00000571
82566100|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.29e-06|TWO_SIDED||||||t-test, 2 sided|||rs8012912||||0.00000729
82566101|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||8.28e-06|TWO_SIDED||||||t-test, 2 sided|||rs11158827||||0.00000828
82566102|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||8.85e-06|TWO_SIDED||||||t-test, 2 sided|||rs11870323||||0.00000885
82566103|NCT01855997|164841910|SUPERIORITY_OR_OTHER|||||||7.17e-06|TWO_SIDED||||||t-test, 2 sided|||rs4821558||||0.00000717
82566104|NCT01855997|164841911|SUPERIORITY_OR_OTHER|||||||6.29e-06|TWO_SIDED||||||t-test, 2 sided|||rs6443144||||0.00000629
82566105|NCT01855997|164841911|SUPERIORITY_OR_OTHER|||||||5.79e-06|TWO_SIDED||||||t-test, 2 sided|||rs1692421||||0.00000579
82566106|NCT01855997|164841911|SUPERIORITY_OR_OTHER|||||||5.53e-06|TWO_SIDED||||||t-test, 2 sided|||rs1692423||||0.00000553
82566107|NCT01855997|164841911|SUPERIORITY_OR_OTHER|||||||9.46e-06|TWO_SIDED||||||t-test, 2 sided|||rs9691873||||0.00000946
82507062|NCT01527682|164704767|OTHER||Proportion|76.7|||||TWO_SIDED|95.0|64.1|89.4|||||||The statistical analysis was performed according to study design. Using a Fleming single stage design (A'Hern approach) setting the probability of erroneously concluding that the responders rate is greater than 35% at 5% (one-sided alpha=0.05) and the probability of correctly concluding that the responders rate is at least 50% at 80% (beta error = 0.20), the minimum number of responder eyes was set at 31 out of 68, since this result is associated with a lower limit of the 90% exact confidence interval of 35.2%.|89.4|64.1|
82507063|NCT00004888|164704833|SUPERIORITY_OR_OTHER||Overall Response Rate|0.474|||||TWO_SIDED|95.0|0.31|0.642||||||||0.642|0.31|
82507064|NCT00004888|164704833|SUPERIORITY_OR_OTHER||Overall Response Rate|0.457|||||TWO_SIDED|95.0|0.309|0.61||||||||0.61|0.309|
82566108|NCT01855997|164841911|SUPERIORITY_OR_OTHER|||||||4.5e-06|TWO_SIDED||||||t-test, 2 sided|||rs7968170||||0.00000450
82378416|NCT03295630|164465258|OTHER||Mean Difference (Final Values)|-17.7|||||TWO_SIDED|||||||||Difference (steps) between accelerometer quantified step count (thigh placement) and observed step count||||
82507065|NCT00136084|164704838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.624||||0.1559||95.0|0.832|3.205||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.041 so that the overall level of the study is maintained at 0.05 across the 4 interim analyses and the final analysis.|Cochran-Mantel-Haenszel|The p-value was computed using a Monte Carlo approximation (10000 permutations) to an exact, risk-group stratified, test.|The odds ratio is defined as the ratio of the odds that a LDAC patient is MRD positive to the odds that a HDAC patient is MRD positive.|The study was designed to test the null hypothesis that HDAC and LDAC result in the same proportion of patients with positive MRD after 22 days. Power calculations indicate that enrollment of a total of 186 MRD-evaluable patients in a 5-stage O'Brien-Fleming group sequential design gives 80% power at the 5% level to detect a change in the MRD-positive proportion from 0.50 to 0.30. The design was developed using East statistical software.||3.205|.832|.1559
82507066|NCT00136084|164704839|SUPERIORITY_OR_OTHER||Binomial proportion|0.733||||||95.0|0.449|0.922|||Binomial proportion|||Estimate of the proportion of negative minimal residual disease.||.922|.449|
82507067|NCT00136084|164704840|SUPERIORITY_OR_OTHER||Binomial proportion|0.931||||||95.0|0.772|0.992|||Binomial proportion|||||.992|.772|
82507068|NCT00136084|164704841|SUPERIORITY_OR_OTHER||Binomial proportion|0.9||||||95.0|0.735|0.979|||Binomial proportion|||||.979|.735|
82507069|NCT00136084|164704843|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
82507070|NCT00136084|164704844|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.0139||||0.2287|TWO_SIDED|95.0|-0.0365|0.00873|||Regression, Logistic|||||0.00873|-0.0365|0.2287
82507071|NCT02174848|164704862|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||This comparison is for the initial study, during which patients in the placebo-DFP group received placebo and patients in the DFP-DFP group received deferiprone.||||0.0500
82507072|NCT02174848|164704862|SUPERIORITY|||||||0.9781|||||||t-test, 2 sided|||This comparison is for the extension study, during which patients in both groups received deferiprone.||||0.9781
82507073|NCT02174848|164704863|SUPERIORITY|||||||0.0206|||||||paired t-test|||||||0.0206
82507074|NCT02174848|164704864|SUPERIORITY|||||||0.2684|||||||paired t-test|||||||0.2684
82507075|NCT02174848|164704865|SUPERIORITY|||||||0.0821|||||||t-test, 2 sided|||This comparison is for the initial study, during which patients in the placebo-DFP group received placebo and patients in the DFP-DFP group received deferiprone||||0.0821
82507076|NCT02174848|164704865|SUPERIORITY|||||||0.5885|||||||t-test, 2 sided|||For the placebo-DFP group, the comparison is of the scores at the start vs. the end of the extension study; for the DFP-DFP group, the comparison is of the scores at the start vs. the end of the initial study||||0.5885
82507077|NCT02174848|164704866|SUPERIORITY|||||||0.3306|||||||t-test, 2 sided|||||||0.3306
82507078|NCT00644969|164704893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.74||||0.0457|TWO_SIDED|95.0|1.03|21.78|||Regression, Logistic|||||21.78|1.03|0.0457
82507079|NCT00644969|164704894|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18||||0.0901|TWO_SIDED|95.0|0.75|50.71|||Regression, Logistic|||||50.71|0.75|0.0901
82507080|NCT00644969|164704895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.1524|TWO_SIDED|95.0|0.82|3.68|||Regression, Logistic|||Week 12||3.68|0.82|0.1524
82507081|NCT00644969|164704895|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9235|TWO_SIDED|95.0|0.45|2.05|||Regression, Logistic|||Week 24||2.05|0.45|0.9235
82507082|NCT00644969|164704896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.0077|TWO_SIDED|95.0|-6.32|-0.99|||ANCOVA||Least squares mean difference|Week 12 treatment difference||-0.99|-6.32|0.0077
82507083|NCT00644969|164704896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.9022|TWO_SIDED|95.0|-3.99|3.52|||ANCOVA||Least squares mean difference|Week 24 treatment difference||3.52|-3.99|0.9022
82507084|NCT05620576|164704909|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.61|0.82|||||Posterior mean difference with 95% credible interval is reported.|||0.82|-0.61|
82507085|NCT05620576|164704910|SUPERIORITY||Posterior Mean Difference|0.26|||||TWO_SIDED|95.0|-0.47|0.99|||||Posterior mean difference with 95% credible interval is reported.|||0.99|-0.47|
82507086|NCT05620576|164704911|SUPERIORITY||Posterior Mean Difference|0.33|||||TWO_SIDED|95.0|-0.11|0.78|||||Posterior mean difference with 95% credible interval is reported.|||0.78|-0.11|
82507087|NCT05620576|164704912|SUPERIORITY||Posterior Mean Difference|0.2|||||TWO_SIDED|95.0|-0.56|0.96|||||Posterior mean difference with 95% credible interval is reported.|||0.96|-0.56|
82507088|NCT05620576|164704913|SUPERIORITY||Posterior Mean Difference|-0.77|||||TWO_SIDED|95.0|-9.41|7.75|||||Posterior mean difference with 95% credible interval is reported.|||7.75|-9.41|
82507089|NCT05620576|164704914|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.51|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.51|
82566109|NCT01855997|164841912|SUPERIORITY_OR_OTHER|||||||1.18e-06|TWO_SIDED||||||t-test, 2 sided|||rs9287655||||0.00000118
82566110|NCT01855997|164841912|SUPERIORITY_OR_OTHER|||||||5.31e-06|TWO_SIDED||||||t-test, 2 sided|||rs216312||||0.00000531
82566111|NCT01855997|164841913|SUPERIORITY_OR_OTHER|||||||5.93e-06|TWO_SIDED||||||t-test, 2 sided|||rs993147||||0.00000593
82566112|NCT01855997|164841913|SUPERIORITY_OR_OTHER|||||||9.97e-06|TWO_SIDED||||||t-test, 2 sided|||rs10978436||||0.00000997
82627968|NCT00383708|164971445|OTHER|||||||0.1654||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with pegvisomant (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.1654
82627969|NCT00383708|164971445|OTHER|||||||0.0115||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with lanreotide Autogel (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.0115
82627970|NCT00383708|164971445|OTHER|||||||0.0003||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup previously treated with octreotide LAR (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.0003
82627971|NCT00383708|164971446|OTHER|||||||0.084||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup diabetic subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||0.084
82627972|NCT00383708|164971446|OTHER||||||<|0.0001||||||One-sided p value|Exact test|||The percentage of subjects in the subgroup non diabetic subjects (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
82627973|NCT00383708|164971447|OTHER||||||<|0.0001||||||One-sided p-value|Exact test|||The percentage of subjects in the subgroup 'while taking final dose during co-administration' (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
82627974|NCT00383708|164971447|OTHER||||||<|0.0001||||||One-sided p-value|Exact test|||The percentage of subjects in the subgroup 'at any time during co-administration' (denoted as pnor) was compared to the minimum clinically relevant (theoretical) percentage of 30%, using an exact test based on the binomial distribution. The test was an upper-tailed test of H0: pnor ≤ 0.3 versus H1: pnor \> 0.3.||||<0.0001
82627975|NCT01696396|164971507|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg group. The primary and key secondary endpoints were tested under a sequential framework of statistical hypotheses, each with 2-sided significance level of 0.10 for the treatment effect of abrilumab 70 mg compared with placebo.|Odds Ratio (OR)|1.15||||0.76|TWO_SIDED|90.0|0.54|2.44|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.44|0.54|0.76
82627976|NCT01696396|164971507|SUPERIORITY||Difference in Adjusted Remission Rates|1.6|||||TWO_SIDED|90.0|-7.9|8.9||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.9|-7.9|
82627977|NCT01696396|164971507|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.91||||0.22|TWO_SIDED|90.0|0.8|4.57|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.57|0.80|0.22
82627978|NCT01696396|164971507|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|9.1|||||TWO_SIDED|90.0|-4.6|19.4||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||19.4|-4.6|
82507090|NCT05620576|164704915|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.11|
82507091|NCT05620576|164704916|SUPERIORITY||Posterior Mean Difference|23.02|||||TWO_SIDED|95.0|-108.05|152.33|||||Posterior mean difference with 95% credible interval is reported.|||152.33|-108.05|
82507092|NCT04091646|164704919|SUPERIORITY||Odds Ratio (OR)|4.95|||<|0.0001|TWO_SIDED|95.0|2.51|9.76|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 8 Odds Ratio||9.76|2.51|<0.0001
82566113|NCT01855997|164841913|SUPERIORITY_OR_OTHER|||||||5.81e-06|TWO_SIDED||||||t-test, 2 sided|||rs2370220||||0.00000581
82566114|NCT01855997|164841913|SUPERIORITY_OR_OTHER|||||||8.02e-06|TWO_SIDED||||||t-test, 2 sided|||rs2279519||||0.00000802
82566115|NCT01855997|164841914|SUPERIORITY_OR_OTHER|||||||5.58e-06|TWO_SIDED||||||t-test, 2 sided|||rs12992677||||0.00000558
82566116|NCT01855997|164841915|SUPERIORITY_OR_OTHER|||||||9.9e-06|TWO_SIDED||||||t-test, 2 sided|||rs12992677||||0.00000990
82566117|NCT01855997|164841916|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs7549785||||0.00000048
82566118|NCT01855997|164841917|SUPERIORITY_OR_OTHER|||||||4.8e-07|TWO_SIDED||||||t-test, 2 sided|||rs7549785||||0.00000048
82566119|NCT01855997|164841918|SUPERIORITY_OR_OTHER|||||||7.38e-06|TWO_SIDED||||||t-test, 2 sided|||rs10814834||||0.00000738
82566120|NCT01855997|164841918|SUPERIORITY_OR_OTHER|||||||4.51e-06|TWO_SIDED||||||t-test, 2 sided|||rs10491723||||0.00000451
82566121|NCT01855997|164841918|SUPERIORITY_OR_OTHER|||||||8.78e-06|TWO_SIDED||||||t-test, 2 sided|||rs6592052||||0.00000878
82566122|NCT01855997|164841918|SUPERIORITY_OR_OTHER|||||||5.21e-06|TWO_SIDED||||||t-test, 2 sided|||rs16943470||||0.00000521
82507093|NCT04091646|164704920|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0033|TWO_SIDED|95.0|1.46|7.52|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 2 Odds Ratio||7.52|1.46|0.0033
82627979|NCT01696396|164971507|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.05||||0.25|TWO_SIDED|90.0|0.74|5.73|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.73|0.74|0.25
82507094|NCT04091646|164704920|SUPERIORITY||Odds Ratio (OR)|3.78||||0.0002|TWO_SIDED|95.0|1.94|7.38|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with multiple imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|IGA Success at Week 4 Odds Ratio||7.38|1.94|0.0002
82507095|NCT04091646|164704921|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 2 Erythema Score||||<0.0001
82507096|NCT04091646|164704921|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 4 Erythema Score||||<0.0001
82507097|NCT04091646|164704921|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 8 Erythema Score||||<0.0001
82507098|NCT04091646|164704922|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0065|TWO_SIDED|95.0|1.49|17.13|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 2||17.13|1.49|0.0065
82507099|NCT04091646|164704922|SUPERIORITY||Odds Ratio (OR)|5.36||||0.0002|TWO_SIDED|95.0|2.15|13.38|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 4||13.38|2.15|0.0002
82507100|NCT04091646|164704922|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0021|TWO_SIDED|95.0|1.5|6.63|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data||Erythema Success at Week 8||6.63|1.50|0.0021
82507101|NCT04091646|164704923|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 2 Scaling Score||||<0.0001
82507102|NCT04091646|164704923|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 4 Scaling Score||||<0.0001
82627980|NCT01696396|164971507|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|10.3|||||TWO_SIDED|90.0|-6.8|22.6||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.6|-6.8|
82507103|NCT04091646|164704923|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 8 Scaling Score||||<0.0001
82507104|NCT04091646|164704924|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0759|TWO_SIDED|95.0|0.9|4.33|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 2||4.33|0.90|0.0759
82507105|NCT04091646|164704924|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0122|TWO_SIDED|95.0|1.18|4.61|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 4||4.61|1.18|0.0122
82507106|NCT04091646|164704924|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0003|TWO_SIDED|95.0|1.74|6.55|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|Scaling Success at Week 8||6.55|1.74|0.0003
82507107|NCT04091646|164704926|SUPERIORITY||Odds Ratio (OR)|3.62||||0.0007|TWO_SIDED|95.0|1.72|7.63|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 2||7.63|1.72|0.0007
82507108|NCT04091646|164704926|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0009|TWO_SIDED|95.0|1.63|6.68|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 4||6.68|1.63|0.0009
82507109|NCT04091646|164704926|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0007|TWO_SIDED|95.0|1.6|6.35|||Cochran-Mantel-Haenszel|Stratification by pooled study site and baseline IGA per randomization with no imputation of missing data|Common OR stratified by pooled study site and baseline IGA per randomization with no imputation of missing data.|WI-NRS Success at Week 8||6.35|1.60|0.0007
82507110|NCT05394025|164704930|SUPERIORITY||Interaction|0.02||||0.77|TWO_SIDED|95.0|-0.13|0.18|||likelihood ratio test||Beta for time by COVID-19 status|Null hypothesis no difference in trends of I/ADL scores between Veterans with COVID-19 and comparators. We used adjusted linear mixed model (LMM) to model ADL scores over time (i.e., survey cycles) and by COVID-19 status. The LMM included an interaction term for time and COVID-19 status. LMM models were fitted with random intercepts (i.e., patient ID) and slopes (i.e., survey cycle). LMMs included fixed effects for patient baseline age, sex, and care assessment needs score.||0.18|-0.13|0.77
82507111|NCT05394025|164704930|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.6|TWO_SIDED|95.0|-0.44|0.67|||likelihood ratio test||Beta coefficient for mean difference in mean longitudinal I/ADL score|Null hypothesis no difference in trends of I/ADL scores between Veterans with COVID-19 and comparators. We used adjusted linear mixed model (LMM) to model I/ADL scores over time (i.e., survey cycles) and by COVID-19 status. The LMM included an interaction term for time and COVID-19 status. LMM models were fitted with random intercepts (i.e., patient ID) and slopes (i.e., survey cycle). LMMs included fixed effects for patient baseline age, sex, and care assessment needs score.||0.67|-0.44|0.60
82627981|NCT01696396|164971508|SUPERIORITY||Odds Ratio (OR)|1.78||||0.16|TWO_SIDED|90.0|0.9|3.53|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.53|0.90|0.16
82627982|NCT01696396|164971508|SUPERIORITY||Difference in Adjusted Remission Rates|10.9|||||TWO_SIDED|90.0|-1.8|21.0||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||21.0|-1.8|
82627983|NCT01696396|164971508|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.12||||0.13|TWO_SIDED|90.0|0.93|4.84|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.84|0.93|0.13
82627984|NCT01696396|164971508|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|14.7|||||TWO_SIDED|90.0|-2.1|27.5||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||27.5|-2.1|
82627985|NCT01696396|164971508|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|3.1||||0.056|TWO_SIDED|90.0|1.17|8.2|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.20|1.17|0.056
82627986|NCT01696396|164971508|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|23.7|||||TWO_SIDED|90.0|2.8|39.2||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||39.2|2.8|
82627987|NCT01696396|164971509|SUPERIORITY||Odds Ratio (OR)|2.25||||0.021|TWO_SIDED|90.0|1.27|4.01|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.01|1.27|0.021
82627988|NCT01696396|164971509|SUPERIORITY||Difference in Adjusted Response Rates|19.8|||||TWO_SIDED|90.0|5.8|31.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.3|5.8|
82627989|NCT01696396|164971509|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.9||||0.14|TWO_SIDED|90.0|0.94|3.87|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.87|0.94|0.14
82627990|NCT01696396|164971509|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|15.7|||||TWO_SIDED|90.0|-2.3|29.7||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||29.7|-2.3|
82627991|NCT01696396|164971509|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.87||||0.23|TWO_SIDED|90.0|0.79|4.39|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.39|0.79|0.23
82627992|NCT01696396|164971509|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|15.1|||||TWO_SIDED|90.0|-6.4|31.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.3|-6.4|
82627993|NCT01696396|164971510|SUPERIORITY||Odds Ratio (OR)|1.98||||0.047|TWO_SIDED|90.0|1.13|3.47|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.47|1.13|0.047
82627994|NCT01696396|164971510|SUPERIORITY||Difference in Adjusted Response Rates|16.0|||||TWO_SIDED|90.0|2.4|27.1||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||27.1|2.4|
82627995|NCT01696396|164971510|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|90.0|0.52|2.29|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.29|0.52|0.84
82627996|NCT01696396|164971510|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|1.9|||||TWO_SIDED|90.0|-15.2|15.2||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||15.2|-15.2|
82627997|NCT01696396|164971510|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|1.15||||0.78|TWO_SIDED|90.0|0.49|2.72|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.72|0.49|0.78
82507112|NCT03314584|164704931|SUPERIORITY||||||<|0|||||||Mixed Models Analysis|F=21.662, df = 1||||||<0.000
82507113|NCT03314584|164704932|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|F=5.624, df=1||||||0.004
82507114|NCT03314584|164704933|SUPERIORITY|||||||0.046|||||||Mixed Models Analysis|F=3.092, df=1||||||0.046
82507115|NCT03314584|164704934|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|F=4.022, df=1||||||0.018
82507116|NCT03314584|164704935|SUPERIORITY|||||||0.598|||||||Mixed Models Analysis|F=0.279, df=1||||||0.598
82507117|NCT03314584|164704936|SUPERIORITY|||||||0.296|||||||Mixed Models Analysis|F=1.101, df=1||||||0.296
82507118|NCT03314584|164704937|SUPERIORITY|||||||0.033|||||||Mixed Models Analysis|F=4.672, df = 1||||||0.033
82507119|NCT03314584|164704938|SUPERIORITY|||||||0.606|||||||Mixed Models Analysis|F=0.268, df=1||||||0.606
82507120|NCT03314584|164704939|SUPERIORITY|||||||0.287|||||||Mixed Models Analysis|F=1.142, df=1||||||0.287
82507121|NCT03314584|164704940|SUPERIORITY|||||||0.049|||||||Mixed Models Analysis|F=4.039, df=1||||||0.049
82507122|NCT03314584|164704941|SUPERIORITY|||||||0.338|||||||Mixed Models Analysis|F=1.084, df=1||||||0.338
82507123|NCT00499096|164705008|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82507124|NCT02439320|164705025|SUPERIORITY||Odds Ratio (OR)|2.2|||<|0.001|TWO_SIDED|95.0|1.6|3.0|||Regression, Logistic|||||3.0|1.6|<0.001
82507125|NCT02439320|164705025|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|2.0|3.6|||Regression, Logistic|||||3.6|2.0|<0.001
82507126|NCT02439320|164705026|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
82507127|NCT02439320|164705026|SUPERIORITY||Odds Ratio, log|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
82507128|NCT02439320|164705027|SUPERIORITY||Odds Ratio, log|2.4|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
82507129|NCT02439320|164705027|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.001|TWO_SIDED|95.0|1.9|3.3|||Regression, Logistic|||||3.3|1.9|<0.001
82507130|NCT02439320|164705028|SUPERIORITY||Odds Ratio (OR)|1.7|||=|0.029|TWO_SIDED|95.0|1.1|2.8|||Regression, Logistic|||||2.8|1.1|=0.029
82507131|NCT02439320|164705028|SUPERIORITY||Odds Ratio (OR)|2.1|||=|0.002|TWO_SIDED|95.0|1.3|3.4|||Regression, Logistic|||||3.4|1.3|=0.002
82507132|NCT02439320|164705029|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5|||Regression, Logistic|||||0.5|0.3|<0.001
82507133|NCT02439320|164705029|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.2|0.4|||Regression, Logistic|||||0.4|0.2|<0.001
82507134|NCT02439320|164705030|SUPERIORITY||Odds Ratio, log|0.7||||0.12|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||||1.1|0.5|0.120
82507135|NCT02439320|164705030|SUPERIORITY||Odds Ratio (OR)|0.6||||0.035|TWO_SIDED|95.0|0.4|1.0|||Regression, Logistic|||||1.0|0.4|0.035
82507136|NCT02439320|164705032|SUPERIORITY||Odds Ratio (OR)|1.1||||0.386|TWO_SIDED|95.0|0.9|1.4|||Regression, Linear|||||1.4|0.9|0.386
82507137|NCT02439320|164705032|SUPERIORITY||Odds Ratio (OR)|1.1||||0.47|TWO_SIDED|95.0|0.9|1.4|||Regression, Linear|||||1.4|0.9|0.470
82507138|NCT02439320|164705033|SUPERIORITY||Odds Ratio (OR)|1.4||||0.006|TWO_SIDED|95.0|1.1|1.8|||Regression, Logistic|||||1.8|1.1|0.006
82507139|NCT02439320|164705033|SUPERIORITY||Odds Ratio (OR)|1.3||||0.037|TWO_SIDED|95.0|1.0|1.6|||Regression, Logistic|||||1.6|1.0|0.037
82507140|NCT02439320|164705034|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.5|2.4|||Regression, Logistic|||||2.4|1.5|<0.001
82507141|NCT02439320|164705034|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.4|2.2|||Regression, Logistic|||||02.2|1.4|<0.001
82507142|NCT02245841|164705039|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||< .001
82507143|NCT02245841|164705040|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||<0.001
82507144|NCT02245841|164705041|SUPERIORITY|||||||0.002|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||0.002
82507145|NCT02245841|164705042|SUPERIORITY|||||||0.05|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||0.050
82507146|NCT02245841|164705043|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||Analysis performed was two-sided Wilcoxon signed rank test. Median differences with interquartile range are reported in outcome measure data.||||<0.001
82507147|NCT03343483|164705047|SUPERIORITY||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|1.06||0.896|TWO_SIDED|95.0|-2.21|1.93|||Mixed Models Analysis|||||1.93|-2.21|.896
82507148|NCT03343483|164705048|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.8|TWO_SIDED||||||ANOVA|||||||0.80
82507149|NCT03343483|164705049|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
82566123|NCT01855997|164841919|SUPERIORITY_OR_OTHER|||||||7.2e-06|TWO_SIDED||||||t-test, 2 sided|||rs6592052||||0.00000720
82566124|NCT02389725|164841945|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82566125|NCT02389725|164841946|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82566126|NCT02389725|164841947|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
82566127|NCT02389725|164841948|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82566128|NCT03866434|164841949|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LSmeans|64.225|||||TWO_SIDED|90.0|53.212|77.516|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the least squares (LS) mean difference in the log-transformed parameters back transformed to the original scale) and their 90 percent (%) confidence intervals (CI) were calculated.||77.516|53.212|
82566129|NCT03866434|164841950|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|%ratio of Geometric LeastSquare(LS)means|82.203|||||TWO_SIDED|90.0|71.501|94.507|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||94.507|71.501|
82566130|NCT03866434|164841951|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|73.705|||||TWO_SIDED|90.0|64.555|84.152|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||84.152|64.555|
82627998|NCT01696396|164971510|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Response Rates|3.1|||||TWO_SIDED|90.0|-17.4|18.3||||||The difference in response rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||18.3|-17.4|
82627999|NCT01696396|164971511|SUPERIORITY||Odds Ratio (OR)|1.65||||0.34|TWO_SIDED|90.0|0.69|3.91|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.91|0.69|0.34
82628000|NCT01696396|164971511|SUPERIORITY||Difference in Adjusted Remission Rates|5.0|||||TWO_SIDED|90.0|-3.9|11.7||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||11.7|-3.9|
82628001|NCT01696396|164971511|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.82||||0.078|TWO_SIDED|90.0|1.07|7.41|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||7.41|1.07|0.078
82628002|NCT01696396|164971511|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|12.8|||||TWO_SIDED|90.0|-0.6|22.6||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.6|-0.6|
82628003|NCT01696396|164971511|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|3.37||||0.083|TWO_SIDED|90.0|1.07|10.66|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||10.66|1.07|0.083
82566131|NCT03866434|164841952|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|85.527|||||TWO_SIDED|90.0|78.163|93.584|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||93.584|78.163|
82628004|NCT01696396|164971511|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|16.0|||||TWO_SIDED|90.0|-1.2|28.3||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||28.3|-1.2|
82628005|NCT01696396|164971512|SUPERIORITY||Odds Ratio (OR)|1.52||||0.47|TWO_SIDED|90.0|0.59|3.93|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.93|0.59|0.47
82628006|NCT01696396|164971512|SUPERIORITY||Difference in Adjusted Remission Rates|2.8|||||TWO_SIDED|90.0|-4.7|8.1||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.1|-4.7|
82628007|NCT01696396|164971512|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.32||||0.21|TWO_SIDED|90.0|0.77|6.98|||Regression, Logistic|Adjusted for baseline CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.98|0.77|0.21
82628008|NCT01696396|164971512|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|6.8|||||TWO_SIDED|90.0|-4.3|14.5||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.5|-4.3|
82628009|NCT01696396|164971512|SUPERIORITY|Analysis was not part of the formal testing|Odds Ratio (OR)|2.66||||0.21|TWO_SIDED|90.0|0.75|9.45|||Regression, Logistic|Adjusted for baseline total CDAI score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||9.45|0.75|0.21
82628010|NCT01696396|164971512|SUPERIORITY|Analysis was not part of the formal testing|Difference in Adjusted Remission Rates|8.4|||||TWO_SIDED|90.0|-6.0|17.9||||||The difference in sustained remission rates, estimated from a logistic regression model adjusted for baseline CDAI score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||17.9|-6.0|
82628011|NCT01696396|164971513|SUPERIORITY||LS Mean Treatment Difference|-42.09||||0.006|TWO_SIDED|90.0|-67.3|-16.9|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-16.9|-67.3|0.006
82628012|NCT01696396|164971513|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-40.79||||0.095|TWO_SIDED|90.0|-81.5|-0.5|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-0.5|-81.5|0.095
82628013|NCT01696396|164971513|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-36.84||||0.11|TWO_SIDED|90.0|-74.3|0.7|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||0.7|-74.3|0.11
82628014|NCT01696396|164971514|SUPERIORITY||LS Mean Treatment Difference|-27.47||||0.045|TWO_SIDED|90.0|-50.0|-4.9|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||-4.9|-50.0|0.045
82628015|NCT01696396|164971514|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-23.59||||0.27|TWO_SIDED|90.0|-58.7|11.5|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||11.5|-58.7|0.27
82628016|NCT01696396|164971514|SUPERIORITY|Analysis was not part of the formal testing|LS Mean Treatment Difference|-16.37||||0.45|TWO_SIDED|90.0|-51.8|19.1|||IPW GEE Model|Adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||Comparisons between treatment arms was conducted using an inverse probability weighting (IPW) generalized estimating equations (GEE) model adjusted for prior anti-TNF use, pre-versus post-protocol amendment 3 and baseline CDAI score.||19.1|-51.8|0.45
82628017|NCT02579863|164971532|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.33475|TWO_SIDED|95.0|0.56|1.45|||Log Rank|One-sided p-value based on Stratified log-rank test.|Based on Cox regression model with treatment as a covariate stratified by Age (\<75 years vs \>= 75 years) and ISS stage (I or II vs. III).|||1.45|0.56|0.33475
82628018|NCT02579863|164971533|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.83416|TWO_SIDED|95.0|0.81|1.84|||Stratified log-rank test||"Based on Cox regression model with treatment as a covariate stratified by Age (\<75 years vs \>= 75 years) and ISS stage (I or II vs. III)."|||1.84|0.81|0.83416
82628019|NCT02579863|164971534|SUPERIORITY||Difference in % vs SOC|5.8||||0.13102|TWO_SIDED|95.0|-4.3|15.8|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|||Based on Miettinen \& Nurminen method stratified by 'Age' (\<75 years vs \>= 75 years) and 'ISS stage' (I or II vs. III); If there were no participants in one of the treatment groups involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison.|15.8|-4.3|0.13102
82628020|NCT00446797|164971562|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To conclude non inferiority, the lower bound of the 2-sided 95% confidence interval of the difference in change scores between the 2 treatment groups (nsNSAIDs - celecoxib) must be greater than -10 mm.|Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|2.11||||95.0|-0.76|7.55|||ANCOVA|Terms for treatment, country (fixed), and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Least squares mean||7.55|-0.76|
82628021|NCT00446797|164971563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|2.02||||95.0|-0.89|7.08|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||7.08|-0.89|
82628022|NCT00446797|164971563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.46|STANDARD_ERROR_OF_MEAN|2.04||||95.0|-0.55|7.48|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||7.48|-0.55|
82628023|NCT00446797|164971563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|1.86||||95.0|-0.91|6.42|||ANCOVA|Terms for treatment, country (fixed) and the baseline pain VAS score|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||6.42|-0.91|
82628024|NCT00446797|164971564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1591||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 2||||0.1591
82628025|NCT00446797|164971564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3995||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 3||||0.3995
82628026|NCT00446797|164971564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6805||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Regression, Logistic|Terms for treatment and the baseline pain VAS score||Day 7||||0.6805
82628027|NCT00446797|164971565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2411||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 2||||0.2411
82628028|NCT00446797|164971565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1163||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 3||||0.1163
82628029|NCT00446797|164971565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 7||||0.0440
82628030|NCT00446797|164971566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7223||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 3||||0.7223
82628031|NCT00446797|164971566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0541||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 7||||0.0541
82628032|NCT00446797|164971567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 2||||0.2900
82628033|NCT00446797|164971567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0157||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 3||||0.0157
82628034|NCT00446797|164971567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1206||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|"Controlled for country~Test of row mean score differences based on modified ridits (standardizing the mid-rank)"||Day 7||||0.1206
82628035|NCT00446797|164971568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 2||||0.0846
82628036|NCT00446797|164971568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3041||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 3||||0.3041
82628037|NCT00446797|164971568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1216||95.0||||Threshold for statistical significance: p value is less than or equal to 0.05|Cochran-Mantel-Haenszel|Controlled for country Test of row mean score differences based on modified ridits (standardizing the mid-rank)||Day 7||||0.1216
82628038|NCT00446797|164971569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.24||0.395||95.0|-0.33|0.62||Overall p-value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.62|-0.33|0.395
82628039|NCT00446797|164971569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.22||0.004||95.0|0.18|1.04||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||1.04|0.18|0.004
82628040|NCT00446797|164971569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.22||0.122||95.0|-0.08|0.77||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.77|-0.08|0.122
82628041|NCT00446797|164971570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.21||0.604||95.0|-0.32|0.49||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.49|-0.32|0.604
82628042|NCT00446797|164971570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|0.18||0.124||95.0|-0.07|0.63||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.63|-0.07|0.124
82628043|NCT00446797|164971570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.15||0.062||95.0|0.03|0.61||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.61|0.03|0.062
82628044|NCT00446797|164971571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.21||0.705||95.0|-0.36|0.47||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.47|-0.36|0.705
82628045|NCT00446797|164971571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.19||0.064||95.0|-0.01|0.73||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.73|-0.01|0.064
82628046|NCT00446797|164971571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.074||95.0|-0.01|0.68||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.68|-0.01|0.074
82628047|NCT00446797|164971572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.24||0.017||95.0|0.11|1.05||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||1.05|0.11|0.017
82628048|NCT00446797|164971572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.2||0.108||95.0|-0.05|0.74||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.74|-0.05|0.108
82628049|NCT00446797|164971572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.17||0.117||95.0|-0.01|0.66||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.66|-0.01|0.117
82628050|NCT00446797|164971573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.2||0.229||95.0|-0.17|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.60|-0.17|0.229
82628051|NCT00446797|164971573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.18||0.027||95.0|0.05|0.75||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.75|0.05|0.027
82628052|NCT00446797|164971573|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.07||95.0|0.01|0.65||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.65|0.01|0.070
82628053|NCT00446797|164971574|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.3||0.954||95.0|-0.64|0.53||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.53|-0.64|0.954
82628054|NCT00446797|164971574|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.31||0.172||95.0|-0.19|1.02||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||1.02|-0.19|0.172
82628055|NCT00446797|164971574|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.24||0.541||95.0|-0.3|0.62||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.62|-0.30|0.541
82628056|NCT00446797|164971575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.34||0.924||95.0|-0.75|0.58||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.58|-0.75|0.924
82628057|NCT00446797|164971575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.29||0.898||95.0|-0.62|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.51|-0.62|0.898
82628058|NCT00446797|164971575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.24||0.655||95.0|-0.33|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.60|-0.33|0.655
82628059|NCT00446797|164971576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.31||0.929||95.0|-0.59|0.62||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.62|-0.59|0.929
82507150|NCT03343483|164705050|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
82628060|NCT00446797|164971576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.3||0.712||95.0|-0.5|0.71||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.71|-0.50|0.712
82628061|NCT00446797|164971576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.993||95.0|-0.44|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.51|-0.44|0.993
82628062|NCT00446797|164971577|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.32||0.779||95.0|-0.53|0.75||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.75|-0.53|0.779
82628063|NCT00446797|164971577|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.34||0.972||95.0|-0.69|0.65||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.65|-0.69|0.972
82628064|NCT00446797|164971577|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.27||0.844||95.0|-0.47|0.61||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.61|-0.47|0.844
82628065|NCT00446797|164971578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.31||0.944||95.0|-0.63|0.6||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.60|-0.63|0.944
82566132|NCT03866434|164841953|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|73.007|||||TWO_SIDED|90.0|62.528|85.243|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||85.243|62.528|
82566133|NCT03866434|164841954|EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%.|% ratio of Geometric LS means|86.504|||||TWO_SIDED|90.0|78.462|95.371|||ANOVA|A 2-factor analysis of variance (ANOVA) model with fixed factors for treatment and participant was fitted to the natural logtransformed PK parameters.|This analysis was performed based on the ratio of geometric LS means and 90% confidence interval for ratio of geometric means expressed as percent.|The means of the log-transformed pharmacokinetic parameters were compared between the two treatments (anagrelide with omeprazole \[Day 8\] versus anagrelide alone \[Day 1\]). In order to estimate the magnitude of the treatment regimen differences, the geometric mean ratio (i.e., the LS mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CI were calculated.||95.371|78.462|
82566134|NCT01485991|164841956|SUPERIORITY_OR_OTHER||Difference in proportions|-1.1||||0.001|TWO_SIDED|95.0|-7.8|5.5||based on the asymptotic distribution of the generalized Cochran-Mantel-Haenszel statistic controlling for stratification factors, using a non-inferiority margin of 12 percent|Stratified Cochran-Mantel-Haenszel|||||5.5|-7.8|0.001
82566135|NCT00125853|164841965|OTHER|"Linear Mixed effect Modelling, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE) = 0.05 (0.09)"||||||0.6|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on ISI||||0.60
82566136|NCT00125853|164841966|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -2.59 (1.34)"||||||0.06|||||||Linear Mixed effect Model, adjusted for|||Comparing treatment effects on ABPM||||0.06
82566137|NCT00125853|164841967|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -0/09 (0.14)"||||||0.51|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on total cholesterol||||0.51
82566138|NCT00125853|164841968|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE) =0.02 (0.03)"||||||0.48|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on HbA1c||||0.48
82566139|NCT00125853|164841969|OTHER|"Linear Mixed effect Model, adjusted for baseline values and period effect~Difference of LSMeans treatment effect (SE)~= -0.21(0.13)"||||||0.09|||||||Linear Mixed effect Modelling, adjusted|||Comparing treatment effects on BMI||||0.09
82566140|NCT04908800|164842005|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.88|||||TWO_SIDED|90.0|1.74|2.04|||||"Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect.~Within-subject coefficient of variation was 10.7."|||2.04|1.74|
82566141|NCT04908800|164842006|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.68|||||TWO_SIDED|90.0|1.57|1.79|||||"Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect.~Within-subject coefficient of variation was 9.01."|||1.79|1.57|
82628066|NCT00446797|164971578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.654||95.0|-0.62|0.38||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.38|-0.62|0.654
82628067|NCT00446797|164971578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.952||95.0|-0.36|0.39||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.39|-0.36|0.952
82628068|NCT00446797|164971579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.31||0.842||95.0|-0.65|0.59||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.59|-0.65|0.842
82628069|NCT00446797|164971579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.828||95.0|-0.57|0.49||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.49|-0.57|0.828
82628070|NCT00446797|164971579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.21||0.542||95.0|-0.3|0.53||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.53|-0.30|0.542
82566142|NCT04908800|164842007|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.15|||||TWO_SIDED|90.0|1.09|1.21|||||Data were analyzed using a mixed model which included actual treatment as fixed effect and participant as a random effect. Within-subject coefficient of variation was 7.18.|||1.21|1.09|
82566143|NCT04908800|164842012|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.971|||||TWO_SIDED|95.0|0.882|1.06|||||Between-subject geometric coefficient of variation was 26.1. Data were analyzed using a power model.|Dose Proportionality Assessment||1.06|0.882|
82566144|NCT04908800|164842012|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.01|||||TWO_SIDED|95.0|0.926|1.11|||||Geometric least squares mean was 600 (fasted) and 607 (fed). Within-subject coefficient of variation was 6.01. Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect.|Food Effect Assessment||1.11|0.926|
82628071|NCT00446797|164971580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.34||0.404||95.0|-0.92|0.42||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.42|-0.92|0.404
82628072|NCT00446797|164971580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.28||0.816||95.0|-0.53|0.58||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.58|-0.53|0.816
82628073|NCT00446797|164971580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.23||0.837||95.0|-0.37|0.52||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.52|-0.37|0.837
82507151|NCT03343483|164705051|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
82507152|NCT03343483|164705052|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.57|TWO_SIDED||||||Mixed Models Analysis|||||||0.57
82507153|NCT02404350|164705086|SUPERIORITY||Odds Ratio (OR)|4.02|||<|0.0001|TWO_SIDED|95.0|2.78|5.79|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||5.79|2.78|<0.0001
82507154|NCT02404350|164705086|SUPERIORITY||Odds Ratio (OR)|3.38|||<|0.0001|TWO_SIDED|95.0|2.35|4.87|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||4.87|2.35|<0.0001
82507155|NCT02404350|164705086|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|3.16|6.63|||Regression, Logistic|||Statistical values were calculated from a logistic regression model with treatment and randomization stratum (TNF-a status -naive or Incidence Rate) as factors and baseline weight as a covariate.||6.63|3.16|<0.0001
82507156|NCT02404350|164705087|SUPERIORITY||Difference in Mean|-0.61|STANDARD_ERROR_OF_MEAN|0.22||0.0061|TWO_SIDED||||||Non-parametric ANCOVA model||\*For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0061
82507157|NCT02404350|164705087|SUPERIORITY||Difference in Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.13||0.0048|TWO_SIDED||||||Non-parametric ANCOVA model||\*For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0048
82507158|NCT02404350|164705087|SUPERIORITY||Difference in Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.13||0.0003|||||||Non-parametric ANCOVA model||For the Statistical Test of the Hypothesis for the Secondary Outcome, The Estimation Parameter is the Standard Error of the Difference in Mean and not Standard Error of the Mean|Secukinumab 300 mg With Load compared to Placebo Estimate (for the difference in mean), SE and p-value are from a non-parametric ANCOVA model (Koch, 1998) with the change from baseline van der Heijde total modified Sharp score (or Erosion Score or Joint Space Narrowing Score) as the dependent variable, treatment and randomization stratum (TNFa status -naive or IR ) as factors, and weight and baseline van der Heijde total modified Sharp score as covariates.||||0.0003
82507159|NCT02404350|164705088|SUPERIORITY||Odds Ratio (OR)|10.15|||<|0.0001|TWO_SIDED|95.0|5.52|18.63|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||18.63|5.52|<0.0001
82507160|NCT02404350|164705088|SUPERIORITY||Odds Ratio (OR)|11.66|||<|0.0001|TWO_SIDED|95.0|6.37|21.37|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||21.37|6.37|<0.0001
82507161|NCT02404350|164705088|SUPERIORITY||Odds Ratio (OR)|18.06|||<|0.0001|TWO_SIDED|95.0|9.56|34.12|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||34.12|9.56|<0.0001
82507162|NCT02404350|164705089|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.0001|TWO_SIDED|95.0|2.31|8.83|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||8.83|2.31|<0.0001
82507163|NCT02404350|164705089|SUPERIORITY||Odds Ratio (OR)|6.14|||<|0.0001|TWO_SIDED|95.0|3.18|11.87|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||11.87|3.18|<0.0001
82628074|NCT00446797|164971581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.25||0.887||95.0|-0.54|0.45||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 2 Least squares mean||0.45|-0.54|0.887
82507164|NCT02404350|164705089|SUPERIORITY||Odds Ratio (OR)|12.55|||<|0.0001|TWO_SIDED|95.0|6.43|24.48|||Regression, Logistic|||"Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.~Missing responses are imputed as non-responders."||24.48|6.43|<0.0001
82507165|NCT02404350|164705090|SUPERIORITY||Odds Ratio, log|5.37|||<|0.0001|TWO_SIDED|95.0|3.3|8.73|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||8.73|3.30|<0.0001
82507166|NCT02404350|164705090|SUPERIORITY||Odds Ratio (OR)|6.37|||<|0.0001|TWO_SIDED|95.0|3.93|10.32|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||10.32|3.93|<0.0001
82507167|NCT02404350|164705090|SUPERIORITY||Odds Ratio (OR)|7.43|||<|0.0001|TWO_SIDED|95.0|4.61|12.0|||Regression, Logistic|||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment and randomization stratum (TNF-alpha status -naïve or IR) as factors and baseline weight as a covariate.||12.00|4.61|<0.0001
82507168|NCT02404350|164705091|SUPERIORITY|Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure|Treatment contrast in LS mean (Change)|-0.24|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.32|-0.15|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.15|-0.32|<0.0001
82507169|NCT02404350|164705091|SUPERIORITY||Treatment Contrast in LS mean (Change)|-0.23|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.32|-0.14|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.14|-0.32|<0.0001
82507170|NCT02404350|164705091|SUPERIORITY||Treatment Contrast inj LS mean (Change)|-0.33|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.42|-0.24|||Mixed Models Analysis|LS Mean, 95% confidence interval, and p-value are from a mixed model for repeated measures (MMRM)||||-0.24|-0.42|<0.0001
82507171|NCT02404350|164705092|SUPERIORITY||Treatment contrast in LS mean (Change)|-0.66|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-0.85|-0.47|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.47|-0.85|<0.0001
82507172|NCT02404350|164705092|SUPERIORITY||Treatment Contrast in LS Mean (Change)|-0.66|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-0.85|-0.47|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.47|-0.85|<0.0001
82507173|NCT02404350|164705092|SUPERIORITY||Treatment contrast in LS mean (Change)|-0.86|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-1.05|-0.67|||Mixed Models Analysis|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM)||Mixed model with treatment regimen, analysis visit and randomization stratum (TNF-alpha status -naïve or IR) as factors, weight and baseline score as continuous covariates, and treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure||-0.67|-1.05|<0.0001
82507174|NCT02404350|164705093|SUPERIORITY||Odds Ratio (OR)|0.75||||0.225|TWO_SIDED|95.0|0.47|1.19|||Regression, Logistic|||||1.19|0.47|0.2250
82507175|NCT02404350|164705093|SUPERIORITY||Odds Ratio (OR)|0.45||||0.0004|TWO_SIDED|95.0|0.29|0.7|||Regression, Logistic|||||0.70|0.29|0.0004
82507176|NCT02404350|164705093|SUPERIORITY||Odds Ratio, log|0.44||||0.0004|TWO_SIDED|95.0|0.28|0.69|||Regression, Logistic|||||0.69|0.28|0.0004
82507177|NCT02404350|164705094|SUPERIORITY||Odds Ratio (OR)|0.37||||0.0004|TWO_SIDED|95.0|0.22|0.65|||Regression, Logistic|||||0.65|0.22|0.0004
82507178|NCT02404350|164705094|SUPERIORITY||Odds Ratio (OR)|0.34||||0.0003|TWO_SIDED|95.0|0.19|0.6|||Regression, Logistic|||||0.60|0.19|0.0003
82507179|NCT02404350|164705094|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.13|0.44|||Regression, Logistic|||||0.44|0.13|<0.0001
82507180|NCT03969992|164705107|SUPERIORITY|||||||0.1924||||||A closed test procedure is used to protect the type I error rate; the order of testing was: AeroFact high dose compared to control and if significant (p-value \<0.05), the AeroFact low dose was compared to the control.|Generalized estimating equation method|||||||0.1924
82507181|NCT01405963|164705121|OTHER||Treatment Difference|7.65||||0.09|TWO_SIDED|95.0|-1.3|16.6|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures analysis of covariance (ANCOVA) that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||16.60|-1.30|0.09
82628075|NCT00446797|164971581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.24||0.889||95.0|-0.43|0.51||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 3 Least squares mean||0.51|-0.43|0.889
82628076|NCT00446797|164971581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.2||0.738||95.0|-0.3|0.47||Overall p value|ANCOVA|Terms for treatment and country|Direction: nsNSAIDs minus celecoxib|Day 7 Least squares mean||0.47|-0.30|0.738
82628077|NCT02019758|164971582|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||The mean post-treatment maximum eosinophil count will be compared between the OVB and MDI groups using a two-sample t-test.||||0.31
82628078|NCT02019758|164971583|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||The mean DSQ scores will be compared between the OVB and MDI groups using a two-sample t-test.||||0.70
82628079|NCT02019758|164971588|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.52|2.08||||||||2.08|0.52|
82628080|NCT02019758|164971589|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82628081|NCT02019758|164971590|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82628082|NCT02019758|164971591|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82628083|NCT00364832|164971592|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.81|||||TWO_SIDED|90.0|0.73|0.9|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ week (0.4, 0.8 and 1.2 dose group)||0.90|0.73|
82628084|NCT00364832|164971592|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.72|||||TWO_SIDED|90.0|0.55|0.86|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ 3 weeks (0.4, 0.8 and 1.2 dose group)||0.86|0.55|
82628085|NCT00364832|164971592|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.93|||||TWO_SIDED|90.0|0.81|1.09|||||To analyze dose conversion factors (CF), 2nd regression (R) analysis was performed on 3 different CF dose groups, using the R slope estimates of Hb change over 6 weeks. Equi-effective CF was interpolated using value that gives an Hb change of zero.|All cohorts with dosing frequency 1x/ 4 weeks (0.4, 0.8 and 1.2 dose group)||1.09|0.81|
82628086|NCT00762528|164971598|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628087|NCT00762528|164971599|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628088|NCT00762528|164971600|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628089|NCT00762528|164971601|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628090|NCT00762528|164971602|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628091|NCT00762528|164971603|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628092|NCT00762528|164971604|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628093|NCT00762528|164971605|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82628094|NCT03053401|164971613|OTHER|Test of difference was conducted.||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
82628095|NCT03053401|164971614|OTHER|||||||0.762||||||Alpha = 0.025 for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.762
82628096|NCT03053401|164971614|OTHER|||||||0.41||||||Alpha = 0.025 for multiple comparisons.|Wilcoxon Rank Sum Test with Exact Option|||||||0.410
82628097|NCT03053401|164971615|OTHER|Test of Difference conducted.||||||0.454|||||||t-test, 2 sided|||||||0.454
82628098|NCT00407550|164971651|SUPERIORITY|||||||0.015|||||||Log Rank|||||||0.015
82628099|NCT00407550|164971652|SUPERIORITY|||||||0.56|||||||Log Rank|||||||0.56
82628100|NCT02918318|164971659|SUPERIORITY||Difference of Least Squares means|-1.0|STANDARD_ERROR_OF_MEAN|2.25||0.475|TWO_SIDED|90.0|-5.77|3.7||1-sided|Dunnett adjustment|||||3.70|-5.77|0.475
82628101|NCT02918318|164971659|SUPERIORITY||Difference of Least Squares means|0.6|STANDARD_ERROR_OF_MEAN|2.33||0.504|TWO_SIDED|90.0|-4.32|5.47||1-sided|Dunnett adjustment|||||5.47|-4.32|0.504
82628102|NCT02918318|164971659|SUPERIORITY||Difference of Least Squares means|-0.9|STANDARD_ERROR_OF_MEAN|2.26||0.482|TWO_SIDED|90.0|-5.66|3.83||1-sided|Dunnett adjustment|||||3.83|-5.66|0.482
82628103|NCT03185819|164971672|SUPERIORITY||Difference of LS Means|-5.8|STANDARD_ERROR_OF_MEAN|2.74|=|0.037|TWO_SIDED|95.0|-11.19|-0.35||Threshold for significance for p-value was 0.05.|ANCOVA|||A pooled (54 mg and 84 mg) sequential multiple testing procedure was implemented to control type I error by comparing pooled data against midazolam + placebo matched to esketamine nasal spray.||-0.35|-11.19|= 0.037
82628104|NCT03185819|164971672|SUPERIORITY||Difference of LS Mean|-5.7|STANDARD_ERROR_OF_MEAN|3.65|=|0.123|TWO_SIDED|95.0|-12.91|1.55||Threshold for significance for p-value was 0.05.|ANCOVA|||Individual esketamine dose (84 mg versus medazolam + esketamine matched placebo) independent testing was planned to be performed after pooled (56 mg + 84 mg) analysis.||1.55|-12.91|= 0.123
82628105|NCT03185819|164971672|SUPERIORITY||Difference of LS Means|-5.9|STANDARD_ERROR_OF_MEAN|3.23|=|0.072|TWO_SIDED|95.0|-12.25|0.53||Threshold for significance for p-value was 0.05.|ANCOVA|||Individual esketamine dose (56 mg versus medazolam + esketamine matched placebo) independent testing was planned to be performed after pooled (56 mg + 84 mg) analysis.||0.53|-12.25|= 0.072
82628106|NCT03185819|164971672|SUPERIORITY||Difference of LS Means|-2.4|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|-9.08|4.19||||||||4.19|-9.08|
82628107|NCT03097133|164971673|SUPERIORITY||Difference of Least Square Means|-3.9|STANDARD_ERROR_OF_MEAN|1.39||0.006|TWO_SIDED|95.0|-6.6|-1.11|||ANCOVA|||||-1.11|-6.60|0.006
82628108|NCT00371540|164971696|SUPERIORITY_OR_OTHER|||||||0.65|||||||Fisher Exact|||Note: The differences between the number of individuals evaluable for this secondary outcome and the number of individuals evaluable for the primary outcome is related to specimen loss by the laboratory. As such of the Routine care group only 96 of 102 patients completing the study were evaluable for the viral load outcome and only 86 of 87 patients in the Home visit group.||||0.65
82628109|NCT00371540|164971697|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82628110|NCT00371540|164971698|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
82566145|NCT04908800|164842012|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.06|||||TWO_SIDED|95.0|0.701|1.59|||||Geometric least squares mean was 600 (fasted male) and 634 (fasted female). Between subject coefficient of variation was 32.7. Data were analyzed using an ANOVA model which included actual treatment as a factor.|Sex Effect Assessment||1.59|0.701|
82566146|NCT04908800|164842013|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.977|||||TWO_SIDED|95.0|0.891|1.06|||||Between-subject geometric coefficient of variation was 25.4. Data were analyzed using a power model.|Dose Proportionality Assessment||1.06|0.891|
82566147|NCT04908800|164842013|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.0|||||TWO_SIDED|95.0|0.905|1.12|||||"Geometric least squares mean was 575 (fasted) and 578 (fed). Within-subject coefficient of variation was 7.05.~Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect."|Food Effect Assessment||1.12|0.905|
82566148|NCT04908800|164842013|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.04|||||TWO_SIDED|95.0|0.707|1.54|||||"Geometric least squares mean was 575 (fasted male) and 600 (fasted female). Between subject coefficient of variation was 31.1.~Data were analyzed using an ANOVA model which included actual treatment as a factor."|Sex Effect Assessment||1.54|0.707|
82566149|NCT04908800|164842014|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.989|||||TWO_SIDED|95.0|0.909|1.07|||||Between-subject geometric coefficient of variation was 23.0. Data were analyzed using a power model.|Dose Proportionality Assessment||1.07|0.909|
82566150|NCT04908800|164842014|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.948|||||TWO_SIDED|95.0|0.824|1.09|||||"Geometric least squares mean was 31.6 (fasted) and 30.0 (fed). Within-subject coefficient of variation was 9.44.~Data were analyzed using mixed model which included actual treatment as fixed effect and participant as a random effect."|Food Effect Assessment||1.09|0.824|
82566151|NCT04908800|164842014|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|1.23|||||TWO_SIDED|95.0|0.928|1.62|||||"Geometric least squares mean was 31.6 (fasted male) and 38.8 (fasted female). Between subject coefficient of variation was 22.0.~Data were analyzed using an ANOVA model which included actual treatment as a factor."|Sex Effect Assessment||1.62|0.928|
82566152|NCT04908800|164842019|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.11|||||TWO_SIDED|95.0|0.966|1.26|||||Between-subject geometric coefficient of variation was 26.9. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.26|0.966|
82566153|NCT04908800|164842021|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.12|||||TWO_SIDED|95.0|0.945|1.29|||||Between-subject geometric coefficient of variation was 32.1. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.29|0.945|
82566154|NCT04908800|164842022|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.1|||||TWO_SIDED|95.0|0.971|1.23|||||Between-subject geometric of coefficient variation was 23.2. Data were analyzed using a power model.|"Dose Proportionality Assessment. KRP-A218 assessed across the following dose levels: 2 mg, 4 mg, 8 mg, and 11 mg.~Dose proportionality results for Part B are only for the Day 14 profile (not Day 1)."||1.23|0.971|
82566155|NCT00157209|164842032|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.745||||0.045|TWO_SIDED|95.0|0.533|1.042|||Log Rank|||||1.042|0.533|0.045
82628111|NCT02910089|164971699|SUPERIORITY|As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.2|0.32||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with an identity link function (as a continuous variable) and normally distributed errors|Model-based Mean Differences are reported that have been adjusted for imbalanced baseline characteristics|||0.32|-0.2|
82628112|NCT02910089|164971700|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.42|4.4||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with an identity link function and normally distributed errors|Model-based Mean Differences are reported that have been adjusted for imbalanced baseline characteristics|Average of the percentage (proportion x 100) of days covered across all subjects.||4.40|-2.42|
82566156|NCT04474691|164842036|SUPERIORITY||Mean Difference (Final Values)|21.1||||0.67|TWO_SIDED||||||t-test, 1 sided|df = 7|Traditional treatment condition - visual-acoustic biofeedback treatment condition. Because more accurate productions have lower acoustic values, a positive difference would indicate an advantage for biofeedback.|||||.67
82566157|NCT00449033|164842090|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.401||95.0|0.83|1.16|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||Sample size based on the primary efficacy endpoint of OS in the ITT (non-squamous) population. Clinically meaningful improvement defined as 30% increase in median OS (that is, a hazard ratio of 0.76923, Sorafenib+GC over Placebo+GC). With one-sided alpha of 0.025, power of 86% and a randomization ratio of 1:1 between Sorafenib+GC and Placebo+GC, and one formal final analysis of OS performed, a total of 544 events (deaths) were required.||1.16|0.83|0.401
82566158|NCT00449033|164842091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.563||95.0|0.87|1.18|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same factors as randomization plus histology.||||1.18|0.87|0.563
82566159|NCT00449033|164842093|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.008||95.0|0.71|0.97|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||0.97|0.71|0.008
82566160|NCT00449033|164842094|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0004||95.0|0.6|0.88|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||0.88|0.60|0.0004
82507182|NCT01405963|164705121|OTHER||Treatment Difference|9.91||||0.02|TWO_SIDED|95.0|1.59|18.23|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||18.23|1.59|0.02
82507183|NCT01405963|164705122|OTHER||Treatment Difference|-4.35||||0.11|TWO_SIDED|95.0|-9.8|1.1|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures analysis of covariance (ANCOVA) that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||1.10|-9.80|0.11
82507184|NCT01405963|164705122|OTHER||Treatment Difference|-4.66||||0.07|TWO_SIDED|95.0|-9.71|0.39|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.39|-9.71|0.07
82507185|NCT01405963|164705126|OTHER||Treatment Difference|8.57||||0.05|TWO_SIDED|95.0|0.01|17.13|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||17.13|0.01|0.05
82507186|NCT01405963|164705126|OTHER||Treatment Difference|10.27||||0.06|TWO_SIDED|95.0|-0.46|21.0|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||21.00|-0.46|0.06
82507187|NCT01405963|164705127|OTHER||Treatment Difference|-6.08||||0.03|TWO_SIDED|95.0|-11.56|-0.6|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||-0.60|-11.56|0.03
82507188|NCT01405963|164705127|OTHER||Treatment Difference|-7.44||||0.03|TWO_SIDED|95.0|-14.22|-0.66|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||-0.66|-14.22|0.03
82507189|NCT01405963|164705128|OTHER||Treatment Difference|0.33||||0.05|TWO_SIDED|95.0|-0.01|0.68|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.68|-0.01|0.05
82507190|NCT01405963|164705128|OTHER||Treatment Difference|0.39||||0.08|TWO_SIDED|95.0|-0.06|0.84|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.84|-0.06|0.08
82507191|NCT01405963|164705129|OTHER||Treatment Difference|0.28||||0.03|TWO_SIDED|95.0|0.03|0.53|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.53|0.03|0.03
82507192|NCT01405963|164705129|OTHER||Treatment Difference|0.33||||0.06|TWO_SIDED|95.0|-0.01|0.66|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in early asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.66|-0.01|0.06
82628113|NCT02910089|164971701|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.83|1.28||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|GEE|Generalized Estimating Equations with a logit link and binary distributed errors||||1.28|0.83|
82507193|NCT01405963|164705130|OTHER||Treatment Difference|0.41||||0.01|TWO_SIDED|95.0|0.12|0.7|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.70|0.12|0.01
82378417|NCT03295630|164465258|OTHER||Intraclass Correlation Coefficient|0.46|||||TWO_SIDED|95.0|-0.1|0.78||||||Correlation between accelerometer quantified step count (thigh placement) and observed step count||0.78|-0.1|
82507194|NCT01405963|164705130|OTHER||Treatment Difference|0.42||||0.01|TWO_SIDED|95.0|0.11|0.72|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and Day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.72|0.11|0.01
82507195|NCT01405963|164705131|OTHER||Treatment Difference|0.24||||0.02|TWO_SIDED|95.0|0.04|0.45|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 42 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.45|0.04|0.02
82507196|NCT01405963|164705131|OTHER||Treatment Difference|0.18||||0.15|TWO_SIDED|95.0|-0.07|0.44|||ANCOVA|Model includes treatment, visit, treatment by visit interaction as fixed effects and day -14 value as covariate.|Treatment difference estimate (tezepelumab minus placebo) is mean estimate based on ANCOVA.|Treatment difference in late asthmatic response at day 84 was evaluated using a repeated-measures ANCOVA that included study treatment and study visit as independent variables, treatment by study visit as an interaction term, and the corresponding baseline value (as measured 14 days before the first dose of a study drug) as a model covariate.||0.44|-0.07|0.15
82507197|NCT03089606|164705223|OTHER|2-tailed Fisher's exact test||||||0.08|||||||2-tailed Fisher's exact test|||Null hypothesis. No association between baseline C11-AMT PET SUVmax value and antitumor response to pembrolizumab.||||0.08
82507198|NCT00335972|164705229|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority. For MAP with a noninferiority delta of 7.5 mmHg and expected the SD of 12, we needed a maximum of N= 65 per group. Incorporating the two interim and one final analyses, we thus planned a maximum sample size of N=71/group (N=142 total).|Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|95.0|-13.0|-5.0||Noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest). Bonferroni correction was used for superiority testing and 97.5% CI were reported.|repeated measures ANOVA||mean difference: Dexmedetomidine arm - Remifentanil arm|||-5|-13|<0.001
82507199|NCT00335972|164705229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|97.5|-13.0|-4.0||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI).|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority test||-4|-13|<0.001
82523001|NCT01337674|164741427|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|-1.22|||||TWO_SIDED|90.0|-8.42|5.98|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 1||5.98|-8.42|
82523002|NCT01337674|164741427|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|2.29|||||TWO_SIDED|90.0|-4.92|9.49|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 7||9.49|-4.92|
82523003|NCT01337674|164741427|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|1.65|||||TWO_SIDED|90.0|-5.31|8.62|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 1||8.62|-5.31|
82523004|NCT01337674|164741427|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Met versus PBO + Met is \<20 mmHg|Mean Difference (Final Values)|-1.09|||||TWO_SIDED|90.0|-8.06|5.88|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 7||5.88|-8.06|
82523005|NCT01337674|164741428|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|1.95|||||TWO_SIDED|90.0|-2.85|6.75|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 1||6.75|-2.85|
82378418|NCT03295630|164465258|OTHER||Mean Difference (Final Values)|-0.84|||||TWO_SIDED|||||||||Difference (steps) between accelerometer quantified steps (ankle placement) and observed step count||||
82507200|NCT00335972|164705230|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority. For VRS pain, the standard deviation (SD) was expected to be about 1.75, such that with a noninferiority delta of 1, we needed a maximum of N= 66 per group|Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1||noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest).|repeated measures ANOVA model||mean difference: Dexmedetomidine arm - Remifentanil arm|||-1.1|-2.7|<0.001
82507201|NCT00335972|164705230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|97.5|-2.8|-0.9||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI).|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority test||-0.9|-2.8|<0.001
82507202|NCT00335972|164705231|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was based on being able to detect noninferiority on both analgesia (pain score and opioids) and hemodynamic responses, and superiority on at least one of them with 90% power and significance level of 0.025 for each of noninferiority and superiority.we needed a maximum of N= 65 per group. We assumed for opioids that the coefficient of variation (SD/mean) was about 0.4, resulting in a similar sample size (64/group) with noninferiority deltas of 20% of the observed mean|Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0||noninferiority confidence intervals are 95% (alpha of 0.05/2=0.025 in direction of interest)|Wilcoxon (Mann-Whitney)||mean difference: Dexmedetomidine arm - Remifentanil|||-5|-10|<0.001
82507203|NCT00335972|164705231|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|97.5|-10.0|-3.0||Bonferroni correction was used for superiority testing since superiority on either hemodynamics or pain control would be interpreted as Dex better than Remi (alpha=0.0125 = 0.025/2, 97.5% CI)|repeated measures ANOVA model||mean difference: dexmedetomidine arm - remifentanil arm|superiority||-3|-10|<0.001
82507204|NCT01408030|164705248|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.97|||||||ANOVA|||||||0.97
82507205|NCT01408030|164705249|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.47|||||||ANOVA|||||||.47
82507206|NCT01408030|164705250|OTHER|Two sided testing was performed with a significance level of 0.05.|||||<|0.001||||||"A mixed-model repeated-measures ANOVA was used to analyze ESS for drug and time (baseline, week 12) effects.~Listed P value is for time effect."|Mixed Models Analysis|Clinical site and patient were included in the model as random effects.||||||<0.001
82507207|NCT01408030|164705251|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.43|||||||ANCOVA|Adjusted for baseline values and random effect of clinic site.||||||0.43
82507208|NCT01408030|164705252|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.42|||||||Fisher Exact|||||||0.42
82507209|NCT01408030|164705253|OTHER|Two sided testing was performed with a significance level of 0.05.||||||0.08|||||||Fisher Exact|||||||0.08
82507210|NCT02590939|164705254|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82507211|NCT02590939|164705255|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82507212|NCT02590939|164705256|SUPERIORITY|||||||0.666||||||Statistical significance threshold set to 0.05|Fisher Exact|||||||0.666
82507213|NCT02590939|164705257|SUPERIORITY|||||||0.026||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.026
82507214|NCT02590939|164705258|SUPERIORITY|||||||1||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||1
82507215|NCT02590939|164705259|SUPERIORITY|||||||0.037||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.037
82507216|NCT02590939|164705260|SUPERIORITY|||||||0.028||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.028
82507217|NCT02590939|164705261|SUPERIORITY|||||||0.062||||||Statistical significance threshold set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.062
82507218|NCT04365556|164705268|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance is p\<.05|ANCOVA|||||||<0.001
82507219|NCT04365556|164705269|SUPERIORITY|||||||0.69|||||||ANCOVA|||||||0.69
82507220|NCT00502697|164705287|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The original proposed sample size for this study was 300. This sample size was based on previous evidence that indicated that a reduction of 15% in the rate of preterm birth would be detectable with groups of 150. Because of concerns with systemic changes in the study's health care delivery environment, an interim analysis was conducted after 200 women had delivered. As a result of that analysis a decision was made to stop recruitment.||||.64
82507221|NCT05083442|164705330|SUPERIORITY||Mean Difference (Net)|0.8||||0.19|TWO_SIDED|95.0|-0.4|1.9|||ANCOVA||Estimated difference between groups from analysis of covariance with baseline fat mass included as the covariate.|Groups were compared using analysis of covariance with baseline included as the covariate.||1.9|-0.4|0.19
82507222|NCT05083442|164705331|SUPERIORITY||Mean Difference (Net)|0.3||||0.745|TWO_SIDED|95.0|-1.5|2.1|||ANCOVA||Estimated difference between groups from analysis of covariance with baseline fat mass included as the covariate.|Groups were compared using analysis of covariance with baseline included as the covariate.||2.1|-1.5|0.745
82507223|NCT01933048|164705338|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.43|||||||Farrington-Manning Method|based on margin of 0.05||A/H1N1||||0.43
82507224|NCT01933048|164705338|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.8|||||||Farrington-Manning Method|based on margin of 0.05||A/H3N2||||0.80
82507225|NCT01933048|164705338|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.55|||||||Farrington-Manning Method|based on margin of 0.05||B/Yamagata||||0.55
82507226|NCT01933048|164705338|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority||||||0.16|||||||Farrington-Manning Method|based on margin of 0.05||B/Brisbane||||0.16
82507227|NCT04920123|164705385|SUPERIORITY|||||||0.997||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.997
82507228|NCT04920123|164705386|SUPERIORITY|||||||0.5||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.500
82507229|NCT04920123|164705387|SUPERIORITY|||||||0.821||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.821
82566161|NCT00449033|164842095|SUPERIORITY_OR_OTHER||Difference in Tumour Response (CR+PR)|-1.92||||0.2733||95.0|-8.19|4.34|||Cochran-Mantel-Haenszel|Two treatment groups compared using a CMH test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||4.34|-8.19|0.2733
82566162|NCT00449033|164842096|SUPERIORITY_OR_OTHER||Difference in Disease Control|0.97||||0.3902||95.0|-5.87|7.81|||Cochran-Mantel-Haenszel|Two treatment groups compared using a CMH test with one-sided alpha of 0.025 stratified by the same stratification factors as randomization.||||7.81|-5.87|0.3902
82566163|NCT00097708|164842125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.654|TWO_SIDED|95.0|-2.2|1.4|||ANCOVA|||||1.4|-2.2|0.6540
82566164|NCT00097708|164842125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2||||0.0005|TWO_SIDED|95.0|-5.0|-1.4|||ANCOVA|||||-1.4|-5.0|0.0005
82566165|NCT00097708|164842125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.0015|TWO_SIDED|95.0|1.1|4.5|||ANCOVA|||||4.5|1.1|0.0015
82566166|NCT00332488|164842141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.42|TWO_SIDED|95.0|-0.11|0.27|||ANCOVA|||ANCOVA fitting model change from baseline in A1c with fixed effects for treatment and pooled site and baseline A1c as a covariate||0.27|-0.11|0.420
82566167|NCT00332488|164842142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|||<|0.001|TWO_SIDED|95.0|0.69|1.14|||ANCOVA|Type III||ANCOVA fitting model change from baseline in A1c with fixed effects for treatment and pooled site and baseline A1c as a covariate||1.14|0.69|< 0.001
82628114|NCT02910089|164971702|OTHER|As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.71|1.17||As per the SAP, no p-values were computed. Only point estimates with 95% confidence intervals were evaluated.|See comments|Generalized Estimating Equations with a logit link and binary distributed errors||||1.17|0.71|
82507230|NCT04920123|164705388|SUPERIORITY|||||||0.995||||||The threshold for statistical significance was p=0.05|t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.995
82507231|NCT04920123|164705389|NON_INFERIORITY|Higher scores indicate more severe depression.||||||0.076|||||||t-test, 1 sided|||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.076
82507232|NCT04920123|164705390|SUPERIORITY|||||||0.432|||||||t-test, 1 sided|The threshold for statistical significance was p=0.05||Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||0.432
82507233|NCT04920123|164705391|SUPERIORITY|Null hypothesis: no improvement or worse with intervention Alternative hypothesis: improvement with intervention||||||0.75|||||||t-test, 1 sided|||||||0.750
82507234|NCT02623803|164705395|SUPERIORITY|||||||0.1459|||||||Wilcoxon (Mann-Whitney)|||||||0.1459
82507235|NCT02623803|164705396|SUPERIORITY|||||||0.205|||||||Wilcoxon (Mann-Whitney)|||||||0.2050
82507236|NCT02623803|164705397|SUPERIORITY|||||||0.3989|||||||Wilcoxon (Mann-Whitney)|||||||0.3989
82507237|NCT02623803|164705398|SUPERIORITY|||||||0.5285|||||||Wilcoxon (Mann-Whitney)|||||||0.5285
82507238|NCT02623803|164705399|SUPERIORITY|||||||0.0697|||||||Wilcoxon (Mann-Whitney)|||||||0.0697
82507239|NCT02623803|164705400|SUPERIORITY|||||||0.1029|||||||Wilcoxon (Mann-Whitney)|||||||0.1029
82507240|NCT02623803|164705401|SUPERIORITY|||||||0.3136|||||||Wilcoxon (Mann-Whitney)|||||||0.3136
82507241|NCT02623803|164705402|SUPERIORITY|||||||0.2196|||||||Wilcoxon (Mann-Whitney)|||||||0.2196
82507242|NCT02623803|164705403|SUPERIORITY|||||||0.3057|||||||Wilcoxon (Mann-Whitney)|||||||0.3057
82507243|NCT02623803|164705404|SUPERIORITY|||||||0.0404|||||||Wilcoxon (Mann-Whitney)|||||||0.0404
82507244|NCT02623803|164705405|SUPERIORITY|||||||0.5314|||||||Wilcoxon (Mann-Whitney)|||||||0.5314
82507245|NCT02623803|164705406|SUPERIORITY|||||||0.3166|||||||Wilcoxon (Mann-Whitney)|||||||0.3166
82507246|NCT02623803|164705407|SUPERIORITY|||||||0.2363|||||||Wilcoxon (Mann-Whitney)|||||||0.2363
82507247|NCT02623803|164705408|SUPERIORITY|||||||0.9171|||||||Wilcoxon (Mann-Whitney)|||||||0.9171
82507248|NCT02623803|164705409|SUPERIORITY|||||||0.4194|||||||Wilcoxon (Mann-Whitney)|||||||0.4194
82507249|NCT02623803|164705410|SUPERIORITY|||||||0.7073|||||||Wilcoxon (Mann-Whitney)|||||||0.7073
82507250|NCT02623803|164705411|SUPERIORITY|||||||0.5107|||||||Wilcoxon (Mann-Whitney)|||||||0.5107
82507251|NCT02623803|164705412|SUPERIORITY|||||||0.8339|||||||Wilcoxon (Mann-Whitney)|||||||0.8339
82507252|NCT02623803|164705413|SUPERIORITY|||||||0.8927|||||||Wilcoxon (Mann-Whitney)|||||||0.8927
82507253|NCT03249779|164705422|SUPERIORITY|||||||0.0396|||||||t-test, 2 sided|||||||0.0396
82507254|NCT03249779|164705423|SUPERIORITY|||||||0.133|||||||t-test, 2 sided|||||||0.1330
82566168|NCT04357964|164842144|EQUIVALENCE|Statistical significance was defined as p\< 0.05 for determining difference between groups at baseline in this observational study. There was no treatment intervention in this study, so there is no true equivalence margin.|||||<|0.01||||||Statistical significance was defined as p\< 0.05|Kruskal-Wallis|||||||<0.01
82566169|NCT04357964|164842145|EQUIVALENCE|Statistical significance was defined as p \< 0.05. There was no intervention in this study, so there is no true equivalence margin.|||||<|0.01|||||||Pearson correlation|||||||<0.01
82566170|NCT04357964|164842146|EQUIVALENCE|Statistical significance was defined as p\< 0.05 for determining difference between groups in this observational study. There was no treatment intervention in this study, so there is no true equivalence margin.||||||0.52||||||Statistical significance was defined as p\< 0.05|Kruskal-Wallis|||||||0.52
82566171|NCT00733226|164842147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.52||0.05|TWO_SIDED|95.0|-3.2|-1.1||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||The sample size was computed to prove that a 30% decrease of the rate of virus provoked wheezing attacks in the OM-85 group compared with placebo is statistically significant. Approximately 29 analyzable participants in each group were required, with α=0.05 and β=0.10 (ie, with a power of 90%), respectively. The difference of 30% was taken from both pilot study and clinical experience. Sample size estimation was performed by using NCSS and PASS 2000 software.||-1.10|-3.20|0.05
82566172|NCT00733226|164842148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-3.06|-1.01||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||-1.01|-3.06|<0.001
82566173|NCT00733226|164842149|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.94|-1.27|||Wilcoxon (Mann-Whitney)|P value was not need to adjusted for multiple comparisons||||-1.27|-2.94|<0.001
82507255|NCT00278954|164705444|SUPERIORITY_OR_OTHER||SABI per subject per year|0.0||||0.01||99.0|0.0|0.101|||Poisson regression with log link||Mean SABI rate = 0 per subject per year. 1-sided 99% upper confidence bound could not be calculated.|The estimated serious acute bacterial infection (SABI) rate was calculated by dividing no. of infections by no.of subject years. The exponential of the upper limit of the 98% 2-sided Confidence Interval (CI) gave the upper, 1-sided, 99% confidence bound, estimated using Poisson regression. The equivalent upper bound per subject year was obtained by dividing this figure by total subject years.||0.101|0|0.01
82378419|NCT03295630|164465258|OTHER||Intraclass Correlation Coefficient|0.99|||||TWO_SIDED|95.0|0.99|1.0||||||Correlation between accelerometer quantified steps (ankle placement) and observed steps||1.0|0.99|
82507256|NCT04452331|164705450|SUPERIORITY|||||||0.06|||||||Regression, Linear|Adjusted for clinical site||Diastolic BP||||0.06
82507257|NCT04452331|164705450|SUPERIORITY|||||||0.9|||||||Regression, Linear|||Systolic BP||||0.90
82566174|NCT00733226|164842150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.22||0.11|TWO_SIDED|95.0|-0.77|0.11||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.11|-0.77|0.110
82566175|NCT00733226|164842151|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.14||0.195|TWO_SIDED|95.0|-0.55|0.03||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.03|-0.55|0.195
82566176|NCT00733226|164842152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.82||0.452|TWO_SIDED|95.0|-2.87|0.42||P value was not need to adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||0.42|-2.87|0.452
82566177|NCT02561078|164842154|NON_INFERIORITY|The test for the primary objective of noninferiority was performed at the 0.05 significance level using the LS Mean estimate of the difference in change in HbA1c between the 2 treatments at Week 26. Noninferiority was established if the upper limit of a 2-sided 95% confidence interval (CI) for the difference (U 500R CSII minus U 500R MDI) was below the noninferiority margin (NIM) of 0.4%.|Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.62|-0.22|||Mixed Models Analysis|||||-0.22|-0.62|<0.001
82566178|NCT02561078|164842155|SUPERIORITY||Mean Difference (Net)|-35.6|||<|0.001|TWO_SIDED|95.0|-49.4|-21.7|||Mixed Models Analysis|||||-21.7|-49.4|<0.001
82566179|NCT02561078|164842156|SUPERIORITY||Odds Ratio (OR)|1.97||||0.015|TWO_SIDED|95.0|1.14|3.39|||Regression, Logistic|||||3.39|1.14|0.015
82566180|NCT02561078|164842157|SUPERIORITY||Odds Ratio (OR)|1.94||||0.005|TWO_SIDED|95.0|1.23|3.07|||Regression, Logistic|||||3.07|1.23|0.005
82566181|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|-22.5|||<|0.001|TWO_SIDED|95.0|-32.1|-12.8|||Mixed Models Analysis|||Pre Morning Meal||-12.8|-32.1|<0.001
82378420|NCT00825786|164465306|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.14|TWO_SIDED|95.0|0.46|1.09|||Log Rank||group 2 vs. group 1 (sequential vs combined)|||1.09|0.46|0.14
82507258|NCT04452331|164705452|SUPERIORITY|||||||0.29|||||||Regression, Linear|||||||.29
82507259|NCT04452331|164705453|SUPERIORITY|||||||0.1|||||||Regression, Logistic|||||||.10
82507260|NCT04452331|164705454|SUPERIORITY|||||||0.44|||||||Regression, Linear|||||||0.44
82507261|NCT04452331|164705455|SUPERIORITY|||||||0.01|||||||Regression, Linear|||||||0.01
82507262|NCT04452331|164705456|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||||||0.01
82507263|NCT04452331|164705457|SUPERIORITY|||||||0.54|||||||Regression, negative binomial|||||||0.54
82507264|NCT04452331|164705458|SUPERIORITY|||||||0.74|||||||Regression, negative binomial|||||||0.74
82507265|NCT04452331|164705459|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
82507266|NCT04452331|164705459|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
82507267|NCT04452331|164705460|SUPERIORITY||||||<|0.001|||||||Regression, negative binomial|||||||<0.001
82507268|NCT04452331|164705460|SUPERIORITY|||||||0.03|||||||Regression, negative binomial|||||||0.03
82507269|NCT04452331|164705461|SUPERIORITY||||||<|0.001|||||||Regression, poisson|||||||<0.001
82507270|NCT04452331|164705461|SUPERIORITY|||||||0.08|||||||Regression, poisson|||||||0.08
82507271|NCT04452331|164705462|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Mixed effects logistic regression including random effect of visit, to incorporate clustering of prescriptions within visits.||||||<.001
82566182|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|-17.2||||0.008|TWO_SIDED|95.0|-29.9|-4.6|||Mixed Models Analysis|||2 Hours Post Morning Meal||-4.6|-29.9|0.008
82566183|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|-8.9||||0.138|TWO_SIDED|95.0|-20.6|2.9|||Mixed Models Analysis|||Pre Mid-Day Meal||2.9|-20.6|0.138
82566184|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|8.3||||0.16|TWO_SIDED|95.0|-3.3|19.8|||Mixed Models Analysis|||2 Hours Post Mid-Day Meal||19.8|-3.3|0.160
82566185|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|9.1||||0.113|TWO_SIDED|95.0|-2.2|20.4|||Mixed Models Analysis|||Pre Evening Meal||20.4|-2.2|0.113
82566186|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|16.7||||0.004|TWO_SIDED|95.0|5.3|28.2|||Mixed Models Analysis|||2 Hours Post Evening Meal||28.2|5.3|0.004
82566187|NCT02561078|164842158|SUPERIORITY||Mean Difference (Net)|0.6||||0.905|TWO_SIDED|95.0|-9.5|10.8|||Mixed Models Analysis|||Overnight (3:00 AM)||10.8|-9.5|0.905
82566188|NCT02561078|164842159|SUPERIORITY||Mean Difference (Net)|-48.4|||<|0.001|TWO_SIDED|95.0|-74.1|-22.8|||Mixed Models Analysis|||||-22.8|-74.1|<0.001
82566189|NCT02561078|164842160|SUPERIORITY||Odds Ratio (OR)|1.05||||0.919|TWO_SIDED|95.0|0.39|2.86|||Regression, Logistic|||||2.86|0.39|0.919
82566190|NCT02561078|164842161|SUPERIORITY||Relative Rate|1.21||||0.025|TWO_SIDED|95.0|1.02|1.42|||Negative binomial regression|||||1.42|1.02|0.025
82566191|NCT02561078|164842162|SUPERIORITY||Mean Difference (Net)|0.8||||0.1|TWO_SIDED|95.0|-0.2|1.8|||Mixed Models Analysis|||||1.8|-0.2|0.100
82566192|NCT00404547|164842181|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||This is an analysis of the change in Asthma Control Questionnaire (ACQ) after 12 weeks of treatment.||||<0.0001
82566193|NCT01614899|164842191|SUPERIORITY||LS Mean difference|-4.8||||0.05|TWO_SIDED|95.0|-9.52|0.0|||Mixed Model for Repeated Measures|||||0.00|-9.52|0.050
82566194|NCT01614899|164842191|SUPERIORITY||LS Mean difference|-4.2||||0.08|TWO_SIDED|95.0|-8.91|0.5|||Mixed Model for Repeated Measures|||||0.50|-8.91|0.080
82566195|NCT01614899|164842192|SUPERIORITY||LS Mean difference|-0.08||||0.594|TWO_SIDED|95.0|-0.354|0.203|||Mixed Model for Repeated Measures|||||0.203|-0.354|0.594
82566196|NCT01614899|164842192|SUPERIORITY||LS Mean difference|-0.18||||0.199|TWO_SIDED|95.0|-0.453|0.095|||Mixed Model for Repeated Measures|||||0.095|-0.453|0.199
82566197|NCT01614899|164842193|SUPERIORITY||LS Mean difference|-1.1||||0.143|TWO_SIDED|95.0|-2.6|0.38|||Mixed Model for Repeated Measures|||||0.38|-2.60|0.143
82628115|NCT04080752|164971750|SUPERIORITY||Least Square (LS) Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.897||0.2494|TWO_SIDED|80.0|-1.76|0.55|||Mixed Model for Repeated Measures (MMRM)|||||0.55|-1.76|0.2494
82628116|NCT01585168|164971761|OTHER||Mean Difference (Net)|2.4109||||0.032|TWO_SIDED|||||P value was adjusted for multiple comparisons using FWE (family wise error) correction.|t-test, 2 sided|A Paired t-test was performed to explore the difference between two groups.|FHN was found to have lower mean BOLD activation while given drug compared to placebo in amygdala.|||||0.032
82628117|NCT01585168|164971761|OTHER||Median Difference (Net)|3.6615||||0.125|TWO_SIDED||||||t-test, 2 sided|||||||0.125
82628118|NCT01585168|164971764|OTHER||Mean Difference (Net)|2.7264||||0.356|TWO_SIDED|||||P value was adjusted for multiple comparisons using FWE (family wise error) correction.|t-test, 2 sided||FHP was found to have lower mean BOLD activation while given drug compared to placebo in anterior cingulate cortex.|||||0.356
82628119|NCT01585168|164971764|OTHER||Median Difference (Net)|1.8348||||0.009|TWO_SIDED||||||t-test, 2 sided|||||||0.009
82628120|NCT02977507|164971785|OTHER|||||||0.041|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.041
82628121|NCT02977507|164971785|OTHER|||||||0.0005|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0005
82628122|NCT02977507|164971786|OTHER|||||||0.002|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.002
82628123|NCT02977507|164971786|OTHER|||||||0.0001|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0001
82628124|NCT02977507|164971787|OTHER|||||||0.004|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.004
82628125|NCT02977507|164971787|OTHER|||||||0.001|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.001
82628126|NCT02977507|164971791|OTHER|||||||0.003|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.003
82377584|NCT01495702|164462567|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the Stribild group was at least 12% worse than the NNRTI+FTC/TDF group with respect to the percentage of participants maintaining HIV-1 RNA \< 50 copies/mL at Week 48. The alternative hypothesis was that the Stribild group was less than 12% worse than the NNRTI+FTC/TDF group.|Difference in proportions|5.3||||0.066|TWO_SIDED|95.0|-0.5|12.0|||Fisher Exact||The 95% confidence interval (CI) for the difference was from unconditional exact method using 2 inverted 1-sided tests with the standardized statistic using StatXact.|||12.0|-0.5|0.066
82566198|NCT01614899|164842193|SUPERIORITY||LS Mean difference|-1.9||||0.01|TWO_SIDED|95.0|-3.4|-0.46|||Mixed Model for Repeated Measures|||||-0.46|-3.40|0.010
82566199|NCT01614899|164842194|SUPERIORITY||LS Mean difference|-1.0||||0.116|TWO_SIDED|95.0|-2.27|0.25|||Mixed Model for Repeated Measures|||||0.25|-2.27|0.116
82566200|NCT01614899|164842194|SUPERIORITY||LS Mean difference|-0.5||||0.388|TWO_SIDED|95.0|-1.8|0.7|||Mixed Model for Repeated Measures|||||0.70|-1.80|0.388
82566201|NCT01614899|164842195|SUPERIORITY||LS Mean difference|-2.5||||0.036|TWO_SIDED|95.0|-4.87|-0.17|||Mixed Model for Repeated Measures|||||-0.17|-4.87|0.036
82566202|NCT01614899|164842195|SUPERIORITY||LS Mean difference|-1.6||||0.174|TWO_SIDED|95.0|-3.93|0.72|||Mixed Model for Repeated Measures|||||0.72|-3.93|0.174
82566203|NCT02350127|164842199|SUPERIORITY||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|1.22||0.14|TWO_SIDED|95.0|-0.59|4.18|||Mixed Models Analysis|||adjusted for participant baseline MOCA, robust VCE||4.18|-0.59|0.14
82566204|NCT02350127|164842199|SUPERIORITY||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|1.4||0.03|TWO_SIDED|95.0|0.2|5.6|||Mixed Models Analysis|||restricted to completers||5.6|0.2|0.03
82566205|NCT02350127|164842200|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.52||0.68|TWO_SIDED|95.0|-1.23|0.8|||Mixed Models Analysis||Adjusting for baseline participant MOCA scores, robust vce.|||0.80|-1.23|0.68
82566206|NCT02350127|164842201|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|1.32||0.7|TWO_SIDED|95.0|-3.09|2.08|||Mixed Models Analysis|||adjusting for baseline participant MOCA, robust VCE||2.08|-3.09|0.70
82566207|NCT02350127|164842202|SUPERIORITY||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|2.2||0.02|TWO_SIDED|95.0|0.8|9.4|||Mixed Models Analysis|||||9.4|0.8|0.02
82566208|NCT02350127|164842203|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|4.3||0.47|TWO_SIDED|95.0|-5.4|11.6|||Mixed Models Analysis|||||11.6|-5.4|0.47
82566209|NCT02350127|164842204|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.54||0.99|TWO_SIDED|95.0|-1.1|1.1|||Mixed Models Analysis|||||1.1|-1.1|0.99
82566210|NCT02350127|164842205|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|3.7||0.98|TWO_SIDED|95.0|-7.4|7.2|||Mixed Models Analysis|||||7.2|-7.4|0.98
82566211|NCT02350127|164842206|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.5||0.8|TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||||3.3|-2.5|0.80
82566212|NCT02350127|164842207|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.1||0.38|TWO_SIDED|95.0|-3.1|1.2|||Mixed Models Analysis|||||1.2|-3.1|0.38
82566213|NCT02350127|164842208|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.45||0.075|TWO_SIDED|95.0|-1.7|0.1|||Mixed Models Analysis|||||0.1|-1.7|0.075
82566214|NCT02350127|164842209|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.7||0.35|TWO_SIDED|95.0|-1.7|5.0|||Mixed Models Analysis|||||5.0|-1.7|0.35
82566215|NCT02350127|164842210|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.35|TWO_SIDED|95.0|-6.1|2.1|||Mixed Models Analysis|||||2.1|-6.1|0.35
82566216|NCT02350127|164842211|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.54|TWO_SIDED|95.0|-0.4|0.8|||Mixed Models Analysis|||||0.8|-0.4|0.54
82566217|NCT02350127|164842212|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.69|TWO_SIDED|95.0|-1.5|2.2|||Mixed Models Analysis|||||2.2|-1.5|0.69
82566218|NCT02350127|164842213|SUPERIORITY||Median Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.2||0.88|TWO_SIDED|95.0|-10.9|9.3|||Mixed Models Analysis|||||9.3|-10.9|0.88
82566219|NCT02350127|164842214|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.26|TWO_SIDED|95.0|-0.7|2.5|||Mixed Models Analysis|||||2.5|-0.7|0.26
82566220|NCT02350127|164842215|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.1||0.08|TWO_SIDED|95.0|-3.9|0.2|||Mixed Models Analysis|||||0.2|-3.9|0.08
82566221|NCT03575572|164842225|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82566222|NCT03575572|164842225|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82566223|NCT03575572|164842227|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82566224|NCT03575572|164842227|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82566225|NCT04405089|164842233|OTHER||Linear regression|0.03|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus Binge Eating Scale score at baseline).||||
82566226|NCT04405089|164842234|OTHER||Linear regression|-0.33|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus NIH Flanker score at baseline).||||
82566227|NCT04405089|164842235|OTHER||Linear regression|0.04|||||TWO_SIDED|||||||||Linear regression (number of traumatic brain injuries versus NIH Set Shifting score at baseline).||||
82566228|NCT03418701|164842252|SUPERIORITY||Mean Difference (Final Values)|2.67|||<|0.05|TWO_SIDED|95.0|0.93|4.4|||t-test, 2 sided|||||4.40|0.93|<0.05
82566229|NCT03418701|164842253|SUPERIORITY||Odds Ratio, log|0.47|||<|0.05|TWO_SIDED|95.0|0.22|1.15|||Mixed Models Analysis|A multilevel logistic regression with participants nested within clinic.||||1.15|0.22|<0.05
82566230|NCT04754594|164842263|OTHER||Geometric mean ratio|0.67|||||TWO_SIDED|95.0|0.5|0.9||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||0.90|0.50|
82566231|NCT04754594|164842264|OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|95.0|0.91|1.77||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||1.77|0.91|
82566232|NCT04754594|164842264|OTHER||Geometric mean ratio|0.95|||||TWO_SIDED|95.0|0.69|1.3||||||GMRs and 2-sided 95% CIs was calculated by exponentiating the mean difference of the logarithms of the assay and the corresponding CIs.||1.30|0.69|
82566233|NCT04754594|164842265|OTHER|Vaccine efficacy was estimated by 100\*(1 - illness rate ratio \[IRR\]), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|3.8|||||TWO_SIDED|95.0|-1227.8|93.0||||||||93.0|-1227.8|
82566234|NCT04754594|164842266|OTHER|Vaccine efficacy was estimated by 100\*(1 - IRR), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|35.1|||||TWO_SIDED|95.0|-466.5|94.6||||||||94.6|-466.5|
82566235|NCT04754594|164842267|OTHER|Vaccine efficacy was estimated by 100\*(1 - IRR), where IRR=calculated ratio of confirmed COVID-19 illness per 1000 person-years of blinded follow-up in the active vaccine group to the corresponding illness rate in the placebo group.|Vaccine efficacy|40.9|||||TWO_SIDED|95.0|-104.9|86.5||||||||86.5|-104.9|
82566236|NCT04736472|164842300|SUPERIORITY|||||||0.224|||||||Fisher Exact|||Severe TRAEs||||.224
82566237|NCT04736472|164842300|SUPERIORITY|||||||0.025|||||||Fisher Exact|||Severe TRAEs||||.025
82566238|NCT00581009|164842316|EQUIVALENCE|repeated measure ANOVA|t-value|3.34|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82566239|NCT02256488|164842317|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for all 3 influenza strains at day 22.||1.5|0.667|
82566240|NCT02256488|164842317|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for for all 3 influenza strains at day 22||1.5|0.667|
82566241|NCT02256488|164842317|NON_INFERIORITY_OR_EQUIVALENCE|"The lot-to-lot consistency was claimed if the 2-sided 95% CIs of all the three pairwise comparisons was within the equivalence ranges, that is:~(μlot A - μlot B) \> -0.176 and (μlot A - μlot B) \< 0.176 and (μlot A - μlot C) \> -0.176 and (μlot A - μlot C) \< 0.176 and (μlot B - μlot C) \> -0.176 and (μlot B - μlot C) \< 0.176"|Ratio of GMTs|1.12|||||TWO_SIDED|95.0|0.667|1.5|||ANCOVA|||To demonstrate immunologic equivalence of three consecutive TIVc production lots as evaluated by HI antibody responses after vaccination for all 3 influenza strains at day 22||1.5|0.667|
82566242|NCT02268526|164842495|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.891|||||TWO_SIDED|90.0|0.606|1.305||||||||1.305|0.606|
82566243|NCT02268526|164842495|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.941|||||TWO_SIDED|90.0|0.639|1.377||||||||1.377|0.639|
82566244|NCT01261793|164842506|SUPERIORITY||Odds Ratio (OR)|1.024|||=|0.899|TWO_SIDED|95.0|0.71|1.477||p-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|Regression, Logistic||Odds ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|||1.477|0.710|=0.899
82566245|NCT01261793|164842506|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.716|TWO_SIDED|95.0|0.743|1.539||p-values for the comparison of treatment groups have been calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|Regression, Logistic||Odds ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, pooled region, and baseline disease status.|||1.539|0.743|=0.716
82566246|NCT00577096|164842512|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of RBC transfusions.||||<0.025
82628127|NCT02977507|164971791|OTHER|||||||0.0007|||||||Paired t-test|||Testing hypothesis was that the mean change from baseline was zero.||||0.0007
82628128|NCT02977507|164971793|OTHER|||||||0.569|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.569
82566247|NCT00577096|164842513|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis is that there was no difference in the number of RBC tranfusions in the exercise versus usual care groups. Data was combined from the short and long term RBC transfusions.||||<0.025
82377585|NCT04152863|164462571|SUPERIORITY||Mean Difference (Net)|11.9||||0.1812|TWO_SIDED|90.0|-9.5|32.5|||Stratified Miettinen & Nurminen method|To ensure adequate number of participants, strata were combined according to sSAP when one treatment had 0 participants in a particular stratum.||||32.5|-9.5|0.1812
82566248|NCT00577096|164842514|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared test to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|Analysis included short and long term participants.||||||<0.025
82566249|NCT00577096|164842515|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of platelet transfusions.||||<0.025
82566250|NCT00577096|164842516|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||||||<0.025
82566251|NCT00577096|164842517|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of stem cell collection attempts.||||<0.025
82566252|NCT00577096|164842518|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of days of stem cell collections.||||<0.025
82566253|NCT00577096|164842519|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|This is minus 9 (4 exercise, 5 usual care) participants who were unresponsive to Epoetin Alfa and included participants in short and long study.||The null hypothesis was that there would be no difference between groups for the number of days of stem cell collections.||||<0.025
82566254|NCT00577096|164842520|NON_INFERIORITY_OR_EQUIVALENCE|T-test and chi-squared to check for equivalence of groups for age, race and gender.|||||<|0.025||95.0||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||The null hypothesis was that there would be no difference between groups for the number of platelet transfusions.||||<0.025
82566255|NCT03305458|164842522|SUPERIORITY||||||||||||||||||To determine if child and caregiver engagement is affected by overall SPARK use, a 2-level MLM (level-1 child, level-2 provider) will be used. Engagement scores will be calculated per child and caregiver participant. An aggregate engagement score will determine if there are differences across conditions (SPARK + TF CBT vs standard TF-CBT) while accounting for the nesting providers.|||
82566256|NCT03305458|164842523|SUPERIORITY||||||||||||||||||To determine if provider fidelity is affected by overall SPARK use, a 2-level MLM (level-1 child; level-2 provider) will be used. Fidelity will be measured by the TF-CBT TPOCS-S. Providers' overall use of the toolkit will be calculated per child participant and averaged across toolkit content. Fidelity scores will be calculated per child participant such that each provider will have three ratings. An aggregate fidelity score will determine if there are differences across conditions (SPARK + TF-CBT vs. standard TF-CBT) while accounting for the nesting of providers.|||
82566257|NCT03305458|164842524|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-to provider.|||
82566258|NCT03305458|164842525|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82378421|NCT00825786|164465307|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.02
82378422|NCT00825786|164465308|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
82566259|NCT03305458|164842526|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566260|NCT03305458|164842527|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566261|NCT03305458|164842528|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566262|NCT03305458|164842529|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566263|NCT03305458|164842530|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
82566264|NCT03305458|164842531|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
82566265|NCT03305458|164842532|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
82566266|NCT03305458|164842533|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82507272|NCT04452331|164705462|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|Mixed effects logistic regression including random effect of visit, to incorporate clustering of prescriptions within visits.||||||0.98
82507273|NCT04452331|164705463|SUPERIORITY|||||||0.2|||||||Regression, Linear|||Systolic BP||||0.20
82507274|NCT04452331|164705463|SUPERIORITY|||||||0.82|||||||Regression, Linear|||Systolic BP||||0.82
82628129|NCT02977507|164971793|OTHER|||||||9e-05|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.00009
82628130|NCT02977507|164971793|OTHER|||||||0.821|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.821
82507275|NCT04452331|164705463|SUPERIORITY|||||||0.12|||||||Regression, Linear|||Diastolic BP||||0.12
82566267|NCT03305458|164842534|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82628131|NCT02977507|164971793|OTHER|||||||0.502|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.502
82378423|NCT00825786|164465309|SUPERIORITY|||||||0.6|||||||ANCOVA|||||||0.60
82378424|NCT00825786|164465310|SUPERIORITY|||||||0.34|||||||ANCOVA|||||||0.34
82378425|NCT00825786|164465311|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
82507276|NCT04452331|164705463|SUPERIORITY|||||||0.1|||||||Regression, Linear|||Diastolic BP||||0.10
82507277|NCT03760796|164705469|OTHER||Hazard Ratio (HR)|0.48||||0.018|TWO_SIDED|95.0|0.26|0.88||The a priori threshold for statistical significance was \<0.05.|Regression, Cox|Adjusting for hospital site and a propensity score inclusive of individual level baseline characteristics.||||0.88|0.26|0.018
82507278|NCT03760796|164705470|OTHER|A Markov Model of cost-effectiveness, based on 30-day readmission rates, was built to assess the Incremental Cost-Effectiveness Ratio (ICER) of adopting the Corrie Platform compared to standard of care for post AMI patients; taking into account the estimated cost of Corrie ($2,750 per patient for a 1-year use term). The reported value is a ratio of the relative cost of intervention compared to the standard of care divided by the change in the outcome, quality-adjusted life years (QALYs).|Incremental Cost-Effectiveness Ratio|-7.0|||||TWO_SIDED||||||||A negative ICER means the intervention cost is lower than the cost of standard of care, while the denominator was positive. A positive ICER means the intervention cost is greater than the cost of standard of care, while the denominator was positive.|||||
82507279|NCT03760796|164705484|OTHER||Hazard Ratio (HR)|1.45||||0.33|TWO_SIDED|95.0|0.69|2.98||The a priori threshold for statistical significance was \<0.05.|Regression, Cox|Adjusting for hospital site and a propensity score inclusive of individual level baseline characteristics.||||2.98|0.69|0.33
82507280|NCT02211131|164705493|OTHER||Hazard Ratio (HR)|0.75||||0.07|TWO_SIDED|80.0|0.58|0.96||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.96|0.58|0.070
82507281|NCT02211131|164705494|OTHER||Hazard Ratio (HR)|0.76||||0.092|TWO_SIDED|80.0|0.6|0.97||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.97|0.60|0.092
82566268|NCT03305458|164842535|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82628132|NCT02977507|164971793|OTHER|||||||0.81|||||||Paired t-test|||Melanin index: Testing hypothesis is that the mean change from baseline is zero.||||0.810
82628133|NCT02977507|164971793|OTHER|||||||0.435|||||||Paired t-test|||Erythema: Testing hypothesis is that the mean change from baseline is zero.||||0.435
82628134|NCT00654420|164971797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.268|TWO_SIDED|95.0|0.47|1.57|||Finkelstein Proportional Hazards Model|||Finkelstein proportional hazards model for interval-censored data was used to assess treatment effect on PFS in Phase II. The hazard ratio with 95% confidence interval for the Dalotuzumab (10 mg/kg) + Erlotinib treatment arm compared to the Erlotinib treatment arm was reported.||1.57|0.47|0.268
82628135|NCT00654420|164971798|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.879|TWO_SIDED|95.0|0.78|2.64|||Regression, Cox|||The treatment difference in survival between treatment groups was assessed by Cox regression. The estimated hazard ratio for treatment of the Dalotuzumab (10 mg/kg) + Erlotinib treatment arm compared to the Erlotinib treatment arm was reported from the Cox model.||2.64|0.78|0.879
82628136|NCT00654420|164971799|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8||||0.721|TWO_SIDED|95.0|-15.9|9.4|||Miettinen & Nurminen Method|||Miettinen and Nurminen's method for stratified data was used for comparison of percentage of participants with objective response (ORR) between the two treatment groups. Response rate calculation was based on full follow-up.||9.4|-15.9|0.721
82628137|NCT03011775|164971824|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|The threshold for statistical significance was P value of .05||||||<0.05
82566269|NCT03305458|164842536|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82378426|NCT00825786|164465312|SUPERIORITY|||||||0.88|||||||ANCOVA|||||||0.88
82378427|NCT03091179|164465313|EQUIVALENCE|P value was calculated using the means and standard deviations for each of the patient characteristics.||||||0.006|||||||t-test, 2 sided|||||||0.006
82628138|NCT03011775|164971825|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82628139|NCT03011775|164971827|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82628140|NCT03011775|164971828|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82628141|NCT03011775|164971830|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82628142|NCT03011775|164971831|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82628143|NCT03011775|164971832|SUPERIORITY||||||=|0.3|||||||Wilcoxon (Mann-Whitney)|||||||=0.3
82628144|NCT00356057|164971842|SUPERIORITY|||||||0.437|||||||t-test, 2 sided|||||||0.437
82628145|NCT00356057|164971842|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
82628146|NCT00356057|164971843|EQUIVALENCE|Complication-free rate was evaluated in an equivalence (non-inferiority) format compared to a target of 85% minus delta (10%), where delta is the clinically significant difference for establishing equivalence.||||||0.0596|||||||t-test, 1 sided|||||||0.0596
82628147|NCT00356057|164971844|EQUIVALENCE|Complication-free rate was evaluated in an equivalence (non-inferiority) format compared to a target of 85% minus delta (10%), where delta is the clinically significant difference for establishing equivalence.||||||0.0009|||||||t-test, 1 sided|||||||0.0009
82628148|NCT00356057|164971847|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.030
82628149|NCT00356057|164971847|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82628150|NCT00356057|164971851|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
82628151|NCT00356057|164971851|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82628152|NCT00356057|164971852|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
82628153|NCT00356057|164971852|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82628154|NCT00356057|164971853|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82628155|NCT00356057|164971853|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82628156|NCT00356057|164971854|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
82628157|NCT00356057|164971854|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
82628158|NCT01620593|164971856|SUPERIORITY|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82628159|NCT00838383|164971860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-70.0||||0.5307|TWO_SIDED|95.0|-291.3|151.4|||ANCOVA|||||151.4|-291.3|0.5307
82628160|NCT00838383|164971860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-73.2||||0.5121|TWO_SIDED|95.0|-294.5|148.2|||ANCOVA|||||148.2|-294.5|0.5121
82628161|NCT00838383|164971861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-123.1||||0.2735|TWO_SIDED|95.0|-345.5|99.3|||ANCOVA|||||99.3|-345.5|0.2735
82628162|NCT00838383|164971861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-174.5||||0.1223|TWO_SIDED|95.0|-396.8|47.9|||ANCOVA|||||47.9|-396.8|0.1223
82628163|NCT00838383|164971862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-66.6||||0.5505|TWO_SIDED|95.0|-288.0|154.8|||ANCOVA|||||154.8|-288.0|0.5505
82628164|NCT00838383|164971862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-110.3||||0.3237|TWO_SIDED|95.0|-331.7|111.0|||ANCOVA|||||111.0|-331.7|0.3237
82628165|NCT00838383|164971863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-166.5||||0.1412|TWO_SIDED|95.0|-389.6|56.6|||ANCOVA|||||56.6|-389.6|0.1412
82628166|NCT00838383|164971863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-199.8||||0.0813|TWO_SIDED|95.0|-425.0|25.5|||ANCOVA|||||25.5|-425.0|0.0813
82628167|NCT05563714|164971882|SUPERIORITY||Odds Ratio (OR)|5.22|||<|0.001|TWO_SIDED|95.0|2.41|11.33|||generalized linear mixed effects model||Adjusted OR (base model)|Adjusted OR (base model), 95% CI - Includes clinician proceduralist vs non-proceduralist status as a co-variate.||11.33|2.41|<0.001
82628168|NCT05563714|164971882|SUPERIORITY||Odds Ratio (OR)|5.76|||<|0.001|TWO_SIDED|95.0|2.54|13.05|||generalized linear mixed effects model||Adjusted OR (expanded model)|Adjusted OR (expanded model), 95% CI - Adjusted for clinician proceduralist vs non-proceduralist status, patient age, sex, race, ethnicity, number of comorbidities, antiplatelet therapy used at baseline, and baseline use of H2 receptor antagonists.||13.05|2.54|<0.001
82628169|NCT05563714|164971883|SUPERIORITY||Odds Ratio (OR)|29.3|||<|0.001|TWO_SIDED|95.0|6.07|141.49|||generalized linear mixed effects model||Adjusted OR (base model)|Adjusted OR (base model), 95% CI - Included clinician proceduralist vs non-proceduralist status as a co-variate.||141.49|6.07|<0.001
82628170|NCT05563714|164971883|SUPERIORITY||Odds Ratio (OR)|43.6|||<|0.001|TWO_SIDED|95.0|6.56|289.88|||generalized linear mixed effects model||Adjusted OR (expanded model)|Adjusted OR (expanded model), 95% CI - Adjusted for clinician proceduralist vs non-proceduralist status, patient age, sex, race, ethnicity, number of comorbidities, antiplatelet therapy used at baseline, and baseline use of H2 receptor antagonists.||289.88|6.56|<0.001
82628171|NCT05563714|164971884|SUPERIORITY|Adjusted OR, 95% CI (base model) - Included clinician proceduralist vs non-proceduralist status as a co-variate.|Odds Ratio, log|19.86|||<|0.001|TWO_SIDED|95.0|10.63|29.09|||generalized linear mixed effects model|||We used generalized linear mixed effects modeling (logit link) to estimate the odds of medication optimization at week 7-10. This model included fixed effects for CNNF (vs. usual care), target provider specialty and size, and a random effect for clinician to account for the clustering of patients. We report the log odds ratios with corresponding confidence intervals for the main effect. The main effect was tested at a two-sided 5% significance level.||29.09|10.63|<0.001
82628172|NCT02427100|164971888|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANCOVA|||||||.18
82628173|NCT02427100|164971889|SUPERIORITY_OR_OTHER|||||||0.00036||||||The Linear Mixed Model (LMM) regression analysis (repeated measures) was adjusted for daily minutes of accelerometer wear time, gender, age, BMI, education, and meeting physical activity guidelines at baseline.|Mixed Models Analysis|A fourth root transformation of daily accelerometer-measured minutes of MVPA was used to normalize the distribution and was included in the analyses.||||||.00036
82628174|NCT02120352|164971892|OTHER||Difference in Percentage|3.7|||||TWO_SIDED|95.0|-4.8|12.2|||||Comparison between CAB LA 600 mg+RPV LA 900 mg IM-Q8W and CAB 30 mg+ABC/3TC QD|||12.2|-4.8|
82628175|NCT02120352|164971892|OTHER||Difference in Percentage|2.8|||||TWO_SIDED|95.0|-5.8|11.5|||||Comparison between CAB LA 400 mg+RPV LA 600 mg IM-Q4W and CAB 30 mg+ABC/3TC QD|||11.5|-5.8|
82628176|NCT01610206|164971957|EQUIVALENCE|To estimate the progression-free survival hazard ratio of the combination of weekly gemcitabine and pazopanib compared to weekly gemcitabine alone in patients with persistent or recurrent ovarian, fallopian tube, or primary peritoneal cancer.|Hazard Ratio (HR)|0.81||||0.019|TWO_SIDED|95.0|0.61|1.07|||non-parametric weighted Tarone-Ware test|||||1.07|0.61|0.019
82628177|NCT05103475|164971959|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||1||||||The investigators used Fisher's exact due to small cell sizes.|Fisher Exact|The reported value represents the calculated p-value for the Fisher's Exact test.||||||1.0
82628178|NCT05103475|164971960|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.35|||||||t-test, 2 sided|||||||0.35
82628179|NCT05103475|164971961|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.15||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||||||0.15
82628180|NCT05103475|164971962|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.43|||||||t-test, 2 sided|||Pre/post comparison for control group scores.||||0.43
82628181|NCT05103475|164971962|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.24|||||||t-test, 2 sided|||Pre/post comparison for RAP group score.||||0.24
82628182|NCT05103475|164971962|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.53||||||F = 0.41|ANOVA|||ANOVA results - group x time interaction.||||0.53
82628183|NCT05103475|164971963|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.7|||||||t-test, 2 sided|||Pre/post comparison for control group.||||0.70
82628184|NCT05103475|164971963|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.17|||||||t-test, 2 sided|||Pre/post comparison for RAP group.||||0.17
82628185|NCT05103475|164971963|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.18||||||F = 1.95|ANOVA|||ANOVA results - group x time interaction.||||0.18
82628186|NCT05103475|164971964|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.37|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.37
82628187|NCT05103475|164971964|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.5|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.50
82628188|NCT05103475|164971964|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.9||||||F = 0.01|ANOVA|||ANOVA results - group x time interaction.||||0.90
82628189|NCT05103475|164971965|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.56|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.56
82628190|NCT05103475|164971965|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.32|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.32
82628191|NCT05103475|164971965|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.41||||||F = 0.71|ANOVA|||ANOVA results - group x time interaction.||||0.41
82628192|NCT05103475|164971966|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.5|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.50
82628193|NCT05103475|164971966|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.6|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.60
82628194|NCT05103475|164971966|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.98||||||F = 0.0|ANOVA|||ANOVA results - group x time interaction.||||0.98
82628195|NCT05103475|164971967|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.54|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.54
82628196|NCT05103475|164971967|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.15|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.15
82628197|NCT05103475|164971967|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.04||||||F = 4.9|ANOVA|||ANOVA results - group x time interaction.||||0.04
82628198|NCT05103475|164971968|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.11|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.11
82628199|NCT05103475|164971968|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.09|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.09
82628200|NCT05103475|164971968|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.75||||||F = 0.10|ANOVA|||ANOVA results - group x time interaction.||||0.75
82628201|NCT05103475|164971969|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.41|||||||Fisher Exact|The investigators used Fisher's Exact due to small cell sizes.||Likelihood to participate in a program like it in the future||||0.41
82628202|NCT05103475|164971969|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.003||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||Help to manage back pain.||||0.003
82628203|NCT05103475|164971969|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||1||||||The investigators used Fisher's Exact due to small sample sizes.|Fisher Exact|The reported value represents the calculated p-value for the Fisher's Exact test.||Would recommend to another Veteran.||||1.00
82628204|NCT05103475|164971969|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.07||||||The investigators used Fisher's Exact due to small cell sizes.|Fisher Exact|||Liked the program.||||0.07
82628205|NCT05103475|164971970|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.91|||||||t-test, 2 sided|||Pre/post comparison - control group.||||0.91
82628206|NCT05103475|164971970|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.51|||||||t-test, 2 sided|||Pre/post comparison - RAP group.||||0.51
82628207|NCT05103475|164971970|OTHER|Please note that all data analyses were exploratory because this was feasibility pilot.||||||0.42||||||F = 0.68|ANOVA|||ANOVA results - group x time interaction.||||0.42
82628208|NCT01248585|164972008|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.053||0.05|TWO_SIDED|90.0|0.0|0.177||1-sided p-value.|Cochran-Mantel-Haenszel|||One-sided 0.05 level test with 90% power, 298 participants required.||0.177|0|0.05
82628209|NCT01248585|164972009|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.009||||0.432|TWO_SIDED|95.0|-0.08|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.08|0.432
82628210|NCT01248585|164972011|SUPERIORITY||Risk Difference (RD)|0.09||||0.15|TWO_SIDED|90.0|0.01|0.18||Fisher exact test.|Fisher Exact|||||0.18|0.01|0.15
82628211|NCT01248585|164972012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.55||||0.07|TWO_SIDED|90.0|-5.06|3.97|||Wilcoxon (Mann-Whitney)|||||3.97|-5.06|0.07
82628212|NCT02896192|164972014|OTHER||CI||||<|0.0001||||||One-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest would achieve 10% weight loss.|Exact binomial test|||||||<0.0001
82628213|NCT02896192|164972015|OTHER||||||<|0.0001||||||One-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest would achieve 10% weight loss.|Exact binomial test|||||||<0.0001
82628214|NCT02896192|164972016|OTHER||Least Squares Mean|-25.73|||<|0.0001|TWO_SIDED|90.0|-28.49|-22.98|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline body weight and random effect for participant, one sided p-value from model.||-22.98|-28.49|<0.0001
82628215|NCT02896192|164972017|OTHER||Least Squares Mean|-27.77||||0.0005|TWO_SIDED|90.0|-40.58|-14.96|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline daily hunger score and random effect for participant, one sided p-value from model.||-14.96|-40.58|0.0005
82628216|NCT02896192|164972018|OTHER|||||||0.0004||||||One-sided p-value obtained from exact binomial test, testing that ≥ 5% of participants in the population of interest would achieve ≥ 25% improvement in daily hunger score.|Exact binomial test|||||||0.0004
82628217|NCT02896192|164972019|OTHER||Least Squares Mean|-18.1|||<|0.0001|TWO_SIDED|90.0|-21.27|-14.88|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline waist circumference and random effect for participant, one sided p-value from model.||-14.88|-21.27|<0.0001
82507282|NCT02211131|164705496|OTHER||Treatment Difference|4.3||||0.594|TWO_SIDED|80.0|-6.9|15.3||The two-sided p-value is based on the Pearson's Chi-square test.|Chi-squared||An 80% approximate exact CI for between-arm differences in binary rate is calculated using Wilson's score method with continuity correction.|||15.3|-6.9|0.594
82628218|NCT02896192|164972022|OTHER||Least Squares Mean|-27.4|||<|0.0001|TWO_SIDED|90.0|-30.6|-24.29|||Longitudinal mixed analysis of variance|||Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline BMI and random effect for participant, one sided p-value from model.||-24.29|-30.60|<0.0001
82628219|NCT02448914|164972033|NON_INFERIORITY_OR_EQUIVALENCE|Analysis was first to attempt to show non-inferiority. To show non-inferiority of TRIGEL over Duodopa, the lower limit of the two-sided CI for the treatment ratio had to be above the chosen non-inferiority margin of 0.9. If non-inferiority was shown, analysis continued with test of superiority. To show superiority of TRIGEL versus Duodopa, the lower confidence limit had to be above 1 (corresponding to a p-value less than 0.05).|back-transformed ratio|1.382|||<|0.0001|TWO_SIDED|95.0|1.264|1.511|||ANCOVA|||Levodopa AUC 0-14h/dose, was derived using the trapezoidal method and divided by the total administered dose of levodopa during the corresponding time interval.The primary endpoint was log transformed and analysed using an ANCOVA, adjusting for treatment, period and patient. The back-transformed ratio of TRIGEL over Duodopa was calculated together with 95% confidence intervals (CI) and the associated (2 sided) p value.||1.511|1.264|<0.0001
82628220|NCT00880607|164972043|OTHER|Wilcoxon rank-sum test because the outcome variable was found to have a skewed distribution.|Median Difference (Final Values)|7.7||||0.27|TWO_SIDED|95.0|-5.8|21.2||Hodges-Lehmanne estimation method|Wilcoxon (Mann-Whitney)||Hodges-Lehmanne estimation method|||21.2|-5.8|.27
82628221|NCT00880607|164972044|OTHER|Log-rank test in Kaplan-Meier used.||||||0.42|TWO_SIDED|95.0|||||Log Rank|||||||.42
82628222|NCT00880607|164972046|OTHER|||||||0.08|||||||Chi-squared|||||||0.08
82628223|NCT00880607|164972047|OTHER|||||||0.3|||||||Chi-squared|||||||0.30
82628224|NCT00880607|164972048|OTHER|||||||0.07|||||||Chi-squared|||||||0.07
82628225|NCT00880607|164972049|OTHER|||||||0.31|||||||Chi-squared|||||||0.31
82628226|NCT01628042|164972050|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.83|||||TWO_SIDED|90.0|1.36|2.46|||ANCOVA|||||2.46|1.36|
82628227|NCT01628042|164972050|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|2.06|||||TWO_SIDED|90.0|1.55|2.74|||ANCOVA|||||2.74|1.55|
82628228|NCT01628042|164972050|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.49|||||TWO_SIDED|90.0|1.11|2.0|||ANCOVA|||||2.00|1.11|
82628229|NCT01628042|164972051|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.42|||||TWO_SIDED|90.0|0.89|2.27|||ANCOVA|||||2.27|0.89|
82628230|NCT01628042|164972051|SUPERIORITY_OR_OTHER||Geometric least-squares mean ration|1.68|||||TWO_SIDED|90.0|1.07|2.63|||ANCOVA|||||2.63|1.07|
82628231|NCT01628042|164972051|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.96|||||TWO_SIDED|90.0|1.23|3.13|||ANCOVA|||||3.13|1.23|
82628232|NCT01628042|164972052|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.55|||||TWO_SIDED|90.0|0.41|0.74|||ANCOVA|||||0.74|0.41|
82628233|NCT01628042|164972052|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.49|||||TWO_SIDED|90.0|0.36|0.65|||ANCOVA|||||0.65|0.36|
82628234|NCT01628042|164972052|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.67|||||TWO_SIDED|90.0|0.5|0.9|||ANCOVA|||||0.90|0.50|
82628235|NCT02712008|164972053|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.|Least square mean difference|-2.09||||0.1368|TWO_SIDED|95.0||0.67||Threshold for significance at 0.05 level.|ANCOVA|||||0.67|- 4.84|0.1368
82628236|NCT02712008|164972053|SUPERIORITY||Least square mean difference|0.04||||0.9716|TWO_SIDED|95.0||2.18||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||2.18|- 2.10|0.9716
82628237|NCT02712008|164972054|SUPERIORITY||Least square mean difference|2.15||||0.1665|TWO_SIDED|95.0|-0.9|5.2||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.20|-0.90|0.1665
82628238|NCT02712008|164972054|SUPERIORITY||Least square mean difference|1.9||||0.2223|TWO_SIDED|95.0|-1.16|4.95||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||4.95|-1.16|0.2223
82628239|NCT02712008|164972054|SUPERIORITY||Least square mean difference|0.39||||0.7943|TWO_SIDED|95.0|-2.54|3.32||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||3.32|-2.54|0.7943
82628240|NCT02712008|164972054|SUPERIORITY||Least square mean difference|0.66||||0.6655|TWO_SIDED|95.0|-2.35|3.67||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||3.67|-2.35|0.6655
82628241|NCT02712008|164972054|SUPERIORITY||Least square mean difference|2.33||||0.1278|TWO_SIDED|95.0|-0.67|5.33||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.33|-0.67|0.1278
82628242|NCT02712008|164972054|SUPERIORITY||Least square mean difference|-1.51||||0.3159|TWO_SIDED|-1.51|-4.47|1.45||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||1.45|-4.47|0.3159
82628243|NCT02712008|164972054|SUPERIORITY||Least square mean difference|-0.27||||0.8537|TWO_SIDED|95.0|-3.18|2.63||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.63|-3.18|0.8537
82628244|NCT02712008|164972055|SUPERIORITY||Least square mean difference|-24.43||||0.1105|TWO_SIDED|95.0|-54.46|5.61||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||5.61|-54.46|0.1105
82628245|NCT02712008|164972055|SUPERIORITY||Least square mean difference|-27.79||||0.0183|TWO_SIDED|95.0||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||- 4.74|- 50.83|0.0183
82628246|NCT02712008|164972056|SUPERIORITY||Least square mean difference|-55.91||||0.004|TWO_SIDED|95.0||||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||- 18.01|- 93.81|0.0040
82628247|NCT02712008|164972056|SUPERIORITY||Least square mean difference|-40.51||||0.0365|TWO_SIDED|95.0|-78.46|-2.57||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-2.57|-78.46|0.0365
82628248|NCT02712008|164972056|SUPERIORITY||Least square mean difference|-37.15||||0.0454|TWO_SIDED|95.0|-73.53|-0.77||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-0.77|-73.53|0.0454
82628249|NCT02712008|164972056|SUPERIORITY||Least square mean difference|1.75||||0.9266|TWO_SIDED|95.0|-35.54|39.03||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||39.03|-35.54|0.9266
82628250|NCT02712008|164972056|SUPERIORITY||Least square mean difference|-15.49||||0.4116|TWO_SIDED|95.0|-52.58|21.59||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||21.59|-52.58|0.4116
82628251|NCT02712008|164972056|SUPERIORITY||Least square mean difference|3.36||||0.8574|TWO_SIDED|95.0|-33.42|40.14||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||40.14|-33.42|0.8574
82628252|NCT02712008|164972056|SUPERIORITY||Least square mean difference|-38.9||||0.0351|TWO_SIDED|95.0|-75.06|-2.73||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-2.73|-75.06|0.0351
82628253|NCT02712008|164972057|SUPERIORITY||difference in percentages|-1.8||||0.7617|TWO_SIDED|95.0|-13.5|9.8||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using analysis of Cochran-Mantel-Haenszel model.||9.8|-13.5|0.7617
82628254|NCT02712008|164972057|SUPERIORITY||difference in percentages|6.1||||0.2268|TWO_SIDED|95.0||16.3||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using analysis of Cochran-Mantel-Haenszel model.||16.3|- 4.1|0.2268
82628255|NCT02712008|164972058|SUPERIORITY||difference in percentages|-1.3||||0.8896|TWO_SIDED|95.0|-20.4|17.7||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||17.7|-20.4|0.8896
82628256|NCT02712008|164972058|SUPERIORITY||difference in percentages|6.4||||0.5021|TWO_SIDED|95.0|-12.6|25.5||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||25.5|-12.6|0.5021
82628257|NCT02712008|164972058|SUPERIORITY||difference in percentages|6.0||||0.5273|TWO_SIDED|95.0|-12.8|24.7||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||24.7|-12.8|0.5273
82628258|NCT02712008|164972058|SUPERIORITY||difference in percentages|-1.5||||0.8683|TWO_SIDED|95.0|-19.7|16.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||16.6|-19.7|0.8683
82628259|NCT02712008|164972058|SUPERIORITY||difference in percentages|8.8||||0.3546|TWO_SIDED|95.0|-9.8|27.4||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||27.4|-9.8|0.3546
82628260|NCT02712008|164972058|SUPERIORITY||difference in percentages|0.2||||0.9801|TWO_SIDED|95.0|-19.0|19.5||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||19.5|-19.0|0.9801
82628261|NCT02712008|164972058|SUPERIORITY||difference in percentages|8.8||||0.3528|TWO_SIDED|95.0|-9.9|27.4||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Difference with Confidence Interval was calculated using Mantel-Haenszel weighting scheme adjusted by BCVA stratification variable.||27.4|-9.9|0.3528
82628262|NCT01731990|164972059|SUPERIORITY_OR_OTHER_LEGACY||Treatment effect for ratio to placebo|1.06||||0.284|TWO_SIDED|90.0|0.97|1.15|||Mixed Models Analysis|||||1.15|0.97|0.284
82628263|NCT04315298|164972094|SUPERIORITY||LS Mean (log scale)|-1.25|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-1.456|-1.035||P-value is based on the ANCOVA model for differences between treatment groups in terms of \[ln(CRP at day 4 ) - ln(baseline CRP)\].|ANCOVA|||||-1.035|-1.456|<0.0001
82628264|NCT04315298|164972094|SUPERIORITY||LS Mean (log scale)|-1.3|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-1.511|-1.09||p-value is based on the ANCOVA model for differences between treatment groups in terms of \[ln(CRP at day 4 ) - ln(baseline CRP)\].|ANCOVA|||||-1.090|-1.511|<0.0001
82628265|NCT04315298|164972095|SUPERIORITY||Risk Difference (RD)|7.1||||0.3707|TWO_SIDED|95.0|-8.4|21.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||21.7|-8.4|0.3707
82628266|NCT04315298|164972095|SUPERIORITY||Risk Difference (RD)|7.5||||0.3261|TWO_SIDED|95.0|-7.4|21.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||21.3|-7.4|0.3261
82628267|NCT04315298|164972096|SUPERIORITY||Risk Difference (RD)|6.2||||0.7328|TWO_SIDED|95.0|-26.2|36.8|||Cochran-Mantel-Haenszel|P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline||||36.8|-26.2|0.7328
82628268|NCT04315298|164972097|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5687|TWO_SIDED|95.0|0.76|1.66||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.66|0.76|0.5687
82628269|NCT04315298|164972097|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7014|TWO_SIDED|95.0|0.74|1.62||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.62|0.74|0.7014
82628270|NCT04315298|164972098|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3622|TWO_SIDED|95.0|0.83|1.7||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.70|0.83|0.3622
82628271|NCT04315298|164972098|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.5802|TWO_SIDED|95.0|0.79|1.63||P-value based on log-rank test stratified by disease severity (severe, critical) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.63|0.79|0.5802
82628272|NCT04315298|164972099|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.234|TWO_SIDED|95.0|0.83|2.02||P-value based on log-rank test stratified by disease severity (severe, critical and MSOD) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.02|0.83|0.2340
82628273|NCT04315298|164972099|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.6949|TWO_SIDED|95.0|0.74|1.79||P-value based on log-rank test stratified by disease severity (severe, critical and MSOD) and use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.79|0.74|0.6949
82628274|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.3151|TWO_SIDED|95.0|0.66|2.43||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||2.43|0.66|0.3151
82628275|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.1884|TWO_SIDED|95.0|0.39|1.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.41|0.39|0.1884
82628276|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|1.61||||0.4356|TWO_SIDED|95.0|0.76|3.4||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||3.40|0.76|0.4356
82628277|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|2.1||||0.0371|TWO_SIDED|95.0|1.01|4.4||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||4.40|1.01|0.0371
82628278|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8923|TWO_SIDED|95.0|0.32|3.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||3.05|0.32|0.8923
82628279|NCT04315298|164972100|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.694|TWO_SIDED|95.0|0.25|2.71||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.71|0.25|0.6940
82628280|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|2.14||||0.0832|TWO_SIDED|95.0|0.81|5.65||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 87.04 pg/mL (median)||5.65|0.81|0.0832
82628281|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|1.93||||0.1369|TWO_SIDED|95.0|0.77|4.8||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 87.04 pg/mL (median)||4.80|0.77|0.1369
82628282|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.9636|TWO_SIDED|95.0|0.28|1.95||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 87.04 pg/mL (median)||1.95|0.28|0.9636
82628283|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0038|TWO_SIDED|95.0|0.08|0.74||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 87.04 pg/mL (median)||0.74|0.08|0.0038
82628284|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.738|TWO_SIDED|95.0|0.47|3.13||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 166.68pg/mL (Median)||3.13|0.47|0.7380
82628285|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.7342|TWO_SIDED|95.0|0.48|3.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \<166.68pg/mL (Median)||3.05|0.48|0.7342
82628286|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|3.58||||0.1934|TWO_SIDED|95.0|0.79|16.17||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 166.68pg/mL (Median)||16.17|0.79|0.1934
82628287|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|5.33||||0.0159|TWO_SIDED|95.0|1.19|23.94||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 166.68pg/mL (Median)||23.94|1.19|0.0159
82628288|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.6281|TWO_SIDED|95.0|0.13|8.75||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \<254.95 pg/mL (Median)||8.75|0.13|0.6281
82628289|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.4971|TWO_SIDED|95.0|0.06|6.13||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \<254.95 pg/mL (Median)||6.13|0.06|0.4971
82628290|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.299|TWO_SIDED|95.0|0.03|2.86||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (Median)||2.86|0.03|0.2990
82628291|NCT04315298|164972101|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.936|TWO_SIDED|95.0|0.22|4.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (Median)||4.41|0.22|0.9360
82628292|NCT04315298|164972102|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.9032|TWO_SIDED|95.0|0.52|1.47||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.47|0.52|0.9032
82628293|NCT04315298|164972102|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0052|TWO_SIDED|95.0|0.29|0.88||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||0.88|0.29|0.0052
82628294|NCT04315298|164972102|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.1168|TWO_SIDED|95.0|0.48|1.21||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.21|0.48|0.1168
82628295|NCT04315298|164972102|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3753|TWO_SIDED|95.0|0.69|1.72||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.72|0.69|0.3753
82628296|NCT04315298|164972102|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4956|TWO_SIDED|95.0|0.4|1.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.66|0.40|0.4956
82628297|NCT04315298|164972102|SUPERIORITY||Cox Proportional Hazard|1.01||||0.8439|TWO_SIDED|95.0|0.5|2.02||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.02|0.50|0.8439
82628298|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.389|TWO_SIDED|95.0|0.52|2.79||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 67.11 pg/mL (median)||2.79|0.52|0.3890
82628299|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.7838||95.0|0.3|1.41||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 67.11pg/mL (median)||1.41|0.30|0.7838
82628300|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.237|TWO_SIDED|95.0|0.28|1.65||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \< 67.11 pg/mL (median)||1.65|0.28|0.2370
82628301|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.25||||0.0004||95.0|0.1|0.59||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe Baseline IL-6 \>= 67.11pg/mL (median)||0.59|0.10|0.0004
82628302|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.174|TWO_SIDED|95.0|0.37|1.32||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 131.90 pg/mL (median)||1.32|0.37|0.1740
82628303|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3664|TWO_SIDED|95.0|0.38|1.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 131.90 pg/mL (median)||1.66|0.38|0.3664
82628304|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7318|TWO_SIDED|95.0|0.53|1.87||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \< 131.90 pg/mL (median)||1.87|0.53|0.7318
82628305|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4155|TWO_SIDED|95.0|0.59|2.37||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical Baseline IL-6 \>= 131.90 pg/mL (median)||2.37|0.59|0.4155
82628306|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.6262|TWO_SIDED|95.0|0.23|2.45||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \< 254.95 pg/mL (median)||2.45|0.23|0.6262
82628307|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.553||95.0|0.21|2.3||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (median)||2.30|0.21|0.5530
82628308|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.8775|TWO_SIDED|95.0|0.25|2.85||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \< 254.95 pg/mL (median)||2.85|0.25|0.8775
82628309|NCT04315298|164972103|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.7485|TWO_SIDED|95.0|0.41|2.99||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD Baseline IL-6 \>= 254.95 pg/mL (median)||2.99|0.41|0.7485
82628310|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.4556|TWO_SIDED|95.0|0.63|1.79||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.79|0.63|0.4556
82628311|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0248|TWO_SIDED|95.0|0.35|1.04||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.04|0.35|0.0248
82628312|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.6842|TWO_SIDED|95.0|0.62|1.67||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.67|0.62|0.6842
82628313|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.0671|TWO_SIDED|95.0|0.89|2.32||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.32|0.89|0.0671
82628314|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.6146|TWO_SIDED|95.0|0.41|1.74||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.74|0.41|0.6146
82628315|NCT04315298|164972104|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.973|TWO_SIDED|95.0|0.48|1.99||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.99|0.48|0.9730
82628316|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.6987|TWO_SIDED|95.0|0.59|1.59||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.59|0.59|0.6987
82628317|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0453|TWO_SIDED|95.0|0.39|1.09||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.09|0.39|0.0453
82628318|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.9734|TWO_SIDED|95.0|0.73|2.09||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.09|0.73|0.9734
82628319|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|1.91||||0.004|TWO_SIDED|95.0|1.14|3.2||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No)|Log Rank|||Disease Severity: Critical||3.20|1.14|0.0040
82628320|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9551|TWO_SIDED|95.0|0.43|2.17||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.17|0.43|0.9551
82628321|NCT04315298|164972106|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.8722|TWO_SIDED|95.0|0.42|2.1||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||2.10|0.42|0.8722
82628322|NCT04315298|164972109|SUPERIORITY|||||||1|||||||Chi-squared|||Disease Severity: Severe||||1.0000
82628323|NCT04315298|164972109|SUPERIORITY|||||||0.0353|||||||Chi-squared|||Disease Severity: Severe||||0.0353
82628324|NCT04315298|164972109|SUPERIORITY|||||||0.3187|||||||Chi-squared|||Disease Severity: Critical||||0.3187
82628325|NCT04315298|164972109|SUPERIORITY|||||||0.0261|||||||Chi-squared|||Disease Severity: Critical||||0.0261
82628326|NCT04315298|164972109|SUPERIORITY|||||||0.9117|||||||Chi-squared|||Disease Severity: MSOD||||0.9117
82628327|NCT04315298|164972109|SUPERIORITY|||||||0.7584|||||||Chi-squared|||Disease Severity: MSOD||||0.7584
82628328|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|0.32||||0.0385|TWO_SIDED|95.0|0.11|0.94||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||0.94|0.11|0.0385
82628329|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0782|TWO_SIDED|95.0|0.14|1.05||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Severe||1.05|0.14|0.0782
82628330|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.2436|TWO_SIDED|95.0|0.7|2.14||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||2.14|0.70|0.2436
82628331|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3223|TWO_SIDED|95.0|0.46|1.51||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: Critical||1.51|0.46|0.3223
82628332|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.467|TWO_SIDED|95.0|0.36|1.52||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.52|0.36|0.4670
82628333|NCT04315298|164972113|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.3728|TWO_SIDED|95.0|0.35|1.47||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||Disease Severity: MSOD||1.47|0.35|0.3728
82628334|NCT04315298|164972119|SUPERIORITY||Risk Difference (RD)|2.7||||0.5851|TWO_SIDED|95.0|-7.0|12.4||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||12.4|-7.0|0.5851
82628335|NCT04315298|164972119|SUPERIORITY||Risk Difference (RD)|-2.6||||0.5767|TWO_SIDED|95.0|-11.7|6.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||6.5|-11.7|0.5767
82628336|NCT04315298|164972120|SUPERIORITY||Risk Difference (RD)|5.2||||0.4777|TWO_SIDED|95.0|-9.4|18.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.6|-9.4|0.4777
82628337|NCT04315298|164972120|SUPERIORITY||Risk Difference (RD)|5.7||||0.4202|TWO_SIDED|95.0|-8.4|18.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.2|-8.4|0.4202
82628338|NCT04315298|164972121|SUPERIORITY||Risk Difference (RD)|0.2||||0.9696|TWO_SIDED|95.0|-9.5|9.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||9.9|-9.5|0.9696
82628339|NCT04315298|164972121|SUPERIORITY||Risk Difference (RD)|-4.7||||0.3152|TWO_SIDED|95.0|-13.8|4.4||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.4|-13.8|0.3152
82628340|NCT04315298|164972122|SUPERIORITY||Risk Difference (RD)|-7.7||||0.3217|TWO_SIDED|95.0|-22.8|7.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||7.2|-22.8|0.3217
82628341|NCT04315298|164972122|SUPERIORITY||Risk Difference (RD)|-5.5||||0.463|TWO_SIDED|95.0|-20.2|8.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||8.7|-20.2|0.4630
82628342|NCT04315298|164972122|SUPERIORITY||Risk Difference (RD)|-13.3||||0.0971|TWO_SIDED|95.0|-28.2|2.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.3|-28.2|0.0971
82628343|NCT04315298|164972122|SUPERIORITY||Risk Difference (RD)|-11.9||||0.1193|TWO_SIDED|95.0|-26.4|2.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.9|-26.4|0.1193
82628344|NCT04315298|164972123|SUPERIORITY||Risk Difference (RD)|-0.6||||0.8844|TWO_SIDED|95.0|-9.3|7.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||7.7|-9.3|0.8844
82628345|NCT04315298|164972123|SUPERIORITY||Risk Difference (RD)|5.2||||0.2247|TWO_SIDED|95.0|-3.3|13.0||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 29||13.0|-3.3|0.2247
82628346|NCT04315298|164972123|SUPERIORITY||Risk Difference (RD)|-13.3||||0.2102|TWO_SIDED|95.0|-28.2|2.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.3|-28.2|0.2102
82628347|NCT04315298|164972123|SUPERIORITY||Risk Difference (RD)|-11.9||||0.8292|TWO_SIDED|95.0|-26.4|2.9||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||Through Day 60||2.9|-26.4|0.8292
82628348|NCT04315298|164972124|SUPERIORITY||Risk Difference (RD)|9.8||||0.2203|TWO_SIDED|95.0|-6.0|24.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||24.3|-6.0|0.2203
82377586|NCT04152863|164462571|SUPERIORITY||Mean Difference (Net)|4.8||||0.3548|TWO_SIDED|90.0|-16.2|25.5|||Stratified Miettinen & Nurminen method|To ensure adequate number of participants, strata were combined according to sSAP when one treatment had 0 participants in a particular stratum.||||25.5|-16.2|0.3548
82377587|NCT04152863|164462571|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in %|7.1|||||TWO_SIDED|90.0|-14.6|28.2||||||||28.2|-14.6|
82566270|NCT03305458|164842537|SUPERIORITY||||||||||||||||||response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider.|||
82566271|NCT03305458|164842538|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566272|NCT03305458|164842539|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566273|NCT03305458|164842540|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566274|NCT03305458|164842541|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566275|NCT03305458|164842542|SUPERIORITY||||||||||||||||||Response to the intervention will be evaluated with a piecewise longitudinal MLM that contains an additional level corresponding to time. Level-1 will correspond to time, level-2 to child, and level-3 to provider|||
82566276|NCT01370564|164842543|OTHER|There was no specific hypothesis tested. The method of Rao and Scott for clustered binary data was used to construct a point estimate and 95% confidence interval for the number of days during the follow-up period across all subjects in which the patient instruction set was based on the subject's pressure state as measured by the Chronicle IHM/ICD system.|Rao-Scott estimator for clustered data|72.0|||||TWO_SIDED|95.0|65.0|78.0||||||||78|65|
82566277|NCT02418819|164842591|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-1.9|STANDARD_ERROR_OF_MEAN|2.032||0.8243|ONE_SIDED|92.0|-4.78||||ANCOVA|One(1)-sided P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-4.78|0.8243
82566278|NCT02418819|164842591|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-2.14|STANDARD_ERROR_OF_MEAN|2.252||0.8277|ONE_SIDED|92.0|-5.33||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-5.33|0.8277
82566279|NCT02418819|164842591|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-4.01|STANDARD_ERROR_OF_MEAN|1.902||0.981|ONE_SIDED|92.0|-6.7||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day -2 assessment.|||-6.70|0.9810
82628349|NCT04315298|164972124|SUPERIORITY||Risk Difference (RD)|8.8||||0.2483|TWO_SIDED|95.0|-6.1|22.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||22.6|-6.1|0.2483
82628350|NCT04315298|164972125|SUPERIORITY||Risk Difference (RD)|4.1||||0.602|TWO_SIDED|95.0|-11.2|18.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||18.5|-11.2|0.6020
82628351|NCT04315298|164972125|SUPERIORITY||Risk Difference (RD)|5.9||||0.4342|TWO_SIDED|95.0|-8.9|19.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||19.5|-8.9|0.4342
82628352|NCT04315298|164972126|SUPERIORITY||Risk Difference (RD)|5.2||||0.2896|TWO_SIDED|95.0|-4.3|14.7||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||14.7|-4.3|0.2896
82628353|NCT04315298|164972126|SUPERIORITY||Risk Difference (RD)|-2.9||||0.5355|TWO_SIDED|95.0|-11.8|6.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||6.2|-11.8|0.5355
82628354|NCT04315298|164972127|SUPERIORITY||Risk Difference (RD)|0.5||||0.921|TWO_SIDED|95.0|-9.2|10.2||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.2|-9.2|0.9210
82566280|NCT02418819|164842592|SUPERIORITY_OR_OTHER||LSMean difference from placebo|0.0129|STANDARD_ERROR_OF_MEAN|0.286||0.4821|ONE_SIDED|99.0|-0.6682||||ANCOVA|One (1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.6682|0.4821
82566281|NCT02418819|164842592|SUPERIORITY_OR_OTHER||LSMean difference from placebo|-0.2974|STANDARD_ERROR_OF_MEAN|0.276||0.8576|ONE_SIDED|99.0|-0.9547||||ANCOVA|One (1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.9547|0.8576
82566282|NCT02418819|164842592|SUPERIORITY_OR_OTHER||LSMean difference from placebo|0.0498|STANDARD_ERROR_OF_MEAN|0.2403||0.4182|ONE_SIDED|99.0|-0.5226||||ANCOVA|One(1)-side P-values were obtained from an ANCOVA model on change from baseline with baseline, treatment, site, gender and age as fixed effects.||Baseline is defined as the Day 0 assessment.|||-0.5226|0.4182
82566283|NCT01207453|164842618|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed rank tests.||||0.42
82566284|NCT01207453|164842618|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.37
82566285|NCT01207453|164842619|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using the Wilcoxon signed-rank tests.||||0.39
82566286|NCT01207453|164842619|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.96
82377588|NCT04152863|164462572|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.5|2.27||||||||2.27|0.50|
82377589|NCT04152863|164462572|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.51|2.29||||||||2.29|0.51|
82507283|NCT02211131|164705497|OTHER||Treatment Difference|14.4||||0.003|TWO_SIDED|80.0|7.4|21.6||The two-sided p-value is based on the Pearson's Chi-square test.|Chi-squared||80% exact CI for binary rate of each arm is calculated using the Clopper Pearson method.|||21.6|7.4|0.003
82507284|NCT02211131|164705502|OTHER||Hazard Ratio (HR)|0.54||||0.05|TWO_SIDED|80.0|0.36|0.81||Unstratified log-rank test|Log Rank||Unstratified Hazard Ratio (T-VEC + Surgery / Surgery)|||0.81|0.36|0.050
82566287|NCT01207453|164842620|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.89
82628355|NCT04315298|164972127|SUPERIORITY||Risk Difference (RD)|-4.7||||0.3174|TWO_SIDED|95.0|-13.8|4.5||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.5|-13.8|0.3174
82566288|NCT01207453|164842620|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.83
82566289|NCT01207453|164842621|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.04
82566290|NCT01207453|164842621|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.04
82566291|NCT01207453|164842622|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.89
82566292|NCT01207453|164842622|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.44
82566293|NCT01207453|164842623|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.35
82566294|NCT01207453|164842623|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.34
82566295|NCT01207453|164842624|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using Wilcoxon signed-rank tests.||||0.72
82566296|NCT01207453|164842624|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||Linear mixed models including treatment, crossover period and treatment sequence. Not adjusted for multiple comparisons. A priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||The difference between the change measured during placebo versus the change during milnacipran treatment. Calculated using linear mixed models.||||0.82
82566297|NCT00676663|164842625|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.06|TWO_SIDED|95.0|0.49|1.09|||Log Rank|P-value is stratified by the randomization stratification factors and is 1-sided, with a 0.10 threshold for significance.||||1.09|0.49|0.06
82566298|NCT00676663|164842629|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.018|TWO_SIDED|95.0|0.36|0.97||P-value is stratified by the randomization stratification factors and is 1-sided.|Log Rank||Hazard ratio was estimated from a Cox proportional hazards model. Placebo serves as the reference treatment group for the interpretation of the hazard ratio.|||0.97|0.36|0.018
82566299|NCT04382053|164842640|SUPERIORITY||Least squares mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.297||0.467|TWO_SIDED|90.0|-2.0|2.3|||ANCOVA|||||2.3|-2.0|0.467
82566300|NCT04382053|164842641|SUPERIORITY|||||||0.237||||||One-sided|Mixed Models Analysis|p-value reported is for the treatment factor across all time points||||||0.237
82566301|NCT00513292|164842669|SUPERIORITY_OR_OTHER||difference in percentages between arms|2.3||||0.7|TWO_SIDED|95.0|-9.3|13.9|||Chi-squared|||The difference in pCR rates between treatment arms for pCR within the Breast, Defined as no Evidence of Invasive Tumor Remaining in the Breast at Surgery Following Completion of Chemotherapy||13.9|-9.3|.7
82566302|NCT00714688|164842687|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-2.7|STANDARD_ERROR_OF_MEAN|1.51||0.136||95.0|-6.04|0.67||The p value was adjusted for multiplicity via Dunnett's test procedure.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||0.67|-6.04|0.136
82566303|NCT00714688|164842687|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.9|STANDARD_ERROR_OF_MEAN|1.5||0.002||95.0|-8.22|-1.55||The p value was adjusted for multiplicity via Dunnett's test procedure.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||-1.55|-8.22|0.002
82566304|NCT00714688|164842688|SUPERIORITY_OR_OTHER|||||||0.216||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model was performed on ranked data. Treatment, gender \& country were used as factors and baseline value \& age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.216
82566305|NCT00714688|164842688|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender \& country were used as factors and baseline value \& age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||<0.001
82566306|NCT00714688|164842689|SUPERIORITY_OR_OTHER|||||||0.052||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender and country were used as factors and age was used as a covariate.||||||0.052
82566307|NCT00714688|164842689|SUPERIORITY_OR_OTHER|||||||0.002||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|The ANCOVA model has been performed on ranked data. Treatment, gender and country were used as factors and age was used as a covariate.||||||0.002
82566308|NCT00714688|164842690|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.2|STANDARD_ERROR_OF_MEAN|1.86||0.023||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.023
82566309|NCT00714688|164842690|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|-4.4|STANDARD_ERROR_OF_MEAN|1.83||0.016||||||Comparison with placebo was performed without multiplicity adjustment.|ANCOVA|Treatment, gender and country were used as factors and baseline value and age were used as covariates.||Statistical analysis of change from baseline at endpoint.||||0.016
82566310|NCT02924350|164842701|OTHER||Least square (LS) mean difference|-0.924|||<|0.0001|TWO_SIDED|95.0|-1.0547|-0.7927|||ANCOVA|ANCOVA: change from baseline in Schiff sensitivity score as response and treatment as a factor and baseline Schiff sensitivity score as a covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favors first named dentifrice.|||-0.7927|-1.0547|<.0001
82566311|NCT02288364|164842716|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Chi-squared|||||||0.30
82566312|NCT02288364|164842717|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Chi-squared|||||||0.08
82566313|NCT02288364|164842718|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Chi-squared|||||||0.29
82628356|NCT04315298|164972128|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.0705|TWO_SIDED|95.0|0.98|2.66||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.66|0.98|0.0705
82566314|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.87|||<|0.001||95.0|4.59|7.16|||ANCOVA|||||7.16|4.59|<0.001
82566315|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|||<|0.001||95.0|5.01|7.65|||ANCOVA|||||7.65|5.01|<0.001
82566316|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35|||<|0.001||95.0|4.07|6.64|||ANCOVA|||||6.64|4.07|<0.001
82566317|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|||<|0.001||95.0|2.6|5.07|||ANCOVA|||||5.07|2.60|<0.001
82628357|NCT04315298|164972128|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.18|TWO_SIDED|95.0|0.92|2.43||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.43|0.92|0.1800
82628358|NCT04315298|164972129|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.1831|TWO_SIDED|95.0|0.91|1.52||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.52|0.91|0.1831
82628359|NCT04315298|164972129|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.877|TWO_SIDED|95.0|0.82|1.34||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||1.34|0.82|0.8770
82566318|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||<|0.001||95.0|6.13|8.87|||ANCOVA|||||8.87|6.13|<0.001
82566319|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.52|||<|0.001||95.0|4.19|6.85|||ANCOVA|||||6.85|4.19|<0.001
82566320|NCT00043186|164842729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||<|0.001||95.0|3.88|6.55|||ANCOVA|||||6.55|3.88|<0.001
82566321|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566322|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566323|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566324|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566325|NCT00043186|164842730|SUPERIORITY_OR_OTHER|||||||0.166|||||||Wilcoxon (Mann-Whitney)|||||||0.166
82566326|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566327|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566328|NCT00043186|164842730|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566329|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566330|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566331|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566332|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566333|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566334|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566335|NCT00043186|164842731|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82566336|NCT00043186|164842731|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566337|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.34|||<|0.001||95.0|5.56|9.12|||ANCOVA|||||9.12|5.56|<0.001
82566338|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.11|||<|0.001||95.0|7.31|10.91|||ANCOVA|||||10.91|7.31|<0.001
82566339|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.56|||<|0.001||95.0|6.71|10.41|||ANCOVA|||||10.41|6.71|<0.001
82566340|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.44|||<|0.001||95.0|6.69|10.19|||ANCOVA|||||10.19|6.69|<0.001
82566341|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19|||<|0.001||95.0|3.43|6.94|||ANCOVA|||||6.94|3.43|<0.001
82566342|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.08|||<|0.001||95.0|8.14|12.01|||ANCOVA|||||12.01|8.14|<0.001
82566343|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.46|||<|0.001||95.0|6.62|10.3|||ANCOVA|||||10.30|6.62|<0.001
82566344|NCT00043186|164842733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.66|||<|0.001||95.0|6.8|10.53|||ANCOVA|||||10.53|6.80|<0.001
82566345|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||<|0.001||95.0|4.32|8.67|||ANCOVA|||||8.67|4.32|<0.001
82566346|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65||||0.013||95.0|0.55|4.75|||ANCOVA|||||4.75|0.55|0.013
82377590|NCT04152863|164462572|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.5|2.04||||||||2.04|0.50|
82507285|NCT05664490|164705521|SUPERIORITY||Risk Ratio (RR)|0.88||||0.44|TWO_SIDED|95.0|0.64|1.22||The threshold for statistical significance is 0.05.|Poisson regression|We used Poisson regression with a log-link and robust standard errors to assess the effect of our intervention on PrEP adherence at Week 12|The Standard of Care Mental Health Services arm was the reference category for the risk ratio.|||1.22|0.64|0.44
82507286|NCT05664490|164705522|SUPERIORITY||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.71|1.42||The threshold for statistical significance was 0.05.|Poisson regression|We used Poisson regression with a log-link and robust standard errors to assess the effect of our intervention on reduced CMD symptoms at Week 12.|The reference category for the risk ratio presented is the Standard of Care Mental Health Services arm.|||1.42|0.71|0.99
82507287|NCT05664490|164705523|SUPERIORITY||Risk Ratio (RR)|1.4||||0.03|TWO_SIDED|95.0|1.03|1.89||The threshold for statistical significance was 0.05|Poisson regression|We used Poisson regression with a log-link to estimate to assess the effect of our intervention on PrEP adherence at Week 4.|The Standard of Care Mental Health Services arm was the reference category for the risk ratio.|||1.89|1.03|0.03
82507288|NCT05664490|164705524|SUPERIORITY||Risk Ratio (RR)|0.81||||0.37|TWO_SIDED|95.0|0.5|1.29||The threshold for statistical significance was 0.05|Poisson regression|We used Poisson regression with a log-link to assess the effect of the intervention on common mental disorders at Week 4.|The Standard of Care Mental Health Services arm was the reference category.|||1.29|0.50|0.37
82507289|NCT03167879|164705548|SUPERIORITY||Odds Ratio (OR)|10.63|||||TWO_SIDED|95.0|2.79|40.49||||||||40.49|2.79|
82507290|NCT03167879|164705549|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.25|2.09||||||||2.09|0.25|
82507291|NCT03167879|164705550|SUPERIORITY||Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.02|257.6||||||||257.6|0.02|
82507292|NCT01420289|164705555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|15.0||0.086|TWO_SIDED|95.0|10.0|80.0|||t-test, 2 sided|||||80|10|0.086
82507293|NCT01420289|164705556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.05|TWO_SIDED|95.0|10.0|100.0|||t-test, 2 sided|||||100|10|<0.05
82507294|NCT03583996|164705580|OTHER||Negative Likelihood Ratio (NLR)|0.293|||||TWO_SIDED|95.0|0.097|0.882||||||The performance goal for validation of DSI ≤18.3 was the upper limit of the confidence interval (CI) for negative likelihood ratio (NLR) to rule out an NLR of \>0.52. For the null and alternate hypotheses, the upper limit of the 95% CI was NLR \>0.52 and the upper limit of the 95% CI was NLR \<=0.52, respectively. The confidence level for the CI was adjusted to maintain a 1-sided type I error rate of 0.025.||0.882|0.097|
82507295|NCT03583996|164705580|OTHER||Sensitivity|0.917|||||TWO_SIDED|95.0|0.775|0.982||||||The performance goal for validation of DSI \<= 18.3 was the observed sensitivity must have been \>0.85. The confidence level for the confidence interval (CI) was adjusted to maintain a 1-sided type I error rate of 0.025.||0.982|0.775|
82507296|NCT03583996|164705581|OTHER||Odds Ratio (OR)|1.094|||<|0.0001|TWO_SIDED|95.0|1.047|1.143||The odds ratio was for a 1-unit increase in DSI based on continuous DSI.|Regression, Logistic|Unadjusted (no covariates)||||1.143|1.047|<0.0001
82507297|NCT03583996|164705581|OTHER||Odds Ratio (OR)|1.109|||<|0.0001|TWO_SIDED|95.0|1.058|1.163|||Regression, Logistic|Adjusted for demographic covariates, including age, race, sex, BMI, and ethnicity.||||1.163|1.058|<0.0001
82507298|NCT03583996|164705581|OTHER||Odds Ratio (OR)|1.092|||<|0.001|TWO_SIDED|95.0|1.041|1.145|||Regression, Logistic|Adjusted for severity of liver disease covariates, compensated cirrhosis (CP class A)||||1.145|1.041|<0.001
82507299|NCT03583996|164705581|OTHER||Odds Ratio (OR)|1.089|||<|0.001|TWO_SIDED|95.0|1.038|1.142|||Regression, Logistic|Adjusted for severity of liver disease covariates, decompensated cirrhosis (CP class B)||||1.142|1.038|<0.001
82507300|NCT05389657|164705582|SUPERIORITY||Odds Ratio (OR)|0.617||||0.47|TWO_SIDED|95.0|0.167|2.283|||Regression, Logistic|multilevel logistic regression||We used logistic multilevel models to examine the impact of training assignment (reference = live training) on training completion, with a random intercept at the agency level. Covariates included prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||2.283|0.167|0.47
82507301|NCT05389657|164705583|SUPERIORITY||adjusted group difference unstandardized|-1.268||||0.29|TWO_SIDED|95.0|-3.618|1.083|||Regression, Linear|multilevel linear regression with restricted maximum likelihood (REML) estimation||We used linear multilevel models with restricted maximum likelihood (REML) estimation to examine the impact of training assignment (reference = live training) on knowledge acquisition at post-training, with a random intercept at the agency level. Covariates included baseline FBT-KA score, prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||1.083|-3.618|.29
82507302|NCT05389657|164705584|SUPERIORITY||Odds Ratio (OR)|1.16||||0.92|TWO_SIDED|95.0|0.07|19.293|||Regression, Logistic|multilevel logistic regression||We used logistic multilevel models to examine the impact of training assignment (reference = live training) on engagement in FBT consultation at 12 months, with a random intercept at the agency level. Covariates included baseline intent to seek FBT consultation, prior level of training and/or experience in FBT, attitudes towards evidence-based practice (MPAS), perceived importance of eating disorder treatment to organization, and training preference.||19.293|0.070|0.92
82566347|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.43|||<|0.001||95.0|10.19|14.68|||ANCOVA|||||14.68|10.19|<0.001
82507303|NCT02039674|164705617|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|26.3||||0.0016|TWO_SIDED|95.0|8.9|42.1|||Miettinen & Nurminen Method|||||42.1|8.9|0.0016
82507304|NCT02039674|164705618|SUPERIORITY|||||||0.0858|||||||Exact binomial distribution for testing|HO: ORR ≤20% versus H1: ORR \>20%||||||0.0858
82507305|NCT02039674|164705620|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54||||0.00252|TWO_SIDED|95.0|0.35|0.83|||Log Rank|One-sided p-value based on log-rank test||||0.83|0.35|0.00252
82507306|NCT02039674|164705621|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.06762|TWO_SIDED|95.0|0.45|1.12|||Log Rank|One-sided p-value based on log-rank test||||1.12|0.45|0.06762
82507307|NCT00108160|164705635|SUPERIORITY_OR_OTHER|||||||0.356||||||No adjustments were made for multiple comparisons.|Chi-squared|||Our null hypothesis was that no significant effect of mupirocin ointment (treatment) on S. aureus re-infection would be seen at 18 months compared with placebo ointment. Based on prior studies, we estimated that 198 participants would need to be enrolled assuming a 20% dropout rate; 84 participants per arm would be required to detect a 66% decrease in re-infection from 30% to 10% with a significance level alpha of 0.05 and a power of 0.9.||||0.356
82507308|NCT05045144|164705644|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC Ratio|1.02|||||TWO_SIDED|95.0|0.92|1.13|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 1 and Lot 2 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.13|0.92|
82507309|NCT05045144|164705644|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.85|1.05|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 1 and Lot 3 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.05|0.85|
82628360|NCT04315298|164972130|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.7103|TWO_SIDED|95.0|0.35|2.06||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.06|0.35|0.7103
82628361|NCT04315298|164972131|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.1512|TWO_SIDED|95.0|0.89|2.43||P-value from stratified log-rank test|Log Rank|||||2.43|0.89|0.1512
82628362|NCT04315298|164972131|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.2952|TWO_SIDED|95.0|0.85|2.24||P-value from stratified log-rank test|Log Rank|||||2.24|0.85|0.2952
82628363|NCT04315298|164972132|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2297|TWO_SIDED|95.0|0.89|1.5||P-value from stratified log-rank test|Log Rank|||||1.50|0.89|0.2297
82628364|NCT04315298|164972132|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8651|TWO_SIDED|95.0|0.79|1.3||P-value from stratified log-rank test|Log Rank|||||1.30|0.79|0.8651
82628365|NCT04315298|164972133|SUPERIORITY||Risk Difference (RD)|-1.0||||0.8864|TWO_SIDED|95.0|-15.2|12.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||12.1|-15.2|0.8864
82507310|NCT05045144|164705644|OTHER|The lot-to-lot consistency is demonstrated only if two-sided 95% confidence intervals (CI) for the 3 pair-wise geometric mean ratios of RSV MAT IgG ELISA concentration falls within 0.67 and 1.5.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.83|1.03|||GMC ratio|||To demonstrate lot-to-lot consistency of the immune responses of Lot 2 and Lot 3 of the RSV MAT vaccine, as measured by ELISA in terms of IgG GMCs at Day 31.||1.03|0.83|
82507311|NCT05045144|164705645|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for the A/Tasmania/503/2020 (H3N2) IVR-221 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.72|||||TWO_SIDED|95.0|0.63|0.82|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain at 30 days post administration (Day 31).||0.82|0.63|
82507312|NCT05045144|164705645|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for B/Washington/02/2019 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.79|1.1|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against B/Washington/02/2019 strain at 30 days post administration (Day 31).||1.10|0.79|
82628366|NCT04315298|164972133|SUPERIORITY||Risk Difference (RD)|-2.1||||0.75|TWO_SIDED|95.0|-15.8|10.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.1|-15.8|0.7500
82628367|NCT04315298|164972134|SUPERIORITY||Risk Difference (RD)|-1.5||||0.6858|TWO_SIDED|95.0|-9.1|5.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||5.6|-9.1|0.6858
82628368|NCT04315298|164972134|SUPERIORITY||Risk Difference (RD)|0.4||||0.9173|TWO_SIDED|95.0|-7.0|7.0||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||7.0|-7.0|0.9173
82507313|NCT05045144|164705645|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated for B/Phuket/3073/2013 strain, if the lower limit (LL) of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by Flu D-QIV vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.69|0.93|||GMC ratio|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the ratio of HI GMTs of Flu D-QIV antibody titers against B/Phuket/3073/2013 strain at 30 days post administration (Day 31).||0.93|0.69|
82523445|NCT04672941|164742373|OTHER|The logistic generalized estimating equations (GEE) model with CAT response \>= 10 as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|7.186|||<|0.001|TWO_SIDED|95.0|5.745|8.987|||Regression, Logistic||Odds ratio for Visit.|||8.987|5.745|< 0.001
82628369|NCT04315298|164972135|SUPERIORITY||Risk Difference (RD)|4.5||||0.5239|TWO_SIDED|95.0|-9.7|17.3||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||17.3|-9.7|0.5239
82628370|NCT04315298|164972135|SUPERIORITY||Risk Difference (RD)|3.7||||0.5809|TWO_SIDED|95.0|-10.0|15.6||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||15.6|-10.0|0.5809
82628371|NCT04315298|164972136|SUPERIORITY||Risk Difference (RD)|0.4||||0.9343|TWO_SIDED|95.0|-9.3|10.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||10.1|-9.3|0.9343
82628372|NCT04315298|164972136|SUPERIORITY||Risk Difference (RD)|-5.0||||0.2822|TWO_SIDED|95.0|-14.1|4.1||P-value based on stratified Cochran-Mantel-Haenszel test using the strata Use of Steroids at Baseline.|Cochran-Mantel-Haenszel|||||4.1|-14.1|0.2822
82628373|NCT04315298|164972137|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.4519|TWO_SIDED|95.0|0.75|2.18||P-value from stratified log-rank test|Log Rank|||||2.18|0.75|0.4519
82628374|NCT04315298|164972137|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.2818|TWO_SIDED|95.0|0.81|2.24||P-value from stratified log-rank test|Log Rank|||||2.24|0.81|0.2818
82628375|NCT04315298|164972138|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4674|TWO_SIDED|95.0|0.84|1.43||P-value from stratified log-rank test|Log Rank|||||1.43|0.84|0.4674
82628376|NCT04315298|164972138|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.8503|TWO_SIDED|95.0|0.77|1.28||P-value from stratified log-rank test.|Log Rank|||||1.28|0.77|0.8503
82628377|NCT04315298|164972139|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.6156|TWO_SIDED|95.0|0.31|2.02||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.02|0.31|0.6156
82628378|NCT04315298|164972140|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0843|TWO_SIDED|95.0|0.41|1.03||P-value from stratified log-rank test|Log Rank|||||1.03|0.41|0.0843
82628379|NCT04315298|164972140|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.1576|TWO_SIDED|95.0|0.44|1.07||P-value from stratified log-rank test|Log Rank|||||1.07|0.44|0.1576
82628380|NCT04315298|164972141|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.198|TWO_SIDED|95.0|0.57|1.14||P-value from stratified log-rank test|Log Rank|||||1.14|0.57|0.1980
82628381|NCT04315298|164972141|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7973|TWO_SIDED|95.0|0.73|1.36||P-value from stratified log-rank test.|Log Rank|||||1.36|0.73|0.7973
82628382|NCT04315298|164972142|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.5023|TWO_SIDED|95.0|0.13|2.75||P-value based on log-rank test stratified by use of systemic corticosteroids for COVID-19 (Yes, No).|Log Rank|||||2.75|0.13|0.5023
82628383|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2804|TWO_SIDED|95.0|-0.2|0.8||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.8|-0.2|0.2804
82628384|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5023|TWO_SIDED|95.0|-0.5|0.3||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.3|-0.5|0.5023
82628385|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3821|TWO_SIDED|95.0|-0.7|1.9||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.9|-0.7|0.3821
82628386|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.59||0.9737|TWO_SIDED|95.0|-1.2|1.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.1|-1.2|0.9737
82628387|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|1.2|STANDARD_ERROR_OF_MEAN|1.15||0.3179|TWO_SIDED|95.0|-1.1|3.4||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||3.4|-1.1|0.3179
82628388|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|1.03||0.6302|TWO_SIDED|95.0|-1.5|2.5||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||2.5|-1.5|0.6302
82628389|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|1.8|STANDARD_ERROR_OF_MEAN|1.64||0.2862|TWO_SIDED|95.0|-1.5|5.0||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||5.0|-1.5|0.2862
82628390|NCT04315298|164972143|SUPERIORITY||Risk Difference (RD)|1.1|STANDARD_ERROR_OF_MEAN|1.49||0.4509|TWO_SIDED|95.0|-1.8|4.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||4.1|-1.8|0.4509
82628391|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.33||0.564|TWO_SIDED|95.0|-0.8|0.5||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.5|-0.8|0.5640
82566348|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.84|||<|0.001||95.0|8.74|12.94|||ANCOVA|||||12.94|8.74|<0.001
82566349|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.79|||<|0.001||95.0|7.69|11.89|||ANCOVA|||||11.89|7.69|<0.001
82628392|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.1602|TWO_SIDED|95.0|-1.0|0.2||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 8||0.2|-1.0|0.1602
82628393|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.64||0.9144|TWO_SIDED|95.0|-1.3|1.2||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||1.2|-1.3|0.9144
82628394|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|0.61||0.145|TWO_SIDED|95.0|-2.1|0.3||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 15||0.3|-2.1|0.1450
82628395|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.95||0.8378|TWO_SIDED|95.0|-1.7|2.1||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||2.1|-1.7|0.8378
82628396|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|0.89||0.1988|TWO_SIDED|95.0|-2.9|0.6||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 22||0.6|-2.9|0.1988
82628397|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|1.26||0.8556|TWO_SIDED|95.0|-2.2|2.7||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||2.7|-2.2|0.8556
82507314|NCT05045144|164705646|NON_INFERIORITY|The non-inferiority of RSV MAT vaccine is demonstrated for RSV A neutralizing antibody titers, if the LL of the 95% CI on the GMT ratio (RSV MAT + Flu D-QIV vaccine divided by RSV MAT vaccine) is greater than 0.67 at Day 31 post vaccination.|GMC ratio|0.87|||||TWO_SIDED|95.0|0.78|0.97|||GMC ratio|||To demonstrate the immunological non-inferiority of the RSV MAT vaccine when co-administered with Flu D-QIV vaccine, compared to RSV MAT vaccine given alone as measured by the ratio of GMTs of RSV A neutralizing antibody titers at 30 days post administration (Day 31).||0.97|0.78|
82507315|NCT05045144|164705647|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|3.44|||||TWO_SIDED|95.0|-3.44|10.29|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against A/Tasmania/503/2020 (H3N2) IVR-221 strain at 30 days post administration (Day 31).||10.29|-3.44|
82507316|NCT05045144|164705647|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against B/Washington/02/2019 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|4.15|||||TWO_SIDED|95.0|-2.04|10.32|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against B/Washington/02/2019 strain at 30 days post administration (Day 31).||10.32|-2.04|
82507317|NCT05045144|164705647|NON_INFERIORITY|The non-inferiority of Flu D-QIV vaccine is demonstrated with respect to the SCR difference for Flu D-QIV antibody titers against B/Phuket/3073/2013 strain, if the upper limit (UL) of the 95% CI on the SCR difference (Flu D-QIV vaccine minus RSV MAT + Flu D-QIV vaccine) is less than or equal to the pre-defined clinical limit of 10% at Day 31 post vaccination.|Difference of Proportion|4.08|||||TWO_SIDED|95.0|-2.46|10.58|||Miettinen and Nurminen|||To demonstrate the immunological non-inferiority of the Flu D-QIV vaccine when co-administered with RSV MAT vaccine compared to Flu D-QIV vaccine given alone as measured by the difference of proportion of participants achieving seroconversion for HI antibody titers against B/Phuket/3073/2013 strain at 30 days post administration (Day 31).||10.58|-2.46|
82507318|NCT04903249|164705669|OTHER|||||||0.137|||||||t-test, 2 sided|||||||0.137
82507319|NCT04903249|164705670|OTHER|||||||0.293|||||||t-test, 2 sided|||||||0.293
82507320|NCT04903249|164705671|OTHER|||||||0.609|||||||t-test, 2 sided|||||||0.609
82507321|NCT04903249|164705677|OTHER|||||||0.025|||||||t-test, 2 sided|||||||0.025
82507322|NCT04903249|164705678|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82566350|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.74|||<|0.001||95.0|1.37|6.12|||ANCOVA|||||6.12|1.37|<0.001
82566351|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.97|||<|0.001||95.0|8.63|13.32|||ANCOVA|||||13.32|8.63|<0.001
82507323|NCT04903249|164705679|OTHER|||||||0.327|||||||t-test, 2 sided|||||||.327
82507324|NCT04903249|164705680|OTHER|||||||0.479|||||||t-test, 2 sided|||||||0.479
82507325|NCT04903249|164705681|OTHER|||||||0.424|||||||t-test, 2 sided|||||||0.424
82507326|NCT04903249|164705682|OTHER|||||||0.279|||||||t-test, 2 sided|||||||0.279
82507327|NCT04903249|164705683|OTHER|||||||0.052|||||||t-test, 2 sided|||||||0.052
82507328|NCT02968979|164705694|OTHER|||||||0.0032|||||||likelihood-ratio test|||Statistical analysis applies to all rows and columns.||||0.0032
82507329|NCT02968979|164705694|OTHER|||||||0.0008|||||||Chi-squared|||"Statistical Analysis 2 for Frequency of the Different Stages of Cachexia, excluding the refractory cachexia stage, in the General NSCLC Population According to Molecular Abnormalities Associated With NSCLC.~Statistical analysis applies to all rows and columns."||||0.0008
82507330|NCT02968979|164705704|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
82507331|NCT02968979|164705704|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
82507332|NCT02968979|164705704|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
82507333|NCT02968979|164705704|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
82507334|NCT02968979|164705704|OTHER|||||||0.1085|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||0.1085
82507335|NCT02968979|164705704|OTHER|||||||0.0482||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||0.0482
82507336|NCT02968979|164705704|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
82507337|NCT02968979|164705704|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
82566352|NCT00043186|164842734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.37|||<|0.001||95.0|8.16|12.59|||ANCOVA|||||12.59|8.16|<0.001
82566353|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42||||0.02||95.0|0.89|9.95|||ANCOVA|||||9.95|0.89|0.02
82566354|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.992||95.0|-5.07|5.02|||ANCOVA|||||5.02|-5.07|0.992
82566355|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9||||0.004||95.0|3.72|14.09|||ANCOVA|||||14.09|3.72|0.004
82566356|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5||||0.001||95.0|4.15|12.86|||ANCOVA|||||12.86|4.15|0.001
82566357|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.37||||0.001||95.0|4.11|12.63|||ANCOVA|||||12.63|4.11|0.001
82507338|NCT02968979|164705704|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Statistical analysis compares all cachexia stages.||||<0.0001
82507339|NCT02968979|164705704|OTHER||||||<|0.0001||||||Without refractory cachexia|Kruskal-Wallis|Without refractory cachexia||Statistical analysis compares all cachexia stages.||||<0.0001
82507340|NCT00729183|164705718|SUPERIORITY_OR_OTHER||Difference in LS Means|3.49|||<|0.001|TWO_SIDED|95.0|2.66|4.32|||Longitudinal Data Analysis (LDA) Model|||A longitudinal ANCOVA was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% confidence interval (CI). The model, applied on all time points during treatment (Screening Visit \[BL\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. The weighted Least Squares (LS) mean is based on the described model. Difference in LS Means = Odancatib 50 mg minus Placebo.||4.32|2.66|<0.001
82507341|NCT00729183|164705719|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.2|||||TWO_SIDED|95.0|-12.3|7.9||||||Estimated difference (versus Placebo) and CI were based on the Miettinen \& Nurminen method.||7.9|-12.3|
82507342|NCT00729183|164705720|SUPERIORITY_OR_OTHER||Difference in Percentage|4.4|||||TWO_SIDED|95.0|-3.2|12.3||||||Estimated difference (versus Placebo) and CI were based on the Miettinen \& Nurminen method.||12.3|-3.2|
82507343|NCT00729183|164705721|SUPERIORITY_OR_OTHER||Difference in LS Means|5.39|||<|0.001|TWO_SIDED|95.0|4.36|6.42|||LDA|||A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. The weighted LS mean is based on the described model. Difference in LS Means = Odancatib 50 mg minus Placebo.||6.42|4.36|<0.001
82507344|NCT00729183|164705722|SUPERIORITY_OR_OTHER||Difference in LS Means|1.57|||<|0.001|TWO_SIDED|95.0|0.88|2.25|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.25|0.88|<0.001
82507345|NCT00729183|164705722|SUPERIORITY_OR_OTHER||Difference in LS Means|3.32|||<|0.001|TWO_SIDED|95.0|2.39|4.26|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||4.26|2.39|<0.001
82507346|NCT00729183|164705723|SUPERIORITY_OR_OTHER||Difference in LS Means|1.48||||0.001|TWO_SIDED|95.0|0.6|2.35|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.35|0.60|0.001
82507347|NCT00729183|164705723|SUPERIORITY_OR_OTHER||Difference in LS Means|3.81|||<|0.001|TWO_SIDED|95.0|2.69|4.93|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||4.93|2.69|<0.001
82507348|NCT00729183|164705724|SUPERIORITY_OR_OTHER||Difference in LS Means|2.19|||<|0.001|TWO_SIDED|95.0|1.09|3.29|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||3.29|1.09|<0.001
82507349|NCT00729183|164705724|SUPERIORITY_OR_OTHER||Difference in LS Means|5.48|||<|0.001|TWO_SIDED|95.0|4.08|6.89|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||6.89|4.08|<0.001
82507350|NCT00729183|164705725|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.03|TWO_SIDED|95.0|0.07|1.35|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||1.35|0.07|0.030
82507351|NCT00729183|164705725|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7|||<|0.001|TWO_SIDED|95.0|0.97|2.43|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||2.43|0.97|<0.001
82507352|NCT00729183|164705726|SUPERIORITY_OR_OTHER||Difference in LS Means|1.71||||0.001|TWO_SIDED|95.0|0.69|2.73|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||2.73|0.69|0.001
82507353|NCT00729183|164705726|SUPERIORITY_OR_OTHER||Difference in LS Means|2.7|||<|0.001|TWO_SIDED|95.0|1.62|3.78|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||3.78|1.62|<0.001
82507354|NCT00729183|164705727|SUPERIORITY_OR_OTHER||Difference in LS Means|0.16||||0.697|TWO_SIDED|95.0|-0.63|0.95|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||0.95|-0.63|0.697
82507355|NCT00729183|164705727|SUPERIORITY_OR_OTHER||Difference in LS Means|1.22||||0.013|TWO_SIDED|95.0|0.27|2.18|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||2.18|0.27|0.013
82507356|NCT00729183|164705728|SUPERIORITY_OR_OTHER||Difference in LS Means|8.01|||<|0.001|TWO_SIDED|95.0|6.03|9.99|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||9.99|6.03|<0.001
82507357|NCT00729183|164705728|SUPERIORITY_OR_OTHER||Difference in LS Means|11.46|||<|0.001|TWO_SIDED|95.0|8.96|13.97|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||13.97|8.96|<0.001
82507358|NCT00729183|164705729|SUPERIORITY_OR_OTHER||Difference in LS Means|5.68|||<|0.001|TWO_SIDED|95.0|3.77|7.58|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||7.58|3.77|<0.001
82628398|NCT04315298|164972144|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|1.19||0.263|TWO_SIDED|95.0|-3.7|1.0||p-value using two-sample t-test|t-test, 2 sided|||Ventilator-free days up to Day 29||1.0|-3.7|0.2630
82628399|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3662|TWO_SIDED|95.0|-0.2|0.5||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.5|-0.2|0.3662
82507359|NCT00729183|164705729|SUPERIORITY_OR_OTHER||Difference in LS Means|9.38|||<|0.001|TWO_SIDED|95.0|6.98|11.77|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain an estimate of the between-treatment difference in aBMD together with its 95% CI. The model, applied on all time points during treatment (Screening Visit \[Baseline\], Month 6, Month 12, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. The weighted LS mean is based on the described model. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo||11.77|6.98|<0.001
82507360|NCT00729183|164705730|SUPERIORITY_OR_OTHER||Difference in LS Means|-54.03|||<|0.001|TWO_SIDED|95.0|-64.81|-43.26|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-CTx (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||-43.26|-64.81|<0.001
82507361|NCT00729183|164705730|SUPERIORITY_OR_OTHER||Difference in LS Means|-45.59|||<|0.001|TWO_SIDED|95.0|-62.22|-28.96|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-CTx (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and baseline value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo||-28.96|-62.22|<0.001
82628400|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.16||0.082|TWO_SIDED|95.0|0.0|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.6|0.0|0.0820
82377591|NCT04152863|164462574|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|-2.1|||||TWO_SIDED|90.0|-23.1|19.2||||||||19.2|-23.1|
82507362|NCT00729183|164705731|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.34|||<|0.001|TWO_SIDED|95.0|-37.77|-12.92|||LDA|||MONTH 12: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-P1NP (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. Difference in LS Means at Month 12 = Odancatib 50 mg minus Placebo.||-12.92|-37.77|<0.001
82507363|NCT00729183|164705731|SUPERIORITY_OR_OTHER||Difference in LS Means|-9.07||||0.225|TWO_SIDED|95.0|-23.69|5.56|||LDA|||MONTH 24: A longitudinal ANCOVA model was used to obtain geometric LS mean percent change from BL in s-P1NP (back-transformation of the log-transformed fraction from BL) and its 95% CI. The model, applied on all time points during treatment (Baseline \[Randomization\], Month 6, Month 12, Month 18, Month 24), included treatment, region, time and interaction between treatment and time as fixed effects, and BL value as covariate. Difference in LS Means at Month 24 = Odancatib 50 mg minus Placebo.||5.56|-23.69|0.225
82507364|NCT01883427|164705753|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Not significant|Wilcoxon (Mann-Whitney)|||Too few included to reach power||||>0.05
82628401|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.37||0.6984|TWO_SIDED|95.0|-0.9|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.9|0.6984
82628402|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9833|TWO_SIDED|95.0|-0.6|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.6|0.9833
82628403|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.56||0.1436|TWO_SIDED|95.0|-0.3|2.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||2.0|-0.3|0.1436
82628404|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.49||0.419|TWO_SIDED|95.0|-0.6|1.4||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.4|-0.6|0.4190
82628405|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.652|TWO_SIDED|95.0|-0.7|1.2||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||1.2|-0.7|0.6520
82628406|NCT04315298|164972145|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.801|TWO_SIDED|95.0|-1.1|0.9||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.9|-1.1|0.8010
82628407|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3724|TWO_SIDED|95.0|-0.4|0.2||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.2|-0.4|0.3724
82507365|NCT02678676|164705764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.3444|TWO_SIDED|95.0|0.88|1.04||No adjustment to the p-value|Regression, Cox|||Test for statistical difference between pioglitazone and placebo with respect to time of first occurrence of the primary composite outcome event.||1.04|0.88|0.3444
82507366|NCT02678676|164705765|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Test for statistical difference between pioglitazone and placebo with respect to time of first occurrence of the primary composite outcome event.||1.16|0.83|
82507367|NCT00851799|164705766|SUPERIORITY_OR_OTHER||Difference in annual rate of change|-4.7||||0.013|TWO_SIDED|97.5|-8.9|-0.4||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort A: ATV/RTV + FTC/TDF - Cohort C: DRV/RTV + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||-0.4|-8.9|0.013
82507368|NCT00851799|164705766|SUPERIORITY_OR_OTHER||Difference in annual rate of change|-2.8||||0.15|TWO_SIDED|97.5|-7.0|1.5||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort A: ATV/RTV + FTC/TDF - Cohort B: RAL + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||1.5|-7.0|0.15
82507369|NCT00851799|164705766|SUPERIORITY_OR_OTHER||Difference in annual rate of change|1.9||||0.31|TWO_SIDED|97.5|-2.4|6.2||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Mixed Models Analysis||The difference in the rate of CIMT change (Cohort C: DRV/RTV + FTC/TDF - Cohort B: RAL + FTC/TDF) was estimated by mixed effects linear regression model that adjusted for screening HIV-1 RNA level and Framingham risk score stratification factors.|The primary hypothesis was that rate of change of CIMT would be faster over 144 weeks in participants initiating a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) compared with a RAL-containing regimen. However, In the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||6.2|-2.4|0.31
82566358|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98||||0.292||95.0|-1.42|9.37|||ANCOVA|||||9.37|-1.42|0.292
82628408|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.7034|TWO_SIDED|95.0|-0.2|0.3||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 8||0.3|-0.2|0.7034
82628409|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5841|TWO_SIDED|95.0|-0.4|0.7||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.7|-0.4|0.5841
82628410|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.6648|TWO_SIDED|95.0|-0.4|0.6||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 15||0.6|-0.4|0.6648
82507370|NCT00851799|164705767|SUPERIORITY_OR_OTHER||Difference in Change|0.24||||0.53|TWO_SIDED|97.5|-0.63|1.11||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Regression, Linear||The difference in change in relative FMD (Cohort A: ATV/RTV+FTC/TDF - Cohort C: DRV/RTV+FTC/TDF); estimated by linear regression that adjusted for study entry BA diameter and screening HIV-1 RNA level and Framingham risk score stratification factors.|The study was designed to compare change from study entry to week 24 in brachial artery (BA) flow mediated dilation (FMD) between a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) and a RAL-containing regimen. However, in the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||1.11|-0.63|0.53
82507371|NCT00851799|164705767|SUPERIORITY_OR_OTHER||Difference in Change (%)|-0.21||||0.53|TWO_SIDED|97.5|-0.98|0.55||Inference was assessed against a type I error of 2.5% to account for multiple comparisons.|Regression, Linear||The difference in change in relative FMD (Cohort B - Cohort A and C); estimated by linear regression that adjusted for study entry BA diameter and screening HIV-1 RNA level and Framingham risk score stratification factors.|The study was designed to compare change from study entry to week 24 in brachial artery (BA) flow mediated dilation (FMD) between a RTV-boosted protease inhibitor-containing regimen (the pooled ATV/RTV and DRV/RTV groups) and a RAL-containing regimen. However, in the event of a significant difference between ATV/RTV and DRV/RTV groups, the study was designed to make all pairwise treatment group comparisons.||0.55|-0.98|0.53
82507372|NCT00483223|164705810|OTHER|||||||0.54|||||||t-test, 2 sided|||H0: no association between expression ratio and response rate Ha: Participants with expression ratio greater than 2 would have higher response rate||||0.54
82507373|NCT00589108|164705826|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|||P-value for the difference between the mean maximum flexion between the three groups at 2 years post-surgery.||||0.64
82507374|NCT00589108|164705826|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||P-value for the difference between the mean maximum flexion between the three groups at 5 years post-surgery.||||0.80
82507375|NCT00589108|164705827|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||P-value for the difference for the Knee Society Function Score between the three groups at 5 years post-surgery.||||0.06
82507376|NCT00589108|164705828|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||P-value for the difference for the Knee Society Pain Score between the three groups at 5 years post-surgery.||||0.87
82507377|NCT00589108|164705829|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANOVA|||P-value for the difference between the Knee Society Stair Climbing Score between the three groups at 2 years post-surgery.||||0.44
82507378|NCT00589108|164705829|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||P-value for the difference between the Knee Society Stair Climbing Score between the three groups at 5 years post-surgery.||||0.08
82507379|NCT00589108|164705830|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||P-value for the difference between the percentage of knees surviving between the three groups at 5 years post-surgery.||||0.92
82566359|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.95||||0.004||95.0|3.94|13.96|||ANCOVA|||||13.96|3.94|0.004
82566360|NCT00043186|164842735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.12||||0.094||95.0|0.57|11.67|||ANCOVA|||||11.67|0.57|0.094
82566361|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.93|||<|0.001||95.0|3.97|9.89|||ANCOVA|||||9.89|3.97|<0.001
82628411|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.36||0.4624|TWO_SIDED|95.0|-0.4|1.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.0|-0.4|0.4624
82628412|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2546|TWO_SIDED|95.0|-0.3|1.0||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 22||1.0|-0.3|0.2546
82628413|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.38||0.5312|TWO_SIDED|95.0|-1.0|0.5||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.5|-1.0|0.5312
82507380|NCT01713868|164705835|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was significant, we presented results from the interaction model.||||||0.03||||||Adjusted education effect p=0.34. Adjusted mHealth effect p\<0.001. Test for interaction p=0.01. Adjusted education only effect p=0.74. Adjusted mHealth only effect p=0.02. Adjusted mHealth and education effect: p=0.03|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction.We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||0.03
82566362|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.89|||<|0.001||95.0|1.92|7.85|||ANCOVA|||||7.85|1.92|<0.001
82566363|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.15|||<|0.001||95.0|11.08|17.21|||ANCOVA|||||17.21|11.08|<0.001
82566364|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.73|||<|0.001||95.0|9.94|15.52|||ANCOVA|||||15.52|9.94|<0.001
82566365|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.49|||<|0.001||95.0|9.66|15.32|||ANCOVA|||||15.32|9.66|<0.001
82566366|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.42|||<|0.001||95.0|8.12|14.73|||ANCOVA|||||14.73|8.12|<0.001
82566367|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.32|||<|0.001||95.0|9.15|15.49|||ANCOVA|||||15.49|9.15|<0.001
82566368|NCT00043186|164842736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.74|||<|0.001||95.0|8.72|14.76|||ANCOVA|||||14.76|8.72|<0.001
82566369|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566370|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82628414|NCT04315298|164972146|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.3039|TWO_SIDED|95.0|-1.1|0.3||p-value using two-sample t-test|t-test, 2 sided|||Hospitalized up to Day 29||0.3|-1.1|0.3039
82566371|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566372|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566373|NCT00043186|164842737|SUPERIORITY_OR_OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
82566374|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566375|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566376|NCT00043186|164842737|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566377|NCT00043186|164842738|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82566378|NCT00043186|164842738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566379|NCT00043186|164842738|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
82566380|NCT00043186|164842738|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82566381|NCT00043186|164842738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566382|NCT00043186|164842738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82628415|NCT01183104|164972174|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was 0.3%.|LS mean difference|0.11||||0.087|TWO_SIDED|95.0|-0.02|0.24|||ANCOVA|||||0.24|-0.02|0.087
82566383|NCT00043186|164842738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566384|NCT00043186|164842738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566385|NCT00043186|164842739|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566386|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82566387|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82566388|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566389|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82566390|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82566391|NCT00043186|164842739|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82566392|NCT00043186|164842739|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566393|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
82566394|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
82566395|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82566396|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82566397|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82566398|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
82566399|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
82566400|NCT00043186|164842740|SUPERIORITY_OR_OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
82566401|NCT00043186|164842741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566402|NCT00043186|164842741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566403|NCT00043186|164842741|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82566404|NCT00043186|164842741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566405|NCT00043186|164842741|SUPERIORITY_OR_OTHER|||||||0.409|||||||Wilcoxon (Mann-Whitney)|||||||0.409
82566406|NCT00043186|164842741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566407|NCT00043186|164842741|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82566408|NCT00043186|164842741|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82566409|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82566410|NCT00043186|164842742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566411|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
82566412|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566413|NCT00043186|164842742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566414|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566415|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566416|NCT00043186|164842742|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82566417|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
82566418|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
82566419|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
82566420|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82566421|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
82566422|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
82566423|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82566424|NCT00043186|164842743|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||||||0.053
82566425|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
82566426|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||||||0.172
82566427|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82566428|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
82566429|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
82566430|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||||||0.168
82566431|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||||||0.168
82566432|NCT00043186|164842744|SUPERIORITY_OR_OTHER|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||||||0.172
82628416|NCT01183104|164972175|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|||||||0.002
82628417|NCT01183104|164972176|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82628418|NCT01183104|164972177|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||||||0.030
82628419|NCT01183104|164972178|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82628420|NCT01183104|164972179|SUPERIORITY_OR_OTHER|||||||0.043|||||||ANCOVA|||||||0.043
82628421|NCT03267511|164972180|OTHER||Difference of Least Mean Square|0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6499|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|||"The reason for entering same analysis for primary and secondary is because statistical analysis was not done separately for primary outcome measure.~The decision was clinical decision at the time of protocol design.There was no comparisons for the primary objective as the main objective was to look at the rank order of the treatments in level of stain reduction after 8 weeks of treatment. This was achieved via the adjusted means and confidence intervals for the means along with plots of MLSI over time. The hypothesis was that the test products would reduce stain to a greater extent than the reference products. Two comparisons of interest were done under secondary and exploratory objectives."|0.31|-0.19|0.6499
82628422|NCT03267511|164972180|OTHER||Difference of Least Square mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128||0.568|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|-0.33 to 0.18|||0.18|-0.33|0.5680
82628423|NCT03267511|164972181|OTHER||Difference of Least Square mean|0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6499|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.31|-0.19|0.6499
82628424|NCT03267511|164972182|OTHER||Difference of Least Square mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128||0.568|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|From ANCOVA with treatment as fixed effect and baseline overall MLSI score as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.18|-0.33|0.5680
82628425|NCT01594749|164972183|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on Cochran-Mantel-Haenszel (CMH) method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
82628426|NCT01594749|164972184|SUPERIORITY_OR_OTHER||Difference in percentage vs. Control|0.6||||0.085|TWO_SIDED|95.0|-0.2|1.7||P-value based on Miettinen \& Nurminen method|Miettinen & Nurminen method|||||1.7|-0.2|0.085
82628427|NCT01594749|164972186|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
82628428|NCT01594749|164972187|SUPERIORITY_OR_OTHER|||||||0.184||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||0.184
82628429|NCT01594749|164972188|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value based on CMH method with stratification of gender|Cochran-Mantel-Haenszel|||Percentage difference in Fosaprepitant Regimen vs. Control Regimen||||<0.001
82628430|NCT02177786|164972200|SUPERIORITY||Least Square Means Difference|0.38|STANDARD_ERROR_OF_MEAN|1.21||0.755|TWO_SIDED|95.0|-2.0|2.75||Data was calculated using a mixed-effect model repeated measures (MMRM) model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||2.75|-2.00|0.755
82628431|NCT02177786|164972200|SUPERIORITY||Least Square Means Difference|0.84|STANDARD_ERROR_OF_MEAN|1.22||0.492|TWO_SIDED|95.0|-1.55|3.23||Data was calculated using a MMRM model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||3.23|-1.55|0.492
82628432|NCT02177786|164972200|SUPERIORITY||Least Square Means Difference|-0.87|STANDARD_ERROR_OF_MEAN|1.23||0.481|TWO_SIDED|95.0|-3.29|1.56||Data was calculated using a MMRM model including terms for treatment group, baseline eGFR, visit and treatment by visit interaction for comparison of change from baseline in eGFR between selonsertib and placebo.|MMRM|||||1.56|-3.29|0.481
82628433|NCT02177786|164972201|SUPERIORITY||Difference in Percentages|-2.2||||0.798|TWO_SIDED|95.0|-16.1|11.7|||Cochran-Mantel-Haenszel|P-value was based on a Cochran-Mantel-Haenszel (CMH) test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% confidence interval (CI) in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||11.7|-16.1|0.798
82628434|NCT02177786|164972201|SUPERIORITY||Difference in Percentages|-9.2||||0.175|TWO_SIDED|95.0|-22.3|4.0|||Cochran-Mantel-Haenszel|P-value was based on a CMH test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% CI in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||4.0|-22.3|0.175
82628435|NCT02177786|164972201|SUPERIORITY||Difference in Percentages|-2.9||||0.686|TWO_SIDED|95.0|-16.6|10.9|||Cochran-Mantel-Haenszel|P-value was based on a CMH test stratified by stage of disease to compare the response rate between selonsertib and placebo.|The 95% CI in the difference in percentages between selonsertib and placebo was based on Wald Asymptotic test.|||10.9|-16.6|0.686
82628436|NCT03950440|164972211|OTHER|Propensity scores were obtained from three separate multivariable logistic regression models contrasting each group versus the two other groups. The result from this multivariable model quantifies the degree of separation between both groups.|Risk Ratio (RR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.16|0.44||The double robust approach refers to the weighted analysis with all variables involved in the construction of the propensity-based weights added as confounders in the model.|Poisson regression||TAVI-group compared to the SAVR-group|Frailty scores (Tilburg and essential) and Euroscore were specified in the protocol. Age was added during the meeting before start of the data-analysis|The double robust approach refers to the weighted analysis with all variables involved in the construction of the propensity-based weights added as confounders in the model.|0.44|0.16|<0.0001
82523006|NCT01337674|164741428|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-5.91|||||TWO_SIDED|90.0|-10.71|-1.11|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Semi-recumbent, Day 7||-1.11|-10.71|
82566433|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|||<|0.001||95.0|1.7|3.64|||ANCOVA|||||3.64|1.70|<0.001
82566434|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|||<|0.001||95.0|1.9|3.89|||ANCOVA|||||3.89|1.90|<0.001
82566435|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||<|0.001||95.0|2.07|4.11|||ANCOVA|||||4.11|2.07|<0.001
82566436|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12|||<|0.001||95.0|3.13|5.11|||ANCOVA|||||5.11|3.13|<0.001
82566437|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.001||95.0|1.55|3.46|||ANCOVA|||||3.46|1.55|<0.001
82566438|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.89|||<|0.001||95.0|2.83|4.95|||ANCOVA|||||4.95|2.83|<0.001
82566439|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|||<|0.001||95.0|1.99|4.04|||ANCOVA|||||4.04|1.99|<0.001
82566440|NCT00043186|164842745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.46|||<|0.001||95.0|2.43|4.48|||ANCOVA|||||4.48|2.43|<0.001
82566441|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19|||<|0.001||95.0|4.04|6.34|||ANCOVA|||||6.34|4.04|<0.001
82566442|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|||<|0.001||95.0|4.93|7.27|||ANCOVA|||||7.27|4.93|<0.001
82566443|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59|||<|0.001||95.0|4.4|6.78|||ANCOVA|||||6.78|4.40|<0.001
82566444|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.89|||<|0.001||95.0|5.76|8.01|||ANCOVA|||||8.01|5.76|<0.001
82566445|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|||<|0.001||95.0|3.41|5.67|||ANCOVA|||||5.67|3.41|<0.001
82628437|NCT02043509|164972230|SUPERIORITY||Adjusted odds ratio|2.7|||||TWO_SIDED|95.0|0.93|9.35|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||9.35|0.93|
82377592|NCT04152863|164462574|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|-2.1|||||TWO_SIDED|90.0|-23.1|19.2||||||||19.2|-23.1|
82566446|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.95|||<|0.001||95.0|5.69|8.21|||ANCOVA|||||8.21|5.69|<0.001
82566447|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|||<|0.001||95.0|4.29|6.67|||ANCOVA|||||6.67|4.29|<0.001
82566448|NCT00043186|164842746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.97|||<|0.001||95.0|4.76|7.17|||ANCOVA|||||7.17|4.76|<0.001
82566449|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.78|||<|0.001||95.0|2.19|5.36|||ANCOVA|||||5.36|2.19|<0.001
82566450|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.41||||0.07||95.0|-0.12|2.94|||ANCOVA|||||2.94|-0.12|0.07
82566451|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.17|||<|0.001||95.0|5.54|8.8|||ANCOVA|||||8.80|5.54|<0.001
82566452|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.67|||<|0.001||95.0|7.13|10.21|||ANCOVA|||||10.21|7.13|<0.001
82566453|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.15|||<|0.001||95.0|5.62|8.69|||ANCOVA|||||8.69|5.62|<0.001
82566454|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61||||0.07||95.0|-0.12|3.35|||ANCOVA|||||3.35|-0.12|0.07
82566455|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.26|||<|0.001||95.0|5.56|8.95|||ANCOVA|||||8.95|5.56|<0.001
82566456|NCT00043186|164842747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.63|||<|0.001||95.0|6.02|9.24|||ANCOVA|||||9.24|6.02|<0.001
82566457|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.94||||0.002||95.0|1.86|8.02|||ANCOVA|||||8.02|1.86|0.002
82566458|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.677||95.0|-4.1|2.68|||ANCOVA|||||2.68|-4.10|0.677
82566459|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.66||||0.001||95.0|3.14|10.18|||ANCOVA|||||10.18|3.14|0.001
82566460|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.29|||<|0.001||95.0|5.26|11.33|||ANCOVA|||||11.33|5.26|<0.001
82566461|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||<|0.001||95.0|3.59|9.41|||ANCOVA|||||9.41|3.59|<0.001
82566462|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||0.047||95.0|0.61|8.05|||ANCOVA|||||8.05|0.61|0.047
82566463|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.94||||0.003||95.0|2.53|9.36|||ANCOVA|||||9.36|2.53|0.003
82566464|NCT00043186|164842748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.97||||0.001||95.0|3.28|10.66|||ANCOVA|||||10.66|3.28|0.001
82566465|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.69|||<|0.001||95.0|2.97|6.41|||ANCOVA|||||6.41|2.97|<0.001
82566466|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16||||0.015||95.0|0.43|3.89|||ANCOVA|||||3.89|0.43|0.015
82566467|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.52|||<|0.001||95.0|6.74|10.3|||ANCOVA|||||10.30|6.74|<0.001
82566468|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.58|||<|0.001||95.0|7.95|11.21|||ANCOVA|||||11.21|7.95|<0.001
82566469|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.34|||<|0.001||95.0|6.7|9.99|||ANCOVA|||||9.99|6.70|<0.001
82566470|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.38|||<|0.001||95.0|5.45|9.31|||ANCOVA|||||9.31|5.45|<0.001
82566471|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.55|||<|0.001||95.0|5.72|9.38|||ANCOVA|||||9.38|5.72|<0.001
82566472|NCT00043186|164842749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.97|||<|0.001||95.0|7.23|10.72|||ANCOVA|||||10.72|7.23|<0.001
82566473|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44||||0.033||95.0|0.11|2.76|||ANCOVA|||||2.76|0.11|0.033
82566474|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06|||<|0.001||95.0|1.69|4.42|||ANCOVA|||||4.42|1.69|<0.001
82566475|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.04|||<|0.001||95.0|1.68|4.4|||ANCOVA|||||4.40|1.68|<0.001
82628438|NCT02043509|164972231|SUPERIORITY||Adjusted odds ratio|1.03|||||TWO_SIDED|95.0|0.61|1.75|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||1.75|0.61|
82628439|NCT02043509|164972232|SUPERIORITY||Adjusted odds ratio|1.34|||||TWO_SIDED|95.0|0.79|2.31|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||2.31|0.79|
82628440|NCT02043509|164972233|SUPERIORITY||Adjusted odds ratio|1.67|||||TWO_SIDED|95.0|0.72|4.03|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||4.03|0.72|
82628441|NCT02043509|164972234|SUPERIORITY||Adjusted odds ratio|2.11|||||TWO_SIDED|95.0|0.89|5.46|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||5.46|0.89|
82628442|NCT02043509|164972235|SUPERIORITY||Adjusted odds ratio|3.16|||||TWO_SIDED|95.0|1.14|10.69|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||10.69|1.14|
82628443|NCT02043509|164972236|SUPERIORITY||Adjusted odds ratio|3.28|||||TWO_SIDED|95.0|0.9|17.36|||||Odds ratios are model-based (adjusted by site and gestation at randomization). 95% profile confidence intervals are reported.|||17.36|0.90|
82628444|NCT02043509|164972237|SUPERIORITY|||||||0.118|||||||Mann-Whitney U-test|||||||0.118
82628445|NCT03189563|164972244|SUPERIORITY|||||||0.3656||||||p-value is from ANCOVA model adjusted for baseline motor MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3656
82628446|NCT03189563|164972244|SUPERIORITY|||||||0.3119||||||p-value is from ANCOVA model adjusted for baseline motor MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3119
82628447|NCT03189563|164972245|SUPERIORITY|||||||0.147||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1470
82628448|NCT03189563|164972245|SUPERIORITY|||||||0.252||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2520
82628449|NCT03189563|164972246|SUPERIORITY|||||||0.1528||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 1 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1528
82628450|NCT03189563|164972246|SUPERIORITY|||||||0.6146||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 1 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.6146
82628451|NCT03189563|164972247|SUPERIORITY|||||||0.5691||||||p-value is from ANCOVA model adjusted for baseline S\&E scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.5691
82628452|NCT03189563|164972247|SUPERIORITY|||||||0.1309||||||p-value is from ANCOVA model adjusted for baseline S\&E scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1309
82628453|NCT03189563|164972248|SUPERIORITY|||||||0.7913||||||p-value is from ANCOVA model adjusted for baseline PDQ-39 summary index. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.7913
82628454|NCT03189563|164972248|SUPERIORITY|||||||0.9399||||||p-value is from ANCOVA model adjusted for baseline PDQ-39 summary index. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.9399
82628455|NCT03189563|164972249|SUPERIORITY|||||||0.4978||||||p-value is from ANCOVA model adjusted for baseline H\&Y scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.4978
82628456|NCT03189563|164972249|SUPERIORITY|||||||0.888||||||p-value is from ANCOVA model adjusted for baseline H\&Y scale total score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.8880
82628457|NCT03189563|164972250|SUPERIORITY|||||||0.5755||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 2 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.5755
82628458|NCT03189563|164972250|SUPERIORITY|||||||0.1517||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 2 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.1517
82628459|NCT03189563|164972251|SUPERIORITY|||||||0.2095||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 3 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2095
82377593|NCT04152863|164462574|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in %|0.0|||||TWO_SIDED|90.0|-21.2|21.2||||||||21.2|-21.2|
82628460|NCT03189563|164972251|SUPERIORITY|||||||0.6094||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 3 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.6094
82628461|NCT03189563|164972252|SUPERIORITY|||||||0.226||||||"p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 4 subscale score.~All statistical tests for efficacy are two-sided tests, with α=0.05."|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2260
82628462|NCT03189563|164972252|SUPERIORITY|||||||0.226||||||p-value is from ANCOVA model adjusted for baseline MDS-UPDRS part 4 subscale score All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.2260
82628463|NCT03189563|164972253|SUPERIORITY|||||||0.8274||||||p-value is from ANCOVA model adjusted for baseline CGI-S score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.8274
82628464|NCT03189563|164972253|SUPERIORITY|||||||0.3416||||||p-value is from ANCOVA model adjusted for baseline CGI-S score. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||Change from baseline is based on subjects with paired values.||||0.3416
82628465|NCT03189563|164972254|SUPERIORITY|||||||0.4052||||||P-value is from ANCOVA model. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||||||0.4052
82628466|NCT03189563|164972254|SUPERIORITY|||||||0.2643||||||P-value is from ANCOVA model. All statistical tests for efficacy are two-sided tests, with α=0.05.|ANCOVA|||||||0.2643
82628467|NCT01957215|164972270|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.72||||0.0201||95.0|0.1134|1.3199||P- value was obtained from ANCOVA model with treatment and site as fixed effects and NRS Baseline value as a covariate|ANCOVA||ADJ DIFF is the Treatment difference defined as the Adjusted Mean of 0.35% Indomethacin Patches minus Adjusted Mean of Placebo Patches|||1.3199|0.1134|0.0201
82628468|NCT02473289|164972390|SUPERIORITY||Difference of Least Square (LS) Means|-0.8|STANDARD_ERROR_OF_MEAN|1.67||0.31|TWO_SIDED|75.0|-2.77|1.1||1-sided|MMRM|Here 'MMRM' refers to Mixed-effect Model Using Repeated Measures.||||1.10|-2.77|0.310
82628469|NCT03605836|164972423|SUPERIORITY||Least Squares (LS) Mean Difference|-4.01|||=|0.0021|TWO_SIDED|95.0|-6.55|-1.46|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-1.46|-6.55|=0.0021
82628470|NCT03605836|164972423|SUPERIORITY||LS Mean Difference|-4.42|||=|0.0009|TWO_SIDED|95.0|-7.02|-1.82|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-1.82|-7.02|=0.0009
82628471|NCT03605836|164972424|SUPERIORITY||LS Mean Difference|-0.33|||=|0.0073|TWO_SIDED|95.0|-0.57|-0.09|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-0.09|-0.57|=0.0073
82628472|NCT03605836|164972424|SUPERIORITY||LS Mean Difference|-0.28|||=|0.0245|TWO_SIDED|95.0|-0.53|-0.04|||MMRM||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|||-0.04|-0.53|=0.0245
82628473|NCT01000818|164972440|NON_INFERIORITY_OR_EQUIVALENCE|The raltegravir AUC0-12 hr geometric mean ratio (raltegravir + omeprazole/raltegravir) is noniferior at less than 2.0.|Geometric Mean Ratio|1.39||||||95.0|1.04|1.84||||||||1.84|1.04|
82628474|NCT01000818|164972440|NON_INFERIORITY_OR_EQUIVALENCE|The raltegravir AUC0-12 hr geometric mean ratio (raltegravir + omeprazole/raltegravir) is noniferior at less than 2.0.|Geometric Mean Ratio|1.45||||||95.0|1.09|1.93||||||||1.93|1.09|
82628475|NCT03536923|164972441|OTHER|||||||0.0001|||||||t-test, 1 sided|||||||0.0001
82628476|NCT03536923|164972442|OTHER|||||||0.0009|||||||t-test, 1 sided|||||||0.0009
82628477|NCT03536923|164972444|OTHER|||||||0.0001|||||||t-test, 1 sided|||||||0.0001
82628478|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|54.2|||||TWO_SIDED|95.0|-41.7|150.1||||||LS Mean difference: Treatment A vs. Treatment B, E, G \& I (placebo) Day 5||150.1|-41.7|
82628479|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|-52.0|||||TWO_SIDED|95.0|-148.5|44.5||||||LS Mean difference: Treatment C vs. Treatment B, E, G \& I (placebo) Day 5||44.5|-148.5|
82628480|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|5.5|||||TWO_SIDED|95.0|-96.0|106.9||||||LS Mean difference: Treatment D vs. Treatment B, E, G \& I (placebo) Day 5||106.9|-96.0|
82628481|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|33.5|||||TWO_SIDED|95.0|-66.8|133.9||||||LS Mean difference: Treatment F vs. Treatment B, E, G \& I (placebo) Day 5||133.9|-66.8|
82628482|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|99.8|||||TWO_SIDED|95.0|-2.4|202.0||||||LS Mean difference: Treatment H vs. Treatment B, E, G \& I (placebo) Day 5||202.0|-2.4|
82628483|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|37.8|||||TWO_SIDED|95.0|-107.1|182.6||||||LS Mean difference: Treatment A vs. Treatment B, E, G \& I (placebo) Day 10||182.6|-107.1|
82628484|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|-72.0|||||TWO_SIDED|95.0|-215.7|71.8||||||LS Mean difference: Treatment C vs. Treatment B, E, G \& I (placebo) Day 10||71.8|-215.7|
82628485|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|-72.3|||||TWO_SIDED|95.0|-241.5|96.9||||||LS Mean difference: Treatment D vs. Treatment B, E, G \& I (placebo) Day 10||96.9|-241.5|
82628486|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|-17.9|||||TWO_SIDED|95.0|-154.9|119.2||||||LS Mean difference: Treatment F vs. Treatment B, E, G \& I (placebo) Day 10||119.2|-154.9|
82628487|NCT01332097|164972448|SUPERIORITY||Least squares mean difference|123.6|||||TWO_SIDED|95.0|-15.8|263.0||||||LS Mean difference: Treatment H vs. Treatment B, E, G \& I (placebo) Day 10||263.0|-15.8|
82628488|NCT00431496|164972450|SUPERIORITY_OR_OTHER||Percentage of participants|42.3||||||95.0|30.8|53.7||||||||53.7|30.8|
82628489|NCT00431496|164972451|SUPERIORITY_OR_OTHER||Percentage of participants|52.1||||||95.0|40.5|63.7||||||||63.7|40.5|
82628490|NCT00431496|164972452|SUPERIORITY_OR_OTHER||Percentage of participants|78.9||||||95.0|69.4|88.4||||||||88.4|69.4|
82628491|NCT00431496|164972453|SUPERIORITY_OR_OTHER||Percentage of participants|54.9||||||95.0|43.4|66.5||||||||66.5|43.4|
82628492|NCT00431496|164972454|SUPERIORITY_OR_OTHER||Percentage of participants|53.5||||||95.0|41.9|65.1||||||||65.1|41.9|
82628493|NCT00431496|164972455|SUPERIORITY_OR_OTHER||Percentage of participants|46.5||||||95.0|34.9|58.1||||||||58.1|34.9|
82628494|NCT00560794|164972463|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The null hypothesis stated that the true MRD response probability (π) ≤ 5%.|1-sided exact binomial test|||||||0.0000
82628495|NCT00655811|164972480|SUPERIORITY||||||<|0.05|||||||ANOVA|||One-way anova was used to compare the mean COVAS values between groups.||||<0.05
82628496|NCT00655811|164972480|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.550
82628497|NCT00655811|164972480|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
82628498|NCT00655811|164972480|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
82628499|NCT00655811|164972481|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
82628500|NCT00655811|164972481|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82628501|NCT00655811|164972481|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82628502|NCT00655811|164972482|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82628503|NCT04507360|164972563|SUPERIORITY||Mean Difference (Final Values)|0.23|||||TWO_SIDED|||||||||"Mean difference in Overall row"||||
82628504|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.96|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82628505|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.63|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82628506|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82628507|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.62|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628508|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.85|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
82628509|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82507381|NCT01713868|164705836|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect: p=0.22. Adjusted mHealth effect p\<0.001. Test for interaction p=0.08.|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up,this led to a sample of n=1600.||||<0.001
82507382|NCT01713868|164705837|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect p=0.07. Adjusted mHealth effect p\<0.001. Test for interaction p=0.54|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||<0.001
82507383|NCT01713868|164705838|SUPERIORITY|GEE logistic regression accounted for within-hospital clustering, individual-level \& hospital-level covariates. We converted aORs to aRDs (95% CI) using the BF/BF group as the control group prevalence and reported separate effects of the 2 interventions. We fit multiplicative interaction models with indicator variables for education, mHealth, and their interaction. As the interaction between interventions was not significant, we only presented main effects model.|||||<|0.001||||||Adjusted education effect p=0.33. Adjusted mHealth effect p\<0.001. Test for interaction p=0.29.|Regression, Logistic|||Sample size provided power of detecting the effect of an individual intervention in the presence of interaction. We assumed pre-study prevalence of a safe sleep practice ranging from 50% to 60% across hospitals. We powered the study to detect a 10 percentage point difference between two study groups, and determined that an analysis sample of n=1280 (320 per treatment group) was needed for 80% power (testing at two-sided p\<0.05). Allowing for 20% loss to follow-up, this led to a sample of n=1600.||||<0.001
82507384|NCT01713868|164705839|OTHER|Causal mediation analysis|Difference in proportions|0.16|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
82507385|NCT01713868|164705840|OTHER|Causal mediation analysis|Difference in proportions|0.14|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
82507386|NCT01713868|164705841|OTHER|Causal mediation analysis|Difference in proportions|0.14|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
82507387|NCT01713868|164705842|OTHER|Causal mediation analysis|Difference in proportions|0.15|||||TWO_SIDED|95.0|||||||||We performed causal mediation analyses to estimate the Total Effect of intervention on a categorical outcome as the difference in the proportion with the outcome for those who received the intervention and were positive on the mediator vs. those who received the control and were negative on the mediator. Significance is determined through 95% confidence intervals (CIs), with CIs not including 0.0 indicating significant effects.|||
82507388|NCT04476030|164705845|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.55||0.0004|TWO_SIDED|95.0|-3.0|-0.9|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||-0.9|-3.0|0.0004
82566476|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|||<|0.001||95.0|1.94|4.57|||ANCOVA|||||4.57|1.94|<0.001
82566477|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.91|||<|0.001||95.0|1.6|4.21|||ANCOVA|||||4.21|1.60|<0.001
82566478|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.07|||<|0.001||95.0|1.65|4.49|||ANCOVA|||||4.49|1.65|<0.001
82628510|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|1.39|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82566479|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37|||<|0.001||95.0|0.99|3.76|||ANCOVA|||||3.76|0.99|<0.001
82566480|NCT00043186|164842750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|||<|0.001||95.0|1.47|4.24|||ANCOVA|||||4.24|1.47|<0.001
82566481|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99||||0.009||95.0|0.49|3.49|||ANCOVA|||||3.49|0.49|0.009
82566482|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.58|||<|0.001||95.0|2.06|5.1|||ANCOVA|||||5.10|2.06|<0.001
82566483|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|||<|0.001||95.0|2.73|5.78|||ANCOVA|||||5.78|2.73|<0.001
82628511|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|2.16|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82507389|NCT04476030|164705846|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.56||0.0054|TWO_SIDED|95.0|-2.7|-0.5|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||-0.5|-2.7|0.0054
82628512|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|2.69|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628513|NCT04507360|164972565|SUPERIORITY||Mean Difference (Final Values)|1.75|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
82628514|NCT04507360|164972566|SUPERIORITY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82628515|NCT04507360|164972566|SUPERIORITY||Mean Difference (Final Values)|0.42|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82628516|NCT04507360|164972566|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82377594|NCT04152863|164462575|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.7|3.02||||||||3.02|0.70|
82628517|NCT04507360|164972566|SUPERIORITY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628518|NCT04507360|164972567|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82628519|NCT04507360|164972567|SUPERIORITY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82628520|NCT04507360|164972567|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82628521|NCT04507360|164972567|SUPERIORITY||Mean Difference (Final Values)|0.29|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628522|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82628523|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82628524|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|1.24|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82628525|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|0.47|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628526|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
82628527|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|1.98|||||TWO_SIDED|||||||||Mean difference in total score at week 1||||
82507390|NCT04476030|164705847|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.7||0.2477|TWO_SIDED|95.0|-2.2|0.6|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|Day 15||0.6|-2.2|0.2477
82507391|NCT04476030|164705847|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.79||0.9248|TWO_SIDED|95.0|-1.6|1.5|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|Day 42||1.5|-1.6|0.9248
82507392|NCT04476030|164705848|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.65||0.4458|TWO_SIDED|95.0|-1.8|0.8|||MMRM||Model used was the MMRM with treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.8|-1.8|0.4458
82507393|NCT04476030|164705849|SUPERIORITY||Odds Ratio (OR)|1.15||||0.4946|TWO_SIDED|95.0|0.78|1.69|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15|Generalized estimating equation is abbreviated as GEE in the method of estimation section.|1.69|0.78|0.4946
82507394|NCT04476030|164705849|SUPERIORITY||Odds Ratio (OR)|0.82||||0.3579|TWO_SIDED|95.0|0.55|1.24|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 42||1.24|0.55|0.3579
82507395|NCT04476030|164705850|SUPERIORITY||Odds Ratio (OR)|1.41||||0.1417|TWO_SIDED|95.0|0.89|2.24|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15||2.24|0.89|0.1417
82507396|NCT04476030|164705850|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7872|TWO_SIDED|95.0|0.62|1.44|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline HAMD-17 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 42||1.44|0.62|0.7872
82507397|NCT04476030|164705851|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1993|TWO_SIDED|95.0|-0.4|0.1|||MMRM||Model used was the MMRM with treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.1|-0.4|0.1993
82507398|NCT04476030|164705852|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0079|TWO_SIDED|95.0|1.21|3.47|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 3||3.47|1.21|0.0079
82628528|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|1.18|||||TWO_SIDED|||||||||Mean difference in total score at week 2||||
82628529|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|3.67|||||TWO_SIDED|||||||||Mean difference in total score at week 3||||
82628530|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|4.22|||||TWO_SIDED|||||||||Mean difference in total score at week 4||||
82628531|NCT04507360|164972568|SUPERIORITY||Mean Difference (Final Values)|2.07|||||TWO_SIDED|||||||||Mean difference in total score at week 8||||
82628532|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|||||||||Mean difference at baseline||||
82628533|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.29|||||TWO_SIDED|||||||||Mean difference at week 1||||
82628534|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|||||||||Mean difference at week 2||||
82628535|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.13|||||TWO_SIDED|||||||||Mean difference at week 3||||
82628536|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|1.68|||||TWO_SIDED|||||||||Mean difference at week 4||||
82628537|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|||||||||Mean difference at week 8||||
82628538|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.28|||||TWO_SIDED|||||||||Mean difference at baseline||||
82628539|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.67|||||TWO_SIDED|||||||||Mean difference at week 1||||
82628540|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.78|||||TWO_SIDED|||||||||Mean difference at week 2||||
82628541|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|||||||||Mean difference at week 3||||
82628542|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.47|||||TWO_SIDED|||||||||Mean difference at week 4||||
82628543|NCT04507360|164972571|SUPERIORITY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|||||||||Mean difference at week 8||||
82628544|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|||||||||Mean difference at baseline||||
82628545|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|||||||||Mean difference at week 1||||
82628546|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.23|||||TWO_SIDED|||||||||Mean difference at week 2||||
82628547|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|||||||||Mean difference at week 3||||
82377595|NCT04152863|164462575|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.62|2.68||||||||2.68|0.62|
82628548|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|1.26|||||TWO_SIDED|||||||||Mean difference at week 4||||
82628549|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|||||||||Mean difference at week 8||||
82628550|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED|||||||||Mean difference at baseline||||
82628551|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|||||||||Mean difference at week 1||||
82628552|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|||||||||Mean difference at week 2||||
82628553|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|||||||||Mean difference at week 3||||
82628554|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|||||||||Mean difference at week 4||||
82628555|NCT04507360|164972572|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference at week 8||||
82628556|NCT03552289|164972621|SUPERIORITY|||||||0.8283|||||||One-sided Z-test|||||||0.8283
82628557|NCT01726504|164972624|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||During the 8-week treatment period, the adjusted change from baseline in mean weekly CSBMs was 1.72 ± 0.12 (95% CI, 1.48 to 1.96) in the EA group and 0.82 ± 0.13 (95% CI, 0.58 to 1.07, P\<0.001) times more than that in the SA group.||||<0.001
82628558|NCT02037204|164972636|NON_INFERIORITY|A repeated-measures analysis of variance was used to test for differences in clinical outcome between baseline and 3, and 18 months after surgery.|||||<|0.05|||||||ANOVA|||A repeated-measures analysis of variance was used to test for differences in clinical outcome between baseline and 3, and 18 months after surgery.||||<0.05
82628559|NCT03531762|164972641|OTHER||Ratio of Geometric Least Square Mean|108.87|||||TWO_SIDED|90.0|101.2|117.13||||||||117.13|101.20|
82628560|NCT03531762|164972642|OTHER||Ratio of Geometric Least Square Mean|109.8|||||TWO_SIDED|90.0|101.69|118.55||||||||118.55|101.69|
82628561|NCT03531762|164972643|OTHER||Ratio of Geometric Least Square Mean|104.1|||||TWO_SIDED|90.0|92.93|116.61||||||||116.61|92.93|
82628562|NCT02527564|164972655|OTHER|||||||0.1||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Within group change at week 1 - suvorexant (double-blind)||||0.10
82628563|NCT02527564|164972655|OTHER|||||||0.57||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Within group change at week 1- placebo (double-blind) group||||0.57
82628564|NCT02527564|164972655|OTHER|||||||0.44||||||A p-value of \<0.05 would be considered statistically significant.|Unpaired 2-sided t-test|||Between group change at week 1||||0.44
82628565|NCT02527564|164972656|OTHER|||||||0.035||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at week 1 - suvorexant (double-blind)||||0.035
82628566|NCT02527564|164972656|OTHER|||||||0.55|||||||Paired 2-sided t-test|A p-value of \<0.05 would be considered statistically significant.||Within group change at week 1- placebo (double-blind) group||||0.55
82628567|NCT02527564|164972656|OTHER|||||||0.89||||||A p-value of \<0.05 would be considered statistically significant.|Paired 2-sided t-test|||Between group change at week 1||||0.89
82628568|NCT02527564|164972657|OTHER|||||||0.97||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at month 3 - suvorexant (open-label)||||0.97
82628569|NCT02527564|164972658|OTHER|||||||0.28||||||A p-value of \<0.05 would be considered significantly significant.|Paired 2-sided t-test|||Within group change at month 3 - suvorexant (open-label)||||0.28
82628570|NCT02498392|164972666|SUPERIORITY||Difference of Least Square (LS) Means|-0.2|STANDARD_ERROR_OF_MEAN|1.04|=|0.416|TWO_SIDED|60.0|-1.1|0.66|||Mixed-effects Model for Repeated Measure|||||0.66|-1.10|= 0.416
82628571|NCT02498392|164972667|SUPERIORITY||Difference of Least Square (LS) Means|0.3|STANDARD_ERROR_OF_MEAN|0.88|=|0.647|TWO_SIDED|60.0|-0.41|1.07||1-sided|Mixed-effects Model for Repeated Measure|||||1.07|-0.41|= 0.647
82628572|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.9825|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.9825
82628573|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.5737|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5737
82566484|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|||<|0.001||95.0|2.55|5.62|||ANCOVA|||||5.62|2.55|<0.001
82566485|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.67|||<|0.001||95.0|3.23|6.11|||ANCOVA|||||6.11|3.23|<0.001
82566486|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.26|||<|0.001||95.0|3.78|6.73|||ANCOVA|||||6.73|3.78|<0.001
82566487|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||<|0.001||95.0|2.48|5.68|||ANCOVA|||||5.68|2.48|<0.001
82566488|NCT00043186|164842751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39|||<|0.001||95.0|1.86|4.93|||ANCOVA|||||4.93|1.86|<0.001
82566489|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.69||||0.002||95.0|1.01|4.38|||ANCOVA|||||4.38|1.01|0.002
82566490|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.77|||<|0.001||95.0|2.14|5.39|||ANCOVA|||||5.39|2.14|<0.001
82566491|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||<|0.001||95.0|3.87|7.26|||ANCOVA|||||7.26|3.87|<0.001
82566492|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|||<|0.001||95.0|4.75|7.92|||ANCOVA|||||7.92|4.75|<0.001
82566493|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.73|||<|0.001||95.0|4.12|7.33|||ANCOVA|||||7.33|4.12|<0.001
82566494|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||<|0.001||95.0|2.89|6.5|||ANCOVA|||||6.50|2.89|<0.001
82566495|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||<|0.001||95.0|2.92|6.49|||ANCOVA|||||6.49|2.92|<0.001
82566496|NCT00043186|164842752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.63|||<|0.001||95.0|3.96|7.3|||ANCOVA|||||7.30|3.96|<0.001
82566497|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27||||0.496||95.0|-7.16|13.7|||ANCOVA|||||13.7|-7.16|0.496
82566498|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6||||0.527||95.0|-6.38|19.59|||ANCOVA|||||19.59|-6.38|0.527
82566499|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72||||0.503||95.0|-2.9|14.33|||ANCOVA|||||14.33|-2.90|0.503
82566500|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.68||||0.527||95.0|-6.54|11.89|||ANCOVA|||||11.89|-6.54|0.527
82566501|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41||||0.503||95.0|-2.19|17.01|||ANCOVA|||||17.01|-2.19|0.503
82566502|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.59||||0.503||95.0|-1.85|17.03|||ANCOVA|||||17.03|-1.85|0.503
82566503|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.18||||0.503||95.0|-2.45|16.81|||ANCOVA|||||16.81|-2.45|0.503
82566504|NCT00043186|164842753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.88||||0.233||95.0|0.78|14.97|||ANCOVA|||||14.97|0.78|0.233
82566505|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.41|||<|0.001||95.0|4.48|8.34|||ANCOVA|||||8.34|4.48|<0.001
82566506|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.44|||<|0.001||95.0|4.19|8.7|||ANCOVA|||||8.70|4.19|<0.001
82566507|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.09|||<|0.001||95.0|3.91|8.26|||ANCOVA|||||8.26|3.91|<0.001
82566508|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72|||<|0.001||95.0|3.7|7.73|||ANCOVA|||||7.73|3.70|<0.001
82566509|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.054||95.0|-0.04|4.04|||ANCOVA|||||4.04|-0.04|0.054
82566510|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.74|||<|0.001||95.0|1.71|5.77|||ANCOVA|||||5.77|1.71|<0.001
82566511|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.05|||<|0.001||95.0|4.0|8.1|||ANCOVA|||||8.10|4.00|<0.001
82566512|NCT00043186|164842754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.39|||<|0.001||95.0|4.49|8.28|||ANCOVA|||||8.28|4.49|<0.001
82566513|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.001||95.0|1.09|3.51|||ANCOVA|||||3.51|1.09|0.001
82566514|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.73||||0.005||95.0|0.52|2.93|||ANCOVA|||||2.93|0.52|0.005
82566515|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.004||95.0|0.74|3.25|||ANCOVA|||||3.25|0.74|0.004
82566516|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|||<|0.001||95.0|1.54|3.91|||ANCOVA|||||3.91|1.54|<0.001
82566517|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.202||95.0|-0.41|1.95|||ANCOVA|||||1.95|-0.41|0.202
82566518|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.95|||<|0.001||95.0|1.65|4.26|||ANCOVA|||||4.26|1.65|<0.001
82566519|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.004||95.0|0.78|3.26|||ANCOVA|||||3.26|0.78|0.004
82566520|NCT00043186|164842755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.004||95.0|0.8|3.27|||ANCOVA|||||3.27|0.80|0.004
82566521|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.14|||<|0.001||95.0|1.71|4.56|||ANCOVA|||||4.56|1.71|<0.001
82566522|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|||<|0.001||95.0|2.95|5.84|||ANCOVA|||||5.84|2.95|<0.001
82566523|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.64|||<|0.001||95.0|3.19|6.09|||ANCOVA|||||6.09|3.19|<0.001
82566524|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.22|||<|0.001||95.0|2.85|5.58|||ANCOVA|||||5.58|2.85|<0.001
82566525|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.53|||<|0.001||95.0|1.13|3.94|||ANCOVA|||||3.94|1.13|<0.001
82566526|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.09|||<|0.001||95.0|4.53|7.64|||ANCOVA|||||7.64|4.53|<0.001
82566527|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.55|||<|0.001||95.0|3.12|5.98|||ANCOVA|||||5.98|3.12|<0.001
82566528|NCT00043186|164842756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|||<|0.001||95.0|2.76|5.69|||ANCOVA|||||5.69|2.76|<0.001
82566529|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.16|||<|0.001||95.0|3.63|8.68|||ANCOVA|||||8.68|3.63|<0.001
82628574|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.5703|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5703
82566530|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.275||95.0|-1.06|3.7|||ANCOVA|||||3.7|-1.06|0.275
82566531|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.005||95.0|1.65|6.75|||ANCOVA|||||6.75|1.65|0.005
82566532|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.41||||0.002||95.0|2.07|6.75|||ANCOVA|||||6.75|2.07|0.002
82566533|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65||||0.009||95.0|1.25|6.05|||ANCOVA|||||6.05|1.25|0.009
82566534|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95||||0.009||95.0|1.22|6.68|||ANCOVA|||||6.68|1.22|0.009
82566535|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.65||||0.003||95.0|2.05|7.24|||ANCOVA|||||7.24|2.05|0.003
82566536|NCT00043186|164842757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75||||0.001||95.0|2.28|7.22|||ANCOVA|||||7.22|2.28|0.001
82566537|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.18||||0.949||95.0|-8.73|13.1|||ANCOVA|||||13.10|-8.73|0.949
82566538|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.949||95.0|-2.7|9.31|||ANCOVA|||||9.31|-2.70|0.949
82566539|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.709||95.0|-6.81|9.29|||ANCOVA|||||9.29|-6.81|0.709
82566540|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36||||0.949||95.0|-8.55|3.83|||ANCOVA|||||3.83|-8.55|0.949
82566541|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.949||95.0|-4.51|8.72|||ANCOVA|||||8.72|-4.51|0.949
82566542|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.23||||0.484||95.0|-0.83|15.3|||ANCOVA|||||15.3|-0.83|0.484
82566543|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.949||95.0|-3.77|8.66|||ANCOVA|||||8.66|-3.77|0.949
82566544|NCT00043186|164842758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.949||95.0|-10.82|11.4|||ANCOVA|||||11.40|-10.82|0.949
82566545|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.02|||<|0.001||95.0|4.35|9.69|||ANCOVA|||||9.69|4.35|<0.001
82566546|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.25||||0.092||95.0|-0.37|4.87|||ANCOVA|||||4.87|-0.37|0.092
82566547|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||<|0.001||95.0|3.5|8.94|||ANCOVA|||||8.94|3.50|<0.001
82566548|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.97|||<|0.001||95.0|3.51|8.43|||ANCOVA|||||8.43|3.51|<0.001
82566549|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.96|||<|0.001||95.0|3.44|8.48|||ANCOVA|||||8.48|3.44|<0.001
82566550|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.29|||<|0.001||95.0|3.25|9.34|||ANCOVA|||||9.34|3.25|<0.001
82566551|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|||<|0.001||95.0|3.13|8.7|||ANCOVA|||||8.70|3.13|<0.001
82566552|NCT00043186|164842759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||<|0.001||95.0|3.58|8.87|||ANCOVA|||||8.87|3.58|<0.001
82566553|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566554|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566555|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566556|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566557|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566558|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566559|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566560|NCT00043186|164842760|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566561|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566562|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566563|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566564|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566565|NCT00043186|164842761|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566566|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566567|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566568|NCT00043186|164842761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566569|NCT00043186|164842762|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
82566570|NCT00043186|164842762|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82566571|NCT00043186|164842762|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566572|NCT00043186|164842762|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566573|NCT00043186|164842762|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566574|NCT00043186|164842762|SUPERIORITY_OR_OTHER|||||||0.146|||||||Wilcoxon (Mann-Whitney)|||||||0.146
82566575|NCT00043186|164842762|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82566576|NCT00043186|164842762|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566577|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
82566578|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
82566579|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82566580|NCT00043186|164842763|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566581|NCT00043186|164842763|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566582|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82628575|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.5684|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 1: analysis was performed using paired t-test.||||0.5684
82377596|NCT04152863|164462575|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.6|2.22||||||||2.22|0.60|
82628576|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.8235|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.8235
82628577|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.2384|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.2384
82628578|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.1634|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.1634
82628579|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.7816|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 2: analysis was performed using paired t-test.||||0.7816
82628580|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.3917|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.3917
82628581|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.1749|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.1749
82628582|NCT01156363|164972700|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||<0.001
82628583|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0905|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 3: analysis was performed using paired t-test.||||0.0905
82628584|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.3766|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.3766
82628585|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0253|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.0253
82628586|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0209|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.0209
82628587|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.8206|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 4: analysis was performed using paired t-test.||||0.8206
82628588|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0907|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0907
82628589|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0177
82628590|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.0050
82628591|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.3724|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 5: analysis was performed using paired t-test.||||0.3724
82628592|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.2796|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.2796
82628593|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.0066
82628594|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.0081
82628595|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.7853|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 6: analysis was performed using paired t-test.||||0.7853
82628596|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.0039
82628597|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.3057|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.3057
82628598|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.3374|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.3374
82628599|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.141|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 7: analysis was performed using paired t-test.||||0.1410
82628600|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0017
82628601|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0677|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0677
82628602|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.1608|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.1608
82628603|NCT01156363|164972700|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED||||||Paired t-test|||Change from baseline to Month 8: analysis was performed using paired t-test.||||0.0196
82628604|NCT03285490|164972724|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 complete clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
82628605|NCT03285490|164972725|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%.|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 partial clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
82628606|NCT01665872|164972750|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.172|||||||t-test, 2 sided|||||||0.172
82628607|NCT01665872|164972751|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.5337|||||||Wilcoxon (Mann-Whitney)|||Are CES-D scores at 12 months different between groups?||||0.5337
82628608|NCT01665872|164972752|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.092||||||This test looks at a difference in Parental Distress at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0920
82628609|NCT01665872|164972752|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.3352||||||This test looks at a difference in Parent-Child Dysfunctional Interaction at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.3352
82628610|NCT01665872|164972752|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.0404||||||This test looks at a difference in Difficult Child at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0404
82628611|NCT01665872|164972752|EQUIVALENCE|A Wilcoxon-Mann-Whitney test was used to test for equivalence. A p-value of 0.05 was used to determine if the difference falls out of the equivalence limits.||||||0.0915||||||This test looks at a difference in PSI total score (percentile) at the 12 month follow-up between groups.|Wilcoxon (Mann-Whitney)|||||||0.0915
82628612|NCT01665872|164972753|EQUIVALENCE|Chi-square was used with a p-value of 0.05 to determine if the difference was statistically greater than 0.||||||0.2914|||||||Chi-squared|||||||0.2914
82628613|NCT01872897|164972762|SUPERIORITY||Mean Difference (Final Values)|-9.79||||0.0003|TWO_SIDED|95.0|-14.85|-4.74|||Mixed Models Analysis|||||-4.74|-14.85|0.0003
82628614|NCT01872897|164972763|SUPERIORITY||Mean Difference (Final Values)|-15.76|||<|0.0001|TWO_SIDED|95.0|-22.82|-8.71|||Mixed Models Analysis|||||-8.71|-22.82|<0.0001
82628615|NCT01872897|164972764|SUPERIORITY||Median Difference (Final Values)|-19.4||||0.0004|TWO_SIDED|95.0|-29.6|-9.2|||Mixed Models Analysis|||||-9.2|-29.6|0.0004
82628616|NCT01872897|164972765|SUPERIORITY||Mean Difference (Final Values)|-16.3||||0.0019|TWO_SIDED|95.0|-26.2|-6.4|||Mixed Models Analysis|||||-6.4|-26.2|0.0019
82628617|NCT01872897|164972766|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.029|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis|||||-0.1|-1.6|0.0290
82628618|NCT01872897|164972767|SUPERIORITY||Mean Difference (Final Values)|-14.4|||<|0.0001|TWO_SIDED|95.0|-20.57|-8.23|||Mixed Models Analysis|||||-8.23|-20.57|<0.0001
82628619|NCT01872897|164972768|SUPERIORITY||Mean Difference (Final Values)|-23.37|||<|0.0001|TWO_SIDED|95.0|-31.55|-15.19|||Mixed Models Analysis|||||-15.19|-31.55|<0.0001
82628620|NCT01872897|164972769|SUPERIORITY||Mean Difference (Final Values)|-7.3|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.6|||Mixed Models Analysis|||||-4.6|-10.0|<0.0001
82628621|NCT01872897|164972770|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.0001|TWO_SIDED|95.0|-9.4|-3.3|||Mixed Models Analysis|||||-3.3|-9.4|0.0001
82628622|NCT01872897|164972771|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.0075|TWO_SIDED|95.0|-10.9|-1.8|||Mixed Models Analysis|||||-1.8|-10.9|0.0075
82628623|NCT01872897|164972772|SUPERIORITY||Mean Difference (Final Values)|-24.145||||0.0007|TWO_SIDED|95.0|-37.432|-10.858|||Mixed Models Analysis|||||-10.858|-37.432|0.0007
82628624|NCT04254796|164972773|OTHER|Calculation of the effect size (Cohen's d)|Cohen's d|0.27|||||TWO_SIDED|95.0|-0.13|0.68||||||The goal of the analysis was to measure the effect size of the change in the primary mechanistic outcome (Putamen structural node strength), with a Go/No-Go threshold of Cohen's d \> 0.20.||0.68|-0.13|
82628625|NCT02845440|164972775|SUPERIORITY||Odds Ratio (OR)|2.4||||0.013|TWO_SIDED|95.0|1.2|4.79||A priori threshold for significance was p \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||4.79|1.20|0.013
82628626|NCT02845440|164972775|SUPERIORITY||Odds Ratio (OR)|1.31||||0.481|TWO_SIDED|95.0|0.62|2.74||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.74|0.62|0.481
82628627|NCT02845440|164972775|SUPERIORITY||Odds Ratio (OR)|1.84||||0.036|TWO_SIDED|95.0|1.04|3.24||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||3.24|1.04|0.036
82628628|NCT02845440|164972776|SUPERIORITY||Odds Ratio (OR)|1.35||||0.174|TWO_SIDED|95.0|0.88|2.06||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||2.06|0.88|0.174
82628629|NCT02845440|164972776|SUPERIORITY||Odds Ratio (OR)|0.69||||0.092|TWO_SIDED|95.0|0.45|1.06||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||1.06|0.45|0.092
82377597|NCT04152863|164462577|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.71|3.79||||||||3.79|0.71|
82628630|NCT02845440|164972777|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.61|4.75||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||4.75|1.61|<0.001
82628631|NCT02845440|164972777|SUPERIORITY||Odds Ratio (OR)|0.9||||0.742|TWO_SIDED|95.0|0.5|1.64||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept.||1.64|0.50|0.742
82628632|NCT02845440|164972778|SUPERIORITY||Odds Ratio (OR)|1.57||||0.056|TWO_SIDED|95.0|0.99|2.51||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) as well as TUD medication use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of TUD medication use on abstinence rates attributable to the AD+CHW intervention was 2.8%.|2.51|0.99|0.056
82566583|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82566584|NCT00043186|164842763|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82566585|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||||||0.142
82566586|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.218|||||||Wilcoxon (Mann-Whitney)|||||||0.218
82566587|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82566588|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
82566589|NCT00043186|164842764|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82566590|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
82566591|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82566592|NCT00043186|164842764|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82566593|NCT03722485|164842776|SUPERIORITY|||||||0.292||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Regression, Linear|Test of treatment effect using a generalized linear model with treatment arm, baseline values, and clinical site as factors.||||||0.2920
82566594|NCT03722485|164842777|SUPERIORITY|||||||0.0213||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Wilcoxon (Mann-Whitney)|||||||0.0213
82566595|NCT03722485|164842778|SUPERIORITY|||||||0.7422||||||Confounding variables of image capture techniques, image quality and image analysis noted throughout study conduct prohibits any definitive conclusions to be drawn from this analysis.|Wilcoxon (Mann-Whitney)|||||||0.7422
82566596|NCT03722485|164842779|SUPERIORITY|||||||0.6322|||||||Fisher Exact|||||||0.6322
82566597|NCT02151643|164842780|OTHER|The primary analysis was a linear model which attempted to explain change from Baseline (Visit 7) to Day 29 (Visit 11) in serum phosphate concentration based on log-transformed dose level (assuming that placebo was equally spaced below the lowest dose level), and stratified by pre-randomisation serum phosphate level (\< 7.5 mg/dL or ≥ 7.5 mg/dL). Missing assessments were imputed using the subject's last observed phosphate concentration value (Last Observation Carried Forward \[LOCF\] imputation).||||||0.784|||||||F-test|||"ITT population - statistical analysis of linear model fit using an F-test at the 0.05 level.~It was determined that 150 subjects randomised at a ratio of 8:8:8:13:13 (low dose to high dose, placebo) would have \>90% power to detect either a statistically significant slope for the dose-response relationship, or, if the relationship was not linear, a statistically significant difference between the highest-dose group and the placebo group, using a two-sided 0.05 significance level."||||0.784
82566598|NCT02151643|164842780|OTHER|Sensitivity analysis of ITT primary analysis using baseline observation carried forward (BOCF) for any missing Day 29 (Visit 11) serum phosphate values.||||||0.905|||||||F-test|||"ITT population sensitivity analysis using baseline observation carried forward (BOCF) to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.905
82566599|NCT02151643|164842780|OTHER|Sensitivity analysis of ITT primary analysis using multiple imputation (MI) for any missing Day 29 (Visit 11) serum phosphate values.||||||0.976|||||||F-test|||"ITT population sensitivity analysis using multiple imputation (MI) to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.976
82566600|NCT02151643|164842780|OTHER|Sensitivity analysis of the primary ITT analysis using the Per Protocol (PP) population.||||||0.914|||||||F-test|||"Per protocol (PP) population sensitivity analysis to assess statistical analysis of linear model fit using an F-test at the 0.05 level."||||0.914
82566601|NCT02151643|164842780|OTHER|The primary analysis was a linear model which attempted to explain change from Baseline (Visit 7) to Day 29 (Visit 11) in serum phosphate concentration based on log-transformed dose level (assuming that placebo was equally spaced below the lowest dose level), and stratified by pre-randomisation serum phosphate level (\< 7.5 mg/dL or ≥ 7.5 mg/dL). Missing assessments were imputed using the subject's last observed phosphate concentration value (Last Observation Carried Forward \[LOCF\] imputation).|Slope|-0.329|||<|0.001|TWO_SIDED||||||linear model - log (dose) - response|||ITT population - statistical analysis of the linear model log(PT20 dose)-response relationship to examine whether the linear trend of the change in phosphate level as a function of the log-transformed dose was statistically significant.||||<0.001
82566602|NCT02151643|164842780|OTHER||||||<|0.001|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - treatment group||||<0.001
82566603|NCT02151643|164842780|OTHER|||||||0.436|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - visit||||0.436
82566604|NCT02151643|164842780|OTHER|||||||0.959|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - treatment group versus Visit interaction||||0.959
82566605|NCT02151643|164842780|OTHER||||||<|0.001|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - baseline serum phosphate concentration||||<0.001
82566606|NCT02151643|164842780|OTHER|||||||0.144|||||||Mixed Models Analysis|||ITT population supportive analysis - Type 3 tests of fixed effects - baseline serum phosphate concentration versus Visit interaction||||0.144
82566607|NCT02151643|164842780|OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.2847|||ONE_SIDED|97.5||0.761||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||0.761||
82566608|NCT02151643|164842780|OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.2881|||ONE_SIDED|97.5||0.659||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||0.659||
82566609|NCT02151643|164842780|OTHER||Mean Difference (Final Values)|-0.705|STANDARD_ERROR_OF_MEAN|0.2891|||ONE_SIDED|97.5||-0.05||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||-0.05||
82377598|NCT04152863|164462577|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.47|2.68||||||||2.68|0.47|
82507399|NCT04476030|164705852|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6588|TWO_SIDED|95.0|0.74|1.62|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline CGI-S score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|Day 15||1.62|0.74|0.6588
82507400|NCT04476030|164705853|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.06||0.2322|TWO_SIDED|95.0|-3.4|0.8|||MMRM||Model used was the MMRM with treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.8|-3.4|0.2322
82507401|NCT04476030|164705854|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5439|TWO_SIDED|95.0|0.76|1.68|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|||1.68|0.76|0.5439
82507402|NCT04476030|164705855|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7054|TWO_SIDED|95.0|0.7|1.69|||Binary Response Model||GEE for binary response model was used with factors for treatment, baseline MADRS total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction with unstructured covariance structure.|||1.69|0.70|0.7054
82507403|NCT04476030|164705856|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62||0.4188|TWO_SIDED|95.0|-1.7|0.7|||MMRM||Model used was the MMRM with treatment, baseline HAM-A total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||0.7|-1.7|0.4188
82507404|NCT04476030|164705858|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7758|TWO_SIDED|95.0|-1.4|1.0|||MMRM||Model used was the MMRM with treatment, baseline PHQ-9 total score, antidepressant use (SSRI/SNRI), assessment time point, and time point-by-treatment interaction as fixed effects with unstructured covariance structure.|||1.0|-1.4|0.7758
82507405|NCT02404311|164705890|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 1086C\_D7gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
82507406|NCT02404311|164705890|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 96ZM651.D11gp120.avi after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
82507407|NCT02404311|164705890|OTHER||Proportion Difference (Net)|-0.015||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to TV1c8\_D11gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
82566610|NCT02151643|164842780|OTHER||Mean Difference (Final Values)|-1.195|STANDARD_ERROR_OF_MEAN|0.255|||ONE_SIDED|97.5||-0.618||||||ITT population supportive analysis - mixed model repeated measures for change in serum phosphate concentration||-0.618||
82566611|NCT02151643|164842781|OTHER|||||||0.497|||||||ANCOVA|||Repeated measures ANCOVA for change in haemoglobin concentration from Baseline by PT20 dose group.||||0.497
82566612|NCT02151643|164842781|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in haemoglobin concentration from Baseline by baseline hemoglobin.||||<0.001
82566613|NCT02151643|164842782|OTHER|||||||0.243|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by PT20 dose group.||||0.243
82507408|NCT02404311|164705891|OTHER||Geometric Mean difference (Net)|0.914|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 1086C\_D7gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
82507409|NCT02404311|164705891|OTHER||Geometric Mean difference (Net)|0.945|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to 96ZM651.D11gp120.avi after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
82507410|NCT02404311|164705891|OTHER||Geometric Mean difference (Net)|0.895|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to TV1c8\_D11gp120.avi/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
82507411|NCT02404311|164705892|OTHER||Proportion Difference (Net)|0.0||||0.0215|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to C.1086C\_V1\_V2 Tags after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0215
82566614|NCT02151643|164842782|OTHER|||||||0.867|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by Visit.||||0.867
82566615|NCT02151643|164842782|OTHER|||||||0.186|||||||ANCOVA|||Repeated measures ANCOVA for change in serum ferritin concentration from Baseline by baseline serum ferritin concentration||||0.186
82566616|NCT02151643|164842783|OTHER|||||||0.068|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by PT20 dose group.||||0.068
82566617|NCT02151643|164842783|OTHER|||||||0.013|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Visit.||||0.013
82566618|NCT02151643|164842783|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Baseline Transferrin Saturation.||||<0.001
82566619|NCT02151643|164842784|OTHER|||||||0.004|||||||ANCOVA|||Repeated measures ANCOVA for change in Calcium x Phosphate Product from Baseline by PT20 dose group.||||0.004
82566620|NCT02151643|164842784|OTHER||||||<|0.001|||||||ANCOVA|||Repeated measures ANCOVA for change in transferrin saturation from Baseline by Baseline Calcium x Phosphate Product.||||<0.001
82377599|NCT04152863|164462577|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.64|3.02||||||||3.02|0.64|
82566621|NCT02151643|164842785|OTHER|||||||0.292|||||||paired z-test|||||||0.292
82566622|NCT02151643|164842785|OTHER|||||||0.047|||||||paired z-test|||||||0.047
82566623|NCT02151643|164842785|OTHER|||||||0.872|||||||paired z-test|||||||0.872
82566624|NCT02151643|164842785|OTHER|||||||0.288|||||||paired z-test|||||||0.288
82566625|NCT03619889|164842786|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82566626|NCT03619889|164842786|OTHER||Mean Difference (Net)|-1.2|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82566627|NCT03619889|164842793|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82566628|NCT03619889|164842793|OTHER||Mean Difference (Net)|-0.65|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82566629|NCT00197106|164842799|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is considered to be shown if the upper limit of the one-sided 95% confidence interval of the difference uflixotide-useretide does not exceed +15% (uflixotide-useretide represent the mean percentages of asthma symptom-free days of the two respective treatment groups).|Adjusted difference|2.6||||0.63||95.0|-8.1|13.4|||Repeated Measurements Anal. of Variance|Anal. = Analysis||||13.4|-8.1|0.63
82566630|NCT03930238|164842850|SUPERIORITY||Group effect from Bayesian linear mixed|1646.0|||||TWO_SIDED|||||We did perform a Bayesian analysis which provided a posterior probability of 99.76% that the daily mean steps in the intervention group exceeded the daily mean steps in the comparison group.|Bayesian linear mixed effects regression||Posterior standard deviation = 578. We have 95% credible intervals - the interval that contains 95% of the posterior probability distribution of the parameter of interest - which ranges from 511 to 2781.|||||
82566631|NCT03930238|164842851|OTHER||Percentage|53.3|||||TWO_SIDED|||||||||||||
82628633|NCT02845440|164972779|SUPERIORITY||Odds Ratio (OR)|1.97||||0.012|TWO_SIDED|95.0|1.16|3.33||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for TAU, AD, and AD+CHW (cohort 1) as well as varenicline use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of varenicline use on abstinence rates attributable to the AD+CHW intervention was 13.9%.|3.33|1.16|0.012
82566632|NCT03341312|164842867|SUPERIORITY||ratio of LS Means|0.75|||||TWO_SIDED|95.0|0.42|1.16||||||||1.16|0.42|
82566633|NCT03341312|164842867|SUPERIORITY||ratio of LS Means|0.74|||||TWO_SIDED|95.0|0.49|1.01||||||||1.01|0.49|
82566634|NCT05372913|164842912|NON_INFERIORITY|The non-inferiority (NI) test for the secondary outcome (i.e., PHQ-8 Week 4 EOT score) was assessed using the pre-specified NI margin of 2.0. NI of W-GenZD to CBT-Lite was declared if the upper bound of the one-sided 97.5% confidence interval (CI) was less than 2.|Mean Difference (Net)|-0.67|||||TWO_SIDED|95.0|-2.3|0.96||||||||0.96|-2.30|
82566635|NCT02469077|164842957|SUPERIORITY|||||||0.12|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.12
82566636|NCT02469077|164842958|SUPERIORITY|||||||0.04|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.04
82566637|NCT02469077|164842959|SUPERIORITY|||||||0.03|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.03
82566638|NCT02469077|164842960|SUPERIORITY|||||||0.17|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.17
82566639|NCT02469077|164842961|SUPERIORITY|||||||0.13|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.13
82566640|NCT02469077|164842962|SUPERIORITY|||||||0.98|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.98
82566641|NCT02469077|164842963|SUPERIORITY|||||||0.52|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.52
82566642|NCT02469077|164842964|SUPERIORITY|||||||0.65|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.65
82566643|NCT02469077|164842965|SUPERIORITY|||||||0.1|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.1
82566644|NCT02469077|164842966|SUPERIORITY|||||||0.046|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||.046
82566645|NCT02469077|164842967|SUPERIORITY|||||||0.61|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.61
82566646|NCT02469077|164842968|SUPERIORITY|||||||0.4|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.4
82566647|NCT02469077|164842969|SUPERIORITY|||||||0.57|||||||ANCOVA|||Statistical analysis applies to change after 6 week intervention period||||0.57
82566648|NCT02005029|164842977|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
82566649|NCT02005029|164842978|SUPERIORITY_OR_OTHER||Erythromycin:Placebo AUC ratio|1.07|STANDARD_DEVIATION|0.43|||TWO_SIDED|||||||||||||
82566650|NCT02005029|164842979|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82566651|NCT02005029|164842980|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
82566652|NCT02005029|164842981|SUPERIORITY_OR_OTHER|||||||0.4405|||||||t-test, 2 sided|||||||0.4405
82566653|NCT02005029|164842982|SUPERIORITY_OR_OTHER|||||||0.6011|||||||t-test, 2 sided|||||||0.6011
82566654|NCT02005029|164842983|SUPERIORITY_OR_OTHER|||||||0.8923|||||||t-test, 2 sided|||||||0.8923
82566655|NCT02005029|164842984|SUPERIORITY_OR_OTHER|||||||0.832|||||||t-test, 2 sided|||||||0.832
82566656|NCT02005029|164842985|SUPERIORITY_OR_OTHER|||||||0.1546|||||||t-test, 2 sided|||||||0.1546
82566657|NCT02005029|164842986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75|STANDARD_DEVIATION|5.0||0.0314|TWO_SIDED||||||t-test, 2 sided||"Mean difference in on score versus off score from the MDS UPDRS Part 3 on day of erythromycin minus the mean difference in 'on score versus off score on day of placebo."|||||0.0314
82566658|NCT02005029|164842987|SUPERIORITY_OR_OTHER||Erythromycin:Placebo Cmax ratio|0.83|STANDARD_DEVIATION|0.24|||TWO_SIDED|||||||||||||
82628634|NCT02845440|164972780|SUPERIORITY||Odds Ratio (OR)|1.71||||0.032|TWO_SIDED|95.0|1.05|2.79||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.79|1.05|0.032
82628635|NCT02845440|164972780|SUPERIORITY||Odds Ratio (OR)|1.37||||0.376|TWO_SIDED|95.0|0.68|2.75||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||2.75|0.68|0.376
82628636|NCT02845440|164972780|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.3||||0.645|TWO_SIDED|95.0|0.42|4.05|||Regression, Logistic|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||4.05|0.42|0.645
82628637|NCT02845440|164972781|SUPERIORITY||Odds Ratio (OR)|1.85|||<|0.001|TWO_SIDED|95.0|1.34|2.56||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|The CHW intervention increased odds of self-reported use of any TUD medication by 1.85.||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||2.56|1.34|<0.001
82628638|NCT02845440|164972781|SUPERIORITY||Odds Ratio (OR)|0.7||||0.084|TWO_SIDED|95.0|0.46|1.05|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||1.05|0.46|0.084
82628639|NCT02845440|164972781|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.22||||0.589|TWO_SIDED|95.0|0.59|2.55|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept.||2.55|0.59|0.589
82628640|NCT02845440|164972782|SUPERIORITY||Odds Ratio (OR)|3.05|||<|0.001|TWO_SIDED|95.0|1.99|4.68||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||4.68|1.99|<0.001
82628641|NCT02845440|164972782|SUPERIORITY||Odds Ratio (OR)|0.89||||0.698|TWO_SIDED|95.0|0.51|1.57||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept.||1.57|0.51|0.698
82628642|NCT02845440|164972782|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Odds Ratio (OR)|1.1||||0.845|TWO_SIDED|95.0|0.43|2.78|||Regression, Logistic|||The statistical model was a mixed effects logistic regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept.||2.78|0.43|0.845
82628643|NCT02845440|164972783|SUPERIORITY||Odds Ratio (OR)|1.42||||0.158|TWO_SIDED|95.0|0.92|2.2||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) as well as TUD medication use and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of TUD medication use on abstinence rates attributable to the CHW intervention was 55.6%.|2.20|0.92|0.158
82566659|NCT02621047|164842988|SUPERIORITY_OR_OTHER||Geometric Mean Ratio Percentage (%)|128.0|||||TWO_SIDED|90.0|86.5|188.0||||||||188|86.5|
82628644|NCT02845440|164972784|SUPERIORITY||Odds Ratio (OR)|1.89||||0.013|TWO_SIDED|95.0|1.14|3.13||The a priori threshold for significance was a p-value \< 0.05.|Regression, Logistic|||Missing abstinence rates at year 2 of intervention were imputed using MICE based on baseline characteristics and abstinence rates at year 1 of intervention. The statistical model was a mixed effects logistic regression with terms for the factorial design (TAU, AD, CHW, and cohort) as well as varenicline use and a clinic-varying random intercept. Regression coefficients and mediation analysis estimates were pooled using Rubin's rule over 10 imputation runs.|A mediation analysis found that the estimated proportion of the effect of varenicline use on abstinence rates attributable to the CHW intervention was 36.6%.|3.13|1.14|0.013
82628645|NCT02845440|164972785|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.505|TWO_SIDED|95.0|-0.16|0.33|||Regression, Linear|||The model had a clinic varying random intercept. This statistical model included cohort 1: TAU , AD, and AD+CHW||0.33|-0.16|0.505
82628646|NCT02845440|164972785|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.848|TWO_SIDED|95.0|-0.22|0.27||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.27|-0.22|0.848
82566660|NCT02621047|164842988|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|100.0|||||TWO_SIDED|90.0|55.1|183.0||||||||183|55.1|
82566661|NCT02621047|164842989|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|148.0|||||TWO_SIDED|90.0|106.0|208.0||||||||208|106|
82566662|NCT02621047|164842989|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|130.0|||||TWO_SIDED|90.0|75.4|225.0||||||||225|75.4|
82566663|NCT02621047|164842990|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|160.0||||||90.0|105.0|243.0||||||||243|105|
82507412|NCT02404311|164705892|OTHER||Proportion Difference (Net)|0.0||||0.0003|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-96ZM651.02 V1v2 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0003
82507413|NCT02404311|164705892|OTHER||Proportion Difference (Net)|0.228||||0.001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-TV1.GSKvacV1V2/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0010
82377600|NCT03277066|164462580|SUPERIORITY||Lest-Squared Mean Differences|0.011||||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.0110
82507414|NCT02404311|164705893|OTHER||Geometric Mean difference (Net)|0.0|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to C.1086C\_V1\_V2 Tags after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
82628647|NCT02845440|164972785|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.529|TWO_SIDED|95.0|-0.13|0.25||The a priori threshold for significance was a p-value \< 0.05.|Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for TAU, AD, and AD+CHW (cohort 1) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.25|-0.13|0.529
82628648|NCT02845440|164972786|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.937|TWO_SIDED|95.0|-0.16|0.18|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.18|-0.16|0.937
82628649|NCT02845440|164972786|SUPERIORITY||Median Difference (Final Values)|0.05||||0.683|TWO_SIDED|95.0|-0.19|0.29|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with terms for the factorial design (TAU, AD, CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.29|-0.19|0.683
82628650|NCT02845440|164972786|OTHER|Test of the additive assumption required by a factorial design. If the AD x CHW interaction is significant at p \< 0.05, the additive assumption would have to be rejected.|Mean Difference (Final Values)|0.3||||0.19|TWO_SIDED|95.0|-0.15|0.74|||Regression, Linear|||Missing data at year 2 of intervention was imputed using MICE based on baseline characteristics and outcome values at year 1 of intervention. The statistical model was a mixed effects linear regression with both additive terms and an interaction (TAU, AD, CHW, AD x CHW, and cohort) and a clinic-varying random intercept. Regression coefficients were pooled using Rubin's rule over 10 imputation runs.||0.74|-0.15|0.190
82507415|NCT02404311|164705893|OTHER||Geometric Mean difference (Net)|0.0|||<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-96ZM651.02 V1v2 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||<.0001
82507416|NCT02404311|164705893|OTHER||Geometric Mean difference (Net)|6.099||||0.0002|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|IgG Ab binding to gp70-TV1.GSKvacV1V2/293F after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.0002
82507417|NCT02404311|164705894|OTHER||Proportion Difference (Net)|0.018||||1|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to 1086 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||1.0000
82507418|NCT02404311|164705894|OTHER||Proportion Difference (Net)|0.036||||0.6698|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to TV1 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.6698
82507419|NCT02404311|164705894|OTHER||Proportion Difference (Net)|0.125||||0.1435|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|McNemar||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to ZM96 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.1435
82507420|NCT02404311|164705895|OTHER||Geometric Mean difference (Net)|0.965||||0.9661|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to 1086 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.9661
82507421|NCT02404311|164705895|OTHER||Geometric Mean difference (Net)|1.118||||0.8593|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to TV1 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.8593
82507422|NCT02404311|164705895|OTHER||Geometric Mean difference (Net)|1.138||||0.4396|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon Signed-Rank||Difference = Month 12.5 (5th vaccination) - Month 6.5 (4th vaccination)|CD4+ T Cell Responses to ZM96 gp120 after the fourth (month 6.5) versus the fifth vaccination (month 12.5)||||0.4396
82507423|NCT01536496|164705904|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Chi-squared|||Chi-square test||||0.04
82507424|NCT03865329|164705933|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82507425|NCT03865329|164705934|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82507426|NCT03865329|164705936|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
82507427|NCT03865329|164705937|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
82507428|NCT00526058|164705939|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the Futura system to the Secura system would be demonstrated if the upper bound of the 90% confidence interval (CI) for the difference between the two systems (Secura-Futura) in percent change of LDL-C measurements from pre- to post-treatment is less than the noninferiority margin 5.7%.||||||0.005|TWO_SIDED|90.0|||||ANOVA|||||||0.005
82507429|NCT00218296|164705951|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.04|TWO_SIDED|95.0|0.26|0.99|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the usual care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.99|0.26|0.04
82507430|NCT00218296|164705952|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28||||0.019|TWO_SIDED|95.0|0.07|0.83|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.83|0.07|0.019
82566664|NCT02621047|164842990|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|220.0||||||90.0|131.0|369.0||||||||369|131|
82566665|NCT02621047|164842991|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|186.0||||||90.0|122.0|281.0||||||||281|122|
82377601|NCT03277066|164462580|SUPERIORITY||Lest-Squared Mean Differences|0.2835||||0.2835|TWO_SIDED||||||Mixed Models Analysis|||||||0.2835
82507431|NCT00218296|164705953|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.03|TWO_SIDED|95.0|0.18|0.94|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the usual care condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.94|0.18|0.03
82566666|NCT02621047|164842991|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|285.0||||||90.0|175.0|466.0||||||||466|175|
82566667|NCT02621047|164842992|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|162.0|||||TWO_SIDED|90.0|104.0|254.0||||||||254|104|
82566668|NCT02621047|164842992|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|228.0||||||90.0|129.0|403.0||||||||403|129|
82566669|NCT02621047|164842993|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|189.0||||||90.0|121.0|293.0||||||||293|121|
82566670|NCT02621047|164842993|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|296.0|||||TWO_SIDED|90.0|174.0|506.0||||||||506|174|
82566671|NCT02621047|164842994|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|64.6||||||90.0|36.2|115.0||||||||115|36.2|
82566672|NCT02621047|164842994|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|60.8|||||TWO_SIDED|90.0|26.6|139.0||||||||139|26.6|
82566673|NCT02621047|164842995|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|85.1||||||90.0|55.5|130.0||||||||130|55.5|
82566674|NCT02621047|164842995|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|59.0||||||90.0|34.2|102.0||||||||102|34.2|
82566675|NCT02621047|164842996|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|116.0||||||90.0|78.6|172.0||||||||172|78.6|
82566676|NCT02621047|164842996|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|98.1||||||90.0|51.7|186.0||||||||186|51.7|
82566677|NCT02621047|164842997|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|115.0|||||TWO_SIDED|90.0|85.2|154.0||||||||154|85.2|
82566678|NCT02621047|164842997|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|96.6|||||TWO_SIDED|90.0|55.6|168.0||||||||168|55.6|
82566679|NCT02621047|164842998|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|80.6||||||90.0|50.2|130.0||||||||130|50.2|
82566680|NCT02621047|164842998|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|65.6|||||TWO_SIDED|90.0|26.9|160.0||||||||160|26.9|
82566681|NCT02621047|164842999|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|104.0||||||90.0|76.8|141.0||||||||141|76.8|
82566682|NCT02621047|164842999|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|63.7|||||TWO_SIDED|90.0|34.0|119.0||||||||119|34.0|
82566683|NCT02621047|164843000|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|136.0|||||TWO_SIDED|90.0|94.7|196.0||||||||196|94.7|
82566684|NCT02621047|164843000|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|176.0||||||90.0|98.4|315.0||||||||315|98.4|
82566685|NCT02621047|164843001|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|134.0||||||90.0|99.6|181.0||||||||181|99.6|
82566686|NCT02621047|164843001|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|157.0|||||TWO_SIDED|90.0|91.8|268.0||||||||268|91.8|
82566687|NCT02621047|164843002|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|73.3|||||TWO_SIDED|90.0|46.2|116.0||||||||116|46.2|
82566688|NCT02621047|164843002|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|57.5|||||TWO_SIDED|90.0|20.0|165.0||||||||165|20.0|
82566689|NCT02621047|164843003|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|96.6||||||90.0|69.9|134.0||||||||134|69.9|
82566690|NCT02621047|164843003|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|55.8||||||90.0|26.0|120.0||||||||120|26.0|
82566691|NCT02621047|164843004|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|139.0|||||TWO_SIDED|90.0|94.8|203.0||||||||203|94.8|
82566692|NCT02621047|164843004|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|180.0||||||90.0|97.2|334.0||||||||334|97.2|
82566693|NCT02621047|164843005|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|137.0|||||TWO_SIDED|90.0|100.0|186.0||||||||186|100|
82566694|NCT02621047|164843005|SUPERIORITY_OR_OTHER||Geometric Mean Ratio %|158.0|||||TWO_SIDED|90.0|91.2|274.0||||||||274|91.2|
82566695|NCT03544229|164843055|SUPERIORITY||Least Square Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.25|=|0.618|TWO_SIDED|90.0|-0.34|0.49||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.49|-0.34|=0.618
82566696|NCT03544229|164843055|SUPERIORITY||Least Square Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17|=|0.533|TWO_SIDED|90.0|-0.27|0.29||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.29|-0.27|=0.533
82566697|NCT03544229|164843055|SUPERIORITY||Least Square Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.167|=|0.447|TWO_SIDED|90.0|-0.3|0.25||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD composite score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.25|-0.30|=0.447
82566698|NCT03544229|164843056|SUPERIORITY||Odds Ratio (OR)|0.87|||=|0.607|TWO_SIDED|90.0|0.39|1.96|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||1.96|0.39|=0.607
82566699|NCT03544229|164843056|SUPERIORITY||Odds Ratio (OR)|1.21|||=|0.283|TWO_SIDED|90.0|0.7|2.1|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||2.10|0.70|=0.283
82566700|NCT03544229|164843056|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.527|TWO_SIDED|90.0|0.56|1.69|||Logistic Regression||Comparisons of TAK-906 to Placebo was based on logistic regression with at least 50% reduction of participants from baseline in weekly composite score with baseline composite score, disease population at randomization, and treatment as covariates.|||1.69|0.56|=0.527
82628651|NCT01704976|164972798|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82628652|NCT01704976|164972799|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82628653|NCT01704976|164972800|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82628654|NCT01704976|164972801|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82628655|NCT01704976|164972802|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82628656|NCT00633360|164972803|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||.59
82628657|NCT00633360|164972804|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||.29
82628658|NCT03241589|164972817|SUPERIORITY||Odds Ratio (OR)|0.931||||0.7428|TWO_SIDED|95.0|0.606|1.429|||Regression, Logistic||Referent group is Urban|We followed power calculations described in uploaded protocol document, using an incomplete design matrix with a 3-month transition period, a level of precision α=0.05 and a minimum power level of 0.80. We also assumed a total number of clusters I=36 as per the study design and the number of baseline measurements B=2. Due to insufficient sample size, we modified groups studied.||1.429|0.606|0.7428
82628659|NCT03241589|164972818|SUPERIORITY||Odds Ratio (OR)|2.258||||0.0031|TWO_SIDED|95.0|1.181|4.315|||Regression, Logistic|2 degrees of freedom, Wald Chi-Square 11.5759|Veterans with expired requests = referent.|||4.315|1.181|0.0031
82628660|NCT02069704|164972819|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio BEVZ92 to Avastin|99.4|||||TWO_SIDED|90.0|90.5|109.0|||||For the ratio: BEVZ92 represents the numerator and reference bevacizumab the denominator|Based on previously published PK data for reference bevacizumab in metastatic colorectal cancer, we assumed a conservative inter-participant coefficient of variation for AUC of around 35%. A sample size of 51 patients in each treatment arm could show bioequivalence with a nominal power of 90% and an α of 0·05, if the 90% CIs for the ratio of BEVZ92 to reference bevacizumab of the geometric means for AUC0-336h and AUCss were within the acceptance interval of 80%-125%.||109.0|90.5|
82628661|NCT02069704|164972820|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio BEVZ92 to Avastin|100.0|||||TWO_SIDED|90.0|90.2|112.0||||||||112.0|90.2|
82628662|NCT02861118|164972832|OTHER|||||||0.024|||||||Regression, Logistic|||IBD||||0.024
82628663|NCT02861118|164972832|OTHER|||||||0.006|||||||Regression, Logistic|||Corticosteroids||||0.006
82628664|NCT02861118|164972832|OTHER|||||||0.006|||||||Regression, Logistic|||Chronic Obstructive Pulmonary Disease||||0.006
82628665|NCT02861118|164972833|OTHER|||||||0.044|||||||Regression, Logistic|||IBD||||0.044
82628666|NCT02861118|164972833|OTHER|||||||0.003|||||||Regression, Logistic|||Corticosteroids||||0.003
82628667|NCT02861118|164972833|OTHER|||||||0.003|||||||Regression, Logistic|||Myocardial Infarction||||0.003
82628668|NCT02861118|164972834|OTHER|||||||0.007|||||||Regression, Logistic|||Corticosteroids||||0.007
82628669|NCT02861118|164972835|OTHER|||||||0.002|||||||Regression, Logistic|||Corticosteroids||||0.002
82628670|NCT02861118|164972835|OTHER|||||||0.003|||||||Regression, Logistic|||Skin Disease||||0.003
82628671|NCT03236506|164972851|NON_INFERIORITY|Assuming a 95% SVR rate (based on published studies) in the DOT arm of the trial in this population and a non-inferiority limit of 14% (which would be likely to maintain cost-effectiveness) then at a 5% significance level and 90% power we would need a sample size of 42 in each group 126 in total. To allow for drop-outs we will aim to recruit 135 individuals, 45 per group.|Odds Ratio (OR)|0.64||||0.67|TWO_SIDED|95.0|0.14|3.0|||Logistic|||||3.00|0.14|0.67
82628672|NCT03236506|164972851|NON_INFERIORITY|Described in Statistical Analysis 1.|Odds Ratio (OR)|0.53||||0.41|TWO_SIDED|95.0|0.11|2.45|||logistic|||||2.45|0.11|0.41
82377602|NCT02276807|164462584|SUPERIORITY||Mean Difference (Final Values)|0.345|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU, BA-PC) X 2 (Time: Baseline vs. Week 12) repeated measures ANOVA||||||<0.05
82628673|NCT03236506|164972851|NON_INFERIORITY|Described in Statistical Analysis 1.|Odds Ratio (OR)|1.22||||0.82|TWO_SIDED|95.0|0.23|6.61|||logistic|||||6.61|0.23|0.82
82628674|NCT00638274|164972856|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
82628675|NCT00638274|164972856|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
82628676|NCT02809846|164972862|OTHER|Bivariate associations between variables were assessed using statistical methods appropriate for the variable types. Baseline characteristics (demographics, other morbidities, baseline medication use, pain intensity and QOL) were compared between the two treatment groups to assess effectiveness of randomization and identify important covariates for multivariable analyses. Associations between demographic variables and primary and secondary endpoints were examined.|||||<|0.05||||||Sensitivity analyses comparing use of data from all participants with use of participants with complete data only was also performed. Agreement between different measures representing the same variable type was assessed using correlation analyses.|Mixed Models Analysis|Multivariable analysis with mixed effect regression models were used to assess the effect of treatment group on the primary and secondary outcomes.||Initially, a sample size of 20 participants per treatment group (active and sham) was selected to achieve 90% power to find a 20% difference in mean percent change in opioid consumption between the two groups with an estimated standard deviation of 22% and 80% power to detect the same difference with a standard deviation of 19% at a two-sided alpha = 0.05|Similar models were used to assess associations of treatment group with secondary endpoints. Model fit was assessed by Akaike's Information Criteria to determine optimal covariance structure.|||<0.05
82628677|NCT01594411|164972863|SUPERIORITY_OR_OTHER||||||<|0.001|||||||one-sided binomial with alpha level of 0|||"The proportion of patients whose final treatment plan changes from the preliminary will be estimated, and a one-sided binomial test with alpha level of .05 will be used to test whether it is greater than 10%.~This is the level at which it is assumed that patient management has been modified by a practically important amount."||||<0.001
82628678|NCT01262599|164972864|SUPERIORITY|Applies to primary and secondary outcomes: Data were analyzed using one-way analysis of variance, one-way repeated measures analysis of variance, t test, or Mann-Whitney rank sum test, as appropriate. (SigmaStat 3.5; Systat Software, Inc., San Jose, Calif.). Intention-to-treat using last value carried forward was used for missing data.|||||<|0.01|||||||ANOVA|||Before the start of this study, a sample size analysis, assuming a clinically meaningful 50± 40 percent (mean ± SD) decrease in pain scores from pulsed electromagnetic field treatment, suggested that a minimum of 11 patients per group were needed.||||<0.01
82507432|NCT00218296|164705954|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.002|TWO_SIDED|95.0|0.004|0.48|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.48|0.004|.002
82507433|NCT00218296|164705955|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.056|TWO_SIDED|95.0|0.2|1.03|||Chi-squared|There were no adjustments in the analysis.|The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||1.03|0.20|0.056
82507434|NCT00218296|164705956|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.002|TWO_SIDED|95.0|0.004|0.48||There were no adjustments in the analysis.|Chi-squared||The reference group for the odds ratio estimate is the Usual Care Condition, i.e., the immediate cessation condition.|The null hypothesis was that the Usual Care Group (i.e. the immediate cessation group) and the Reduction Group had the same cessation rate. The alternative hypothesis was that they had different cessation rates. Two-sided test with a type I error of 0.05 was used.||0.48|0.004|0.002
82507435|NCT01928862|164705964|OTHER||Treatment difference|-31.3|||||TWO_SIDED|90.0|-58.8|0.8||||||Confidence interval (CI) of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||0.8|-58.8|
82507436|NCT01928862|164705964|OTHER||Treatment Difference|6.3|||||TWO_SIDED|90.0|-25.3|36.9||||||CI of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||36.9|-25.3|
82507437|NCT01928862|164705964|OTHER||Treatment Difference|-4.5|||||TWO_SIDED|90.0|-33.5|26.3||||||CI of the difference in proportions between each Prepopik® group and PEG within each age group was calculated using the Clopper-Pearson method.||26.3|-33.5|
82507438|NCT02053753|164705983|NON_INFERIORITY_OR_EQUIVALENCE|The 2 treatments were considered bioequivalent if the 90% CIs for the ratio of the geometric means were between 0.80 and 1.25.|Ratio of Geometrc Means (CP4:CP2)|1.084|||||TWO_SIDED|90.0|0.995|1.181|||||The ratio and confidence interval of the geometric means are based on natural log scale data converted back to the original scale.|||1.181|0.995|
82507439|NCT02053753|164705984|NON_INFERIORITY_OR_EQUIVALENCE|The 2 treatments were considered bioequivalent if the 90% CIs for the ratio of the geometric means were between 0.80 and 1.25.|Ratio of Geometric Means (CP4:CP2)|1.028|||||TWO_SIDED|90.0|0.934|1.131|||||The ratio and confidence interval of the geometric means are based on natural log scale data converted back to the original scale.|||1.131|0.934|
82507440|NCT02972632|164705993|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
82507441|NCT02972632|164705993|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507442|NCT02972632|164705994|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
82507443|NCT02972632|164705994|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507444|NCT02972632|164705995|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 6 relative to baseline||||<0.001
82507445|NCT02972632|164705995|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507446|NCT02972632|164705996|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507447|NCT02972632|164705997|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507448|NCT02972632|164705998|OTHER||||||<|0.001|||||||t-test, 2 sided|||Change at Week 12 relative to baseline||||<0.001
82507449|NCT04064294|164706002|SUPERIORITY|||||||0.63||||||the threshold for statistical significance was p = 0.05|ANOVA|degrees of freedom = 78||||||0.63
82507450|NCT04064294|164706003|SUPERIORITY|||||||0.09||||||the threshold for statistical significance was p = 0.05|ANOVA|degrees of freedom = 78||||||0.09
82507451|NCT04064294|164706004|SUPERIORITY|||||||0.011|||||||Chi-squared|threshold for significance is 0.05, degrees of freedom = 2||||||0.011
82507452|NCT04064294|164706005|SUPERIORITY|||||||0.033|||||||ANOVA|degrees of freedom = 75||||||0.033
82507453|NCT03450707|164706006|OTHER||Mean Difference (Final Values)|0.34||||0.72|TWO_SIDED|95.0|-1.82|2.5||"Mixed model controlling for repeated measures within patients used to get a mean difference in lactate between the thiamine and placebo groups at 24 hours.~Lactate imputed using a penalty (20pc increase) for patients who expired."|Mixed Models Analysis|P-value is for the comparison at 24 hours from the mixed model (i.e, not a global p-value)||||2.50|-1.82|0.72
82507454|NCT03450707|164706007|OTHER||Mean Difference (Final Values)|-0.38||||0.43|TWO_SIDED|95.0|-1.34|0.58|||Regression, Linear|||As AUC-VO2s turned out to be normally distributed, we used a linear regression model to compare mean AUC-VO2s between treatment groups controlling for average temperature.||0.58|-1.34|0.43
82507455|NCT03450707|164706008|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test, testing the null hypothesis that there is no difference in the distribution of 72-hour lactates between thiamine and placebo groups.|No parameter estimated other than p-value = 0.88 from Wilcoxon rank-sum test.|||0.88
82507456|NCT03450707|164706009|OTHER||Mean Difference (Final Values)|0.4||||0.072|TWO_SIDED|95.0|0.01|0.8||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH specific activity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||0.80|0.01|0.072
82507457|NCT03450707|164706010|OTHER||Mean Difference (Final Values)|2.4||||0.044|TWO_SIDED|95.0|0.1|4.7||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH activity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||4.7|0.1|0.044
82377603|NCT02276807|164462585|SUPERIORITY||Mean Difference (Final Values)|0.046|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (time: Baseline vs. week 12) repeated measures ANOVA||||||<0.05
82628679|NCT00565812|164972878|SUPERIORITY_OR_OTHER||Difference in Slopes|0.012|STANDARD_ERROR_OF_MEAN|0.018||0.50877|TWO_SIDED|95.0|-0.023|0.046|||Mixed Models Analysis|||Slopes, 95 percent confidence interval (CI), P-values: Random coefficients mixed-effects model for repeated measures (MMRM) with random intercept and slope for each participant,fixed effects for treatment group,time (years),treatment group\*time interaction,(collapsed)Kellgren and Lawrence Grades (KLG), KLG\*time interaction,geographic region,gender,age,body mass index with unstructured covariance matrix for random effects. Statistical hypothesis used Hochberg procedure with 2-sided alpha =0.0499.||0.046|-0.023|0.508770
82628680|NCT00565812|164972878|SUPERIORITY_OR_OTHER||Difference in Slopes|0.005|STANDARD_ERROR_OF_MEAN|0.017||0.754074|TWO_SIDED|95.0|-0.029|0.04|||Mixed Models Analysis|||Slopes, 95 percent CI, P-values: MMRM with random intercept and slope for each participant, fixed effects for treatment group, time (years), treatment group\*time interaction, (collapsed) KLG, KLG\*time interaction, geographic region, gender, age, body mass index with unstructured covariance matrix for random effects. Statistical hypothesis used Hochberg procedure with 2-sided alpha=0.0499.||0.040|-0.029|0.754074
82628681|NCT00565812|164972879|SUPERIORITY_OR_OTHER||Difference in slopes|0.023|STANDARD_ERROR_OF_MEAN|0.023||0.312|TWO_SIDED|95.0|-0.022|0.067|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.067|-0.022|0.312
82628682|NCT00565812|164972879|SUPERIORITY_OR_OTHER||Difference in slopes|0.022|STANDARD_ERROR_OF_MEAN|0.023||0.327|TWO_SIDED|95.0|-0.022|0.067|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.067|-0.022|0.327
82628683|NCT00565812|164972880|SUPERIORITY_OR_OTHER||Difference in slopes|0.004|STANDARD_ERROR_OF_MEAN|0.026||0.881|TWO_SIDED|95.0|-0.046|0.054|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.054|-0.046|0.881
82628684|NCT00565812|164972880|SUPERIORITY_OR_OTHER||Difference in slopes|-0.007|STANDARD_ERROR_OF_MEAN|0.025||0.78|TWO_SIDED|95.0|-0.056|0.042|||Mixed Models Analysis|||Slopes, 95 percent CI and P-values were obtained from a random coefficients MMRM with random intercept and slope for each participant, and fixed effects for treatment group, time (years), a treatment group\*time (years) interaction, geographic region, gender, age, and body mass index with an unstructured covariance matrix for the random effects.||0.042|-0.056|0.780
82628685|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.84||0.639|TWO_SIDED|95.0|-1.26|2.05|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.05|-1.26|0.639
82628686|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.84||0.957|TWO_SIDED|95.0|-1.61|1.7|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.70|-1.61|0.957
82628687|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.96||0.893|TWO_SIDED|95.0|-1.76|2.01|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.01|-1.76|0.893
82628688|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|0.96||0.365|TWO_SIDED|95.0|-1.01|2.76|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.76|-1.01|0.365
82628689|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|1.05||0.678|TWO_SIDED|95.0|-1.63|2.51|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.51|-1.63|0.678
82628690|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|1.05||0.902|TWO_SIDED|95.0|-2.18|1.93|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.93|-2.18|0.902
82628691|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|1.15||0.577|TWO_SIDED|95.0|-2.89|1.61|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-2.89|0.577
82566701|NCT03544229|164843057|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.279|=|0.584|TWO_SIDED|90.0|-0.4|0.52||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.52|-0.40|=0.584
82566702|NCT03544229|164843057|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.189|=|0.625|TWO_SIDED|90.0|-0.25|0.37||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.37|-0.25|=0.625
82566703|NCT03544229|164843057|SUPERIORITY||Least-Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.187|=|0.54|TWO_SIDED|90.0|-0.29|0.33||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD nausea symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.33|-0.29|=0.540
82566704|NCT03544229|164843058|SUPERIORITY||Least-Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.283|=|0.51|TWO_SIDED|90.0|-0.46|0.47||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.47|-0.46|=0.510
82566705|NCT03544229|164843058|SUPERIORITY||Least-Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.192|=|0.674|TWO_SIDED|90.0|-0.23|0.4||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.40|-0.23|=0.674
82566706|NCT03544229|164843058|SUPERIORITY||Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.189|=|0.367|TWO_SIDED|90.0|-0.38|0.25||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD early satiety symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.25|-0.38|=0.367
82566707|NCT03544229|164843059|SUPERIORITY||Least-Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.289|=|0.587|TWO_SIDED|90.0|-0.41|0.54||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.54|-0.41|=0.587
82566708|NCT03544229|164843059|SUPERIORITY||Least-Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.196|=|0.6|TWO_SIDED|90.0|-0.27|0.37||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.37|-0.27|=0.600
82566709|NCT03544229|164843059|SUPERIORITY||Least-Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.193|=|0.446|TWO_SIDED|90.0|-0.34|0.29||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD postprandial fullness symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.29|-0.34|=0.446
82566710|NCT03544229|164843060|SUPERIORITY||Least-Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.245|=|0.562|TWO_SIDED|90.0|-0.37|0.44||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.44|-0.37|=0.562
82628692|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|1.14||0.98|TWO_SIDED|95.0|-2.26|2.21|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.21|-2.26|0.980
82377604|NCT02276807|164462586|SUPERIORITY||Mean Difference (Final Values)|0.666|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU, BA-PC) X 2 (Time: Baseline, Week 12) Repeated Measures ANOVA||||||<0.05
82377605|NCT02276807|164462587|SUPERIORITY||Mean Difference (Final Values)|0.014|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (Time: Baseline, Week 12) Repeated Measures ANOVA||||||<0.05
82628693|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.17||0.95|TWO_SIDED|95.0|-2.37|2.23|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.23|-2.37|0.950
82628694|NCT00565812|164972881|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|1.17||0.292|TWO_SIDED|95.0|-3.53|1.06|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.06|-3.53|0.292
82628695|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.683|TWO_SIDED|95.0|-0.3|0.46|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\* visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.46|-0.30|0.683
82628696|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.19||0.853|TWO_SIDED|95.0|-0.42|0.35|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.35|-0.42|0.853
82628697|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.22||0.938|TWO_SIDED|95.0|-0.41|0.44|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\* visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.44|-0.41|0.938
82628698|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.648|TWO_SIDED|95.0|-0.32|0.52|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.52|-0.32|0.648
82628699|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.24||0.916|TWO_SIDED|95.0|-0.49|0.44|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.44|-0.49|0.916
82628700|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.528|TWO_SIDED|95.0|-0.6|0.31|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.31|-0.60|0.528
82628701|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.365|TWO_SIDED|95.0|-0.73|0.27|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.27|-0.73|0.365
82628702|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.25||0.328|TWO_SIDED|95.0|-0.74|0.25|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.25|-0.74|0.328
82628703|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.26||0.54|TWO_SIDED|95.0|-0.66|0.35|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.35|-0.66|0.540
82628704|NCT00565812|164972882|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.26||0.423|TWO_SIDED|95.0|-0.71|0.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.30|-0.71|0.423
82628705|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.904|TWO_SIDED|95.0|-0.17|0.2|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.20|-0.17|0.904
82628706|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.582|TWO_SIDED|95.0|-0.24|0.13|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.13|-0.24|0.582
82507458|NCT03450707|164706011|OTHER||Mean Difference (Final Values)|-48.5||||0.828|TWO_SIDED|95.0|-297.0|200.0||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH quantity between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||200.0|-297.0|0.828
82628707|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.818|TWO_SIDED|95.0|-0.22|0.18|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.18|-0.22|0.818
82628708|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.988|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group x visit interaction, (collapsed) KLG, a (collapsed) KLG x visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.20|-0.20|0.988
82377606|NCT02276807|164462588|SUPERIORITY||Mean Difference (Final Values)|0.722|||<|0.05|TWO_SIDED||||||ANOVA|2 (Condition: TAU vs. BA-PC) X 2 (Time: Baseline vs. Week 12) Repeated Measures ANOVA||||||<0.05
82566711|NCT03544229|164843060|SUPERIORITY||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.166|=|0.138|TWO_SIDED|90.0|-0.46|0.09||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.09|-0.46|=0.138
82566712|NCT03544229|164843060|SUPERIORITY||Least-Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.164|=|0.394|TWO_SIDED|90.0|-0.32|0.23||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD upper abdominal pain symptom score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.23|-0.32|=0.394
82566713|NCT03544229|164843061|SUPERIORITY||Least-Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.484|=|0.709|TWO_SIDED|90.0|-0.53|1.07||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||1.07|-0.53|=0.709
82566714|NCT03544229|164843061|SUPERIORITY||Least-Squares Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.332|=|0.76|TWO_SIDED|90.0|-0.31|0.78||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.78|-0.31|=0.760
82566715|NCT03544229|164843061|SUPERIORITY||Least-Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.33|=|0.591|TWO_SIDED|90.0|-0.47|0.62||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD recorded vomiting frequency was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.62|-0.47|=0.591
82566716|NCT03544229|164843062|SUPERIORITY||Least-Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.27|=|0.742|TWO_SIDED|90.0|-0.27|0.62||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.62|-0.27|=0.742
82566717|NCT03544229|164843062|SUPERIORITY||Least-Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.183|=|0.461|TWO_SIDED|90.0|-0.32|0.28||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.28|-0.32|=0.461
82566718|NCT03544229|164843062|SUPERIORITY||Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.181|=|0.376|TWO_SIDED|90.0|-0.36|0.24||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD overall severity of gastroparesis symptoms score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.24|-0.36|=0.376
82566719|NCT03544229|164843063|SUPERIORITY||Least-Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.286|=|0.591|TWO_SIDED|90.0|-0.41|0.54||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.54|-0.41|=0.591
82566720|NCT03544229|164843063|SUPERIORITY||Least-Squares mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.193|=|0.291|TWO_SIDED|90.0|-0.43|0.21||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.21|-0.43|=0.291
82628709|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.857|TWO_SIDED|95.0|-0.2|0.24|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.24|-0.20|0.857
82628710|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.658|TWO_SIDED|95.0|-0.17|0.27|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.27|-0.17|0.658
82628711|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.612|TWO_SIDED|95.0|-0.28|0.17|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.17|-0.28|0.612
82628712|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.391|TWO_SIDED|95.0|-0.32|0.13|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.13|-0.32|0.391
82628713|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||1|TWO_SIDED|95.0|-0.24|0.24|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.24|-0.24|1.000
82628714|NCT00565812|164972883|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.086|TWO_SIDED|95.0|-0.45|0.03|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.03|-0.45|0.086
82628715|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.62||0.586|TWO_SIDED|95.0|-0.88|1.55|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.55|-0.88|0.586
82628716|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.62||0.789|TWO_SIDED|95.0|-1.05|1.38|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.38|-1.05|0.789
82628717|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.69||0.821|TWO_SIDED|95.0|-1.21|1.52|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.52|-1.21|0.821
82628718|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.69||0.294|TWO_SIDED|95.0|-0.63|2.09|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.09|-0.63|0.294
82628719|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.48|STANDARD_ERROR_OF_MEAN|0.76||0.532|TWO_SIDED|95.0|-1.02|1.97|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.97|-1.02|0.532
82628720|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.76||0.938|TWO_SIDED|95.0|-1.55|1.43|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.43|-1.55|0.938
82507459|NCT03450707|164706014|OTHER||Mean Difference (Final Values)|2.34||||0.1|TWO_SIDED|95.0|0.47|4.22||Mixed model controlling for repeated measures within patients used to get a mean difference in SOFA scores between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model.||||4.22|0.47|0.10
82566721|NCT03544229|164843063|SUPERIORITY||Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.191|=|0.476|TWO_SIDED|90.0|-0.33|0.3||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD bloating severity scale score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.30|-0.33|=0.476
82566722|NCT03544229|164843064|SUPERIORITY||Least-Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.224|=|0.675|TWO_SIDED|90.0|-0.27|0.47||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.47|-0.27|=0.675
82566723|NCT03544229|164843064|SUPERIORITY||Least-Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.152|=|0.531|TWO_SIDED|90.0|-0.24|0.26||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.26|-0.24|=0.531
82566724|NCT03544229|164843064|SUPERIORITY||Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.15|=|0.473|TWO_SIDED|90.0|-0.26|0.24||1-sided p-values were obtained using MMRM Model. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in ANMS GCSI-DD total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.24|-0.26|=0.473
82566725|NCT03544229|164843065|SUPERIORITY||Least-Squares Mean Difference|-8.47|STANDARD_ERROR_OF_MEAN|9.71|=|0.192|TWO_SIDED|90.0|-24.5|7.57||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 -Placebo) in symptomatic weeks was \<0.|ANOVA|||||7.57|-24.50|=0.192
82566726|NCT03544229|164843065|SUPERIORITY||Least-Squares Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|6.736|=|0.236|TWO_SIDED|90.0|-15.98|6.27||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in symptomatic weeks was \<0.|ANOVA|||||6.27|-15.98|=0.236
82566727|NCT03544229|164843065|SUPERIORITY||Least-Squares Mean Difference|-3.58|STANDARD_ERROR_OF_MEAN|6.689|=|0.297|TWO_SIDED|90.0|-14.62|7.47||The 1-sided p-value was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in symptomatic weeks was \<0.|ANOVA|||||7.47|-14.62|=0.297
82566728|NCT03544229|164843066|SUPERIORITY||Least-Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.3|=|0.601|TWO_SIDED|90.0|-0.42|0.57||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model included week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.57|-0.42|=0.601
82566729|NCT03544229|164843066|SUPERIORITY||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2|=|0.181|TWO_SIDED|90.0|-0.51|0.15||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model includes week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.15|-0.51|=0.181
82566730|NCT03544229|164843066|SUPERIORITY||Least-Squares Mean Diferrence|-0.24|STANDARD_ERROR_OF_MEAN|0.196|=|0.114|TWO_SIDED|90.0|-0.56|0.09||1-sided p-values were obtained using MMRM of PAGI-SYM total score. It was based on the one-sided alternative hypothesis testing that the treatment difference (TAK-906 - Placebo) in PAGI-SYM total score was \<0.|MMRM||MMRM model includes week, treatment, participant disease population (DG/IG), treatment-by-week interaction as fixed effects, baseline and baseline score-by-week interaction as covariates, with an unstructured working covariance matrix as default.|||0.09|-0.56|=0.114
82566731|NCT04748445|164843084|OTHER||Slope|0.065|||<|0.0001|TWO_SIDED|90.0|0.046|0.083|||Mixed Models Analysis|||Chills||0.083|0.046|<.0001
82566732|NCT04748445|164843084|OTHER||Slope|0.281|||<|0.0001|TWO_SIDED|90.0|0.221|0.341|||Mixed Models Analysis|||Cough||0.341|0.221|<.0001
82566733|NCT04748445|164843084|OTHER||Slope|0.036|||<|0.0001|TWO_SIDED|90.0|0.023|0.048|||Mixed Models Analysis|||Diarrhea||0.048|0.023|<.0001
82566734|NCT04748445|164843084|OTHER||Slope|0.113|||<|0.0001|TWO_SIDED|90.0|0.069|0.156|||Mixed Models Analysis|||Difficulty breathing||0.156|0.069|<.0001
82566735|NCT04748445|164843084|OTHER||Slope|0.259|||<|0.0001|TWO_SIDED|90.0|0.206|0.312|||Mixed Models Analysis|||Fatigue||0.312|0.206|<.0001
82566736|NCT04748445|164843084|OTHER||Slope|0.029|||<|0.0001|TWO_SIDED|90.0|0.02|0.037|||Mixed Models Analysis|||Fever||0.037|0.020|<.0001
82566737|NCT04748445|164843084|OTHER||Slope|0.194|||<|0.0001|TWO_SIDED|90.0|0.148|0.241|||Mixed Models Analysis|||Headache||0.241|0.148|<.0001
82566738|NCT04748445|164843084|OTHER||Slope|0.103||||0.0002|TWO_SIDED|90.0|0.059|0.148|||Mixed Models Analysis|||Loss of taste or smell||0.148|0.059|0.0002
82566739|NCT04748445|164843084|OTHER||Slope|0.181|||<|0.0001|TWO_SIDED|90.0|0.137|0.226|||Mixed Models Analysis|||Muscle pain||0.226|0.137|<.0001
82566740|NCT04748445|164843084|OTHER||Slope|0.044|||<|0.0001|TWO_SIDED|90.0|0.028|0.06|||Mixed Models Analysis|||Nausea||0.060|0.028|<.0001
82566741|NCT04748445|164843084|OTHER||Slope|0.03||||0.0007|TWO_SIDED|90.0|0.016|0.044|||Mixed Models Analysis|||Rigors||0.044|0.016|0.0007
82566742|NCT04748445|164843084|OTHER||Slope|0.159|||<|0.0001|TWO_SIDED|90.0|0.123|0.195|||Mixed Models Analysis|||Runny nose||0.195|0.123|<.0001
82566743|NCT04748445|164843084|OTHER||Slope|0.222|||<|0.0001|TWO_SIDED|90.0|0.168|0.277|||Mixed Models Analysis|||Sore throat||0.277|0.168|<.0001
82566744|NCT04748445|164843084|OTHER||Slope|0.337|||<|0.0001|TWO_SIDED|90.0|0.264|0.411|||Mixed Models Analysis|||Stuffy/blocked nose||0.411|0.264|<.0001
82566745|NCT04748445|164843084|OTHER||Slope|0.005||||0.0053|TWO_SIDED|90.0|0.002|0.007|||Mixed Models Analysis|||Vomiting||0.007|0.002|0.0053
82566746|NCT04748445|164843084|OTHER||Slope|0.049||||0.0057|TWO_SIDED|90.0|0.02|0.078|||Mixed Models Analysis|||Wheezing||0.078|0.020|0.0057
82628721|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.83||0.68|TWO_SIDED|95.0|-1.97|1.29|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.29|-1.97|0.680
82628722|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.82||0.73|TWO_SIDED|95.0|-1.33|1.9|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.90|-1.33|0.730
82628723|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.84||0.901|TWO_SIDED|95.0|-1.55|1.76|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.76|-1.55|0.901
82628724|NCT00565812|164972884|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.84||0.333|TWO_SIDED|95.0|-2.45|0.83|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.83|-2.45|0.333
82628725|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|2.34|STANDARD_ERROR_OF_MEAN|1.36||0.086|TWO_SIDED|95.0|-0.33|5.01|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||5.01|-0.33|0.086
82628726|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|1.36||0.415|TWO_SIDED|95.0|-1.56|3.78|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.78|-1.56|0.415
82628727|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|1.41||0.569|TWO_SIDED|95.0|-1.97|3.57|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.57|-1.97|0.569
82628728|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|1.26|STANDARD_ERROR_OF_MEAN|1.41||0.374|TWO_SIDED|95.0|-1.51|4.02|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.02|-1.51|0.374
82628729|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|1.63|STANDARD_ERROR_OF_MEAN|1.53||0.288|TWO_SIDED|95.0|-1.38|4.64|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.64|-1.38|0.288
82628730|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|1.18|STANDARD_ERROR_OF_MEAN|1.52||0.44|TWO_SIDED|95.0|-1.81|4.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.17|-1.81|0.440
82628731|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|1.58||0.896|TWO_SIDED|95.0|-3.3|2.88|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-3.30|0.896
82628732|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|1.14|STANDARD_ERROR_OF_MEAN|1.56||0.464|TWO_SIDED|95.0|-1.92|4.2|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.20|-1.92|0.464
82628733|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.57||0.901|TWO_SIDED|95.0|-3.27|2.88|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-3.27|0.901
82507460|NCT03450707|164706016|OTHER||Mean Difference (Final Values)|-1.0||||0.43|TWO_SIDED|95.0|-3.6|1.6||Mixed model controlling for repeated measures within patients used to get a mean difference in Basal Respiration between the thiamine and placebo groups at 24 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.|Mean difference uses a non-logged version of the variable.|||1.6|-3.6|0.43
82628734|NCT00565812|164972885|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.56||0.8|TWO_SIDED|95.0|-3.45|2.66|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value,geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.66|-3.45|0.800
82628735|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.048||0.984|TWO_SIDED|95.0|-0.093|0.095|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.095|-0.093|0.984
82628736|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.046|STANDARD_ERROR_OF_MEAN|0.048||0.33|TWO_SIDED|95.0|-0.14|0.047|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.047|-0.140|0.330
82628737|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.049||0.308|TWO_SIDED|95.0|-0.146|0.046|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.046|-0.146|0.308
82628738|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.083|STANDARD_ERROR_OF_MEAN|0.049||0.089|TWO_SIDED|95.0|-0.18|0.013|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.013|-0.180|0.089
82628739|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.035|STANDARD_ERROR_OF_MEAN|0.052||0.508|TWO_SIDED|95.0|-0.137|0.068|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.068|-0.137|0.508
82628740|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.036|STANDARD_ERROR_OF_MEAN|0.052||0.49|TWO_SIDED|95.0|-0.137|0.066|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.066|-0.137|0.490
82628741|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.019|STANDARD_ERROR_OF_MEAN|0.057||0.739|TWO_SIDED|95.0|-0.132|0.094|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.094|-0.132|0.739
82628742|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.057||0.376|TWO_SIDED|95.0|-0.162|0.061|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.061|-0.162|0.376
82628743|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.057||0.883|TWO_SIDED|95.0|-0.121|0.104|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.104|-0.121|0.883
82628744|NCT00565812|164972886|SUPERIORITY_OR_OTHER||LS mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.057||0.69|TWO_SIDED|95.0|-0.135|0.089|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.089|-0.135|0.690
82628745|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.044||0.849|TWO_SIDED|95.0|-0.078|0.095|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.095|-0.078|0.849
82628746|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.044||0.837|TWO_SIDED|95.0|-0.096|0.078|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.078|-0.096|0.837
82628747|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.013|STANDARD_ERROR_OF_MEAN|0.047||0.776|TWO_SIDED|95.0|-0.105|0.078|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.078|-0.105|0.776
82628748|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.047||0.033|TWO_SIDED|95.0|-0.191|-0.008|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.008|-0.191|0.033
82507461|NCT03450707|164706017|OTHER||Mean Difference (Final Values)|0.76||||0.02|TWO_SIDED|95.0|-0.27|1.78||Mixed model controlling for repeated measures within patients used to get a mean difference in creatinine between the thiamine and placebo groups at 72 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model. P-value is obtained from a model that uses a log-transformed version of the variable.||||1.78|-0.27|0.02
82566747|NCT04748445|164843084|OTHER||Slope|2.644|||<|0.0001|TWO_SIDED|90.0|2.101|3.188|||Mixed Models Analysis|||Mean of daily total symptom score||3.188|2.101|<.0001
82628749|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.064|STANDARD_ERROR_OF_MEAN|0.05||0.201|TWO_SIDED|95.0|-0.163|0.034|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.034|-0.163|0.201
82628750|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.103|STANDARD_ERROR_OF_MEAN|0.05||0.038|TWO_SIDED|95.0|-0.201|-0.006|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.006|-0.201|0.038
82628751|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.053||0.848|TWO_SIDED|95.0|-0.114|0.094|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.094|-0.114|0.848
82628752|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|-0.019|STANDARD_ERROR_OF_MEAN|0.052||0.714|TWO_SIDED|95.0|-0.122|0.084|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.084|-0.122|0.714
82628753|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|0.025|STANDARD_ERROR_OF_MEAN|0.054||0.652|TWO_SIDED|95.0|-0.082|0.131|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.131|-0.082|0.652
82628754|NCT00565812|164972887|SUPERIORITY_OR_OTHER||LS mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.054||0.7|TWO_SIDED|95.0|-0.085|0.127|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.127|-0.085|0.700
82628755|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|1.68|STANDARD_ERROR_OF_MEAN|1.37||0.22|TWO_SIDED|95.0|-1.0|4.36|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.36|-1.00|0.220
82628756|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.36||0.997|TWO_SIDED|95.0|-2.67|2.68|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.68|-2.67|0.997
82507462|NCT01451775|164706019|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability study with standard bioequivalence range of 80% to 125%. Ratio calculated as empa 25mg fed divided by empa 25mg fasted.|Geometric mean ratio|84.04|STANDARD_DEVIATION|6.4|||TWO_SIDED|90.0|80.856|87.344|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation.|||87.344|80.856|
82507463|NCT01451775|164706019|NON_INFERIORITY_OR_EQUIVALENCE|This is an analysis of dose proportionality|Slope|0.9367|STANDARD_ERROR_OF_MEAN|0.0178|||TWO_SIDED|95.0|0.8988|0.9746||Does proportionality would be assumed if the 95% confidence interval includes one.|ANCOVA|ANCOVA with logarithm of the dose fitted as a continuous covariate and sequence, subjects within sequence, period included as categorical variables.||||0.9746|0.8988|
82507464|NCT01451775|164706020|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability study with standard bioequivalence range of 80% to 125%. Ratio calculated as empa 25mg fed divided by empa 25mg fasted.|Geometric mean ratio|63.22|STANDARD_DEVIATION|18.1|||TWO_SIDED|90.0|56.736|70.439|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation.|||70.439|56.736|
82507465|NCT01451775|164706020|NON_INFERIORITY_OR_EQUIVALENCE|This is an analysis of dose proportionality|Slope|0.9065|STANDARD_DEVIATION|0.0495|||TWO_SIDED|95.0|0.8011|1.012||Does proportionality would be assumed if the 95% confidence interval includes one.|ANCOVA|ANCOVA with logarithm of the dose fitted as a continuous covariate and sequence, subjects within sequence, period included as categorical variables.||||1.0120|0.8011|
82507466|NCT01289847|164706044|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||one-sample Poisson rate|||For the primary efficacy analysis, the SABI rate for GAMMAPLEX and the upper bound of its one-sided 99% confidence interval (CI) were estimated by using the exact method for a one-sample Poisson rate.||||0.01
82507467|NCT01289847|164706045|SUPERIORITY_OR_OTHER|||||||0.01|ONE_SIDED|99.0|||||one-sample Poisson method|||||||0.01
82507468|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.74||||0|TWO_SIDED|95.0|0.68|0.82|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Non-smoker)||0.82|0.68|0.000
82507469|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.32||||0|TWO_SIDED|95.0|1.14|1.52|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Ex-smoker)||1.52|1.14|0.000
82507470|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.04||||0|TWO_SIDED|95.0|0.93|1.17|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Smoker)||1.17|0.93|0.000
82507471|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.95||||0.755|TWO_SIDED|95.0|0.8|1.13|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Non-smoker)||1.13|0.80|0.755
82507472|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.32||||0.426|TWO_SIDED|95.0|0.95|1.83|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Ex-smoker)||1.83|0.95|0.426
82507473|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.77|1.12|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Smoker)||1.12|0.77|0.930
82507474|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.78||||0|TWO_SIDED|95.0|0.72|0.84|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Non-smoker)||0.84|0.72|0.000
82507475|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.25||||0|TWO_SIDED|95.0|1.1|1.42|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Ex-smoker)||1.42|1.10|0.000
82507476|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.08||||0|TWO_SIDED|95.0|0.98|1.19|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Smoker)||1.19|0.98|0.000
82507477|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.98||||0.755|TWO_SIDED|95.0|0.84|1.14|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Non-smoker)||1.14|0.84|0.755
82507478|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.13||||0.426|TWO_SIDED|95.0|0.84|1.52|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Ex-smoker)||1.52|0.84|0.426
82507479|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.98||||0.93|TWO_SIDED|95.0|0.81|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Smoker)||1.12|0.81|0.930
82507480|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.79||||0|TWO_SIDED|95.0|0.74|0.84|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Non-smoker)||0.84|0.74|0.000
82507481|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.19||||0|TWO_SIDED|95.0|1.08|1.32|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Ex-smoker)||1.32|1.08|0.000
82507482|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.16||||0|TWO_SIDED|95.0|1.08|1.26|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Smoker)||1.26|1.08|0.000
82507483|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.82||||0.755|TWO_SIDED|95.0|0.6|1.13|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Non-smoker)||1.13|0.60|0.755
82507484|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.48||||0.426|TWO_SIDED|95.0|0.82|2.52|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Ex-smoker)||2.52|0.82|0.426
82507485|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.0||||0.93|TWO_SIDED|95.0|0.7|1.4|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Smoker)||1.40|0.70|0.930
82507486|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.54||||0|TWO_SIDED|95.0|0.49|0.6|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Non-smoker)||0.60|0.49|0.000
82507487|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.51||||0|TWO_SIDED|95.0|1.29|1.76|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Ex-smoker)||1.76|1.29|0.000
82507488|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.72||||0|TWO_SIDED|95.0|1.54|1.93|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Smoker)||1.93|1.54|0.000
82507489|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.91||||0.755|TWO_SIDED|95.0|0.72|1.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Non-smoker)||1.17|0.72|0.755
82507490|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|1.25||||0.426|TWO_SIDED|95.0|0.78|1.95|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Ex-smoker)||1.95|0.78|0.426
82628757|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|1.44||0.613|TWO_SIDED|95.0|-2.09|3.55|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.55|-2.09|0.613
82628758|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|1.44||0.964|TWO_SIDED|95.0|-2.75|2.88|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.88|-2.75|0.964
82628759|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|1.49||0.872|TWO_SIDED|95.0|-2.69|3.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.17|-2.69|0.872
82628760|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.48||0.947|TWO_SIDED|95.0|-2.81|3.01|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.01|-2.81|0.947
82628761|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|1.62||0.927|TWO_SIDED|95.0|-3.03|3.33|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.33|-3.03|0.927
82628762|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|1.61||0.547|TWO_SIDED|95.0|-2.18|4.12|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.12|-2.18|0.547
82628763|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|1.58||0.304|TWO_SIDED|95.0|-1.47|4.71|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||4.71|-1.47|0.304
82628764|NCT00565812|164972888|SUPERIORITY_OR_OTHER||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|1.57||0.679|TWO_SIDED|95.0|-3.73|2.43|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.43|-3.73|0.679
82628765|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|1.11||0.738|TWO_SIDED|95.0|-1.8|2.55|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.55|-1.80|0.738
82628766|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.11||0.632|TWO_SIDED|95.0|-2.7|1.64|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.64|-2.70|0.632
82628767|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|1.21||0.736|TWO_SIDED|95.0|-2.77|1.96|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.96|-2.77|0.736
82628768|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|1.21||0.811|TWO_SIDED|95.0|-2.66|2.08|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.08|-2.66|0.811
82628769|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-1.22|STANDARD_ERROR_OF_MEAN|1.27||0.335|TWO_SIDED|95.0|-3.71|1.26|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.26|-3.71|0.335
82628770|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|1.26||0.966|TWO_SIDED|95.0|-2.52|2.41|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.41|-2.52|0.966
82628771|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-1.44|STANDARD_ERROR_OF_MEAN|1.38||0.299|TWO_SIDED|95.0|-4.16|1.28|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.28|-4.16|0.299
82628772|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.37||0.925|TWO_SIDED|95.0|-2.56|2.82|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.82|-2.56|0.925
82628773|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|1.39||0.676|TWO_SIDED|95.0|-2.14|3.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.30|-2.14|0.676
82628774|NCT00565812|164972889|SUPERIORITY_OR_OTHER||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|1.38||0.732|TWO_SIDED|95.0|-3.18|2.23|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.23|-3.18|0.732
82628775|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.2||0.911|TWO_SIDED|95.0|-2.22|2.49|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.49|-2.22|0.911
82628776|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|1.2||0.5|TWO_SIDED|95.0|-3.16|1.54|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.54|-3.16|0.500
82507491|NCT03441633|164706050|SUPERIORITY||Odds Ratio (OR)|0.92||||0.93|TWO_SIDED|95.0|0.7|1.2|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Smoker)||1.20|0.70|0.930
82507492|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.99||||0|TWO_SIDED|95.0|0.9|1.09|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (No intake)||1.09|0.90|0.000
82507493|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.11||||0|TWO_SIDED|95.0|0.98|1.25|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Moderate intake)||1.25|0.98|0.000
82507494|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.52||||0.164|TWO_SIDED|95.0|0.94|2.45|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Risk consumption)||2.45|0.94|0.164
82507495|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.03||||0.826|TWO_SIDED|95.0|0.87|1.22|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (No intake)||1.22|0.87|0.826
82507496|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.16||||0.19|TWO_SIDED|95.0|0.94|1.43|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Moderate intake)||1.43|0.94|0.190
82507497|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.58||||0.526|TWO_SIDED|95.0|0.18|1.57|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Risk consumption)||1.57|0.18|0.526
82507498|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.84||||0|TWO_SIDED|95.0|0.77|0.91|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (No intake)||0.91|0.77|0.000
82507499|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.12||||0|TWO_SIDED|95.0|1.01|1.24|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Moderate intake)||1.24|1.01|0.000
82507500|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.17||||0.164|TWO_SIDED|95.0|0.76|1.83|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Risk consumption)||1.83|0.76|0.164
82507501|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.09||||0.826|TWO_SIDED|95.0|0.95|1.26|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (No intake)||1.26|0.95|0.826
82507502|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.93||||0.19|TWO_SIDED|95.0|0.77|1.13|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Moderate intake)||1.13|0.77|0.190
82507503|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.26||||0.526|TWO_SIDED|95.0|0.62|2.65|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Risk consumption)||2.65|0.62|0.526
82507504|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.36||||0|TWO_SIDED|95.0|1.28|1.45|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (No intake)||1.45|1.28|0.000
82507505|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.24||||0|TWO_SIDED|95.0|1.14|1.35|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Moderate intake)||1.35|1.14|0.000
82507506|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.36||||0.164|TWO_SIDED|95.0|0.98|1.95|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Risk consumption)||1.95|0.98|0.164
82507507|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.04||||0.826|TWO_SIDED|95.0|0.76|1.41|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (No intake)||1.41|0.76|0.826
82507508|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.22||||0.19|TWO_SIDED|95.0|0.82|1.76|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Moderate intake)||1.76|0.82|0.190
82507509|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.21||||0.526|TWO_SIDED|95.0|0.17|4.5|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Risk consumption)||4.50|0.17|0.526
82507510|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.28||||0|TWO_SIDED|95.0|1.16|1.42|||Chi-squared|||Warfarin vs. Apixaban in naive participants (No intake)||1.42|1.16|0.000
82507511|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.25||||0|TWO_SIDED|95.0|1.1|1.43|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Moderate intake)||1.43|1.10|0.000
82507512|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.92||||0.164|TWO_SIDED|95.0|0.49|1.64|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Risk consumption)||1.64|0.49|0.164
82507513|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|1.06||||0.826|TWO_SIDED|95.0|0.84|1.34|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (No intake)||1.34|0.84|0.826
82507514|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.91||||0.19|TWO_SIDED|95.0|0.66|1.23|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Moderate intake)||1.23|0.66|0.190
82507515|NCT03441633|164706051|SUPERIORITY||Odds Ratio (OR)|0.64||||0.526|TWO_SIDED|95.0|0.09|2.36|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Risk consumption)||2.36|0.09|0.526
82507516|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.36||||0|TWO_SIDED|95.0|1.2|1.53|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.53|1.20|0.000
82507517|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.01||||0.014|TWO_SIDED|95.0|0.89|1.15|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 2 - Urban area)||1.15|0.89|0.014
82507518|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.87||||0|TWO_SIDED|95.0|0.77|0.99|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 3 - Urban area)||0.99|0.77|0.000
82507519|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.86||||0|TWO_SIDED|95.0|0.75|0.97|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 4 - Urban area)||0.97|0.75|0.000
82507520|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.85||||0.013|TWO_SIDED|95.0|0.74|0.97|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Quintile 5 - Urban area)||0.97|0.74|0.013
82507521|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.05||||0.157|TWO_SIDED|95.0|0.84|1.31|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.31|0.84|0.157
82507522|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.03||||0.124|TWO_SIDED|95.0|0.82|1.29|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.29|0.82|0.124
82507523|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.77||||0.062|TWO_SIDED|95.0|0.61|0.96|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||0.96|0.61|0.062
82507524|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.98||||0.079|TWO_SIDED|95.0|0.78|1.22|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.22|0.78|0.079
82507525|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.09||||0.14|TWO_SIDED|95.0|0.86|1.38|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.38|0.86|0.140
82507526|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.31||||0|TWO_SIDED|95.0|1.17|1.45|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.45|1.17|0.000
82507527|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.97||||0.014|TWO_SIDED|95.0|0.87|1.09|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 2 - Urban area)||1.09|0.87|0.014
82507528|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.01||||0|TWO_SIDED|95.0|0.91|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 3 - Urban area)||1.12|0.91|0.000
82507529|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.94||||0|TWO_SIDED|95.0|0.85|1.05|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 4 - Urban area)||1.05|0.85|0.000
82628777|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|1.26||0.596|TWO_SIDED|95.0|-1.81|3.15|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.15|-1.81|0.596
82628778|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|1.26||0.979|TWO_SIDED|95.0|-2.51|2.44|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-2.51|0.979
82628779|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|1.33||0.659|TWO_SIDED|95.0|-3.2|2.03|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.03|-3.20|0.659
82507530|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.83||||0.013|TWO_SIDED|95.0|0.74|0.93|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Quintile 5 - Urban area)||0.93|0.74|0.013
82507531|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.92||||0.157|TWO_SIDED|95.0|0.76|1.13|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.13|0.76|0.157
82507532|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.98||||0.124|TWO_SIDED|95.0|0.81|1.2|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.20|0.81|0.124
82628780|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.32||0.823|TWO_SIDED|95.0|-2.89|2.3|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-2.89|0.823
82507533|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.79||||0.062|TWO_SIDED|95.0|0.65|0.96|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||0.96|0.65|0.062
82507534|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.23||||0.079|TWO_SIDED|95.0|1.02|1.48|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.48|1.02|0.079
82507535|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.21||||0.14|TWO_SIDED|95.0|0.99|1.49|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.49|0.99|0.140
82507536|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.96||||0|TWO_SIDED|95.0|0.88|1.05|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 1 - Urban area)||1.05|0.88|0.000
82507537|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.91||||0.014|TWO_SIDED|95.0|0.84|0.99|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 2 - Urban area)||0.99|0.84|0.014
82507538|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.83||||0|TWO_SIDED|95.0|0.76|0.9|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 3 - Urban area)||0.90|0.76|0.000
82507539|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.84||||0|TWO_SIDED|95.0|0.77|0.91|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 4 - Urban area)||0.91|0.77|0.000
82507540|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.92||||0.013|TWO_SIDED|95.0|0.85|1.0|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (Quintile 5 - Urban area)||1.00|0.85|0.013
82507541|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.03||||0.157|TWO_SIDED|95.0|0.68|1.54|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.54|0.68|0.157
82507542|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.84||||0.124|TWO_SIDED|95.0|0.53|1.29|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.29|0.53|0.124
82507543|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.75||||0.062|TWO_SIDED|95.0|0.48|1.13|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||1.13|0.48|0.062
82507544|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.88||||0.079|TWO_SIDED|95.0|0.57|1.33|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.33|0.57|0.079
82507545|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.05||||0.14|TWO_SIDED|95.0|0.67|1.59|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.59|0.67|0.140
82507546|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.39||||0|TWO_SIDED|95.0|0.32|0.47|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 1 - Urban area)||0.47|0.32|0.000
82507547|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.84||||0.014|TWO_SIDED|95.0|0.73|0.97|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 2 - Urban area)||0.97|0.73|0.014
82507548|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.7||||0|TWO_SIDED|95.0|1.51|1.91|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 3 - Urban area)||1.91|1.51|0.000
82507549|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.86||||0|TWO_SIDED|95.0|1.65|2.1|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 4 - Urban area)||2.10|1.65|0.000
82507550|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.94||||0.013|TWO_SIDED|95.0|0.82|1.08|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Quintile 5 - Urban area)||1.08|0.82|0.013
82628781|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|1.43||0.387|TWO_SIDED|95.0|-4.04|1.57|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.57|-4.04|0.387
82628782|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|1.42||0.737|TWO_SIDED|95.0|-3.25|2.3|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-3.25|0.737
82628783|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|1.12|STANDARD_ERROR_OF_MEAN|1.45||0.443|TWO_SIDED|95.0|-1.73|3.97|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.97|-1.73|0.443
82628784|NCT00565812|164972890|SUPERIORITY_OR_OTHER||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.44||0.585|TWO_SIDED|95.0|-3.62|2.04|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.04|-3.62|0.585
82628785|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|1.16||0.613|TWO_SIDED|95.0|-1.68|2.85|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.85|-1.68|0.613
82628786|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|1.16||0.67|TWO_SIDED|95.0|-2.76|1.78|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-2.76|0.670
82628787|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-1.33|STANDARD_ERROR_OF_MEAN|1.27||0.296|TWO_SIDED|95.0|-3.82|1.16|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.16|-3.82|0.296
82628788|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|1.27||0.604|TWO_SIDED|95.0|-3.15|1.83|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.83|-3.15|0.604
82628789|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-1.86|STANDARD_ERROR_OF_MEAN|1.33||0.163|TWO_SIDED|95.0|-4.46|0.75|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.75|-4.46|0.163
82628790|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.32||0.939|TWO_SIDED|95.0|-2.69|2.48|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.48|-2.69|0.939
82628791|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-1.74|STANDARD_ERROR_OF_MEAN|1.46||0.233|TWO_SIDED|95.0|-4.61|1.12|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.12|-4.61|0.233
82628792|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|1.45||0.72|TWO_SIDED|95.0|-2.32|3.36|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.36|-2.32|0.720
82628793|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.45||0.993|TWO_SIDED|95.0|-2.82|2.85|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.85|-2.82|0.993
82507551|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.35||||0.157|TWO_SIDED|95.0|1.0|1.8|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 1 - Urban area)||1.80|1.00|0.157
82507552|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|1.41||||0.124|TWO_SIDED|95.0|1.04|1.88|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 2 - Urban area)||1.88|1.04|0.124
82628794|NCT00565812|164972891|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|1.44||0.794|TWO_SIDED|95.0|-3.19|2.44|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-3.19|0.794
82628795|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|0.53||0.069|TWO_SIDED|95.0|-0.07|2.02|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.02|-0.07|0.069
82628796|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.54||0.335|TWO_SIDED|95.0|-0.53|1.57|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.57|-0.53|0.335
82628797|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.89|STANDARD_ERROR_OF_MEAN|0.62||0.153|TWO_SIDED|95.0|-0.33|2.11|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.11|-0.33|0.153
82628798|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.672|TWO_SIDED|95.0|-0.95|1.47|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.47|-0.95|0.672
82628799|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.63||0.765|TWO_SIDED|95.0|-1.05|1.43|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.43|-1.05|0.765
82628800|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.62||0.675|TWO_SIDED|95.0|-0.96|1.49|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.49|-0.96|0.675
82628801|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.72||0.56|TWO_SIDED|95.0|-1.0|1.84|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.84|-1.00|0.560
82628802|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.72||0.433|TWO_SIDED|95.0|-0.84|1.97|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.97|-0.84|0.433
82628803|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|0.73||0.318|TWO_SIDED|95.0|-0.7|2.16|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.16|-0.70|0.318
82628804|NCT00565812|164972892|SUPERIORITY_OR_OTHER||LS mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.73||0.303|TWO_SIDED|95.0|-0.68|2.18|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.18|-0.68|0.303
82628805|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|1.67|STANDARD_ERROR_OF_MEAN|0.81||0.039|TWO_SIDED|95.0|0.08|3.26|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLGU\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.26|0.08|0.039
82566748|NCT04748445|164843085|OTHER||Slope|-1.519|STANDARD_ERROR_OF_MEAN|2.769|<|0.0001|TWO_SIDED|90.0|-1.978|-1.06|||Mixed Models Analysis|||AHH\_Max Phonation Time (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2).||-1.060|-1.978|<.0001
82566749|NCT04748445|164843085|OTHER||Slope|6.899|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|90.0|||||Mixed Models Analysis|||EE\_Jitter Local Absolute (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-8).||||<.0001
82566750|NCT04748445|164843085|OTHER||Slope|-1.743|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|90.0|||||Mixed Models Analysis|||MM\_Jitter Local Absolute (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-7).||||<.0001
82566751|NCT04748445|164843086|OTHER||Slope|-1.326|STANDARD_ERROR_OF_MEAN|1.174||0.9103|TWO_SIDED|90.0|-2.079|1.814|||Mixed Models Analysis|||EE\_Cepstral Peak Prominence (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||1.814|-2.079|0.9103
82628806|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.82||0.395|TWO_SIDED|95.0|-0.91|2.3|||Mixed Models Analysis|||Month 3; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.91|0.395
82628807|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|0.96||0.16|TWO_SIDED|95.0|-0.54|3.25|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.25|-0.54|0.160
82628808|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.46|STANDARD_ERROR_OF_MEAN|0.97||0.638|TWO_SIDED|95.0|-1.44|2.35|||Mixed Models Analysis|||Month 6; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.35|-1.44|0.638
82628809|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.98||0.537|TWO_SIDED|95.0|-1.32|2.54|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.54|-1.32|0.537
82628810|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.98||0.988|TWO_SIDED|95.0|-1.9|1.93|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*(visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.93|-1.90|0.988
82628811|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|1.11||0.962|TWO_SIDED|95.0|-2.12|2.22|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.22|-2.12|0.962
82628812|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.11||0.856|TWO_SIDED|95.0|-1.97|2.37|||Mixed Models Analysis|||Month 18; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.37|-1.97|0.856
82628813|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|1.15||0.237|TWO_SIDED|95.0|-0.9|3.63|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.63|-0.90|0.237
82628814|NCT00565812|164972893|SUPERIORITY_OR_OTHER||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|1.15||0.475|TWO_SIDED|95.0|-1.44|3.09|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.09|-1.44|0.475
82628815|NCT00565812|164972894|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.57||0.938|TWO_SIDED|95.0|-1.07|1.16|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.16|-1.07|0.938
82628816|NCT00565812|164972894|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.56||0.906|TWO_SIDED|95.0|-1.04|1.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.17|-1.04|0.906
82628817|NCT00565812|164972894|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.65||0.726|TWO_SIDED|95.0|-1.5|1.04|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.04|-1.50|0.726
82628818|NCT00565812|164972894|SUPERIORITY_OR_OTHER||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.64||0.681|TWO_SIDED|95.0|-1.52|1.0|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.00|-1.52|0.681
82566752|NCT04748445|164843086|OTHER||Slope|0.007667|STANDARD_ERROR_OF_MEAN|1.741||0.6605|TWO_SIDED|90.0|-0.02119|0.03653|||Mixed Models Analysis|||EE\_Harmonicity (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03653|-0.02119|0.6605
82628819|NCT00565812|164972895|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.58||0.9|TWO_SIDED|95.0|-1.07|1.21|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.21|-1.07|0.900
82628820|NCT00565812|164972895|SUPERIORITY_OR_OTHER||LS mean difference|0.36|STANDARD_ERROR_OF_MEAN|0.58||0.528|TWO_SIDED|95.0|-0.77|1.5|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.50|-0.77|0.528
82628821|NCT00565812|164972895|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.62||0.647|TWO_SIDED|95.0|-1.51|0.94|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.94|-1.51|0.647
82628822|NCT00565812|164972895|SUPERIORITY_OR_OTHER||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.62||0.841|TWO_SIDED|95.0|-1.34|1.09|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.09|-1.34|0.841
82628823|NCT00565812|164972896|SUPERIORITY_OR_OTHER||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.59||0.587|TWO_SIDED|95.0|-0.84|1.48|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.48|-0.84|0.587
82628824|NCT00565812|164972896|SUPERIORITY_OR_OTHER||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.58||0.687|TWO_SIDED|95.0|-0.91|1.38|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.38|-0.91|0.687
82628825|NCT00565812|164972896|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.65||0.677|TWO_SIDED|95.0|-1.56|1.01|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.01|-1.56|0.677
82628826|NCT00565812|164972896|SUPERIORITY_OR_OTHER||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.65||0.469|TWO_SIDED|95.0|-0.8|1.74|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.74|-0.80|0.469
82628827|NCT00565812|164972897|SUPERIORITY_OR_OTHER||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.48||0.632|TWO_SIDED|95.0|-0.71|1.17|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.17|-0.71|0.632
82628828|NCT00565812|164972897|SUPERIORITY_OR_OTHER||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.48||0.308|TWO_SIDED|95.0|-0.45|1.42|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.42|-0.45|0.308
82628829|NCT00565812|164972897|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.54||0.615|TWO_SIDED|95.0|-1.33|0.79|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.79|-1.33|0.615
82628830|NCT00565812|164972897|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.53||0.425|TWO_SIDED|95.0|-1.48|0.62|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.62|-1.48|0.425
82507553|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.76||||0.062|TWO_SIDED|95.0|0.55|1.05|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 3 - Urban area)||1.05|0.55|0.062
82507554|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.92||||0.079|TWO_SIDED|95.0|0.67|1.26|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 4 - Urban area)||1.26|0.67|0.079
82628831|NCT00565812|164972898|SUPERIORITY_OR_OTHER||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|0.54||0.214|TWO_SIDED|95.0|-0.39|1.72|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.72|-0.39|0.214
82628832|NCT00565812|164972898|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.53||0.98|TWO_SIDED|95.0|-1.06|1.03|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.03|-1.06|0.980
82628833|NCT00565812|164972898|SUPERIORITY_OR_OTHER||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.59||0.575|TWO_SIDED|95.0|-0.83|1.49|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.49|-0.83|0.575
82628834|NCT00565812|164972898|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.59||0.986|TWO_SIDED|95.0|-1.16|1.14|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.14|-1.16|0.986
82628835|NCT00565812|164972899|SUPERIORITY_OR_OTHER||LS mean difference|1.33|STANDARD_ERROR_OF_MEAN|0.61||0.03|TWO_SIDED|95.0|0.13|2.52|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.52|0.13|0.030
82628836|NCT00565812|164972899|SUPERIORITY_OR_OTHER||LS mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.6||0.48|TWO_SIDED|95.0|-0.76|1.61|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-0.76|0.480
82628837|NCT00565812|164972899|SUPERIORITY_OR_OTHER||LS mean difference|1.01|STANDARD_ERROR_OF_MEAN|0.67||0.132|TWO_SIDED|95.0|-0.3|2.32|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.32|-0.30|0.132
82628838|NCT00565812|164972899|SUPERIORITY_OR_OTHER||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|0.66||0.117|TWO_SIDED|95.0|-0.26|2.34|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.34|-0.26|0.117
82628839|NCT00565812|164972900|SUPERIORITY_OR_OTHER||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|0.71||0.133|TWO_SIDED|95.0|-0.32|2.44|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.44|-0.32|0.133
82628840|NCT00565812|164972900|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.7||0.524|TWO_SIDED|95.0|-0.93|1.82|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.82|-0.93|0.524
82628841|NCT00565812|164972900|SUPERIORITY_OR_OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.78||0.743|TWO_SIDED|95.0|-1.27|1.78|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-1.27|0.743
82507555|NCT03441633|164706052|SUPERIORITY||Odds Ratio (OR)|0.81||||0.14|TWO_SIDED|95.0|0.56|1.15|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Quintile 5 - Urban area)||1.15|0.56|0.140
82628842|NCT00565812|164972900|SUPERIORITY_OR_OTHER||LS mean difference|0.78|STANDARD_ERROR_OF_MEAN|0.77||0.31|TWO_SIDED|95.0|-0.73|2.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.73|0.310
82628843|NCT00565812|164972901|SUPERIORITY_OR_OTHER||LS mean difference|1.17|STANDARD_ERROR_OF_MEAN|0.62||0.058|TWO_SIDED|95.0|-0.04|2.38|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.38|-0.04|0.058
82628844|NCT00565812|164972901|SUPERIORITY_OR_OTHER||LS mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.61||0.213|TWO_SIDED|95.0|-0.44|1.96|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.96|-0.44|0.213
82628845|NCT00565812|164972901|SUPERIORITY_OR_OTHER||LS mean difference|0.98|STANDARD_ERROR_OF_MEAN|0.67||0.143|TWO_SIDED|95.0|-0.33|2.3|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.30|-0.33|0.143
82628846|NCT00565812|164972901|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.67||0.45|TWO_SIDED|95.0|-0.8|1.81|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.81|-0.80|0.450
82507556|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.91|1.25|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.25|0.91|0.000
82507557|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.38||||0.202|TWO_SIDED|95.0|0.58|3.23|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||3.23|0.58|0.202
82566753|NCT04748445|164843086|OTHER||Slope|1.268|STANDARD_ERROR_OF_MEAN|2.82|<|0.0001|TWO_SIDED|90.0|0.8012|1.736|||Mixed Models Analysis|||EE\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.736|0.8012|<.0001
82566754|NCT04748445|164843086|OTHER||Slope|-1.752|STANDARD_ERROR_OF_MEAN|2.127||0.4117|TWO_SIDED|90.0|-5.276|1.773|||Mixed Models Analysis|||EE\_MFCC mean 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-1).||1.773|-5.276|0.4117
82566755|NCT04748445|164843086|OTHER||Slope|1.39|STANDARD_ERROR_OF_MEAN|1.262||0.2728|TWO_SIDED|90.0|-7.012|3.482|||Mixed Models Analysis|||EE\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-1. For lower limit it was 10\^-2).||3.482|-7.012|0.2728
82628847|NCT00565812|164972902|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.701|TWO_SIDED|95.0|-1.19|0.8|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.80|-1.19|0.701
82628848|NCT00565812|164972902|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.5||0.764|TWO_SIDED|95.0|-0.84|1.14|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.14|-0.84|0.764
82628849|NCT00565812|164972902|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.57||0.228|TWO_SIDED|95.0|-1.8|0.43|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.43|-1.80|0.228
82628850|NCT00565812|164972902|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.56||0.514|TWO_SIDED|95.0|-1.47|0.74|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit,a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.74|-1.47|0.514
82628851|NCT00565812|164972903|SUPERIORITY_OR_OTHER||LS mean difference|1.42|STANDARD_ERROR_OF_MEAN|0.62||0.023|TWO_SIDED|95.0|0.19|2.65|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.65|0.19|0.023
82628852|NCT00565812|164972903|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.62||0.391|TWO_SIDED|95.0|-0.68|1.75|||Mixed Models Analysis|||Month 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.75|-0.68|0.391
82628853|NCT00565812|164972903|SUPERIORITY_OR_OTHER||LS mean difference|1.02|STANDARD_ERROR_OF_MEAN|0.69||0.142|TWO_SIDED|95.0|-0.34|2.37|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.37|-0.34|0.142
82628854|NCT00565812|164972903|SUPERIORITY_OR_OTHER||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|0.68||0.204|TWO_SIDED|95.0|-0.47|2.21|||Mixed Models Analysis|||Month 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.21|-0.47|0.204
82566756|NCT04748445|164843086|OTHER||Slope|-1.407|STANDARD_ERROR_OF_MEAN|1.194||0.2411|TWO_SIDED|90.0|-3.385|5.724|||Mixed Models Analysis|||EE\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-1. For upper limit it was 10\^-2).||5.724|-3.385|0.2411
82507558|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.98||||0|TWO_SIDED|95.0|0.88|1.09|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.09|0.88|0.000
82566757|NCT04748445|164843086|OTHER||Slope|-0.004466|STANDARD_ERROR_OF_MEAN|8.869||0.9599|TWO_SIDED|90.0|-0.1514|0.1425|||Mixed Models Analysis|||EE\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1425|-0.1514|0.9599
82507559|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.84||||0.003|TWO_SIDED|95.0|0.76|0.93|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||0.93|0.76|0.003
82628855|NCT00565812|164972910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.952||||0.875|TWO_SIDED|95.0|0.516|1.756|||Regression, Logistic|||Month 12; Odds ratio (OR), 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.756|0.516|0.875
82628856|NCT00565812|164972910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.273||||0.406|TWO_SIDED|95.0|0.721|2.247|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||2.247|0.721|0.406
82628857|NCT00565812|164972910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.787||||0.406|TWO_SIDED|95.0|0.448|1.384|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.384|0.448|0.406
82628858|NCT00565812|164972910|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.154||||0.591|TWO_SIDED|95.0|0.685|1.942|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.942|0.685|0.591
82628859|NCT00565812|164972911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.704||||0.168|TWO_SIDED|95.0|0.428|1.16|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.160|0.428|0.168
82628860|NCT00565812|164972911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.893||||0.634|TWO_SIDED|95.0|0.56|1.423|||Regression, Logistic|||Month 12; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.423|0.560|0.634
82628861|NCT00565812|164972911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.583||||0.032|TWO_SIDED|95.0|0.356|0.955|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||0.955|0.356|0.032
82628862|NCT00565812|164972911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.774||||0.276|TWO_SIDED|95.0|0.489|1.227|||Regression, Logistic|||Month 24; Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.227|0.489|0.276
82628863|NCT00565812|164972912|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.709|TWO_SIDED|95.0|-0.21|0.14|||ANCOVA|||LS Mean, 95 percent CI and P-values were obtained from an analysis of covariance (ANCOVA) model, with treatment group, (collapsed) KLG, geographic region, and gender as factors and age and body mass index as covariates.||0.14|-0.21|0.709
82507560|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.82||||0.083|TWO_SIDED|95.0|0.66|1.03|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.03|0.66|0.083
82507561|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.99||||0.011|TWO_SIDED|95.0|0.68|6.18|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||6.18|0.68|0.011
82507562|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.89||||0.227|TWO_SIDED|95.0|0.75|1.06|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.06|0.75|0.227
82628864|NCT00565812|164972912|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.798|TWO_SIDED|95.0|-0.15|0.2|||ANCOVA|||LS-Mean, 95 percent CI and P-values were obtained from an ANCOVA model, with treatment group, (collapsed) KLG, geographic region, and gender as factors and age and body mass index as covariates.||0.20|-0.15|0.798
82628865|NCT00565812|164972913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||0.81|TWO_SIDED|95.0|0.797|1.337|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, baseline JSW, age and body mass index as covariates.||1.337|0.797|0.810
82628866|NCT00565812|164972913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.068||||0.62|TWO_SIDED|95.0|0.824|1.383|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, baseline JSW, age and body mass index as covariates.||1.383|0.824|0.620
82628867|NCT00565812|164972914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.745||||0.047|TWO_SIDED|95.0|0.557|0.997|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||0.997|0.557|0.047
82628868|NCT00565812|164972914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.864||||0.317|TWO_SIDED|95.0|0.65|1.15|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.150|0.650|0.317
82628869|NCT00565812|164972915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.043||||0.881|TWO_SIDED|95.0|0.602|1.806|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||1.806|0.602|0.881
82507563|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.23||||0|TWO_SIDED|95.0|1.03|1.47|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.47|1.03|0.000
82507564|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.01||||0|TWO_SIDED|95.0|0.88|1.16|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.16|0.88|0.000
82507565|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.22||||0.202|TWO_SIDED|95.0|0.58|2.66|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||2.66|0.58|0.202
82507566|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.95||||0|TWO_SIDED|95.0|0.87|1.04|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.04|0.87|0.000
82507567|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.87||||0.003|TWO_SIDED|95.0|0.8|0.95|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||0.95|0.80|0.003
82628870|NCT00565812|164972915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.186||||0.525|TWO_SIDED|95.0|0.701|2.009|||Regression, Logistic|||Odds ratio, 95 percent CI and P-values were obtained from a logistic regression model, with treatment group, (collapsed) KLG, geographic region, and gender as factors, age and body mass index as covariates.||2.009|0.701|0.525
82628871|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.63||0.668|TWO_SIDED|95.0|-1.5|0.96|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.96|-1.50|0.668
82628872|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.63||0.326|TWO_SIDED|95.0|-0.61|1.85|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.85|-0.61|0.326
82628873|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.66||0.679|TWO_SIDED|95.0|-1.56|1.01|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.01|-1.56|0.679
82628874|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|1.86|STANDARD_ERROR_OF_MEAN|0.66||0.005|TWO_SIDED|95.0|0.57|3.14|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.14|0.57|0.005
82628875|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.72||0.399|TWO_SIDED|95.0|-0.8|2.01|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.01|-0.80|0.399
82507568|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.97||||0.083|TWO_SIDED|95.0|0.8|1.17|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.17|0.80|0.083
82507569|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.06||||0.011|TWO_SIDED|95.0|0.02|1.05|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||1.05|0.02|0.011
82628876|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|2.52|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|1.12|3.92|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.92|1.12|<0.001
82507570|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.84||||0.227|TWO_SIDED|95.0|0.72|0.98|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||0.98|0.72|0.227
82507571|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.16||||0|TWO_SIDED|95.0|0.99|1.35|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.35|0.99|0.000
82507572|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.63||||0|TWO_SIDED|95.0|1.47|1.82|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.82|1.47|0.000
82507573|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.7||||0.202|TWO_SIDED|95.0|0.98|3.25|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||3.25|0.98|0.202
82507574|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.29||||0|TWO_SIDED|95.0|1.2|1.38|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.38|1.20|0.000
82507575|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.94||||0.003|TWO_SIDED|95.0|0.88|1.0|||Chi-squared|||Acenocoumarol vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||1.00|0.88|0.003
82507576|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.86||||0.083|TWO_SIDED|95.0|0.56|1.28|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.28|0.56|0.083
82628877|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.668|TWO_SIDED|95.0|-1.08|1.68|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.68|-1.08|0.668
82507577|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.49||||0.011|TWO_SIDED|95.0|0.13|8.58|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||8.58|0.13|0.011
82507578|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.04||||0.227|TWO_SIDED|95.0|0.75|1.42|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.42|0.75|0.227
82507579|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.12||||0|TWO_SIDED|95.0|0.81|1.55|||Chi-squared|||Acenocoumarol vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||1.55|0.81|0.000
82507580|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.5||||0|TWO_SIDED|95.0|1.28|1.76|||Chi-squared|||Warfarin vs. Apixaban in naive participants (18.5 - 25 kg per m\^2 Normal)||1.76|1.28|0.000
82507581|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.04||||0.202|TWO_SIDED|95.0|0.36|2.73|||Chi-squared|||Warfarin vs. Apixaban in naive participants (\<18.5 kg per m\^2 Underweight)||2.73|0.36|0.202
82507582|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.28||||0|TWO_SIDED|95.0|1.15|1.43|||Chi-squared|||Warfarin vs. Apixaban in naive participants (25 - 30 kg per m\^2 Overweight)||1.43|1.15|0.000
82507583|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.95||||0.003|TWO_SIDED|95.0|0.86|1.06|||Chi-squared|||Warfarin vs. Apixaban in naive participants (\>30 kg per m\^2 Obese)||1.06|0.86|0.003
82566758|NCT04748445|164843086|OTHER||Slope|-0.1572|STANDARD_ERROR_OF_MEAN|9.127||0.0875|TWO_SIDED|90.0|-0.3084|-0.005942|||Mixed Models Analysis|||EE\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.005942|-0.3084|0.0875
82507584|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.27||||0.083|TWO_SIDED|95.0|0.95|1.68|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (18.5 - 25 kg per m\^2 Normal)||1.68|0.95|0.083
82507585|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|1.37||||0.011|TWO_SIDED|95.0|0.18|6.21|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (\<18.5 kg per m\^2 Underweight)||6.21|0.18|0.011
82507586|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.92||||0.227|TWO_SIDED|95.0|0.72|1.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (25 - 30 kg per m\^2 Overweight)||1.17|0.72|0.227
82507587|NCT03441633|164706053|SUPERIORITY||Odds Ratio (OR)|0.67||||0|TWO_SIDED|95.0|0.5|0.87|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (\>30 kg per m\^2 Obese)||0.87|0.50|0.000
82507588|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.68||||0|TWO_SIDED|95.0|0.61|0.75|||Chi-squared|||Dabigatran vs. Apixaban in naive participants||0.75|0.61|0.000
82507589|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.85||||0.052|TWO_SIDED|95.0|0.63|1.15|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants||1.15|0.63|0.052
82507590|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.73||||0|TWO_SIDED|95.0|0.67|0.8|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants||0.80|0.67|0.000
82507591|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.79||||0.052|TWO_SIDED|95.0|0.61|1.03|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants||1.03|0.61|0.052
82507592|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|1.26||||0|TWO_SIDED|95.0|1.17|1.36|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants||1.36|1.17|0.000
82507593|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.74||||0.052|TWO_SIDED|95.0|0.45|1.27|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants||1.27|0.45|0.052
82507594|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.95|1.21|||Chi-squared|||Warfarin vs. Apixaban in naive participants||1.21|0.95|0.000
82507595|NCT03441633|164706054|SUPERIORITY||Odds Ratio (OR)|0.57||||0.052|TWO_SIDED|95.0|0.4|0.84|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants||0.84|0.40|0.052
82507596|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0|TWO_SIDED|95.0|-0.26|-0.17|||ANOVA|||Dabigatran vs. Apixaban in naive participants (HAS - BLED)||-0.17|-0.26|0.000
82507597|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.001|TWO_SIDED|95.0|-0.18|-0.01|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (HAS - BLED)||-0.01|-0.18|0.001
82507598|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0|TWO_SIDED|95.0|-0.23|-0.15|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (HAS - BLED)||-0.15|-0.23|0.000
82507599|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.001|TWO_SIDED|95.0|-0.19|-0.04|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (HAS - BLED)||-0.04|-0.19|0.001
82507600|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|0.5||||0|TWO_SIDED|95.0|0.47|0.53|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (HAS - BLED)||0.53|0.47|0.000
82507601|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.001|TWO_SIDED|95.0|-0.32|-0.02|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (HAS - BLED)||-0.02|-0.32|0.001
82507602|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|0.17||||0|TWO_SIDED|95.0|0.12|0.23|||ANOVA|||Warfarin vs. Apixaban in naive participants (HAS - BLED)||0.23|0.12|0.000
82507603|NCT03441633|164706055|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (HAS - BLED)||-0.10|-0.37|0.001
82507604|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0|TWO_SIDED|95.0|-0.24|-0.12|||ANOVA|||Dabigatran vs. Apixaban in naive participants (CHADS2)||-0.12|-0.24|0.000
82507605|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0|TWO_SIDED|95.0|-0.35|-0.12|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (CHADS2)||-0.12|-0.35|0.000
82507606|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0|TWO_SIDED|95.0|-0.28|-0.18|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (CHADS2)||-0.18|-0.28|0.000
82507607|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0|TWO_SIDED|95.0|-0.31|-0.11|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (CHADS2)||-0.11|-0.31|0.000
82507608|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|0.21||||0|TWO_SIDED|95.0|0.17|0.25|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (CHADS2)||0.25|0.17|0.000
82507609|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0|TWO_SIDED|95.0|-0.7|-0.3|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (CHADS2)||-0.30|-0.70|0.000
82507610|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|0.08||||0|TWO_SIDED|95.0|0.01|0.14|||ANOVA|||Warfarin vs. Apixaban in naive participants (CHADS2)||0.14|0.01|0.000
82507611|NCT03441633|164706056|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0|TWO_SIDED|95.0|-0.54|-0.2|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (CHADS2)||-0.20|-0.54|0.000
82507612|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0|TWO_SIDED|95.0|-0.42|-0.26|||ANOVA|||Dabigatran vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.26|-0.42|0.000
82507613|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0|TWO_SIDED|95.0|-0.46|-0.19|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.19|-0.46|0.000
82507614|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0|TWO_SIDED|95.0|-0.45|-0.32|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.32|-0.45|0.000
82507615|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0|TWO_SIDED|95.0|-0.39|-0.15|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.15|-0.39|0.000
82628878|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|1.76|STANDARD_ERROR_OF_MEAN|0.7||0.012|TWO_SIDED|95.0|0.39|3.13|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.13|0.39|0.012
82628879|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.75||0.109|TWO_SIDED|95.0|-0.27|2.67|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group x visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.67|-0.27|0.109
82628880|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|1.03|STANDARD_ERROR_OF_MEAN|0.74||0.163|TWO_SIDED|95.0|-0.42|2.48|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.48|-0.42|0.163
82628881|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.73||0.424|TWO_SIDED|95.0|-2.02|0.85|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.85|-2.02|0.424
82628882|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.72||0.635|TWO_SIDED|95.0|-1.07|1.76|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.76|-1.07|0.635
82628883|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.75||0.855|TWO_SIDED|95.0|-1.34|1.61|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.61|-1.34|0.855
82628884|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|1.84|STANDARD_ERROR_OF_MEAN|0.74||0.013|TWO_SIDED|95.0|0.38|3.3|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||3.30|0.38|0.013
82628885|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.81||0.292|TWO_SIDED|95.0|-2.44|0.73|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.73|-2.44|0.292
82628886|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.8||0.897|TWO_SIDED|95.0|-1.47|1.68|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.68|-1.47|0.897
82628887|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.84||0.39|TWO_SIDED|95.0|-2.36|0.92|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.92|-2.36|0.390
82507616|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|0.19||||0|TWO_SIDED|95.0|0.14|0.24|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (CHA2DS2Vasc)||0.24|0.14|0.000
82507617|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0|TWO_SIDED|95.0|-0.86|-0.37|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.37|-0.86|0.000
82507618|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0|TWO_SIDED|95.0|-0.18|-0.01|||ANOVA|||Warfarin vs. Apixaban in naive participants (CHA2DS2Vasc)||-0.01|-0.18|0.000
82507619|NCT03441633|164706057|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0|TWO_SIDED|95.0|-0.64|-0.21|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (CHA2DS2Vasc)||-0.21|-0.64|0.000
82507620|NCT03441633|164706058|SUPERIORITY||Odds Ratio (OR)|1.88||||0.008|TWO_SIDED|95.0|0.77|5.3|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants||5.30|0.77|0.008
82507621|NCT03441633|164706058|SUPERIORITY||Odds Ratio (OR)|0.62||||0.008|TWO_SIDED|95.0|0.33|1.12|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants||1.12|0.33|0.008
82507622|NCT03441633|164706058|SUPERIORITY||Odds Ratio (OR)|0.55||||0.008|TWO_SIDED|95.0|0.2|1.99|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants||1.99|0.20|0.008
82566759|NCT04748445|164843086|OTHER||Slope|1.248|STANDARD_ERROR_OF_MEAN|7.598||0.1029|TWO_SIDED|90.0|-1.072|2.507|||Mixed Models Analysis|||EE\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2 and for lower limit it was 10\^-3).||2.507|-1.072|0.1029
82566760|NCT04748445|164843086|OTHER||Slope|-1.054|STANDARD_ERROR_OF_MEAN|7.218||0.1468|TWO_SIDED|90.0|-2.25|1.423|||Mixed Models Analysis|||EE\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-1. For upper limit and dispersion value it was 10\^-2).||1.423|-2.250|0.1468
82566761|NCT04748445|164843086|OTHER||Slope|0.05944|STANDARD_ERROR_OF_MEAN|6.536||0.3649|TWO_SIDED|90.0|-0.04887|0.1678|||Mixed Models Analysis|||EE\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1678|-0.04887|0.3649
82566762|NCT04748445|164843086|OTHER||Slope|-0.03115|STANDARD_ERROR_OF_MEAN|6.007||0.605|TWO_SIDED|90.0|-0.1307|0.06839|||Mixed Models Analysis|||EE\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06839|-0.1307|0.6050
82566763|NCT04748445|164843086|OTHER||Slope|-0.01908|STANDARD_ERROR_OF_MEAN|5.932||0.7483|TWO_SIDED|90.0|-0.1174|0.07922|||Mixed Models Analysis|||EE\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.07922|-0.1174|0.7483
82566764|NCT04748445|164843086|OTHER||Slope|-6.574|STANDARD_ERROR_OF_MEAN|5.105||0.9897|TWO_SIDED|90.0|-8.526|8.394|||Mixed Models Analysis|||EE\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-4).||8.394|-8.526|0.9897
82507623|NCT03441633|164706058|SUPERIORITY||Odds Ratio (OR)|0.39||||0.008|TWO_SIDED|95.0|0.18|0.86|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants||0.86|0.18|0.008
82566765|NCT04748445|164843086|OTHER||Slope|5.026|STANDARD_ERROR_OF_MEAN|5.176||0.9228|TWO_SIDED|90.0|-8.074|9.08|||Mixed Models Analysis|||EE\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||9.080|-8.074|0.9228
82566766|NCT04748445|164843086|OTHER||Slope|0.08365|STANDARD_ERROR_OF_MEAN|2.873||0.0043|TWO_SIDED|90.0|0.03604|0.1313|||Mixed Models Analysis|||EE\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1313|0.03604|0.0043
82507624|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.41||||0|TWO_SIDED|95.0|1.14|1.75|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Poor adherence)||1.75|1.14|0.000
82507625|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.67||||0|TWO_SIDED|95.0|0.55|0.82|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Good adherence)||0.82|0.55|0.000
82507626|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.03|2.01|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Over adherence)||2.01|0.03|0.000
82507627|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.58||||0|TWO_SIDED|95.0|1.23|2.04|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Poor adherence)||2.04|1.23|0.000
82507628|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.44||||0|TWO_SIDED|95.0|0.34|0.57|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Good adherence)||0.57|0.34|0.000
82507629|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.43||||0|TWO_SIDED|95.0|0.02|3.73|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Over adherence)||3.73|0.02|0.000
82507630|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.66||||0|TWO_SIDED|95.0|0.52|0.84|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Poor adherence)||0.84|0.52|0.000
82507631|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.14||||0|TWO_SIDED|95.0|0.95|1.36|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Good adherence)||1.36|0.95|0.000
82507632|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.52||||0|TWO_SIDED|95.0|0.06|3.41|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Over adherence)||3.41|0.06|0.000
82507633|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.65||||0|TWO_SIDED|95.0|0.5|0.85|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Poor adherence)||0.85|0.50|0.000
82507634|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.11||||0|TWO_SIDED|95.0|0.9|1.37|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Good adherence)||1.37|0.90|0.000
82566767|NCT04748445|164843086|OTHER||Slope|0.02906|STANDARD_ERROR_OF_MEAN|1.181||0.0153|TWO_SIDED|90.0|0.009486|0.04863|||Mixed Models Analysis|||EE\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.04863|0.009486|0.0153
82507635|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.07||||0|TWO_SIDED|95.0|0.22|5.85|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Over adherence)||5.85|0.22|0.000
82507636|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|3.37||||0|TWO_SIDED|95.0|2.86|3.99|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Poor adherence)||3.99|2.86|0.000
82507637|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.11||||0|TWO_SIDED|95.0|0.09|0.13|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Good adherence)||0.13|0.09|0.000
82507638|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.34||||0|TWO_SIDED|95.0|0.11|1.52|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Over adherence)||1.52|0.11|0.000
82507639|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.23||||0|TWO_SIDED|95.0|0.78|1.91|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Poor adherence)||1.91|0.78|0.000
82507640|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.01||||0|TWO_SIDED|95.0|0.0|0.09|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Good adherence)||0.09|0.00|0.000
82507641|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|2.07||||0|TWO_SIDED|95.0|0.07|18.0|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Over adherence)||18.00|0.07|0.000
82566768|NCT04748445|164843086|OTHER||Slope|3.96|STANDARD_ERROR_OF_MEAN|1.447||0.0071|TWO_SIDED|90.0|1.563|6.357|||Mixed Models Analysis|||EE\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||6.357|1.563|0.0071
82566769|NCT04748445|164843086|OTHER||Slope|2.816|STANDARD_ERROR_OF_MEAN|1.026||0.007|TWO_SIDED|90.0|1.115|4.516|||Mixed Models Analysis|||EE\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||4.516|1.115|0.0070
82566770|NCT04748445|164843086|OTHER||Slope|0.007814|STANDARD_ERROR_OF_MEAN|1.034||0.4513|TWO_SIDED|90.0|-0.009323|0.02495|||Mixed Models Analysis|||EE\_MFCC std 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02495|-0.009323|0.4513
82507642|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.58||||0|TWO_SIDED|95.0|0.45|0.75|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Poor adherence)||0.75|0.45|0.000
82507643|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.51||||0|TWO_SIDED|95.0|0.41|0.63|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Good adherence)||0.63|0.41|0.000
82507644|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|29.4||||0|TWO_SIDED|95.0|11.01|123.8|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Over adherence)||123.80|11.01|0.000
82507645|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|1.31||||0|TWO_SIDED|95.0|0.91|1.86|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Poor adherence)||1.86|0.91|0.000
82507646|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.05|0.17|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Good adherence)||0.17|0.05|0.000
82507647|NCT03441633|164706059|SUPERIORITY||Odds Ratio (OR)|9.73||||0|TWO_SIDED|95.0|2.81|46.5|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Over adherence)||46.50|2.81|0.000
82566771|NCT04748445|164843086|OTHER||Slope|1.151|STANDARD_ERROR_OF_MEAN|8.443||0.1753|TWO_SIDED|90.0|-2.483|2.55|||Mixed Models Analysis|||EE\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-2. For lower limit and dispersion value it was 10\^-3).||2.550|-2.483|0.1753
82566772|NCT04748445|164843086|OTHER||Slope|2.528|STANDARD_ERROR_OF_MEAN|8.228||0.0026|TWO_SIDED|90.0|1.164|3.891|||Mixed Models Analysis|||EE\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion it was 10\^-3).||3.891|1.164|0.0026
82507648|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|1.08||||0|TWO_SIDED|95.0|0.92|1.27|||Chi-squared|||Dabigatran vs. Apixaban in naive participants (Discontinuation first year)||1.27|0.92|0.000
82507649|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|1.45||||0|TWO_SIDED|95.0|1.15|1.83|||Chi-squared|||Dabigatran vs. Apixaban in non-naive participants (Discontinuation first year)||1.83|1.15|0.000
82507650|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|1.09||||0|TWO_SIDED|95.0|0.93|1.27|||Chi-squared|||Rivaroxaban vs. Apixaban in naive participants (Discontinuation first year)||1.27|0.93|0.000
82507651|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|1.18||||0|TWO_SIDED|95.0|0.96|1.47|||Chi-squared|||Rivaroxaban vs. Apixaban in non-naive participants (Discontinuation first year)||1.47|0.96|0.000
82507652|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|0.89||||0|TWO_SIDED|95.0|0.79|1.01|||Chi-squared|||Acenocumarol vs. Apixaban in naive participants (Discontinuation first year)||1.01|0.79|0.000
82507653|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|4.82||||0|TWO_SIDED|95.0|3.14|7.55|||Chi-squared|||Acenocumarol vs. Apixaban in non-naive participants (Discontinuation first year)||7.55|3.14|0.000
82507654|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|1.41||||0|TWO_SIDED|95.0|1.19|1.67|||Chi-squared|||Warfarin vs. Apixaban in naive participants (Discontinuation first year)||1.67|1.19|0.000
82507655|NCT03441633|164706060|SUPERIORITY||Odds Ratio (OR)|2.92||||0|TWO_SIDED|95.0|2.12|4.05|||Chi-squared|||Warfarin vs. Apixaban in non-naive participants (Discontinuation first year)||4.05|2.12|0.000
82507656|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|3.63||||0|TWO_SIDED|95.0|3.02|4.24|||ANOVA|||Dabigatran vs. Apixaban in naive participants (NDDDs)||4.24|3.02|0.000
82507657|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|0.11||||0|TWO_SIDED|95.0|-0.77|0.98|||ANOVA|||Dabigatran vs. Apixaban in non-naive participants (NDDDs)||0.98|-0.77|0.000
82566773|NCT04748445|164843086|OTHER||Slope|0.01755|STANDARD_ERROR_OF_MEAN|7.204||0.0162|TWO_SIDED|90.0|0.005616|0.02949|||Mixed Models Analysis|||EE\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02949|0.005616|0.0162
82507658|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|1.51||||0|TWO_SIDED|95.0|0.84|2.17|||ANOVA|||Rivaroxaban vs. Apixaban in naive participants (NDDDs)||2.17|0.84|0.000
82507659|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|1.98||||0|TWO_SIDED|95.0|1.16|2.8|||ANOVA|||Rivaroxaban vs. Apixaban in non-naive participants (NDDDs)||2.80|1.16|0.000
82507660|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|0.9||||0|TWO_SIDED|95.0|0.41|1.39|||ANOVA|||Acenocumarol vs. Apixaban in naive participants (NDDDs)||1.39|0.41|0.000
82507661|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0|TWO_SIDED|95.0|-4.32|-0.18|||ANOVA|||Acenocumarol vs. Apixaban in non-naive participants (NDDDs)||-0.18|-4.32|0.000
82507662|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|28.52||||0|TWO_SIDED|95.0|27.56|29.48|||ANOVA|||Warfarin vs. Apixaban in naive participants (NDDDs)||29.48|27.56|0.000
82507663|NCT03441633|164706061|SUPERIORITY||Mean Difference (Final Values)|1.93||||0|TWO_SIDED|95.0|-1.05|4.9|||ANOVA|||Warfarin vs. Apixaban in non-naive participants (NDDDs)||4.90|-1.05|0.000
82628888|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.83||0.659|TWO_SIDED|95.0|-1.26|1.99|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.99|-1.26|0.659
82507664|NCT05876273|164706064|OTHER|The statistical analysis included general linear models (GLM), with repeated measures (NAP vs UMPC) and a covariate the 1-hour average CGM level prior to initiating either controller. This covariate was used to compute the adjusted performance differences between NAP and UMPC. The data was analyzed using the GLM procedures of IBM SPSS 28.0.||||||0.2||||||1-hour average CGM level prior to initiating either controller was included as a covariate in the analysis. This covariate was used to compute the adjusted performance differences between NAP and UMPC.|GLM with Repeated Measures|General linear models (GLM), with repeated measures (NAP vs UMPC)||||||0.2
82507665|NCT03975647|164706069|OTHER||Hazard Ratio (HR)|0.759||||0.0163|TWO_SIDED|95.0|0.607|0.95|||Log Rank||HR was calculated from Cox proportional hazards model. (line of treatment for metastatic: first versus \[vs\] other; hormone receptor status: negative vs positive; presence or history of brain metastases: yes vs no; ECOG status: 0,1 at randomization.|||0.950|0.607|0.0163
82507666|NCT03975647|164706071|OTHER||Hazard Ratio (HR)|0.639||||0.0078|TWO_SIDED|95.0|0.459|0.891|||Log Rank||HR was calculated from Cox proportional hazards model. (line of treatment for metastatic: first versus \[vs\] other; hormone receptor status: negative vs positive; presence or history of brain metastases: yes vs no; ECOG status: 0,1 at randomization.|||0.891|0.459|0.0078
82507667|NCT03975647|164706072|OTHER|||||||0.2055|||||||Cochran-Mantel-Haenszel|||||||0.2055
82507668|NCT02180412|164706148|OTHER||Slope|7.76||||0.0434|TWO_SIDED|95.0|2.14|13.37|||ANCOVA|||ALA Day 1 vs Day 2||13.37|2.14|.0434
82507669|NCT02180412|164706148|OTHER||Slope|16.29||||0.0003|TWO_SIDED|95.0|11.32|21.25|||ANCOVA|||ALA Day 1 vs Day 3||21.25|11.32|.0003
82507670|NCT02180412|164706148|OTHER||Slope|15.98||||0.0198|TWO_SIDED|95.0|6.7|25.26|||ANCOVA|||ALA Day 1 vs Day 4||25.26|6.7|.0198
82507671|NCT02180412|164706148|OTHER||Slope|10.69||||0.158|TWO_SIDED|95.0|-1.67|22.49|||ANCOVA|||PBG Day 1 vs Day 2||22.49|-1.67|.158
82507672|NCT02180412|164706148|OTHER||Slope|24.52||||0.0127|TWO_SIDED|95.0|11.3|37.74|||ANCOVA|||PGB Day 1 vs Day 3||37.74|11.3|.0127
82507673|NCT02180412|164706148|OTHER||Slope|28.45||||0.0328|TWO_SIDED|95.0|9.64|47.27|||ANCOVA|||PBG Day 1 vs Day 4||47.27|9.64|.0328
82507674|NCT02180412|164706148|OTHER||Slope|12.2||||0.9993|TWO_SIDED|95.0|-465.4|489.8|||ANCOVA|||Total Porphyrins Day 1 vs Day 2||489.8|-465.4|.9993
82507675|NCT02180412|164706148|OTHER||Slope|454.5||||0.2915|TWO_SIDED|95.0|-200.87|1109.86|||ANCOVA|||Total Porphyrins Day 1 vs Day 3||1109.86|-200.87|.2915
82507676|NCT02180412|164706148|OTHER||Slope|326.12||||0.4382|TWO_SIDED|95.0|-292.0|944.25|||ANCOVA|||Total Porphyrins Day 1 vs Day 4||944.25|-292|.4382
82507677|NCT04654117|164706157|SUPERIORITY|Multilevel model predicting the effect of the overall consultation model on manual adherence, averaged across clinicians.|unstandardized beta|0.33|STANDARD_ERROR_OF_MEAN|3.85|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
82507678|NCT04654117|164706158|SUPERIORITY||unstandardized beta|0.04|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
82507679|NCT04654117|164706159|OTHER|multilevel modeling|multilevel modeling|2.56|STANDARD_ERROR_OF_MEAN|0.74|<|0.05|TWO_SIDED||||||multilevel modeling|||||||<.05
82628889|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.8||0.847|TWO_SIDED|95.0|-1.73|1.42|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.42|-1.73|0.847
82628890|NCT00565812|164972919|SUPERIORITY_OR_OTHER||LS mean difference|0.77|STANDARD_ERROR_OF_MEAN|0.8||0.333|TWO_SIDED|95.0|-0.79|2.34|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.34|-0.79|0.333
82628891|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.42||0.238|TWO_SIDED|95.0|-1.31|0.32|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.32|-1.31|0.238
82628892|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.41||0.815|TWO_SIDED|95.0|-0.72|0.91|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.91|-0.72|0.815
82507680|NCT04654117|164706160|SUPERIORITY||ANOVA|17.0|||<|0.05|TWO_SIDED||||||ANOVA|||||||<.05
82507681|NCT04654117|164706161|OTHER|multilevel model|multilevel model|0.04|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
82507682|NCT04654117|164706162|OTHER|multilevel model|multilevel model (beta)|-0.27|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||multilevel model|||||||<.05
82566774|NCT04748445|164843086|OTHER||Slope|2.673|STANDARD_ERROR_OF_MEAN|5.892|<|0.0001|TWO_SIDED|90.0|1.697|3.65|||Mixed Models Analysis|||EE\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||3.650|1.697|<.0001
82566775|NCT04748445|164843086|OTHER||Slope|0.01394|STANDARD_ERROR_OF_MEAN|5.642||0.0148|TWO_SIDED|90.0|0.004595|0.02329|||Mixed Models Analysis|||EE\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02329|0.004595|0.0148
82566776|NCT04748445|164843086|OTHER||Slope|0.01547|STANDARD_ERROR_OF_MEAN|6.666||0.0219|TWO_SIDED|90.0|0.004425|0.02652|||Mixed Models Analysis|||EE\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02652|0.004425|0.0219
82566777|NCT04748445|164843086|OTHER||Slope|1.118|STANDARD_ERROR_OF_MEAN|6.122||0.0703|TWO_SIDED|90.0|1.032|2.132|||Mixed Models Analysis|||EE\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-2. For lower limit and dispersion value it was 10\^-3).||2.132|1.032|0.0703
82566778|NCT04748445|164843086|OTHER||Slope|0.0116|STANDARD_ERROR_OF_MEAN|5.226||0.0282|TWO_SIDED|90.0|0.00294|0.02026|||Mixed Models Analysis|||EE\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02026|0.002940|0.0282
82566779|NCT04748445|164843086|OTHER||Slope|0.04771|STANDARD_ERROR_OF_MEAN|3.351||0.157|TWO_SIDED|90.0|-0.007823|0.1032|||Mixed Models Analysis|||EE\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1032|-0.007823|0.1570
82566780|NCT04748445|164843086|OTHER||Slope|0.0008053|STANDARD_ERROR_OF_MEAN|9.807||0.4131|TWO_SIDED|90.0|-0.0008199|0.002431|||Mixed Models Analysis|||EE\_Shimmer Local dB (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002431|-0.0008199|0.4131
82507683|NCT01354496|164706163|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.03|||||TWO_SIDED|90.0|0.897|1.18|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.18|0.897|
82566781|NCT04748445|164843086|OTHER||Slope|-0.03945|STANDARD_ERROR_OF_MEAN|1.892||0.0391|TWO_SIDED|90.0|-0.0708|-0.008096|||Mixed Models Analysis|||EE\_Spectral Flatness (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.008096|-0.07080|0.0391
82566782|NCT04748445|164843086|OTHER||Slope|-0.07075|STANDARD_ERROR_OF_MEAN|8.409||0.4018|TWO_SIDED|90.0|-0.2101|0.0686|||Mixed Models Analysis|||EE\_Third Octave Band (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06860|-0.2101|0.4018
82566783|NCT04748445|164843086|OTHER||Slope|1.658|STANDARD_ERROR_OF_MEAN|3.607||0.6466|TWO_SIDED|90.0|-4.319|7.635|||Mixed Models Analysis|||EE\_VLHR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||7.635|-4.319|0.6466
82566784|NCT04748445|164843086|OTHER||Slope|1.172|STANDARD_ERROR_OF_MEAN|1.423||0.4118|TWO_SIDED|90.0|-1.186|3.53|||Mixed Models Analysis|||MM\_Cepstral Peak Prominence (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||3.530|-1.186|0.4118
82566785|NCT04748445|164843086|OTHER||Slope|-1.282|STANDARD_ERROR_OF_MEAN|1.965||0.9481|TWO_SIDED|90.0|-3.385|3.129|||Mixed Models Analysis|||MM\_Harmonicity (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||3.129|-3.385|0.9481
82566786|NCT04748445|164843086|OTHER||Slope|0.9159|STANDARD_ERROR_OF_MEAN|2.641||0.0007|TWO_SIDED|90.0|0.4783|1.354|||Mixed Models Analysis|||MM\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.354|0.4783|0.0007
82566787|NCT04748445|164843086|OTHER||Slope|-2.18|STANDARD_ERROR_OF_MEAN|1.894||0.2519|TWO_SIDED|90.0|-5.319|9.585|||Mixed Models Analysis|||MM\_MFCC mean 02 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-1. For upper limit it was 10\^-2).||9.585|-5.319|0.2519
82507684|NCT01354496|164706164|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.06|||||TWO_SIDED|90.0|0.922|1.22|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.22|0.922|
82507685|NCT01354496|164706165|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.02|||||TWO_SIDED|90.0|0.896|1.16|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.16|0.896|
82507686|NCT01354496|164706166|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.882|1.15|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.15|0.882|
82507687|NCT01354496|164706168|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.993|||||TWO_SIDED|90.0|0.951|1.04|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.04|0.951|
82507688|NCT01354496|164706168|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.943|||||TWO_SIDED|90.0|0.905|0.983|||||AUC0-∞ was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||0.983|0.905|
82507689|NCT01354496|164706169|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.98|||||TWO_SIDED|90.0|0.926|1.04|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||1.04|0.926|
82507690|NCT01354496|164706169|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|0.94|||||TWO_SIDED|90.0|0.891|0.993|||||Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factors for formulation, sequence, and period, and random factor for participant.|||0.993|0.891|
82507691|NCT04007523|164706185|OTHER|Fisher's Exact Test||||||0.653|||||||Fisher Exact|||||||0.653
82507692|NCT04007523|164706185|OTHER|Fisher's Exact Test||||||0.614|||||||Fisher Exact|||||||0.614
82507693|NCT04007523|164706185|OTHER|Fisher's Exact Test||||||0.999|||||||Fisher Exact|||||||0.999
82507694|NCT02136576|164706207|SUPERIORITY|||||||0.72||||||"This p-value is for the Air Schiff comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||0.72
82507695|NCT02136576|164706207|SUPERIORITY|||||||0.93||||||"This p-value is for the Air VAS comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.93
82507696|NCT02136576|164706207|SUPERIORITY|||||||0.77||||||"This p-value is for the WaterSchiff comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.77
82507697|NCT02136576|164706207|SUPERIORITY|||||||0.93||||||"This p-value is for the WaterVAS comparison.~The threshold of significance was 0.05 and no multiple comparisons were necessary."|Kruskal-Wallis|||Assuming the control group may exhibit a modest improvement in dentinal hypersensitivity (\~5%) whereas the two test groups should demonstrate a more significant improvement (\~30%). Assuming a common standard deviation of 25%, we will have 58% power to detect a difference between the 3 groups using one way analysis of variance, with 10 subjects per group, and setting alpha to 0.05 (nQuery Advisor, Version 7.0). Up to 13 subjects per group will be recruited, to allow for a 20% dropout rate.||||.93
82507698|NCT00537381|164706210|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.728||||0.014|TWO_SIDED|95.0|1.112|2.686|||Log Rank||Hazard ratio and 95% confidence interval was estimated from a Cox proportional hazards model with treatment as the only explanatory factor.|||2.686|1.112|0.014
82507699|NCT00537381|164706211|SUPERIORITY_OR_OTHER|||||||0.795|||||||Fisher Exact|||||||0.795
82507700|NCT00537381|164706212|SUPERIORITY_OR_OTHER|||||||0.018|||||||Fisher Exact|||||||0.018
82507701|NCT00537381|164706213|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.476||||0.163|TWO_SIDED|95.0|0.853|2.522|||Log Rank||Hazard ratio and 95% confidence interval was estimated from a Cox proportional hazards model with treatment as the only explanatory factor.|||2.522|0.853|0.163
82507702|NCT05544786|164706217|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|113.13|||||TWO_SIDED|90.0|102.77|124.53|||||The ratios (and 90% confidence Intervals \[CIs\]) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||124.53|102.77|
82507703|NCT05544786|164706217|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|121.91|||||TWO_SIDED|90.0|110.75|134.2|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||134.20|110.75|
82507704|NCT05544786|164706217|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|125.49|||||TWO_SIDED|90.0|114.43|137.61|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||137.61|114.43|
82566788|NCT04748445|164843086|OTHER||Slope|1.821|STANDARD_ERROR_OF_MEAN|1.028||0.0791|TWO_SIDED|90.0|1.166|3.524|||Mixed Models Analysis|||MM\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-1. For lower limit it was 10\^-2).||3.524|1.166|0.0791
82628893|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.42||0.508|TWO_SIDED|95.0|-0.54|1.1|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.10|-0.54|0.508
82628894|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.42||0.004|TWO_SIDED|95.0|0.38|2.02|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.02|0.38|0.004
82628895|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.45||0.683|TWO_SIDED|95.0|-1.07|0.7|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.70|-1.07|0.683
82628896|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.45||0.007|TWO_SIDED|95.0|0.33|2.09|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.09|0.33|0.007
82628897|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.45||0.687|TWO_SIDED|95.0|-0.71|1.07|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.07|-0.71|0.687
82628898|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.89|STANDARD_ERROR_OF_MEAN|0.45||0.05|TWO_SIDED|95.0|0.0|1.78|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.78|-0.00|0.050
82628899|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.48||0.215|TWO_SIDED|95.0|-0.35|1.54|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.54|-0.35|0.215
82628900|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.96|STANDARD_ERROR_OF_MEAN|0.47||0.042|TWO_SIDED|95.0|0.03|1.89|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.89|0.03|0.042
82628901|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.5||0.401|TWO_SIDED|95.0|-1.41|0.56|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.56|-1.41|0.401
82628902|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.5||0.98|TWO_SIDED|95.0|-0.96|0.99|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.99|-0.96|0.980
82628903|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.51||0.632|TWO_SIDED|95.0|-1.25|0.76|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.76|-1.25|0.632
82628904|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|1.08|STANDARD_ERROR_OF_MEAN|0.51||0.032|TWO_SIDED|95.0|0.09|2.07|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.07|0.09|0.032
82628905|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.54||0.668|TWO_SIDED|95.0|-1.29|0.83|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.83|-1.29|0.668
82628906|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|0.54||0.038|TWO_SIDED|95.0|0.06|2.16|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||2.16|0.06|0.038
82507705|NCT05544786|164706217|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|121.09|||||TWO_SIDED|90.0|110.42|132.79|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||132.79|110.42|
82566789|NCT04748445|164843086|OTHER||Slope|-0.2064|STANDARD_ERROR_OF_MEAN|8.474||0.0163|TWO_SIDED|90.0|-0.3468|-0.06599|||Mixed Models Analysis|||MM\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.06599|-0.3468|0.0163
82628907|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.53||0.868|TWO_SIDED|95.0|-1.13|0.95|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.95|-1.13|0.868
82628908|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.59|STANDARD_ERROR_OF_MEAN|0.52||0.257|TWO_SIDED|95.0|-0.43|1.62|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.62|-0.43|0.257
82628909|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.55||0.895|TWO_SIDED|95.0|-1.0|1.15|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.15|-1.00|0.895
82628910|NCT00565812|164972920|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.54||0.268|TWO_SIDED|95.0|-0.46|1.67|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.67|-0.46|0.268
82628911|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.44||0.908|TWO_SIDED|95.0|-0.92|0.82|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.82|-0.92|0.908
82628912|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.44||0.008|TWO_SIDED|95.0|-2.05|-0.31|||Mixed Models Analysis|||Week 2; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.31|-2.05|0.008
82628913|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.46||0.44|TWO_SIDED|95.0|-1.25|0.54|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.54|-1.25|0.440
82628914|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.46||0.14|TWO_SIDED|95.0|-1.57|0.22|||Mixed Models Analysis|||Week 4; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.22|-1.57|0.140
82628915|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.46||0.474|TWO_SIDED|95.0|-0.58|1.24|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.24|-0.58|0.474
82628916|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.46||0.376|TWO_SIDED|95.0|-1.32|0.5|||Mixed Models Analysis|||Week 12; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.50|-1.32|0.376
82628917|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|0.66|STANDARD_ERROR_OF_MEAN|0.5||0.186|TWO_SIDED|95.0|-0.32|1.64|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||1.64|-0.32|0.186
82566790|NCT04748445|164843086|OTHER||Slope|-1.265|STANDARD_ERROR_OF_MEAN|9.67||0.1932|TWO_SIDED|90.0|-2.867|3.375|||Mixed Models Analysis|||MM\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and dispersion value it was 10\^-2. For lower limit and estimated value it was 10\^-1).||3.375|-2.867|0.1932
82566791|NCT04748445|164843086|OTHER||Slope|0.02851|STANDARD_ERROR_OF_MEAN|9.96||0.7752|TWO_SIDED|90.0|-0.1365|0.1936|||Mixed Models Analysis|||MM\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1936|-0.1365|0.7752
82566792|NCT04748445|164843086|OTHER||Slope|1.209|STANDARD_ERROR_OF_MEAN|7.569||0.1126|TWO_SIDED|90.0|-4.48|2.464|||Mixed Models Analysis|||MM\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-1. For lower limit it was 10\^-3. For dispersion value it was 10\^-2).||2.464|-4.480|0.1126
82566793|NCT04748445|164843086|OTHER||Slope|-0.2215|STANDARD_ERROR_OF_MEAN|8.498||0.0102|TWO_SIDED|90.0|-0.3624|-0.08072|||Mixed Models Analysis|||MM\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.08072|-0.3624|0.0102
82566794|NCT04748445|164843086|OTHER||Slope|0.0556|STANDARD_ERROR_OF_MEAN|7.072||0.4332|TWO_SIDED|90.0|-0.06159|0.1728|||Mixed Models Analysis|||MM\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1728|-0.06159|0.4332
82566795|NCT04748445|164843086|OTHER||Slope|0.01214|STANDARD_ERROR_OF_MEAN|6.19||0.8448|TWO_SIDED|90.0|-0.09044|0.1147|||Mixed Models Analysis|||MM\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1147|-0.09044|0.8448
82566796|NCT04748445|164843086|OTHER||Slope|-0.1106|STANDARD_ERROR_OF_MEAN|4.852||0.0244|TWO_SIDED|90.0|-0.191|-0.03016|||Mixed Models Analysis|||MM\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.03016|-0.1910|0.0244
82566797|NCT04748445|164843086|OTHER||Slope|-0.04884|STANDARD_ERROR_OF_MEAN|4.827||0.3136|TWO_SIDED|90.0|-0.1288|0.03115|||Mixed Models Analysis|||MM\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03115|-0.1288|0.3136
82566798|NCT04748445|164843086|OTHER||Slope|0.036|STANDARD_ERROR_OF_MEAN|5.634||0.524|TWO_SIDED|90.0|-0.05736|0.1294|||Mixed Models Analysis|||MM\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1294|-0.05736|0.5240
82566799|NCT04748445|164843086|OTHER||Slope|2.909|STANDARD_ERROR_OF_MEAN|3.096||0.3493|TWO_SIDED|90.0|-2.222|8.039|||Mixed Models Analysis|||MM\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||8.039|-2.222|0.3493
82566800|NCT04748445|164843086|OTHER||Slope|1.72|STANDARD_ERROR_OF_MEAN|2.595||0.5087|TWO_SIDED|90.0|-2.58|6.019|||Mixed Models Analysis|||MM\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||6.019|-2.580|0.5087
82566801|NCT04748445|164843086|OTHER||Slope|0.004403|STANDARD_ERROR_OF_MEAN|1.503||0.7701|TWO_SIDED|90.0|-0.02051|0.02931|||Mixed Models Analysis|||MM\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02931|-0.02051|0.7701
82566802|NCT04748445|164843086|OTHER||Slope|0.007542|STANDARD_ERROR_OF_MEAN|1.639||0.6461|TWO_SIDED|90.0|-0.01961|0.0347|||Mixed Models Analysis|||MM\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.03470|-0.01961|0.6461
82566803|NCT04748445|164843086|OTHER||Slope|2.386|STANDARD_ERROR_OF_MEAN|8.233||0.0044|TWO_SIDED|90.0|1.022|3.75|||Mixed Models Analysis|||MM\_MFCC std 05 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||3.750|1.022|0.0044
82566804|NCT04748445|164843086|OTHER||Slope|1.593|STANDARD_ERROR_OF_MEAN|1.243||0.2022|TWO_SIDED|90.0|-4.663|3.652|||Mixed Models Analysis|||MM\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.652|-4.663|0.2022
82566805|NCT04748445|164843086|OTHER||Slope|0.002902|STANDARD_ERROR_OF_MEAN|1.082||0.789|TWO_SIDED|90.0|-0.01503|0.02084|||Mixed Models Analysis|||MM\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02084|-0.01503|0.7890
82566806|NCT04748445|164843086|OTHER||Slope|1.615|STANDARD_ERROR_OF_MEAN|1.118||0.151|TWO_SIDED|90.0|-2.371|3.467|||Mixed Models Analysis|||MM\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.467|-2.371|0.1510
82566807|NCT04748445|164843086|OTHER||Slope|1.116|STANDARD_ERROR_OF_MEAN|1.104||0.3138|TWO_SIDED|90.0|-7.126|2.945|||Mixed Models Analysis|||MM\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||2.945|-7.126|0.3138
82566808|NCT04748445|164843086|OTHER||Slope|-0.002168|STANDARD_ERROR_OF_MEAN|9.632||0.8223|TWO_SIDED|90.0|-0.01813|0.01379|||Mixed Models Analysis|||MM\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01379|-0.01813|0.8223
82566809|NCT04748445|164843086|OTHER||Slope|1.394|STANDARD_ERROR_OF_MEAN|1.081||0.1997|TWO_SIDED|90.0|-3.978|3.185|||Mixed Models Analysis|||MM\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-2. For lower limit it was 10\^-3).||3.185|-3.978|0.1997
82566810|NCT04748445|164843086|OTHER||Slope|0.01375|STANDARD_ERROR_OF_MEAN|6.622||0.0398|TWO_SIDED|90.0|0.00278|0.02473|||Mixed Models Analysis|||MM\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.02473|0.002780|0.0398
82566811|NCT04748445|164843086|OTHER||Slope|-0.002892|STANDARD_ERROR_OF_MEAN|1.205||0.8107|TWO_SIDED|90.0|-0.02286|0.01707|||Mixed Models Analysis|||MM\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.01707|-0.02286|0.8107
82566812|NCT04748445|164843086|OTHER||Slope|-3.105|STANDARD_ERROR_OF_MEAN|3.256||0.9242|TWO_SIDED|90.0|-5.706|5.085|||Mixed Models Analysis|||MM\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||5.085|-5.706|0.9242
82566813|NCT04748445|164843086|OTHER||Slope|0.0006145|STANDARD_ERROR_OF_MEAN|9.704||0.5277|TWO_SIDED|90.0|-0.0009936|0.002223|||Mixed Models Analysis|||MM\_Shimmer Local dB (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002223|-0.0009936|0.5277
82566814|NCT04748445|164843086|OTHER||Slope|-2.911|STANDARD_ERROR_OF_MEAN|1.969||0.1418|TWO_SIDED|90.0|-6.174|3.522|||Mixed Models Analysis|||MM\_Spectral Flatness (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-2. For upper limit it was 10\^-3).||3.522|-6.174|0.1418
82566815|NCT04748445|164843086|OTHER||Slope|-0.1487|STANDARD_ERROR_OF_MEAN|8.77||0.0924|TWO_SIDED|90.0|-0.294|-0.003375|||Mixed Models Analysis|||MM\_Third Octave Band (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.003375|-0.2940|0.0924
82566816|NCT04748445|164843086|OTHER||Slope|3.089|STANDARD_ERROR_OF_MEAN|3.396||0.9277|TWO_SIDED|90.0|-5.318|5.936|||Mixed Models Analysis|||MM\_VLHR (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-2. For estimated value it was 10\^-3).||5.936|-5.318|0.9277
82566817|NCT04748445|164843086|OTHER||Slope|0.8362|STANDARD_ERROR_OF_MEAN|2.077|<|0.0001|TWO_SIDED|90.0|0.492|1.18|||Mixed Models Analysis|||READ\_MFCC mean 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||1.180|0.4920|<.0001
82566818|NCT04748445|164843086|OTHER||Slope|0.03559|STANDARD_ERROR_OF_MEAN|1.147||0.7568|TWO_SIDED|90.0|-0.1545|0.2256|||Mixed Models Analysis|||READ\_MFCC mean 02 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||0.2256|-0.1545|0.7568
82566819|NCT04748445|164843086|OTHER||Slope|0.2043|STANDARD_ERROR_OF_MEAN|7.752||0.0095|TWO_SIDED|90.0|0.07585|0.3328|||Mixed Models Analysis|||READ\_MFCC mean 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.3328|0.07585|0.0095
82566820|NCT04748445|164843086|OTHER||Slope|-0.0828|STANDARD_ERROR_OF_MEAN|6.413||0.1991|TWO_SIDED|90.0|-0.1891|0.02348|||Mixed Models Analysis|||READ\_MFCC mean 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02348|-0.1891|0.1991
82566821|NCT04748445|164843086|OTHER||Slope|-0.02415|STANDARD_ERROR_OF_MEAN|5.26||0.6469|TWO_SIDED|90.0|-0.1113|0.06301|||Mixed Models Analysis|||READ\_MFCC mean 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06301|-0.1113|0.6469
82566822|NCT04748445|164843086|OTHER||Slope|-0.1209|STANDARD_ERROR_OF_MEAN|4.904||0.015|TWO_SIDED|90.0|-0.2022|-0.03967|||Mixed Models Analysis|||READ\_MFCC mean 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.03967|-0.2022|0.0150
82566823|NCT04748445|164843086|OTHER||Slope|0.02617|STANDARD_ERROR_OF_MEAN|4.639||0.5736|TWO_SIDED|90.0|-0.0507|0.103|||Mixed Models Analysis|||READ\_MFCC mean 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.1030|-0.05070|0.5736
82566824|NCT04748445|164843086|OTHER||Slope|-0.07305|STANDARD_ERROR_OF_MEAN|4.267||0.0894|TWO_SIDED|90.0|-0.1438|-0.002335|||Mixed Models Analysis|||READ\_MFCC mean 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.002335|-0.1438|0.0894
82566825|NCT04748445|164843086|OTHER||Slope|-2.369|STANDARD_ERROR_OF_MEAN|4.428||0.5936|TWO_SIDED|90.0|-9.706|4.968|||Mixed Models Analysis|||READ\_MFCC mean 09 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||4.968|-9.706|0.5936
82566826|NCT04748445|164843086|OTHER||Slope|-0.07377|STANDARD_ERROR_OF_MEAN|3.339||0.029|TWO_SIDED|90.0|-0.1291|-0.01844|||Mixed Models Analysis|||READ\_MFCC mean 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.01844|-0.1291|0.0290
82628918|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.5||0.185|TWO_SIDED|95.0|-1.63|0.32|||Mixed Models Analysis|||Week 24; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.32|-1.63|0.185
82628919|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.52||0.334|TWO_SIDED|95.0|-1.53|0.52|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.52|-1.53|0.334
82566827|NCT04748445|164843086|OTHER||Slope|0.008703|STANDARD_ERROR_OF_MEAN|3.665||0.8127|TWO_SIDED|90.0|-0.05203|0.06944|||Mixed Models Analysis|||READ\_MFCC mean 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.06944|-0.05203|0.8127
82566828|NCT04748445|164843086|OTHER||Slope|-0.07414|STANDARD_ERROR_OF_MEAN|3.294||0.0262|TWO_SIDED|90.0|-0.1287|-0.01955|||Mixed Models Analysis|||READ\_MFCC mean 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.01955|-0.1287|0.0262
82566829|NCT04748445|164843086|OTHER||Slope|2.929|STANDARD_ERROR_OF_MEAN|2.705||0.2809|TWO_SIDED|90.0|-1.553|7.412|||Mixed Models Analysis|||READ\_MFCC mean 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||7.412|-1.553|0.2809
82566830|NCT04748445|164843086|OTHER||Slope|-2.717|STANDARD_ERROR_OF_MEAN|6.612|<|0.0001|TWO_SIDED|90.0|-3.812|-1.621|||Mixed Models Analysis|||READ\_MFCC std 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-1. For dispersion value it was 10\^-2).||-1.621|-3.812|<.0001
82566831|NCT04748445|164843086|OTHER||Slope|-0.05798|STANDARD_ERROR_OF_MEAN|2.961||0.0524|TWO_SIDED|90.0|-0.107|-0.008915|||Mixed Models Analysis|||READ\_MFCC std 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.008915|-0.1070|0.0524
82566832|NCT04748445|164843086|OTHER||Slope|-1.008|STANDARD_ERROR_OF_MEAN|1.778||0.5716|TWO_SIDED|90.0|-3.955|1.938|||Mixed Models Analysis|||READ\_MFCC std 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-2).||1.938|-3.955|0.5716
82566833|NCT04748445|164843086|OTHER||Slope|-0.0223|STANDARD_ERROR_OF_MEAN|1.193||0.064|TWO_SIDED|90.0|-0.04208|-0.002526|||Mixed Models Analysis|||READ\_MFCC std 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||-0.002526|-0.04208|0.0640
82566834|NCT04748445|164843086|OTHER||Slope|-1.336|STANDARD_ERROR_OF_MEAN|1.176||0.2584|TWO_SIDED|90.0|-3.285|6.138|||Mixed Models Analysis|||READ\_MFCC std 05 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-2. For upper limit it was 10\^-3).||6.138|-3.285|0.2584
82507706|NCT05544786|164706218|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|113.62|||||TWO_SIDED|90.0|102.96|125.4|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||125.40|102.96|
82507707|NCT05544786|164706218|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|122.53|||||TWO_SIDED|90.0|111.02|135.22|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||135.22|111.02|
82507708|NCT05544786|164706218|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|126.55|||||TWO_SIDED|90.0|115.0|139.27|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||139.27|115.00|
82566835|NCT04748445|164843086|OTHER||Slope|-0.006497|STANDARD_ERROR_OF_MEAN|1.413||0.6465|TWO_SIDED|90.0|-0.02992|0.01692|||Mixed Models Analysis|||READ\_MFCC std 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.01692|-0.02992|0.6465
82566836|NCT04748445|164843086|OTHER||Slope|-1.213|STANDARD_ERROR_OF_MEAN|7.7||0.1177|TWO_SIDED|90.0|-2.489|6.297|||Mixed Models Analysis|||READ\_MFCC std 07 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-2. For dispersion value it was 10\^-3 and for upper limit it was 10\^-4).||6.297|-2.489|0.1177
82566837|NCT04748445|164843086|OTHER||Slope|-0.007959|STANDARD_ERROR_OF_MEAN|9.743||0.4155|TWO_SIDED|90.0|-0.02411|0.008187|||Mixed Models Analysis|||READ\_MFCC std 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.008187|-0.02411|0.4155
82566838|NCT04748445|164843086|OTHER||Slope|-0.004137|STANDARD_ERROR_OF_MEAN|8.017||0.6067|TWO_SIDED|90.0|-0.01742|0.009148|||Mixed Models Analysis|||READ\_MFCC std 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.009148|-0.01742|0.6067
82566839|NCT04748445|164843086|OTHER||Slope|0.000376|STANDARD_ERROR_OF_MEAN|7.531||0.9603|TWO_SIDED|90.0|-0.0121|0.01286|||Mixed Models Analysis|||READ\_MFCC std 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01286|-0.01210|0.9603
82566840|NCT04748445|164843086|OTHER||Slope|-0.002185|STANDARD_ERROR_OF_MEAN|5.703||0.7022|TWO_SIDED|90.0|-0.01164|0.007265|||Mixed Models Analysis|||READ\_MFCC std 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.007265|-0.01164|0.7022
82566841|NCT04748445|164843086|OTHER||Slope|0.007716|STANDARD_ERROR_OF_MEAN|5.746||0.1818|TWO_SIDED|90.0|-0.001806|0.01724|||Mixed Models Analysis|||READ\_MFCC std 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.01724|-0.001806|0.1818
82566842|NCT04748445|164843086|OTHER||Slope|-0.004019|STANDARD_ERROR_OF_MEAN|6.419||0.5324|TWO_SIDED|90.0|-0.01466|0.006618|||Mixed Models Analysis|||READ\_MFCC std 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.006618|-0.01466|0.5324
82507709|NCT05544786|164706218|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|122.28|||||TWO_SIDED|90.0|111.11|134.57|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||134.57|111.11|
82507710|NCT05544786|164706219|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|110.28|||||TWO_SIDED|90.0|99.01|122.82|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||122.82|99.01|
82507711|NCT05544786|164706219|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|140.97|||||TWO_SIDED|90.0|126.57|157.01|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||157.01|126.57|
82507712|NCT05544786|164706219|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|149.83|||||TWO_SIDED|90.0|132.86|168.96|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||168.96|132.86|
82507713|NCT05544786|164706219|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|147.05|||||TWO_SIDED|90.0|130.4|165.83|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||165.83|130.40|
82566843|NCT04748445|164843086|OTHER||Slope|0.005103|STANDARD_ERROR_OF_MEAN|2.737||0.8524|TWO_SIDED|90.0|-0.04025|0.05046|||Mixed Models Analysis|||READ\_SNR (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.05046|-0.04025|0.8524
82566844|NCT04748445|164843087|OTHER||Slope|2.975|STANDARD_ERROR_OF_MEAN|3.383||0.3809|TWO_SIDED|90.0|-2.631|8.58|||Mixed Models Analysis|||EE\_Coefficient of Variation F0 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4.||8.580|-2.631|0.3809
82566845|NCT04748445|164843087|OTHER||Slope|-0.005601|STANDARD_ERROR_OF_MEAN|2.751||0.0438|TWO_SIDED|90.0|-0.01016|-0.001043|||Mixed Models Analysis|||EE\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3.||-0.001043|-0.01016|0.0438
82566846|NCT04748445|164843087|OTHER||Slope|4.12|STANDARD_ERROR_OF_MEAN|1.464||0.0057|TWO_SIDED|90.0|1.694|6.546|||Mixed Models Analysis|||EE\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3.||6.546|1.694|0.0057
82566847|NCT04748445|164843087|OTHER||Slope|-3.067|STANDARD_ERROR_OF_MEAN|1.053||0.0042|TWO_SIDED|90.0|-4.811|-1.323|||Mixed Models Analysis|||EE\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3.||-1.323|-4.811|0.0042
82628920|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.52||0.055|TWO_SIDED|95.0|-2.0|0.02|||Mixed Models Analysis|||Week 36; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.02|-2.00|0.055
82566848|NCT04748445|164843087|OTHER||Slope|2.78|STANDARD_ERROR_OF_MEAN|9.751||0.0051|TWO_SIDED|90.0|1.164|4.396|||Mixed Models Analysis|||EE\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and estimated value it was 10\^-3. For dispersion value it was 10\^-4).||4.396|1.164|0.0051
82566849|NCT04748445|164843087|OTHER||Slope|-1.324|STANDARD_ERROR_OF_MEAN|8.289||0.1128|TWO_SIDED|90.0|-2.698|4.973|||Mixed Models Analysis|||EE\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit and estimated value it was 10\^-3. For upper limit it was 10\^-5 and for dispersion value it was 10\^-4).||4.973|-2.698|0.1128
82507714|NCT05544786|164706220|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|96.76|||||TWO_SIDED|90.0|87.31|107.23|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||107.23|87.31|
82507715|NCT05544786|164706220|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|86.86|||||TWO_SIDED|90.0|78.38|96.26|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||96.26|78.38|
82507716|NCT05544786|164706220|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|99.29|||||TWO_SIDED|90.0|87.39|112.8|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||112.80|87.39|
82507717|NCT05544786|164706220|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|79.29|||||TWO_SIDED|90.0|70.07|89.73|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||89.73|70.07|
82507718|NCT05544786|164706221|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|95.92|||||TWO_SIDED|90.0|86.45|106.44|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||106.44|86.45|
82566850|NCT04748445|164843087|OTHER||Slope|-0.0002606|STANDARD_ERROR_OF_MEAN|9.707||0.7888|TWO_SIDED|90.0|-0.001869|0.001348|||Mixed Models Analysis|||EE\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001348|-0.001869|0.7888
82566851|NCT04748445|164843087|OTHER||Slope|-0.0005071|STANDARD_ERROR_OF_MEAN|7.593||0.5055|TWO_SIDED|90.0|-0.001765|0.0007512|||Mixed Models Analysis|||EE\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007512|-0.001765|0.5055
82628921|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.54||0.539|TWO_SIDED|95.0|-1.38|0.72|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.72|-1.38|0.539
82566852|NCT04748445|164843087|OTHER||Slope|0.0003067|STANDARD_ERROR_OF_MEAN|6.273||0.6257|TWO_SIDED|90.0|-0.0007328|0.001346|||Mixed Models Analysis|||EE\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001346|-0.0007328|0.6257
82566853|NCT04748445|164843087|OTHER||Slope|-0.001649|STANDARD_ERROR_OF_MEAN|7.998||0.0413|TWO_SIDED|90.0|-0.002974|-0.0003238|||Mixed Models Analysis|||EE\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0003238|-0.002974|0.0413
82566854|NCT04748445|164843087|OTHER||Slope|0.0008236|STANDARD_ERROR_OF_MEAN|7.053||0.2451|TWO_SIDED|90.0|-0.0003452|0.001992|||Mixed Models Analysis|||EE\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001992|-0.0003452|0.2451
82566855|NCT04748445|164843087|OTHER||Slope|-0.000292|STANDARD_ERROR_OF_MEAN|6.839||0.6702|TWO_SIDED|90.0|-0.001425|0.0008413|||Mixed Models Analysis|||EE\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0008413|-0.001425|0.6702
82566856|NCT04748445|164843087|OTHER||Slope|-0.0003363|STANDARD_ERROR_OF_MEAN|6.312||0.5951|TWO_SIDED|90.0|-0.001382|0.0007097|||Mixed Models Analysis|||EE\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007097|-0.001382|0.5951
82628922|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.53||0.018|TWO_SIDED|95.0|-2.3|-0.22|||Mixed Models Analysis|||Week 48; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.22|-2.30|0.018
82628923|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.53||0.365|TWO_SIDED|95.0|-1.52|0.56|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.56|-1.52|0.365
82566857|NCT04748445|164843087|OTHER||Slope|0.0007281|STANDARD_ERROR_OF_MEAN|5.677||0.202|TWO_SIDED|90.0|-0.0002126|0.001669|||Mixed Models Analysis|||EE\_MFCC 1st order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001669|-0.0002126|0.2020
82566858|NCT04748445|164843087|OTHER||Slope|0.0005153|STANDARD_ERROR_OF_MEAN|1.523||0.7356|TWO_SIDED|90.0|-0.002008|0.003038|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003038|-0.002008|0.7356
82566859|NCT04748445|164843087|OTHER||Slope|-0.00133|STANDARD_ERROR_OF_MEAN|6.782||0.0522|TWO_SIDED|90.0|-0.002453|-0.0002057|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002057|-0.002453|0.0522
82566860|NCT04748445|164843087|OTHER||Slope|-0.000156|STANDARD_ERROR_OF_MEAN|6.763||0.818|TWO_SIDED|90.0|-0.001277|0.0009647|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0009647|-0.001277|0.8180
82566861|NCT04748445|164843087|OTHER||Slope|-0.0000971|STANDARD_ERROR_OF_MEAN|6.18||0.8754|TWO_SIDED|90.0|-0.001121|0.000927|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4.||0.0009270|-0.001121|0.8754
82566862|NCT04748445|164843087|OTHER||Slope|0.000452|STANDARD_ERROR_OF_MEAN|5.576||0.4192|TWO_SIDED|90.0|-0.0004721|0.001376|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001376|-0.0004721|0.4192
82566863|NCT04748445|164843087|OTHER||Slope|-0.0001528|STANDARD_ERROR_OF_MEAN|5.586||0.7849|TWO_SIDED|90.0|-0.001079|0.0007729|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007729|-0.001079|0.7849
82507719|NCT05544786|164706221|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|86.5|||||TWO_SIDED|90.0|77.96|95.98|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||95.98|77.96|
82628924|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.52||0.403|TWO_SIDED|95.0|-1.47|0.59|||Mixed Models Analysis|||Week 60; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.59|-1.47|0.403
82628925|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.57||0.02|TWO_SIDED|95.0|-2.43|-0.21|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.21|-2.43|0.020
82628926|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-2.98|-0.77|||Mixed Models Analysis|||Week 72; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.77|-2.98|<0.001
82628927|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.269|TWO_SIDED|95.0|-1.66|0.46|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.46|-1.66|0.269
82507720|NCT05544786|164706221|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|88.29|||||TWO_SIDED|90.0|72.97|106.83|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||106.83|72.97|
82507721|NCT05544786|164706221|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|77.49|||||TWO_SIDED|90.0|64.04|93.76|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||93.76|64.04|
82507722|NCT05544786|164706222|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with water (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|101.92|||||TWO_SIDED|90.0|87.71|118.44|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water (fasted)||118.44|87.71|
82507723|NCT05544786|164706222|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect for comparison: powder mixed with infant formula (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|92.4|||||TWO_SIDED|90.0|79.52|107.38|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with infant formula (fasted)||107.38|79.52|
82507724|NCT05544786|164706222|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fasted) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|97.04|||||TWO_SIDED|90.0|78.4|120.1|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted)||120.10|78.40|
82507725|NCT05544786|164706222|OTHER|The analysis used a mixed effect model with treatment as a fixed effect and participant as a random effect for comparison: powder mixed with vanilla pudding (fed) group versus tablets group.|Ratio (%) of Adjusted Geometric Mean|70.45|||||TWO_SIDED|90.0|56.92|87.19|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg tablets (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||87.19|56.92|
82507726|NCT05544786|164706223|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|96.5|||||TWO_SIDED|90.0|90.08|103.37|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||103.37|90.08|
82507727|NCT05544786|164706224|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|96.63|||||TWO_SIDED|90.0|90.13|103.59|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||103.59|90.13|
82507728|NCT05544786|164706225|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|98.15|||||TWO_SIDED|90.0|87.28|110.36|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||110.36|87.28|
82507729|NCT05544786|164706226|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|78.49|||||TWO_SIDED|90.0|72.42|85.07|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||85.07|72.42|
82507730|NCT05544786|164706227|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|87.77|||||TWO_SIDED|90.0|69.45|110.92|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||110.92|69.45|
82507731|NCT05544786|164706228|OTHER|The analysis used a mixed effect model with sequence, period and treatment as fixed effects and participant within a sequence as a random effect.|Ratio (%) of Adjusted Geometric Mean|72.6|||||TWO_SIDED|90.0|56.87|92.68|||||The ratios (and 90% CIs) are expressed as percentages.|Reference: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fasted) Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding (fed)||92.68|56.87|
82507732|NCT00923559|164706305|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.69|STANDARD_ERROR_OF_MEAN|3.04||0.006||95.0|2.64|14.74||Null hypothesis MIP and CHC care should yield equal outcomes. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom (df) = 68.3||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||14.74|2.64|.006
82507733|NCT00923559|164706306|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.57|STANDARD_ERROR_OF_MEAN|1.06||0.018|TWO_SIDED|95.0|0.46|4.68||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom (df) = 69.3||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||4.68|0.46|.018
82566864|NCT04748445|164843087|OTHER||Slope|-5.254|STANDARD_ERROR_OF_MEAN|4.217||0.901|TWO_SIDED|90.0|-7.513|6.463|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-4. For estimated value it was 10\^-5).||6.463|-7.513|0.9010
82566865|NCT04748445|164843087|OTHER||Slope|-0.0004591|STANDARD_ERROR_OF_MEAN|3.83||0.2329|TWO_SIDED|90.0|-0.001094|0.0001755|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0001755|-0.001094|0.2329
82566866|NCT04748445|164843087|OTHER||Slope|0.0007046|STANDARD_ERROR_OF_MEAN|3.687||0.0583|TWO_SIDED|90.0|0.00009366|0.001315|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001315|0.00009366|0.0583
82507734|NCT00923559|164706307|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.24||0.266|TWO_SIDED|95.0|-0.21|0.75||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|Degrees of freedom = 73.4||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.75|-0.21|.266
82507735|NCT00923559|164706308|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.052|TWO_SIDED|95.0|0.0|0.32||p-value unadjusted for multiple comparisons. A priori threshold p\<.05.|Regression, Linear|||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.32|0.00|.052
82566867|NCT04748445|164843087|OTHER||Slope|-1.564|STANDARD_ERROR_OF_MEAN|3.606||0.6654|TWO_SIDED|90.0|-7.54|4.413|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||4.413|-7.540|0.6654
82566868|NCT04748445|164843087|OTHER||Slope|0.00006573|STANDARD_ERROR_OF_MEAN|2.81||0.8154|TWO_SIDED|90.0|-0.0003998|0.0005313|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005313|-0.0003998|0.8154
82566869|NCT04748445|164843087|OTHER||Slope|-0.0004071|STANDARD_ERROR_OF_MEAN|3.664||0.2687|TWO_SIDED|90.0|-0.001014|0.0002001|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002001|-0.001014|0.2687
82628928|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.54||0.104|TWO_SIDED|95.0|-1.92|0.18|||Mixed Models Analysis|||Week 84; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||0.18|-1.92|0.104
82628929|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.57||0.038|TWO_SIDED|95.0|-2.3|-0.06|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.06|-2.30|0.038
82628930|NCT00565812|164972921|SUPERIORITY_OR_OTHER||LS mean difference|-1.16|STANDARD_ERROR_OF_MEAN|0.57||0.041|TWO_SIDED|95.0|-2.28|-0.05|||Mixed Models Analysis|||Week 96; LS-Mean, 95 percent CI and P-values were obtained from a discrete time MMRM model with fixed effects for treatment group, visit, a treatment group\*visit interaction, (collapsed) KLG, a (collapsed) KLG\*visit interaction, baseline value, geographic region, gender, age and body mass index with an unstructured covariance matrix.||-0.05|-2.28|0.041
82628931|NCT04857892|164972935|OTHER||Ratio of geometric Least Square mean|1.025|||||TWO_SIDED|90.0|0.9335|1.126|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.126|0.9335|
82628932|NCT04857892|164972935|OTHER||Ratio of geometric Least Square mean|1.072|||||TWO_SIDED|90.0|0.9693|1.185|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.185|0.9693|
82628933|NCT04857892|164972936|OTHER||Ratio of geometric Least Square mean|1.126|||||TWO_SIDED|90.0|0.9918|1.278|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.278|0.9918|
82628934|NCT04857892|164972936|OTHER||Ratio of geometric Least Square mean|1.055|||||TWO_SIDED|90.0|0.9278|1.201|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.201|0.9278|
82628935|NCT04857892|164972937|OTHER||Ratio of geometric Least Square mean|1.036|||||TWO_SIDED|90.0|0.9209|1.166|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax.|||1.166|0.9209|
82628936|NCT04857892|164972937|OTHER||Ratio of geometric Least Square mean|1.02|||||TWO_SIDED|90.0|0.9049|1.151|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax.|||1.151|0.9049|
82628937|NCT04857892|164972938|OTHER||Ratio of geometric Least Square mean|1.129|||||TWO_SIDED|90.0|1.067|1.195|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.195|1.067|
82628938|NCT04857892|164972938|OTHER||Ratio of geometric Least Square mean|1.112|||||TWO_SIDED|90.0|1.05|1.178|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf).|||1.178|1.050|
82628939|NCT04857892|164972939|OTHER||Ratio of geometric Least Square mean|1.164|||||TWO_SIDED|90.0|1.07|1.267|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.267|1.070|
82628940|NCT04857892|164972939|OTHER||Ratio of geometric Least Square mean|1.087|||||TWO_SIDED|90.0|0.9975|1.184|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t).|||1.184|0.9975|
82628941|NCT04857892|164972940|OTHER||Ratio of geometric Least Square mean|1.078|||||TWO_SIDED|90.0|1.036|1.122|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.122|1.036|
82628942|NCT04857892|164972940|OTHER||Ratio of geometric Least Square mean|1.032|||||TWO_SIDED|90.0|0.9914|1.075|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.075|0.9914|
82628943|NCT04857892|164972941|OTHER||Ratio of geometric Least Square mean|2.705|||||TWO_SIDED|90.0|2.135|3.427|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf)|||3.427|2.135|
82628944|NCT04857892|164972942|OTHER||Ratio of geometric Least Square mean|2.761|||||TWO_SIDED|90.0|2.16|3.527|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t)|||3.527|2.160|
82628945|NCT04857892|164972943|OTHER||Ratio of geometric Least Square mean|2.498|||||TWO_SIDED|90.0|1.821|3.425|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||3.425|1.821|
82628946|NCT04857892|164972944|OTHER||Ratio of geometric Least Square mean|1.316|||||TWO_SIDED|90.0|1.193|1.451|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-inf)|||1.451|1.193|
82628947|NCT04857892|164972945|OTHER||Ratio of geometric Least Square mean|1.316|||||TWO_SIDED|90.0|1.193|1.452|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter AUC(0-t)|||1.452|1.193|
82628948|NCT04857892|164972946|OTHER||Ratio of geometric Least Square mean|1.232|||||TWO_SIDED|90.0|1.138|1.333|||||An analysis of variance with treatment, period, and sequence as fixed effects and participant nested within a sequence as a random effect was performed on the natural ln-transformed parameter Cmax|||1.333|1.138|
82566870|NCT04748445|164843087|OTHER||Slope|2.799|STANDARD_ERROR_OF_MEAN|3.317||0.4005|TWO_SIDED|90.0|-2.698|8.296|||Mixed Models Analysis|||EE\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.296|-2.698|0.4005
82566871|NCT04748445|164843087|OTHER||Slope|1.123|STANDARD_ERROR_OF_MEAN|1.676||0.504|TWO_SIDED|90.0|-1.654|3.901|||Mixed Models Analysis|||MM\_Coefficient of Variation F0 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||3.901|-1.654|0.5040
82566872|NCT04748445|164843087|OTHER||Slope|0.00007586|STANDARD_ERROR_OF_MEAN|2.882||0.979|TWO_SIDED|90.0|-0.004701|0.004852|||Mixed Models Analysis|||MM\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.004852|-0.004701|0.9790
82566873|NCT04748445|164843087|OTHER||Slope|0.0008249|STANDARD_ERROR_OF_MEAN|1.815||0.6503|TWO_SIDED|90.0|-0.002183|0.003833|||Mixed Models Analysis|||MM\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003833|-0.002183|0.6503
82566874|NCT04748445|164843087|OTHER||Slope|-1.188|STANDARD_ERROR_OF_MEAN|1.322||0.3705|TWO_SIDED|90.0|-3.379|1.003|||Mixed Models Analysis|||MM\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3).||1.003|-3.379|0.3705
82566875|NCT04748445|164843087|OTHER||Slope|-0.0007258|STANDARD_ERROR_OF_MEAN|1.101||0.5111|TWO_SIDED|90.0|-0.002551|0.001099|||Mixed Models Analysis|||MM\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.001099|-0.002551|0.5111
82628949|NCT03050307|164973043|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-3.7|||||TWO_SIDED|95.0|-10.966|3.339||||||||3.339|-10.966|
82628950|NCT03050307|164973044|NON_INFERIORITY|If the primary outcome measure was met, then the hypothesis for this outcome measure was that if the lower bound of the 95% CI of the difference was ≥-10%, noninferiority for TAK-438 relative to lansoprazole with regard to H pylori eradication was declared.|Exact (Clopper-Pearson)|7.2|||||TWO_SIDED|95.0|-4.469|18.825||||||||18.825|-4.469|
82628951|NCT03050307|164973045|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-6.0|||||TWO_SIDED|95.0|-16.644|4.741||||||||4.741|-16.644|
82628952|NCT03050307|164973046|OTHER|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-1.1|||||TWO_SIDED|95.0|-25.175|23.07||||||Epigastric Pain (Postprandial)||23.070|-25.175|
82628953|NCT03050307|164973046|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|4.5|||||TWO_SIDED|95.0|-11.907|20.931||||||Epigastric Pain (Fasting/Nocturnal)||20.931|-11.907|
82628954|NCT03050307|164973046|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|16.0|||||TWO_SIDED|95.0|-11.255|43.321||||||Abdominal Bloating||43.321|-11.255|
82628955|NCT03050307|164973046|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|10.1|||||TWO_SIDED|95.0|-5.109|25.348||||||Heartburn||25.348|-5.109|
82566876|NCT04748445|164843087|OTHER||Slope|-0.001326|STANDARD_ERROR_OF_MEAN|7.555||0.0816|TWO_SIDED|90.0|-0.002578|-0.0000744|||Mixed Models Analysis|||MM\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0000744|-0.002578|0.0816
82566877|NCT04748445|164843087|OTHER||Slope|0.0005502|STANDARD_ERROR_OF_MEAN|1.056||0.6034|TWO_SIDED|90.0|-0.0012|0.002301|||Mixed Models Analysis|||MM\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.002301|-0.001200|0.6034
82628956|NCT03050307|164973046|NON_INFERIORITY|If the lower bound of the 95% CI is ≥-8%, noninferiority for TAK-438 relative to lansoprazole with regard to gastric ulcer healing was declared.|Exact (Clopper-Pearson)|-12.2|||||TWO_SIDED|95.0|-45.138|20.694||||||Lack of Appetite||20.694|-45.138|
82628957|NCT00439309|164973047|NON_INFERIORITY_OR_EQUIVALENCE|The sealing success rates for the investigational group and control groups were assumed to be 0.85 (85%) and 0.75 (75%), respectively, and the non-inferiority margin (10%) is 0.10. For safety reasons it was desired to have at least 100 Vascular Sealant treated subjects. It was determined that a sample size of at least 31 evaluable subjects is required for the control group. For blocking purposes, the number of evaluable control group subjects was set to 33, for a 3:1 randomization.||||||0.072|||||||Z-Test|one-sided Z-test based on the normal approximation to the binomial distribution testing||The effectiveness analyses were performed on the ITT population.||||0.072
82566878|NCT04748445|164843087|OTHER||Slope|-0.0004691|STANDARD_ERROR_OF_MEAN|7.305||0.522|TWO_SIDED|90.0|-0.00168|0.0007415|||Mixed Models Analysis|||MM\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0007415|-0.001680|0.5220
82566879|NCT04748445|164843087|OTHER||Slope|-0.00153|STANDARD_ERROR_OF_MEAN|7.82||0.0526|TWO_SIDED|90.0|-0.002826|-0.0002344|||Mixed Models Analysis|||MM\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002344|-0.002826|0.0526
82566880|NCT04748445|164843087|OTHER||Slope|0.0004166|STANDARD_ERROR_OF_MEAN|7.294||0.5689|TWO_SIDED|90.0|-0.000792|0.001625|||Mixed Models Analysis|||MM\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001625|-0.0007920|0.5689
82628958|NCT00439309|164973048|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|p-value for superiority of the Vascular Sealant System compared to the GELFOAM Treatment from two-sided test based on the GEE regression model.||||||0.006
82507736|NCT00923559|164706309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|0.38||0.031|TWO_SIDED|95.0|-1.61|-0.08|||Regression, Linear|Degrees of freedom (df) = 61.2||see under the PIR-GAS||-0.08|-1.61|.031
82507737|NCT00923559|164706310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.158|TWO_SIDED|95.0|-0.05|0.31|||Mixed Models Analysis|Degrees of freedom (df) = 71.2||Null hypothesis: MIP and CHC care should yield equal outcomes. For power calculations, studies on the EPDS and the SPSQ were used. An estimated power of .80 and a two-tailed significance of .05 would necessitate between 29 and 60 participants. Forty dyads per group were chosen.||0.31|-0.05|.158
82507738|NCT03556579|164706311|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-1.01|-0.36|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Without Distance Filter||-0.36|-1.01|
82507739|NCT03556579|164706311|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-1.45|-0.81|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Without Distance Filter||-0.81|-1.45|
82507740|NCT03556579|164706312|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-8.86|STANDARD_ERROR_OF_MEAN|2.173|||TWO_SIDED|95.0|-13.16|-4.55|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-4.55|-13.16|
82507741|NCT03556579|164706312|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-24.93|STANDARD_ERROR_OF_MEAN|2.173|||TWO_SIDED|95.0|-29.24|-20.62|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-20.62|-29.24|
82507742|NCT03556579|164706313|SUPERIORITY|"Superiority was concluded if the lower limit of the 95% confidence interval was above 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.15|0.23|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||0.23|0.15|
82566881|NCT04748445|164843087|OTHER||Slope|-0.002112|STANDARD_ERROR_OF_MEAN|7.299||0.0045|TWO_SIDED|90.0|-0.003321|-0.000902|||Mixed Models Analysis|||MM\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0009020|-0.003321|0.0045
82628959|NCT00439309|164973049|SUPERIORITY_OR_OTHER|||||||0.654|||||||t-test, 2 sided|p-value for superiority of the Vascular Sealant System compared to the GELFOAMTreatment from two-sided test based on the GEE regression model||||||0.654
82628960|NCT00439309|164973050|SUPERIORITY_OR_OTHER|||||||0.089|||||||t-test, 2 sided|||||||0.089
82628961|NCT00439309|164973051|SUPERIORITY_OR_OTHER|||||||0.404|||||||Log Rank|Kaplan-Meier method was used to obtain estimated median times to wound closure and the corresponding 95% confidence intervals for each treatment group||||||0.404
82507743|NCT03556579|164706314|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Ratio|0.55|||||TWO_SIDED|95.0|0.46|0.65|||Generalized linear mixed model|Generalized Linear mixed model with a lognormal distribution using the Kenward and Roger method for the denominator degrees of freedom.||||0.65|0.46|
82566882|NCT04748445|164843087|OTHER||Slope|-0.0007706|STANDARD_ERROR_OF_MEAN|7.494||0.3058|TWO_SIDED|90.0|-0.002013|0.0004713|||Mixed Models Analysis|||MM\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0004713|-0.002013|0.3058
82566883|NCT04748445|164843087|OTHER||Slope|0.0002388|STANDARD_ERROR_OF_MEAN|6.494||0.7137|TWO_SIDED|90.0|-0.0008374|0.001315|||Mixed Models Analysis|||MM\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001315|-0.0008374|0.7137
82628962|NCT00524043|164973067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|4.2||0.504||95.0|-5.47|11.09||Based on ANCOVA model with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||Sample size estimation was based on the assumption that the difference between the paliperidone ER 1.5 mg dose group and the placebo group in the mean change in PANSS total score from baseline to end point was 11 points with a within-group standard deviation of 20 points. It was calculated that 65 patients were needed per treatment group to detect a statistically significant treatment difference between the paliperidone ER 1.5 mg dose group and the placebo group with a power of 87.5%.||11.09|-5.47|0.504
82507744|NCT03556579|164706315|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-1.07|-0.15|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||-0.15|-1.07|
82507745|NCT03556579|164706316|SUPERIORITY|"Superiority was concluded if the lower limit of the 95% confidence interval was above 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.14|0.23|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||0.23|0.14|
82507746|NCT03556579|164706317|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-30.56|STANDARD_ERROR_OF_MEAN|2.555|||TWO_SIDED|95.0|-31.66|-25.46|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control.|||-25.46|-31.66|
82507747|NCT03556579|164706317|SUPERIORITY|"Superiority was concluded if the upper limit of the 95% confidence interval was below 0.~No sample size calculation was performed for this study since historical data was not available for either study lens for any of the primary endpoints."|Mean Difference (Final Values)|-15.38|STANDARD_ERROR_OF_MEAN|2.555|||TWO_SIDED|95.0|-20.48|-10.27|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test Minus Control.|||-10.27|-20.48|
82507748|NCT00744627|164706318|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.81|STANDARD_ERROR_OF_MEAN|0.981|<|0.001|TWO_SIDED|95.0|-5.74|-1.88||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||-1.88|-5.74|<0.001
82507749|NCT00744627|164706319|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.555|<|0.001|TWO_SIDED|95.0|-3.39|-1.2||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis||||-1.20|-3.39|<0.001
82507750|NCT00744627|164706320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|-0.73|-0.19||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-0.19|-0.73|<0.001
82507751|NCT00744627|164706321|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.901||0.031|TWO_SIDED|95.0|-3.74|-0.18||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-0.18|-3.74|0.031
82507752|NCT00744627|164706322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.393|||<|0.001|TWO_SIDED|95.0|1.496|3.83||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||3.830|1.496|<0.001
82507753|NCT00744627|164706323|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.267|<|0.001|TWO_SIDED|95.0|-7.61|-2.6||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||||-2.60|-7.61|<0.001
82507754|NCT00744627|164706324|SUPERIORITY_OR_OTHER||LS Mean Difference|8.78|STANDARD_ERROR_OF_MEAN|2.774||0.002|TWO_SIDED|95.0|3.32|14.25||SF-36 social functioning subscore was the last endpoint to be tested in the hierarchical testing sequence.|Mixed model for repeated measurements|P-values were from a MMRM with Baseline-by-week, center, week and week-by-treatment as factors in the analysis.||Results presented are for the number of participants at week 8 only.||14.25|3.32|0.002
82507755|NCT02531321|164706397|OTHER|Unpaired t test with Welch's correction|||||<|0.05|||||||t-test, 2 sided|||||||<.05
82507756|NCT01538862|164706413|SUPERIORITY|||||||0.82|||||||Regression, Linear|||||||0.82
82507757|NCT03722017|164706438|SUPERIORITY||Risk Ratio (RR)|0.91||||0.006|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge Timepoint||||0.006
82507758|NCT03722017|164706438|SUPERIORITY||Risk Ratio (RR)|0.93||||0.11|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the SNF Discharge Timepoint||||0.110
82507759|NCT03722017|164706438|SUPERIORITY||Risk Ratio (RR)|0.92||||0.06|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow-Up Timepoint||||0.060
82507760|NCT03722017|164706439|SUPERIORITY||Mean Difference (Net)|-0.049||||0.738|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge Timepoint||||0.738
82507761|NCT03722017|164706439|SUPERIORITY||Mean Difference (Net)|0.001||||0.995|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the SNF Discharge Timepoint||||0.995
82507762|NCT03722017|164706439|SUPERIORITY||Mean Difference (Net)|0.058||||0.721|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow Up Timepoint||||0.721
82523007|NCT01337674|164741428|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-6.25|||||TWO_SIDED|90.0|-11.47|-1.03|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 1||-1.03|-11.47|
82523008|NCT01337674|164741428|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis: the upper bound of the 90% confidence interval for the difference in maximum change from baseline for MK-4618 + Amlo versus PBO + Amlo is \<20 mmHg|Mean Difference (Final Values)|-1.57|||||TWO_SIDED|90.0|-6.79|3.65|||||The estimated parameter is mean maximum change from baseline for placebo minus MK-4618. Mean and confidence interval for the difference were obtained from linear mixed effects model performed on the maximum increase from baseline values.|Standing, Day 7||3.65|-6.79|
82507763|NCT01023581|164706462|SUPERIORITY_OR_OTHER||LS mean difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.96|-0.37||For each set of comparisons in the primary analysis, the null hypothesis was rejected only if both comparisons between a combination and its constituent doses were statistically significant at the 2-sided 2.5% level.|ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||The primary efficacy analysis consisted of 2 separate sets of comparisons between each BID combination of alogliptin and metformin (alogliptin/metformin 12.5/500 mg BID and 12.5/1000 mg BID) and its constituent doses of alogliptin and metformin. The null hypothesis was that the combination of alogliptin and metformin had no additional effect on glycemic control at Week 26 either when compared with the constituent dose of alogliptin or with the constituent dose of metformin.||-0.37|-0.96|<0.001
82507764|NCT01023581|164706462|SUPERIORITY_OR_OTHER||LS mean difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.87|-0.27|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate||||-0.27|-0.87|<0.001
82628963|NCT00524043|164973067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|4.15||0.431||95.0|-11.46|4.9||Based on ANCOVA model with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|Paliperidone ER 6 mg was used for assay sensitivity||||4.90|-11.46|0.431
82628964|NCT00524043|164973068|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||Based on ANCOVA model on ranks with treatment (Placebo, Paliperidone ER 1.5 mg, and Paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.626
82628965|NCT00524043|164973069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.69||0.87||95.0|-4.86|5.74||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors, and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||5.74|-4.86|0.870
82628966|NCT00524043|164973070|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.126
82628967|NCT00524043|164973071|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||Based on ANCOVA model with treatment (placebo, paliperidone ER 1.5 mg, and paliperidone ER 6 mg) and country as factors and baseline value as a covariate. Comparison with placebo was without multiplicity adjustment.|ANCOVA|||||||0.691
82628968|NCT01536418|164973075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|||||TWO_SIDED|95.0|-3.0|19.3||||||||19.3|-3.0|
82507765|NCT01023581|164706462|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|||<|0.001|TWO_SIDED|95.0|-1.29|-0.71|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||||-0.71|-1.29|<0.001
82507766|NCT01023581|164706462|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.73|-0.16|||ANCOVA|ANCOVA model with treatment and geographic region as fixed effects and baseline HbA1c as a covariate.||||-0.16|-0.73|<0.001
82507767|NCT00380393|164706509|OTHER||Vaccine Efficacy|52.9|||<|0.001|TWO_SIDED|95.0|28.1|69.1|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum||69.1|28.1|<0.001
82507768|NCT00380393|164706509|OTHER||Vaccine Efficacy|55.0|||<|0.001|TWO_SIDED|95.0|31.4|70.4|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area or distance from health center.|Vaccine efficacy against P. falciparum||70.4|31.4|<0.001
82507769|NCT00380393|164706510|OTHER||Vaccine efficacy|54.6|||<|0.001|TWO_SIDED|95.0|31.2|70.0|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||70.0|31.2|<0.001
82507770|NCT00380393|164706510|OTHER||Vaccine efficacy|56.5|||<|0.001|TWO_SIDED|95.0|34.2|71.2|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area or distance from health center.|Vaccine efficacy against P. falciparum.||71.2|34.2|<0.001
82507771|NCT00380393|164706511|OTHER||Vaccine efficacy|55.8||||0.0003|TWO_SIDED|95.0|31.0|71.7|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||71.7|31.0|0.0003
82507772|NCT00380393|164706511|OTHER||Vaccine efficacy|57.9|||<|0.001|TWO_SIDED|95.0|34.3|73.0|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.0|34.3|<0.001
82507773|NCT00380393|164706512|OTHER||Vaccine efficacy|58.0|||<|0.001|TWO_SIDED|95.0|34.8|73.0|||Regression, Cox||Point estimate of VE was adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.0|34.8|<0.001
82507774|NCT00380393|164706512|OTHER||Vaccine efficacy|59.5|||<|0.001|TWO_SIDED|95.0|37.1|73.9|||Regression, Cox||Point estimate of VE was not adjusted for site, age, bednet use, area and distance from health center.|Vaccine efficacy against P. falciparum.||73.9|37.1|<0.001
82507775|NCT00481195|164706531|SUPERIORITY_OR_OTHER|||||||0.0439||95.0|||||ANOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an analysis of variance (ANOVA) with treatment ands concurrent treatment for bipolar disorders as factors. A significant treatment-by baseline interaction was observed in the total score that violates the assumption of parallelism on which an ANCOVA is based, so the data was analyzed using ANOVA without baseline as a covariate rather than ANCOVA.||||0.0439
82507776|NCT00481195|164706532|SUPERIORITY_OR_OTHER|||||||0.0795||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0795
82628969|NCT01536418|164973076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-5.8|10.8||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at Week 8||10.8|-5.8|
82628970|NCT01536418|164973076|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.6|||||TWO_SIDED|95.0|-3.0|14.3||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at Week 12||14.3|-3.0|
82628971|NCT01536418|164973076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-4.6|9.5||||||CDAI score (Clinical remission), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID; at both Weeks 8 and 12||9.5|-4.6|
82507777|NCT00481195|164706533|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0272
82507778|NCT00481195|164706534|SUPERIORITY_OR_OTHER|||||||0.0802||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0802
82507779|NCT00481195|164706535|SUPERIORITY_OR_OTHER|||||||0.2407||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2407
82507780|NCT00481195|164706536|SUPERIORITY_OR_OTHER|||||||0.0502||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0502
82507781|NCT00481195|164706537|SUPERIORITY_OR_OTHER|||||||0.0612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0612
82507782|NCT00481195|164706538|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.1980
82507783|NCT00481195|164706539|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.8960
82566884|NCT04748445|164843087|OTHER||Slope|0.0002121|STANDARD_ERROR_OF_MEAN|6.877||0.7583|TWO_SIDED|90.0|-0.0009275|0.001352|||Mixed Models Analysis|||MM\_MFCC 1st order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001352|-0.0009275|0.7583
82566885|NCT04748445|164843087|OTHER||Slope|-2.784|STANDARD_ERROR_OF_MEAN|1.667||0.0974|TWO_SIDED|90.0|-5.547|-2.155|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit it was 10\^-5. For lower limit, estimated value and dispersion value it was 10\^-3).||-2.155|-5.547|0.0974
82566886|NCT04748445|164843087|OTHER||Slope|-1.368|STANDARD_ERROR_OF_MEAN|9.117||0.881|TWO_SIDED|90.0|-1.648|1.374|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and lower limit it was 10\^-3. For estimated value and dispersion value it was 10\^-4).||1.374|-1.648|0.8810
82566887|NCT04748445|164843087|OTHER||Slope|-0.001551|STANDARD_ERROR_OF_MEAN|6.294||0.0151|TWO_SIDED|90.0|-0.002594|-0.0005077|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0005077|-0.002594|0.0151
82566888|NCT04748445|164843087|OTHER||Slope|0.00184|STANDARD_ERROR_OF_MEAN|7.343||0.0135|TWO_SIDED|90.0|0.0006233|0.003057|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.003057|0.0006233|0.0135
82507784|NCT00481195|164706540|SUPERIORITY_OR_OTHER|||||||0.2575||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.2575
82507785|NCT00481195|164706541|SUPERIORITY_OR_OTHER|||||||0.3129||95.0||||P-value is from a Cochran-Mantel-Haenzel chi-square test adjusted for concurrent treatment for bipolar disorder|Cochran-Mantel-Haenszel|||||||0.3129
82507786|NCT00481195|164706542|SUPERIORITY_OR_OTHER|||||||0.1565||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1565
82507787|NCT00481195|164706543|SUPERIORITY_OR_OTHER|||||||0.6737||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.6737
82507788|NCT00481195|164706544|SUPERIORITY_OR_OTHER|||||||0.2249||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2249
82507789|NCT00481195|164706545|SUPERIORITY_OR_OTHER|||||||0.0862||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0862
82507790|NCT00481195|164706546|SUPERIORITY_OR_OTHER|||||||0.9281||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.9281
82507791|NCT00481195|164706547|SUPERIORITY_OR_OTHER|||||||0.4428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.4428
82507792|NCT00481195|164706548|SUPERIORITY_OR_OTHER|||||||0.0965||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0965
82507793|NCT00481195|164706549|SUPERIORITY_OR_OTHER|||||||0.5389||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.5389
82507794|NCT00481195|164706550|SUPERIORITY_OR_OTHER|||||||0.0793||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0793
82507795|NCT00481195|164706551|SUPERIORITY_OR_OTHER|||||||0.3814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3814
82507796|NCT00481195|164706552|SUPERIORITY_OR_OTHER|||||||0.8099||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.8099
82507797|NCT00481195|164706553|SUPERIORITY_OR_OTHER|||||||0.0968||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0968
82507798|NCT00481195|164706554|SUPERIORITY_OR_OTHER|||||||0.1605||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1605
82507799|NCT00481195|164706555|SUPERIORITY_OR_OTHER|||||||0.1869||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.1869
82566889|NCT04748445|164843087|OTHER||Slope|0.00129|STANDARD_ERROR_OF_MEAN|5.029||0.0115|TWO_SIDED|90.0|0.0004563|0.002123|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002123|0.0004563|0.0115
82566890|NCT04748445|164843087|OTHER||Slope|-0.0001473|STANDARD_ERROR_OF_MEAN|5.891||0.8029|TWO_SIDED|90.0|-0.001123|0.0008288|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0008288|-0.001123|0.8029
82566891|NCT04748445|164843087|OTHER||Slope|-0.0005556|STANDARD_ERROR_OF_MEAN|4.647||0.2342|TWO_SIDED|90.0|-0.001326|0.0002146|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002146|-0.001326|0.2342
82628972|NCT01536418|164973077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||||TWO_SIDED|95.0|-6.0|15.9||||||CDAI score (Clinical response), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID at Week 8||15.9|-6.0|
82628973|NCT01536418|164973077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-1.0|18.7||||||CDAI score (Clinical response), GSK1605786A, 500 mg QD Vs GSK1605786A, 500 mg BID at both Week 8 and Week 12||18.7|-1.0|
82628974|NCT02658149|164973084|OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
82628975|NCT02658149|164973085|OTHER|||||||0.204|||||||Wilcoxon (Mann-Whitney)|||||||0.204
82628976|NCT02658149|164973086|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82507800|NCT00481195|164706556|SUPERIORITY_OR_OTHER|||||||0.0817||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.0817
82507801|NCT00481195|164706557|SUPERIORITY_OR_OTHER|||||||0.3712||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3712
82507802|NCT00481195|164706558|SUPERIORITY_OR_OTHER|||||||0.5427||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.5427
82507803|NCT00481195|164706559|SUPERIORITY_OR_OTHER|||||||0.3463||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.3463
82507804|NCT00481195|164706560|SUPERIORITY_OR_OTHER|||||||0.273||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.2730
82507805|NCT00481195|164706561|SUPERIORITY_OR_OTHER|||||||0.7791||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.7791
82507806|NCT00481195|164706562|SUPERIORITY_OR_OTHER|||||||0.9007||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.9007
82628977|NCT02658149|164973087|OTHER|||||||0.741|||||||t-test, 2 sided|||||||0.741
82628978|NCT02658149|164973088|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
82628979|NCT00628134|164973107|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pairs signed-ranks test was used for comparisons||||0.07
82628980|NCT00628134|164973108|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pairs signed-ranks test was used for comparisons||||0.29
82628981|NCT03687827|164973113|SUPERIORITY|Superiority is confirmed if non-inferiority is confirmed and the lower limit of the two-sided 95% confidence interval is entirely above zero.|Estimated treatment difference|1.43||||0.0321|TWO_SIDED|95.0|0.12|2.74|||t-test, 2 sided|||||2.74|0.12|0.0321
82628982|NCT03687827|164973113|NON_INFERIORITY|A non-inferiority margin of -0.83% has been applied, corresponding to 0.2 hours/24 hours|Estimated treatment difference|1.43|||||TWO_SIDED|95.0|0.12|2.74||||||||2.74|0.12|
82628983|NCT00617162|164973119|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.3989|TWO_SIDED|95.0|-5.5|2.2|||Fisher Exact|||||2.2|-5.5|0.3989
82507807|NCT00481195|164706563|SUPERIORITY_OR_OTHER|||||||0.6431||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group and the p-value for the treatment comparison is from an ANCOVA with treatment and concurrent treatment for bipolar disorder as factors, and the baseline value as covariate.||||0.6431
82507808|NCT00481195|164706564|SUPERIORITY_OR_OTHER|||||||0.6631||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder.||||||0.6631
82507809|NCT00481195|164706565|SUPERIORITY_OR_OTHER|||||||0.9768||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.9768
82507810|NCT00481195|164706566|SUPERIORITY_OR_OTHER|||||||0.9873||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment fro bipolar disorder||||||0.9873
82507811|NCT00481195|164706567|SUPERIORITY_OR_OTHER|||||||0.4567||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.4567
82507812|NCT00481195|164706568|SUPERIORITY_OR_OTHER|||||||0.6475||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.6475
82507813|NCT00481195|164706569|SUPERIORITY_OR_OTHER|||||||0.5066||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.5066
82507814|NCT00481195|164706570|SUPERIORITY_OR_OTHER|||||||0.4438||95.0|||||Cochran-Mantel-Haenszel|Adjusted for concurrent treatment for bipolar disorder||||||0.4438
82507815|NCT02932904|164706571|SUPERIORITY||Least square (LS) Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|1.04||0.009|TWO_SIDED|95.0|0.69|4.78||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA with last observation carried forward (LOCF) model was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||4.78|0.69|0.009
82507816|NCT02932904|164706571|SUPERIORITY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.017||0.303|TWO_SIDED|95.0|-0.95|3.05||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.05|-0.95|0.303
82507817|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.627||0.072|TWO_SIDED|95.0|-0.1|2.37|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.37|-0.10|0.072
82507818|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|1.29|STANDARD_ERROR_OF_MEAN|0.612||0.035|TWO_SIDED|95.0|0.09|2.5|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.50|0.09|0.035
82507819|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.846||0.149|TWO_SIDED|95.0|-0.44|2.89|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.89|-0.44|0.149
82507820|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.828||0.303|TWO_SIDED|95.0|-0.78|2.48|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.48|-0.78|0.303
82507821|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.906||0.028|TWO_SIDED|95.0|0.22|3.78|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.78|0.22|0.028
82507822|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.886||0.645|TWO_SIDED|95.0|-1.33|2.15|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.15|-1.33|0.645
82507823|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|0.943||0.043|TWO_SIDED|95.0|0.06|3.77|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.77|0.06|0.043
82507824|NCT02932904|164706572|SUPERIORITY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|0.923||0.465|TWO_SIDED|95.0|-1.14|2.49|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||2.49|-1.14|0.465
82507825|NCT02932904|164706573|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.616||0.009|TWO_SIDED|95.0|-2.84|-0.41|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.41|-2.84|0.009
82507826|NCT02932904|164706573|SUPERIORITY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.834||0.123|TWO_SIDED|95.0|-2.93|0.35|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.35|-2.93|0.123
82507827|NCT02932904|164706573|SUPERIORITY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|0.892||0.039|TWO_SIDED|95.0|-3.61|-0.1|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.10|-3.61|0.039
82507828|NCT02932904|164706573|SUPERIORITY||LS Mean Difference|-2.49|STANDARD_ERROR_OF_MEAN|0.929||0.008|TWO_SIDED|95.0|-4.32|-0.66|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.66|-4.32|0.008
82507829|NCT02932904|164706573|SUPERIORITY||LS Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|1.024||0.007|TWO_SIDED|95.0|-4.78|-0.75|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.75|-4.78|0.007
82507830|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.612||0.419|TWO_SIDED|95.0|-1.7|0.71|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.71|-1.70|0.419
82507831|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.6||0.581|TWO_SIDED|95.0|-1.51|0.85|||ANCOVA with LOCF|||Week 1, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.85|-1.51|0.581
82566892|NCT04748445|164843087|OTHER||Slope|0.001128|STANDARD_ERROR_OF_MEAN|5.339||0.0366|TWO_SIDED|90.0|0.0002436|0.002013|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.002013|0.0002436|0.0366
82566893|NCT04748445|164843087|OTHER||Slope|-0.0003297|STANDARD_ERROR_OF_MEAN|5.134||0.522|TWO_SIDED|90.0|-0.00118|0.0005212|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005212|-0.001180|0.5220
82566894|NCT04748445|164843087|OTHER||Slope|-2.104|STANDARD_ERROR_OF_MEAN|3.528||0.552|TWO_SIDED|90.0|-7.95|3.742|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||3.742|-7.950|0.5520
82566895|NCT04748445|164843087|OTHER||Slope|0.0005126|STANDARD_ERROR_OF_MEAN|4.289||0.2343|TWO_SIDED|90.0|-0.0001981|0.001223|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For ldispersion value it was 10\^-4).||0.001223|-0.0001981|0.2343
82566896|NCT04748445|164843087|OTHER||Slope|2.703|STANDARD_ERROR_OF_MEAN|4.094||0.5103|TWO_SIDED|90.0|-4.081|9.487|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||9.487|-4.081|0.5103
82566897|NCT04748445|164843087|OTHER||Slope|-0.000202|STANDARD_ERROR_OF_MEAN|5.334||0.7056|TWO_SIDED|90.0|-0.001086|0.0006819|||Mixed Models Analysis|||MM\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0006819|-0.001086|0.7056
82566898|NCT04748445|164843087|OTHER||Slope|-2.66|STANDARD_ERROR_OF_MEAN|9.22||0.0046|TWO_SIDED|90.0|-4.188|-1.132|||Mixed Models Analysis|||READ\_MFCC 1st order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||-1.132|-4.188|0.0046
82566899|NCT04748445|164843087|OTHER||Slope|0.000649|STANDARD_ERROR_OF_MEAN|4.448||0.1471|TWO_SIDED|90.0|-0.0000881|0.001386|||Mixed Models Analysis|||READ\_MFCC 1st order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.001386|-0.0000881|0.1471
82566900|NCT04748445|164843087|OTHER||Slope|1.355|STANDARD_ERROR_OF_MEAN|3.323||0.6842|TWO_SIDED|90.0|-4.152|6.862|||Mixed Models Analysis|||READ\_MFCC 1st order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||6.862|-4.152|0.6842
82566901|NCT04748445|164843087|OTHER||Slope|0.00007664|STANDARD_ERROR_OF_MEAN|2.574||0.7664|TWO_SIDED|90.0|-0.0003499|0.0005032|||Mixed Models Analysis|||READ\_MFCC 1st order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0005032|-0.0003499|0.7664
82566902|NCT04748445|164843087|OTHER||Slope|-1.708|STANDARD_ERROR_OF_MEAN|2.028||0.4015|TWO_SIDED|90.0|-5.069|1.654|||Mixed Models Analysis|||READ\_MFCC 1st order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||1.654|-5.069|0.4015
82566903|NCT04748445|164843087|OTHER||Slope|2.51|STANDARD_ERROR_OF_MEAN|1.904||0.1897|TWO_SIDED|90.0|-6.446|5.665|||Mixed Models Analysis|||READ\_MFCC 1st order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||5.665|-6.446|0.1897
82566904|NCT04748445|164843087|OTHER||Slope|2.393|STANDARD_ERROR_OF_MEAN|1.627||0.1439|TWO_SIDED|90.0|-3.035|5.09|||Mixed Models Analysis|||READ\_MFCC 1st order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||5.090|-3.035|0.1439
82566905|NCT04748445|164843087|OTHER||Slope|4.111|STANDARD_ERROR_OF_MEAN|1.553||0.0092|TWO_SIDED|90.0|1.537|6.685|||Mixed Models Analysis|||READ\_MFCC 1st order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||6.685|1.537|0.0092
82566906|NCT04748445|164843087|OTHER||Slope|-0.0000415|STANDARD_ERROR_OF_MEAN|1.134||0.715|TWO_SIDED|90.0|-0.0002294|0.0001464|||Mixed Models Analysis|||READ\_MFCC 1st order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0001464|-0.0002294|0.7150
82566907|NCT04748445|164843087|OTHER||Slope|1.593|STANDARD_ERROR_OF_MEAN|1.291||0.2194|TWO_SIDED|90.0|-5.457|3.731|||Mixed Models Analysis|||READ\_MFCC 1st order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||3.731|-5.457|0.2194
82566908|NCT04748445|164843087|OTHER||Slope|0.0001893|STANDARD_ERROR_OF_MEAN|9.442||0.0471|TWO_SIDED|90.0|0.00003283|0.0003458|||Mixed Models Analysis|||READ\_MFCC 1st order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0003458|0.00003283|0.0471
82566909|NCT04748445|164843087|OTHER||Slope|0.000138|STANDARD_ERROR_OF_MEAN|6.614||0.039|TWO_SIDED|90.0|0.0000284|0.0002476|||Mixed Models Analysis|||READ\_MFCC 1st order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0002476|0.00002840|0.0390
82507832|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.828||0.938|TWO_SIDED|95.0|-1.69|1.56|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.56|-1.69|0.938
82628984|NCT00735072|164973128|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there will be no difference in the week 24 change in %activated CD8+ T cells between arms. Assuming a standard deviation as high as 3.5% and a Type I error of 5%, with 21 subjects in each treatment arm we would have 80% statistical power to detect a mean 3 percentage-point difference in the percent of activated CD8+ T cells between the active drug and placebo groups.||||0.014
82507833|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.814||0.592|TWO_SIDED|95.0|-2.04|1.17|||ANCOVA with LOCF|||Week 2, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.17|-2.04|0.592
82507834|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.886||0.87|TWO_SIDED|95.0|-1.6|1.89|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.89|-1.60|0.870
82628985|NCT00735072|164973129|OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
82628986|NCT00735072|164973130|OTHER|||||||0.33|||||||Mixed Models Analysis|||||||0.33
82628987|NCT01291511|164973143|SUPERIORITY||Cox Proportional Hazard|5.2|||<|0.0001|TWO_SIDED|95.0|3.2|8.4|||Log Rank|||||8.4|3.2|<0.0001
82628988|NCT01291511|164973144|SUPERIORITY||||||<|0.0001||||||P-value is based on an ANCOVA model with treatment and site as main effects and DBRP baseline as a covariate.|ANCOVA|||||||<0.0001
82628989|NCT01291511|164973146|SUPERIORITY|||||||0.0062||||||P-value is based on an ANCOVA model with treatment and site as main effects and DBRP baseline as a covariate.|ANCOVA|||||||0.0062
82628990|NCT00047008|164973167|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.18|TWO_SIDED|95.0|0.719|1.128|||Log Rank|||A sample size of 684 analyzable patients provides 80% power to detect a relative reduction of 25% in the rate of death in the accelerated-fractionation radiotherapy group as compared with the standard-fractionation radiotherapy group, assuming a 2-year rate of overall survival of 45% in the standard-fractionation radiotherapy group, with the use of a one-sided log-rank test at the 0.05 significance level.||1.128|0.719|0.180
82628991|NCT00047008|164973168|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.76|TWO_SIDED|95.0|0.83|1.43||One-sided significance level = 0.05|Gray's test|||||1.43|0.83|0.76
82628992|NCT00047008|164973169|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.8|TWO_SIDED|95.0|0.85|1.44||One-sided significance level = 0.05|Gray's test|||||1.44|0.85|0.80
82628993|NCT00047008|164973170|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.42|TWO_SIDED|95.0|0.81|1.2||One-sided significance level = 0.05|Log Rank|||||1.20|0.81|0.42
82628994|NCT00047008|164973171|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5|TWO_SIDED|95.0|0.81|1.23||One-sided significance level = 0.05|Log Rank|||||1.23|0.81|0.50
82628995|NCT00047008|164973172|SUPERIORITY|||||||0.21||||||Two-side significance level = 0.05|Fisher Exact|||Acute toxicity||||0.21
82628996|NCT00047008|164973172|SUPERIORITY|||||||0.18||||||Two-sided significance level = 0.05|Fisher Exact|||Late toxicity||||0.18
82628997|NCT00047008|164973173|SUPERIORITY|||||||0.92||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.92
82628998|NCT00047008|164973174|SUPERIORITY|||||||0.67||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.67
82628999|NCT00047008|164973175|SUPERIORITY|||||||0.43||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.43
82629000|NCT00047008|164973176|SUPERIORITY|||||||0.39||||||Two-sided significance level = 0.05|t-test, 2 sided|||Two hundred and fifty-two patients (126/arm) provide at least 86% power to detect a difference of 7 (standard deviation 18) between arms with a two-sided significance level of 0.05.||||0.39
82629001|NCT02773368|164973184|NON_INFERIORITY|Non-inferiority of IDegLira was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (IDegLira minus IGlar) was strictly below 0.3%.|Treatment Contrast|-0.34|||||TWO_SIDED|95.0|-0.48|-0.2|||ANCOVA||IDegLira minus IGlar|Analysis was based on ANCOVA model with treatment, pre-trial OAD, region as factors and baseline HbA1c as covariate. Data obtained after premature treatment discontinuation are included in the analysis. Missing data was imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation. The non-inferiority margin of 0.3 % was added to the end-of-treatment value for prematurely discontinued and withdrawn from trial IDegLira subjects.||-0.20|-0.48|
82629002|NCT02773368|164973184|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c; and superiority of IDegLira was confirmed for weight change and the number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in change from baseline in HbA1c was strictly below 0%.|Treatment Contrast|-0.36|||||TWO_SIDED|95.0|-0.5|-0.21|||ANCOVA||IDegLira minus IGlar|This endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline value as covariate. Data obtained after premature treatment discontinuation were included in the analysis. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-0.21|-0.50|
82639460|NCT02129192|164993954|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of Cmax of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.77|||||TWO_SIDED|90.0|98.46|105.19|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||105.19|98.46|
82566910|NCT04748445|164843087|OTHER||Slope|1.166|STANDARD_ERROR_OF_MEAN|1.04||0.2645|TWO_SIDED|90.0|-5.579|2.89|||Mixed Models Analysis|||READ\_MFCC 1st order delta 13 (The statistical data given below have (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||2.890|-5.579|0.2645
82566911|NCT04748445|164843087|OTHER||Slope|-0.00119|STANDARD_ERROR_OF_MEAN|5.79||0.042|TWO_SIDED|90.0|-0.002149|-0.0002303|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 01 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||-0.0002303|-0.002149|0.0420
82566912|NCT04748445|164843087|OTHER||Slope|-4.504|STANDARD_ERROR_OF_MEAN|3.04||0.141|TWO_SIDED|90.0|-9.542|5.341|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 02 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-4. For upper limit it was 10\^-5).||5.341|-9.542|0.1410
82566913|NCT04748445|164843087|OTHER||Slope|2.968|STANDARD_ERROR_OF_MEAN|3.334||0.3751|TWO_SIDED|90.0|-2.557|8.492|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 03 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.492|-2.557|0.3751
82566914|NCT04748445|164843087|OTHER||Slope|-0.0000796|STANDARD_ERROR_OF_MEAN|2.101||0.7053|TWO_SIDED|90.0|-0.0004277|0.0002685|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 04 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0002685|-0.0004277|0.7053
82566915|NCT04748445|164843087|OTHER||Slope|5.075|STANDARD_ERROR_OF_MEAN|1.878||0.0078|TWO_SIDED|90.0|1.964|8.187|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 05 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-4).||8.187|1.964|0.0078
82566916|NCT04748445|164843087|OTHER||Slope|-1.88|STANDARD_ERROR_OF_MEAN|1.174||0.1119|TWO_SIDED|90.0|-3.826|6.611|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 06 (The statistical data given below have exponential factor in addition to the values mentioned. For lower limit, estimated value and dispersion value it was 10\^-4. For upper limit it was 10\^-6).||6.611|-3.826|0.1119
82566917|NCT04748445|164843087|OTHER||Slope|1.667|STANDARD_ERROR_OF_MEAN|1.164||0.1545|TWO_SIDED|90.0|-2.615|3.596|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 07 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^-4. For lower limit it was 10\^-5).||3.596|-2.615|0.1545
82566918|NCT04748445|164843087|OTHER||Slope|1.531|STANDARD_ERROR_OF_MEAN|9.552||0.1114|TWO_SIDED|90.0|-5.164|3.114|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 08 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit and estimated value it was 10\^-4. For lower limit it was 10\^-6 and for dispersion value it was 10\^-5).||3.114|-5.164|0.1114
82566919|NCT04748445|164843087|OTHER||Slope|0.0001989|STANDARD_ERROR_OF_MEAN|1.076||0.0668|TWO_SIDED|90.0|0.00002067|0.0003772|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 09 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0003772|0.00002067|0.0668
82566920|NCT04748445|164843087|OTHER||Slope|0.00005573|STANDARD_ERROR_OF_MEAN|9.318||0.5509|TWO_SIDED|90.0|-0.0000986|0.0002101|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 10 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0002101|-0.0000986|0.5509
82566921|NCT04748445|164843087|OTHER||Slope|0.00001774|STANDARD_ERROR_OF_MEAN|8.677||0.8383|TWO_SIDED|90.0|-0.000126|0.0001615|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 11 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0001615|-0.0001260|0.8383
82566922|NCT04748445|164843087|OTHER||Slope|0.00007327|STANDARD_ERROR_OF_MEAN|6.63||0.2713|TWO_SIDED|90.0|-0.0000366|0.0001831|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 12 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0001831|-0.0000366|0.2713
82566923|NCT04748445|164843087|OTHER||Slope|0.0001534|STANDARD_ERROR_OF_MEAN|9.067||0.0931|TWO_SIDED|90.0|0.00000317|0.0003037|||Mixed Models Analysis|||READ\_MFCC 2nd order delta 13 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-5).||0.0003037|0.00000317|0.0931
82566924|NCT04748445|164843088|OTHER||Slope|-1.931|STANDARD_ERROR_OF_MEAN|3.554||0.5878|TWO_SIDED|90.0|-7.82|3.958|||Mixed Models Analysis|||EE\_Entropy (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, estimated value and dispersion value it was 10\^-3).||3.958|-7.820|0.5878
82566925|NCT04748445|164843088|OTHER||Slope|-1.479|STANDARD_ERROR_OF_MEAN|2.847||0.9587|TWO_SIDED|90.0|-4.866|4.57|||Mixed Models Analysis|||MM\_Entropy (The statistical data given below have exponential factor in addition to the values mentioned. For estimated value it was 10\^-4. For dispersion value, lower limit and upper limit it was 10\^-3).||4.570|-4.866|0.9587
82629003|NCT02773368|164973185|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in change from baseline in body weight was strictly below 0 kg.|Treatment Contrast|-1.92|||||TWO_SIDED|95.0|-2.64|-1.19|||ANCOVA||IDegLira minus IGlar|This endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline weight as covariate. Data obtained after premature treatment discontinuation were included in the analysis. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-1.19|-2.64|
82639461|NCT02129192|164993955|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|30.15||||1|TWO_SIDED|90.0|24.99|36.38|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||36.38|24.99|1.0000
82639462|NCT02129192|164993955|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|98.23|||<|0.0001|TWO_SIDED|90.0|94.63|101.97|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||101.97|94.63|<0.0001
82507835|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.871||0.098|TWO_SIDED|95.0|-3.16|0.27|||ANCOVA with LOCF|||Week 3, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.27|-3.16|0.098
82507836|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.923||0.532|TWO_SIDED|95.0|-2.39|1.24|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.24|-2.39|0.532
82507837|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.907||0.046|TWO_SIDED|95.0|-3.6|-0.03|||ANCOVA with LOCF|||Week 4, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||-0.03|-3.60|0.046
82507838|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.018||0.977|TWO_SIDED|95.0|-2.03|1.97|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||1.97|-2.03|0.977
82507839|NCT02932904|164706574|SUPERIORITY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.0||0.087|TWO_SIDED|95.0|-3.68|0.25|||ANCOVA with LOCF|||Week 5, ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||0.25|-3.68|0.087
82507840|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.44||||0.515|TWO_SIDED|95.0|0.037|5.201|||Regression, Logistic|||Week 1||5.201|0.037|0.515
82507841|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.59||||0.677|TWO_SIDED|95.0|0.049|7.051|||Regression, Logistic|||Week 1||7.051|0.049|0.677
82566926|NCT04748445|164843089|OTHER||Slope|-3.262|STANDARD_ERROR_OF_MEAN|4.487||0.9421|TWO_SIDED|90.0|-7.761|7.109|||Mixed Models Analysis|||EE\_Formant 1 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^-1. For estimated value it was 10\^-2).||7.109|-7.761|0.9421
82566927|NCT04748445|164843089|OTHER||Slope|-0.06912|STANDARD_ERROR_OF_MEAN|5.997||0.9084|TWO_SIDED|90.0|-1.063|0.9247|||Mixed Models Analysis|||EE\_Formant 1 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||0.9247|-1.063|0.9084
82566928|NCT04748445|164843089|OTHER||Slope|1.985|STANDARD_ERROR_OF_MEAN|1.23||0.8721|TWO_SIDED|90.0|-1.841|2.238|||Mixed Models Analysis|||EE\_Formant 2 (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit and dispersion value it was 10\^0. For estimated value it was 10\^-1).||2.238|-1.841|0.8721
82507842|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.47||||0.72|TWO_SIDED|95.0|0.181|11.912|||Regression, Logistic|||Week 1||11.912|0.181|0.720
82507843|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.65||||0.732|TWO_SIDED|95.0|0.053|7.861|||Regression, Logistic|||Week 1||7.861|0.053|0.732
82566929|NCT04748445|164843089|OTHER||Slope|0.6573|STANDARD_ERROR_OF_MEAN|2.191||0.7647|TWO_SIDED|90.0|-2.974|4.288|||Mixed Models Analysis|||EE\_Formant 2 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||4.288|-2.974|0.7647
82566930|NCT04748445|164843089|OTHER||Slope|0.6504|STANDARD_ERROR_OF_MEAN|8.958||0.4692|TWO_SIDED|90.0|-0.8341|2.135|||Mixed Models Analysis|||EE\_Formant 3 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||2.135|-0.8341|0.4692
82566931|NCT04748445|164843089|OTHER||Slope|-0.09459|STANDARD_ERROR_OF_MEAN|1.255||0.94|TWO_SIDED|90.0|-2.174|1.985|||Mixed Models Analysis|||EE\_Formant 3 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||1.985|-2.174|0.9400
82566932|NCT04748445|164843089|OTHER||Slope|0.6945|STANDARD_ERROR_OF_MEAN|7.972||0.3853|TWO_SIDED|90.0|-0.6265|2.015|||Mixed Models Analysis|||MM\_Formant 1 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-1).||2.015|-0.6265|0.3853
82639463|NCT02129192|164993955|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|79.69||||0.5422|TWO_SIDED|90.0|74.97|84.71|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||84.71|74.97|0.5422
82566933|NCT04748445|164843089|OTHER||Slope|0.02424|STANDARD_ERROR_OF_MEAN|1.021||0.9811|TWO_SIDED|90.0|-1.667|1.716|||Mixed Models Analysis|||MM\_Formant 1 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||1.716|-1.667|0.9811
82566934|NCT04748445|164843089|OTHER||Slope|-0.9256|STANDARD_ERROR_OF_MEAN|1.083||0.3944|TWO_SIDED|90.0|-2.72|0.869|||Mixed Models Analysis|||MM\_Formant 2 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||0.8690|-2.720|0.3944
82566935|NCT04748445|164843089|OTHER||Slope|0.935|STANDARD_ERROR_OF_MEAN|1.289||0.4696|TWO_SIDED|90.0|-1.201|3.071|||Mixed Models Analysis|||MM\_Formant 2 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||3.071|-1.201|0.4696
82566936|NCT04748445|164843089|OTHER||Slope|2.105|STANDARD_ERROR_OF_MEAN|1.231||0.0896|TWO_SIDED|90.0|0.06596|4.145|||Mixed Models Analysis|||MM\_Formant 3 (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^0).||4.145|0.06596|0.0896
82566937|NCT04748445|164843089|OTHER||Slope|1.664|STANDARD_ERROR_OF_MEAN|1.358||0.2227|TWO_SIDED|90.0|-5.864|3.915|||Mixed Models Analysis|||MM\_Formant 3 Bandwidth (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, estimated value and dispersion value it was 10\^0. For lower limit it was 10\^-1).||3.915|-5.864|0.2227
82566938|NCT04748445|164843090|OTHER||Slope|-4.024|STANDARD_ERROR_OF_MEAN|3.122||0.8977|TWO_SIDED|90.0|-5.577|4.772|||Mixed Models Analysis|||EE\_Voiced Frames (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||4.772|-5.577|0.8977
82566939|NCT04748445|164843090|OTHER||Slope|-0.0006624|STANDARD_ERROR_OF_MEAN|7.961||0.407|TWO_SIDED|90.0|-0.001982|0.0006569|||Mixed Models Analysis|||MM\_Voiced Frames (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-4).||0.0006569|-0.001982|0.4070
82566940|NCT04748445|164843091|OTHER||Slope|0.0008654|STANDARD_ERROR_OF_MEAN|1.441||0.5491|TWO_SIDED|90.0|-0.001522|0.003253|||Mixed Models Analysis|||EE\_Jitter Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-3).||0.003253|-0.001522|0.5491
82566941|NCT04748445|164843091|OTHER||Slope|-2.206|STANDARD_ERROR_OF_MEAN|3.176||0.9447|TWO_SIDED|90.0|-5.483|5.042|||Mixed Models Analysis|||MM\_Jitter Local (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and dispersion value it was 10\^-3. For estimated value it was 10\^-4).||5.042|-5.483|0.9447
82566942|NCT04748445|164843092|OTHER||Slope|0.007567|STANDARD_ERROR_OF_MEAN|1.12||0.5004|TWO_SIDED|90.0|-0.01099|0.02612|||Mixed Models Analysis|||EE\_Shimmer Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02612|-0.01099|0.5004
82566943|NCT04748445|164843092|OTHER||Slope|0.00606|STANDARD_ERROR_OF_MEAN|1.101||0.5831|TWO_SIDED|90.0|-0.01219|0.02431|||Mixed Models Analysis|||MM\_Shimmer Local (The statistical data given below have exponential factor in addition to the values mentioned. For dispersion value it was 10\^-2).||0.02431|-0.01219|0.5831
82566944|NCT04748445|164843093|OTHER||Slope|2.13|STANDARD_ERROR_OF_MEAN|3.211|<|0.0001|TWO_SIDED|90.0|1.598|2.662|||Mixed Models Analysis|||READ\_Speaking Rate (The statistical data given below have exponential factor in addition to the values mentioned. For upper limit, lower limit, and estimated value it was 10\^-2. For dispersion value it was 10\^-3).||2.662|1.598|<.0001
82566945|NCT00139659|164843179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.08|0.011|||longitudinal data analysis model|Confidence interval of least squares (LS) mean difference (INH - SC) between annual rates of change for the two treatment groups.|Primary analysis model includes terms of Treatment, Time, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on day of randomization.|Treatment group difference (Exubera minus subcutaneous insulin): annualized rate of change over time. Longitudinal data analysis methods with random effects were used to model the pulmonary function test (PFT) measurements. Random effects included the intercept and slope with respect to time (visit); all remaining effects were fixed. The estimated rate of change over time for each treatment group was derived from this model.||0.011|-0.080|
82566946|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.065|0.015|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.015|-0.065|
82566947|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.073|0.006|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.006|-0.073|
82566948|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.063|0.016|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.016|-0.063|
82507844|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.87||||0.913|TWO_SIDED|95.0|0.066|11.303|||Regression, Logistic|||Week 1||11.303|0.066|0.913
82629004|NCT02773368|164973186|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c and superiority of IDegLira was confirmed for change from baseline in body weight) and if the upper limit of the two-sided 95% CI for the rate ratio (IDegLira over IGlar) of rate of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes was strictly below 1.|Treatment Ratio|0.42|||||TWO_SIDED|95.0|0.23|0.75|||Negative binomial regression model||IDegLira over IGlar|This endpoint was analysed using a negative binomial regression model with a log link and the logarithm of the exposure time as offset. The model included treatment and pre-trial OAD as fixed factors. Missing data were imputed using multiple imputations (conditioning on expected event rate before premature treatment discontinuation or withdrawal from trial as if treated with IGlar).||0.75|0.23|
82629005|NCT02773368|164973187|SUPERIORITY|Superiority of IDegLira was considered confirmed if the test procedure was not stopped (i.e. non-inferiority of IDegLira was confirmed for change from baseline in HbA1c; and superiority of IDegLira was confirmed for weight change, number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes and change in HbA1c) and if the upper limit of the two-sided 95% CI for the mean treatment difference (IDegLira minus IGlar) in insulin dose after 26 weeks was strictly below 0 U.|Treatment Contrast|-15.37|||||TWO_SIDED|95.0|-19.6|-11.13|||ANCOVA||IDegLira minus IGlar|The endpoint was analysed using an ANCOVA model with treatment, pre-trial OAD and region as factors and corresponding baseline HbA1c as covariate. Missing data were imputed using unconditional reference based multiple imputation including data obtained after premature treatment discontinuation.||-11.13|-19.60|
82629006|NCT01929018|164973217|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.87
82629007|NCT01929018|164973217|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.38
82629008|NCT01929018|164973218|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.75
82629009|NCT01929018|164973218|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.11
82629010|NCT01929018|164973219|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.11
82629011|NCT01929018|164973219|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.23
82629012|NCT01929018|164973220|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.27
82629013|NCT01929018|164973220|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.58
82629014|NCT01929018|164973221|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.83
82629015|NCT01929018|164973221|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.13
82629016|NCT01929018|164973222|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.03
82629017|NCT01929018|164973222|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.02
82629018|NCT01929018|164973223|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.03
82629019|NCT01929018|164973223|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.06
82629020|NCT01929018|164973224|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.62
82629021|NCT01929018|164973224|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.40
82629022|NCT01929018|164973225|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 12-week test.||||0.96
82629023|NCT01929018|164973225|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||Test null hypothesis that there is no difference between groups from baseline to 24-week test.||||0.35
82507845|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.37||||0.164|TWO_SIDED|95.0|0.09|1.507|||Regression, Logistic|||Week 2||1.507|0.090|0.164
82629024|NCT01366534|164973226|OTHER||Vaccine Efficacy Maentel-Haenzel Method|-17.6||||0.7675|TWO_SIDED|95.0|-107.4|33.3|||2-sided Fisher Exact test||Pre-defined futility criteria for efficacy: point estimate of increase of VE in Ad35.CS.01 Group over GSK257049 Group less than 0%|Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at one month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||33.3|-107.4|0.7675
82629025|NCT01366534|164973226|OTHER||Vaccine Efficacy: Maentel-Haenzel Method|44.0||||0.0066|TWO_SIDED|95.0|20.7|60.4|||2-sided Fisher Exact test|||Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at 1 month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||60.4|20.7|0.0066
82629026|NCT01366534|164973226|OTHER||Vaccine Efficacy: Maentel-Haenzel Method|52.4||||0.0021|TWO_SIDED|95.0|25.4|69.6|||2-sided Fisher Exact test|||Comparison of the efficacy (occurrence of P. falciparum parasitemia, assessed by blood slide) of an immunization regimen comprising of one dose of Ad35.CS.01 vaccine followed one month later by 2 doses of GSK257049 vaccine administered at 1 month intervals, with that of 3 doses of GSK257049 vaccine administered at one month intervals, in healthy malaria-naïve volunteers aged 18-50 years in the sporozoite challenge model.||69.6|25.4|0.0021
82629027|NCT01047436|164973246|SUPERIORITY_OR_OTHER||difference between treatments|26.7||||0.17|TWO_SIDED|95.0|-0.3|53.7|||Fisher Exact|||The sample size was not statistically determined in this initial trial with ArTimist. For the primary outcome analysis, the percentage of patients defined as having success were determined. The difference between ArTiMist and quinine, along with its 95% confidence interval (CI) were determined. The difference between treatments were compared using Fisher's Exact test||53.7|-0.3|0.17
82629028|NCT01047436|164973248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.7|TWO_SIDED|95.0|0.48|3.01|||Log Rank|||The time for the parasite count to fall by 90% (PCT90) was determined for each patient as the time in minutes/seconds, when the parasite count fell by 90% The PCT90 was appropriately summarised for each treatment for the FAS . The times were presented graphically for each endpoint using a life-table curve (Kaplan-Meier method). For each endpoint the survival curves were compared by the log-rank test. The hazard ratio was calculated along with its 95% CI.||3.01|0.48|0.70
82629029|NCT01047436|164973250|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.76||95.0|0.34|2.18||Difference between survival curves compared by Log Rank test|Log Rank|||The PCT50 was determined for each patient as the time in minutes/seconds, when the parasite count fell by 50% The PCT50 was appropriately summarised for each treatment for the FAS . The times were presented graphically for each endpoint using a life-table curve (Kaplan-Meier method). For each endpoint the survival curves were compared by the log-rank test. The hazard ratio was calculated along with its 95% CI.||2.18|0.34|0.76
82629030|NCT01789255|164973268|OTHER|||||||0.02642|||||||Wilcoxon (Mann-Whitney)|||||||0.02642
82629031|NCT01789255|164973269|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82629032|NCT02635867|164973270|SUPERIORITY|Descriptive data and rates of success were calculated independently for indirect and direct therapies. Statistical analyses of proportions were done using Fisher's test and 95% confidence intervals (CI)|||||>|0.1|||||||Fisher Exact|||"The clinical outcome measures assessed were pain using visual analog pain scale, pulp vitality assessment at 12 months.~The success rate was based on 3 measures of pulp vitality that resulted in a diagnosis of vital or nonvital:~Vital: palpation = negative/ percussion = negative/ response to cold stimuli= positive response Non vital: palpation = positive / percussion = positive. / response to cold stimuli= positive or delayed response time in seconds and lingering."||||>0.1
82629033|NCT02128958|164973272|OTHER|||||||0.536|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) of Overall Survival will be performed using the log rank test as the primary analysis.||||0.536
82629034|NCT02128958|164973273|OTHER|||||||0.371|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) of Time to Progression will be performed using the log rank test as the primary analysis.||||.371
82629035|NCT02128958|164973274|OTHER|||||||0.521|||||||Log Rank|||The between-treatment comparison (CF102 vs Placebo) will be performed on Time to Progression Free Survival using the logrank test.||||0.521
82629036|NCT02128958|164973277|OTHER|||||||0.988|||||||ANCOVA|||Between-treatment comparisons of ALT will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.988
82629037|NCT02128958|164973277|OTHER|||||||0.989|||||||ANCOVA|||Between-treatment comparisons of AST will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.989
82629038|NCT02128958|164973277|OTHER|||||||0.717|||||||ANCOVA|||Between-treatment comparisons of Albumin will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.717
82629039|NCT02128958|164973277|OTHER|||||||0.891|||||||ANCOVA|||Between-treatment comparisons of Bilirubin (direct) will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.891
82629040|NCT02128958|164973277|OTHER|||||||0.275|||||||ANCOVA|||Between-treatment comparisons of Bilirubin (Total) will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.275
82629041|NCT02128958|164973277|OTHER|||||||0.549|||||||ANCOVA|||Between-treatment comparisons of PT will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.549
82629042|NCT02128958|164973277|OTHER|||||||0.479|||||||ANCOVA|||Between-treatment comparisons of INR will be performed at Cycle 11 Day 15 using ANCOVA with CFB as the dependent variable and the Baseline value of the variable as the covariate.||||0.479
82629043|NCT02565576|164973285|SUPERIORITY||estimate of contrast posterior median|-1.14|||||TWO_SIDED|90.0|-3.41|1.14|||bayesian|||Primary analysis was performed on the PD analysis set. Changes from baseline in QMG scores at Week 25 were analyzed using a Bayesian model. The model investigated effects for treatment (CFZ533 or placebo) and baseline QMG score. A difference of 3 points on the mean change in QMG score between CFZ533 and placebo was deemed a clinical meaningful effect.||1.14|-3.41|
82629044|NCT02437162|164973331|SUPERIORITY||Percentage difference|2.586||||0.669|TWO_SIDED|95.0|-9.138|14.31|||Cochran-Mantel-Haenszel|||||14.310|-9.138|0.669
82629045|NCT02437162|164973331|SUPERIORITY||Percentage difference|-0.646||||0.913|TWO_SIDED|95.0|-12.18|10.887|||Cochran-Mantel-Haenszel|||||10.887|-12.180|0.913
82507846|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.25||||0.098|TWO_SIDED|95.0|0.05|1.287|||Regression, Logistic|||Week 2||1.287|0.050|0.098
82507847|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.2||||0.758|TWO_SIDED|95.0|0.383|3.731|||Regression, Logistic|||Week 2||3.731|0.383|0.758
82507848|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.44||||0.256|TWO_SIDED|95.0|0.107|1.814|||Regression, Logistic|||Week 2||1.814|0.107|0.256
82507849|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.3||||0.154|TWO_SIDED|95.0|0.059|1.561|||Regression, Logistic|||Week 2||1.561|0.059|0.154
82507850|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.36||||0.16|TWO_SIDED|95.0|0.087|1.497|||Regression, Logistic|||Week 3||1.497|0.087|0.160
82507851|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.82||||0.744|TWO_SIDED|95.0|0.252|2.679|||Regression, Logistic|||Week 3||2.679|0.252|0.744
82507852|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.43||||0.194|TWO_SIDED|95.0|0.636|9.317|||Regression, Logistic|||Week 3||9.317|0.636|0.194
82507853|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.88||||0.871|TWO_SIDED|95.0|0.181|4.261|||Regression, Logistic|||Week 3||4.261|0.181|0.871
82507854|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.0||||0.329|TWO_SIDED|95.0|0.497|8.037|||Regression, Logistic|||Week 3||8.037|0.497|0.329
82507855|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.42||||0.187|TWO_SIDED|95.0|0.119|1.514|||Regression, Logistic|||Week 4||1.514|0.119|0.187
82507856|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.82||||0.729|TWO_SIDED|95.0|0.273|2.476|||Regression, Logistic|||Week 4||2.476|0.273|0.729
82507857|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.71||||0.133|TWO_SIDED|95.0|0.739|9.917|||Regression, Logistic|||Week 4||9.917|0.739|0.133
82507858|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.15||||0.852|TWO_SIDED|95.0|0.266|4.961|||Regression, Logistic|||Week 4||4.961|0.266|0.852
82629046|NCT04338321|164973411|SUPERIORITY||Mean Difference (Final Values)|9.44|||=|0.003|TWO_SIDED|95.0|3.19|15.68|||Cochran-Mantel-Haenszel|||||15.68|3.19|=0.003
82629047|NCT03375203|164973458|OTHER||Back-transformed Least Square Mean Ratio|0.88|||=|0.346|TWO_SIDED|90.0|0.7|1.1|||ANCOVA|||||1.10|0.70|= 0.346
82629048|NCT03375203|164973458|OTHER||Back-transformed Least Square Mean Ratio|0.64|||=|0.001|TWO_SIDED|90.0|0.51|0.81|||ANCOVA|||||0.81|0.51|= 0.001
82629049|NCT03375203|164973458|OTHER||Back-transformed Least Square Mean Ratio|0.51|||<|0.001|TWO_SIDED|90.0|0.41|0.64|||ANCOVA|||||0.64|0.41|< 0.001
82629050|NCT03375203|164973458|OTHER|||||||0|||||||MCP-mod|||||||0.000
82629051|NCT03107793|164973505|SUPERIORITY||||||=|0.0871|||||||Cochran-Mantel-Haenszel|||||||= 0.0871
82629052|NCT02808507|164973529|OTHER||Treatment initiation ratio|1.04||||0.73|TWO_SIDED|95.0|0.8|1.3|||See above comments|||The primary analysis was based on the facility-level rate ratio. We first calculated an unadjusted ratio of the treatment initiation rates between the two arms and the corresponding 95% CI. We first fit a Poisson regression to the facility-level counts and the district and historical volume covariates. The residuals ratios, calculated as the ratio of the observed over the expected counts, were then used in the second stage to estimate the between-arm rate ratio and the corresponding 95% CI.||1.3|0.80|0.73
82507859|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|2.23||||0.24|TWO_SIDED|95.0|0.585|8.472|||Regression, Logistic|||Week 4||8.472|0.585|0.240
82507860|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|0.55||||0.317|TWO_SIDED|95.0|0.166|1.789|||Regression, Logistic|||Week 5||1.789|0.166|0.317
82507861|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using the rate of subjects that shifted from normal at baseline to abnormal after baseline as the response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.15||||0.79|TWO_SIDED|95.0|0.41|3.233|||Regression, Logistic|||Week 5||3.233|0.410|0.790
82507862|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|3.64||||0.073|TWO_SIDED|95.0|0.888|14.911|||Regression, Logistic|||Week 5||14.911|0.888|0.073
82507863|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|1.98||||0.371|TWO_SIDED|95.0|0.442|8.902|||Regression, Logistic|||Week 5||8.902|0.442|0.371
82507864|NCT02932904|164706575|SUPERIORITY|Odds ratio, 95% confidence intervals and p-values are from logistic regression model using rate of subjects that shifted from normal at baseline to abnormal after baseline as response and explanatory variables for treatment, baseline CSFQ-14 total score, and gender.|Odds Ratio (OR)|4.19||||0.046|TWO_SIDED|95.0|1.027|17.063|||Regression, Logistic|||Week 5||17.063|1.027|0.046
82507865|NCT02932904|164706578|SUPERIORITY||LS Mean Difference|3.38|STANDARD_ERROR_OF_MEAN|1.082||0.002|TWO_SIDED|95.0|1.25|5.51||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||5.51|1.25|0.002
82507866|NCT02932904|164706578|SUPERIORITY||LS Mean Difference|1.63|STANDARD_ERROR_OF_MEAN|1.068||0.129|TWO_SIDED|95.0|-0.47|3.73||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||3.73|-0.47|0.129
82507867|NCT02932904|164706579|SUPERIORITY||LS Mean Difference|4.31|STANDARD_ERROR_OF_MEAN|1.078|<|0.001|TWO_SIDED|95.0|2.19|6.43||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||6.43|2.19|<0.001
82507868|NCT02932904|164706579|SUPERIORITY||LS Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|1.072||0.005|TWO_SIDED|95.0|0.95|5.17||The comparisons were between each vortioxetine dose (10 or 20 mg) and paroxetine, and the Holm-Bonferroni method was used to adjust for multiplicity and control the familywise type I error rate at a significance level of 0.05.|ANCOVA with LOCF|||ANCOVA model with the LOCF method was used for p-value with treatment, pooled center, and gender as fixed factors and with baseline CSFQ-14 total score as a covariate.||5.17|0.95|0.005
82507869|NCT02016482|164706580|SUPERIORITY_OR_OTHER||Difference in percentage|43.2|||<|0.001|TWO_SIDED|95.0|32.8|53.6||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||For US regulatory purposes, ranked first secondary endpoint.||53.6|32.8|< 0.001
82507870|NCT02016482|164706581|SUPERIORITY_OR_OTHER||Difference in percentage|42.0|||<|0.001|TWO_SIDED|95.0|30.8|53.2||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked sixth secondary endpoint. For US regulatory purposes, this was the primary endpoint.||53.2|30.8|< 0.001
82507871|NCT02016482|164706582|SUPERIORITY_OR_OTHER||LS Mean|-44.8|||<|0.001|TWO_SIDED|95.0|-53.5|-36.0||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked first secondary endpoint. For US regulatory purposes, ranked second secondary endpoint.||-36.0|-53.5|< 0.001
82507872|NCT02016482|164706583|SUPERIORITY_OR_OTHER||Difference in percentage|6.6||||0.008|TWO_SIDED|95.0|1.8|11.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked second secondary endpoint. For US regulatory purposes, ranked third secondary endpoint.||11.3|1.8|0.008
82507873|NCT02016482|164706584|SUPERIORITY_OR_OTHER||LS Mean Percent Change|-2.6|||<|0.001|TWO_SIDED|95.0|-3.3|-2.0||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked third secondary endpoint. For US regulatory purposes, ranked fourth secondary endpoint.||-2.0|-3.3|< 0.001
82507874|NCT02016482|164706585|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.001|TWO_SIDED|95.0|-3.6|-2.2||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Ranked fourth secondary endpoint. For US regulatory purposes, ranked fifth secondary endpoint.||-2.2|-3.6|< 0.001
82507875|NCT02016482|164706586|SUPERIORITY_OR_OTHER||Difference in percentage|57.9||||0.002|TWO_SIDED|95.0|33.8|82.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||Ranked fifth secondary endpoint. For US regulatory purposes, ranked sixth secondary endpoint.||82.0|33.8|0.002
82629053|NCT02808507|164973530|OTHER||Treatment initiation ratio|1.05||||0.68|TWO_SIDED|95.0|0.97|1.13|||Poisson regression||Adjusted for district, study phase and clinic random effect.|The primary outcome of the study was the comparative number of people with incident TB diagnosed and started on treatment at study clinics during the two study periods, excluding the six-month washout period. The number of people starting treatment for incident TB was calculated by performing a review of paper and electronic medical records at each clinic on a quarterly basis during the study.||1.13|0.97|0.68
82629054|NCT02808507|164973531|OTHER||Prevalence ratio|1.0||||0.8|TWO_SIDED|95.0|0.51|1.95||"The pre-specified secondary study outcome was the number of Xpert-based TB diagnoses made among enrolled contacts (secondary cases) by arm."|Poisson regression||Adjusted for study phase and district|||1.95|0.51|0.80
82629055|NCT00262639|164973536|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||||||0.03
82629056|NCT00262639|164973537|SUPERIORITY|||||||0.0006||||||This p value is for the interaction of AW status by medication group.|ANOVA|||The analysis was an ANOVA interaction analysis with alcohol withdrawal (AW) group (Low vs. High) by medication group (active versus placebo medication) across the 6 weeks of the medication trial.||||0.0006
82629057|NCT02418585|164973543|SUPERIORITY||Difference of Least Square (LS) Means|-4.0|STANDARD_ERROR_OF_MEAN|1.69|=|0.02|TWO_SIDED|95.0|-7.31|-0.64|||Mixed Model for Repeated Measures|||||-0.64|-7.31|=0.020
82629058|NCT02418585|164973544|SUPERIORITY||Difference of Least Square (LS) Means|-3.5|||=|0.034|TWO_SIDED|95.0|-6.67|-0.26|||ANCOVA|||||-0.26|-6.67|=0.034
82629059|NCT02040857|164973559|OTHER|Exact binomial test||||||0.0011|||||||Exact binomial test|||Primary objective is treatment discontinuation rate at 2 yr for patients receiving Palbociclib therapy. If the true rate of discontinuation by two years is 48% or higher, treatment duration will be considered not feasible and not worthy of further study. If the rate of discontinuation is 33.3% or less, the 2 yr duration will be deemed feasible and worthy of further study. Using a one-sided alpha = 0.025, there is \> 90% power to reject the null hypothesis in favor of feasibility.||||0.0011
82629060|NCT04159701|164973565|SUPERIORITY||Mean Difference (Final Values)|2.94||||0.38|TWO_SIDED|95.0|-3.73|9.6|||Mixed Models Analysis|||||9.60|-3.73|0.380
82629061|NCT04159701|164973566|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.415|TWO_SIDED|95.0|-1.89|4.5|||Mixed Models Analysis|||||4.50|-1.89|0.415
82629062|NCT04159701|164973567|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.369|TWO_SIDED|95.0|-2.09|5.53|||Mixed Models Analysis|||||5.53|-2.09|0.369
82629063|NCT04159701|164973568|SUPERIORITY||Odds Ratio (OR)|0.61||||0.674|TWO_SIDED|95.0|0.14|2.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted by baseline UAS7 (\< 28 vs \>= 28) score.||||2.70|0.14|0.674
82629064|NCT04159701|164973569|SUPERIORITY||Odds Ratio (OR)|0.59||||0.674|TWO_SIDED|95.0|0.13|2.68|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted by baseline UAS7 (\< median vs \>= median) score.||||2.68|0.13|0.674
82629065|NCT01933399|164973577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4||||0.01|TWO_SIDED|95.0|2.2|16.6|||ANCOVA||"Difference in mean change in scores from baseline to follow-up by treatment group with no adjusment for baseline.~a priori threshold determined to be .05. no adjustments for multiple comparisons."|ANCOVA Adjusted for baseline score||16.6|2.2|.01
82629066|NCT01933399|164973577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.16|TWO_SIDED|95.0|-2.0|12.6||a priori threshold determined to be .05. no adjustments for multiple comparisons.|ANCOVA|Adjustment for baseline.||||12.6|-2.0|.16
82629067|NCT01933399|164973578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.01|TWO_SIDED|95.0|-2.3|-0.4|||ANCOVA|||Adjusted for baseline.||-0.4|-2.3|0.01
82629068|NCT01933399|164973578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.05|TWO_SIDED|95.0|-2.1|0.0|||ANCOVA|||Adjusted for baseline.||0|-2.1|.05
82629069|NCT01849562|164973579|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|50.0|||||TWO_SIDED|95.0|1.8|82.7||||||Differences in proportions between Group 1 (sovaprevir 200 mg plus ACH-3102 150/50 mg plus RBV) and overall placebo (placebo from Group 1 and Group 2 combined) along with corresponding 95% confidence intervals for risk difference calculated using exact unconditional methods were obtained.||82.7|1.8|
82507876|NCT02016482|164706587|SUPERIORITY_OR_OTHER||Difference in percentage|43.3|||<|0.001|TWO_SIDED|95.0|31.3|55.2||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||55.2|31.3|< 0.001
82629070|NCT01849562|164973579|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|70.0|||||TWO_SIDED|95.0|24.2|93.6||||||Differences in proportions between Group 2 (sovaprevir 400 mg plus ACH-3102 150/50 mg plus RBV) and overall placebo (placebo from Group 1 and Group 2 combined) along with corresponding 95% confidence intervals for risk difference calculated using exact unconditional methods were obtained.||93.6|24.2|
82629071|NCT01024920|164973581|OTHER|||||||0.8531||||||P-value for comparison of Kaplan-Meier estimates at 9 months using normal approximation test (two-sided).|Normal approximation test|||||||0.8531
82629072|NCT01024920|164973583|OTHER||Hazard Ratio (HR)|1.12||||0.6395|TWO_SIDED|95.0|0.697|1.8|||Log Rank||Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery.|A stratified log-rank test (two-sided, 0.05 significance level) was used to test the effect of nintedanib on PFS compared with sunitinib. The test was stratified by Motzer risk score category (low/intermediate or high) and prior nephrectomy surgery for Renal Cell Cancer (yes or no).||1.800|0.697|0.6395
82629073|NCT01024920|164973584|OTHER||Odds Ratio (OR)|0.484||||0.1213|TWO_SIDED|95.0|0.193|1.212|||Regression, Logistic||Odds ratio \> 1 favours nintedanib.|A logistic regression model stratified by Motzer risk score category and prior surgery for renal cell cancer (RCC) was used to compare the objective response rate between the two treatment arms. The corresponding odds ratio and 95% Confidence Intervals was also presented.||1.212|0.193|0.1213
82629074|NCT01024920|164973586|OTHER||Hazard Ratio (HR)|0.92||||0.7593|TWO_SIDED|95.0|0.542|1.564||P-value from log-rank stratified by Motzer risk score and previous surgery.|Log Rank||Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.564|0.542|0.7593
82629075|NCT01024920|164973587|OTHER||Cox Proportional Hazard|1.143||||0.5958|TWO_SIDED|95.0|0.697|1.873|||Log Rank|P-value from log-rank stratified by Motzer risk score and previous surgery.|Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.873|0.697|0.5958
82629076|NCT01024920|164973588|OTHER||Hazard Ratio (HR)|1.142||||0.5712|TWO_SIDED|95.0|0.72|1.812|||Log Rank|P-value from log-rank stratified by Motzer risk score and previous surgery (two-sided).|Hazard ratio from Cox proportional hazards model stratified by Motzer risk score and previous surgery. Hazard ratio \< 1 favours nintedanib.|||1.812|0.720|0.5712
82629077|NCT00329784|164973624|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82629078|NCT00329784|164973624|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||||||0.004
82629079|NCT00329784|164973625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82629080|NCT00329784|164973626|SUPERIORITY_OR_OTHER|||||||0.369|||||||Wilcoxon (Mann-Whitney)|||||||0.369
82629081|NCT00329784|164973627|SUPERIORITY_OR_OTHER|||||||0.642|||||||Chi-squared|||||||0.642
82629082|NCT00329784|164973628|SUPERIORITY_OR_OTHER|||||||0.417|||||||Chi-squared|||Comparison for Seasonal Rhinoconjunctivitis||||0.417
82629083|NCT00329784|164973628|SUPERIORITY_OR_OTHER|||||||0.926|||||||Chi-squared|||Comparison for Perennial Rhinoconjunctivitis||||0.926
82629084|NCT00329784|164973629|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison for Peanut Wheal||||<0.001
82629085|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.361|||||||Chi-squared|||Comparison for Egg Wheal||||0.361
82629086|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Comparison for Milk Wheal||||0.760
82629087|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.834|||||||Chi-squared|||Comparison for Sesame Wheal||||0.834
82629088|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.882|||||||Chi-squared|||Comparison for Brazil Nut Wheal||||0.882
82629089|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.226|||||||Chi-squared|||Comparison for Hazel Nut Wheal||||0.226
82629090|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||Comparison for Cashew Wheal||||0.024
82629091|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.204|||||||Chi-squared|||Comparison for Walnut Wheal||||0.204
82629092|NCT00329784|164973629|SUPERIORITY_OR_OTHER|||||||0.194|||||||Chi-squared|||Comparison for Almond Wheal||||0.194
82629093|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.859|||||||Chi-squared|||Comparison for Peanut IgE||||0.859
82629094|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.885|||||||Chi-squared|||Comparison for Egg IgE||||0.885
82629095|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.403|||||||Chi-squared|||Comparison for Milk IgE||||0.403
82629096|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.106|||||||Chi-squared|||Comparison for Sesame IgE||||0.106
82629097|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.202|||||||Chi-squared|||Comparison for Brazil Nut IgE||||0.202
82629098|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.108|||||||Chi-squared|||Comparison for Hazel Nut IgE||||0.108
82629099|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.157|||||||Chi-squared|||Comparison for Cashew IgE||||0.157
82629100|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.04|||||||Chi-squared|||Comparison for Walnut IgE||||0.040
82629101|NCT00329784|164973630|SUPERIORITY_OR_OTHER|||||||0.262|||||||Chi-squared|||Comparison for Almond IgE||||0.262
82629102|NCT00926185|164973631|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.06||||0.9381|TWO_SIDED|95.0|-0.26|0.39|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.39|-0.26|0.9381
82629103|NCT00926185|164973631|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.2||||0.3585|TWO_SIDED|95.0|-0.13|0.53|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.53|-0.13|0.3585
82629104|NCT00926185|164973631|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.27||||0.1375|TWO_SIDED|95.0|-0.06|0.6|||Dunnett's test||Analysis of covariance model with treatment, baseline, and site.|||0.60|-0.06|0.1375
82629105|NCT03152110|164973646|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||||||.203
82629106|NCT03152110|164973647|SUPERIORITY|||||||0.931|||||||t-test, 2 sided|||||||0.931
82507877|NCT02016482|164706588|SUPERIORITY_OR_OTHER||Difference in percentage|44.8|||<|0.001|TWO_SIDED|95.0|33.2|56.5||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||56.5|33.2|< 0.001
82507878|NCT02016482|164706589|SUPERIORITY_OR_OTHER||Difference in percentage|18.6|||<|0.001|TWO_SIDED|95.0|10.6|26.6||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||26.6|10.6|< 0.001
82507879|NCT02016482|164706590|SUPERIORITY_OR_OTHER||Difference in percentage|36.0|||<|0.001|TWO_SIDED|95.0|25.0|46.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||46.9|25.0|< 0.001
82507880|NCT02016482|164706591|SUPERIORITY_OR_OTHER||Difference in percentage|13.3|||<|0.001|TWO_SIDED|95.0|6.5|20.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||20.0|6.5|<0.001
82507881|NCT02016482|164706592|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|||<|0.001|TWO_SIDED|95.0|-4.3|-2.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-2.8|-4.3|< 0.001
82507882|NCT02016482|164706593|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.9|||<|0.001|TWO_SIDED|95.0|-46.9|-30.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-30.8|-46.9|< 0.001
82507883|NCT02016482|164706594|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.6|||<|0.001|TWO_SIDED|95.0|-33.5|-23.7||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-23.7|-33.5|< 0.001
82507884|NCT02016482|164706595|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.1|||<|0.001|TWO_SIDED|95.0|-58.3|-41.9||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-41.9|-58.3|< 0.001
82507885|NCT02016482|164706596|SUPERIORITY_OR_OTHER||Difference in percentage|7.4||||0.004|TWO_SIDED|95.0|2.4|12.4||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||12.4|2.4|0.004
82507886|NCT02016482|164706597|SUPERIORITY_OR_OTHER||Difference in percentage|18.5|||<|0.001|TWO_SIDED|95.0|10.1|26.8||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||26.8|10.1|< 0.001
82507887|NCT02016482|164706598|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|||<|0.001|TWO_SIDED|95.0|-3.1|-1.9||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-1.9|-3.1|< 0.001
82507888|NCT02016482|164706599|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.2|||<|0.001|TWO_SIDED|95.0|-50.0|-30.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-30.4|-50.0|< 0.001
82507889|NCT02016482|164706600|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.5|||<|0.001|TWO_SIDED|95.0|-23.6|-15.3||Across all strata, P values were calculated from ANCOVA with stratum, Baseline value, and treatment in the model.|ANCOVA|||||-15.3|-23.6|< 0.001
82629107|NCT01634100|164973661|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|135.2|STANDARD_DEVIATION|7.3|||TWO_SIDED|90.0|129.58|141.06|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||141.06|129.58|
82629108|NCT01634100|164973661|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|153.47|STANDARD_DEVIATION|7.4|||TWO_SIDED|90.0|146.41|160.88|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||160.88|146.41|
82507890|NCT02016482|164706601|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.1|||<|0.001|TWO_SIDED|95.0|-10.0|-6.1||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-6.1|-10.0|< 0.001
82507891|NCT02016482|164706602|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.2|||<|0.001|TWO_SIDED|95.0|-87.3|-55.0||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-55.0|-87.3|< 0.001
82507892|NCT02016482|164706603|SUPERIORITY_OR_OTHER||Difference in percentage|51.1|||<|0.001|TWO_SIDED|95.0|38.6|63.5||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 75||63.5|38.6|< 0.001
82507893|NCT02016482|164706603|SUPERIORITY_OR_OTHER||Difference in percentage|52.5|||<|0.001|TWO_SIDED|95.0|39.9|65.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 50||65.0|39.9|< 0.001
82507894|NCT02016482|164706603|SUPERIORITY_OR_OTHER||Difference in percentage|40.9|||<|0.001|TWO_SIDED|95.0|29.0|52.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 90||52.9|29.0|< 0.001
82629109|NCT01634100|164973662|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|175.14|STANDARD_DEVIATION|15.4|||TWO_SIDED|90.0|160.14|191.56|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||191.56|160.14|
82629110|NCT01634100|164973662|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|125.6|STANDARD_DEVIATION|15.9|||TWO_SIDED|90.0|113.67|138.78|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||138.78|113.67|
82629111|NCT01634100|164973663|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and rifampicin divided by empa|Geometric Mean Ratio|136.42|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|130.61|142.48|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||142.48|130.61|
82629112|NCT01634100|164973663|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus probenecid divided by empa|Geometric Mean Ratio|153.61|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|146.5|161.06|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the intra-subject coefficient of variation.|||161.06|146.50|
82629113|NCT00471276|164973664|SUPERIORITY_OR_OTHER||Objective Response Rate (percent)|8.4|||||TWO_SIDED|95.0|3.5|16.6|||Exact 2-sided confidence interval|||||16.6|3.5|
82629114|NCT00471276|164973665|SUPERIORITY_OR_OTHER||Objective Response Rate (percent)|10.8|||||TWO_SIDED|95.0|5.1|19.6|||Exact 2-sided confidence interval|||||19.6|5.1|
82629115|NCT01487863|164973734|SUPERIORITY|||||||0.2141|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.2141
82629116|NCT01975376|164973735|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.930905|TWO_SIDED|95.0|0.8|1.22|||Log Rank|||Hazard ratio and 95 percent (%) Confidence Interval (CI) were from a Cox proportional hazards model stratified by geographic region and low density lipoprotein cholesterol (LDL-C) at pre-screening (less than \[\<\] 100 milligrams per deciliters \[mg/dL\], greater than and equal to \[\>=\] 100 mg/dL) with treatment as a co-variate.||1.22|0.80|0.930905
82629117|NCT01975376|164973736|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.784265|TWO_SIDED|95.0|0.82|1.3|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.30|0.82|0.784265
82629118|NCT01975376|164973737|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.892441|TWO_SIDED|95.0|0.81|1.2|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.20|0.81|0.892441
82629119|NCT01975376|164973738|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.845797|TWO_SIDED|95.0|0.83|1.26|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.26|0.83|0.845797
82629120|NCT01975376|164973739|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.431903|TWO_SIDED|95.0|0.49|1.36|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.36|0.49|0.431903
82629121|NCT01975376|164973740|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.883797|TWO_SIDED|95.0|0.8|1.21|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.21|0.80|0.883797
82629122|NCT01975376|164973741|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.45569|TWO_SIDED|95.0|0.74|1.95|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.95|0.74|0.455690
82629123|NCT01975376|164973742|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.469496|TWO_SIDED|95.0|0.84|1.48|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.48|0.84|0.469496
82507895|NCT02016482|164706603|SUPERIORITY_OR_OTHER||Difference in percentage|26.4|||<|0.001|TWO_SIDED|95.0|15.8|36.9||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||PASI 100||36.9|15.8|< 0.001
82629124|NCT01975376|164973743|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.633022|TWO_SIDED|95.0|0.26|9.23|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||9.23|0.26|0.633022
82629125|NCT01975376|164973744|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.46765|TWO_SIDED|95.0|0.83|1.48|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.48|0.83|0.467650
82629126|NCT01975376|164973745|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.015462|TWO_SIDED|95.0|0.32|0.89|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.89|0.32|0.015462
82629127|NCT01975376|164973746|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.011863|TWO_SIDED|95.0|0.33|0.88|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.88|0.33|0.011863
82629128|NCT01975376|164973747|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.316066|TWO_SIDED|95.0|0.12|2.0|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||2.00|0.12|0.316066
82507896|NCT02016482|164706604|SUPERIORITY_OR_OTHER||Difference in percentage|52.2|||<|0.001|TWO_SIDED|95.0|40.8|63.7||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||63.7|40.8|< 0.001
82507897|NCT02016482|164706605|SUPERIORITY_OR_OTHER||Difference in percentage|24.8|||<|0.001|TWO_SIDED|95.0|15.3|34.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||34.3|15.3|< 0.001
82507898|NCT02016482|164706606|SUPERIORITY_OR_OTHER||Difference in percentage|90.4|||<|0.001|TWO_SIDED|95.0|72.5|108.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||||108.3|72.5|< 0.001
82507899|NCT02016482|164706607|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.1|||<|0.001|TWO_SIDED|95.0|-13.9|-8.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-8.4|-13.9|< 0.001
82629129|NCT01975376|164973748|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.020328|TWO_SIDED|95.0|0.3|0.91|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||0.91|0.30|0.020328
82629130|NCT01975376|164973749|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.367069|TWO_SIDED|95.0|0.53|1.27|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.27|0.53|0.367069
82629131|NCT01975376|164973750|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.443081|TWO_SIDED|95.0|0.56|1.29|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.29|0.56|0.443081
82629132|NCT01975376|164973751|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.343817|TWO_SIDED|95.0|0.71|1.12|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.12|0.71|0.343817
82629133|NCT01975376|164973752|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.889065|TWO_SIDED|95.0|0.59|1.85|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.85|0.59|0.889065
82629134|NCT01975376|164973753|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.308388|TWO_SIDED|95.0|0.69|1.13|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.13|0.69|0.308388
82629135|NCT01975376|164973754|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.874835|TWO_SIDED|95.0|0.74|1.42|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.42|0.74|0.874835
82629136|NCT01975376|164973755|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.526269|TWO_SIDED|95.0|0.79|1.6|||Log Rank|||Hazard ratio and 95% CI were from a Cox proportional hazards model stratified by geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL) with treatment as a covariate.||1.60|0.79|0.526269
82629137|NCT01975376|164973756|SUPERIORITY||LS-mean difference|-60.57|||<|0.001|TWO_SIDED|95.0|-61.43|-59.71|||Mixed Effect Model Repeat Measurement|||Lease Square (LS)- mean differences, associated 95% CI, and p-values were from a mixed model repeated measures (MMRM) model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-59.71|-61.43|<0.001
82629138|NCT01975376|164973757|SUPERIORITY||LS-mean difference|-54.7|||<|0.001|TWO_SIDED|95.0|-55.48|-53.92|||Mixed Effect Model Repeat Measurement|||LS- mean differences and associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-53.92|-55.48|<0.001
82629139|NCT01975376|164973758|SUPERIORITY||LS-mean difference|-46.72|||<|0.001|TWO_SIDED|95.0|-47.68|-45.76|||ANCOVA|||LS- mean difference and associated 95% CI, and p-value were from an analysis of covariance (ANCOVA) model with fixed effects for treatment group, baseline value, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-45.76|-47.68|<0.001
82629140|NCT01975376|164973759|SUPERIORITY||LS-mean difference|-54.88|||<|0.001|TWO_SIDED|95.0|-55.66|-54.09|||Mixed Effect Model Repeat Measurement|||Non-HDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-54.09|-55.66|<0.001
82629141|NCT01975376|164973759|SUPERIORITY||LS-mean difference|-36.51|||<|0.001|TWO_SIDED|95.0|-37.07|-35.95|||Mixed Effect Model Repeat Measurement|||Total cholesterol: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-35.95|-37.07|<0.001
82629142|NCT01975376|164973759|SUPERIORITY||LS-mean difference|-20.17|||<|0.001|TWO_SIDED|95.0|-21.42|-18.93|||Mixed Effect Model Repeat Measurement|||VLDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-18.93|-21.42|<0.001
82629143|NCT01975376|164973759|SUPERIORITY||LS-Mean Difference|-30.25|||<|0.001|TWO_SIDED|95.0|-32.44|-28.07|||Mixed Effect Model Repeat Measurement|||RLP-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-28.07|-32.44|<0.001
82629144|NCT01975376|164973759|SUPERIORITY||LS-Mean Difference|-58.55|||<|0.001|TWO_SIDED|95.0|-59.42|-57.69|||Mixed Effect Model Repeat Measurement|||Apo B: LS -mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||-57.69|-59.42|<0.001
82629145|NCT01975376|164973759|SUPERIORITY||LS-Mean Difference|6.14|||<|0.001|TWO_SIDED|95.0|5.69|6.59|||Mixed Effect Model Repeat Measurement|||HDL-C: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||6.59|5.69|<0.001
82629146|NCT01975376|164973759|SUPERIORITY||LS-Mean Difference|3.53|||<|0.001|TWO_SIDED|95.0|3.02|4.03|||Mixed Effect Model Repeat Measurement|||Apo A-I: LS- mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||4.03|3.02|<0.001
82629147|NCT01975376|164973760|SUPERIORITY||LS-mean difference|0.67|||<|0.001|TWO_SIDED|95.0|0.66|0.68|||Mixed Effect Model Repeat Measurement|||Lp (a): LS- mean differences and associated 95% CI, and p-values were from an MMRM model on the difference of log-transformed observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||0.68|0.66|<0.001
82629148|NCT01975376|164973760|SUPERIORITY||LS-mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.8|0.81|||Mixed Effect Model Repeat Measurement|||Triglycerides: LS- mean differences and associated 95% CI, and p-values were from an MMRM model through Week 70 on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||0.81|0.80|<0.001
82629149|NCT01975376|164973761|SUPERIORITY||LS-mean difference|1.06|||<|0.001|TWO_SIDED|95.0|1.03|1.1|||Mixed Effect Model Repeat Measurement|||LS- mean differences and associated 95% CI, and p-values were from an MMRM model on the difference of log-transformed observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and LDL-C at pre-screening (\<100 mg/dL, \>=100 mg/dL).||1.10|1.03|<0.001
82629150|NCT02667392|164973806|OTHER|||||||0.77||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.77
82629151|NCT02667392|164973807|OTHER|||||||0.61||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.61
82629152|NCT02667392|164973808|OTHER|||||||0.28||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.28
82629153|NCT02667392|164973809|OTHER|||||||0.002||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.002
82629154|NCT02667392|164973810|OTHER|||||||0.02||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.02
82629155|NCT02667392|164973811|OTHER|||||||0.03||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.03
82629156|NCT02667392|164973812|OTHER|||||||0.55||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.55
82629157|NCT02667392|164973813|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.0089|||||||t-test, 2 sided|||||||0.0089
82629158|NCT02667392|164973814|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.73|||||||t-test, 2 sided|||||||0.73
82629159|NCT02667392|164973815|OTHER|a priori threshold for statistical significance set at p \< 0.05||||||0.81|||||||t-test, 2 sided|||||||0.81
82629160|NCT02667392|164973816|OTHER|||||||0.02||||||a priori threshold for statistical significance set at p \< 0.05|t-test, 2 sided|||||||0.02
82629161|NCT00118404|164973819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.079|STANDARD_ERROR_OF_MEAN|0.39||0.42|TWO_SIDED|95.0|0.5|2.34|||Log Rank|log-rank chi-square = 0.038, df = 1, p \<=.42|Hazard ratio for relapse in C-CT group compared to that in the fluoxetine group.|The sample size was based on a predicted 30% difference in relapse/recurrence rates between C-CT and fluoxetine (ie,30% vs 60%) across both the experimental phase and the first 12 months of follow-up. With these assumptions, 180 randomized patients (60 per cell) were required to detect a statistically significant difference using a log-rank test with 1-sided α = 0.05 and 80% power.||2.34|0.50|.42
82629162|NCT00118404|164973819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.481|STANDARD_ERROR_OF_MEAN|0.38||0.02|TWO_SIDED|95.0|0.23|1.01|||Log Rank|log-rank chi-square = 3.92, df = 1|Hazard Ratio for relapse in fluoxetine group compared to that in the pill placebo group.|||1.01|.23|.02
82629163|NCT00118404|164973819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.519|STANDARD_ERROR_OF_MEAN|0.36||0.03|TWO_SIDED|95.0|0.26|1.06|||Log Rank|log-rank chi-square = 3.391, df = 1|Hazard ratio for relapse in C-CT group compared to that in the placebo group.|||1.06|0.26|.03
82629164|NCT00118404|164973819|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.501|STANDARD_ERROR_OF_MEAN|0.31||0.01|TWO_SIDED|95.0|0.27|0.93|||Log Rank|log-rank chi-square = 5.06, df = 1|Hazard ratio for relapse in active treatment group (fluoxetine or C-CT) compared to that in the placebo group.|||0.93|0.27|.01
82507900|NCT02016482|164706608|SUPERIORITY_OR_OTHER||LS Mean Difference|-80.6|||<|0.001|TWO_SIDED|95.0|-97.9|-63.3||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-63.3|-97.9|< 0.001
82507901|NCT02016482|164706609|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.9|||<|0.001|TWO_SIDED|95.0|-64.0|-37.8||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-37.8|-64.0|< 0.001
82507902|NCT02016482|164706610|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.7|||<|0.001|TWO_SIDED|95.0|-73.1|-42.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-42.4|-73.1|< 0.001
82507903|NCT02016482|164706611|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.1|-0.7||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-0.7|-1.1|< 0.001
82507904|NCT02016482|164706612|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.7|||<|0.001|TWO_SIDED|95.0|-33.9|-21.6||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-21.6|-33.9|< 0.001
82507905|NCT02016482|164706613|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-7.8|-4.5||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-4.5|-7.8|< 0.001
82507906|NCT02016482|164706614|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||<|0.001|TWO_SIDED|95.0|7.1|24.3||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||DLQI = 0||24.3|7.1|< 0.001
82507907|NCT02016482|164706614|SUPERIORITY_OR_OTHER||Difference in percentage|27.1|||<|0.001|TWO_SIDED|95.0|16.7|37.4||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Cochran-Mantel-Haenszel|||DLQI = 0/1||37.4|16.7|< 0.001
82507908|NCT02016482|164706615|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.416|TWO_SIDED|95.0|-1.0|2.5||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Absenteeism||2.5|-1.0|0.416
82507909|NCT02016482|164706615|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.3|||<|0.001|TWO_SIDED|95.0|-22.9|-11.6||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Presenteeism||-11.6|-22.9|< 0.001
82566949|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.075|0.004|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.004|-0.075|
82507910|NCT02016482|164706615|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.2|||<|0.001|TWO_SIDED|95.0|-21.0|-9.3||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Overall work impairment||-9.3|-21.0|< 0.001
82629165|NCT00118404|164973820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988|STANDARD_ERROR_OF_MEAN|0.3||0.48|TWO_SIDED|95.0|0.55|1.76|||Log Rank|log-rank chi-square = 0.002, df = 1|Hazard ratio for relapse/recurrence in the C-CT group compared to that in the fluoxetine group.|||1.76|0.55|.48
82629166|NCT00118404|164973820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.31||0.14|TWO_SIDED|95.0|0.39|1.31|||Log Rank|Chi-square = 1.19, df = 1|Hazard ratio of relapse/recurrence in the Fluoxetine arm over the 20 months of follow-up since randomization compared to the pill placebo arm.|||1.31|.39|.14
82507911|NCT02016482|164706615|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.4|||<|0.001|TWO_SIDED|95.0|-27.3|-15.4||Across all strata, P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||Activity impairment||-15.4|-27.3|< 0.001
82566950|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.067|0.012|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.012|-0.067|
82629167|NCT00118404|164973820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715|STANDARD_ERROR_OF_MEAN|0.3||0.13|TWO_SIDED|95.0|0.4|1.29|||Log Rank|chi-square = 1.262, df = 1|Hazard ratio of relapse/recurrence in the C-CT arm over the 20 months of follow-up since randomization compared to the pill placebo arm.|||1.29|.40|.13
82507912|NCT02016482|164706616|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|||<|0.001|TWO_SIDED|95.0|0.1|0.2||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||0.2|0.1|< 0.001
82507913|NCT02016482|164706617|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5||||0.012|TWO_SIDED|95.0|1.2|9.8||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||9.8|1.2|0.012
82507914|NCT02016482|164706618|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1||||0.025|TWO_SIDED|95.0|-2.0|-0.1||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||HADS anxiety score||-0.1|-2.0|0.025
82629168|NCT00118404|164973820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.26||0.1|TWO_SIDED|95.0|0.43|1.2|||Log Rank|Chi-square = 1.595, df = 1|Hazard of relapse/recurrence in the active treatment (FLX or C-CT) arm compared to PBO (placebo)arm.|||1.20|.43|.10
82507915|NCT02016482|164706618|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3||||0.005|TWO_SIDED|95.0|-2.3|-0.4||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||HADS depression score||-0.4|-2.3|0.005
82507916|NCT02016482|164706619|SUPERIORITY_OR_OTHER||Difference in percentage|2.5||||0.164|TWO_SIDED|95.0|-0.9|6.0||Cochran-Mantel-Haenszel test adjusted for strata. If zero frequency occurred, strata were dropped and p-value was calculated based on chi-square test (or adjusted chi-square test based on Campbell \[2007\]).|Chi-squared|||||6|-0.9|0.164
82507917|NCT02016482|164706620|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-3.4|-2.1||P values were calculated from ANCOVA with treatment center stratum, Baseline value, and treatment in the model.|ANCOVA|||||-2.1|-3.4|< 0.001
82507918|NCT03552575|164706622|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.19|TWO_SIDED|95.0|-4.8|1.0|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||1.0|-4.8|0.19
82507919|NCT03552575|164706623|SUPERIORITY||Ratio of adjusted geometric means|0.85||||0.31|TWO_SIDED|95.0|0.63|1.16|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, and use of diuretics at baseline||||1.16|0.63|0.31
82507920|NCT03552575|164706624|SUPERIORITY||Ratio of adjusted geometric means|0.87||||0.41|TWO_SIDED|95.0|0.62|1.22|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, and use of diuretics at baseline||||1.22|0.62|0.41
82507921|NCT03552575|164706625|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.1|TWO_SIDED|95.0|-6.8|0.6|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.6|-6.8|0.10
82507922|NCT03552575|164706626|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.29|TWO_SIDED|95.0|-6.6|2.0|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||2.0|-6.6|0.29
82507923|NCT03552575|164706627|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.46|TWO_SIDED|95.0|-2.0|0.9|||Regression, Linear|adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.9|-2.0|0.46
82507924|NCT03552575|164706628|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.16|TWO_SIDED|95.0|-3.5|0.6|||Regression, Linear|Adjusted for randomized treatment, baseline value of the outcome, use of diuretics at baseline and time from randomization to cardiac MRI||||0.6|-3.5|0.16
82507925|NCT03552575|164706629|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.56
82507926|NCT04534764|164706630|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least Square Mean Difference|-0.016|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.039|0.006|||Mixed Models Analysis||LS Mean difference was calculated as Test - Control.|High Luminance Low Contrast||0.006|-0.039|
82507927|NCT04534764|164706630|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least Square Mean Difference|0.009|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.014|0.031|||Mixed Models Analysis||LS Mean difference was calculated as Test - Control.|Low Luminance High Contrast||0.031|-0.014|
82507928|NCT03161483|164706631|SUPERIORITY||Stratified difference|11.4||||0.214|TWO_SIDED|95.0|-6.57|29.0|||Cochran-Mantel-Haenszel|||||29.00|-6.57|0.214
82629169|NCT00118404|164973821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075|STANDARD_ERROR_OF_MEAN|0.27||0.4|TWO_SIDED|95.0|0.63|1.84|||Log Rank|chi-square = .07, df = 1|Hazard of relapse/recurrence for C-CT arm compared to FLX arm was reported.|||1.84|.63|.40
82507929|NCT03161483|164706631|SUPERIORITY||Stratified difference|5.0||||0.512|TWO_SIDED|95.0|-9.77|19.48|||Cochran-Mantel-Haenszel|||||19.48|-9.77|0.512
82507930|NCT03161483|164706631|SUPERIORITY||Stratified difference|19.4||||0.011|TWO_SIDED|95.0|4.12|33.42|||Cochran-Mantel-Haenszel|||||33.42|4.12|0.011
82507931|NCT03161483|164706632|SUPERIORITY||Stratified difference|10.3||||0.264|TWO_SIDED|95.0|-7.66|27.97|||Cochran-Mantel-Haenszel|||||27.97|-7.66|0.264
82629170|NCT00118404|164973821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.649|STANDARD_ERROR_OF_MEAN|0.28||0.61|TWO_SIDED|95.0|0.37|1.13|||Log Rank|chi-square = 2.407, df = 1|Hazard of relapse/recurrence in the FLX arm compared tp C-CT arm was reported.|||1.13|.37|.61
82507932|NCT03161483|164706632|SUPERIORITY||Stratified difference|6.5||||0.399|TWO_SIDED|95.0|-8.45|21.0|||Cochran-Mantel-Haenszel|||||21.00|-8.45|0.399
82507933|NCT03161483|164706632|SUPERIORITY||Stratified difference|19.3||||0.012|TWO_SIDED|95.0|4.01|33.36|||Cochran-Mantel-Haenszel|||||33.36|4.01|0.012
82507934|NCT03161483|164706633|SUPERIORITY||Stratified difference|24.0||||0.446|TWO_SIDED|95.0|-12.38|53.11|||Cochran-Mantel-Haenszel|||||53.11|-12.38|0.446
82507935|NCT03161483|164706633|SUPERIORITY||Stratified difference|5.3|||>|0.999|TWO_SIDED|95.0|-27.64|39.38|||Cochran-Mantel-Haenszel|||||39.38|-27.64|>0.999
82507936|NCT03161483|164706633|SUPERIORITY||Stratified difference|14.2||||0.488|TWO_SIDED|95.0|-19.54|44.48|||Cochran-Mantel-Haenszel|||||44.48|-19.54|0.488
82507937|NCT03161483|164706634|SUPERIORITY||Stratified difference|12.4||||0.092|TWO_SIDED|95.0|-2.74|24.07|||Cochran-Mantel-Haenszel|||||24.07|-2.74|0.092
82507938|NCT03161483|164706634|SUPERIORITY||Stratified difference|-5.3||||0.434|TWO_SIDED|95.0|-18.43|8.06|||Cochran-Mantel-Haenszel|||||8.06|-18.43|0.434
82507939|NCT03161483|164706634|SUPERIORITY||Stratified difference|8.0||||0.182|TWO_SIDED|95.0|-3.88|19.65|||Cochran-Mantel-Haenszel|||||19.65|-3.88|0.182
82507940|NCT03161483|164706635|SUPERIORITY||Stratified difference|12.1||||0.098|TWO_SIDED|95.0|-2.98|23.78|||Cochran-Mantel-Haenszel|||||23.78|-2.98|0.098
82629171|NCT00118404|164973821|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.701|STANDARD_ERROR_OF_MEAN|0.27||0.09|TWO_SIDED|95.0|0.41|1.19|||Log Rank|chi-square = 1.731, df = 1|Hazard of relapse/recurrence in the C-CT arm compared to PBO arm is reported.|||1.19|.41|.09
82629172|NCT00118404|164973821|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.676|STANDARD_ERROR_OF_MEAN|0.24||0.05|TWO_SIDED|95.0|0.42|1.08|||Log Rank|chi-square = 2.705, df = 1|Hazard of relapse/recurrence in the active treatment (FLX or C-CT) arm compared to PBO arm was reported.|||1.08|.42|.05
82629173|NCT02493868|164973836|SUPERIORITY||Hazard Ratio (HR)|0.49|||=|0.003|TWO_SIDED|95.0|0.29|0.84|||Weighted Log-rank|||||0.84|0.29|= 0.003
82507941|NCT03161483|164706635|SUPERIORITY||Stratified difference|-4.3||||0.521|TWO_SIDED|95.0|-17.36|8.92|||Cochran-Mantel-Haenszel|||||8.92|-17.36|0.521
82507942|NCT03161483|164706635|SUPERIORITY||Stratified difference|6.8||||0.267|TWO_SIDED|95.0|-5.24|18.55|||Cochran-Mantel-Haenszel|||||18.55|-5.24|0.267
82507943|NCT03161483|164706636|SUPERIORITY||Difference in adjusted mean|0.7||||0.116|TWO_SIDED|95.0|-0.2|1.5|||longitudinal data analysis model|||||1.5|-0.2|0.116
82507944|NCT03161483|164706636|SUPERIORITY||Difference in adjusted mean|0.7||||0.094|TWO_SIDED|95.0|-0.1|1.6|||longitudinal data analysis model|||||1.6|-0.1|0.094
82507945|NCT03161483|164706636|SUPERIORITY||Difference in adjusted mean|0.1||||0.881|TWO_SIDED|95.0|-0.6|0.8|||longitudinal data analysis model|||||0.8|-0.6|0.881
82507946|NCT03161483|164706637|SUPERIORITY||Difference in adjusted mean|1.1||||0.16|TWO_SIDED|95.0|-0.4|2.6|||longitudinal data analysis model|||||2.6|-0.4|0.160
82507947|NCT03161483|164706637|SUPERIORITY||Difference in adjusted mean|1.3||||0.056|TWO_SIDED|95.0|0.0|2.6|||longitudinal data analysis model|||||2.6|0.0|0.056
82507948|NCT03161483|164706637|SUPERIORITY||Difference in adjusted mean|0.3||||0.621|TWO_SIDED|95.0|-1.0|1.6|||longitudinal data analysis model|||||1.6|-1.0|0.621
82507949|NCT03161483|164706639|SUPERIORITY||Difference in adjusted mean|-1.1||||0.546|TWO_SIDED|95.0|-4.7|2.5|||longitudinal data analysis model|||||2.5|-4.7|0.546
82507950|NCT03161483|164706639|SUPERIORITY||Difference in adjusted mean|-0.6||||0.681|TWO_SIDED|95.0|-3.7|2.4|||longitudinal data analysis model|||||2.4|-3.7|0.681
82507951|NCT03161483|164706639|SUPERIORITY||Difference in adjusted mean|1.4||||0.35|TWO_SIDED|95.0|-1.6|4.4|||longitudinal data analysis model|||||4.4|-1.6|0.350
82629174|NCT02407236|164973854|SUPERIORITY||Adjusted treatment difference|10.3|||<|0.001|TWO_SIDED|95.0|5.7|14.9|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 1||14.9|5.7|< 0.001
82507952|NCT03161483|164706640|SUPERIORITY|\<= 7.5 mg/day|Stratified difference|0.2|||>|0.999|TWO_SIDED|95.0|-15.13|15.91|||longitudinal data analysis model|||||15.91|-15.13|>0.999
82507953|NCT03161483|164706640|SUPERIORITY|\< 10 mg/day|Stratified difference|-3.2|||>|0.999|TWO_SIDED|95.0|-17.74|13.0|||longitudinal data analysis model|||||13.00|-17.74|>0.999
82507954|NCT03161483|164706641|SUPERIORITY||Difference in adjusted means|2.8||||0.535|TWO_SIDED|95.0|-6.0|11.6|||longitudinal data analysis model|||||11.6|-6.0|0.535
82507955|NCT03161483|164706641|SUPERIORITY||Difference in adjusted means|4.2||||0.309|TWO_SIDED|95.0|-3.9|12.2|||longitudinal data analysis model|||||12.2|-3.9|0.309
82507956|NCT03161483|164706641|SUPERIORITY||Difference in adjusted means|6.5||||0.091|TWO_SIDED|95.0|-1.0|14.1|||longitudinal data analysis model|||||14.1|-1.0|0.091
82507957|NCT04630093|164706655|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline vs. 6 months after receiving panel-based pharmacogenetic testing||||0.001
82507958|NCT02907359|164706672|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6063|TWO_SIDED|95.0|0.74|1.19||OS between Guadecitabine vs Treatment Choice using stratified log-rank test. Due to pre-specified hierarchical testing plan, other endpoints were not evaluated for statistical significance.|Stratified Log-rank test|||||1.19|0.74|0.6063
82507959|NCT00176592|164706690|SUPERIORITY|This includes p value for rank sum test treatment comparison. This includes p value for rank sum test treatment comparison of intention to treat study population.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||This includes p value for rank sum test treatment comparison. This includes p value for rank sum test treatment comparison of intention to treat study population.||||<0.05
82507960|NCT06049043|164706694|SUPERIORITY||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|0.04||0.26|TWO_SIDED|95.0|-14.02|3.84|||t-test, 2 sided|||||3.84|-14.02|0.26
82507961|NCT06049043|164706695|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|4.84||0.44|TWO_SIDED|95.0|-13.43|5.85|||t-test, 2 sided|||||5.85|-13.43|0.44
82507962|NCT06049043|164706696|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.44||0.62|TWO_SIDED|95.0|-0.66|1.1|||t-test, 2 sided|||||1.10|-0.66|0.62
82507963|NCT06049043|164706697|SUPERIORITY||Mean Difference (Final Values)|6.34|STANDARD_ERROR_OF_MEAN|0.04||0.16|TWO_SIDED|95.0|-2.5|15.18|||t-test, 2 sided|||||15.18|-2.50|0.16
82507964|NCT06049043|164706697|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.28|TWO_SIDED|95.0|-0.13|0.04|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.04|-0.13|0.28
82507965|NCT06049043|164706698|SUPERIORITY||Mean Difference (Final Values)|1.98|STANDARD_ERROR_OF_MEAN|4.67||0.67|TWO_SIDED|95.0|-7.31|11.28|||t-test, 2 sided|||||11.28|-7.31|0.67
82507966|NCT06049043|164706698|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED|95.0|-0.12|0.08|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.08|-0.12|0.69
82507967|NCT06049043|164706699|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.32||0.09|TWO_SIDED|95.0|-0.09|1.18|||t-test, 2 sided|||||1.18|-0.09|0.09
82507968|NCT06049043|164706699|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|0.36||0.71|TWO_SIDED|95.0|-0.86|0.59|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.59|-0.86|0.71
82507969|NCT06049043|164706700|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.34||0.08|TWO_SIDED|95.0|-0.07|1.27|||t-test, 2 sided|||||1.27|-0.07|0.08
82507970|NCT06049043|164706700|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.42||0.39|TWO_SIDED|95.0|-1.21|0.48|||Regression, Linear|Controlled for participant characteristics at baseline.||||0.48|-1.21|0.39
82507971|NCT06049043|164706702|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.22||0.89|TWO_SIDED|95.0|-0.95|0.82|||t-test, 2 sided|||||0.82|-0.95|0.89
82507972|NCT01774786|164706711|SUPERIORITY|The study was designed to have 80% power to show a significant difference with respect to the primary endpoint.|Hazard Ratio (HR)|0.84||||0.0565|TWO_SIDED|95.0|0.71|1.0||The actual p-value significance threshold required for OS was 0.0455, after alpha spent at the interim analysis was taken into account.|Stratified Log-Rank|Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|HR was calculated as pertuzumab arm vs. placebo arm.|Primary Analysis. The null hypothesis is that the survival distribution of OS is the same in the two treatment arms.||1.00|0.71|0.0565
82629175|NCT02407236|164973854|SUPERIORITY||Adjusted treatment difference|10.2|||<|0.001|TWO_SIDED|95.0|5.6|14.8|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 2||14.8|5.6|< 0.001
82507973|NCT01774786|164706711|OTHER|Exploratory|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.72|0.99|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Final Analysis||0.99|0.72|
82507974|NCT01774786|164706712|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.62|0.86||As pre-specified in the protocol, a p-value was only to be calculated for PFS if OS was statistically significant.|||A stratified Cox proportional hazards regression model was used to estimate the HR between the pertuzumab arm vs. the placebo arm.|Primary Analysis||0.86|0.62|
82507975|NCT01774786|164706712|OTHER|Exploratory|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.62|0.85|||||A stratified Cox proportional hazards regression model was used to estimate the HR between the pertuzumab arm vs. the placebo arm.|Final Analysis||0.85|0.62|
82507976|NCT01774786|164706713|OTHER|Exploratory|Difference in Objective Response|8.4|||||TWO_SIDED|95.0|0.89|15.91|||||Difference in objective response was calculated as the pertuzumab arm minus placebo arm.|Primary Analysis of Objective Response Rate||15.91|0.89|
82507977|NCT01774786|164706713|OTHER|Exploratory|Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.04|1.89|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|Primary Analysis of Objective Response Rate||1.89|1.04|
82507978|NCT01774786|164706714|OTHER|Exploratory|Difference in Objective Response|8.4|||||TWO_SIDED|95.0|0.89|15.91|||||Difference in objective response was calculated as the pertuzumab arm minus placebo arm.|Final Analysis of Objective Response Rate||15.91|0.89|
82507979|NCT01774786|164706714|OTHER|Exploratory|Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.04|1.89|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|Final Analysis of Objective Response Rate||1.89|1.04|
82507980|NCT01774786|164706715|OTHER|Exploratory|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.64|1.06|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Primary Analysis||1.06|0.64|
82507981|NCT01774786|164706715|OTHER|Exploratory|Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.62|0.98|||||HR was calculated as pertuzumab arm vs. placebo arm. Stratified analysis by geographic region, HER2 status, and prior gastrectomy.|Final Analysis||0.98|0.62|
82507982|NCT01774786|164706716|OTHER|Exploratory|Difference in Clinical Benefit Rate|3.37|||||TWO_SIDED|95.0|-2.34|9.07|||||Difference in clinical benefit rate was calculated as the pertuzumab arm minus placebo arm.|||9.07|-2.34|
82507983|NCT01774786|164706716|OTHER|Exploratory|Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.86|1.88|||||Odds ratio was calculated as the pertuzumab arm vs. placebo arm.|||1.88|0.86|
82507984|NCT04544293|164706731|SUPERIORITY||Mean Difference (Net)|6.0||||0.0007|TWO_SIDED|95.0|2.5|9.4|||Mixed Models Analysis|Modelled using MMRM adjusted for baseline % predicted DLCOadj, treatment, visit, region, severity stratification and treatment-visit interaction.|Difference from placebo|||9.4|2.5|0.0007
82507985|NCT04544293|164706732|SUPERIORITY||Mean Difference (Net)|6.9||||0.0008|TWO_SIDED|95.0|2.9|10.9||Modelled using MMRM adjusted for baseline % predicted DLCOadj, treatment, visit, region, severity stratification and treatment-visit interaction.|Mixed Models Analysis||Difference from Placebo|||10.9|2.9|0.0008
82507986|NCT04544293|164706733|SUPERIORITY||Mean Difference (Net)|-6.59||||0.0072|TWO_SIDED|95.0|-11.4|-1.79|||Mixed Models Analysis|||||-1.79|-11.40|0.0072
82507987|NCT04544293|164706734|SUPERIORITY||Mean Difference (Net)|-7.81||||0.0149|TWO_SIDED|95.0|-14.1|-1.52|||Mixed Models Analysis|||||-1.52|-14.10|0.0149
82507988|NCT04544293|164706735|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0845|TWO_SIDED|95.0|-0.06|0.89|||Mixed Models Analysis|||||0.89|-0.06|0.0845
82507989|NCT04544293|164706736|SUPERIORITY||Mean Difference (Net)|-4.87||||0.1046|TWO_SIDED|95.0|-10.76|1.01|||Mixed Models Analysis|||||1.01|-10.76|0.1046
82507990|NCT04544293|164706737|SUPERIORITY||Mean Difference (Net)|-5.99||||0.1216|TWO_SIDED|95.0|-13.57|1.59|||Mixed Models Analysis|||||1.59|-13.57|0.1216
82507991|NCT04544293|164706738|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.0234|TWO_SIDED|95.0|0.07|1.03|||Mixed Models Analysis||Change from baseline compared to placebo.|||1.03|0.07|0.0234
82507992|NCT04544293|164706739|SUPERIORITY||Mean Difference (Final Values)|-4.01||||0.1043|TWO_SIDED|95.0|-8.84|0.83|||Mixed Models Analysis|||||0.83|-8.84|0.1043
82507993|NCT01951157|164706750|SUPERIORITY||The exact binomial estimator|29.2|||||TWO_SIDED|95.0|13.2|48.4||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed.||48.4|13.2|
82507994|NCT01951157|164706750|SUPERIORITY||The exact binomial estimator|19.0|||||TWO_SIDED|95.0|5.7|37.9||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed||37.9|5.7|
82507995|NCT01951157|164706750|SUPERIORITY||The exact binomial estimator|28.0|||||TWO_SIDED|95.0|12.6|46.7||||||The exact binomial estimator and its 95%CI was used. A pre-planned Bayesian supportive analysis test comparing PFS4 was performed||46.7|12.6|
82507996|NCT01951157|164706751|SUPERIORITY|Pre-specified|||||=|0.3873|||||||Log Rank|||||||= 0.3873
82507997|NCT01951157|164706755|SUPERIORITY|Pre-specified|||||=|0.0177|||||||Log Rank|||||||= 0.0177
82507998|NCT01951157|164706756|SUPERIORITY_OR_OTHER_LEGACY|Pre-specified||||||0.3526|||||||Log Rank|||||||0.3526
82507999|NCT01951157|164706757|SUPERIORITY|Pre-specified||||||0.9026|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of wilcoxon signed ranks test repeat-measure analyses of variance.||||0.9026
82629176|NCT02407236|164973855|SUPERIORITY||Adjusted treatment difference|10.3|||<|0.001|TWO_SIDED|97.5|4.8|15.8|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 1||15.8|4.8|< 0.001
82508000|NCT01951157|164706757|SUPERIORITY|||||||0.9862|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of wilcoxon signed ranks test repeat-measure analyses of variance.||||0.9862
82508001|NCT01951157|164706757|SUPERIORITY|||||||0.8057|||||||Wilcoxon signed ranks test repeat analys|||Changes in QoL scores over time were calculated and tested for statistical significance by means of ilcoxon signed ranks test repeat-measure analyses of variance.||||0.8057
82629177|NCT02407236|164973855|SUPERIORITY||Adjusted treatment difference|12.7|||<|0.001|TWO_SIDED|97.5|7.0|18.4|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with Cochran-Mantel-Haenszel (CMH) weight.|Statistical Analysis 2||18.4|7.0|< 0.001
82629178|NCT02407236|164973856|SUPERIORITY||Adjusted treatment difference|14.5||||0.002|TWO_SIDED|95.0|5.5|23.6|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 1||23.6|5.5|0.002
82629179|NCT02407236|164973856|SUPERIORITY||Adjusted treatment difference|19.7|||<|0.001|TWO_SIDED|95.0|10.3|29.0|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 2||29.0|10.3|< 0.001
82629180|NCT02407236|164973857|SUPERIORITY||Adjusted treatment difference|15.1||||0.002|TWO_SIDED|95.0|6.0|24.2|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 1||24.2|6.0|0.002
82629181|NCT02407236|164973857|SUPERIORITY||Adjusted treatment difference|17.9|||<|0.001|TWO_SIDED|95.0|8.6|27.2|||Cochran-Mantel-Haenszel||Treatment difference between ustekinumab group and placebo group was adjusted with CMH weight.|Statistical Analysis 2||27.2|8.6|< 0.001
82629182|NCT01998906|164973950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6||||0.0051|TWO_SIDED|95.0|5.0|30.2|||Chi-squared|||||30.2|5.0|0.0051
82629183|NCT01998906|164973951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3||||0.0014|TWO_SIDED|95.0|7.2|31.4|||Chi-squared|||||31.4|7.2|0.0014
82629184|NCT01998906|164973952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.3077|TWO_SIDED|95.0|-6.4|19.1|||Chi-squared|||||19.1|-6.4|0.3077
82629185|NCT01998906|164973954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0275|TWO_SIDED|95.0|0.44|0.96|||Log Rank|||||0.96|0.44|0.0275
82629186|NCT01998906|164973956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.0555|TWO_SIDED|95.0|0.35|1.02|||Log Rank|||||1.02|0.35|0.0555
82629187|NCT05724069|164973967|SUPERIORITY||Median Difference (Net)|-0.239|||=|0.1279|TWO_SIDED|95.0|-0.553|0.074|||paired T-test|||Subjects in this analysis are 15 and not 30 (this happens because arms are not mutually exclusive, as explained in previous sections). Each subject can contribute with 0, 1, 2 pairs. Only data that constitute pairs evaluable for primary endpoint are considered in the analysis; the pairs evaluable for primary endpoint were 23.||0.074|-0.553|=0.1279
82629188|NCT04984876|164973968|OTHER||Odds Ratio (OR)|25.83||||0.002|TWO_SIDED|95.0|4.34|506.78|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||506.78|4.34|0.002
82629189|NCT04984876|164973968|OTHER||Odds Ratio (OR)|5.1||||0.073|TWO_SIDED|95.0|0.8|100.98|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||100.98|0.80|0.073
82629190|NCT04984876|164973969|OTHER||Odds Ratio (OR)|9.86||||0.018|TWO_SIDED|95.0|1.69|188.85|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||188.85|1.69|0.018
82629191|NCT04984876|164973969|OTHER||Odds Ratio (OR)|3.02||||0.164|TWO_SIDED|95.0|0.45|59.93|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||59.93|0.45|0.164
82508002|NCT04809220|164706761|SUPERIORITY||LS Mean Difference|-0.29|||<|0.001|TWO_SIDED|95.0|-0.43|-0.14|||Mixed Models Analysis|||||-0.14|-0.43|<.001
82508003|NCT04809220|164706762|SUPERIORITY||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.47|-0.15|||Mixed Models Analysis|||||-0.15|-0.47|<.001
82508004|NCT04809220|164706763|SUPERIORITY||Odds Ratio (OR)|1.15||||0.56|TWO_SIDED|95.0|0.71|1.87|||Generalized Linear Mixed Model (GLM)|||For HbA1c ≤6.5%||1.87|0.71|0.560
82508005|NCT04809220|164706763|SUPERIORITY||Odds Ratio (OR)|1.61||||0.028|TWO_SIDED|95.0|1.05|2.45|||Generalized Linear Mixed Model (GLM)|||For HbA1c \< 7%||2.45|1.05|0.028
82508006|NCT04809220|164706764|SUPERIORITY||LS Mean Difference|-9.4|||<|0.001|TWO_SIDED|95.0|-14.4|-4.3|||Mixed Models Analysis|||||-4.3|-14.4|<.001
82508007|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-7.2||||0.002|TWO_SIDED|95.0|-11.7|-2.7|||ANCOVA|||Morning premeal-fasting||-2.7|-11.7|0.002
82508008|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-10.1||||0.016|TWO_SIDED|95.0|-18.3|-1.9|||ANCOVA|||Morning 2-hour post meal||-1.9|-18.3|0.016
82508009|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-8.3||||0.007|TWO_SIDED|95.0|-14.2|-2.3|||ANCOVA|||Midday premeal||-2.3|-14.2|0.007
82508010|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-12.5||||0.002|TWO_SIDED|95.0|-20.5|-4.5|||ANCOVA|||Midday 2-hour post meal||-4.5|-20.5|0.002
82508011|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-3.9||||0.158|TWO_SIDED|95.0|-9.3|1.5|||ANCOVA|||Evening premeal||1.5|-9.3|0.158
82508012|NCT04809220|164706765|SUPERIORITY||LS Mean Difference|-11.3||||0.004|TWO_SIDED|95.0|-19.0|-3.7|||ANCOVA|||Evening 2-hour post meal||-3.7|-19.0|0.004
82508013|NCT04809220|164706766|SUPERIORITY||LS Mean Difference|-0.3||||0.213|TWO_SIDED|95.0|-0.8|0.2|||Mixed Models Analysis|||||0.2|-0.8|0.213
82629192|NCT04984876|164973970|OTHER||Odds Ratio (OR)|3.47||||0.138|TWO_SIDED|95.0|0.51|70.08|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||70.08|0.51|0.138
82629193|NCT04984876|164973970|OTHER||Odds Ratio (OR)|2.21||||0.247|TWO_SIDED|95.0|0.3|45.56|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||45.56|0.30|0.247
82629194|NCT04984876|164973971|OTHER||Odds Ratio (OR)|10.59|||<|0.001|TWO_SIDED|95.0|3.63|31.56|||proportional odds model||proportional odds model adjusting for treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), log transformed baseline total IgE at screening and region.|||31.56|3.63|<0.001
82508014|NCT05218018|164706767|OTHER|||||||0.002|||||||t-test, 2 sided|||||||.002
82508015|NCT02120794|164706770|NON_INFERIORITY|non-inferiority test with an A1C margin of 0.4% and a significance level of 0.025 (one-sided).|Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.125|0.395||||||||0.395|0.125|
82508016|NCT04681482|164706782|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.54|0.7|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of MB between cohorts.||0.70|0.54|<0.001
82508017|NCT04681482|164706784|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.088|TWO_SIDED|95.0|0.66|1.03|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of stroke/SE between cohorts.||1.03|0.66|0.088
82508018|NCT04681482|164706786|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.6|0.76|||Cox Proportional Hazards Model|||Cox Proportional Hazards Model was used to compare the risk of net clinical benefit between cohorts.||0.76|0.60|<0.001
82508019|NCT03608774|164706795|SUPERIORITY||Risk Difference (RD)|0.26|||<|0.001|TWO_SIDED|95.0|0.16|0.36||Protocol pre-specified an interim analysis of the primary outcome using O'Brien-Fleming bounds to maintain an overall 5% alpha level. The trial was stopped at the interim analysis. P-value was derived using stage-wise ordering of the sample space.|Chi-squared||Protocol pre-specified an interim analysis of the primary outcome using O'Brien-Fleming bounds to maintain an overall 5% alpha level. The trial was stopped at the interim analysis. Estimates were derived using stage-wise ordering of the sample space.|||0.36|0.16|<0.001
82508020|NCT03608774|164706796|OTHER||Risk Difference (RD)|0.11|||||TWO_SIDED|95.0|0.0|0.22||||||||0.22|0.00|
82508021|NCT03608774|164706797|OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.01|0.21||||||||0.21|-0.01|
82508022|NCT03608774|164706798|OTHER||Risk Difference (RD)|0.26|||||TWO_SIDED|95.0|0.15|0.38||||||||0.38|0.15|
82508023|NCT03608774|164706799|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.28|0.7||||||||0.70|-0.28|
82508024|NCT03608774|164706800|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.28|0.7||||||||0.70|-0.28|
82508025|NCT01586819|164706801|SUPERIORITY||Z score|-3.3902||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that subjects receiving Botox A as an added pre-treatment would have lower scores on the facial wrinkle severity scale post-treatment.||||.002
82508026|NCT01586819|164706802|SUPERIORITY||Z score|3.6115||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that subjects receiving Botox A as an added pre-treatment would have higher difference scores, pre- to post-treatment, on the facial wrinkle severity scale suggesting a more pronounced effect of the chemical peel in combination with the Botox A therapy.||||.001
82508027|NCT00896337|164706803|SUPERIORITY_OR_OTHER||9-month major adverse event rate|3.4|||<|0.0001|TWO_SIDED|95.0|0.9|8.5||A one-sided exact-test was used to test the hypothesis that the primary endpoint rate in the Epic-treated cohort is less than the predefined performance goal of 17.0%.|One-sided exact-test|||MAE rate was compared to a predefined performance goal of 17.0%, based on literature-derived expected rate of 8.0% for iliac stenting plus a 9.0% margin. Study had 87% statistical power to show the MAE rate (accounting for 9-month attrition of \<=15%) is less than the performance goal, assuming a 9-month MAE rate of 8.0%. If the exact one-sided 95% upper confidence bound of the observed rate is lower than the performance goal, the Epic stent would be considered to have acceptable performance.||8.5|0.9|<0.0001
82566951|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.073|0.008|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.008|-0.073|
82629195|NCT04984876|164973971|OTHER||Odds Ratio (OR)|5.05||||0.001|TWO_SIDED|95.0|1.8|14.36|||proportional odds model||proportional odds model adjusting for treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), log transformed baseline total IgE at screening and region.|||14.36|1.80|0.001
82508028|NCT00828191|164706878|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by calculating a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower bound of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and the test group considered not inferior to the control treatment.|Difference in pregnancy rates|-2.5||||0.52|TWO_SIDED|95.0|-9.4|4.4|||Fisher Exact|||"The non -inferiority hypothesis to be tested for the primary endpoint was that the ongoing pregnancy rate (oPR) in the test group (Pe)was lower than the oPR in the control group (Pc)against the alternative one that the oPR in the test group was equal to or higher than the oPR in the control group.~H0 : Pc\>= Pe + d(-10%) H1 : Pc\< Pe + d(-10%)"||4.4|-9.4|0.52
82508029|NCT00828191|164706879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.48||0.54|TWO_SIDED|95.0|-7.6|4.0|||ANOVA|||||4.0|-7.6|0.54
82508030|NCT00828191|164706880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.0||||0.62|TWO_SIDED|95.0|-8.8|4.8|||Fisher Exact|||||4.8|-8.8|0.62
82508031|NCT01324349|164706904|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0|||<|0.0001|||||||Log Rank||Median difference equals control median minus Hemostatic Patch median in minutes.|The primary effectiveness endpoint was time to hemostasis. The Kaplan-Meier method was used to estimate the survival distribution and to obtain the estimated median time to hemostasis for each treatment. Subjects who did not achieve hemostasis by 10 minutes were to be censored as of that time point. For each treatment, 95% Brookmeyer-Crowley confidence intervals for the median were computed based upon the sign test.||||<0.0001
82508032|NCT01324349|164706905|SUPERIORITY_OR_OTHER||Risk Difference (RD)|23.2||||0.0339|TWO_SIDED|95.0|1.9|47.3|||Suissa and Shuster test||Risk difference equals percentage hemostasis for Hemostatic Patch minus percentage hemostasis for control.|The secondary effectiveness endpoint was hemostasis within 3 minutes. The number and percentage of subjects who achieved hemostasis within 3 minutes are presented for each treatment group. The proportions of subjects who achieved hemostasis within 3 minutes were compared between treatments using the Suissa and Shuster test. Additionally, a 95% Blyth-Still-Casella confidence interval for the true proportion was computed for each treatment.||47.3|1.9|0.0339
82508033|NCT01324349|164706906|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.5||||0.5029|||||||Fisher Exact||Risk difference equals percent of subjects with any treatment emergent adverse events in control group minus percent of subjects with any treatment emergent adverse events in Hemostatic Patch group.|The incidence of subjects experiencing treatment-emergent adverse events (TEAEs) (defined under this protocol as Adverse Events) was summarized by MedDRA system organ class (SOC) and preferred term (PT) for each treatment group for the safety population. Tests for differences between the two treatments in the proportion of subjects experiencing any adverse event were made using Fisher's Exact Test.||||0.5029
82508034|NCT02818218|164706909|SUPERIORITY||correlation coefficient|0.0005||||0.944|TWO_SIDED|98.3|-0.161|0.17|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.170|-0.161|0.944
82629196|NCT04984876|164973972|OTHER||Odds Ratio (OR)|4.73||||0.082|TWO_SIDED|95.0|0.74|93.16|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||93.16|0.74|0.082
82629197|NCT04984876|164973972|OTHER||Odds Ratio (OR)|0.61||||0.632|TWO_SIDED|95.0|0.02|16.43|||Regression, Logistic||logistic regression model, including treatment, age subgroup (12 - 17 yrs, 18 - 55 yrs), region as fixed class effects, as well as and log-transformed baseline total IgE at screening and log-transformed MTD at screening DBPCFC as covariates.|||16.43|0.02|0.632
82629198|NCT04984876|164973977|OTHER||LS Mean difference|-3.77|||<|0.001|TWO_SIDED|95.0|-5.15|-2.4|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-2.40|-5.15|<0.001
82508035|NCT02818218|164706910|SUPERIORITY||correlation coefficient|0.27|||<|0.001|TWO_SIDED|98.3|0.11|0.42|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.42|0.11|<0.001
82508036|NCT02818218|164706911|SUPERIORITY||correlation coefficient|0.34|||<|0.001|TWO_SIDED|98.3|0.19|0.48|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CVP. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CVP, and vice versa|||0.48|0.19|<0.001
82508037|NCT02818218|164706913|SUPERIORITY||correlation coefficient|0.07||||0.298|TWO_SIDED|98.3|-0.1|0.24|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.24|-0.10|0.298
82508038|NCT02818218|164706914|SUPERIORITY||correlation coefficient|0.22||||0.002|TWO_SIDED|98.3|0.05|0.37|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.37|0.05|0.002
82629199|NCT04984876|164973977|OTHER||LS Mean difference|-4.93|||<|0.001|TWO_SIDED|95.0|-7.77|-2.09|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-2.09|-7.77|<0.001
82629200|NCT04984876|164973977|OTHER||LS Mean difference|-3.2||||0.015|TWO_SIDED|95.0|-6.08|-0.32|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||-0.32|-6.08|0.015
82629201|NCT04984876|164973977|OTHER||LS Mean difference|-1.68||||0.13|TWO_SIDED|95.0|-4.62|1.25|||ANCOVA||ANCOVA model with treatment group, age subgroup (12 - 17 years, 18 - 55 years), region, log-transformed baseline total IgE at screening and baseline SPT mean wheal diameter (average dilutions peanut protein) as covariates.|||1.25|-4.62|0.130
82629202|NCT04984876|164973978|OTHER||LS Mean difference|-0.33||||0.173|TWO_SIDED|95.0|-1.03|0.36|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.36|-1.03|0.173
82629203|NCT04984876|164973978|OTHER||LS Mean difference|-0.29||||0.202|TWO_SIDED|95.0|-0.96|0.39|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.39|-0.96|0.202
82629204|NCT04984876|164973978|OTHER||LS Mean difference|-0.37||||0.151|TWO_SIDED|95.0|-1.09|0.34|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.34|-1.09|0.151
82629205|NCT04984876|164973978|OTHER||LS Mean difference|-0.23||||0.264|TWO_SIDED|95.0|-0.94|0.49|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.49|-0.94|0.264
82629206|NCT04984876|164973978|OTHER||LS Mean difference|-0.43||||0.123|TWO_SIDED|95.0|-1.16|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.30|-1.16|0.123
82629207|NCT04984876|164973978|OTHER||LS Mean difference|-0.23||||0.258|TWO_SIDED|95.0|-0.94|0.47|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.47|-0.94|0.258
82629208|NCT04984876|164973978|OTHER||LS Mean difference|-0.17||||0.324|TWO_SIDED|95.0|-0.92|0.58|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.58|-0.92|0.324
82629209|NCT04984876|164973978|OTHER||LS Mean difference|-0.03||||0.473|TWO_SIDED|95.0|-0.78|0.73|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.73|-0.78|0.473
82629210|NCT04984876|164973979|OTHER||LS Mean difference|0.06||||0.597|TWO_SIDED|95.0|-0.44|0.57|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.57|-0.44|0.597
82629211|NCT04984876|164973979|OTHER||LS Mean difference|-0.39||||0.064|TWO_SIDED|95.0|-0.89|0.11|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.11|-0.89|0.064
82629212|NCT04984876|164973979|OTHER||LS Mean difference|-0.22||||0.191|TWO_SIDED|95.0|-0.72|0.28|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.28|-0.72|0.191
82629213|NCT04984876|164973979|OTHER||LS Mean difference|-0.02||||0.472|TWO_SIDED|95.0|-0.51|0.48|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 1 - Total Score||0.48|-0.51|0.472
82629214|NCT04984876|164973979|OTHER||LS Mean difference|0.03||||0.537|TWO_SIDED|95.0|-0.57|0.62|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.62|-0.57|0.537
82629215|NCT04984876|164973979|OTHER||LS Mean difference|-0.32||||0.141|TWO_SIDED|95.0|-0.91|0.27|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.27|-0.91|0.141
82629216|NCT04984876|164973979|OTHER||LS Meand difference|-0.45||||0.063|TWO_SIDED|95.0|-1.04|0.13|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.13|-1.04|0.063
82629217|NCT04984876|164973979|OTHER||LS Mean difference|-0.1||||0.368|TWO_SIDED|95.0|-0.68|0.48|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAQLQ) and region as fixed effects and log-transformed total IgE at screening as a covariate|Week 12 Part 2 - Total Score||0.48|-0.68|0.368
82629218|NCT04984876|164973980|OTHER||LS Mean difference|-0.24||||0.225|TWO_SIDED|95.0|-0.87|0.39|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.39|-0.87|0.225
82629219|NCT04984876|164973980|OTHER||LS Mean difference|-0.32||||0.153|TWO_SIDED|95.0|-0.93|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.30|-0.93|0.153
82629220|NCT04984876|164973980|OTHER||LS Mean difference|-0.3||||0.179|TWO_SIDED|95.0|-0.95|0.34|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.34|-0.95|0.179
82629221|NCT04984876|164973980|OTHER||LS Mean difference|0.11||||0.631|TWO_SIDED|95.0|-0.55|0.77|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.77|-0.55|0.631
82629222|NCT04984876|164973980|OTHER||LS Mean difference|-0.52||||0.06|TWO_SIDED|95.0|-1.18|0.14|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.14|-1.18|0.060
82629223|NCT04984876|164973980|OTHER||LS Mean difference|-0.08||||0.404|TWO_SIDED|95.0|-0.72|0.56|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.56|-0.72|0.404
82629224|NCT04984876|164973980|OTHER||LS Mean difference|-0.38||||0.135|TWO_SIDED|95.0|-1.06|0.3|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.30|-1.06|0.135
82629225|NCT04984876|164973980|OTHER||LS Mean difference|0.01||||0.514|TWO_SIDED|95.0|-0.7|0.72|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.72|-0.70|0.514
82629226|NCT04984876|164973981|OTHER||LS Mean difference|0.04||||0.574|TWO_SIDED|95.0|-0.42|0.51|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.51|-0.42|0.574
82629227|NCT04984876|164973981|OTHER||LS Mean difference|-0.37||||0.056|TWO_SIDED|95.0|-0.83|0.09|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.09|-0.83|0.056
82629228|NCT04984876|164973981|OTHER||LS Mean difference|-0.36||||0.069|TWO_SIDED|95.0|-0.83|0.12|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.12|-0.83|0.069
82629229|NCT04984876|164973981|OTHER||LS Mean difference|-0.19||||0.205|TWO_SIDED|95.0|-0.65|0.27|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 1 - Total Score||0.27|-0.65|0.205
82629230|NCT04984876|164973981|OTHER||LS Mean difference|-0.2||||0.248|TWO_SIDED|95.0|-0.76|0.37|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.37|-0.76|0.248
82629231|NCT04984876|164973981|OTHER||LS Mean difference|-0.42||||0.071|TWO_SIDED|95.0|-0.98|0.14|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.14|-0.98|0.071
82629232|NCT04984876|164973981|OTHER||LS Mean difference|-0.49||||0.048|TWO_SIDED|95.0|-1.06|0.09|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.09|-1.06|0.048
82629233|NCT04984876|164973981|OTHER||LS Mean difference|-0.3||||0.142|TWO_SIDED|95.0|-0.85|0.25|||ANCOVA||ANCOVA with treatment group, baseline PRO scores (FAIM) and region as fixed effects and log-transformed total IgE at screening as a covariate.|Week 12 Part 2 - Total Score||0.25|-0.85|0.142
82629234|NCT01193049|164973992|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.25||||0.001|TWO_SIDED|90.0|0.14|0.46||1-sided p-value, α = 0.05|ANOVA|||GM Fold Reduction (FR) is the GM of individual FC(Prednisone)/FC (Placebo) from SP.||0.46|0.14|0.001
82629235|NCT01193049|164973992|SUPERIORITY_OR_OTHER||GM FR from Placebo : NE|0.2|||<|0.001|TWO_SIDED|90.0|0.13|0.3||1-sided p value, α = 0.05|ANOVA|||GM FR is the GM of individual FC(Prednisone)/FC(Placebo) from NE.||0.30|0.13|<0.001
82629236|NCT01193049|164973992|SUPERIORITY_OR_OTHER||Correlation FC from BL: SP vs NE|0.2||||0.553||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FC from BL in IL-5 after placebo treatment.||||0.553
82629237|NCT01193049|164973992|SUPERIORITY_OR_OTHER||Correlation FR from Placebo :SP vs NE|-0.02||||0.964||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FR from placebo in IL-5 after prednisone treatment.||||0.964
82629238|NCT01193049|164973993|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.27||||0.009|TWO_SIDED|90.0|0.12|0.62||1-sided p-value, α = 0.05|ANOVA|||GM FR is the GM of individual FC(Prednisone)/FC (Placebo) from SP.||0.62|0.12|0.009
82629239|NCT01193049|164973993|SUPERIORITY_OR_OTHER||GM FR from Placebo : NE|0.31|||<|0.001|TWO_SIDED|90.0|0.22|0.43||1-sided p-value, α = 0.05|ANOVA|||GM FR is the GM of individual FC Prednisone)/FC(Placebo) from NE.||0.43|0.22|<0.001
82629240|NCT01193049|164973993|SUPERIORITY_OR_OTHER||Correlation FC from BL: SP vs NE|-0.02||||0.962||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FC from BL in IL-13 after placebo treatment.||||0.962
82629241|NCT01193049|164973993|SUPERIORITY_OR_OTHER||Correlation FR from Placebo: SP vs NE|0.07||||0.83||||||Unadjusted for Baseline and Period Effects|Pearson's correlation coefficient|||Correlation between SP and NE of FR from placebo in IL-13 after prednisone treatment.||||0.83
82629242|NCT01193049|164973994|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.8||||0.258|TWO_SIDED|90.0|0.43|1.47||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from SP.||1.47|0.43|0.258
82629243|NCT01193049|164973994|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|1.08||||0.681|TWO_SIDED|90.0|0.8|1.46||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from NE.||1.46|0.80|0.681
82629244|NCT01193049|164973995|SUPERIORITY_OR_OTHER||GM FR from Placebo:SP|0.61||||0.117|TWO_SIDED|90.0|0.3|1.24||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from SP.||1.24|0.30|0.117
82629245|NCT01193049|164973995|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.64||||0.011|TWO_SIDED|90.0|0.47|0.86||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) from NE.||0.86|0.47|0.011
82629246|NCT01193049|164973997|SUPERIORITY_OR_OTHER||GM FR from Placebo: IL-5|1.51||||0.01|TWO_SIDED|90.0|1.15|1.99||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) for IL-5.||1.99|1.15|0.010
82629247|NCT01193049|164973997|SUPERIORITY_OR_OTHER||GM FR from Placebo: IL-13|1.35||||0.02|TWO_SIDED|90.0|1.07|1.71||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) for IL-13.||1.71|1.07|0.020
82629248|NCT01193049|164973998|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.82||||0.119|TWO_SIDED|90.0|0.62|1.09||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-17 from SP.||1.09|0.62|0.119
82629249|NCT01193049|164973998|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.68||||0.103|TWO_SIDED|90.0|0.41|1.14||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-17 from NE.||1.14|0.41|0.103
82508039|NCT02818218|164706915|SUPERIORITY||correlation coefficient|0.33|||<|0.001|TWO_SIDED|98.3|0.17|0.47|||Repeated measures correlation (rmcorr)||The repeated measures correlation coefficient (r\_rm) was calculated to assess the association between SVC and CI. It ranges from -1 to +1, with values closer to +1 indicating that increases in SVC are associated with increases in CI, and vice versa|||0.47|0.17|<0.001
82508040|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508041|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508042|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508043|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508044|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508045|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508046|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508047|NCT03026257|164706919|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||<0.0001
82508048|NCT01714310|164706960|SUPERIORITY|||||||0.58||||||Group: F=.31, df=1/140|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.58
82378428|NCT00879086|164465337|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-16.7|||=|0.0941|TWO_SIDED|95.0|-36.1|2.4||The two treatment groups were compared, controlling for baseline pre-existing neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (less than or equal to 3 or greater than 3), with both covariates included as binary variables.|Cochran-Mantel-Haenszel||Extended Mantel-Haenszel test statistics with stratification adjustment for pre-existing baseline neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3)|||2.4|-36.1|=0.0941
82508049|NCT01714310|164706960|SUPERIORITY|||||||0.85||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.03, df=1/140||||||.85
82629250|NCT01193049|164973999|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.6||||0.003|TWO_SIDED|90.0|0.46|0.77||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in IL-1β from SP.||0.77|0.46|0.003
82629251|NCT01193049|164973999|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.49||||0.036|TWO_SIDED|90.0|0.26|0.93||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) in IL-1β from NE.||0.93|0.26|0.036
82629252|NCT01193049|164974000|SUPERIORITY_OR_OTHER||GM FR from Placebo: SP|0.7||||0.143|TWO_SIDED|90.0|0.4|1.24||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC(Prednisone)/FC (Placebo) in MIP-1β from SP.||1.24|0.40|0.143
82629253|NCT01193049|164974000|SUPERIORITY_OR_OTHER||GM FR from Placebo: NE|0.61||||0.056|TWO_SIDED|90.0|0.37|1.02||1-sided p-value, α = 0.05|ANOVA|||GM FR from Placebo is the GM of individual FC (Prednisone)/FC (Placebo) in MIP-1β from NE.||1.02|0.37|0.056
82629254|NCT01462045|164974005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|5.7|<|0.01|TWO_SIDED|95.0|-25.6|-1.6|||t-test, 2 sided|||||-1.6|-25.6|<0.01
82629255|NCT01462045|164974006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|2.4|<|0.01|TWO_SIDED|95.0|0.83|10.8|||t-test, 2 sided|||||10.8|0.83|<0.01
82629256|NCT00592176|164974012|SUPERIORITY_OR_OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
82629257|NCT00068822|164974024|SUPERIORITY_OR_OTHER||Adjusted treatment effect|0.7||||0.49|TWO_SIDED|95.0|-1.3|2.8|||ANCOVA|||Between group comparisons, confidence intervals, and P values were calculated with the use of analysis-of-covariance models with adjustment for study group assignment, baseline value of the outcome measure, and study center. Negative treatment effects favor the control procedure, and positive treatment effects favor vertebroplasty.||2.8|-1.3|0.49
82629258|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|1.0||||0.45|TWO_SIDED|95.0|-1.7|3.7|||ANCOVA|||SF-36 Physical Component Summary treatment effect||3.7|-1.7|0.45
82629259|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|1.0||||0.83|TWO_SIDED|95.0|-3.7|4.6|||ANCOVA|||SF-36 Mental Component Summary treatment effect||4.6|-3.7|0.83
82629260|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|0.2||||0.33|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain Frequency Index treatment effect||0.6|-0.2|0.33
82629261|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|0.33||||0.33|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain Bothersome Index treatment effect||0.6|-0.2|0.33
82629262|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|0.05||||0.13|TWO_SIDED|95.0|-0.01|0.11|||ANCOVA|||EQ-5D Index treatment effect||0.11|-0.01|0.13
82629263|NCT00068822|164974025|SUPERIORITY_OR_OTHER||Treatment Effect|0.4||||0.5|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||SOF-ADL treatment effect||1.6|-0.8|0.5
82629264|NCT00068822|164974026|SUPERIORITY_OR_OTHER||Adjusted treatment effect|0.7||||0.19|TWO_SIDED|95.0|-0.3|1.7|||ANCOVA|||Between group comparisons, confidence intervals, and P values were calculated with the use of analysis-of-covariance models with adjustment for study group assignment, baseline value of the outcome measure, and study center. Negative treatment effects favor the control procedure, and positive treatment effects favor vertebroplasty.||1.7|-0.3|0.19
82629265|NCT00981292|164974027|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||A Bonferroni adjustment was made for multiplicity.|ANOVA|||This data was analysed by two-way repeated measures ANOVA (task \[epoch\] x treatment). In the case of those analyses that showed a significant main effect of treatment or a task/epoch x treatment interaction, planned comparisons of data from each task or epoch were then made between placebo and each of the EGCG treatment groups using t tests calculated with the Mean Squares Error from the ANOVA.||||<0.05
82629266|NCT00981292|164974028|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||Task performance data were analysed by within subjects ANCOVA (treatment) with pre-treatment performance included as a co-variate for each individual task/measure.||||>0.05
82629267|NCT00981292|164974029|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Mood data was analysed via student t-test.||||>0.05
82629268|NCT03321526|164974056|SUPERIORITY|||||||0.5355|TWO_SIDED||||||Log Rank|||||||0.5355
82629269|NCT01989572|164974094|SUPERIORITY_OR_OTHER_LEGACY|||||||0.528|||||||Log Rank|stratifying on HLA-A2 status, site of metastases and number of metastatic lesions.||||||0.528
82629270|NCT01989572|164974095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Log Rank|stratifying on HLA-A2 status, site of metastases, and number of metastatic lesions||||||0.131
82629271|NCT01989572|164974096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Log Rank|stratifying on GM-CSF, site of metastases and number of metastatic lesions||||||0.60
82629272|NCT01989572|164974097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||stratifying on GM-CSF, site of metastases and number of metastatic lesions|Log Rank|||||||0.71
82629273|NCT01989572|164974098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with positive HLA-A2 status||||0.88
82629274|NCT01989572|164974098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with negative HLA-A2 status||||0.69
82629275|NCT01989572|164974099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparison in patients with positive HLA-A2 status||||0.91
82629276|NCT01989572|164974099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Log Rank|stratifying on site of metastases and number of metastatic lesions||Treatment arm comparisons in patients with negative HLA-A2 status||||0.13
82508050|NCT01714310|164706960|SUPERIORITY|||||||0.26||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=1.28, df=1/140||||||.26
82629277|NCT04599972|164974100|SUPERIORITY||Odds Ratio (OR)|2.979|||<|0.01|TWO_SIDED|95.0|1.753|5.064|||Regression, Logistic|||All treatment comparisons for primary and secondary endpoints related to BDCVA were conducted with a logistic regression model including fixed effects of baseline BDCVA at 40 cm as a covariate and treatment.||5.064|1.753|<0.01
82629278|NCT04599972|164974101|SUPERIORITY||Odds Ratio (OR)|2.807|||<|0.01|TWO_SIDED|95.0|1.655|4.762|||Regression, Logistic|||||4.762|1.655|<0.01
82629279|NCT04599972|164974102|SUPERIORITY||Odds Ratio (OR)|6.002|||<|0.01|TWO_SIDED|95.0|3.431|10.499|||Regression, Logistic|||||10.499|3.431|<0.01
82629280|NCT04599972|164974103|SUPERIORITY||Odds Ratio (OR)|4.161|||<|0.01|TWO_SIDED|95.0|2.404|7.204|||Regression, Logistic|||||7.204|2.404|<0.01
82629281|NCT00638690|164974104|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.646|||<|0.0001|TWO_SIDED|95.0|0.543|0.768||Nominal P-value is 0.0142 at interim analysis based on group sequential design.|Log Rank|This was a stratified analysis.||||0.768|0.543|<0.0001
82629282|NCT00638690|164974105|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.462|0.728||Nominal P-value = 0.05.|Log Rank|This was a stratified analysis.||||0.728|0.462|<0.0001
82629283|NCT00638690|164974106|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.266|||<|0.001|TWO_SIDED|95.0|3.459|8.018||Nominal P-value = 0.05.|Chi-squared|||||8.018|3.459|<0.001
82629284|NCT00638690|164974107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.673|||<|0.0001|TWO_SIDED|95.0|0.585|0.776||The nominal P-value = 0.05.|Log Rank|This was a stratified analysis.||||0.776|0.585|<0.0001
82629285|NCT01925014|164974167|NON_INFERIORITY|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.|Risk Difference (RD)|0.013|||||TWO_SIDED|95.0|-0.008|0.033|||||The non-inferiority was established.|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.||0.033|-0.008|
82629286|NCT01925014|164974168|NON_INFERIORITY|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.|Risk Difference (RD)|0.035|||||TWO_SIDED|95.0|-0.021|0.091|||||The non-inferiority was established.|Detailed in Ahn S, LOCAT Group. Trials 2014:15:28.||0.091|-0.021|
82629287|NCT01690988|164974182|OTHER|Test of independence|Difference in Percentages|0.36|STANDARD_ERROR_OF_MEAN|3.301||0.912|TWO_SIDED|95.0|-6.07|7.38|||Chi-squared||Difference in delirium incidence between placebo control and combined ketamine groups.|The primary analysis was a comparison between the placebo control group and the combined ketamine groups||7.38|-6.07|0.912
82629288|NCT01690988|164974183|SUPERIORITY|||||||0.964|||||||ANOVA|one-way||We compared the combined average pain level (pain level at rest, taking a deep breath, and/or when moving) over the entire day (AM and PM).||||0.964
82629289|NCT01690988|164974184|SUPERIORITY|||||||0.476|||||||ANOVA|||"All morphine equivalent drugs consumed by patients perioperatively~Opioid Drugs included:~\* Postoperatively while still in hospital, the list of pain medication used included Morphine, Hydromorphone, Meperidine, Nalbuphine, Oxycodone,Oxymorphone, Tramadol, bupivacaine, (Codeine, Fentanyl, Naloxone) Total Opiates (Morphine Equivalent) in milligrams The median(IQR) opioid consumption was compared across the three study groups Placebo vs. Lo-K (0.5 mg/kg) vs. Hi-K (1 mg/kg)"||||0.476
82629290|NCT01690988|164974185|SUPERIORITY||frequency-test|0.572||||0.572|TWO_SIDED||||||Chi-squared|||"Assessed from patient-reported postoperative nausea and vomiting section of Behavioral Pain Scale or Behavioral Pain Scale (Non-Intubated) Patients where asked whether they currently have nausea/vomiting AM \& PM the response choices: None, Mild, Moderate, Severe Incidence of nausea\\vomiting accounted for any positive reporting(Mild, moderate, or sever) Daily incidence accounted for any positive incidence AM/PM in each POD Any POD nausea/vomiting reports the incidence across day 1-3"||||0.572
82629291|NCT01690988|164974187|SUPERIORITY|||||||0.01|||||||Chi-squared|||Frequency of patients reporting hallucinations using the DSAQ instrument.||||0.01
82629292|NCT01690988|164974188|SUPERIORITY|||||||0.03||||||"Patients where asked whether Following their surgery they had bad dreams or nightmares the response choices: Yes/No question The incidence of hallucination and nightmares were assessed separately and compared across the three study group."|Chi-squared|||||||0.03
82629293|NCT03054740|164974246|SUPERIORITY||||||||||||||||||Levene's Test of Equality of Error Variances (Design: Intercept + Pain Previous IV + Intervention) F = .001, df1 = 1, df2=28, Sig. = .972|||
82629294|NCT03054740|164974247|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||.390
82629295|NCT02623699|164974294|SUPERIORITY||least square (LS) mean difference|1.2|STANDARD_ERROR_OF_MEAN|2.22|=|0.9689|TWO_SIDED|95.0|-3.19|5.53||Joint rank p-value was calculated from ANCOVA model which included treatment as fixed effect, adjusts for covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, and use of riluzole or edaravone.|Joint rank||ANCOVA model included treatment as a fixed effect, adjusts for the covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, and use of riluzole or edaravone.|Joint rank test combining function and mortality were used for statistical inference and the estimates were from the Analysis of covariance (ANCOVA) for change from baseline. Multiple imputation was used to handle missing data for withdrawals other than death in the joint rank analysis. Multiple imputation was used to handle all missing data in the ANCOVA for change from baseline.||5.53|-3.19|= 0.9689
82629296|NCT02623699|164974295|SUPERIORITY||Difference in LS geometric mean ratio|0.67|||<|0.0001|TWO_SIDED|95.0|0.53|0.84|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.84|0.53|< 0.0001
82629297|NCT02623699|164974295|SUPERIORITY||Difference in LS geometric mean ratio|0.75|||=|0.0002|TWO_SIDED|95.0|0.6|0.95|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.95|0.60|=0.0002
82629298|NCT02623699|164974295|SUPERIORITY||Difference in LS geometric mean ratio|0.81|||=|0.0641|TWO_SIDED|95.0|0.65|1.02|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||1.02|0.65|=0.0641
82629299|NCT02623699|164974295|SUPERIORITY||Difference in LS geometric mean ratio|0.67|||<|0.0001|TWO_SIDED|95.0|0.53|0.84|||Wilcoxon rank sum test|||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.84|0.53|<0.0001
82508051|NCT01714310|164706961|SUPERIORITY|||||||0.97||||||Group: F=0.00, df=1/44|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline through week 12) and time2 (weeks 4-12).||||||.97
82508052|NCT01714310|164706961|SUPERIORITY||||||<|0.0002||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=136.22, df=1/44||||||<.0002
82508053|NCT01714310|164706961|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=64.90, df=1/44||||||<.0001
82508054|NCT01714310|164706962|SUPERIORITY||||||<|0.0001||||||Time: F=41.85, df=1/89, p\<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
82508055|NCT01714310|164706963|SUPERIORITY||||||<|0.0001||||||Time: F=26.65, df=1/92, p \<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
82508056|NCT01714310|164706964|SUPERIORITY||||||<|0.0001||||||Time: F=40.35, df=1/89, p \< .0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
82508057|NCT01714310|164706965|SUPERIORITY||||||<|0.0001||||||Time: F=26.36, df=1/29, p \<.0001.|Mixed Models Analysis|Linear regression of outcome change over time within single group.||||||<0.0001
82508058|NCT01714310|164706966|SUPERIORITY|||||||0.44||||||Group: F=.60, df=1/157|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.44
82508059|NCT01714310|164706966|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=22.39, df=1/157||||||<.0001
82508060|NCT01714310|164706966|SUPERIORITY|||||||0.04||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=4.40, df=1/157||||||.04
82508061|NCT01714310|164706967|SUPERIORITY|||||||0.05||||||Group: F=3.81, df=1/145|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|||No significant group\*time interactions. Group trend likely due to baseline differences.|||.05
82508062|NCT01714310|164706967|SUPERIORITY|||||||0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Tie: F=15.28, df=1/145||||||.0001
82508063|NCT01714310|164706967|SUPERIORITY|||||||0.02||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=5.42, df=1/145||||||.02
82508064|NCT01714310|164706968|SUPERIORITY|||||||0.76|||||||Chi-squared|Chi Square = .10, df=1, p=.76||||||.76
82508065|NCT01714310|164706969|SUPERIORITY|||||||0.38||||||Group: F=.78, df=1/220|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline through week 12) and time2 (weeks 4-12).||||||.38
82508066|NCT01714310|164706969|SUPERIORITY|||||||0.42||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.66, df=1/220||||||.42
82508067|NCT01714310|164706969|SUPERIORITY|||||||0.13||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.66, df=1/220||||||.13
82508068|NCT01714310|164706970|SUPERIORITY|||||||0.21||||||Group: F=1.56, df=1/222|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.21
82508069|NCT01714310|164706970|SUPERIORITY||||||<|0.0001||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=63.11, df=1/222||||||<.0001
82508070|NCT01714310|164706970|SUPERIORITY|||||||0.0004||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=12.86, df=1/222||||||.0004
82508071|NCT01714310|164706971|SUPERIORITY|||||||0.02||||||Group: F=5.42, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.02
82508072|NCT01714310|164706971|SUPERIORITY|||||||0.18||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=1.77, df=1/223||||||.18
82508073|NCT01714310|164706971|SUPERIORITY|||||||0.49||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.47, df=1/223||||||.49
82508074|NCT01714310|164706972|SUPERIORITY|||||||0.9||||||Group: F=.02, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.90
82508075|NCT01714310|164706972|SUPERIORITY|||||||0.21||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=1.60, df=1/223||||||.21
82508076|NCT01714310|164706972|SUPERIORITY|||||||0.73||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=.12, df=1/223||||||.73
82508077|NCT01714310|164706973|SUPERIORITY|||||||0.15||||||Group: F=2.05, df=1/223|Mixed Models Analysis|Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).||||||.15
82508078|NCT01714310|164706973|SUPERIORITY|||||||0.59||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time: F=.29, df=1/223||||||.59
82508079|NCT01714310|164706973|SUPERIORITY|||||||0.14||||||Partial linear regression using mixed model, assessing outcome variable over time (baseline to study week 12) and time2 (study weeks 4-12).|Mixed Models Analysis|Time2: F=2.15, df=1/223||||||.14
82508080|NCT00265616|164706983|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82508081|NCT00265616|164706984|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Fisher Exact|||||||0.67
82508082|NCT00265616|164706985|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82508083|NCT00265616|164706987|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Fisher Exact|||||||0.4
82508084|NCT00265616|164706988|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82508085|NCT01675882|164707026|SUPERIORITY||Relative risk|1.81||||0.0292|TWO_SIDED|95.0|1.05|3.11|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05. The subsequent comparison of viaskin peanut 100 µg versus placebo is not statistically significant at p\<0.05. Thus, no conclusion can be made on the comparison of viaskin peanut 50 µg vs placebo.||3.11|1.05|0.0292
82377607|NCT03417778|164462607|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUClast of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUClast change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|161.14|||||TWO_SIDED|90.0|80.77|321.48||||||An analysis of variance (ANOVA) model was fitted to the natural logarithmic transformed values of the AUClast. Two-sided 90% confidence intervals (CI) were calculated for the geometric least-squares mean (GLSM) ratio of AUClast between hepatic impairment group versus the matched control (normal hepatic function) group.||321.48|80.77|
82508086|NCT01675882|164707026|SUPERIORITY||Relative risk|1.64||||0.1074|TWO_SIDED|95.0|0.95|2.85|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05. The subsequent comparison of viaskin peanut 100 µg versus placebo is not statistically significant at p\<0.05.||2.85|0.95|0.1074
82508087|NCT01675882|164707026|SUPERIORITY||Relative risk|2.0||||0.0108|TWO_SIDED|95.0|1.18|3.38|||Fisher Exact|||The three pair-wise comparisons of viaskin peanut versus placebo were analyzed using the Bonferroni stepwise procedure, keeping the overall false-positive (alpha) risk below 5%. The comparison of viaskin peanut 250 µg versus placebo is statistically significant at p\<0.05.||3.38|1.18|0.0108
82508088|NCT01675882|164707027|SUPERIORITY||Relative risk|2.95||||0.0035|TWO_SIDED|95.0|1.34|6.49|||Fisher Exact|||||6.49|1.34|0.0035
82508089|NCT01675882|164707027|SUPERIORITY||Relative risk|2.38||||0.0453|TWO_SIDED|95.0|1.04|5.47|||Fisher Exact|||||5.47|1.04|0.0453
82508090|NCT01675882|164707027|SUPERIORITY||Relative risk|2.77||||0.0076|TWO_SIDED|95.0|1.25|6.14|||Fisher Exact|||||6.14|1.25|0.0076
82508091|NCT01675882|164707028|SUPERIORITY||Relative risk|1.5||||0.7112|TWO_SIDED|95.0|0.51|4.43|||Fisher Exact|||||4.43|0.51|0.7112
82508092|NCT01675882|164707028|SUPERIORITY||Relative risk|0.47||||0.4048|TWO_SIDED|95.0|0.1|2.28|||Fisher Exact|||||2.28|0.10|0.4048
82508093|NCT01675882|164707028|SUPERIORITY||Relative risk|1.75||||0.4705|TWO_SIDED|95.0|0.62|4.95|||Fisher Exact|||||4.95|0.62|0.4705
82508094|NCT01675882|164707029|SUPERIORITY||Relative risk|0.5||||0.5921|TWO_SIDED|95.0|0.13|1.9|||Fisher Exact|||||1.90|0.13|0.5921
82629300|NCT02623699|164974296|SUPERIORITY||Difference in LS geometric mean ratio|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78||The analysis was based on ANCOVA model with natural log transformed data. P-value for this secondary outcome measure (OM) is nominal as statistical significance was not met on the primary OM.|ANCOVA|||The ANCOVA model included covariates for the corresponding baseline value i.e. log value, baseline disease duration since symptom onset, and use of riluzole or edaravone. Multiple imputation was used to handle missing data for withdrawals. Difference in LS geometric mean ratio to baseline (BIIB067:Placebo) was calculated.||0.78|0.49|< 0.0001
82629301|NCT02623699|164974297|SUPERIORITY||Difference in LS geometric mean ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.25|0.45||The analysis was based on ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, baseline disease duration since symptom onset, and use of riluzole or edaravone.|ANCOVA|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.||Difference in LS geometric mean ratio (BIIB067:Placebo) was calculated.||0.45|0.25|< 0.0001
82629302|NCT02623699|164974298|SUPERIORITY||LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|5.829|=|0.3233|TWO_SIDED|95.0|-3.528|19.322||Joint rank p-value was calculated from ANCOVA model which included treatment as fixed effect, adjusts for covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, baseline SVC, and use of riluzole or edaravone.|Joint rank|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.|ANCOVA model included treatment as a fixed effect, adjusts for the covariates: Baseline disease duration since symptom onset, baseline ALSFRS-R total score, baseline SVC, and use of riluzole or edaravone.|Joint rank test combining function and mortality were used for statistical inference and the estimates were from the ANCOVA for change from baseline. Multiple imputation was used to handle missing data for withdrawals other than death in the joint rank analysis. Multiple imputation was used to handle all missing data in the ANCOVA for change from baseline.||19.322|-3.528|= 0.3233
82629303|NCT02623699|164974299|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.118|=|0.839|TWO_SIDED|95.0|-0.207|0.255||ANCOVA model included treatment as fixed effect and adjusts for following covariates: Baseline disease duration since symptom onset, baseline HHD overall megascore, and use of riluzole/edaravone. Missing data were handled using multiple imputation.|ANCOVA|P-value for this secondary OM is nominal as statistical significance was not met on the primary OM.||||0.255|-0.207|= 0.8390
82629304|NCT00441012|164974315|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|100.0||||||95.0|98.7|100.0|||||Exact binomial confidence interval|The purpose of the primary analysis is to demonstrate that there is an adequate seroprotection rate (percentage of participants with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose. An adequate response requires the lower bound of the two-sided 95% confidence interval for the seroprotection rate to exceed 90%.||100.0|98.7|
82629305|NCT00441012|164974315|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|99.1||||||95.0|69.9|99.9|||||Exact binomial confidence interval|The purpose of the primary analysis is to demonstrate that there is an adequate seroprotection rate (percentage of participants with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose. An adequate response requires the lower bound of the two-sided 95% confidence interval for the seroprotection rate to exceed 90%.||99.9|69.9|
82629306|NCT00441012|164974316|NON_INFERIORITY_OR_EQUIVALENCE|The Modified Process Vaccine is non-inferior to COMVAX with respect to anti-HBs GMT. The non-inferiority criterion requires that the lower bound of the two-sided 95% confidence interval on the ratio of the Month 11 GMTs \[GMT modified process vaccine/GMT COMVAX™\] is \>0.67.|Geometric Mean Titer Ratio|2.5||||||95.0|1.9|3.3||||||||3.3|1.9|
82629307|NCT00441012|164974318|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|93.9||||||95.0|90.0|96.6|||||Exact binomial confidence interval|||96.6|90.0|
82629308|NCT00441012|164974318|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|92.1||||||95.0|87.8|95.3|||||Exact binomial confidence interval|No hypothesis is being tested. The purpose of the secondary analysis is to estimate the seroprotection rate (percentage of participants with anti-PRP \> 1µg/mL) in each group at 1 month after the third dose.||95.3|87.8|
82508095|NCT01675882|164707029|SUPERIORITY||Relative risk|1.43||||0.326|TWO_SIDED|95.0|0.71|2.88|||Fisher Exact|||||2.88|0.71|0.3260
82508096|NCT01675882|164707029|SUPERIORITY||Relative risk|1.05||||1|TWO_SIDED|95.0|0.46|2.38|||Fisher Exact|||||2.38|0.46|1.0000
82508097|NCT01675882|164707030|SUPERIORITY||Difference in LS mean|70.2||||0.0607|TWO_SIDED|95.0|-2.41|193.69||P-value was based on type III sum of squares from analysis of covariance (ANCOVA) model on log transformed values for peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The least squares (LS) mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||193.69|-2.41|0.0607
82508098|NCT01675882|164707030|SUPERIORITY||Difference in LS mean|97.5||||0.015|TWO_SIDED|95.0|14.45|237.82||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||237.82|14.45|0.0150
82508099|NCT01675882|164707030|SUPERIORITY||Difference in LS mean|242.2|||<|0.0001|TWO_SIDED|95.0|100.03|482.65||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||482.65|100.03|<0.0001
82508100|NCT01675882|164707031|SUPERIORITY||Difference in LS mean|73.9||||0.0372|TWO_SIDED|95.0|2.96|225.85||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||225.85|2.96|0.0372
82508101|NCT01675882|164707031|SUPERIORITY||Difference in LS mean|96.7||||0.0143|TWO_SIDED|95.0|12.92|278.11||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||278.11|12.92|0.0143
82508102|NCT01675882|164707031|SUPERIORITY||Difference in LS mean|260.3|||<|0.0001|TWO_SIDED|95.0|89.83|625.95||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||625.95|89.83|<0.0001
82508103|NCT01675882|164707032|SUPERIORITY||Difference in LS mean|26.1||||0.6596|TWO_SIDED|95.0|-59.58|236.0||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||236.00|-59.58|0.6596
82508104|NCT01675882|164707032|SUPERIORITY||Difference in LS mean|8.9||||0.8702|TWO_SIDED|95.0|-65.9|189.96||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||189.96|-65.90|0.8702
82508105|NCT01675882|164707032|SUPERIORITY||Difference in LS mean|158.9||||0.063|TWO_SIDED|95.0|-5.5|562.31||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||562.31|-5.50|0.0630
82508106|NCT01675882|164707033|SUPERIORITY||Difference in LS mean|-80.2||||0.6776|TWO_SIDED|95.0|-237.22|782.24||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||782.24|-237.22|0.6776
82508107|NCT01675882|164707033|SUPERIORITY||Difference in LS mean|158.8||||0.5068|TWO_SIDED|95.0|-166.1|1478.83||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1478.83|-166.10|0.5068
82508108|NCT01675882|164707033|SUPERIORITY||Difference in LS mean|53.8||||0.7972|TWO_SIDED|95.0|-193.9|1085.38||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the peanut protein eliciting dose at Month 12, including treatment group, baseline eliciting dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean peanut protein eliciting dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1085.38|-193.90|0.7972
82508109|NCT01675882|164707034|SUPERIORITY||Difference in LS mean|120.0||||0.0444|TWO_SIDED|95.0|2.3|321.8||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||321.80|2.30|0.0444
82508110|NCT01675882|164707034|SUPERIORITY||Difference in LS mean|147.6||||0.0175|TWO_SIDED|95.0|19.67|365.51||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||365.51|19.67|0.0175
82508111|NCT01675882|164707034|SUPERIORITY||Difference in LS mean|386.0|||<|0.0001|TWO_SIDED|95.0|159.67|771.16||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the cumulative reactive dose at Month 12, including treatment group, baseline cumulative reactive dose, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean peanut protein cumulative reactive dose for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||771.16|159.67|<0.0001
82508112|NCT01675882|164707035|SUPERIORITY||Difference in LS mean|-0.6||||0.251|TWO_SIDED|95.0|-1.55|0.52||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||0.52|-1.55|0.2510
82508113|NCT01675882|164707035|SUPERIORITY||Difference in LS mean|-0.2||||0.682|TWO_SIDED|95.0|-1.24|1.05||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1.05|-1.24|0.6820
82508114|NCT01675882|164707035|SUPERIORITY||Difference in LS mean|0.8||||0.2117|TWO_SIDED|95.0|-0.42|2.47||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the OFC symptom scores at Month 12, including treatment group, Baseline OFC symptom scores, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group is the estimated mean OFC score for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||2.47|-0.42|0.2117
82508115|NCT01675882|164707037|SUPERIORITY||Difference in LS mean|17.4||||0.0337|TWO_SIDED|95.0|1.17|38.82||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||38.82|1.17|0.0337
82508116|NCT01675882|164707037|SUPERIORITY||Difference in LS mean|26.2||||0.002|TWO_SIDED|95.0|8.38|49.45||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||49.45|8.38|0.0020
82566952|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.059|0.023|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.023|-0.059|
82566953|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.052|0.031|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.031|-0.052|
82566954|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.068|0.017|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.017|-0.068|
82566955|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.117|-0.029|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.029|-0.117|
82566956|NCT00139659|164843180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.108|-0.015|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.015|-0.108|
82566957|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.327|STANDARD_ERROR_OF_MEAN|0.214||||90.0|-0.679|0.026|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.026|-0.679|
82566958|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.729|-0.027|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.027|-0.729|
82566959|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.696|0.004|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.004|-0.696|
82566960|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.496|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.847|-0.145|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.145|-0.847|
82566961|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.96|-0.26|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.260|-0.960|
82566962|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.219||||90.0|-0.721|0.001|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.001|-0.721|
82566963|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.221||||90.0|-0.655|0.073|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.073|-0.655|
82566964|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.224||||90.0|-0.788|-0.052|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.052|-0.788|
82566965|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.337|STANDARD_ERROR_OF_MEAN|0.231||||90.0|-0.717|0.042|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.042|-0.717|
82566966|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.789|STANDARD_ERROR_OF_MEAN|0.238||||90.0|-1.181|-0.397|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.397|-1.181|
82566967|NCT00139659|164843181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.238||||90.0|-1.178|-0.393|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.393|-1.178|
82629309|NCT02725268|164974320|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.178|TWO_SIDED|95.0|0.58|1.12||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.12|0.58|=0.178
82629310|NCT02725268|164974320|SUPERIORITY||Hazard Ratio (HR)|1.85|||=|0.092|TWO_SIDED|95.0|1.19|2.86||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.86|1.19|=0.092
82629311|NCT02725268|164974320|SUPERIORITY||Hazard Ratio (HR)|2.57|||=|0.147|TWO_SIDED|95.0|1.47|4.49||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||4.49|1.47|=0.147
82629312|NCT02725268|164974322|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.968|TWO_SIDED|95.0|0.72|1.5||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.50|0.72|=0.968
82629313|NCT02725268|164974322|SUPERIORITY||Hazard Ratio (HR)|1.5|||=|0.145|TWO_SIDED|95.0|0.95|2.37||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.37|0.95|=0.145
82629314|NCT02725268|164974322|SUPERIORITY||Hazard Ratio (HR)|1.54|||=|0.243|TWO_SIDED|95.0|0.87|2.73||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.73|0.87|=0.243
82629315|NCT02725268|164974323|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.17|TWO_SIDED|95.0|0.57|1.11||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||1.11|0.57|=0.170
82629316|NCT02725268|164974323|SUPERIORITY||Hazard Ratio (HR)|1.67|||=|0.224|TWO_SIDED|95.0|1.04|2.68||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||2.68|1.04|=0.224
82629317|NCT02725268|164974323|SUPERIORITY||Hazard Ratio (HR)|2.28|||=|0.244|TWO_SIDED|95.0|1.32|3.96||The p-value was obtained using stratified log-rank test with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|Stratified Log-rank Test||The hazard ratio was obtained using a stratified Cox proportional hazard model adjusted for histological subtype, lines of prior chemotherapy and prior taxane therapy. A hazard ratio of \<1 was considered statistically significant.|||3.96|1.32|=0.244
82629318|NCT02725268|164974324|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.66|2.9|||||The odds ratio and 95% confidence intervals were obtained using a stratified Cochran-Mantel-Haenszel (CMH) model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||2.90|0.66|
82629319|NCT02725268|164974324|SUPERIORITY||Odds Ratio (OR)|0.22|||||TWO_SIDED|95.0|0.04|1.14|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||1.14|0.04|
82629320|NCT02725268|164974324|SUPERIORITY||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.00|0.00|
82629321|NCT02725268|164974325|SUPERIORITY||Odds Ratio (OR)|3.02|||||TWO_SIDED|95.0|1.53|5.96|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||5.96|1.53|
82566968|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.066|0.023|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.023|-0.066|
82566969|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.044|0.044|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.044|-0.044|
82566970|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.056|0.032|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.032|-0.056|
82566971|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.048|0.041|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.041|-0.048|
82629322|NCT02725268|164974325|SUPERIORITY||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.18|0.86|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.86|0.18|
82629323|NCT02725268|164974325|SUPERIORITY||Odds Ratio (OR)|0.43|||||TWO_SIDED|95.0|0.15|1.21|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||1.21|0.15|
82629324|NCT02725268|164974326|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|0.89|7.67|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||7.67|0.89|
82629325|NCT02725268|164974326|SUPERIORITY||Odds Ratio (OR)|0.15|||||TWO_SIDED|95.0|0.05|0.51|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.51|0.05|
82629326|NCT02725268|164974326|SUPERIORITY||Odds Ratio (OR)|0.07|||||TWO_SIDED|95.0|0.01|0.67|||||The odds ratio and 95% confidence intervals were obtained using a stratified CMH model with histological subtype, lines of prior chemotherapy and prior taxane therapy (original stratification values).|||0.67|0.01|
82629327|NCT01838304|164974329|OTHER||Odds Ratio (OR)|7.9|||<|0.0001|TWO_SIDED|95.0|4.21|14.81|||Fisher Exact|||Fisher's exact test for odd's ratio of time below a saturation of 80% to total time||14.81|4.21|<0.0001
82629328|NCT03674541|164974331|SUPERIORITY|||||||0.043|||||||Welch's t-test|||||||0.043
82629329|NCT03674541|164974332|SUPERIORITY|||||||0.008||||||P-value was not adjusted for multiplicity for secondary outcomes|Welch's t-test|||||||0.008
82629330|NCT03674541|164974333|SUPERIORITY|||||||0.263||||||Not adjusted for multiplicity|Welch's t-test|||||||0.263
82629331|NCT03674541|164974334|SUPERIORITY|||||||0.039||||||Not adjusted for multiplicity|Welch's t-test|||||||0.039
82629332|NCT03674541|164974335|SUPERIORITY|||||||0.068||||||Not adjusted for multiplicity|Welch's t-test|||||||0.068
82629333|NCT03674541|164974336|SUPERIORITY|||||||0.045||||||Not adjusted for multiplicity|Welch's t-test|||||||0.045
82629334|NCT03674541|164974337|SUPERIORITY|||||||1||||||Not adjusted multiplicity|Welch's t-test|||||||1.000
82629335|NCT03674541|164974338|SUPERIORITY|||||||0.093||||||Not adjusted for multiplicity|Welch's t-test|||||||0.093
82629336|NCT03674541|164974339|SUPERIORITY|||||||0.427||||||Not adjusted for multiplicity|Welch's t-test|||||||0.427
82629337|NCT03674541|164974340|SUPERIORITY|||||||0.262||||||Not adjusted for multiplicity|Welch's t-test|||||||0.262
82629338|NCT03674541|164974341|SUPERIORITY|||||||0.038||||||Not adjusted for multiplicity|Welch's t-test|||||||0.038
82629339|NCT03674541|164974342|SUPERIORITY|||||||0.147|||||||Welch's t-test|||||||0.147
82629340|NCT02963766|164974345|SUPERIORITY||LS Mean difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.8|-0.7|||Mixed Models Analysis|||||-0.7|-1.8|<0.001
82629341|NCT02963766|164974346|SUPERIORITY||LS Mean difference (Final Values)|-1.0||||0.002|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||||-0.4|-1.7|0.002
82629342|NCT02963766|164974346|SUPERIORITY||LS Mean difference (Final Values)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.2|-0.9|||Mixed Models Analysis|||||-0.9|-2.2|<0.001
82629343|NCT02963766|164974347|SUPERIORITY||LS Mean difference (Final Values)|-1.44||||0.021|TWO_SIDED|95.0|-2.65|-0.22|||Mixed Models Analysis|||||-0.22|-2.65|0.021
82629344|NCT02963766|164974347|SUPERIORITY||LS Mean difference (Final Values)|-2.51|||<|0.001|TWO_SIDED|95.0|-3.72|-1.29|||Mixed Models Analysis|||||-1.29|-3.72|<0.001
82629345|NCT02963766|164974347|SUPERIORITY||LS Mean difference (Final Values)|-1.97|||<|0.001|TWO_SIDED|95.0|-3.03|-0.91|||Mixed Models Analysis|||||-0.91|-3.03|<0.001
82629346|NCT02963766|164974348|SUPERIORITY||Odds Ratio (OR)|11.038|||<|0.001|TWO_SIDED|95.0|3.491|34.902|||Regression, Logistic|||||34.902|3.491|<0.001
82629347|NCT02963766|164974348|SUPERIORITY||Odds Ratio (OR)|11.666|||<|0.001|TWO_SIDED|95.0|3.653|37.253|||Regression, Logistic|||||37.253|3.653|<0.001
82629348|NCT02963766|164974348|SUPERIORITY||Odds Ratio (OR)|11.348|||<|0.001|TWO_SIDED|95.0|4.163|30.932|||Regression, Logistic|||||30.932|4.163|<0.001
82629349|NCT02963766|164974349|SUPERIORITY||LS Mean difference (Final Values)|-0.1||||0.689|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.689
82629350|NCT02963766|164974349|SUPERIORITY||LS Mean difference (Final Values)|0.0||||0.924|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||||0.5|-0.6|0.924
82629351|NCT02963766|164974349|SUPERIORITY||LS Mean difference (Final Values)|-0.1||||0.776|TWO_SIDED|95.0|-0.6|0.4|||Mixed Models Analysis|||||0.4|-0.6|0.776
82629352|NCT00499460|164974367|SUPERIORITY|The primary hypothesis being tested is that garlic powder treatment increases metabolic clearance of oxycodone through enzyme induction and results in lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is oxycodone oral clearance. Explanatory variables include treatment, period and gender, along with their interaction terms.||||||>0.05
82629353|NCT00499460|164974368|SUPERIORITY|The secondary hypothesis being tested is that powder garlic treatment lowers Cold Pressor Test tolerance (i.e., diminished analgesic response) after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is log Tolerance AUC. Explanatory variables include treatment, period and gender, along with their interaction terms.||||||>0.05
82629354|NCT00499460|164974369|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment lowers opioid side effects after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is total SSE rating score. Explanatory variables include treatment, period, time and gender, along with their interaction terms.||||||>0.05
82629355|NCT00499460|164974370|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment lowers opioid side effects after oxycodone administration due to a more rapid metabolic clearance and lower exposure to oxycodone.|||||>|0.05||||||Significance probability for the treatment variable in the Generalized Linear Model|Generalized Estimating Equations|Response variable is total CASE rating score. Explanatory variables include treatment, period, time and gender, along with their interaction terms.||||||>0.05
82566972|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.089|-0.001|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.001|-0.089|
82629356|NCT00499460|164974371|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|Garlic powder versus placebo||The secondary hypothesis being tested is that garlic powder induces CYP3A-mediated metabolism resulting in a lower oral midazolam AUC.||||>0.05
82629357|NCT00499460|164974372|SUPERIORITY|The secondary hypothesis being tested is that garlic powder treatment induces intestinal P-glycoprotein, reduces the bioavailability and hence AUC of orally administered digoxin.|||||>|0.05|||||||t-test, 1 sided|Garlic powder versus placebo||||||>0.05
82629358|NCT03209362|164974373|SUPERIORITY||Least Squares Mean Difference|-2.9||||0.5453|TWO_SIDED|95.0|-12.4|6.6|||ANCOVA|||||6.6|-12.4|0.5453
82629359|NCT03209362|164974374|SUPERIORITY||Least Squares Mean Difference|-3.5||||0.5386|TWO_SIDED|95.0|-14.9|7.8|||Longitudinal model|||Week 12||7.8|-14.9|0.5386
82629360|NCT03209362|164974374|SUPERIORITY||Least Squares Mean Difference|-3.3||||0.5873|TWO_SIDED|95.0|-15.2|8.6|||Longitudinal model|||Week 26||8.6|-15.2|0.5873
82629361|NCT03209362|164974375|SUPERIORITY||Least Squares Mean Difference|-2.9||||0.6347|TWO_SIDED|95.0|-15.0|9.2|||Longitudinal model|||Week 12||9.2|-15.0|0.6347
82629362|NCT03209362|164974375|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.7806|TWO_SIDED|95.0|-14.3|10.8|||Longitudinal model|||Week 26||10.8|-14.3|0.7806
82629363|NCT03209362|164974376|SUPERIORITY||Least Squares Mean Difference|-0.9||||0.8819|TWO_SIDED|95.0|-13.2|11.4|||Longitudinal model|||Week 12||11.4|-13.2|0.8819
82629364|NCT03209362|164974376|SUPERIORITY||Least Squares Mean Difference|-5.6||||0.3796|TWO_SIDED|95.0|-18.3|7.1|||Longitudinal model|||Week 26||7.1|-18.3|0.3796
82629365|NCT03209362|164974377|SUPERIORITY||Least Squares Mean Difference|-3.0||||0.6217|TWO_SIDED|95.0|-14.9|9.0|||Longitudinal model|||Week 12||9.0|-14.9|0.6217
82629366|NCT03209362|164974377|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.6901|TWO_SIDED|95.0|-14.8|9.8|||Longitudinal model|||Week 26||9.8|-14.8|0.6901
82629367|NCT00323427|164974378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.0974||0.69|TWO_SIDED|95.0|-0.15|0.23||No multiple testing adjustment.|t-test, 2 sided|||H0: Mean(Arm 1) = Mean(Arm 2)||0.23|-0.15|0.69
82629368|NCT00323427|164974379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.42|TWO_SIDED|95.0|-0.16|0.38||No adjustment.|t-test, 2 sided|||H0: Mean(Arm 1) = Mean(Arm 2)||0.38|-0.16|0.42
82629369|NCT00323427|164974380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.15||0.97|TWO_SIDED|95.0|-0.3|0.29||No adjustment|t-test, 2 sided|||H0: mean(Arm 1) = Mean (Arm 2)||0.29|-0.30|0.97
82629370|NCT05849441|164974381|SUPERIORITY|||||||0.04||||||This is for the subscale: Support-Seeking.|Regression, Linear|||||||0.04
82629371|NCT05849441|164974381|SUPERIORITY|||||||0.02||||||This is for subscale: Problem Solving|Regression, Linear|||||||0.02
82629372|NCT05849441|164974381|SUPERIORITY|||||||0.55||||||This is for subscale: Distancing|Regression, Linear|||||||0.55
82629373|NCT05849441|164974381|SUPERIORITY|||||||0.79||||||This is for subscale: Internalizing|Regression, Linear|||||||0.79
82629374|NCT05849441|164974381|SUPERIORITY|||||||0.93||||||This is for subscale: Externalizing|Regression, Linear|||||||0.93
82629375|NCT05849441|164974381|SUPERIORITY|||||||0.09||||||This is for subscale: Mindfulness|Regression, Linear|||||||0.09
82629376|NCT05849441|164974382|SUPERIORITY|||||||0.32||||||This is for subscale: Reappraisal|Regression, Linear|||||||0.32
82629377|NCT05849441|164974382|SUPERIORITY|||||||0.24||||||This is for subscale: Suppression|Regression, Linear|||||||0.24
82629378|NCT05849441|164974383|SUPERIORITY|||||||0.53||||||This is for subscale: Manage own emotions|Regression, Linear|||||||0.53
82629379|NCT05849441|164974383|SUPERIORITY|||||||0.16||||||This is for subscale: Identify and Understand Own Emotions|Regression, Linear|||||||0.16
82629380|NCT05849441|164974383|SUPERIORITY|||||||0.27||||||This is for subscale: Deal with emotions of others|Regression, Linear|||||||0.27
82629381|NCT05849441|164974383|SUPERIORITY|||||||0.59||||||This is for subscale: Perceive emotions through faces and bodies|Regression, Linear|||||||0.59
82629382|NCT05849441|164974384|SUPERIORITY|||||||0.16|||||||Regression, Linear|||||||0.16
82629383|NCT05849441|164974385|SUPERIORITY|||||||0.65||||||This is for subscale: Fear of Negative Evaluation|Regression, Linear|||||||0.65
82629384|NCT05849441|164974385|SUPERIORITY|||||||0.6||||||This is for subscale: Social avoidance and distress (new)|Regression, Linear|||||||0.60
82629385|NCT05849441|164974385|SUPERIORITY|||||||0.23||||||This is for subscale: social avoidance and distress (general)|Regression, Linear|||||||0.23
82629386|NCT05849441|164974386|SUPERIORITY|||||||0.55|||||||Regression, Linear|||||||0.55
82629387|NCT05849441|164974387|SUPERIORITY|||||||0.11||||||This is for subscale: Negativity|Regression, Linear|||||||0.11
82629388|NCT05849441|164974387|SUPERIORITY|||||||0.79||||||This is for subscale: Emotion regulation|Regression, Linear|||||||0.79
82629389|NCT05849441|164974388|SUPERIORITY|||||||0.14||||||This is for subscale: Working Memory|Regression, Linear|||||||0.14
82629390|NCT05849441|164974388|SUPERIORITY|||||||0.2||||||This is for subscale: Planning|Regression, Linear|||||||0.20
82629391|NCT05849441|164974388|SUPERIORITY|||||||0.48||||||This is for subscale: Inhibit|Regression, Linear|||||||0.48
82629392|NCT05849441|164974388|SUPERIORITY|||||||0.37||||||This is for subscale: Regulation|Regression, Linear|||||||0.37
82629393|NCT05849441|164974389|SUPERIORITY|||||||0.45|||||||Regression, Linear|||||||0.45
82629394|NCT05849441|164974390|SUPERIORITY|||||||0.88|||||||Regression, Linear|||||||0.88
82629395|NCT01627782|164974397|SUPERIORITY_OR_OTHER_LEGACY||Difference of Least Square Means|-16.0|||<|0.001|TWO_SIDED|70.0|-20.0|-12.01|||Mixed Effect Model Repeated Measure|||||-12.01|-20.00|< 0.001
82629396|NCT01627782|164974397|SUPERIORITY_OR_OTHER_LEGACY||Difference of Least Square Means|-16.4|||<|0.001|TWO_SIDED|70.0|-18.96|-13.84|||Mixed Effect Model Repeated Measure|||||-13.84|-18.96|< 0.001
82629397|NCT00089999|164974462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.691|TWO_SIDED|95.0|0.3|1.9|||Fisher Exact|||||1.9|0.3|0.691
82629398|NCT00089999|164974463|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.443|TWO_SIDED|95.0|0.3|1.6|||Fisher Exact||Overall Response (i.e. sum of Complete and Partial Responses) comparison|||1.6|0.3|0.443
82629399|NCT00616772|164974482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.22|TWO_SIDED|95.0|-0.016|0.004|||Repeated measures linear mixed model|Fixed effects for baseline cIMT, baseline atorvastatin dose, central imaging site, treatment group, time; interaction between treatment group and time||||0.004|-0.016|0.220
82629400|NCT00616772|164974483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.813|TWO_SIDED|95.0|-0.014|0.011|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline cIMT as covariate.||||0.011|-0.014|0.813
82629401|NCT00616772|164974484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.249|TWO_SIDED|95.0|-0.018|0.005|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.005|-0.018|0.249
82629402|NCT00616772|164974485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005||||0.487|TWO_SIDED|95.0|-0.02|0.01|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.010|-0.020|0.487
82629403|NCT00616772|164974486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.112|TWO_SIDED|95.0|-0.004|0.035|||Repeated measures linear mixed model|Fixed effects for baseline atorvastatin dose, imaging site, treatment, time; interaction between treatment group and time; baseline IMT as covariate||||0.035|-0.004|0.112
82629404|NCT03991468|164974487|NON_INFERIORITY|A Mixed Model Repeated Measures logistic regression was used to prove WSI major discordance (MD) rate non-inferior to Glass MD rate. A two-sided 95% CI for the difference in MD rate was constructed. If the upper bound of the 95% CI was less than the non-inferiority margin of 4%, then WSI would be considered non-inferior to Glass, assuming power = 0.9 and alpha = 0.05 a sample size of 2000 was calculated to be sufficient to prove non-inferiority.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis|Dependent var = major discordance status (yes/no); independent var = modality (WSI/Glass) as a fixed effect \& site, reader, \& case as random effects.||||1.0|-0.1|
82629405|NCT02859558|164974505|SUPERIORITY|||||||0.48||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||0.48
82629406|NCT02859558|164974505|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
82629407|NCT02859558|164974505|SUPERIORITY|||||||0.5||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.50
82629408|NCT02859558|164974505|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
82629409|NCT02859558|164974505|SUPERIORITY|||||||0.44||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.44
82629410|NCT02859558|164974505|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
82629411|NCT02859558|164974506|SUPERIORITY|||||||0.39||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.39
82629412|NCT02859558|164974506|SUPERIORITY|||||||0.46||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.46
82629413|NCT02859558|164974506|SUPERIORITY|||||||0.056||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.056
82629414|NCT02859558|164974506|SUPERIORITY|||||||0.025||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.025
82629415|NCT02859558|164974506|SUPERIORITY|||||||0.072||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.072
82629416|NCT02859558|164974506|SUPERIORITY|||||||0.47||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.47
82629417|NCT02859558|164974506|SUPERIORITY|||||||0.086||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.086
82629418|NCT02859558|164974506|SUPERIORITY|||||||0.18||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.18
82508117|NCT01675882|164707037|SUPERIORITY||Difference in LS mean|20.0||||0.012|TWO_SIDED|95.0|3.85|40.91||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all Baseline covariates in the analysis set.||40.91|3.85|0.0120
82508118|NCT01675882|164707041|SUPERIORITY||Difference in LS mean|1.2|||<|0.0001|TWO_SIDED|95.0|0.72|1.9||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||1.90|0.72|<0.0001
82629419|NCT02859558|164974506|SUPERIORITY|||||||0.88||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.88
82629420|NCT02859558|164974506|SUPERIORITY|||||||0.061||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.061
82629421|NCT02859558|164974506|SUPERIORITY|||||||0.042||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.042
82629422|NCT02859558|164974506|SUPERIORITY|||||||0.54||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD4+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.54
82629423|NCT02859558|164974507|SUPERIORITY|||||||0.97||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.97
82629424|NCT02859558|164974507|SUPERIORITY|||||||0.21||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.21
82629425|NCT02859558|164974507|SUPERIORITY|||||||0.12||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Env protein stimulant.||||0.12
82629426|NCT02859558|164974507|SUPERIORITY|||||||0.055||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.055
82629427|NCT02859558|164974507|SUPERIORITY|||||||0.28||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.28
82629428|NCT02859558|164974507|SUPERIORITY|||||||0.38||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Gag protein stimulant.||||0.38
82629429|NCT02859558|164974507|SUPERIORITY|||||||0.35||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.35
82508119|NCT01675882|164707041|SUPERIORITY||Difference in LS mean|1.3|||<|0.0001|TWO_SIDED|95.0|0.79|2.01||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||2.01|0.79|<0.0001
82508120|NCT01675882|164707041|SUPERIORITY||Difference in LS mean|2.1|||<|0.0001|TWO_SIDED|95.0|1.39|3.11||P-value was based on type III sum of squares from an ANCOVA model on log transformed values for the immunological marker at Month 12, including treatment group, Baseline marker, age-strata and country as covariates.|ANCOVA|||The LS mean for any given treatment group was the estimated mean for a participant in that treatment group with the mean value for all baseline covariates in the analysis set.||3.11|1.39|<0.0001
82508121|NCT03754959|164707089|OTHER||Ratio|97.9|||||TWO_SIDED|90.0|90.2|106.2|||||Ratio is calculated with Placebo+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.2|90.2|
82508122|NCT03754959|164707089|OTHER||Ratio|95.9|||||TWO_SIDED|90.0|89.9|102.4|||||Ratio is calculated with BI 1358894 10 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|||102.4|89.9|
82508123|NCT03754959|164707089|OTHER||Ratio|101.0|||||TWO_SIDED|90.0|96.3|106.1|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.1|96.3|
82629430|NCT02859558|164974507|SUPERIORITY|||||||0.007||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.007
82629431|NCT02859558|164974507|SUPERIORITY|||||||0.045||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Nef protein stimulant.||||0.045
82629432|NCT02859558|164974507|SUPERIORITY|||||||0.085||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 2 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.085
82629433|NCT02859558|164974507|SUPERIORITY|||||||0.044||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 1 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.044
82629434|NCT02859558|164974507|SUPERIORITY|||||||0.6||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference between Arm 2 and Arm 3 in percentage of HIV-1-specific CD8+ T-cells expressing any cytokine (CD40L, CD107a, IFNg, MIP1B, TNFa) in response to Pol protein stimulant.||||0.60
82629435|NCT02859558|164974508|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Joint Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
82629436|NCT02859558|164974508|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Joint Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
82629437|NCT02859558|164974508|SUPERIORITY|||||||0.64||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||0.64
82629438|NCT02859558|164974508|SUPERIORITY|||||||0.69||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.69
82629439|NCT02859558|164974508|SUPERIORITY|||||||0.4||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Integrase Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||0.40
82629440|NCT02859558|164974508|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 1 and Arm 2 in the proportion of participants with undetectable CA-DNA.||||1
82629441|NCT02859558|164974508|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons. P-value based on two-sided test.|Fisher Exact|||Results from Gag Assay. Null Hypothesis: There is no difference between Arm 2 and Arm 3 in the proportion of participants with undetectable CA-DNA.||||1
82629442|NCT01077193|164974522|NON_INFERIORITY_OR_EQUIVALENCE|See above.|Mean Percent Excess Weight Loss|37.9|STANDARD_DEVIATION|25.18||0.3227|TWO_SIDED|95.0|30.2|45.5||No multiple comparison adjustments are necessary as this is a single hypothesis on 1 parameter for a within group change comparison to 36.1%.|t-test, 1 sided|||A sample size of 32 achieves power\>90% to demonstrate non-inferiority using a one-sided t-test (alpha=0.025) when the margin of equivalence is a 5% difference in EWL. The true difference between %EWL for patients undergoing a greater curvature procedure and the target %EWL is hypothesized to be 0. The target %EWL at 3 years is 41.1%, based upon prior studies. This power analysis assumes data are drawn from a single population with a standard deviation of 8.20.||45.5|30.2|0.3227
82629443|NCT02234050|164974530|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.204|TWO_SIDED|80.0|0.997|2.028|||Regression, Cox|||||2.028|0.997|0.204
82629444|NCT02234050|164974533|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.94|TWO_SIDED|95.0|0.53|1.71|||Regression, Cox|||||1.71|0.53|0.94
82629445|NCT00424099|164974558|OTHER|||||||0.16|||||||Kruskal-Wallis|||||||0.16
82629446|NCT00424099|164974559|OTHER|||||||0.45|||||||Kruskal-Wallis|||||||0.45
82629447|NCT03377452|164974560|SUPERIORITY||Mean Difference (Final Values)|7.26|STANDARD_ERROR_OF_MEAN|6.02||0.2313|TWO_SIDED|95.0|-4.71|19.22|||t-test, 2 sided|||||19.22|-4.71|0.2313
82629448|NCT03377452|164974561|SUPERIORITY||Mean Difference (Net)|-3.31|STANDARD_ERROR_OF_MEAN|0.81|<|0.001|TWO_SIDED|95.0|-4.91|-1.72|||Mixed Models Analysis||The parameter estimate is the change in the outcome from baseline to 3-months after the last intervention/control session for the intervention group versus the same change in the control group.|||-1.72|-4.91|<0.001
82629449|NCT02280096|164974575|SUPERIORITY||t-boostrap|0.028||||0.028|TWO_SIDED||||||t-test, 1 sided|||||||0.028
82629450|NCT02280096|164974576|SUPERIORITY||t-boostrap|0.001||||0.001|ONE_SIDED||||||t-test, 1 sided|||||||0.001
82629451|NCT02280096|164974577|SUPERIORITY||t-boostrap|0.016||||0.016|TWO_SIDED||||||t-test, 1 sided|||||||0.016
82629452|NCT02280096|164974578|SUPERIORITY||t-boostrap|0.64||||0.64|ONE_SIDED||||||t-test, 1 sided|||Reading speed||||0.64
82629453|NCT02280096|164974578|SUPERIORITY||t-boostrap|0.43||||0.43|TWO_SIDED||||||t-test, 1 sided|||Count speed||||0.43
82629454|NCT02280096|164974578|SUPERIORITY||t-boostrap|0.9||||0.9|TWO_SIDED||||||t-test, 1 sided|||Alternation||||0.9
82629455|NCT02280096|164974579|SUPERIORITY||t-boostrap|0.83||||0.83|TWO_SIDED||||||t-test, 1 sided|||||||0.83
82629456|NCT02280096|164974580|SUPERIORITY||t-boostrap|0.92||||0.92|ONE_SIDED||||||t-test, 1 sided|||||||0.92
82629457|NCT02280096|164974581|SUPERIORITY||t-boostrap|0.017||||0.017|TWO_SIDED||||||t-test, 1 sided|||Total moves||||0.017
82629458|NCT02280096|164974581|SUPERIORITY||t-boostrap|0.01||||0.01|TWO_SIDED||||||t-test, 1 sided|||Correct moves||||0.010
82629459|NCT02280096|164974582|SUPERIORITY||t-boostrap|0.001||||0.001|TWO_SIDED||||||t-test, 1 sided|||Execution time||||0.001
82629460|NCT02280096|164974582|SUPERIORITY||t-boostrap|0.001||||0.001|TWO_SIDED||||||t-test, 1 sided|||Problem-solving time||||0.001
82629461|NCT02972593|164974595|OTHER|Data collapsed to participant level, creating an ever/never response for each participant for each infection outcome type. Analyses performed at the participant level to determine if proportion of outcome types were similar between transfusion groups using Fisher's Exact tests, due to small expected cell counts, using SAS v9.4 (SAS Institute, Cary, NC). Power analyses performed based on these proportions using bootstrapping methods in SAS and confirmed with nQuery v8.7.1.0.||||||0.0122|||||||Fisher Exact|||||||.0122
82629462|NCT02972593|164974596|OTHER|||||||0.7742|||||||Fisher Exact|||||||.7742
82629463|NCT02972593|164974597|OTHER|||||||0.1443|||||||t-test, 1 sided|||||||.1443
82629464|NCT00605358|164974598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.018|TWO_SIDED|95.0|1.17|4.93|||Chi-squared|||Participants in the Open Door Intervention and the Services Referral condition were compared on rates of engagement in mental health services over the study follow-up period.||4.93|1.17|.018
82629465|NCT00554853|164974600|SUPERIORITY_OR_OTHER|||||||0.63|||||||ANCOVA|||||||0.63
82629466|NCT02203916|164974615|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.317|STANDARD_ERROR_OF_MEAN|2.4502|<|0.001|TWO_SIDED|95.0|-18.138|-8.497||"Overall type 1 error rate of 0.05 was controlled using principle of 'closed' testing: each pairwise comparison to placebo was conducted at 0.05 level with no p-value adjustment if hypothesis all treatment groups equal was first rejected at 0.05."|ANCOVA|Post-baseline p-values were from an ANCOVA model with treatment as a fixed factor and baseline values as a continuous covariate.||||-8.497|-18.138|<0.001
82629467|NCT02203916|164974615|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.955|STANDARD_ERROR_OF_MEAN|2.447|<|0.001|TWO_SIDED|95.0|-19.77|-10.141||"Overall type 1 error rate of 0.05 was controlled using principle of 'closed' testing: each pairwise comparison to placebo was conducted at 0.05 level with no p-value adjustment if hypothesis all treatment groups equal was first rejected at 0.05."|ANCOVA|Post-baseline p-values were from an ANCOVA model with treatment as a fixed factor and baseline values as a continuous covariate.||||-10.141|-19.770|<0.001
82629468|NCT00414973|164974620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|2.89|5.89||There were no adjustments for multiple comparisons.|ANCOVA||Difference = Teriparatide minus Calcitonin|Null hypothesis=no difference between percentage changes from baseline in lumbar spine bone mineral density for female patients receiving teriparatide compared to female patients receiving calcitonin.||5.89|2.89|<0.0001
82629469|NCT00414973|164974621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.7||0.9062||95.0|-1.3|1.46|||ANCOVA||Difference = Teriparatide minus Calcitonin|||1.46|-1.30|0.9062
82629470|NCT00414973|164974622|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 12 Percentage Change.|Wilcoxon Rank-Sum Test|||||||<0.0001
82629471|NCT00414973|164974622|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 24 Percentage Change.|Wilcoxon Rank-Sum Test|||||||<0.0001
82629472|NCT00414973|164974623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.63|STANDARD_ERROR_OF_MEAN|2.2||0.2409||95.0|-1.87|7.13|||ANCOVA||Difference = Teriparatide minus Calcitonin|||7.13|-1.87|0.2409
82629473|NCT00414973|164974624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.96|STANDARD_ERROR_OF_MEAN|1.9||0.6156||95.0|-4.85|2.92|||ANCOVA||Difference = Teriparatide minus Calcitonin|||2.92|-4.85|0.6156
82629474|NCT00414973|164974625|SUPERIORITY_OR_OTHER|||||||0.0026||95.0||||P-value for Week 12 Percentage Change.|Wilcoxon Rank-Sum Test|||||||0.0026
82629475|NCT00414973|164974625|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||P-value for 24 Week Percentage Change.|Wilcoxon Rank-Sum Test|||||||0.0006
82629476|NCT01512693|164974638|NON_INFERIORITY_OR_EQUIVALENCE|Similarity will be concluded if the GMR (moderate hepatic insufficiency / healthy) is contained within the interval \[0.40, 2.50\].|GMR|0.85|||||TWO_SIDED|90.0|0.61|1.19||||||Natural log-transformed plasma values were analyzed using an analysis of covariance (ANCOVA) model with a categorical factor for population (moderate hepatic insufficiency participants, healthy matched control participants) and continuous covariates for age and body mass index (BMI). Data are back transformed to geometric least-squares mean ratio (GMR) (moderate hepatic insufficiency / healthy) and 90% confidence intervals.||1.19|0.61|
82629477|NCT01512693|164974639|SUPERIORITY_OR_OTHER||GMR|0.71|||||TWO_SIDED|90.0|0.51|1.0||||||Natural log-transformed plasma values were analyzed using an ANCOVA model with a categorical factor for population (moderate hepatic insufficiency participants, healthy matched control participants) and continuous covariates for age and BMI. Data are back transformed to GMR (moderate hepatic insufficiency / healthy) and 90% confidence intervals.||1.00|0.51|
82629478|NCT02044367|164974642|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|137.01|STANDARD_DEVIATION|26.8|||TWO_SIDED|90.0|125.773|149.25|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||149.250|125.773|
82629479|NCT02044367|164974642|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|130.43|STANDARD_DEVIATION|27.1|||TWO_SIDED|90.0|119.628|142.2|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||142.200|119.628|
82629480|NCT02044367|164974643|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|146.16|STANDARD_DEVIATION|31.6|||TWO_SIDED|90.0|132.217|161.576|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||161.576|132.217|
82629481|NCT02044367|164974643|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|141.06|STANDARD_DEVIATION|31.5|||TWO_SIDED|90.0|127.644|155.876|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||155.876|127.644|
82629482|NCT02044367|164974644|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|137.61|STANDARD_DEVIATION|26.5|||TWO_SIDED|90.0|126.418|149.797|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||149.797|126.418|
82629483|NCT02044367|164974644|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|132.0|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|120.714|144.342|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||144.342|120.714|
82629484|NCT02044367|164974645|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T1/R (%)|147.8|STANDARD_DEVIATION|32.4|||TWO_SIDED|90.0|133.384|163.779|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||163.779|133.384|
82629485|NCT02044367|164974645|NON_INFERIORITY_OR_EQUIVALENCE|The sample size determination was not based on a power calculation, but to assure a precise estimation of the relative bioavailability. For this 3-way crossover trial, a precision (defined by ratio of upper CI limit to adjusted GMR) of at most 1.17 had been considered necessary and sufficient by the project team.|gMean Ratio T2/R (%)|144.8|STANDARD_DEVIATION|32.0|||TWO_SIDED|90.0|130.853|160.242|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Analysis of variance (ANOVA) on the logarithmic scale was used including effects for 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. CIs were calculated based on the residual error from ANOVA.||160.242|130.853|
82629486|NCT03489850|164974690|SUPERIORITY||Parameter Estimate|0.34|STANDARD_ERROR_OF_MEAN|0.69||0.62|TWO_SIDED|95.0|-1.01|1.69|||Generalized Estimating Equation|||||1.69|-1.01|.62
82629487|NCT03489850|164974691|SUPERIORITY||Odds Ratio (OR)|0.55|||<|0.05|TWO_SIDED|95.0|0.3|0.98|||Generalized Estimating Equation|||||.98|.30|<0.05
82629488|NCT03489850|164974692|SUPERIORITY||Odds Ratio (OR)|0.83|||<|0.05|TWO_SIDED|95.0|0.47|1.48|||Generalized Estimating Equation|||||1.48|0.47|<0.05
82629489|NCT03489850|164974693|SUPERIORITY||F|7.36|||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
82629490|NCT01378299|164974694|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with last value carry forward.||||<0.05
82629491|NCT01378299|164974695|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward||||<0.05
82629492|NCT01378299|164974696|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629493|NCT01378299|164974697|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629494|NCT01378299|164974698|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629495|NCT01378299|164974699|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629496|NCT01378299|164974700|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629497|NCT01378299|164974702|OTHER||||||<|0.05|||||||ANOVA|||Analysis was by intention to treat with the last value carry forward. Those who had at least one follow-up from baseline and with acceptable assay coefficient of variability were included in the analysis. The data of 79 subjects were analyzed; 15 in the GG, 43 in the GA and 21 in the AA genotype.||||<0.05
82629498|NCT01378299|164974703|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629499|NCT01378299|164974704|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629500|NCT01378299|164974705|OTHER||||||<|0.05|||||||ANOVA|||Analysis by intention to treat with the last value carry forward.||||<0.05
82629501|NCT01448707|164974723|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5%.|Non-Linear mixed|-7.9||||0.2331|TWO_SIDED|95.0|-14.64|-1.19||P-Value for non-inferiority of DRV/rtv MONO vs DRV/rtv + 2NRTIs (delta = 12%).|Mixed Models Analysis|Predicted response rate:confidence limits are obtained by means of logistic regression model with treatment group and Hepatitis C status as covariates||||-1.19|-14.64|0.2331
82629502|NCT01448707|164974724|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|Non-Linear mixed|-10.1||||0.6933|TWO_SIDED|95.0|-19.5|-0.73|||Mixed Models Analysis|||||-0.73|-19.50|0.6933
82629503|NCT01448707|164974725|NON_INFERIORITY_OR_EQUIVALENCE|Week 48: Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|Non-linear mixed model|-3.5||||0.0016|TWO_SIDED|95.0|-8.77|1.72|||Mixed Models Analysis|||||1.72|-8.77|0.0016
82629504|NCT01448707|164974725|NON_INFERIORITY_OR_EQUIVALENCE|Week 96: Non-inferiority of DRV/rtv monotherapy versus triple therapy was assessed with a maximum allowable difference of 12 percent (%), with a one-sided significance level of 2.5% and 80% power.|non-linear mixed model|-0.7||||0.0022|TWO_SIDED|95.0|-7.89|6.58|||Mixed Models Analysis|||||6.58|-7.89|0.0022
82629505|NCT02033850|164974734|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||Δs on ADL (baseline vs 6 months)||||.145
82629506|NCT02033850|164974734|SUPERIORITY|||||||0.618|||||||t-test, 2 sided|||Δs on ADL (6 vs 12 months)||||.618
82629507|NCT02033850|164974734|SUPERIORITY|||||||0.262|||||||t-test, 2 sided|||Δs on ADL (baseline vs 12 months)||||.262
82629508|NCT02033850|164974734|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Δs on IADL (baseline vs 6 months)||||.240
82629509|NCT02033850|164974734|SUPERIORITY|||||||0.134|||||||t-test, 2 sided|||Δs on IADL (6 vs 12 months)||||.134
82629510|NCT02033850|164974734|SUPERIORITY|||||||0.457|||||||t-test, 2 sided|||Δs on IADL (baseline vs 12 months)||||.457
82629511|NCT02033850|164974734|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||Δs on DAD (baseline vs 6 months)||||.612
82629512|NCT02033850|164974734|SUPERIORITY|||||||0.522|||||||t-test, 2 sided|||Δs on DAD (6 vs 12 months)||||.522
82629513|NCT02033850|164974734|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Δs on DAD (baseline vs 12 months)||||.800
82629514|NCT02033850|164974735|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||Δs on AQ (baseline vs 6 months)||||.204
82629515|NCT02033850|164974735|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||Δs on AQ (6 vs 12 months)||||.810
82629516|NCT02033850|164974735|SUPERIORITY|||||||0.193|||||||t-test, 2 sided|||Δs on AQ (baseline vs 12 months)||||.193
82629517|NCT02033850|164974735|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||Δs on EQ index (baseline vs 6 months)||||.698
82629518|NCT02033850|164974735|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||Δs on EQ index (6 vs 12 months)||||.283
82629519|NCT02033850|164974735|SUPERIORITY|||||||0.647|||||||t-test, 2 sided|||Δs on EQ index (baseline vs 12 months)||||.647
82629520|NCT02033850|164974735|SUPERIORITY|||||||0.057|||||||t-test, 2 sided|||Δs on EQ visual (baseline vs 6 months)||||.057
82629521|NCT02033850|164974735|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||Δs on EQ visual (6 vs 12 months)||||.685
82629522|NCT02033850|164974735|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||Δs on EQ visual (baseline vs 12 months)||||.056
82629523|NCT02033850|164974735|SUPERIORITY|||||||0.393|||||||t-test, 2 sided|||Δs on GDS (baseline vs 6 months)||||.393
82508124|NCT03754959|164707089|OTHER||Ratio|93.7|||||TWO_SIDED|90.0|86.8|101.1|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||101.1|86.8|
82508125|NCT03754959|164707089|OTHER||Ratio|93.1|||||TWO_SIDED|90.0|87.3|99.3|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||99.3|87.3|
82508126|NCT03754959|164707089|OTHER||Ratio|90.0|||||TWO_SIDED|90.0|83.8|96.7|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||96.7|83.8|
82508127|NCT03754959|164707090|OTHER||Ratio|105.7|||||TWO_SIDED|90.0|95.6|116.9|||||Ratio is calculated with Placebo+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||116.9|95.6|
82508128|NCT03754959|164707090|OTHER||Ratio|117.5|||||TWO_SIDED|90.0|106.5|129.6|||||Ratio is calculated with BI 1358894 10 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||129.6|106.5|
82508129|NCT03754959|164707090|OTHER||Ratio|112.6|||||TWO_SIDED|90.0|102.9|123.1|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||123.1|102.9|
82508130|NCT03754959|164707090|OTHER||Ratio|110.3|||||TWO_SIDED|90.0|90.1|135.1|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||135.1|90.1|
82508131|NCT03754959|164707090|OTHER||Ratio|96.4|||||TWO_SIDED|90.0|84.5|110.1|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||110.1|84.5|
82508132|NCT03754959|164707090|OTHER||Ratio|89.3|||||TWO_SIDED|90.0|74.9|106.4|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA model on the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||106.4|74.9|
82508133|NCT03754959|164707091|OTHER||Ratio|98.3|||||TWO_SIDED|90.0|84.2|114.8|||||Ratio is calculated with Placebo+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||114.8|84.2|
82508134|NCT03754959|164707091|OTHER||Ratio|98.0|||||TWO_SIDED|90.0|87.9|109.3|||||Ratio is calculated with BI 1358894 10mg +Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||109.3|87.9|
82566973|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.035|0.056|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.056|-0.035|
82508135|NCT03754959|164707091|OTHER||Ratio|117.5|||||TWO_SIDED|90.0|102.6|134.6|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||134.6|102.6|
82508136|NCT03754959|164707091|OTHER||Ratio|94.5|||||TWO_SIDED|90.0|85.5|104.4|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||104.4|85.5|
82629524|NCT02033850|164974735|SUPERIORITY|||||||0.958|||||||t-test, 2 sided|||Δs on GDS (6 vs 12 months)||||.958
82629525|NCT02033850|164974735|SUPERIORITY|||||||0.448|||||||t-test, 2 sided|||Δs on GDS (baseline vs 12 months)||||.448
82629526|NCT02033850|164974735|SUPERIORITY|||||||0.567|||||||t-test, 2 sided|||Δs on MCS (baseline vs 6 months)||||.567
82629527|NCT02033850|164974735|SUPERIORITY|||||||0.274|||||||t-test, 2 sided|||Δs on MCS (6 vs 12 months)||||.274
82629528|NCT02033850|164974735|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||Δs on MCS (baseline vs 12 months)||||.668
82508137|NCT03754959|164707091|OTHER||Ratio|98.2|||||TWO_SIDED|90.0|87.3|99.3|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||99.3|87.3|
82508138|NCT03754959|164707091|OTHER||Ratio|98.0|||||TWO_SIDED|90.0|84.3|114.0|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 1 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||114.0|84.3|
82508139|NCT03754959|164707092|OTHER||Ratio|95.5|||||TWO_SIDED|90.0|81.3|112.1|||||Ratio is calculated with Placebo+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||112.1|81.3|
82629529|NCT02033850|164974735|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||Δs on PCS (baseline vs 6 months)||||.709
82508140|NCT03754959|164707092|OTHER||Ratio|105.7|||||TWO_SIDED|90.0|91.5|122.0|||||Ratio is calculated with BI 1358894 10mg +Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||122.0|91.5|
82508141|NCT03754959|164707092|OTHER||Ratio|116.3|||||TWO_SIDED|90.0|90.9|148.7|||||Ratio is calculated with BI 1358894 25 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||148.7|90.9|
82629530|NCT02033850|164974735|SUPERIORITY|||||||0.567|||||||t-test, 2 sided|||Δs on PCS (6 vs 12 months)||||.567
82629531|NCT02033850|164974735|SUPERIORITY|||||||0.867|||||||t-test, 2 sided|||Δs on PCS (baseline vs 12 months)||||.867
82629532|NCT02033850|164974736|SUPERIORITY|||||||0.095|||||||Chi-squared|||MCS outcome (baseline vs 6 months)||||.095
82629533|NCT02033850|164974736|SUPERIORITY|||||||0.729|||||||Chi-squared|||MCS outcome (6 vs 12 months)||||.729
82629534|NCT02033850|164974736|SUPERIORITY|||||||0.115|||||||Chi-squared|||MCS outcome (baseline vs 12 months)||||.115
82629535|NCT02033850|164974736|SUPERIORITY|||||||0.576|||||||Chi-squared|||PCS outcome (baseline vs 6 months)||||.576
82629536|NCT02033850|164974736|SUPERIORITY|||||||0.191|||||||Chi-squared|||PCS outcome (6 vs 12 months)||||.191
82629537|NCT02033850|164974736|SUPERIORITY|||||||0.79|||||||Chi-squared|||PCS outcome (baseline vs 12 months)||||.790
82629538|NCT02033850|164974737|SUPERIORITY|||||||0.936|||||||t-test, 2 sided|||Δs on MoCA (baseline vs 6 months)||||.936
82629539|NCT02033850|164974737|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||Δs on MoCA (6 vs 12 months)||||.188
82629540|NCT02033850|164974737|SUPERIORITY|||||||0.381|||||||t-test, 2 sided|||Δs on MoCA (baseline vs 12 months)||||.381
82629541|NCT02033850|164974737|SUPERIORITY|||||||0.458|||||||t-test, 2 sided|||Δs on MMSE (baseline vs 6 months)||||.458
82629542|NCT02033850|164974737|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||Δs on MMSE (6 vs 12 months)||||.236
82629543|NCT02033850|164974737|SUPERIORITY|||||||0.601|||||||t-test, 2 sided|||Δs on MMSE (baseline vs 12 months)||||.601
82629544|NCT02033850|164974737|SUPERIORITY|||||||0.839|||||||t-test, 2 sided|||Δs on RAVL immediate (baseline vs 6 months)||||.839
82629545|NCT02033850|164974737|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|||Δs on RAVL immediate (6 vs 12 months)||||.021
82629546|NCT02033850|164974737|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||Δs on RAVL immediate (baseline vs 12 months)||||.032
82629547|NCT02033850|164974737|SUPERIORITY|||||||0.858|||||||t-test, 2 sided|||Δs on RAVL recall (baseline vs 6 months)||||.858
82629548|NCT02033850|164974737|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||Δs on RAVL recall (6 vs 12 months)||||.212
82629549|NCT02033850|164974737|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||Δs on RAVL recall (baseline vs 12 months)||||.268
82629550|NCT02033850|164974737|SUPERIORITY|||||||0.184|||||||t-test, 2 sided|||Δs on ROCF recall (baseline vs 6 months)||||.184
82629551|NCT02033850|164974737|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||Δs on ROCF recall (6 vs 12 months)||||.358
82629552|NCT02033850|164974737|SUPERIORITY|||||||0.768|||||||t-test, 2 sided|||Δs on ROCF recall (baseline vs 12 months)||||.768
82629553|NCT02033850|164974737|SUPERIORITY|||||||0.164|||||||t-test, 2 sided|||Δs on short story (baseline vs 6 months)||||.164
82629554|NCT02033850|164974737|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Δs on short story (6 vs 12 months)||||.420
82629555|NCT02033850|164974737|SUPERIORITY|||||||0.527|||||||t-test, 2 sided|||Δs on short story (baseline vs 12 months)||||.527
82629556|NCT02033850|164974737|SUPERIORITY|||||||0.762|||||||t-test, 2 sided|||Δs on visual search (baseline vs 6 months)||||.762
82629557|NCT02033850|164974737|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||Δs on visual search (6 vs 12 months)||||.405
82629558|NCT02033850|164974737|SUPERIORITY|||||||0.674|||||||t-test, 2 sided|||Δs on visual search (baseline vs 12 months)||||.674
82629559|NCT02033850|164974737|SUPERIORITY|||||||0.328|||||||t-test, 2 sided|||Δs on SDMT (baseline vs 6 months)||||.328
82629560|NCT02033850|164974737|SUPERIORITY|||||||0.198|||||||t-test, 2 sided|||Δs on SDMT (6 vs 12 months)||||.198
82629561|NCT02033850|164974737|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||Δs on SDMT (baseline vs 12 months)||||.639
82629562|NCT02033850|164974737|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||Δs on ROCF copy (baseline vs 6 months)||||.098
82629563|NCT02033850|164974737|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||Δs on ROCF copy (6 vs 12 months)||||.235
82629564|NCT02033850|164974737|SUPERIORITY|||||||0.789|||||||t-test, 2 sided|||Δs on ROCF copy (baseline vs 12 months)||||.789
82629565|NCT02033850|164974738|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||Δs on Stroop test (baseline vs 6 months)||||.743
82508142|NCT03754959|164707092|OTHER||Ratio|106.8|||||TWO_SIDED|90.0|92.4|123.4|||||Ratio is calculated with BI 1358894 50 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||123.4|92.4|
82508143|NCT03754959|164707092|OTHER||Ratio|83.9|||||TWO_SIDED|90.0|71.2|98.9|||||Ratio is calculated with BI 1358894 100 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||98.9|71.2|
82629566|NCT02033850|164974738|SUPERIORITY|||||||0.428|||||||t-test, 2 sided|||Δs on Stroop test (6 vs 12 months)||||.428
82629567|NCT02033850|164974738|SUPERIORITY|||||||0.294|||||||t-test, 2 sided|||Δs on Stroop test (baseline vs 12 months)||||.294
82629568|NCT02033850|164974738|SUPERIORITY|||||||0.157|||||||t-test, 2 sided|||Δs on TMT-A (baseline vs 6 months)||||.157
82629569|NCT02033850|164974738|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||Δs on TMT-A (6 vs 12 months)||||.094
82629570|NCT02033850|164974738|SUPERIORITY|||||||0.476|||||||t-test, 2 sided|||Δs on TMT-A (baseline vs 12 months)||||.476
82629571|NCT02033850|164974738|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||Δs on TMT-B (baseline vs 6 months)||||.142
82629572|NCT02033850|164974738|SUPERIORITY|||||||0.651|||||||t-test, 2 sided|||Δs on TMT-B (6 vs 12 months)||||.651
82629573|NCT02033850|164974738|SUPERIORITY|||||||0.534|||||||t-test, 2 sided|||Δs on TMT-B (baseline vs 12 months)||||.534
82629574|NCT02033850|164974739|SUPERIORITY|||||||0.882|||||||t-test, 2 sided|||Δs on phonemic fluency (baseline vs 6 months)||||.882
82629575|NCT02033850|164974739|SUPERIORITY|||||||0.835|||||||t-test, 2 sided|||Δs on phonemic fluency (6 vs 12 months)||||.835
82508144|NCT03754959|164707092|OTHER||Ratio|87.2|||||TWO_SIDED|90.0|73.5|103.5|||||Ratio is calculated with BI 1358894 200 mg+Midazolam on day 14 in the nominator and the Midazolam on day -1 in the denominator.|The statistical model used for the analysis of the secondary endpoints was an ANOVA mode lon the logarithmic scale including 'treatment' ('midazolam' and 'midazolam + Placebo/BI') as fixed effect and 'subject' as random effect. The analysis was performed separately for Day 1 and Day 14.||103.5|73.5|
82508145|NCT00449956|164707101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||||95.0|-1.3|-0.06|||||An analysis of covariance model with a factor for treatment and time-matched baseline as a covariate was used to compute 95% confidence intervals.|||-0.06|-1.30|
82629576|NCT02033850|164974739|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||Δs on phonemic fluency (baseline vs 12 months)||||.951
82629577|NCT02033850|164974739|SUPERIORITY|||||||0.392|||||||t-test, 2 sided|||Δs on semantic fluency (baseline vs 6 months)||||.392
82629578|NCT02033850|164974739|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||Δs on semantic fluency (6 vs 12 months)||||.973
82629579|NCT02033850|164974739|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||Δs on semantic fluency (baseline vs 12 months)||||.486
82629580|NCT02033850|164974740|SUPERIORITY|||||||0.92|||||||Chi-squared|||MoCA variations (baseline vs 6 months)||||.920
82629581|NCT02033850|164974740|SUPERIORITY|||||||0.17|||||||Chi-squared|||MoCA variations (6 vs 12 months)||||.170
82629582|NCT02033850|164974740|SUPERIORITY|||||||0.716|||||||Chi-squared|||MoCA variations (baseline vs 12 months)||||.716
82629583|NCT02033850|164974740|SUPERIORITY|||||||0.973|||||||Chi-squared|||MMSE variations (baseline vs 6 months)||||.973
82629584|NCT02033850|164974740|SUPERIORITY|||||||0.973|||||||Chi-squared|||MMSE variations (6 vs 12 months)||||.973
82629585|NCT02033850|164974740|SUPERIORITY|||||||0.3|||||||Chi-squared|||MMSE variations (baseline vs 12 months)||||.300
82629586|NCT02033850|164974740|SUPERIORITY|||||||0.068|||||||Chi-squared|||RAVL immed. variations (baseline vs 6 months)||||.068
82629587|NCT02033850|164974740|SUPERIORITY|||||||0.089|||||||Chi-squared|||RAVL immed. variations (6 vs 12 months)||||.089
82629588|NCT02033850|164974740|SUPERIORITY|||||||0.241|||||||Chi-squared|||RAVL immed. variations (baseline vs 12 months)||||.241
82629589|NCT02033850|164974740|SUPERIORITY|||||||0.089|||||||Chi-squared|||RAVL recall variations (baseline vs 6 months)||||.089
82629590|NCT02033850|164974740|SUPERIORITY|||||||0.17|||||||Chi-squared|||RAVL recall variations (6 vs 12 months)||||.170
82629591|NCT02033850|164974740|SUPERIORITY|||||||0.413|||||||Chi-squared|||RAVL recall variations (baseline vs 12 months)||||.413
82629592|NCT02033850|164974740|SUPERIORITY|||||||0.777|||||||Chi-squared|||ROCF recall variations (baseline vs 6 months)||||.777
82629593|NCT02033850|164974740|SUPERIORITY|||||||0.134|||||||Chi-squared|||ROCF recall variations (6 vs 12 months)||||.134
82629594|NCT02033850|164974740|SUPERIORITY|||||||0.498|||||||Chi-squared|||ROCF recall variations (baseline vs 12 months)||||.498
82629595|NCT02033850|164974740|SUPERIORITY|||||||0.942|||||||Chi-squared|||Short story variations (baseline vs 6 months)||||.942
82629596|NCT02033850|164974740|SUPERIORITY|||||||0.578|||||||Chi-squared|||Short story variations (6 vs 12 months)||||.578
82629597|NCT02033850|164974740|SUPERIORITY|||||||0.413|||||||Chi-squared|||Short story variations (baseline vs 12 months)||||.413
82629598|NCT02033850|164974740|SUPERIORITY|||||||1|||||||Chi-squared|||Visual search variations (baseline vs 6 months)||||1
82629599|NCT02033850|164974740|SUPERIORITY|||||||0.038|||||||Chi-squared|||Visual search variations (6 vs 12 months)||||.038
82629600|NCT02033850|164974740|SUPERIORITY|||||||0.658|||||||Chi-squared|||Visual search variations (baseline vs 12 months)||||.658
82629601|NCT02033850|164974740|SUPERIORITY|||||||0.522|||||||Chi-squared|||SDMT variations (baseline vs 6 months)||||.522
82629602|NCT02033850|164974740|SUPERIORITY|||||||0.674|||||||Chi-squared|||SDMT variations (6 vs 12 months)||||.674
82629603|NCT02033850|164974740|SUPERIORITY|||||||0.17|||||||Chi-squared|||SDMT variations (baseline vs 12 months)||||.170
82629604|NCT02033850|164974740|SUPERIORITY|||||||0.961|||||||Chi-squared|||Stroop test variations (baseline vs 6 months)||||.961
82629605|NCT02033850|164974740|SUPERIORITY|||||||0.413|||||||Chi-squared|||Stroop test variations (6 vs 12 months)||||.413
82629606|NCT02033850|164974740|SUPERIORITY|||||||0.477|||||||Chi-squared|||Stroop test variations (baseline vs 12 months)||||.477
82629607|NCT02033850|164974740|SUPERIORITY|||||||0.42|||||||Chi-squared|||TMT-A variations (baseline vs 6 months)||||.420
82629608|NCT02033850|164974740|SUPERIORITY|||||||0.241|||||||Chi-squared|||TMT-A variations (6 vs 12 months)||||.241
82629609|NCT02033850|164974740|SUPERIORITY|||||||0.295|||||||Chi-squared|||TMT-A variations (baseline vs 12 months)||||.295
82629610|NCT02033850|164974740|SUPERIORITY|||||||0.453|||||||Chi-squared|||TMT-B variations (baseline vs 6 months)||||.453
82629611|NCT02033850|164974740|SUPERIORITY|||||||0.952|||||||Chi-squared|||TMT-B variations (6 vs 12 months)||||.952
82508146|NCT00449956|164707101|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 1.2 mmHg|Mean Difference (Final Values)|0.28||||||95.0|-0.22|0.78|||||An analysis of covariance model with a factor for treatment and time-matched baseline as a covariate was used to compute 95% confidence intervals.|||0.78|-0.22|
82508147|NCT00004412|164707112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.05|TWO_SIDED||||||Fisher Exact|||Percentage of ulcers undergoing partial and complete healing compared at 12 weeks. Mean Ulcer areas were calculated utilizing computerized planimetry, ulcer area tracings, and photography for baseline and 12 weeks and compared between the two study Arms.||||0.05
82629612|NCT02033850|164974740|SUPERIORITY|||||||0.881|||||||Chi-squared|||TMT-B variations (baseline vs 12 months)||||.881
82629613|NCT02033850|164974740|SUPERIORITY|||||||0.413|||||||Chi-squared|||Phonemic fluency variations (baseline vs 6 months)||||.413
82629614|NCT02033850|164974740|SUPERIORITY|||||||0.961|||||||Chi-squared|||Phonemic fluency variations (6 vs 12 months)||||.961
82629615|NCT02033850|164974740|SUPERIORITY|||||||0.951|||||||Chi-squared|||Phonemic fluency variation (baseline vs 12 months)||||.951
82629616|NCT02033850|164974740|SUPERIORITY|||||||0.951|||||||Chi-squared|||Semantic fluency variations (baseline vs 6 months)||||.951
82629617|NCT02033850|164974740|SUPERIORITY|||||||0.674|||||||Chi-squared|||Semantic fluency variations (6 vs 12 months)||||.674
82629618|NCT02033850|164974740|SUPERIORITY|||||||0.951|||||||Chi-squared|||Semantic fluency variation (baseline vs 12 months)||||.951
82629619|NCT02033850|164974740|SUPERIORITY|||||||1|||||||Chi-squared|||ROCF copy variations (baseline vs 6 months)||||1
82629620|NCT02033850|164974740|SUPERIORITY|||||||0.027|||||||Chi-squared|||ROCF copy variations (6 vs 12 months)||||.027
82629621|NCT02033850|164974740|SUPERIORITY|||||||0.169|||||||Chi-squared|||ROCF copy variations (baseline vs 12 months)||||.169
82629622|NCT02033850|164974741|SUPERIORITY|||||||0.478|||||||Chi-squared|||||||.478
82629623|NCT02033850|164974742|SUPERIORITY|||||||0.029||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in vermis VIIIb||||0.029
82629624|NCT02033850|164974742|SUPERIORITY|||||||0.04||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in right VIIb lobule||||0.04
82629625|NCT02033850|164974742|SUPERIORITY|||||||0.039||||||"Corrected for multiple comparisons using the 3D parameter settings with threshold-free cluster enhancement.~A priori threshold for statistical significance 0.05"|General linear model voxel-wise|||Z-transformed ReHo difference in left VIIb lobule||||0.039
82629626|NCT02820038|164974743|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8408|TWO_SIDED|95.0|0.52|2.24|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART, DrugFactsBox® (DFB) Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||2.24|0.52|0.8408
82629627|NCT02820038|164974743|SUPERIORITY||Odds Ratio (OR)|1.18||||0.58|TWO_SIDED|95.0|0.66|2.12|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or Other CMI+SMART, 1=DFB or DFB + SMART|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.12|0.66|0.58
82629628|NCT02820038|164974743|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1937|TWO_SIDED|95.0|0.82|2.68|||Regression, Logistic|Regression model adjusted for whether participant met criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|The investigators hypothesized that participants would be more likely to meet the criteria for Informed Decision-Making at the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||2.68|0.82|0.1937
82629629|NCT02820038|164974743|SUPERIORITY||Odds Ratio (OR)|2.379||||0.0193|TWO_SIDED|95.0|1.15|4.92|||Regression, Logistic|Sample restricted to participants who did not meet the criteria for informed decision making at baseline.|Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|In this analysis, participants were restricted to those who did not meet criteria for informed decision-making at baseline.||4.92|1.15|0.0193
82629630|NCT02820038|164974743|SUPERIORITY||Odds Ratio (OR)|0.53||||0.2216|TWO_SIDED|95.0|0.19|1.48|||Regression, Logistic||Modeled probability of meeting criteria for informed decision making at the 6-month follow-up. Independent variable coded: 0=Other CMI Only or DFB Only, 1=Other CMI + SMART or DFB+SMART.|In this analysis, participants were restricted to those who met the criteria for informed decision-making at baseline.||1.48|0.19|0.2216
82629631|NCT02820038|164974744|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.83|STANDARD_ERROR_OF_MEAN|1.32||0.163|TWO_SIDED|95.0|-1.83|0.75|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.75|-1.83|0.1630
82639464|NCT02129192|164993956|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|99.21|||||TWO_SIDED|90.0|96.14|102.38|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||102.38|96.14|
82508148|NCT03144180|164707128|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.|Confidence Interval for a mean|49.0|STANDARD_DEVIATION|47.0|||TWO_SIDED|95.0|15.459|82.571||||||||82.571|15.459|
82508149|NCT03144180|164707129|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.||||||0.0295||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||0.0295
82508150|NCT03144180|164707130|EQUIVALENCE|A two-sided two-sample t-test with 80% power, an alpha of 0.05, and a common standard deviation of 14 seconds was used to determine the sample size.||||||0.403||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||0.403
82508151|NCT03387813|164707132|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1624|TWO_SIDED|95.0|0.74|1.05|||Anderson-Gill model (robust sandwich)|||||1.05|0.74|0.1624
82508152|NCT03387813|164707136|EQUIVALENCE|Clinical equivalence was met if the lower limit of the confidence interval (CI) of ln(HR) for the primary endpoint in Elevated NT-proBNP/BNP only vs. prior HFH only subjects is \> -0.2877 and the upper limit is \< 0.2877.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|90.0|0.44|0.6||||||||0.60|0.44|
82508153|NCT03387813|164707140|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0958|TWO_SIDED|95.0|0.7|1.03|||Anderson-Gill model (robust sandwich)|||||1.03|0.70|0.0958
82508154|NCT03387813|164707144|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0644|TWO_SIDED|95.0|0.68|1.01|||Anderson-Gill model (robust sandwich)|||||1.01|0.68|0.0644
82508155|NCT03387813|164707148|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8867|TWO_SIDED|95.0|0.61|1.77|||Anderson-Gill model (robust sandwich)|||||1.77|0.61|0.8867
82508156|NCT03387813|164707152|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7119|TWO_SIDED|95.0|0.7|1.7|||Anderson-Gill model (robust sandwich)|||||1.70|0.70|0.7119
82508157|NCT03387813|164707156|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|1.44||0.3484|TWO_SIDED|95.0|-4.16|1.47|||t-test, 1 sided|||||1.47|-4.16|0.3484
82508158|NCT03387813|164707156|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|1.47||0.6684|TWO_SIDED|95.0|-3.51|2.26|||t-test, 1 sided|||||2.26|-3.51|0.6684
82566974|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.028|0.064|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.064|-0.028|
82566975|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.051|0.041|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.041|-0.051|
82566976|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.029||||90.0|-0.07|0.026|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.026|-0.070|
82566977|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.03||||90.0|-0.064|0.034|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.034|-0.064|
82566978|NCT00139659|164843184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.031||||90.0|-0.067|0.037|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.037|-0.067|
82566979|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.632|STANDARD_ERROR_OF_MEAN|0.697||||90.0|-1.778|0.514|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.514|-1.778|
82566980|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-1.079|1.12|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.120|-1.079|
82566981|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.679||||90.0|-0.535|1.7|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.700|-0.535|
82566982|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.687||||90.0|-1.184|1.077|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.077|-1.184|
82566983|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.535|STANDARD_ERROR_OF_MEAN|0.694||||90.0|-1.677|0.608|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.608|-1.677|
82566984|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.905|STANDARD_ERROR_OF_MEAN|0.674||||90.0|-2.014|0.203|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.203|-2.014|
82566985|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.675||||90.0|-0.899|1.323|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.323|-0.899|
82566986|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.683||||90.0|-1.08|1.169|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||1.169|-1.080|
82566987|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.694||||90.0|-1.382|0.902|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.902|-1.382|
82566988|NCT00139659|164843185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.711||||90.0|-1.673|0.668|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.668|-1.673|
82508159|NCT03387813|164707158|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|1.37||0.9901|TWO_SIDED|95.0|-2.68|2.71|||t-test, 1 sided|||||2.71|-2.68|0.9901
82508160|NCT03387813|164707158|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|1.41||0.2947|TWO_SIDED|95.0|-1.29|4.24|||t-test, 1 sided|||||4.24|-1.29|0.2947
82508161|NCT03387813|164707160|SUPERIORITY||Mean Difference (Final Values)|4.14|STANDARD_ERROR_OF_MEAN|7.36||0.5741|TWO_SIDED|95.0|-10.32|18.6|||t-test, 1 sided|||||18.60|-10.32|0.5741
82508162|NCT03387813|164707160|SUPERIORITY||Mean Difference (Final Values)|2.93|STANDARD_ERROR_OF_MEAN|7.81||0.7077|TWO_SIDED|95.0|-12.41|18.27|||t-test, 1 sided|||||18.27|-12.41|0.7077
82508163|NCT03387813|164707163|EQUIVALENCE|Clinical equivalence was met if the lower limit of the CI of ln(HR) for the primary endpoint in Elevated NT-proBNP/BNP only vs. prior HFH only subjects is \> -0.2877 and the upper limit is \< 0.2877.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|90.0|0.38|0.55||||||||0.55|0.38|
82508164|NCT03387813|164707167|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82508165|NCT03387813|164707171|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82508166|NCT03387813|164707175|OTHER|||||||0.0001|||||||ANOVA|||||||0.0001
82508167|NCT03387813|164707181|OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.39|0.54|||Anderson-Gill model (robust sandwich)|||||0.54|0.39|<0.0001
82508168|NCT03387813|164707182|OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.53|0.76|||Anderson-Gill model (robust sandwich)|||||0.76|0.53|<0.001
82508169|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|1.53|STANDARD_ERROR_OF_MEAN|0.64||0.016|TWO_SIDED|95.0|0.29|2.78|||Mixed Models Analysis|||Comparisons of PA Systolic Pressure at 6 months between Treatment vs Control group||2.78|0.29|0.0160
82508170|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|0.79|STANDARD_ERROR_OF_MEAN|0.39||0.0427|TWO_SIDED|95.0|0.03|1.56|||Mixed Models Analysis|||Comparisons of PA Diastolic Pressure at 6 months between Treatment vs Control group.||1.56|0.03|0.0427
82508171|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|1.13|STANDARD_ERROR_OF_MEAN|0.48||0.0188|TWO_SIDED|95.0|0.19|2.08|||Mixed Models Analysis|||Comparisons of PA Mean Pressure at 6 months between Treatment vs Control group.||2.08|0.19|0.0188
82508172|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|0.63|STANDARD_ERROR_OF_MEAN|0.66||0.3405|TWO_SIDED|95.0|-0.66|1.92|||Mixed Models Analysis|||Comparisons of PA Systolic Pressure at 12 months between Treatment vs Control group.||1.92|-0.66|0.3405
82508173|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6174|TWO_SIDED|95.0|-0.59|0.99|||Mixed Models Analysis|||Comparisons of PA Diastolic Pressure at 12 months between Treatment vs Control group.||0.99|-0.59|0.6174
82508174|NCT03387813|164707187|SUPERIORITY||Least Square Means Difference (T vs C)|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.4231|TWO_SIDED|95.0|-0.58|1.38|||Mixed Models Analysis|||Comparisons of PA Mean Pressure at 12 months between Treatment vs Control group.||1.38|-0.58|0.4231
82508175|NCT03387813|164707188|SUPERIORITY|||||||0.0214|||||||t-test, 2 sided|||Comparison of PA Systolic Pressure AUC between Treatment and Control group.||||0.0214
82508176|NCT03387813|164707188|OTHER|||||||0.1002|||||||t-test, 2 sided|||Comparison of PA Diastolic Pressure AUC between Treatment and Control group.||||0.1002
82508177|NCT03387813|164707188|OTHER|||||||0.0402|||||||t-test, 2 sided|||Comparison of PA Mean Pressure AUC between Treatment and Control group.||||0.0402
82508178|NCT03387813|164707189|SUPERIORITY||Least Square Means Difference (T vs C)|37.19|STANDARD_ERROR_OF_MEAN|75.52||0.6227|TWO_SIDED|95.0|-111.38|185.77|||Mixed Models Analysis|||Comparisons of change from baseline in BNP levels at 6 months between Treatment vs Control group||185.77|-111.38|0.6227
82508179|NCT03387813|164707190|SUPERIORITY||Least Square Means Difference (T vs C)|59.78|STANDARD_ERROR_OF_MEAN|76.87||0.4373|TWO_SIDED|95.0|-91.44|211.01|||Mixed Models Analysis|||Comparisons of change from baseline in BNP levels at 12 months between Treatment vs Control group||211.01|-91.44|0.4373
82508180|NCT03387813|164707191|SUPERIORITY||Least Square Means Difference (T vs C)|468.1|STANDARD_ERROR_OF_MEAN|256.65||0.0692|TWO_SIDED|95.0|-37.09|973.3|||Mixed Models Analysis|||Comparisons of change from baseline in NT-proBNP levels at 6months between Treatment vs Control group||973.30|-37.09|0.0692
82508181|NCT03387813|164707192|SUPERIORITY||Least Square Means Difference (T vs C)|284.67|STANDARD_ERROR_OF_MEAN|268.72||0.2903|TWO_SIDED|95.0|-244.27|813.6|||Mixed Models Analysis|||Comparisons of change from baseline in NT-proBNP levels at 12 months between Treatment vs Control group||813.60|-244.27|0.2903
82508182|NCT03387813|164707193|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.78|||Anderson-Gill model (robust sandwich)|||||0.78|0.53|<0.0001
82508183|NCT03387813|164707194|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.57|0.81|||Anderson-Gill model (robust sandwich)|||||0.81|0.57|<0.0001
82508184|NCT00591942|164707264|NON_INFERIORITY|95% CI were used|KM Survival Curves|0.5637||||0.5637|TWO_SIDED||||||Chi-squared|df=1||||||0.5637
82508185|NCT02739269|164707320|SUPERIORITY|||||||0.479|||||||Chi-squared|||||||0.479
82508186|NCT02739269|164707321|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82508187|NCT00405548|164707325|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82508188|NCT00405548|164707326|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82508189|NCT00405548|164707327|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82508190|NCT00405548|164707328|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|A p-value of less 0.05 was considered to be statistically significant.||Mean LV filling pressure was compared from baseline to 12 weeks within the BNP group.||||0.004
82508191|NCT00405548|164707328|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|A p-value of less 0.05 was considered to be statistically significant.||Mean LV filling pressure was compared from baseline to 12 weeks within the Placebo group.||||0.43
82508192|NCT04652479|164707338|OTHER|||||||0.0028||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0028
82508193|NCT04652479|164707338|OTHER|||||||0.0005||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0005
82508194|NCT04652479|164707339|OTHER|||||||0.0027||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0027
82508195|NCT04652479|164707339|OTHER|||||||0.0043||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0043
82508196|NCT04652479|164707340|OTHER|||||||0.0003||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0003
82629632|NCT02820038|164974744|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.05||0.7892|TWO_SIDED|95.0|-2.33|1.77|||Regression, Linear|||The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.|Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|1.77|-2.33|0.7892
82508197|NCT04652479|164707340|OTHER|||||||0.0003||||||A p-value of \<0.05 would be considered statistically significant|Mixed effects model|||Within-group analysis||||0.0003
82508198|NCT04652479|164707341|OTHER|||||||0.161||||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Between-group analysis of change from baseline||||0.161
82508199|NCT04652479|164707341|OTHER||Mean Difference (Net)|-35.66||||0.201|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Within-group analysis of change from baseline||||0.201
82508200|NCT04652479|164707341|OTHER||Mean Difference (Net)|-67.65||||0.001|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Within-group analysis of change from baseline||||0.001
82508201|NCT04652479|164707342|OTHER|||||||0.145||||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided|||Between-group analysis of change from baseline||||0.145
82508202|NCT04652479|164707342|OTHER||Mean Difference (Net)|-31.88||||0.111|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided||Change in percentage|Within-group analysis of change from baseline||||0.111
82508203|NCT04652479|164707342|OTHER||Mean Difference (Net)|-53.37||||0.001|TWO_SIDED|||||A p-value of \<0.05 would be considered statistically significant|t-test, 2 sided||Change in percentage|Within-group analysis of change from baseline||||0.001
82508204|NCT00680901|164707344|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3492|TWO_SIDED|95.0|0.73|1.12||Stratified log-rank test was conducted stratifying for prior adjuvant/neo-adjuvant treatment use and region.|Log Rank||Pike estimator of HR was based on the stratified log rank test.|Primary Analysis: OS (PE population)||1.12|0.73|0.3492
82508205|NCT00680901|164707345|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3244|TWO_SIDED|95.0|0.74|1.1||Stratified log-rank test was conducted stratifying for prior adjuvant/neo-adjuvant treatment use and region.|Log Rank||Pike estimator of HR was based on the stratified log rank test.|Primary Analysis: OS (ITT population)||1.10|0.74|0.3244
82508206|NCT00082433|164707380|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.0005||95.0|0.69|0.9|||Log Rank|||The analysis was conducted when 903 progressions or deaths (446 in combination:457 in capecitabine) were observed in 960 participants.||.90|.69|.0005
82508207|NCT00082433|164707381|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.89|||<|0.0001||95.0|1.44|2.5|||Cochran-Mantel-Haenszel|||||2.50|1.44|<.0001
82629633|NCT02820038|164974744|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-2.19|STANDARD_ERROR_OF_MEAN|1.05||0.0377|TWO_SIDED|95.0|-4.25|-0.13|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in knowledge between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||-0.13|-4.25|0.0377
82629634|NCT02820038|164974745|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.53||0.9216|TWO_SIDED|95.0|-0.98|1.08|||Regression, Linear|||The investigators hypothesized that participants would exhibit a greater increase in values favorable to aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.|Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|1.08|-0.98|0.9216
82629635|NCT02820038|164974745|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.42||0.3843|TWO_SIDED|95.0|-0.45|1.17|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in values favoring aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||1.17|-0.45|0.3843
82629636|NCT02820038|164974745|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.42||0.509|TWO_SIDED|95.0|-0.54|1.09|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in values favoring aggressive therapy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.09|-0.54|0.5090
82508208|NCT00082433|164707385|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wei-Lachin|||There was a statistically significant difference between groups in change from baseline FBSI score favoring capecitabine. A mean change from baseline of 2.5 was considered a clinically meaningful difference (minimally important difference or MID). On-treatment mean changes in the FBSI did not reach the MID in either group.||||<0.0001
82508209|NCT00082433|164707386|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.1162||95.0|0.78|1.03||The test was stratified by (taxane resistance \[yes/no\], measurable disease versus non-measurable disease, prior chemotherapy for metastatic disease \[yes/no\], and anthracycline resistance \[yes/no\]).|Log Rank|The analysis was conducted at the 0.05 level and no adjustments were performed||This primary analysis was a comparison between the 2 treatment arms using a 2-sided, α=0.05 level log-rank test (to reject the null hypothesis of equality of survival). The analysis was conducted when 880 deaths (430 in combination:450 in capecitabine) were observed from the 1221 randomized participants.||1.03|.78|.1162
82566989|NCT00139659|164843199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.216||||90.0|-0.858|-0.148|||Longitudinal data analysis model|Confidence interval of least squares (LS) mean difference (INH - SC) between annual rates of change for the two treatment groups.|Primary analysis model includes terms of Treatment, Time, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on day of randomization.|Treatment group difference (Exubera minus subcutaneous insulin): annualized rate of change over time. Longitudinal data analysis methods with random effects were used to model the pulmonary function test (PFT) measurements. Random effects included the intercept and slope with respect to time (visit); all remaining effects were fixed. The estimated rate of change over time for each treatment group was derived from this model.||-0.148|-0.858|
82629637|NCT02820038|164974746|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.23||0.1486|TWO_SIDED|95.0|-0.77|0.12|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in gist reasoning ability at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.12|-0.77|0.1486
82629638|NCT02820038|164974746|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.4888|TWO_SIDED|95.0|-0.47|0.22|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.22|-0.47|0.4888
82629639|NCT02820038|164974746|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.8637|TWO_SIDED|95.0|-0.32|0.38|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.38|-0.32|0.8637
82629640|NCT02820038|164974747|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.25||0.507|TWO_SIDED|95.0|-0.33|0.66|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater gist reasoning ability at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.66|-0.33|0.5070
82629641|NCT02820038|164974747|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.19||0.4821|TWO_SIDED|95.0|-0.25|0.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.52|-0.25|0.4821
82629642|NCT02820038|164974747|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.7777|TWO_SIDED|95.0|-0.33|0.44|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in gist reasoning ability between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.44|-0.33|0.7777
82629643|NCT02820038|164974748|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.64||0.6084|TWO_SIDED|95.0|-0.93|1.58|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in satisfaction at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.58|-0.93|0.6084
82629644|NCT02820038|164974748|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.5||0.597|TWO_SIDED|95.0|-0.71|1.23|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||1.23|-0.71|0.5970
82629645|NCT02820038|164974748|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.5||0.5094|TWO_SIDED|95.0|-0.65|1.31|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.31|-0.65|.5094
82629646|NCT02820038|164974749|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.48|STANDARD_ERROR_OF_MEAN|2.74||0.5866|TWO_SIDED|95.0|-6.85|3.89|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in satisfaction at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||3.89|-6.85|0.5866
82629647|NCT02820038|164974749|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|2.13||0.8689|TWO_SIDED|95.0|-3.82|4.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||4.52|-3.82|0.8689
82629648|NCT02820038|164974749|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|2.14||0.4356|TWO_SIDED|95.0|-2.53|5.86|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in satisfaction between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||5.86|-2.53|.4356
82629649|NCT02820038|164974750|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|3.48|STANDARD_ERROR_OF_MEAN|2.95||0.2366|TWO_SIDED|95.0|-2.3|9.26|||Regression, Linear|||The investigators hypothesized that participants would exhibit greater increases in self-efficacy at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||9.26|-2.30|0.2366
82629650|NCT02820038|164974750|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|2.29||0.8841|TWO_SIDED|95.0|-4.16|4.83|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in self-efficacy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||4.83|-4.16|0.8841
82629651|NCT02820038|164974750|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.45|STANDARD_ERROR_OF_MEAN|2.3||0.5264|TWO_SIDED|95.0|-3.05|5.95|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in self-efficacy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||5.95|-3.05|0.5264
82629652|NCT02820038|164974751|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|2.19||0.9604|TWO_SIDED|95.0|-4.4|4.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in medication adherence at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||4.18|-4.40|0.9604
82629653|NCT02820038|164974751|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-3.62|STANDARD_ERROR_OF_MEAN|1.64||0.0279|TWO_SIDED|95.0|-6.84|-0.4|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in adherence between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||-0.40|-6.84|0.0279
82629654|NCT02820038|164974751|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|3.92|STANDARD_ERROR_OF_MEAN|1.66||0.0184|TWO_SIDED|95.0|0.67|7.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in medication adherence between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||7.18|0.67|0.0184
82629655|NCT02820038|164974752|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.73||0.3056|TWO_SIDED|95.0|-2.56|8.14|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in illness intrusiveness at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||8.14|-2.56|0.3056
82639465|NCT02129192|164993956|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|101.43||||||90.0|99.84|103.04|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||103.04|99.84|
82639466|NCT02129192|164993956|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-tz of the two treatments was within the pre-specified acceptance range (80%-125%)|Adjusted geometric mean ratio (%)|100.33|||||TWO_SIDED|90.0|98.29|102.4|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||102.40|98.29|
82639467|NCT02129192|164993957|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|63.66||||1|TWO_SIDED|90.0|58.98|68.71|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||68.71|58.98|1.0000
82639468|NCT02129192|164993957|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|99.74|||<|0.0001|TWO_SIDED|90.0|97.08|102.48|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||102.48|97.08|<0.0001
82639469|NCT02129192|164993957|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|89.66||||0.0001|TWO_SIDED|90.0|85.8|93.7|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||93.70|85.80|0.0001
82639470|NCT02129192|164993958|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|99.62|||||TWO_SIDED|90.0|96.32|103.04|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for telmisartan 80 mg||103.04|96.32|
82639471|NCT02129192|164993958|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|101.21|||||TWO_SIDED|90.0|99.59|102.87|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for amlodipine 5 mg||102.87|99.59|
82639472|NCT02129192|164993958|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established by using the average bioequivalence method and by ensuring that the ratio of AUC 0-inf of the two treatments was within the pre-specified acceptance range (80%-125%).|Adjusted geometric mean ratio (%)|100.15|||||TWO_SIDED|90.0|98.23|102.1|||Mixed Models Analysis|"Model on logarithmic scale included subjects within sequence as random effect and sequence, period, and treatment as fixed effects."|Ratio calculated as T80/A5/H12.5 mg FDC divided by T80/H12.5 FDC + A5 mono.|Adjusted by-treatment means on the log-transformed scale for hydrochlorothiazide 12.5 mg||102.10|98.23|
82639473|NCT02129192|164993959|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|64.4||||1|TWO_SIDED|90.0|59.59|69.59|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for telmisartan 80 mg. No hypothesis was tested.||69.59|59.59|1.0000
82639474|NCT02129192|164993959|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|99.45|||<|0.0001|TWO_SIDED|90.0|96.69|102.29|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for amlodipine 5 mg. No hypothesis was tested.||102.29|96.69|<0.0001
82639475|NCT02129192|164993959|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio (%)|89.82|||<|0.0001|TWO_SIDED|90.0|86.02|93.79|||ANOVA|"Model included subject as random effect and feeding condition as fixed effect."|Ratio calculated as T80/A5/H12.5 mg FDC Fed divided by T80/A5/H12.5 mg FDC Fasted.|Adjusted by-treatment geometric means for hydrochlorothiazide 12.5 mg. No hypothesis was tested.||93.79|86.02|<0.0001
82639476|NCT01231620|164993960|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.73||||0.25|TWO_SIDED|95.0|-1.79|0.75|||Wilcoxon rank sum||IV Zanamivir 300 mg versus IV Zanamivir 600 mg|||0.75|-1.79|0.25
82639477|NCT01231620|164993960|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.48||||0.39|TWO_SIDED|95.0|-2.11|0.97|||Wilcoxon rank sum||Oral oseltamivir 75 mg versus IV Zanamivir 600 mg|||0.97|-2.11|0.39
82639478|NCT01231620|164993961|SUPERIORITY_OR_OTHER|||||||0.506|||||||Wei-Johnson method|||||||0.506
82639479|NCT01231620|164993961|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wei-Johnson method|||||||0.41
82639480|NCT03039699|164994023|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82639481|NCT03039699|164994024|SUPERIORITY|||||||0.0675||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||48 hours timepoint comparison||||0.0675
82639482|NCT03039699|164994024|SUPERIORITY|||||||0.0675||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||72 hours timepoint comparison||||0.0675
82639483|NCT03039699|164994024|SUPERIORITY|||||||0.5569||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||96 hours timepoint comparison||||0.5569
82639484|NCT03039699|164994025|SUPERIORITY|||||||0.0696||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||48 hours timepoint comparison||||0.0696
82639485|NCT03039699|164994025|SUPERIORITY|||||||0.0696||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||72 hours timepoint comparison||||0.0696
82508210|NCT00082433|164707386|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.0231||95.0|0.75|0.98|||Regression, Cox|||This prespecified secondary analysis was a Cox model adjusted for age, Karnofsky performance status, number of organ sites, estrogen receptor status, hepatic impairment, time from diagnosis, liver/lung metastases.||.98|.75|.0231
82629656|NCT02820038|164974752|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|4.19|STANDARD_ERROR_OF_MEAN|2.11||0.0466|TWO_SIDED|95.0|0.06|8.32|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in illness intrusiveness between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||8.32|0.06|0.0466
82629657|NCT02820038|164974752|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|2.11||0.9106|TWO_SIDED|95.0|-4.38|3.9|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in illness intrusiveness between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||3.90|-4.38|0.9106
82629658|NCT02820038|164974753|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.1762|TWO_SIDED|95.0|-0.57|0.1|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group..|The investigators hypothesized that participants would exhibit greater decreases in health distress at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.10|-0.57|0.1762
82629659|NCT02820038|164974753|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4186|TWO_SIDED|95.0|-0.36|0.15|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in health distress between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.15|-0.36|0.4186
82629660|NCT02820038|164974753|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8848|TWO_SIDED|95.0|-0.28|0.24|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in health distress between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.24|-0.28|0.8848
82629661|NCT02820038|164974754|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6403|TWO_SIDED|95.0|-0.15|0.25|||Regression, Linear|||The investigators hypothesized that participants would exhibit greater increases in health status at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.25|-0.15|0.6403
82629662|NCT02820038|164974754|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.8766|TWO_SIDED|95.0|-0.14|0.16|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in global health status between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.16|-0.14|0.8766
82629663|NCT02820038|164974754|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.08||0.7603|TWO_SIDED|95.0|-0.13|0.18|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater improvement in global health status between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.18|-0.13|0.7603
82639486|NCT03039699|164994025|SUPERIORITY|||||||0.1998||||||p-value adjusted for multiple comparisons using Holm method|Fisher Exact|||96 hours timepoint comparison||||0.1998
82639487|NCT03039699|164994026|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||||||0.0039
82508211|NCT01796197|164707389|SUPERIORITY||Pathelogic Complete Response Rate|40.0|||||TWO_SIDED||||||Two stage design, exact method||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 15% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 40% then the regimen is worthy of further study.|Null Hypothesis: pCR rate is less than or equal to 15% Alternative Hypothesis: pCR rate is greater than or equal to 40% Hypothesized False Positive Rate (alpha) : 3.9% Hypothesized False Negative Rate (1-beta) : 9.9%||||
82629664|NCT02820038|164974755|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7093|TWO_SIDED|95.0|-0.43|0.63|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in disease activity at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.63|-0.43|0.7093
82629665|NCT02820038|164974755|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.21||0.5941|TWO_SIDED|95.0|-0.3|0.52|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in disease activity between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.52|-0.30|0.5941
82629666|NCT02820038|164974755|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.9476|TWO_SIDED|95.0|-0.42|0.4|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in disease activity between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.40|-0.42|0.9476
82629667|NCT02820038|164974756|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.8||0.9128|TWO_SIDED|95.0|-1.65|1.48|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in depression at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.48|-1.65|0.9128
82629668|NCT02820038|164974756|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.62||0.6312|TWO_SIDED|95.0|-1.5|0.91|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in depression between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.91|-1.50|0.6312
82629669|NCT02820038|164974756|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.62||0.5766|TWO_SIDED|95.0|-1.57|0.87|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in depression between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.87|-1.57|0.5766
82639488|NCT03039699|164994027|SUPERIORITY|||||||0.89||||||"The p-value associated with treatment\*visit interaction of total CDS score from 24 hours to 48 and 72 hours of treatment between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.89
82639489|NCT03039699|164994028|SUPERIORITY|||||||0.0044|||||||Wilcoxon (Mann-Whitney)|||||||0.0044
82639490|NCT03039699|164994029|SUPERIORITY|||||||0.5488||||||nonadjusted p-value|Fisher Exact|||Day 3 comparison||||0.5488
82639491|NCT03039699|164994029|SUPERIORITY|||||||0.814||||||nonadjusted p-value|Fisher Exact|||Day 4 comparison||||0.8140
82639492|NCT03039699|164994029|SUPERIORITY|||||||0.1248||||||nonadjusted p-value|Fisher Exact|||Day 6 comparison||||0.1248
82639493|NCT03039699|164994029|SUPERIORITY|||||||0.3889||||||nonadjusted p-value|Fisher Exact|||Day 10 comparison||||0.3889
82639494|NCT03039699|164994030|SUPERIORITY|||||||0.3593|||||||Fisher Exact|||||||0.3593
82639495|NCT01740297|164994050|SUPERIORITY||Odds Ratio (OR)|2.9||||0.002|TWO_SIDED|95.0|1.5|5.5|||Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||5.5|1.5|0.002
82639496|NCT01740297|164994053|OTHER||Odds Ratio (OR)|1.9||||0.033|TWO_SIDED|95.0|1.1|3.4||P-value is descriptive|Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||3.4|1.1|0.033
82639497|NCT01740297|164994054|OTHER||Odds Ratio (OR)|2.8||||0.007|TWO_SIDED|95.0|1.4|5.8||P-value is descriptive.|Chi-squared, Corrected||Obtained from the unstratified logistic regression model.|||5.8|1.4|0.007
82639498|NCT01740297|164994055|OTHER||Hazard Ratio (HR)|1.41||||0.228|TWO_SIDED|95.0|0.8|2.49||P-value is descriptive|Log Rank||Obtained from unstratified Cox Proportional Hazard Model.|||2.49|0.80|0.228
82639499|NCT01740297|164994057|OTHER||Hazard Ratio (HR)|0.83||||0.348|TWO_SIDED|95.0|0.56|1.23|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.23|0.56|0.348
82639500|NCT01740297|164994058|OTHER|||||||0.696|||||||Chi-squared, Corrected|||||||0.696
82639501|NCT01740297|164994059|OTHER||Hazard Ratio (HR)|0.8||||0.474|TWO_SIDED|95.0|0.44|1.46|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.46|0.44|0.474
82639502|NCT01740297|164994061|OTHER||Hazard Ratio (HR)|0.78||||0.14|TWO_SIDED|95.0|0.55|1.09|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.09|0.55|0.14
82639503|NCT01740297|164994062|OTHER||Hazard Ratio (HR)|0.83||||0.37|TWO_SIDED|95.0|0.56|1.24|||Log Rank||Obtained from unstratified Cox Proportional Hazard Model|||1.24|0.56|0.37
82639504|NCT02383966|164994070|OTHER||Hazard Ratio (HR)|0.566|||||TWO_SIDED|95.0|0.4|0.803||||||||0.803|0.400|
82639505|NCT02383966|164994071|OTHER||Hazard Ratio (HR)|0.568|||||TWO_SIDED|95.0|0.406|0.795||||||||0.795|0.406|
82639506|NCT02383966|164994072|OTHER||Hazard Ratio (HR)|0.705|||||TWO_SIDED|95.0|0.502|0.991||||||||0.991|0.502|
82639507|NCT02383966|164994073|OTHER||Odds Ratio (OR)|2.76|||||TWO_SIDED|95.0|1.52|5.45||||||||5.45|1.52|
82639508|NCT02383966|164994074|OTHER||Odds Ratio (OR)|2.14|||||TWO_SIDED|95.0|1.15|3.95||||||||3.95|1.15|
82639509|NCT03022526|164994077|SUPERIORITY|||||||0.7463|||||||t-test, 2 sided|||||||0.7463
82639510|NCT03022526|164994078|SUPERIORITY|||||||0.5764|||||||t-test, 2 sided|||||||0.5764
82639511|NCT03022526|164994079|SUPERIORITY|||||||0.7169|||||||t-test, 2 sided|||||||0.7169
82639512|NCT03022526|164994080|SUPERIORITY|||||||0.4226|||||||t-test, 2 sided|||||||0.4226
82639513|NCT03022526|164994081|SUPERIORITY|||||||0.6873|||||||t-test, 2 sided|||||||0.6873
82639514|NCT03022526|164994082|SUPERIORITY|||||||0.0452|||||||Chi-squared|||||||0.0452
82639515|NCT03022526|164994083|SUPERIORITY|||||||0.0899|||||||Chi-squared|||||||0.0899
82639516|NCT03022526|164994084|SUPERIORITY|||||||0.1265|||||||Chi-squared|||||||0.1265
82639517|NCT03022526|164994085|SUPERIORITY|||||||0.0328|||||||t-test, 2 sided|||||||0.0328
82639518|NCT03022526|164994086|SUPERIORITY|||||||0.6824|||||||t-test, 2 sided|||||||0.6824
82639519|NCT03022526|164994087|SUPERIORITY|||||||0.449|||||||t-test, 2 sided|||||||0.449
82639520|NCT03022526|164994088|SUPERIORITY|||||||0.5996|||||||t-test, 2 sided|||||||0.5996
82639521|NCT03022526|164994089|SUPERIORITY|||||||0.8009|||||||t-test, 2 sided|||||||0.8009
82639522|NCT03022526|164994090|SUPERIORITY|||||||0.5422|||||||t-test, 2 sided|||||||0.5422
82639523|NCT03022526|164994091|SUPERIORITY|||||||0.7374|||||||t-test, 2 sided|||||||0.7374
82639524|NCT02646566|164994137|SUPERIORITY|||||||0.003||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.003) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.003
82639525|NCT02646566|164994137|SUPERIORITY|||||||0.109||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.109) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.109
82639526|NCT02646566|164994138|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
82639527|NCT02646566|164994138|SUPERIORITY|||||||0.059||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.059
82639528|NCT02646566|164994139|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
82639529|NCT02646566|164994139|SUPERIORITY|||||||0.053||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.053
82639530|NCT02646566|164994140|SUPERIORITY||||||<|0.001||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||<0.001
82639531|NCT02646566|164994140|SUPERIORITY|||||||0.021||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.021
82639532|NCT02646566|164994141|SUPERIORITY||||||<|0.001|||||||Regression, Cox|||||||<0.001
82639533|NCT02646566|164994141|SUPERIORITY|||||||0.084|||||||Regression, Cox|||||||0.084
82639534|NCT02646566|164994142|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82639535|NCT02646566|164994142|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82639536|NCT02646566|164994143|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82639537|NCT02646566|164994143|SUPERIORITY|||||||0.179|||||||Chi-squared|||||||0.179
82639538|NCT02646566|164994144|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
82639539|NCT02646566|164994144|SUPERIORITY|||||||0.315|||||||Chi-squared|||||||0.315
82639540|NCT02646566|164994145|SUPERIORITY|||||||0.065|||||||Chi-squared|||||||0.065
82639541|NCT02646566|164994145|SUPERIORITY|||||||0.52|||||||Chi-squared|||||||0.520
82639542|NCT02646566|164994146|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82639543|NCT02646566|164994146|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
82639544|NCT02646566|164994147|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82639545|NCT02646566|164994147|SUPERIORITY|||||||0.258|||||||Wilcoxon (Mann-Whitney)|||||||0.258
82639546|NCT01539512|164994198|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.1|0.32|||Log Rank|P-value is from stratified log-rank test, adjusted for randomization stratification factors.||||0.32|0.10|< 0.0001
82639547|NCT01539512|164994201|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.11|0.69||||||||0.69|0.11|
82639548|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|3.04||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1||||0.32
82639549|NCT01484691|164994203|SUPERIORITY||Mean Difference (Final Values)|1.91||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir107||||0.38
82639550|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.47||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir128||||0.83
82639551|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|1.27||||0.42|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir141||||0.42
82629670|NCT02820038|164974757|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|1.04||0.2123|TWO_SIDED|95.0|-3.34|0.75|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater decreases in fatigue at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.75|-3.34|0.2123
82629671|NCT02820038|164974757|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.81||0.2691|TWO_SIDED|95.0|-2.48|0.7|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in fatigue between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.70|-2.48|0.2691
82629672|NCT02820038|164974757|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.81||0.5655|TWO_SIDED|95.0|-2.06|1.13|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater decrease in fatigue between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.13|-2.06|0.5655
82639552|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|2.55||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir148b||||0.32
82639553|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.68||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir181b||||0.83
82639554|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|1.94||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir185||||0.38
82639555|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|2.77||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir194||||0.38
82639556|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|3.38||||0.32|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir19a||||0.32
82639557|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir200a||||0.99
82639558|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|1.92||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir22||||0.38
82639559|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|1.57||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir223||||0.38
82639560|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.52||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir23a||||0.83
82639561|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.81||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir26a||||0.83
82639562|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|1.39||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir320b||||0.38
82639563|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|-0.92||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir598||||0.38
82639564|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|0.55||||0.83|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir720||||0.83
82639565|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|-1.12||||0.3|TWO_SIDED||||||t-test, 2 sided|||mir1915||||0.30
82639566|NCT01484691|164994203|SUPERIORITY||Mean Difference (Net)|-1.35||||0.38|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1978||||0.38
82639567|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|4.53||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1||||0.26
82639568|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|4.52||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir107||||0.26
82629673|NCT02820038|164974758|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|4.1||0.5364|TWO_SIDED|95.0|-5.51|10.55|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in health literacy at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||10.55|-5.51|0.5364
82566990|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.1||||90.0|-0.06|0.28|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.28|-0.06|
82566991|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.1||||90.0|0.04|0.38|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.38|0.04|
82566992|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.01|0.34|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.34|-0.01|
82566993|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.03|0.32|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.32|-0.03|
82566994|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.12|0.24|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.24|-0.12|
82566995|NCT00139659|164843203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.12||||90.0|-0.19|0.22|||Mixed Models Analysis|||Week 52 (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of treatment, Week, Baseline HbA1c, Center, and Type of Diabetes.||0.22|-0.19|
82566996|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.615|STANDARD_ERROR_OF_MEAN|7.874||||90.0|-2.351|23.581|||Mixed Models Analysis|Confidence interval for the LS mean of that particular treatment.||Week 6; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||23.581|-2.351|
82566997|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.942|STANDARD_ERROR_OF_MEAN|7.804||||90.0|-19.79|5.909|||Mixed Models Analysis|||Week 12; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||5.909|-19.79|
82566998|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.622|STANDARD_ERROR_OF_MEAN|7.897||||90.0|-17.63|8.382|||Mixed Models Analysis|||Week 26; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||8.382|-17.63|
82566999|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.828|STANDARD_ERROR_OF_MEAN|7.888||||90.0|-11.16|14.817|||Mixed Models Analysis|||Week 39; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||14.817|-11.16|
82639569|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|3.57||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir128||||0.26
82567000|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.149|STANDARD_ERROR_OF_MEAN|7.991||||90.0|-12.01|14.307|||Mixed Models Analysis|||Week 52; Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||14.307|-12.01|
82629674|NCT02820038|164974758|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|3.24||0.605|TWO_SIDED|95.0|-4.68|8.01|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in health literacy between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||8.01|-4.68|0.6050
82639570|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|-0.58||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir141||||0.87
82639571|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|4.57||||0.29|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir148b||||0.29
82639572|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|1.56||||0.75|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir181b||||0.75
82639573|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|2.9||||0.36|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir185||||0.36
82639574|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|-0.36||||0.89|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir194||||0.89
82639575|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|2.48||||0.48|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir19a||||0.48
82639576|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|0.75||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir200a||||0.87
82639577|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|2.78||||0.53|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir22||||0.53
82639578|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|1.91||||0.57|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir223||||0.57
82639579|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|4.27||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir23a||||0.26
82639580|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|1.66||||0.75|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir26a||||0.75
82639581|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|-0.91||||0.89|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir320b||||0.89
82639582|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|3.32||||0.26|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir598||||0.26
82639583|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|-0.99||||0.87|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir720||||0.87
82567001|NCT00139659|164843204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.247|STANDARD_ERROR_OF_MEAN|7.816||||90.0|-8.664|17.157|||Mixed Models Analysis|||Week 52 (LOCF); Analysis of change from Baseline in fasting plasma glucose: Inhaled Insulin - Subcutaneouas Insulin. Adjusted (Primary Analysis Model): includes terms of Treatment, Week, Baseline, Fasting Plasma Glucose, Center, and Type of Diabetes.||17.157|-8.664|
82567002|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.455||||90.0|-1.829|-0.331|||Mixed Models Analysis|||Week 1; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.331|-1.829|
82639584|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|-0.75||||0.74|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1915||||0.74
82639585|NCT01484691|164994204|SUPERIORITY||Mean Difference (Net)|3.77||||0.36|TWO_SIDED|||||This p value is adjusted for multiple comparisons using the false discovery rate (FDR) approach and a p value \<0.05 is taken for significance.|t-test, 2 sided|||mir1978||||0.36
82639586|NCT01738672|164994251|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
82639587|NCT01738672|164994252|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
82639588|NCT01738672|164994253|OTHER|||||||0.56|||||||t-test, 2 sided|||||||0.56
82639589|NCT01590810|164994272|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|1.15||0.503|TWO_SIDED|95.0|-1.59|3.15|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.15|-1.59|0.503
82639590|NCT01590810|164994272|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.86|-1.55|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.55|-2.86|<0.0001
82639591|NCT01590810|164994272|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.23|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|-10.13|-6.34|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.34|-10.13|<0.0001
82639592|NCT01590810|164994272|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.84|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-9.1|-4.58|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.58|-9.10|<0.0001
82639593|NCT01590810|164994272|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.41|STANDARD_ERROR_OF_MEAN|1.21|<|0.0001|TWO_SIDED|95.0|-12.89|-7.92|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.92|-12.89|<0.0001
82639594|NCT01590810|164994273|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|1.4||0.052|TWO_SIDED|95.0|-5.79|0.02|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.02|-5.79|0.052
82639595|NCT01590810|164994273|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.46|STANDARD_ERROR_OF_MEAN|1.95||0.01|TWO_SIDED|95.0|-9.49|-1.43|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.43|-9.49|0.010
82639596|NCT01590810|164994273|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.49|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-14.2|-4.79|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.79|-14.20|<0.001
82639597|NCT01590810|164994273|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.02|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-16.51|-7.52|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.52|-16.51|<0.0001
82639598|NCT01590810|164994273|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-12.93|-6.53|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.53|-12.93|<0.0001
82639599|NCT01590810|164994274|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|5.61||0.48|TWO_SIDED|95.0|-16.44|8.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.25|-16.44|0.480
82639600|NCT01590810|164994274|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.79|STANDARD_ERROR_OF_MEAN|5.72||0.086|TWO_SIDED|95.0|-23.37|1.79|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.79|-23.37|0.086
82639601|NCT01590810|164994274|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.51|STANDARD_ERROR_OF_MEAN|5.15||0.006|TWO_SIDED|95.0|-28.85|-6.18|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.18|-28.85|0.006
82639602|NCT01590810|164994275|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.21|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-16.84|-9.59|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.59|-16.84|<0.0001
82639603|NCT01590810|164994275|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|1.8|<|0.0001|TWO_SIDED|95.0|-13.94|-6.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.45|-13.94|<0.0001
82639604|NCT01590810|164994275|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.82|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-16.45|-9.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.19|-16.45|<0.0001
82639605|NCT01590810|164994275|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.84|STANDARD_ERROR_OF_MEAN|1.75|<|0.0001|TWO_SIDED|95.0|-16.49|-9.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.19|-16.49|<0.0001
82639606|NCT01590810|164994276|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|1.18||0.061|TWO_SIDED|95.0|-4.73|0.11|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.11|-4.73|0.061
82639607|NCT01590810|164994276|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.23|STANDARD_ERROR_OF_MEAN|0.86||0.016|TWO_SIDED|95.0|-4.0|-0.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.45|-4.00|0.016
82639608|NCT01590810|164994276|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.62|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-14.42|-8.82|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.82|-14.42|<0.0001
82567003|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.475|STANDARD_ERROR_OF_MEAN|0.461||||90.0|-1.233|0.284|||Mixed Models Analysis|||Week 2; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.284|-1.233|
82567004|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.185|STANDARD_ERROR_OF_MEAN|0.454||||90.0|-0.931|0.562|||Mixed Models Analysis|||Week 3; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.562|-0.931|
82567005|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.189|STANDARD_ERROR_OF_MEAN|0.449||||90.0|-0.929|0.55|||Mixed Models Analysis|||Week 4; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.550|-0.929|
82567006|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.447||||90.0|-1.294|0.178|||Mixed Models Analysis|||Week 6; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.178|-1.294|
82567007|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.748|STANDARD_ERROR_OF_MEAN|0.467||||90.0|-1.517|0.022|||Mixed Models Analysis|||Week 9; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.022|-1.517|
82567008|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.053|STANDARD_ERROR_OF_MEAN|0.886||||90.0|-2.51|0.405|||Mixed Models Analysis|||Week 11; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.405|-2.510|
82567009|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.891|STANDARD_ERROR_OF_MEAN|0.451||||90.0|-1.634|-0.149|||Mixed Models Analysis|||Week 12; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.149|-1.634|
82567010|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.453||||90.0|-1.725|-0.234|||Mixed Models Analysis|||Week 18; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||-0.234|-1.725|
82567011|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.663|STANDARD_ERROR_OF_MEAN|0.448||||90.0|-1.4|0.075|||Mixed Models Analysis|||Week 26; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.075|-1.400|
82567012|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.537|STANDARD_ERROR_OF_MEAN|0.451||||90.0|-1.279|0.205|||Mixed Models Analysis|||Week 39; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.205|-1.279|
82639609|NCT01590810|164994276|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.15|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-11.34|-4.96|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.96|-11.34|<0.0001
82567013|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.322|STANDARD_ERROR_OF_MEAN|1.027||||90.0|-3.012|0.369|||Mixed Models Analysis|||Week 50; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.369|-3.012|
82567014|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.552||||90.0|-0.847|0.972|||Mixed Models Analysis|||Week 51; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.972|-0.847|
82567015|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193|STANDARD_ERROR_OF_MEAN|0.469||||90.0|-0.964|0.579|||Mixed Models Analysis|||Week 52; adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.579|-0.964|
82567016|NCT00139659|164843205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.526||||90.0|-1.298|0.438|||Mixed Models Analysis|||Week 52 (LOCF); adjusted mean difference between inhaled insulin and subcutaneous insulin groups. Primary analysis model includes terms of Treatment, Week, Baseline Body Weight, Center, and Type of Diabetes.||0.438|-1.298|
82567017|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.079|0.0|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.000|-0.079|
82567018|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.068|0.01|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.010|-0.068|
82567019|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.084|-0.006|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.006|-0.084|
82567020|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.007|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.007|-0.085|
82567021|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.007|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.007|-0.085|
82567022|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.063|0.017|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.017|-0.063|
82629675|NCT02820038|164974758|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|3.24||0.924|TWO_SIDED|95.0|-6.66|6.05|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, Other CMI+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in health literacy between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||6.05|-6.66|0.9240
82567023|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.062|0.02|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.020|-0.062|
82567024|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.055|0.027|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.027|-0.055|
82567025|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.085|0.0|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.000|-0.085|
82567026|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.109|-0.022|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.022|-0.109|
82567027|NCT00139659|164843213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.097|-0.003|||Mixed Models Analysis|||Week 52 Last Observation Carried Forward (LOCF; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.003|-0.097|
82639610|NCT01590810|164994276|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.78|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-20.81|-12.75|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-12.75|-20.81|<0.0001
82567028|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.279|STANDARD_ERROR_OF_MEAN|0.199||||90.0|-0.606|0.048|||Mixed Models Analysis|||Week 1; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||0.048|-0.606|
82567029|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.336|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.661|-0.011|||Mixed Models Analysis|||Week 2; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.011|-0.661|
82567030|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.384|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.707|-0.061|||Mixed Models Analysis|||Week 3; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.061|-0.707|
82567031|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.516|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.842|-0.191|||Mixed Models Analysis|||Week 4; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.191|-0.842|
82639611|NCT01590810|164994277|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|1.26||0.029|TWO_SIDED|95.0|-5.56|-0.34|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.34|-5.56|0.029
82567032|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.474|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.797|-0.152|||Mixed Models Analysis|||Week 6; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.152|-0.797|
82639612|NCT01590810|164994277|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.76|STANDARD_ERROR_OF_MEAN|2.19||0.005|TWO_SIDED|95.0|-11.29|-2.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.22|-11.29|0.005
82639613|NCT01590810|164994277|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.48|STANDARD_ERROR_OF_MEAN|3.16|<|0.001|TWO_SIDED|95.0|-20.03|-6.93|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.93|-20.03|<0.001
82639614|NCT01590810|164994277|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.33|STANDARD_ERROR_OF_MEAN|1.76|<|0.0001|TWO_SIDED|95.0|-21.98|-14.68|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-14.68|-21.98|<0.0001
82639615|NCT01590810|164994277|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.24|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-20.29|-12.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-12.19|-20.29|<0.0001
82639616|NCT01590810|164994278|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|2.51||0.539|TWO_SIDED|95.0|-7.12|3.93|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.93|-7.12|0.539
82567033|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.202||||90.0|-0.866|-0.2|||Mixed Models Analysis|||Week 12; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.200|-0.866|
82378429|NCT00879086|164465338|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-18.4||||0.0492|TWO_SIDED|95.0|-36.0|-0.3||Controlled for baseline pre-existing neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3), with both covariates included as binary variables.|Cochran-Mantel-Haenszel||Extended Mantel-Haenszel test statistics with stratification adjustment for pre-existing baseline neuropathy (CTCAE Grade 0 or 1) and number of prior chemotherapy regimens (greater than or equal to 3 or greater than 3)|||-0.3|-36.0|0.0492
82567034|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.509|STANDARD_ERROR_OF_MEAN|0.204||||90.0|-0.845|-0.174|||Mixed Models Analysis|||Week 18; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.174|-0.845|
82567035|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.412|STANDARD_ERROR_OF_MEAN|0.204||||90.0|-0.749|-0.076|||Mixed Models Analysis|||Week 26; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.076|-0.749|
82629676|NCT02820038|164974759|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7871|TWO_SIDED|95.0|0.43|1.89|||Regression, Logistic||Modeled probability of attending at least one class session. Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to participate in the BetterChoices, BetterHealth program if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.89|0.43|0.7871
82629677|NCT02820038|164974759|SUPERIORITY||Odds Ratio (OR)|1.189||||0.5815|TWO_SIDED|95.0|0.643|2.198|||Regression, Logistic||Modeled probability of attending at least one class. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|The investigators hypothesized that participants would be more likely to participate in at least one session of the BetterChoices,BetterHealth program if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.198|0.643|0.5815
82629678|NCT02820038|164974759|SUPERIORITY||Odds Ratio (OR)|0.679||||0.2211|TWO_SIDED|95.0|0.366|1.262|||Regression, Logistic||Modeled probability of attending at least one class. Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART.|The investigators hypothesized that participants would be more likely to participate in at least one session of the BetterChoices, BetterHealth program if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.262|0.366|0.2211
82567036|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.707|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-1.056|-0.358|||Mixed Models Analysis|||Week 39; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.358|-1.056|
82567037|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.219||||90.0|-1.04|-0.32|||Mixed Models Analysis|||Week 52; Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.320|-1.040|
82639617|NCT01590810|164994278|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.36|STANDARD_ERROR_OF_MEAN|3.12||0.113|TWO_SIDED|95.0|-12.23|1.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.50|-12.23|0.113
82639618|NCT01590810|164994278|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-19.69|-8.91|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.91|-19.69|<0.001
82639619|NCT01590810|164994279|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.36|STANDARD_ERROR_OF_MEAN|1.56|<|0.0001|TWO_SIDED|95.0|-15.62|-9.11|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-9.11|-15.62|<0.0001
82567038|NCT00139659|164843214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.765|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-1.116|-0.415|||Mixed Models Analysis|||Week 52 Last Observation Carried Forward (LOCF); Inhaled Insulin - Subcutaneous Insulin. Adjusted (primary analysis model) includes terms of Treatment, Week, Baseline pulmonary function test (PFT), Center, Age, Sex, Baseline Height, Type of Diabetes, and Controller Medications Use on Day of Randomization.||-0.415|-1.116|
82567039|NCT01209936|164843230|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82567040|NCT01209936|164843231|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82567041|NCT01209936|164843232|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82567042|NCT00024102|164843239|NON_INFERIORITY_OR_EQUIVALENCE|The primary measure of efficacy was the hazard ratio for disease recurrence or death in the capecitabine group as compared with the standard chemotherapy group. Capecitabine would be considered noninferior to standard chemotherapy if the hazard ratio was greater than 0.8046. (With the use of a 5-year landmark for descriptive purposes, this ratio corresponds to a 5-year rate of relapse-free survival of 60% for standard chemotherapy and 53% for capecitabine.)|Hazard Ratio (HR)|2.09|||<|0.001|TWO_SIDED|95.0|1.38|3.17||Multivariate proportional hazards regression used to test for an arm effect was adjusted for tumor size, number of lymph nodes and hormone-receptor status. A priori formal monitoring for futility and noninferiority was planned at accrual milestones|Regression, Cox|||||3.17|1.38|<0.001
82567043|NCT00024102|164843240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.85||||0.02|TWO_SIDED|95.0|1.11|3.08||Multivariate proportional hazards regression used to test for an arm effect was adjusted for tumor size, number of lymph nodes and hormone-receptor status. There is no adjustment for multiple comparisons.|Regression, Cox|||||3.08|1.11|0.02
82567044|NCT04089332|164843304|OTHER||Slope|-0.4465||||0.162|TWO_SIDED||||||Regression, Linear|||WASI II (Verbal IQ) vs HOMA-IR|Adjusted R-squared = 0.117|||0.162
82567045|NCT04089332|164843304|OTHER||Slope|0.6704||||0.082|TWO_SIDED||||||Regression, Linear|||WASI II (Performance IQ) vs HOMA-IR|Adjusted R-squared = 0.221|||0.082
82567046|NCT04089332|164843304|OTHER||Slope|-0.8486||||0.286|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Flanker Inhibitory Control and Attention) vs HOMA-IR|Adjusted R-squared = 0.0503|||0.286
82567047|NCT04089332|164843304|OTHER||Slope|-0.0266||||0.635|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Pattern Comparison) vs HOMA-IR|Adjusted R-squared = 0|||0.635
82567048|NCT04089332|164843304|OTHER||Slope|-0.1588||||0.061|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Picture Sequence) vs HOMA-IR|Adjusted R-squared = 0.381|||0.061
82567049|NCT04089332|164843304|OTHER||Slope|0.099||||0.479|TWO_SIDED||||||Regression, Linear|||WRAML (Picture Memory) vs. HOMA-IR|Adjusted R-squared = 0|||0.479
82567050|NCT04089332|164843304|OTHER||Slope|0.0676||||0.965|TWO_SIDED||||||Regression, Linear|||D-KEFS (Color-Word Interference) vs. HOMA-IR|Adjusted R-squared = 0|||0.965
82567051|NCT04089332|164843304|OTHER||Slope|-0.0091||||0.039|TWO_SIDED||||||Regression, Linear|||D-KEFS (Trail Making Test) vs. HOMA-IR|Adjusted R-squared = 0.324|||0.039
82567052|NCT04089332|164843304|OTHER||Slope|-4.2085||||0.018|TWO_SIDED||||||Regression, Linear|||PedsQL (Child 8-12 / Teen 13-18) vs. HOMA-IR|Adjusted R-squared = 0.0423|||0.018
82567053|NCT04089332|164843305|OTHER||Slope|-1.1138||||0.558|TWO_SIDED||||||Regression, Linear|||Change in Gray Matter Perfusion vs. HOMA-IR|Adjusted R-square = 0|||0.558
82567054|NCT04089332|164843305|OTHER||Slope|-5.8089||||0.057|TWO_SIDED||||||Regression, Linear|||Baseline Gray Matter vs. HOMA-IR|Adjusted R-squared = 0.18|||0.057
82567055|NCT04089332|164843306|OTHER||Slope|-0.4465||||0.377|TWO_SIDED||||||Regression, Linear|||WASI II (Verbal IQ) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.377
82567056|NCT04089332|164843306|OTHER||Slope|0.6704||||0.402|TWO_SIDED||||||Regression, Linear|||WASI II (Performance IQ) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.402
82629679|NCT02820038|164974760|SUPERIORITY||Odds Ratio (OR)|0.804||||0.574|TWO_SIDED|95.0|0.38|1.72|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to use the RA Self-Management website if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||1.72|0.38|0.5740
82567057|NCT04089332|164843306|OTHER||Slope|-0.8486||||0.203|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Flanker Inhibitory Control and Attention) vs. Cerebral Blood Flow|Adjusted R-squared = 0.207|||0.203
82629680|NCT02820038|164974760|SUPERIORITY||Odds Ratio (OR)|1.425||||0.1278|TWO_SIDED|95.0|0.766|2.649|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|The investigators hypothesized that participants would be more likely to visit the RA Self-Management Website if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.649|0.766|0.1278
82639620|NCT01590810|164994279|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.58|STANDARD_ERROR_OF_MEAN|1.51|<|0.0001|TWO_SIDED|95.0|-13.74|-7.42|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.42|-13.74|<0.0001
82639621|NCT01590810|164994279|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.63|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-16.12|-11.13|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-11.13|-16.12|<0.0001
82567058|NCT04089332|164843306|OTHER||Slope|-0.0266||||0.967|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Pattern Comparison) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.967
82567059|NCT04089332|164843306|OTHER||Slope|-0.1588||||0.616|TWO_SIDED||||||Regression, Linear|||NIH Toolbox (Picture Sequence) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.616
82567060|NCT04089332|164843306|OTHER||Slope|0.099||||0.287|TWO_SIDED||||||Regression, Linear|||WRAML (Picture Memory) vs. Cerebral Blood Flow|Adjusted R-squared = 0.0497|||0.287
82567061|NCT04089332|164843306|OTHER||Slope|0.0676||||0.225|TWO_SIDED||||||Regression, Linear|||D-KEFS (Color-Word Interference) vs. Cerebral Blood Flow|Adjusted R-squared = 0.106|||0.225
82567062|NCT04089332|164843306|OTHER||Slope|-0.0091||||0.872|TWO_SIDED||||||Regression, Linear|||D-KEFS (Trail Making Test) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.872
82567063|NCT04089332|164843306|OTHER||Slope|-4.2085||||0.66|TWO_SIDED||||||Regression, Linear|||PedsQL (Child 8-12 / Teen 13-18) vs. Cerebral Blood Flow|Adjusted R-squared = 0|||0.66
82567064|NCT05401149|164843308|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|1.87|||<|0.001|TWO_SIDED|95.0|1.35|2.59|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.59|1.35|<0.001
82567065|NCT05401149|164843309|OTHER|OR (95% CI) and P values were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|1.43||||0.054|TWO_SIDED|95.0|0.99|2.06|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.06|0.99|0.054
82567066|NCT05401149|164843310|OTHER|OR (95% CI) and P values were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|2.07||||0.097|TWO_SIDED|95.0|0.88|4.86|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||4.86|0.88|0.097
82567067|NCT05401149|164843311|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the conditional logistic regression models with stratification by matching pairs and adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.48|2.75|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||2.75|1.48|<0.001
82567068|NCT05401149|164843312|OTHER|Odds Ratio (OR) (95% CI) and P values for this outcome were derived from the ordinal logistic regression models with adjustment for prior modified Rankin Scale (mRS) score (≤ 1 or not), baseline National Institutes of Health Stroke Scale (NIHSS) score, and time from symptom onset to hospital admission.|Odds Ratio (OR)|0.77||||0.007|TWO_SIDED|95.0|0.64|0.93|||Regression, Logistic||IV rt-PA cohort/Non-reperfusion cohort|||0.93|0.64|0.007
82639622|NCT01590810|164994279|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.96|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-15.85|-10.08|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-10.08|-15.85|<0.0001
82639623|NCT01590810|164994280|SUPERIORITY_OR_OTHER||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|0.75||0.175|TWO_SIDED|95.0|-0.5|2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.60|-0.50|0.175
82639624|NCT01590810|164994280|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|1.18||0.076|TWO_SIDED|95.0|-0.25|4.61|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.61|-0.25|0.076
82639625|NCT01590810|164994280|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|0.55||0.001|TWO_SIDED|95.0|1.04|3.32|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.32|1.04|0.001
82639626|NCT01590810|164994280|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|STANDARD_ERROR_OF_MEAN|1.22|<|0.0001|TWO_SIDED|95.0|3.14|8.15|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.15|3.14|<0.0001
82639627|NCT01590810|164994280|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|0.74||0.008|TWO_SIDED|95.0|0.63|3.67|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.67|0.63|0.008
82639628|NCT01590810|164994281|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.39||0.557|TWO_SIDED|95.0|-3.7|2.05|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.05|-3.70|0.557
82639629|NCT01590810|164994281|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|1.05||0.175|TWO_SIDED|95.0|-3.65|0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.70|-3.65|0.175
82639630|NCT01590810|164994281|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|1.52||0.951|TWO_SIDED|95.0|-3.04|3.23|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.23|-3.04|0.951
82639631|NCT01590810|164994281|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|1.34|3.88|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.88|1.34|<0.001
82639632|NCT01590810|164994281|SUPERIORITY_OR_OTHER||LS Mean Difference|4.62|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|3.0|6.24|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.24|3.00|<0.0001
82378430|NCT02969044|164465348|SUPERIORITY||Mean Difference (Net)|-9.25|||<|0.001|TWO_SIDED|95.0|-14.75|-3.79|||ANCOVA|||||-3.79|-14.75|<0.001
82639633|NCT01590810|164994282|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|1.16||0.241|TWO_SIDED|95.0|-4.01|1.12|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.12|-4.01|0.241
82639634|NCT01590810|164994282|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|STANDARD_ERROR_OF_MEAN|2.07||0.664|TWO_SIDED|95.0|-3.63|5.48|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.48|-3.63|0.664
82639635|NCT01590810|164994282|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.13||0.114|TWO_SIDED|95.0|-1.03|8.33|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.33|-1.03|0.114
82639636|NCT01590810|164994283|SUPERIORITY_OR_OTHER||LS Mean Difference|4.42|STANDARD_ERROR_OF_MEAN|4.98||0.385|TWO_SIDED|95.0|-5.96|14.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||14.81|-5.96|0.385
82639637|NCT01590810|164994283|SUPERIORITY_OR_OTHER||LS Mean Difference|4.58|STANDARD_ERROR_OF_MEAN|5.15||0.385|TWO_SIDED|95.0|-6.16|15.32|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||15.32|-6.16|0.385
82639638|NCT01590810|164994283|SUPERIORITY_OR_OTHER||LS Mean Difference|5.15|STANDARD_ERROR_OF_MEAN|4.6||0.276|TWO_SIDED|95.0|-4.44|14.74|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||14.74|-4.44|0.276
82639639|NCT01590810|164994283|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5|STANDARD_ERROR_OF_MEAN|4.94||0.069|TWO_SIDED|95.0|-0.81|19.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||19.81|-0.81|0.069
82639640|NCT01590810|164994284|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|1.09||0.383|TWO_SIDED|95.0|-1.28|3.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.22|-1.28|0.383
82639641|NCT01590810|164994284|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.51||0.002|TWO_SIDED|95.0|-2.79|-0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.70|-2.79|0.002
82639642|NCT01590810|164994284|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.11|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-10.08|-6.14|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.14|-10.08|<0.0001
82639643|NCT01590810|164994284|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-9.74|-3.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.25|-9.74|<0.001
82639644|NCT01590810|164994284|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED|95.0|-12.84|-7.78|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.78|-12.84|<0.0001
82639645|NCT01590810|164994285|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|1.62||0.216|TWO_SIDED|95.0|-5.43|1.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.30|-5.43|0.216
82639646|NCT01590810|164994285|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|2.27||0.046|TWO_SIDED|95.0|-9.51|-0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.10|-9.51|0.046
82523009|NCT00789815|164741446|NON_INFERIORITY_OR_EQUIVALENCE|A preliminary study was performed to determine the sample size before this trial. 15 and 15 patients undergoing FB received BIS-guided propofol sedation and clinical-judged midazolam sedation, respectively. The incidences of hypoxemia were 0.33 and 0.20, respectively. The selected sample size of 225 in each group will yield 90% power for detecting a clinically meaningful difference of 0.13 at the 5.0% level of significance. To allow for 10% missing data, we recruited 250 patients per group.||||||0.05||95.0|||||Chi-squared|||"The null hypothesis: the incidence of hypoxemia occured during FB with BIS-guided propofol infusion is higher than that with clinical-judged midazolam administration.~Power calculation is described below."||||0.05
82523010|NCT00789815|164741447|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||The null hypothesis: the incidence of hypotension during FB in patients of study group is higher than that in the control group.||||0.05
82523011|NCT00789815|164741448|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
82523012|NCT00789815|164741449|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
82567069|NCT05401149|164843313|OTHER|Hazard ratio (HR) (95% Confidence Interval) and P values were derived from the cox proportional hazards models with stratification by matching pairs and adjustment for prior mRS score (≤ 1 or not), baseline NIHSS score, and time from symptom onset to hospital admission.|Hazard Ratio (HR)|1.26||||0.077|TWO_SIDED|95.0|0.98|1.64|||Regression, Cox||IV rt-PA cohort/Non-reperfusion cohort|||1.64|0.98|0.077
82567070|NCT04281875|164843320|SUPERIORITY|||||||0.6905|||||||t-test, 2 sided|||||||0.6905
82567071|NCT01589523|164843372|EQUIVALENCE|paired t-test||||||0.342|||||||t-test, 2 sided|||||||0.342
82567072|NCT01589523|164843373|EQUIVALENCE|paired t-test||||||0.116|||||||t-test, 2 sided|||||||0.116
82567073|NCT01589523|164843374|EQUIVALENCE|paired t-test||||||0.065|||||||t-test, 2 sided|vitamin D||||||0.065
82567074|NCT03721978|164843383|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in Percentage|28.6||||0.115|TWO_SIDED|95.0|-24.6|50.4|||Miettinen and Nurminen method|||||50.4|-24.6|0.115
82567075|NCT03721978|164843388|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in Percentage|18.9||||0.001|TWO_SIDED|95.0|7.8|28.6|||Miettinen and Nurminen method|||||28.6|7.8|0.001
82567076|NCT03721978|164843389|OTHER||Difference in Percentage|13.1|||||TWO_SIDED|95.0|-37.7|46.0||||||||46.0|-37.7|
82523013|NCT00789815|164741450|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
82508454|NCT01888497|164708257|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|13.82|||<|0.001|TWO_SIDED|95.0|10.85|17.4||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam versus (vs) placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||17.40|10.85|<0.001
82508455|NCT01888497|164708257|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95 percent (%) confidence interval (CI) was 2.4 cm.|Hodges-Lehman estimate|0.55|||||TWO_SIDED|95.0|-0.66|2.33|||||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||2.33|-0.66|
82508456|NCT01888497|164708257|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|1.02||||0.134|TWO_SIDED|95.0|-0.39|2.51||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||2.51|-0.39|0.134
82508457|NCT01888497|164708257|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|2.37|||<|0.001|TWO_SIDED|95.0|1.01|3.98||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For primary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||3.98|1.01|<0.001
82508458|NCT01888497|164708258|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.36|||<|0.001|TWO_SIDED|95.0|0.26|0.47||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.47|0.26|<0.001
82508459|NCT01888497|164708258|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95% CI was 0.1 m/sec.|Hodges-Lehman estimate|-0.01|||||TWO_SIDED|95.0|-0.07|0.05|||||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.05|-0.07|
82508460|NCT01888497|164708258|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.07||||0.012|TWO_SIDED|95.0|0.02|0.12||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.12|0.02|0.012
82508461|NCT01888497|164708258|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|0.06||||0.014|TWO_SIDED|95.0|0.01|0.12||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||0.12|0.01|0.014
82508462|NCT01888497|164708259|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|103.25|||<|0.001|TWO_SIDED|95.0|72.0|130.5||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||130.50|72.00|<0.001
82508463|NCT01888497|164708259|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For gabapentin versus placebo comparison, the non-inferiority margin for upper limit of 95% CI was 8 lanes.|Hodges-Lehman estimate|5.0|||||TWO_SIDED|95.0|-4.0|16.5|||||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||16.50|-4.00|
82508464|NCT01888497|164708259|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|3.0||||0.213|TWO_SIDED|95.0|-3.0|9.0||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||9.00|-3.00|0.213
82567077|NCT03721978|164843390|OTHER||Difference in Percentage|12.6|||||TWO_SIDED|95.0|-0.8|24.5||||||||24.5|-0.8|
82567078|NCT03721978|164843391|OTHER||Difference in Percentage|38.1|||||TWO_SIDED|95.0|-15.7|59.5||||||||59.5|-15.7|
82567079|NCT03721978|164843392|OTHER||Difference in Percentage|27.9|||||TWO_SIDED|95.0|16.0|38.2||||||||38.2|16.0|
82508465|NCT01888497|164708259|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman estimate|11.0||||0.003|TWO_SIDED|95.0|4.0|20.5||Statistical comparison was performed at a two-sided significance level of 0.05.|Wilcoxon Rank Sum test||Hodges-Lehman estimate of treatment difference was reported.|For secondary endpoint sequential order of testing: triazolam vs placebo; gabapentin vs placebo; diphenhydramine citrate vs gabapentin; diphenhydramine citrate vs placebo. If comparison at preceding step was significant, only then subsequent comparisons were considered significant.||20.50|4.00|0.003
82508466|NCT03240133|164708265|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|-6.98||||0.0024|TWO_SIDED|95.0|-11.37|-2.6|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 750mg berotralstat or placebo.||-2.6|-11.37|0.0024
82508467|NCT03240133|164708265|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|-2.1||||0.6424|TWO_SIDED|95.0|-11.49|7.29|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 500mg berotralstat or placebo.||7.29|-11.49|0.6424
82508468|NCT03240133|164708265|SUPERIORITY|Comparisons were performed separately at each time point using a mixed effect linear model including treatment, period and sequence as fixed effects, subject within sequence as a random effect, and predose 3-symptom composite VAS score as a covariate.|Difference in Least Square Means|0.57||||0.8283|TWO_SIDED|95.0|-4.9|6.03|||Mixed effect linear model|||Change in HAE attack symptoms from pre-dose to 4 hours post-dose was assessed following treatment with either 250mg berotralstat or placebo.||6.03|-4.9|0.8283
82567080|NCT03721978|164843393|OTHER||Difference in Percentage|13.1|||||TWO_SIDED|95.0|-37.7|46.0||||||||46.0|-37.7|
82567081|NCT03721978|164843394|OTHER||Difference in Percentage|17.6|||||TWO_SIDED|95.0|5.2|28.5||||||||28.5|5.2|
82508469|NCT03240133|164708266|SUPERIORITY||Odds Ratio (OR)|0.196||||0.0029|TWO_SIDED|95.0|0.069|0.559|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 750 mg-treated-attack requiring SOC-Rx was 0.196 that of a placebo attack.||0.559|0.069|0.0029
82508470|NCT03240133|164708266|SUPERIORITY||Odds Ratio (OR)|0.472||||0.4048|TWO_SIDED|95.0|0.074|2.988|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 500 mg-treated-attack requiring SOC-Rx was 0.472 that of a placebo attack.||2.988|0.074|0.4048
82508471|NCT03240133|164708266|SUPERIORITY||Odds Ratio (OR)|0.587||||0.5984|TWO_SIDED|95.0|0.073|4.733|||logistic mixed effect model|||Analyses were performed using a generalized logistic model including treatment, period and sequence as fixed effects, and subject within sequence as a random effect. The odds of a berotralstat 250 mg-treated-attack requiring SOC-Rx was 0.587 that of a placebo attack.||4.733|0.073|0.5984
82567082|NCT03721978|164843395|OTHER||Difference in Percentage|28.6|||||TWO_SIDED|95.0|-24.6|50.4||||||||50.4|-24.6|
82567083|NCT03721978|164843396|OTHER||Difference in Percentage|20.3|||||TWO_SIDED|95.0|10.1|29.5||||||||29.5|10.1|
82567084|NCT03721978|164843397|OTHER||Difference in Percentage|1.2|||||TWO_SIDED|95.0|-31.2|50.5||||||||50.5|-31.2|
82567085|NCT03721978|164843398|OTHER||Difference in Percentage|5.3|||||TWO_SIDED|95.0|-6.0|17.9||||||||17.9|-6.0|
82567086|NCT03721978|164843399|OTHER||Difference in Percentage|-6.0|||||TWO_SIDED|95.0|-54.7|25.8||||||||25.8|-54.7|
82567087|NCT03721978|164843400|OTHER||Difference in Percentage|12.2|||||TWO_SIDED|95.0|1.1|21.9||||||||21.9|1.1|
82567088|NCT03721978|164843401|OTHER||Location Shift|449.0|||||TWO_SIDED|95.0|0.0|18224.0||||||Week 15: HPV-16 E7||18224.0|0.0|
82629681|NCT02820038|164974760|SUPERIORITY||Odds Ratio (OR)|0.614||||0.1278|TWO_SIDED|95.0|0.328|1.15|||Regression, Logistic||Modeled probability of viewing at least one page on website. Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART.|The investigators hypothesized that participants would be more likely to visit the RA Self-Management Website if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||1.15|0.328|0.1278
82508472|NCT03663283|164708273|SUPERIORITY|||||||0.0197|||||||Wilcoxon (Mann-Whitney)|||||||.0197
82508473|NCT03663283|164708274|SUPERIORITY|||||||0.584|||||||Wilcoxon (Mann-Whitney)|||72 hours||||0.584
82508474|NCT03663283|164708274|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||3 weeks||||.5800
82508475|NCT03663283|164708275|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
82508476|NCT03663283|164708276|SUPERIORITY|||||||0.7018|||||||Wilcoxon (Mann-Whitney)|||72 hours||||.7018
82508477|NCT03663283|164708276|SUPERIORITY|||||||0.5327|||||||Wilcoxon (Mann-Whitney)|||Week 3||||.5327
82508478|NCT02872116|164708288|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|98.4|0.59|0.86|||Log Rank|||||0.86|0.59|<0.0001
82508479|NCT02872116|164708289|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|98.0|0.56|0.81|||Log Rank|||||0.81|0.56|<0.0001
82629682|NCT02820038|164974761|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Mean Difference (Net)|11.9|STANDARD_ERROR_OF_MEAN|8.7||0.17|TWO_SIDED|95.0|-5.2|28.9|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater increases in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||28.9|-5.2|0.17
82629683|NCT02820038|164974761|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable|Mean Difference (Net)|16.0|STANDARD_ERROR_OF_MEAN|6.9||0.02|TWO_SIDED|95.0|2.5|29.5|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit a greater increase in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||29.5|2.5|0.02
82629684|NCT02820038|164974761|SUPERIORITY|Regression model adjusted for baseline values of the dependent variable.|Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|6.9||0.42|TWO_SIDED|95.0|-8.1|19.2|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would experience a greater increase in visual selective learning between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||19.2|-8.1|0.42
82629685|NCT02820038|164974762|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.15||0.15|TWO_SIDED|95.0|-5.2|0.8|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.8|-5.2|0.15
82629686|NCT02820038|164974762|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.2||0.07|TWO_SIDED|95.0|-4.4|0.3|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.3|-4.4|0.07
82629687|NCT02820038|164974762|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.13|TWO_SIDED|95.0|-4.2|0.6|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=DFB+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would experience greater medication self-management knowledge at the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.6|-4.2|0.13
82629688|NCT02820038|164974763|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.12||0.68|TWO_SIDED|95.0|-0.19|0.29|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART, DFB Only; 1=DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||0.29|-0.19|0.68
82629689|NCT02820038|164974763|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2|TWO_SIDED|95.0|-0.06|0.31|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.31|-0.06|0.20
82639647|NCT01590810|164994285|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.93|STANDARD_ERROR_OF_MEAN|2.5||0.002|TWO_SIDED|95.0|-14.1|-3.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.76|-14.10|0.002
82508480|NCT02346136|164708297|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.62|TWO_SIDED|95.0|-0.62|0.37||Tested as two-tailed p\<0.025 to accommodate two co-primary outcomes|Mixed Models Analysis|||||0.37|-0.62|0.62
82508481|NCT02346136|164708298|SUPERIORITY||Risk Ratio (RR)|0.535||||0.194|TWO_SIDED|95.0|0.182|1.57|||Mixed Models Analysis|Mixed model Poisson reg with fixed effects of age, baseline SPPB, baseline CES-D, and falls in prev year and random intercept and trt by site pair|Numerator of risk ratio is the rate among participants at sites receiving Tai Chi. Denominator of risk ratio is the rate among participants at sites receiving Health Education.|||1.57|0.182|0.194
82508482|NCT02346136|164708299|SUPERIORITY||Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|0.94||0.5|TWO_SIDED|95.0|-2.53|1.24|||Mixed Models Analysis|||||1.24|-2.53|.50
82508483|NCT02346136|164708300|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED|95.0|-0.04|0.05|||Mixed Models Analysis|||Gait NW velocity variable||.05|-.04|.85
82508484|NCT02346136|164708300|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.26|TWO_SIDED|95.0|-0.02|0.06|||Mixed Models Analysis|||Gait DT velocity variable||.06|-.02|.26
82567089|NCT03721978|164843401|OTHER||Location Shift|0.0|||||TWO_SIDED|95.0|-18224.0|674.0||||||Week 36: HPV-16 E7||674.0|-18224.0|
82508485|NCT02346136|164708301|SUPERIORITY||Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.02||0.84|TWO_SIDED|95.0|-0.04|0.03|||Mixed Models Analysis|||||0.03|-0.04|0.84
82629690|NCT02820038|164974763|SUPERIORITY||Mean Difference (Net)|0.001|STANDARD_ERROR_OF_MEAN|0.1||0.99|TWO_SIDED|95.0|-0.19|0.19|||Regression, Linear||Independent variable coded: 0=Other CMI Only, DFB Only; 1=Other CMI+SMART, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would exhibit greater verbatim recall of information concerning medication benefits and risks at the 6-week follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||0.19|-0.19|0.99
82629691|NCT02820038|164974764|SUPERIORITY||Odds Ratio (OR)|2.105||||0.0028|TWO_SIDED|95.0|1.291|3.432|||Regression, Logistic|||The investigators hypothesized that participants would be more likely to view at least one webpage if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.|Modeled probability of viewing at least one webpage. Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART.|3.432|1.291|0.0028
82629692|NCT02820038|164974765|SUPERIORITY||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|0.45||0.0601|TWO_SIDED|95.0|-1.71|0.04|||Regression, Linear||Independent variable coded: 0=Other CMI Only, Other CMI+SMART; 1=DFB Only, DFB+SMART. Difference score calculated as: Comparison Group - Intervention Group. Thus, negative values indicate mean was greater in the intervention group.|The investigators hypothesized that participants would view more webpages if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||0.04|-1.71|0.0601
82629693|NCT02820038|164974766|SUPERIORITY||Odds Ratio (OR)|0.91||||0.9|TWO_SIDED|95.0|0.22|3.81|||Regression, Logistic||Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART, DrugFactsBox® (DFB) Only; 1=DFB+SMART|The investigators hypothesized that participants would be more likely to be using at least one DMARD (Disease-Modifying Antirheumatic Drug) at the 6-month follow-up if they were assigned to receive medication information via the DrugFactsBox® format combined with gist reasoning training, delivered via the SMART Program, compared to individuals in the other three groups.||3.81|0.22|0.90
82629694|NCT02820038|164974766|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Odds Ratio (OR)|0.75||||0.63|TWO_SIDED|95.0|0.24|2.35|||Regression, Logistic||. Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, Other CMI+SMART; 1=DFB Only, DFB+SMART|The investigators hypothesized that participants would exhibit a greater increase in the percentage of participants using at least one DMARD (Disease-Modifying Antirheumatic Drug) between baseline and the 6-month follow-up if they were assigned to receive written medication information via the DrugFactsBox® format compared to the Other CMI format.||2.35|0.24|0.63
82629695|NCT02820038|164974766|SUPERIORITY|Regression model adjusted for baseline value of the dependent variable.|Odds Ratio (OR)|1.15||||0.81|TWO_SIDED|95.0|0.37|3.54|||Regression, Logistic||Independent variable coded: 0=Other Consumer Medication Information (CMI) Only, DrugFactsBox® (DFB) Only; 1=Other CMI+SMART, DFB+SMART|The investigators hypothesized that participants would experience a greater increase in the percentage of participants using at least one DMARD (Disease-Modifying Antirheumatic Drug) between baseline and the 6-month follow-up if they were assigned to receive gist reasoning training, delivered via the SMART Program, compared to those who were not assigned to receive this training.||3.54|0.37|0.81
82629696|NCT03934203|164974769|OTHER|The null hypothesis was 'The mean difference in the QTcF changes from baseline between 50 mg BI 409306 and placebo is greater than or equal to 10 milliseconds at least for one timepoint after dosing.' The one-sided tests were performed at the 5% level; due to the symmetry of the normal distribution 2-sided 90% confidence intervals for the differences of adjusted means per timepoint were used.|Difference of adjusted means|1.3|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|0.2|2.4|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 20 minutes after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||2.4|0.2|
82639648|NCT01590810|164994285|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.16|STANDARD_ERROR_OF_MEAN|2.65|<|0.001|TWO_SIDED|95.0|-16.64|-5.68|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.68|-16.64|<0.001
82639649|NCT01590810|164994285|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.25|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-12.7|-5.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.80|-12.70|<0.0001
82639650|NCT01590810|164994286|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.27|STANDARD_ERROR_OF_MEAN|4.65||0.635|TWO_SIDED|95.0|-12.5|7.96|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.96|-12.50|0.635
82508486|NCT02346136|164708302|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.71||0.26|TWO_SIDED|95.0|-0.61|2.22|||Mixed Models Analysis|||||2.22|-0.61|.26
82508487|NCT02346136|164708303|SUPERIORITY||Median Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|7.29||0.92|TWO_SIDED|95.0|-13.9|15.3|||Mixed Models Analysis|||||15.3|-13.9|.92
82508488|NCT02346136|164708304|SUPERIORITY||Median Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|9.28||0.88|TWO_SIDED|95.0|-17.2|19.9|||Mixed Models Analysis|||||19.9|-17.2|.88
82567090|NCT03721978|164843401|OTHER||Location Shift|4049.0|||||TWO_SIDED|95.0|224.0|18224.0||||||Week 15: HPV-18 E7||18224.0|224.0|
82508489|NCT02346136|164708305|SUPERIORITY||Mean Difference (Net)|0.85|STANDARD_ERROR_OF_MEAN|1.43||0.55|TWO_SIDED|95.0|-2.0|3.71|||Mixed Models Analysis|||Physical component score||3.71|-2.00|.55
82508490|NCT02346136|164708305|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.66||0.51|TWO_SIDED|95.0|-4.41|2.21|||Mixed Models Analysis|||Mental component score||2.21|-4.41|.51
82508491|NCT02346136|164708306|SUPERIORITY||Median Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.0||0.69|TWO_SIDED|95.0|-1.6|2.41|||Mixed Models Analysis|||||2.41|-1.60|.69
82508492|NCT02346136|164708307|SUPERIORITY||Mean Difference (Net)|2.14|STANDARD_ERROR_OF_MEAN|2.56||0.41|TWO_SIDED|95.0|-2.98|7.26||to accommodate two co-primary outcomes|Mixed Models Analysis|||||7.26|-2.98|0.41
82567091|NCT03721978|164843401|OTHER||Location Shift|74.0|||||TWO_SIDED|95.0|-18000.0|6074.0||||||Week 36: HPV-18 E7||6074.0|-18000.0|
82523014|NCT00789815|164741451|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the global tolerance of patients in study is worse than that in the control group.||||0.05
82523015|NCT00789815|164741452|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
82523016|NCT00789815|164741453|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
82523017|NCT04676425|164741461|OTHER||Least-Squares Geometric Mean Ratio|1.19|||||TWO_SIDED|90.0|0.7|2.01|||||Moderate hepatic impairment participants represent the numerator and healthy participants represent the denominator in the geometric mean ratio.|||2.01|0.70|
82523018|NCT04676425|164741462|OTHER||Least-Squares Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|0.86|1.74|||||Moderate hepatic impairment participants represent the numerator and healthy participants represent the denominator in the geometric mean ratio.|||1.74|0.86|
82523019|NCT04958785|164741468|SUPERIORITY||Hazard Ratio (HR)|0.456||||0.1617|TWO_SIDED|95.0|0.147|1.409|||Log Rank||Hazard Ratio (HR) along with its 2-sided 95% confidence interval (CI) were estimated using the Cox proportional hazards regression model.|||1.409|0.147|0.1617
82523020|NCT04958785|164741470|SUPERIORITY||Odds Ratio (OR)|2.037|||||TWO_SIDED|95.0|0.379|10.938|||||Odds ratios and corresponding 95% CIs were estimated using chi-square test.|||10.938|0.379|
82567092|NCT03721978|164843402|OTHER||Location Shift|224.0|||||TWO_SIDED|95.0|224.0|674.0||||||Week 15: HPV-16 E7||674.0|224.0|
82567093|NCT03721978|164843402|OTHER||Location Shift|0.0|||||TWO_SIDED|95.0|0.0|24.0||||||Week 36: HPV-16 E7||24.0|0.0|
82508493|NCT02346136|164708309|SUPERIORITY||Risk Ratio (RR)|0.476||||0.06|TWO_SIDED|95.0|0.216|1.05|||Mixed Models Analysis|Mixed model Poisson reg with fixed effects of age, baseline SPPB, baseline CES-D, and falls in prev year and random intercept and trt by site pair|Numerator of risk ratio is the rate among participants at sites receiving Tai Chi. Denominator of risk ratio is the rate among participants at sites receiving Health Education.|||1.05|0.216|0.060
82508494|NCT02346136|164708310|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|0.81||0.13|TWO_SIDED|95.0|-0.4|2.94|||Mixed Models Analysis|||||2.94|-0.40|0.13
82508495|NCT03735667|164708311|NON_INFERIORITY|A Bayesian analysis based on 10,000 samples from the posterior distribution, using a piecewise exponential survival model. The criteria for non-inferiority is met if the posterior probability of non-inferiority is greater than the non-inferiority test threshold.|||||||||||||||||A Bayesian analysis was used to test the non-inferiority hypothesis for the primary endpoint using a non-inferiority margin of 8%. The pre-specified success criteria (the non-inferiority test threshold) was a posterior probability of non-inferiority greater than 97.5%. The observed posterior probability of non-inferiority was 77.9%. The posterior median percentage difference in the rate of the primary outcome was 6.63% (95% Bayesian credible interval: 3.04% to 10.20%).|||
82508496|NCT00802412|164708343|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.51|TWO_SIDED|95.0|0.4|6.5|||Regression, Logistic|||||6.5|0.4|0.51
82508497|NCT00802412|164708343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.45|TWO_SIDED|95.0|0.66|2.55|||Regression, Cox|||||2.55|0.66|.45
82508498|NCT02767427|164708358|EQUIVALENCE|An equivalence test on data from a parallel-group design with sample sizes of 18 in the reference group and 18 in the treatment group achieves 80% power. The significance was set at 5%. The standard deviation was 1.00, and the equivalence limits were set at -1.00 and 1.00.|||||<|0.05|||||||t-test, 1 sided|Two one-sided t-tests were conducted with 18 in each group.||||||<0.05
82508499|NCT01907828|164708369|OTHER|||||||0.22|||||||Log Rank|||Kaplan-Meier analysis performed to provide freedom from atrial fibrillation rates at one year for each randomization arm using date of ablation procedure to date of first event.||||0.22
82567094|NCT03721978|164843402|OTHER||Location Shift|2024.0|||||TWO_SIDED|95.0|2024.0|6074.0||||||Week 15: HPV-18 E7||6074.0|2024.0|
82508500|NCT01907828|164708373|SUPERIORITY|||||||0.2766|||||||Paired Student's t-test|||||||0.2766
82508501|NCT01907828|164708374|SUPERIORITY|||||||0.7663|||||||Wilcoxon signed-rank test|||||||0.7663
82508502|NCT01907828|164708377|SUPERIORITY||Mean Difference (Final Values)|-5.86|STANDARD_DEVIATION|15.21||0.0849|TWO_SIDED|95.0|-12.61|0.88|||Paired Student's t-test|||Change in ASBP at 12 months||0.88|-12.61|0.0849
82508503|NCT01907828|164708377|SUPERIORITY||Mean Difference (Final Values)|-5.82|STANDARD_DEVIATION|7.45||0.0014|TWO_SIDED|95.0|-9.12|-2.52|||Paired Student's t-test|||Change in ADBP at 12 months||-2.52|-9.12|0.0014
82508504|NCT01907828|164708377|SUPERIORITY||Mean Difference (Final Values)|-3.07|STANDARD_DEVIATION|19.21||0.5599|TWO_SIDED|95.0|-14.16|8.02|||Paired Student's t-test|||Change in ASBP at 12 months.||8.02|-14.16|0.5599
82508505|NCT01907828|164708377|SUPERIORITY||Mean Difference (Final Values)|-8.43|STANDARD_DEVIATION|9.42||0.0052|TWO_SIDED|95.0|-13.87|-2.99|||Paired Student's t-test|||Change in ADBP at 12 months||-2.99|-13.87|0.0052
82508506|NCT01907828|164708378|SUPERIORITY||Mean Difference (Final Values)|-5.71|STANDARD_DEVIATION|14.84||0.1326|TWO_SIDED|95.0|-13.34|1.93|||Paired Student's t-test|||Change in ASBP at 24 months||1.93|-13.34|0.1326
82508507|NCT01907828|164708378|SUPERIORITY||Mean Difference (Final Values)|-6.94|STANDARD_DEVIATION|6.06||0.0002|TWO_SIDED|95.0|-10.06|-3.83|||Paired Student's t-test|||Change in ADBP at 24 months||-3.83|-10.06|0.0002
82508508|NCT01907828|164708378|SUPERIORITY||Mean Difference (Final Values)|-8.58|STANDARD_DEVIATION|12.41||0.0354|TWO_SIDED|95.0|-16.47|-0.7|||Paired Student's t-test|||Change in ASBP at 24 months||-0.70|-16.47|0.0354
82508509|NCT01907828|164708378|SUPERIORITY||Mean Difference (Final Values)|-10.33|STANDARD_DEVIATION|8.53||0.0015|TWO_SIDED|95.0|-15.75|-4.91|||Paired Student's t-test|||Change in ADBP at 24 months||-4.91|-15.75|0.0015
82508510|NCT01907828|164708379|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|24.4||0.5399|TWO_SIDED|95.0|-6.0|11.3|||Paired Student's t-test|||Change in OSBP at 12 months.||11.3|-6.0|0.5399
82567095|NCT03721978|164843402|OTHER||Location Shift|674.0|||||TWO_SIDED|95.0|224.0|674.0||||||Week 36: HPV-18 E7||674.0|224.0|
82567096|NCT03721978|164843403|OTHER||Location Shift|25.0|||||TWO_SIDED|95.0|0.0|73.33||||||HPV-16 E6: Week 15||73.33|0.00|
82567097|NCT03721978|164843403|OTHER||Location Shift|15.0|||||TWO_SIDED|95.0|0.0|38.33||||||HPV-16 E6: Week 36||38.33|0.00|
82567098|NCT03721978|164843403|OTHER||Location Shift|16.67|||||TWO_SIDED|95.0|0.0|85.0||||||HPV-16 E7: Week 15||85.00|0.00|
82567099|NCT03721978|164843403|OTHER||Location Shift|5.0|||||TWO_SIDED|95.0|0.0|36.67||||||HPV-16 E7: Week 36||36.67|0.00|
82508511|NCT01907828|164708379|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|11.8||0.8489|TWO_SIDED|95.0|-4.6|3.8|||Paired Student's t-test|||Change in Office Diastolic Blood Pressure (ODBP) at 12 months||3.8|-4.6|0.8489
82508512|NCT01907828|164708379|SUPERIORITY|Change in Office Systolic Blood Pressure (OSBP) at 12 months.|Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|30.0||0.7999|TWO_SIDED|95.0|-14.6|18.6|||Paired Student's t-test|||||18.6|-14.6|0.7999
82567100|NCT03721978|164843403|OTHER||Location Shift|26.67|||||TWO_SIDED|95.0|0.0|181.67||||||HPV-18 E6: Week 15||181.67|0.00|
82567101|NCT03721978|164843403|OTHER||Location Shift|11.67|||||TWO_SIDED|95.0|0.0|31.67||||||HPV-18 E6: Week 36||31.67|0.00|
82508513|NCT01907828|164708379|SUPERIORITY||Mean Difference (Final Values)|-5.4|STANDARD_DEVIATION|15.8||0.2076|TWO_SIDED|95.0|-14.2|3.4|||Paired Student's t-test|||Change in ODBP at 12 months||3.4|-14.2|0.2076
82508514|NCT01907828|164708380|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|22.3||0.882|TWO_SIDED|95.0|-7.9|9.1|||Paired Student's t-test|||Change in OSBP at 24 months||9.1|-7.9|0.8820
82508515|NCT01907828|164708380|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|11.0||0.8019|TWO_SIDED|95.0|-3.7|4.7|||Paired Student's t-test|||Change in ODBP at 24 months||4.7|-3.7|0.8019
82508516|NCT01907828|164708380|SUPERIORITY||Mean Difference (Final Values)|7.4|STANDARD_DEVIATION|22.9||0.2177|TWO_SIDED|95.0|-4.8|19.6|||Paired Student's t-test|||Change in OSBP at 24 months||19.6|-4.8|0.2177
82567102|NCT03721978|164843403|OTHER||Location Shift|3.33|||||TWO_SIDED|95.0|0.0|46.67||||||HPV-18 E7: Week 15||46.67|0.00|
82567103|NCT03721978|164843403|OTHER||Location Shift|4.17|||||TWO_SIDED|95.0|0.0|20.0||||||HPV-18 E7: Week 36||20.00|0.00|
82567104|NCT03721978|164843404|OTHER||Location Shift|8.33|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 15||11.67|3.33|
82567105|NCT03721978|164843404|OTHER||Location Shift|5.83|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 36||11.67|3.33|
82567106|NCT03721978|164843404|OTHER||Location Shift|5.0|||||TWO_SIDED|95.0|1.67|11.67||||||HPV-16 E7: Week 15||11.67|1.67|
82567107|NCT03721978|164843404|OTHER||Location Shift|1.67|||||TWO_SIDED|95.0|0.0|5.0||||||HPV-16 E7: Week 36||5.00|0.00|
82567108|NCT03721978|164843404|OTHER||Location Shift|25.0|||||TWO_SIDED|95.0|15.0|40.0||||||HPV-18 E6: Week 15||40.00|15.00|
82567109|NCT03721978|164843404|OTHER||Location Shift|16.67|||||TWO_SIDED|95.0|10.0|28.33||||||HPV-18 E6: Week 36||28.33|10.00|
82567110|NCT03721978|164843404|OTHER||Location Shift|3.33|||||TWO_SIDED|95.0|1.67|6.67||||||HPV-18 E7: Week 15||6.67|1.67|
82567111|NCT03721978|164843404|OTHER||Location Shift|1.67|||||TWO_SIDED|95.0|0.0|3.33||||||HPV-18 E7: Week 36||3.33|0.00|
82567112|NCT03721978|164843405|OTHER||Location Shift|0.033|||||TWO_SIDED|95.0|-0.004|0.325||||||Parameter: CD8+CD137+Perforin+||0.325|-0.004|
82567113|NCT03721978|164843405|OTHER||Location Shift|0.005|||||TWO_SIDED|95.0|0.0|0.208||||||Parameter: CD8+CD38+Perforin+||0.208|0.000|
82567114|NCT03721978|164843405|OTHER||Location Shift|0.014|||||TWO_SIDED|95.0|-0.055|0.31||||||Parameter: CD8+CD69+Perforin+||0.310|-0.055|
82508517|NCT01907828|164708380|SUPERIORITY||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|15.5||0.4502|TWO_SIDED|95.0|-11.2|5.2|||Paired Student's t-test|||Change in ODBP at 24 months||5.2|-11.2|0.4502
82508518|NCT01073865|164708399|NON_INFERIORITY_OR_EQUIVALENCE|The lower limit of the CI of the difference is greater than or equal to -17.5%. This non-inferiority margin was pre-defined in the study protocol.|Risk Difference (RD)|1.29|||||TWO_SIDED|95.0|-11.4|13.9|||||%PFS at 24 weeks for Zoladex 10.8mg - %PFS at 24 weeks for Zoladex 3.6mg|CI for the difference (10.8 mg-3.6 mg) in %PFS at 24 weeks calculated using the score method recommended by Newcombe et al||13.90|-11.40|
82508519|NCT01073865|164708400|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.02|||||TWO_SIDED|95.0|-15.47|9.67|||||ORR at 24 weeks for Zoladex 10.8mg - ORR at 24 weeks for Zoladex 3.6mg|CI for the difference (10.8 mg-3.6 mg) in ORR at 24 weeks calculated using the score method recommended by Newcombe et al||9.67|-15.47|
82508520|NCT04414553|164708438|SUPERIORITY|||||||0.29||||||Threshold for statistical significance was \<0.05|t-test, 2 sided|||This compares pre/post data.||||0.29
82508521|NCT04414553|164708439|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
82508522|NCT04414553|164708440|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
82508523|NCT04414553|164708441|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
82508524|NCT04414553|164708442|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||||||0.062
82508525|NCT04120610|164708446|OTHER||Correlation|0.26|||||TWO_SIDED|95.0|0.1|0.41||||||Descriptive analysis of endpoint with no hypothesis.||0.41|0.10|
82508526|NCT04120610|164708447|OTHER||Correlation|-0.26|||||TWO_SIDED|95.0|-0.46|-0.03||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||-0.03|-0.46|
82508527|NCT04120610|164708447|OTHER||Correlation|-0.33|||||TWO_SIDED|95.0|-0.51|-0.12||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||-0.12|-0.51|
82508528|NCT04120610|164708447|OTHER||Correlation|-0.13|||||TWO_SIDED|95.0|-0.38|0.14||||||Correlation of change in acceleration time and ABI. Descriptive analysis of endpoint with no hypothesis.||0.14|-0.38|
82508529|NCT04120610|164708448|OTHER||Correlation|-0.34|||||TWO_SIDED|95.0|-0.52|-0.12||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||-0.12|-0.52|
82508530|NCT04120610|164708448|OTHER||Correlation|-0.35|||||TWO_SIDED|95.0|-0.52|-0.15||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||-0.15|-0.52|
82508531|NCT04120610|164708448|OTHER||Correlation|-0.24|||||TWO_SIDED|95.0|-0.47|0.02||||||Correlation of change in acceleration time and TBI. Descriptive analysis of endpoint with no hypothesis.||0.02|-0.47|
82508532|NCT04120610|164708449|OTHER||Correlation|0.15|||||TWO_SIDED|95.0|-0.08|0.36||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.36|-0.08|
82508533|NCT04120610|164708449|OTHER||Correlation|0.19|||||TWO_SIDED|95.0|-0.02|0.39||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.39|-0.02|
82508534|NCT04120610|164708449|OTHER||Correlation|0.24|||||TWO_SIDED|95.0|-0.02|0.47||||||Correlation of change in acceleration time and Rutherford Classification. Descriptive analysis of endpoint with no hypothesis.||0.47|-0.02|
82508535|NCT03373383|164708450|SUPERIORITY||Percent reduction|17.2|||=|0.102|TWO_SIDED|95.0|-3.8|33.9||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||33.9|-3.8|=0.102
82508536|NCT03373383|164708450|SUPERIORITY||Percent reduction|19.1|||=|0.064|TWO_SIDED|95.0|-1.2|35.4||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||35.4|-1.2|=0.064
82508537|NCT03373383|164708450|SUPERIORITY||Percent reduction|19.2|||=|0.063|TWO_SIDED|95.0|-1.2|35.5||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||35.5|-1.2|=0.063
82508538|NCT03373383|164708450|SUPERIORITY||Percent reduction|12.4|||=|0.248|TWO_SIDED|95.0|-9.7|30.1||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp\[diff\]), where diff was the model estimate of the log ratio between each PSL group and placebo group.||30.1|-9.7|=0.248
82508539|NCT03373383|164708451|SUPERIORITY||Odds Ratio (OR)|2.72|||=|0.081|TWO_SIDED|95.0|0.88|8.39||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||8.39|0.88|=0.081
82508540|NCT03373383|164708451|SUPERIORITY||Odds Ratio (OR)|2.37|||=|0.137|TWO_SIDED|95.0|0.76|7.41||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||7.41|0.76|=0.137
82508541|NCT03373383|164708451|SUPERIORITY||Odds Ratio (OR)|2.16|||=|0.192|TWO_SIDED|95.0|0.68|6.89||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||6.89|0.68|=0.192
82508542|NCT03373383|164708451|SUPERIORITY||Odds Ratio (OR)|3.14|||=|0.041|TWO_SIDED|95.0|1.05|9.42||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo was calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||9.42|1.05|=0.041
82567115|NCT03721978|164843406|OTHER||Location Shift|0.041|||||TWO_SIDED|95.0|0.004|0.077||||||Parameter: CD8+CD137+Perforin+||0.077|0.004|
82567116|NCT03721978|164843406|OTHER||Location Shift|0.011|||||TWO_SIDED|95.0|0.003|0.028||||||Parameter: CD8+CD38+Perforin+||0.028|0.003|
82567117|NCT03721978|164843406|OTHER||Location Shift|0.034|||||TWO_SIDED|95.0|0.022|0.053||||||Parameter: CD8+CD69+Perforin+||0.053|0.022|
82567118|NCT05244226|164843407|SUPERIORITY|||||||0.045|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.045
82567119|NCT05244226|164843407|SUPERIORITY|||||||0.023|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.023
82567120|NCT05244226|164843411|SUPERIORITY|||||||0.144|||||||Kruskal-Wallis|||||||0.144
82567121|NCT05244226|164843411|SUPERIORITY|||||||0.322|||||||Kruskal-Wallis|||||||0.322
82508543|NCT03373383|164708455|SUPERIORITY||Odds Ratio (OR)|2.09|||=|0.045|TWO_SIDED|95.0|1.02|4.3||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||4.30|1.02|=0.045
82567122|NCT05244226|164843412|SUPERIORITY|||||||0.061|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.061
82567123|NCT05244226|164843412|SUPERIORITY|||||||0.021|||||||Kruskal-Wallis|Dunn's Kruskal Wallis with Bonferroni correction||||||0.021
82567124|NCT02507687|164843423|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0231|TWO_SIDED|95.0|-1.03|-0.08|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||-0.08|-1.03|0.0231
82567125|NCT02507687|164843424|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.1615|TWO_SIDED|95.0|-1.04|0.18|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||0.18|-1.04|0.1615
82567126|NCT02507687|164843425|NON_INFERIORITY|"Statistical non-inferiority of Bimatoprost SR 10 µg to SLT was demonstrated if the upper limit of the 95% confidence interval (CI) for the least squares (LS) mean difference between the Bimatoprost SR 10 µg eyes and SLT eyes was ≤ 1.5 mmHg at Weeks 4, 12, and 24.~Clinical non-inferiority of Bimatoprost SR 10 µg to SLT was considered if the upper limit of the 95% CI was ≤ 1.0 mmHg at 2 out of the 3 visits of Weeks 4, 12, and 24."|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.1673|TWO_SIDED|95.0|-0.97|0.17|||Mixed Effect Model Repeated Measurement|The model includes treatment, visit, eye, baseline IOP, treatment-by-visit, visit-by-baseline, and visit-by-eyes interactions as covariates.||||0.17|-0.97|0.1673
82567127|NCT02675998|164843429|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
82567128|NCT02675998|164843430|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82567129|NCT02675998|164843430|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82567130|NCT02675998|164843430|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82567131|NCT00275301|164843431|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||Examination of relationship between Borderline Personality Disorder symptoms and brain metabolism at baseline.||||<0.05
82567132|NCT00821119|164843442|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED|95.0|0.48|1.14|||risk ratio (RR)|||"Based on previous data from our NICU, 40 - 45% of our preterm infants administered early NCPAP for RDS needed intubation and mechanical ventilation within the first 72h of life. We estimated a 20% absolute reduction in the need of using ETT ventilation with the early use of NIPPV. A sample size of 100 infants per group was calculated with a power of 80% and an alpha error of 5%.~The analysis was performed according to the intention-to-treat principle."||1.14|0.48|<0.05
82567133|NCT00821119|164843443|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|STANDARD_ERROR_OF_MEAN|0.16||0.05|TWO_SIDED|95.0|0.48|1.14|||risk ratio (RR)|||Based on previous data from our NICU, 40 - 45% of our preterm infants administered early NCPAP for RDS needed intubation and mechanical ventilation within the first 72h of life. We estimated a 20% absolute reduction in the need of using ETT ventilation with the early use of NIPPV. A sample size of 100 infants per group was calculated with a power of 80% and an alpha error of 5%.||1.14|0.48|0.05
82567134|NCT00821119|164843444|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|0.62|1.78|||risk ratio (RR)|||The study was not powered for this outcome. However this analysis was done with this limitation||1.78|0.62|< 0.05
82567135|NCT00382408|164843466|SUPERIORITY_OR_OTHER||vaccine efficacy (VE)|99.31|||||TWO_SIDED|95.0|96.02|99.88||||||The vaccine efficacy (VE) was defined as: VE = 1 - R, where R = P(vaccine)/P(placebo) was the relative risk of ARD attack in subjects who received vaccines compared to placebos (Blackwelder 1993). The 95% confidence interval of the VE was obtained by inverting the Chi Square method proposed by Koopman for the ratio of two binomial proportions (Koopman 1984). The goal of the analysis of efficacy was to demonstrate a VE of at least 80% with a lower 95% confidence bound at least 60%.||99.88|96.02|
82567136|NCT00382408|164843471|SUPERIORITY_OR_OTHER||vaccine efficacy (VE)|98.46|||||TWO_SIDED|95.0|95.39|99.49||||||The vaccine efficacy (VE) was defined as: VE = 1 - R, where R = P(vaccine)/P(placebo) was the relative risk of ARD attack in subjects who received vaccines compared to placebos (Blackwelder 1993). The 95% confidence interval of the VE was obtained by inverting the Chi Square method proposed by Koopman for the ratio of two binomial proportions (Koopman 1984). The goal of the analysis of efficacy was to demonstrate a VE of at least 80% with a lower 95% confidence bound at least 60%.||99.49|95.39|
82508544|NCT03373383|164708455|SUPERIORITY||Odds Ratio (OR)|1.91|||=|0.079|TWO_SIDED|95.0|0.93|3.93||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.93|0.93|=0.079
82508545|NCT03373383|164708455|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.338|TWO_SIDED|95.0|0.68|3.02||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.02|0.68|=0.338
82508546|NCT03373383|164708455|SUPERIORITY||Odds Ratio (OR)|1.88|||=|0.087|TWO_SIDED|95.0|0.91|3.87||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group, Region (Europe, Non-Europe), Baseline SV2A use (0, 1) and log-transformed Baseline seizure frequency as a continuous covariate.||3.87|0.91|=0.087
82567137|NCT00265096|164843502|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise conparisons at 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||Null Hypothesis: No difference in ACR 20 response comparing Groups I vs II and Groups I vs III. Sample size (n=396; 110 placebo, 286 combined golimumab) provided \>98% power to detect a significant difference (alpha=0.05) in ACR 20 response between treatment groups, assuming equal proportions of subjects receiving methotrexate (MTX) at baseline and the difference in ACR 20 response of 27% in subjects without MTX and 17-27% in subjects with MTX, between placebo and combined golimumab groups.||||<0.001
82567138|NCT00265096|164843502|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||||||<0.001
82508547|NCT03373383|164708456|OTHER||Median Difference (Net)|7.4|||=|0.316|TWO_SIDED|95.0|-6.59|21.89||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||21.89|-6.59|=0.316
82508548|NCT03373383|164708456|OTHER||Median Difference (Net)|9.99|||=|0.133|TWO_SIDED|95.0|-3.15|23.26||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||23.26|-3.15|=0.133
82508549|NCT03373383|164708456|OTHER||Median Difference (Net)|8.19|||=|0.203|TWO_SIDED|95.0|-3.95|21.37||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||21.37|-3.95|=0.203
82567139|NCT00265096|164843502|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage).||||||<0.001
82567140|NCT00265096|164843503|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
82567141|NCT00265096|164843503|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
82567142|NCT00265096|164843503|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
82567143|NCT00265096|164843504|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline Methotrexate (MTX) usage)||||||<0.001
82508550|NCT03373383|164708456|OTHER||Median Difference (Net)|2.39|||=|0.784|TWO_SIDED|95.0|-13.65|17.79||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value were based on the Wilcoxon-Mann-Whitney test. The Hodges-Lehmann nonparametric estimator was used to estimate the median difference between each PSL dose group versus placebo, along with the corresponding 95% CI of the estimate.||17.79|-13.65|=0.784
82508551|NCT00694369|164708475|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|ANOVA|"Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value~for 120-mg dose comparison is significant)."||||||<0.001
82567144|NCT00265096|164843504|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline MTX usage)||||||<0.001
82508552|NCT00694369|164708475|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|ANOVA|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant)||||||<0.001
82508553|NCT00694369|164708475|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus ibuprofen) is -4.45.|Difference in LS Means|0.06||||||95.0|-1.37|1.48|||||Difference in Least squares means (LS Means) (etoricoxib minus ibuprofen)|||1.48|-1.37|
82508554|NCT00694369|164708475|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus ibuprofen) is -4.45.|Difference in LS Means|0.43||||||95.0|-0.73|1.6|||||Difference in LS Means (etoricoxib minus ibuprofen)|||1.60|-0.73|
82508555|NCT00694369|164708475|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus cetaminophen/codeine) is -2.41.|Difference in LS Means|3.9||||||95.0|2.04|5.76|||||Difference in LS Means (etoricoxib minus acetaminophen/codeine)|||5.76|2.04|
82508556|NCT00694369|164708475|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority bound (etoricoxib minus acetaminophen/codeine) is -2.41.|Difference in LS Means|4.27||||||95.0|2.61|5.94|||||Difference in LS Means (etoricoxib minus acetaminophen/codeine)|||5.94|2.61|
82508557|NCT00694369|164708475|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.38||||||95.0|-1.8|1.05|||||Difference in LS Means (etoricoxib 120 mg minus etoricoxib 90 mg)|||1.05|-1.80|
82508558|NCT00694369|164708475|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|10.59||||||95.0|8.72|12.47|||||Difference in LS Means (ibuprofen 2400 mg minus placebo)|||12.47|8.72|
82508559|NCT00694369|164708475|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|6.75||||||95.0|4.53|8.97|||||Difference in LS Means (acetaminophen 2400 mg/codeine 240 mg minus placebo)|||8.97|4.53|
82508560|NCT00694369|164708476|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant).||||||<0.001
82508561|NCT00694369|164708476|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Step-down manner was used (p-value for 90-mg dose comparison was reported only if the p-value for 120-mg dose comparison is significant)||||||<0.001
82508562|NCT00694369|164708476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.161||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used, and the nominal p-value for 90-mg dose comparison was not reported.||||||0.161
82567145|NCT00265096|164843504|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment group and subject's baseline MTX usage)||||||<0.001
82567146|NCT00265096|164843505|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment and subject's baseline Methotrexate (MTX) usage)||||||<0.001
82567147|NCT00265096|164843505|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (with treatment and subject's baseline MTX usage)||||||<0.001
82508563|NCT00694369|164708476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used.||||||0.014
82508564|NCT00694369|164708476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||0.05 critical level was used.|stratified Wilcoxon rank sum test|Nominal p-value was provided in lieu of the 95% CI. Step-down manner was used.||||||0.007
82508565|NCT00544076|164708482|EQUIVALENCE|The equivalence margin that would be possible to detect (had the protocol reached intended accrual) was 20%,|||||>|0.1||||||no adjustments were made.|Fisher Exact|||||||>0.1
82508566|NCT00544076|164708483|OTHER||||||>|0.1||||||no adjustments done|Chi-squared|no adjustments||compare percentage of patients potent at 6 and 18 months across pairs of treatment arms (arm I vs arm II, arm I vs arm III, arm II vs arm III)||||>0.1
82508567|NCT00544076|164708484|OTHER||||||>|0.2||||||no adjustments done.|ANOVA|||||||>0.2
82508568|NCT00544076|164708485|OTHER||Mean Difference (Final Values)|0.08||||0.08|TWO_SIDED|||||no adjustments|ANOVA|no adjustments for df||"ANOVA test to compare difference of penile length (from baseline to month 18) across arms.~calculations are underpowered, as study did not accrue or retain patients as intended, and many patients declined to have measurements taken."||||0.08
82508569|NCT00746941|164708524|SUPERIORITY_OR_OTHER|||||||0.7132|||||||Student's t-test|||||||0.7132
82508570|NCT00746941|164708525|SUPERIORITY_OR_OTHER|||||||0.9086|||||||Student's t-test|||||||0.9086
82508571|NCT00181961|164708600|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||.016
82508572|NCT01667978|164708610|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82508573|NCT00962104|164708655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.78|||<|0.001|TWO_SIDED|95.0|-7.66|-3.91||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline CAARS-Inv:SV 18-Item Total ADHD Symptom score .|ANCOVA|||||-3.91|-7.66|<0.001
82508574|NCT00962104|164708656|SUPERIORITY_OR_OTHER||Slope|4.76|||<|0.001|TWO_SIDED|95.0|1.97|7.56||First gated secondary outcome measure. A gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 QoL measures. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|ANCOVA|Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline AAQoL total score.||||7.56|1.97|<0.001
82508575|NCT00962104|164708657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.82||||0.289|TWO_SIDED|95.0|-5.2|1.56||Second gated secondary outcome measure. A gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 QoL measures. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|ANCOVA|Least Squares Mean difference between 2 treatment groups from Type III sum of squares analysis of covariance model:Change=treatment+country+baseline.||||1.56|-5.20|0.289
82508576|NCT00962104|164708658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.18|||<|0.001|TWO_SIDED|95.0|-8.13|-4.22|||Mixed Models Analysis|||||-4.22|-8.13|<0.001
82508577|NCT00962104|164708659|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.18|||<|0.001|TWO_SIDED|95.0|-8.21|-4.14|||Mixed Models Analysis|||||-4.14|-8.21|<0.001
82567148|NCT00265096|164843505|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|With 2 factors (treatment and subject's baseline MTX usage)||||||<0.001
82639651|NCT01590810|164994286|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.18|STANDARD_ERROR_OF_MEAN|5.18||0.143|TWO_SIDED|95.0|-19.58|3.22|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.22|-19.58|0.143
82567149|NCT00265096|164843506|SUPERIORITY_OR_OTHER|||||||0.015||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant.|ANOVA|Analysis of Variance (ANOVA) on van der Waerden scores with 2 factors: treatment group and participant's baseline methotrexate (MTX) usage||Null Hypothesis: There is no difference in change from baseline among 3 treatment groups. Sample size (n=396, 110 placebo, 286 combined golimumab) provided \>93% power to detect a significant difference (alpha=0.05) in change from baseline between treatment groups, assuming 50% of subjects received MTX at baseline, and mean change from baseline for combined golimumab of 0, and a mean increase for placebo of 0.1 in subjects who received MTX at baseline and 0.6 in subjects who did not receive MTX||||0.015
82567150|NCT00265096|164843506|SUPERIORITY_OR_OTHER|||||||0.011||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant|ANOVA|ANOVA on van der Waerden scores with 2 factors: treatment group and participant's baseline Methotrexate (MTX) usage||||||0.011
82567151|NCT00265096|164843506|SUPERIORITY_OR_OTHER|||||||0.086||||||The test was not to be performed if the test of ACR 20 at Week 24 was not significant|ANOVA|ANOVA on van der Waerden scores with 2 factors: treatment group and participant's baseline Methotrexate (MTX) usage||||||0.086
82639652|NCT01590810|164994286|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.51|STANDARD_ERROR_OF_MEAN|4.32||0.004|TWO_SIDED|95.0|-25.01|-6.01|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.01|-25.01|0.004
82567152|NCT00265096|164843507|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline Methotrexate (MTX) usage)||||||<0.001
82567153|NCT00265096|164843507|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
82567154|NCT00265096|164843507|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with stratification (stratified by baseline MTX usage)||||||<0.001
82567155|NCT03861429|164843512|SUPERIORITY||Odds Ratio (OR)|3.32||||0.105|TWO_SIDED|95.0|0.78|14.15|||Mixed Models Analysis|||Multilevel logistic regression (generalized estimating equations \[GEE\] with an autoregressive (1) working correlation matrix, logit link function) were fitted to assess the primary hypotheses. The models account for the repeated measures (3 or 4 time points), correlated, data structure per person. An additive model was conducted with contrast coding for each time point, treatment, and follow-up effects.||14.15|.78|.105
82567156|NCT03861429|164843513|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.04|TWO_SIDED|95.0|0.022|1.178|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||1.178|.022|.04
82567157|NCT03861429|164843514|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.001|TWO_SIDED|95.0|0.12|0.46|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.46|.12|.001
82567158|NCT03861429|164843515|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.001|TWO_SIDED|95.0|0.21|0.48|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.48|.21|.001
82567159|NCT03861429|164843516|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.081|TWO_SIDED|95.0|-0.01|0.19|||Mixed Models Analysis|||||.19|-.01|.081
82567160|NCT03861429|164843517|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.033|TWO_SIDED|95.0|0.11|0.3|||Mixed Models Analysis||Calculation of mean differences were derived from mixed model analyses|||.3|.11|.033
82639653|NCT01590810|164994287|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.84|STANDARD_ERROR_OF_MEAN|1.42|<|0.0001|TWO_SIDED|95.0|-13.79|-7.89|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.89|-13.79|<0.0001
82567161|NCT01212952|164843559|OTHER||Maximum Tolerated Dose (MTD) (mg/m^2)|1.3|||||TWO_SIDED||||||||Maximum Tolerated Dose Level is Dose Level 2 (1.3 mg/m\^2 Bortezomib).|||||
82567162|NCT05135156|164843564|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.02|TWO_SIDED|95.0|3.0|25.0|||Regression, Linear||Difference = intervention - control|||25|3|0.02
82567163|NCT05135156|164843565|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.15|TWO_SIDED|95.0|-1.0|6.6|||Regression, Linear||Difference = intervention - control|||6.6|-1.0|0.15
82567164|NCT05135156|164843566|SUPERIORITY||Mean Difference (Net)|-1.2||||0.81|TWO_SIDED|95.0|-10.9|8.5|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||8.5|-10.9|0.81
82567165|NCT05135156|164843567|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.15|TWO_SIDED|95.0|-0.1|0.8|||Regression, Linear||Difference = intervention - control|||0.8|-0.1|0.15
82567166|NCT05135156|164843568|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.54|TWO_SIDED|95.0|-2.0|3.7|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||3.7|-2.0|0.54
82567167|NCT05135156|164843570|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.82|TWO_SIDED|95.0|-2.1|2.7|||Regression, Linear||Difference = intervention - control|||2.7|-2.1|0.82
82567168|NCT05135156|164843572|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.44|TWO_SIDED|95.0|-15.0|7.0|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||7|-15|0.44
82567169|NCT05135156|164843573|SUPERIORITY||Mean Difference (Net)|1.3||||0.31|TWO_SIDED|95.0|-1.3|3.9|||Regression, Linear||Estimation parameter is regression parameter comparing intervention to control|||3.9|-1.3|0.31
82567170|NCT05135156|164843574|SUPERIORITY||Mean Difference (Net)|5.0||||0.42|TWO_SIDED|95.0|-7.4|17.4|||Regression, Linear||Difference = intervention - control||Estimation parameter is regression parameter comparing intervention to control|17.4|-7.4|0.42
82639654|NCT01590810|164994287|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.55|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|-11.18|-5.91|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.91|-11.18|<0.0001
82639655|NCT01590810|164994287|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.64|STANDARD_ERROR_OF_MEAN|1.34|<|0.0001|TWO_SIDED|95.0|-13.44|-7.84|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-7.84|-13.44|<0.0001
82639656|NCT01590810|164994287|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.13|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-13.97|-8.29|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-8.29|-13.97|<0.0001
82567171|NCT05135156|164843575|OTHER|Pearson's chi-squared test of independence||||||0.39||||||p=0.39 at baseline, 0.39 at 2 weeks and 0.23 at 4 weeks|Chi-squared|||||||0.39
82567172|NCT05135156|164843576|SUPERIORITY||Mean Difference (Net)|0.05||||0.91|TWO_SIDED|95.0|-0.84|0.94|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in confidence-weighted true false knowledge about lung transplant (14-question investigator-designed survey) from baseline to 2-week study visit||0.94|-0.84|0.91
82567173|NCT05135156|164843576|SUPERIORITY||Mean Difference (Net)|0.04||||0.53|TWO_SIDED|95.0|-0.08|0.16|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in Likert preparedness to discuss transplant from baseline to 2-week study visit||0.16|-0.08|0.53
82567174|NCT05135156|164843576|SUPERIORITY||Mean Difference (Net)|-4.3||||0.04|TWO_SIDED|95.0|-8.4|-0.3|||Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|Outcome = change in Decisional Conflict Scale from baseline to 2-week study visit||-0.3|-8.4|0.04
82567175|NCT05135156|164843576|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.74|TWO_SIDED|95.0|-3.6|5.0||Outcome = mean PrepDM Scale at 2-weeks|Regression, Linear||Parameters are for a 60-minute greater amount of time spent on the website (range was 21-418 minutes in the first 2 weeks).|||5.0|-3.6|0.74
82567176|NCT02853305|164843597|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0033|TWO_SIDED|95.0|0.65|0.93|||Stratified Log-Rank|The treatment difference in PFS was assessed by the stratified log-rank test.||PFS in all participants of the pembro combo arm was compared to PFS in all participants of the chemo arm to address the first primary hypothesis (superiority to chemo). The hazard ratio (HR) and its 95% confidence interval (CI) were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||0.93|0.65|0.0033
82567177|NCT02853305|164843598|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0407|TWO_SIDED|95.0|0.72|1.02|||Stratified Log-Rank|The treatment difference in OS was assessed by the stratified log-rank test.||OS in all participants of the pembro combo arm was compared to OS in all participants of the chemo arm to address the second primary hypothesis (superiority to chemo). The HR and its 95% CI were estimated using a stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.02|0.72|0.0407
82567178|NCT02853305|164843599|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.77|1.32||No formal hypothesis testing was performed.||||OS in CPS≥10 participants of the pembro arm was compared to OS in CPS≥10 participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) at baseline.||1.32|0.77|
82567179|NCT02853305|164843600|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.11||No formal hypothesis testing was performed.||||OS in all participants of the pembro arm was compared to OS in all participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.11|0.77|
82567180|NCT02853305|164843601|OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|1.09|1.58||No formal hypothesis testing was performed.||||PFS in all participants of the pembro arm was compared to PFS in all participants of the chemo arm. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.58|1.09|
82567181|NCT02853305|164843604|OTHER||Difference in Percentage|9.8|||||TWO_SIDED|95.0|2.4|17.1||No formal hypothesis testing was performed.||||ORR in participants of the pembro combo arm was compared to ORR in participants of the chemo arm. The comparison was based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||17.1|2.4|
82629697|NCT03934203|164974770|OTHER|The null hypothesis was 'The mean difference in the QTcF changes from baseline between 250 mg BI 409306 and placebo is greater than or equal to 10 milliseconds at least for one timepoint after dosing.' The one-sided tests were performed at the 5% level; due to the symmetry of the normal distribution 2-sided 90% confidence intervals for the differences of adjusted means per timepoint were used.|Difference of adjusted means|5.7|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|90.0|4.4|7.1|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 40 minutes after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||7.1|4.4|
82639657|NCT01590810|164994288|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|1.19||0.547|TWO_SIDED|95.0|-3.19|1.73|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.73|-3.19|0.547
82567182|NCT02853305|164843606|OTHER||Difference in Percentage|4.5|||||TWO_SIDED|95.0|-1.6|10.6||No formal hypothesis testing was performed.||||DCR in participants of the pembro combo arm was compared to DCR in participants of the chemo arm based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||10.6|-1.6|
82639658|NCT01590810|164994288|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.53||0.004|TWO_SIDED|95.0|-2.79|-0.62|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.62|-2.79|0.004
82567183|NCT02853305|164843607|SUPERIORITY||Difference in Percentage|-14.8|||||TWO_SIDED|95.0|-22.0|-7.4||No formal hypothesis testing was performed.||||ORR in participants of the pembro arm was compared to ORR in participants of the chemo arm. The comparison was based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||-7.4|-22.0|
82508578|NCT00962104|164708660|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.59||||0.001|TWO_SIDED|95.0|-5.73|-1.45||This is the p-value for the Raw Behavioral Regulation Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-1.45|-5.73|0.001
82508579|NCT00962104|164708660|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.29|||<|0.001|TWO_SIDED|95.0|-9.28|-3.31||This is the p-value for the Raw MI score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-3.31|-9.28|<0.001
82508580|NCT00962104|164708660|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.76|||<|0.001|TWO_SIDED|95.0|-14.75|-4.78||This is the p-value for the Global Executive Composite Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-4.78|-14.75|<0.001
82508581|NCT00962104|164708661|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.93||||0.092|TWO_SIDED|95.0|-4.18|0.32||This is the p-value for the Raw Behavioral Regulation Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.32|-4.18|0.092
82508582|NCT00962104|164708661|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.62||||0.272|TWO_SIDED|95.0|-4.52|1.28||This is the p-value for the Raw MI Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||1.28|-4.52|0.272
82508583|NCT00962104|164708661|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.55||||0.153|TWO_SIDED|95.0|-8.43|1.32||This is the p-value for the Raw Global Executive Composite Index score. Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||1.32|-8.43|0.153
82508584|NCT00962104|164708662|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.67|-0.27||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||-0.27|-0.67|<0.001
82508585|NCT00962104|164708663|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed using an analysis of variance (ANOVA) with term for treatment and country.|ANOVA|||||||<0.001
82567184|NCT02853305|164843609|OTHER||Difference in Percentage|-28.9|||||TWO_SIDED|95.0|-35.9|-21.6||No formal hypothesis testing was performed.||||DCR in participants of the pembro arm was compared to DCR in participants of the chemo arm based on the Miettinen \& Nurminen method stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||-21.6|-35.9|
82567185|NCT02853305|164843613|OTHER||Difference in LS Means|2.68|||||TWO_SIDED|95.0|-0.76|6.12||No formal hypothesis testing was performed.||||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the chemo arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable, and with treatment by study visit interactions and stratification factors (investigator's choice of chemotherapy \[cisplatin or carboplatin\] and PD-L1 status \[CPS\<10 vs. CPS≥10\]) at baseline as covariates.||6.12|-0.76|
82567186|NCT02853305|164843614|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.62|1.0||No formal hypothesis testing was performed.||||TTD in GHS/QoL combined score was compared between all participants of the pembro combo arm and the chemo arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.00|0.62|
82567187|NCT02853305|164843615|OTHER||Difference in LS Means|-0.94|||||TWO_SIDED|95.0|-5.06|3.18||No formal hypothesis testing was performed.||||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro arm and the chemo arm. Comparison based on cLDA model with GHS/QoL score as response variable, and with treatment by study visit interactions and stratification factors (investigator's choice of chemotherapy \[cisplatin or carboplatin\] and PD-L1 status \[CPS\<10 vs. CPS≥10\]) at baseline as covariates.||3.18|-5.06|
82567188|NCT02853305|164843616|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.93|1.49||No formal hypothesis testing was performed.||||TTD in GHS/QoL combined score was compared between all participants of the pembro arm and the chemo arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by investigator's choice of chemotherapy (cisplatin or carboplatin) and PD-L1 status (CPS\<10 vs. CPS≥10) at baseline.||1.49|0.93|
82508586|NCT00962104|164708664|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05||||0.869|TWO_SIDED|95.0|-0.71|0.6||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.60|-0.71|0.869
82508587|NCT00962104|164708665|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05||||0.87|TWO_SIDED|95.0|-0.59|0.5||Statistical significance was assessed using an analysis of covariance (ANCOVA) with term for treatment, country, and baseline value.|ANCOVA|||||0.50|-0.59|0.870
82508588|NCT02013167|164708686|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.012|TWO_SIDED|95.0|0.55|0.93|||Stratified Log Rank|Stratified by age (\< 35 years; ≥ 35 years), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).|Hazard ratio obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicated a lower average event rate and longer survival time for blinatumomab relative to SOC chemotherapy.|||0.93|0.55|0.012
82508589|NCT02013167|164708687|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|17.9|||<|0.001|TWO_SIDED|95.0|9.6|26.2|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors: age (\< 35 vs. ≥ 35), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).||||26.2|9.6|< 0.001
82508590|NCT02013167|164708688|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|19.3|||<|0.001|TWO_SIDED|95.0|9.9|28.7|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors: age (\< 35 vs. ≥ 35), prior salvage therapy (yes vs. no), and prior allogeneic HSCT (yes vs. no).||||28.7|9.9|< 0.001
82508591|NCT02013167|164708689|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.43|0.71|||||The hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer survival for Blinatumomab relative to SOC Chemotherapy.|||0.71|0.43|
82567189|NCT02391116|164843675|OTHER||Percentage Difference|2.2|||||TWO_SIDED|90.0|-28.7|32.9|||Exact confidence intervals (CI)||ORR difference in FAS (N=54): ORR in CD79b mutant subgroup minus ORR in CD79b wild-type subgroup|||32.9|-28.7|
82567190|NCT02391116|164843675|OTHER||Percentage Difference|0.0|||||TWO_SIDED|90.0|-33.5|33.5|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in CD79b mutant subgroup minus ORR in CD79b wild-type subgroup|||33.5|-33.5|
82567191|NCT02391116|164843676|OTHER||Percentage Difference|16.4|||||TWO_SIDED|90.0|-7.2|39.1|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in ABC subgroup minus ORR in non-ABC group (i.e. combined GCB subgroup and Unclassifiable subgroup)|||39.1|-7.2|
82629698|NCT03934203|164974771|OTHER|No formal hypotheses were tested.|Difference of adjusted means|12.1|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|90.0|10.5|13.6|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as moxifloxacin - placebo at 1 hour and 30 minutes after drug intake.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||13.6|10.5|
82629699|NCT03934203|164974772|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 2 hours after drug administration.'|Difference of adjusted means|11.9|STANDARD_ERROR_OF_MEAN|0.9||0|TWO_SIDED|90.0|10.4|13.4||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.0167.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||13.4|10.4|0.00000000
82629700|NCT03934203|164974773|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 3 hours after drug administration.'|Difference of adjusted means|11.1|STANDARD_ERROR_OF_MEAN|1.0||3e-08|TWO_SIDED|90.0|9.3|12.8||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.0250.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.8|9.3|0.00000003
82508592|NCT01113879|164708704|OTHER||||||<|0.001|TWO_SIDED|85.0|||||Weighted Tau U|||Weighted Tau U effect size mean values in Block 1 of treatment (no aerobic exercise or stretching) were compared to weighted Tau U mean values in Block 2 of treatment (aerobic exercise or stretching adjuvant).||||< 0.001
82508593|NCT00244712|164708749|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the ABC/3TC to the TDF/FTC would be declared if the lower limit of the 2-sided 95% confidence interval on the difference in the percentage of participants with HIV-1 RNA \<50 copies/mL at Week 48 \[ABC/3TC minus TDF/FTC\] was -12% or greater.|difference in response percentage|0.39||||0.913||95.0|-6.63|7.4|||Cochran-Mantel-Haenszel||Difference in response percentage = percentage in Arm 1 minus percentage in Arm 2|||7.40|-6.63|0.913
82508594|NCT00403273|164708777|SUPERIORITY|||||||0.01||||||p-value not adjusted for multiple comparisons; the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.01
82567192|NCT02391116|164843676|OTHER||Percentage Difference|20.8|||||TWO_SIDED|90.0|-6.8|46.2|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in ABC subgroup minus ORR in non-ABC group (i.e. combined GCB subgroup and Unclassifiable subgroup)|||46.2|-6.8|
82567193|NCT02391116|164843676|OTHER||Percentage Difference|-18.5|||||TWO_SIDED|90.0|-40.1|4.6|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in GCB subgroup minus ORR in non-GCB subgroup (i.e. combined ABC subgroup and Unclassifiable subgroup)|||4.6|-40.1|
82639659|NCT01590810|164994288|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.59|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-6.23|-2.94|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.94|-6.23|<0.0001
82567194|NCT02391116|164843676|OTHER||Percentage Difference|-25.3|||||TWO_SIDED|90.0|-49.1|1.1|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in GCB subgroup minus ORR in non-GCB subgroup (i.e. combined ABC subgroup and Unclassifiable subgroup)|||1.1|-49.1|
82567195|NCT02391116|164843676|OTHER||Percentage Difference|12.9|||||TWO_SIDED|90.0|-42.4|63.2|||Exact confidence intervals (CI)||ORR difference in FAS (N=52): ORR in Unclassifiable subgroup minus ORR in ABC / GCB subgroup (i.e. combined ABC subgroup and GCB subgroup)|||63.2|-42.4|
82523021|NCT01224925|164741478|SUPERIORITY||Log Rank (Mantel-Cox)|842.0|||<|0.01|TWO_SIDED|95.0|693.0|991.0|||Log Rank|||The power calculation was based on the intention to show a 30% difference in success rates. The following parameters were used (binomial scale): type I error: 5%; expected success rate in the CH group: 55% (based on Barthel et al. 2000); minimal difference between success rates not to be overlooked: 30%; type II error: 5%. The calculations revealed the need for 64 subjects in each group. After adding 20% for eventual drop-outs, we planned to recruit 160 subjects in one year.||991|693|<0.01
82523022|NCT01224925|164741478|SUPERIORITY||Log Rank (Mantel-Cox)|1201.0|||<|0.01|TWO_SIDED|95.0|1068.0|1335.0|||Log Rank|||||1335|1068|<0.01
82523023|NCT01224925|164741479|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82508595|NCT00403273|164708778|SUPERIORITY_OR_OTHER||comparison of proportions|0.65|||<|0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons was made, since we analyzed only one primary outcome. 19 patients per group were needed for 80% power and 24 patients per group for 90% power to detect a difference of 43% in proportion with primary outcome|comparison of proportions|compare proportion of patients with clinically meaningful change in 0-10 VAS pain (at least 2-point reduction on VAS pain) at 2-mths \& all timepoints|we hypothesized a greater proportion with meaningful reduction in pain on 0-10 scale in intervention versus placebo group.|For primary outcome analysis, we compared the proportion of responders with clinically meaningful change \[improvement\] in 0-10 VAS Pain, i.e. those with 2-point reduction in 0-10 VAS pain score at 2-mths, in the 2 groups using comparison of proportions. Proportion of responders were also analyzed at all efficacy timepoints using generalized estimating equation (GEE) modeling. We used GEE for between-group comparisons in secondary outcomes at all efficacy endpoints, adjusted for baseline scores.||||<0.05
82629701|NCT03934203|164974774|OTHER|T-Test based on the results of the MMRM (fitted to the data for all timepoints). The null hypothesis was 'The mean difference in the QTcF changes from baseline between moxifloxacin and placebo is less than or equal to 5 milliseconds at 4 hours after drug administration.'|Difference of adjusted means|10.7|STANDARD_ERROR_OF_MEAN|1.1||2e-07|TWO_SIDED|90.0|8.9|12.4||The corresponding alpha-level according to Hochberg's adjustment for mulitplicity was 0.050.|Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Difference of adjusted means was calculated as moxifloxacin - placebo.|MMRM was fitted to the observations for moxifloxacin and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.4|8.9|0.00000020
82508596|NCT00403273|164708779|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82508597|NCT00403273|164708780|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82508598|NCT00403273|164708781|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82508599|NCT00403273|164708782|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82508600|NCT00403273|164708783|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82508601|NCT04041869|164708784|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||In order to test the effect of the intervention on physical activity, linear mixed models examined changes in steps per day from study baseline (week 0) to the end of the active intervention (week 8).||||<0.01
82508602|NCT01336738|164708789|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.164||0.6803|TWO_SIDED|80.0|-0.13|0.29||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% confidence interval (CI) were based on LS mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.29|-0.13|0.6803
82508603|NCT01336738|164708789|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.166||0.0017|TWO_SIDED|80.0|-0.71|-0.28||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.28|-0.71|0.0017
82508604|NCT01336738|164708789|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.168||0.0003|TWO_SIDED|80.0|-0.8|-0.36||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.36|-0.80|0.0003
82508605|NCT01336738|164708789|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.162|<|0.0001|TWO_SIDED|80.0|-0.91|-0.5||One-sided p-value was calculated.|Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.50|-0.91|<0.0001
82508606|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|5.292||0.4757|TWO_SIDED|95.0|-6.64|14.2||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||14.20|-6.64|0.4757
82567196|NCT02391116|164843676|OTHER||Percentage Difference|26.3|||||TWO_SIDED|90.0|-44.3|77.6|||Exact confidence intervals (CI)||ORR difference in PPS (N=40): ORR in Unclassifiable subgroup minus ORR in ABC / GCB subgroup (i.e. combined ABC subgroup and GCB subgroup)|||77.6|-44.3|
82567197|NCT01747629|164843703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.163|<|0.0001|TWO_SIDED|95.0|0.59|1.24||Significance at the 0.05 level.|mixed-model repeated-measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.24|0.59|<0.0001
82567198|NCT01747629|164843704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|0.56|1.55||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.55|0.56|<0.0001
82567199|NCT01747629|164843705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.212||0.0004|TWO_SIDED|95.0|0.35|1.19||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.19|0.35|0.0004
82567200|NCT01747629|164843706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|0.57|1.28||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.28|0.57|<0.0001
82567201|NCT01770509|164843717|SUPERIORITY_OR_OTHER|||||||0.652|||||||ANOVA|General Linear Model ANOVA with repeated measures||||||0.652
82567202|NCT01770509|164843718|SUPERIORITY_OR_OTHER|||||||0.645|||||||ANOVA|General Linear Model ANOVA with repeated measures||||||0.645
82567203|NCT01332318|164843779|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.08|0.42|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 2 minus Arm 1.|||0.42|0.08|
82567204|NCT01332318|164843779|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.09|0.41|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 3 minus Arm 1.|||0.41|0.09|
82639660|NCT01590810|164994288|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.37|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.98|-1.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.76|-4.98|<0.001
82639661|NCT01590810|164994288|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.92|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-8.24|-3.59|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.59|-8.24|<0.0001
82639662|NCT01590810|164994289|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.43|STANDARD_ERROR_OF_MEAN|1.33||0.017|TWO_SIDED|95.0|-6.19|-0.67|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.67|-6.19|0.017
82639663|NCT01590810|164994289|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.64|STANDARD_ERROR_OF_MEAN|1.35|<|0.001|TWO_SIDED|95.0|-8.43|-2.84|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.84|-8.43|<0.001
82639664|NCT01590810|164994289|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.99|STANDARD_ERROR_OF_MEAN|1.91||0.005|TWO_SIDED|95.0|-9.94|-2.04|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.04|-9.94|0.005
82639665|NCT01590810|164994289|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.73|<|0.001|TWO_SIDED|95.0|-10.9|-3.76|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.76|-10.90|<0.001
82639666|NCT01590810|164994289|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.22|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|-7.76|-2.69|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.69|-7.76|<0.001
82639667|NCT01590810|164994290|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.93|STANDARD_ERROR_OF_MEAN|6.52||0.311|TWO_SIDED|95.0|-21.27|7.42|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.42|-21.27|0.311
82639668|NCT01590810|164994290|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.87|STANDARD_ERROR_OF_MEAN|6.62||0.078|TWO_SIDED|95.0|-27.44|1.69|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.69|-27.44|0.078
82639669|NCT01590810|164994290|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.03|STANDARD_ERROR_OF_MEAN|6.29||0.027|TWO_SIDED|95.0|-29.87|-2.19|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.19|-29.87|0.027
82639670|NCT01590810|164994291|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.77|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001|TWO_SIDED|95.0|-12.9|-6.65|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.65|-12.90|<0.0001
82639671|NCT01590810|164994291|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.19|STANDARD_ERROR_OF_MEAN|2.1||0.003|TWO_SIDED|95.0|-11.57|-2.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.81|-11.57|0.003
82639672|NCT01590810|164994291|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.19|STANDARD_ERROR_OF_MEAN|2.02||0.001|TWO_SIDED|95.0|-12.4|-3.98|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.98|-12.40|0.001
82639673|NCT01590810|164994291|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.47|STANDARD_ERROR_OF_MEAN|2.02||0.001|TWO_SIDED|95.0|-11.69|-3.25|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.25|-11.69|0.001
82639674|NCT01590810|164994292|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|1.04||0.765|TWO_SIDED|95.0|-1.82|2.45|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.45|-1.82|0.765
82639675|NCT01590810|164994292|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.56||0.023|TWO_SIDED|95.0|-2.49|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.20|-2.49|0.023
82639676|NCT01590810|164994292|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.77|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-9.18|-4.36|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.36|-9.18|<0.0001
82508607|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|5.296||0.8031|TWO_SIDED|95.0|-9.11|11.75||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.75|-9.11|0.8031
82508608|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.22|STANDARD_ERROR_OF_MEAN|5.364||0.549|TWO_SIDED|95.0|-13.78|7.34||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.34|-13.78|0.5490
82629702|NCT03934203|164974775|OTHER|No formal hypotheses were tested.|Difference of adjusted means|2.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|1.4|3.3|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 20 minutes after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||3.3|1.4|
82629703|NCT03934203|164974776|OTHER|No formal hypotheses were tested.|Difference of adjusted means|11.7|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|10.6|12.8|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Maximum difference of adjusted means was calculated as BI 409306 - placebo at 40 minutes after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||12.8|10.6|
82508609|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.07|STANDARD_ERROR_OF_MEAN|5.34||0.0051|TWO_SIDED|95.0|-25.58|-4.55||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.55|-25.58|0.0051
82508610|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|5.02||0.6291|TWO_SIDED|95.0|-12.31|7.46||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.46|-12.31|0.6291
82508611|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|STANDARD_ERROR_OF_MEAN|5.001||0.4396|TWO_SIDED|95.0|-5.98|13.72||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.72|-5.98|0.4396
82508612|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.56|STANDARD_ERROR_OF_MEAN|5.03||0.1934|TWO_SIDED|95.0|-16.46|3.34||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.34|-16.46|0.1934
82508613|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.32|STANDARD_ERROR_OF_MEAN|5.039||0.0007|TWO_SIDED|95.0|-27.24|-7.4||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.40|-27.24|0.0007
82508614|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|5.201||0.5479|TWO_SIDED|95.0|-7.11|13.37||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.37|-7.11|0.5479
82508615|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.14|STANDARD_ERROR_OF_MEAN|5.209||0.4276|TWO_SIDED|95.0|-14.39|6.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||6.12|-14.39|0.4276
82508616|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.38|STANDARD_ERROR_OF_MEAN|5.235||0.1596|TWO_SIDED|95.0|-17.69|2.92||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.92|-17.69|0.1596
82567205|NCT01332318|164843779|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.06||||95.0|0.09|0.42|||||An Analysis of Covariance (ANCOVA) model, including terms for treatment, pooled study site, visit, and treatment by visit interaction, was used to calculate the adjusted mean difference and confidence interval. Arm 4 minus Arm 1.|||0.42|0.09|
82378431|NCT01330303|164465374|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|101.89||||||90.0|94.91|109.39|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||109.39|94.91|
82567206|NCT01524887|164843820|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.4||||0.243||95.0|-1.0|3.9|||Mixed Models Analysis|||||3.9|-1.0|0.243
82567207|NCT01524887|164843820|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.0||||0.37||95.0|-1.2|3.3|||Mixed Models Analysis|||||3.3|-1.2|0.370
82567208|NCT01524887|164843821|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-3.9||||0.033||95.0|-7.4|-0.3|||Mixed Models Analysis|||||-0.3|-7.4|0.033
82567209|NCT01524887|164843821|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.9||||0.586||95.0|-4.2|2.4|||Mixed Models Analysis|||||2.4|-4.2|0.586
82567210|NCT01524887|164843822|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.2||||0.501||95.0|-1.0|0.5|||Mixed Models Analysis|||||0.5|-1.0|0.501
82567211|NCT01524887|164843822|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.1||||0.783||95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.783
82508617|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.83|STANDARD_ERROR_OF_MEAN|5.198|<|0.0001|TWO_SIDED|95.0|-33.06|-12.6||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-12.60|-33.06|<0.0001
82567212|NCT01524887|164843823|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.1||||0.571||95.0|-2.6|4.7|||Mixed Models Analysis|||||4.7|-2.6|0.571
82567213|NCT01524887|164843823|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|3.7||||0.032||95.0|0.3|7.1|||Mixed Models Analysis|||||7.1|0.3|0.032
82567214|NCT01524887|164843824|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.00026||||0.593||95.0|-0.00126|0.00073|||ANCOVA|||||0.00073|-0.00126|0.593
82567215|NCT01524887|164843824|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|0.00003||||0.94||95.0|-0.0008|0.00086|||ANCOVA|||||0.00086|-0.00080|0.940
82629704|NCT03934203|164974777|OTHER|No formal hypotheses were tested.|Difference of adjusted means|-1.2|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.3|-0.1|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Minimum difference of adjusted means was calculated as BI 409306 - placebo at 24 hours after drug intake.|MMRM was fitted to observations for 50 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||-0.1|-2.3|
82508618|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.855||0.8509|TWO_SIDED|95.0|-12.63|10.43||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||10.43|-12.63|0.8509
82567216|NCT01524887|164843825|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.5||||0.633||95.0|-2.8|1.7|||Mixed Models Analysis|||||1.7|-2.8|0.633
82567217|NCT01524887|164843825|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|0.0||||0.981||95.0|-2.0|2.0|||Mixed Models Analysis|||||2.0|-2.0|0.981
82567218|NCT04341584|164843839|SUPERIORITY||Median posterior HR|0.97|||||TWO_SIDED|90.0|0.62|1.52|||Bayesian Cox model|adjusted for age and centre|% Confidence Interval is % Credible Interval here|||1.52|0.62|
82567219|NCT04341584|164843840|SUPERIORITY||Median posterior absolute risk differenc|-2.5|||||TWO_SIDED|90.0|-17.1|12.0|||Bayesian analysis||% Confidence Interval is % Credible Interval here|||12|-17.1|
82567220|NCT04341584|164843841|SUPERIORITY||Median posterior HR|1.26|||||TWO_SIDED|90.0|0.59|2.81||adjusted for age and centre|Bayesian Fine and Gray analysis||% Confidence interval is % Credible Interval here|||2.81|0.59|
82567221|NCT04341584|164843842|SUPERIORITY||Median posterior absolute risk differenc|24.0|||||TWO_SIDED|90.0|3.9|43.5|||Bayesian analysis||% Confidence interval is % Credible interval here|||43.5|3.9|
82567222|NCT04341584|164843843|SUPERIORITY||Median posterior OR|0.8|||||TWO_SIDED|95.0|0.38|1.68|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 4||1.68|0.38|
82567223|NCT04341584|164843843|SUPERIORITY||Median posterior OR|0.69|||||TWO_SIDED|95.0|0.33|1.43|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 14||1.43|0.33|
82567224|NCT04341584|164843843|SUPERIORITY||Median posterior OR|0.7|||||TWO_SIDED|95.0|0.35|1.38|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence interval is % Credible interval here|Day 28||1.38|0.35|
82567225|NCT04341584|164843843|SUPERIORITY||Median posterior OR|0.72|||||TWO_SIDED|95.0|0.22|2.39|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence Interval is % Credible interval here|Day 4||2.39|0.22|
82567226|NCT04341584|164843843|SUPERIORITY||Median posterior HR|0.89|||||TWO_SIDED|95.0|0.28|2.8|||Bayesian Proportionnal odds model|Adjusted for age and centre|% Confidence Interval is % Credible interval here|Day 7||2.80|0.28|
82567227|NCT04341584|164843843|SUPERIORITY||Median posterior HR|0.57|||||TWO_SIDED|95.0|0.18|1.75||Day 14|Bayesian Proportionnal odds model|Adjusted for afe and centre|% Confidence Interval is % Credible interval here|||1.75|0.18|
82567228|NCT04341584|164843844|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.23|1.29|||Regression, Cox|adjusted for age and centre||14 days||1.29|0.23|
82567229|NCT04341584|164843844|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.33|1.77|||Regression, Cox|Adjusted for age and centre||28 days||1.77|0.33|
82567230|NCT04341584|164843844|SUPERIORITY|90 days|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.46|2.04|||Regression, Cox|adjusted on age and centre|% Confidence interval is % Credible interval here|||2.04|0.46|
82567231|NCT04341584|164843844|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.11|3.86|||Regression, Cox|adjusted on age and centre||||3.86|0.11|
82567232|NCT04341584|164843844|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.19|4.68|||Regression, Cox|adjusted on age and centre||||4.68|0.19|
82567233|NCT04341584|164843844|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.31|4.87|||Regression, Cox|adjusted on age and centre||||4.87|0.31|
82567234|NCT04341584|164843845|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-8.3|6.4||||adjusted on age and centre||||6.4|-8.3|
82567235|NCT04341584|164843847|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.64|1.61|||Fine-Gray model|Adjusted for age and centre||||1.61|0.64|
82567236|NCT04341584|164843847|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.58|3.07||Adjusted for age and centre|Fine-Gray model|Adjusted for age and centre||||3.07|0.58|
82567237|NCT04341584|164843848|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.56|1.48|||Fine-Gray model|adjusted on age and centre||||1.48|0.56|
82567238|NCT04341584|164843848|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.35|2.34||adjusted on age and centre|Fine-Gray model|||||2.34|0.35|
82567239|NCT04341584|164843849|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.43|2.32||adjusted on age and centre|Fine-Gray model|||Day 28||2.32|0.43|
82567240|NCT04341584|164843849|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.52|2.29||adjusted on age and centre|Fine-Gray model|||Day 90||2.29|0.52|
82567241|NCT03443063|164843897|OTHER||Percent (%) ratio of geometric means|104.83|||||TWO_SIDED|90.0|77.41|141.97|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||141.97|77.41|
82508619|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.53|STANDARD_ERROR_OF_MEAN|5.913||0.1505|TWO_SIDED|95.0|-20.17|3.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.12|-20.17|0.1505
82629705|NCT03934203|164974778|OTHER|No formal hypotheses were tested.|Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|90.0|-1.3|1.3|||Mixed Models Analysis|Restricted maximum likelihood estimation and Kenward-Roger method to adjust standard errors and estimate denominator degrees of freedom.|Minimum difference of adjusted means was calculated as BI 409306 - placebo at 12 hours after drug intake.|MMRM was fitted to observations for 250 mg BI 409306 and the 2 placebo periods. MMRM with covariates 'period baseline', 'participant baseline' (=arithmetic mean of respective period baselines), fixed categorical effects 'treatment', 'period', and 'time', interaction terms 'period baseline-by-time', 'participant baseline-by-time', 'treatment-by-time', and 'period-by-time', 'participant' (random effect), and time within period as repeated measures per participant (covariance matrix=Unstructured).||1.3|-1.3|
82629706|NCT01810380|164974791|SUPERIORITY_OR_OTHER||Least square mean difference|-4.1|STANDARD_ERROR_OF_MEAN|2.1||0.056|TWO_SIDED|95.0|-8.2|0.1||For all efficacy analyses the primary comparison is the difference between brexpiprazole 2 to 4 mg/day and placebo at Week 6.|Mixed Models Analysis|Pooled site, visit, treatment as fixed effects, baseline score as continuous covariate, treatment-by-visit and baseline score-by-visit as interactions||The overall significance level was 0.05. The primary and the key secondary endpoints were tested hierarchically. Only if the primary endpoint was statistically significant would confirmatory testing continue with the key secondary endpoint.||0.1|-8.2|0.0560
82508620|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.62|STANDARD_ERROR_OF_MEAN|5.94||0.2662|TWO_SIDED|95.0|-18.31|5.08||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.08|-18.31|0.2662
82508621|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.52|STANDARD_ERROR_OF_MEAN|5.818||0.0003|TWO_SIDED|95.0|-32.97|-10.07||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-10.07|-32.97|0.0003
82508622|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|6.94||0.7724|TWO_SIDED|95.0|-15.68|11.66||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.66|-15.68|0.7724
82508623|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|6.986||0.9202|TWO_SIDED|95.0|-14.47|13.07||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||13.07|-14.47|0.9202
82508624|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|6.998||0.8183|TWO_SIDED|95.0|-15.4|12.18||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.18|-15.40|0.8183
82508625|NCT01336738|164708790|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.96|STANDARD_ERROR_OF_MEAN|6.821||0.0003|TWO_SIDED|95.0|-38.4|-11.53||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-11.53|-38.40|0.0003
82508626|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.048||0.2327|TWO_SIDED|80.0|-0.1|0.03||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.03|-0.10|0.2327
82629707|NCT01810380|164974791|SUPERIORITY_OR_OTHER||Least square mean difference|-8.0|STANDARD_ERROR_OF_MEAN|2.1||0.0002|TWO_SIDED|95.0|-12.2|-3.9|||Mixed Models Analysis|||||-3.9|-12.2|0.0002
82629708|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.003|TWO_SIDED|95.0|-0.91|-0.19|||t-test, 2 sided|||Corneal staining analysis, day 28.||-0.19|-0.91|0.003
82629709|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.19|TWO_SIDED|95.0|-1.28|0.28|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, 18-59 year old subgroup.||0.28|-1.28|0.19
82629710|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.047|TWO_SIDED|95.0|-1.86|-0.02|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, 60+ year old subgroup.||-0.02|-1.86|0.047
82508627|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.048||0.358|TWO_SIDED|80.0|-0.08|0.04||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.04|-0.08|0.3580
82508628|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.049||0.0036|TWO_SIDED|80.0|-0.2|-0.07||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.07|-0.20|0.0036
82629711|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.08|TWO_SIDED|95.0|-1.49|0.1|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, Sjogren's subgroup.||0.10|-1.49|0.08
82629712|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.09|TWO_SIDED|95.0|-1.67|0.14|||t-test, 2 sided|||Corneal staining sub-group analysis, day 28, non-Sjogren's subgroup.||0.14|-1.67|0.09
82508629|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.049||0.1251|TWO_SIDED|80.0|-0.12|0.01||One-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.01|-0.12|0.1251
82508630|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.066||0.3466|TWO_SIDED|80.0|-0.11|0.06||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.06|-0.11|0.3466
82508631|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.066||0.0439|TWO_SIDED|80.0|-0.2|-0.03||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.03|-0.20|0.0439
82508632|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.067||0.004|TWO_SIDED|80.0|-0.27|-0.09||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.27|0.0040
82508633|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.065||0.0009|TWO_SIDED|80.0|-0.29|-0.12||One-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.12|-0.29|0.0009
82508634|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.096||0.1405|TWO_SIDED|80.0|-0.23|0.02||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.23|0.1405
82508635|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.097||0.0067|TWO_SIDED|80.0|-0.36|-0.12||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.12|-0.36|0.0067
82508636|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.098||0.0001|TWO_SIDED|80.0|-0.5|-0.24||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.24|-0.50|0.0001
82508637|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.094||0.0002|TWO_SIDED|80.0|-0.46|-0.22||One-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.22|-0.46|0.0002
82508638|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.135||0.4887|TWO_SIDED|80.0|-0.18|0.17||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||0.17|-0.18|0.4887
82508639|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.137||0.002|TWO_SIDED|80.0|-0.57|-0.22||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.22|-0.57|0.0020
82508640|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|80.0|-0.76|-0.41||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.41|-0.76|<0.0001
82508641|NCT01336738|164708791|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|80.0|-0.76|-0.42||One-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction as the covariates, time was repeated for participant.||-0.42|-0.76|<0.0001
82629713|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-1.05|-0.3|||t-test, 2 sided|||Conjunctival staining analysis, day 28||-0.30|-1.05|< 0.001
82629714|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.58|TWO_SIDED|95.0|-1.04|0.61|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, 18-59 year old subgroup.||0.61|-1.04|0.58
82629715|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.021|TWO_SIDED|95.0|-2.17|-0.21|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, 60+ year old subgroup.||-0.21|-2.17|0.021
82629716|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.16|TWO_SIDED|95.0|-1.88|0.34|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, Sjogren's subgroup.||0.34|-1.88|0.16
82629717|NCT04498468|164974863|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.097|TWO_SIDED|95.0|-1.55|0.14|||t-test, 2 sided|||Conjunctival staining sub-group analysis, day 28, non-Sjogren's subgroup.||0.14|-1.55|0.097
82629718|NCT04498468|164974864|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.069|TWO_SIDED|95.0|-11.4|0.4|||t-test, 2 sided|||Eye dryness, day 28||0.4|-11.4|0.069
82629719|NCT04498468|164974864|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.92|TWO_SIDED|95.0|-7.0|6.3|||t-test, 2 sided|||VAS Eye discomfort, Day 28||6.3|-7.0|0.92
82629720|NCT04498468|164974864|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.55|TWO_SIDED|95.0|-5.8|3.1|||t-test, 2 sided|||VAS eye fatigue, day 28||3.1|-5.8|0.55
82508642|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.225||0.2067|TWO_SIDED|95.0|-0.16|0.73||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.73|-0.16|0.2067
82508643|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.224||0.8602|TWO_SIDED|95.0|-0.4|0.48||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.48|-0.40|0.8602
82508644|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.225||0.92|TWO_SIDED|95.0|-0.47|0.42||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.42|-0.47|0.9200
82508645|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.223||0.0399|TWO_SIDED|95.0|0.02|0.9||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.90|0.02|0.0399
82508646|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.242||0.2266|TWO_SIDED|95.0|-0.18|0.77||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.77|-0.18|0.2266
82508647|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.241||0.8493|TWO_SIDED|95.0|-0.43|0.52||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.43|0.8493
82508648|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.242||0.9511|TWO_SIDED|95.0|-0.49|0.46||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.46|-0.49|0.9511
82508649|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.241||0.1369|TWO_SIDED|95.0|-0.11|0.83||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.83|-0.11|0.1369
82508650|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.272||0.1562|TWO_SIDED|95.0|-0.15|0.92||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.92|-0.15|0.1562
82629721|NCT04498468|164974865|SUPERIORITY||Risk Ratio (RR)|1.26||||0.42|TWO_SIDED|95.0|0.8|2.0|||McNemar|||||2.0|0.8|0.42
82508651|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.272||0.4913|TWO_SIDED|95.0|-0.72|0.35||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.35|-0.72|0.4913
82508652|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.272||0.513|TWO_SIDED|95.0|-0.36|0.71||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.71|-0.36|0.5130
82508653|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.269||0.0298|TWO_SIDED|95.0|0.06|1.12||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.12|0.06|0.0298
82508654|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.363||0.3196|TWO_SIDED|95.0|-0.35|1.08||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.08|-0.35|0.3196
82629722|NCT04498468|164974866|SUPERIORITY||Risk Ratio (RR)|1.04||||1|TWO_SIDED|95.0|0.76|1.42|||McNemar|||||1.42|0.76|1.00
82629723|NCT00814307|164974904|SUPERIORITY_OR_OTHER||Percent difference|39.04|||<|0.0001|TWO_SIDED|95.0|29.12|48.95||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||48.95|29.12|<0.0001
82629724|NCT00814307|164974904|SUPERIORITY_OR_OTHER||Percent difference|33.08|||<|0.0001|TWO_SIDED|95.0|23.04|43.13||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||43.13|23.04|<0.0001
82639677|NCT01590810|164994292|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.45|STANDARD_ERROR_OF_MEAN|1.95||0.01|TWO_SIDED|95.0|-9.46|-1.44|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-1.44|-9.46|0.010
82508655|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.367||0.8884|TWO_SIDED|95.0|-0.77|0.67||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.67|-0.77|0.8884
82508656|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.365||0.7325|TWO_SIDED|95.0|-0.59|0.84||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.84|-0.59|0.7325
82508657|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.357||0.3395|TWO_SIDED|95.0|-0.36|1.04||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.04|-0.36|0.3395
82508658|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.41||0.7514|TWO_SIDED|95.0|-0.68|0.94||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.68|0.7514
82508659|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.413||0.7529|TWO_SIDED|95.0|-0.68|0.94||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.68|0.7529
82508660|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.411||0.9638|TWO_SIDED|95.0|-0.79|0.83||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.83|-0.79|0.9638
82508661|NCT01336738|164708793|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67|STANDARD_ERROR_OF_MEAN|0.404||0.0962|TWO_SIDED|95.0|-0.12|1.47||Two-sided p-value was calculated.|Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.47|-0.12|0.0962
82508662|NCT01332149|164708804|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.148||0.0559|TWO_SIDED|95.0|-0.58|0.01||Primary analysis was two-sided and performed at the 0.05 significance level. No multiple comparisons adjustment was made.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.01|-0.58|0.0559
82508663|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0527|TWO_SIDED|95.0|-0.47|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.47|0.0527
82508664|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.121||0.0279|TWO_SIDED|95.0|-0.5|-0.03||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.03|-0.50|0.0279
82508665|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.121||0.0508|TWO_SIDED|95.0|-0.48|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.48|0.0508
82567242|NCT03443063|164843898|OTHER||Percent (%) ratio of geometric means|133.03|||||TWO_SIDED|90.0|107.3|164.93|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||164.93|107.30|
82639678|NCT01590810|164994292|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.61|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|-11.28|-5.94|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.94|-11.28|<0.0001
82639679|NCT01590810|164994293|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.02|STANDARD_ERROR_OF_MEAN|1.39||0.16|TWO_SIDED|95.0|-4.89|0.86|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.86|-4.89|0.160
82639680|NCT01590810|164994293|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.32|STANDARD_ERROR_OF_MEAN|1.97||0.039|TWO_SIDED|95.0|-8.4|-0.24|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.24|-8.40|0.039
82639681|NCT01590810|164994293|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.75|STANDARD_ERROR_OF_MEAN|2.34||0.003|TWO_SIDED|95.0|-12.58|-2.92|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.92|-12.58|0.003
82639682|NCT01590810|164994293|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.79|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-14.49|-5.09|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.09|-14.49|<0.001
82639683|NCT01590810|164994293|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.31|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-11.3|-5.31|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.31|-11.30|<0.0001
82639684|NCT01590810|164994294|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|4.0||0.675|TWO_SIDED|95.0|-10.54|7.09|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.09|-10.54|0.675
82639685|NCT01590810|164994294|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.76|STANDARD_ERROR_OF_MEAN|4.64||0.174|TWO_SIDED|95.0|-16.98|3.46|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.46|-16.98|0.174
82639686|NCT01590810|164994294|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.68|STANDARD_ERROR_OF_MEAN|4.03||0.006|TWO_SIDED|95.0|-22.55|-4.81|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-4.81|-22.55|0.006
82639687|NCT01590810|164994295|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.12|STANDARD_ERROR_OF_MEAN|1.49|<|0.0001|TWO_SIDED|95.0|-12.22|-6.03|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.03|-12.22|<0.0001
82639688|NCT01590810|164994295|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.86|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-9.73|-3.99|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-3.99|-9.73|<0.0001
82639689|NCT01590810|164994295|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.57|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-11.51|-5.64|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-5.64|-11.51|<0.0001
82639690|NCT01590810|164994295|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.52|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-12.55|-6.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-6.50|-12.55|<0.0001
82639691|NCT00412360|164994300|SUPERIORITY|||||||0.17||||||Testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that there is no difference in overall survival at one year post-randomization between participants receiving single- and double-unit cord blood transplant. The targeted sample size of 110 participants per treatment group was sufficient to maintain a type I error rate of 5% and provide more than 86% power to detect an increase in overall survival from 57% among participants receiving a single unit graft to 77% for those receiving a double-unit graft.||||0.17
82639692|NCT00412360|164994301|SUPERIORITY|||||||0.11||||||Testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that there is no difference in disease-free survival at one year post-randomization between participants receiving single- and double-unit cord blood transplant.||||0.11
82639693|NCT00412360|164994302|SUPERIORITY|||||||0.29||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of neutrophil engraftment between participants receiving single- and double-unit cord blood transplant.||||0.29
82639694|NCT00412360|164994302|SUPERIORITY|||||||0.04||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of platelet engraftment between participants receiving single- and double-unit cord blood transplant.||||0.04
82639695|NCT00412360|164994304|SUPERIORITY|||||||0.78||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of Grade II-IV acute GVHD between participants receiving single- and double-unit cord blood transplant.||||0.78
82639696|NCT00412360|164994304|SUPERIORITY|||||||0.02||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of Grade III-IV acute GVHD between participants receiving single- and double-unit cord blood transplant.||||0.02
82639697|NCT00412360|164994305|SUPERIORITY|||||||0.51||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of chronic GVHD between participants receiving single- and double-unit cord blood transplant.||||0.51
82639698|NCT00412360|164994305|SUPERIORITY|||||||0.05||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of extensive chronic GVHD between participants receiving single- and double-unit cord blood transplant.||||0.05
82639699|NCT00412360|164994307|SUPERIORITY|||||||0.12||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of relapse between participants receiving single- and double-unit cord blood transplant.||||0.12
82639700|NCT00412360|164994308|SUPERIORITY|||||||0.43||||||Testing was performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of treatment-related mortality between participants receiving single- and double-unit cord blood transplant.||||0.43
82639701|NCT03655951|164994311|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.20
82639702|NCT03655951|164994312|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
82639703|NCT03655951|164994313|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.48|||||||Regression, Linear|||||||.48
82639704|NCT03655951|164994314|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.36|||||||Regression, Linear|||||||.36
82639705|NCT03655951|164994315|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.48|||||||Regression, Linear|||||||.48
82639706|NCT03655951|164994316|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.41|||||||Regression, Linear|||||||.41
82508666|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.121||0.0349|TWO_SIDED|95.0|-0.49|-0.02||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.02|-0.49|0.0349
82567243|NCT03443063|164843899|OTHER||Percent (%) ratio of geometric means|150.53|||||TWO_SIDED|90.0|113.16|200.26|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||200.26|113.16|
82567244|NCT03443063|164843900|OTHER||Percent (%) ratio of geometric means|149.84|||||TWO_SIDED|90.0|113.06|198.58|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|||198.58|113.06|
82567245|NCT03443063|164843901|OTHER||Percent (%) ratio of geometric means|80.09|||||TWO_SIDED|90.0|56.07|114.4|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||114.40|56.07|
82508667|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.122||0.0672|TWO_SIDED|95.0|-0.46|0.02||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.02|-0.46|0.0672
82508668|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.122||0.0469|TWO_SIDED|95.0|-0.48|0.0||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.00|-0.48|0.0469
82508669|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.122||0.028|TWO_SIDED|95.0|-0.51|-0.03||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.03|-0.51|0.0280
82567246|NCT03443063|164843901|OTHER||Percent (%) ratio of geometric means|79.51|||||TWO_SIDED|90.0|54.48|116.03|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||116.03|54.48|
82567247|NCT03443063|164843901|OTHER||Percent (%) ratio of geometric means|72.49|||||TWO_SIDED|90.0|48.08|109.29|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||109.29|48.08|
82567248|NCT03443063|164843903|OTHER||Percent (%) ratio of geometric mean|111.25|||||TWO_SIDED|90.0|91.69|134.99|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Lemborexant||134.99|91.69|
82567249|NCT03443063|164843903|OTHER||Percent (%) ratio of geometric means|80.28|||||TWO_SIDED|90.0|56.81|113.46|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||113.46|56.81|
82508670|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.122||0.014|TWO_SIDED|95.0|-0.54|-0.06||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.06|-0.54|0.0140
82567250|NCT03443063|164843903|OTHER||Percent (%) ratio of geometric means|86.71|||||TWO_SIDED|90.0|64.92|115.81|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||115.81|64.92|
82567251|NCT03443063|164843903|OTHER||Percent (%) ratio of geometric means|65.38|||||TWO_SIDED|90.0|41.08|104.04|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||104.04|41.08|
82567252|NCT03443063|164843904|OTHER||Percent (%) ratio of geometric means|114.69|||||TWO_SIDED|90.0|94.45|139.28|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||139.28|94.45|
82629725|NCT00814307|164974905|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.27||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in ACR20 had to be significant.|Linear mixed effect model|||p-value was calculated using linear mixed effect model. The fixed effects of treatment, visit, and treatment-by-visit interaction were included, along with participant as random effect.||-0.27|-0.50|<.0001
82629726|NCT00814307|164974905|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.2||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Linear mixed effect model|||p-value was calculated using linear mixed effect model. The fixed effects of treatment, visit, and treatment-by-visit interaction were included, along with participant as random effect.||-0.20|-0.43|<0.0001
82629727|NCT00814307|164974906|SUPERIORITY_OR_OTHER||Percent difference|5.24||||0.0728|TWO_SIDED|95.0|-0.49|10.96||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690550 to placebo.||10.96|-0.49|0.0728
82629728|NCT00814307|164974906|SUPERIORITY_OR_OTHER||Percent difference|1.31||||0.6193|TWO_SIDED|95.0|-3.85|6.46||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690550 to placebo.||6.46|-3.85|0.6193
82629729|NCT01256918|164974950|SUPERIORITY_OR_OTHER||incidence|0.0|||>|0.05|||||||incidence|||"Any occurence of posterior capsular rupture in attempted vertical chop would have been an indicator of overzealous penetration as the vertical chop even though effective would not have been safe.~We hypothesised that use of callibrated phacotip after careful preoperative assessment for performing vertical chop during phacoemulsification is not associated with any posterior capsular rupture we noted any incidence of posterior capsular rupture."||||>0.05
82629730|NCT01256918|164974951|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.850958|||<|0.05|||||||pearson correlation coefficient|||null hypothesis : there is no correlation between nuclear colour and phacodepth required for a full thickness crack during a vertical chop||||<0.05
82629731|NCT01256918|164974952|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.842617|||<|0.05|||||||pearson correlation coefficient|||"Null hypothesis:~there is no correlation between nuclear opalescence and phacodepth required to achieve full thickness nuclear crack using a callibrated phacotip."||||<0.05
82629732|NCT01256918|164974953|SUPERIORITY_OR_OTHER||pearson correlation coefficient|0.111166|||>|0.05|||||||pearson correlation coefficient|||null hypothesis there is no correlation between lens thickness and penetration of phacotip (phacodepth)required to achieve full thickness crack in vertical chop during phacoemulsification||||>0.05
82629733|NCT03073200|164974958|SUPERIORITY||Mean Difference (Final Values)|63.7|||<|0.001|TWO_SIDED|95.0|51.0|76.4|||Fisher Exact|||||76.4|51.0|<0.001
82629734|NCT03073200|164974959|SUPERIORITY||Mean Difference (Final Values)|70.2|||<|0.001|TWO_SIDED|95.0|59.3|81.0|||Fisher Exact|||||81|59.3|<0.001
82629735|NCT03073200|164974960|SUPERIORITY||Mean Difference (Final Values)|72.9|||<|0.001|TWO_SIDED|95.0|63.3|82.5|||Fisher Exact|||||82.5|63.3|<0.001
82629736|NCT03073200|164974961|SUPERIORITY||Mean Difference (Final Values)|50.4|||<|0.001|TWO_SIDED|95.0|40.6|60.2|||Fisher Exact|||||60.2|40.6|<0.001
82629737|NCT03073200|164974962|SUPERIORITY||Mean Difference (Final Values)|47.8|||<|0.001|TWO_SIDED|95.0|38.0|57.6|||Fisher Exact|||||57.6|38.0|<0.001
82629738|NCT03073200|164974963|SUPERIORITY||Mean Difference (Final Values)|45.0|||<|0.001|TWO_SIDED|95.0|33.2|56.8|||Fisher Exact|||||56.8|33.2|<0.001
82629739|NCT03073200|164974964|SUPERIORITY||Mean Difference (Final Values)|40.7|||<|0.001|TWO_SIDED|95.0|29.3|52.0|||Fisher Exact|||||52.0|29.3|<0.001
82629740|NCT03073200|164974965|SUPERIORITY||Mean Difference (Final Values)|51.1|||<|0.001|TWO_SIDED|95.0|35.3|66.9|||Fisher Exact|||||66.9|35.3|<0.001
82629741|NCT03073200|164974966|SUPERIORITY||Mean Difference (Final Values)|41.1|||<|0.001|TWO_SIDED|95.0|27.0|55.2|||Fisher Exact|||||55.2|27.0|<0.001
82629742|NCT03073200|164974967|SUPERIORITY||Mean Difference (Final Values)|-17.04|STANDARD_ERROR_OF_MEAN|5.747||0.005|TWO_SIDED|95.0|-28.7|-5.38|||Mixed Models Analysis|||||-5.38|-28.70|0.005
82629743|NCT03073200|164974968|SUPERIORITY||Mean Difference (Final Values)|-15.36|STANDARD_ERROR_OF_MEAN|1.682|<|0.001|TWO_SIDED|95.0|-18.69|-12.04|||Mixed Models Analysis|||||-12.04|-18.69|<0.001
82629744|NCT03073200|164974969|SUPERIORITY||Mean Difference (Final Values)|-12.01|STANDARD_DEVIATION|3.853||0.006|TWO_SIDED|95.0|-20.11|-3.9|||Mixed Models Analysis|||||-3.90|-20.11|0.006
82629745|NCT03073200|164974972|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.089|TWO_SIDED|95.0|0.1|41.7|||Fisher Exact|||||41.7|0.1|0.089
82629746|NCT03073200|164974973|SUPERIORITY||Mean Difference (Final Values)|23.0||||0.07|TWO_SIDED|95.0|0.6|45.4|||Fisher Exact|||||45.4|0.6|0.070
82629747|NCT00901394|164974974|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||For baseline comparisons among the three groups, one-way ANOVA was used for normally distributed variables and χ2 goodness-of-fit for categorical variables. To model the effects of B-vitamin treatment on nitrous-oxide-induced total homocysteine increase at the three different timepoints within individual patients and between the three groups, a linear mixed model with was used and we included a group × time interaction in the model.||||<0.05
82508671|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.122||0.0375|TWO_SIDED|95.0|-0.49|-0.01||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 9 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.01|-0.49|0.0375
82567253|NCT03443063|164843904|OTHER||Percent (%) ratio of geometric means|124.94|||||TWO_SIDED|90.0|100.27|155.67|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||155.67|100.27|
82629748|NCT03039192|164975007|SUPERIORITY||Difference of Least Square Means|-3.8|STANDARD_ERROR_OF_MEAN|1.39||0.006|TWO_SIDED|95.0|-6.56|-1.09|||ANCOVA|||||-1.09|-6.56|0.006
82629749|NCT01431521|164975060|SUPERIORITY_OR_OTHER||Least squares mean difference|-44.37|||<|0.001|TWO_SIDED|95.0|-54.67|-34.07|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-34.07|-54.67|<0.001
82629750|NCT01431521|164975060|SUPERIORITY_OR_OTHER||Least squares mean difference|-26.67|||<|0.001|TWO_SIDED|95.0|-36.97|-16.37|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-16.37|-36.97|<0.001
82629751|NCT01431521|164975060|SUPERIORITY_OR_OTHER||least squares mean difference|-17.69||||0.007|TWO_SIDED|95.0|-36.97|-7.39|||Linear mixed effects model|Treatment as fixed factor and predose Day 1 value, as a fixed covariate||||-7.39|-36.97|0.007
82629752|NCT01431521|164975061|SUPERIORITY_OR_OTHER||Least square mean difference|-6.35|||>|0.2|TWO_SIDED|95.0|-18.69|6.0|||Linear mixed effect model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||6.00|-18.69|>0.200
82629753|NCT01431521|164975061|SUPERIORITY_OR_OTHER||Least squares mean difference|-16.74||||0.028|TWO_SIDED|95.0|-29.08|-4.4|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||-4.40|-29.08|0.028
82629754|NCT01431521|164975062|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.47|||>|0.2|TWO_SIDED|95.0|-17.85|10.92|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||10.92|-17.85|>0.200
82629755|NCT01431521|164975062|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.67|||>|0.2|TWO_SIDED|95.0|-25.06|3.71|||Linear mixed effects model|Containing fixed effects for treatment, and predose Day 1 (baseline) as a fixed covariate||||3.71|-25.06|>0.200
82629756|NCT02000622|164975081|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0009|TWO_SIDED|95.0|0.43|0.8||A priori threshold for statistical significance (2-sided) is 0.05.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Study is sized to provide 90% power to detect a true treatment effect of PFS hazard ratio 0.653.||0.80|0.43|0.0009
82629757|NCT02000622|164975082|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0033|TWO_SIDED|95.0|0.4|0.83||PFS2 tested using a multiple testing procedure with a recycling strategy. With 157 PFS2 events, a priori threshold for statistical significance (2-sided) was 0.008.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||0.83|0.40|0.0033
82629758|NCT02000622|164975083|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5665|TWO_SIDED|95.0|0.63|1.29||OS tested using a multiple testing procedure with a recycling strategy. With 140 OS events, a priori threshold for statistical significance (2-sided) was 0.018.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.29|0.63|0.5665
82629759|NCT02000622|164975085|SUPERIORITY||Mean Difference (Final Values)|7.5||||0.0035|TWO_SIDED|95.0|2.5|12.4|||Mixed Models Analysis|Variables for treatment, visit, treatment-visit interaction, adjusted for baseline global health status/QoL score, baseline score-visit interaction.|Mean difference \>0 favours olaparib.|||12.4|2.5|0.0035
82629760|NCT02000622|164975086|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0005|TWO_SIDED|95.0|0.41|0.78|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||0.78|0.41|0.0005
82629761|NCT02000622|164975087|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.24|0.47|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS.||0.47|0.24|<0.0001
82629762|NCT02000622|164975088|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.38|0.74|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS2.||0.74|0.38|0.0002
82629763|NCT02000622|164975089|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5131|TWO_SIDED|95.0|0.66|1.23||OS tested using a multiple testing procedure with a recycling strategy. With 192 OS events, a priori threshold for statistical significance was 0.045.|Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.23|0.66|0.5131
82629764|NCT02000622|164975090|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.4167|TWO_SIDED|95.0|0.67|1.18|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|||1.18|0.67|0.4167
82629765|NCT02000622|164975091|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.27|0.5|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS.||0.50|0.27|<0.0001
82629766|NCT02000622|164975092|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.72|||Log Rank|Stratified by received prior chemotherapy for metastatic breast cancer (yes/no) and receptor status.|Hazard ratio \<1 favours olaparib.|Supportive analysis to PFS2.||0.72|0.40|<0.0001
82629767|NCT01405027|164975093|SUPERIORITY_OR_OTHER|||||||0.4864|TWO_SIDED||||||ANOVA|||||||0.4864
82629768|NCT05085327|164975098|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Original: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
82639707|NCT03655951|164994317|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.87|||||||Regression, Linear|||||||.87
82508672|NCT01332149|164708805|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.105||0.0164|TWO_SIDED|95.0|-0.46|-0.05||All analyses were two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis||Overall change was estimated from the mixed effect model treatment main effect.|Overall change from baseline analysis. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.46|0.0164
82508673|NCT01332149|164708807|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.143||0.134|TWO_SIDED|95.0|-0.49|0.07||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.07|-0.49|0.1340
82629769|NCT05085327|164975098|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Mint: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
82629770|NCT05085327|164975098|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|CLM Black Cherry: Labeled SPF|13.0|||||TWO_SIDED|||||||||||||
82629771|NCT05241470|164975101|SUPERIORITY||Mean Difference (Net)|0.01||||0.9575|TWO_SIDED||||||ANCOVA|||||||0.9575
82629772|NCT05241470|164975101|SUPERIORITY||Mean Difference (Net)|0.01||||0.9741|TWO_SIDED||||||ANCOVA|||||||0.9741
82629773|NCT05241470|164975102|SUPERIORITY|||||||0.5696|||||||ANCOVA|||||||0.5696
82629774|NCT05241470|164975103|SUPERIORITY|||||||0.0266|||||||Fisher Exact|||||||0.0266
82629775|NCT05241470|164975104|SUPERIORITY|||||||0.0055|||||||ANCOVA|||||||0.0055
82629776|NCT05241470|164975105|SUPERIORITY|||||||0.0097|||||||ANCOVA|||||||0.0097
82629777|NCT05241470|164975106|SUPERIORITY|||||||0.0137|||||||ANCOVA|||||||0.0137
82629778|NCT05241470|164975107|SUPERIORITY|||||||0.0332|||||||ANCOVA|||||||0.0332
82629779|NCT05241470|164975108|SUPERIORITY|||||||0.0394|||||||t-test, 2 sided|||||||0.0394
82629780|NCT05241470|164975109|SUPERIORITY|||||||0.0121|||||||Wilcoxon (Mann-Whitney)|||||||0.0121
82629781|NCT05241470|164975110|SUPERIORITY|||||||0.0224|||||||Wilcoxon (Mann-Whitney)|||||||0.0224
82629782|NCT04283773|164975113|SUPERIORITY||Median Difference (Final Values)|0.001|STANDARD_DEVIATION|1.5||0.001|TWO_SIDED|95.0|0.0|8.0||The test of significance is Kruskal Wallis was used to examine the Difference in Median between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons . A p-value \< 0.05 was considered significant.|Kruskal-Wallis|||Assessment of statistical differences in P16 expression between 3 groups. The immunohistochemical evaluation is done using German- semiquantitative scoring system. The score ranges from ( 0, 1,2,3,4,6,8,9 and 12). The data will entered on SPSS,version 24 as numbers. The test of significance is Kruskal Wallis was used to examine the Difference in Median between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons . A p-value \< 0.05 was considered significant.||8|0|0.001
82629783|NCT04283773|164975114|SUPERIORITY||Hazard Ratio, log|0.009||||0.009|TWO_SIDED|95.0|0.0|8.0||Data were analysed using IBM-SPSS version 24. Correlation analysis was used (Spearman' Ranked correlation, 2-tailed). A p-value \< 0.05 was considered significant.|Spearman's rank correlation coefficient(|||Correlation between Ki 67 expression using percentage of Ki67 positive nuclei and P16 cytoplasmic expression using German semi quantitative score among MOGCT group. Data were analysed using IBM-SPSS version 24. Correlation analysis was used (Spearman' Ranked correlation, 2-tailed). A p-value \< 0.05 was considered significant.||8|0|0.009
82639708|NCT03655951|164994318|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.8|||||||Regression, Linear|||||||.8
82639709|NCT03655951|164994319|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.32|||||||Regression, Linear|||||||.32
82639710|NCT03655951|164994320|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
82639711|NCT03655951|164994321|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.05|||||||Regression, Linear|||||||.05
82639712|NCT03655951|164994322|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.04|||||||Regression, Linear|||||||.04
82639713|NCT03655951|164994323|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.42|||||||Regression, Linear|||||||.42
82639714|NCT03655951|164994324|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
82639715|NCT03655951|164994325|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.0003|||||||Regression, Linear|||||||.0003
82639716|NCT03655951|164994326|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.97|||||||Regression, Linear|||||||.97
82639717|NCT03655951|164994327|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.08|||||||Regression, Linear|||||||.08
82508674|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.127||0.3438|TWO_SIDED|95.0|-0.37|0.13||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.13|-0.37|0.3438
82508675|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.128||0.2482|TWO_SIDED|95.0|-0.4|0.1||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.10|-0.40|0.2482
82508676|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.129||0.2249|TWO_SIDED|95.0|-0.41|0.1||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.10|-0.41|0.2249
82508677|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.129||0.1094|TWO_SIDED|95.0|-0.46|0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.05|-0.46|0.1094
82508678|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.129||0.2095|TWO_SIDED|95.0|-0.41|0.09||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.09|-0.41|0.2095
82508679|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.129||0.0531|TWO_SIDED|95.0|-0.5|0.0||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.00|-0.50|0.0531
82508680|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1628|TWO_SIDED|95.0|-0.44|0.07||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.07|-0.44|0.1628
82508681|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.077|TWO_SIDED|95.0|-0.48|0.02||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.02|-0.48|0.0770
82508682|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1651|TWO_SIDED|95.0|-0.43|0.07||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 9 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.07|-0.43|0.1651
82508683|NCT01332149|164708808|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.1006|TWO_SIDED|95.0|-0.4|0.04||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Overall change from baseline analysis. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||0.04|-0.40|0.1006
82508684|NCT01332149|164708809|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.1309|TWO_SIDED|95.0|0.93|1.74||Analysis was two-sided and performed at the 0.05 significance level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for center.||||1.74|0.93|0.1309
82567254|NCT03443063|164843904|OTHER||Percent (%) ratio of geometric means|92.05|||||TWO_SIDED|90.0|66.87|126.71|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||126.71|66.87|
82567255|NCT03443063|164843905|OTHER||Percent (%) ratio of geometric means|136.28|||||TWO_SIDED|90.0|105.62|175.85|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||175.85|105.62|
82567256|NCT03443063|164843905|OTHER||Percent (%) ratio of geometric means|154.29|||||TWO_SIDED|90.0|117.53|202.57|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||202.57|117.53|
82567257|NCT03443063|164843905|OTHER||Percent (%) ratio of geometric means|118.54|||||TWO_SIDED|90.0|87.84|159.97|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||159.97|87.84|
82567258|NCT03443063|164843906|OTHER||Percent (%) ratio of geometric means|138.62|||||TWO_SIDED|90.0|109.1|176.14|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||176.14|109.10|
82508685|NCT01332149|164708812|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.25|STANDARD_ERROR_OF_MEAN|1.628||0.0463|TWO_SIDED|95.0|-6.45|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||-0.05|-6.45|0.0463
82639718|NCT03655951|164994328|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.7|||||||Regression, Linear|||||||.70
82639719|NCT03655951|164994329|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
82639720|NCT03655951|164994330|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.29|||||||Regression, Linear|||||||.29
82639721|NCT03655951|164994331|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.36|||||||Regression, Linear|||||||.36
82639722|NCT03655951|164994332|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.61|||||||Regression, Linear|||||||.61
82639723|NCT03655951|164994333|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.72|||||||Regression, Linear|||||||.72
82639724|NCT03655951|164994334|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.05|||||||Regression, Linear|||||||.05
82639725|NCT03655951|164994335|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
82639726|NCT03655951|164994336|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
82639727|NCT03655951|164994337|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
82639728|NCT03655951|164994338|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.27|||||||Regression, Linear|||||||.27
82639729|NCT03655951|164994339|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.83|||||||Regression, Linear|||||||.83
82639730|NCT03655951|164994340|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.0001|||||||Regression, Linear|||||||.0001
82639731|NCT03655951|164994341|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.20
82639732|NCT03655951|164994342|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
82639733|NCT03655951|164994343|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.62|||||||Regression, Linear|||||||.62
82639734|NCT03655951|164994344|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.29|||||||Regression, Linear|||||||.29
82639735|NCT03655951|164994345|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.14|||||||Regression, Linear|||||||.14
82639736|NCT03655951|164994346|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.008|||||||Regression, Linear|||||||.008
82639737|NCT03655951|164994347|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
82639738|NCT03655951|164994348|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.03|||||||Regression, Linear|||||||.03
82639739|NCT03655951|164994349|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing post-intervention scores onto baseline scores and the treatment variables.||||||0.69|||||||Regression, Linear|||||||.69
82639740|NCT03655951|164994350|EQUIVALENCE|Binary outcomes were assessed with logistic regression.||||||0.4|||||||Regression, Logistic|||||||.4
82639741|NCT03655951|164994351|EQUIVALENCE|Binary outcomes were assessed with logistic regression.||||||0.02|||||||Regression, Logistic|||||||.02
82508686|NCT01332149|164708813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.061||0.2748|TWO_SIDED|95.0|-0.19|0.05||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.05|-0.19|0.2748
82508687|NCT01332149|164708815|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|1.577||0.4758|TWO_SIDED|95.0|-4.22|1.97||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||1.97|-4.22|0.4758
82508688|NCT01332149|164708816|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.31|STANDARD_ERROR_OF_MEAN|2.22||0.1363|TWO_SIDED|95.0|-1.05|7.67||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||7.67|-1.05|0.1363
82508689|NCT01332149|164708817|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|1.371||0.8808|TWO_SIDED|95.0|-2.49|2.9||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||2.90|-2.49|0.8808
82508690|NCT01332149|164708818|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.11||0.0887|TWO_SIDED|95.0|-0.03|0.4||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.40|-0.03|0.0887
82508691|NCT01332149|164708819|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.7929|TWO_SIDED|95.0|0.72|1.53||Analysis was two-sided and performed at the 0.05 significance level.|Regression, Logistic|||Analysis performed using a logistic regression model with treatment and center as factors, and baseline value as a covariate.||1.53|0.72|0.7929
82508692|NCT01332149|164708820|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.973||0.596|TWO_SIDED|95.0|-2.83|4.92||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||4.92|-2.83|0.5960
82567259|NCT03443063|164843906|OTHER||Percent (%) ratio of geometric means|147.03|||||TWO_SIDED|90.0|109.06|198.22|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||198.22|109.06|
82508693|NCT01332149|164708821|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|1.536||0.8216|TWO_SIDED|95.0|-3.36|2.67||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||2.67|-3.36|0.8216
82508694|NCT01332149|164708822|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.177||0.4829|TWO_SIDED|95.0|-3.14|1.49||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||1.49|-3.14|0.4829
82508695|NCT01332149|164708823|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.073||0.0431|TWO_SIDED|95.0|-0.29|0.0||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis performed using a general linear model with treatment and center as factors.||-0.00|-0.29|0.0431
82508696|NCT01332149|164708824|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.074||0.0602|TWO_SIDED|95.0|-0.28|0.01||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis performed using a general linear model with treatment and center as factors.||0.01|-0.28|0.0602
82508697|NCT01332149|164708826|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.207||0.4172|TWO_SIDED|95.0|-0.57|0.24||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.24|-0.57|0.4172
82508698|NCT01332149|164708827|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3724|TWO_SIDED|95.0|-0.62|0.23||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|The ANCOVA model included treatment and study center as factors and the corresponding baseline score as a covariate in the model.||||0.23|-0.62|0.3724
82508699|NCT01696435|164708828|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.62|TWO_SIDED|95.0|0.87|1.09||P-value was not adjusted for multiple comparisons. A priori, two-sided tests with an alpha level of 0.025 were used to account for the 2 co-primary outcomes (depression event and mood scores).|Regression, Cox||Active treatment vs. Placebo comparison|||1.09|.87|0.62
82508700|NCT01696435|164708828|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.03|TWO_SIDED|95.0|1.01|1.26||P-value was not adjusted for multiple comparisons. A priori, two-sided tests with an alpha level of 0.025 were used to account for the 2 co-primary outcomes (depression event and mood scores).|Regression, Cox||Active treatment vs. Placebo comparison|||1.26|1.01|0.03
82508701|NCT01696435|164708829|SUPERIORITY||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-0.04|0.05|||Mixed Models Analysis|||Test of whether the mean difference in change comparing the treatment groups is different than zero. See full SAP for all details.||0.05|-0.04|
82508702|NCT01696435|164708829|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|||Test of whether the mean difference in change comparing the treatment groups is different than zero. See full SAP for all details.||0.07|-0.01|
82508703|NCT01696435|164708830|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.88|TWO_SIDED|95.0|0.87|1.13||P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.|Regression, Cox||Active treatment vs. Placebo comparison|||1.13|0.87|0.88
82508704|NCT01696435|164708830|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.02|TWO_SIDED|95.0|1.03|1.33||P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.|Regression, Cox||Active treatment vs. Placebo comparison|||1.33|1.03|0.02
82508705|NCT01696435|164708831|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.67|TWO_SIDED|95.0|0.76|1.19|||Regression, Cox||Active treatment vs. Placebo comparison|P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.||1.19|0.76|0.67
82508706|NCT01696435|164708831|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.88|TWO_SIDED|95.0|0.82|1.27|||Regression, Cox||Active treatment vs. Placebo comparison|P-value not adjusted for multiple comparisons. This outcome was not a pre-specified primary outcome and results are to be interpreted with caution.||1.27|0.82|0.88
82508707|NCT01852292|164708844|OTHER|Double Criteria for PFS|Cox Proportional Hazard|0.646|||||TWO_SIDED|95.0|0.44|0.94||||||||0.94|0.44|
82508708|NCT01852292|164708845|OTHER|Double criteria for OS|Cox Proportional Hazard|0.72|||||TWO_SIDED|95.0|0.49|1.04||||||||1.04|0.49|
82508709|NCT04013191|164708860|OTHER||Point Estimate|0.928|||||TWO_SIDED|90.0|0.725|1.19|||ANOVA|||The analysis of variance (ANOVA) model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.19|0.725|
82508710|NCT04013191|164708861|OTHER||Point Estimate|1.22|||||TWO_SIDED|90.0|0.894|1.67|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.67|0.894|
82508711|NCT04013191|164708862|OTHER||Point Estimate|1.22|||||TWO_SIDED|90.0|0.893|1.68|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.68|0.893|
82508712|NCT04013191|164708863|OTHER||Point Estimate|1.02|||||TWO_SIDED|90.0|0.829|1.26|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.26|0.829|
82508713|NCT04013191|164708864|OTHER||Point Estimate|1.18|||||TWO_SIDED|90.0|0.908|1.53|||ANOVA|||The ANOVA model included the fixed effects of age group. The natural logs were taken of the dependent variables and back-transformed after the analysis.||1.53|0.908|
82508714|NCT03711162|164708874|SUPERIORITY||Least square (LS) mean difference|22.7|STANDARD_ERROR_OF_MEAN|38.12||0.5525|TWO_SIDED|95.0|-52.3|97.6||P-value: based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from the mixed model.||||97.6|-52.3|0.5525
82508715|NCT03711162|164708874|SUPERIORITY||LS mean difference|-26.7|STANDARD_ERROR_OF_MEAN|37.53||0.4776|TWO_SIDED|95.0|-100.5|47.1||P-value: based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||47.1|-100.5|0.4776
82508716|NCT03711162|164708875|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9648|TWO_SIDED|95.0|0.56|1.74|||Regression, Logistic|||||1.74|0.56|0.9648
82508717|NCT03711162|164708875|SUPERIORITY||Odds Ratio (OR)|1.05||||0.853|TWO_SIDED|95.0|0.6|1.84|||Regression, Logistic|||||1.84|0.60|0.8530
82508718|NCT03711162|164708876|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.5|2.05|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards for time to respiratory-related hospitalization.|||2.05|0.50|
82508719|NCT03711162|164708876|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.47|1.88|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards for time to respiratory-related hospitalization.|||1.88|0.47|
82508720|NCT03711162|164708877|SUPERIORITY||LS mean difference|-0.5||||0.785|TWO_SIDED|95.0|-4.4|3.3|||Mixed Models Analysis||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|||3.3|-4.4|0.7850
82508721|NCT03711162|164708877|SUPERIORITY||LS mean difference|0.3||||0.8617|TWO_SIDED|95.0|-3.4|4.1|||Mixed Models Analysis||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|||4.1|-3.4|0.8617
82508722|NCT03711162|164708878|SUPERIORITY||LS Mean difference|19.4|STANDARD_ERROR_OF_MEAN|33.68|||TWO_SIDED|95.0|-46.9|85.7|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||85.7|-46.9|
82508723|NCT03711162|164708878|SUPERIORITY||LS Mean difference|-29.1|STANDARD_ERROR_OF_MEAN|32.95|||TWO_SIDED|95.0|-93.9|35.8|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||35.8|-93.9|
82508724|NCT03711162|164708879|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.68|1.95|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.95|0.68|
82508725|NCT03711162|164708879|SUPERIORITY||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.74|2.09|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||2.09|0.74|
82567260|NCT03443063|164843906|OTHER||Percent (%) ratio of geometric means|136.42|||||TWO_SIDED|90.0|98.19|189.54|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||189.54|98.19|
82567261|NCT03443063|164843907|OTHER||Percent (%) ratio of geometric means|141.07|||||TWO_SIDED|90.0|103.79|191.73|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Lemborexant||191.73|103.79|
82567262|NCT03443063|164843907|OTHER||Percent (%) ratio of geometric means|124.48|||||TWO_SIDED|90.0|100.58|154.06|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M4||154.06|100.58|
82567263|NCT03443063|164843907|OTHER||Percent (%) ratio of geometric means|143.31|||||TWO_SIDED|90.0|107.72|190.65|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M9||190.65|107.72|
82567264|NCT03443063|164843907|OTHER||Percent (%) ratio of geometric means|140.2|||||TWO_SIDED|90.0|98.11|200.35|||||"Percent ratio was calculated by dividing the geometric mean of reporting arm Lemborexant: Severe Renal Impairment by geometric mean of reporting arm Lemborexant: Normal Renal Function, then multiplying the value by 100."|Metabolite M10||200.35|98.11|
82567265|NCT00552513|164843920|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.15|TWO_SIDED|95.0|0.68|1.06|||Regression, Logistic|||||1.06|0.68|0.15
82639742|NCT03655951|164994352|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.27|||||||Regression, Linear|||||||.27
82567266|NCT00552513|164843921|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.003|TWO_SIDED|95.0|0.58|0.89|||Regression, Logistic|||||0.89|0.58|0.003
82567267|NCT00552513|164843922|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.04|TWO_SIDED|95.0|0.71|0.99|||Regression, Logistic|||||0.99|0.71|0.04
82567268|NCT02097849|164843937|SUPERIORITY_OR_OTHER||Difference in proportion|-0.04||||0.692|TWO_SIDED|95.0|-0.27|0.19|||Clopper-Pearson Exact|||||0.19|-0.27|0.692
82567269|NCT02097849|164843938|SUPERIORITY_OR_OTHER||Difference in proportion|-0.19||||0.12|TWO_SIDED|95.0|-0.41|0.05|||Clopper-Pearson Exact|||Responders at Day 28||0.05|-0.41|0.120
82567270|NCT02097849|164843939|SUPERIORITY_OR_OTHER||Difference in proportions|-0.13||||0.225|TWO_SIDED|95.0|-0.35|0.1|||Clopper-Pearson Exact|||||0.10|-0.35|0.225
82567271|NCT02097849|164843940|SUPERIORITY_OR_OTHER||Difference in proportions|-0.22||||0.057|TWO_SIDED|95.0|-0.44|0.01|||Clopper-Pearson Exact|||||0.01|-0.44|0.057
82378432|NCT01330303|164465375|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|101.91||||||90.0|95.0|109.33|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||109.33|95.00|
82508726|NCT03711162|164708880|SUPERIORITY||LS mean difference|3.7|||||TWO_SIDED|95.0|-11.5|19.0|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||19.0|-11.5|
82508727|NCT03711162|164708880|SUPERIORITY||LS mean difference|2.9|||||TWO_SIDED|95.0|-11.1|16.8|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||16.8|-11.1|
82508728|NCT03711162|164708881|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.65|1.78|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||1.78|0.65|
82508729|NCT03711162|164708881|SUPERIORITY||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.76|1.98|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||1.98|0.76|
82508730|NCT03711162|164708884|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.44|3.81|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||3.81|0.44|
82567272|NCT02097849|164843941|SUPERIORITY_OR_OTHER||Difference in proportions|0.07||||0.3|TWO_SIDED|95.0|-0.16|0.3|||Clopper-Pearson Exact|||||0.30|-0.16|0.300
82567273|NCT02097849|164843942|SUPERIORITY_OR_OTHER||Difference in proportions|-0.03||||0.714|TWO_SIDED|95.0|-0.26|0.2|||Clopper-Pearson Exact|||||0.20|-0.26|0.714
82567274|NCT02097849|164843943|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||0.967|TWO_SIDED|95.0|-0.24|0.23|||Clopper-Pearson Exact|||||0.23|-0.24|0.967
82567275|NCT02097849|164843944|SUPERIORITY_OR_OTHER||Difference in proportions|-0.01||||0.955|TWO_SIDED|95.0|-0.24|0.22|||Clopper-Pearson Exact|||||0.22|-0.24|0.955
82567276|NCT01540162|164843953|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.23||||0.05|TWO_SIDED|95.0|0.05|0.73|||Chi-squared|||||0.73|0.05|0.05
82567277|NCT05012280|164843975|SUPERIORITY||Odds Ratio (OR)|1.221||||0.115|TWO_SIDED|95.0|0.953|1.564||only one primary endpoint, p value not adjusted for multiple comparisons. A priori treshold or statistical significance: p=0.05|Regression, Logistic|conditional logistic regression for matched case control||||1.564|0.953|0.1150
82508731|NCT03711162|164708884|SUPERIORITY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.42|3.5|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||3.50|0.42|
82508732|NCT03711162|164708885|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.66|4.08|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.08|0.66|
82508733|NCT03711162|164708885|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.36|2.61|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||2.61|0.36|
82508734|NCT03711162|164708886|SUPERIORITY||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.66|4.08|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.08|0.66|
82508735|NCT03711162|164708886|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.36|2.61|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||2.61|0.36|
82629784|NCT04283773|164975115|SUPERIORITY|One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD). P value is significant if less than 0.05.|Mean Difference (Final Values)|11.0|STANDARD_DEVIATION|1.5||0.699|TWO_SIDED|80.0|9.5|13.0||One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD). P value is significant if less than 0.05.|ANOVA|||Correlation between P16 cytoplasmic score using German semi-quantitative system and FIGO staging of MOGCTs was done via One-way ANOVA was used to examine the Difference in Mean between groups. Post-hoc test with Bonferroni Correction was used for Pairwise comparisons .Data was expressed as mean (SD).||13|9.5|0.699
82629785|NCT06048809|164975118|OTHER|||||||2.36e-05|||||||ANCOM-BC2|||Haemophilus parainfluenzae: Change From Baseline at Week 6||||0.0000236
82629786|NCT06048809|164975118|OTHER|||||||0.0033243|||||||ANCOM-BC2|||Neisseria elongata: Change From Baseline at Week 6||||0.0033243
82629787|NCT06048809|164975118|OTHER|||||||0.00500088|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_898: Change From Baseline at Week 6||||0.00500088
82629788|NCT06048809|164975118|OTHER|||||||0.0066975|||||||ANCOM-BC2|||Parvimonas sp.\_HMT\_110: Change From Baseline at Week 6||||0.0066975
82629789|NCT06048809|164975118|OTHER|||||||0.00710228|||||||ANCOM-BC2|||Aggregatibacter aphrophilus: Change From Baseline at Week 6||||0.00710228
82629790|NCT06048809|164975118|OTHER|||||||0.00744022|||||||ANCOM-BC2|||Kingella oralis: Change From Baseline at Week 6||||0.00744022
82629791|NCT06048809|164975118|OTHER|||||||0.01434037|||||||ANCOM-BC2|||Haemophilus sp.\_HMT\_036: Change From Baseline at Week 6||||0.01434037
82629792|NCT06048809|164975118|OTHER|||||||0.01955327|||||||ANCOM-BC2|||Haemophilus haemolyticus: Change From Baseline at Week 6||||0.01955327
82629793|NCT06048809|164975118|OTHER|||||||0.01995277|||||||ANCOM-BC2|||Neisseria mucosa: Change From Baseline at Week 6||||0.01995277
82629794|NCT06048809|164975118|OTHER|||||||0.02082528|||||||ANCOM-BC2|||Parvimonas sp.\_HMT\_393\_nov\_97.053%: Change From Baseline at Week 6||||0.02082528
82629795|NCT06048809|164975118|OTHER|||||||0.02188156|||||||ANCOM-BC2|||Ottowia sp.\_HMT\_894: Change from Baseline at Week 6||||0.02188156
82629796|NCT06048809|164975118|OTHER|||||||0.02321733|||||||ANCOM-BC2|||Cryptobacterium curtum: Change From Baseline at Week 6||||0.02321733
82629797|NCT06048809|164975118|OTHER|||||||0.02397996|||||||ANCOM-BC2|||Lautropia mirabilis: Change from Baseline at Week 6||||0.02397996
82629798|NCT06048809|164975118|OTHER|||||||0.02509094|||||||ANCOM-BC2|||Haemophilus paraphrohaemolyticus: Change From Baseline at Week 6||||0.02509094
82629799|NCT06048809|164975118|OTHER|||||||0.02648847|||||||ANCOM-BC2|||Capnocytophaga sp.\_HMT\_332: Change From Baseline at Week 6||||0.02648847
82508736|NCT03711162|164708887|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.59|1.91|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||1.91|0.59|
82629800|NCT06048809|164975118|OTHER|||||||0.02828764|||||||ANCOM-BC2|||Neisseria flavescens: Change From Baseline at Week 6||||0.02828764
82629801|NCT06048809|164975118|OTHER|||||||0.03454372|||||||ANCOM-BC2|||Capnocytophaga gingivalis\_nov\_96.429%: Change From Baseline at Week 6||||0.03454372
82629802|NCT06048809|164975118|OTHER|||||||0.03747507|||||||ANCOM-BC2|||Capnocytophaga sputigena: Change From Baseline at Week 6||||0.03747507
82629803|NCT06048809|164975118|OTHER|||||||0.03776136|||||||ANCOM-BC2|||Haemophilus sputorum: Change From Baseline at Week 6||||0.03776136
82629804|NCT06048809|164975118|OTHER|||||||0.03853215|||||||ANCOM-BC2|||Capnocytophaga gingivalis\_nov\_90.546%: Change From Baseline at Week 6||||0.03853215
82629805|NCT06048809|164975118|OTHER|||||||0.04751303|||||||ANCOM-BC2|||Prevotella denticola: Change From Baseline at Week 6||||0.04751303
82629806|NCT06048809|164975118|OTHER|||||||0.05190512|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_513: Change From Baseline at Week 6||||0.05190512
82629807|NCT06048809|164975118|OTHER|||||||0.0550647|||||||ANCOM-BC2|||Veillonella sp.\_HMT\_780: Change From Baseline at Week 6||||0.0550647
82629808|NCT06048809|164975118|OTHER|||||||0.05861488|||||||ANCOM-BC2|||Neisseria perflava: Change From Baseline at Week 6||||0.05861488
82629809|NCT06048809|164975118|OTHER|||||||0.06727926|||||||ANCOM-BC2|||Slackia exigua: Change From Baseline at Week 6||||0.06727926
82629810|NCT06048809|164975118|OTHER|||||||0.07051698|||||||ANCOM-BC2|||Shuttleworthia satelles: Change from Baseline at Week 6||||0.07051698
82629811|NCT06048809|164975118|OTHER|||||||0.0740793|||||||ANCOM-BC2|||Aggregatibacter sp.\_HMT\_458: Change From Baseline at Week 6||||0.0740793
82629812|NCT06048809|164975118|OTHER|||||||0.07426973|||||||ANCOM-BC2|||Ruminococcaceae\_\[G-1\] bacterium\_HMT\_075: Change From Baseline at Week 6||||0.07426973
82629813|NCT06048809|164975118|OTHER|||||||0.07829888|||||||ANCOM-BC2|||Campylobacter showae: Change From Baseline at Week 6||||0.07829888
82629814|NCT06048809|164975118|OTHER|||||||0.08462924|||||||ANCOM-BC2|||Streptococcus sp.\_HMT\_056: Change From Baseline at Week 6||||0.08462924
82629815|NCT06048809|164975119|OTHER|||||||0.062378|||||||ANCOM-BC2|||Abiotrophia defectiva: Change from Baseline at Week 6||||0.062378
82629816|NCT06048809|164975119|OTHER|||||||0.063437|||||||ANCOM-BC2|||Saccharibacteria\_(TM7)\_\[G1\] bacterium\_HMT\_346: Change from Baseline at Week 6||||0.063437
82629817|NCT06048809|164975119|OTHER|||||||0.069908|||||||ANCOM-BC2|||Olsenella sp.\_HMT\_807: Change from Baseline at Week 6||||0.069908
82629818|NCT06048809|164975119|OTHER|||||||0.079736|||||||ANCOM-BC2|||Fusobacterium nucleatum\_nucleatum\_subsp.\_animalis: Change from Baseline at Week 6||||0.079736
82629819|NCT06048809|164975119|OTHER|||||||0.094642|||||||ANCOM-BC2|||Bergeyella sp.\_HMT\_322: Change from Baseline at Week 6||||0.094642
82567278|NCT05012280|164843975|SUPERIORITY||Odds Ratio (OR)|1.221||||0.12|TWO_SIDED|95.0|0.953|1.564|||Regression, Logistic|conditional logistic regression for matched case control study.||||1.564|0.953|0.12
82629820|NCT06048809|164975119|OTHER|||||||0.095848|||||||ANCOM-BC2|||Peptostreptococcaceae\_\[XI\]\[G-1\] \[Eubacterium\]\_infirmum: Change from Baseline at Week 6||||0.095848
82629821|NCT06048809|164975119|OTHER|||||||0.107931|||||||ANCOM-BC2|||Prevotella sp.\_HMT\_317: Change from Baseline at Week 6||||0.107931
82629822|NCT06048809|164975119|OTHER|||||||0.109114|||||||ANCOM-BC2|||Bacteroidales\_\[G-2\] bacterium\_HMT\_274: Change from Baseline at Week 6||||0.109114
82629823|NCT06048809|164975119|OTHER|||||||0.11083|||||||ANCOM-BC2|||Actinomyces sp.\_HMT\_175\_nov 97.951%: Change from Baseline at Week 6||||0.11083
82629824|NCT06048809|164975119|OTHER|||||||0.120377|||||||ANCOM-BC2|||Slackia exigua: Change from Baseline at Week 6||||0.120377
82629825|NCT06048809|164975119|OTHER|||||||0.123758|||||||ANCOM-BC2|||Granulicatella adiacens: Change from Baseline at Week 6||||0.123758
82629826|NCT06048809|164975119|OTHER|||||||0.123992|||||||ANCOM-BC2|||Prevotella oris: Change from Baseline at Week 6||||0.123992
82629827|NCT06048809|164975119|OTHER|||||||0.133385|||||||ANCOM-BC2|||Streptococcus sp.\_HMT\_064: Change from Baseline at Week 6||||0.133385
82629828|NCT06048809|164975119|OTHER|||||||0.144598|||||||ANCOM-BC2|||Schaalia odontolyticus: Change from Baseline at Week 6||||0.144598
82629829|NCT06048809|164975119|OTHER|||||||0.147278|||||||ANCOM-BC2|||Mogibacterium diversum: Change from Baseline at Week 6||||0.147278
82629830|NCT06048809|164975119|OTHER|||||||0.148674|||||||ANCOM-BC2|||Prevotella denticola: Change from Baseline at Week 6||||0.148674
82629831|NCT06048809|164975119|OTHER|||||||0.149722|||||||ANCOM-BC2|||Absconditabacteria\_(SR1)\_\[G-1\] bacterium\_HMT\_875: Change from Baseline at Week 6||||0.149722
82629832|NCT06048809|164975119|OTHER|||||||0.154465|||||||ANCOM-BC2|||Prevotella nigrescens: Change from Baseline at Week 6||||0.154465
82629833|NCT06048809|164975119|OTHER|||||||0.158139|||||||ANCOM-BC2|||Streptococcus chosunense: Change from Baseline at Week 6||||0.158139
82629834|NCT04960202|164975121|SUPERIORITY||Percentage difference|-6.137|STANDARD_ERROR_OF_MEAN|1.057|<|0.0001|TWO_SIDED|95.0|-8.208|-4.066|||Normal approximation|||The difference of the percentage in the 2 treatment groups and its 95% confidence interval, and p-value based on Normal approximation of the data are presented.||-4.066|-8.208|<0.0001
82629835|NCT04960202|164975124|SUPERIORITY||Percentage difference|-5.638|STANDARD_ERROR_OF_MEAN|0.852|<|0.0001|TWO_SIDED|95.0|-7.308|-3.967|||Normal approximation|||The difference of the percentage in the 2 treatment groups and its 95% confidence interval, and p-value based on Normal approximation of the data are presented.||-3.967|-7.308|<0.0001
82629836|NCT04960202|164975125|SUPERIORITY||Hazard Ratio (HR)|1.294||||0.0003|TWO_SIDED|95.0|1.136|1.476|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox proportional hazard (PH) model with treatment and geographic region effects as independent variables, and baseline SARS-CoV-2 serology status and baseline viral load (\<4 logarithm to base 10 \[log10\] copies/milliliter \[mL\], \>=4 log10 copies/mL) as covariates.||1.476|1.136|0.0003
82629837|NCT04960202|164975126|SUPERIORITY||Hazard Ratio (HR)|1.266|||<|0.0001|TWO_SIDED|95.0|1.134|1.412|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.412|1.134|<0.0001
82629838|NCT04960202|164975127|SUPERIORITY||Hazard Ratio (HR)|1.258|||<|0.0001|TWO_SIDED|95.0|1.131|1.4|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained alleviation is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.400|1.131|<0.0001
82629839|NCT04960202|164975128|SUPERIORITY||Odds Ratio (OR)|0.871||||0.3473|TWO_SIDED|95.0|0.652|1.162|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.162|0.652|0.3473
82629840|NCT04960202|164975129|SUPERIORITY||Odds Ratio (OR)|0.936||||0.5762|TWO_SIDED|95.0|0.74|1.182|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.182|0.740|0.5762
82629841|NCT04960202|164975130|SUPERIORITY||Odds Ratio (OR)|0.969||||0.7807|TWO_SIDED|95.0|0.773|1.213|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No),baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.213|0.773|0.7807
82629842|NCT04960202|164975131|SUPERIORITY||Hazard Ratio (HR)|1.219||||0.0053|TWO_SIDED|95.0|1.061|1.401|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.401|1.061|0.0053
82629843|NCT04960202|164975132|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.0022|TWO_SIDED|95.0|1.068|1.348|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.348|1.068|0.0022
82629844|NCT04960202|164975133|SUPERIORITY||Hazard Ratio (HR)|1.194||||0.0021|TWO_SIDED|95.0|1.066|1.337|||Cox Proportional Hazard Model|||Analysis of treatment effect on time to sustained resolution is based on Cox PH model with treatment and geographic region effects as independent variables, and symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL) as covariates.||1.337|1.066|0.0021
82508737|NCT03711162|164708887|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.43|1.46|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||1.46|0.43|
82508738|NCT03711162|164708888|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.59|1.91|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all-cause mortality or respiratory-related hospitalizations.|||1.91|0.59|
82508739|NCT03711162|164708888|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.43|1.46|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all-cause mortality or respiratory-related hospitalizations.|||1.46|0.43|
82508740|NCT03034954|164708909|OTHER|||||||0.3||||||Reported p-value represents Time (baseline to post-tDCS) x Condition (Active or Sham) interaction for all OLTT Accuracy Measures. If the multivariate statistic is not significant no univariate statistical analyses are completed.|Repeated Measures ANOVA|repeated measures (OLTT baseline and post-tDCS); between-subjects (active vs. sham)||We used a multivariate statistic to compare OLTT means (Free Recall Total Error, Free Recall Average Error, Cued Recall Total Error, Cued Recall Average Error, Recognition Total Correct) at baseline (Version B) to post HD-tDCS OLTT means (Version C), by groups (active vs. sham). The overall statistic represents the simultaneous comparison of baseline OLTT measures to post HD-tDCS OLTT measures.||||.300
82508741|NCT03034954|164708911|OTHER|||||||0.044||||||Statistic represents the interaction between Time (baseline to post-tDCS) by Condition (Active vs. Sham).|Repeated Measures ANOVA|||A Repeated Measures ANOVA was used to compare baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham). The multivariate analyses included OLTT Response Times (i.e., Free Recall Average Response Time, Cued Recall Average Response Time, Recognition Average Response Time)||||.044
82508742|NCT03034954|164708911|OTHER|||||||0.006|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Free Recall Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.006
82508743|NCT03034954|164708914|OTHER|||||||0.15|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Cued Recall Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.15
82567279|NCT02229396|164843976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.129||0.003|TWO_SIDED|95.0|-0.63|-0.13|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.13|-0.63|0.003
82567280|NCT02229396|164843976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.127|<|0.001|TWO_SIDED|95.0|-0.84|-0.34|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.34|-0.84|<0.001
82567281|NCT02229396|164843977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.406|<|0.001|TWO_SIDED|95.0|-2.79|-1.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-1.20|-2.79|<0.001
82567282|NCT02229396|164843977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.12|-0.55|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.55|-2.12|<0.001
82567283|NCT02229396|164843978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.08|STANDARD_ERROR_OF_MEAN|4.007|<|0.001|TWO_SIDED|95.0|-27.95|-12.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-12.20|-27.95|<0.001
82508744|NCT03034954|164708916|OTHER|||||||0.3|||||||Repeated Measures ANOVA|||Univariate analysis of the OLTT Recognition Average Time to Respond following significant multivariate repeated measures ANOVA comparing baseline OLTT (Version B) to post-tDCS OLTT (Version C) across the treatment groups (Active vs. Sham).||||.3
82508745|NCT03034954|164708921|OTHER|||||||0.45|||||||MANOVA|||A Multivariate ANOVA was used to compare Active vs. Sham groups on discriminability measures (i.e. 0-back d', 2-back d', semantic 2-back d') and calculated working memory measures (i.e., 2-back d' minus 0-back d', semantic 2-back d' minus 0-back d').||||.450
82567284|NCT02229396|164843978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.64|STANDARD_ERROR_OF_MEAN|3.947|<|0.001|TWO_SIDED|95.0|-24.39|-8.89|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-8.89|-24.39|<0.001
82567285|NCT02229396|164843979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.74|STANDARD_ERROR_OF_MEAN|5.168|<|0.001|TWO_SIDED|95.0|-37.89|-17.59|||ANCOVA|Treatment, region, and baseline HbA1c stratum (\<9.0% or ≥9.0%), as fixed factors; baseline value as covariate.||||-17.59|-37.89|<0.001
82508746|NCT03034954|164708922|OTHER|||||||0.078|||||||Chi-squared|||Chi-squared tests were conducted to determine group differences in actual condition assignment vs. estimated/perceived condition||||.078
82508747|NCT03034954|164708923|OTHER|||||||0.233|||||||Fisher Exact|||||||.233
82508748|NCT03034954|164708925|OTHER|||||||0.6|||||||Fisher Exact|||||||.600
82508749|NCT03034954|164708926|OTHER|||||||0.999|||||||Fisher Exact|||||||.999
82508750|NCT03034954|164708927|OTHER|||||||0.281|||||||Fisher Exact|||||||.281
82508751|NCT03034954|164708928|OTHER|||||||0.082|||||||Fisher Exact|||||||.082
82508752|NCT03034954|164708929|OTHER|||||||0.49|||||||Fisher Exact|||||||.490
82508753|NCT03034954|164708930|OTHER|||||||0.488|||||||Fisher Exact|||||||.488
82508754|NCT03034954|164708931|OTHER|||||||0.219|||||||Fisher Exact|||||||.219
82508755|NCT02431754|164708952|SUPERIORITY_OR_OTHER|||||||0.0937|||||||Normal approximation (Z-test)|||||||0.0937
82629845|NCT04960202|164975140|SUPERIORITY||Odds Ratio (OR)|1.088||||0.5293|TWO_SIDED|95.0|0.836|1.416|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.416|0.836|0.5293
82629846|NCT04960202|164975141|SUPERIORITY||Odds Ratio (OR)|1.053||||0.6379|TWO_SIDED|95.0|0.85|1.303|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.303|0.850|0.6379
82629847|NCT04960202|164975142|SUPERIORITY||Odds Ratio (OR)|1.046||||0.676|TWO_SIDED|95.0|0.848|1.29|||Regression, Logistic|||Odds ratio, 95% CI and p-value were computed from a logistic regression model including main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), COVID-19 mAb treatment (Yes/No), baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.290|0.848|0.6760
82629848|NCT04960202|164975143|SUPERIORITY||Odds Ratio (OR)|19.4||||0.1997||95.0|7.788|48.328|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||48.328|7.788|0.1997
82629849|NCT04960202|164975143|OTHER||Odds Ratio (OR)|8.948|||||TWO_SIDED|95.0|4.159|19.253|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: Placebo|||19.253|4.159|
82629850|NCT04960202|164975144|SUPERIORITY||Odds Ratio (OR)|20.875||||0.281|TWO_SIDED|95.0|10.097|43.156|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||43.156|10.097|0.2810
82629851|NCT04960202|164975144|SUPERIORITY||Odds Ratio (OR)|12.452|||||TWO_SIDED|95.0|6.823|22.725|||Breslow Day test||Odds ratio for Day 5 vs Day 1: Placebo|||22.725|6.823|
82629852|NCT04960202|164975145|SUPERIORITY||Odds Ratio (OR)|21.119||||0.2226|TWO_SIDED|95.0|10.412|42.837|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: PF-07321332 300 mg + Ritonavir 100 mg|||42.837|10.412|0.2226
82629853|NCT04960202|164975145|SUPERIORITY||Odds Ratio (OR)|12.036||||0.2342|TWO_SIDED|95.0|6.808|21.28|||Breslow-Day test||Odds ratio for Day 5 vs Day 1: Placebo|||21.280|6.808|0.2342
82629854|NCT03558828|164975160|OTHER|A power analysis based on the study's primary aim (impact of augmented treatments on non-responders) was conducted. An estimated effect size of d=0.41 for the difference between the two augmented treatments was used. With a 2-tailed alpha of 0.05, a pre-post correlation of r=0.60, and a sample size of 188 non-responders, an estimated 80% power was obtained. Assuming 67% non-response to the initial treatments and 10% attrition, the final target sample size was N=312.|Effect size estimates|0.41|||||TWO_SIDED|95.0||||All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|GEEs||Effect size estimates (Cohen's d) for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator.||"The longitudinal trajectories using generalized estimating equations (GEEs) were estimated. Cases for responders are duplicated and weighted based on the inverse probability of being assigned to a particular adaptive intervention (i.e., responders have a ½ probability of assignment to a specific adaptive intervention, and non-responders have a ¼ probability).~Only the Phase 1 (baseline to 8 weeks) treatment condition x time interaction was included because it preceded the randomization to Phase 2 (weeks 9-34) treatment conditions. Planned contrasts were used to test specific hypotheses. Effect size estimates for all analyses were created by using the relevant slope effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests."|||
82629855|NCT03558828|164975161|OTHER|A power analysis based on the study's primary aim (impact of augmented treatments on non-responders) was conducted. An estimated effect size of d=0.41 for the difference between the two augmented treatments was used. With a 2-tailed alpha of 0.05, a pre-post correlation of r=0.60, and a sample size of 188 non-responders, an estimated 80% power was obtained. Assuming 67% non-response to the initial treatments and 10% attrition, the final target sample size was N=312.|Effect size estimates|0.41|||||TWO_SIDED|95.0||||All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|GEEs||Effect size estimates for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. An estimated effect size of d=0.41 was used.||There were time slope terms for Phase 1 (baseline to 8-week assessment), Phase 2 (9-weeks to 34-week assessment), and Phase 3 (maintenance from 35-weeks to 50-week assessment). Also, there were interactions of condition and time slopes. For Phase 1, only the Phase 1 treatment condition x time interaction was included because it preceded the randomization to Phase 2 treatment conditions. Supplementary analyses were conducted to compare the trajectories of responders versus non-responders to the Phase 1 treatment. Effect size estimates for all analyses were created by using the relevant slope (i.e., change) effect as the numerator and the baseline standard deviation of the dependent variable as the denominator. The resulting effect size is equivalent to a Cohen's d, representing mean change (or difference in change) in standard deviation units. All analyses employed an intent-to-treat approach using a two-tailed alpha of 0.05 with no adjustment for multiple tests.|||
82639743|NCT03655951|164994353|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.31|||||||Regression, Linear|||||||.31
82508756|NCT02431754|164708953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.1485|TWO_SIDED|95.0|-1.69|0.26|||Mixed Models Analysis|||||0.26|-1.69|0.1485
82639744|NCT03655951|164994354|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.11|||||||Regression, Linear|||||||.11
82639745|NCT03655951|164994355|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.89|||||||Regression, Linear|||||||.89
82639746|NCT03655951|164994356|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.41|||||||Regression, Linear|||||||.41
82508757|NCT02904057|164708959|SUPERIORITY||Difference between proportion|92.1|||<|0.0001|TWO_SIDED|95.0|73.4|98.8|||Fisher Exact|||Imputed Data: Difference between proportion of treatment responders and control responders (P\[treatment\] - P\[control\] with confidence interval (CI) was calculated using an exact approach.||98.8|73.4|<0.0001
82508758|NCT02904057|164708959|SUPERIORITY||Difference between proportion|92.1|||<|0.0001|TWO_SIDED|95.0|73.4|98.8|||Fisher Exact|||Observed Data: Difference between proportion of treatment responders and control responders (P\[treatment\] - P\[control\] with CI was calculated using an exact approach.||98.8|73.4|<0.0001
82508759|NCT01275066|164708961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|9.35||0.0174||95.0||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category as covariates.||||||0.0174
82567286|NCT02229396|164843979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.78|STANDARD_ERROR_OF_MEAN|5.09|<|0.001|TWO_SIDED|95.0|-36.78|-16.78|||ANCOVA|Treatment, region, and baseline HbA1c stratum (\<9.0% or ≥9.0%), as fixed factors; baseline value as covariate.||||-16.78|-36.78|<0.001
82567287|NCT02229396|164843980|SUPERIORITY_OR_OTHER||Difference in percentages|19.7|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
82567288|NCT02229396|164843980|SUPERIORITY_OR_OTHER||Difference in percentages|13.3||||0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||0.001
82567289|NCT02229396|164843981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.26|STANDARD_ERROR_OF_MEAN|3.494|<|0.001|TWO_SIDED|95.0|-27.12|-13.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-13.40|-27.12|<0.001
82567290|NCT02229396|164843981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.03|STANDARD_ERROR_OF_MEAN|3.477|<|0.001|TWO_SIDED|95.0|-21.85|-8.2||This is a nominal p-value.|Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-8.20|-21.85|<0.001
82567291|NCT02229396|164843982|SUPERIORITY_OR_OTHER||Difference in percentages|17.9|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
82567292|NCT02229396|164843982|SUPERIORITY_OR_OTHER||Difference in percentages|25.6|||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%).||||||<0.001
82567293|NCT02229396|164843983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.08||0.005|TWO_SIDED|95.0|-5.2|-0.9|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.9|-5.2|0.005
82567294|NCT02229396|164843983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.06||0.022|TWO_SIDED|95.0|-4.5|-0.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c stratum (\<9.0% or ≥9.0%), week, and treatment by week interaction as fixed factors; baseline value as covariate.||||-0.4|-4.5|0.022
82567295|NCT03245762|164843993|SUPERIORITY||Odds Ratio (OR)|0.9||||0.93|TWO_SIDED||||||Ordinal Categorical Analysis|||||||0.930
82567296|NCT01812707|164844001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 75 mg Q2W versus placebo~3. Alirocumab 50 mg Q2W versus placebo~Testing continued only when high-order test was statistically significant at 5% level."||||<0.0001
82567297|NCT01812707|164844001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||||||<0.0001
82567298|NCT01812707|164844001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤0.05|ANCOVA|||||||<0.0001
82567299|NCT01066897|164844008|OTHER|||||||0.002|||||||Chi-squared|||||||.002
82567300|NCT01066897|164844009|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.368|STANDARD_DEVIATION|0.44||0.067|TWO_SIDED||||||t-test, 2 sided|One sample t-test to determine if the % change in HAMD was different from 0||For the 2 dropouts, used LOCF.||||.067
82567301|NCT00666835|164844054|EQUIVALENCE|Therapeutic equivalence was defined as the two-sided 95 % confidence interval of the difference between the two treatment groups lying entirely in the interval -0.5 to 0.5 g/dL. The confidence interval of the difference was calculated based on the least square means (LSMEANS) from an analysis of co-variance model including factors treatment, center, mean baseline Hb level (\<11.5 and T11.5 g/dL) as factors and change of the mean weekly dose as a covariate.|Point estimate of difference (ANCOVA)|0.084|||||TWO_SIDED|95.0|-0.17|0.338||||||||0.338|-0.170|
82567302|NCT00666835|164844055|EQUIVALENCE|Therapeutic equivalence was defined as the two-sided 95 % confidence interval of the difference between the two treatment groups lying entirely in the interval -0.5 to 0.5 g/dL. The confidence interval of the difference was calculated based on the least square means (LSMEANS) from an analysis of co-variance model including factors treatment, center, mean baseline Hb level (\<11.5 and T11.5 g/dL) as factors and change of the mean weekly dose as a covariate.|Difference LSM of Epo Hexal & Erypo|0.189|||||TWO_SIDED|95.0|-0.039|0.418||||||||0.418|-0.039|
82567303|NCT02253147|164844101|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA UD and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.34|-0.11|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 95.0% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Ultra Deep versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Ultra Deep compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline."||-0.11|-0.34|
82567304|NCT00396097|164844119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.033||0.5762|ONE_SIDED|97.5|-0.071||||ANCOVA|||The null hypothesis was that the individualized treatment arm was not superior to the standard treatment arm; alternative hypothesis that the individualized treatment arm was superior to the standard treatment arm with respect to the mean 24-month AOTD. Using a 2:1 randomization, a two sided sample t-test comparing the root AOTD between the 2 treatment arms with 80% power at a 5% level required 260 subjects. Assuming a 20% attrition rate, approximately 312 subjects were needed for this study.|||-0.071|0.5762
82567305|NCT00396097|164844120|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED||||||ANOVA (Levene's Test)|||||||0.627
82629856|NCT01250899|164975167|SUPERIORITY_OR_OTHER||Percentage of 12-wk 25(OH)D ≥30ng/mL|70.0|||<|0.05|TWO_SIDED|95.0|60.0|80.0|||Exact binomial||The primary endpoint (mean change in 25(OH)D following 12 weeks of vitamin D repletion in vitamin D insufficient subjects) was dichotomized to success or failure to achieve a week twelve 25(OH)D level ≥30ng/mL.|We predicted that HIV-infected subjects would have a 70% twelve-week repletion success rate compared to 85% among historical controls.Eighty subjects provided 91% power to detect a 12-week repletion rate statistically different than 85% (95% confidence interval (CI) 60%, 80%).||80|60|<0.05
82629857|NCT01804842|164975179|SUPERIORITY_OR_OTHER||% Ratio of LS Means|71.7||||0.0018|TWO_SIDED|90.0|61.14|84.01|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met DR qPM is the denominator for the % ratio of least squares (LS) means and the comparator for the p-values.||84.01|61.14|0.0018
82508760|NCT01275066|164708961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|9.29||0.9542||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category as covariates.||||||0.9542
82508761|NCT01275066|164708962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|1.66||0.4935||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline 3MSCT as covariates.||||||0.4935
82508762|NCT01275066|164708962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.66||0.7783||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline 3MSCT as covariates.||||||0.7783
82508763|NCT01275066|164708963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.7|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline uKS normalized for creatinine, as covariates.||||||<0.0001
82567306|NCT00396097|164844121|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.033||||0.8016|TWO_SIDED|95.0|0.802|1.33|||Regression, Cox|||||1.330|0.802|0.8016
82378433|NCT01330303|164465376|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|94.04||||||90.0|86.33|102.44|||||The ratios between the geometric means of the test (T) and reference (R) formulations were calculated.|||102.44|86.33|
82508764|NCT01275066|164708963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|4.19|<|0.0001||||||Hochberg multiplicity adjustment - results considered statistically significant if both of p-values are p\<0.05 or either of p-values is p\<0.025.|ANCOVA|ANCOVA of change from baseline with treatment, age group, baseline 6MWT category, and baseline uKS normalized for creatinine, as covariates.||||||<0.0001
82378434|NCT02687529|164465399|EQUIVALENCE|The number of positive and negative CST001 assay results for each subject, across all sites and operators were compared. In order for a subject to have a concordant result, the same assay call must be observed for all replicates across all sites (6/6).|proportion of concordant calls|83.33|||||TWO_SIDED|95.0|72.13|91.38||||||||91.38|72.13|
82508765|NCT00394212|164708965|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||P-value from non-parametric Mann-Whitney-Wilcoxon test comparing treatments.|Wilcoxon (Mann-Whitney)|||Based on a 2-group test of means for unequal variance and unequal sample size (2:1 randomization ratio) with alpha = 0.05 and a power of 80%, the sample size required was 132; 88 subjects in the Transoral Suturing arm and 44 in the Sham Endoscopy arm. The study was prematurely discontinued due to reasons unrelated to safety and effectiveness and therefore was underpowered for evaluation of the primary and secondary hypotheses.||||0.066
82508766|NCT00394212|164708966|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||P-value from two-sided Fisher's exact test comparing percents achieving 15% EWL at 6 months for the two treatments.|Fisher Exact|||||||0.317
82508767|NCT00394212|164708967|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value from two-sided Fisher's exact test comparing percents achieved for the two treatments.|Fisher Exact|||||||0.019
82508768|NCT00394212|164708968|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value from two-sided Fisher's exact test comparing percents achieved for the two treatments.|Fisher Exact|||||||0.174
82508769|NCT00116831|164708976|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for atheroma volume|-4.58||||||95.0||||||||||||
82508770|NCT00116831|164708977|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for lumen volume|0.32||||||95.0||||||||||||
82508771|NCT00116831|164708978|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for vessel volume|-3.56||||||95.0||||||||||||
82508772|NCT00116831|164708980|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for atheroma area|-0.13||||||95.0||||||||||||
82508773|NCT00116831|164708981|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for lumen area|0.02||||||95.0||||||||||||
82508774|NCT00116831|164708982|SUPERIORITY_OR_OTHER||Mean diff (RSG-GLP) for vessel area|-0.11||||||95.0||||||||||||
82508775|NCT00116831|164708985|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-0.64||||0.1221||95.0|-1.457|0.173|||ANCOVA|||||0.173|-1.457|0.1221
82508776|NCT00116831|164708986|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-5.12||||||95.0||||||||||||
82508777|NCT00116831|164708988|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-1.72||||||95.0||||||||||||
82508778|NCT00116831|164708990|SUPERIORITY_OR_OTHER||Model adjusted mean diff. (RSG-GLP)|-0.11||||||95.0||||||||||||
82508779|NCT00116831|164708991|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.1||||||95.0||||||||||||
82508780|NCT00116831|164708992|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.88||||||95.0||||||||||||
82508781|NCT00116831|164708993|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-47.23||||||95.0||||||||||||
82378435|NCT03048552|164465418|SUPERIORITY|||||||0.148|||||||Fisher Exact|||||||0.148
82378436|NCT03048552|164465419|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
82508782|NCT00116831|164708994|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-16.9||||||95.0||||||||||||
82508783|NCT00116831|164708996|SUPERIORITY_OR_OTHER||Ratio to GLP as % difference from GLP|30.591||||||95.0||||||||||||
82508784|NCT00116831|164708997|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|7.642||||||95.0||||||||||||
82508785|NCT00116831|164708998|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|7.316||||||95.0||||||||||||
82508786|NCT00116831|164708999|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|15.731||||||95.0||||||||||||
82508787|NCT00116831|164709000|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|3.998||||||95.0||||||||||||
82508788|NCT00116831|164709001|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|11.728||||||95.0||||||||||||
82508789|NCT00116831|164709002|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-6.768||||||95.0||||||||||||
82508790|NCT00116831|164709003|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-14.478||||||95.0||||||||||||
82508791|NCT00116831|164709004|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|-0.462||||||95.0||||||||||||
82508792|NCT00116831|164709005|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.0164||||||95.0||||||||||||
82508793|NCT00116831|164709006|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.118||||||95.0||||||||||||
82508794|NCT00116831|164709007|SUPERIORITY_OR_OTHER||Treatment difference (RSG-GLP)|0.14||||||95.0||||||||||||
82508795|NCT00110812|164709035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|134.0|||<|0.001|TWO_SIDED|95.0|70.0|198.0||Adjusted for 3 pairwise comparisons.|ANOVA|stratified by geographic region and adjusted for baseline CD4.||||198|70|<.001
82508796|NCT00110812|164709035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|133.0|||<|0.001|TWO_SIDED|95.0|68.0|199.0||Adjusted for 3 pairwise comparisons.|ANOVA|stratified by geographic region and adjusted for baseline CD4.||||199|68|<.001
82508797|NCT00110812|164709037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.31||||0.01|TWO_SIDED|95.0|0.08|0.54|||ANOVA|stratified by region and adjusted for baseline HIV-RNA.||||.54|.08|.01
82508798|NCT00110812|164709037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.36||||0.003|TWO_SIDED|95.0|0.12|0.6|||ANOVA|stratified by region and adjusted for baseline HIV-RNA.||||.60|.12|.003
82508799|NCT00110812|164709038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|65.8||||0.009||95.0|||||ANOVA|ANOVA with stratification by region and adjustment for baseline CD4||||||.009
82508800|NCT00110812|164709038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|58.2||||0.02||95.0|||||ANOVA|stratified by region and adjusted for baseline CD4||||||.02
82508801|NCT00110812|164709041|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.08||||0.14|TWO_SIDED|95.0|0.59|43.6|||Regression, Cox|Unadjusted, stratified by region.|Patients taking IL-2 alone compared to patients not taking IL-2.|||43.6|0.59|.14
82508802|NCT00110812|164709041|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.56||||0.08|TWO_SIDED|95.0|0.8|53.6|||Regression, Cox|Unadjusted, stratified by region.|Patients taking IL-2 plus pericycle HAART compared to patients not receiving IL-2|||53.6|0.80|.08
82508803|NCT00110812|164709042|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58||||0.048|TWO_SIDED|95.0|0.34|0.99|||Regression, Cox||IL-2 without ART vs control group|||.99|.34|.048
82508804|NCT00110812|164709042|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.17|0.62|||Regression, Cox||IL-2 with pericycle HAART compared to control|||.62|.17|<.001
82508805|NCT00110812|164709043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.34||||0.03|TWO_SIDED|95.0|0.03|0.64|||ANOVA|Stratified by region and adjusted for baseline HIV-RNA||||0.64|0.03|.03
82508806|NCT00110812|164709043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.54|||<|0.001|TWO_SIDED|95.0|0.24|0.85|||ANOVA|Stratified by region and adjusted for baseline HIV-RNA||||0.85|0.24|<.001
82508807|NCT00110812|164709046|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.45||||0.59|TWO_SIDED|95.0|0.38|5.45|||Regression, Cox|Stratification by region.|IL-2 group compared to control group|||5.45|0.38|.59
82508808|NCT00110812|164709047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-55.9|STANDARD_ERROR_OF_MEAN|28.4||0.05||95.0|||||ANOVA|Last measured CD4 is imputed if month 24 CD4 count is missing. Analysis is adjusted for baseline CD4.|IL-2 group minus control group CD4.|||||.05
82629858|NCT01804842|164975179|SUPERIORITY_OR_OTHER||% Ratio of LS Means|71.5||||0.002|TWO_SIDED|90.0|60.85|84.09|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||84.09|60.85|0.0020
82629859|NCT01804842|164975179|SUPERIORITY_OR_OTHER||% Ratio of LS Means|99.8||||0.9844|TWO_SIDED|90.0|84.91|117.33|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||117.33|84.91|0.9844
82629860|NCT01804842|164975180|SUPERIORITY_OR_OTHER||% Ratio of LS Means|83.8||||0.1595|TWO_SIDED|90.0|68.1|103.23|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met DR qPM is the denominator for the % ratio of LS means and the comparator for the p-values.||103.23|68.10|0.1595
82629861|NCT01804842|164975180|SUPERIORITY_OR_OTHER||% Ratio of LS Means|111.3||||0.3867|TWO_SIDED|90.0|90.37|136.99|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||136.99|90.37|0.3867
82629862|NCT01804842|164975180|SUPERIORITY_OR_OTHER||% Ratio of LS Means|132.7||||0.0294|TWO_SIDED|90.0|107.78|163.39|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||500 mg Met DR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||163.39|107.78|0.0294
82629863|NCT01804842|164975181|SUPERIORITY_OR_OTHER||% Ratio of LS Means|91.0||||0.0028|TWO_SIDED|95.0|85.7|96.67|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||96.67|85.70|0.0028
82629864|NCT01804842|164975181|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.9||||0.0024|TWO_SIDED|95.0|85.58|96.53|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||96.53|85.58|0.0024
82629865|NCT01804842|164975181|SUPERIORITY_OR_OTHER||% Ratio of LS Means|95.1||||0.0992|TWO_SIDED|95.0|89.54|100.99|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||100.99|89.54|0.0992
82629866|NCT01804842|164975182|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.4||||0.0006|TWO_SIDED|95.0|85.55|95.56|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||95.56|85.55|0.0006
82629867|NCT01804842|164975182|SUPERIORITY_OR_OTHER||% Ratio of LS Means|90.5||||0.0007|TWO_SIDED|95.0|85.65|95.67|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||95.67|85.65|0.0007
82508809|NCT00110812|164709049|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.03|TWO_SIDED|95.0|0.52|0.97|||Regression, Cox||IL-2 groups vs. control|||.97|.52|.03
82629868|NCT01804842|164975182|SUPERIORITY_OR_OTHER||% Ratio of LS Means|94.3||||0.0389|TWO_SIDED|95.0|89.24|99.69|||ANOVA|Treatment, sequence, period, status (on-/pre-treatment) and treatment\*status as fixed effects and subject nested within sequence as a random effect.||Pretreatment value is the denominator for the % ratio of LS means and the comparator for the p-values.||99.69|89.24|0.0389
82378437|NCT03048552|164465420|SUPERIORITY|||||||0.818|||||||Fisher Exact|||||||0.818
82508810|NCT00735371|164709052|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||ANCOVA|||||||0.0056
82508811|NCT00735371|164709052|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82508812|NCT00735371|164709052|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82508813|NCT00735371|164709053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0235||95.0|||||Cochran-Mantel-Haenszel|||||||0.0235
82508814|NCT00735371|164709053|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82508815|NCT00735371|164709053|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82508816|NCT01604343|164709055|SUPERIORITY_OR_OTHER||Percentage Difference|28.4|||<|0.001|TWO_SIDED|95.0|22.8|33.8|||Cochran-Mantel-Haenszel|||||33.8|22.8|< 0.001
82508817|NCT01604343|164709055|SUPERIORITY_OR_OTHER||Percentage Difference|27.1|||<|0.001|TWO_SIDED|95.0|21.6|32.6|||Cochran-Mantel-Haenszel|||||32.6|21.6|< 0.001
82629869|NCT03774875|164975183|SUPERIORITY||Adjusted Difference in Response Rates|31.9|STANDARD_ERROR_OF_MEAN|6.78|<|0.0001|TWO_SIDED|95.0|18.6|45.2|||Cochran-Mantel-Haenszel|The CMH (Cochran-Mantel-Haenszel) test adjusting for the stratification of the 5 difficult to treat manifestation types at randomization.|Adjusted difference (apremilast - placebo) in response rates calculated using the weighted average of the treatment differences across the strata with the CMH weights.|||45.2|18.6|<0.0001
82629870|NCT03774875|164975184|SUPERIORITY||Least Squares (LS) Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|0.95|<|0.0001|TWO_SIDED|95.0|-7.15|-3.43|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and baseline value as a covariate.|Difference in LS Means = Apremilast - Placebo|||-3.43|-7.15|<0.0001
82639747|NCT03655951|164994357|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.93|||||||Regression, Linear|||||||.93
82508818|NCT01604343|164709056|SUPERIORITY_OR_OTHER||||||<|0.001|||||||van der waerden ANOVA|||||||< 0.001
82508819|NCT01604343|164709056|SUPERIORITY_OR_OTHER||||||<|0.001|||||||van der waerden ANOVA|||||||< 0.001
82508820|NCT01604343|164709057|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.226|||<|0.001|TWO_SIDED|95.0|-0.29|-0.17|||ANCOVA|||||-0.17|-0.29|<0.001
82508821|NCT01604343|164709057|SUPERIORITY_OR_OTHER||LS mean difference|-0.256|||<|0.001|TWO_SIDED|95.0|-0.32|-0.2|||ANCOVA|||||-0.20|-0.32|<0.001
82508822|NCT01604343|164709058|SUPERIORITY_OR_OTHER||Percentage Difference|17.8|||<|0.001|TWO_SIDED|95.0|13.1|22.4|||Cochran-Mantel-Haenszel|||||22.4|13.1|< 0.001
82508823|NCT01604343|164709058|SUPERIORITY_OR_OTHER||Percentage Difference|20.8|||<|0.001|TWO_SIDED|95.0|16.1|25.6|||Cochran-Mantel-Haenszel|||||25.6|16.1|< 0.001
82567307|NCT00396097|164844122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.822|STANDARD_ERROR_OF_MEAN|2.25||0.0101|TWO_SIDED|95.0|1.395|10.249|||ANCOVA|||||10.249|1.395|0.0101
82629871|NCT03774875|164975185|SUPERIORITY||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|14.12||0.0085|TWO_SIDED|95.0|-66.58|-10.14|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate variable.|LS Mean Difference = Apremilast - Placebo|||-10.14|-66.58|0.0085
82629872|NCT03774875|164975186|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-2.34|-0.86|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||-0.86|-2.34|<0.0001
82629873|NCT03774875|164975187|SUPERIORITY||LS Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|4.31||0.0003|TWO_SIDED|95.0|-24.63|-7.6|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||-7.60|-24.63|0.0003
82629874|NCT03774875|164975188|SUPERIORITY||Adjusted Difference in Response Rates|13.5|STANDARD_ERROR_OF_MEAN|6.3||0.0328|TWO_SIDED|95.0|1.1|25.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification of the 5 difficult to treat manifestation types at randomization.|The adjusted difference in response rates (Apremilast - Placebo) using the weighted average of the treatment differences across the strata with the CMH weights.|||25.8|1.1|0.0328
82567308|NCT00396097|164844122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.281|STANDARD_ERROR_OF_MEAN|2.471||0.0002|TWO_SIDED|95.0|4.417|14.145|||ANCOVA|||||14.145|4.417|0.0002
82567309|NCT00396097|164844122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.204|STANDARD_ERROR_OF_MEAN|2.495||0.2001|TWO_SIDED|95.0|-1.707|8.114|||ANCOVA|||||8.114|-1.707|0.2001
82567310|NCT00396097|164844123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.899|STANDARD_ERROR_OF_MEAN|3.414|<|0.0001|TWO_SIDED|95.0|30.181|43.618|||ANCOVA|||||43.618|30.181|<0.0001
82567311|NCT00396097|164844123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.517|STANDARD_ERROR_OF_MEAN|3.284|<|0.0001|TWO_SIDED|95.0|42.054|54.98|||ANCOVA|||||54.980|42.054|<.0001
82567312|NCT00396097|164844123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.443|STANDARD_ERROR_OF_MEAN|3.306|<|0.0001|TWO_SIDED|95.0|27.936|40.951|||ANCOVA|||||40.951|27.936|<.0001
82567313|NCT00396097|164844124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.081||0.2618|TWO_SIDED|95.0|-0.068|0.249|||ANCOVA|||||0.249|-0.068|0.2618
82629875|NCT03774875|164975189|SUPERIORITY||Adjusted Difference in Response Rates|37.0|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|24.1|49.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the stratification of the 5 difficult to treat manifestation types at randomization.|Adjusted difference (Apremilast - Placebo) in response rates using the weighted average of the treatment differences across the strata with the CMH weights.|||49.9|24.1|<0.0001
82378438|NCT03048552|164465422|SUPERIORITY|||||||0.625|||||||Fisher Exact|||||||0.625
82508824|NCT01604343|164709059|SUPERIORITY_OR_OTHER||Percentage Difference|20.5|||<|0.001|TWO_SIDED|95.0|16.4|24.6|||Cochran-Mantel-Haenszel|||||24.6|16.4|< 0.001
82508825|NCT01604343|164709059|SUPERIORITY_OR_OTHER||Percentage Difference|19.9|||<|0.001|TWO_SIDED|95.0|15.8|24.0|||Cochran-Mantel-Haenszel|||||24.0|15.8|< 0.001
82508826|NCT01604343|164709060|SUPERIORITY_OR_OTHER||Percentage Difference|3.6||||0.001|TWO_SIDED|95.0|1.4|5.8|||Cochran-Mantel-Haenszel|||||5.8|1.4|0.001
82508827|NCT01604343|164709060|SUPERIORITY_OR_OTHER||Percentage Difference|7.2|||<|0.001|TWO_SIDED|95.0|4.6|9.8|||Cochran-Mantel-Haenszel|||||9.8|4.6|< 0.001
82508828|NCT02462967|164709089|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
82508829|NCT02462967|164709089|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
82508830|NCT02462967|164709090|SUPERIORITY|||||||0.447|||||||ANCOVA|||||||0.447
82508831|NCT02462967|164709090|SUPERIORITY|||||||0.921|||||||ANCOVA|||||||0.921
82508832|NCT02462967|164709091|SUPERIORITY|||||||0.522|||||||ANCOVA|||||||0.522
82508833|NCT02462967|164709091|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.000
82508834|NCT02462967|164709092|SUPERIORITY|||||||0.943|||||||ANCOVA|||||||0.943
82508835|NCT02462967|164709092|SUPERIORITY|||||||0.492|||||||ANCOVA|||||||0.492
82508836|NCT02462967|164709093|SUPERIORITY|||||||0.832|||||||ANCOVA|||||||0.832
82508837|NCT02462967|164709093|SUPERIORITY|||||||0.558|||||||ANCOVA|||||||0.558
82508838|NCT02462967|164709094|SUPERIORITY|||||||0.362|||||||ANCOVA|||||||0.362
82508839|NCT02462967|164709094|SUPERIORITY|||||||0.602|||||||ANCOVA|||||||0.602
82508840|NCT02462967|164709095|SUPERIORITY|||||||0.633|||||||Chi-squared|||||||0.633
82508841|NCT02462967|164709095|SUPERIORITY|||||||0.814|||||||Chi-squared|||||||0.814
82508842|NCT01988571|164709104|SUPERIORITY|Power described in protocol.|Mean Difference (Net)|0.1608|STANDARD_ERROR_OF_MEAN|0.7787||0.84|TWO_SIDED||||||ANCOVA|Adjusted for multiple imputation of missing data||Linear models adjusting for baseline values and utilized multiple imputation for missing data.||||0.84
82567314|NCT00396097|164844124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.094||0.8926|TWO_SIDED|95.0|-0.172|0.198|||ANCOVA|||||0.198|-0.172|0.8926
82629876|NCT03774875|164975190|SUPERIORITY||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|18.55||0.4216|TWO_SIDED|95.0|-21.62|51.48|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||51.48|-21.62|0.4216
82567315|NCT00396097|164844124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.095||0.9566|TWO_SIDED|95.0|-0.192|0.181|||ANCOVA|||||0.181|-0.192|0.9566
82567316|NCT03807700|164844130|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.58||0.4769|TWO_SIDED|95.0|-1.56|0.74|||ANCOVA|Analysis was performed using ANCOVA model with study product as a fixed effect and Baseline overall score as a covariate.|Difference is experimental adhesive minus no adhesive.|||0.74|-1.56|0.4769
82567317|NCT02720081|164844140|SUPERIORITY||Difference in least squares means|-4.775||||0.352|TWO_SIDED|95.0|-14.92|5.37|||ANOVA|Terms for treatment, number of C alleles at the pre-specified SNP, and prior inhaled corticosteroid use.||||5.370|-14.92|0.352
82567318|NCT02720081|164844141|OTHER||Difference in percentages|-0.4|||||TWO_SIDED|95.0|-15.0|14.3|||||Based on Miettinen \& Nurminen|||14.3|-15.0|
82567319|NCT02720081|164844142|OTHER||Difference in percentages|-4.3|||||TWO_SIDED|95.0|-12.1|1.0|||||Based on Miettinen \& Nurminen|||1.0|-12.1|
82629877|NCT03774875|164975191|SUPERIORITY||LS Mean Difference|-148.024|STANDARD_ERROR_OF_MEAN|103.9525||0.1559|TWO_SIDED|95.0|-352.8793|56.8304|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||56.8304|-352.8793|0.1559
82629878|NCT03774875|164975192|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.82||0.2667|TWO_SIDED|95.0|-2.43|8.73|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||8.73|-2.43|0.2667
82567320|NCT02720081|164844164|SUPERIORITY||Difference in least squares means|0.107||||0.023|TWO_SIDED|95.0|0.015|0.199|||Constrained longitudinal data analysis|Terms for treatment, time, interaction of time by treatment, number of C alleles at the pre-specified SNP, and prior inhaled corticosteroid use.||||0.199|0.015|0.023
82567321|NCT03209050|164844165|OTHER|||||||0.5|||||||Clopper-Pearson 95% CI|||||||0.5
82567322|NCT01061775|164844188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.05
82567323|NCT01061775|164844189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82567324|NCT01061775|164844190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82567325|NCT01061775|164844191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82567326|NCT02567227|164844192|SUPERIORITY||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-3.6|1.54|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (Mild Cognitive Impairment (MCI) or cognitively normal) were used to compare changes in speed during normal pace walking pre and post intervention.||1.54|-3.60|
82567327|NCT02567227|164844192|SUPERIORITY||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-2.59|3.76||P-values from linear mixed effects models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status|||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in speed during walking while talking pre and post intervention.||3.76|-2.59|
82567328|NCT02567227|164844193|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.49|0.2|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in SPPB scores pre and post intervention.||0.20|-0.49|
82567329|NCT02567227|164844194|SUPERIORITY||Mean Difference (Net)|0.83|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-2.13|3.79|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length during walking while talking pre and post intervention.||3.79|-2.13|
82567330|NCT02567227|164844194|SUPERIORITY||Mean Difference (Net)|-1.95|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED||||||||Estimates with standard errors are from linear mixed effect models.|Unadjusted linear mixed effects models were used to compare changes in stride length during normal walking pre and post intervention.||||
82629879|NCT03774875|164975193|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.23||0.562|TWO_SIDED|95.0|-10.83|5.91|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||5.91|-10.83|0.5620
82629880|NCT03774875|164975194|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|4.81||0.8927|TWO_SIDED|95.0|-10.16|8.86|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||8.86|-10.16|0.8927
82629881|NCT03774875|164975195|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|4.09||0.0572|TWO_SIDED|95.0|-15.9|0.24|||ANCOVA|ANCOVA model with treatment arm and stratification factor as independent variables and the baseline value as a covariate.|LS Mean Difference = Apremilast - Placebo|||0.24|-15.90|0.0572
82629882|NCT02352090|164975221|OTHER|||||||0.27|||||||ANOVA|||||||0.27
82629883|NCT00796003|164975252|SUPERIORITY_OR_OTHER||Overall Response Rate|26.5|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|90.0|14.6|41.6|||Binomial test|one-tailed 5% level at a significance level||Null Hypothesis: Overall Remission Rate = 5%||41.6|14.6|<0.0001
82508843|NCT01052545|164709119|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Descriptive statistics were used to estimate the incidence rates per 1,000 bed-days and 95% confidence intervals (CI) for urine cultures ordered, ASB overtreatment and CAUTI under-treatment in each study period.|Regression, Logistic|to test whether there was a significant difference in monthly urine cultures ordered between the two study sites over time.||||||<0.05
82629884|NCT05179057|164975263|SUPERIORITY|A logistic regression model included treatment, level of viremia at baseline (≥10,000 copies/mL or \<10,000 copies/mL adenovirus DNA), age (≥12 years or \<12 years), and absolute lymphocyte counts at baseline. The null hypothesis is that the true percentage for posoleucel plus SoC is less than or equal to the true percentage for placebo plus SoC, and the alternative hypothesis is that it is greater.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.26|3.69|||||Posoleucel versus Placebo|||3.69|0.26|
82629885|NCT03733132|164975270|SUPERIORITY|||||||0.854|||||||t-test, 2 sided|||||||0.854
82629886|NCT03733132|164975271|SUPERIORITY|||||||0.389|||||||t-test, 2 sided|||||||0.389
82629887|NCT03733132|164975272|SUPERIORITY|||||||0.609|||||||t-test, 2 sided|||||||0.609
82629888|NCT03733132|164975273|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||0.371
82629889|NCT03733132|164975274|SUPERIORITY|||||||0.686|||||||t-test, 2 sided|||||||0.686
82629890|NCT02219516|164975301|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|153.0|||||TWO_SIDED|90.0|115.0|203.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||203|115|
82629891|NCT02219516|164975301|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|173.0|||||TWO_SIDED|90.0|131.0|230.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||230|131|
82629892|NCT02219516|164975301|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|228.0|||||TWO_SIDED|90.0|155.0|336.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||336|155|
82629893|NCT02219516|164975303|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|131.0|||||TWO_SIDED|90.0|98.6|174.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||174|98.6|
82508844|NCT01052545|164709125|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||We used χ2 test, Fisher's exact test and one-way ANOVA to determine if patient-level covariates differed between the baseline, intervention and maintenance periods at each study site.|Regression, Logistic|||||||<0.05
82629894|NCT02219516|164975303|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|222.0|||||TWO_SIDED|90.0|171.0|287.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||287|171|
82629895|NCT02219516|164975303|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|211.0|||||TWO_SIDED|90.0|139.0|319.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||319|139|
82629896|NCT02219516|164975304|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|124.0|||||TWO_SIDED|90.0|88.8|173.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||173|88.8|
82629897|NCT02219516|164975304|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|248.0|||||TWO_SIDED|90.0|168.0|366.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||366|168|
82629898|NCT02219516|164975304|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|230.0|||||TWO_SIDED|90.0|146.0|363.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||363|146|
82629899|NCT02219516|164975306|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|76.0|||||TWO_SIDED|90.0|57.1|101.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||101|57.1|
82629900|NCT02219516|164975306|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|45.1|||||TWO_SIDED|90.0|34.9|58.3|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||58.3|34.9|
82629901|NCT02219516|164975306|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|47.8|||||TWO_SIDED|90.0|31.5|72.5|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||72.5|31.5|
82567331|NCT02567227|164844195|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.91|0.43|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length variability during normal walking pre and post intervention.||0.43|-0.91|
82567332|NCT02567227|164844195|SUPERIORITY||Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.16|0.27|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in stride length variability during walking while talking pre and post intervention.||0.27|-1.16|
82567333|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.51|0.19|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the pace domain during normal pace walking pre and post intervention.||0.19|-0.51|
82567334|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.2|0.41|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the rhythm domain during normal pace walking pre and post intervention.||0.41|-0.20|
82567335|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.53|0.32|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the variation domain during normal pace walking pre and post intervention.||0.32|-0.53|
82567336|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.27|0.56|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the pace domain during walking while talking pre and post intervention.||0.56|-0.27|
82567337|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.48|0.45|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the rhythm domain during walking while talking pre and post intervention.||0.45|-0.48|
82567338|NCT02567227|164844196|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.4|0.35|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the variation domain during walking while talking pre and post intervention.||0.35|-0.40|
82567339|NCT02567227|164844197|SUPERIORITY||Odds Ratio (OR)|0.925|||||TWO_SIDED|95.0|0.369|2.319||||||Logistic model for treatment effect on substantial improvement in normal velocity adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal).||2.319|0.369|
82567340|NCT02567227|164844197|SUPERIORITY||Odds Ratio (OR)|0.961|||||TWO_SIDED|95.0|0.516|1.789||||||Logistic model for treatment effect on substantial improvement in walking while talking velocity adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal).||1.789|0.516|
82567341|NCT02567227|164844198|SUPERIORITY||Mean Difference (Net)|-7.52|STANDARD_ERROR_OF_MEAN|14.17|||TWO_SIDED|95.0|-35.45|20.41|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in Flanker performance (milliseconds) pre and post intervention.||20.41|-35.45|
82567342|NCT02567227|164844199|SUPERIORITY||Mean Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-0.3|2.31|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes on the Digit Symbol Substitution Test pre and post intervention.||2.31|-0.30|
82567343|NCT02567227|164844200|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare performance on Trail Making Test form A pre and post intervention.||||
82567344|NCT02567227|164844201|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.07|0.06|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in performance on Trail Making Test form B pre and post intervention.||0.06|-0.07|
82629902|NCT02219516|164975307|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|80.8|||||TWO_SIDED|90.0|57.9|113.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||113|57.9|
82629903|NCT02219516|164975307|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|40.3|||||TWO_SIDED|90.0|27.3|59.5|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||59.5|27.3|
82508845|NCT03792672|164709126|SUPERIORITY||Least square mean (LSM) difference|115.0|STANDARD_ERROR_OF_MEAN|144.0||0.4278|TWO_SIDED|90.0|-128.0|359.0||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||359|-128|0.4278
82508846|NCT03792672|164709126|SUPERIORITY||LSM difference|338.0|STANDARD_ERROR_OF_MEAN|147.0||0.0269|TWO_SIDED|90.0|90.5|585.0||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||585|90.5|0.0269
82508847|NCT03792672|164709127|SUPERIORITY||LSM difference|-0.388|STANDARD_ERROR_OF_MEAN|0.582||0.5089|TWO_SIDED|90.0|-1.37|0.595||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||0.595|-1.37|0.5089
82508848|NCT03792672|164709127|SUPERIORITY||LSM difference|-0.209|STANDARD_ERROR_OF_MEAN|0.581||0.7208|TWO_SIDED|90.0|-1.19|0.773||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||||0.773|-1.19|0.7208
82508849|NCT03792672|164709128|SUPERIORITY||LSM difference|14.0|STANDARD_ERROR_OF_MEAN|17.1||0.4174|TWO_SIDED|90.0|-14.8|42.8||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 50 ms peak-to-peak amplitude||42.8|-14.8|0.4174
82508850|NCT03792672|164709128|SUPERIORITY||LSM difference|15.1|STANDARD_ERROR_OF_MEAN|17.1||0.3832|TWO_SIDED|90.0|-25.3|31.5||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 50 ms peak-to-peak amplitude||31.5|-25.3|0.3832
82508851|NCT03792672|164709128|SUPERIORITY||LSM difference|-0.326|STANDARD_ERROR_OF_MEAN|4.09||0.9368|TWO_SIDED|90.0|-7.23|6.58||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 100 ms peak-to-peak amplitude||6.58|-7.23|0.9368
82508852|NCT03792672|164709128|SUPERIORITY||LSM difference|3.71|STANDARD_ERROR_OF_MEAN|4.16||0.379|TWO_SIDED|90.0|-3.32|10.7||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 100 ms peak-to-peak amplitude||10.7|-3.32|0.3790
82508853|NCT03792672|164709128|SUPERIORITY||LSM difference|7.36|STANDARD_ERROR_OF_MEAN|6.41||0.258|TWO_SIDED|90.0|-3.44|18.2||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 200 ms peak-to-peak amplitude||18.2|-3.44|0.2580
82567345|NCT02567227|164844202|SUPERIORITY||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.86|2.2|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes performance on the Controlled Oral Word Association Test pre and post intervention.||2.20|-0.86|
82508854|NCT03792672|164709128|SUPERIORITY||LSM difference|9.36|STANDARD_ERROR_OF_MEAN|6.41||0.1524|TWO_SIDED|90.0|-1.45|20.2|||Mixed Models Analysis|||LICI 200 ms peak-to-peak amplitude||20.2|-1.45|0.1524
82508855|NCT03792672|164709128|SUPERIORITY||LSM difference|17.2|STANDARD_ERROR_OF_MEAN|7.21||0.022|TWO_SIDED|90.0|5.06|29.4||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 300 ms peak-to-peak amplitude||29.4|5.06|0.0220
82508856|NCT03792672|164709128|SUPERIORITY||LSM difference|9.58|STANDARD_ERROR_OF_MEAN|7.23||0.1927|TWO_SIDED|90.0|-2.59|21.8||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||LICI 300 ms peak-to-peak amplitude||21.8|-2.59|0.1927
82508857|NCT03792672|164709129|SUPERIORITY||LSM difference|-5.65|STANDARD_ERROR_OF_MEAN|9.59||0.559|TWO_SIDED|90.0|-21.8|10.5||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||SICI 2 ms peak-to-peak amplitude||10.5|-21.8|0.5590
82508858|NCT03792672|164709129|SUPERIORITY||LSM difference|-16.1|STANDARD_ERROR_OF_MEAN|9.72||0.1049|TWO_SIDED|90.0|-32.5|0.242|||Mixed Models Analysis|||SICI 2 ms peak-to-peak amplitude||0.242|-32.5|0.1049
82629904|NCT02219516|164975307|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|43.5|||||TWO_SIDED|90.0|27.5|68.7|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||68.7|27.5|
82508859|NCT03792672|164709129|SUPERIORITY||LSM difference|-16.7|STANDARD_ERROR_OF_MEAN|13.5||0.2238|TWO_SIDED|90.0|-39.4|6.06||Based on mixed model analysis, with treatment, period, sequence, treatment-by-period interaction as fixed factors, participant within sequence as a random factor, baseline as a covariate.|Mixed Models Analysis|||SICI 5 ms peak-to-peak amplitude||6.06|-39.4|0.2238
82508860|NCT03792672|164709129|SUPERIORITY||LSM difference|-18.3|STANDARD_ERROR_OF_MEAN|13.6||0.1847|TWO_SIDED|90.0|-41.3|4.56|||Mixed Models Analysis|||SICI 5 ms peak-to-peak amplitude||4.56|-41.3|0.1847
82508861|NCT00453999|164709132|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED||||||Log Rank|Differences between groups by log-rank statistic stratified by oxygen saturation and duration of illness at randomization, and flu season.||||||0.306
82508862|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Sore Throat: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508863|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Nasal Congestion: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508864|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Cough: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508865|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Aches and Pains: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508866|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Fatigue: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508867|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Headache: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508868|NCT00453999|164709133|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Feeling Feverish: change from Baseline at Days 2, 3, 4, 5, 10, 14||||>0.05
82508869|NCT00453999|164709134|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Log Rank|||||||0.276
82508870|NCT00453999|164709136|SUPERIORITY_OR_OTHER|||||||0.994|TWO_SIDED||||||Log Rank|||||||0.994
82508871|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 12 hours||||>0.05
82508872|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 24 hours||||>0.05
82508873|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 36 hours||||>0.05
82508874|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 48 hours||||>0.05
82508875|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 72 hours||||>0.05
82508876|NCT00453999|164709137|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Change from Baseline at 96 hours||||>0.05
82508877|NCT01417481|164709160|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||>0.05
82508878|NCT01417481|164709161|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||>0.05
82508879|NCT01417481|164709162|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||>0.05
82508880|NCT01417481|164709163|SUPERIORITY_OR_OTHER||||||=|0.061|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.061
82629905|NCT02219516|164975308|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.4|||||TWO_SIDED|90.0|60.6|150.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||150|60.6|
82629906|NCT02219516|164975308|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|58.3|||||TWO_SIDED|90.0|30.2|113.0|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||113|30.2|
82629907|NCT02219516|164975308|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|21.2|||||TWO_SIDED|90.0|13.6|32.8|||Fixed Effects Model|Treatment as a fixed effect was used to analyze the natural log-transformed PK parameters and GLSMRs are back-transformed to the original scale.||||32.8|13.6|
82629908|NCT00976963|164975309|NON_INFERIORITY|The equivalence margin for non-inferiority of Fosfomycin to TMP/SMX is 10%.|||||<|0.001|||||||Wald test for noninferiority|||The null hypothesis is that Fosfomycin is inferior to TMP/SMX.||||<0.001
82629909|NCT03146403|164975310|SUPERIORITY|||||||0.7474|||||||Wilcoxon (Mann-Whitney)|||||||0.7474
82629910|NCT03146403|164975311|SUPERIORITY|||||||0.645|||||||Wilcoxon (Mann-Whitney)|||||||0.6450
82629911|NCT03146403|164975312|SUPERIORITY|||||||0.3157|||||||Chi-squared|||||||0.3157
82629912|NCT03146403|164975313|SUPERIORITY|||||||0.3869|||||||Log Rank|||||||0.3869
82629913|NCT03146403|164975314|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.2200
82629914|NCT02182999|164975317|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.596|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A sample size of 17 patients in each group was previously calculated on the basis of a significance level of .05, a power of 80%, an anticipated pooled standard Deviation (SD) of 1.0 of the mean verbal NRS pain level, and a minimal clinically important difference in the mean verbal NRS pain level of 1.0 points between the groups. Anticipating a loss to follow-up, we planned to recruit a total of 50 patients (25 patients each group).||||0.596
82629915|NCT02182999|164975318|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.353
82629916|NCT01791465|164975372|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82567346|NCT02567227|164844205|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|-1.65|3.91|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in gait speed during normal walking pre and 6 months post intervention.||3.91|-1.65|
82629917|NCT01791465|164975373|SUPERIORITY_OR_OTHER|||||||0.34||||||Unadjusted - this was a Wilcoxon signed rank p-value (Baseline vs. week 16) comparison|Wilcoxon (Mann-Whitney)|no adjustments||The null hypothesis was that there would be no difference between baseline and 16 week IL-6||||0.34
82629918|NCT01791465|164975374|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
82629919|NCT01791465|164975375|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82629920|NCT01791465|164975376|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82629921|NCT01791465|164975377|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82629922|NCT01791465|164975378|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82629923|NCT01791465|164975379|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82629924|NCT01791465|164975380|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82629925|NCT01791465|164975381|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82629926|NCT01791465|164975382|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82629927|NCT01791465|164975383|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82629928|NCT01791465|164975384|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82629929|NCT01791465|164975385|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
82629930|NCT01791465|164975386|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82629931|NCT01791465|164975387|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82629932|NCT01791465|164975388|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82629933|NCT01791465|164975389|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
82629934|NCT01791465|164975390|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82629935|NCT01791465|164975391|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82629936|NCT01791465|164975392|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
82629937|NCT02736929|164975404|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.12|TWO_SIDED|95.0|-2.7|22.3|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up||22.3|-2.7|0.12
82629938|NCT02736929|164975405|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.024|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.5|0.1|0.024
82629939|NCT02736929|164975406|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.027|TWO_SIDED|95.0|0.0|0.6|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.6|0.0|0.027
82629940|NCT02736929|164975407|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.024|TWO_SIDED|95.0|0.5|7.1|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||7.1|0.5|0.024
82629941|NCT02736929|164975408|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.19|TWO_SIDED|95.0|-9.8|2.0|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||2.0|-9.8|0.19
82629942|NCT02736929|164975409|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.31|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||0.4|-1.3|0.31
82629943|NCT02736929|164975410|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||1.5|-1.8|0.86
82629944|NCT02736929|164975411|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.77|TWO_SIDED|95.0|-1.7|1.2|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 6-week follow-up.||1.2|-1.7|0.77
82629945|NCT03949621|164975415|OTHER|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of covariance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9632|||||TWO_SIDED|90.0|0.7938|1.1688||||||||1.1688|0.7938|
82629946|NCT03949621|164975416|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9606|||||TWO_SIDED|90.0|0.798|1.1562||||||||1.1562|0.798|
82629947|NCT03949621|164975417|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0162|||||TWO_SIDED|90.0|0.9001|1.1473||||||||1.1473|0.9001|
82629948|NCT01236768|164975420|EQUIVALENCE|Comparative analysis of AG200-15 and Levora for breakthrough bleeding and/or spotting.||||||0.089|||||||Chi-squared|||Comparative evaluation of AG200-15 and Levora||||0.089
82629949|NCT01957085|164975425|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.04||||||Statistical significance was set at .05 to determine statistical significance.|Chi-squared|||||||=.04
82629950|NCT01957085|164975426|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
82629951|NCT01957085|164975427|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
82629952|NCT01957085|164975429|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Chi-squared|||||||>.05
82629953|NCT02148952|164975430|SUPERIORITY|We hypothesized a 15% reduction in the composite outcome between the intervention and control arm.|Risk Ratio (RR)|0.99||||0.9|TWO_SIDED|95.0|0.83|1.18|||Chi-squared, Corrected|In secondary analyses, a Rao-Scott test with 3 degrees of freedom resulted in a p value of 0.88.|Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.18|0.83|0.90
82508881|NCT01417481|164709164|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.068
82508882|NCT01417481|164709165|SUPERIORITY_OR_OTHER||||||=|0.04|TWO_SIDED||||||t-test, 1 sided|The hypothesis was that glycine will improve inflammatory biomarkers, and thus statistical significance was set at one-tail.||||||=0.040
82508883|NCT01417481|164709166|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||<0.05
82629954|NCT02148952|164975431|SUPERIORITY||Risk Ratio (RR)|1.03||||0.67|TWO_SIDED|95.0|0.89|1.2|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.20|0.89|0.67
82508884|NCT01417481|164709167|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, paired analysis was done. The hypothesis was that glycine will improve variables, thus significance was set at one-tail.||||||<0.05
82508885|NCT01417481|164709168|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||<0.01
82508886|NCT01417481|164709169|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 1 sided|Due to the cross-over, a paired analysis was done. The hypothesis was that glycine will improve variables, and thus significance was set at one-tail.||||||>0.05
82508887|NCT03316885|164709186|OTHER|The performance target in support of the primary effectiveness was percentage of eyes achieving objective monocular BCDVA at 1 year postoperative (Visit 5A) compared to the a priori SPE percentage of 92.5%. This is for the All Implanted Analysis Set (AAS) (as reported in EN ISO 11979-7:2014).|Comparison|100.0|||||ONE_SIDED|95.0||100.0||||||||100.0||
82629955|NCT02148952|164975432|SUPERIORITY||Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.89|1.2|||Chi-squared, Corrected|||||1.20|0.89|0.68
82629956|NCT02148952|164975433|SUPERIORITY||Risk Ratio (RR)|0.94||||0.56|TWO_SIDED|95.0|0.76|1.16|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.16|0.76|0.56
82629957|NCT02148952|164975434|SUPERIORITY||Risk Ratio (RR)|1.1||||0.19|TWO_SIDED|95.0|0.95|1.27|||Chi-squared, Corrected|||||1.27|0.95|0.19
82629958|NCT02148952|164975435|SUPERIORITY||Risk Ratio (RR)|1.11||||0.73|TWO_SIDED|95.0|0.74|1.53|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.53|0.74|0.73
82629959|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|0.97||||0.81|TWO_SIDED|95.0|0.79|1.2|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate any severe maternal complication within 7 days||1.20|0.79|0.81
82629960|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|0.89||||0.76|TWO_SIDED|95.0|0.57|1.52|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of seizures||1.52|0.57|0.76
82629961|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|0.98||||0.97|TWO_SIDED|95.0|0.7|1.41|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of loss of consciousness for \> 1 hr||1.41|0.70|0.97
82629962|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9|TWO_SIDED|95.0|0.76|1.38|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of high fever with foul-smelling vaginal discharge||1.38|0.76|0.90
82629963|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|0.95||||0.61|TWO_SIDED|95.0|0.77|1.17|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of hemorrhage||1.17|0.77|0.61
82629964|NCT02148952|164975436|SUPERIORITY||Risk Ratio (RR)|0.5||||0.41|TWO_SIDED|95.0|0.34|1.58|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|Rate of stroke||1.58|0.34|0.41
82629965|NCT02148952|164975437|SUPERIORITY||Risk Ratio (RR)|1.07||||0.74|TWO_SIDED|95.0|0.72|1.58|||Chi-squared, Corrected|||||1.58|0.72|0.74
82629966|NCT02148952|164975438|SUPERIORITY||Risk Ratio (RR)|1.09||||0.57|TWO_SIDED|95.0|0.81|1.47|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.47|0.81|0.57
82629967|NCT02148952|164975439|SUPERIORITY||Risk Ratio (RR)|1.19||||0.41|TWO_SIDED|95.0|0.78|1.8|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.80|0.78|0.41
82629968|NCT02148952|164975440|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.45|2.13|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||2.13|0.45|0.95
82629969|NCT02148952|164975441|SUPERIORITY||Risk Ratio (RR)|0.99||||0.97|TWO_SIDED|95.0|0.69|1.43|||Chi-squared, Corrected|||||1.43|0.69|0.97
82629970|NCT02148952|164975442|SUPERIORITY||Risk Ratio (RR)|0.91||||0.32|TWO_SIDED|95.0|0.76|1.1|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.10|0.76|0.32
82629971|NCT02148952|164975443|SUPERIORITY||Risk Ratio (RR)|0.92||||0.3|TWO_SIDED|95.0|0.78|1.08|||Chi-squared, Corrected||Relative risks are for the intervention group as compared with the control group and are adjusted for clustering and matching. The denominators shift owing to missing data on outcomes.|||1.08|0.78|0.30
82629972|NCT02148952|164975444|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
82508888|NCT03316885|164709187|OTHER|The performance target in support of the primary effectiveness was percentage of eyes achieving objective monocular BCDVA at 1 year postoperative (Visit 5A) compared to the a priori SPE percentage of 92.5%. This is for the All Implanted Analysis Set (AAS) (as reported in EN ISO 11979-7:2014).|Comparison|100.0|||||ONE_SIDED|95.0||100.0||||||||100.0||
82508889|NCT00978068|164709198|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.59||||0.04|TWO_SIDED|95.0|0.36|0.97|||Negative Binomial Regression||Group 1 represents the numerator for the rate ratio. Group 2 represents the denominator for the rate ratio.|We assumed that the incidence of malaria in Group 2 would be 0.70 episodes per person-year and estimated that we would need a sample of 300 participants for the study to have 80% power to show a 35% reduction in the incidence of malaria in Group 1, at a 2-sided significance level of 0.05. We then observed an incidence of malaria in Group 2 that was higher than anticipated (2.19 episodes/person-yr) and revised the sample size to 150 participants, who would be followed for at least 6 months.||0.97|0.36|0.04
82508890|NCT00978068|164709199|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Cox Proportional-Hazards|||||||0.13
82508891|NCT00978068|164709200|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.8||||0.87|TWO_SIDED|95.0|0.06|11.16|||Negative Binomial Regression||Group 1 represents the numerator for the rate ratio. Group 2 represents the denominator for the rate ratio.|We assumed that the incidence of malaria in Group 2 would be 0.70 episodes per person-year and estimated that we would need a sample of 300 participants for the study to have 80% power to show a 35% reduction in the incidence of malaria in Group 1, at a 2-sided significance level of 0.05. We then observed an incidence of malaria in Group 2 that was higher than anticipated (2.19 episodes/person-yr) and revised the sample size to 150 participants, who would be followed for at least 6 months.||11.16|0.06|0.87
82508892|NCT00978068|164709201|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.14|TWO_SIDED|95.0|0.45|1.12|||Cox Proportional-Hazards|Adjustment for repeated measures in the same patient|Group 1 represents the numerator for the hazard ratio. Group 2 represents the denominator for the hazard ratio.|||1.12|0.45|0.14
82508893|NCT00978068|164709202|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.004|TWO_SIDED|95.0|0.14|0.68|||Cox Proportional-Hazards|Adjustment for repeated measures in same participant.|Group 1 represents the numerator for the hazard ratio. Group 2 represents the denominator for the hazard ratio.|||0.68|0.14|0.004
82508894|NCT00978068|164709203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.004|TWO_SIDED|95.0|0.22|0.76|||Cox Proportional-Hazards|Adjustment for repeated measures in the same patient.|Group 1 represents the numerator in the hazard ratio. Group 2 represents the denominator in the hazard ratio.|||0.76|0.22|0.004
82508895|NCT01644175|164709217|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.9|||<|0.0001|TWO_SIDED|95.0|-52.5|-39.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-39.3|-52.5|<0.0001
82508896|NCT01644175|164709218|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.9|||<|0.0001|TWO_SIDED|95.0|-56.2|-43.6||Threshold for significance was ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-43.6|-56.2|<0.0001
82508897|NCT01644175|164709219|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.4|||<|0.0001|TWO_SIDED|95.0|-53.6|-41.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.3|-53.6|<0.0001
82508898|NCT01644175|164709220|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.3|||<|0.0001|TWO_SIDED|95.0|-55.3|-43.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.3|-55.3|<0.0001
82508899|NCT01644175|164709221|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-41.3|-30.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.3|-41.3|<0.0001
82508900|NCT01644175|164709222|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-43.0|-32.0||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.0|-43.0|<0.0001
82508901|NCT01644175|164709223|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-43.5|-31.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.4|-43.5|<0.0001
82508902|NCT01644175|164709224|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.4|||<|0.0001|TWO_SIDED|95.0|-46.4|-34.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.4|-46.4|<0.0001
82508903|NCT01644175|164709225|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.0|||<|0.0001|TWO_SIDED|95.0|-29.3|-20.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.7|-29.3|<0.0001
82567347|NCT02567227|164844205|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|-2.12|4.91|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in gait speed during walking while talking pre and 6 months post intervention.||4.91|-2.12|
82567348|NCT02567227|164844206|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare changes in stair climbing time pre and post intervention.||||
82508904|NCT01644175|164709226|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-43.7|-32.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.7|-43.7|<0.0001
82508905|NCT01644175|164709227|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.1|||<|0.0001|TWO_SIDED|95.0|-46.2|-33.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.9|-46.2|<0.0001
82508906|NCT01644175|164709228|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.4|||<|0.0001|TWO_SIDED|95.0|-31.1|-21.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.7|-31.1|<0.0001
82508907|NCT01644175|164709229|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|95.0|-51.6|-34.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.3|-51.6|<0.0001
82508908|NCT01644175|164709230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|38.5|||<|0.0001|TWO_SIDED|95.0|16.5|89.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||89.8|16.5|<0.0001
82508909|NCT01644175|164709231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|50.0|||<|0.0001|TWO_SIDED|95.0|20.6|121.0||Threshold for significance ≤ 0.05|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||121.0|20.6|<0.0001
82508910|NCT01644175|164709232|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.6|||<|0.0001|TWO_SIDED|95.0|-21.3|-7.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-7.9|-21.3|<0.0001
82508911|NCT01644175|164709233|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.0001|TWO_SIDED|95.0|3.6|11.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11.0|3.6|0.0001
82508912|NCT01644175|164709234|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6||||0.8699|TWO_SIDED|95.0|-8.3|7.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.0|-8.3|0.8699
82508913|NCT04258605|164709242|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<.0001
82508914|NCT04258605|164709243|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1 year, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
82508915|NCT04258605|164709244|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
82508916|NCT04258605|164709245|OTHER|P-values account for preoperative versus postoperative mean values at 3-6 months, 1 year, 2 and 3 years|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The small sample size of arm ASHCOM Shoulder System subjects - Fracture humeral stem of 2 cases is too low for a statistical analysis."||||<0.001
82508917|NCT04448210|164709271|SUPERIORITY||||||<|0.25|||||||ANOVA|||||||<.25
82508918|NCT04448210|164709272|SUPERIORITY|||||||0.72|||||||ANOVA|||||||.72
82508919|NCT04448210|164709273|SUPERIORITY|||||||0.16|||||||ANOVA|||||||.16
82508920|NCT04448210|164709274|SUPERIORITY|||||||0.43|||||||ANOVA|||||||.43
82508921|NCT04448210|164709275|SUPERIORITY|||||||0.69|||||||ANOVA|||||||.69
82508922|NCT04448210|164709276|SUPERIORITY|||||||0.38|||||||ANOVA|||||||.38
82508923|NCT04448210|164709277|SUPERIORITY|||||||0.94|||||||ANOVA|||||||.94
82508924|NCT04448210|164709278|SUPERIORITY|||||||0.94|||||||ANOVA|||||||.94
82508925|NCT04448210|164709279|SUPERIORITY|||||||0.3|||||||ANOVA|||||||.30
82508926|NCT02196324|164709401|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.34|=|0.0111|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|||||-0.2|-1.5|= 0.0111
82508927|NCT02196324|164709402|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.43|=|0.0248|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||||-0.1|-1.8|= 0.0248
82508928|NCT02196324|164709403|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.47||0.0005|TWO_SIDED|95.0|-2.6|-0.7|||Mixed Models Analysis|||||-0.7|-2.6|0.0005
82508929|NCT02196324|164709409|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.4|0.0||||||Week 2||-0.0|-1.4|
82508930|NCT02196324|164709409|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.7|-0.1||||||Week 4||-0.1|-1.7|
82508931|NCT02196324|164709409|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0175|TWO_SIDED|95.0|-2.0|-0.2||p-value assume equal variance|t-test, 2 sided|||Week 8||-0.2|-2.0|0.0175
82508932|NCT02196324|164709410|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-3.1|1.6||||||Week 2||1.6|-3.1|
82508933|NCT02196324|164709410|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.7|2.3||||||Week 4||2.3|-2.7|
82508934|NCT02196324|164709410|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-3.6|2.1||||||Week 8||2.1|-3.6|
82508935|NCT02196324|164709411|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.4|0.1||||||Week 2||0.1|-0.4|
82508936|NCT02196324|164709411|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.4|0.2||||||Week 4||0.2|-0.4|
82508937|NCT02196324|164709411|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||Week 8||0.1|-0.6|
82567349|NCT02567227|164844207|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED||||||||Estimates with standard errors are from unadjusted linear mixed effect models.|Unadjusted linear mixed effects model was used to compare changes in activities of daily living pre and post intervention.||||
82567350|NCT02567227|164844208|SUPERIORITY||Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.4|0.93|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in depressive symptoms measured using the GDS pre and post intervention.||0.93|-0.40|
82629973|NCT02148952|164975445|SUPERIORITY||Other|0.0||||0.18|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Birth Companion Present||||0.18
82567351|NCT02567227|164844210|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.38|2.16|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in reported fear of falling measured on the Falls Efficacy Scale pre and post intervention.||2.16|-1.38|
82567352|NCT02567227|164844211|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.46|1.04|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the physical health score of the SF-12 pre and post intervention.||1.04|-1.46|
82567353|NCT02567227|164844211|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.04|1.85|||||Estimates with standard errors are from linear mixed effect models adjusted for age, sex, education years, comorbidities, pain, cardiac fitness, and cognitive status.|Linear mixed effects model adjusted for age, sex, education (school years), comorbidities score (0-10), pain, Duke score (cardiac fitness), and cognitive status (MCI or cognitively normal) were used to compare changes in the mental health score of the SF-12 pre and post intervention.||1.85|-1.04|
82567354|NCT02498418|164844221|EQUIVALENCE|Bioequivalence was demonstrated if 90% confidence interval (CI) of percentage difference between generic rifaximin 200 mg tablets and xifaxan 200 mg tablets was within the equivalence range (-20%, +20%).|Difference in percentage of participants|-0.0193|||||TWO_SIDED|90.0|-0.11|0.07||||||Bioequivalence was evaluated based on the PP analysis set using Z-test with Yates correction.||0.07|-0.11|
82629974|NCT02148952|164975445|SUPERIORITY||Risk Ratio (RR)|9.8|||<|0.001|TWO_SIDED|95.0|3.4|28.3|||Chi-squared, Corrected|||Maternal blood pressure taken||28.3|3.4|<0.001
82629975|NCT02148952|164975445|SUPERIORITY||Risk Ratio (RR)|132.0|||<|0.001|TWO_SIDED|95.0|26.9|645.0|||Chi-squared, Corrected|||Maternal temperature taken||645|26.9|<0.001
82567355|NCT02498418|164844224|SUPERIORITY||Difference in percentage of participants|-0.0195||||0.7899|TWO_SIDED|95.0|-0.09|0.13||Threshold of significance at 0.05 level.|Z-test|||95% CIs was calculated using Z-test with Yates' correction.||0.13|-0.09|0.7899
82567356|NCT02498418|164844224|SUPERIORITY||Difference in percentage of participants|0.033||||0.5987|TWO_SIDED|95.0|-0.07|0.14||Threshold for significance at 0.05 level.|Z-test|||95% CIs was calculated using Z-test with Yates' correction.||0.14|-0.07|0.5987
82567357|NCT02963922|164844315|SUPERIORITY|The treatment policy estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) at week 56 for all randomised participants regardless of premature discontinuation of trial product.|Treatment difference|-4.32|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-5.48|-3.16|||ANCOVA||Liraglutide 3.0 mg - placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, body mass index (BMI) groups and sex as factors and baseline body weight as covariate.||-3.16|-5.48|< .0001
82567358|NCT02963922|164844315|SUPERIORITY|The hypothetical estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) for all randomised participants assuming that all participants remained on trial product (on-treatment principle).|Treatment difference|-5.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-6.3|-3.91|||MMRM||Liraglutide 3.0 mg - placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups and sex as factors and baseline body weight as covariate, all nested within visit.||-3.91|-6.30|< .0001
82567359|NCT02963922|164844316|SUPERIORITY||Odds Ratio (OR)|3.41|||<|0.0001|TWO_SIDED|95.0|2.19|5.31|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups and sex as factors and baseline body weight as covariate.||5.31|2.19|<.0001
82629976|NCT02148952|164975445|SUPERIORITY||Risk Ratio (RR)|7.3||||0.01|TWO_SIDED|95.0|1.5|35.6|||Chi-squared, Corrected|||Partography started||35.6|1.5|0.01
82629977|NCT02148952|164975445|SUPERIORITY||Risk Ratio (RR)|413.0|||<|0.001|TWO_SIDED|95.0|65.8|2589.0|||Chi-squared, Corrected|||Checklist use||2589|65.8|<0.001
82629978|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|53.3|||<|0.001|TWO_SIDED|95.0|13.1|217.0|||Chi-squared, Corrected|||Hand hygiene||217|13.1|<0.001
82629979|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|2.3||||0.007|TWO_SIDED|95.0|1.3|4.2|||Chi-squared, Corrected|||No oxytocin given before delivery||4.2|1.3|0.007
82629980|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|5.7|||<|0.001|TWO_SIDED|95.0|2.7|12.1|||Chi-squared, Corrected|||Clean towel available||12.1|2.7|<0.001
82629981|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|1.1||||0.72|TWO_SIDED|95.0|0.7|1.7|||Chi-squared, Corrected|||Clean scissors or blade available||1.7|0.7|0.72
82629982|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|1.0||||0.48|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Cord tie available||1.0|1.0|0.48
82629983|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|1.0||||0.73|TWO_SIDED|95.0|0.9|1.1|||Chi-squared, Corrected|||Mucus extractor available||1.1|0.9|0.73
82629984|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|1.0||||0.56|TWO_SIDED|95.0|0.9|1.1|||Chi-squared, Corrected|||Neonatal bag and mask available||1.1|0.9|0.56
82629985|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|2.1||||0.005|TWO_SIDED|95.0|1.3|3.5|||Chi-squared, Corrected|||Pads available||3.5|1.3|0.005
82629986|NCT02148952|164975446|SUPERIORITY||Risk Ratio (RR)|185.0|||<|0.001|TWO_SIDED|95.0|19.7|1738.0|||Chi-squared, Corrected|||Checklist use||1738|19.7|<0.001
82629987|NCT02148952|164975447|SUPERIORITY||Risk Ratio (RR)|3.9|||<|0.001|TWO_SIDED|95.0|2.1|7.2|||Chi-squared, Corrected|||Oxytocin administered||7.2|2.1|<0.001
82629988|NCT02148952|164975447|SUPERIORITY||Risk Ratio (RR)|0.6||||0.25|TWO_SIDED|95.0|0.3|1.4|||Chi-squared, Corrected|||Neonatal bag used||1.4|0.3|0.25
82629989|NCT02148952|164975447|SUPERIORITY||Risk Ratio (RR)|1.0||||0.25|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth attendant present||1.0|1.0|0.25
82629990|NCT02148952|164975448|SUPERIORITY||Risk Ratio (RR)|1.1||||0.25|TWO_SIDED|95.0|0.9|1.4|||Chi-squared, Corrected|||Newborn weight taken||1.4|0.9|0.25
82629991|NCT02148952|164975448|SUPERIORITY||Risk Ratio (RR)|317.0|||<|0.001|TWO_SIDED|95.0|50.4|1989.0|||Chi-squared, Corrected|||Newborn temperature taken||1989|50.4|<0.001
82629992|NCT02148952|164975448|SUPERIORITY||Risk Ratio (RR)|7.3|||<|0.001|TWO_SIDED|95.0|2.4|22.0|||Chi-squared, Corrected|||Skin-to-skin care initiated at birth||22.0|2.4|<0.001
82629993|NCT02148952|164975448|SUPERIORITY||Risk Ratio (RR)|38.7|||<|0.001|TWO_SIDED|95.0|7.7|194.0|||Chi-squared, Corrected|||Skin-to-skin care maintained for 1 hr||194|7.7|<0.001
82629994|NCT02148952|164975448|SUPERIORITY||Risk Ratio (RR)|19.4|||<|0.001|TWO_SIDED|95.0|11.4|33.2|||Chi-squared, Corrected|||Initiation of breast-feeding||33.2|11.4|<0.001
82629995|NCT02148952|164975448|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
82629996|NCT02148952|164975449|SUPERIORITY||Risk Ratio (RR)|182.0|||<|0.001|TWO_SIDED|95.0|33.5|993.0|||Chi-squared, Corrected|||Maternal temperature taken||993|33.5|<0.001
82508938|NCT02196324|164709412|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.0625|TWO_SIDED|95.0|-0.02|0.72||p-value assume equal variance.|t-test, 2 sided|||||0.72|-0.02|0.0625
82508939|NCT00500370|164709478|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||<0.0001
82508940|NCT00500370|164709479|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||<0.0001
82508941|NCT00500370|164709480|SUPERIORITY_OR_OTHER|||||||0.6766||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.6766
82508942|NCT00500370|164709481|SUPERIORITY_OR_OTHER|||||||0.0393||95.0|||||Cochran-Mantel-Haenszel|||||||0.0393
82508943|NCT00500370|164709482|SUPERIORITY_OR_OTHER|||||||0.1808||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1808
82508944|NCT00500370|164709483|SUPERIORITY_OR_OTHER|||||||0.1204||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1204
82508945|NCT00500370|164709484|SUPERIORITY_OR_OTHER|||||||0.6651||95.0|||||ANCOVA|||||||0.6651
82508946|NCT00500370|164709485|SUPERIORITY_OR_OTHER|||||||0.1204||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.1204
82508947|NCT00500370|164709486|SUPERIORITY_OR_OTHER|||||||0.8479||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.8479
82508948|NCT00500370|164709487|SUPERIORITY_OR_OTHER|||||||0.2151||95.0|||||ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.2151
82508949|NCT00500370|164709488|SUPERIORITY_OR_OTHER|||||||0.7619||95.0|||||ANCOVA|||||||0.7619
82508950|NCT00500370|164709489|SUPERIORITY_OR_OTHER|||||||0.8973||95.0|||||ANCOVA|||||||0.8973
82508951|NCT00500370|164709490|SUPERIORITY_OR_OTHER|||||||0.6507||95.0|||||Cochran-Mantel-Haenszel|||||||0.6507
82508952|NCT00500370|164709491|SUPERIORITY_OR_OTHER|||||||0.2593||95.0|||||Cochran-Mantel-Haenszel|||||||0.2593
82508953|NCT00500370|164709492|SUPERIORITY_OR_OTHER|||||||0.2919||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.2919
82508954|NCT00500370|164709493|SUPERIORITY_OR_OTHER|||||||0.0293||95.0|||||Mixed Model Repeated Measures ANCOVA|||Analysis pertains to change at endpoint (Week 24)||||0.0293
82508955|NCT05627518|164709507|OTHER||Ratio|1.9954|||<|0.0001|TWO_SIDED|95.0|1.8399|2.1641|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|The Ratio of geometric mean AUCinf comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.1641|1.8399|<0.0001
82508956|NCT05627518|164709507|OTHER||Ratio|2.125|||<|0.0001|TWO_SIDED|95.0|1.9664|2.2963|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|AUClast: Ratio of geometric mean AUClast comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.2963|1.9664|<0.0001
82508957|NCT05627518|164709508|OTHER|Ratio|Ratio|2.3167|||<|0.0001|TWO_SIDED|95.0|2.0922|2.5652|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treatment A (4x25 mg reference formulation)|Ratio of geometric mean Cmax comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||2.5652|2.0922|<0.0001
82508958|NCT05627518|164709509|OTHER|Ratio|Ratio|0.757|||<|0.0001|TWO_SIDED|95.0|0.7009|0.8177|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUCinf comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.8177|0.7009|<0.0001
82508959|NCT05627518|164709509|OTHER|Ratio|Ratio|0.7684|||<|0.0001|TWO_SIDED|95.0|0.7102|0.8313|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUClast comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.8313|0.7102|<0.0001
82508960|NCT05627518|164709510|OTHER|Ratio|Ratio|0.2548|||<|0.0001|TWO_SIDED|95.0|0.1999|0.3247|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean Cmax comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.3247|0.1999|<0.0001
82508961|NCT05627518|164709511|OTHER|Ratio|Ratio|3.0245|||<|0.0001|TWO_SIDED|95.0|2.5098|3.6446|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean AUCinf comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||3.6446|2.5098|<0.0001
82508962|NCT05627518|164709511|OTHER|Ratio|Ratio|3.5277|||<|0.0001|TWO_SIDED|95.0|2.9076|4.2799|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean AUClast comparing test formulation fasted (treatment B) vs. reference formulation fasted (treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||4.2799|2.9076|<0.0001
82508963|NCT05627518|164709512|OTHER|Ratio|Ratio|3.0245|||<|0.0001|TWO_SIDED|95.0|2.5098|3.6446|||Mixed Models Analysis||Treatment B (1x100 mg test formulation) divided by treament A (4x25 mg reference formulation)|Ratio of geometric mean Cmax comparing test formulation fasted (treatment B) vs. reference formulation fasted ( treatment A). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||3.6446|2.5098|<0.0001
82508964|NCT05627518|164709513|OTHER|Ratio|Ratio|0.4923|||<|0.0001|TWO_SIDED|95.0|0.4131|0.5867|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUCinf comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.5867|0.4131|<0.0001
82508965|NCT05627518|164709513|OTHER|Ratio|Ratio|0.4923|||<|0.0001|TWO_SIDED|95.0|0.4047|0.5989|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean AUClast comparing treatment C (fed) versus treatment B (fasted). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.5989|0.4047|<0.0001
82508966|NCT05627518|164709514|OTHER|Ratio|Ratio|0.2522|||<|0.0001|TWO_SIDED|95.0|0.198|0.3211|||Mixed Models Analysis||Treatment C (1x100 mg test formulation fed) divided by treament B (100 mg test formulation fasted)|Ratio of geometric mean Cmax comparing test formulation fed (treatment C) vs. reference formulation fasted (treatment B). This is a relative comparison, thus there is no unit. The ratio is given under the Estimated value.||0.3211|0.1980|<0.0001
82508967|NCT02586012|164709558|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82508968|NCT02586012|164709559|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82508969|NCT02586012|164709560|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82508970|NCT01920932|164709579|SUPERIORITY||Binomial proportions|31.25|||||TWO_SIDED|90.0||||The comparison of the complete rate between the first 32 evaluable participants and the historical control of HOD99 unfavorable risk patients was estimated by the binomial proportions test.||||In the historical control (HOD99) 17% of patients had CR at week 8. Sample size for this objective is calculated based on a binomial distribution to test H0: p=17% vs. Ha: p\>17%, where p is the true CR rate after 2 cycles of AEPA. 32 patients are needed to detect 20% increase of CR rate with 80% power and 5% type I error. If it shows efficacy, the response results will be reported, and the study will continue to enroll for a total of 77 patients to assess response and EFS.||||
82508971|NCT01920932|164709581|SUPERIORITY|||||||0.004|||||||Fisher Exact|||Comparison of proportion of patient's complete response rate between HLHR13 and HOD99 (NCT00145600) unfavorable risk arm 2 (UR2).||||0.004
82508972|NCT01920932|164709582|SUPERIORITY|||||||0.0008|||||||Log Rank|||The comparison of the EFS between HLHR13 and historical control of HOD99 unfavorable risk 2 arm (UR2) was done by the two-sample log-rank test.||||0.0008
82508973|NCT01920932|164709587|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
82508974|NCT01920932|164709587|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.002
82508975|NCT01920932|164709587|SUPERIORITY|||||||0.067|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Total Score-T4, completion of radiation (approximately 8 months)||||0.067
82508976|NCT01920932|164709587|SUPERIORITY|||||||0.115|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.115
82567360|NCT02963922|164844316|SUPERIORITY||Odds Ratio (OR)|4.73|||<|0.0001|TWO_SIDED|95.0|3.04|7.36|||Mixed model for repeated measurements||Liraglutide 3.0 mg/Placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||7.36|3.04|<.0001
82567361|NCT02181400|164844375|OTHER|||||||0.04|||||||ANCOVA|||||||0.04
82567362|NCT02181400|164844376|OTHER|||||||0.04|||||||ANCOVA|||||||0.04
82567363|NCT02181400|164844377|OTHER|||||||0.12|||||||ANCOVA|||||||0.12
82567364|NCT02181400|164844378|OTHER|||||||0.32|||||||ANCOVA|||||||0.32
82567365|NCT02181400|164844379|OTHER|||||||0.02|||||||ANCOVA|||||||0.02
82629997|NCT02148952|164975449|SUPERIORITY||Risk Ratio (RR)|9.9|||<|0.001|TWO_SIDED|95.0|3.8|25.8|||Chi-squared, Corrected|||Maternal blood pressure taken||25.8|3.8|<0.001
82508977|NCT01920932|164709587|SUPERIORITY|||||||0.455|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.455
82508978|NCT01920932|164709587|SUPERIORITY|||||||0.636|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Pain and Hurt-T4, completion of radiation (approximately 8 months)||||0.636
82508979|NCT01920932|164709587|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
82567366|NCT02181400|164844380|OTHER|||||||0.49|||||||ANCOVA|||||||0.49
82567367|NCT03840148|164844386|NON_INFERIORITY|If the lower limit of the 95% CI for the difference in response is greater than or equal to the non-inferiority margin of -15%, non-inferiority will be concluded. Further, if non-inferiority is concluded, superiority will be concluded if the lower limit of the 95% CI for the difference in response is greater than or equal to zero.|Miettinen and Nurminen|12.6||||0.0088|TWO_SIDED|95.0|3.1|22.2||P-value for superiority since the lower confidence interval is greater than 0 for the primary endpoint analysis.|Cochran-Mantel-Haenszel|||||22.2|3.1|0.0088
82508980|NCT01920932|164709587|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||<.001
82508981|NCT01920932|164709587|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Nausea-T4, completion of radiation (approximately 8 months)||||0.006
82508982|NCT01920932|164709587|SUPERIORITY|||||||0.099|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.099
82567368|NCT03840148|164844387|OTHER||Miettinen and Nurminen|11.7|||||TWO_SIDED|95.0|2.9|21.0||||||||21.0|2.9|
82567369|NCT03840148|164844388|OTHER||Miettinen and Nurminen|4.5|||||TWO_SIDED|95.0|-2.6|12.6||||||||12.6|-2.6|
82567370|NCT03840148|164844389|OTHER||Miettinen and Nurminen|12.3|||||TWO_SIDED|95.0|3.0|21.8||||||||21.8|3.0|
82567371|NCT03840148|164844390|OTHER||Miettinen and Nurminen|3.1|||||TWO_SIDED|95.0|-3.2|10.4||||||||10.4|-3.2|
82567372|NCT03840148|164844391|OTHER||Miettinen and Nurminen|-0.3|||||TWO_SIDED|95.0|-3.5|4.1||||||||4.1|-3.5|
82567373|NCT03840148|164844392|OTHER||Miettinen and Nurminen|1.6|||||TWO_SIDED|95.0|-4.1|8.5||||||||8.5|-4.1|
82567374|NCT03840148|164844393|OTHER||Miettinen and Nurminen|12.1|||||TWO_SIDED|95.0|2.2|21.9||||||||21.9|2.2|
82567375|NCT03840148|164844394|OTHER||Miettinen and Nurminen|7.7|||||TWO_SIDED|95.0|-1.6|17.3||||||||17.3|-1.6|
82567376|NCT03840148|164844395|OTHER||Miettinen and Nurminen|9.9|||||TWO_SIDED|95.0|1.5|18.8||||||||18.8|1.5|
82567377|NCT03840148|164844396|OTHER||Miettinen and Nurminen|3.0|||||TWO_SIDED|95.0|-2.4|9.6||||||||9.6|-2.4|
82567378|NCT03840148|164844406|OTHER||Miettinen and Nurminen|3.5|||||TWO_SIDED|95.0|-2.3|10.5||||||||10.5|-2.3|
82567379|NCT03840148|164844407|OTHER||Miettinen and Nurminen|-1.1|||||TWO_SIDED|95.0|-3.1|1.7||||||||1.7|-3.1|
82567380|NCT03840148|164844408|OTHER||Miettinen and Nurminen|14.9|||||TWO_SIDED|95.0|5.0|24.9||||||||24.9|5.0|
82567381|NCT03840148|164844409|OTHER||Miettinen and Nurminen|12.7|||||TWO_SIDED|95.0|3.7|22.3||||||||22.3|3.7|
82567382|NCT03840148|164844410|OTHER||Miettinen and Nurminen|14.0|||||TWO_SIDED|95.0|3.8|24.3||||||||24.3|3.8|
82567383|NCT03840148|164844411|OTHER||Miettinen and Nurminen|7.7|||||TWO_SIDED|95.0|-1.9|17.7||||||||17.7|-1.9|
82567384|NCT03840148|164844416|OTHER||Miettinen and Nurminen|14.0|||||TWO_SIDED|95.0|3.8|24.3||||||||24.3|3.8|
82567385|NCT03840148|164844418|OTHER||Miettinen and Nurminen|1.7|||||TWO_SIDED|95.0|-3.1|7.3||||||||7.3|-3.1|
82629998|NCT02148952|164975449|SUPERIORITY||Risk Ratio (RR)|0.4||||0.3|TWO_SIDED|95.0|0.1|2.1|||Chi-squared, Corrected|||Mother given magnesium sulfate||2.1|0.1|0.30
82629999|NCT02148952|164975450|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
82630000|NCT02148952|164975451|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth companion present||1.0|1.0|1.00
82630001|NCT02148952|164975451|SUPERIORITY||Risk Ratio (RR)|19.1|||<|0.001|TWO_SIDED|95.0|7.9|46.5|||Chi-squared, Corrected|||Maternal blood pressure taken||46.5|7.9|<0.001
82630002|NCT02148952|164975451|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated due to 100% or 0% values in one group.|Maternal temperature taken||||<0.001
82630003|NCT02148952|164975451|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Partography started||||<0.001
82630004|NCT02148952|164975451|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
82630005|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|19.9|||<|0.001|TWO_SIDED|95.0|6.6|60.4|||Chi-squared, Corrected|||Hand hygiene||60.4|6.6|<0.001
82630006|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|2.1||||0.04|TWO_SIDED|95.0|1.0|4.1|||Chi-squared, Corrected|||No oxytocin given before delivery||4.1|1.0|0.04
82630007|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|2.4||||0.006|TWO_SIDED|95.0|1.3|4.3|||Chi-squared, Corrected|||Clean towel available||4.3|1.3|0.006
82630008|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|1.0||||0.34|TWO_SIDED|95.0|1.0|1.1|||Chi-squared, Corrected|||Clean scissors or blade available||1.1|1.0|0.34
82630009|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|1.0||||0.25|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Cord tie available||1.0|1.0|0.25
82630010|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|1.0||||0.5|TWO_SIDED|95.0|1.0|1.1|||Chi-squared, Corrected|||Mucus extractor available||1.1|1.0|0.50
82630011|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|1.0||||0.32|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Neonatal bag and mask available||1.0|1.0|0.32
82567386|NCT03840148|164844419|OTHER||Miettinen and Nurminen|4.8|||||TWO_SIDED|95.0|-1.1|11.5||||||||11.5|-1.1|
82630012|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|1.4||||0.11|TWO_SIDED|95.0|0.9|2.1|||Chi-squared, Corrected|||Pads available||2.1|0.9|0.11
82630013|NCT02148952|164975452|SUPERIORITY||Risk Ratio (RR)|37.9|||<|0.001|TWO_SIDED|95.0|7.3|196.0|||Chi-squared, Corrected|||Checklist available||196|7.3|<0.001
82630014|NCT02148952|164975453|SUPERIORITY||Risk Ratio (RR)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|7.5|||Chi-squared, Corrected|||Oxytocin administered||7.5|1.8|<0.001
82630015|NCT02148952|164975453|SUPERIORITY||Risk Ratio (RR)|0.6||||0.19|TWO_SIDED|95.0|0.3|1.3|||Chi-squared, Corrected|||Neonatal bag used||1.3|0.3|0.19
82630016|NCT02148952|164975453|SUPERIORITY||Risk Ratio (RR)|1.0||||0.5|TWO_SIDED|95.0|1.0|1.0|||Chi-squared, Corrected|||Birth companion present||1.0|1.0|0.50
82630017|NCT02148952|164975454|SUPERIORITY||Risk Ratio (RR)|1.1||||0.08|TWO_SIDED|95.0|1.0|1.3|||Chi-squared, Corrected|||Newborn weight taken||1.3|1.0|0.08
82630018|NCT02148952|164975454|SUPERIORITY||Risk Ratio (RR)|91.5|||<|0.001|TWO_SIDED|95.0|11.0|758.0|||Chi-squared, Corrected|||Newborn temperature taken||758|11.0|<0.001
82567387|NCT03840148|164844420|OTHER||Miettinen and Nurminen|8.2|||||TWO_SIDED|95.0|1.2|15.7||||||||15.7|1.2|
82567388|NCT00257556|164844441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045||||||95.0|-0.17|0.26|||||A two-sided 95% continuity-corrected confidence interval for the difference in percentages, based on the normal approximation|||0.260|-0.170|
82567389|NCT04839289|164844482|OTHER||||||>|0.05||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||"Null hypothesis: Subjective ratings of sound quality would not be different between any of the three study hearing aids when measured with a validated sound quality questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||>0.05
82567390|NCT04839289|164844482|OTHER||||||<|0.0167||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||"Null hypothesis: Subjective ratings of sound quality would not be different between any of the three study hearing aids when measured with a validated sound quality questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.0167
82567391|NCT04839289|164844485|OTHER||||||<|0.01666667||||||When p-value is adjusted for multiple comparisons, the value must be \</= to .01666667 (.05/3).|t-test, 2 sided|||"Null hypothesis: Satisfaction with hearing aid performance and features would not be different between any of the three study hearing aids when measured with subjective hearing aid satisfaction questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.01666667
82567392|NCT04839289|164844485|OTHER||||||<|0.01666667||||||When adjusted for multiple comparisons, the p-value must be \</= to .01666667 (.05/3).|t-test, 2 sided|||"Null hypothesis: Satisfaction with hearing aid performance and features would not be different between any of the three study hearing aids when measured with subjective hearing aid satisfaction questionnaire.~Analysis was done after all three home trials completed so all three sets of study devices could be compared."||||<.01666667
82567393|NCT00390806|164844493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.1862|TWO_SIDED|95.0|0.73|1.07||p-value from a stratified log-rank test is adjusted for Recursive Partitioning Analysis (RPA) class and the number of brain lesions at Screening.|Log Rank||The hazard ratio is estimated using a Pike estimator. The hazard ratio from a stratified log-rank test is adjusted for RPA class and the number of brain lesions at Screening.|||1.07|0.73|0.1862
82567394|NCT00663923|164844552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.1|<|0.05|TWO_SIDED|95.0|-0.62|-0.001||two - tailed p value \<0.05 were considered statistically significant.|t-test, 2 sided|in this study degrees of freedom is sample size - 1||||-.001|-.62|<0.05
82567395|NCT03935932|164844646|OTHER|||||||0.11|||||||Wilcoxon signed-rank|||||||0.11
82567396|NCT03935932|164844647|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82567397|NCT03935932|164844648|OTHER|||||||0.35|||||||Wilcoxon signed-rank|||||||0.35
82567398|NCT02679079|164844649|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|2.1||0.89|TWO_SIDED|95.0|-4.4|3.8||Nominal p-value is considered statistically significant if less than 0.05. To control for multiplicity, comparisons were tested sequentially.|Mixed Models Analysis|||||3.8|-4.4|0.89
82567399|NCT02679079|164844649|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|2.1||0.47|TWO_SIDED|95.0|-2.6|5.6||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||5.6|-2.6|0.47
82567400|NCT02679079|164844650|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.21|TWO_SIDED|95.0|-1.0|0.2||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||0.2|-1.0|0.21
82567401|NCT02679079|164844650|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.67|TWO_SIDED|95.0|-0.5|0.8||To control for multiplicity, comparisons were tested sequentially. Nominal p-value was not evaluated for statistical significance since first comparison was not statistically significant.|Mixed Models Analysis|||||0.8|-0.5|0.67
82567402|NCT02679079|164844651|SUPERIORITY||Risk Difference (RD)|13.9||||0.24|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years)|Risk difference expressed as percentage.|||||0.24
82567403|NCT02679079|164844651|SUPERIORITY||Risk Difference (RD)|-4.5||||0.71|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.71
82567404|NCT02679079|164844652|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|2.9||0.52|TWO_SIDED|95.0|-7.7|3.9||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||3.9|-7.7|0.52
82567405|NCT02679079|164844652|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|2.9||0.64|TWO_SIDED|95.0|-4.5|7.2||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||7.2|-4.5|0.64
82567406|NCT02679079|164844653|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|4.5||0.6|TWO_SIDED|95.0|-11.2|6.5||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||6.5|-11.2|0.60
82567407|NCT02679079|164844653|SUPERIORITY||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|4.5||0.54|TWO_SIDED|95.0|-6.1|11.7||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||11.7|-6.1|0.54
82630019|NCT02148952|164975454|SUPERIORITY||Risk Ratio (RR)|8.2|||<|0.001|TWO_SIDED|95.0|2.5|27.5|||Chi-squared, Corrected|||Skin-to-skin care initiated at birth||27.5|2.5|<0.001
82630020|NCT02148952|164975454|SUPERIORITY||Other|0.0||||0.01|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Skin-to-skin care maintained for 1 hr||||0.01
82630021|NCT02148952|164975454|SUPERIORITY||Risk Ratio (RR)|7.9|||<|0.001|TWO_SIDED|95.0|3.7|16.7|||Chi-squared, Corrected|||Initiation of breast-feeding||16.7|3.7|<0.001
82630022|NCT02148952|164975454|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Checklist use||||<0.001
82630023|NCT02148952|164975455|SUPERIORITY||Other|0.0|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected||The relative risk could not be calculated owing to 100% or 0% values in one group.|Maternal temperature taken||||<0.001
82508983|NCT01920932|164709587|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.050
82508984|NCT01920932|164709587|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Procedural Anxiety-T4, completion of radiation (approximately 8 months)||||0.520
82508985|NCT01920932|164709587|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.024
82508986|NCT01920932|164709587|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.011
82508987|NCT01920932|164709587|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Treatment Anxiety-T4, completion of radiation (approximately 8 months)||||0.009
82508988|NCT01920932|164709587|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
82508989|NCT01920932|164709587|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||<.001
82508990|NCT01920932|164709587|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Worry-T4, completion of radiation (approximately 8 months)||||0.035
82508991|NCT01920932|164709587|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.037
82508992|NCT01920932|164709587|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.043
82508993|NCT01920932|164709587|SUPERIORITY|||||||0.044|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Cognitive Problems-T4, completion of radiation (approximately 8 months)||||0.044
82508994|NCT01920932|164709587|SUPERIORITY|||||||0.091|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.091
82508995|NCT01920932|164709587|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.248
82508996|NCT01920932|164709587|SUPERIORITY|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Perceived Physical Appearance-T4, completion of radiation (approximately 8 months)||||0.069
82508997|NCT01920932|164709587|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.010
82508998|NCT01920932|164709587|SUPERIORITY|||||||0.292|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.292
82508999|NCT01920932|164709587|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.3.0 Communication-T4, completion of radiation (approximately 8 months)||||0.429
82509000|NCT01920932|164709588|SUPERIORITY|||||||0.975|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T1, At Diagnosis (baseline)||||0.975
82509001|NCT01920932|164709588|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||PedsQL v.4.0 Total Score-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.032
82509002|NCT01920932|164709588|SUPERIORITY|||||||0.497|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.497
82509003|NCT01920932|164709588|SUPERIORITY|||||||0.399|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Total Score-T4, completion of radiation (approximately 8 months)||||0.399
82509004|NCT01920932|164709588|SUPERIORITY|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T1, At Diagnosis (baseline)||||0.451
82509005|NCT01920932|164709588|SUPERIORITY|||||||0.198|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.198
82509006|NCT01920932|164709588|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.967
82509007|NCT01920932|164709588|SUPERIORITY|||||||0.647|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Physical Functioning-T4, completion of radiation (approximately 8 months)||||0.647
82509008|NCT01920932|164709588|SUPERIORITY|||||||0.145|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T1, At Diagnosis (baseline)||||0.145
82509009|NCT01920932|164709588|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||<.001
82509010|NCT01920932|164709588|SUPERIORITY|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.073
82509011|NCT01920932|164709588|SUPERIORITY|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Emotional Functioning-T4, completion of radiation (approximately 8 months)||||0.156
82509012|NCT01920932|164709588|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T1, At Diagnosis (baseline)||||0.844
82509013|NCT01920932|164709588|SUPERIORITY|||||||0.206|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.206
82509014|NCT01920932|164709588|SUPERIORITY|||||||0.491|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.491
82509015|NCT01920932|164709588|SUPERIORITY|||||||0.906|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 Social Functioning-T4, completion of radiation (approximately 8 months)||||0.906
82509016|NCT01920932|164709588|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T1, At Diagnosis (baseline)||||0.580
82509017|NCT01920932|164709588|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T2, completion of 2 cycles of chemotherapy (approximately 2 months)||||0.012
82509018|NCT01920932|164709588|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T3, completion of 4 cycles of chemotherapy (approximately 4 months)||||0.010
82509019|NCT01920932|164709588|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||PedsQL v.4.0 School Functioning-T4, completion of radiation (approximately 8 months)||||0.005
82567408|NCT02679079|164844654|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.64|TWO_SIDED|95.0|-2.6|1.6||Comparison was not included in multiplicity adjustment procedure.|ANCOVA|||||1.6|-2.6|0.64
82567409|NCT02679079|164844654|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.1||0.77|TWO_SIDED|95.0|-2.5|1.9||Comparison was not included in multiplicity adjustment procedure.|ANCOVA|||||1.9|-2.5|0.77
82567410|NCT02679079|164844655|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.2||0.45|TWO_SIDED|95.0|-1.4|3.2||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||3.2|-1.4|0.45
82567411|NCT02679079|164844655|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.2||0.72|TWO_SIDED|95.0|-2.7|1.9||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||1.9|-2.7|0.72
82567412|NCT02679079|164844656|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.41|TWO_SIDED|95.0|-0.3|0.7||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||0.7|-0.3|0.41
82567413|NCT02679079|164844656|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|0.2|1.1||Comparison was not included in multiplicity adjustment procedure.|Mixed Models Analysis|||||1.1|0.2|0.01
82567414|NCT02679079|164844657|SUPERIORITY||Risk Difference (RD)|14.8||||0.18|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.18
82567415|NCT02679079|164844657|SUPERIORITY||Risk Difference (RD)|-0.7||||0.95|TWO_SIDED|||||Comparison was not included in multiplicity adjustment procedure.|Cochran-Mantel-Haenszel|Stratified by age group (6 to 11 years, 12 to 17 years).|Risk difference expressed as a percentage.|||||0.95
82567416|NCT03924947|164844658|NON_INFERIORITY|The pre-specified non-inferiority margin of upper bound of the two-sided 99% confidence interval for the treatment difference was 12%.|Least Squares (LS) Mean of Difference|0.94|STANDARD_ERROR_OF_MEAN|1.176|||TWO_SIDED|99.0|-2.37|4.259|||||LS mean (standard error \[SE\]) and LS mean confidence interval (CI) are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Double Blind Creon - Double Blind Creon MP||4.259|-2.370|
82567417|NCT03924947|164844659|OTHER|Descriptive|LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|-2.456|2.392|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||2.392|-2.456|
82567418|NCT03924947|164844659|OTHER|Descriptive|LS Mean of Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.035|||TWO_SIDED|95.0|-3.005|1.345|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon AAPIS||1.345|-3.005|
82567419|NCT03924947|164844660|OTHER|Descriptive|LS Mean of Difference|-3.36|STANDARD_ERROR_OF_MEAN|3.541|||TWO_SIDED|95.0|-10.699|3.987|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||3.987|-10.699|
82567420|NCT03924947|164844660|OTHER|Descriptive|LS Mean of Difference|3.27|STANDARD_ERROR_OF_MEAN|4.016|||TWO_SIDED|95.0|-5.172|11.702|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|DB Creon - DB Creon AAPIS||11.702|-5.172|
82567421|NCT03924947|164844661|OTHER|Descriptive|LS Mean of Difference|34.68|STANDARD_ERROR_OF_MEAN|62.253|||TWO_SIDED|95.0|-94.424|163.786|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Creon - Creon MP||163.786|-94.424|
82567422|NCT03924947|164844661|OTHER|Descriptive|LS Mean of Difference|-16.56|STANDARD_ERROR_OF_MEAN|60.858|||TWO_SIDED|95.0|-144.418|111.298|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|DB Creon - DB Creon AAPIS||111.298|-144.418|
82567423|NCT03924947|164844662|NON_INFERIORITY|The pre-specified non-inferiority margin of upper bound of the two-sided 99% confidence interval for the treatment difference was 12%.|LS Mean of Difference|-1.15|STANDARD_ERROR_OF_MEAN|1.302|||TWO_SIDED|99.0|-4.892|2.602|||||LS mean (SE) and LS mean CI are based on a mixed effects model including sequence, period and regimen as fixed effects and participants within sequence as a random effect.|Double Blind Creon - Double Blind Creon AAPIS||2.602|-4.892|
82630024|NCT02148952|164975455|SUPERIORITY||Risk Ratio (RR)|12.7|||<|0.001|TWO_SIDED|95.0|4.7|34.3|||Chi-squared, Corrected|||Maternal blood pressure taken||34.3|4.7|<0.001
82630025|NCT02148952|164975455|SUPERIORITY||Risk Ratio (RR)|1.1||||0.95|TWO_SIDED|95.0|0.2|6.6|||Chi-squared, Corrected|||Mother given magnesium sulfate||6.6|0.2|0.95
82630026|NCT03748420|164975456|SUPERIORITY||Odds Ratio (OR)|1.29|STANDARD_ERROR_OF_MEAN|0.09845||0.0103|TWO_SIDED|95.0|1.06|1.56|||Regression, Logistic|||||1.56|1.06|0.0103
82630027|NCT03748420|164975457|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.1166||0.7967|TWO_SIDED|95.0|0.82|1.3|||Regression, Logistic|||||1.30|0.82|0.7967
82630028|NCT03748420|164975458|SUPERIORITY||Odds Ratio (OR)|1.18|STANDARD_ERROR_OF_MEAN|0.08906||0.0589|TWO_SIDED|95.0|0.99|1.41|||Regression, Logistic|||||1.41|0.99|0.0589
82630029|NCT03748420|164975459|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.0871||0.21|TWO_SIDED|95.0|-0.8|3.5|||Mixed Models Analysis|||||3.5|-0.8|0.21
82630030|NCT03748420|164975460|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1234||0.2|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|0.20
82630031|NCT03748420|164975461|SUPERIORITY||Mean Difference (Net)|-7.47|STANDARD_ERROR_OF_MEAN|59.96||0.901|TWO_SIDED|95.0|-124.99|110.04|||Mixed Models Analysis|||||110.04|-124.99|0.901
82630032|NCT00893763|164975509|SUPERIORITY_OR_OTHER|||||||0.1763|TWO_SIDED||||||mixed effects linear model|||We compared groups in a single analytical model using a mixed effects linear model with CPIS as the response variable. For this model, group (CHX, control), day, group by day interaction, APACHE III score and hospital (VCU, USF) were modeled as fixed effects and subject was modeled as a random effect.||||0.1763
82630033|NCT00893763|164975509|SUPERIORITY_OR_OTHER|||||||0.8656|TWO_SIDED||||||Regression, Logistic|||A logistic regression analysis was performed using the binary response variable of colonization or no colonization and dependent variables for group, length of intubation, and group-by-length-of-intubation interaction. The probability of a type 1 error ( a ) was set to 0.05.||||0.8656
82630034|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|0.0|||||TWO_SIDED|95.0|-18.4|20.4||||||Complete Clearance||20.4|-18.4|
82630035|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|0.0|||||TWO_SIDED|95.0|-18.4|20.4||||||Complete Clearance||20.4|-18.4|
82567424|NCT03009019|164844663|SUPERIORITY||Odds Ratio (OR)|1.4||||0.075|TWO_SIDED|95.0|0.97|2.03|||Fisher Exact|||Last Observation Carried Forward (LOCF)||2.03|0.97|0.075
82630036|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|7.1|||||TWO_SIDED|95.0|-12.2|31.5||||||Complete Clearance||31.5|-12.2|
82630037|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|1.6|||||TWO_SIDED|95.0|-23.0|27.5||||||≥ 75% Cleared||27.5|-23.0|
82630038|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|-5.1|||||TWO_SIDED|95.0|-28.3|19.6||||||≥ 75% Cleared||19.6|-28.3|
82630039|NCT00608842|164975521|SUPERIORITY_OR_OTHER||Difference to placebo|2.5|||||TWO_SIDED|95.0|-22.3|29.5||||||≥ 75% Cleared||29.5|-22.3|
82630040|NCT03559192|164975598|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.25|=|0.0443|ONE_SIDED|80.0||-1.09|||Mixed Models Analysis|||||-1.09||= 0.0443
82630041|NCT03559192|164975599|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.05||0.0017|ONE_SIDED|80.0||-2.21|||Mixed Models Analysis|||||-2.21||0.0017
82630042|NCT03559192|164975601|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.87|=|0.4188|ONE_SIDED|80.0||0.41|||Mixed Models Analysis|||||0.41||= 0.4188
82630043|NCT03559192|164975602|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.2503|ONE_SIDED|80.0||0.1|||Mixed Models Analysis|||||0.10||0.2503
82630044|NCT00400946|164975682|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||.60
82630045|NCT00142818|164975701|SUPERIORITY|||||||0.4|||||||ANOVA|||||||0.4
82630046|NCT01673373|164975713|OTHER|Due to the early termination of enrollment, all inferential analyses were interpreted as descriptive and carried out in an exploratory manner.|||||<|0.0001||||||The p-value was computed using a one-sided exact test of the difference between the observed rate and the Performance Goal (equal to 70%). The defined threshold for statistical significance is .025.|one-sided exact|||The original Performance Goal of 70% patency rate was derived from a thorough literature review of trials with renal bare metal stent placement. Other assumptions included a determination of samples size based upon a one-sided alpha of 0.025 and desired power of 87%, and assumption of 10% attrition. The null hypothesis was that the incidence of primary patency at 9 months is less than or equal to 70%.|"The cumulative incidence of primary patency was computed as the number of subject-lesions with primary patency at 9 months divided by the number of subject-lesions and was analyzed using the allowable window of 243 to 303 trial days.~An exact binomial one-sided 95% CI was constructed and the lower limit compared to the Performance Goal equal to 70%."|||<.0001
82630047|NCT01673373|164975714|OTHER|A one-sided 95% Confidence Interval for the mean difference between baseline and 9-month systolic blood pressure was constructed and the lower limit compared to the 10 mmHg performance goal. A p-value of the difference between the estimated systolic blood pressure change from the baseline and the performance goal was computed using a paired t-test.||||||0.0192||||||The defined threshold for statistical significance is .025.|t-test, 1 sided|||The primary endpoint of systolic blood pressure was analyzed according to the Performance Goal of a decrease in systolic blood pressure of 10 mmHg between procedure and 9 months.||||.0192
82630048|NCT05426460|164975729|SUPERIORITY|||||||0.438|||||||ANOVA|||2 x 2 ANOVA||||.438
82630049|NCT05426460|164975730|SUPERIORITY|||||||0.847|||||||ANOVA|||2 x 2 ANOVA||||.847
82630050|NCT05426460|164975731|SUPERIORITY|||||||0.57|||||||ANOVA|||2 X 2 ANOVA||||.570
82630051|NCT05426460|164975732|SUPERIORITY|||||||0.657|||||||ANOVA|||2 x 2 ANOVA||||.657
82630052|NCT05426460|164975733|SUPERIORITY|||||||0.254|||||||ANOVA|||2 x 2 ANOVA||||.254
82630053|NCT05426460|164975734|SUPERIORITY|||||||0.852|||||||ANOVA|||2 x 2 ANOVA with Main effect p-values for tDCS and AAT reported in comments below||||.852
82630054|NCT05426460|164975735|SUPERIORITY|||||||0.732|||||||ANOVA|||2 x 2 ANOVA||||.732
82630055|NCT05426460|164975736|SUPERIORITY|||||||0.038|||||||ANOVA|||2 x 2 ANOVA||||.038
82509020|NCT00071812|164709594|SUPERIORITY_OR_OTHER||percent difference from placebo|18.8||||0.0097|TWO_SIDED|95.0|4.8|32.8||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||32.8|4.8|0.0097
82509021|NCT00071812|164709594|SUPERIORITY_OR_OTHER||percent difference from placebo|9.4||||0.1677|TWO_SIDED|95.0|-3.9|22.7||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||22.7|-3.9|0.1677
82509022|NCT00071812|164709594|SUPERIORITY_OR_OTHER||percent difference from placebo|12.2||||0.0796|TWO_SIDED|95.0|-1.3|25.8||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||25.8|-1.3|0.0796
82509023|NCT00071812|164709595|SUPERIORITY_OR_OTHER||percent difference from placebo|5.4||||0.2074|TWO_SIDED|95.0|-3.0|13.7||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||13.7|-3.0|0.2074
82509024|NCT00071812|164709595|SUPERIORITY_OR_OTHER||percent difference from placebo|4.1||||0.3177|TWO_SIDED|95.0|-4.0|12.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||12.2|-4.0|0.3177
82509025|NCT00071812|164709595|SUPERIORITY_OR_OTHER||percent difference from placebo|9.7||||0.0418|TWO_SIDED|95.0|0.3|19.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||19.2|0.3|0.0418
82509026|NCT00071812|164709596|SUPERIORITY_OR_OTHER||percent difference from placebo|2.7||||0.4299|TWO_SIDED|95.0|-4.0|9.3||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||9.3|-4.0|0.4299
82509027|NCT00071812|164709596|SUPERIORITY_OR_OTHER||percent difference from placebo|-1.5||||0.5393|TWO_SIDED|95.0|-6.3|3.3||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||3.3|-6.3|0.5393
82509028|NCT00071812|164709596|SUPERIORITY_OR_OTHER||percent difference from placebo|-0.1||||0.9769|TWO_SIDED|95.0|-5.6|5.4||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data.||5.4|-5.6|0.9769
82509029|NCT00071812|164709597|SUPERIORITY_OR_OTHER|||||||0.1752||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.1752
82567425|NCT03009019|164844663|SUPERIORITY||Odds Ratio (OR)|1.47||||0.055|TWO_SIDED|95.0|1.0|2.14|||Fisher Exact|||Observed cases (OC)||2.14|1.00|0.055
82567426|NCT03009019|164844664|SUPERIORITY||Odds Ratio (OR)|1.75||||0.003|TWO_SIDED|95.0|1.22|2.52|||Regression, Logistic|||||2.52|1.22|0.003
82567427|NCT03009019|164844664|SUPERIORITY||Odds Ratio (OR)|1.76||||0.003|TWO_SIDED|95.0|1.22|2.55|||Regression, Logistic|||||2.55|1.22|0.003
82509030|NCT00071812|164709597|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.3440
82509031|NCT00071812|164709597|SUPERIORITY_OR_OTHER|||||||0.4308||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have any ACR response were censored at the last visit or exit visit, whichever occurred first. Patients who did not have an ACR response and discontinued from the study prior to study completion were censored at the last date on study.||||0.4308
82509032|NCT00071812|164709600|SUPERIORITY_OR_OTHER|||||||0.0958||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using last observation carried forward (LOCF) imputation.||||0.0958
82509033|NCT00071812|164709600|SUPERIORITY_OR_OTHER|||||||0.7864||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.7864
82509034|NCT00071812|164709600|SUPERIORITY_OR_OTHER|||||||0.0051||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.0051
82567428|NCT01057888|164844704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||<|0.05|TWO_SIDED|95.0|1.0|1.7|||Regression, Cox|It is a robust, clustered stratified Cox regression model|The control group serves as the denominator. The telephone reminder group serves as the numerator.|The null hypothesis is that there is no difference in total immunization status between the control group and the group receiving telephone (autodialer) reminders. This was analyzed using a clustered, stratified Cox model.||1.7|1.0|<0.05
82567429|NCT01057888|164844704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6|||<|0.01|TWO_SIDED|95.0|1.3|2.1|||Regression, Cox|We used a robust, clustered, stratified Cox regression model.|The control group represents the denominator. The letter reminder group represents the numerator.|||2.1|1.3|<0.01
82509035|NCT00071812|164709601|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.0960
82630056|NCT05426460|164975737|SUPERIORITY|||||||0.029|||||||ANOVA|||2 x 2 ANOVA||||.029
82630057|NCT05426460|164975738|SUPERIORITY|||||||0.353|||||||ANOVA|||2 x 2 ANOVA||||.353
82639748|NCT03655951|164994358|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.83|||||||Regression, Linear|||||||.83
82639749|NCT03655951|164994359|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.04|||||||Regression, Linear|||||||.04
82509036|NCT00071812|164709601|SUPERIORITY_OR_OTHER|||||||0.2859||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.2859
82509037|NCT00071812|164709601|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required rescue RA medications were declared nonresponders, as were patients who dropped out or were missing Week 24 data. Patients who did not have good or moderate improvement in DAS28 were censored at the last visit or exit visit, whichever occurred first. Patients who did not have good or moderate improvement in DAS28 and discontinued from the study prior to study completion were censored at the last date on study.||||0.0109
82639750|NCT03655951|164994360|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.13|||||||Regression, Linear|||||||.13
82639751|NCT03655951|164994361|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.56|||||||Regression, Linear|||||||.56
82509038|NCT00071812|164709602|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.1940
82509039|NCT00071812|164709602|SUPERIORITY_OR_OTHER|||||||0.2561||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.2561
82509040|NCT00071812|164709602|SUPERIORITY_OR_OTHER|||||||0.8707||95.0||||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||||0.8707
82509041|NCT01218516|164709632|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.3519|TWO_SIDED|80.0|0.92|1.63||Per Primary Analysis Cut-Off Date|Log Rank|||||1.63|0.92|0.3519
82509042|NCT01218516|164709632|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.34||||0.1555|TWO_SIDED|80.0|1.03|1.74||Per Final Analysis Cut-Off Date|Log Rank|||||1.74|1.03|0.1555
82509043|NCT00436748|164709656|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Exact|||The null hypothesis for the Darbepoetin Alfa QW group was that the correction proportion (p) ≤ 0.8 ; Th alternative hypothesis was that p \> 0.8. The correction proportion was compared with 0.8 using the exact method to test the null hypothesis at a 1-sided overall significance level of 0.025.||||<0.001
82509044|NCT00436748|164709656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293|||||||Exact|||The null hypothesis for the Darbepoetin Alfa Q2W group was that the correction proportion (p) ≤ 0.8 ; Th alternative hypothesis was that p \> 0.8. The correction proportion was compared with 0.8 using the exact method to test the null hypothesis at a 1-sided overall significance level of 0.025.||||0.293
82509045|NCT01610791|164709672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in ALT from Baseline to Week 24||||<0.001
82509046|NCT01610791|164709672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in AST from Baseline to Week 24||||<0.001
82509047|NCT01610791|164709673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Diffrence in total cholesterol from baseline to Week 24||||<0.001
82509048|NCT01610791|164709673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Difference in LDL cholesterol from baseline to Week 24||||<0.001
82509049|NCT02121483|164709733|SUPERIORITY_OR_OTHER||Slope|0.949|STANDARD_ERROR_OF_MEAN|0.1075|||TWO_SIDED|95.0|0.7276|1.1704|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and AUC0-inf. Based on the estimate for the slope parameter β, a 2-sided 95% confidence interval (CI) for the slope was computed.|||1.1704|0.7276|
82509050|NCT02121483|164709734|SUPERIORITY_OR_OTHER||Slope|0.9597|STANDARD_ERROR_OF_MEAN|0.1088|||TWO_SIDED|95.0|0.7356|1.1838|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and AUC0-tz. Based on the estimate for the slope parameter β, a 2-sided 95% CI for the slope was computed.|||1.1838|0.7356|
82509051|NCT02121483|164709735|SUPERIORITY_OR_OTHER||Slope|0.8554|STANDARD_ERROR_OF_MEAN|0.1481|||TWO_SIDED|95.0|0.5504|1.1603|||||Dose proportionality was assessed based on a power model that describes the functional relationship between the dose and Cmax. Based on the estimate for the slope parameter β, a 2-sided 95% CI for the slope was computed.|||1.1603|0.5504|
82509052|NCT01203072|164709744|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance level for Cochran-Armitage test and comparison using Shirley-Williams method was set at one-sided, 0.025. For other tests, significance level and confidence coefficient were set at two-sided, 0.05 and 0.95, respectively, unless specified|Cochran-Armitage|||As the primary analysis, the dose-response relationship in the incidence of thromboembolic event was verified using the Cochran-Armitage test.||||<0.001
82509053|NCT02272413|164709747|EQUIVALENCE|The null hypothesis was to be rejected in favor of equivalence if the 2-sided 90% confidence interval (CI) for the ratio in best ORR between the treatments was entirely contained within the equivalence margins of 0.736 to 1.359.|Ratio of best ORR|0.855|||||TWO_SIDED|90.0|0.7697|0.9506|||Log-binomial regression|||Analysis was based on a log-binomial regression model with subsequent transformation of the estimated parameter (ratio of best ORR) respective CIs to the ratio scale. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus Non-East Asian).||0.9506|0.7697|
82509054|NCT02272413|164709747|EQUIVALENCE|Additional analysis of the primary endpoint was performed for Japan according to a local protocol amendment Japan. For the submission in Japan, to conclude on equivalence, the 2-sided 95% CI for the ratio of best ORR between the treatments had to be entirely contained within the equivalence margins of 0.736 to 1.359.|Ratio of best ORR|0.855|||||TWO_SIDED|95.0|0.7543|0.97|||Log-binomial regression|||Analysis was based on a log-binomial regression model with subsequent transformation of the estimated parameter (ratio of best ORR) respective CIs to the ratio scale. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus Non-East Asian).||0.9700|0.7543|
82509055|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.99|1.37|||Score exact method|||At least 1 AE selected for comparability assessment, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.37|0.99|
82509056|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.88|1.88|||Score exact method|||Infusion reactions, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.88|0.88|
82509057|NCT02272413|164709748|OTHER||Risk Ratio|1.2|||||TWO_SIDED|95.0|0.64|2.32|||Score exact method|||Thromboembolic events, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||2.32|0.64|
82509058|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.51|2.76|||Score exact method|||Febrile neutropenia, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||2.76|0.51|
82509059|NCT02272413|164709748|OTHER||Risk Ratio (RR)|3.43|||||TWO_SIDED|95.0|0.79|32.82|||Score exact method|||Gastrointestinal perforations, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||32.82|0.79|
82509060|NCT02272413|164709748|OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.66|1.39|||Score exact method|||Hypertension, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.39|0.66|
82509061|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.74|1.57|||Score exact method|||Proteinuria, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.57|0.74|
82509062|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.28|10.79|||Score exact method|||Pulmonary haemorrhage, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||10.79|0.28|
82509063|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.24|||||TWO_SIDED|95.0|0.88|1.74|||Score exact method|||Other hemorrhages, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||1.74|0.88|
82509064|NCT02272413|164709748|OTHER||Risk Ratio (RR)|1.26|||||TWO_SIDED|95.0|0.47|3.57|||Score excat method|||Wound healing complications/ abscesses/ fistulas, risk ratio X (BI 695502) versus Y (US-licensed Avastin®) was defined as (a/(a+b))/(c/(c+d)), where 'a' was the number of patients with TEAEs selected for comparability within treatment group X, 'a+b' was the total number of patients in treatment group X, 'c' was the number of patients with TEAEs selected for comparability within treatment group Y and 'c+d' was the total number of patients in treatment group Y.||3.57|0.47|
82567430|NCT01057888|164844704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.075|TWO_SIDED|95.0|1.0|1.6|||Regression, Cox||The mail reminder arm represents the numerator and the telephone reminder arm represents the denominator.|The null hypothesis was that there is no difference in the percentage of fully vaccinated adolescents between the mailed reminder versus the telephone reminder arms||1.6|1.0|0.075
82509065|NCT02272413|164709749|OTHER||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|1.02|1.45|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.45|1.02|
82567431|NCT01057888|164844705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||<|0.01|TWO_SIDED|95.0|1.1|1.3|||Regression, Cox||The control group represents the denominator and the mailed reminder group represents the numerator.|The null hypothesis was that a difference in well child care rates among adolescents whose families received a mailed reminder compared to the control group||1.3|1.1|<0.01
82567432|NCT01057888|164844705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||<|0.05|TWO_SIDED|95.0|1.0|1.3|||Regression, Cox||The control group represents the denominator and the telephone reminder group represents the numerator|The null hypothesis is the the well child care rates of adolescents in the telephone reminder group would not differ from those of the control group||1.3|1.0|<0.05
82567433|NCT01057888|164844705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.234|TWO_SIDED|95.0|1.0|1.2|||Regression, Cox||The mail reminder arm represents the numerator and the telephone reminder arm represents the denominator|The null hypothesis was that there would be no difference in the well child care rate among adolescents in the mailed reminder arm versus adolescents in the telephone reminder arm of the intervention||1.2|1.0|0.234
82567434|NCT01697592|164844710|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.93|||<|0.001|TWO_SIDED|95.0|-1.1|-0.75|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.75|-1.10|<0.001
82377608|NCT03417778|164462608|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUClast of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUClast change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|122.08|||||TWO_SIDED|90.0|69.67|213.89||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUClast. Two-sided 90% CI were calculated for the GLSM ratio of AUClast between hepatic impairment group versus the matched control (normal hepatic function) group.||213.89|69.67|
82639752|NCT03655951|164994362|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.96|||||||Regression, Linear|||||||.96
82639753|NCT03655951|164994363|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.35|||||||Regression, Linear|||||||.35
82639754|NCT03655951|164994364|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.24|||||||Regression, Linear|||||||.24
82639755|NCT03655951|164994365|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.2|||||||Regression, Linear|||||||.2
82639756|NCT03655951|164994366|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.18|||||||Regression, Linear|||||||.18
82639757|NCT03655951|164994367|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.67|||||||Regression, Linear|||To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||.67
82639758|NCT03655951|164994368|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.57|||||||Regression, Linear|||||||.57
82639759|NCT03655951|164994369|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.65|||||||Regression, Linear|||||||.65
82639760|NCT03655951|164994370|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.84|||||||Regression, Linear|||||||.84
82639761|NCT03655951|164994371|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
82639762|NCT03655951|164994372|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.65|||||||Regression, Linear|||||||.65
82639763|NCT03655951|164994373|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.09|||||||Regression, Linear|||||||.09
82639764|NCT03655951|164994374|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.95|||||||Regression, Linear|||||||.95
82639765|NCT03655951|164994375|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.47|||||||Regression, Linear|||||||.47
82639766|NCT03655951|164994376|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.003|||||||Regression, Linear|||||||.003
82639767|NCT03655951|164994377|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.77|||||||Regression, Linear|||||||.77
82639768|NCT03655951|164994378|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.|||||<|0.001|||||||Regression, Linear|||||||<.001
82639769|NCT03655951|164994379|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.06|||||||Regression, Linear|||||||.06
82639770|NCT03655951|164994380|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.91|||||||Regression, Linear|||||||.91
82639771|NCT03655951|164994381|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.95|||||||Regression, Linear|||||||.95
82639772|NCT03655951|164994382|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.12|||||||Regression, Linear|||||||.12
82639773|NCT03655951|164994383|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.98|||||||Regression, Linear|||||||.98
82639774|NCT03655951|164994384|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.57|||||||Regression, Linear|||||||.57
82509066|NCT02272413|164709750|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|1.0|1.51|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.51|1.00|
82509067|NCT02272413|164709751|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.88|1.48|||Cox-proportional hazards regression|||Analysis based on a Cox-proportional hazards regression model. The model included the following explanatory variables: treatment, sex (male versus female), smoking status (never smoked versus current/ex-smoker), NSCLC stage (recurrent versus Stage IV) and ethnicity (East Asian origin versus non East Asian).||1.48|0.88|
82509068|NCT01067768|164709752|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.5|1.3|||||The primary outcome analysis was performed using relative risk (RR) between the rate of urinary tract infection per 1,000 days of exposure of the test subjects to intervention and that of patients undergoing routine care.|The sample size was calculated for the primary outcome. An infection rate 15 per 1,000 urinary catheter days in the control group and an expected reduction in the intervention group 40% clinically important effect. Mapping one to one, 5% alpha error and beta error 20%.||1.3|0.50|
82509069|NCT01067768|164709753|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||The difference between groups was evaluated with a U test Mann Whitney. The difference was statistically significant with p values less than 0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis: On average catheterization are the same in patients with daily review of the indication and control group patients||||0.016
82509070|NCT03917420|164709806|OTHER|Correlation|Spearman's Rho|-0.455|||||TWO_SIDED|||||||||||||
82509071|NCT03917420|164709807|OTHER|Correlation|Spearman's Rho|0.152|||||TWO_SIDED|||||||||||||
82509072|NCT03917420|164709808|OTHER|Correlation|Spearman's Rho|0.564|||||TWO_SIDED|||||||||||||
82567435|NCT01697592|164844710|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.37|-0.6|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.60|-1.37|<0.001
82567436|NCT01697592|164844710|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.92|||<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.56|-1.29|<0.001
82567437|NCT01697592|164844710|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.45|-0.88|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.88|-1.45|<0.001
82630058|NCT03671148|164975770|SUPERIORITY||Response Rate Difference|24.5|||<|0.001|TWO_SIDED|95.0|15.9|33.0||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|The comparison between the risankizumab and placebo treatment groups for the primary efficacy endpoint (ACR20 at Week 24) was performed using the Cochran-Mantel-Haenszel (CMH) test adjusting for the stratification factors of current use of csDMARD (0 vs ≥ 1), number of prior biologic therapies (0 vs ≥ 1), and extent of psoriasis (≥ 3% BSA or \< 3% BSA) at Baseline.||33.0|15.9|<0.001
82567438|NCT01697592|164844710|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.8|||<|0.001|TWO_SIDED|95.0|-1.06|-0.54|||Constrained longitudinal data analysis|Constrained longitudinal data analysis with terms for treatment, basal AHA medication, prior AHA therapy status except for basal medication, and time.||||-0.54|-1.06|<0.001
82378439|NCT00625872|164465423|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.43|STANDARD_ERROR_OF_MEAN|1.1||0.7232|TWO_SIDED|95.0|-3.93|3.08||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Analysis of covariance (ANCOVA) method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||3.08|-3.93|0.7232
82509073|NCT03917420|164709809|OTHER|Correlation|Spearman's Rho|0.285|||||TWO_SIDED|||||||||||||
82509074|NCT03317431|164709828|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DRD1 expression.||||<0.01
82509075|NCT03317431|164709829|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DRD2 expression.||||>0.01
82567439|NCT05109117|164844720|SUPERIORITY||Adjusted Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|1.7|3.9|||ANCOVA|Analysis of Covariance (ANCOVA) model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 2 hours post-treatment||3.9|1.7|<0.0001
82567440|NCT05109117|164844720|SUPERIORITY||Adjusted Mean Difference|1.5||||0.0077|TWO_SIDED|95.0|0.4|2.7|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 4 hours post-treatment||2.7|0.4|0.0077
82567441|NCT05109117|164844720|SUPERIORITY||Adjusted Mean Difference|1.8||||0.0019|TWO_SIDED|95.0|0.7|2.9|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 6 hours post-treatment||2.9|0.7|0.0019
82567442|NCT05109117|164844720|SUPERIORITY||Adjusted Mean Difference|1.0||||0.0707|TWO_SIDED|95.0|-0.1|2.2|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 8 hours post-treatment||2.2|-0.1|0.0707
82509076|NCT03317431|164709830|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with TH expression.||||>0.01
82509077|NCT03317431|164709831|SUPERIORITY||||||>|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with DDC expression.||||>0.01
82509078|NCT03317431|164709832|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analysis the relationship between the duration of mechanical ventilation with Ac-a-tubulin expression.||||<0.01
82567443|NCT03972137|164844735|OTHER|A paired-samples t-test was conducted to compare changes in cigarettes smoked per day from Baseline (BL) to Quit Day.|Mean Difference (Final Values)|11.42|STANDARD_DEVIATION|6.08||0.003|TWO_SIDED|95.0|5.79|17.05||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean cigarettes smoked per day at Baseline and Quit Date (Mean CPD at Baseline - Mean CPD at Quit Date).|||17.05|5.79|.003
82567444|NCT03972137|164844735|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from baseline (BL) to 3-month follow-up session (3MFU).|Mean Difference (Final Values)|11.9|STANDARD_DEVIATION|8.45||0.067|TWO_SIDED|95.0|-1.55|25.35||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean cigarettes smoked per day at Baseline and 3-month follow-up. Estimated value reported is reflective of the n=4 participants that attended the 3-month follow-up session.|||25.35|-1.55|.067
82567445|NCT03972137|164844736|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total score from baseline (BL) to 2-weeks post-quit (2W).|Mean Difference (Final Values)|19.67|STANDARD_DEVIATION|11.91||0.01|TWO_SIDED|95.0|7.17|32.17||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 2-weeks post-quit. Estimated value reported is reflective of the n=6 participants that attended the 2-weeks post quit session.|||32.17|7.17|.010
82567446|NCT03972137|164844736|OTHER|A paired-samples t-test was conducted to examine the difference in DASS-21 Total scores from baseline (BL) to 1-month post-quit (1M).|Mean Difference (Final Values)|31.2|STANDARD_DEVIATION|20.4||0.027|TWO_SIDED|95.0|5.88|56.52||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 1-month post-quit. Estimated value reported is reflective of the n=5 participants that attended the 1-month post-quit session.|||56.52|5.88|.027
82567447|NCT03972137|164844736|OTHER|A paired-samples t-test was conducted to evaluate the difference in DASS-21 total scores from baseline (BL) to 3-month follow up (3MFU).|Mean Difference (Final Values)|25.75|STANDARD_DEVIATION|15.5||0.045|TWO_SIDED|95.0|1.09|50.41||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at Baseline and 3-month follow-up. Estimated value reported is reflective of the n=4 participants that attended the 3-month follow-up session.|||50.41|1.09|.045
82567448|NCT01797822|164844737|OTHER|Statistical comparison between groups was made with t-test. A sample size of 20 subjects was calculates to have 90% power of detecting a statistical difference (P\<0.05) in change in corneal staining pre and post low humidity challenge.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82567449|NCT03319719|164844738|SUPERIORITY||Mean Difference (Net)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.42|-2.33||p-value from paired two-sided t-tests of no difference between test and control groups.|t-test, 2 sided|||||-2.33|-3.42|<0.0001
82567450|NCT02973477|164844756|OTHER|Mixed effects model|Coefficient|0.28||||0.28|TWO_SIDED|95.0|-0.24|0.8||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted mixed models analysis for both periods, both arms, comparing each treatment's change.||0.8|-0.24|0.28
82567451|NCT02973477|164844757|OTHER||Coefficient|-0.003||||0.97|TWO_SIDED|95.0|-0.16|0.15||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis to compare the difference between the values from baseline to 12 weeks between each intervention for SDNN.||0.15|-0.16|0.97
82567452|NCT02973477|164844757|OTHER||Coefficient|-0.02||||0.79|TWO_SIDED|95.0|-0.21|0.16||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis to compare the difference between the values from baseline to 12 weeks between each intervention for rmsSD.||0.16|-0.21|0.79
82567453|NCT02973477|164844758|OTHER||Coefficient|0.01||||0.58|TWO_SIDED|95.0|-0.02|0.04||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of EI ratio.||0.04|-0.02|0.58
82567454|NCT02973477|164844758|OTHER||Coefficient|0.02||||0.58|TWO_SIDED|95.0|-0.05|0.09||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome. Coefficient provided for Valsalva ratio.|Mixed Models Analysis||The outcome was logged in the model. The outcome was the natural log of that variable and the coefficient and CI are for the relationship with the log of the outcome.|This is the adjusted analysis for both periods, both arms, comparing each treatment's change of Valsalva ratio.||0.09|-0.05|0.58
82639775|NCT03655951|164994385|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.98|||||||Regression, Linear|||||||.98
82639776|NCT03655951|164994386|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.07|||||||Regression, Linear|||||||.07
82639777|NCT03655951|164994387|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.02|||||||Regression, Linear|||||||.02
82639778|NCT03655951|164994388|EQUIVALENCE|To examine intervention effects, a residual difference score approach was used to provide an estimate of change from baseline and is assessed by regressing follow-up scores onto baseline scores and the treatment variables.||||||0.15|||||||Regression, Linear|||||||.15
82639779|NCT02486263|164994389|SUPERIORITY|||||||0.28||||||The threshold for statistical significance was \<0.05.|Chi-squared|||||||0.28
82630059|NCT03671148|164975771|SUPERIORITY||Least Squares (LS) Mean Difference|-0.16|||<|0.001|TWO_SIDED|95.0|-0.26|-0.07||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.07|-0.26|<0.001
82378440|NCT00625872|164465424|SUPERIORITY_OR_OTHER||LS Mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.51||0.1941|TWO_SIDED|95.0|-8.04|4.82||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||4.82|-8.04|0.1941
82630060|NCT03671148|164975772|SUPERIORITY||Response Rate Difference|44.3|||<|0.001|TWO_SIDED|95.0|33.9|54.6||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||54.6|33.9|<0.001
82630061|NCT03671148|164975773|SUPERIORITY||Response Rate Difference|22.6|||<|0.001|TWO_SIDED|95.0|13.9|31.2||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||31.2|13.9|<0.001
82630062|NCT03671148|164975774|SUPERIORITY||Response Rate Difference|14.0|||<|0.001|TWO_SIDED|95.0|7.0|21.0||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||21.0|7.0|<0.001
82630063|NCT03671148|164975775|SUPERIORITY||LS Mean Difference|3.86|||<|0.001|TWO_SIDED|95.0|2.41|5.31||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||5.31|2.41|<0.001
82630064|NCT03671148|164975776|SUPERIORITY||LS Mean Difference|2.2||||0.009|TWO_SIDED|95.0|0.6|3.9||A fixed sequence testing procedure is used to control the overall type I error rate at 2-sided alpha = 0.05 for the primary endpoint and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||3.9|0.6|0.009
82630065|NCT03671148|164975777|SUPERIORITY||Response Rate Difference|16.6|||<|0.001|TWO_SIDED|95.0|9.7|23.6|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||23.6|9.7|<0.001
82630066|NCT03671148|164975778|SUPERIORITY||Response Rate Difference|6.0||||0.024|TWO_SIDED|95.0|0.8|11.3|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||11.3|0.8|0.024
82630067|NCT03671148|164975779|SUPERIORITY||Response Rate Difference|13.8||||0.009|TWO_SIDED|95.0|3.5|24.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||24.2|3.5|0.009
82630068|NCT03671148|164975780|SUPERIORITY||Response Rate Difference|38.8|||<|0.001|TWO_SIDED|95.0|22.9|54.8|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current use of csDMARD, number of prior biologic therapies, and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||54.8|22.9|<0.001
82630069|NCT03887052|164975799|NON_INFERIORITY|The primary endpoint was performed as a one-sided test with a 0.025 significance level of the null hypothesis (H0) that the WCD false positive shock alarm rate per patient-day for the study device was equal to or greater than the comparator rate (0.29). A random-effects Poisson regression model was fit with the number of false-positive shock alarms for each patient as the outcome, the logarithm of days of wear as an offset, and random site effect.|||||<|0.001||||||"Hypotheses:~H0: p1 ≥ 0.29 H1: p1 \< 0.29~where p1 = A-WCD False Positive Alarm Rate"|One-sided non-inferiority|Poisson Regression Analysis||The analysis was based on the cohort of 130 patients with three false-positive shock alarms occurring over a total of 3501 patient-days (500 weeks), or 0.0060 false-positive shock alarms per patient-week. The Poisson distribution was used to model the results and calculate the false-positive shock alarm rate.||||<0.001
82630070|NCT02365506|164975802|SUPERIORITY||Difference in LSM|-7.7|STANDARD_ERROR_OF_MEAN|7.92||0.358|TWO_SIDED|95.0|-26.0|10.5|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|Least Square mean (LSM) and 95% confidence interval (CI) is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||10.5|-26.0|0.358
82630071|NCT02365506|164975802|SUPERIORITY||Difference in LSM|-1.7|STANDARD_ERROR_OF_MEAN|7.96||0.84|TWO_SIDED|95.0|-20.0|16.7|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||16.7|-20.0|0.840
82630072|NCT02365506|164975803|SUPERIORITY||Difference in LSM|-6.0|STANDARD_ERROR_OF_MEAN|5.83||0.338|TWO_SIDED|95.0|-19.8|7.8|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||7.8|-19.8|0.338
82509079|NCT04753164|164709833|OTHER|Mixed effects model for Repeated Measures: Change from baseline in the number of BE days per week = baseline number of BE days per week + sex (Male; Female) + BMI group (\< 30 ; ≥ 30 kg/m2) + treatment + visit + treatment × visit + baseline × visit.|LS Mean Difference to Placebo|0.0||||0.9992|TWO_SIDED|95.0|-0.69|0.69|||Mixed effects model f. repeated measures|||||0.69|-0.69|0.9992
82509080|NCT03712410|164709853|OTHER|Group Comparisons||||||0.186||||||p-value for Difference (FollowUp-Baseline) Generalised Anxiety Disorder Assessment (GAD-7)|Kruskal-Wallis|||||||0.1860
82509081|NCT03712410|164709853|OTHER|Group Comparisons||||||0.2752||||||p-value for Difference (FollowUp-Baseline) Patient Health Questionnaire 9 (PHQ9)|Kruskal-Wallis|||||||0.2752
82509082|NCT03712410|164709853|OTHER|Group Comparisons||||||0.6233||||||p-value for Difference (FollowUp-Baseline) Caregiver Quality of Life Index (CQLI-R)|Kruskal-Wallis|||||||0.6233
82509083|NCT03712410|164709854|OTHER|Group Comparison||||||0.5638||||||p-value for Difference (FollowUp-Baseline) Generalised Anxiety Disorder Assessment (GAD-7)|Wilcoxon (Mann-Whitney)|||||||0.5638
82509084|NCT03712410|164709854|OTHER|Group Comparisons||||||0.9848||||||p-value for Difference (FollowUp-Baseline) Patient Health Questionnaire 9 (PHQ9)|Wilcoxon (Mann-Whitney)|||||||0.9848
82509085|NCT03712410|164709854|OTHER|Group Comparisons||||||0.9169||||||p-value for Difference (FollowUp-Baseline) Caregiver Quality of Life Index (CQLI-R)|Wilcoxon (Mann-Whitney)|||||||0.9169
82567455|NCT02973477|164844758|OTHER||Coefficient|-0.01||||0.56|TWO_SIDED|95.0|-0.05|0.03||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome. Coefficient provided for 30:15 ratio.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of 30:15 ratio.||0.03|-0.05|0.56
82567456|NCT02973477|164844759|OTHER||Coefficient|0.01||||0.92|TWO_SIDED|95.0|-0.23|0.25||Adjusted analysis used a linear mixed effects model with unstructured covariance matrix controlled for possible period and sequence (carryover) effects for the outcome.|Mixed Models Analysis|||This is the adjusted analysis for both periods, both arms, comparing each treatment's change of BNP.||0.25|-0.23|0.92
82567457|NCT01947153|164844771|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|102.92|STANDARD_ERROR_OF_MEAN|1.027|<|0.0001|TWO_SIDED|90.0|98.37|107.688||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||107.688|98.370|<0.0001
82567458|NCT01947153|164844772|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|105.14|STANDARD_ERROR_OF_MEAN|1.032|<|0.0001|TWO_SIDED|90.0|99.645|110.941||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||110.941|99.645|<0.0001
82567459|NCT01947153|164844773|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|109.05|STANDARD_ERROR_OF_MEAN|1.063||0.0014|TWO_SIDED|90.0|98.299|120.968||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||120.968|98.299|0.0014
82567460|NCT01947153|164844774|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|105.81|STANDARD_ERROR_OF_MEAN|1.043|<|0.0001|TWO_SIDED|90.0|98.471|113.692||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||113.692|98.471|<0.0001
82567461|NCT01947153|164844775|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.48|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.177|105.208||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||105.208|92.177|<0.0001
82567462|NCT01947153|164844776|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|104.62|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.274|110.254||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||110.254|99.274|<0.0001
82567463|NCT01947153|164844777|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|102.92|STANDARD_ERROR_OF_MEAN|1.027|<|0.0001|TWO_SIDED|90.0|98.37|107.688||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||The geometric mean ratio is calculated as the geometric mean of 'Fixed dose combination' divided by the geometric mean of 'Free combination '.|||107.688|98.370|<0.0001
82567464|NCT02381652|164844778|OTHER|Statistical test to see if there is a difference||||||0.3108|||||||Fisher Exact|||||||0.3108
82567465|NCT01340300|164844779|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||<0.0001
82567466|NCT01340300|164844779|SUPERIORITY|||||||0.003||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||0.003
82567467|NCT01340300|164844779|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of insulin in treatment arm is greater than the control arm.||||0.01
82567468|NCT01340300|164844779|SUPERIORITY|||||||0.03||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Insulin in combined arm is greater than the exercise-only or metformin-only arm.||||0.03
82567469|NCT01340300|164844780|SUPERIORITY|||||||0.0002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of leptin in treatment arm is greater than the control arm.||||0.0002
82567470|NCT01340300|164844780|SUPERIORITY|||||||0.002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of IGFBP\_1 in treatment arm is greater than the control arm.||||0.002
82567471|NCT01340300|164844780|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of IGFBP\_1 in treatment arm is greater than the control arm.||||0.02
82509086|NCT03712410|164709855|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Generalised Anxiety Disorder Assessment (GAD-7) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
82378441|NCT00625872|164465426|SUPERIORITY_OR_OTHER|||||||0.0532||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Sequential Processing): Kruskal-Wallis Analysis of Variance (ANOVA) model was used to calculate p-value.||||0.0532
82630073|NCT02365506|164975803|SUPERIORITY||Difference in LSM|5.3|STANDARD_ERROR_OF_MEAN|6.21||0.425|TWO_SIDED|95.0|-9.4|19.9|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||19.9|-9.4|0.425
82630074|NCT02365506|164975804|SUPERIORITY||Difference in LSM|-6.5|STANDARD_ERROR_OF_MEAN|4.42||0.174|TWO_SIDED|95.0|-16.5|3.5|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||3.5|-16.5|0.174
82630075|NCT02365506|164975804|SUPERIORITY||Difference in LSM|3.4|STANDARD_ERROR_OF_MEAN|4.28||0.448|TWO_SIDED|95.0|-6.3|13.1|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||13.1|-6.3|0.448
82630076|NCT02365506|164975805|SUPERIORITY||Difference in LSM|8.8|STANDARD_ERROR_OF_MEAN|8.5||0.339|TWO_SIDED|95.0|-12.0|29.6|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||29.6|-12.0|0.339
82630077|NCT02365506|164975805|SUPERIORITY||Difference in LSM|12.8|STANDARD_ERROR_OF_MEAN|8.4||0.178|TWO_SIDED|95.0|-7.7|33.4|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||33.4|-7.7|0.178
82567472|NCT01340300|164844780|SUPERIORITY|||||||0.0002||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Leptin in combined arm is greater than the exercise-only or metformin-only arm.||||0.0002
82630078|NCT02365506|164975806|SUPERIORITY||Difference in LSM|4.9|STANDARD_ERROR_OF_MEAN|8.03||0.564|TWO_SIDED|95.0|-14.1|23.9|||Mixed Models Analysis|||||23.9|-14.1|0.564
82630079|NCT02365506|164975806|SUPERIORITY||Difference in LSM|2.7|STANDARD_ERROR_OF_MEAN|7.38||0.721|TWO_SIDED|95.0|-14.7|20.2|||Mixed Models Analysis|p-value is from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|LSM and 95% CI are from a mixed model with fixed effect for treatment, day, and treatment by day with baseline daytime QTcF as a covariate.|||20.2|-14.7|0.721
82630080|NCT05505734|164975866|SUPERIORITY||Hazard Ratio (HR)|0.535|||<|0.001|TWO_SIDED|95.0|0.392|0.73||The pre-specified alpha (type I error) at the IA was set at 0.003 for the primary and first secondary endpoint|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.730|0.392|<0.001
82630081|NCT05505734|164975867|SUPERIORITY||Hazard Ratio (HR)|0.539|||<|0.001|TWO_SIDED|95.0|0.397|0.733||The pre-specified alpha (type I error) at the IA was set at 0.003 for the primary and first secondary endpoint|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.733|0.397|<0.001
82630082|NCT05505734|164975868|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.001|TWO_SIDED|95.0|0.405|0.724||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.724|0.405|<0.001
82630083|NCT05505734|164975869|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.001|TWO_SIDED|95.0|0.406|0.72||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Regression, Cox|||Hazard ratios, 95% confidence intervals for hazard ratios and p-values were estimated using a Cox regression model with treatment group, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favors the BDA MDI treatment group.||0.720|0.406|<0.001
82630084|NCT05505734|164975870|SUPERIORITY||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.34|0.64||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Negative binomial|||Rates, rate ratios and two-sided p-values were estimated from a negative binomial model with treatment, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A rate ratio less than 1 favors BDA MDI treatment group.||0.64|0.34|<0.001
82630085|NCT05505734|164975871|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.63||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Negative binomial|||Rates, rate ratios and two-sided p-values were estimated from a negative binomial model with treatment, pre-study asthma therapy, and number of severe exacerbations in the last 12 months prior to randomization as factors. A rate ratio less than 1 favors BDA MDI treatment group.||0.63|0.33|<0.001
82509087|NCT03712410|164709855|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Patient Health Questionnaire 9 (PHQ9) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
82509088|NCT03712410|164709855|OTHER|Group Comparisons||||||0.0155||||||p-value for Caregiver Quality of Life Index (CQLI-R) for arm Traditional PISCES|Wilcoxon Signed Rank Test|||||||0.0155
82509089|NCT03712410|164709855|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Generalised Anxiety Disorder Assessment (GAD-7) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
82509090|NCT03712410|164709855|OTHER|Group Comparisons|||||<|0.0001||||||p-value for Patient Health Questionnaire 9 (PHQ9) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||<0.0001
82509091|NCT03712410|164709855|OTHER|Group Comparisons||||||0.0504||||||p-value for Caregiver Quality of Life Index (CQLI-R) for arm Online PISCES|Wilcoxon Signed Rank Test|||||||0.0504
82378442|NCT00625872|164465426|SUPERIORITY_OR_OTHER|||||||0.3383||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Simultaneous Processing): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3383
82509092|NCT01874262|164709870|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
82509093|NCT00314236|164709871|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||ANCOVA|||||||0.011
82509094|NCT00314236|164709872|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||ANCOVA|||||||0.033
82509095|NCT01465464|164709880|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.435|TWO_SIDED|95.0|0.878|1.352|||Log Rank|||||1.352|0.878|0.435
82509096|NCT04180020|164709983|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
82509097|NCT02244580|164710007|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.423||||0.0018|TWO_SIDED|95.0|0.246|0.726|||Regression, Cox|||||0.726|0.246|0.0018
82509098|NCT02244580|164710008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.001|TWO_SIDED|95.0|0.25|0.71|||Regression, Cox|||||0.71|0.25|0.001
82509099|NCT00811577|164710012|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.57
82523024|NCT00949884|164741489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-3.8|-1.3|||ANCOVA|The ANCOVA model included treatment as a fixed effect and the baseline DBP as a covariate.||Null hypothesis was that there was no difference in change in seated diastolic blood pressure from baseline to end of treatment. Sample size of 900, this study had 90% power to detect a true difference in mean change from baseline in mean trough SDBP of 2.0 mmHg for Combined Olmesartan vs Losartan.||-1.3|-3.8|<0.0001
82378443|NCT00625872|164465426|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Achievement): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.6830
82523025|NCT00949884|164741490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-5.3|-1.8|||ANCOVA|The ANCOVA model included treatment as a fixed effect and baseline SSBP as a covariate.||||-1.8|-5.3|<0.0001
82523026|NCT00949884|164741491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.99||0.0001|TWO_SIDED|95.0|-5.8|-1.9|||ANCOVA|The ANCOVA model included treatment as a fixed effect and baseline SSBP as a covariate.||||-1.9|-5.8|0.0001
82378444|NCT00625872|164465426|SUPERIORITY_OR_OTHER|||||||0.4935||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Non-Verbal): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.4935
82523027|NCT00949884|164741492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-3.8|-1.5|||ANCOVA|ANCOVA model included treatment as a fixed effect and baseline blood pressure value as a covariate.||||-1.5|-3.8|<0.0001
82567473|NCT01340300|164844780|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Leptin in combined arm is greater than the exercise-only or metformin-only arm.||||0.02
82567474|NCT01340300|164844781|SUPERIORITY|||||||0.0004||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Glucose in treatment arm is greater than the control arm.||||0.0004
82509100|NCT00811577|164710012|SUPERIORITY_OR_OTHER|||||||0.56||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.56
82523028|NCT00949884|164741494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.55||0.1121|TWO_SIDED|95.0|-2.0|0.2|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.2|-2.0|0.1121
82378445|NCT00625872|164465426|SUPERIORITY_OR_OTHER|||||||0.3458||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For K-ABC Test (Mental Processing Composite): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3458
82378446|NCT00625872|164465428|SUPERIORITY_OR_OTHER|||||||0.6256||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Distractibility): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.6256
82523029|NCT00949884|164741494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.54||0.0783|TWO_SIDED|95.0|-2.0|0.1|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.1|-2.0|0.0783
82509101|NCT00811577|164710012|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.61
82378447|NCT00625872|164465428|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Alertness): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.8590
82523030|NCT00949884|164741495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.92||0.2312|TWO_SIDED|95.0|-2.9|0.7|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.7|-2.9|0.2312
82630086|NCT05505734|164975872|SUPERIORITY||||||<|0.001||||||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Wilcoxon rank sum|||||||<0.001
82630087|NCT05505734|164975873|SUPERIORITY||||||<|0.001||||||The pre-specified type I error for secondary endpoints tested at the final DCO was 0.05. A hierarchical testing strategy was employed to control the two-sided Type I error rate for the secondary endpoints, excluding the first secondary endpoint.|Wilcoxon rank sum|||||||<0.001
82630088|NCT00435929|164975876|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.656|||||TWO_SIDED|90.0|0.268|1.603||||||Comparison between normal liver function and moderate hepatic impairment for SQV||1.603|0.268|
82630089|NCT00435929|164975876|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.764|||||TWO_SIDED|90.0|0.505|1.156||||||Comparison between normal liver function and moderate hepatic impairment for RTV.||1.156|0.505|
82630090|NCT00435929|164975877|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.716|||||TWO_SIDED|90.0|0.311|1.644||||||Comparison between normal liver function and moderate hepatic impairment for SQV.||1.644|0.311|
82630091|NCT00435929|164975877|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.844|||||TWO_SIDED|90.0|0.551|1.292||||||Comparison between normal liver function and moderate hepatic impairment for RTV.||1.292|0.551|
82630092|NCT01058395|164975897|SUPERIORITY|"Comparison between groups at 3 months (primary).~Comparison between the 2 tiers."||||||0.021||||||P-value|ANCOVA|Threshold for significance was P-value \< 0.05||DRS levels changes at from 4 weeks to 3 months comparing the different doses.||||0.021
82630093|NCT01058395|164975897|SUPERIORITY|||||||0.258|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between groups in the DRS scores at 3 months.||||0.258
82630094|NCT01058395|164975897|SUPERIORITY|t-test||||||0.541|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between groups in the DRS scores at 4 weeks.||||0.541
82630095|NCT01058395|164975899|SUPERIORITY||Mean Difference (Final Values)|176.0|||>|0.05|ONE_SIDED||||||t-test, 2 sided|||||||>0.05
82630096|NCT01266876|164975900|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 300 mg Q4W versus placebo~3. Alirocumab 200 mg Q4W versus placebo~4. Alirocumab 150 mg Q4W versus placebo~Testing continued only when high-order test was statistically significant at 5% level."||||0.0000
82630097|NCT01266876|164975900|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0000
82630098|NCT01266876|164975900|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0035
82630099|NCT01266876|164975900|SUPERIORITY_OR_OTHER|||||||0.0113|TWO_SIDED|||||Threshold for significance at ≤ 0.05.|ANCOVA|||||||0.0113
82630100|NCT04476108|164975927|SUPERIORITY||Posterior Mean Difference|-0.42|||||TWO_SIDED|95.0|-1.17|0.32|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.32|-1.17|
82630101|NCT04476108|164975928|SUPERIORITY||Posterior Mean Difference|-0.37|||||TWO_SIDED|95.0|-1.09|0.35|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.35|-1.09|
82630102|NCT04476108|164975929|SUPERIORITY||Posterior Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.69|0.15|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.15|-0.69|
82630103|NCT04476108|164975930|SUPERIORITY||Posterior Mean Difference|-0.44|||||TWO_SIDED|95.0|-1.2|0.31|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.31|-1.20|
82630104|NCT04476108|164975931|SUPERIORITY||Posterior Mean Difference|-2.86|||||TWO_SIDED|95.0|-11.71|6.06|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||6.06|-11.71|
82630105|NCT04476108|164975932|SUPERIORITY||Posterior Mean Difference|0.35|||||TWO_SIDED|95.0|-0.09|0.78|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.78|-0.09|
82630106|NCT04476108|164975933|SUPERIORITY||Posterior Mean Difference|0.34|||||TWO_SIDED|95.0|-188.46|187.97|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||187.97|-188.46|
82630107|NCT04476108|164975934|SUPERIORITY||Posterior Mean Difference|0.04|||||TWO_SIDED|95.0|-0.01|0.1|||Bayesian Mixed Model Analysis||The Bayesian analyses include posterior probabilities instead of p-values, and 95% credible intervals instead of 95% confidence intervals.|||0.10|-0.01|
82630108|NCT00085644|164975935|SUPERIORITY_OR_OTHER||Risk Difference (RD)|37.6|||<|0.001||95.0|27.4|47.8|||Chi-squared||Risk difference is measured as a percentage.|ASAS 20 response rates of the adalimumab group were compared with the placebo group using Pearson's Chi-square test. The counts and percentages were calculated for total sample and by therapy group. Statistical tests were 2-sided. For the statistical analysis, subjects with missing data before Week 12 were considered as nonresponders. The comparisons were performed at an alpha level = 0.05.||47.8|27.4|< 0.001
82630109|NCT00085644|164975936|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.985||95.0|||||ANCOVA|||||||0.985
82630110|NCT03787095|164976024|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||0.71
82630111|NCT03787095|164976025|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||1.00
82630112|NCT03787095|164976026|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Null hypothesis: There is no change from baseline to post-baseline among participants treated with Cemiplimab. Per the analysis plan, only participants in the Cemiplimab arm are evaluated.||||0.33
82630113|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|32.9||||0.01|TWO_SIDED|95.0|8.3|57.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||57.5|8.3|0.010
82567475|NCT01340300|164844781|SUPERIORITY|||||||0.007||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Glucose in treatment arm is greater than the control arm.||||0.007
82567476|NCT01340300|164844782|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||<0.0001
82567477|NCT01340300|164844782|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||<0.0001
82567478|NCT01340300|164844782|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Weight in treatment arm is greater than the control arm.||||0.01
82567479|NCT01340300|164844783|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||<0.0001
82567480|NCT01340300|164844783|SUPERIORITY||||||<|0.0001||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||<0.0001
82567481|NCT01340300|164844783|SUPERIORITY|||||||0.02||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of BMI in treatment arm is greater than the control arm.||||0.02
82630114|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|34.3||||0.007|TWO_SIDED|95.0|9.8|58.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||58.8|9.8|0.007
82630115|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.908|TWO_SIDED|95.0|-23.1|25.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||25.9|-23.1|0.908
82630116|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|35.3||||0.006|TWO_SIDED|95.0|10.8|59.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||59.8|10.8|0.006
82509102|NCT00811577|164710012|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using serial gate-keeping to preserve the 5% overall type I error of 1-4 two-sided tests, 2-sided Wilcoxon Signed Rank tests were used. Computer graphics were used to display outcomes at Month 12, compare paired differences of outcomes between the 2 dosages and placebo, and show time trends in mean outcomes. Repeated measures regression models (GEE models in SAS/STAT PROC GENMOD) were used to examine longitudinal outcomes with terms for treatment and trocar location adjusted for key covariates.||||0.80
82509103|NCT00811577|164710013|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.47
82509104|NCT00811577|164710013|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.080
82378448|NCT00625872|164465428|SUPERIORITY_OR_OTHER|||||||1||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Flexibility): Kruskal-Wallis ANOVA model was used to calculate p-value.||||1.0000
82509105|NCT00811577|164710013|SUPERIORITY_OR_OTHER|||||||0.96||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.96
82509106|NCT00811577|164710013|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Using a 100 mm VAS scale, each photograph was assessed by two raters, who, in an end-of-study session, were presented with photographs in their longitudinal sequence, but blinded as to dosage group. These data were used for an inter-rater concordance analysis and also to compare the placebo, 3 and 10 mg dosages.||||0.22
82509107|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.87
82509108|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.15
82509109|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.77
82509110|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.75
82509111|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.050
82509112|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.83
82509113|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.37
82509114|NCT00811577|164710014|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.43
82630117|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|36.8||||0.005|TWO_SIDED|95.0|11.9|61.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||61.8|11.9|0.005
82630118|NCT04445051|164976028|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.899|TWO_SIDED|95.0|-23.3|26.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||26.5|-23.3|0.899
82630119|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|8.8||||0.665|TWO_SIDED|95.0|-31.9|49.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.6|-31.9|0.665
82630120|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|-18.1||||0.375|TWO_SIDED|95.0|-58.7|22.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||22.4|-58.7|0.375
82630121|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|-27.0||||0.188|TWO_SIDED|95.0|-67.6|13.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||13.6|-67.6|0.188
82378449|NCT00625872|164465428|SUPERIORITY_OR_OTHER|||||||0.1234||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Go/No Go): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.1234
82523031|NCT00949884|164741495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.9||0.0979|TWO_SIDED|95.0|-3.2|0.3|||ANCOVA|Treatment as a fixed effect and the seated cuff diastolic blood pressure value at week 4 (with last observation carried forward) as a covariate.||||0.3|-3.2|0.0979
82567482|NCT01340300|164844784|SUPERIORITY|||||||0.01||||||One-sided un-adjusted p-values to test if the decrease in treatment arm is greater than the control arm. Holm's method was performed for multiple comparisons to provide an overall significance level of 5%. Only significant p-values were reported.|Mixed Models Analysis|An intention-to-treat analysis, with a mixed model that was adjusted for baseline outcome value, BMI (\< 30 or \> 30), gender, cancer, and study site.||Null hypothesis: decrease of Waist to Hip Ratio in treatment arm is greater than the control arm.||||0.01
82567483|NCT02642159|164844786|SUPERIORITY||LS Mean Difference|-32.5|||<|0.0001|TWO_SIDED|97.5|-38.1|-27.0||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Alirocumab group was compared to usual care group using an appropriate contrast statement.||-27.0|-38.1|<0.0001
82567484|NCT02642159|164844787|SUPERIORITY||LS Mean Difference|-33.3|||<|0.0001|TWO_SIDED|97.5|-46.6|-19.9||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Alirocumab group was compared to usual care group for the intent to prescribe fenofibrate using an appropriate contrast statement.||-19.9|-46.6|<0.0001
82567485|NCT02642159|164844788|SUPERIORITY||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|97.5|-49.7|-36.3||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses for overall ITT analysis. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-36.3|-49.7|<0.0001
82567486|NCT02642159|164844789|SUPERIORITY||LS Mean Difference|-55.7|||<|0.0001|TWO_SIDED|97.5|-71.8|-39.6||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|A separate hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses for ITT-intent to prescribe fenofibrate stratum. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-39.6|-71.8|<0.0001
82567487|NCT02642159|164844790|SUPERIORITY||LS Mean Difference|-26.1|||<|0.0001|TWO_SIDED|97.5|-31.5|-20.7||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.7|-31.5|<0.0001
82567488|NCT02642159|164844791|SUPERIORITY||LS Mean Difference|-27.4|||<|0.0001|TWO_SIDED|97.5|-40.0|-14.8||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT-intent to prescribe fenofibrate stratum was statistically significant).||-14.8|-40.0|<0.0001
82567489|NCT02642159|164844792|SUPERIORITY||LS Mean Difference|-34.7|||<|0.0001|TWO_SIDED|97.5|-40.8|-28.6||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-28.6|-40.8|<0.0001
82567490|NCT02642159|164844793|SUPERIORITY||LS Mean Difference|-49.7|||<|0.0001|TWO_SIDED|97.5|-63.7|-35.8||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT-intent to prescribe fenofibrate stratum was statistically significant).||-35.8|-63.7|<0.0001
82567491|NCT02642159|164844794|SUPERIORITY||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|97.5|-37.3|-27.2||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-27.2|-37.3|<0.0001
82567492|NCT02642159|164844795|SUPERIORITY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|97.5|-47.4|-22.9||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-22.9|-47.4|<0.0001
82567493|NCT02642159|164844796|SUPERIORITY||LS Mean Difference|-24.6|||<|0.0001|TWO_SIDED|97.5|-28.8|-20.3||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.3|-28.8|<0.0001
82567494|NCT02642159|164844797|SUPERIORITY||LS Mean Difference|-25.3|||<|0.0001|TWO_SIDED|97.5|-35.4|-15.1||Threshold for significance \<=0.025.|Mixed Models Analysis||Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-15.1|-35.4|<0.0001
82567495|NCT02642159|164844798|SUPERIORITY||Adjusted Mean Difference|-27.4|||<|0.0001|TWO_SIDED|97.5|-34.6|-20.1||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||-20.1|-34.6|<0.0001
82567496|NCT02642159|164844799|SUPERIORITY||Adjusted Mean Difference|-22.8||||0.004|TWO_SIDED|97.5|-40.6|-5.0||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).||-5.0|-40.6|0.0040
82567497|NCT02642159|164844800|SUPERIORITY||Adjusted Mean Difference|-4.2||||0.2191|TWO_SIDED|97.5|-11.8|3.4||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression.|Alirocumab vs. usual care|Testing according to the hierarchical testing procedure (only performed if the previous endpoint of overall ITT analysis was statistically significant).||3.4|-11.8|0.2191
82378450|NCT00625872|164465428|SUPERIORITY_OR_OTHER|||||||0.3291||95.0||||The statistical test was 2-sided and performed at the 5 percent significance level.|Kruskal-Wallis|||For KITAP Test (Vigilance): Kruskal-Wallis ANOVA model was used to calculate p-value.||||0.3291
82630122|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|-18.6||||0.361|TWO_SIDED|95.0|-59.3|21.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||21.9|-59.3|0.361
82630123|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|-10.9||||0.6|TWO_SIDED|95.0|-52.3|30.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||30.5|-52.3|0.600
82509115|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.16
82509116|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.14
82509117|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.69
82509118|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.89
82509119|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.30
82509120|NCT00811577|164710015|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Statistical analysis included line plots of paired differences vs. time, univariate p-values from Wilcoxon signed rank tests, and repeated measures regression models in SAS/STAT PROC GENMOD.||||0.46
82509121|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.086
82509122|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.66
82523032|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
82630124|NCT04445051|164976029|SUPERIORITY||Mean Difference (Final Values)|7.78||||0.707|TWO_SIDED|95.0|-33.5|49.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.0|-33.5|0.707
82630125|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.615|TWO_SIDED|95.0|-1.08|0.65||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.65|-1.08|0.615
82630126|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.48|TWO_SIDED|95.0|-1.17|0.56||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.56|-1.17|0.480
82630127|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.839|TWO_SIDED|95.0|-0.95|0.77||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.77|-0.95|0.839
82630128|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.894|TWO_SIDED|95.0|-0.92|0.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.80|-0.92|0.894
82630129|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.195|TWO_SIDED|95.0|-1.46|0.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.30|-1.46|0.195
82630130|NCT04445051|164976030|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.242|TWO_SIDED|95.0|-1.4|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-1.40|0.242
82378451|NCT00625872|164465447|SUPERIORITY_OR_OTHER||LS Mean difference|0.14|STANDARD_ERROR_OF_MEAN|2.54||0.956|TWO_SIDED|95.0|-5.71|6.0||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||6.00|-5.71|0.9560
82509123|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.069
82509124|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.68
82523033|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||0.0001
82630131|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.639|TWO_SIDED|95.0|-1.2|0.74||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.74|-1.20|0.639
82630132|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.492|TWO_SIDED|95.0|-1.3|0.63||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.63|-1.30|0.492
82630133|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.828|TWO_SIDED|95.0|-1.07|0.86||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.86|-1.07|0.828
82630134|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.744|TWO_SIDED|95.0|-0.81|1.13||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.13|-0.81|0.744
82630135|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.208|TWO_SIDED|95.0|-1.62|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-1.62|0.208
82630136|NCT04445051|164976031|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.116|TWO_SIDED|95.0|-1.77|0.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.20|-1.77|0.116
82630137|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.798|TWO_SIDED|95.0|-0.75|0.96||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.96|-0.75|0.798
82630138|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.556|TWO_SIDED|95.0|-1.1|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-1.10|0.556
82630139|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.399|TWO_SIDED|95.0|-1.21|0.49||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.49|-1.21|0.399
82630140|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.198|TWO_SIDED|95.0|-0.3|1.41||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.41|-0.30|0.198
82630141|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.365|TWO_SIDED|95.0|-1.27|0.48||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.48|-1.27|0.365
82630142|NCT04445051|164976032|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.033|TWO_SIDED|95.0|-1.82|-0.08||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.08|-1.82|0.033
82523034|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||<0.0001
82630143|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.882|TWO_SIDED|95.0|-0.83|0.96||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.96|-0.83|0.882
82630144|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.478|TWO_SIDED|95.0|-1.21|0.57||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.57|-1.21|0.478
82630145|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0.391|TWO_SIDED|95.0|-1.27|0.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.51|-1.27|0.391
82509125|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.095
82509126|NCT00811577|164710016|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||For this early phase study, multiple comparisons adjustments were not used.|Wilcoxon (signed rank)|||Agreement between the two rater evaluations was assessed by tabulating the difference of the two ratings. Statistical methods for paired data were used to compare the two dosages of AZX100 to placebo.||||0.62
82509127|NCT00811577|164710017|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Wilcoxon (signed rank)|||A regression analysis was run to compare alpha-SMA between 3 mg and 10 mg AZX100 and placebo, adjusted for the subject's gender and age. GEE regression in SAS/STAT PROC GENMOD was used because it properly handled the correlations among the three observations for each subject.||||0.44
82509128|NCT00811577|164710017|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Wilcoxon (signed rank)|||A regression analysis was run to compare alpha-SMA between 3 mg and 10 mg AZX100 and placebo, adjusted for the subject's gender and age. GEE regression in SAS/STAT PROC GENMOD was used because it properly handled the correlations among the three observations for each subject.||||0.41
82509129|NCT00329407|164710019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-6.58|-3.14|||Mixed Models Analysis|The Dunnett-Hsu adjustment was used to correct for multiple comparisons.||This was a within subject analysis. The null hypothesis was that there would be no significant difference in least squares means values obtained for the baseline and week 10 assessment weeks.||-3.14|-6.58|<0.0001
82509130|NCT00329407|164710020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0|STANDARD_ERROR_OF_MEAN|2.7||0.001|ONE_SIDED|95.0||||There would a significant reduction in COWAT scores between baseline and Week 10.|Mixed Models Analysis|The Dunnett-Hsu adjustment was used to correct for multiple comparisons.||This is a within subject comparison of COWAT scores botained for the baseline session and the Week 10 session. The null hypothesis is that there would be no difference between these scores.||||0.001
82509131|NCT02442778|164710081|SUPERIORITY||Least Squares (LS) Mean Difference|0.4||||0.789|TWO_SIDED|95.0|-2.7|3.5||MMRM included fixed effect treatment,visit,treatment-by-visit,baseline,baseline-by-visit,baseline Neuropsychiatric Inventory Agitation/Aggression(NPI AA)(≤6 vs. \>6),falls risk assessment,baseline concomitant use of antipsychotic medications,cohorts.|MMRM|||||3.5|-2.7|0.789
82509132|NCT02442778|164710081|SUPERIORITY||LS Mean Difference|-2.0||||0.2|TWO_SIDED|95.0|-5.0|1.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.0|-5.0|0.200
82509133|NCT02442778|164710082|SUPERIORITY||LS Mean Difference|0.1||||0.484|TWO_SIDED|95.0|-0.2|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.2|0.484
82509134|NCT02442778|164710082|SUPERIORITY||LS Mean Difference|-0.1||||0.704|TWO_SIDED|95.0|-0.3|0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.2|-0.3|0.704
82509135|NCT02442778|164710083|SUPERIORITY||LS Mean Difference|-0.3||||0.416|TWO_SIDED|95.0|-0.9|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.9|0.416
82509136|NCT02442778|164710083|SUPERIORITY||LS Mean Difference|-0.6||||0.066|TWO_SIDED|95.0|-1.3|0.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.0|-1.3|0.066
82509137|NCT02442778|164710084|SUPERIORITY||LS Mean Difference|-0.2||||0.249|TWO_SIDED|95.0|-0.5|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.5|0.249
82509138|NCT02442778|164710084|SUPERIORITY||LS Mean Difference|-0.2||||0.199|TWO_SIDED|95.0|-0.5|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.5|0.199
82509139|NCT02442778|164710085|SUPERIORITY||LS Mean Difference|0.0||||0.975|TWO_SIDED|95.0|-0.7|0.7||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.7|-0.7|0.975
82509140|NCT02442778|164710085|SUPERIORITY||LS Mean Difference|-0.3||||0.334|TWO_SIDED|95.0|-1.0|0.3||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.3|-1.0|0.334
82509141|NCT02442778|164710086|SUPERIORITY||LS Mean Difference|-0.1||||0.934|TWO_SIDED|95.0|-2.4|2.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.2|-2.4|0.934
82567498|NCT02642159|164844801|SUPERIORITY||Adjusted Mean Difference|9.0||||0.2651|TWO_SIDED|97.5|-9.1|27.1||Threshold for significance \<=0.025.|Regression, Robust|Multiple imputation approach followed by robust regression.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint of ITT- intent to prescribe fenofibrate stratum was statistically significant).|Alirocumab (intent to prescribe fenofibrate) vs. usual care (intent to prescribe fenofibrate)|27.1|-9.1|0.2651
82378452|NCT00625872|164465463|SUPERIORITY_OR_OTHER||LS Mean difference|0.55|STANDARD_ERROR_OF_MEAN|0.31||0.1107|TWO_SIDED|95.0|-0.15|1.25||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||1.25|-0.15|0.1107
82509142|NCT02442778|164710086|SUPERIORITY||LS Mean Difference|1.1||||0.342|TWO_SIDED|95.0|-1.2|3.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||3.4|-1.2|0.342
82509143|NCT02442778|164710087|SUPERIORITY||LS Mean Difference|0.0||||0.888|TWO_SIDED|95.0|-0.7|0.6||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.6|-0.7|0.888
82567499|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation coefficient|0.726|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||<0.001
82509144|NCT02442778|164710087|SUPERIORITY||LS Mean Difference|-0.7||||0.019|TWO_SIDED|95.0|-1.3|-0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||-0.1|-1.3|0.019
82567500|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation coefficient|0.522||||0.004|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||0.004
82378453|NCT00625872|164465465|SUPERIORITY_OR_OTHER||LS Mean difference|4.67|STANDARD_ERROR_OF_MEAN|1.54||0.0161|TWO_SIDED|95.0|1.13|8.21||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||8.21|1.13|0.0161
82509145|NCT02442778|164710088|SUPERIORITY||LS Mean Difference|0.6||||0.756|TWO_SIDED|95.0|-2.9|4.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||4.0|-2.9|0.756
82509146|NCT02442778|164710088|SUPERIORITY||LS Mean Difference|-3.6||||0.038|TWO_SIDED|95.0|-7.0|-0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||-0.2|-7.0|0.038
82509147|NCT02442778|164710089|SUPERIORITY||LS Mean Difference|-0.1||||0.468|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.468
82509148|NCT02442778|164710089|SUPERIORITY||LS Mean Difference|-0.1||||0.158|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.158
82509149|NCT02442778|164710090|SUPERIORITY||LS Mean Difference|0.1||||0.4|TWO_SIDED|95.0|-0.2|0.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.4|-0.2|0.400
82630146|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.657|TWO_SIDED|95.0|-0.69|1.09||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.09|-0.69|0.657
82630147|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.125|TWO_SIDED|95.0|-1.62|0.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.20|-1.62|0.125
82509150|NCT02442778|164710090|SUPERIORITY||LS Mean Difference|-0.1||||0.566|TWO_SIDED|95.0|-0.3|0.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.2|-0.3|0.566
82509151|NCT02442778|164710091|SUPERIORITY||LS Mean Difference|0.0||||0.751|TWO_SIDED|95.0|-0.2|0.3||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.3|-0.2|0.751
82509152|NCT02442778|164710091|SUPERIORITY||LS Mean Difference|-0.1||||0.32|TWO_SIDED|95.0|-0.3|0.1||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.1|-0.3|0.320
82523035|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||<0.0001
82630148|NCT04445051|164976033|SUPERIORITY||Mean Difference (Final Values)|-0.91||||0.051|TWO_SIDED|95.0|-1.81|0.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.00|-1.81|0.051
82630149|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.877|TWO_SIDED|95.0|-0.83|0.97||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.97|-0.83|0.877
82630150|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.351|TWO_SIDED|95.0|-1.31|0.47||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.47|-1.31|0.351
82630151|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.278|TWO_SIDED|95.0|-1.38|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-1.38|0.278
82630152|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.711|TWO_SIDED|95.0|-0.73|1.06||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.06|-0.73|0.711
82630153|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.024|TWO_SIDED|95.0|-1.97|-0.15||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.15|-1.97|0.024
82630154|NCT04445051|164976034|SUPERIORITY||Mean Difference (Final Values)|-1.23||||0.009|TWO_SIDED|95.0|-2.14|-0.31||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Random effect: Subject. Fixed effects: Visit (Visit 1, 2 and 3), Treatment (comparator, Variant 1 and Variant 2)\*Gender (male and females)||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.31|-2.14|0.009
82630155|NCT02092324|164976041|SUPERIORITY|1-proportion test for greater than 10% difference.||||||0.002||||||p-value for Protocol-defined objective response|binomial|||Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate (based on Simon's 2-stage).||||0.002
82630156|NCT02092324|164976041|SUPERIORITY|1-proportion test for greater than 10% difference||||||0.9||||||p-value is for IWG-defined objective response|binomial|||Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate (based on Simon's 2-stage).||||0.90
82630157|NCT02092324|164976044|SUPERIORITY|Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate.|||||<|0.0001||||||p-value for protocol-defined objective response. p-value for IWG-defined objective response is 0.70|Clopper-Pearson method|||||||<0.0001
82630158|NCT02092324|164976044|SUPERIORITY|Proportion estimated using Clopper-Pearson method. P-value is one-sided proportion test for greater than 10% response rate.||||||0.7||||||p-value for IWG-defined objective response|Clopper-Pearson method|||||||0.70
82630159|NCT02092324|164976054|EQUIVALENCE|2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic)||||||0.003||||||p-value for protocol-defined objective response.|Chi-squared, Corrected|||2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic) comparing Wildtype and Mutant CSF3R status for protocol-defined objective response||||0.003
82630160|NCT02092324|164976054|EQUIVALENCE|2-sample test for equality of proportions with continuity correction (Pearson's chi-square)||||||0.1||||||p-value for IWG-defined objective response = 0.1|Fisher Exact|||2-sample test for equality of proportions with continuity correction (Pearson's chi-square test statistic) comparing Wildtype and Mutant CSF3R status for IWG-defined objective response||||0.1
82630161|NCT02512276|164976055|SUPERIORITY||Mean Difference (Net)|4.7|||||TWO_SIDED|95.0|3.0|6.4||||||||6.4|3.0|
82630162|NCT02512276|164976056|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.91|1.22||||||||1.22|0.91|
82630163|NCT02512276|164976057|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.94|1.28||||||||1.28|0.94|
82630164|NCT02512276|164976058|SUPERIORITY||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.45|0.85||||||||0.85|0.45|
82630165|NCT02512276|164976059|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||||1.36|0.91|
82630166|NCT02512276|164976060|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.78|1.34||||||||1.34|0.78|
82630167|NCT04973085|164976068|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82630168|NCT03028467|164976098|OTHER||Mean Difference (Net)|-1.111|||||TWO_SIDED|95.0|-2.7186|0.4965|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.4965|-2.7186|
82630169|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.5177|||||TWO_SIDED|95.0|-1.904|0.8685|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8685|-1.9040|
82630170|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.5332|||||TWO_SIDED|95.0|-1.914|0.8475|||||Week 1. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8475|-1.9140|
82630171|NCT03028467|164976098|OTHER||Mean Difference (Net)|-1.1387|||||TWO_SIDED|95.0|-2.8848|0.6075|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6075|-2.8848|
82630172|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.8905|||||TWO_SIDED|95.0|-2.3962|0.6153|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6153|-2.3962|
82630173|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.8047|||||TWO_SIDED|95.0|-2.3045|0.6951|||||Week 2. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6951|-2.3045|
82630174|NCT03028467|164976098|OTHER||Mean Difference (Net)|-1.4575|||||TWO_SIDED|95.0|-3.6013|0.6863|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6863|-3.6013|
82630175|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.8894|||||TWO_SIDED|95.0|-2.7381|0.9593|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.9593|-2.7381|
82630176|NCT03028467|164976098|OTHER||Mean Difference (Net)|-1.1615|||||TWO_SIDED|95.0|-3.0028|0.6799|||||Week 4. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.6799|-3.0028|
82630177|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.3209|||||TWO_SIDED|95.0|-2.3021|1.6603|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.6603|-2.3021|
82630178|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.1876|||||TWO_SIDED|95.0|-1.896|1.5209|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.5209|-1.8960|
82630179|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.4593|||||TWO_SIDED|95.0|-2.161|1.2424|||||Week 6. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.2424|-2.1610|
82630180|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.6521|||||TWO_SIDED|95.0|-3.1342|1.83|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.8300|-3.1342|
82630181|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.5499|||||TWO_SIDED|95.0|-2.6903|1.5904|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.5904|-2.6903|
82630182|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.9665|||||TWO_SIDED|95.0|-3.0984|1.1654|||||Week 8. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.1654|-3.0984|
82630183|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.3576|||||TWO_SIDED|95.0|-3.0892|2.374|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.3740|-3.0892|
82630184|NCT03028467|164976098|OTHER||Mean Difference (Net)|0.1851|||||TWO_SIDED|95.0|-2.1704|2.5407|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.5407|-2.1704|
82630185|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.1181|||||TWO_SIDED|95.0|-2.4643|2.2281|||||Week 12. The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.2281|-2.4643|
82378454|NCT00625872|164465474|SUPERIORITY_OR_OTHER||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.25||0.187|TWO_SIDED|95.0|-0.89|0.2||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Triceps SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||0.20|-0.89|0.1870
82509153|NCT02442778|164710092|SUPERIORITY||LS Mean Difference|0.3||||0.782|TWO_SIDED|95.0|-1.8|2.4||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.4|-1.8|0.782
82509154|NCT02442778|164710092|SUPERIORITY||LS Mean Difference|0.0||||0.991|TWO_SIDED|95.0|-2.1|2.0||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.0|-2.1|0.991
82567501|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.784|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from SMBG measurements.||||<0.001
82509155|NCT02442778|164710093|SUPERIORITY||LS Mean Difference|0.6||||0.038|TWO_SIDED|95.0|0.0|1.2||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.2|0.0|0.038
82509156|NCT02442778|164710093|SUPERIORITY||LS Mean Difference|0.0||||0.911|TWO_SIDED|95.0|-0.6|0.5||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||0.5|-0.6|0.911
82509157|NCT02442778|164710095|SUPERIORITY||LS Mean Difference|1.0||||0.236|TWO_SIDED|95.0|-0.6|2.6||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||2.6|-0.6|0.236
82509158|NCT02442778|164710095|SUPERIORITY||LS Mean Difference|0.3||||0.684|TWO_SIDED|95.0|-1.3|1.9||MMRM included fixed effect treatment, visit, treatment-by-visit, baseline, baseline-by-visit, baseline NPI AA (≤ 6 vs. \> 6), risk assessment for falls, baseline concomitant use of antipsychotic medications and cohorts.|MMRM|||||1.9|-1.3|0.684
82509159|NCT02917031|164710105|SUPERIORITY||Mean Difference (Final Values)|-2.595||||0.252|TWO_SIDED|95.0|-7.04|1.85|||ANCOVA|||Change from baseline, saxagliptin versus placebo.||1.850|-7.040|0.252
82509160|NCT02917031|164710106|SUPERIORITY||Mean Difference (Final Values)|-1.631||||0.425|TWO_SIDED|95.0|-5.635|2.373|||ANCOVA|||Saxagliptin: Change from baseline||2.373|-5.635|0.425
82509161|NCT02917031|164710107|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.925|TWO_SIDED|95.0|-1.996|2.197|||ANCOVA|||"Saxagliptin vs Placebo:~Change from baseline"||2.197|-1.996|0.925
82509162|NCT02917031|164710108|SUPERIORITY||Mean Difference (Final Values)|-3.605||||0.105|TWO_SIDED|95.0|-7.97|0.76|||ANCOVA|||Saxagliptin vs placebo: Change from baseline||0.760|-7.970|0.105
82509163|NCT02917031|164710109|SUPERIORITY||Ratio for relative change|0.971||||0.796|TWO_SIDED|95.0|0.777|1.214|||ANCOVA|||Saxagliptin vs placebo: Change from baseline||1.214|0.777|0.796
82509164|NCT03003520|164710113|SUPERIORITY||||||>|0.99||||||Significance defined as 0.05.|Fisher Exact|||||||>0.99
82509165|NCT03003520|164710113|SUPERIORITY||AUC-ROC|0.477||||0.872|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their CD8 density.||||0.872
82630186|NCT03028467|164976098|OTHER||Mean Difference (Net)|-1.4276|||||TWO_SIDED|95.0|-3.6569|0.8018|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||0.8018|-3.6569|
82509166|NCT03003520|164710114|SUPERIORITY|||||||0.0403||||||Significance defined as 0.05.|Fisher Exact|||||||0.0403
82509167|NCT03003520|164710114|SUPERIORITY||AUC-ROC|0.583||||0.523|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their PDL1 % of total cells.||||0.523
82509168|NCT03003520|164710115|SUPERIORITY||||||>|0.99||||||Significance defined as 0.05.|Fisher Exact|||||||>0.99
82509169|NCT03003520|164710115|SUPERIORITY||AUC-ROC|0.583||||0.557|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their PDL1 % of tumor cells.||||0.557
82509170|NCT03003520|164710116|SUPERIORITY|||||||0.662||||||Significance defined as 0.05.|Fisher Exact|||||||0.662
82509171|NCT03003520|164710116|SUPERIORITY||AUC-ROC|0.6||||0.399|TWO_SIDED|||||Significance defined as 0.05.|Wilcoxon (Mann-Whitney)|||The Area Under the Receiver Operator Characteristic Curve (AUC-ROC) is the estimated parameter. Responders were compared to non-responders by ranking them according to their IFNG-Score.||||0.399
82509172|NCT00913744|164710182|SUPERIORITY_OR_OTHER||Difference in proportions|12.3||||0.262|TWO_SIDED|95.0|-3.7|28.4|||Fisher Exact|P-value is from Fisher's exact test, comparing sham and ocriplasmin.||||28.4|-3.7|0.262
82509173|NCT01344369|164710183|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.44|||||TWO_SIDED|90.0|93.08|112.75|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.75|93.08|
82509174|NCT01344369|164710184|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.58|||||TWO_SIDED|90.0|96.66|104.66|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.66|96.66|
82509175|NCT01344369|164710185|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.85|||||TWO_SIDED|90.0|96.43|105.48|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.48|96.43|
82509176|NCT01344369|164710186|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.59|||||TWO_SIDED|90.0|93.69|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.00|93.69|
82630187|NCT03028467|164976098|OTHER||Mean Difference (Net)|0.5415|||||TWO_SIDED|95.0|-1.381|2.4639|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||2.4639|-1.3810|
82630188|NCT03028467|164976098|OTHER||Mean Difference (Net)|-0.7932|||||TWO_SIDED|95.0|-2.708|1.1217|||||Week 22 (Follow up). The analysis method was mixed-model for repeated measures with Visit,Treatment group,Visit by Treatment interaction,Baseline DAS28(CRP),and Visit by Baseline DAS28(CRP) interaction as fixed effects.|||1.1217|-2.7080|
82630189|NCT01316380|164976114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.036||0.0005||95.0|0.057|0.199||Step-wise testing for the two treatment groups for the primary endpoint, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.025 (one-sided) for primary endpoint.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.199|0.057|0.0005
82630190|NCT01316380|164976114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.088|0.23||Step-wise testing for the two treatment groups for the primary endpoint, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.025 (one-sided) for the primary endpoint.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.230|0.088|<0.0001
82630191|NCT01316380|164976115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.037||0.001||95.0|0.049|0.194||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.194|0.049|0.001
82630192|NCT01316380|164976115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.037||0.0028||95.0|0.038|0.182||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.182|0.038|0.0028
82630193|NCT01316380|164976116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.042||0.1714||95.0|-0.025|0.14||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.140|-0.025|0.1714
82630194|NCT01316380|164976116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.042||0.0119||95.0|0.023|0.188||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.188|0.023|0.0119
82509177|NCT01344369|164710187|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.68|||||TWO_SIDED|90.0|92.76|100.77|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.77|92.76|
82509178|NCT01344369|164710188|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.44|||||TWO_SIDED|90.0|92.22|100.84|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.84|92.22|
82509179|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.126|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 4||||0.1260
82509180|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.3525|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 4||||0.3525
82509181|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.0127|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 12||||0.0127
82509182|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.0299|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 12||||0.0299
82509183|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.0123|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||Week 24||||0.0123
82509184|NCT02342704|164710211|SUPERIORITY_OR_OTHER|||||||0.0076|||||||negative binomial regression|p-value is based on negative binomial regression model, adjusted for baseline GD lesion count||Week 24||||0.0076
82630195|NCT01316380|164976117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.034||0.0003||95.0|0.058|0.192||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.192|0.058|0.0003
82630196|NCT01316380|164976117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.082|0.216||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.216|0.082|<0.0001
82630197|NCT01316380|164976118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.039||0.1182||95.0|-0.016|0.138||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.138|-0.016|0.1182
82630198|NCT01316380|164976118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.039||0.0102||95.0|0.024|0.178||p-values serve an exploratory function only|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R2.5 - Placebo. Means are adjusted for treatment, pooled centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.178|0.024|0.0102
82509185|NCT02342704|164710212|SUPERIORITY_OR_OTHER|||||||0.5318|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||T1 Lesion Volume Change||||0.5318
82509186|NCT02342704|164710212|SUPERIORITY_OR_OTHER|||||||0.0528|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||T2 Lesion Volume Change||||0.0528
82509187|NCT02342704|164710214|SUPERIORITY_OR_OTHER|||||||0.2632|||||||Wilcoxon rank-sum test|p-value is based on Wilcoxon rank-sum test between the 2 treatment groups||||||0.2632
82509188|NCT00283439|164710223|SUPERIORITY_OR_OTHER|||||||0.9654||||||One-sided test|Satterhwaite t-test|||||||0.9654
82509189|NCT00283439|164710223|SUPERIORITY_OR_OTHER|||||||0.869||||||One-sided test|Satterhwaite t-test|||||||0.8690
82509190|NCT00283439|164710223|SUPERIORITY_OR_OTHER|||||||0.7133||||||One-sided test|Satterhwaite t-test|||||||0.7133
82509191|NCT00283439|164710224|SUPERIORITY_OR_OTHER|||||||0.294|||||||Fisher Exact|||||||0.294
82509192|NCT00283439|164710224|SUPERIORITY_OR_OTHER|||||||0.608|||||||Fisher Exact|||||||0.608
82509193|NCT00283439|164710224|SUPERIORITY_OR_OTHER|||||||0.603|||||||Fisher Exact|||||||0.603
82509194|NCT00283439|164710225|SUPERIORITY_OR_OTHER|||||||0.091|||||||Satterhwaite t-test|||||||0.091
82509195|NCT00283439|164710225|SUPERIORITY_OR_OTHER|||||||0.3|||||||Satterhwaite t-test|||||||0.300
82509196|NCT00283439|164710225|SUPERIORITY_OR_OTHER|||||||0.881|||||||Satterhwaite t-test|||||||0.881
82509197|NCT00283439|164710226|SUPERIORITY_OR_OTHER|||||||0.576|||||||Fisher Exact|||||||0.576
82509198|NCT00283439|164710226|SUPERIORITY_OR_OTHER|||||||0.588|||||||Fisher Exact|||||||0.588
82509199|NCT00283439|164710226|SUPERIORITY_OR_OTHER|||||||0.421|||||||Fisher Exact|||||||0.421
82509200|NCT01632891|164710237|SUPERIORITY|Test used alpha level of 0.05||||||1|||||||Fisher Exact|||Compare proportions of Pf SCP clearance between treatment arms||||1.00
82630199|NCT01316380|164976120|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25||||0.2155||95.0|0.03|2.24||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since the percent patients with event is less than 50% the median is not calculable, but Hazard Ratio is still estimable from the Cox model.||2.24|0.03|0.2155
82509201|NCT01166594|164710275|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82509202|NCT02822508|164710313|SUPERIORITY|||||||0.034|||||||Cochran-Mantel-Haenszel|||||||0.034
82509203|NCT00782210|164710321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.135|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.135|<0.0001
82509204|NCT00782210|164710321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.214|0.139|<0.0001
82509205|NCT00782210|164710322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.128|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.128|0.054|<0.0001
82509206|NCT00782210|164710322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.064|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.137|0.064|<0.0001
82509207|NCT00782210|164710323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.113|0.233|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.233|0.113|<0.0001
82509208|NCT00782210|164710323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.108|0.229|||Mixed Models Analysis|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.229|0.108|<0.0001
82509209|NCT00782210|164710324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.128|0.201|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.201|0.128|<0.0001
82509210|NCT00782210|164710324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.139|<0.0001
82509211|NCT00782210|164710325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.144|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.144|<0.0001
82509212|NCT00782210|164710325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.156|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.156|<0.0001
82378455|NCT00625872|164465474|SUPERIORITY_OR_OTHER||LS Mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.3494|TWO_SIDED|95.0|-0.49|0.19||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Subscapular SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||0.19|-0.49|0.3494
82509213|NCT00782210|164710326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.133|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.207|0.133|<0.0001
82509214|NCT00782210|164710326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.13|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.204|0.130|<0.0001
82509215|NCT00782210|164710327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.136|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.212|0.136|<0.0001
82509216|NCT00782210|164710327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.123|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.199|0.123|<0.0001
82509217|NCT00782210|164710328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.134|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.211|0.134|<0.0001
82567502|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.533||||0.011|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||0.011
82509218|NCT00782210|164710328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.131|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.208|0.131|<0.0001
82509219|NCT00782210|164710329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.059|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|0.059|<0.0001
82509220|NCT00782210|164710329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.075|0.147|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.147|0.075|<0.0001
82509221|NCT00782210|164710330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.059|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|0.059|<0.0001
82523036|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||<0.0001
82630200|NCT01316380|164976120|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.5071||95.0|0.43|5.44||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since the percent patients with event is less than 50% the median is not calculable, but Hazard Ratio is still estimable from the Cox model.||5.44|0.43|0.5071
82630201|NCT01316380|164976121|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.1217||95.0|0.29|1.16||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since only 22 of the 155 patients in the placebo group, 21 of the 154 patients in the Tio R2.5 group and 13 of the 155 patients in the Tio R5 group had asthma exacerbations, the median times were not calculable (nc).||1.16|0.29|0.1217
82630202|NCT01316380|164976121|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.8974||95.0|0.53|1.75||Significance level of alpha=0.05 (two-sided). P-values serve an exploratory function only.|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|Since only 22 of the 155 patients in the placebo group, 21 of the 154 patients in the Tio R2.5 group and 13 of the 155 patients in the Tio R5 group had asthma exacerbations, the median times were not calculable (nc). The Hazard Ratio is still estimable from the Cox model.||1.75|0.53|0.8974
82630203|NCT01316380|164976122|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.129||0.0872|TWO_SIDED|95.0|-0.032|0.476||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.476|-0.032|0.0872
82509222|NCT00782210|164710330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.127|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.127|0.054|<0.0001
82630204|NCT01316380|164976122|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.033|STANDARD_ERROR_OF_MEAN|0.129||0.7995|TWO_SIDED|95.0|-0.287|0.221||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.221|-0.287|0.7995
82509223|NCT00782210|164710331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.061|0.135|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.135|0.061|<0.0001
82509224|NCT00782210|164710331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.064|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.138|0.064|<0.0001
82509225|NCT00782210|164710332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.049|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|0.049|<0.0001
82509226|NCT00782210|164710332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.051|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.126|0.051|<0.0001
82509227|NCT00782210|164710333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.054|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.130|0.054|<0.0001
82509228|NCT00782210|164710333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.048|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.123|0.048|<0.0001
82509229|NCT00782210|164710334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.069|0.145|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.145|0.069|<0.0001
82509230|NCT00782210|164710334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.068|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|0.068|<0.0001
82509231|NCT00782210|164710335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.055|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.130|0.055|<0.0001
82509232|NCT00782210|164710335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.053|0.129|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.129|0.053|<0.0001
82509233|NCT00782210|164710336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.115|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.194|0.115|<0.0001
82509234|NCT00782210|164710336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.131|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.211|0.131|<0.0001
82509235|NCT00782210|164710337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.137|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.137|<0.0001
82509236|NCT00782210|164710337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.15|0.23|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.230|0.150|<0.0001
82567503|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.479||||0.009|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||0.009
82567504|NCT01954771|164844838|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.801|||<|0.001|TWO_SIDED||||||Correlation analysis|||The correlation study between HbA1c and MBG (mean blood glucose) from CGMS measurements.||||<0.001
82509237|NCT00782210|164710338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.132|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.212|0.132|<0.0001
82509238|NCT00782210|164710338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.132|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.132|<0.0001
82509239|NCT00782210|164710339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.123|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.204|0.123|<0.0001
82567505|NCT00179478|164844910|SUPERIORITY|||||||0.001||||||Based on adjusted Hazard Ratio (HR)|Regression, Cox|HR adjusted for age, onset event type, baseline brain MRI T2 lesion and number and baseline number of gad enhancing lesions||||||0.001
82630205|NCT01316380|164976123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.097|STANDARD_ERROR_OF_MEAN|0.076||0.2038|TWO_SIDED|95.0|-0.053|0.247||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.||0.247|-0.053|0.2038
82630206|NCT01316380|164976123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.076||0.9104|TWO_SIDED|95.0|-0.158|0.141||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.141|-0.158|0.9104
82630207|NCT01316380|164976124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.068||0.0559|TWO_SIDED|95.0|-0.003|0.265||p-values serve an exploratory function only|Mixed Models Analysis||Tio R2.5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.265|-0.003|0.0559
82630208|NCT01316380|164976124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.068||0.8795|TWO_SIDED|95.0|-0.144|0.123||p-values serve an exploratory function only|Mixed Models Analysis||Tio R5 - Placebo. Means are adjusted for treatment, centre, week, baseline, treatment\*week and baseline\*week.|Restricted maximum likelihood (REML)- based repeated measures model was used.||0.123|-0.144|0.8795
82630209|NCT01387594|164976133|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|1.33|||||TWO_SIDED|80.0|1.13|1.56||A p-value was not computed; hypothesis was tested using confidence interval (CI) approach.|||The lower limit of 80% CI greater than 0.5 indicates the statistical significance at alpha=0.1 level.|The null hypothesis is the (median) percent decrease in total lymphocytes count is greater or equal to 50%, equivalently indicating that the geometric mean ratio (GMR: post-treatment/pretreatment) in total lymphocyte counts is less than or equal to 0.5.||1.56|1.13|
82630210|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1: The corresponding power and coefficient of variation between test and reference drugs are 98% and 17.24%, respectively|Geometric mean ratio|95.204|||||TWO_SIDED|90.0|87.618|103.446|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.446|87.618|
82630211|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and coefficient of variation are 80% and 22.62%, respectively.|Geometric mean ratio|107.606|||||TWO_SIDED|90.0|96.552|119.924|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||119.924|96.552|
82630212|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 16.26%, respectively.|Geometric mean ratio|104.373|||||TWO_SIDED|90.0|96.504|112.883|||||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B= FDC (test value)|||112.883|96.504|
82630213|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 81% and 14.42%,respectively.|Geometric mean ratio|88.188|||||TWO_SIDED|90.0|82.368|94.419|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||94.419|82.368|
82378456|NCT00625872|164465474|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0458|TWO_SIDED|95.0|-0.54|-0.01||The statistical test was 2-sided and performed at the 5 percent significance level.|ANCOVA|||Suprailiac SDS: ANCOVA method was used to calculate p-value with treatment, baseline value, study duration and site as covariates.||-0.01|-0.54|0.0458
82630214|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 13.09%, respectively.|Geometric mean ratio|98.168|||||TWO_SIDED|90.0|92.263|104.451|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.451|92.263|
82630215|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|5-OH saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 8.02%, respectively.|Geometric mean ratio|95.023|||||TWO_SIDED|90.0|91.47|98.714|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.714|91.470|
82630216|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 15.55%, respectively.|Geometric mean ratio|97.601|||||TWO_SIDED|90.0|15.55|99.0|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99|15.55|
82630217|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 84% and 15.65%, respectively.|Geometric mean ratio|110.656|||||TWO_SIDED|90.0|102.416|119.559|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||119.559|102.416|
82630218|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|OH-Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 12.61%, respectively.|Geometric mean ratio|106.264|||||TWO_SIDED|90.0|99.826|113.117|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||113.117|99.826|
82630219|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 4: The corresponding power and the variation coefficient are 99% and 10.30%, respectively.|Geometric mean ratio|100.028|||||TWO_SIDED|90.0|95.164|105.139|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||105.139|95.164|
82630220|NCT01365091|164976137|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 10.38%, respectively.|Geometric mean ratio|93.644|||||TWO_SIDED|95.0|89.055|98.47|||ANCOVA|Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.470|89.055|
82630221|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1: The corresponding power and coefficient of variation are 98% and 17.24%, respectively.|Geometric mean ratio|91.508|||||TWO_SIDED|90.0|82.596|101.38|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.380|82.596|
82509240|NCT00782210|164710339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.124|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.124|<0.0001
82509241|NCT00782210|164710340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.134|0.216|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.216|0.134|<0.0001
82509242|NCT00782210|164710340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.192|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.192|0.110|<0.0001
82509243|NCT00782210|164710341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.128|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.211|0.128|<0.0001
82509244|NCT00782210|164710341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.121|0.205|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.205|0.121|<0.0001
82509245|NCT00782210|164710342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.216|0.359|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.359|0.216|<0.0001
82509246|NCT00782210|164710342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.258|0.401|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.401|0.258|<0.0001
82630222|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.66%, respectively.|Geometric mean ratio|97.437|||||TWO_SIDED|90.0|93.889|101.119|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.119|93.889|
82630223|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.43%, respectively.|Geometric mean ratio|96.77|||||TWO_SIDED|90.0|93.35|100.316|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.316|93.350|
82509247|NCT00782210|164710343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.224|0.368|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.368|0.224|<0.0001
82509248|NCT00782210|164710343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.327|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.255|0.399|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.399|0.255|<0.0001
82509249|NCT00782210|164710344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.181|0.327|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.327|0.181|<0.0001
82509250|NCT00782210|164710344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.22|0.366|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.366|0.220|<0.0001
82567506|NCT00179478|164844911|SUPERIORITY|||||||0.02||||||a priori threshold for statistical significance was a p value less than 0.01|Wilcoxon (Mann-Whitney)|||||||0.02
82630224|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 96% and 14.37%, respectively.|Geometric mean ratio|91.585|||||TWO_SIDED|90.0|85.56|98.035|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||98.035|85.56|
82630225|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 96.028% and 101.095%, respectively.|Geometric mean ratio|98.529|||||TWO_SIDED|90.0|96.028|101.095|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.095|96.028|
82630226|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 6.55%, respectively|Geometric mean ratio|96.239|||||TWO_SIDED|90.0|93.286|99.286|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99.286|93.286|
82630227|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 12.19%, respectively.|Geometric mean ratio|102.994|||||TWO_SIDED|90.0|96.956|109.407|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||109.407|96.956|
82630228|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.07%, respectively.|Geometric mean ratio|97.135|||||TWO_SIDED|95.0|93.778|100.613|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.613|93.778|
82630229|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.18%, respectively.|Geometric mean ratio|100.01|||||TWO_SIDED|90.0|96.512|103.648|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.648|96.512|
82630230|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 1:The corresponding power and the variation coefficient are 93% and 17.35%, respectively.|Geometric mean ratio|92.953|||||TWO_SIDED|90.0|85.502|101.053|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.053|85.502|
82509251|NCT00782210|164710345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.201|0.348|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.348|0.201|<0.0001
82509252|NCT00782210|164710345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.219|0.366|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.366|0.219|<0.0001
82509253|NCT00782210|164710346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.309|0.161|<0.0001
82509254|NCT00782210|164710346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.18|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.329|0.180|<0.0001
82509255|NCT00782210|164710347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.169|0.319|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.319|0.169|<0.0001
82509256|NCT00782210|164710347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.271|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.196|0.346|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.346|0.196|<0.0001
82509257|NCT00782210|164710348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.076|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.218|0.076|<0.0001
82509258|NCT00782210|164710348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.113|0.255|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.255|0.113|<0.0001
82509259|NCT00782210|164710349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.037||0.0003||95.0|0.059|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.059|0.0003
82509260|NCT00782210|164710349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.036||0.0001||95.0|0.069|0.213|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.213|0.069|0.0001
82509261|NCT00782210|164710350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.037||0.0019||95.0|0.043|0.187|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.187|0.043|0.0019
82509262|NCT00782210|164710350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.088|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.233|0.088|<0.0001
82509263|NCT00782210|164710351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.037||0.0005||95.0|0.057|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.057|0.0005
82509264|NCT00782210|164710351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.089|0.235|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.235|0.089|<0.0001
82509265|NCT00782210|164710352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.037||0.0261||95.0|0.01|0.156|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.156|0.010|0.0261
82509266|NCT00782210|164710352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.037||0.001||95.0|0.05|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.050|0.0010
82509267|NCT00782210|164710353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.038||0.0154||95.0|0.018|0.165|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.165|0.018|0.0154
82509268|NCT00782210|164710353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.038||0.0011||95.0|0.049|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.049|0.0011
82523037|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||<0.0001
82509269|NCT00782210|164710354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.038||0.0006||95.0|0.057|0.205|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.205|0.057|0.0006
82509270|NCT00782210|164710354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.08|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.080|<0.0001
82509271|NCT00782210|164710355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.038||0.0134||95.0|0.019|0.168|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.168|0.019|0.0134
82509272|NCT00782210|164710355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.038||0.0025||95.0|0.04|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.190|0.040|0.0025
82509273|NCT00782210|164710356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.187|0.339|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.339|0.187|<0.0001
82509274|NCT00782210|164710356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.225|0.376|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.376|0.225|<0.0001
82509275|NCT00782210|164710357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.188|0.341|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.341|0.188|<0.0001
82509276|NCT00782210|164710357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.216|0.368|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.368|0.216|<0.0001
82509277|NCT00782210|164710358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.174|0.328|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.328|0.174|<0.0001
82509278|NCT00782210|164710358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.203|0.358|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.358|0.203|<0.0001
82509279|NCT00782210|164710359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.174|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.329|0.174|<0.0001
82509280|NCT00782210|164710359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.183|0.338|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.338|0.183|<0.0001
82509281|NCT00782210|164710360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.153|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.153|<0.0001
82509282|NCT00782210|164710360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.154|0.311|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.311|0.154|<0.0001
82509283|NCT00782210|164710361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.168|0.327|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.327|0.168|<0.0001
82509284|NCT00782210|164710361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.181|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.340|0.181|<0.0001
82509285|NCT00782210|164710362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.181|0.422|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.422|0.181|<0.0001
82509286|NCT00782210|164710362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.128|0.37|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.370|0.128|<0.0001
82509287|NCT00782210|164710363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.357|STANDARD_ERROR_OF_MEAN|4.253||0.0018|TWO_SIDED|95.0|5.005|21.709|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||21.709|5.005|0.0018
82630231|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.75%, respectively.|Geometric mean ratio|101.281|||||TWO_SIDED|95.0|98.494|104.147|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.147|98.494|
82630232|NCT01365091|164976138|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.73%, respectively.|Geometric mean ratio|100.111|||||TWO_SIDED|90.0|97.367|102.932|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||102.932|97.367|
82630233|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|For AUC(0-inf) metformin, Arm 1, the corresponding power and coefficient of variation are 80% and 21.06%, respectively.|Geometric mean ratio|91.494|||||TWO_SIDED|90.0|82.697|101.226|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value).|||101.226|82.697|
82630234|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 1: The corresponding power and the coefficient of variation are 99% and 07.60%, respectively.|Geometric mean ratio|97.477|||||TWO_SIDED|90.0|93.955|101.132|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.132|93.955|
82630235|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 1. The corresponding power and the coefficient of variation are 99% and 07.31%, respectively.|Geometric mean ratio|96.76|||||TWO_SIDED|90.0|93.393|100.247|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value).|||100.247|93.393|
82630236|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 2: The corresponding power and the variation coefficient are 96% and 14.25%, respectively.|Geometric mean ratio|91.548|||||TWO_SIDED|90.0|85.573|97.939|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||97.939|85.573|
82630237|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 5.38%,respectively.|Geometric mean ratio|98.535|||||TWO_SIDED|95.0|96.044|101.09|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||101.090|96.044|
82630238|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 2: The corresponding power and the variation coefficient are 99% and 6.52%, respectively.|Geometric mean ratio|96.258|||||TWO_SIDED|95.0|93.319|99.29|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||99.290|93.319|
82630239|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 3: The corresponding power and the variation coefficient are 99% and 11.75%, respectively.|Geometric mean ratio|102.383|||||TWO_SIDED|95.0|96.589|108.525|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||108.525|96.589|
82630240|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 5: The corresponding power and the variation coefficient are 99% and 7.07%, respectively.|Geometric mean ratio|97.187|||||TWO_SIDED|90.0|93.832|100.662|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||100.662|93.832|
82630241|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Sarexagliptin, Arm 3: The corresponding power and the variation coefficient are 99% and 7.08%, respectively.|Geometric mean ratio|100.015|||||TWO_SIDED|95.0|96.56|103.594|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||103.594|96.560|
82630242|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Metformin, Arm 4: The corresponding power and the variation coefficient are 94% and 17.13%, respectively.|Geometric mean ratio|93.219|||||TWO_SIDED|90.0|85.835|101.238|||ANCOVA|||||101.238|85.835|
82630243|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.72%, respectively.|Geometric mean ratio|101.346|||||TWO_SIDED|90.0|98.574|104.196|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||104.196|98.574|
82630244|NCT01365091|164976140|NON_INFERIORITY_OR_EQUIVALENCE|5-OH Saxagliptin, Arm 4: The corresponding power and the variation coefficient are 99% and 5.71%, respectively.|Geometric mean ratio|100.056|||||TWO_SIDED|90.0|97.324|102.864|||ANCOVA||Geometric mean ratio is calculated as B/A, where A=individual tablets (reference value) and B=FDC (test value)|||102.864|97.324|
82630245|NCT04964557|164976152|SUPERIORITY||Mean Difference (Final Values)|-62.3|||<|0.001|TWO_SIDED|95.0|-68.0|-56.6|||ANCOVA|||||-56.6|-68|<0.001
82630246|NCT04964557|164976153|SUPERIORITY||Mean Difference (Final Values)|-76.7|||<|0.001|TWO_SIDED|95.0|-81.7|-71.7|||ANCOVA|||||-71.7|-81.7|<0.001
82630247|NCT04852666|164976164|SUPERIORITY|||||||0.751|||||||t-test, 2 sided|||||||0.751
82630248|NCT04852666|164976164|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
82630249|NCT04852666|164976165|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||||||0.778
82630250|NCT04852666|164976165|SUPERIORITY|||||||0.357|||||||t-test, 2 sided|||||||0.357
82630251|NCT04852666|164976166|SUPERIORITY|||||||0.012|||||||Chi-squared|||||||0.012
82630252|NCT04852666|164976166|SUPERIORITY|||||||0.956|||||||Chi-squared|||||||0.956
82567507|NCT00179478|164844912|SUPERIORITY|||||||0.61||||||a priori threshold for statistical significance was a p value \< 0.01|Fisher Exact|||||||0.61
82630253|NCT04852666|164976167|SUPERIORITY|||||||0.103|||||||Chi-squared|||||||0.103
82630254|NCT04852666|164976167|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
82630255|NCT04852666|164976168|SUPERIORITY|||||||0.785|||||||t-test, 2 sided|||||||0.785
82630256|NCT04852666|164976169|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.200
82630257|NCT04852666|164976170|SUPERIORITY|||||||0.887|||||||t-test, 2 sided|||||||0.887
82630258|NCT04852666|164976170|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
82630259|NCT01994109|164976289|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82630260|NCT01994109|164976289|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82630261|NCT01994109|164976290|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82630262|NCT01994109|164976290|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82630263|NCT00576147|164976291|SUPERIORITY_OR_OTHER||Percent Sensitivity|88.0|||||TWO_SIDED|95.0|75.0|95.0||||||||95.0|75.0|
82630264|NCT00576147|164976291|SUPERIORITY_OR_OTHER||Percent Specificity|90.7|||||TWO_SIDED|95.0|86.4|93.7||||||||93.7|86.4|
82509288|NCT00782210|164710363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.457|STANDARD_ERROR_OF_MEAN|4.248||0.0003|TWO_SIDED|95.0|7.114|23.8|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||23.800|7.114|0.0003
82509289|NCT00782210|164710364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.186|STANDARD_ERROR_OF_MEAN|4.245|<|0.0001|TWO_SIDED|95.0|8.849|25.523|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||25.523|8.849|<0.0001
82509290|NCT00782210|164710364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.56|STANDARD_ERROR_OF_MEAN|4.226||0.0006|TWO_SIDED|95.0|6.259|22.86|||ANCOVA|non-MMRM ANCOVA models by week, with treatment, tiotropium strata and baseline as fixed effects.||||22.860|6.259|0.0006
82509291|NCT00782210|164710365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.182||0.0045|TWO_SIDED|95.0|-0.878|-0.162|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.162|-0.878|0.0045
82509292|NCT00782210|164710365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.648|STANDARD_ERROR_OF_MEAN|0.182||0.0004|TWO_SIDED|95.0|-1.005|-0.291|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.291|-1.005|0.0004
82630265|NCT03070119|164976303|SUPERIORITY||Least square (LS) geometric mean ratio|0.86|||||TWO_SIDED|95.0|0.69|1.08||||||Week 52 - The analysis was based on an analysis of covariance (ANCOVA) model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation (MI) including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.08|0.69|
82630266|NCT03070119|164976303|SUPERIORITY||LS geometric mean ratio|0.91|||=|0.3711|TWO_SIDED|95.0|0.75|1.11|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.11|0.75|=0.3711
82630267|NCT03070119|164976303|SUPERIORITY||LS geometric mean ratio|1.06|||=|0.6344|TWO_SIDED|95.0|0.84|1.34|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.34|0.84|=0.6344
82630268|NCT03070119|164976304|SUPERIORITY||LS geometric mean ratio|0.8|||||TWO_SIDED|95.0|0.63|1.03||||||Week 52 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.03|0.63|
82630269|NCT03070119|164976304|SUPERIORITY||LS geometric mean ratio|0.83|||=|0.2306|TWO_SIDED|95.0|0.6|1.13|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.13|0.60|=0.2306
82630270|NCT03070119|164976304|SUPERIORITY||LS geometric mean ratio|0.92|||=|0.673|TWO_SIDED|95.0|0.61|1.38|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model with natural log transformed data. The model included covariates for the corresponding baseline value i.e. log value, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||1.38|0.61|=0.6730
82630271|NCT03070119|164976305|SUPERIORITY||Least square (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|0.5|6.7||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||6.7|0.5|
82630272|NCT03070119|164976305|SUPERIORITY||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|2.28|=|0.1054|TWO_SIDED|95.0|-0.8|8.2|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||8.2|-0.8|=0.1054
82639780|NCT02486263|164994390|SUPERIORITY||Odds Ratio (OR)|0.8||||0.99|TWO_SIDED|95.0|0.4|1.6||Used Bonferroni adjustment for multiple comparisons. Threshold for statistical significance was p\<0.05|Generalized Estimation Equation||Data presented as OR (95% CI) using Generalized Estimation Equation (GEE) model with Conventional as reference.|Generalized Estimation Equation (GEE) model was used for the comparison of differences between intervention groups from week 0 to week 5 for peristaltic response frequency.||1.6|0.4|0.99
82639781|NCT02486263|164994391|SUPERIORITY|Weight velocity in grams/day||||||0.64|||||||t-test, 2 sided|||||||0.64
82509293|NCT00782210|164710366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.582|STANDARD_ERROR_OF_MEAN|0.202||0.0041|TWO_SIDED|95.0|-0.979|-0.185|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.185|-0.979|0.0041
82509294|NCT00782210|164710366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.792|STANDARD_ERROR_OF_MEAN|0.202||0.0001|TWO_SIDED|95.0|-1.189|-0.394|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.394|-1.189|0.0001
82639782|NCT02486263|164994392|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
82639783|NCT02486263|164994393|SUPERIORITY|||||||0.49||||||Threshold for statistical significance \<0.05|Chi-squared|||||||0.49
82639784|NCT00422227|164994450|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82639785|NCT00422227|164994451|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||ACR 20||||<0.001
82639786|NCT00422227|164994451|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||ACR 50||||<0.001
82509295|NCT00782210|164710367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.104|STANDARD_ERROR_OF_MEAN|0.354||0.0019|TWO_SIDED|95.0|-1.799|-0.409|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.409|-1.799|0.0019
82567508|NCT00179478|164844913|SUPERIORITY|||||||0.5||||||a priori threshold for statistical significant was a p value less than 0.01|Fisher Exact|||||||0.50
82509296|NCT00782210|164710367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.435|STANDARD_ERROR_OF_MEAN|0.354|<|0.0001|TWO_SIDED|95.0|-2.13|-0.74|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.740|-2.130|<0.0001
82509297|NCT00782210|164710368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.3|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.3|-0.7|<0.0001
82509298|NCT00782210|164710368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.3|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.3|-0.7|<0.0001
82509299|NCT00782210|164710369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
82509300|NCT00782210|164710369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.6|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.2|-0.6|<0.0001
82509301|NCT00782210|164710370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
82509302|NCT00782210|164710370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.2|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.2|-0.7|<0.0001
82509303|NCT00782210|164710371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0109||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum,visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0109
82509304|NCT00782210|164710371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0031||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0031
82509305|NCT00782210|164710372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.728|STANDARD_ERROR_OF_MEAN|0.124||0.0658|TWO_SIDED|95.0|0.522|1.016|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.016|0.522|0.0658
82509306|NCT00782210|164710372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.799|STANDARD_ERROR_OF_MEAN|0.133||0.1701|TWO_SIDED|95.0|0.576|1.107|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.107|0.576|0.1701
82523038|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.2755||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.2755
82523039|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.1646||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.1646
82523040|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||<0.0001
82509307|NCT00782210|164710373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.656|STANDARD_ERROR_OF_MEAN|0.247||0.2754|TWO_SIDED|95.0|0.313|1.374|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.374|0.313|0.2754
82509308|NCT00782210|164710373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|STANDARD_ERROR_OF_MEAN|0.342||0.9792|TWO_SIDED|95.0|0.521|1.961|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.961|0.521|0.9792
82509309|NCT00782210|164710374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739|STANDARD_ERROR_OF_MEAN|0.142||0.1194|TWO_SIDED|95.0|0.506|1.078|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.078|0.506|0.1194
82509310|NCT00782210|164710374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.811|STANDARD_ERROR_OF_MEAN|0.153||0.257|TWO_SIDED|95.0|0.561|1.174|||Regression, Cox|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.174|0.561|0.2570
82630273|NCT03070119|164976305|SUPERIORITY||LS mean difference|3.6|STANDARD_ERROR_OF_MEAN|2.46|=|0.1432|TWO_SIDED|95.0|-1.2|8.4|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline ALSFRS-R total score, and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||8.4|-1.2|=0.1432
82509311|NCT00782210|164710375|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7815|STANDARD_ERROR_OF_MEAN|0.138||0.1631|TWO_SIDED|95.0|0.5524|1.1054|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.1054|0.5524|0.1631
82509312|NCT00782210|164710375|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8456|STANDARD_ERROR_OF_MEAN|0.1467||0.3342|TWO_SIDED|95.0|0.6015|1.1889|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.1889|0.6015|0.3342
82509313|NCT00782210|164710376|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.655|STANDARD_ERROR_OF_MEAN|0.2664||0.2985|TWO_SIDED|95.0|0.2947|1.4556|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.4556|0.2947|0.2985
82509314|NCT00782210|164710376|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1211|STANDARD_ERROR_OF_MEAN|0.4103||0.755|TWO_SIDED|95.0|0.5464|2.3003|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.3003|0.5464|0.7550
82567509|NCT02264353|164844974|SUPERIORITY|||||||0.576|||||||t-test, 2 sided|||||||0.576
82630274|NCT03070119|164976306|SUPERIORITY||LS mean difference|8.1|STANDARD_ERROR_OF_MEAN|3.99|||TWO_SIDED|95.0|0.3|15.9||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||15.9|0.3|
82630275|NCT03070119|164976306|SUPERIORITY||LS mean difference|9.3|STANDARD_ERROR_OF_MEAN|5.6|=|0.0963|TWO_SIDED|95.0|-1.7|20.4|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||20.4|-1.7|=0.0963
82630276|NCT03070119|164976306|SUPERIORITY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|5.56|=|0.4388|TWO_SIDED|95.0|-6.6|15.2|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline percent predicted SVC and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||15.2|-6.6|= 0.4388
82630277|NCT03070119|164976307|SUPERIORITY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.109|||TWO_SIDED|95.0|0.051|0.477||||||Week 52 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.477|0.051|
82639787|NCT00422227|164994451|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Fisher Exact|||ACR 70||||0.009
82639788|NCT00422227|164994452|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||Low Disease (DAS28 \<3.2)||||<0.001
82639789|NCT00422227|164994452|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Fisher Exact|||Remission (DAS28 \<2.6)||||0.069
82639790|NCT00422227|164994453|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82639791|NCT00422227|164994454|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
82639792|NCT00422227|164994455|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||≥0.6||||0.003
82639793|NCT00422227|164994455|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||≥1.2||||0.001
82639794|NCT00422227|164994456|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||ANCOVA|||Painful Joints at Week 16||||0.014
82639795|NCT00422227|164994456|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Swollen Joints at Week 16||||<0.001
82639796|NCT00422227|164994457|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Physician Global Assessment Week 16||||<0.001
82639797|NCT00422227|164994457|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Subject Global Assessment Week 16||||<0.001
82639798|NCT00422227|164994458|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Week 16||||<0.001
82639799|NCT00422227|164994459|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||General Health Week 16||||<0.001
82639800|NCT00422227|164994459|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Pain Week 16||||<0.001
82639801|NCT00422227|164994459|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Fatigue Week 16||||0.001
82630278|NCT03070119|164976307|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.145|=|0.3207|TWO_SIDED|95.0|-0.141|0.43|||ANCOVA|ANCOVA model using MI.||Week 104 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.430|-0.141|=0.3207
82630279|NCT03070119|164976307|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.091|=|0.5452|TWO_SIDED|95.0|-0.124|0.234|||ANCOVA|ANCOVA model using MI.||Week 148 - The analysis was based on an ANCOVA model that included treatment as a fixed effect and adjusted for the following covariates: baseline plasma NfL, baseline HHD overall megascore and use of riluzole or edaravone. Multiple imputation including treatment group, use of riluzole or edaravone, baseline NfL, and the relevant baseline and postbaseline values for the endpoint was used for missing data.||0.234|-0.124|=0.5452
82630280|NCT03070119|164976309|SUPERIORITY||Hazard Ratio (HR)|0.64|||=|0.4202|TWO_SIDED|95.0|0.282|1.461|||Log Rank|The analysis was based on a log rank test stratified by median baseline plasma NfL.|The analysis was based on a Cox proportional hazards model adjusted for baseline plasma NfL, and riluzole or edaravone use.|||1.461|0.282|=0.4202
82630281|NCT03070119|164976310|SUPERIORITY||Hazard Ratio (HR)|0.52|||=|0.3108|TWO_SIDED|95.0|0.199|1.357|||Log Rank|The analysis was based on a log rank test stratified by median baseline plasma NfL.|The analysis was based on a Cox proportional hazards model adjusted for baseline plasma NfL, and riluzole or edaravone use.|||1.357|0.199|=0.3108
82630282|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|2.777|||TWO_SIDED|95.0|-3.39|7.91|||||Day 1, Max HR|||7.91|-3.39|
82630283|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.922|||TWO_SIDED|95.0|-4.78|7.28|||||Day 7, Max HR|||7.28|-4.78|
82630284|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-2.37|8.91|||||Day 1, Max HR|||8.91|-2.37|
82630285|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|2.729|||TWO_SIDED|95.0|-7.89|3.39|||||Day 7, Max HR|||3.39|-7.89|
82630286|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.49|STANDARD_ERROR_OF_MEAN|2.899|||TWO_SIDED|95.0|1.59|13.39|||||Day 1, Max HR|||13.39|1.59|
82630287|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|3.079|||TWO_SIDED|95.0|2.34|15.05|||||Day 7, Max HR|||15.05|2.34|
82630288|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|2.243|||TWO_SIDED|95.0|-4.8|4.34|||||Day 1, WM|||4.34|-4.80|
82630289|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.52|||TWO_SIDED|95.0|-5.09|5.4|||||Day 7, WM|||5.40|-5.09|
82630290|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|2.182|||TWO_SIDED|95.0|-2.12|6.77|||||Day 1, WM|||6.77|-2.12|
82630291|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|2.378|||TWO_SIDED|95.0|-7.48|2.45|||||Day 7, WM|||2.45|-7.48|
82630292|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.16|STANDARD_ERROR_OF_MEAN|2.282|||TWO_SIDED|95.0|1.51|10.81|||||Day 1, WM|||10.81|1.51|
82630293|NCT00732472|164976326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.06|STANDARD_ERROR_OF_MEAN|2.642|||TWO_SIDED|95.0|1.57|12.54|||||Day 7, WM|||12.54|1.57|
82630294|NCT01899768|164976442|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.26|||||TWO_SIDED|90.0|1.1|1.44|||||Ratio of adjusted geometric means = GSK2339345/Placebo.|||1.44|1.10|
82378457|NCT01512160|164465476|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-4.3|2.2||||||Analysis of co-variance (ANCOVA) model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90 percent (%) confidence interval (CI) was presented.||2.2|-4.3|
82630295|NCT01899768|164976443|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.02|||||TWO_SIDED|90.0|0.87|1.19|||||Ratio of adjusted geometric means = GSK2339345/Placebo.|||1.19|0.87|
82630296|NCT01899768|164976466|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.23|||||TWO_SIDED|90.0|0.86|1.75|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 0-4 hr.|||1.75|0.86|
82630297|NCT01899768|164976466|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.36|||||TWO_SIDED|90.0|1.07|1.72|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 4-8 hr.|||1.72|1.07|
82630298|NCT01899768|164976467|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.97|||||TWO_SIDED|90.0|0.67|1.4|||||Ratio of adjusted geometric means = GSK2339345/Placebo. Estimated value and CI are presented for the mean cough count over 0-4 hr.|||1.40|0.67|
82630299|NCT01899768|164976467|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means = GSK2|1.04|||||TWO_SIDED|90.0|0.79|1.36|||Ratio of adjusted geometric mean|||||1.36|0.79|
82630300|NCT02213081|164976507|EQUIVALENCE|Wilcoxon signed rank test was used to determine if the mean difference in pain scores before compared to during ulipristal therapy were equivalent or non-equivalent.|Mean Difference (Net)|3.5|STANDARD_ERROR_OF_MEAN|0.57|<|0.05|TWO_SIDED||||||Wilcoxon signed rank|||||||<0.05
82630301|NCT01526928|164976571|OTHER||||||||||||||||||Since an MTD was never reached for any of the rociletinib FB or HBr formulations/doses, a 750 mg BID HBr starting dose was selected based on early efficacy data from Phase 1, and enrollment into Phase 2 was initiated at this dosage. As the Phase 1 efficacy data matured, the recommended dose was adjusted to 625 mg BID based on antitumor activity and safety evaluations.|||
82630302|NCT04157751|164976589|OTHER||Stratified Win Ratio|1.36||||0.0027|TWO_SIDED|95.0|1.09|1.68||p-value for WR\<=1.0 (one-sided), variance calculated using the asymptotic normal U statistics approach.|Asymptotic normal U statistics approach||WR estimate= \[((a)+(c)+(e)+(g)) / ((b)+(d)+(f)+(h))\]|"Stratified win ratio (WR) was used, calculated as total number of wins in the empa group across all strata divided by total number of losses. Weights were applied analogous to a Mantel-Haenszel approach.~1. death in pbo first;~2. death in empa first;~3. HFEs in pbo more frequently;~4. HFEs in empa more frequently;~5. HFEs in pbo first;~6. HFEs in empa first;~7. KCCQ-TSS change lower in pbo;~8. KCCQ-TSS change lower in empa"||1.68|1.09|0.0027
82567510|NCT02264353|164844975|OTHER|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||||||0.394
82567511|NCT02264353|164844976|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
82509315|NCT00782210|164710377|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8081|STANDARD_ERROR_OF_MEAN|0.163||0.2911|TWO_SIDED|95.0|0.5438|1.2008|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.2008|0.5438|0.2911
82509316|NCT00782210|164710377|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8485|STANDARD_ERROR_OF_MEAN|0.1686||0.4086|TWO_SIDED|95.0|0.5743|1.2535|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.2535|0.5743|0.4086
82509317|NCT00654381|164710440|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.04|-0.7|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 5 mg vs placebo at week 12||-0.7|-1.04|<0.0001
82567512|NCT02864147|164844999|SUPERIORITY|||||||0.043||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.043
82567513|NCT02864147|164844999|SUPERIORITY|||||||0.384||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.384
82567514|NCT02864147|164845000|SUPERIORITY|||||||0.177||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.177
82567515|NCT02864147|164845000|SUPERIORITY|||||||0.592||||||Control is used as the referent using one-sided Fisher's exact tests with a multiple comparison-adjusted p\<0.025 significance level.|Fisher Exact|||||||0.592
82567516|NCT02269917|164845001|NON_INFERIORITY|4|Difference in percentage|0.4|||<|0.001|TWO_SIDED|95.0|-1.5|2.2|||Stratum-adjusted Mantel-Haenszel (MH)|||||2.2|-1.5|<0.001
82567517|NCT02269917|164845006|OTHER||Least Square (LS) Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.623|=|0.58|TWO_SIDED|95.0|-0.88|1.57|||ANCOVA|||Change at Week 24||1.57|-0.88|=0.580
82567518|NCT02269917|164845006|OTHER||Least Square (LS) Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.646|=|0.34|TWO_SIDED|95.0|-0.65|1.88|||ANCOVA|||Change at Week 48||1.88|-0.65|=0.340
82567519|NCT02269917|164845007|OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.874|=|0.506|TWO_SIDED|95.0|-2.3|1.13|||ANCOVA|||Change at Week 24||1.13|-2.30|=0.506
82630303|NCT04157751|164976590|OTHER||Odds Ratio (OR)|1.522|STANDARD_ERROR_OF_MEAN|0.386||0.097|TWO_SIDED|95.0|0.927|2.501||p-value for OR=1.0 (two-sided).|Regression, Logistic|Wald Confidence interval.|Comparison vs. Placebo.|Logistic regression including terms for baseline KCCQ-TSS, treatment and heart failure status||2.501|0.927|0.0970
82567520|NCT02269917|164845007|OTHER||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.862|=|0.392|TWO_SIDED|95.0|-2.43|0.95|||ANCOVA|||Change Week 48||0.95|-2.43|=0.392
82567521|NCT02269917|164845008|OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.624|=|0.143|TWO_SIDED|95.0|-2.14|0.31|||ANCOVA|||Change at Week 24||0.31|-2.14|=0.143
82567522|NCT02269917|164845008|OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.646|=|0.092|TWO_SIDED|95.0|-2.36|0.18|||ANCOVA|||Change at Week 48||0.18|-2.36|=0.092
82567523|NCT02269917|164845009|OTHER||LS Mean Difference|1.14|STANDARD_ERROR_OF_MEAN|0.59|=|0.054|TWO_SIDED|95.0|-0.02|2.29|||ANCOVA|||Change at Week 24||2.29|-0.02|=0.054
82567524|NCT02269917|164845009|OTHER||LS Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.63|=|0.034|TWO_SIDED|95.0|0.1|2.57|||ANCOVA|||Change at Week 48||2.57|0.10|=0.034
82567525|NCT02269917|164845010|OTHER||||||<|0.001|||||||Van Elteren Test|||UACR - Change at Week 24||||<0.001
82567526|NCT02269917|164845010|OTHER||||||<|0.001|||||||Van Elteren Test|||UACR - Change at Week 48||||<0.001
82567527|NCT02269917|164845010|OTHER||||||<|0.001|||||||Van Elteren Test|||UPCR - Change at Week 24||||<0.001
82567528|NCT02269917|164845010|OTHER||||||<|0.001|||||||Van Elteren Test|||UPCR - Change at Week 48||||<0.001
82567529|NCT02269917|164845011|OTHER||||||<|0.001|||||||Van Elteren Test|||URBPCR: Change at Week 24||||<0.001
82567530|NCT02269917|164845011|OTHER||||||<|0.001|||||||Van Elteren Test|||URBPCR: Change at Week 48||||<0.001
82567531|NCT02269917|164845011|OTHER||||||<|0.001|||||||Van Elteren Test|||UB2MGCR: Change at Week 24||||<0.001
82567532|NCT02269917|164845011|OTHER||||||<|0.001|||||||Van Elteren Test|||UB2MGCR: Change at Week 48||||<0.001
82567533|NCT02269917|164845012|OTHER||||||=|0.288|||||||Van Elteren Test|||FEPO4 - Change at Week 24||||=0.288
82567534|NCT02269917|164845012|OTHER||||||=|0.148|||||||Van Elteren Test|||FEPO4 - Change at Week 48||||=0.148
82567535|NCT02269917|164845023|OTHER||LS Mean Difference|1.37|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|0.697|2.037|||ANCOVA|||Spine BMD: Percent change at Week 24||2.037|0.697|<0.001
82567536|NCT02269917|164845023|OTHER||LS Mean Difference|2.05|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|1.277|2.814|||ANCOVA|||Spine BMD: Percent change at Week 48||2.814|1.277|<0.001
82567537|NCT02269917|164845023|OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.272|=|0.001|TWO_SIDED|95.0|0.366|1.436|||ANCOVA|||Hip BMD: Percent change at Week 24||1.436|0.366|=0.001
82567538|NCT02269917|164845023|OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|1.144|2.248|||ANCOVA|||Hip BMD: Percent change at Week 48||2.248|1.144|<0.001
82567539|NCT03873038|164845099|OTHER|Geometric mean ratio (GMR) was derived using the geometric mean (GM) for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).|GMR|0.8|||||TWO_SIDED|90.0|0.54|1.18|||||GMR=GM ESRD/GM Healthy|||1.18|0.54|
82567540|NCT03873038|164845099|OTHER|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).|GMR|0.53|||||TWO_SIDED|90.0|0.37|0.76|||||GMR=GM ESRD/GM Healthy|||0.76|0.37|
82567541|NCT03873038|164845099|OTHER||GMR|0.82|||||TWO_SIDED|90.0|0.55|1.21|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.21|0.55|
82567542|NCT03873038|164845100|OTHER||GMR|1.41|||||TWO_SIDED|90.0|1.07|1.85|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.85|1.07|
82567543|NCT03873038|164845100|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.67|1.11|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001)||1.11|0.67|
82567544|NCT03873038|164845100|OTHER||GMR|0.82|||||TWO_SIDED|90.0|0.62|1.08|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.08|0.62|
82567545|NCT03873038|164845101|OTHER||GMR|1.11|||||TWO_SIDED|90.0|0.84|1.46|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.46|0.84|
82567546|NCT03873038|164845101|OTHER||GMR|0.68|||||TWO_SIDED|90.0|0.52|0.87|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||0.87|0.52|
82567547|NCT03873038|164845101|OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.6|1.03|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.03|0.60|
82567548|NCT03873038|164845102|OTHER||GMR|1.5|||||TWO_SIDED|90.0|1.05|2.14|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||2.14|1.05|
82567549|NCT03873038|164845102|OTHER||GMR|0.91|||||TWO_SIDED|90.0|0.67|1.25|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.25|0.67|
82567550|NCT03873038|164845102|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.62|1.2|||||GMR=GM ESRD/GM Healthy|GMR was derived using GM for participants with ESRD and the GM from historical data obtained from a study of MK-2060 in healthy participants (PN001).||1.20|0.62|
82567551|NCT00595764|164845117|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.4||0.91|TWO_SIDED|95.0|||||ANOVA|||With an effect size of 0.46, a sample size of 140 will provide a power of \>.84 with p\<.05 to detect overall differences between the two treatments on the primary outcome measures.||||.91
82567552|NCT00595764|164845119|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.32||0.29|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.29
82567553|NCT00595764|164845120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.029||0.58|TWO_SIDED|95.0|||||Mixed Models Analysis|Mixed Model Analysis to evaluate interaction of group by time.||||||.58
82630304|NCT04157751|164976591|OTHER||Difference of adjusted mean|4.45|STANDARD_ERROR_OF_MEAN|2.1||0.0347|TWO_SIDED|95.0|0.32|8.59||p-value for difference = 0 (two-sided)|Mixed Models Analysis|||Restricted maximum likelihood estimation based on a mixed-effect model for repeated measures (MMRM) analysis to obtain adjusted means for the treatment effects. This model included discrete fixed effects for treatment group, and heart failure status at each visit and continuous fixed effects for baseline value at each visit. Missing data caused by patient withdrawal or other reasons were handled implicitly by the MMRM approach. Unstructured covariance structure was used.||8.59|0.32|0.0347
82630305|NCT04157751|164976592|OTHER||Adjusted geometric mean ratio|0.9||||0.0176|TWO_SIDED|95.0|0.82|0.98|||ANCOVA|ANCOVA with a discrete fixed effect for heart failure status and a continuous fixed effect for baseline NT-proBNP level.|Comparison vs. Placebo|Area under the curve (AUC) of change from baseline in log-transformed NT-proBNP level over 30 days of treatment was analysed by an analysis of covariance (ANCOVA). NT-proBNP level is regarded as log-normally distributed, therefore values were log-transformed prior to analysis. The linear trapezoidal rule was used to calculate the AUC after the log-transformation had been applied to each value.||0.98|0.82|0.0176
82630306|NCT04157751|164976595|OTHER||Hazard Ratio (HR)|0.71||||0.1241|TWO_SIDED|95.0|0.46|1.1||p-value for HR=1.0 (two sided)|Regression, Cox|Cox proportional hazard model with terms for heart failure status and treatment.|Comparison vs. Placebo.|||1.10|0.46|0.1241
82630307|NCT03446612|164976602|OTHER||FBF ratio difference|0.6953|STANDARD_DEVIATION|0.12998|||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (7.5 ug/min) is presented.|||||
82630308|NCT03446612|164976602|OTHER||FBF ratio difference|0.1683|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (15 ug/min) is presented.|||||
82630309|NCT03446612|164976602|OTHER||FBF ratio difference|0.3238|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to acetylcholine (30 ug/min) is presented.|||||
82630310|NCT03446612|164976604|OTHER||FBF ratio difference|0.2968|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to sodium nitroprusside (3 ug/min) is presented.|||||
82630311|NCT03446612|164976604|OTHER||FBF ratio difference|1.4425|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to sodium nitroprusside (10 ug/min) is presented.|||||
82630312|NCT03446612|164976606|OTHER||FBF ratio difference|-0.1598|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to L-NMMA (2 umol/min) is presented.|||||
82630313|NCT03446612|164976606|OTHER||FBF ratio difference|-0.3715|||||||||||||The difference between daprodustat and darbepoetin alfa FBF ratio in response to L-NMMA (8 umol/min) is presented.|||||
82630314|NCT00815776|164976718|NON_INFERIORITY_OR_EQUIVALENCE|The unadjusted reductions are straight arithmetic averages and are supplied for informational purposes only. The pooled variance is calculated from the unadjusted standard deviations, and the t statistic is calculated as described in Laster (2003) using an average sample size of 54 and 106 degrees of freedom.|||||<|0.0096|||||||student's t-test with 2n-2 DoF|||The LS means were used to calculate the test statistic for non-inferiority of the CID to the traditional splint device. The null hypothesis was that the reduction of CMI score for the CID is less than 80% of the reduction in the splint group. A significant p-value(\< 0.05) would reject this null hypothesis in favor of the alternative hypothesis that the CID demonstrated a reduction of at least 80% of that seen in the splint group.||||<0.0096
82630315|NCT00815776|164976719|NON_INFERIORITY_OR_EQUIVALENCE|Safety analyses were performed on the ITT population.||||||0.688|||||||t-test, 1 sided|||Safety analyses were performed on the ITT population. The safety of the CID was characterized by the proportion of subjects with all serious and non-serious study-related adverse events and Unanticipated Adverse Device Events (UADEs). In addition, summaries of the onset, duration, severity, treatment relatedness, and outcome of all adverse events were reported.||||0.688
82630316|NCT00815776|164976720|SUPERIORITY_OR_OTHER|||||||0.2995||||||From the pilot study, 50 subjects (CID arm) and 25 (exercise arm) were required for at least 80% power to detect a difference in the mean reduction in CMI scores between arms if muPassive is less than approximately 70% of that in the CID arm.|t-test, 2 sided|||A significant p-value for the treatment group effect would indicate that the CID group and Exercise group were significantly different, based on results of a two-sided t test for difference in means, with alpha=0.5, and allowing for unequal sample sizes.||||.2995
82630317|NCT04228445|164976721|SUPERIORITY||Odds Ratio (OR)|14.041|||<|0.0001|TWO_SIDED|95.0|7.394|26.662|||Score statistics for Type 3 GEE analysis|||||26.662|7.394|<0.0001
82630318|NCT04228445|164976721|SUPERIORITY||Odds Ratio (OR)|16.772|||<|0.0001|TWO_SIDED|95.0|8.625|32.617|||Score statistics for Type 3 GEE analysis|||||32.617|8.625|<0.0001
82630319|NCT04228445|164976722|OTHER||Percentage of Responders|87.8|||||TWO_SIDED|95.0|78.6|96.9|||||Missing data imputed as non-responder|||96.9|78.6|
82630320|NCT04228445|164976722|OTHER||Percentage of Responders|87.2|||||TWO_SIDED|95.0|77.7|96.8|||||Missing data imputed as non-responder|||96.8|77.7|
82630321|NCT04228445|164976723|OTHER||percentage of satisfaction|89.8|||||TWO_SIDED|95.0|78.2|95.6||||||||95.6|78.2|
82630322|NCT04228445|164976723|OTHER||percentage of satisfaction|80.9|||||TWO_SIDED|95.0|67.5|89.6||||||||89.6|67.5|
82630323|NCT04228445|164976724|OTHER||median time to visualization (minutes)|6.0|||||TWO_SIDED|95.0|5.25|7.0||||||||7.00|5.25|
82630324|NCT04228445|164976724|OTHER||median time to visualization (minutes)|5.93|||||TWO_SIDED|95.0|5.12|7.0||||||||7.00|5.12|
82630325|NCT04228445|164976725|SUPERIORITY||Odds Ratio (OR)|19.532|||<|0.0001|TWO_SIDED|95.0|8.738|43.663|||Score statistics for Type 3 GEE analysis|||||43.663|8.738|<0.0001
82630326|NCT04228445|164976725|SUPERIORITY||Odds Ratio (OR)|15.73|||<|0.0001|TWO_SIDED|95.0|7.199|34.369|||Score statistics for Type 3 GEE analysis|||||34.369|7.199|<0.0001
82630327|NCT04228445|164976726|OTHER||Percentage of Agreement|91.1|||||TWO_SIDED|||||||||Left Ureter||||
82630328|NCT04228445|164976726|OTHER||Percentage of Agreement|88.4|||||TWO_SIDED|||||||||Left Ureter||||
82630329|NCT04228445|164976726|OTHER||Percentage of Agreement|76.1|||||TWO_SIDED|||||||||Left Ureter||||
82630330|NCT04228445|164976726|OTHER||Percentage of Agreement|95.6|||||TWO_SIDED|||||||||Right Ureter||||
82630331|NCT04228445|164976726|OTHER||Percentage of Agreement|86.0|||||TWO_SIDED|||||||||Right Ureter||||
82630332|NCT04228445|164976726|OTHER||Percentage of Agreement|71.6|||||TWO_SIDED|||||||||Right Ureter||||
82630333|NCT04228445|164976727|SUPERIORITY||Odds Ratio (OR)|0.771||||0.4595|TWO_SIDED|95.0|0.388|1.534|||Score statistics for Type 3 GEE analysis|||||1.534|.388|0.4595
82630334|NCT04228445|164976728|SUPERIORITY||Odds Ratio (OR)|1.036||||0.922|TWO_SIDED|95.0|0.509|2.11|||Score statistics for Type 3 GEE analysis|||||2.110|.509|0.9220
82630335|NCT00460525|164976740|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|0.17||||0.175||95.0|-0.09|0.37||The a priori threshold for statistical significance was set at 0.05.|Regression, Cox|No adjustments were made.|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Cox model fit.|Time to first clinical malaria episode with significant parasitemia (2500/mm\^3) and temperature of greater than or equal to 37.5 degrees C was analyzed by fitting a Cox Proportional Hazards model. The null hypothesis of no vaccine efficacy was tested by the stratified log-rank test (score test). The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||0.37|-0.09|0.175
82630336|NCT00460525|164976742|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|0.2||||0.068||95.0|-0.02|0.37||The a priori threshold for statistical significance was set at 0.05.|Poisson regression|No adjustments|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Poisson model fit.|Incidence density, defined as number of clinical malaria episodes per PYAR, was compared using Poisson regression. The null hypothesis of no vaccine efficacy was tested. The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||0.37|-0.02|0.068
82630337|NCT04757376|164976752|EQUIVALENCE|Statistical equivalence: the 90% confidence interval (CI) of the difference in the mean of the primary efficacy endpoint between treatment groups was entirely within an equivalence margin, \[- 1.45, + 1.45\].|Mean Difference (Final Values)|-0.19|||||TWO_SIDED|90.0|-0.76|0.38|||ANCOVA|ANCOVA included the treatment as a fixed effect and age, baseline LS-BMD T-score, and prior bisphosphonates therapy (Yes versus No) as covariates.||||0.38|-0.76|
82630338|NCT01307046|164976766|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-5.1|||<|0.001|TWO_SIDED|95.0|-6.8|-3.4|||constrained longitudinal data analysis|||||-3.4|-6.8|<.001
82630339|NCT01307046|164976767|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-9.2|||<|0.001|TWO_SIDED|95.0|-11.9|-6.5|||constrained longitudinal data analysis|||||-6.5|-11.9|<.001
82630340|NCT02574520|164976769|SUPERIORITY|Primary|Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.24||0.124|TWO_SIDED|95.0|-0.84|0.1|||ANOVA|Mixed model with repeated measures (MMRM) for scheduled pain measurements was estimated with time as a repeating factor within subject.|Least squares mean from the MMRM described in the Statistical Test of Hypothesis.|Pain Intensity on Movement 0-48 hr||0.10|-0.84|0.124
82630341|NCT00796224|164976807|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|157.98||||||90.0|98.87|252.44|||ANOVA|||Test (60 mg/kg Azithromycin ER)/ Reference (30 mg/kg Azithromycin IR)||252.44|98.87|
82630342|NCT00796224|164976809|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|91.63||||||90.0|56.21|149.38|||ANOVA|||||149.38|56.21|
82630343|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|65.44||||||90.0|23.56|181.77|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 1 hour postdose||181.77|23.56|
82630344|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|50.57||||||90.0|25.24|101.3|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 2 hours postdose||101.30|25.24|
82630345|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|100.07||||||90.0|57.91|172.92|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 3 hours postdose||172.92|57.91|
82630346|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|164.93||||||90.0|103.78|262.12|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 4 hours postdose||262.12|103.78|
82630347|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|174.41||||||90.0|110.07|276.36|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 8 hours postdose||276.36|110.07|
82630348|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|173.01||||||90.0|111.45|268.55|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 24 hours postdose||268.55|111.45|
82630349|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|189.35||||||90.0|129.76|276.3|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 48 hours postdose||276.30|129.76|
82630350|NCT00796224|164976811|SUPERIORITY_OR_OTHER||Ratio of Geometric means (percent)|183.14||||||90.0|124.61|269.14|||ANOVA||Ratio (percent) = Test/Reference multiplied by 100|Serum Concentration 72 hours postdose||269.14|124.61|
82630351|NCT03227224|164976825|SUPERIORITY||Difference of Least Square Means|0.9||||0.724|TWO_SIDED|90.0|-3.12|4.82|||Mixed model for repeated measures (MMRM)|||||4.82|-3.12|0.724
82630352|NCT03227224|164976825|SUPERIORITY||Difference of Least Square Means|-3.1||||0.083|TWO_SIDED|90.0|-6.13|-0.16|||MMRM|||||-0.16|-6.13|0.083
82630353|NCT03227224|164976825|SUPERIORITY||Difference of Least Square Means|-1.5||||0.424|TWO_SIDED|90.0|-4.7|1.63|||MMRM|||||1.63|-4.70|0.424
82630354|NCT04195750|164976867|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00031|TWO_SIDED|95.0|0.63|0.88|||Log Rank|One-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.88|0.63|0.00031
82630355|NCT04195750|164976868|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.17644|TWO_SIDED|95.0|0.77|1.1|||Log Rank|One-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||1.10|0.77|0.17644
82630356|NCT04195750|164976869|SUPERIORITY|P-value, difference in percentage and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Difference in Percentage|18.4|||<|1e-05|TWO_SIDED|95.0|14.0|23.2||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen||Belzutifan minus Everolimus|||23.2|14.0|<0.00001
82630357|NCT04195750|164976873|OTHER||Hazard Ratio (HR)|0.75||||0.0185|TWO_SIDED|95.0|0.58|0.96|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.96|0.58|0.0185
82630358|NCT04195750|164976874|OTHER||Hazard Ratio (HR)|0.93||||0.5533|TWO_SIDED|95.0|0.72|1.2|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||1.20|0.72|0.5533
82630359|NCT04195750|164976875|OTHER||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.69|||Log Rank|Two-sided p-value based on log-rank test stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC Risk Category and Number of prior VEGF/VEGF-Receptor Targeted Therapies for RCC.|||0.69|0.41|<0.0001
82630360|NCT04195750|164976876|OTHER||Difference in Least Squares (LS) Means|6.38|||<|0.0001|TWO_SIDED|95.0|3.21|9.55|||t-test, 2 sided||Based on a cLDA model with scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||9.55|3.21|<0.0001
82630361|NCT04195750|164976877|OTHER||Difference in LS Means|2.47||||0.1134|TWO_SIDED|95.0|-0.59|5.54|||t-test, 2 sided||Based on a cLDA model with scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||5.54|-0.59|0.1134
82630362|NCT04195750|164976878|OTHER||Difference in LS Means|1.45||||0.0002|TWO_SIDED|95.0|0.7|2.19|||t-test, 2 sided||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||2.19|0.70|0.0002
82630363|NCT04195750|164976879|OTHER||Difference in LS Means|3.72||||0.0051|TWO_SIDED|95.0|1.12|6.31|||t-test, 2 sided||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (IMDC Risk Category, and Number of Prior VEGF/VEGF-Receptor Targeted Therapies for RCC) as covariates.|||6.31|1.12|0.0051
82630364|NCT03782376|164976885|SUPERIORITY||Difference in percentage|11.5||||0.089|TWO_SIDED|95.0|-1.5|24.5||Threshold for significance was 0.05 level.|Cochran-Mantel Haenszel-chi-square test|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||24.5|-1.5|0.089
82630365|NCT03782376|164976886|SUPERIORITY||Difference in percentage|5.9||||0.338|TWO_SIDED|95.0|-6.0|17.8|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||17.8|-6.0|0.338
82630366|NCT03782376|164976887|SUPERIORITY||Difference in percentage|7.1||||0.3|TWO_SIDED|95.0|-6.0|20.2|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||20.2|-6.0|0.300
82630367|NCT03782376|164976888|SUPERIORITY||Difference in percentage|6.4||||0.314|TWO_SIDED|95.0|-5.8|18.6|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||18.6|-5.8|0.314
82630368|NCT03782376|164976889|SUPERIORITY||Difference in percentage|18.5||||0.004|TWO_SIDED|95.0|6.8|30.2|||CMH chi-square test (2-sided)|||The fixed sequence testing method was used. CMH chi-square test (2-sided) stratified by baseline CDAI score (\<= 300 or \> 300), and prior biologic failure status at baseline (yes or no).||30.2|6.8|0.004
82567554|NCT00595764|164845121|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.38|STANDARD_ERROR_OF_MEAN|3.63||0.24|TWO_SIDED|95.0|||||Mixed Models Analysis|Mixed Model Analysis to evaluate interaction of group by time.||||||.24
82378458|NCT01512160|164465476|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-4.1|2.3||||||ANCOVA model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90% CI was presented.||2.3|-4.1|
82509318|NCT00654381|164710440|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.05|-0.71|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 10 mg vs placebo at week 12||-0.71|-1.05|<0.0001
82630369|NCT03277794|164976905|OTHER||Odds Ratio (OR)|2.28|STANDARD_ERROR_OF_MEAN|0.89||0.354|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.354
82630370|NCT03277794|164976905|OTHER||Odds Ratio (OR)|2.01|STANDARD_ERROR_OF_MEAN|0.95||0.465|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.465
82630371|NCT03277794|164976906|OTHER||Odds Ratio (OR)|2.31|STANDARD_ERROR_OF_MEAN|0.59||0.159|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.159
82630372|NCT03277794|164976906|OTHER||Odds Ratio (OR)|2.3|STANDARD_ERROR_OF_MEAN|0.64||0.2|TWO_SIDED||||||Regression, Linear|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.200
82630373|NCT03277794|164976907|OTHER||Odds Ratio (OR)|3.18|STANDARD_ERROR_OF_MEAN|0.74||0.121|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.121
82630374|NCT03277794|164976907|OTHER||Odds Ratio (OR)|3.63|STANDARD_ERROR_OF_MEAN|0.85||0.134|TWO_SIDED||||||Regression, Logistic|||Full HOP-C Service (Treatment) vs. Transitional Case Management Only (Control)||||0.134
82630375|NCT03277794|164976908|OTHER|||||||0.899||||||Unadjusted.|Regression, Linear|||||||0.899
82630376|NCT03277794|164976908|OTHER|||||||0.128||||||Unadjusted|Regression, Linear|||||||0.128
82630377|NCT03277794|164976909|OTHER|||||||0.198||||||Unadjusted.|Regression, Linear|||||||0.198
82630378|NCT03277794|164976909|OTHER|||||||0.017||||||Unadjusted.|Regression, Linear|||||||0.017
82630379|NCT03277794|164976910|OTHER|||||||0.091||||||Unadjusted.|Regression, Linear|||||||0.091
82630380|NCT03277794|164976910|OTHER|||||||0.591||||||Unadjusted.|Regression, Linear|||||||0.591
82630381|NCT03277794|164976911|OTHER|||||||0.03||||||Unadjusted.|Regression, Linear|||||||0.030
82630382|NCT03277794|164976911|OTHER|||||||0.005||||||Unadjusted.|Regression, Linear|||||||0.005
82630383|NCT03277794|164976912|OTHER|||||||0.163||||||Unadjusted.|Regression, Linear|||||||0.163
82630384|NCT03277794|164976912|OTHER|||||||0.865||||||Unadjusted.|Regression, Linear|||||||0.865
82630385|NCT03277794|164976913|OTHER|||||||0.98||||||Unadjusted.|Regression, Linear|||||||0.980
82630386|NCT03277794|164976913|OTHER|||||||0.758||||||Unadjusted.|Regression, Linear|||||||0.758
82630387|NCT03277794|164976914|OTHER|||||||0.124||||||Unadjusted.|Regression, Linear|||||||0.124
82630388|NCT03277794|164976914|OTHER|||||||0.168||||||Unadjusted.|Regression, Linear|||||||0.168
82630389|NCT03277794|164976915|OTHER|||||||0.436||||||Unadjusted.|Regression, Linear|||||||0.436
82630390|NCT03277794|164976915|OTHER|||||||0.706||||||Unadjusted.|Regression, Linear|||||||0.706
82630391|NCT03277794|164976916|OTHER|||||||0.604||||||Unadjusted.|Regression, Linear|||Internalizing||||0.604
82630392|NCT03277794|164976916|OTHER|||||||0.177||||||Unadjusted.|Regression, Linear|||Internalizing||||0.177
82630393|NCT03277794|164976916|OTHER|||||||0.325||||||Unadjusted.|Regression, Linear|||Externalizing||||0.325
82630394|NCT03277794|164976916|OTHER|||||||0.227||||||Unadjusted.|Regression, Linear|||Externalizing||||0.227
82630395|NCT03277794|164976916|OTHER|||||||0.106||||||Unadjusted.|Regression, Linear|||Substance Use||||0.106
82630396|NCT03277794|164976916|OTHER|||||||0.058||||||Unadjusted.|Regression, Linear|||Substance Use||||0.058
82630397|NCT03277794|164976917|OTHER|||||||0.862||||||Unadjusted.|Regression, Linear|||Emotional Supports||||0.862
82630398|NCT03277794|164976917|OTHER|||||||0.382||||||Unadjusted.|Regression, Linear|||Emotional Supports||||0.382
82630399|NCT03277794|164976917|OTHER|||||||0.68||||||Unadjusted.|Regression, Linear|||Tangible Supports||||0.680
82567555|NCT02820298|164845136|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|131.41|||||TWO_SIDED|90.0|117.03|147.56|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||147.56|117.03|
82378459|NCT01512160|164465476|SUPERIORITY_OR_OTHER||LS mean difference|3.5|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|0.3|6.7||||||ANCOVA model was used with treatment as a fixed effect and baseline pain intensity as a covariate. LS mean estimates of the treatment difference along with 90% CI was presented.||6.7|0.3|
82567556|NCT02820298|164845138|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|110.29|||||TWO_SIDED|90.0|103.91|117.06|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||117.06|103.91|
82630400|NCT03277794|164976917|OTHER|||||||0.988||||||Unadjusted.|Regression, Linear|||Tangible Supports||||0.988
82630401|NCT03277794|164976917|OTHER|||||||0.701||||||Unadjusted.|Regression, Linear|||Affectionate||||0.701
82630402|NCT03277794|164976917|OTHER|||||||0.154||||||Unadjusted.|Regression, Linear|||Affectionate||||0.154
82630403|NCT03277794|164976918|OTHER|||||||0.719||||||Unadjusted.|Regression, Linear|||Physical Health||||0.719
82630404|NCT03277794|164976918|OTHER|||||||0.15||||||Unadjusted.|Regression, Linear|||Physical Health||||0.150
82630405|NCT03277794|164976918|OTHER|||||||0.789||||||Unadjusted.|Regression, Linear|||Psychological||||0.789
82630406|NCT03277794|164976918|OTHER|||||||0.811||||||Unadjusted.|Regression, Linear|||Psychological||||0.811
82630407|NCT03277794|164976918|OTHER|||||||0.726||||||Unadjusted.|Regression, Linear|||Social||||0.726
82630408|NCT03277794|164976918|OTHER|||||||0.795||||||Unadjusted.|Regression, Linear|||Social||||0.795
82630409|NCT03277794|164976918|OTHER|||||||0.837||||||Unadjusted.|Regression, Linear|||Environment||||0.837
82630410|NCT03277794|164976918|OTHER|||||||0.048||||||Unadjusted.|Regression, Linear|||Environment||||0.048
82630411|NCT02903966|164976967|OTHER||Least Square Mean Difference|-0.18|||||TWO_SIDED|95.0|-1.23|0.87|||||Analysis performed using a Mixed Models Repeated Measures (MMRM) model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and baseline value by visit interactions|||0.87|-1.23|
82630412|NCT02903966|164976968|OTHER||Least Square Mean Difference|0.02|||||TWO_SIDED|95.0|-1.18|1.22|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and baseline value by visit interactions|||1.22|-1.18|
82630413|NCT02903966|164976969|OTHER||Least Square Mean Difference|-0.05|||||TWO_SIDED|95.0|-4.11|4.02|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||4.02|-4.11|
82630414|NCT02903966|164976969|OTHER||Least Square Mean Difference|-3.17|||||TWO_SIDED|95.0|-5.99|-0.35|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||-0.35|-5.99|
82630415|NCT02903966|164976969|OTHER||Least Square Mean Difference|-1.69|||||TWO_SIDED|95.0|-6.26|2.88|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||2.88|-6.26|
82630416|NCT02903966|164976970|OTHER||Least Square Mean Difference|0.29|||||TWO_SIDED|95.0|-4.01|4.59|||||Day 57. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||4.59|-4.01|
82630417|NCT02903966|164976970|OTHER||Least Square Mean Difference|0.11|||||TWO_SIDED|95.0|-3.64|3.85|||||Day 71. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||3.85|-3.64|
82630418|NCT02903966|164976970|OTHER||Least Square Mean Difference|1.12|||||TWO_SIDED|95.0|-2.87|5.1|||||Day 85. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline value, and the treatment by visit and Baseline value by visit interactions|||5.10|-2.87|
82630419|NCT02903966|164976971|OTHER||Ratio|0.7|||||TWO_SIDED|95.0|0.27|1.8|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.80|0.27|
82630420|NCT02903966|164976971|OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.2|1.0|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.00|0.20|
82630421|NCT02903966|164976971|OTHER||Ratio|0.23|||||TWO_SIDED|95.0|0.09|0.62|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||0.62|0.09|
82630422|NCT02903966|164976972|OTHER||Ratio|0.49|||||TWO_SIDED|95.0|0.25|0.97|||||Day 57. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||0.97|0.25|
82630423|NCT02903966|164976972|OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.2|1.57|||||Day 71. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||1.57|0.20|
82630424|NCT02903966|164976972|OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.31|2.18|||||Day 85. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, log-transformed Baseline value, and the treatment by visit and log-transformed baseline value by visit interactions.|||2.18|0.31|
82630425|NCT02903966|164976973|OTHER||Least Square Mean Difference|0.01|||||TWO_SIDED|95.0|-2.05|2.07|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||2.07|-2.05|
82630426|NCT02903966|164976974|OTHER||Least Square Mean Difference|0.08|||||TWO_SIDED|95.0|-2.11|2.27|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||2.27|-2.11|
82509319|NCT00654381|164710441|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0003|TWO_SIDED|95.0|-0.49|-0.15|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||||-0.15|-0.49|0.0003
82509320|NCT00654381|164710441|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.21|||ANCOVA|Model includes treatment,baseline HbA1c, and number of previous antidiabetic medication||Linagliptin 10 mg vs voglibose at week 26||-0.21|-0.56|<0.0001
82509321|NCT00654381|164710445|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-25.4|-14.0|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 5 mg vs placebo at week 12||-14.0|-25.4|<0.0001
82509322|NCT00654381|164710445|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-26.2|-14.7|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 10 mg vs placebo at week 12||-14.7|-26.2|<0.0001
82509323|NCT00654381|164710446|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|3.1||0.0239|TWO_SIDED|95.0|-13.0|-0.9|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 5 mg vs Voglibose at week 26||-0.9|-13.0|0.0239
82509324|NCT00654381|164710446|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|3.1||0.0015|TWO_SIDED|95.0|-15.8|-3.8|||ANCOVA|Model includes treatment,baseline FPG, and number of previous antidiabetic medication||Linagliptin 10 mg vs voglibose at week 26||-3.8|-15.8|0.0015
82509325|NCT00994448|164710457|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.3|STANDARD_ERROR_OF_MEAN|8.6||0.08|TWO_SIDED|95.0|1.8|34.3|||t-test, 2 sided|||t test for mean of days retained in the bupropion versus placebo groups||34.3|1.8|0.08
82509326|NCT04164901|164710459|SUPERIORITY||Cox Proportional Hazard|0.39|||<|1e-07|TWO_SIDED|95.0|0.27|0.56|||Kaplan-Meier|||||0.56|0.27|<0.0000001
82509327|NCT04164901|164710462|SUPERIORITY||Odds Ratio (OR)|4.88||||0.003|TWO_SIDED|95.0|1.56|15.25|||Cochran-Mantel-Haenszel||Odds ratio was calculated with placebo as the control (denominator).|||15.25|1.56|0.003
82509328|NCT04164901|164710469|SUPERIORITY||Cox Proportional Hazard|0.35||||2.4e-07|TWO_SIDED|95.0|0.23|0.54|||Kaplan-Meier|||||0.54|0.23|0.00000024
82509329|NCT05358821|164710472|SUPERIORITY||Mean Difference|3.3657|STANDARD_ERROR_OF_MEAN|0.2539|<|0.0001|TWO_SIDED|95.0|2.8566|3.8749|||T-test||Difference was calculated as HP - HD.|||3.8749|2.8566|<0.0001
82509330|NCT00048542|164710478|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Chi-square test|||The study was sized to detect a difference in the proportion of subjects (40%) between placebo and the active adalimumab dose group who would experience disease flare assuming a placebo rate of 70% vs. a rate of 30% in the active group. Assuming a binomial distribution, an alpha of 0.05, 80% power, two-sided test, and an initial monotherapy responder rate of 70%, a minimum of 29 subjects were needed per treatment group within the appropriate strata.||||0.031
82567557|NCT02820298|164845139|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|108.34|||||TWO_SIDED|90.0|102.48|114.54|||||Ratio of Geometric LSM is the ratio of exponentiated mean difference of log-transformed PK parameter. Confidence interval from ANOVA (linear mixed-effects model) with treatment, period, and sequence as fixed effects, and subject as a random effect.|||114.54|102.48|
82509331|NCT00048542|164710480|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-square test|||||||0.015
82509332|NCT00048542|164710481|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Log Rank|||||||0.029
82509333|NCT00048542|164710482|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Log Rank|||||||0.031
82509334|NCT00048542|164710483|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Pearson's Chi-square test|||||||0.061
82509335|NCT00048542|164710483|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Pearson's Chi-square test|||||||0.028
82509336|NCT00048542|164710484|SUPERIORITY_OR_OTHER|||||||0.103||95.0|||||Pearson's Chi-square test|||||||0.103
82509337|NCT00048542|164710484|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Pearson's Chi-square test|||||||0.028
82509338|NCT00048542|164710485|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||Pearson's Chi-square test|||||||0.156
82509339|NCT00048542|164710485|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Pearson's Chi-square test|||||||0.002
82509340|NCT04609020|164710545|SUPERIORITY||Mean Difference (Final Values)|46.6|STANDARD_DEVIATION|23.61|<|0.0001|ONE_SIDED|97.5|40.58|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||40.58|<0.0001
82509341|NCT04609020|164710546|SUPERIORITY||Mean Difference (Final Values)|35.3|STANDARD_DEVIATION|22.36|<|0.0001|ONE_SIDED|97.5|29.61|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||29.61|<0.0001
82509342|NCT04609020|164710547|SUPERIORITY||Mean Difference (Final Values)|27.6|STANDARD_DEVIATION|23.23|<|0.0001|ONE_SIDED|97.5|21.5|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||21.50|<0.0001
82509343|NCT04609020|164710548|SUPERIORITY||Mean Difference (Final Values)|22.9|STANDARD_DEVIATION|20.56|<|0.0001|ONE_SIDED|97.5|17.65|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||17.65|<0.0001
82509344|NCT04609020|164710549|SUPERIORITY||Mean Difference (Final Values)|43.1|STANDARD_DEVIATION|22.25|<|0.0001|ONE_SIDED|97.5|37.48|||P-value is calculated based on 1-sided t-test or Wilcoxon signed-rank test (if the normality assumption is not met) at 0.025 significance level.|t-test, 1 sided||||||37.48|<0.0001
82509345|NCT01479621|164710636|SUPERIORITY_OR_OTHER|||||||0.0001||||||The study was considered positive if the trend test was positive and the test involving the highest Fp MDPI dose (100 mcg twice daily) indicated significantly greater time averaged FEV1 mean than placebo.|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed followed by pairwise comparisons of each Fp MDPI dose versus placebo.||||0.0001
82509346|NCT01479621|164710636|SUPERIORITY_OR_OTHER||LSM difference|0.149||||0.0005|TWO_SIDED|95.0|0.066|0.233||The study was considered positive if the trend test was positive and the test involving the highest Fp MDPI dose (100 mcg twice daily) indicated significantly greater time averaged FEV1 mean than placebo.|mixed model for repeated measures|||This is the second analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.233|0.066|0.0005
82509347|NCT01479621|164710636|SUPERIORITY_OR_OTHER||LSM difference|0.126||||0.0027|TWO_SIDED|95.0|0.044|0.208|||mixed model for repeated measures|||This is the third analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.208|0.044|0.0027
82509348|NCT01479621|164710636|SUPERIORITY_OR_OTHER||LSM difference|0.111||||0.0086|TWO_SIDED|95.0|0.028|0.194|||mixed model for repeated measures|||This is the fourth analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.194|0.028|0.0086
82509349|NCT01479621|164710636|SUPERIORITY_OR_OTHER||LSM difference|0.052||||0.2227|TWO_SIDED|95.0|-0.032|0.136|||mixed model for repeated measures|||This is the fifth analysis in the fixed-sequence testing procedure employed to control the overall Type I error rate at the 0.05 level.||0.136|-0.032|0.2227
82567558|NCT01894256|164845141|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.15|||||TWO_SIDED|90.0|1.04|1.27|||||GLS mean for Mild Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.27|1.04|
82567559|NCT01894256|164845141|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.26|||||TWO_SIDED|90.0|1.06|1.48|||||GLS mean for Moderate Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.48|1.06|
82567560|NCT01894256|164845142|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.24|||||TWO_SIDED|90.0|1.06|1.47|||||GLS mean for Mild Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.47|1.06|
82567561|NCT01894256|164845142|SUPERIORITY_OR_OTHER||Geometric least squares means ratio|1.44|||||TWO_SIDED|90.0|1.1|1.89|||||GLS mean for Moderate Renal Impairment group vs GLS mean for Normal Renal Function|Null hypothesis: There are no clinically significant differences in the PK of olaparib when administered to patients with moderate or mild renal impairment compared to patients with normal renal function.||1.89|1.10|
82567562|NCT00546884|164845153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.16|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82567563|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6409||||||Hochberg's adjustment was used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6409
82567564|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0140
82567565|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4840
82567566|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4444||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4444
82567567|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8129||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8129
82567568|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1105||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.1105
82567569|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9582||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.9582
82567570|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1893||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.1893
82567571|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2924||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Hochberg's adjustment used for multiple comparisons adjustment||Week 5||||0.2924
82567572|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1897||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.1897
82567573|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6608||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||"Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0.~The null hypotheses for the primary parameter is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups."||||0.6608
82567574|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2148||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||"Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0.~The null hypotheses for the primary parameter is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups."||||0.2148
82567575|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.5290
82567576|NCT00141271|164845154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0811||||||Hochberg's adjustment used for multiple comparisons adjustment|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.0811
82567577|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.2287
82567578|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4734||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week1||||0.4734
82567579|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7401||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7401
82567580|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7904||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7904
82567581|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5274||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.5274
82567582|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1059||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.1059
82567583|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8871||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.8871
82567584|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6939|||||||Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.6939
82567585|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1044||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.1044
82567586|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3132||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.3132
82567587|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6978||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6978
82567588|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3228||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.3228
82567589|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6432||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6432
82567590|NCT00141271|164845155|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5989||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.5989
82567591|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8921||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.8921
82567592|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.4350
82567593|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.562||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.5620
82567594|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6959||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6959
82567595|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7865||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7865
82567596|NCT00141271|164845156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7564||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7564
82567597|NCT00141271|164845157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4327||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4327
82567598|NCT00141271|164845157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7041||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7041
82509350|NCT01479621|164710637|SUPERIORITY_OR_OTHER|||||||0.0017||||||Significance at 0.05|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo).||||0.0017
82509351|NCT01479621|164710637|SUPERIORITY_OR_OTHER||LSM difference|18.29||||0.006|TWO_SIDED|95.0|5.28|31.29||Significance at 0.05|mixed model for repeated measures|||||31.29|5.28|0.0060
82567599|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2076||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.2076
82567600|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7449||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.7449
82509352|NCT01479621|164710637|SUPERIORITY_OR_OTHER||LSM difference|20.32||||0.0018|TWO_SIDED|95.0|7.61|33.03||Significance at 0.05|mixed model for repeated measures|||||33.03|7.61|0.0018
82509353|NCT01479621|164710637|SUPERIORITY_OR_OTHER||LSM difference|11.75||||0.0741|TWO_SIDED|95.0|-1.15|24.64||Significance at 0.05|mixed model for repeated measures|||||24.64|-1.15|0.0741
82509354|NCT01479621|164710637|SUPERIORITY_OR_OTHER||LSM difference|21.72||||0.0011|TWO_SIDED|95.0|8.73|34.72||Significance at 0.05|mixed model for repeated measures|||||34.72|8.73|0.0011
82567601|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4399||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.4399
82509355|NCT01479621|164710638|SUPERIORITY_OR_OTHER|||||||0.0434||||||Significance at 0.05|Regression, Linear|||A linear in log-dose trend contrast evaluated the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo).||||0.0434
82509356|NCT01479621|164710638|SUPERIORITY_OR_OTHER||LSM difference|11.06||||0.0852|TWO_SIDED|95.0|-1.54|23.66||Significance at 0.05|mixed model for repeated measures|||||23.66|-1.54|0.0852
82509357|NCT01479621|164710638|SUPERIORITY_OR_OTHER||LSM difference|12.78||||0.0411|TWO_SIDED|95.0|0.52|25.04||Significance at 0.05|mixed model for repeated measures|||||25.04|0.52|0.0411
82509358|NCT01479621|164710638|SUPERIORITY_OR_OTHER||LSM difference|9.28||||0.1428|TWO_SIDED|95.0|-3.14|21.69||Significance at 0.05|mixed model for repeated measures|||||21.69|-3.14|0.1428
82509359|NCT01479621|164710638|SUPERIORITY_OR_OTHER||LSM difference|18.23||||0.0046|TWO_SIDED|95.0|5.64|30.82||Significance at 0.05|mixed model for repeated measures|||||30.82|5.64|0.0046
82509360|NCT01479621|164710639|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|2.76||||0.66685|TWO_SIDED|95.0|-10.07|15.6|||GEE|The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||15.60|-10.07|0.66685
82523041|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||<0.0001
82509361|NCT01479621|164710639|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|6.76||||0.26741|TWO_SIDED|95.0|-5.43|18.94||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||18.94|-5.43|0.26741
82509362|NCT01479621|164710639|SUPERIORITY_OR_OTHER||estimated mean difference from placebo|10.45||||0.09964|TWO_SIDED|95.0|-2.24|23.15||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||23.15|-2.24|0.09964
82567602|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7107||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.7107
82567603|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4765||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.4765
82567604|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2564||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.2564
82567605|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8063||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.8063
82567606|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9855||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.9855
82509363|NCT01479621|164710639|SUPERIORITY_OR_OTHER||Slope|12.78||||0.03825|TWO_SIDED|95.0|0.44|25.11||The model contained covariates for sex, age, and treatment. The baseline level was estimated for all subjects combined, adjusted for covariates.|GEE|||The generalized estimating equation (GEE) algorithm was used to fit the model, using a robust estimator for the variance which provided a proper adjustment for possible correlation between the 2 measurements on each subject. This model was used to obtain 2-sided 95% confidence limits for the difference in treatment effects of Fp MDPI versus placebo.||25.11|0.44|0.03825
82567607|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0599||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0599
82509364|NCT01479621|164710640|SUPERIORITY_OR_OTHER|||||||0.2841||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.2841
82567608|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7364||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.7364
82567609|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3048||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 6||||0.3048
82630427|NCT02903966|164976975|OTHER||Least Square Mean Difference|-0.76|||||TWO_SIDED|95.0|-5.29|3.77|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||3.77|-5.29|
82630428|NCT02903966|164976976|OTHER||Least Square Mean Difference|-0.8|||||TWO_SIDED|95.0|-5.68|4.08|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||4.08|-5.68|
82630429|NCT02903966|164976981|OTHER||Least Square Mean Difference|-0.36|||||TWO_SIDED|95.0|-1.58|0.86|||||Day 15. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||0.86|-1.58|
82630430|NCT02903966|164976981|OTHER||Least Square Mean Difference|-0.1|||||TWO_SIDED|95.0|-1.29|1.08|||||Day 29. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.08|-1.29|
82630431|NCT02903966|164976981|OTHER||Least Square Mean Difference|-0.34|||||TWO_SIDED|95.0|-1.72|1.04|||||Day 43. Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.04|-1.72|
82630432|NCT02903966|164976982|OTHER||Least Square Mean Difference|-0.06|||||TWO_SIDED|95.0|-1.87|1.75|||||Analysis performed using a MMRM model, adjusting for the following covariates: treatment, visit, Baseline score, and the treatment by visit and Baseline score by visit interactions.|||1.75|-1.87|
82630433|NCT03342404|164976998|SUPERIORITY||Difference in proportions|77.1|||||TWO_SIDED|95.0|63.4|87.0|||||The difference in proportions (luspatercept - placebo) and 95% CI were estimated from the exact unconditional test|||87.0|63.4|
82630434|NCT03342404|164976998|SUPERIORITY||Risk Difference (RD)|77.1|||||TWO_SIDED|95.0|68.7|85.5|||||The common risk difference (luspatercept - placebo) and 95% CI were estimated from the CMH test stratified by baseline Hb category and baseline NTDT-PRO T/W domain score category|||85.5|68.7|
82630435|NCT03342404|164976999|SUPERIORITY||Mean Difference (Net)|-0.48||||0.0924|TWO_SIDED|95.0|-1.03|0.08|||ANCOVA|||||0.08|-1.03|0.0924
82630436|NCT03342404|164977000|SUPERIORITY||Mean Difference (Net)|1.42|||<|0.0001|TWO_SIDED|95.0|1.16|1.67|||ANCOVA|||||1.67|1.16|< 0.0001
82630437|NCT03342404|164977001|SUPERIORITY||Mean Difference (Net)|68.8|||<|0.0001|TWO_SIDED|95.0|54.3|80.4|||Cochran-Mantel-Haenszel|||||80.4|54.3|< 0.0001
82630438|NCT03342404|164977002|SUPERIORITY||Mean Difference (Net)|1.39||||0.2641|TWO_SIDED|95.0|-1.06|3.83|||ANCOVA|||||3.83|-1.06|0.2641
82630439|NCT03342404|164977003|SUPERIORITY||Mean Difference (Net)|-0.49||||0.0721|TWO_SIDED|95.0|-1.02|0.04|||ANCOVA|||||0.04|-1.02|0.0721
82630440|NCT03342404|164977004|SUPERIORITY||Mean Difference (Net)|1.49|||<|0.0001|TWO_SIDED|95.0|1.2|1.79|||ANCOVA|||||1.79|1.20|< 0.0001
82630441|NCT03342404|164977005|SUPERIORITY||Mean Difference (Net)|2.19||||0.0959|TWO_SIDED|95.0|-0.39|4.78|||ANCOVA|||||4.78|-0.39|0.0959
82630442|NCT03342404|164977006|SUPERIORITY||Mean Difference (Net)|-0.79||||0.051|TWO_SIDED|95.0|-1.58|0.0|||ANCOVA|||||0.00|-1.58|0.0510
82630443|NCT03342404|164977007|SUPERIORITY||Mean Difference (Net)|-1.07||||0.0047|TWO_SIDED|95.0|-1.8|-0.33|||ANCOVA|||||-0.33|-1.80|0.0047
82630444|NCT03342404|164977008|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1359|TWO_SIDED|95.0|0.8|4.0|||Cochran-Mantel-Haenszel|||||4.0|0.8|0.1359
82630445|NCT03342404|164977009|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0657|TWO_SIDED|95.0|0.9|5.4|||Cochran-Mantel-Haenszel|||||5.4|0.9|0.0657
82630446|NCT03342404|164977010|SUPERIORITY||Mean Difference (Net)|1.39||||0.0847|TWO_SIDED|95.0|-0.19|2.96|||Mixed Models Analysis|||Mean change from baseline in SF-36 PCS to Week 24||2.96|-0.19|0.0847
82630447|NCT03342404|164977010|SUPERIORITY||Mean Difference (Net)|1.75||||0.0712|TWO_SIDED|95.0|-0.15|3.65|||Mixed Models Analysis|||Mean change from baseline in SF-36 PCS to Week 48||3.65|-0.15|0.0712
82630448|NCT03342404|164977010|SUPERIORITY||Mean Difference (Net)|1.54||||0.1633|TWO_SIDED|95.0|-0.63|3.72|||Mixed Models Analysis|||Mean change from baseline in SF-36 MCS to Week 24||3.72|-0.63|0.1633
82630449|NCT03342404|164977010|SUPERIORITY||Mean Difference (Net)|2.7||||0.0469|TWO_SIDED|95.0|0.04|5.36|||Mixed Models Analysis|||Mean change from baseline in SF-36 MCS to Week 48||5.36|0.04|0.0469
82630450|NCT03342404|164977011|SUPERIORITY||Mean Difference (Net)|-4.2||||0.4787|TWO_SIDED|95.0|-21.4|13.0|||Cochran-Mantel-Haenszel|||Percentage of participants with improvement of iron overload (LIC/ICT responders) at Week 24||13.0|-21.4|0.4787
82630451|NCT03342404|164977011|SUPERIORITY||Mean Difference (Net)|-14.6||||0.0827|TWO_SIDED|95.0|-31.5|2.4|||Cochran-Mantel-Haenszel|||Percentage of participants with improvement of iron overload (LIC/ICT responders) at Week 48||2.4|-31.5|0.0827
82630452|NCT03342404|164977012|SUPERIORITY||Mean Difference (Net)|27.14||||0.5949|TWO_SIDED|95.0|-46.77|101.06|||ANCOVA|||Mean change from baseline in serum ferritin at Week 24||101.06|-46.77|0.5949
82630453|NCT03342404|164977012|SUPERIORITY||Mean Difference (Net)|13.46||||0.3454|TWO_SIDED|95.0|-61.01|87.93|||ANCOVA|||Mean change from baseline in serum ferritin at Week 48||87.93|-61.01|0.3454
82630454|NCT03342404|164977013|SUPERIORITY||Mean Difference (Net)|-0.09||||0.6628|TWO_SIDED|95.0|-0.47|0.3|||ANCOVA|||Mean change from baseline in LIC at Week 24||0.30|-0.47|0.6628
82630455|NCT03342404|164977013|SUPERIORITY||Mean Difference (Net)|0.66||||0.0859|TWO_SIDED|95.0|-0.09|1.42|||ANCOVA|||Mean change from baseline in LIC at Week 48||1.42|-0.09|0.0859
82630456|NCT03342404|164977014|SUPERIORITY||Mean Difference (Net)|22.2||||0.0013|TWO_SIDED|95.0|5.0|38.6|||Cochran-Mantel-Haenszel|||Percentage of participants who were transfusion free over 24 weeks||38.6|5.0|0.0013
82567610|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5139||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 6||||0.5139
82567611|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9356||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9356
82509365|NCT01479621|164710640|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||<0.0001
82509366|NCT01479621|164710640|SUPERIORITY_OR_OTHER|||||||0.0008||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.0008
82509367|NCT01479621|164710640|SUPERIORITY_OR_OTHER|||||||0.001||||||Significance at 0.05|Log Rank|||Comparison of survival curve to placebo||||0.0010
82509368|NCT01479621|164710646|SUPERIORITY_OR_OTHER||LSM difference|-0.114||||0.0058|TWO_SIDED|95.0|-0.195|-0.033||Significance at 0.05|mixed model for repeated measures|||||-0.033|-0.195|0.0058
82509369|NCT01479621|164710646|SUPERIORITY_OR_OTHER||LSM difference|0.034||||0.4083|TWO_SIDED|95.0|-0.046|0.114||Significance at 0.05|mixed model for repeated measures|||||0.114|-0.046|0.4083
82509370|NCT01479621|164710646|SUPERIORITY_OR_OTHER||LSM difference|0.011||||0.7882|TWO_SIDED|95.0|-0.068|0.089||Significance at 0.05|mixed model for repeated measures|||||0.089|-0.068|0.7882
82509371|NCT01479621|164710646|SUPERIORITY_OR_OTHER||LSM difference|-0.002||||0.9586|TWO_SIDED|95.0|-0.082|0.078||Significance at 0.05|mixed model for repeated measures|||||0.078|-0.082|0.9586
82509372|NCT01479621|164710646|SUPERIORITY_OR_OTHER||LSM difference|-0.062||||0.1306|TWO_SIDED|95.0|-0.143|0.018||Significance at 0.05|mixed model for repeated measures|||||0.018|-0.143|0.1306
82509373|NCT01479621|164710647|SUPERIORITY_OR_OTHER||LSM difference|-17.66||||0.0068|TWO_SIDED|95.0|-30.43|-4.89||Significance at 0.05|mixed model for repeated measures|||||-4.89|-30.43|0.0068
82509374|NCT01479621|164710647|SUPERIORITY_OR_OTHER||LSM difference|0.69||||0.9135|TWO_SIDED|95.0|-11.84|13.23||Significance at 0.05|mixed model for repeated measures|||||13.23|-11.84|0.9135
82509375|NCT01479621|164710647|SUPERIORITY_OR_OTHER||LSM difference|2.67||||0.6689|TWO_SIDED|95.0|-9.58|14.92||Significance at 0.05|mixed model for repeated measures|||||14.92|-9.58|0.6689
82509376|NCT01479621|164710647|SUPERIORITY_OR_OTHER||LSM difference|-5.69||||0.3691|TWO_SIDED|95.0|-18.12|6.74||Significance at 0.05|mixed model for repeated measures|||||6.74|-18.12|0.3691
82509377|NCT01479621|164710647|SUPERIORITY_OR_OTHER||LSM difference|4.24||||0.5072|TWO_SIDED|95.0|-8.31|16.78||Significance at 0.05|mixed model for repeated measures|||||16.78|-8.31|0.5072
82509378|NCT01479621|164710648|SUPERIORITY_OR_OTHER||LSM difference|-15.26||||0.0158|TWO_SIDED|95.0|-27.63|-2.88||Significance at 0.05|mixed model for repeated measures|||||-2.88|-27.63|0.0158
82509379|NCT01479621|164710648|SUPERIORITY_OR_OTHER||LSM difference|-4.48||||0.4709|TWO_SIDED|95.0|-16.69|7.721||Significance at 0.05|mixed model for repeated measures|||||7.721|-16.69|0.4709
82509380|NCT01479621|164710648|SUPERIORITY_OR_OTHER||LSM difference|-2.68||||0.6572|TWO_SIDED|95.0|-14.55|9.19||Significance at 0.05|mixed model for repeated measures|||||9.19|-14.55|0.6572
82509381|NCT01479621|164710648|SUPERIORITY_OR_OTHER||LSM difference|-5.98||||0.3292|TWO_SIDED|95.0|-18.01|6.05||Significance at 0.05|mixed model for repeated measures|||||6.05|-18.01|0.3292
82567612|NCT00141271|164845158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9428||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9428
82630457|NCT03342404|164977015|SUPERIORITY||Mean Difference (Net)|37.4|||<|0.0001|TWO_SIDED|95.0|20.9|53.0|||Cochran-Mantel-Haenszel|||Percentage of Participants Who are Transfusion-Free Over 48 Weeks||53.0|20.9|< 0.0001
82509382|NCT01479621|164710648|SUPERIORITY_OR_OTHER||LSM difference|3.05||||0.6237|TWO_SIDED|95.0|-9.16|15.26||Significance at 0.05|mixed model for repeated measures|||||15.26|-9.16|0.6237
82509383|NCT01094548|164710649|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
82509384|NCT01094548|164710653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.431||||0.094|TWO_SIDED|95.0|0.157|1.185|||Log Rank|||||1.185|0.157|0.0940
82509385|NCT01094548|164710654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.3919|TWO_SIDED|95.0|0.261|1.698|||Log Rank|||||1.698|0.261|0.3919
82509386|NCT01228747|164710681|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-56.13|STANDARD_ERROR_OF_MEAN|6.15|<|0.0001|TWO_SIDED|95.0|-68.24|-44.02||Statistical testing was 2-sided, and was performed using a significance (α) level of 0.05.|ANCOVA|||"The statistical hypotheses, null hypothesis (H0) and alternate hypothesis (H1), are stated below:~H0: μLEV = μPBO vs. H1: μLEV ≠ μPBO~ANCOVA on the endpoint percentage change from Combined Baseline of GTC seizures per week using treatment and country as factors (categorical predictors) and Combined Baseline GTC seizure frequency per week as a covariate (a continuous predictor) where μLEV and μPBO are adjusted means for LEV and PBO, respectively."||-44.02|-68.24|<0.0001
82509387|NCT00847288|164710695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.0043|TWO_SIDED|95.0|1.1|2.0||Cox proportional hazard model was fitted with the group effect and other key baseline variables. The p-value for the main group effect is 0.0043, with an estimated hazard ratio of 1.5, monthly vs quarterly.|Regression, Cox|||"Let TM and TQ denote the median survival time to initiation of clinical action in monthly and quarterly review groups respectively. Null Hypothesis (HO): The time to initiation of clinical action is not affected by review frequency (monthly versus quarterly): TM=TQ Alternative Hypothesis (HA): The time to initiation of clinical action is affected by review frequency (monthly versus quarterly): TM≠TQ~Cox proportional hazard model will be fitted to estimate the hazard ratio."||2.0|1.1|0.0043
82509388|NCT00847288|164710697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0001|TWO_SIDED|95.0|1.2|1.74|||logistic GEE for repeated observations|||The probability of action taken in three months interval is evaluated using the generalized estimating equations (GEE) method under a logistic regression model. Univariate analysis is performed first for potential predictors and only those with a p-value less than 0.10 through univariate analysis are included in the multivariate model. Here we report the odds ratio of monthly arm against quarterly arm, adjusting for OptiVol crossing, new or chronic device, and AF or no AF.||1.74|1.20|0.0001
82509389|NCT01165138|164710705|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.136||||0.002|TWO_SIDED|95.0|0.051|0.222|||ANCOVA|||||0.222|0.051|0.002
82509390|NCT01165138|164710705|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.087|0.258|||ANCOVA|||||0.258|0.087|<0.001
82509391|NCT01165138|164710705|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.036||||0.405|TWO_SIDED|95.0|-0.048|0.12|||ANCOVA|||||0.120|-0.048|0.405
82509392|NCT01165138|164710706|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.186||||0.003|TWO_SIDED|95.0|0.062|0.31|||ANCOVA|||||0.310|0.062|0.003
82509393|NCT01165138|164710706|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.302|||<|0.001|TWO_SIDED|95.0|0.178|0.426|||ANCOVA|||||0.426|0.178|<0.001
82509394|NCT01165138|164710706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116||||0.06|TWO_SIDED|95.0|-0.005|0.236|||ANCOVA|||||0.236|-0.005|0.060
82509395|NCT02641379|164710723|SUPERIORITY_OR_OTHER|||||||0.1002|||||||Chi-squared|||For Genotype I, Week 4 response \< 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.1002
82509396|NCT02641379|164710723|SUPERIORITY_OR_OTHER|||||||0.0184|||||||Chi-squared|||For Genotype I, Week 4 response \>= 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.0184
82567613|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3888||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.3888
82630458|NCT03342404|164977017|SUPERIORITY||Mean Difference (Net)|16.15||||0.1466|TWO_SIDED|95.0|-5.73|38.04|||ANCOVA|||Mean change from baseline in 6MWT distance at Week 24||38.04|-5.73|0.1466
82630459|NCT03342404|164977017|SUPERIORITY||Mean Difference (Net)|12.44||||0.2011|TWO_SIDED|95.0|-6.72|31.59|||ANCOVA|||Mean change from baseline in 6MWT distance at Week 48||31.59|-6.72|0.2011
82630460|NCT03342404|164977018|SUPERIORITY||Mean Difference (Net)|52.1|||<|0.0001|TWO_SIDED|95.0|36.2|66.2|||Cochran-Mantel-Haenszel|||Percentage of Participants with an Increase From Baseline ≥1.5 g/dL in Mean Hemoglobin Values in the Absence of Transfusion||66.2|36.2|< 0.0001
82509397|NCT02641379|164710723|SUPERIORITY_OR_OTHER|||||||0.091|||||||Chi-squared|||For Genotype IV, Week 4 response \< 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||0.0910
82509398|NCT02641379|164710723|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||For Genotype IV, Week 4 response \>= 600 U/ml: Comparison of Group A versus Group B was carried out using the Chi-Square test.||||1.0000
82509399|NCT02641379|164710724|SUPERIORITY_OR_OTHER|||||||0.0021||||||The SVR rate i.e., 32.1% participants with genotype I who achieved SVR with 95 % confidence interval of 20.3 to 46.0 in groups A1+B1 was compared with SVR rate in group E using Cochran-Mantel-Haenszel method .|Cochran-Mantel-Haenszel|||Comparison of Groups A1+B1 versus group E stratified by genotype I.||||0.0021
82509400|NCT02641379|164710724|SUPERIORITY_OR_OTHER|||||||0.3031||||||The SVR rate i.e., 20.0% participants with genotype IV who achieved SVR with 95 % confidence interval of 0.5 to 71.6 in groups A1+B1 was compared with SVR rate in group E using Cochran-Mantel-Haenszel method .|Cochran-Mantel-Haenszel|||Comparison of Groups A1+B1 versus group E stratified by genotype IV||||0.3031
82509401|NCT00615056|164710744|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.273||||0.8268|TWO_SIDED|95.0|0.769|2.108||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for Eastern Cooperative Oncology Group (ECOG) performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||2.108|0.769|0.8268
82509402|NCT00615056|164710744|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.041||||0.5498|TWO_SIDED|95.0|0.553|1.041||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||1.041|0.553|0.5498
82509403|NCT00615056|164710745|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.355||||0.8828|TWO_SIDED|95.0|0.82|2.238||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||2.238|0.820|0.8828
82509404|NCT00615056|164710745|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.689||||0.1159|TWO_SIDED|95.0|0.373|1.273||One-sided log-rank test at alpha = 0.15 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for ECOG performance status (0 versus 1) and prior treatment with bevacizumab (yes versus no).||1.273|0.373|0.1159
82567614|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3122||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.3122
82567615|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3323||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.3323
82509405|NCT00615056|164710746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.4552|TWO_SIDED|95.0|-15.8|17.7|||Chi-squared|||One-sided Pearson chi square test at alpha = 0.15 significance level was used.||17.7|-15.8|0.4552
82509406|NCT00615056|164710746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.5235|TWO_SIDED|95.0|-19.1|18.0|||Chi-squared|||One-sided Pearson chi square test at alpha = 0.15 significance level was used.||18.0|-19.1|0.5235
82509407|NCT00249470|164710777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.8||||0.004|TWO_SIDED|95.0|2.03|16.56|||General Estimating Equation (GEE)|||||16.56|2.03|.004
82567616|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8781||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.8781
82567617|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9485||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.9485
82567618|NCT00141271|164845159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7331||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7331
82567619|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.4869
82567620|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5813||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.5813
82567621|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3303||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.3303
82567622|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1546||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.1546
82567623|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8982||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.8982
82567624|NCT00141271|164845160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3586||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3586
82567625|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0896||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.0896
82567626|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6534||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.6534
82509408|NCT00249470|164710778|SUPERIORITY||Odds Ratio (OR)|0.91|||=|0.82|TWO_SIDED|95.0|0.4|2.08|||General Estimating Equation (GEE)|||||2.08|0.40|=0.82
82567627|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.3270
82567628|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.4099
82509409|NCT00249470|164710779|SUPERIORITY||Odds Ratio (OR)|3.37||||0.04|TWO_SIDED|95.0|1.21|9.37|||General Estimating Equation (GEE)|||||9.37|1.21|0.04
82567629|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6104||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6104
82567630|NCT00141271|164845161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9359||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9359
82567631|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6924||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6924
82630461|NCT03342404|164977019|SUPERIORITY||Mean Difference (Net)|1.7||||0.1989|TWO_SIDED|95.0|0.8|3.7|||Cochran-Mantel-Haenszel|||Percentage of Participants With a Decrease From Baseline ≥ RD (= 1) in the Non-Transfusion Dependent β-thalassemia-Patient Reported Outcome (NTDT-PRO) Tiredness and Weakness (T/W) Domain Score Week 13 to Week 24||3.7|0.8|0.1989
82567632|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0800
82567633|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4238||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4238
82567634|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7714||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.7714
82509410|NCT03240575|164710979|SUPERIORITY||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.027||0.0543|TWO_SIDED|95.0|-0.001|0.105|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.105|-0.001|0.0543
82509411|NCT03240575|164710980|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.027||0.0011|TWO_SIDED|95.0|0.037|0.144|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.144|0.037|0.0011
82630462|NCT03342404|164977019|SUPERIORITY||Mean Difference (Net)|2.1||||0.0733|TWO_SIDED|95.0|0.9|5.0|||Cochran-Mantel-Haenszel|||Percentage of Participants With a Decrease From Baseline ≥ RD (= 1) in the Non-Transfusion Dependent β-thalassemia-Patient Reported Outcome (NTDT-PRO) Tiredness and Weakness (T/W) Domain Score Week 37 to Week 48||5.0|0.9|0.0733
82630463|NCT00850135|164977031|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED|||||p-Value for the correlation between AUC-110 and birth weight|correlation|||||||0.035
82630464|NCT03676465|164977082|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630465|NCT03676465|164977083|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630466|NCT03676465|164977084|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630467|NCT03676465|164977085|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630468|NCT03676465|164977086|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82630469|NCT03676465|164977087|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630470|NCT03676465|164977088|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82630471|NCT03676465|164977089|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630472|NCT03676465|164977090|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630473|NCT03676465|164977091|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
82630474|NCT03676465|164977092|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|t-test, 2 sided|||||||>0.05
82630475|NCT03676465|164977093|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
82630476|NCT03676465|164977094|SUPERIORITY||||||>|0.05||||||Calculated p value was \>0.05|Wilcoxon (Mann-Whitney)|||||||>0.05
82630477|NCT03676465|164977095|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82630478|NCT01836029|164977107|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.266|ONE_SIDED|90.0||1.22||The 1-sided p-value based on a log-rank test stratified by randomization stratification factors.|Log Rank|||||1.22||0.266
82630479|NCT01836029|164977109|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.399|ONE_SIDED|90.0||1.22||The 1-sided p-value based on a log-rank test stratified by randomization stratification factors.|Log Rank|||||1.22||0.399
82630480|NCT01836029|164977110|SUPERIORITY_OR_OTHER_LEGACY|||||||0.536||||||p-values are from Cochran-Mantel-Haenszel tests controlling for randomization stratification factors and comparing tumor response rates between the treatment groups.|Cochran-Mantel-Haenszel|||||||0.536
82567635|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8731||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8731
82567636|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8926||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.8926
82567637|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2072||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.2072
82567638|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1042||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.1042
82567639|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2695||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.2695
82567640|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3245||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3245
82567641|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7791||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.7791
82567642|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0999||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.0999
82567643|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9543||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.9543
82567644|NCT00141271|164845162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3153||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.3153
82567645|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2878||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.2878
82567646|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4481||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.4481
82509412|NCT03240575|164710981|SUPERIORITY||Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.027||0.8593|TWO_SIDED|95.0|-0.048|0.058|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.058|-0.048|0.8593
82509413|NCT03240575|164710982|SUPERIORITY||Mean Difference (Net)|0.098|STANDARD_ERROR_OF_MEAN|0.029||0.001|TWO_SIDED|95.0|0.04|0.156|||Mixed-effects model repeated measures|Treatment, visit and treatment by visit interaction as fixed effects, and baseline as well as baseline by visit interaction as covariates.||||0.156|0.040|0.0010
82509414|NCT04144166|164711032|OTHER||||||||||||||See above|||"Mean value for visual CRT and median value for device CRI were calculated for each participant. 3 values were measured (each) for CRT and CRI. Mean value is equal to SUM(m1,m2,m3)/3.~Median value was then calculated for the set (57) of calculated mean visual CRT and mean device CRI. Median value is equal to the middle value of the series of mean values. All measurements are in units of seconds."|See above|||
82509415|NCT02223767|164711053|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|||||||0.025
82509416|NCT02223767|164711054|SUPERIORITY|||||||0.08|||||||t-test, 1 sided|||||||0.08
82509417|NCT00934544|164711063|SUPERIORITY_OR_OTHER||Kaplan-Meir estimate|28.1|STANDARD_DEVIATION|22.123|<|0.0001|TWO_SIDED|95.0|21.3|36.6|||Cochran-Mantel-Haenszel|||||36.6|21.3|<0.0001
82509418|NCT02704364|164711080|SUPERIORITY||Hodges-Lehmann estimate|-14.0|STANDARD_ERROR_OF_MEAN|21.4||0.434|TWO_SIDED|95.0|-68.0|28.0|||Wilcoxon (Mann-Whitney)|||||28.0|-68.0|0.434
82509419|NCT02704364|164711080|SUPERIORITY||Hodges-Lehmann estimate|13.0|STANDARD_ERROR_OF_MEAN|25.0||0.646|TWO_SIDED|95.0|-41.0|71.0|||Wilcoxon (Mann-Whitney)|||||71.0|-41.0|0.646
82567647|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.4099
82509420|NCT00846742|164711098|SUPERIORITY|||||||0.0003||||||Comparison of proportion of patients' complete response rate between HOD99 (NCT number: NCT00145600) and HOD08|Exact Binominal Test|||The proportion of patients' complete response rate was provided with a 95% confidence interval.||||0.0003
82509421|NCT00846742|164711103|SUPERIORITY||Hazard Ratio (HR)|0.969||||0.732|TWO_SIDED|95.0|0.81|1.159|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure with a 1-year increase in age.|||1.159|0.810|0.732
82509422|NCT00846742|164711104|SUPERIORITY||Hazard Ratio (HR)|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing males to females.|Male vs. Female, with Female as the reference level||0.000|0.000|<0.001
82509423|NCT00846742|164711105|SUPERIORITY||Hazard Ratio (HR)|30101.41|||<|0.001|TWO_SIDED|95.0|3329.573|272135.5|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing Stage IIA to Stage IA.|Stage IIA vs. Stage IA, with Stage IA as the reference level||272135.500|3329.573|<0.001
82509424|NCT00846742|164711106|SUPERIORITY||Hazard Ratio (HR)|34027.68|||<|0.001|TWO_SIDED|95.0|4072.872|284291.6|||Fine-Gray model||The sub-distribution hazard ratio for the 2-year cumulative incidence of local failure comparing Classical (all combined) to Nodular Lymphocyte Predominant Hodgkin Lymphoma.|Classical (all combined) vs. Nodular lymphocyte predominant, with Nodular lymphocyte predominant as the reference level||284291.600|4072.872|<0.001
82509425|NCT00846742|164711107|SUPERIORITY|||||||0.461|||||||Log Rank|||Comparing the 2-year EFS between HOD08 Participants and HOD99 Participants||||0.461
82509426|NCT00846742|164711107|SUPERIORITY|||||||1|||||||Log Rank|||Comparing the 2-year OS between HOD08 Participants and HOD99 Participants||||1.000
82509427|NCT00846742|164711107|SUPERIORITY|||||||0.836|||||||Gray's test|||Comparing the 2-year CI of Local Failure between HOD08 Participants and HOD99 Participants||||0.836
82509428|NCT00846742|164711109|SUPERIORITY|||||||0.384|||||||Log Rank|||Comparing the 2-year EFS between HOD08 - CR and HOD99 - CR||||0.384
82509429|NCT00846742|164711109|SUPERIORITY|||||||1|||||||Log Rank|||Comparing the 2-year OS between HOD08 - CR and HOD99 - CR||||1.000
82509430|NCT00846742|164711109|SUPERIORITY|||||||0.386|||||||Gray's test|||Comparing the 2-year CI of Local Failure between HOD08 - CR and HOD99 - CR||||0.386
82509431|NCT00846742|164711110|SUPERIORITY|||||||0.986|||||||Log Rank|||Comparing the 2-year EFS of patients treated without and with RT||||0.986
82509432|NCT02775344|164711114|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.198|TWO_SIDED||||||Chi-squared, Corrected|||||||0.198
82509433|NCT02775344|164711115|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.393|TWO_SIDED||||||Chi-squared, Corrected|||||||0.393
82509434|NCT02107599|164711131|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Asymptotic Z-test|||||||0.0001
82509435|NCT02107599|164711132|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.0060
82509436|NCT02107599|164711132|SUPERIORITY_OR_OTHER|||||||0.1229|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.1229
82509437|NCT02107599|164711132|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Monte Carlo test|||Evaluate whether the VisQ interpretation significantly improves the reliability of Amyvid Scan interpretation.||||0.0260
82509438|NCT05583903|164711158|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82509439|NCT05583903|164711159|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.26
82509440|NCT05583903|164711160|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82509441|NCT05583903|164711161|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82509442|NCT05583903|164711162|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82509443|NCT05583903|164711163|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
82509444|NCT05583903|164711164|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
82509445|NCT05583903|164711165|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82509446|NCT05583903|164711166|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
82509447|NCT05583903|164711167|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82509448|NCT05583903|164711168|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82509449|NCT05583903|164711169|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
82509450|NCT05583903|164711170|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82509451|NCT05583903|164711171|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82509452|NCT05583903|164711172|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82509453|NCT00792610|164711290|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|STANDARD_DEVIATION|0.05|<|0.05||95.0|0.05|0.15|||t-test, 2 sided|||Chi-square analysis and Fischer's exact test were used for comparing group proportions between seropositive and seronegative participants. GMT and their 95% confidence intervals were also calculated using the software developed by Kirkman, T.W. (18) An ANOVA test was performed to compare the difference of the three groups at one, six and seven months categorized by the anti-HBs titers at 7-10 days after the booster.||.15|.05|<0.05
82509454|NCT01461096|164711291|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.35|TWO_SIDED|95.1|0.47|1.31||P-value was unadjusted for multiple comparisons and a P-value less than 5% was the threshold for statistical significance.|generalized log-rank test (Sun 1996)|The generalized log-rank test (Sun 1996) was performed to evaluate whether participants in the two arms had the same survival rate.|qHPV group represented the numerator for the hazard ratio and Placebo group represented the denominator.|||1.31|0.47|0.350
82509455|NCT04889625|164711296|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.0085|||TWO_SIDED|95.0|-0.017|0.017|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Distance (4m)||0.017|-0.017|
82509456|NCT04889625|164711296|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.0108|||TWO_SIDED|95.0|-0.051|-0.008|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Intermediate (64cm)||-0.008|-0.051|
82509457|NCT04889625|164711296|NON_INFERIORITY|This study was powered to demonstrate non-inferiority of the Test lens relative to the Control lens with respect to binocular HLHC distance, intermediate and near visual acuity. A non-inferiority margin of 0.05 logMAR was used; (0.05) logMAR is approximately half a line on an ETDRS chart.|least-square mean difference|-0.036|STANDARD_ERROR_OF_MEAN|0.0129|||TWO_SIDED|95.0|-0.062|-0.011|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A - delefilcon A|Near (40cm)||-0.011|-0.062|
82509458|NCT04889625|164711297|NON_INFERIORITY|This study was powered to demonstrate the primary hypotheses. However, the final sample size calculation was deemed large enough to test for Non-inferiority of the Test relative to the Control. A non-inferiority margin of -5 points was used.|least-square mean difference|6.3|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|2.0|10.5|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as senofilcon A (C3)- delefilcon A|||10.5|2.0|
82509459|NCT00404352|164711300|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||<0.001
82509460|NCT00404352|164711300|SUPERIORITY_OR_OTHER|||||||0.008|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.008
82509461|NCT00404352|164711300|SUPERIORITY_OR_OTHER|||||||0.009|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.009
82509462|NCT00404352|164711301|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||<0.001
82509463|NCT00404352|164711301|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.002
82509464|NCT00404352|164711301|SUPERIORITY_OR_OTHER|||||||0.774|||||||Log Rank|Log-rank test was stratified for controlling randomization stratification factors.||||||0.774
82509465|NCT00606892|164711329|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Significant treatment or treatment-by-time interactions were followed up by post hoc comparisons of placebo vs. varenicline for time (Pre- vs. Post-Nicotine infusion) and testing block (Smoking Block vs. Negative Affect Block).|Mixed Models Analysis|||A mixed-effect repeated-measures crossover model with fixed main effect terms of treatment (placebo or varenicline) and time of measurement (Pre-Nicotine or Post-Nicotine) was utilized. Interactions between main effect terms were also analyzed.||||<0.05
82509466|NCT00606892|164711330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_DEVIATION|40.0|<|0.3|TWO_SIDED|95.0|||||ANOVA|F(1,10)=1.1||||||<0.3
82509467|NCT00606892|164711331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0||||Values of p\<0.05 were considered statistically significant, based on 2-tailed tests. Significant treatment, or treatment-by-time interactions were followed by post hoc comparisons. To account for multiple testing, significance was set at p\<0.016.|Mixed Models Analysis|||A mixed-effect repeated-measures crossover model including fixed main effects for treatment condition (placebo or varenicline), time of measurement and interactions between treatment and time, was utilized. Because multiple measurements were collected before and after each nicotine dose, a change score (maximum post dose score - pre dose baseline) was used in the analysis.||||<0.05
82509468|NCT00606892|164711332|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Post hoc comparisons of effects of varenicline versus placebo for different nicotine doses were performed and significance was adjusted for multiple testing using a p value of P\<0.016|ANOVA|Two-tailed tests were applied for main effects with P\<0.05||A mixed-effect, repeated-measures, crossover model was used with fixed main effects for treatment (placebo or varenicline), and time after treatment. Interactions between main effects were also analyzed.||||<0.05
82567648|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5093||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value.||Week 2||||0.5093
82509469|NCT04296396|164711335|NON_INFERIORITY|A non-inferiority design assumed a noninferiority margin of 5%. For 90% power and 0.025 significance level 1-sided, a total sample size of 4,300 participants was required to state that the IOPP is not inferior to the fixed amount of 20 tablets. Given the short window to assess pain at 1-week post-discharge, a 20% missing rate was incorporated which gives a final sample size of 5,500 (2,750 per group).|Risk Difference (RD)|0.67|||||TWO_SIDED|95.0|-2.03|3.37|||||The risk difference is the rate in the fixed group minus the rate in the IOPP group. IOPP was to be determined as non-inferior if the lower 95% confidence limit for the risk difference is -5 percentage points or greater (i.e., closer to zero).|||3.37|-2.03|
82567649|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8048||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value.||Week 3||||0.8048
82509470|NCT04296396|164711336|SUPERIORITY||Risk Ratio (RR)|1.22||||0.046|TWO_SIDED|96.25|0.99|1.51|||Chi-squared||Confidence interval is 96.25% due to false discovery rate adjustment|||1.51|0.99|0.046
82509471|NCT04296396|164711337|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82509472|NCT04296396|164711338|SUPERIORITY||Median Difference (Net)|-5.0|||<|0.001|TWO_SIDED|97.5|-6.6|-3.5|||quantile regression||Confidence interval is 97.5% due to false discovery rate adjustment|||-3.5|-6.6|<0.001
82509473|NCT04296396|164711339|SUPERIORITY||Median Difference (Net)|-15.0|||<|0.001|TWO_SIDED|98.75|-19.2|-10.8|||quartile regression||Confidence interval is 98.75% due to false discovery rate adjustment|||-10.8|-19.2|<0.001
82509474|NCT04296396|164711340|SUPERIORITY||Median Difference (Net)|0.0||||1|TWO_SIDED|95.0|0.0|0.0|||quantile regression|||||0|0|1.0
82509475|NCT04296396|164711341|SUPERIORITY||Risk Ratio (RR)|0.96||||0.52|TWO_SIDED|95.0|0.85|1.09|||Chi-squared|||||1.09|0.85|0.52
82509476|NCT04296396|164711342|SUPERIORITY||Risk Ratio (RR)|0.99||||0.15|TWO_SIDED|95.0|0.98|1.0|||Regression, Linear|||||1.00|0.98|0.15
82509477|NCT03274986|164711377|SUPERIORITY||Least Squares Mean Difference|-0.164|STANDARD_ERROR_OF_MEAN|0.0168|<|0.001|TWO_SIDED|95.0|-0.197|-0.131||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.131|-0.197|<0.001
82509478|NCT03274986|164711378|NON_INFERIORITY|Non-Inferiority margin was 0.1 logMAR.|Least Squares Mean Difference|0.052|STANDARD_ERROR_OF_MEAN|0.0127|||ONE_SIDED|95.0||0.073||The hypothesis test was based on a two-sample t-test, with a type I error rate of 0.05, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF). The 1-sided 95% Upper Confidence Limit is presented.|||0.073||
82509479|NCT03274986|164711379|OTHER||Difference in depth of focus|0.54|||||TWO_SIDED|||||Hypothesis testing was not pre-specified.|||Difference in depth of focus (DFT015 - SN60WF)|||||
82509480|NCT03274986|164711383|SUPERIORITY||Least Squares Mean Difference|-0.156|STANDARD_ERROR_OF_MEAN|0.0206|<|0.001|TWO_SIDED|95.0|-0.197|-0.115||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.115|-0.197|<0.001
82509481|NCT03274986|164711384|OTHER||Difference in percentage|18.0|||||TWO_SIDED|95.0|9.65|27.37|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||27.37|9.65|
82509482|NCT00603746|164711388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.275|||<|0.001||95.0|0.18|0.37|||ANCOVA|||||0.370|0.180|<0.001
82509483|NCT00603746|164711388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.272|||<|0.001|TWO_SIDED|95.0|0.178|0.367|||ANCOVA|||||0.367|0.178|<0.001
82509484|NCT00603746|164711388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.264|||<|0.001|TWO_SIDED|95.0|0.171|0.357|||ANCOVA|||||0.357|0.171|<0.001
82509485|NCT00603746|164711388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|||<|0.001|TWO_SIDED|95.0|0.131|0.32|||ANCOVA|||||0.320|0.131|<0.001
82509486|NCT00603746|164711388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|||<|0.001|TWO_SIDED|95.0|0.105|0.291|||ANCOVA|||||0.291|0.105|<0.001
82509487|NCT01524627|164711416|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||||||0.0004
82509488|NCT01524627|164711416|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82509489|NCT00717769|164711418|SUPERIORITY|||||||0.519|||||||ANCOVA|||Change from Baseline to Day 8||||0.519
82509490|NCT00717769|164711418|SUPERIORITY|||||||0.032|||||||ANCOVA|||Change from Baseline to Day 15||||0.032
82509491|NCT00717769|164711418|SUPERIORITY|||||||0.008|||||||ANCOVA|||Change from Baseline to Day 22||||0.008
82567650|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.0552
82509492|NCT00717769|164711418|SUPERIORITY|||||||0.006|||||||ANCOVA|||Change from Baseline to Day 29||||0.006
82567651|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9795||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.9795
82567652|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5073||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.5073
82567653|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4882||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.4882
82567654|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3967||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3967
82567655|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8276||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8276
82567656|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8502||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8502
82509493|NCT00717769|164711420|SUPERIORITY|||||||0.533|||||||ANCOVA|||Change from Baseline to Day 8||||0.533
82509494|NCT00717769|164711420|SUPERIORITY|||||||0.009|||||||ANCOVA|||Change from Baseline to Day 15||||0.009
82567657|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6343||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.6343
82567658|NCT00141271|164845163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3082||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.3082
82567659|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6932||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.6932
82567660|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.0287
82567661|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2128||95.0||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.2128
82509495|NCT00717769|164711420|SUPERIORITY|||||||0.002|||||||ANCOVA|||Change from Baseline to Day 22||||0.002
82509496|NCT00717769|164711420|SUPERIORITY|||||||0.003|||||||ANCOVA|||Change from Baseline to Day 29||||0.003
82509497|NCT02970968|164711476|SUPERIORITY|||||||0.0099|||||||Mixed Models Analysis|||||||.0099
82509498|NCT02970968|164711477|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|||||||.0160
82509499|NCT02970968|164711478|SUPERIORITY|||||||0.039|||||||Mixed Models Analysis|||||||.039
82509500|NCT02970968|164711479|SUPERIORITY|||||||0.0223|||||||Mixed Models Analysis|||||||.0223
82509501|NCT02970968|164711480|SUPERIORITY|||||||0.0497|||||||Mixed Models Analysis|||||||.0497
82509502|NCT02970968|164711481|SUPERIORITY|||||||0.0207|||||||Mixed Models Analysis|||||||.0207
82509503|NCT02970968|164711482|SUPERIORITY|||||||0.0429|||||||Mixed Models Analysis|||||||.0429
82509504|NCT02970968|164711483|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82509505|NCT02970968|164711484|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||.0003
82509506|NCT02970968|164711485|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||||||.023
82509507|NCT02970968|164711486|SUPERIORITY|||||||0.0078|||||||Mixed Models Analysis|||||||.0078
82509508|NCT02970968|164711487|SUPERIORITY|||||||0.0294|||||||Mixed Models Analysis|||||||.0294
82378460|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-2.8|1.9||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||1.9|-2.8|
82509509|NCT02970968|164711488|SUPERIORITY|||||||0.0229|||||||Mixed Models Analysis|||||||.0229
82509510|NCT02970968|164711489|SUPERIORITY|||||||0.0018|||||||Mixed Models Analysis|||||||.0018
82509511|NCT02970968|164711490|SUPERIORITY|||||||0.0013|||||||Mixed Models Analysis|||||||.0013
82509512|NCT02970968|164711491|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||.0001
82509513|NCT02970968|164711492|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||.018
82509514|NCT02970968|164711493|SUPERIORITY|||||||0.0164|||||||Mixed Models Analysis|||||||.0164
82509515|NCT02970968|164711494|SUPERIORITY|||||||0.0053|||||||Mixed Models Analysis|||||||.0053
82509516|NCT02970968|164711495|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||.0020
82509517|NCT01904604|164711537|SUPERIORITY_OR_OTHER||Risk Difference (RD)|33.8||||0.005|TWO_SIDED|33.8|10.2|57.5||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||The null hypothesis was that there was no difference between treatment groups. Subjects who did not complete the Week 52 oral food challenge were counted as treatment failures.||57.5|10.2|0.005
82509518|NCT01904604|164711537|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.0||||0.003|TWO_SIDED|36.0|12.6|59.4||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||The null hypothesis was that there was no difference between treatment groups. Subjects who did not complete the Week 52 oral food challenge were counted as treatment failures.||59.4|12.6|0.003
82509519|NCT01904604|164711537|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.2||||0.48|TWO_SIDED|2.2|-25.8|30.1||A one-sided test was used with the a priori threshold for statistical significance of 0.0125. No adjustments were made to the p-value.|Barnard's statistic|||||30.1|-25.8|0.48
82509520|NCT01904604|164711541|SUPERIORITY_OR_OTHER|||||||0.8||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.80
82509521|NCT01904604|164711541|SUPERIORITY_OR_OTHER|||||||0.008||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.008
82509522|NCT01904604|164711541|SUPERIORITY_OR_OTHER|||||||0.01||||||No adjustments were made to the p-value.|Wilcoxon (Mann-Whitney)|The two-sided t approximation was used.||The null hypothesis was that there was no difference between treatment groups.||||0.01
82509523|NCT01481116|164711599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 78: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
82509524|NCT01481116|164711599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 78: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
82509525|NCT01481116|164711599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 104: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
82630481|NCT01332851|164977120|SUPERIORITY||Cox Proportional Hazard|2.5|||=|0.043|TWO_SIDED|95.0|1.03|6.1||We used a threshold of p \< .05 as the criterion for statistical significance.|Regression, Cox||The hazard ratio of 2.5 indicates that children with parents in the control group were 2.5 times more likely to be removed from their home and placed into foster care compared to the intervention group.|Child welfare system removals were analyzed with a survival models that used condition assignment to predict hazard of being removed from the birth parent home.||6.10|1.03|=.043
82630482|NCT01332851|164977121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|0.42|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Parents in the PFR condition were 0.94 higher on sensitivity scores (on the unstandardized sensitivity measure) across the three post-intervention time points than parents in the R\&R condition. The standard error (SE) of this difference was .42.|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline sensitivity score, months between baseline and end of intervention, and age of child at baseline.||||<.05
82509526|NCT01481116|164711599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Regression, Logistic|||Day 1 up to Week 104: Odds Ratios, corresponding confidence interval, and p-values were calculated using logistic regression with factors for treatment, country, schedule and baseline HbA1c value.||0.18|0.09|<0.001
82509527|NCT01481116|164711600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.707||0.065|TWO_SIDED|95.0|-2.7|0.08||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Mixed Model Repeated Measures|Treatment, schedule and visit-by-treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates.||Change at Week 78||0.08|-2.70|0.065
82523042|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.|Regression, Logistic|||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||<0.0001
82523043|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||<0.0001
82523044|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0010
82523045|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0011
82630483|NCT01332851|164977122|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had a higher mean compared to the R\&R group. (the absolute value of the standardized effect is d=.15).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline security score, months between baseline and end of intervention, and age of child at baseline||||>.05
82377609|NCT03417778|164462609|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUCinf of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUCinf change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|159.15|||||TWO_SIDED|90.0|82.22|308.06||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUCinf. Two-sided 90% CI were calculated for the GLSM ratio of AUCinf between hepatic impairment group versus the matched control (normal hepatic function) group.||308.06|82.22|
82630484|NCT01332851|164977123|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.5|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The adjusted mean across the two post-intervention time points was -.20 (SE=.50) lower in the PFR group than R\&R group. The standardized effect size was d=.04.|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline problem behavior score, months between baseline and end of intervention, and age of child at baseline.||||>.05
82630485|NCT01332851|164977124|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.53|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The adjusted mean across post-intervention time points was .41 (SE=.53) higher in the PFR group than the R\&R group. The standardized effect size was d=-.07|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline competence stress score, months between baseline and end of intervention, and age of child at baseline||||>.05
82630486|NCT01332851|164977125|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.25|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had a higher mean level of social and emotional development compared to the R\&R group (the absolute value of the standardized effect is d=.10).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline social-emotional competence score, months between baseline and end of intervention, and age of child at baseline.||||>.05
82630487|NCT01332851|164977126|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.66|>|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had lower mean level of problem behavior compared to the R\&R group (the absolute value of standardized effect is d= .12).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline problem behavior score, months between baseline and end of intervention, and age of child at baseline||||>.05
82630488|NCT01332851|164977127|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Regression, Linear||Adjusted mean at 3-month post-intervention was -.07 (SE=.08) lower for PFR compared to R\&R group.|Tested mean differences by condition at 3-month follow-up controlling for baseline score, months between baseline and the end of the intervention, and age of child and using an ANVOVA/regression model. Null hypothesis was that post-intervention means were equal.||||>.05
82630489|NCT01332851|164977128|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Regression, Linear||Adjusted mean at 3-month post-intervention was -.06 (SE=.08) lower for PFR compared to R\&R group.|||||>.05
82630490|NCT01332851|164977129|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||The PFR group had lower atypical affective communication compared to the R\&R group (the absolute value of the standardized effect size was d=.19).|Mixed models were estimated in which post-intervention scores were nested. The intercept (representing the average score across post-intervention time points) was modeled as having a random effect. The intercept in the mixed model was regressed on intervention condition (R\&R = 0, PFR = 1), baseline score, months between baseline and end of intervention, and age of child at baseline||||<.05
82630491|NCT03299166|164977134|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.81||0.2202|TWO_SIDED|95.0|-2.59|0.6|||Mixed Models Analysis|||Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect.||0.60|-2.59|0.2202
82630492|NCT03299166|164977141|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.61||0.4508|TWO_SIDED|95.0|-1.67|0.75|||Mixed Models Analysis|||"Week 4 Analysis.~Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect."||0.75|-1.67|0.4508
82630493|NCT03299166|164977141|SUPERIORITY||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.75||0.041|TWO_SIDED|95.0|-3.02|-0.06|||Mixed Models Analysis|||"Week 8 Analysis.~Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect."||-0.06|-3.02|0.0410
82509528|NCT01481116|164711600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.678||0.034|TWO_SIDED|95.0|-2.78|-0.11||The testing procedure at 2-sided significance level of 0.025 was as follows: 1) TAK-875 25 mg vs. glimepiride, 2) TAK-875 50 mg plus metformin vs. glimepiride. If P-value was not greater than 0.025 at Step 1, then Step 2 was carried out.|Mixed Model Repeated Measures|Treatment, schedule and visit-by-treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates.||Change at Week 78||-0.11|-2.78|0.034
82509529|NCT00805935|164711605|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.000
82509530|NCT00805935|164711605|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
82509531|NCT00805935|164711605|SUPERIORITY_OR_OTHER|||||||0.481||95.0|||||Fisher Exact|||Comparing Progesterone vaginal insert to Progesterone in oil within the menotropin treatments arms.||||0.481
82509532|NCT00805935|164711605|SUPERIORITY_OR_OTHER|||||||0.483|TWO_SIDED|95.0|||||Fisher Exact|||Comparing Progesterone vaginal insert to Progesterone in oil within the follitropin beta treatment group.||||0.483
82509533|NCT02347527|164711619|SUPERIORITY|||||||0.038|||||||ANOVA|||||||0.038
82509534|NCT02347527|164711619|SUPERIORITY|||||||0.036|||||||ANOVA|||||||0.036
82509535|NCT02347527|164711620|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
82509536|NCT02347527|164711621|OTHER|||||||0.04|||||||Pearson's correlation|||Relationship between change in high-calorie food ratings and subsequent food intake (kcals).||||0.040
82509537|NCT02347527|164711621|OTHER|||||||0.92|||||||Pearson's correlation|||Relationship between change in high-calorie food ratings and subsequent food intake (kcals).||||0.92
82509538|NCT02643251|164711622|SUPERIORITY|||||||0.3361|||||||Mixed Models Analysis|||||||0.3361
82509539|NCT04206293|164711650|SUPERIORITY||Least Squares (LS) Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.9||0.0736|TWO_SIDED|95.0|-0.2|3.6|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||3.6|-0.2|0.0736
82509540|NCT04206293|164711650|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.0||0.5259|TWO_SIDED|95.0|-1.5|2.8|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||2.8|-1.5|0.5259
82509541|NCT04206293|164711651|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.2||0.8848|TWO_SIDED|95.0|-2.8|2.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||2.4|-2.8|0.8848
82509542|NCT04206293|164711651|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.8||0.9505|TWO_SIDED|95.0|-1.8|1.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.7|-1.8|0.9505
82509543|NCT04206293|164711652|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.6||0.0007|TWO_SIDED|95.0|1.4|4.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||4.0|1.4|0.0007
82509544|NCT04206293|164711652|SUPERIORITY||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.7||0.0033|TWO_SIDED|95.0|0.9|3.9|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||3.9|0.9|0.0033
82509545|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.095|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|-0.119|-0.07|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Uf: Change from Baseline to Day 28||-0.070|-0.119|<0.0001
82509546|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.071|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|-0.094|-0.048|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Uf: Change from Baseline to Day 84||-0.048|-0.094|<0.0001
82509547|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.116|-0.061|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ue: Change from Baseline to Day 28||-0.061|-0.116|<0.0001
82509548|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.081|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|-0.102|-0.061|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ue: Change from Baseline to Day 84||-0.061|-0.102|<0.0001
82509549|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.079|STANDARD_ERROR_OF_MEAN|0.018||0.0003||95.0|-0.116|-0.041|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ur: Change from Baseline to Day 28||-0.041|-0.116|0.0003
82523046|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
82523047|NCT00949884|164741496|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
82523048|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0005
82509550|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|-0.103|-0.044|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ur: Change from Baseline to Day 84||-0.044|-0.103|0.0001
82509551|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.081|STANDARD_ERROR_OF_MEAN|0.017||0.0002|TWO_SIDED|95.0|-0.117|-0.045|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ua: Change from Baseline to Day 28||-0.045|-0.117|0.0002
82509552|NCT04206293|164711653|SUPERIORITY||LS Mean Difference|-0.077|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.103|-0.052|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ua: Change from Baseline to Day 84||-0.052|-0.103|<0.0001
82509553|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.014||0.5786|TWO_SIDED|95.0|-0.038|0.022|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q1: Change from Baseline to Day 28||0.022|-0.038|0.5786
82509554|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.012||0.069|TWO_SIDED|95.0|-0.049|0.002|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q1: Change from Baseline to Day 84||0.002|-0.049|0.0690
82509555|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|-0.021|STANDARD_ERROR_OF_MEAN|0.016||0.1934|TWO_SIDED|95.0|-0.054|0.012|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q2: Change from Baseline to Day 28||0.012|-0.054|0.1934
82509556|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|-0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0194|TWO_SIDED|95.0|-0.062|-0.006|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q2: Change from Baseline to Day 84||-0.006|-0.062|0.0194
82509557|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|0.013|STANDARD_ERROR_OF_MEAN|0.007||0.0652|TWO_SIDED|95.0|-0.001|0.028|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q3: Change from Baseline to Day 28||0.028|-0.001|0.0652
82509558|NCT04206293|164711654|SUPERIORITY||LS Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.006||0.0756|TWO_SIDED|95.0|-0.001|0.024|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Q3: Change from Baseline to Day 84||0.024|-0.001|0.0756
82509559|NCT04206293|164711655|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|2.68||0.8409|TWO_SIDED|95.0|-6.19|5.1|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||5.10|-6.19|0.8409
82509560|NCT04206293|164711655|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|3.98||0.9183|TWO_SIDED|95.0|-9.18|8.35|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||8.35|-9.18|0.9183
82567662|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1118||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.1118
82378461|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|-2.7|2.0||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||2.0|-2.7|
82509561|NCT04206293|164711656|SUPERIORITY||LS Mean Difference|70.0|STANDARD_ERROR_OF_MEAN|77.0||0.4128|TWO_SIDED|95.0|-142.0|282.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||282|-142|0.4128
82509562|NCT04206293|164711656|SUPERIORITY||LS Mean Difference|-82.0|STANDARD_ERROR_OF_MEAN|79.0||0.3851|TWO_SIDED|95.0|-355.0|191.0|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||191|-355|0.3851
82509563|NCT04206293|164711657|SUPERIORITY||LS Mean Difference|6.52|STANDARD_ERROR_OF_MEAN|3.44||0.0798|TWO_SIDED|95.0|-0.89|13.93|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||13.93|-0.89|0.0798
82509564|NCT04206293|164711657|SUPERIORITY||LS Mean Difference|5.56|STANDARD_ERROR_OF_MEAN|3.27||0.1142|TWO_SIDED|95.0|-1.55|12.67|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||12.67|-1.55|0.1142
82509565|NCT04206293|164711658|SUPERIORITY||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.82||0.2592|TWO_SIDED|95.0|-0.78|2.71|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ra: Change from Baseline to Day 28||2.71|-0.78|0.2592
82509566|NCT04206293|164711658|SUPERIORITY||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.69||0.1341|TWO_SIDED|95.0|-0.38|2.57|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Ra: Change from Baseline to Day 84||2.57|-0.38|0.1341
82630494|NCT01302691|164977156|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.1||||0.205|TWO_SIDED|95.0|-2.7|0.6|||Constrained Longitudinal Data Analysis|Model includes treatment group, time point, and the interaction of time by treatment with restriction of same baseline mean across treatment groups||||0.6|-2.7|0.205
82378462|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|0.4|5.1||||||SPID 0-6: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||5.1|0.4|
82509567|NCT04206293|164711658|SUPERIORITY||LS Mean Difference|5.91|STANDARD_ERROR_OF_MEAN|4.55||0.2138|TWO_SIDED|95.0|-3.79|15.61|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Rz: Change from Baseline to Day 28||15.61|-3.79|0.2138
82509568|NCT04206293|164711658|SUPERIORITY||LS Mean Difference|8.22|STANDARD_ERROR_OF_MEAN|4.2||0.07|TWO_SIDED|95.0|-0.77|17.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Rz: Change from Baseline to Day 84||17.20|-0.77|0.0700
82630495|NCT01302691|164977162|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.2||||0.011|TWO_SIDED|95.0|-5.7|-0.8|||Constrained Longitudinal Data Analysis|Model includes treatment group, time point, and the interaction of time by treatment with restriction of same baseline mean across treatment groups||||-0.8|-5.7|0.011
82630496|NCT00062647|164977169|NON_INFERIORITY_OR_EQUIVALENCE|No margin was justified owing to the exploratory nature of the investigation.|Risk Difference (RD)|1.0||||||95.0|-35.5|31.9|||the difference in the 2 eradication rate|Statistical testing was limited to interval estimation (95% CI) of the difference in the 2 eradication rates using the method of Agresti and Caffo.||||31.9|-35.5|
82630497|NCT01678560|164977201|OTHER|Exact Fisher test was used on the collected information from the limited population|Fisher exact test statistic value|1.0|||<|0.01|TWO_SIDED|||||Hypothesis: Active continuous monitoring of PAP treatment in OSA will result in improved adherence at 90 days Exact Fisher test was used on the collected information from the limited population.|Fisher Exact|Exact Fisher test was used on the information from the limited population.||PAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department. The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm.|Exact Fisher test was used on the collected information from the limited population.|||<0.01
82630498|NCT01678560|164977202|OTHER|Exact Fisher test was used on the collected information from the limited population|Fisher exact test statistic value|1.0|||<|0.01|TWO_SIDED|||||"Hypothesis: Active continuous monitoring of PAP treatment in OSA (Wireless group) will result in improved adherence at 90 days compared to Usual Group.~Exact Fisher test was used on the collected information from the limited population."|Fisher Exact|Exact Fisher test was used on the information from the limited population||CPAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm|Exact Fisher test was used on the collected information from the limited population|||<0.01
82630499|NCT01678560|164977203|OTHER|Exact Fisher test was used on the collected information from the limited population|Estimation Parameter Other[Fisher exact|1.0|||<|0.01|TWO_SIDED|||||Hypothesis - Number of patients effectively treated with the PAP will be higher in the Wireless Group compared to the Usual Group Exact Fisher test was used on the collected information from the limited population.|Fisher Exact|||CPAP devices delivery to the patients was outsourced by the institution eliminating the point of recruitment for the study at our department The recruitment was halted and the study proceeded with the follow-up of already recruited patients. As a result of the limited recruitment, planned statistical data analysis was not performed on the primary outcomes due to the smaller then expected number of subjects (expected 110 subjects in the Usual arm and 110 subjects in the Wireless arm.||||<0.01
82630500|NCT01678560|164977204|OTHER|Exact Fisher test was used on the collected information from the limited population|Other[Fisher exact test statistic value]|0.0286|||<|0.01|TWO_SIDED|||||Hypothesis - PAP treatment Adherence in the first 3 months of treatment predicts the PAP treatment Adherence in the next 9 months of treatment Exact Fisher test was used on the collected information from the limited population|Fisher Exact||Exact Fisher test was used on the collected information from the limited population.|Exact Fisher test was used on the collected information from the limited population|Exact Fisher test was used on the collected information from the limited population.|||<0.01
82630501|NCT01678560|164977205|OTHER|Exact Fisher test was used on the collected information from the limited population|Exact Fisher test|0.0039|||<|0.01|TWO_SIDED|||||"Hypothesis: Patients with the higher AHI are more likely to become adherent to the PAP therapy.~Exact Fisher test was used on the collected information from the limited population"|Fisher Exact|Exact Fisher test was used on the collected information from the limited population||Exact Fisher test was used on the collected information from the limited population|Exact Fisher test was used on the collected information from the limited population|||<0.01
82630502|NCT00117572|164977219|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.68|TWO_SIDED|95.0|0.59|1.41|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|Comparison of overall survival curves||1.41|0.59|0.68
82630503|NCT00117572|164977220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.37|TWO_SIDED|95.0|0.55|1.25|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|||1.25|0.55|0.37
82630504|NCT00117572|164977221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.16|TWO_SIDED|95.0|0.51|1.12|||Log Rank||Hazard ratio is (Induction+CRT)/CRT|||1.12|0.51|0.16
82630505|NCT00117572|164977222|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher Exact|||||||0.57
82630506|NCT00117572|164977223|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
82630507|NCT00117572|164977224|SUPERIORITY_OR_OTHER|||||||0.55|||||||t-test, 2 sided|Comparison of change scores between treatment groups||||||0.55
82630508|NCT00117572|164977225|SUPERIORITY_OR_OTHER|||||||0.034|||||||t-test, 2 sided|||||||0.034
82630509|NCT00117572|164977226|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
82509569|NCT04206293|164711659|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|2.17||0.9608|TWO_SIDED|95.0|-4.7|4.91|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||4.91|-4.70|0.9608
82509570|NCT04206293|164711659|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|2.79||0.6192|TWO_SIDED|95.0|-7.48|4.64|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||4.64|-7.48|0.6192
82509571|NCT04206293|164711660|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.08||0.8322|TWO_SIDED|95.0|-0.2|0.16|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.16|-0.20|0.8322
82509572|NCT04206293|164711660|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.1334|TWO_SIDED|95.0|-0.25|0.04|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.04|-0.25|0.1334
82509573|NCT04206293|164711661|SUPERIORITY||LS Mean Difference|-5.09|STANDARD_ERROR_OF_MEAN|7.78||0.5221|TWO_SIDED|95.0|-21.56|11.38|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||11.38|-21.56|0.5221
82509574|NCT04206293|164711661|SUPERIORITY||LS Mean Difference|6.74|STANDARD_ERROR_OF_MEAN|8.07||0.4174|TWO_SIDED|95.0|-10.55|24.03|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||24.03|-10.55|0.4174
82509575|NCT04206293|164711662|SUPERIORITY||LS Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|2.58||0.3052|TWO_SIDED|95.0|-2.9|8.44|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||8.44|-2.90|0.3052
82509576|NCT04206293|164711662|SUPERIORITY||LS Mean Difference|9.99|STANDARD_ERROR_OF_MEAN|2.57||0.0016|TWO_SIDED|95.0|4.48|15.5|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||15.50|4.48|0.0016
82378463|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|7.0|||TWO_SIDED|90.0|-12.6|10.5||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||10.5|-12.6|
82509577|NCT04206293|164711663|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.48||0.1672|TWO_SIDED|95.0|-0.33|1.73|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||1.73|-0.33|0.1672
82509578|NCT04206293|164711663|SUPERIORITY||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.29||0.0881|TWO_SIDED|95.0|-0.1|1.21|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.21|-0.10|0.0881
82509579|NCT04206293|164711664|SUPERIORITY||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.28||0.0577|TWO_SIDED|95.0|-0.02|1.17|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||1.17|-0.02|0.0577
82509580|NCT04206293|164711664|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.5224|TWO_SIDED|95.0|-0.85|0.45|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.45|-0.85|0.5224
82523049|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0004
82630510|NCT00117572|164977227|SUPERIORITY_OR_OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
82630511|NCT00117572|164977228|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
82630512|NCT00117572|164977229|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82523050|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0023||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0023
82523051|NCT00949884|164741496|SUPERIORITY_OR_OTHER|||||||0.0012||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0012
82630513|NCT00117572|164977230|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
82630514|NCT00117572|164977231|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.090
82630515|NCT00997555|164977234|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Chi-squared|||||||0.6
82630516|NCT00997555|164977235|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||(bronchoscopy 5.1 days, 95% CI +/- 3.6 days versus control 6.7 days, 95% CI +/- 6.3 days, p = 0.7).|t-test, 2 sided|||||||0.7
82630517|NCT00997555|164977236|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|(bronchoscopy 10 days, 95% CI +/- 10 days versus control 18 days, 95% CI +/- 12 days, p = 0.4).||||||0.4
82630518|NCT00997555|164977237|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||t-test, 2 sided|(bronchoscopy 21 days, 95% CI +/- 12 days versus control 26 days, 95% CI +/- 12 days, p = 0.5).||||||0.5
82630519|NCT00654368|164977241|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the one-sided 95% confidence interval (CI), defined below, exceeded the noninferiority margin of -0.6, then noninferiority was to be concluded.|Mean Difference|-0.41|||||TWO_SIDED|95.0|-0.75|-0.06|||||The 95% CI was calculated using the mean square error from an analysis of variance (ANOVA) fitted with effects for treatment and covariates of duration of disease, type of reimbursement, and 6 month DAS28.|||-0.06|-0.75|
82630520|NCT02583360|164977261|SUPERIORITY|||||||0.008|||||||Chi-squared|||||||0.008
82630521|NCT02583360|164977262|SUPERIORITY|||||||0.907|||||||t-test, 2 sided|||||||0.907
82630522|NCT02583360|164977263|SUPERIORITY|||||||0.592|||||||t-test, 2 sided|||||||0.592
82567663|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6144||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.6144
82567664|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0899||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.0899
82567665|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8819||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.8819
82567666|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8374||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.8374
82567667|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3925||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.3925
82567668|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4182||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.4182
82567669|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8586||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.8586
82567670|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.549||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.5490
82567671|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6292||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.6292
82378464|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|6.9|||TWO_SIDED|90.0|-11.5|11.4||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||11.4|-11.5|
82567672|NCT00141271|164845164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1473||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.1473
82567673|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2058||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.2058
82567674|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9254||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.9254
82567675|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5071||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.5071
82567676|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2858||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2858
82567677|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6298||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6298
82630524|NCT03325010|164977274|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.5||0.1768|TWO_SIDED|95.0|-5.2|1.0||Nominal p-value is considered statistically significant if less than 0.05. To control for multiplicity, comparisons were tested sequentially.|Mixed Models Analysis|||||1.0|-5.2|0.1768
82630525|NCT03325010|164977275|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1095|TWO_SIDED|95.0|-0.6|0.1||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary outcome measure was statistically significant.|Mixed Models Analysis|||||0.1|-0.6|0.1095
82630526|NCT03325010|164977276|SUPERIORITY||Risk Difference (RD)|3.0||||0.819|TWO_SIDED|||||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary and preceding secondary outcome measures were statistically significant.|Cochran-Mantel-Haenszel|Stratified by baseline weight group (\<50 kg, ≥50 kg).||||||0.8190
82630527|NCT03325010|164977277|SUPERIORITY||Risk Difference (RD)|33.6||||0.0008|TWO_SIDED|||||To control for multiplicity, comparisons were tested sequentially. Nominal p-value for this outcome measure would only be evaluated for statistical significance if the primary and preceding secondary outcome measures were statistically significant.|Cochran-Mantel-Haenszel|Stratified by baseline weight group (\<50 kg, ≥50 kg)||||||0.0008
82639802|NCT01790633|164994474|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjustments for multiple comparisons were not necessary. Significance was determined using P \< 0.05|Chi-squared|||We approached our analysis as a pilot study with the aim of addressing feasibility. 70% of patients seen at the MDM clinic obtain a test result with standard serology. Assuming a 20% increase in infection awareness and type 1 error of 0.05, and power of at least 0.9, a minimum of 82 participants per group would be needed.||||<0.001
82509581|NCT04206293|164711665|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2666|TWO_SIDED|95.0|-0.6|0.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.2|-0.6|0.2666
82509582|NCT04206293|164711665|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4366|TWO_SIDED|95.0|-0.3|0.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||0.7|-0.3|0.4366
82509583|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4197|TWO_SIDED|95.0|-0.6|0.3|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||a\*: Change from Baseline to Day 28||0.3|-0.6|0.4197
82509584|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.914|TWO_SIDED|95.0|-0.6|0.5|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||a\*: Change from Baseline to Day 84||0.5|-0.6|0.9140
82509585|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7604|TWO_SIDED|95.0|-0.6|0.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||b\*: Change from Baseline to Day 28||0.4|-0.6|0.7604
82509586|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.5936|TWO_SIDED|95.0|-1.0|0.6|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||b\*: Change from Baseline to Day 84||0.6|-1.0|0.5936
82509587|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0808|TWO_SIDED|95.0|-0.9|0.1|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||L\*: Change from Baseline to Day 28||0.1|-0.9|0.0808
82509588|NCT04206293|164711666|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1633|TWO_SIDED|95.0|-1.0|0.2|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||L\*: Change from Baseline to Day 84||0.2|-1.0|0.1633
82509589|NCT04206293|164711667|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.1977|TWO_SIDED|95.0|-1.6|0.4|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||0.4|-1.6|0.1977
82509590|NCT04206293|164711667|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.7535|TWO_SIDED|95.0|-2.2|1.7|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||1.7|-2.2|0.7535
82509591|NCT04206293|164711668|SUPERIORITY||LS Mean Difference|4.35|STANDARD_ERROR_OF_MEAN|3.95||0.2905|TWO_SIDED|95.0|-4.16|12.85|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 28||12.85|-4.16|0.2905
82509592|NCT04206293|164711668|SUPERIORITY||LS Mean Difference|17.27|STANDARD_ERROR_OF_MEAN|6.37||0.0241|TWO_SIDED|95.0|2.84|31.69|||Mixed ANOVA|Mixed ANOVA model was used for repeated measures with factors: Zone as fixed(treated,control),time as fixed(D0,D28,D84),zone by time interaction.||Change from Baseline to Day 84||31.69|2.84|0.0241
82567678|NCT00141271|164845165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6034||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6034
82509593|NCT03907683|164711711|SUPERIORITY||Mean Difference (Final Values)|0.16412|STANDARD_ERROR_OF_MEAN|0.08||0.037|TWO_SIDED|95.0|0.0098|0.3185|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday move more messages would not differ from zero||0.3185|.0098|0.037
82509594|NCT03907683|164711711|SUPERIORITY||Mean Difference (Net)|0.12538|STANDARD_ERROR_OF_MEAN|0.07674||0.106|TWO_SIDED|95.0|-0.0274|0.2781|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday sit less messages would not differ from zero||0.2781|-0.0274|.106
82509595|NCT03907683|164711711|SUPERIORITY||Mean Difference (Net)|0.24738|STANDARD_ERROR_OF_MEAN|0.13746||0.076|TWO_SIDED|95.0|-0.0262|0.521|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekday inspirational quote messages would not differ from zero||.5210|-.0262|.076
82509596|NCT03907683|164711711|SUPERIORITY||Mean Difference (Net)|0.30563|STANDARD_ERROR_OF_MEAN|0.16136||0.062|TWO_SIDED|95.0|-0.0156|0.6268|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend move more messages would not differ from zero||.6268|-.0156|.062
82509597|NCT03907683|164711711|SUPERIORITY||Mean Difference (Net)|0.277|STANDARD_ERROR_OF_MEAN|0.10676||0.11|TWO_SIDED|95.0|0.0645|0.4895|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend sit less messages would not differ from zero||.4895|.0645|0.11
82509598|NCT03907683|164711711|SUPERIORITY||Mean Difference (Net)|0.10837|STANDARD_ERROR_OF_MEAN|0.16895||0.523|TWO_SIDED|95.0|-0.2279|0.4447|||t-test, 2 sided|||Null hypothesis was that the mean steady state response to weekend inspirational quote messages would not differ from zero||0.4447|-0.2279|.523
82509599|NCT03400332|164711735|OTHER||Hazard Ratio, log|0.94||||0.7416|TWO_SIDED|95.0|0.61|1.45|||Log Rank|||||1.45|0.61|0.7416
82509600|NCT02075840|164711747|SUPERIORITY||Hazard Ratio, stratified|0.47|||<|0.0001|TWO_SIDED|95.0|0.34|0.65|||Log Rank|||Stratified hazard ratio and p-value are stratified for covariates Race (Asian vs Non-Asian) and CNS metastases at baseline by IRC.||0.65|0.34|<0.0001
82567679|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1454||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.1454
82567680|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2672||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 1||||0.2672
82378465|NCT01512160|164465480|SUPERIORITY_OR_OTHER||LS mean difference|7.6|STANDARD_ERROR_OF_MEAN|7.0|||TWO_SIDED|90.0|-4.0|19.1||||||SPID 0-24: LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||19.1|-4.0|
82509601|NCT02075840|164711749|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.7|||Log Rank|Stratified hazard ratio and p-value are stratified for covariates Race (Asian vs Non-Asian) and CNS metastases at baseline by IRC.||||0.70|0.36|<0.0001
82509602|NCT02075840|164711751|SUPERIORITY|IRC, RECIST v1.1 Stratified Analysis (by race (Asian vs non-Asian) and CNS metastases at baseline by IRC)|Cause-Specific Hazard Ratio|0.16|||<|0.0001|TWO_SIDED|95.0|0.1|0.28|||Log Rank|||||0.28|0.10|<0.0001
82509603|NCT02075840|164711753|SUPERIORITY||Difference in Overall Response Rates|7.4||||0.0936|TWO_SIDED|95.0|-1.71|16.5||Stratified analysis|Mantel Haenszel|||||16.50|-1.71|0.0936
82509604|NCT02075840|164711755|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2405|TWO_SIDED|95.0|0.48|1.2||Stratified analysis|Log Rank|||||1.20|0.48|0.2405
82509605|NCT02075840|164711766|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2079|TWO_SIDED|95.0|0.46|1.19|||Log Rank|Stratified analysis||Fatigue||1.19|0.46|0.2079
82509606|NCT02075840|164711766|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.1137|TWO_SIDED|95.0|0.88|3.15||Stratified analysis|Log Rank|||Dyspnea||3.15|0.88|0.1137
82509607|NCT02075840|164711768|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.7042|TWO_SIDED|95.0|0.44|1.74||Stratified analysis|Log Rank|||Coughing||1.74|0.44|0.7042
82509608|NCT02075840|164711768|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.0285|TWO_SIDED|95.0|1.05|2.92||Stratified analysis|Log Rank|||Dyspnea||2.92|1.05|0.0285
82509609|NCT02075840|164711768|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.2377|TWO_SIDED|95.0|0.79|2.61||Stratified analysis|Log Rank|||Pain in arm and shoulder||2.61|0.79|0.2377
82509610|NCT02075840|164711768|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0796|TWO_SIDED|95.0|0.24|1.1||Stratified analysis|Log Rank|||Pain in chest||1.10|0.24|0.0796
82509611|NCT02075840|164711768|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.6435|TWO_SIDED|95.0|0.72|1.68||Stratified analysis|Log Rank|||Composite score||1.68|0.72|0.6435
82509612|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|0.83|||||TWO_SIDED|90.0|0.56|1.21||||||2 mg/kg AUC0-inf Geometric Mean Ratio (GMR) = Birth to 27 days AUC0-inf Geometric Mean (GM) / 28 days to \< 3 months AUC0-inf GM.||1.21|0.56|
82509613|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|1.41|||||TWO_SIDED|90.0|1.0|1.98||||||2 mg/kg AUC0-inf GMR = 28 days to \< 3 months AUC0-inf GM / 3 to \< 6 months AUC0-inf GM.||1.98|1.00|
82509614|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|0.82|||||TWO_SIDED|90.0|0.6|1.11||||||2 mg/kg AUC0-inf GMR = 3 to \< 6 months AUC0-inf GM / 6 months to \< 2 years AUC0-inf GM.||1.11|0.60|
82509615|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|1.23|||||TWO_SIDED|90.0|0.96|1.56||||||4 mg/kg AUC0-inf GMR = Birth to 27 days AUC0-inf GM / 28 days to \< 3 months AUC0-inf GM.||1.56|0.96|
82509616|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|1.29|||||TWO_SIDED|90.0|1.03|1.62||||||4 mg/kg AUC0-inf GMR = 28 days to \< 3 months AUC0-inf GM / 3 to \< 6 months AUC0-inf GM.||1.62|1.03|
82509617|NCT03909165|164711777|OTHER||Geometric Mean Ratio (GMR)|0.89|||||TWO_SIDED|90.0|0.7|1.13||||||4 mg/kg AUC0-inf GMR = 3 to \< 6 months AUC0-inf GM / 6 months to \< 2 years AUC0-inf GM.||1.13|0.70|
82509618|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|0.91|||||TWO_SIDED|90.0|0.67|1.23||||||2 mg/kg AUC0-1hr GMR = Birth to 27 days AUC0-1hr GM / 28 days to \< 3 months AUC0-1hr GM.||1.23|0.67|
82509619|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|0.92|1.69||||||2 mg/kg AUC0-1hr GMR = 28 days to \< 3 months AUC0-1hr GM / 3 to \< 6 months AUC0-1hr GM.||1.69|0.92|
82509620|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|0.83|||||TWO_SIDED|90.0|0.64|1.08||||||2 mg/kg AUC0-1hr GMR = 3 to \< 6 months AUC0-1hr GM / 6 months to \< 2 years AUC0-1hr GM.||1.08|0.64|
82509621|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|0.86|||||TWO_SIDED|90.0|0.7|1.06||||||4 mg/kg AUC0-1hr GMR = Birth to 27 days AUC0-1hr GM / 28 days to \< 3 months AUC0-1hr GM.||1.06|0.70|
82509622|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|1.07|||||TWO_SIDED|90.0|0.89|1.29||||||4 mg/kg AUC0-1hr GMR = 28 days to \< 3 months AUC0-1hr GM / 3 to \< 6 months AUC0-1hr GM.||1.29|0.89|
82509623|NCT03909165|164711778|OTHER||Geometric Mean Ratio (GMR)|0.97|||||TWO_SIDED|90.0|0.8|1.17||||||4 mg/kg AUC0-1hr GMR = 3 to \< 6 months AUC0-1hr GM / 6 months to \< 2 years AUC0-1hr GM.||1.17|0.80|
82509624|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|0.92|||||TWO_SIDED|90.0|0.61|1.4||||||2 mg/kg Cmax GMR = Birth to 27 days Cmax GM / 28 days to \< 3 months Cmax GM.||1.40|0.61|
82509625|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.7|1.7||||||2 mg/kg Cmax GMR = 28 days to \< 3 months Cmax GM / 3 to \< 6 months Cmax GM.||1.70|0.70|
82509626|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|0.92|||||TWO_SIDED|90.0|0.63|1.36||||||2 mg/kg Cmax GMR = 3 to \< 6 months Cmax GM / 6 months to \< 2 years Cmax GM.||1.36|0.63|
82509627|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.7|1.26||||||4 mg/kg Cmax GMR = Birth to 27 days Cmax GM / 28 days to \< 3 months Cmax GM.||1.26|0.70|
82509628|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|0.68|||||TWO_SIDED|90.0|0.52|0.89||||||4 mg/kg Cmax GMR = 28 days to \< 3 months Cmax GM / 3 to \< 6 months Cmax GM.||0.89|0.52|
82509629|NCT03909165|164711780|OTHER||Geometric Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.83|1.43||||||4 mg/kg AUC0-1hr GMR = 3 to \< 6 months Cmax GM / 6 months to \< 2 years Cmax GM.||1.43|0.83|
82523052|NCT00949884|164741497|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
82523053|NCT00949884|164741497|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<140 mmHg||||<0.0001
82523054|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||0.0009
82523055|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<135 mmHg||||0.0007
82630528|NCT02402881|164977278|OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|We used generalized linear mixed-effects models with multiple outputation reiterated 1000 times to bootstrap the 95% CIs and the P values.||Our primary outcome was the proportion of non-administered doses of prescribed pharmacologic VTE prophylaxis. We compared rates of VTE prophylaxis non-administration pre-post-intervention. For estimating conditional odds ratios (ORs) and their 95% confidence intervals (CIs), the binomial family and a logit link were used; for estimating the conditional proportions, the Poisson family and a log link were used.||||<0.05
82630529|NCT02402881|164977279|OTHER||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|We used generalized linear mixed-effects models with multiple outputation reiterated 1000 times to bootstrap the 95% CIs and the P values.||Our secondary outcome was the proportion of VTE events. We compared rates of VTE prophylaxis nonadministration pre-post-intervention. For estimating conditional odds ratios (ORs) and their 95% CIs, the binomial family and a logit link were used; for estimating the conditional proportions, the Poisson family and a log link were used.||||<0.05
82630530|NCT00113555|164977297|SUPERIORITY||Mean Difference (Net)|-1.16|STANDARD_DEVIATION|1.05|<|0.001|TWO_SIDED|95.0|-1.325|-1.003|||Wilcoxon (Mann-Whitney)|||Wilcoxon's matched pairs signed ranks test was used to determine the significance of differences between scores at follow-up compared to pre-implant.||-1.003|-1.325|<0.001
82630531|NCT02550093|164977334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||HEAT||||.47
82630532|NCT02550093|164977334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.70
82630533|NCT02550093|164977335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||HEAT||||0.84
82630534|NCT02550093|164977335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.95
82630535|NCT02550093|164977336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||HEAT||||0.92
82630536|NCT02550093|164977336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||COLD||||0.63
82630537|NCT02550093|164977337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82630538|NCT02550093|164977338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82630539|NCT02550093|164977339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
82630540|NCT02550093|164977340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82630541|NCT02550093|164977341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82630542|NCT02550093|164977342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
82630543|NCT02550093|164977343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
82630544|NCT02550093|164977344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82630545|NCT02550093|164977345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82630546|NCT01388491|164977361|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.8||||0.5892|TWO_SIDED|95.0|-54.75|31.17||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||31.17|-54.75|0.5892
82630547|NCT01388491|164977362|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|3.0||||0.839|TWO_SIDED|95.0|-25.96|31.94||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||31.94|-25.96|0.839
82630548|NCT01388491|164977363|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.8||||0.0021|TWO_SIDED|95.0|-7.87|-1.77||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||-1.77|-7.87|0.0021
82630549|NCT01388491|164977364|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|3.2||||0.2312|TWO_SIDED|95.0|-2.08|8.58||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||8.58|-2.08|0.2312
82378466|NCT01512160|164465481|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|90.0|-15.6|16.1||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||16.1|-15.6|
82630550|NCT01388491|164977365|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.6||||0.344|TWO_SIDED|95.0|-1.7|4.85||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||4.85|-1.70|0.3440
82630551|NCT01388491|164977366|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.3||||0.2522|TWO_SIDED|95.0|-0.24|0.92||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.92|-0.24|0.2522
82639803|NCT01790633|164994475|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value adjustments for multiple comparisons were not necessary. Significance was determined using P \< 0.05|Chi-squared|||||||0.7
82639804|NCT02985541|164994478|OTHER||3-year probability of getting pregnant|0.68|||||TWO_SIDED|95.0|0.17|2.71||||||Cumulative failure rate (Kaplan-Meier) during Years 6-8||2.71|0.17|
82567681|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2614||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups.||Week 2||||0.2614
82377610|NCT03417778|164462610|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for AUCinf of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit AUCinf change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|122.32|||||TWO_SIDED|90.0|69.9|214.07||||||An ANOVA model was fitted to the natural logarithmic transformed values of the AUCinf. Two-sided 90% CI were calculated for the GLSM ratio of AUCinf between hepatic impairment group versus the matched control (normal hepatic function) group.||214.07|69.90|
82567682|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2143||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.2143
82567683|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6997||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.6997
82567684|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0128||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0128
82567685|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1144||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.1144
82567686|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1483||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.1483
82567687|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0674||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0674
82567688|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.2900
82567689|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5482||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.5482
82567690|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0303||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.0303
82567691|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6143||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6143
82567692|NCT00141271|164845166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3385||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.3385
82567693|NCT00141271|164845167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3299||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3299
82567694|NCT00141271|164845167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1915||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1915
82567695|NCT00141271|164845168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5407||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5407
82567696|NCT00141271|164845168|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6079||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6079
82567697|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8464
82567698|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4023||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.4023
82567699|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.287||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2870
82567700|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2537||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.2537
82630552|NCT01388491|164977367|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.9||||0.0143|TWO_SIDED|95.0|0.58|5.13||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||5.13|0.58|0.0143
82630553|NCT01388491|164977368|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.5||||0.8507|TWO_SIDED|95.0|-4.87|5.91||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||5.91|-4.87|0.8507
82523056|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0347||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||0.0347
82509630|NCT03909165|164711785|SUPERIORITY||Hazard Ratio (HR)|2.4|||=|0.0002|TWO_SIDED|95.0|1.37|4.18||Two-sided p-value based on log-rank test stratified by neuromuscular blocking agent and age groups.|Log Rank|||The Hazard Ratio (HR) for the pairwise comparison of Sugammadex 2 mg/kg vs. Neostigmine + (Glycopyrrolate or Atropine) was based on a Cox regression model with Efron's method of tie handling with covariates of treatment, age (continuous) and stratified by neuromuscular blocking agent.||4.18|1.37|= 0.0002
82567701|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7909||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7909
82509631|NCT03909165|164711786|OTHER||Difference in Percentage|7.6|||||TWO_SIDED|95.0|-14.2|29.5||||||The difference in percentage of participants with an AE in sugammadex 2 mg/kg group versus the Neostigmine + (Glycopyrrolate or Atropine) group was based on the Miettinen and Nurminen method stratified by neuromuscular blocking agent and age group.||29.5|-14.2|
82509632|NCT03909165|164711786|OTHER||Difference in Percentage|5.9|||||TWO_SIDED|95.0|-13.5|26.7||||||The difference in percentage of participants with an AE in sugammadex 4 mg/kg group versus the Neostigmine + (Glycopyrrolate or Atropine) group was based on the Miettinen and Nurminen method stratified by neuromuscular blocking agent and age group.||26.7|-13.5|
82567702|NCT00141271|164845169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3308||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3308
82567703|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3355||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.3355
82567704|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8447||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8447
82567705|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8959||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.8959
82567706|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4826||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.4826
82567707|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4178||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4178
82567708|NCT00141271|164845170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8277||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.8277
82509633|NCT00559962|164711793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68|||<|0.001|TWO_SIDED|95.0|2.3|7.07|||ANOVA|||One-way analysis of variance (ANOVA) to compare the absolute change from baseline to Week 12 in percent hepatic fat between AEGR-755 5 mg and placebo.||7.07|2.30|<0.001
82509634|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.92|||<|0.001|TWO_SIDED|95.0|2.27|7.57||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||7.57|2.27|<0.001
82509635|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68|||<|0.001|TWO_SIDED|95.0|2.3|7.07||(All comparisons)|ANOVA|||||7.07|2.30|<0.001
82567709|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7758||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.7758
82509636|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.91|||<|0.001|TWO_SIDED|95.0|1.73|6.1||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||6.10|1.73|<0.001
82509637|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.82|||<|0.001|TWO_SIDED|95.0|4.31|11.33||(All comparisons)|ANOVA|||||11.33|4.31|<0.001
82509638|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||<|0.001|TWO_SIDED|95.0|1.58|5.72||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||5.72|1.58|<0.001
82567710|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8737||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8737
82567711|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1151||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.1151
82567712|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.129||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.1290
82567713|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4432||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4432
82567714|NCT00141271|164845171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2988||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2988
82567715|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8598||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.8598
82567716|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6513||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.6513
82567717|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6272||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.6272
82630554|NCT01388491|164977369|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1||||0.0459|TWO_SIDED|95.0|0.0|0.14||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.14|0.00|0.0459
82567718|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6467||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.6467
82630555|NCT01388491|164977370|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1||||0.0318|TWO_SIDED|95.0|0.01|0.26||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.26|0.01|0.0318
82509639|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.66|||<|0.001|TWO_SIDED|95.0|4.22|11.11||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||11.11|4.22|<0.001
82378467|NCT01512160|164465481|SUPERIORITY_OR_OTHER||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|9.4|||TWO_SIDED|90.0|-16.5|14.8||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||14.8|-16.5|
82509640|NCT00559962|164711794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.51|||<|0.001|TWO_SIDED|95.0|5.16|9.86||(All comparisons)|ANOVA|||One-way ANOVA to compare the absolute change from baseline to Week 12 in percent hepatic fat between active treatment groups and placebo||9.86|5.16|<0.001
82509641|NCT01077960|164711806|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82509642|NCT01077960|164711807|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82567719|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8049||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.8049
82567720|NCT00141271|164845172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9411||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.9411
82567721|NCT00141271|164845173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.926||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9260
82567722|NCT00141271|164845173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7100
82509643|NCT01077960|164711808|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82509644|NCT01077960|164711809|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82509645|NCT01077960|164711810|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
82509646|NCT01077960|164711811|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
82509647|NCT05619692|164711812|SUPERIORITY||Difference in LS Means|1.5|STANDARD_ERROR_OF_MEAN|1.11||0.1642|TWO_SIDED|95.0|-0.64|3.73||The p-value was obtained using MMRM model which included treatment, visit, treatment-by-visit interaction as categorical covariates, and WAIS-IV at baseline as continuous covariates.|MRMM||Difference was calculated as SAGE-718 - placebo.|||3.73|-0.64|0.1642
82509648|NCT02703636|164711846|OTHER|The MMRM model contained visit as a fixed effect, baseline MMSE score as a covariate and patient as a random effect.|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.259||0.175|TWO_SIDED|95.0|-0.87|0.16|||t-test, 2 sided||change at week 24|||0.16|-0.87|0.1750
82509649|NCT03778931|164711874|OTHER||Hazard Ratio (HR)|0.546||||0.0005|TWO_SIDED|95.0|0.387|0.768|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.768|0.387|0.0005
82378468|NCT01512160|164465481|SUPERIORITY_OR_OTHER||LS mean difference|9.3|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|90.0|-6.6|25.1||||||LS mean estimates of the treatment difference along with 90% CI were based on ANCOVA model including treatment as a fixed effect and baseline pain intensity as a covariate.||25.1|-6.6|
82509650|NCT03778931|164711875|OTHER||Hazard Ratio (HR)|0.697||||0.0018|TWO_SIDED|95.0|0.552|0.88|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.880|0.552|0.0018
82509651|NCT03778931|164711876|OTHER||Hazard Ratio (HR)|0.592||||0.0325|TWO_SIDED|95.0|0.361|0.958||The p-value was generated by using a two-sided stratified log-rank test.|Log Rank|||The analysis was performed using a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no); the CI calculated using a profile likelihood approach.||0.958|0.361|0.0325
82567723|NCT00141271|164845174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1836||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1836
82567724|NCT00141271|164845174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1374||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1374
82567725|NCT00141271|164845175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9237||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.9237
82567726|NCT00141271|164845175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3786||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3786
82567727|NCT00141271|164845176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4624||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4624
82509652|NCT03778931|164711877|OTHER||Hazard Ratio (HR)|0.742||||0.0697|TWO_SIDED|95.0|0.536|1.025|||Log Rank|The p-value was generated by using a two-sided stratified log-rank test.|Applied a stratified Cox Proportional Hazards model with ties=Efron and the stratification factors: ESR1-mutational status (ESR1-mut vs ESR1-wt), prior treatment with fulvestrant (yes vs no) and presence of visceral metastases (yes vs no).|||1.025|0.536|0.0697
82509653|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|0.56||||0.46|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Frontal BOLD during abstinence in smokers and nonsmokers||||0.46
82509654|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|6.64||||0.012|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05|Diagnosis by smoking status interaction.|Parietal BOLD during abstinence in smokers and nonsmokers||||0.012
82509655|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|211.2||||0.04|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05|Main effect for smoking status.|Occipital BOLD during abstinence in smokers and nonsmokers.||||0.04
82509656|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|1.6||||0.22|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Frontal BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.22
82509657|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|0.43||||0.51|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Parietal BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.51
82509658|NCT00915798|164711878|SUPERIORITY_OR_OTHER||F|0.16||||0.69|TWO_SIDED||||||ANOVA|Threshold for statistical significance p \< 0.05||Occipital BOLD smoking versus nonsmoking in smokers with ADHD compared to control smokers.||||0.69
82509659|NCT00167934|164711886|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||< 0.0001
82509660|NCT00167934|164711887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||ANCOVA|||||||0.04
82509661|NCT02321462|164711935|NON_INFERIORITY|Non-inferiority would be demonstrated if the lower limit of the 95% confidence intervals (CI) of the difference was higher than the predefined noninferiority margin (-15%).|Adjusted difference|-0.46|||||TWO_SIDED|95.0|-4.22|3.29|||||To investigate noninferiority of Eziclen compared to Fortrans®, the adjusted difference between these 2 groups was calculated with 95% CI of the adjusted difference.|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status (No IBD, IBD) was used.||3.29|-4.22|
82509662|NCT02321462|164711936|SUPERIORITY||Adjusted difference|0.15|||=|0.0249|TWO_SIDED|95.0|0.02|0.28|||ANOVA|A 2-way analysis of variance model (ANOVA) with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Right Colon BBPS Score.||0.28|0.02|=0.0249
82509663|NCT02321462|164711936|SUPERIORITY||Adjusted difference|0.11|||=|0.0382|TWO_SIDED|95.0|0.01|0.22|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Transverse Colon BBPS Score.||0.22|0.01|=0.0382
82509664|NCT02321462|164711936|SUPERIORITY||Adjusted difference|0.06|||=|0.2538|TWO_SIDED|95.0|-0.04|0.16|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Left Colon BBPS Score.||0.16|-0.04|=0.2538
82509665|NCT02321462|164711936|SUPERIORITY||Adjusted difference|0.33|||=|0.0256|TWO_SIDED|95.0|0.04|0.62|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Global BBPS Score.||0.62|0.04|=0.0256
82509666|NCT02321462|164711937|SUPERIORITY||Adjusted difference|0.11|||=|0.084|TWO_SIDED|95.0|-0.02|0.24|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Right Colon BBPS Score (per protocol population).||0.24|-0.02|=0.0840
82378469|NCT01512160|164465482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.5|1.5||||||Hazard Ratio (HR) estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.5|0.5|
82509667|NCT02321462|164711937|SUPERIORITY||Treatment difference|0.08|||=|0.132|TWO_SIDED|95.0|-0.02|0.18|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||Treatment difference for Transverse Colon BBPS Score (per protocol population).||0.18|-0.02|=0.1320
82509668|NCT02321462|164711938|SUPERIORITY||Adjusted difference|-6.94|||=|0.2199|TWO_SIDED|95.0|-17.53|3.64|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of polyps.||3.64|-17.53|=0.2199
82509669|NCT02321462|164711938|SUPERIORITY||Adjusted difference|1.87|||=|0.6325|TWO_SIDED|95.0|-6.25|9.99|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of adenomas.||9.99|-6.25|=0.6325
82509670|NCT02321462|164711938|SUPERIORITY||Adjusted difference|-1.55|||=|0.7086|TWO_SIDED|95.0|-9.64|6.54|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||Treatment difference for detection of other lesions.||6.54|-9.64|=0.7086
82567728|NCT00141271|164845176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5971|||||||ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5971
82567729|NCT00141271|164845177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1378||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1378
82567730|NCT00141271|164845177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7665||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7665
82509671|NCT02321462|164711939|SUPERIORITY||Adjusted difference|0.01|||=|0.9927|TWO_SIDED|95.0|-3.12|3.14|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||||3.14|-3.12|=0.9927
82509672|NCT02321462|164711940|SUPERIORITY||Adjusted difference|-0.3|||=|0.7039|TWO_SIDED|95.0|-1.88|1.27|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||||1.27|-1.88|=0.7039
82509673|NCT02321462|164711941|SUPERIORITY||Adjusted difference|0.1|||=|0.1891|TWO_SIDED|95.0|-0.05|0.25|||ANOVA|A 2-way ANOVA with covariates for centre, age group (≤65; \>65), gender and IBD status was used.||||0.25|-0.05|=0.1891
82509674|NCT02321462|164711942|SUPERIORITY||Adjusted difference|13.35|||=|0.0011|TWO_SIDED|95.0|6.37|20.32|||Regression, Logistic|A multivariate logistic regression model, adjusted on centre, age class (≤65; \>65), gender and IBD status was used.||||20.32|6.37|=0.0011
82509675|NCT01399593|164711977|SUPERIORITY||Proportion difference|-3.9||||0.76|TWO_SIDED|95.0|-23.9|16.3|||Fisher Exact|||||16.3|-23.9|0.76
82509676|NCT04477304|164711981|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.12|-0.07||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.07|-0.12|<0.001
82509677|NCT04477304|164711982|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.23|-0.16||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.16|-0.23|<0.001
82509678|NCT04477304|164711983|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.1|-0.06||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.06|-0.10|<0.001
82567731|NCT00141271|164845178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4767||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.4767
82567732|NCT00141271|164845178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2066||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.2066
82378470|NCT01512160|164465482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|90.0|0.7|2.1||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.1|0.7|
82630556|NCT01388491|164977371|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|361.6||||0.1148|TWO_SIDED|95.0|-88.45|811.61||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||811.61|-88.45|0.1148
82630557|NCT01388491|164977372|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.2||||0.7136|TWO_SIDED|95.0|-35.92|52.39||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||52.39|-35.92|0.7136
82630558|NCT01388491|164977373|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1||||0.3903|TWO_SIDED|95.0|-0.29|0.11||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||0.11|-0.29|0.3903
82509679|NCT04477304|164711984|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.08|-0.03||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.03|-0.08|<0.001
82509680|NCT04477304|164711985|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.392|TWO_SIDED|95.0|-0.03|-0.01||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.01|-0.03|0.392
82509681|NCT04477304|164711986|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.13|-0.05||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Left-Censored Tobit Regression||Assuming a clinic-level intraclass correlation of 0.01, alpha 0.025, 86 clinics, and 5.5 clinicians per-clinic (N = 473), it was calculated we would have over 85% power for a one-tailed test detecting a 12% reduction in MME from baseline to intervention.||-0.05|-0.13|<0.001
82509682|NCT02633956|164712056|OTHER|Estimation|Least Square Mean Difference|13.79|STANDARD_ERROR_OF_MEAN|5.75|||TWO_SIDED|95.0|2.28|25.3||||||||25.30|2.28|
82509683|NCT02633956|164712056|OTHER|Estimation|Least Square Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|5.61|||TWO_SIDED|95.0|-2.18|20.3||||||||20.30|-2.18|
82509684|NCT02633956|164712056|OTHER|Estimation|Least Square Mean Difference|20.13|STANDARD_ERROR_OF_MEAN|6.39|||TWO_SIDED|95.0|7.33|32.92||||||||32.92|7.33|
82509685|NCT02633956|164712057|OTHER|Estimation|Least Square Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.07|0.75||||||||0.75|0.07|
82509686|NCT02633956|164712057|OTHER|Estimation|Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.25|0.42||||||||0.42|-0.25|
82509687|NCT02633956|164712057|OTHER|Estimation|Least Square Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.14|0.89||||||||0.89|0.14|
82509688|NCT02633956|164712058|OTHER|Estimation|Least Square Mean Difference|103.61|STANDARD_ERROR_OF_MEAN|69.51|||TWO_SIDED|95.0|-35.58|242.81||||||||242.81|-35.58|
82509689|NCT02633956|164712058|OTHER|Estimation|Least Square Mean Difference|114.8|STANDARD_ERROR_OF_MEAN|68.08|||TWO_SIDED|95.0|-21.53|251.13||||||||251.13|-21.53|
82509690|NCT02633956|164712058|OTHER|Estimation|Least Square Mean Difference|215.05|STANDARD_ERROR_OF_MEAN|79.51|||TWO_SIDED|95.0|55.84|374.26||||||||374.26|55.84|
82509691|NCT00430092|164712070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mantel Haenszel|||||||<0.0001
82509692|NCT00386256|164712080|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Statistical analyses included descriptive statistics to assess demographic and medical characteristics, safety, text messaging or phone adherence, exercise adherence, and patient satisfaction. T-tests were used to determine significant differences between the HB text messaging and telephone groups (with inpatients and outpatients combined within each group). All analyses were conducted using SPSS version 14.0 for Windows.||||<.05
82509693|NCT00386256|164712081|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Statistical analyses included descriptive statistics to assess demographic and medical characteristics, safety, text messaging or phone adherence, exercise adherence, and patient satisfaction. T-tests were used to determine significant differences between the HB text messaging and telephone groups (with inpatients and outpatients combined within each group). All analyses were conducted using SPSS version 14.0 for Windows.||||<.05
82509694|NCT03064126|164712086|SUPERIORITY||Risk Difference (RD)|0.166||||0.0017|ONE_SIDED|97.5|0.0553||||Chi-squared||||||0.0553|0.0017
82509695|NCT03064126|164712087|NON_INFERIORITY|A Chi-Square Test was used to assess the hypothesis for the difference in 12-month MAE-free rate with non-inferiority margin (-10%).|Risk Difference (RD)|0.106|||<|0.0001|ONE_SIDED|97.5|0.0248||||Chi-squared||||||0.0248|<0.0001
82509696|NCT03762083|164712164|OTHER|The clinical performance endpoint - Clinical cure rate on Day 7 - was calculated and presented together with a one-sided 95% CI based on the exact binomial distribution (Clopper-Pearson).|Clinical cure rate|81.9|||||ONE_SIDED|95.0|63.1|||||||"It was assumed that the true cure rate was equal to 70%, therefore 22 patients were needed to obtain 90% chance (90% power) to show that the one-sided 95% confidence interval (CI) for the observed cure rate was above 40%.~Hypotheses for the primary clinical performance endpoint:~* Null hypothesis: Clinical cure rate is less than or equal to 40%.~* Alternative hypothesis (one-sided): Clinical cure rate is above 40%."|||63.1|
82509697|NCT03762083|164712165|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 1.|85.7|||||TWO_SIDED|95.0|63.7|97.0||||||||97.0|63.7|
82509698|NCT03762083|164712166|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 2.|90.0|||||TWO_SIDED|95.0|68.3|98.8||||||||98.8|68.3|
82509699|NCT03762083|164712167|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Prop. negative for Amsel criterion 3.|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
82509700|NCT03762083|164712169|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 14|5.6|||||TWO_SIDED|95.0|0.1|27.3||||||||27.3|0.1|
82509701|NCT03762083|164712169|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 35|0.0|||||TWO_SIDED|95.0|0.0|20.6||||||||20.6|0|
82378471|NCT01512160|164465482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.6|2.0||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.0|0.6|
82509702|NCT02659020|164712175|SUPERIORITY||Hazard Ratio (HR)|0.945||||0.775|TWO_SIDED|95.0|0.639|1.397||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and Eastern Cooperative Oncology Group Performance Status (ECOG PS) (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.397|0.639|0.775
82509703|NCT02659020|164712185|SUPERIORITY||Hazard Ratio (HR)|0.667||||0.148|TWO_SIDED|95.0|0.385|1.158||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.158|0.385|0.148
82509704|NCT02659020|164712186|SUPERIORITY||Hazard Ratio (HR)|0.692||||0.055|TWO_SIDED|95.0|0.476|1.007||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.007|0.476|0.055
82509705|NCT02659020|164712186|SUPERIORITY||Hazard Ratio (HR)|0.828||||0.482|TWO_SIDED|95.0|0.49|1.398||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank|||||1.398|0.490|0.482
82509706|NCT02659020|164712187|SUPERIORITY||Odds Ratio (OR)|1.589||||0.1891|TWO_SIDED|95.0|0.794|3.179||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||3.179|0.794|0.1891
82509707|NCT02659020|164712187|SUPERIORITY||Odds Ratio (OR)|2.668||||0.0642|TWO_SIDED|95.0|0.923|7.71||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||7.710|0.923|0.0642
82509708|NCT02659020|164712188|SUPERIORITY||Odds Ratio (OR)|1.106||||0.7724|TWO_SIDED|95.0|0.558|2.194||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||2.194|0.558|0.7724
82509709|NCT02659020|164712188|SUPERIORITY||Odds Ratio (OR)|1.222||||0.6508|TWO_SIDED|95.0|0.513|2.911||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Exact Mantel-Haenszel test||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||2.911|0.513|0.6508
82509710|NCT02659020|164712189|SUPERIORITY||Hazard Ratio (HR)|0.661||||0.073|TWO_SIDED|95.0|0.419|1.041||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.041|0.419|0.073
82509711|NCT02659020|164712189|SUPERIORITY||Hazard Ratio (HR)|0.703||||0.225|TWO_SIDED|95.0|0.395|1.253||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|||1.253|0.395|0.225
82509712|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.213||||0.332|TWO_SIDED|95.0|0.834|1.764||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Fatigue||1.764|0.834|0.332
82509713|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.389|TWO_SIDED|95.0|0.514|1.287||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Nausea and vomiting||1.287|0.514|0.389
82378472|NCT01512160|164465483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.5|2.1||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.1|0.5|
82509714|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.598||||0.02|TWO_SIDED|95.0|0.386|0.926||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Pain||0.926|0.386|0.020
82630559|NCT01388491|164977374|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|14.3||||0.1731|TWO_SIDED|95.0|-6.29|34.8||The p-value, least squares mean difference, and 95% CI for the treatment group comparison are based on a repeated measures ANCOVA with baseline, treatment, visit, and treatment-by-visit interaction as fixed factors, and subject as a random effect.|ANCOVA|Least Squares mean difference: Treatment I - Treatment II||||34.80|-6.29|0.1731
82630560|NCT02735044|164977458|NON_INFERIORITY|Non-inferiority of HOE901-U300 versus Lantus was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference in the mean change in HbA1c from baseline to month 6 was \<0.3%.|LS Mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.172|0.179||||||Analysis was performed using ANCOVA models which included the treatment group, the randomization stratum of age group at screening visit (\<12 years and \>=12 years), and the continuous fixed covariates of the baseline HbA1c value.||0.179|-0.172|
82630561|NCT02735044|164977458|SUPERIORITY|Superiority of HOE901-U300 versus Lantus was demonstrated if the upper bound of the two-sided 95% CI for the difference between treatment groups was \<0 (zero).||||||0.965||||||Threshold for significance at 0.025 level.|ANCOVA|||A step-wise closed testing approach was used to control the type I error. Analysis was performed using ANCOVA models which included the treatment group, the randomization stratum of age group at screening visit (\<12 years and \>=12 years), and the continuous fixed covariates of the baseline HbA1c value.||||0.965
82630562|NCT01682759|164977473|NON_INFERIORITY_OR_EQUIVALENCE|Omarigliptin was considered non-inferior to glimepiride if the upper bound of the two-sided 95% confidence interval (CI) of the between-treatment difference in least-squares (LS) means for change from baseline in A1C at Week 54 (omarigliptin vs. glimepiride) was lower than 0.35%.|Difference in the least squares means|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||Constrained longitudinal data analysis (cLDA) model including terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.|||0.30|0.06|
82630563|NCT01682759|164977474|SUPERIORITY_OR_OTHER||Difference in percentages|-6.9|||||TWO_SIDED|95.0|-13.9|0.1|||||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||0.1|-13.9|
82630564|NCT01682759|164977475|SUPERIORITY_OR_OTHER||Difference in percentages|1.1|||||TWO_SIDED|95.0|-1.6|3.8|||||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||3.8|-1.6|
82630565|NCT01682759|164977476|SUPERIORITY_OR_OTHER||Difference in the least squares means|5.6|||||TWO_SIDED|95.0|0.1|11.2|||||cLDA model including terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups|||11.2|0.1|
82630566|NCT01682759|164977477|SUPERIORITY_OR_OTHER||Between-group Rate Difference (%)|-3.7|||||TWO_SIDED|95.0|-10.6|3.3|||||Between-group CIs are calculated via Miettinen \& Nurminen method.|A1C \<6.5%||3.3|-10.6|
82509715|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.821|TWO_SIDED|95.0|0.622|1.442||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Dyspnoea||1.442|0.622|0.821
82523057|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<130 mmHg||||0.0280
82630567|NCT01682759|164977478|SUPERIORITY_OR_OTHER||Difference in percentages|-21.3|||<|0.001|TWO_SIDED|95.0|-26.5|-16.4|||Difference in percentages||Miettinen \& Nurminen method; the 95% CI was computed only for those endpoints with at least 4 participants having events in one or more treatment groups.|||-16.4|-26.5|<0.001
82630568|NCT01682759|164977479|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.9|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Difference in the least squares means||cLDA model including terms for treatment, time, and the interaction of time by treatment with the constraint that the mean baseline is the same for all treatment groups.|||-1.4|-2.5|<0.001
82630569|NCT01682759|164977480|SUPERIORITY_OR_OTHER||Between-group Rate Difference|-10.3|||||TWO_SIDED|95.0|-17.8|-2.8|||||Between-group CIs are calculated via Miettinen \& Nurminen method.|A1C \< 7.0%||-2.8|-17.8|
82630570|NCT00412113|164977501|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|19.03|||<|0.001||95.0|9.14|39.63||There was only one primary endpoint and the p-value was not adjusted for comparison.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the BP(\< 140/90 mmHg) and LDL goal (\< 100mg/dL) at Week 6.~With \~120 in each treatment arm, planned power was at least 90% to detect a difference between treatments, assuming 35% in the Caduet and 15% in the Norvasc arm achieving BP \<140/90 mmHg and LDL \<100 mg/dL and using a chi-square test with 0.05 two-sided significance level."||39.63|9.14|<0.001
82630571|NCT00412113|164977502|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|31.39|||<|0.001||95.0|12.61|78.09||No adjustment for p-value for secondary analysis|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<100 mg/dL) at Week 4.||78.09|12.61|<0.001
82509716|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.931||||0.812|TWO_SIDED|95.0|0.574|1.509||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Insomnia||1.509|0.574|0.812
82509717|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.162|TWO_SIDED|95.0|0.893|2.055||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Appetite loss||2.055|0.893|0.162
82509718|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.881||||0.619|TWO_SIDED|95.0|0.55|1.413||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Constipation||1.413|0.550|0.619
82509719|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.134||||0.597|TWO_SIDED|95.0|0.746|1.724||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Diarrhoea||1.724|0.746|0.597
82509720|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.766||||0.38|TWO_SIDED|95.0|0.425|1.381||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Financial difficulties||1.381|0.425|0.380
82509721|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.046||||0.877|TWO_SIDED|95.0|0.635|1.723||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Fatigue||1.723|0.635|0.877
82509722|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.102||||0.791|TWO_SIDED|95.0|0.568|2.139||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Nausea and vomiting||2.139|0.568|0.791
82509723|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.487|TWO_SIDED|95.0|0.454|1.443||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Pain||1.443|0.454|0.487
82630572|NCT00412113|164977503|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.2|||<|0.001||95.0|2.93|9.24||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<130mg/dL) at Week 4.||9.24|2.93|<0.001
82630573|NCT00412113|164977504|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.14|||<|0.001||95.0|2.89|9.11||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving both the blood pressure (\< 140/90 mmHg) and LDL-goal (\<130mg/dL) at Week 6.||9.11|2.89|<0.001
82630574|NCT00412113|164977505|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|65.51|||<|0.001||95.0|27.1|158.34||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving (\<100mg/DL) at Week 4.||158.34|27.10|<0.001
82630575|NCT00412113|164977506|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|42.04|||<|0.001||95.0|19.42|90.99||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving LDL-goal (\<100mg/DL) at Week 6.||90.99|19.42|<0.001
82630576|NCT00412113|164977507|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.785||95.0|0.6|1.98||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving blood pressure (\< 140/90 mmHg)at Week 4||1.98|0.60|0.785
82630577|NCT00412113|164977508|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.171||95.0|0.83|2.88||No adjustment for p-value for secondary analyses|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference between the two treatment management strategies in the percentage of patients achieving blood pressure (\< 140/90 mmHg) at Week 6.||2.88|0.83|0.171
82630578|NCT00412113|164977509|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.76||||0.585||95.0|-1.97|3.48||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in systolic blood pressure at Week 4.||3.48|-1.97|0.585
82509724|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.014||||0.976|TWO_SIDED|95.0|0.556|1.85||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Dyspnoea||1.850|0.556|0.976
82523058|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0519||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.0519
82523059|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0605||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving systolic blood pressure goal of \<120 mmHg||||0.0605
82523060|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||0.0001
82523061|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<90 mmHg||||0.0003
82523062|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||0.0070
82523063|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0066||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<85 mmHg||||0.0066
82523064|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0061||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0061
82523065|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving diastolic blood pressure goal of \<80 mmHg||||0.0096
82523066|NCT00949884|164741497|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
82523067|NCT00949884|164741497|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<140/90 mmHg||||<0.0001
82523068|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0047
82523069|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<135/80 mmHg||||0.0063
82523070|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0589
82523071|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0594||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<130/80 mmHg||||0.0594
82523072|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0476||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<120/80 mmHg||||0.0476
82523073|NCT00949884|164741497|SUPERIORITY_OR_OTHER|||||||0.0657||95.0|||||Regression, Logistic|The p-value is from the logistic regression with treatment as the main effect and baseline SSBP or SDBP as covariates.||Percentage of participants achieving blood pressure goal of \<120/80 mmHg||||0.0657
82523074|NCT00949884|164741498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.325|TWO_SIDED|95.0|-4.4|1.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure as a covariate.||Change from baseline at week 4 in systolic blood pressure.||1.5|-4.4|0.3250
82523075|NCT00949884|164741498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.3491|TWO_SIDED|95.0|-4.4|1.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure as a covariate.||Change from baseline at week 4 in systolic blood pressure.||1.5|-4.4|0.3491
82523076|NCT00949884|164741498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.2085|TWO_SIDED|95.0|-3.2|0.7|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 4 in diastolic blood pressure.||0.7|-3.2|0.2085
82523077|NCT00949884|164741498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.2542|TWO_SIDED|95.0|-3.0|0.8|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 4 in diastolic blood pressure.||0.8|-3.0|0.2542
82523078|NCT00949884|164741499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.0209|TWO_SIDED|95.0|-6.6|-0.5|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in systolic blood pressure.||-0.5|-6.6|0.0209
82567733|NCT00141271|164845179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1667||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1667
82567734|NCT00141271|164845179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6727||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6727
82567735|NCT00141271|164845180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7019||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7019
82567736|NCT00141271|164845180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1020
82567737|NCT00141271|164845181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4749||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4749
82567738|NCT00141271|164845181|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4491||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4491
82567739|NCT00141271|164845182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4398||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4398
82567740|NCT00141271|164845182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3331||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3331
82567741|NCT00141271|164845183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2763||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2763
82567742|NCT00141271|164845183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2048||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2048
82567743|NCT00141271|164845184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.4340
82567744|NCT00141271|164845184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7774||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.7774
82567745|NCT00141271|164845185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5195||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.5195
82567746|NCT00141271|164845185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0153||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.0153
82567747|NCT00141271|164845186|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2847||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.2847
82567748|NCT00141271|164845186|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1958||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1958
82567749|NCT00141271|164845187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1652||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.1652
82567750|NCT00141271|164845187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5997||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5997
82567751|NCT00141271|164845188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0082||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.0082
82567752|NCT00141271|164845188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7037||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7037
82567753|NCT00141271|164845189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2718||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.2718
82509725|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.694||||0.111|TWO_SIDED|95.0|0.882|3.25||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Insomnia||3.250|0.882|0.111
82509726|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.108||||0.76|TWO_SIDED|95.0|0.62|1.979||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Appetite loss||1.979|0.620|0.760
82509727|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.119||||0.747|TWO_SIDED|95.0|0.586|2.135||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Constipation||2.135|0.586|0.747
82509728|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.367||||0.33|TWO_SIDED|95.0|0.726|2.576||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Diarrhoea||2.576|0.726|0.330
82509729|NCT02659020|164712190|SUPERIORITY||Hazard Ratio (HR)|1.373||||0.411|TWO_SIDED|95.0|0.636|2.965||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Log Rank||Stratified by number of prior systemic therapies for locally advanced or metastatic disease (0 vs ≥1), histological tumor type (leiomyosarcoma vs non-leiomyosarcoma), and ECOG PS (0 vs1).|Financial difficulties||2.965|0.636|0.411
82509730|NCT00384813|164712307|SUPERIORITY_OR_OTHER||regression coefficient|0.33||||0.23||||||For both baseline to 4 month analyses (see above p value) and baseline to 10 month analyses, the variable of intervention group did not contribute significant additional variance.|Regression, Linear|||||||0.23
82509731|NCT01554618|164712313|SUPERIORITY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.33||0.012|TWO_SIDED|95.0|-1.51|-0.19|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline HbA1c value (continuous) and baseline HbA1c by visit interaction as fixed effects, using an unstructured covariance matrix.||-0.19|-1.51|0.012
82509732|NCT01554618|164712316|SUPERIORITY||LS Mean Difference|-21.6|STANDARD_ERROR_OF_MEAN|13.7||0.119|TWO_SIDED|95.0|-49.0|5.7|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline fasting plasma glucose value, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline fasting plasma glucose by visit interaction as fixed effects, using an unstructured covariance matrix.||5.7|-49.0|0.119
82567754|NCT00141271|164845189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7077||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7077
82509733|NCT01554618|164712317|SUPERIORITY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|1.189||0.307|TWO_SIDED|95.0|-3.59|1.15|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, and treatment group by visit interaction, baseline body weight, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline body weight by visit interaction as fixed effects, using an unstructured covariance matrix.||1.15|-3.59|0.307
82509734|NCT01554618|164712318|SUPERIORITY||LS Mean Difference|94.9|STANDARD_ERROR_OF_MEAN|95.26||0.323|TWO_SIDED|95.0|-95.6|285.5|||Mixed Models Analysis||Exenatide versus Placebo|Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline fasting insulin, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline fasting insulin by visit interaction as fixed effects, using an unstructured covariance matrix.||285.5|-95.6|0.323
82509735|NCT01554618|164712319|SUPERIORITY||Difference|14.8||||0.077|TWO_SIDED|95.0|1.9|27.7|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c \< 6.5%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||27.7|1.9|0.077
82509736|NCT01554618|164712319|SUPERIORITY||Difference|14.8||||0.077|TWO_SIDED|95.0|1.9|27.7|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c ≤ 6.5%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||27.7|1.9|0.077
82567755|NCT00141271|164845190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5057||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.5057
82567756|NCT00141271|164845190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3654||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.3654
82567757|NCT00141271|164845191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6227||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.6227
82567758|NCT00141271|164845191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7737||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|Model included model terms of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Endpoint||||0.7737
82567759|NCT01772147|164845197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|||<|0.001|TWO_SIDED|95.0|0.089|0.164|||Mixed Models Analysis|||||0.164|0.089|<0.001
82567760|NCT01772147|164845197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.148|||<|0.001|TWO_SIDED|95.0|0.111|0.185|||Mixed Models Analysis|||||0.185|0.111|<0.001
82567761|NCT04572997|164845243|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed-rank test||||||< 0.0001
82567762|NCT04572997|164845248|OTHER||||||<|0.001|||||||Wilcoxon Signed-rank test|||||||< 0.001
82567763|NCT01967719|164845257|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|56.57|||||TWO_SIDED|95.0|44.21|72.39|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS 2.2 - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS 2.2:mCC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||72.39|44.21|
82567764|NCT01967719|164845258|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|55.64|||||TWO_SIDED|95.0|43.3|71.5|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS 2.2 - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS 2.2:mCC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||71.50|43.30|
82567765|NCT00796614|164845267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.5388|TWO_SIDED|95.0|0.5|3.8|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||3.80|0.50|0.5388
82567766|NCT00796614|164845267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.343|TWO_SIDED|95.0|0.2|1.76|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||1.76|0.20|0.3430
82567767|NCT00796614|164845267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.5209|TWO_SIDED|95.0|0.5|3.97|||Regression, Logistic|||Logistic regression model was used with treatment variable and three covariates: age group, concomitant use of anti-cholinergic medication and geographic region. The first two covariates were used in the stratification of the randomisation. On treatment (OT) analyses approach was used.||3.97|0.50|0.5209
82630579|NCT00412113|164977510|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0|||>|0.999||95.0|-2.01|2.01||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in diastolic blood pressure at Week 4.||2.01|-2.01|> 0.999
82567768|NCT00796614|164845267|SUPERIORITY_OR_OTHER|||||||0.9436|||||||Cochran-Armitage trend test|||A test of trend across the four treatment groups was performed as a secondary analysis in the proportion of responders across the dose levels using Cochran-Armitage trend test.||||0.9436
82630580|NCT00412113|164977511|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.9||||0.363||95.0|-2.83|1.04|||ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in pulse rate at Week 4.||1.04|-2.83|0.363
82567769|NCT00796614|164845268|SUPERIORITY_OR_OTHER|||||||0.3097|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.3097
82567770|NCT00796614|164845268|SUPERIORITY_OR_OTHER|||||||0.2676|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.2676
82567771|NCT00796614|164845268|SUPERIORITY_OR_OTHER|||||||0.6265|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.6265
82630581|NCT00412113|164977512|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-3.25||||0.02||95.0|-5.99|-0.51||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in systolic blood pressure at Week 6.||-0.51|-5.99|0.020
82630582|NCT00412113|164977513|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.87||||0.351||95.0|-2.71|0.97||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in diastolic blood pressure at Week 6.||0.97|-2.71|0.351
82630583|NCT00412113|164977514|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.922||95.0|-1.91|2.11||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in mean change from baseline in pulse rate at Week 6.||2.11|-1.91|0.922
82567772|NCT00796614|164845269|SUPERIORITY_OR_OTHER|||||||0.4359|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.4359
82567773|NCT00796614|164845269|SUPERIORITY_OR_OTHER|||||||0.0658|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.0658
82509737|NCT01554618|164712319|SUPERIORITY||Difference|22.7||||0.02|TWO_SIDED|95.0|6.5|39.0|||Cochran-Mantel-Haenszel||Exenatide versus Placebo. Difference was the risk difference of the 2 proportions.|"Treatment difference in HbA1c \< 7.0%:~Treatment group comparison was based on CMH test stratified by screening HbA1c (\<9.0% or \>=9.0%). P-value was from the general association statistic."||39.0|6.5|0.020
82509738|NCT01554618|164712321|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.61||0.284|TWO_SIDED|95.0|-8.0|2.4|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in SBP:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline SBP, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline SBP by visit interaction as fixed effects, using an unstructured covariance matrix."||2.4|-8.0|0.284
82509739|NCT01554618|164712321|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.77||0.376|TWO_SIDED|95.0|-2.0|5.1|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in DBP:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline DBP, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline DBP by visit interaction as fixed effects, using an unstructured covariance matrix."||5.1|-2.0|0.376
82509740|NCT01554618|164712323|SUPERIORITY||LS Mean Difference|90.37|STANDARD_ERROR_OF_MEAN|69.207||0.211|TWO_SIDED|95.0|-57.27|238.0|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in HOMA-B:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline HOMA-B, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline HOMA-B by visit interaction as fixed effects, using an unstructured covariance matrix."||238.00|-57.27|0.211
82509741|NCT01554618|164712323|SUPERIORITY||LS Mean Difference|-6.75|STANDARD_ERROR_OF_MEAN|6.173||0.289|TWO_SIDED|95.0|-19.8|6.29|||Mixed Models Analysis||Exenatide versus Placebo|"Treatment difference in HOMA-S:~Adjusted LS mean and treatment group difference in the change from baseline at Week 24 were modeled using a MMRM including treatment group, region, visit, treatment group by visit interaction, baseline HOMA-S, screening HbA1c (\< 9.0% or ≥ 9.0%), and baseline HOMA-S by visit interaction as fixed effects, using an unstructured covariance matrix."||6.29|-19.80|0.289
82567774|NCT00796614|164845269|SUPERIORITY_OR_OTHER|||||||0.6709|||||||ANCOVA|||ANCOVA model was used with covariates of age group, anti-cholinergic use at baseline and geographic region. On treatment (OT) analyses approach was used.||||0.6709
82377611|NCT03417778|164462611|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for Cmax of filgotinib falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit Cmax change of at least 2-fold for filgotinib compared with participants with normal liver function will be rejected.|GLSM Ratio|115.98|||||TWO_SIDED|90.0|58.75|228.98||||||An ANOVA model was fitted to the natural logarithmic transformed values of the Cmax. Two-sided 90% CI were calculated for the GLSM ratio of Cmax between hepatic impairment group versus the matched control (normal hepatic function) group.||228.98|58.75|
82509742|NCT00692770|164712392|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||=|0.258329|TWO_SIDED|95.0|0.78|1.134||One sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.134|0.78|=0.258329
82509743|NCT00692770|164712393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.891|||=|0.121383|TWO_SIDED|95.0|0.735|1.081||One sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.081|0.735|=0.121383
82509744|NCT00692770|164712394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.995|||=|0.484742|TWO_SIDED|95.0|0.761|1.3||One-sided P-value was stratified by region, risk of recurrence and previous curative treatment.|Log Rank|||||1.3|0.761|=0.484742
82509745|NCT00692770|164712395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||<|0.0001|TWO_SIDED|95.0|0.025|0.052|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to estimate the mean difference in the timeadjusted Area Under Curve (AUC) between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the EQ-5D index score. Statistical tests were performed with a 2 sided type I error of 5%.||0.052|0.025|<0.0001
82509746|NCT00692770|164712396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.978|||<|0.0001|TWO_SIDED|95.0|1.797|4.159|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to estimate the mean difference in the timeadjusted Area Under Curve (AUC) between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the EQ-5D VAS score. Statistical tests were performed with a 2 sided type I error of 5%.||4.159|1.797|<0.0001
82509747|NCT00692770|164712397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||<|0.0001|TWO_SIDED|95.0|3.5|6.7|||ANCOVA|||An ANCOVA model was used to estimate the mean difference in the timeadjusted AUC between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the FACT-HEP score. Statistical tests were performed with a 2 sided type I error of 5%.||6.7|3.5|<0.0001
82509748|NCT00692770|164712398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.4|3.6|||ANCOVA|||An ANCOVA model was used to estimate the mean difference in the timeadjusted AUC between the two treatment groups, with covariates for baseline scores and stratification factors. To test the treatment effect, a mixed linear model (random coefficient model) was used for the FACT-G score. Statistical tests were performed with a 2 sided type I error of 5%.||3.6|1.4|<0.0001
82509749|NCT00692770|164712399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.562|||||TWO_SIDED|95.0|1.241|1.965|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||1.965|1.241|
82509750|NCT00692770|164712400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.747|||||TWO_SIDED|95.0|1.407|2.17|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||2.170|1.407|
82567775|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.5672|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5672
82509751|NCT00692770|164712401|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|1.206|2.018|||||Significance of the biomarker main effect (RFS) and its corresponding hazard ratio estimate (HR) with 95% CI were reported. HR was expressed as high/low biomarker levels.|||2.018|1.206|
82509752|NCT03750903|164712433|OTHER|||||||0.05|||||||ANOVA|||||||0.05
82509753|NCT04482179|164712456|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<.05
82509754|NCT04482179|164712457|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<.05
82509755|NCT04127786|164712462|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95 percent (%) confidence interval (CI) of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was greater than (\>) -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.3||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 2: Verorab®: Pediatric (\< 18 years)||4.3|-1.4|
82509756|NCT04127786|164712462|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|1.2|||||TWO_SIDED|95.0|-0.6|6.4||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 2: Verorab®: Adult (\>=18 years)||6.4|-0.6|
82509757|NCT04127786|164712462|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.4||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 3: Imovax Rabies: Pediatric (\< 18 years)||4.4|-1.4|
82509758|NCT04127786|164712462|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentages between the test group (Group 1) and control groups (Group 2, Group 3) was \> -5% at Day 42.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.5|4.6||||||Primary Series: Cohort-I Group 1: VRVg-2 versus Primary Series: Cohort-I Group 3: Imovax Rabies: Adult (\>= 18 years)||4.6|-1.5|
82509759|NCT04127786|164712463|SUPERIORITY|If the non-inferiority for VRVg-2 versus comparator vaccines was reached at Day 42, then superiority was demonstrated if the overall observed percentage of participants with an RVNA titer \>= 0.5 IU/mL at Day 42 was at least 99% in the VRVg-2 Group, with the lower limit of the 95% CI at least 97%.|Percentage Difference|100.0|||||TWO_SIDED|95.0|99.3|100.0||||||The secondary immunogenicity outcome measures were evaluated sequentially following a fixed-sequence method.||100|99.3|
82509760|NCT04127786|164712464|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.3||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 2 and 5: Verorab®: Pediatric (\< 18 years)||4.3|-1.4|
82509761|NCT04127786|164712464|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-1.9|2.7||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 2 and 5: Verorab®: Adult (\>=18 years)||2.7|-1.9|
82509762|NCT04127786|164712464|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.5||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 3 and 6: Imovax Rabies®: Pediatric (\< 18 years)||4.5|-1.4|
82509763|NCT04127786|164712464|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the test groups (Groups 1+4) and control groups (Groups 2+5, Groups 3+6) was \> -5% at Day 28.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-0.5|5.3||||||Pooled Groups 1 and 4: VRVg-2 versus Pooled Groups 3 and 6: Imovax Rabies®: Adult (\>= 18 years)||5.3|-0.5|
82509764|NCT04127786|164712465|NON_INFERIORITY|If the non-inferiority objective for VRVg-2 versus comparator vaccines at Day 28 was demonstrated, the overall non-inferiority of 2-dose VRVg-2 at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the non-inferiority between pooled Groups 1+4 and Group 3 were both demonstrated in each age group.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.4|4.4|||||Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between 2-dose VRVg-2 at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Pooled Groups 1 and 4: VRVg-2 at Day 28 versus Primary Series: Cohort-1 Group 3: Imovax Rabies® at Day 42: Pediatric (\< 18 years)||4.4|-1.4|
82509765|NCT04127786|164712465|NON_INFERIORITY|If the non-inferiority objective for VRVg-2 versus comparator vaccines at Day 28 was demonstrated, the overall non-inferiority of 2-dose VRVg-2 at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the non-inferiority between pooled Groups 1+4 and Group 3 were both demonstrated in each age group.|Percentage Difference|-1.7|||||TWO_SIDED|95.0|-3.1|3.0|||||Non-inferiority was demonstrated if the lower limit of the 95% CI of the difference of the percentage between 2-dose VRVg-2 at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Pooled Groups 1 and 4: VRVg-2 at Day 28 versus Primary Series: Cohort-1 Group 3: Imovax Rabies® at Day 42: Adult (\>= 18 years)||3.0|-3.1|
82509766|NCT04127786|164712467|NON_INFERIORITY|If the superiority objective of VRVg-2 was reached at Day 28, the non-inferiority of 2-dose Imovax Rabies® at Day 28 versus 3-dose Imovax Rabies® at Day 42 was demonstrated if the lower limit of the 95% CI of the difference of the percentage between the 2-dose Imovax Rabies® at Day 28 and 3-dose Imovax Rabies® at Day 42 was \> -10%.|Percentage Difference|-1.3|||||TWO_SIDED|95.0|-4.4|1.3||||||Imovax Rabies® at Day 28 versus Imovax Rabies® at Day 42||1.3|-4.4|
82509767|NCT05124665|164712492|EQUIVALENCE|Hypothesis is that proportion of contacts accepting HIV testing between two study arms is equivalent.|Odds Ratio (OR)|4.6||||0.004|TWO_SIDED|95.0|1.6|12.9|||Mixed Models Analysis|Cluster adjusted for household.||||12.9|1.6|0.004
82509768|NCT05124665|164712492|EQUIVALENCE|Hypothesis is proportion of contacts accepting HIV testing is equivalent between the two study arms|Mean Difference (Net)|6.0||||0.006|TWO_SIDED|95.0|2.0|10.0|||t-test, 2 sided||Estimated value and confidence interval reflects the values multiplied by 100 (converting decimal to percentage).|||10|2|0.006
82509769|NCT05124665|164712493|EQUIVALENCE|Hypothesis is that the change in stigma score is equivalent between the two study arms.|Slope|2.2||||0.358|TWO_SIDED|95.0|-2.5|6.9|||Mixed Models Analysis|||Van Rie Perceived TB and HIV Stigma scales adapted and validated in the Ugandan context are used. Scores range from 0 to 100 (standardized scale)||6.9|-2.5|0.358
82509770|NCT05124665|164712494|EQUIVALENCE|Hypothesis is that the difference in stigma score is equivalent between the two study arms|Slope|2.61||||0.199|TWO_SIDED|95.0|-1.38|6.59|||Mixed Models Analysis|||||6.59|-1.38|0.199
82509771|NCT05124665|164712495|EQUIVALENCE|Hypothesis is no effect from perceived HIV Stigma on HIV Test Uptake|Coefficient from Structural Equation|0.00087||||0.03|TWO_SIDED|95.0|0.00007|0.00167|||Structural Equation Modeling|||||0.00167|0.00007|0.03
82509772|NCT05124665|164712496|EQUIVALENCE|Hypothesis is that TB stigma has no effect of HIV test uptake|Coefficient Structural Equation Model|0.0002||||0.64|TWO_SIDED|95.0|-0.0007|0.0011|||Structural Equation Modeling|||||0.0011|-0.0007|0.64
82567776|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.8724|||||||Regression, Logistic|||Patient responded to tamsulosin-medium dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8724
82509773|NCT05124665|164712497|EQUIVALENCE|Hypothesis is that proportion of index patient nominated household contacts accepting HIV testing is equivalent between two study arms||||||0.452|||||||Chi-squared|||||||0.452
82509774|NCT05124665|164712498|NON_INFERIORITY|Hypothesis is that the first tester's decision to test does not impact subsequent household contacts decision to test for HIV.|Risk Ratio (RR)|1.23||||0.264|TWO_SIDED|95.0|0.86|1.76|||Regression, Logistic|||||1.76|0.86|0.264
82509775|NCT05124665|164712499|EQUIVALENCE|Hypothesis is that the index patient and contact nominations will match equally regardless of study arm.|||||<|0.001|||||||Chi-squared|||||||<0.001
82509776|NCT02365636|164712606|SUPERIORITY||LSM difference from placebo|0.32||||0.13|TWO_SIDED|95.0|-0.094|0.726||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average NRS scores at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the daily average NRS scores as covariate; and patient as a random effect.||0.726|-0.094|0.130
82567777|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.7674|||||||Regression, Logistic|||Patient responded to tamsulosin-high dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7674
82567778|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.5545|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5545
82567779|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.4774|||||||Regression, Logistic|||Patient responded to tamsulosin-Medium dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.4774
82509777|NCT02365636|164712606|SUPERIORITY||LSM difference from placebo|0.24||||0.245|TWO_SIDED|95.0|-0.167|0.652||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average NRS scores at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the daily average NRS scores as covariate; and patient as a random effect.||0.652|-0.167|0.245
82509778|NCT02365636|164712607|SUPERIORITY||LSM difference from placebo|0.32||||0.128|TWO_SIDED|95.0|-0.093|0.735||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.735|-0.093|0.128
82509779|NCT02365636|164712607|SUPERIORITY||LSM difference from placebo|0.27||||0.194|TWO_SIDED|95.0|-0.14|0.688||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.688|-0.140|0.194
82567780|NCT00796614|164845270|SUPERIORITY_OR_OTHER|||||||0.8626|||||||Regression, Logistic|||Patient responded to tamsulosin-High dose (Right Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use,and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8626
82509780|NCT02365636|164712608|SUPERIORITY||LSM difference from placebo|0.28||||0.177|TWO_SIDED|95.0|-0.128|0.691||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the morning at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the morning as covariate; and patient as a random effect.||0.691|-0.128|0.177
82509781|NCT02365636|164712608|SUPERIORITY||LSM difference from placebo|0.2||||0.325|TWO_SIDED|95.0|-0.204|0.614||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the average NRS pain scores recorded in the morning at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the average NRS pain scores recorded in the morning as covariate; and patient as a random effect.||0.614|-0.204|0.325
82567781|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||0.9669|||||||Regression, Logistic|||Patient responded to tamsulosin-low dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.9669
82567782|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||0.9231|||||||Regression, Logistic|||Patient responded to tamsulosin-medium dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.9231
82567783|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||0.636|||||||Regression, Logistic|||Patient responded to tamsulosin-high dose (Left Kidney) was compared to placebo. Logistic regression model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.6360
82509782|NCT02365636|164712609|SUPERIORITY||LSM difference from placebo|0.29||||0.202|TWO_SIDED|95.0|-0.158|0.741||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the worst NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the worst NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.741|-0.158|0.202
82509783|NCT02365636|164712609|SUPERIORITY||LSM difference from placebo|0.457||||0.457|TWO_SIDED|95.0|-0.28|0.621||5% level of significance|mixed model for repeated measures|||The Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the worst NRS pain scores recorded in the evening at week 4 as the dependent variable; week, pooled study center, treatment, and treatment by visit interaction as fixed factors, baseline weekly average of the worst NRS pain scores recorded in the evening as covariate; and patient as a random effect.||0.621|-0.280|0.457
82509784|NCT02365636|164712610|SUPERIORITY||Odds Ratio (OR)|0.92||||0.815|TWO_SIDED|95.0|0.456|1.856||5% level of significance|Regression, Logistic|||\>=30% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||1.856|0.456|0.815
82509785|NCT02365636|164712610|SUPERIORITY||Odds Ratio (OR)|1.05||||0.893|TWO_SIDED|95.0|0.52|2.117||5% level of significance|Regression, Logistic|||\>=30% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||2.117|0.520|0.893
82378473|NCT01512160|164465483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|90.0|0.4|1.8||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.8|0.4|
82509786|NCT02365636|164712610|SUPERIORITY||Odds Ratio (OR)|0.74||||0.43|TWO_SIDED|95.0|0.357|1.55||5% level of significance|Regression, Logistic|||\>=50% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||1.550|0.357|0.430
82509787|NCT02365636|164712610|SUPERIORITY||Odds Ratio (OR)|1.02||||0.967|TWO_SIDED|95.0|0.494|2.088||5% level of significance|Regression, Logistic|||\>=50% improvement. P-value, odds ratio and CI for odds ratio are calculated using logistic model including response (yes/no) as dependent variable, treatment group and pooled study sites as factors.||2.088|0.494|0.967
82509788|NCT02365636|164712611|SUPERIORITY||LSM of difference with placebo|2.2||||0.251|TWO_SIDED|95.0|-1.55|5.92||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2 The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||5.92|-1.55|0.251
82509789|NCT02365636|164712611|SUPERIORITY||LSM difference from placebo|1.3||||0.495|TWO_SIDED|95.0|-2.46|5.07||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||5.07|-2.46|0.495
82509790|NCT02365636|164712611|SUPERIORITY||LSM difference from placebo|3.1||||0.123|TWO_SIDED|95.0|-0.84|7.06||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 4. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||7.06|-0.84|0.123
82523079|NCT00949884|164741499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.0186|TWO_SIDED|95.0|-6.6|-0.6|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in systolic blood pressure.||-0.6|-6.6|0.0186
82523080|NCT00949884|164741499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0175|TWO_SIDED|95.0|-4.5|-0.4|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in diastolic blood pressure.||-0.4|-4.5|0.0175
82630584|NCT00412113|164977515|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-49.3|||<|0.001||95.0|-54.68|-43.91||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in LDL at Week 4.||-43.91|-54.68|<0.001
82523081|NCT00949884|164741499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.0177|TWO_SIDED|95.0|-4.4|-0.4|||ANCOVA|Treatment is a fixed effect and baseline mean 24-hour ABPM blood pressure is a covariate.||Change from baseline at week 8 in diastolic blood pressure.||-0.4|-4.4|0.0177
82523082|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.3104|TWO_SIDED|95.0|-5.2|1.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||1.7|-5.2|0.3104
82523083|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3653|TWO_SIDED|95.0|-4.9|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||1.8|-4.9|0.3653
82523084|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.1197|TWO_SIDED|95.0|-4.1|0.5|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||0.5|-4.1|0.1197
82523085|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.1654|TWO_SIDED|95.0|-3.9|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||0.7|-3.9|0.1654
82523086|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.4362|TWO_SIDED|95.0|-4.4|1.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||1.9|-4.4|0.4362
82523087|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.4039|TWO_SIDED|95.0|-4.5|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||1.8|-4.5|0.4039
82509791|NCT02365636|164712611|SUPERIORITY||LSM difference from placebo|2.8||||0.16|TWO_SIDED|95.0|-1.12|6.77||5% level of significance.|miex model for repeated measures|||Change from baseline at Week 4. The MMRM used pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||6.77|-1.12|0.160
82509792|NCT02365636|164712612|SUPERIORITY||LSM difference from placebo|1.3||||0.609|TWO_SIDED|95.0|-3.81|6.48||5% level of significance|ANCOVA|ANCOVA model includes study center, treatment, and baseline.||||6.48|-3.81|0.609
82630585|NCT00412113|164977516|SUPERIORITY_OR_OTHER_LEGACY||difference in LS Means|-0.3||||0.739||95.0|-2.07|1.47||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in HDL at Week 4.||1.47|-2.07|0.739
82378474|NCT01512160|164465483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|90.0|0.7|2.9||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.9|0.7|
82509793|NCT02365636|164712612|SUPERIORITY||LSM difference with placebo|2.1||||0.427|TWO_SIDED|95.0|-3.05|7.19||5% level of significance|ANCOVA|ANCOVA model includes study center, treatment, and baseline.||||7.19|-3.05|0.427
82523088|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.3929|TWO_SIDED|95.0|-3.1|1.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||1.2|-3.1|0.3929
82523089|NCT00949884|164741500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.4259|TWO_SIDED|95.0|-3.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||1.3|-3.0|0.4259
82523090|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0396|TWO_SIDED|95.0|-6.8|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||-0.2|-6.8|0.0396
82523091|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0345|TWO_SIDED|95.0|-6.8|-0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime systolic blood pressure||-0.3|-6.8|0.0345
82523092|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0324|TWO_SIDED|95.0|-4.8|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||-0.2|-4.8|0.0324
82523093|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.0363|TWO_SIDED|95.0|-4.7|-0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Daytime diastolic blood pressure||-0.2|-4.7|0.0363
82523094|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0988|TWO_SIDED|95.0|-6.5|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||0.6|-6.5|0.0988
82523095|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0926|TWO_SIDED|95.0|-6.4|0.5|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime systolic blood pressure||0.5|-6.4|0.0926
82523096|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.09|TWO_SIDED|95.0|-4.5|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||0.3|-4.5|0.0900
82523097|NCT00949884|164741501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.0942|TWO_SIDED|95.0|-4.4|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||Nighttime diastolic blood pressure||0.3|-4.4|0.0942
82523098|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.3229|TWO_SIDED|95.0|-5.4|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.8|-5.4|0.3229
82523099|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.3863|TWO_SIDED|95.0|-5.1|2.0|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||2.0|-5.1|0.3863
82523100|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1277|TWO_SIDED|95.0|-4.5|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.6|-4.5|0.1277
82523101|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.1799|TWO_SIDED|95.0|-4.3|0.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.8|-4.3|0.1799
82523102|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.2708|TWO_SIDED|95.0|-5.1|1.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||1.4|-5.1|0.2708
82523103|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.3133|TWO_SIDED|95.0|-5.0|1.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||1.6|-5.0|0.3133
82523104|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.1621|TWO_SIDED|95.0|-3.9|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.7|-3.9|0.1621
82523105|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2314|TWO_SIDED|95.0|-3.7|0.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.9|-3.7|0.2314
82523106|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.2461|TWO_SIDED|95.0|-5.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||1.3|-5.0|0.2461
82523107|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.2558|TWO_SIDED|95.0|-5.0|1.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||1.3|-5.0|0.2558
82509794|NCT02365636|164712613|SUPERIORITY||LSM difference from placebo|0.2||||0.166|TWO_SIDED|95.0|-0.07|0.43||5% level of significance|mixed model for repeated measures|||Week 2 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.43|-0.07|0.166
82509795|NCT02365636|164712613|SUPERIORITY||LSM difference from placebo|0.3||||0.046|TWO_SIDED|95.0|0.0|0.51||5% level of significance|mixed model for repeated measures|||Week 2 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.51|0.00|0.046
82630586|NCT00412113|164977517|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-57.9|||<|0.001||95.0|-64.02|51.81||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TC at Week 4.||51.81|-64.02|<0.001
82509796|NCT02365636|164712613|SUPERIORITY||LSM difference from placebo|0.2||||0.152|TWO_SIDED|95.0|-0.08|0.53||5% level of significance|mixed model for repeated measures|||Week 4 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.53|-0.08|0.152
82509797|NCT02365636|164712613|SUPERIORITY||LSM difference from placebo|0.1||||0.342|TWO_SIDED|95.0|-0.16|0.46||5% level of significance|mixed model for repeated measures|||Week 4 Mixed model for repeated measures (MMRM) with pooled study center, week, treatment, and treatment by week interaction as fixed factors and patient as a random factor. The unstructured covariance matrix for repeated observations within patients was used.||0.46|-0.16|0.342
82509798|NCT02365636|164712614|SUPERIORITY||LSM difference from placebo|0.2||||0.311|TWO_SIDED|95.0|-0.22|0.7||5% level of significance|mixed model for repeated measures|||Change from baseline at Week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.70|-0.22|0.311
82509799|NCT02365636|164712614|SUPERIORITY||LSM difference from placebo|0.3||||0.262|TWO_SIDED|95.0|-0.2|0.73||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.73|-0.20|0.262
82509800|NCT02365636|164712614|SUPERIORITY||LSM difference from placebo|0.5||||0.065|TWO_SIDED|95.0|-0.03|0.97||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.97|-0.03|0.065
82509801|NCT02365636|164712614|SUPERIORITY||LSM difference from placebo|0.3||||0.296|TWO_SIDED|95.0|-0.23|0.76||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.76|-0.23|0.296
82509802|NCT02365636|164712615|SUPERIORITY|||||||0.245||||||5% level of significance|Regression, Cox|||||||0.245
82509803|NCT02365636|164712615|SUPERIORITY|||||||0.304||||||5% level of significance|Regression, Cox|||||||0.304
82509804|NCT02365636|164712616|SUPERIORITY||LSM difference from placebo|-0.1||||0.556|TWO_SIDED|95.0|-0.61|0.33||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.33|-0.61|0.556
82509805|NCT02365636|164712616|SUPERIORITY||LSM difference from placebo|-0.2||||0.482|TWO_SIDED|95.0|-0.65|0.31||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.31|-0.65|0.482
82509806|NCT02365636|164712616|SUPERIORITY||LSM difference from placebo|-0.3||||0.333|TWO_SIDED|95.0|-0.81|0.28||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.28|-0.81|0.333
82630587|NCT00412113|164977518|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-47.27|||<|0.001||95.0|-63.37|-31.16||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TG at Week 4.||-31.16|-63.37|<0.001
82509807|NCT02365636|164712616|SUPERIORITY||LSM difference from placebo|-0.1||||0.833|TWO_SIDED|95.0|-0.62|0.5||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.50|-0.62|0.833
82509808|NCT02365636|164712617|SUPERIORITY||LSM difference from placebo|-0.2||||0.563|TWO_SIDED|95.0|-0.75|0.41||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.41|-0.75|0.563
82509809|NCT02365636|164712617|SUPERIORITY||LSM difference from placebo|-0.1||||0.804|TWO_SIDED|95.0|-0.64|0.5||5% level of significance|mixed model for repeated measures|||Change from baseline at week 2. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.50|-0.64|0.804
82378475|NCT01512160|164465484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|90.0|0.6|1.9||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.9|0.6|
82509810|NCT02365636|164712617|SUPERIORITY||LSM difference from placebo|0.1||||0.714|TWO_SIDED|95.0|-0.49|0.71||5% level of significance|mixed model for repeated measures|||Change from baseline at week 4 The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.71|-0.49|0.714
82509811|NCT02365636|164712617|SUPERIORITY||LSM difference from placebo|0.0||||0.871|TWO_SIDED|95.0|-0.64|0.55||5% level of siignificance|mixed model for repeated measures|||Change from baseline at week 4. The inferential model includes study center, week, treatment, and treatment by week interaction as the fixed factors; baseline as a covariate and unstructured variance-covariance structure in the initial model.||0.55|-0.64|0.871
82509812|NCT01454934|164712629|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.1343|TWO_SIDED|95.0|0.95|1.41||P-value was calculated from a 2-sided long-rank test stratified by histology, TPC option, and geographic region.|Log Rank||Hazard Ratio was based on a Cox regression model including treatment as covariate, and histology, TPC option and geographic region as strata.|OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||1.41|0.95|0.1343
82509813|NCT01454934|164712630|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.3946|TWO_SIDED|95.0|0.9|1.32||P-value was calculated from a 2-sided long-rank test stratified by histology, TPC option, and geographic region.|Log Rank||The hazard ratio was based on a Cox regression model including treatment as covariate, and histology, TPC option, and geographic region as strata.|OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||1.32|0.90|0.3946
82509814|NCT01454934|164712631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3034||||||The P-value was stratified by histology, TPC option, and geographic region.|Cochran-Mantel-Haenszel|||OS was compared between eribulin and TPC testing the following null hypothesis: H0: OS in Arm A (eribulin) is equal to OS in Arm B (TPC) against the alternative: H1: OS in Arm A (eribulin) is not equal to OS in Arm B (TPC).||||0.3034
82509815|NCT03354429|164712671|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.015|TWO_SIDED|95.0|0.71|0.96||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Cox||Placebo is the reference group (denominator)|||0.96|0.71|0.015
82509816|NCT03354429|164712672|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.004|TWO_SIDED|95.0|0.68|0.93||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Cox||Placebo is the reference group (denominator)|||0.93|0.68|0.004
82509817|NCT03354429|164712673|SUPERIORITY||Odds Ratio (OR)|0.98||||0.613|TWO_SIDED|95.0|0.89|1.07||The hypothesis was tested at the 4.996% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence was used to address the issue of multiple testing|Regression, Logistic|NIHSS (National Institutes of Health Stroke Scale) score and history of stroke (yes/no) included as covariates|Placebo is the reference group (denominator)|||1.07|0.89|0.613
82509818|NCT03354429|164712674|OTHER||Hazard Ratio (HR)|3.99||||0.001|TWO_SIDED|95.0|1.74|9.14|||Regression, Cox||Placebo is the reference group (denominator)|||9.14|1.74|0.001
82509819|NCT03354429|164712675|OTHER||Hazard Ratio (HR)|3.66||||0.005|TWO_SIDED|95.0|1.48|9.02|||Regression, Cox||Placebo is the reference group (denominator)|||9.02|1.48|0.005
82509820|NCT03354429|164712676|OTHER||Hazard Ratio (HR)|3.27|||<|0.001|TWO_SIDED|95.0|1.67|6.43|||Regression, Cox||Placebo is the reference group (denominator)|||6.43|1.67|<0.001
82567784|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Patient responded to tamsulosin-low dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||1.0000
82509821|NCT03354429|164712677|OTHER||Hazard Ratio (HR)|4.8|||<|0.001|TWO_SIDED|95.0|3.28|7.02|||Regression, Cox||Placebo is the reference group (denominator)|||7.02|3.28|<0.001
82377612|NCT03417778|164462612|OTHER|If the upper bound of the 2-sided 90% CIs of the GLSM ratio for Cmax of GS-829845 falls within the \[50%, 200%\] bound, the null hypothesis that participants with hepatic impairment exhibit Cmax change of at least 2-fold for GS-829845 compared with participants with normal liver function will be rejected.|GLSM Ratio|102.85|||||TWO_SIDED|90.0|60.12|175.98||||||An ANOVA model was fitted to the natural logarithmic transformed values of the Cmax. Two-sided 90% CI were calculated for the GLSM ratio of Cmax between hepatic impairment group versus the matched control (normal hepatic function) group.||175.98|60.12|
82567785|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||0.4925|||||||Fisher Exact|||Patient responded to tamsulosin-medium dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||0.4925
82509822|NCT02624284|164712678|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on latency to smoke. Age, sex, race, nicotine dependence, and pre-session craving for negative affect relief (QSU-B Factor 2) were included as covariates.||||||0.94|||||||Regression, Linear|||||||0.94
82509823|NCT02624284|164712679|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on number of cigarettes smoked. Age, sex, race, nicotine dependence, and pre-session craving for negative affect relief (QSU-B Factor 2) were included as covariates.||||||0.53|||||||Regression, Linear|||||||0.53
82509824|NCT02624284|164712681|SUPERIORITY|Analysis: Multiple regression predicting main effects of dose on days of abstinence. Age, sex, race and nicotine dependence were included as covariates.||||||0.78|||||||Regression, Linear|||||||0.78
82509825|NCT00357370|164712697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1898|||TWO_SIDED|95.0|-1.08|-0.32|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-0.32|-1.08|
82567786|NCT00796614|164845271|SUPERIORITY_OR_OTHER|||||||0.4977|||||||Fisher Exact|||Patient responded to tamsulosin-high dose (Right Kidney) was compared to placebo. Fisher's exact test was used for this analysis.||||0.4977
82567787|NCT00796614|164845272|SUPERIORITY_OR_OTHER|||||||0.1373|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.1373
82509826|NCT00357370|164712697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.1903|||TWO_SIDED|95.0|-1.16|-0.4|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-0.40|-1.16|
82509827|NCT00357370|164712698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.44|STANDARD_ERROR_OF_MEAN|11.4753|||TWO_SIDED|95.0|-38.37|7.48|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||7.48|-38.37|
82509828|NCT00357370|164712698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.44|STANDARD_ERROR_OF_MEAN|11.4574|||TWO_SIDED|95.0|-50.33|-4.55|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||-4.55|-50.33|
82567788|NCT00796614|164845272|SUPERIORITY_OR_OTHER|||||||0.744|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7440
82567789|NCT00796614|164845272|SUPERIORITY_OR_OTHER|||||||0.7703|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.7703
82567790|NCT00796614|164845273|SUPERIORITY_OR_OTHER|||||||0.0808|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.0808
82567791|NCT00796614|164845273|SUPERIORITY_OR_OTHER|||||||0.8244|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.8244
82630588|NCT00412113|164977519|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-51.21|||<|0.001||95.0|-56.88|-45.55||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in LDL at Week 6.||-45.55|-56.88|<0.001
82378476|NCT01512160|164465484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|90.0|0.7|2.4||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||2.4|0.7|
82509829|NCT00357370|164712702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|3.8302|||TWO_SIDED|95.0|-10.69|4.6|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||4.60|-10.69|
82509830|NCT00357370|164712702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52|STANDARD_ERROR_OF_MEAN|3.8291|||TWO_SIDED|95.0|-10.17|5.12|||||ANCOVA was applied. No formal statistical testing was performed to compare between treatment groups.|||5.12|-10.17|
82509831|NCT02402452|164712718|OTHER||Geometric Least-Square Mean(GLSM)Ratio %|172.92|||||TWO_SIDED|90.0|97.93|305.33||||||An analysis of variance (ANOVA) appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio of AUClast for the comparison groups using two 1-sided tests.||305.33|97.93|
82509832|NCT02402452|164712719|OTHER||GLSM Ratio (%)|171.27|||||TWO_SIDED|90.0|97.65|300.38||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUCinf for the comparison groups using two 1-sided tests.||300.38|97.65|
82509833|NCT02402452|164712720|OTHER||GLSM Ratio (%)|145.43|||||TWO_SIDED|90.0|83.77|252.48||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of Cmax for the comparison groups using two 1-sided tests.||252.48|83.77|
82509834|NCT02644967|164712722|OTHER|Estimation||||||0.0158||||||P-value of the overall response tested against the null rate of 11% based on 1-sided exact (Clopper-Pearson) test.|One-sided Clopper-Pearson test|||Testing the best overall confirmed response rate against the historical control rate of 0.11 (extracted from the literature review).||||0.0158
82509835|NCT02644967|164712723|OTHER|Estimation|Kaplan-Meier|5.06|||||TWO_SIDED|95.0|3.65|7.0|||||Kaplan-Meier estimate of median PFS in months.|||7.00|3.65|
82509836|NCT02644967|164712724|OTHER|Landmark analysis of overall survival at six (6) months.|Kaplan-Meier|87.5|||||TWO_SIDED|95.0|74.3|94.2|||||Kaplan-Meier estimate of percentage of participants surviving at six (6) months.|||94.2|74.3|
82509837|NCT02644967|164712725|OTHER|Landmark analysis of overall survival at twelve (12) months.|Kaplan-Meier|60.0|||||TWO_SIDED|95.0|44.7|72.4|||||Kaplan-Meier estimate of percentage of participants surviving at twelve (12) months.|||72.4|44.7|
82509838|NCT03746522|164712733|OTHER|||||||0.0006||||||P-value was one-sided and compared with alpha = 0.025.|Rubin's Rule|||||||0.0006
82509839|NCT03746522|164712734|OTHER|||||||0.0005||||||p-value was one-sided and compared with alpha = 0.025|Rubin's Rule|||||||0.0005
82509840|NCT03746522|164712735|OTHER||||||<|0.0001||||||p-value was one-sided and compared with alpha=0.025.|Rubin's Rule|||||||<0.0001
82567792|NCT00796614|164845273|SUPERIORITY_OR_OTHER|||||||0.5045|||||||ANCOVA|||ANCOVA model was used with age group, anti-cholinergic use, and geographic region as covariates. On treatment (OT) analyses approach was used.||||0.5045
82567793|NCT01231464|164845286|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.498|||<|0.0001|TWO_SIDED|95.0|-1.897|-1.009|||ANCOVA||Besides treatment, the ANCOVA analysis also adjusted for baseline, center, gender, age, and classification of AR (Intermittent Allergic Rhinitis \[IAR\] or Persistent Allergic Rhinitis \[PER\]).|||-1.009|-1.897|<0.0001
82567794|NCT02983877|164845289|SUPERIORITY||||||<|0.001|||||||Friedman test|3 degrees of freedom||||||<0.001
82567795|NCT02983877|164845290|SUPERIORITY||||||<|0.001|||||||ANOVA|3 degrees of freedom||||||<0.001
82567796|NCT02983877|164845291|SUPERIORITY||||||<|0.001|||||||Friedman test|3 degrees of freedom||||||<0.001
82567797|NCT02983877|164845292|SUPERIORITY|||||||0.89|||||||ANOVA|2 degrees of freedom||||||0.89
82630589|NCT00412113|164977520|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.02||||0.329||95.0|-3.07|1.03||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in HDL at Week 6.||1.03|-3.07|0.329
82630590|NCT00412113|164977521|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-62.07|||<|0.001||95.0|-68.49|-55.65||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline in TC at Week 6.||-55.65|-68.49|<0.001
82630591|NCT00412113|164977522|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-53.95|||<|0.001||95.0|-77.61|-30.29||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change in TG from baseline in at Week 6.||-30.29|-77.61|<0.001
82509841|NCT03746522|164712736|OTHER||||||<|0.0001||||||p-value was one-sided and compared with alpha = 0.025.|Rubin's Rule|||||||<0.0001
82509842|NCT05422053|164712754|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of Control-IQ Use (13 Weeks) compared to Control-IQ Start||||<0.001
82509843|NCT04382911|164712810|EQUIVALENCE|A 2x2 table was constructed among all patients with histopathologically identified endometriosis (true positive) to compare sensitivity for FES PET/MRI versus sensitivity of conventional MRI.||||||0.317|||||||McNemar|||||||0.317
82509844|NCT04382911|164712813|OTHER|A random effects linear regression model, modeling SUV-max as a function of the pain rating, while controlling for patient-level covariates (BMI, race, age) was performed. The investigators included physician as a random effect to account for physician-level correlation.|Slope|0.748||||0.24|TWO_SIDED||||||Pearson's Correlation Coefficient|||||||0.24
82509845|NCT04382911|164712813|OTHER|The investigators will implement a random effects linear regression model, modeling SUV-max as a function of EHP-30, while controlling for patient-level covariates (BMI, race, age). The investigators will include physician as a random effect to account for physician-level correlation.|Slope|0.406||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82523108|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.17|TWO_SIDED|95.0|-3.8|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||0.7|-3.8|0.1700
82523109|NCT00949884|164741502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2011|TWO_SIDED|95.0|-3.7|0.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||0.8|-3.7|0.2011
82523110|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.1895|TWO_SIDED|95.0|-7.0|1.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.4|-7.0|0.1895
82523111|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.2701|TWO_SIDED|95.0|-6.5|1.8|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour systolic blood pressure||1.8|-6.5|0.2701
82523112|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.1328|TWO_SIDED|95.0|-5.2|0.7|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.7|-5.2|0.1328
82523113|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1778|TWO_SIDED|95.0|-4.9|0.9|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||2 hour diastolic blood pressure||0.9|-4.9|0.1778
82523114|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.062|TWO_SIDED|95.0|-7.3|0.2|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||0.2|-7.3|0.0620
82523115|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.1011|TWO_SIDED|95.0|-6.9|0.6|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour systolic blood pressure||0.6|-6.9|0.1011
82523116|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.0249|TWO_SIDED|95.0|-5.6|-0.4|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||-0.4|-5.6|0.0249
82523117|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.0497|TWO_SIDED|95.0|-5.2|0.0|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||4 hour diastolic blood pressure||0.0|-5.2|0.0497
82523118|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0552|TWO_SIDED|95.0|-7.1|0.1|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||0.1|-7.1|0.0552
82523119|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.0767|TWO_SIDED|95.0|-6.8|0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour systolic blood pressure||0.3|-6.8|0.0767
82523120|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.0279|TWO_SIDED|95.0|-5.3|-0.3|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||-0.3|-5.3|0.0279
82523121|NCT00949884|164741503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.0434|TWO_SIDED|95.0|-5.0|-0.1|||ANCOVA|Treatment was a fixed effect and baseline mean daytime and nighttime ABPM blood pressure was a covariate.||6 hour diastolic blood pressure||-0.1|-5.0|0.0434
82523122|NCT00949884|164741504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0009|TWO_SIDED|95.0|-6.8|-1.8|||ANCOVA|Treatment is a fixed effect and baseline blood pressure is a covariate.||Diastolic blood pressure||-1.8|-6.8|0.0009
82523123|NCT00949884|164741504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.5|-4.7|||ANCOVA|Treatment is a fixed effect and baseline blood pressure is a covariate.||Systolic blood pressure||-4.7|-12.5|<0.0001
82523124|NCT02293395|164741527|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.584|TWO_SIDED|95.0|0.8|1.5|||Log Rank|||||1.5|0.8|0.584
82523125|NCT01023568|164741538|NON_INFERIORITY_OR_EQUIVALENCE|The GlideScope and Truview PCD video laryngoscopes were individually assessed for non-inferiority on time to intubation vs direct laryngoscopy at the 0.025 significance level using an a priori specified non-inferiority delta of seven seconds (about 40% of the expected standard deviation of 18 sec and not thought to be clinically important).|Median Difference (Final Values)|14.0|||>|0.99|TWO_SIDED|95.0|7.0|26.0|||Wilcoxon (Mann-Whitney)||Glidescope - direct laryngoscopy|||26|7|>0.99
82509846|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was a difference between Settings 1 and 2.|Slope|-0.0099|STANDARD_ERROR_OF_MEAN|0.01572||0.5291|TWO_SIDED|95.0|-0.04075|0.02095||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 1 is significantly different from the slope for Setting 2|||0.02095|-0.04075|0.5291
82509847|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was a difference between Setting 2 and Setting 3.|Slope|0.1329|STANDARD_ERROR_OF_MEAN|0.0174|<|0.001|TWO_SIDED|95.0|0.0988|0.1671||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 3 is significantly different from the slope for Setting 2|||0.1671|0.09880|<0.001
82509848|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was a difference between Setting 2 and Setting 4.|Slope|0.2016|STANDARD_ERROR_OF_MEAN|0.01812|<|0.0001|TWO_SIDED|95.0|0.166|0.2371||The a priori threshold for statistical significance was 0.05. P-value was adjusted for multiple comparisons using the Bonferroni correction.|Mixed Models Analysis||Setting 2 was considered as the reference and the estimate reflects whether the slope for Setting 4 is significantly different from the slope for Setting|||0.2371|0.1660|<.0001
82509849|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)||||0.242
82567798|NCT01960348|164845297|SUPERIORITY||Least Squares Mean Difference|-33.99|STANDARD_ERROR_OF_MEAN|2.974|<|1e-07|TWO_SIDED|95.0|-39.86|-28.13||P=9.262E-24|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in mNIS+7. The model includes baseline mNIS+7 score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-28.13|-39.86|<0.0000001
82567799|NCT01960348|164845298|SUPERIORITY||Least Squares Mean Difference|-21.1|STANDARD_ERROR_OF_MEAN|3.1|<|1e-07|TWO_SIDED|95.0|-27.2|-15.0||P=1.103E-10|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in Norfolk QOL-DN total score. The model includes baseline Norfolk QOL-DN score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-15.0|-27.2|<0.0000001
82567800|NCT01960348|164845299|SUPERIORITY||Least Squares Mean Difference|-17.87|STANDARD_ERROR_OF_MEAN|2.254|<|1e-07|TWO_SIDED|95.0|-22.32|-13.43||P=1.404E-13|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in NIS-W. The model includes baseline NIS-W score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-13.43|-22.32|<0.0000001
82377613|NCT02652949|164462620|SUPERIORITY||Event rate|0.023|||<|0.0001|ONE_SIDED|97.5||0.081|||Exact binomial test|||"The primary study endpoint, major device effect at 30 days, is a dichotomous study outcome; hence, an exact method based on the binomial distribution was used for the hypothesis testing. The primary study endpoint was tested against a performance goal of 16%:~H0: p ≥ 16% vs. Ha: p \<16%, where p denotes the true event rate of primary study endpoint in the target population."||0.081||<0.0001
82509850|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after controlling for age and degree of hearing loss (decibel hearing level)||||0.242
82509851|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).||||0.242
82509852|NCT04521166|164712814|OTHER|A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).|Slope|0.002||||0.242|TWO_SIDED|||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||A linear mixed model was used to assess whether there was an effect of working memory on the primary outcome measure (speech intelligibility) after accounting for age and degree of hearing loss (decibel hearing level).||||0.242
82509853|NCT02614547|164712815|SUPERIORITY||Least Squares Mean Difference|-12.22|STANDARD_ERROR_OF_MEAN|4.081||0.008|TWO_SIDED|95.0|-20.77|-3.67|||MMRM|||Mixed Effects Model for Repeated Measure (MMRM) used an unstructured covariance model time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-3.67|-20.77|0.008
82509854|NCT02614547|164712816|SUPERIORITY||Odds Ratio (OR)|4.08||||0.198|TWO_SIDED|95.0|0.49|37.67|||Fisher Exact|||60 Hours||37.67|0.49|0.198
82509855|NCT02614547|164712816|SUPERIORITY||Odds Ratio (OR)|16.0||||0.023|TWO_SIDED|95.0|1.31|239.57|||Fisher Exact|||Day 7||239.57|1.31|0.023
82509856|NCT02614547|164712816|SUPERIORITY||Odds Ratio (OR)|6.22||||0.086|TWO_SIDED|95.0|0.7|62.08|||Fisher Exact|||Day 30||62.08|0.70|0.086
82509857|NCT02614547|164712817|SUPERIORITY||Odds Ratio (OR)|23.33||||0.008|TWO_SIDED|95.0|1.56|1152.71|||Fisher Exact|||60 Hours||1152.71|1.56|0.008
82509858|NCT02614547|164712817|SUPERIORITY|||||||0.003|||||||Fisher Exact|||Day 7||||0.003
82509859|NCT02614547|164712817|SUPERIORITY||Odds Ratio (OR)|10.5||||0.03|TWO_SIDED|95.0|1.01|140.57|||Fisher Exact|||Day 30||140.57|1.01|0.030
82567801|NCT01960348|164845300|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|1.01|<|1e-07|TWO_SIDED|95.0|7.0|10.9||P=4.066E-16|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in R-ODS value. The model includes baseline R-ODS score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||10.9|7.0|<0.0000001
82509860|NCT02614547|164712818|SUPERIORITY||Least Squares Mean Difference|-15.86|STANDARD_ERROR_OF_MEAN|5.536||0.01|TWO_SIDED|95.0|-27.5|-4.22|||MMRM|||60 Hours: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.22|-27.50|0.010
82509861|NCT02614547|164712818|SUPERIORITY||Least Square Mean Difference|-15.96|STANDARD_ERROR_OF_MEAN|5.448||0.009|TWO_SIDED|95.0|-27.43|-4.5|||MMRM|||Day 7: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.50|-27.43|0.009
82509862|NCT02614547|164712818|SUPERIORITY||Least Square Mean Difference|-15.07|STANDARD_ERROR_OF_MEAN|5.213||0.01|TWO_SIDED|95.0|-26.05|-4.09|||MMRM|||Day 30: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment||-4.09|-26.05|0.010
82509863|NCT02614547|164712819|SUPERIORITY||Odds Ratio (OR)|7.0||||0.08|TWO_SIDED|95.0|0.73|90.81|||Fisher Exact|||60 Hours||90.81|0.73|0.080
82567802|NCT01960348|164845301|SUPERIORITY||Least Squares Mean Difference|0.311|STANDARD_ERROR_OF_MEAN|0.0415|<|1e-07|TWO_SIDED|95.0|0.23|0.393||P=1.875E-12|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in 10-meter walk test result. The model includes baseline 10-meter walk test result as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||0.393|0.230|<0.0000001
82630592|NCT00412113|164977523|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.4|||<|0.001||95.0|-3.1|-1.7||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in mean change from baseline to Week 4 in Framingham predicted absolute 10-year risk.||-1.7|-3.1|<0.001
82377614|NCT03852537|164462682|SUPERIORITY|||||||0.494|||||||Fisher Exact|||||||0.494
82377615|NCT03852537|164462683|SUPERIORITY|||||||0.666|||||||Fisher Exact|||||||0.666
82509864|NCT02614547|164712819|SUPERIORITY||Odds Ratio (OR)|16.0||||0.023|TWO_SIDED|95.0|1.31|239.57|||Fisher Exact|||Day 7||239.57|1.31|0.023
82509865|NCT02614547|164712819|SUPERIORITY||Odds Ratio (OR)|10.67||||0.03|TWO_SIDED|95.0|1.04|142.2|||Fisher Exact|||Day 30||142.20|1.04|0.030
82509866|NCT02614547|164712820|SUPERIORITY||Least Squares Mean Difference|-6.05|STANDARD_ERROR_OF_MEAN|2.466||0.025|TWO_SIDED|95.0|-11.24|-0.86|||MMRM|||60 Hours: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-0.86|-11.24|0.025
82509867|NCT02614547|164712820|SUPERIORITY||Least Squares Mean Difference|-6.46|STANDARD_ERROR_OF_MEAN|2.427||0.016|TWO_SIDED|95.0|-11.57|-1.34|||MMRM|||Day 7: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-1.34|-11.57|0.016
82509868|NCT02614547|164712820|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|2.568||0.018|TWO_SIDED|95.0|-12.25|-1.35|||MMRM|||Day 30: MMRM used an unstructured covariance model for time points within participant. Fixed effects were treatment, baseline total score, assessment time point, and time point-by-treatment.||-1.35|-12.25|0.018
82509869|NCT02614547|164712822|SUPERIORITY||Least Squares Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|2.461||0.457|TWO_SIDED|95.0|-3.3|7.04|||ANCOVA|||60 Hours||7.04|-3.30|0.457
82509870|NCT02614547|164712822|SUPERIORITY||Least Square Mean|-1.47|STANDARD_ERROR_OF_MEAN|-1.47||0.613|TWO_SIDED|95.0|-7.5|4.55|||ANCOVA|||Day 7||4.55|-7.50|0.613
82509871|NCT02614547|164712822|SUPERIORITY||Least Square Mean|-2.1|STANDARD_ERROR_OF_MEAN|2.871||0.474|TWO_SIDED|95.0|-8.13|3.93|||ANCOVA|||Day 30||3.93|-8.13|0.474
82509872|NCT01120210|164712826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.0595|TWO_SIDED|90.0|-0.016|0.564|||ANCOVA|one-sided p-value and one-sided alpha=0.05||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 5 ng/kg/min dose.||0.564|-0.016|0.0595
82509873|NCT01120210|164712826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.0215|TWO_SIDED|90.0|0.064|0.595||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 15 ng/kg/min dose.||0.595|0.064|0.0215
82377616|NCT03852537|164462684|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82377617|NCT03852537|164462686|SUPERIORITY|||||||0.477|||||||Fisher Exact|||||||0.477
82377618|NCT03852537|164462687|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.000
82509874|NCT01120210|164712826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.0049|TWO_SIDED|90.0|0.214|0.921||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in cardiac index (CI) at the end of the 30 ng/kg/min dose.||0.921|0.214|0.0049
82509875|NCT01120210|164712827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.4729|TWO_SIDED|90.0|-2.312|2.131||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 5 ng/kg/min dose.||2.131|-2.312|0.4729
82509876|NCT01120210|164712827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.2123|TWO_SIDED|90.0|-4.164|1.464||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 15 ng/kg/min dose.||1.464|-4.164|0.2123
82509877|NCT01120210|164712827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.58||||0.0821|TWO_SIDED|90.0|-5.639|0.483||one-sided p-value and one-sided alpha=0.05|ANCOVA|||90% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in pulmonary capillary wedge pressure (PCWP) at the end of the 30 ng/kg/min dose.||0.483|-5.639|0.0821
82509878|NCT01120210|164712828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.7682|TWO_SIDED|95.0|-2.527|1.879||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 5 ng/kg/min dose.||1.879|-2.527|0.7682
82509879|NCT01120210|164712828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.4107|TWO_SIDED|95.0|-1.764|4.235||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 15 ng/kg/min dose.||4.235|-1.764|0.4107
82509880|NCT01120210|164712828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16||||0.1811|TWO_SIDED|95.0|-1.046|5.372||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in heart rate (HR) at the end of the 30 ng/kg/min dose.||5.372|-1.046|0.1811
82509881|NCT01120210|164712829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.803|TWO_SIDED|95.0|-6.06|4.718||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 5 ng/kg/min dose.||4.718|-6.060|0.8030
82567803|NCT01960348|164845302|SUPERIORITY||Least Squares Mean Difference|115.7|STANDARD_ERROR_OF_MEAN|16.91|<|1e-07|TWO_SIDED|95.0|82.4|149.0||P=8.832E-11|Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in mBMI. The model includes baseline mBMI as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||149.0|82.4|<0.0000001
82567804|NCT01960348|164845303|SUPERIORITY||Least Squares Mean Difference|-7.53|STANDARD_ERROR_OF_MEAN|2.213||0.0008|TWO_SIDED|95.0|-11.89|-3.16|||Mixed-effect Model Repeated Measures|||In the mixed-effect model repeated measures (MMRM) model, the outcome variable is change from baseline in COMPASS-31 total score. The model includes baseline COMPASS-31 score as covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline NIS, genotype, age at hATTR symptom onset, previous tetramer stabilizer use and region.||-3.16|-11.89|0.0008
82567805|NCT01580995|164845304|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82377619|NCT03852537|164462688|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82377620|NCT03852537|164462689|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
82509882|NCT01120210|164712829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.4923|TWO_SIDED|95.0|-7.781|3.801||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 15 ng/kg/min dose.||3.801|-7.781|0.4923
82509883|NCT01120210|164712829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77||||0.3152|TWO_SIDED|95.0|-11.251|3.708||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in systolic blood pressure (SBP) at the end of the 30 ng/kg/min dose.||3.708|-11.251|0.3152
82509884|NCT01120210|164712830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36||||0.1561||95.0|-8.047|1.331||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 5 ng/kg/min dose.||1.331|-8.047|0.1561
82509885|NCT01120210|164712830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55||||0.0282|TWO_SIDED|95.0|-10.482|-0.622||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 15 ng/kg/min dose.||-0.622|-10.482|0.0282
82509886|NCT01120210|164712830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.08||||0.0043|TWO_SIDED|95.0|-11.818|-2.332||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in diastolic blood pressure (DBP) at the end of the 30 ng/kg/min dose.||-2.332|-11.818|0.0043
82509887|NCT01120210|164712831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.9769|TWO_SIDED|95.0|-16.347|16.823||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in left ventricular end systolic volume (LVESV) at the end of the 30 ng/kg/min dose.||16.823|-16.347|0.9769
82509888|NCT01120210|164712832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.98||||0.8297|TWO_SIDED|95.0|-16.592|20.551||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in LVEDV at the end of the 30 ng/kg/min dose.||20.551|-16.592|0.8297
82509889|NCT01120210|164712833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.865|TWO_SIDED|95.0|-3.352|3.968||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in LVEF at the end of the 30 ng/kg/min dose.||3.968|-3.352|0.8650
82509890|NCT01120210|164712834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95||||0.3748|TWO_SIDED|95.0|-1.204|3.102||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in FS at the end of the 30 ng/kg/min dose.||3.102|-1.204|0.3748
82509891|NCT01120210|164712835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.08||||0.2123|TWO_SIDED|95.0|-4.198|18.359||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 5 ng/kg/min dose.||18.359|-4.198|0.2123
82377621|NCT03852537|164462690|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82377622|NCT03852537|164462692|SUPERIORITY|||||||0.213|||||||Chi-squared|||||||0.213
82509892|NCT01120210|164712835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.78||||0.1083|TWO_SIDED|95.0|-2.016|19.575||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 15 ng/kg/min dose.||19.575|-2.016|0.1083
82567806|NCT03511378|164845352|NON_INFERIORITY|Non-inferiority was assessed using a margin of -0.10|Difference in proportions|-0.0296||||0.007|ONE_SIDED|95.0|-0.076||||Difference in proportion|Binomial proportion used to present difference in proportion in treatments||Analysis population : ITT|||-0.076|0.007
82509893|NCT01120210|164712835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.16||||0.018|TWO_SIDED|95.0|2.557|25.771||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 30 ng/kg/min dose.||25.771|2.557|0.0180
82509894|NCT01120210|164712836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.4841|TWO_SIDED|95.0|-5.308|2.554||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PASP at the end of the 5 ng/kg/min dose.||2.554|-5.308|0.4841
82509895|NCT01120210|164712836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.6665|TWO_SIDED|95.0|-5.567|3.594||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SV at the end of the 15 ng/kg/min dose.||3.594|-5.567|0.6665
82509896|NCT01120210|164712836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.6904|TWO_SIDED|95.0|-4.107|6.148||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PASP at the end of the 30 ng/kg/min dose.||6.148|-4.107|0.6904
82567807|NCT03511378|164845353|NON_INFERIORITY|Noninferiority is assessed using a margin of 10 percentage points.|Difference in proportions|0.0145|||<|0.001|ONE_SIDED|95.0|-0.0092||||Difference in proportion||Difference of proportion analysed with one sided 95% confidence interval|Analysis population: ITT|||-0.0092|<0.001
82567808|NCT02762500|164845356|SUPERIORITY||Risk Difference (RD)|-8.1||||0.106|TWO_SIDED|90.0|-18.6|2.5||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||2.5|-18.6|0.106
82567809|NCT02762500|164845357|SUPERIORITY||Risk Difference (RD)|-8.1||||0.106|TWO_SIDED|90.0|-18.6|2.5||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||2.5|-18.6|0.106
82567810|NCT02762500|164845358|SUPERIORITY||Risk Difference (RD)|-6.5||||0.235|TWO_SIDED|90.0|-21.1|8.2||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||8.2|-21.1|0.235
82567811|NCT02762500|164845359|SUPERIORITY||Risk Difference (RD)|-9.7||||0.14|TWO_SIDED|90.0|-24.3|5.0||one-sided p-value|Chi-squared|Statistical test was a one-sided performed at the 5% level of significance. Pearson chi-square test was used to test the null hypothesis.|90% CI obtained based on normal approximation.|The response rate difference is the mean difference in response rates between the treatment and placebo responders. The p-value is based on one-sided Pearson chi-square test.||5.0|-24.3|0.140
82509897|NCT01120210|164712837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.6304|TWO_SIDED|95.0|-2.197|3.588||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 5 ng/kg/min dose.||3.588|-2.197|0.6304
82509898|NCT01120210|164712837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.842|TWO_SIDED|95.0|-3.851|3.153||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 15 ng/kg/min dose.||3.153|-3.851|0.8420
82509899|NCT01120210|164712837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.6658|TWO_SIDED|95.0|-4.138|2.669||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in PADP at the end of the 30 ng/kg/min dose.||2.669|-4.138|0.6658
82509900|NCT01120210|164712838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-264.36||||0.051|TWO_SIDED|95.0|-529.875|1.147||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 5 ng/kg/min dose.||1.147|-529.875|0.0510
82377623|NCT04345913|164462726|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.5259|||||||Log Rank|||||||0.5259
82509901|NCT01120210|164712838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-383.32||||0.0006|TWO_SIDED|95.0|-592.781|-173.867||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 15 ng/kg/min dose.||-173.867|-592.781|0.0006
82509902|NCT01120210|164712838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-527.77||||0.0001|TWO_SIDED|95.0|-764.07|-291.478||two-sided p-value and two-sided alpha=0.05|ANCOVA|||95% confidence intervals and p values represent the placebo-subtracted LS mean change from baseline in SVR at the end of the 30 ng/kg/min dose.||-291.478|-764.070|0.0001
82509903|NCT05320029|164712843|NON_INFERIORITY|If the two-side 95%CI limit of the difference between the two groups is greater than the non-inferiority margin of -10%, the non-inferiority hypothesis of this study is valid|Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.0458|0.0458|||Newcombe-Wilson|||||0.0458|-0.0458|<0.05
82509904|NCT04697628|164712858|SUPERIORITY||Cox Proportional Hazard|0.7||||0.0038|TWO_SIDED|95.0|0.54|0.89||Two-sided p-value calculated from stratified log-rank test.|Stratified log-rank test||Hazard Ratio (HR) was calculated from Cox proportional hazards model and Efron method was used in handling ties and computed using stratification factors at randomization.|||0.89|0.54|0.0038
82509905|NCT04697628|164712859|SUPERIORITY||Cox Proportional Hazard|0.67|||<|0.0001|TWO_SIDED|95.0|0.54|0.82||Two-sided p-value calculated from stratified log-rank test.|Stratified log-rank test||HR was calculated from Cox proportional hazards model and Efron method was used in handling ties and computed using stratification factors at randomization.|||0.82|0.54|<0.0001
82567812|NCT02762500|164845360|SUPERIORITY||Mean Difference (Final Values)|-44.59||||0.032|TWO_SIDED|90.0|-78.66|-10.53|||ANCOVA|The mean change from baseline at Week 8 was analyzed using ANCOVA with a factor for treatment and a covariate for baseline scores.||Subjects included in this analysis were those with a baseline fecal calprotectin value ≥ 250 µg/g.||-10.53|-78.66|0.032
82509906|NCT04697628|164712860|SUPERIORITY||Odds Ratio (OR)|4.0|||<|0.0001|TWO_SIDED|95.0|2.1|7.6|||Cochran-Mantel-Haenszel||OR calculated using Cochran-Mantel-Haenszel (CMH) method controlling for stratification factors at randomization.|||7.6|2.1|<0.0001
82509907|NCT00393939|164712873|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9222||||0.2651|TWO_SIDED|95.0|0.7156|1.1885||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||Independent radiology assessment||1.1885|0.7156|0.2651
82509908|NCT00393939|164712873|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856||||0.0753|TWO_SIDED|95.0|0.6921|1.0589||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||Investigator's assessment||1.0589|0.6921|0.0753
82509909|NCT00393939|164712874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0018|TWO_SIDED|95.0|1.17|2.33||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Cochran-Mantel-Haenszel|||Independent radiology assessment||2.33|1.17|0.0018
82509910|NCT00393939|164712874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0172|TWO_SIDED|95.0|1.03|2.02||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Cochran-Mantel-Haenszel|||Investigator's assessment||2.02|1.03|0.0172
82509911|NCT00393939|164712876|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1539||||0.8933|TWO_SIDED|95.0|0.9209|1.4458||1-sided stratified log-rank test adjusted for baseline stratification factors (number of metastatic sites, estrogen receptor status, and disease-free interval from prior adjuvant treatment)|Log Rank|||||1.4458|0.9209|0.8933
82567813|NCT02762500|164845361|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.708|TWO_SIDED|90.0|-0.6|0.95|||ANCOVA|The mean change from baseline at Week 8 was analyzed using ANCOVA with a factor for treatment and a covariate for baseline scores.||||0.95|-0.60|0.708
82630593|NCT00412113|164977524|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.8|||<|0.001||95.0|-3.5|-2.1||No adjustment for p-value for secondary analyses|ANCOVA|||Null hypothesis: There is no difference between the two treatment management strategies in the mean change from baseline to Week 6 in Framingham predicted absolute 10-year risk.||-2.1|-3.5|<0.001
82630594|NCT00864123|164977525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_DEVIATION|6.3|<|0.05||95.0|||||ANOVA|||Data were analyzed with separate 2 (site: Florida, MGH) by 2 (condition: CBT+DCS, CBT+Placebo) by 3 (time: pre-treatment, mid-treatment, post-treatment; Dependent variables: CY-BOCS Total Score) fixed-effects linear regression with time as the repeated measure. Cohen's d was used to examine the magnitude of treatment effects.||||<0.05
82509912|NCT01495585|164712937|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||Student t-test was used on the change in serum log HDV RNA after 28 days of therapy with lonafarnib.||||0.03
82509913|NCT01495585|164712937|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Student t-test was used on the change in serum log HDV RNA after 28 days of therapy with lonafarnib.||||<0.0001
82509914|NCT01495585|164712938|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82377624|NCT04345913|164462731|OTHER|This test is used to compare the survival distributions of different groups in a survival analysis. It's a nonparametric test.||||||0.706|||||||Log Rank|||||||0.7060
82509915|NCT01495585|164712938|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
82509916|NCT03925727|164712979|SUPERIORITY||Mean Difference (Net)|1.4||||0.5533|TWO_SIDED|95.0|-3.2|6.0|||ANCOVA|||||6|-3.2|0.5533
82509917|NCT03925727|164712980|SUPERIORITY||Mean Difference (Net)|-0.6||||0.0192|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||||-0.1|-1.1|0.0192
82509918|NCT00653224|164713009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||95.0|-1.33|-0.45||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis for the primary endpoint is expressed as follows: 'The mean 24-hr reflective T5SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.33|<0.001
82377625|NCT01406444|164462809|SUPERIORITY|||||||0.03|||||||Linear random effects model|||||||0.03
82509919|NCT00653224|164713010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.52|<0.001
82509920|NCT00653224|164713011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|||<|0.001||95.0|-0.47|-0.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.15|-0.47|<0.001
82377626|NCT01406444|164462810|SUPERIORITY|||||||0.002|||||||Linear random effects model|||||||0.002
82509921|NCT00653224|164713012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.52|<0.001
82630595|NCT00864123|164977526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|1.1|<|0.05|TWO_SIDED|95.0|||||ANOVA|||Data were analyzed with separate 2 (site: Florida, MGH) by 2 (condition: CBT+DCS, CBT+Placebo) by 3 (time: pre-treatment, mid-treatment, post-treatment; Dependent variables: CGI-Severity) fixed-effects linear regression with time as the repeated measure. Cohen's d was used to examine the magnitude of treatment effects.||||<0.05
82630596|NCT01320033|164977545|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.006|TWO_SIDED|95.0|-6.1|-1.1|||ANCOVA|||||-1.1|-6.1|0.006
82630597|NCT01320033|164977545|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.024|TWO_SIDED|95.0|-5.4|-0.4|||ANCOVA|||||-0.4|-5.4|0.024
82630598|NCT01320033|164977545|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.595|TWO_SIDED|95.0|-3.2|1.8|||ANCOVA|||||1.8|-3.2|0.595
82630599|NCT02045979|164977552|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 percent (%).|ratio of the geometric means|108.62|||||TWO_SIDED|90.0|98.5|119.79|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||119.79|98.50|
82630600|NCT02045979|164977552|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|101.27|||||TWO_SIDED|90.0|92.45|110.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||110.94|92.45|
82630601|NCT02045979|164977552|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|94.02|||||TWO_SIDED|90.0|86.01|102.78|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.78|86.01|
82630602|NCT02045979|164977553|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|107.32|||||TWO_SIDED|90.0|98.49|116.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||116.94|98.49|
82630603|NCT02045979|164977553|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|99.93|||||TWO_SIDED|90.0|92.15|108.37|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||108.37|92.15|
82630604|NCT02045979|164977553|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|93.66|||||TWO_SIDED|90.0|86.76|101.11|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.11|86.76|
82630605|NCT02045979|164977554|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|100.85|||||TWO_SIDED|90.0|95.15|106.88|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||106.88|95.15|
82630606|NCT02045979|164977554|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|96.39|||||TWO_SIDED|90.0|91.06|102.03|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.03|91.06|
82630607|NCT02045979|164977554|NON_INFERIORITY_OR_EQUIVALENCE|PK similarity of the two treatments was to be concluded if the 90% CI for the ratio of adjusted geometric means was within 80.00 - 125.00 %.|ratio of the geometric means|95.93|||||TWO_SIDED|90.0|90.83|101.33|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.33|90.83|
82630608|NCT02045979|164977555|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% Confidence Interval (CI) for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.3|||||TWO_SIDED|90.0|91.54|105.55|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.55|91.54|
82630609|NCT02045979|164977555|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|96.05|||||TWO_SIDED|90.0|89.27|103.36|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.36|89.27|
82630610|NCT02045979|164977555|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.11|||||TWO_SIDED|90.0|91.42|105.27|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.27|91.42|
82509922|NCT00653224|164713013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.042||95.0|-0.49|-0.01||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.01|-0.49|0.042
82567814|NCT00637247|164845461|SUPERIORITY_OR_OTHER|||||||0.2|||||||Log Rank|||The hypothesis that survival curves were equal in the two treatment groups was tested with a one-sided logrank test at the alpha-0.2 level, one sided. The power of this test is 80% for detecting the hypothesized increase in median survival of 2.4 months for subjects in the experimental arm.||||0.2
82567815|NCT00871143|164845480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||An alpha level of .05 (two-sided) was set.|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable scores.||||<.001
82567816|NCT00871143|164845480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and week 12||||<.001
82567817|NCT00871143|164845480|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of Type 1 error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between between baseline and 1 month follow up||||< .001
82567818|NCT00871143|164845480|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and week 12||||<.01
82567819|NCT00871143|164845480|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease risk of type I error|t-test, 2 sided|||Investigating the difference in BDD YBOCS score between baseline and 1 month follow up||||< 0.05
82567820|NCT00871143|164845481|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable scores.||||<.05
82567821|NCT00871143|164845481|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 12 week measures||||<0.01
82567822|NCT00871143|164845481|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were implemented to adjust for type I error|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 1 month follow up.||||< 0.001
82567823|NCT00871143|164845481|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 12 week assessment measures and baseline and 1 month follow up measures.||||>0.05
82567824|NCT00871143|164845481|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||T-tests were used to investigate significant differences between baseline and 1 month follow up measures.||||>0.05
82567825|NCT00871143|164845482|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||A Linear mixed model was conducted to determine the predictive value of treatment group and/or time on the outcome variable MADRS scores.||||>0.05
82567826|NCT00871143|164845482|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and week 12.||||<0.01
82567827|NCT00871143|164845482|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferonni corrections used to reduce risk of type I error|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and 1 month follow up.||||>0.05
82567828|NCT00871143|164845482|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and week 12.||||>0.05
82567829|NCT00871143|164845482|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections used to decrease risk of type I error|t-test, 2 sided|||Investigating the difference in MADRS score between baseline and 1 month follow up.||||> 0.05
82567830|NCT00871143|164845483|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 (two-sided) was set.|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the outcome variable of AAI scores.||||<0.05
82567831|NCT00871143|164845483|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were applied to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 12 week .||||<0.001
82567832|NCT00871143|164845483|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type 1 error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 2 month follow up.||||< 0.001
82567833|NCT00871143|164845483|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni Correction was used in an attempt to reduce risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 12 week .||||<0.05
82377627|NCT01406444|164462810|SUPERIORITY|||||||0.04|||||||Linear random effects model|||||||0.04
82567834|NCT00871143|164845483|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to adjust for type 1 error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences in AAI scores occurred from baseline to 2 month follow up.||||>0.05
82630611|NCT02045979|164977556|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|99.61|||||TWO_SIDED|90.0|93.66|105.94|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||105.94|93.66|
82630612|NCT02045979|164977556|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.19|||||TWO_SIDED|90.0|91.39|103.35|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.35|91.39|
82630613|NCT02045979|164977556|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.97|||||TWO_SIDED|90.0|92.58|103.68|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.68|92.58|
82630614|NCT02045979|164977557|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|101.23|||||TWO_SIDED|90.0|95.45|107.36|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||107.36|95.45|
82630615|NCT02045979|164977557|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.83|||||TWO_SIDED|90.0|93.27|104.72|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||104.72|93.27|
82630616|NCT02045979|164977557|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|98.01|||||TWO_SIDED|90.0|93.15|103.11|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||103.11|93.15|
82630617|NCT02045979|164977558|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|103.68|||||TWO_SIDED|90.0|97.47|110.29|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||110.29|97.47|
82630618|NCT02045979|164977558|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|100.16|||||TWO_SIDED|90.0|94.37|106.29|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||106.29|94.37|
82630619|NCT02045979|164977558|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|97.02|||||TWO_SIDED|90.0|92.07|102.24|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.24|92.07|
82630620|NCT02045979|164977559|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|106.57|||||TWO_SIDED|90.0|99.07|114.63|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||114.63|99.07|
82630621|NCT02045979|164977559|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|100.94|||||TWO_SIDED|90.0|94.24|108.12|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||108.12|94.24|
82630622|NCT02045979|164977559|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|95.37|||||TWO_SIDED|90.0|89.53|101.6|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||101.60|89.53|
82630623|NCT02045979|164977560|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|108.7|||||TWO_SIDED|90.0|98.54|119.9|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||119.90|98.54|
82377628|NCT01906515|164462828|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82377629|NCT01906515|164462829|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82567835|NCT00871143|164845484|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on the PHQ-9 score.||||>0.05
82509923|NCT00653224|164713014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.014||95.0|-0.52|-0.06||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.52|0.014
82509924|NCT00653224|164713015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.036||95.0|-0.51|-0.02||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ activities score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ activities score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ activities score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.02|-0.51|0.036
82509925|NCT00653224|164713016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.01||95.0|-0.48|-0.07||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.07|-0.48|0.010
82509926|NCT00653224|164713017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.026||95.0|-0.43|-0.03||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.03|-0.43|0.026
82509927|NCT00653224|164713018|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25||||0.018||95.0|-0.45|-0.04||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ sleep score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ sleep score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ sleep score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.04|-0.45|0.018
82567836|NCT00871143|164845484|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Where more than 1 t test had been conducted on each variable, a Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to end of treatment (12 weeks).||||<0.05
82509928|NCT00653224|164713019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.002||95.0|-0.47|-0.1||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.47|0.002
82378477|NCT01512160|164465484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|90.0|0.4|1.3||||||HR estimates of the treatment difference along with 90% CI were based Cox proportional hazards model including treatment and baseline pain intensity as fixed effects.||1.3|0.4|
82523126|NCT01023568|164741538|NON_INFERIORITY_OR_EQUIVALENCE|The GlideScope and Truview PCD video laryngoscopes were individually assessed for non-inferiority on time to intubation vs direct laryngoscopy at the 0.025 significance level using an a priori specified non-inferiority delta of seven seconds (about 40% of the expected standard deviation of 18 sec and not thought to be clinically important).|Median Difference (Final Values)|17.0|||>|0.99|TWO_SIDED|95.0|6.0|28.0|||Wilcoxon (Mann-Whitney)||Truview PCD - direct laryngoscopy|||28|6|>0.99
82523127|NCT01023568|164741539|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANOVA|||||||0.28
82523128|NCT01023568|164741540|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||>|0.99|TWO_SIDED|95.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|1-tailed Wilcoxon sum-rank test|"The median difference was Hodges-Lehmann estimation and the confidence intervals were exact confidence limits. The SAS NPAR1WAY procedure was used for test and estimation."|The Cormack-Lehane grade with a grade 1 (best grade) to 4 (worst grade) was analyzed as an ordinal outcome.||2|1|> 0.99
82523129|NCT01023568|164741540|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.18|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|1-tailed Wilcoxon sum-rank test|"The median difference was Hodges-Lehmann estimation and the confidence intervals were exact confidence limits. The SAS NPAR1WAY procedure was used for test and estimation."|The Cormack-Lehane grade with a grade 1 (best grade) to 4 (worst grade) was analyzed as an ordinal outcome.||0|0|0.18
82523130|NCT01023568|164741541|SUPERIORITY_OR_OTHER|||||||0.26|||||||ANOVA|||||||0.26
82523131|NCT01023568|164741542|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>0.99
82523132|NCT00224770|164741543|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|6.6||0.324|ONE_SIDED|95.0||16.2|||Fisher Exact|One-sided test|MISTIE rate=14.8, 95% upper limit=25.1; medical rate=9.5, 95% upper limit=20.5; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of mortality within 30 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of mortality than the medical arm.||16.2||0.324
82509929|NCT00653224|164713020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.006||95.0|-0.41|-0.07||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.07|-0.41|0.006
82509930|NCT00653224|164713021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.003||95.0|-0.47|-0.1||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ non-nose/eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ N-N/E symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ non-nose/eye symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.47|0.003
82509931|NCT00653224|164713022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001||95.0|-0.61|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.61|<0.001
82509932|NCT00653224|164713023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||<|0.001||95.0|-0.57|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-0.57|<0.001
82509933|NCT00653224|164713024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001||95.0|-0.61|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ practical problems score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ practical pbs. score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ practical problems score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.61|<0.001
82509934|NCT00653224|164713025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001||95.0|-0.59|-0.18||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.18|-0.59|<0.001
82509935|NCT00653224|164713026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.001||95.0|-0.55|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-0.55|<0.001
82523603|NCT04922554|164743013|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.9||||0.8269|TWO_SIDED|95.0|-7.26|9.05||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison of Omadacycline and Placebo for activity score has been presented.|||9.05|-7.26|0.8269
82523604|NCT04922554|164743013|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-0.2||||0.9584|TWO_SIDED|95.0|-7.74|7.35||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for impact score has been presented|||7.35|-7.74|0.9584
82377630|NCT02503787|164462841|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||A negative value for change in pain represents a reduction (improvement) of the subject's pain score. The null hypothesis was that the mean change from baseline to 3 months equals 0. The sample provided over 90% power, with two-sided significance level of 0.05, to detect a change of 2 points.||||<0.01
82523605|NCT04922554|164743013|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-5.0||||0.2123|TWO_SIDED|95.0|-12.88|2.92||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for symptom score has been presented.|||2.92|-12.88|0.2123
82509936|NCT00653224|164713027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001||95.0|-0.59|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ nasal symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ nasal symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ nasal symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.59|<0.001
82509937|NCT00653224|164713028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001||95.0|-0.63|-0.21||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.21|-0.63|<0.001
82509938|NCT00653224|164713029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.001||95.0|-0.56|-0.17||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.17|-0.56|<0.001
82509939|NCT00653224|164713030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001||95.0|-0.63|-0.22||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ eye symptoms score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ eye symptoms score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ eye symptoms score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.22|-0.63|<0.001
82509940|NCT00653224|164713031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|||<|0.001||95.0|-0.53|-0.13||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.13|-0.53|<0.001
82509941|NCT00653224|164713032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.52|-0.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at visit 3 (week 1) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.15|-0.52|<0.001
82567837|NCT00871143|164845484|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up.||||> 0.05
82567838|NCT00871143|164845484|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to end of treatment (12 weeks).||||>0.05
82567839|NCT00871143|164845484|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up.||||> 0.05
82567840|NCT00871143|164845485|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on GAD-7 scores.||||<0.05
82567841|NCT00871143|164845485|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 12 week assessment.||||<0.01
82567842|NCT00871143|164845485|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were implemented to reduce the risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up assessment.||||> 0.05
82567843|NCT00871143|164845485|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 12 week assessment.||||>0.05
82567844|NCT00871143|164845485|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type I error|t-test, 2 sided|||Repeated- measures t tests were used to determine where significant differences occurred from baseline to 2 month follow up assessment.||||> 0.05
82567845|NCT00871143|164845486|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An alpha level of .05 was set (two-sided).|Mixed Models Analysis|||Linear mixed models were conducted to determine the predictive value of treatment group and/or time on BIQLI scores.||||<0.05
82509942|NCT00653224|164713033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001||95.0|-0.53|-0.14||If the p-value of this estimated difference is lower than 5% the mean change from baseline in RQLQ emotional score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in RQLQ emotional score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in RQLQ emotional score at visit 4 (week 2) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.14|-0.53|<0.001
82509943|NCT00653224|164713034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.001||95.0|-1.32|-0.45||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T5SS over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.32|<0.001
82509944|NCT00653224|164713035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001||95.0|-1.39|-0.36||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the mean of T5SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T5SS over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.36|-1.39|<0.001
82509945|NCT00653224|164713036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.001||95.0|-1.2|-0.49||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.49|-1.20|<0.001
82509946|NCT00653224|164713037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|||<|0.001||95.0|-1.18|-0.35||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.35|-1.18|<0.001
82567846|NCT00871143|164845486|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and end of treatment (12 weeks).||||<0.05
82567847|NCT00871143|164845486|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Bonferroni corrections were used to reduce risk of type 1 error|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and 1 month follow up.||||< 0.05
82567848|NCT00871143|164845486|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||A Bonferroni correction was used to decrease the risk of type I error.|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and end of treatment (12 weeks).||||>0.05
82509947|NCT00653224|164713038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.001||95.0|-1.17|-0.45||If the p-value of this estimated difference is lower than 5% the mean T4SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean T4SS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean T4SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.45|-1.17|<0.001
82567849|NCT00871143|164845486|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Bonferroni corrections were used|t-test, 2 sided|||Repeated-measures t tests were then used to determine where significant differences in BIQLI occurred between baseline and 1 month follow up.||||> 0.05
82567850|NCT03280108|164845488|NON_INFERIORITY|Non-inferiority based on the observed 95% Upper Confidence Limit of the difference in Least Squares Means (LSM) between the 2 groups (TFNT00 - SN60AT). Non-inferiority margin = 0.10 logMAR.|Least Squares Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0103|||ONE_SIDED|95.0||0.041||||||||0.041||
82567851|NCT03280108|164845489|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82567852|NCT03280108|164845495|SUPERIORITY||Least Squares Mean Difference|-0.257|STANDARD_ERROR_OF_MEAN|0.0153|<|0.001|TWO_SIDED|95.0|-0.287|-0.227|||Mixed Models Analysis|||||-0.227|-0.287|<0.001
82567853|NCT03280108|164845496|SUPERIORITY||Mantel-Haenszel common difference|71.2|||||TWO_SIDED|95.0|61.87|80.46||||||||80.46|61.87|
82567854|NCT01187407|164845499|SUPERIORITY_OR_OTHER|||||||0.997||||||Primary comparison.|Mixed Models Analysis|||||||0.997
82567855|NCT01187407|164845499|SUPERIORITY_OR_OTHER|||||||0.769||||||Secondary comparison.|Mixed Models Analysis|||||||0.769
82567856|NCT03638258|164845524|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward (LOCF) where linear interpolation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||||||<0.001
82567857|NCT03638258|164845524|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpolation was not computationally possible.||||||0.004|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||||||0.004
82509948|NCT00653224|164713039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001||95.0|-1.17|-0.31||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.31|-1.17|<0.001
82509949|NCT00653224|164713040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.005||95.0|-1.26|-0.22||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.22|-1.26|0.005
82509950|NCT00653224|164713041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001||95.0|-1.18|-0.3||If the p-value of this estimated difference is lower than 5% the mean TNSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TNSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TNSS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.30|-1.18|<0.001
82509951|NCT00653224|164713042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001||95.0|-0.87|-0.3||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.30|-0.87|<0.001
82509952|NCT00653224|164713043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001||95.0|-0.91|-0.24||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.24|-0.91|<0.001
82509953|NCT00653224|164713044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001||95.0|-0.86|-0.28||If the p-value of this estimated difference is lower than 5% the mean TOSS is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Mean TOSS including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean TOSS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.28|-0.86|<0.001
82567858|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.015|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.015
82509954|NCT00653224|164713045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001||95.0|-0.34|-0.13||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.13|-0.34|<0.001
82509955|NCT00653224|164713046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||<|0.001||95.0|-0.34|-0.09||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.09|-0.34|<0.001
82567859|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.174|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from placebo at Week 4||||0.174
82567860|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||<0.001
82567861|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||0.001
82567862|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||<0.001
82567863|NCT03638258|164845525|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.008|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.008
82567864|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 4||||<0.001
82567865|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 4||||<0.001
82567866|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 6||||<0.001
82567867|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 6||||<0.001
82567868|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.x|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 8||||<0.001
82567869|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 8||||<0.001
82567870|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 12||||<0.001
82567871|NCT03638258|164845526|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline mPASI score.||Difference from vehicle cream at Week 12||||<0.001
82567872|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream on Week 4||||<0.001
82567873|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 4||||<0.001
82567874|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 6||||<0.001
82567875|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 6||||<0.001
82567876|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle at Week 8||||<0.001
82567877|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 8||||<0.001
82567878|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle at Week 12||||<0.001
82567879|NCT03638258|164845527|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline BSA score.||Difference from vehicle cream at Week 12||||<0.001
82567880|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.116|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.116
82567881|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.423|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 4||||0.423
82567882|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 6||||0.002
82567883|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.038|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 6||||0.038
82509956|NCT00653224|164713047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001||95.0|-0.33|-0.12||If the p-value of this estimated difference is lower than 5% the sneezing mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Sneezing Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The sneezing mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.12|-0.33|<0.001
82509957|NCT00653224|164713048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.11||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.11|-0.32|<0.001
82567884|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||<0.001
82567885|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.005|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 8||||0.005
82567886|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.002
82509958|NCT00653224|164713049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.008||95.0|-0.3|-0.05||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.30|0.008
82567887|NCT03638258|164845528|SUPERIORITY|Missing data imputed using linear interpolation and last observation carried forward where linear interpolation was not computationally possible.||||||0.013|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline IGA score.||Difference from vehicle cream at Week 12||||0.013
82567888|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.086|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference form vehicle cream at Week 4||||0.086
82630624|NCT02045979|164977560|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|101.36|||||TWO_SIDED|90.0|92.51|111.05|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||111.05|92.51|
82630625|NCT02045979|164977560|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing; two-sided 90% CI for the ratio of adjusted geometric means was calculated.|ratio of the geometric means|94.04|||||TWO_SIDED|90.0|86.01|102.82|||||An analysis of covariance (ANCOVA) model on the logarithmic scale with fixed effects for treatment and trial site as well as age (as recorded at the time of informed consent) and body weight (as recorded at baseline) as continuous covariates.|||102.82|86.01|
82567889|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.123|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 4||||0.123
82567890|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.017|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 6||||0.017
82567891|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.415|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 6||||0.415
82567892|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.007|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 8||||0.007
82567893|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.175|||||||Regression, Linear|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 8||||0.175
82567894|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle at Week 12||||0.001
82509959|NCT00653224|164713050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.3|-0.09||If the p-value of this estimated difference is lower than 5% the rhinorrhea mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Rhinorrhea Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The rhinorrhea mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.09|-0.30|<0.001
82509960|NCT00653224|164713051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.384||95.0|-0.15|0.06||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.06|-0.15|0.384
82509961|NCT00653224|164713052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.063||95.0|-0.24|0.01||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.24|0.063
82509962|NCT00653224|164713053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.124||95.0|-0.19|0.02||If the p-value of this estimated difference is lower than 5% the nasal congestion mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Congestion Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal congestion mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.02|-0.19|0.124
82509963|NCT00653224|164713054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.002||95.0|-0.28|-0.06||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.28|0.002
82509964|NCT00653224|164713055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.016||95.0|-0.28|-0.03||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.03|-0.28|0.016
82509965|NCT00653224|164713056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.003||95.0|-0.27|-0.06||If the p-value of this estimated difference is lower than 5% the nasal pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Nasal Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The nasal pruritus mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.06|-0.27|0.003
82509966|NCT00653224|164713057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.088||95.0|-0.2|0.01||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.20|0.088
82509967|NCT00653224|164713058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.117||95.0|-0.23|0.03||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.03|-0.23|0.117
82509968|NCT00653224|164713059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.065||95.0|-0.21|0.01||If the p-value of this estimated difference is lower than 5% the post-nasal drip mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Post-Nasal Drip Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The post-nasal drip mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.01|-0.21|0.065
82509969|NCT00653224|164713060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.1||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.32|<0.001
82567895|NCT03638258|164845529|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.619|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline I-IGA score.||Difference from vehicle cream at Week 12||||0.619
82630626|NCT04423718|164977608|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.97||||0.0009|TWO_SIDED|95.0|-2.87|0.92||Strictly hierarchical testing procedure: Since p-value below significance level 0.025, fixed sequence testing continued with next primary endpoint (HDq16-2q8) / within EMA/PMDA specific hierarchy with secondary endpoint (BCVA at W60, HDq12-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.92|-2.87|0.0009
82630627|NCT04423718|164977608|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-1.14||||0.0011|TWO_SIDED|95.0|-2.97|0.69||Strictly hierarchical testing procedure: Since p-value below significance level 0.025, fixed sequence testing continued with secondary endpoint (no IRF no SRF at W16)/within EMA/PMDA specific hierarchy with secondary endpoint (BCVA at W60, HDq16-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.69|-2.97|0.0011
82630628|NCT04423718|164977609|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.86||||0.0002|TWO_SIDED|95.0|-2.57|0.84||EMA/PMDA specific hierarchy: i.e. secondary endpoint was tested for EMA/PMDA after primary endpoint (HDq12-2q8). Since p-value below significance level 0.025, EMA/PMDA specific fixed sequence testing continued with next primary endpoint (HDq16-2q8)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.84|-2.57|0.0002
82630629|NCT04423718|164977609|NON_INFERIORITY|One-sided test (alpha=0.025) for non-inferiority at a 4-letter margin|Difference in LS means|-0.92|||<|0.0001|TWO_SIDED|95.0|-2.51|0.66||EMA/PMDA specific hierarchy: i.e. secondary endpoint was tested after primary endpoint (HDq16-2q8). Since p-value below significance level 0.025, EMA/PMDA specific fixed sequence testing continued with secondary endpoint test (no IRF no SRF at W16)|Mixed Models Analysis|Adjusted for baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.66|-2.51|<0.0001
82630630|NCT04423718|164977610|SUPERIORITY|One sided test (alpha = 0.025) for superiority|Difference|11.733||||0.0002|TWO_SIDED|95.0|5.263|18.204||Strictly hierarchical testing procedure to adjust for multiplicity.|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|All HD - 2q8||18.204|5.263|0.0002
82630631|NCT04423718|164977611|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-1.748||||0.5704|TWO_SIDED|95.0|-7.784|4.287||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||4.287|-7.784|0.5704
82567896|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||<0.001
82567897|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.002
82567898|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||<0.001
82567899|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||<0.001
82567900|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||<0.001
82567901|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||<0.001
82567902|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
82567903|NCT03638258|164845530|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
82509970|NCT00653224|164713061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.002||95.0|-0.33|-0.08||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.33|0.002
82509971|NCT00653224|164713062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001||95.0|-0.32|-0.1||If the p-value of this estimated difference is lower than 5% the ocular pruritus mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Pruritus Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular pruritus mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.32|<0.001
82509972|NCT00653224|164713063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.3|-0.08||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over Week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.30|<0.001
82509973|NCT00653224|164713064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.006||95.0|-0.29|-0.05||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over Week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.29|0.006
82509974|NCT00653224|164713065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular itching/burning mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Itching/Burning Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular itching/burning mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
82509975|NCT00653224|164713066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||<|0.001||95.0|-0.31|-0.1||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.31|<0.001
82509976|NCT00653224|164713067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.011||95.0|-0.29|-0.04||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.04|-0.29|0.011
82509977|NCT00653224|164713068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular tearing/watering mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Tearing/Watering Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular tearing/watering mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
82509978|NCT00653224|164713069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.004||95.0|-0.27|-0.05||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.05|-0.27|0.004
82509979|NCT00653224|164713070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||<|0.001||95.0|-0.34|-0.1||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.10|-0.34|<0.001
82567904|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.002
82509980|NCT00653224|164713071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.001||95.0|-0.29|-0.08||If the p-value of this estimated difference is lower than 5% the ocular redness mean score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the Ocular Redness Mean Score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The ocular redness mean score over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-0.29|<0.001
82567905|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.203|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 4||||0.203
82567906|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.034|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||0.034
82567907|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.012|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 6||||0.012
82567908|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.01|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||0.010
82567909|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.075|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 8||||0.075
82567910|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
82509981|NCT00653224|164713072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||If the p-value is lower than 5% the distribution is considered as different between the two treatment groups.|Wilcoxon (Mann-Whitney)|||The Wilcoxon-Mann-Whitney, or Wilcoxon rank-sum test is generally used to detect 'shift alternatives'. That is, the two distributions have the same general shape, but one of them is shifted relative to the other by a constant amount under the alternative hypothesis.||||<0.001
82509982|NCT00653224|164713073|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||If the p-value is lower than 5% the distribution is considered as different between the two treatment groups.|Wilcoxon (Mann-Whitney)|||The Wilcoxon-Mann-Whitney, or Wilcoxon rank-sum test (Lehmann, 1975 page 23) is generally used to detect 'shift alternatives'. That is, the two distributions have the same general shape, but one of them is shifted relative to the other by a constant amount under the alternative hypothesis.||||<0.001
82509983|NCT00653224|164713074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.027||95.0|-2.56|-0.16||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.16|-2.56|0.027
82567911|NCT03638258|164845531|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||Regression, Logistic|Logistic regression with a factor of treatment group and a covariate of baseline WI-NRS score.||Difference from vehicle cream at Week 12||||<0.001
82567912|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.527|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.527
82567913|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.444|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.444
82567914|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.006|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.006
82630632|NCT04423718|164977611|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-0.939||||0.7611|TWO_SIDED|95.0|-6.997|5.119||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||5.119|-6.997|0.7611
82567915|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.013|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.013
82567916|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.002
82509984|NCT00653224|164713075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.554||95.0|-1.56|0.84||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.84|-1.56|0.554
82509985|NCT00653224|164713076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.015||95.0|-2.72|-0.29||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 1) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 1) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.29|-2.72|0.015
82509986|NCT00653224|164713077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.016||95.0|-8.34|-0.86||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.86|-8.34|0.016
82509987|NCT00653224|164713078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33||||0.017||95.0|-7.88|-0.79||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.79|-7.88|0.017
82509988|NCT00653224|164713079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.25||||0.027||95.0|-8.02|-0.47||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 2) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 2) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.47|-8.02|0.027
82509989|NCT00653224|164713080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44||||0.023||95.0|-8.25|-0.63||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.63|-8.25|0.023
82509990|NCT00653224|164713081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.56||||0.015||95.0|-8.23|-0.89||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.89|-8.23|0.015
82567917|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.064|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.064
82567918|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.002
82630633|NCT04423718|164977612|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-0.182||||0.9554|TWO_SIDED|95.0|-6.565|6.2||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||6.200|-6.565|0.9554
82509991|NCT00653224|164713082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.11||||0.036||95.0|-7.95|-0.27||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 3) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 3) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.27|-7.95|0.036
82509992|NCT00653224|164713083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51||||0.102||95.0|-9.95|0.93||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.93|-9.95|0.102
82523606|NCT04922554|164743013|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-0.8||||0.8161|TWO_SIDED|95.0|-7.58|5.99||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA||Treatment comparison between Omadacycline and Placebo for total score has been presented.|||5.99|-7.58|0.8161
82523607|NCT04922554|164743014|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|-5.7||||0.001|TWO_SIDED|95.0|-8.95|-2.38||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||-2.38|-8.95|0.0010
82523608|NCT04922554|164743015|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in improvement rates|39.61||||0.002|TWO_SIDED|95.0|16.66|62.56|||Fisher Exact|||||62.56|16.66|0.0020
82523609|NCT04922554|164743016|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in improvement rates|15.41||||0.3051|TWO_SIDED|95.0|-9.1|39.93|||Fisher Exact|||||39.93|-9.10|0.3051
82523610|NCT04922554|164743017|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.3552|||||||Wilcoxon rank sum test|||||||0.3552
82523611|NCT04922554|164743018|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0753|||||||Wilcoxon rank sum test|||||||0.0753
82523612|NCT04922554|164743020|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Odds Ratio (OR)|3.84||||0.0168|TWO_SIDED|95.0|1.24|11.87|||Chi-squared|||||11.87|1.24|0.0168
82523613|NCT04922554|164743021|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0233|||||||Log Rank|||||||0.0233
82523614|NCT04922554|164743022|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.||||||0.0349|||||||Log Rank|||||||0.0349
82523615|NCT03938454|164743027|OTHER||Hodges-Lehmann|45.98||||0.0676|TWO_SIDED|95.0|23.5|65.36||P-value is from one-sided Wilcoxon Sign Rank Test with at least 25% percent reduction from Baseline (adjusted for 26 weeks) as outcome variable.|Wilcoxon Sign Rank Test|||||65.36|23.50|0.0676
82523616|NCT03938454|164743033|OTHER||Hodges-Lehmann|50.2||||0.0259|TWO_SIDED|95.0|27.94|67.36||P-value is from one-sided Wilcoxon Sign Rank Test with at least 25% reduction from Baseline (adjusted for 26 weeks) as outcome variable.|Wilcoxon Sign Rank Test|||||67.36|27.94|0.0259
82523617|NCT01255592|164743047|SUPERIORITY_OR_OTHER||Ratio of AZD5069 80 mg to placebo|0.31||||0.004|TWO_SIDED|90.0|0.17|0.59|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection, and baseline as covariates. The analysis was done on log-transformed data. The results were back-transformed after the analysis on the log scale.||0.59|0.17|0.004
82523618|NCT01255592|164743048|SUPERIORITY_OR_OTHER||Ratio of AZD5069 80 mg to placebo|0.64||||0.008|TWO_SIDED|90.0|0.49|0.84|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection, and baseline as covariates. The analysis was done on log-transformed data. The results were back-transformed after the analysis on the log scale.||0.84|0.49|0.008
82523619|NCT01255592|164743049|SUPERIORITY_OR_OTHER||LS mean difference|6.78|STANDARD_ERROR_OF_MEAN|3.298||0.047|TWO_SIDED|90.0|1.22|12.33|||ANCOVA|||The 24-hour sputum weight on Visit 4 was compared between groups using ANCOVA (additive model) with treatment and inhaled corticosteroids/P. aeruginosa infection as fixed effects and baseline as a covariate.||12.33|1.22|0.047
82509993|NCT00653224|164713084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.493||95.0|-5.66|2.78||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||2.78|-5.66|0.493
82630634|NCT04423718|164977612|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|-2.221||||0.4834|TWO_SIDED|95.0|-8.435|3.994||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||3.994|-8.435|0.4834
82509994|NCT00653224|164713085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38||||0.117||95.0|-9.91|1.15||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 4) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 4) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||1.15|-9.91|0.117
82630635|NCT04423718|164977613|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-1.22||||0.0009|TWO_SIDED|95.0|-1.94|-0.51||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CNV size and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-0.51|-1.94|0.0009
82509995|NCT00653224|164713086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.58||||0.409||95.0|-15.65|6.49||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||6.49|-15.65|0.409
82509996|NCT00653224|164713087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.54||||0.432||95.0|-16.1|7.01||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||7.01|-16.10|0.432
82523620|NCT01255592|164743050|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.092||0.284|TWO_SIDED|90.0|-0.05|0.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.26|-0.05|0.284
82523621|NCT01255592|164743051|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.078||0.929|TWO_SIDED|90.0|-0.12|0.14|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.14|-0.12|0.929
82523622|NCT01255592|164743052|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.062||0.966|TWO_SIDED|90.0|-0.11|0.1|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.10|-0.11|0.966
82523623|NCT01255592|164743053|SUPERIORITY_OR_OTHER||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.791|TWO_SIDED|90.0|-0.13|0.17|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.17|-0.13|0.791
82523624|NCT01255592|164743054|SUPERIORITY_OR_OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.433|TWO_SIDED|90.0|-1.6|0.6|||ANCOVA|||The ANCOVA model used TDI as the response variable with treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and BDI as covariates.||0.6|-1.6|0.433
82523625|NCT01255592|164743055|SUPERIORITY_OR_OTHER||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|8.03||0.935|TWO_SIDED|90.0|-12.81|14.13|||ANCOVA|||Morning PEF: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||14.13|-12.81|0.935
82523626|NCT01255592|164743055|SUPERIORITY_OR_OTHER||LS mean difference|3.3|STANDARD_ERROR_OF_MEAN|7.35||0.654|TWO_SIDED|90.0|-9.02|15.64|||ANCOVA|||Evening PEF: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||15.64|-9.02|0.654
82523627|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.329|TWO_SIDED|90.0|-0.09|0.36|||ANCOVA|||Describe your breathing: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.36|-0.09|0.329
82523628|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.664|TWO_SIDED|90.0|-0.16|0.27|||ANCOVA|||How often do you cough?: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.27|-0.16|0.664
82523629|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|90.0|-0.04|0.54|||ANCOVA|||Night time symptom score: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.54|-0.04|0.152
82509997|NCT00653224|164713088|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.24||||0.45||95.0|-15.46|6.99||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 5) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 5) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||6.99|-15.46|0.450
82509998|NCT00653224|164713089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.37||||0.251||95.0|-17.4|4.67||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||4.67|-17.40|0.251
82509999|NCT00653224|164713090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.06||||0.258||95.0|-19.48|5.36||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||5.36|-19.48|0.258
82510000|NCT00653224|164713091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.96||||0.288||95.0|-17.13|5.22||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 6) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 6) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||5.22|-17.13|0.288
82510001|NCT00653224|164713092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.91|||<|0.001||95.0|-9.34|-2.47||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-2.47|-9.34|<0.001
82510002|NCT00653224|164713093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.62|||<|0.001||95.0|-9.88|-3.35||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-3.35|-9.88|<0.001
82510003|NCT00653224|164713094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69||||0.001||95.0|-9.16|-2.21||If the p-value of this estimated difference is lower than 5% the mean change from baseline in WPAI-AS score (dimension 7) is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in the WPAI:AS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in WPAI-AS score (dimension 7) at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-2.21|-9.16|0.001
82630636|NCT04423718|164977613|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.48||||0.2076|TWO_SIDED|95.0|-1.22|0.27||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CNV size and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.27|-1.22|0.2076
82630637|NCT04423718|164977614|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.55||||0.0287|TWO_SIDED|95.0|-1.04|-0.06||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline total lesion area and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-0.06|-1.04|0.0287
82523630|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.15|TWO_SIDED|90.0|-0.8|0.05|||ANCOVA|||What color is your sputum?: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.05|-0.80|0.150
82630638|NCT04423718|164977614|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.44||||0.087|TWO_SIDED|95.0|-0.94|0.06||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline total lesion area and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.06|-0.94|0.0870
82630639|NCT04423718|164977615|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|11.725||||0.0015|TWO_SIDED|95.0|4.527|18.923||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq12 - 2q8||18.923|4.527|0.0015
82630640|NCT04423718|164977615|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference|7.451||||0.0458|TWO_SIDED|95.0|0.142|14.76||Nominal p-value, not adjusted for multiplicity|Cochran-Mantel-Haenszel|CMH test stratified by baseline BCVA and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was imputed by LOCF approach|HDq16 - 2q8||14.760|0.142|0.0458
82630641|NCT04423718|164977616|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-11.12||||0.0283|TWO_SIDED|95.0|-21.06|-1.18||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CST and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||-1.18|-21.06|0.0283
82630642|NCT04423718|164977616|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-10.51||||0.0321|TWO_SIDED|95.0|-20.12|-0.9||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline CST and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||-0.90|-20.12|0.0321
82630643|NCT04423718|164977617|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.72||||0.3817|TWO_SIDED|95.0|-2.35|0.9||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline NEI-VFQ-25 total score and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq12 - 2q8||0.90|-2.35|0.3817
82523631|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.248|TWO_SIDED|90.0|-0.06|0.35|||ANCOVA|||The amount of sputum you produced: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.35|-0.06|0.248
82523632|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.053|TWO_SIDED|90.0|-0.45|-0.04|||ANCOVA|||Type of sputum: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||-0.04|-0.45|0.053
82523633|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.179|TWO_SIDED|90.0|-0.04|0.42|||ANCOVA|||How do you feel?: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.42|-0.04|0.179
82523634|NCT01255592|164743056|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.942|TWO_SIDED|90.0|-0.75|0.68|||ANCOVA|||Number of puffs of inhalers: Analysis of covariance includes treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.68|-0.75|0.942
82523635|NCT01255592|164743057|SUPERIORITY_OR_OTHER||LS mean difference|-1.66|STANDARD_ERROR_OF_MEAN|3.374||0.625|TWO_SIDED|90.0|-7.32|4.0|||ANCOVA|||Total score: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||4.00|-7.32|0.625
82523636|NCT01255592|164743057|SUPERIORITY_OR_OTHER||LS mean difference|-4.88|STANDARD_ERROR_OF_MEAN|3.342||0.151|TWO_SIDED|90.0|-10.49|0.74|||ANCOVA|||Symptom domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||0.74|-10.49|0.151
82523637|NCT01255592|164743057|SUPERIORITY_OR_OTHER||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|4.524||0.773|TWO_SIDED|90.0|-8.91|6.28|||ANCOVA|||Activity domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.28|-8.91|0.773
82523638|NCT01255592|164743057|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|3.845||0.92|TWO_SIDED|90.0|-6.84|6.07|||ANCOVA|||Impact domain: Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.07|-6.84|0.920
82523639|NCT01255592|164743058|SUPERIORITY_OR_OTHER||Ratio of LS means|0.69||||0.22|TWO_SIDED|90.0|0.42|1.14|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.14|0.42|0.220
82510004|NCT00653224|164713095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.027||95.0|-1.29|-0.08||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.08|-1.29|0.027
82510005|NCT00653224|164713096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.535||95.0|-0.7|0.37||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at week 1 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.37|-0.70|0.535
82510006|NCT00653224|164713097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.042||95.0|-1.26|-0.02||If the p-value of this estimated difference is lower than 5% the mean change from baseline in ESS score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on change from baseline in ESS score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in ESS score at week 2 is not different from subjects treated with levocetirizine than subjects treated with placebo.'||-0.02|-1.26|0.042
82510007|NCT00653224|164713098|SUPERIORITY_OR_OTHER|||||||0.171||95.0||||If the p-value of this estimated difference is lower than 5% the change from baseline is considered as different between the two treatment groups.|Repeated measure analysis (CATMOD)|||The Null Hypothesis is expressed as follows: 'The change from baseline to endpoint visit in score category (ESS score \< 8 or \>= 8) is not different from subjects treated with levocetirizine than subjects treated with placebo.'||||0.171
82510008|NCT00773175|164713099|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-67.5||||0.5064|TWO_SIDED|95.0|-221.2|86.2||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||86.2|-221.2|0.5064
82510009|NCT00773175|164713099|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|24.0||||0.0325|TWO_SIDED|95.0|-54.6|102.7||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||102.7|-54.6|0.0325
82510010|NCT00773175|164713100|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-174.7||||0.8915|TWO_SIDED|95.0|-340.3|-9.1||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||-9.1|-340.3|0.8915
82510011|NCT00773175|164713100|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-58.6||||0.5469|TWO_SIDED|95.0|-137.5|20.3||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||20.3|-137.5|0.5469
82510012|NCT00773175|164713102|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-67.0||||0.5035|TWO_SIDED|95.0|-220.6|86.7||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department plus hospital stay|Treatment difference: subcutaneous minus intravenous|||86.7|-220.6|0.5035
82510013|NCT00773175|164713102|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|24.6||||0.0314|TWO_SIDED|95.0|-54.0|103.2||P-value for the test of the null hypothesis that the volume delivered via a hylenex-facilitated subcutaneous infusion was ≤85% of the volume delivered intravenously.|ANOVA|Emergency department stay only|Treatment difference: subcutaneous minus intravenous|||103.2|-54.0|0.0314
82510014|NCT00773175|164713106|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-30.1|||||TWO_SIDED|95.0|-69.5|9.4|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||9.4|-69.5|
82510015|NCT00773175|164713106|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-40.2|||||TWO_SIDED|95.0|-77.3|-3.1|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||-3.1|-77.3|
82510016|NCT00773175|164713107|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-30.1|||||TWO_SIDED|95.0|-69.5|9.4|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||9.4|-69.5|
82510017|NCT00773175|164713107|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-40.2|||||TWO_SIDED|95.0|-77.3|-3.1|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||-3.1|-77.3|
82523640|NCT01255592|164743059|SUPERIORITY_OR_OTHER||Ratio of LS means|4.46|||<|0.001|TWO_SIDED|90.0|3.05|6.54|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||6.54|3.05|<0.001
82567919|NCT03638258|164845532|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.009|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.009
82567920|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.188|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.188
82567921|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.577|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 4||||0.577
82567922|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.008|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.008
82567923|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.664|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 6||||0.664
82630644|NCT04423718|164977617|EQUIVALENCE|Two sided test (alpha = 0.05)|Difference in LS means|-0.87||||0.307|TWO_SIDED|95.0|-2.55|0.8||Nominal p-value, not adjusted for multiplicity|Mixed Models Analysis|Adjusted for baseline NEI-VFQ-25 total score and randomization strata|Estimation mainly based on hypothetical strategy, i.e. observed data beyond intercurrent events (premature discontinuation of treatment, missing injection, prohibited medication) were censored. Missing/censored data was handled implicitly by MMRM|HDq16 - 2q8||0.80|-2.55|0.3070
82630645|NCT00425945|164977621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|95.0|-0.1|14.9||||||||14.9|-0.1|
82630646|NCT00425945|164977622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.4|||||TWO_SIDED|95.0|-2.1|10.8||||||||10.8|-2.1|
82630647|NCT00425945|164977623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-1.7|2.5||||||||2.5|-1.7|
82630648|NCT00425945|164977624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.2|||||TWO_SIDED|95.0|-2.3|38.7||||||||38.7|-2.3|
82630649|NCT00425945|164977625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||||0.3|-0.1|
82630650|NCT00425945|164977626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||||0.1|-0.0|
82630651|NCT00425945|164977627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-6.8|0.5||||||||0.5|-6.8|
82630652|NCT00425945|164977628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.5|0.5||||||||0.5|-1.5|
82630653|NCT00425945|164977629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|0.0|0.4||||||||0.4|0.0|
82630654|NCT00425945|164977630|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|0.1|2.4||||||||2.4|0.1|
82630655|NCT00425945|164977631|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-4.4|2.3||||||||2.3|-4.4|
82567924|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.015|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.015
82567925|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.666|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 8||||0.666
82567926|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.009|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.009
82630656|NCT00425945|164977632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|-0.9|2.5||||||||2.5|-0.9|
82630657|NCT00425945|164977633|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
82630658|NCT00425945|164977634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.8|||||TWO_SIDED|95.0|-1.6|9.3||||||||9.3|-1.6|
82567927|NCT03638258|164845533|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.163|||||||Regression, Logistic|Logistic regression (Firth's penalized likelihood) with a factor of treatment group and a covariate of baseline PASI score.||Difference from vehicle cream at Week 12||||0.163
82630659|NCT00425945|164977635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.4|0.8||||||||0.8|-3.4|
82630660|NCT05618808|164977636|SUPERIORITY||Posterior Odds Ratio|0.78|||||TWO_SIDED|90.0|0.47|1.32|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.32|0.47|
82630661|NCT05618808|164977639|SUPERIORITY||Posterior Odds Ratio|0.44|||||TWO_SIDED|90.0|0.16|1.61|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.61|0.16|
82630662|NCT05618808|164977640|SUPERIORITY||Posterior Odds Ratio|0.79|||||TWO_SIDED|90.0|0.47|1.32|||||REGN9933 vs Enoxaparin||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|1.32|0.47|
82630663|NCT05618808|164977646|SUPERIORITY||Posterior Odds Ratio|0.54|||||TWO_SIDED|90.0|0.32|0.95|||||Enoxaparin vs Apixaban||"Bayesian Logistic Regression; Confidence Interval refers to Credible Interval"|0.95|0.32|
82630664|NCT01874353|164977666|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.22|<0.0001
82630665|NCT01874353|164977666|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.17|1.19||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours olaparib|||1.19|0.17|
82510018|NCT00773175|164713109|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|0.3|5.5|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||5.5|0.3|
82377631|NCT04700137|164462845|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.31|TWO_SIDED|95.0|-3.0|1.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.|A T-score of 50 represents the mean of the US general population (based on the 2010 Census) and 10 T-score units represents one standard deviation. Higher T-score indicates higher loneliness.|Difference in loneliness among patients by intervention arm at follow-up (6 months).||1.0|-3.0|0.31
82510019|NCT00773175|164713109|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-0.2|4.7|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||4.7|-0.2|
82510020|NCT00773175|164713110|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.8|1.9|||||Treatment difference: subcutaneous minus intravenous; Emergency department plus hospital stay|||1.9|-2.8|
82567928|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible. ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||||||0.002|||||||ANOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream on Week 4||||0.002
82567929|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.002|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 4||||0.002
82567930|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 6||||<0.001
82567931|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from placebo at Week 6||||<0.001
82567932|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from placebo at Week 8||||<0.001
82567933|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 8||||<0.001
82567934|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 12||||<0.001
82510021|NCT00773175|164713110|NON_INFERIORITY|Subcutaneous administration would not be deemed as inferior if the volume infused subcutaneous is ≥85% of the volume infused intravenously.|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.4|0.8|||||Treatment difference: subcutaneous minus intravenous; Emergency department stay only|||0.8|-3.4|
82510022|NCT00773175|164713121|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|0.1|0.3|||||Treatment difference = SC minus IV|||0.3|0.1|
82510023|NCT00773175|164713122|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0658|TWO_SIDED|95.0|-0.9|0.0|||ANOVA|From Analysis of Variance (ANOVA) model with center and treatment as factors.|Treatment difference = SC minus IV.|||0.0|-0.9|0.0658
82510024|NCT00773175|164713123|SUPERIORITY||Mean Difference (Net)|-1.0||||0.6208|TWO_SIDED|95.0|-4.8|2.9|||ANOVA|From ANOVA model with center and treatment as factors|Treatment difference = SC minus IV|||2.9|-4.8|0.6208
82510025|NCT00773175|164713125|SUPERIORITY|||||||0.0685||||||Cochran-Mantel-Haenszel (CMH) test controlling for center|Cochran-Mantel-Haenszel|Question 1||||||0.0685
82510026|NCT00773175|164713125|SUPERIORITY|||||||0.0004||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 2||||||0.0004
82567935|NCT03638258|164845534|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline PSD score.||Difference from vehicle cream at Week 12||||<0.001
82567936|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.184|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss score.||Difference from vehicle cream at Week 4||||0.184
82567937|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.207|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from placebo at Week 4||||0.207
82567938|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.004|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 6||||0.004
82567939|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.022|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 6||||0.022
82630666|NCT01874353|164977667|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0537|TWO_SIDED|95.0|0.54|1.0||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \<1 favours olaparib|||1.00|0.54|0.0537
82630667|NCT01874353|164977667|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.38|2.49||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \<1 favours olaparib|||2.49|0.38|
82630668|NCT01874353|164977668|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.23|<0.0001
82567940|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.003|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 8||||0.003
82510027|NCT00773175|164713125|SUPERIORITY|||||||0.6861||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 3||||||0.6861
82567941|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.|||||<|0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 8||||<0.001
82567942|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible. ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||||||0.003|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.||Difference from vehicle cream at Week 12||||0.003
82630669|NCT01874353|164977668|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.18|1.03||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \<1 favours olaparib|||1.03|0.18|
82630670|NCT01874353|164977669|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5||||0.0002|TWO_SIDED|95.0|0.34|0.72||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.72|0.34|0.0002
82510028|NCT00773175|164713125|SUPERIORITY|||||||0.2323||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 4||||||0.2323
82510029|NCT00773175|164713126|SUPERIORITY|||||||0.0033||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Effectiveness||||||0.0033
82510030|NCT00773175|164713126|SUPERIORITY||||||<|0.0001||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Degree of difficulty||||||< 0.0001
82510031|NCT00773175|164713127|SUPERIORITY|||||||0.2012||||||CMH test controlling for Center|Cochran-Mantel-Haenszel|Question 1||||||0.2012
82510032|NCT00773175|164713127|SUPERIORITY||||||<|0.0001||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 2||||||< 0.0001
82510033|NCT00773175|164713127|SUPERIORITY|||||||0.1302||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 4||||||0.1302
82510034|NCT00773175|164713127|SUPERIORITY|||||||0.0852||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 5||||||0.0852
82510035|NCT00773175|164713127|SUPERIORITY|||||||0.0275||||||CMH test controlling for center|Cochran-Mantel-Haenszel|Question 6||||||0.0275
82510036|NCT00773175|164713133|SUPERIORITY|||||||0.0247|||||||Wilcoxon (Mann-Whitney)|||||||0.0247
82510037|NCT00773175|164713134|SUPERIORITY|||||||0.0007||||||CMH test controlling for center|Cochran-Mantel-Haenszel|||||||0.0007
82510038|NCT00326612|164713158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0||||||||||||
82510039|NCT00326612|164713159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.2|3.9||||||||3.9|0.2|
82510040|NCT00326612|164713160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.4|2.7||||||||2.7|0.4|
82510041|NCT00326612|164713161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.2|8.2||||||||8.2|0.2|
82510042|NCT00326612|164713162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.0|67.3||||||||67.3|0.0|
82510043|NCT00326612|164713163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|0.2|140.7||||||||140.7|0.2|
82510044|NCT00640510|164713167|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||A sample size of at least 15 patients per group was necessary to verify that the decrease in PANSS-EC total score was significantly greater in the IM olanzapine group than the placebo group using Student's t-test with a power of 90% at a two-sided significance level of 5%.||||0.940
82510045|NCT00640510|164713168|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Change from Baseline to 15 minutes. Change = Timepoint minus Baseline.|t-test, 2 sided|||||||1.000
82510046|NCT00640510|164713168|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-value for Change from Baseline to 30 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.620
82510047|NCT00640510|164713168|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-value for Change from Baseline to 60 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.784
82510048|NCT00640510|164713168|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value for Change from Baseline to 90 minutes. Change = Timepoint minus baseline.|t-test, 2 sided|||||||0.756
82510049|NCT00640510|164713169|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
82510050|NCT00640510|164713170|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 30 Minutes.|Fisher Exact|||||||1.000
82567943|NCT03638258|164845535|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.01||||||ANCOVA with a factor of treatment group and a covariate of baseline Itch-Related Sleep Loss NRS score.|ANCOVA|||Difference from vehicle cream at Week 12||||0.01
82510051|NCT00640510|164713170|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 60 Minutes.|Fisher Exact|||||||1.000
82510052|NCT00640510|164713170|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 90 Minutes.|Fisher Exact|||||||1.000
82510053|NCT00640510|164713170|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for 2 Hours.|Fisher Exact|||||||1.000
82510054|NCT01956110|164713210|NON_INFERIORITY|The lower bound of the 95% CI was well above the pre-specified non-inferiority limit of -8.0%. Thus, non-inferiority of FE 999049 to GONAL-F with regard to ongoing pregnancy rate was demonstrated.|Treatment difference|-0.9|||||TWO_SIDED|95.0|-5.9|4.1||||||The pre-specified non-inferiority margin was -8.0% (absolute). Non-inferiority was evaluated based on a two-sided 95% confidence interval (CI) derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.1|-5.9|
82630671|NCT01874353|164977669|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.22|3.97||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes treatment factor only|A hazard ratio \< 1 favours olaparib|||3.97|0.22|
82630672|NCT01874353|164977670|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03||||0.9765|TWO_SIDED|95.0|-2.191|2.126|||Mixed Models Analysis|Fixed effects for treatment, visit and baseline TOI with the treatment by visit and baseline TOI by visit interaction. Random patient effect.||||2.126|-2.191|0.9765
82630673|NCT01874353|164977671|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.28|0.48||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.48|0.28|<0.0001
82630674|NCT01874353|164977671|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.21|1.08||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours olaparib|||1.08|0.21|
82630675|NCT01874353|164977672|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.68||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.68|0.39|<0.0001
82630676|NCT01874353|164977672|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.37|1.85||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model included treatment factor only|A hazard ratio \< 1 favours olaparib|||1.85|0.37|
82510055|NCT01956110|164713211|NON_INFERIORITY|The lower bound of the 95% CI was well above the pre-specified non-inferiority limit of -8.0%. Thus, non-inferiority of FE 999049 to GONAL-F with regard to ongoing implantation rate was demonstrated.|Treatment difference|-0.6|||||TWO_SIDED|95.0|-6.1|4.8||||||The pre-specified non-inferiority margin was -8.0% (absolute). Non-inferiority was evaluated based on a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.8|-6.1|
82510056|NCT01956110|164713212|NON_INFERIORITY|The lower bound of the 95% CI was well above -8.0% (pre-specified non-inferiority limit for the co-primary endpoints). Thus, the result was supportive of the co-primary endpoint analyses.|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.7|3.4||||||Treatment groups were compared using a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||3.4|-6.7|
82510057|NCT01956110|164713213|NON_INFERIORITY|The lower bound of the 95% CI was well above -8.0% (pre-specified non-inferiority limit for the co-primary endpoints). Thus, the result was supportive of the co-primary endpoint analyses.|Treatment difference|-1.4|||||TWO_SIDED|95.0|-7.0|4.2||||||Treatment groups were compared using a two-sided 95% CI derived based on the asymptotic normal distribution. The treatment comparison was adjusted for age (\<35, 35-37 and 38-40 years) by using the Mantel-Haenszel method to combine results across age-strata.||4.2|-7.0|
82510058|NCT01956110|164713214|OTHER|A logistic regression model was fitted to the data including AMH, log(AMH)\^2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor. A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor.|||||=|0.001||||||Inclusion of treatment provides a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: \<4 or \>=15 oocytes retrieved||||=0.001
82523641|NCT01255592|164743060|SUPERIORITY_OR_OTHER||Ratio of LS means|0.92||||0.67|TWO_SIDED|90.0|0.68|1.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.26|0.68|0.670
82510059|NCT01956110|164713214|OTHER|A logistic regression model was fitted to the data including AMH, log(AMH)2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor. A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor.|||||=|0.002||||||Inclusion of treatment provides a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: \<4 or \>=20 oocytes retrieved||||=0.002
82510060|NCT01956110|164713215|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.291||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (any grade)||||=0.291
82510061|NCT01956110|164713215|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.644||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (moderate/severe)||||=0.644
82510062|NCT01956110|164713215|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.005||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Preventive interventions||||=0.005
82510063|NCT01956110|164713215|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.046||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (any grade) and/or preventive interventions||||=0.046
82630677|NCT01874353|164977673|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.28|0.49||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.49|0.28|<0.0001
82377632|NCT04700137|164462845|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.83|TWO_SIDED|95.0|-1.8|2.2||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.|A T-score of 50 represents the mean of the US general population (based on the 2010 Census) and 10 T-score units represents one standard deviation. Higher T-score indicates higher loneliness.|Difference in loneliness among healthcare providers/staff by intervention arm at follow-up (6 months).||2.2|-1.8|0.83
82510064|NCT01956110|164713215|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.|||||=|0.019||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Early OHSS (moderate/severe) and/or preventive interventions||||=0.019
82510065|NCT01956110|164713216|EQUIVALENCE|Treatment groups were compared using a logistic regression model with treatment and age (\<35, 35- 37, and 38-40 years) as factors.|Odds Ratio (OR)|1.38|||=|0.302|TWO_SIDED|95.0|0.74|2.57||P-value corresponds to test for treatment difference.|Likelihood ratio test|||Treatment comparison: Cycle cancelled due to poor response||2.57|0.74|=0.302
82510066|NCT01956110|164713216|EQUIVALENCE|Treatment groups were compared using a logistic regression model with treatment and age (\<35, 35-37, and 38-40 years) as factors.|Odds Ratio (OR)|0.42||||0.019|TWO_SIDED|95.0|0.2|0.9||P-value corresponds to test for treatment difference.|Likelihood ratio test|||Treatment comparison:Triggering with GnRH agonist||0.9|0.2|0.019
82567944|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.255|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 4||||0.255
82567945|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.687|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream on Week 4||||0.687
82567946|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.045|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 6||||0.045
82567947|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.059|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 6||||0.059
82567948|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.051|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 8||||0.051
82630678|NCT01874353|164977673|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.2|1.04||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes a treatment factor only|A hazard ratio \< 1 favours the Olaparib arm|||1.04|0.20|
82567949|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.013|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 8||||0.013
82567950|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.036|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 12||||0.036
82567951|NCT03638258|164845536|SUPERIORITY|Missing data imputed using linear interpolation and LOCF where linear interpretation was not computationally possible.||||||0.001|||||||ANCOVA|ANCOVA with a factor of treatment group and a covariate of baseline DLQI score.||Difference from vehicle cream at Week 12||||0.001
82567952|NCT01287416|164845538|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.01.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of SIRI scores across the three time points. We used linear mixed models to determine whether scores were different between the two groups over time.||||0.61
82567953|NCT01287416|164845539|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.02.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of level of knowledge across the three time points.||||0.95
82567954|NCT01287416|164845540|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.02.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ in terms of self-reported skill level across the three time points.||||0.33
82567955|NCT01287416|164845541|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.05.|Mixed Models Analysis|Model adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ in terms of level of knowledge across the three time points.||||0.03
82567956|NCT01287416|164845542|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||The a priori threshold for statistical significance was set at p\<.05. Effect size determined by partial eta-squared to be 0.01.|Mixed Models Analysis|Model was adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ on level of self-reported preparedness to help a suicidal person.||||0.63
82567957|NCT01287416|164845543|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||A priori threshold for significance set to p\<.05.|ANCOVA|Model adjusted for differences in educational attainment at baseline.||The null hypothesis was that the groups would not differ on their level of distress across the two time points.||||0.21
82567958|NCT01287416|164845544|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||A priori threshold for significance set at p\<.05.|ANCOVA|Model was adjusted for differences in educational attainment at baseline.||Null hypothesis was that the groups would not differ in terms of alcohol use across the two time points.||||0.46
82567959|NCT01287416|164845545|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||The a priori threshold for statistical significance was set at p\<.05.|ANCOVA|Model is adjusted for differences in educational attainment at baseline.||The null hypothesis was that the two groups would not differ in resiliency scores across the follow-up period.||||0.28
82567960|NCT01287416|164845546|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|||||||0.33
82567961|NCT01287416|164845547|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|||||||0.62
82567962|NCT01287416|164845548|SUPERIORITY_OR_OTHER|||||||1||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||1.00
82567963|NCT01287416|164845549|SUPERIORITY_OR_OTHER|||||||1||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||1.00
82567964|NCT01287416|164845550|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||A priori threshold for significance set to p\<.05.|Fisher Exact|||||||0.064
82567965|NCT01287416|164845552|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||a priori threshold for significance set a p\<.05.|Fisher Exact|unadjusted model||Null hypothesis was that the groups would not differ in terms of their gatekeeper behaviours||||0.14
82567966|NCT01287416|164845553|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||A priori threshold for significance set at p\<.05.|Chi-squared|Unadjusted model||Null hypothesis was that the groups would not differ on gatekeeper behaviours.||||0.41
82567967|NCT00607789|164845556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_DEVIATION|1.7|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The primary efficacy analysis was a longitudinal analysis comparing the rate of change of binge day frequency during the treatment period between groups. The same analysis was applied to binge episode frequency, weight, BMI, and scores on the CGI-Severity, YBOCS-BE, and IDS scales. The difference in rate of change was estimated by random regression methods||||<0.05
82567968|NCT01180790|164845636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||||||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg, 400 mg, and 800 mg ACH-0141625.|exact Cochran-Armitage test|Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||The null hypothesis is no difference between proportions of participants in each treatment group achieving RVR4 at Week 4 of the study, while the alternative hypothesis is that the proportion of participants achieving RVR4 at Week 4 increases with increasing doses of ACH-0141625.||||0.003
82567969|NCT01180790|164845636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
82510067|NCT01956110|164713217|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.692|||||||van Elteren|||Treatment comparison: Number of oocytes retrieved||||=0.692
82523133|NCT00224770|164741543|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|8.2||0.633|ONE_SIDED|95.0||11.2|||Fisher Exact|One-sided test|ICES rate=7.1, 95% upper limit=29.7; medical rate=9.5, 95% upper limit=20.5; comparison considers ICES rate minus medical rate.|Null hypothesis is that rate of mortality within 30 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of mortality than the medical arm.||11.2||0.633
82523134|NCT00224770|164741544|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.6|STANDARD_ERROR_OF_MEAN|3.1||0.174|ONE_SIDED|95.0||11.7|||Fisher Exact|One-sided test|MISTIE rate=5.6, 95% upper limit=13.7; medical rate=0.0, 95% upper limit=6.9; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of procedure-related mortality within 7 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of procedure-related mortality than the medical arm.||11.7||0.174
82523135|NCT00224770|164741545|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.437|ONE_SIDED|95.0||1.5|||Fisher Exact|One-sided test|MISTIE rate=0.0, 95% upper limit=5.4; medical rate=2.4, 95% upper limit=10.8; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that rate of cerebritis, meningitis and ventriculitis within 30 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of these infections than medical.||1.5||0.437
82523136|NCT00224770|164741545|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.75|ONE_SIDED|95.0||1.5|||Fisher Exact|One-sided test|ICES rate=0.0, 95% upper limit=19.3; medical rate=2.4, 95% upper limit=10.8; comparison considers ICES rate minus medical rate.|Null hypothesis is that rate of cerebritis, meningitis and ventriculitis within 30 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of these infections than medical.||1.5||0.750
82523137|NCT00224770|164741546|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.2|STANDARD_ERROR_OF_MEAN|3.9||0.409|ONE_SIDED|95.0||9.6|||Fisher Exact|One-sided test|MISTIE rate=5.6, 95% upper limit=13.7; medical rate=2.4, 95% upper limit=10.8; comparison considers MISTIE rate minus medical rate|Null hypothesis is that rate of symptomatic rebleeding 72 hours post last dose is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher rate of symptomatic rebleeding than the medical arm.||9.6||0.409
82523138|NCT00224770|164741546|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|2.4||0.75|ONE_SIDED|95.0||2.2|||Fisher Exact|One-sided test|ICES rate=0.0, 95% upper limit=19.3; medical rate=2.4, 95% upper limit=10.8; comparison considers ICES rate minus medical rate|Null hypothesis is that rate of symptomatic rebleeding 72 hours post last dose is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher rate of symptomatic rebleeding than the medical arm.||2.2||0.750
82523139|NCT00224770|164741547|SUPERIORITY_OR_OTHER|||||||0.468|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.468
82523140|NCT00224770|164741547|SUPERIORITY_OR_OTHER|||||||0.294|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.294
82523141|NCT00224770|164741548|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.395
82523142|NCT00224770|164741548|SUPERIORITY_OR_OTHER|||||||0.175|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of the mRS values for both groups are the same. The alternative hypothesis is that the distributions are not the same.||||0.175
82523143|NCT00224770|164741549|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of percentage of blood clot resolved are the same between the two groups. The alternative hypothesis is that the distributions are not the same.||||<0.0001
82523144|NCT00224770|164741549|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided test||Null hypothesis is that the distributions of percentage of blood clot resolved are the same between the two groups. The alternative hypothesis is that the distributions are not the same.||||<0.0001
82523145|NCT00224770|164741550|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Sign test|Two-sided test||Null hypothesis is that the median percent resolved is 0. The alternative hypothesis is that the median percent resolved is not equal to 0.||||<0.0001
82523146|NCT00224770|164741550|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED||||||Sign test|Two-sided||Null hypothesis is that the median percent resolved is 0. The alternative hypothesis is that the median percent resolved is not equal to 0.||||0.791
82523147|NCT00224770|164741551|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.9|STANDARD_ERROR_OF_MEAN|9.5||0.189|ONE_SIDED|95.0||26.6|||Fisher Exact|One-sided test|MISTIE rate=34.6, 95% upper limit=46.9; medical rate=23.7, 95% upper limit=37.7; comparison considers MISTIE rate minus medical rate.|Null hypothesis is that the proportion with mRS score of 0-3 at 180 days is the same between the two groups. The alternative hypothesis tests whether MISTIE surgical management has a higher proportion than the medical arm.||26.6||0.189
82630679|NCT01874353|164977674|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy prior to enrolment|Regression, Cox|Model includes factors for response to previous platinum chemotherapy and time to disease progression in the penultimate platinum based chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
82510068|NCT01956110|164713218|OTHER|"A logistic regression model was fitted to the data including AMH, log(AMH)\^2, treatment group and interactions between treatment group and AMH and treatment group and log(AMH)\^2 in the linear predictor.~A second logistic regression model (nested within the first model) was fitted including AMH and log(AMH)\^2 in the linear predictor."|||||=|0.019||||||Inclusion of treatment provides a better fit to the data|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||The relation between ovarian response potential (AMH at screening) and probability of achieving the targeted response was modelled using logistic regression models.||||=0.019
82510069|NCT01956110|164713219|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.909|||||||van Elteren|||Treatment comparison: Number of metaphase II oocytes||||=0.909
82510070|NCT01956110|164713220|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).||||||0.53|||||||van Elteren|||Treatment comparison: Fertilisation rate||||0.53
82510071|NCT01956110|164713221|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.59|||||||van Elteren|||Treatment comparison: Number of embryos||||=0.59
82510072|NCT01956110|164713221|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.414|||||||van Elteren|||Treatment comparison: Good quality embryos||||=0.414
82510073|NCT01956110|164713222|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.344|||||||van Elteren|||Treatment comparison: Number of blastocysts||||= 0.344
82510074|NCT01956110|164713222|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.58|||||||van Elteren|||Treatment comparison: Good-quality blastocysts||||= 0.58
82510075|NCT01956110|164713223|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||<|0.001|||||||van Elteren|||Treatment comparison: Total gonadotropin dose||||<0.001
82510076|NCT01956110|164713224|EQUIVALENCE|Treatment groups were compared using the van Elteren test adjusted for age (\<35, 35-37, and 38-40 years).|||||=|0.062|||||||van Elteren|||Treatment comparison: Number of stimulation days||||=0.062
82510077|NCT01956110|164713225|EQUIVALENCE|Treatment groups were compared using a chi-square test.|||||=|0.178|||||||Chi-squared|||Treatment comparison: Investigator-requested gonadotropin dose adjustments||||=0.178
82510078|NCT01956110|164713231|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.||||||0.32||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Late OHSS (any grade)||||0.320
82510079|NCT01956110|164713231|OTHER|Nested logistic regression models were compared using the likelihood ratio test. The full logistic regression model included treatment as factor, log(AMH) as covariate and the interaction term. The nested model did not include treatment and the interaction term.||||||0.39||||||Inclusion of treatment does not provide a better fit to the data.|Likelihood ratio test|Likelihood ratio test comparing the reduced model including only AMH to the full model including AMH, treatment group and interactions.||Treatment comparison: Late OHSS (moderate/severe)||||0.390
82630680|NCT05706623|164977695|OTHER|Analysis of variance model|Geometric least squares (LS) mean ratio|0.8354|||||TWO_SIDED|90.0|0.5216|1.338||||||Moderate Hepatic Impairment Group (test) versus Normal Hepatic Function Group (reference). The analysis was performed on natural log (ln) transformed parameters using an analysis of variance model with the hepatic function group as a fixed effect.||1.338|0.5216|
82377633|NCT04700137|164462846|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.5||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in suicidal ideation and behavior (C-SSRS) among patients by intervention arm at follow-up (6 months).||0.5|0.0|0.05
82510080|NCT01633944|164713241|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.67||||0.0012|TWO_SIDED|95.0|-1.07|-0.26|||ANCOVA|||||-0.26|-1.07|0.0012
82510081|NCT01633944|164713242|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥30% pain reduction||||0.0012
82510082|NCT01633944|164713242|SUPERIORITY_OR_OTHER|||||||0.0754|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥50% pain reduction||||0.0754
82630681|NCT05706623|164977697|OTHER|Analysis of variance model|Geometric LS Mean Ratio|0.9356|||||TWO_SIDED|90.0|0.5889|1.4864||||||Moderate Hepatic Impairment Group (test) versus Normal Hepatic Function Group (reference). The analysis was performed on ln transformed parameters using an analysis of variance model with the hepatic function group as a fixed effect.||1.4864|0.5889|
82510083|NCT00958776|164713353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.973|TWO_SIDED|95.0|0.69|1.55|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.55|0.69|0.973
82510084|NCT00958776|164713355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.558|TWO_SIDED|95.0|0.75|1.72|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.72|0.75|0.558
82510085|NCT00958776|164713356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.633|TWO_SIDED|95.0|0.59|1.31|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||1.31|0.59|0.633
82523642|NCT01255592|164743061|SUPERIORITY_OR_OTHER||Ratio of LS means|0.99||||0.968|TWO_SIDED|90.0|0.78|1.27|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.27|0.78|0.968
82523643|NCT01255592|164743062|SUPERIORITY_OR_OTHER||Ratio of LS means|1.43||||0.193|TWO_SIDED|90.0|0.91|2.24|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.24|0.91|0.193
82510086|NCT00958776|164713357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.747|TWO_SIDED|95.0|0.92|2.32|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio was calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at Baseline, use of supplemental oxygen at Baseline, influenza season, and influenza type.|||2.32|0.92|0.747
82567970|NCT01180790|164845636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
82567971|NCT01180790|164845636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||To control for multiplicity, the proportion in each treatment group achieving RVR4 is analyzed using a Cochran-Armitage test for trend among the ordered groups: placebo (considered zero dose), 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625. Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||||0.004
82567972|NCT01180790|164845638|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34||||||To control for multiplicity, the proportion of participants in each treatment group achieving cEVR is analyzed using a Cochran-Armitage test for trend among the ordered treatment groups: 200 mg ACH-0141625, 400 mg ACH-0141625, and 800 mg ACH-0141625.|Exact Cochran-Armitage test|Only if overall test for trend is significant are pairwise comparisons evaluated using p-values for the difference in proportions (placebo - active).||The null hypothesis is no difference between proportions of participants in each treatment group achieving cEVR at Week 12 of the study, while the alternative hypothesis is that the proportion of participants achieving cEVR at Week 12 increases with increasing doses of ACH-0141625.||||0.34
82567973|NCT02825849|164845651|SUPERIORITY|||||||0.824|||||||Chi-squared|||||||.824
82567974|NCT01350388|164845652|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|||||||0.84
82567975|NCT01350388|164845653|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANCOVA|||||||0.73
82630682|NCT03728881|164977705|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.5|||||TWO_SIDED|96.0|0.44|0.57|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.57|0.44|
82377634|NCT04700137|164462846|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.2|TWO_SIDED|95.0|-0.4|0.1||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in suicidal ideation and behavior (C-SSRS) among healthcare providers/staff by intervention arm at follow-up (6 months).||0.1|-0.4|0.2
82510087|NCT00958776|164713359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.303|TWO_SIDED|95.0|0.41|2.98|||Wilcoxon-Gehan statistic|Analysis stratified by duration of illness at randomization, ICU status and use of supplemental oxygen at Baseline, influenza season and type.|The hazard ratio is calculated using a Cox regression model with factors of duration of illness at randomization, ICU status at baseline, use of supplemental oxygen at baseline, influenza season, and influenza type.|||2.98|0.41|0.303
82510088|NCT00958776|164713361|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis stratified by symptom onset prior to randomization, Baseline ICU status, need for supplemental oxygen at Baseline, influenza season and type.||||||0.768
82510089|NCT00958776|164713362|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis stratified by symptom onset prior to randomization, Baseline ICU status, need for supplemental oxygen at Baseline, influenza season and type.||||||0.758
82510090|NCT02583256|164713371|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain A/H1N1.||1.3|1.1|
82510091|NCT02583256|164713371|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|0.93|||||TWO_SIDED|95.0|0.9|1.0||||||Comparison performed for strain A/H3N2.||1.0|0.9|
82510092|NCT02583256|164713371|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Yamagata.||1.3|1.1|
82510093|NCT02583256|164713371|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.18|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Victoria.||1.3|1.1|
82510094|NCT02583256|164713372|SUPERIORITY|Superiority criterion for the GMT ratio: Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain A/H1N1.||1.3|1.1|
82510095|NCT02583256|164713372|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|0.93|||||TWO_SIDED|95.0|0.9|1.0||||||Comparison performed for strain A/H3N2.||1.0|0.9|
82510096|NCT02583256|164713372|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Yamagata.||1.3|1.1|
82510097|NCT02583256|164713372|SUPERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should exceed 1.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.1|1.3||||||Comparison performed for strain B/Victoria.||1.3|1.1|
82567976|NCT01350388|164845654|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|||||||0.23
82567977|NCT01350388|164845655|SUPERIORITY_OR_OTHER|||||||0.88|||||||ANCOVA|||||||0.88
82567978|NCT01350388|164845656|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
82567979|NCT01350388|164845657|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
82510098|NCT02583256|164713373|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.39|||||TWO_SIDED|95.0|1.28|1.51||||||Comparison performed for strain A/H1N1.||1.51|1.28|
82510099|NCT02583256|164713373|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.06|||||TWO_SIDED|95.0|0.99|1.14||||||Comparison performed for strain A/H3N2||1.14|0.99|
82510100|NCT02583256|164713373|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.42|||||TWO_SIDED|95.0|1.27|1.58||||||Comparison performed for strain B/Yamagata.||1.58|1.27|
82510101|NCT02583256|164713373|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.22|1.51||||||Comparison performed for strain B/Victoria.||1.51|1.22|
82510102|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.07|1.32||||||Comparison performed for strain A/H1N1.||1.32|1.07|
82510103|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|0.99|||||TWO_SIDED|95.0|0.9|1.09||||||Comparison performed for strain A/H3N2.||1.09|0.90|
82510104|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.12|||||TWO_SIDED|95.0|1.01|1.25||||||Comparison performed for strain B/Yamagata.||1.25|1.01|
82567980|NCT00580047|164845661|OTHER||||||||||||||||||The intervention groups were compared for compliance to either having annual IV zoledronic acid, taking weekly oral alendronate, and taking calcium/vitamin D supplementation.|||
82567981|NCT01064856|164845666|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Pearson's chi-square|||||||0.006
82567982|NCT01064856|164845668|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||<0.001
82510105|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of aQIV-aQIV/aQIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.98|1.27||||||Comparison performed for strain B/Victoria.||1.27|0.98|
82510106|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.4|||||TWO_SIDED|95.0|1.3|1.5||||||Comparison performed for strain A/H1N1.||1.5|1.3|
82510107|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.1||||||Comparison performed for strain A/H3N2.||1.1|0.9|
82510108|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.3|||||TWO_SIDED|95.0|1.2|1.4||||||Comparison performed for strain B/Yamagata.||1.4|1.2|
82510109|NCT02583256|164713374|NON_INFERIORITY|Lower bound of two-sided 95% CI on the ratio of QIV-aQIV/QIV-QIV HI GMT should not fall below 0.667.|GMT ratio|1.32|||||TWO_SIDED|95.0|1.2|1.5||||||Comparison performed for strain B/Victoria.||1.5|1.2|
82510110|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|1.8|||||TWO_SIDED|95.0|-4.9|8.6||||||Comparison performed for strain A/H1N1.||8.6|-4.9|
82510111|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|0.9|||||TWO_SIDED|95.0|-5.6|7.3||||||Comparison performed for strain A/H3N2.||7.3|-5.6|
82510112|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|4.3|||||TWO_SIDED|95.0|-1.8|10.4||||||Comparison performed for strain B/Yamagata.||10.4|-1.8|
82510113|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|2.6|||||TWO_SIDED|95.0|-3.3|8.5||||||Comparison performed for strain B/Victoria.||8.5|-3.3|
82510114|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|9.67|||||TWO_SIDED|95.0|3.11|16.17||||||Comparison performed for strain A/H1N1.||16.17|3.11|
82510115|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|-3.95|||||TWO_SIDED|95.0|-10.02|2.15||||||Comparison performed for strain A/H3N2.||2.15|-10.02|
82510116|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|12.95|||||TWO_SIDED|95.0|6.73|19.12||||||Comparison performed for strain B/Yamagata.||19.12|6.73|
82510117|NCT02583256|164713375|NON_INFERIORITY|The lower bound of two-sided 95% CI on the difference between SCR should not be below -10%.|SCR difference|8.36|||||TWO_SIDED|95.0|2.17|14.54||||||Comparison performed for strain B/Victoria.||14.54|2.17|
82510118|NCT04027218|164713393|SUPERIORITY||Odds Ratio (OR)|2.57||||0.001|TWO_SIDED|95.0|2.34|2.79|||McNemar|||||2.79|2.34|0.001
82567983|NCT01064856|164845669|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||0.003
82567984|NCT01064856|164845670|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|||||||ANCOVA|The P-value was based on an ANCOVA model adjusting for baseline with treatment as a factor.||||||0.051
82510119|NCT04027218|164713393|SUPERIORITY||Odds Ratio (OR)|1.92||||0.002|TWO_SIDED|95.0|1.7|2.13|||McNemar|||||2.13|1.70|0.002
82510120|NCT04027218|164713393|SUPERIORITY||Odds Ratio (OR)|1.9||||0.004|TWO_SIDED|95.0|1.87|1.92|||McNemar|||||1.92|1.87|0.004
82510121|NCT04027218|164713394|SUPERIORITY||Median Difference (Net)|-4.179||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
82510122|NCT04027218|164713394|SUPERIORITY||Median Difference (Net)|-3.619||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
82510123|NCT04027218|164713394|SUPERIORITY||Median Difference (Net)|-4.099||||0|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.000
82510124|NCT04027218|164713395|SUPERIORITY||Median Difference (Net)|-1.073||||0.863|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.863
82510125|NCT04027218|164713395|SUPERIORITY||Median Difference (Net)|-1.267||||0.205|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.205
82510126|NCT04027218|164713395|SUPERIORITY||Median Difference (Net)|-0.858||||0.391|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the number of negative changes, which implies participants with decrease in VAS score.|||||0.391
82510127|NCT04027218|164713397|SUPERIORITY||Median Difference (Net)|-0.672||||0.502|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.502
82510128|NCT04027218|164713397|SUPERIORITY||Median Difference (Net)|-0.327||||0.744|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.744
82510129|NCT04027218|164713397|SUPERIORITY||Median Difference (Net)|-1.885||||0.059|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Estimated value corresponds with the absorbance comparing hemolysis in blood samples performed by clinical practice against to the corresponding intervention.|||||0.059
82510130|NCT01103934|164713416|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.09
82510131|NCT01103934|164713417|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82510132|NCT01494610|164713448|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.508|||||TWO_SIDED|90.0|1.366|1.665|||||Data reflect Asthma + COPD participants. The ratio of adjusted geometric means is a comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.665|1.366|
82510133|NCT01494610|164713448|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.598|||||TWO_SIDED|90.0|1.369|1.864|||||Data reflect participants with asthma only. The ratio of adjusted geometric means is a comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.864|1.369|
82510134|NCT01494610|164713448|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|1.421|||||TWO_SIDED|90.0|1.274|1.584|||||Data reflect participants with COPD only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.584|1.274|
82510135|NCT01494610|164713449|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.928|||||TWO_SIDED|90.0|0.886|0.971|||||Data reflect Asthma + COPD participants. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||0.971|0.886|
82510136|NCT01494610|164713449|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.892|||||TWO_SIDED|90.0|0.848|0.939|||||Data reflect participants with asthma only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||0.939|0.848|
82523644|NCT01255592|164743063|SUPERIORITY_OR_OTHER||Ratio of LS means|3.24|||<|0.001|TWO_SIDED|90.0|2.19|4.79|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||4.79|2.19|<0.001
82523645|NCT01255592|164743064|SUPERIORITY_OR_OTHER||Ratio of LS means|1.02||||0.917|TWO_SIDED|90.0|0.71|1.48|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.48|0.71|0.917
82523646|NCT01255592|164743065|SUPERIORITY_OR_OTHER||Ratio of LS means|0.17||||0.111|TWO_SIDED|90.0|0.03|1.08|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.08|0.03|0.111
82523647|NCT01255592|164743066|SUPERIORITY_OR_OTHER||Ratio of LS means|1.33||||0.367|TWO_SIDED|90.0|0.79|2.26|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.26|0.79|0.367
82630683|NCT03728881|164977707|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|Ratio of the GMCs|1.11|||||TWO_SIDED|96.0|0.95|1.29|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.29|0.95|
82630684|NCT03728881|164977709|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.42|||||TWO_SIDED|99.0|0.36|0.5|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.50|0.36|
82630685|NCT03728881|164977711|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.9|||||TWO_SIDED|99.0|0.75|1.08|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.08|0.75|
82630686|NCT03728881|164977712|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
82630687|NCT03728881|164977713|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.006|||||||Fisher Exact|||||||=0.006
82630688|NCT03728881|164977714|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
82510137|NCT01494610|164713449|NON_INFERIORITY_OR_EQUIVALENCE|Estimates of within-par. coefficient of variation for AUC(0-tau) of FP and weighted mean (0-12 h) serum cortisol from previous studies showed that a sample size of 52 par. would have approximately 90% power to demonstrate biocomparability with respect to the two co-primary endpoints. The study was powered on the analysis of asthma and COPD par. as a combined group. A two one-sided t-test procedure with α=0.05 for each one-sided test was used. Biocomparability limits of 0.8 and 1.25 were used.|Ratio of adjusted geometric means|0.966|||||TWO_SIDED|90.0|0.889|1.049|||||Data reflect participants with COPD only. The ratio of adjusted geometric means is the comparision of treatment administered by the capsule-based inhaler and the MDPI.|||1.049|0.889|
82567985|NCT01780584|164845679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.05|TWO_SIDED|95.0|1.0|3.0||Repeated Anova was used to determine whether there was difference of FT3 levels between groups|ANOVA|||Null hypothesis: no difference of free T3 (FT3) levels will be found between placebo, low dose and high dose group. We anticipated a difference of 2 pg/ml in FT3 with a standard deviation of 0.8 pg/ml between groups. For a statistical power of 80% to identify a treatment effect and at a level significance of 0.05 (2-sided).||3|1|<0.05
82630689|NCT03728881|164977715|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.48|||||||Fisher Exact|||||||=0.48
82377635|NCT04700137|164462847|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.45|TWO_SIDED|95.0|-1.5|0.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in depression (PHQ-9) among patients by intervention arm at follow-up (6 months).||0.7|-1.5|0.45
82630690|NCT03728881|164977721|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.49|||||TWO_SIDED|96.0|0.42|0.56|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.56|0.42|
82630691|NCT03728881|164977722|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.||||||1|||||||Fisher Exact|||||||1.0
82630692|NCT03728881|164977724|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.09|||||TWO_SIDED|96.0|0.93|1.27||||||||1.27|0.93|
82510138|NCT03985813|164713499|SUPERIORITY|||||||0.083||||||Threshold for significance P\<0.05|Chi-squared|||||||0.083
82630693|NCT03728881|164977725|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.0006|||||||Fisher Exact|||||||=0.0006
82567986|NCT01780584|164845681|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.0||||0.31||95.0|3.0|10.0||Kruskal Wallis test was used to determine any difference of time of extubation between groups.|Kruskal-Wallis|||Null hypothesis: no difference of time to extubation between group. Statistical power 80% and level of significance 0.05||10|3|0.31
82567987|NCT01780584|164845682|SUPERIORITY_OR_OTHER||Median Difference (Net)|50.0||||0.4||95.0|40.0|60.0|||Kruskal-Wallis|||Null hypothesis: there is no difference of length of stay in Intensive Care Unit. Statistical power 80% and level of significance 0.05.||60|40|0.4
82630694|NCT03728881|164977727|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.41|||||TWO_SIDED|99.0|0.35|0.49|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.49|0.35|
82630695|NCT03728881|164977728|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
82630696|NCT03728881|164977730|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.86|||||TWO_SIDED|99.0|0.71|1.04|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.04|0.71|
82567988|NCT01780584|164845683|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.06||95.0|5.0|15.0|||Kruskal-Wallis|||Null hypothesis: there is no difference of postoperative hospital length of stay between groups. Statistical power 80% and level of significance 0.05.||15|5|0.06
82567989|NCT04783519|164845684|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.39||||0.004|TWO_SIDED|95.0|-0.65|-0.127|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||-0.127|-0.650|.004
82567990|NCT04783519|164845684|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.21||||0.118|TWO_SIDED|95.0|-0.482|0.054|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||.054|-.482|.118
82630697|NCT03728881|164977731|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.478|||||||Fisher Exact|||||||=0.478
82630698|NCT03728881|164977733|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.33|||||TWO_SIDED|95.0|1.12|1.58|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.58|1.12|
82630699|NCT03728881|164977736|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.29|||||TWO_SIDED|95.0|1.09|1.54|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.54|1.09|
82630700|NCT03728881|164977739|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.2|1.81|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.81|1.20|
82630701|NCT03728881|164977740|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose 9-10 year old girls and one-dose 11-14 year old girls. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||||||=1.0
82567991|NCT04783519|164845684|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.41||||0.003|TWO_SIDED|95.0|-0.674|-0.142|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||-0.142|-0.674|.003
82567992|NCT04783519|164845684|SUPERIORITY||beta coefficient|-0.16||||0.24|TWO_SIDED|95.0|-0.428|0.107|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.107|-0.428|.240
82630702|NCT03728881|164977742|NON_INFERIORITY|We reject the noninferiority hypothesis if the lower limit of the two-sided 95% confidence interval on R ≥ 0.67 for HPV16 and HPV18.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.15|1.75|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||1.75|1.15|
82630703|NCT03728881|164977743|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose 9-10 year old girls and one-dose 11-14 year old girls. A p-value under 0.05 will be regarded as significant.|||||=|0.368|||||||Fisher Exact|||||||=0.368
82630704|NCT03728881|164977745|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.46|||||TWO_SIDED|96.0|0.38|0.56|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.56|0.38|
82630705|NCT03728881|164977745|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.58|||||TWO_SIDED|96.0|0.48|0.7|||||Generalized estimating equations were used to estimate R and construct confidence intervals.|||0.70|0.48|
82630706|NCT03728881|164977745|EQUIVALENCE|A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|||||=|0.079||||||The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|p-values test for heterogeneity|||||||=0.079
82630707|NCT03728881|164977746|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the older one-dose recipients and the older three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|1|||||||Fisher Exact|||NOTE: Younger one-dose recipients (9-11 Year Old Girls) and three-dose recipients (18-21 Year Old Women) both had a 100% seroconversion proportion for HPV16 at 36 months, so a p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between older one-dose recipients (9-11 Year Old Girls) and three-dose recipients (22-25 Year Old Women).||||=1.0000
82630708|NCT03728881|164977748|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.01|||||TWO_SIDED|96.0|0.82|1.25||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.25|0.82|
82510139|NCT03985813|164713500|SUPERIORITY||||||>|0.99||||||Threshold for statistical significance P\<0.05|Chi-squared|||||||>0.99
82510140|NCT02161718|164713507|SUPERIORITY||Hazard Ratio (HR)|0.91|STANDARD_ERROR_OF_MEAN|0.251||0.746|TWO_SIDED|95.0|0.53|1.56|||Log Rank|||||1.56|0.53|0.746
82510141|NCT02161718|164713508|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.372|TWO_SIDED|95.0|0.43|1.37|||Andersen-Gill Recurrent-Event Cox Model|||||1.37|0.43|0.372
82510142|NCT02161718|164713509|SUPERIORITY||Odds Ratio (OR)|0.99||||0.963|TWO_SIDED|95.0|0.56|1.73|||Regression, Logistic|||||1.73|0.56|0.963
82510143|NCT00409292|164713530|SUPERIORITY_OR_OTHER|||||||0.1|||||||binomial hypothesis test|||||||0.10
82523648|NCT01255592|164743067|SUPERIORITY_OR_OTHER||Ratio of LS means|1.54||||0.112|TWO_SIDED|90.0|0.98|2.4|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||2.40|0.98|0.112
82523649|NCT01255592|164743068|SUPERIORITY_OR_OTHER||Ratio of LS means|1.05||||0.241|TWO_SIDED|90.0|0.98|1.12|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.12|0.98|0.241
82523650|NCT01255592|164743069|SUPERIORITY_OR_OTHER||Ratio of LS means|5.5|||<|0.001|TWO_SIDED|90.0|4.18|7.23|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||7.23|4.18|<0.001
82523651|NCT01255592|164743070|SUPERIORITY_OR_OTHER||Ratio of LS means|1.16||||0.281|TWO_SIDED|90.0|0.92|1.47|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.47|0.92|0.281
82523652|NCT01255592|164743071|SUPERIORITY_OR_OTHER||Ratio of LS means|1.56||||0.001|TWO_SIDED|90.0|1.28|1.91|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||1.91|1.28|0.001
82523653|NCT01255592|164743072|SUPERIORITY_OR_OTHER||Ratio of LS means|6.07|||<|0.001|TWO_SIDED|90.0|4.42|8.35|||ANCOVA|||Analysis of covariance included treatment, inhaled corticosteroids, Pseudomonas aeruginosa infection and baseline as covariates.||8.35|4.42|<0.001
82523654|NCT00605202|164743092|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value of the change in the plasma potassium (baseline to 2 weeks) between arms|t-test, 2 sided|||Statistical analysis applies to the change in the plasma potassium (baseline to 2 weeks) between arms||||0.007
82523655|NCT01904864|164743120|SUPERIORITY||Mean Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.4|1.6|||Regression, Linear||Change at 12 weeks compared|||1.6|0.4|<0.001
82523656|NCT02629991|164743162|SUPERIORITY|||||||0.059||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.059
82510144|NCT02350309|164713534|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.15||||0.0262|ONE_SIDED|95.0|-2.12|||The mixed model included treatment, period and sequence as fixed effects, baseline (predose) measurement as a covariate, and participant nested within treatment sequence as a random effect.|Mixed Models Analysis||||||-2.12|0.0262
82510145|NCT02350309|164713534|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.48|||<|0.0001|ONE_SIDED|95.0|-4.46|||The mixed model included treatment, period and sequence as fixed effects, baseline (predose) measurement as a covariate, and participant nested within treatment sequence as a random effect.|Mixed Models Analysis||||||-4.46|<0.0001
82567993|NCT04783519|164845685|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-4.88||||0.003|TWO_SIDED|95.0|-8.1|-1.65|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||-1.65|-8.10|.003
82567994|NCT04783519|164845685|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-1.71||||0.308|TWO_SIDED|95.0|-4.98|1.57|||Regression, Linear|Models control for age, sex, race, and ethnicity.||"Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.~Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/)"||1.57|-4.98|.308
82567995|NCT04783519|164845685|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-4.52||||0.007|TWO_SIDED|95.0|-7.8|-1.25|||Regression, Linear|Models control for age, sex, race, and ethnicity.||"Changes from Baseline to 3 Month for BASICS+SLEEP vs. AOC reported in this section.~Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/)"||-1.25|-7.8|.007
82567996|NCT04783519|164845685|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|beta coefficient|-0.83||||0.621|TWO_SIDED|95.0|-4.12|2.46|||Regression, Linear|Models control for age, sex, race, and ethnicity.||Changes from Baseline to 3 Month for BASICS vs. AOC reported in this section. Score on measure (T-score method https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3261577/ )||2.46|-4.12|.621
82567997|NCT04783519|164845686|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.802||||0.054|TWO_SIDED|95.0|0.641|1.003|||Mixed Models Analysis|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.003|0.641|.054
82567998|NCT04783519|164845686|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.75||||0.015|TWO_SIDED|95.0|0.6|0.946|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.946|0.600|.015
82567999|NCT04783519|164845686|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.736||||0.013|TWO_SIDED|95.0|0.578|0.937|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.937|0.578|.013
82568000|NCT04783519|164845686|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.658||||0.001|TWO_SIDED|95.0|0.513|0.844|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.844|0.513|.001
82568001|NCT04783519|164845687|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.992||||0.96|TWO_SIDED|95.0|0.716|1.374|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.374|0.716|.960
82568002|NCT04783519|164845687|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.782||||0.152|TWO_SIDED|95.0|0.506|1.094|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.094|0.506|.152
82568003|NCT04783519|164845687|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.887||||0.482|TWO_SIDED|95.0|0.634|1.24|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||1.240|0.634|.482
82568004|NCT04783519|164845687|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.67||||0.02|TWO_SIDED|95.0|0.634|1.24|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||1.240|0.634|.020
82510146|NCT02350309|164713535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0215||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||0.0215
82510147|NCT02350309|164713535|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||<0.0001
82510148|NCT02350309|164713535|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||P-value was calculated based on non-missing two-way contingency table between placebo and study treatment.|McNemar|||||||<0.0001
82510149|NCT01205165|164713559|SUPERIORITY_OR_OTHER|||||||0||95.0||||P-value is calculated from Wilcoxon signed rank test to compare difference between baseline and week12|Wilcoxon signed rank test|||Baseline and Week 12||||0.00000
82568005|NCT04783519|164845688|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.724||||0.032|TWO_SIDED|95.0|0.54|0.973|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.973|0.540|.032
82568006|NCT04783519|164845688|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.588|||<|0.001|TWO_SIDED|95.0|0.432|0.8|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.800|0.432|<.001
82568007|NCT04783519|164845689|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.699||||0.009|TWO_SIDED|95.0|0.535|0.914|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.914|0.535|.009
82568008|NCT04783519|164845689|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.675||||0.005|TWO_SIDED|95.0|0.512|0.888|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.888|0.512|.005
82568009|NCT04783519|164845689|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.698||||0.013|TWO_SIDED|95.0|0.526|0.928|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.928|0.526|.013
82568010|NCT04783519|164845689|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.525|||<|0.001|TWO_SIDED|95.0|0.385|0.715|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.715|0.385|<.001
82568011|NCT04783519|164845690|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.598||||0.01|TWO_SIDED|95.0|0.404|0.885|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.885|0.404|.010
82568012|NCT04783519|164845690|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.502||||0.001|TWO_SIDED|95.0|0.331|0.76|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.760|0.331|.001
82568013|NCT04783519|164845690|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.516||||0.002|TWO_SIDED|95.0|0.337|0.79|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||0.790|0.337|.002
82568014|NCT04783519|164845690|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.506||||0.002|TWO_SIDED|95.0|0.33|0.774|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Poisson model to address overdispersion (Negative binomial would not converge).||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.774|0.330|.002
82568015|NCT04783519|164845691|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.628||||0.003|TWO_SIDED|95.0|0.462|0.853|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||0.853|0.462|.003
82568016|NCT04783519|164845691|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.744||||0.073|TWO_SIDED|95.0|0.538|1.028|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.028|0.538|.073
82568017|NCT04783519|164845691|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.764||||0.09|TWO_SIDED|95.0|0.559|1.043|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.043|0.559|.090
82568018|NCT04783519|164845691|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category.|count/rate ratio|0.656||||0.013|TWO_SIDED|95.0|0.469|0.916|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||0.916|0.469|.013
82568019|NCT04783519|164845692|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.753||||0.087|TWO_SIDED|95.0|0.546|1.041|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS+SLEEP vs. AOC reported in this section.||1.041|0.546|.087
82568020|NCT04783519|164845692|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.739||||0.078|TWO_SIDED|95.0|0.528|1.034|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to Post Assessment for BASICS vs. AOC reported in this section.||1.034|0.528|.078
82510150|NCT02942017|164713572|SUPERIORITY||Least Square (LS) Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.019||0.016|TWO_SIDED|95.0|-4.52|-0.48|||MMRM|||Mixed effect model for repeated measures (MMRM) was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.48|-4.52|0.0160
82510151|NCT02942017|164713573|SUPERIORITY||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|1.271||0.671|TWO_SIDED|95.0|-1.98|3.07|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.07|-1.98|0.6710
82510152|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.738||0.4216|TWO_SIDED|95.0|-2.06|0.87|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.87|-2.06|0.4216
82510153|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.905||0.3947|TWO_SIDED|95.0|-2.57|1.02|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.02|-2.57|0.3947
82510154|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.962||0.328|TWO_SIDED|95.0|-2.86|0.96|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.96|-2.86|0.3280
82510155|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.994||0.2522|TWO_SIDED|95.0|-3.12|0.83|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.83|-3.12|0.2522
82510156|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|1.091||0.1431|TWO_SIDED|95.0|-3.78|0.55|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-3.78|0.1431
82568021|NCT04783519|164845692|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.773||||0.099|TWO_SIDED|95.0|0.569|1.05|||Generalized linear mixed model|Models control for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS+SLEEP vs. AOC reported in this section.||1.050|0.569|.099
82510157|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|1.113||0.0991|TWO_SIDED|95.0|-4.06|0.36|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-4.06|0.0991
82510158|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|1.155||0.0389|TWO_SIDED|95.0|-4.71|-0.13|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-4.71|0.0389
82523657|NCT02629991|164743163|SUPERIORITY|||||||0.088||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.088
82523658|NCT02629991|164743164|SUPERIORITY|||||||0.027|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.027
82523659|NCT02629991|164743165|SUPERIORITY|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.16|||||||Mixed effects model|||||||0.16
82523660|NCT02629991|164743166|SUPERIORITY|||||||0.69|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.69
82510159|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-3.48|STANDARD_ERROR_OF_MEAN|1.108||0.0022|TWO_SIDED|95.0|-5.67|-1.28|||MMRM|||Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.28|-5.67|0.0022
82510160|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.429||0.0255|TWO_SIDED|95.0|-6.08|-0.4|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.40|-6.08|0.0255
82510161|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|1.356||0.1375|TWO_SIDED|95.0|-4.73|0.66|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.66|-4.73|0.1375
82510162|NCT02942017|164713574|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.4||0.817|TWO_SIDED|95.0|-3.11|2.46|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.46|-3.11|0.8170
82510163|NCT02942017|164713575|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0168|TWO_SIDED|95.0|1.2|6.7|||GEE method|||Hour 60: Generalized estimating equation (GEE) method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model.||6.7|1.2|0.0168
82510164|NCT02942017|164713575|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0482|TWO_SIDED|95.0|1.0|6.6|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model.||6.6|1.0|0.0482
82510165|NCT02942017|164713575|SUPERIORITY||Odds Ratio (OR)|0.8||||0.5857|TWO_SIDED|95.0|0.3|2.0|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||2.0|0.3|0.5857
82510166|NCT02942017|164713576|SUPERIORITY||Odds Ratio (OR)|3.4||||0.0033|TWO_SIDED|95.0|1.5|7.9||Hour 60:|GEE method|||Hour 60: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||7.9|1.5|0.0033
82510167|NCT02942017|164713576|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0046|TWO_SIDED|95.0|1.5|9.3|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||9.3|1.5|0.0046
82510168|NCT02942017|164713576|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3085|TWO_SIDED|95.0|0.3|1.5|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D remission at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||1.5|0.3|0.3085
82510169|NCT02942017|164713577|SUPERIORITY||LS mean difference|-8.35|STANDARD_ERROR_OF_MEAN|2.989||0.0063|TWO_SIDED|95.0|-14.29|-2.42|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.42|-14.29|0.0063
82510170|NCT02942017|164713577|SUPERIORITY||LS mean difference|-9.75|STANDARD_ERROR_OF_MEAN|3.566||0.0074|TWO_SIDED|95.0|-16.83|-2.68|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.68|-16.83|0.0074
82510171|NCT02942017|164713577|SUPERIORITY||LS mean difference|1.37|STANDARD_ERROR_OF_MEAN|3.149||0.6637|TWO_SIDED|95.0|-4.88|7.63|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit was the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||7.63|-4.88|0.6637
82510172|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.154||0.5132|TWO_SIDED|95.0|-0.41|0.21|||MMRM|||Depressed Mood, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.41|0.5132
82510173|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.181||0.1672|TWO_SIDED|95.0|-0.61|0.11|||MMRM|||Depressed Mood, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.61|0.1672
82510174|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.178||0.0963|TWO_SIDED|95.0|-0.65|0.05|||MMRM|||Depressed Mood, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.65|0.0963
82568022|NCT04783519|164845692|SUPERIORITY|Regression model with TIME × CONDITION Interactions, with AOC as reference category was run using sample of N=150.|count/rate ratio|0.704||||0.031|TWO_SIDED|95.0|0.512|0.969|||Generalized linear mixed model|Model controls for age, sex, race, and ethnicity. Negative binomial model to address overdispersion.||Changes from Baseline to 3 Month Follow-up for BASICS vs. AOC reported in this section.||0.969|0.512|.031
82568023|NCT00645099|164845693|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||Based on available data it was estimated that in the paliperidone ER group the TG:HDL ratio would decrease with 0.15 and that the TG:HDL ratio would increase with 0.25 in the olanzapine group. The common SD of the change was estimated to be 1.4. A sample size of 205 patients in each treatment arm had 80% power to detect a difference of 0.4 in change of TG:HDL ratio after 6 months of treatment in favor of paliperidone ER treatment (Wilcoxon two-sample test with 0.05 two-sided significance level).||||< 0.0001
82568024|NCT00645099|164845693|SUPERIORITY_OR_OTHER|||||||0.4718||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group comparison of the change from baseline at end point.||||0.4718
82568025|NCT00645099|164845693|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline at end point.||||< 0.0001
82568026|NCT00645099|164845694|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
82568027|NCT00645099|164845694|SUPERIORITY_OR_OTHER|||||||0.9143||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.9143
82568028|NCT00645099|164845694|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
82568029|NCT00645099|164845695|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0050
82568030|NCT00645099|164845695|SUPERIORITY_OR_OTHER|||||||0.4454||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.4454
82568031|NCT00645099|164845695|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.0018
82568032|NCT00645099|164845696|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
82568033|NCT00645099|164845697|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0004
82568034|NCT00645099|164845698|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0272
82568035|NCT00645099|164845699|SUPERIORITY_OR_OTHER|||||||0.1892||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1892
82568036|NCT00645099|164845700|SUPERIORITY_OR_OTHER|||||||0.0325||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.0325
82568037|NCT00645099|164845701|SUPERIORITY_OR_OTHER|||||||0.1117||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1117
82510175|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.183||0.4803|TWO_SIDED|95.0|-0.49|0.23|||MMRM|||Depressed Mood, Hour 12:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.49|0.4803
82510176|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.191||0.0844|TWO_SIDED|95.0|-0.71|0.05|||MMRM|||Depressed Mood, Hour 24:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.71|0.0844
82568038|NCT00645099|164845702|SUPERIORITY_OR_OTHER|||||||0.6346||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.6346
82568039|NCT00645099|164845703|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||1.0000
82568040|NCT00645099|164845704|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.6770
82568041|NCT00645099|164845705|SUPERIORITY_OR_OTHER|||||||0.1308||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.1308
82568042|NCT00645099|164845706|SUPERIORITY_OR_OTHER|||||||0.3358||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||0.3358
82568043|NCT00645099|164845707|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
82510177|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.193||0.1325|TWO_SIDED|95.0|-0.68|0.09|||MMRM|||Depressed Mood, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.68|0.1325
82510178|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.192||0.0332|TWO_SIDED|95.0|-0.79|-0.03|||MMRM|||Depressed Mood, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.79|0.0332
82510179|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.189||0.1273|TWO_SIDED|95.0|-0.67|0.08|||MMRM|||Depressed Mood, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.67|0.1273
82630709|NCT03728881|164977748|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.24|||||TWO_SIDED|96.0|1.01|1.54||||||The cohort for the analysis of HPV16 at 36 months by enrollment age group includes participants who received the appropriate number of vaccine doses within the specified windows, were initially seronegative for HPV16, underwent blood collection at the 36-month mark, and reported no additional HPV vaccinations outside the study before the 36-month blood collection, as confirmed by self-report or serologic testing for HPV6/HPV11.||1.54|1.01|
82630710|NCT03728881|164977748|EQUIVALENCE|A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|||||=|0.14||||||The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|p-values test for heterogeneity|||||||=0.14
82630711|NCT03728881|164977749|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the younger one-dose recipients and the younger three-dose recipients.|||||=|0.001||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||Calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between younger one-dose recipients (9-11 Year Old Girls) and the younger three-dose recipients (18-21 Year Old Women).||||=0.001
82630712|NCT03728881|164977749|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between older one-dose and older three-dose recipients. A p-value under 0.05 will be regarded as significant.|||||=|0.737||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||Calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between older one-dose recipients (12-14 Year Old Girls) and the older three-dose recipients (22-25 Year Old Women).||||=0.737
82630713|NCT03728881|164977751|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.41|||||TWO_SIDED|99.0|0.33|0.52||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.52|0.33|
82630714|NCT03728881|164977751|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.47|||||TWO_SIDED|99.0|0.37|0.6||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.60|0.37|
82568044|NCT00645099|164845707|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||0.0001
82510180|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.182||0.1059|TWO_SIDED|95.0|-0.66|0.06|||MMRM|||Depressed Mood, Hour 72:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.66|0.1059
82568045|NCT00645099|164845707|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||< 0.0001
82568046|NCT00645099|164845708|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
82568047|NCT00645099|164845709|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|This test was interpreted at the 5% significance level (2-tailed).||||||<0.0001
82510181|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.215||0.0683|TWO_SIDED|95.0|-0.82|0.03|||MMRM|||Depressed Mood, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.82|0.0683
82510182|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.232||0.4458|TWO_SIDED|95.0|-0.64|0.28|||MMRM|||Depressed Mood, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.64|0.4458
82510183|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.228||0.2905|TWO_SIDED|95.0|-0.21|0.7|||MMRM|||Depressed Mood, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.70|-0.21|0.2905
82510184|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.182||0.3096|TWO_SIDED|95.0|-0.18|0.55|||MMRM|||Depressed Mood, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-0.18|0.3096
82510185|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.165||0.1925|TWO_SIDED|95.0|-0.55|0.11|||MMRM|||Feeling of Guilt, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.55|0.1925
82510186|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.168||0.0101|TWO_SIDED|95.0|-0.77|-0.11|||MMRM|||Feeling of Guilt, Hour 4:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-0.77|0.0101
82510187|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.163||0.1546|TWO_SIDED|95.0|-0.56|0.09|||MMRM|||Feeling of Guilt, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.56|0.1546
82510188|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.168||0.0901|TWO_SIDED|95.0|-0.62|0.05|||MMRM|||Feeling of Guilt, Hour 12:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.62|0.0901
82510189|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.162||0.0717|TWO_SIDED|95.0|-0.62|0.03|||MMRM|||Feeling of Guilt, Hour 24:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.62|0.0717
82510190|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.169||0.0468|TWO_SIDED|95.0|-0.68|0.0|||MMRM|||Feeling of Guilt, Hour 36:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.68|0.0468
82510191|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.173||0.2222|TWO_SIDED|95.0|-0.56|0.13|||MMRM|||Feeling of Guilt, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.56|0.2222
82510192|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.156||0.0682|TWO_SIDED|95.0|-0.6|0.02|||MMRM|||Feeling of Guilt, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.60|0.0682
82523661|NCT02629991|164743167|SUPERIORITY|||||||0.034||||||Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.|Mixed effects model|||||||0.034
82523662|NCT02629991|164743168|SUPERIORITY|||||||0.009|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.009
82568048|NCT00645099|164845710|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Fisher Exact|This test was interpreted at the 5% significance level (2-tailed).||||||0.0230
82630715|NCT03728881|164977751|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.028||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.028
82510193|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0147|TWO_SIDED|95.0|-0.72|-0.08|||MMRM|||Feeling of Guilt, Hour 72:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.72|0.0147
82510194|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.182||0.0837|TWO_SIDED|95.0|-0.68|0.04|||MMRM|||Feeling of Guilt, Day 7:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.68|0.0837
82510195|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.179||0.5828|TWO_SIDED|95.0|-0.46|0.26|||MMRM|||Feeling of Guilt, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.46|0.5828
82510196|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.168||0.5674|TWO_SIDED|95.0|-0.43|0.24|||MMRM|||Feeling of Guilt, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.43|0.5674
82510197|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.145||0.4613|TWO_SIDED|95.0|-0.18|0.4|||MMRM|||Feeling of Guilt, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.18|0.4613
82510198|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.082||0.324|TWO_SIDED|95.0|-0.24|0.08|||MMRM|||Suicide, Hour 2:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.24|0.3240
82377636|NCT04700137|164462847|SUPERIORITY||Median Difference (Final Values)|0.3||||0.51|TWO_SIDED|95.0|-0.7|1.3||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in depression (PHQ-9) among healthcare providers/staff by intervention arm at follow-up (6 months).||1.3|-0.7|0.51
82510199|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.082||0.3023|TWO_SIDED|95.0|-0.24|0.08|||MMRM|||Suicide, Hour 4:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.24|0.3023
82510200|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.4127|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 8:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.4127
82510201|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.082||0.2819|TWO_SIDED|95.0|-0.25|0.07|||MMRM|||Suicide, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.25|0.2819
82523663|NCT02629991|164743169|SUPERIORITY|||||||0.033|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.033
82523664|NCT02629991|164743170|SUPERIORITY|||||||0.78|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.78
82523665|NCT02629991|164743171|SUPERIORITY|||||||0.53|||||||Mixed effects model|Mixed effects model with random slopes and intercepts, including main effects for time and treatment group and a time by treatment interaction term.||||||0.53
82523666|NCT01814748|164743172|SUPERIORITY_OR_OTHER||Difference in least squares means|0.12||||0.535|TWO_SIDED|95.0|-0.26|0.49|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||0.49|-0.26|0.535
82523667|NCT01814748|164743173|SUPERIORITY_OR_OTHER||Difference in percent|-0.4|||||TWO_SIDED|95.0|-13.8|13.0||||||||13.0|-13.8|
82523668|NCT01814748|164743174|SUPERIORITY_OR_OTHER||Difference in percent|-2.0||||||||||||||||||
82510202|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3884|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3884
82510203|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.082||0.275|TWO_SIDED|95.0|-0.25|0.07|||MMRM|||Suicide, Hour 36:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.25|0.2750
82510204|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.082||0.1811|TWO_SIDED|95.0|-0.27|0.05|||MMRM|||Suicide, Hour 48:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.27|0.1811
82510205|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3854|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 60:MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3854
82510206|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.082||0.3822|TWO_SIDED|95.0|-0.23|0.09|||MMRM|||Suicide, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.23|0.3822
82510207|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.082||0.9255|TWO_SIDED|95.0|-0.17|0.15|||MMRM|||Suicide, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.17|0.9255
82510208|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.091||0.6714|TWO_SIDED|95.0|-0.14|0.22|||MMRM|||Suicide, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.14|0.6714
82510209|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.091||0.9838|TWO_SIDED|95.0|-0.18|0.18|||MMRM|||Suicide, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.18|0.9838
82510210|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.083||0.8884|TWO_SIDED|95.0|-0.17|0.15|||MMRM|||Suicide, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.17|0.8884
82510211|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.097||0.6996|TWO_SIDED|95.0|-0.23|0.16|||MMRM|||Insomnia-Early, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.23|0.6996
82510212|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.121||0.4426|TWO_SIDED|95.0|-0.15|0.33|||MMRM|||Insomnia-Early, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.15|0.4426
82510213|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.8743|TWO_SIDED|95.0|-0.2|0.24|||MMRM|||Insomnia-Early, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.20|0.8743
82523148|NCT00224770|164741551|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.2|STANDARD_ERROR_OF_MEAN|14.9||0.156|ONE_SIDED|95.0||43.7|||Fisher Exact|One-sided test|ICES rate=42.9, 95% upper limit=67.5; medical rate=23.7, 95% upper limit=37.7; comparison considers ICES rate minus medical rate.|Null hypothesis is that the proportion with mRS score of 0-3 at 180 days is the same between the two groups. The alternative hypothesis tests whether ICES surgical management has a higher proportion than the medical arm.||43.7||0.156
82510214|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.118||0.3498|TWO_SIDED|95.0|-0.12|0.35|||MMRM|||Insomnia-Early, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.12|0.3498
82510215|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.151||0.0839|TWO_SIDED|95.0|-0.56|0.04|||MMRM|||Insomnia-Early, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.56|0.0839
82523149|NCT01106430|164741552|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.001||95.0|||||Peto-Peto-Prentice Wilcoxon Test|||||||=0.001
82523150|NCT01106430|164741553|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.1||||0.001|TWO_SIDED|95.0|7.5|28.7|||Cochran-Mantel-Haenszel|||||28.7|7.5|0.001
82523151|NCT01106430|164741554|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.5|||<|0.001|TWO_SIDED|95.0|-9.3|-3.6|||ANCOVA|||||-3.6|-9.3|<0.001
82523152|NCT01106430|164741555|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.046|TWO_SIDED|95.0|-0.17|0.0|||ANCOVA|||||-0.00|-0.17|0.046
82523153|NCT00662857|164741561|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.982|||||TWO_SIDED|90.0|0.846|1.141|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge to 2 x 15 U cartridges of TI.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||1.141|0.846|
82523154|NCT00662857|164741562|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.951|||||TWO_SIDED|90.0|0.823|1.099|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge to 2 x 15 U cartridges of TI.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||1.099|0.823|
82523155|NCT00662857|164741563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3531|||||||Signed Rank Test|||||||0.3531
82523156|NCT00662857|164741564|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.46|||||TWO_SIDED|90.0|0.366|0.578|||||"Geometric Mean Ratio of serum insulin from a single 30 U cartridge of TI to 10 U sc insulin lispro.~Based on pair-wise comparisons from analysis of covariance fitting the model: natural log of parameter = cohort, treatment, visit, subject (cohort)."|||0.578|0.366|
82523157|NCT03882879|164741595|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
82523158|NCT03882879|164741596|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82523159|NCT03882879|164741597|SUPERIORITY|||||||0.76||||||Between-group two-sided t-test|t-test, 2 sided|||||||0.76
82523160|NCT03882879|164741598|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82523161|NCT03882879|164741599|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
82523162|NCT01250990|164741603|SUPERIORITY_OR_OTHER|||||||0.8||||||p value is for comparison between changes in reverse cholesterol transport in niacin versus placebo groups after 12 weeks of treatment.|t-test, 2 sided|||This is a pilot study to assess the effects of niacin on reverse cholesterol transport. The null hypothesis is that niacin has no effect on reverse cholesterol transport.||||0.8
82523163|NCT03292146|164741604|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||||||0.009
82523164|NCT03292146|164741605|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82523165|NCT03292146|164741606|SUPERIORITY|||||||0.06|||||||Matched pairs|||||||0.06
82523166|NCT03292146|164741606|SUPERIORITY|||||||0.01|||||||Matched pairs|||||||0.01
82523167|NCT03039023|164741607|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.2||||||A p-value \<0.05 was considered significant.|Wilcoxon signed-rank test|||||||0.20
82523168|NCT03039023|164741607|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523169|NCT03039023|164741607|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523170|NCT03039023|164741607|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523171|NCT03039023|164741607|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.27||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.27
82523172|NCT03039023|164741608|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.1||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.10
82523173|NCT03039023|164741608|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.0002||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.0002
82523174|NCT03039023|164741608|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.01||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.01
82523175|NCT03039023|164741608|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.006||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.006
82523176|NCT03039023|164741608|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.79||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.79
82523177|NCT03039023|164741609|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.28||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.28
82523178|NCT03039023|164741609|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523179|NCT03039023|164741609|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523180|NCT03039023|164741609|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523181|NCT03039023|164741609|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.11||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.11
82510216|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.157||0.2595|TWO_SIDED|95.0|-0.49|0.13|||MMRM|||Insomnia-Early, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.49|0.2595
82510217|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.168||0.056|TWO_SIDED|95.0|-0.66|0.01|||MMRM|||Insomnia-Early, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.66|0.0560
82510218|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.6187|TWO_SIDED|95.0|-0.45|0.27|||MMRM|||Insomnia-Early, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.45|0.6187
82510219|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.163||0.0187|TWO_SIDED|95.0|-0.72|-0.07|||MMRM|||Insomnia-Early, Hour 72 MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.72|0.0187
82510220|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.18||0.1531|TWO_SIDED|95.0|-0.62|0.1|||MMRM|||Insomnia-Early, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.62|0.1531
82510221|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.197||0.3341|TWO_SIDED|95.0|-0.58|0.2|||MMRM|||Insomnia-Early, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.58|0.3341
82510222|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.216||0.8969|TWO_SIDED|95.0|-0.4|0.46|||MMRM|||Insomnia-Early, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.40|0.8969
82510223|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.174||0.5862|TWO_SIDED|95.0|-0.25|0.44|||MMRM|||Insomnia-Early, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.25|0.5862
82510224|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.117||0.3776|TWO_SIDED|95.0|-0.13|0.34|||MMRM|||Insomnia-Middle, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.13|0.3776
82510225|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.9029|TWO_SIDED|95.0|-0.26|0.23|||MMRM|||Insomnia-Middle, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.26|0.9029
82510226|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.121||0.6173|TWO_SIDED|95.0|-0.18|0.3|||MMRM|||Insomnia-Middle, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.18|0.6173
82510227|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.124||0.2433|TWO_SIDED|95.0|-0.1|0.39|||MMRM|||Insomnia-Middle, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.10|0.2433
82510228|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.139||0.0234|TWO_SIDED|95.0|-0.59|-0.04|||MMRM|||Insomnia-Middle, Hour 24 MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.59|0.0234
82510229|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.139||0.054|TWO_SIDED|95.0|-0.55|0.0|||MMRM|||Insomnia-Middle, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.55|0.0540
82510230|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.144||0.0406|TWO_SIDED|95.0|-0.58|-0.01|||MMRM|||Insomnia-Middle, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.58|0.0406
82510231|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.132||0.0295|TWO_SIDED|95.0|-0.56|-0.03|||MMRM|||Insomnia-Middle, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.56|0.0295
82510232|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.135||0.0925|TWO_SIDED|95.0|-0.5|0.04|||MMRM|||Insomnia-Middle, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.50|0.0925
82377637|NCT04700137|164462848|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.54|TWO_SIDED|95.0|-1.3|0.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in anxiety (GAD-7) among patients by intervention arm at follow-up (6 months).||0.7|-1.3|0.54
82510233|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.152||0.1631|TWO_SIDED|95.0|-0.52|0.09|||MMRM|||Insomnia-Middle, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.52|0.1631
82510234|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.185||0.2213|TWO_SIDED|95.0|-0.6|0.14|||MMRM|||Insomnia-Middle, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.60|0.2213
82510235|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.189||0.9175|TWO_SIDED|95.0|-0.36|0.39|||MMRM|||Insomnia-Middle, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.36|0.9175
82523182|NCT03039023|164741610|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.005||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.005
82523183|NCT03039023|164741610|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.001
82523184|NCT03039023|164741610|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.001
82510236|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.165||0.6763|TWO_SIDED|95.0|-0.4|0.26|||MMRM|||Insomnia-Middle, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.40|0.6763
82510237|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.121||0.3805|TWO_SIDED|95.0|-0.13|0.35|||MMRM|||Insomnia-Late, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.13|0.3805
82510238|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.127||0.6073|TWO_SIDED|95.0|-0.19|0.32|||MMRM|||Insomnia-Late, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.19|0.6073
82377638|NCT04700137|164462848|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.04|TWO_SIDED|95.0|0.1|2.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in anxiety (GAD-7) among healthcare providers/staff by intervention arm at follow-up (6 months).||2.0|0.1|0.04
82510239|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.119||0.7848|TWO_SIDED|95.0|-0.27|0.2|||MMRM|||Insomnia-Late, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.27|0.7848
82510240|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.9038|TWO_SIDED|95.0|-0.25|0.23|||MMRM|||Insomnia-Late, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.25|0.9038
82510241|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.134|STANDARD_ERROR_OF_MEAN|0.134||0.6869|TWO_SIDED|95.0|-0.32|0.21|||MMRM|||Insomnia-Late, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.32|0.6869
82510242|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.139||0.9272|TWO_SIDED|95.0|-0.26|0.29|||MMRM|||Insomnia-Late, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.26|0.9272
82510243|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.131||0.6931|TWO_SIDED|95.0|-0.31|0.21|||MMRM|||Insomnia-Late, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.31|0.6931
82510244|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.132||0.8262|TWO_SIDED|95.0|-0.29|0.23|||MMRM|||Insomnia-Late, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.29|0.8262
82510245|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.141||0.0749|TWO_SIDED|95.0|-0.54|0.03|||MMRM|||Insomnia-Late, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.54|0.0749
82510246|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.135||0.1923|TWO_SIDED|95.0|-0.45|0.09|||MMRM|||Insomnia-Late, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.45|0.1923
82510247|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.176||0.0326|TWO_SIDED|95.0|-0.73|-0.03|||MMRM|||Insomnia-Late, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.73|0.0326
82510248|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.171||0.444|TWO_SIDED|95.0|-0.47|0.21|||MMRM|||Insomnia-Late, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.47|0.4440
82510249|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.134||0.7057|TWO_SIDED|95.0|-0.32|0.22|||MMRM|||Insomnia-Late, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.32|0.7057
82510250|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.137||0.2865|TWO_SIDED|95.0|-0.42|0.13|||MMRM|||Work and Activities, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.42|0.2865
82510251|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.9475|TWO_SIDED|95.0|-0.33|0.35|||MMRM|||Work and Activities, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.33|0.9475
82510252|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.185||0.188|TWO_SIDED|95.0|-0.61|0.12|||MMRM|||Work and Activities, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.61|0.1880
82568049|NCT00645099|164845711|NON_INFERIORITY_OR_EQUIVALENCE|Testing non-inferiority of the paliperidone ER treatment group compared to the olanzapine treatment group, with regard to change versus baseline at end point of the total PANSS was done by means of Schuirmann's test. A difference of 6 points in change versus baseline on the total PANSS was considered to be a minimum clinically relevant difference.The null hypothesis is that there is no difference between paliperidone and olanzapine in change in TG:HDL ratio from baseline to endpoint.||||||0.0242||95.0|||||Schuirmann|The null hypothesis of non-equivalence was rejected and equivalence to within the specified equivalence bounds could be claimed.||||||0.0242
82510253|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.203||0.595|TWO_SIDED|95.0|-0.51|0.29|||MMRM|||Work and Activities, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.51|0.5950
82568050|NCT00645099|164845711|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
82510254|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.2||0.9636|TWO_SIDED|95.0|-0.39|0.41|||MMRM|||Work and Activities, Hour 24 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.41|-0.39|0.9636
82510255|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.196||0.5836|TWO_SIDED|95.0|-0.5|0.28|||MMRM|||Work and Activities, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.50|0.5836
82510256|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.184||0.1568|TWO_SIDED|95.0|-0.63|0.1|||MMRM|||Work and Activities, Hour 48 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.63|0.1568
82568051|NCT00645099|164845711|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon signed rank test|This test was interpreted at the 5% significance level (2-tailed).||Within-group change from baseline to end point.||||<0.0001
82568052|NCT01201915|164845712|SUPERIORITY_OR_OTHER|||||||0.8463|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 50% or less.||||0.8463
82568053|NCT01201915|164845712|SUPERIORITY_OR_OTHER|||||||0.9668|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 30% or less.||||0.9668
82568054|NCT01201915|164845712|SUPERIORITY_OR_OTHER|||||||0.7878|||||||1-sided exact binomial test|||The null hypothesis was that percentage of participants with complete histologic clearance was 50% or less.||||0.7878
82568055|NCT02329223|164845726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7|STANDARD_ERROR_OF_MEAN|0.815|<|0.001|TWO_SIDED|95.0|-5.31|-2.098|||Mixed Model with repeated measures(MMRM)|||||-2.098|-5.310|<0.001
82568056|NCT02329223|164845726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.29|STANDARD_ERROR_OF_MEAN|0.828||0.006|TWO_SIDED|95.0|-3.921|-0.654|||Mixed Model with repeated measures(MMRM)|||||-0.654|-3.921|0.006
82510257|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.177||0.0155|TWO_SIDED|5.0|-0.79|-0.09|||Wilcoxon (Mann-Whitney)|||Work and Activities, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.79|0.0155
82510258|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.192||0.0504|TWO_SIDED|95.0|-0.76|0.0|||MMRM|||Work and Activities, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.76|0.0504
82510259|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.212||0.1865|TWO_SIDED|95.0|-0.7|0.14|||MMRM|||Work and Activities, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.70|0.1865
82510260|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.22||0.0518|TWO_SIDED|95.0|-0.87|0.0|||MMRM|||Work and Activities, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.87|0.0518
82510261|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.239||0.833|TWO_SIDED|95.0|-0.42|0.53|||MMRM|||Work and Activities, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.53|-0.42|0.8330
82510262|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.191||0.844|TWO_SIDED|95.0|-0.34|0.42|||MMRM|||Work and Activities, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.34|0.8440
82510263|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.121||0.4602|TWO_SIDED|95.0|-0.15|0.33|||MMRM|||Retardation, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.15|0.4602
82510264|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.117||0.0891|TWO_SIDED|95.0|-0.03|0.43|||MMRM|||Retardation, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.03|0.0891
82510265|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.117||0.3088|TWO_SIDED|95.0|-0.11|0.35|||MMRM|||Retardation, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.11|0.3088
82510266|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.112||0.856|TWO_SIDED|95.0|-0.24|0.2|||MMRM|||Retardation, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.24|0.8560
82510267|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.125||0.9702|TWO_SIDED|95.0|-0.24|0.25|||MMRM|||Retardation, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.24|0.9702
82510268|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.114||0.8001|TWO_SIDED|95.0|-0.25|0.2|||MMRM|||Retardation, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.25|0.8001
82523185|NCT03039023|164741610|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.009||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.009
82523186|NCT03039023|164741610|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.04||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.04
82510269|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.109||0.3223|TWO_SIDED|95.0|-0.11|0.32|||MMRM|||Retardation, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.32|-0.11|0.3223
82510270|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.089||0.3385|TWO_SIDED|95.0|-0.26|0.09|||MMRM|||Retardation, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.09|-0.26|0.3385
82510271|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7003|TWO_SIDED|95.0|-0.16|0.24|||MMRM|||Retardation, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.24|-0.16|0.7003
82510272|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.099||0.0311|TWO_SIDED|95.0|-0.41|-0.02|||MMRM|||Retardation, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||-0.02|-0.41|0.0311
82510273|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.079||0.1976|TWO_SIDED|95.0|-0.26|0.06|||MMRM|||Retardation, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.06|-0.26|0.1976
82377639|NCT04700137|164462849|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.1|1.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors.|T-score of 50 = mean of the US general population (2010 Census); 10 T-score units = one standard deviation. Higher T-scores = higher stress. T-scores equal to or greater than 60.5 (adults) or 60.8 (adolescents) are moderate or high risk.|Change in stress from baseline to 6 months among patients.||1.7|-2.1|0.84
82510274|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.092||0.5489|TWO_SIDED|95.0|-0.24|0.13|||MMRM|||Retardation, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.13|-0.24|0.5489
82510275|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.075||0.7992|TWO_SIDED|95.0|-0.17|0.13|||MMRM|||Retardation, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects||0.13|-0.17|0.7992
82510276|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.103||0.0573|TWO_SIDED|95.0|-0.4|0.01|||MMRM|||Agitation, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.40|0.0573
82510277|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0431|TWO_SIDED|95.0|-0.44|-0.01|||MMRM|||Agitation, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.44|0.0431
82510278|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.108||0.006|TWO_SIDED|95.0|-0.52|-0.09|||MMRM|||Agitation, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.52|0.0060
82523187|NCT03039023|164741611|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.93||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.93
82523188|NCT03039023|164741611|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.01||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.01
82523189|NCT03039023|164741611|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.003||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.003
82523190|NCT03039023|164741611|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.04||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.04
82523191|NCT03039023|164741611|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.99||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.99
82510279|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.127||0.0215|TWO_SIDED|95.0|-0.55|-0.04|||MMRM|||Agitation, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.55|0.0215
82510280|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.109||0.0422|TWO_SIDED|95.0|-0.44|-0.01|||MMRM|||Agitation, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.44|0.0422
82510281|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.126||0.0433|TWO_SIDED|95.0|-0.51|-0.01|||MMRM|||Agitation, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.51|0.0433
82510282|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.118||0.0051|TWO_SIDED|95.0|-0.57|-0.1|||MMRM|||Agitation, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.57|0.0051
82510283|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.133||0.0973|TWO_SIDED|95.0|-0.48|0.04|||MMRM|||Agitation, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.48|0.0973
82510284|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.126||0.0036|TWO_SIDED|95.0|-0.63|-0.13|||MMRM|||Agitation, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-0.63|0.0036
82510285|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.131||0.0498|TWO_SIDED|95.0|-0.52|0.0|||MMRM|||Agitation, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.52|0.0498
82510286|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.147||0.5111|TWO_SIDED|95.0|-0.39|0.2|||MMRM|||Agitation, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.39|0.5111
82510287|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.155||0.5839|TWO_SIDED|95.0|-0.39|0.22|||MMRM|||Agitation, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.39|0.5839
82510288|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.1905|TWO_SIDED|95.0|-0.33|0.07|||MMRM|||Agitation, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.33|0.1905
82510289|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.162||0.1767|TWO_SIDED|95.0|-0.54|0.1|||MMRM|||Anxiety Psychic, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.54|0.1767
82510290|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.5182|TWO_SIDED|95.0|-0.47|0.24|||MMRM|||Anxiety Psychic, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.47|0.5182
82630716|NCT03728881|164977752|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between the older one-dose recipients and the older three-dose recipients.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: Younger one-dose recipients (9-11 Year Old Girls) and three-dose recipients (18-21 Year Old Women) both had a 100% seroconversion proportion for HPV16 at 24months, so a p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between older one-dose recipients (9-11 Year Old Girls) and three-dose recipients (22-25 Year Old Women).||||=1.000
82630717|NCT03728881|164977754|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.85|||||TWO_SIDED|99.0|0.65|1.1||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.10|0.65|
82630718|NCT03728881|164977754|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|1.0|||||TWO_SIDED|99.0|0.77|1.29||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤0.05 because the null chance of rejection for either HPV16or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.29|0.77|
82630719|NCT03728881|164977754|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.24||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.24
82630720|NCT03728881|164977755|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between younger one-dose and younger three-dose recipients.|||||=|0.216||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between younger one-dose recipients (9-12 Year Old Girls) and younger three-dose recipients (18-21 Year Old Women).||||=0.216
82630721|NCT03728881|164977755|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between older one-dose and older three-dose recipients.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between older one-dose recipients (12-14 Year Old Girls) and older three-dose recipients (22-25 Year Old Women).||||=1.000
82630722|NCT03728881|164977757|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.52|||||TWO_SIDED|96.0|0.43|0.64||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.64|0.43|
82630723|NCT03728881|164977757|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.49|||||TWO_SIDED|96.0|0.41|0.58||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.58|0.41|
82630724|NCT03728881|164977757|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.73||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.73
82523192|NCT03039023|164741612|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.02||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.02
82523193|NCT03039023|164741612|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523194|NCT03039023|164741612|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.|||||<|0.0001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||<0.0001
82523195|NCT03039023|164741612|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.001||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.001
82523196|NCT03039023|164741612|EQUIVALENCE|For equivalence testing, the difference was assumed to be 0.||||||0.02||||||A p-value \<0.05 was considered significant.|Wilcoxon Signed Rank test|||||||0.02
82377640|NCT04700137|164462849|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.18|TWO_SIDED|95.0|-0.7|3.7||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors.|T-score of 50 = mean of the US general population (2010 Census); 10 T-score units = one standard deviation. Higher T-scores = higher stress. T-scores equal to or greater than 60.5 (adults) or 60.8 (adolescents) are moderate or high risk.|Change in stress from baseline to 6 months among healthcare providers/staff.||3.7|-0.7|0.18
82510291|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.185||0.393|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Anxiety Psychic, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3930
82510292|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.189||0.5212|TWO_SIDED|95.0|-0.5|0.25|||MMRM|||Anxiety Psychic, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.50|0.5212
82568057|NCT03449134|164845748|OTHER||Estimated Percent Change Difference|-18.45||||0.041|TWO_SIDED|95.0|-32.92|-0.86||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||-0.86|-32.92|0.041
82568058|NCT03449134|164845748|OTHER||Estimated Percent Change Difference|1.56||||0.874|TWO_SIDED|95.0|-16.13|22.99||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||22.99|-16.13|0.874
82568059|NCT03449134|164845751|OTHER||Estimated Percent Change Difference|-17.68||||0.056|TWO_SIDED|95.0|-32.57|0.5||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||0.50|-32.57|0.056
82568060|NCT03449134|164845751|OTHER||Estimated Percent Change Difference|2.95||||0.77|TWO_SIDED|95.0|-15.33|25.19||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 12 based on log transformed data.||25.19|-15.33|0.770
82568061|NCT03449134|164845752|OTHER||Odds Ratio (OR)|1.2||||0.416|TWO_SIDED|95.0|0.77|1.86|||Regression, Logistic|||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.86|0.77|0.416
82568062|NCT03449134|164845752|OTHER||Odds Ratio (OR)|1.01||||0.948|TWO_SIDED|95.0|0.66|1.55|||Regression, Logistic|||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.55|0.66|0.948
82568063|NCT03449134|164845753|OTHER||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.94|2.05||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.05|0.94|
82568064|NCT03449134|164845753|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|1.01|2.18||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.18|1.01|
82568065|NCT03449134|164845754|OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|1.11|2.54||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.54|1.11|
82568066|NCT03449134|164845754|OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|1.01|2.3||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline CSD score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.30|1.01|
82568067|NCT03449134|164845755|OTHER||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|1.03|2.3||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline VAS score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.30|1.03|
82568068|NCT03449134|164845755|OTHER||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.86|1.89||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline VAS score, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.89|0.86|
82568069|NCT03449134|164845756|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.85|1.98||||||Comparison based on a logistic regression model that included visit, treatment-by-visit interaction, gender, region, baseline LCQ score, and the interaction of baseline (underlying continuous response) by visit as covariates.||1.98|0.85|
82510293|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.184||0.4741|TWO_SIDED|95.0|-0.5|0.23|||MMRM|||Anxiety Psychic, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.50|0.4741
82523669|NCT01814748|164743175|SUPERIORITY_OR_OTHER||Difference in least squares means|4.2||||0.685|TWO_SIDED|95.0|-16.1|24.4|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||24.4|-16.1|0.685
82523670|NCT01814748|164743176|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.7||||0.586|TWO_SIDED|95.0|-17.1|9.7|||Constrained longitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.||||9.7|-17.1|0.586
82510294|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.186||0.4482|TWO_SIDED|95.0|-0.51|0.23|||MMRM|||Anxiety Psychic, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.51|0.4482
82510295|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.187||0.0963|TWO_SIDED|95.0|-0.69|0.06|||MMRM|||Anxiety Psychic, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.69|0.0963
82510296|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.171||0.003|TWO_SIDED|95.0|-0.86|-0.18|||MMRM|||Anxiety Psychic, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.18|-0.86|0.0030
82510297|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.177||0.1116|TWO_SIDED|95.0|-0.63|0.07|||MMRM|||Anxiety Psychic, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.63|0.1116
82510298|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.173||0.004|TWO_SIDED|95.0|-0.86|-0.17|||MMRM|||Anxiety Psychic, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-0.86|0.0040
82510299|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.244||0.8253|TWO_SIDED|95.0|-0.54|0.43|||MMRM|||Anxiety Psychic, Day 14 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.54|0.8253
82523671|NCT01814748|164743177|SUPERIORITY_OR_OTHER||Between-group rate difference|-0.4|||||TWO_SIDED|95.0|-14.0|13.1|||Mietinnen and Nurminen|||||13.1|-14.0|
82523672|NCT01814748|164743178|SUPERIORITY_OR_OTHER||Between-group rate difference|4.0|||||TWO_SIDED|95.0|-7.4|15.5|||Mietinnen and Nurminen|||||15.5|-7.4|
82523673|NCT00939874|164743180|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82523674|NCT00330174|164743182|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Mixed Models Analysis|||Drinking outcomes were analyzed using multiple linear regression, controlling for site and baseline drinking level. Drinking and psychiatric symptoms assessed over time were examined using repeated measures (intercept only) mixed linear models (PROC MIXED in SAS). Analyses were performed using SAS statistical software (version 9.2; SAS Institute, Inc., Cary, NC). All tests were two-tailed and p-values less than 0.05 were considered statistically significant.||||0.64
82523675|NCT01032733|164743186|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.06|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0|||||ANCOVA|||This trial represented a pilot study, which was designed to demonstrate the feasibility, acceptability, and efficacy of the intervention; therefore, a power analysis was not conducted. The statistical analyses consisted of descriptive and intent-to-treat (ITT) modeling procedures.||||<0.05
82523676|NCT01032733|164743187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_DEVIATION|5.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82523677|NCT01032733|164743188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82523678|NCT01032733|164743189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82523679|NCT01032733|164743190|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82510300|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.209||0.5795|TWO_SIDED|95.0|-0.3|0.53|||MMRM|||Anxiety Psychic, Day 21 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.53|-0.30|0.5795
82510301|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.182||0.4032|TWO_SIDED|95.0|-0.21|0.51|||MMRM|||Anxiety Psychic, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.51|-0.21|0.4032
82510302|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.133||0.6117|TWO_SIDED|95.0|-0.33|0.2|||MMRM|||Anxiety Somatic, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.33|0.6117
82510303|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4716|TWO_SIDED|95.0|-0.35|0.16|||MMRM|||Anxiety Somatic, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.35|0.4716
82510304|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.136||0.6041|TWO_SIDED|95.0|-0.34|0.2|||MMRM|||Anxiety Somatic, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.34|0.6041
82568070|NCT03449134|164845756|OTHER||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.92|2.12||||||Comparison based on a logistic regression model that included visit, treatment-by-visit interaction, gender, region, baseline LCQ score, and the interaction of baseline (underlying continuous response) by visit as covariates.||2.12|0.92|
82510305|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.132||0.0424|TWO_SIDED|95.0|-0.53|-0.01|||MMRM|||Anxiety Somatic, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.53|0.0424
82568071|NCT00993798|164845757|SUPERIORITY||LS Mean Difference|-1.27|STANDARD_DEVIATION|0.5||0.012|TWO_SIDED|95.0|-2.25|-0.28|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||-0.28|-2.25|0.012
82568072|NCT00993798|164845758|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.01|TWO_SIDED|95.0|-12.0|0.0|||Wilcoxon (Mann-Whitney)|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.0|-12.0|0.010
82568073|NCT00993798|164845759|SUPERIORITY|||||||0.014|||||||Log Rank|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||||0.014
82568074|NCT00993798|164845760|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.08||0.773|TWO_SIDED|95.0|-0.18|0.14|||ANOVA|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.14|-0.18|0.773
82568075|NCT01699698|164845834|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82568076|NCT00352053|164845848|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline genotypic sensitivity score (GSS) (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Time-weighted average changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Time-weighted average changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.55
82630725|NCT03728881|164977758|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate one-dose and three-dose recipients who enrolled June - August.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled April - May both had a 100% seroconversion proportion for HPV16 at 36 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between one-dose recipients and three-dose recipients enrolled June - August.||||=1.000
82630726|NCT03728881|164977760|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.26||||||96.0|1.0|1.58||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.58|1.00|
82630727|NCT03728881|164977760|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.01||||||96.0|0.83|1.24||||||||1.24|0.83|
82630728|NCT03728881|164977760|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.15||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|The p-values test for heterogeneity|||||||=0.15
82630729|NCT03728881|164977761|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled April - May.|||||=|0.253||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled April - May.||||=0.253
82630730|NCT03728881|164977761|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|0.015||||||A p-value under 0.05 will be regarded as significant|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled June - August.||||=0.015
82630731|NCT03728881|164977763|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.43||||||99.0|0.33|0.55||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.55|0.33|
82630732|NCT03728881|164977763|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.42|||||TWO_SIDED|99.0|0.34|0.52||||||||0.52|0.34|
82630733|NCT03728881|164977763|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.95||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.95
82510306|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.138||0.7622|TWO_SIDED|95.0|-0.32|0.23|||MMRM|||Anxiety Somatic, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.32|0.7622
82510307|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2689|TWO_SIDED|95.0|-0.4|0.11|||MMRM|||Anxiety Somatic, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.40|0.2689
82630734|NCT03728881|164977764|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled April - May both had a 100% seroconversion proportion for HPV16 at 24 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate between one-dose recipients and three-dose recipients enrolled June - August.||||=1.000
82523197|NCT03701399|164741621|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.7581|TWO_SIDED|95.0|-0.47|0.34|||Mixed Models Analysis||Model based summary statistics were from a mixed model with repeated measures, including fixed effects for treatment, randomization stratum (SCA genotype group), visit, treatment-by-visit interaction, and country, baseline score as a covariate|All SCA participants||0.34|-0.47|0.7581
82630735|NCT03728881|164977766|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.91|||||TWO_SIDED|99.0|0.69|1.19||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.19|0.69|
82630736|NCT03728881|164977766|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.89|||||TWO_SIDED|99.0|0.69|1.14||||||||1.14|0.69|
82630737|NCT03728881|164977766|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.88||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.88
82510308|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.134||0.211|TWO_SIDED|95.0|-0.44|0.1|||MMRM|||Anxiety Somatic, Hour 48 : MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.44|0.2110
82510309|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.135||0.5873|TWO_SIDED|95.0|-0.34|0.2|||MMRM|||Anxiety Somatic, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.34|0.5873
82510310|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.114||0.045|TWO_SIDED|95.0|-0.46|-0.01|||MMRM|||Anxiety Somatic, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.46|0.0450
82510311|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.152||0.0847|TWO_SIDED|95.0|-0.57|0.04|||MMRM|||Anxiety Somatic, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.57|0.0847
82510312|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.189||0.2522|TWO_SIDED|95.0|-0.16|0.6|||MMRM|||Anxiety Somatic, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.60|-0.16|0.2522
82510313|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.16||0.5026|TWO_SIDED|95.0|-0.43|0.21|||MMRM|||Anxiety Somatic, day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.43|0.5026
82630738|NCT03728881|164977767|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled April - May.|||||=|0.629||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled April - May.||||=0.629
82630739|NCT03728881|164977767|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled June - August.|||||=|0.175||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate of HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled June - August.||||=0.175
82630740|NCT03728881|164977769|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.52||||||96.0|0.43|0.64||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||0.64|0.43|
82630741|NCT03728881|164977769|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.48||||||96.0|0.4|0.58||||||||0.58|0.40|
82630742|NCT03728881|164977769|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.46||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.46
82630743|NCT03728881|164977770|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled from mountainous districts both had a 100% seroconversion proportion for HPV16 at 36 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate for HPV16 at 36 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
82630744|NCT03728881|164977772|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|1.27||||||96.0|1.03|1.57||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.57|1.03|
82630745|NCT03728881|164977772|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 36 months the lower limit of the two-sided 96% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.)|GMC Ratio|0.99||||||96.0|0.8|1.23||||||||1.23|0.80|
82630746|NCT03728881|164977772|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.095||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.095
82630747|NCT03728881|164977773|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|0.327||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=0.327
82630748|NCT03728881|164977773|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from mountainous districts.|||||=|0.012||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 36 months between one-dose recipients and three-dose recipients enrolled from mountainous districts.||||=0.012
82510314|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.149||0.5911|TWO_SIDED|95.0|-0.38|0.22|||MMRM|||Anxiety Somatic, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.38|0.5911
82510315|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.122||0.58|TWO_SIDED|95.0|-0.18|0.31|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.18|0.5800
82523198|NCT03701399|164741621|SUPERIORITY||Least square mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.28||0.045|TWO_SIDED|95.0|-1.11|-0.01|||Mixed Models Analysis||Model based summary statistics were from a mixed model with repeated measures, including fixed effects for treatment, randomization stratum (SCA genotype group), visit, treatment-by-visit interaction, and country.|SCA3 genotype participants||-0.01|-1.11|0.0450
82523199|NCT00448448|164741632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.0267|TWO_SIDED|95.0|1.08|3.46|||Regression, Logistic|The success rate was adjusted for the propensity score (probability of receiving a brace) and the duration of follow-up.||||3.46|1.08|<0.0267
82510316|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.129||0.6754|TWO_SIDED|95.0|-0.31|0.2|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.31|0.6754
82510317|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.116||0.1006|TWO_SIDED|95.0|-0.04|0.42|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.04|0.1006
82630749|NCT03728881|164977775|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.45|||||TWO_SIDED|99.0|0.36|0.58||||||||0.58|0.36|
82630750|NCT03728881|164977775|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.4|||||TWO_SIDED|99.0|0.32|0.5||||||||0.50|0.32|
82630751|NCT03728881|164977775|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.3||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.30
82630752|NCT03728881|164977776|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||NOTE: One-dose recipients and three-dose recipients enrolled from mountainous districts had a 100% seroconversion proportion for HPV16 at 24 months, so the p-value for the difference of the seroconversion rate between them could not be calculated. Therefore, we only include the calculated p-value for the comparison of the seroconversion rate for HPV16 at 24 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
82630753|NCT03728881|164977778|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|1.02||||||99.0|0.79|1.32||||||This procedure controls the overall type one error at 0.05. We are conducting 4 one-sided tests and will spend alpha as follows: 0.005 of the alpha each for HPV16 and for HPV18 at 24 months and 0.02 of the alpha each for HPV16 and for HPV18 at 36 months. The experiment-wise significance level accounting for multiple comparisons is ≤ 0.05 because the null chance of rejection for either HPV16 or HPV18 is ≤0.01 at 24 months by the Bonferroni inequality and ≤0.04 at 36 months.||1.32|0.79|
82630754|NCT03728881|164977778|NON_INFERIORITY|Let R=GMC1/GMC3 be the ratio of geometric mean concentrations of 1 dose to 3 doses. We reject the noninferiority hypothesis if at 24 months the lower limit of the two-sided 99% confidence interval on R ≥ 0.67 for HPV16 and HPV18. The overall Type 1 error rate for rejecting the null hypotheses for both HPV16 and HPV18 (i.e., declaring noninferiority of the 1D2V) at either time point was controlled at 0.025.|GMC Ratio|0.81||||||99.0|0.63|1.04||||||||1.04|0.63|
82630755|NCT03728881|164977778|EQUIVALENCE|The p-values test for heterogeneity in the GMC ratios estimated from the stratified analyses.|||||=|0.1||||||A p-value \<0.05 is interpreted as significantly different GMC ratios in different strata.|p-values test for heterogeneity|||||||=0.10
82630756|NCT03728881|164977779|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from coastal districts.|||||=|1||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled from coastal districts.||||=1.000
82630757|NCT03728881|164977779|EQUIVALENCE|We will use a Fisher Exact test to test for the difference of the seroconversion rate between one-dose and three-dose recipients enrolled from mountainous districts.|||||=|0.339||||||A p-value under 0.05 will be regarded as significant.|Fisher Exact|||The calculated p-value for the comparison of the seroconversion rate for HPV18 at 24 months between one-dose recipients and three-dose recipients enrolled from mountainous districts.||||=0.339
82510318|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.12||0.3588|TWO_SIDED|95.0|-0.13|0.35|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.13|0.3588
82510319|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.109||0.5807|TWO_SIDED|95.0|-0.28|0.16|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.28|0.5807
82510320|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.112||0.4241|TWO_SIDED|95.0|-0.13|0.31|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.13|0.4241
82568077|NCT00352053|164845849|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Time-weighted average changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Time-weighted average changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.40
82568078|NCT00352053|164845850|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.58
82568079|NCT00352053|164845851|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the tenofovir DF and placebo groups are different (two-sided).||||0.37
82568080|NCT00352053|164845858|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma CD4 count for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in CD4 count for the tenofovir DF and placebo groups are different (two-sided).||||0.71
82568081|NCT00352053|164845859|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma CD4 count for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4 count for the tenofovir DF and placebo groups are different (two-sided).||||0.47
82568082|NCT00352053|164845866|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 24 in plasma CD4% for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 24 in CD4% for the tenofovir DF and placebo groups are different (two-sided).||||0.26
82568083|NCT00352053|164845867|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||No adjustments for multiple comparisons were made.|Van Elteren test|P-value is from a Van Elteren test stratified by baseline GSS (without tenofovir DF) \<= or \> median (median GSS is 2).||Null hypothesis: Changes from baseline through Week 48 in plasma CD4% for the tenofovir DF and placebo groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4% for the tenofovir DF and placebo groups are different (two-sided).||||0.63
82568084|NCT00352053|164845874|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 24 in HIV-1 RNA for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 24 in HIV-1 RNA for the tenofovir DF and placebo groups is different (two-sided).||||0.67
82378479|NCT06075277|164465505|OTHER||Ratios of adjusted geometric means [%]|126.64|||||TWO_SIDED|90.0|112.09|143.08|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 19.8|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||143.08|112.09|
82510321|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.115||0.7984|TWO_SIDED|95.0|-0.26|0.2|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.26|0.7984
82510322|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.122||0.8732|TWO_SIDED|95.0|-0.22|0.26|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.22|0.8732
82510323|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.107||0.8621|TWO_SIDED|95.0|-0.19|0.23|||MMRM|||Somatic Symptoms Gastrointestinal, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.19|0.8621
82510324|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.126||0.1087|TWO_SIDED|95.0|-0.45|0.05|||MMRM|||Somatic Symptoms Gastrointestinal, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.45|0.1087
82510325|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.125||0.2153|TWO_SIDED|95.0|-0.41|0.09|||MMRM|||Somatic Symptoms Gastrointestinal, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.41|0.2153
82510326|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.145||0.1422|TWO_SIDED|95.0|-0.51|0.07|||MMRM|||Somatic Symptoms Gastrointestinal, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.51|0.1422
82510327|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.114||0.7211|TWO_SIDED|95.0|-0.19|0.27|||MMRM|||Somatic Symptoms Gastrointestinal, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.19|0.7211
82510328|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.103||0.8224|TWO_SIDED|95.0|-0.18|0.23|||MMRM|||Somatic Symptoms General, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.18|0.8224
82510329|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6362|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Somatic Symptoms General, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6362
82510330|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.123||0.6094|TWO_SIDED|95.0|-0.31|0.18|||MMRM|||Somatic Symptoms General, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.31|0.6094
82510331|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.123||0.0457|TWO_SIDED|95.0|-0.49|0.0|||MMRM|||Somatic Symptoms General, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.49|0.0457
82510332|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5691|TWO_SIDED|95.0|-0.36|0.2|||MMRM|||Somatic Symptoms General, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.36|0.5691
82510333|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2942|TWO_SIDED|95.0|-0.4|0.12|||MMRM|||Somatic Symptoms General, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.40|0.2942
82630758|NCT04088331|164977845|SUPERIORITY||||||<|0.001|||||||Exact binomial test|||"Hypotheses:~H0: p ≤ 0.65 H1: p \> 0.65 where p = the proportion of subjects who are a treatment success.~Hypotheses evaluated using a one-sided exact binomial test.~Power calculation assumed a treatment success rate of 80%. With a one-sided type I error of 0.025 and a type II error of 0.10 (90% power), a sample size of 96 subjects needed to demonstrate the proportion of subjects who are a treatment success exceeds 65%."||||< 0.001
82630759|NCT03233308|164977855|OTHER|||||||0.001|||||||t-test, 1 sided|||Mean Change from Baseline||||0.0010
82630760|NCT03233308|164977856|OTHER|||||||0.0003|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline)||||0.0003
82630761|NCT03233308|164977857|OTHER|||||||0.0687|||||||t-test, 1 sided|||Mean change from baseline -EVP||||0.0687
82630762|NCT03233308|164977857|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Mean change from baseline -IOP||||<0.0001
82630763|NCT03233308|164977858|OTHER|||||||0.0087|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline) -EVP||||0.0087
82630764|NCT03233308|164977858|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Mean change from baseline (percent difference from baseline)- IOP||||<0.0001
82630765|NCT05559203|164977884|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.752|||||||t-test, 2 sided|paired sample||Feasibility study so no power calculation. N = 18 with baseline and follow-up data.||||.752
82630766|NCT05559203|164977885|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.197|||||||t-test, 2 sided|||Feasibility study so no power calculation. N = 18 with baseline and follow-up data.||||.197
82630767|NCT05559203|164977886|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.562|||||||t-test, 2 sided|||||||.562
82630768|NCT05559203|164977887|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.02|||||||t-test, 2 sided|||Anxiety subscale||||.020
82510334|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.136||0.5389|TWO_SIDED|95.0|-0.35|0.19|||MMRM|||Somatic Symptoms General, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.35|0.5389
82510335|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.141||0.4061|TWO_SIDED|95.0|-0.4|0.16|||MMRM|||Somatic Symptoms General, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.40|0.4061
82630769|NCT05559203|164977887|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.002|||||||t-test, 2 sided|||Depression subscale||||.002
82630770|NCT05559203|164977888|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.036|||||||t-test, 2 sided|||||||.036
82630771|NCT05559203|164977889|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.042|||||||t-test, 2 sided|||||||.042
82630772|NCT05559203|164977890|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82630773|NCT05559203|164977891|EQUIVALENCE|0.05 test of null hypothesis that there will be no significant change from baseline to post-intervention||||||0.781|||||||t-test, 2 sided|||||||.781
82630774|NCT00804986|164977945|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.47||||0.0109|TWO_SIDED|95.0|-0.83|-0.11||p-value represents change from baseline to Week 12 HbA1c for 0.5 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.11|-0.83|0.0109
82630775|NCT00804986|164977945|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.67||||0.0003|TWO_SIDED|95.0|-1.02|-0.31||p-value represents change from baseline to week 12 HbA1c for 2.0 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.31|-1.02|0.0003
82630776|NCT00804986|164977945|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.76||p-value represents change from baseline to Week 12 HbA1c for 6.2 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.76|-1.46|<0.0001
82630777|NCT00804986|164977945|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.64|-0.93||p-value represents change from baseline to Week 12 HbA1c for 12.0 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.93|-1.64|<0.0001
82630778|NCT00804986|164977945|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.88||p-value represents change from baseline to Week 12 HbA1c for 17.6 mg treatment arm in comparison to placebo with values \<0.05 considered to be statistically significant.|Mixed Models Analysis|Mixed effects model: baseline HbA1c, metformin use, treatment, visit, treatment-by-visit interaction||||-0.88|-1.59|<0.0001
82630779|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|1.93||||0.655||95.0||||p-value represents change from baseline to Week 12 for hunger, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.655
82568085|NCT00352053|164845875|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 48 in HIV-1 RNA for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants who had at least a 1.0 log10 copies/mL decrease from baseline to Week 48 in HIV-1 RNA for the tenofovir DF and placebo groups is different (two-sided).||||0.67
82568086|NCT00352053|164845882|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 24 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 24 for the tenofovir DF and placebo groups is different (two-sided).||||1.00
82630780|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|3.36||||0.436||95.0||||p-value represents change from baseline to Week 12 for hunger, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.436
82568087|NCT00352053|164845883|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 48 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 400 copies/mL at Week 48 for the tenofovir DF and placebo groups is different (two-sided).||||0.38
82568088|NCT00352053|164845890|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 for the tenofovir DF and placebo groups is different (two-sided).||||0.22
82568089|NCT00352053|164845891|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.||Null hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 for the tenofovir DF and placebo groups is equal. Alternative hypothesis: Percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 for the tenofovir DF and placebo groups is different (two-sided).||||0.48
82568090|NCT00352053|164845898|SUPERIORITY_OR_OTHER|||||||0.29||95.0||||No adjustments for multiple comparisons were made.|Log Rank|No adjustments were made.||Null hypothesis: The survival functions for the tenofovir DF and placebo groups up to Week 48 are equal. Alternative hypothesis: The survival functions for the tenofovir DF and placebo groups up to Week 48 are different (two-sided).||||0.29
82568091|NCT01490359|164845905|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.008|TWO_SIDED|95.0|1.03|1.71||The GEE model included baseline measure of consistent condom use, intervention condition, time (6- vs. 12-mo follow-up), and type of partner (steady vs casual partners) with robust standard errors and an independent working correlation matrix.|generalized estimating equations (GEE)||Estimate is odds ratio (intervention vs. health control).|Assuming alpha = 0.05, a 2-tailed test, ICC = 0.01, 15% attrition at 12-month follow-up, and N = 1,152 men in the trial from 44 neighborhoods with an average of 26 men in each neighborhood, the trial was estimated to have 81% power to detect a 10% increase in consistent condom use from 32% to 42% in the HIV/STI intervention group.||1.71|1.03|.008
82568092|NCT04150341|164845913|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.881|TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|||||0.12|-0.14|0.881
82568093|NCT04150341|164845913|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.575|TWO_SIDED|95.0|-0.17|0.1|||Mixed Models Analysis|||||0.1|-0.17|0.575
82568094|NCT01907113|164845923|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as mild renal function divided by normal renal function|Geometric mean ratio|118.24|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|96.17|145.38|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||145.38|96.17|
82568095|NCT01907113|164845923|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as moderate renal function divided by normal renal function|Geometric mean ratio|119.94|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|96.25|149.47|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||149.47|96.25|
82630781|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.45||||0.914||95.0||||p-value represents change from baseline to Week 12 for hunger, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.914
82630782|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|3.3||||0.446||95.0||||p-value represents change from baseline to Week 12 for hunger, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.446
82630783|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|2.84||||0.508||95.0||||p-value represents change from baseline to Week 12 for hunger, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.508
82630784|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|2.89||||0.561||95.0||||p-value represents change from baseline to Week 12 for how full, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.561
82630785|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-7.4||||0.135||95.0||||p-value represents change from baseline to Week 12 for how full, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.135
82630786|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-4.45||||0.357||95.0||||p-value represents change from baseline to Week 12 for how full, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.357
82630787|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-8.05||||0.105||95.0||||p-value represents change from baseline to Week 12 for how full, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.105
82568096|NCT01907113|164845923|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as severe renal function divided by normal renal function|Geometric mean ratio|166.29|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|134.44|205.68|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||205.68|134.44|
82568097|NCT01907113|164845923|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as kidney failure divided by normal renal function|Geometric mean ratio|148.29|STANDARD_DEVIATION|25.6|||TWO_SIDED|90.0|119.89|183.42|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||183.42|119.89|
82568098|NCT01907113|164845924|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as mild renal function divided by normal renal function|Geometric mean ratio|118.83|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|93.62|150.84|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||150.84|93.62|
82568099|NCT01907113|164845924|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as moderate renal function divided by normal renal function|Geometric mean ratio|102.27|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|79.33|131.85|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||131.85|79.33|
82630788|NCT00804986|164977946|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6.02||||0.221||95.0||||p-value represents change from baseline to Week 12 for how full, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.221
82510336|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.153||0.099|TWO_SIDED|95.0|-0.56|0.05|||MMRM|||Somatic Symptoms General, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.56|0.0990
82510337|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.138||0.0108|TWO_SIDED|95.0|-0.63|-0.08|||MMRM|||Somatic Symptoms General, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.63|0.0108
82510338|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.0889|TWO_SIDED|95.0|-0.59|0.04|||MMRM|||Somatic Symptoms General, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.59|0.0889
82568100|NCT01907113|164845924|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as severe renal function divided by normal renal function|Geometric mean ratio|120.68|STANDARD_DEVIATION|29.7|||TWO_SIDED|90.0|94.42|154.25|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||154.25|94.42|
82568101|NCT01907113|164845924|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as kidney failure divided by normal renal function|Geometric mean ratio|103.75|STANDARD_DEVIATION|29.7|||TWO_SIDED|95.0|81.18|132.61|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to renal impairment status).|Standard deviation is actually the geometric Coefficient of Variation \[%\].|No formal testing, investigation of relative bioavailability||132.61|81.18|
82568102|NCT00833898|164845939|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.020
82568103|NCT00833898|164845940|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Mixed Models Analysis|||||||0.15
82568104|NCT00833898|164845941|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Mixed Models Analysis|||||||0.029
82568105|NCT00833898|164845942|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.003
82568106|NCT00833898|164845943|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Mixed Models Analysis|||||||0.012
82568107|NCT00833898|164845944|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
82568108|NCT00833898|164845945|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Mixed Models Analysis|||||||0.44
82568109|NCT00833898|164845946|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Mixed Models Analysis|||||||0.75
82568110|NCT00833898|164845947|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
82568111|NCT00833898|164845948|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
82568112|NCT00833898|164845949|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Mixed Models Analysis|||||||0.55
82568113|NCT00833898|164845950|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||0.30
82568114|NCT00833898|164845951|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
82568115|NCT00833898|164845952|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
82568116|NCT00833898|164845953|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82568117|NCT00833898|164845954|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
82630789|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-4.54||||0.4848||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4848
82630790|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-19.48||||0.0029||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0029
82568118|NCT00833898|164845955|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.58
82630791|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-32.52|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630792|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-30.45|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630793|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.25|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for fasting glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630794|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-5.32||||0.6279||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.6279
82630795|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-29.72||||0.0072||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0072
82568119|NCT00833898|164845955|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.33
82568120|NCT00833898|164845956|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
82568121|NCT00833898|164845957|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.18
82630796|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-42.49|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630797|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-43.05||||0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
82630798|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-51.38|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post breakfast glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630799|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-20.21||||0.0335||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0335
82630800|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-21.91||||0.0221||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0221
82568122|NCT00833898|164845957|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||1.00
82568123|NCT00833898|164845958|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.43
82568124|NCT00833898|164845958|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.72
82568125|NCT00833898|164845959|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.43
82568126|NCT00833898|164845959|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-values represent separate wilcoxon paired sample signed rank test.|Wilcoxon (Mann-Whitney)|||||||.72
82568127|NCT03897049|164845977|SUPERIORITY||Odds Ratio (OR)|0.961||||0.914|TWO_SIDED|95.0|0.463|1.994|||Regression, Logistic|||||1.994|0.463|0.914
82568128|NCT03897049|164845978|SUPERIORITY||Odds Ratio (OR)|0.979||||0.99|TWO_SIDED|95.0|0.473|2.074|||Regression, Logistic|||||2.074|0.473|0.990
82568129|NCT03897049|164845979|SUPERIORITY||Odds Ratio (OR)|1.434||||0.167|TWO_SIDED|95.0|0.861|2.39|||Regression, Logistic|||||2.390|0.861|0.167
82630801|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-39.41|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630802|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-36.07||||0.0002||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0002
82630803|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.36|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to lunch glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630804|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6.41||||0.503||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.5030
82630805|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-12.49||||0.1938||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.1938
82510339|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.169||0.3721|TWO_SIDED|95.0|-0.18|0.49|||MMRM|||Somatic Symptoms General, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.49|-0.18|0.3721
82510340|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.141||0.5513|TWO_SIDED|95.0|-0.36|0.2|||MMRM|||Somatic Symptoms General, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.36|0.5513
82510341|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.067||0.0748|TWO_SIDED|95.0|-0.01|0.26|||MMRM|||Genital Symptoms, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.01|0.0748
82510342|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.087||0.3545|TWO_SIDED|95.0|-0.09|0.25|||MMRM|||Genital Symptoms, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.09|0.3545
82510343|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.094||0.6531|TWO_SIDED|95.0|-0.14|0.23|||MMRM|||Genital Symptoms, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.14|0.6531
82510344|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.115||0.752|TWO_SIDED|95.0|-0.26|0.19|||MMRM|||Genital Symptoms, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.26|0.7520
82510345|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.123||0.8861|TWO_SIDED|95.0|-0.26|0.23|||MMRM|||Genital Symptoms, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.26|0.8861
82630806|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-33.13||||0.0003||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0003
82630807|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.66||||0.0101||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0101
82630808|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-43.47|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post lunch glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82510346|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.127||0.328|TWO_SIDED|95.0|-0.38|0.13|||MMRM|||Genital Symptoms, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.38|0.3280
82510347|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.128||0.1123|TWO_SIDED|95.0|-0.46|0.05|||MMRM|||Genital Symptoms, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.46|0.1123
82568130|NCT03897049|164845980|SUPERIORITY||Odds Ratio (OR)|1.492||||0.118|TWO_SIDED|95.0|0.903|2.466|||Regression, Logistic|||||2.466|0.903|0.118
82568131|NCT03897049|164845981|SUPERIORITY||Odds Ratio (OR)|1.335||||0.265|TWO_SIDED|95.0|0.803|2.221|||Regression, Logistic|||||2.221|0.803|0.265
82630809|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.69||||0.006||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0060
82630810|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-34.26||||0.0002||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0002
82630811|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-38.55|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630812|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.34|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630813|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-46.26|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to dinner glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630814|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-11.84||||0.2468||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.2468
82630815|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-21.13||||0.0413||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, visit, treatment and visit by treatment interaction as fixed effects||||||0.0413
82630816|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.19||||0.0004||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0004
82630817|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-29.59||||0.004||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0040
82630818|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-49.9|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for 2 hours post dinner glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630819|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-24.02||||0.0199||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0199
82630820|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-35.77||||0.0008||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0008
82630821|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-38.17||||0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
82630822|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-40.74||||0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0001
82630823|NCT00804986|164977949|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-53.16|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 for prior to bed glucose, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630824|NCT00804986|164977950|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1131.85||||0.4193||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4193
82630825|NCT00804986|164977950|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1471.04||||0.3026||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.3026
82523446|NCT04672941|164742374|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was EQ-VAS score. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|11.8|||||TWO_SIDED|95.0|11.0|12.6|||||Least Square Mean for Visit, mean change from Baseline (3 months - baseline) of EQ-VAS based on non-responder imputation.|||12.60|11.00|
82630826|NCT00804986|164977950|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-5547.95|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630827|NCT00804986|164977950|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-6116.19|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82630828|NCT00804986|164977950|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-7786.69|||<|0.0001||95.0||||p-value represents change from baseline to Week 12 total glucose AUC for 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||<0.0001
82510348|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.116||0.2541|TWO_SIDED|95.0|-0.36|0.1|||MMRM|||Genital Symptoms, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.36|0.2541
82510349|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.143||0.011|TWO_SIDED|95.0|-0.66|-0.09|||MMRM|||Genital Symptoms, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.66|0.0110
82568132|NCT03897049|164845982|SUPERIORITY||Odds Ratio (OR)|0.99||||0.971|TWO_SIDED|95.0|0.593|1.654|||Regression, Logistic|||||1.654|0.593|0.971
82568133|NCT03897049|164845983|SUPERIORITY||Mean Difference (Net)|-0.27||||0.942|TWO_SIDED||||||Regression, Linear|||||||0.942
82630829|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.08||||0.693||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.693
82510350|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.772|TWO_SIDED|95.0|-0.36|0.27|||MMRM|||Genital Symptoms, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.36|0.7720
82510351|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6311|TWO_SIDED|95.0|-0.52|0.32|||MMRM|||Genital Symptoms, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.52|0.6311
82510352|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.207||0.6877|TWO_SIDED|95.0|-0.5|0.33|||MMRM|||Genital Symptoms, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.50|0.6877
82510353|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.186||0.2465|TWO_SIDED|95.0|-0.15|0.58|||MMRM|||Genital Symptoms, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|-0.15|0.2465
82510354|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.101||0.1279|TWO_SIDED|95.0|-0.36|0.05|||MMRM|||Hypochondriasis, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.36|0.1279
82510355|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.093||0.3946|TWO_SIDED|95.0|-0.26|0.1|||MMRM|||Hypochondriasis, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.26|0.3946
82510356|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.095||0.6694|TWO_SIDED|95.0|-0.23|0.15|||MMRM|||Hypochondriasis, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.23|0.6694
82510357|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.1113|TWO_SIDED|95.0|-0.36|0.04|||MMRM|||Hypochondriasis, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.36|0.1113
82510358|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.089||0.5811|TWO_SIDED|95.0|-0.13|0.23|||MMRM|||Hypochondriasis, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.13|0.5811
82510359|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.106||0.6794|TWO_SIDED|95.0|-0.25|0.17|||MMRM|||Hypochondriasis, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.25|0.6794
82510360|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.099||0.6031|TWO_SIDED|95.0|-0.14|0.25|||MMRM|||Hypochondriasis, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.14|0.6031
82568134|NCT03897049|164845984|SUPERIORITY||Mean Difference (Net)|0.02||||0.741|TWO_SIDED||||||Regression, Linear|||||||0.741
82568135|NCT03897049|164845985|SUPERIORITY||Mean Difference (Net)|0.07||||0.494|TWO_SIDED||||||Regression, Linear|||||||0.494
82568136|NCT03897049|164845986|SUPERIORITY||Mean Difference (Net)|0.15||||0.651|TWO_SIDED||||||Regression, Linear|||||||0.651
82568137|NCT03897049|164845987|SUPERIORITY||Mean Difference (Net)|0.3||||0.022|TWO_SIDED||||||Regression, Linear|||||||0.022
82568138|NCT03897049|164845988|SUPERIORITY||Mean Difference (Net)|2.85||||0.189|TWO_SIDED||||||Regression, Linear|||||||0.189
82510361|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.099||0.6673|TWO_SIDED|95.0|-0.24|0.15|||MMRM|||Hypochondriasis, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.24|0.6673
82510362|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.102||0.6472|TWO_SIDED|95.0|-0.25|0.16|||MMRM|||Hypochondriasis, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.25|0.6472
82510363|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.119||0.8654|TWO_SIDED|95.0|-0.26|0.22|||MMRM|||Hypochondriasis, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.26|0.8654
82510364|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.14||0.2101|TWO_SIDED|95.0|-0.48|0.11|||MMRM|||Hypochondriasis, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.48|0.2101
82510365|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.126||0.7128|TWO_SIDED|95.0|-0.3|0.21|||MMRM|||Hypochondriasis, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.30|0.7128
82510366|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.09||0.3297|TWO_SIDED|95.0|-0.27|0.09|||MMRM|||Hypochondriasis, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.27|0.3297
82510367|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.069||0.4493|TWO_SIDED|95.0|-0.08|0.19|||MMRM|||Loss of weight, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.08|0.4493
82510368|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.081||0.0717|TWO_SIDED|95.0|-0.01|0.31|||MMRM|||Loss of weight, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.01|0.0717
82523447|NCT04672941|164742375|OTHER|The logistic generalized estimating equations (GEE) model with mobility as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|4.48|||<|0.001|TWO_SIDED|95.0|3.9|5.14|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||5.14|3.90|< 0.001
82568139|NCT03897049|164845989|SUPERIORITY||Mean Difference (Final Values)|3.07||||0.218|TWO_SIDED||||||Regression, Linear|||||||0.218
82568140|NCT03897049|164845990|SUPERIORITY||Odds Ratio (OR)|0.479||||0.149|TWO_SIDED|95.0|0.173|1.305|||Regression, Logistic|||||1.305|0.173|0.149
82523448|NCT04672941|164742376|OTHER|The logistic generalized estimating equations (GEE) model with self-care as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|2.64|||<|0.001|TWO_SIDED|95.0|2.35|2.96|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||2.96|2.35|< 0.001
82523449|NCT04672941|164742377|OTHER|The logistic generalized estimating equations (GEE) model with usual activities as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|4.46|||<|0.001|TWO_SIDED|95.0|3.89|5.12|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||5.12|3.89|< 0.001
82523450|NCT04672941|164742378|OTHER|The logistic generalized estimating equations (GEE) model with pain/discomfort as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|3.0|3.85|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||3.85|3.00|< 0.001
82510369|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.066||0.1054|TWO_SIDED|95.0|-0.02|0.24|||MMRM|||Loss of Weight, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.02|0.1054
82510370|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.088||0.0408|TWO_SIDED|95.0|0.01|0.36|||MMRM|||Loss of Weight, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|0.01|0.0408
82510371|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.088||0.0233|TWO_SIDED|95.0|0.03|0.38|||MMRM|||Loss of Weight, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|0.03|0.0233
82510372|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.088||0.361|TWO_SIDED|95.0|-0.09|0.26|||MMRM|||Loss of Weight, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.09|0.3610
82510373|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2358|TWO_SIDED|95.0|-0.08|0.32|||MMRM|||Loss of Weight, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.08|0.2358
82510374|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.085||0.9492|TWO_SIDED|95.0|-0.16|0.17|||MMRM|||Loss of Weight, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.16|0.9492
82630830|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.31||||0.104||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.104
82630831|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.13||||0.506||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.506
82630832|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.09||||0.648||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.648
82630833|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.09||||0.647||95.0||||p-value represents change from baseline to Week 12 for fasting triglycerides, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.647
82630834|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.01||||0.781||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.781
82630835|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.401||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.401
82630836|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.03||||0.464||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.464
82630837|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.42||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.420
82630838|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|0.01||||0.762||95.0||||p-value represents change from baseline to Week 12 for fasting HDL, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.762
82630839|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.738||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.738
82630840|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.14||||0.277||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.277
82630841|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.21||||0.094||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.094
82630842|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.792||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.792
82523680|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.517|TWO_SIDED|95.0|-10.4|5.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4.||5.2|-10.4|0.517
82523681|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.763|TWO_SIDED|95.0|-8.9|6.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||6.5|-8.9|0.763
82523682|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.5||||0.164|TWO_SIDED|95.0|-2.3|13.3|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||13.3|-2.3|0.164
82523683|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.9|TWO_SIDED|95.0|-9.2|10.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||10.5|-9.2|0.900
82523684|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.788|TWO_SIDED|95.0|-11.1|8.4|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||8.4|-11.1|0.788
82523685|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.722|TWO_SIDED|95.0|-8.2|11.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||11.8|-8.2|0.722
82523686|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7||||0.26|TWO_SIDED|95.0|-18.2|4.9|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||4.9|-18.2|0.260
82523687|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.422|TWO_SIDED|95.0|-16.1|6.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||6.8|-16.1|0.422
82523688|NCT01218126|164743207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4||||0.564|TWO_SIDED|95.0|-15.1|8.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||8.2|-15.1|0.564
82568141|NCT03897049|164845991|SUPERIORITY||Odds Ratio (OR)|1.111||||0.839|TWO_SIDED|95.0|0.403|3.063|||Regression, Logistic|||||3.063|0.403|0.839
82568142|NCT03897049|164845992|SUPERIORITY||Odds Ratio (OR)|3.302||||0.063|TWO_SIDED|95.0|0.937|11.641|||Regression, Logistic|||||11.641|0.937|0.063
82568143|NCT03897049|164845993|SUPERIORITY||Mean Difference (Net)|-0.08||||0.65|TWO_SIDED||||||Regression, Linear|||||||0.650
82568144|NCT03897049|164845994|SUPERIORITY||Mean Difference (Net)|0.09||||0.531|TWO_SIDED||||||Regression, Linear|||||||0.531
82510375|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.102||0.4352|TWO_SIDED|95.0|-0.28|0.12|||MMRM|||Loss of Weight, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.28|0.4352
82568145|NCT03897049|164845995|SUPERIORITY||Mean Difference (Net)|-0.03||||0.761|TWO_SIDED||||||Regression, Linear|||||||0.761
82510376|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.125||0.1176|TWO_SIDED|95.0|-0.05|0.44|||MMRM|||Loss of Weight, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.05|0.1176
82568146|NCT03897049|164845996|SUPERIORITY||Mean Difference (Net)|0.11||||0.503|TWO_SIDED||||||Regression, Linear|||||||0.503
82568147|NCT03897049|164845997|SUPERIORITY||Mean Difference (Net)|0.01||||0.541|TWO_SIDED||||||Regression, Linear|||||||0.541
82568148|NCT03897049|164845998|SUPERIORITY||Mean Difference (Net)|-0.02||||0.537|TWO_SIDED||||||Regression, Linear|||||||0.537
82568149|NCT03897049|164845999|SUPERIORITY||Mean Difference (Net)|0.19||||0.057|TWO_SIDED||||||Regression, Linear|||||||0.057
82568150|NCT03897049|164846000|SUPERIORITY||Mean Difference (Net)|0.1||||0.402|TWO_SIDED||||||Regression, Linear|||||||0.402
82568151|NCT03897049|164846001|SUPERIORITY||Mean Difference (Net)|0.15||||0.308|TWO_SIDED||||||Regression, Linear|||||||0.308
82568152|NCT03897049|164846002|SUPERIORITY||Mean Difference (Net)|0.48||||0.001|TWO_SIDED||||||Regression, Linear|||||||0.001
82630843|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.21||||0.105||95.0||||p-value represents change from baseline to Week 12 for fasting LDL, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.105
82630844|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.12||||0.403||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 0.5 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.403
82630845|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.04||||0.799||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 2.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.799
82630846|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.32||||0.029||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 6.2 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.029
82630847|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.12||||0.439||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 12.0 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.439
82630848|NCT00804986|164977953|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.27||||0.062||95.0||||p-value represents change from baseline to Week 12 for fasting total cholesterol, 17.6 mg treatment arm in comparison to placebo|ANCOVA|ANCOVA: baseline and treatment||||||0.062
82630849|NCT00804986|164977954|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.16||||0.8003||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 0.5 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.8003
82630850|NCT00804986|164977954|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.26||||0.6736||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 2.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.6736
82630851|NCT00804986|164977954|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-1.53||||0.0123||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 6.2 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0123
82630852|NCT00804986|164977954|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-0.44||||0.4771||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 12.0 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.4771
82630853|NCT00804986|164977954|SUPERIORITY_OR_OTHER||Difference in mean change from baseline|-2.01||||0.0013||95.0||||p-value represents change from baseline to Week 12 for fasting weight, 17.6 mg treatment arm in comparison to placebo|Mixed Models Analysis|Mixed effects model: baseline, treatment, visit, treatment-by-visit interaction||||||0.0013
82630854|NCT00959699|164977959|SUPERIORITY_OR_OTHER||Strata-Adjusted Difference|33.7||||0.0008|TWO_SIDED|95.0|14.1|53.3||The Cochran-Mantel-Haenszel p-value is adjusted for randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) and Cirrhosis/Fibrosis (Yes or No)|Cochran-Mantel-Haenszel|||The methodology for 95% Confidence Interval (CI) is based on a Modified Koch approach which adjusted for Randomization Strata of Cirrhosis/Fibrosis (Yes or No). The adjustment of randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) was not possible due to sparse data.||53.3|14.1|0.0008
82630855|NCT00959699|164977960|SUPERIORITY_OR_OTHER||Observed Difference|34.2||||0.0007|TWO_SIDED|95.0|14.5|53.9||The Cochran-Mantel-Haenszel p-value is adjusted for randomization strata of HCV-RNA (\< or \>= 800,000 IU/mL) and Cirrhosis/Fibrosis (Yes or No)|Cochran-Mantel-Haenszel|||The methodology for 95% CI is based on the asymptotic normal approximation to the binomial distribution||53.9|14.5|0.0007
82630856|NCT02858713|164977968|SUPERIORITY||Odds Ratio (OR)|2.99|||=|0.004|TWO_SIDED|95.0|1.42|6.28|||Regression, Logistic|||||6.28|1.42|=0.004
82630857|NCT02858713|164977969|SUPERIORITY||Coefficient|-0.415|||=|0.545|TWO_SIDED|95.0|-1.77|0.939|||Regression, Linear|||DLQI: Change baseline to week 4||0.939|-1.770|=0.545
82630858|NCT02858713|164977969|SUPERIORITY||Coefficient|-0.415||||0.545|TWO_SIDED|95.0|-1.77|0.939|||Regression, Linear|||DLQI: Change from baseline to week 4||0.939|-1.770|0.545
82630859|NCT02858713|164977969|SUPERIORITY||Coefficient|-0.581||||0.45|TWO_SIDED|95.0|-2.099|0.938|||Regression, Linear|||DLQI: Change from baseline to week 8||0.938|-2.099|0.450
82510377|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.174||0.7812|TWO_SIDED|95.0|-0.3|0.4|||MMRM|||Loss of Weight, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.30|0.7812
82568153|NCT02747121|164846024|OTHER|The intervention was external inspections. This is an organizational level intervention and it does not replace any existing intervention.|Odds Ratio (OR)|1.25||||0.24|TWO_SIDED|95.0|0.86|1.8||We used calculated P-values, however only confidence intervals were reported in the published article.|Mixed Models Analysis|||||1.80|0.86|0.24
82568154|NCT02166047|164846026|SUPERIORITY||Least Squares (LS) Mean Difference|0.023||||0.59|TWO_SIDED|95.0|-0.061|0.108||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.108|-0.061|0.590
82568155|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.068||||0.12|TWO_SIDED|95.0|-0.018|0.154||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.154|-0.018|0.120
82568156|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.017||||0.701|TWO_SIDED|95.0|-0.069|0.102||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.102|-0.069|0.701
82568157|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.082||||0.21|TWO_SIDED|95.0|-0.046|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.046|0.210
82568158|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.082||||0.207|TWO_SIDED|95.0|-0.046|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.046|0.207
82568159|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.081||||0.216|TWO_SIDED|95.0|-0.048|0.21||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.210|-0.048|0.216
82568160|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|-0.015||||0.652|TWO_SIDED|95.0|-0.081|0.051||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.051|-0.081|0.652
82568161|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.0||||0.994|TWO_SIDED|95.0|-0.066|0.065||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.065|-0.066|0.994
82568162|NCT02166047|164846026|SUPERIORITY||LS Mean Difference|0.0||||0.996|TWO_SIDED|95.0|-0.069|0.069||P-value between vesatolimod and placebo was not adjusted for multiplicity due to exploratory nature of the study.|MMRM|||||0.069|-0.069|0.996
82568163|NCT01960114|164846068|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|25.241|STANDARD_ERROR_OF_MEAN|2.8344|<|0.001|TWO_SIDED|95.0|19.669|30.813||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||30.813|19.669|<0.001
82510378|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.182||0.5085|TWO_SIDED|95.0|-0.48|0.24|||MMRM|||Loss of Weight, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.48|0.5085
82510379|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.156||0.8274|TWO_SIDED|95.0|-0.28|0.34|||MMRM|||Loss of Weight, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.28|0.8274
82568164|NCT01960114|164846069|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82568165|NCT01960114|164846070|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82568166|NCT01960114|164846071|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 12 hours, but did not use rescue therapy, were censored at the time of withdrawal. Subjects not rescuing during the 12-hour study period had their time to rescue set to 12 hours and were censored.||||<0.001
82568167|NCT01960114|164846072|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Used row-mean scores based on Cochran-Mantel-Haenszel test was stratified by baseline categorical pain score.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
82568168|NCT02845375|164846083|SUPERIORITY|||||||0.299|||||||ANCOVA|||||||0.299
82630860|NCT02858713|164977969|SUPERIORITY||Coefficient|-0.77||||0.348|TWO_SIDED|95.0|-2.389|0.848|||Regression, Linear|||DLQI: Change from baseline to week 26||0.848|-2.389|0.348
82630861|NCT02858713|164977970|SUPERIORITY||coefficient|0.4||||0.047|TWO_SIDED|95.0|0.005|0.795|||Regression, Linear|||LS-PGA: Change from baseline to week 4||0.795|0.005|0.047
82630862|NCT02858713|164977970|SUPERIORITY||Coefficient|0.091||||0.662|TWO_SIDED|95.0|-0.321|0.504|||Regression, Linear|||LS-PGA: Change from baseline to week 8||0.504|-0.321|0.662
82630863|NCT02858713|164977970|SUPERIORITY||Coefficient|0.18||||0.424|TWO_SIDED|95.0|-0.264|0.625|||Regression, Linear|||LS-PGA: Change from baseline to week 26||0.625|-0.264|0.424
82510380|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.3675|TWO_SIDED|95.0|-0.13|0.05|||MMRM|||Insight, Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.13|0.3675
82510381|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.1818|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||Insight, Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.15|0.1818
82568169|NCT01177137|164846084|SUPERIORITY||Slope|-2.35|STANDARD_ERROR_OF_MEAN|3.27||0.47|TWO_SIDED|95.0|-8.77|4.07||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||4.07|-8.77|0.47
82568170|NCT01177137|164846084|SUPERIORITY||Slope|-2.8|STANDARD_ERROR_OF_MEAN|2.78||0.31|TWO_SIDED|95.0|-8.27|2.65||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.65|-8.27|0.31
82510382|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.045||0.0826|TWO_SIDED|95.0|-0.17|0.01|||MMRM|||Insight, Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.17|0.0826
82510383|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6436|TWO_SIDED|95.0|-0.11|0.07|||MMRM|||Insight, Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.11|0.6436
82510384|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.1827|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||Insight, Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.15|0.1827
82568171|NCT01177137|164846085|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|2.63||0.96|TWO_SIDED|95.0|-5.3|5.02||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.02|-5.30|0.96
82568172|NCT01177137|164846085|SUPERIORITY||Slope|2.74|STANDARD_ERROR_OF_MEAN|2.53||0.28|TWO_SIDED|95.0|-2.21|7.7||The a priori threshold for statistical significance was \<0.025 to adjust for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.70|-2.21|0.28
82568173|NCT01177137|164846086|SUPERIORITY||Slope|0.61|STANDARD_ERROR_OF_MEAN|0.59||0.3|TWO_SIDED|95.0|-0.55|1.77||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.77|-0.55|0.30
82568174|NCT01177137|164846086|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.58||0.29|TWO_SIDED|95.0|-1.75|0.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons: (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Ca|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.52|-1.75|0.29
82568175|NCT01177137|164846088|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|1.37||0.77|TWO_SIDED|95.0|-3.08|2.29||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.29|-3.08|0.77
82568176|NCT01177137|164846088|SUPERIORITY||Slope|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.65|TWO_SIDED|95.0|-3.16|1.96||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.96|-3.16|0.65
82568177|NCT01177137|164846089|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.52||0.5|TWO_SIDED|95.0|-1.38|0.67||The a priori threshold for statistical significance was set at \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.67|-1.38|0.50
82568178|NCT01177137|164846089|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.52||0.82|TWO_SIDED|95.0|-1.14|0.9||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.90|-1.14|0.82
82568179|NCT01177137|164846090|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.51||0.46|TWO_SIDED|95.0|-1.37|0.62||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation.|||0.62|-1.37|0.46
82630864|NCT00126425|164977971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.83||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader A readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.83|0.23|=0.004
82630865|NCT00126425|164977971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.84||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader B readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.84|0.23|=0.004
82630866|NCT00126425|164977971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||=|0.004|TWO_SIDED|95.0|0.23|0.84||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader C readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.84|0.23|=0.004
82630867|NCT02875366|164977986|SUPERIORITY||Least Squares Mean Difference|-3.2||||0.3021|TWO_SIDED|95.0|-9.2|2.9|||Mixed effects model for repeated measure|||||2.9|-9.2|0.3021
82510385|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.045||0.9859|TWO_SIDED|95.0|-0.09|0.09|||MMRM|||Insight, Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.09|0.9859
82630868|NCT02875366|164977987|SUPERIORITY||Least Squares Mean Difference|-3.2||||0.1894|TWO_SIDED|95.0|-8.0|1.6|||Mixed effects model for repeated measure|||||1.6|-8.0|0.1894
82568180|NCT01177137|164846090|SUPERIORITY|The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.51||0.48|TWO_SIDED|95.0|-1.35|0.64|||repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.64|-1.35|0.48
82568181|NCT01177137|164846091|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.75|TWO_SIDED|95.0|-0.74|0.53||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.53|-0.74|0.75
82568182|NCT01177137|164846091|SUPERIORITY||Slope|-0.87|STANDARD_ERROR_OF_MEAN|0.35||0.015|TWO_SIDED|95.0|-1.56|-0.17||The a priori threshold for statistical significance was \< 0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-0.17|-1.56|0.015
82568183|NCT01177137|164846092|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.39||0.85|TWO_SIDED|95.0|-0.83|0.69||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.69|-0.83|0.85
82568184|NCT01177137|164846092|SUPERIORITY||Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.55|TWO_SIDED|95.0|-0.86|0.46||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TQ value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.46|-0.86|0.55
82568185|NCT01177137|164846093|SUPERIORITY||Slope|-3.19|STANDARD_ERROR_OF_MEAN|3.1||0.3|TWO_SIDED|95.0|-9.27|2.88||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.88|-9.27|0.30
82568186|NCT01177137|164846093|SUPERIORITY||Slope|-0.91|STANDARD_ERROR_OF_MEAN|2.98||0.76|TWO_SIDED|95.0|-6.75|4.93||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||4.93|-6.75|0.76
82568187|NCT01177137|164846094|SUPERIORITY||Slope|3.12|STANDARD_ERROR_OF_MEAN|3.34||0.35|TWO_SIDED|95.0|-3.44|9.68||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||9.68|-3.44|0.35
82568188|NCT01177137|164846094|SUPERIORITY||Slope|3.29|STANDARD_ERROR_OF_MEAN|3.19||0.3|TWO_SIDED|95.0|-2.96|9.54||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||9.54|-2.96|0.30
82568189|NCT01177137|164846095|SUPERIORITY||Slope|1.41|STANDARD_ERROR_OF_MEAN|3.37||0.68|TWO_SIDED|95.0|-5.2|8.02||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||8.02|-5.20|0.68
82568190|NCT01177137|164846095|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|3.26||0.77|TWO_SIDED|95.0|-5.44|7.33||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.33|-5.44|0.77
82630869|NCT02875366|164977988|SUPERIORITY||Least Squares Mean Difference|-15.3||||0.2328|TWO_SIDED|95.0|-40.8|10.1|||Mixed effects model for repeated measure|||||10.1|-40.8|0.2328
82630870|NCT02875366|164977989|SUPERIORITY||Least Squares Mean Difference|-1.4||||0.1203|TWO_SIDED|95.0|-3.1|0.4|||Mixed effects model for repeated measure|||||0.4|-3.1|0.1203
82630871|NCT02875366|164977990|SUPERIORITY||Least Squares Mean Difference|-149.6||||0.0439|TWO_SIDED|95.0|-295.0|-4.2|||Mixed effects model for repeated measure|||||-4.2|-295.0|0.0439
82630872|NCT02875366|164977991|SUPERIORITY||Least Squares Mean Difference|-7.5||||0.2237|TWO_SIDED|95.0|-19.8|4.7|||Mixed effects model for repeated measure|||||4.7|-19.8|0.2237
82510386|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6672|TWO_SIDED|95.0|-0.07|0.11|||MMRM|||Insight, Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.07|0.6672
82510387|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.046||0.2031|TWO_SIDED|95.0|-0.03|0.15|||MMRM|||Insight, Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.03|0.2031
82510388|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.045||0.6664|TWO_SIDED|95.0|-0.07|0.11|||MMRM|||Insight, Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.07|0.6664
82510389|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.3417|TWO_SIDED|95.0|-0.13|0.05|||MMRM|||Insight, Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.13|0.3417
82510390|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.6622|TWO_SIDED|95.0|-0.12|0.08|||MMRM|||Insight, Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.12|0.6622
82510391|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.051||0.9087|TWO_SIDED|95.0|-0.11|0.09|||MMRM|||Insight, Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.11|0.9087
82510392|NCT02942017|164713578|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.046||0.8263|TWO_SIDED|95.0|-0.08|0.1|||MMRM|||Insight, Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item score at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.08|0.8263
82510393|NCT02942017|164713579|SUPERIORITY||LS mean difference|-4.86|STANDARD_ERROR_OF_MEAN|1.612||0.0033|TWO_SIDED|95.0|-8.06|-1.66|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.66|-8.06|0.0033
82510394|NCT02942017|164713579|SUPERIORITY||LS mean difference|-3.56|STANDARD_ERROR_OF_MEAN|2.154||0.1017|TWO_SIDED|95.0|-7.84|0.72|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.72|-7.84|0.1017
82510395|NCT02942017|164713579|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|1.884||0.9845|TWO_SIDED|95.0|-3.72|3.79|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.79|-3.72|0.9845
82510396|NCT02942017|164713580|SUPERIORITY||Odds Ratio (OR)|5.0||||0.0005|TWO_SIDED|95.0|2.0|12.5|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||12.5|2.0|0.0005
82510397|NCT02942017|164713580|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0478|TWO_SIDED|95.0|1.0|8.4|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||8.4|1.0|0.0478
82510398|NCT02942017|164713580|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4399|TWO_SIDED|95.0|0.5|4.6|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||4.6|0.5|0.4399
82630873|NCT02875366|164977992|SUPERIORITY||Least Squares Mean Difference|-0.6||||0.0226|TWO_SIDED|95.0|-1.12|-0.09|||Mixed effects model for repeated measure|||||-0.09|-1.12|0.0226
82630874|NCT02875366|164977993|SUPERIORITY||Least Squares Mean Difference|-6.32||||0.0613|TWO_SIDED|95.0|-12.94|0.31|||Mixed effects model for repeated measure|||||0.31|-12.94|0.0613
82630875|NCT02875366|164977994|SUPERIORITY||Least Squares Mean Difference|0.3||||0.6409|TWO_SIDED|95.0|-0.9|1.5|||Mixed effects model for repeated measure|||||1.5|-0.9|0.6409
82630876|NCT02875366|164977995|SUPERIORITY||Least Squares Mean Difference|1.0||||0.5889|TWO_SIDED|95.0|-2.7|4.7|||Mixed effects model for repeated measure|||||4.7|-2.7|0.5889
82630877|NCT02875366|164977996|SUPERIORITY||Least Squares Mean Difference|3.4||||0.146|TWO_SIDED|95.0|-1.2|8.1|||Mixed effects model for repeated measure|||||8.1|-1.2|0.1460
82630878|NCT02875366|164977997|SUPERIORITY||Least Squares Mean Difference|3.5||||0.3091|TWO_SIDED|95.0|-3.4|10.4|||Mixed effects model for repeated measure|||||10.4|-3.4|0.3091
82630879|NCT02875366|164977998|SUPERIORITY||Least Squares Mean Difference|0.2||||0.3961|TWO_SIDED|95.0|-0.3|0.6|||Mixed effects model for repeated measure|||||0.6|-0.3|0.3961
82630880|NCT02875366|164977999|SUPERIORITY||Least Squares Mean Difference|0.9||||0.3905|TWO_SIDED|95.0|-1.2|3.1|||Mixed effects model for repeated measure|||||3.1|-1.2|0.3905
82630881|NCT02875366|164978000|SUPERIORITY||Least Squares Mean Difference|6.2||||0.1257|TWO_SIDED|95.0|-1.8|14.1|||Mixed effects model for repeated measure|||||14.1|-1.8|0.1257
82630882|NCT02141854|164978027|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.179||||0.0009|TWO_SIDED|95.0|0.074|0.285||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the first in the sequence.||0.285|0.074|0.0009
82630883|NCT02141854|164978027|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.182||||0.001|TWO_SIDED|95.0|0.074|0.291||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the second in the sequence.||0.291|0.074|0.0010
82630884|NCT02141854|164978027|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.326||||0|TWO_SIDED|95.0|0.221|0.431||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the third in the sequence.||0.431|0.221|0.0000
82630885|NCT02141854|164978027|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.322||||0|TWO_SIDED|95.0|0.212|0.432||Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fourth in the sequence.||0.432|0.212|0.0000
82630886|NCT02141854|164978028|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.276||||0|TWO_SIDED|95.0|0.191|0.361||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fifth in the sequence.||0.361|0.191|0.0000
82630887|NCT02141854|164978028|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.274||||0|TWO_SIDED|95.0|0.189|0.36||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the sixth in the sequence.||0.360|0.189|0.0000
82630888|NCT02141854|164978028|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.183||||0|TWO_SIDED|95.0|0.098|0.268||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the seventh in the sequence.||0.268|0.098|0.0000
82630889|NCT02141854|164978028|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.123||||0.0047|TWO_SIDED|95.0|0.038|0.208||Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.|ANCOVA|||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the eighth in the sequence.||0.208|0.038|0.0047
82630890|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|18.45||||0|TWO_SIDED|95.0|11.751|25.15||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||25.150|11.751|0.0000
82630891|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|16.718||||0|TWO_SIDED|95.0|9.988|23.449||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||23.449|9.988|0.0000
82630892|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|31.221||||0|TWO_SIDED|95.0|24.513|37.93||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||37.930|24.513|0.0000
82568191|NCT01177137|164846096|SUPERIORITY||Slope|-3.53|STANDARD_ERROR_OF_MEAN|4.47||0.43|TWO_SIDED|95.0|-12.3|5.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.23|-12.30|0.43
82568192|NCT01177137|164846096|SUPERIORITY||Slope|-13.7|STANDARD_ERROR_OF_MEAN|4.24||0.001|TWO_SIDED|95.0|-22.02|-5.38||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-5.38|-22.02|0.001
82568193|NCT01177137|164846097|SUPERIORITY||Slope|3.71|STANDARD_ERROR_OF_MEAN|3.91||0.34|TWO_SIDED|95.0|-3.96|11.38||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||11.38|-3.96|0.34
82568194|NCT01177137|164846097|SUPERIORITY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|3.82||0.95|TWO_SIDED|95.0|-7.72|7.26||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.26|-7.72|0.95
82510399|NCT02942017|164713581|SUPERIORITY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.041||0.2636|TWO_SIDED|95.0|-3.24|0.9|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.90|-3.24|0.2636
82510400|NCT02942017|164713581|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|1.103||0.4897|TWO_SIDED|95.0|-2.96|1.43|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.43|-2.96|0.4897
82510401|NCT02942017|164713581|SUPERIORITY||LS Mean Difference|-1.86|STANDARD_ERROR_OF_MEAN|1.227||0.1341|TWO_SIDED|95.0|-4.3|0.59|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.59|-4.30|0.1341
82510402|NCT02942017|164713581|SUPERIORITY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|1.408||0.1691|TWO_SIDED|95.0|-4.76|0.85|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.85|-4.76|0.1691
82510403|NCT02942017|164713581|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|1.149||0.7852|TWO_SIDED|95.0|-2.6|1.97|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.97|-2.60|0.7852
82510404|NCT04399161|164713584|SUPERIORITY|||||||0.123|||||||ANOVA|||Comparison among Children||||0.123
82510405|NCT04399161|164713584|SUPERIORITY|||||||0.314|||||||ANOVA|||Comparison among Elderly||||0.314
82510406|NCT03417141|164713585|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Week 12||||0.014
82510407|NCT03417141|164713585|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Week 24||||0.006
82510408|NCT03417141|164713586|SUPERIORITY|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
82510409|NCT03417141|164713587|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82510410|NCT03417141|164713588|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82510411|NCT00739752|164713685|SUPERIORITY||Risk Ratio (RR)|0.99|||=|0.885|TWO_SIDED|95.0|0.88|1.12|||Regression, Poisson|||The two gain-framed groups were compared to the two loss-framed groups using poisson regression.||1.12|.88|=.885
82510412|NCT00739752|164713685|SUPERIORITY||Risk Ratio (RR)|1.17|||<|0.01|TWO_SIDED|95.0|1.06|1.31|||Regression, Poisson|||Groups receiving any framed interventions (gain-framed or loss-framed) were compared to those in the two non-framed control groups.||1.31|1.06|<.01
82510413|NCT00739752|164713685|SUPERIORITY||Risk Ratio (RR)|1.16|||<|0.01|TWO_SIDED|95.0|1.05|1.28|||Regression, Poisson|||The 3 vaccine-recommended groups were compared with the 3 vaccine-offered groups using poisson regression.||1.28|1.05|<.01
82510414|NCT01434290|164713686|SUPERIORITY|||||||0.19|||||||One sample z-test|One-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.35 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.19
82510415|NCT01434290|164713686|SUPERIORITY|||||||0.08|||||||One sample z-test|one-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.35 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.08
82510416|NCT01434290|164713687|SUPERIORITY|||||||0.18|||||||One sample z-test|One-sided 0.025 significance level||≤40% was considered acceptable, ≥60% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.40 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.18
82510417|NCT01434290|164713687|SUPERIORITY|||||||0.38|||||||One sample z-test|One-sided 0.025 significance level||≤40% was considered acceptable, ≥60% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used. For a given arm, if the null hypothesis of p ≤ 0.40 is rejected, then conclude that the regimen given on that arm is unacceptable. However if it not rejected for both bowel \& urinary domains, then that regimen will be considered acceptable for further use in a Phase III study.||||0.38
82630893|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|29.597||||0|TWO_SIDED|95.0|22.839|36.354||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||36.354|22.839|0.0000
82630894|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|12.771||||0.0002|TWO_SIDED|95.0|6.179|19.363||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.363|6.179|0.0002
82630895|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|12.879||||0.0002|TWO_SIDED|95.0|6.216|19.541||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.541|6.216|0.0002
82630896|NCT02141854|164978029|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|11.146||||0.001|TWO_SIDED|95.0|4.511|17.782||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||17.782|4.511|0.0010
82630897|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.156||||0.001|TWO_SIDED|95.0|-0.248|-0.063||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.063|-0.248|0.0010
82630898|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.195||||0|TWO_SIDED|95.0|-0.288|-0.102||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.102|-0.288|0.0000
82630899|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.304||||0|TWO_SIDED|95.0|-0.397|-0.212||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.212|-0.397|0.0000
82630900|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.277||||0|TWO_SIDED|95.0|-0.37|-0.184||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.184|-0.370|0.0000
82630901|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.149||||0.0014|TWO_SIDED|95.0|-0.239|-0.058||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.058|-0.239|0.0014
82630902|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.082||||0.0818|TWO_SIDED|95.0|-0.174|0.01||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.010|-0.174|0.0818
82510418|NCT01434290|164713692|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[Bowel one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.03
82630903|NCT02141854|164978030|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.121||||0.0094|TWO_SIDED|95.0|-0.213|-0.03||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.030|-0.213|0.0094
82510419|NCT01434290|164713692|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[Bowel one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.03
82510420|NCT01434290|164713692|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017||\[Urinary one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.09
82510421|NCT01434290|164713692|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Two-side significance level of 0.017||\[Urinary one-year results\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the normality of the data.||||0.43
82510422|NCT01434290|164713693|SUPERIORITY|||||||0.39|||||||One-sample z-test|One-sided 0.025 significance level||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.39
82510423|NCT01434290|164713693|SUPERIORITY|||||||0.21|||||||One sample z-test|One-side significance level of 0.025||≤35% was considered acceptable, ≥55% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.21
82510424|NCT01434290|164713694|SUPERIORITY|||||||0.44|||||||one sampe z-test|One-sided significance level of 0.025||≤38% was considered acceptable, ≥58% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.44
82510425|NCT01434290|164713694|SUPERIORITY|||||||0.53|||||||One sample z-test|One-sided significance level of 0.025||≤38% was considered acceptable, ≥58% unacceptable. Each arm analyzed separately. Average score and standard error of each arm calculated and one-sample z-test for proportion with significance level of 0.025 was used.||||0.53
82630904|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.702||||0|TWO_SIDED|95.0|-1.001|-0.403||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.403|-1.001|0.0000
82510426|NCT01434290|164713695|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year Index Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.16
82510427|NCT01434290|164713695|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year Index Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.03
82510428|NCT01434290|164713695|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year VAS Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.83
82510429|NCT01434290|164713695|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level of 0.017.||\[One-year VAS Score\] Originally the t-test was planned to test if the change in each arm is different from 0. Wilcoxon Mann-Whitney was used instead due to the non-normality of the data. Each arm analyzed separately.||||0.86
82630905|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.607||||0.0001|TWO_SIDED|95.0|-0.908|-0.307||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.307|-0.908|0.0001
82630906|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.066||||0|TWO_SIDED|95.0|-1.365|-0.766||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.766|-1.365|0.0000
82510430|NCT02281552|164713698|NON_INFERIORITY|Non-inferiority of tofacitinib MR 11 mg QD to IR 5 mg BID was concluded if the upper bound of the 2-sided 95% confidence interval of differences between the treatment groups (MR 11 mg QD - IR 5 mg BID) at Week 12 was less than the pre-specified non-inferiority margin of 0.6.|Least Square (LS) mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.17|0.69||||||Analysis was conducted using a linear mixed effect model with repeated measures (MMRM), which included treatment (tofacitinib MR 11 mg QD and IR 5 mg BID), visit, and treatment by visit interaction as fixed effects and participants as a random effect.||0.69|0.17|
82510431|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|0.999||||0.9813|TWO_SIDED|95.0|0.918|1.09|||Mixed Models Analysis|||||1.09|0.918|0.9813
82510432|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|1.06||||0.1638|TWO_SIDED|95.0|0.976|1.15|||Mixed Models Analysis|||||1.15|0.976|0.1638
82510433|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|1.01||||0.7623|TWO_SIDED|95.0|0.933|1.1|||Mixed Models Analysis|||||1.10|0.933|0.7623
82510434|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|1.04||||0.2952|TWO_SIDED|95.0|0.962|1.13|||Mixed Models Analysis|||||1.13|0.962|0.2952
82630907|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.989||||0|TWO_SIDED|95.0|-1.291|-0.686||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.686|-1.291|0.0000
82630908|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.364||||0.016|TWO_SIDED|95.0|-0.659|-0.068||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.068|-0.659|0.0160
82630909|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.382||||0.0124|TWO_SIDED|95.0|-0.681|-0.083||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.083|-0.681|0.0124
82630910|NCT02141854|164978031|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.287||||0.0588|TWO_SIDED|95.0|-0.584|0.011||Significance level of 0.05.|Wilcoxon (Mann-Whitney)|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.011|-0.584|0.0588
82630911|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Significance level of 0.05.|Log Rank|||||||0.0001
82510435|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|0.97||||0.4052|TWO_SIDED|95.0|0.901|1.04|||Mixed Models Analysis|||||1.04|0.901|0.4052
82510436|NCT03465878|164713729|SUPERIORITY||Ratio of geometric least squares means|1.02||||0.5314|TWO_SIDED|95.0|0.948|1.11|||Mixed Models Analysis|||||1.11|0.948|0.5314
82510437|NCT02540954|164713753|NON_INFERIORITY|Non-inferiority margin is 5 letters.|Least squares mean difference|0.22|||<|0.0001|TWO_SIDED|95.0|-1.51|1.96|||ANCOVA|||||1.96|-1.51|< 0.0001
82510438|NCT02540954|164713754|NON_INFERIORITY|Non inferiority margin is 7%.|Treatment difference in %|1.1|||||TWO_SIDED|95.0|-3.7|6.0||||||||6.0|-3.7|
82510439|NCT02540954|164713759|OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-4.152|0.392||||||||0.392|-4.152|
82510440|NCT00245765|164713769|SUPERIORITY||Odds Ratio (OR)|40.2|||<|0.001|TWO_SIDED|95.0|13.7|150.3|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||150.3|13.7|<0.001
82510441|NCT00245765|164713769|SUPERIORITY||Odds Ratio (OR)|73.4|||<|0.001|TWO_SIDED|95.0|23.5|292.6|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||292.6|23.5|<0.001
82510442|NCT00245765|164713770|SUPERIORITY||Odds Ratio (OR)|64.1|||<|0.001|TWO_SIDED|95.0|12.7|1169.1|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors. Confidence limits are based on likelihood ratio statistics.||||1169.1|12.7|<0.001
82510443|NCT00245765|164713770|SUPERIORITY||Odds Ratio (OR)|162.6|||<|0.001|TWO_SIDED|95.0|31.4|2999.2|||Regression, Logistic|Logistic regression with treatment and baseline severity of psoriasis as factors.|Confidence limits are based on likelihood ratio statistics.|||2999.2|31.4|<0.001
82510444|NCT03080961|164713780|OTHER||SADE percentage|0.0|||||TWO_SIDED|95.0|0.0|7.7||||||SADE rate after minimally 26 days of VIBLOK treatment will be assessed by calculating the upper limit of the 2-sided exact 95% Clopper-Pearson confidence interval which needs to be below 10%. With a sample size of 36, an exact two-sided 95.0% confidence interval for a single proportion would show that the SADE incidence is below 10% at an expected incidence of 0.1%.||7.7|0.0|
82510445|NCT03080961|164713781|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis will evaluate the difference in detection rate between pre and post-VIBLOK swabs. For each person the number of swabs with shedding only pre-VIBLOK will be assessed, and then the number of swabs with shedding only post-VIBLOK will be subtracted. A number above 0 indicates a decreased detection rate after VIBLOK. With an 8% anticipated asymptomatic shedding rate, 80% power, 50 subjects taking samples for 28 days are needed to show a 50% reduction.||||0.248
82510446|NCT03080961|164713782|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82510447|NCT02741115|164713784|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.377||0.092|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|ANCOVA fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation used.||It was estimated that a sample size of 198 participants per group would provide 90% power to detect a mean treatment group difference in change from baseline to Week 26 in maximal VO2 scores of 10% (ie, an improvement of 2.8 mL/kg/min in the udenafil group compared to 0 in the control group, assuming a Type I error of 0.05 and standard deviation of 7.235). A difference of 2.8, equivalent to a 10% increase from a baseline of 28 mL/kg/min, represents approximately 0.4 standard deviations.||||0.092
82510448|NCT02741115|164713785|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.014||0.024|TWO_SIDED|||||LS mean was the estimated treatment difference from the analytical model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2.||||||0.024
82510449|NCT02741115|164713786|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.591||0.591|TWO_SIDED||||||ANCOVA|||||||0.591
82510450|NCT02741115|164713787|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.094||0.169|TWO_SIDED||||||ANCOVA|||||||0.169
82510451|NCT02741115|164713788|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Median Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|0.308||0.012|TWO_SIDED|||||LS mean was the estimated treatment mean difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.012
82630912|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Significance level of 0.05.|Log Rank|||||||<.0001
82630913|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||||||Significance level of 0.05.|Log Rank|||||||0.0003
82510452|NCT02741115|164713789|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.46||0.029|TWO_SIDED|||||LS mean was the estimated treatment difference in the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.029
82630914|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Significance level of 0.05.|Log Rank|||||||<.0001
82630915|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7203||||||Significance level of 0.05.|Log Rank|||||||0.7203
82630916|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.996||||||Significance level of 0.05.|Log Rank|||||||0.9960
82630917|NCT02141854|164978032|SUPERIORITY_OR_OTHER_LEGACY|||||||0.325||||||Significance level of 0.05.|Log Rank|||||||0.3250
82630918|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.473||||0|TWO_SIDED|95.0|0.269|0.677||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.677|0.269|0.0000
82630919|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.428||||0|TWO_SIDED|95.0|0.224|0.632||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.632|0.224|0.0000
82510453|NCT02741115|164713790|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.321||0.011|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.011
82510454|NCT02741115|164713791|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.903||0.696|TWO_SIDED||||||ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline VO2. LOCF imputation.||||||0.696
82510455|NCT02741115|164713792|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.319||0.915|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||||||0.915
82510456|NCT02741115|164713793|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|1.363||0.891|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline maximal VO2. LOCF imputation.||LS mean differences between treatment groups were analyzed.||||0.891
82510457|NCT02741115|164713794|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.1||0.691|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group, with a continuous covariate of Baseline physical functioning (child reported)||||||0.691
82510458|NCT02741115|164713795|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.544||0.985|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline physical functioning (parent reported).||||||0.985
82568195|NCT01177137|164846098|SUPERIORITY||Slope|-1.85|STANDARD_ERROR_OF_MEAN|3.69||0.62|TWO_SIDED|95.0|-9.07|5.38||The a priori threshold for statistical significance was \< 0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||5.38|-9.07|0.62
82568196|NCT01177137|164846098|SUPERIORITY||Slope|-4.46|STANDARD_ERROR_OF_MEAN|3.58||0.21|TWO_SIDED|95.0|-11.48|2.55||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.55|-11.48|0.21
82568197|NCT01177137|164846099|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|3.39||0.97|TWO_SIDED|95.0|-6.78|6.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||6.52|-6.78|0.97
82568198|NCT01177137|164846099|SUPERIORITY||Slope|-3.02|STANDARD_ERROR_OF_MEAN|3.27||0.36|TWO_SIDED|95.0|-9.43|3.4||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||3.40|-9.43|0.36
82568199|NCT01177137|164846100|SUPERIORITY||Slope|1.24|STANDARD_ERROR_OF_MEAN|3.01||0.68|TWO_SIDED|95.0|-4.67|7.14||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||7.14|-4.67|0.68
82568200|NCT01177137|164846100|SUPERIORITY||Slope|-3.52|STANDARD_ERROR_OF_MEAN|2.93||0.23|TWO_SIDED|95.0|-9.26|2.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline TFI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.23|-9.26|0.23
82568201|NCT01177137|164846101|SUPERIORITY||Slope|-0.82|STANDARD_ERROR_OF_MEAN|1.27||0.52|TWO_SIDED|95.0|-3.3|1.66||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care.|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.66|-3.30|0.52
82510459|NCT02741115|164713796|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.039||0.273|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline psychosocial health summary score (child reported).||||||0.273
82630920|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.623||||0|TWO_SIDED|95.0|0.418|0.828||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.828|0.418|0.0000
82630921|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.681||||0|TWO_SIDED|95.0|0.478|0.885||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.885|0.478|0.0000
82630922|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.15||||0.149|TWO_SIDED|95.0|-0.054|0.354||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.354|-0.054|0.1490
82630923|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.253||||0.0143|TWO_SIDED|95.0|0.051|0.455||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.455|0.051|0.0143
82630924|NCT02141854|164978033|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.209||||0.0435|TWO_SIDED|95.0|0.006|0.411||Significance level of 0.05.|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.411|0.006|0.0435
82630925|NCT01868594|164978043|SUPERIORITY|||||||0.019||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.019
82630926|NCT01868594|164978044|SUPERIORITY|||||||0.0432||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0432
82630927|NCT01868594|164978045|SUPERIORITY|||||||0.7344||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 8, 12, 18, 24, 30 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.7344
82630928|NCT01868594|164978046|SUPERIORITY|||||||0.278||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Total cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.2780
82630929|NCT01868594|164978046|SUPERIORITY|||||||0.8114||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of HDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.8114
82630930|NCT01868594|164978046|SUPERIORITY|||||||0.1619||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of LDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.1619
82630931|NCT01868594|164978046|SUPERIORITY|||||||0.0764||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Triglycerides changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.0764
82630932|NCT01868594|164978047|SUPERIORITY|||||||0.3107||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of basal insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.3107
82630933|NCT01868594|164978047|SUPERIORITY|||||||0.5236||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of prandial insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.5236
82630934|NCT01868594|164978047|SUPERIORITY|||||||0.3847||||||The p-value associated with comparison of changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of total daily dose insulin changes from baseline to Week 36 endpoint between Subetta and Placebo treatment groups.||||0.3847
82630935|NCT01868594|164978048|SUPERIORITY|||||||0.6716|||||||t-test, 2 sided|||||||0.6716
82630936|NCT01868594|164978049|SUPERIORITY|||||||0.2484||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||Analysis of total Treatment Satisfaction score at Week 36 endpoint between Subetta and Placebo treatment groups.||||0.2484
82630937|NCT01868594|164978049|SUPERIORITY|||||||0.761||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||"Analysis of Perceived Hyperglycaemia question at Week 36 endpoint between Subetta and Placebo treatment groups."||||0.7610
82630938|NCT01868594|164978049|SUPERIORITY|||||||0.3714||||||The p-value associated with comparison of Week 36 endpoint between Subetta and Placebo treatment groups.|t-test, 2 sided|||"Analysis of Perceived Hypoglycemia question at Week 36 endpoint between Subetta and Placebo treatment groups."||||0.3714
82630939|NCT01201967|164978053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.68||||0.002|TWO_SIDED|95.0|2.14|9.22|||Mixed Models Analysis|||||9.22|2.14|0.002
82630940|NCT01201967|164978054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.045|TWO_SIDED|95.0|-4.06|-0.05|||Mixed Models Analysis|||||-0.05|-4.06|0.045
82630941|NCT01201967|164978055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.55|TWO_SIDED|95.0|-0.93|1.76|||Mixed Models Analysis|||||1.76|-0.93|0.55
82630942|NCT01201967|164978056|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|11.4|||<|0.001|TWO_SIDED|95.0|5.2|24.9|||Chi-squared|||||24.9|5.20|<0.001
82630943|NCT01201967|164978057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.28|TWO_SIDED|95.0|-0.51|1.76|||Mixed Models Analysis|||||1.76|-0.51|0.28
82630944|NCT01201967|164978058|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.83|TWO_SIDED|95.0|0.63|1.46|||Chi-squared|||||1.46|0.63|0.83
82630945|NCT01201967|164978059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.029|TWO_SIDED|95.0|0.012|0.22|||Mixed Models Analysis|||||0.22|0.012|0.029
82630946|NCT01201967|164978060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59||||0.005|TWO_SIDED|95.0|1.71|9.46|||Mixed Models Analysis|||||9.46|1.71|0.005
82630947|NCT01201967|164978061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.11|TWO_SIDED|95.0|-0.54|5.14|||Mixed Models Analysis|||||5.14|-0.54|0.11
82630948|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of vertical bowl transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||<|0.001||||||Comparing the change in performing a vertical bowl transfer, the calculated p-value for this activity was \<.001|t-test, 2 sided|||mRehab task vertical bowl transfer- moving the bowl vertically up and down||||<0.001
82630949|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of moving the bowl horizontally at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.001||||||Comparing the change in performing a horizontal bowl transfer, the calculated p-value for this activity was .001|t-test, 2 sided|||mRehab task horizontal bowl transfer- moving the bowl horizontally||||=.001
82630950|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of the vertical mug transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.003||||||Comparing the change in performing a vertical mug transfer, the calculated p-value for this activity was .003|t-test, 2 sided|||mRehab task vertical mug transfer- moving the mug vertically up and down||||=.003
82630951|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of the horizontal mug transfer at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.009||||||Comparing the change in performing a horizontal mug transfer, the calculated p-value for this activity was .009|t-test, 2 sided|||mRehab task horizontal mug transfer- moving the mug horizontally||||=.009
82630952|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of the simulated sip at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.933|||||||t-test, 2 sided|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.||mRehab task simulate sip- bring mug within one inch of mouth as if taking a drink||||=.933
82630953|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of entering a phone number at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.136|||||||t-test, 2 sided|||mRehab task enter phone number||||=.136
82630954|NCT04363944|164978142|EQUIVALENCE|A paired-t test comparing performance of the quick tap at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.005|||||||t-test, 2 sided|||mRehab task quick tap- tapping a moving object on the phone screen||||=.005
82630955|NCT04363944|164978143|EQUIVALENCE|Paired t-tests comparing performance at the first session of in-home training to the last session of in-home training were conducted.|||||=|0.228|||||||t-test, 2 sided|||mRehab task vertical bowl transfer- moving bowl vertically up and down||||=.228
82630956|NCT04363944|164978143|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.||||||0.196|||||||t-test, 2 sided|||mRehab task horizontal bowl- bowl moved horizontally||||.196
82630957|NCT04363944|164978143|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.024|||||||t-test, 2 sided|||mRehab task Vertical Mug- Mug moved vertically and then placed on counter||||=.024
82630958|NCT04363944|164978143|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.038|||||||t-test, 2 sided|||mRehab task horizontal mug transfer- moving the mug horizontally||||=.038
82630959|NCT04363944|164978143|EQUIVALENCE|A paired-t test comparing performance at the beginning of the 6 week in-home program to the end of the 6 week in-home program.|||||=|0.306||||||calculated p-value greater than .05|t-test, 2 sided|||mRehab task simulate sip||||=.306
82630960|NCT04363944|164978144|EQUIVALENCE|The average of the WMFT from testing sessions pre intervention (week 1 and approximately week 2) was compared to the WMFT immediately following mRehab home intervention (week 8) using a two tailed paired t-test.|||||=|0.017||||||calculated p-value .017|t-test, 2 sided|||||||=.017
82630961|NCT04363944|164978145|EQUIVALENCE|Test, the scores from the first and second in-laboratory visits were averaged to account for variability in the performance of individuals with stroke. This averaged preintervention score was compared with the third in-laboratory visit to assess the immediate change in performance following use of mRehab.|||||=|0.019|||||||t-test, 2 sided|||Compared pre and post intervention data for participants using mRehab for a 6 week home program.||||=.019
82630962|NCT03517722|164978149|SUPERIORITY||Odds Ratio (OR)|0.6||||0.042|TWO_SIDED|95.0|0.4|1.0|||Regression, Logistic|||||1.0|0.4|0.042
82630963|NCT02422186|164978156|SUPERIORITY||Difference of Least Square (LS) Means|-3.6|||=|0.059|TWO_SIDED|95.0|-7.2|0.07|||Mixed Model for Repeated Measures|||||0.07|-7.20|=0.059
82510460|NCT02741115|164713797|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|1.327||0.966|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline psychosocial health summary score (parent reported).||||||0.966
82510461|NCT02741115|164713798|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|1.011||0.706|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (Treatment II).||||||0.706
82510462|NCT02741115|164713799|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|1.707||0.382|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (perceived physical appearance)||||||0.382
82510463|NCT02741115|164713800|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|1.611||0.236|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (treatment anxiety).||||||0.236
82510464|NCT02741115|164713801|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|1.622||0.543|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (cognitive problems).||||||0.543
82510465|NCT02741115|164713802|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|1.78||0.352|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline cardiac module scale (communication problems).||||||0.352
82510466|NCT02741115|164713803|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|5.684||0.533|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors of ventricular morphology and treatment group with a continuous covariate of Baseline total score (age 8-12, child reported).||||||0.533
82510467|NCT02741115|164713804|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|1.84|STANDARD_ERROR_OF_MEAN|4.057||0.654|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline total score (age 8-12, parent reported).||||||0.654
82510468|NCT02741115|164713805|SUPERIORITY|LS mean differences between treatment groups were analyzed.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.069||0.963|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors: ventricular morphology and treatment group with a continuous covariate of Baseline total score (ages 13-18, child reported)||||||0.963
82510469|NCT02741115|164713806|SUPERIORITY|LS mean differences between treatment group were analyzed.|Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|1.171||0.246|TWO_SIDED|||||LS mean was the estimated treatment difference from the analysis model.|ANCOVA|Fixed factors of ventricular morphology and treatment group with a continuous covariate of Baseline total score (ages 13-18, parent reported).||||||0.246
82510470|NCT06425458|164713816|OTHER|||||||0.0011||||||Threshold for statistical significance: P \<= 0.05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Self-Esteem (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.0011
82510471|NCT06425458|164713816|OTHER|||||||0.0719||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Purpose in Life (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.0719
82510472|NCT06425458|164713816|OTHER|||||||0.7991||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Locus of Control (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.7991
82510473|NCT06425458|164713816|OTHER|||||||0.2208||||||Threshold for statistical significance: P \<= .05. As this was an exploratory analysis only, p-values were not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-tests were conducted to compare T1 and T2 Self-Efficacy (MAPS20 subscale) scores. This analysis included participants who completed both T1 and T2 data collection (n = 18).||||0.2208
82510474|NCT06425458|164713816|OTHER||Spearman partial correlation coefficient|0.37|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Self-Esteem). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
82510475|NCT06425458|164713816|OTHER||Spearman partial correlation coefficient|-0.29|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Purpose in Life). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
82510476|NCT06425458|164713816|OTHER||Spearman partial correlation coefficient|-0.58|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Locus of Control). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
82630964|NCT02422186|164978157|OTHER||Least Square (LS) Mean Difference|-3.6|||=|0.052|TWO_SIDED|95.0|-7.16|-0.03|||ANCOVA|||||-0.03|-7.16|=0.052
82510477|NCT06425458|164713816|OTHER||Spearman partial correlation coefficient|-0.14|||||TWO_SIDED|||||||||We conducted an exploratory, descriptive analysis investigating the relationship between leadership program attendance and identity capital at T2, accounting for T1 scores (MAPS20 subscale: Self-Efficacy). This analysis included participants who completed both T1 and T2 data collection (n = 18). We calculated the Spearman correlation coefficient only. Power calculation does not apply for this analysis.||||
82510478|NCT01802775|164713872|OTHER||Treatment Difference|-3.9|||||TWO_SIDED|95.0|-17.3|9.5||||||Treatment difference was edoxaban - clopidogrel. For the treatment difference, 95% Confidence interval was calculated using a normal approximation to the binomial distribution.||9.5|-17.3|
82510479|NCT01096784|164713877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0642||95.0|||||CMH Row Mean Score Test|||||||0.0642
82523451|NCT04672941|164742379|OTHER|The logistic generalized estimating equations (GEE) model with anxiety/depression as dependent variable. Visit, Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates and unstructured covariance matrix was used.|Odds Ratio (OR)|3.32|||<|0.001|TWO_SIDED|95.0|2.95|3.73|||Regression, Logistic||Odds ratio for Visit (3 months / baseline (reference)).|||3.73|2.95|< 0.001
82639805|NCT02163759|164994484|SUPERIORITY||Difference in Remission Rates|12.3||||0.0173|TWO_SIDED|95.0|1.59|20.6||The threshold for statistical significance was a p-value \<0.05.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|The null hypothesis (H0): the percentage of participants achieving remission at Week 10 was the same in both the placebo and etrolizumab arms. The alternative hypothesis (H1): the percentage of participants achieving remission at Week 10 was not the same in the placebo and etrolizumab arms.||20.60|1.59|0.0173
82630965|NCT01425307|164978175|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We hypothesized that the Alternative arm mean TCD velocity at 24 months will be less than the Standard arm mean TCD velocity plus 15cm/sec. We used Lan-DeMets boundaries to control overall Type I error rate at α = 0.05. For looks at exactly 1/3, 2/3, and 100 percent of the completed subjects, the cumulative α were estimated to be 0.0001, 0.001, and 0.05, respectively.|Mean Difference (Final Values)|4.54|||<|0.05|TWO_SIDED|95.0|0.1|8.98||P value for non inferiority was 8.82 X 10\^-16|Mixed Models Analysis|Linear mixed model||Participants were randomized at a central site, stratified by site with a block size of four, and an adaptive randomization scheme was used to balance the covariates of baseline age and TCD velocity. The treatment period lasted 24 months. The primary study endpoint was the 24 month TCD velocity calculated from a general linear mixed model, with the non-inferiority margin set at 15 cm/s. The primary analysis was done in the intention-to-treat population.||8.98|0.10|<0.05
82630966|NCT01425307|164978179|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82630967|NCT01425307|164978189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||t-test, 2 sided|||||||0.0011
82630968|NCT03573804|164978191|OTHER|A two-tailed paired T-test for equivalence was used to evaluate equivalence between the average raw tumor.|Mean Difference (Net)|224.675|STANDARD_ERROR_OF_MEAN|67.89|<|0.001|TWO_SIDED|95.0|90.26044|359.08956||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A paired two-tailed t-test was used on the paired prone-to-supine tumor intensity values.||Regions of interest (ROIs) for tumor were defined by the radiologist segmentation of tumor in supine and prone positions. ROIs for the surrounding tissue were selected such that tumor and normal regions had equal volumes. The alpha level was assumed to be of 0.05 (dof = 60), and the null hypothesis of equivalence (mu = 0).||359.08956|90.26044|<0.001
82630969|NCT03573804|164978192|OTHER|A two-tailed paired T-test was used to compare sample means in between the prone and supine mean benign tissue intensities.|Mean Difference (Net)|165.833|STANDARD_ERROR_OF_MEAN|44.19|<|0.001|TWO_SIDED|95.0|78.34708|253.31892||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A paired two-tailed t-test was used on the paired prone-to-supine normal tissue intensity values.||Regions of interest (ROIs) for surrounding tissues were selected as the surrounding benign tissue regions directly adjacent to the segmented tumor regions. Tumor and surrounding regions had equal volumes. The mean surrounding region intensities reported were all calculated from the prone and supine T1-weighted MR images segmented by the radiologist.||253.31892|78.34708|<0.001
82630970|NCT03573804|164978193|OTHER|A two-tailed paired T-test was used to compare sample means in between the prone and supine tumor-to-surrounding tissue ratios.|Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.08||0.0058|TWO_SIDED|95.0|-0.04209|0.28209||Using an alpha value of 0.05, dof = 60, the null hypothesis of sample mean equivalence was rejected.|t-test, 2 sided|A two-tailed paired T-test was used to compare sample means in between the prone and supine tumor-to-surrounding tissue ratios.||The ratios of tumor-to-surrounding tissue intensities, as calculated in Secondary Objective Part A, were compared between prone and supine T1-weighted MR image scans.||0.28209|-0.04209|0.0058
82630971|NCT03573804|164978195|SUPERIORITY|||||||0.00049664|||||||Students two-tailed paired t-test|||||||0.00049664
82630972|NCT01952041|164978225|SUPERIORITY|||||||0.8|||||||Chi-squared|Chi-square test statistic=0.06, degrees of freedom=2||||||0.80
82630973|NCT01952041|164978226|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.43|TWO_SIDED|95.0|0.42|1.44|||Regression, Cox||Hazard ratio is intervention arm vs. TAU for time to first relapse from randomization. There is not a standard error (SE) that directly links to the hazard ratio. The confidence interval provided illustrates the dispersion for the hazard ratio.|||1.44|0.42|0.43
82630974|NCT01952041|164978227|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.41||0.58|TWO_SIDED|95.0|-0.58|1.02|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||1.02|-0.58|0.58
82630975|NCT01952041|164978228|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.84|TWO_SIDED|95.0|-0.22|0.26|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||0.26|-0.22|0.84
82630976|NCT01952041|164978229|SUPERIORITY||Slope|-2.7|STANDARD_ERROR_OF_MEAN|1.4||0.06|TWO_SIDED|95.0|-5.4|0.04|||Mixed Models Analysis||Treatment by time interaction terms are given to test difference of slopes between arms.|||0.04|-5.40|0.06
82630977|NCT01736176|164978230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Mixed-effect Repeated Measures (MMRM)|MMRM model included the fixed effects of study site and visit, with baseline score as a covariate, and the baseline-by-visit interaction.||The primary null hypothesis was no change in least-square (LS) mean, calculated using a mixed-effect repeated measures model (MMRM), for NMSS total score from baseline to Week 12. The statistical test was two-sided and the null hypothesis was rejected at the significance level of α = 0.050.||||< 0.001
82630978|NCT01736176|164978234|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Mixed-effect Repeated Measures (MMRM)|MMRM model included the fixed effects of study site and visit, with baseline score as a covariate, and the baseline-by-visit interaction.||||||0.004
82630979|NCT03650387|164978275|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
82630980|NCT03650387|164978276|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
82630981|NCT03650387|164978277|OTHER||||||<|0.0001||||||Bonferroni-Holm was used for alpha correction.|Exact one-sample binomial test|The one-sample binomial test was used to test whether the probability of being a responder (p) is significantly above 60%.||||||< 0.0001
82510480|NCT03761628|164713891|OTHER|The clinical performance endpoint - Clinical cure rate on Day 7 - was calculated and presented together with a one-sided 95% CI based on the exact binomial distribution (Clopper-Pearson).|Clinical cure rate|40.9|||||ONE_SIDED|95.0|23.3|||||||"It was assumed that the true cure rate was equal to 70%, therefore 22 patients were needed to obtain 90% chance (90% power) to show that the one-sided 95% CI for the observed cure rate was above 40%.~Hypotheses for the primary clinical performance endpoint:~* Null hypothesis: Clinical cure rate is less than or equal to 40%.~* Alternative hypothesis (one-sided): Clinical cure rate is above 40%."|||23.3|
82510481|NCT03761628|164713892|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Proportion with reduction|72.7|||||TWO_SIDED|95.0|49.8|89.3||||||||89.3|49.8|
82510482|NCT03761628|164713894|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 14|12.5|||||TWO_SIDED|95.0|0.3|52.7||||||||52.7|0.3|
82510483|NCT03761628|164713894|OTHER|Results are based on the exact binomial distribution (Clopper-Pearson).|Recurrence rate Day 35|0.0|||||TWO_SIDED|95.0|0.0|45.9||||||||45.9|0|
82510484|NCT04649151|164713904|NON_INFERIORITY|The noninferiority of Geometric Mean value (based on geometric least squares means \[GLSM\]) was considered demonstrated if: The lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold).|GMR|1.078|||||TWO_SIDED|95.0|0.94|1.237|||||GMR of P203 vs P301|||1.237|0.940|
82510485|NCT04649151|164713905|NON_INFERIORITY|Noninferiority margin of 10%. Lower bound of the 95% CI of the SRR difference \>-10%. and a point estimator \>-5% (minimum threshold)|percentage difference|-0.2|||||TWO_SIDED|95.0|-2.1|1.9|||||SRR difference of P203 vs P301|||1.9|-2.1|
82510486|NCT04649151|164713906|NON_INFERIORITY|The lower bound of the 95% CI of noninferiority margin of 1.5. GMR point estimate \>=0.8 (minimum threshold).|GMR|5.071|||||TWO_SIDED|95.0|4.477|5.745|||||GMR of GMC at BD-Day 29 P203 vs GMC at Day 57 P301|||5.745|4.477|
82510487|NCT04649151|164713907|NON_INFERIORITY|Noninferiority margin of 10%. Lower bound of the 95% CI of the SRR difference \>-10%.|SRR Difference|0.7|||||TWO_SIDED|95.0|-0.8|2.4|||||SRR difference of P203 BD-Day 29 vs P301 Day 57|||2.4|-0.8|
82510488|NCT04649151|164713908|SUPERIORITY|The superiority of GMC (based on GLSM\] was considered demonstrated if: The lower bound of the 95% CI of the GMR was \>1|GMR|48.191|||||TWO_SIDED|95.0|43.765|53.065|||||GMR of P203 vs P301|||53.065|43.765|
82510489|NCT04649151|164713911|NON_INFERIORITY|The noninferiority of Geometric Mean value (based on GLSM) was considered demonstrated if: The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold).|GMR|4.493|||||TWO_SIDED|95.0|3.972|5.083|||||GMR of GMC at BD-Day 29 P203 vs GMC at Day 57 P301|||5.083|3.972|
82510490|NCT04649151|164713914|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|60.3|||||TWO_SIDED|95.0|26.6|78.6|||VE|Vaccine efficacy (VE, percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||78.6|26.6|
82510491|NCT04649151|164713915|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|43.5|||||TWO_SIDED|95.0|-16.5|72.2|||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||72.2|-16.5|
82510492|NCT04649151|164713916|OTHER||VE|100.0|||||TWO_SIDED|95.0|61.2||NA = not estimable (not reached).||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.||||61.2|
82510493|NCT04649151|164713917|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|VE|89.9|||||TWO_SIDED|95.0|51.0|98.9|||VE|VE (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).||||98.9|51.0|
82510494|NCT02975934|164713928|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.36|0.69|||Log Rank|||||0.69|0.36|<0.001
82510495|NCT02975934|164713929|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||||0.80|0.47|<0.001
82510496|NCT02975934|164713930|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.5044|TWO_SIDED|95.0|0.68|1.2|||Log Rank|||||1.20|0.68|0.5044
82510497|NCT02975934|164713931|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9368|TWO_SIDED|95.0|0.78|1.26|||Log Rank|||||1.26|0.78|0.9368
82510498|NCT00433654|164713965|SUPERIORITY_OR_OTHER_LEGACY||Percentage|0.0|||<|0.001|ONE_SIDED|95.0||1.7|||exact test of binomial proportions|||Null hypothesis: rate \> 10%||1.7||<0.001
82510499|NCT00433654|164713966|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|0.0||||||95.0||||P-value and confidence interval could not be calculated because both groups were 100% successful.|Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||
82510500|NCT00433654|164713967|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|0.5|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
82510501|NCT00433654|164713968|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|1.9|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
82510502|NCT00433654|164713969|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 10%.|Difference in percentages|2.1|||<|0.001||95.0|||||Farrington-Manning|||Null hypothesis: success rate MRI group \<= success rate control group - 10%||||<0.001
82630982|NCT00887822|164978298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.8636|TWO_SIDED|95.0|0.75|1.41|||Log Rank|The difference in distribution of survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.41|0.75|0.8636
82630983|NCT00887822|164978300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.4709|TWO_SIDED|95.0|0.66|1.21|||Log Rank|The difference in distribution of progression-free survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.21|0.66|0.4709
82630984|NCT00887822|164978302|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3685|TWO_SIDED|95.0|0.58|1.22|||Log Rank|The difference in distribution of progression-free survival between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.22|0.58|0.3685
82630985|NCT00887822|164978304|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8589|TWO_SIDED|95.0|0.67|1.41|||Log Rank|The difference in distribution of disease progression between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.41|0.67|0.8589
82630986|NCT00887822|164978305|SUPERIORITY_OR_OTHER||Difference in Response Rates|7.02||||0.348|TWO_SIDED|95.0|-8.3|22.4|||Chi-squared||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||22.4|-8.3|0.3480
82630987|NCT00887822|164978306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.0462|TWO_SIDED|95.0|0.29|1.0|||Log Rank|The difference in distribution of response between the two treatment arms was tested with a two-sided unstratified log-rank test.|The hazard ratio between the two treatment arms was estimated with a univariate Cox's proportional hazards model.|||1.00|0.29|0.0462
82630988|NCT00887822|164978307|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|0.45||||0.9426|TWO_SIDED|95.0|-12.4|13.3|||Chi-squared||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||13.3|-12.4|0.9426
82630989|NCT03258593|164978345|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|67.5||||0.202|TWO_SIDED|95.0|25.0|75.0||Unadjusted p-value|Wilcoxon Rank sum test|||||75|25|0.202
82630990|NCT03258593|164978345|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|114.0||||0.667|TWO_SIDED|95.0|67.9|160.3||Unadjusted p-value|Wilcoxon Rank sum test|||||160.3|67.9|0.667
82630991|NCT03258593|164978345|OTHER|Location Tests (Wilcoxon Rank sum test)|Median Difference (Net)|44.1||||0.463|TWO_SIDED|95.0|25.0|75.0|||Wilcoxon Rank sum test|||||75|25|0.463
82630992|NCT03258593|164978347|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|-17.75||||0.863|TWO_SIDED|95.0|-211.6|170.3|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||170.3|-211.6|0.863
82630993|NCT03258593|164978347|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|114.1||||0.666|TWO_SIDED|95.0|67.9|160.3|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||160.3|67.9|0.666
82630994|NCT03258593|164978347|OTHER|Location test (Rank sum based i.e., Wilcoxon test)|Median Difference (Net)|21.3||||0.949|TWO_SIDED|95.0|-203.9|269.9|||Wilcoxon Rank sum test||Median change; Signed Rank (S/R) of post-treatment PDL-1 levels minus baseline.|||269.9|-203.9|0.949
82630995|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|4.34|||<|0.001|TWO_SIDED|95.0|1.7|38.0||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interferon Gamma (IFN-γ) at 3 weeks compared to their respective baseline values.||38.0|1.7|<0.001
82630996|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|3.29|||<|0.001|TWO_SIDED|95.0|1.5|11.25||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interferon Gamma (IFN-γ) at 5 weeks compared to their respective baseline values.||11.25|1.5|<0.001
82630997|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.4|||<|0.05|TWO_SIDED|95.0|0.1|0.7||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Tumor Necrosis Factor Alpha (TNF-α) at 3 weeks compared to their respective baseline values.||0.7|0.1|<0.05
82630998|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.24||||0.052|TWO_SIDED|95.0|-0.01|0.96||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Tumor Necrosis Factor Alpha (TNF-α ) at 5 weeks compared to their respective baseline values.||0.96|-0.01|0.052
82630999|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.39||||0.055|TWO_SIDED|95.0|-0.03|4.61||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 6 (IL-6) at 3 weeks as compared to their respective baseline values.||4.61|-0.03|0.055
82631000|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.54||||0.06|TWO_SIDED|95.0|-0.06|1.96|||Paired samples Wilcoxon rank sum test|Hochberg adjustment may be used.||Interleukin 6 (IL-6) at 5 weeks as compared to their respective baseline values.||1.96|-0.06|0.06
82631001|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.73||||0.42|TWO_SIDED|95.0|-1.63|1.62||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 8 (IL-8) at 3 weeks as compared to their respective baseline values.||1.62|-1.63|0.420
82631002|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|-0.39||||0.733|TWO_SIDED|95.0|-1.315|1.31||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 8 (IL-8) at 5 weeks as compared to their respective baseline values.||1.31|-1.315|0.733
82631003|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.12||||0.01|TWO_SIDED|95.0|0.04|0.21||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 10 (IL-10) at 3 weeks as compared to their respective baseline values.||0.21|0.04|0.010
82631004|NCT03258593|164978349|OTHER|Other: median difference|Median Difference (Net)|0.1||||0.014|TWO_SIDED|95.0|0.04|0.4||Hochberg adjustment may be used.|Paired samples Wilcoxon rank sum test|||Interleukin 10 (IL-10) at 5 weeks as compared to their respective baseline values.||0.40|0.04|0.014
82631005|NCT03258593|164978351|OTHER|One curve estimated in this cohort. Not compared to any other curves.|Kaplan-Meier product-limit|13.2|||||TWO_SIDED|97.5|2.5|97.5||Unadjusted p-value|Kaplan-Meier product-limit estimates|||Disease free survival time was evaluated with the product-limit estimator by Kaplan-Meier test.||97.5|2.5|
82631006|NCT00723489|164978356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.86|TWO_SIDED|95.0|-0.3|0.2||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.2|-0.3|0.86
82631007|NCT00723489|164978357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.86|TWO_SIDED|95.0|-0.2|0.2||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.2|-0.2|0.86
82510503|NCT00433654|164713970|SUPERIORITY_OR_OTHER_LEGACY||Percentage|8.3|||<|0.001|ONE_SIDED|95.0||10.7|||exact test of binomial proportions|||Null hypothesis: Percentage of subjects with complication \> 20%||10.7||<0.001
82510504|NCT06034496|164713981|SUPERIORITY|||||||0.012||||||CES main effect|ANOVA|||||||.012
82510505|NCT06034496|164713981|SUPERIORITY|||||||0.33||||||Session main effect|ANOVA|||||||.33
82510506|NCT06034496|164713981|SUPERIORITY|||||||0.85||||||Session (baseline, follow-up) x CES|ANOVA|||||||.85
82510507|NCT06034496|164713982|SUPERIORITY|||||||0.6||||||CES main effect|ANOVA|||||||.6
82510508|NCT06034496|164713982|SUPERIORITY|||||||0.9||||||Session main effect|ANOVA|||||||.9
82510509|NCT06034496|164713982|SUPERIORITY|||||||0.05||||||CES x Session interaction|ANOVA|||||||.05
82510510|NCT06034496|164713983|SUPERIORITY|||||||0.26||||||CES main effect|ANOVA|||||||.26
82510511|NCT06034496|164713983|SUPERIORITY|||||||0.17||||||Session main effect|ANOVA|||||||.17
82568202|NCT01177137|164846101|SUPERIORITY||Slope|-2.81|STANDARD_ERROR_OF_MEAN|1.22||0.022|TWO_SIDED|95.0|-5.21|-0.41||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||-0.41|-5.21|0.022
82568203|NCT01177137|164846102|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.96||0.72|TWO_SIDED|95.0|-1.54|2.23||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||2.23|-1.54|0.72
82510512|NCT06034496|164713983|SUPERIORITY|||||||0.73||||||CES x Session main effect|ANOVA|||||||.73
82510513|NCT06034496|164713984|SUPERIORITY|||||||0.18||||||CES main effect|ANOVA|||||||.18
82510514|NCT06034496|164713984|SUPERIORITY|||||||0||||||Time main effect|ANOVA|||||||.00
82510515|NCT06034496|164713984|SUPERIORITY|||||||0.53||||||CES main effect|ANOVA|||||||.53
82510516|NCT06034496|164713984|SUPERIORITY|||||||0.07||||||CES x Time interaction|ANOVA|||||||.07
82510517|NCT06034496|164713984|SUPERIORITY|||||||0.46||||||CES x Session|ANOVA|||||||.46
82510518|NCT06034496|164713984|SUPERIORITY|||||||0.01||||||Time x Session interaction|ANOVA|||||||.01
82510519|NCT06034496|164713984|SUPERIORITY|||||||0.29||||||CES x Time x Session interaction|ANOVA|||||||.29
82510520|NCT06034496|164713985|SUPERIORITY|||||||0.1||||||CES main effect|ANOVA|||||||.10
82510521|NCT06034496|164713985|SUPERIORITY|||||||0||||||Time main effect|ANOVA|||||||.00
82510522|NCT06034496|164713985|SUPERIORITY|||||||0.81||||||Session main effect|ANOVA|||||||.81
82510523|NCT06034496|164713985|SUPERIORITY|||||||0.4||||||CES x Time interaction|ANOVA|||||||.40
82510524|NCT06034496|164713985|SUPERIORITY|||||||0.35||||||CES x Session interaction|ANOVA|||||||.35
82510525|NCT06034496|164713985|SUPERIORITY|||||||0||||||Time x Session interaction|ANOVA|||||||.00
82510526|NCT06034496|164713985|SUPERIORITY|||||||0.4||||||CES x Time x Session interaction|ANOVA|||||||.40
82510527|NCT06034496|164713986|SUPERIORITY|||||||0.23||||||STAI-T CES main effect|ANOVA|||||||.23
82510528|NCT06034496|164713986|SUPERIORITY|||||||0.45||||||STAI-T Session main effect|ANOVA|||||||.45
82510529|NCT06034496|164713986|SUPERIORITY|||||||0.38||||||STAI-T CES x Session interaction|ANOVA|||||||.38
82510530|NCT06034496|164713986|SUPERIORITY|||||||0.4||||||STAI-S CES main effect|ANOVA|||||||.40
82510531|NCT06034496|164713986|SUPERIORITY|||||||0||||||STAI-S Time main effect|ANOVA|||||||.00
82510532|NCT06034496|164713986|SUPERIORITY|||||||0||||||STAI-S Session main effect|ANOVA|||||||.00
82510533|NCT06034496|164713986|SUPERIORITY|||||||0.2||||||STAI-S CES x Time interaction|ANOVA|||||||.20
82510534|NCT06034496|164713986|SUPERIORITY|||||||0.39||||||STAI-S CES x Session interaction|ANOVA|||||||.39
82510535|NCT06034496|164713986|SUPERIORITY|||||||0||||||STAI-S Session x Time interaction|ANOVA|||||||.00
82510536|NCT06034496|164713986|SUPERIORITY|||||||0.38||||||STAI-S CES x Time x Session interaction|ANOVA|||||||.38
82510537|NCT06034496|164713987|SUPERIORITY|||||||0.85||||||CES main effect|ANOVA|||||||.85
82510538|NCT06034496|164713987|SUPERIORITY|||||||0.69||||||Session main effect|ANOVA|||||||.69
82510539|NCT06034496|164713987|SUPERIORITY|||||||0.4||||||CES x Session interaction|ANOVA|||||||.4
82510540|NCT06034496|164713988|SUPERIORITY|||||||0.13||||||CES main effect|ANOVA|||||||.13
82510541|NCT06034496|164713988|SUPERIORITY|||||||0.26||||||Session main effect|ANOVA|||||||.26
82510542|NCT06034496|164713988|SUPERIORITY|||||||0.44||||||CES x Session interaction|ANOVA|||||||.44
82510543|NCT06034496|164713989|SUPERIORITY|||||||0.36||||||CES main effect|ANOVA|||||||.36
82510544|NCT06034496|164713989|SUPERIORITY|||||||0||||||Session main effect|ANOVA|||||||.00
82510545|NCT06034496|164713989|SUPERIORITY|||||||0.96||||||CES x Session interaction|ANOVA|||||||.96
82510546|NCT05179421|164713991|OTHER|NONMEM applies nonlinear mixed effects modeling to evaluate the relationship between predicted drug concentration after administration from known pharmacokinetics and a pharmacodynamic effect, in this case being a reduction in pain from sustained heat application.|||||<|0.05|||||||Mixed Models Analysis|||Pain scores over time will first be modeled using NONMEM with derived parameters of maximum effect (Emax) and doses to produce a 50% and 90% maximum drug effect (C50 and C90, respectively), the steepness of the dose response curve (γ), and the time to peak effect. Inter-subject variability (e.g., biological variability) will evaluate additive, proportional, and exponential models. Residual intrasubject variability (e.g., noise) will typically require an additive and multiplicative error model.||||<0.05
82631008|NCT00723489|164978358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.1|TWO_SIDED|95.0|-0.5|0.05||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.05|-0.5|0.10
82631009|NCT00723489|164978359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.66|TWO_SIDED|95.0|-0.2|0.3||P-value is not adjusted for multiple comparisons.|ANOVA||Mean (AD) - Mean (Non-AD)|||0.3|-0.2|0.66
82631010|NCT00723489|164978360|SUPERIORITY_OR_OTHER|||||||0.24||||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||||||0.24
82631011|NCT00723489|164978361|SUPERIORITY_OR_OTHER|||||||0.43||||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||||||0.43
82631012|NCT00723489|164978362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|0.1||||0.48|TWO_SIDED|95.0|-0.1|0.3||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|This analysis excludes 1 SC-(AD) participant who did not seroconvert. Only participants who had peripheral blood T-cell samples collected from Day 0 to Day 30 as specified in the Outcome Measure Time Frame were included in analysis (1 SC -(Non-AD) participant was excluded). T-cell data from 3 SC-(Non-AD) and 1 SC-(AD) participant was excluded due to problems with sample processing||0.3|-0.1|0.48
82631013|NCT00723489|164978363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|-0.3||||0.036|TWO_SIDED|95.0|-0.5|-0.02||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|Participants who did not seroconvert were excluded from this analysis (2 TC-(AD) and 5 TC-(Non-AD)). T-cell data from 4 TC-(AD) and 3 TC-(Non-AD) subjects was excluded due to problems with sample processing||-0.02|-0.5|0.036
82631014|NCT00723489|164978364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|0.04||||0.82|TWO_SIDED|95.0|-0.3|0.4||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|This analysis excludes 1 SC-(AD) participant who did not seroconvert. Only participants who had peripheral blood T-cell samples collected from Day 0 to Day 30 as specified in the Outcome Measure Time Frame were included in analysis (1 SC -(Non-AD) participant was excluded). T-cell data from 3 SC-(Non-AD) and 1 SC-(AD) participant was excluded due to problems with sample processing||0.4|-0.3|0.82
82631015|NCT00723489|164978365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values) Day 30|-0.4||||0.045|TWO_SIDED|95.0|-0.7|-0.01||P-value is not adjusted for multiple comparisons.|Mixed Models Analysis||Mean (AD) - Mean (Non-AD)|Participants who did not seroconvert were excluded from this analysis (2 TC-(AD) and 5 TC-(Non-AD)). T-cell data from 4 TC-(AD) and 3 TC-(Non-AD) subjects was excluded due to problems with sample processing||-0.01|-0.7|0.045
82631016|NCT04437511|164978376|SUPERIORITY||LS Mean change difference (Final Values)|2.92|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|1.508|4.331|||Mixed Models Analysis|||||4.331|1.508|<0.001
82631017|NCT04437511|164978377|SUPERIORITY||LS Mean change difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.883|4.618|||Mixed Models Analysis|||||4.618|1.883|<0.001
82631018|NCT04437511|164978378|SUPERIORITY||LS Mean change difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.19||0.012|TWO_SIDED|95.0|0.104|0.841|||Mixed Models Analysis|||||0.841|0.104|0.012
82631019|NCT04437511|164978379|SUPERIORITY||LS Mean change difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.2||0.016|TWO_SIDED|95.0|0.089|0.868|||Mixed Models Analysis|||||0.868|0.089|0.016
82631020|NCT04437511|164978380|SUPERIORITY||LS Mean change difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.39||0.0006|TWO_SIDED|95.0|-2.086|-0.565|||Mixed Models Analysis|||||-0.565|-2.086|0.0006
82631021|NCT04437511|164978381|SUPERIORITY||LS Mean change difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.25|-0.794|||Mixed Models Analysis|||||-0.794|-2.250|<0.001
82631022|NCT04437511|164978382|SUPERIORITY||LS Mean change difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.127|<|0.001|TWO_SIDED|95.0|-0.95|-0.45|||Mixed Models Analysis|||||-0.45|-0.95|<0.001
82631023|NCT04437511|164978383|SUPERIORITY||LS Mean change difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.95|-0.4|||Mixed Models Analysis|||||-0.40|-0.95|<0.001
82631024|NCT04437511|164978384|SUPERIORITY||LS Mean change difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.44||0.0001|TWO_SIDED|95.0|0.84|2.566|||Mixed Models Analysis|||||2.566|0.840|0.0001
82631025|NCT04437511|164978385|SUPERIORITY||LS Mean change difference (Final Values)|1.83|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|0.913|2.748|||Mixed Models Analysis|||||2.748|0.913|<0.001
82631026|NCT04437511|164978386|SUPERIORITY||LS Mean change difference (Final Values)|-86.37|STANDARD_ERROR_OF_MEAN|1.275|<|0.0001|TWO_SIDED|95.0|-88.87|-83.87|||Mixed Models Analysis|||||-83.87|-88.87|<0.0001
82631027|NCT04437511|164978387|SUPERIORITY||LS Mean change difference (Final Values)|-0.0041||||0.4522|TWO_SIDED|95.0|-0.0148|0.0066|||ANCOVA|||||0.0066|-0.0148|0.4522
82631028|NCT04437511|164978388|SUPERIORITY||LS Mean change difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.007||0.002|TWO_SIDED|95.0|0.01|0.04|||Mixed Models Analysis|||Bilateral Hippocampus||0.04|0.01|0.002
82631029|NCT04437511|164978388|SUPERIORITY||LS Mean change difference (Final Values)|-6.66|STANDARD_ERROR_OF_MEAN|0.561|<|0.001|TWO_SIDED|95.0|-7.76|-5.56|||Mixed Models Analysis|||Bilateral Whole Brain||-5.56|-7.76|<0.001
82631030|NCT04437511|164978388|SUPERIORITY||LS Mean change difference (Final Values)|3.02|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|2.52|3.52|||Mixed Models Analysis|||Bilateral Ventricles||3.52|2.52|<0.001
82631031|NCT05032755|164978391|SUPERIORITY||beta estimate|1.902|STANDARD_ERROR_OF_MEAN|0.398|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term|||||<.0001
82631032|NCT05032755|164978392|SUPERIORITY||beta estimate|0.368|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||<.0001
82631033|NCT05032755|164978393|SUPERIORITY||beta estimate|0.672|STANDARD_ERROR_OF_MEAN|0.362||0.065|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.065
82631034|NCT05032755|164978394|SUPERIORITY||beta estimate|0.364|STANDARD_ERROR_OF_MEAN|0.133||0.007|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.007
82510547|NCT00207142|164713999|NON_INFERIORITY_OR_EQUIVALENCE|Efficacy at Week 48 on the Switch Arm was considered to be non-inferior to the Continuation Arm if the lower limit of the 95% Confidence Interval was greater than -15%.|Difference in proportions|2.9||||||95.0|-9.8|15.5|||Normal approximation|||The planned sample size of 178 randomized subjects (89 on each regimen) provides at least 80% power to demonstrate that the response rate on ATV is within a 15% margin of the response rate on ATV/RTV assuming: a 2-sided 95% confidence interval for the difference in response rate between treatment regimens (switch-continuation); a response rate of 85% in both the Continuation and Switch regimens; a margin of -15% for the difference in response rates between treatment regimens.||15.5|-9.8|
82510548|NCT00207142|164714000|SUPERIORITY_OR_OTHER||Difference in Proportions|5.0||||||95.0|-6.0|16.1|||Normal Approximation|||||16.1|-6.0|
82510549|NCT00207142|164714001|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||||95.0|0.5|1.88|||Cox Proportional Hazards Model|||Covariate in the model: treatment regimen.||1.88|0.50|
82510550|NCT00207142|164714002|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||||95.0|0.37|1.9|||Cox Proportional Hazards Model|||Covariate in the model: treatment regimen||1.90|0.37|
82510551|NCT00207142|164714003|SUPERIORITY_OR_OTHER||Difference in means at Week 48|7.0||||||95.0|-38.0|53.0|||Normal approximation|||||53|-38|
82510552|NCT02800148|164714019|EQUIVALENCE|provides 85% power of success|equivalence ratio|107.0|||||TWO_SIDED|90.0|96.1|115.5||No p-value as calculated for bioequivalence, just a T/R ratio and 90% confidence interval|Fieller's method|||||115.5|96.1|
82568204|NCT01177137|164846102|SUPERIORITY||Slope|-1.04|STANDARD_ERROR_OF_MEAN|0.91||0.26|TWO_SIDED|95.0|-2.83|0.75||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.75|-2.83|0.26
82568205|NCT01177137|164846103|SUPERIORITY||Slope|0.61|STANDARD_ERROR_OF_MEAN|0.59||0.3|TWO_SIDED|95.0|0.55|1.78||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||1.78|0.55|0.30
82568206|NCT01177137|164846103|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.58||0.29|TWO_SIDED|95.0|-1.75|0.52||The a priori threshold for statistical significance was \<0.025 to account for two comparisons (1) TRT versus the Standard of Care and (2) Partial TRT versus the Standard of Care|repeated measures GEE model||Adjusted for baseline THI value, clinic, visit, age, gender, baseline Positive and Negative Affect Schedule and State Trait Anxiety Inventory scores, with multiple imputation|||0.52|-1.75|0.29
82568207|NCT02460562|164846113|SUPERIORITY||||||<|0.05||||||Mean salivary fluoride concentrations (part per million) between groups were assessed at different time points using repeated measures analysis of variance. Saliva fluoride concentration from each groups were compared with baseline using a t-test.|ANOVA|||Mean saliva fluoride concentration (part per million) collected at different time points was compared in order to assess the change in capacity for fluoride release and recharge from the resin denture base and to assess differences between the control and the intervention group.||||<0.05
82568208|NCT02460562|164846114|SUPERIORITY||Odds Ratio (OR)|0.45|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||Caries assessments were performed to examine the difference in mean number of surface caries (DMFS) ± standard deviation between the control and the intervention groups at baseline and at 1.5 years.The transition (∆Q) of developed new caries surfaces (ICDAS score 1-3) from baseline to 1.5 years of follow-up for the two groups was analyzed with respect to arrest or progress rates. Numbers of new caries surfaces were compared by independent t-test, Pearson chi-square and correlation coefficient.||||<0.05
82568209|NCT01951261|164846115|NON_INFERIORITY|sample size calculation was made, considering it appropriate to set a limit of non-inferiority with respect to the main variable of 1.2 months (36 days), the study being lower if it will have exacerbation before this period of time, with a follow-up of 6 months, It was required to include a sample of 58 patients per group for a potency of 80% and a significance level of 5%.|||||<|0.05||||||The reported p-value was calculated.Statistical analysis of the main variable was performed using the Kaplan-Meier method and log-rank test|Log Rank|||||||<0.05
82568210|NCT00999141|164846126|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||two-sided paired t-test|alpha = 5%||||||<0.0001
82510553|NCT01393743|164714025|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-30.81||||0.0001|TWO_SIDED|95.0|-45.49|-15.244||The P-value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA|||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.||-15.244|-45.49|0.0001
82510554|NCT01393743|164714026|SUPERIORITY_OR_OTHER|||||||0.0019||||||The P value is based on non-missing values and is from a Cochran-Mantel-Haenszel test stratified by pooled country.|Cochran-Mantel-Haenszel|||||||0.0019
82510555|NCT01393743|164714028|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.45||||0.0018|TWO_SIDED|95.0|-40.668|-8.518||The P value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA|||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.||-8.518|-40.668|0.0018
82510556|NCT01393743|164714029|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.25||||0.3478|TWO_SIDED|95.0|-53.054|26.989||The P value is based on a rank analysis of covariance with treatment and pooled country as factors, and prerandomization seizure frequency as a covariate.|ANCOVA||The median difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|Median Difference to Placebo for Absence Seizures||26.989|-53.054|0.3478
82568211|NCT00999141|164846129|SUPERIORITY_OR_OTHER||Difference in Proportions|0.04||||0.257||95.0|-0.039|0.125|||McNemar|alpha = 5%|Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||0.125|-0.039|0.257
82510557|NCT01393743|164714029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.87||||0.61|TWO_SIDED|95.0|-15.338|59.938|||ANCOVA|||Median Difference to Placebo for Myoclonic Seizure||59.938|-15.338|0.61
82631035|NCT05032755|164978395|SUPERIORITY||beta estimate|1.78|STANDARD_ERROR_OF_MEAN|1.78||0.325|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 2 levels (pre- vs post-intervention). Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.325
82568212|NCT00999141|164846130|SUPERIORITY_OR_OTHER||Difference in proportions|-0.373|||<|0.001||95.0|-0.524|-0.193|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.193|-0.524|<0.001
82568213|NCT00999141|164846131|SUPERIORITY_OR_OTHER||Difference in proportions|-0.387|||<|0.001||95.0|-0.538|-0.205|||McNemar||Difference in Proportions = SoC - FS VH S/D 4 s-apr|||-0.205|-0.538|<0.001
82568214|NCT00999141|164846132|SUPERIORITY_OR_OTHER||Difference in proportions|-0.356||||0.001||95.0|-0.521|-0.161|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.161|-0.521|0.001
82568215|NCT00999141|164846133|SUPERIORITY_OR_OTHER||Difference in proportions|-0.189||||0.027||95.0|-0.342|-0.023|||McNemar|alpha = 5%|Difference in proportions = SoC - FS VH S/D 4 s-apr|||-0.023|-0.342|0.027
82568216|NCT00999141|164846136|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.413||||||95.0|-0.577|-0.213|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.213|-0.577|
82568217|NCT00999141|164846137|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.227||||||95.0|-0.413|-0.02|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.020|-0.413|
82568218|NCT00999141|164846138|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.347||||||95.0|-0.518|-0.145|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.145|-0.518|
82568219|NCT00999141|164846139|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.365||||||95.0|-0.528|-0.171|||||Difference in Proportions = (SoC) - (FS VH S/D 4 s-apr)|||-0.171|-0.528|
82568220|NCT04098497|164846155|OTHER|||||||0.09|||||||t-test, 2 sided|t = 1.74, df = 28||baseline to day 42 comparison||||0.09
82568221|NCT04098497|164846156|OTHER|||||||0.09|||||||t-test, 2 sided|t = 1.75, df = 28||baseline to day 42||||0.09
82510558|NCT01393743|164714030|SUPERIORITY_OR_OTHER|||||||0.1826||||||The P value is based on non-missing values and is from a Cochran-Mantel-Haenszel test stratified by pooled country.|Cochran-Mantel-Haenszel|||||||0.1826
82568222|NCT04098497|164846157|SUPERIORITY|||||||0.13|||||||Regression, Linear|β = 0.14, z = 1.51||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.13
82631036|NCT05032755|164978397|SUPERIORITY||beta estimate|0.222|STANDARD_ERROR_OF_MEAN|0.104||0.035|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.035
82510559|NCT01393743|164714031|SUPERIORITY_OR_OTHER|||||||0.4653|||||||Cochran-Mantel-Haenszel|||P Value Compared to Placebo for Absence Seizures||||0.4653
82510560|NCT01393743|164714031|SUPERIORITY_OR_OTHER|||||||0.3694|||||||Cochran-Mantel-Haenszel|||P Value Compared to Placebo for Myoclonic Seizures||||0.3694
82510561|NCT01153581|164714037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82568223|NCT04098497|164846158|SUPERIORITY|||||||0.007|||||||Regression, Linear|β = 0.38, z = 2.71||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.007
82568224|NCT04098497|164846159|SUPERIORITY|||||||0.57|||||||Regression, Linear|β = 0.03, z = 0.58||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.57
82568225|NCT04098497|164846160|SUPERIORITY|||||||0.25|||||||Regression, Linear|β = 0.06, z = 1.15||Mean difference between receiving the intervention and not receiving the intervention at each time point.||||0.25
82568226|NCT03455218|164846164|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82568227|NCT03455218|164846166|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
82568228|NCT03455218|164846167|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82568229|NCT03455218|164846168|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82568230|NCT03455218|164846169|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82568231|NCT03455218|164846170|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82568232|NCT03455218|164846171|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82568233|NCT03455218|164846173|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82568234|NCT03455218|164846174|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82568235|NCT03455218|164846175|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82568236|NCT03455218|164846176|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82568237|NCT03455218|164846177|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82568238|NCT03455218|164846178|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82568239|NCT03455218|164846179|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82568240|NCT00297778|164846180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.0103||95.0|-3.4|-0.5|||ANCOVA|||||-0.5|-3.4|0.0103
82568241|NCT00297778|164846181|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.758||||0.0535||95.0|0.992|3.115|||Regression, Logistic|||||3.115|0.992|0.0535
82568242|NCT00297778|164846182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.0346||95.0|-1.5|-0.1|||ANCOVA|||||-0.1|-1.5|0.0346
82568243|NCT00297778|164846183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.5244||95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|-1|0.5244
82568244|NCT00297778|164846184|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.141||95.0|0.0|0.0|||van Elteren (country stratification)|||||0|0|0.141
82568245|NCT00297778|164846185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.003||95.0|-1.9|-0.4|||ANCOVA|||||-0.4|-1.9|0.003
82568246|NCT00297778|164846186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0034||95.0|-3.7|-0.7|||ANCOVA|||||-0.7|-3.7|0.0034
82568247|NCT00297778|164846187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4||||0.0007||95.0|-5.4|-1.5|||ANCOVA|||||-1.5|-5.4|0.0007
82568248|NCT00297778|164846188|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.821||||0.006||95.0|1.187|2.794|||Regression, Logistic|||||2.794|1.187|0.006
82510562|NCT01723228|164714038|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.8||||0.2204|TWO_SIDED|95.0|-0.48|2.05|||repeated measures model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||2.05|-0.48|0.2204
82510563|NCT01723228|164714039|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1||||0.8428|TWO_SIDED|95.0|-0.99|0.81|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||0.81|-0.99|0.8428
82510564|NCT01723228|164714040|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7||||0.4796|TWO_SIDED|95.0|-2.74|1.3|||ANCOVA|The statistical model is an analysis of covariance (ANCOVA) with treatment, center, baseline score, and age as fixed effects.||||1.30|-2.74|0.4796
82510565|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.1148|TWO_SIDED|95.0|0.89|2.93|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC||2.93|0.89|0.1148
82510566|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1052|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the Cochran-Mantel-Haenszel (CMH) p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC||||0.1052
82510567|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.8857|TWO_SIDED|95.0|0.52|1.75|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Cognition||1.75|0.52|0.8857
82510568|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9945|TWO_SIDED|||||For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.|Cochran-Mantel-Haenszel|||CGIC Cognition||||0.9945
82510569|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.6909|TWO_SIDED|95.0|0.56|2.43|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Behavior||2.43|0.56|0.6909
82510570|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6639|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC Behavior||||0.6639
82510571|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.3204|TWO_SIDED|95.0|0.72|2.68|||Proportional Odds Model|The statistical model is a proportional odds model with terms for treatment, center, and age.||CGIC Functional Abilities||2.68|0.72|0.3204
82510572|NCT01723228|164714041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3331|TWO_SIDED||||||Cochran-Mantel-Haenszel|For the CMH p-value, the statistical model is a CMH test controlling for center with scores=modridit option.||CGIC Functional Abilities||||0.3331
82510573|NCT01723228|164714042|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.5||||0.0151|TWO_SIDED|95.0|-4.47|-0.49|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||-0.49|-4.47|0.0151
82510574|NCT01723228|164714043|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.3||||0.0003|TWO_SIDED|95.0|-3.53|-1.08|||Repeated Measures Model|The statistical model is a repeated measures model with visit by treatment interaction, center, baseline score, and age as fixed effects.||||-1.08|-3.53|0.0003
82510575|NCT01806896|164714050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|1.68||0.68|TWO_SIDED|90.0|-3.56|2.15||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effects and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Day 28)||2.15|-3.56|0.68
82510576|NCT01806896|164714052|SUPERIORITY_OR_OTHER||Least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.79|TWO_SIDED|90.0|-0.72|0.52||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Cue Rew\>Neut Left VS)||0.52|-0.72|0.79
82510577|NCT01806896|164714052|SUPERIORITY_OR_OTHER||Least square mean|-0.15|STANDARD_ERROR_OF_MEAN|0.37||0.7|TWO_SIDED|90.0|-0.8|0.51||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Cue Rew\>Neut Right VS)||0.51|-0.80|0.70
82510578|NCT01806896|164714052|SUPERIORITY_OR_OTHER||Least square mean|-0.25|STANDARD_ERROR_OF_MEAN|0.37||0.51|TWO_SIDED|90.0|-0.89|0.4||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Out\_win\_Rew\>Out\_win N Left VS)||0.40|-0.89|0.51
82510579|NCT01806896|164714052|SUPERIORITY_OR_OTHER||Least square mean|-0.53|STANDARD_ERROR_OF_MEAN|0.33||0.13|TWO_SIDED|90.0|-1.1|0.04||2-sided p-value|ANCOVA|Treatment differences are based on a mixed effect model including treatment as fixed effect and baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Out\_win\_Rew\>Out\_win N Right VS)||0.04|-1.10|0.13
82510580|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|7.3|STANDARD_ERROR_OF_MEAN|3.57||0.04|TWO_SIDED|90.0|1.43|13.18||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Neutral) Day 28||13.18|1.43|0.04
82510581|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|7.57|STANDARD_ERROR_OF_MEAN|3.57||0.03|TWO_SIDED|90.0|1.69|13.45||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Positive) Day 28||13.45|1.69|0.03
82510582|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|7.28|STANDARD_ERROR_OF_MEAN|3.56||0.04|TWO_SIDED|90.0|1.41|13.15||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Emotional Incentive-Negative) Day 28||13.15|1.41|0.04
82510583|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|0.98|STANDARD_ERROR_OF_MEAN|3.58||0.78|TWO_SIDED|90.0|-4.91|6.87||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-0.01 Euro) Day 28||6.87|-4.91|0.78
82510584|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|4.78|STANDARD_ERROR_OF_MEAN|3.58||0.18|TWO_SIDED|90.0|-1.11|10.67||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-0.1 Euro) Day 28||10.67|-1.11|0.18
82510585|NCT01806896|164714055|SUPERIORITY_OR_OTHER||Least square mean|16.35|STANDARD_ERROR_OF_MEAN|3.58|<|0.01|TWO_SIDED|90.0|10.46|22.24||2-sided p-value|ANCOVA|Mixed effect model including treatment, incentive and treatment\*incentive as fixed effects; baseline, age, gender and CAG repeats as covariates.||PF-02545920 versus Placebo (Monetary Incentive-1 Euro) Day 28||22.24|10.46|<0.01
82510586|NCT02434770|164714058|EQUIVALENCE|Primary efficacy objective 1 of this study was to demonstrate the equivalence of two lots of BBIBP bOPV in terms of post-vaccination anti-polio neutralizing antibody GMTs. The immune response of the two lots of BBIBP bOPV would be declared equivalent if the 95% confidence interval (CI) for the serotype-specific GMT ratio for both serotypes was contained within (0.5, 2.0).|Ratio of Geometric Mean Titers|0.84|||||TWO_SIDED|95.0|0.65|1.08|||||Lot 1 / Lot 2|||1.08|0.65|
82510587|NCT02434770|164714058|NON_INFERIORITY|Secondary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody GMTs. The two Lots combined would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the serotype-specific GMT ratio of BBIBP Lots 1+2 over WHO control for both serotypes was \> 0.5.|Ratio of Geometric Mean Titers|1.08|||||TWO_SIDED|95.0|0.87|1.34|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.34|0.87|
82510588|NCT02434770|164714059|EQUIVALENCE|Primary efficacy objective 1 of this study was to demonstrate the equivalence of two lots of BBIBP bOPV in terms of post-vaccination anti-polio neutralizing antibody GMTs. The immune response of the two lots of BBIBP bOPV would be declared equivalent if the 95% confidence interval (CI) for the serotype-specific GMT ratio for both serotypes was contained within (0.5, 2.0).|Ratio of Geometric Mean Titers|0.92|||||TWO_SIDED|95.0|0.73|1.15|||||Lot 1 / Lot 2|||1.15|0.73|
82510589|NCT02434770|164714059|NON_INFERIORITY|Secondary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody GMTs. The two Lots combined would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the serotype-specific GMT ratio of BBIBP Lots 1+2 over WHO control for both serotypes was \> 0.5.|Ratio of Geometric Mean Titers|1.47|||||TWO_SIDED|95.0|1.21|1.79|||||BBIBP bOPV Lot 1 + Lot 2 / BioFarma bOPV|||1.79|1.21|
82510590|NCT02434770|164714060|NON_INFERIORITY|Primary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The immune response of the combined lots of BBIBP bOPV would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the difference in percent responders is greater than negative 10, provided the two lots are declared equivalent.|Difference in seroconversion rate|1.5|||||TWO_SIDED|95.0|-0.5|4.6|||||BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|For serotype 1||4.6|-0.5|
82510591|NCT02434770|164714060|NON_INFERIORITY|Primary efficacy objective 2 of this study was to demonstrate the non-inferiority of the two lots of BBIBP bOPV combined to the WHO control in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The immune response of the combined lots of BBIBP bOPV would be declared non-inferior to the WHO control if the lower limit of the 95% CI for the difference in percent responders is greater than negative 10, provided the two lots are declared equivalent.|Difference in seroconversion rate|2.2|||||TWO_SIDED|95.0|-0.1|5.6|||||BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|For Serotype 3||5.6|-0.1|
82510592|NCT02434770|164714060|OTHER|Secondary efficacy objective 1 of this study was to show consistency of the two lots in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The two lots would be declared consistent if the upper and lower limits of the 95% CI for the difference in seroconversion rates is within 10 percentage points of the observed difference for both serotypes.|Difference in seroconversion rate|-0.4|||||TWO_SIDED|95.0|-3.0|2.1|||||Lot 1 - Lot 2|For Serotype 1||2.1|-3.0|
82568249|NCT00297778|164846189|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.3||||0.1925||95.0|-3.3|0.8|||van Elteren (country stratification)|||||0.8|-3.3|0.1925
82510593|NCT02434770|164714060|NON_INFERIORITY|Secondary efficacy objective 1 of this study was to show consistency of the two lots in terms of post-vaccination anti-polio neutralizing antibody seroconversion rates. The two lots would be declared consistent if the upper and lower limits of the 95% CI for the difference in seroconversion rates is within 10 percentage points of the observed difference for both serotypes.|Difference in seroconversion rate|0.1|||||TWO_SIDED|95.0|-2.6|2.8|||||Lot 1 - Lot 2|For Serotype 3||2.8|-2.6|
82510594|NCT02434770|164714061|NON_INFERIORITY|To show non-inferiority of Lots 1+2 combined versus BioFarma bOPV Control, the lower limit of the 95% CI must be \> 0.5.|Ratio of Geometric Mean Titers|1.2|||||TWO_SIDED|95.0|0.89|1.63|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.63|0.89|
82510595|NCT02434770|164714062|OTHER||Difference in seroprotection rate|-0.09||||0.5586|TWO_SIDED|95.0|-3.86|4.48|||Fisher's exact 1-tailed test|Fisher's exact 1-tailed test of a lower rate in Lots 1+2|BBIBP bOPV (Lot 1 + Lot 2) - BioFarma bOPV|||4.48|-3.86|0.5586
82568250|NCT00297778|164846190|SUPERIORITY_OR_OTHER||Hodges-Lehmann est of diff in medians|0.04||||0.0337||95.0|0.0|0.09|||Wilcoxon rank sum (Van Elteren's test)|||||0.09|0|0.0337
82568251|NCT00297778|164846191|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.8471||95.0|-5.6|4.6|||ANCOVA|||||4.6|-5.6|0.8471
82510596|NCT02434770|164714063|NON_INFERIORITY|To show non-inferiority of Lots 1+2 combined versus BioFarma bOPV Control, the lower limit of the 95% CI must be \> 0.5.|Ratio of Geometric Mean Titers|0.99|||||TWO_SIDED|95.0|0.71|1.38|||||Lot 1 + Lot 2 / BioFarma bOPV|||1.38|0.71|
82510597|NCT01282424|164714072|SUPERIORITY||||||<|0.0001||||||The null hypothesis is ≤ 20%.|Exact binomial test|||||||< 0.0001
82568252|NCT00297778|164846192|SUPERIORITY_OR_OTHER||Hodges-Lehmann est of diff in medians|0.0||||0.141|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank sum (Van Elteren's test)||95% Confidence interval is Distribution-free Confidence Interval (Moses).|N's exclude patients from the analysis set with incomplete data||0.0|0.0|0.1410
82568253|NCT00297778|164846193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5231|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||N's exclude patients from the analysis set with incomplete data||0.2|-0.5|0.5231
82568254|NCT03569475|164846204|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.41||0.2215|TWO_SIDED|95.0|-4.49|1.04|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||1.04|-4.49|0.2215
82568255|NCT03569475|164846204|SUPERIORITY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.41||0.1964|TWO_SIDED|95.0|-4.59|0.95|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||0.95|-4.59|0.1964
82568256|NCT03569475|164846205|SUPERIORITY||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.6789|TWO_SIDED|95.0|-0.32|0.21|||Mixed Model for Repeated Measures||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and Baseline and Baseline-by-visit as covariates using an unstructured covariance matrix.|||0.21|-0.32|0.6789
82568257|NCT03569475|164846205|SUPERIORITY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1126|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures|||||0.05|-0.48|0.1126
82568258|NCT02109107|164846206|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|t=21.33; df=53||||||<.0001
82568259|NCT02109107|164846207|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|t=2.95; df=53||||||<0.05
82568260|NCT02109107|164846208|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||t-test, 2 sided|t+3.34; df=53||||||<0.005
82631037|NCT05032755|164978398|SUPERIORITY||beta estimate|0.201|STANDARD_ERROR_OF_MEAN|0.181||0.27|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.27
82510598|NCT04976530|164714094|SUPERIORITY||win ratio|1.07||||0.748|TWO_SIDED|95.0|0.72|1.58|||Finkelstein Schoenfeld test|||||1.58|0.72|0.748
82510599|NCT04976530|164714095|SUPERIORITY||win ratio|1.33||||0.202|TWO_SIDED|95.0|0.86|2.04|||Finkelstein Schoenfeld test|||||2.04|0.86|0.202
82510600|NCT04976530|164714096|SUPERIORITY||win ratio|1.17||||0.451|TWO_SIDED|95.0|0.79|1.73|||Finkelstein Schoenfeld test|||||1.73|0.79|0.451
82510601|NCT04976530|164714097|SUPERIORITY||win ratio|1.59||||0.041|TWO_SIDED|95.0|1.02|2.46|||Finkelstein Schoenfeld test|||||2.46|1.02|0.041
82510602|NCT04976530|164714098|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
82510603|NCT04976530|164714099|SUPERIORITY|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||||||0.079
82568261|NCT02273180|164846217|NON_INFERIORITY|Non-inferiority of SAR342434 over Humalog was demonstrated if upper bound of 2-sided 95% confidence interval(CI) of difference between SAR342434 \& Humalog was \<0.3%.Inverse non-inferiority of Humalog over SAR342434 was tested using hierarchical step-down testing procedure:if non-inferiority of SAR342434 over Humalog was demonstrated,then inverse non-inferiority of Humalog over SAR342434 was tested, demonstrated if lower bound of 2-sided 95%CI of difference between SAR342434 \& Humalog was \>-0.3%.|Least Square (LS) Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|95.0|-0.084|0.197|||||SAR342434 vs. Humalog|Analysis was performed using a MMRM approach with treatment groups, randomization strata, visits and treatment-by-visit interaction as fixed categorical effects, and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates. An unstructured correlation matrix was used to model within-participant errors.||0.197|-0.084|
82568262|NCT03859622|164846238|OTHER|Frequencies and percentages for categorical data.||||||||||||Standard methods are used for the description of data (frequencies and percentages for categorical data)||||Standard methods are used for the description of data (frequencies and percentages for categorical data)|Standard methods are used for the description of data (frequencies and percentages for categorical data)|||
82568263|NCT02799745|164846282|SUPERIORITY||Hazard Ratio (HR)|0.542||||0.016|TWO_SIDED|95.0|0.33|0.892||P-value was from a 2-sided stratified log-rank test.|Log Rank||HR, 95% CI for HR:based on a Cox regression model assuming proportional hazards with treatment, prostate cancer risk,type of biopsy,baseline variables(as age, race), time since prostate cancer diagnosis as fixed effects and random effect of site.|||0.892|0.330|0.016
82631038|NCT05032755|164978399|SUPERIORITY||beta estimate|-1.229|STANDARD_ERROR_OF_MEAN|1.037||0.24|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 5 levels. Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.24
82631039|NCT05032755|164978404|SUPERIORITY||beta estimate|4.69|STANDARD_ERROR_OF_MEAN|2.88||0.113|TWO_SIDED|||||Group is entered as a between-subjects factor and Visit is included as a repeated factor with 2 levels (pre- vs post-intervention). Baseline pain and FTCD scores, assessed at screening, are included along with sex as covariates.|Mixed Models Analysis|Model includes random intercepts|Estimation parameter is beta estimate for group by visit interaction term.|||||0.113
82631040|NCT01996865|164978416|OTHER||Hazard Ratio (HR)|0.8||||0.3296|TWO_SIDED|95.0|0.6|1.2|||Regression, Cox|||||1.2|0.6|0.3296
82631041|NCT01996865|164978417|OTHER||Hazard Ratio (HR)|0.7||||0.1222|TWO_SIDED|95.0|0.4|1.1|||Regression, Cox|||||1.1|0.4|0.1222
82631042|NCT00557362|164978514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.098||||0.29|TWO_SIDED|95.0|-0.28|0.083|||Regression, Linear|Multiple linear regression model adjusted for enrollment BSCVA and corneal de-epithelialization||||0.083|-0.28|0.29
82510604|NCT04976530|164714100|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|||||||0.427
82510605|NCT04976530|164714101|SUPERIORITY|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||||||0.042
82631043|NCT00557362|164978515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.4|TWO_SIDED|95.0|0.76|2.02|||Regression, Cox|||||2.02|0.76|0.40
82631044|NCT00557362|164978516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.37|TWO_SIDED|95.0|-0.2|0.53|||Regression, Linear|||||0.53|-0.20|0.37
82510606|NCT00445328|164714132|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is based on chi-square test with alpha as 0.01.|Chi-squared|||||||1.0000
82510607|NCT00445328|164714134|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Chi-squared|||Major Bleeding||||1.0000
82510608|NCT00445328|164714137|SUPERIORITY_OR_OTHER|||||||0.1355||95.0|||||Chi-squared|||||||0.1355
82510609|NCT02782949|164714151|SUPERIORITY|||||||0.399|||||||Wilcoxon Rank-Sum test|||||||0.3990
82510610|NCT02782949|164714154|SUPERIORITY|||||||0.74|||||||Fisher Exact|||||||0.74
82510611|NCT01966926|164714159|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|chi square|2.05||||0.15|TWO_SIDED|||||P-value was unadjusted, with an a priori threshold for statistical significance set at p \<.05.|Chi-squared|1 degree of freedom||||||.15
82510612|NCT01966926|164714160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.96||||0.61||||||P-value not adjusted for multiple comparisons; a priori threshold of \<0.05 for statistical significance|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.61
82510613|NCT01966926|164714161|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.95||||0.5||||||P-value is unadjusted; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.50
82510614|NCT01966926|164714162|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.87||||0.15||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,27||Repeated measures analysis from baseline to six months.||||0.15
82510615|NCT01966926|164714163|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.91||||0.3||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 2,26||Repeated measures analysis from baseline to six months.||||0.30
82510616|NCT01966926|164714164|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power not calculated due to small sample size and pilot study intent.|Wilks' Lambda|0.93||||0.17||||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance was \<0.05.|MANOVA|Degrees of freedom: 1,28||Repeated measures analysis from three to six months.||||0.17
82510617|NCT01101841|164714170|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Week 4 frequency|Rank transformed ANCOVA|||||||<0.0001
82510618|NCT01101841|164714170|SUPERIORITY_OR_OTHER|||||||0.0001||||||Week 12 frequency|Rank transformed ANCOVA|||||||0.0001
82631045|NCT00557362|164978517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.62|TWO_SIDED|95.0|-0.25|0.41|||Regression, Linear|||Best spectacle-corrected visual acuity (BSCVA) was examined in a linear regression model with enrollment BSCVA and treatment arm as covariates among a subgroup of ulcers caused by Fusarium spp.||0.41|-0.25|0.62
82510619|NCT01101841|164714171|SUPERIORITY_OR_OTHER|||||||0.0066||||||Week 24 persistence of effect|Logit model|||||||0.0066
82510620|NCT01101841|164714186|SUPERIORITY_OR_OTHER|||||||0.0368||||||Week 4 severity|Rank transformed ANCOVA|||||||0.0368
82510621|NCT01101841|164714186|SUPERIORITY_OR_OTHER|||||||0.0064||||||Week 12 severity|Rank transformed ANCOVA|||||||0.0064
82510622|NCT02453113|164714192|SUPERIORITY||||||||||||||||||The statistical end point of the study will be the changes in density of CD11c+ dermal dendritic cells between two biopsies from a study subject where one sample is subjected to laser irradiation and the other is the control. For assessment of statistical significance, we will apply a paired sample t-test.|||
82510623|NCT02896400|164714193|SUPERIORITY||Odds Ratio (OR)|1.8||||0.01|TWO_SIDED|95.0|1.1|2.8|||Regression, Logistic|Adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including BNI (BNI only, BNI+NRT, BNI+QL, BNI+Text, BNI+NRT+QL, BNI+NRT+Text, BNI+QL+Text, BNI+NRT+QL+Text) compared to the 8 arms that do not include BNI (Control, NRT only, QL only, Text only, NRT+QL, NRT+Text, QL+Text, NRT+QL+Text)||2.8|1.1|.01
82510624|NCT02896400|164714193|SUPERIORITY||Odds Ratio (OR)|2.1||||0.001|TWO_SIDED|95.0|1.3|3.2|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms that include NRT (NRT only, BNI+NRT, NRT+QL, NRT+Text, BNI+NRT+QL, BNI+NRT+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to 8 arms that do not include NRT (Control, BNI only, QL only, Text only, BNI+QL, BNI+Text, QL+Text, BNI+QL+Text)||3.2|1.3|.001
82510625|NCT02896400|164714193|SUPERIORITY||Odds Ratio (OR)|1.4||||0.14|TWO_SIDED|95.0|0.9|2.2|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including QL intervention (QL only, BNI+QL, NRT+QL, QL+Text, BNI+NRT+QL, BNI+QL+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to all 8 arms that did not include QL (Control, BNI only, NRT only, Text only, BNI+NRT, BNI+Text, NRT+Text, BNI+NRT+Text)||2.2|0.9|0.14
82510626|NCT02896400|164714193|SUPERIORITY||Odds Ratio (OR)|1.1||||0.64|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|adjusted for gender, age, race/ethnicity, baseline daily cigarette consumption||8 arms including Text (Text only, BNI+Text, NRT+Text, QL+Text, BNI+NRT+Text, BNI+QL+Text, NRT+QL+Text, BNI+NRT+QL+Text) compared to 8 arms that do not include Text (Control, BNI only, NRT only, QL only, BNI+NRT, BNI+QL, NRT+QL, BNI+NRT+QL)||1.7|0.7|0.64
82510627|NCT02984020|164714207|OTHER||Odds Ratio (OR)|0.77|||<|0.0001||95.0|0.69|0.86|||Regression, Logistic|Multiple logistic regression including total treatment duration of Xeljanz as factor||||0.86|0.69|<0.0001
82631046|NCT00557362|164978517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.26|TWO_SIDED|95.0|-0.57|0.17|||Regression, Linear|||Best spectacle-corrected visual acuity (BSCVA) was evaluated in a linear regression model with enrollment BSCVA and treatment arm as covariates in a subgroup of ulcers caused by Aspergillus spp.||0.17|-0.57|0.26
82631047|NCT00557362|164978518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.53|TWO_SIDED|95.0|-0.26|0.14|||Regression, Linear|||||0.14|-0.26|0.53
82510628|NCT02984020|164714207|OTHER||Odds Ratio (OR)|2.43|||<|0.0001||95.0|1.64|3.59|||Regression, Logistic|Multiple logistic regression including other past/present disease as factor||||3.59|1.64|<0.0001
82510629|NCT02984020|164714218|OTHER||Odds Ratio (OR)|1.42||||0.0053|TWO_SIDED|95.0|1.11|1.82|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Xeljanz as factor||||1.82|1.11|0.0053
82510630|NCT01896895|164714219|SUPERIORITY||LS mean difference|-1.2|||=|0.0004|TWO_SIDED|95.0|-1.9|-0.6|||ANCOVA|||The difference in change of JRS severity subscore between treatment groups was analyzed by an ANCOVA according to a hierarchical test procedure. First step of hierarchy is hypothesis of superiority of 50 unit dose group NT 201 compared to placebo. This was tested confirmatory (α=0.05, 2-sided) by an ANCOVA with treatment group, pooled site, and gender as fixed factors and baseline JRS severity subscore and age as covariates based on LS means comparison. Missing values were imputed by LOCF.||-0.6|-1.9|=0.0004
82510631|NCT01896895|164714219|SUPERIORITY||LS mean difference|-0.5|||=|0.1452|TWO_SIDED|95.0|-1.1|0.2|||ANCOVA|||The difference in change of JRS severity subscore between treatment groups was analyzed by an ANCOVA according to a hierarchical test procedure. Second step of hierarchy is hypothesis of superiority of 25 unit dose group NT 201 compared to placebo. This was tested confirmatory (α=0.05, 2-sided) by an ANCOVA with treatment group, pooled site, and gender as fixed factors and baseline JRS severity subscore and age as covariates based on LS means comparison. Missing values were imputed by LOCF.||0.2|-1.1|=0.1452
82510632|NCT00667342|164714229|OTHER|The association between response and Ktrans at Week 10 was evaluated.||||||0.0863|||||||Logistic Regression|||||||0.0863
82510633|NCT00667342|164714230|OTHER|The association between response and Vp at Week 10 was evaluated.||||||0.0573|||||||Logistic Regression|||||||0.0573
82510634|NCT00667342|164714231|OTHER|The association between response and Ve at Week 10 was evaluated.||||||0.0863|||||||Logistic Regression|||||||0.0863
82510635|NCT01276314|164714279|OTHER|||||||0.01||||||The p-value was analyzed for SJS/TEN participants with \>10% body surface area detachment.|Kaplan-Meier analysis|||For evaluating the time taken to heal skin erosion, the Kaplan-Meier product-limit estimates method was performed. Differences were considered statistically significant at P values of less than 0.05.||||0.01
82510636|NCT01276314|164714279|OTHER|||||||0.06||||||This p-value was analyzed for DRESS participants.|Kaplan-Meier analysis|||For evaluating the time taken to heal skin erosion, the Kaplan-Meier product-limit estimates method was performed. Differences were considered statistically significant at P values of less than 0.05.||||0.06
82510637|NCT00749775|164714282|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 4 weeks does not differ from that at baseline.||||<0.001
82510638|NCT00749775|164714282|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 8 weeks does not differ from that at baseline.||||<0.001
82510639|NCT00749775|164714282|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at 12 weeks does not differ from that at baseline.||||<0.001
82510640|NCT00749775|164714282|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean systolic blood pressure at last evaluation date does not differ from that at baseline.||||<0.001
82510641|NCT00749775|164714283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 4 weeks does not differ from that at baseline.||||<0.001
82510642|NCT00749775|164714283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 8 weeks does not differ from that at baseline.||||<0.001
82568264|NCT02799745|164846284|SUPERIORITY||Odds Ratio (OR)|3.5||||0|TWO_SIDED|95.0|1.76|6.92||P-value: Based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where fixed covariates=treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis; random effects: site and subject. 95% CI: based on exact binomial distribution.|At the end of month 12||6.92|1.76|0.00
82510643|NCT00749775|164714283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at 12 weeks does not differ from that at baseline.||||<0.001
82568265|NCT02799745|164846284|SUPERIORITY||Odds Ratio (OR)|1.6||||0.289|TWO_SIDED|95.0|0.66|4.0||P-value: Based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where fixed covariates=treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis; random effects: site and subject. 95% CI: based on exact binomial distribution.|At the end of month 24||4.00|0.66|0.289
82510644|NCT00749775|164714283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that the mean diastolic blood pressure at last evaluation date does not differ from that at baseline.||||<0.001
82510645|NCT02530294|164714287|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82510646|NCT02530294|164714288|OTHER||||||<|0.001|||||||ANCOVA|Ranked ANCOVA||||||<0.001
82510647|NCT02530294|164714289|OTHER||||||<|0.001|||||||ANCOVA|Ranked ANCOVA||||||< 0.001
82510648|NCT02530294|164714290|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82510649|NCT02530294|164714291|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82568266|NCT02799745|164846285|SUPERIORITY||LS mean difference|-10.07|STANDARD_ERROR_OF_MEAN|2.398|<|0.001|TWO_SIDED|95.0|-14.79|-5.34||P-values: from differences of least squares means.Bonferroni-Holm was used in the primary hypothesis testing to adjust for multiplicity.|Mixed Models Analysis|Compound symmetry was used as the covariance structure. Covariance parameters:estimated using Restricted Maximum likelihood.|Mixed model repeated measure(MMRM) with treatment group, prostate cancer risk(low/intermediate), type of biopsy(mpMRI-targeted/non-mpMRI-targeted), visit, visit-by-treatment, baseline scores as fixed factors, site and participants as random factors.|Change at month 12||-5.34|-14.79|<0.001
82510650|NCT02506816|164714292|OTHER|The P-valor Wilcoxon method is a non-parametric statistical hypothesis test used to evaluate changes from baseline H-score values of the three biomarkers.||||||0.033||||||In order to adjust the multiple comparisons made, Benjamini-Hochberg's false discovery rate (FDR) 10% method was used.|Wilcoxon (Mann-Whitney)|||After having analyzed the H-score for each of 3 biomarkers, we calculated the change from baseline subtracting post-treatment H-score from baseline H-score. Data were expressed as mean value and relative standard deviation.||||0.033
82631048|NCT00515099|164978519|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline ln(AUC+1) as a covariate and change in ln(AUC+1) from baseline as the outcome variable.|ANCOVA|||Primary imputation method used for missing Month 12 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.60
82510651|NCT02506816|164714293|OTHER|The differences in the change from baseline of different biomarkers were evaluated by the P-valor Wilcoxon method, a non-parametric statistical hypothesis test.||||||0.03||||||In order to adjust the multiple comparisons made, Benjamini-Hochberg's false discovery rate (FDR) 10% method was used.|Wilcoxon (Mann-Whitney)|||After having analyzed the H-score for each of several biomarkers, we calculated the change from baseline subtracting post-treatment H-score from baseline H-score. Data were expressed as mean value and relative standard deviation.||||0.03
82510652|NCT03019627|164714296|SUPERIORITY||difference in least square means|-3.83|||=|0.428|TWO_SIDED|95.0|-13.34|5.68|||ANCOVA|||Frequency statistical analysis||5.68|-13.34|=0.428
82510653|NCT03019627|164714296|SUPERIORITY||difference in least square means|0.16|||=|0.974|TWO_SIDED|95.0|-9.45|9.76|||ANCOVA|||Severity statistical analysis||9.76|-9.45|=0.974
82510654|NCT03019627|164714297|SUPERIORITY||Difference in least square means|-1.12|||=|0.783|TWO_SIDED|95.0|-9.14|6.91|||ANCOVA|||frequency statistical analysis - week 4||6.91|-9.14|=0.783
82510655|NCT03019627|164714297|SUPERIORITY||difference in least square means|-3.82|||=|0.461|TWO_SIDED|95.0|-14.1|6.41|||ANCOVA|||Frequency statistical analysis - week 8||6.41|-14.1|=0.461
82510656|NCT03019627|164714297|SUPERIORITY||difference in least square means|-15.3|||=|0.004|TWO_SIDED|95.0|-25.6|-4.97|||ANCOVA|||Frequency statistical analysis - week 12||-4.97|-25.6|=0.004
82510657|NCT03019627|164714297|SUPERIORITY||difference in least square means|2.55|||=|0.544|TWO_SIDED|95.0|-5.72|10.82|||ANCOVA|||Severity statistical analysis - week 4||10.82|-5.72|=0.544
82631049|NCT00515099|164978520|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||Missing Month 12 AUC values were not imputed. Measuring range for C-peptide is 0.05-30 ng/mL||||0.40
82631050|NCT00515099|164978521|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from baseline (pre-treatment initiation) to Month 12||||0.59
82631051|NCT00515099|164978521|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from baseline (pre-treatment initiation) to Month 24||||0.14
82631052|NCT00515099|164978523|SUPERIORITY_OR_OTHER||||||>|0.099|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|Fisher Exact|||Comparison of groups up to Month 12||||>0.099
82631053|NCT00515099|164978523|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in insulin use from baseline as the outcome variable|Fisher Exact|||Comparison of groups up to Month 24||||0.75
82631054|NCT00515099|164978524|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||2-Hour AUC change from baseline (pre-initiation treatment) to Month 24. Primary imputation method used for missing Month 24 AUC. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.38
82631055|NCT00515099|164978524|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome variable|ANCOVA|||4-Hour AUC change from baseline (pre-initiation treatment) to Month 24. Missing Month 24 AUC values were not imputed. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.33
82631056|NCT00515099|164978525|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in HbA1c from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from Baseline to Month 12||||0.07
82631057|NCT00515099|164978525|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change in HbA1c from baseline as the outcome variable|ANCOVA|||Comparison of groups for change from Baseline to Month 24||||0.16
82631058|NCT03369704|164978535|OTHER||Least Square Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.44|-0.62||"H0: Omalizumab is not different to placebo with respect to mean nasal symptom score over the severe symptom period.~H1: Omalizumab is different to placebo with respect to mean nasal symptom score over the severe symptom period."|ANCOVA||nasal symptom score|||-0.62|-1.44|<0.001
82631059|NCT03369704|164978536|OTHER||ANCOVA|-1.89|STANDARD_ERROR_OF_MEAN|0.331|||TWO_SIDED|95.0|-2.55|-1.24|||||Nasal Ocular Symptom|||-1.24|-2.55|
82631060|NCT03369704|164978536|OTHER||ANCOVA|-0.87|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-1.18|-0.55|||||Ocular symptom|||-0.55|-1.18|
82377641|NCT04700137|164462850|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.38|TWO_SIDED|95.0|-0.6|1.6||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in perceived burdensomeness (INQ15) among patients by intervention arm at follow-up (6 months).||1.6|-0.6|0.38
82510658|NCT03019627|164714297|SUPERIORITY||difference in least square means|1.06|||=|0.837|TWO_SIDED|95.0|-9.12|11.24|||ANCOVA|||Severity statistical analysis - week 8||11.24|-9.12|=0.837
82510659|NCT03019627|164714297|SUPERIORITY||difference in least square means|-13.8|||=|0.007|TWO_SIDED|95.0|-23.7|3.88|||ANCOVA|||Severity statistical analysis - week 12||3.88|-23.7|=0.007
82510660|NCT03019627|164714298|SUPERIORITY||Difference in least square means|-0.7|||=|0.046|TWO_SIDED|95.0|-1.38|-0.01|||ANCOVA|||week 4||-0.01|-1.38|=0.046
82510661|NCT03019627|164714298|SUPERIORITY||Difference in least square means|-0.3|||=|0.425|TWO_SIDED|95.0|-1.05|0.44|||ANCOVA|||week 8||0.44|-1.05|=0.425
82510662|NCT03019627|164714298|SUPERIORITY||Difference in least square means|-0.09|||=|0.788|TWO_SIDED|95.0|-0.76|0.58|||ANCOVA|||week 12||0.58|-0.76|=0.788
82510663|NCT03019627|164714299|SUPERIORITY||Difference in least square means|-0.71|||=|0.265|TWO_SIDED|95.0|-1.95|0.54|||ANCOVA|||week 4||0.54|-1.95|=0.265
82510664|NCT03019627|164714299|SUPERIORITY||Difference in least square means|-1.38|||=|0.026|TWO_SIDED|95.0|-2.59|-0.17|||ANCOVA|||week 8||-0.17|-2.59|=0.026
82510665|NCT03019627|164714299|SUPERIORITY||Difference in least square means|-0.6|||=|0.361|TWO_SIDED|95.0|-1.9|0.7|||ANCOVA|||week 12||0.70|-1.90|=0.361
82510666|NCT03019627|164714300|SUPERIORITY||Difference in least square means|-0.25|||=|0.323|TWO_SIDED|95.0|-0.76|0.25|||ANCOVA|||week 4||0.25|-0.76|=0.323
82510667|NCT03019627|164714300|SUPERIORITY||Difference in least square means|0.03|||=|0.908|TWO_SIDED|95.0|-0.55|0.62|||ANCOVA|||week 8||0.62|-0.55|=0.908
82510668|NCT03019627|164714300|SUPERIORITY||Difference in least square means|-0.12|||=|0.702|TWO_SIDED|95.0|-0.76|0.52|||ANCOVA|||week 12||0.52|-0.76|=0.702
82510669|NCT03019627|164714301|SUPERIORITY||Difference in least square means|5.75|||=|0.003|TWO_SIDED|95.0|2.02|9.48|||ANCOVA|||||9.48|2.02|=0.003
82510670|NCT01236196|164714302|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
82510671|NCT01236196|164714303|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82510672|NCT01236196|164714304|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82510673|NCT01236196|164714305|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.09
82510674|NCT02103478|164714309|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.144|||||TWO_SIDED|95.0|-3.165|2.876|||||Course 1|||2.876|-3.165|
82510675|NCT02103478|164714309|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.087|||||TWO_SIDED|95.0|-3.463|3.288|||||Course 2|||3.288|-3.463|
82510676|NCT02103478|164714309|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-2.588|||||TWO_SIDED|95.0|-6.074|0.899|||||Course 1|||0.899|-6.074|
82510677|NCT02103478|164714309|EQUIVALENCE|The 95% confidence intervals for the difference (oral - IV) were generated using an ANOVA model separately for Course 1 and Course 2.|Mean Difference (Final Values)|-0.096|||||TWO_SIDED|95.0|-5.08|4.888|||||Course 2|||4.888|-5.080|
82510678|NCT05429203|164714337|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||||||0.8
82510679|NCT05429203|164714338|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1
82510680|NCT05429203|164714339|OTHER|||||||0.7||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.7
82510681|NCT05429203|164714340|OTHER|||||||0.4||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.4
82510682|NCT05429203|164714341|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
82510683|NCT05429203|164714342|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
82510684|NCT05429203|164714343|OTHER|||||||0.7||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.7
82510685|NCT05429203|164714344|OTHER|||||||0.6||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.6
82510686|NCT05429203|164714345|OTHER|||||||0.5||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.5
82510687|NCT05429203|164714346|OTHER|||||||0.9||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.9
82510688|NCT05429203|164714347|OTHER|||||||0.8||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.8
82510689|NCT05429203|164714348|OTHER|||||||0.9||||||the a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.9
82510690|NCT03523117|164714364|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.3108|TWO_SIDED||||||ANCOVA|||||||0.3108
82510691|NCT03523117|164714365|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
82510692|NCT03523117|164714366|SUPERIORITY||Mean Difference (Final Values)|15.64||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
82510693|NCT03523117|164714367|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0002|TWO_SIDED||||||Mixed Models Analysis|||||||0.0002
82510694|NCT03277261|164714378|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.406|||<|0.0001|TWO_SIDED|95.0|0.268|0.615||GEE (Generalized Estimating Equation) model for the relapse count per participant with logarithmic link function, treatment, region, and baseline Expanded Disability Status Scale (EDSS) strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.615|0.268|<0.0001
82510695|NCT03277261|164714379|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.033|||<|0.0001|TWO_SIDED|95.0|0.019|0.058||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.058|0.019|<0.0001
82510696|NCT03277261|164714380|SUPERIORITY||Rate Ratio (Ublituximab/Teriflunomide)|0.076|||<|0.0001|TWO_SIDED|95.0|0.056|0.104||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.104|0.056|<0.0001
82510697|NCT03277261|164714382|SUPERIORITY||Odds Ratio (Ublituximab/Teriflunomide)|5.442|||<|0.0001|TWO_SIDED|95.0|3.536|8.375||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Regression, Logistic|||||8.375|3.536|<0.0001
82510698|NCT03277261|164714383|SUPERIORITY||Odds Ratio (Ublituximab/Teriflunomide)|0.872|||=|0.4669|TWO_SIDED|95.0|0.603|1.261||Logistic regression model with treatment, region, baseline EDSS strata, and log-transformed baseline MRI counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Logistic Regression|||||1.261|0.603|=0.4669
82510699|NCT03277261|164714384|SUPERIORITY||Least squares mean difference|-0.072|||<|0.0001|TWO_SIDED|95.0|-0.107|-0.036||The model includes treatment, region, baseline EDSS strata, visit, treatment-by-visit interaction, and baseline volume (cube root transformed) as covariates and an unstructured covariance matrix.|Mixed Model Repeated Measures (MMRM)|||||-0.036|-0.107|<0.0001
82510700|NCT01502644|164714390|OTHER||Mean Difference (Net)|18.0||||0.01|TWO_SIDED|95.0|3.7|32.2|||Linear Mixed Modeling|Group, group×week, average baseline pain, and opioid use at baseline were entered as fixed effects using an autoregressive covariance structure.||||32.2|3.7|0.01
82510701|NCT02388997|164714400|SUPERIORITY|||||||0.59|||||||2-sample t-test with unequal variences|||||||0.59
82510702|NCT02388997|164714401|SUPERIORITY|||||||0.58|||||||2-sample t-test with unequal variances|||||||0.58
82510703|NCT02388997|164714402|SUPERIORITY|||||||0.87|||||||2-sample t-test with unequal variances|||||||0.87
82510704|NCT02388997|164714403|SUPERIORITY|||||||0.55|||||||2-sample t-test with unequal variances|||||||0.55
82510705|NCT02388997|164714404|SUPERIORITY|||||||0.6|||||||2-sample t-test with unequal variances|||||||0.6
82510706|NCT02388997|164714406|SUPERIORITY|||||||0.037||||||The p value is based on the fold change (ratio) of the geometric means of the time (days) to peak symptoms among asthmatics in the omalizumab/placebo treatment groups.|2-sample t-test on the log scale|||||||0.037
82510707|NCT00087633|164714412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.725|TWO_SIDED|95.0|-20.8|14.4|||Cochran-Mantel-Haenszel|||||14.4|-20.8|0.725
82510708|NCT01110915|164714414|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|97.5||2.5||A priori threshold for statistical significance was 0.025|exact test of binomial proportions|||Null Hypothesis: MRI-related complication rate between the MRI scan and one-month post-MRI \>=10%.||2.5||<0.0001
82510709|NCT01110915|164714415|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.0|||||||||||Farrington-Manning test|A priori threshold for statistical significance was 0.025. Because there were no failures in either group, a p-value could not be calculated.||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||||
82510710|NCT01110915|164714416|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.5|||<|0.0001|TWO_SIDED|95.0|-5.0|5.9||A priori threshold for statistical significance was 0.025.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||5.9|-5.0|<0.0001
82510711|NCT01110915|164714417|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|1.5||||0.001|ONE_SIDED|95.0|-6.1|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-6.1|0.0010
82510712|NCT01110915|164714418|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|0.1||||0.0001|ONE_SIDED|95.0|-4.6|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-4.6|0.0001
82510713|NCT01110915|164714419|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|95.0||1.9||A priori threshold for statistical significance was 0.05.|exact test of binomial proportions|||Null hypothesis: the proportion of subjects with sustained ventricular arrhythmias and asystole during MRI scans \>= 10%.||1.9||<0.0001
82510714|NCT01110915|164714420|SUPERIORITY_OR_OTHER||Complication rate at 4 months|7.7|||<|0.05|ONE_SIDED|95.0||10.9||A priori threshold for statistical significance was 0.05.|Kaplan-Meier method|||Null hypothesis: the system-related complication rate between the implant procedure and the 4-months visit \>= 20%.||10.9||<0.05
82568267|NCT02799745|164846285|SUPERIORITY||LS mean difference|-5.15|STANDARD_ERROR_OF_MEAN|3.174||0.1063|TWO_SIDED|95.0|-11.4|1.11||P-values: from differences of least squares means.Bonferroni-Holm was used in the primary hypothesis testing to adjust for multiplicity.|Mixed Models Analysis|Compound symmetry was used as the covariance structure. Covariance parameters:estimated using Restricted Maximum likelihood.|MMRM with treatment group, prostate cancer risk (low vs. intermediate), type of biopsy (mpMRI targeted vs. non mpMRI targeted), visit, visit-by-treatment and baseline scores were the fixed factors, and site and participants were the random factors.|Change at month 24||1.11|-11.40|0.1063
82568268|NCT02799745|164846286|SUPERIORITY||Hazard Ratio (HR)|0.714||||0.032|TWO_SIDED|95.0|0.525|0.972||P-value: from a 2-sided, stratified log-rank test.|Log Rank||HR and 95% CI for HR:based on Cox regression model assuming proportional hazards with treatment, prostate cancer risk, type of biopsy, baseline variables(as age, race), time since prostate cancer diagnosis as fixed effects and random effect of site.|||0.972|0.525|0.032
82568269|NCT02799745|164846287|SUPERIORITY||Odds Ratio (OR)|0.1||||0|TWO_SIDED|95.0|0.08|0.26||P-value:based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR:from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of month 12||0.26|0.08|0.000
82510715|NCT01857063|164714450|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.01||||0.913|TWO_SIDED|95.0|-0.11|0.1||Longitudinal Data Analysis (LDA) model with baseline TNSS as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|Longitudinal Data Analysis (LDA)|||||0.10|-0.11|0.913
82568270|NCT02799745|164846287|SUPERIORITY||Odds Ratio (OR)|1.1||||0.807|TWO_SIDED|95.0|0.37|3.53||P-value: based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of month 24||3.53|0.37|0.807
82568271|NCT02799745|164846287|SUPERIORITY||Odds Ratio (OR)|1.0||||0.931|TWO_SIDED|95.0|0.5|2.15||P-value:based on the exact binomial distribution from the logistic regression model.|Regression, Logistic||OR: from logistic regression model where treatment group, prostate cancer risk, type of biopsy, age, race and time since prostate cancer diagnosis were fixed covariates, site and participant were random effects. 95% CI:based on binomial distribution.|At the end of study||2.15|0.50|0.931
82510716|NCT01857063|164714452|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0||||0.953|TWO_SIDED|95.0|-0.17|0.16||Longitudinal Data Analysis (LDA) model with baseline Weighted TNSS as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.16|-0.17|0.953
82568272|NCT03226106|164846319|SUPERIORITY||Mean Difference (Final Values)|930.51||||0.024|TWO_SIDED|95.0|41.65|1819.36||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1819.36|41.65|0.024
82510717|NCT01857063|164714453|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.0||||0.974|TWO_SIDED|95.0|-0.07|0.07||Longitudinal Data Analysis (LDA) model with baseline nasal congestion score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.07|-0.07|0.974
82510718|NCT01857063|164714454|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.182|TWO_SIDED|95.0|-0.06|0.01||Longitudinal Data Analysis (LDA) model with baseline nasal discharge score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.01|-0.06|0.182
82510719|NCT01857063|164714455|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.161|TWO_SIDED|95.0|-0.01|0.05||Longitudinal Data Analysis (LDA) model with baseline sneezing score as a covariate, sequence, treatment and period as fixed effects and participant as a random effect.|LDA|||||0.05|-0.01|0.161
82510720|NCT04115358|164714479|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510721|NCT04115358|164714480|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510722|NCT04115358|164714481|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510723|NCT04115358|164714482|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82631061|NCT03369704|164978537|OTHER||ANCOVA|-1.1|STANDARD_ERROR_OF_MEAN|0.229|||TWO_SIDED|95.0|-1.55|-0.64|||||nasal symptom medication score|||-0.64|-1.55|
82631062|NCT03369704|164978537|OTHER||ANCOVA|-0.95|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|-1.32|-0.58|||||ocular symptom medication score|||-0.58|-1.32|
82631063|NCT03369704|164978537|OTHER||ANCOVA|-2.05|STANDARD_ERROR_OF_MEAN|0.375|||TWO_SIDED|95.0|-2.78|-1.31|||||nasal ocular symptom medication score|||-1.31|-2.78|
82631064|NCT03369704|164978538|OTHER||ANCOVA|-0.4|STANDARD_ERROR_OF_MEAN|0.073|||TWO_SIDED|95.0|-0.54|-0.26|||||sneezing score|||-0.26|-0.54|
82631065|NCT03369704|164978538|OTHER||ANCOVA|-0.34|STANDARD_ERROR_OF_MEAN|0.088|||TWO_SIDED|95.0|-0.51|-0.16|||||rhinorrhea score|||-0.16|-0.51|
82631066|NCT03369704|164978538|OTHER||ANCOVA|-0.29|STANDARD_ERROR_OF_MEAN|0.081|||TWO_SIDED|95.0|-0.45|-0.13|||||nasal congestion score|||-0.13|-0.45|
82631067|NCT03369704|164978539|OTHER||ANCOVA|-0.47|STANDARD_ERROR_OF_MEAN|0.084|||TWO_SIDED|95.0|-0.63|-0.3|||||itchy eye score|||-0.30|-0.63|
82631068|NCT03369704|164978539|OTHER||ANCOVA|-0.4|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|95.0|-0.57|-0.23|||||watery eye score|||-0.23|-0.57|
82631069|NCT03369704|164978540|OTHER||ANCOVA|-0.34|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.48|-0.2|||||score for impairment of daily activities|||-0.20|-0.48|
82631070|NCT03369704|164978541|OTHER||Hodges-Lehmann Estimate|3.0|STANDARD_ERROR_OF_MEAN|1.02||0.005|TWO_SIDED|95.0|1.0|5.0|||van Elteren test||Nasal symptom free days|||5.0|1.0|0.005
82631071|NCT03369704|164978541|OTHER||Hodges-Lehmann Estimate|4.0|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|2.0|6.5|||van Elteren test||Ocular symptom free days|||6.5|2.0|<0.001
82631072|NCT03369704|164978542|OTHER||Odds Ratio (OR)|3.43||||0.005|TWO_SIDED|95.0|1.21|9.75|||logistic regression||Completely nasal symptom free patients|||9.75|1.21|0.005
82631073|NCT03369704|164978543|OTHER||ANCOVA|-0.08|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.14|-0.01|||||Nasal rescue mediation score|||-0.01|-0.14|
82631074|NCT03369704|164978543|OTHER||ANCOVA|-0.08|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.16|0.0|||||Ocular rescue medication score|||0.00|-0.16|
82631075|NCT03369704|164978543|OTHER||ANCOVA|-0.16|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.28|-0.04|||||Nasal ocular rescue medication score|||-0.04|-0.28|
82631076|NCT03369704|164978544|OTHER||Hodges-Lehmann Estimate|1.5|STANDARD_ERROR_OF_MEAN|0.89||0.011|TWO_SIDED|95.0|0.0|3.5|||van Elteren test||Nasal rescue mediation free days|||3.5|0.0|0.011
82631077|NCT03369704|164978544|OTHER||Hodges-Lehmann Estimate|2.0|STANDARD_ERROR_OF_MEAN|1.21||0.074|TWO_SIDED|95.0|0.0|4.8|||van Elteren test||Ocular rescue medication free days|||4.8|0.0|0.074
82631078|NCT03369704|164978544|OTHER||Hodges-Lehmann Estimate|1.8|STANDARD_ERROR_OF_MEAN|1.02||0.098|TWO_SIDED|95.0|0.0|4.0|||van Elteren test||Nasal ocular rescue medication free days|||4.0|0.0|0.098
82631079|NCT03369704|164978545|OTHER||Hodges-Lehmann Estimate|-2.0|STANDARD_ERROR_OF_MEAN|1.15||0.006|TWO_SIDED|95.0|-4.5|0.0|||van Elteren test||Nasal rescue mediation used|||0.0|-4.5|0.006
82631080|NCT03369704|164978545|OTHER||Hodges-Lehmann Estimate|-7.0|STANDARD_ERROR_OF_MEAN|2.81||0.012|TWO_SIDED|95.0|-12.0|-1.0|||van Elteren test||Ocular rescue medication used|||-1.0|-12.0|0.012
82631081|NCT03369704|164978546|OTHER||ANCOVA|-0.5|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|95.0|-0.66|-0.33|||||JRQLQ I|||-0.33|-0.66|
82631082|NCT03369704|164978546|OTHER||ANCOVA|-0.51|STANDARD_ERROR_OF_MEAN|0.093|||TWO_SIDED|95.0|-0.69|-0.33|||||JRQLQ II|||-0.33|-0.69|
82631083|NCT03369704|164978546|OTHER||ANCOVA|-0.6|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.8|-0.4|||||JRQLQ III|||-0.4|-0.8|
82631084|NCT03685643|164978576|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82631085|NCT03685643|164978577|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82631086|NCT03685643|164978578|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82631087|NCT03797144|164978580|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.06|||||||t-test, 1 sided|||"To verify that the improvement of ODI from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_ODI ≤ 0, and the alternative hypothesis was Ha: μ\_ODI \> 0 where μ\_ODI is the mean improvement of ODI score at 3 months from baseline."||||0.06
82510724|NCT04115358|164714483|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510725|NCT04115358|164714484|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510726|NCT04115358|164714485|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510727|NCT04115358|164714486|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510728|NCT04115358|164714487|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510729|NCT04115358|164714488|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510730|NCT04115358|164714489|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510731|NCT04115358|164714490|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510732|NCT04115358|164714491|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510733|NCT04115358|164714492|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510734|NCT04115358|164714493|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510735|NCT04115358|164714494|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82568273|NCT03226106|164846320|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.584|TWO_SIDED|95.0|-0.67|2.07||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||2.07|-0.67|0.584
82510736|NCT04115358|164714495|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510737|NCT04115358|164714496|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510738|NCT04115358|164714497|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510739|NCT04115358|164714498|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510740|NCT04115358|164714499|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510741|NCT04115358|164714500|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510742|NCT04115358|164714501|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510743|NCT04115358|164714502|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510744|NCT04115358|164714503|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510745|NCT04115358|164714504|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510746|NCT04115358|164714505|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510747|NCT04115358|164714506|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510748|NCT04115358|164714507|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510749|NCT04115358|164714508|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510750|NCT04115358|164714509|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510751|NCT04115358|164714510|SUPERIORITY||||||>|0.05|||||||Chi-squared|||Chi-Square Test was used to compare qualitative data.The results were evaluated at the significance level of p\<0,05.||||>0.05
82510752|NCT02346240|164714511|SUPERIORITY||Estimated difference in responder rate|61.6|||||TWO_SIDED|95.0|52.1|71.2|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||71.2|52.1|
82510753|NCT02346240|164714511|SUPERIORITY||Estimated difference in responder rate|56.2|||||TWO_SIDED|95.0|46.4|66.0|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||66.0|46.4|
82510754|NCT02346240|164714511|SUPERIORITY||Odds Ratio (OR)|37.988|||<|0.0001|TWO_SIDED|95.0|11.312|127.576||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||127.576|11.312|<0.0001
82510755|NCT02346240|164714511|SUPERIORITY||Odds Ratio (OR)|30.023|||<|0.0001|TWO_SIDED|95.0|8.971|100.481||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||100.481|8.971|<0.0001
82510756|NCT02346240|164714511|SUPERIORITY||Estimated difference in responder rate|13.4|||||TWO_SIDED|95.0|2.7|24.1|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Etanercept Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||24.1|2.7|
82510757|NCT02346240|164714511|SUPERIORITY||Estimated difference in responder rate|8.0|||||TWO_SIDED|95.0|-2.9|18.9|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Etanercept Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||18.9|-2.9|
82510758|NCT02346240|164714511|SUPERIORITY||Odds Ratio (OR)|1.756|||=|0.0152|TWO_SIDED|95.0|1.114|2.768||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. ETN.|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||2.768|1.114|=0.0152
82510759|NCT02346240|164714511|SUPERIORITY||Odds Ratio (OR)|1.388|||=|0.1523|TWO_SIDED|95.0|0.886|2.175||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. ETN|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||2.175|0.886|=0.1523
82510760|NCT02346240|164714512|SUPERIORITY||Estimated difference in responder rate|48.5|||||TWO_SIDED|95.0|39.33|57.63|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||57.63|39.33|
82510761|NCT02346240|164714512|SUPERIORITY||Estimated difference in responder rate|37.9|||||TWO_SIDED|95.0|28.88|46.96|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||46.96|28.88|
82631088|NCT03797144|164978580|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.012|||||||t-test, 1 sided|||"To verify that the improvement of ODI from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_ODI ≤ 0, and the alternative hypothesis was Ha: μ\_ODI \> 0 where μ\_ODI is the mean improvement of ODI score at 3 months from baseline."||||0.012
82510762|NCT02346240|164714512|SUPERIORITY||Odds Ratio (OR)|56.129|||<|0.0001|TWO_SIDED|95.0|7.787|404.555||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||404.555|7.787|<0.0001
82631089|NCT03797144|164978581|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.002||||||Back Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||0.002
82568274|NCT03226106|164846321|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.724|TWO_SIDED|95.0|-1.4|1.32||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1.32|-1.40|0.724
82568275|NCT03226106|164846322|SUPERIORITY||Mean Difference (Final Values)|7.49||||0.547|TWO_SIDED|95.0|-18.9|33.89||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||33.89|-18.90|0.547
82568276|NCT03226106|164846323|SUPERIORITY||Mean Difference (Final Values)|4.93||||0.716|TWO_SIDED|95.0|-21.67|31.54||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||31.54|-21.67|0.716
82631090|NCT03797144|164978581|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Back Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
82568277|NCT03226106|164846324|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.946|TWO_SIDED|95.0|-0.88|0.82||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||0.82|-0.88|0.946
82568278|NCT03226106|164846325|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.906|TWO_SIDED|95.0|-1.08|0.52||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||0.52|-1.08|0.906
82510763|NCT02346240|164714512|SUPERIORITY||Odds Ratio (OR)|36.566|||=|0.0004|TWO_SIDED|95.0|5.061|264.196||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||264.196|5.061|=0.0004
82510764|NCT02346240|164714513|SUPERIORITY||Estimated difference in responder rate|33.8|||||TWO_SIDED|95.0|20.68|46.98|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||46.98|20.68|
82510765|NCT02346240|164714513|SUPERIORITY||Estimated difference in responder rate|31.0|||||TWO_SIDED|95.0|18.18|43.8|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||43.80|18.18|
82510766|NCT02346240|164714513|SUPERIORITY||Odds Ratio (OR)|39.949|||<|0.0001|TWO_SIDED|95.0|8.407|189.828||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||189.828|8.407|<0.0001
82510767|NCT02346240|164714513|SUPERIORITY||Odds Ratio (OR)|35.084|||<|0.0001|TWO_SIDED|95.0|7.363|167.179||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||167.179|7.363|<0.0001
82568279|NCT03226106|164846326|SUPERIORITY||Mean Difference (Final Values)|-1.55||||0.873|TWO_SIDED|95.0|-7.59|4.49||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.49|-7.59|0.873
82568280|NCT03226106|164846327|SUPERIORITY||Mean Difference (Final Values)|-6.26||||0.241|TWO_SIDED|95.0|-12.48|-0.04||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||-0.04|-12.48|0.241
82568281|NCT03226106|164846328|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.223|TWO_SIDED|95.0|-0.39|6.12||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||6.12|-0.39|0.223
82568282|NCT03226106|164846329|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.388|TWO_SIDED|95.0|-2.19|4.53||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.53|-2.19|0.388
82568283|NCT03226106|164846330|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.88|TWO_SIDED|95.0|-4.08|2.68||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||2.68|-4.08|0.88
82568284|NCT03226106|164846331|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.85|TWO_SIDED|95.0|-2.63|4.17||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||4.17|-2.63|0.85
82568285|NCT03226106|164846332|SUPERIORITY||Mean Difference (Final Values)|559.81||||0.101|TWO_SIDED|95.0|-405.01|1524.62||The value corresponds to the interaction between time and group assignment.|Mixed Models Analysis|We used a linear mixed model with a random intercept for subject and fixed effects for age, time, and interaction between intervention arm and time.|The difference is the estimated mean between the intervention and control arms.|||1524.62|-405.01|0.101
82568286|NCT01084239|164846335|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|Result for index hospitalization||||||<0.001
82568287|NCT00405912|164846354|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.51
82568288|NCT00405912|164846354|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.25
82568289|NCT00405912|164846355|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Fisher Exact|1 sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.52
82568290|NCT00405912|164846355|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Fisher Exact|1-sided test||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.73
82568291|NCT03730662|164846420|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-0.99|||<|0.001|TWO_SIDED|97.5|-1.13|-0.86|||Mixed Models Analysis|||||-0.86|-1.13|<0.001
82568292|NCT03730662|164846420|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-1.14|||<|0.001|TWO_SIDED|97.5|-1.28|-1.0|||Mixed Models Analysis|||||-1.00|-1.28|<0.001
82631091|NCT03797144|164978581|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Leg Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
82631092|NCT03797144|164978581|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."|||||<|0.001||||||Leg Pain|t-test, 1 sided|||"To verify that the improvement of VAS from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_VAS ≤ 0, and the alternative hypothesis was Ha: μ\_VAS \> 0 where μ\_VAS is the mean improvement of VAS score at 3 months from baseline."||||<0.001
82631093|NCT03797144|164978582|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.174||||||Health State Score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.174
82631094|NCT03797144|164978582|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.002||||||Health State Score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.002
82631095|NCT03797144|164978582|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.003||||||Index score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.003
82631096|NCT03797144|164978582|OTHER|"A paired t-test for normally distributed data was performed to test whether the mean improvement from baseline was significantly greater than 0.~The normality of the data distribution was assessed with the Shapiro-Wilk test."||||||0.012||||||Index score|t-test, 1 sided|||"To verify that the improvement of EQ-5D 5L from Baseline to 3 Month was significantly greater than 0 for each indication subgroup the following statistical analyses were planned.~The null hypothesis was H0: μ\_EQ-5D 5L ≤ 0, and the alternative hypothesis was Ha: μ\_EQ-5D 5L \> 0 where μ\_EQ-5D 5L is the mean improvement of EQ-5D 5L score at 3 months from baseline."||||0.012
82631097|NCT00376675|164978599|SUPERIORITY_OR_OTHER|||||||0.317|||||||Wilcoxon rank sum test|||||||0.317
82631098|NCT00995215|164978609|OTHER|Statistical analysis was performed using a repeated measures analysis of variance and paired t-test.||||||0.05||||||A P value \<0.05 was taken as indicative of statistical significance.|ANOVA|||The effects of electrical (spinal cord stimulation) SCS with disc electrode and wire leads on airway pressure generation were compared. Since SCS with the disc leads, when applied in clinical trials, resulted in airway pressure generation that approximated pressures generated with a normal maximum cough, airway pressure generation achieved during SCS with these leads served as our gold standard to which all comparisons were made.||||0.05
82631099|NCT00423592|164978613|SUPERIORITY_OR_OTHER||Proportion|0.0|STANDARD_DEVIATION|0.0||0.01|TWO_SIDED|95.0|0.0|9.7|||Exact binomial test|A 1-sample test for a binomial proportion was performed.||Sample size: 30 participants; 80% power to rule out 50% recurrence rate of serum ALT/AST abnormalities following ambrisentan treatment (assumes 25% recurrence rate); 99% power to rule out 75% recurrence rate (assumes 37.5% recurrence rate). H\_0 = proportion of subjects experiencing primary endpoint at 12% vs 1-sided alternative of \< 12%. P-value from exact binomial test. Summary statistics included the estimated proportion, 95% confidence interval (CI), and the p-value of the hypothesis test.||9.7|0.0|0.01
82631100|NCT00423592|164978616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4|STANDARD_DEVIATION|49.6||0.009|TWO_SIDED|95.0|6.3|40.4|||t-test, 2 sided|||Hypothesis testing and descriptive statistics were carried out on the last-observation-carried-forward (LOCF) 6-minute walk distance change from baseline.||40.4|6.3|0.009
82631101|NCT00423592|164978617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|1.51||0.046|TWO_SIDED|95.0|-1.0|0.0|||t-test, 2 sided|||Hypothesis testing and descriptive statistics were carried out on the last-observation-carried-forward (LOCF) Borg dyspnea index change from baseline.||0.0|-1.0|0.046
82631102|NCT00423592|164978619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|STANDARD_DEVIATION|6.44||0.001|TWO_SIDED|95.0|2.1|7.1|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.1|2.1|0.001
82631103|NCT00423592|164978620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|8.98||0.059|TWO_SIDED|95.0|-0.1|6.8|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||6.8|-0.1|0.059
82631104|NCT00423592|164978621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|STANDARD_DEVIATION|6.86||0.002|TWO_SIDED|95.0|1.7|7.0|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.0|1.7|0.002
82631105|NCT00423592|164978622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|10.56||0.001|TWO_SIDED|95.0|3.1|11.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||11.3|3.1|0.001
82568293|NCT03730662|164846421|NON_INFERIORITY|"Although the primary objective is to establish noninferiority, sample size selection is guided by the objective of establishing superiority. The chosen sample size and randomization ratio also provides \>90% power to establish superiority of 10 mg LY3298176 and 15 mg LY3298176 doses to insulin glargine in absence of confounding effects of rescue therapy for persistent severe hyperglycemia (efficacy estimand)."|Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|97.5|-0.93|-0.66|||Mixed Models Analysis|||||-0.66|-0.93|<0.001
82631106|NCT00423592|164978623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|6.4||0.017|TWO_SIDED|95.0|0.6|5.6|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||5.6|0.6|0.017
82631107|NCT00423592|164978624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|7.45||0.046|TWO_SIDED|95.0|0.1|5.8|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||5.8|0.1|0.046
82631108|NCT00423592|164978625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|7.23||0.003|TWO_SIDED|95.0|1.7|7.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.3|1.7|0.003
82631109|NCT00423592|164978626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|9.41||0.059|TWO_SIDED|95.0|-0.1|7.2|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||7.2|-0.1|0.059
82631110|NCT00423592|164978627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|13.96||0.152|TWO_SIDED|95.0|-1.5|9.3|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||9.3|-1.5|0.152
82631111|NCT00423592|164978628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|5.78||0.001|TWO_SIDED|95.0|1.7|6.2|||t-test, 2 sided|||Seven subjects were evaluated by the incorrect version of the SF-36 questionnaire at the baseline visit and were not included in the analysis; therefore n = 28 for mean baseline scores, and n = 28 for mean change from baseline at Week 12.||6.2|1.7|0.001
82631112|NCT00255008|164978643|SUPERIORITY_OR_OTHER||Proportion of patients (%)|80.0||||||95.0|28.36|99.49||||||||99.49|28.36|
82631113|NCT00255008|164978643|SUPERIORITY_OR_OTHER||Proportion of patients (%)|76.47||||||95.0|50.1|93.19||||||||93.19|50.10|
82568294|NCT03730662|164846422|SUPERIORITY||Mean Difference (Net)|-9.0|||<|0.001|TWO_SIDED|95.0|-9.8|-8.3|||Mixed Models Analysis|||||-8.3|-9.8|<0.001
82631114|NCT00255008|164978643|SUPERIORITY_OR_OTHER||Proportion of patients (%)|87.5||||||95.0|47.35|99.48||||||||99.48|47.35|
82631115|NCT01833806|164978649|SUPERIORITY||Proportion Difference|0.78|||=|0.01|TWO_SIDED|95.0|0.58|0.98|||Binomial|||The alternative hypothesis test was that the proportion of Responders would be greater than the proportion of subjects experiencing pain progression. This PAS was powered to enroll 70 subjects based on the pivotal trial proportion of 18:8 (Responders:Pain progression). The study was closed at an enrollment of 32 subjects.||0.98|0.58|= 0.01
82631116|NCT05083949|164978652|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|99.57|STANDARD_DEVIATION|5.23||0.7792|TWO_SIDED|90.0|97.03|102.19|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.19|97.03|0.7792
82631117|NCT05083949|164978653|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.36|STANDARD_DEVIATION|10.18||0.6493|TWO_SIDED|90.0|96.39|106.59|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.59|96.39|0.6493
82568295|NCT03730662|164846422|SUPERIORITY||Mean Difference (Net)|-11.4|||<|0.001|TWO_SIDED|95.0|-12.1|-10.6|||Mixed Models Analysis|||||-10.6|-12.1|<0.001
82568296|NCT03730662|164846422|SUPERIORITY||Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-14.3|-12.8|||Mixed Models Analysis|||||-12.8|-14.3|<0.001
82568297|NCT03730662|164846423|SUPERIORITY||Odds Ratio (OR)|4.78|||<|0.001|TWO_SIDED|95.0|3.47|6.58|||Regression, Logistic|||||6.58|3.47|<0.001
82568298|NCT03730662|164846423|SUPERIORITY||Odds Ratio (OR)|9.23|||<|0.001|TWO_SIDED|95.0|6.31|13.49|||Regression, Logistic|||||13.49|6.31|<0.001
82568299|NCT03730662|164846423|SUPERIORITY||Odds Ratio (OR)|11.87|||<|0.001|TWO_SIDED|95.0|7.88|17.89|||Regression, Logistic|||||17.89|7.88|<0.001
82568300|NCT03730662|164846424|SUPERIORITY||Mean Difference (Net)|1.0||||0.672|TWO_SIDED|95.0|-3.7|5.7|||Mixed Models Analysis|||||5.7|-3.7|0.672
82568301|NCT03730662|164846424|SUPERIORITY||Mean Difference (Net)|-3.6||||0.134|TWO_SIDED|95.0|-8.2|1.1|||Mixed Models Analysis|||||1.1|-8.2|0.134
82568302|NCT03730662|164846424|SUPERIORITY||Mean Difference (Net)|-8.0|||<|0.001|TWO_SIDED|95.0|-12.6|-3.4|||Mixed Models Analysis|||||-3.4|-12.6|<0.001
82568303|NCT01309243|164846428|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypothesis: The FTC/RPV/TDF group was at least 12% worse than the EFV/FTC/TDF group with respect to the percentage of subjects achieving HIV-1 RNA \< 50 copies/mL (response rate, as defined by the snapshot analysis algorithm) at Week 48.~Alternative hypothesis: The FTC/RPV/TDF group was less than 12% worse than the EFV/FTC/TDF group with respect to the percentage of subjects achieving HIV-1 RNA \< 50 copies/mL at Week 48."|Difference in the response rates|4.1|||||TWO_SIDED|95.0|-1.1|9.2|||||The baseline stratum-weighted (HIV-1 RNA ≤ 100,000 and \> 100,000 copies/mL) difference in virologic success rates and its 95% CI were from baseline HIV-1 RNA adjusted Mantel-Haenszel proportions.|"The analysis was to assess the noninferiority of FTC/RPV/TDF versus EFV/FTC/TDF using a 95% confidence interval (CI) approach, with a noninferiority margin of 12% (lower bound of CI \> -12%).~700 subjects allocated 1:1 to either treatment arm was predicted to give \> 95% power when the proportion of responders in both treatment groups for the primary endpoint is 80% at Week 48."||9.2|-1.1|
82568304|NCT01309243|164846429|SUPERIORITY_OR_OTHER||Difference in the response rates|5.5|||||TWO_SIDED|95.0|-0.6|11.5|||||The baseline stratum-weighted (HIV-1 RNA ≤ 100,000 and \> 100,000 copies/mL) difference in virologic success rates and its 95% CI were from baseline HIV-1 RNA adjusted Mantel-Haenszel proportions.|||11.5|-0.6|
82631118|NCT05083949|164978654|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.63|STANDARD_DEVIATION|7.65||0.471|TWO_SIDED|90.0|97.85|105.55|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of the was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.55|97.85|0.4710
82631119|NCT05083949|164978655|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|98.11|STANDARD_DEVIATION|8.14||0.4251|TWO_SIDED|90.0|94.24|102.15|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.15|94.24|0.4251
82631120|NCT05083949|164978656|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|99.49|STANDARD_DEVIATION|5.25||0.7379|TWO_SIDED|90.0|96.93|102.11|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.11|96.93|0.7379
82568305|NCT01309243|164846430|SUPERIORITY_OR_OTHER||Difference in LSM|11.0||||0.34|TWO_SIDED|95.0|-11.0|32.0||The p-value, and difference in least square means (LSM) and its 95% CI are from analysis of variance (ANOVA) with treatment and baseline HIV-1 RNA levels (≤ 100,000, \> 100,000 copies/mL) as fixed effect.|ANOVA|||||32|-11|0.34
82568306|NCT01309243|164846431|SUPERIORITY_OR_OTHER||Difference in LSM|20.0||||0.17|TWO_SIDED|95.0|-9.0|49.0||The p-value, and difference in LSM and its 95% CI are from ANOVA with treatment and baseline HIV-1 RNA levels (≤ 100,000, \> 100,000 copies/mL) as fixed effect.|ANOVA|||||49|-9|0.17
82568307|NCT01309243|164846432|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
82568308|NCT01309243|164846433|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
82568309|NCT01309243|164846434|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
82510768|NCT02346240|164714514|SUPERIORITY||Estimated difference in responder rate|70.9|||||TWO_SIDED|95.0|62.15|79.59|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||79.59|62.15|
82510769|NCT02346240|164714514|SUPERIORITY||Estimated difference in responder rate|64.4|||||TWO_SIDED|95.0|55.12|73.63|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||73.63|55.12|
82510770|NCT02346240|164714514|SUPERIORITY||Odds Ratio (OR)|76.277|||<|0.0001|TWO_SIDED|95.0|17.952|324.094||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||324.094|17.952|<0.0001
82510771|NCT02346240|164714514|SUPERIORITY||Odds Ratio (OR)|55.413|||<|0.0001|TWO_SIDED|95.0|13.135|233.782||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||233.782|13.135|<0.0001
82510772|NCT02346240|164714515|SUPERIORITY||Estimated difference in responder rate|55.0|||||TWO_SIDED|95.0|45.59|64.35|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||64.35|45.59|
82510773|NCT02346240|164714515|SUPERIORITY||Estimated difference in responder rate|44.9|||||TWO_SIDED|95.0|35.39|54.49|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||54.49|35.39|
82568310|NCT01309243|164846435|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the difference in change from baseline at Week 48 is from ANOVA with treatment as fixed effect.|ANOVA|||||||< 0.001
82568311|NCT00632931|164846438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||||90.0|-0.28|6.28||||||||6.28|-0.28|
82568312|NCT00632931|164846439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45||||||90.0|-1.38|4.72||||||||4.72|-1.38|
82568313|NCT00632931|164846440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.07||||||90.0|-0.17|6.31||||||||6.31|-0.17|
82639806|NCT02163759|164994485|SUPERIORITY||Difference in Remission Rates|-3.1||||0.5055|TWO_SIDED|95.0|-12.61|6.37||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||6.37|-12.61|0.5055
82510774|NCT02346240|164714515|SUPERIORITY||Odds Ratio (OR)|40.717|||<|0.0001|TWO_SIDED|95.0|9.741|170.198||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||170.198|9.741|<0.0001
82568314|NCT00632931|164846441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84||||||90.0|-0.4|6.08||||||||6.08|-0.40|
82568315|NCT00632931|164846442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.44||||||90.0|3.21|9.68||||||||9.68|3.21|
82568316|NCT00632931|164846443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||||90.0|1.05|7.6||||||||7.60|1.05|
82568317|NCT00632931|164846444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66||||||90.0|-0.7|6.02||||||||6.02|-0.70|
82568318|NCT00632931|164846445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.51||||||90.0|3.19|9.82||||||||9.82|3.19|
82568319|NCT03712449|164846450|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0009|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0009
82568320|NCT03712449|164846450|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
82568321|NCT03712449|164846451|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.7878|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.7878
82631121|NCT05083949|164978657|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Ratio of GLSM (%)|101.24|STANDARD_DEVIATION|7.82||0.5895|TWO_SIDED|90.0|97.4|105.24|||ANOVA||"Ratio of Geometric Least Squares Means (GLSM) was calculated as: Fixed dose combination (treatment B)/ free dose combination (treatment A).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis was an analysis of variance (ANOVA) on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.24|97.40|0.5895
82631122|NCT03296072|164978671|OTHER||Difference of Least Square mean|7.69|||<|0.0001|TWO_SIDED|95.0|5.18|10.19|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||10.19|5.18|<.0001
82631123|NCT03296072|164978672|OTHER||Difference of Least Square mean|33.29|||<|0.0001|TWO_SIDED|95.0|28.89|37.68|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||37.68|28.89|<.0001
82631124|NCT03296072|164978673|OTHER||Difference of Least Square mean|1.81|||<|0.0001|TWO_SIDED|95.0|1.59|2.04|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||2.04|1.59|<.0001
82631125|NCT03296072|164978674|OTHER||Difference of Least Square mean|7.57|||<|0.0001|TWO_SIDED|95.0|5.07|11.07|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||11.07|5.07|<.0001
82631126|NCT03296072|164978675|OTHER||Difference of Least Square mean|10.98|||<|0.0001|TWO_SIDED|95.0|6.58|15.37|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||15.37|6.58|<.0001
82631127|NCT03296072|164978676|OTHER||Difference of Least Square mean|0.97|||<|0.0001|TWO_SIDED|95.0|0.75|1.2|||ANOVA|From ANOVA with fixed factors for study period and treatment, and a random effect for participant.|Difference is first-named treatment minus second-named treatment such that a positive difference favors the first named treatment.|||1.20|0.75|<.0001
82631128|NCT04474366|164978681|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||||||0.72
82631129|NCT03398824|164978689|OTHER|Fanconi Anemia is a rare disease. Therefore, the primary end point of the study was to assess the proportion of subjects with a HR during 6 months of metformin treatment; sample size was calculated assuming that a HR rate \< 20% suggests preliminary efficacy of treatment that warranted additional investigation and, conversely, that the study should be deemed futile if the rate of HR was \<5%.|response rate|30.8|||||TWO_SIDED|90.0|11.3|57.3|||||||Fanconi Anemia is a rare disease. Therefore, the primary end point of the study was to assess the proportion of subjects with a HR during 6 months of metformin treatment; sample size was calculated assuming that a HR rate \>20% suggests preliminary efficacy of treatment that warranted additional investigation and, conversely, that the study should be deemed futile if the rate of HR was \<5%.|57.3|11.3|
82631130|NCT05307523|164978693|OTHER|Paired t-test for normally distributed data Wilcoxon Rank test for the not normally distributed data|||||<|0.05||||||Paired T-test for the normally distributed data and a Wilcoxon Rank test for the non-parametric data were used|Both Paired T-test and Wilcoxon Rank|The data included both normally and not normally distributed data for the baseline, mid-study, and final study assessment points.||||||<0.05
82631131|NCT03649815|164978755|OTHER|||||||0.067|||||||Paired Sample T-Test|||||||0.067
82631132|NCT03649815|164978755|OTHER|||||||0.071||||||Controlled for gender, age, and baseline symptomatology|Paired Sample T-Test|||||||0.071
82631133|NCT03649815|164978756|OTHER|||||||0.047|||||||Paired Sample T-Test|||||||0.047
82631134|NCT03649815|164978756|OTHER|||||||0.036||||||Controlled for gender, age and baseline symptomatology|Paired Sample T-Test|||||||0.036
82631135|NCT03649815|164978757|OTHER|||||||0.032|||||||Paired Sample T-Test|||||||0.032
82631136|NCT03649815|164978757|OTHER|||||||0.006||||||Controlled for gender, age and baseline symptomatology|Paired Sample T-Test|||||||0.006
82377642|NCT04700137|164462850|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.81|TWO_SIDED|95.0|-0.8|1.0||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in perceived burdensomeness (INQ15) among healthcare providers/staff by intervention arm at follow-up (6 months).||1.0|-0.8|0.81
82631137|NCT03128307|164978758|SUPERIORITY||||||<|0.0001||||||Assuming a priori threshold for statistical significant of p = 0.05|t-test, 2 sided|||||||< 0.0001
82631138|NCT03128307|164978759|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance of p = 0.05|t-test, 2 sided|||||||< 0.0001
82631139|NCT00121485|164978781|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|200 patients (137 HMII and 67 XVE) provides 80% power (alpha= 0.05 (one-sided)) using a Blackwelder like analysis and a non-inferiority margin of 10%. The protocol specifies that once non-inferiority is proven, the data will be analyzed for superiority using closed testing methods.|Mean Difference (Final Values)|35.7||||2.5e-07|TWO_SIDED|95.0|24.5|46.9||Two (2) interim analysis were pre-specified in the protocol. The type I error rate was preserved at 5% by use of the O'Brien-Fleming spending function.|Fisher Exact|||Primary endpoint is 2-yr survival free of stroke or re-operation to repair/replace the device. Patients are a success if composite endpoint achieved. Patients urgently transplanted due to device failure are failures. Patients electively transplanted after reversal of co-morbidity will be considered success if they achieve 2 years of survival from day of VAD implant and no stroke. HMII is a success if the proportion of HMII pts achieving the composite endpoint is equal to or better than HM XVE||46.9|24.5|0.00000025
82568322|NCT03712449|164846451|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0349|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0349
82568323|NCT03712449|164846452|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0043|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0043
82568324|NCT03712449|164846452|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
82568325|NCT03712449|164846453|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0017|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0017
82568326|NCT03712449|164846453|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
82568327|NCT03712449|164846454|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0105|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0105
82568328|NCT03712449|164846454|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
82568329|NCT03712449|164846455|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0004|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0004
82568330|NCT03712449|164846455|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<.0001
82568331|NCT03712449|164846460|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.||||||0.0005|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||0.0005
82568332|NCT03712449|164846460|OTHER|The data was analyzed using Paired t-test. If normality was not met, then the Wilcoxon signed-rank test was used.|||||<|0.0001|||||||Paired t-test/Wilcoxon Signed Rank Test|||||||<0.0001
82568333|NCT00451555|164846482|SUPERIORITY|||||||0.6238|||||||Fisher Exact|||||||0.6238
82568334|NCT00451555|164846482|SUPERIORITY|||||||0.6282|||||||Fisher Exact|||||||0.6282
82568335|NCT00451555|164846482|SUPERIORITY|||||||0.6242|||||||Fisher Exact|||||||0.6242
82631140|NCT00908895|164978812|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|70.0|STANDARD_DEVIATION|25.0|<|0.05||95.0|||||Chi-squared|||We assess that 15% is a significative strength difference. According to a 80% study power, a SD at 25% and a 20% lost to follow-up, we found 118 patients for the all study.||||<0.05
82568336|NCT00451555|164846483|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.6390
82568337|NCT00451555|164846483|SUPERIORITY|||||||0.6721|||||||Fisher Exact|||||||0.6721
82568338|NCT00451555|164846483|SUPERIORITY|||||||0.6349|||||||Fisher Exact|||||||0.6349
82568339|NCT00451555|164846484|SUPERIORITY|||||||0.8582|||||||Log Rank|||||||0.8582
82568340|NCT00451555|164846484|SUPERIORITY|||||||0.7307|||||||Log Rank|||||||0.7307
82568341|NCT00451555|164846484|SUPERIORITY|||||||0.9798|||||||Log Rank|||||||0.9798
82568342|NCT00451555|164846485|SUPERIORITY|||||||0.5887|||||||Log Rank|||||||0.5887
82568343|NCT00451555|164846485|SUPERIORITY|||||||0.4516|||||||Log Rank|||||||0.4516
82568344|NCT00451555|164846485|SUPERIORITY|||||||0.7965|||||||Log Rank|||||||0.7965
82568345|NCT00922441|164846488|OTHER|Efficacy, Safety|||||<|0.05|||||||ANOVA|comparison between the groups||||||<0.05
82568346|NCT00991029|164846510|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.02|TWO_SIDED|95.0|0.59|0.95|||Log Rank|||||0.95|0.59|0.02
82568347|NCT00991029|164846511|SUPERIORITY||Hazard Ratio (HR)|2.32||||0.02|TWO_SIDED|95.0|1.1|4.87|||Log Rank|||||4.87|1.10|0.02
82568348|NCT00991029|164846512|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.01|TWO_SIDED|95.0|0.56|0.92|||Log Rank|||||0.92|0.56|0.01
82568349|NCT00991029|164846513|SUPERIORITY||Hazard Ratio (HR)|1.44||||0.46|TWO_SIDED|95.0|0.55|3.78|||Log Rank|||||3.78|0.55|0.46
82568350|NCT00991029|164846514|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.52|TWO_SIDED|95.0|0.43|5.35|||Log Rank|||||5.35|0.43|0.52
82568351|NCT00991029|164846515|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.01|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||||0.94|0.58|0.01
82568352|NCT00991029|164846516|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.13|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.13
82568353|NCT00991029|164846517|SUPERIORITY||Hazard Ratio (HR)|1.68||||0.47|TWO_SIDED|95.0|0.4|7.03|||Log Rank|||||7.03|0.4|0.47
82568354|NCT00991029|164846518|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.14|7.14|||Log Rank|||||7.14|0.14|0.99
82568355|NCT00991029|164846519|SUPERIORITY|||||||0.16|||||||Log Rank|||||||0.16
82568356|NCT00991029|164846520|SUPERIORITY||Hazard Ratio (HR)|2.45||||0.04|TWO_SIDED|95.0|1.01|5.9|||Log Rank|||||5.9|1.01|0.04
82568357|NCT00991029|164846521|SUPERIORITY||Hazard Ratio (HR)|3.12|||<|0.001|TWO_SIDED|95.0|1.67|5.83|||Log Rank|||||5.83|1.67|<0.001
82568358|NCT00991029|164846522|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.27|TWO_SIDED|95.0|0.73|3.13|||Log Rank|||||3.13|0.73|0.27
82631141|NCT00908895|164978813|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|90.0|STANDARD_DEVIATION|10.0|<|0.05||95.0|80.0|100.0|||Chi-squared|||||100|80|<0.05
82631142|NCT03793010|164978814|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-1.2|1.81||||||||1.81|-1.20|
82631143|NCT03793010|164978815|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.05|2.24||||||||2.24|-1.05|
82631144|NCT03793010|164978816|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|0.9||||||||0.9|-1.0|
82631145|NCT00908050|164978817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|||||||Chi-squared|||The averaged data calculated from three nights in each recording period for each subject will be submitted to statistical analysis. Descriptive and non-parametric statistics will be used for the secondary end-points.||||0.0394
82510775|NCT02346240|164714515|SUPERIORITY||Odds Ratio (OR)|27.165|||<|0.0001|TWO_SIDED|95.0|6.504|113.453||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||113.453|6.504|<0.0001
82510776|NCT02346240|164714516|SUPERIORITY||Estimated difference in responder rate|48.8|||||TWO_SIDED|95.0|34.22|63.41|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||63.41|34.22|
82523689|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.968|TWO_SIDED|95.0|-39.0|38.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 4||38|-39|0.968
82523690|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0||||0.715|TWO_SIDED|95.0|-45.0|31.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 Placebo versus Losmapimod 7.5 mg at Week 4||31|-45|0.715
82523691|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0||||0.152|TWO_SIDED|95.0|-10.0|66.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 4||66|-10|0.152
82523692|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.922|TWO_SIDED|95.0|-45.0|40.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 8||40|-45|0.922
82523693|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.694|TWO_SIDED|95.0|-34.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 8||50|-34|0.694
82523694|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.0||||0.094|TWO_SIDED|95.0|-6.3|79.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 8||79|-6.3|0.094
82523695|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.456|TWO_SIDED|95.0|-26.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 12||58|-26|0.456
82523696|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.355|TWO_SIDED|95.0|-22.0|61.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 12||61|-22|0.355
82523697|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0||||0.023|TWO_SIDED|95.0|6.7|91.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 12||91|6.7|0.023
82523698|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.0||||0.32|TWO_SIDED|95.0|-21.0|65.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 16||65|-21|0.320
82523699|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.0||||0.267|TWO_SIDED|95.0|-19.0|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 16||67|-19|0.267
82523700|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.0||||0.289|TWO_SIDED|95.0|-20.0|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 16||67|-20|0.289
82510777|NCT02346240|164714516|SUPERIORITY||Estimated difference in responder rate|39.5|||||TWO_SIDED|95.0|25.58|53.38|||Regression, Logistic|Estimated responder rate, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95 % CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||53.38|25.58|
82510778|NCT02346240|164714516|SUPERIORITY||Odds Ratio (OR)|72.278|||<|0.0001|TWO_SIDED|95.0|14.65|356.602||The p-value is evaluated at a 2-sided significance level for CZP 400 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||356.602|14.650|<0.0001
82568359|NCT02487251|164846530|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|-0.15||||0.34|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in BMIz is p = .34.|Mixed Models Analysis||The reported estimation parameter is the effect size (cohen's d) for the change in BMIz (particularly in the Phase 2 sample)|We tested change in BMIz for each of the four study arms/groups.||||.34
82377643|NCT04700137|164462850|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.73|TWO_SIDED|95.0|-2.6|1.8||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in thwarted belongingness (INQ15) among patients by intervention arm at follow-up (6 months).||1.8|-2.6|0.73
82568360|NCT02487251|164846531|EQUIVALENCE|Sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|-0.07||||0.62|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in observed fruit intake is p = .62.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested change in observed fruit intake for each of the two study arms/groups in Phase 2 and compared change between the usual care and intervention groups.||||.62
82568361|NCT02487251|164846532|EQUIVALENCE|Sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|0.4||||0.009|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in observed vegetable intake is p = .009.|Mixed Models Analysis|||We tested pre to post change in observed vegetable intake for each of the two study arms/groups in Phase 2 and compared change between the usual care and intervention groups. Positive Observed dietary quality data was not collected in Phase 1.||||.009
82568362|NCT02487251|164846533|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, enabled detection of small-medium effect sizes, d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes, power of 80%, α = .05. Phase 1 analyses included paired t-tests \& examination of pre-post effect size change. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|0.15||||0.21|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in parent reported fruit is p = .21.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested pre to post change in parent reported child fruit intake for each of the four study arms/groups.||||.21
82568363|NCT02487251|164846534|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, enabled detection of small-medium effect sizes, d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes, power of 80%, α = .05. Phase 1 analyses included paired t-tests \& examination of pre-post effect size change. Phase 2 analyses included mixed modeling. Negative mean change values reflect a decrease in intake; positive values reflect an increase.|Mean Difference (Final Values)|0.07||||0.55|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in parent reported vegetables is p = .55.|Mixed Models Analysis||The reported estimation parameter is a standardized mean difference between the groups, specifically cohen's d.|We tested change in vegetable intake for each of the four study arms/groups.||||.55
82568364|NCT02487251|164846535|EQUIVALENCE|Phase 1 sought to determine effect sizes. For Phase 2, sample size was set at 125 per arm which, with 20% attrition, would enable detection of small to medium effect sizes of d = 0.40SD for continuous outcomes and 38% relative risk reduction for binary outcomes with a power of 80% and α = .05.|Mean Difference (Final Values)|-0.02||||0.84|TWO_SIDED|||||p \< .05 reflects the threshold for statistical significance. The calculated p value for change in mealtime frequency is p = .84.|Mixed Models Analysis|||We tested change in frequency of family mealtimes for each of the four study arms/groups.||||.84
82568365|NCT00843115|164846559|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5.||||<0.0001
82568366|NCT00843115|164846560|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5.||||<0.0001
82631146|NCT01569568|164978847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold is 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of glutamine is the same for controls and OTCD patients in PCGM.||||0.001
82510779|NCT02346240|164714516|SUPERIORITY||Odds Ratio (OR)|49.527|||<|0.0001|TWO_SIDED|95.0|10.002|245.256||The p-value is evaluated at a 2-sided significance level for CZP 200 mg vs. PBO|Regression, Logistic|Odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||245.256|10.002|<0.0001
82631147|NCT01569568|164978847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold is 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of myoinositol is the same for controls and OTCD patients in PCGM.||||0.011
82510780|NCT01455012|164714518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-160.34|STANDARD_ERROR_OF_MEAN|26.46|<|0.0001|TWO_SIDED|95.0|-213.23|-107.45||The analysis of this primary efficacy variable was performed using a two-sided alpha level of 5 %.|ANCOVA||The treatment effect was estimated on the basis of the Least Square Mean (LSM) of the difference as well as on the 95 % Confidence Interval and the p-value for that difference. Difference to Placebo was calculated as Rotigotine-Placebo.|The 95 % Confidence Interval (CI) and the p-value for the mean difference between Rotigotine and Placebo was obtained from a linear Analysis of Covariance (ANCOVA) model with fixed effects for treatment and Baseline antihypertensive use and a covariate for the Baseline number of nocturnal elevations of Systolic Blood Pressure that are associated with Periodic Limb Movements (PLMs).||-107.45|-213.23|<0.0001
82510781|NCT04552587|164714542|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||We compared change from baseline to follow up in our single group of caregivers.||||0.23
82510782|NCT00613509|164714557|SUPERIORITY_OR_OTHER|||||||0.9406|TWO_SIDED|95.0|||||Log Rank|||||||0.9406
82510783|NCT00613509|164714557|SUPERIORITY_OR_OTHER|||||||0.9179|TWO_SIDED|95.0|||||Likelihood ratio test|||||||0.9179
82510784|NCT03400033|164714572|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95 percent (%) confidence interval (CI) for the treatment difference is greater than the pre-specified non-inferiority margin of -0.75 g/dL.|Least square (LS) mean difference|-0.05|||||TWO_SIDED|95.0|-0.21|0.1||||||||0.10|-0.21|
82510785|NCT03400033|164714573|SUPERIORITY||LS mean difference|-8.12||||0.3354|TWO_SIDED|95.0|-45.66|29.41|||ANCOVA|||||29.41|-45.66|0.3354
82510786|NCT03400033|164714574|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference is greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|-0.14|||||TWO_SIDED|95.0|-0.37|0.1||||||||0.10|-0.37|
82510787|NCT03400033|164714575|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was above the non-inferiority margin of - 15%.|Median Difference (Final Values)|11.18||||0.0034|TWO_SIDED|95.0|2.83|19.56|||Van Elteren's test||Hodges-Lehmann Estimate of Treatment Difference has been reported.|||19.56|2.83|0.0034
82510788|NCT03400033|164714576|OTHER||Difference in response rate|0.1645||||0.0007|TWO_SIDED|95.0|0.06|0.27|||Cochran-Mantel-Haenszel|||||0.27|0.06|0.0007
82510789|NCT03400033|164714577|OTHER||Hazard Ratio (HR)|1.06||||0.5308|TWO_SIDED|95.0|0.26|4.22|||Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model adjusted for treatment group and region.|||4.22|0.26|0.5308
82510790|NCT03400033|164714578|SUPERIORITY||LS mean difference|-3.73||||0.083|TWO_SIDED|95.0|-9.03|1.56|||MMRM||SBP|||1.56|-9.03|0.083
82510791|NCT03400033|164714578|SUPERIORITY||LS mean difference|-2.23||||0.057|TWO_SIDED|95.0|-4.99|0.54|||MMRM||DBP|||0.54|-4.99|0.057
82510792|NCT03400033|164714578|SUPERIORITY||LS mean difference|-2.6||||0.059|TWO_SIDED|95.0|-5.86|0.67|||MMRM||MAP|||0.67|-5.86|0.059
82510793|NCT03400033|164714579|SUPERIORITY||Mean Difference (Net)|-0.5||||0.407|TWO_SIDED|95.0|-4.73|3.72|||ANCOVA||SBP|||3.72|-4.73|0.407
82510794|NCT03400033|164714579|SUPERIORITY||Mean Difference (Net)|-1.05||||0.179|TWO_SIDED|95.0|-3.29|1.19|||ANCOVA||DBP|||1.19|-3.29|0.179
82510795|NCT03400033|164714579|SUPERIORITY||Mean Difference (Net)|-0.86||||0.261|TWO_SIDED|95.0|-3.5|1.78|||ANCOVA||MAP|||1.78|-3.50|0.261
82510796|NCT03400033|164714580|OTHER||Ratio of exacerbation rate|0.7||||0.0093|TWO_SIDED|95.0|0.52|0.94|||Negative binomial model|||||0.94|0.52|0.0093
82510797|NCT03400033|164714582|SUPERIORITY||LS mean difference|-0.15||||0.0323|TWO_SIDED|95.0|-0.32|0.01|||MMRM||Week 8|||0.01|-0.32|0.0323
82510798|NCT03400033|164714582|SUPERIORITY||LS mean difference|-0.12||||0.0921|TWO_SIDED|95.0|-0.29|0.06|||MMRM||Week 12|||0.06|-0.29|0.0921
82510799|NCT03400033|164714582|SUPERIORITY||LS mean difference|-0.11||||0.1291|TWO_SIDED|95.0|-0.29|0.08|||MMRM||Week 28|||0.08|-0.29|0.1291
82510800|NCT03400033|164714582|SUPERIORITY||LS mean difference|-0.15||||0.0859|TWO_SIDED|95.0|-0.36|0.06|||MMRM||Week 52|||0.06|-0.36|0.0859
82510801|NCT05409235|164714585|SUPERIORITY||difference in percentage of participants|-1.064||||0.573|TWO_SIDED|90.0|-10.578|8.449|||Mantel Haenszel|MH test is adjusted for the randomization stratification factor (Screening DRSS score 47 or 53 or 61B).|A single imputation (non-response) when applying composite variable strategy. MI based for missing data at Week 24, assuming MAR when applying hypothetical strategy. Kept in the analysis when applying treatment policy strategy.|The study was powered to provide a 90% probability to detect a 20% difference between each treatment arm and the combined vehicle control.||8.449|-10.578|0.5730
82510802|NCT05409235|164714585|SUPERIORITY||difference in percentage of participants|-1.152||||0.575|TWO_SIDED|90.0|-11.178|8.874|||Mantel Haenszel|||||8.874|-11.178|0.5750
82510803|NCT05409235|164714586|SUPERIORITY||difference in percentage of participants|3.119||||0.7276|TWO_SIDED|90.0|-5.314|11.592|||Mantel Haenszel|||||11.592|-5.314|0.7276
82510804|NCT05409235|164714586|SUPERIORITY||difference in percentage of participants|5.779||||0.8492|TWO_SIDED|90.0|-3.424|14.982|||Mantel Haenszel|||||14.982|-3.424|0.8492
82510805|NCT05409235|164714587|SUPERIORITY||difference in percentage of participants|-1.863||||0.3097|TWO_SIDED|90.0|-8.036|4.309|||Mantel Haenszel|||||4.309|-8.036|0.3097
82510806|NCT05409235|164714587|SUPERIORITY||difference in percentage of participants|-1.596||||0.3414|TWO_SIDED|90.0|-8.021|4.829|||Mantel Haenszel|||||4.829|-8.021|0.3414
82631148|NCT01569568|164978847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold was 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of glutamine is the same for controls and OTCD patients in PWM.||||0.004
82510807|NCT05409235|164714588|SUPERIORITY||Cox Proportional Hazard|0.899||||0.397|TWO_SIDED|90.0|0.4378|1.8467|||Log Rank|||||1.8467|0.4378|0.397
82510808|NCT05409235|164714588|SUPERIORITY||Cox Proportional Hazard|1.113||||0.605|TWO_SIDED|90.0|0.5596|2.2117|||Log Rank|||||2.2117|0.5596|0.605
82510809|NCT05409235|164714589|SUPERIORITY||difference in percentage of participants|-10.622||||0.0619|TWO_SIDED|90.0|-21.972|0.728|||Mantel Haenszel|||||0.728|-21.972|0.0619
82510810|NCT05409235|164714589|SUPERIORITY||difference in percentage of participants|-4.942||||0.2483|TWO_SIDED|90.0|-16.897|7.013|||Mantel Haenszel|||||7.013|-16.897|0.2483
82568367|NCT00843115|164846561|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568368|NCT00843115|164846562|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568369|NCT00843115|164846563|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568370|NCT00843115|164846564|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568371|NCT00843115|164846565|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82631149|NCT01569568|164978847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046|TWO_SIDED|||||This is an uncorrected p-value. A priori threshold was 0.05.|t-test, 2 sided|||The null hypothesis predicts that the concentration of myoinositol is the same for controls and OTCD patients in PWM.||||0.046
82631150|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Our a priori threshold for statistical significance was 0.05.|ANOVA|We ran a 2 (Group) x 6 (ROI Pair) ANOVA to assess functional connectivity between the nodes of the DMN, using age as a covariate.||The null hypothesis states predicts no main effects of Group, ROI pair, or Age, suggesting that the connectivity between all DMN nodes is the same across groups.||||<0.001
82631151|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the left IPL node does not differ between groups.||||0.024
82631152|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold is 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the PCC node does not differ between groups.||||0.040
82631153|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC/mPFC node and the right IPL node does not differ between groups.||||0.008
82631154|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left IPL node and the right IPL node does not differ between groups.||||0.470
82510811|NCT05409235|164714590|SUPERIORITY||Cox Proportional Hazard|0.807||||0.237|TWO_SIDED|90.0|0.4675|1.392|||Log Rank|||||1.3920|0.4675|0.237
82510812|NCT05409235|164714590|SUPERIORITY||Cox Proportional Hazard|1.279||||0.766|TWO_SIDED|90.0|0.7795|2.0981|||Log Rank|||||2.0981|0.7795|0.766
82510813|NCT05409235|164714591|SUPERIORITY||difference in percentage of participants|-6.389||||0.2022|TWO_SIDED|90.0|-18.994|6.215|||Mantel Haenszel|||||6.215|-18.994|0.2022
82510814|NCT05409235|164714591|SUPERIORITY||difference in percentage of participants|-1.043||||0.4476|TWO_SIDED|90.0|-14.07|11.984|||Mantel Haenszel|||||11.984|-14.070|0.4476
82631155|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.829|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the PCC node and the left IPL node does not differ between groups.||||0.829
82510815|NCT05409235|164714592|SUPERIORITY||Hazard Ratio (HR)|0.843||||0.268|TWO_SIDED|90.0|0.533|1.334||log-rank test stratified by randomization stratification factor|Log Rank|||||1.334|0.533|0.268
82510816|NCT05409235|164714592|SUPERIORITY||Hazard Ratio (HR)|1.145||||0.304|TWO_SIDED|90.0|0.738|1.775|||Log Rank|||||1.775|0.738|0.304
82510817|NCT05409235|164714593|SUPERIORITY||Odds Ratio (OR)|1.102||||0.428|TWO_SIDED|90.0|0.4573|2.657|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||2.6570|0.4573|0.428
82631156|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.801|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the PCC node and the right IPL node does not differ between groups.||||0.801
82510818|NCT05409235|164714593|SUPERIORITY||Odds Ratio (OR)|1.119||||0.419|TWO_SIDED|90.0|0.45|2.7846|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||2.7846|0.4500|0.419
82510819|NCT05409235|164714594|SUPERIORITY||difference in percentage of participants|-1.544||||0.6716|TWO_SIDED|90.0|-7.26|4.172|||Mantel Haenszel|||||4.172|-7.260|0.6716
82510820|NCT05409235|164714594|SUPERIORITY||difference in percentage of participants|-3.412||||0.8414|TWO_SIDED|90.0|-9.025|2.2|||Mantel Haenszel|||||2.200|-9.025|0.8414
82510821|NCT05409235|164714595|SUPERIORITY||Mean Difference (Net)|-0.5325||||0.647|TWO_SIDED|90.0|-2.8478|1.7827|||ANCOVA|||||1.7827|-2.8478|0.647
82510822|NCT05409235|164714595|SUPERIORITY||Mean Difference (Net)|-2.2849||||0.945|TWO_SIDED|90.0|-4.6356|0.0658|||ANCOVA|||||0.0658|-4.6356|0.945
82510823|NCT05409235|164714596|SUPERIORITY||Odds Ratio (OR)|1.108||||0.367|TWO_SIDED|90.0|0.6722|1.8276|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||1.8276|0.6722|0.367
82510824|NCT05409235|164714596|SUPERIORITY||Odds Ratio (OR)|0.717||||0.857|TWO_SIDED|90.0|0.4295|1.1981|||odds ratio|Odds ratio and p-value are from a proportional odds model with covariates for treatment group and the randomization stratification factor||||1.1981|0.4295|0.857
82510825|NCT05409235|164714597|SUPERIORITY||Mean Difference (Net)|4.1531||||0.437|TWO_SIDED|90.0|-38.793|47.0991|||ANCOVA|||||47.0991|-38.7930|0.437
82510826|NCT05409235|164714597|SUPERIORITY||Mean Difference (Net)|-16.2461||||0.733|TWO_SIDED|90.0|-59.2538|26.7616|||ANCOVA|||||26.7616|-59.2538|0.733
82510827|NCT05409235|164714598|SUPERIORITY||Mean Difference (Net)|4.0634||||0.77|TWO_SIDED|90.0|-4.9712|13.098|||ANCOVA|||||13.0980|-4.9712|0.770
82510828|NCT05409235|164714598|SUPERIORITY||Mean Difference (Net)|-1.0507||||0.424|TWO_SIDED|90.0|-10.1046|8.0032|||ANCOVA|||||8.0032|-10.1046|0.424
82510829|NCT05409235|164714599|SUPERIORITY||Mean Difference (Net)|0.0205||||0.606|TWO_SIDED|90.0|-0.1043|0.1452|||ANCOVA|||||0.1452|-0.1043|0.606
82510830|NCT05409235|164714599|SUPERIORITY||Mean Difference (Net)|0.0083||||0.544|TWO_SIDED|90.0|-0.1161|0.1326|||ANCOVA|||||0.1326|-0.1161|0.544
82510831|NCT05409235|164714600|SUPERIORITY||difference in percentage of participants|-1.544||||0.406|TWO_SIDED|90.0|-12.247|9.158|||Mantel Haenszel|||||9.158|-12.247|0.406
82510832|NCT05409235|164714600|SUPERIORITY||difference in percentage of participants|1.763||||0.605|TWO_SIDED|90.0|-9.114|12.64|||Mantel Haenszel|||||12.640|-9.114|0.605
82510833|NCT05409235|164714601|SUPERIORITY||Hazard Ratio (HR)|0.916||||0.404|TWO_SIDED|90.0|0.5068|1.6556|||Log Rank|||||1.6556|0.5068|0.404
82510834|NCT05409235|164714601|SUPERIORITY||Hazard Ratio (HR)|1.128||||0.624|TWO_SIDED|90.0|0.6399|1.9868|||Log Rank|||||1.9868|0.6399|0.624
82510835|NCT05409235|164714602|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.478|TWO_SIDED|90.0|0.2473|3.6295|||Log Rank|Comparisons are made using the log-rank test stratified by randomization stratification factor.||||3.6295|0.2473|0.478
82510836|NCT05409235|164714602|SUPERIORITY||Hazard Ratio (HR)|1.296||||0.631|TWO_SIDED|90.0|0.3688|4.5512|||Log Rank|Comparisons are made using the log-rank test stratified by randomization stratification factor||||4.5512|0.3688|0.631
82510837|NCT05409235|164714603|SUPERIORITY||difference in percentage of participants|-13.7727||||0.045|TWO_SIDED|90.0|-27.1319|-0.4134|||Mantel Haenszel|||||-0.4134|-27.1319|0.0450
82510838|NCT05409235|164714603|SUPERIORITY||difference in percentage of participants|-3.8234||||0.3304|TWO_SIDED|90.0|-18.1549|10.5081|||Mantel Haenszel|||||10.5081|-18.1549|0.3304
82510839|NCT05409235|164714604|SUPERIORITY||difference in percentage of participants|-14.8877||||0.0275|TWO_SIDED|90.0|-27.6462|-2.1293|||Mantel Haenszel|||||-2.1293|-27.6462|0.0275
82510840|NCT05409235|164714604|SUPERIORITY||difference in percentage of participants|-7.5535||||0.179|TWO_SIDED|90.0|-21.0688|5.9617|||Mantel Haenszel|||||5.9617|-21.0688|0.1790
82510841|NCT00749931|164714605|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82510842|NCT00749931|164714606|SUPERIORITY_OR_OTHER||Relative reduction|0.47||||0.002|||||||Fisher Exact|||||||0.002
82510843|NCT04590495|164714615|SUPERIORITY|||||||0.946|||||||Mann Whitney U Test|||||||0.9460
82510844|NCT04590495|164714616|SUPERIORITY|||||||0.5699|||||||Mann Whitney U Test|||||||0.5699
82510845|NCT04590495|164714617|SUPERIORITY|||||||0.6068|||||||t-test, 2 sided|||||||0.6068
82510846|NCT04590495|164714618|SUPERIORITY|||||||0.903|||||||Mann Whitney U Test|||||||0.9030
82510847|NCT04590495|164714619|SUPERIORITY|||||||0.2668|||||||t-test, 2 sided|||||||0.2668
82510848|NCT04590495|164714620|SUPERIORITY|||||||0.8749||||||adjusted for baseline VAMS score|paired t test|||||||0.8749
82631157|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Our a priori threshold for statistical significance was 0.05.|ANOVA|We ran a 2 (Group) x 6 (ROI Pair) ANOVA to assess functional connectivity between the nodes of the SMN, using age as a covariate.||The null hypothesis states predicts no main effects of Group, ROI pair, or Age, suggesting that the connectivity between all SMN nodes is the same across groups.||||<0.001
82631158|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the left aI/fO node does not differ between groups.||||0.550
82631159|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the left SFG node does not differ between groups.||||0.113
82631160|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the right aI/fO node does not differ between groups.||||0.039
82631161|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the ACC node and the right SFG node does not differ between groups.||||0.005
82631162|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.426|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO and the left SFG node does not differ between groups.||||0.426
82631163|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.256|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO node and the right aI/fO node does not differ between groups.||||0.256
82631164|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.853|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the left aI/fO and the right SFG node does not differ between groups.||||0.853
82631165|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the right aI/fO node and the left SFG node does not differ between groups.||||0.003
82631166|NCT01569568|164978848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED|||||This is an uncorrected p-value. A priori significance threshold was 0.05.|ANOVA|We ran a series of post-hoc one-way ANOVAs to localize the main effect found. Age was used as a covariate.||The null hypothesis predicts that functional connectivity between the right aI/fO node and the right SFG node does not differ between groups.||||0.023
82631167|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.929|TWO_SIDED|||||Equal variance is not assumed. Two tailed t-test WASI verbal IQ between cases and controls|t-test, 2 sided|||||||.929
82631168|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||Equal variance not assumed. Comparison WASI performance IQ cases and controls|t-test, 2 sided|||||||.002
82631169|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.094|TWO_SIDED|||||Equal variance not assumed. Comparison of WASI full IQ cases and controls|t-test, 2 sided|||||||.094
82631170|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.853|TWO_SIDED|||||Equal variance not assumed. Comparison of CTMT global composite score between cases and controls|t-test, 2 sided|||||||.853
82631171|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||Equal variance not assumed. Comparison of BRIEF BRI cases and controls|t-test, 2 sided|||||||.001
82631172|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Equal variances not assumed. Comparison of BRIEF MI cases and controls|t-test, 2 sided|||||||<.001
82631173|NCT01569568|164978850|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Equal variances not assumed. Comparison of BRIEF GEC between cases and controls.|t-test, 2 sided|||||||<0.001
82631174|NCT02425891|164978864|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.8||||0.0025|TWO_SIDED|95.0|0.69|0.92|||Log Rank|||||0.92|0.69|0.0025
82631175|NCT02425891|164978865|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78|||Log Rank|||||0.78|0.49|<.0001
82631176|NCT02425891|164978866|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.87||||0.077|TWO_SIDED|95.0|0.75|1.02|||Log Rank|||||1.02|0.75|0.0770
82631177|NCT02425891|164978867|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.67||||0.0016|TWO_SIDED|95.0|0.53|0.86|||Log Rank|||||0.86|0.53|0.0016
82510849|NCT04590495|164714621|SUPERIORITY|||||||0.7922||||||adjusted for baseline VAMS score for physical sedation|paired t test|||||||0.7922
82631178|NCT02425891|164978868|SUPERIORITY|Stratified Analysis|Difference in Overall Response Rates|10.12||||0.0021|TWO_SIDED|95.0|3.4|16.84|||Cochran-Mantel-Haenszel|||||16.84|3.40|0.0021
82631179|NCT02425891|164978869|SUPERIORITY|Stratified Analysis|Difference in Overall Response Rates|16.3||||0.0016|TWO_SIDED|95.0|5.67|26.92|||Cochran-Mantel-Haenszel|||||26.92|5.67|0.0016
82631180|NCT02425891|164978870|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.78||||0.0285|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.0285
82631181|NCT02425891|164978871|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.6||||0.0047|TWO_SIDED|95.0|0.43|0.86|||Log Rank|||||0.86|0.43|0.0047
82631182|NCT02425891|164978872|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.98||||0.8078|TWO_SIDED|95.0|0.81|1.18|||Log Rank|||||1.18|0.81|0.8078
82510850|NCT04590495|164714622|SUPERIORITY|||||||0.9925||||||adjusted for baseline SSS score|paired t test|||||||0.9925
82510851|NCT04590495|164714623|SUPERIORITY|||||||0.2628||||||adjusted for baseline score|paired t test|||||||0.2628
82510852|NCT04590495|164714624|SUPERIORITY|||||||0.0347||||||adjusted for baseline scores|paired t test|||||||0.0347
82510853|NCT04590495|164714625|SUPERIORITY|||||||0.6331||||||adjusted for baseline score|paired t test|||||||0.6331
82510854|NCT04590495|164714626|SUPERIORITY|||||||0.472||||||adjusted for baseline score|paired t test|||||||0.4720
82510855|NCT04590495|164714627|SUPERIORITY|||||||0.02||||||adjusted for baseline reaction time|paired t test|||||||0.0200
82510856|NCT04590495|164714628|SUPERIORITY|||||||0.062||||||adjusted for baseline reaction time|paired t test|||||||0.0620
82510857|NCT01387607|164714629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.1906||0.0001|TWO_SIDED|95.0|-1.1|-0.36||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.36|-1.10|0.0001
82510858|NCT01387607|164714630|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4376||||0.1397|TWO_SIDED|95.0|0.8732|2.3667||Based on the combined categories from Cochran-Mantel-Haenszel test adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mentel-Haenszel method as pregabalin versus placebo.|Statistical analysis performed for PGIC endpoint re-categorized into much/very much improved and other.||2.3667|0.8732|0.1397
82510859|NCT01387607|164714630|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4626||||0.151|TWO_SIDED|95.0|0.8596|2.4886||Based on the combined categories from Cochran-Mantel-Haenszel test adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mentel-Haenszel method as pregabalin versus placebo.|Statistical analysis performed for PGIC endpoint re-categorized into any improvement (participants who were very much improved or much improved or minimally improved) and other.||2.4886|0.8596|0.1510
82510860|NCT01387607|164714631|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|1.6804||0.0762|TWO_SIDED|95.0|-6.3|0.32||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.32|-6.30|0.0762
82510861|NCT01387607|164714632|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8924||||0.0044|TWO_SIDED|95.0|1.2007|2.9827||From Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mantel-Haenszel method as pregabalin versus placebo.|||2.9827|1.2007|0.0044
82510862|NCT01387607|164714633|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9683||||0.0189|TWO_SIDED|95.0|1.1151|3.4742||From Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for pooled center.|Cochran-Mantel-Haenszel||Overall odds ratio was calculated based on Mantel-Haenszel method as pregabalin versus placebo.|||3.4742|1.1151|0.0189
82510863|NCT01387607|164714634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.427|STANDARD_ERROR_OF_MEAN|2.0152||0.09|TWO_SIDED|95.0|-7.39|0.54||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||||0.54|-7.39|0.0900
82510864|NCT01387607|164714635|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.527|STANDARD_ERROR_OF_MEAN|2.1858||0.2485|TWO_SIDED|95.0|-1.77|6.83||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for snoring.||6.83|-1.77|0.2485
82510865|NCT01387607|164714635|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.355|STANDARD_ERROR_OF_MEAN|2.265||0.2993|TWO_SIDED|95.0|-6.81|2.1||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for awaken short of breath.||2.10|-6.81|0.2993
82510866|NCT01387607|164714635|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.03|STANDARD_ERROR_OF_MEAN|2.4485||0.0003|TWO_SIDED|95.0|4.21|13.85||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for sleep adequacy.||13.85|4.21|0.0003
82510867|NCT01387607|164714636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.1114||0.0106|TWO_SIDED|95.0|0.07|0.51||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for quantity of sleep.||0.51|0.07|0.0106
82510868|NCT01387607|164714636|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.194|STANDARD_ERROR_OF_MEAN|1.6428||0.0112|TWO_SIDED|95.0|0.96|7.43||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||Statistical analysis for somnolence||7.43|0.96|0.0112
82510869|NCT01387607|164714637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.059|STANDARD_ERROR_OF_MEAN|1.6438||0.0637|TWO_SIDED|95.0|-6.29|0.18||From the analysis of covariance (ANCOVA) with treatment and pooled center as factors and baseline value as covariate.|ANCOVA|||||0.18|-6.29|0.0637
82510870|NCT01387607|164714638|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.6767|TWO_SIDED|95.0|0.67|1.87||Logistic regression model includes treatment and pooled center as factors and baseline value as covariate.|Regression, Logistic|||||1.87|0.67|0.6767
82510871|NCT01387607|164714639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.882|STANDARD_ERROR_OF_MEAN|0.1932|<|0.0001|TWO_SIDED|95.0|-1.26|-0.5||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.50|-1.26|<0.0001
82510872|NCT01387607|164714640|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.172|STANDARD_ERROR_OF_MEAN|7.7785||0.0273|TWO_SIDED|95.0|-32.42|-1.92||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-1.92|-32.42|0.0273
82510873|NCT01387607|164714641|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0677||0.8082|TWO_SIDED|95.0|-0.12|0.15||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||0.15|-0.12|0.8082
82510874|NCT01387607|164714642|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.655|STANDARD_ERROR_OF_MEAN|0.1223|<|0.0001|TWO_SIDED|95.0|-0.89|-0.41||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||-0.41|-0.89|<0.0001
82510875|NCT01387607|164714643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.396|STANDARD_ERROR_OF_MEAN|7.7309||0.3388|TWO_SIDED|95.0|-7.76|22.55||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||22.55|-7.76|0.3388
82510876|NCT01387607|164714644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.765|STANDARD_ERROR_OF_MEAN|0.2115||0.0003|TWO_SIDED|95.0|0.35|1.18||From a repeated measures analysis (MMRM) with treatment, pooled center, week, and treatment-by-week interaction as factors, and baseline value as covariate.|Mixed-effects model repeated measures|||||1.18|0.35|0.0003
82510877|NCT01387607|164714645|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.8414||0.3186|TWO_SIDED|95.0|-2.5|0.82||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.82|-2.50|0.3186
82510878|NCT01387607|164714646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.0404||0.7149|TWO_SIDED|95.0|-1.67|2.43||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||2.43|-1.67|0.7149
82510879|NCT01387607|164714647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.785|STANDARD_ERROR_OF_MEAN|0.673||0.2442|TWO_SIDED|95.0|-0.54|2.11||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||2.11|-0.54|0.2442
82510880|NCT01387607|164714648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.616|STANDARD_ERROR_OF_MEAN|2.4019||0.1332|TWO_SIDED|95.0|-8.34|1.11||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||1.11|-8.34|0.1332
82510881|NCT01387607|164714649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.3595||0.2934||95.0|-1.09|0.33||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||0.33|-1.09|0.2934
82631183|NCT02425891|164978873|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.98||||0.8879|TWO_SIDED|95.0|0.73|1.31|||Log Rank|||||1.31|0.73|0.8879
82510882|NCT01387607|164714650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.3621||0.0226|TWO_SIDED|95.0|-1.54|-0.12||From the analysis of covariate (ANCOVA) with treatment and pooled center as factors, and baseline value as covariate.|ANCOVA|||||-0.12|-1.54|0.0226
82510883|NCT04074317|164714711|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.|||||<|0.0001||||||Least-squares geometric means for ln-transformed data.|ANOVA|||||||<0.0001
82510884|NCT04074317|164714711|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.||||||0.694|||||||ANOVA|||||||0.694
82631184|NCT00166504|164978895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.0|STANDARD_DEVIATION|15.3|<|0.001||95.0|-14.3|-5.7|||ANOVA||Direction of the Comparison: Vytorin minus Atorvastatin.|||-5.7|-14.3|<0.001
82631185|NCT03057106|164978896|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.46|TWO_SIDED|90.0|0.67|1.16||2-sided, adjusted for stratification factors at rtandomization.|Log Rank|||||1.16|0.67|0.46
82631186|NCT03057106|164978897|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0035|TWO_SIDED|95.0|0.52|0.88||2-sided, adjusted for stratification factors at randomization.|Log Rank|Adjusted for stratification factors at randomization.||||0.88|0.52|0.0035
82631187|NCT03057106|164978898|SUPERIORITY||Odds Ratio (OR)|1.69||||0.033|TWO_SIDED|95.0|1.04|2.76||2-sided, adjusted for stratification factors at randomization.|Cochran-Mantel-Haenszel|||||2.76|1.04|0.033
82631188|NCT06408818|164979040|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.69|TWO_SIDED||||||Regression, Linear|||||||0.69
82510885|NCT04074317|164714711|EQUIVALENCE|Treatment groups were compared using an analysis of variance (ANOVA) model, including sequence, period, and treatment as fixed effects and patient within sequence as random effect.|||||<|0.0001|||||||ANOVA|||||||<0.0001
82510886|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups.|LS Mean Difference|-21.29||||0.041|TWO_SIDED|95.0|-41.23|-1.36|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||-1.36|-41.23|0.041
82510887|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups.|LS Mean Difference|-7.45||||0.453|TWO_SIDED|95.0|-31.43|16.54|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||16.54|-31.43|0.453
82510888|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|13.85||||0.161|TWO_SIDED|95.0|-8.46|36.15|||ANOVA|||Plasma Glucose Levels: \>180 mg/dL: 0 to 90 minutes||36.15|-8.46|0.161
82510889|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|-23.93|||<|0.001|TWO_SIDED|95.0|-35.37|-12.48|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||-12.48|-35.37|<0.001
82510890|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|3.1||||0.564|TWO_SIDED|95.0|-7.8|14.0|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||14.00|-7.80|0.564
82510891|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|27.03|||<|0.001|TWO_SIDED|95.0|15.96|38.09|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 180 minutes||38.09|15.96|<0.001
82510892|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|-1.74||||0.813|TWO_SIDED|95.0|-16.7|13.22|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||13.22|-16.70|0.813
82510893|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|2.35||||0.73|TWO_SIDED|95.0|-11.47|16.17|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||16.17|-11.47|0.730
82510894|NCT04074317|164714712|EQUIVALENCE|H0: Means are equal between treatment groups. Ha: means are not equal across the treatment groups.|LS Mean Difference|4.09||||0.582|TWO_SIDED|95.0|-10.97|19.15|||ANOVA|||Plasma Glucose \>180 mg/dL: 0 to 360 minutes||19.15|-10.97|0.582
82631189|NCT06408818|164979041|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.33|TWO_SIDED||||||Regression, Linear|||||||0.33
82631190|NCT06408818|164979042|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.46|TWO_SIDED||||||Regression, Linear|||||||0.46
82631191|NCT06408818|164979043|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.46|TWO_SIDED||||||Regression, Linear|||||||0.46
82631192|NCT06408818|164979044|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
82631193|NCT06408818|164979045|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.22|TWO_SIDED||||||Regression, Linear|||||||0.22
82631194|NCT06408818|164979046|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.19||0.48|TWO_SIDED||||||Regression, Linear|||||||0.48
82631195|NCT06408818|164979047|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.69|TWO_SIDED||||||Regression, Linear|||||||0.69
82510895|NCT04074317|164714718|EQUIVALENCE|"Bioequivalence would require 90% confidence intervals of the geometric mean ratio to be contained within the 80-125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|37.04|||<|0.0001|TWO_SIDED|90.0|31.36|43.75||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||43.75|31.36|<0.0001
82510896|NCT04074317|164714719|OTHER||Ratio of least-square means|435.96|||<|0.0001|TWO_SIDED|||||Results of the statistical evaluation of ANOVA (alpha = 0.05) for the hypothesis of equal treatment effects.|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||<0.0001
82510897|NCT04074317|164714720|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|60.44||||0.0075|TWO_SIDED|90.0|45.41|80.43||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||80.43|45.41|0.0075
82510898|NCT04074317|164714720|EQUIVALENCE|"Bioequivalence would require 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|93.32||||0.6773|TWO_SIDED|90.0|70.14|124.16||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA|Based on Least-Squares geometric means for ln-transformed data.|"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||124.16|70.14|0.6773
82631196|NCT06408818|164979048|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.63||0.22|TWO_SIDED||||||Regression, Logistic|||||||0.22
82631197|NCT06408818|164979049|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.79||0.57|TWO_SIDED||||||Regression, Logistic|||||||0.57
82631198|NCT06408818|164979050|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.42|TWO_SIDED||||||Regression, Linear|||||||0.42
82631199|NCT06408818|164979051|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.45|TWO_SIDED||||||Regression, Linear|||||||0.45
82631200|NCT06408818|164979052|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.39|TWO_SIDED||||||Regression, Linear|||||||0.39
82523200|NCT02038894|164741687|NON_INFERIORITY|A previous study for evaluating respiratory complications with intubated and insufflated techniques found a difference in the incidence of respiratory complications of 9.1%, a power analysis was determined. 200 subjects per group was estimated provide 82% power to detect a difference. We elected to do an interim analysis when 60 children per group were recruited because of a clinical impression that one of the techniques had a grossly divergent incidence of respiratory complications.|Odds Ratio (OR)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.14||Threshold for significance \<0.05 Comparing SPO2 \<95%|Mean equality test|||||0.14|0|<0.0001
82631201|NCT05492877|164979053|SUPERIORITY||Hazard Ratio (HR)|1.071||||0.599|TWO_SIDED|90.0|0.869|1.32|||Regression, Cox||||The p-value was based on a 2-sided log rank test stratified by region|1.320|0.869|0.599
82631202|NCT05492877|164979056|SUPERIORITY||Hazard Ratio (HR)|1.234|||||TWO_SIDED|90.0|0.882|1.726|||Regression, Cox|||||1.726|0.882|
82631203|NCT01930487|164979073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.037|STANDARD_ERROR_OF_MEAN|0.011||0.0016|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0016
82631204|NCT01930487|164979074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.011||0.0249|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0249
82631205|NCT01930487|164979075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.3||0.9147|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.9147
82631206|NCT01930487|164979076|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|0.59||0.007|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0070
82631207|NCT01930487|164979077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED||||||paired t-test, 2-sidede||dietary supplement with antioxidants - placebo|||||<0.0001
82631208|NCT01930487|164979078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.23||0.0476|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0476
82631209|NCT01930487|164979079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.21||0.0352|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0352
82631210|NCT01930487|164979080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.21||0.0208|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0208
82631211|NCT01930487|164979081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||<0.0001
82631212|NCT01930487|164979082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.07||0.0024|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0024
82631213|NCT01930487|164979083|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.07||0.0081|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0081
82631214|NCT01930487|164979084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.008||0.8191|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.8191
82631215|NCT01930487|164979085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.009||0.0482|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0482
82631216|NCT01930487|164979086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.019|STANDARD_ERROR_OF_MEAN|0.023||0.023|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0230
82631217|NCT01930487|164979087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.008||0.1202|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.1202
82631218|NCT01930487|164979088|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.55|STANDARD_ERROR_OF_MEAN|0.83||0.0063|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0063
82631219|NCT01930487|164979089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.8||0.3347|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3347
82631220|NCT01930487|164979090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.35||0.0094|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0094
82631221|NCT01930487|164979091|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92|STANDARD_ERROR_OF_MEAN|0.24||0.0009|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0009
82631222|NCT01930487|164979092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.34||0.0067|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0067
82631223|NCT01930487|164979093|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.6938|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.6938
82631224|NCT01930487|164979094|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.3||0.0805|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0805
82631225|NCT01930487|164979095|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.29||0.2451|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.2451
82631226|NCT01930487|164979096|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78|STANDARD_ERROR_OF_MEAN|0.34||0.0323|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0323
82631227|NCT01930487|164979097|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.26||0.344|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3440
82631228|NCT01930487|164979098|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.13||0.0119|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0119
82631229|NCT01930487|164979099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||<0.0001
82631230|NCT01930487|164979100|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.12||0.0137|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0137
82631231|NCT01930487|164979101|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.0866|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0866
82631232|NCT01930487|164979102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0656|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0656
82631233|NCT01930487|164979103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.09||0.0626|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0626
82631234|NCT01930487|164979104|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.013||0.81|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.8100
82631235|NCT01930487|164979105|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.01||0.9556|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.9556
82631236|NCT01930487|164979106|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.015||0.3414|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3414
82631237|NCT01930487|164979107|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021|STANDARD_ERROR_OF_MEAN|0.009||0.033|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0330
82631238|NCT01930487|164979108|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3326|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3326
82631239|NCT01930487|164979109|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.012||0.0348|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0348
82631240|NCT01930487|164979110|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.016|STANDARD_ERROR_OF_MEAN|0.012||0.2089|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.2089
82631241|NCT01930487|164979111|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.012||0.3738|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.3738
82631242|NCT01930487|164979112|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.447|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.4470
82631243|NCT01930487|164979113|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|2.1||0.6382|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.6382
82631244|NCT01930487|164979114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.012||0.0026|TWO_SIDED||||||paird t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0026
82631245|NCT01930487|164979115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.018||0.1045|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.1045
82631246|NCT01930487|164979116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.013||0.6941|TWO_SIDED||||||paired t-test||dietary supplement with antioxidants - placebo|||||0.6941
82631247|NCT01930487|164979117|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.046|STANDARD_ERROR_OF_MEAN|0.017||0.0138|TWO_SIDED||||||paired t-test, 2-sided||dietary supplement with antioxidants - placebo|||||0.0138
82631248|NCT00572728|164979119|SUPERIORITY_OR_OTHER||AUC|0.68|STANDARD_ERROR_OF_MEAN|0.1||0.046|ONE_SIDED|95.0||0.83||The Delong method was used to test if the observed AUC was significantly different than 0.5 with the one-sided p value DeLong ER, DeLong DM, Clarke-Pearson DL, Biometrics (1988)|Delong method|one-sided p-value|"percent change in SUVmax was computed as: %ΔSUVmax = 100\*(FLT1-FLT2)/FLT1 a 90% 2-sided confidence interval was constructed from 2000 Bootstrapping estimates from which the 1-sided 95% CI was derived.~Hanley SE(AUC) reported."|"A receiver operating characteristic (ROC) analysis was performed to assess the significance of the Area Under the Curve (AUC) under the Null Hypothesis with a one sided alpha=0.05 (95% one-sided CL):~H0: AUC = 0.50 (no difference from guessing) given the alternative hypothesis: Ha:AUC \>= 0.75 AUC = ROC(%ΔSUVmax\| path response) where percent change (%ΔSUVmax ) was defined as (SUVmax at FLT1 -SUVmax at FLT2)/SUVmax at FLT1 x 100"||.83||0.046
82631249|NCT00572728|164979120|SUPERIORITY_OR_OTHER||spearman correlation|0.35||||0.002|TWO_SIDED|95.0|0.13|0.54|||spearman correlation method||This estimate uses the Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|H0: ρ = 0; that is, there is no correlation between SUVmax @ FLT-1 and Ki-67 LI a Fisher's z Transformation was applied to adjust for bias in the Spearman Correlation Statistic||0.54|0.13|0.002
82631250|NCT00572728|164979121|SUPERIORITY_OR_OTHER||Spearman Correlation|0.67|||<|0.0001|TWO_SIDED|95.0|0.47|0.81|||Spearman Correlation method|we use Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|this estimate uses the Fisher's z Transformation to adjust for bias in the Spearman Correlation Statistic|H0: ρ = 0; that is, there is no correlation between SUVmax @ FLT-3 and Ki-67 LI||0.81|0.47|<0.0001
82631251|NCT00572728|164979122|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided exact p value from Wilcoxon two-sample test||"H0: Mean SUVmax (RCB 0,I) = Mean SUVmax (RCB II,III) After dichotomization, Wilcoxon two-sample test was used to compare uptake values between RCB groups.~In other words, we are comparing the means (of SUVmax) @ FLT1 between the RCB 0,I and the RCB II,III groups.."||||0.66
82631252|NCT00572728|164979123|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|\*two-sided exact p value from Wilcoxon two-sample test||H0: SUVmax (RCB 0,I) = SUVmax (RCB II,III) in other words, we are comparing the SUVmax @ FLT2 between the RCB 0,I and the RCB II,III groups.||||0.86
82631253|NCT00572728|164979124|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided exact p value from Wilcoxon two-sample test||H0: SUVmax (RCB 0,I) = SUVmax (RCB II,III) in other words, we are comparing the SUVmax @ FLT3 between the RCB 0,I and the RCB II,III groups.||||0.010
82631254|NCT00572728|164979124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.013|TWO_SIDED|95.0|0.76|0.97|||Regression, Logistic|||H0: %SUVmax FLT1-FLT3 (RCB 0,I) = %SUVmax FLT1-FLT3 (RCB II,III) A logistic regression model is used to determine if a larger percent change in SUVmax is associated with (RCB 0,I); the null hypothesis assumes that there is no association.||0.97|0.76|0.013
82631255|NCT00572728|164979125|SUPERIORITY_OR_OTHER||AUC|0.83|||<|0.001|TWO_SIDED|90.0|0.72|0.94||Delong 1-sided p-value (alpha=0.05)|Delong Method|The Delong-Delong Clark-Pearson method using modified U-statistics was used to evaluate the AUC||"ROC analysis was used to compute the AUC and evaluate if %ΔSUVmax FLT1-FLT3 is predictive of pCR with alpha=0.05.~The Null Hypothesis assumes that the P(%ΔSUVmax FLT1-FLT3\|pCR)= 1 - P(%ΔSUVmax FLT1-FLT3\|non-pCR) that is: H0: AUC =0.5 (guessing)"||.94|.72|<0.001
82631256|NCT00572728|164979126|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Kruskal-Wallis|two-sided p value from Kruskal-Wallis one-way ANOVA||"Kruskal-Wallis one-way ANOVA was used to test whether there was a difference in %SUVmax (FLT1-FLT2) among LN statuses.~H0: no difference between the 3 LN status."||||0.86
82631257|NCT00572728|164979127|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||two-sided p value from Kruskal-Wallis one-way ANOVA|Kruskal-Wallis|||||||0.67
82631258|NCT02724111|164979131|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82631259|NCT02724111|164979132|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82631260|NCT02724111|164979133|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82631261|NCT02724111|164979134|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82631262|NCT02724111|164979135|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82631263|NCT02724111|164979136|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82631264|NCT02724111|164979137|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82631265|NCT02724111|164979138|SUPERIORITY|||||||0.202|||||||Chi-squared|||||||0.202
82631266|NCT02996500|164979139|SUPERIORITY||Mean Difference (Net)|-7.83||||0.005|TWO_SIDED|95.0|-13.73|-1.97|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-1.97|-13.73|0.0050
82631267|NCT02996500|164979139|SUPERIORITY||Mean Difference (Net)|-8.96|||<|0.001|TWO_SIDED|95.0|-14.37|-3.66|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-3.66|-14.37|<0.001
82377644|NCT04700137|164462850|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.24|TWO_SIDED|95.0|-0.8|3.2||p\<0.05 = a priori threshold for statistical significance|Regression, Linear|Linear regression with robust standard errors, adjusting for the baseline score as a precision variable.||Difference in thwarted belongingness (INQ15) among healthcare providers/staff by intervention arm at follow-up (6 months).||3.2|-0.8|0.24
82631268|NCT02996500|164979139|SUPERIORITY||Median Difference (Net)|-10.89|||<|0.001|TWO_SIDED|95.0|-16.36|-5.63|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-5.63|-16.36|<0.001
82631269|NCT02996500|164979139|SUPERIORITY||Mean Difference (Net)|-11.29|||<|0.001|TWO_SIDED|95.0|-16.62|-5.92|||ANCOVA|Bayesian analysis of covariance (ANCOVA) modeling framework was used with baseline SDAI score as a covariate.||The confidence interval was credible interval in this analysis.||-5.92|-16.62|<0.001
82631270|NCT01855919|164979181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0026|TWO_SIDED|95.0|-0.77|-0.16|||Mixed Models Analysis|||||-0.16|-0.77|0.0026
82377645|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-5.6||||0.12|TWO_SIDED|95.0|-12.5|1.4||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased tobacco use among patients randomized to CC+ vs CC||1.4|-12.5|0.12
82631271|NCT01855919|164979182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0026|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|||||-0.10|-0.48|0.0026
82631272|NCT01855919|164979183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.0439|TWO_SIDED|95.0|-1.25|-0.02|||ANCOVA|||||-0.02|-1.25|0.0439
82631273|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.101|TWO_SIDED|95.0|-0.66|0.06||p-value is for worst pain|Mixed Models Analysis|||||0.06|-0.66|0.1010
82631274|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0009|TWO_SIDED|95.0|-0.79|-0.21||p-value is for least pain|Mixed Models Analysis|||||-0.21|-0.79|0.0009
82631275|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.023|TWO_SIDED|95.0|-0.74|-0.05||p-value is for Pain Right Now|Mixed Models Analysis|||||-0.05|-0.74|0.0230
82631276|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0874|TWO_SIDED|95.0|-0.66|0.05||p-value is for General Activity|Mixed Models Analysis|||||0.05|-0.66|0.0874
82631277|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0436|TWO_SIDED|95.0|-0.63|-0.01||p-value is for Mood|Mixed Models Analysis|||||-0.01|-0.63|0.0436
82631278|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.3902|TWO_SIDED|95.0|-0.45|0.18||p-value is for Walking Ability|Mixed Models Analysis|||||0.18|-0.45|0.3902
82631279|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.33|0.33||p-value is for Normal Work|Mixed Models Analysis|||||0.33|-0.33|0.9910
82631280|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7848|TWO_SIDED|95.0|-0.3|0.23||p-value is for Relationship People|Mixed Models Analysis|||||0.23|-0.30|0.7848
82631281|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9424|TWO_SIDED|95.0|-0.32|0.3||p-value is for Sleep|Mixed Models Analysis|||||0.30|-0.32|0.9424
82631282|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7932|TWO_SIDED|95.0|-0.35|0.27||p-value is for Enjoyment of Life|Mixed Models Analysis|||||0.27|-0.35|0.7932
82568372|NCT00843115|164846566|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568373|NCT00843115|164846567|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568374|NCT00843115|164846568|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82631283|NCT01855919|164979184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.3761|TWO_SIDED|95.0|-0.4|0.15||p-value is for Average of 7 Items|Mixed Models Analysis|||||0.15|-0.40|0.3761
82631284|NCT01855919|164979185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0049|TWO_SIDED|95.0|-0.71|-0.13||p-value is for Average Pain|Mixed Models Analysis|||||-0.13|-0.71|0.0049
82631285|NCT01855919|164979185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0442|TWO_SIDED|95.0|-0.69|-0.01||p-value is for Worst pain|Mixed Models Analysis|||||-0.01|-0.69|0.0442
82631286|NCT01855919|164979186|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.31||||0.0003|TWO_SIDED|95.0|1.13|1.53||p-value is for ≥30%|Mantel Haenszel|||||1.53|1.13|0.0003
82631287|NCT01855919|164979186|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43||||0.0003|TWO_SIDED|95.0|1.18|1.75||p-value is for ≥50%|Mantel Haenszel|||||1.75|1.18|0.0003
82631288|NCT01855919|164979187|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.33||||0.0012|TWO_SIDED|95.0|1.12|1.58|||Mantel Haenszel|||||1.58|1.12|0.0012
82631289|NCT01855919|164979188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0019|TWO_SIDED|95.0|-0.46|-0.1|||Mixed Models Analysis|||||-0.10|-0.46|0.0019
82631290|NCT01855919|164979189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.3012|TWO_SIDED|95.0|-1.03|0.32|||ANCOVA|||||0.32|-1.03|0.3012
82631291|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27||||0.2581|TWO_SIDED|95.0|-0.93|3.47||p-value for Physical Functioning|ANCOVA|||||3.47|-0.93|0.2581
82631292|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.7208|TWO_SIDED|95.0|-2.62|3.79||p-value for Role (Physical)|ANCOVA|||||3.79|-2.62|0.7208
82510899|NCT04074317|164714720|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|97.43||||0.8768|TWO_SIDED|90.0|72.94|130.14||Results of the statistical evaluation of ANOVA (alpha=0.05) for the hypothesis of equal treatment effects.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||130.14|72.94|0.8768
82510900|NCT04074317|164714721|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|53.83|||<|0.0001|TWO_SIDED|90.0|44.51|65.11||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was ana analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||65.11|44.51|<0.0001
82510901|NCT04074317|164714721|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|73.16||||0.0192|TWO_SIDED|90.0|61.06|87.67||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||87.67|61.06|0.0192
82523701|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.786|TWO_SIDED|95.0|-37.0|49.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 20||49|-37|0.786
82631293|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.55||||0.2487|TWO_SIDED|95.0|-1.09|4.19||p-value for Bodily Pain|ANCOVA|||||4.19|-1.09|0.2487
82631294|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94||||0.0151|TWO_SIDED|95.0|0.57|5.31||p-value for General Health|ANCOVA|||||5.31|0.57|0.0151
82631295|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.4|TWO_SIDED|95.0|-1.54|3.85||p-value for Vitality|ANCOVA|||||3.85|-1.54|0.4000
82631296|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63||||0.2529|TWO_SIDED|95.0|-1.17|4.43||p-value for Social Functioning|ANCOVA|||||4.43|-1.17|0.2529
82631297|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8042|TWO_SIDED|95.0|-3.55|2.75||p-value for Role(Emotional)|ANCOVA|||||2.75|-3.55|0.8042
82631298|NCT01855919|164979190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21||||0.0058|TWO_SIDED|95.0|0.94|5.48||p-value is for Mental Health|ANCOVA|||||5.48|0.94|0.0058
82377646|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-6.1||||0.03|TWO_SIDED|95.0|-11.5|-0.7||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased tobacco use among healthcare providers/staff randomized to CC+ vs CC||-0.7|-11.5|0.03
82631299|NCT01855919|164979191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.5237|TWO_SIDED|95.0|-0.02|0.03|||ANCOVA|||||0.03|-0.02|0.5237
82631300|NCT01855919|164979192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.046|TWO_SIDED|95.0|-0.05|0.0||p-value for Work time missed|ANCOVA|||||0.00|-0.05|0.0460
82631301|NCT01855919|164979192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.0753|TWO_SIDED|95.0|-0.08|0.0||p-value for Impairment at work|ANCOVA|||||0.00|-0.08|0.0753
82631302|NCT01855919|164979192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.0795|TWO_SIDED|95.0|-0.08|0.0||p-value for Work productivity loss|ANCOVA|||||0.00|-0.08|0.0795
82631303|NCT01855919|164979192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.1466|TWO_SIDED|95.0|-0.06|0.01||p-value for Work activity impairment|ANCOVA|||||0.01|-0.06|0.1466
82631304|NCT03455530|164979195|SUPERIORITY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|0.45|1.19|||Mixed Models Analysis||Ratio based on the mean difference from the log scale.|||1.19|0.45|
82631305|NCT03455530|164979195|SUPERIORITY||Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|0.55|3.24|||Mixed Models Analysis||Ratio based on the mean difference from the log scale.|||3.24|0.55|
82631306|NCT00740116|164979203|SUPERIORITY|||||||0.03||||||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||||0.03
82631307|NCT00740116|164979204|SUPERIORITY|||||||0.07||||||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||||0.07
82631308|NCT00740116|164979205|SUPERIORITY||Odds Ratio (OR)|0.44||||0.46|ONE_SIDED|95.0||0.97||Statistical significance threshold was p \< 0.05|Wilcoxon (Mann-Whitney)|Mann-Whitney U-test, one-sided test||||0.97||0.46
82631309|NCT00740116|164979206|SUPERIORITY|||||||0.46||||||p\< 0.05 for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.46
82631310|NCT00740116|164979207|SUPERIORITY||Odds Ratio (OR)|0.36||||0.22|TWO_SIDED|95.0|0.05|2.72||Statistical significance threshold p-value \< 0.05|Fisher Exact|||||2.72|0.05|0.22
82631311|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.26|STANDARD_ERROR_OF_MEAN|0.26||0.309|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the motivational interviewing (MI) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.309
82631312|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.34|STANDARD_ERROR_OF_MEAN|0.26||0.19|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the personalized recommendation (PR) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.190
82631313|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.69|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the psychoeducation (PE) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.690
82639807|NCT02163759|164994486|SUPERIORITY||Difference in Remission Rates|-5.0||||1|TWO_SIDED|95.0|-11.66|1.75||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||1.75|-11.66|1
82510902|NCT04074317|164714721|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|135.91||||0.0244|TWO_SIDED|90.0|113.1|163.31||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||163.31|113.10|0.0244
82510903|NCT04074317|164714722|OTHER||Ratio of least-square means|73.53||||0.2541|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||0.2541
82510904|NCT04074317|164714722|OTHER||Ratio of least-squares means|103.89|||>|0.9999|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||Ratio calculated as PRAM least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||>0.9999
82568375|NCT00843115|164846569|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568376|NCT00843115|164846570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568377|NCT00843115|164846571|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82631314|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.54|STANDARD_ERROR_OF_MEAN|0.26||0.038|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis explores the effect of the repeated administration (RA) component on rates of treatment receipt over the entire study period. Results will help determine the proportional increase in odds of treatment seeking corresponding to receiving each chatbot component. Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||0.038
82631315|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.735|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 2 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.735
82631316|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.91|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 6 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.001
82631317|NCT04806165|164979220|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data. The model was estimated using a logit link and did not incorporate an intercept.|Regression (Beta) Coefficient|-0.73|STANDARD_ERROR_OF_MEAN|0.3||0.014|TWO_SIDED|||||We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0. We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Discrete Time Survival Analysis|The model did not incorporate an intercept to allow for estimation of treatment receipt likelihood among participants yet to report treatment.||This analysis provides results on the 14 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on treatment receipt, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on). Discrete time survival analysis was employed and models were fit with treatment seeking regressed on follow-up time (2-week, 6-week, or 14-week) and each chatbot component.||||.014
82631318|NCT04806165|164979221|SUPERIORITY|Gender, age, and race were included as auxiliary variables to improve imputation quality. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. For sensitivity analysis, models were run again using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.53||||0.25|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|||Analyses were conducted to determine the effects of each of the four chatbot components on secondary outcomes. This analysis in particular explores the effects of the motivational interviewing component (MI) on participant willingness to seek psychotherapy for concerns their disordered weight and shape behaviors and thoughts since engagement with the intervention. Linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||||0.25
82631319|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.36||||0.44|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the psychoeducation component (PE) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.44
82631320|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.25||||0.44|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the personalized recommendation component (PR) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.44
82631321|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.29||||0.53|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the effects of each of the four chatbot components on willingness to seek psychotherapy. This analysis in particular explores the effects of the repeated administration component (RA) on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||0.53
82631322|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.53||||0.07|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 2 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.07
82631323|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-1.06||||0.01|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 6 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.01
82639808|NCT02163759|164994487|SUPERIORITY||Difference in Response Rates|6.9||||0.4434|TWO_SIDED|95.0|-7.03|20.62||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||20.62|-7.03|0.4434
82631324|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.85||||0.042|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis provides results on the 14 week time point post Intervention and contributes to understanding of the effect of time since chatbot engagement on willingness to seek psychotherapy, regardless of the combination of the four chatbot components participants were assigned (ie., component turned off or on).||||0.042
82631325|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.08||||0.89|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.89
82639809|NCT02163759|164994487|SUPERIORITY||Difference in Response Rates|4.8||||0.4122|TWO_SIDED|95.0|-6.72|16.07||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||16.07|-6.72|0.4122
82510905|NCT04074317|164714722|OTHER||Ratio of least-square means|141.29||||0.1747|TWO_SIDED|||||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||Ratio calculated as Regular Insulin least-squares mean divided by the Regular Insulin + Pramlintide least-squares mean, expressed as a percentage.|The statistical model was an analysis of variance (ANOVA) with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||||0.1747
82510906|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|53.16|||<|0.0001|TWO_SIDED|90.0|43.59|64.83||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||64.83|43.59|<0.0001
82523452|NCT04672941|164742385|OTHER|Mixed model for repeated measurements (MMRM) assuming random missingness was fitted. The dependent variable was the mMRC score. Visit, Global Initiative for Chronic Obstructive Lung Disease (GOLD) group, smoking habits, pack years, sex, age, and comorbidities appearing at a rate greater than 5% were entered as covariates.|Score on a scale|-0.55|||||TWO_SIDED|95.0|-0.6|-0.51|||||Least Square Mean for Visit, change from baseline (3 months - baseline) of mMRC based on non-responder imputation.|||-0.51|-0.60|
82523453|NCT02953938|164742389|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_DEVIATION|0.64||0.368|TWO_SIDED|95.0|-1.49|1.07|||Cochran-Mantel-Haenszel|||||1.07|-1.49|0.3680
82510907|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|65.24||||0.0018|TWO_SIDED|90.0|54.02|78.8||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||78.80|54.02|0.0018
82523454|NCT02953938|164742390|SUPERIORITY||Mean Difference (Final Values)|-6.58|STANDARD_DEVIATION|3.042||0.0349|TWO_SIDED|95.0|-12.67|-0.48|||ANOVA|||||-0.48|-12.67|0.0349
82639810|NCT02163759|164994488|SUPERIORITY||Difference in Response Rates|1.2||||1|TWO_SIDED|95.0|-6.98|9.26||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.26|-6.98|1
82523455|NCT02953938|164742391|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.051||0.2707|TWO_SIDED|95.0|-0.045|0.158|||ANOVA|||||0.158|-0.045|0.2707
82639811|NCT02163759|164994489|SUPERIORITY||Difference in Response Rates|17.9||||0.0173|TWO_SIDED|95.0|4.49|29.5||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||29.50|4.49|0.0173
82639812|NCT02163759|164994489|SUPERIORITY||Difference in Response Rates|7.4||||0.1886|TWO_SIDED|95.0|-3.77|18.32||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||18.32|-3.77|0.1886
82523456|NCT02953938|164742393|SUPERIORITY||Mean Difference (Final Values)|11.32||||0.7602|TWO_SIDED|95.0|-62.65|85.28|||ANOVA|||||85.28|-62.65|0.7602
82639813|NCT02163759|164994490|SUPERIORITY||Difference in Response Rates|1.9||||1|TWO_SIDED|95.0|-6.04|9.88||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.88|-6.04|1
82639814|NCT02163759|164994491|SUPERIORITY||Difference in Remission Rates|13.8||||0.1347|TWO_SIDED|95.0|2.97|22.15||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||22.15|2.97|0.1347
82639815|NCT02163759|164994491|SUPERIORITY||Difference in Remission Rates|0.5||||0.9138|TWO_SIDED|95.0|-8.95|9.92||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.92|-8.95|0.9138
82639816|NCT02163759|164994492|SUPERIORITY||Difference in Remission Rates|-3.5||||1|TWO_SIDED|95.0|-10.27|3.3||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||3.30|-10.27|1
82639817|NCT02163759|164994493|SUPERIORITY||Difference in Remission Rates|26.3||||0.0173|TWO_SIDED|95.0|12.1|37.86||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||37.86|12.10|0.0173
82510908|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|122.73||||0.2391|TWO_SIDED|90.0|101.33|148.66||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 90 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||148.66|101.33|0.2391
82510909|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|54.2|||<|0.0001|TWO_SIDED|90.0|47.58|61.73||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||61.73|47.58|<0.0001
82510910|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|71.29||||0.0002|TWO_SIDED|90.0|62.99|80.69||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||80.69|62.99|0.0002
82523457|NCT03848403|164742395|SUPERIORITY||Least Squares (LS) Means Difference|-21.69|||<|0.0001|TWO_SIDED|95.0|-26.9|-16.48|||Mixed Models Analysis|||||-16.48|-26.90|<0.0001
82377647|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-1.1||||0.83|TWO_SIDED|95.0|-10.7|8.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased alcohol use among patients randomized to CC+ vs CC||8.5|-10.7|0.83
82510911|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|131.55||||0.0026|TWO_SIDED|90.0|116.01|149.17||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 180 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||149.17|116.01|0.0026
82510912|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|51.34|||<|0.0001|TWO_SIDED|90.0|46.74|56.39||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||56.39|46.74|<0.0001
82510913|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|78.24||||0.0003|TWO_SIDED|90.0|71.39|85.76||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as PRAM geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||85.76|71.39|0.0003
82510914|NCT04074317|164714723|EQUIVALENCE|"Bioequivalence would require the 90% confidence intervals of the geometric mean ratio to be contained within the 80 - 125% range.~H0: Means are equal between treatment groups. Ha: Means are not equal across the treatment groups."|Ratio of geometric least-squares means|152.41|||<|0.0001|TWO_SIDED|90.0|138.91|167.22||Bonferroni-adjusted p-value to maintain the overall Type 1 error rate at 0.05.|ANOVA||"Ratio calculated as Regular Insulin geometric least-squares mean divided by the Regular Insulin + Pramlintide geometric least-squares mean, expressed as a percentage.~Confidence interval on the ratio, expressed as a percentage."|AUC 0 to 360 The statistical model was an analysis of variance (ANOVA) on the ln-transformed data with sequence, period, and treatment as fixed effect and subject nested within sequence as a random effect.||167.22|138.91|<0.0001
82510915|NCT00293384|164714775|SUPERIORITY_OR_OTHER||proportion|0.57||||0.1|TWO_SIDED|||||85% statistical power|Simon optimal design|||Optimal Simon design for phase II study. p0=45% p1=65%.||||0.10
82510916|NCT00293384|164714776|SUPERIORITY_OR_OTHER||proportion|0.63||||||||||||||||||
82510917|NCT00293384|164714778|SUPERIORITY_OR_OTHER||proportion|0.06|||||TWO_SIDED|||||||||||||
82510918|NCT04300296|164714806|OTHER||Posterior median difference|-13.9|||||TWO_SIDED|95.0|-44.8|19.3|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||19.3|-44.8|
82510919|NCT04300296|164714806|OTHER||Posterior median difference|14.1|||||TWO_SIDED|95.0|-17.0|40.7|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||40.7|-17.0|
82510920|NCT04300296|164714806|OTHER||Posterior median difference|6.5|||||TWO_SIDED|95.0|-25.4|35.4|||||Bayesian model to obtain the posterior distribution of the treatment difference between AIN457 and placebo|||35.4|-25.4|
82510921|NCT02896127|164714824|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.65|3.69|||Regression, Logistic||||"PTFU=post-treatment follow-up (12 weeks after last study treatment)~95% confidence intervals are from a score method with continuity correction."|3.69|1.65|<.0001
82510922|NCT01948375|164714860|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82510923|NCT01948375|164714862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.007||95.0|1.26|4.4||For the comparison of direct effect of placebo needle and real needle, p=0.007|Generalized Estimating Equation|||||4.40|1.26|0.007
82510924|NCT01948375|164714863|SUPERIORITY_OR_OTHER||||||=|0.006||||||"for the comparison of difference of acupuncture pain in two periods between the two groups,t=-2.88, p=0.006.~t=-2.88 refers to the t value of t test."|t-test, 2 sided|||||||=0.006
82510925|NCT01948375|164714864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63|||=|0.048||95.0|1.01|2.64||For the comparison of direct effect of placebo needle and real needle, p=0.048|Generalized Estimating Equation|||||2.64|1.01|=0.048
82510926|NCT00494494|164714875|NON_INFERIORITY_OR_EQUIVALENCE|Our estimate of a clinically relevant increase is 25 microns. With these specifications, the sample size that is required to have 0.90 power for the comparison between two groups at the two-sided 0.05 significance level is about 10 per group.|Mean Difference (Net)|2.82|STANDARD_DEVIATION|13.8||0.7029|TWO_SIDED|95.0|-3.27|8.91|||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no correlation between the 2 groups. Standard methods were used for power calculation to determine the sample size needed to have 0.90 power for the comparison between two groups at the two-sided significance of 0.05.||8.91|-3.27|0.7029
82510927|NCT00494494|164714876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.01|STANDARD_DEVIATION|9.56||0.1937|TWO_SIDED|95.0|-2.41|6.43|||Wilcoxon (Mann-Whitney)|||||6.43|-2.41|0.1937
82510928|NCT00494494|164714877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|19.6||0.5066|TWO_SIDED|95.0|-3.12|16.52|||Wilcoxon (Mann-Whitney)|||||16.52|-3.12|0.5066
82510929|NCT00494494|164714878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.21||0.5099|TWO_SIDED|95.0|-0.13|0.227|||Wilcoxon (Mann-Whitney)|||||0.227|-0.13|0.5099
82510930|NCT00494494|164714879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|STANDARD_DEVIATION|5.64||0.5005|TWO_SIDED|95.0|-1.49|3.55|||Wilcoxon (Mann-Whitney)|||||3.55|-1.49|0.5005
82510931|NCT04537806|164714880|SUPERIORITY||Proc Genmod|0.0||||1|TWO_SIDED|95.0|-31.8|31.8|||Chi-squared||Estimates for treatment, and the corresponding 95% confidence interval (CI) were estimated using Proc Genmod method, with treatment as a factor and age groups as a covariate variable.|||31.8|-31.8|1.0000
82377648|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|2.2||||0.67|TWO_SIDED|95.0|-8.0|12.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased alcohol use among healthcare providers/staff randomized to CC+ vs CC||12.5|-8.0|0.67
82510932|NCT02477020|164714885|SUPERIORITY_OR_OTHER||Least square mean difference|-5.46|STANDARD_ERROR_OF_MEAN|3.442||0.115|TWO_SIDED|95.0|-12.26|1.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using MMRM|MMRM||TAK-063 - Placebo. Baseline Positive and Negative Symptom Scale (PANSS) total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|||1.35|-12.26|0.115
82523458|NCT03848403|164742395|SUPERIORITY||LS Means Difference|-21.14|||<|0.0001|TWO_SIDED|95.0|-26.39|-15.88|||Mixed Models Analysis|||||-15.88|-26.39|<0.0001
82631326|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.34||||0.69|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.69
82631327|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.69||||0.4|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the motivational interviewing (MI) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.40
82631328|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.35||||0.55|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.55
82631329|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.88||||0.32|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.32
82523459|NCT03848403|164742395|SUPERIORITY||LS Means Difference|0.55||||0.8341|TWO_SIDED|95.0|-4.65|5.75|||Mixed Models Analysis|||||5.75|-4.65|0.8341
82523460|NCT05878197|164742495|OTHER|||||||0.024||||||Linear Mixed Models: time-effect|Mixed Models Analysis|||||||0.024
82510933|NCT02477020|164714886|SUPERIORITY_OR_OTHER||Least square mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.508||0.602|TWO_SIDED|95.0|-3.77|2.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 1||2.19|-3.77|0.602
82510934|NCT02477020|164714886|SUPERIORITY_OR_OTHER||Least square mean difference|-2.22|STANDARD_ERROR_OF_MEAN|2.229||0.322|TWO_SIDED|95.0|-6.62|2.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 2||2.19|-6.62|0.322
82510935|NCT02477020|164714886|SUPERIORITY_OR_OTHER||Least square mean difference|-3.46|STANDARD_ERROR_OF_MEAN|2.813||0.221|TWO_SIDED|95.0|-9.02|2.1||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 3||2.10|-9.02|0.221
82523461|NCT05878197|164742495|OTHER|||||||0.822||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.822
82523462|NCT05878197|164742495|OTHER|||||||0.29||||||Linar mixed models: time\*group-effect|Mixed Models Analysis|||||||0.290
82510936|NCT02477020|164714886|SUPERIORITY_OR_OTHER||Least square mean difference|-2.11|STANDARD_ERROR_OF_MEAN|3.147||0.504|TWO_SIDED|95.0|-8.33|4.11||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 4||4.11|-8.33|0.504
82510937|NCT02477020|164714886|SUPERIORITY_OR_OTHER||Least square mean difference|-3.91|STANDARD_ERROR_OF_MEAN|3.231||0.229|TWO_SIDED|95.0|-10.3|2.48||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PANSS total score was used as covariate, pooled center, week and treatment as fixed factors, treatment-by-week interaction and Baseline PANSS total score-by-week interaction.|Change at Week 5||2.48|-10.30|0.229
82510938|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.562||0.195|TWO_SIDED|95.0|-1.84|0.38||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 1||0.38|-1.84|0.195
82510939|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.786||0.132|TWO_SIDED|95.0|-2.74|0.36||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 2||0.36|-2.74|0.132
82510940|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.94|STANDARD_ERROR_OF_MEAN|0.959||0.045|TWO_SIDED|95.0|-3.84|-0.05||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 3||-0.05|-3.84|0.045
82523463|NCT05878197|164742495|OTHER||Mean Difference (Final Values)|1.8||||0.035|TWO_SIDED|95.0|0.1|3.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.4|0.1|0.035
82523464|NCT05878197|164742495|OTHER||Mean Difference (Final Values)|1.8||||0.038|TWO_SIDED|95.0|0.1|3.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.4|0.1|0.038
82510941|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.54|STANDARD_ERROR_OF_MEAN|1.025||0.135|TWO_SIDED|95.0|-3.56|0.49||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 4||0.49|-3.56|0.135
82510942|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.09||0.067|TWO_SIDED|95.0|-4.17|0.14||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 5||0.14|-4.17|0.067
82510943|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.119||0.092|TWO_SIDED|95.0|-4.11|0.31||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Positive symptoms, Change at Week 6||0.31|-4.11|0.092
82510944|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.566||0.548|TWO_SIDED|95.0|-0.78|1.46||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 1||1.46|-0.78|0.548
82523465|NCT05878197|164742495|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-1.9|1.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||1.9|-1.9|1.000
82523466|NCT05878197|164742496|OTHER|||||||0.107||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.107
82377649|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|2.9||||0.42|TWO_SIDED|95.0|-4.1|9.9||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased marijuana/cannabis use among patients randomized to CC+ vs CC||9.9|-4.1|0.42
82510945|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.756||0.42|TWO_SIDED|95.0|-2.11|0.88||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 2||0.88|-2.11|0.420
82510946|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.818||0.857|TWO_SIDED|95.0|-1.47|1.76||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 3||1.76|-1.47|0.857
82510947|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.936||0.527|TWO_SIDED|95.0|-2.44|1.26||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 4||1.26|-2.44|0.527
82510948|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.94||0.875|TWO_SIDED|95.0|-2.01|1.71||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 5||1.71|-2.01|0.875
82510949|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.94||0.441|TWO_SIDED|95.0|-2.58|1.13||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Negative symptoms, Change at Week 6||1.13|-2.58|0.441
82523467|NCT05878197|164742496|OTHER|||||||0.996||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.996
82523468|NCT05878197|164742496|OTHER|||||||0.639||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.639
82523469|NCT05878197|164742496|OTHER||Mean Difference (Final Values)|-0.1||||0.731|TWO_SIDED|95.0|-0.6|0.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.4|-0.6|0.731
82510950|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.406||0.362|TWO_SIDED|95.0|-1.17|0.43||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 1||0.43|-1.17|0.362
82510951|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.53||0.687|TWO_SIDED|95.0|-1.26|0.83||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 2||0.83|-1.26|0.687
82568378|NCT00843115|164846572|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82510952|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.618||0.458|TWO_SIDED|95.0|-1.68|0.76||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 3||0.76|-1.68|0.458
82510953|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.704||0.991|TWO_SIDED|95.0|-1.38|1.4||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 4||1.40|-1.38|0.991
82523470|NCT05878197|164742496|OTHER||Mean Difference (Final Values)|-0.4||||0.217|TWO_SIDED|95.0|-1.1|0.3||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.3|-1.1|0.217
82523471|NCT05878197|164742496|OTHER||Mean Difference (Final Values)|-0.3||||0.253|TWO_SIDED|95.0|-0.9|0.3||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.3|-0.9|0.253
82523472|NCT05878197|164742497|OTHER|||||||0.024||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.024
82523473|NCT05878197|164742497|OTHER|||||||0.449||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.449
82523474|NCT05878197|164742497|OTHER|||||||0.786||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.786
82510954|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.782||0.354|TWO_SIDED|95.0|-2.27|0.82||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 5||0.82|-2.27|0.354
82510955|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.804||0.119|TWO_SIDED|95.0|-2.85|0.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Disorganized thoughts, Change at Week 6||0.33|-2.85|0.119
82510956|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.469||0.493|TWO_SIDED|95.0|-1.25|0.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 1||0.60|-1.25|0.493
82510957|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.504||0.949|TWO_SIDED|95.0|-0.96|1.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 2||1.03|-0.96|0.949
82510958|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.604||0.153|TWO_SIDED|95.0|-2.06|0.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 3||0.33|-2.06|0.153
82523475|NCT05878197|164742497|OTHER||Mean Difference (Final Values)|-3.3||||0.099|TWO_SIDED|95.0|-7.2|0.7||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.7|-7.2|0.099
82377650|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-2.1||||0.53|TWO_SIDED|95.0|-8.7|4.5||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased marijuana/cannabis use among healthcare providers/staff randomized to CC+ vs CC||4.5|-8.7|0.53
82510959|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.681||0.994|TWO_SIDED|95.0|-1.34|1.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 4||1.35|-1.34|0.994
82510960|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.679||0.365|TWO_SIDED|95.0|-1.96|0.73||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 5||0.73|-1.96|0.365
82568379|NCT00843115|164846573|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82510961|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.653||0.088|TWO_SIDED|95.0|-2.41|0.17||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Hostility, Change at Week 6||0.17|-2.41|0.088
82377651|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-2.5||||0.2|TWO_SIDED|95.0|-6.3|1.4||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased illicit drug use among patients randomized to CC+ vs CC||1.4|-6.3|0.20
82631330|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.37||||0.63|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the psychoeducation (PE) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.63
82631331|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.08||||0.9|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.90
82631332|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.95||||0.27|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.27
82631333|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.67||||0.42|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the personalized recommendation (PR) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.42
82631334|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|1.23||||0.04|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 2-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.04
82639818|NCT02163759|164994493|SUPERIORITY||Difference in Remission Rates|13.2||||0.0313|TWO_SIDED|95.0|0.93|24.94||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||24.94|0.93|0.0313
82378480|NCT06075277|164465506|OTHER||Ratios of adjusted geometric means [%]|126.12|||||TWO_SIDED|90.0|106.34|149.58|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 27.9.|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||149.58|106.34|
82510962|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.397||0.535|TWO_SIDED|95.0|-0.54|1.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 1||1.03|-0.54|0.535
82510963|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.502||0.412|TWO_SIDED|95.0|-1.4|0.58||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 2||0.58|-1.40|0.412
82510964|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.522||0.354|TWO_SIDED|95.0|-1.52|0.55||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 3||0.55|-1.52|0.354
82510965|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.59||0.589|TWO_SIDED|95.0|-1.49|0.85||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 4||0.85|-1.49|0.589
82378481|NCT06075277|164465507|OTHER||Ratios of adjusted geometric means [%]|126.04|||||TWO_SIDED|90.0|111.7|142.21|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 19.6.|Relative bioavailability of Zongertinib administered in fed state (Test) compared with Zongertinib administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||142.21|111.70|
82378482|NCT03713593|164465564|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.834|||||TWO_SIDED|95.0|0.712|0.978|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.978|0.712|
82378483|NCT03713593|164465565|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0227|TWO_SIDED|95.0|0.708|0.997|||Log Rank|Onesided p-value based on logrank test stratified by geographic region, portal vein invasion/extrahepatic spread/both AFP status,ECOG status.|Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.997|0.708|0.0227
82378484|NCT03713593|164465566|OTHER|Descriptive assessment|Difference in percentage|8.5|||||TWO_SIDED|95.0|2.8|14.2|||||Based on Miettinen \& Nurminen method stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||14.2|2.8|
82378485|NCT03713593|164465569|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.93|0.66|
82378486|NCT03713593|164465570|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.68|0.94|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.94|0.68|
82378487|NCT03713593|164465571|OTHER|Descriptive assessment|Difference in percentage|6.7|||||TWO_SIDED|95.0|0.0|13.4|||||Based on Miettinen \& Nurminen method stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||13.4|0.0|
82378488|NCT03713593|164465574|OTHER|Descriptive assessment|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.61|0.88|||||Based on Cox model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, MPVI or extrahepatic spread or both, AFP and ECOG PS.|||0.88|0.61|
82523476|NCT05878197|164742497|OTHER||Mean Difference (Final Values)|-3.9||||0.074|TWO_SIDED|95.0|-8.3|0.4||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||0.4|-8.3|0.074
82378489|NCT03620708|164465612|SUPERIORITY||chi-square|3.492|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82378490|NCT03620708|164465613|SUPERIORITY||chi-square|4.36||||0.113|TWO_SIDED||||||Chi-squared|||||||.113
82378491|NCT03620708|164465614|SUPERIORITY||Mean Difference (Final Values)|3.661||||0.032|TWO_SIDED||||||ANOVA|||||||.032
82378492|NCT03620708|164465615|SUPERIORITY||Mean Difference (Final Values)|1.543||||0.227|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of confidence in ability to quit.||||.227
82378493|NCT03620708|164465615|SUPERIORITY||Mean Difference (Final Values)|0.338||||0.715|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of self-reported importance of quitting smoking.||||.715
82378494|NCT03620708|164465615|SUPERIORITY||Mean Difference (Final Values)|1.712||||0.19|TWO_SIDED||||||ANOVA|||Examination of differences between groups at follow-up on a measure of self-reported readiness to quit smoking.||||.190
82378495|NCT03620708|164465616|SUPERIORITY||Mean Difference (Final Values)|1.728||||0.188|TWO_SIDED||||||ANOVA|||||||.188
82523477|NCT05878197|164742497|OTHER||Mean Difference (Final Values)|-1.7||||0.472|TWO_SIDED|95.0|-6.7|3.2||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||3.2|-6.7|0.472
82523478|NCT05878197|164742498|OTHER|||||||0.115||||||Linear mixed models: time-effect|Mixed Models Analysis|||||||0.115
82523479|NCT05878197|164742498|OTHER|||||||0.516||||||Linear mixed models: group-effect|Mixed Models Analysis|||||||0.516
82523480|NCT05878197|164742498|OTHER|||||||0.276||||||Linear mixed models: time\*group-effect|Mixed Models Analysis|||||||0.276
82523481|NCT05878197|164742498|OTHER||Mean Difference (Final Values)|-6.5||||0.025|TWO_SIDED|95.0|-12.2|-0.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||-0.9|-12.2|0.025
82523482|NCT05878197|164742498|OTHER||Mean Difference (Final Values)|-0.7||||0.794|TWO_SIDED|95.0|-6.4|4.9||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||4.9|-6.4|0.794
82523483|NCT05878197|164742498|OTHER||Mean Difference (Final Values)|-1.0||||0.76|TWO_SIDED|95.0|-7.7|5.7||Linear mixed models: evolution pre-post|Mixed Models Analysis|||||5.7|-7.7|0.760
82523484|NCT00990964|164742510|SUPERIORITY_OR_OTHER||One sample proportion|0.94|||||TWO_SIDED|95.0|0.929|0.951||||||||.951|.929|
82377652|NCT04700137|164462852|SUPERIORITY||Risk Difference (RD)|-0.7||||0.62|TWO_SIDED|95.0|-3.4|2.0||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Number of participants with increased illicit drug use among healthcare providers/staff randomized to CC+ vs CC||2.0|-3.4|0.62
82631335|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|1.22||||0.16|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Multilevel Models|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 6-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.16
82631336|NCT04806165|164979221|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.01||||0.99|TWO_SIDED|||||"We interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.~We defined sufficiently large main effects as those with p values ≤ .05 or with 95% confidence intervals that do not include 0."|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the interaction effects of 14-week time since engagement with the intervention and the repeated administration (RA) component on participant willingness to seek psychotherapy for concerns related to their eating, weight, and/or shape concerns. since engagement with the intervention.||||0.99
82631337|NCT04806165|164979222|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.07|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||This analysis explores the time effect of attitudinal changes over the 14 week course of the study, regardless of the combination of components participants were assigned (ie., component turned off or on). Results will help determine whether mean participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns varied based on the time elapsed since engagement with the intervention (ie., do attitudinal changes post-inntervention endure over time?).||||<.001
82631338|NCT04806165|164979222|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.026|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the motivational interviewing (MI) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.026
82639819|NCT02163759|164994494|SUPERIORITY||Difference in Remission Rates|-0.3||||1|TWO_SIDED|95.0|-9.13|8.45||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||8.45|-9.13|1
82377653|NCT04700137|164462853|SUPERIORITY||Risk Difference (RD)|-4.5||||0.41|TWO_SIDED|95.0|-15.4|6.3||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Difference in proportion of patients attending mental healthcare appointments by intervention arm at follow-up (6 months).||6.3|-15.4|0.41
82523485|NCT00990964|164742511|SUPERIORITY_OR_OTHER||One sample proportion|0.974|||||TWO_SIDED|95.0|0.965|0.98||||||||.980|.965|
82523486|NCT02472652|164742513|OTHER||change in prolactin|30.0|||||TWO_SIDED|||||||||||||
82523487|NCT02713711|164742514|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.3262|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.3262
82523488|NCT02713711|164742514|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.01|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.01
82523489|NCT02713711|164742514|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.||||||0.0646|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||0.0646
82378496|NCT05736861|164465620|SUPERIORITY|Decision rule based on Bayesian posterior probability of efficacy. The decision threshold was a posterior probability of 0.95. A prespecified skeptical prior for the treatment effect was used to preserve type I error below 0.05.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.96|1.17|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.17|0.96|
82378497|NCT05736861|164465621|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.4|2.6|||||The interval is a highest-density credible interval. Descriptive analysis is a maximum partial likelihood proportional hazards regression model. Low event rate precluded covariate adjustment.|||2.6|0.4|
82510966|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.569||0.36|TWO_SIDED|95.0|-1.65|0.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 5||0.60|-1.65|0.360
82510967|NCT02477020|164714887|SUPERIORITY_OR_OTHER||Least square mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.635||0.288|TWO_SIDED|95.0|-1.93|0.58||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS Marder five-factor score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction, and Baseline PANSS Marder five-factor score-by-week interaction.|Anxiety, Change at Week 6||0.58|-1.93|0.288
82510968|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.59||0.238|TWO_SIDED|95.0|-1.87|0.47||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 1||0.47|-1.87|0.238
82510969|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.784||0.359|TWO_SIDED|95.0|-2.27|0.83||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 2||0.83|-2.27|0.359
82510970|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.943||0.119|TWO_SIDED|95.0|-3.34|0.38||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 3||0.38|-3.34|0.119
82510971|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.014||0.238|TWO_SIDED|95.0|-3.21|0.8||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 4||0.80|-3.21|0.238
82510972|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.73|STANDARD_ERROR_OF_MEAN|1.051||0.102|TWO_SIDED|95.0|-3.81|0.35||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 5||0.35|-3.81|0.102
82510973|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.094||0.145|TWO_SIDED|95.0|-3.77|0.56||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Positive Score, Change at Week 6||0.56|-3.77|0.145
82510974|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.504||0.902|TWO_SIDED|95.0|-0.93|1.06||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 1||1.06|-0.93|0.902
82523490|NCT02713711|164742514|SUPERIORITY|ANOVA. Sample was calculated with power of 80% and alpha of 0.05.|||||<|0.001|||||||ANOVA|repeated measures ANOVA (Bonferroni post-test) for intragroup analysis||||||<0.001
82378498|NCT05736861|164465624|SUPERIORITY|Statistical analysis was a Bayesian proportional hazards regression model with covariate adjustment and weakly informative priors.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.6|1.8|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.8|0.6|
82378499|NCT05736861|164465625|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.5|1.13|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|||1.13|0.50|
82568380|NCT00843115|164846574|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82510975|NCT02477020|164714888|SUPERIORITY_OR_OTHER||MMRM|-0.59|STANDARD_ERROR_OF_MEAN|0.693||0.396|TWO_SIDED|95.0|-1.96|0.78||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 2||0.78|-1.96|0.396
82510976|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.722||0.612|TWO_SIDED|95.0|-1.79|1.06||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 3||1.06|-1.79|0.612
82568381|NCT00843115|164846575|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568382|NCT00843115|164846576|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568383|NCT00843115|164846577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate @ 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568384|NCT00843115|164846578|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568385|NCT00843115|164846579|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial test of proportions|Holms multiplicity adjustment (Stepdown Bonferroni) for statistical significance of each p-value, while controlling experiment wise error rate at 0.05||null hypothesis: the proportion of subjects who improved or stabilized, among those who had the symptom at baseline, is less than or equal to 0.5; the alternative hypothesis: this proportion is greater than 0.5||||<0.0001
82568386|NCT00843115|164846580|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||Change from baseline in total score at Week 12||||<0.0001
82568387|NCT00843115|164846581|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||Change from baseline in total score at Week 12 Last Observation Carried Forward||||<0.0001
82568388|NCT00843115|164846582|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||correlation coefficient|P value tests whether Pearson Product Correlation Coefficient is significantly different from zero||||||<0.0001
82568389|NCT00843115|164846583|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||correlation coefficient|p-value tests whether Pearson Product Correlation Coefficient is significantly different from zero||||||<0.0001
82378500|NCT05736861|164465626|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.39|1.13|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|||1.13|0.39|
82378501|NCT05736861|164465627|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.52|1.91|||||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|1.91|0.52|
82568390|NCT00843115|164846584|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
82510977|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.856||0.67|TWO_SIDED|95.0|-2.06|1.33||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 4||1.33|-2.06|0.670
82631339|NCT04806165|164979222|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.465|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the personalized recommendation (PR) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.465
82631340|NCT04806165|164979222|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.536|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large.|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the psychoeducation (PE) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.536
82631341|NCT04806165|164979222|SUPERIORITY|To improve the quality of the imputations, gender, age, and race were included as auxiliary variables. We generated ten imputed datasets with the predictive mean matching method and pooled coefficients, degrees of freedom, and standard errors with Rubin's (1987) rules. As a sensitivity analysis, we also ran the same models using full information maximum likelihood to handle missing data.|Regression (Beta) Coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.049|TWO_SIDED|||||We computed both unstandardized (B) and standardized (ß) coefficients to indicate effect sizes. As suggested by Fey et al. (2023), we interpreted absolute ß values below 0.2 as small, between 0.2 and 0.5 as medium, and greater than 0.5 as large|Linear Mixed Effects Model|The linear mixed effects models incorporated a random intercept to accommodate the correlation of repeated measures within participants.||Analyses were conducted to determine the interaction effects of time since intervention and each of the four chatbot components. This analysis explores the interaction effects of time and the repeated administration (RA) component on participant attitudes toward change for concerns related to their eating, weight, and/or shape concerns since engagement with the intervention.||||.049
82631342|NCT00416572|164979223|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||> 0.05
82631343|NCT00416572|164979223|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
82510978|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.892||0.807|TWO_SIDED|95.0|-1.98|1.55||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 5||1.55|-1.98|0.807
82510979|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.14|STANDARD_ERROR_OF_MEAN|0.853||0.182|TWO_SIDED|95.0|-2.83|0.54||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS Negative Score, Change at Week 6||0.54|-2.83|0.182
82510980|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.801||0.933|TWO_SIDED|95.0|-1.52|1.65||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 1||1.65|-1.52|0.933
82510981|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.61|STANDARD_ERROR_OF_MEAN|1.151||0.596|TWO_SIDED|95.0|-2.89|1.66||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 2||1.66|-2.89|0.596
82510982|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.31|STANDARD_ERROR_OF_MEAN|1.455||0.371|TWO_SIDED|95.0|-4.18|1.57||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 3||1.57|-4.18|0.371
82510983|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|1.625||0.821|TWO_SIDED|95.0|-3.58|2.84||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 4||2.84|-3.58|0.821
82523491|NCT02713711|164742514|SUPERIORITY|Two-way ANOVA (Bonferroni post-test) for intergroup analysis.|||||<|0.001|||||||ANOVA|||||||<0.001
82523492|NCT02713711|164742515|SUPERIORITY|paired-t test (intragroup analysis)||||||0.208|||||||t-test, 2 sided|||||||0.2080
82377654|NCT04700137|164462853|SUPERIORITY||Risk Difference (RD)|5.5||||0.31|TWO_SIDED|95.0|-5.2|16.2||p\<0.05 = a priori threshold for statistical significance|GLM|Generalized linear model (GLM) with an identity link and binomial variance||Difference in proportion of healthcare providers/staff attending mental healthcare appointments by intervention arm at follow-up (6 months).||16.2|-5.2|0.31
82377655|NCT02924727|164462893|SUPERIORITY||Hazard Ratio (HR)|0.9012||||0.1659|TWO_SIDED|95.0|0.7778|1.0441|||Cox's Proportional Hazard Model|||Primary Composite||1.0441|0.7778|0.1659
82377656|NCT02924727|164462893|SUPERIORITY||Hazard Ratio (HR)|0.874||||0.2031|TWO_SIDED|95.0|0.7104|1.0754|||Cox's Proportional Hazard Model|||CV Death||1.0754|0.7104|0.2031
82377657|NCT02924727|164462893|SUPERIORITY||Hazard Ratio (HR)|0.8653||||0.1679|TWO_SIDED|95.0|0.7044|1.0629|||Cox's Proportional Hazard Model|||First HF Hospitalization||1.0629|0.7044|0.1679
82568391|NCT00843115|164846585|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||||||<0.0001
82568392|NCT00843115|164846586|SUPERIORITY_OR_OTHER|||||||0.0713|||||||correlation coefficient|||||||0.0713
82568393|NCT00843115|164846587|SUPERIORITY_OR_OTHER|||||||0.0225|||||||Correlation coefficient|||||||0.0225
82510984|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-1.61|STANDARD_ERROR_OF_MEAN|1.621||0.323|TWO_SIDED|95.0|-4.81|1.6||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 5||1.60|-4.81|0.323
82510985|NCT02477020|164714888|SUPERIORITY_OR_OTHER||Least square mean difference|-2.44|STANDARD_ERROR_OF_MEAN|1.732||0.161|TWO_SIDED|95.0|-5.87|0.98||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. PANSS subscale score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PANSS subscale score-by-week interaction.|PANSS General Score, Change at Week 6||0.98|-5.87|0.161
82510986|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.664||||0.017|TWO_SIDED|95.0|1.263|10.624|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 1||10.624|1.263|0.017
82568394|NCT00843115|164846588|SUPERIORITY_OR_OTHER|||||||0.0152|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||0.0152
82568395|NCT00843115|164846589|SUPERIORITY_OR_OTHER|||||||0.0229|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero||||||0.0229
82568396|NCT00843115|164846590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
82568397|NCT00843115|164846591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|One sample t-test, testing whether mean change from baseline is significantly different from zero.||||||<0.0001
82568398|NCT00843115|164846592|SUPERIORITY_OR_OTHER|||||||0.7963|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12."||||||0.7963
82568399|NCT00843115|164846593|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF."||||||1.0000
82568400|NCT00843115|164846594|SUPERIORITY_OR_OTHER|||||||0.0719|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||0.0719
82568401|NCT00843115|164846595|SUPERIORITY_OR_OTHER|||||||0.1779|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF."||||||0.1779
82377658|NCT02924727|164462893|SUPERIORITY||Hazard Ratio (HR)|0.6831||||0.0667|TWO_SIDED|95.0|0.4546|1.0266|||Cox's Proportional Hazard Model|||First Outpatient HF||1.0266|0.4546|0.0667
82568402|NCT00843115|164846596|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||1.0000
82568403|NCT00843115|164846597|SUPERIORITY_OR_OTHER|||||||0.8575|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||0.8575
82568404|NCT00843115|164846598|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||1.0000
82377659|NCT02924727|164462894|SUPERIORITY||Hazard Ratio (HR)|0.9133||||0.2507|TWO_SIDED|95.0|0.7824|1.0662|||Cox's Proportional Hazard Model|||CV death or HF hospitalization||1.0662|0.7824|0.2507
82377660|NCT02924727|164462895|SUPERIORITY||Hazard Ratio (HR)|0.8422||||0.0732|TWO_SIDED|95.0|0.6979|1.0163|||Cox's Proportional Hazard Model|||HF hospitalization or Outpatient HF||1.0163|0.6979|0.0732
82568405|NCT00843115|164846599|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||1.0000
82568406|NCT00843115|164846600|SUPERIORITY_OR_OTHER|||||||0.0131|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12"||||||0.0131
82568407|NCT00843115|164846601|SUPERIORITY_OR_OTHER|||||||0.0078|||||||McNemar|"McNemar's Test for paired proportions tested the difference between the proportion of subjects with Any problem at baseline versus Week 12 LOCF"||||||0.0078
82568408|NCT00225277|164846602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.886||||0.002||95.0|-1.448|-0.325|||ANCOVA||Mean Difference = Pioglitazone - Glimepiride|2 Way analysis of covariance (ANCOVA), treatment and center effects with baseline value as covariate. Least Squares (LS) mean change and LS mean of the treatment difference reported.||-0.3250|-1.4480|0.002
82568409|NCT00225277|164846603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.048||||0.064||95.0|-8.3336|0.2374|||ANCOVA||Mean Difference = Pioglitazone - Glimepiride|2 Way ANCOVA, treatment and center effects with baseline value as covariate. LS mean of the treatment difference reported.||0.2374|-8.3336|0.064
82568410|NCT00225277|164846604|SUPERIORITY_OR_OTHER|||||||0.744||||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.744
82510987|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.782||||0.009|TWO_SIDED|95.0|1.287|6.014|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 2||6.014|1.287|0.009
82510988|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.818||||0.108|TWO_SIDED|95.0|0.877|3.771|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 3||3.771|0.877|0.108
82510989|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.222||||0.596|TWO_SIDED|95.0|0.583|2.561|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 4||2.561|0.583|0.596
82510990|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.542||||0.263|TWO_SIDED|95.0|0.722|3.292|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 5||3.292|0.722|0.263
82523493|NCT02713711|164742515|SUPERIORITY|paired-t test (intragroup analysis)||||||0.0136|||||||t-test, 2 sided|||||||0.0136
82510991|NCT02477020|164714889|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.253||95.0|0.725|3.388|||Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline PANSS total score.|Week 6||3.388|0.725|0.253
82510992|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.095||0.619|TWO_SIDED|95.0|-0.23|0.14||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 1||0.14|-0.23|0.619
82510993|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.136||0.116|TWO_SIDED|95.0|-0.48|0.05||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 2||0.05|-0.48|0.116
82510994|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.166||0.009|TWO_SIDED|95.0|-0.77|-0.11||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 3||-0.11|-0.77|0.009
82510995|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.049|TWO_SIDED|95.0|-0.72|0.0||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 4||0.00|-0.72|0.049
82510996|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.191||0.016|TWO_SIDED|95.0|-0.85|-0.09||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 5||-0.09|-0.85|0.016
82510997|NCT02477020|164714890|SUPERIORITY_OR_OTHER||Least square mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.202||0.035||95.0|-0.83|-0.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Change at Week 6||-0.03|-0.83|0.035
82510998|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least square mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.128||0.746|TWO_SIDED|95.0|-0.29|0.21||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 1||0.21|-0.29|0.746
82510999|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least mean square difference|-0.37|STANDARD_ERROR_OF_MEAN|0.173||0.034|TWO_SIDED|95.0|-0.72|-0.03||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 2||-0.03|-0.72|0.034
82511000|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least square mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.203||0.006|TWO_SIDED|95.0|-0.97|-0.17||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 3||-0.17|-0.97|0.006
82511001|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.22||0.013|TWO_SIDED|95.0|-0.99|-0.12||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 4||-0.12|-0.99|0.013
82511002|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least mean square difference|-0.56|STANDARD_ERROR_OF_MEAN|0.238||0.02|TWO_SIDED|95.0|-1.03|-0.09||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 5||-0.09|-1.03|0.020
82511003|NCT02477020|164714891|SUPERIORITY_OR_OTHER||Least square mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.244||0.007|TWO_SIDED|95.0|-1.15|-0.18||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline CGI-S score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline CGI-S score-by-week interaction.|Week 6||-0.18|-1.15|0.007
82511004|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.726||||0.077|TWO_SIDED|95.0|0.899|8.267||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 1||8.267|0.899|0.077
82511005|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.331||||0.036|TWO_SIDED|95.0|1.055|5.153||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 2||5.153|1.055|0.036
82511006|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69||||0.015|TWO_SIDED|95.0|1.208|5.99||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 3||5.990|1.208|0.015
82511007|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.737||||0.158|TWO_SIDED|95.0|0.807|3.735||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 4||3.735|0.807|0.158
82631344|NCT00416572|164979223|SUPERIORITY_OR_OTHER||standardized beta|-0.12|||=|0.08|TWO_SIDED||||||Regression, Linear|||Comparison between education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.08
82631345|NCT00416572|164979223|SUPERIORITY_OR_OTHER||standardized beta|-0.23|||<|0.001|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||<0.001
82631346|NCT00416572|164979224|SUPERIORITY_OR_OTHER||||||>|0.5|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.50
82523494|NCT02713711|164742515|SUPERIORITY|paired-t test (intragroup analysis)||||||0.2987|||||||t-test, 2 sided|||||||0.2987
82523495|NCT02713711|164742515|SUPERIORITY|paired-t test (intragroup analysis)||||||0.8347|||||||t-test, 2 sided|||||||0.8347
82523496|NCT02713711|164742515|SUPERIORITY|two-way ANOVA with Bonferroni post hoc test (intergroup analysis)||||||0.0001|||||||ANOVA|||||||0.0001
82523497|NCT00998400|164742519|SUPERIORITY|||||||0.03|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||0.030
82523498|NCT00998400|164742520|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82631347|NCT00416572|164979224|SUPERIORITY_OR_OTHER||Standardized beta|0.14|||=|0.04|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.04
82631348|NCT00416572|164979224|SUPERIORITY_OR_OTHER||Standardized beta|0.25|||<|0.001|TWO_SIDED||||||Regression, Linear|||Comparison between the education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||<0.001
82631349|NCT00416572|164979224|SUPERIORITY_OR_OTHER||Standardized beta|0.15|||=|0.02|TWO_SIDED||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||=0.02
82631350|NCT00416572|164979225|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome||||>.05
82631351|NCT00416572|164979225|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at 4 months post-intervention. The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
82631352|NCT00416572|164979225|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
82631353|NCT00416572|164979225|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Regression, Linear|||Comparison between nutrition education intervention and the control condition at final follow-up (13 months post-intervention). The full regression model contained 2 dummy-coded variables (education intervention vs. control condition and nutrition education intervention vs. control condition), and the baseline measure of the outcome.||||>0.05
82631354|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.005||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.005
82631355|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.001||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.001
82631356|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.004||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.004
82631357|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.672||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.672
82631358|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.011||||||A/Victoria/361/2011(H3N2)|t-test, 2 sided|||||||.011
82631359|NCT01654224|164979226|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.01||||||B/Texas/6/2011|t-test, 2 sided|||||||.010
82511008|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.739||||0.164|TWO_SIDED|95.0|0.798|3.789||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 5||3.789|0.798|0.164
82511009|NCT02477020|164714892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44||||0.003|TWO_SIDED|95.0|1.523|7.77||No multiplicity adjustment.|Regression, Logistic||TAK-063 versus Placebo. The p-values were obtained using a logistic regression model adjusting for treatment and the Baseline CGI-S score.|Week 6||7.770|1.523|0.003
82511010|NCT02477020|164714893|SUPERIORITY_OR_OTHER||Least square mean difference|1.8|STANDARD_ERROR_OF_MEAN|1.547||0.246|TWO_SIDED|95.0|-1.26|4.86||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BACS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction.|Change at Week 3||4.86|-1.26|0.246
82511011|NCT02477020|164714893|SUPERIORITY_OR_OTHER||Least square mean difference|2.2|STANDARD_ERROR_OF_MEAN|1.767||0.216|TWO_SIDED|95.0|-1.3|5.69||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|Least square mean difference||TAK-063 - Placebo. Baseline BACS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction|Change at Week 6||5.69|-1.30|0.216
82511012|NCT02477020|164714894|SUPERIORITY_OR_OTHER||Least mean square difference|-0.38|STANDARD_ERROR_OF_MEAN|1.664||0.82|TWO_SIDED|95.0|-3.67|2.91||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BNSS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BNSS total score-by-week interaction.|Change at Week 3||2.91|-3.67|0.820
82523499|NCT00998400|164742521|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82523500|NCT00998400|164742522|SUPERIORITY||||||>|0.05|||||||Kaplan-Meier Survival analysis|||||||>0.05
82523501|NCT00998400|164742523|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82511013|NCT02477020|164714894|SUPERIORITY_OR_OTHER||Least square mean difference|-2.87|STANDARD_ERROR_OF_MEAN|2.05||0.163|TWO_SIDED|95.0|-6.93|1.18||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline BNSS total score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline BACS total score-by-week interaction.|Change at Week 6||1.18|-6.93|0.163
82511014|NCT02477020|164714895|SUPERIORITY_OR_OTHER||Least square mean difference|2.69|STANDARD_ERROR_OF_MEAN|1.769||0.131|TWO_SIDED|95.0|-0.81|6.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PSP score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PSP score-by-week interaction.|Change at Week 3||6.19|-0.81|0.131
82377661|NCT02924727|164462896|SUPERIORITY||Hazard Ratio (HR)|0.9007||||0.1785|TWO_SIDED|95.0|0.7734|1.0489|||Cox's Proportional Hazard Model|||CV death, Non-fatal spontaneous MI or Non-fatal stroke||1.0489|0.7734|0.1785
82631360|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.074||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.074
82511015|NCT02477020|164714895|SUPERIORITY_OR_OTHER||Least square mean difference|2.62|STANDARD_ERROR_OF_MEAN|2.313||0.26|TWO_SIDED|95.0|-1.96|7.19||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline PSP score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline PSP score-by-week interaction.|Change at Week 6||7.19|-1.96|0.260
82631361|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.006||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.006
82631362|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.069||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.069
82631363|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.663||||||A/California/07/2009(H3N2)|t-test, 2 sided|||||||.663
82631364|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.003||||||A/Victoria/361/2011(H3N2)|t-test, 2 sided|||||||.003
82631365|NCT01654224|164979227|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.063||||||B/Texas/6/2011|t-test, 2 sided|||||||.063
82631366|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.917||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.917
82631367|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.36||||||A/Victoria/210/2009(H3N2)|t-test, 2 sided|||||||.360
82631368|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.248||||||B/Brisbane/60/2008|t-test, 2 sided|||||||.248
82631369|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.178||||||A/California/07/2009(H1N1)|t-test, 2 sided|||||||.178
82631370|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.152||||||A/Victoria/361/2011(H1N2)|t-test, 2 sided|||||||.152
82377662|NCT02924727|164462897|SUPERIORITY||Rate Ratio|0.8361||||0.0452|TWO_SIDED|95.0|0.7018|0.9961|||Negative Binomial regression model|||Total Number of Confirmed Composite Endpoints||0.9961|0.7018|0.0452
82511016|NCT02477020|164714896|SUPERIORITY_OR_OTHER||Least square mean difference|0.06|STANDARD_ERROR_OF_MEAN|1.855||0.973|TWO_SIDED|95.0|-3.61|3.73||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline UPSA-B composite score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline UPSA-B composite score-by-week interaction.|Change at Week 3||3.73|-3.61|0.973
82523502|NCT00998400|164742524|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82631371|NCT01654224|164979228|NON_INFERIORITY_OR_EQUIVALENCE|An upper bound \>0.67 of the 2-sided 95% CI of the ratio of postvaccination GMTHD to GMTSD indicated noninferiority. A lower bound of ≥1.0 of the 2-sided 95% CI of the ratio of GMTHD to GMTSD indicated superiority.||||||0.285||||||B/Texas/6/2011|t-test, 2 sided|||||||.285
82631372|NCT02145429|164979230|OTHER||Hazard Ratio (HR)|0.32||||0.04|TWO_SIDED|95.0|0.1|0.98|||Log Rank|||||0.98|0.10|0.04
82631373|NCT02145429|164979231|OTHER||Mean Difference (Final Values)|-1.18|||<|0.001|TWO_SIDED|95.0|-2.03|-0.31|||Mixed Models Analysis|||||-0.31|-2.03|<0.001
82631374|NCT02145429|164979232|OTHER||Mean Difference (Final Values)|-0.14||||0.26|TWO_SIDED|95.0|-1.89|1.62|||Mixed Models Analysis|||||1.62|-1.89|0.26
82631375|NCT02200510|164979233|EQUIVALENCE|Because this was a pilot study, the goal was to detect effects sizes for a larger R01 or R21.|Mean Difference (Final Values)|0.33||||0.575|TWO_SIDED||||||ANOVA|||||||0.575
82631376|NCT02200510|164979233|EQUIVALENCE|Because this was a pilot study, the goal was to detect effects sizes for a larger R01 or R21.|Mean Difference (Final Values)|0.138||||0.721|TWO_SIDED||||||ANOVA|||||||0.721
82377663|NCT02924727|164462898|SUPERIORITY||Hazard Ratio (HR)|0.8751||||0.1556|TWO_SIDED|95.0|0.7279|1.052|||Cox's Proportional Hazard Model|||All-Cause Death||1.0520|0.7279|0.1556
82568411|NCT00225277|164846605|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.883
82568412|NCT00225277|164846606|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||Kaplan-Meier methodology was used to estimate the time to event for each composite endpoint. The p-value was based on a log-rank test.|Log Rank|||||||0.663
82631377|NCT03345849|164979234|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and European Union/European Medicines Agency regulatory purposes.|Adjusted Response Rate Difference|20.8|||<|0.0001|TWO_SIDED|95.0|12.7|28.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|Comparison of the upadacitinib group and placebo group was performed using the Cochran Mantel-Haenszel (CMH) test adjusting for stratification factors (baseline steroid use \[Yes, No\], endoscopic disease severity \[SES-CD \< 15, ≥ 15\] and number of prior biologics with prior inadequate response or intolerance \[0, 1, \> 1\]).||28.8|12.7|<0.0001
82631378|NCT03345849|164979235|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|28.7|||<|0.0001|TWO_SIDED|95.0|20.9|36.4|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||36.4|20.9|<0.0001
82631379|NCT03345849|164979236|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|33.0|||<|0.0001|TWO_SIDED|95.0|26.2|39.9|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||39.9|26.2|<0.0001
82631380|NCT03345849|164979237|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|21.8|||<|0.0001|TWO_SIDED|95.0|15.8|27.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||27.8|15.8|<0.0001
82631381|NCT03345849|164979238|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for US/FDA regulatory purposes.|Adjusted Response Rate Difference|27.7|||<|0.0001|TWO_SIDED|95.0|15.7|39.8|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors endoscopic disease severity and number of prior failed biologic therapies.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors endoscopic disease severity and number of prior biologic failed.|||39.8|15.7|<0.0001
82631382|NCT03345849|164979239|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Least Squares (LS) Mean Difference|6.3|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|4.2|8.3|||Mixed-effect Model Repeated Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, stratification factors, and Baseline value as covariate.||||8.3|4.2|<0.0001
82568413|NCT02959177|164846623|SUPERIORITY||LSMean Difference|-3.01|||<|0.001|TWO_SIDED|95.0|-3.8|-2.22|||Mixed Models Analysis|||||-2.22|-3.80|<0.001
82568414|NCT02959177|164846623|SUPERIORITY||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED|95.0|-3.53|-1.94|||Mixed Models Analysis|||||-1.94|-3.53|<0.001
82568415|NCT02959177|164846624|SUPERIORITY||Odds Ratio (OR)|3.89|||||TWO_SIDED|95.0|2.71|5.57||||||||5.57|2.71|
82511017|NCT02477020|164714896|SUPERIORITY_OR_OTHER||Least mean square difference|-0.54|STANDARD_ERROR_OF_MEAN|2.255||0.812|TWO_SIDED|95.0|-5.0|3.92||No adjustment for multiple comparisons. Least square means, differences and p-values were obtained using a MMRM.|MMRM||TAK-063 - Placebo. Baseline UPSA-B composite score was used as a covariate, pooled center, week and treatment as fixed factors, the treatment-by-week interaction and Baseline UPSA-B composite score-by-week interaction.|Change at Week 6||3.92|-5.00|0.812
82511018|NCT01993108|164714897|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||.02
82511019|NCT01993108|164714897|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.118|TWO_SIDED||||||t-test, 2 sided|||||||.118
82511020|NCT01993108|164714897|SUPERIORITY||Median Difference (Final Values)|0.02||||0.349|TWO_SIDED||||||t-test, 2 sided|||||||.349
82511021|NCT01993108|164714897|SUPERIORITY||Median Difference (Final Values)|0.02||||0.348|TWO_SIDED||||||t-test, 2 sided|||||||.348
82511022|NCT01993108|164714898|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.019|TWO_SIDED||||||t-test, 2 sided|||||||.019
82631383|NCT03345849|164979240|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|LS Mean Difference|21.842|STANDARD_ERROR_OF_MEAN|3.1933|<|0.0001|TWO_SIDED|95.0|15.566|28.118|||Mixed-effect Model Repeated Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, stratification factors, and Baseline value as covariate.||||28.118|15.566|<0.0001
82631384|NCT03345849|164979241|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|11.7||||0.0022|TWO_SIDED|95.0|4.2|19.2|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||19.2|4.2|0.0022
82631385|NCT03345849|164979242|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|19.8|||<|0.0001|TWO_SIDED|95.0|11.3|28.4|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||28.4|11.3|<0.0001
82631386|NCT03345849|164979243|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for US/FDA regulatory purposes.|Adjusted Response Rate Difference|10.8||||0.0071|TWO_SIDED|95.0|2.9|18.6|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||18.6|2.9|0.0071
82631387|NCT03345849|164979244|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Response Rate Difference|-1.4||||0.4494|TWO_SIDED|95.0|-5.2|2.4|||Chi-squared||Response rate difference = Upadacitinib - Placebo|||2.4|-5.2|0.4494
82631388|NCT03345849|164979245|OTHER|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints, defined separately for US/FDA and EU/EMA regulatory purposes.|Adjusted Response Rate Difference|9.0||||0.1044|TWO_SIDED|95.0|-1.9|19.9|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||19.9|-1.9|0.1044
82631389|NCT03345849|164979246|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Adjusted Response Rate Difference|21.2|||<|0.0001|TWO_SIDED|95.0|14.3|28.2|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||28.2|14.3|<0.0001
82631390|NCT03345849|164979247|SUPERIORITY|The overall type I error rate of the co-primary and ranked secondary endpoints were strongly controlled using a fixed sequence multiple-testing procedure as well as a Holm procedure. The testing utilized the sequence of hypothesis testing for the co-primary endpoints using two-sided α of 0.05 followed by a set of ranked key secondary endpoints. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Adjusted Response Rate Difference|32.6|||<|0.0001|TWO_SIDED|95.0|21.5|43.7|||Cochran-Mantel-Haenszel|Cochran Mantel-Haenszel test adjusted for stratification factors.|Adjusted response rate difference (Upadacitinib - Placebo) calculated based on CMH test adjusted for stratification factors.|||43.7|21.5|<0.0001
82631391|NCT02943577|164979248|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.2398|TWO_SIDED|95.0|-2.7|0.68|||Mixed Model Repeated Measures (MMRM)|||||0.68|-2.70|0.2398
82631392|NCT02943577|164979249|SUPERIORITY||Least Squares Mean Difference|0.4||||0.5522|TWO_SIDED|95.0|-0.95|1.77|||Mixed Model Repeated Measures (MMRM)|||||1.77|-0.95|0.5522
82631393|NCT02943577|164979250|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9901|TWO_SIDED|95.0|-2.01|1.99|||Mixed Model Repeated Measures (MMRM)|||||1.99|-2.01|0.9901
82631394|NCT02943577|164979251|SUPERIORITY||Least Squares Mean Difference|0.5||||0.5563|TWO_SIDED|95.0|-1.17|2.17|||Mixed Model Repeated Measures (MMRM)|||||2.17|-1.17|0.5563
82631395|NCT01355224|164979252|SUPERIORITY_OR_OTHER|||||||0.015|||||||Regression, Linear|Adjusted for age, gender, BMI, baseline intention.||||||.0150
82631396|NCT01355224|164979253|SUPERIORITY_OR_OTHER|||||||0.0365|||||||Regression, Linear|Adjusted for age, gender, BMI, and baseline intent.||||||0.0365
82631397|NCT01355224|164979254|SUPERIORITY_OR_OTHER|||||||0.0622|||||||Regression, Linear|Adjusted for age, gender, BMI, and baseline intent.||||||0.0622
82568416|NCT02959177|164846624|SUPERIORITY||Odds Ratio (OR)|3.664|||||TWO_SIDED|95.0|2.54|5.23||||||||5.23|2.54|
82511023|NCT01993108|164714898|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.24|TWO_SIDED||||||t-test, 2 sided|||||||.240
82511024|NCT01993108|164714898|SUPERIORITY||Median Difference (Final Values)|0.06||||0.081|TWO_SIDED||||||t-test, 2 sided|||||||.081
82511025|NCT01993108|164714898|SUPERIORITY||Median Difference (Final Values)|0.04||||0.247|TWO_SIDED||||||t-test, 2 sided|||||||.247
82511026|NCT01993108|164714899|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.049|TWO_SIDED||||||t-test, 2 sided|||||||.049
82377664|NCT00174954|164462925|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||The a priori threshold for statistical significance was 0.05.|paired t-test|||||||0.785
82511027|NCT01993108|164714899|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.497|TWO_SIDED||||||t-test, 2 sided|||||||.497
82568417|NCT02959177|164846625|SUPERIORITY||Odds Ratio (OR)|3.24|||||TWO_SIDED|95.0|2.14|4.89||||||||4.89|2.14|
82631398|NCT03502941|164979263|SUPERIORITY||||||<|0.05||||||P value was calculated.|t-test, 2 sided|||||||<0.05
82631399|NCT03502941|164979264|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82631400|NCT02274311|164979265|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Measures of central tendency (mean) and variability (range and/or SD) were used to describe numeric variables. Paired Student's t test was used to verify the mean differences between dependent normally distributed variables. Wilcoxon sign test was performed to non-normally distributed dependent variables.~Asignificance level of 5%was adopted for all statistical tests (P \<.05)."||||< 0.05
82631401|NCT05564039|164979290|SUPERIORITY||LS Mean difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.69|||Mixed Models Analysis|||||-0.69|-1.10|<0.0001
82631402|NCT05564039|164979291|SUPERIORITY||LS Mean difference (Final Values)|-7.4|||<|0.0001|TWO_SIDED|95.0|-8.7|-6.0|||Mixed Models Analysis|||||-6.0|-8.7|<.0001
82377665|NCT00174954|164462926|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||The a priori threshold for statistical significance is 0.05.|paired t-test|||||||0.020
82631403|NCT05564039|164979292|SUPERIORITY||Odds Ratio (OR)|7.13|||<|0.0001|TWO_SIDED|95.0|3.82|13.32|||Regression, Logistic|||||13.32|3.82|<0.0001
82631404|NCT05564039|164979293|SUPERIORITY||Odds Ratio (OR)|12.24|||<|0.0001|TWO_SIDED|95.0|6.51|23.02|||Regression, Logistic|||||23.02|6.51|<0.0001
82631405|NCT05564039|164979294|SUPERIORITY||Odds Ratio (OR)|15.34|||<|0.0001|TWO_SIDED|95.0|4.58|51.36|||Regression, Logistic|||||51.36|4.58|<0.0001
82631406|NCT05564039|164979295|SUPERIORITY||Odds Ratio (OR)|9.31|||<|0.0001|TWO_SIDED|95.0|5.11|16.98|||Regression, Logistic|||||16.98|5.11|<0.0001
82631407|NCT05564039|164979296|SUPERIORITY||Odds Ratio (OR)|19.35|||<|0.0001|TWO_SIDED|95.0|9.07|41.3|||Regression, Logistic|||||41.30|9.07|<0.0001
82631408|NCT05564039|164979297|SUPERIORITY||Odds Ratio (OR)|35.83|||<|0.0001|TWO_SIDED|95.0|7.18|178.89|||Regression, Logistic|||||178.89|7.18|<0.0001
82631409|NCT05564039|164979298|SUPERIORITY||Odds Ratio (OR)|20.44|||<|0.0001|TWO_SIDED|95.0|8.4|49.77|||Regression, Logistic|||||49.77|8.40|<0.0001
82631410|NCT05564039|164979299|SUPERIORITY||LS Mean difference (Final Values)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.32|-0.49|||ANCOVA|||||-0.49|-1.32|<0.001
82631411|NCT05564039|164979300|SUPERIORITY||LS Mean difference (Final Values)|-5.1||||0.0002|TWO_SIDED|95.0|-7.8|-2.5|||Mixed Models Analysis|||||-2.5|-7.8|0.0002
82631412|NCT05564039|164979301|SUPERIORITY||LS Mean difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.1|-2.1|||Mixed Models Analysis|||||-2.1|-3.1|<0.0001
82631413|NCT05564039|164979302|SUPERIORITY||LS Mean difference (Final Values)|4.1||||0.1181|TWO_SIDED|95.0|-1.0|9.2|||ANCOVA|||||9.2|-1.0|0.1181
82631414|NCT04453722|164979335|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-0.1||||0.12|TWO_SIDED|95.0|-0.4|0.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital TWA SpO2 \<90% (%)||0|-0.4|0.120
82631415|NCT04453722|164979335|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test|Median Difference (Final Values)|-407.0||||0.349|TWO_SIDED|95.0|-1816.0|208.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital AUC SpO2 \<90% (% \* min)||208|-1816|0.349
82631416|NCT04453722|164979335|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.2|0.0|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge TWA SpO2 \<90% (%)||0|-0.2|0.307
82631417|NCT04453722|164979335|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-35.0||||0.431|TWO_SIDED|95.0|-195.0|67.0|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge AUC SpO2 \<90% (% \* min)||67|-195|0.431
82511028|NCT01993108|164714899|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.814|TWO_SIDED||||||t-test, 2 sided|||||||.814
82511029|NCT01993108|164714899|SUPERIORITY||Mean Difference (Net)|0.01||||0.593|TWO_SIDED||||||t-test, 2 sided|||||||.593
82511030|NCT01993108|164714900|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.926|TWO_SIDED||||||t-test, 2 sided|||||||.926
82511031|NCT01993108|164714900|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.126|TWO_SIDED||||||t-test, 2 sided|||||||.126
82511032|NCT01993108|164714900|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.852|TWO_SIDED||||||t-test, 2 sided|||||||.852
82511033|NCT01993108|164714900|SUPERIORITY||Median Difference (Final Values)|0.11||||0.552|TWO_SIDED||||||t-test, 2 sided|||||||.552
82523503|NCT00998400|164742525|SUPERIORITY|||||||0.013|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||0.013
82631418|NCT04453722|164979336|SUPERIORITY||Risk Ratio (RR)|0.96|||>|0.99|TWO_SIDED|95.0|0.22|4.27|||Fisher Exact|||variable: In hospital Any event, N (%)c||4.27|0.22|>0.99
82631419|NCT04453722|164979336|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.35|2.9|||Chi-squared|||variable: Post-discharge Any event, N (%)||2.90|0.35|>0.99
82631420|NCT04453722|164979337|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-6.0||||0.354|TWO_SIDED|95.0|-26.0|4.0|||Wilcoxon (Mann-Whitney)|||variable: In hospital Number||4.0|-26.0|0.354
82523504|NCT00998400|164742526|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82568418|NCT02959177|164846625|SUPERIORITY||Odds Ratio (OR)|3.16|||||TWO_SIDED|95.0|2.08|4.8||||||||4.80|2.08|
82631421|NCT04453722|164979337|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-46.1||||0.133|TWO_SIDED|95.0|-274.0|5.1|||Wilcoxon (Mann-Whitney)|||variable: In hospital Total duration (min)||5.1|-274|0.133
82631422|NCT04453722|164979337|SUPERIORITY||Median Difference (Final Values)|-24.1||||0.075|TWO_SIDED|95.0|-213.0|0.1|||Wilcoxon (Mann-Whitney)|||variable: In hospital Duration \>2 min (min)||0.1|-213|0.075
82631423|NCT04453722|164979337|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.009|TWO_SIDED|95.0|-4.5|-0.4|||Wilcoxon (Mann-Whitney)|||variable: In hospital Mean duration-all patients (min)||-0.4|-4.5|0.009
82631424|NCT04453722|164979337|SUPERIORITY||Median Difference (Final Values)|-2.2||||0.001|TWO_SIDED|95.0|-4.7|-0.7|||Wilcoxon (Mann-Whitney)|||variable: in hospital mean duration for events in those with any events (min)||-0.7|-4.7|0.001
82631425|NCT04453722|164979337|SUPERIORITY||Median Difference (Final Values)|0.0||||0.584|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: post-discharge number||1.0|-4.0|0.584
82631426|NCT04453722|164979337|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and p-values from Wilcoxon rank sum test.|Median Difference (Final Values)|-1.3||||0.556|TWO_SIDED|95.0|-18.6|3.3|||Wilcoxon (Mann-Whitney)|||variable: Post-discharge duration (min)||3.3|-18.6|0.556
82631427|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.096|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing daily life except sleep (at the day of discharge)||2.0|0.0|0.096
82631428|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.205|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing sleep (at the day of discharge)||2.0|0.0|0.205
82631429|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.839|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: comfortable to wear (at the day of discharge)||0.0|-1.0|0.839
82631430|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.621|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert (at the day of discharge)||0.0|0.0|0.621
82631431|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.898|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to tactile alert||1.0|-1.0|0.898
82631432|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.654|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: easily cleaned/disinfected (at the day of discharge)||0.0|0.0|0.654
82631433|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.929|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: adequate battery life (at the day of discharge)||1.0|-1.0|0.929
82631434|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.2|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Satisfy with the electrode patch (at the day of discharge)||0.0|-1.0|0.200
82568419|NCT02959177|164846626|SUPERIORITY||Odds Ratio (OR)|3.47|||||TWO_SIDED|95.0|2.03|5.93||||||||5.93|2.03|
82568420|NCT02959177|164846626|SUPERIORITY||Odds Ratio (OR)|3.13|||||TWO_SIDED|95.0|1.79|5.44||||||||5.44|1.79|
82511034|NCT02566759|164714978|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.6662|||||TWO_SIDED|90.0|0.5969|0.7355||||||Dose proportionality was evaluated using the following power model: ln (PK Parameter) is equal to (=) a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 percent (%) confidence interval (CI) of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.7355|0.5969|
82511035|NCT02566759|164714978|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.7795|||||TWO_SIDED|90.0|0.6597|0.8993|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||0.8993|0.6597|
82511036|NCT02566759|164714978|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Ratio|0.362|||||TWO_SIDED|90.0|0.3043|0.4301||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed lease square (LS) Means.||0.4301|0.3043|
82511037|NCT02566759|164714978|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|1.799|||||TWO_SIDED|90.0|1.4625|2.2116||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||2.2116|1.4625|
82511038|NCT02566759|164714981|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.872|||||TWO_SIDED|90.0|0.8145|0.9296||||||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 % CI of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.9296|0.8145|
82511039|NCT02566759|164714981|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.9135|||||TWO_SIDED|90.0|0.8062|1.0209|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||1.0209|0.8062|
82511040|NCT02566759|164714981|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|0.5|||||TWO_SIDED|90.0|0.4324|0.5777||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||0.5777|0.4324|
82511041|NCT02566759|164714981|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|2.563|||||TWO_SIDED|90.0|2.1|3.1275||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||3.1275|2.1000|
82511042|NCT02566759|164714982|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.8505|||<|0.001|TWO_SIDED|90.0|0.7925|0.9084|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b are the intercept and slope of the line, respectively. Dose proportionality was declared when the 90 % CI of the slope lies entirely within the critical region (0.9483, 1.0517) for the dose range of 10 mg to 750 mg.||0.9084|0.7925|<0.001
82511043|NCT02566759|164714982|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.8415|||<|0.001|TWO_SIDED|90.0|0.7618|0.9212|||Power model|||Dose proportionality was evaluated using the following power model: ln (PK Parameter) = a+b\*ln (dose), where a and b were the intercept and slope of the line, respectively. Dose proportionality was declared when the 90% CI of the slope lies entirely within the critical region (0.9139, 1.0861) for the dose range of 30 mg to 400 mg.||0.9212|0.7618|<0.001
82511044|NCT02566759|164714982|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|0.543|||||TWO_SIDED|90.0|0.4797|0.6149||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||0.6149|0.4797|
82378502|NCT05736861|164465628|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.82|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.25|0.82|
82568421|NCT02959177|164846627|SUPERIORITY||LSMean difference|7.0|||<|0.001|TWO_SIDED|95.0|4.54|9.46|||Mixed Models Analysis|||||9.46|4.54|<0.001
82377666|NCT00993421|164462927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
82377667|NCT00993421|164462927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
82568422|NCT02959177|164846627|SUPERIORITY||Mean Difference (Final Values)|5.79|||<|0.01|TWO_SIDED|95.0|3.33|8.24|||Mixed Models Analysis|||||8.24|3.33|<0.01
82377668|NCT00993421|164462927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
82568423|NCT02959177|164846628|SUPERIORITY||LSMean difference|-2.9|||<|0.001|TWO_SIDED|95.0|-3.61|-2.19|||Mixed Models Analysis|||||-2.19|-3.61|<0.001
82631435|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.987|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study (at the day of discharge)||0.0|0.0|0.987
82631436|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.581|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Disturb IV line (at the day of discharge)||0.0|-1.0|0.581
82631437|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.18|TWO_SIDED|95.0|0.0|3.0|||Wilcoxon (Mann-Whitney)|||variable: Degree of disturbing daily life except sleep (after 24 hours of discharge)||3.0|0.0|0.180
82631438|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|1.0||||0.171|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||variable: degree of distributing sleep (after 24 hours of discharge)||2.0|0.0|0.171
82631439|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.074|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert (after 24 hours of discharge)||0.0|-1.0|0.074
82631440|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.414|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to tactile alert (after 24 hours of discharge)||1.0|-2.0|0.414
82631441|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.506|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Easily cleaned/disinfected (after 24 hours of discharge)||0.0|0.0|0.506
82631442|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.747|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Adequate battery life (after 24 hours of discharge)||0.0|-1.0|0.747
82377669|NCT00993421|164462927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||<0.001
82377670|NCT00993421|164462927|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.041
82377671|NCT00993421|164462927|SUPERIORITY_OR_OTHER|||||||0.668||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.668
82511045|NCT02566759|164714982|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Ratio|2.336|||||TWO_SIDED|90.0|1.9592|2.7854||||||The point estimate and CI were obtained by taking the antilog of the difference in the log transformed LS Means.||2.7854|1.9592|
82523505|NCT00998400|164742527|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82631443|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|-1.0||||0.023|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: satisfy with the electrode patch (after 24 hours of discharge)||0.0|-2.0|0.023
82631444|NCT04453722|164979340|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test|Median Difference (Final Values)|0.0||||0.023|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study (after 24 hours of discharge)||0.0|-1.0|0.023
82631445|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.73|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Degree of disturbing routine work||0.0|-1.0|0.73
82511046|NCT05107128|164714984|SUPERIORITY||Difference in Least Square (LS) Means|-1.1|STANDARD_ERROR_OF_MEAN|0.81||0.1675|TWO_SIDED|95.0|-2.7|0.5||The p-value was obtained from Mixed Model for Repeated Measures (MMRM) model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and SDMT score at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.5|-2.7|0.1675
82511047|NCT05107128|164714985|SUPERIORITY||Difference in LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.9||0.4872|TWO_SIDED|95.0|-2.4|1.1||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and UHDRS - Independence Scale at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||1.1|-2.4|0.4872
82377672|NCT00993421|164462927|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.437
82511048|NCT05107128|164714986|SUPERIORITY||Difference in LS Means|-5.0|STANDARD_ERROR_OF_MEAN|6.04||0.4089|TWO_SIDED|95.0|-17.0|6.9||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and SDMT score at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||6.9|-17.0|0.4089
82511049|NCT05107128|164714987|SUPERIORITY||Difference in LS Means|0.7|STANDARD_ERROR_OF_MEAN|1.26||0.5766|TWO_SIDED|95.0|-1.78|3.19||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and a baseline value as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||3.19|-1.78|0.5766
82511050|NCT05107128|164714988|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.64||0.1777|TWO_SIDED|95.0|-2.13|0.39||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and baseline value as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.39|-2.13|0.1777
82511051|NCT05107128|164714989|SUPERIORITY||Difference in LS Means|3.9|STANDARD_ERROR_OF_MEAN|1.76||0.0291|TWO_SIDED|95.0|0.4|7.3||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and Hi-DEF at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||7.3|0.4|0.0291
82511052|NCT05107128|164714990|SUPERIORITY||Difference in LS Means|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2923|TWO_SIDED|95.0|-0.3|0.1||The p-value was obtained from MMRM model which includes treatment, visit, treatment-by-visit interaction as categorical covariates, and CGI at baseline as a continuous covariate.|MMRM||Difference was calculated as SAGE-718 - placebo.|||0.1|-0.3|0.2923
82511053|NCT05459129|164714996|SUPERIORITY||Difference in pCR Rates|33.33|||||TWO_SIDED|95.0|-33.23|99.9||||||||99.90|-33.23|
82511054|NCT05459129|164714997|SUPERIORITY||Difference in pRR|33.33|||||TWO_SIDED|95.0|-21.05|87.72||||||||87.72|-21.05|
82511055|NCT05459129|164714998|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.11|3.91|||||HR was estimated by Cox regression. Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made in terms of median EFS per arm or HR between the arms.|||3.91|0.11|
82523506|NCT00998400|164742528|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82523507|NCT00998400|164742529|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82523508|NCT00998400|164742530|SUPERIORITY||||||>|0.05|||||||Repeated Measures ANOVA|All analyses were performed by using intention-to-treat (ITT) analysis, where missing values were managed by means of multiple imputations procedure.||||||>0.05
82631446|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.097|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||Easily cleaned/disinfected||1.0|0.0|0.097
82631447|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|1.0||||0.02|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Adequate battery life||1.0|0.0|0.02
82631448|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.037|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Satisfy with the electrode patch||1.0|0.0|0.037
82631449|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.482|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Tolerable to audible alert||1.0|-2.0|0.482
82631450|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.031|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||variable: Willing to use after study||1.0|0.0|0.031
82631451|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.947|TWO_SIDED|95.0|0.0|1.0||variable: Patients' complaint about the device|Wilcoxon (Mann-Whitney)|||variable: Patients' complaint about the device||1.0|0.0|0.947
82631452|NCT04453722|164979341|SUPERIORITY|Median difference was estimated from the Hodges-Lehmann estimator of location shift between groups and P values from Wilcoxon rank sum test.|Median Difference (Final Values)|0.0||||0.324|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||variable: Disturb IV line||0.0|0.0|0.324
82631453|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||||TWO_SIDED|95.0|-0.755|-0.386||||||||-0.386|-0.755|
82631454|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.762|||||TWO_SIDED|95.0|-0.925|-0.598||||||||-0.598|-0.925|
82631455|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.826|||||TWO_SIDED|95.0|-0.987|-0.665||||||||-0.665|-0.987|
82631456|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.887|||||TWO_SIDED|95.0|-1.035|-0.739||||||||-0.739|-1.035|
82631457|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|||||TWO_SIDED|95.0|-0.57|-0.132||||||||-0.132|-0.570|
82631458|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.542|||||TWO_SIDED|95.0|-0.743|-0.342||||||||-0.342|-0.743|
82631459|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.607|||||TWO_SIDED|95.0|-0.808|-0.406||||||||-0.406|-0.808|
82631460|NCT01263470|164979342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.667|||||TWO_SIDED|95.0|-0.859|-0.475||||||||-0.475|-0.859|
82631461|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|||||TWO_SIDED|95.0|-0.213|-0.104||||||||-0.104|-0.213|
82631462|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|||||TWO_SIDED|95.0|-0.234|-0.114||||||||-0.114|-0.234|
82631463|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.219|-0.1||||||||-0.100|-0.219|
82631464|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153|||||TWO_SIDED|95.0|-0.212|-0.095||||||||-0.095|-0.212|
82631465|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059|||||TWO_SIDED|95.0|-0.116|-0.003||||||||-0.003|-0.116|
82631466|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075|||||TWO_SIDED|95.0|-0.136|-0.014||||||||-0.014|-0.136|
82631467|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|||||TWO_SIDED|95.0|-0.121|0.0||||||||0.000|-0.121|
82631468|NCT01263470|164979343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|||||TWO_SIDED|95.0|-0.114|0.006||||||||0.006|-0.114|
82631469|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|||||TWO_SIDED|95.0|-0.419|-0.233||||||||-0.233|-0.419|
82631470|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.369|||||TWO_SIDED|95.0|-0.47|-0.268||||||||-0.268|-0.470|
82631471|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||||TWO_SIDED|95.0|-0.438|-0.241||||||||-0.241|-0.438|
82631472|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387|||||TWO_SIDED|95.0|-0.485|-0.288||||||||-0.288|-0.485|
82631473|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|||||TWO_SIDED|95.0|-0.28|-0.076||||||||-0.076|-0.280|
82631474|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.221|||||TWO_SIDED|95.0|-0.329|-0.112||||||||-0.112|-0.329|
82631475|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.192|||||TWO_SIDED|95.0|-0.299|-0.085||||||||-0.085|-0.299|
82631476|NCT01263470|164979344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.239|||||TWO_SIDED|95.0|-0.346|-0.131||||||||-0.131|-0.346|
82631477|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.644|-0.356||||||||-0.356|-0.644|
82631478|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.614|||||TWO_SIDED|95.0|-0.763|-0.464||||||||-0.464|-0.763|
82631479|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-0.804|-0.516||||||||-0.516|-0.804|
82511056|NCT05459129|164714999|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.13|6.43|||||HR was estimated by Cox regression. Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made in terms of media RFS per arm or HR between the arms.|||6.43|0.13|
82631480|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.695|||||TWO_SIDED|95.0|-0.832|-0.559||||||||-0.559|-0.832|
82631481|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.325|||||TWO_SIDED|95.0|-0.494|-0.156||||||||-0.156|-0.494|
82631482|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.438|||||TWO_SIDED|95.0|-0.61|-0.267||||||||-0.267|-0.610|
82631483|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.485|||||TWO_SIDED|95.0|-0.654|-0.315||||||||-0.315|-0.654|
82631484|NCT01263470|164979345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||||TWO_SIDED|95.0|-0.683|-0.357||||||||-0.357|-0.683|
82631485|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-23.27|-7.93||||||||-7.93|-23.27|
82511057|NCT05459129|164715001|SUPERIORITY||Difference in ORR|16.67|||||TWO_SIDED|95.0|-54.99|88.32||||||||88.32|-54.99|
82511058|NCT05459129|164715002|SUPERIORITY||Difference in Event Free Rate|16.67|||||TWO_SIDED|95.0|-31.42|64.75|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made.|3 Months Analysis||64.75|-31.42|
82511059|NCT05459129|164715002|SUPERIORITY||Difference in Event Free Rate|0.0|||||TWO_SIDED|95.0|-53.34|53.34|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made.|6 Months Analysis||53.34|-53.34|
82631486|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.69|||||TWO_SIDED|95.0|-25.34|-10.05||||||||-10.05|-25.34|
82631487|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|||||TWO_SIDED|95.0|-24.14|-8.02||||||||-8.02|-24.14|
82631488|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.47|||||TWO_SIDED|95.0|-32.06|-14.89||||||||-14.89|-32.06|
82631489|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-12.66|1.02||||||||1.02|-12.66|
82631490|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||||TWO_SIDED|95.0|-14.76|-1.08||||||||-1.08|-14.76|
82631491|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-13.53|0.93||||||||0.93|-13.53|
82631492|NCT01263470|164979346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69|||||TWO_SIDED|95.0|-21.45|-5.94||||||||-5.94|-21.45|
82631493|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-23.27|-7.93||||||||-7.93|-23.27|
82631494|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.69|||||TWO_SIDED|95.0|-25.34|-10.05||||||||-10.05|-25.34|
82631495|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|||||TWO_SIDED|95.0|-24.14|-8.02||||||||-8.02|-24.14|
82631496|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.47|||||TWO_SIDED|95.0|-32.06|-14.89||||||||-14.89|-32.06|
82631497|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-12.66|1.02||||||||1.02|-12.66|
82631498|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.92|||||TWO_SIDED|95.0|-14.76|-1.08||||||||-1.08|-14.76|
82631499|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-13.53|0.93||||||||0.93|-13.53|
82631500|NCT01263470|164979347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69|||||TWO_SIDED|95.0|-21.45|-5.94||||||||-5.94|-21.45|
82631501|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.73|||||TWO_SIDED|95.0|-26.52|-8.94||||||||-8.94|-26.52|
82631502|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.22|||||TWO_SIDED|95.0|-32.07|-16.37||||||||-16.37|-32.07|
82631503|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.34|||||TWO_SIDED|95.0|-32.03|-16.65||||||||-16.65|-32.03|
82631504|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.28|||||TWO_SIDED|95.0|-37.04|-19.52||||||||-19.52|-37.04|
82631505|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|||||TWO_SIDED|95.0|-17.28|0.18||||||||0.18|-17.28|
82631506|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.04|||||TWO_SIDED|95.0|-22.9|-7.18||||||||-7.18|-22.90|
82631507|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.16|||||TWO_SIDED|95.0|-22.9|-7.42||||||||-7.42|-22.90|
82631508|NCT01263470|164979348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||||TWO_SIDED|95.0|-27.8|-10.4||||||||-10.40|-27.80|
82631509|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||||TWO_SIDED|95.0|-24.19|-5.64||||||||-5.64|-24.19|
82631510|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.17|||||TWO_SIDED|95.0|-27.86|-12.48||||||||-12.48|-27.86|
82631511|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.07|||||TWO_SIDED|95.0|-30.41|-15.73||||||||-15.73|-30.41|
82631512|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.17|||||TWO_SIDED|95.0|-36.05|-20.29||||||||-20.29|-36.05|
82631513|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27|||||TWO_SIDED|95.0|-15.6|3.06||||||||3.06|-15.60|
82631514|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.52|||||TWO_SIDED|95.0|-19.41|-3.64||||||||-3.64|-19.41|
82631515|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.42|||||TWO_SIDED|95.0|-22.04|-6.8||||||||-6.80|-22.04|
82631516|NCT01263470|164979349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.52|||||TWO_SIDED|95.0|-27.61|-11.43||||||||-11.43|-27.61|
82631517|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.384|0.094||||||||0.094|-0.384|
82631518|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||||TWO_SIDED|95.0|-0.106|0.374||||||||0.374|-0.106|
82631519|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|||||TWO_SIDED|95.0|-0.103|0.39||||||||0.390|-0.103|
82631520|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|||||TWO_SIDED|95.0|-0.218|0.227||||||||0.227|-0.218|
82511060|NCT05459129|164715003|SUPERIORITY||Difference in Event Free Rate|-13.33|||||TWO_SIDED|95.0|-64.83|38.16|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made|3 Months Analysis||38.16|-64.83|
82511061|NCT05459129|164715003|SUPERIORITY||Difference in Event Free Rate|6.67|||||TWO_SIDED|95.0|-50.49|63.82|||||Due to the early termination of the study, the limited sample size and follow-up time no meaningful conclusions can be made|6 Months Analysis||63.82|-50.49|
82511062|NCT04304001|164715011|SUPERIORITY||||||<|0.05|||||||Chi-squared|||For each arm, the proportion of participants who receive colorectal cancer screening by 12 months was computed. The chi-square test was used to compare the two treatment arms for screening receipt. If the proportion of participants receiving colorectal cancer screening in the intervention arm is at least 15% higher than that in the control arm, the intervention was determined to be effective.||||<0.05
82523509|NCT03928028|164742581|SUPERIORITY|||||||0.507||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.507
82378503|NCT05736861|164465628|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.78|1.23|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.23|0.78|
82378504|NCT05736861|164465628|OTHER||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.82|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.41|0.82|
82377673|NCT00993421|164462927|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||Mixed Models Analysis|||Hypothesis: Treatment with a combination of LY377604 + sibutramine for 24 weeks would result in weight loss that was significantly greater than treatment with either sibutramine or LY377604 alone.||||0.249
82568424|NCT02959177|164846628|SUPERIORITY||LSMean difference|-2.7|||<|0.001|TWO_SIDED|95.0|-3.41|-1.99|||Mixed Models Analysis|||||-1.99|-3.41|<0.001
82631521|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-0.241|0.245||||||||0.245|-0.241|
82631522|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|||||TWO_SIDED|95.0|0.038|0.524||||||||0.524|0.038|
82631523|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|||||TWO_SIDED|95.0|0.041|0.54||||||||0.540|0.041|
82631524|NCT01263470|164979350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|||||TWO_SIDED|95.0|-0.077|0.38||||||||0.380|-0.077|
82631525|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||||TWO_SIDED|95.0|-0.245|0.156||||||||0.156|-0.245|
82631526|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|||||TWO_SIDED|95.0|-0.185|0.21||||||||0.210|-0.185|
82631527|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|||||TWO_SIDED|95.0|-0.053|0.369||||||||0.369|-0.053|
82631528|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||||TWO_SIDED|95.0|-0.14|0.235||||||||0.235|-0.140|
82523510|NCT03928028|164742581|SUPERIORITY|||||||0.017||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.017
82631529|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|||||TWO_SIDED|95.0|-0.097|0.341||||||||0.341|-0.097|
82631530|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|||||TWO_SIDED|95.0|-0.036|0.395||||||||0.395|-0.036|
82631531|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.325|||||TWO_SIDED|95.0|0.097|0.553||||||||0.553|0.097|
82631532|NCT01263470|164979351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|||||TWO_SIDED|95.0|0.006|0.423||||||||0.423|0.006|
82631533|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|||||TWO_SIDED|95.0|-0.444|0.209||||||||0.209|-0.444|
82631534|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.362|0.162||||||||0.162|-0.362|
82631535|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|||||TWO_SIDED|95.0|-0.166|0.324||||||||0.324|-0.166|
82631536|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|||||TWO_SIDED|95.0|-0.355|0.121||||||||0.121|-0.355|
82631537|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||||TWO_SIDED|95.0|-0.203|0.408||||||||0.408|-0.203|
82631538|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.124|0.364||||||||0.364|-0.124|
82631539|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|||||TWO_SIDED|95.0|0.071|0.526||||||||0.526|0.071|
82631540|NCT01263470|164979352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||||TWO_SIDED|95.0|-0.118|0.322||||||||0.322|-0.118|
82631541|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||||TWO_SIDED|95.0|-0.23|0.308||||||||0.308|-0.230|
82631542|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|||||TWO_SIDED|95.0|-0.029|0.379||||||||0.379|-0.029|
82631543|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|||||TWO_SIDED|95.0|0.044|0.453||||||||0.453|0.044|
82631544|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||||TWO_SIDED|95.0|-0.035|0.407||||||||0.407|-0.035|
82631545|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|||||TWO_SIDED|95.0|-0.236|0.34||||||||0.340|-0.236|
82631546|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|||||TWO_SIDED|95.0|-0.044|0.421||||||||0.421|-0.044|
82631547|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.261|||||TWO_SIDED|95.0|0.026|0.496||||||||0.496|0.026|
82631548|NCT01263470|164979353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|||||TWO_SIDED|95.0|-0.049|0.448||||||||0.448|-0.049|
82631549|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.85|||||TWO_SIDED|95.0|-38.75|-8.94||||||||-8.94|-38.75|
82631550|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.38|||||TWO_SIDED|95.0|-37.14|-9.61||||||||-9.61|-37.14|
82631551|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.6|||||TWO_SIDED|95.0|-53.18|-28.02||||||||-28.02|-53.18|
82631552|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.75|||||TWO_SIDED|95.0|-54.93|-30.58||||||||-30.58|-54.93|
82631553|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.36|||||TWO_SIDED|95.0|-19.7|8.98||||||||8.98|-19.70|
82631554|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.89|||||TWO_SIDED|95.0|-18.13|8.35||||||||8.35|-18.13|
82631555|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.11|||||TWO_SIDED|95.0|-34.22|-10.01||||||||-10.01|-34.22|
82631556|NCT01263470|164979354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.27|||||TWO_SIDED|95.0|-35.98|-12.55||||||||-12.55|-35.98|
82631557|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.31|||||TWO_SIDED|95.0|-80.79|-35.83||||||||-35.83|-80.79|
82631558|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.66|||||TWO_SIDED|95.0|-80.84|-40.47||||||||-40.47|-80.84|
82631559|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-78.72|||||TWO_SIDED|95.0|-97.03|-60.4||||||||-60.40|-97.03|
82631560|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-87.43|||||TWO_SIDED|95.0|-106.26|-68.6||||||||-68.60|-106.26|
82631561|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|||||TWO_SIDED|95.0|-24.69|19.23||||||||19.23|-24.69|
82631562|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07|||||TWO_SIDED|95.0|-24.85|14.7||||||||14.70|-24.85|
82631563|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.13|||||TWO_SIDED|95.0|-41.16|-5.11||||||||-5.11|-41.16|
82631564|NCT01263470|164979355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.84|||||TWO_SIDED|95.0|-50.36|-13.33||||||||-13.33|-50.36|
82631565|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.859|||||TWO_SIDED|95.0|-2.736|8.455||||||||8.455|-2.736|
82631566|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.456|||||TWO_SIDED|95.0|0.748|10.165||||||||10.165|0.748|
82631567|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.715|||||TWO_SIDED|95.0|3.181|12.248||||||||12.248|3.181|
82631568|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.557|||||TWO_SIDED|95.0|-3.763|8.877||||||||8.877|-3.763|
82631569|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.66|||||TWO_SIDED|95.0|7.924|21.396||||||||21.396|7.924|
82568425|NCT02959177|164846630|SUPERIORITY||LSMean Difference|-11.82|||<|0.001|TWO_SIDED|95.0|-16.14|-7.51|||Mixed Models Analysis|||||-7.51|-16.14|<0.001
82568426|NCT02959177|164846630|SUPERIORITY||LSMean difference|-13.73|||<|0.001|TWO_SIDED|95.0|-18.05|-9.4|||Mixed Models Analysis|||||-9.40|-18.05|<0.001
82568427|NCT02959177|164846631|SUPERIORITY||LSMean Difference|-4.9|||<|0.001|TWO_SIDED|95.0|-8.06|-1.73|||Mixed Models Analysis|||||-1.73|-8.06|<0.001
82568428|NCT02959177|164846631|SUPERIORITY||LSMean Difference|-2.97|||<|0.001|TWO_SIDED|95.0|-6.08|0.14|||Mixed Models Analysis|||||0.14|-6.08|<.001
82568429|NCT00784277|164846650|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|55.1|STANDARD_ERROR_OF_MEAN|20.37||0.007||95.0|15.11|95.13||P-value is adjusted for multiplicity for comparison against placebo using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline pain intensity score as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||95.13|15.11|0.007
82568430|NCT00784277|164846650|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|63.4|STANDARD_ERROR_OF_MEAN|20.23||0.004||95.0|23.67|103.13||P-value is adjusted for multiplicity for comparison against placebo using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline pain intensity score as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||103.13|23.67|0.004
82568431|NCT00784277|164846651|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|3.1|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|2.22|4.01||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||4.01|2.22|<0.001
82568432|NCT00784277|164846651|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|2.2|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|1.34|3.12||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||3.12|1.34|<0.001
82568433|NCT00784277|164846651|SUPERIORITY_OR_OTHER||Difference in Least-Squares Means|1.6|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|0.72|2.5||P-value is adjusted for multiplicity for comparison against Oxycodone using Hochberg's test.|ANCOVA|The model includes treatment and pooled center as factors and baseline value as covariate.|The 95% confidence interval is unadjusted for multiplicity.|||2.50|0.72|<0.001
82568434|NCT00187135|164846664|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. Due to the early termination of the study, the sample size needed to ensure adequate statistical power for this comparison was not obtained.||||0.5
82631570|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.257|||||TWO_SIDED|95.0|11.353|23.16||||||||23.160|11.353|
82568435|NCT00187135|164846664|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. The sample size needed to ensure adequate statistical power for this comparison was obtained.||||0.5
82568436|NCT00187135|164846665|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||To adjust for multiple comparisons, p-values less than 0.0167 are considered statistically significant.|McNemar|||The study was designed to achieve statistical power of 80% for this comparison. Due to the early termination of the study, the sample size needed to ensure adequate statistical power for this comparison was not obtained.||||0.5
82568437|NCT00187135|164846666|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in heart rate (HR) on pain (Y/N) while controlling for treatment.||||0.87
82568438|NCT00187135|164846667|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in respiratory rate (RR) on pain (Y/N) while controlling for treatment.||||0.67
82631571|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.515|||||TWO_SIDED|95.0|13.629|25.401||||||||25.401|13.629|
82568439|NCT00187135|164846668|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of 20% change in blood presure (BP) on pain (Y/N) while controlling for treatment.||||0.52
82568440|NCT00187135|164846669|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||GEE Model|||The generalized estimation equation (GEE) approach by Liang and Zeger was used to model the effects of motion (Y/N)on pain (Y/N) while controlling for treatment.||||0.99
82568441|NCT04167085|164846753|SUPERIORITY|||||||0.16||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.16
82568442|NCT04167085|164846754|SUPERIORITY|||||||0.05||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.05
82568443|NCT04167085|164846755|SUPERIORITY|||||||0.19||||||Threshold p\<0.0167 - Because 3 primary outcomes were prespecified, the familywise error rate was adjusted for 3 endpoints: 0.05/3|Wilcoxon (Mann-Whitney)|||||||0.19
82568444|NCT04167085|164846756|SUPERIORITY|||||||0.24||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||SF-12 Physical||||0.24
82568445|NCT04167085|164846756|SUPERIORITY|||||||0.35||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||SF-12 Mental||||0.35
82568446|NCT04167085|164846757|SUPERIORITY|||||||0.5||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||0.50
82568447|NCT04167085|164846758|SUPERIORITY|||||||0.3||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||0.30
82568448|NCT04167085|164846759|SUPERIORITY|||||||1||||||Threshold p=0.05|Wilcoxon (Mann-Whitney)|||||||1.00
82631572|NCT01263470|164979356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.357|||||TWO_SIDED|95.0|7.013|21.701||||||||21.701|7.013|
82631573|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.535|||||TWO_SIDED|95.0|-0.019|1.089||||||||1.089|-0.019|
82631574|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764|||||TWO_SIDED|95.0|0.214|1.315||||||||1.315|0.214|
82631575|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.999|||||TWO_SIDED|95.0|0.418|1.58||||||||1.580|0.418|
82631576|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.959|||||TWO_SIDED|95.0|0.43|1.489||||||||1.489|0.430|
82511063|NCT04304001|164715012|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Bivariate analyses was conducted for the knowledge scale to compare differences between the intervention and control arms. Since knowledge was a continuous variable,the values between study arms were compared using two-sample independent t-tests.||||<0.05
82511064|NCT04304001|164715013|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Bivariate analyses was conducted for the self-efficacy scale to compare differences between the intervention and control arms. Since self-efficacy was a continuous variable, the values between study arms were compared using two-sample independent t-tests.||||<0.05
82511065|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.264|TWO_SIDED|95.0|-0.019|0.071|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.071|-0.019|0.264
82568449|NCT00835510|164846766|SUPERIORITY_OR_OTHER|||||||0.0127||95.0|||||Fisher Exact|two-sided||||||0.0127
82631577|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.934|||||TWO_SIDED|95.0|0.315|1.552||||||||1.552|0.315|
82631578|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.163|||||TWO_SIDED|95.0|0.551|1.774||||||||1.774|0.551|
82631579|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.398|||||TWO_SIDED|95.0|0.759|2.036||||||||2.036|0.759|
82631580|NCT01263470|164979357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.358|||||TWO_SIDED|95.0|0.76|1.956||||||||1.956|0.760|
82631581|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.25|||||TWO_SIDED|95.0|-7.87|16.38||||||||16.38|-7.87|
82631582|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.26|||||TWO_SIDED|95.0|-0.9|23.42||||||||23.42|-0.90|
82631583|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||||TWO_SIDED|95.0|-10.56|16.95||||||||16.95|-10.56|
82631584|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|||||TWO_SIDED|95.0|-16.27|8.94||||||||8.94|-16.27|
82631585|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75|||||TWO_SIDED|95.0|-9.79|19.29||||||||19.29|-9.79|
82631586|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.76|||||TWO_SIDED|95.0|-2.67|26.19||||||||26.19|-2.67|
82631587|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69|||||TWO_SIDED|95.0|-12.02|19.4||||||||19.40|-12.02|
82631588|NCT01263470|164979358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.17|||||TWO_SIDED|95.0|-18.04|11.71||||||||11.71|-18.04|
82631589|NCT00137267|164979387|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82631590|NCT00137267|164979388|SUPERIORITY_OR_OTHER|||||||0.152|TWO_SIDED||||||Chi-squared|||||||0.152
82631591|NCT00397631|164979637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.12|<|0.001||95.0|-1.13|-0.65|||ANCOVA|Model terms: treatment, baseline HbA1c||||-0.65|-1.13|<0.001
82631592|NCT00397631|164979638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.8|STANDARD_ERROR_OF_MEAN|3.87|<|0.001||95.0|-30.4|-15.2|||ANCOVA|Model terms: treatment, baseline FPG||||-15.2|-30.4|<0.001
82631593|NCT00397631|164979639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-44.7|STANDARD_ERROR_OF_MEAN|6.37|<|0.001||95.0|-57.2|32.2|||ANCOVA|Model terms: treatment, baseline 2-hour PPG||||32.2|-57.2|<0.001
82631594|NCT04107935|164979669|SUPERIORITY|||||||0.983||||||Propensity score matching was used to form pairs of intervention and control participants. Specifically, a greedy matching procedure with a matching caliper of 0.2 of the standard deviation of the logit of the propensity score was used.|Mixed Models Analysis|Since baseline characteristics achieved a good balance, those variables were not entered into the propensity score matched model.||||||0.9830
82631595|NCT04107935|164979670|SUPERIORITY|||||||0.8365||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.8365
82568450|NCT00835510|164846766|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|two-sided||||||<0.0001
82631596|NCT04107935|164979671|SUPERIORITY|||||||0.5727||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.5727
82631597|NCT04107935|164979672|SUPERIORITY|||||||0.9381||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.9381
82631598|NCT04107935|164979674|SUPERIORITY|||||||0.608||||||Adjusted for age, race, body mass index, and time|Mixed Models Analysis|||||||0.608
82631599|NCT01108068|164979675|EQUIVALENCE|Continuous variables were expressed as means ± SD or median (range). Group differences in pQCT Z-scores according to genotype T-test was used to compare differences at baseline between affecteds and unaffecteds||||||0.0003|||||||t-test, 1 sided|Differences in the two groups were assessed using Student's t-test or the rank-sum test if skewed.||Cortical area Z-score||||0.0003
82631600|NCT01108068|164979675|EQUIVALENCE|Continuous variables were expressed as means ± SD or median (range). Group differences in pQCT Z-scores according to genotype||||||0.001|||||||t-test, 1 sided|Differences in the two groups were assessed using Student's t-test or the rank-sum test if skewed.||Periosteal circumference Z-score||||0.001
82631601|NCT02711553|164979706|SUPERIORITY||Hazard Ratio (HR)|1.123||||0.4821|TWO_SIDED|80.0|0.904|1.395||p-value is 2-sided.|Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.395|0.904|0.4821
82631602|NCT02711553|164979706|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6417|TWO_SIDED|80.0|0.734|1.153||p-value is 2-sided.|Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.153|0.734|0.6417
82631603|NCT02711553|164979707|SUPERIORITY||Hazard Ratio (HR)|1.336||||0.087|TWO_SIDED|95.0|0.959|1.862|||Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.862|0.959|0.0870
82631604|NCT02711553|164979707|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.7599|TWO_SIDED|95.0|0.669|1.342|||Log Rank|Stratified by geographical region, pathological diagnosis, metastatic disease.|Stratified by geographical region, pathological diagnosis, metastatic disease.|||1.342|0.669|0.7599
82631605|NCT02711553|164979708|SUPERIORITY||Odds Ratio (OR)|1.0||||0.878|TWO_SIDED|95.0|0.6|1.9|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||1.9|0.6|0.878
82631606|NCT02711553|164979708|SUPERIORITY||Odds Ratio (OR)|0.5||||0.023|TWO_SIDED|95.0|0.2|0.9|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||0.9|0.2|0.023
82631607|NCT02711553|164979709|SUPERIORITY||Odds Ratio (OR)|1.2||||0.68|TWO_SIDED|95.0|0.6|2.4|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||2.4|0.6|0.680
82631608|NCT02711553|164979709|SUPERIORITY||Odds Ratio (OR)|1.3||||0.499|TWO_SIDED|95.0|0.6|2.6|||Exact Cochran-Mantel-Haenszel|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|Stratified by randomization strata Geographical Region, Pathological Diagnosis, Metastatic Disease.|||2.6|0.6|0.499
82631609|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.069|TWO_SIDED|95.0|-2.28|0.09||p-values are from Type 3 sums of squares mixed model repeated measures (MMRM) Model.|MMRM Model|Least Squares (LS) Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||PWB||0.09|-2.28|0.069
82631610|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.6||0.042|TWO_SIDED|95.0|-2.42|-0.04||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||PWB||-0.04|-2.42|0.042
82631611|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.51||0.112|TWO_SIDED|95.0|-1.83|0.19||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||SWB||0.19|-1.83|0.112
82631612|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.51||0.505|TWO_SIDED|95.0|-1.35|0.67||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||SWB||0.67|-1.35|0.505
82631613|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.44||0.116|TWO_SIDED|95.0|-1.56|0.17||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||EWB||0.17|-1.56|0.116
82631614|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.45||0.521|TWO_SIDED|95.0|-1.16|0.59||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||EWB||0.59|-1.16|0.521
82631615|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.62||0.008|TWO_SIDED|95.0|-2.87|-0.44||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FWB||-0.44|-2.87|0.008
82631616|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.62||0.335|TWO_SIDED|95.0|-1.82|0.62||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FWB||0.62|-1.82|0.335
82378505|NCT05736861|164465628|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.57|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.01|0.57|
82631617|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|0.89||0.001|TWO_SIDED|95.0|-4.69|-1.18||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||HCS||-1.18|-4.69|0.001
82631618|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.89||0.068|TWO_SIDED|95.0|-3.4|0.12||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||HCS||0.12|-3.40|0.068
82631619|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.52||0.051|TWO_SIDED|95.0|-2.04|0.0||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FACT-Hep||0.00|-2.04|0.051
82631620|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.52||0.212|TWO_SIDED|95.0|-1.68|0.38||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||FACT-Hep||0.38|-1.68|0.212
82631621|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|-9.3|-2.04||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||TOI||-2.04|-9.30|0.002
82631622|NCT02711553|164979713|SUPERIORITY||LS Mean Difference|-3.42|STANDARD_ERROR_OF_MEAN|1.85||0.066|TWO_SIDED|95.0|-7.07|0.22||p-values are from type 3 sums of squares MMRM model.|MMRM Model|LS Mean value was adjusted for treatment, visit, baseline, treatment\*visit and baseline\*visit.||TOI||0.22|-7.07|0.066
82511066|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033||||0.165|TWO_SIDED|95.0|-0.013|0.079|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.079|-0.013|0.165
82631623|NCT01828567|164979718|OTHER|A logistic regression model was used. The null hypothesis is that there is no difference in improvement prevention program enrollment between the usual care and intervention arms by month 6.|Odds Ratio (OR)|2.54|||<|0.0001|TWO_SIDED|95.0|1.66|3.89|||Regression, Logistic|||The first primary outcome is the cumulative enrollment in prevention programs over the six months of follow up. This will be assessed via self-report at months 1 and 6. As defined by the eligibility criteria, all patients will have a value of 0 at baseline.||3.89|1.66|<.0001
82631624|NCT01828567|164979720|OTHER||Mean Difference (Final Values)|1.5||||0.204|TWO_SIDED|95.0|-0.8|3.7||A general linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time.|Repeated Measures|This model assumes the groups have equal baseline means.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in PAM scores between the usual care and intervention arms at 1 month.|For the primary hypothesis we will be examining the effect during the 1-month long intervention delivery period.||3.7|-0.8|0.204
82631625|NCT01828567|164979721|EQUIVALENCE|This model assumes the groups have equal baseline means, which is appropriate for a randomized controlled trial and is equivalent in efficiency to an ANCOVA model.|Mean Difference (Final Values)|2.5||||0.03|TWO_SIDED|95.0|0.2|4.7||A general Linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time. For the primary hypothesis we will be assessing sustainability at 6 months.|Repeated Measures|This model assumes the groups have equal baseline means.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in PAM scores between the usual care and intervention arms at 6 month.|||4.7|0.2|0.030
82631626|NCT01828567|164979723|EQUIVALENCE|This model assumes the groups have equal baseline means|Mean Difference (Final Values)|0.7||||0.33|TWO_SIDED|95.0|-0.7|2.2|||Repeated Measures|A general linear model with an unstructured covariance matrix to take into account the within-patient correlation between repeated measures over time.|We estimate the parameters in the model using the SAS procedure MIXED (SAS Version 9.4, Cary, NC). The null hypothesis is that there is no difference in improvement in FRS scores between the usual care and intervention arms at 6 month.|Our secondary outcome of interest is the Framingham Risk Score, measured at baseline and month 6.||2.2|-0.7|0.330
82631627|NCT02332876|164979724|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82631628|NCT02614261|164979739|SUPERIORITY||LSMean Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.92|-1.26|||Mixed Models Analysis|||||-1.26|-2.92|<.001
82523511|NCT03928028|164742581|SUPERIORITY|||||||0.139||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.139
82631629|NCT02614261|164979739|SUPERIORITY||LSMean Difference|-1.88|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.71|-1.05|||Mixed Models Analysis|||||-1.05|-2.71|<.001
82631630|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|1.623||||0.004|TWO_SIDED|95.0|1.167|2.256|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥50%,||2.256|1.167|.004
82631631|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|1.788|||<|0.001|TWO_SIDED|95.0|1.291|2.474|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥50%||2.474|1.291|<.001
82523512|NCT03928028|164742582|SUPERIORITY|||||||0.389|||||||generalized estimating equation|||This analysis compare mothers in FBT to mothers in FBT+CRTp||||.389
82631632|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|1.498||||0.102|TWO_SIDED|95.0|0.923|2.43|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥75%||2.430|0.923|.102
82631633|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|1.819||||0.011|TWO_SIDED|95.0|1.146|2.888|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥75%||2.888|1.146|.011
82631634|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|0.761||||0.729|TWO_SIDED|95.0|0.163|3.563|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥100%||3.563|0.163|0.729
82631635|NCT02614261|164979740|SUPERIORITY||Odds Ratio (OR)|1.897||||0.276|TWO_SIDED|95.0|0.6|5.998|||CPRMM|Categorical pseudo likelihood-based repeated measures model (CPRMM)||Reduction from Baseline ≥100%||5.998|0.600|.276
82631636|NCT02614261|164979741|SUPERIORITY||LSMean Difference|5.06|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|2.12|7.99|||Mixed Models Analysis|||||7.99|2.12|<.001
82631637|NCT02614261|164979741|SUPERIORITY||LSMean Difference|6.29|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|3.03|9.55|||Mixed Models Analysis|||||9.55|3.03|<.001
82631638|NCT02614261|164979742|SUPERIORITY||LSMean Difference|-2.51|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-3.27|-1.76|||Mixed Models Analysis|||||-1.76|-3.27|<.001
82631639|NCT02614261|164979742|SUPERIORITY||LSMean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.77|-1.26|||Mixed Models Analysis|||||-1.26|-2.77|<.001
82511067|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.271|TWO_SIDED|95.0|-0.02|0.071|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.071|-0.020|0.271
82511068|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.018|TWO_SIDED|95.0|0.01|0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.100|0.010|0.018
82511069|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.018|TWO_SIDED|95.0|0.01|0.101|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.101|0.010|0.018
82511070|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.078|||<|0.001|TWO_SIDED|95.0|0.032|0.124|||Mixed Models Analysis|||||0.124|0.032|<0.001
82511071|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.052||||0.023|TWO_SIDED|95.0|-0.097|-0.007|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-0.007|-0.097|0.023
82511072|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045||||0.051|TWO_SIDED|95.0|-0.091|0.0|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.000|-0.091|0.051
82511073|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.053||||0.023|TWO_SIDED|95.0|-0.098|-0.007|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-0.007|-0.098|0.023
82511074|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023||||0.306|TWO_SIDED|95.0|-0.068|0.021|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.021|-0.068|0.306
82511075|NCT01573624|164715084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.023||||0.33|TWO_SIDED|95.0|-0.068|0.023|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.023|-0.068|0.330
82511076|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.9|||<|0.001|TWO_SIDED|95.0|9.5|22.3|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||22.3|9.5|<0.001
82511077|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.4|||<|0.001|TWO_SIDED|95.0|10.9|23.9|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||23.9|10.9|<0.001
82511078|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|||<|0.001|TWO_SIDED|95.0|12.1|25.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||25.1|12.1|<0.001
82511079|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9|||<|0.001|TWO_SIDED|95.0|16.5|29.4|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||29.4|16.5|<0.001
82523513|NCT03928028|164742582|SUPERIORITY|||||||0.447||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.447
82631640|NCT02614261|164979743|SUPERIORITY||LSMean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.181|TWO_SIDED|95.0|-0.34|0.06|||Mixed Models Analysis|||||0.06|-0.34|.181
82631641|NCT02614261|164979743|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.48|-0.08|||Mixed Models Analysis|||||-0.08|-0.48|.006
82631642|NCT02614261|164979744|SUPERIORITY||LSMean Difference|-22.71|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-31.74|-13.69|||Mixed Models Analysis|||||-13.69|-31.74|<.001
82631643|NCT02614261|164979744|SUPERIORITY||LSMean Difference|-18.09|STANDARD_ERROR_OF_MEAN|4.58|<|0.001|TWO_SIDED|95.0|-27.09|-9.09|||Mixed Models Analysis|||||-9.09|-27.09|<.001
82631644|NCT02614261|164979745|SUPERIORITY||LSMean Difference|-8.74|STANDARD_ERROR_OF_MEAN|3.9||0.025|TWO_SIDED|95.0|-16.39|-1.08|||ANCOVA|||||-1.08|-16.39|.025
82631645|NCT02614261|164979745|SUPERIORITY||LSMean Difference|-5.49|STANDARD_ERROR_OF_MEAN|3.88||0.157|TWO_SIDED|95.0|-13.1|2.12|||ANCOVA|||||2.12|-13.10|.157
82631646|NCT02614261|164979746|SUPERIORITY|||||||0.263|||||||Cochran-Mantel-Haenszel|||||||.263
82631647|NCT02614261|164979746|SUPERIORITY|||||||0.29|||||||Cochran-Mantel-Haenszel|||||||.290
82631648|NCT01045551|164979770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.98|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|t-test, 2 sided|||||||0.98
82568451|NCT00835510|164846771|NON_INFERIORITY_OR_EQUIVALENCE|The criteria for equivalence is that the 90% confidence interval for the difference in cure rate had to be between -20% to +20%.|Cure rate difference|-19.78||||||90.0|-30.27|-9.29||||||||-9.29|-30.27|
82568452|NCT01268098|164846797|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|5.0|||>|0.999|TWO_SIDED|95.0|-20.6|30.7||All hypothesis testings in this study were based on type I error of 0.05. Adjustment for multiplicity was not applied.|Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference between the two dose arms.|The 2-sided asymptotic 95% confidence interval is based on normal approximation.|The null hypothesis corresponding to the primary efficacy endpoint is that the percentages of subjects who meet the endpoint criteria are the same for both dose arms. This sample size for this study was not based on the statistical considerations.||30.7|-20.6|>0.999
82568453|NCT01268098|164846798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.258|TWO_SIDED||||||Fisher Exact|The 2-sided Fisher's Exact test was utilized to test for difference betweenthe two dose arms.||The null hypothesis corresponding to this endpoint is that the percentages of subjects who meet the endpoint criteria are the same for both dose arms.||||0.258
82568454|NCT01644188|164846819|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-34.4|-25.3||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-25.3|-34.4|<0.0001
82568455|NCT01644188|164846820|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.6|||<|0.0001|TWO_SIDED|95.0|-34.9|-26.2||Threshold for significance ≤0.05|Mixed Models Analysis||Alirocumab vs. ezetimibe|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-26.2|-34.9|<0.0001
82568456|NCT01644188|164846821|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.4|||<|0.0001|TWO_SIDED|95.0|-33.7|-25.1||Threshold for significance ≤0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.1|-33.7|<0.0001
82568457|NCT01644188|164846822|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.7|||<|0.0001|TWO_SIDED|95.0|-33.8|-25.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.6|-33.8|<0.0001
82568458|NCT01644188|164846823|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|95.0|-26.0|-18.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.8|-26|<0.0001
82568459|NCT01644188|164846824|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-26.5|-19.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.6|-26.5|<0.0001
82631649|NCT01045551|164979771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_DEVIATION|0.9024|||TWO_SIDED|||||||||||||
82568460|NCT01644188|164846825|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.9|||<|0.0001|TWO_SIDED|95.0|-26.9|-18.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.9|-26.9|<0.0001
82631650|NCT04337203|164979779|OTHER|Feasibility study and calculated confidence interval.||||||0.54|||||||Independent samples proportions test|||||||0.54
82631651|NCT03399786|164979809|SUPERIORITY||Least Squares (LS) Mean Difference|-49.0|STANDARD_ERROR_OF_MEAN|8.0|<|0.0001|TWO_SIDED|95.0|-65.0|-33.1|||Mixed-effect Model Repeat Measure (MMRM)|||Confidence interval (CI) with p-value was based on-treatment group difference of least squares (LS) means using mixed-effect model repeat measurement (MMRM), randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated LDL-C value.||-33.1|-65.0|< 0.0001
82631652|NCT03399786|164979810|SUPERIORITY||Least Squares (LS) Mean Difference|-36.9|STANDARD_ERROR_OF_MEAN|5.9|<|0.0001|TWO_SIDED|95.0|-48.6|-25.2|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated Apo B value.||-25.2|-48.6|< 0.0001
82631653|NCT03399786|164979811|SUPERIORITY||Least Squares (LS) Mean Difference|-51.7|STANDARD_ERROR_OF_MEAN|6.6|<|0.0001|TWO_SIDED|95.0|-64.8|-38.5|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated non-HDL-C value.||-38.5|-64.8|< 0.0001
82378506|NCT05736861|164465629|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.92|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.32|0.92|
82378507|NCT05736861|164465629|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.83|1.22|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.22|0.83|
82378508|NCT05736861|164465629|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.83|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.24|0.83|
82568461|NCT01644188|164846826|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.5|||<|0.0001|TWO_SIDED|95.0|-27.2|-19.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.7|-27.2|<0.0001
82568462|NCT01644188|164846827|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.7|||<|0.0001|TWO_SIDED|95.0|-17.7|-11.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-11.7|-17.7|<0.0001
82568463|NCT01644188|164846828|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|95.0|-25.7|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-25.7|<0.0001
82511080|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.0|||<|0.001|TWO_SIDED|95.0|15.5|28.4|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||28.4|15.5|<0.001
82511081|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.0|||<|0.001|TWO_SIDED|95.0|20.6|33.5|||Mixed Models Analysis|||||33.5|20.6|<0.001
82511082|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-17.6|-4.7|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-4.7|-17.6|<0.001
82378509|NCT05736861|164465629|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.72|1.1||||||Day 90|Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|1.10|0.72|
82378510|NCT05736861|164465630|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.20|0.80|
82378511|NCT05736861|164465630|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.78|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.25|0.78|
82511083|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.6||||0.004|TWO_SIDED|95.0|-16.1|-3.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-3.1|-16.1|0.004
82568464|NCT01644188|164846829|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-25.6|-18.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-18.3|-25.6|<0.0001
82568465|NCT01644188|164846830|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|||<|0.0001|TWO_SIDED|95.0|-17.1|-11.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-11.6|-17.1|<0.0001
82568466|NCT01644188|164846831|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.2|||<|0.0001|TWO_SIDED|95.0|-36.3|-26.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-26.1|-36.3|<0.0001
82639820|NCT02163759|164994495|SUPERIORITY|||||||0.4434||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.4434
82568467|NCT01644188|164846832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|95.0|3.7|7.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by Logistic regression model.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.9|3.7|<0.0001
82568468|NCT01644188|164846833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.9|||<|0.0001|TWO_SIDED|95.0|3.9|8.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.8|3.9|<0.0001
82568469|NCT01644188|164846834|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.7|||<|0.0001|TWO_SIDED|95.0|-26.4|-17.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17|-26.4|<0.0001
82568470|NCT01644188|164846835|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1|||<|0.0001|TWO_SIDED|95.0|5.4|10.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.7|5.4|<0.0001
82568471|NCT01644188|164846836|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.3||||0.9117|TWO_SIDED|95.0|-5.1|4.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression.|Alirocumab vs. ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.6|-5.1|0.9117
82568472|NCT01929876|164846849|SUPERIORITY_OR_OTHER||Ratio of least squares means|316.6|||||TWO_SIDED|90.0|268.1|374.0|||||LS means from analysis of variance (ANOVA), calculated by transforming the natural log means back to the linear scale (that is, geometric LS mean).|Ratio of Least squares (LS) means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent).||374.0|268.1|
82568473|NCT01929876|164846850|SUPERIORITY_OR_OTHER||Ratio of LS means|672.3|||||TWO_SIDED|90.0|563.7|801.9|||||Ratio of LS means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent). LS means from ANOVA, calculated by transforming the natural log means back to the linear scale.|Only participants with PK parameter data from both Period 1 Day 1 and Period 2 Day 4 (n=11) were included for statistical analyses.||801.9|563.7|
82568474|NCT01929876|164846852|SUPERIORITY_OR_OTHER||Ratio of LS means|583.9|||||TWO_SIDED|90.0|488.2|698.2|||||Ratio of LS means (Cobimetinib with Itraconazole/Cobimetinib alone) of natural log-transformed parameter (expressed as a percent). LS means from ANOVA, calculated by transforming the natural log means back to the linear scale.|||698.2|488.2|
82568475|NCT04333732|164846861|SUPERIORITY||Risk Difference (RD)|0.3||||0.52|TWO_SIDED|95.0|-0.5|1.1|||Regression, Logistic|||The primary endpoint was analysed using a Bayesian logistic regression, including as covariates the treatment arm, age (\<50 vs. ≥50), and a random effect for site||1.1|-0.5|0.52
82568476|NCT04333732|164846862|SUPERIORITY||Risk Difference (RD)|0.04||||0.95|TWO_SIDED|95.0|-1.4|1.3|||Regression, Logistic|difference, 0·04%, 95% CI, -1·4% to 1·3%, p=0·95).||The endpoint was analysed using a Bayesian logistic regression, including as covariates the treatment arm, age (\<50 vs. ≥50), and a random effect for site||1.3|-1.4|0.95
82568477|NCT01222533|164846892|NON_INFERIORITY_OR_EQUIVALENCE|The standard bioequivalence range of 80 to 125% was pre-specified for Cmax,ss in order to assess the relative systemic exposure following inhalation of Tio R5 compared to Tio HH18. Bioequivalence was not used as a surrogate for efficacy.|Geometric mean ratio (percentage)|80.66|STANDARD_DEVIATION|43.4||0.4423||90.0|73.49|88.52||Maximum of two one-sided p-values for geometric mean ratio being outside interval 80 percent to 125 percent.|ANOVA||Standard deviation is actually the geometric coefficient of variation.|||88.52|73.49|0.4423
82568478|NCT01222533|164846893|NON_INFERIORITY_OR_EQUIVALENCE|The standard bioequivalence range of 80 to 125% was pre-specified for AUC0-6,ss in order to assess the relative systemic exposure following inhalation of Tio R5 compared to Tio HH18. Bioequivalence was not used as a surrogate for efficacy.|Geometric mean ratio (percentage)|75.99|STANDARD_DEVIATION|34.1||0.8683||90.0|70.44|81.98||Maximum of two one-sided p-values for geometric mean ratio being outside interval 80 percent to 125 percent.|ANOVA||Standard deviation is actually the geometric coefficient of variation.|||81.98|70.44|0.8683
82378512|NCT05736861|164465630|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.86|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.43|0.86|
82378513|NCT05736861|164465630|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.66|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.12|0.66|
82511084|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.4||||0.012|TWO_SIDED|95.0|-14.9|-1.9|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-1.9|-14.9|0.012
82511085|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.209|TWO_SIDED|95.0|-10.6|2.3|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||2.3|-10.6|0.209
82511086|NCT01573624|164715085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1||||0.124|TWO_SIDED|95.0|-11.6|1.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||1.4|-11.6|0.124
82568479|NCT01222533|164846894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.06|0.114|||||Tio R1.25-Placebo|||0.114|0.060|
82511087|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.2|||<|0.001|TWO_SIDED|95.0|9.5|22.9|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||22.9|9.5|<0.001
82511088|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.2|||<|0.001|TWO_SIDED|95.0|10.5|24.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||24.0|10.5|<0.001
82511089|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.2|||<|0.001|TWO_SIDED|95.0|14.4|28.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||28.0|14.4|<0.001
82511090|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.8|||<|0.001|TWO_SIDED|95.0|22.1|35.5|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||35.5|22.1|<0.001
82523514|NCT03928028|164742582|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||<.001
82523515|NCT03928028|164742583|SUPERIORITY|||||||0.778||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.778
82523516|NCT03928028|164742583|SUPERIORITY|||||||0.297||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.297
82523517|NCT03928028|164742583|SUPERIORITY|||||||0.062||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.062
82523518|NCT03928028|164742584|SUPERIORITY|||||||0.069||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.069
82523519|NCT03928028|164742584|SUPERIORITY|||||||0.323||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.323
82523520|NCT03928028|164742584|SUPERIORITY|||||||0.225|||||||generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.225
82568480|NCT01222533|164846894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001||95.0|0.074|0.128|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.128|0.074|<0.0001
82568481|NCT01222533|164846894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001||95.0|0.094|0.148|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.148|0.094|<0.0001
82568482|NCT01222533|164846895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.012||||95.0|0.141|0.189|||||Tio R1.25-Placebo.|||0.189|0.141|
82568483|NCT01222533|164846895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.161|0.209|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.209|0.161|<0.0001
82568484|NCT01222533|164846895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.167|0.216|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.216|0.167|<0.0001
82568485|NCT01222533|164846896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.013||||95.0|0.13|0.18|||||Tio R1.25-Placebo|||0.180|0.130|
82568486|NCT01222533|164846896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.155|0.205|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.205|0.155|<0.0001
82568487|NCT01222533|164846896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.162|0.211|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.211|0.162|<0.0001
82568488|NCT01222533|164846897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.028||||95.0|0.083|0.194|||||Tio R1.25-Placebo|||0.194|0.083|
82568489|NCT01222533|164846897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.133|0.244|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.244|0.133|<0.0001
82568490|NCT01222533|164846897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.18|0.292|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.292|0.180|<0.0001
82568491|NCT01222533|164846898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.022||||95.0|0.241|0.326|||||Tio R1.25-Placebo|||0.326|0.241|
82568492|NCT01222533|164846898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.319|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.276|0.362|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.362|0.276|<0.0001
82568493|NCT01222533|164846898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.335|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.292|0.378|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.378|0.292|<0.0001
82568494|NCT01222533|164846899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.023||||95.0|0.236|0.325|||||Tio R1.25-Placebo|||0.325|0.236|
82568495|NCT01222533|164846899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.324|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.279|0.369|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R2.5-Placebo|||0.369|0.279|<0.0001
82568496|NCT01222533|164846899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.339|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.294|0.384|||ANOVA|Adjusted for sequence, patients within sequences, period and treatment.|Tio R5-Placebo|||0.384|0.294|<0.0001
82568497|NCT03713281|164846920|SUPERIORITY||Least-square mean|-0.131|STANDARD_ERROR_OF_MEAN|0.0278|||TWO_SIDED|95.0|-0.208|-0.054|||Linear Mixed Model|Kenward and Roger modethod for the demoninator degrees of freedom.||Statistically superiority will be concluded if the upper confidence limit will be less than 0.10 logMAR.||-0.054|-0.208|
82568498|NCT03713281|164846921|SUPERIORITY||Least-square means|0.06|STANDARD_ERROR_OF_MEAN|0.0278|||TWO_SIDED|95.0|-0.017|0.137|||Linear Mixed Model|Kenward and Roger method for the demoninator degrees of freedom.||Statistically superiority will be concluded if the upper confidence limit will be less than 0.17 logMAR for near distance logMAR visual acuity.||0.137|-0.017|
82568499|NCT04349644|164846929|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent vari- ables.||||||0.016|||||||ANCOVA|Posttest ANCOVA controlling for pretest values.||||||0.016
82568500|NCT04349644|164846929|OTHER|"A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each depen- dent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate.~Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables."||||||0.288|||||||ANCOVA|Follow-up ANCOVA while controlling Pretest.||||||0.288
82568501|NCT04349644|164846930|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.932|||||||ANCOVA|Posttest ANCOVA controlling pretest value for CASS Vocal Expressiveness.||||||0.932
82568502|NCT04349644|164846930|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.221|||||||ANCOVA|Posttest ANCOVA controlling for pretest for CASS Quality of Rapport.||||||0.221
82378514|NCT05736861|164465631|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.87|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.35|0.87|
82511091|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9|||<|0.001|TWO_SIDED|95.0|16.2|29.6|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||29.6|16.2|<0.001
82378515|NCT05736861|164465631|OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.96|1.57|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.57|0.96|
82568503|NCT04349644|164846930|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.873|||||||ANCOVA|Follow-up ANCOVA controlling for pretest Vocal Expressiveness.||||||0.873
82568504|NCT04349644|164846930|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.512|||||||ANCOVA|Follow-up ANCOVA controlling for pretest Quality of Rapport.||||||0.512
82568505|NCT04349644|164846931|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.05|||||||ANCOVA|Posttest ANCOVA controlling for Pretest.||||||0.05
82511092|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.6|||<|0.001|TWO_SIDED|95.0|19.8|33.4|||Mixed Models Analysis|||||33.4|19.8|<0.001
82631654|NCT03399786|164979812|SUPERIORITY||Least Squares (LS) Mean Difference|-48.4|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|95.0|-58.7|-38.1|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated TC value.||-38.1|-58.7|< 0.0001
82378516|NCT05736861|164465631|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.92|1.54|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.54|0.92|
82511093|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3||||0.003|TWO_SIDED|95.0|-17.2|-3.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-3.5|-17.2|0.003
82511094|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.3||||0.007|TWO_SIDED|95.0|-16.2|-2.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||-2.5|-16.2|0.007
82511095|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.4||||0.126|TWO_SIDED|95.0|-12.3|1.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||1.5|-12.3|0.126
82568506|NCT04349644|164846931|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables.||||||0.393|||||||ANCOVA|Follow-up ANCOVA controlling for Pretest.||||||0.393
82378517|NCT05736861|164465631|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.71|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.18|0.71|
82378518|NCT05736861|164465632|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.97|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.47|0.97|
82378519|NCT05736861|164465632|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.84|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.33|0.84|
82639821|NCT02163759|164994495|SUPERIORITY|||||||0.3374||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.3374
82639822|NCT02163759|164994496|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
82639823|NCT02163759|164994497|SUPERIORITY|||||||0.4434||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.4434
82378520|NCT05736861|164465632|OTHER||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.95|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.55|0.95|
82378521|NCT05736861|164465632|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.73|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.19|0.73|
82511096|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2||||0.523||95.0|-4.6|9.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||9.1|-4.6|0.523
82511097|NCT01573624|164715086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7||||0.29|TWO_SIDED|95.0|-10.5|3.1|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||3.1|-10.5|0.290
82523521|NCT03928028|164742585|SUPERIORITY|||||||0.196||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.196
82523522|NCT03928028|164742585|SUPERIORITY|||||||0.812||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.812
82523523|NCT03928028|164742585|SUPERIORITY|||||||0.499||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.499
82639824|NCT02163759|164994497|SUPERIORITY|||||||0.6367||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.6367
82639825|NCT02163759|164994498|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
82639826|NCT02163759|164994499|SUPERIORITY||Mean Difference (Net)|-0.7||||0.3708|TWO_SIDED|95.0|-2.4|0.9||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.9|-2.4|0.3708
82639827|NCT02163759|164994499|SUPERIORITY||Mean Difference (Net)|-0.5||||0.4477|TWO_SIDED|95.0|-1.8|0.8||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.8|-1.8|0.4477
82511098|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.036|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.036
82631655|NCT03399786|164979813|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|25.2|||<|0.0001|TWO_SIDED|95.0|5.7|110.5|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for secondary endpoints in pre-specified order to control type I error.Testing sequence continued only when previous endpoint was statistically significant at 0.05.Multiple imputation addressed missing data at week 24.Combined estimate for odds ratio obtained by Rubin's formulae.Logistic regression models stratified by randomized strata include fixed categorical effect of treatment group \& continuous fixed covariate of baseline calculated LDL-C.||110.5|5.7|< 0.0001
82378522|NCT05736861|164465633|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.86|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.26|0.86|
82378523|NCT05736861|164465633|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.85|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.29|0.85|
82523524|NCT03928028|164742586|SUPERIORITY|||||||0.446||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.446
82378524|NCT05736861|164465633|OTHER||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.85|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.34|0.85|
82639828|NCT02163759|164994500|SUPERIORITY||Mean Difference (Net)|-1.0||||1|TWO_SIDED|95.0|-2.1|0.2||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.2|-2.1|1
82378525|NCT05736861|164465633|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.28|0.80|
82568507|NCT04349644|164846932|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables||||||0.917|||||||ANCOVA|Posttest ANCOVA controlling for pretest values.||||||0.917
82568508|NCT04349644|164846932|OTHER|A series of Analysis of Covariance (ANCOVA) models were used to test the between-group differences on each dependent variable at the immediate posttest and at the follow-up periods separately using the pretest values as a covariate. Independent samples t-tests were used to identify statistically significant differences on all pretest dependent variables||||||0.963|||||||ANCOVA|Follow-up ANCOVA while controlling for pretest.||||||0.963
82568509|NCT00510198|164846974|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0||||The log-rank test was conducted at an alpha level of 0.05. The study was terminated early due to enrollment significantly below protocol expectation. Due to the low sample size and consequently low statistical power, no conclusion can be drawn.|Log Rank|||This is a log-rank test, which uses the time from randomization to first composite endpoint event to compare the risk of event between Access and Control arms.||||0.23
82568510|NCT00510198|164846975|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 7.5%|Risk Difference (RD)|4.7||||0.36|TWO_SIDED|95.0|-10.9|20.3||The study was terminated early due to enrollment significantly below protocol expectation. Due to the low sample size and consequently low statistical power, no conclusion can be drawn.|Two-sample test of proportions||The risk difference estimate is the difference between the Access Arm and Control arm.|||20.3|-10.9|0.36
82568511|NCT01182103|164847057|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82568512|NCT01182103|164847058|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82568513|NCT01182103|164847059|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82568514|NCT01163955|164847060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|1.92|<|0.0005|TWO_SIDED|95.0|0.0|9.0|||t-test, 2 sided|DF=50||Start total score at 0 minutes is being compared to the end total score at 5 minutes while sitting in the floor.||9|0|<.0005
82568515|NCT01163955|164847060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|1.99|<|0.0005|TWO_SIDED|95.0|0.0|9.0|||t-test, 2 sided|DF=50||Start total score at 0 minutes is being compared to the end total score at 5 minutes while sitting in a chair.||9|0|<.0005
82568516|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-79.33|||<|0.001|TWO_SIDED|95.0|-87.54|-65.73|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-65.73|-87.54|< 0.001
82568517|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-71.16|||<|0.001|TWO_SIDED|95.0|-82.67|-52.0|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.00|-82.67|< 0.001
82568518|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-79.52|||<|0.001|TWO_SIDED|95.0|-88.29|-64.17|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-64.17|-88.29|< 0.001
82568519|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-72.34|||<|0.001|TWO_SIDED|95.0|-83.32|-54.13|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-54.13|-83.32|< 0.001
82568520|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-73.03|||<|0.001|TWO_SIDED|95.0|-83.79|-55.11|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-55.11|-83.79|< 0.001
82568521|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-71.88|||<|0.001|TWO_SIDED|95.0|-83.93|-50.82|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-50.82|-83.93|< 0.001
82631656|NCT03399786|164979814|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|24.2|||=|0.0028|TWO_SIDED|95.0|3.0|195.6|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for secondary endpoints in pre-specified order to control type I error.Testing sequence continued only when previous endpoint was statistically significant at 0.05.Multiple imputation addressed missing data at week 24.Combined estimate for odds ratio obtained by Rubin's formulae.Logistic regression models stratified by randomized strata include fixed categorical effect of treatment group \& continuous fixed covariate of baseline calculated LDL-C.||195.6|3.0|= 0.0028
82631657|NCT03399786|164979815|SUPERIORITY||Least Squares (LS) Mean Difference|-132.1|STANDARD_ERROR_OF_MEAN|21.5|<|0.0001|TWO_SIDED|95.0|-175.3|-88.9|||Mixed-effect Model Repeat Measure (MMRM)|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. CI with p-value was based on-treatment group difference of LS means using MMRM, randomization strata, treatment/strata/baseline value-by-time point interaction and continuous fixed covariates of baseline calculated LDL-C value.||-88.9|-175.3|< 0.0001
82631658|NCT03399786|164979816|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|0.1|||=|0.0845|TWO_SIDED|95.0|0.0|1.3|||Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||1.3|0|= 0.0845
82631659|NCT03399786|164979817|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|5.7|||=|0.0203|TWO_SIDED|95.0|1.3|24.9||The p-value is nominal for descriptive purpose only due to statistical hypothesis testing terminated previously.|Logistic Regression Models Analyses|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||24.9|1.3|= 0.0203
82631660|NCT03399786|164979818|SUPERIORITY|A 2-step multiple imputation method addressed missing values (seeds = 1629 \& 9261 with number of imputations = 100 in first and number of imputation=1 in second step).|Odds Ratio (OR)|0.1|||=|0.0004|TWO_SIDED|95.0|0.0|0.3||The p-value is nominal for descriptive purpose only due to statistical hypothesis testing terminated previously.|Logistic Regression Models Analysis|||A 2-sided hierarchical testing procedure was used for the secondary endpoints in a pre-specified order to control type I error. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Combined estimate for odds ratio was obtained by using Rubin's formulae. Logistic regression models stratified the fixed categorical effect of treatment group and the continuous fixed covariate of baseline calculated LDL-C value.||0.3|0.0|= 0.0004
82631661|NCT01111331|164979831|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean ratio|100.89|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|96.86|105.1|||ANOVA|Based on ANOVA with terms for subject and treatment|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by empa||105.10|96.86|
82631662|NCT01111331|164979832|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|100.64|STANDARD_DEVIATION|19.9||0.0021|TWO_SIDED|90.0|89.79|112.8||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|Based on ANOVA with terms for subject and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by empa||112.80|89.79|0.0021
82631663|NCT01111331|164979833|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.49|STANDARD_DEVIATION|5.7|||TWO_SIDED|90.0|95.29|101.8|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||101.80|95.29|
82631664|NCT01111331|164979834|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|97.89|STANDARD_DEVIATION|12.4||0.0001|TWO_SIDED|90.0|91.12|105.15|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||105.15|91.12|0.0001
82631665|NCT01111331|164979835|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|95.88|STANDARD_DEVIATION|4.5|||TWO_SIDED|90.0|93.4|98.43|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||98.43|93.40|
82631666|NCT01111331|164979836|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.88|STANDARD_DEVIATION|12.7||0.0001|TWO_SIDED|90.0|91.84|106.47||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||106.47|91.84|0.0001
82631667|NCT01111331|164979844|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|98.9|STANDARD_DEVIATION|5.3|||TWO_SIDED|90.0|95.89|102.0|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|Ratio calculated as empa plus warfarin divided by warfarin||102.00|95.89|
82378526|NCT05736861|164465634|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.88|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.27|0.88|
82378527|NCT05736861|164465634|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.79|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.14|0.79|
82378528|NCT05736861|164465634|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.75|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.09|0.75|
82378529|NCT05736861|164465634|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.93|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.36|0.93|
82378530|NCT05736861|164465635|SUPERIORITY||Difference in model estimate time unwell|-0.49|||||TWO_SIDED|95.0|-0.82|-0.15|||||The interval is a highest-density credible interval.|||-0.15|-0.82|
82378531|NCT05736861|164465636|SUPERIORITY||Difference in model estimated means|0.59|||||TWO_SIDED|95.0|0.18|0.99|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.99|0.18|
82378532|NCT00266630|164465637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|||||TWO_SIDED|95.0|-4.1|-1.9||||||||-1.90|-4.10|
82378533|NCT00266630|164465641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8|||||TWO_SIDED|95.0|-25.58|-14.06||||||||-14.06|-25.58|
82378534|NCT02096744|164465683|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|102.33|STANDARD_ERROR_OF_MEAN|19.0|<|0.0001|TWO_SIDED|90.0|95.74|109.37|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||109.37|95.74|<0.0001
82523525|NCT03928028|164742586|SUPERIORITY|||||||0.647|||||||generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.647
82511099|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.064|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.064
82568522|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-68.51|||<|0.001|TWO_SIDED|95.0|-81.01|-47.78|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-47.78|-81.01|< 0.001
82568523|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-81.06|||<|0.001|TWO_SIDED|95.0|-88.62|-68.49|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-68.49|-88.62|< 0.001
82568524|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-79.04|||<|0.001|TWO_SIDED|95.0|-88.02|-63.34|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-63.34|-88.02|< 0.001
82568525|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-32.7||||0.25|TWO_SIDED|95.0|-65.71|32.1|||Repeated Measures ANCOVA|||Day 113: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||32.10|-65.71|0.25
82568526|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|3.44||||0.9|TWO_SIDED|95.0|-40.78|80.66|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||80.66|-40.78|0.90
82568527|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-40.53||||0.091|TWO_SIDED|95.0|-67.5|8.82|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||8.82|-67.50|0.091
82568528|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|13.33||||0.73|TWO_SIDED|95.0|-44.39|130.94|||Repeated Measures ANCOVA|||Day 197: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||130.94|-44.39|0.73
82568529|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-80.02||||0.001|TWO_SIDED|95.0|-91.53|-52.87|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.87|-91.53|0.001
82568530|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-87.6|||<|0.001|TWO_SIDED|95.0|-94.53|-71.88|||Repeated Measures ANCOVA|||Day 8: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-71.88|-94.53|< 0.001
82568531|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Rratio|-79.81||||0.001|TWO_SIDED|95.0|-91.44|-52.37|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-52.37|-91.44|0.001
82631668|NCT01111331|164979851|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric Mean Ratio|96.09|STANDARD_DEVIATION|4.4|||TWO_SIDED|90.0|93.64|98.6|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV|Ratio calculated as empa plus warfarin divided by warfarin||98.60|93.64|
82631669|NCT01111331|164979858|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||1.04|0.73|
82631670|NCT01111331|164979859|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||0.98|0.79|
82631671|NCT01111331|164979860|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.99|||||TWO_SIDED|95.0|0.67|1.48|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline INR value||Difference calculated as empa plus warfarin minus warfarin||1.48|0.67|
82511100|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.335|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.1|-0.3|0.335
82378535|NCT02096744|164465684|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|104.25|STANDARD_ERROR_OF_MEAN|16.6|<|0.0001|TWO_SIDED|90.0|98.367|110.487|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||110.487|98.367|<0.0001
82523526|NCT03928028|164742586|SUPERIORITY|||||||0.765||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.765
82523527|NCT03928028|164742587|SUPERIORITY|||||||0.425||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares mothers in FBT to mothers in FBT+Parent-focused CRT||||.425
82523528|NCT03928028|164742587|SUPERIORITY|||||||0.63|||||||generalized estimating equation|||This analysis compares fathers in FBT to fathers in FBT+Parent-focused CRT||||.630
82523529|NCT03928028|164742587|SUPERIORITY|||||||0.854||||||a priori threshold for statistical significance = .15|generalized estimating equation|||This analysis compares adolescents in FBT to adolescents in FBT+Adolescent-focused CRT||||.854
82523530|NCT02802501|164742589|SUPERIORITY||Hazard Ratio (HR)|0.444|||<|0.001|TWO_SIDED|95.0|0.285|0.693|||Cox Proportional Hazard||If hazard ratio was found to be \<1 then there are lower chances of relapse with Tafenoquine+DHA-PQP compared to DHA-PQP only.|||0.693|0.285|<0.001
82523531|NCT02802501|164742590|SUPERIORITY||Hazard Ratio (HR)|1.722|||||TWO_SIDED|95.0|1.031|2.875|||||If hazard ratio was found to be \>1 then there are higher chances of relapse with Tafenoquine+DHA-PQP compared to Primaquine+DHA-PQP.|||2.875|1.031|
82523532|NCT02802501|164742591|SUPERIORITY||Hazard Ratio (HR)|0.258|||||TWO_SIDED|95.0|0.155|0.431|||||If hazard ratio was found to be \<1 then there are lower chances of relapse with Primaquine+DHA-PQP compared to DHA-PQP only.|||0.431|0.155|
82523533|NCT02802501|164742592|SUPERIORITY||Hazard Ratio (HR)|0.433|||||TWO_SIDED|95.0|0.273|0.686|||||If hazard ratio was found to be \<1 then there are lower chances of relapse with Tafenoquine+DHA-PQP compared to DHA-PQP only.|||0.686|0.273|
82523534|NCT04525547|164742613|OTHER|||||||0.817|||||||t-test, 2 sided|||||||0.8170
82523535|NCT04525547|164742614|OTHER|||||||0.6533|||||||t-test, 2 sided|||||||0.6533
82523536|NCT03315143|164742653|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.63|0.88|||Cox proportional hazards model|||The estimates of the hazard ratio (HR) and corresponding 2-sided 95% confidence interval (CI) was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-cardiovascular (non-CV) death treated as a competing event.||0.88|0.63|<0.001
82523537|NCT03315143|164742654|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.55|0.82|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.82|0.55|<0.001
82523538|NCT03315143|164742655|SUPERIORITY||Hazard Ratio (HR)|0.9|||=|0.35|TWO_SIDED|95.0|0.73|1.12|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.12|0.73|=0.35
82523539|NCT03315143|164742656|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.63|0.83||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.83|0.63|
82523540|NCT03315143|164742657|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.89|0.65|
82523541|NCT03315143|164742658|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.46|1.08||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.08|0.46|
82523542|NCT03315143|164742659|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.83|1.18||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction.||1.18|0.83|
82523543|NCT03315143|164742660|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.91|0.65|
82523544|NCT02052310|164742666|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% confidence interval (CI) for the treatment difference in least square (LS) means from MI ANCOVA model between the 2 treatment groups lay entirely above -0.75 g/dL.|LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.053||0.0005|TWO_SIDED|95.0|0.079|0.287|||ANCOVA|ANCOVA with multiple imputation||Treatment comparison was made using the multiple imputation (MI) strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb as a covariate, and treatment, region and cardiovascular/cerebrovascular/thromboembolic medical history (yes vs. no) as factors.||0.287|0.079|0.0005
82523545|NCT02052310|164742667|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|3.5|||||TWO_SIDED|95.0|-0.7|7.7||||||For the difference of responder rates between 2 treatment groups, the CI was analyzed from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||7.7|-0.7|
82631672|NCT01111331|164979861|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.9|||||TWO_SIDED|95.0|0.79|1.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.02|0.79|
82631673|NCT01111331|164979862|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|1.12|||||TWO_SIDED|95.0|0.64|1.95|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.95|0.64|
82511101|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.012|TWO_SIDED|95.0|-0.5|-0.1|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||-0.1|-0.5|0.012
82511102|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.023|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||No pairwise comparisons between doses of FF + UMEC and FF alone were done unless overall F-test for treatment effect was statistically significant at 5% level. Multiplicity across these comparisons was controlled using a step-down closed testing procedure, whereby statistical comparison of the highest dose of FF + UMEC and FF alone was initially performed, and subsequent comparisons at lower doses continued in a step-down manner if preceding comparison was statistically significant at 5% level.||0.0|-0.5|0.023
82511103|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||||-0.2|-0.7|<0.001
82511104|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.104|TWO_SIDED|95.0|0.0|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|0.0|0.104
82511105|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.062|TWO_SIDED|95.0|0.0|0.5|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.5|0.0|0.062
82511106|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.006|TWO_SIDED|95.0|0.1|0.6|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.6|0.1|0.006
82511107|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.217|TWO_SIDED|95.0|-0.1|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|-0.1|0.217
82511108|NCT01573624|164715087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.143|TWO_SIDED|95.0|-0.1|0.4|||Mixed Models Analysis|||No adjustments were made for comparisons between doses of FF + UMEC and FF + VI.||0.4|-0.1|0.143
82511109|NCT03037528|164715115|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||||||.214
82511110|NCT03037528|164715115|SUPERIORITY|||||||0.017|||||||t-test, 2 sided|||||||.017
82568532|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-83.66|||<|0.001|TWO_SIDED|95.0|-92.79|-62.95|||Repeated Measures ANCOVA|||Day 57: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-62.95|-92.79|< 0.001
82568533|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-81.97|||<|0.001|TWO_SIDED|95.0|-92.35|-57.46|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-57.46|-92.35|< 0.001
82511111|NCT03037528|164715115|SUPERIORITY|||||||0.457|||||||t-test, 2 sided|||||||.457
82511112|NCT03037528|164715115|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||.580
82511113|NCT03037528|164715115|SUPERIORITY|||||||0.275|||||||t-test, 2 sided|||||||.275
82511114|NCT03037528|164715115|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
82511115|NCT03037528|164715115|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||.007
82511116|NCT03037528|164715115|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||||||.142
82511117|NCT03037528|164715116|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||.027
82511118|NCT03037528|164715116|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
82511119|NCT03037528|164715116|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||.054
82511120|NCT03037528|164715116|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||.014
82511121|NCT03037528|164715116|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||.019
82511122|NCT03037528|164715116|SUPERIORITY|||||||0.026|||||||t-test, 2 sided|||||||.026
82511123|NCT03037528|164715116|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||.013
82511124|NCT03037528|164715116|SUPERIORITY|||||||0.163|||||||t-test, 2 sided|||||||.163
82511125|NCT03037528|164715117|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||.018
82511126|NCT03037528|164715117|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
82511127|NCT03037528|164715117|SUPERIORITY|||||||0.134|||||||t-test, 2 sided|||||||.134
82511128|NCT03037528|164715117|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82511129|NCT03037528|164715117|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||||||.048
82511130|NCT03037528|164715117|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||.066
82511131|NCT03037528|164715117|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||||||.045
82511132|NCT03037528|164715117|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||.053
82511133|NCT04847674|164715118|OTHER||LS mean difference|-0.027||||0.7914|TWO_SIDED|95.0|-0.2276|0.174|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1740|-0.2276|0.7914
82511134|NCT04847674|164715118|OTHER||LS mean difference|-0.011||||0.9115|TWO_SIDED|95.0|-0.2126|0.19|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1900|-0.2126|0.9115
82511135|NCT04847674|164715120|OTHER||LS mean difference|0.026||||0.6001|TWO_SIDED|95.0|-0.0733|0.1261|||Mixed Models Analysis||Change from baseline in FEV1 over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1261|-0.0733|0.6001
82378536|NCT02096744|164465685|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.78|STANDARD_ERROR_OF_MEAN|15.8|<|0.0001|TWO_SIDED|90.0|97.25|108.63|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group', 'sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||108.63|97.25|<0.0001
82511136|NCT04847674|164715120|OTHER||LS mean difference|0.027||||0.5922|TWO_SIDED|95.0|-0.0732|0.1276|||Mixed Models Analysis||Change from baseline in FEV1 over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1276|-0.0732|0.5922
82511137|NCT04847674|164715120|OTHER||LS mean difference|0.027||||0.6017|TWO_SIDED|95.0|-0.0744|0.1277|||Mixed Models Analysis||Change from baseline in FEV1 over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1277|-0.0744|0.6017
82631674|NCT01111331|164979863|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.84|0.98|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||0.98|0.84|
82631675|NCT01111331|164979864|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.97|||||TWO_SIDED|95.0|0.68|1.4|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.40|0.68|
82511138|NCT04847674|164715120|OTHER||LS mean difference|0.022||||0.6664|TWO_SIDED|95.0|-0.0796|0.1239|||Mixed Models Analysis||Change from baseline in FEV1 over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1239|-0.0796|0.6664
82631676|NCT01111331|164979865|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|0.85|||||TWO_SIDED|95.0|0.47|1.51|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period, treatment and the baseline PT value||Difference calculated as empa plus warfarin minus warfarin||1.51|0.47|
82631677|NCT02059174|164979883|NON_INFERIORITY_OR_EQUIVALENCE|A frailty model was used with effects for treatment, period and sequence and a random effect for participant. A value of 1.00 for the hazard ratio corresponds to no difference between treatments.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.72|1.59|||||ratio (MK-1293 / EU-Approved Lantus)|Because numerous participants did not achieve End of Action within the 30-hour clamp timeframe, the pre-specified hypothesis of similarity with regard to mean DOA could not be tested and a survival analysis approach was undertaken. The hazard rate is a measure of the instantaneous risk of reaching End of Action at time t given End of Action has not been met up until time t, with the hazard ratio being an estimate of the relative difference in hazard rates between treatments.||1.59|0.72|
82631678|NCT02059174|164979884|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.95|||||TWO_SIDED|95.0|0.88|1.01|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.01|0.88|
82631679|NCT02059174|164979885|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.9|||||TWO_SIDED|95.0|0.81|0.99|||||Ratio (MK-1293 / EU-Approved Lantus)|||0.99|0.81|
82631680|NCT02059174|164979886|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.06|0.92|
82631681|NCT02059174|164979887|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria calculated via Fieller's Theorem was 95% confidence interval for arithmetic mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Ratio of Arithmetic Means|0.96|||||TWO_SIDED|95.0|0.91|1.02|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.02|0.91|
82631682|NCT02059174|164979888|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.02|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.02|0.91|
82631683|NCT02059174|164979889|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.03|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.03|0.93|
82631684|NCT02059174|164979890|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.86|0.97|||||Ratio (MK-1293 / EU-Approved Lantus)|||0.97|0.86|
82631685|NCT02059174|164979891|NON_INFERIORITY_OR_EQUIVALENCE|Similarity criteria was 90% confidence interval for geometric mean ratio (MK-1293/EU-Lantus™) falls between 0.80-1.25|Geometric Mean Ratio|1.0|||||TWO_SIDED|90.0|0.95|1.04|||||Ratio (MK-1293 / EU-Approved Lantus)|||1.04|0.95|
82631686|NCT01901809|164979903|SUPERIORITY||Mean Difference (Net)|11.4|STANDARD_ERROR_OF_MEAN|4.7||0.018|TWO_SIDED|95.0|2.0|20.8|||t-test, 2 sided|||||20.8|2.0|0.018
82631687|NCT01901809|164979904|SUPERIORITY||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|4.8||0.33|TWO_SIDED|95.0|-14.4|4.9|||t-test, 2 sided|||||4.9|-14.4|0.33
82631688|NCT02776904|164979905|OTHER|||||||0.0003||||||Adjustment with Tukey-Kramer|ANOVA|3 DF||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Visual Memory||||0.0003
82568534|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-84.39|||<|0.001|TWO_SIDED|95.0|-93.12|-64.6|||Repeated Measures ANCOVA|||Day 85: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-64.60|-93.12|< 0.001
82568535|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|43.1||||0.47|TWO_SIDED|95.0|-47.06|286.83|||Repeated Measures ANCOVA|||Day 113: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||286.83|-47.06|0.47
82568536|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-68.58||||0.02|TWO_SIDED|95.0|-88.02|-17.63|||Repeated Measures ANCOVA|||Day 169: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||-17.63|-88.02|0.020
82568537|NCT01723514|164847084|SUPERIORITY||LS Geometric Mean Ratio|-54.32||||0.11|TWO_SIDED|95.0|-82.58|19.75|||Repeated Measures ANCOVA|||Day 197: A repeated measures ANCOVA was performed for the ratio of blood flow measures at 30 minutes post capsaicin challenge to pre capsaicin challenge. The model included treatment, day, and the treatment by day interaction as independent variables, and both the 0 minute pre-capsaicin blood flow measure as well as the day 0, 30-minute post-capsaicin blood flow measures on day -1 .||19.75|-82.58|0.11
82568538|NCT00740870|164847112|SUPERIORITY||Kaplan-Meier Rate|74.2|||<|0.0001|ONE_SIDED|95.0|67.1||||Z test||||||67.1|<0.0001
82568539|NCT04414397|164847148|SUPERIORITY||Rate Difference|66.9|||<|0.0001|TWO_SIDED|95.0|54.9|78.8||Analysis was performed using the SAS procedure MIANALYZE with normal approximation to generate an associated p-value for the comparison of responder rates between groups.|Multiple imputation regression|||JUVÉDERM® VOLUMA® XC Treatment vs No-treatment control||78.8|54.9|<0.0001
82568540|NCT04414397|164847152|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean satisfaction score at Month 3 visit is statistically greater than at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
82568541|NCT04414397|164847153|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean satisfaction score at Month 3 is statistically greater than at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
82568542|NCT03640754|164847155|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568543|NCT03640754|164847155|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568544|NCT03640754|164847156|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568545|NCT03640754|164847156|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568546|NCT03640754|164847157|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568547|NCT03640754|164847157|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82568548|NCT03640754|164847158|SUPERIORITY|||||||0.199|||||||t-test, 1 sided|||||||0.199
82631689|NCT02776904|164979905|OTHER|||||||0.0281||||||Adjusted for multiple comparisons using Tukey-Kramer|ANOVA|DF 3||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Verbal memory||||0.0281
82568549|NCT03640754|164847158|SUPERIORITY|||||||0.189|||||||t-test, 1 sided|||||||0.189
82568550|NCT03640754|164847159|SUPERIORITY|Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||||0.398|||||||Mixed Models Analysis|||||||0.398
82568551|NCT03640754|164847159|SUPERIORITY|Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||||0.391|||||||Mixed Models Analysis|||||||0.391
82568552|NCT03640754|164847160|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|||Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||0.232
82568553|NCT03640754|164847160|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Least squares means (LS Means) from a mixed effects repeated measures model with baseline M+S score, current smoking status, bmi, and parity as covariates||||0.085
82568554|NCT03640754|164847161|SUPERIORITY|||||||0.501|||||||Mixed Models Analysis|||||||0.501
82568555|NCT03640754|164847161|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.370
82568556|NCT03640754|164847162|SUPERIORITY|||||||0.333|||||||Mixed Models Analysis|||||||0.333
82568557|NCT03640754|164847162|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||0.014
82568558|NCT03640754|164847163|SUPERIORITY|||||||0.124|||||||Mixed Models Analysis|||||||0.124
82568559|NCT03640754|164847163|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|||||||0.175
82568560|NCT03640754|164847164|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
82568561|NCT03640754|164847164|SUPERIORITY|||||||0.077|||||||Mixed Models Analysis|||||||0.077
82568562|NCT03640754|164847168|SUPERIORITY|||||||0.047|||||||t-test, 1 sided|||||||0.047
82568563|NCT03640754|164847168|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|||||||0.139
82568564|NCT03640754|164847168|SUPERIORITY|||||||0.395|||||||t-test, 1 sided|||||||0.395
82568565|NCT03640754|164847169|SUPERIORITY|||||||0.147|||||||t-test, 1 sided|||||||0.147
82568566|NCT03640754|164847169|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|||||||0.160
82568567|NCT03640754|164847169|SUPERIORITY|||||||0.152|||||||t-test, 1 sided|||||||0.152
82568568|NCT03640754|164847170|SUPERIORITY|||||||0.286|||||||t-test, 1 sided|||||||0.286
82568569|NCT03640754|164847170|SUPERIORITY|||||||0.107|||||||t-test, 1 sided|||||||0.107
82568570|NCT03640754|164847171|SUPERIORITY|||||||0.289|||||||t-test, 1 sided|||||||0.289
82568571|NCT03640754|164847171|SUPERIORITY|||||||0.338|||||||t-test, 1 sided|||||||0.338
82568572|NCT03640754|164847172|SUPERIORITY|||||||0.393|||||||t-test, 1 sided|||||||0.393
82568573|NCT03640754|164847172|SUPERIORITY|||||||0.365|||||||t-test, 1 sided|||||||0.365
82568574|NCT03640754|164847173|SUPERIORITY|||||||0.406|||||||t-test, 1 sided|||||||0.406
82568575|NCT03640754|164847173|SUPERIORITY|||||||0.494|||||||t-test, 1 sided|||||||0.494
82568576|NCT05329402|164847174|NON_INFERIORITY|"The non-inferiority hypothesis is tenable if the lower limit of 95% confidence interval of the difference in the primary effectiveness evaluation indicator device cutting and anastomosis success rate between the test group and the control group is greater than the non-inferiority critical value (-10%)."|Mean Difference (Final Values)|0.0||||0.9727|TWO_SIDED|95.0|-0.0285|0.0273|||Wald|||||0.0273|-0.0285|0.9727
82568577|NCT00276016|164847178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0|||||ANOVA|||For endpoint||||0.561
82568578|NCT00276016|164847179|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||For endpoint||||<.001
82568579|NCT01679613|164847180|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|160.48|STANDARD_DEVIATION|17.9||1|TWO_SIDED|90.0|148.245|173.736||p-value for ratio outside interval 0.8 - 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"Ratio calculated as nintedanib+ketoconazole divided by nintedanib (in %).~The standard deviation is actually the geometric coefficient of variation (gCV)."|||173.736|148.245|1.0000
82568580|NCT01679613|164847181|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|179.62|STANDARD_DEVIATION|29.9||1|TWO_SIDED|90.0|157.557|204.779||p-value for ratio outside interval 0.8 - 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"The standard deviation is actually the gCV (in %).~Ratio calculated as nintedanib+ketoconazole divided by nintedanib"|||204.779|157.557|1.0000
82568581|NCT01679613|164847182|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|168.09|STANDARD_DEVIATION|17.9||1|TWO_SIDED|90.0|155.252|181.981||p-value for ratio outside interval 0.8 to 1.25|ANOVA|The model includes fixed effects for sequence, period, and treatment. Subjects within sequences is included as random effect.|"The standard deviation is actually the gCV.~Ratio calculated as nintedanib+ketoconazole divided by nintedanib (in %)."|||181.981|155.252|1.000
82568582|NCT00113269|164847216|SUPERIORITY_OR_OTHER||differences in event rates|-3.3||||0.4889|TWO_SIDED|95.305|-12.7|6.1|||Normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.|95.305% Confidence Interval is reported, as adjusted for interim analysis based on normal approximation using Greenwood's formula for standard error.|||6.1|-12.7|0.4889
82568583|NCT00113269|164847216|SUPERIORITY_OR_OTHER||differences in event rates|-15.7|||<|0.0001|TWO_SIDED|95.305|-21.9|-9.4|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.|95.305% Confidence Interval is reported, as adjusted for interim analysis based on normal approximation using Greenwood's formula for standard error.|||-9.4|-21.9|<0.0001
82568584|NCT00113269|164847217|SUPERIORITY_OR_OTHER||differences in event rates|2.7||||0.6533|TWO_SIDED|95.0|-9.0|14.3|||normal approximation|||||14.3|-9.0|0.6533
82631690|NCT02776904|164979905|OTHER|||||||0.0035||||||Adjusted for multiple comparisons|ANOVA|DF 3||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Visual Motor composite||||0.0035
82631691|NCT02776904|164979906|OTHER|||||||0.2637||||||Adjusted for multiple comparisons using Tukey-Kramer|ANOVA|||Repeated measures ANOVA compared pre-season scores to post-season, end of the school year and pre-season year 2 for Reaction Time||||0.2637
82631692|NCT02776904|164979907|OTHER||||||<|0.001||||||Used Tukey's Adjustment|ANOVA|||Descriptive analysis, including means and standard deviations was used to summarize all participant data. Velocity was normalized to leg length. Normality was tested and assumed for all measured gait parameters for healthy athletes. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on gait velocity for healthy athletes. Adjusted using Tukey's post hoc method for the pairwise comparisons (0.05 threshold for significance)||||<0.001
82568585|NCT00113269|164847217|SUPERIORITY_OR_OTHER||differences in event rates|-11.9||||0.0024|TWO_SIDED|95.0|-19.5|-4.2|||normal approximation|||||-4.2|-19.5|0.0024
82568586|NCT00113269|164847218|SUPERIORITY_OR_OTHER||differences in event rates|-6.1||||0.4087|TWO_SIDED|95.0|-20.7|8.4|||normal approximation|||||8.4|-20.7|0.4087
82568587|NCT00113269|164847218|SUPERIORITY_OR_OTHER||differences in event rates|-8.7||||0.0456|TWO_SIDED|95.0|-17.2|-0.2|||normal approximation|||||-0.2|-17.2|0.0456
82568588|NCT00113269|164847219|SUPERIORITY_OR_OTHER||differences in event rates|1.1||||0.8742|TWO_SIDED|95.0|-12.7|15.0|||normal approximation|||||15.0|-12.7|0.8742
82568589|NCT00113269|164847219|SUPERIORITY_OR_OTHER||differences in event rates|-14.1||||0.001|TWO_SIDED|95.0|-22.5|-5.7|||normal approximation|||||-5.7|-22.5|0.0010
82568590|NCT00113269|164847221|SUPERIORITY_OR_OTHER||differences in event rates|3.5||||0.4134|TWO_SIDED|95.0|-4.8|11.7|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||11.7|-4.8|0.4134
82568591|NCT00113269|164847221|SUPERIORITY_OR_OTHER||differences in event rates|2.4||||0.2459|TWO_SIDED|95.0|-1.7|6.5|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||6.5|-1.7|0.2459
82568592|NCT00113269|164847222|SUPERIORITY_OR_OTHER||differences in event rates|6.0||||0.3155|TWO_SIDED|95.0|-5.7|17.6|||normal approximation|||||17.6|-5.7|0.3155
82568593|NCT00113269|164847222|SUPERIORITY_OR_OTHER||differences in event rates|-0.4||||0.9045|TWO_SIDED|95.0|-6.5|5.7|||normal approximation|||||5.7|-6.5|0.9045
82568594|NCT00113269|164847223|SUPERIORITY_OR_OTHER||differences in event rates|1.6||||0.5265|TWO_SIDED|95.0|-3.4|6.7|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||6.7|-3.4|0.5265
82631693|NCT02776904|164979908|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on gait parameters of step length. Adjusted using Tukey's post hoc method for the pairwise comparisons (0.05 threshold for significance).|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for the pair wise comparisons between walk status and sex for step length.||||||< 0.0001
82631694|NCT02776904|164979909|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on percent of gait cycle in DLS.|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for the pairwise comparisons with p\<.05.||||||< 0.0001
82631695|NCT02776904|164979910|OTHER|Normality was tested and assumed for all measured gait parameters. A two-way repeated measure analyses of variance (ANOVA) was used to explore the impact of walk status and sex on percent of gait cycle in SLS.|||||<|0.0001|||||||ANOVA|Tukey's post hoc method for pairwise comparison between walk status and sex for %GC in SLS.||||||< 0.0001
82631696|NCT02776904|164979911|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82631697|NCT02776904|164979912|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82631698|NCT02776904|164979913|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82631699|NCT04167514|164979915|SUPERIORITY||Odds Ratio (OR)|1.92||||0.034|TWO_SIDED|95.0|0.954|3.866|||One-sided Wald|One-sided Wald test of superior odds of overall response under AAT treatment compared to placebo.Threshold of significance at \<0.025.|Wald CIs|||3.866|0.954|0.034
82631700|NCT00290355|164979927|OTHER||Hazard Ratio (HR)|0.74||||0.256|TWO_SIDED|95.0|0.44|1.24||Two-sided p value from Cox regression model adjusted for covariate(s) node/squam/stage to test the null hypothesis was: the distribution of time to recurrences was the same in each group (H0 = \[HR=1\]).|Regression, Cox|The p value by log rank test was 0.1995. Criterion for evaluation of the objective: one sided p-value \< 10%||Hazard ratio of GSK 249553 study product.||1.24|0.44|0.256
82631701|NCT00808028|164979959|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
82631702|NCT00808028|164979959|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0007
82631703|NCT00808028|164979959|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631704|NCT00808028|164979959|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631705|NCT00808028|164979959|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
82631706|NCT00808028|164979959|SUPERIORITY_OR_OTHER|||||||0.0392|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0392
82631707|NCT00808028|164979959|SUPERIORITY_OR_OTHER|||||||0.0225|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0225
82378537|NCT02096744|164465686|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means Catapres-TTS-3(Oppanol/Vistanex) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|104.04|STANDARD_ERROR_OF_MEAN|16.7|<|0.0001|TWO_SIDED|90.0|98.148|110.294|||ANOVA|ANOVA on the logarithmic scale including effects for 'Group','sequence', 'subjects within sequences', 'period', and 'treatment'.|"The estimated value is actually the ratio of Catapres-TTS-3 with Oppanol and Catapres-TTS-3 with Vistanex.~The value in parameter dispersion type and dispersion value is actually the intra-individual gCV."|||110.294|98.148|<0.0001
82631708|NCT00808028|164979959|SUPERIORITY_OR_OTHER|||||||0.0244|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0244
82631709|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
82631710|NCT00808028|164979960|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0004
82631711|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631712|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain A05: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631713|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||>0.9999
82631714|NCT00808028|164979960|SUPERIORITY_OR_OTHER|||||||0.0036|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||0.0036
82631715|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631716|NCT00808028|164979960|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Binomial Distribution|||Strain B02: Response rate was compared with whether greater than (\>) 50% of participants had fold rise \>=4 using right one-sided exact test based on binomial distribution and the corresponding p-values were calculated. p-value \< 0.025 was considered significant.||||<0.0001
82631717|NCT01599585|164979985|NON_INFERIORITY_OR_EQUIVALENCE|One tailed test at .05a = .05 margin was set at standardized difference of .50|Regression, Beta|0.4|||||TWO_SIDED|90.0|0.12|0.68||||||||.68|.12|
82631718|NCT01599585|164979997|NON_INFERIORITY_OR_EQUIVALENCE|One tailed test at .05a = .05 margin was set at standardized difference of .50|Regression, Beta|0.47|||||TWO_SIDED|90.0|0.16|0.78||||||||.78|.16|
82631719|NCT05085275|164980005|NON_INFERIORITY|The study planned to enroll 400 patients (200 patients in each treatment arm) to achieve 90% power to detect a hazard ratio (HR) of 0.60 for the primary composite endpoint, with differences between treatment groups assessed using a 2-sided alpha of \<0.05|Hazard Ratio (HR)|0.73||||0.1602|TWO_SIDED|95.0|0.46|1.14|||Regression, Cox|||||1.14|0.46|.1602
82631720|NCT05085275|164980007|OTHER||Hazard Ratio (HR)|0.78|STANDARD_ERROR_OF_MEAN|0.2392||0.3|||||||Regression, Cox|||||||.30
82631721|NCT05085275|164980008|OTHER||Hazard Ratio (HR)|0.35|STANDARD_ERROR_OF_MEAN|0.8295||0.17|||||||Regression, Cox|||||||0.17
82511139|NCT04847674|164715121|OTHER||Hodges-Lehmann (HL) estimator|0.4||||0.7261|TWO_SIDED|95.0|-2.33|3.31|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.31|-2.33|0.7261
82511140|NCT04847674|164715121|OTHER||HL estimator|-0.5||||0.765|TWO_SIDED|95.0|-3.56|3.32|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.32|-3.56|0.7650
82511141|NCT04847674|164715121|OTHER||HL estimator|0.2||||0.7942|TWO_SIDED|95.0|-2.44|3.04|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||3.04|-2.44|0.7942
82631722|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.062|STANDARD_ERROR_OF_MEAN|0.0901|||TWO_SIDED|90.0|-0.087|0.211|||mixed model repeated measures|||Week 12||0.211|-0.087|
82631723|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.084|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|90.0|-0.066|0.234|||mixed model repeated measures|||Week 12||0.234|-0.066|
82631724|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.096|STANDARD_ERROR_OF_MEAN|0.1198|||TWO_SIDED|90.0|-0.102|0.294|||mixed model repeated measures|||Week 24||0.294|-0.102|
82631725|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.205|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|0.007|0.404|||mixed model repeated measures|||Week 24||0.404|0.007|
82378538|NCT00125515|164465700|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|95.0|||||Chi-squared|||all statistical analysis were two tailed and employed an alpha significance level of 0.05.||||0.32
82511142|NCT04847674|164715121|OTHER||HL estimator|-0.8||||0.6147|TWO_SIDED|95.0|-3.81|2.55|||Wilcoxon (Mann-Whitney)||Change from baseline in weekly average of rescue medication use over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using Wilcoxon rank-sum test stratified on randomization stratification factors.||2.55|-3.81|0.6147
82511143|NCT04847674|164715123|OTHER||LS mean difference|-0.083||||0.4394|TWO_SIDED|95.0|-0.2971|0.1301|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1301|-0.2971|0.4394
82511144|NCT04847674|164715123|OTHER||LS mean difference|-0.089||||0.4051|TWO_SIDED|95.0|-0.302|0.1231|||Mixed Models Analysis|||Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEV1 as a covariate.||0.1231|-0.3020|0.4051
82631726|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.197|STANDARD_ERROR_OF_MEAN|0.2135|||TWO_SIDED|90.0|-0.155|0.55|||mixed model repeated measures|||Week 36||0.550|-0.155|
82631727|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.423|STANDARD_ERROR_OF_MEAN|0.2152|||TWO_SIDED|90.0|0.068|0.779|||mixed model repeated measures|||Week 36||0.779|0.068|
82631728|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.052|STANDARD_ERROR_OF_MEAN|0.2644|||TWO_SIDED|90.0|-0.385|0.489|||mixed model repeated measures|||Week 48||0.489|-0.385|
82631729|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.2662|||TWO_SIDED|90.0|0.049|0.928|||mixed model repeated measures|||Week 48||0.928|0.049|
82631730|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.307|STANDARD_ERROR_OF_MEAN|0.3361|||TWO_SIDED|90.0|-0.248|0.862|||mixed model repeated measures|||Week 72||0.862|-0.248|
82631731|NCT04566445|164980030|SUPERIORITY||LS Mean Difference|0.503|STANDARD_ERROR_OF_MEAN|0.3392|||TWO_SIDED|90.0|-0.058|1.063|||mixed model repeated measures|||Week 72||1.063|-0.058|
82631732|NCT04566445|164980031|SUPERIORITY||LS Mean Difference|0.645|STANDARD_ERROR_OF_MEAN|0.4527|||TWO_SIDED|90.0|-0.103|1.393|||mixed model repeated measures|||Week 96||1.393|-0.103|
82631733|NCT04566445|164980031|SUPERIORITY||LS Mean Difference|0.838|STANDARD_ERROR_OF_MEAN|0.4577|||TWO_SIDED|90.0|0.081|1.594|||mixed model repeated measures|||Week 96||1.594|0.081|
82631734|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|-2.6|1.7|||mixed model repeated measures|||Week 12||1.7|-2.6|
82631735|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-4.0|0.4|||mixed model repeated measures|||Week 12||0.4|-4.0|
82631736|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-4.1|0.8|||mixed model repeated measures|||Week 24||0.8|-4.1|
82631737|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.49|||TWO_SIDED|90.0|-7.7|-2.8|||mixed model repeated measures|||Week 24||-2.8|-7.7|
82631738|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|90.0|-2.5|3.5|||mixed model repeated measures|||Week 36||3.5|-2.5|
82631739|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|90.0|-7.7|-1.7|||mixed model repeated measures|||Week 36||-1.7|-7.7|
82511145|NCT04847674|164715126|OTHER||LS mean difference|0.093||||0.3485|TWO_SIDED|95.0|-0.1031|0.2893|||Mixed Models Analysis||Change from baseline in FEF25-75 over 12 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2893|-0.1031|0.3485
82378539|NCT02517463|164465701|NON_INFERIORITY_OR_EQUIVALENCE|"The PPP from a previous study was 67.2%. Assuming the PPP in the preovulatory and post-ovulatory groups were equivalent, and taking 10% to be the maximum permitted difference for equivalence, a minimum of 273 subjects in each group would be required to confirm equivalence between the two groups with a power of 80% and type I error of 0.05. Therefore, our recruitment of 700 subjects with more than 300 in each group was sufficient."|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82568595|NCT00113269|164847223|SUPERIORITY_OR_OTHER||differences in event rates|-0.6||||0.682|TWO_SIDED|95.0|-3.4|2.2|||normal approximation|Analysis based on normal approximation using Greenwood's formula for standard error.||||2.2|-3.4|0.6820
82568596|NCT00113269|164847224|SUPERIORITY_OR_OTHER||differences in event rates|5.9||||0.1797|TWO_SIDED|95.0|-2.7|14.4|||normal approximation|||||14.4|-2.7|0.1797
82378540|NCT02517463|164465702|SUPERIORITY_OR_OTHER|||||||0.564|TWO_SIDED||||||Fisher Exact|||||||0.564
82378541|NCT02517463|164465703|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82511146|NCT04847674|164715126|OTHER||LS mean difference|0.033||||0.7432|TWO_SIDED|95.0|-0.1644|0.2296|||Mixed Models Analysis||Change from baseline in FEF25-75 over 12 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2296|-0.1644|0.7432
82568597|NCT00113269|164847224|SUPERIORITY_OR_OTHER||differences in event rates|-1.4||||0.5655|TWO_SIDED|95.0|-6.3|3.4|||normal approximation|||||3.4|-6.3|0.5655
82568598|NCT00113269|164847225|SUPERIORITY_OR_OTHER|||||||0.4735||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.4735
82568599|NCT00113269|164847225|SUPERIORITY_OR_OTHER|||||||0.1186||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.1186
82568600|NCT00113269|164847226|SUPERIORITY_OR_OTHER|||||||0.5231||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.5231
82568601|NCT00113269|164847226|SUPERIORITY_OR_OTHER|||||||0.122||95.0|||||ANCOVA|Analysis tests the difference between treatment groups for the mean change from month 1 with the month 1 value as covariate.||P-Value applies to 'Change from Month 1'||||0.1220
82568602|NCT00526097|164847252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|2.6|4.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.0|2.6|<0.0001
82568603|NCT00526097|164847253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|3.5|5.2||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs)|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.2|3.5|<0.0001
82568604|NCT00526097|164847254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|2.7|4.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.3|2.7|<0.0001
82568605|NCT00526097|164847255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001||95.0|2.0|3.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.6|2.0|<0.0001
82568606|NCT00526097|164847256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|1.8|3.4||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.4|1.8|<0.0001
82568607|NCT00526097|164847257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|4.1|5.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.8|4.1|<0.0001
82568608|NCT00526097|164847258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001||95.0|5.8|7.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||7.7|5.8|<0.0001
82631740|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.14|||TWO_SIDED|90.0|-0.9|6.1|||mixed model repeated measures|||Week 48||6.1|-0.9|
82631741|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|-5.6|1.4|||mixed model repeated measures|||Week 48||1.4|-5.6|
82568609|NCT00526097|164847259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001||95.0|3.8|5.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.6|3.8|<0.0001
82378542|NCT03449446|164465706|SUPERIORITY||Difference in percentages|0.6||||0.9449|TWO_SIDED|95.0|-17.6|18.8||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted Mantel-Haenszel (MH) method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.8|-17.6|0.9449
82568610|NCT00526097|164847260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|0.45|<|0.0001||95.0|2.9|4.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.7|2.9|<0.0001
82631742|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.24|||TWO_SIDED|90.0|1.0|8.4|||mixed model repeated measures|||Week 72||8.4|1.0|
82631743|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.2|||TWO_SIDED|90.0|-2.8|4.5|||mixed model repeated measures|||Week 72||4.5|-2.8|
82631744|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|90.0|2.7|11.6|||mixed model repeated measures|||Week 96||11.6|2.7|
82378543|NCT03449446|164465706|SUPERIORITY||Difference in percentages|0.4||||0.9646|TWO_SIDED|95.0|-17.6|18.4||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.4|-17.6|0.9646
82378544|NCT03449446|164465706|SUPERIORITY||Difference in percentages|3.7||||0.6219|TWO_SIDED|95.0|-10.9|18.3||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||18.3|-10.9|0.6219
82378545|NCT03449446|164465706|SUPERIORITY||Difference in percentages|8.8||||0.2554|TWO_SIDED|95.0|-6.4|24.1||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||24.1|-6.4|0.2554
82511147|NCT04847674|164715126|OTHER||LS mean difference|0.087||||0.4014|TWO_SIDED|95.0|-0.118|0.292|||Mixed Models Analysis||Change from baseline in FEF25-75 over 16 weeks: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2920|-0.1180|0.4014
82511148|NCT04847674|164715126|OTHER||LS mean difference|0.01||||0.9259|TWO_SIDED|95.0|-0.196|0.2153|||Mixed Models Analysis||Change from baseline in FEF25-75 over 16 weeks: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline FEF25-75 as a covariate.||0.2153|-0.1960|0.9259
82511149|NCT04847674|164715128|OTHER||LS mean difference|0.0||||0.9829|TWO_SIDED|95.0|-0.43|0.42|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.42|-0.43|0.9829
82511150|NCT04847674|164715128|OTHER||LS mean difference|0.1||||0.6302|TWO_SIDED|95.0|-0.32|0.52|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.52|-0.32|0.6302
82511151|NCT04847674|164715128|OTHER||LS mean difference|-0.1||||0.6707|TWO_SIDED|95.0|-0.54|0.35|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.35|-0.54|0.6707
82378546|NCT03449446|164465706|SUPERIORITY||Difference in percentages|10.8||||0.1658|TWO_SIDED|95.0|-4.5|26.1||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.1|-4.5|0.1658
82511152|NCT04847674|164715128|OTHER||LS mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.44|0.43|||Mixed Models Analysis||Change from baseline in ACQ-6 at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACQ-6 as a covariate.||0.43|-0.44|0.9940
82511153|NCT04847674|164715129|OTHER||LS mean difference|-0.7||||0.4683|TWO_SIDED|95.0|-2.71|1.26|||Mixed Models Analysis||Change from baseline in ACT at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.26|-2.71|0.4683
82511154|NCT04847674|164715129|OTHER||LS mean difference|-1.2||||0.2239|TWO_SIDED|95.0|-3.16|0.75|||Mixed Models Analysis||Change from baseline in ACT at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||0.75|-3.16|0.2239
82511155|NCT04847674|164715129|OTHER||LS mean difference|-0.6||||0.5389|TWO_SIDED|95.0|-2.51|1.32|||Mixed Models Analysis||Change from baseline in ACT at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.32|-2.51|0.5389
82511156|NCT04847674|164715129|OTHER||LS mean difference|-0.9||||0.3564|TWO_SIDED|95.0|-2.75|1.0|||Mixed Models Analysis||Change from baseline in ACT at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline ACT as a covariate.||1.00|-2.75|0.3564
82511157|NCT04847674|164715130|OTHER||LS mean difference|-0.2||||0.4436|TWO_SIDED|95.0|-0.62|0.27|||Mixed Models Analysis||Change from baseline in AQLQT at Week 12: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.27|-0.62|0.4436
82511158|NCT04847674|164715130|OTHER||LS mean difference|-0.1||||0.597|TWO_SIDED|95.0|-0.56|0.32|||Mixed Models Analysis||Change from baseline in AQLQT at Week 12: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.32|-0.56|0.5970
82511159|NCT04847674|164715130|OTHER||LS mean difference|-0.2||||0.3769|TWO_SIDED|95.0|-0.68|0.26|||Mixed Models Analysis||Change from baseline in AQLQT at Week 16: TEV-53275 Dose A versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.26|-0.68|0.3769
82631745|NCT04566445|164980036|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|90.0|-1.8|7.1|||mixed model repeated measures|||Week 96||7.1|-1.8|
82568611|NCT00526097|164847261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001||95.0|2.9|4.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.6|2.9|<0.0001
82568612|NCT00526097|164847262|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||The log-rank test was used to calculate the p-value and to test for differences between the treatment groups.||||<0.0001
82568613|NCT00526097|164847263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.0001||95.0|1.62|2.57|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.57|1.62|<0.0001
82631746|NCT01327573|164980042|SUPERIORITY_OR_OTHER|||||||0.09||||||"This p-value was for the overall slope difference between groups (i.e. the interaction between group and time).~Significance level was set at 0.1 a priori."|Mixed effects model analysis|||Analysis used eGFR, group, time, and group-by-time variables.||||0.09
82631747|NCT01029691|164980090|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||unadjusted systolic blood pressure at baseline between groups||||0.45
82631748|NCT01029691|164980090|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Unadjusted diastolic blood pressure at baseline between groups||||0.66
82631749|NCT01029691|164980090|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Unadjusted systolic blood pressure at week 1||||0.61
82631750|NCT01029691|164980090|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Unadjusted diastolic blood pressure at week 1||||0.75
82631751|NCT01029691|164980091|SUPERIORITY|||||||0.085|||||||Chi-squared|||||||0.085
82631752|NCT01029691|164980092|SUPERIORITY|||||||0.012||||||Unadjusted|t-test, 2 sided|||||||0.012
82631753|NCT01029691|164980096|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.4
82631754|NCT00853112|164980163|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-115.0|STANDARD_DEVIATION|98.36||0.12|TWO_SIDED|95.0|-371.5|-1.1|||Bayesian 4-parameter Emax model|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and standard deviation (SD) from the Bayesian analysis.||-1.1|-371.5|0.120
82631755|NCT00853112|164980163|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-170.6|STANDARD_DEVIATION|107.84||0.25|TWO_SIDED|95.0|-409.2|-7.1|||Bayesian 4-parameter Emax model.|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne.s.m2/cm5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-7.1|-409.2|0.250
82511160|NCT04847674|164715130|OTHER||LS mean difference|-0.2||||0.4595|TWO_SIDED|95.0|-0.64|0.29|||Mixed Models Analysis||Change from baseline in AQLQT at Week 16: TEV-53275 Dose B versus Placebo|Analysis was performed using an MMRM with treatment group, week, randomization factors, and treatment group by week interaction as fixed effects, and baseline AQLQ as a covariate.||0.29|-0.64|0.4595
82511161|NCT01686646|164715184|SUPERIORITY_OR_OTHER||LS Mean DIfference|3.5||||0.0248|TWO_SIDED|95.0|0.4|6.5||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||6.5|0.4|0.0248
82631756|NCT00853112|164980163|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-240.2|STANDARD_DEVIATION|109.28||0.485|TWO_SIDED|95.0|-444.8|-33.8|||Bayesian 4-parameter Emax model.|||The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-33.8|-444.8|0.485
82568614|NCT00526097|164847264|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75|||<|0.0001||95.0|1.44|2.13|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.13|1.44|<0.0001
82631757|NCT00853112|164980163|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-327.9|STANDARD_DEVIATION|92.41||0.81|TWO_SIDED|95.0|-492.9|-148.0|||Bayesian 4-parameter Emax model.|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-148.0|-492.9|0.810
82568615|NCT00526097|164847265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08|||<|0.0001||95.0|1.62|2.66|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.66|1.62|<0.0001
82568616|NCT00526097|164847266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7|||<|0.0001||95.0|1.37|2.11|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.11|1.37|<0.0001
82568617|NCT00526097|164847267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52|||<|0.0001||95.0|1.24|1.88|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||1.88|1.24|<0.0001
82568618|NCT00526097|164847268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.13|||<|0.0001||95.0|4.28|68.66|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||68.66|4.28|<0.0001
82378547|NCT03449446|164465706|SUPERIORITY||Difference in percentages|3.2||||0.6963|TWO_SIDED|95.0|-12.9|19.4||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||19.4|-12.9|0.6963
82378548|NCT03449446|164465706|SUPERIORITY||Difference in percentages|10.0||||0.2441|TWO_SIDED|95.0|-6.8|26.8||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.8|-6.8|0.2441
82568619|NCT00526097|164847269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||<|0.0001||95.0|1.81|3.35|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||3.35|1.81|<0.0001
82568620|NCT00526097|164847270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.0025||95.0|1.32|4.74|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||4.74|1.32|0.0025
82568621|NCT00526097|164847271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.08||||0.0105||95.0|1.26|13.24|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||13.24|1.26|0.0105
82631758|NCT00853112|164980163|SUPERIORITY_OR_OTHER||Predicted Mean Difference|-379.4|STANDARD_DEVIATION|73.61||0.974|TWO_SIDED|95.0|-520.6|-238.8|||Bayesian 4-parameter Emax model|||Change over 4 hours post-dose: The Bayesian 4-parameter Emax model was used for analysis. Posterior distribution was calculated and was used to calculate a probability (presented as p value) that the dose gives a difference of \>=240 dyne\*s\*m\^2/cm\^5 from placebo. The predicted means and SD were the posterior means and SD from the Bayesian analysis.||-238.8|-520.6|0.974
82631759|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-195.3|STANDARD_ERROR_OF_MEAN|207.38||0.354|TWO_SIDED|95.0|-618.8|228.3|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using Analysis of Covariance (ANCOVA) with baseline fitted as a covariate.||228.3|-618.8|0.354
82568622|NCT00526097|164847272|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.4002||95.0|0.52|6.47|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||6.47|0.52|0.4002
82568623|NCT00526097|164847273|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||1||95.0|0.37|3.77|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||3.77|0.37|1.0000
82568624|NCT00526097|164847274|SUPERIORITY_OR_OTHER|||||||0.0951|||||||Fisher Exact|||||||0.0951
82568625|NCT00526097|164847275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.0001||95.0|0.09|0.41|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.41|0.09|<0.0001
82568626|NCT00526097|164847276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.2524||95.0|0.02|2.67|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||2.67|0.02|0.2524
82568627|NCT00526097|164847277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2||||0.0035||95.0|0.06|0.63|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.63|0.06|0.0035
82568628|NCT00526097|164847278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.06||||0.0004||95.0|0.01|0.46|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.46|0.01|0.0004
82568629|NCT00526097|164847279|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0086||95.0|0.1|0.69|||Fisher Exact||OR: Bisacodyl / Placebo; The exact 95% confidence interval (CI) by Clopper and Pearson is presented|||0.69|0.10|0.0086
82511162|NCT01686646|164715184|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.1513|TWO_SIDED|95.0|-0.6|4.1||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favoured the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||4.1|-0.6|0.1513
82511163|NCT01686646|164715184|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9|||||TWO_SIDED|95.0|1.1|6.6||Not significant based on hierarchical testing.|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favoured the first named treatment.|Null hypothesis was no difference in treatments in change from baseline in number of valid responses from RVIP task.||6.6|1.1|
82511164|NCT01686646|164715185|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0696|TWO_SIDED|95.0|-0.2|6.1||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of accurate responses from the RVIP.||6.1|-0.2|0.0696
82511165|NCT01686646|164715185|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|||||TWO_SIDED|95.0|0.3|5.2||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||5.2|0.3|
82631760|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-34.1|STANDARD_ERROR_OF_MEAN|190.99||0.86|TWO_SIDED|95.0|-424.1|356.0|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||356.0|-424.1|0.860
82631761|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-435.7|STANDARD_ERROR_OF_MEAN|195.94||0.034|TWO_SIDED|95.0|-835.9|-35.6|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||-35.6|-835.9|0.034
82511166|NCT01686646|164715185|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||||TWO_SIDED|95.0|-1.7|3.9||A hierarchical testing procedure was used such that p-values were only presented if the preceding treatment comparison was statistically significant (p\<0.05).|ANCOVA|From ANCOVA model with factors for treatment group and season, and baseline score as a covariate.|A positive difference favored the first named treatment.|Null hypothesis was no difference in treatments in the change from baseline in the number of valid responses from the RVIP.||3.9|-1.7|
82631762|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-334.7|STANDARD_ERROR_OF_MEAN|201.74||0.107|TWO_SIDED|95.0|-746.7|77.3|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||77.3|-746.7|0.107
82631763|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-278.0|STANDARD_ERROR_OF_MEAN|200.89||0.177|TWO_SIDED|95.0|-688.3|132.2|||ANCOVA|||GR over 4 hours, PVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||132.2|-688.3|0.177
82631764|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.1|STANDARD_ERROR_OF_MEAN|315.91||0.873|TWO_SIDED|95.0|-594.1|696.3|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||696.3|-594.1|0.873
82511167|NCT03993938|164715197|OTHER|Delta PVI percentage change and Delta LAP (v-wave) percentage change were correlated using Spearman's rank correlation - two-tailed.|Spearman's rank correlation|0.34||||0.066|TWO_SIDED||||||Spearman's rank correlation|||||||0.066
82511168|NCT03467425|164715215|SUPERIORITY||Odds Ratio (OR)|1.31|||<|0.001|TWO_SIDED|95.0|1.13|1.51||Analysis was performed using logistic regression model with covariates of treatment group, Baseline CAT score, number of exacerbations in the prior year, actual prior medication use strata and country.|Regression, Logistic||Statistical comparison is presented for combined data of responders, non-responders and those with imputed CAT score at Week 24.|||1.51|1.13|<0.001
82511169|NCT03467425|164715216|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.0121|<|0.001|TWO_SIDED|95.0|0.026|0.073|||ANCOVA||Analysis was performed using an ANCOVA with covariates of treatment group, Baseline FEV1, actual prior medication use strata, country and timing of spirometry.|||0.073|0.026|<0.001
82631765|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|75.2|STANDARD_ERROR_OF_MEAN|303.08||0.806|TWO_SIDED|95.0|-543.8|694.1|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||694.1|-543.8|0.806
82631766|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-262.8|STANDARD_ERROR_OF_MEAN|301.1||0.39|TWO_SIDED|95.0|-877.8|352.1|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||352.1|-877.8|0.390
82631767|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-329.4|STANDARD_ERROR_OF_MEAN|302.97||0.286|TWO_SIDED|95.0|-948.1|289.4|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||289.4|-948.1|0.286
82631768|NCT00853112|164980164|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.7|STANDARD_ERROR_OF_MEAN|314.15||0.843|TWO_SIDED|95.0|-704.3|578.9|||ANCOVA|||GR over 4 hours, SVRI: The analysis was performed using ANCOVA with baseline fitted as a covariate.||578.9|-704.3|0.843
82511170|NCT03467425|164715217|SUPERIORITY||Odds Ratio (OR)|1.99||||0.103|TWO_SIDED|95.0|0.87|4.53|||Regression, Logistic||Analysis was performed using logistic regression model with covariates of treatment group, actual prior medication use strata and country.|||4.53|0.87|0.103
82511171|NCT03091192|164715241|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.313|TWO_SIDED|95.0|0.37|1.36|||Log Rank|||||1.36|0.37|0.313
82511172|NCT03091192|164715242|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.11|TWO_SIDED|95.0|0.21|1.17|||Log Rank||A hazard ratio \< 1 favours Savolitinib|||1.17|0.21|0.110
82378549|NCT03449446|164465706|SUPERIORITY||Difference in percentages|5.2||||0.5229|TWO_SIDED|95.0|-10.7|21.0||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||21.0|-10.7|0.5229
82378550|NCT03449446|164465706|SUPERIORITY||Difference in percentages|10.4||||0.2149|TWO_SIDED|95.0|-6.0|26.9||The p-value between each pair of treatment groups presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|Mantel Haenszel||The percentage difference and 95% C.I. presented were obtained by the stratum-adjusted MH method, with baseline diabetes mellitus status and baseline cirrhosis status as stratification factors.|||26.9|-6.0|0.2149
82511173|NCT03548584|164715247|SUPERIORITY||LS Mean Difference|-5.32||||0.0026|TWO_SIDED|95.0|-8.77|-1.87||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||||-1.87|-8.77|0.0026
82511174|NCT03548584|164715248|SUPERIORITY||LS Mean Difference|-0.27||||0.0078|TWO_SIDED|95.0|-0.47|-0.07||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||||-0.07|-0.47|0.0078
82511175|NCT03548584|164715249|SUPERIORITY||LS Mean Difference|-1.95||||0.004|TWO_SIDED|95.0|-3.28|-0.63||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Aggressive Behavior||-0.63|-3.28|0.0040
82511176|NCT03548584|164715249|SUPERIORITY||LS Mean Difference|-1.41||||0.0296|TWO_SIDED|95.0|-2.68|-0.14||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Physically Nonaggressive Behavior||-0.14|-2.68|0.0296
82511177|NCT03548584|164715249|SUPERIORITY||LS Mean Difference|-1.24||||0.0113|TWO_SIDED|95.0|-2.21|-0.28||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Verbally Agitated Behavior||-0.28|-2.21|0.0113
82511178|NCT03548584|164715249|SUPERIORITY||LS Mean Difference|-0.36||||0.1941|TWO_SIDED|95.0|-0.9|0.18||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Hiding and Hoarding||0.18|-0.90|0.1941
82568630|NCT00526097|164847280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-1.2|-0.9||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.9|-1.2|<0.0001
82511179|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|0.85||||0.4242|TWO_SIDED|95.0|-1.24|2.93||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change From Baseline at Week 2||2.93|-1.24|0.4242
82511180|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|-1.14||||0.3665|TWO_SIDED|95.0|-3.63|1.34||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change From Baseline at Week 4||1.34|-3.63|0.3665
82568631|NCT00526097|164847281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.2|-0.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.8|-1.2|<0.0001
82378551|NCT04208750|164465709|OTHER|Difference between independent proportions||||||||||||||||Added the number of participants from each study arm who preferred each refraction type and then converted it to the proportions|For each outcome, we compared the proportion of participants from both study arms who preferred the VR800 refraction to the proportion of participants who preferred the Standard refraction using a 2-sample test for equality of proportions.|||
82511181|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|-2.32||||0.1065|TWO_SIDED|95.0|-5.15|0.5||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 6||0.50|-5.15|0.1065
82511182|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|-5.08||||0.0011|TWO_SIDED|95.0|-8.12|-2.05||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 8||-2.05|-8.12|0.0011
82511183|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|-6.47|||<|0.0001|TWO_SIDED|95.0|-9.54|-3.4||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 10||-3.40|-9.54|<.0001
82568632|NCT00526097|164847282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.1|-0.8||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.8|-1.1|<0.0001
82568633|NCT00526097|164847283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.9|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.9|<0.0001
82631769|NCT00853112|164980165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|322.8||0.999|TWO_SIDED|95.0|-659.7|658.8|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||658.8|-659.7|0.999
82631770|NCT00853112|164980165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|72.2|STANDARD_ERROR_OF_MEAN|309.69||0.817|TWO_SIDED|95.0|-560.2|704.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||704.7|-560.2|0.817
82631771|NCT00853112|164980165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-82.6|STANDARD_ERROR_OF_MEAN|307.67||0.79|TWO_SIDED|95.0|-711.0|545.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||545.7|-711.0|0.790
82378552|NCT02201277|164465710|SUPERIORITY|||||||1|||||||t-test, 2 sided|||A Fisher's exact test was used to determine if there was a difference in the numbers of filters with penetration for each type. The numbers were not powered enough to make extensive tests in this area meaningful.||||1.0
82631772|NCT00853112|164980165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-325.6|STANDARD_ERROR_OF_MEAN|309.58||0.301|TWO_SIDED|95.0|-957.8|306.7|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||306.7|-957.8|0.301
82631773|NCT00853112|164980165|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.2|STANDARD_ERROR_OF_MEAN|321.0||0.85|TWO_SIDED|95.0|-716.8|594.4|||ANCOVA|||The analysis was performed using ANCOVA with baseline fitted as a covariate.||594.4|-716.8|0.850
82631774|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-269.32|STANDARD_ERROR_OF_MEAN|252.93||0.295|TWO_SIDED|95.0|-785.39|246.76|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||246.76|-785.39|0.295
82631775|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-97.65|STANDARD_ERROR_OF_MEAN|234.55||0.68|TWO_SIDED|95.0|-577.02|381.72|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||381.72|-577.02|0.680
82631776|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-376.61|STANDARD_ERROR_OF_MEAN|241.06||0.129|TWO_SIDED|95.0|-869.53|116.31|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||116.31|-869.53|0.129
82631777|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-342.29|STANDARD_ERROR_OF_MEAN|247.07||0.176|TWO_SIDED|95.0|-846.9|162.32|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||162.32|-846.90|0.176
82631778|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-316.86|STANDARD_ERROR_OF_MEAN|261.58||0.235|TWO_SIDED|95.0|-850.9|217.17|||Longitudinal analysis|||Hour 1: Longitudinal analysis was used to analyze p-value and included baseline as a covariate.||217.17|-850.90|0.235
82631779|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-198.06|STANDARD_ERROR_OF_MEAN|247.62||0.43|TWO_SIDED|95.0|-705.04|308.91|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||308.91|-705.04|0.430
82631780|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.9|STANDARD_ERROR_OF_MEAN|229.23||0.87|TWO_SIDED|95.0|-432.23|508.04|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||508.04|-432.23|0.870
82631781|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-114.06|STANDARD_ERROR_OF_MEAN|244.95||0.645|TWO_SIDED|95.0|-614.57|386.45|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||386.45|-614.57|0.645
82631782|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-299.6|STANDARD_ERROR_OF_MEAN|241.63||0.225|TWO_SIDED|95.0|-794.81|195.61|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||195.61|-794.81|0.225
82631783|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-332.25|STANDARD_ERROR_OF_MEAN|255.93||0.205|TWO_SIDED|95.0|-856.55|192.05|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||192.05|-856.55|0.205
82631784|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.72|STANDARD_ERROR_OF_MEAN|263.63||0.745|TWO_SIDED|95.0|-625.87|452.42|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||452.42|-625.87|0.745
82631785|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|18.0|STANDARD_ERROR_OF_MEAN|245.25||0.942|TWO_SIDED|95.0|-484.46|520.47|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||520.47|-484.46|0.942
82631786|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-265.94|STANDARD_ERROR_OF_MEAN|259.53||0.314|TWO_SIDED|95.0|-796.15|264.28|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||264.28|-796.15|0.314
82631787|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-275.35|STANDARD_ERROR_OF_MEAN|258.01||0.295|TWO_SIDED|95.0|-803.57|252.88|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||252.88|-803.57|0.295
82631788|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-326.55|STANDARD_ERROR_OF_MEAN|272.96||0.241|TWO_SIDED|95.0|-885.12|232.02|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||232.02|-885.12|0.241
82631789|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-145.71|STANDARD_ERROR_OF_MEAN|218.5||0.51|TWO_SIDED|95.0|-592.24|300.83|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||300.83|-592.24|0.510
82631790|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|77.96|STANDARD_ERROR_OF_MEAN|199.85||0.699|TWO_SIDED|95.0|-330.7|486.63|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||486.63|-330.70|0.699
82631791|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-341.91|STANDARD_ERROR_OF_MEAN|204.65||0.106|TWO_SIDED|95.0|-760.45|76.64|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||76.64|-760.45|0.106
82631792|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-289.41|STANDARD_ERROR_OF_MEAN|211.69||0.182|TWO_SIDED|95.0|-722.17|143.35|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||143.35|-722.17|0.182
82631793|NCT00853112|164980166|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-256.6|STANDARD_ERROR_OF_MEAN|224.88||0.263|TWO_SIDED|95.0|-716.26|203.06|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||203.06|-716.26|0.263
82631794|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-328.1|STANDARD_ERROR_OF_MEAN|385.78||0.401|TWO_SIDED|95.0|-1114.11|457.92|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||457.92|-1114.11|0.401
82631795|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-164.96|STANDARD_ERROR_OF_MEAN|370.54||0.659|TWO_SIDED|95.0|-920.05|590.12|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||590.12|-920.05|0.659
82378553|NCT02201277|164465710|EQUIVALENCE|rate of penetration||||||1|||||||t-test, 1 sided|||||||1.0
82378554|NCT02972892|164465718|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.|Mean Difference (Net)|10.9|||<|0.001|TWO_SIDED|95.0|6.89|15.01|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.||15.01|6.89|<.001
82511184|NCT03548584|164715250|SUPERIORITY||LS Mean Difference|-5.32||||0.0026|TWO_SIDED|95.0|-8.77|-1.87||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 12||-1.87|-8.77|0.0026
82511185|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|0.05||||0.3048|TWO_SIDED|95.0|-0.05|0.16||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 2||0.16|-0.05|0.3048
82568634|NCT00526097|164847284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|2.4|2.9||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.9|2.4|<0.0001
82511186|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|-0.03||||0.7058|TWO_SIDED|95.0|-0.17|0.12||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 4||0.12|-0.17|0.7058
82511187|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|-0.06||||0.4516|TWO_SIDED|95.0|-0.23|0.1||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 6||0.10|-0.23|0.4516
82511188|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|-0.27||||0.0052|TWO_SIDED|95.0|-0.46|-0.08||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 8||-0.08|-0.46|0.0052
82511189|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|-0.27||||0.006|TWO_SIDED|95.0|-0.47|-0.08||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 10||-0.08|-0.47|0.0060
82511190|NCT03548584|164715251|SUPERIORITY||LS Mean Difference|-0.27||||0.0078|TWO_SIDED|95.0|-0.47|-0.07||MMRM method with model terms of treatment, trial site, visit, treatment-by-visit and baseline-by-visit interaction were used for analysis.|MMRM|||Change from Baseline at Week 12||-0.07|-0.47|0.0078
82378555|NCT02972892|164465719|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.|Mean Difference (Net)|52.1|||<|0.001|TWO_SIDED|95.0|46.25|57.95|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device was performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for both EtAA.||57.95|46.25|<.001
82511191|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1975|TWO_SIDED|95.0|-0.05|0.26|||Cochran-Mantel-Haenszel|||Week 2||0.26|-0.05|0.1975
82511192|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.0084|TWO_SIDED|95.0|-0.44|-0.06|||Cochran-Mantel-Haenszel|||Week 4||-0.06|-0.44|0.0084
82511193|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.0101|TWO_SIDED|95.0|-0.46|-0.06|||Cochran-Mantel-Haenszel|||Week 6||-0.06|-0.46|0.0101
82511194|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0008|TWO_SIDED|95.0|-0.59|-0.15|||Cochran-Mantel-Haenszel|||Week 8||-0.15|-0.59|0.0008
82511195|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0023|TWO_SIDED|95.0|-0.55|-0.12|||Cochran-Mantel-Haenszel|||Week 10||-0.12|-0.55|0.0023
82511196|NCT03548584|164715252|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.007|TWO_SIDED|95.0|-0.57|-0.09|||Cochran-Mantel-Haenszel|||Week 12||-0.09|-0.57|0.0070
82511197|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.1||||0.729|TWO_SIDED|95.0|0.64|1.91|||Cochran-Mantel-Haenszel|||\>/= 20%: Week 2||1.91|0.64|0.7290
82511198|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.09||||0.6196|TWO_SIDED|95.0|0.78|1.52|||Cochran-Mantel-Haenszel|||\>/=20%: Week 4||1.52|0.78|0.6196
82511199|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.16||||0.2718|TWO_SIDED|95.0|0.88|1.53|||Cochran-Mantel-Haenszel|||\>/=20%: Week 6||1.53|0.88|0.2718
82511200|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.52||||0.0004|TWO_SIDED|95.0|1.19|1.93|||Cochran-Mantel-Haenszel|||\>/=20%: Week 8||1.93|1.19|0.0004
82511201|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.42||||0.0006|TWO_SIDED|95.0|1.15|1.76|||Cochran-Mantel-Haenszel|||\>/=20%: Week 10||1.76|1.15|0.0006
82511202|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.41||||0.0004|TWO_SIDED|95.0|1.15|1.72|||Cochran-Mantel-Haenszel|||\>/=20%: Week 12||1.72|1.15|0.0004
82511203|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.22||||0.7211|TWO_SIDED|95.0|0.39|3.85|||Cochran-Mantel-Haenszel|||\>/=30%: Week 2||3.85|0.39|0.7211
82511204|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.11||||0.7606|TWO_SIDED|95.0|0.57|2.14|||Cochran-Mantel-Haenszel|||\>/=30%: Week 4||2.14|0.57|0.7606
82511205|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.12||||0.5902|TWO_SIDED|95.0|0.74|1.68|||Cochran-Mantel-Haenszel|||\>/=30%: Week 6||1.68|0.74|0.5902
82511206|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.7||||0.0054|TWO_SIDED|95.0|1.14|2.54|||Cochran-Mantel-Haenszel|||\>/=30%: Week 8||2.54|1.14|0.0054
82511207|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.59||||0.0066|TWO_SIDED|95.0|1.11|2.26|||Cochran-Mantel-Haenszel|||\>/=30%: Week 10||2.26|1.11|0.0066
82511208|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.62||||0.0017|TWO_SIDED|95.0|1.18|2.23|||Cochran-Mantel-Haenszel|||\>/=30%: Week 12||2.23|1.18|0.0017
82511209|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.11||||0.9074|TWO_SIDED|95.0|0.2|5.97|||Cochran-Mantel-Haenszel|||\>/=40%: Week 2||5.97|0.20|0.9074
82511210|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|0.98||||0.9625|TWO_SIDED|95.0|0.36|2.64|||Cochran-Mantel-Haenszel|||\>/=40%: Week 4||2.64|0.36|0.9625
82511211|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.26||||0.512|TWO_SIDED|95.0|0.63|2.53|||Cochran-Mantel-Haenszel|||\>/=40%: Week 6||2.53|0.63|0.5120
82511212|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.98||||0.0244|TWO_SIDED|95.0|1.03|3.79|||Cochran-Mantel-Haenszel|||\>/=40%: Week 8||3.79|1.03|0.0244
82511213|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.86||||0.0161|TWO_SIDED|95.0|1.08|3.18|||Cochran-Mantel-Haenszel|||\>/=40%: Week 10||3.18|1.08|0.0161
82511214|NCT03548584|164715253|SUPERIORITY||Ratio of Response Rate|1.62||||0.0347|TWO_SIDED|95.0|1.0|2.61|||Cochran-Mantel-Haenszel|||\>/=40%: Week 12||2.61|1.00|0.0347
82511215|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|0.64||||0.1503|TWO_SIDED|95.0|0.35|1.16|||Cochran-Mantel-Haenszel|||Week 2||1.16|0.35|0.1503
82511216|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|1.07||||0.7559|TWO_SIDED|95.0|0.69|1.67|||Cochran-Mantel-Haenszel|||Week 4||1.67|0.69|0.7559
82511217|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|1.23||||0.2246|TWO_SIDED|95.0|0.88|1.72|||Cochran-Mantel-Haenszel|||Week 6||1.72|0.88|0.2246
82511218|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|1.38||||0.0276|TWO_SIDED|95.0|1.02|1.87|||Cochran-Mantel-Haenszel|||Week 8||1.87|1.02|0.0276
82511219|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|1.46||||0.0031|TWO_SIDED|95.0|1.12|1.89|||Cochran-Mantel-Haenszel|||Week 10||1.89|1.12|0.0031
82511220|NCT03548584|164715254|SUPERIORITY||Ratio of Response Rate|1.47||||0.0017|TWO_SIDED|95.0|1.14|1.89|||Cochran-Mantel-Haenszel|||Week 12||1.89|1.14|0.0017
82511221|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.1||||0.8549|TWO_SIDED|95.0|0.4|3.03|||Cochran-Mantel-Haenszel|||Week 2||3.03|0.40|0.8549
82511222|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.95||||0.0093|TWO_SIDED|95.0|1.14|3.32|||Cochran-Mantel-Haenszel|||Week 4||3.32|1.14|0.0093
82511223|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.56||||0.0083|TWO_SIDED|95.0|1.1|2.22|||Cochran-Mantel-Haenszel|||Week 6||2.22|1.10|0.0083
82511224|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.85|||<|0.0001|TWO_SIDED|95.0|1.32|2.58|||Cochran-Mantel-Haenszel|||Week 8||2.58|1.32|<.0001
82511225|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.57||||0.0005|TWO_SIDED|95.0|1.18|2.09|||Cochran-Mantel-Haenszel|||Week 10||2.09|1.18|0.0005
82511226|NCT03548584|164715255|SUPERIORITY||Ratio of Response Rate|1.32||||0.016|TWO_SIDED|95.0|1.03|1.69|||Cochran-Mantel-Haenszel|||Week 12||1.69|1.03|0.0160
82568635|NCT00526097|164847285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|2.1|2.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.7|2.1|<0.0001
82568636|NCT00526097|164847286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|2.0|2.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.5|2.0|<0.0001
82568637|NCT00526097|164847287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|1.7|2.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.3|1.7|<0.0001
82568638|NCT00526097|164847288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0002||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0002
82568639|NCT00526097|164847289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0003||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0003
82568640|NCT00526097|164847290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0127||95.0|-0.2|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.2|0.0127
82568641|NCT00526097|164847291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0064||95.0|-0.3|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.3|0.0064
82568642|NCT00526097|164847292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.9|-0.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.6|-0.9|<0.0001
82568643|NCT00526097|164847293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.0|-0.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.6|-1.0|<0.0001
82568644|NCT00526097|164847294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.9|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.9|<0.0001
82568645|NCT00526097|164847295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.8|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.8|<0.0001
82568646|NCT00526097|164847296|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|-0.2|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.2|<0.0001
82378556|NCT02972892|164465720|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.|Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|2.64|8.04|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.||8.04|2.64|<.001
82631796|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-287.08|STANDARD_ERROR_OF_MEAN|372.6||0.447|TWO_SIDED|95.0|-1047.59|473.42|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||473.42|-1047.59|0.447
82568647|NCT00526097|164847297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|<0.0001
82378557|NCT02972892|164465721|NON_INFERIORITY|Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.|Mean Difference (Net)|44.5|||<|0.001|TWO_SIDED|95.0|35.56|53.41|||t-test, 2 sided|||Using t-test, comparison of the weighted average percent duration between the Et Control and control device will be performed by calculating the difference and its 95% 2-sided confidence interval between the two arms. Non-inferiority will be concluded if the lower limit of the 95% confidence interval is ≥ -5% for EtO2.||53.41|35.56|<.001
82378558|NCT02729909|164465747|SUPERIORITY||Median Value of confidence interval (CI)|1.0||||0.02|TWO_SIDED|95.0|0.1|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||||1.9|0.1|0.020
82378559|NCT02729909|164465748|SUPERIORITY||Median Value of CI|1.0||||0.051|TWO_SIDED|95.0|0.0|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||1.9|0.0|0.051
82631797|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-457.16|STANDARD_ERROR_OF_MEAN|374.26||0.231|TWO_SIDED|95.0|-1220.86|306.53|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||306.53|-1220.86|0.231
82378560|NCT02729909|164465748|SUPERIORITY||Median Value of CI|1.5||||0.003|TWO_SIDED|95.0|1.0|2.0||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||2.0|1.0|0.003
82631798|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-75.24|STANDARD_ERROR_OF_MEAN|384.2||0.846|TWO_SIDED|95.0|-858.19|707.71|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||707.71|-858.19|0.846
82631799|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-115.64|STANDARD_ERROR_OF_MEAN|357.2||0.748|TWO_SIDED|95.0|-844.24|612.96|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||612.96|-844.24|0.748
82631800|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.87|STANDARD_ERROR_OF_MEAN|342.91||0.993|TWO_SIDED|95.0|-702.41|696.67|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||696.67|-702.41|0.993
82631801|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|174.2|STANDARD_ERROR_OF_MEAN|342.93||0.615|TWO_SIDED|95.0|-526.41|874.81|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||874.81|-526.41|0.615
82631802|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-494.91|STANDARD_ERROR_OF_MEAN|344.72||0.161|TWO_SIDED|95.0|-1199.04|209.21|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||209.21|-1199.04|0.161
82631803|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-134.48|STANDARD_ERROR_OF_MEAN|355.5||0.708|TWO_SIDED|95.0|-859.74|590.77|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||590.77|-859.74|0.708
82631804|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|47.61|STANDARD_ERROR_OF_MEAN|365.43||0.897|TWO_SIDED|95.0|-697.56|792.79|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||792.79|-697.56|0.897
82631805|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|98.42|STANDARD_ERROR_OF_MEAN|350.87||0.781|TWO_SIDED|95.0|-617.15|813.99|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||813.99|-617.15|0.781
82631806|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-28.31|STANDARD_ERROR_OF_MEAN|355.47||0.937|TWO_SIDED|95.0|-753.46|696.83|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||696.83|-753.46|0.937
82631807|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-369.57|STANDARD_ERROR_OF_MEAN|353.25||0.304|TWO_SIDED|95.0|-1090.86|351.72|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||351.72|-1090.86|0.304
82631808|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-185.64|STANDARD_ERROR_OF_MEAN|363.77||0.613|TWO_SIDED|95.0|-927.54|556.27|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||556.27|-927.54|0.613
82378561|NCT02729909|164465748|SUPERIORITY||Median Value of CI|1.0||||0.009|TWO_SIDED|95.0|0.1|1.9||Spontaneous bowel movement was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||1.9|0.1|0.009
82378562|NCT02729909|164465749|SUPERIORITY||Odds Ratio (OR)|2.08||||0.009|TWO_SIDED|95.0|1.19|3.62||The proportion of participants with an SBM within 24 hours after first dose in Week 1 is analyzed by a Cochran-Mantel-Haenszel (CMH) test stratified by center. Centers with less participants were pooled based on geographical proximity.|Cochran-Mantel-Haenszel|||||3.62|1.19|0.009
82378563|NCT02729909|164465750|SUPERIORITY||Median Value of CI|-0.4||||0.001|TWO_SIDED|95.0|-0.6|-0.2||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||-0.2|-0.6|0.001
82378564|NCT02729909|164465750|SUPERIORITY||Median Value of CI|-0.3||||0.004|TWO_SIDED|95.0|-0.5|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||-0.1|-0.5|0.004
82378565|NCT02729909|164465750|SUPERIORITY||Median Value of CI|-0.2||||0.024|TWO_SIDED|95.0|-0.4|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||-0.1|-0.4|0.024
82378566|NCT02729909|164465750|SUPERIORITY||Median Value of CI|-0.3||||0.01|TWO_SIDED|95.0|-0.5|-0.1||Average Degree of Straining was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||-0.1|-0.5|0.010
82378567|NCT02729909|164465751|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|1.0||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||1.0|0.4|<0.001
82511227|NCT00533949|164715256|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.38||||0.0042|TWO_SIDED|95.0|1.09|1.76|||Log Rank||Reference group = 60 gy|The trial was a two-by-two factorial design with radiation therapy dose as one treatment factor and cetuximab as the other. A log-rank test for each factor at one-sided α of 0.0125 (α of 0.0250 for both factors to account for multiple comparisons) would yield power of 80% to detect an improvement in median survival from 17.1 to 24 months after 339 deaths were reported out of 500 patients. For RT analysis, the comparison was arms 1 \& 3 vs arms 2 \& 4; for cetuximab, arms 1 \& 2 vs arms 3 \& 4.||1.76|1.09|0.0042
82523546|NCT02052310|164742668|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|4.3|||||TWO_SIDED|95.0|-0.1|8.7||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||8.7|-0.1|
82568648|NCT00526097|164847298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.2|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.2|<0.0001
82378568|NCT02729909|164465751|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|0.9||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||0.9|0.4|<0.001
82568649|NCT00526097|164847299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0018||95.0|-0.2|0.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.0|-0.2|0.0018
82568650|NCT00526097|164847300|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568651|NCT00526097|164847301|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568652|NCT00526097|164847302|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568653|NCT00526097|164847303|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568654|NCT00526097|164847304|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568655|NCT00526097|164847305|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568656|NCT00526097|164847306|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568657|NCT00526097|164847307|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568658|NCT00526097|164847308|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568659|NCT00526097|164847309|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568660|NCT00526097|164847310|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82631809|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|265.51|STANDARD_ERROR_OF_MEAN|324.88||0.42|TWO_SIDED|95.0|-397.45|928.48|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||928.48|-397.45|0.420
82568661|NCT00526097|164847311|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||<0.0001
82568662|NCT00526097|164847312|SUPERIORITY_OR_OTHER|||||||0.6773|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.6773
82568663|NCT00526097|164847313|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0002
82568664|NCT00526097|164847314|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0001
82568665|NCT00526097|164847315|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for baseline||||||0.0005
82568666|NCT00526097|164847316|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
82568667|NCT00526097|164847317|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
82568668|NCT00526097|164847318|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Exact p-value|Wilcoxon rank sum test|||||||<0.0001
82568669|NCT00526097|164847319|SUPERIORITY_OR_OTHER|||||||0.0058||||||Exact p-value|Wilcoxon rank sum test|||||||0.0058
82568670|NCT00526097|164847320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|2.01||0.798||95.0|-3.4|4.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.5|-3.4|0.7980
82568671|NCT00526097|164847321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|2.05||0.6129||95.0|-3.0|5.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.1|-3.0|0.6129
82568672|NCT00526097|164847322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.31||0.3567||95.0|-2.4|6.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||6.7|-2.4|0.3567
82568673|NCT00526097|164847323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|1.34||0.1407||95.0|-0.7|4.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.6|-0.7|0.1407
82568674|NCT00526097|164847324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|1.74||0.013||95.0|0.9|7.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||7.7|0.9|0.0130
82631810|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|240.17|STANDARD_ERROR_OF_MEAN|311.63||0.447|TWO_SIDED|95.0|-395.81|876.14|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||876.14|-395.81|0.447
82631811|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-176.74|STANDARD_ERROR_OF_MEAN|309.11||0.572|TWO_SIDED|95.0|-808.1|454.63|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||454.63|-808.10|0.572
82631812|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.96|STANDARD_ERROR_OF_MEAN|311.11||0.929|TWO_SIDED|95.0|-663.31|607.38|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||607.38|-663.31|0.929
82631813|NCT00853112|164980167|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|29.58|STANDARD_ERROR_OF_MEAN|323.01||0.928|TWO_SIDED|95.0|-629.62|688.79|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||688.79|-629.62|0.928
82631814|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.412|TWO_SIDED|95.0|-0.35|0.83|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.83|-0.35|0.412
82631815|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.999|TWO_SIDED|95.0|-0.58|0.58|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.58|-0.58|0.999
82631816|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.28||0.535|TWO_SIDED|95.0|-0.39|0.74|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.74|-0.39|0.535
82378569|NCT02729909|164465751|SUPERIORITY||Median Value of CI|0.6|||<|0.001|TWO_SIDED|95.0|0.4|0.8||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||0.8|0.4|<0.001
82631817|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.28||0.128|TWO_SIDED|95.0|-0.13|1.01|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.01|-0.13|0.128
82631818|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.29||0.823|TWO_SIDED|95.0|-0.67|0.53|||Longitudinal analysis|||Change at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.53|-0.67|0.823
82631819|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.34||0.396|TWO_SIDED|95.0|-0.4|0.99|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.99|-0.40|0.396
82378570|NCT02729909|164465751|SUPERIORITY||Median Value of CI|0.5|||<|0.001|TWO_SIDED|95.0|0.2|0.7||Mean Degree of Stool Consistency was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||0.7|0.2|<0.001
82631820|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.33||0.899|TWO_SIDED|95.0|-0.63|0.72|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.72|-0.63|0.899
82631821|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.33||0.928|TWO_SIDED|95.0|-0.7|0.64|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.64|-0.70|0.928
82511228|NCT00533949|164715256|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.07||||0.29|TWO_SIDED|95.0|0.84|1.35|||Log Rank||Reference level = cetuximab|The trial was a two-by-two factorial design with radiation therapy dose as one treatment factor and cetuximab as the other. A log-rank test for each factor at one-sided α of 0.0125 (α of 0.0250 for both factors to account for multiple comparisons) would yield power of 80% to detect an improvement in median survival from 17.1 to 24 months after 339 deaths were reported out of 500 patients. For RT analysis, the comparison was arms 1 \& 3 vs arms 2 \& 4; for cetuximab, arms 1 \& 2 vs arms 3 \& 4.||1.35|0.84|0.29
82511229|NCT00533949|164715257|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.19||||0.12|TWO_SIDED|95.0|0.95|1.47|||Log Rank||Reference level = 60 Gy|Progression-free survival is estimated by the Kaplan-Meier method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.47|0.95|0.12
82511230|NCT00533949|164715257|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.89|TWO_SIDED|95.0|0.8|1.22|||Log Rank||Reference level = cetuximab|Progression-free survival is estimated by the Kaplan-Meier method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05.||1.22|0.80|0.89
82511231|NCT00533949|164715258|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.24|TWO_SIDED|95.0|0.89|1.53|||Gray's test||Reference level = 60 Gy|Local-regional failure was estimated by the cumulative incidence method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.53|0.89|0.24
82511232|NCT00533949|164715258|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.22|TWO_SIDED|95.0|0.64|1.1|||Gray's test||Reference level = cetuximab|Local-regional failure was estimated by the cumulative incidence method. Comparisons by RT level and by cetuximab assignment are performed separately and tested with a two-sided significance level of 0.05 for each comparison.||1.10|0.64|0.22
82511233|NCT00533949|164715259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Esophagitis: Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of esophagitis and the worst grade of pneumonitis at any time were classified by binary groupings of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test with a significance level of 0.05.||||<0.0001
82511234|NCT00533949|164715259|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2533|||||||Chi-squared|||PNEUMONITIS: Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of esophagitis and the worst grade of pneumonitis at any time were classified by binary groupings of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test with a significance level of 0.05.||||0.2533
82511235|NCT00533949|164715260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|||||||Chi-squared|||Only those toxicities reported as possibly, probably, or definitely related to treatment were considered. The worst grade of of toxicity at any time was classified by a binary grouping of \< grade 3 and \>= grade 3. Comparisons were made using a two-sided chi-square test.||||0.52
82511236|NCT00533949|164715262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0233|||||||Cochran-Mantel-Haenszel|||FACT-TOI-LCS was assessed and changes from baseline to 3 months calculated and grouped using a 2 point decline as the threshold. Comparisons of decline vs no decline by RT level were from a Cochran-Mantel-Haenszel test and controlling for cetuximab assignment using a two-side significance level of 0.05.||||0.0233
82511237|NCT00533949|164715263|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.92
82511238|NCT00533949|164715264|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.19
82511239|NCT00533949|164715265|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.78|TWO_SIDED|95.0|0.68|1.33|||Regression, Cox||Reference level = EGFR H-Score \< 200|Univariate model of overall survival by EGFR group||1.33|0.68|0.78
82511240|NCT00533949|164715265|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.61|TWO_SIDED|95.0|0.74|1.65|||Regression, Cox||Reference level = EGFR H-Score \< 200|Univariate model of time to local-regional failure by EGFR group||1.65|0.74|0.61
82511241|NCT00533949|164715266|SUPERIORITY|||||||0.02||||||Two-sided significance level = 0.05|Chi-squared|||||||0.02
82511242|NCT00533949|164715267|OTHER||Cox Proportional Hazard|1.001||||0.06|TWO_SIDED|95.0|1.0|1.002||Two-sided significance level = 0.05|Regression, Cox||Corresponding to a one unit increase in GTV|Univariate model with GTV as a continuous variable||1.002|1.000|0.06
82511243|NCT00533949|164715267|SUPERIORITY||Hazard Ratio (HR)|1.001||||0.78|TWO_SIDED|95.0|0.997|1.004||Two-sided significance level = 0.05|Regression, Cox||Corresponding to a one unit increase in GTV|Multivariate model with GTV as a continuous variable, adjusting for planned radiation therapy dose group (60 Gy or 74 Gy) and the interaction of GTV and planned dose.|P-Value for the interaction of GTV and planned dose = 0.77|1.004|0.997|0.78
82511244|NCT00533949|164715268|SUPERIORITY||Cox Proportional Hazard|1.0||||0.94|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of overall survival time by PET SUV as a continuous variable||1.02|0.98|0.94
82511245|NCT00533949|164715268|SUPERIORITY||Cox Proportional Hazard|1.0||||0.72|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of time to local-regional failure by PET SUV as a continuous variable||1.02|0.98|0.72
82511246|NCT00533949|164715268|SUPERIORITY||Cox Proportional Hazard|1.0||||0.79|TWO_SIDED|95.0|0.98|1.02|||Regression, Cox||Corresponding to a one unit increase in SUV|Univariate model of time to distant metastasis by PET SUV as a continuous variable||1.02|0.98|0.79
82511247|NCT00727194|164715270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.25||||0.0144|TWO_SIDED|95.0|-7.45|-1.05||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||||-1.05|-7.45|0.0144
82511248|NCT00727194|164715270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.71||||0.117|TWO_SIDED|95.0|-10.8|1.37||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||||1.37|-10.80|0.1170
82631822|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.33||0.203|TWO_SIDED|95.0|-0.25|1.11|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.11|-0.25|0.203
82631823|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.772|TWO_SIDED|95.0|-0.6|0.8|||Longitudinal analysis|||Change at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.80|-0.60|0.772
82511249|NCT00727194|164715271|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||No multiple comparisons or multiplicity adjustments were conducted.|Chi-squared|||||||1.0000
82511250|NCT00727194|164715271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606|TWO_SIDED|||||No multiple comparisons or multiplicity adjustments were conducted.|Chi-squared|||||||0.0606
82568675|NCT00526097|164847325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|2.14||0.5849||95.0|-3.0|5.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||5.3|-3.0|0.5849
82511251|NCT00727194|164715272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.58||||0.1873|TWO_SIDED|95.0|-4.08|0.91||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||||0.91|-4.08|0.1873
82511252|NCT00727194|164715272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.57||||0.041|TWO_SIDED|95.0|-6.97|-0.17||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||||-0.17|-6.97|0.0410
82511253|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83||||0.919|TWO_SIDED|95.0|-16.94|18.6||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Physical Functioning||18.60|-16.94|0.9190
82511254|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.86||||0.5931|TWO_SIDED|95.0|-39.05|23.33||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Physical Functioning||23.33|-39.05|0.5931
82511255|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|3.13||||0.7319|TWO_SIDED|95.0|-16.64|22.89||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Role Physical||22.89|-16.64|0.7319
82631824|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.29||0.771|TWO_SIDED|95.0|-0.52|0.69|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.69|-0.52|0.771
82511256|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-7.14||||0.691|TWO_SIDED|95.0|-45.36|31.08||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Role Physical||31.08|-45.36|0.6910
82631825|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.29||0.572|TWO_SIDED|95.0|-0.75|0.42|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.42|-0.75|0.572
82631826|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.29||0.966|TWO_SIDED|95.0|-0.58|0.6|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.60|-0.58|0.966
82511257|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.42||||0.1311|TWO_SIDED|95.0|-22.18|3.34||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Bodily Pain||3.34|-22.18|0.1311
82511258|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.86||||0.2406|TWO_SIDED|95.0|-41.08|11.36||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Bodily Pain||11.36|-41.08|0.2406
82511259|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.17||||0.0578|TWO_SIDED|95.0|-0.29|14.62||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||General Health||14.62|-0.29|0.0578
82511260|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.43||||0.5073|TWO_SIDED|95.0|-16.26|31.11||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||General Health||31.11|-16.26|0.5073
82631827|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.28||0.157|TWO_SIDED|95.0|-0.17|1.0|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.00|-0.17|0.157
82631828|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.3||0.546|TWO_SIDED|95.0|-0.43|0.79|||Longitudinal analysis|||Change at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.79|-0.43|0.546
82631829|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.28||0.818|TWO_SIDED|95.0|-0.51|0.64|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.64|-0.51|0.818
82631830|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.603|TWO_SIDED|95.0|-0.71|0.42|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.42|-0.71|0.603
82631831|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.27||0.495|TWO_SIDED|95.0|-0.37|0.74|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.74|-0.37|0.495
82631832|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.27||0.375|TWO_SIDED|95.0|-0.31|0.8|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.80|-0.31|0.375
82511261|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.17||||0.2474|TWO_SIDED|95.0|-3.39|11.72||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Vitality||11.72|-3.39|0.2474
82511262|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.68||||0.8085|TWO_SIDED|95.0|-26.24|20.88||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Vitality||20.88|-26.24|0.8085
82511263|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.46||||0.0716|TWO_SIDED|95.0|-24.13|1.21||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Social Functioning||1.21|-24.13|0.0716
82511264|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.07||||0.1966|TWO_SIDED|95.0|-41.68|9.54||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Social Functioning||9.54|-41.68|0.1966
82511265|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.81||||0.1701|TWO_SIDED|95.0|-29.6|5.99||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Role Emotional||5.99|-29.60|0.1701
82511266|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.95||||0.7422|TWO_SIDED|95.0|-32.58|44.48||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Role Emotional||44.48|-32.58|0.7422
82511267|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.42||||0.9007|TWO_SIDED|95.0|-6.83|7.67||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Mental Health||7.67|-6.83|0.9007
82511268|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.86||||0.1519|TWO_SIDED|95.0|-7.57|43.29||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Mental Health||43.29|-7.57|0.1519
82511269|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.07||||0.6807|TWO_SIDED|95.0|-4.57|6.72||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Physical Component Score||6.72|-4.57|0.6807
82511270|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.23||||0.2226|TWO_SIDED|95.0|-16.79|4.32||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Physical Component Score||4.32|-16.79|0.2226
82511271|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.92||||0.1505|TWO_SIDED|95.0|-7.1|1.26||No multiple comparisons or multiplicity adjustments were conducted.|Paired t-test|||Mental Component Score||1.26|-7.10|0.1505
82511272|NCT00727194|164715273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.55||||0.4151|TWO_SIDED|95.0|-8.77|19.87||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Mental Component Score||19.87|-8.77|0.4151
82511273|NCT00727194|164715274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.25||||0.3377|TWO_SIDED|95.0|-3.94|10.44||No multiple comparisons or multiplicity adjustments were conducted.|paired t-test|||Forced Vital Capacity||10.44|-3.94|0.3377
82511274|NCT00727194|164715274|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-10.57||||0.3391|TWO_SIDED|95.0|-33.71|12.56||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Forced Vital Capacity||12.56|-33.71|0.3391
82631833|NCT00853112|164980168|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.29||0.392|TWO_SIDED|95.0|-0.34|0.84|||Longitudinal analysis|||Change at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.84|-0.34|0.392
82511275|NCT00727194|164715274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-4.35|4.35||No multiple comparisons or multiplicity adjustments were conducted.|paired t test|||Negative Inspiratory Force||4.35|-4.35|1.0000
82631834|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|3.75||0.21|TWO_SIDED|95.0|-12.47|2.86|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.86|-12.47|0.210
82631835|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.47|STANDARD_ERROR_OF_MEAN|3.61||0.225|TWO_SIDED|95.0|-11.84|2.9|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.90|-11.84|0.225
82378571|NCT02729909|164465752|SUPERIORITY||Median Value of CI|-0.5||||0.02|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 1||-0.1|-0.9|0.020
82378572|NCT02729909|164465752|SUPERIORITY|||||||0.072||||||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 2||||0.072
82511276|NCT00727194|164715274|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.57||||0.2292|TWO_SIDED|95.0|-17.87|4.73||No multiple comparisons or multiplicity adjustments were conducted.|t-test, 2 sided|||Negative Inspiratory Force||4.73|-17.87|0.2292
82511277|NCT04269161|164715278|NON_INFERIORITY|The margin of non-inferiority is 10 seconds such that the device is no worse than 10 seconds on average than manual mode. Our study is a 2-treatment, 24-period crossover design that accounts for first-order carryover effects, indicating a slightly higher power than a 2x2. Each subject acted as their own control. The study was defined as intention to treat, such that manual adjustments during the automated arm would be included in that arm.|Mean Difference (Net)|-9.885||||0.003|TWO_SIDED|95.0|-16.51|-3.27||The p-value is significant at 0.01.|t-test, 2 sided||The difference is time to re-establish in automatic mode minus time to re-establish in manual mode. (a negative number favors automatic mode)|A sample requirement of 48 patients was determined based on a pilot study to provide 88% power, and 0.05 significance (two sided) to show the mean difference is less than 10 seconds based on a 2x2 crossover design. Considering patient drop-out, a sample size of n=40 drops power to 82%.||-3.27|-16.51|0.003
82511278|NCT04269161|164715279|OTHER|The difference is defined as the difference of proportion of time in the target range of SpO2 in modes, automatic minus manual. Our study is a 2-treatment, 24-period crossover design that accounts for first-order carryover effects, indicating a slightly higher power than a 2x2. Each subject acted as their own control. The study was defined as intention to treat, such that manual adjustments during the automated arm would be included in that arm.|Mean Difference (Net)|0.018||||0.02|TWO_SIDED|95.0|0.003|0.034||The threshold for statistical significance is p=.05|t-test, 2 sided|Two-sample t test with equal variances. Linear mixed model patient random effects, adjusted for site, sex, race, weight, gestational age, bed type.|Treatment difference = automatic - manual. A positive number favors automatic.|The difference in the proportion of time in the target saturation is calculated between the automatic and manual models. For each 6-hour time block, we calculate the proportion of time the patient stays within the prescribed SpO2 range.||.034|0.003|.02
82568676|NCT00526097|164847326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.94||0.7543||95.0|-3.2|4.4||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||4.4|-3.2|0.7543
82511279|NCT04368429|164715281|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference in percentage was greater than (\>) -10% for the serogroup A.|Difference in percentage|20.27|||||TWO_SIDED|95.0|11.38|28.75|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup A||28.75|11.38|
82511280|NCT04368429|164715281|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup C.|Difference in percentage|33.98|||||TWO_SIDED|95.0|26.2|41.5|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup C||41.50|26.20|
82511281|NCT04368429|164715281|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup Y.|Difference in percentage|34.22|||||TWO_SIDED|95.0|26.66|41.64|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup Y||41.64|26.66|
82568677|NCT00526097|164847327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|1.58||0.0273||95.0|0.4|6.6||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||6.6|0.4|0.0273
82511282|NCT04368429|164715281|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in percentage was \>-10% for the serogroup W.|Difference in percentage|38.19|||||TWO_SIDED|95.0|28.93|46.53|||||95% CI of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Serogroup W||46.53|28.93|
82511283|NCT03633396|164715306|OTHER||Least Squares (LS) Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.98||0.944|TWO_SIDED|95.0|-4.05|3.77|||Mixed-model Repeated Measures (MMRM)|MMRM including fixed effects of treatment, history of plaque psoriasis, visit, treatment by visit interaction, and Baseline PPPASI score as covariate.|Least-squares mean difference = Imsidolimab - Placebo|The change from Baseline in PPPASI at Week 16 was analyzed using a a general linear mixed model for repeated measures (MMRM). The model included fixed effects for treatment, history of plaque psoriasis (Yes/No), visit, treatment by visit interaction, and Baseline PPPASI score as covariate.||3.77|-4.05|0.944
82511284|NCT03633396|164715308|OTHER||Odds Ratio (OR)|0.879|||||TWO_SIDED|95.0|0.288|2.686|||||Odds ratio from a logistic regression model including treatment as fixed effect, history of plaque psoriasis and Baseline PPPASI score as covariates and using multiple imputation for missing data.|||2.686|0.288|
82511285|NCT03633396|164715309|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|0.5|13.9|||||Odds ratio from a logistic regression model including treatment as fixed effect, history of plaque psoriasis and Baseline PPPIGA score as covariates and using multiple imputation for missing data.|||13.9|0.5|
82511286|NCT01221441|164715357|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The primary efficacy evaluation based on IKDC and the VAS were tested at week 52 evaluated 100 mm VAS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in IKDC or VAS scores at week 52 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for both the IKDC and the VAS are rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
82511287|NCT01221441|164715358|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The primary efficacy evaluation based on IKDC and the VAS were tested at week 52 evaluated 100 mm VAS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in IKDC or VAS scores at week 52 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for both the IKDC and the VAS are rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
82631836|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|3.73||0.332|TWO_SIDED|95.0|-11.28|3.93|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.93|-11.28|0.332
82511288|NCT01221441|164715359|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The efficacy evaluation at week 104 evaluated KOOS with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in KOOS scores at week 104 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for KOOS is rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
82511289|NCT01221441|164715360|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Denominator degrees of freedom were adjusted using the Kenward-Roger's method.||"The efficacy evaluation at week 104 evaluated Lysholm score with the following superiority hypothesis:~HO: μTG = μPC vs. HA: μTG ≠ μPC, where μTG and μPC are the mean change from baseline in KOOS scores at week 104 for patients in the TG-C and placebo control groups, respectively. If the null hypotheses for Lysholm score is rejected, it the clinical effect of TG-C is concluded to be superior to that of the control."||||<0.01
82511290|NCT02665481|164715374|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.5|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.07|-0.15|0.50
82511291|NCT02665481|164715374|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.18|TWO_SIDED|95.0|-0.04|0.19|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||0.19|-0.04|0.18
82511292|NCT02665481|164715374|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.23|TWO_SIDED|95.0|-0.04|0.17|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||0.17|-0.04|0.23
82511293|NCT02665481|164715374|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.47|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x Exercise (Month 0 and Month 18)||0.07|-0.15|0.47
82511294|NCT02665481|164715375|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.12|TWO_SIDED|95.0|-0.02|0.19|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.19|-0.02|0.12
82511295|NCT02665481|164715375|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.44|TWO_SIDED|95.0|-0.15|0.07|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||0.07|-0.15|0.44
82511296|NCT02665481|164715375|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.17|TWO_SIDED|95.0|-0.03|0.18|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||0.18|-0.03|0.17
82511297|NCT02665481|164715375|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.93|TWO_SIDED|95.0|-0.12|0.11|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.11|-0.12|0.93
82511298|NCT02665481|164715376|SUPERIORITY||Mean Difference (Final Values)|-3.46||||0.53|TWO_SIDED|95.0|-14.27|7.34|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||7.34|-14.27|0.53
82511299|NCT02665481|164715376|SUPERIORITY||Mean Difference (Final Values)|-20.16||||0.004|TWO_SIDED|95.0|-33.88|-6.44|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||-6.44|-33.88|0.004
82511300|NCT02665481|164715376|SUPERIORITY||Mean Difference (Final Values)|3.04||||0.58|TWO_SIDED|95.0|-7.76|13.85|||Marginal Model|||Time x Exercise (Month 0 and Month 6)||13.85|-7.76|0.58
82511301|NCT02665481|164715376|SUPERIORITY||Mean Difference (Final Values)|-6.26||||0.37|TWO_SIDED|95.0|-19.98|7.46|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||7.46|-19.98|0.37
82511302|NCT02665481|164715377|SUPERIORITY||Mean Difference (Final Values)|22.71||||0.33|TWO_SIDED|95.0|-22.95|68.36|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||68.36|-22.95|0.33
82511303|NCT02665481|164715377|SUPERIORITY||Mean Difference (Final Values)|25.35||||0.31|TWO_SIDED|95.0|-23.18|73.88|||Marginal Model|||Time x MBSR (Month 0 and Month 18)||73.88|-23.18|0.31
82511304|NCT02665481|164715377|SUPERIORITY||Mean Difference (Final Values)|-17.18||||0.46|TWO_SIDED|95.0|-62.83|28.48|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||28.48|-62.83|0.46
82378573|NCT02729909|164465752|SUPERIORITY||Median Value of CI|-0.5|||<|0.001|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 3||-0.1|-0.9|<0.001
82378574|NCT02729909|164465752|SUPERIORITY||Median Value of CI|-0.5||||0.004|TWO_SIDED|95.0|-0.9|-0.1||Abdominal Bloating was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|Van Elteren Test|||Week 4||-0.1|-0.9|0.004
82511305|NCT02665481|164715377|SUPERIORITY||Mean Difference (Final Values)|21.11||||0.39|TWO_SIDED|95.0|-27.41|69.64|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||69.64|-27.41|0.39
82511306|NCT02665481|164715378|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.37|TWO_SIDED|95.0|-0.02|0.01|||Marginal Model|||Time x MBSR (Month 0 and Month 6).||0.01|-0.02|0.37
82511307|NCT02665481|164715378|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.1|TWO_SIDED|95.0|-0.02|0.0|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||0.00|-0.02|0.10
82511308|NCT02665481|164715378|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.21|TWO_SIDED|95.0|-0.004|0.02|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.02|-0.004|0.21
82511309|NCT02665481|164715378|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.09|TWO_SIDED|95.0|-0.02|0.0|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.00|-0.02|0.09
82511310|NCT02665481|164715379|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.57|TWO_SIDED|95.0|-0.38|0.69|||Marginal Model|||Time x MBSR (Month 0 and Month 6)||0.69|-0.38|0.57
82511311|NCT02665481|164715379|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.96|TWO_SIDED|95.0|-0.58|0.55|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||0.55|-0.58|0.96
82511312|NCT02665481|164715379|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.37|TWO_SIDED|95.0|-0.78|0.29|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.29|-0.78|0.37
82511313|NCT02665481|164715379|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.99|TWO_SIDED|95.0|-0.57|0.57|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||0.57|-0.57|0.99
82511314|NCT02665481|164715380|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.19|TWO_SIDED|95.0|-0.47|2.33|||Marginal Model|||Time x MBSR (Month 0 and Month 6).||2.33|-0.47|0.19
82511315|NCT02665481|164715380|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.09|TWO_SIDED|95.0|-0.19|2.77|||Marginal Model|||Time x MBSR (Month 0 and Month 18).||2.77|-0.19|0.09
82511316|NCT02665481|164715380|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.42|TWO_SIDED|95.0|-1.97|0.83|||Marginal Model|||Time x Exercise (Month 0 and Month 6).||0.83|-1.97|0.42
82511317|NCT02665481|164715380|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.54|TWO_SIDED|95.0|-1.01|1.94|||Marginal Model|||Time x Exercise (Month 0 and Month 18).||1.94|-1.01|0.54
82511318|NCT00548808|164715395|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 0.4% for HbA1c was used.|Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.716|TWO_SIDED|95.0|-0.25|0.17|||ANCOVA|ANCOVA Model: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.17|-0.25|0.716
82511319|NCT00548808|164715396|SUPERIORITY_OR_OTHER|||||||0.279||95.0||||P-value for 16 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.279
82511320|NCT00548808|164715396|SUPERIORITY_OR_OTHER|||||||0.846||95.0||||P-value for 32 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.846
82511321|NCT00548808|164715396|SUPERIORITY_OR_OTHER|||||||0.741||95.0||||P-value for 48 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in HbA1c = Treatment + Baseline + Country + Sulfonylurea use + Visit + Treatment\*Visit (Type 3 sums of squares).||||||0.741
82511322|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.465|TWO_SIDED|95.0|0.41|1.5||P-value for patients achieving HbA1c \<6.5% at 16 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.50|0.41|0.465
82511323|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.365|TWO_SIDED|95.0|0.51|1.28||P-value for Patients Achieving HbA1c \<7% at 16 Weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.28|0.51|0.365
82511324|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.683|TWO_SIDED|95.0|0.65|1.95||P-value for patients achieving HbA1c \<6.5% at 32 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.95|0.65|0.683
82378575|NCT02730663|164465753|NON_INFERIORITY|The number and percentage of patients who achieved clinical success at the time of stent removal are presented. A one-sided 97.5% confidence interval is to be calculated to confirm the degree of non-inferiority for the reference value (96%) and the difference (Investigational device - reference value) and if the lower limit of the confidence interval is -10% or higher, the noninferiority will be considered to be confirmed.|Reference value|-0.07||||0.05|ONE_SIDED|97.5||||A two-tail test was performed for statistics at a significance level of 0.05 unless otherwise specified.|t-test, 2 sided|||The clinical success rate at the time point of stent removal is reported 86.2% according to the approval data of the commercially available AXIOS stent submitted to the US FDA. The clinical success rates of EUS-guided transluminal drainage using a lumen-appending stent were 93.3% (29 cases), 100% (8 cases) and 100% (7 cases) respectively in the studies performed afterwards by Shah RJ (2015), Gornals JB (2012) and Moon JH (2014). The weighted average calculated for each study was about 96%.||||0.05
82378576|NCT00866359|164465760|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.4|-0.9|||ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group and gender as factors and the baseline ulcer number as a covariate.|||-0.9|-2.4|<0.0001
82378577|NCT00866359|164465761|SUPERIORITY_OR_OTHER_LEGACY||Least Squares mean difference|-26.8|||<|0.0001|TWO_SIDED|95.0|-35.5|-18.0|||ANCOVA||Based on an analysis of covariance model for the oral ulcer pain VAS at Day 85, with treatment group and gender as factors and the baseline oral ulcer pain VAS as a covariate.|||-18.0|-35.5|<0.0001
82378578|NCT00866359|164465764|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-90.07|||<|0.0001|TWO_SIDED|95.0|-125.32|-54.82||The last post-baseline observation was carried forward to Day 85 for participants who discontinued the study before Day 85. For participants who did not have Day 85 visit on the targeted date, the total AUC was adjusted by the actual study days.|ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group, gender, and interaction of treatment group and gender as factors and the baseline ulcer number as a covariate.|||-54.82|-125.32|<0.0001
82378579|NCT00866359|164465767|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0007|TWO_SIDED|95.0|-2.7|-0.8|||ANCOVA||Based on an analysis of covariance model for the number of ulcers at Day 85, with treatment group, gender, and interaction of treatment group and gender as factors and the baseline ulcer number as a covariate.|||-0.8|-2.7|0.0007
82378580|NCT00866359|164465768|SUPERIORITY_OR_OTHER_LEGACY||adjusted difference (percentage)|39.1|||<|0.0001|TWO_SIDED|95.0|23.6|54.5|||Cochran-Mantel-Haenszel|Two-sided p-value was based on the CMH test adjusting for gender.|Adjusted difference in proportions = weighted average of treatment differences across gender with the CMH weights.|||54.5|23.6|<0.0001
82511325|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.81|TWO_SIDED|95.0|0.68|1.64||P-value for patients achieving HbA1c \<7% at 32 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.64|0.68|0.810
82511326|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.555|TWO_SIDED|95.0|0.69|2.01||P-value for patients achieving HbA1c \<6.5% at 48 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||2.01|0.69|0.555
82631837|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|3.76||0.714|TWO_SIDED|95.0|-9.06|6.28|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||6.28|-9.06|0.714
82378581|NCT00866359|164465769|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0007|TWO_SIDED|95.0|-1.7|-0.5|||ANCOVA||Based on an Ancova model for change from baseline with treatment group, gender and interaction of treatment group and gender as factors and the baseline value as a covariate.|||-0.5|-1.7|0.0007
82378582|NCT01625091|164465784|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
82511327|NCT00548808|164715397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.829|TWO_SIDED|95.0|0.67|1.64||P-value for patients achieving HbA1c \<7% at 48 weeks.|Regression, Logistic|Generalized Estimating Equation model with fixed effects for treatment, country, sulfonylurea use, baseline HbA1c, visit, and visit\*treatment.||||1.64|0.67|0.829
82511328|NCT00548808|164715399|SUPERIORITY_OR_OTHER|||||||0.604||95.0||||P-value for Week 16 Change from Baseline|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.604
82511329|NCT00548808|164715399|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-value for Week 32 Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.814
82631838|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.01|STANDARD_ERROR_OF_MEAN|3.73||0.04|TWO_SIDED|95.0|-15.63|-0.39|||Longitudinal analysis|||mPAP at Hour 1: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-0.39|-15.63|0.040
82378583|NCT01625091|164465785|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82378584|NCT01625091|164465786|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82568678|NCT00526097|164847328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.87||0.129||95.0|-0.4|3.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||3.0|-0.4|0.1290
82568679|NCT00526097|164847329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.378||95.0|-0.8|2.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||2.0|-0.8|0.3780
82568680|NCT00526097|164847330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.6|-0.3||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.3|-0.6|<0.0001
82568681|NCT00526097|164847331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-1.0|-0.7||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.7|-1.0|<0.0001
82568682|NCT00526097|164847332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.007||95.0|-0.3|-0.1||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.1|-0.3|0.0070
82631839|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.14|STANDARD_ERROR_OF_MEAN|3.37||0.079|TWO_SIDED|95.0|-13.02|0.75|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||0.75|-13.02|0.079
82631840|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|3.24||0.573|TWO_SIDED|95.0|-8.46|4.77|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||4.77|-8.46|0.573
82631841|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|3.34||0.28|TWO_SIDED|95.0|-10.5|3.15|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.15|-10.50|0.280
82631842|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|3.38||0.684|TWO_SIDED|95.0|-8.28|5.51|||Longitudinal analysis|||mPAP at Hour 2: The analysis was performed using longitudinal analysis model with baseline as a covariate.||5.51|-8.28|0.684
82631843|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.17|STANDARD_ERROR_OF_MEAN|3.35||0.021|TWO_SIDED|95.0|-15.01|-1.34|||Longitudinal analysis|||mPAP at Hour 2: Longitudinal analysis was used to analyze p-value and included baseline as a covariate.||-1.34|-15.01|0.021
82631844|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|3.7||0.727|TWO_SIDED|95.0|-8.86|6.25|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||6.25|-8.86|0.727
82631845|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|3.56||0.183|TWO_SIDED|95.0|-12.12|2.42|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.42|-12.12|0.183
82631846|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.01|STANDARD_ERROR_OF_MEAN|3.67||0.112|TWO_SIDED|95.0|-13.51|1.49|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.49|-13.51|0.112
82631847|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|3.71||0.928|TWO_SIDED|95.0|-7.91|7.23|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||7.23|-7.91|0.928
82631848|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.01|STANDARD_ERROR_OF_MEAN|3.68||0.02|TWO_SIDED|95.0|-16.52|-1.5|||Longitudinal analysis|||mPAP at Hour 3: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-1.50|-16.52|0.020
82631849|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|3.79||0.136|TWO_SIDED|95.0|-13.55|1.94|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||1.94|-13.55|0.136
82631850|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.82|STANDARD_ERROR_OF_MEAN|3.65||0.303|TWO_SIDED|95.0|-11.27|3.63|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||3.63|-11.27|0.303
82631851|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.17|STANDARD_ERROR_OF_MEAN|3.77||0.18|TWO_SIDED|95.0|-12.87|2.52|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||2.52|-12.87|0.180
82631852|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.56|STANDARD_ERROR_OF_MEAN|3.8||0.506|TWO_SIDED|95.0|-10.31|5.2|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||5.20|-10.31|0.506
82568683|NCT00526097|164847333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-1.5|-1.0||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-1.0|-1.5|<0.0001
82631853|NCT00853112|164980169|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.84|STANDARD_ERROR_OF_MEAN|3.77||0.026|TWO_SIDED|95.0|-16.54|-1.14|||Longitudinal analysis|||mPAP at Hour 4: The analysis was performed using longitudinal analysis model with baseline as a covariate.||-1.14|-16.54|0.026
82511330|NCT00548808|164715399|SUPERIORITY_OR_OTHER|||||||0.582||95.0||||P-value for 48 Week Change from Baseline.|Mixed Models Analysis|Mixed Model Analysis: Change in Blood Glucose = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use + Visit + Treatment\*Visit||||||0.582
82631854|NCT01553591|164980177|SUPERIORITY|||||||0.014||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.014
82631855|NCT01553591|164980177|SUPERIORITY|||||||0.004||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.004
82631856|NCT01553591|164980178|SUPERIORITY|||||||0.112||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.112
82631857|NCT01553591|164980178|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
82378585|NCT01625091|164465787|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||0.98
82511331|NCT00548808|164715402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.162|TWO_SIDED|95.0|-0.26|0.04||P-value for Cholesterol.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.04|-0.26|0.162
82378586|NCT04182334|164465811|SUPERIORITY|||||||0.775|||||||Mixed Models Analysis|||||||0.775
82511332|NCT00548808|164715402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.165|TWO_SIDED|95.0|-0.3|0.05||P-value for Triglycerides.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.05|-0.30|0.165
82511333|NCT00548808|164715402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.51|TWO_SIDED|95.0|-0.18|0.09||P-value for Low Density Lipoprotein.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.09|-0.18|0.510
82511334|NCT00548808|164715402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.382|TWO_SIDED|95.0|-0.02|0.06||P-value for High Density Lipoprotein.|ANCOVA|ANCOVA model: Lab Result = Treatment + Baseline + Country + HbA1c stratum + Sulfonylurea use (Type III sums of squares).|Least Squares Mean Difference = Insulin Lispro LM minus Insulin Glargine.|||0.06|-0.02|0.382
82511335|NCT01663259|164715443|OTHER||||||||||||||||||Estimates of proportion event-free at 1 and 2 years calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals were calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82511336|NCT01663259|164715444|OTHER||||||||||||||||||Survival proportion estimates at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82511337|NCT01663259|164715445|OTHER||||||||||||||||||Estimates of proportion LRP event-free at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82568684|NCT00526097|164847334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.8|-0.5||Treatment differences (Bisacodyl - Placebo) were estimated by reference to the adjusted least squares mean differences and the corresponding 95% confidence intervals (CIs).|ANCOVA||Means are adjusted for center effects and baseline value|Analysis of covariance (ANCOVA) including centre as fixed effect and baseline as covariate||-0.5|-0.8|<0.0001
82568685|NCT02412111|164847344|SUPERIORITY||Least Square (LS) mean difference|0.3|||=|0.5846|TWO_SIDED|95.0|-0.8|1.4|||Mixed Model for Repeated Measures (MMRM)|||||1.4|-0.8|= 0.5846
82568686|NCT02412111|164847345|SUPERIORITY||Least square mean difference|0.8|||=|0.386|TWO_SIDED|95.0|-1.0|2.6|||Mixed models Repeated Measures (MMRM)|||||2.6|-1.0|= 0.3860
82378587|NCT04182334|164465812|SUPERIORITY|||||||0.995|||||||Mixed Models Analysis|||||||0.995
82511338|NCT01126541|164715447|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided).||||||0.465|||||||Wilcoxon (Mann-Whitney)|||Change from Day 1 to Week 24 (initial treatment)||||0.465
82511339|NCT01126541|164715447|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)||||||0.161|||||||Wilcoxon (Mann-Whitney)|||Arm A vs. Arm B: Change from 1st retreatment to 24 weeks after||||0.161
82511340|NCT01126541|164715447|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean ±SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)||||||0.524|||||||Student t-test|||Arm A vs. Arm B: Change from 2nd retreatment to 24 weeks after||||0.524
82511341|NCT01126541|164715448|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective to demonstrate noninferiority of retreatment with one 1000 mg rituximab infusion. Mean plus or minus (±)SD of the DAS28-CRP AUC at 24 months = 2218 ±967 (based on EDWARDS, REFLEX and DANCER study data). H0 (null hypothesis): Arm B - Arm A \>20%. H1: Arm B - Arm A ≤ 20%. Power = 80%; Larger difference clinically acceptable = 20% = 444; Significance level of 2.5% (one-sided)|Adjusted difference|51.38|STANDARD_DEVIATION|92.0|||TWO_SIDED|95.0|-131.22|233.98|||||Covariate analysis with baseline DAS28-CRP value as covariate|||233.98|-131.22|
82511342|NCT01126541|164715468|SUPERIORITY_OR_OTHER|||||||0.389|||||||Wilcoxon (Mann-Whitney)|||Day 1 to Week 104||||0.389
82511343|NCT01126541|164715468|SUPERIORITY_OR_OTHER|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||1st retreatment to Week 104||||0.374
82511344|NCT01126541|164715468|SUPERIORITY_OR_OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||Weel 24 to Week 104||||0.277
82511345|NCT01126541|164715469|SUPERIORITY_OR_OTHER|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||Total cortisone: Week 24 to Week 104||||0.278
82378588|NCT04182334|164465813|SUPERIORITY|||||||0.674|||||||Mixed Models Analysis|||||||0.674
82378589|NCT04182334|164465814|SUPERIORITY|||||||0.326|||||||Mixed Models Analysis|||||||0.326
82568687|NCT02412111|164847346|SUPERIORITY||Least square mean difference|2.8|||=|0.1236|TWO_SIDED|95.0|-0.8|6.4|||Mixed models Repeated Measures (MMRM)|||||6.4|-0.8|= 0.1236
82568688|NCT02412111|164847347|SUPERIORITY||Least square mean difference|-5.8|||=|0.0216|TWO_SIDED|95.0|-10.7|-0.9|||Mixed models Repeated Measures (MMRM)|||||-0.9|-10.7|= 0.0216
82568689|NCT01917006|164847352|SUPERIORITY||Least square mean difference|0.11||||0.393||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from analysis of covariance (ANCOVA) Model with treatment as fixed effect and baseline geometric mean IELT as covariate.|ANCOVA|||||||0.393
82511346|NCT01126541|164715469|SUPERIORITY_OR_OTHER|||||||0.887|||||||Wilcoxon (Mann-Whitney)|||Oral cortisone: Week 24 to Week 104||||0.887
82511347|NCT01126541|164715469|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||IV cortisone: Week 24 to Week 104||||<0.001
82511348|NCT03670810|164715486|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.001|TWO_SIDED|95.0|2.56|5.73|||Regression, Logistic|||||5.73|2.56|<0.001
82511349|NCT03670810|164715486|SUPERIORITY||Odds Ratio (OR)|4.56|||<|0.001|TWO_SIDED|95.0|3.07|6.77|||Regression, Logistic|||||6.77|3.07|<0.001
82511350|NCT03670810|164715487|SUPERIORITY||Odds Ratio (OR)|3.77|||<|0.001|TWO_SIDED|95.0|2.1|6.76|||Regression, Logistic|||||6.76|2.10|<.001
82568690|NCT01917006|164847352|SUPERIORITY||Least Square Mean Difference|0.25||||0.263||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.263
82511351|NCT03670810|164715487|SUPERIORITY||Odds Ratio (OR)|7.24|||<|0.001|TWO_SIDED|95.0|4.13|12.67|||Regression, Logistic|||||12.67|4.13|<.001
82511352|NCT03670810|164715488|SUPERIORITY||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|2.05|3.57|||Regression, Logistic|||||3.57|2.05|<0.001
82511353|NCT03670810|164715488|SUPERIORITY||Odds Ratio (OR)|2.68|||<|0.001|TWO_SIDED|95.0|2.04|3.53|||Regression, Logistic|||||3.53|2.04|<0.001
82511354|NCT03670810|164715489|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|2.11|4.01|||Regression, Logistic|||||4.01|2.11|<0.001
82511355|NCT03670810|164715489|SUPERIORITY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.53|4.85|||Regression, Logistic|||||4.85|2.53|<0.001
82511356|NCT03670810|164715490|SUPERIORITY||Odds Ratio (OR)|3.52|||<|0.001|TWO_SIDED|95.0|2.05|6.02|||Regression, Logistic|||||6.02|2.05|<0.001
82511357|NCT03670810|164715490|SUPERIORITY||Odds Ratio (OR)|4.67|||<|0.001|TWO_SIDED|95.0|2.77|7.88|||Regression, Logistic|||||7.88|2.77|<0.001
82511358|NCT03670810|164715491|SUPERIORITY||Odds Ratio (OR)|2.3||||0.004|TWO_SIDED|95.0|1.3|4.04|||Regression, Logistic|||||4.04|1.30|0.004
82511359|NCT03670810|164715491|SUPERIORITY||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.41|6.94|||Regression, Logistic|||||6.94|2.41|<0.001
82378590|NCT04182334|164465815|SUPERIORITY|||||||0.463|||||||Wilcoxon (Mann-Whitney)|||||||0.463
82378591|NCT04182334|164465816|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
82511360|NCT03670810|164715492|SUPERIORITY||Odds Ratio (OR)|3.29|||<|0.001|TWO_SIDED|95.0|1.8|6.02|||Regression, Logistic|||||6.02|1.80|<0.001
82511361|NCT03670810|164715492|SUPERIORITY||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|1.97|6.42|||Regression, Logistic|||||6.42|1.97|<0.001
82511362|NCT03670810|164715493|SUPERIORITY||Odds Ratio (OR)|2.22|||<|0.001|TWO_SIDED|95.0|1.48|3.33|||Regression, Logistic|||||3.33|1.48|<0.001
82511363|NCT03670810|164715493|SUPERIORITY||Odds Ratio (OR)|2.46|||<|0.001|TWO_SIDED|95.0|1.65|3.67|||Regression, Logistic|||||3.67|1.65|<0.001
82511364|NCT03670810|164715494|SUPERIORITY||Odds Ratio (OR)|2.73||||0.031|TWO_SIDED|95.0|1.1|6.78|||Regression, Logistic|||||6.78|1.10|0.031
82511365|NCT03670810|164715494|SUPERIORITY||Odds Ratio (OR)|5.64|||<|0.001|TWO_SIDED|95.0|2.4|13.25|||Regression, Logistic|||||13.25|2.40|<0.001
82511366|NCT03670810|164715495|SUPERIORITY||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.29|2.35|||Regression, Logistic|||||2.35|1.29|<0.001
82511367|NCT03670810|164715495|SUPERIORITY||Odds Ratio (OR)|1.63||||0.001|TWO_SIDED|95.0|1.21|2.2|||Regression, Logistic|||||2.20|1.21|0.001
82511368|NCT03670810|164715496|SUPERIORITY||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.65|||Regression, Logistic|||||0.65|0.33|<0.001
82511369|NCT03670810|164715496|SUPERIORITY||Odds Ratio (OR)|0.43|||<|0.001|TWO_SIDED|95.0|0.3|0.6|||Regression, Logistic|||||0.60|0.30|<0.001
82511370|NCT03670810|164715497|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.79|4.28|||Regression, Logistic|||||4.28|1.79|<0.001
82511371|NCT03670810|164715497|SUPERIORITY||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.2|5.15|||Regression, Logistic|||||5.15|2.20|<0.001
82511372|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|6.4||||0.086|TWO_SIDED|95.0|0.77|53.37|||Regression, Logistic|||Pain Freedom 30 Min. Postdose||53.37|0.77|0.086
82511373|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|7.24||||0.065|TWO_SIDED|95.0|0.89|59.08|||Regression, Logistic|||Pain Freedom 30 Min. Postdose||59.08|0.89|0.065
82511374|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|3.08||||0.004|TWO_SIDED|95.0|1.42|6.68|||Regression, Logistic|||Pain Free 1 Hour Postdose||6.68|1.42|0.004
82631858|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0723|STANDARD_ERROR_OF_MEAN|0.0188||0.0003|TWO_SIDED|95.0|0.0347|0.1099|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response,with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence. A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1099|0.0347|0.0003
82631859|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0676|STANDARD_ERROR_OF_MEAN|0.0184||0.0006|TWO_SIDED|95.0|0.0307|0.1046|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response,with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1046|0.0307|0.0006
82631860|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.1021|STANDARD_ERROR_OF_MEAN|0.0188|<|0.0001|TWO_SIDED|95.0|0.0644|0.1398|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1398|0.0644|<0.0001
82631861|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.1299|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0918|0.1681|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||00.1681|0.0918|<0.0001
82639829|NCT02163759|164994500|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-1.2|0.7||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.7|-1.2|1
82639830|NCT02163759|164994501|SUPERIORITY||Mean Difference (Net)|-0.2||||0.6356|TWO_SIDED|95.0|-0.9|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-0.9|0.6356
82639831|NCT02163759|164994501|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1253|TWO_SIDED|95.0|-1.0|0.1||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.1|-1.0|0.1253
82378592|NCT04182334|164465817|SUPERIORITY|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||||||0.505
82378593|NCT04182334|164465818|SUPERIORITY|||||||0.612|||||||Wilcoxon (Mann-Whitney)|||||||0.612
82378594|NCT04182334|164465819|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
82378595|NCT04182334|164465820|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
82639832|NCT02163759|164994502|SUPERIORITY||Mean Difference (Net)|-0.5||||1|TWO_SIDED|95.0|-1.0|0.0||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.0|-1.0|1
82639833|NCT02163759|164994502|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-0.7|0.1||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.1|-0.7|1
82511375|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|7.04|||<|0.001|TWO_SIDED|95.0|3.43|14.44|||Regression, Logistic|||Pain Free 1 Hour Postdose||14.44|3.43|<0.001
82511376|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.41||||0.065|TWO_SIDED|95.0|0.98|2.03|||Regression, Logistic|||Pain Relief 30 Min Postdose 100 mg||2.03|0.98|0.065
82511377|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.77||||0.001|TWO_SIDED|95.0|1.25|2.52|||Regression, Logistic|||Pain Relief 30 Min. Postdose 200 mg||2.52|1.25|0.001
82511378|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|2.31|||<|0.001|TWO_SIDED|95.0|1.74|3.06|||Regression, Logistic|||Pain Relief 1 Hour Postdose 100 mg||3.06|1.74|<0.001
82511379|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.64|2.88|||Regression, Logistic|||Pain Relief 1 Hour Postdose 200 mg||2.88|1.64|<0.001
82568691|NCT01917006|164847352|SUPERIORITY||Least square mean difference|-0.39||||0.861||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.861
82631862|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0446|STANDARD_ERROR_OF_MEAN|0.0186||0.02|TWO_SIDED|95.0|0.0073|0.082|||Mantel Haenszel||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0820|0.0073|0.0200
82568692|NCT01917006|164847352|SUPERIORITY||Least square mean difference|-0.14||||0.647||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.647
82378596|NCT01959295|164465821|SUPERIORITY|||||||0.5086|||||||Mantel Haenszel|||The superiority of ASP2151 200mg to ASP2151 placebo was assessed by Mantel-Haenszel method, adjusted by disease type (labial/facial herpes and recurrent genital herpes) .||||0.5086
82511380|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.11||||0.651|TWO_SIDED|95.0|0.71|1.71|||Regression, Logistic|||Freedom from MBS 30 Min 100 mg||1.71|0.71|0.651
82511381|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.3||||0.22|TWO_SIDED|95.0|0.85|1.98|||Regression, Logistic|||Freedom from MBS 30 Min. 200 mg||1.98|0.85|0.220
82511382|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.1||||0.593|TWO_SIDED|95.0|0.78|1.54|||Regression, Logistic|||Freedom from MBS 1 Hour 100 mg||1.54|0.78|0.593
82511383|NCT03670810|164715499|SUPERIORITY||Odds Ratio (OR)|1.43||||0.03|TWO_SIDED|95.0|1.04|1.98|||Regression, Logistic|||Freedom from MBS 1 Hour 200 mg||1.98|1.04|0.030
82511384|NCT03670810|164715500|SUPERIORITY|||||||0.092|||||||ANCOVA|||||||0.092
82511385|NCT03670810|164715500|SUPERIORITY|||||||0.211|||||||ANCOVA|||||||0.211
82511386|NCT03670810|164715501|SUPERIORITY||Odds Ratio (OR)|2.85|||<|0.001|TWO_SIDED|95.0|2.01|4.05|||Regression, Logistic|||||4.05|2.01|<0.001
82511387|NCT03670810|164715501|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|2.12|4.26|||Regression, Logistic|||||4.26|2.12|<0.001
82511388|NCT03670810|164715502|SUPERIORITY|||||||0.056|||||||ANOVA|||Social Functioning||||0.056
82511389|NCT03670810|164715502|SUPERIORITY|||||||0.267|||||||ANOVA|||Social Functioning||||0.267
82511390|NCT03670810|164715502|SUPERIORITY|||||||0.003|||||||ANOVA|||Migraine Symptoms 100 mg||||0.003
82511391|NCT03670810|164715502|SUPERIORITY|||||||0.002|||||||ANOVA|||Migraine Symptoms 200 mg||||0.002
82511392|NCT03670810|164715502|SUPERIORITY|||||||0.014|||||||ANOVA|||Feeling/Concerns 100 mg||||0.014
82511393|NCT03670810|164715502|SUPERIORITY|||||||0.018|||||||ANOVA|||Feelings/Concerns 200 mg||||0.018
82511394|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.25||||0.101|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic|||Recommend Treatment - Agree Strongly Agree||1.62|0.96|0.101
82511395|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.28||||0.063|TWO_SIDED|95.0|0.99|1.67|||Regression, Logistic|||Recommend Treatment Agree/Strongly Agree||1.67|0.99|0.063
82511396|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.16|||Regression, Logistic|||Willing to Take This Treatment Again - Agree/Strongly Agree||1.16|0.68|0.376
82511397|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|0.79||||0.082|TWO_SIDED|95.0|0.6|1.03|||Regression, Logistic|||Willing to Take This Treatment Again - Agree/Strongly Agree||1.03|0.60|0.082
82511398|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.25||||0.096|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic|||Extremely/Very Satisfied||1.62|0.96|0.096
82511399|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.38||||0.016|TWO_SIDED|95.0|1.06|1.8|||Regression, Logistic|||Extremely/Very Satisfied||1.80|1.06|0.016
82511400|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.12||||0.445|TWO_SIDED|95.0|0.84|1.49|||Regression, Logistic|||Prefer This Treatment||1.49|0.84|0.445
82511401|NCT03670810|164715503|SUPERIORITY||Odds Ratio (OR)|1.19||||0.243|TWO_SIDED|95.0|0.89|1.58|||Regression, Logistic|||||1.58|0.89|0.243
82511402|NCT03670810|164715504|SUPERIORITY|||||||0.142|||||||ANCOVA|||||||0.142
82511403|NCT03670810|164715505|SUPERIORITY||Odds Ratio (OR)|3.01||||0.004|TWO_SIDED|95.0|1.42|6.4|||Regression, Logistic|||||6.40|1.42|0.004
82568693|NCT01917006|164847352|SUPERIORITY||Least square mean difference|-0.13||||0.645||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.645
82631863|NCT01426009|164980192|SUPERIORITY|Day 7 analysis|Least Squares Mean Difference (SE)|0.0813|STANDARD_ERROR_OF_MEAN|0.0284||0.006|TWO_SIDED|95.0|0.0243|0.1382|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1382|0.0243|0.0060
82511404|NCT03670810|164715505|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.22|9.47|||Regression, Logistic|||||9.47|2.22|<0.001
82631864|NCT01426009|164980192|SUPERIORITY|Day 1 analysis|Least Squares Mean Difference (SE)|0.0385|STANDARD_ERROR_OF_MEAN|0.0183||0.0402|TWO_SIDED|95.0|0.0018|0.0752|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0752|0.0018|0.0402
82511405|NCT03670810|164715506|SUPERIORITY||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.74|3.62|||Regression, Logistic|||||3.62|1.74|<0.001
82511406|NCT03670810|164715506|SUPERIORITY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|2.5|5.2|||Regression, Logistic|||||5.20|2.50|<0.001
82511407|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|1.01||||0.953|TWO_SIDED|95.0|0.75|1.36|||Regression, Logistic|||Nausea||1.36|0.75|0.953
82511408|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|1.05||||0.768|TWO_SIDED|95.0|0.78|1.41|||Regression, Logistic|||Nausea||1.41|0.78|0.768
82511409|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.71|||Regression, Logistic|||Phonophobia||0.71|0.39|<0.001
82511410|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.34|0.62|||Regression, Linear|||Phonophobia||0.62|0.34|<0.001
82511411|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|0.48|||<|0.001|TWO_SIDED|95.0|0.36|0.63|||Regression, Logistic|||Photophobia||0.63|0.36|<0.001
82511412|NCT03670810|164715507|SUPERIORITY||Median Difference (Net)|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.71|||Regression, Logistic|||Photophobia||0.71|0.40|<0.001
82511413|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|0.46||||0.129|TWO_SIDED|95.0|0.17|1.25|||Regression, Logistic|||Vomiting||1.25|0.17|0.129
82511414|NCT03670810|164715507|SUPERIORITY||Odds Ratio (OR)|1.12||||0.769|TWO_SIDED|95.0|0.52|2.43|||Regression, Logistic|||Vomiting||2.43|0.52|0.769
82511415|NCT02504372|164715529|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.68|0.96|||||HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.96|0.68|
82511416|NCT02504372|164715530|OTHER||Hazard Ratio (HR)|0.83||||0.13499|TWO_SIDED|95.0|0.59|1.16|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||1.16|0.59|0.13499
82511417|NCT02504372|164715531|OTHER||Hazard Ratio (HR)|0.78||||0.01327|TWO_SIDED|95.0|0.62|0.97|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.97|0.62|0.01327
82511418|NCT02504372|164715538|OTHER||Hazard Ratio (HR)|0.76||||0.00143|TWO_SIDED|95.0|0.63|0.91|||Regression, Cox|One-sided p-value was based on the permutation test with multivariate Cox regression model.|HR and 95% confidence interval (95%CI) were based on multivariate Cox regression model with treatment adjusted by stage, PD-L1 status, adjuvant chemotherapy, region, histology, and smoking status.|||0.91|0.63|0.00143
82568694|NCT01917006|164847352|SUPERIORITY||Least square mean difference|0.15||||0.343||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||||||0.343
82568695|NCT01917006|164847353|SUPERIORITY||Least square mean difference|55.33||||0.184||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 versus (vs) Placebo at Week 2||||0.184
82568696|NCT01917006|164847353|SUPERIORITY||Least square mean difference|170.21||||0.002||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 2||||0.002
82568697|NCT01917006|164847353|SUPERIORITY||Least square mean difference|12.73||||0.404||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 2||||0.404
82568698|NCT01917006|164847353|SUPERIORITY||Least square mean difference|24.23||||0.328||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 2||||0.328
82631865|NCT01426009|164980192|SUPERIORITY|Day 1 analysis|Least Squares Mean Difference (SE)|0.0696|STANDARD_ERROR_OF_MEAN|0.0179||0.0003|TWO_SIDED|95.0|0.0337|0.1055|||ANCOVA||Standard Error of the Mean Difference|An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.1055|0.0337|0.0003
82631866|NCT01426009|164980192|SUPERIORITY|Day 1 analysis|Least Squares Mean|0.0501|STANDARD_ERROR_OF_MEAN|0.018||0.0074|TWO_SIDED|95.0|0.014|0.0861|||ANCOVA|||An ANCOVA was used with change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline as a covariate and a random effect for subject nested within sequence.A sample size of 30 subjects per comparison(133 total with dropouts)provides 90% power to detect a 0.12L difference in mean change trough FEV1 between active and placebo at an alpha of 0.05 using a 2-tailed t-test and assuming a within-subject standard deviation for change in trough FEV1 of 0.2.||0.0861|0.0140|0.0074
82631867|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0767|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.0505|0.1028|||ANCOVA||standard error of the mean difference|ACU 0-24 on Day 1||0.1028|0.0505|<0.0001
82631868|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.122|STANDARD_ERROR_OF_MEAN|0.0127|<|0.0001|TWO_SIDED|95.0|0.0965|0.1475|||ANCOVA||standard error of the Mean difference|ACU 0-24 Day 1||0.1475|0.0965|<0.0001
82631869|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1222|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.0965|0.1479|||ANCOVA||standard error of the Mean difference|AUC 0-24 Day 1||0.1479|0.0965|<0.0001
82378597|NCT04917861|164465830|OTHER||Geometric Mean Ratio (GMR)|7.002|||||TWO_SIDED|95.0|5.451|8.992|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||8.992|5.451|
82631870|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1625|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.1362|0.1888|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1888|0.1362|<0.0001
82631871|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.169|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1434|0.1946|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1946|0.1434|<0.0001
82631872|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1095|STANDARD_ERROR_OF_MEAN|0.0189|<|0.0001|TWO_SIDED|95.0|0.0716|0.1473|||ANCOVA||standard error of the Mean difference|AUC 0-24 day 1||0.1473|0.0716|<0.0001
82631873|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1095|STANDARD_ERROR_OF_MEAN|0.0141|<|0.0001|TWO_SIDED|95.0|0.0812|0.1379|||ANCOVA||standard error of the Mean difference|AUC 0-24 on Day 7||0.1379|0.0812|<0.0001
82378598|NCT04917861|164465830|OTHER||GMR|7.123|||||TWO_SIDED|95.0|5.467|9.279|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||9.279|5.467|
82631874|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1271|STANDARD_ERROR_OF_MEAN|0.0139|<|0.0001|TWO_SIDED|95.0|0.0993|0.1548|||ANCOVA||standard error of the Mean difference|AUC0-24 on Day 7||0.1548|0.0993|<0.0001
82631875|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.145|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.1169|0.173|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1730|0.1169|<0.0001
82378599|NCT04917861|164465830|OTHER||GMR|2.674|||||TWO_SIDED|95.0|1.961|3.646|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||3.646|1.961|
82631876|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1688|STANDARD_ERROR_OF_MEAN|0.0142|<|0.0001|TWO_SIDED|95.0|0.1403|0.1972|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1972|0.1403|<0.0001
82378600|NCT04917861|164465830|OTHER||GMR|7.208|||||TWO_SIDED|95.0|5.428|9.571|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||9.571|5.428|
82378601|NCT04917861|164465830|OTHER||GMR|7.979|||||TWO_SIDED|95.0|6.106|10.425|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||10.425|6.106|
82631877|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1396|STANDARD_ERROR_OF_MEAN|0.0139|<|0.0001|TWO_SIDED|95.0|0.1117|0.173|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1730|0.1117|<0.0001
82631878|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1183|STANDARD_ERROR_OF_MEAN|0.0194|<|0.0001|TWO_SIDED|95.0|0.0795|0.1972|||ANCOVA||standard error of the Mean difference|AUC 0-24 on day 7||0.1972|0.0795|<0.0001
82631879|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1038|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.0776|0.1301|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1301|0.0776|<0.0001
82631880|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1468|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1212|0.1724|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1724|0.1212|<0.0001
82631881|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1579|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1322|0.1837|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1837|0.1322|<0.0001
82568699|NCT01917006|164847353|SUPERIORITY||Least square mean difference|18.48||||0.362||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 2||||0.362
82568700|NCT01917006|164847353|SUPERIORITY||Least square mean difference|45.42||||0.203||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 2||||0.203
82568701|NCT01917006|164847353|SUPERIORITY||Least square mean difference|33.05||||0.322||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 4||||0.322
82631882|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1919|STANDARD_ERROR_OF_MEAN|0.0132|<|0.0001|TWO_SIDED|95.0|0.1655|0.2184|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.2184|0.1655|<0.0001
82378602|NCT04917861|164465830|OTHER||GMR|1.516|||||TWO_SIDED|95.0|1.229|1.869|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-seronegative participants|||1.869|1.229|
82631883|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1994|STANDARD_ERROR_OF_MEAN|0.0128|<|0.0001|TWO_SIDED|95.0|0.1738|0.2251|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.2251|0.1738|<0.0001
82568702|NCT01917006|164847353|SUPERIORITY||Least square mean difference|148.86||||0.015||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 4||||0.015
82631884|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1248|STANDARD_ERROR_OF_MEAN|0.0188|<|0.0001|TWO_SIDED|95.0|0.0872|0.1625|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 1||0.1625|0.0872|<0.0001
82631885|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1279|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.097|0.1587|||ANCOVA|standard error of the Mean difference|standard error of the Mean difference|AUC 0-12 on day 7||0.1587|0.0970|<0.0001
82631886|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1454|STANDARD_ERROR_OF_MEAN|0.0151|<|0.0001|TWO_SIDED|95.0|0.1151|0.1756|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.1756|0.1151|<0.0001
82378603|NCT04917861|164465830|OTHER||GMR|6.785|||||TWO_SIDED|95.0|4.562|10.092|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||10.092|4.562|
82378604|NCT04917861|164465830|OTHER||GMR|6.319|||||TWO_SIDED|95.0|4.03|9.909|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||9.909|4.030|
82378605|NCT04917861|164465830|OTHER||GMR|7.028|||||TWO_SIDED|95.0|4.056|12.18|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-seropositive participants|||12.180|4.056|
82568703|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-6.2||||0.541||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 4||||0.541
82631887|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1699|STANDARD_ERROR_OF_MEAN|0.0152|<|0.0001|TWO_SIDED|95.0|0.1393|0.2004|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.2004|0.1393|<0.0001
82378606|NCT04917861|164465831|OTHER||GMR|5.312|||||TWO_SIDED|95.0|4.149|6.802|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||6.802|4.149|
82378607|NCT04917861|164465831|OTHER||GMR|5.346|||||TWO_SIDED|95.0|4.128|6.922|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||6.922|4.128|
82378608|NCT04917861|164465831|OTHER||GMR|2.325|||||TWO_SIDED|95.0|1.721|3.14|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||3.140|1.721|
82378609|NCT04917861|164465831|OTHER||GMR|4.221|||||TWO_SIDED|95.0|3.322|5.363|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||5.363|3.322|
82568704|NCT01917006|164847353|SUPERIORITY||Least square mean difference|6.47||||0.459||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 4||||0.459
82378610|NCT04917861|164465831|OTHER||GMR|5.3|||||TWO_SIDED|95.0|4.243|6.62|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||6.620|4.243|
82511427|NCT05944250|164715574|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
82511428|NCT05944250|164715578|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 1||||1
82511429|NCT05944250|164715578|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 2||||1
82511430|NCT05944250|164715578|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 3||||1
82511431|NCT05944250|164715578|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Wounds that reach \>50% healing from baseline per investigator assessment at Month 4||||0.15
82511432|NCT05944250|164715579|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 1||||1
82511433|NCT05944250|164715579|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 2||||1
82511434|NCT05944250|164715579|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 3||||0.59
82511435|NCT05944250|164715579|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Wounds that reach \>70% healing from baseline per investigator assessment at Month 4||||0.09
82511436|NCT00376168|164715580|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|one-sample t-test (combined) to test the null hypothesis that percent change = 0||"The primary efficacy analysis was based on two one-sample t-tests (one for each treatment group) to determine if the percent change in spleen volume is different than zero.~With 12 patients in each treatment group, there was greater than 95% power to detect a change of 20% or more using a one-sample t-test (alpha=0.025, 2-sided test to allow for each group to be tested separately) to evaluate the primary outcome of percent change in spleen volume after nine months."||||<0.0001
82511437|NCT00376168|164715580|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||threshold for statistical significance = 0.025|one-sample t-test|one-sample t-test (combined) to test the null hypothesis that percent change = 0||"The primary efficacy analysis was based on two one-sample t-tests (one for each treatment group) to determine if the percent change in spleen volume is different than zero.~With 12 patients in each treatment group, there was greater than 95% power to detect a change of 20% or more using a one-sample t-test (alpha=0.025, 2-sided test to allow for each group to be tested separately) to evaluate the primary outcome of percent change in spleen volume after nine months."||||<0.0001
82511438|NCT00376168|164715581|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0041
82511439|NCT00376168|164715581|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||<0.0001
82631888|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1814|STANDARD_ERROR_OF_MEAN|0.0155|<|0.0001|TWO_SIDED|95.0|0.1503|0.2125|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.2125|0.1503|<0.0001
82568705|NCT01917006|164847353|SUPERIORITY||Least square mean difference|1.32||||0.491||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 4||||0.491
82568706|NCT01917006|164847353|SUPERIORITY||Least square mean difference|36.8||||0.281||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 4||||0.281
82568707|NCT01917006|164847353|SUPERIORITY||Least square mean difference|14.12||||0.424||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 6||||0.424
82568708|NCT01917006|164847353|SUPERIORITY||Least square mean difference|136.96||||0.026||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 6||||0.026
82568709|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-27.62||||0.67||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 6||||0.670
82568710|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-10.06||||0.561||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 6||||0.561
82568711|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-16.58||||0.604||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 6||||0.604
82568712|NCT01917006|164847353|SUPERIORITY||Least square mean difference|17.76||||0.394||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 6||||0.394
82568713|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-5.94||||0.532||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 8||||0.532
82568714|NCT01917006|164847353|SUPERIORITY||Least square mean difference|111.27||||0.058||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 8||||0.058
82568715|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-48.65||||0.778||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 8||||0.778
82568716|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-27.74||||0.662||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 8||||0.662
82568717|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-35.72||||0.712||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 8||||0.712
82631889|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1697|STANDARD_ERROR_OF_MEAN|0.0152|<|0.0001|TWO_SIDED|95.0|0.1393|0.201|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.201|0.1393|<0.0001
82631890|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1384|STANDARD_ERROR_OF_MEAN|0.0216|<|0.0001|TWO_SIDED|95.0|0.0951|0.1817|||ANCOVA||standard error of the Mean difference|AUC 0-12 on day 7||0.1817|0.0951|<0.0001
82568718|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-0.18||||0.501||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 8||||0.501
82568719|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-12.14||||0.565||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 10||||0.565
82568720|NCT01917006|164847353|SUPERIORITY||Least square mean difference|102.44||||0.071||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 10||||0.071
82568721|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-52.81||||0.799||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 10||||0.799
82568722|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-30.81||||0.681||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 10||||0.681
82568723|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-40.68||||0.741||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 10||||0.741
82511440|NCT00376168|164715582|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0010
82568724|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-4.33||||0.526||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 10||||0.526
82511441|NCT00376168|164715582|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||<0.0001
82568725|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-14.76||||0.584||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 12||||0.584
82568726|NCT01917006|164847353|SUPERIORITY||Least square mean difference|84.09||||0.101||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 12||||0.101
82631891|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0471|STANDARD_ERROR_OF_MEAN|0.0157|<|0.0001|TWO_SIDED|95.0|0.0155|0.0786|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.0786|0.0155|<0.0001
82511442|NCT00376168|164715583|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0460
82568727|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-55.14||||0.823||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 12||||0.823
82568728|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-40.18||||0.741||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 12||||0.741
82568729|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-41.31||||0.756||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 12||||0.756
82568730|NCT01917006|164847353|SUPERIORITY||Least square mean difference|-2.57||||0.517||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline average IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 12||||0.517
82631892|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0918|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.0611|0.1226|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1226|0.0611|<0.0001
82511443|NCT00376168|164715583|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||One-sample t-test|||For each of the secondary endpoints, a one-sample t-test (% change in liver volume, mean change in hemoglobin and platelet count) was examined first for each dose using the step-down approach. Next, a mixed effects model that included dose and time, with subject as a random effect, was fit to examine whether there was a difference between dose groups, for those outcomes that were tested in the step-down approach.||||0.0031
82568731|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.59||||0.079||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 2||||0.079
82568732|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.77||||0.025||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 2||||0.025
82568733|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.07||||0.417||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 2||||0.417
82378611|NCT04917861|164465831|OTHER||GMR|1.206|||||TWO_SIDED|95.0|1.033|1.407|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||1.407|1.033|
82378612|NCT04917861|164465831|OTHER||GMR|6.493|||||TWO_SIDED|95.0|4.358|9.674|||||GMR (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||9.674|4.358|
82378613|NCT04917861|164465831|OTHER||GMR|5.452|||||TWO_SIDED|95.0|3.43|8.665|||||GMR (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||8.665|3.430|
82378614|NCT04917861|164465831|OTHER||GMR|6.804|||||TWO_SIDED|95.0|3.928|11.784|||||GMR (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||11.784|3.928|
82378615|NCT04917861|164465832|OTHER||percentage difference|76.69|||||TWO_SIDED|95.0|69.1|82.68|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||82.68|69.10|
82378616|NCT04917861|164465832|OTHER||percentage difference|77.8|||||TWO_SIDED|95.0|70.29|83.67|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||83.67|70.29|
82378617|NCT04917861|164465832|OTHER||percentage difference|35.58|||||TWO_SIDED|95.0|27.47|43.74|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||43.74|27.47|
82378618|NCT04917861|164465832|OTHER||percentage difference|86.11|||||TWO_SIDED|95.0|76.25|92.29|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||92.29|76.25|
82378619|NCT04917861|164465832|OTHER||percentage difference|87.65|||||TWO_SIDED|95.0|78.71|93.17|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||93.17|78.71|
82631893|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0829|STANDARD_ERROR_OF_MEAN|0.0155|<|0.0001|TWO_SIDED|95.0|0.0519|0.1139|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1139|0.0519|<0.0001
82378620|NCT04917861|164465832|OTHER||percentage difference|20.43|||||TWO_SIDED|95.0|13.47|29.75|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||29.75|13.47|
82378621|NCT04917861|164465832|OTHER||percentage difference|67.72|||||TWO_SIDED|95.0|55.69|77.07|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||77.07|55.69|
82378622|NCT04917861|164465832|OTHER||percentage difference|67.81|||||TWO_SIDED|95.0|55.36|77.44|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||77.44|55.36|
82378623|NCT04917861|164465832|OTHER||percentage difference|57.53|||||TWO_SIDED|95.0|43.81|69.08|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||69.08|43.81|
82378624|NCT04917861|164465833|OTHER||percentage difference|75.46|||||TWO_SIDED|95.0|68.12|81.49|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||81.49|68.12|
82378625|NCT04917861|164465833|OTHER||percentage difference|75.32|||||TWO_SIDED|95.0|67.94|81.38|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for all participants|||81.38|67.94|
82378626|NCT04917861|164465833|OTHER||percentage difference|31.29|||||TWO_SIDED|95.0|24.23|38.96|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for all participants|||38.96|24.23|
82378627|NCT04917861|164465833|OTHER||percentage difference|77.78|||||TWO_SIDED|95.0|66.87|85.85|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||85.85|66.87|
82378628|NCT04917861|164465833|OTHER||percentage difference|82.72|||||TWO_SIDED|95.0|73.02|89.43|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||89.43|73.02|
82378629|NCT04917861|164465833|OTHER||percentage difference|9.68|||||TWO_SIDED|95.0|4.63|17.41|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-negative participants|||17.41|4.63|
82378630|NCT04917861|164465833|OTHER||percentage difference|72.39|||||TWO_SIDED|95.0|61.56|80.83|||||Percentage Difference (mRNA-1893 Low Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||80.83|61.56|
82378631|NCT04917861|164465833|OTHER||percentage difference|67.29|||||TWO_SIDED|95.0|55.72|76.78|||||Percentage Difference (mRNA-1893 High Dose \[2-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||76.78|55.72|
82378632|NCT04917861|164465833|OTHER||percentage difference|63.35|||||TWO_SIDED|95.0|50.75|74.0|||||Percentage Difference (mRNA-1893 High Dose \[1-Dose Regimen\] vs. Placebo) for flavivirus-positive participants|||74.00|50.75|
82378633|NCT01128179|164465847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1121||||0.3186|TWO_SIDED|95.0|-0.3389|0.1146||The a priori significance level was 5%. There was no adjustment for multiple comparisons.|ANCOVA|||Assuming that the natural logarithm transformed serum intact FGF-23 is normally distributed with a mean of 3.5 and a standard deviation of 0.46, 33 subjects randomised 2:1 (lanthanum carbonate to placebo) will be sufficient to detect with 80% power at the 5% 2-sided significance level a decrease of 0.5 in the mean difference (placebo minus lanthanum carbonate) of the log-transformed data at Week 12.||0.1146|-0.3389|0.3186
82378634|NCT01128179|164465848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.54||||0.2995|TWO_SIDED|95.0|-6.15|19.23||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of serum iPTH at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline iPTH as a covariate. The study was not powered for the analysis of this parameter.||19.23|-6.15|0.2995
82511444|NCT00457197|164715607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709|TWO_SIDED||||||ANCOVA|||Baseline drinks/day used as covariate.||||0.4709
82511445|NCT00457197|164715608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1272|TWO_SIDED||||||ANCOVA|||Baseline percent heavy drinking days included as covariate.||||0.1272
82378635|NCT01128179|164465849|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.11||||0.3252|TWO_SIDED|95.0|-5.36|15.57||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of 1,25-Dihydroxy Vitamin D at Week 12 (LOCF) when utilizing an analysis of covariance (ANCOVA) with treatment as a factor and the baseline 1,25-Dihydroxy Vitamin D as a covariate. The study was not powered for the analysis of this parameter.||15.57|-5.36|0.3252
82511446|NCT00457197|164715609|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9642|TWO_SIDED||||||ANCOVA|||Baseline GGT used as covariate.||||0.9642
82511447|NCT00457197|164715610|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7222|TWO_SIDED||||||ANCOVA|||Baseline AST used as covariate.||||0.7222
82511448|NCT00457197|164715611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1412|TWO_SIDED||||||ANCOVA|||Baseline ALT used as covariate.||||0.1412
82511449|NCT00457197|164715612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7071|TWO_SIDED||||||ANCOVA|||Baseline HRSD used as covariate.||||0.7071
82511450|NCT00457197|164715613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2569|TWO_SIDED||||||ANCOVA|||Baseline IDS-SR used as a covariate.||||0.2569
82511451|NCT00457197|164715614|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8814|TWO_SIDED||||||ANCOVA|||Baseline YMRS used as a covariate.||||0.8814
82511452|NCT00457197|164715615|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2473|TWO_SIDED||||||ANCOVA|||Baseline PACS used as a covariate.||||0.2473
82568734|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.16||||0.33||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 2||||0.330
82378636|NCT01128179|164465850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.1459|TWO_SIDED|95.0|-8.845|1.403||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Urinary Fractional Excretion of Phosphate at Week 12 (LOCF) when utilizing an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Urinary Fractional Excretion of Phosphate as a covariate. The study was not powered for the analysis of this parameter.||1.403|-8.845|0.1459
82511453|NCT02114879|164715622|SUPERIORITY|||||||0.007||||||The p-value refers to the time by group interaction. The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Marginal Model|||This Primary analysis used a marginal model with time (baseline and discharge), condition (EMR vs SOC), and time x condition as fixed effects, with an unstructured covariance structure specified, based on Bayesian information criteria (BIC).||||0.007
82511454|NCT02114879|164715623|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82511455|NCT02114879|164715624|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82511456|NCT02114879|164715625|SUPERIORITY|||||||0.96||||||The p-value refers to the time by group interaction. The statistical significance in this test was p\<0.05.|Mixed Models Analysis|||This Primary analysis used a marginal model with time (baseline and discharge), condition (EMR vs SOC), and time x condition as fixed effects, with an unstructured covariance structure specified, based on Bayesian information criteria (BIC).||||0.96
82511457|NCT02114879|164715626|SUPERIORITY|||||||0.37||||||The p-value is calculated from a 2x2 Contingency Table consisting of rows that represent Discharged Home Vs Discharged to Institution and columns that represent the EMR and SOC groups.|Chi-squared|||||||0.37
82568735|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.3||||0.199||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 2||||0.199
82511458|NCT02114879|164715627|SUPERIORITY|||||||0.85||||||The p-value is calculated from a 2x2 Contingency Table consisting of rows that represent Yes/No Rehospitalization and columns that represent the EMR and SOC groups.|Chi-squared|||||||0.85
82511459|NCT00308711|164715650|SUPERIORITY_OR_OTHER||Kaplan-Meier|1595.5||||0.974||||||The a priori threshold for statistical significance was 0.05.|Log Rank||This was a Kaplan-Meier analysis of median time to vaginal delivery. Cervidil was compared separately to MVI 100 and MVI 50.|Null hypothesis was that there would be no difference in time to vaginal delivery for MVI 100 compared to time to vaginal delivery for Cervidil.||||0.974
82511460|NCT00308711|164715650|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1977.0||||0.011||95.0|1977.0|2253.0|||Log Rank|||||2253|1977|0.011
82511461|NCT00308711|164715651|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority (NI) margin was within 15% relative to the rate of cesarean section for the comparator (Cervidil 10 mg dinoprostone vaginal insert).|Cox Proportional Hazard|27.8||||0.64||95.0|23.61|32.31|||Fisher Exact|||||32.31|23.61|0.64
82511462|NCT00308711|164715651|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was rate of cearean section within 15% of Cervidil rate.|Cox Proportional Hazard|28.0||||0.59||95.0|23.86|32.42|||Fisher Exact|||||32.42|23.86|0.59
82511463|NCT02318693|164715661|SUPERIORITY_OR_OTHER||LS Means Difference|-8.8||||0.245|TWO_SIDED|95.0|-23.8|6.2|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||6.2|-23.8|0.245
82511464|NCT02318693|164715662|SUPERIORITY_OR_OTHER||LS Means Difference|-5.9||||0.029|TWO_SIDED|95.0|-11.3|-0.6|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.6|-11.3|0.029
82511465|NCT02318693|164715663|SUPERIORITY_OR_OTHER||LS Means Difference|-12.8||||0.041|TWO_SIDED|95.0|-25.1|-0.5|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Breakfast. The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.5|-25.1|0.041
82511466|NCT02318693|164715663|SUPERIORITY_OR_OTHER||LS Means Difference|-14.3||||0.043|TWO_SIDED|95.0|-28.1|-0.5|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Lunch. The comparison was conducted at the α=0.05 (2-sided) significance level.||-0.5|-28.1|0.043
82568736|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.45||||0.113||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 2||||0.113
82631894|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1299|STANDARD_ERROR_OF_MEAN|0.0158|<|0.0001|TWO_SIDED|95.0|0.0982|0.1617|||ANCOVA||standard error of the Mean difference|AUC 12-24 o day 1||0.1617|0.0982|<0.0001
82631895|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1369|STANDARD_ERROR_OF_MEAN|0.0154|<|0.0001|TWO_SIDED|95.0|0.1061|0.1678|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1678|0.1061|<0.0001
82631896|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0934|STANDARD_ERROR_OF_MEAN|0.0221|<|0.0001|TWO_SIDED|95.0|0.049|0.1377|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 1||0.1377|0.0490|<0.0001
82631897|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0879|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.0573|0.1186|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1186|0.0573|<0.0001
82631898|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1088|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.0788|0.1388|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1388|0.0788|<0.0001
82631899|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1175|STANDARD_ERROR_OF_MEAN|0.0151|<|0.0001|TWO_SIDED|95.0|0.0872|0.1478|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1478|0.0872|<0.0001
82631900|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1532|STANDARD_ERROR_OF_MEAN|0.0153|<|0.0001|TWO_SIDED|95.0|0.1226|0.1838|||ANCOVA||standard error of the Mean difference|||0.1838|0.1226|<0.0001
82631901|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.1048|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.0747|0.135|||ANCOVA||standard error of the Mean difference|||0.1350|0.0747|<0.0001
82631902|NCT01426009|164980193|SUPERIORITY||Least Squares Mean Difference (SE)|0.0993|STANDARD_ERROR_OF_MEAN|0.0202|<|0.0001|TWO_SIDED|95.0|0.0589|0.1398|||ANCOVA||standard error of the Mean difference|AUC 12-24 on day 7||0.1398|0.0589|<0.0001
82631903|NCT02268942|164980199|OTHER|||||||0.0003|||||||Exact Binomial|||"Success at six months is estimated to be 86% compared to a performance goal of 77.5%. Using an exact binomial test, with a one-sided alpha of 0.05, and 80% Power, a sample size of 145 implanted subjects was planned.~Success will be met if the lower bound of the upper one-sided exact 95% confidence interval is greater than 77.5%."||||0.0003
82631904|NCT02268942|164980200|OTHER||||||<|0.0001|||||||t-test, 1 sided|||"The secondary endpoint is an improvement in the mean length of initial hospital stay (initial recovery and step down unit), which is calculated by considering the number of days in acute care (ICU/CCU) plus the number of days in intermediate/step-down care, comprising the total number of days post-implant to discharge.~This secondary endpoint will be calculated using an upper tail one-sided t-test at 0.05 level of significance compared to 26.1 days for median sternotomy patients."||||<0.0001
82631905|NCT01021553|164980201|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.16||||0.4959|TWO_SIDED|95.0|0.75|1.79|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.79|0.75|0.4959
82631906|NCT01021553|164980201|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.11||||0.6161|TWO_SIDED|95.0|0.74|1.65|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.65|0.74|0.6161
82631907|NCT01021553|164980201|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.13||||0.4971|TWO_SIDED|95.0|0.79|1.61|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.61|0.79|0.4971
82378637|NCT01128179|164465851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0297||||0.6134|TWO_SIDED|95.0|-0.1492|0.0897||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Serum Phosphate at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Serum Phosphate as a covariate. The study was not powered for the analysis of this parameter||0.0897|-0.1492|0.6134
82631908|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.03||||0.9037|TWO_SIDED|95.0|0.67|1.58|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Week 0 to 4||1.58|0.67|0.9037
82631909|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.0||||0.9939|TWO_SIDED|95.0|0.67|1.48|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Week 0 to 4||1.48|0.67|0.9939
82631910|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.01||||0.9541|TWO_SIDED|95.0|0.71|1.43|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 0-4||1.43|0.71|0.9541
82631911|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.33||||0.2798|TWO_SIDED|95.0|0.79|2.24|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||2.24|0.79|0.2798
82631912|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.09||||0.7255|TWO_SIDED|95.0|0.68|1.75|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||1.75|0.68|0.7255
82631913|NCT01021553|164980202|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.18||||0.4347|TWO_SIDED|95.0|0.77|1.8|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|For Weeks 4-8||1.80|0.77|0.4347
82631914|NCT01021553|164980203|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.14||||0.6583|TWO_SIDED|95.0|0.63|2.05|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||2.05|0.63|0.6583
82631915|NCT01021553|164980203|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|0.96||||0.879|TWO_SIDED|95.0|0.56|1.65|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.65|0.56|0.8790
82631916|NCT01021553|164980203|SUPERIORITY_OR_OTHER||Geometric LS Mean Fold Difference|1.03||||0.8971|TWO_SIDED|95.0|0.64|1.67|||ANCOVA||Estimated value is Geometric LS Mean Fold Difference from Placebo.|||1.67|0.64|0.8971
82631917|NCT01021553|164980206|SUPERIORITY_OR_OTHER||Ratio of treatments|2.91|||||TWO_SIDED|90.0|2.43|3.48|||||For AUC (0-inf)|||3.48|2.43|
82631918|NCT01021553|164980206|SUPERIORITY_OR_OTHER||Ratio of treatments|2.98|||||TWO_SIDED|90.0|2.51|3.54||||||||3.54|2.51|
82631919|NCT01021553|164980207|SUPERIORITY_OR_OTHER||Ratio of treatments|3.63|||||TWO_SIDED|90.0|2.95|4.47||||||||4.47|2.95|
82631920|NCT01099761|164980303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED||||||ANCOVA|||||||0.023
82631921|NCT01099761|164980303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED||||||ANCOVA|||||||0.012
82631922|NCT01099761|164980303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435|TWO_SIDED||||||ANCOVA|||||||0.435
82631923|NCT01099761|164980304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED||||||ANCOVA|||||||0.039
82631924|NCT01700140|164980325|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
82631925|NCT01700140|164980325|SUPERIORITY_OR_OTHER|||||||0.2284|||||||Fisher Exact|||||||0.2284
82631926|NCT01700140|164980325|SUPERIORITY_OR_OTHER|||||||0.2549|||||||Cochran-Armitage test|||||||0.2549
82631927|NCT01700140|164980326|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82631928|NCT01700140|164980326|SUPERIORITY_OR_OTHER|||||||0.1527|||||||Fisher Exact|||||||0.1527
82631929|NCT01700140|164980326|SUPERIORITY_OR_OTHER|||||||0.1864|||||||Cochran-Armitage test|||||||0.1864
82631930|NCT01700140|164980327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.918||||0.8361|TWO_SIDED|95.0|0.266|3.172|||Generalized Wilcoxon test|||||3.172|0.266|0.8361
82631931|NCT01700140|164980327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.423||||0.0724|TWO_SIDED|95.0|0.144|1.237|||Generalized Wilcoxon test|||||1.237|0.144|0.0724
82631932|NCT01700140|164980328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213||||0.6466|TWO_SIDED|95.0|0.616|2.388|||Generalized Wilcoxon test|||||2.388|0.616|0.6466
82631933|NCT01700140|164980328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.828||||0.2701|TWO_SIDED|95.0|0.566|1.21|||Generalized Wilcoxon test|||||1.210|0.566|0.2701
82631934|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the first irradiation||||1.0000
82631935|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||0.1051|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the first irradiation||||0.1051
82631936|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||0.4856|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the second irradiation||||0.4856
82631937|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||0.1047|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the second irradiation||||0.1047
82631938|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||0.1617|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the third irradiation||||0.1617
82631939|NCT01700140|164980329|SUPERIORITY_OR_OTHER|||||||0.3099|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete control rate after the third irradiation||||0.3099
82631940|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the first irradiation||||1.0000
82631941|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||0.1051|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the first irradiation||||0.1051
82631942|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||0.6761|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the second irradiation||||0.6761
82631943|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||0.3513|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the second irradiation||||0.3513
82631944|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the third irradiation||||0.2060
82631945|NCT01700140|164980330|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Fisher Exact|||Statistical analysis for complete response rate after the third irradiation||||0.0511
82631946|NCT00678249|164980348|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82631947|NCT01708915|164980357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.362|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.699|-1.025||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-1.025|-1.699|<0.0001
82631948|NCT01708915|164980357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.983|STANDARD_ERROR_OF_MEAN|0.173|<|0.0001|TWO_SIDED|95.0|-1.324|-0.642||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.642|-1.324|<0.0001
82378638|NCT01128179|164465852|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0294||||0.5636|TWO_SIDED|95.0|-0.0739|0.1328||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Serum Total Calcium at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Serum Total Calcium as a covariate. The study was not powered for the analysis of this parameter.||0.1328|-0.0739|0.5636
82631949|NCT01708915|164980357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.195||0.4171||95.0|-0.541|0.225||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||0.225|-0.541|0.4171
82631950|NCT01708915|164980358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.049|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-1.305|-0.793||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.793|-1.305|<0.0001
82631951|NCT01708915|164980358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.731|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001||95.0|-1.003|-0.459||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||-0.459|-1.003|<0.0001
82631952|NCT01708915|164980358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.152||0.7037||95.0|-0.356|0.241||Model included the fixed, categorical effects of treatment, centre, time, treatment-by-time interaction and the continuous covariate of baseline PI.|Restricted Maximum Likelihood (REML)|REML based on Repeated Measures Model, using all Available Longitudinal Pain Intensity Observations at each Post-baseline time up to 8 hours.||||0.241|-0.356|0.7037
82631953|NCT01708915|164980359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.655|STANDARD_ERROR_OF_MEAN|0.208|<|0.0001||95.0|-2.064|-1.247|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-1.247|-2.064|<0.0001
82631954|NCT01708915|164980359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.169|STANDARD_ERROR_OF_MEAN|0.209|<|0.0001||95.0|-1.578|-0.759|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-0.759|-1.578|<0.0001
82631955|NCT01708915|164980359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.466|STANDARD_ERROR_OF_MEAN|0.209||0.0259||95.0|-0.875|-0.056|||ANCOVA|The statistical model included baseline PI, centre, and treatment.||||-0.056|-0.875|0.0259
82631956|NCT01708915|164980360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.385|||<|0.0001||95.0|4.943|11.032|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Placebo. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||11.032|4.943|<0.0001
82631957|NCT01708915|164980360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.62|||<|0.0001||95.0|2.469|5.308|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Nicoboxil. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||5.308|2.469|<0.0001
82631958|NCT01708915|164980360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.594||||0.0129||95.0|1.104|2.303|||Regression, Logistic|The logistic regression model included baseline PI, centre, and treatment.|Odds Ratio was calculated by Nicoboxil/Nonivamide : Nonivamide. Odds ratios \> 1 favour Nicoboxil/Nonivamide.|||2.303|1.104|0.0129
82631959|NCT04223778|164980450|NON_INFERIORITY|Doravirine/Islatravir (DOR/ISL) - Baseline Antiretroviral Therapy (ART). Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 4 percentage points.|Estimated Difference|-1.49|||<|0.001|TWO_SIDED|95.0|-3.44|-0.34|||Miettinen and Nurminen|The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.||||-0.34|-3.44|<.001
82631960|NCT04223778|164980451|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|9.8|||||TWO_SIDED|95.0|3.3|16.3|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||16.3|3.3|
82631961|NCT04223778|164980452|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.8|||||TWO_SIDED|95.0|0.2|4.0|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||4.0|0.2|
82631962|NCT04223778|164980453|OTHER|Doravirine/Islatravir (DOR/ISL)- Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.3|||||TWO_SIDED|95.0|-3.28|3.9|||||The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.|HIV-1 RNA \<40 copies/mL||3.90|-3.28|
82631963|NCT04223778|164980453|OTHER|Doravirine/Islatravir (DOR/ISL)- Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.89|||||TWO_SIDED|95.0|-2.58|4.43|||||The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.|HIV-1 RNA \<50 copies/mL||4.43|-2.58|
82631964|NCT04223778|164980456|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-8.9|||||TWO_SIDED|95.0|-13.4|-4.5|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||-4.5|-13.4|
82631965|NCT04223778|164980461|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-19.75|||||TWO_SIDED|95.0|-33.07|-6.44|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Cholesterol||-6.44|-33.07|
82631966|NCT04223778|164980461|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-1.35|||||TWO_SIDED|95.0|-6.55|3.84|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting HDL Cholesterol||3.84|-6.55|
82631967|NCT04223778|164980461|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-13.94|||||TWO_SIDED|95.0|-24.69|-3.2|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting LDL Cholesterol||-3.20|-24.69|
82631968|NCT04223778|164980461|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-17.74|||||TWO_SIDED|95.0|-30.02|-5.46|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Non-HDL Cholesterol||-5.46|-30.02|
82631969|NCT04223778|164980461|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-21.28|||||TWO_SIDED|95.0|-45.51|2.96|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|Fasting Triglycerides||2.96|-45.51|
82631970|NCT04223778|164980462|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-4.17|||||TWO_SIDED|95.0|-10.43|2.09|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||2.09|-10.43|
82631971|NCT04223778|164980462|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.81|||||TWO_SIDED|95.0|-1.46|3.09|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||3.09|-1.46|
82631972|NCT04223778|164980462|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-3.87|||||TWO_SIDED|95.0|-9.47|1.74|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||1.74|-9.47|
82631973|NCT04223778|164980462|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-4.92|||||TWO_SIDED|95.0|-11.21|1.38|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||1.38|-11.21|
82511467|NCT02318693|164715663|SUPERIORITY_OR_OTHER||LS Means Difference|5.1||||0.509|TWO_SIDED|95.0|-10.3|20.4|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||Comparison: Change from Baseline in Maximum Incremental Postprandial Glucose Levels at Dinner. The comparison was conducted at the α=0.05 (2-sided) significance level.||20.4|-10.3|0.509
82631974|NCT04223778|164980462|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.65|||||TWO_SIDED|95.0|-16.14|19.43|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||19.43|-16.14|
82378639|NCT01128179|164465853|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.0129||||0.922|TWO_SIDED|95.0|-0.2811|0.2553||The p-value was unadjusted and had no a priori significance level.|ANCOVA|||The null hypothesis was that there would be no difference between the 2 treatment groups in the mean change from baseline of Calcium-Phosphate Product at Week 12 (LOCF) in an analysis of covariance (ANCOVA) with treatment as a factor and the baseline Calcium-Phosphate Product as a covariate.||0.2553|-0.2811|0.9220
82378640|NCT02694328|164465854|SUPERIORITY||Least Squares Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|0.765||0.003|TWO_SIDED|95.0|-3.88|-0.88||P-value was adjusted using the Cui, Hung, and Wang (CHW) method to account for the unblinded interim analysis for sample size re-estimation.|ANCOVA|Missing values at Week 24 were imputed using multiple imputation.||||-0.88|-3.88|0.003
82378641|NCT02694328|164465855|SUPERIORITY||Risk Difference (RD)|-13.7||||0.003|TWO_SIDED|95.0|-22.8|-4.6||P-value was adjusted using the CHW method to account for the unblinded interim analysis for sample size re-estimation.|Regression, Logistic|Missing values at Week 24 were imputed using multiple imputation.|Risk difference (RD) of ALKS 3831 vs. Olanzapine|||-4.6|-22.8|0.003
82511468|NCT02318693|164715664|SUPERIORITY_OR_OTHER||LS Means Difference|15.7||||0.02|TWO_SIDED|95.0|2.5|28.8|||constrained longitudinal analysis model|Model included terms for treatment, time and time-by-treatment interaction with a constraint that mean baseline is the same for both treatment groups.||The comparison was conducted at the α=0.05 (2-sided) significance level.||28.8|2.5|0.020
82378642|NCT02694328|164465856|SUPERIORITY||Risk Difference (RD)|-15.9||||0.001|TWO_SIDED|95.0|-25.3|-6.5|||Regression, Logistic|Missing values at Week 24 were imputed using multiple imputation.|Risk difference (RD) ALKS 3831 vs. Olanzapine|||-6.5|-25.3|0.001
82378643|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.783||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Overall baseline score||||0.783
82378644|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED|95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 1||||0.971
82378645|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED|95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 3||||0.206
82378646|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 6||||0.111
82378647|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.181||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from baseline to Month 9||||0.181
82511469|NCT02318693|164715665|SUPERIORITY_OR_OTHER||LS Means Difference|-1.1||||0.134|TWO_SIDED|95.0|-2.5|0.3|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 70 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.3|-2.5|0.134
82511470|NCT02318693|164715665|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6||||0.226|TWO_SIDED|95.0|-1.5|0.4|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 60 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.4|-1.5|0.226
82568737|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.5||||0.127||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 4||||0.127
82631975|NCT04223778|164980463|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|1.05|||||TWO_SIDED|95.0|-7.6|9.7|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||9.70|-7.60|
82511471|NCT02318693|164715665|SUPERIORITY_OR_OTHER||LS Means Difference|0.0||||0.332|TWO_SIDED|95.0|-0.1|0.0|||constrained longitudinal analysis model|||Comparison: Change in Baseline in Percentage of Hypoglycemic Values \< 50 mg/dL. The comparison was conducted at the α=0.05 (2-sided) significance level.||0.0|-0.1|0.332
82378648|NCT00720382|164465868|SUPERIORITY_OR_OTHER|||||||0.037|||||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||Change from Baseline to Month 12/Early Term||||0.037
82511472|NCT00689481|164715666|SUPERIORITY_OR_OTHER|||||||0.016|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.016
82511473|NCT00689481|164715666|SUPERIORITY_OR_OTHER|||||||0.843|||||||Breslow-Day test|Breslow-Day test of the homogeneity of the odds ratio using a 0.1 significance level.||Consistency of results across investigative centers was verified using the Breslow-Day test of homogeneity the odds ration using a significance level of 0.1||||0.843
82511474|NCT00689481|164715667|SUPERIORITY_OR_OTHER|||||||0.034|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.034
82511475|NCT00689481|164715668|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is significant based on the Holm stepwise closed testing procedure to control multiplicity for the key secondary analyses if primary analysis was significant.|Cochran-Mantel-Haenszel|Stratified by pooled center.||||||0.004
82511476|NCT00689481|164715669|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.052
82511477|NCT00689481|164715670|SUPERIORITY_OR_OTHER|||||||0.033|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.033
82511478|NCT00689481|164715671|SUPERIORITY_OR_OTHER|||||||0.859|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had mild disease at baseline||||0.859
82511479|NCT00689481|164715671|SUPERIORITY_OR_OTHER|||||||0.015|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had moderate disease at baseline||||0.015
82511480|NCT02742103|164715734|OTHER||Rate difference (CSL112 - placebo)|-0.124|||||TWO_SIDED|95.0|-0.296|-0.005|||Newcombe-Wilson|||||-0.005|-0.296|
82511481|NCT02742103|164715735|OTHER||Rate difference (CSL112 - placebo)|-0.103|||||TWO_SIDED|95.0|-0.277|0.025|||Newcombe-Wilson|||||0.025|-0.277|
82511482|NCT02533921|164715751|SUPERIORITY||Mean Difference (Final Values)|1.5022|STANDARD_ERROR_OF_MEAN|0.6749||0.0272|TWO_SIDED|95.0|0.1706|2.8338|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||2.8338|0.1706|0.0272
82378649|NCT06473519|164465881|NON_INFERIORITY|Noninferiority of immune responses induced by MDVRSV preF compared to SDVRSV preF, assessed for RSVA\&B at 1month after vaccination. Null hypotheses(H0): RSVA(H0A)=ln(μMDV)-ln(μSDV)\<=-ln(1.5);RSVB(H0B):ln(μMDV)-ln(μSDV)\<=-ln(1.5), where ln(μMDV)\&ln(μSDV) are means of natural log-transformed antibody concentrations 1month after vaccination for MDV and SDV groups, respectively. Noninferiority=if lower bounds of 2-sided95%CI for GMT ratios (MDV/SDV) were \>0.67(noninferiority margin=1.5)for RSVA\&B.|Geometric mean ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||GMR was calculated as group mean difference of logarithmically transformed antibody levels, back transformed to original units.|RSV A||1.10|0.84|
82378650|NCT06473519|164465881|NON_INFERIORITY|Noninferiority of immune responses induced by MDVRSV preF compared to SDVRSV preF, assessed for RSVA\&B at 1 month after vaccination. Null hypotheses(H0):RSVA(H0A)=ln(μMDV)-ln(μSDV)\<=-ln(1.5);RSVB(H0B):ln(μMDV)-ln(μSDV)\<=-ln(1.5), where ln(μMDV)\&ln(μSDV) are means of natural log-transformed antibody concentrations 1 month after vaccination for MDV and SDV groups, respectively. Noninferiority=if lower bounds of 2-sided 95%CI for GMT ratios(MDV/SDV) were \>0.67(noninferiority margin=1.5)for RSVA\&B.|Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.79|1.06|||||GMR was calculated as group mean difference of logarithmically transformed antibody levels, back transformed to original units.|RSV B||1.06|0.79|
82511483|NCT02533921|164715752|SUPERIORITY||Mean Difference (Final Values)|-1.1236|STANDARD_ERROR_OF_MEAN|0.8267||0.1761|TWO_SIDED|95.0|-2.7569|0.5097|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.5097|-2.7569|0.1761
82631976|NCT04223778|164980463|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-3.16|||||TWO_SIDED|95.0|-6.37|0.05|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||0.05|-6.37|
82378651|NCT02514447|164465887|SUPERIORITY||||||<|0.0001||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (primary and key secondary myelosuppression efficacy endpoints) in a strong sense at a 1-sided 0.10 level.|non-parametric ANCOVA|Hochberg-based gatekeeping procedure||Analysis was for Part 2 data: Treatment difference was evaluated using a nonparametric analysis of covariance (ANCOVA). The nonparametric ANCOVA included study baseline ANC value as covariate, stratification factors of ECOG performance status (0 to 1 versus 2) and sensitivity to first line treatment (sensitive or resistant) and treatment as fixed effects.||||<0.0001
82378652|NCT02514447|164465888|SUPERIORITY|||||||0.016||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (primary and key secondary myelosuppression efficacy endpoints) in a strong sense at a 1-sided 0.10 level.|Modified Poisson|Hochberg-based gatekeeping procedure||The occurrence of SN was a binary variable. Treatment group difference was analyzed using modified Poisson regression to account for the variable duration of the Treatment Period for each patient. The model included baseline ANC as a covariate, stratification factors of ECOG performance status (0 or 1 vs 2), sensitivity to 1st line treatment (sensitive or resistant), and treatment as fixed effects. The logarithm transformation of # of cycles was included as an offset variable in the modeling.||||0.0160
82378653|NCT05351164|164465910|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82378654|NCT05351164|164465911|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82511484|NCT02533921|164715753|SUPERIORITY||Mean Difference (Final Values)|-0.4616|STANDARD_ERROR_OF_MEAN|0.3889||0.2369|TWO_SIDED|95.0|-1.2291|0.3059|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.3059|-1.2291|0.2369
82511485|NCT02533921|164715754|SUPERIORITY||Mean Difference (Final Values)|-0.1309||||0.7484|TWO_SIDED|95.0|-0.9349|0.673|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|||0.6730|-0.9349|0.7484
82568738|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.56||||0.087||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 4||||0.087
82568739|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.04||||0.543||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 4||||0.543
82568740|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.12||||0.377||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 4||||0.377
82568741|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.17||||0.321||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 4||||0.321
82568742|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.4||||0.149||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 4||||0.149
82568743|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.35||||0.215||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 6||||0.215
82631977|NCT04223778|164980463|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|4.38|||||TWO_SIDED|95.0|-2.27|11.03|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||11.03|-2.27|
82378655|NCT03300817|164465915|SUPERIORITY|||||||0.6834|||||||Wilcoxon Rank-Sum test|||||||0.6834
82511486|NCT02533921|164715755|SUPERIORITY||Mean Difference (Final Values)|-0.6878|STANDARD_ERROR_OF_MEAN|0.4789||0.1529|TWO_SIDED|95.0|-1.6338|0.2581|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.2581|-1.6338|0.1529
82511487|NCT02533921|164715756|SUPERIORITY||Mean Difference (Final Values)|-0.1608|STANDARD_ERROR_OF_MEAN|0.3934||0.6834|TWO_SIDED|95.0|-0.9382|0.6167|||Mixed Models Analysis||Compares the palliative care plus usual care group to the usual care group.|Comparing the mean within group change from baseline to 6 months between groups. The null hypothesis is there is no mean difference between groups.||0.6167|-0.9382|0.6834
82511488|NCT02215070|164715774|OTHER|||||||0.12|||||||Chi-squared|||||||0.12
82511489|NCT02215070|164715776|OTHER|||||||0.006|||||||Log Rank|||||||0.006
82511490|NCT02215070|164715777|OTHER|||||||0.002|||||||Log Rank|||||||0.002
82511491|NCT02449356|164715780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82511492|NCT02449356|164715781|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82511493|NCT02096835|164715828|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
82568744|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.47||||0.126||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 6||||0.126
82568745|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.28||||0.774||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 6||||0.774
82378656|NCT04848480|164465973|NON_INFERIORITY|Non-inferiority was considered confirmed if the estimated treatment difference was below 0.3%.|Treatment difference|0.05||||0.0065|TWO_SIDED|95.0|-0.13|0.23|||ANCOVA|||Change from baseline in HbA1c after 26 weeks was analysed using ANCOVA model with treatment, region, HbA1c group at screening and pre-trial basal insulin treatment as fixed factors, and baseline response as covariate.||0.23|-0.13|0.0065
82378657|NCT03176134|164465994|OTHER||Estimated Difference|6.5|||||TWO_SIDED|95.0|-12.2|25.3|||||The estimated difference in the clinical success rate and 2-sided 95% confidence interval (CI) were calculated using the unstratified method of Miettinen and Nurminen.|||25.3|-12.2|
82378658|NCT03176134|164465994|OTHER||Estimated Difference|-12.5|||||TWO_SIDED|95.0|-28.7|3.7|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||3.7|-28.7|
82378659|NCT03176134|164465994|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82631978|NCT04223778|164980463|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|3.63|||||TWO_SIDED|95.0|-3.93|11.19|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||11.19|-3.93|
82631979|NCT04223778|164980463|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-1.79|||||TWO_SIDED|95.0|-15.89|12.31|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||12.31|-15.89|
82631980|NCT04223778|164980464|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-18.41|||||TWO_SIDED|95.0|-32.05|-4.76|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||-4.76|-32.05|
82631981|NCT04223778|164980464|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.01|||||TWO_SIDED|95.0|-5.06|5.08|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||5.08|-5.06|
82631982|NCT04223778|164980464|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-14.12|||||TWO_SIDED|95.0|-25.81|-2.43|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||-2.43|-25.81|
82631983|NCT04223778|164980464|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-18.23|||||TWO_SIDED|95.0|-30.45|-6.0|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||-6.00|-30.45|
82631984|NCT04223778|164980464|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-27.79|||||TWO_SIDED|95.0|-51.08|-4.49|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||-4.49|-51.08|
82631985|NCT04223778|164980464|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-14.12||||0.0094|TWO_SIDED|95.0|-27.56|-0.68||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting LDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|-0.68|-27.56|0.0094
82631986|NCT04223778|164980464|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-18.23||||0.0021|TWO_SIDED|95.0|-32.28|-4.17||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting Non-HDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|-4.17|-32.28|0.0021
82631987|NCT04223778|164980465|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-0.04|||||TWO_SIDED|95.0|-6.26|6.18|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||6.18|-6.26|
82631988|NCT04223778|164980465|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.35|||||TWO_SIDED|95.0|-1.84|2.54|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||2.54|-1.84|
82631989|NCT04223778|164980465|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.64|||||TWO_SIDED|95.0|-4.83|6.11|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||6.11|-4.83|
82631990|NCT04223778|164980465|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-0.49|||||TWO_SIDED|95.0|-6.81|5.83|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||5.83|-6.81|
82631991|NCT04223778|164980465|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-5.45|||||TWO_SIDED|95.0|-20.46|9.57|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||9.57|-20.46|
82511494|NCT02096835|164715829|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Chi-squared|||||||0.021
82511495|NCT02096835|164715830|SUPERIORITY_OR_OTHER|||||||0.503|TWO_SIDED||||||Chi-squared|||||||0.503
82511496|NCT02096835|164715831|SUPERIORITY_OR_OTHER|||||||0.571|TWO_SIDED||||||Chi-squared|||||||0.571
82511497|NCT01706952|164715832|SUPERIORITY_OR_OTHER|For surgical field grade, we calculated the mean within sides and assessed its difference, reporting a 95% confidence interval as calculated by a Student t test. We used the average per patient over time.||||||0.05|||||||t-test, 2 sided|||Data analysis was performed using SPSS version 13 for Windows (SPSS Inc, Chicago, IL). A power study was per formed with a power of 80% and a clinically significant difference in bleeding between the sides of 20% with a significance level of 5% (p \< 0.05).|"For the primary objective of surgical field grade, we calculated the mean within sides treated with cocaine vs adrenaline and assessed its difference, reporting a 95% con- fidence interval as calculated by a Student t test. As all of these values were measured over time, we used the average per patient over time. The total blood loss per side within subjects was also calculated, with 95% confidence interval again calculated by a Student t test. Once again, we took the average per patient over time as the main outcome.~Finally, we used a linear regression with surgical field improvement as the outcome and HR, MAP, or etCO2 as covariates, to investigate which variables may be related to the outcome. As these measures were taken over time, we used repeated measures analysis to investigate how these items correlate over time.~In addition to the operating surgeon, the statistician was blinded to the vasoconstrictor allocation."|||0.05
82511498|NCT00023673|164715839|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|2-sided significance level = 0.05||Lung toxicity (\<Grade 3 vs. \>= Grade 3): Lung V20||||0.62
82511499|NCT00023673|164715839|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Lung V20||||0.22
82511500|NCT00023673|164715840|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|2-sided significance level = 0.05||Lung toxicity (\<Grade 3 vs. \>= Grade 3): Mean Lung Dose||||0.30
82511501|NCT00023673|164715840|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Mean Lung Dose||||0.17
82511502|NCT00023673|164715840|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|2-sided significance level = 0.05||Esophagitis toxicity (\<Grade 2 vs. \>= Grade 2): Mean Esophageal Dose||||0.08
82511503|NCT00120042|164715907|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||We planned that up to 300 women would be recruited. This sample size would achieve 80% poer at a 5% significance level to detect a reduction from 40% placental retention rate with no specific therapy (Group 1) to 20% with Group 2 or 3. An interim analysis was planned after 240 women had been recruited.||||0.05
82511504|NCT00120042|164715908|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82511505|NCT01049919|164715927|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.224|TWO_SIDED|95.0|0.31|1.31|||Proportional Hazards Regression|||||1.31|0.31|0.224
82511506|NCT01049919|164715928|SUPERIORITY|||||||0.671||||||Treatment-by-week p-value is reported.|Repeated measures model|The statistical analysis model includes treatment group, week, treatment-by-week, and baseline pain measurement.||||||0.671
82511507|NCT01049919|164715929|SUPERIORITY|||||||0.714||||||Treatment-by-week p-value is reported.|Repeated measures model|The statistical analysis model includes treatment group, week, treatment-by-week, and baseline pain measurement.||||||0.714
82511508|NCT01049919|164715931|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.018|TWO_SIDED|95.0|0.16|0.85|||Proportional Hazards Regression|||||0.85|0.16|0.018
82511509|NCT05446909|164715957|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
82511510|NCT05446909|164715958|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
82511511|NCT05446909|164715959|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
82511512|NCT05446909|164715960|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82511513|NCT05446909|164715961|SUPERIORITY|||||||0.754|||||||ANOVA|||||||0.754
82511514|NCT05446909|164715962|SUPERIORITY|||||||0.985|||||||ANOVA|||||||0.985
82511515|NCT05446909|164715963|SUPERIORITY|||||||0.877|||||||ANOVA|||||||0.877
82511516|NCT00079274|164715986|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.15|TWO_SIDED|95.0|0.92|1.68|||Regression, Cox|HR and p-value reported from a multivariate Cox PH regression model, adjusted for number of nodes, histologic grade, and T stage.||||1.68|0.92|0.15
82511517|NCT00079274|164715987|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.25|TWO_SIDED|95.0|0.85|1.92|||Regression, Cox|HR and p-value reported from a multivariate Cox PH regression model, adjusted for number of nodes, histologic grade, and T stage.||||1.92|0.85|0.25
82511518|NCT00079274|164715988|SUPERIORITY||||||<|0.001|||||||Chi-squared|two-sided chi-squared test||||||<0.001
82511519|NCT00079274|164715989|SUPERIORITY||||||<|0.001|||||||Chi-squared|Two-sided chi-squared test||||||<0.001
82511520|NCT03969212|164716002|SUPERIORITY||Adjusted OR (BMX vs Placebo)|0.68|||=|0.013|TWO_SIDED|95.38|0.5|0.93|||GEE|||The odds ratio (OR) shown represents the odds of Baloxavir Marboxil (BMX) versus the odds of Placebo.||0.93|0.50|= 0.013
82511521|NCT03969212|164716003|SUPERIORITY||Adjusted OR (BMX vs Placebo)|0.75|||=|0.155|TWO_SIDED|95.38|0.5|1.12|||GEE model|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.12|0.50|= 0.1550
82511522|NCT03969212|164716004|OTHER||Odds Ratio (BMX vs Placebo}]|0.76|||||TWO_SIDED|95.38|0.55|1.06||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.06|0.55|
82511523|NCT03969212|164716005|OTHER||Odds Ratio (BMX vs Placebo)|0.69|||||TWO_SIDED|95.38|0.46|1.04||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.04|0.46|
82511524|NCT03969212|164716006|OTHER||Adjusted OR (BMX vs Placebo)|0.66|||||TWO_SIDED|95.38|0.48|0.91|||GEE model|||The OR shown represents the odds of BMX versus the odds of Placebo.||0.91|0.48|
82511525|NCT03969212|164716007|OTHER||Adjusted OR (BMX vs Placebo)|0.73|||||TWO_SIDED|95.38|0.48|1.09|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.09|0.48|
82511526|NCT03969212|164716008|OTHER||Adjusted OR (BMX vs Placebo)|0.71|||||TWO_SIDED|95.38|0.53|0.94|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||0.94|0.53|
82378660|NCT03176134|164465994|OTHER||Estimated Difference|1.3|||||TWO_SIDED|95.0|-10.7|13.4|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||13.4|-10.7|
82378661|NCT03176134|164465995|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% confidence interval (CI) were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82378662|NCT03176134|164465995|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82378663|NCT03176134|164465995|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82378664|NCT03176134|164465995|OTHER||Estimated Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated difference in the clinical success rate and 2-sided 95% CI were calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82378665|NCT03915652|164465996|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.34|TWO_SIDED|95.0|-2.88|1.02|||t-test, 2 sided|Paired t-test||Waves 1 and 2 were combined and appointment nonadherence during the intervention was compared with the 12 months prior.||1.02|-2.88|0.34
82378666|NCT03915652|164465997|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.34|TWO_SIDED|95.0|-1.08|0.39|||t-test, 2 sided|Paired t-test||Waves 1 and 2 were combined and emergency department visits and hospitalizations during the intervention was compared with the 12 months prior.||0.39|-1.08|0.34
82378667|NCT03915652|164465998|SUPERIORITY||Mean Difference (Final Values)|0.59|||<|0.001|TWO_SIDED|95.0|0.45|0.73|||t-test, 1 sided|One sided t-test of percent of needs remaining from 100%.||Wave 1 and Wave 2 were combined and the quality metric at the end of the 12-month intervention was compared to the metric from the start of the intervention.||0.73|0.45|<0.001
82378668|NCT03915652|164465999|SUPERIORITY||Mean Difference (Final Values)|7.5||||0.51|TWO_SIDED|95.0|-19.8|34.8|||t-test, 2 sided|||||34.8|-19.8|0.51
82378669|NCT03915652|164466000|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.17|TWO_SIDED|95.0|-0.43|1.92|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, compared post to pre.||1.92|-0.43|0.17
82378670|NCT03915652|164466001|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.72|TWO_SIDED|95.0|-4.92|6.52|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, compared pre/post intervention||6.52|-4.92|0.72
82378671|NCT03915652|164466002|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.5|TWO_SIDED|95.0|-6.22|10.22|||t-test, 2 sided|||Waves 1 and 2 are combined; pre/post survey analysis||10.22|-6.22|0.50
82378672|NCT03915652|164466003|SUPERIORITY||Mean Difference (Final Values)|3.77||||0.01|TWO_SIDED|95.0|1.06|6.47|||t-test, 2 sided|||Waves 1 and 2 combined; pre/post analysis||6.47|1.06|0.01
82378673|NCT03915652|164466004|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.77|TWO_SIDED|95.0|-1.27|0.98|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined, pre/post test||0.98|-1.27|0.77
82378674|NCT03915652|164466005|SUPERIORITY||Mean Difference (Final Values)|2.14||||0.37|TWO_SIDED|95.0|-3.23|7.52|||t-test, 2 sided|Paired t-test||Waves 1 and 2 combined; pre/post analysis||7.52|-3.23|0.37
82511527|NCT03969212|164716009|OTHER||Odds Ratio (BMX vs Placebo)|0.79|||||TWO_SIDED|95.38|0.59|1.06||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.06|0.59|
82511528|NCT03969212|164716010|OTHER||Adjusted OR (BMX vs Placebo)|0.72|||||TWO_SIDED|95.38|0.49|1.07|||Two-Sided P-value|||The OR shown represents the odds of BMX versus the odds of Placebo.||1.07|0.49|
82386668|NCT02347774|164484085|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Mean Squared (SE)|0.0736|STANDARD_ERROR_OF_MEAN|0.01989||0.0002|TWO_SIDED|95.0|0.0346|0.1127|||Least Mean Squared (SE)||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1127|0.0346|0.0002
82511529|NCT03969212|164716011|OTHER||Odds Ratio (BMX vs Placebo)|0.71|||||TWO_SIDED|95.38|0.48|1.04||||||The OR shown represents the odds of BMX versus the odds of Placebo.||1.04|0.48|
82511530|NCT00280566|164716023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|||||||Log Rank|alpha = 0.05 level of significance||Equality of Survival Curves across the treatment groups.||||0.0104
82511531|NCT00280566|164716024|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047|||||||Log Rank|No adjustment made for multiple comparisons||alpha = 0.05 level of significance||||0.0047
82511532|NCT00280566|164716025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0205||||||No adjustment made for multiple comparisons|Log Rank|||alpha = 0.05 level of significance||||0.0205
82386669|NCT02347774|164484085|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Mean Squared (SE)|0.081|STANDARD_ERROR_OF_MEAN|0.02006||0.0001|TWO_SIDED|95.0|0.0416|0.1204|||Least Mean Squared (SE)||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1204|0.0416|0.0001
82378675|NCT00879255|164466033|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-4.75|||>|0.05|TWO_SIDED|95.0|-11.92|2.42||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority analysis|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||2.42|-11.92|> .05
82631992|NCT04223778|164980465|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|0.64||||0.4093|TWO_SIDED|95.0|-5.63|6.9||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting LDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|6.90|-5.63|0.4093
82631993|NCT04223778|164980465|SUPERIORITY|Treatment Difference vs Baseline ART. Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI is less than 0 percentage points.|Mean Difference (Net)|-0.49||||0.4397|TWO_SIDED|95.0|-7.72|6.75||The significance level in ANCOVA model was 0.02497/2=0.012485. The p-value is statistically significant if it is \<0.02497/2=0.012485.|ANCOVA|||Fasting Non-HDL Cholesterol - Multiplicity Adjusted|The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|6.75|-7.72|0.4397
82631994|NCT04223778|164980466|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|2.31|||||TWO_SIDED|95.0|-5.54|10.17|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Cholesterol||10.17|-5.54|
82631995|NCT04223778|164980466|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|-2.52|||||TWO_SIDED|95.0|-5.69|0.65|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting HDL Cholesterol||0.65|-5.69|
82631996|NCT04223778|164980466|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|2.34|||||TWO_SIDED|95.0|-3.73|8.42|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting LDL Cholesterol||8.42|-3.73|
82631997|NCT04223778|164980466|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|3.97|||||TWO_SIDED|95.0|-2.63|10.56|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Non-HDL Cholesterol||10.56|-2.63|
82631998|NCT04223778|164980466|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|10.5|||||TWO_SIDED|95.0|-3.97|24.96|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|Fasting Triglycerides||24.96|-3.97|
82631999|NCT04223778|164980467|OTHER|Treatment Difference vs Baseline ART. Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated Difference|0.44|||||TWO_SIDED|95.0|-0.59|1.46|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method|||1.46|-0.59|
82632000|NCT02043704|164980472|EQUIVALENCE|The null hypothesis is that there is no difference in the pain scores between the groups.||||||0.328||||||The p-value was not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|There were no adjustments.||The comparison was analyzed using the Mann-Whitney U test.||||0.328
82632001|NCT03958149|164980491|SUPERIORITY||||||<|0.001|||||||Independent t-test|||||||<0.001
82632002|NCT03958149|164980492|SUPERIORITY||||||<|0.05|||||||Factorial Mixed ANOVA|||||||<0.05
82632003|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|2.9||||0.3474|TWO_SIDED|95.0|-3.3|9.1|||ANOVA|Analysis of variance for repeated measures||Dryness - Study eye - Day 15±2 The model included fixed effect terms for time point, baseline covariate (i.e. the day 1 - pre-dose value) and treatment. Time point was specified as a repeated measurement.||9.1|-3.3|0.3474
82632004|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.1327|TWO_SIDED|95.0|-8.2|4.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Study eye - Day 15±2||4.3|-8.2|0.1327
82632005|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.1327|TWO_SIDED|95.0|-11.2|1.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Study eye - Day 15±2||1.6|-11.2|0.1327
82632006|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.2237|TWO_SIDED|95.0|-2.5|10.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||10.0|-2.5|0.2237
82632007|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.4905|TWO_SIDED|95.0|-8.4|4.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||4.1|-8.4|0.4905
82632008|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.0687|TWO_SIDED|95.0|-12.3|0.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Study eye - Day 15±2||0.5|-12.3|0.0687
82632009|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.7609|TWO_SIDED|95.0|-4.2|5.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||5.6|-4.2|0.7609
82632010|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.6428|TWO_SIDED|95.0|-6.0|3.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||3.8|-6.0|0.6428
82632011|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.4599|TWO_SIDED|95.0|-6.9|3.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Study eye - Day 15±2||3.2|-6.9|0.4599
82511533|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.55||0.1247|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1: Difference in Change during Period 2 MMRM ANCOVA: center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1247
82386670|NCT02347774|164484086|SUPERIORITY||Least Mean Squared (SE)|0.082|STANDARD_ERROR_OF_MEAN|0.02055|<|0.0001|TWO_SIDED|95.0|0.0417|0.1224||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least Mean Squared (SE)|I||The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures model including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1224|0.0417|<0.0001
82511534|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7515|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7515
82511535|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.62||0.3074|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3074
82511536|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.71||0.0758|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0758
82511537|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.82||0.0162|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0162
82511538|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|0.83||0.0003|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0003
82511539|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|0.98||0.0242|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0242
82511540|NCT00280566|164716026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.71||0.0161|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0161
82511541|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0088|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0088
82511542|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.3677|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3677
82511543|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0734|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0734
82568746|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.01||||0.495||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 6||||0.495
82511544|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9166|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9166
82511545|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2791|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2791
82511546|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.146|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1460
82511547|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.7301|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7301
82511548|NCT00280566|164716027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8162|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8162
82511549|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0013|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0013
82378676|NCT00879255|164466034|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-4.76|||>|0.05|TWO_SIDED|95.0|-11.65|2.13||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority design|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||2.13|-11.65|> .05
82511550|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.1167|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1167
82632012|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.4217|TWO_SIDED|95.0|-4.6|10.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||10.5|-4.6|0.4217
82511551|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0188|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0188
82511552|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.3413|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3413
82511553|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.276|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2760
82568747|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.0||||0.495||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 6||||0.495
82511554|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.19||0.0085|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0085
82632013|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.503||||-2.5|TWO_SIDED|95.0|-10.0|5.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||5.0|-10.0|-2.5
82511555|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.18||0.1317|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1317
82511556|NCT00280566|164716028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.18||0.1666|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1666
82632014|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.4599|TWO_SIDED|95.0|-6.9|3.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Study eye - Day 15±2||3.2|-6.9|0.4599
82511557|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.75||0.0023|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 1 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0023
82511558|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.91||0.1412|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 2 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate||||0.1412
82511559|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.87||0.0861|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0861
82632015|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.6157|TWO_SIDED|95.0|-2.6|4.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||4.4|-2.6|0.6157
82632016|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.912|TWO_SIDED|95.0|-3.7|3.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||3.3|-3.7|0.9120
82632017|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.5463|TWO_SIDED|95.0|-4.6|2.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Study eye - Day 15±2||2.5|-4.6|0.5463
82632018|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.9065|TWO_SIDED|95.0|-5.9|5.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||5.3|-5.9|0.9065
82632019|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.5065|TWO_SIDED|95.0|-7.3|3.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||3.7|-7.3|0.5065
82632020|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.5977|TWO_SIDED|95.0|-7.1|4.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky Feeling - Study eye - Day 15±2||4.2|-7.1|0.5977
82632021|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.2785|TWO_SIDED|95.0|-6.3|1.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred Vision - Study eye - Day 15±2||1.9|-6.3|0.2785
82632022|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.7454|TWO_SIDED|95.0|-4.6|3.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Study eye - Day 15±2||3.3|-4.6|0.7454
82632023|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.4588|TWO_SIDED|95.0|-2.7|5.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Study eye - Day 15±2||5.9|-2.7|0.4588
82632024|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.2812|TWO_SIDED|95.0|-3.7|12.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||12.3|-3.7|0.2812
82632025|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.6811|TWO_SIDED|95.0|-6.5|9.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||9.8|-6.5|0.6811
82632026|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.5169|TWO_SIDED|95.0|-10.8|5.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Study eye - Day 15±2||5.6|-10.8|0.5169
82632027|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.7874|TWO_SIDED|95.0|-5.9|7.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||7.8|-5.9|0.7874
82632028|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.8299|TWO_SIDED|95.0|-7.6|6.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||6.1|-7.6|0.8299
82632029|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.6386|TWO_SIDED|95.0|-8.7|5.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Dryness - Non Study eye - Day 15±2||5.4|-8.7|0.6386
82632030|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.0132|TWO_SIDED|95.0|1.3|10.2|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||10.2|1.3|0.0132
82632031|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.7177|TWO_SIDED|95.0|-5.3|3.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||3.7|-5.3|0.7177
82632032|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.0077|TWO_SIDED|95.0|-11.2|-1.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Foreign body sensation - Non Study eye - Day 15±2||-1.9|-11.2|0.0077
82632033|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.0301|TWO_SIDED|95.0|0.6|10.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||10.0|0.6|0.0301
82632034|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8657|TWO_SIDED|95.0|-4.3|5.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||5.1|-4.3|0.8657
82632035|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.044|TWO_SIDED|95.0|-9.7|-0.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Burning/Stinging - Non Study eye - Day 15±2||-0.1|-9.7|0.0440
82632036|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1351|TWO_SIDED|95.0|-1.4|9.6|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||9.6|-1.4|0.1351
82568748|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.23||||0.274||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 6||||0.274
82632037|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.8821|TWO_SIDED|95.0|-6.0|5.2|||ANCOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||5.2|-6.0|0.8821
82632038|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.1208|TWO_SIDED|95.0|-10.3|1.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Itching - Non Study eye - Day 15±2||1.3|-10.3|0.1208
82632039|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.944|TWO_SIDED|95.0|-3.3|3.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||3.5|-3.3|0.9440
82632040|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.4903|TWO_SIDED|95.0|-2.2|4.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||4.5|-2.2|0.4903
82378677|NCT00879255|164466035|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority design to test the hypothesis that VTC is noninferior to in-person treatment delivery. The noninferiority margin was determined to be 10 CAPS points. We analyzed means differences in CAPS scores between the two treatment conditions (VTC minus in-person) with positive values indicating greater reductions in VTC condition. Power was estimated to be 90% with alpha = .20, and a between-group difference equaling an effect size of d = .50 (estimated 10 CAPS points).|Mean Difference (Final Values)|-5.56|||>|0.05|TWO_SIDED|95.0|-16.26|5.14||"The noninferiority margin is the maximum clinically meaningful amount by which VTC can be worse than the in-person delivery to allow for a conclusion of noninferiority (a priori set to 10 CAPS points)."|noninferiority test|We hypothesized that VTC is noninferior to in-person condition, which is supported if upper limit of 95% CI is less than preset noninferiority margin.|The noninferiority hypothesis would be supported if the 95% Confidence Interval of the difference in CAPS scores between the 2 conditions (VTC minus in-person scores) is less than the present noninferiority margin (10 CAPS points).|||5.14|-16.26|> .05
82378678|NCT01499095|164466036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Stepwise closed testing approach was to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|95.0|-0.139|0.119||||||Analysis was performed using an analysis of covariance (ANCOVA) model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the HbA1c baseline value as a covariate.||0.119|-0.139|
82378679|NCT01499095|164466037|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.77||||0.038|TWO_SIDED|95.0|0.61|0.99|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method with treatment as a factor and stratified on strata of screening HbA1c (\<8.0 and \>=8.0%).||0.99|0.61|0.0380
82378680|NCT01499095|164466038|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.201||0.8279|TWO_SIDED|95.0|-0.438|0.35|||ANCOVA|||Change in pre-injection SMPG was analysed using an ANCOVA model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the pre-injection SMPG baseline value as a covariate. A test for superiority of HOE901-U300 over Lantus was to be performed one-sided at level alpha = 0.025 if previous analysis for nocturnal hypoglycaemia was significant.||0.350|-0.438|0.8279
82378681|NCT01499095|164466047|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|-0.152|0.415||||||Analysis was performed using Analysis of covariance (ANCOVA) model with treatment regimen and country as fixed effects and baseline (Month 6) HbA1c value as a covariate.||0.415|-0.152|
82378682|NCT04909853|164466052|OTHER||Ratio of Adjusted Geometric Means|129.78|||||TWO_SIDED|90.0|101.93|165.25|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||165.25|101.93|
82378683|NCT04909853|164466052|OTHER||Ratio of Adjusted Geometric Means|138.12|||||TWO_SIDED|90.0|113.18|168.55|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||168.55|113.18|
82378684|NCT04909853|164466052|OTHER||Ratio of Adjusted Geometric Means|148.02|||||TWO_SIDED|90.0|111.4|196.68|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||196.68|111.40|
82378685|NCT04909853|164466053|OTHER||Ratio of Adjusted Geometric Means|123.84|||||TWO_SIDED|90.0|99.64|153.91|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||153.91|99.64|
82568749|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.22||||0.308||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 8||||0.308
82378686|NCT04909853|164466053|OTHER||Ratio of Adjusted Geometric Means|187.4|||||TWO_SIDED|90.0|148.52|236.46|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||236.46|148.52|
82378687|NCT04909853|164466053|OTHER||Ratio of Adjusted Geometric Means|304.49|||||TWO_SIDED|90.0|237.6|390.21|||||Analysis used one-way ANOVA model with renal function as a fixed effect. The ratio of adjusted geometric means (test \[impaired\]/reference \[normal\]) and 90% confidence interval (CI) were expressed as percentages.|||390.21|237.60|
82378688|NCT03288714|164466075|SUPERIORITY|||||||0.814|||||||Fisher Exact|The proportion of patients is compared across treatment groups using Fisher's Exact.||Null hypothesis is that the active sTMS treatment group does not differ from the sham group with respect to the proportion of patients with clinical response at Week 6.||||.814
82378689|NCT03288714|164466076|SUPERIORITY|||||||0.872|||||||ANCOVA|P-value is from analysis of covariance adjusting for baseline.||Null hypothesis is that the active sTMS treatment group does not differ from the sham group with respect to the proportion of patients with clinical response at Week 6.||||.872
82378690|NCT03288714|164466077|SUPERIORITY|||||||0.641|||||||ANCOVA|P-value is from analysis of covariance adjusting for baseline.||The null hypothesis is that the active sTMS treatment group does not differ||||.641
82378691|NCT03288714|164466078|SUPERIORITY|||||||0.032||||||Alpha level: .05|ANCOVA|P-value is from analysis of covariance adjusting for baseline||||||.032
82378692|NCT03288714|164466079|SUPERIORITY|||||||0.015||||||Alpha level: .05|ANCOVA|P-value is from analysis of covariance adjusting for baseline||||||.015
82378693|NCT03288714|164466080|SUPERIORITY|||||||0.028||||||Alpha level: .05|Fisher Exact|The proportion of patients is compared across treatment groups using Fisher's Exact.||||||.028
82632041|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.5364|TWO_SIDED|95.0|-2.3|4.3|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Pain - Non Study eye - Day 15±2||4.3|-2.3|0.5364
82568750|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.34||||0.205||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 8||||0.205
82632042|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.51|TWO_SIDED|95.0|-2.9|5.7|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||5.7|-2.9|0.5100
82378694|NCT04882241|164466081|OTHER||Hazard Ratio (HR)|0.92||||0.39528|TWO_SIDED|95.0|0.5|1.7||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.70|0.50|0.39528
82568751|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.39||||0.849||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 8||||0.849
82632043|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.1132|TWO_SIDED|95.0|-0.9|7.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||7.8|-0.9|0.1132
82632044|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3457|TWO_SIDED|95.0|-2.4|6.5|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Sticky feeling - Non Study eye - Day 15±2||6.5|-2.4|0.3457
82632045|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.0185|TWO_SIDED|95.0|0.8|7.9|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||7.9|0.8|0.0185
82632046|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.0408|TWO_SIDED|95.0|0.2|7.1|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||7.1|0.2|0.0408
82632047|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.6992|TWO_SIDED|95.0|-4.4|3.0|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Blurred vision - Non Study eye - Day 15±2||3.0|-4.4|0.6992
82632048|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|5.9||||0.0905|TWO_SIDED|95.0|-1.0|12.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||12.8|-1.0|0.0905
82632049|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.3054|TWO_SIDED|95.0|-3.4|10.4|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||10.4|-3.4|0.3054
82632050|NCT03031327|164980531|SUPERIORITY||Mean Difference (Final Values)|0.5024||||0.5024|TWO_SIDED|95.0|-9.6|4.8|||ANOVA|||Analysis of variance on changes from baseline in ocular tolerability - Photophobia - Non Study eye - Day 15±2||4.8|-9.6|0.5024
82632051|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.1226|TWO_SIDED|95.0|-0.1|0.8|||Student t-test pooled|Student t-test with pool method for estimating common variance on changes from baseline in ocular surface vital staining||Study eye - Day 15±2 pre-dose||0.8|-0.1|0.1226
82378695|NCT04882241|164466082|OTHER||Difference in Percentage|1.9||||0.33244|TWO_SIDED|95.0|-7.7|12.0|||Miettinen and Nurminen|Based on unstratified Miettinen \& Nurminen method||||12.0|-7.7|0.33244
82568752|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.07||||0.571||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 8||||0.571
82632052|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.2854|TWO_SIDED|95.0|-0.2|0.7|||Student t-test pooled|Student t-test with pool method for estimating common variance on changes from baseline in ocular surface vital staining||Study eye - Day 15±2 pre-dose||0.7|-0.2|0.2854
82632053|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.6525|TWO_SIDED|95.0|-0.6|0.4|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining -||Student t-test on changes from baseline in ocular surface vital staining - Study eye - Day 15±2 pre-dose||0.4|-0.6|0.6525
82632054|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8843|TWO_SIDED|95.0|-0.4|0.5|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining -||Non Study eye - Day 15±2 pre-dose||0.5|-0.4|0.8843
82632055|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0806|TWO_SIDED|95.0|-0.6|0.0|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining||Non Study eye - Day 15±2 pre-dose||0.0|-0.6|0.0806
82632056|NCT03031327|164980533|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0628|TWO_SIDED|95.0|-0.7|0.0|||Student t-test pooled|Student t-test pooled method for estimating common variance on changes from baseline in ocular surface vital staining||Non Study eye - Day 15±2 pre-dose||0.0|-0.7|0.0628
82632057|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.2004|TWO_SIDED|95.0|-0.2|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.9|-0.2|0.2004
82632058|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5413|TWO_SIDED|95.0|-0.3|0.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.6|-0.3|0.5413
82632059|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.4607|TWO_SIDED|95.0|-0.8|0.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Study eye - Day 15±2 pre-dose||0.4|-0.8|0.4607
82632060|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1248|TWO_SIDED|95.0|-0.2|1.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||1.4|-0.2|0.1248
82632061|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.0624|TWO_SIDED|95.0|0.0|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||1.1|0.0|0.0624
82632062|NCT03031327|164980534|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7927|TWO_SIDED|95.0|-1.0|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in Schirmer-I test - Non Study eye - Day 15±2 pre-dose||0.8|-1.0|0.7927
82632063|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9717|TWO_SIDED|95.0|-0.6|0.7|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Study eye - Day 15±2 pre-dose||0.7|-0.6|0.9717
82632064|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7386|TWO_SIDED|95.0|-0.6|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Study eye - Day 15±2 pre-dose||0.9|-0.6|0.7386
82632065|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7498|TWO_SIDED|95.0|-0.6|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Study eye - Day 15±2 pre-dose||0.8|-0.6|0.7498
82632066|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.3229|TWO_SIDED|95.0|-1.1|0.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||0.4|-1.1|0.3229
82632067|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.57|TWO_SIDED|95.0|-0.5|0.9|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||0.9|-0.5|0.5700
82632068|NCT03031327|164980535|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1197|TWO_SIDED|95.0|-0.2|1.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in TFBUT - Non Study eye - Day 15±2 pre-dose||1.3|-0.2|0.1197
82511560|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.82||0.5992|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5992
82511561|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.76||0.5873|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5873
82511562|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.78||0.2116|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2116
82511563|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.68||0.1847|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1847
82511564|NCT00280566|164716029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.82||0.9972|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9972
82511565|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.93||0.5954|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5954
82568753|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.09||||0.592||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 8||||0.592
82378696|NCT04882241|164466083|OTHER||Hazard Ratio (HR)|1.03||||0.52903|TWO_SIDED|95.0|0.48|2.22||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.22|0.48|0.52903
82511566|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.93||0.3414|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3414
82511567|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|1.23||0.9745|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate||||0.9745
82511568|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.47||0.5627|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5627
82511569|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|1.1||0.741|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.7410
82511570|NCT00280566|164716030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.88||0.9632|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9632
82511571|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.22||0.9538|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9538
82632069|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8787|TWO_SIDED|95.0|-0.6|0.6|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.6|-0.6|0.8787
82632070|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8159|TWO_SIDED|95.0|-0.5|0.7|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.7|-0.5|0.8159
82632071|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.6525|TWO_SIDED|95.0|-0.4|0.6|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Study eye - Day 15±2 pre-dose||0.6|-0.4|0.6525
82632072|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.334|TWO_SIDED|95.0|-1.0|0.4|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.4|-1.0|0.3340
82632073|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9749|TWO_SIDED|95.0|-0.7|0.7|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.7|-0.7|0.9749
82632074|NCT03031327|164980536|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.1984|TWO_SIDED|95.0|-0.2|0.9|||Student t-test pooled|||Student t-test on changes from baseline in BCDVA - Non Study eye - Day 15±2 pre-dose||0.9|-0.2|0.1984
82632075|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.6497|TWO_SIDED|95.0|-10.5|16.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||16.4|-10.5|0.6497
82632076|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.1443|TWO_SIDED|95.0|-16.5|2.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||2.6|-16.5|0.1443
82632077|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|-9.9||||0.0751|TWO_SIDED|95.0|-20.9|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Frequency of symptoms - Day 15±2 pre-dose||1.1|-20.9|0.0751
82632078|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.5015|TWO_SIDED|95.0|-7.9|15.5|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||15.5|-7.9|0.5015
82632079|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.3217|TWO_SIDED|95.0|-12.5|4.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||4.4|-12.5|0.3217
82632080|NCT03031327|164980537|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.1026|TWO_SIDED|95.0|-17.5|1.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in SANDE scores - Severity of symptoms - Day 15±2 pre-dose||1.8|-17.5|0.1026
82632081|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
82632082|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
82632083|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Study eye - Day 15±2 pre-dose||||1.000
82632084|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||0.4101
82632085|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||0.4101
82632086|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Meibomian Glands - Non Study eye - Day 15±2 pre-dose||||1.000
82632087|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||0.4101
82632088|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||0.4101
82632089|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Study eye - Day 15±2 pre-dose||||1.000
82632090|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||0.4101
82632091|NCT03031327|164980538|SUPERIORITY|||||||0.4101|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||0.4101
82632092|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Erythema - Non Study eye - Day 15±2 pre-dose||||1.000
82632093|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632094|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632095|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632096|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632097|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632098|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Eyelid - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632099|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
82632100|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
82632101|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Study eye - Day 15±2 pre-dose||||1.000
82632102|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
82632103|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
82632104|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lashes - Non Study eye - Day 15±2 pre-dose||||1.000
82632105|NCT03031327|164980538|SUPERIORITY|||||||0.5267|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.5267
82632106|NCT03031327|164980538|SUPERIORITY|||||||0.2633|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.2633
82632107|NCT03031327|164980538|SUPERIORITY|||||||0.6552|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Study eye - Day 15±2 pre-dose||||0.6552
82632108|NCT03031327|164980538|SUPERIORITY|||||||0.1262|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||||0.1262
82632109|NCT03031327|164980538|SUPERIORITY|||||||0.2094|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||||0.2094
82632110|NCT03031327|164980538|SUPERIORITY||Hodges Lehmann estimation|-1.0||||0.0377|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Erythema - Non Study eye - Day 15±2 pre-dose||0.0|-1.0|0.0377
82378697|NCT04882241|164466088|OTHER||Hazard Ratio (HR)|0.83||||0.34632|TWO_SIDED|95.0|0.34|2.05||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.05|0.34|0.34632
82378698|NCT05024747|164466099|OTHER||Ratio T/R|96.68|||||TWO_SIDED|90.0|90.0|103.85||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||103.85|90.00|
82632111|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632112|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632113|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Study eye - Day 15±2 pre-dose||||1.000
82632114|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632115|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632116|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Conjunctiva - Oedema - Non Study eye - Day 15±2 pre-dose||||1.000
82632117|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
82632118|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
82632119|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Study eye - Day 15±2 pre-dose||||1.000
82632120|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
82632121|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
82632122|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Lens - Non Study eye - Day 15±2 pre-dose||||1.000
82632123|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
82632124|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
82632125|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Study eye - Day 15±2 pre-dose||||1.000
82632126|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
82632127|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
82632128|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Iris - Non Study eye - Day 15±2 pre-dose||||1.000
82632129|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
82378699|NCT05024747|164466100|OTHER||Ratio T/R|92.37|||||TWO_SIDED|90.0|85.45|99.84||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||99.84|85.45|
82378700|NCT05024747|164466101|OTHER||Ratio T/R|92.54|||||TWO_SIDED|90.0|85.63|100.01||||||Statistical comparison was analyzed between Test vs Reference based on Baseline Adjusted Data.||100.01|85.63|
82632130|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
82632131|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Study eye - Day 15±2 pre-dose||||1.000
82378701|NCT05024747|164466102|OTHER||Hodges- Lehmann's median difference|-0.0192||||0.0833|TWO_SIDED|95.0|-0.0542|0.0044|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.0044|-0.0542|0.0833
82632132|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
82632133|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
82632134|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Anterior chamber inflammation - Non Study eye - Day 15±2 pre-dose||||1.000
82378702|NCT05024747|164466103|OTHER||Hodges- Lehmann's median difference|-6.0||||0.0205|TWO_SIDED|95.0|-10.5|0.0|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.0000|-10.5000|0.0205
82378703|NCT05024747|164466104|OTHER||Hodges- Lehmann's median difference|0.3225||||0.0946|TWO_SIDED|95.0|-0.0949|0.681|||Wilcoxon Signed Rank Test|||Statistical comparison was analyzed between Test vs Reference.||0.6810|-0.0949|0.0946
82378704|NCT02556801|164466109|SUPERIORITY||Test statistic|1.823||||0.057|ONE_SIDED||||||MCP-Mod Method|The primary dose-response analysis was performed by applying linear, Emax, logistic and exponential models.The p-value was based on Emax model.||||||0.057
82378705|NCT02556801|164466109|SUPERIORITY||Treatment effect|-1.96|STANDARD_DEVIATION|1.17|||TWO_SIDED|90.0|-3.89|-0.03||||||||-0.03|-3.89|
82378706|NCT02556801|164466109|SUPERIORITY||Treatment effect|-1.83|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.72|0.06||||||||0.06|-3.72|
82511572|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.25||0.8541|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8541
82568754|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.16||||0.34||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 8||||0.340
82632135|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
82378707|NCT02556801|164466109|SUPERIORITY||Treatment effect|-2.33|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-4.23|-0.43||||||||-0.43|-4.23|
82378708|NCT02556801|164466110|SUPERIORITY||Treatment effect|-1.92|STANDARD_ERROR_OF_MEAN|1.17|=|0.051|TWO_SIDED|90.0|-3.85|0.01|||Mixed Models Analysis|||||0.01|-3.85|=0.051
82378709|NCT02556801|164466110|SUPERIORITY||Treatment effect|-1.79|STANDARD_ERROR_OF_MEAN|1.14||0.059|TWO_SIDED|90.0|-3.68|0.1|||Mixed Models Analysis|||||0.10|-3.68|0.059
82378710|NCT02556801|164466110|SUPERIORITY||Treatment effect|-2.3|STANDARD_ERROR_OF_MEAN|1.15||0.024|TWO_SIDED|90.0|-4.2|-0.4|||Mixed Models Analysis|||||-0.40|-4.20|0.024
82511573|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.32||0.1084|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1084
82632136|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
82378711|NCT02556801|164466111|SUPERIORITY||Treatment effect|-0.6|STANDARD_ERROR_OF_MEAN|1.08||0.291|TWO_SIDED|90.0|-2.39|1.19|||Mixed Models Analysis|||||1.19|-2.39|0.291
82378712|NCT02556801|164466111|SUPERIORITY||Treatment effect|-1.84|STANDARD_ERROR_OF_MEAN|1.06|=|0.042|TWO_SIDED|90.0|-3.6|-0.09|||Mixed Models Analysis|||||-0.09|-3.60|=0.042
82378713|NCT02556801|164466111|SUPERIORITY||Treatment effect|-1.78|STANDARD_ERROR_OF_MEAN|1.08||0.05|TWO_SIDED|90.0|-3.56|0.0|||Mixed Models Analysis|||||0.00|-3.56|0.050
82378714|NCT02556801|164466112|SUPERIORITY||Treatment effect|-0.89|STANDARD_ERROR_OF_MEAN|0.63|=|0.079|TWO_SIDED|90.0|-1.93|0.15|||Mixed Models Analysis|||||0.15|-1.93|=0.079
82378715|NCT02556801|164466112|SUPERIORITY||Treatment effect|-0.88|STANDARD_ERROR_OF_MEAN|0.61|=|0.076|TWO_SIDED|90.0|-1.89|0.13|||Mixed Models Analysis|||||0.13|-1.89|=0.076
82378716|NCT02556801|164466112|SUPERIORITY||Treatment effect|-1.11|STANDARD_ERROR_OF_MEAN|0.62|=|0.038|TWO_SIDED|0.62|-2.13|-0.08|||Mixed Models Analysis|||||-0.08|-2.13|=0.038
82632137|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Study eye - Day 15±2 pre-dose||||1.000
82632138|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
82632139|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
82632140|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea transparency - Non Study eye - Day 15±2 pre-dose||||1.000
82632141|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
82632142|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
82632143|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Study eye - Day 15±2 pre-dose||||1.000
82632144|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
82632145|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
82632146|NCT03031327|164980538|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in SLE examination scores - Cornea neovascularization - Non Study eye - Day 15±2 pre-dose||||1.000
82632147|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.5842|TWO_SIDED|95.0|-1.5|2.6|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||2.6|-1.5|0.5842
82632148|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4606|TWO_SIDED|95.0|-2.2|1.0|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||1.0|-2.2|0.4606
82378717|NCT02556801|164466113|SUPERIORITY||Treatment effect|-0.07|STANDARD_ERROR_OF_MEAN|0.58|=|0.451|TWO_SIDED|90.0|-1.03|0.88|||Mixed Models Analysis|||||0.88|-1.03|=0.451
82632149|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.2319|TWO_SIDED|95.0|-3.0|0.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Study eye - Day 15±2 pre-dose||0.8|-3.0|0.2319
82632150|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.6018|TWO_SIDED|95.0|-2.3|1.4|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.4|-2.3|0.6018
82632151|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4857|TWO_SIDED|95.0|-2.2|1.1|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.1|-2.2|0.4857
82378718|NCT02556801|164466113|SUPERIORITY||Treatment effect|-0.62|STANDARD_ERROR_OF_MEAN|0.56|=|0.137|TWO_SIDED|90.0|-1.55|0.32|||Mixed Models Analysis|||||0.32|-1.55|=0.137
82378719|NCT02556801|164466113|SUPERIORITY||Treatment effect|-0.5|STANDARD_ERROR_OF_MEAN|0.57|=|0.195|TWO_SIDED|90.0|-1.45|0.46|||Mixed Models Analysis|||||0.46|-1.45|=0.195
82632152|NCT03031327|164980539|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.9015|TWO_SIDED|95.0|-2.0|1.8|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in IOP - Non Study eye - Day 15±2 pre-dose||1.8|-2.0|0.9015
82632153|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.3574|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.3|-0.1|0.3574
82632154|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.3574|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.3|-0.1|0.3574
82632155|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0|0.0|0.0||P-value is NA due to the measured values of corneal sensitivity equal to zero.|Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Study eye - Day 15±2 pre-dose||0.0|0.0|00
82632156|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0|0.0|0.0||P-value is NA due to the measured values of corneal sensitivity equal to zero.|Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.0|0.0|00
82632157|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.3|-0.1|0.1
82632158|NCT03031327|164980540|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.3|||Student t-test pooled|Pooled method for estimating common variance was used||Student t-test on changes from baseline in corneal sensitivity - Non Study eye - Day 15±2 pre-dose||0.3|-0.1|0.1
82378720|NCT02556801|164466114|SUPERIORITY||Treatment effect|-0.354|STANDARD_ERROR_OF_MEAN|0.183|=|0.028|TWO_SIDED|90.0|-0.657|-0.05|||ANOVA|||||-0.050|-0.657|=0.028
82378721|NCT02556801|164466114|SUPERIORITY||Treatment effect|-0.394|STANDARD_ERROR_OF_MEAN|0.186|=|0.018|TWO_SIDED|90.0|-0.702|-0.086|||ANOVA|||||-0.086|-0.702|=0.018
82378722|NCT02556801|164466114|SUPERIORITY||Treatment effect|-0.28|STANDARD_ERROR_OF_MEAN|0.182|=|0.063|TWO_SIDED|90.0|-0.581|0.021|||ANOVA|||||0.021|-0.581|=0.063
82378723|NCT02556801|164466115|SUPERIORITY||Treatment effect|1.92|||<|0.001|TWO_SIDED|90.0|1.41|2.6|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||2.60|1.41|<0.001
82632159|NCT00211536|164980541|NON_INFERIORITY_OR_EQUIVALENCE|For the average A1C, the goal was to show non-inferiority of MIP compared to SC. The minimal clinically relevant increase in A1C (%) was set at 0.50%. The between-subjects standard deviation of A1C was assumed to be 1.0% based on previous studies.|Least square means|0.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|ONE_SIDED|95.0||0.5|||Mixed Models Analysis|Repeated measures analysis of variance, adjusting for baseline A1C using SAS Proc Mixed to compare A1C trends over time between the treatment groups||Sample size calculations were performed on the primary endpoint: the average glycosylated hemoglobin (A1C). Sample size was estimated using a two-sample, one-sided t-test with a significance level of 0.05. The projected sample size of 50 subjects per treatment group provides 79% power to reject the null hypothesis in favor of the alternative hypothesis that the average A1C in both the MIP and SC groups are equivalent, assuming an effect size of 0.50% and a standard deviation of 1.0%.||0.5||<0.05
82632160|NCT00003389|164980561|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|TWO_SIDED||||||Log Rank|Stratified log rank test was performed.||||||0.32
82632161|NCT00003389|164980562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|TWO_SIDED||||||Log Rank|Stratified log rank test was performed.||||||0.86
82632162|NCT03350724|164980588|SUPERIORITY|||||||0.039||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.039
82632163|NCT03350724|164980589|SUPERIORITY|||||||0.037||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.037
82632164|NCT03350724|164980590|SUPERIORITY|||||||0.032|||||||Z-Test for Two Population Proportions|||||||0.032
82632165|NCT03350724|164980591|SUPERIORITY|||||||0.171||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.171
82632166|NCT03350724|164980592|SUPERIORITY|||||||0.484||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.484
82632167|NCT03350724|164980593|SUPERIORITY|||||||0.368||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.368
82632168|NCT03350724|164980594|SUPERIORITY|||||||0.308||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.308
82632169|NCT03350724|164980595|SUPERIORITY|||||||0.999||||||Unadjusted p-value|Z-Test for Two Population Proportions|Unadjusted p-value||||||0.999
82632170|NCT03350724|164980596|SUPERIORITY|||||||0.015||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.015
82632171|NCT03350724|164980597|SUPERIORITY|||||||0.021||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.021
82632172|NCT03350724|164980598|SUPERIORITY|||||||0.035||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.035
82632173|NCT03350724|164980599|SUPERIORITY|||||||0.444||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.444
82632174|NCT03350724|164980600|SUPERIORITY|||||||0.765||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.765
82632175|NCT03350724|164980601|SUPERIORITY|||||||0.941||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.941
82632176|NCT03350724|164980602|SUPERIORITY|||||||0.421||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.421
82632177|NCT03350724|164980603|SUPERIORITY|||||||0.357||||||Unadjusted p-value|Wilcoxon (Mann-Whitney)|Unadjusted p-value||||||0.357
82632178|NCT03350724|164980604|SUPERIORITY|||||||0.22||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.22
82632179|NCT03350724|164980605|SUPERIORITY|||||||0.882||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.882
82632180|NCT03350724|164980606|SUPERIORITY|||||||0.64||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.64
82632181|NCT03350724|164980607|SUPERIORITY|||||||0.967||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.967
82632182|NCT03350724|164980608|SUPERIORITY|||||||0.375||||||Unadjusted p-value|Paired t-Test|Unadjusted p-value||||||0.375
82632183|NCT02477800|164980668|SUPERIORITY||Difference from Placebo|0.11||||0.225|TWO_SIDED|95.0|-0.469|0.403|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.403|-0.469|0.2250
82632184|NCT02477800|164980668|SUPERIORITY||Difference from late start group|0.03||||0.833|TWO_SIDED|95.0|-0.262|0.326|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.326|-0.262|0.8330
82632185|NCT02477800|164980669|SUPERIORITY||Difference from Placebo|0.2||||0.4795|TWO_SIDED|95.0|-0.35|0.74|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.74|-0.35|0.4795
82632186|NCT02477800|164980669|SUPERIORITY||Difference from Placebo|-0.1||||0.8106|TWO_SIDED|95.0|-0.62|0.49|||MMRM Model|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.49|-0.62|0.8106
82511574|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.27||0.038|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0380
82568755|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.16||||0.36||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 1 vs Placebo at Week 10||||0.360
82378724|NCT02556801|164466115|SUPERIORITY||Treatment effect|2.43|||<|0.001|TWO_SIDED|90.0|1.8|3.27|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||3.27|1.80|<0.001
82568756|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.35||||0.192||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 2 vs Placebo at Week 10||||0.192
82568757|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.37||||0.843||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 3 vs Placebo at Week 10||||0.843
82568758|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.07||||0.572||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 4 vs Placebo at Week 10||||0.572
82568759|NCT01917006|164847354|SUPERIORITY||Least square mean difference|-0.12||||0.628||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 5 vs Placebo at Week 10||||0.628
82378725|NCT02556801|164466115|SUPERIORITY||Treatment effect|2.34|||<|0.001|TWO_SIDED|90.0|1.73|3.15|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 5 months (Visit 4)||3.15|1.73|<0.001
82568760|NCT01917006|164847354|SUPERIORITY||Least square mean difference|0.12||||0.38||||||Least square mean and one-sided p-value of mean difference vs placebo for each active OnabotulinumtoxinA dose level is calculated from the ANCOVA Model with treatment as the fixed effect and baseline geometric mean IELT as the covariate.|ANCOVA|||OnabotulinumtoxinA Dose 6 vs Placebo at Week 10||||0.380
82568761|NCT03029234|164847374|OTHER|The prespecified threshold that the primary endpoint would be met was if the lower limit of the 95% confidence interval (CI) was greater than 18%.|Overall response rate|35.8|||||TWO_SIDED|95.0|27.3|44.9||||||||44.9|27.3|
82568762|NCT02847637|164847402|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.02|0.075||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.075|0.020|<0.0001
82568763|NCT02847637|164847402|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.017|0.066||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.066|0.017|<0.0001
82568764|NCT02847637|164847403|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.028|0.099||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.099|0.028|<0.0001
82511575|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.35||0.2649|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2649
82568765|NCT02847637|164847403|SUPERIORITY||ABR Ratio|0.06|||<|0.0001|TWO_SIDED|95.0|0.03|0.103||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value was obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.103|0.030|<0.0001
82568766|NCT02847637|164847404|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.019|0.085||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.085|0.019|<0.0001
82378726|NCT02556801|164466115|SUPERIORITY||Treatment effect|1.42||||0.029|TWO_SIDED|90.0|1.05|1.93|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||1.93|1.05|0.029
82378727|NCT02556801|164466115|SUPERIORITY||Treatment effect|1.67||||0.003|TWO_SIDED|90.0|1.24|2.25|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||2.25|1.24|0.003
82378728|NCT02556801|164466115|SUPERIORITY||Treatment effect|1.37||||0.042|TWO_SIDED|90.0|1.01|1.85|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgE levels after 10 months (Visit 6)||1.85|1.01|0.042
82378729|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.11||||0.057|TWO_SIDED|90.0|1.0|1.23|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.23|1.00|0.057
82378730|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.29|||<|0.001|TWO_SIDED|90.0|1.17|1.43|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.43|1.17|<0.001
82378731|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.24|||<|0.001|TWO_SIDED|90.0|1.12|1.37|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 5 months (Visit 4)||1.37|1.12|<0.001
82378732|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.23||||0.015|TWO_SIDED|90.0|1.05|1.45|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.45|1.05|0.015
82378733|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.6|||<|0.001|TWO_SIDED|90.0|1.37|1.87|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.87|1.37|<0.001
82378734|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.39|||<|0.001|TWO_SIDED|90.0|1.19|1.62|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG ATG levels after 10 months (Visit 6)||1.62|1.19|<0.001
82378735|NCT02556801|164466116|SUPERIORITY||Treatment effect|0.99||||0.341|TWO_SIDED|90.0|0.93|1.04|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.04|0.93|0.341
82378736|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.1||||0.003|TWO_SIDED|90.0|1.04|1.16|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.16|1.04|0.003
82378737|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.02||||0.269|TWO_SIDED|90.0|0.97|1.08|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 5 months (Visit 4)||1.08|0.97|0.269
82378738|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.02||||0.312|TWO_SIDED|90.0|0.95|1.1|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.10|0.95|0.312
82378739|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.22|||<|0.001|TWO_SIDED|90.0|1.13|1.31|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.31|1.13|<0.001
82378740|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.11||||0.008|TWO_SIDED|90.0|1.03|1.2|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP1 levels after 10 months (Visit 6)||1.20|1.03|0.008
82632187|NCT02477800|164980670|SUPERIORITY||Difference from Placebo|-0.583||||0.2536|TWO_SIDED|95.0|-1.5835|0.4181|||MMRM Model|||Adjusted mean for each treatment group (Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADAS-Cog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region,and laboratory ApoE status.||0.4181|-1.5835|0.2536
82632188|NCT02477800|164980670|SUPERIORITY||Difference from Placebo|-0.588||||0.2578|TWO_SIDED|95.0|-1.6067|0.4309|||MMRM Model|||Adjusted mean for each treatment group (Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADAS-Cog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region,and laboratory ApoE status.||0.4309|-1.6067|0.2578
82632189|NCT02477800|164980671|SUPERIORITY||Difference from Placebo|0.7||||0.1225|TWO_SIDED|95.0|-0.19|1.64|||MMRM Model|||Adjusted mean for each group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADCS-ADL-MCI as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE AD symptomatic medication use at baseline,region, and laboratory ApoE status.||1.64|-0.19|0.1225
82632190|NCT02477800|164980671|SUPERIORITY||Difference from late start group|0.7||||0.1506|TWO_SIDED|95.0|-0.25|1.61|||MMRM Model|||Adjusted mean for each group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADCS-ADL-MCI as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE AD symptomatic medication use at baseline,region, and laboratory ApoE status.||1.61|-0.25|0.1506
82632191|NCT01948518|164980692|SUPERIORITY_OR_OTHER||||||=|0.3|TWO_SIDED||||||t-test, 2 sided|||Assuming 15% change in absolute value of DLCO representing a significant clinical difference and a standard deviation of 17.4% in normal nonsmoking individuals \[Miller A, Thornton JC, Warshaw R, et al. Am Rev Respir Dis. 1983;127 (suppl 3):270-277.\], 13 subjects needed to be studied to reject the null hypothesis when there is no significant difference between DLCO measurements before and after sildenafil, with power 0.8 and type I error probability 0.05 (SAS 9.2, SAS Institute Inc., Cary, NC)||||=0.30
82632192|NCT01948518|164980693|SUPERIORITY_OR_OTHER||||||=|0.63|||||||t-test, 2 sided|||The average 6 minute walk distance at baseline was 1195±407 feet. After oral administration of sildenafil, 6 minute walk distance was 1214±383 feet (p=0.63).||||=0.63
82632193|NCT02723019|164980743|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||Analyzed using logistic regression analysis||||0.01
82632194|NCT02723019|164980744|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||||||0.19
82632195|NCT02723019|164980745|SUPERIORITY|||||||0.73||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.73
82632196|NCT02723019|164980746|SUPERIORITY|||||||0.28||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.28
82632197|NCT02723019|164980747|SUPERIORITY|||||||0.71||||||P-value is for the time by group interaction effect, testing the difference in rate of change between the Intervention and Control groups from baseline to 6 months post baseline|multilevel model analysis, random interc|||multilevel model analysis, random intercepts and slopes, appropriate link function for outcome, full maximum likelihood estimation||||0.71
82632198|NCT02723019|164980748|SUPERIORITY|||||||0.42|||||||negative binomial regression model analy|||negative binomial regression model analysis||||0.42
82632199|NCT00958191|164980754|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in HHS from pre-op to 1 year||||<0.0001
82632200|NCT00958191|164980754|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in HHS from pre-op to 3 years||||<0.0001
82632201|NCT00958191|164980754|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in HHS from pre-op to 5 years||||<0.0001
82632202|NCT00958191|164980755|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 1 year||||<0.0001
82632203|NCT00958191|164980755|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 3 years||||<0.0001
82632204|NCT00958191|164980755|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip Pain Score from pre-op to 5 years||||<0.0001
82632205|NCT00958191|164980756|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 1 year||||<0.0001
82632206|NCT00958191|164980756|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 3 years||||<0.0001
82511576|NCT00280566|164716031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.27||0.2394|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.2394
82632207|NCT00958191|164980756|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Harris Hip ROM score from pre-op to 5 years||||<0.0001
82632208|NCT00958191|164980757|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Phyiscal Component Score from preop to 1 year||||<0.0001
82632209|NCT00958191|164980757|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in SF-12 Phyiscal Component Score from preop to 3 year||||<0.0001
82632210|NCT00958191|164980757|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Phyiscal Component Score from preop to 5 year||||<0.0001
82632211|NCT00958191|164980757|SUPERIORITY_OR_OTHER|||||||0.0242|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 1 year||||0.0242
82632212|NCT00958191|164980757|SUPERIORITY_OR_OTHER|||||||0.0247|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 3 year||||0.0247
82632213|NCT00958191|164980757|SUPERIORITY_OR_OTHER|||||||0.1372|||||||Sign test|||Change in SF-12 Mental Component Score from preop to 5 year||||0.1372
82632214|NCT00958191|164980758|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in LEAS Score from preop to 1 year||||<0.0001
82632215|NCT00958191|164980758|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in LEAS Score from preop to 3 year||||<0.0001
82632216|NCT00958191|164980758|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change in LEAS Score from preop to 5 year||||<0.0001
82632217|NCT01642004|164980838|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.0002|TWO_SIDED|96.85|0.43|0.81||Stratified by region (US/Canada, Rest Of World (ROW), Europe) and prior treatment regimen (Paclitaxel, Another agent) as entered in the Interactive Voice Response System (IVRS).|Log Rank||Stratified Cox proportional hazard model. HR = Nivolumab over Docetaxel|||0.81|0.43|0.0002
82632218|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-1.17|||||TWO_SIDED|95.0|-25.61|23.27|||||Comparison for fasting, Day 7|An estimation approach was used.||23.27|-25.61|
82378741|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.04||||0.212|TWO_SIDED|90.0|0.96|1.14|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.14|0.96|0.212
82511577|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.29||0.8117|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 4 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.8117
82632219|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|13.22|||||TWO_SIDED|95.0|-9.84|36.27|||||Comparison for fasting, Day 7|An estimation approach was used.||36.27|-9.84|
82632220|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.77|||||TWO_SIDED|95.0|-41.43|-2.1|||||Comparison for fasting, Day 7|An estimation approach was used.||-2.10|-41.43|
82632221|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-23.1|||||TWO_SIDED|95.0|-42.63|-3.57|||||Comparison for fasting, Day 7|An estimation approach was used.||-3.57|-42.63|
82632222|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-11.79|||||TWO_SIDED|95.0|-30.85|7.28|||||Comparison for fasting, Day 7|An estimation approach was used.||7.28|-30.85|
82632223|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-10.04|||||TWO_SIDED|95.0|-27.66|7.57|||||Comparison for fasting, Day 7|An estimation approach was used.||7.57|-27.66|
82632224|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-15.14|||||TWO_SIDED|95.0|-37.72|7.43|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||7.43|-37.72|
82632225|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-2.1|||||TWO_SIDED|95.0|-23.66|19.45|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||19.45|-23.66|
82632226|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-20.66|||||TWO_SIDED|95.0|-38.75|-2.57|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-2.57|-38.75|
82632227|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.7|||||TWO_SIDED|95.0|-39.7|-3.71|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-3.71|-39.70|
82568767|NCT02847637|164847404|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.015|0.07||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.070|0.015|<0.0001
82568768|NCT02847637|164847405|SUPERIORITY||ABR Ratio|0.06|||<|0.0001|TWO_SIDED|95.0|0.025|0.151||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.151|0.025|<0.0001
82568769|NCT02847637|164847405|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.006|0.056||Statistical significance is controlled at the 2-sided, 0.05 alpha level. The p-value is obtained via a global model with a 3-level categorical effect for treatment (emicizumab 1.5 mg/kg/week, emicizumab 3 mg/kg/2 weeks, or no prophylaxis).|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.056|0.006|<0.0001
82568770|NCT02847637|164847406|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.016|0.143||Not controlled for type I error|Stratified Wald test||Arm A is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm A versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm A versus Arm C ≠ 1.||0.143|0.016|<0.0001
82568771|NCT02847637|164847406|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.018|0.147||Not controlled for type I error|Stratified Wald test||Arm B is the numerator and Arm C is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio for Arm B versus Arm C = 1. H1 (alternative hypothesis): ABR Ratio for Arm B versus Arm C ≠ 1.||0.147|0.018|<0.0001
82568772|NCT02847637|164847407|SUPERIORITY||ABR Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.195|0.514||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|Non-stratified Wald test||Dnisp: Emicizumab Prophylaxis is the numerator and Dnisp: Pre-Study FVIII Prophylaxis is the denominator for this ABR ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.514|0.195|<0.0001
82568773|NCT02847637|164847408|SUPERIORITY||ABR Ratio|0.37||||0.0002|TWO_SIDED|95.0|0.22|0.626||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|Non-stratified Wald test||Dnisp: Emicizumab Prophylaxis is the numerator and Dnisp: Pre-Study FVIII Prophylaxis is the denominator for this ABR ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.626|0.220|0.0002
82568774|NCT02847637|164847409|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.014|0.067||Not controlled for type I error|Non-stratified Wald test||Arm A+Bnise: Emicizumab Prophylaxis is the numerator and Arm A+Bnise: Pre-Study Episodic FVIII is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.067|0.014|<0.0001
82568775|NCT02847637|164847410|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.023|0.068||Not controlled for type I error|Non-stratified Wald test||Arm A+Bnise: Emicizumab Prophylaxis is the numerator and Arm A+Bnise: Pre-Study Episodic FVIII is the denominator for this ABR Ratio.|H0 (null hypothesis): ABR Ratio = 1. H1 (alternative hypothesis): ABR Ratio ≠ 1.||0.068|0.023|<0.0001
82568776|NCT02847637|164847411|SUPERIORITY||Mean Difference (Final Values)|12.51||||0.0891|TWO_SIDED|95.0|-1.96|26.98||Statistical significance is controlled at the 2-sided, 0.05 alpha level.|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||26.98|-1.96|0.0891
82568777|NCT02847637|164847411|SUPERIORITY||Mean Difference (Final Values)|15.97||||0.0349|TWO_SIDED|95.0|1.16|30.78||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||30.78|1.16|0.0349
82568778|NCT02847637|164847412|SUPERIORITY||Mean Difference (Final Values)|5.91||||0.1269|TWO_SIDED|95.0|-1.72|13.55||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||13.55|-1.72|0.1269
82568779|NCT02847637|164847412|SUPERIORITY||Mean Difference (Final Values)|8.56||||0.0317|TWO_SIDED|95.0|0.77|16.35||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||16.35|0.77|0.0317
82568780|NCT02847637|164847413|SUPERIORITY||Mean Difference (Final Values)|-4.04||||0.3402|TWO_SIDED|95.0|-12.43|4.35||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||4.35|-12.43|0.3402
82568781|NCT02847637|164847413|SUPERIORITY||Mean Difference (Final Values)|-9.15||||0.0373|TWO_SIDED|95.0|-17.74|-0.55||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||-0.55|-17.74|0.0373
82568782|NCT02847637|164847414|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.006|TWO_SIDED|95.0|-0.22|-0.04||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm A.|||-0.04|-0.22|0.0060
82568783|NCT02847637|164847414|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.0059|TWO_SIDED|95.0|-0.23|-0.04||Not controlled for type I error|ANCOVA||The difference in adjusted means was analyzed as Arm C minus Arm B.|||-0.04|-0.23|0.0059
82568784|NCT03036150|164847508|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001||95.0|0.51|0.72|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.72|0.51|< 0.0001
82568785|NCT03036150|164847509|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001||95.0|0.45|0.68|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.68|0.45|< 0.0001
82568786|NCT03036150|164847510|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0089||95.0|0.55|0.92|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.92|0.55|0.0089
82568787|NCT03036150|164847511|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0035||95.0|0.53|0.88|||Regression, Cox|Stratified by randomization stratification of Type 2 Diabetes and urine albumin creatinine ratio and adjusting for baseline eGFR.||||0.88|0.53|0.0035
82378742|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.16||||0.002|TWO_SIDED|90.0|1.07|1.27|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.27|1.07|0.002
82568788|NCT01318538|164847512|SUPERIORITY_OR_OTHER|||||||0.821|TWO_SIDED|95.0|||||loglinear (negative binomial) regression|Analyzed using loglinear (negative binomial) regression models with estimation via generalized estimating equations (relative changes i.e. % change)||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction.The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores. With a total of 100 women, the study was adequately powered to detect a minimum 5 day benefit in the # of days of any substance use (power = 83%).||||0.821
82568789|NCT01318538|164847513|SUPERIORITY_OR_OTHER|||||||0.519|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.0001 reductions in mean # of alcohol use days during treatment (9.9 and 12.4 day reductions for WRG and GDC respectively) and at 6 months post-treatment (8.3 and 12.2 day reductions).||||0.519
82568790|NCT01318538|164847514|SUPERIORITY_OR_OTHER|||||||0.253|TWO_SIDED|95.0|||||Linear mixed effect models|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores.With 100 women (50 in each treatment group), the study was adequately powered to detect a 0.2 benefit in the ASI drug and alcohol composite scores (power = 94%).||||0.253
82568791|NCT01318538|164847515|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED|95.0|||||Linear mixed effect models|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. The study was powered for the primary analysis concerning treatment group differences in the degree of improvement in the number of days of any substance use and in the Addiction Severity Index (ASI) composite scores.With 100 women (50 in each treatment group), the study was adequately powered to detect a 0.2 benefit in the ASI drug and alcohol composite scores (power = 94%).||||0.667
82568792|NCT01318538|164847517|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82568793|NCT01318538|164847518|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82568794|NCT01318538|164847519|SUPERIORITY_OR_OTHER|||||||0.464|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.05) reductions in mean number of drug use days during treatment (3.0 and 1.5 day reductions for WRG and GDC respectively); however at 6 months post-treatment, the reductions were significant for WRG (2.8 day reduction; p\<0.05) but not for GDC (1.5 day reduction; p\>0.01).||||0.464
82568795|NCT01318538|164847520|SUPERIORITY_OR_OTHER|||||||0.904|||||||loglinear (negative binomial) regression|We used loglinear (negative binomial) regression models with estimation via generalized estimating equations (GEE).||The models included the effects of treatment group, phase (3 levels), and the treatment group by phase interaction. Note: Women in both WRG and GDC groups had significant (p\<0.0001) reductions in mean number of heavy drinking days during treatment (8.6 and 12.1 days reduction for WRG and GDC, respectively) and at 6 months post-treatment (8.0 and 11.8 day reductions).||||0.904
82568796|NCT01318538|164847521|SUPERIORITY_OR_OTHER|||||||0.799|||||||linear mixed effect model|This measure was analyzed using using linear mixed effect models with estimation via restricted maximum likelihood (absolute changes in the mean).||The models included the effects of treatment group, phase (3 levels), and the treatment by phase interaction. Note: Women in both the WRG and GDC groups had significant (p\<0.05) reductions in mean number of drinks per drinking day only during the in treatment phase (2.0 and 2.9 reductions for WRG and GDC, respectively).||||0.799
82568797|NCT01037413|164847549|SUPERIORITY||Mean Difference (Final Values)|-14.7|||<|0.001|TWO_SIDED|95.0|-21.3|-8.1|||t-test, 2 sided|||Comparison within the participant between EXC 001 and placebo.||-8.1|-21.3|<0.001
82568798|NCT01037413|164847550|SUPERIORITY||Mean Difference (Final Values)|-14.8|||<|0.001|TWO_SIDED|95.0|-21.2|-8.3|||t-test, 2 sided|||Week 8: Comparison within the participant between EXC 001 and placebo.||-8.3|-21.2|<0.001
82568799|NCT01037413|164847550|SUPERIORITY||Mean Difference (Final Values)|-26.0|||<|0.001|TWO_SIDED|95.0|-34.3|-17.7|||t-test, 2 sided|||Week 24: Comparison within the participant between EXC 001 and placebo.||-17.7|-34.3|<0.001
82568800|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.033|TWO_SIDED|95.0|-2.3|-0.1|||t-test, 2 sided|||Week 12, Vascularity: Comparison within the participant between EXC 001 and placebo.||-0.1|-2.3|0.033
82568801|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.003|TWO_SIDED|95.0|-1.9|-0.4|||t-test, 2 sided|||Week 12, Pigmentation: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.9|0.003
82568802|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.5|-0.8|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-2.5|<0.001
82568803|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|-2.7|-1.0|||t-test, 2 sided|||Week 12, Relief: Comparison within the participant between EXC 001 and placebo.||-1.0|-2.7|<0.001
82568804|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.012|TWO_SIDED|95.0|-1.9|-0.3|||t-test, 2 sided|||Week 12, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.3|-1.9|0.012
82568805|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.003|TWO_SIDED|95.0|-2.4|-0.5|||t-test, 2 sided|||Week 12, Surface Area: Comparison within the participant between EXC 001 and placebo.||-0.5|-2.4|0.003
82568806|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.6|-1.1|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-1.1|-2.6|<0.001
82378743|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.15||||0.004|TWO_SIDED|90.0|1.06|1.25|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 5 months (Visit 4)||1.25|1.06|0.004
82378744|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.09||||0.126|TWO_SIDED|90.0|0.96|1.24|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.24|0.96|0.126
82378745|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.28|||<|0.001|TWO_SIDED|90.0|1.13|1.45|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.45|1.13|<0.001
82568807|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-8.4|||<|0.001|TWO_SIDED|95.0|-12.7|-4.0|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||-4.0|-12.7|<0.001
82568808|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.2|-1.4|||t-test, 2 sided|||Week 24, Vascularity: Comparison within the participant between EXC 001 and placebo.||-1.4|-3.2|<0.001
82568809|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.9|-0.9|||t-test, 2 sided|||Week 24, Pigmentation: Comparison within the participant between EXC 001 and placebo.||-0.9|-2.9|<0.001
82632228|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-10.62|||||TWO_SIDED|95.0|-28.62|7.38|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||7.38|-28.62|
82378746|NCT02556801|164466116|SUPERIORITY||Treatment effect|1.26||||0.002|TWO_SIDED|90.0|1.11|1.43|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG AP5 levels after 10 months (Visit 6)||1.43|1.11|0.002
82632229|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-26.03|||||TWO_SIDED|95.0|-41.94|-10.12|||||Comparison for WM AUC(0-24 hour), Day 7|An estimation approach was used.||-10.12|-41.94|
82632230|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-12.1|||||TWO_SIDED|95.0|-33.56|9.36|||||Comparison for fasting, Day 14|An estimation approach was used.||9.36|-33.56|
82378747|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.33||||0.032|TWO_SIDED|90.0|1.03|1.7|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||1.70|1.03|0.032
82378748|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.15|||<|0.001|TWO_SIDED|90.0|1.68|2.74|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||2.74|1.68|<0.001
82378749|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.03|||<|0.001|TWO_SIDED|90.0|1.59|2.59|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 5 months (Visit 4)||2.59|1.59|<0.001
82378750|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.48||||0.024|TWO_SIDED|90.0|1.07|2.06|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||2.06|1.07|0.024
82568810|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.001|TWO_SIDED|95.0|-2.8|-0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-2.8|0.001
82568811|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.6|-1.3|||t-test, 2 sided|||Week 24, Relief: Comparison within the participant between EXC 001 and placebo.||-1.3|-3.6|<0.001
82632231|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|4.33|||||TWO_SIDED|95.0|-15.91|24.57|||||Comparison for fasting, Day 14|An estimation approach was used.||24.57|-15.91|
82632232|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-25.29|||||TWO_SIDED|95.0|-42.56|-8.02|||||Comparison for fasting, Day 14|An estimation approach was used.||-8.02|-42.56|
82632233|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-19.97|||||TWO_SIDED|95.0|-37.12|-2.82|||||Comparison for fasting, Day 14|An estimation approach was used.||-2.82|-37.12|
82632234|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-21.82|||||TWO_SIDED|95.0|-38.56|-5.08|||||Comparison for fasting, Day 14|An estimation approach was used.||-5.08|-38.56|
82632235|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-18.01|||||TWO_SIDED|95.0|-33.48|-2.55|||||Comparison for fasting, Day 14|An estimation approach was used.||-2.55|-33.48|
82632236|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-11.2|||||TWO_SIDED|95.0|-33.21|10.81|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||10.81|-33.21|
82632237|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|4.8|||||TWO_SIDED|95.0|-16.22|25.81|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||25.81|-16.22|
82632238|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-15.23|||||TWO_SIDED|95.0|-32.86|2.41|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||2.41|-32.86|
82632239|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-17.01|||||TWO_SIDED|95.0|-34.56|0.53|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||0.53|-34.56|
82632240|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-23.94|||||TWO_SIDED|95.0|-41.49|-6.39|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||-6.39|-41.49|
82632241|NCT02202161|164980880|SUPERIORITY_OR_OTHER|An analysis of covariance (ANCOVA) model with a fixed effect term for treatment was fitted with the post-Baseline pharmacodynamic parameter value minus Baseline (Day -1 parameter value) as the dependent variable and Baseline as a covariate.|Mean Difference (Net)|-19.45|||||TWO_SIDED|95.0|-34.96|-3.93|||||Comparison for WM AUC(0-24 hour), Day 14|An estimation approach was used.||-3.93|-34.96|
82632242|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.17|||||TWO_SIDED|90.0|0.92|1.49|||||Mean and confidence interval (CI) for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.49|0.92|
82568812|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.005|TWO_SIDED|95.0|-3.2|-0.7|||t-test, 2 sided|||Week 24, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.7|-3.2|0.005
82632243|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.11|||||TWO_SIDED|90.0|0.89|1.38|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.38|0.89|
82632244|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.05|||||TWO_SIDED|90.0|0.87|1.27|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.27|0.87|
82632245|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.25|||||TWO_SIDED|90.0|1.03|1.52|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.52|1.03|
82568813|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-3.1|-1.2|||t-test, 2 sided|||Week 24, Surface Area: Comparison within the participant between EXC 001 and placebo.||-1.2|-3.1|<0.001
82568814|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.3|-1.5|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-1.5|-3.3|<0.001
82511578|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.26||0.0443|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 8 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.0443
82568815|NCT01037413|164847551|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED|95.0|-17.7|-7.4|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||-7.4|-17.7|<0.001
82378751|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.88|||<|0.001|TWO_SIDED|90.0|2.09|3.98|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||3.98|2.09|<0.001
82378752|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.12|||<|0.001|TWO_SIDED|90.0|1.54|2.93|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 ATG levels after 10 months (Visit 6)||2.93|1.54|<0.001
82511579|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.28||0.3039|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 12 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.3039
82511580|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.46||0.9953|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 16 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.9953
82378753|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.18||||0.102|TWO_SIDED|90.0|0.95|1.47|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||1.47|0.95|0.102
82378754|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.99|||<|0.001|TWO_SIDED|90.0|1.61|2.46|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||2.46|1.61|<0.001
82378755|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.57|||<|0.001|TWO_SIDED|90.0|1.27|1.94|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 5 months (Visit 4)||1.94|1.27|<0.001
82378756|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.39||||0.019|TWO_SIDED|90.0|1.07|1.81|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||1.81|1.07|0.019
82632246|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.25|||||TWO_SIDED|90.0|1.04|1.5|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.50|1.04|
82378757|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.38|||<|0.001|TWO_SIDED|90.0|1.84|3.08|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||3.08|1.84|<0.001
82378758|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.7|||<|0.001|TWO_SIDED|90.0|1.31|2.19|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP1 levels after 10 months (Visit 6)||2.19|1.31|<0.001
82632247|NCT02202161|164980895|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an analysis of variance (ANOVA) model of log-transformed values.|Ratio|1.11|||||TWO_SIDED|90.0|0.94|1.31|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.31|0.94|
82378759|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.52||||0.048|TWO_SIDED|90.0|1.01|2.31|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||2.31|1.01|0.048
82378760|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.35|||<|0.001|TWO_SIDED|90.0|1.56|3.53|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||3.53|1.56|<0.001
82511581|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.32||0.1653|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 20 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.1653
82632248|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|0.88|||||TWO_SIDED|90.0|0.68|1.13|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.13|0.68|
82632249|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.04|||||TWO_SIDED|90.0|0.82|1.31|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.31|0.82|
82632250|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.04|||||TWO_SIDED|90.0|0.85|1.26|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.26|0.85|
82632251|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.19|||||TWO_SIDED|90.0|0.97|1.45|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.45|0.97|
82632252|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.23|||||TWO_SIDED|90.0|1.01|1.49|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.49|1.01|
82511582|NCT00280566|164716032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.32||0.5771|||||||MMRM ANCOVA|MMRM ANCOVA = mixed effects repeated measures analysis of covariance.|Mean Difference (Final Values) = Least Squares Mean|Week 24 mixed effects repeated measures analysis of covariance (MMRM ANCOVA): center, subject within center as random effects; treatment, visit, visit by treatment interaction as fixed effects and baseline score as covariate.||||0.5771
82511583|NCT01147653|164716033|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.72|TWO_SIDED|95.0|-2.6|3.7|||t-test, 2 sided|||H0: The true mean 1-year change in GMFM-66 is the same on Autologous Umbilical Cord Blood and Placebo||3.7|-2.6|0.72
82511584|NCT01147653|164716034|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82511585|NCT01147653|164716035|SUPERIORITY|||||||0.473|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.473
82511586|NCT01147653|164716035|SUPERIORITY|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Bodily Pain/Discomfort change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.377
82511587|NCT01147653|164716035|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Family Cohesion change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.844
82511588|NCT01147653|164716035|SUPERIORITY|||||||0.322|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month General Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.322
82511589|NCT01147653|164716035|SUPERIORITY|||||||0.927|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month General Health Perceptions change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.927
82511590|NCT01147653|164716035|SUPERIORITY|||||||0.199|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Global Behavior change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.199
82511591|NCT01147653|164716035|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Growth and Development change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.294
82632253|NCT02202161|164980897|SUPERIORITY_OR_OTHER|Each GSK2330672 dose level was compared to placebo using an ANOVA model following log-transformation.|Ratio|1.24|||||TWO_SIDED|90.0|1.04|1.48|||||Mean and CI for the difference in least squares means (Active-Placebo) are back-transformed to form the point estimate and associated CI for the ratio of geometric means.|||1.48|1.04|
82632254|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.91|1.17|||||Comparison for Day 7, cholesterol|An estimation approach was used.||1.17|0.91|
82511592|NCT01147653|164716035|SUPERIORITY|||||||0.726|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Overall Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.726
82511593|NCT01147653|164716035|SUPERIORITY|||||||0.315|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Parental Impact-Emotional change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.315
82511594|NCT01147653|164716035|SUPERIORITY|||||||0.396|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Parental Impact-Time change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.396
82511595|NCT01147653|164716035|SUPERIORITY|||||||0.381|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Physical Abilities change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.381
82511596|NCT01147653|164716035|SUPERIORITY|||||||0.869|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Temperament and Moods change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.869
82568816|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.067|TWO_SIDED|95.0|-1.3|0.0|||t-test, 2 sided|||Week 12 Pain: Comparison within the participant between EXC 001 and placebo.||0.0|-1.3|0.067
82378761|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.83|||<|0.001|TWO_SIDED|90.0|1.88|4.24|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 5 months (Visit 4)||4.24|1.88|<0.001
82378762|NCT02556801|164466117|SUPERIORITY||Treatment effect|1.67||||0.04|TWO_SIDED|90.0|1.03|2.69|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||2.69|1.03|0.040
82511597|NCT01147653|164716036|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||H0: The 12 month Access to Services change score is identically distributed in patients assigned Autologous Cord Blood Reinfusion First and Placebo First.||||0.055
82511598|NCT01147653|164716036|SUPERIORITY|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month 2 Emotional Well Being and Self Esteem change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.121
82511599|NCT01147653|164716036|SUPERIORITY|||||||0.647|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month 2 Family Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.647
82568817|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.413|TWO_SIDED|95.0|-1.2|0.5|||t-test, 2 sided|||Week 12, Itching: Comparison within the participant between EXC 001 and placebo.||0.5|-1.2|0.413
82568818|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.401|TWO_SIDED|95.0|-1.6|0.7|||t-test, 2 sided|||Week 12, Color: Comparison within the participant between EXC 001 and placebo.||0.7|-1.6|0.401
82568819|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.083|TWO_SIDED|95.0|-2.4|0.2|||t-test, 2 sided|||Week 12, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.2|-2.4|0.083
82568820|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.052|TWO_SIDED|95.0|-2.3|0.0|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||0.0|-2.3|0.052
82568821|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.036|TWO_SIDED|95.0|-2.3|-0.1|||t-test, 2 sided|||Week 12, Irregular: Comparison within the participant between EXC 001 and placebo.||-0.1|-2.3|0.036
82568822|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.045|TWO_SIDED|95.0|-2.1|0.0|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.0|-2.1|0.045
82568823|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.054|TWO_SIDED|95.0|-9.9|0.1|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||0.1|-9.9|0.054
82568824|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.065|TWO_SIDED|95.0|-8.2|0.3|||t-test, 2 sided|||Week 12, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||0.3|-8.2|0.065
82568825|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.079|TWO_SIDED|95.0|-2.0|0.1|||t-test, 2 sided|||Week 24, Pain: Comparison within the participant between EXC 001 and placebo.||0.1|-2.0|0.079
82568826|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.158|TWO_SIDED|95.0|-1.5|0.3|||t-test, 2 sided|||Week 24, Itching: Comparison within the participant between EXC 001 and placebo.||0.3|-1.5|0.158
82568827|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.01|TWO_SIDED|95.0|-3.0|-0.5|||t-test, 2 sided|||Week 24, Color: Comparison within the participant between EXC 001 and placebo.||-0.5|-3.0|0.010
82568828|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.003|TWO_SIDED|95.0|-3.5|-0.8|||t-test, 2 sided|||Week 24, Stiffness: Comparison within the participant between EXC 001 and placebo.||-0.8|-3.5|0.003
82568829|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.005|TWO_SIDED|95.0|-4.0|-0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.8|-4.0|0.005
82568830|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.032|TWO_SIDED|95.0|-3.5|-0.2|||t-test, 2 sided|||Week 24, Irregular: Comparison within the participant between EXC 001 and placebo.||-0.2|-3.5|0.032
82568831|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.003|TWO_SIDED|95.0|-3.8|-0.9|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.9|-3.8|0.003
82568832|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.006|TWO_SIDED|95.0|-16.4|-3.1|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||-3.1|-16.4|0.006
82568833|NCT01037413|164847552|SUPERIORITY||Mean Difference (Final Values)|-8.2||||0.004|TWO_SIDED|95.0|-13.4|-3.0|||t-test, 2 sided|||Week 24, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||-3.0|-13.4|0.004
82568834|NCT05215418|164847559|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.|||||<|0.001|||||||ANCOVA|||||||< 0.001
82568835|NCT05215418|164847559|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0059|||||||ANCOVA|||||||0.0059
82568836|NCT05215418|164847559|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.1867|||||||ANCOVA|||||||0.1867
82511600|NCT01147653|164716036|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Functioning change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.170
82511601|NCT01147653|164716036|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Pain and Impact of Disability change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.410
82511602|NCT01147653|164716036|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Participation and Physical Health change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.200
82511603|NCT01147653|164716036|SUPERIORITY|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||H0: The 12-month Social wellbeing and acceptance change score is identically distributed in patients assigned Autologous UCB Reinfusion First and Placebo First.||||0.225
82568837|NCT05215418|164847560|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0277|||||||ANCOVA|||||||0.0277
82568838|NCT05215418|164847560|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0852|||||||ANCOVA|||||||0.0852
82568839|NCT05215418|164847560|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.|||||<|0.0001|||||||ANCOVA|||||||<.0001
82568840|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0109|||||||ANCOVA|||In-clinic systolic blood pressure||||0.0109
82568841|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0339|||||||ANCOVA|||In-clinic systolic blood pressure||||0.0339
82568842|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean SBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.6769|||||||ANCOVA|||In-clinic systolic blood pressure||||0.6769
82568843|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.0082|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.0082
82568844|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.8131|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.8131
82568845|NCT05215418|164847561|OTHER|If the upper bound of the two-sided 95% confidence interval for the between-treatment group difference (VI-0521 minus placebo or phentermine) in change from baseline in 24-hr mean DBP was less than 3 mmHg, success for a non-inferiority test was claimed and the null hypothesis was rejected. If the upper bound of the two-sided 95% confidence interval was less than 0 mmHg, superiority was claimed.||||||0.015|||||||ANCOVA|||In-clinic diastolic blood pressure||||0.0150
82568846|NCT00619983|164847562|SUPERIORITY|||||||0.69|||||||ANOVA|Repeated measures ANOVA||Due to failure of daily electronic diaries and exhaustion of funds, we were only able to recruit \< 30% of the number of subjects required in our power analysis.||||0.69
82378763|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.68|||<|0.001|TWO_SIDED|90.0|1.67|4.3|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||4.30|1.67|<0.001
82511604|NCT01147653|164716039|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.290
82511605|NCT01147653|164716042|SUPERIORITY|||||||0.697|||||||t-test, 2 sided|||||||0.697
82568847|NCT00570921|164847575|SUPERIORITY_OR_OTHER||Median Time to Progression|7.4|||||TWO_SIDED|95.0|1.9|12.1||||||We hypothesized that median time to progression (TTP) in our trial will increase from 3.7 months for the historical fulvestrant-only control to 7.0 months on the combination of fulvestrant and everolimus in the current trial. A sample of 40 evaluable patients was calculated to show the increase in TTP with 80% power and 5% significance level based on a two sided test of differences in survival times between historical controls and treated group.||12.1|1.9|
82378764|NCT02556801|164466117|SUPERIORITY||Treatment effect|2.88|||<|0.001|TWO_SIDED|90.0|1.8|4.62|||Mixed Models Analysis|||Analysis of change from baseline of serum specific IgG4 AP5 levels after 10 months (Visit 6)||4.62|1.80|<0.001
82378765|NCT01349192|164466147|SUPERIORITY||Proportion Difference (Final Values)|0.56||||0.0005|TWO_SIDED|95.0|0.25|0.74||The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion negative for MRSA in the treatment group minus the proportion negative for MRSA in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.74|0.25|0.0005
82511606|NCT01147653|164716043|SUPERIORITY|||||||0.912|||||||t-test, 2 sided|||||||0.912
82511607|NCT01147653|164716044|SUPERIORITY|||||||0.544|||||||t-test, 2 sided|||||||0.544
82511608|NCT01147653|164716045|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82511609|NCT01147653|164716046|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
82511610|NCT01147653|164716047|SUPERIORITY|||||||0.176|||||||Wilcoxon (Mann-Whitney)|||||||0.176
82511611|NCT01147653|164716048|SUPERIORITY|||||||0.099|||||||t-test, 2 sided|||||||0.099
82511612|NCT01147653|164716049|SUPERIORITY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
82511613|NCT01147653|164716050|SUPERIORITY|||||||0.478|||||||t-test, 2 sided|||||||0.478
82511614|NCT01147653|164716051|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82511615|NCT01147653|164716052|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.310
82511616|NCT01147653|164716054|SUPERIORITY|||||||0.233|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of Modified Ashworth Scale scores is the same at 1-year post-infusion with autologous cord blood and placebo.||||0.233
82511617|NCT01147653|164716058|SUPERIORITY|||||||0.762|||||||Wilcoxon (Mann-Whitney)|||||||0.762
82511618|NCT01147653|164716059|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with Low and High doses of autologous umbilical cord blood.||||0.05
82511619|NCT01147653|164716059|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with High doses of autologous umbilical cord blood and Placebo.||||0.15
82378766|NCT01349192|164466147|SUPERIORITY||Proportion Difference (Final Values)|0.525||||0.0004|TWO_SIDED|95.0|0.23|0.8||Test includes adjustment for two interim reviews of efficacy data. The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion negative for MRSA in the treatment group minus the proportion negative for MRSA in the observation group.|||0.80|0.23|0.0004
82632255|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.88|||||TWO_SIDED|95.0|0.78|0.98|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.98|0.78|
82632256|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.86|||||TWO_SIDED|95.0|0.78|0.95|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.95|0.78|
82632257|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|0.68|0.83|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.83|0.68|
82632258|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.83|||||TWO_SIDED|95.0|0.76|0.92|||||Comparison for Day 7, cholesterol|An estimation approach was used.||0.92|0.76|
82632259|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.01|||||TWO_SIDED|95.0|0.92|1.1|||||Comparison for Day 7, cholesterol|An estimation approach was used.||1.10|0.92|
82632260|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.07|||||TWO_SIDED|95.0|0.95|1.19|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.19|0.95|
82632261|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.04|||||TWO_SIDED|95.0|0.94|1.16|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.16|0.94|
82632262|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.88|1.05|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.05|0.88|
82632263|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.89|1.07|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.07|0.89|
82632264|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.07|||||TWO_SIDED|95.0|0.98|1.17|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.17|0.98|
82632265|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.9|1.05|||||Comparison for Day 7, HDL cholesterol|An estimation approach was used.||1.05|0.90|
82632266|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.95|||||TWO_SIDED|95.0|0.8|1.13|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||1.13|0.80|
82632267|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.76|||||TWO_SIDED|95.0|0.65|0.9|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.90|0.65|
82378767|NCT01349192|164466148|SUPERIORITY||Proportion Difference (Final Values)|0.09||||0.5463|TWO_SIDED|95.0|-0.18|0.34||The a priori threshold for statistical significance was 0.05.|Chi-squared||Proportion difference was calculated as proportion using antibiotics in the treatment group minus the proportion using antibiotics in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.34|-0.18|0.5463
82632268|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.64|0.85|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.85|0.64|
82632269|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.59|||||TWO_SIDED|95.0|0.51|0.69|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.69|0.51|
82632270|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||0.81|0.62|
82632271|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.89|1.14|||||Comparison for Day 7, LDL cholesterol|An estimation approach was used.||1.14|0.89|
82632272|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.88|1.21|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||1.21|0.88|
82632273|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.71|0.95|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.95|0.71|
82632274|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.84|||||TWO_SIDED|95.0|0.74|0.95|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.95|0.74|
82511620|NCT01147653|164716059|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of the 1-year GMFM-66 change score is the same for patients infused with Low doses of autologous umbilical cord blood and placebo.||||0.21
82511621|NCT01147653|164716060|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||H0: The population distribution of differences between observed and expected GMFM-66 change scores at 1-year post-infusion is the same for patients receiving Low and High doses of autologous umbilical cord blood.||||<0.01
82632275|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|0.59|0.76|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.76|0.59|
82632276|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||0.87|0.68|
82378768|NCT01349192|164466149|SUPERIORITY||Mean Difference (Final Values)|-9.42||||0.3683|TWO_SIDED|95.0|-30.3|11.47||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided||Mean difference was calculated as mean days of antibiotic use in the treatment group minus the mean days of antibiotic use in the observation group.|||11.47|-30.3|0.3683
82378769|NCT01349192|164466150|SUPERIORITY||Proportion Difference (Final Values)|-0.2||||0.1205|TWO_SIDED|95.0|-0.42|0.03||The a priori threshold for statistical significance was 0.05.|Chi-squared||Difference was calculated as proportion with a PE treated with MRSA active antibiotics in the treatment group minus the analogous proportion in the observation group. 95% CI calculated using the Newcombe-Wilson method without continuity correction.|||0.03|-0.42|0.1205
82568848|NCT00570921|164847576|SUPERIORITY_OR_OTHER||Response Rate Percentage|12.9|||||TWO_SIDED|95.0|3.63|29.83|||||Percentage of Patients with a complete or partial response with 95% exact binomial proportion confidence interval|||29.83|3.63|
82568849|NCT00570921|164847577|SUPERIORITY_OR_OTHER||Percentage with clinical benefit|48.39|||||TWO_SIDED|95.0|30.15|66.94|||||Percentage of patients that had a complete response, partial response, or stable disease for 24 weeks or more as defined by RECIST v1.0.|||66.94|30.15|
82568850|NCT02971228|164847593|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|-6.9||||0.2518|TWO_SIDED|95.0|-19.63|5.84|||t-test, 2 sided||The estimated mean difference is based on the difference between the mean values for 10 patients in the ZP4207 group (12.78) and the matching 10 patients in the Lilly glucagon group (19.67)|A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||5.84|-19.63|0.2518
82568851|NCT02971228|164847593|OTHER||Median Difference (Final Values)|-8.02||||0.25|TWO_SIDED|95.0|-25.85|10.68|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||10.68|-25.85|0.2500
82568852|NCT02971228|164847594|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|-0.28||||0.8508|TWO_SIDED|95.0|-3.55|2.99|||t-test, 2 sided|||A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||2.99|-3.55|0.8508
82568853|NCT02971228|164847594|OTHER||Median Difference (Final Values)|0.03|||>|0.9999|TWO_SIDED|95.0|-4.12|3.13|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||3.13|-4.12|>0.9999
82568854|NCT02971228|164847595|OTHER|A paired t-test was used for the parametric method to compare patients receiving both treatments. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint. Thus, the 2 patients who withdrew from the trial after the Lilly Glucagon treatment before receiving ZP4207 were not included in the analysis.|Mean Difference (Final Values)|0.63||||0.1847|TWO_SIDED|95.0|-0.36|1.62|||t-test, 2 sided|||A paired t-test or the Wilcoxon signed rank test for comparison of means with normally or non normally distributed residuals, respectively, was used. The Shapiro-Wilk test was used to determine the normality of the residuals for each comparison. The residuals were obtained from an analysis of variance (ANOVA) model with treatment group as the fixed effect. If the p-value of the test was \<0.001, the non-parametric method was utilized to analyze the endpoint parameter.||1.62|-0.36|0.1847
82632277|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.02|||||TWO_SIDED|95.0|0.92|1.14|||||Comparison for Day 7, non-HDL cholesterol|An estimation approach was used.||1.14|0.92|
82632278|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.27|||||TWO_SIDED|95.0|0.97|1.66|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.66|0.97|
82632279|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.16|||||TWO_SIDED|95.0|0.9|1.5|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.50|0.90|
82632280|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|1.06|1.61|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.61|1.06|
82632281|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.19|||||TWO_SIDED|95.0|0.96|1.48|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.48|0.96|
82511622|NCT01147653|164716061|SUPERIORITY|H0: The population distribution of the Peabody Gross Motor Quotient change score 1 year post-infusion with autologous umbilical cord blood is the same in patients receiving a Low infused dose and a High infused dose.||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82378770|NCT00114140|164466194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Z-test|||Assuming exponential distribution of survival times, the null hypothesis was a 43% increase in median survival time (40.5 mo. to 57.9 mo.) and a 21% increase in 3-year survival rate (54% to 65%). Assuming 5% ineligibility, 72 patients were required to be accrued over 3 years with 3-years of follow-up resulting in 80% power and 1-sided 0.10 significance level. (N later increased to 135 to accommodate an additional separate analysis of O-6-Methylguanine-DNA Methyltransferase (MGMT) status.)||||<0.001
82378771|NCT00114140|164466196|SUPERIORITY||Hazard Ratio (HR)|3.52||||0.0006|TWO_SIDED|95.0|1.64|7.56||Two-sided significance level of 0.05|Log Rank||Reference level = Methylated|Overall survival: The sample size was increased to 135 to ensure adequate power to detect a hazard ratio (HR) of 2.5 for MGMT status, at a 2-sided significance level of 0.05 with an MGMT prevalence rate of at least 30%||7.56|1.64|0.0006
82511623|NCT01147653|164716062|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.04|TWO_SIDED|95.0|0.01|0.38|||Wilcoxon (Mann-Whitney)|||H0: The true mean 1-year change in normalized whole brain connectivity is the same in patients infused with Low and High doses of autologous umbilical cord blood.||0.38|0.01|0.04
82511624|NCT01302392|164716067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.4172|TWO_SIDED|95.0|0.76|1.249||Based on 1-sided test.|Log Rank|Analysis was stratified by the number of previous therapies (3 vs 4 vs ≥ 5) and geographical region (Europe vs. non-Europe)||||1.249|0.760|0.4172
82511625|NCT01702233|164716095|NON_INFERIORITY_OR_EQUIVALENCE|All statistical analyses were of exploratory nature. A one-sided test of non-inferiority of Traumeel®S with respect to dexamethasone at level 0.025 was computed using an analysis of covariance (ANCOVA) model with treatment group as qualitative factor and the baseline value of the abduction rotation pain VAS for active external rotation as a covariate. The test decision was based on a one-sided 97.5% confidence interval . The non-inferiority margin was set to 13 mm on a 0-100 mm VAS scale.|Mean Difference (Final Values)|13.0|STANDARD_DEVIATION|13.0|<|0.05|ONE_SIDED|95.0||97.5|||ANCOVA|||||97.5||<0.05
82511626|NCT00727857|164716137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|||<|0.0001||95.0|0.51|1.22|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way Analysis of Covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate. Least Squares (LS) mean change and LS mean of the treatment difference reported.||1.22|0.51|<0.0001
82511627|NCT00727857|164716137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|||<|0.0001||95.0|0.5|1.18|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.18|0.50|<0.0001
82632282|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.15|||||TWO_SIDED|95.0|0.93|1.42|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.42|0.93|
82511628|NCT00727857|164716137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8919||95.0|-0.37|0.33|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.33|-0.37|0.8919
82511629|NCT00727857|164716138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8||||0.0005||95.0|7.8|27.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||27.7|7.8|0.0005
82632283|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.95|||||TWO_SIDED|95.0|0.79|1.16|||||Comparison for Day 7, triglycerides|An estimation approach was used.||1.16|0.79|
82632284|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.86|1.17|||||Comparison for Day 14, cholesterol|An estimation approach was used.||1.17|0.86|
82632285|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.83|||||TWO_SIDED|95.0|0.73|0.96|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.96|0.73|
82632286|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.73|0.91|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.91|0.73|
82632287|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.66|0.82|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.82|0.66|
82511630|NCT00727857|164716138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1||||0.0021||95.0|5.5|24.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||24.7|5.5|0.0021
82511631|NCT00727857|164716138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.5981||95.0|-12.5|7.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||7.2|-12.5|0.5981
82511632|NCT00727857|164716139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.5074||95.0|-1.43|2.88|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.88|-1.43|0.5074
82511633|NCT00727857|164716139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.93||||0.0047||95.0|0.9|4.95|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.95|0.90|0.0047
82632288|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.69|0.86|||||Comparison for Day 14, cholesterol|An estimation approach was used.||0.86|0.69|
82632289|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||Comparison for Day 14, cholesterol|An estimation approach was used.||1.03|0.84|
82632290|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.09|||||TWO_SIDED|95.0|0.99|1.21|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.21|0.99|
82378772|NCT00114140|164466196|SUPERIORITY||Hazard Ratio (HR)|3.06||||0.0007|TWO_SIDED|95.0|1.55|6.04||Two-sided significance level of 0.05|Log Rank||Reference level = Methylated|Progression-free survival||6.04|1.55|0.0007
82378773|NCT00129545|164466231|NON_INFERIORITY_OR_EQUIVALENCE|The posterior probability of non-inferiority is defined as the probability that the event rate for the Device group is less than twice that for the Control group. This probability was required to be greater than 0.975 for a finding of non-inferiority. The criterion for non-inferiority was consistently met at each analysis time point demonstrating the Device group is non-inferior to the Control group.|Risk Ratio (RR)|0.61|||||TWO_SIDED|95.0|0.42|1.07|||||Relative Risk calculated as Device Rate over Control rate, with 95% Credible Intervals|||1.07|0.42|
82378774|NCT00770328|164466234|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82378775|NCT00770328|164466235|SUPERIORITY|||||||0.0114|||||||Wilcoxon (Mann-Whitney)|||||||0.0114
82511634|NCT00727857|164716139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.0435||95.0|0.06|4.33|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.33|0.06|0.0435
82378776|NCT03541317|164466239|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of CBT sessions delivered to students by SPs over the four post-randomization phases during Stages 1 and 2|Difference in sum of means*|9.7||||0.63|TWO_SIDED|95.0|-30.03|49.4|||weighted least squares regression|Marginal means under each implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne, \& Almirall 2017)|\*Difference in the sum of the means estimated at each post-randomization phase.|||49.40|-30.03|0.63
82378777|NCT03541317|164466240|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of brief individual CBT sessions (\<15 min.) delivered to students by SPs over the four post-randomization phases occurring during Stages 1 and 2.|Difference in sum of means*|3.78||||0.72|TWO_SIDED|95.0|-16.88|24.44|||weighted least squares regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017)|\*Difference in the sum of the means estimated at each post-randomization phase|||24.44|-16.88|0.72
82378778|NCT03541317|164466241|SUPERIORITY|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of brief individual CBT sessions (\>15 min.) delivered to students by SPs over the four post-randomization phases occurring during Stages 1 and 2.|Difference in sum of means*|7.85||||0.46|TWO_SIDED|95.0|-13.2|28.91|||Weighted Least Squares Regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017).|Difference in the sum of the means estimated at each post-randomization phase|||28.91|-13.20|0.46
82568855|NCT02971228|164847595|OTHER||Median Difference (Final Values)|0.02||||0.0781|TWO_SIDED|95.0|-0.01|3.09|||Wilcoxon (Mann-Whitney)|||Non-parametric method p-value was from a Wilcoxon signed rank text. The normality of the residuals was assessed using the Shapiro-Wilk test, where the residuals were obtained from an ANOVA model with treatment group as the fixed effect. A patient was required to have data for both periods to be included in the pre-specified analysis for a given endpoint.||3.09|-0.01|0.0781
82378779|NCT03541317|164466242|SUPERIORITY||Difference in sum of means*|-0.66||||0.87|TWO_SIDED|95.0|-8.49|7.16|||Weighted Least Squares Regression|Marginal means under each embedded implementation strategy estimated after each of 4 post-randomization phases (NeCamp, Kilbourne \& Almirall 2017).|Difference in the sum of the means estimated at each post-randomization phase|A test of the null hypothesis that there is no difference between these two strategies on the sum of the average number of group CBT sessions delivered to students by SPs over the four post-randomization phase occurring during Stages 1 and 2.||7.16|-8.49|0.87
82378780|NCT01776632|164466247|SUPERIORITY||difference of adjusted means|0.15||||0.03|TWO_SIDED||||||generalized linear mixed effects|||||||.03
82378781|NCT01776632|164466248|SUPERIORITY||difference of adjusted means|0.39||||0.003|TWO_SIDED||||||generalized linear mixed effects|||||||.003
82568856|NCT01670188|164847663|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82378782|NCT01776632|164466249|SUPERIORITY||difference of adjusted means|-0.43||||0.04|TWO_SIDED||||||mixed effects models|||||||.04
82378783|NCT01776632|164466250|SUPERIORITY||difference of adjusted means|-1.27||||0.09|TWO_SIDED||||||mixed effects models|||||||.09
82378784|NCT03164616|164466284|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00093|TWO_SIDED|95.0|0.62|0.885||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and confidence interval (CI) were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. A hazard ratio (HR) \<1 favors D + SoC to be associated with a longer PFS than SoC alone.||0.885|0.620|0.00093
82511635|NCT00727857|164716140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.629||||0.3158||95.0|-0.602|1.861|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.861|-0.602|0.3158
82511636|NCT00727857|164716140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.619||||0.0067||95.0|0.452|2.785|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.785|0.452|0.0067
82632291|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.11|0.93|
82632292|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.9|1.04|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.04|0.90|
82632293|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.92|1.06|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.06|0.92|
82632294|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.01|||||TWO_SIDED|95.0|0.94|1.08|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.08|0.94|
82632295|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.92|1.04|||||Comparison for Day 14, HDL cholesterol|An estimation approach was used.||1.04|0.92|
82632296|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.85|||||TWO_SIDED|95.0|0.69|1.04|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||1.04|0.69|
82632297|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.58|0.85|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.85|0.58|
82632298|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.73|||||TWO_SIDED|95.0|0.62|0.86|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.86|0.62|
82632299|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|0.5|0.71|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.71|0.50|
82632300|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|0.59|0.8|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||0.80|0.59|
82632301|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.94|||||TWO_SIDED|95.0|0.81|1.09|||||Comparison for Day 14, LDL cholesterol|An estimation approach was used.||1.09|0.81|
82632302|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.8|1.22|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||1.22|0.80|
82632303|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.64|0.93|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.93|0.64|
82511637|NCT00727857|164716140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.989||||0.1094||95.0|-0.223|2.201|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.201|-0.223|0.1094
82632304|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.67|0.9|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.90|0.67|
82632305|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.65|||||TWO_SIDED|95.0|0.55|0.75|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.75|0.55|
82632306|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.6|0.81|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||0.81|0.60|
82632307|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.91|||||TWO_SIDED|95.0|0.8|1.04|||||Comparison for Day 14, non-HDL cholesterol|An estimation approach was used.||1.04|0.80|
82632308|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.42|||||TWO_SIDED|95.0|1.01|2.0|||||Comparison for Day 14, triglycerides|An estimation approach was used.||2.00|1.01|
82511638|NCT00727857|164716141|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.88||||0.5963||95.0|-4.71|13.97|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||13.97|-4.71|0.5963
82511639|NCT00727857|164716141|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12.81||||0.0265||95.0|2.88|22.24|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||22.24|2.88|0.0265
82632309|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.28|||||TWO_SIDED|95.0|0.94|1.75|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.75|0.94|
82632310|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.24|||||TWO_SIDED|95.0|0.98|1.58|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.58|0.98|
82632311|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.22|||||TWO_SIDED|95.0|0.95|1.56|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.56|0.95|
82632312|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|1.23|||||TWO_SIDED|95.0|0.96|1.57|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.57|0.96|
82632313|NCT02202161|164980898|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.89|||||TWO_SIDED|95.0|0.72|1.11|||||Comparison for Day 14, triglycerides|An estimation approach was used.||1.11|0.72|
82632314|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.98|||||TWO_SIDED|95.0|0.87|1.11|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||1.11|0.87|
82632315|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.79|||||TWO_SIDED|95.0|0.71|0.89|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.89|0.71|
82632316|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.82|||||TWO_SIDED|95.0|0.74|0.9|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.90|0.74|
82632317|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|0.63|0.77|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.77|0.63|
82632318|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|0.7|0.85|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||0.85|0.70|
82632319|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.89|1.06|||||Comparison for Day 7, apolipoprotein B|An estimation approach was used.||1.06|0.89|
82511640|NCT00727857|164716141|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|8.33||||0.1053||95.0|-1.77|18.07|||ANCOVA||The estimate of the median percent change from baseline and 95% confidence intervals were based on the Hodges-Lehmann method and the distribution-free confidence interval.|Nonparametric ANCOVA based on Tukey's normal rank transformation with a term for treatment and the baseline value as a covariate.||18.07|-1.77|0.1053
82511641|NCT00727857|164716142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.0806||95.0|-0.2|3.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.1|-0.2|0.0806
82511642|NCT00727857|164716142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||<|0.0001||95.0|-9.6|-6.5|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-6.5|-9.6|<0.0001
82511643|NCT00727857|164716142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||<|0.0001||95.0|-11.1|-7.9|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-7.9|-11.1|<0.0001
82632320|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.91|||||TWO_SIDED|95.0|0.77|1.07|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||1.07|0.77|
82632321|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.81|||||TWO_SIDED|95.0|0.68|0.95|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.95|0.68|
82378785|NCT03164616|164466285|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07581|TWO_SIDED|95.0|0.724|1.016||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. An HR \<1 favors D + SoC to be associated with a longer OS than SoC alone.||1.016|0.724|0.07581
82378786|NCT03164616|164466286|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00031|TWO_SIDED|95.0|0.6|0.86||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer PFS than SoC alone.||0.860|0.600|0.00031
82511644|NCT00727857|164716143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.73||||0.0324||95.0|0.31|7.14|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||7.14|0.31|0.0324
82511645|NCT00727857|164716143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.78||||0.0233||95.0|-7.05|-0.52|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.52|-7.05|0.0233
82511646|NCT00727857|164716143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51|||<|0.0001||95.0|-10.9|-4.12|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-4.12|-10.90|<0.0001
82511647|NCT00727857|164716144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9||||0.0993||95.0|-0.93|10.72|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||10.72|-0.93|0.0993
82511648|NCT00727857|164716144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.367||95.0|-8.14|3.01|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.01|-8.14|0.3670
82568857|NCT00802438|164847668|OTHER||||||<|0.0001||||||A two-sided p-value\<0.05 was considered significant. Analyses were conducted using SAS version 9.4 (SAS Institute, Cary, NC.).|t-test, 2 sided|||Summaries of log-transformed data were back-transformed to the original scale and reported as geometric mean with 95% confidence interval or median within 1st and 3rd quartiles. Outcomes are summarized using least squares means with 95% confidence intervals or median with 1st and 3rd quartiles.||||<0.0001
82632322|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|0.7|0.91|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.91|0.70|
82632323|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|0.58|0.77|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.77|0.58|
82511649|NCT00727857|164716144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.46||||0.0119||95.0|-13.26|-1.66|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-1.66|-13.26|0.0119
82511650|NCT00727857|164716145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.31||||0.0423||95.0|-8.48|-0.15|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.15|-8.48|0.0423
82511651|NCT00727857|164716145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||<|0.0001||95.0|-12.08|-4.12|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-4.12|-12.08|<0.0001
82511652|NCT00727857|164716145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.79||||0.728||95.0|-7.93|0.35|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.35|-7.93|0.728
82511653|NCT00727857|164716146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.9231||95.0|-7.94|8.76|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||8.76|-7.94|0.9231
82511654|NCT00727857|164716146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.16||||0.3082||95.0|-3.86|12.19|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||12.19|-3.86|0.3082
82511655|NCT00727857|164716146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75||||0.3753||95.0|-4.56|12.07|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||12.07|-4.56|0.3753
82511656|NCT00727857|164716147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4||||0.4999||95.0|-44.6|91.4|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||91.4|-44.6|0.4999
82511657|NCT00727857|164716147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.2||||0.0531||95.0|-0.9|129.3|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||129.3|-0.9|0.0531
82632324|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||0.83|0.64|
82632325|NCT02202161|164980899|SUPERIORITY_OR_OTHER|Results were based on an ANCOVA model: Log(post-Baseline) - Log(Baseline) = Log(Baseline) + treatment + concomitant use of lipid lowering drugs.|Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|0.8|1.02|||||Comparison for Day 14, apolipoprotein B|An estimation approach was used.||1.02|0.80|
82632326|NCT01766401|164980914|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.0438|TWO_SIDED|95.0|-2.96|-0.04|||MMRM|||||-0.04|-2.96|0.0438
82511658|NCT00727857|164716147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.9||||0.2369||95.0|-26.9|108.7|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with a term for treatment and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||108.7|-26.9|0.2369
82511659|NCT00727857|164716148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.5023||95.0|-0.09|0.19|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.19|-0.09|0.5023
82632327|NCT01766401|164980915|SUPERIORITY||Least Squares Mean Difference|-1.41||||0.0868|TWO_SIDED|95.0|-3.02|0.2|||MMRM|||||0.20|-3.02|0.0868
82632328|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Restless-Impulsive subscale||||0.01
82632329|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Emotional Lability subscale||||0.09
82632330|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Global Index Total||||0.02
82632331|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Inattentive subscale||||0.01
82632332|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Hyperactive-Impulsive subscale||||0.03
82632333|NCT00935701|164980917|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on DSM-IV Total||||0.01
82632334|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Bedtime Resistance subscale||||0.08
82511660|NCT00727857|164716148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.0001||95.0|-0.48|-0.21|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.21|-0.48|<0.0001
82511661|NCT00727857|164716148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.0001||95.0|-0.53|-0.25|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.25|-0.53|<0.0001
82511662|NCT00727857|164716149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7||||0.2849||95.0|-16.5|55.9|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||55.9|-16.5|0.2849
82511663|NCT00727857|164716149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-77.6|||<|0.0001||95.0|-112.4|-42.8|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-42.8|-112.4|<0.0001
82632335|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Onset Delay subscale||||0.03
82632336|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Duration subscale||||0.82
82632337|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Sleep Anxiety subscale||||0.58
82632338|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Night Wakings subscale||||0.66
82632339|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Parasomnias subscale||||0.18
82632340|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Daytime Sleepiness subscale||||0.31
82632341|NCT00935701|164980918|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Total Disturbance||||0.07
82632342|NCT00935701|164980919|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Child Domain Total||||0.04
82632343|NCT00935701|164980919|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Parent Domain Total||||0.31
82632344|NCT00935701|164980919|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mean change in score from pre to post on Total Stress||||0.07
82632345|NCT04716010|164980944|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.002
82632346|NCT04716010|164980944|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632347|NCT04716010|164980944|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632348|NCT04716010|164980944|SUPERIORITY|||||||0.024||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.024
82632349|NCT04716010|164980944|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632350|NCT04716010|164980944|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82511664|NCT00727857|164716149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-97.3|||<|0.0001||95.0|-133.4|-61.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-61.2|-133.4|<0.0001
82632351|NCT04716010|164980945|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.001
82632352|NCT04716010|164980945|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632353|NCT04716010|164980945|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632354|NCT04716010|164980945|SUPERIORITY|||||||0.022||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||0.022
82632355|NCT04716010|164980945|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632356|NCT04716010|164980945|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.001
82632357|NCT04716010|164980946|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \>0.05|Regression, Linear|||||||>0.05
82632358|NCT04716010|164980946|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632359|NCT04716010|164980946|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632360|NCT04716010|164980946|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632361|NCT04716010|164980946|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632362|NCT04716010|164980946|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632363|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632364|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632365|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82511665|NCT00727857|164716150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.2894||95.0|-4.5|15.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||15.1|-4.5|0.2894
82511666|NCT00727857|164716150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8463||95.0|-10.3|8.5|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||8.5|-10.3|0.8463
82632366|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632367|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632368|NCT04716010|164980947|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632369|NCT04716010|164980948|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632370|NCT04716010|164980948|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632371|NCT04716010|164980948|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632372|NCT04716010|164980948|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632373|NCT04716010|164980948|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632374|NCT04716010|164980948|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632375|NCT04716010|164980949|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632376|NCT04716010|164980949|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632377|NCT04716010|164980949|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632378|NCT04716010|164980949|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632379|NCT04716010|164980949|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632380|NCT04716010|164980949|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82632381|NCT04716010|164980950|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632382|NCT04716010|164980950|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632383|NCT04716010|164980950|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632384|NCT04716010|164980950|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632385|NCT04716010|164980950|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632386|NCT04716010|164980950|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632387|NCT04716010|164980951|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632388|NCT04716010|164980951|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632389|NCT04716010|164980951|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632390|NCT04716010|164980951|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632391|NCT04716010|164980951|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82511667|NCT00727857|164716150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.2124||95.0|-16.0|3.6|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||3.6|-16.0|0.2124
82511668|NCT00727857|164716151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.804||95.0|-19.4|15.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||15.0|-19.4|0.8040
82511669|NCT00727857|164716151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.5||||0.0008||95.0|12.0|45.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||45.0|12.0|0.0008
82511670|NCT00727857|164716151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.6||||0.0005||95.0|13.4|47.8|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||47.8|13.4|0.0005
82511671|NCT00727857|164716152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.9604||95.0|-83.3|79.2|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||79.2|-83.3|0.9604
82511672|NCT00727857|164716152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|140.3||||0.0004||95.0|62.5|218.0|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||218.0|62.5|0.0004
82632392|NCT04716010|164980951|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632393|NCT04716010|164980952|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82511673|NCT00727857|164716152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.3||||0.0006||95.0|61.3|223.3|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||223.3|61.3|0.0006
82511674|NCT00727857|164716153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.9922||95.0|-64.4|65.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||65.1|-64.4|0.9922
82511675|NCT00727857|164716153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|111.7||||0.0004||95.0|49.7|173.7|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||173.7|49.7|0.0004
82511676|NCT00727857|164716153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|111.4||||0.0008||95.0|46.8|175.9|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||175.9|46.8|0.0008
82511677|NCT00727857|164716154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0072||95.0|-1.86|-0.29|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.29|-1.86|0.0072
82511678|NCT00727857|164716154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.3682||95.0|-0.41|1.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.10|-0.41|0.3682
82511679|NCT00727857|164716154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42||||0.0004||95.0|0.64|2.2|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.20|0.64|0.0004
82511680|NCT00727857|164716155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1986||95.0|-0.02|0.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.10|-0.02|0.1986
82511681|NCT00727857|164716155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.1487||95.0|-0.1|0.02|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.02|-0.10|0.1487
82511682|NCT00727857|164716155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.0076||95.0|-0.14|-0.02|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.02|-0.14|0.0076
82511683|NCT00727857|164716156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.2384||95.0|-0.21|0.83|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.83|-0.21|0.2384
82632394|NCT04716010|164980952|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632395|NCT04716010|164980952|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632396|NCT04716010|164980952|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82511684|NCT00727857|164716156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4617||95.0|-0.69|0.31|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.31|-0.69|0.4617
82511685|NCT00727857|164716156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0593||95.0|-1.02|0.02|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.02|-1.02|0.0593
82511686|NCT00727857|164716157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.5044||95.0|-0.54|1.1|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.10|-0.54|0.5044
82511687|NCT00727857|164716157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43||||0.0004||95.0|-2.22|-0.64|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.64|-2.22|0.0004
82511688|NCT00727857|164716157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|||<|0.0001||95.0|-2.53|-0.89|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.89|-2.53|<0.0001
82511689|NCT00727857|164716158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0017||95.0|-2.64|-0.62|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-0.62|-2.64|0.0017
82511690|NCT00727857|164716158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||<|0.0001||95.0|1.01|2.94|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||2.94|1.01|<0.0001
82511691|NCT00727857|164716158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|||<|0.0001||95.0|2.59|4.61|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.61|2.59|<0.0001
82511692|NCT00727857|164716159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.76||||0.2466||95.0|-2.61|10.14|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||10.14|-2.61|0.2466
82511693|NCT00727857|164716159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.52||||0.0063||95.0|-14.63|-2.42|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-2.42|-14.63|0.0063
82511694|NCT00727857|164716159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.29||||0.0002||95.0|-18.65|-5.93|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-5.93|-18.65|0.0002
82511695|NCT00727857|164716160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.2069||95.0|-2.93|0.64|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.64|-2.93|0.2069
82511696|NCT00727857|164716160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.0052||95.0|0.73|4.15|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||4.15|0.73|0.0052
82511697|NCT00727857|164716160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.59|||<|0.0001||95.0|1.81|5.36|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||5.36|1.81|<0.0001
82511698|NCT00727857|164716161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.609||95.0|-1.28|0.75|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.75|-1.28|0.6090
82378787|NCT03164616|164466287|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.00304|TWO_SIDED|95.0|0.65|0.916||Analysis was performed using a stratified log-rank test adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using the Breslow approach for handling ties.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer OS than SoC alone.||0.916|0.650|0.00304
82378788|NCT03164616|164466288|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.382|2.619||||||D + SoC vs SoC alone. An odds ratio \>1 favors D + SoC compared to SoC alone. Analysis was performed using logistic regression adjusting for PD-L1 tumor expression (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB), with the CI calculated using a profile likelihood approach.||2.619|1.382|
82378789|NCT03164616|164466288|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|1.26|2.367||||||T + D + SoC vs SoC alone. An odds ratio \>1 favors T + D + SoC compared to SoC alone. Analysis was performed using logistic regression adjusting for PD-L1 tumor expression (TC ≥50% vs TC \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB), with the CI calculated using a profile likelihood approach.||2.367|1.260|
82378790|NCT03164616|164466291|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.666|0.928|||||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|D + SoC vs SoC alone. An HR \<1 favors D + SoC to be associated with a longer PFS2 than SoC alone.||0.928|0.666|
82378791|NCT03164616|164466291|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.632|0.883|||||The HR and CI were estimated from a stratified Cox proportional hazards model adjusting for PD-L1 (TC ≥50% vs \<50%), histology (squamous vs non-squamous) and disease stage (IVA vs IVB) and using Efron method to control for ties.|T + D + SoC vs SoC alone. An HR \<1 favors T + D + SoC to be associated with a longer PFS2 than SoC alone.||0.883|0.632|
82378792|NCT04604795|164466318|OTHER||Ratio of geometric mean|1.05|||||TWO_SIDED|90.0|0.833|1.331|||||Log transformed Cmax was analyzed using a mixed model with fixed effects for regimen and period, and participants as random effect.|||1.331|0.833|
82378793|NCT04604795|164466318|OTHER||Ratio of geometric mean|6.45|||||TWO_SIDED|90.0|4.916|8.474|||||Log transformed Cmax was analyzed using a mixed model with regimen, period, and regimen by period as fixed effects and participants as random effect.|||8.474|4.916|
82632397|NCT04716010|164980952|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82511699|NCT00727857|164716161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.6169||95.0|-1.22|0.72|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.72|-1.22|0.6169
82511700|NCT00727857|164716161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.974||95.0|-0.99|1.03|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.03|-0.99|0.9740
82511701|NCT00727857|164716162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.615||95.0|-3.09|5.21|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||5.21|-3.09|0.6150
82568858|NCT00802438|164847669|OTHER|Summaries of log-transformed data were back-transformed to the original scale and reported as geometric mean with 95% confidence interval or median within 1st and 3rd quartiles. Outcomes are summarized using least squares means with 95% confidence intervals or median with 1st and 3rd quartiles.||||||0.01|||||||t-test, 2 sided|||||||0.01
82568859|NCT02101268|164847682|SUPERIORITY||Proportion Difference - Stratified CMH|0.01||||0.9|TWO_SIDED|95.0|-0.09|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.09|0.90
82568860|NCT02101268|164847683|SUPERIORITY||Proportion Difference - Stratified CMH|0.2|||<|0.001|TWO_SIDED|95.0|0.09|0.32|||Cochran-Mantel-Haenszel|||||0.32|0.09|< 0.001
82568861|NCT02101268|164847684|SUPERIORITY||Rate ratio|0.8||||0.38|TWO_SIDED|95.0|0.49|1.31|||Negative Binomial Model, Adjusted||A smaller ratio represents larger benefit.|||1.31|0.49|0.38
82568862|NCT02101268|164847685|SUPERIORITY||Proportion Difference - Stratified CMH|0.23||||0.001|TWO_SIDED|95.0|0.09|0.37|||Cochran-Mantel-Haenszel||A larger proportion represents larger benefit.|||0.37|0.09|0.001
82511702|NCT00727857|164716162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.2346||95.0|-6.38|1.57|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||1.57|-6.38|0.2346
82511703|NCT00727857|164716162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.1001||95.0|-7.61|0.67|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||0.67|-7.61|0.1001
82511704|NCT00727857|164716163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86||||0.1217||95.0|-0.76|6.48|||ANCOVA||Mean Difference = Pioglitazone \& metformin - pioglitazone|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||6.48|-0.76|0.1217
82511705|NCT00727857|164716163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.0009||95.0|-9.36|-2.44|||ANCOVA||Mean Difference = Pioglitazone \& metformin - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-2.44|-9.36|0.0009
82511706|NCT00727857|164716163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.76|||<|0.0001||95.0|-12.36|-5.16|||ANCOVA||Mean Difference = Pioglitazone - metformin|One-way ANCOVA with treatment as a factor and the baseline value as a covariate. LS mean change and LS mean of the treatment difference reported.||-5.16|-12.36|<0.0001
82568863|NCT02101268|164847686|SUPERIORITY||Proportion Difference - Stratified CMH|-0.13||||0.1|TWO_SIDED|95.0|-0.29|0.03|||Cochran-Mantel-Haenszel||A smaller proportion represents larger benefit.|||0.03|-0.29|0.10
82568864|NCT02831998|164847687|NON_INFERIORITY|Investigational product upper bounds must be less than 0.5.|Median Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.188|0.083||||||Groin 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and the predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.083|-0.188|
82568865|NCT02831998|164847687|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Median Difference (Final Values)|2.627|||||TWO_SIDED|95.0|2.396|2.858||||||Groin 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.858|2.396|
82568866|NCT02831998|164847688|NON_INFERIORITY|Investigational product average treatment effect upper bounds cannot be more than 0.5.|Mean Difference (Final Values)|-0.018|||||TWO_SIDED|95.0|-0.102|0.065||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.065|-0.102|
82568867|NCT02831998|164847688|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|1.909|||||TWO_SIDED|95.0|1.766|2.053||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.053|1.766|
82632398|NCT04716010|164980952|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632399|NCT04716010|164980953|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632400|NCT04716010|164980953|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632401|NCT04716010|164980953|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632402|NCT04716010|164980953|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632403|NCT04716010|164980953|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632404|NCT04716010|164980953|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82511707|NCT01469065|164716179|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|84.87|||||TWO_SIDED|90.0|78.16|92.15||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test. Formal statistical inference was not performed thus p value was not reported.||92.15|78.16|
82511708|NCT01469065|164716179|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|89.8|||||TWO_SIDED|90.0|82.69|97.53||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.53|82.69|
82511709|NCT01469065|164716179|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|87.15|||||TWO_SIDED|90.0|80.27|94.63||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.63|80.27|
82378794|NCT04604795|164466327|OTHER||Ratio of geometric mean|1.53|||||TWO_SIDED|90.0|1.268|1.847|||||AUC(0-inf) was analyzed using a mixed model with fixed effects for regimen and period, and participants as random effect.|||1.847|1.268|
82511710|NCT01469065|164716179|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|78.28|||||TWO_SIDED|90.0|72.06|85.03||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||85.03|72.06|
82511711|NCT01469065|164716192|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|82.69|||||TWO_SIDED|90.0|76.06|89.9||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||89.90|76.06|
82511712|NCT01469065|164716192|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|85.39|||||TWO_SIDED|90.0|78.6|92.77||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.77|78.60|
82632405|NCT04716010|164980954|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632406|NCT04716010|164980954|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632407|NCT04716010|164980954|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632408|NCT04716010|164980954|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632409|NCT04716010|164980954|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632410|NCT04716010|164980954|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632411|NCT04716010|164980955|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632412|NCT04716010|164980955|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632413|NCT04716010|164980955|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632414|NCT04716010|164980955|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632415|NCT04716010|164980955|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632416|NCT04716010|164980955|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632417|NCT04716010|164980956|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632418|NCT04716010|164980956|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632419|NCT04716010|164980956|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632420|NCT04716010|164980956|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632421|NCT04716010|164980956|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632422|NCT04716010|164980956|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632423|NCT04716010|164980957|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632424|NCT04716010|164980957|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632425|NCT04716010|164980957|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632426|NCT04716010|164980957|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632427|NCT04716010|164980957|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632428|NCT04716010|164980957|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632429|NCT04716010|164980958|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632430|NCT04716010|164980958|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632431|NCT04716010|164980958|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632432|NCT04716010|164980958|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632433|NCT04716010|164980958|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632434|NCT04716010|164980958|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632435|NCT04716010|164980959|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632436|NCT04716010|164980959|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632437|NCT04716010|164980959|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632438|NCT04716010|164980959|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632439|NCT04716010|164980959|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632440|NCT04716010|164980959|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632441|NCT04716010|164980960|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632442|NCT04716010|164980960|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632443|NCT04716010|164980960|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632444|NCT04716010|164980960|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632445|NCT04716010|164980960|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632446|NCT04716010|164980960|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632447|NCT04716010|164980961|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632448|NCT04716010|164980961|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632449|NCT04716010|164980961|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632450|NCT04716010|164980961|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632451|NCT04716010|164980961|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632452|NCT04716010|164980961|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632453|NCT04716010|164980962|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632454|NCT04716010|164980962|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632455|NCT04716010|164980962|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632456|NCT04716010|164980962|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82511713|NCT01469065|164716192|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|85.37|||||TWO_SIDED|90.0|78.59|92.76||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.76|78.59|
82632457|NCT04716010|164980962|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632458|NCT04716010|164980962|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632459|NCT04716010|164980963|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632460|NCT04716010|164980963|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632461|NCT04716010|164980963|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632462|NCT04716010|164980963|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82511714|NCT01469065|164716192|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|75.82|||||TWO_SIDED|90.0|69.78|82.39||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in MDG (Day 13) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||82.39|69.78|
82632463|NCT04716010|164980963|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||>0.05
82632464|NCT04716010|164980963|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance is \<0.05.|Regression, Linear|||||||<0.05
82632465|NCT00679380|164980966|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|3.8||||0.2876|TWO_SIDED|95.0|-3.0|10.5|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|All p-values were based on the Chi-square test; comparisons of budesonide MMX and placebo were conducted at the α = 0.025 level of significance and the comparison of Entocort EC and placebo were conducted at the α = 0.05 level of significance. The study was not powered to show statistical significance for Entocort EC versus budesonide MMX.||10.5|-3.0|0.2876
82632466|NCT00679380|164980966|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|12.9||||0.0047|TWO_SIDED|95.0|4.6|21.3|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||21.3|4.6|0.0047
82632467|NCT00679380|164980966|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.1||||0.0481|TWO_SIDED|95.0|0.4|15.9|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||15.9|0.4|0.0481
82632468|NCT00679380|164980967|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-8.0||||0.2174|TWO_SIDED|95.0|-20.8||||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|Clinical improvement and endoscopic improvement were analyzed hierarchically. If at least one primary endpoint comparison was statistically significant, clinical improvement was to be compared between each budesonide MMX group and placebo at the α = 0.025 level of significance. If at least one comparison of clinical improvement was statistically significant, endoscopic improvement was to be compared between each budesonide MMX dose group and placebo at the α = 0.025 level of significance.||4.|-20.8|0.2174
82632469|NCT00679380|164980967|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.5||||0.2215|TWO_SIDED|95.0|-5.0|22.0|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||22.0|-5.0|0.2215
82632470|NCT00679380|164980967|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-0.7||||0.9185|TWO_SIDED|95.0|-14.1|12.7|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||12.7|-14.1|0.9185
82632471|NCT00679380|164980968|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.4||||0.4293|TWO_SIDED|95.0|-8.0|18.8|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|As per the hierarchical testing procedure for secondary endpoints, because clinical improvement was not statistically significant in the ITT population, formal statistical comparisons for endoscopic improvement between the 2 budesonide MMX groups and placebo were not conducted. The statistical comparison between the Entocort EC and placebo groups is shown here.||18.8|-8.0|0.4293
82632472|NCT05325333|164980978|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at 5 mins for children with DLD||||||0.567|||||||LSD test|||||||0.567
82632473|NCT05325333|164980978|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at 5 mins for children with TD||||||0.003|||||||LSD test|||||||0.003
82632474|NCT05325333|164980979|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at one week for children with DLD||||||0.187|||||||LSD test|||||||0.187
82632475|NCT05325333|164980979|SUPERIORITY|Word form recall accuracy (number of words correctly recalled) on Expanding and Standard retrieval schedules at one week for children with TD||||||0.256|||||||LSD test|||||||0.256
82632476|NCT05325333|164980980|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at 5 Mins for DLD||||||0.747|||||||LSD test|||||||0.747
82632477|NCT05325333|164980980|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at 5 Mins for TD||||||0.031|||||||LSD test|||||||0.031
82632478|NCT05325333|164980981|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at one week for DLD||||||0.061|||||||LSD test|||||||0.061
82632479|NCT05325333|164980981|SUPERIORITY|Word meaning recall accuracy (number of semantic associations correctly recalled) on Expanding and Standard Retrieval Schedules at one week for TD||||||0.747|||||||LSD test|||||||0.747
82632480|NCT05325333|164980982|SUPERIORITY|Word recognition (number of words accurately identified) on Expanding condition and Standard Retrieval Schedules for DLD||||||0.026|||||||LSD test|||||||0.026
82632481|NCT05325333|164980982|SUPERIORITY|Word recognition (number of words accurately identified) on Expanding condition and Standard Retrieval Schedules for TD||||||0.72|||||||LSD test|||||||0.720
82632482|NCT05325333|164980983|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
82632483|NCT05325333|164980984|SUPERIORITY|||||||0.673|||||||t-test, 2 sided|||||||0.673
82632484|NCT01928186|164981016|OTHER|||||||0.51|||||||Fisher Exact|the mid-P adjustment to Fisher's exact test||Association between response assessed by Ki-67 protein staining (i.e. \< 10% positive cells in the surgical sample) and by the influx constant Ki decline (i.e. 30 % or larger decline between the baseline and post-therapy FLT PET) was analyzed using the mid-P adjustment to Fisher's exact test.||||0.51
82632485|NCT01693562|164981083|EQUIVALENCE|Other||||||0.016|||||||Regression, Cox|||||||0.016
82632486|NCT01693562|164981084|EQUIVALENCE|Other||||||0.0046|||||||Regression, Cox|||||||0.0046
82632487|NCT02759939|164981085|SUPERIORITY||Odds Ratio (OR)|1.23||||0.8|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.80
82632488|NCT02759939|164981085|SUPERIORITY||Odds Ratio (OR)|1.47||||0.32|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.32
82632489|NCT02759939|164981085|SUPERIORITY||Odds Ratio (OR)|0.95||||0.99|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.99
82632490|NCT02759939|164981085|SUPERIORITY||Odds Ratio (OR)|0.8||||0.72|TWO_SIDED|||||Adjusted for multiple comparisons using the Scheffe method|See below|Random effects logistic regression with a random intercept for clinic and adjustment for participant characteristics that differed across trial arms||||||0.72
82632491|NCT00087594|164981106|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|95.0|-27.8|41.3||||||95% CI for G1 participants||41.3|-27.8|
82632492|NCT00087594|164981106|SUPERIORITY_OR_OTHER||Difference|13.0|||||TWO_SIDED|95.0|-10.4|35.4||||||95% CI for G2/3 participants||35.4|-10.4|
82632493|NCT00087594|164981106|SUPERIORITY_OR_OTHER||Difference|44.0|||||TWO_SIDED|95.0|12.0|76.9||||||95% CI for G1 participants with 2 log drop at W 12||76.9|12.0|
82632494|NCT00087594|164981106|SUPERIORITY_OR_OTHER||Difference|0.0|||||TWO_SIDED|||||||||95% CI for G1 participants with non 2 log drop at W 12||||
82632495|NCT00087594|164981106|SUPERIORITY_OR_OTHER||Difference|-13.0|||||TWO_SIDED|95.0|-77.2|50.5||||||95% CI for G1 participants with missing HCV-RNA at W 12||50.5|-77.2|
82632496|NCT04657003|164981120|SUPERIORITY||LSMean Mean Difference (Net)|-10.1|||<|0.001|TWO_SIDED|95.0|-11.5|-8.8|||Mixed Models Analysis|||||-8.8|-11.5|<0.001
82632497|NCT04657003|164981120|SUPERIORITY||LSMean Mean Difference (Net)|-12.4|||<|0.001|TWO_SIDED|95.0|-13.7|-11.0|||Mixed Models Analysis|||||-11.0|-13.7|<0.001
82632498|NCT04657003|164981121|SUPERIORITY||Odds Ratio (OR)|10.75|||<|0.001|TWO_SIDED|95.0|7.3|15.84|||Regression, Logistic|||||15.84|7.30|<0.001
82632499|NCT04657003|164981121|SUPERIORITY||Odds Ratio (OR)|15.28|||<|0.001|TWO_SIDED|95.0|10.08|23.14|||Regression, Logistic|||||23.14|10.08|<0.001
82632500|NCT04657003|164981122|SUPERIORITY||Odds Ratio (OR)|20.94|||<|0.001|TWO_SIDED|95.0|13.06|33.58|||Regression, Logistic|||||33.58|13.06|<0.001
82632501|NCT04657003|164981122|SUPERIORITY||Odds Ratio (OR)|27.5|||<|0.001|TWO_SIDED|95.0|17.04|44.39|||Regression, Logistic|||||44.39|17.04|<0.001
82632502|NCT04657003|164981123|SUPERIORITY||Odds Ratio (OR)|28.38|||<|0.001|TWO_SIDED|95.0|13.81|58.31|||Regression, Logistic|||||58.31|13.81|<0.001
82632503|NCT04657003|164981123|SUPERIORITY||Odds Ratio (OR)|43.6|||<|0.001|TWO_SIDED|95.0|21.2|89.67|||Regression, Logistic|||||89.67|21.20|<0.001
82632504|NCT04657003|164981124|SUPERIORITY||Odds Ratio (OR)|28.54|||<|0.001|TWO_SIDED|95.0|9.73|83.73|||Regression, Logistic|||||83.73|9.73|<0.001
82632505|NCT04657003|164981124|SUPERIORITY||Odds Ratio (OR)|49.68|||<|0.001|TWO_SIDED|95.0|17.03|144.94|||Regression, Logistic|||||144.94|17.03|<0.001
82632506|NCT04657003|164981125|SUPERIORITY||LSMean Mean Difference (Net)|-10.3|||<|0.001|TWO_SIDED|95.0|-11.7|-8.8|||Mixed Models Analysis|||||-8.8|-11.7|<0.001
82632507|NCT04657003|164981125|SUPERIORITY||LSMean Mean Difference (Net)|-12.4|||<|0.001|TWO_SIDED|95.0|-13.8|-11.0|||Mixed Models Analysis|||||-11.0|-13.8|<0.001
82632508|NCT04657003|164981126|SUPERIORITY||LSMean Mean Difference (Net)|-3.7|||<|0.001|TWO_SIDED|95.0|-4.2|-3.2|||Mixed Models Analysis|||||-3.2|-4.2|<0.001
82632509|NCT04657003|164981126|SUPERIORITY||LSMean Mean Difference (Net)|-4.5|||<|0.001|TWO_SIDED|95.0|-5.0|-4.0|||Mixed Models Analysis|||||-4.0|-5.0|<0.001
82632510|NCT04657003|164981127|SUPERIORITY||LSMean Mean Difference (Net)|-1.97|||<|0.001|TWO_SIDED|95.0|-2.15|-1.8|||Mixed Models Analysis|||||-1.80|-2.15|<0.001
82632511|NCT04657003|164981127|SUPERIORITY||LSMean Mean Difference (Net)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.24|-1.88|||Mixed Models Analysis|||||-1.88|-2.24|<0.001
82632512|NCT04657003|164981128|SUPERIORITY||Odds Ratio (OR)|28.01|||<|0.001|TWO_SIDED|95.0|17.21|45.59|||Regression, Logistic|||||45.59|17.21|<0.001
82632513|NCT04657003|164981128|SUPERIORITY||Odds Ratio (OR)|34.19|||<|0.001|TWO_SIDED|95.0|20.27|57.67|||Regression, Logistic|||||57.67|20.27|<0.001
82632514|NCT04657003|164981129|SUPERIORITY||Odds Ratio (OR)|42.11|||<|0.001|TWO_SIDED|95.0|25.61|69.26|||Regression, Logistic|||||69.26|25.61|<0.001
82632515|NCT04657003|164981129|SUPERIORITY||Odds Ratio (OR)|58.67|||<|0.001|TWO_SIDED|95.0|34.29|100.37|||Regression, Logistic|||||100.37|34.29|<0.001
82632516|NCT04657003|164981130|SUPERIORITY||Odds Ratio (OR)|42.55|||<|0.001|TWO_SIDED|95.0|20.46|88.5|||Regression, Logistic|||||88.50|20.46|<0.001
82378795|NCT04604795|164466327|OTHER||Ratio of geometric mean|12.51|||||TWO_SIDED|90.0|10.141|15.423|||||Log transformed AUC(0-inf) was analyzed using a mixed model with regimen, period, and regimen by period as fixed effects and participants as random effect.|||15.423|10.141|
82378796|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.47|||||TWO_SIDED|90.0|0.318|0.693|||||Day 5 (High fat meal) versus (vs) Day 3 (fasted)|||0.693|0.318|
82632517|NCT04657003|164981130|SUPERIORITY||Odds Ratio (OR)|54.3|||<|0.001|TWO_SIDED|95.0|26.0|113.38|||Regression, Logistic|||||113.38|26.00|<0.001
82632518|NCT04657003|164981131|SUPERIORITY||LSMean Mean Difference (Net)|-46.79|||<|0.001|TWO_SIDED|95.0|-52.67|-40.91|||Mixed Models Analysis|||||-40.91|-52.67|<0.001
82632519|NCT04657003|164981131|SUPERIORITY||LSMean Mean Difference (Net)|-49.25|||<|0.001|TWO_SIDED|95.0|-55.18|-43.33|||Mixed Models Analysis|||||-43.33|-55.18|<0.001
82378797|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.6|||||TWO_SIDED|90.0|0.405|0.882|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.882|0.405|
82378798|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.29|||||TWO_SIDED|90.0|0.194|0.427|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.427|0.194|
82511715|NCT01469065|164716192|SUPERIORITY_OR_OTHER||Difference between Test and Reference|-35.84|||||TWO_SIDED|90.0|-52.89|-18.78||||||Treatment difference and 90% confidence interval (CI) were based on adjusted geometric mean.||-18.78|-52.89|
82511716|NCT01469065|164716193|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|86.72|||||TWO_SIDED|90.0|81.13|92.7||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||92.70|81.13|
82511717|NCT01469065|164716193|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|91.13|||||TWO_SIDED|90.0|85.24|97.44||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.44|85.24|
82378799|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.43|||||TWO_SIDED|90.0|0.292|0.643|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.643|0.292|
82511718|NCT01469065|164716193|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|87.05|||||TWO_SIDED|90.0|81.44|93.04||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||93.04|81.44|
82568868|NCT05324007|164847700|EQUIVALENCE|Estimated effect size was based on Liberman et al. (2017) that found a partial eta squared of .478 for the interaction between different-language and same-language conditions. Using G\*power using an alpha of .05, our target sample size of 30 per condition should provide 99.73% power to detect the main effect in the White-White and Black-Black condition and 99.99% power to detect the main effect in the Black-White condition.|partial eta squared|0.062|||<|0.05|TWO_SIDED||||||ANOVA|||We will examine whether looking time at affiliation will be greater when looking at Black-White interactions than at White-White or Black-Black interactions. That is, we will test if infants will be more surprised (look longer) by affiliation between different-race people interacting than same race people interacting. We will conduct a mixed ANOVA with conditions (Black-White, White-White, Black-Black) as a between-subject and test type (affiliation vs. disengagement) as within-subject factors.||||<.05
82568869|NCT00839332|164847702|SUPERIORITY_OR_OTHER||Bayesian Posterior Probability|0.333|||||TWO_SIDED||||||||Inference about survival was made using a Bayesian posterior probability. The combination treatment would have been considered superior to gemcitabine alone if the posterior probability of superiority exceeded 0.8.|||||
82568870|NCT00776984|164847756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.091|0.217||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.217|0.091|<0.0001
82378800|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.42|||||TWO_SIDED|90.0|0.28|0.617|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.617|0.280|
82511719|NCT01469065|164716193|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|77.95|||||TWO_SIDED|90.0|72.91|83.34||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Glucose AUC(2-6) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||83.34|72.91|
82511720|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|100.04|||||TWO_SIDED|90.0|92.7|107.96||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.96|92.70|
82511721|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|99.44|||||TWO_SIDED|90.0|92.04|107.43||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.43|92.04|
82511722|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|101.67|||||TWO_SIDED|90.0|94.1|109.84||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||109.84|94.10|
82378801|NCT04604795|164466364|OTHER||Ratio of geometric mean|0.61|||||TWO_SIDED|90.0|0.41|0.903|||||Day 7 (Standard meal) vs Day 3 (fasted)|||0.903|0.410|
82378802|NCT04604795|164466366|OTHER||Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.867|1.205|||||Day 5 (High fat meal) vs Day 3 (fasted)|||1.205|0.867|
82378803|NCT04604795|164466366|OTHER||Ratio of geometric mean|1.11|||||TWO_SIDED|90.0|0.941|1.308|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.308|0.941|
82511723|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 2|96.82|||||TWO_SIDED|90.0|89.69|104.52||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 2 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.52|89.69|
82632520|NCT04657003|164981132|SUPERIORITY||LSMean Mean Difference (Net)|-7.8|||<|0.001|TWO_SIDED|95.0|-9.2|-6.4|||Mixed Models Analysis|||||-6.4|-9.2|<0.001
82378804|NCT04604795|164466366|OTHER||Ratio of geometric mean|0.79|||||TWO_SIDED|90.0|0.671|0.933|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.933|0.671|
82378805|NCT04604795|164466366|OTHER||Ratio of geometric mean|0.85|||||TWO_SIDED|90.0|0.724|1.007|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.007|0.724|
82378806|NCT04604795|164466366|OTHER||Ratio of geometric mean|0.84|||||TWO_SIDED|90.0|0.713|0.992|||||Day 5 (High fat meal) vs Day 3 (fasted)|||0.992|0.713|
82378807|NCT04604795|164466366|OTHER||Ratio of geometric mean|0.99|||||TWO_SIDED|90.0|0.837|1.165|||||Day 7 (Standard meal) vs Day 3 (fasted)|||1.165|0.837|
82378808|NCT01866098|164466472|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.83
82511724|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|95.85|||||TWO_SIDED|90.0|88.82|103.44||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||103.44|88.82|
82632521|NCT04657003|164981132|SUPERIORITY||LSMean Mean Difference (Net)|-10.4|||<|0.001|TWO_SIDED|95.0|-11.8|-8.9|||Mixed Models Analysis|||||-8.9|-11.8|<0.001
82511725|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|98.71|||||TWO_SIDED|90.0|91.37|106.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||106.64|91.37|
82511726|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|99.72|||||TWO_SIDED|90.0|92.3|107.73||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.73|92.30|
82632522|NCT04657003|164981133|SUPERIORITY||Estimate Difference|-4.61|||<|0.001|TWO_SIDED|95.0|-7.11|-2.03|||Mixed Models Analysis|||||-2.03|-7.11|<0.001
82511727|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 3|94.49|||||TWO_SIDED|90.0|87.53|102.1||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 3 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.10|87.53|
82523702|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.0||||0.134|TWO_SIDED|95.0|-10.0|76.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 20||76|-10|0.134
82523703|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|29.0||||0.191|TWO_SIDED|95.0|-15.0|74.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 20||74|-15|0.191
82632523|NCT04657003|164981134|SUPERIORITY||Estimate Difference|-3.36||||0.112|TWO_SIDED|95.0|-7.36|0.81|||Mixed Models Analysis|||||0.81|-7.36|0.112
82632524|NCT04657003|164981135|SUPERIORITY||Estimate Difference|7.02|||<|0.001|TWO_SIDED|95.0|4.4|9.71|||Mixed Models Analysis|||||9.71|4.40|<0.001
82632525|NCT04657003|164981136|SUPERIORITY||Estimate Difference|-23.3|||<|0.001|TWO_SIDED|95.0|-27.5|-18.9|||Mixed Models Analysis|||||-18.9|-27.5|<0.001
82378809|NCT01866098|164466473|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
82568871|NCT00776984|164847757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.03||0.0002||95.0|0.053|0.169||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.169|0.053|0.0002
82378810|NCT01866098|164466474|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.19
82632526|NCT04657003|164981137|SUPERIORITY||Estimate Difference|-24.2|||<|0.001|TWO_SIDED|95.0|-28.6|-19.6|||Mixed Models Analysis|||||-19.6|-28.6|<0.001
82511728|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|93.43|||||TWO_SIDED|90.0|86.5|100.91||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.91|86.50|
82568872|NCT00776984|164847758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0343||||||Confirmatory only if previous hypotheses for each of the 2 twin studies had been successful, significance level of alpha=0.05 (2-sided). A pre-specified interim analysis was performed. Cui et al (Biometrics,1999) was used to calculate the p-value.|Regression, Cox|Parameter estimates of Cox proportional hazard model regression regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||||0.0343
82632527|NCT04657003|164981138|SUPERIORITY||Estimate Difference|-8.74|||<|0.001|TWO_SIDED|95.0|-12.04|-5.32|||Mixed Models Analysis|||||-5.32|-12.04|<0.001
82632528|NCT04657003|164981139|SUPERIORITY||Estimate Difference|-23.61|||<|0.001|TWO_SIDED|95.0|-28.62|-18.24|||Mixed Models Analysis|||||-18.24|-28.62|<0.001
82632529|NCT04657003|164981140|SUPERIORITY||LSMean Mean Difference (Net)|-6.2|||<|0.001|TWO_SIDED|95.0|-8.0|-4.4|||Mixed Models Analysis|||||-4.4|-8.0|<0.001
82632530|NCT04657003|164981141|SUPERIORITY||LSMean Mean Difference (Net)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.5|-1.3|||Mixed Models Analysis|||||-1.3|-3.5|<0.001
82632531|NCT04657003|164981142|SUPERIORITY||Estimate Difference|-17.6|||<|0.001|TWO_SIDED|95.0|-25.5|-8.9|||Mixed Models Analysis|||||-8.9|-25.5|<0.001
82632532|NCT04657003|164981142|SUPERIORITY||Estimate Difference|-30.2|||<|0.001|TWO_SIDED|95.0|-37.0|-22.7|||Mixed Models Analysis|||||-22.7|-37.0|<0.001
82632533|NCT04657003|164981143|SUPERIORITY||LSMean Mean Difference (Net)|1.8||||0.001|TWO_SIDED|95.0|0.7|2.9|||ANCOVA|||||2.9|0.7|0.001
82632534|NCT04657003|164981143|SUPERIORITY||LSMean Mean Difference (Net)|2.3|||<|0.001|TWO_SIDED|95.0|1.1|3.4|||ANCOVA|||||3.4|1.1|<0.001
82632535|NCT04657003|164981144|SUPERIORITY||LSMean Difference (Net)|6.9|||<|0.001|TWO_SIDED|95.0|4.1|9.7|||ANCOVA|||||9.7|4.1|<0.001
82632536|NCT04657003|164981144|SUPERIORITY||LSMean Difference (Net)|7.8|||<|0.001|TWO_SIDED|95.0|5.0|10.7|||ANCOVA|||||10.7|5.0|<0.001
82632537|NCT00935766|164981146|SUPERIORITY_OR_OTHER|||||||0.21|||||||Mixed Models Analysis|||||||0.21
82632538|NCT00935766|164981147|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82378811|NCT01866098|164466475|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.96
82568873|NCT00776984|164847759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0275||95.0|0.01|0.177||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.177|0.010|0.0275
82632539|NCT00935766|164981148|SUPERIORITY_OR_OTHER|||||||0.36|||||||Mixed Models Analysis|||||||0.36
82632540|NCT03347279|164981184|SUPERIORITY||Rate Ratio|0.44|||<|0.001|TWO_SIDED|95.0|0.37|0.53|||Negative Binomial|||||0.53|0.37|<0.001
82632541|NCT03347279|164981185|SUPERIORITY||Rate Ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.46|0.75|||Negative Binomial|||||0.75|0.46|<0.001
82632542|NCT03347279|164981186|SUPERIORITY||Least Squares (LS) Mean Difference|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.18|||Mixed Models Analysis|||||0.18|0.08|<0.001
82632543|NCT03347279|164981187|SUPERIORITY||LS Means Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.2|0.47|||Mixed Models Analysis|||||0.47|0.2|<0.001
82632544|NCT03347279|164981188|SUPERIORITY||LS Means Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.46|-0.2|||Mixed Models Analysis|||||-0.2|-0.46|<0.001
82632545|NCT03347279|164981189|SUPERIORITY||LS Means Difference|-0.11||||0.004|TWO_SIDED|95.0|-0.19|-0.04|||Mixed Models Analysis|||||-0.04|-0.19|0.004
82632546|NCT02530281|164981223|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82632547|NCT02530281|164981224|OTHER||||||=|0.065|||||||ANCOVA|Ranked ANCOVA||||||=0.065
82632548|NCT02530281|164981225|OTHER||||||=|0.065|||||||ANCOVA|Ranked ANCOVA||||||=0.065
82632549|NCT02530281|164981226|OTHER||||||=|0.001|||||||ANCOVA|Ranked ANCOVA||||||=0.001
82632550|NCT02530281|164981227|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82632551|NCT02530281|164981228|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82632552|NCT02987205|164981229|NON_INFERIORITY|If the upper bound of this 95% CI was less than the prespecified non-inferiority limit of 0.50, the Test product would be claimed to be non-inferior to the Comparator product.||||||0.013||||||Wilcoxon matched-pairs signed rank test|Wilcoxon (Mann-Whitney)|||||||0.0130
82632553|NCT03991936|164981258|SUPERIORITY||Mean Difference (Net)|-2.635|||<|0.001|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|t-test, 2 sided|||The null hypothesis was that the change from baseline to 24 weeks in the Nail Psoriasis Severity Index (NAPSI) for the triamcinolone acetonide groups: 2.5 mg/mL, 5.0 mg/mL, 7.5 mg/mL, and 10 mg/mL would be no different than the change from baseline to 24 weeks for the placebo group.||||<0.001
82632554|NCT00848172|164981283|SUPERIORITY_OR_OTHER||||||=|0.345||95.0|||||Mixed Models Analysis|||||||=0.345
82632555|NCT00848172|164981284|SUPERIORITY_OR_OTHER||||||=|0.031||95.0|||||Mixed Models Analysis|||||||=0.031
82632556|NCT05306964|164981287|OTHER|||||||0.5|||||||GLMM|||||||0.5
82632557|NCT05306964|164981288|OTHER|||||||0.4|||||||GLMM|||||||0.4
82632558|NCT05306964|164981289|OTHER|||||||0.5|||||||GLMM|||||||0.5
82632559|NCT05306964|164981290|OTHER|||||||0.3|||||||GLMM|||||||0.3
82632560|NCT05306964|164981291|OTHER|||||||0.4|||||||GLMM|||||||0.4
82632561|NCT05306964|164981292|OTHER|||||||0.5|||||||GLMM|||||||0.5
82632562|NCT05306964|164981293|OTHER|||||||0.3|||||||GLMM|||||||0.3
82632563|NCT05306964|164981294|OTHER|||||||0.3|||||||GLMM|||||||0.3
82632564|NCT05306964|164981295|OTHER|||||||0.7|||||||GLMM|||||||0.7
82568874|NCT00776984|164847760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.041||0.0099||95.0|0.025|0.186||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.186|0.025|0.0099
82378812|NCT01866098|164466476|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.92
82378813|NCT01866098|164466477|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.98
82568875|NCT00776984|164847761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.084|0.202||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.202|0.084|<0.0001
82511729|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|92.71|||||TWO_SIDED|90.0|85.81|100.15||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.15|85.81|
82511730|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|94.08|||||TWO_SIDED|90.0|87.08|101.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||101.64|87.08|
82511731|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 6|87.74|||||TWO_SIDED|90.0|81.2|94.81||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 6 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.81|81.20|
82523704|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.852|TWO_SIDED|95.0|-38.0|46.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 24||46|-38|0.852
82378814|NCT01866098|164466478|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.95
82378815|NCT01866098|164466479|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Estimated treatment differences between groups analyzed using mixed-model analysis. Model includes the baseline value age; sex; compliance; ethnicity.||||||0.43
82568876|NCT00776984|164847762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.04||0.0063||95.0|0.031|0.187||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.187|0.031|0.0063
82378816|NCT03649347|164466480|SUPERIORITY||||||<|0.001||||||Interaction effect: p\<.001, np2=.720|ANOVA|Main effect of time: p\<.001, np2=.798; main effect of group: p\<.001, np2=.711||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 99%, critical F=4.76.||||<.001
82378817|NCT03649347|164466481|SUPERIORITY||||||<|0.001||||||Interaction effect: p\<.001, np2=.542|ANOVA|Main effect of time: p\<.001, np2=.598; and main effect of group: p\<.001, np2=.439||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 96%, critical F=4.76.||||<.001
82632565|NCT05306964|164981296|OTHER|||||||0.2|||||||GLMM|||||||0.2
82632566|NCT05306964|164981297|OTHER|||||||0.02|||||||GLMM|||||||0.02
82632567|NCT05306964|164981298|OTHER|||||||0.2|||||||GLMM|||||||0.2
82632568|NCT05306964|164981299|OTHER|||||||0.7|||||||GLMM|||||||0.7
82632569|NCT05306964|164981300|OTHER|||||||0.1|||||||GLMM|||||||0.1
82632570|NCT05306964|164981301|OTHER|||||||0.2|||||||GLMM|||||||0.2
82632571|NCT05306964|164981302|OTHER||||||<|0.001|||||||GLMM|||||||<0.001
82632572|NCT05306964|164981303|OTHER|||||||0|||||||GLMM|||||||0
82632573|NCT05306964|164981304|OTHER|||||||0.5|||||||GLMM|||||||0.5
82632574|NCT05306964|164981305|OTHER|||||||0.9|||||||GLMM|||||||0.9
82632575|NCT05306964|164981306|OTHER|||||||0.8|||||||GLMM|||||||0.8
82632576|NCT05306964|164981307|OTHER|||||||0|||||||GLMM|||||||0
82632577|NCT05306964|164981308|OTHER|||||||0|||||||GLMM|||||||0
82378818|NCT03649347|164466483|SUPERIORITY||||||<|0.005||||||Interaction effect: p\<.005, np2=.481|ANOVA|Main effect of time: p\<.001, np2=.572; and main effect of group p\<.001, np2=.626||A repeated measures ANOVA was conducted to assess main effects of group (AR therapy intervention versus no treatment control), time (baseline, one week follow up, and one month follow up) as well as an interaction effect. The P-Value shown below is for the interaction effect. Post-hoc power analysis indicated actual power 99%, critical F=3.49.||||<.005
82378819|NCT03172494|164466511|NON_INFERIORITY|Non-inferiority of insulin degludec/liraglutide versus insulin degludec was considered as confirmed if the 95% confidence interval (CI) for the mean treatment difference lied entirely below 0.4%. Non-inferiority was investigated on the FAS.|Mean treatment difference|-0.59|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.46|||ANCOVA|||The change from baseline in HbA1c after 26 weeks of treatment was analysed using an analysis of covariance (ANCOVA) model with treatment and previous oral anti-diabetic (OAD) treatment as fixed factors and baseline HbA1c as covariate. Missing values were imputed by last observation carried forward (LOCF).||-0.46|-0.73|<0.0001
82632578|NCT05306964|164981309|OTHER|||||||0.2|||||||GLMM|||||||0.2
82632579|NCT05306964|164981310|OTHER|||||||0|||||||GLMM|||||||0
82632580|NCT05306964|164981311|OTHER|||||||0.9|||||||GLMM|||||||0.9
82632581|NCT05306964|164981312|OTHER|||||||0|||||||GLMM|||||||0
82632582|NCT05306964|164981313|OTHER|||||||0.9|||||||GLMM|||||||0.9
82632583|NCT05306964|164981314|OTHER|||||||0|||||||GLMM|||||||0
82632584|NCT05306964|164981315|OTHER|||||||0|||||||GLMM|||||||0
82632585|NCT05306964|164981316|OTHER|||||||0|||||||GLMM|||||||0
82632586|NCT05306964|164981317|OTHER|||||||0.5|||||||GLMM|||||||0.5
82632587|NCT05306964|164981318|OTHER|||||||0.2|||||||GLMM|||||||0.2
82632588|NCT05306964|164981319|OTHER|||||||0.3|||||||GLMM|||||||0.3
82632589|NCT02421939|164981320|OTHER||Hazard Ratio (HR)|0.637||||0.0004|TWO_SIDED|95.0|0.49|0.83||1-sided P-value|Log Rank||Based on Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm|Stratified analysis where tratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.||0.830|0.490|0.0004
82632590|NCT02421939|164981322|OTHER||Hazard Ratio (HR)|0.793||||0.0415|TWO_SIDED|95.0|0.577|1.089||1-sided P-value|Log Rank||Based on the Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm.|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT||1.089|0.577|0.0415
82632591|NCT02421939|164981323|OTHER||Adjusted Treatment Difference|10.6||||0.0106|TWO_SIDED|95.0|2.8|18.4||Stratified P-value|Cochran-Mantel-Haenszel|||Based on stratified Cochran-Mantel-Haenszel test. Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT. Treatment difference = gilteritinib -chemotherapy.||18.4|2.8|0.0106
82632592|NCT02421939|164981324|OTHER||Hazard Ratio (HR)|0.889||||0.6654|TWO_SIDED|95.0|0.506|1.563||Unstratified p-value|Log Rank||Based on the Cox proportional hazards model. Assuming proportional hazards, an HR of \< 1 indicates a reduction in the hazard rate in favor of the gilteritinib arm.|The LFS was analyzed for participants who achieved remission using the stratified log-rank test with strata to control for response to first-line AML therapy and preselected salvage chemotherapy. Duration of LFS was based on Kaplan-Meier estimates.||1.563|0.506|0.6654
82632593|NCT02421939|164981325|OTHER||Hazard Ratio (HR)|0.206||||0.1189|TWO_SIDED|95.0|0.022|1.886||Unstratified|Log Rank||Based on Cox proportional hazards model. Assuming proportional hazards, a hazard ratio \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm.|||1.886|0.022|0.1189
82632594|NCT02421939|164981326|OTHER||Treatment difference|32.5|||<|0.0001|TWO_SIDED|95.0|22.3|42.6||Unstratified 2-sided P-value|2-sided Fisher's exact test|||Treatment difference = gilteritinib - chemotherapy. The 95% CIs were asymptotic confidence limits using the normal approximation to the binomial distribution.||42.6|22.3|<0.0001
82632595|NCT02421939|164981327|OTHER||Treatment Difference|10.2||||0.0333|TWO_SIDED|95.0|1.2|19.1||Unstratified 2-sided P-value.|2-sided Fisher's exact test|Treatment difference = gilteritinib - chemotherapy.||||19.1|1.2|0.0333
82632596|NCT02421939|164981328|OTHER||Least Squares Mean Difference|-1.2567||||0|||||||ANCOVA|||C1D8: Using analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. Least Square (LS) Mean difference was estimated using chemotherapy as control.||||0.0000
82632597|NCT02421939|164981328|OTHER||Least Squares Mean Difference|0.1574||||0.8037|||||||ANCOVA|||C2D1: Using analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. Least Square (LS) Mean difference was estimated using chemotherapy as control.||||0.8037
82632598|NCT02421939|164981329|OTHER||Adjusted Treatment Difference,|18.6|||<|0.0171|TWO_SIDED|95.0|9.8|27.4||Stratified 1-sided P-value.|Cochran-Mantel-Haenszel|||Based on a stratified Cochran-Mantel-Haenszel test. Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT. Pooled strata were used as shown in Table 12.3.3.2. Treatment differences were adjusted based on pooled strata. Treatment difference = gilteritinib 120 mg - chemotherapy.||27.4|9.8|<0.0171
82632599|NCT02061540|164981347|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.841|STANDARD_ERROR_OF_MEAN|6.0373||0.0043|TWO_SIDED|95.0|-27.251|-2.432|||Wilcoxon's signed rank test|||Analysis was performed to compare baseline and endpoint data.||-2.432|-27.251|0.0043
82632600|NCT00598806|164981373|SUPERIORITY||Odds Ratio (OR)|0.76||||0.1094|TWO_SIDED|95.0|0.55|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.55|0.1094
82632601|NCT00598806|164981374|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1038|TWO_SIDED|95.0|0.63|1.04|||Log Rank|||||1.04|0.63|0.1038
82511732|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|96.91|||||TWO_SIDED|90.0|89.72|104.67||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.67|89.72|
82568877|NCT00776984|164847763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.087|0.217||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.217|0.087|<0.0001
82632602|NCT01603628|164981386|SUPERIORITY||Least Squares (LS) Mean Difference|-0.26||||0.01|TWO_SIDED|95.0|-0.453|-0.063||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||-0.063|-0.453|0.010
82632603|NCT01603628|164981386|SUPERIORITY||LS Mean Difference|-0.21||||0.033|TWO_SIDED|95.0|-0.405|-0.018||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||-0.018|-0.405|0.033
82632604|NCT01603628|164981387|SUPERIORITY||LS Mean Difference|0.29||||0.023|TWO_SIDED|95.0|0.04|0.532||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||0.532|0.040|0.023
82632605|NCT01603628|164981387|SUPERIORITY||LS Mean Difference|0.13||||0.299|TWO_SIDED|95.0|-0.115|0.374||MMRM including baseline MAS-B ankle score (knee extended) as a covariate and factors of age, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure where age is represented by stratification categories.|Mixed Model Repeated Measures|||||0.374|-0.115|0.299
82632606|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.41||||0.005|TWO_SIDED|95.0|0.126|0.704||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.704|0.126|0.005
82632607|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.29||||0.047|TWO_SIDED|95.0|0.004|0.573||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.573|0.004|0.047
82632608|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.45||||0.004|TWO_SIDED|95.0|0.145|0.756||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.756|0.145|0.004
82632609|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.44||||0.004|TWO_SIDED|95.0|0.141|0.74||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.740|0.141|0.004
82632610|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.49||||0.001|TWO_SIDED|95.0|0.191|0.797||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.797|0.191|0.001
82632611|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.22||||0.153|TWO_SIDED|95.0|-0.081|0.541||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.541|-0.081|0.153
82632612|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.41||||0.01|TWO_SIDED|95.0|0.1|0.711||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.711|0.100|0.010
82632613|NCT01603628|164981388|SUPERIORITY||LS Mean Difference|0.27||||0.078|TWO_SIDED|95.0|-0.031|0.571||ANCOVA model including baseline MAS-B ankle score with knee extended as a covariate and factors of age group, treatment group, study center and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.571|-0.031|0.078
82632614|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-1.99||||0.158|TWO_SIDED|95.0|-4.768|0.779||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2||0.779|-4.768|0.158
82632615|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-3.25||||0.02|TWO_SIDED|95.0|-5.974|-0.524||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2||-0.524|-5.974|0.020
82632616|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-1.42||||0.363|TWO_SIDED|95.0|-4.489|1.648||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4||1.648|-4.489|0.363
82632617|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-2.11||||0.171|TWO_SIDED|95.0|-5.127|0.914||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4||0.914|-5.127|0.171
82632618|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-3.33||||0.02|TWO_SIDED|95.0|-6.143|-0.525||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6||-0.525|-6.143|0.020
82378820|NCT03172494|164466511|SUPERIORITY||Mean treatment difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.49|||ANCOVA|||The change from baseline in HbA1c after 26 weeks of treatment was analysed using an ANCOVA model with treatment and previous OAD treatment as fixed factors and baseline HbA1c as covariate. Missing values were imputed by LOCF.||-0.49|-0.76|<0.0001
82378821|NCT00143390|164466573|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of exemestane to anastrozole was to be concluded if the upper bound of the 95% confidence interval on the hazard ratio (exemestane/anastrozole) was ≤1.25.|Hazard Ratio (HR)|1.007|||||TWO_SIDED|95.0|0.771|1.317|||||Disease sites, use of postoperative adjuvant antiestrogen agents therapy, and pamidronate disodium were covariates for adjustment.|95% Confidence Interval based on the Brookmeyer and Crowley method||1.317|0.771|
82378822|NCT00143390|164466574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of exemestane to anastrozole was to be concluded if the upper bound of the 95% confidence interval on the hazard ratio (exemestane/anastrozole) was ≤1.25.|Hazard Ratio (HR)|1.059|||||TWO_SIDED|95.0|0.816|1.374|||||Disease sites, use of postoperative adjuvant antiestrogen agents therapy, and pamidronate disodium were covariates for adjustment.|95% Confidence Interval based on the Brookmeyer and Crowley method||1.374|0.816|
82378823|NCT03417687|164466579|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-14.7%, +14.7%).|Mean Difference (Net)|1.4|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|-0.75|3.6||||||The primary efficacy analysis tested the mean difference in the predicted percentage of remaining pulmonary function as measured by 129Xe MRI relative to the value as measured by 133Xe scintigraphy (reference standard) if a pre-defined section of lung were resected.||3.60|-0.75|
82378824|NCT03417687|164466581|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|3.71|STANDARD_DEVIATION|4.39|||TWO_SIDED|95.0|2.12|5.29||||||||5.29|2.12|
82378825|NCT03417687|164466582|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-0.476|1.26||||||||1.26|-0.476|
82378826|NCT03417687|164466583|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|1.35|STANDARD_DEVIATION|3.22|||TWO_SIDED|95.0|0.184|2.505||||||||2.505|0.184|
82378827|NCT03417687|164466584|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-0.96|STANDARD_DEVIATION|3.16|||TWO_SIDED|95.0|-2.101|0.181||||||||0.181|-2.101|
82378828|NCT03417687|164466585|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-2.721|STANDARD_DEVIATION|3.82|||TWO_SIDED|95.0|-4.096|-1.345||||||||-1.345|-4.096|
82378829|NCT03417687|164466586|EQUIVALENCE|The 2 methods were considered equivalent if the 95% confidence interval for the mean within subject difference between 129Xe MRI and 133Xe scintigraphy measurements was contained within the equivalence margin (-5.0%, +5.0%).|Mean Difference (Final Values)|-1.76|STANDARD_DEVIATION|3.96|||TWO_SIDED|95.0|-3.192|-0.335||||||||-0.335|-3.192|
82378830|NCT03180645|164466626|OTHER||Least square (LS) mean difference|-1.07||||0.0638|TWO_SIDED|95.0|-2.21|0.06|||ANCOVA|Analysis model (ANCOVA) included participant as random effect, treatment arm and side of the face as fixed effects and baseline value as covariate.|Difference is the first named treatment adjusted (LS) mean change from baseline minus the second named treatment adjusted mean change from baseline.|||0.06|-2.21|0.0638
82378831|NCT00852202|164466652|SUPERIORITY|||||||0.7408|||||||ANCOVA|||||||0.7408
82378832|NCT00852202|164466652|SUPERIORITY|||||||0.9961|||||||ANCOVA|||||||0.9961
82632619|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-3.92||||0.006|TWO_SIDED|95.0|-6.688|-1.148||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6||-1.148|-6.688|0.006
82378833|NCT00852202|164466653|SUPERIORITY|||||||0.3441|||||||ANCOVA|||||||0.3441
82378834|NCT00852202|164466653|SUPERIORITY|||||||0.2683|||||||ANCOVA|||||||0.2683
82378835|NCT01130532|164466692|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82378836|NCT01130532|164466692|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82378837|NCT01130532|164466693|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|0.69|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378838|NCT01130532|164466693|SUPERIORITY_OR_OTHER||LS Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|0.68|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378839|NCT01130532|164466694|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|0.29|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378840|NCT01130532|164466694|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.29|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378841|NCT01130532|164466695|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378842|NCT01130532|164466695|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378843|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|2.28|<|0.001||95.0||||P-value is for Question 1. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378844|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|9.6|STANDARD_ERROR_OF_MEAN|2.26|<|0.001||95.0||||P-value is for Question 1. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378845|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.14|<|0.001||95.0||||P-value is for Question 2. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378846|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.12|<|0.001||95.0||||P-value is for Question 2. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378847|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|24.7|STANDARD_ERROR_OF_MEAN|3.53|<|0.001||95.0||||P-value is for Question 3. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378848|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|26.8|STANDARD_ERROR_OF_MEAN|3.5|<|0.001||95.0||||P-value is for Question 3. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378849|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|32.7|STANDARD_ERROR_OF_MEAN|3.82|<|0.001||95.0||||P-value is for Question 4. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378850|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|31.3|STANDARD_ERROR_OF_MEAN|3.79|<|0.001||95.0||||P-value is for Question 4. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378851|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|33.0|STANDARD_ERROR_OF_MEAN|3.78|<|0.001||95.0||||P-value is for Question 5. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378852|NCT01130532|164466696|SUPERIORITY_OR_OTHER||LS Mean Difference|30.5|STANDARD_ERROR_OF_MEAN|3.75|<|0.001||95.0||||P-value is for Question 5. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378853|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|23.1|STANDARD_ERROR_OF_MEAN|2.49|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378854|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|25.4|STANDARD_ERROR_OF_MEAN|2.48|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378855|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|2.36|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82568878|NCT00776984|164847764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.03||0.0026||95.0|0.032|0.151||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.151|0.032|0.0026
82632620|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-2.07||||0.254|TWO_SIDED|95.0|-5.621|1.491||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8||1.491|-5.621|0.254
82378856|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|20.6|STANDARD_ERROR_OF_MEAN|2.35|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378857|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|2.21|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378858|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|19.5|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378859|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|26.0|STANDARD_ERROR_OF_MEAN|2.54|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378860|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|28.7|STANDARD_ERROR_OF_MEAN|2.53|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378861|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|2.65|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378862|NCT01130532|164466697|SUPERIORITY_OR_OTHER||LS Mean Difference|20.1|STANDARD_ERROR_OF_MEAN|2.64|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378863|NCT01130532|164466698|SUPERIORITY_OR_OTHER||LS Mean Difference|28.9|STANDARD_ERROR_OF_MEAN|2.77|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
82378864|NCT01130532|164466698|SUPERIORITY_OR_OTHER||LS Mean Difference|31.0|STANDARD_ERROR_OF_MEAN|2.76|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
82378865|NCT01130532|164466699|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378866|NCT01130532|164466699|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82632621|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-2.46||||0.165|TWO_SIDED|95.0|-5.935|1.014||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8||1.014|-5.935|0.165
82632622|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-2.61||||0.078|TWO_SIDED|95.0|-5.517|0.296||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12||0.296|-5.517|0.078
82632623|NCT01603628|164981389|SUPERIORITY||LS Mean Difference|-1.09||||0.451|TWO_SIDED|95.0|-3.944|1.758||ANCOVA model including baseline MTS ankle score with knee extended as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12||1.758|-3.944|0.451
82632624|NCT00835276|164981416|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|87.96||||||90.0|80.15|96.53|||||To establish bioequivalence, the mean values for the test product differ by no more than 20% from the respective mean values for the reference listed product.|||96.53|80.15|
82632625|NCT00835276|164981417|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.47||||||90.0|85.15|98.26|||||To establish bioequivalence, the mean values for the test product differ by no more that 20% from the repective mean values for the reference listed product.|||98.26|85.15|
82632626|NCT00835276|164981418|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.47||||||90.0|85.32|98.07|||||To establish bioequivalence, the mean values for the test product differ by no more than 20% from the respective mean values for the reference listed product.|||98.07|85.32|
82632627|NCT01855867|164981473|SUPERIORITY|Statistical significance was determined at the alpha 0.05 level. The study regimen completion rates of participants in the current study taking a fixed dose once daily combination of elvitegravir/cobicistat/TDF/FTC were compared to historical controls who used PEP regimens consisting of TDF/FTC daily and raltegravir twice daily, or earlier regimens of twice daily zidovudine (AZT)/lamivudine (3TC) and a protease inhibitor, using chi-square tests for independence.|chi square||||<|0.05||||||Reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|Chi-squared|||using historical controls||||<0.05
82632628|NCT01846208|164981510|SUPERIORITY||Risk Difference (RD)|32.4||||0.009|TWO_SIDED|95.0|8.9|55.8|||Barnard's Exact Test|||% participants passed Year 2 SU OFC: Baked vs. Egg OIT-Randomized||55.8|8.9|0.009
82632629|NCT01846208|164981510|SUPERIORITY||Risk Difference (RD)|25.5||||0.031|TWO_SIDED|95.0|2.0|49.1|||Barnard's Exact Test|||% participants passed Year 2 SU OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||49.1|2.0|0.031
82632630|NCT01846208|164981511|SUPERIORITY||Risk Difference (RD)|64.7|||<|0.0001|TWO_SIDED|95.0|43.9|85.6|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 2 OFC: Baked vs. Egg OIT-Randomized||85.6|43.9|<0.0001
82632631|NCT01846208|164981511|SUPERIORITY||Risk Difference (RD)|17.7||||0.151|TWO_SIDED|95.0|-2.3|37.7|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 2 OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||37.7|-2.3|0.151
82632632|NCT01846208|164981511|SUPERIORITY||Risk Difference (RD)|44.3||||0.002|TWO_SIDED|95.0|19.4|69.2|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 1 OFC: Baked vs. Egg OIT-Randomized||69.2|19.4|0.002
82632633|NCT01846208|164981511|SUPERIORITY||Risk Difference (RD)|17.5||||0.181|TWO_SIDED|95.0|-6.3|41.3|||Barnard's Exact Test|||% participants desensitized to \>=4444 mg at Year 1 OFC: Egg OIT-Randomized vs. Egg OIT-Assigned||41.3|-6.3|0.181
82632634|NCT01846208|164981513|SUPERIORITY||Risk Difference (RD)|-50.2||||0.003|TWO_SIDED|95.0|-78.4|-21.9|||Barnard's Exact Test|||% participants with unrestricted consumption of unbaked (concentrated) egg 3 years after randomization: Baked vs. Egg OIT-Randomized||-21.9|-78.4|0.003
82632635|NCT01846208|164981513|SUPERIORITY||Risk Difference (RD)|33.7||||0.023|TWO_SIDED|95.0|7.2|60.1|||Barnard's Exact Test|||% participants with unrestricted consumption of unbaked (concentrated) egg 3 years after randomization: Egg OIT-Randomized vs. Egg OIT-Assigned||60.1|7.2|0.023
82632636|NCT01424306|164981515|OTHER|||||||0.403||||||P value for the time x diet interaction reflects overall comparison of 3 dietary phases by RM-ANOVA|RM-ANOVA|||RM-ANOVA||||0.403
82632637|NCT01424306|164981516|OTHER|RM-ANOVA||||||0.933||||||P-diet: reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.933
82632638|NCT01424306|164981517|OTHER|RM-ANOVA||||||0.196||||||P-diet: reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.196
82632639|NCT01424306|164981518|OTHER|RM-ANOVA||||||0.88||||||Reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.880
82632640|NCT01424306|164981519|OTHER|RM-ANOVA|||||<|0.001||||||P-value reflects an overall comparison of the 3 dietary phases by RM-ANOVA|Repeated measures ANOVA|||||||<0.001
82632641|NCT01424306|164981520|OTHER|RM-ANOVA||||||0.366||||||P-value reflects an overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.366
82632642|NCT01424306|164981521|OTHER|RM-ANOVA||||||0.387||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.387
82632643|NCT01424306|164981522|OTHER|RM-ANOVA||||||0.476||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.476
82632644|NCT01424306|164981523|OTHER|RM-ANOVA||||||0.596||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.596
82632645|NCT01424306|164981524|OTHER|RM-ANOVA||||||0.492||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.492
82511733|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|96.05|||||TWO_SIDED|90.0|88.9|103.76||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||103.76|88.90|
82378867|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|21.7|STANDARD_ERROR_OF_MEAN|2.81|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378868|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|25.2|STANDARD_ERROR_OF_MEAN|2.78|<|0.001||95.0||||P-value is for confidence to complete sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378869|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|22.3|STANDARD_ERROR_OF_MEAN|2.46|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82632646|NCT01424306|164981525|OTHER|RM-ANOVA||||||0.149||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.149
82632647|NCT01424306|164981526|OTHER|RM-ANOVA||||||0.056||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.056
82632648|NCT01424306|164981527|OTHER|RM-ANOVA||||||0.52||||||P-value reflects overall comparison of the 3 dietary phases by RM-ANOVA|RM-ANOVA|||||||0.520
82511734|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|99.63|||||TWO_SIDED|90.0|92.21|107.64||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||107.64|92.21|
82378870|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|STANDARD_ERROR_OF_MEAN|2.44|<|0.001||95.0||||P-value is for ease of erection. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378871|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|16.9|STANDARD_ERROR_OF_MEAN|2.37|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82523705|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0||||0.397|TWO_SIDED|95.0|-24.0|60.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 24||60|-24|0.397
82568879|NCT00776984|164847765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.078|0.199||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.199|0.078|<0.0001
82378872|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|17.2|STANDARD_ERROR_OF_MEAN|2.35|<|0.001||95.0||||P-value is for pleasure from sexual activity. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378873|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|25.2|STANDARD_ERROR_OF_MEAN|2.57|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82632649|NCT00369928|164981533|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.88||||0.982|TWO_SIDED|80.0|0.56|1.38|||Cochran-Mantel-Haenszel|||||1.38|0.56|0.982
82568880|NCT00776984|164847766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.044||0.0088||95.0|0.029|0.2||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.200|0.029|0.0088
82378874|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|STANDARD_ERROR_OF_MEAN|2.56|<|0.001||95.0||||P-value is for erectile function satisfaction. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378875|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1|STANDARD_ERROR_OF_MEAN|2.88|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82632650|NCT00369928|164981533|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.79||||0.666|TWO_SIDED|80.0|0.5|1.25|||Cochran-Mantel-Haenszel|||||1.25|0.50|0.666
82632651|NCT04191096|164981567|OTHER||Hazard Ratio (HR)|1.2||||0.9467|TWO_SIDED|95.0|0.96|1.49||A one-sided p-value was calculated using the log-rank test stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||1.49|0.96|0.9467
82632652|NCT04191096|164981568|OTHER||Hazard Ratio (HR)|1.16||||0.85122|TWO_SIDED|95.0|0.88|1.53||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.53|0.88|0.85122
82632653|NCT04191096|164981569|OTHER||Hazard Ratio (HR)|1.24||||0.97907|TWO_SIDED|95.0|1.01|1.54||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.54|1.01|0.97907
82632654|NCT04191096|164981570|OTHER||Hazard Ratio (HR)|0.89||||0.27202|TWO_SIDED|95.0|0.61|1.3||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.30|0.61|0.27202
82632655|NCT04191096|164981571|OTHER||Hazard Ratio (HR)|0.92||||0.2972|TWO_SIDED|95.0|0.69|1.23||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.23|0.69|0.2972
82632656|NCT04191096|164981572|OTHER||Hazard Ratio (HR)|1.07||||0.6863|TWO_SIDED|95.0|0.81|1.41||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.41|0.81|0.6863
82632657|NCT04191096|164981573|OTHER||Hazard Ratio (HR)|1.15||||0.9235|TWO_SIDED|95.0|0.95|1.39||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||1.39|0.95|0.9235
82632658|NCT04191096|164981574|OTHER||Hazard Ratio (HR)|1.16||||0.8801|TWO_SIDED|95.0|0.9|1.5||One-sided p-value based on log-rank test stratified by prior docetaxel for mHSPC (Yes vs No) and presence of high-volume disease (Yes vs No) with small strata.|Log Rank||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||1.50|0.90|0.8801
82632659|NCT04191096|164981575|OTHER||Percent Difference|-2.7||||0.9576|TWO_SIDED|95.0|-5.8|0.4||One-sided p-value based on Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen method||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No).|||0.4|-5.8|0.9576
82632660|NCT04191096|164981576|OTHER||Percent difference|-0.8||||0.6053|TWO_SIDED|95.0|-6.3|4.8||One-sided p-value based on Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docetaxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||4.8|-6.3|0.6053
82632661|NCT04191096|164981577|OTHER||Percent difference|-5.6||||0.9105|TWO_SIDED|95.0|-13.7|2.6||One-sided p-value based on Miettinen \& Nurminen method stratified prior docataxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No) with small strata.|Miettinen & Nurminen||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by prior docataxel for mHSPC (Yes/No) and presence of high-volume disease (Yes/No)|||2.6|-13.7|0.9105
82632662|NCT04540627|164981582|SUPERIORITY|||||||0.5802|||||||Wilcoxon (Mann-Whitney)|||||||0.5802
82632663|NCT04540627|164981583|SUPERIORITY|||||||0.4868|||||||Wilcoxon (Mann-Whitney)|||||||0.4868
82632664|NCT04540627|164981584|SUPERIORITY|||||||0.2681|||||||Wilcoxon (Mann-Whitney)|||||||0.2681
82632665|NCT04540627|164981585|SUPERIORITY|||||||0.2431|||||||Wilcoxon (Mann-Whitney)|||||||0.2431
82632666|NCT04540627|164981590|SUPERIORITY|||||||0.4868|||||||Wilcoxon (Mann-Whitney)|||||||0.4868
82632667|NCT04540627|164981592|SUPERIORITY|||||||0.0403|||||||Wilcoxon (Mann-Whitney)|||||||0.0403
82378876|NCT01130532|164466700|SUPERIORITY_OR_OTHER||LS Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|2.86|<|0.001||95.0||||P-value is for satisfaction with orgasm. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANCOVA|||||||<0.001
82378877|NCT01130532|164466701|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|STANDARD_ERROR_OF_MEAN|2.76|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
82568881|NCT00776984|164847767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.042||0.0933||95.0|-0.012|0.153||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.153|-0.012|0.0933
82568882|NCT00776984|164847768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.041||0.0074||95.0|0.029|0.189||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.189|0.029|0.0074
82568883|NCT00776984|164847769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.654|STANDARD_ERROR_OF_MEAN|4.807|<|0.0001||95.0|11.199|30.108||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||30.108|11.199|<0.0001
82568884|NCT00776984|164847770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.453|STANDARD_ERROR_OF_MEAN|5.044|<|0.0001||95.0|22.532|42.374||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||42.374|22.532|<0.0001
82378878|NCT01130532|164466701|SUPERIORITY_OR_OTHER||LS Mean Difference|28.2|STANDARD_ERROR_OF_MEAN|2.74|<|0.001||95.0||||Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|ANOVA|||||||<0.001
82378879|NCT01130532|164466703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
82568885|NCT00776984|164847771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0027||95.0|0.031|0.149||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.031|0.0027
82568886|NCT00776984|164847772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.074|0.2||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.200|0.074|<0.0001
82568887|NCT00776984|164847773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.197|STANDARD_ERROR_OF_MEAN|0.741||0.1073||95.0|-0.261|2.655||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||2.655|-0.261|0.1073
82568888|NCT00776984|164847774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.4788||95.0|0.65|1.23||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||1.23|0.65|0.4788
82568889|NCT00776984|164847775|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8|STANDARD_ERROR_OF_MEAN|0.11||0.1007||95.0|0.61|1.04||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.04|0.61|0.1007
82568890|NCT00776984|164847776|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|STANDARD_ERROR_OF_MEAN|0.15||0.7906||95.0|0.71|1.3||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.30|0.71|0.7906
82378880|NCT01130532|164466703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
82568891|NCT00776984|164847777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57||||0.004||95.0|0.38|0.84||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||0.84|0.38|0.0040
82568892|NCT00776984|164847778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.5481||95.0|0.58|1.32||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||1.32|0.58|0.5481
82568893|NCT00776984|164847779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.7188||95.0|0.33|2.14||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||2.14|0.33|0.7188
82568894|NCT00776984|164847780|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95|STANDARD_ERROR_OF_MEAN|0.23||0.8503||95.0|0.59|1.54||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo.|||1.54|0.59|0.8503
82568895|NCT00776984|164847781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.8129||95.0|0.29|2.46||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95 percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||2.46|0.29|0.8129
82568896|NCT00776984|164847782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.078||0.0225||95.0|0.025|0.331||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.331|0.025|0.0225
82378881|NCT01130532|164466703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
82511735|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 10|94.5|||||TWO_SIDED|90.0|87.46|102.11||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 10 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.11|87.46|
82511736|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|86.75|||||TWO_SIDED|90.0|80.32|93.69||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||93.69|80.32|
82511737|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|87.87|||||TWO_SIDED|90.0|81.34|94.93||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||94.93|81.34|
82511738|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|91.35|||||TWO_SIDED|90.0|84.55|98.7||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||98.70|84.55|
82511739|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 14|88.6|||||TWO_SIDED|90.0|82.0|95.74||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 14 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||95.74|82.00|
82511740|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|90.45|||||TWO_SIDED|90.0|83.75|97.69||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||97.69|83.75|
82511741|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|90.45|||||TWO_SIDED|90.0|84.03|98.08||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||98.08|84.03|
82511742|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|94.75|||||TWO_SIDED|90.0|87.69|102.34||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||102.34|87.69|
82568897|NCT00776984|164847783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.0803||95.0|-0.017|0.296||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.296|-0.017|0.0803
82568898|NCT00776984|164847784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.199|STANDARD_ERROR_OF_MEAN|0.067||0.003||95.0|-0.33|-0.068||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||-0.068|-0.330|0.0030
82568899|NCT00776984|164847785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.069||0.0533||95.0|-0.267|0.002||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.002|-0.267|0.0533
82568900|NCT00776984|164847786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.028||0.6632||95.0|-0.043|0.067||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.067|-0.043|0.6632
82568901|NCT00776984|164847787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|STANDARD_ERROR_OF_MEAN|0.189||0.1664||95.0|-0.635|0.11||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.110|-0.635|0.1664
82568902|NCT00776984|164847788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0427|TWO_SIDED|95.0|1.01|1.73||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 24 weeks||1.73|1.01|0.0427
82568903|NCT00776984|164847788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0001|TWO_SIDED|95.0|1.28|2.21||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 48 weeks||2.21|1.28|0.0001
82378882|NCT01130532|164466704|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||0.002
82378883|NCT01130532|164466704|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||0.004
82378884|NCT01130532|164466704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparison of Week 16 to Week 12. Sequential gatekeeping strategies were applied for multiplicity control and the p-value was not adjusted.|Paired t-test|||||||<0.001
82378885|NCT03041311|164466737|SUPERIORITY||||||<|0.0001|ONE_SIDED|95.0||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|non-parametric ANCOVA|Hochberg-based gatekeeping procedure||Treatment difference was evaluated using a nonparametric analysis of covariance (ANCOVA). The nonparametric ANCOVA included study baseline ANC value as covariate, stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No), and treatment as a fixed effect.||||<0.0001
82378886|NCT03041311|164466738|SUPERIORITY||||||<|0.0001||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||The occurrence of SN was a binary variable. Treatment group difference was analyzed using a modified Poisson regression model to account for the variable duration of the Induction Period for each patient. The model included baseline ANC count as a covariate, the stratification factors of ECOG performance status (0 to1 vs. 2) and brain metastases (Yes vs. No), and treatment as a fixed effect. The logarithm transformation of # of Induction cycles was included as an offset variable in the modeling.||||<0.0001
82378887|NCT03041311|164466739|SUPERIORITY|||||||0.0195||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|negative binomial regression|Hochberg-based gatekeeping procedure||||||0.0195
82378888|NCT03041311|164466740|SUPERIORITY|||||||0.1335||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||Treatment group difference was analyzed using a modified Poisson regression model. The model included baseline hemoglobin as a covariate, the stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No) and treatment as a fixed effect. The logarithm transformation of the number of weeks on treatment was included as an offset variable in the model.||||0.1335
82378889|NCT03041311|164466741|SUPERIORITY|||||||0.0686||||||A Hochberg-based gatekeeping procedure was used to control the global familywise error rate across the multiple null hypotheses (for 2 primary and 3 key secondary endpoints) in a strong sense at a 1-sided 0.025 level.|Modified Poisson|Hochberg-based gatekeeping procedure||Treatment group difference was analyzed using a modified Poisson regression model to account for the variable duration of the Induction Period for each patient. The model included baseline absolute neutrophil count as a covariate, the stratification factors of ECOG performance status (0 to 1 versus 2) and brain metastases (Yes versus No), and treatment as a fixed effect. The logarithm transformation of number of Induction cycles was included as an offset variable in the modeling.||||0.0686
82378890|NCT03041311|164466742|SUPERIORITY|For time-to-event variable, the Kaplan-Meier method was used to estimate its within group median value, 25% and 75% percentile values.|Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.218||0.9942|TWO_SIDED|95.0|0.64|1.52||The 2-sided p-value was obtained from the stratified log-rank test to account for the stratification factors.|Log Rank|stratified log-rank test|The HR and its 95% CI were calculated using the Cox proportional hazard regression model with treatment and stratification factors of ECOG performance status (0 to 1 versus 2) and presence of brain metastases (Yes versus No).|||1.52|0.64|0.9942
82378891|NCT02366689|164466823|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.04
82511743|NCT01469065|164716194|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%) at Day 15|93.18|||||TWO_SIDED|90.0|86.17|100.77||||||Test-to-Reference ratio of log-transformed change from baseline and 90% confidence interval (CI) of log-transformed change from baseline at Day 15 were based on adjusted geometric mean. Natural log-transformed change from baseline in FPG was analyzed using mixed effects model with country, treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.77|86.17|
82632668|NCT02442765|164981607|SUPERIORITY||Least Squares Mean Difference|-4.0|||=|0.021|TWO_SIDED|95.0|-7.4|-0.6||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|mixed model repeated measures (MMRM)|||||-0.6|-7.4|=0.021
82632669|NCT02442765|164981607|SUPERIORITY||Least Squares Mean Difference|-0.6|||=|0.731|TWO_SIDED|95.0|-3.9|2.7||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|||||2.7|-3.9|=0.731
82378892|NCT02366689|164466824|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||< 0.001
82378893|NCT02366689|164466825|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82378894|NCT02366689|164466826|SUPERIORITY_OR_OTHER|||||||0.432|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.432
82378895|NCT02366689|164466827|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82378896|NCT02366689|164466828|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82378897|NCT02099786|164466833|SUPERIORITY||Odds Ratio (OR)|2.2||||0.27|TWO_SIDED|95.0|0.55|8.8|||Regression, Logistic|||Null hypothesis: There is no difference in the number of participants with ASHA-significant threshold shifts between treatment arms.||8.8|.55|.27
82378898|NCT02099786|164466833|SUPERIORITY||Odds Ratio (OR)|1.4||||0.67|TWO_SIDED|95.0|0.3|5.9|||Regression, Logistic|||Null hypothesis: There is no difference in the number of participants with CTCAE grade 1 or greater hearing loss between treatment arms.||5.9|.3|.67
82511744|NCT01469065|164716195|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|112.83|||||TWO_SIDED|90.0|99.84|127.5||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||127.50|99.84|
82511745|NCT01469065|164716195|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|102.11|||||TWO_SIDED|90.0|90.78|114.85||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||114.85|90.78|
82511746|NCT01469065|164716195|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|111.04|||||TWO_SIDED|90.0|98.5|125.18||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||125.18|98.50|
82511747|NCT01469065|164716195|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|96.73|||||TWO_SIDED|90.0|85.46|109.48||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in Insulin AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||109.48|85.46|
82511748|NCT01469065|164716196|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|107.13|||||TWO_SIDED|90.0|98.69|116.3||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||116.30|98.69|
82511749|NCT01469065|164716196|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|92.57|||||TWO_SIDED|90.0|85.26|100.5||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||100.50|85.26|
82511750|NCT01469065|164716196|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|96.07|||||TWO_SIDED|90.0|88.51|104.27||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||104.27|88.51|
82511751|NCT01469065|164716196|SUPERIORITY_OR_OTHER||Test-to-Reference Ratio (%)|91.7|||||TWO_SIDED|90.0|84.38|99.65||||||Test-to-Reference ratio and 90% confidence interval (CI) were based on adjusted geometric mean. Natural log-transformed change from baseline in C-peptide AUC(2-6) (Day 14) was analyzed using ANCOVA with country and treatment as fixed effect and log-transformed baseline as covariate. Placebo is the reference; the active drug group is the test.||99.65|84.38|
82511752|NCT04646616|164716212|NON_INFERIORITY|This is a single-group, of outcome measured at baseline and at 3 months. We hypothesized there would be an improvement or sustainability of the protective behaviours.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.28|TWO_SIDED|95.0|-0.12|0.39|||t-test, 2 sided|||This is a single-group study. Selected outcomes were measured at baseline (first interaction with the community popular opinion leader (POL) and 3 months after.||0.39|-0.12|0.28
82511753|NCT04646616|164716213|OTHER|Test of proportions|difference in proportion|-0.007|STANDARD_ERROR_OF_MEAN|0.04||0.85|TWO_SIDED|95.0|-0.08|0.07|||Test of proportions|||Two sample test of proportions, testing whether the proportion of participants who lack health access at baseline and 3 months is equal (null hypothesis)||0.07|-0.08|0.85
82511754|NCT04646616|164716214|OTHER|Test of proportions.|difference in proportion|0.07|STANDARD_ERROR_OF_MEAN|0.58||0.19|TWO_SIDED|95.0|-0.04|0.19|||Test of proportions|||Test of proportions. Testing whether the proportion of participants who had a SAVAME factor at baseline and 3 months is equal (null hypothesis)||0.19|-0.04|0.19
82511755|NCT04646616|164716215|OTHER|Test of proportions.|difference in proportion|0.067|STANDARD_ERROR_OF_MEAN|0.06||0.23|TWO_SIDED|95.0|-0.04|0.18|||Test of proportions|||Test of proportions. Testing whether the proportion of participants who lack access to SAVAME related services at baseline and 3 months is equal (null hypothesis)||0.18|-0.04|0.23
82511756|NCT00835497|164716230|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|86.5||||||90.0|81.8|91.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||91.6|81.8|
82632670|NCT02442765|164981607|SUPERIORITY||Least Squares Mean Difference|-3.5|||=|0.157|TWO_SIDED|95.0|-8.4|1.4||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|||||1.4|-8.4|=0.157
82511757|NCT00835497|164716231|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|94.2|99.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.9|94.2|
82511758|NCT00835497|164716232|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|94.2|99.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.8|94.2|
82511759|NCT00835497|164716233|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|88.9||||||90.0|83.5|94.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||94.6|83.5|
82511760|NCT00835497|164716234|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|92.7||||||90.0|88.4|97.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.1|88.4|
82511761|NCT00835497|164716235|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|93.0||||||90.0|88.8|97.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.5|88.8|
82511762|NCT00094653|164716236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0004|TWO_SIDED|95.0|0.55|0.85|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.85|0.55|0.0004
82511763|NCT00094653|164716237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.0026|TWO_SIDED|95.0|0.51|0.87|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.87|0.51|0.0026
82568904|NCT00230971|164847802|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|1.6||||||95.0|-6.4|9.6|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|||9.6|-6.4|
82568905|NCT00230971|164847803|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|1.8||||0.001||95.0|-8.8|12.5|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|||12.5|-8.8|0.001
82568906|NCT00230971|164847804|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.7||||||95.0|-7.9|13.3|||t-test, 1 sided||Estimates of the difference, CI and hypothesis tests are weighted by using minimum risk weights.|Group comparison of eradication + presumed eradication||13.3|-7.9|
82568907|NCT00230971|164847805|SUPERIORITY_OR_OTHER|||||||0.75|||||||ANOVA|Treatment as a factor||Overall inpatient hospitalization||||0.750
82568908|NCT00230971|164847805|SUPERIORITY_OR_OTHER|||||||0.655|||||||ANOVA|Treatment as a factor||Primary inpatient hospitalization||||0.655
82568909|NCT00230971|164847805|SUPERIORITY_OR_OTHER|||||||0.191|||||||ANOVA|Treatment as a factor||ICU treatment||||0.191
82568910|NCT00230971|164847805|SUPERIORITY_OR_OTHER|||||||0.717|||||||ANOVA|Treatment as a factor||Inpatient hospitalization, non-ICU||||0.717
82568911|NCT04380688|164847814|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.553|||||TWO_SIDED|90.0|0.145|1.952||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.952|0.145|
82568912|NCT04380688|164847822|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|1.314|||||TWO_SIDED|90.0|0.794|2.183||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||2.183|0.794|
82568913|NCT05294328|164847839|SUPERIORITY||Odds Ratio (OR)|34.262|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
82568914|NCT05294328|164847839|SUPERIORITY||Odds Ratio (OR)|73.443|||<|0.0001|TWO_SIDED||||||Generalized Estimating Equation (GEE)|||||||<0.0001
82568915|NCT02056873|164847853|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.05|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||"At 6 months post-surgery the YGTSS scores of each subjects is statistically tested against their baseline scores.~A decrease in this tic severity scale means that the severity of the tics have reduced.~Hence, we performed a superiority test, which statistically verifies if the reduction in the tic severity scale was meaningful."||||0.05
82568916|NCT00092521|164847854|SUPERIORITY_OR_OTHER||Percent relative risk reduction|100.0||||||95.0|95.1|100.0|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter|||100|95.1|
82568917|NCT00092521|164847855|SUPERIORITY_OR_OTHER||Percent relative risk reduction|100.0||||||95.0|94.9|100.0|||||CI based on binomial tail probabilities and not from a dispersion parameter|||100|94.9|
82568918|NCT01878383|164847856|OTHER|Sensitivity is the percent of non-pregnant women positive for shedding HSV by culture method in which GeneXpert test results is positive. Units equals percent non-pregnant women positive.|Sensitivity|100.0|||||TWO_SIDED|95.0|90.8|100.0|||||95% Clopper-Pearson Exact Confidence Interval|||100|90.8|
82568919|NCT01878383|164847857|OTHER|Positive percent agreement is the percent of pregnant women with positive routine PCR results in which GeneXpert test results is positive. Units equal percent of pregnant women positive.|Positive percent agreement|80.0|||||TWO_SIDED|95.0|73.7|86.3|||||95% large sample confidence interval|||86.3|73.7|
82568920|NCT01878383|164847858|OTHER|Negative percent agreement is the percent of pregnant women with negative routine PCR results in which GeneXpert test results is negative. Units equal percent of pregnant women negative.|Negative percent agreement|99.2|||||TWO_SIDED|95.0|99.0|99.5|||||95% large sample confidence interval|||99.5|99|
82568921|NCT00460564|164847896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.83|||<|0.001||95.0|-10.567|-3.093|||t-test, 2 sided|||||-3.093|-10.567|<0.001
82568922|NCT01936324|164847919|OTHER|||||||0.0003|||||||ANCOVA|ANCOVA model with terms of treatment, baseline lesion count, and center.||||||0.0003
82568923|NCT01936324|164847920|OTHER|||||||0.0032|||||||ANCOVA|ANCOVA model with terms of treatment, baseline lesion count, and center||||||0.0032
82568924|NCT01936324|164847921|OTHER|||||||0.007|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study center||||||0.0070
82568925|NCT01990313|164847922|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||||||0.038
82568926|NCT03119688|164847924|NON_INFERIORITY|The non-Inferiority margin is set at 0.25. The upper limit of the 90% CI is less than this and hence NI is met.|Mean Difference (Net)|-0.077||||0.1769|TWO_SIDED|90.0|-0.1707|0.0169||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects; participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis (non-inferiority setting) is that the population mean dryness for Test minus Baxter Sterile Water (negative control) is at least 0.25.||0.0169|-0.1707|0.1769
82568927|NCT03119688|164847924|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.35|||<|0.0001|TWO_SIDED|90.0|0.2565|0.4441||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects;participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.4441|0.2565|<.0001
82568928|NCT03119688|164847924|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.427|||<|0.0001|TWO_SIDED|90.0|0.3333|0.5211||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects; participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.5211|0.3333|<.0001
82378899|NCT02099786|164466834|SUPERIORITY||Odds Ratio (OR)|0.92||||0.88|TWO_SIDED|95.0|0.29|2.9|||Regression, Logistic|||Null hypothesis is no difference in audiology clinic use between treatment arms.||2.9|.29|.88
82511764|NCT00094653|164716237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.7575|TWO_SIDED|95.0|0.83|1.3|||Stratified Log Rank||Cox model for Hazard ratios (HR) and log-rank test p-values were stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.30|0.83|0.7575
82632671|NCT02442765|164981607|SUPERIORITY||Least Squares Mean Difference|-3.6|||=|0.15|TWO_SIDED|95.0|-8.4|1.3||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.3|-8.4|=0.150
82378900|NCT02099786|164466835|NON_INFERIORITY|We require a non-inferiority margin of no more than 1.1 mortality odds among COMP-VA patients relative to Usual Care patients. This means that the upper 95% confidence bound for the fitted odds ratio must be less than 1.1 to reject the null hypothesis that COMP-VA induces extra mortality risk.|Odds Ratio (OR)|1.9|||||ONE_SIDED|||||||||||||
82378901|NCT02099786|164466836|SUPERIORITY|||||||0.72||||||The a priori threshold for statistical significance is .05|t-test, 2 sided|||||||.72
82511765|NCT00094653|164716239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.66|1.0|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.00|0.66|
82378902|NCT03283566|164466838|EQUIVALENCE|Assuming a 20-30% difference in outcome (CP/G quotient) between study arms, which is equivalent to 0.08-0.12 CP/G difference and a 0.07 standard deviation, a sample size of 6 subjects (1:1 randomization) will detect a CP/G difference of at least 0.12, assuming 80% power, with a 0.05 significance level.||||||0.739|||||||ANOVA|||||||0.739
82511766|NCT00094653|164716239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.83|0.50|
82511767|NCT00094653|164716239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.53|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.53|1.01|
82511768|NCT00094653|164716241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.66|1.0|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.00|0.66|
82511769|NCT00094653|164716241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||0.83|0.50|
82511770|NCT00094653|164716241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.53|||||Cox model for Hazard ratios (HR) were stratified by M-stage at randomization (M0, M1a, M1b vs. M1c) and prior treatment with IL-2 (Yes vs. No).|||1.53|1.01|
82511771|NCT00094653|164716243|SUPERIORITY_OR_OTHER|||||||0.0433||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0433
82378903|NCT03718832|164466840|SUPERIORITY||Mean Difference (Net)|-0.0333487|STANDARD_ERROR_OF_MEAN|0.1943638||0.8638688|TWO_SIDED|95.0|-0.415628|0.3489306||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.3489306|-0.415628|0.8638688
82378904|NCT03718832|164466840|SUPERIORITY||Mean Difference (Net)|-0.0066385|STANDARD_ERROR_OF_MEAN|0.1853917||0.9714571|TWO_SIDED|95.0|-0.371329|0.358052||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.358052|-0.371329|0.9714571
82378905|NCT03718832|164466841|SUPERIORITY||Mean Difference (Net)|0.1409446|STANDARD_ERROR_OF_MEAN|0.2106711||0.5039565|TWO_SIDED|95.0|-0.2735162|0.5554053||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.5554053|-0.2735162|0.5039565
82511772|NCT00094653|164716243|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0012
82378906|NCT03718832|164466841|SUPERIORITY||Mean Difference (Net)|0.1213915|STANDARD_ERROR_OF_MEAN|0.2126328||0.5684854|TWO_SIDED|95.0|-0.2970052|0.5397882||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.5397882|-0.2970052|0.5684854
82378907|NCT03718832|164466842|SUPERIORITY||Mean Difference (Net)|-13.26835|STANDARD_ERROR_OF_MEAN|10.90353||0.2247426|TWO_SIDED|95.0|-34.73804|8.201347||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||8.201347|-34.73804|0.2247426
82378908|NCT03718832|164466842|SUPERIORITY||Mean Difference (Net)|-12.20164|STANDARD_ERROR_OF_MEAN|11.25555||0.2794015|TWO_SIDED|95.0|-34.37119|9.9679||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||9.9679|-34.37119|0.2794015
82378909|NCT03718832|164466842|SUPERIORITY||Mean Difference (Net)|13.12548|STANDARD_ERROR_OF_MEAN|9.550462||0.1708328|TWO_SIDED|95.0|-5.703702|31.95466||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||31.95466|-5.703702|0.1708328
82378910|NCT03718832|164466842|SUPERIORITY||Mean Difference (Net)|11.47577|STANDARD_ERROR_OF_MEAN|10.59479||0.2801138|TWO_SIDED|95.0|-9.422762|32.3743||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||32.3743|-9.422762|0.2801138
82378911|NCT03718832|164466843|SUPERIORITY||Mean Difference (Net)|-8.135585|STANDARD_ERROR_OF_MEAN|6.325031||0.1991028|TWO_SIDED|95.0|-20.57023|4.299061||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||4.299061|-20.57023|0.1991028
82378912|NCT03718832|164466843|SUPERIORITY||Mean Difference (Net)|3.493798|STANDARD_ERROR_OF_MEAN|1.761916||0.0480884|TWO_SIDED|95.0|0.0295297|6.958066||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||6.958066|0.0295297|0.0480884
82378913|NCT03718832|164466843|SUPERIORITY||Mean Difference (Net)|-9.681804|STANDARD_ERROR_OF_MEAN|6.34136||0.1276817|TWO_SIDED|95.0|-22.15188|2.788269||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.788269|-22.15188|0.1276817
82378914|NCT03718832|164466843|SUPERIORITY||Mean Difference (Net)|1.658257|STANDARD_ERROR_OF_MEAN|1.706497||0.3318554|TWO_SIDED|95.0|-1.698022|5.014535||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||5.014535|-1.698022|0.3318554
82378915|NCT03718832|164466844|SUPERIORITY||Mean Difference (Net)|-0.8749266|STANDARD_ERROR_OF_MEAN|0.9355095||0.3502313|TWO_SIDED|95.0|-2.714084|0.9642311||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.9642311|-2.714084|0.3502313
82378916|NCT03718832|164466844|SUPERIORITY||Mean Difference (Net)|0.5608222|STANDARD_ERROR_OF_MEAN|0.2708671||0.0390797|TWO_SIDED|95.0|0.0282451|1.093399||Adjusted mean difference for full controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.093399|0.0282451|0.0390797
82511773|NCT00094653|164716243|SUPERIORITY_OR_OTHER|||||||0.0402||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0402
82378917|NCT03718832|164466844|SUPERIORITY||Mean Difference (Net)|-1.450197|STANDARD_ERROR_OF_MEAN|0.9508997||0.1281032|TWO_SIDED|95.0|-3.320109|0.419716||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.419716|-3.320109|0.1281032
82378918|NCT03718832|164466844|SUPERIORITY||Mean Difference (Net)|0.2794625|STANDARD_ERROR_OF_MEAN|0.2717457||0.3044732|TWO_SIDED|95.0|-0.2549974|0.8139224||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.8139224|-0.2549974|0.3044732
82378919|NCT03718832|164466845|SUPERIORITY||Mean Difference (Net)|9.768353|STANDARD_ERROR_OF_MEAN|5.933945||0.1007463|TWO_SIDED|95.0|-1.907847|21.44455||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||21.44455|-1.907847|0.1007463
82378920|NCT03718832|164466845|SUPERIORITY||Mean Difference (Net)|4.472004|STANDARD_ERROR_OF_MEAN|5.150772||0.3859868|TWO_SIDED|95.0|-5.66534|14.60935||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||14.60935|-5.66534|0.3859868
82378921|NCT03718832|164466845|SUPERIORITY||Mean Difference (Net)|-0.5461143|STANDARD_ERROR_OF_MEAN|6.440905||0.9324908|TWO_SIDED|95.0|-13.22545|12.13323||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Unadjusted mean difference, 12 months after trial enrollment||12.13323|-13.22545|0.9324908
82378922|NCT03718832|164466845|SUPERIORITY||Mean Difference (Net)|-2.752831|STANDARD_ERROR_OF_MEAN|5.754947||0.6328075|TWO_SIDED|95.0|-14.08487|8.579205||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||8.579205|-14.08487|0.6328075
82378923|NCT03718832|164466846|SUPERIORITY||Mean Difference (Net)|8.352141|STANDARD_ERROR_OF_MEAN|4.663846||0.0743062|TWO_SIDED|95.0|-0.8250086|17.52929||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||17.52929|-0.8250086|0.0743062
82378924|NCT03718832|164466846|SUPERIORITY||Mean Difference (Net)|5.971188|STANDARD_ERROR_OF_MEAN|3.902349||0.1270654|TWO_SIDED|95.0|-1.709219|13.65159||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||13.65159|-1.709219|0.1270654
82378925|NCT03718832|164466846|SUPERIORITY||Mean Difference (Net)|2.637485|STANDARD_ERROR_OF_MEAN|4.443227||0.553277|TWO_SIDED|95.0|-6.110146|11.38512||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||11.38512|-6.110146|0.553277
82511774|NCT00094653|164716246|SUPERIORITY_OR_OTHER|||||||0.0179||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0179
82632672|NCT02442765|164981607|SUPERIORITY||MMRM weighted z-statistic|-2.65|||=|0.008|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|Sequential Parallel Comparison Design (SPCD) was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||||=0.008
82632673|NCT02442765|164981607|SUPERIORITY||MMRM weighted z-statistic|-1.26|||=|0.208|TWO_SIDED|||||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|SPCD was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||||=0.208
82632674|NCT02442765|164981608|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.331|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.331
82511775|NCT00094653|164716246|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0002
82632675|NCT02442765|164981608|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.4|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.400
82632676|NCT02442765|164981608|SUPERIORITY||Least Squares Mean Difference|-0.6||||0.014|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||||-0.1|-1.1|0.014
82632677|NCT02442765|164981608|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.145|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.145
82632678|NCT02442765|164981608|SUPERIORITY||SPCD OLS weighted z-statistic|-2.51||||0.012|TWO_SIDED||||||ANCOVA||OLS = ordinary least squares|||||0.012
82632679|NCT02442765|164981608|SUPERIORITY||SPCD OLS weighted z-statistic|-1.66||||0.097|TWO_SIDED||||||ANCOVA|||||||0.097
82632680|NCT02442765|164981609|SUPERIORITY||Least Squares Mean Difference|-0.5|||=|0.182|TWO_SIDED|95.0|-1.3|0.2||MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use. Unstructured variance-covariance was used.|MMRM|SPCD was used with weight = 0.6 for Stage 1 and 0.4 for Stage 2.||||0.2|-1.3|=0.182
82632681|NCT02442765|164981609|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.39|TWO_SIDED|95.0|-1.1|0.4||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.4|-1.1|=0.390
82632682|NCT02442765|164981609|SUPERIORITY||Least Squares Mean Difference|0.5|||=|0.462|TWO_SIDED|95.0|-0.8|1.7||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.7|-0.8|=0.462
82632683|NCT02442765|164981609|SUPERIORITY||Least Squares Mean Difference|0.4|||=|0.528|TWO_SIDED|95.0|-0.8|1.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.6|-0.8|=0.528
82632684|NCT02442765|164981609|SUPERIORITY||MMRM weighted z-statistic|-0.39|||=|0.695|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, Baseline (BL), BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|ANCOVA|||||||=0.695
82632685|NCT02442765|164981609|SUPERIORITY||MMRM weighted z-statistic|-0.12|||=|0.904|TWO_SIDED|||||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, Baseline (BL), BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|ANCOVA|||||||=0.904
82511776|NCT00094653|164716246|SUPERIORITY_OR_OTHER|||||||0.0429||95.0||||P-values were computed using CMH test stratified by baseline M-stage at randomization (M0, M1a, M1b vs. M1c) and prior IL-2 treatment (Yes vs. No).|Cochran-Mantel-Haenszel|||||||0.0429
82511777|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.2805|TWO_SIDED|95.0|-2.5|8.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||8.6|-2.5|0.2805
82632686|NCT02442765|164981610|SUPERIORITY||Least Squares Mean Difference|-1.2|||=|0.247|TWO_SIDED|95.0|-3.2|0.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.8|-3.2|=0.247
82632687|NCT02442765|164981610|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.721|TWO_SIDED|95.0|-2.3|1.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.6|-2.3|=0.721
82632688|NCT02442765|164981610|SUPERIORITY||Least Squares Mean Difference|-1.2|||=|0.419|TWO_SIDED|95.0|-4.3|1.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.8|-4.3|=0.419
82632689|NCT02442765|164981610|SUPERIORITY||Least Squares Mean Difference|0.9|||=|0.534|TWO_SIDED|95.0|-2.0|3.9||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||3.9|-2.0|=0.534
82378926|NCT03718832|164466846|SUPERIORITY||Mean Difference (Net)|2.53149|STANDARD_ERROR_OF_MEAN|3.925307||0.519562|TWO_SIDED|95.0|-5.198658|10.26164||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||10.26164|-5.198658|0.519562
82378927|NCT03718832|164466847|SUPERIORITY||Mean Difference (Net)|-0.555117|STANDARD_ERROR_OF_MEAN|1.427417||0.6976216|TWO_SIDED|95.0|-3.363839|2.253605||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.253605|-3.363839|0.6976216
82378928|NCT03718832|164466847|SUPERIORITY||Mean Difference (Net)|-0.4977997|STANDARD_ERROR_OF_MEAN|1.041102||0.6329035|TWO_SIDED|95.0|-2.546815|1.551216||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.551216|-2.546815|0.6329035
82378929|NCT03718832|164466847|SUPERIORITY||Mean Difference (Net)|-1.386111|STANDARD_ERROR_OF_MEAN|1.812939||0.445181|TWO_SIDED|95.0|-4.954999|2.182777||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.182777|-4.954999|0.445181
82378930|NCT03718832|164466847|SUPERIORITY||Mean Difference (Net)|-1.101914|STANDARD_ERROR_OF_MEAN|1.860687||0.5542241|TWO_SIDED|95.0|-4.765783|2.561956||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||2.561956|-4.765783|0.5542241
82378931|NCT03718832|164466848|SUPERIORITY||Mean Difference (Net)|22.55812|STANDARD_ERROR_OF_MEAN|17.74244||0.2045348|TWO_SIDED|95.0|-12.35316|57.4694||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||57.4694|-12.35316|0.2045348
82378932|NCT03718832|164466848|SUPERIORITY||Mean Difference (Net)|13.49781|STANDARD_ERROR_OF_MEAN|14.95579||0.3675252|TWO_SIDED|95.0|-15.93658|42.9322||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||42.9322|-15.93658|0.3675252
82378933|NCT03718832|164466848|SUPERIORITY||Mean Difference (Net)|-11.35256|STANDARD_ERROR_OF_MEAN|26.69115||0.6709307|TWO_SIDED|95.0|-63.8992|41.19407||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||41.19407|-63.8992|0.6709307
82378934|NCT03718832|164466848|SUPERIORITY||Mean Difference (Net)|-8.912496|STANDARD_ERROR_OF_MEAN|21.34891||0.6766844|TWO_SIDED|95.0|-50.95358|33.12859||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||33.12859|-50.95358|0.6766844
82378935|NCT03718832|164466849|SUPERIORITY||Mean Difference (Net)|-1.870464|STANDARD_ERROR_OF_MEAN|2.024497||0.356123|TWO_SIDED|95.0|-5.851219|2.110291||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.110291|-5.851219|0.356123
82378936|NCT03718832|164466849|SUPERIORITY||Mean Difference (Net)|-0.8636408|STANDARD_ERROR_OF_MEAN|1.941141||0.6566494|TWO_SIDED|95.0|-4.681041|2.95376||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2.95376|-4.681041|0.6566494
82378937|NCT03718832|164466849|SUPERIORITY||Mean Difference (Net)|-3.772051|STANDARD_ERROR_OF_MEAN|1.905125||0.0484944|TWO_SIDED|95.0|-7.519021|-0.0250809||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||-0.0250809|-7.519021|0.0484944
82378938|NCT03718832|164466849|SUPERIORITY||Mean Difference (Net)|-2.167034|STANDARD_ERROR_OF_MEAN|1.821244||0.234947|TWO_SIDED|95.0|-5.749627|1.415558||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1.415558|-5.749627|0.234947
82378939|NCT03718832|164466850|SUPERIORITY||Mean Difference (Net)|-0.5561156|STANDARD_ERROR_OF_MEAN|1.086759||0.6091477|TWO_SIDED|95.0|-2.693002|1.58077||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.58077|-2.693002|0.6091477
82378940|NCT03718832|164466850|SUPERIORITY||Mean Difference (Net)|-0.3787962|STANDARD_ERROR_OF_MEAN|1.032547||0.713942|TWO_SIDED|95.0|-2.409379|1.651786||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.651786|-2.409379|0.713942
82378941|NCT03718832|164466850|SUPERIORITY||Mean Difference (Net)|0.4989275|STANDARD_ERROR_OF_MEAN|1.053869||0.6362064|TWO_SIDED|95.0|-1.573807|2.571662||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||2.571662|-1.573807|0.6362064
82632690|NCT02442765|164981610|SUPERIORITY||MMRM weighted z-statistic|-1.4|||=|0.163|TWO_SIDED||||||ANCOVA|||||||=0.163
82632691|NCT02442765|164981610|SUPERIORITY||MMRM weighted z-statistic|0.19|||=|0.851|TWO_SIDED||||||ANCOVA|||||||=0.851
82632692|NCT02442765|164981611|SUPERIORITY||Least Squares Mean Difference|-0.6|||=|0.146|TWO_SIDED|95.0|-1.4|0.2||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.2|-1.4|=0.146
82632693|NCT02442765|164981611|SUPERIORITY||Least Squares Mean Difference|0.3|||=|0.399|TWO_SIDED|95.0|-0.4|1.1||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||1.1|-0.4|=0.399
82632694|NCT02442765|164981611|SUPERIORITY||Least Squares Mean Difference|0.7|||=|0.283|TWO_SIDED|95.0|-0.6|2.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.0|-0.6|=0.283
82632695|NCT02442765|164981611|SUPERIORITY||Least Squares Mean Difference|1.2|||=|0.065|TWO_SIDED|95.0|-0.1|2.5||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.5|-0.1|=0.065
82499066|NCT03978520|164689012|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.547|=|0.754|TWO_SIDED|95.0|-0.9|1.25|||Mixed-effect model repeat measurement|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The Mixed-Effect Model Repeat Measurement model included fixed effects of Tx, visit and Tx-by-visit interaction, stratification factors (Baseline corticosteroid dose \> 10 mg prednisone-equivalent (≤ 10 mg or \>10 mg), screening SLEDAI-2K (\<10 or ≥ 10), baseline interferon score (high/low/NA, baseline immunosuppressant (yes/no)), and continuous fixed covariates of measurements at Baseline."||1.25|-0.90|=0.754
82632696|NCT02442765|164981611|SUPERIORITY||MMRM weighted z-statistic|-0.22|||=|0.829|TWO_SIDED||||||ANCOVA|||||||=0.829
82632697|NCT02442765|164981611|SUPERIORITY||MMRM weighted z-statistic|1.94|||=|0.052|TWO_SIDED||||||ANCOVA|||||||=0.052
82632698|NCT02442765|164981612|SUPERIORITY||Least Squares Mean Difference|-0.7|||=|0.53|TWO_SIDED|95.0|-2.7|1.4|||ANCOVA|||||1.4|-2.7|=0.530
82632699|NCT02442765|164981612|SUPERIORITY||Least Squares Mean Difference|-1.0|||=|0.326|TWO_SIDED|95.0|-3.1|1.0|||ANCOVA|||||1.0|-3.1|=0.326
82632700|NCT02442765|164981612|SUPERIORITY||Least Squares Mean Difference|2.5|||=|0.135|TWO_SIDED|95.0|-0.8|5.9|||ANCOVA|||||5.9|-0.8|=0.135
82632701|NCT02442765|164981612|SUPERIORITY||Least Squares Mean Difference|0.2|||=|0.895|TWO_SIDED|95.0|-3.1|3.5|||ANCOVA|||||3.5|-3.1|=0.895
82632702|NCT02442765|164981612|SUPERIORITY||SPCD OLS weighted Z-statistic|0.67|||=|0.502|TWO_SIDED||||||ANCOVA|||||||=0.502
82632703|NCT02442765|164981612|SUPERIORITY||SPCD OLS weighted Z-statistic|-0.58|||=|0.564|TWO_SIDED||||||ANCOVA|||||||=0.564
82378942|NCT03718832|164466850|SUPERIORITY||Mean Difference (Net)|1.146286|STANDARD_ERROR_OF_MEAN|1.048105||0.2748884|TWO_SIDED|95.0|-0.9154561|3.208027||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||3.208027|-0.9154561|0.2748884
82442183|NCT00085254|164592860|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39||||0.0001|TWO_SIDED|95.0|0.3|0.5||adjusted for age: p=.0003, kps: p=.004; and surgical procedure: p=.003|Log Rank|||Primary endpoint death - defined from histological diagnosis to death. we assume pt in the study will have overall failure rate of 0.56 per person-year of f/up, a 30% reduction compared to hazard rate of 0.8 per person-year in historical NABTT database. Expected hazard ratio is 0.7 and cohort will produce 63 events among total of 94 pt planned f/up. One-sided test, have 95% power to detect observed ratio of 0.7 at alpha level of 0.1, or we have 88% power at alpha of 0.5 statistical significant||0.5|0.3|0.0001
82511778|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.63|TWO_SIDED|95.0|-5.0|8.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||8.2|-5.0|0.6300
82632704|NCT02442765|164981613|SUPERIORITY||Least Squares Mean Difference|-0.8|||=|0.061|TWO_SIDED|95.0|-1.6|0.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.0|-1.6|=0.061
82632705|NCT02442765|164981613|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.4|TWO_SIDED|95.0|-1.1|0.5||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.5|-1.1|=0.400
82632706|NCT02442765|164981613|SUPERIORITY||Least Squares Mean Difference|-1.1|||=|0.115|TWO_SIDED|95.0|-2.4|0.3||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.3|-2.4|=0.115
82632707|NCT02442765|164981613|SUPERIORITY||Least Squares Mean Difference|-0.8|||=|0.264|TWO_SIDED|95.0|-2.1|0.6||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||0.6|-2.1|=0.264
82632708|NCT02442765|164981613|SUPERIORITY||MMRM weighted z-statistic|-2.44|||=|0.015|TWO_SIDED||||||ANCOVA|||||||=0.015
82632709|NCT02442765|164981613|SUPERIORITY||MMRM weighted z-statistic|-1.4|||=|0.163|TWO_SIDED||||||ANCOVA|||||||=0.163
82632710|NCT02442765|164981614|SUPERIORITY||Least Squares Mean Difference|-3.9|||=|0.05|TWO_SIDED|95.0|-7.8|0.0||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||-0.0|-7.8|=0.050
82632711|NCT02442765|164981614|SUPERIORITY||Least Squares Mean Difference|-1.6|||=|0.412|TWO_SIDED|95.0|-5.4|2.2||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||2.2|-5.4|=0.412
82632712|NCT02442765|164981614|SUPERIORITY||Least Squares Mean Difference|-1.0|||=|0.775|TWO_SIDED|95.0|-7.8|5.8||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||5.8|-7.8|=0.775
82632713|NCT02442765|164981614|SUPERIORITY||Least Squares Mean Difference|3.3|||=|0.333|TWO_SIDED|95.0|-3.5|10.1||"MMRMs include fixed effects of treatment, visit, treatment-by-visit, BL, BL-by-visit, and in the Stage 1 model, BL NPI AA, risk assessment for falls, BL concomitant antipsychotic medication use.~Unstructured variance-covariance was used."|MMRM|||||10.1|-3.5|=0.333
82632714|NCT02442765|164981614|SUPERIORITY||MMRM weighted z-statistic|-1.5|||=|0.133|TWO_SIDED||||||ANCOVA|||||||=0.133
82632715|NCT02442765|164981614|SUPERIORITY||MMRM weighted z-statistic|0.22|||=|0.829|TWO_SIDED||||||ANCOVA|||||||=0.829
82632716|NCT02442765|164981615|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.118|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|=0.118
82632717|NCT02442765|164981615|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.191|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|=0.191
82632718|NCT02442765|164981615|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.225|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.225
82632719|NCT02442765|164981615|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.227|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.227
82632720|NCT02442765|164981615|SUPERIORITY||SPCD OLS weighted z-statistic|-1.97|||=|0.049|TWO_SIDED||||||ANCOVA|||||||=0.049
82632721|NCT02442765|164981615|SUPERIORITY||SPCD OLS weighted z-statistic|-1.78|||=|0.075|TWO_SIDED||||||ANCOVA|||||||=0.075
82632722|NCT02442765|164981616|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.364|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|=0.364
82632723|NCT02442765|164981616|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.427|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|=0.427
82632724|NCT02442765|164981616|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.098|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|=0.098
82632725|NCT02442765|164981616|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.168|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|=0.168
82632726|NCT02442765|164981616|SUPERIORITY||SPCD OLS weighted z-statistic|-1.86|||=|0.063|TWO_SIDED||||||ANCOVA|||||||=0.063
82632727|NCT02442765|164981616|SUPERIORITY||SPCD OLS weighted z-statistic|-1.57|||=|0.115|TWO_SIDED||||||ANCOVA|||||||=0.115
82632728|NCT02442765|164981617|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.014|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|=0.014
82632729|NCT02442765|164981617|SUPERIORITY||Least Squares Mean Difference|-0.2|||=|0.111|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.111
82632730|NCT02442765|164981617|SUPERIORITY||Least Squares Mean Difference|-0.5|||=|0.062|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||||0.0|-1.1|=0.062
82632731|NCT02442765|164981617|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.305|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|=0.305
82632732|NCT02442765|164981617|SUPERIORITY||SPCD OLS weighted z-statistic|-3.01|||=|0.003|TWO_SIDED||||||ANCOVA|||||||=0.003
82632733|NCT02442765|164981617|SUPERIORITY||SPCD OLS weighted z-statistic|-1.79|||=|0.073|TWO_SIDED||||||ANCOVA|||||||=0.073
82511779|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.6026|TWO_SIDED|95.0|-3.9|6.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Global quality of life change from baseline||6.8|-3.9|0.6026
82511780|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.1219|TWO_SIDED|95.0|-1.1|8.9|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||8.9|-1.1|0.1219
82511781|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0||||0.0978|TWO_SIDED|95.0|-0.9|11.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||11.0|-0.9|0.0978
82511782|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.659|TWO_SIDED|95.0|-6.0|3.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Physical change from baseline||3.8|-6.0|0.6590
82511783|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.248|TWO_SIDED|95.0|-3.0|11.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||11.7|-3.0|0.2480
82632734|NCT02442765|164981618|SUPERIORITY||Least Squares Mean Difference|0.1|||=|0.909|TWO_SIDED|95.0|-2.2|2.5|||ANCOVA|||||2.5|-2.2|=0.909
82632735|NCT02442765|164981618|SUPERIORITY||Least Squares Mean Difference|1.4|||=|0.226|TWO_SIDED|95.0|-0.9|3.8|||ANCOVA|||||3.8|-0.9|=0.226
82632736|NCT02442765|164981618|SUPERIORITY||Least Squares Mean Difference|2.1|||=|0.405|TWO_SIDED|95.0|-2.9|7.1|||ANCOVA|||||7.1|-2.9|=0.405
82632737|NCT02442765|164981618|SUPERIORITY||Least Squares Mean Difference|-0.9|||=|0.714|TWO_SIDED|95.0|-5.8|4.0|||ANCOVA|||||4.0|-5.8|=0.714
82632738|NCT02442765|164981618|SUPERIORITY||SPCD OLS weighted z-statistic|0.75|||=|0.456|TWO_SIDED||||||ANCOVA|||||||=0.456
82632739|NCT02442765|164981618|SUPERIORITY||SPCD OLS weighted z-statistic|0.42|||=|0.678|TWO_SIDED||||||ANCOVA|||||||=0.678
82632740|NCT02442765|164981619|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.278|TWO_SIDED|95.0|-1.1|0.3|||ANCOVA|||||0.3|-1.1|=0.278
82511784|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.4742|TWO_SIDED|95.0|-5.6|12.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||12.0|-5.6|0.4742
82632741|NCT02442765|164981619|SUPERIORITY||Least Squares Mean Difference|-0.1|||=|0.817|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|=0.817
82632742|NCT02442765|164981619|SUPERIORITY||Least Squares Mean Difference|-0.4|||=|0.5|TWO_SIDED|95.0|-1.4|0.7|||ANCOVA|||||0.7|-1.4|=0.500
82632743|NCT02442765|164981619|SUPERIORITY||Least Squares Mean Difference|0.1|||=|0.795|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||||1.2|-0.9|=0.795
82632744|NCT02442765|164981619|SUPERIORITY||SPCD OLS weighted z-statistic|-1.25|||=|0.213|TWO_SIDED||||||ANCOVA|||||||=0.213
82632745|NCT02442765|164981619|SUPERIORITY||SPCD OLS weighted z-statistic|0.02|||=|0.985|TWO_SIDED||||||ANCOVA|||||||=0.985
82632746|NCT02442765|164981621|SUPERIORITY||Least Squares Mean Difference|-1.6|||=|0.018|TWO_SIDED|95.0|-2.9|-0.3|||ANCOVA|||||-0.3|-2.9|=0.018
82632747|NCT02442765|164981621|SUPERIORITY||Least Squares Mean Difference|0.0|||=|0.956|TWO_SIDED|95.0|-1.3|1.3|||ANCOVA|||||1.3|-1.3|=0.956
82632748|NCT02442765|164981621|SUPERIORITY||Least Squares Mean Difference|1.1|||=|0.451|TWO_SIDED|95.0|-1.8|4.0|||ANCOVA|||||4.0|-1.8|=0.451
82632749|NCT02442765|164981621|SUPERIORITY||Least Squares Mean Difference|0.9|||=|0.519|TWO_SIDED|95.0|-1.9|3.7|||ANCOVA|||||3.7|-1.9|=0.519
82632750|NCT02442765|164981621|SUPERIORITY||SPCD OLS weighted z-statistic|-0.72|||=|0.471|TWO_SIDED||||||ANCOVA|||||||=0.471
82632751|NCT02442765|164981621|SUPERIORITY||SPCD OLS weighted z-statistic|0.5|||=|0.618|TWO_SIDED||||||ANCOVA|||||||=0.618
82632752|NCT03442595|164981730|OTHER|test of difference in change of A1C between the two groups|||||<|0.001|||||||t-test, 2 sided|||The study was powered to detect a difference of 0.5% in the change in A1C with SD = 2 with 80\& at alopha = 0.;05 with a sample size of 128 in each group (paired t-test). The study reaches 100% power to detect this observed difference with an alpha level of 0.01.||||<0.001
82632753|NCT00779116|164981746|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Statistical tests were performed atthe significance level of 5%, without multiplicity adjustment.|Mainland-Gart Test|The p-value was derived from Mainland-Gart Test applied to a 2 (treatment sequence) by 2 (preferred period) contingency table.||The Mainland-Gart test was applied to the preference rates in the subjects who showed a preference, to assess the difference in preference rates between RediTab and Zyrtec.||||<0.0001
82632754|NCT00170846|164981775|SUPERIORITY_OR_OTHER||Difference in LS means|1.1241||||0.6332|TWO_SIDED|95.0|-3.5077|5.7559|||ANCOVA|||||5.7559|-3.5077|0.6332
82632755|NCT00170846|164981775|SUPERIORITY_OR_OTHER||Difference in LS means|0.5933||||0.7943|TWO_SIDED|95.0|-3.8815|5.0682|||ANCOVA|||||5.0682|-3.8815|0.7943
82632756|NCT01714336|164981868|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Regression, Logistic|||||||0.75
82632757|NCT01756833|164981872|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.035||0.71|TWO_SIDED|95.0|-0.07|0.07||Two prespecified interim analyses for efficacy performed when 1/3 \& 2/3 of primary outcome available, significance level, 1-sided, alpha=.0005. Final analysis 1-sided, alpha=.024. Futility analysis performed when \~2/3 primary outcome was available.|ANCOVA on normal scores|||"Null hypothesis: normal score of MTD at follow-up adjusted for baseline and gender in doxycycline assigned patients - normal score of MTD at follow-up adjusted for baseline and gender in placebo assigned patients = 0.~Sample size: The criterion (alpha) set for statistical significance was 1-sided .025; use of this level means that the inference from the test result will be the same as the inference from 2-sided testing at the .05 significance level."|For the primary analysis, diameters at baseline were ranked from smallest to largest (ranks 1-254). At the 2-year follow-up, ranks 1 through 225 were assigned to the diameters of surviving patients with no aneurysm repair (with missing values estimated by multiple imputation), ranks 226 through 247 were assigned to surviving patients who underwent aneurysm repair (in order of longest to shortest time from randomization to repair), and ranks 248 through 254 were assigned to patients who died (in order of longest to shortest time from randomization to death). Each rank was converted to a normal score corresponding to the value on the standard normal curve (z score) of its percentile among all 254 ranks. The primary analysis was based on linear regression of the change in normal scores from baseline to 2 years. Independent variables were baseline normal score, sex, and a dichotomous variable for the randomly assigned treatment group (0 for placebo, 1 for doxycycline).|0.07|-0.07|0.71
82632758|NCT01523613|164981880|SUPERIORITY|||||||0.262|||||||Fisher Exact|||||||0.262
82632759|NCT01523613|164981881|SUPERIORITY|||||||0.523|||||||Fisher Exact|||||||0.523
82632760|NCT01523613|164981882|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.100
82632761|NCT00808132|164981884|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|1.51|||<|0.001|TWO_SIDED|95.0|0.822|2.201|||ANCOVA|||Analysis of covariance (ANCOVA) model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.201|0.822|<0.001
82632762|NCT00808132|164981884|SUPERIORITY_OR_OTHER||LS Mean Difference|1.87|||<|0.001|TWO_SIDED|95.0|1.209|2.533|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.533|1.209|<0.001
82632763|NCT00808132|164981885|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.017|TWO_SIDED|95.0|0.139|1.47|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.470|0.139|0.017
82632764|NCT00808132|164981885|SUPERIORITY_OR_OTHER||LS Mean Difference|1.19|||<|0.001|TWO_SIDED|95.0|0.556|1.83|||ANCOVA|||ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.830|0.556|<0.001
82632765|NCT00808132|164981886|SUPERIORITY_OR_OTHER||LS Mean Difference|1.32|||<|0.001|TWO_SIDED|95.0|0.901|1.742|||ANCOVA|||Month 6: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.742|0.901|<0.001
82632766|NCT00808132|164981886|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21|||<|0.001|TWO_SIDED|95.0|0.756|1.671|||ANCOVA|||Month 12: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.671|0.756|<0.001
82632767|NCT00808132|164981886|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|1.152|1.962|||ANCOVA|||Month 6: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||1.962|1.152|<0.001
82632768|NCT00808132|164981886|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|1.164|2.044|||ANCOVA|||Month 12: ANCOVA model was used with treatment and region as main effects and baseline BMD and years since menopause as covariates.||2.044|1.164|<0.001
82632769|NCT00808132|164981887|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Fisher Exact|||||||0.138
82632770|NCT00808132|164981887|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82632771|NCT00808132|164981887|SUPERIORITY_OR_OTHER|||||||0.765|TWO_SIDED||||||Fisher Exact|||||||0.765
82632772|NCT00808132|164981887|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82632773|NCT00808132|164981887|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82632774|NCT00808132|164981888|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.832|TWO_SIDED|95.0|-0.632|0.509|||ANCOVA|||ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.509|-0.632|0.832
82632775|NCT00808132|164981888|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.651|TWO_SIDED|95.0|-0.696|0.436|||ANCOVA|||ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.436|-0.696|0.651
82632776|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632777|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0074|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0074
82632778|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632779|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632780|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632781|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632782|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632783|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82511785|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.7597|TWO_SIDED|95.0|-6.1|8.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Role change, change from baseline||8.3|-6.1|0.7597
82511786|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.9119|TWO_SIDED|95.0|-4.7|5.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||5.2|-4.7|0.9119
82511787|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.7616|TWO_SIDED|95.0|-6.9|5.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||5.0|-6.9|0.7616
82511788|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.6266|TWO_SIDED|95.0|-3.6|6.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Cognitive change from baseline||6.0|-3.6|0.6266
82632784|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82378943|NCT03718832|164466851|SUPERIORITY||Mean Difference (Net)|0.3232407|STANDARD_ERROR_OF_MEAN|0.3695066||0.3823224|TWO_SIDED|95.0|-0.4036366|1.050118||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.050118|-0.4036366|0.3823224
82511789|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9984|TWO_SIDED|95.0|-4.8|4.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||4.8|-4.8|0.9984
82378944|NCT03718832|164466851|SUPERIORITY||Mean Difference (Net)|0.2619965|STANDARD_ERROR_OF_MEAN|0.3729922||0.4829339|TWO_SIDED|95.0|-0.4718566|0.9958495||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.9958495|-0.4718566|0.4829339
82442184|NCT00844805|164592868|SUPERIORITY_OR_OTHER||Difference in Percentages|14.9|||=|0.0884|TWO_SIDED|95.0|-1.7|31.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||31.5|-1.7|=0.0884
82511790|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.4873|TWO_SIDED|95.0|-7.8|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||3.7|-7.8|0.4873
82511791|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.3938|TWO_SIDED|95.0|-2.7|6.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Emotional change from baseline||6.7|-2.7|0.3938
82511792|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.6695|TWO_SIDED|95.0|-8.1|5.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||5.2|-8.1|0.6695
82511793|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.4041|TWO_SIDED|95.0|-11.3|4.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||4.6|-11.3|0.4041
82511794|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.5538|TWO_SIDED|95.0|-4.5|8.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Social change from baseline||8.3|-4.5|0.5538
82511795|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.2259|TWO_SIDED|95.0|-10.3|2.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||2.4|-10.3|0.2259
82511796|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.6168|TWO_SIDED|95.0|-9.6|5.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||5.7|-9.6|0.6168
82511797|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.5329|TWO_SIDED|95.0|-8.2|4.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Fatigue change from baseline||4.3|-8.2|0.5329
82511798|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.9397|TWO_SIDED|95.0|-4.7|5.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||5.0|-4.7|0.9397
82511799|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.6716|TWO_SIDED|95.0|-7.1|4.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||4.6|-7.1|0.6716
82511800|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.5497|TWO_SIDED|95.0|-3.3|6.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Nausea and Vomiting change from baseline||6.2|-3.3|0.5497
82632785|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0016
82632786|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632787|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Osteocalcin: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632788|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632789|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.1058|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.1058
82632790|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632791|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0024
82632792|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632793|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632794|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632795|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632796|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632797|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0012
82632798|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632799|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||C-Telopeptide: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632800|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632801|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0029
82442185|NCT00844805|164592869|SUPERIORITY_OR_OTHER||Difference in Percentages|21.7|||=|0.0013|TWO_SIDED|95.0|11.0|32.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||32.5|11.0|=0.0013
82442186|NCT00844805|164592870|SUPERIORITY_OR_OTHER||Difference in Percentages|18.1|||=|0.0004|TWO_SIDED|95.0|10.7|25.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||25.5|10.7|=0.0004
82632802|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82442187|NCT00844805|164592871|SUPERIORITY_OR_OTHER||Difference in Percentages|10.0|||=|0.5005|TWO_SIDED|95.0|-11.7|31.7|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||31.7|-11.7|=0.5005
82632803|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0046|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0046
82632804|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632805|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0043|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0043
82632806|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632807|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632808|NCT00808132|164981889|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||0.0016
82511801|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3||||0.0625|TWO_SIDED|95.0|-12.8|0.3|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||0.3|-12.8|0.0625
82511802|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.3214|TWO_SIDED|95.0|-11.9|3.9|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||3.9|-11.9|0.3214
82568929|NCT03119688|164847924|SUPERIORITY|This is a superiority test setting.|Mean Difference (Net)|0.065||||0.2518|TWO_SIDED|90.0|-0.0287|0.1592||No adjustment for multiple comparisons was made.|ANOVA|ANOVA model with change from baseline in examiner assessment on dryness as response and treatment, site as fixed effects;participant as random effect|Difference is first named treatment minus second named treatment such that a negative difference favors first named treatment.|The null hypothesis is that the difference in population mean dryness is zero.||0.1592|-0.0287|0.2518
82568930|NCT02705625|164847956|SUPERIORITY|"For the primary endpoint, the Type I error for the tests of the two doses was protected by performing a fixed-sequence multiple-testing procedure in the following order:~Step 1: 200 mg versus placebo Step 2: 100 mg versus placebo The second step was only considered as confirmatory provided the previous step was significant at a one-sided 5%-level (p\<0.05).~If the previous step was not significant, the analysis of the following step was considered descriptive."|Mean Difference (Final Values)|-0.0761||||0.4055|TWO_SIDED|95.0|-0.703|0.55||The p-values reported is from Step 1 (comparing 200 mg versus placebo). The corresponding p-value from Step 2 (comparing 100 mg versus placebo) was 0.1458.|Mixed Models Analysis|||A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment by time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline NRS was included as a covariate for adjustment. An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model.||0.55|-0.703|0.4055
82568931|NCT02705625|164847957|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in knee joint MRI bone area at Week 26.|Mean Difference (Final Values)|-14.7||||0.0036|TWO_SIDED|95.0|-25.3|-4.02||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: bone area increase is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline knee joint MRI bone area was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-4.02|-25.3|0.0036
82632809|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632810|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 6, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632811|NCT00808132|164981889|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||P1NP: Month 12, ANCOVA model was used with treatment and region as factors, and baseline as covariate.||||<0.001
82632812|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.546|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1-4: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.546
82632813|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.821|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 5-8: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.821
82442188|NCT00844805|164592872|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.5|||=|1|TWO_SIDED|95.0|-14.9|9.9|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||9.9|-14.9|=1.0000
82632814|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.698|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 9-12: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.698
82632815|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 13-16: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.446
82632816|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 17-20: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.892
82632817|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 21-24: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.810
82511803|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.4898|TWO_SIDED|95.0|-8.7|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Pain change from baseline||4.2|-8.7|0.4898
82632818|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.473|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 25-28: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.473
82632819|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 29-32: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.030
82632820|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.453|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 33-36: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.453
82632821|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 37-40: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.391
82632822|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.407|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 41-44: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.407
82632823|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.644|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 45-48: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.644
82632824|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.666|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 49-52: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.666
82632825|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1-4: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.641
82632826|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.361|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 5-8: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.361
82632827|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 9-12: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.100
82632828|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.142|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 13-16: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.142
82632829|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 17-20: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.906
82632830|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.798|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 21-24: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.798
82632831|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.258|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 25-28: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.258
82632832|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 29-32: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.058
82632833|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 33-36: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.230
82632834|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 37-40: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.360
82632835|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 41-44: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.892
82632836|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.912|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 45-48: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.912
82632837|NCT00808132|164981891|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 49-52: Cochran-Mantel-Haenszel test was stratified by baseline value.||||0.791
82632838|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.93||||0.253|TWO_SIDED|95.0|-7.96|2.1|||ANCOVA|||Sleep disturbance: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.10|-7.96|0.253
82632839|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.84||||0.127|TWO_SIDED|95.0|-8.78|1.1|||ANCOVA|||Sleep disturbance: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.10|-8.78|0.127
82632840|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.15||||0.18|TWO_SIDED|95.0|-7.76|1.46|||ANCOVA|||Snoring: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.46|-7.76|0.180
82632841|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.67||||0.247|TWO_SIDED|95.0|-7.19|1.85|||ANOVA|||Snoring: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.85|-7.19|0.247
82632842|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63||||0.726|TWO_SIDED|95.0|-4.15|2.9|||ANCOVA|||ASoB: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.90|-4.15|0.726
82632843|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.17||||0.218|TWO_SIDED|95.0|-5.63|1.29|||ANCOVA|||ASoB: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.29|-5.63|0.218
82632844|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.996|TWO_SIDED|95.0|-3.85|3.87|||ANCOVA|||Somnolence: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||3.87|-3.85|0.996
82632845|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean DIfference|0.83||||0.665|TWO_SIDED|95.0|-2.94|4.6|||ANCOVA|||Somnolence: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||4.60|-2.94|0.665
82632846|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|2.76||||0.368|TWO_SIDED|95.0|-3.26|8.78|||ANOVA|||Sleep adequacy: Month 3, ANCOVA model was used with treatment and region as factors and baseline as a covariate.||8.78|-3.26|0.368
82632847|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|2.84||||0.345|TWO_SIDED|95.0|-3.07|8.75|||ANCOVA|||Sleep adequacy: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||8.75|-3.07|0.345
82632848|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.35||||0.482|TWO_SIDED|95.0|-5.12|2.42|||ANCOVA|||Sleep problem index I: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||2.42|-5.12|0.482
82632849|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean DIfference|-2.15||||0.254|TWO_SIDED|95.0|-5.86|1.55|||ANCOVA|||Sleep problem index I: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.55|-5.86|0.254
82511804|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.0761|TWO_SIDED|95.0|-11.8|0.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||0.6|-11.8|0.0761
82511805|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.3187|TWO_SIDED|95.0|-11.2|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||3.7|-11.2|0.3187
82632850|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97||||0.308|TWO_SIDED|95.0|-5.76|1.82|||ANCOVA|||Sleep problem index II: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.82|-5.76|0.308
82632851|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.48||||0.19|TWO_SIDED|95.0|-6.2|1.23|||ANCOVA|||Sleep problem index II: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||1.23|-6.20|0.190
82632852|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.55|TWO_SIDED|95.0|-0.32|0.17|||ANCOVA|||Sleep quantity: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.17|-0.32|0.550
82632853|NCT00808132|164981892|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.477|TWO_SIDED|95.0|-0.15|0.32|||ANCOVA|||Sleep quantity: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||0.32|-0.15|0.477
82632854|NCT00808132|164981894|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Vasomotor function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||<0.001
82632855|NCT00808132|164981894|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Vasomotor function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||<0.001
82632856|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|||Psychosocial function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.680
82632857|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.493|||||||ANCOVA|||Psychosocial function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.493
82632858|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.698|||||||ANCOVA|||Physical function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.698
82632859|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.055|||||||ANCOVA|||Physical function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.055
82632860|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.428|||||||ANCOVA|||Sexual function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.428
82632861|NCT00808132|164981894|SUPERIORITY_OR_OTHER|||||||0.071|||||||ANCOVA|||Sexual function: ANCOVA model was used with treatment and region as factors and baseline as a covariate.||||0.071
82632862|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.624|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.624
82632863|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.868|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.868
82632864|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.087
82632865|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.425
82632866|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.307|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.307
82632867|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.689
82632868|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.285|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.285
82632869|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
82632870|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.065
82632871|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.014
82632872|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||1.000
82632873|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.226|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.226
82632874|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||1.000
82632875|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632876|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632877|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||< 0.001
82442189|NCT00844805|164592873|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||=|1|TWO_SIDED|95.0|-6.8|6.8|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||6.8|-6.8|=1.0000
82442190|NCT00844805|164592874|SUPERIORITY_OR_OTHER||||||=|0.3802||95.0|||||Log Rank|||||||=0.3802
82511806|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.5548|TWO_SIDED|95.0|-7.9|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Dyspnea change from baseline||4.2|-7.9|0.5548
82378945|NCT03718832|164466851|SUPERIORITY||Mean Difference (Net)|-0.6983982|STANDARD_ERROR_OF_MEAN|0.3476441||0.045506|TWO_SIDED|95.0|-1.382737|-0.0140597||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||-0.0140597|-1.382737|0.045506
82378946|NCT03718832|164466851|SUPERIORITY||Mean Difference (Net)|-0.6239824|STANDARD_ERROR_OF_MEAN|0.3336405||0.0625551|TWO_SIDED|95.0|-1.280906|0.0329412||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0329412|-1.280906|0.0625551
82442191|NCT00844805|164592875|SUPERIORITY_OR_OTHER||Difference in Percentages|-5.0|||=|0.6153|TWO_SIDED|95.0|-14.5|4.5|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||4.5|-14.5|=0.6153
82378947|NCT03718832|164466852|SUPERIORITY||Mean Difference (Net)|2.276579|STANDARD_ERROR_OF_MEAN|1.636162||0.1650343|TWO_SIDED|95.0|-0.9420086|5.495166||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||5.495166|-0.9420086|0.1650343
82442192|NCT00844805|164592876|SUPERIORITY_OR_OTHER||Difference in Percentages|18.4|||=|0.0263|TWO_SIDED|95.0|2.5|34.3|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||34.3|2.5|=0.0263
82511807|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.245|TWO_SIDED|95.0|-12.1|3.1|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep disturbance change from baseline||3.1|-12.1|0.2450
82442193|NCT00844805|164592877|SUPERIORITY_OR_OTHER||Difference in Percentages|8.4|||=|0.3011|TWO_SIDED|95.0|-6.0|22.8|||Fisher Exact||The 95% CI for treatment differences were computed using Wilson's Method.|||22.8|-6.0|=0.3011
82442194|NCT02726880|164592879|SUPERIORITY||F|1.13||||0.296|TWO_SIDED||||||ANCOVA|Number of days of gaming in the past week, measured at baseline, is included as a covariate in the model.||||||.296
82442195|NCT03697993|164592924|OTHER||Risk Difference (RD)|-18.0||||0.264|TWO_SIDED|95.0|-43.4|8.7|||Multiple imputation using Wald method|||||8.7|-43.4|0.264
82442196|NCT03697993|164592928|OTHER||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-26.2|24.3|||Fisher Exact|||||24.3|-26.2|1.000
82378948|NCT03718832|164466852|SUPERIORITY||Mean Difference (Net)|1.989458|STANDARD_ERROR_OF_MEAN|1.359013||0.1442126|TWO_SIDED|95.0|-0.6843682|4.663284||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||4.663284|-0.6843682|0.1442126
82442197|NCT03697993|164592929|OTHER||Odds Ratio (OR)|0.9||||0.894|TWO_SIDED|95.0|0.3|2.5|||Proportional odds model using Wald test|||||2.5|0.3|0.894
82511808|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8464|TWO_SIDED|95.0|-10.0|8.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep disturbance change from baseline||8.2|-10.0|0.8464
82632878|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||< 0.001
82511809|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.3351|TWO_SIDED|95.0|-10.9|3.7|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Sleep Disturbance change from baseline||3.7|-10.9|0.3351
82632879|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378949|NCT03718832|164466852|SUPERIORITY||Mean Difference (Net)|-1.579811|STANDARD_ERROR_OF_MEAN|0.739612||0.0335498|TWO_SIDED|95.0|-3.03574|-0.1238828||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||-0.1238828|-3.03574|0.0335498
82442198|NCT03697993|164592930|OTHER||Risk Difference (RD)|0.0||||0.973|TWO_SIDED|95.0|-26.3|25.3|||Multiple imputation using Wald method|||||25.3|-26.3|0.973
82632880|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632881|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378950|NCT03718832|164466852|SUPERIORITY||Mean Difference (Net)|-1.764632|STANDARD_ERROR_OF_MEAN|0.8545352||0.0398937|TWO_SIDED|95.0|-3.447175|-0.0820899||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||-0.0820899|-3.447175|0.0398937
82378951|NCT03718832|164466853|SUPERIORITY||Mean Difference (Net)|-0.6294078|STANDARD_ERROR_OF_MEAN|0.4409795||0.1544491|TWO_SIDED|95.0|-1.496923|0.238107||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.238107|-1.496923|0.1544491
82378952|NCT03718832|164466853|SUPERIORITY||Mean Difference (Net)|-0.6081765|STANDARD_ERROR_OF_MEAN|0.451915||0.1793486|TWO_SIDED|95.0|-1.497352|0.2809987||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.2809987|-1.497352|0.1793486
82378953|NCT03718832|164466853|SUPERIORITY||Mean Difference (Net)|-0.1731023|STANDARD_ERROR_OF_MEAN|0.4024787||0.6674618|TWO_SIDED|95.0|-0.9653829|0.6191784||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.6191784|-0.9653829|0.6674618
82378954|NCT03718832|164466853|SUPERIORITY||Mean Difference (Net)|-0.2208031|STANDARD_ERROR_OF_MEAN|0.4196435||0.5992113|TWO_SIDED|95.0|-1.047063|0.6054567||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.6054567|-1.047063|0.5992113
82378955|NCT03718832|164466854|SUPERIORITY||Mean Difference (Net)|0.4824561|STANDARD_ERROR_OF_MEAN|0.423027||0.2549037|TWO_SIDED|95.0|-0.349686|1.314598||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.314598|-0.349686|0.2549037
82378956|NCT03718832|164466854|SUPERIORITY||Mean Difference (Net)|0.3545817|STANDARD_ERROR_OF_MEAN|0.4230741||0.4025977|TWO_SIDED|95.0|-0.4777863|1.186949||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.186949|-0.4777863|0.4025977
82632882|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378957|NCT03718832|164466854|SUPERIORITY||Mean Difference (Net)|-0.0102657|STANDARD_ERROR_OF_MEAN|0.4695747||0.9825739|TWO_SIDED|95.0|-0.9346107|0.9140792||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.9140792|-0.9346107|0.9825739
82442199|NCT02230683|164592931|SUPERIORITY_OR_OTHER||within group change|-1.14|STANDARD_DEVIATION|4.57||0.257|TWO_SIDED|95.0|-3.16|0.89|||Paired t-test||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||0.89|-3.16|0.257
82378958|NCT03718832|164466854|SUPERIORITY||Mean Difference (Net)|-0.0340184|STANDARD_ERROR_OF_MEAN|0.4869778||0.9443607|TWO_SIDED|95.0|-0.9928399|0.9248032||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.9248032|-0.9928399|0.9443607
82632883|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378959|NCT03718832|164466855|SUPERIORITY||Mean Difference (Net)|0.160997|STANDARD_ERROR_OF_MEAN|0.0376773||2.52e-05|TWO_SIDED|95.0|0.0868814|0.2351126||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.2351126|0.0868814|0.0000252
82378960|NCT03718832|164466855|SUPERIORITY||Mean Difference (Net)|0.1691707|STANDARD_ERROR_OF_MEAN|0.0391132||2.04e-05|TWO_SIDED|95.0|0.0922183|0.2461232||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.2461232|0.0922183|0.0000204
82378961|NCT03718832|164466855|SUPERIORITY||Mean Difference (Net)|0.0028595|STANDARD_ERROR_OF_MEAN|0.0261733||0.9130816|TWO_SIDED|95.0|-0.0486635|0.0543825||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0543825|-0.0486635|0.9130816
82378962|NCT03718832|164466855|SUPERIORITY||Mean Difference (Net)|0.0166325|STANDARD_ERROR_OF_MEAN|0.0271062||0.5400053|TWO_SIDED|95.0|-0.0367394|0.0700045||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0700045|-0.0367394|0.5400053
82378963|NCT03718832|164466856|SUPERIORITY||Mean Difference (Net)|0.0511555|STANDARD_ERROR_OF_MEAN|0.016316||0.0018721|TWO_SIDED|95.0|0.0190582|0.0832528||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0832528|0.0190582|0.0018721
82378964|NCT03718832|164466856|SUPERIORITY||Mean Difference (Net)|0.0433081|STANDARD_ERROR_OF_MEAN|0.0168497||0.0106231|TWO_SIDED|95.0|0.0101555|0.0764607||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.0764607|0.0101555|0.0106231
82378965|NCT03718832|164466856|SUPERIORITY||Mean Difference (Net)|0.0138256|STANDARD_ERROR_OF_MEAN|0.0171112||0.4197898|TWO_SIDED|95.0|-0.0198584|0.0475096||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0475096|-0.0198584|0.4197898
82378966|NCT03718832|164466856|SUPERIORITY||Mean Difference (Net)|0.0179852|STANDARD_ERROR_OF_MEAN|0.0171811||0.2961479|TWO_SIDED|95.0|-0.0158442|0.0518147||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0518147|-0.0158442|0.2961479
82378967|NCT03718832|164466857|SUPERIORITY||Mean Difference (Net)|0.4018522|STANDARD_ERROR_OF_MEAN|0.1001575||7.43e-05|TWO_SIDED|95.0|0.2048311|0.5988733||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.5988733|0.2048311|0.0000743
82378968|NCT03718832|164466857|SUPERIORITY||Mean Difference (Net)|0.3643095|STANDARD_ERROR_OF_MEAN|0.1026922||0.0004471|TWO_SIDED|95.0|0.16227|0.566349||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.566349|0.16227|0.0004471
82378969|NCT03718832|164466857|SUPERIORITY||Mean Difference (Net)|0.0006229|STANDARD_ERROR_OF_MEAN|0.1095781||0.9954683|TWO_SIDED|95.0|-0.2150785|0.2163243||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.2163243|-0.2150785|0.9954683
82378970|NCT03718832|164466857|SUPERIORITY||Mean Difference (Net)|-0.0161147|STANDARD_ERROR_OF_MEAN|0.1115322||0.8852268|TWO_SIDED|95.0|-0.2357129|0.2034834||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.2034834|-0.2357129|0.8852268
82378971|NCT03718832|164466858|SUPERIORITY||Mean Difference (Net)|0.9013876|STANDARD_ERROR_OF_MEAN|0.4414753||0.0417413|TWO_SIDED|95.0|0.0338441|1.768931||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1.768931|0.0338441|0.0417413
82378972|NCT03718832|164466858|SUPERIORITY||Mean Difference (Net)|0.8939751|STANDARD_ERROR_OF_MEAN|0.3896126||0.0222222|TWO_SIDED|95.0|0.1282798|1.65967||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1.65967|0.1282798|0.0222222
82378973|NCT03718832|164466858|SUPERIORITY||Mean Difference (Net)|0.0276596|STANDARD_ERROR_OF_MEAN|0.7606961||0.9710103|TWO_SIDED|95.0|-1.467185|1.522504||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||1.522504|-1.467185|0.9710103
82378974|NCT03718832|164466858|SUPERIORITY||Mean Difference (Net)|0.0377244|STANDARD_ERROR_OF_MEAN|0.6523585||0.9539117|TWO_SIDED|95.0|-1.244338|1.319787||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1.319787|-1.244338|0.9539117
82378975|NCT03718832|164466859|SUPERIORITY||Mean Difference (Net)|-0.1045328|STANDARD_ERROR_OF_MEAN|0.1417549||0.4612408|TWO_SIDED|95.0|-0.3830955|0.1740299||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.1740299|-0.3830955|0.4612408
82378976|NCT03718832|164466859|SUPERIORITY||Mean Difference (Net)|-0.0552724|STANDARD_ERROR_OF_MEAN|0.1181649||0.6401864|TWO_SIDED|95.0|-0.2874987|0.176954||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.176954|-0.2874987|0.6401864
82378977|NCT03718832|164466859|SUPERIORITY||Mean Difference (Net)|-0.2761332|STANDARD_ERROR_OF_MEAN|0.2593125||0.2874913|TWO_SIDED|95.0|-0.7857084|0.2334419||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.2334419|-0.7857084|0.2874913
82511810|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.6291|TWO_SIDED|95.0|-9.1|5.5|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite loss change from baseline||5.5|-9.1|0.6291
82378978|NCT03718832|164466859|SUPERIORITY||Mean Difference (Net)|-0.155843|STANDARD_ERROR_OF_MEAN|0.2092772||0.4568601|TWO_SIDED|95.0|-0.56713|0.2554439||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.2554439|-0.56713|0.4568601
82511811|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.7675|TWO_SIDED|95.0|-7.4|10.1|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite Loss change from baseline||10.1|-7.4|0.7675
82442200|NCT02230683|164592931|SUPERIORITY_OR_OTHER||within group change|1.9|STANDARD_DEVIATION|3.15||0.1174|TWO_SIDED|95.0|-0.52|4.32|||ANCOVA||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup||4.32|-0.52|0.1174
82511812|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.3911|TWO_SIDED|95.0|-10.2|4.0|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Appetite Loss change from baseline||4.0|-10.2|0.3911
82378979|NCT03718832|164466860|SUPERIORITY||Mean Difference (Net)|0.0539315|STANDARD_ERROR_OF_MEAN|0.0267347||0.0442418|TWO_SIDED|95.0|0.0013953|0.1064678||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.1064678|0.0013953|0.0442418
82378980|NCT03718832|164466860|SUPERIORITY||Mean Difference (Net)|0.0546574|STANDARD_ERROR_OF_MEAN|0.0272506||0.0454857|TWO_SIDED|95.0|0.0011025|0.1082124||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.1082124|0.0011025|0.0454857
82511813|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0431|TWO_SIDED|95.0|-12.9|-0.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||-0.2|-12.9|0.0431
82378981|NCT03718832|164466860|SUPERIORITY||Mean Difference (Net)|0.0076781|STANDARD_ERROR_OF_MEAN|0.0188378||0.683764|TWO_SIDED|95.0|-0.0293401|0.0446963||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0446963|-0.0293401|0.683764
82568932|NCT02705625|164847957|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in knee joint MRI bone area at Week 26.|Mean Difference (Final Values)|-15.4||||0.0023|TWO_SIDED|95.0|-26.0|-4.83||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: bone area increase is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline knee joint MRI bone area was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-4.83|-26|0.0023
82378982|NCT03718832|164466860|SUPERIORITY||Mean Difference (Net)|0.0053342|STANDARD_ERROR_OF_MEAN|0.0183059||0.7708852|TWO_SIDED|95.0|-0.0306419|0.0413103||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0413103|-0.0306419|0.7708852
82378983|NCT03718832|164466861|SUPERIORITY||Mean Difference (Net)|-0.053099|STANDARD_ERROR_OF_MEAN|0.0436586||0.2245167|TWO_SIDED|95.0|-0.1388926|0.0326946||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0326946|-0.1388926|0.2245167
82378984|NCT03718832|164466861|SUPERIORITY||Mean Difference (Net)|-0.0815933|STANDARD_ERROR_OF_MEAN|0.0424438||0.0551913|TWO_SIDED|95.0|-0.1650069|0.0018204||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||0.0018204|-0.1650069|0.0551913
82378985|NCT03718832|164466861|SUPERIORITY||Mean Difference (Net)|-0.0506938|STANDARD_ERROR_OF_MEAN|0.0461078||0.2721373|TWO_SIDED|95.0|-0.1413002|0.0399126||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||0.0399126|-0.1413002|0.2721373
82378986|NCT03718832|164466861|SUPERIORITY||Mean Difference (Net)|-0.079563|STANDARD_ERROR_OF_MEAN|0.0428514||0.0640071|TWO_SIDED|95.0|-0.1637776|0.0046516||Adjusted mean difference for full controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||0.0046516|-0.1637776|0.0640071
82378987|NCT03718832|164466862|SUPERIORITY||Mean Difference (Net)|13.79692|STANDARD_ERROR_OF_MEAN|808.862||0.9864081|TWO_SIDED|95.0|-1581.244|1608.838||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||1608.838|-1581.244|0.9864081
82378988|NCT03718832|164466862|SUPERIORITY||Mean Difference (Net)|119.3302|STANDARD_ERROR_OF_MEAN|885.2058||0.8929133|TWO_SIDED|95.0|-1627.128|1865.789||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||1865.789|-1627.128|0.8929133
82378989|NCT03718832|164466862|SUPERIORITY||Mean Difference (Net)|-1260.452|STANDARD_ERROR_OF_MEAN|1327.743||0.343724|TWO_SIDED|95.0|-3880.298|1359.393||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||1359.393|-3880.298|0.343724
82378990|NCT03718832|164466862|SUPERIORITY||Mean Difference (Net)|-1206.216|STANDARD_ERROR_OF_MEAN|1344.574||0.3709654|TWO_SIDED|95.0|-3860.887|1448.455||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||1448.455|-3860.887|0.3709654
82378991|NCT03718832|164466863|SUPERIORITY||Mean Difference (Net)|1290.605|STANDARD_ERROR_OF_MEAN|732.2306||0.0795087|TWO_SIDED|95.0|-153.3215|2734.532||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2734.532|-153.3215|0.0795087
82378992|NCT03718832|164466863|SUPERIORITY||Mean Difference (Net)|1207.762|STANDARD_ERROR_OF_MEAN|874.6068||0.1689786|TWO_SIDED|95.0|-517.7854|2933.309||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2933.309|-517.7854|0.1689786
82378993|NCT03718832|164466863|SUPERIORITY||Mean Difference (Net)|1209.35|STANDARD_ERROR_OF_MEAN|957.1006||0.2080145|TWO_SIDED|95.0|-679.1596|3097.86||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment||3097.86|-679.1596|0.2080145
82632884|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632885|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378994|NCT03718832|164466863|SUPERIORITY||Mean Difference (Net)|1258.587|STANDARD_ERROR_OF_MEAN|1077.807||0.2445904|TWO_SIDED|95.0|-869.3893|3386.563||Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment||3386.563|-869.3893|0.2445904
82378995|NCT03718832|164466864|SUPERIORITY||Mean Difference (Net)|2.035245|STANDARD_ERROR_OF_MEAN|0.1415551|<|0.001|TWO_SIDED|95.0|1.757075|2.313415||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||2.313415|1.757075|<0.001
82632886|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||< 0.001
82378996|NCT03718832|164466864|SUPERIORITY||Mean Difference (Net)|2.0087|STANDARD_ERROR_OF_MEAN|0.1395364|<|0.001|TWO_SIDED|95.0|1.734473|2.282927||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment||2.282927|1.734473|<0.001
82378997|NCT03718832|164466864|SUPERIORITY||Mean Difference (Net)|1.619982|STANDARD_ERROR_OF_MEAN|0.2663507|<|0.001|TWO_SIDED|95.0|1.096575|2.143388||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||2.143388|1.096575|<0.001
82378998|NCT03718832|164466864|SUPERIORITY||Mean Difference (Net)|1.559642|STANDARD_ERROR_OF_MEAN|0.2680774|<|0.001|TWO_SIDED|95.0|1.032797|2.086488||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||2.086488|1.032797|<0.001
82378999|NCT03718832|164466865|SUPERIORITY||Mean Difference (Net)|1.881776|STANDARD_ERROR_OF_MEAN|0.1057965|<|0.001|TWO_SIDED|95.0|1.673875|2.089677||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||2.089677|1.673875|<0.001
82379000|NCT03718832|164466865|SUPERIORITY||Mean Difference (Net)|1.868221|STANDARD_ERROR_OF_MEAN|0.1036609|<|0.001|TWO_SIDED|95.0|1.664499|2.071943||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||2.071943|1.664499|<0.001
82632887|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632888|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.317|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.317
82632889|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.531
82632890|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.610
82632891|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.848
82632892|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.551|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.551
82632893|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.300
82632894|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.299
82632895|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
82632896|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.660
82632897|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.199
82632898|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.770
82632899|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||1.000
82632900|NCT00808132|164981895|SUPERIORITY_OR_OTHER|||||||0.769|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.769
82632901|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632902|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632903|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632904|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632905|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632906|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632907|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632908|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632909|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632910|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632911|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632912|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632913|NCT00808132|164981895|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||< 0.001
82632914|NCT00696774|164981916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.005|TWO_SIDED|95.0|-1.12|-0.2|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.20|-1.12|0.005
82632915|NCT00696774|164981918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|||||TWO_SIDED|95.0|-7.34|-4.36|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-4.36|-7.34|
82632916|NCT00696774|164981919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47|||||TWO_SIDED|95.0|-3.13|-1.81|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.81|-3.13|
82632917|NCT00696774|164981920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.29|||||TWO_SIDED|95.0|-4.1|-2.48|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-2.48|-4.10|
82379001|NCT03718832|164466865|SUPERIORITY||Mean Difference (Net)|1.650879|STANDARD_ERROR_OF_MEAN|0.2057239|<|0.001|TWO_SIDED|95.0|1.246611|2.055147||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||2.055147|1.246611|<0.001
82379002|NCT03718832|164466865|SUPERIORITY||Mean Difference (Net)|1.636306|STANDARD_ERROR_OF_MEAN|0.2052192|<|0.001|TWO_SIDED|95.0|1.232994|2.039618||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||2.039618|1.232994|<0.001
82632918|NCT00696774|164981921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22|||||TWO_SIDED|95.0|-2.89|-1.54|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.54|-2.89|
82632919|NCT00696774|164981922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-2.45|-1.3|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-1.30|-2.45|
82632920|NCT00696774|164981923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||||TWO_SIDED|95.0|-1.31|-0.63|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.63|-1.31|
82632921|NCT00696774|164981924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.42|||||TWO_SIDED|95.0|-6.04|-2.8|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-2.80|-6.04|
82632922|NCT00696774|164981925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|||||TWO_SIDED|95.0|-1.42|-0.84|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.84|-1.42|
82632923|NCT00696774|164981926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||||TWO_SIDED|95.0|-1.08|-0.24|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.24|-1.08|
82632924|NCT00696774|164981927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.81|-0.18|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|||-0.18|-0.81|
82632925|NCT00696774|164981928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|||||TWO_SIDED|95.0|-0.99|2.6|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||2.60|-0.99|
82632926|NCT00696774|164981928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|||||TWO_SIDED|95.0|-0.69|3.42|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||3.42|-0.69|
82632927|NCT00696774|164981929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.05|||||TWO_SIDED|95.0|10.63|19.47|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||19.47|10.63|
82632928|NCT00696774|164981929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.48|||||TWO_SIDED|95.0|4.72|16.24|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||16.24|4.72|
82379003|NCT03718832|164466866|SUPERIORITY||Mean Difference (Net)|0.1104533|STANDARD_ERROR_OF_MEAN|0.0769621||0.1519153|TWO_SIDED|95.0|-0.040785|0.2616915||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment.||0.2616915|-0.040785|0.1519153
82379004|NCT03718832|164466866|SUPERIORITY||Mean Difference (Net)|0.0594575|STANDARD_ERROR_OF_MEAN|0.0654489||0.3641254|TWO_SIDED|95.0|-0.0691675|0.1880824||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||0.1880824|-0.0691675|0.3641254
82632929|NCT00696774|164981930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||||TWO_SIDED|95.0|-7.75|-4.02|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 4||-4.02|-7.75|
82632930|NCT00696774|164981930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.59|||||TWO_SIDED|95.0|-6.65|-2.54|||Adjusted Repeated Measures Analysis|Model terms: baseline score \& CGI, age, sex, country, prev treatment, prev treatment discontinuation reason, response group, visit \& response-by-visit|Least Squares Mean Difference = Responders - Non-Responders.|Week 8||-2.54|-6.65|
82632931|NCT00033293|164981936|OTHER||Chi-squared test statistic|8.125||||0.0044|TWO_SIDED|95.0||||No adjustments for multiple comparisons.|Chi-squared|A two-way test with a null hypothesis of no association, using SAS 9.4.||"The 5 categories of OMA ratings are: stance, gait, arm \& hand function, opsoclonus, \& mood/behavior. For each category, a patient's response will be based on a comparison of the baseline evaluation to the best of 3 time points: 2 months, 6 months \& 1 year. If a patient crosses over to the IVIG arm or switches to ACTH at any time, the patient will be considered a non-responder. The proportion of responders from the 2 treatment arms were compared using a chi-squared test."||||0.0044
82632932|NCT00033293|164981937|OTHER||Mean Difference (Net)|60.1979||||0.0919|ONE_SIDED||||||t-test, 1 sided|||The two samples from the respective treatment arms were compared using a one-sided t-test with a significance level of .05.||||0.0919
82632933|NCT00033293|164981938|OTHER|The two samples from the respective treatment arms were compared using a one-sided t-test with a significance level of .05.|Mean Difference (Net)|16.75||||0.2364|ONE_SIDED||||||t-test, 1 sided|||||||0.2364
82632934|NCT00598585|164981957|SUPERIORITY|unpaired test, the threshold for statistical significance was p= 0.05|||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82379005|NCT03718832|164466866|SUPERIORITY||Mean Difference (Net)|0.2062905|STANDARD_ERROR_OF_MEAN|0.1288363||0.1100186|TWO_SIDED|95.0|-0.0468859|0.4594669||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||0.4594669|-0.0468859|0.1100186
82632935|NCT01200758|164981958|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior Ctrough in SC formulation was demonstrated, if the lower bound of 90% confidence interval (CI) was above 0.8.|Geometric mean ratio|1.62|||||TWO_SIDED|90.0|1.36|1.94|||||Geometric mean ratio adjusted for tumor load at baseline.|||1.94|1.36|
82632936|NCT01200758|164981959|SUPERIORITY_OR_OTHER||Difference in response rates|-4.82||||0.2835|TWO_SIDED|95.0|-14.0|4.4|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||4.4|-14.0|0.2835
82632937|NCT01200758|164981959|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.38|1.33||||||||1.33|0.38|
82632938|NCT01200758|164981960|SUPERIORITY_OR_OTHER||Difference in response rates|7.66||||0.2047|TWO_SIDED|95.0|-5.0|20.3|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||20.3|-5.0|0.2047
82632939|NCT01200758|164981960|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||||TWO_SIDED|95.0|0.68|5.71||||||||5.71|0.68|
82632940|NCT01200758|164981961|SUPERIORITY_OR_OTHER||Difference in response rates|-0.49||||0.8911|TWO_SIDED|95.0|-7.7|6.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson.|||6.8|-7.7|0.8911
82379006|NCT03718832|164466866|SUPERIORITY||Mean Difference (Net)|0.1162375|STANDARD_ERROR_OF_MEAN|0.1015839||0.2531303|TWO_SIDED|95.0|-0.0834025|0.3158775||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||0.3158775|-0.0834025|0.2531303
82379007|NCT03718832|164466867|SUPERIORITY||Mean Difference (Net)|-0.0584644|STANDARD_ERROR_OF_MEAN|0.040837||0.152918|TWO_SIDED|95.0|-0.1387132|0.0217844||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 6 months after trial enrollment||0.0217844|-0.1387132|0.152918
82632941|NCT01200758|164981961|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.56|1.65||||||||1.65|0.56|
82632942|NCT01200758|164981962|SUPERIORITY_OR_OTHER||Difference in CRR|17.86||||0.0335|TWO_SIDED|95.0|0.8|35.0|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||35.0|0.8|0.0335
82632943|NCT01200758|164981962|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|1.06|4.78||||||||4.78|1.06|
82632944|NCT01200758|164981963|SUPERIORITY_OR_OTHER||Difference in response rates|-6.58||||0.2331|TWO_SIDED|95.0|-17.8|4.6|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||4.6|-17.8|0.2331
82632945|NCT01200758|164981963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.44|1.22||||||||1.22|0.44|
82379008|NCT03718832|164466867|SUPERIORITY||Mean Difference (Net)|-0.0585771|STANDARD_ERROR_OF_MEAN|0.0304262||0.0548344|TWO_SIDED|95.0|-0.1183728|0.0012186||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 6 months after trial enrollment.||0.0012186|-0.1183728|0.0548344
82632946|NCT01200758|164981964|SUPERIORITY_OR_OTHER||Difference in response rates|0.49||||0.9157|TWO_SIDED|95.0|-8.8|9.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||9.8|-8.8|0.9157
82379009|NCT03718832|164466867|SUPERIORITY||Mean Difference (Net)|-0.1691027|STANDARD_ERROR_OF_MEAN|0.0673022||0.0123238|TWO_SIDED|95.0|-0.3013583|-0.036847||Unadjusted mean difference; threshold for statistical significance: 0.05. Heteroskedasticity-robust standard errors.|t-test, 2 sided|||Unadjusted mean difference, 12 months after trial enrollment.||-0.036847|-0.3013583|0.0123238
82632947|NCT01200758|164981964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.51||||||||1.51|0.66|
82632948|NCT01200758|164981965|SUPERIORITY_OR_OTHER||Difference in response rates|-7.28||||0.1715|TWO_SIDED|95.0|-18.0|3.5|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||3.5|-18.0|0.1715
82632949|NCT01200758|164981965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.52|1.22||||||||1.22|0.52|
82632950|NCT01200758|164981966|SUPERIORITY_OR_OTHER||Difference in response rates|-0.18||||0.9671|TWO_SIDED|95.0|-9.2|8.8|||Chi-squared||The 95% CI for the difference in response rates was estimated using the Hauck-Anderson method.|||8.8|-9.2|0.9671
82568933|NCT02705625|164847958|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in MRI of cartilage thickness (Femur Region) at Week 26.|Mean Difference (Final Values)|0.0436||||0.1253|TWO_SIDED|95.0|-0.031|0.118||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: MRI of cartilage thinning (Femur Region) is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline MRI of cartilage thickness was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||0.118|-0.031|0.1253
82568934|NCT02705625|164847958|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in MRI of cartilage thickness (Femur Region) at Week 26.|Mean Difference (Final Values)|0.0761||||0.0225|TWO_SIDED|95.0|0.00173|0.15||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: MRI of cartilage thinning (Femur Region) is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline MRI of cartilage thickness was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||0.15|0.00173|0.0225
82568935|NCT02705625|164847959|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC Pain score at Week 26.|Mean Difference (Final Values)|-1.77||||0.2887|TWO_SIDED|95.0|-8.02|4.48||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Pain score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time,baseline analgesic user (Yes/No), and random effect for clinical site. Baseline WOMAC Pain score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.48|-8.02|0.2887
82568936|NCT02705625|164847959|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC Pain score at Week 26.|Mean Difference (Final Values)|-4.55||||0.0753|TWO_SIDED|95.0|-10.8|1.67||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Pain score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Pain score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||1.67|-10.8|0.0753
82568937|NCT02705625|164847960|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC difficulty score at Week 26.|Mean Difference (Final Values)|-1.84||||0.2898|TWO_SIDED|95.0|-8.38|4.7||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Difficulty score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Difficulty score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.7|-8.38|0.2898
82568938|NCT02705625|164847960|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC difficulty score at Week 26.|Mean Difference (Final Values)|-3.78||||0.1262|TWO_SIDED|95.0|-10.3|2.72||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Difficulty score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC difficulty score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||2.72|-10.3|0.1262
82568939|NCT02705625|164847961|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in WOMAC stiffness score at Week 26.|Mean Difference (Final Values)|-3.07||||0.2|TWO_SIDED|95.0|-10.2|4.1||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Stiffness score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic (Yes/No) and random effect for clinical site. Baseline WOMAC Stiffness score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||4.1|-10.2|0.2
82632951|NCT01200758|164981966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.6|1.64||||||||1.64|0.60|
82632952|NCT01200758|164981968|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.5526|TWO_SIDED|95.0|0.64|1.26|||Wald test|||||1.26|0.64|0.5526
82632953|NCT01200758|164981970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.9115|TWO_SIDED|95.0|0.71|1.36|||Wald test|||||1.36|0.71|0.9115
82511814|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.0101|TWO_SIDED|95.0|-17.4|-2.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||-2.4|-17.4|0.0101
82511815|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.2796|TWO_SIDED|95.0|-2.8|9.5|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Constipation change from baseline||9.5|-2.8|0.2796
82511816|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.194|TWO_SIDED|95.0|-2.2|10.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||10.8|-2.2|0.1940
82511817|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||0.0821|TWO_SIDED|95.0|-0.9|14.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||14.8|-0.9|0.0821
82511818|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.4169|TWO_SIDED|95.0|-9.0|3.8|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Diarrhea change from baseline||3.8|-9.0|0.4169
82632954|NCT01200758|164981973|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|1.24|1.53||||||The ratio of observed rituximab serum was determined as AUC SC/AUC IV during Cycle 7 of induction treatment.||1.53|1.24|
82632955|NCT01200758|164981974|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.941|||||TWO_SIDED|95.0|0.872|1.015||||||||1.015|0.872|
82379010|NCT03718832|164466867|SUPERIORITY||Mean Difference (Net)|-0.1701425|STANDARD_ERROR_OF_MEAN|0.0575065||0.0032534|TWO_SIDED|95.0|-0.2831584|-0.0571266||"Adjusted mean difference for full prespecified controls; threshold for statistical significance: 0.05.~Heteroskedasticity-robust standard errors."|Regression, Linear|||Adjusted mean difference for full controls, 12 months after trial enrollment.||-0.0571266|-0.2831584|0.0032534
82632956|NCT00461552|164981990|SUPERIORITY|||||||0.84||||||Treatment time month interaction|Mixed Models Analysis|||||||0.84
82632957|NCT00461552|164981991|OTHER|||||||0.4||||||Treatment time month interaction|Mixed Models Analysis|||||||0.4
82632958|NCT00998985|164982023|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|3.46|||||TWO_SIDED|90.0|2.89|4.03|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||4.03|2.89|
82442201|NCT02230683|164592931|SUPERIORITY_OR_OTHER||within group change|-3.67|STANDARD_DEVIATION|4.05||0.0025|TWO_SIDED|95.0|-5.88|-1.46|||ANCOVA||within group change|Statistical Analysis for the mean change of the Hepatic Venous Pressure Gradient from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup||-1.46|-5.88|0.0025
82511819|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.5717|TWO_SIDED|95.0|-7.5|4.2|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||4.2|-7.5|0.5717
82511820|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.6949|TWO_SIDED|95.0|-5.6|8.4|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||8.4|-5.6|0.6949
82511821|NCT00094653|164716248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.2849|TWO_SIDED|95.0|-8.8|2.6|||ANCOVA||Least square mean can be defined as a linear combination of estimated effects, from a linear model. These means are based on ANCOVA model with covariate variables as baseline score, M-stage and prior-IL2 treatment at randomization, and treatment.|Financial Impact change from baseline||2.6|-8.8|0.2849
82632959|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|4.68|||||TWO_SIDED|90.0|4.11|5.25|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.25|4.11|
82632960|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|4.87|||||TWO_SIDED|90.0|4.3|5.44|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.44|4.30|
82511822|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Percentage of participants|29.0|||||TWO_SIDED|90.0|17.2|43.3|||||The estimated value represents the percentage of participants with CR and PR.|||43.3|17.2|
82511823|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Percentage of participants|45.0|||||TWO_SIDED|90.0|30.9|59.3|||||The estimated value represents the percentage of participants with CR and PR.|||59.3|30.9|
82511824|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Percentage of participants|47.0|||<|0.001|TWO_SIDED|90.0|32.8|62.1||Comparision of participants receiving lapatanib 1500 mg + placebo to historical control of 10% response rate|t-test, 1 sided||The estimated value represents the percentage of participants receiving lapatanib 1500 mg + placebo with CR and PR.|||62.1|32.8|<0.001
82511825|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Percentage of participants|31.0|||||TWO_SIDED|90.0|11.3|57.3|||||The estimated value represents the percentage of participants with CR and PR.|||57.3|11.3|
82511826|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Percentage of participants|58.0|||<|0.001|TWO_SIDED|90.0|43.3|71.5||Comparision of participants receiving lapatanib 1000 mg + pazopanib 400 mg to 10% historical response rate|t-test, 1 sided||The estimated value represents the percentage of participants receiving lapatanib 1000 mg + pazopanib 400 mg with CR and PR.|||71.5|43.3|<0.001
82511827|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Difference in percentage of participants|11.0||||0.485|TWO_SIDED|90.0|-8.3|29.7|||Fisher Exact||The estimated value represents the percent difference in the percentage of participants with CR and PR.|||29.7|-8.3|0.485
82511828|NCT00558103|164716308|SUPERIORITY_OR_OTHER||Difference in percentage of participants|27.0||||0.116|TWO_SIDED|90.0|2.3|52.0|||Fisher Exact||The estimated value represents the percent difference in the percentage of participants with CR and PR.|||52.0|2.3|0.116
82511829|NCT04099524|164716350|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|-0.18|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
82511830|NCT04099524|164716350|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||||||<0.05
82511831|NCT04099524|164716351|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|chi-square|3.14|||<|0.05|TWO_SIDED||||||Chi-squared|||reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
82379011|NCT01996241|164466885|OTHER|Odds ratio (95% CI), p-value for all the outcomes.|Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.7|1.38||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.38|0.7|0.98
82511832|NCT04099524|164716352|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|||||multiple correction adjusted p\<0.05|Mixed Models Analysis|||p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||<0.05
82632961|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|4.35|||||TWO_SIDED|90.0|3.78|4.92|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||4.92|3.78|
82379012|NCT01996241|164466886|OTHER||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.7|1.4||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.4|0.7|0.98
82379013|NCT01996241|164466887|OTHER||Odds Ratio (OR)|1.32||||0.331|TWO_SIDED|95.0|0.2|2.31||Adjusted for village strata and cluster, village type, caste, household literacy status, stratum using individual-level data and poor learning environment at school, school dropout, and marriage (in the form of cluster-level summaries).|Regression, Logistic|Mixed-effects||||2.31|0.2|0.331
82632962|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|5.15|||||TWO_SIDED|90.0|4.58|5.72|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.72|4.58|
82632963|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|4.76|||||TWO_SIDED|90.0|4.19|5.33|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.33|4.19|
82632964|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|4.93|||||TWO_SIDED|90.0|4.36|5.5|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.50|4.36|
82632965|NCT00998985|164982023|SUPERIORITY_OR_OTHER||LSM Difference|5.34|||||TWO_SIDED|90.0|4.93|5.74|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT1 viral load by at least 3 log10||5.74|4.93|
82632966|NCT00998985|164982024|SUPERIORITY_OR_OTHER||LSM Difference|2.25|||||TWO_SIDED|90.0|1.7|2.81|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||2.81|1.70|
82632967|NCT00998985|164982024|SUPERIORITY_OR_OTHER||LSM Difference|2.94|||||TWO_SIDED|90.0|2.38|3.49|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||3.49|2.38|
82632968|NCT00998985|164982024|SUPERIORITY_OR_OTHER||LSM Difference|3.84|||||TWO_SIDED|90.0|3.29|4.4|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||4.40|3.29|
82632969|NCT00998985|164982024|SUPERIORITY_OR_OTHER||LSM difference|4.98|||||TWO_SIDED|90.0|4.42|5.53|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||5.53|4.42|
82632970|NCT00998985|164982024|SUPERIORITY_OR_OTHER||LSM difference|4.21|||||TWO_SIDED|90.0|3.6|4.81|||||LSM Difference (grazoprevir-placebo) and confidence intervals from ANOVA model with maximum log10 HCV reduction as response and a fixed effect for treatment.|It is hypothesized that one or more doses of Grazoprevir will reduce GT3 viral load by at least 2 log10||4.81|3.60|
82632971|NCT01040728|164982031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.197|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.163|0.231|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.231|0.163|<0.0001
82632972|NCT01040728|164982031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.186|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.255|0.186|<0.0001
82379014|NCT01996241|164466888|OTHER||Odds Ratio (OR)|0.83||||0.26|TWO_SIDED|95.0|0.6|1.15||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.15|0.6|0.26
82632973|NCT01040728|164982031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.187|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.255|0.187|<0.0001
82632974|NCT01040728|164982032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.117|0.188|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.188|0.117|<0.0001
82632975|NCT01040728|164982032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.134|0.205|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.205|0.134|<0.0001
82632976|NCT01040728|164982032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.128|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.199|0.128|<0.0001
82632977|NCT01040728|164982033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.141|0.208|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.208|0.141|<0.0001
82379015|NCT01996241|164466889|OTHER||Odds Ratio (OR)|1.05||||0.79|TWO_SIDED|95.0|0.7|1.55||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.55|0.7|0.79
82632978|NCT01040728|164982033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.157|0.225|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.225|0.157|<0.0001
82632979|NCT01040728|164982033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.159|0.226|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.226|0.159|<0.0001
82632980|NCT01040728|164982034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.181|0.248|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.248|0.181|<0.0001
82632981|NCT01040728|164982034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.205|0.272|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.272|0.205|<0.0001
82379016|NCT01996241|164466890|OTHER||Odds Ratio (OR)|0.83||||0.45|TWO_SIDED|95.0|0.5|1.34||Adjusted models controlled for cluster, village strata, village type, caste, household literacy status, stratum (individual-level data endline) and poor learning environment at school, school dropout, and marriage (cluster-level summaries baseline)|Regression, Logistic|Mixed-effects||||1.34|0.5|0.45
82379017|NCT03052751|164466891|SUPERIORITY||LS Mean Difference vs Placebo|-0.7|||=|0.221|ONE_SIDED|95.0||0.8||One-sided p-value was presented for difference.|MMRM||Estimate included treatment and treatment by visit interaction effects.|"Mixed Model Repeated Measures (MMRM) Analysis of Covariance (ANCOVA) model included fixed terms for treatment group, visit, interaction between treatment group and visit, covariate of Baseline QMG score, and random effect for participant.~The differences presented was 'UCB7665 (7 mg/kg) minus Placebo'."||0.8||=0.221
82379018|NCT03052751|164466892|SUPERIORITY||LS Mean Difference vs Placebo|-1.8|||=|0.089|ONE_SIDED|95.0||0.4||One-sided p-value was presented for difference.|MMRM||Estimate included treatment and treatment by visit interaction effects.|"MMRM ANCOVA model included fixed terms for treatment group, visit, interaction between treatment group and visit, covariate of Baseline MG-composite score, and random effect for participant.~The differences presented was 'UCB7665 (7 mg/kg) minus Placebo'."||0.4||=0.089
82379019|NCT03052751|164466893|SUPERIORITY||LS Mean Difference vs Placebo|-1.4|||=|0.036|ONE_SIDED|95.0||-0.1||One-sided p-value was presented for difference.|ANCOVA||Estimate included treatment effect.|ANCOVA model included fixed terms for treatment group, covariate of Baseline MGADL score.||-0.1||=0.036
82379020|NCT01295112|164466894|SUPERIORITY|||||||2e-05|||||||Cochran-Mantel-Haenszel|||||||0.00002
82379021|NCT01295112|164466895|NON_INFERIORITY|Non-inferiority will be described by the 95% upper bound of the confidence interval on the difference in the improvement from baseline in BCVA|Mean Difference (Final Values)|2.51|STANDARD_DEVIATION|17.96||0.53|TWO_SIDED|90.0|-4.43|9.74||The p-value is assume superiority. The 95% upper confidence (upper end of the 90% Confidence interval) interval for the non-inferiority analysis is provided below.|t-test, 1 sided|||||9.74|-4.43|0.53
82379022|NCT01068262|164466896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.2|||||TWO_SIDED|90.0|50.9|80.2|||Linear mixed effect model|Back-transformed least squares estimates and confidence intervals from a linear mixed effect model were performed on natural log-transformed values.||||80.2|50.9|
82632982|NCT01040728|164982034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.119|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.185|0.119|<0.0001
82379023|NCT01068262|164466896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-14.7|14.9|||Linear mixed effects model|Back-transformed least squares estimates and confidence intervals from a linear mixed effect model were performed on natural log-transformed values.||||14.9|-14.7|
82379024|NCT01068262|164466897|SUPERIORITY_OR_OTHER||Estimate|0.9|||||TWO_SIDED|90.0|0.75|1.07||Hypothesis: Following 4 weeks of Qw oral dosing of Odanacatib 50 mg, there is no clinically important difference in the true GMR (male/postmenopausal female) of the AUC0-168hr. The GMR is contained within the interval (0.4, 2.0).|Geometric Mean Ratio (GMR); male/female|||||1.07|0.75|
82379025|NCT01068262|164466898|SUPERIORITY_OR_OTHER||GMR|0.93|||||TWO_SIDED|90.0|0.82|1.04|||GMR|||||1.04|0.82|
82379026|NCT01068262|164466899|SUPERIORITY_OR_OTHER||Estimate|0.95|||||TWO_SIDED|90.0|0.66|1.35|||GMR|||||1.35|0.66|
82442202|NCT02230683|164592932|SUPERIORITY_OR_OTHER||within group change|-0.22||||0.026|TWO_SIDED|95.0|-0.42|-0.03|||ANCOVA|||Statistical Analysis for the mean change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||-0.03|-0.42|0.026
82379027|NCT01811472|164466918|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was largely driven by the maximum true response assumed in the candidate response shapes, which is a difference of -5.2% for pradigastat vs placebo for the primary endpoint.|Mean Difference (Net)|-1.69||||0.3128|TWO_SIDED|90.0|-4.46|1.09|||Mixed Model of Repeated Measurements|Degrees of freedom are adjusted using the Kenward-Roger method.||Hypothesis was tested at the 1-sided 5% significance level to assess if LCQ908 5mg/10mg was different from placebo.||1.09|-4.46|0.3128
82379028|NCT01811472|164466918|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was largely driven by the maximum true response assumed in the candidate response shapes, which is a difference of -5.2% for pradigastat vs placebo for the primary endpoint.|Mean Difference (Net)|-2.89||||0.0457|TWO_SIDED|90.0|-5.25|-0.53|||Mixed Model of Repeated Measurements|Degrees of freedom are adjusted using the Kenward-Roger method.||Hypothesis was tested at the 1-sided 5% significance level to assess if LCQ908 10mg/20mg was different from placebo.||-0.53|-5.25|0.0457
82379029|NCT05262387|164466964|OTHER||Mean Difference (Final Values)|9.32||||0.0494|TWO_SIDED|90.0|1.52|17.1|||Mixed Models Analysis|||||17.1|1.52|0.0494
82379030|NCT05262387|164466964|OTHER||Mean Difference (Final Values)|14.1||||0.0028|TWO_SIDED|90.0|6.38|21.9|||Mixed Models Analysis|||||21.9|6.38|0.0028
82379031|NCT05262387|164466965|OTHER||Mean Difference (Final Values)|-44.5||||0.1998|TWO_SIDED|90.0|-102.0|12.8|||Mixed Models Analysis|||||12.8|-102|0.1998
82379032|NCT05262387|164466965|OTHER||Mean Difference (Final Values)|4.16||||0.9041|TWO_SIDED|90.0|-53.1|61.4|||Mixed Models Analysis|||||61.4|-53.1|0.9041
82379033|NCT05274178|164466966|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>.05
82379034|NCT05274178|164466966|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>.05
82379035|NCT01339403|164466990|SUPERIORITY_OR_OTHER||Rate ratio|166.1|||<|0.001|TWO_SIDED|95.0|123.4|223.5|||Poisson Regression|||Kaposi's sarcoma: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||223.5|123.4|<0.001
82379036|NCT01339403|164466990|SUPERIORITY_OR_OTHER||Rate ratio|12.1|||<|0.001|TWO_SIDED|95.0|10.3|14.2|||Poisson Regression|||Invasive non-Hodgkin's lymphoma: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||14.2|10.3|<0.001
82511833|NCT04099524|164716353|SUPERIORITY|The analysis was based on evaluating whether active tDCS is superior than sham tDCS on outcomes.|Mean Difference (Final Values)|0.84|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance||||<0.05
82379037|NCT01339403|164466990|SUPERIORITY_OR_OTHER||Rate ratio|3.4||||0.059|TWO_SIDED|95.0|1.0|12.3|||Poisson Regression|||Invasive cervical cancer: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||12.3|1.0|0.059
82379038|NCT01339403|164466990|SUPERIORITY_OR_OTHER||Rate ratio|1.7|||<|0.001|TWO_SIDED|95.0|1.5|1.8|||Poisson Regression|||Non-AIDS-defining cancers: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||1.8|1.5|<0.001
82379039|NCT01339403|164466990|SUPERIORITY_OR_OTHER||Rate Ratio|166.1|||<|0.001|TWO_SIDED|95.0|123.4|223.5|||Poisson Regression|||AIDS-defining cancer: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||223.5|123.4|<0.001
82379040|NCT01339403|164466991|SUPERIORITY_OR_OTHER||Rate ratio|1.4|||<|0.001|TWO_SIDED|95.0|1.3|1.5|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||1.5|1.3|<0.001
82511834|NCT03337724|164716354|SUPERIORITY||Stratified Hazard Ratio|1.02||||0.9237|TWO_SIDED|95.0|0.71|1.45|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, tumor PIK3CA/AKT1/PTEN alteration status (PIK3CA/AKT1-activating mutations vs. PTEN alterations with no PIK3CA/AKT1-activating mutations).|||1.45|0.71|0.9237
82379041|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|65.7|||<|0.001|TWO_SIDED|95.0|57.1|75.7|||Poisson Regression|||Wasting syndrome: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||75.7|57.1|<0.001
82379042|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|428.5|||<|0.001|TWO_SIDED|95.0|292.2|628.5|||Poisson Regression|||Pneumocystis jirovecii pneumonia: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||628.5|292.2|<0.001
82379043|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|8.7|||<|0.001|TWO_SIDED|95.0|7.9|9.5|||Poisson Regression|||Pneumonia, recurrent: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||9.5|7.9|<0.001
82379044|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|97.1|||<|0.001|TWO_SIDED|95.0|75.5|124.8|||Poisson Regression|||Cytomegalovirus: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||124.8|75.5|<0.001
82379045|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|60.2|||<|0.001|TWO_SIDED|95.0|48.3|74.9|||Poisson Regression|||Esophageal Candidiasis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||74.9|48.3|<0.001
82379046|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|98.4|||<|0.001|TWO_SIDED|95.0|70.8|136.8|||Poisson Regression|||Mycobacterium avium complex: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||136.8|70.8|<0.001
82379047|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|189.5|||<|0.001|TWO_SIDED|95.0|112.3|319.5|||Poisson Regression|||Cryptococcosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||319.5|112.3|<0.001
82379048|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|6.2|||<|0.001|TWO_SIDED|95.0|5.2|7.4|||Poisson Regression|||Mycobacterium tuberculosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||7.4|5.2|<0.001
82511835|NCT03337724|164716355|SUPERIORITY||Stratified Hazard Ratio|1.0||||0.9965|TWO_SIDED|95.0|0.71|1.4|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).|||1.40|0.71|0.9965
82511836|NCT03337724|164716363|SUPERIORITY||Stratified Hazard Ratio|1.08|||||TWO_SIDED|95.0|0.73|1.58|||||Stratification was done prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, tumor PIK3CA/AKT1/PTEN alteration status (PIK3CA/AKT1-activating mutations vs. PTEN alterations with no PIK3CA/AKT1-activating mutations).|||1.58|0.73|
82511837|NCT03337724|164716363|SUPERIORITY||Stratified Hazard Ratio|0.94|||||TWO_SIDED|95.0|0.65|1.37|||||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).|||1.37|0.65|
82379049|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|594.5|||<|0.001|TWO_SIDED|95.0|146.5|2411.7|||Poisson Regression|||Progressive multifocal leukoencephalopathy: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||2411.7|146.5|<0.001
82511838|NCT03337724|164716366|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.2162|TWO_SIDED|95.0|0.83|2.22|||Log Rank||Stratification variables were: prior adjuvant/neoadjuvant chemotherapy (yes vs. no), region, prior therapy with a PI3K or mTOR inhibitor (yes vs. no).||Stratified Analysis|2.22|0.83|0.2162
82379050|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|10.6|||<|0.001|TWO_SIDED|95.0|7.8|14.4|||Poisson Regression|||Lung Candidiasis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||14.4|7.8|<0.001
82523201|NCT02038894|164741687|NON_INFERIORITY|A previous study found an incidence of respiratory complications of 9.1%. 200 subjects per group was estimated provide 82% power to detect a difference when conducting a two- sided test at a significance level of a = 0.05.We did an interim analysis when 60 children per group were recruited because of a clinical impression that one of the techniques had a grossly divergent incidence of respiratory complications. Based on the results of that interim analysis, recruitment was discontinued|Odds Ratio (OR)|0.0||||0.0001|TWO_SIDED|95.0|0.0|0.27||p\<0.05. Sp02\<85%|Mean equality test||Odds ratios were calculated to the respiratory complications comparing the different groups and by regrouping by the differences in airway management (IS + IP vs NA) and by the medication used for anesthesia maintenance (IS vs IP + NA)|||0.27|0|0.0001
82632983|NCT01040728|164982035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.178|0.251|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.251|0.178|<0.0001
82379051|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|51.5|||<|0.001|TWO_SIDED|95.0|30.3|87.5|||Poisson Regression|||Toxoplasmosis of brain: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||87.5|30.3|<0.001
82632984|NCT01040728|164982035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.208|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.208|<0.0001
82632985|NCT01040728|164982035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.199|0.271|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.271|0.199|<0.0001
82632986|NCT01040728|164982036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.201|0.273|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.273|0.201|<0.0001
82632987|NCT01040728|164982036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.266|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.23|0.302|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.302|0.230|<0.0001
82632988|NCT01040728|164982036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.138|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.211|0.138|<0.0001
82632989|NCT01040728|164982037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.169|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.246|0.169|<0.0001
82632990|NCT01040728|164982037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.205|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.205|<0.0001
82632991|NCT01040728|164982037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.205|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.282|0.205|<0.0001
82632992|NCT01040728|164982038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.097|0.171|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.171|0.097|<0.0001
82632993|NCT01040728|164982038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.105|0.181|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.181|0.105|<0.0001
82632994|NCT01040728|164982038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.12|0.195|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.195|0.120|<0.0001
82632995|NCT01040728|164982039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.276|0.384|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.384|0.276|<0.0001
82632996|NCT01040728|164982039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.326|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.272|0.381|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.381|0.272|<0.0001
82632997|NCT01040728|164982039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.316|0.424|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.424|0.316|<0.0001
82632998|NCT01040728|164982040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.214|0.342|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.342|0.214|<0.0001
82632999|NCT01040728|164982040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.2|0.329|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.329|0.200|<0.0001
82633000|NCT01040728|164982040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.238|0.366|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.366|0.238|<0.0001
82633001|NCT01040728|164982041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.244|0.363|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.363|0.244|<0.0001
82633002|NCT01040728|164982041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.222|0.343|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.343|0.222|<0.0001
82633003|NCT01040728|164982041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.335|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.275|0.395|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.395|0.275|<0.0001
82633004|NCT01040728|164982042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.309|0.43|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.430|0.309|<0.0001
82633005|NCT01040728|164982042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.366|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.306|0.426|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.426|0.306|<0.0001
82633006|NCT01040728|164982042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.202|0.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.322|0.202|<0.0001
82633007|NCT01040728|164982043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.344|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.287|0.401|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.401|0.287|<0.0001
82633008|NCT01040728|164982043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.296|0.411|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.411|0.296|<0.0001
82633009|NCT01040728|164982043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.314|0.427|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.427|0.314|<0.0001
82379052|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|6.2|||<|0.001|TWO_SIDED|95.0|3.0|12.9|||Poisson Regression|||Coccidiomycosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||12.9|3.0|<0.001
82633010|NCT01040728|164982044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.334|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.272|0.396|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.396|0.272|<0.0001
82633011|NCT01040728|164982044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.346|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.283|0.408|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.408|0.283|<0.0001
82523202|NCT02038894|164741688|NON_INFERIORITY|No previous data was available to calculate a power calculation for the secondary outcome.||||||0.901||||||Threshold of Significance|Mean equality test|||Total OR Time||||0.901
82633012|NCT01040728|164982044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.378|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.316|0.44|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.440|0.316|<0.0001
82633013|NCT01040728|164982045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.179|0.309|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.309|0.179|<0.0001
82633014|NCT01040728|164982045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.15|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.150|<0.0001
82633015|NCT01040728|164982045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.191|0.321|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.321|0.191|<0.0001
82633016|NCT01012037|164982060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.97|-0.52|||ANCOVA|||Linagliptin 2.5mg bid versus Placebo||-0.52|-0.97|<0.0001
82633017|NCT01012037|164982060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.02|-0.58|||ANCOVA|||Linagliptin 5mg qd versus Placebo||-0.58|-1.02|<0.0001
82633018|NCT01012037|164982060|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.07|0.19|||ANCOVA|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.19|-0.07|
82633019|NCT01012037|164982061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.83|-0.48|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-0.48|-0.83|<0.0001
82511839|NCT02099721|164716393|EQUIVALENCE|The equivalence margin is a hazard ratio significantly above 0.70.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.38|0.57|||||The hazard ratio, estimated by a Cox proportional hazard model, has time to first treated VT/VF for 1.5 Prevention in the numerator, with Secondary Prevention in the denominator.|"H0: Hazard ratio of Implanted 1.5 patients (Group C) to implanted secondary patients (Group A) ≤ 0.70~HA: Hazard ratio of Implanted 1.5 patients (Group C) to implanted secondary patients (Group A) \> 0.70"||0.57|0.38|
82511840|NCT02099721|164716394|SUPERIORITY|A hazard ratio significantly below 1 indicates reduced mortality in the 1.5 implanted group.|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.4|0.66||The p-value is for the effect of treatment group on time to death, adjusting for the baseline covariates of age, gender, QRS duration, ischemic cardiomyopathy, LBBB, NYHA classification, diabetes, LVEF, syncope, NSVT and PVCs.|Wald chi-square||Multiple imputations were employed to account for missing baseline covariates.|The null hypothesis is that the hazard ratio of implanted to non-implanted 1.5 patients = 1. The alternative is that the ratio is not equal to 1.||0.66|0.40|< 0.0001
82511841|NCT00844545|164716425|SUPERIORITY_OR_OTHER||LS mean change from baseline|65.18|||<|0.0001|TWO_SIDED|95.0|37.01|93.36|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||With at least 12 patients enrolled and assuming a null hypothesis of no post-dose change from baseline in mean platelet count, the study had approximately 88% power to detect as statistically significant an effect size (mean change from baseline/standard deviation) of at least 1 when using a one sample t-test with a two-sided α=0.05. All analyses were based on the pooled data from the two protocols: C08-002A (adult) and C08-002B (adolescent), a similar protocol, for patients \<18 years with aHUS.||93.36|37.01|<0.0001
82511842|NCT00844545|164716426|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|82.0|||||TWO_SIDED|95.0|57.0|96.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||96|57|
82511843|NCT00844545|164716427|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
82511844|NCT00844545|164716428|SUPERIORITY_OR_OTHER||Percent of complete TMA response|65.0|||||TWO_SIDED|95.0|38.0|86.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||86|38|
82511845|NCT00844545|164716429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
82511846|NCT00844545|164716430|SUPERIORITY_OR_OTHER||LS mean change from baseline|111.62|||<|0.0001|TWO_SIDED|95.0|98.12|125.13|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||125.13|98.12|<0.0001
82511847|NCT00844545|164716431|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
82511848|NCT00844545|164716432|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
82511849|NCT00844545|164716433|SUPERIORITY_OR_OTHER||Percent of complete TMA response|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
82511850|NCT00844545|164716434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
82523706|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0||||0.494|TWO_SIDED|95.0|-28.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 24||58|-28|0.494
82523707|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.807|TWO_SIDED|95.0|-31.0|40.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 4||40|-31|0.807
82523708|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.386|TWO_SIDED|95.0|-20.0|51.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 4||51|-20|0.386
82523709|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.0||||0.089|TWO_SIDED|95.0|-4.8|67.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 4||67|-4.8|0.089
82633020|NCT01012037|164982061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.84|-0.49|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-0.49|-0.84|<0.0001
82633021|NCT01012037|164982061|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.05||||95.0|-0.1|0.1|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.10|-0.10|
82633022|NCT01012037|164982062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.0|-0.54|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-0.54|-1.00|<0.0001
82633023|NCT01012037|164982062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.05|-0.59|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-0.59|-1.05|<0.0001
82633024|NCT01012037|164982062|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin was +0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.08|0.18|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Linagliptin 5mg qd||0.18|-0.08|
82633025|NCT01012037|164982063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|4.6||0.0029||95.0|-22.7|-4.7|||ANCOVA|||Linagliptin 2.5mg bid versus Placebo||-4.7|-22.7|0.0029
82633026|NCT01012037|164982063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|4.6||0.0001||95.0|-26.7|-8.8|||ANCOVA|||Linagliptin 5 mg qd versus Placebo||-8.8|-26.7|0.0001
82633027|NCT01012037|164982063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-1.0|9.2|||ANCOVA||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||9.2|-1.0|
82633028|NCT01012037|164982064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.6|STANDARD_ERROR_OF_MEAN|4.4||0.0002||95.0|-25.3|-7.8|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||-7.8|-25.3|0.0002
82633029|NCT01012037|164982064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.9|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001||95.0|-27.6|-10.2|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-10.2|-27.6|<0.0001
82633030|NCT01012037|164982064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|2.5||||95.0|-2.6|7.3|||Mixed Models Analysis||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||7.3|-2.6|
82633031|NCT01012037|164982065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|5.4||0.0653||95.0|-20.6|0.6|||Mixed Models Analysis|||Linagliptin 2.5mg bid versus Placebo||0.6|-20.6|0.0653
82633032|NCT01012037|164982065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|5.4||0.0047||95.0|-25.8|-4.7|||Mixed Models Analysis|||Linagliptin 5mg qd versus Placebo||-4.7|-25.8|0.0047
82379053|NCT01339403|164466992|SUPERIORITY_OR_OTHER||Rate ratio|13.0|||<|0.0001|TWO_SIDED|95.0|7.4|23.1|||Poisson Regression|||Histoplasmosis: Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||23.1|7.4|<0.0001
82523710|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.958|TWO_SIDED|95.0|-45.0|43.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 8||43|-45|0.958
82633033|NCT01012037|164982065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|3.0||||95.0|-0.7|11.3|||Mixed Models Analysis||No non-inferiority margin was pre-defined for FPG|Linagliptin 2.5mg bid versus Linagliptin 5mg qd||11.3|-0.7|
82633034|NCT02237898|164982074|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82633035|NCT00415623|164982080|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7|||<|0.001||95.0|-9.0|-4.4|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough SBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-4.4|-9.0|<0.001
82633036|NCT00415623|164982081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|||<|0.001||95.0|-5.7|-2.5|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough DBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-2.5|-5.7|<0.001
82633037|NCT00415623|164982082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|||<|0.001||95.0|-9.1|-5.1|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough SBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-5.1|-9.1|<0.001
82633038|NCT00415623|164982083|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||<|0.001||95.0|-5.4|-2.6|||ANCOVA|||The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). ANCOVA models with the trough DBP at baseline, body weight, and age as covariates, and the treatment group and study site as factors was used. The test was performed with a significance level of 0.05 (two-sided).||-2.6|-5.4|<0.001
82633039|NCT00415623|164982084|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.002||95.0|1.36|3.99|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||3.99|1.36|0.002
82379054|NCT01339403|164466993|SUPERIORITY_OR_OTHER||Rate ratio|4.7|||<|0.001|TWO_SIDED|95.0|4.3|5.1|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||5.1|4.3|<0.001
82379055|NCT01339403|164466994|SUPERIORITY_OR_OTHER||Rate ratio|7.0|||<|0.001|TWO_SIDED|95.0|6.0|8.2|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||8.2|6.0|<0.001
82633040|NCT00415623|164982085|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.46|||<|0.001||95.0|2.28|8.74|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||8.74|2.28|<0.001
82633041|NCT00415623|164982086|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55||||0.001||95.0|1.5|4.36|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||4.36|1.50|0.001
82633042|NCT00415623|164982087|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.16|||<|0.001||95.0|2.12|8.19|||Regression, Logistic|||Proportions of participants (responder rates) were used for the statistical analyses. The hypothesis of no group differences (null hypothesis) was tested against that of the amlodipine 10 mg arm being superior to the amlodipine 5 mg arm (alternative hypothesis). The test was conducted based on a logistic regression model with baseline SBP value and body weight as covariates, and treatment group and age (\<=64, \>=65) as a factor. The significance level was 0.05 (two-sided).||8.19|2.12|<0.001
82633043|NCT01369069|164982090|SUPERIORITY||Risk Ratio (RR)|0.97||||0.55|TWO_SIDED|95.0|0.87|1.08||The a priori threshold for statistical significance was 0.05.|Regression, Logistic||Adjusted for baseline NIHSS strata (3-7, 8-14, 15-22) and thrombolysis use (Yes/No; includes both IV and IA therapies). Multiple imputation was used for missing data.|It was hypothesized that intensive blood glucose control would be efficacious and safe in acute ischemic stroke patients compared to standard glucose control.||1.08|0.87|0.55
82633044|NCT01369069|164982091|SUPERIORITY||Risk Difference (RD)|2.58|||<|0.001|TWO_SIDED|95.0|1.29|3.87|||Fisher Exact||The data of the estimation parameter and the confidence intervals were presented as percentages.|||3.87|1.29|<0.001
82633045|NCT01369069|164982092|SUPERIORITY||Risk Difference (RD)|-1.07||||0.77|TWO_SIDED|95.0|-8.33|6.2|||Chi-squared||The data of the estimation parameter and the confidence intervals were presented as percentages.|||6.20|-8.33|0.77
82379056|NCT01339403|164466995|SUPERIORITY_OR_OTHER||Rate ratio|8.3|||<|0.001|TWO_SIDED|95.0|7.1|9.6|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||9.6|7.1|<0.001
82379057|NCT01339403|164466996|SUPERIORITY_OR_OTHER||Rate ratio|5.6|||<|0.001|TWO_SIDED|95.0|5.3|5.9|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||5.9|5.3|<0.001
82633046|NCT01369069|164982093|SUPERIORITY||Risk Difference (RD)|0.48||||0.88|TWO_SIDED|95.0|-5.79|6.75|||Chi-squared||The data of the estimation parameter and the confidence intervals were presented as percentages.|||6.75|-5.79|0.88
82633047|NCT01369069|164982094|SUPERIORITY||Median Difference (Final Values)|0.06||||0.74|TWO_SIDED|95.0|-0.13|0.25|||Wilcoxon (Mann-Whitney)|||||0.25|-0.13|0.74
82633048|NCT01369069|164982095|SUPERIORITY||Risk Ratio (RR)|0.82||||0.24|TWO_SIDED|95.0|0.58|1.15|||Chi-squared|||||1.15|0.58|0.24
82633049|NCT02573012|164982096|SUPERIORITY||Least Square Means|0.613||||0.001|TWO_SIDED|95.0|0.346|0.879|||ANCOVA|||||0.879|0.346|0.001
82633050|NCT02573012|164982097|SUPERIORITY||Odds Ratio (OR)|0.5||||0.018|TWO_SIDED|95.0|0.285|0.889|||Regression, Logistic|||||0.889|0.285|0.018
82633051|NCT02573012|164982097|SUPERIORITY||Relative Risk|0.833||||0.021|TWO_SIDED|95.0|0.714|0.972|||Cochran-Mantel-Haenszel|||||0.972|0.714|0.021
82633052|NCT02573012|164982098|SUPERIORITY||Least Square Mean|2.342||||0.006|TWO_SIDED|95.0|0.661|4.023|||ANCOVA|||||4.023|0.661|0.006
82633053|NCT02573012|164982118|SUPERIORITY||Least Square Means|2.264||||0.009||95.0|0.574|3.953|||ANCOVA|||||3.953|0.574|0.009
82633054|NCT02096471|164982125|SUPERIORITY|Single group study. Change in Pain from Baseline amongst those with a tumor response|Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|0.84||0.11|TWO_SIDED||||||t-test, 2 sided|Descriptive analysis only||Single group change from baseline||||0.11
82633055|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Pain from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.8||0.01|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.01
82511851|NCT01532687|164716442|SUPERIORITY|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.017|||||||Gehan-Wilcoxon|||Statistical results are for the full randomized population (n = 54). The study was originally designed with overall one-sided alpha of 5%, where a total of 73 patients (36 in the gemcitabine + placebo arm, and 37 in the gemcitabine + pazopanib arm) were required to achieve 80% power to detect a 2.5 month increase in median PFS (a hazard ratio of 0.55) between the two treatment arms. Study was closed early by the sponsor due to slow accrual and funds and thus was under powered.||||0.017
82379058|NCT01339403|164466997|SUPERIORITY_OR_OTHER||Rate ratio|19.8|||<|0.001|TWO_SIDED|95.0|11.2|35.2|||Poisson Regression|||Poisson regression models were used to analyze rates of clinical events by HIV and unadjusted incidence rate ratios compared risk in HIV-uninfected persons to HIV-infected persons.||35.2|11.2|<0.001
82511852|NCT01532687|164716442|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.195|||||||Gehan-Wilcoxon|||Comparison between the two arms for the liposarcoma subgroup||||0.195
82511853|NCT01532687|164716442|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.079|||||||Gehan-Wilcoxon|||Statistical results are for the 'other' sarcoma subgroup (n = 38)||||0.079
82568940|NCT02705625|164847961|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in WOMAC stiffness score at Week 26.|Mean Difference (Final Values)|-4.95||||0.0861|TWO_SIDED|95.0|-12.1|2.17||p-values reported are unadjusted p-values for tests of significance for the lower one-tailed alternative hypothesis Ha: Reduction in WOMAC Stiffness score is higher in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline WOMAC stiffness score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||2.17|-12.1|0.0861
82379059|NCT03983980|164466998|SUPERIORITY||Risk Ratio (RR)|6.1|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82633056|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Pain from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.66||0.18|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.18
82633057|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life (QOL) from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-3.77|STANDARD_ERROR_OF_MEAN|3.6||0.3|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.30
82379060|NCT03983980|164466999|SUPERIORITY||Risk Ratio (RR)|6.53|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82379061|NCT03983980|164467000|SUPERIORITY||Risk Ratio (RR)|4.55|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82379062|NCT03983980|164467001|SUPERIORITY||Least squares mean difference|-4.32|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82633058|NCT02096471|164982125|SUPERIORITY|Single Group Study Change in Quality of Life from Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|6.87||0.61|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.61
82633059|NCT02096471|164982125|SUPERIORITY|Single Group Study Change in Baseline amongst those with a Tumor Response|Mean Difference (Final Values)|-13.06|STANDARD_ERROR_OF_MEAN|8.29||0.12|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.12
82568941|NCT02705625|164847962|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in CTX-I score at Week 26.|Mean Difference (Final Values)|-0.254|||<|0.0001|TWO_SIDED|95.0|-0.302|-0.206||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-I score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-I score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-0.206|-0.302|<0.0001
82568942|NCT02705625|164847962|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in CTX-I score at Week 26.|Mean Difference (Final Values)|-0.145|||<|0.0001|TWO_SIDED|95.0|-0.193|-0.0983||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-I score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-I score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-0.0983|-0.193|<0.0001
82568943|NCT02705625|164847963|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 200 mg versus placebo with respect to mean change from baseline in CTX-II score at Week 26.|Mean Difference (Final Values)|-270.0|||<|0.0001|TWO_SIDED|95.0|-339.0|-201.0||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-II score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by-time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-II score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-201|-339|<0.0001
82568944|NCT02705625|164847963|SUPERIORITY|One model is fit for all comparison groups (MIV-711 200 mg, MIV-711 100 mg and placebo). This analysis reports the contrast that compares 100 mg versus placebo with respect to mean change from baseline in CTX-II score at Week 26.|Mean Difference (Final Values)|-193.0|||<|0.0001|TWO_SIDED|95.0|-262.0|-124.0||p-values reported are unadjusted p-values for tests of significance for the upper one-tailed alternative hypothesis Ha: CTX-II score is lower in the active treatment arm compared to placebo.|Mixed Models Analysis|||"A linear mixed model based on the mITT population was used. The model included fixed factors for treatment, time (measured in weeks), the interaction for treatment-by- time, baseline analgesic user (Yes/No), and random effect for clinical site. Baseline CTX-II score was included as a covariate for adjustment.~An unstructured covariance matrix was used to model the covariance pattern in the mixed effects model."||-124|-262|<0.0001
82568945|NCT00863798|164847964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.175|TWO_SIDED|95.0|-0.38|2.1||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare DVS SR 10 mg to placebo. The comparison was performed at the 0.05 level overall.||2.10|-0.38|0.175
82568946|NCT00863798|164847964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51||||0.421|TWO_SIDED|95.0|-0.73|1.75||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare DVS SR 10 mg to placebo. The comparison was performed at the 0.05 level overall.||1.75|-0.73|0.421
82568947|NCT00863798|164847965|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.076
82511854|NCT01532687|164716444|SUPERIORITY|Analysis was not powered for secondary endpoints. Given the study closed early due to slow enrollment, we do not anticipate detecting a statistical difference between the two groups||||||0.5||||||Yate's continuity correction was applied because of the number of subjects and successes (n = 4)|One-sided Proportions Test|||Statistical results are for the full randomized population (n = 54). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction)||||0.5
82511855|NCT01532687|164716444|SUPERIORITY|||||||0.3||||||Yate's continuity correction was applied because of small number of participants (n = 16) and successes (n = 2).|One-sided Proportion Test|||Statistical results are for the Liposarcoma group (n = 16). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction). Analysis was not powered for the secondary endpoints. Given the study closed early due to slow enrollment we do not anticipate detecting a statistical difference between the groups.||||0.3
82633060|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-12.98|STANDARD_ERROR_OF_MEAN|6.35||0.05|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only.||Single Group Change from Baseline||||0.05
82379063|NCT03983980|164467002|SUPERIORITY||Risk Ratio (RR)|7.25|||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82379064|NCT04090125|164467003|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.485|TWO_SIDED|95.0|-0.9|0.43|||Mixed Models Analysis|||||0.43|-0.90|0.485
82379065|NCT04090125|164467004|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.0887|TWO_SIDED|95.0|-1.13|0.08|||Mixed Models Analysis|||||0.08|-1.13|0.0887
82379066|NCT04090125|164467005|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.296|TWO_SIDED|95.0|-0.05|0.13|||Mixed Models Analysis|||||0.13|-0.05|0.296
82568948|NCT00863798|164847965|SUPERIORITY_OR_OTHER|||||||0.204|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.204
82379067|NCT04090125|164467006|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.094|TWO_SIDED|95.0|-0.15|0.01|||Mixed Models Analysis|||||0.01|-0.15|0.094
82379068|NCT04090125|164467007|SUPERIORITY||Mean Difference (Final Values)|3.85||||0.11|TWO_SIDED|95.0|-0.91|8.62|||Mixed Models Analysis|||||8.62|-0.91|0.11
82379069|NCT04090125|164467008|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.55|TWO_SIDED|95.0|-4.1|7.59|||Mixed Models Analysis|||||7.59|-4.10|0.55
82523711|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0||||0.766|TWO_SIDED|95.0|-37.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 8||50|-37|0.766
82379070|NCT04090125|164467009|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.134|TWO_SIDED|95.0|-0.34|0.05|||Mixed Models Analysis|||||0.05|-0.34|0.134
82379071|NCT04090125|164467010|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.09|TWO_SIDED|95.0|-0.38|0.03|||Mixed Models Analysis|||||0.03|-0.38|0.09
82379072|NCT04090125|164467011|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.25|TWO_SIDED|95.0|-0.16|0.04|||Mixed Models Analysis|||||0.04|-0.16|0.25
82379073|NCT04090125|164467012|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.16|TWO_SIDED|95.0|-0.22|0.04|||Mixed Models Analysis|||||0.04|-0.22|0.16
82379074|NCT04090125|164467013|SUPERIORITY||Mean Difference (Final Values)|21.36||||0.167|TWO_SIDED|95.0|-9.29|52.02|||Mixed Models Analysis|||||52.02|-9.29|0.167
82379075|NCT04090125|164467014|SUPERIORITY||Mean Difference (Final Values)|25.15||||0.189|TWO_SIDED|95.0|-12.85|63.14|||Mixed Models Analysis|||||63.14|-12.85|0.189
82511856|NCT01532687|164716444|SUPERIORITY|||||||0.8||||||Yate's continuity correction was applied because of the small number of participants and successes (n = 2).|One-sided Proportion Test|||Statistical results are for the Other Sarcoma group (n = 38). The study tests whether gemcitabine plus pazopanib is superior to gemcitabine plus placebo (one-sided proportion test with Yate's continuity correction). Analysis was not powered for secondary endpoints. Given the study closed early due to slow enrollment, we do not anticipate detecting a statistical difference between the two groups.||||0.8
82511857|NCT01532687|164716445|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.481|||||||Gehan-Wilcoxon|||Overall survival estimated among all randomized participants (n = 54)||||0.481
82511858|NCT01532687|164716445|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.353|||||||Gehan-Wilcoxon|||Overall survival compared between the two arms for the liposarcoma subgroup (n = 16)||||0.353
82568949|NCT00863798|164847966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.13|TWO_SIDED|95.0|-0.04|0.35|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.35|-0.04|0.130
82568950|NCT00863798|164847966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.757|TWO_SIDED|95.0|-0.16|0.23|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.23|-0.16|0.757
82568951|NCT00863798|164847967|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.41||||0.114|TWO_SIDED|95.0|-0.34|3.16|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||3.16|-0.34|0.114
82568952|NCT00863798|164847967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.316|TWO_SIDED|95.0|-0.85|2.64|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||2.64|-0.85|0.316
82568953|NCT00863798|164847968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.054|TWO_SIDED|95.0|-0.01|1.5|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.50|-0.01|0.054
82568954|NCT00863798|164847968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.253|TWO_SIDED|95.0|-0.32|1.2|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.20|-0.32|0.253
82568955|NCT00863798|164847969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.254||||0.2415|TWO_SIDED|95.0|0.86|1.83|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.83|0.86|0.2415
82568956|NCT00863798|164847969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.102||||0.6169|TWO_SIDED|95.0|0.75|1.61|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.61|0.75|0.6169
82568957|NCT00863798|164847970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.236||||0.3667|TWO_SIDED|95.0|0.78|1.96|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.96|0.78|0.3667
82568958|NCT00863798|164847970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.894||||0.6509|TWO_SIDED|95.0|0.55|1.45|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.45|0.55|0.6509
82568959|NCT00863798|164847971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.182||||0.3893|TWO_SIDED|95.0|0.81|1.73|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.73|0.81|0.3893
82379076|NCT04090125|164467019|SUPERIORITY||Mean Difference (Final Values)|2.51||||0.42|TWO_SIDED|95.0|-3.65|8.67|||Mixed Models Analysis|||Pain subscale||8.67|-3.65|0.42
82568960|NCT00863798|164847971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.551|TWO_SIDED|95.0|0.77|1.65|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.65|0.77|0.5510
82568961|NCT00863798|164847972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.442||||0.0536|TWO_SIDED|95.0|0.99|2.09|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor.||2.09|0.99|0.0536
82568962|NCT00863798|164847972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.085||||0.6679|TWO_SIDED|95.0|0.75|1.57|||Regression, Logistic|||Analysis would be conducted with a logistic regression model with treatment as a factor.||1.57|0.75|0.6679
82568963|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.033|TWO_SIDED|95.0|0.12|2.79|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score."||2.79|0.12|0.033
82568964|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.096|TWO_SIDED|95.0|-0.2|2.49|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score."||2.49|-0.20|0.096
82568965|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.043|TWO_SIDED|95.0|0.02|0.95|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score."||0.95|0.02|0.043
82633061|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|6.66|STANDARD_ERROR_OF_MEAN|5.05||0.19|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.19
82633062|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|6.46||0.72|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.72
82633063|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|6.74||0.36|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.36
82633064|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|6.37||0.98|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.98
82379077|NCT04090125|164467019|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.76|TWO_SIDED|95.0|-6.29|8.57|||Mixed Models Analysis|||Symptoms subscale||8.57|-6.29|0.76
82633065|NCT02096471|164982125|SUPERIORITY|Single Group Study. change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|7.99||0.93|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.93
82633066|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-10.97|STANDARD_ERROR_OF_MEAN|8.16||0.19|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.19
82511859|NCT01532687|164716445|OTHER|Log-log plots revealed crossing of the curves at late time points, indicating a possible interaction between treatment arms over time. We used the Gehan-Wilcoxon test, which weights early differences between groups, to test whether there is a difference between the treatment arms early in the study.||||||0.408|||||||Gehan-Wilcoxon|||Overall survival comparison between the two treatment arms for the other sarcoma group (n = 38)||||0.408
82568966|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.027|TWO_SIDED|95.0|0.06|1.0|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score."||1.00|0.06|0.027
82633067|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|6.58||0.57|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.57
82633068|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|5.51||0.45|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.45
82379078|NCT04090125|164467019|SUPERIORITY||Mean Difference (Final Values)|-3.54||||0.46|TWO_SIDED|95.0|-13.2|6.12|||Mixed Models Analysis|||Quality of life subscale||6.12|-13.20|0.46
82379079|NCT04090125|164467019|SUPERIORITY||Mean Difference (Final Values)|2.54||||0.22|TWO_SIDED|95.0|-1.61|6.69|||Mixed Models Analysis|||Function in daily life||6.69|-1.61|0.22
82379080|NCT04090125|164467020|SUPERIORITY||Mean Difference (Final Values)|1.43||||0.65|TWO_SIDED|95.0|-4.98|7.85|||Mixed Models Analysis|||Pain subscale||7.85|-4.98|0.65
82511860|NCT02915029|164716484|SUPERIORITY|The primary hypothesis being tested was that the intervention will increase patient activation.|Mean Difference (Net)|8.7||||0.01|TWO_SIDED|95.0|1.9|15.5|||ANCOVA|Primary outcome was change in PAM total score, adjusted for baseline level. Adjusting for family clustering with generalized estimated equations.|This reflects the between-group difference for the within-person change scores in PAM total score adjusting for baseline values per person.|Group 1(usual care) is the comparison group, group 2 is the intervention group.|Applied generalized estimating equations (GEE) to account for within family (household) clustering.|15.5|1.9|0.01
82511861|NCT00330551|164716514|SUPERIORITY||t-test|0.77|||=|0.05|TWO_SIDED|95.0|0.483|1.058|||t-test, 2 sided||||t(80)=5.3, p\<.001|1.058|0.483|=.05
82511862|NCT00330551|164716515|SUPERIORITY||Risk Difference (RD)|11.1|||=|0.001|TWO_SIDED||||||Chi-squared|||||||=.001
82511863|NCT00330551|164716516|SUPERIORITY||||||=|0.83|||||||Chi-squared|||||||=.83
82379081|NCT04090125|164467020|SUPERIORITY||Mean Difference (Final Values)|3.95||||0.32|TWO_SIDED|95.0|-3.93|11.83|||Mixed Models Analysis|||Symptoms subscale||11.83|-3.93|0.32
82379082|NCT04090125|164467020|SUPERIORITY||Mean Difference (Final Values)|1.64||||0.77|TWO_SIDED|95.0|-9.61|12.89|||Mixed Models Analysis|||Quality of life||12.89|-9.61|0.77
82379083|NCT04090125|164467020|SUPERIORITY||Mean Difference (Final Values)|3.25||||0.19|TWO_SIDED|95.0|-1.67|8.17|||Mixed Models Analysis|||Function in daily life||8.17|-1.67|0.19
82379084|NCT04090125|164467021|SUPERIORITY||Mean Difference (Final Values)|-1.95||||0.191|TWO_SIDED|95.0|-4.92|1.01|||Mixed Models Analysis|||||1.01|-4.92|0.191
82379085|NCT04090125|164467022|SUPERIORITY||Mean Difference (Final Values)|-5.45||||0.0004|TWO_SIDED|95.0|-8.28|-2.62|||Mixed Models Analysis|||||-2.62|-8.28|0.0004
82379086|NCT03440840|164467042|SUPERIORITY||Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|2.68||0.4|TWO_SIDED||||||Mixed Models Analysis|Estimated marginal means comparisons, Tukey adjustment||||||0.40
82379087|NCT03440840|164467043|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|2.04||0.37|TWO_SIDED|||||Estimated marginal means comparisons, Tukey adjustment|Mixed Models Analysis|||||||0.37
82379088|NCT03440840|164467044|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|2.04||0.37|TWO_SIDED||||||Mixed Models Analysis|Comparison of estimated marginal means, Tukey adjustment for multiple comparisons||||||0.37
82379089|NCT03440840|164467045|SUPERIORITY||Mean Difference (Final Values)|1.42|STANDARD_ERROR_OF_MEAN|2.77||0.61|TWO_SIDED||||||Mixed Models Analysis||Differences between estimated marginal means, Tukey correction for multiple comparisons.|||||0.61
82379090|NCT04688671|164467046|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.302||0.5605|TWO_SIDED|90.0|-0.32|0.68|||Mixed Models Analysis|||||0.68|-0.32|0.5605
82568967|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.045|TWO_SIDED|95.0|0.01|0.98|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life and leisure activities component score."||0.98|0.01|0.045
82442203|NCT02230683|164592932|SUPERIORITY_OR_OTHER||within group change|-0.46||||0.001|TWO_SIDED|95.0|-0.72|-0.21|||ANCOVA|||Statistical Analysis for the mean change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||-0.21|-0.72|0.001
82633069|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-6.27|STANDARD_ERROR_OF_MEAN|5.72||0.28|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.28
82511864|NCT00330551|164716517|SUPERIORITY||||||=|0.2|||||||ANOVA|||A priori hypothesis was that long-acting injectible risperidone would lead to greater duration of work/school attendance than oral risperidone.||||=.20
82511865|NCT00330551|164716518|SUPERIORITY|||||||0.71|||||||ANOVA|||||||.71
82511866|NCT00330551|164716519|SUPERIORITY||||||=|0.57|||||||ANOVA|||||||=.57
82511867|NCT00330551|164716521|SUPERIORITY||||||<|0.16|||||||ANOVA|||||||<.16
82511868|NCT00330551|164716522|SUPERIORITY||||||=|0.41|||||||ANOVA|||||||=.41
82511869|NCT03120013|164716532|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511870|NCT03120013|164716533|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511871|NCT03120013|164716534|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511872|NCT03120013|164716535|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511873|NCT03120013|164716536|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511874|NCT03120013|164716537|SUPERIORITY||||||=|0.006|||||||ANCOVA|||||||=0.006
82511875|NCT03120013|164716538|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82511876|NCT03120013|164716539|SUPERIORITY||||||=|0.043|||||||ANCOVA|||||||=0.043
82511877|NCT06561217|164716585|NON_INFERIORITY|A predefined non-inferiority margin of 0.05 was used. The primary study was powered on a retrospective, paired, non-inferiority design to evaluate abstraction accuracy of elements commonly used to help screen patients for clinical trials.|Mean Difference (Final Values)|0.02|||<|0.001|ONE_SIDED|95.0|0.00007515||||Wilcoxon (Mann-Whitney)||The upper bound of the 95% confidence interval is Inf due to the test being one-sided. Alternative hypothesis: true median location shift is greater than -0.05|A Shapiro-Wilk test was used to assess normality of paired differences in chart-level accuracy (alpha = 0.05). A one-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test the primary null hypothesis of whether chart-level accuracy of the Human+AI arm for EHR chart abstraction was non-inferior to the chart-level accuracy of a Human-alone arm abstraction by at least 5% (i.e., noninferiority margin).|||0.00007515|<0.001
82511878|NCT06561217|164716585|SUPERIORITY|The primary study was powered on a retrospective, paired, superiority design to evaluate abstraction accuracy of elements commonly used to help screen patients for clinical trials.|Mean Difference (Final Values)|0.02||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A Shapiro-Wilk test was used to assess normality of paired differences in chart-level accuracy (alpha = 0.05). A one-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test the null hypothesis of whether chart-level accuracy of the Human+AI arm for EHR chart abstraction was superior to the chart-level accuracy of a Human-alone arm abstraction.||||0.002
82511879|NCT06561217|164716586|EQUIVALENCE|Null hypothesis: True difference is equal to 0. Alternate hypothesis: true difference is not equal to 0|Median Difference (Final Values)|0.66||||0.513|TWO_SIDED|95.0|-1.25|2.55|||Wilcoxon (Mann-Whitney)|||A two-sided, paired Wilcoxon Rank Sum test (alpha = 0.05) was employed to test for difference between chart-level efficiency of the Human+AI arm and chart-level efficiency of the Human-alone arm abstraction.||2.55|-1.25|0.513
82511880|NCT01833403|164716596|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82511881|NCT02702401|164716598|SUPERIORITY||Hazard Ratio (HR)|0.775||||0.0186|TWO_SIDED|95.0|0.609|0.987|||Log Rank|One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.987|0.609|0.0186
82511882|NCT02702401|164716599|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.0238|TWO_SIDED|95.0|0.611|0.998|||Log Rank|One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.998|0.611|0.0238
82511883|NCT02702401|164716600|OTHER||Difference in Percent|13.8|||||TWO_SIDED|95.0|7.7|19.5|||||Miettinen \& Nurminen method stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||19.5|7.7|
82511884|NCT02702401|164716602|OTHER||Hazard Ratio (HR)|0.688||||0.0011|TWO_SIDED|95.0|0.54|0.877||One-sided p-value stratified by geographic region, macrovascular invasion and alfa-fetoprotein level.|Log Rank||Cox regression model with Efron's method (treatment as covariate) stratified by geographic region, macrovascular invasion and alfa-fetoprotein level|||0.877|0.540|0.0011
82511885|NCT00247728|164716610|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size is based on the paper 'Two-stage selection and testing design for comparative clinical trials', Thall, PF, Simon, R and Ellenberg, SS. Biometrika (1988),75,(2),303-310.||||||0.072||95.0|||||Chi-squared|||||||0.072
82511886|NCT00247728|164716610|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size is based on the paper 'Two-stage selection and testing design for comparative clinical trials', Thall, PF, Simon, R and Ellenberg, SS. Biometrika (1988),75,(2),303-310.||||||0.298||95.0|||||Chi-squared|||||||0.298
82511887|NCT00247728|164716611|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.087||95.0|||||Mantel Haenszel|||||||0.087
82511888|NCT00247728|164716611|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.653||95.0|||||Mantel Haenszel|||||||0.653
82511889|NCT01462357|164716613|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference (Gardasil 2 dose Group minus Cervarix 2 dose Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.16|1.15||||||Immune response to anti-HPV-16 in terms of seroconversion rates (SCR): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||1.15|-1.16|
82523712|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.0||||0.06||95.0|-1.7|87.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 8||87|-1.7|0.060
82379091|NCT02414958|164467096|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.66|-0.41|||Mixed effect Model Repeated Measures||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model Mixed effect Model Repeated Measures (MMRM) included the fixed categorical effects of treatment, pre-existing insulin therapy, visit , and treatment-by-visit interaction, as well as the continuous, fixed covariates of baseline HbA1c, baseline estimated glomerular filtration rate (eGFR), and baseline HbA1c-by- visit interaction. Patient was included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.41|-0.66|<0.0001
82442204|NCT02230683|164592932|SUPERIORITY_OR_OTHER||within group change|-0.04||||0.72|TWO_SIDED|95.0|-0.26|0.18|||ANCOVA|||Statistical Analysis for the median change in log-transformed caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||0.18|-0.26|0.72
82568968|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.277|TWO_SIDED|95.0|-0.22|0.76|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life and leisure activities component score."||0.76|-0.22|0.277
82568969|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.056|TWO_SIDED|95.0|-0.01|0.91|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score."||0.91|-0.01|0.056
82568970|NCT00863798|164847974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.355|TWO_SIDED|95.0|-0.24|0.68|||ANCOVA|||"Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score."||0.68|-0.24|0.355
82568971|NCT00863798|164847975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.002|TWO_SIDED|95.0|-2.53|-0.56|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||-0.56|-2.53|0.002
82568972|NCT00863798|164847975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.129|TWO_SIDED|95.0|-1.75|0.22|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.22|-1.75|0.129
82568973|NCT00863798|164847976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.3097|TWO_SIDED|95.0|0.52|1.23|||Regression, Linear|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.23|0.52|0.3097
82568974|NCT00863798|164847976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.272||||0.2794|TWO_SIDED|95.0|0.82|1.97|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.97|0.82|0.2794
82568975|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 8.||||0.805
82568976|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 9.||||0.805
82568977|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 10.||||0.978
82568978|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||Regression, Logistic|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 8.||||0.805
82568979|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.154|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 9.||||0.154
82568980|NCT00863798|164847978|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate was used at Week 10.||||0.805
82568981|NCT02509312|164848048|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82568982|NCT02509312|164848049|SUPERIORITY|||||||0.257|||||||Chi-squared|||||||.257
82568983|NCT02509312|164848050|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||||||0.085
82568984|NCT02509312|164848051|SUPERIORITY|||||||0.164|||||||Wilcoxon (Mann-Whitney)|||||||0.164
82568985|NCT02509312|164848052|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82568986|NCT02509312|164848053|SUPERIORITY||Risk Difference (RD)|-0.27||||0.0367|TWO_SIDED|95.0|-0.52|-0.03|||Chi-squared|||||-0.03|-0.52|0.0367
82568987|NCT02509312|164848054|SUPERIORITY|||||||0.0231|||||||Wilcoxon (Mann-Whitney)|||||||0.0231
82568988|NCT02509312|164848055|SUPERIORITY|||||||0.467|||||||Wilcoxon (Mann-Whitney)|||||||0.467
82568989|NCT02509312|164848056|SUPERIORITY|||||||0.273|||||||Wilcoxon (Mann-Whitney)|||||||0.273
82568990|NCT02509312|164848057|SUPERIORITY|||||||0.0162||||||p-value for 12 hours post-op between-group comparison.|t-test, 2 sided|||||||0.0162
82568991|NCT02509312|164848059|SUPERIORITY|||||||0.048||||||p-value for 6 hours post-op between-group comparison.|Wilcoxon (Mann-Whitney)|||||||0.048
82568992|NCT00702650|164848064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||One-Sample Binomial (Wald) test, 2-sided|||||||<0.001
82568993|NCT00702650|164848069|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Sexual Desire based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
82568994|NCT00702650|164848069|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Overall Sexual Activity Score based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
82568995|NCT00702650|164848069|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Erection Maintained for Satisfactory Duration based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
82568996|NCT00702650|164848069|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Positive Mood based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
82568997|NCT00702650|164848069|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Negative Mood based on a two-sided, paired t-test comparing the Baseline and the Day 120 scores.|t-test, 2 sided|||||||<0.0001
82568998|NCT00702650|164848070|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||p-value for Physical Component Score based on a one-sample t-test comparing Day 120 and Baseline values.|t-test, 2 sided|||||||0.0254
82568999|NCT00702650|164848070|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value for Mental Component Score based on a one-sample t-test comparing Day 120 and Baseline values.|t-test, 2 sided|||||||<0.0001
82633070|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|8.52||0.93|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.93
82442205|NCT02230683|164592933|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-21.0||||0.105|TWO_SIDED|95.0|-60.0|13.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT for the overall evaluable population treated with IDN-6556 25 mg twice daily||13|-60|0.105
82633071|NCT02096471|164982125|SUPERIORITY|Single Group Study. Change in Quality of Life from Baseline amongst those with a Tumor Response.|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|7.53||0.89|TWO_SIDED||||||t-test, 2 sided|Descriptive Analysis Only||Single Group Change from Baseline||||0.89
82523713|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.678|TWO_SIDED|95.0|-53.0|35.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 12||35|-53|0.678
82633072|NCT01809327|164982128|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.657|-0.269|||Mixed Model for Repeated Measures (MMRM)|||||-0.269|-0.657|0.001
82633073|NCT01809327|164982128|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.67|-0.28|||Mixed Model for Repeated Measures (MMRM)|||||-0.280|-0.670|0.001
82633074|NCT01809327|164982128|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.594|-0.207|||Mixed Model for Repeated Measures (MMRM)|||||-0.207|-0.594|0.001
82633075|NCT01809327|164982128|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.557|-0.169|||Mixed Model for Repeated Measures (MMRM)|||||-0.169|-0.557|0.001
82633076|NCT01809327|164982128|NON_INFERIORITY_OR_EQUIVALENCE|P value corresponds to a comparison that canagliflozin is noninferior to Metformin XR by a margin of 0.35%.|Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.258|0.133|||Mixed Model for Repeated Measures (MMRM)|||||0.133|-0.258|0.001
82633077|NCT01809327|164982128|NON_INFERIORITY_OR_EQUIVALENCE|P value corresponds to a comparison that canagliflozin is noninferior to Metformin XR by a margin of 0.35%.|Least-Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.099||0.001|TWO_SIDED|95.0|-0.307|0.082|||Mixed Model for Repeated Measures (MMRM)|||||0.082|-0.307|0.001
82633078|NCT01809327|164982129|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.016|TWO_SIDED|95.0|-1.6|-0.2|||Mixed Model for Repeated Measures (MMRM)|||||-0.2|-1.6|0.016
82633079|NCT01809327|164982129|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.4||0.002|TWO_SIDED|95.0|-2.6|-1.1|||Mixed Model for Repeated Measures (MMRM)|||||-1.1|-2.6|0.002
82633080|NCT01809327|164982129|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Model for Repeated Measures (MMRM)|||||-0.6|-2.1|0.001
82633081|NCT01809327|164982129|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.9|-1.4|||Mixed Model for Repeated Measures (MMRM)|||||-1.4|-2.9|0.001
82633082|NCT01809327|164982130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.027|TWO_SIDED|95.0|1.06|2.37|||Generalized Linear Mixed Model|||||2.37|1.06|0.027
82633083|NCT01809327|164982130|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.016|TWO_SIDED|95.0|1.46|3.33|||Generalized Linear Mixed Model|||||3.33|1.46|0.016
82633084|NCT01809327|164982131|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.882||0.06|TWO_SIDED|95.0|-3.641|-0.182|||Mixed Model for Repeated Measures (MMRM)|||||-0.182|-3.641|0.060
82633085|NCT01809327|164982131|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.889||0.147|TWO_SIDED|95.0|-3.058|0.431|||Mixed Model for Repeated Measures (MMRM)|||||0.431|-3.058|0.147
82633086|NCT01809327|164982132|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|2.1||0.147|TWO_SIDED|95.0|1.2|9.5|||ANCOVA|||||9.5|1.2|0.147
82633087|NCT01809327|164982132|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|2.1||0.147|TWO_SIDED|95.0|0.2|8.5|||ANCOVA|||||8.5|0.2|0.147
82633088|NCT01809327|164982133|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|-3.7||||0.608|TWO_SIDED|95.0|-11.1|3.4|||Wilcoxon (Mann-Whitney)|||||3.4|-11.1|0.608
82633089|NCT01809327|164982133|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|1.3||||0.806|TWO_SIDED|95.0|-7.3|10.0|||Wilcoxon (Mann-Whitney)|||||10.0|-7.3|0.806
82633090|NCT02545049|164982135|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0264|TWO_SIDED|95.0|0.76|0.98||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.98|0.76|0.0264
82633091|NCT02545049|164982136|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.87||||0.0689|TWO_SIDED|95.0|0.76|1.01||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.01|0.76|0.0689
82633092|NCT02545049|164982137|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.97||||0.3558|TWO_SIDED|95.0|0.9|1.04||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.04|0.90|0.3558
82633093|NCT02545049|164982138|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.89||||0.1337|TWO_SIDED|95.0|0.77|1.04||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.04|0.77|0.1337
82633094|NCT02545049|164982139|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Ratio of least squares means|0.676|||<|0.0001|TWO_SIDED|95.0|0.65|0.704||P-value from F-test of equal means between the treatment groups. A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|ANCOVA|||||0.704|0.650|<0.0001
82633095|NCT02545049|164982140|SUPERIORITY|If the treatment effect of the 40% renal composite endpoint was not significant, all other endpoints (i.e. all-cause hospitalization, all-cause mortality, change in UACR from baseline to Month 4, and 57% renal composite endpoint) would be tested in an exploratory manner.|Hazard Ratio (HR)|0.77||||0.0406|TWO_SIDED|95.0|0.6|0.99||A hierarchical testing procedure was used for the primary and secondary efficacy endpoints with each variable being tested at the adjusted two-sided significance level of 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.99|0.60|0.0406
82633096|NCT02985684|164982141|OTHER|Acceptable performance: favorably exclude PG=0.88 with 95% confidence. Expected 6-month closure success proportion = 0.98. Acceptable performance margin = 0.10. PG = 0.98 - 0.10 = 0.88.|Binomial proportion|1.0|||<|0.0001|ONE_SIDED|95.0|0.974|||A priori 1-sided alpha = 0.05. If test rejects H0, then test primary outcome 2 (clinical success) at 1-sided alpha = 0.05; otherwise testing stops with failure to reject both primary outcome null hypotheses.|Binomial test (exact)||Exact 1-sided confidence interval lower bound from Clopper-Pearson method.|"Test null hypothesis of equal or lesser proportion with 6-month closure success compared to a performance goal (PG).~H0: P ≤ 0.88 vs H1: P \> 0.88, where P is the true proportion of subjects with 6-month closure success and 0.88 is the PG derived from clinical study outcomes for devices indicated for ASD closure.~N=103 subjects provide ≥95% power to exclude PG with 95% confidence if P=0.98 under H1."|||0.974|<0.0001
82633097|NCT02985684|164982142|OTHER|Acceptable performance: favorably exclude PG=0.76 with 95% confidence. Expected 6-month clinical success proportion = 0.88. Acceptable performance margin = 0.12. PG = 0.88 - 0.12 = 0.76.|Binomial proportion|0.9|||<|0.0001|ONE_SIDED|95.0|0.843|||A priori 1-sided alpha = 0.05. If test of primary outcome 1 rejects H0, then test at 1-sided alpha = 0.05; otherwise no testing of this primary outcome and failure to reject null hypothesis.|Binomial test (exact)||Exact 1-sided confidence interval lower bound from Clopper-Pearson method.|"Test null hypothesis of equal or lesser proportion with 6-month clinical success compared to a performance goal (PG).~H0: P ≤ 0.76 vs H1: P \> 0.76, where P is the true proportion of subjects with 6-month clinical success and 0.76 is the PG derived from clinical study outcomes for devices indicated for ASD closure.~N=112 subjects provide 95% power to exclude PG with 95% confidence if P=0.88 under H1."|||0.843|<0.0001
82633098|NCT04652102|164982149|SUPERIORITY||Proportion|0.364|||||TWO_SIDED|95.826|0.299|0.433|||||Derived from an exact 2-sided 95.826% Pearson-Clopper confidence interval (CI) on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.433|0.299|
82511890|NCT01462357|164716613|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference (Gardasil 2 dose Group minus Cervarix 2 dose Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.15|1.14||||||Immune response to anti-HPV-18 in terms of SCR: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||1.14|-1.15|
82442206|NCT02230683|164592933|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-52.5||||0.016|TWO_SIDED|95.0|-109.0|-6.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG \< 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||-6|-109|0.016
82569000|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio be greater than 0.67.|GMT ratio|1.9|||<|0.001|TWO_SIDED|95.0|1.7|2.14||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||2.14|1.70|< 0.001
82569001|NCT00943722|164848089|NON_INFERIORITY|Non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|1.83|||<|0.001|TWO_SIDED|95.0|1.63|2.06||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||2.06|1.63|< 0.001
82569002|NCT00943722|164848089|NON_INFERIORITY|Non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|1.98|||<|0.001|TWO_SIDED|95.0|1.77|2.22||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||2.22|1.77|< 0.001
82569003|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.44|||<|0.001|TWO_SIDED|95.0|2.13|2.8||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||2.80|2.13|< 0.001
82569004|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.51|||<|0.001|TWO_SIDED|95.0|2.21|2.85||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||2.85|2.21|< 0.001
82569005|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.87|2.36||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||2.36|1.87|< 0.001
82569006|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.62|||<|0.001|TWO_SIDED|95.0|2.27|3.03||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||3.03|2.27|< 0.001
82569007|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.22|||<|0.001|TWO_SIDED|95.0|1.97|2.51||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||2.51|1.97|< 0.001
82569008|NCT00943722|164848089|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.18|||<|0.001|TWO_SIDED|95.0|1.93|2.45||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||2.45|1.93|< 0.001
82442207|NCT02230683|164592933|SUPERIORITY_OR_OTHER||Hodges-Lehmann|12.0||||0.839|TWO_SIDED|95.0|-60.0|13.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change of caspase-cleaved cytokeratin serum levels from Baseline to Day 28/EOT in the HVPG ≥ 12 mmHg subgroup population treated with IDN-6556 25 mg twice daily||13|-60|0.839
82511891|NCT01462357|164716614|NON_INFERIORITY|Non-inferiority with respect to GMT was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% CI for the GMT ratio (Gardasil 2 dose Group divided by Cervarix 2 dose Group) was below 2.|GMT ratio|0.61|||||TWO_SIDED|95.0|0.54|0.69|||ANOVA|||Immune response to anti-HPV-16 in terms of Geometric Mean Titers (GMT): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||0.69|0.54|
82511892|NCT01462357|164716614|NON_INFERIORITY|Non-inferiority with respect to GMT was shown if, one month after the last dose, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the GMT ratio (Gardasil 2 dose Group divided by Cervarix 2 dose Group) was below 2.|GMT ratio|0.23|||||TWO_SIDED|95.0|0.2|0.26|||ANOVA|||Immune response to anti-HPV-18 in terms of GMT: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is non-inferior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, 1 month after the last dose (Month 7), in initially seronegative subjects.||0.26|0.20|
82511893|NCT01462357|164716615|SUPERIORITY|Superiority was shown if the lower limit of the 95% CI for the ratio of GMTs (Cervarix 2 dose Group divided by Gardasil 2 dose Group) was above 1 for anti-HPV-18 antibodies.|GMT ratio|4.52||||0.0001|TWO_SIDED|95.0|3.97|5.13|||ANOVA|||Anti-HPV-18 immune response: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is superior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, in 9-14 year-old females, 1 month after the last dose (Month 7) regardless of serostatus.||5.13|3.97|0.0001
82511894|NCT01462357|164716615|SUPERIORITY|Superiority was shown if the lower limit of the 95% CI for the ratio of GMTs (Cervarix 2 dose Group divided by Gardasil 2 dose Group) was above 1 for anti-HPV-16 antibodies.|GMT ratio|1.69||||0.0001|TWO_SIDED|95.0|1.49|1.91|||ANOVA|||Anti-HPV-16 immune response: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months is superior to that of Gardasil vaccine administered according to a 2-dose schedule at 0, 6 months, in 9-14 year-old females, 1 month after the last dose (Month 7) regardless of serostatus.||1.91|1.49|0.0001
82511895|NCT04292730|164716637|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0174|TWO_SIDED|95.0|1.092|2.483||P-value was calculated using proportional odds model with treatment as the independent variable.|Proportional odds model|||Primary analysis||2.483|1.092|0.0174
82511896|NCT04292730|164716637|SUPERIORITY||Odds Ratio (OR)|1.31||||0.1826|TWO_SIDED|95.0|0.88|1.952||P-value was calculated using proportional odds model with treatment as the independent variable.|Proportional odds model|||Primary analysis||1.952|0.880|0.1826
82511897|NCT04292730|164716637|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0168|TWO_SIDED|95.0|1.095|2.497||P-value was calculated using proportional odds model with treatment as the independent variable and baseline clinical status as a nominal covariate.|Proportional odds model|||Secondary analysis||2.497|1.095|0.0168
82511898|NCT04292730|164716637|SUPERIORITY||Odds Ratio (OR)|1.29||||0.2186|TWO_SIDED|95.0|0.862|1.917||P-value was calculated using proportional odds model with treatment as the independent variable and baseline clinical status as a nominal covariate.|Proportional odds model|||Secondary analysis||1.917|0.862|0.2186
82511899|NCT04292730|164716638|SUPERIORITY||Difference in the Percentages|4.8||||0.3633|TWO_SIDED|95.0|-5.2|14.7||P-value was calculated from the Fisher exact test to compare each RDV group and the SOC group.|Fisher Exact|||||14.7|-5.2|0.3633
82511900|NCT04292730|164716638|SUPERIORITY||Difference in the Percentages|12.0||||0.0201|TWO_SIDED|95.0|1.6|21.8||P-value was calculated from the Fisher exact test to compare each RDV group and the SOC group.|Fisher Exact|||||21.8|1.6|0.0201
82511901|NCT00556842|164716657|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-6.37|||||TWO_SIDED|99.0|-9.18|-3.56||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC total at 24 months.||-3.56|-9.18|
82511902|NCT00556842|164716657|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-0.93|||||TWO_SIDED|99.0|-1.42|-0.44||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC pain at 24 months.||-0.44|-1.42|
82511903|NCT00556842|164716657|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-0.44|||||TWO_SIDED|99.0|-0.65|-0.23||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC stiffness at 24 months.||-0.23|-0.65|
82511904|NCT00556842|164716657|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|-4.97|||||TWO_SIDED|99.0|-7.11|-2.83||||||Using a multi-level model, the effect of THA versus HA on function (WOMAC) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for WOMAC function at 24 months.||-2.83|-7.11|
82511905|NCT00556842|164716658|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Odds Ratio (OR)|0.72|||||TWO_SIDED|99.0|0.38|1.36||||||Using a multi-level model, the effect of THA versus HA on mobility (TUG) was estimated. We analyzed the TUG as a dichotomous outcome with the following categories: a) patients who complete the test in ≤12 seconds, and b) those who require \>12 seconds to complete the test or were unable to complete the test. We selected 12 seconds as the cut-off because this was the threshold used by the Centers for Disease Control and Prevention. The TUG was summarized using odds ratios and 99% CIs.||1.36|0.38|
82442208|NCT02230683|164592934|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-4.0||||0.0084|TWO_SIDED|95.0|-7.0|0.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change in Alanine Aminotransferase (ALT) from Baseline to Day 28/EOT||0|-7|0.0084
82633099|NCT04652102|164982149|OTHER||Vaccine Efficacy|48.2||||0.016|TWO_SIDED|95.826|31.0|61.4||1-sided p-value from the exact binomial test on proportion of cases coming from the CVnCoV group among all cases (equivalent to a test on VE with H0: VE ≤30%). Statistically significant if lower than 0.02087.|Exact Binomial Test||2-sided 95.826% CI on VE, derived from the exact 2-sided 95.826% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Vaccine efficacy (VE) calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||61.4|31.0|0.01600
82633100|NCT04652102|164982161|SUPERIORITY||Proportion|0.245|||||TWO_SIDED|95.0|0.133|0.389|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.389|0.133|
82633101|NCT04652102|164982161|SUPERIORITY||Vaccine Efficacy|70.7|||||TWO_SIDED|95.0|42.5|86.1|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||86.1|42.5|
82633102|NCT04652102|164982162|SUPERIORITY||Proportion|0.286|||||TWO_SIDED|95.0|0.084|0.581|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.581|0.084|
82633103|NCT04652102|164982162|SUPERIORITY||Vaccine Efficacy|63.8|||||TWO_SIDED|95.0|-25.5|91.7|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||91.7|-25.5|
82633104|NCT04652102|164982163|SUPERIORITY||Proportion|0.341|||||TWO_SIDED|95.0|0.242|0.452|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.452|0.242|
82633105|NCT04652102|164982163|SUPERIORITY||Vaccine Efficacy|53.2|||||TWO_SIDED|95.0|25.4|71.2|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||71.2|25.4|
82633106|NCT04652102|164982164|SUPERIORITY||Proportion|0.571|||||TWO_SIDED|95.0|0.34|0.782|||||Derived from an exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|Proportion of cases coming from the CVnCoV group among all cases.||0.782|0.340|
82633107|NCT04652102|164982164|SUPERIORITY||Vaccine Efficacy|-11.8|||||TWO_SIDED|95.0|-200.5|56.7|||||2-sided 95% CI on VE, derived from the exact 2-sided 95% Pearson-Clopper CI on proportion of cases coming from the CVnCoV group among all cases.|VE calculated as VE = 1 - p/(1-p) \*1/r where p represents the proportion of cases coming from the CVnCoV group among all cases and r represents the ratio of total follow-up time of subjects in the CVnCoV group over the total follow-up time of subjects in the placebo group.||56.7|-200.5|
82633108|NCT03062605|164982171|OTHER|Inequality test||||||0.35||||||Significant at p \< 0.05|McNemar|||Strep Mutans, Baseline-12 Weeks||||0.35
82633109|NCT03062605|164982171|OTHER|Inequality test||||||0.29||||||Significant at p\<0.05|McNemar|||Strep Mutans, Baseline-12 Weeks||||0.29
82633110|NCT03062605|164982171|OTHER|Inequality test||||||0.09||||||Significant at p \< 0.05|McNemar|||Lactobacillus, Baseline-12 Weeks||||0.09
82633111|NCT03062605|164982171|OTHER|Inequality test||||||0.13||||||Significant at p \< 0.05|McNemar|||Lactobacillus, Baseline-12 Weeks||||0.13
82633112|NCT00247962|164982182|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.99|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82633113|NCT00247962|164982183|SUPERIORITY_OR_OTHER|||||||0.719|||||||ANCOVA|||baseline||||0.719
82633114|NCT00247962|164982183|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|||week 16||||0.010
82633115|NCT02815982|164982184|SUPERIORITY||Mean Difference (Final Values)|-8.7|||<|0.05|TWO_SIDED|95.0|-14.6|-2.7|||t-test, 2 sided|||||-2.7|-14.6|<.05
82633116|NCT02815982|164982185|SUPERIORITY||Mean Difference (Final Values)|35.6|||<|0.001|TWO_SIDED|95.0|-559.0|630.2||p value was the actual signficance level|t-test, 2 sided|||We compared Post-intervention scores||630.2|-559.0|<.001
82633117|NCT02815982|164982186|SUPERIORITY||Mean Difference (Final Values)|0.47|||<|0.001|TWO_SIDED|95.0|-2.3|3.3||controlling for caregiver BMI at baseline and PCS BMI percentile at baseline|t-test, 2 sided|||We compared Post-intervention BMI||3.3|-2.3|<.001
82633118|NCT02815982|164982187|SUPERIORITY||Mean Difference (Final Values)|-0.12|||<|0.03|TWO_SIDED|95.0|-5.4|5.2||p \< .05 was the threshold|t-test, 2 sided|||We compared Post-intervention scores||5.2|-5.4|<.03
82633119|NCT02815982|164982188|SUPERIORITY||Mean Difference (Final Values)|3.5|||<|0.09|TWO_SIDED|95.0|-4.3|11.3||p \< .05 was threshold|t-test, 2 sided|||||11.3|-4.3|<.09
82633120|NCT02815982|164982189|SUPERIORITY||Mean Difference (Final Values)|-328.6|||<|0.08|TWO_SIDED|95.0|-2868.4|2211.2||p \< .05 threshold,|t-test, 2 sided|||We compared Post-intervention scores||2211.2|-2868.4|<.08
82633121|NCT02815982|164982190|SUPERIORITY||Mean Difference (Final Values)|0.06|||<|0.0001|TWO_SIDED|95.0|0.01|0.11||threshold set at p \< .05|t-test, 2 sided|||We compared Post-intervention scores||.11|.01|<.0001
82633122|NCT02815982|164982191|SUPERIORITY||Mean Difference (Final Values)|-2.85|||<|0.001|TWO_SIDED|95.0|-11.3|5.65||threshold set at p \< .05|t-test, 2 sided|||We compared Post-intervention scores||5.65|-11.3|<.001
82633123|NCT02815982|164982192|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.001|TWO_SIDED|95.0|-0.04|0.06||threshold p \< .05|t-test, 2 sided|||We compared Post-intervention scores||.06|-.04|<.001
82633124|NCT02815982|164982193|SUPERIORITY||Mean Difference (Final Values)|-348.9|||<|0.12|TWO_SIDED|95.0|-2762.5|2064.8||p \< .05 was the threshold|t-test, 2 sided|||We compared Post-intervention scores||2064.8|-2762.5|<.12
82633125|NCT01469637|164982194|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean ratio|1.15|||||TWO_SIDED|90.0|1.12|1.18|||ANOVA|||||1.18|1.12|
82633126|NCT01469637|164982195|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|1.09|1.15|||ANOVA|||||1.15|1.09|
82633127|NCT01795716|164982204|NON_INFERIORITY_OR_EQUIVALENCE|The 90%CIs of the test/reference ratios for AUC0-∞ and Cmax were determined. Log-transformed data were used in the analysis. Following international guidelines (including those of the SFDA), the test and reference for mutations were considered bioequivalent if the 90% CIs of the test/reference ratios of AUC was within range of 0.80 to 1.25 and Cmax was within 0.70 to 1.43.|||||<|0.05|TWO_SIDED||||||ANOVA|||The 90% confidence intervals of the test/reference ratios for AUC0-∞ and Cmax were determined. Log-transformed data were used in the analysis. Following international guidelines (including those of the SFDA), the test and reference for mutations were considered bioequivalent if the 90% CIs of the test/reference ratios of AUC was within range of 0.80 to 1.25 and Cmax was within 0.70 to 1.43.||||<0.05
82633128|NCT03525613|164982205|SUPERIORITY||LS Mean Difference|-0.4114||||0.0004|TWO_SIDED|95.0|-0.6397|-0.1831|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of choroidal neovascularization (CNV) in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||-0.1831|-0.6397|0.0004
82633129|NCT03525613|164982205|SUPERIORITY||LS Mean Difference|-0.318||||0.0055|TWO_SIDED|95.0|-0.5423|-0.0937|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||-0.0937|-0.5423|0.0055
82633130|NCT03525613|164982206|SUPERIORITY||LS Mean Difference|-0.9015|||<|0.0001|TWO_SIDED|95.0|-1.3026|-0.5004|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.5004|-1.3026|<0.0001
82633131|NCT03525613|164982206|SUPERIORITY||LS Mean Difference|-0.7426||||0.0002|TWO_SIDED|95.0|-1.1282|-0.357|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.3570|-1.1282|0.0002
82633132|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2234||||0.0007|TWO_SIDED|95.0|-0.3522|-0.0946|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0946|-0.3522|0.0007
82633133|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1618||||0.0116|TWO_SIDED|95.0|-0.2874|-0.0361|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0361|-0.2874|0.0116
82633134|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1862||||0.0181|TWO_SIDED|95.0|-0.3406|-0.0318|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0318|-0.3406|0.0181
82442209|NCT02230683|164592935|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-4.0||||0.0131|TWO_SIDED|95.0|-7.0|-1.0|||Wilcoxon (Mann-Whitney)|||Statistical Analysis for the median change in Aspartate Aminotransferase (AST) from Baseline to Day 28/EOT||-1|-7|0.0131
82379092|NCT02414958|164467096|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.66|-0.41|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|Model MMRM included the fixed categorical effects of treatment, pre-existing insulin therapy, visit, and treatment-by- visit interaction, as well as the continuous, fixed covariates of baseline HbA1c, baseline eGFR, and baseline HbA1c-by- visit interaction. Patient was included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.41|-0.66|<0.0001
82569009|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.31|||<|0.001|TWO_SIDED|95.0|2.07|2.59||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||2.59|2.07|< 0.001
82569010|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.88|2.36||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||2.36|1.88|< 0.001
82442210|NCT02230683|164592936|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-772.0||||0.003|TWO_SIDED|95.0|-1188.0|-19.0|||Wilcoxon (Mann-Whitney)||The estimated value is the ratio for the difference from baseline.|Statistical Analysis for the median change in concentration of Caspase 3/7 Relative Light Units from baseline to Day 28/EOT||-19|-1188|0.003
82569011|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.45|||<|0.001|TWO_SIDED|95.0|2.19|2.74||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||2.74|2.19|< 0.001
82499067|NCT03978520|164689013|SUPERIORITY||Rate difference|-1.06|||=|0.002|TWO_SIDED|95.0|-1.74|-0.39|||Binomial regression|||"Mild/Moderate~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs Elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.39|-1.74|=0.002
82499068|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.69|||=|0.059|TWO_SIDED|95.0|-1.41|0.03|||Binomial regression|||"Mild/Moderate~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.03|-1.41|=0.059
82499069|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.37|||=|0.252|TWO_SIDED|95.0|-1.01|0.27|||Binomial regression|||"Mild/Moderate~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.27|-1.01|=0.252
82499070|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.1|||=|0.467|TWO_SIDED|95.0|-0.37|0.17|||Binomial regression|||"Severe~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.17|-0.37|=0.467
82511906|NCT00556842|164716659|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|1.41|||||TWO_SIDED|99.0|-0.33|3.14||||||Using a multi-level model, the effect of THA versus HA on quality of life (SF-12) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for SF-12 PCS at 24 months.||3.14|-0.33|
82511907|NCT00556842|164716659|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|1.34|||||TWO_SIDED|99.0|-0.38|3.05||||||Using a multi-level model, the effect of THA versus HA on quality of life (SF-12) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for SF-12 MCS at 24 months.||3.05|-0.38|
82511908|NCT00556842|164716660|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|0.04|||||TWO_SIDED|99.0|-0.03|0.11||||||Using a multi-level model, the effect of THA versus HA on quality of life (EQ-5D) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for EQ-5D utility index at 24 months.||0.11|-0.03|
82511909|NCT00556842|164716660|EQUIVALENCE|Please refer to the protocol paper for details of the power calculation.|Mean Difference (Final Values)|0.72|||||TWO_SIDED|99.0|-2.02|3.46||||||Using a multi-level model, the effect of THA versus HA on quality of life (EQ-5D) was estimated. We chose an alpha level of 0.01. The results below are the mean difference in score for EQ-5D VAS at 24 months.||3.46|-2.02|
82511910|NCT02457325|164716669|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||t-test, 2 sided|||||||0.192
82511911|NCT02457325|164716670|SUPERIORITY_OR_OTHER_LEGACY|||||||0.457|||||||t-test, 2 sided|||||||0.457
82511912|NCT02457325|164716671|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||t-test, 2 sided|||||||0.158
82511913|NCT02457325|164716672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.953|||||||t-test, 2 sided|||||||0.953
82511914|NCT02457325|164716673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||t-test, 2 sided|||||||0.693
82511915|NCT02457325|164716674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||t-test, 2 sided|||||||0.158
82511916|NCT02457325|164716675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||t-test, 2 sided|||||||0.192
82511917|NCT02457325|164716676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512|||||||t-test, 2 sided|||||||0.512
82511918|NCT02457325|164716677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.115|||||||t-test, 2 sided|||||||0.115
82511919|NCT02457325|164716678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||t-test, 2 sided|||||||0.730
82511920|NCT02457325|164716679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.835|||||||t-test, 2 sided|||||||0.835
82511921|NCT03385239|164716684|SUPERIORITY||Mean Difference in % CFB|-27.0||||0.0042|TWO_SIDED|95.0|-41.0|-10.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-10|-41|0.0042
82511922|NCT03385239|164716684|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-48.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-48|-66|<0.0001
82511923|NCT03385239|164716684|SUPERIORITY||Mean Difference in % CFB|-63.0|||<|0.0001|TWO_SIDED|95.0|-70.0|-54.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-54|-70|<0.0001
82511924|NCT03385239|164716684|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-69.0|-53.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|||-53|-69|<0.0001
82511925|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-30.0||||0.0123|TWO_SIDED|95.0|-47.0|-8.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoC III||-8|-47|0.0123
82511926|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-68.0|||<|0.0001|TWO_SIDED|95.0|-76.0|-58.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-58|-76|<0.0001
82511927|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-74.0|||<|0.0001|TWO_SIDED|95.0|-80.0|-65.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-65|-80|<0.0001
82511928|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-74.0|||<|0.0001|TWO_SIDED|95.0|-80.0|-66.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Apo-C III||-66|-80|<0.0001
82511929|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.568|TWO_SIDED|95.0|-11.0|7.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||7|-11|0.568
82511930|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-12.0||||0.008|TWO_SIDED|95.0|-19.0|-3.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-3|-19|0.008
82511931|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.4476|TWO_SIDED|95.0|-12.0|6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||6|-12|0.4476
82511932|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.0606|TWO_SIDED|95.0|-16.0|0.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|TC||0|-16|0.0606
82511933|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|7.0||||0.4509|TWO_SIDED|95.0|-10.0|26.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||26|-10|0.4509
82511934|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|4.0||||0.6746|TWO_SIDED|95.0|-12.0|23.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||23|-12|0.6746
82379093|NCT02414958|164467097|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|97.5|-0.65|-0.4|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.40|-0.65|<0.0001
82379094|NCT02414958|164467097|SUPERIORITY||Mean Difference (Final Values)|-0.51|||<|0.0001|TWO_SIDED|97.5|-0.64|-0.39|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline HbA1c, baseline eGFR as linear covariates and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline HbA1c by visit interaction as fixed effects. Patient is included as random effect. An unstructured covariance structure was used to model the within-patient measurements||-0.39|-0.64|<0.0001
82379095|NCT02414958|164467098|SUPERIORITY||Adjusted Rate Ratio (%)|0.744||||0.0623|TWO_SIDED|97.75|0.518|1.069|||Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 5 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.069|0.518|0.0623
82379096|NCT02414958|164467098|SUPERIORITY||Adjusted Rate Ratio (%)|0.726||||0.048|TWO_SIDED|97.75|0.502|1.501|||Negative binomial model||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 5 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset||1.501|0.502|0.0480
82379097|NCT02414958|164467098|SUPERIORITY||Adjusted Rate Ratio (%)|0.774||||0.0972|TWO_SIDED|95.0|0.572|1.048||This is a nominal p-value.|Negative binomial model||Empagliflozin 10 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 1 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.048|0.572|0.0972
82511935|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|29.0||||0.0032|TWO_SIDED|95.0|9.0|53.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||53|9|0.0032
82511936|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|12.0||||0.1996|TWO_SIDED|95.0|-6.0|32.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||32|-6|0.1996
82511937|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|12.0||||0.0373|TWO_SIDED|95.0|1.0|24.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||24|1|0.0373
82511938|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|34.0|||<|0.0001|TWO_SIDED|95.0|21.0|49.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||49|21|<0.0001
82511939|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|42.0|||<|0.0001|TWO_SIDED|95.0|28.0|57.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||57|28|<0.0001
82511940|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|30.0|||<|0.0001|TWO_SIDED|95.0|18.0|44.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||44|18|<0.0001
82511941|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.2826|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||6|-18|0.2826
82511942|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-24.0|||<|0.0001|TWO_SIDED|95.0|-34.0|-14.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-14|-34|<0.0001
82569012|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|3.2|||<|0.001|TWO_SIDED|95.0|2.8|3.65||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||3.65|2.80|< 0.001
82511943|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-15.0||||0.0118|TWO_SIDED|95.0|-26.0|-4.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-4|-26|0.0118
82511944|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-20.0||||0.0009|TWO_SIDED|95.0|-29.0|-9.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-29|0.0009
82511945|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-21.0||||0.0086|TWO_SIDED|95.0|-34.0|-6.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-6|-34|0.0086
82511946|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-53.0|||<|0.0001|TWO_SIDED|95.0|-60.0|-44.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-44|-60|<0.0001
82511947|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-64.0|-50.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-50|-64|<0.0001
82511948|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-60.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-52.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-52|-66|<0.0001
82511949|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|2.0||||0.6801|TWO_SIDED|95.0|-7.0|13.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||13|-7|0.6801
82511950|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-16.0||||0.0007|TWO_SIDED|95.0|-24.0|-7.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||-7|-24|0.0007
82511951|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-5.0||||0.3183|TWO_SIDED|95.0|-14.0|5.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||5|-14|0.3183
82511952|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.024|TWO_SIDED|95.0|-19.0|-1.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||-1|-19|0.024
82511953|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|5.0||||0.0936|TWO_SIDED|95.0|-1.0|11.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||11|-1|0.0936
82511954|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|14.0|||<|0.0001|TWO_SIDED|95.0|8.0|21.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||21|8|<0.0001
82511955|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|18.0|||<|0.0001|TWO_SIDED|95.0|11.0|25.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||25|11|<0.0001
82511956|NCT03385239|164716686|SUPERIORITY||Mean Difference in % CFB|14.0|||<|0.0001|TWO_SIDED|95.0|7.0|20.0|||ANCOVA||Mean difference in % CFB based on difference in LSM of log (Primary Analysis Time Point/Baseline) was estimated.|ApoA-I||20|7|<0.0001
82511957|NCT03385239|164716687|SUPERIORITY||Odds Ratio (OR)|3.34||||0.2591|TWO_SIDED|95.0|0.41|27.2|||Regression, Logistic|||||27.20|0.41|0.2591
82511958|NCT03385239|164716687|SUPERIORITY||Odds Ratio (OR)|84.02|||<|0.0001|TWO_SIDED|95.0|9.54|740.02|||Regression, Logistic|||||740.02|9.54|<0.0001
82511959|NCT03385239|164716687|SUPERIORITY||Odds Ratio (OR)|322.79|||<|0.0001|TWO_SIDED|95.0|20.31|5130.99|||Regression, Logistic|||||5130.99|20.31|<0.0001
82511960|NCT03385239|164716687|SUPERIORITY||Odds Ratio (OR)|342.13|||<|0.0001|TWO_SIDED|95.0|23.72|4933.89|||Regression, Logistic|||||4933.89|23.72|<0.0001
82511961|NCT03385239|164716688|SUPERIORITY||Odds Ratio (OR)|1.25||||0.9119|TWO_SIDED|95.0|0.02|69.88|||Regression, Logistic|||||69.88|0.02|0.9119
82569013|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.95|||<|0.001|TWO_SIDED|95.0|2.6|3.34||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||3.34|2.60|< 0.001
82569014|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.57|||<|0.001|TWO_SIDED|95.0|2.29|2.88||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||2.88|2.29|< 0.001
82569015|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|3.33|||<|0.001|TWO_SIDED|95.0|2.89|3.84||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||3.84|2.89|< 0.001
82569016|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.47|||<|0.001|TWO_SIDED|95.0|2.19|2.79||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||2.79|2.19|< 0.001
82569017|NCT00943722|164848090|NON_INFERIORITY|non-inferiority requires that the lower bound of two-sided 95% CI of GMT ratio be greater than 0.67|GMT ratio|2.66|||<|0.001|TWO_SIDED|95.0|2.37|2.98||one-sided tests of non-inferiority conducted at the alpha=0.025 level; model with a response of log individual titers and a fixed effect for comparison group|ANOVA|model with a response of log individual titers and a fixed effect for comparison group|GMT ratio = GMT for 9- to 15-Year-Old Males (Lot 1) divided by GMT for 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||2.98|2.37|< 0.001
82569018|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.97|||||TWO_SIDED|95.0|0.88|1.08|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 6||1.08|0.88|
82569019|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.03|||||TWO_SIDED|95.0|0.93|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.16|0.93|
82569020|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.06|||||TWO_SIDED|95.0|0.95|1.19|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.19|0.95|
82569021|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.0|||||TWO_SIDED|95.0|0.9|1.11|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 11||1.11|0.90|
82569022|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.20|0.95|
82569023|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.20|0.95|
82569024|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0).|GMT ratio|0.96|||||TWO_SIDED|95.0|0.86|1.06|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 16||1.06|0.86|
82569025|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.9|1.12|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.12|0.90|
82511962|NCT03385239|164716688|SUPERIORITY||Odds Ratio (OR)|27.18||||0.0306|TWO_SIDED|95.0|1.36|542.48|||Regression, Logistic|||||542.48|1.36|0.0306
82511963|NCT03385239|164716688|SUPERIORITY||Odds Ratio (OR)|25.54||||0.0344|TWO_SIDED|95.0|1.27|514.2|||Regression, Logistic|||||514.20|1.27|0.0344
82511964|NCT03385239|164716688|SUPERIORITY||Odds Ratio (OR)|44.47||||0.0123|TWO_SIDED|95.0|2.28|866.49|||Regression, Logistic|||||866.49|2.28|0.0123
82511965|NCT01574703|164716692|SUPERIORITY_OR_OTHER|||||||0.37||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.37
82511966|NCT01574703|164716693|SUPERIORITY_OR_OTHER|||||||0.53||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.53
82511967|NCT01574703|164716694|SUPERIORITY_OR_OTHER|||||||0.34||||||P-value for the treatment effect from the Log-Rank test stratified by Cohort.|Log Rank|||Statistical analysis for overall treatment comparison.||||0.34
82511968|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.49||||0.8375|TWO_SIDED|95.0|-5.22|4.23||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||4.23|-5.22|0.8375
82511969|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.978|TWO_SIDED|95.0|-5.2|5.05||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||5.05|-5.20|0.9780
82511970|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.13||||0.6142|TWO_SIDED|95.0|-5.54|3.27||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||3.27|-5.54|0.6142
82511971|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.42||||0.8602|TWO_SIDED|95.0|-4.28|5.13||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||5.13|-4.28|0.8602
82511972|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.64||||0.7217|TWO_SIDED|95.0|-4.15|2.88||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.88|-4.15|0.7217
82511973|NCT01574703|164716695|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.06||||0.6322|TWO_SIDED|95.0|-5.41|3.28||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.28|-5.41|0.6322
82511974|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.07||||0.9687|TWO_SIDED|95.0|-3.48|3.34||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||3.34|-3.48|0.9687
82511975|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.56||||0.7905|TWO_SIDED|95.0|-3.58|4.7||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||4.70|-3.58|0.7905
82511976|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.8962|TWO_SIDED|95.0|-3.36|2.94||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.94|-3.36|0.8962
82511977|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.63||||0.7767|TWO_SIDED|95.0|-3.72|4.98||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||4.98|-3.72|0.7767
82511978|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14||||0.926|TWO_SIDED|95.0|-3.13|2.85||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.85|-3.13|0.9260
82511979|NCT01574703|164716696|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.77||||0.7113|TWO_SIDED|95.0|-4.85|3.31||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.31|-4.85|0.7113
82511980|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.57||||0.8117|TWO_SIDED|95.0|-5.27|4.13||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||4.13|-5.27|0.8117
82511981|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.78||||0.7303|TWO_SIDED|95.0|-5.21|3.65||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||3.65|-5.21|0.7303
82511982|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.2||||0.5946|TWO_SIDED|95.0|-5.6|3.21||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||3.21|-5.60|0.5946
82511983|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.92|TWO_SIDED|95.0|-4.27|3.85||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||3.85|-4.27|0.9200
82511984|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.62||||0.7236|TWO_SIDED|95.0|-4.09|2.84||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.84|-4.09|0.7236
82511985|NCT01574703|164716697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.42||||0.8201|TWO_SIDED|95.0|-4.01|3.17||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||3.17|-4.01|0.8201
82511986|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21||||0.8932|TWO_SIDED|95.0|-3.22|2.81||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||2.81|-3.22|0.8932
82633135|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1526||||0.0467|TWO_SIDED|95.0|-0.303|-0.0023|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0023|-0.3030|0.0467
82633136|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2265||||0.0019|TWO_SIDED|95.0|-0.3696|-0.0834|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0834|-0.3696|0.0019
82511987|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.23||||0.8747|TWO_SIDED|95.0|-3.09|2.63||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||2.63|-3.09|0.8747
82633137|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1586||||0.0288|TWO_SIDED|95.0|-0.3009|-0.0164|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0164|-0.3009|0.0288
82633138|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2341||||0.008|TWO_SIDED|95.0|-0.4071|-0.0611|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0611|-0.4071|0.0080
82633139|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2459||||0.0007|TWO_SIDED|95.0|-0.3886|-0.1031|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1031|-0.3886|0.0007
82633140|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.8702|||<|0.0001|TWO_SIDED|95.0|-1.274|-0.4664|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.4664|-1.2740|<0.0001
82639834|NCT02163759|164994503|SUPERIORITY||Difference in Remission Rates|10.9||||0.0364|TWO_SIDED|95.0|-0.08|19.48||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||19.48|-0.08|0.0364
82511988|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.671|TWO_SIDED|95.0|-3.35|2.15||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.15|-3.35|0.6710
82511989|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.9886|TWO_SIDED|95.0|-3.32|3.27||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||3.27|-3.32|0.9886
82511990|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.39||||0.7631|TWO_SIDED|95.0|-2.92|2.14||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.14|-2.92|0.7631
82511991|NCT01574703|164716698|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.37||||0.8022|TWO_SIDED|95.0|-3.23|2.5||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.50|-3.23|0.8022
82569026|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.17|0.94|
82511992|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.91||||0.6441|TWO_SIDED|95.0|-4.78|2.96||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||2.96|-4.78|0.6441
82511993|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.69||||0.7327|TWO_SIDED|95.0|-4.63|3.26||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||3.26|-4.63|0.7327
82379098|NCT02414958|164467098|SUPERIORITY||Adjusted Rate Ratio (%)|0.782||||0.118|TWO_SIDED|97.75|0.575|1.064||Negative binomial model|MMRM||Empagliflozin 25 milligram (mg) adjusted rate/Placebo matching Empagliflozin adjusted rate.|For week 1 to 26, negative binomial model includes baseline rate of hypoglycaemia, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects. Log (time at risk \[days\]) was used as offset.||1.064|0.575|0.1180
82511994|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.99||||0.6109|TWO_SIDED|95.0|-4.8|2.82||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||2.82|-4.80|0.6109
82511995|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.22||||0.8707|TWO_SIDED|95.0|-2.48|2.93||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||2.93|-2.48|0.8707
82511996|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.9531|TWO_SIDED|95.0|-2.63|2.48||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.48|-2.63|0.9531
82511997|NCT01574703|164716699|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3||||0.8262|TWO_SIDED|95.0|-2.99|2.39||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.39|-2.99|0.8262
82511998|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.59||||0.6105|TWO_SIDED|95.0|-2.84|1.67||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Bupropion.||1.67|-2.84|0.6105
82511999|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.32||||0.7895|TWO_SIDED|95.0|-2.65|2.01||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and NRT patch.||2.01|-2.65|0.7895
82512000|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.48||||0.6804|TWO_SIDED|95.0|-2.75|1.8||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Varenicline and Placebo.||1.80|-2.75|0.6804
82512001|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.27||||0.8127|TWO_SIDED|95.0|-1.95|2.49||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and NRT patch.||2.49|-1.95|0.8127
82512002|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11||||0.9218|TWO_SIDED|95.0|-2.04|2.25||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between Bupropion and Placebo.||2.25|-2.04|0.9218
82512003|NCT01574703|164716700|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.16||||0.8841|TWO_SIDED|95.0|-2.32|2.0||P-values are for the risk differences of pairwise comparisons based on the logistic regression model with terms Baseline Cardiovascular Risk, treatment, cohort, region, and treatment by cohort interaction.|Regression, Logistic|||Statistical analysis between NRT patch and Placebo.||2.00|-2.32|0.8841
82512004|NCT01556204|164716710|SUPERIORITY_OR_OTHER|||||||0.71||||||This p-value is from a single comparison between two arms for operative time.|t-test, 2 sided|||Variance estimates for this power analysis were taken from Nezhat C, et al, 2010. We determined that 37 subjects in each arm were needed to detect a difference of ≥ 32 minutes in operating time between conventional and robotic surgery for endometriosis with 80% power and a significance level of 0.05.||||0.71
82512005|NCT01556204|164716711|SUPERIORITY_OR_OTHER|||||||0.53||||||This applies to Row title: Baseline|Mixed Models Analysis|||Secondary analysis for pain at baseline for robotic vs conventional laparoscopy for endometriosis.||||0.53
82569027|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.14|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 18||1.14|0.89|
82569028|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.11|||||TWO_SIDED|95.0|0.98|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.26|0.98|
82569029|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.11|||||TWO_SIDED|95.0|0.97|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.26|0.97|
82569030|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 31||1.13|0.89|
82569031|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.02|||||TWO_SIDED|95.0|0.91|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.16|0.91|
82569032|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.15|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.15|0.90|
82569033|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 33||1.16|0.94|
82569034|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.17|0.94|
82569035|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.12|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.12|0.90|
82569036|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.84|||||TWO_SIDED|95.0|0.73|0.95|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 45||0.95|0.73|
82569037|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.04|||||TWO_SIDED|95.0|0.91|1.18|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.18|0.91|
82569038|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.24|||||TWO_SIDED|95.0|1.08|1.42|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.42|1.08|
82569039|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.92|||||TWO_SIDED|95.0|0.83|1.03|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 52||1.03|0.83|
82569040|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.95|||||TWO_SIDED|95.0|0.85|1.07|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.07|0.85|
82569041|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.03|||||TWO_SIDED|95.0|0.92|1.16|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.16|0.92|
82569042|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|0.95|||||TWO_SIDED|95.0|0.86|1.06|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 58||1.06|0.86|
82569043|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.07|||||TWO_SIDED|95.0|0.96|1.2|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 1) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.20|0.96|
82569044|NCT00943722|164848091|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the ratio of the GMTs be entirely contained within the interval (0.5, 2.0)|GMT ratio|1.12|||||TWO_SIDED|95.0|1.0|1.26|||||GMT ratio = GMT for 9- to 15-Year-Old Females (Lot 2) divided by GMT for 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.26|1.00|
82569045|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.8|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||1.5|-0.8|< 0.001
82512006|NCT01556204|164716711|SUPERIORITY_OR_OTHER|||||||0.53||||||This applies to Row title: 6-weeks|Mixed Models Analysis|||Pain scores at 6 weeks comparison between robotic and laparoscopy.||||0.53
82512007|NCT01556204|164716711|SUPERIORITY_OR_OTHER|||||||0.48||||||This applies to Row title: 6-months|Mixed Models Analysis|||Pain scores at 6 months for robotic vs laparoscopy.||||0.48
82569046|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||1.2|-0.7|< 0.001
82633141|NCT03525613|164982207|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.7189||||0.0003|TWO_SIDED|95.0|-1.1039|-0.3339|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.3339|-1.1039|0.0003
82512008|NCT00025883|164716716|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||A null hypothesis of interest is there is no significant change over three time points (baseline, 6 months, 12 months) in response to metreleptin within GLD group.||||<0.001
82512009|NCT00025883|164716716|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||A null hypothesis of interest is there is no significant change over three time points (baseline, 6 months, 12 months) in response to metreleptin within PLD group.||||0.004
82633142|NCT00135694|164982221|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-13.0|||||TWO_SIDED|90.0|-35.0|10.0||||||||10|-35|
82633143|NCT00135694|164982227|SUPERIORITY_OR_OTHER|||||||0.0183|||||||ANCOVA|Adjusted for immunosuppression dose the subject was receiving at the time of randomization.||||||0.0183
82633144|NCT00135694|164982228|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for immunosuppression dose the subject was receiving at the time of randomization.||||||<0.0001
82633145|NCT02584660|164982229|SUPERIORITY||Mean difference|-1.202|||<|0.0001|TWO_SIDED|95.0|-1.73|-0.674|||t-test|||||-0.674|-1.730|<.0001
82633146|NCT00374452|164982235|OTHER||||||>|0.1|||||||Mixed Models Analysis|||We compared the mean percentages of events per clinician between study arms, using mixed model regression adjusting for medical center, clinic type (community-based clinic vs not), clinician discipline (MD vs non-MD), presence of pharmacist in the clinic, and mean age of clinician's panels of patients as fixed effects, and clinic as a random effect to account for clustering of clinicians within clinics.||||>0.1
82633147|NCT02120469|164982250|OTHER||||||||||||||||||Dose level B1 (eribulin 1.1 mg/m2 days 1 and 8 every 3 weeks with everolimus 5 mg daily) was defined as the highest dose with acceptable toxicity (RP2D).|||
82512010|NCT00025883|164716717|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||Triglycerides were log transformed for analysis due to non-normal distribution. Changes in triglycedies in response to metreleptin over three time points (baseline, 6 months, 12 months) are tested within GLD group.||||0.05
82512011|NCT00025883|164716717|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Triglycerides were log transformed for analysis due to non-normal distribution. Changes in triglycedies in response to metreleptin over three time points (baseline, 6 months, 12 months) are tested within PLD group.||||0.02
82512012|NCT03591575|164716718|SUPERIORITY|||||||0.0446|||||||Fisher Exact|||Patients who reached the serum ferritin threshold at any time point prior to Month 12 were withdrawn from the study as per protocol, so that they could begin on standard chelation therapy. For these individuals, imputed data were used to estimate the values that would likely have been seen at Month 12 had they remained in the study.||||0.0446
82512013|NCT03591575|164716719|SUPERIORITY|||||||0.0446||||||he p-value shown here is for the difference between the groups at Month 12.|Fisher Exact|||||||0.0446
82512014|NCT02908529|164716744|SUPERIORITY||Median Difference (Final Values)|-15.9|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82512015|NCT02026115|164716754|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||.43
82512016|NCT02026115|164716755|SUPERIORITY|||||||0.02||||||Experimental group performed worse than usual care.|Mixed Models Analysis|||||||.02
82512017|NCT02026115|164716756|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||.32
82512018|NCT02026115|164716757|SUPERIORITY|||||||0.36|||||||Regression, Logistic|||||||.36
82633148|NCT01601873|164982256|SUPERIORITY|||||||0.884|||||||Wilcoxon (Mann-Whitney)|||||||0.884
82633149|NCT01601873|164982257|SUPERIORITY|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
82633150|NCT01601873|164982258|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||||||0.294
82633151|NCT01601873|164982259|SUPERIORITY|||||||0.538|||||||Log Rank|||||||0.538
82633152|NCT01601873|164982260|SUPERIORITY|||||||0.786|||||||Log Rank|||||||0.786
82633153|NCT01601873|164982261|SUPERIORITY|||||||0.185|||||||Log Rank|||||||0.185
82633154|NCT01401101|164982269|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED|95.0||||Jointly modeled outcomes at the 3 waves by time, condition, and timeXcondition, to allow for different effects at 6 and 12 mos; controlled for interview mode (phone vs. in-person); used random effects to account for correlations wi/in site \& patient.|Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.97
82633155|NCT01401101|164982270|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED|95.0|||||Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.54
82633156|NCT01401101|164982271|SUPERIORITY_OR_OTHER|||||||0.33||||||Jointly modeled outcomes at the 3 waves by time, condition, and timeXcondition, to allow for different effects at 6 and 12 mos; controlled for interview mode (phone vs. in-person); using random effects to control for correlations w/in site \& patient.|Regression, Linear|||Intent-to-treat (ITT) analysis using the linear mixed-method model to estimate the difference between the PCM and TAU conditions||||0.33
82633157|NCT02871570|164982286|OTHER||ratio|0.7789|||||TWO_SIDED|90.0|0.6514|0.9313|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||0.9313|0.6514|
82512019|NCT02026115|164716758|SUPERIORITY|||||||0.01|||||||Regression, Linear|||||||.01
82512020|NCT02026115|164716759|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82512021|NCT04084769|164716765|OTHER|95% Confidence Interval (CI) of the difference in percentage was calculated from the Wilson Score method without continuity correction.|Difference in percentage|1.65|||||TWO_SIDED|95.0|-3.58|6.95||||||Serogroup A||6.95|-3.58|
82512022|NCT04084769|164716765|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.74|||||TWO_SIDED|95.0|-5.5|1.6||||||Serogroup C||1.60|-5.50|
82512023|NCT04084769|164716765|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.15|||||TWO_SIDED|95.0|-4.09|1.14||||||Serogroup Y||1.14|-4.09|
82633158|NCT02871570|164982287|OTHER||ratio|0.7776|||||TWO_SIDED|90.0|0.6493|0.9311|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||0.9311|0.6493|
82633159|NCT02871570|164982288|OTHER||ratio|1.2844|||||TWO_SIDED|90.0|1.0732|1.5372|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||1.5372|1.0732|
82633160|NCT02871570|164982289|OTHER||ratio|0.7945|||||TWO_SIDED|90.0|0.5955|1.0599|||||Moderate hepatic impairment group represents the numerator, and normal hepatic function group represents the denominator.|||1.0599|0.5955|
82512024|NCT04084769|164716765|OTHER|95% CI of the difference in percentage was calculated from the Wilson Score Method without continuity correction.|Difference in percentage|-1.16|||||TWO_SIDED|95.0|-4.72|2.07||||||Serogroup W||2.07|-4.72|
82512025|NCT01660412|164716775|OTHER||Mean Difference (Final Values)|1.42|STANDARD_DEVIATION|2.17|<|0.0001|TWO_SIDED|95.0|0.85|2.0|||t-test, 2 sided|||||2.00|0.85|<0.0001
82512026|NCT03238911|164716787|SUPERIORITY||Risk Difference (RD)|-67.0|||<|0.0001|TWO_SIDED|95.0|-77.4|-51.5|||Cochran-Mantel-Haenszel||Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95% CI, adjusting for strata (underlying disease and screening s-phosphate) using the Cochran-Mantel-Haenszel method.|"Power:~The power was set to 80%. Assuming incidences of 15% for iron isomaltoside/ferric derisomaltose and 40% for ferric carboxymaltose, 49 subjects in each treatment group were required to detect a difference between the treatment groups. The significance level was set to 5%."||-51.5|-77.4|<0.0001
82512027|NCT03238911|164716788|SUPERIORITY|||||||0.8979|||||||Log Rank|||The time with hypophosphatemia from baseline to day 35 was estimated by a Kaplan-Meier plot. The treatment groups were compared by a log-rank test. Only subjects who had one or more s-phosphate value(s) \<2 mg/dL were included.||||0.8979
82512028|NCT03238911|164716789|SUPERIORITY||Risk Difference (RD)|-39.2|||<|0.0001|TWO_SIDED|95.0|-52.2|-23.3|||Cochran-Mantel-Haenszel|||Iron isomaltoside/ferric derisomaltose will be compared to ferric carboxymaltose by estimation of the risk difference and the associated 95 % CI, adjusting for strata (type of underlying disease (women with IDA due to gynaecological blood losses; yes/no) and screening s-phosphate level (\< or ≥ 3.5 mg/dL)) using the Cochran-Mantel-Haenszel method.||-23.3|-52.2|<0.0001
82512029|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|0.48|||<|0.0001|TWO_SIDED|95.0|0.31|0.65|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.65|0.31|<0.0001
82633161|NCT04396106|164982293|OTHER|||||||0.721|||||||Cochran-Mantel-Haenszel|||||||0.721
82512030|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|1.06|||<|0.0001|TWO_SIDED|95.0|0.85|1.27|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.27|0.85|<0.0001
82512031|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|1.03|||<|0.0001|TWO_SIDED|95.0|0.81|1.25|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.25|0.81|<0.0001
82512032|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|1.35|||<|0.0001|TWO_SIDED|95.0|1.1|1.6|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.60|1.10|<0.0001
82512033|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|1.03|||<|0.0001|TWO_SIDED|95.0|0.75|1.32|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.32|0.75|<0.0001
82512034|NCT03238911|164716790|SUPERIORITY||Mean Difference (Final Values)|1.13|||<|0.0001|TWO_SIDED|95.0|0.86|1.39|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.39|0.86|<0.0001
82512035|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|15.55|||<|0.0001|TWO_SIDED|95.0|10.32|20.79|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||20.79|10.32|<0.0001
82569047|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||1.2|-0.7|< 0.001
82633162|NCT01628718|164982299|NON_INFERIORITY|The NI margin for CAPS-IV scores was established a priori, based on a calculation of a reliable difference from baseline to posttreatment CAPS-IV scores from a previous trial (10 points). If the 95% confidence interval (CI) around the estimate does not contain the NI margin, we can reject the null hypothesis and accept the alternative hypothesis. .|Mean Difference (Final Values)|0.33||||0.05|TWO_SIDED|95.0|-10.1|9.44||one-tailed|Regression, Linear||Mean difference is the difference in mean CAPS-IV change scores (pre-post) between AD and CPT-C.|Null hypothesis: AD is inferior to CPT Alternative hypothesis: AD is non-inferior to CPT-C||9.44|-10.10|.05
82379099|NCT02414958|164467099|SUPERIORITY||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|99.75|-3.57|-1.8|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline weight, baseline eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-1.80|-3.57|<0.0001
82379100|NCT02414958|164467099|SUPERIORITY||Mean Difference (Final Values)|-3.27|||<|0.0001|TWO_SIDED|99.75|-4.15|-2.39|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline weight, baseline eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline weight by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-2.39|-4.15|<0.0001
82512036|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|33.23|||<|0.0001|TWO_SIDED|95.0|26.62|39.84|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||39.84|26.62|<0.0001
82569048|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.8|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||1.5|-0.8|< 0.001
82569049|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||1.7|-0.4|< 0.001
82512037|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|32.78|||<|0.0001|TWO_SIDED|95.0|25.71|39.84|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||39.84|25.71|<0.0001
82633163|NCT02313506|164982300|SUPERIORITY||Mean Difference (Net)|-31.1||||0.02|TWO_SIDED|95.0|-56.6|-5.7||No adjustment was made for multiple comparisons because Type II error is a greater concern than Type I error in feasibility studies.|ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 1 compared T0-T1 between the 2 groups to determine if the intervention was superior to the control.||-5.7|-56.6|0.02
82633164|NCT02313506|164982300|SUPERIORITY||Mean Difference (Net)|4.6||||0.71|TWO_SIDED|95.0|-19.6|28.9|||ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 2 compared T0-T1 in the immediate group against T1-T2 in the delayed group.||28.9|-19.6|0.71
82633165|NCT02313506|164982300|SUPERIORITY||Mean Difference (Net)|-11.0||||0.29|TWO_SIDED|95.0|-31.1|9.1|||ANCOVA|||ANCOVA was performed to evaluate the effect of the group type on the outcome measures after adjusting for blocking and baseline (T0). We assessed 3 planned contrasts of changes in outcome measures over time. Contrast 3 compared T0-T1 in the immediate group against T0-T2 in the delayed group.||9.1|-31.1|0.29
82379101|NCT02414958|164467100|SUPERIORITY||Mean Difference (Final Values)|11.86|||<|0.0001|TWO_SIDED|99.75|8.78|14.93|||ANCOVA||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|The analysis of covariance (ANCOVA) model includes baseline time in the target range, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||14.93|8.78|<0.0001
82379102|NCT02414958|164467100|SUPERIORITY||Mean Difference (Final Values)|12.87|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|99.75|9.81|15.93|||ANCOVA||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean|||15.93|9.81|<0.0001
82379103|NCT02414958|164467101|SUPERIORITY||Mean Difference (Final Values)|-16.92|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|99.75|-22.04|-11.81|||ANCOVA||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|The analysis of covariance (ANCOVA) model includes model includes baseline IQR of glucose, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||-11.81|-22.04|<0.0001
82633166|NCT03860181|164982329|EQUIVALENCE|The statistical significance's p-value was set at 0.05. For Surgeon 1's differences, they were calculated as patient POSAS score - surgeon POSAS score, with a negative difference signifying that the patients thought more highly of the scars than the physicians since lower POSAS scores are more favorable.||||||0.896|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney U = 215||||||0.896
82633167|NCT03860181|164982329|EQUIVALENCE|The statistical significance's p-value was set at 0.05. For Surgeon 2's differences, they were calculated as patient POSAS score - surgeon POSAS score, with a negative difference signifying that the patients thought more highly of the scars than the physicians since lower POSAS scores are more favorable.||||||0.612|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney U = 210||||||0.612
82633168|NCT02449915|164982400|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82633169|NCT01436357|164982401|SUPERIORITY||Hazard Ratio (HR)|1.529||||0.317|TWO_SIDED|95.0|0.661|3.535|||Regression, Cox|||||3.535|0.661|0.317
82633170|NCT01436357|164982402|SUPERIORITY||Risk Difference (RD)|0.08||||0.029|TWO_SIDED|95.0|-0.01|0.16|||Fisher Exact|||||0.16|-0.01|0.029
82512038|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|42.11|||<|0.0001|TWO_SIDED|95.0|33.89|50.32|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||50.32|33.89|<0.0001
82523714|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.0||||0.636|TWO_SIDED|95.0|-33.0|54.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 12||54|-33|0.636
82633171|NCT01436357|164982403|SUPERIORITY||Risk Difference (RD)|0.1||||0.015|TWO_SIDED|95.0|0.01|0.2|||Fisher Exact|||||0.20|0.01|0.015
82633172|NCT01436357|164982404|SUPERIORITY||Risk Difference (RD)|0.0||||0|TWO_SIDED||||||Fisher Exact|||||||0.00
82633173|NCT01436357|164982406|SUPERIORITY||Risk Difference (RD)|0.01||||0.499|TWO_SIDED|95.0|-0.08|0.1|||Fisher Exact|||||0.10|-0.08|0.499
82569050|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||1.6|-0.4|< 0.001
82499071|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.26|||=|0.033|TWO_SIDED|95.0|-0.49|-0.02|||Binomial regression|||"Severe~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.02|-0.49|=0.033
82569051|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.6|1.8|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||1.8|-0.6|< 0.001
82569052|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||1.7|-0.4|< 0.001
82569053|NCT00943722|164848095|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||1.2|-0.7|< 0.001
82569054|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.1|||<|0.001|TWO_SIDED|95.0|-0.7|1.5|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 6||1.5|-0.7|< 0.001
82569055|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 11||1.2|-0.7|< 0.001
82569056|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 16||1.2|-0.7|< 0.001
82569057|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 18||1.6|-0.4|< 0.001
82569058|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 31||1.7|-0.4|< 0.001
82569059|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.6|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 33||1.6|-0.4|< 0.001
82569060|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.5|||<|0.001|TWO_SIDED|95.0|-0.1|2.0|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 45||2.0|-0.1|< 0.001
82569061|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-0.4|1.7|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 52||1.7|-0.4|< 0.001
82569062|NCT00943722|164848096|NON_INFERIORITY|Noninferiority is demonstrated if the lower limit of the 95% CI for the percentage point difference is greater than -5.|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|1.2|||Miettinen and Nurminen||Percentage Point Difference = 9- to 15-Year-Old Males (Lot 1) minus 16- to 26-Year-Old Females (Lot 1)|Anti-HPV 58||1.2|-0.7|< 0.001
82569063|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.9|0.9|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 6||0.9|-0.9|
82569064|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.5|||||TWO_SIDED|95.0|-0.4|1.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.7|-0.4|
82633174|NCT01749930|164982504|NON_INFERIORITY|The 2 treatments were compared for each time point by visit. LS mean of each treatment group, the difference in the LS mean, and the 2-sided 95% CI for the difference were obtained. Noninferiority could be claimed if the upper limit of the CIs \<1.5 mmHg at all time points of each visit and \<1.00 mmHg for at least 5 out of the 9 time points. If noninferiority was determined, superiority at each time point could be claimed if the upper limit of the 95% CI\<0 mmHg at all time points of each visit.||||||0.216||||||The ANCOVA results for the comparison of LS means of mean IOP between treatment groups demonstrated noninferiority of BOL-303259-X to timolol. Superiority of BOL-303259-X to timolol was demonstrated at 8 of 9 time points (exception at 8 am Week 2).|ANCOVA|||||||0.216
82633175|NCT01749930|164982505|OTHER|||||||0.084|||||||Chi-squared|||||||0.084
82633176|NCT01749930|164982506|OTHER|||||||0.007|||||||Chi-squared|||||||0.007
82633177|NCT01749930|164982507|OTHER||||||||||||||||||No statistical analysis was performed on these proportions|||
82633178|NCT04735432|164982508|NON_INFERIORITY|This was a phase 3, multicenter, randomized, open-label, parallel-group, 12-week study to evaluate the noninferiority of the pharmacodynamic effect of efgartigimod PH20 SC 1000 mg compared with efgartigimod IV 10 mg/kg in patients with generalized myasthenia gravis.|LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.782|<|0.0001|TWO_SIDED|95.0|-7.73|-0.66|||ANCOVA|||The primary endpoint was analyzed using an ANCOVA model with treatment as a factor and total IgG levels at baseline as a covariate. The NI evaluation was based on a percent reduction from baseline in total IgG levels at day 29 (week 4) using an NI margin of 10%. Only the results for mITT analysis set are entered.||-0.66|-7.73|< 0.0001
82633179|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.596||||0.0045|TWO_SIDED|95.0|1.704|18.378|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week \[Wk\] 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||18.378|1.704|0.0045
82633180|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.989||||0.9755|TWO_SIDED|95.0|0.497|1.967|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.967|0.497|0.9755
82633181|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.743||||0.4786|TWO_SIDED|95.0|0.327|1.688|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.688|0.327|0.4786
82633182|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.38||||0.014|TWO_SIDED|95.0|1.405|20.597|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||20.597|1.405|0.0140
82512039|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|32.28|||<|0.0001|TWO_SIDED|95.0|23.09|41.48|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||41.48|23.09|<0.0001
82512040|NCT03238911|164716791|SUPERIORITY||Mean Difference (Final Values)|36.06|||<|0.0001|TWO_SIDED|95.0|27.33|44.78|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||44.78|27.33|<0.0001
82569065|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.6|||||TWO_SIDED|95.0|-0.4|1.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 6||1.7|-0.4|
82569066|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 11||0.7|-0.7|
82569067|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.3|-0.4|
82569068|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 11||1.3|-0.4|
82569069|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 16||0.7|-0.7|
82569070|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.3|-0.4|
82633183|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078|||<|0.0001|TWO_SIDED|95.0|1.062|1.094|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.094|1.062|<0.0001
82569071|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 16||1.3|-0.4|
82569072|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.5|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 18||0.5|-1.1|
82569073|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.1|-0.7|
82569074|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 18||1.3|-0.4|
82569075|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 31||0.7|-0.7|
82512041|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-105.74|||<|0.0001|TWO_SIDED|95.0|-131.04|-80.45|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-80.45|-131.04|<0.0001
82512042|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-60.76|||<|0.0001|TWO_SIDED|95.0|-82.95|-38.58|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-38.58|-82.95|<0.0001
82512043|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-293.23|||<|0.0001|TWO_SIDED|95.0|-368.15|-218.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-218.30|-368.15|<0.0001
82512044|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-117.47|||<|0.0001|TWO_SIDED|95.0|-151.6|-83.33|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-83.33|-151.60|<0.0001
82512045|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-71.21|||<|0.0001|TWO_SIDED|95.0|-101.8|-40.61|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-40.61|-101.80|<0.0001
82512046|NCT03238911|164716793|SUPERIORITY||Mean Difference (Final Values)|-37.16|||<|0.0001|TWO_SIDED|95.0|-54.92|-19.39|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-19.39|-54.92|<0.0001
82512047|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-99.1|||<|0.0001|TWO_SIDED|95.0|-136.42|-61.76|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-61.76|-136.42|<0.0001
82512048|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-49.3|||<|0.0001|TWO_SIDED|95.0|-72.8|-25.9|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-25.90|-72.80|<0.0001
82633184|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.136||||0.0035|TWO_SIDED|95.0|1.819|20.701|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||20.701|1.819|0.0035
82633185|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.7821|TWO_SIDED|95.0|0.439|1.857|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.857|0.439|0.7821
82512049|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-191.3|||<|0.0001|TWO_SIDED|95.0|-242.47|-140.09|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-140.09|-242.47|<0.0001
82569076|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.6|1.0|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.0|-0.6|
82633186|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.4846|TWO_SIDED|95.0|0.317|1.723|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.723|0.317|0.4846
82633187|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.424||||0.017|TWO_SIDED|95.0|1.353|21.749|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||21.749|1.353|0.0170
82633188|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.695||||0.0125|TWO_SIDED|95.0|0.523|0.925|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.925|0.523|0.0125
82633189|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.472||||0.0139|TWO_SIDED|95.0|1.288|9.357|||Regression, Logistic|||The statistical analysis is presented for average number of drinks per week (1 vs 0). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||9.357|1.288|0.0139
82633190|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.6327|TWO_SIDED|95.0|0.601|2.311|||Regression, Logistic|||The statistical analysis is presented for average number of drinks per week (\> 1 vs 0). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.311|0.601|0.6327
82633191|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.061|||<|0.0001|TWO_SIDED|95.0|1.042|1.08|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.080|1.042|<0.0001
82633192|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.185||||0.0033|TWO_SIDED|95.0|1.058|1.326|||Regression, Logistic|||The statistical analysis is presented for Cumulative PEG-IFN alfa-2a dose per 1000 ug. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.326|1.058|0.0033
82633193|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.227|||<|0.0001|TWO_SIDED|95.0|1.151|1.308|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.308|1.151|<0.0001
82633194|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.814||||0.0289|TWO_SIDED|95.0|0.676|0.979|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, 1st 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.979|0.676|0.0289
82633195|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.276|||<|0.0001|TWO_SIDED|95.0|1.177|1.383|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.383|1.177|<0.0001
82633196|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.894||||0.0099|TWO_SIDED|95.0|0.821|0.973|||Regression, Logistic|||The statistical analysis is presented for Cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.973|0.821|0.0099
82633197|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.945||||0.0058|TWO_SIDED|95.0|1.213|3.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.120|1.213|0.0058
82633198|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.262|||<|0.0001|TWO_SIDED|95.0|1.154|1.38|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.380|1.154|<0.0001
82512050|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-100.7|||<|0.0001|TWO_SIDED|95.0|-137.19|-64.2|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-64.20|-137.19|<0.0001
82633199|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.945||||0.0058|TWO_SIDED|95.0|1.213|3.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.120|1.213|0.0058
82379104|NCT02414958|164467101|SUPERIORITY||Mean Difference (Final Values)|-19.04|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|99.75|-24.13|-13.95|||ANCOVA||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|The analysis of covariance (ANCOVA) model includes model includes baseline IQR of glucose, baseline HbA1c, and baseline eGFR as linear covariates and baseline pre-existing insulin therapy and treatment as fixed effects.||-13.95|-24.13|<0.0001
82523715|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0||||0.094|TWO_SIDED|95.0|-6.5|83.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 12||83|-6.5|0.094
82512051|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-48.4|||<|0.0001|TWO_SIDED|95.0|-71.78|-24.96|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-24.96|-71.78|<0.0001
82512052|NCT03238911|164716794|SUPERIORITY||Mean Difference (Final Values)|-15.0||||0.1411|TWO_SIDED|95.0|-35.04|5.06|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||5.06|-35.04|0.1411
82512053|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.562|TWO_SIDED|95.0|-1.08|0.59|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.59|-1.08|0.5620
82512054|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.0126|TWO_SIDED|95.0|0.38|3.12|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.12|0.38|0.0126
82512055|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.608|TWO_SIDED|95.0|-1.19|2.02|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.02|-1.19|0.6080
82512056|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|2.09||||0.0379|TWO_SIDED|95.0|0.12|4.05|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||4.05|0.12|0.0379
82633200|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.262|||<|0.0001|TWO_SIDED|95.0|1.154|1.38|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.380|1.154|<0.0001
82633201|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.615||||0.0205|TWO_SIDED|95.0|1.219|10.721|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (ASIAN vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||10.721|1.219|0.0205
82633202|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.981||||0.9557|TWO_SIDED|95.0|0.506|1.903|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (BLACK vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.903|0.506|0.9557
82633203|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.599||||0.2|TWO_SIDED|95.0|0.273|1.312|||Regression, Logistic|||The statistical analysis is presented for Ethnic origin (HISPANIC vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.312|0.273|0.2000
82633204|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.684||||0.0437|TWO_SIDED|95.0|1.037|13.083|||Regression, Logistic|||The statistical analysis is presented for (OTHER vs WHITE/CAUCASIAN). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||13.083|1.037|0.0437
82633205|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|134.6|||<|0.0001|TWO_SIDED|95.0|17.956|1009.0|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1009.0|17.956|<0.0001
82512057|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.2368|TWO_SIDED|95.0|-0.78|3.12|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.12|-0.78|0.2368
82512058|NCT03238911|164716795|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.8287|TWO_SIDED|95.0|-2.18|1.75|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.75|-2.18|0.8287
82512059|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|24.27|||<|0.0001|TWO_SIDED|95.0|18.81|29.73|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||29.73|18.81|<0.0001
82512060|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|15.75|||<|0.0001|TWO_SIDED|95.0|8.83|22.67|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.67|8.83|<0.0001
82512061|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|20.14|||<|0.0001|TWO_SIDED|95.0|12.07|28.22|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||28.22|12.07|<0.0001
82633206|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|77.905|||<|0.0001|TWO_SIDED|95.0|10.521|576.85|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||576.85|10.521|<0.0001
82523716|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.0||||0.772|TWO_SIDED|95.0|-49.0|37.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 16||37|-49|0.772
82569077|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.5|1.0|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 31||1.0|-0.5|
82633207|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.527||||0.0105|TWO_SIDED|95.0|1.872|112.73|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||112.73|1.872|0.0105
82379105|NCT02414958|164467102|SUPERIORITY||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|99.75|-0.121|-0.063|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline total daily insulin dose, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.063|-0.121|<0.0001
82379106|NCT02414958|164467102|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|99.75|-0.119|-0.062|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|Model MMRM includes baseline total daily insulin dose, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, visit by treatment interaction, baseline total daily insulin dose by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.062|-0.119|<0.0001
82499072|NCT03978520|164689013|SUPERIORITY||Rate Difference|0.15|||=|0.156|TWO_SIDED|95.0|-0.06|0.37|||Binomial regression|||"Severe~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.37|-0.06|=0.156
82499073|NCT03978520|164689013|SUPERIORITY||Rate Difference|-1.16|||=|0.002|TWO_SIDED|95.0|-1.89|-0.44|||Binomial regression|||"Overall~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.44|-1.89|=0.002
82499074|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.95|||=|0.014|TWO_SIDED|95.0|-1.7|-0.19|||Binomial regression|||"Overall~Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||-0.19|-1.70|=0.014
82499075|NCT03978520|164689013|SUPERIORITY||Rate Difference|-0.22|||=|0.526|TWO_SIDED|95.0|-0.89|0.46|||Binomial regression|||"Overall~ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~A negative binomial regression model was used to assess treatment effect with treatment, visit, and stratification factors as covariates."||0.46|-0.89|=0.526
82633208|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.563||||0.0041|TWO_SIDED|95.0|1.152|2.12|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.120|1.152|0.0041
82633209|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.557|||<|0.0001|TWO_SIDED|95.0|2.405|12.838|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||12.838|2.405|<0.0001
82633210|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.822||||0.0037|TWO_SIDED|95.0|1.216|2.732|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.732|1.216|0.0037
82633211|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.342|||<|0.0001|TWO_SIDED|95.0|3.977|32.347|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||32.347|3.977|<0.0001
82633212|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112|||<|0.0001|TWO_SIDED|95.0|1.068|1.158|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.158|1.068|<0.0001
82633213|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112|||<|0.0001|TWO_SIDED|95.0|1.068|1.158|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.158|1.068|<0.0001
82633214|NCT01066819|164982524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.921||||0.0035|TWO_SIDED|95.0|1.686|14.362|||Regression, Logistic|||The statistical analysis is presented for On-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||14.362|1.686|0.0035
82633215|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.441||||0.0162|TWO_SIDED|95.0|0.226|0.859|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.859|0.226|0.0162
82633216|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.745||||0.0156|TWO_SIDED|95.0|1.111|2.741|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.741|1.111|0.0156
82633217|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.1075|TWO_SIDED|95.0|0.829|6.789|||Regression, Logistic|||The statistical analysis is presented for Alanine Aminotransferase (ALT) ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.789|0.829|0.1075
82633218|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.906||||0.8518|TWO_SIDED|95.0|0.321|2.559|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.559|0.321|0.8518
82633219|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969||||0.0012|TWO_SIDED|95.0|0.951|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.951|0.0012
82633220|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.441||||0.0162|TWO_SIDED|95.0|0.226|0.859|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.859|0.226|0.0162
82512062|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|32.22|||<|0.0001|TWO_SIDED|95.0|25.49|38.96|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||38.96|25.49|<0.0001
82512063|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|22.87|||<|0.0001|TWO_SIDED|95.0|14.79|30.95|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||30.95|14.79|<0.0001
82512064|NCT03238911|164716796|SUPERIORITY||Mean Difference (Final Values)|10.6||||0.0043|TWO_SIDED|95.0|3.39|17.82|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||17.82|3.39|0.0043
82512065|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.0552|TWO_SIDED|95.0|-0.34|0.0|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.00|-0.34|0.0552
82512066|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0023|TWO_SIDED|95.0|-0.6|-0.13|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.13|-0.60|0.0023
82512067|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.0008|TWO_SIDED|95.0|-0.8|-0.21|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.21|-0.80|0.0008
82512068|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.49|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.49|-1.11|<0.0001
82633221|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.745||||0.0156|TWO_SIDED|95.0|1.111|2.741|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.741|1.111|0.0156
82512069|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.0006|TWO_SIDED|95.0|-1.01|-0.28|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.28|-1.01|0.0006
82633222|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.1075|TWO_SIDED|95.0|0.829|6.789|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.789|0.829|0.1075
82523717|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.0||||0.387|TWO_SIDED|95.0|-24.0|61.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 16||61|-24|0.387
82633223|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.906||||0.8518|TWO_SIDED|95.0|0.321|2.559|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.559|0.321|0.8518
82633224|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969||||0.0012|TWO_SIDED|95.0|0.951|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.951|0.0012
82379107|NCT02414958|164467103|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.0||0.0397|TWO_SIDED|99.75|-5.2|1.0|||MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model MMRM includes baseline SBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||1.0|-5.2|0.0397
82379108|NCT02414958|164467103|SUPERIORITY||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|1.0||0.0003|TWO_SIDED|99.75|-6.8|-0.6|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For SBP, the model includes baseline SBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline SBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.6|-6.8|0.0003
82633225|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.848||||0.0017|TWO_SIDED|95.0|0.765|0.94|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.940|0.765|0.0017
82633226|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.848||||0.0017|TWO_SIDED|95.0|0.765|0.94|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.940|0.765|0.0017
82633227|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.401||||0.0071|TWO_SIDED|95.0|0.206|0.78|||Regression, Logistic|||The statistical analysis is presented for Sex (MALE vs FEMALE). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.780|0.206|0.0071
82633228|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.016||||0.0006|TWO_SIDED|95.0|0.001|0.169|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.169|0.001|0.0006
82633229|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.076||||0.0255|TWO_SIDED|95.0|0.008|0.729|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.729|0.008|0.0255
82633230|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.184||||0.1501|TWO_SIDED|95.0|0.018|1.845|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.845|0.018|0.1501
82633231|NCT01066819|164982541|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.25|||<|0.0001|TWO_SIDED|95.0|6.729|110.35|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (cEVR vs RVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||110.35|6.729|<0.0001
82633232|NCT00535236|164982573|OTHER||||||<|0.001||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||<0.001
82633233|NCT00535236|164982573|OTHER|||||||0.003||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.003
82633234|NCT00535236|164982573|OTHER|||||||0.017||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.017
82633235|NCT00535236|164982574|OTHER||||||<|0.001||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the GMFR in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjustied for prevaccination values||||||<0.001
82633236|NCT00535236|164982574|OTHER|||||||0.004||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the geometric mean fold rise (GMFR) in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.004
82633237|NCT00535236|164982574|OTHER|||||||0.026||||||Statistical criterion corresponds to the lower bound of the two-sided 90% confidence interval (CI) on the geometric mean fold rise (GMFR) in the vaccine recipients being \>1.0|Single longitudinal regression model|Adjusted for prevaccination values||||||0.026
82633238|NCT00535236|164982575|OTHER||Difference in Percentages|12.5|||||TWO_SIDED|95.0|-21.7|35.3|||||V212 minus placebo = Difference|||35.3|-21.7|
82633239|NCT00535236|164982575|OTHER||Difference in Percentages|10.0|||||TWO_SIDED|95.0|-15.1|42.9|||||V212 minus placebo = Difference|||42.9|-15.1|
82633240|NCT00535236|164982575|OTHER||Difference in Percentages|1.8|||||TWO_SIDED|95.0|-20.4|15.7|||||V212 minus placebo = Difference|||15.7|-20.4|
82633241|NCT00535236|164982575|OTHER||Difference in Percentages|14.4|||||TWO_SIDED|95.0|-6.5|27.6|||||V212 minus placebo = Difference|||27.6|-6.5|
82633242|NCT00535236|164982575|OTHER||Difference in Percentages|3.3|||||TWO_SIDED|95.0|-18.1|17.0|||||V212 minus placebo = Difference|||17.0|-18.1|
82633243|NCT00535236|164982576|OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-31.7|16.5|||Asymptotic method||V212 minus placebo = Difference|||16.5|-31.7|>0.999
82633244|NCT00535236|164982576|OTHER||Difference in Percentages|10.0||||0.302|TWO_SIDED|95.0|-18.8|23.2|||Asymptotic method||V212 minus placebo = Difference|||23.2|-18.8|0.302
82633245|NCT00535236|164982576|OTHER||Difference in Percentages|31.6||||0.009|TWO_SIDED|95.0|9.7|46.2|||Asymptotic method||V212 minus placebo = Difference|||46.2|9.7|0.009
82633246|NCT00535236|164982576|OTHER||Difference in Percentages|22.6||||0.041|TWO_SIDED|95.0|1.3|36.6|||Asymptotic method||V212 minus placebo = Difference|||36.6|1.3|0.041
82633247|NCT00535236|164982576|OTHER||Difference in Percentages|-11.7||||0.064|TWO_SIDED|95.0|-33.2|0.6|||Asymptotic method||V212 minus placebo = Difference|||0.6|-33.2|0.064
82633248|NCT00535236|164982577|OTHER||Difference in Percentages|-5.0||||0.556|TWO_SIDED|95.0|-36.3|9.5|||Asymptotic method||V212 minus placebo = Difference|||9.5|-36.3|0.556
82633249|NCT00535236|164982577|OTHER||Difference in Percentages|2.5||||0.617|TWO_SIDED|95.0|-25.8|13.0|||Asymptotic method||V212 minus placebo = Difference|||13.0|-25.8|0.617
82633250|NCT00535236|164982577|OTHER||Difference in Percentages|3.5||||0.411|TWO_SIDED|95.0|-13.7|12.0|||Asymptotic method||V212 minus placebo = Difference|||12.0|-13.7|0.411
82633251|NCT00535236|164982577|OTHER||Difference in Percentages|4.9||||0.328|TWO_SIDED|95.0|-12.3|13.6|||Asymptotic method||V212 minus placebo = Difference|||13.6|-12.3|0.328
82633252|NCT00535236|164982577|OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-19.2|10.0|||Asymptotic method||V212 minus placebo = Difference|||10.0|-19.2|>0.999
82633253|NCT00535236|164982578|OTHER||Difference in Percentages|10.5||||0.552|TWO_SIDED|95.0|-21.3|41.8|||Asymptotic method||V212 minus placebo = Difference|||41.8|-21.3|0.552
82633254|NCT00535236|164982578|OTHER||Difference in Percentages|6.7||||0.696|TWO_SIDED|95.0|-22.5|39.4|||Asymptotic method||V212 minus placebo = Difference|||39.4|-22.5|0.696
82633255|NCT00535236|164982578|OTHER||Difference in Percentages|7.5||||0.221|TWO_SIDED|95.0|-9.8|18.0|||Asymptotic method||V212 minus placebo = Difference|||18.0|-9.8|0.221
82633256|NCT00535236|164982578|OTHER||Difference in Percentages|6.8||||0.402|TWO_SIDED|95.0|-13.7|19.1|||Asymptotic method||V212 minus placebo = Difference|||19.1|-13.7|0.402
82633257|NCT00535236|164982578|OTHER||Difference in Percentages|3.8||||0.679|TWO_SIDED|95.0|-18.5|18.2|||Asymptotic method||V212 minus placebo = Difference|||18.2|-18.5|0.679
82633258|NCT04880642|164982579|SUPERIORITY|"The null hypothesis was that the there was no difference in survival up to Day 60 between the two groups and was to be rejected in favour of the alternative hypothesis i.e. a difference in survival up to Day 60 between the two groups excisted.~The overall 2-sided significance level of 5% was applied to the primary endpoint."|Hazard Ratio (HR)|0.98||||0.949|TWO_SIDED|95.0|0.4|2.36|||Log Rank|||||2.36|0.40|0.949
82633259|NCT04880642|164982580|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.301|TWO_SIDED|95.0|0.91|1.52|||Log Rank|||||1.52|0.91|0.301
82633260|NCT04880642|164982581|SUPERIORITY||Median Difference (Final Values)|0.0||||0.425|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.425
82633261|NCT04880642|164982582|SUPERIORITY||Risk Difference (RD)|-1.7|STANDARD_ERROR_OF_MEAN|3.91||0.671|TWO_SIDED|95.0|-9.3|6.0|||Regression, Logistic|||||6.0|-9.3|0.671
82633262|NCT04880642|164982583|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|5.62||0.948|TWO_SIDED|95.0|-11.4|10.6|||Regression, Logistic|||||10.6|-11.4|0.948
82633263|NCT02275052|164982592|SUPERIORITY_OR_OTHER||Least squares mean difference|3.31||||0.79|TWO_SIDED|95.0|-21.12|27.74||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||27.74|-21.12|0.790
82633264|NCT02275052|164982593|SUPERIORITY_OR_OTHER||Least squares mean difference|0.206|||<|0.001|TWO_SIDED|95.0|0.167|0.246|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.246|0.167|<0.001
82633265|NCT02275052|164982594|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.346|||<|0.001|TWO_SIDED|95.0|-0.487|-0.204|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||-0.204|-0.487|<0.001
82633266|NCT02275052|164982595|SUPERIORITY_OR_OTHER||Least squares mean difference|0.259|||<|0.001|TWO_SIDED|95.0|0.194|0.324|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.324|0.194|<0.001
82633267|NCT00041119|164982606|SUPERIORITY|If the 5-year DFS for 4 cycles is 84.7% then a decrease of 23% in hazard rate for 6 cycles corresponds to an increase in 5-year DFS to 88%. Assuming a 2-sided significance level of 0.05, there is 90.9% power to detect such an increase at the final analysis conducted 6.4 years after study activation.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.84|1.28||||||The null hypothesis is that the hazards of both 6 and 4 cycle regimens are equal. The alternative hypothesis is a hazard ratio of 0.77, corresponding to a decrease of 23% in hazard due to longer duration of chemotherapy.||1.28|0.84|
82633268|NCT00041119|164982607|EQUIVALENCE|For T to be considered equivalent to the standard CA, a confidence interval of the hazard ratio of T to CA should be wholly to the left of 1.3, corresponding to a 30% increase in hazard rate. If the 5-year DFS for CA is 88% then an increase of 30% in hazard rate for T corresponds to 5-year DFS of 84.7%. The null hypothesis is that the hazard ratio of T to CA exceeds 1.3. The alternative hypothesis is that the two hazard rates are equivalent.|Hazard Ratio (HR)|1.26|||||ONE_SIDED|95.0||1.48||||||||1.48||
82633269|NCT00041119|164982608|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were designed to detect effects in the marginal distributions of the two study factors, agent and length, and assume no interaction between the two factors. Calculations also assume exponential DFS and a total of 4556 treated patients accrued over 29 months and followed for four years after accrual termination for a total study time of 6.4 years. We assume the 5-year DFS of CA therapy is 88% and 84.7% for T. These assumptions are based upon results of SWOG 8897.|Hazard Ratio (HR)|1.27|||||ONE_SIDED|95.0||1.56||||||||1.56||
82633270|NCT00041119|164982612|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were designed to detect effects in the marginal distributions of the two study factors, agent and length, and assume no interaction between the two factors. Calculations also assume exponential DFS and a total of 4556 treated patients accrued over 29 months and followed for four years after accrual termination for a total study time of 6.4 years.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.84|1.49||||||||1.49|.84|
82633271|NCT03798366|164982641|SUPERIORITY||Least square (LS) mean difference|-0.5|STANDARD_ERROR_OF_MEAN|1.29||0.6757|TWO_SIDED|95.0|-3.1|2.0|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||2.0|-3.1|0.6757
82633272|NCT03798366|164982642|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|1.31||0.6079|TWO_SIDED|95.0|-3.3|1.9|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||1.9|-3.3|0.6079
82633273|NCT03798366|164982643|SUPERIORITY||LS mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.35||0.1298|TWO_SIDED|95.0|-4.8|0.6|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||0.6|-4.8|0.1298
82633274|NCT03798366|164982644|SUPERIORITY||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.36||0.0411|TWO_SIDED|95.0|-5.6|-0.1|||Mixed Models Analysis||A negative difference indicates a greater improvement in the GLPG1690 treatment group.|Results were estimated using a mixed-effect model repeated measure using treatment and visit as fixed effects, baseline mRSS score and country as covariates, treatment-visit as interaction terms, and participant as a random effect. The variance-covariance matrix used in the model was compound symmetric.||-0.1|-5.6|0.0411
82633275|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.6|< 0.0001
82512070|NCT03238911|164716797|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.0014|TWO_SIDED|95.0|-0.94|-0.23|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.23|-0.94|0.0014
82512071|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.7447|TWO_SIDED|95.0|-7.96|5.71|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||5.71|-7.96|0.7447
82512072|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-9.7||||0.0363|TWO_SIDED|95.0|-18.78|-0.63|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.63|-18.78|0.0363
82512073|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.9242|TWO_SIDED|95.0|-10.56|9.59|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||9.59|-10.56|0.9242
82512074|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-11.17||||0.0602|TWO_SIDED|95.0|-22.84|0.49|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.49|-22.84|0.0602
82512075|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-18.2||||0.0008|TWO_SIDED|95.0|-28.68|-7.73|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-7.73|-28.68|0.0008
82512076|NCT03238911|164716798|SUPERIORITY||Mean Difference (Final Values)|-19.79||||0.0031|TWO_SIDED|95.0|-32.75|-6.83|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-6.83|-32.75|0.0031
82512077|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.267|TWO_SIDED|95.0|-0.029|0.104|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.104|-0.029|0.2670
82512078|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.085||||0.004|TWO_SIDED|95.0|0.028|0.142|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.142|0.028|0.0040
82512079|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.064||||0.0472|TWO_SIDED|95.0|0.001|0.127|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.127|0.001|0.0472
82523718|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.0||||0.243|TWO_SIDED|95.0|-18.0|69.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 16||69|-18|0.243
82633276|NCT02607865|164982658|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.6|< 0.0001
82633277|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.2|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.1||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.4|< 0.0001
82633278|NCT02607865|164982658|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.4|< 0.0001
82633279|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.3% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|0.2|||=|0.0856|TWO_SIDED|95.0|0.1|0.3||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.3|0.1|= 0.0856
82633280|NCT02607865|164982658|SUPERIORITY|This hypothesis was not controlled for multiplicity, since the non-inferiority test of change in HbA1c for oral semaglutide 3 mg versus sitagliptin 100 mg could not be confirmed. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|0.2|||=|0.008|TWO_SIDED|95.0|0.0|0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg. If the mean treatment difference is non-negative, the superiority hypothesis of oral semaglutide 3 mg vs sitagliptin 100 mg will never be confirmed irrespective of the observed two-sided p-value.|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.3|0.0|= 0.0080
82633281|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.5||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.7|<0.0001
82633282|NCT02607865|164982658|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.5||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.7|<0.0001
82633283|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-0.4|<0.0001
82633284|NCT02607865|164982658|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-0.4|<0.0001
82633285|NCT02607865|164982658|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|0.2|||=|0.3851|TWO_SIDED|95.0|0.1|0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.3%.|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.4|0.1|=0.3851
82633286|NCT02607865|164982658|OTHER|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg. If the mean treatment difference is non-negative, the superiority hypothesis of oral semaglutide 3 mg vs sitagliptin 100 mg will never be confirmed irrespective of the observed two-sided p-value.|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.4|0.1|<0.0001
82379109|NCT02414958|164467103|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.7||0.0457|TWO_SIDED|99.75|-2.7|0.0||Nominal p-value|MMRM||Mean Difference= Empagliflozin 10 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model MMRM includes baseline DBP seated, baseline eGFR baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||0.0|-2.7|0.0457
82499076|NCT00580606|164689070|SUPERIORITY_OR_OTHER||Risk Difference (RD)|55.0|||<|0.001|TWO_SIDED|95.0|22.2|77.6||No adjustments were made to the p-value.|Barnard's Statistic|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 5,000 mg of peanut powder or at least a 10-fold increase in the amount of peanut powder compared to their baseline OFC was compared using Barnard's Statistic with the null hypothesis that there was no difference between treatment groups.||77.6|22.2|<0.001
82499077|NCT04216329|164689115|OTHER|||||||0.02|||||||Students t-test|||||||0.02
82499078|NCT04216329|164689115|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
82499079|NCT04216329|164689115|OTHER|||||||0.02|||||||Students t-test|||||||0.02
82499080|NCT04216329|164689115|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
82499081|NCT04216329|164689115|OTHER|||||||0.02|||||||Students t-test|||||||0.02
82499082|NCT04216329|164689115|OTHER|||||||0.07||||||P-value 0.07 represents the difference between baseline depression scores and completion of treatment scores.|Students t-test|||||||0.07
82499083|NCT04216329|164689117|OTHER|||||||0.09|||||||Students t-test|||||||0.09
82499084|NCT04216329|164689117|OTHER|||||||0.09|||||||Students t-test|||||||0.09
82499085|NCT04216329|164689117|OTHER|||||||0.09|||||||Students t-test|||||||0.09
82499086|NCT03918447|164689123|SUPERIORITY||Least Square Means Difference|0.97|STANDARD_ERROR_OF_MEAN|1.122|=|0.3886|TWO_SIDED|95.0|-1.25|3.19|||ANCOVA|||ANCOVA model with baseline eGFR as a covariate, and treatment group as fixed effects.||3.19|-1.25|=0.3886
82569078|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 33||0.7|-0.7|
82379110|NCT02414958|164467103|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.7||0.0006|TWO_SIDED|99.75|-4.3|-0.3|||MMRM||Mean Difference= Empagliflozin 25 milligram (mg) adjusted mean - Placebo matching Empagliflozin adjusted mean.|For DBP, the model MMRM includes baseline DBP seated, baseline estimated eGFR, baseline HbA1c as linear covariate and baseline pre-existing insulin therapy, treatment, visit, treatment by visit interaction, baseline DBP seated by visit interaction as fixed effect. An unstructured covariance structure was used to model the within-patient measurements.||-0.3|-4.3|0.0006
82379111|NCT04194645|164467191|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|97.71|||||TWO_SIDED|90.0|91.45|104.4|||ANOVA||Intra- individual coefficient of variation (gCV %) = 8.9|No formal hypothesis was tested.||104.40|91.45|
82379112|NCT04194645|164467191|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|112.88|||||TWO_SIDED|90.0|98.82|128.94|||ANOVA||Intra- individual coefficient of variation (gCV %) = 16.8|No formal hypothesis was tested.||128.94|98.82|
82379113|NCT04194645|164467192|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|48.02|||||TWO_SIDED|90.0|41.86|55.09|||ANOVA||Intra- individual coefficient of variation (gCV %) = 18.5|No formal hypothesis was tested.||55.09|41.86|
82379114|NCT04194645|164467192|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|122.8|||||TWO_SIDED|90.0|105.04|143.56|||ANOVA||Intra- individual coefficient of variation (gCV %) = 19.8|No formal hypothesis was tested.||143.56|105.04|
82569079|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.3|-0.4|
82379115|NCT04194645|164467195|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T2/R)|98.32|||||TWO_SIDED|90.0|91.98|105.09|||ANOVA||Intra- individual coefficient of variation (gCV %) = 8.9|No formal hypothesis was tested.||105.09|91.98|
82512080|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.005|TWO_SIDED|95.0|0.031|0.171|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.171|0.031|0.0050
82512081|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.0061|TWO_SIDED|95.0|0.029|0.172|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.172|0.029|0.0061
82523719|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.0||||0.398|TWO_SIDED|95.0|-62.0|25.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 20||25|-62|0.398
82379116|NCT04194645|164467195|OTHER|The statistical model used for the analysis of the endpoint was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio of geometric mean (T1/T2)|112.94|||||TWO_SIDED|90.0|98.75|129.18|||ANOVA||Intra- individual coefficient of variation (gCV %) = 16.9|No formal hypothesis was tested.||129.18|98.75|
82379117|NCT03076775|164467196|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82512082|NCT03238911|164716799|SUPERIORITY||Mean Difference (Final Values)|0.055||||0.1282|TWO_SIDED|95.0|-0.016|0.126|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.126|-0.016|0.1282
82379118|NCT03076775|164467197|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82569080|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 33||1.3|-0.4|
82569081|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.5|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 45||0.5|-1.1|
82379119|NCT03076775|164467198|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82569082|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.1|-0.7|
82512083|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.4618|TWO_SIDED|95.0|-0.82|0.37|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.37|-0.82|0.4618
82512084|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.366|TWO_SIDED|95.0|-0.54|0.2|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.20|-0.54|0.3660
82569083|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 45||1.3|-0.4|
82569084|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 52||0.7|-0.7|
82633287|NCT02607865|164982659|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.0|-2.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-2.0|-3.0|< 0.0001
82633288|NCT02607865|164982659|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.1|-2.0|< 0.0001
82633289|NCT02607865|164982659|SUPERIORITY|This hypothesis was not controlled for multiplicity, since the non-inferiority test of change in HbA1c for oral semaglutide 3 mg versus sitagliptin 100 mg could not be confirmed. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.6|||=|0.0185|TWO_SIDED|95.0|-1.1|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-1.1|= 0.0185
82633290|NCT02607865|164982659|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.1|-2.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-2.1|-3.1|<0.0001
82569085|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.3|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.3|-0.4|
82569086|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 52||1.3|-0.4|
82569087|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 2)|Anti-HPV 58||0.7|-0.7|
82569088|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 1) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.3|-0.4|
82379120|NCT03076775|164467199|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82379121|NCT03076775|164467200|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
82379122|NCT03076775|164467201|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
82379123|NCT03076775|164467202|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82379124|NCT03076775|164467203|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82379125|NCT03076775|164467204|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82569089|NCT00943722|164848097|EQUIVALENCE|equivalence requires that the two-sided 95% CI for the difference in percentages between lots be entirely contained within the interval (-5, 5).|Percentage Point Difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Percentage Point Difference = 9- to 15-Year-Old Females (Lot 2) minus 9- to 15-Year-Old Females (Lot 3)|Anti-HPV 58||1.3|-0.4|
82569090|NCT01036165|164848105|SUPERIORITY_OR_OTHER||Mean positive response|0.78|||||TWO_SIDED|95.0|0.7|0.86|||||Confidence Interval calculated from normal approximation to the binomial. The primary objective was met if the lower limit of the 95% confidence interval was \>0.50.|||0.86|0.70|
82379126|NCT03076775|164467205|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
82379127|NCT01783886|164467211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.1|||<|0.0001|TWO_SIDED|97.5|10.9|17.2|||ANCOVA||Least Square (LS) mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||17.2|10.9|<0.0001
82379128|NCT01783886|164467211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||<|0.0001|TWO_SIDED|97.5|10.2|16.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||16.9|10.2|<0.0001
82512085|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.858|TWO_SIDED|95.0|-0.25|0.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.30|-0.25|0.8580
82512086|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.0257|TWO_SIDED|95.0|0.05|0.74|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.74|0.05|0.0257
82512087|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.0016|TWO_SIDED|95.0|0.19|0.77|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.77|0.19|0.0016
82512088|NCT03238911|164716801|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.0185|TWO_SIDED|95.0|0.07|0.76|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.76|0.07|0.0185
82512089|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-14.84||||0.1922|TWO_SIDED|95.0|-37.26|7.57|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||7.57|-37.26|0.1922
82512090|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-18.28||||0.5601|TWO_SIDED|95.0|-80.24|43.68|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||43.68|-80.24|0.5601
82512091|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-71.02||||0.0459|TWO_SIDED|95.0|-140.74|-1.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-1.30|-140.74|0.0459
82633291|NCT02607865|164982659|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.1|-2.0|<0.0001
82633292|NCT02607865|164982659|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|type Mean treatment difference|-0.5|||=|0.0257|TWO_SIDED|95.0|-1.0|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Sitagliptin 100 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-1.0|=0.0257
82633293|NCT02607865|164982680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.34|||=|0.0063|TWO_SIDED|95.0|1.09|1.65||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.65|1.09|=0.0063
82633294|NCT02607865|164982680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77|||=|0.0221|TWO_SIDED|95.0|0.61|0.96||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.96|0.61|=0.0221
82633295|NCT02607865|164982680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.68|0.41|<0.0001
82633296|NCT02607865|164982681|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.33|||=|0.016|TWO_SIDED|95.0|1.05|1.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.68|1.05|=0.0160
82633297|NCT02607865|164982681|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.66|||=|0.0022|TWO_SIDED|95.0|0.51|0.86||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.86|0.51|=0.0022
82633298|NCT02607865|164982681|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.22|0.43||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.43|0.22|<0.0001
82633299|NCT00203294|164982718|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Separate models were fit to the change scores for headache pain, nausea and vomiting, photophobia, phonophobia, and neck pain.|Fisher Exact|||Fisher's exact test was used to compare nominal variables between groups. The Wilcoxon rank-sum test was used to compare interval and ordinal variables between groups.||||<0.01
82633300|NCT00203294|164982718|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Fisher Exact|Wilcoxon rank-sum test was used to compare interval and ordinal variables between groups.||Fisher's exact test was used to compare nominal variables between groups.||||<0.01
82633301|NCT00886587|164982722|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.04||||0.9416|TWO_SIDED|95.0|-1.09|1.17||The significance threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.17|-1.09|0.9416
82633302|NCT00886587|164982723|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.35||||0.5431|TWO_SIDED|95.0|-0.78|1.48||The significance level threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.48|-0.78|0.5431
82633303|NCT00886587|164982724|SUPERIORITY_OR_OTHER||Estimated Mean Difference|-0.06||||0.788|TWO_SIDED|95.0|-0.47|0.36||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment as a factor, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.36|-0.47|0.788
82633304|NCT00886587|164982725|SUPERIORITY_OR_OTHER||Estimated Mean Difference|0.03||||0.9508|TWO_SIDED|95.0|-0.9|0.96||The significance threshold level was 0.05 (two-sided).|Repeated measures ANCOVA|Treatment, visit number, and treatment-visit number interaction term as factors, with baseline score and age as covariates.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.96|-0.90|0.9508
82633305|NCT03427528|164982728|OTHER|To assess paternal and maternal outcomes on the BDI-II we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our BDI-II.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
82633306|NCT03427528|164982729|OTHER|To assess paternal and maternal outcomes on the GAD-7, we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our outcomes.|||||>|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||>0.05
82633307|NCT03427528|164982730|OTHER|To assess paternal and maternal outcomes on the PSS-10, we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our PSS-10 outcomes.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
82633308|NCT03427528|164982730|OTHER|To assess paternal and maternal outcomes on the PSS-10 we conducted a series of paired t-tests with Bonferroni correction for multiple comparisons. T-tests compared baseline scores on each outcome to 3-month follow-up scores, with separate t-tests conducted to examine changes between baseline and 6-month follow-up. We used a Cohen's d statistic to indicate effect sizes for our PSS-10 outcomes.|||||<|0.05|||||||Paired T-test|||We used a single group longitudinal pre-post design to evaluate study outcomes||||<0.05
82633309|NCT03427528|164982731|OTHER||||||>|0.05|||||||t-test, 2 sided|||We used a single group longitudinal pre-post design to evaluate study outcomes||||>0.05
82633310|NCT01009333|164982738|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Mixed Models Analysis|||||||0.008
82633311|NCT01009333|164982739|SUPERIORITY_OR_OTHER|||||||0.589||95.0|||||Mixed Models Analysis|||||||0.589
82633312|NCT01009333|164982740|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|||||||0.04
82633313|NCT01948791|164982741|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% confidence interval of the mean difference between the baseline score and post-baseline score falls on the left of MeanP-MeanB+1.40, the post-baseline noninferiority to baseline can be concluded. If the upper limit of the 95% confidence interval of the mean difference between the baseline score and post-baseline score falls on the left of 0, superiority can be concluded.|||||<|0.001|||||||t-test, 1 sided|||The hypothesis to test the non-inferiority of post-baseline change in ADAS-Cog from baseline was: H0: μP - μB ≥ 1.40, Ha: μP - μB \< 1.40 where μP and μB are the ADAS-Cog score (actual) at 16 weeks of Rivastigmine treatment and the baseline ADAS-Cog score (actual), respectively.||||<0.001
82633314|NCT01955005|164982752|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||This was a 2x2 comparison using Fisher's exact due to low expected cell count. Fisher's exact p\<0.001||||<0.001
82633315|NCT01955005|164982753|SUPERIORITY_OR_OTHER||Z score|568.5||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
82633316|NCT01955005|164982754|SUPERIORITY_OR_OTHER||Table Probability|0.0142||||0.02|TWO_SIDED||||||Fisher's Exact|||||||0.02
82633317|NCT04623255|164982761|SUPERIORITY|||||||0.16|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in at least two inflammation markers' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.16
82633318|NCT04623255|164982762|SUPERIORITY|||||||0.606|TWO_SIDED|95.0|||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker CRP' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.606
82633319|NCT04623255|164982763|SUPERIORITY|||||||0.245|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker D-Dimer' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.245
82633320|NCT04623255|164982764|SUPERIORITY|||||||0.653|||||||Chi-squared|||The primary analysis will involve a comparison of the binary outcome '50% reduction in inflammation marker LDH' between the PEX and Standard of Care (control) trial arms using a chi-squared test. The risk difference (and ratio) will be estimated with a 95% confidence interval.||||0.653
82633321|NCT01610414|164982765|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) for overall HZ vaccine efficacy was above 0%.|Vaccine efficacy|68.17|||<|0.0001|TWO_SIDED|95.0|55.56|77.53|||Poisson method|||Vaccine efficacy (VE) was evaluated in the prevention of Herpes Zoster (HZ) in autologous haematopoietic stem cell transplant (HCT) recipients 18 years of agee and older.||77.53|55.56|<0.0001
82379129|NCT01783886|164467212|SUPERIORITY_OR_OTHER||CMH adjusted difference|47.4|||<|0.0001|TWO_SIDED|97.5|35.0|59.9|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH). The estimate is calculated as EYLEA minus Laser.|||59.9|35.0|<0.0001
82379130|NCT01783886|164467212|SUPERIORITY_OR_OTHER||CMH adjusted difference|39.2|||<|0.0001|TWO_SIDED|97.5|26.3|52.1|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||52.1|26.3|<0.0001
82379131|NCT01783886|164467213|SUPERIORITY_OR_OTHER||CMH adjusted difference|31.1|||<|0.0001|TWO_SIDED|97.5|19.2|43.0|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||43.0|19.2|<0.0001
82379132|NCT01783886|164467213|SUPERIORITY_OR_OTHER||CMH adjusted difference|24.3|||<|0.0001|TWO_SIDED|97.5|12.6|35.9|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||35.9|12.6|<0.0001
82633322|NCT02176005|164982777|OTHER||Contrast (B/A)|0.0093|||<|1e-06|TWO_SIDED|95.0|0.006|0.0144|||General linear model|||||0.0144|0.0060|<.000001
82379133|NCT01783886|164467214|SUPERIORITY_OR_OTHER||CMH adjusted difference|39.1|||<|0.0001|TWO_SIDED|97.5|26.0|52.2|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||52.2|26.0|<0.0001
82379134|NCT01783886|164467214|SUPERIORITY_OR_OTHER||CMH adjusted difference|40.6|||<|0.0001|TWO_SIDED|97.5|27.6|53.7|||Cochran-Mantel-Haenszel||The estimate is calculated as EYLEA minus Laser.|||53.7|27.6|<0.0001
82633323|NCT02176005|164982778|OTHER||Contrast (B/A)|0.0096|||<|1e-06|TWO_SIDED|95.0|0.0061|0.0151|||General linear model|||||0.0151|0.0061|<.000001
82379135|NCT01783886|164467215|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-130.5|||<|0.0001|TWO_SIDED|97.5|-171.2|-89.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||-89.9|-171.2|<0.0001
82379136|NCT01783886|164467215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-131.4|||<|0.0001|TWO_SIDED|97.5|-172.8|-89.9|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||-89.9|-172.8|<0.0001
82633324|NCT02176005|164982779|OTHER||Contrast (B/A)|0.9811||||0.806|TWO_SIDED|95.0|0.8608|1.1182|||General linear model|||||1.1182|0.8608|0.806
82379137|NCT01783886|164467216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.78||||0.0364|TWO_SIDED|97.5|-0.41|11.97|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||11.97|-0.41|0.0364
82379138|NCT01783886|164467216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.87||||0.0113|TWO_SIDED|97.5|0.8|12.94|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||12.94|0.80|0.0113
82633325|NCT02176005|164982780|OTHER||Contrast (B/A)|0.8785||||0.139|TWO_SIDED|95.0|0.76|1.0155|||General linear model|||||1.0155|0.7600|0.139
82512092|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-207.33|||<|0.0001|TWO_SIDED|95.0|-268.82|-145.84|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-145.84|-268.82|<0.0001
82379139|NCT01783886|164467217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81||||0.2688|TWO_SIDED|97.5|-2.9|8.53|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||8.53|-2.90|0.2688
82523720|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.0||||0.214|TWO_SIDED|95.0|-16.0|70.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 20||70|-16|0.214
82569091|NCT00307164|164848110|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||95.0|||||Stratified Wilcoxon rank-sum test|Treatment groups were compared for change in limb fat using a two-sided stratified Wilcoxon rank-sum test (stratified by ARV used)||||||0.64
82569092|NCT00307164|164848111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Log Rank|||||||0.17
82379140|NCT01783886|164467217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.01||||0.0009|TWO_SIDED|97.5|2.64|13.37|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser.|||13.37|2.64|0.0009
82523721|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.0||||0.526|TWO_SIDED|95.0|-30.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 20||58|-30|0.526
82523722|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.671|TWO_SIDED|95.0|-53.0|34.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 2.5 mg at Week 24||34|-53|0.671
82569093|NCT00307164|164848113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.25
82569094|NCT00307164|164848115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.88
82633326|NCT02176005|164982781|OTHER||Contrast (B/A)|1.1763||||0.104|TWO_SIDED|95.0|0.9982|1.3861|||General linear model|||||1.3861|0.9982|0.104
82633327|NCT02176005|164982782|OTHER||Contrast (B/A)|0.9391||||0.519|TWO_SIDED|95.0|0.7969|1.1066|||General linear model|||||1.1066|0.7969|0.519
82633328|NCT04957745|164982790|OTHER||||||<|0.01||||||"Null hypothesis is that there is no difference in Percentage of Total Viewing Time that Peripheral Target is Perceived across visual confusion conditions."|ANOVA|||"Effect of visual confusion conditions (binocular, unilateral monocular, and bilateral monocular visual confusions) on Percentage of Total Viewing Time Peripheral Target is Perceived is analyzed by repeated measure (within-subject) ANOVA. The test was performed with a significance level of 0.05."||||<0.01
82633329|NCT02483611|164982791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|149.0|STANDARD_DEVIATION|46.07||0.9651|TWO_SIDED|95.0|88.0|235.0|||ANOVA|||||235|88|0.9651
82633330|NCT02483611|164982791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|145.3|STANDARD_DEVIATION|42.48||0.9651|TWO_SIDED|95.0|78.0|244.0|||ANOVA|||||244|78|0.9651
82633331|NCT02483611|164982791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|147.8|STANDARD_DEVIATION|29.75||0.9651|TWO_SIDED|95.0|105.0|200.0|||ANOVA|||The sample size was calculated with a power of 80% to detect differences of 20% in the timing of clinical onset and the duration of NMB. The pharmacodynamic (latency, clinical duration, recovery rate and total duration) and hemodynamic variables (mean arterial pressure (MAP) and HR) were compared between the groups via analysis of variance (ANOVA) followed by the Tukey post-hoc test. The significance level was set at 5%.||200|105|0.9651
82633332|NCT02483611|164982792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|82.68|||<|0.0001|TWO_SIDED|95.0|72.62|99.27|||Kruskal-Wallis|||||99.27|72.62|<0.0001
82633333|NCT02483611|164982792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|86.33|||<|0.0001|TWO_SIDED|95.0|71.78|140.6|||Kruskal-Wallis|||||140.60|71.78|<0.0001
82633334|NCT02483611|164982792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.8|||<|0.0001|TWO_SIDED|95.0|40.5|92.9|||Kruskal-Wallis|||||92.90|40.50|<0.0001
82633335|NCT02483611|164982793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.08|STANDARD_DEVIATION|6.49||0.0015|TWO_SIDED|95.0|12.0|32.25|||ANOVA|||||32.25|12.00|0.0015
82633336|NCT02483611|164982793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.26|STANDARD_DEVIATION|7.69||0.0015|TWO_SIDED|95.0|10.5|39.83|||ANOVA|||||39.83|10.50|0.0015
82633337|NCT02483611|164982793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.53|STANDARD_DEVIATION|1.52||0.0015|TWO_SIDED|95.0|11.0|16.5|||ANOVA|||||16.50|11.00|0.0015
82633338|NCT02483611|164982794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.97|STANDARD_DEVIATION|6.77||0.0003|TWO_SIDED|95.0|19.5|41.5|||ANOVA|||||41.50|19.50|0.0003
82569095|NCT00307164|164848116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.60
82569096|NCT00307164|164848117|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.13
82569097|NCT00307164|164848118|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.17
82569098|NCT00307164|164848119|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.034
82569099|NCT00307164|164848120|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.76
82569100|NCT00307164|164848121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.10
82569101|NCT00307164|164848122|SUPERIORITY_OR_OTHER_LEGACY|||||||0.43||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.43
82569102|NCT00307164|164848123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.17
82633339|NCT02483611|164982794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.81|STANDARD_DEVIATION|10.97||0.0003|TWO_SIDED|95.0|18.5|49.5|||ANOVA|||||49.50|18.50|0.0003
82633340|NCT02483611|164982794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.51|STANDARD_DEVIATION|3.28||0.0003|TWO_SIDED|95.0|17.5|30.05|||ANOVA|||||30.05|17.50|0.0003
82633341|NCT02483611|164982795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.2|STANDARD_DEVIATION|12.16|<|0.0001|TWO_SIDED|95.0|94.87|136.8|||ANOVA|||||136.80|94.87|<0.0001
82633342|NCT02483611|164982795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.1|STANDARD_DEVIATION|18.2|<|0.0001|TWO_SIDED|95.0|95.82|163.3|||ANOVA|||||163.30|95.82|<0.0001
82633343|NCT02483611|164982795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.19|STANDARD_DEVIATION|16.34|<|0.0001|TWO_SIDED|95.0|58.0|125.2|||ANOVA|||||125.20|58|<0.0001
82633344|NCT02483611|164982796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.2|STANDARD_DEVIATION|10.88|<|0.0001|TWO_SIDED|95.0|106.3|140.2|||ANOVA|||||140.20|106.30|<0.0001
82633345|NCT02483611|164982796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|126.7|STANDARD_DEVIATION|14.19|<|0.0001|TWO_SIDED|95.0|106.5|149.4|||ANOVA|||||149.40|106.50|<0.0001
82379141|NCT04542057|164467218|SUPERIORITY||LS mean difference|0.0941|STANDARD_ERROR_OF_MEAN|0.01501|<|0.0001|TWO_SIDED|95.0|0.0647|0.1236||The analysis of covariance (ANCOVA) model was used to model the change from baseline FEV1 to average FEV1 AUC0-12h with treatment, region, background medication strata and smoking strata as fixed effects and baseline FEV1 as covariate.|ANCOVA|||||0.1236|0.0647|<0.0001
82379142|NCT01184079|164467302|NON_INFERIORITY_OR_EQUIVALENCE|"Sample size: (1 + 1/u)(Zα + Zβ)2 σ2 /\[log (RGMT) -δ0\] u= ratio of the size of the Standard schedule to Alternate schedule groups (u =1, for equal size groups); one-sided alpha (0.025)/4 for multiplicity of serotypes. Average log-transformed and geometric mean titers (GMTs) with a two-sided 95% confidence interval of the ratio of the GMTs were used.~Non-inferiority is determined if upper bound GMT ratio of standard group to alternate group \< 1.5."|largest upper bound GMT ratio|0.82|||||||||||||Non-inferiority is determined if upper bound GMT ratio of standard 6 month group to alternate 12 month group \< 1.5.|The primary endpoint would demonstrate noninferiority if the upper bound of the 95% two-sided confidence interval (CI) of the ratio of GMT for Standard schedule group divided by that of Alternate schedule group is \<1.5.||||
82379143|NCT01184079|164467304|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Chi-squared|||null hypothsesis: no difference in proportion of side effects reported between groups||||0.26
82379144|NCT02603146|164467317|OTHER||Cumulative Probability|0.336|||||TWO_SIDED|95.0|0.213|0.459|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 36 for HCQ.|||0.459|0.213|
82379145|NCT02603146|164467317|OTHER||Cumulative Probability|0.394|||||TWO_SIDED|95.0|0.268|0.519|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 36 for Placebo.|||0.519|0.268|
82379146|NCT02603146|164467317|SUPERIORITY|"The analysis is based on the KM estimated risk of CL- RA at 36 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of CL-RA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.058||||0.522|TWO_SIDED|95.0|-0.336|0.22||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.220|-0.336|0.522
82379147|NCT02603146|164467318|OTHER||Cumulative Probability|0.165|||||TWO_SIDED|95.0|0.076|0.225|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 12 for HCQ.|||0.225|0.076|
82379148|NCT02603146|164467318|OTHER||Cumulative Probability|0.194|||||TWO_SIDED|95.0|0.099|0.289|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of CL-RA by Month 12 for Placebo.|||0.289|0.099|
82379149|NCT02603146|164467318|SUPERIORITY|"The analysis is based on the KM estimated risk of CL- RA at 12 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of CL-RA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.029||||0.668|TWO_SIDED|95.0|-0.188|0.131||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.131|-0.188|0.668
82379150|NCT02603146|164467319|OTHER||Cumulative Probability|0.18|||||TWO_SIDED|95.0|0.088|0.273|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 12 for HCQ.|||0.273|0.088|
82379151|NCT02603146|164467319|OTHER||Cumulative Probability|0.194|||||TWO_SIDED|95.0|0.099|0.289|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 12 for Placebo.|||0.289|0.099|
82379152|NCT02603146|164467319|SUPERIORITY|"The analysis is based on the KM estimated risk of IA at 12 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of IA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.014||||0.84|TWO_SIDED|95.0|-0.177|0.15||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.150|-0.177|0.840
82379153|NCT02603146|164467320|SUPERIORITY|||||||0.652|||||||Log Rank|||||||0.652
82379154|NCT02603146|164467321|OTHER||Cumulative Probability|0.356|||||TWO_SIDED|95.0|0.23|0.482|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 36 for HCQ.|||0.482|0.230|
82379155|NCT02603146|164467321|OTHER||Cumulative Probability|0.425|||||TWO_SIDED|95.0|0.298|0.551|||||Using Kaplan-Meier product-limit method (and Greenwood's formula for confidence interval), estimated the cumulative probability of development of IA by Month 36 for Placebo.|||0.551|0.298|
82379156|NCT02603146|164467321|SUPERIORITY|"The analysis is based on the KM estimated risk of IA at 36 months, where risk = (1-KM estimated probability of survival). Survival for this analysis is defined as absence of IA. Estimated risks were derived from a Kaplan-Meier curve using censored time-to-event data to account for attrition under the assumption of non-informative censoring."|Risk Difference (RD)|-0.069||||0.452|TWO_SIDED|95.0|-0.363|0.226||The test statistic is a Wald-type chi-square statistic derived by dividing the difference of the logit-transformed KM survival estimates for each arm by the associated variance derived using the delta-method \[Klein, et. al. 2007\].|Chi-squared||Risk difference for HCQ - Placebo|||0.226|-0.363|0.452
82379157|NCT02603146|164467322|SUPERIORITY|||||||0.928||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.928
82379158|NCT02603146|164467322|SUPERIORITY|||||||0.076||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.076
82379159|NCT02603146|164467323|SUPERIORITY|||||||0.781||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.781
82379160|NCT02603146|164467323|SUPERIORITY|||||||0.457||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.457
82379161|NCT02603146|164467324|SUPERIORITY|||||||0.576||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.576
82379162|NCT02603146|164467324|SUPERIORITY|||||||0.323||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.323
82379163|NCT02603146|164467325|SUPERIORITY|||||||0.865||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.865
82379164|NCT02603146|164467325|SUPERIORITY|||||||0.179||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.179
82379165|NCT02603146|164467326|SUPERIORITY|||||||0.634||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.634
82633346|NCT02483611|164982796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.03|STANDARD_DEVIATION|12.78|<|0.0001|TWO_SIDED|95.0|71.75|116.4|||ANOVA|||||116.40|71.75|<0.0001
82379166|NCT02603146|164467326|SUPERIORITY|||||||0.574||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.574
82379167|NCT02603146|164467327|SUPERIORITY|||||||0.724||||||Week 52 results|Wilcoxon (Mann-Whitney)|||||||0.724
82379168|NCT02603146|164467327|SUPERIORITY|||||||0.149||||||Month 36 results|Wilcoxon (Mann-Whitney)|||||||0.149
82379169|NCT02603146|164467331|SUPERIORITY|||||||0.809|||||||Fisher Exact|||||||0.809
82379170|NCT00818766|164467345|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.3||||0.26||95.0|-11.3|2.7|||Fisher Exact|||||2.7|-11.3|.26
82633347|NCT02483611|164982797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|94.63|STANDARD_DEVIATION|10.18||0.0527|TWO_SIDED|95.0|70.0|112.0|||ANOVA|||||112.00|70.00|0.0527
82379171|NCT00818766|164467346|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.93||||0.77|TWO_SIDED|95.0|-6.1|4.3|||Fisher Exact|||||4.3|-6.1|0.77
82379172|NCT00818766|164467347|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.4||||0.21|TWO_SIDED|95.0|-8.3|1.6|||Fisher Exact|||||1.6|-8.3|.21
82379173|NCT00818766|164467348|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||.49
82633348|NCT02483611|164982797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.75|STANDARD_DEVIATION|10.05||0.0527|TWO_SIDED|95.0|65.0|104.0|||ANOVA|||||104.00|65.00|0.0527
82633349|NCT02483611|164982797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.1|STANDARD_DEVIATION|16.62||0.0527|TWO_SIDED|95.0|70.0|140.0|||ANOVA|||||140.00|70.00|0.0527
82633350|NCT02483611|164982798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.63|STANDARD_DEVIATION|12.1||0.1996|TWO_SIDED|95.0|60.0|110.0|||ANOVA|||||110.00|60.00|0.1996
82633351|NCT02483611|164982798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|84.69|STANDARD_DEVIATION|11.38||0.1996|TWO_SIDED|95.0|67.0|109.0|||ANOVA|||||109.00|67.00|0.1996
82633352|NCT02483611|164982798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|92.47|STANDARD_DEVIATION|12.3||0.1996|TWO_SIDED|95.0|73.0|112.0|||ANOVA|||||112.00|73.00|0.1996
82633353|NCT02483611|164982799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.88|STANDARD_DEVIATION|11.95||0.7145|TWO_SIDED|95.0|58.0|107.0|||ANOVA|||||107.00|58.00|0.7145
82633354|NCT02483611|164982799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.88|STANDARD_DEVIATION|9.8||0.7145|TWO_SIDED|95.0|59.0|97.0|||ANOVA|||||97.00|59.00|0.7145
82633355|NCT02483611|164982799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.73|STANDARD_DEVIATION|7.48||0.7145|TWO_SIDED|95.0|58.0|86.0|||ANOVA|||||86.00|58.00|0.7145
82633356|NCT02483611|164982800|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.113|TWO_SIDED|95.0|57.0|96.0|||Kruskal-Wallis|||||96.00|57.00|0.1130
82633357|NCT02483611|164982800|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0||||0.113|TWO_SIDED|95.0|55.0|84.0|||Kruskal-Wallis|||||84.00|55.00|0.1130
82633358|NCT02483611|164982800|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|74.0||||0.113|TWO_SIDED|95.0|59.0|83.0|||Kruskal-Wallis|||||83.00|59.00|0.1130
82633359|NCT02483611|164982801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|62.5||||0.0731|TWO_SIDED|95.0|58.0|98.0|||Kruskal-Wallis|||||98.00|58.00|0.0731
82633360|NCT02483611|164982801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.5||||0.0731|TWO_SIDED|95.0|55.0|74.0|||Kruskal-Wallis|||||74.00|55.00|0.0731
82633361|NCT02483611|164982801|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|67.0||||0.0731|TWO_SIDED|95.0|56.0|85.0|||Kruskal-Wallis|||||85.00|56.00|0.0731
82633362|NCT02483611|164982802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.5||||0.1002|TWO_SIDED|95.0|60.0|85.0|||Kruskal-Wallis|||||85.00|60.00|0.1002
82633363|NCT02483611|164982802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.0||||0.1002|TWO_SIDED|95.0|56.0|74.0|||Kruskal-Wallis|||||74.00|56.00|0.1002
82633364|NCT02483611|164982802|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.1002|TWO_SIDED|95.0|60.0|90.0|||Kruskal-Wallis|||||90.00|60.00|0.1002
82633365|NCT02483611|164982803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.94|STANDARD_DEVIATION|15.79||0.4338|TWO_SIDED|95.0|52.0|109.0|||ANOVA|||||109.00|52.00|0.4338
82633366|NCT02483611|164982803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.25|STANDARD_DEVIATION|12.13||0.4338|TWO_SIDED|95.0|55.0|95.0|||ANOVA|||||95.00|55.00|0.4338
82633367|NCT02483611|164982803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.67|STANDARD_DEVIATION|11.82||0.4338|TWO_SIDED|95.0|55.0|92.0|||ANOVA|||||92.00|55.00|0.4338
82633368|NCT02483611|164982804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|74.69|STANDARD_DEVIATION|11.76||0.9167|TWO_SIDED|95.0|57.0|99.0|||ANOVA|||||99.00|57.00|0.9167
82633369|NCT02483611|164982804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.69|STANDARD_DEVIATION|11.18||0.9167|TWO_SIDED|95.0|51.0|96.0|||ANOVA|||||96.00|51.00|0.9167
82633370|NCT02483611|164982804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.4|STANDARD_DEVIATION|11.54||0.9167|TWO_SIDED|95.0|53.0|90.0|||ANOVA|||||90.00|53.00|0.9167
82633371|NCT02483611|164982805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|72.94|STANDARD_DEVIATION|10.96||0.8067|TWO_SIDED|95.0|58.0|92.0|||ANOVA|||||92.00|58.00|0.8067
82633372|NCT02483611|164982805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|74.19|STANDARD_DEVIATION|8.65||0.8067|TWO_SIDED|95.0|57.0|86.0|||ANOVA|||||86.00|57.00|0.8067
82633373|NCT02483611|164982805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.4|STANDARD_DEVIATION|11.54||0.8067|TWO_SIDED|95.0|53.0|90.0|||ANOVA|||||90.00|53.00|0.8067
82633374|NCT02483611|164982806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.94|STANDARD_DEVIATION|10.87||0.1015|TWO_SIDED|95.0|57.0|93.0|||ANOVA|||||93.00|57.00|0.1015
82633375|NCT02483611|164982806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|72.25|STANDARD_DEVIATION|9.78||0.1015|TWO_SIDED|95.0|52.0|89.0|||ANOVA|||||89.00|52.00|0.1015
82633376|NCT02483611|164982806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.07|STANDARD_DEVIATION|10.01||0.1015|TWO_SIDED|95.0|44.0|81.0|||ANOVA|||||81.00|44.00|0.1015
82633377|NCT02483611|164982807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.56|STANDARD_DEVIATION|10.05||0.3423|TWO_SIDED|95.0|56.0|92.0|||ANOVA|||||92.00|56.00|0.3423
82633378|NCT02483611|164982807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.31|STANDARD_DEVIATION|7.73||0.3423|TWO_SIDED|95.0|57.0|83.0|||ANOVA|||||83.00|57.00|0.3423
82633379|NCT02483611|164982807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.27|STANDARD_DEVIATION|10.81||0.3423|TWO_SIDED|95.0|41.0|81.0|||ANOVA|||||81.00|41.00|0.3423
82633380|NCT02483611|164982808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.5|STANDARD_DEVIATION|10.11||0.6817|TWO_SIDED|95.0|53.0|92.0|||ANOVA|||||92.00|53.00|0.6817
82633381|NCT02483611|164982808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.19|STANDARD_DEVIATION|8.4||0.6817|TWO_SIDED|95.0|54.0|82.0|||ANOVA|||||82.00|54.00|0.6817
82633382|NCT02483611|164982808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.13|STANDARD_DEVIATION|10.5||0.6817|TWO_SIDED|95.0|47.0|81.0|||ANOVA|||||81.00|47.00|0.6817
82633383|NCT02483611|164982809|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.0937|TWO_SIDED|95.0|58.0|80.0|||Kruskal-Wallis|||||80.00|58.00|0.0937
82633384|NCT02483611|164982809|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.5||||0.0937|TWO_SIDED|95.0|56.0|90.0|||Kruskal-Wallis|||||90.00|56.00|0.0937
82633385|NCT02483611|164982809|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.0937|TWO_SIDED|95.0|58.0|87.0|||Kruskal-Wallis|||||87.00|58.00|0.0937
82633386|NCT02483611|164982810|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.5||||0.1406|TWO_SIDED|95.0|60.0|88.0|||Kruskal-Wallis|||||88.00|60.00|0.1406
82379174|NCT00818766|164467350|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|||||||.25
82379175|NCT00818766|164467351|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Fisher Exact|||||||.25
82379176|NCT02719184|164467369|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-2.89|STANDARD_ERROR_OF_MEAN|1.23||0.0202|TWO_SIDED|95.0|-5.32|-0.45|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD I group - value from Healthy subjects group.|||-0.45|-5.32|0.0202
82569103|NCT00307164|164848124|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.80
82569104|NCT00307164|164848125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42||95.0|||||Stratified Wilcoxon rank-sum test|||||||0.42
82633387|NCT02483611|164982810|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.5||||0.1406|TWO_SIDED|95.0|55.0|86.0|||Kruskal-Wallis|||||86.00|55.00|0.1406
82633388|NCT02483611|164982810|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.1406|TWO_SIDED|95.0|55.0|84.0|||Kruskal-Wallis|||||84.00|55.00|0.1406
82633389|NCT02483611|164982811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.25|STANDARD_DEVIATION|6.74||0.0504|TWO_SIDED|95.0|60.0|81.0|||ANOVA|||||81.00|60.00|0.0504
82499087|NCT03918447|164689125|SUPERIORITY||Least Square Means Difference|7.94|STANDARD_ERROR_OF_MEAN|0.777|<|0.0001|TWO_SIDED|95.0|6.41|9.47|||MMRM|||Mixed model repeated measure (MMRM) model used baseline eGFR as a covariate, and the following fixed factors: treatment group, time (Week 1 to 100, excluding Week 52), and the interaction between treatment and time. Within-participant errors are modeled using an unstructured covariance matrix.||9.47|6.41|<0.0001
82499088|NCT01405456|164689182|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Change in Insulin Stimulated Glucose Uptake measured during euglycemic hyperinsulinemic clamp procedure from baseline to 6 months||||0.71
82499089|NCT01405456|164689183|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Change in Visceral Adipose Tissue area as measured by magnetic resonance imaging of the abdomen from baseline to 6 months||||0.42
82499090|NCT01405456|164689184|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change in Liver Fat (Intrahepatic Lipid) as measured by magnetic resonance spectroscopy from baseline to 6 months||||0.51
82499091|NCT01405456|164689185|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in Intramyocellular Lipid of calf muscles as measured by magnetic resonance spectroscopy from baseline to 6 months||||0.04
82499092|NCT01405456|164689186|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Change in Flow Mediated Vasodilation (maximum percentage) from baseline to 6 months||||0.44
82499093|NCT01405456|164689187|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Mean serum measurements of Potassium||||0.07
82499094|NCT01405456|164689188|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Change in Hemoglobin A1c from baseline to 6 months||||0.70
82633390|NCT02483611|164982811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.0|STANDARD_DEVIATION|7.62||0.0504|TWO_SIDED|95.0|49.0|79.0|||ANOVA|||||79.00|49.00|0.0504
82633391|NCT02483611|164982811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.0|STANDARD_DEVIATION|7.56||0.0504|TWO_SIDED|95.0|58.0|84.0|||ANOVA|||||84.00|58.00|0.0504
82633392|NCT02483611|164982812|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.0205|TWO_SIDED|95.0|60.0|93.0|||Kruskal-Wallis|||||93.00|60.00|0.0205
82633393|NCT02483611|164982812|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|62.0||||0.0205|TWO_SIDED|95.0|54.0|72.0|||Kruskal-Wallis|||||72.00|54.00|0.0205
82633394|NCT02483611|164982812|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.0205|TWO_SIDED|95.0|59.0|75.0|||Kruskal-Wallis|||||75.00|59.00|0.0205
82633395|NCT02483611|164982813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|68.0||||0.3004|TWO_SIDED|95.0|58.0|86.0|||Kruskal-Wallis|||||86.00|58.00|0.3004
82499095|NCT01405456|164689189|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change in C-Reactive Protein from baseline to 6 months||||0.10
82499096|NCT01405456|164689190|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||Change in Plasminogen Activator Inhibitor 1 from baseline to 6 months||||0.37
82499097|NCT01405456|164689191|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Change in Adiponectin from baseline to 6 months||||0.78
82499098|NCT01405456|164689192|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change in IL-6 from baseline to 6 months||||0.10
82499099|NCT01405456|164689193|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Change in MCP-1 from baseline to 6 months||||0.04
82499100|NCT05355805|164689209|SUPERIORITY||Risk Difference (RD)|8.27|STANDARD_ERROR_OF_MEAN|8.075||0.3055|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/Janus Kinase (JAK) inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error was estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR75."||||0.3055
82633396|NCT02483611|164982813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.3004|TWO_SIDED|95.0|56.0|78.0|||Kruskal-Wallis|||||78.00|56.00|0.3004
82633397|NCT02483611|164982813|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|69.0||||0.3004|TWO_SIDED|95.0|62.0|81.0|||Kruskal-Wallis|||||81.00|62.00|0.3004
82633398|NCT02483611|164982814|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.0||||0.0178|TWO_SIDED|95.0|60.0|84.0|||Kruskal-Wallis|||||84.00|60.00|0.0178
82633399|NCT02483611|164982814|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|64.5||||0.0178|TWO_SIDED|95.0|51.0|75.0|||Kruskal-Wallis|||||75.00|51.00|0.0178
82633400|NCT02483611|164982814|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|72.0||||0.0178|TWO_SIDED|95.0|61.0|91.0|||Kruskal-Wallis|||||91.00|61.00|0.0178
82633401|NCT02483611|164982815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.67|STANDARD_DEVIATION|8.51||0.8746|TWO_SIDED|95.0|51.0|99.0|||ANOVA|||||99.00|51.00|0.8746
82633402|NCT02483611|164982815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.38|STANDARD_DEVIATION|6.96||0.8746|TWO_SIDED|95.0|56.0|82.0|||ANOVA|||||82.00|56.00|0.8746
82512093|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-78.6||||0.001|TWO_SIDED|95.0|-124.81|-32.39|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-32.39|-124.81|0.0010
82512094|NCT03238911|164716802|SUPERIORITY||Mean Difference (Final Values)|-58.79||||0.0002|TWO_SIDED|95.0|-88.75|-28.82|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-28.82|-88.75|0.0002
82512095|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|40.82|||<|0.0001|TWO_SIDED|95.0|26.3|55.33|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||55.33|26.30|<0.0001
82633403|NCT02483611|164982815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.4|STANDARD_DEVIATION|7.94||0.8746|TWO_SIDED|95.0|54.0|80.0|||ANOVA|||||80.00|54.00|0.8746
82379177|NCT02719184|164467369|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-4.78|STANDARD_ERROR_OF_MEAN|1.31||0.0003|TWO_SIDED|95.0|-7.36|-2.19|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD II group - value from Healthy subjects group.|||-2.19|-7.36|0.0003
82379178|NCT02719184|164467369|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-4.47|STANDARD_ERROR_OF_MEAN|1.51||0.0033|TWO_SIDED|95.0|-7.44|-1.5|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD GOLD III group - value from Healthy subjects group.|||-1.50|-7.44|0.0033
82379179|NCT02719184|164467369|OTHER|The analysis was based on a Mixed Model for Repeated Measures (MMRM) approach with diagnosis group-by-visit and baseline ALD value-by-visit terms, and unstructured covariance matrix structure for repeated measurements within subject.|Adjusted mean difference|-5.86|STANDARD_ERROR_OF_MEAN|2.74||0.0334|TWO_SIDED|95.0|-11.26|-0.47|||Mixed Model for Repeated Measures (MMRM)||The mean difference was calculated as value from COPD and A1AT group - value from Healthy subjects group.|||-0.47|-11.26|0.0334
82379180|NCT02719184|164467370|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|14.4||0.9306|TWO_SIDED|95.0|-27.2|29.7|||Random slope and intercept model||The mean difference was calculated as value from COPD GOLD I group - value from Healthy subjects group.|||29.7|-27.2|0.9306
82379181|NCT02719184|164467370|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-19.2|STANDARD_ERROR_OF_MEAN|14.9||0.1983|TWO_SIDED|95.0|-48.5|10.1|||Random slope and intercept model|The mean difference was calculated as value from COPD GOLD II group - value from Healthy subjects group.||||10.1|-48.5|0.1983
82379182|NCT02719184|164467370|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-33.6|STANDARD_ERROR_OF_MEAN|16.1||0.0381|TWO_SIDED|95.0|-65.4|-1.9|||Random slope and intercept model||The mean difference was calculated as value from COPD GOLD III group - value from Healthy subjects group.|||-1.9|-65.4|0.0381
82512096|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|6.61||||0.0089|TWO_SIDED|95.0|1.69|11.53|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||11.53|1.69|0.0089
82523723|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.355|TWO_SIDED|95.0|-23.0|64.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 7.5 mg at Week 24||64|-23|0.355
82512097|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|-43.48|||<|0.0001|TWO_SIDED|95.0|-54.92|-32.03|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-32.03|-54.92|<0.0001
82633404|NCT02483611|164982816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.44|STANDARD_DEVIATION|10.95||0.4195|TWO_SIDED|95.0|47.0|92.0|||ANOVA|||||92.00|47.00|0.4195
82633405|NCT02483611|164982816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.38|STANDARD_DEVIATION|9.28||0.4195|TWO_SIDED|95.0|53.0|80.0|||ANOVA|||||80.00|53.00|0.4195
82379183|NCT02719184|164467370|OTHER|A random slope and intercept model with fixed categorical effects of diagnosis group, fixed continuous effects of time, and including diagnosis group-by-time interaction was applied. Random effect was included for subject specific intercept and time. Within-subject errors are modelled by an unstructured variance-covariance matrix.|Unadjusted mean difference|-61.8|STANDARD_ERROR_OF_MEAN|30.3||0.0419|TWO_SIDED|95.0|-121.3|-2.3|||Random slope and intercept model||The mean difference was calculated as value from COPD and A1AT group - value from Healthy subjects group.|||-2.3|-121.3|0.0419
82379184|NCT03105518|164467384|SUPERIORITY||1 way test, chisquare approximation|7.188||||0.007|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 0; Follicles ≤10 vs. \> 10||||0.007
82379185|NCT03105518|164467384|SUPERIORITY||1 way Test, ChiSquare Approximation|3.6396||||0.056|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 15; Follicles ≤10 vs. \> 10||||0.056
82379186|NCT03105518|164467384|SUPERIORITY||1 way Test, ChiSquare Approximation|15.971|||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 30; Follicles ≤10 vs. \> 10||||<0.0001
82379187|NCT03105518|164467384|SUPERIORITY||1-way Test, ChiSquare Approximation|16.0972|||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||VAS at Time 60; Follicles ≤10 vs. \> 10||||<0.0001
82379188|NCT03105518|164467385|SUPERIORITY||1-way Test, ChiSquare Approximation|2.7205||||0.0991|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 1; Follicles ≤10 vs. \> 10||||0.0991
82379189|NCT03105518|164467385|SUPERIORITY||1 way Test, ChiSquare Approximation|1.5654||||0.2109|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 2; Follicles ≤10 vs. \> 10||||0.2109
82379190|NCT03105518|164467385|SUPERIORITY||1-way Test, ChiSquare Approximation|0.008||||0.9287|TWO_SIDED||||||Kruskal-Wallis|||VAS at Post Operative Day 3; Follicles ≤10 vs. \> 10||||0.9287
82379191|NCT02091856|164467403|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was set at .05|ANOVA|Changes in primary outcome measures were evaluated using repeated measures ANOVA for three groups: C-CBT, R-CBT, WLCG and two time points: pre \& post||It was hypothesized that regardless of the CBT version received (conventional or religious), those in the active treatments would achieve a greater reduction in depressive and associated symptoms than participants in the wait-list condition.||||<0.001
82379192|NCT02091856|164467404|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|Changes in secondary outcome measures were evaluated using repeated measures ANOVA (C-CBT, R-CBT, WLCG at pre- and post-intervention).||||||>0.05
82379193|NCT02091856|164467405|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|||||||<0.01
82379194|NCT02091856|164467406|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|ANOVA|||||||<0.001
82379195|NCT02091856|164467407|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The a priori threshold for statistical significance was set at .05|t-test, 1 sided|||||||<0.01
82379196|NCT02045446|164467451|SUPERIORITY||Hazard Ratio (HR)|0.304||||0.01|TWO_SIDED|95.0|0.113|0.815|||Log Rank|||||0.815|0.113|.01
82379197|NCT02515331|164467457|SUPERIORITY||Mean Difference (Net)|-8.555|STANDARD_ERROR_OF_MEAN|2.9077||0.002|TWO_SIDED|95.0|-14.388|-2.722||1-sided p-value|Longitudinal repeated measures mixed eff|||||-2.722|-14.388|0.002
82379198|NCT02515331|164467457|SUPERIORITY||Mean Difference (Net)|-14.727|STANDARD_ERROR_OF_MEAN|3.0548|<|0.001|TWO_SIDED|95.0|-20.852|-8.602||1-sided p-value|Longitudinal repeated measures mixed eff|||||-8.602|-20.852|<0.001
82379199|NCT00276484|164467529|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-19.4|-13.2|||ANCOVA|Model terms: treatment and baseline LDL-C value||||-13.2|-19.4|<0.001
82379200|NCT00276484|164467530|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.551||95.0|-1.1|2.1|||ANCOVA|Model terms: treatment and baseline HDL-C value||||2.1|-1.1|0.551
82633406|NCT02483611|164982816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.0|STANDARD_DEVIATION|8.23||0.4195|TWO_SIDED|95.0|52.0|80.0|||ANOVA|||||80.00|52.00|0.4195
82633407|NCT02483611|164982817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.75|STANDARD_DEVIATION|11.52||0.5796|TWO_SIDED|95.0|47.0|93.0|||ANOVA|||||93.00|47.00|0.5796
82379201|NCT00276484|164467531|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-17.1|-11.6|||ANCOVA|Model terms: treatment and baseline non-HDL-C value||||-11.6|-17.1|<0.001
82379202|NCT00276484|164467532|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-12.0|-7.9|||ANCOVA|Model terms: treatment and baseline Total-C value||||-7.9|-12.0|<0.001
82379203|NCT00276484|164467533|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-7.3|||<|0.001||95.0|-11.5|-3.1|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value.|The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.|||-3.1|-11.5|<0.001
82379204|NCT00276484|164467534|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|-12.7|-7.6|||ANCOVA|Model terms: treatment and baseline Apo B value||||-7.6|-12.7|<0.001
82379205|NCT00276484|164467535|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.313||95.0|-0.8|2.5|||ANCOVA|Model terms: treatment and baseline Apo A-I value||||2.5|-0.8|0.313
82633408|NCT02483611|164982817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.75|STANDARD_DEVIATION|10.19||0.5796|TWO_SIDED|95.0|48.0|79.0|||ANOVA|||||79.00|48.00|0.5796
82633409|NCT02483611|164982817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.33|STANDARD_DEVIATION|9.26||0.5796|TWO_SIDED|95.0|50.0|79.0|||ANOVA|||||79.00|50.00|0.5796
82512098|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|-1.68||||0.373|TWO_SIDED|95.0|-5.41|2.04|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.04|-5.41|0.3730
82633410|NCT02483611|164982818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.19|STANDARD_DEVIATION|12.82||0.5351|TWO_SIDED|95.0|45.0|92.0|||ANOVA|||||92.00|45.00|0.5351
82379206|NCT00276484|164467536|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-12.6|-8.2|||ANCOVA|Model terms: treatment and baseline Total-C:HDL-C value||||-8.2|-12.6|<0.001
82633411|NCT02483611|164982818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.31|STANDARD_DEVIATION|10.87||0.5351|TWO_SIDED|95.0|47.0|82.0|||ANOVA|||||82.00|47.00|0.5351
82633412|NCT02483611|164982818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|61.93|STANDARD_DEVIATION|9.0||0.5351|TWO_SIDED|95.0|51.0|79.0|||ANOVA|||||79.00|51.00|0.5351
82633413|NCT02483611|164982819|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.5||||0.4988|TWO_SIDED|95.0|42.0|92.0|||Kruskal-Wallis|||||92.00|42.00|0.4988
82633414|NCT02483611|164982819|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0||||0.4988|TWO_SIDED|95.0|50.0|85.0|||Kruskal-Wallis|||||85.00|50.00|0.4988
82633415|NCT02483611|164982819|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|58.0||||0.4988|TWO_SIDED|95.0|51.0|80.0|||Kruskal-Wallis|||||80.00|51.00|0.4988
82633416|NCT02483611|164982820|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|66.0||||0.7723|TWO_SIDED|95.0|43.0|89.0|||Kruskal-Wallis|||||89.00|43.00|0.7723
82633417|NCT02483611|164982820|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.0||||0.7723|TWO_SIDED|95.0|51.0|82.0|||Kruskal-Wallis|||||82.00|51.00|0.7723
82633418|NCT02483611|164982820|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|61.0||||0.7723|TWO_SIDED|95.0|50.0|78.0|||Kruskal-Wallis|||||78.00|50.00|0.7723
82633419|NCT01711359|164982837|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority is concluded if the lower bound of the 95% CI for the difference in response rate is \>-12%|Newcombe-Wilson method|14.8|||||TWO_SIDED|95.0|5.5|24.1|||||Estimation Parameter: Newcombe-Wilson method without continuity correction for difference in the response rate (Baricitinib minus Methotrexate).|||24.1|5.5|
82379207|NCT00276484|164467537|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-19.9|-13.1|||ANCOVA|Model terms: treatment and baseline LDL-C:HDL-C value||||-13.1|-19.9|<0.001
82379208|NCT00276484|164467538|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-13.8|-8.2|||ANCOVA|Model terms: treatment and baseline Apo B:Apo A-I value||||-8.2|-13.8|<0.001
82512099|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|-1.63||||0.4778|TWO_SIDED|95.0|-6.15|2.9|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.90|-6.15|0.4778
82512100|NCT03238911|164716803|SUPERIORITY||Mean Difference (Final Values)|-1.73||||0.3575|TWO_SIDED|95.0|-5.44|1.98|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)-based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post-baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.98|-5.44|0.3575
82633420|NCT02698176|164982859|OTHER||Estimation of DLT Rate|0.25|||||TWO_SIDED|80.0|0.121|0.418|||||Point estimate and 2-sided 80% Bayesian credible interval for DLT rate estimated for the total number of participants from all 3 cohorts (CRPC+NMC+TNBC) that were evaluable for DLT analysis based on a non-informative prior distribution of Beta (1,1).|||0.418|0.121|
82379209|NCT00276484|164467539|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.5|STANDARD_ERROR_OF_MEAN|-1.6|<|0.001||95.0|-17.7|-11.3|||ANCOVA|Model terms: treatment and baseline non-HDL-C:HDL-C value||||-11.3|-17.7|<0.001
82379210|NCT00276484|164467540|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8||||0.174||95.0|-17.1|3.4|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, and the interaction of time by treatment.|Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means.|||3.4|-17.1|0.174
82379211|NCT00276484|164467541|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.37|||<|0.001||95.0|5.45|12.84|||Regression, Logistic|Model terms: treatment and baseline LDL-C value||||12.84|5.45|<0.001
82379212|NCT03885661|164467584|SUPERIORITY|||||||0.65|||||||mixed effects regression|testing for the outcome employed mixed effects regression. The key fixed effects were group assignment, period, and the group X period interaction.||||||0.65
82379213|NCT02777372|164467597|OTHER|||||||0.139|||||||Regression, Linear|||Effect of group on differences in ASR t scores from follicular to luteal.||||0.139
82379214|NCT02777372|164467598|OTHER|||||||0.843||||||Effect of group on ASR t score in the first luteal phase (no medication) to the second luteal phase (sertraline).|Regression, Linear|||||||0.843
82379215|NCT02777372|164467599|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82379216|NCT00719186|164467602|SUPERIORITY_OR_OTHER|||||||0.007|||||||Chi-squared|||||||0.007
82379217|NCT00681031|164467611|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptability was demonstrated if the lower bound of the two-sided 95% confidence interval (CI) on the Geometric Mean Fold Rise (CMFR) from pre-vaccination to 4 weeks postvaccination is \>1.4.|GMFR|3.1|||||TWO_SIDED|95.0|2.6|3.8|||||GMFR = GMT postdose divided by GMT predose|||3.8|2.6|
82379218|NCT02487225|164467616|SUPERIORITY|||||||0.5796|||||||Kruskal-Wallis|||Admission (baseline)||||0.5796
82379219|NCT02487225|164467616|SUPERIORITY|||||||0.8415|||||||Kruskal-Wallis|||Day 5||||0.8415
82379220|NCT02487225|164467617|SUPERIORITY|||||||0.1109|||||||Kruskal-Wallis|||Admission (baseline)||||0.1109
82379221|NCT02487225|164467617|SUPERIORITY|||||||0.4619|||||||Kruskal-Wallis|||||||0.4619
82379222|NCT02487225|164467618|SUPERIORITY|||||||0.1236|||||||Kruskal-Wallis|||Admission (baseline)||||0.1236
82379223|NCT02487225|164467618|SUPERIORITY|||||||0.9468|||||||Kruskal-Wallis|||Day 5||||0.9468
82379224|NCT02487225|164467619|SUPERIORITY|||||||0.157|||||||Kruskal-Wallis|||Admission (baseline)||||0.157
82379225|NCT02487225|164467619|SUPERIORITY|||||||0.3173|||||||Kruskal-Wallis|||Day 5||||0.3173
82379226|NCT01808573|164467623|SUPERIORITY||Hazard Ratio (HR)|0.762||||0.0059|TWO_SIDED|95.0|0.626|0.926|||Log Rank|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|Lapatinib Plus Capecitabine is the reference. Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|||0.926|0.626|0.0059
82379227|NCT01808573|164467624|SUPERIORITY||Hazard Ratio (HR)|0.881||||0.2086|TWO_SIDED|95.0|0.723|1.073|||Log Rank|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|Lapatinib plus Capecitabine is the reference. Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting, and visceral disease vs. non-visceral.|||1.073|0.723|0.2086
82379228|NCT01808573|164467625|SUPERIORITY|||||||0.043|||||||Gray's test|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral disease.||||||0.043
82379229|NCT01808573|164467626|SUPERIORITY|||||||0.1201|||||||Cochran-Mantel-Haenszel|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral.||||||0.1201
82379230|NCT01808573|164467627|SUPERIORITY|||||||0.0328|||||||Cochran-Mantel-Haenszel|Stratified by hormone receptor status, number of prior HER2-directed regimens in the metastatic setting and visceral disease vs. non-visceral.||||||0.0328
82379231|NCT01808573|164467628|SUPERIORITY||Hazard Ratio (HR)|0.495||||0.0004|TWO_SIDED|95.0|0.332|0.736|||Log Rank||Lapatinib Plus Capecitabine is the reference.|||0.736|0.332|0.0004
82379232|NCT00489255|164467641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.09|TWO_SIDED|95.0|0.17|1.11|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test for treatment was stratified by site.||The null hypothesis was no difference between treatments.||1.11|0.17|0.09
82379233|NCT00489255|164467642|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44||||0.025|TWO_SIDED|95.0|0.21|0.9|||Cochran-Mantel-Haenszel|||||0.90|0.21|0.025
82379234|NCT00489255|164467643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25||||0.005|TWO_SIDED|95.0|0.09|0.7|||Cochran-Mantel-Haenszel|||||0.70|0.09|0.005
82379235|NCT00489255|164467644|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|95.0|0.23|2.48|||Cochran-Mantel-Haenszel|||||2.48|0.23|0.65
82379236|NCT00489255|164467645|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.21||||0.32|TWO_SIDED|95.0|-0.64|0.21|||ANOVA|Treatment effect in ANOVA was adjusted for site.||||0.21|-0.64|0.32
82379237|NCT00489255|164467646|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.07||||0.001|TWO_SIDED|95.0|-1.71|-0.43|||ANOVA|||||-0.43|-1.71|0.001
82379238|NCT00489255|164467647|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.01||||0.95|TWO_SIDED|95.0|-0.2|0.19|||ANOVA|||||0.19|-0.20|0.95
82379239|NCT00489255|164467648|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (row mean score) with rigid scores, stratified by site||||||0.88
82379240|NCT00489255|164467649|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (row mean score) with rigid scores, stratified by site||||||0.019
82379241|NCT00489255|164467650|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Cochran-Mantel-Haenszel|||||||0.29
82379242|NCT00489255|164467651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.17|TWO_SIDED|95.0|0.5|1.1||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||1.1|0.5|0.17
82512101|NCT03238911|164716804|SUPERIORITY||Risk Difference (RD)|-11.9||||0.005|TWO_SIDED|95.0|-20.1|-3.6|||Cochran-Mantel-Haenszel|||The rate difference with 95% Newcombe confidence interval, adjusted for stratum using the Cochran-Mantel-Haenszel method, could not be estimated due to lack of events. Thus, the unadjusted treatment difference is presented together with 95% Wald-based confidence interval. The p-value is based on the Cochran-Mantel-Haenszel statistics.||-3.6|-20.1|0.0050
82512102|NCT02239536|164716805|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82512103|NCT02239536|164716806|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82512104|NCT02239536|164716806|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
82512105|NCT06893809|164716807|SUPERIORITY||Median Difference (Net)|10.0|STANDARD_DEVIATION|5.0||0.05|TWO_SIDED|95.0|10.0|20.0|||Kruskal-Wallis|||Sixty male patients scheduled for TURP surgery were divided into three equal groups. The results were evaluated at a 95% confidence interval, with significance set at p \< 0.05. This was achieved using SPSS 15.0. Between-group comparisons were performed using One-way ANOVA, Kruskal-Wallis, Wilcoxon Signed Ranks, and Friedman tests. Within-group comparisons used Wilcoxon Signed Ranks tests, and Friedman tests were used for differences over time.||20|10|0.05
82379243|NCT00489255|164467652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.008|TWO_SIDED|95.0|0.1|0.7||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||0.7|0.1|0.008
82633421|NCT00410514|164982879|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was -3 mL/sec for Qmax. Mirabegron was considered non-inferior to placebo for Qmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec.|LS Mean Difference|0.4|||||TWO_SIDED|95.0|-0.63|1.42|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||1.42|-0.63|
82633422|NCT00410514|164982879|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was -3 mL/sec for Qmax. Mirabegron was considered non-inferior to placebo for Qmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec.|LS Mean Difference|0.62|||||TWO_SIDED|95.0|-0.43|1.68|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||1.68|-0.43|
82379244|NCT00489255|164467653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.49|TWO_SIDED|95.0|0.6|1.3||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||1.3|0.6|0.49
82569105|NCT01649297|164848126|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypotheses for non-inferiority:~H10: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 10 mg once daily + 0.35%~H20: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 12.5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 25 mg once daily + 0. 35%"|Adjusted mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.16|0.13||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||The primary objective was to test the non-inferiority of empagliflozin 5 mg BID versus empagliflozin 10 mg QD, and non-inferiority of empagliflozin 12.5 mg BID versus empagliflozin 25 mg QD, assuming a non-inferiority margin of 0.35%||0.13|-0.16|<0.0001
82379245|NCT00489255|164467654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.4|TWO_SIDED|95.0|0.7|2.1|||Regression, Cox|||||2.1|0.7|0.4
82569106|NCT01649297|164848126|NON_INFERIORITY_OR_EQUIVALENCE|"Null hypotheses for non-inferiority:~H10: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 10 mg once daily + 0.35%~H20: Mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 12.5 mg twice daily ≥ mean change from baseline in HbA1c (%) after 16 weeks of treatment with empagliflozin 25 mg once daily + 0. 35%"|Adjusted mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.26|0.03||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||The primary objective was to test the non-inferiority of empagliflozin 5 mg BID versus empagliflozin 10 mg QD, and non-inferiority of empagliflozin 12.5 mg BID versus empagliflozin 25 mg QD, assuming a non-inferiority margin of 0.35%||0.03|-0.26|<0.0001
82379246|NCT00489255|164467655|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.62||95.0|0.6|2.3||Cox's proportional hazards model with site and treatment (Tigan/placebo) as factors.|Regression, Cox|||||2.3|0.6|0.62
82379247|NCT00489255|164467656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.96|TWO_SIDED|95.0|-3.59|3.76|||ANOVA|ANCOVA model with baseline score (score at Visit 1/Screening) as a covariate, and site and treatment as factors.||||3.76|-3.59|0.96
82379248|NCT00489255|164467657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.93|TWO_SIDED|95.0|-4.37|4.02|||ANOVA|||||4.02|-4.37|0.93
82379249|NCT00489255|164467658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.84|TWO_SIDED|95.0|-4.12|3.34|||ANOVA|||||3.34|-4.12|0.84
82379250|NCT00489255|164467659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.97||||0.25|TWO_SIDED|95.0|-2.17|8.11|||ANOVA|||||8.11|-2.17|0.25
82379251|NCT00489255|164467660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.47||||0.46|TWO_SIDED|95.0|-2.47|5.4|||ANOVA|||||5.40|-2.47|0.46
82379252|NCT00489255|164467661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.96||||0.33|TWO_SIDED|95.0|-3.13|9.06|||ANOVA|||||9.06|-3.13|0.33
82379253|NCT00489255|164467662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.93|TWO_SIDED|95.0|-5.57|6.11|||ANOVA|||||6.11|-5.57|0.93
82379254|NCT03953612|164467663|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Linear mixed effects||||||<.001
82379255|NCT03953612|164467664|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Linear mixed effects||||||<.001
82512106|NCT06893809|164716807|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0|>|0.05|TWO_SIDED|95.0|0.0|0.0||No adjustment for multiple comparisons was applied. Non-parametric method used due to ordinal scale structure.|Kruskal-Wallis||Patient and surgeon satisfaction were compared across study arms.|The aim of this analysis is to compare the three groups in terms of patient and surgeon satisfaction using a superiority approach. The null hypothesis is that there is no difference in satisfaction scores between the groups. Statistical significance was set at p \< 0.05.||0|0|>0.05
82379256|NCT03953612|164467665|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Linear mixed effects||||||0.7
82379257|NCT03953612|164467666|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
82379258|NCT03953612|164467667|SUPERIORITY|||||||0.042|||||||. Negative binomial regression models|||||||0.042
82379259|NCT03953612|164467668|SUPERIORITY|||||||0.125|||||||. Negative binomial regression models|||||||0.125
82379260|NCT02028676|164467687|NON_INFERIORITY_OR_EQUIVALENCE|Upper 95% confidence interval for the hazard ratio was 1.64, see other analysis for this endpoint for details|Hazard Ratio (HR)|1.13||||0.59|TWO_SIDED|95.0|0.73|1.73|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.73|0.73|0.59
82379261|NCT02028676|164467687|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions detailed above, \>90% power and one-sided alpha=0.05, 1160 children would be required to exclude an increase in progression rate of 1.6% from 2.5% to 4.1% per year in the CDM arm (upper 95% confidence limit of LCM: CDM hazard ratio 1.64).|Risk Difference (RD)|0.32||||0.43|TWO_SIDED|95.0|-0.47|1.12|||Comparison of poisson rates|Statistical analysis plan specified that p-value was to be calculated from the log-rank test, so not provided for the risk difference|Difference is CDM minus LCM|"Assumptions:~* control group (LCM) event rate 3% per year~* rates are reduced to 2% per year in the best of the induction-maintenance arms leading to an overall rate of progression to new WHO stage 4 or death of 2.5%~* recruitment is over 1.5 years and follow-up for a minimum further 3.5 years.~* cumulative loss to follow-up is 10% at 5 years. See below for rest of sample size as this box is not big enough."||1.12|-0.47|0.43
82379262|NCT02028676|164467688|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.83|TWO_SIDED|95.0|0.83|1.16|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.16|0.83|0.83
82512107|NCT06893809|164716809|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.05|TWO_SIDED|95.0|0.5|1.6|||Kruskal-Wallis|Non-parametric test used due to ordinal scale and non-normal distribution.|Sensory block levels compared across study arms using numerical dermatomal codes.|||1.6|0.5|0.05
82512108|NCT06893809|164716811|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.22|<|0.05|TWO_SIDED|95.0|0.07|0.93|||Kruskal-Wallis||Dermatomal regression levels were compared across groups at 60 minutes.|||0.93|0.07|<0.05
82379263|NCT02028676|164467689|SUPERIORITY_OR_OTHER|||||||0.33|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||Assuming a standard deviation for the change in CD4 percentage from baseline to 72 weeks of 10% (slightly higher than that observed in the PENTA 5 trial) 1200 children would provide at least 80% power to detect a difference in change in CD4% from baseline of more than 2.5% across the 3 groups (F-test with 2-sided alpha=0.05) assuming 20% missing data (loss to follow-up during the first year plus failure to attend the week 72 visit/missing sample).||||0.33
82379264|NCT02028676|164467690|SUPERIORITY_OR_OTHER|||||||0.69|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.69
82379265|NCT02028676|164467691|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.0001
82379266|NCT02028676|164467691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.01|TWO_SIDED|95.0|1.07|1.63|||Regression, Cox||HR is Arm B vs A|||1.63|1.07|0.01
82379267|NCT02028676|164467691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58|||<|0.001|TWO_SIDED|95.0|1.29|1.94|||Regression, Cox|||||1.94|1.29|<0.001
82379268|NCT02028676|164467692|NON_INFERIORITY_OR_EQUIVALENCE|631 children would be required to exclude a 12% lower suppression rate in the once daily group with at least 90% power and two-sided alpha=0.05 (lower 95% confidence limit of difference between once and twice daily -12%, the non-inferiority margin). 630 children retains at least 80% (rather than 90%) power to exclude a 10% (rather than 12%) lower suppression rate in the once daily group with one-sided alpha=0.05 (lower 90% confidence limit of difference between once and twice daily -10%).|Risk Difference (RD)|-1.6||||0.65|TWO_SIDED|95.0|-8.4|5.2|||Chi-squared||Difference in suppression \<80 copies/ml in once-daily minus twice-daily|||5.2|-8.4|0.65
82379269|NCT02028676|164467694|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions above, at least 80% power and one-sided alpha=0.05, 947 children would be required in the stop/continue cotrimoxazole prophylaxis comparison to exclude an increase in hospitalisation/death rate of 3% from 5% to 8% per year in the stop cotrimoxazole arm (upper 95% confidence limit of stop:continue hazard ratio 1.6).|Hazard Ratio (HR)|1.64||||0.007|TWO_SIDED|95.0|1.14|2.37|||Log Rank||Hazard ratio is stop vs continue.|"Assumptions~* 5% of children receiving daily cotrimoxazole prophylaxis have a new hospitalisation or death per year~* recruitment starts 1 July 2009 with 10% children (those already on ART for \>96 weeks) entering immediately, and then the remaining children recruited over the following 15 months as they reach 96 weeks on ART. Follow-up is until March 2012.~* cumulative loss to follow-up at March 2012 is 10%. See below for further details as box is not big enough"||2.37|1.14|0.007
82512109|NCT00368940|164716847|SUPERIORITY||Cohen D at week 12|0.6||||0.005|TWO_SIDED|95.0|0.13|1.06|||Mixed Models Analysis|||||1.06|0.13|0.005
82386671|NCT02347774|164484086|SUPERIORITY||Least Mean Squared (SE)|0.084|STANDARD_ERROR_OF_MEAN|0.02069||0.0001|TWO_SIDED|95.0|0.0433|0.1246||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least Mean Squared (SE)|||The change from baseline in trough FEV1 was analyzed using a mixed model repeated measures model including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1246|0.0433|0.0001
82512110|NCT00368940|164716848|SUPERIORITY||Cohen D at week 12|0.67||||0.001|TWO_SIDED|95.0|0.2|1.14|||Mixed Models Analysis|||||1.14|0.20|0.001
82569107|NCT01649297|164848126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.79|-0.44|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.44|-0.79|<0.0001
82442211|NCT00734071|164592939|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.911||0.518|TWO_SIDED|95.0|-1.2|2.38||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||2.38|-1.20|0.518
82512111|NCT00368940|164716849|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||||||0.0268
82512112|NCT00368940|164716850|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82633423|NCT00410514|164982881|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 15 cmH2O for PdetQmax. Mirabegron was considered non-inferior to placebo for PdetQmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O.|LS Mean Difference|-5.94|||||TWO_SIDED|95.0|-13.98|2.09|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||2.09|-13.98|
82379270|NCT02028676|164467694|NON_INFERIORITY_OR_EQUIVALENCE|With assumptions above, at least 80% power and one-sided alpha=0.05, 947 children would be required in the stop/continue cotrimoxazole prophylaxis comparison to exclude an increase in hospitalisation/death rate of 3% from 5% to 8% per year in the stop cotrimoxazole arm (upper 95% confidence limit of stop:continue hazard ratio 1.6).|Risk Difference (RD)|4.0||||0.006|TWO_SIDED|95.0|0.8|7.2|||Poisson regression for risk difference||Risk difference is stop vs continue.|"Assumptions~* 5% of children receiving daily cotrimoxazole prophylaxis have a new hospitalisation or death per year~* recruitment starts 1 July 2009 with 10% children (those already on ART for \>96 weeks) entering immediately, and then the remaining children recruited over the following 15 months as they reach 96 weeks on ART. Follow-up is until March 2012.~* cumulative loss to follow-up at March 2012 is 10%. See below for further details as box is not big enough."||7.2|0.8|0.006
82379271|NCT02028676|164467695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.33|TWO_SIDED|95.0|0.83|1.72|||Log Rank||Hazard ratio is stop vs continue.|||1.72|0.83|0.33
82379272|NCT02028676|164467696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.45|TWO_SIDED|95.0|0.49|1.44|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.44|0.49|0.45
82512113|NCT00991302|164716851|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|stratified by dosing complexity||"Treatment comparison was made using a Wilcoxon rank sum test stratified by dosing complexity.~The test was not stratified by region of enrollment due to dosing complexity and region of enrollment were almost identical: almost all (exception with two) participants in the US region were on QD and all participants in the Peru region were on BID or TID."||||0.52
82512114|NCT01709318|164716859|NON_INFERIORITY|Based on a longitudinal data analysis (LDA) model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|8.3|||||TWO_SIDED|95.0|-4.3|26.5|||||95% CI adjusted for multiplicity (Dunnett)|||26.5|-4.3|
82512115|NCT01709318|164716859|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|6.5|||||TWO_SIDED|95.0|-5.7|24.8|||||95% CI adjusted for multiplicity (Dunnett)|||24.8|-5.7|
82512116|NCT01709318|164716859|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|12.3|||||TWO_SIDED|95.0|-1.7|33.1|||||95% CI adjusted for multiplicity (Dunnett)|||33.1|-1.7|
82512117|NCT01709318|164716859|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|6.6|||||TWO_SIDED|95.0|-5.7|25.4|||||95% CI adjusted for multiplicity (Dunnett)|||25.4|-5.7|
82512118|NCT01709318|164716859|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|9.3|||||TWO_SIDED|95.0|-3.5|27.4|||||95% CI adjusted for multiplicity (Dunnett)|||27.4|-3.5|
82512119|NCT01709318|164716859|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-10.7|15.9|||||95% CI adjusted for multiplicity (Dunnett)|||15.9|-10.7|
82512120|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|3.2|||||TWO_SIDED|95.0|-3.6|16.4|||||95% CI adjusted for multiplicity (Dunnett)|||16.4|-3.6|
82512121|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-6.2|11.0|||||95% CI adjusted for multiplicity (Dunnett)|||11.0|-6.2|
82379273|NCT02028676|164467696|SUPERIORITY_OR_OTHER|||||||0.43|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.43
82512122|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|3.0|||||TWO_SIDED|95.0|-3.8|17.5|||||95% CI adjusted for multiplicity (Dunnett)|||17.5|-3.8|
82379274|NCT02028676|164467696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.23|TWO_SIDED|95.0|0.33|1.31|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.31|0.33|0.23
82512123|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|4.7|||||TWO_SIDED|95.0|-2.5|18.9|||||95% CI adjusted for multiplicity (Dunnett)|||18.9|-2.5|
82633424|NCT00410514|164982881|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 15 cmH2O for PdetQmax. Mirabegron was considered non-inferior to placebo for PdetQmax if the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O.|LS Mean Difference|-1.39|||||TWO_SIDED|95.0|-9.73|6.96|||ANCOVA||Treatment groups were compared using ANCOVA with pooled center and treatment as factors and the baseline value as a covariate. Centers with less than 12 patients were pooled before the analysis.|The study was designed to show non-inferiority of mirabegron compared to placebo for both primary outcome measures. The comparison between mirabegron 50 mg and placebo was conducted first. If non-inferiority was demonstrated in this comparison, mirabegron 100 mg was compared to placebo. However, if the first comparison did not demonstrate non-inferiority, no further comparison was made. This procedure maintained the overall type I error of one-sided 2.5%.||6.96|-9.73|
82379275|NCT02028676|164467696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.93|TWO_SIDED|95.0|0.52|1.81|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.81|0.52|0.93
82512124|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|1.4|||||TWO_SIDED|95.0|-5.0|13.4|||||95% CI adjusted for multiplicity (Dunnett)|||13.4|-5.0|
82512125|NCT01709318|164716860|NON_INFERIORITY|Based on a LDA model with terms for treatment, cycle and the interaction cycle by treatment and stratum:starter/switcher followed by Miettinen and Nurminen's method. Non-inferiority criterion was met if the upper bound of the 95% CI of the difference is less than or equal to 10%.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-6.2|11.0|||||95% CI adjusted for multiplicity (Dunnett)|||11.0|-6.2|
82633425|NCT00394654|164982912|SUPERIORITY_OR_OTHER|||||||0.168|||||||Univariate 2-sample t-test|||||||0.168
82379276|NCT02028676|164467697|SUPERIORITY_OR_OTHER|||||||0.89|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.89
82379277|NCT02028676|164467697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.64|TWO_SIDED|95.0|0.53|1.48|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.48|0.53|0.64
82633426|NCT00394654|164982913|SUPERIORITY_OR_OTHER|||||||0.254|||||||Univariate 2-sample t-test|||||||0.254
82633427|NCT00394654|164982914|SUPERIORITY_OR_OTHER|||||||0.677|||||||Univariate 2-sample t-test|||||||0.677
82379278|NCT02028676|164467697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.71|TWO_SIDED|95.0|0.54|1.52|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.52|0.54|0.71
82633428|NCT00394654|164982915|SUPERIORITY_OR_OTHER|||||||0.318|||||||Univariate 2-sample t-test|||||||0.318
82633429|NCT00394654|164982916|SUPERIORITY_OR_OTHER|||||||0.798|||||||Univariate 2-sample t-test|||||||0.798
82633430|NCT00394654|164982917|SUPERIORITY_OR_OTHER|||||||0.766|||||||Univariate 2-sample t-test|||||||0.766
82379279|NCT02028676|164467698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.73|1.38|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.38|0.73|0.98
82379280|NCT02028676|164467698|SUPERIORITY_OR_OTHER|||||||0.44|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.44
82512126|NCT01709318|164716861|OTHER|Based on longitudinal data analysis (LDA) model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of Least Squares (LS) Mean|-0.08||||0.096|||||||LDA|||||||0.096
82379281|NCT02028676|164467698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.3|TWO_SIDED|95.0|0.55|1.2|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.20|0.55|0.30
82379282|NCT02028676|164467698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.24|TWO_SIDED|95.0|0.54|1.17|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.17|0.54|0.24
82379283|NCT02028676|164467699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.52|TWO_SIDED|95.0|0.82|1.49|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM.|||1.49|0.82|0.52
82512127|NCT01709318|164716861|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.03||||0.993|||||||LDA|||||||0.993
82512128|NCT01709318|164716861|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.08||||0.124|||||||LDA|||||||0.124
82512129|NCT01709318|164716861|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.05||||0.845|||||||LDA|||||||0.845
82512130|NCT01709318|164716861|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.04||||0.976|||||||LDA|||||||0.976
82512131|NCT01709318|164716861|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.03||||0.995|||||||LDA|||||||0.995
82379284|NCT02028676|164467699|SUPERIORITY_OR_OTHER|||||||0.34||||||Global test with 2df, adjusted for randomization stratification factors|Log Rank|||||||0.34
82379285|NCT02028676|164467699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.19|TWO_SIDED|95.0|0.54|1.13|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.13|0.54|0.19
82379286|NCT02028676|164467699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.25|TWO_SIDED|95.0|0.56|1.16|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.16|0.56|0.25
82379287|NCT02028676|164467700|SUPERIORITY_OR_OTHER|||||||0.71|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.71
82633431|NCT03756285|164982942|SUPERIORITY||Least Square Means Ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.12|0.52|||Mixed Models Analysis|Covariates: atrial fibrillation status at randomization, baseline value, treatment, visit, and treatment\*visit.||||0.52|0.12|<0.001
82633432|NCT03756285|164982943|SUPERIORITY||Least Square Means Ratio|0.97||||0.568|ONE_SIDED|95.0|0.74||||ANCOVA|Covariates: atrial fibrillation status at randomization, baseline value, treatment|||||0.74|0.568
82512132|NCT01709318|164716862|OTHER|Based on longitudinal data analysis (LDA) model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of Least Squares (LS) Mean|-0.01||||1|||||||LDA|||||||1.000
82379288|NCT02028676|164467700|SUPERIORITY_OR_OTHER|||||||0.58|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.58
82512133|NCT01709318|164716862|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|0.19||||0.996|||||||LDA|||||||0.996
82512134|NCT01709318|164716862|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.06||||1|||||||LDA|||||||1.000
82379289|NCT02028676|164467701|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.07
82512135|NCT01709318|164716862|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.04||||1|||||||LDA|||||||1.000
82512136|NCT01709318|164716862|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|0.09||||1|||||||LDA|||||||1.000
82512137|NCT01709318|164716862|OTHER|Based on longitudinal data analysis model: generalized linear mixed model with terms for stratum, ring group, cycle (and the interaction of cycle by ring group), and continuous response variable.|Difference of LS Mean|-0.24||||0.998|||||||LDA|||||||0.998
82512138|NCT03370341|164716869|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||The null hypothesis was that of no difference in levels of IA between Active and Sham stimulation. A paired samples t-test was performed with a significance level of 0.05 (two-tailed).||||.56
82569108|NCT01649297|164848126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.68|-0.32|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.32|-0.68|<0.0001
82512139|NCT03370341|164716870|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||The null hypothesis was that of no difference in levels of IA between Active and Sham stimulation. A paired samples t-test was performed with a significance level of 0.05 (two-tailed).||||.38
82512140|NCT02573324|164716895|SUPERIORITY||Cox Proportional Hazard|1.02||||0.633|TWO_SIDED|95.0|0.82|1.26||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|Terms abbreviated below: O6-methylguaninemethlytransferese (MGMT); Recursive Partitioning Analysis (RPA); EGFRde2-7 (EGFRvIII)||1.26|0.82|0.633
82633433|NCT03756285|164982944|SUPERIORITY||Mean Difference (Final Values)|21.8||||0.407|TWO_SIDED|95.0|-30.5|74.1|||Mixed Models Analysis|Covariates: atrial fibrillation status at randomization, baseline value, treatment, visit, and treatment\*visit.||||74.1|-30.5|0.407
82379290|NCT02028676|164467701|SUPERIORITY_OR_OTHER|||||||0.9|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.90
82379291|NCT02028676|164467702|SUPERIORITY_OR_OTHER|||||||0.64|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.64
82379292|NCT02028676|164467702|SUPERIORITY_OR_OTHER|||||||0.3|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.30
82379293|NCT02028676|164467703|SUPERIORITY_OR_OTHER|||||||0.45|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.45
82379294|NCT02028676|164467704|SUPERIORITY_OR_OTHER|||||||0.7|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.70
82379295|NCT02028676|164467705|SUPERIORITY_OR_OTHER|||||||0.59||0.0|||||Regression, Linear|Adjusted for randomization stratification factors||||||0.59
82379296|NCT02028676|164467705|SUPERIORITY_OR_OTHER|||||||0.01|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.01
82379297|NCT02028676|164467706|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Linear|Adjusted for randomization stratification factors||||||0.81
82379298|NCT02028676|164467706|SUPERIORITY_OR_OTHER|||||||0.03|||||||Regression, Linear|Global test with 2df, adjusted for randomization stratification factors||||||0.03
82379299|NCT02028676|164467707|SUPERIORITY_OR_OTHER|||||||0.86|||||||Chi-squared|||||||0.86
82379300|NCT02028676|164467707|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
82512141|NCT02573324|164716895|SUPERIORITY|||||||0.704||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.704
82379301|NCT02028676|164467708|SUPERIORITY_OR_OTHER|||||||0.2|||||||Chi-squared|||||||0.20
82379302|NCT02028676|164467708|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
82379303|NCT02028676|164467709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.22|TWO_SIDED|95.0|0.48|1.29|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.29|0.48|0.22
82379304|NCT02028676|164467710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.672||||0.09|TWO_SIDED|95.0|0.42|1.075|||Log Rank||Hazard ratio is CDM vs LCM|||1.075|0.420|0.09
82379305|NCT02028676|164467710|SUPERIORITY_OR_OTHER|||||||0.04|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.04
82379306|NCT02028676|164467710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.16||||0.017|TWO_SIDED|95.0|1.15|4.08|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||4.08|1.15|0.017
82379307|NCT02028676|164467710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.034|TWO_SIDED|95.0|1.05|3.8|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||3.80|1.05|0.034
82379308|NCT02028676|164467711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.04|TWO_SIDED|95.0|1.02|1.66|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.66|1.02|0.04
82379309|NCT02028676|164467711|SUPERIORITY_OR_OTHER|||||||0.53|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.53
82379310|NCT02028676|164467711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6|TWO_SIDED|95.0|0.68|1.25|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||1.25|0.68|0.60
82379311|NCT02028676|164467711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.56|TWO_SIDED|95.0|0.81|1.46|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||1.46|0.81|0.56
82379312|NCT02028676|164467712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.84|TWO_SIDED|95.0|0.58|1.56|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is CDM vs LCM|||1.56|0.58|0.84
82379313|NCT02028676|164467712|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|Global test with 2df, adjusted for randomization stratification factors||||||0.002
82379314|NCT02028676|164467712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.8||||0.001|TWO_SIDED|95.0|1.74|8.29|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm B vs A|||8.29|1.74|0.001
82379315|NCT02028676|164467712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.09||||0.006|TWO_SIDED|95.0|1.39|6.85|||Regression, Cox|Adjusted for randomization stratification factors|Hazard ratio is Arm C vs A|||6.85|1.39|0.006
82379316|NCT02028676|164467713|SUPERIORITY_OR_OTHER|||||||0.53|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.53
82379317|NCT02028676|164467713|SUPERIORITY_OR_OTHER|||||||0.46|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.46
82379318|NCT02028676|164467714|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.3||||0.52|TWO_SIDED|95.0|-9.3|4.7|||Chi-squared|||||4.7|-9.3|0.52
82379319|NCT02028676|164467715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.39|TWO_SIDED|95.0|-1.2|0.5|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.5|-1.2|0.39
82379320|NCT02028676|164467716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-0.9|0.9|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.9|-0.9|0.98
82379321|NCT02028676|164467717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.12|TWO_SIDED|95.0|-1.9|0.2|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||0.2|-1.9|0.12
82379322|NCT02028676|164467718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.82|TWO_SIDED|95.0|-60.0|76.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||76|-60|0.82
82379323|NCT02028676|164467719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.0||||0.36|TWO_SIDED|95.0|-104.0|38.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||38|-104|0.36
82379324|NCT02028676|164467720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.0||||0.2|TWO_SIDED|95.0|-220.0|46.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is once-daily minus twice-daily|||46|-220|0.20
82379325|NCT02028676|164467722|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43||||0.2|TWO_SIDED|95.0|0.11|1.64|||Log Rank||Hazard ratio is once-daily vs twice-daily|||1.64|0.11|0.20
82379326|NCT02028676|164467723|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.51|TWO_SIDED|95.0|0.31|1.77|||Log Rank||Hazard ratio is once-daily vs twice-daily|||1.77|0.31|0.51
82633434|NCT00286156|164982961|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Pairwise comparisons adjusted for multiple testing (Tukey)|ANOVA|||Null hypothesis: no difference between groups in iGFR||||<0.01
82633435|NCT05281094|164982964|SUPERIORITY||Vaccine Efficacy|12.98|||||TWO_SIDED|95.0|-52.51|50.35|||||. Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||50.35|-52.51|
82379327|NCT02028676|164467724|SUPERIORITY_OR_OTHER|||||||0.16|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.16
82379328|NCT02028676|164467725|SUPERIORITY_OR_OTHER|||||||0.54|||||||Generalized estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.54
82379329|NCT02028676|164467726|SUPERIORITY_OR_OTHER|||||||0.08|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.08
82379330|NCT02028676|164467727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.82|TWO_SIDED|95.0|0.72|1.52|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is once-daily vs twice-daily|||1.52|0.72|0.82
82379331|NCT02028676|164467728|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.31|TWO_SIDED|95.0|0.48|1.27|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is once-daily vs twice-daily|||1.27|0.48|0.31
82379332|NCT02028676|164467729|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared|||||||0.74
82379333|NCT02028676|164467730|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
82379334|NCT02028676|164467731|SUPERIORITY_OR_OTHER|||||||0.93|||||||Generalized estimating equations|Generalised estimating equation with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.93
82379335|NCT02028676|164467732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.21|||<|0.001|TWO_SIDED|95.0|1.5|3.25|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||3.25|1.50|<0.001
82379336|NCT02028676|164467733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.44|TWO_SIDED|95.0|0.56|3.85|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||3.85|0.56|0.44
82379337|NCT02028676|164467734|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.4||||0.03|TWO_SIDED|95.0|1.05|5.48|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||5.48|1.05|0.03
82379338|NCT02028676|164467735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.98||||0.18|TWO_SIDED|95.0|0.44|35.7|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||35.7|0.44|0.18
82379339|NCT02028676|164467736|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.34|TWO_SIDED|95.0|0.53|6.17|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||6.17|0.53|0.34
82379340|NCT02028676|164467737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.68|TWO_SIDED|95.0|0.12|4.15|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||4.15|0.12|0.68
82379341|NCT02028676|164467738|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.07
82379342|NCT02028676|164467739|SUPERIORITY_OR_OTHER|||||||0.19|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.19
82379343|NCT02028676|164467740|SUPERIORITY_OR_OTHER|||||||0.34|||||||Generalised estimating equations|Generalised estimating equations with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.34
82379344|NCT02028676|164467741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.13|TWO_SIDED|95.0|-1.4|0.2|||Regression, Linear|Adjusted for randomization stratification factors|Difference is stop minus continue|||0.2|-1.4|0.13
82379345|NCT02028676|164467742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0||||0.68|TWO_SIDED|95.0|-65.0|42.0|||Regression, Linear|Adjusted for randomization stratification factors|Difference is stop minus continue|||42|-65|0.68
82379346|NCT02028676|164467743|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.04|TWO_SIDED|95.0|1.02|2.5|||Log Rank|Adjusted for randomization stratification factors|Hazard ratio is stop vs continue|||2.50|1.02|0.04
82633436|NCT05281094|164982965|SUPERIORITY||Vaccine Efficacy|17.02|||||TWO_SIDED|95.0|-24.52|44.7|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1||44.70|-24.52|
82512142|NCT02573324|164716896|SUPERIORITY||Cox Proportional Hazard|0.97||||0.504|TWO_SIDED|95.0|0.76|1.24||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|||1.24|0.76|0.504
82512143|NCT02573324|164716896|SUPERIORITY|||||||0.599||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.599
82569109|NCT01649297|164848126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.62|-0.27|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.27|-0.62|<0.0001
82633437|NCT05281094|164982966|SUPERIORITY||Vaccine Efficacy|13.91|||||TWO_SIDED|95.0|-34.7|44.98|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||44.98|-34.70|
82633438|NCT05281094|164982967|SUPERIORITY||Vaccine Efficacy|-6.37|||||TWO_SIDED|95.0|-45.04|22.0|||||Vaccine efficacy is demonstrated if the lower limit of the 95.0% CI is above 0%.|VE is defined 100% \[1- (λV/λC)\], where λV and λC denote the hazard rates for the HIL-214 and placebo arms respectively, obtained via a stratified Cox proportional hazards model, using Efron's method for handling ties. The model includes a term for vaccine group and was stratified by country, whereby the United States, Dominican Republic, and Puerto Rico were considered one country. The 95% confidence interval as calculated by subtracting the confidence limits of hazard ratio from 1.||22.00|-45.04|
82633439|NCT00631969|164982973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.109|||<|0.0001||95.0|-8.562|-5.6561|||ANCOVA|||Power adjustment for 3 primary efficacy variables (3 variables have to be significant in favor of Vardenafil to conclude efficacy). Statistical analysis applies to the total population.||-5.6561|-8.562|< 0.0001
82633440|NCT00631969|164982974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.027|||<|0.0001||95.0|-35.519|-22.534|||ANCOVA|||Statistical analysis applies to the total population.||-22.534|-35.519|< 0.0001
82633441|NCT00631969|164982975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.193|||<|0.0001||95.0|-45.021|-31.366|||ANCOVA|||Statistical analysis applies to the total population.||-31.366|-45.021|< 0.0001
82633442|NCT00631969|164982976|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|34.778|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for age group and pooled center.||Statistical analysis applies to the total population.||||<0.0001
82633443|NCT00631969|164982977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.503|||<|0.0001||95.0|-22.424|-10.764|||ANCOVA|||Statistical analysis applies to the total population.||-10.764|-22.424|< 0.0001
82633444|NCT00631969|164982978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.167|||<|0.0001||95.0|-45.261|-31.073|||ANCOVA|||Statistical analysis applies to the total population.||-31.073|-45.261|< 0.0001
82633445|NCT00631969|164982979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.555|||<|0.0001||95.0|-43.645|-29.465|||ANCOVA|||Statistical analysis applies to the total population.||-29.465|-43.645|< 0.0001
82633446|NCT00631969|164982980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.193|||<|0.0001||95.0|-31.562|-18.824|||ANCOVA|||Statistical analysis applies to the total population.||-18.824|-31.562|< 0.0001
82633447|NCT00631969|164982982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.703|||<|0.0001||95.0|-30.067|-19.34|||ANCOVA|||Statistical analysis applies to the total population.||-19.340|-30.067|< 0.0001
82633448|NCT00631969|164982983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.496|||<|0.0001||95.0|-34.865|-24.128|||ANCOVA|||Statistical analysis applies to the total population.||-24.128|-34.865|< 0.0001
82633449|NCT00631969|164982984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.775|||<|0.0001||95.0|-33.155|-22.394|||ANCOVA|||Statistical analysis applies to the total population.||-22.394|-33.155|< 0.0001
82633450|NCT00631969|164982985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.326|||<|0.0001||95.0|-29.062|-17.598|||ANCOVA|||Statistical analysis applies to the total population.||-17.598|-29.062|< 0.0001
82633451|NCT00631969|164982986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.384|||<|0.0001||95.0|-28.594|-18.175|||ANCOVA|||Statistical analysis applies to the total population.||-18.175|-28.594|< 0.0001
82633452|NCT00631969|164982987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.076|||<|0.0001||95.0|-38.745|-27.407|||ANCOVA|||Statistical analysis applies to the total population.||-27.407|-38.745|< 0.0001
82633453|NCT00631969|164982988|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|74.449|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for pooled centers and age group.||Statistical analysis applies to the total population.||||<0.0001
82633454|NCT00631969|164982989|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|117.42||||||90.0|79.59|173.23||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||173.23|79.59|
82633455|NCT00631969|164982989|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.7064||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of AUC. Test of the hypothesis of a zero slope using the two-sided t-test at α = 0.05.||||0.7064
82633456|NCT00631969|164982990|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|133.07||||||90.0|87.46|202.46||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||202.46|87.46|
82633457|NCT00631969|164982990|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of Vardenafil exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.8749||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of Cmax. Test of the hypothesis of a zero slope using the two-sided t-test at α=0.05.||||0.8749
82633458|NCT00631969|164982991|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|125.28||||||90.0|73.65|213.11||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years/ patients aged \< 65 years) were calculated.||213.11|73.65|
82633459|NCT00631969|164982991|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.7375||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of AUC. Test of the hypothesis of a zero slope using the two-sided t-test at α=0.05.||||0.7375
82379347|NCT02028676|164467744|SUPERIORITY_OR_OTHER|||||||0.21||||||Adjusted for randomization stratification factors|Generalised estimating equation|Generalised estimating equation with independent correlation structure and robust standard errors, calculated over all post-randomization visit weeks||||||0.21
82379348|NCT04779879|164467763|OTHER||Ratio of geometric least squares mean|1.04|||||TWO_SIDED|90.0|0.98|1.09|||||Analysis was performed using an Analysis of covariance (ANCOVA) model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.09|0.98|
82379349|NCT04779879|164467764|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.94|1.11|||||Analysis was performed using an ANCOVA model with covariates of treatment, and Baseline logarithm (base10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.11|0.94|
82379350|NCT04779879|164467793|OTHER||Ratio of geometric least squares mean|1.05|||||TWO_SIDED|90.0|1.0|1.11|||||Analysis was performed using an ANCOVA model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.11|1.00|
82379351|NCT04779879|164467794|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||Analysis was performed using an ANCOVA model with covariates of treatment and Baseline logarithm (base 10) viral load.|||1.07|0.97|
82379352|NCT04779879|164467795|OTHER||Ratio of geometric least squares mean|1.01|||||TWO_SIDED|90.0|0.93|1.09|||||Analysis was performed using an ANCOVA model with covariates of treatment, Baseline logarithm (base 10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.09|0.93|
82633460|NCT00631969|164982992|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.|Point estimate of ratio|123.84||||||90.0|80.12|191.42||||||Point estimate and 90% confidence interval of ratio (patients aged ≥ 65 years / patients aged \< 65 years) were calculated.||191.42|80.12|
82633461|NCT00631969|164982992|NON_INFERIORITY_OR_EQUIVALENCE|This is an exploratory analysis of metabolite M-1 exposure in ED patients of different age categories to assess the effect of age on the drug's pharmacokinetics.||||||0.394||95.0|||||Regression, Linear|||A linear regression line is fitted to the logarithm of Cmax. Test of the hypothesis of a zero slope using the two-sided t-test at α = 0.05.||||0.3940
82633462|NCT04607291|164983035|OTHER|A logistic regression model was used to identify factors associated with screening.|||||||||||||||||"A logistic regression model was used to identify factors associated with screening. A stepwise selection procedure (alpha entry and alpha exit = 0.15) was used to determine what factors were included in the model. Overall performance is assessed using the AUC.~Factors included in the model: sex, stool test recommended by physician, know where to get stool test, fear of colonoscopy index score, ABR - afraid score, and knowledge that colonoscopy can reduce worry.~AUC: 0.71"|||
82633463|NCT04607291|164983036|OTHER|A logistic regression model was used to identify characteristics associated with high intent of getting a Fit test.||||||||||||||||Evaluating factors associated with high intent of getting a Fit test.|"A logistic regression model was used to identify factors associated with high intent of getting a fit test. A stepwise selection procedure (alpha entry and alpha exit = 0.15) was used to determine what factors were included in the model. Overall performance is assessed using the AUC.~Factors included in the model: sex, race, stool test or colonoscopy recommended by physician, know where to get stool test, CBPR score, and barriers to screening score.~AUC: 0.80"|||
82633464|NCT00945945|164983037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34||||0.105|TWO_SIDED|95.0|-0.07|0.75||P-value for Change from Baseline to Endpoint (BOCF).|ANCOVA|Main Effect Model: Change = Treatment + Pooled Investigator + Baseline (Type III sums of squares).|Least Squares Mean Difference = DLX30-PLA minus PLA-DLX60.|||0.75|-0.07|0.105
82633465|NCT00805194|164983048|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0019|TWO_SIDED|95.0|0.68|0.92|||Regression, Cox||Hazard Ratio (HR) below 1 favors nintedanib|HR, Confidence Interval (CI) and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||0.92|0.68|0.0019
82633466|NCT00805194|164983049|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0073|TWO_SIDED|95.0|0.6|0.92||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||"The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05.~HR below 1 favors nintedanib"|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for patients with adenocarcinoma and \<9 months since start of first line therapy."||0.92|0.60|0.0073
82379353|NCT04779879|164467796|OTHER||Ratio of geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.94|1.1|||||Analysis was performed using an ANCOVA model with covariates of treatment, Baseline logarithm (base 10) viral load and randomization stratification factor (prior exposure to an authorized or approved SARS-CoV-2 vaccine).|||1.10|0.94|
82379354|NCT04779879|164467857|OTHER||Ratio of geometric least squares mean|0.66|||||TWO_SIDED|90.0|0.48|0.89|||||Drug bioavailability was analyzed using an ANCOVA model with treatment and weight at Baseline as covariates.|||0.89|0.48|
82379355|NCT04779879|164467857|OTHER||Ratio of geometric least squares mean|0.58|||||TWO_SIDED|90.0|0.43|0.79|||||Drug bioavailability was analyzed using an ANCOVA model with treatment and weight at Baseline as covariates.|||0.79|0.43|
82379356|NCT04779879|164467858|OTHER||Ratio of geometric least squares mean|1.14|||||TWO_SIDED|90.0|0.67|1.95|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.95|0.67|
82379357|NCT04779879|164467859|OTHER||Ratio of geometric least squares mean|1.06|||||TWO_SIDED|90.0|0.69|1.62|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.62|0.69|
82379358|NCT04779879|164467860|OTHER||Ratio of geometric least squares mean|1.11|||||TWO_SIDED|90.0|0.68|1.82|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||1.82|0.68|
82633467|NCT00805194|164983049|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0359|TWO_SIDED|95.0|0.7|0.99||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||"The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05.~HR below 1 favors nintedanib"|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for patients with adenocarcinoma."||0.99|0.70|0.0359
82633468|NCT00805194|164983049|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.272|TWO_SIDED|95.0|0.83|1.05||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat. had 2), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||The overall alpha level followed a Lan-DeMets spending function with O'Brien-Fleming shape parameter to preserve an overall 2-sided alpha level of 0.05. HR below 1 favors nintedanib|"Hierarchical testing was tested in a fixed sequence of statistical hypotheses in (1) patients with adenocarcinoma and \<9 months since start of first-line therapy, (2) patients with adenocarcinoma, and (3) all patients. Each hypothesis could be only tested at the pre-specified alpha level if the previous null hypothesis in the testing sequence had been rejected.~Overall survival for all patients."||1.05|0.83|0.2720
82633469|NCT00805194|164983050|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.007|TWO_SIDED|95.0|0.75|0.96||HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||0.96|0.75|0.0070
82633470|NCT00805194|164983051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0012|TWO_SIDED|95.0|0.73|0.93||HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||0.93|0.73|0.0012
82633471|NCT00805194|164983052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.3067|TWO_SIDED|95.0|0.76|2.39||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||2.39|0.76|0.3067
82633472|NCT00805194|164983052|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0761|TWO_SIDED|95.0|0.96|2.08||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the investigator's assessment||2.08|0.96|0.0761
82633473|NCT00805194|164983055|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||<|0.0001|TWO_SIDED|95.0|1.35|2.09||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||2.09|1.35|<0.0001
82633474|NCT00805194|164983055|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||<|0.0001|TWO_SIDED|95.0|1.31|2.05||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on investigator's assessment||2.05|1.31|<0.0001
82633475|NCT00805194|164983057|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the central independent review||||<0.0001
82633476|NCT00805194|164983057|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the investigator's assessment||||<0.0001
82633477|NCT00805194|164983058|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7282|TWO_SIDED|95.0|0.87|1.21||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1 - one pat.had 2), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|||1.21|0.87|0.7282
82633478|NCT00805194|164983059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1858|TWO_SIDED|95.0|0.77|1.05||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of cough||1.05|0.77|0.1858
82633479|NCT00805194|164983059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.5203|TWO_SIDED|95.0|0.91|1.2||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of dyspnoea||1.20|0.91|0.5203
82512144|NCT02573324|164716897|SUPERIORITY||Cox Proportional Hazard|1.17||||0.773|TWO_SIDED|95.0|0.76|1.8||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world, and EGFRvIII mutation status as covariates.|||1.80|0.76|0.773
82569110|NCT01649297|164848126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.6|-0.25|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening eGFR \[MDRD\] value)- fixed effects and baseline HbA1c- linear covariate.||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing HbA1c after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided).||-0.25|-0.60|<0.0001
82633480|NCT00805194|164983059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.4373|TWO_SIDED|95.0|0.82|1.09||HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>= 1), tumour histology (squamous vs non-squamous), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of pain||1.09|0.82|0.4373
82633481|NCT01722552|164983065|EQUIVALENCE|The margin for non-equivalence was 25 percentage points.|Risk Ratio (RR)|1.59|||<|0.05|TWO_SIDED|95.0|1.21|2.1|||Chi-squared|||The primary analysis was by intent to treat (ITT). This included data for all randomized subjects, with post-intervention adherence measured by the last 30 days of available data; adherence over the entire 6-month intervention period was measured using all available post-intervention data. Our sample size was designed to detect a 25 percentage point difference in proportion achieving optimal adherence post-intervention.||2.1|1.21|<0.05
82379359|NCT04779879|164467861|OTHER||Ratio of geometric least squares mean|1.28|||||TWO_SIDED|90.0|0.77|2.12|||||Dose proportionality was analyzed using an ANOVA model with treatment (250mg, 500mg) as a covariate, for each parameter of interest.|||2.12|0.77|
82379360|NCT02854527|164467895|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|96.39|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|88.22|105.33|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R1.||105.33|88.22|
82379361|NCT02854527|164467896|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|93.17|STANDARD_DEVIATION|24.1|||TWO_SIDED|90.0|83.49|103.97|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R1.||103.97|83.49|
82379362|NCT02854527|164467897|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|102.62|STANDARD_DEVIATION|20.4|||TWO_SIDED|90.0|93.82|112.25|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R2.||112.25|93.82|
82379363|NCT02854527|164467898|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|103.96|STANDARD_DEVIATION|24.0|||TWO_SIDED|90.0|93.6|115.46|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R2.||115.46|93.60|
82379364|NCT02854527|164467899|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|97.49|STANDARD_DEVIATION|9.0|||TWO_SIDED|90.0|93.54|101.61|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R3.||101.61|93.54|
82379365|NCT02854527|164467900|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|98.25|STANDARD_DEVIATION|14.7|||TWO_SIDED|90.0|91.85|105.09|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R3.||105.09|91.85|
82512145|NCT02573324|164716897|SUPERIORITY|||||||0.74||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.740
82512146|NCT02573324|164716898|SUPERIORITY||Cox Proportional Hazard|0.95||||0.381|TWO_SIDED|95.0|0.71|1.27||Weighted log-rank P-value: Stratified Fleming-Harrington (ρ = 0, γ = 0.2) test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.27|0.71|0.381
82512147|NCT02573324|164716898|SUPERIORITY|||||||0.409||||||Log-rank P-value (1-sided): Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank|||||||0.409
82512148|NCT02573324|164716899|SUPERIORITY||Cox Proportional Hazard|0.84||||0.029|TWO_SIDED|95.0|0.7|1.01||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.01|0.70|0.029
82512149|NCT02573324|164716900|SUPERIORITY||Cox Proportional Hazard|0.72||||0.002|TWO_SIDED|95.0|0.56|0.93||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||0.93|0.56|0.002
82512150|NCT02573324|164716901|SUPERIORITY||Cox Proportional Hazard|1.329||||0.994|TWO_SIDED|95.0|1.087|1.626||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.626|1.087|0.994
82512151|NCT02573324|164716902|SUPERIORITY||Cox Proportional Hazard|1.185||||0.938|TWO_SIDED|95.0|0.972|1.446||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.446|0.972|0.938
82512152|NCT02573324|164716903|SUPERIORITY||Cox Proportional Hazard|1.136||||0.814|TWO_SIDED|95.0|0.921|1.402||Stratified log-rank test was used. Stratified by randomization stratification factors namely: MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status.|Log Rank||Based on multivariate Cox proportional hazards model including treatment, MGMT methylation status, RPA class, region of the world and EGFRvIII mutation status as covariates.|||1.402|0.921|0.814
82512153|NCT00600821|164716904|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.093||||0.639|TWO_SIDED|95.0|0.679|1.761||One-sided log-rank test at alpha = 0.20 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified by gender and prior adjuvant therapy.||1.761|0.679|0.639
82512154|NCT00600821|164716905|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.117||||0.699|TWO_SIDED|95.0|0.739|1.689||One-sided log-rank test at alpha = 0.20 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified by gender and prior adjuvant therapy.||1.689|0.739|0.699
82512155|NCT00600821|164716906|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.676||||0.9422|TWO_SIDED|95.0|0.412|1.107|||Cochran-Mantel-Haenszel|||P-value was calculated using 1-sided Cochran-Mantel-Haenszel test stratified by gender and prior adjuvant therapy. Risk ratio in comparison to the Bevacizumab group was calculated assuming all other factors as constant.||1.107|0.412|0.9422
82512156|NCT03892889|164716934|OTHER||||||<|0.0001|TWO_SIDED|||||Paired t-test was used based on the prospective phase efficacy sample when applicable.|paired t-test|||||||<0.0001
82512157|NCT01610700|164716935|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.93||||0.124||95.0|-13.52|1.65|||ANCOVA|||The change in the primary impairment was compared between treatment groups using analysis of covariance (ANCOVA) with baseline primary impairment score as the covariate.||1.65|-13.52|0.124
82512158|NCT01610700|164716936|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.1||||0.062|TWO_SIDED|95.0|-14.56|0.37|||ANCOVA|||The change in the spasticity visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.37|-14.56|0.062
82512159|NCT01610700|164716937|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.88||||0.731|TWO_SIDED|95.0|-12.73|8.96|||ANCOVA|||The change in the pain visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||8.96|-12.73|0.731
82512160|NCT01610700|164716938|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-3.3||||0.443|TWO_SIDED|95.0|-11.82|5.21|||ANCOVA|||The change in the muscle spasm visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||5.21|-11.82|0.443
82512161|NCT01610700|164716939|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-6.85||||0.311|TWO_SIDED|95.0|-20.31|6.6|||ANCOVA|||The change in the tremor visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||6.60|-20.31|0.311
82512162|NCT01610700|164716940|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.26|STANDARD_ERROR_OF_MEAN|4.36||0.154|TWO_SIDED|95.0|-14.9|2.38|||ANCOVA|||The change in bladder problems visual analogue scale score was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.38|-14.90|0.154
82512163|NCT01610700|164716941|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.293|TWO_SIDED|95.0|0.77|2.43|||Fisher Exact|||The proportion of subjects with better/much better assessments was compared between groups using a Fisher's Exact Test.||2.43|0.77|0.293
82512164|NCT01610700|164716943|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.69||||0.45|TWO_SIDED|95.0|-1.11|2.5|||ANCOVA|||The change from baseline in the mean Beck's Depression Inventory score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.50|-1.11|0.450
82512165|NCT01610700|164716944|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.12||||0.427|TWO_SIDED|95.0|-0.43|0.18|||ANCOVA|||The change baseline in the mean Fatigue Severity Scale Questionnaire score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.18|-0.43|0.427
82512166|NCT01610700|164716946|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.72||||0.647|TWO_SIDED|95.0|-2.38|3.82|||ANCOVA|||The change from baseline in the mean total 28-item General Health Questionnaire score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||3.82|-2.38|0.647
82512167|NCT01610700|164716948|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.12|STANDARD_ERROR_OF_MEAN|0.83||0.889|TWO_SIDED|95.0|-1.77|1.54|||ANCOVA|||The change from baseline in the mean total bladder control test score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||1.54|-1.77|0.889
82512168|NCT01610700|164716951|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.1||||0.047|TWO_SIDED|95.0|-14.11|-0.08|||ANCOVA|||The from baseline in the mean sleep quality 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||-0.08|-14.11|0.047
82512169|NCT01610700|164716952|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-4.53||||0.198|TWO_SIDED|95.0|-11.45|2.4|||ANCOVA|||The change from baseline in the mean sleep amount 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||2.40|-11.45|0.198
82569111|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.8||||95.0|-9.0|1.8|||ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening (eGFR)\[MDRD\]value)-fixed effects and baseline HbA1c,baseline FPG-linear covariates||||1.8|-9.0|
82633482|NCT00568399|164983066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|STANDARD_DEVIATION|0.987||0.001|TWO_SIDED|95.0||||Coronary calcium score after treatment compared to baseline|Wilcoxon (Mann-Whitney)|||This was a pilot study without a control group. There were no power calculations (see manuscript).||||0.001
82512170|NCT01610700|164716953|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.36||||0.717|TWO_SIDED|95.0|-8.8|6.07|||ANCOVA|||The from baseline in the mean feeling upon wakening 100 mm visual analogue scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||6.07|-8.80|0.717
82512171|NCT01610700|164716954|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.47||||0.087|TWO_SIDED|95.0|-1.01|0.07|||ANCOVA|||The change from baseline in the mean Barthel Activities for Daily Living scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||0.07|-1.01|0.087
82512172|NCT01610700|164716958|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.81||||0.048|TWO_SIDED|95.0|0.02|3.6|||ANCOVA|||The change from baseline in the mean Guy's Neurological Disability Scale score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||3.60|0.02|0.048
82633483|NCT03894501|164983082|SUPERIORITY|||||||0.048|||||||ANOVA|||||||.048
82512173|NCT01610700|164716959|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.904|TWO_SIDED|95.0|-1.85|1.64|||ANCOVA|||The change from baseline in the mean Atkinson Morley Information Processing Battery test score at the end of treatment was compared between treatment groups using ANCOVA with baseline primary impairment score as the covariate.||1.64|-1.85|0.904
82512174|NCT02610868|164716964|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512175|NCT02610868|164716964|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82633484|NCT03894501|164983083|SUPERIORITY|||||||0.037|||||||ANCOVA|||||||.037
82633485|NCT03894501|164983084|SUPERIORITY|||||||0.024|||||||ANCOVA|||||||.024
82633486|NCT03894501|164983085|SUPERIORITY|||||||0.005|||||||ANCOVA|||||||.005
82633487|NCT03894501|164983086|SUPERIORITY|||||||0.013|||||||ANOVA|||||||.013
82633488|NCT03894501|164983087|SUPERIORITY|||||||0.035|||||||ANOVA|||||||.035
82512176|NCT02610868|164716964|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82379366|NCT02854527|164467901|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|105.01|STANDARD_DEVIATION|18.8|||TWO_SIDED|90.0|96.39|114.4|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the first primary outcome measure of treatment R4.||114.40|96.39|
82379367|NCT02854527|164467902|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|104.28|STANDARD_DEVIATION|20.6|||TWO_SIDED|90.0|94.95|114.53|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the second primary outcome measure of treatment R4.||114.53|94.95|
82512177|NCT02610868|164716964|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512178|NCT02610868|164716964|SUPERIORITY|||||||0.0006|||||||ANCOVA|||||||0.0006
82512179|NCT02610868|164716964|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512180|NCT02610868|164716964|SUPERIORITY|||||||0.1131|||||||ANCOVA|||||||0.1131
82512181|NCT02610868|164716964|SUPERIORITY|||||||0.0026|||||||ANCOVA|||||||0.0026
82512182|NCT02610868|164716964|SUPERIORITY|||||||0.2569|||||||ANCOVA|||||||0.2569
82633489|NCT01072500|164983118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.03|TWO_SIDED|95.0|0.69|0.98|||Regression, Cox|To compare interventions, we used a likelihood ratio test from a Cox regression model, stratified by field center and sex.||||0.98|0.69|0.03
82512183|NCT02610868|164716965|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512184|NCT02610868|164716965|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512185|NCT02610868|164716965|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512186|NCT02610868|164716965|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512187|NCT02610868|164716965|SUPERIORITY|||||||0.313|||||||ANCOVA|||||||0.3130
82512188|NCT02610868|164716965|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512189|NCT02610868|164716965|SUPERIORITY|||||||0.1054|||||||ANCOVA|||||||0.1054
82512190|NCT02610868|164716965|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82512191|NCT02610868|164716965|SUPERIORITY|||||||0.1663|||||||ANCOVA|||||||0.1663
82512192|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512193|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512194|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512195|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512196|NCT02610868|164716967|SUPERIORITY|||||||0.11|||||||ANCOVA|||||||0.1100
82512197|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512198|NCT02610868|164716967|SUPERIORITY|||||||1|||||||ANCOVA|||||||1.0000
82512199|NCT02610868|164716967|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82633490|NCT01072500|164983119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.006|TWO_SIDED|95.0|0.57|0.91|||Regression, Cox|||||0.91|0.57|0.006
82633491|NCT01412333|164983153|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.532|||<|0.0001|TWO_SIDED|95.0|0.397|0.714|||Negative Binomial Model||Rate ratio was calculated as Ocrelizumab ARR/Interferon beta-1a 44 mcg SC ARR.|Adjusted by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||0.714|0.397|< 0.0001
82512200|NCT02610868|164716967|SUPERIORITY|||||||0.029|||||||ANCOVA|||||||0.0290
82512201|NCT02610868|164716968|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512202|NCT02610868|164716968|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512203|NCT02610868|164716968|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512204|NCT02610868|164716968|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512205|NCT02610868|164716968|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512206|NCT02610868|164716968|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
82512207|NCT02610868|164716968|SUPERIORITY|||||||0.9016|||||||ANCOVA|||||||0.9016
82512208|NCT02610868|164716968|SUPERIORITY|||||||0.0753|||||||ANCOVA|||||||0.0753
82512209|NCT02610868|164716968|SUPERIORITY|||||||0.4992|||||||ANCOVA|||||||0.4992
82512210|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512211|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512212|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512213|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512214|NCT02610868|164716969|SUPERIORITY|||||||0.4567|||||||ANCOVA|||||||0.4567
82512215|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512216|NCT02610868|164716969|SUPERIORITY|||||||0.8115|||||||ANCOVA|||||||0.8115
82512217|NCT02610868|164716969|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512218|NCT02610868|164716969|SUPERIORITY|||||||0.3282|||||||ANCOVA|||||||0.3282
82512219|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512220|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512221|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512222|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512223|NCT02610868|164716971|SUPERIORITY|||||||0.3786|||||||ANCOVA|||||||0.3786
82512224|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512225|NCT02610868|164716971|SUPERIORITY|||||||0.7787|||||||ANCOVA|||||||0.7787
82512226|NCT02610868|164716971|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512227|NCT02610868|164716971|SUPERIORITY|||||||0.3825|||||||ANCOVA|||||||0.3825
82633492|NCT01412333|164983154|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||=|0.0169|TWO_SIDED|95.0|0.42|0.92|||Log Rank|||Time to onset of CDP at week 12||0.92|0.42|= 0.0169
82512228|NCT02652624|164716982|NON_INFERIORITY|A sample size of 470 participants (\~235 participants per treatment group) would provide at least 87% power to detect a non-inferiority margin of 4% difference in the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 between the 2 treatment groups. This was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a 1-sided 0.025 level.|Difference in percentages|0.0|||||TWO_SIDED|95.001|-2.9|2.9|||||The difference in percentages between treatment groups and their 95.001% confidence intervals (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 in the B/F/TAF group was at least 4% higher than the rate in the SBR group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL in the B/F/TAF group was less than 4% higher than that in the SBR group.||2.9|-2.9|
82512229|NCT02652624|164716982|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82569112|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.0|STANDARD_ERROR_OF_MEAN|2.8||||95.0|-10.4|0.5||The two non-inferiority hypotheses H10 and H20 were tested using the Hochberg procedure in order to control the family-wise type I error at 0.025 (one-sided).|ANCOVA|ANCOVA: Treatment, geographical region, renal function (screening (eGFR)\[MDRD\]value)-fixed effects and baseline HbA1c,baseline FPG-linear covariates||||0.5|-10.4|
82569113|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-34.2|-20.9|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-20.9|-34.2|<0.0001
82633493|NCT01412333|164983155|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.051|||<|0.0001||95.0|0.029|0.089|||Negative Binomial Model||Adjusted by baseline T1 Gd lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.089|0.029|< 0.0001
82633494|NCT01412333|164983156|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.171|||<|0.0001||95.0|0.13|0.225|||Negative Binomial Model||Adjusted by baseline T2 lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.225|0.130|< 0.0001
82633495|NCT01412333|164983157|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.14|||=|0.4019|TWO_SIDED|95.0|0.84|1.56|||CMH Chi-Squared test (stratified)|Stratified by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||||1.56|0.84|= 0.4019
82633496|NCT01412333|164983158|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||=|0.037|TWO_SIDED|95.0|0.4|0.98|||Log Rank|||Time to onset of CDP at week 24||0.98|0.40|= 0.037
82569114|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-29.2|-15.9|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-15.9|-29.2|<0.0001
82633497|NCT01412333|164983159|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.357|||<|0.0001||95.0|0.272|0.47|||Negative Binomial Model||Adjusted by baseline T1-hypointense lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.47|0.272|< 0.0001
82633498|NCT01412333|164983160|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.107|STANDARD_ERROR_OF_MEAN|0.037|=|0.004|TWO_SIDED|95.0|0.034|0.18|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.180|0.034|= 0.004
82633499|NCT01412333|164983161|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.112|STANDARD_ERROR_OF_MEAN|0.066|=|0.09|TWO_SIDED|95.0|-0.018|0.241|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in the rate of brain volume loss: 14.9%. Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.241|-0.018|= 0.09
82633500|NCT01412333|164983162|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|1.159|STANDARD_ERROR_OF_MEAN|0.564|=|0.0404|TWO_SIDED|95.0|0.051|2.268|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||2.268|0.051|= 0.0404
82633501|NCT01412333|164983163|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.81|||<|0.0001|TWO_SIDED|95.0|1.41|2.32|||CMH Chi-Squared test (stratified)|Analyzed using CMH test, stratified by Geographical Region (US vs. rest-of-world) and baseline EDSS (\<4.0 vs. \>=4.0).||||2.32|1.41|< 0.0001
82633502|NCT00750867|164983168|SUPERIORITY_OR_OTHER|||||||0.0128||||||The P-Value was obtained by comparing the UMSARS-I scores at final visit and at baseline.|ANOVA|||||||0.0128
82633503|NCT00750867|164983168|SUPERIORITY_OR_OTHER|||||||0.025||||||The P-Value was obtained by comparing the UMSARS-II scores at final visit and at baseline.|ANOVA|||||||0.025
82633504|NCT00474539|164983169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by NeisVac-C was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) greater than (\>) -10%.|Difference|-0.5||||||95.0|-3.3|2.0||||||For Meningococcal C the difference in percentages between the two groups (13vPnC - 7vPnC) at \>=1:8 titer was calculated||2.0|-3.3|
82633505|NCT00474539|164983172|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for or immune response induced by NeisVac-C was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.69|1.08||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||1.08|0.69|
82633506|NCT00474539|164983172|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for or immune response induced by NeisVac-C was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.23||||||95.0|0.97|1.55||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||1.55|0.97|
82633507|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-3.5|2.0||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.0|-3.5|
82633508|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.9|1.7||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||1.7|-1.9|
82633509|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.2||||||95.0|-4.4|4.0||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||4.0|-4.4|
82633510|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-2.1|2.0||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.0|-2.1|
82633511|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.2|2.2||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.2|-2.2|
82633512|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.2|2.2||||||For diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.2|-2.2|
82633513|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.3|2.2||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.10 IU/mL threshold was calculated||2.2|-2.3|
82523724|NCT01218126|164743208|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.781|TWO_SIDED|95.0|-38.0|50.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FEV1 for Placebo versus Losmapimod 15 mg at Week 24||50|-38|0.781
82379368|NCT02854527|164467903|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R1) (%)|96.53|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|92.08|101.2|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted gMean ratio (T/R1) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R1.||101.20|92.08|
82512230|NCT02652624|164716983|NON_INFERIORITY|The non-inferiority of B/F/TAF would be established if the lower bound of the 2-sided 95.001% CI of the difference between the treatment groups (B/F/TAF group - SBR group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in percentages|0.4|||||TWO_SIDED|95.001|-3.7|4.5|||||The difference in percentages between treatment groups and their 95.001% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||4.5|-3.7|
82512231|NCT02652624|164716983|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82512232|NCT02652624|164716984|OTHER||Difference in least square means|3.0||||0.84|TWO_SIDED|95.0|-27.0|34.0|||ANOVA||Difference in least squares means and its 95% CI were from ANOVA model with treatment group as a fixed effect in the model.|||34|-27|0.84
82512233|NCT00739336|164716997|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Piecewise linear multilevel models with multiple observations nested within each participant were used. Random components (intercept, slope) were introduced into the model to account for dependence among measurements within a participant and assessed by nested model comparisons using the deviance statistic (difference in -2LL).||||<0.01
82512234|NCT01797536|164717008|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|0.61|||||TWO_SIDED|90.0|0.34|1.08|||||GMR= Mild Hepatic Insufficiency Geometric Mean (GM) divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.34|
82512235|NCT01797536|164717008|SUPERIORITY_OR_OTHER||GMR|0.72|||||TWO_SIDED|90.0|0.4|1.31|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.31|0.40|
82512236|NCT01797536|164717008|SUPERIORITY_OR_OTHER||GMR|0.88|||||TWO_SIDED|90.0|0.48|1.61|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.61|0.48|
82569115|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-21.1|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-27.7|-14.4|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-14.4|-27.7|<0.0001
82633514|NCT00474539|164983173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Ratio|0.0||||||95.0|-2.3|2.2||||||For tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at \>=0.01 IU/mL threshold was calculated||2.2|-2.3|
82512237|NCT01797536|164717009|SUPERIORITY_OR_OTHER||GMR|0.6|||||TWO_SIDED|90.0|0.34|1.05|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.05|0.34|
82512238|NCT01797536|164717009|SUPERIORITY_OR_OTHER||GMR|0.64|||||TWO_SIDED|90.0|0.35|1.14|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.14|0.35|
82512239|NCT01797536|164717009|SUPERIORITY_OR_OTHER||GMR|0.63|||||TWO_SIDED|90.0|0.35|1.13|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.13|0.35|
82512240|NCT01797536|164717010|SUPERIORITY_OR_OTHER||GMR|0.58|||||TWO_SIDED|90.0|0.32|1.05|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.05|0.32|
82512241|NCT01797536|164717010|SUPERIORITY_OR_OTHER||GMR|0.64|||||TWO_SIDED|90.0|0.35|1.14|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.14|0.35|
82512242|NCT01797536|164717010|SUPERIORITY_OR_OTHER||GMR|0.58|||||TWO_SIDED|90.0|0.32|1.08|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.32|
82512243|NCT01797536|164717011|SUPERIORITY_OR_OTHER||GMR|0.61|||||TWO_SIDED|90.0|0.34|1.08|||||GMR = Mild Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.08|0.34|
82512244|NCT01797536|164717011|SUPERIORITY_OR_OTHER||GMR|0.69|||||TWO_SIDED|90.0|0.38|1.25|||||GMR = Moderate Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.25|0.38|
82512245|NCT01797536|164717011|SUPERIORITY_OR_OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.43|1.43|||||GMR = Severe Hepatic Insufficiency GM divided by Healthy Control GM|Back-transformed least-squares mean and confidence interval from linear fixed effect model performed on natural log-transformed values||1.43|0.43|
82512246|NCT03160703|164717015|SUPERIORITY||Mean Difference (Net)|-0.02||||0.2681|TWO_SIDED|95.0|-0.05|0.01||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.01|-0.05|0.2681
82512247|NCT03160703|164717015|SUPERIORITY||Mean Difference (Net)|-0.05||||0.0043|TWO_SIDED|95.0|-0.08|-0.02||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.02|-0.08|0.0043
82512248|NCT03160703|164717015|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.12|-0.05||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.05|-0.12|<.0001
82512249|NCT03160703|164717015|SUPERIORITY||Mean Difference (Final Values)|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.08||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||-0.08|-0.15|<.0001
82512250|NCT03160703|164717015|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.0779|TWO_SIDED|95.0|0.0|0.06||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.06|-0.00|0.0779
82512251|NCT03160703|164717015|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.0001|TWO_SIDED|95.0|0.03|0.1||Statistical significance set at 5% level|ANCOVA|From ANCOVA with treatment and smoking status as factors and baseline pre-prophylaxis overall MLSI score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.10|0.03|0.0001
82512252|NCT01513291|164717030|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.33153|TWO_SIDED|95.0|-1.3|0.4|||Constrained Longitudinal Analysis (cLDA)||Risk difference is for MK-6096 - Placebo. The cLDA model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period (≤8, \>8) as covariates|||0.4|-1.3|0.33153
82512253|NCT01513291|164717031|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.3|||||TWO_SIDED|95.0|-3.4|21.6|||||Risk difference (MK-6096 - Placebo) was estimated based on the Miettinen \& Nurminen method|||21.6|-3.4|
82512254|NCT01513291|164717032|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.3|||||TWO_SIDED|95.0|-4.0|8.9|||||Risk difference (MK-6096 - Placebo) was estimated based on the Miettinen \& Nurminen method|||8.9|-4.0|
82512255|NCT01513291|164717033|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.5||||0.24008|TWO_SIDED|95.0|-1.4|0.4|||Constrained Longitudinal Analysis (cLDA)||Risk difference is for MK-6096 - Placebo. The cLDA model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period (≤8, \>8) as covariates|||0.4|-1.4|0.24008
82512256|NCT01513291|164717034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.43093|TWO_SIDED|95.0|0.7|2.0|||Generalized linear mixed effects model||Odds ratio is for MK-6096 / Placebo. The generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Screening (Baseline) Period 1 (≤8, \>8) as covariates.|||2.0|0.7|0.43093
82512257|NCT01513291|164717035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9737|TWO_SIDED|95.0|0.7|1.5|||Generalized linear mixed effects model||Odds ratio is for MK-6096 / Placebo. The generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction, monthly migraine days during the Treatment Period 1 (≤8, \>8) as covariates.|||1.5|0.7|0.97370
82379369|NCT02854527|164467904|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R2) (%)|97.4|STANDARD_DEVIATION|9.6|||TWO_SIDED|90.0|90.87|104.41|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R2 were back transformed to original scale to get adjusted gMean ratio (T/R2) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R2.||104.41|90.87|
82633515|NCT00474539|164983174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.72|1.03||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.03|0.72|
82512258|NCT03732638|164717036|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0099|TWO_SIDED|95.0|-1.46|-0.2|||Mixed Models Analysis|||||-0.20|-1.46|0.0099
82569116|NCT01649297|164848127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-24.1|-10.8|||ANCOVA|ANCOVA:'Treatment','geographical region','renal function'(screening(eGFR)\[MDRD\]value)-fixed effects and 'baseline HbA1c',baseline FPG-linear covariate||Superiority of once daily dose of empagliflozin (10 mg and 25 mg) versus placebo and superiority of twice daily dose of empagliflozin (5 mg and 12.5 mg) versus placebo in reducing FPG after 16 weeks of treatment was tested in an exploratory manner, to demonstrate assay sensitivity against placebo at 0.05 level (two-sided)||-10.8|-24.1|<0.0001
82569117|NCT01685047|164848128|OTHER|There were no formal pre-specified statistical hypotheses for the endpoints of the study due to the exploratory nature of this study. Datasets (Device info at Baseline versus 15 minutes prior to the event) were compared using a 2-sided t-test.|||||<|0.05||||||All events with p \<0.05 were visually inspected to confirm they were evaluable; additional criteria for exclusion from further analysis included inappropriate therapy, aberrant conduction, and occurrence of VT/VF within 24h prior to the event.|t-test, 2 sided|||There were no formal pre-specified statistical hypotheses for the endpoints of the study due to the exploratory nature of this study. Some data was excluded from the primary analysis. All device detections resulting in therapy have been reviewed for appropriateness of the therapy. VT/VF therapy delivered from the device as a result of a non-ventricular arrhythmia or as a result of oversensing by the device has not been included in the primary data analysis.||||<0.05
82569118|NCT01049984|164848131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.012|TWO_SIDED|95.0|-4.3|-0.5||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||-0.5|-4.3|0.012
82569119|NCT01049984|164848132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.301|TWO_SIDED|95.0|-1.1|0.3||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||0.3|-1.1|0.301
82569120|NCT01049984|164848133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.007|TWO_SIDED|95.0|-3.1|-0.5||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted.|ANCOVA|Repeated measures model with baseline score as a covariate and factors Treatment, Week in Study, Pooled Center and Week by Treatment interaction.||||-0.5|-3.1|0.007
82569121|NCT01049984|164848134|SUPERIORITY_OR_OTHER|||||||0.255||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment and pooled center as strata.||||||0.255
82633516|NCT00474539|164983174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.91||||||95.0|0.74|1.12||||||For tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.12|0.74|
82512259|NCT03732638|164717037|SUPERIORITY||Risk Difference (RD)|7.6||||0.0438|TWO_SIDED|95.0|0.2|14.9|||Cochran-Mantel-Haenszel|||||14.9|0.2|0.0438
82633517|NCT00474539|164983174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.93||||||95.0|0.78|1.1||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.78|
82512260|NCT03732638|164717038|SUPERIORITY||Mean Difference (Net)|-0.8||||0.0017|TWO_SIDED|95.0|-1.34|-0.31|||Mixed Models Analysis|||||-0.31|-1.34|0.0017
82512261|NCT03732638|164717039|SUPERIORITY||Mean Difference (Net)|-0.2||||0.3868|TWO_SIDED|95.0|-0.8|0.31||P-value ≥ 0.05; therefore, all secondary endpoints listed after this endpoint in the hierarchy were not tested.|Mixed Models Analysis|||||0.31|-0.80|0.3868
82512262|NCT02732847|164717064|OTHER|Chi square tests used to compared groups||||||0.924||||||A p-value of \< 0.05 was considered|Chi-squared|||||||0.924
82512263|NCT01018264|164717065|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.2||||0.53|TWO_SIDED||||||ANCOVA|Adjusted for baseline value|This represents the effect size between solifenacin and placebo.|||||0.53
82512264|NCT01018264|164717066|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.53||||0.01|TWO_SIDED||||||ANCOVA|||||||0.01
82633518|NCT00474539|164983174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.81|1.24||||||For tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.24|0.81|
82512265|NCT01018264|164717067|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.35||||0.22|TWO_SIDED||||||ANCOVA|||||||0.22
82512266|NCT01018264|164717068|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.27||||0.47|TWO_SIDED||||||ANCOVA|||||||0.47
82512267|NCT01018264|164717069|SUPERIORITY_OR_OTHER_LEGACY||Effect size|0.11||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
82512268|NCT03915548|164717084|OTHER|Group by time interaction (difference in trajectory)||||||0.54||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,747)=0.88|||.54
82512269|NCT03915548|164717085|OTHER|Group by time interaction (difference in trajectory)||||||0.09||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,746.4)=2.64|||.09
82512270|NCT03915548|164717086|OTHER|Group by time interaction (difference in trajectory)||||||0.55||||||Adjusted|Mixed Models Analysis|Poisson model with log link; multiple-degree-of-freedom test|||F(3,717)=0.7|||.55
82512271|NCT03915548|164717087|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Adjusted|Mixed Models Analysis|multiple-degree-of-freedom test|||F(3,394.7)=0.18|||.99
82512272|NCT03915548|164717088|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Overall score adjusted P = 0.99 Physical subscale adjusted P = 0.99 Social subscale adjusted P = 0.99 Emotional subscale adjusted P = 0.99 Functional subscale adjusted P = 0.99|Mixed Models Analysis|multiple-degree-of-freedom test|||"Group by time interaction:~Overall score: F(3,731.3)=0.03 Physical subscale: F(3,744.5)=0.23 Social subscale: F(3,740.6)=0.32 Emotional subscale: F(3,743)=0.46 Functional subscale: F(3,746.1)=0.3"|||0.99
82569122|NCT01049984|164848135|SUPERIORITY_OR_OTHER|||||||0.996||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment and pooled center as strata.||||||0.996
82569123|NCT01049984|164848136|SUPERIORITY_OR_OTHER|||||||0.967||||||All analyses were performed at the 2-sided 0.05 significance level. P values were not adjusted. Only participants with assessment (\>0) are included in the CMH test.|Cochran-Mantel-Haenszel|CMH used the proportion of participants in each category between the two treatment arms, with treatment, pooled center, and baseline value as strata.||||||0.967
82569124|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.016|0.092|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.092|0.016|
82569125|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.027|0.103|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.103|0.027|
82569126|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.046|0.122|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.122|0.046|
82569127|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.027|0.049|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.049|-0.027|
82569128|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.008|0.069|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.069|-0.008|
82569129|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.019|0.058|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.058|-0.019|
82569130|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.013|0.089|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.089|0.013|
82569131|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.045|0.122|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.122|0.045|
82569132|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.042|0.119|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.119|0.042|
82442212|NCT00734071|164592940|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.542||0.685|TWO_SIDED|95.0|-1.29|0.85||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05).||0.85|-1.29|0.685
82633519|NCT00474539|164983177|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by NeisVac-C was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.6||||||95.0|-1.7|3.2||||||For Meningococcal C the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 1:8 titer was calculated.||3.2|-1.7|
82633520|NCT03018340|164983178|SUPERIORITY||Difference in weighted MMRM LSMs|-1.7|STANDARD_ERROR_OF_MEAN|0.85||0.039|TWO_SIDED|95.0|-3.4|-0.1|||Mixed Models Analysis|||This is the primary statistical comparison for Stage 1 and Stage 2 combined.||-0.1|-3.4|0.0390
82633521|NCT03018340|164983178|SUPERIORITY||Difference in MMRM LSMs|-4.0|STANDARD_ERROR_OF_MEAN|1.09||0.0003|TWO_SIDED|95.0|-6.1|-1.9|||Mixed Models Analysis|||||-1.9|-6.1|0.0003
82633522|NCT03018340|164983178|SUPERIORITY||Difference in MMRM LSMs|0.5|STANDARD_ERROR_OF_MEAN|1.3||0.694|TWO_SIDED|95.0|-2.1|3.1|||Mixed Models Analysis|||||3.1|-2.1|0.6940
82633523|NCT00266799|164983195|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was tested using the upper limit of the 95% CI for the hazard ratio as quantitative estimate of the minimum effect of PLD relative to capecitabine. Margin for non-inferiority was set to 1.143, reflecting an acceptable difference in TTP of 0.75 months assuming an expected median TTP of up to 6 months with the comparator. If the estimate was below margin, PLD was to be considered non-inferior to capecitabine assuming sufficient sensitivity to detect the drug effects of~interest."|Hazard Ratio (HR)|1.08||||0.6686|TWO_SIDED|95.0|0.76|1.54|||Log Rank|||By Investigator Assessment of ITT Population||1.54|0.76|0.6686
82633524|NCT00266799|164983195|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was tested using the upper limit of the 95% CI for the hazard ratio as quantitative estimate of the minimum effect of PLD relative to capecitabine. Margin for non-inferiority was set to 1.143, reflecting an acceptable difference in TTP of 0.75 months assuming an expected median TTP of up to 6 months with the comparator. If the estimate was below margin, PLD was to be considered non-inferior to capecitabine assuming sufficient sensitivity to detect the drug effects of~interest."|Hazard Ratio (HR)|1.15||||0.4472|TWO_SIDED|95.0|0.8|1.65|||Log Rank|||By RECIST Criteria of ITT Population||1.65|0.80|0.4472
82633525|NCT00266799|164983195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.5508|TWO_SIDED|95.0|0.74|1.77|||Log Rank|||By Investigator Assessment of TTP Population||1.77|0.74|0.5508
82633526|NCT00266799|164983195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.4088|TWO_SIDED|95.0|0.77|1.89|||Log Rank|||By RECIST Criteria of TTP Population||1.89|0.77|0.4088
82633527|NCT00266799|164983196|SUPERIORITY_OR_OTHER|||||||0.1726||95.0|||||Chi-squared|||By Investigator Assessment||||0.1726
82633528|NCT00266799|164983196|SUPERIORITY_OR_OTHER|||||||0.6541||95.0|||||Chi-squared|||By RECIST Criteria||||0.6541
82633529|NCT00266799|164983197|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.5265|TWO_SIDED|95.0|0.79|1.58|||Log Rank|||||1.58|0.79|0.5265
82633530|NCT00266799|164983198|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0841||95.0|||||Log Rank|p-value also given for Hazard Ratio||||||0.0841
82633531|NCT00242710|164983213|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|2.37|||<|0.001|TWO_SIDED|95.0|1.56|3.18|||ANCOVA|||An analysis of covariance (ANCOVA) model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.18|1.56|<0.001
82633532|NCT00242710|164983213|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|||<|0.001|TWO_SIDED|95.0|1.56|3.17|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.17|1.56|<0.001
82633533|NCT00242710|164983213|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78|||<|0.001|TWO_SIDED|95.0|2.81|4.76|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.76|2.81|<0.001
82512273|NCT03915548|164717089|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Active coping adjusted P = 0.99 Planning adjusted P = 0.21 Positive reframing adjusted P = 0.99|Mixed Models Analysis|multiple-degrees-of-freedom test|||Active planning: F(3,746)=0.8 Planning: F(3,744.8)=2.93 Positive reframing = F(3,742)=0.21|||0.99
82633534|NCT00242710|164983215|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|||<|0.001|TWO_SIDED|95.0|0.97|2.24|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.24|0.97|<0.001
82442213|NCT00734071|164592941|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.984|TWO_SIDED|95.0|-0.27|0.28||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||0.28|-0.27|0.984
82512274|NCT03915548|164717090|OTHER|Group by time interaction (difference in trajectory)||||||0.02|||||||Mixed Models Analysis|multiple-degrees-of-freedom test|||Disengagement: F(3,741.2)=5.09 Reengagement: F(3,745.7)=0.81|||0.02
82512275|NCT03915548|164717091|OTHER|Group by time interaction (difference in trajectory)||||||0.99||||||Anxiety adjusted P = 0.99 Depression adjusted P = 0.99|Mixed Models Analysis|multiple-degrees-of-freedom test|||Anxiety: F(3,737.5)=0.17 Depression: F(3,733.6)=0.85|||0.99
82512276|NCT03915548|164717092|SUPERIORITY||Cohen's d|0.26||||0.09|TWO_SIDED|95.0|-0.01|0.54||Importance subscale: Adjusted P = .09 Performance subscale: Adjusted P = \<.001 Satisfaction subscale: Adjusted P = \<.001|Mixed Models Analysis|multiple-degrees-of-freedom test|Importance subscale: Cohen's d = 0.26 (-.01, 0.54) Performance subscale: Cohen's d = 0.60 (0.32, 0.87) Satisfaction subscale: Cohen's d = 0.76 (0.48, 1.02)|||0.54|-.01|.09
82512277|NCT04589559|164717100|OTHER|Paired-samples t-test|Mean change score|-1.5||||0.152|TWO_SIDED|95.0|-3.67|0.67|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in cardiac-related interoceptive fear.|||0.67|-3.67|0.152
82512278|NCT04589559|164717101|OTHER|Paired-samples t-test|Mean change score|-6.2||||0.031|TWO_SIDED|95.0|-11.71|-0.69|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in trait anxiety.|||-0.69|-11.71|0.031
82512279|NCT04589559|164717102|OTHER|Paired-samples t-test|Mean change score|-1.9||||0.323|TWO_SIDED|95.0|-6.01|2.21|||t-test, 2 sided|Paired-samples t-test|A negative value of the estimation parameter of mean change score indicates a reduction in negative affect.|||2.21|-6.01|0.323
82512280|NCT04589559|164717103|OTHER|Paired-samples t-test|Mean change in the measure|0.58||||0.112|TWO_SIDED|95.0|-0.16|1.33|||t-test, 2 sided|Paired-samples t-test|A positive value of the estimation parameter of mean change in the measure indicates an increase in heart rate variability.|||1.33|-0.16|0.112
82512281|NCT03217136|164717104|OTHER|The Miettinen \& Nurminen method was used.|Difference in Percentage|18.1|||||TWO_SIDED|95.0|-2.6|41.1||||||Difference in Percentage (C/T+MTZ minus MERO)||41.1|-2.6|
82512282|NCT03217136|164717105|OTHER|The Miettinen \& Nurminen method was used.|Difference in Percentage|2.9|||||TWO_SIDED|95.0|-12.9|9.9||||||Difference in Percentage (C/T+MTZ minus MERO)||9.9|-12.9|
82512283|NCT03217136|164717106|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-14.3|||||TWO_SIDED|95.0|-26.67|4.93||||||Difference in Percentage (C/T+MTZ minus MERO)||4.93|-26.67|
82512284|NCT03217136|164717107|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-19.1|||||TWO_SIDED|95.0|-30.18|-2.89||||||Difference in Percentage (C/T+MTZ minus MERO)||-2.89|-30.18|
82512285|NCT03217136|164717108|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-11.2|||||TWO_SIDED|95.0|-23.66|9.61||||||Difference in Percentage (C/T+MTZ minus MERO)||9.61|-23.66|
82512286|NCT03217136|164717109|OTHER|The difference in percentage was based on the Miettinen \& Nurminen method stratified by age group with Cochran-Mantel-Haenszel (CMH) weights. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Difference in Percentage|-16.3|||||TWO_SIDED|95.0|-27.59|1.39||||||Difference in Percentage (C/T+MTZ minus MERO)||1.39|-27.59|
82512287|NCT00678691|164717110|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||all p-values come from one model analysis and are therefore included in free text as such|piecewise model|A piecewise statistical model results for between group differences: P=.390 (baseline through week 5), p=.775 (week 5 - week 8||Authors expected armodafinal to work better than placebo reducing BFI scale scores by 30%. A piecewise statistical model was used to compare baseline scores against those over through week 8. Piecewise results for between group differences for BFI Scores: P=.390 (baseline through week 5), p=.775 (week 5 - week 8).||||<0.05
82512288|NCT05773287|164717111|SUPERIORITY|||||||0.509||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.509
82569133|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.006|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.071|-0.006|
82442214|NCT00734071|164592942|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.866||0.703|TWO_SIDED|95.0|-1.38|2.04||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||2.04|-1.38|0.703
82512289|NCT05773287|164717112|SUPERIORITY|||||||0.552||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.552
82512290|NCT00780572|164717142|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9396||||0.668|TWO_SIDED|95.0|0.7068|1.249|||Regression, Cox|||||1.2490|0.7068|0.6680
82569134|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.009|0.068|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.068|-0.009|
82569135|NCT01040403|164848137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.041|0.035|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.035|-0.041|
82512291|NCT04542070|164717143|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Difference in percentage|0.9|||||TWO_SIDED|95.0|-0.5|2.2|||||Difference in percentage = percentage of Q2M - percentage of BIK|||2.2|-0.5|
82569136|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.04|0.159|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.159|0.040|
82512292|NCT04542070|164717143|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Adjusted difference in percentage|0.9|||||TWO_SIDED|95.0|-0.5|2.2|||||Adjusted difference in percentage = percentage of Q2M - percentage of BIK. Based on cochran-mantel haenszel stratified analysis was adjusted for the baseline stratification factors gender at birth and baseline BMI.|||2.2|-0.5|
82569137|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.061|0.179|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.179|0.061|
82442215|NCT00734071|164592943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||0.602|TWO_SIDED|95.0|0.713|1.795|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.795|0.713|0.602
82569138|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.041|0.16|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.160|0.041|
82512293|NCT04542070|164717144|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Difference in percentage|0.7|||||TWO_SIDED|95.0|-0.6|2.0|||||Difference in percentage = percentage of Q2M - percentage of BIK|||2.0|-0.6|
82512294|NCT04542070|164717144|NON_INFERIORITY|Non-inferiority concluded if the upper limit of a two-sided 95% confidence interval for the difference in percentage of participants with HIV-1 RNA ≥ 50 c/mL at Month 12 (OLI and BIK)/Month 11 (D2I) between the two treatment arms (Q2M - BIK) is less than 4%.|Adjusted difference in percentage|0.7|||||TWO_SIDED|95.0|-0.7|2.0|||||Adjusted difference in percentage = percentage of Q2M - percentage of BIK. Based on cochran-mantel haenszel stratified analysis was adjusted for the baseline stratification factors gender at birth and baseline BMI.|||2.0|-0.7|
82512295|NCT03049813|164717181|SUPERIORITY|||||||0.027||||||One-sided p value|Regression, Logistic|Adjusted for baseline year of study participation, problematic substance use, social cognition, community functioning, and negative symptoms - anergia||||||0.027
82512296|NCT03049813|164717181|SUPERIORITY|||||||0.0765||||||1-sided p-value|Chi-squared|||||||0.0765
82512297|NCT03049813|164717182|SUPERIORITY|||||||0.062||||||One-sided p value|Regression, Cox|Adjusting for baseline year of study participation, problematic substance use, social cognition, community functioning, and negative symptoms anergia||||||0.062
82512298|NCT03049813|164717183|SUPERIORITY|||||||0.006||||||Adjusting for baseline year of study participation, problematic substance use, social cognition, community functioning, negative symptoms - anergia|Regression, Linear|||||||0.006
82512299|NCT03049813|164717184|SUPERIORITY|||||||0.013||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia). One-sided p value.|Regression, Linear|||||||0.013
82512300|NCT03049813|164717185|SUPERIORITY|||||||0.019||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia). One sided p-value.|Regression, Linear|||||||0.019
82512301|NCT03049813|164717186|SUPERIORITY|||||||0.692||||||Mixed-effects linear regression models. Covariates include: baseline year, problematic substance use, social cognition, community functioning, and negative symptoms (anergia).|Regression, Linear|||For this analysis, only participants who completed both pre-test and posttest were included. If someone completed a pre-test SSPA, but not a posttest SSPA, they were not included in the analysis.||||0.692
82512302|NCT01813019|164717188|SUPERIORITY_OR_OTHER|||||||0.671|||||||Mixed Models Analysis|||||||0.671
82512303|NCT01696032|164717198|SUPERIORITY|||||||0.0654|||||||Log Rank|||||||0.0654
82512304|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82569139|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.039|0.079|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.079|-0.039|
82569140|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.059|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.061|-0.059|
82512305|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82512306|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82512307|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82512308|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82512309|NCT02203591|164717217|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82512310|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|81.1|||||TWO_SIDED|95.0|75.6|86.6||||||||86.6|75.6|
82512311|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|81.7|||||TWO_SIDED|95.0|76.3|87.1||||||||87.1|76.3|
82512312|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|83.2|||||TWO_SIDED|95.0|77.9|88.4||||||||88.4|77.9|
82512313|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|38.9|||||TWO_SIDED|95.0|32.3|45.6||||||||45.6|32.3|
82512314|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|46.9|||||TWO_SIDED|95.0|40.1|53.7||||||||53.7|40.1|
82512315|NCT02203591|164717217|OTHER|95% confidence interval generation|Mean value|53.0|||||TWO_SIDED|95.0|46.3|59.6||||||||59.6|46.3|
82512316|NCT02203591|164717218|NON_INFERIORITY|A non-inferior margin of 0.5 log10/cm\^2|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.57|-0.1|||||3M CHG/IPA C - Inguinal minus ChloraPrep - Inguinal|||-0.10|-0.57|
82512317|NCT02203591|164717218|NON_INFERIORITY|A non-inferior margin of 0.5 log10/cm\^2|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|97.5|-0.44|0.74|||||3M CHG/IPA CH - Inguinal minus ChloraPrep - Inguinal|Since there are two investigational products a Hochberg step-up procedure was used to adjust for multiplicity.||0.74|-0.44|
82512318|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|2.83|STANDARD_DEVIATION|0.85|||TWO_SIDED|||||||||||||
82512319|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|2.86|STANDARD_DEVIATION|0.9|||TWO_SIDED|||||||||||||
82512320|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|2.83|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
82512321|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|1.0|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
82512322|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|3.46|STANDARD_DEVIATION|1.31|||TWO_SIDED|||||||||||||
82512323|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|3.49|STANDARD_DEVIATION|1.33|||TWO_SIDED|||||||||||||
82512324|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|3.69|STANDARD_DEVIATION|1.29|||TWO_SIDED|||||||||||||
82512325|NCT02203591|164717219|OTHER|Calculate mean value|Mean value|1.23|STANDARD_DEVIATION|0.73|||TWO_SIDED|||||||||||||
82512326|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|2.78|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
82569141|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.079|0.04|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.040|-0.079|
82569142|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.071|0.19|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.190|0.071|
82569143|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.072|0.191|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.191|0.072|
82512327|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|2.73|STANDARD_DEVIATION|1.0|||TWO_SIDED|||||||||||||
82512328|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|2.75|STANDARD_DEVIATION|0.97|||TWO_SIDED|||||||||||||
82512329|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|0.76|STANDARD_DEVIATION|0.81|||TWO_SIDED|||||||||||||
82512330|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|2.84|STANDARD_DEVIATION|1.19|||TWO_SIDED|||||||||||||
82569144|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.067|0.187|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.187|0.067|
82512331|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|2.99|STANDARD_DEVIATION|1.12|||TWO_SIDED|||||||||||||
82512332|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|3.17|STANDARD_DEVIATION|1.24|||TWO_SIDED|||||||||||||
82512333|NCT02203591|164717220|OTHER|Calculate mean value|Mean value|1.01|STANDARD_DEVIATION|0.67|||TWO_SIDED|||||||||||||
82512334|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|0.8|STANDARD_DEVIATION|0.84|||TWO_SIDED|||||||||||||
82512335|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|0.74|STANDARD_DEVIATION|0.79|||TWO_SIDED|||||||||||||
82512336|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|0.81|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
82512337|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|2.65|STANDARD_DEVIATION|0.89|||TWO_SIDED|||||||||||||
82512338|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|2.76|STANDARD_DEVIATION|1.2|||TWO_SIDED|||||||||||||
82512339|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|2.73|STANDARD_DEVIATION|1.22|||TWO_SIDED|||||||||||||
82512340|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|2.58|STANDARD_DEVIATION|1.18|||TWO_SIDED|||||||||||||
82512341|NCT02203591|164717221|OTHER|Calculate mean value|Mean value|4.85|STANDARD_DEVIATION|0.75|||TWO_SIDED|||||||||||||
82512342|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|0.85|STANDARD_DEVIATION|0.95|||TWO_SIDED|||||||||||||
82512343|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|0.87|STANDARD_DEVIATION|0.98|||TWO_SIDED|||||||||||||
82569145|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.059|0.061|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.061|-0.059|
82633535|NCT00242710|164983215|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|||<|0.001|TWO_SIDED|95.0|1.19|2.46|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.46|1.19|<0.001
82569146|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.063|0.056|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.056|-0.063|
82569147|NCT01040403|164848138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.064|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.055|-0.064|
82569148|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.035|0.114|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||0.114|0.035|
82569149|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.057|0.137|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||0.137|0.057|
82569150|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.079|0.159|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||0.159|0.079|
82569151|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.017|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||0.062|-0.017|
82569152|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.021|||TWO_SIDED|95.0|0.004|0.085|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||0.085|0.004|
82569153|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.018|0.062|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||0.062|-0.018|
82569154|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.057|0.137|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||0.137|0.057|
82512344|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|0.89|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||||||
82512345|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|2.88|STANDARD_DEVIATION|0.7|||TWO_SIDED|||||||||||||
82512346|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|3.39|STANDARD_DEVIATION|1.1|||TWO_SIDED|||||||||||||
82512347|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|3.21|STANDARD_DEVIATION|1.04|||TWO_SIDED|||||||||||||
82512348|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|3.08|STANDARD_DEVIATION|1.14|||TWO_SIDED|||||||||||||
82512349|NCT02203591|164717222|OTHER|Calculate mean value|Mean value|5.08|STANDARD_DEVIATION|0.68|||TWO_SIDED|||||||||||||
82512350|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|3.63|STANDARD_DEVIATION|0.46|||TWO_SIDED|||||||||||||
82512351|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|3.61|STANDARD_DEVIATION|0.48|||TWO_SIDED|||||||||||||
82512352|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|3.64|STANDARD_DEVIATION|0.49|||TWO_SIDED|||||||||||||
82512353|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|3.64|STANDARD_DEVIATION|0.53|||TWO_SIDED|||||||||||||
82512354|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|6.23|STANDARD_DEVIATION|0.6|||TWO_SIDED|||||||||||||
82512355|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|6.22|STANDARD_DEVIATION|0.56|||TWO_SIDED|||||||||||||
82569155|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.088|0.168|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||0.168|0.088|
82569156|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.103|0.183|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||0.183|0.103|
82569157|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.009|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||0.071|-0.009|
82512356|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|6.27|STANDARD_DEVIATION|0.62|||TWO_SIDED|||||||||||||
82512357|NCT02203591|164717223|OTHER|Calculate mean value|Mean value|6.09|STANDARD_DEVIATION|0.63|||TWO_SIDED|||||||||||||
82512358|NCT03306264|164717239|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% confidence interval (CI) of the 5-day AUC0-24 ratio of Least Square Mean (LSM) for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.93|||||TWO_SIDED|90.0|92.66|105.6|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||105.6|92.66|
82512359|NCT03306264|164717239|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-24 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|99.64|||||TWO_SIDED|90.0|91.23|108.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||108.8|91.23|
82512360|NCT03306264|164717245|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-inf ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.0|||||TWO_SIDED|90.0|91.8|104.6|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.6|91.80|
82512361|NCT03306264|164717245|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-inf ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|99.61|||||TWO_SIDED|90.0|91.2|108.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||108.8|91.20|
82512362|NCT03306264|164717246|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-last ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.11|||||TWO_SIDED|90.0|91.88|104.8|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.8|91.88|
82512363|NCT03306264|164717246|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-last ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|98.11|||||TWO_SIDED|90.0|89.75|107.2|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||107.2|89.75|
82512364|NCT03306264|164717247|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-8 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|97.93|||||TWO_SIDED|90.0|91.74|104.5|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|MDS or CMML: IV Decitabine Versus MDS or CMML: ASTX727||104.5|91.74|
82512365|NCT03306264|164717247|EQUIVALENCE|ASTX727 and IV decitabine were to be considered equivalent if the 2-sided 90% CI of the 5-day AUC0-8 ratio of LSM for oral/IV was contained entirely within the range of 0.80 - 1.25.|Ratio of Geometric LSM|97.55|||||TWO_SIDED|90.0|89.32|106.5|||||Analysis was based on ANOVA model with treatment, cycle, and sequence as fixed effects, and participant nested in sequence as a random effect (ratio is Oral/IV).|AML: IV Decitabine Versus AML: ASTX727||106.5|89.32|
82512366|NCT00554749|164717267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.09|STANDARD_DEVIATION|0.43|<|0.001||95.0|1.69|2.49|||paired t-test|Paired t-test of SSQ at baseline vs at 6 months, degrees of freedom=6. Difference in SSQ is reported.||||2.49|1.69|<0.001
82512367|NCT01032135|164717280|OTHER|||||||0.11|||||||Chi-squared|||||||0.11
82512368|NCT01032135|164717281|OTHER|||||||0.02|||||||Chi-squared|||||||0.02
82512369|NCT01032135|164717282|OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82512370|NCT01032135|164717287|OTHER||Odds Ratio (OR)|0.4||||0.0007|TWO_SIDED|95.0|0.23|0.68|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.68|0.23|0.0007
82512371|NCT01032135|164717287|OTHER||Odds Ratio (OR)|0.54||||0.16|TWO_SIDED|95.0|0.23|1.27|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.27|0.23|0.16
82512372|NCT01032135|164717287|OTHER||Odds Ratio (OR)|1.12||||0.79|TWO_SIDED|95.0|0.48|2.6|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.60|0.48|0.79
82512373|NCT01032135|164717292|OTHER||Odds Ratio (OR)|-1.08||||0.009|TWO_SIDED|95.0|-1.87|-0.29|||Chi-squared|||The statistical analyses used data from all follow up assessments.||-0.29|-1.87|0.009
82512374|NCT01032135|164717292|OTHER||Odds Ratio (OR)|-0.84||||0.23|TWO_SIDED|95.0|-2.2|0.52|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.52|-2.20|0.23
82512375|NCT01032135|164717292|OTHER||Odds Ratio (OR)|-0.34||||0.58|TWO_SIDED|95.0|-1.52|0.85|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.85|-1.52|0.58
82512376|NCT01032135|164717297|OTHER||Odds Ratio (OR)|0.33||||0.0001|TWO_SIDED|95.0|0.19|0.58|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.58|0.19|0.0001
82512377|NCT01032135|164717297|OTHER||Odds Ratio (OR)|0.67||||0.36|TWO_SIDED|95.0|0.29|1.54|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.54|0.29|0.36
82512378|NCT01032135|164717297|OTHER||Odds Ratio (OR)|1.43||||0.45|TWO_SIDED|95.0|0.58|3.54|||Chi-squared|||The statistical analyses used data from all follow up assessments.||3.54|0.58|0.45
82512379|NCT01032135|164717302|OTHER||Odds Ratio (OR)|-1.09||||0.003|TWO_SIDED|95.0|-1.8|-0.39|||Chi-squared|||The statistical analyses used data from all follow up assessments.||-0.39|-1.80|0.003
82512380|NCT01032135|164717302|OTHER||Odds Ratio (OR)|0.02||||0.1|TWO_SIDED|95.0|-1.1|1.14|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.14|-1.10|0.10
82512381|NCT01032135|164717306|OTHER||Odds Ratio (OR)|0.66||||0.13|TWO_SIDED|95.0|0.38|1.14|||Chi-squared|||The statistical analyses used data from all follow up assessments.||1.14|0.38|0.13
82512382|NCT01032135|164717306|OTHER||Odds Ratio (OR)|0.83||||0.71|TWO_SIDED|95.0|0.33|2.12|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.12|0.33|0.71
82512383|NCT01032135|164717306|OTHER||Odds Ratio (OR)|1.48||||0.36|TWO_SIDED|95.0|0.64|3.4|||Chi-squared|||The statistical analyses used data from all follow up assessments.||3.40|0.64|0.36
82512384|NCT01032135|164717309|OTHER||Odds Ratio (OR)|-0.13||||0.75|TWO_SIDED|95.0|-0.94|0.6|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.60|-0.94|0.75
82512385|NCT01032135|164717309|OTHER||Odds Ratio (OR)|-0.84||||0.16|TWO_SIDED|95.0|-1.98|0.3|||Chi-squared|||The statistical analyses used data from all follow up assessments.||0.30|-1.98|0.16
82512386|NCT01032135|164717309|OTHER||Odds Ratio (OR)|0.6||||0.42|TWO_SIDED|95.0|-0.85|2.04|||Chi-squared|||The statistical analyses used data from all follow up assessments.||2.04|-0.85|0.42
82569158|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.006|0.086|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||0.086|0.006|
82512387|NCT01868633|164717311|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82512388|NCT04733157|164717370|OTHER||Risk Ratio (RR)|0.87|STANDARD_ERROR_OF_MEAN|0.1||0.33|TWO_SIDED|95.0|0.69|1.09||Threshold for statistical significance was 0.05|Chi-squared|||||1.09|0.69|0.33
82512389|NCT03551210|164717400|NON_INFERIORITY|The non-inferiority bound was designated at the level of -15%|Difference in percentage|6.1|||||TWO_SIDED|95.0|-0.7|13.0||||||||13.0|-0.7|
82512390|NCT03551210|164717400|OTHER||Odds Ratio (OR)|1.45|||=|0.499|TWO_SIDED|95.0|0.49|4.29|||Regression, Logistic|||||4.29|0.49|=0.499
82512391|NCT03551210|164717401|OTHER||Difference in percentage|4.3|||=|0.08|TWO_SIDED|95.0|-0.6|9.7|||Barnard's test|||Visit 2||9.7|-0.6|=0.08
82512392|NCT03551210|164717401|OTHER||Difference in percentage|3.7|||=|0.246|TWO_SIDED|95.0|-2.0|9.8|||Barnard's test|||Visit 3||9.8|-2.0|=0.246
82512393|NCT03551210|164717402|OTHER||||||=|0.154|||||||Barnard test|||||||=0.154
82569159|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.025|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||0.055|-0.025|
82569160|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.04|0.117|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||0.117|0.040|
82569161|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.06|0.137|||Mixed Models Analysis||difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||0.137|0.060|
82569162|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.08|0.157|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||0.157|0.080|
82512394|NCT03551210|164717403|OTHER||||||=|0.14|||||||Log Rank|||||||=0.14
82512395|NCT03551210|164717404|OTHER||||||=|0.26|||||||Barnard test|||||||=0.26
82512396|NCT03551210|164717405|OTHER||||||=|0.14||||||Visit 2 assessment|Barnard's test|||||||=0.14
82512397|NCT03551210|164717405|OTHER|||||||0.515||||||Visit 3 assessment|Barnard's test|||||||0.515
82512398|NCT03551210|164717405|OTHER|||||||0.515||||||Visit 4 assessment|Barnard's test|||||||0.515
82512399|NCT04524403|164717423|SUPERIORITY||Least Squares Mean Difference|0.24||||0.787|TWO_SIDED|95.0|-1.52|2.01|||Mixed Models Analysis|||||2.01|-1.52|0.7870
82512400|NCT04524403|164717423|SUPERIORITY||Least Squares Mean Difference|0.75||||0.4018|TWO_SIDED|95.0|-1.01|2.51|||Mixed Models Analysis|||||2.51|-1.01|0.4018
82512401|NCT04524403|164717424|SUPERIORITY||Least Squares Mean Difference|0.5||||0.5228|TWO_SIDED|95.0|-1.03|2.02|||Mixed Models Analysis|||||2.02|-1.03|0.5228
82512402|NCT04524403|164717425|SUPERIORITY||Odds Ratio (OR)|1.781||||0.2537|TWO_SIDED|95.0|0.661|4.802|||Regression, Logistic|||||4.802|0.661|0.2537
82512403|NCT04524403|164717425|SUPERIORITY||Odds Ratio (OR)|0.916||||0.874|TWO_SIDED|95.0|0.308|2.722|||Regression, Logistic|||||2.722|0.308|0.8740
82512404|NCT04524403|164717426|SUPERIORITY||Least Squares Mean Difference|0.0||||0.987|TWO_SIDED|95.0|-0.021|0.021|||Mixed Models Analysis|||||0.021|-0.021|0.9870
82512405|NCT04524403|164717426|SUPERIORITY||Least Squares Mean Difference|0.008||||0.4624|TWO_SIDED|95.0|-0.013|0.029|||Mixed Models Analysis|||||0.029|-0.013|0.4624
82512406|NCT00436280|164717456|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.512|||||TWO_SIDED|95.0|0.217|1.206|||||Comparing GCB versus non-GCB|Comparing GCB versus non-GCB||1.206|0.217|
82512407|NCT00436280|164717457|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878|||||TWO_SIDED|95.0|0.388|1.989|||||Comparing High Expression versus Low Expression|Comparing High Expression versus Low Expression||1.989|0.388|
82569163|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|-0.018|0.058|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||0.058|-0.018|
82569164|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.001|0.079|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||0.079|0.001|
82569165|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.019|0.058|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||0.058|-0.019|
82512408|NCT02002767|164717483|OTHER||Geometric Least Squares Mean(GLSM) Ratio|149.05|||||TWO_SIDED|90.0|116.62|190.49||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||190.49|116.62|
82512409|NCT02002767|164717484|OTHER||GLSM Ratio|149.9|||||TWO_SIDED|90.0|116.97|192.11||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||192.11|116.97|
82512410|NCT02002767|164717485|OTHER||GLSM Ratio|110.85|||||TWO_SIDED|90.0|90.76|135.38||||||A sample size of 8 evaluable participants in each renal function group (normal and severely impaired) will provide at least 80% power to reject the null hypothesis that participants with severe renal impairment have a minimum increase of 100% in AUC0-last, AUCinf, or Cmax of velpatasvir compared to participants with normal renal function.||135.38|90.76|
82512411|NCT00812929|164717489|SUPERIORITY||Mean Difference (Net)|1.29|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|-1.56|4.13||||||||4.13|-1.56|
82512412|NCT00812929|164717489|SUPERIORITY||Mean Difference (Net)|0.53|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|-2.32|3.37||||||||3.37|-2.32|
82512413|NCT00812929|164717489|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|1.441|||TWO_SIDED|95.0|-2.52|3.18||||||||3.18|-2.52|
82512414|NCT00812929|164717489|SUPERIORITY||Mean Difference (Net)|2.53|STANDARD_ERROR_OF_MEAN|1.438|||TWO_SIDED|95.0|-0.31|5.37||||||||5.37|-0.31|
82512415|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|1.638|||TWO_SIDED|95.0|-0.72|5.75||||||2 Hours||5.75|-0.72|
82512416|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|1.247|||TWO_SIDED|95.0|-2.34|2.58||||||9.5 Hours||2.58|-2.34|
82512417|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|2.6|STANDARD_ERROR_OF_MEAN|1.637|||TWO_SIDED|95.0|-0.64|5.84||||||2 Hours||5.84|-0.64|
82512418|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|1.247|||TWO_SIDED|95.0|-1.7|3.22||||||9.5 Hours||3.22|-1.70|
82512419|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|1.639|||TWO_SIDED|95.0|-0.45|6.03||||||2 Hours||6.03|-0.45|
82512420|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|3.49|STANDARD_ERROR_OF_MEAN|1.248|||TWO_SIDED|95.0|1.02|5.95||||||9.5 Hours||5.95|1.02|
82512421|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|6.3|STANDARD_ERROR_OF_MEAN|1.637|||TWO_SIDED|95.0|3.06|9.54||||||2 Hours||9.54|3.06|
82512422|NCT00812929|164717490|SUPERIORITY||Mean Difference (Net)|2.27|STANDARD_ERROR_OF_MEAN|1.245|||TWO_SIDED|95.0|-0.19|4.73||||||9.5 Hours||4.73|-0.19|
82379370|NCT02854527|164467905|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R3) (%)|97.5|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|93.58|101.58|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R3 were back transformed to original scale to get adjusted gMean ratio (T/R3) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R3.||101.58|93.58|
82512423|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-1.37|3.25|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.25|-1.37|
82512424|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.878|||TWO_SIDED|95.0|-1.66|1.8|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||1.80|-1.66|
82633536|NCT00242710|164983215|SUPERIORITY_OR_OTHER||LS Mean Difference|2.46|||<|0.001|TWO_SIDED|95.0|1.69|3.23|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.23|1.69|<0.001
82633537|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.373|TWO_SIDED|95.0|-0.8|2.12|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.12|-0.80|0.373
82633538|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.738|TWO_SIDED|95.0|-1.7|2.4|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.40|-1.70|0.738
82633539|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.539|TWO_SIDED|95.0|-1.41|2.71|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.71|-1.41|0.539
82633540|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09||||0.233|TWO_SIDED|95.0|-0.71|2.9|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.90|-0.71|0.233
82633541|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.605|TWO_SIDED|95.0|-1.39|2.39|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.39|-1.39|0.605
82633542|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.23||||0.305|TWO_SIDED|95.0|-1.12|3.57|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.57|-1.12|0.305
82633543|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22||||0.299|TWO_SIDED|95.0|-1.08|3.52|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.52|-1.08|0.299
82633544|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62||||0.092|TWO_SIDED|95.0|-0.27|3.51|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.51|-0.27|0.092
82633545|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55||||0.08|TWO_SIDED|95.0|-0.18|3.29|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.29|-0.18|0.080
82633546|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04||||0.279|TWO_SIDED|95.0|-0.85|2.92|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.92|-0.85|0.279
82633547|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.13||||0.26|TWO_SIDED|95.0|-0.84|3.11|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.11|-0.84|0.260
82633548|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.618|TWO_SIDED|95.0|-1.5|2.52|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.52|-1.50|0.618
82633549|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.81|TWO_SIDED|95.0|-3.78|2.96|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.96|-3.78|0.810
82633550|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.654|TWO_SIDED|95.0|-1.14|1.81|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.81|-1.14|0.654
82633551|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.834|TWO_SIDED|95.0|-1.84|2.28|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.28|-1.84|0.834
82633552|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.744|TWO_SIDED|95.0|-2.41|1.72|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.72|-2.41|0.744
82379371|NCT02854527|164467906|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric mean ratio (T/R4) (%)|107.63|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|97.04|119.39|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects: 'sequence', 'subject within sequence', 'period' and 'treatment'.|Least square estimates of log-transformed PK endpoint for T and R4 were back transformed to original scale to get adjusted gMean ratio (T/R4) and its 2-sided 90% CI. Standard deviation is intra-individual geometric coefficient of variation (%).|This statistical analysis assess the effect of the other cocktail compounds in treatment T on the secondary outcome measure of treatment R4.||119.39|97.04|
82512425|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-0.82|2.63|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||2.63|-0.82|
82633553|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.909|TWO_SIDED|95.0|-1.7|1.91|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.91|-1.70|0.909
82633554|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.963|TWO_SIDED|95.0|-1.94|1.85|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.85|-1.94|0.963
82633555|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.625|TWO_SIDED|95.0|-1.77|2.94|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.94|-1.77|0.625
82633556|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.947|TWO_SIDED|95.0|-2.39|2.23|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.23|-2.39|0.947
82633557|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.505|TWO_SIDED|95.0|-1.25|2.53|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.53|-1.25|0.505
82633558|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.564|TWO_SIDED|95.0|-1.23|2.25|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.25|-1.23|0.564
82633559|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.739|TWO_SIDED|95.0|-2.21|1.57|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.57|-2.21|0.739
82633560|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.766|TWO_SIDED|95.0|-2.27|1.67|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||1.67|-2.27|0.766
82633561|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.931|TWO_SIDED|95.0|-1.92|2.1|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||2.10|-1.92|0.931
82633562|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.911|TWO_SIDED|95.0|-3.17|3.56|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.56|-3.17|0.911
82633563|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.003|TWO_SIDED|95.0|0.92|4.3|||ANCOVA|||Week 1-4: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||4.30|0.92|0.003
82633564|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|4.18|||<|0.001|TWO_SIDED|95.0|1.79|6.58|||ANCOVA|||Week 5-8: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.58|1.79|<0.001
82512426|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|1.12|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|-1.19|3.43|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.43|-1.19|
82512427|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|1.22|STANDARD_ERROR_OF_MEAN|0.878|||TWO_SIDED|95.0|-0.51|2.95|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||2.95|-0.51|
82512428|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.873|||TWO_SIDED|95.0|-1.55|1.9|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||1.90|-1.55|
82379372|NCT04927845|164467907|SUPERIORITY||between-group effect size Cohen's d|0.24||||0.008|TWO_SIDED|95.0|0.06|0.41|||linear mixed effects, groupXtime term|||||0.41|0.06|.008
82512429|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|1.51|STANDARD_ERROR_OF_MEAN|1.171|||TWO_SIDED|95.0|-0.8|3.82|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||3.82|-0.80|
82512430|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|0.879|||TWO_SIDED|95.0|1.57|5.03|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||5.03|1.57|
82512431|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.874|||TWO_SIDED|95.0|-1.83|1.62|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||1.62|-1.83|
82569166|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.06|0.136|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||0.136|0.060|
82379373|NCT04927845|164467907|SUPERIORITY||Slope|1.75||||0.03|TWO_SIDED||||||linear mixed effects, groupXtime term|||Per Protocol Analyses of Intervention Effects: comparing the waitlist condition versus only intervention group participants who were program initiators||||.03
82512432|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|3.17|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|95.0|0.86|5.48|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|2 Hours||5.48|0.86|
82512433|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|0.877|||TWO_SIDED|95.0|0.38|3.84|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|9.5 Hours||3.84|0.38|
82512434|NCT00812929|164717491|SUPERIORITY||Mean Difference (Net)|1.72|STANDARD_ERROR_OF_MEAN|0.872|||TWO_SIDED|95.0|0.0|3.44|||||Estimates and 95% confidence intervals for treatment difference between each active dose and placebo for each challenge time point were calculated.|24 Hours||3.44|-0.00|
82512435|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.71|2.21|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||2.21|0.71|
82512436|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.59|2.06|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||2.06|0.59|
82512437|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.78|||||TWO_SIDED|95.0|0.93|3.43|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.43|0.93|
82512438|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.81|2.48|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||2.48|0.81|
82512439|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.93|||||TWO_SIDED|95.0|1.01|3.66|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||3.66|1.01|
82512440|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.86|3.25|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.25|0.86|
82512441|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|1.19|3.69|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||3.69|1.19|
82512442|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|5.49|||||TWO_SIDED|95.0|2.75|10.94|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||10.94|2.75|
82512443|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|1.91|||||TWO_SIDED|95.0|1.0|3.64|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||3.64|1.00|
82633565|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.45||||0.005|TWO_SIDED|95.0|1.03|5.86|||ANCOVA|||Week 9-12: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.86|1.03|0.005
82512444|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|3.6|||||TWO_SIDED|95.0|2.0|6.48|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|2 Hours||6.48|2.00|
82512445|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|2.03|||||TWO_SIDED|95.0|1.07|3.87|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|9.5 Hours||3.87|1.07|
82512446|NCT00812929|164717492|SUPERIORITY||Hazard Ratio (HR)|6.07|||||TWO_SIDED|95.0|2.9|12.71|||||Hazard ratio = ratio of likelihood of recovery at any time on active treatment vs placebo|24 Hours||12.71|2.90|
82512447|NCT02214147|164717520|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|1.42|||||TWO_SIDED|90.0|1.12|1.8|||||Least Squares Geometric Means Ratio= Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||1.80|1.12|
82512448|NCT02214147|164717521|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|3.21|||||TWO_SIDED|90.0|2.33|4.43|||||Least Squares Geometric Mean Ratio=Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||4.43|2.33|
82512449|NCT02214147|164717522|OTHER|The effect of hepatic impairment on alisertib PK. Combined analysis of moderate and severe hepatic impairment in reference to normal hepatic function.|Least Squares Geometric Mean Ratio|2.54|||||TWO_SIDED|90.0|1.84|3.53|||||Least Squares Geometric Mean Ratio=Moderate + Severe Hepatic Impairment/Normal Hepatic Function|||3.53|1.84|
82512450|NCT04875520|164717550|NON_INFERIORITY|Overall rate compared using GEE model includes any person affiliated with the school who tested positive at least once during the study period that the schools reported to us that were positive. This includes people in our testing program and not in our testing program.|Mean Difference (Final Values)|-0.01845||||0.25|TWO_SIDED|95.0|-0.04981|0.01292|||generalized estimating equations|||||0.01292|-0.04981|0.25
82512451|NCT04456699|164717570|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.9774|TWO_SIDED|95.0|1.0|1.97|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.97|1.00|0.9774
82512452|NCT04456699|164717570|SUPERIORITY||Hazard Ratio (HR)|1.75||||0.9993|TWO_SIDED|95.0|1.23|2.49|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||2.49|1.23|0.9993
82512453|NCT04456699|164717571|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1527|TWO_SIDED|95.0|0.54|1.21|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.21|0.54|0.1527
82633566|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.15||||0.004|TWO_SIDED|95.0|1.01|5.3|||ANCOVA|||Week 13-16: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.30|1.01|0.004
82633567|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.023|TWO_SIDED|95.0|0.36|4.87|||ANCOVA|||Week 17-20: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||4.87|0.36|0.023
82633568|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75||||0.008|TWO_SIDED|95.0|0.96|6.54|||ANCOVA|||Week 21-24: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.54|0.96|0.008
82512454|NCT04456699|164717571|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.2491|TWO_SIDED|95.0|0.59|1.3|||Log Rank|One-sided p-value based on log-rank test stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior FOLFOX/CAPOX + Bev induction response, number of induction cycles and mutation status.|||1.30|0.59|0.2491
82633569|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.52||||0.012|TWO_SIDED|95.0|0.78|6.26|||ANCOVA|||Week 25-28: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.26|0.78|0.012
82633570|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.81|||<|0.001|TWO_SIDED|95.0|1.55|6.07|||ANCOVA|||Week 29-32: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||6.07|1.55|<0.001
82633571|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75|||<|0.001|TWO_SIDED|95.0|1.68|5.83|||ANCOVA|||Week 33-36: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.83|1.68|<0.001
82633572|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.004|TWO_SIDED|95.0|1.05|5.54|||ANCOVA|||Week 37-40: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||5.54|1.05|0.004
82633573|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63||||0.175|TWO_SIDED|95.0|-0.73|3.99|||ANCOVA|||Week 41-44: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.99|-0.73|0.175
82633574|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|1.35||||0.27|TWO_SIDED|95.0|-1.05|3.75|||ANCOVA|||Week 45-48: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||3.75|-1.05|0.270
82633575|NCT00242710|164983216|SUPERIORITY_OR_OTHER||LS Mean Difference|3.78||||0.077|TWO_SIDED|95.0|-0.41|7.97|||ANCOVA|||Week 49-52: An ANCOVA model was used with treatment, center as factors, and baseline as the covariate.||7.97|-0.41|0.077
82633576|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.826|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.826
82633577|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.534|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.534
82633578|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||1.000
82633579|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.516|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.516
82633580|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.446
82633581|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.218
82633582|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||1.000
82569167|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.083|0.159|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||0.159|0.083|
82633583|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||1.000
82633584|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.733
82633585|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.736|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.736
82633586|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.449
82633587|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.489|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.489
82633588|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.163|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.163
82633589|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.813|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||0.813
82633590|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.777|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||0.777
82633591|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.448|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||0.448
82633592|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.507|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||0.507
82633593|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.669|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||0.669
82633594|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.281|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||0.281
82633595|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.689
82633596|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.437|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||0.437
82633597|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||1.000
82633598|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||1.000
82633599|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.227
82633600|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.758
82633601|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.554
82633602|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 1-4: The Fisher exact test was used for comparisons between groups.||||<0.001
82512455|NCT04456699|164717572|SUPERIORITY||Difference in Percentage|-0.2||||0.5272|TWO_SIDED|95.0|-7.0|6.5|||Miettinen and Nurminen|Based on stratified Miettinen \& Nurminen method. One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by prior FOLFOX/CAPOX + Bev induction response, cycles and mutation status.|||6.5|-7.0|0.5272
82512456|NCT04456699|164717572|SUPERIORITY||Difference in Percentage|-3.2||||0.902|TWO_SIDED|95.0|-9.7|2.3|||Miettinen & Nurminen|Based on stratified Miettinen \& Nurminen method. One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by prior FOLFOX/CAPOX + Bev induction response, cycles and mutation status.|||2.3|-9.7|0.9020
82512457|NCT04452188|164717587|EQUIVALENCE|Prior studies suggest a 25-50% reduction in oxidative stress in normoxia relative to supra-physiologic oxygen. A 20% difference was considered clinically meaningful, and a sample size of 42 total participants was anticipated to achieve at least 80% power with a two-sided 5% significance level. However, an interim analysis recommended by the DSMB after enrollment of 29 patients revealed a significant difference in the primary outcome between the groups, and enrollment was thus stopped.|||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||Each participant's post-operative samples were normalized to their baseline sample and described as a fold-of-change from baseline.||||<0.01
82512458|NCT04452188|164717589|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the post-operative length of stay between the two groups.||||0.66
82512459|NCT04452188|164717590|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test was used to compare the days alive and out of ICU at 30 days since surgery between the two groups||||0.66
82379374|NCT04927845|164467907|SUPERIORITY|||||||0.009|||||||linear mixed effects, groupXtime term|||Per Protocol Analyses of Intervention Effects: concurrent service use was added as a covariate to models.||||.009
82512460|NCT04452188|164717591|OTHER|||||||1|||||||Fisher Exact|||||||1.00
82512461|NCT04452188|164717592|OTHER|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
82512462|NCT04452188|164717593|OTHER||||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.01
82512463|NCT04452188|164717594|OTHER||||||<|0.01||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.01
82512464|NCT04452188|164717595|OTHER||||||<|0.1||||||To provide a more conservative estimate of significance, the Hochberg sequential procedure was used for adjustment of multiple comparisons in the serum biomarker data including the primary outcome.|t-test, 2 sided|||||||<0.1
82512465|NCT00261716|164717596|SUPERIORITY_OR_OTHER|||||||0.33|||||||Chi-squared|1 degree of freedom||Intent to treat analysis||||.33
82512466|NCT00261716|164717597|SUPERIORITY_OR_OTHER|||||||0.75|||||||t-test, 2 sided|degrees of freedom=36||intent to treat analysis||||.75
82512467|NCT00261716|164717598|SUPERIORITY_OR_OTHER|||||||0.41|||||||t-test, 2 sided|degrees of freedom=17||||||.41
82379375|NCT04927845|164467908|SUPERIORITY||between-group effect size Cohen's d|0.11||||0.21|TWO_SIDED||||||linear mixed effects, groupXtime term|||||||.21
82379376|NCT04927845|164467909|SUPERIORITY||between-group effect size Cohen's d|0.19||||0.046|TWO_SIDED|95.0|0.02|0.36|||linear mixed effects, groupXtime term|||||0.36|0.02|.046
82379377|NCT01682811|164467911|OTHER|||||||0.0001|||||||t-test, 1 sided|||One-sample t-test comparing the absolute value to an alternate expected value of zero.||||0.0001
82379378|NCT01682811|164467914|OTHER|||||||0.24|||||||t-test, 2 sided|||Paired comparisons between treated and placebo lesions within subject.||||0.24
82633603|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 5-8: The Fisher exact test was used for comparisons between groups.||||<0.001
82633604|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 9-12: The Fisher exact test was used for comparisons between groups.||||<0.001
82633605|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 13-16: The Fisher exact test was used for comparisons between groups.||||<0.001
82633606|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 17-20: The Fisher exact test was used for comparisons between groups.||||<0.001
82633607|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 21-24: The Fisher exact test was used for comparisons between groups.||||<0.001
82633608|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Fisher Exact|||Week 25-28: The Fisher exact test was used for comparisons between groups.||||0.008
82633609|NCT00242710|164983217|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Week 29-32: The Fisher exact test was used for comparisons between groups.||||<0.001
82633610|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Fisher Exact|||Week 33-36: The Fisher exact test was used for comparisons between groups.||||0.005
82633611|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Fisher Exact|||Week 37-40: The Fisher exact test was used for comparisons between groups.||||0.008
82633612|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Fisher Exact|||Week 41-44: The Fisher exact test was used for comparisons between groups.||||0.062
82633613|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|||Week 45-48: The Fisher exact test was used for comparisons between groups.||||0.007
82633614|NCT00242710|164983217|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Week 49-52: The Fisher exact test was used for comparisons between groups.||||0.029
82633615|NCT00242710|164983219|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|||<|0.001|TWO_SIDED|95.0|1.92|4.58|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.58|1.92|<0.001
82633616|NCT00242710|164983219|SUPERIORITY_OR_OTHER||LS Mean Difference|3.14|||<|0.001|TWO_SIDED|95.0|1.83|4.46|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||4.46|1.83|<0.001
82633617|NCT00242710|164983219|SUPERIORITY_OR_OTHER||LS Mean Difference|4.68|||<|0.001|TWO_SIDED|95.0|3.13|6.23|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||6.23|3.13|<0.001
82633618|NCT00242710|164983220|SUPERIORITY_OR_OTHER||LS Mean Difference|1.83|||<|0.001|TWO_SIDED|95.0|0.8|2.87|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.87|0.80|<0.001
82633619|NCT00242710|164983220|SUPERIORITY_OR_OTHER||LS Mean Difference|1.94|||<|0.001|TWO_SIDED|95.0|0.92|2.97|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||2.97|0.92|<0.001
82633620|NCT00242710|164983220|SUPERIORITY_OR_OTHER||LS Mean Difference|2.38|||<|0.001|TWO_SIDED|95.0|1.17|3.59|||ANCOVA|||An ANCOVA model was used with treatment and center as main effects and baseline BMD and years since menopause as covariates.||3.59|1.17|<0.001
82512468|NCT00261716|164717599|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|Fishers exact= 1.0; one degree of freedom||intent to treat --all participants who obtained at least one job||||>.05
82512469|NCT00261716|164717599|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>.05
82633621|NCT02364999|164983230|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk difference for confirmed response. EU equivalence margins (95% CI in -13% to 13%).|Risk Difference (RD)|0.6531|||||TWO_SIDED|95.0|-6.608|7.9082|||||PF-06439535 vs Bevacizumab-EU|||7.9082|-6.6080|
82633622|NCT02364999|164983230|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk ratio for confirmed response. US equivalence margins (90% CI in 0.73 to 1.37).|Risk Ratio (RR)|1.0146|||||TWO_SIDED|90.0|0.8856|1.1625|||||PF-06439535 vs Bevacizumab-EU|||1.1625|0.8856|
82379379|NCT01682811|164467917|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82379380|NCT05287230|164467921|OTHER|||||||0.061||||||A priori threshold for statistical significance is p\<0.05.|ANOVA|||||||0.061
82512470|NCT00261716|164717600|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mixed Models Analysis|employment status effect- F(1,12)=..85||Intent to treat analysis||||.37
82512471|NCT00261716|164717600|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|time effect F(1,54)=.2.05||||||.16
82512472|NCT00261716|164717600|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mixed Models Analysis|employment status X time effect F (1,54)=.. 24||||||.63
82633623|NCT02364999|164983230|EQUIVALENCE|Calculated based on 2-sided Miettinen and Nurminen method without strata for risk ratio for confirmed response. Japan equivalence margins (95% CI in 0.729 to 1.371).|Risk Ratio (RR)|1.0146|||||TWO_SIDED|95.0|0.8628|1.1933|||||PF-06439535 vs Bevacizumab-EU|||1.1933|0.8628|
82633624|NCT02364999|164983233|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.8||||0.1077|TWO_SIDED|95.0|0.608|1.051|||Log Rank|Stratified by smoking, sex and region.||||1.051|0.608|0.1077
82633625|NCT02364999|164983234|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.931||||0.4492||95.0|0.777|1.116|||Log Rank|Stratified by smoking, sex and region.||||1.116|0.777|0.4492
82379381|NCT05525520|164467952|EQUIVALENCE|two-sided equivalence test|Least square mean difference (LSMD)|0.46|STANDARD_ERROR_OF_MEAN|0.609||0.4577|TWO_SIDED|95.0|-0.77|1.68|||MMRM|Treatment, type of cholestatic disease, week, and treatment-by-week interaction were fixed effects, and Baseline WI-NRS score was a covariate.|LSMD=EP547 minus placebo|||1.68|-0.77|0.4577
82512473|NCT00261716|164717601|SUPERIORITY_OR_OTHER|||||||0.62|||||||Mixed Models Analysis|employment status effect F(1,12)=.26||intent to treat analysis||||.62
82633626|NCT02364999|164983235|OTHER|Hazard ratio of PF-06439535 versus Bevacizumab-EU; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in PF-06439535; \<1 indicated an increase in PD/death in bevacizumab-EU.|Hazard Ratio (HR)|0.918||||0.4726|TWO_SIDED|95.0|0.729|1.157|||Log Rank|Stratified by smoking, sex and region.||||1.157|0.729|0.4726
82379382|NCT05878093|164467970|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.53|-1.15|||ANCOVA||Data was analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-1.15|-2.53|<0.0001
82379383|NCT05878093|164467971|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-0.54||||0.0126|TWO_SIDED|95.0|-0.97|-0.12|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.12|-0.97|0.0126
82379384|NCT05878093|164467972|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-1.68||||0.0008|TWO_SIDED|95.0|-2.67|-0.69|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.69|-2.67|0.0008
82379385|NCT05878093|164467973|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-0.62||||0.0072|TWO_SIDED|95.0|-1.08|-0.17|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-0.17|-1.08|0.0072
82379386|NCT05878093|164467974|SUPERIORITY|A hierarchical procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least square mean difference|-9.52||||0.0104|TWO_SIDED|95.0|-16.81|-2.24|||ANCOVA||Data was analyzed by fitting an ANCOVA model with the corresponding baseline value, treatment group, and screening blood eosinophil count strata as covariates.|||-2.24|-16.81|0.0104
82379387|NCT04479852|164467991|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.133|TWO_SIDED|95.0|-4.1|0.5|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||0.5|-4.1|0.133
82379388|NCT04479852|164467992|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.059|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||0.0|-0.5|0.059
82379389|NCT04479852|164467993|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.159|TWO_SIDED|95.0|-2.7|0.4|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in HAM-D score from baseline.|||0.4|-2.7|0.159
82379390|NCT04479852|164467994|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.188|TWO_SIDED|95.0|-2.5|0.5|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in SDS score from baseline.|||0.5|-2.5|0.188
82512474|NCT00261716|164717601|SUPERIORITY_OR_OTHER|||||||0.65|||||||Mixed Models Analysis|time effect F (1,58)=.21 ,.||||||.65
82512475|NCT00261716|164717601|SUPERIORITY_OR_OTHER|||||||0.81|||||||Mixed Models Analysis|employment status X time effect F(1,58)=.06||||||.81
82512476|NCT00261716|164717602|SUPERIORITY_OR_OTHER|||||||0.19|||||||Mixed Models Analysis|employment status effect F(1,12)=1.95,||Intent to treat analysis||||.19
82512477|NCT00261716|164717602|SUPERIORITY_OR_OTHER|||||||0.09|||||||Mixed Models Analysis|time effect (1.54)=2.99,||||||.09
82512478|NCT00261716|164717602|SUPERIORITY_OR_OTHER|||||||0.39|||||||Mixed Models Analysis|employment status X time effect (F(1,54)=.74||||||.39
82512479|NCT00128180|164717603|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
82379391|NCT04479852|164467995|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.091|TWO_SIDED|95.0|-2.0|0.2|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in QIDS score from baseline.|||0.2|-2.0|0.091
82379392|NCT04479852|164467996|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.243|TWO_SIDED|95.0|-1.2|4.6|||Mixed Models Analysis||A positive difference favors the SP-624 treatment group, i.e., a greater increase in Q-LES-Q score from baseline.|||4.6|-1.2|0.243
82379393|NCT04479852|164467997|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.008|TWO_SIDED|95.0|-6.8|-1.0|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||-1.0|-6.8|.008
82379394|NCT04479852|164467998|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.8|-0.1|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||-0.1|-0.8|0.006
82379395|NCT04479852|164467999|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.134|TWO_SIDED|95.0|-0.8|6.3|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in MADRS score from baseline.|||6.3|-0.8|0.134
82379396|NCT04479852|164468000|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.437|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis||A negative difference favors the SP-624 treatment group, i.e., a greater reduction in CGI-S score from baseline.|||0.6|-0.3|0.437
82379397|NCT04100018|164468004|SUPERIORITY||Cox Proportional Hazard|0.96||||0.5901|TWO_SIDED|99.0|0.77|1.19||Boundary for statistical significance p-value \< 0.01|Log Rank|Stratification factor is visceral disease (YES vs NO) as entered in the IRT.||||1.19|0.77|0.5901
82569168|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.105|0.182|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||0.182|0.105|
82569169|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.016|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||0.062|-0.016|
82633627|NCT00702949|164983265|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparing the median numerical change from baseline on hot flash score for Pregabalin 150 Mg with the Placebo.||||0.007
82633628|NCT00702949|164983268|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparing the median numerical change from baseline on hot flash score for Pregabalin 75 Mg with the Placebo.||||0.002
82379398|NCT04100018|164468005|SUPERIORITY||Cox Proportional Hazard|1.09||||0.3572|TWO_SIDED|99.41|0.84|1.43||Boundary for statistical significance p-value \< 0.0059. Additional accuracy for p-value: 0.005866.|Log Rank||Stratification factor is visceral disease (YES vs NO) as entered in the IRT.|||1.43|0.84|0.3572
82633629|NCT00702949|164983269|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparing the median percent change from baseline on hot flash score for Pregabalin 75 Mg with the Placebo.||||0.009
82633630|NCT00702949|164983271|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparing the median percent change from baseline on hot flash score for Pregabalin 150 Mg with the Placebo.||||0.007
82633631|NCT00542425|164983309|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||Study size provided 95 percent power to detect a difference in means of 114 (ng/mL) for PINP endpoint between BA058 (SD=147.5) and placebo (SD=34.5). Study size was based on Bauer 2006 data and utilized a 2-tailed 2-sample t-test with a significance level of alpha=0.01 with a Bonferonni adjustment for multiple testing. It included a 10 percent adjustment for within study dropouts over 6 months and a 15 percent adjustment to maintain adequate power for a per protocol analysis of key endpoints.||||<0.001
82633632|NCT00542425|164983309|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||Study size provided 95 percent power to detect a difference in means of 114 (ng/mL) for PINP endpoint between BA058 (SD=147.5) and placebo (SD=34.5). Study size was based on Bauer 2006 data and utilized a 2-tailed 2-sample t-test with a significance level of alpha=0.01 with a Bonferonni adjustment for multiple testing. It included a 10 percent adjustment for within study dropouts over 6 months and a 15 percent adjustment to maintain adequate power for a per protocol analysis of key endpoints.||||<0.001
82633633|NCT00542425|164983310|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||For the BMD endpoint, the planned study size has 80 percent power with alpha=0.02 to detect a difference in mean change from baseline of 3.0 (percent) in BMD for the BA058 group and the BA058 Placebo group using an assumed SD of 3.5-4.0. The estimates for SD are based upon results of lumbar spine BMD presented by Body 2002.||||<0.001
82633634|NCT00542425|164983310|SUPERIORITY_OR_OTHER||||||<|0.001||0.0|||||ANOVA|||For the BMD endpoint, the planned study size has 80 percent power with alpha=0.02 to detect a difference in mean change from baseline of 3.0 (percent) in BMD for the BA058 group and the BA058 Placebo group using an assumed SD of 3.5-4.0. The estimates for SD are based upon results of lumbar spine BMD presented by Body 2002.||||<0.001
82633635|NCT00852761|164983349|SUPERIORITY_OR_OTHER|||||||0.7298||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.7298
82633636|NCT00852761|164983349|SUPERIORITY_OR_OTHER|||||||1||||||This is the result for the Day 8 analysis.|Chi-squared|||||||1.0000
82633637|NCT00852761|164983350|SUPERIORITY_OR_OTHER|||||||0.7298||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.7298
82633638|NCT00852761|164983350|SUPERIORITY_OR_OTHER|||||||0.006||||||This is the result for the Day 8 analysis.|Chi-squared|||||||0.0060
82633639|NCT00852761|164983350|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||This is the result for the Day 15 analysis.|Chi-squared|||||||0.0060
82633640|NCT00852761|164983351|SUPERIORITY_OR_OTHER|||||||0.0332||||||Data apply to Day 15.|Chi-squared|||||||0.0332
82633641|NCT00852761|164983353|SUPERIORITY_OR_OTHER|||||||0.3101||95.0||||This is the result for the Day 3 analysis.|Chi-squared|||||||0.3101
82633642|NCT00852761|164983353|SUPERIORITY_OR_OTHER|||||||0.7242||95.0||||This is the result for the Day 8 analysis.|Chi-squared|||||||0.7242
82633643|NCT00852761|164983353|SUPERIORITY_OR_OTHER|||||||0.0135||||||This is the p value for day 15|Chi-squared|||||||0.0135
82633644|NCT00852761|164983355|SUPERIORITY_OR_OTHER|||||||0.1449||||||P value at day 15.|Chi-squared|||||||0.1449
82633645|NCT00852761|164983355|SUPERIORITY_OR_OTHER|||||||0.1634||||||P value at day 3.|Chi-squared|||||||0.1634
82633646|NCT00852761|164983355|SUPERIORITY_OR_OTHER|||||||0.5454||||||P value at day 8.|Chi-squared|||||||0.5454
82633647|NCT00852761|164983356|SUPERIORITY_OR_OTHER|||||||0.6715||||||This is the p value for day 15.|Chi-squared|||||||0.6715
82633648|NCT00852761|164983356|SUPERIORITY_OR_OTHER|||||||0.7242||||||This is the p value for day 8.|Chi-squared|||||||0.7242
82633649|NCT00852761|164983356|SUPERIORITY_OR_OTHER|||||||0.6715||||||This is the p value for day 3.|Chi-squared|||||||0.6715
82379399|NCT04100018|164468006|SUPERIORITY||Adjusted Difference|3.8|||||TWO_SIDED|95.0|-4.5|12.1|||||Strata adjusted difference in objective response rate based on DerSimonian and Laird method. Stratified by visceral disease (YES vs NO) as entered in the IRT.|||12.1|-4.5|
82633650|NCT00852761|164983357|SUPERIORITY_OR_OTHER|||||||0.4858||||||P value on day 8.|Chi-squared|||||||0.4858
82633651|NCT00852761|164983357|SUPERIORITY_OR_OTHER|||||||0.3001||||||P value on day 15.|Chi-squared|||||||0.3001
82633652|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.9||||0.599|TWO_SIDED|95.0|0.39|2.07||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 100ug/placebo for day 7.|||2.07|0.39|0.599
82633653|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.07||||0.442|TWO_SIDED|95.0|0.43|2.59||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.59|0.43|0.442
82633654|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.68||||0.823|TWO_SIDED|95.0|0.3|1.57||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.57|0.30|0.823
82633655|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.69|TWO_SIDED|95.0|0.33|1.97||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.97|0.33|0.690
82633656|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.75||||0.764|TWO_SIDED|95.0|0.33|1.71||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.71|0.33|0.764
82633657|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.64||||0.841|TWO_SIDED|95.0|0.27|1.56||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.56|0.27|0.841
82633658|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.702|TWO_SIDED|95.0|0.35|1.81||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7.This is the baseline corrected ratio of 100ug/placebo for day 7.|||1.81|0.35|0.702
82633659|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.91||||0.578|TWO_SIDED|95.0|0.33|2.47||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.47|0.33|0.578
82633660|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.71||||0.783|TWO_SIDED|95.0|0.29|1.7||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.70|0.29|0.783
82633661|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.64||||0.797|TWO_SIDED|95.0|0.22|1.87||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.87|0.22|0.797
82633662|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.58||||0.919|TWO_SIDED|95.0|0.27|1.26||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.26|0.27|0.919
82633663|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.55||||0.892|TWO_SIDED|95.0|0.21|1.43||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.43|0.21|0.892
82633664|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.47||||0.86|TWO_SIDED|95.0|0.11|1.93||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 100ug/placebo for day 7.|||1.93|0.11|0.860
82633665|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.05||||0.463|TWO_SIDED|95.0|0.38|2.86||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 100ug/placebo for day 14.|||2.86|0.38|0.463
82633666|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.35||||0.932|TWO_SIDED|95.0|0.09|1.42||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 200ug/placebo for day 7.|||1.42|0.09|0.932
82633667|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.43||||0.952|TWO_SIDED|95.0|0.16|1.17||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 200ug/placebo for day 14.|||1.17|0.16|0.952
82379400|NCT04100018|164468009|SUPERIORITY||Percentage Difference|0.9|||||TWO_SIDED|95.0|-5.2|7.0|||||Strata adjusted difference in objective response rate based on DerSimonian and Laird method. Stratified by visceral disease (YES vs NO) as entered in the IRT.|||7.0|-5.2|
82379401|NCT04100018|164468010|SUPERIORITY||Cox Proportional Hazard|1.0|||||TWO_SIDED|95.0|0.86|1.16|||||Stratification factor is visceral disease (YES vs NO) as entered in the IRT.|||1.16|0.86|
82633668|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.46||||0.873|TWO_SIDED|95.0|0.12|1.81||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 500ug/placebo for day 7.|||1.81|0.12|0.873
82633669|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.43||||0.953|TWO_SIDED|95.0|0.16|1.16||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 500ug/placebo for day 14.|||1.16|0.16|0.953
82633670|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|1.26||||0.281|TWO_SIDED|95.0|0.56|2.82||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||2.82|0.56|0.281
82633671|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.0||||0.5|TWO_SIDED|95.0|0.42|2.35||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||2.35|0.42|0.500
82633672|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.76||||0.744|TWO_SIDED|95.0|0.32|1.77||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||1.77|0.32|0.744
82633673|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.21||||0.334|TWO_SIDED|95.0|0.49|3.04||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||3.04|0.49|0.334
82633674|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.81||||0.698|TWO_SIDED|95.0|0.35|1.85||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL6 concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||1.85|0.35|0.698
82633675|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.18||||0.353|TWO_SIDED|95.0|0.48|2.88||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL6 concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||2.88|0.48|0.353
82633676|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|1.01||||0.489|TWO_SIDED|95.0|0.45|2.26||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||2.26|0.45|0.489
82633677|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.46||||0.94|TWO_SIDED|95.0|0.17|1.23||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||1.23|0.17|0.940
82633678|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.01||||0.495|TWO_SIDED|95.0|0.42|2.4||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||2.40|0.42|0.495
82633679|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.82||||0.647|TWO_SIDED|95.0|0.28|2.37||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||2.37|0.28|0.647
82633680|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.87||||0.646|TWO_SIDED|95.0|0.4|1.86||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of IL8 concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||1.86|0.40|0.646
82633681|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.74||||0.741|TWO_SIDED|95.0|0.29|1.9||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of IL8 concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||1.90|0.29|0.741
82633682|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio9|2.18||||0.109|TWO_SIDED|95.0|0.62|7.95||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 700ug/placebo for day 7.|||7.95|0.62|0.109
82633683|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.37||||0.24|TWO_SIDED|95.0|0.55|3.45||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 700ug/placebo for day 14.|||3.45|0.55|0.240
82633684|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.1||||0.447|TWO_SIDED|95.0|0.27|4.44||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 1000ug/placebo for day 7.|||4.44|0.27|0.447
82633685|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|1.03||||0.472|TWO_SIDED|95.0|0.39|2.74||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 1000ug/placebo for day 14.|||2.74|0.39|0.472
82633686|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.78||||0.698|TWO_SIDED|95.0|0.21|2.9||Posterior Probability the True Treatment Ratio \<1 for Day 7|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 7. This is the baseline corrected ratio of 2000ug/placebo for day 7.|||2.90|0.21|0.698
82633687|NCT02130635|164983403|SUPERIORITY_OR_OTHER||Adjusted Median Ratio|0.53||||0.911|TWO_SIDED|95.0|0.21|1.37||Posterior Probability the True Treatment Ratio \<1 for Day 14|Bayesian repeated measures||Comparison of TNFalpha concentrations at Day 14. This is the baseline corrected ratio of 2000ug/placebo for day 14.|||1.37|0.21|0.911
82379402|NCT01783990|164468101|SUPERIORITY|||||||0.33|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.33
82379403|NCT01783990|164468102|SUPERIORITY|||||||0.8|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.80
82379404|NCT01783990|164468103|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.87
82379405|NCT01783990|164468104|SUPERIORITY|||||||0.28|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.28
82379406|NCT01783990|164468105|SUPERIORITY|||||||0.31|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.31
82379407|NCT01783990|164468106|SUPERIORITY|||||||0.04|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.04
82379408|NCT01038336|164468107|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Chi-squared|||||||0.289
82379409|NCT01038336|164468108|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
82379410|NCT01038336|164468109|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||ANOVA|||||||0.072
82379411|NCT01038336|164468110|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANOVA|||||||0.030
82379412|NCT01038336|164468111|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||ANOVA|||||||0.092
82379413|NCT01038336|164468112|SUPERIORITY_OR_OTHER|||||||0.832|TWO_SIDED||||||ANOVA|||||||0.832
82379414|NCT01038336|164468113|SUPERIORITY_OR_OTHER|||||||0.454|TWO_SIDED||||||ANOVA|||||||0.454
82379415|NCT01038336|164468114|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||ANOVA|||||||0.128
82379416|NCT03503669|164468139|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82379417|NCT03503669|164468140|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
82379418|NCT03503669|164468141|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82379419|NCT03503669|164468142|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82379420|NCT03503669|164468143|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82379421|NCT00970593|164468157|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|95.0|-1.79|0.29||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||0.29|-1.79|
82512480|NCT02047110|164717613|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5||||0.2652|TWO_SIDED|90.0|-12.1|26.6||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||26.6|-12.1|0.2652
82512481|NCT02047110|164717613|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.0||||0.4129|TWO_SIDED|90.0|-15.9|20.8||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||20.8|-15.9|0.4129
82512482|NCT02047110|164717613|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.5||||0.4243|TWO_SIDED|90.0|-21.8|17.0||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the primary endpoint, ASAS 40 response at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|To control the type I error rate, the primary endpoint was tested in a hierarchical fixed sequence approach. The proportion of patients achieving ASAS 40 response at Week 12 was pairwise compared in the following sequence: risankizumab 180 mg vs. placebo (1.) and risankizumab 90 mg vs. placebo (2.). The significance level was 5% (1-sided). The comparison risankizumab 18 mg vs. placebo was not included in the formal testing sequence; an exploratory p-value was provided.||17.0|-21.8|0.4243
82512483|NCT02047110|164717614|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.4||||0.0229|TWO_SIDED|90.0|-0.7|-0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 18 mg minus Placebo."|||-0.1|-0.7|0.0229
82512484|NCT02047110|164717614|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.3||||0.1038|TWO_SIDED|90.0|-0.6|0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 90 mg minus Placebo."|||0.1|-0.6|0.1038
82512485|NCT02047110|164717614|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.5||||0.0101|TWO_SIDED|90.0|-0.7|-0.1||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 180 mg minus Placebo."|||-0.1|-0.7|0.0101
82512486|NCT02047110|164717615|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.0||||0.0238|TWO_SIDED|90.0|-4.6|33.8||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||33.8|-4.6|0.0238
82512487|NCT02047110|164717615|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.1||||0.012|TWO_SIDED|90.0|-0.8|35.3||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||35.3|-0.8|0.0120
82512488|NCT02047110|164717615|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5||||0.0465|TWO_SIDED|90.0|-7.1|31.4||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||31.4|-7.1|0.0465
82569170|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.007|0.084|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||0.084|0.007|
82569171|NCT01040403|164848139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.016|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||0.061|-0.016|
82633688|NCT02608892|164983426|SUPERIORITY|Use of pain management during newborn screening was described using frequency and proportion and expressed as an absolute difference in proportions with 95% confidence interval.|Absolute difference in proportions|-7.4|||||TWO_SIDED|95.0|-26.2|11.5||||||||11.5|-26.2|
82379422|NCT00970593|164468157|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.543|||TWO_SIDED|95.0|-2.98|-0.83||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-0.83|-2.98|
82379423|NCT00970593|164468157|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.15|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|95.0|-3.06|-1.24||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-1.24|-3.06|
82379424|NCT00970593|164468158|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.37|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-3.52|-1.22||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-1.22|-3.52|
82379425|NCT00970593|164468158|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.18|STANDARD_ERROR_OF_MEAN|0.495|||TWO_SIDED|95.0|-4.16|-2.2||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-2.20|-4.16|
82569172|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.058|0.012|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.012|-0.058|
82379426|NCT00970593|164468158|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.14|STANDARD_ERROR_OF_MEAN|0.437|||TWO_SIDED|95.0|-4.01|-2.28||||||The Mixed model used fixed effects of treatment, study day and treatment by study day interaction.||-2.28|-4.01|
82379427|NCT01525329|164468167|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.007|||||||t-test, 2 sided|||||||< 0.007
82379428|NCT01525329|164468167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.080
82379429|NCT01525329|164468168|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82379430|NCT01525329|164468168|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82379431|NCT03749330|164468182|EQUIVALENCE|test of difference between pre and post|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82379432|NCT01690117|164468183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.47|STANDARD_ERROR_OF_MEAN|1.83|<|0.001|TWO_SIDED|95.0|3.82|11.12||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||11.12|3.82|<0.001
82379433|NCT01690117|164468184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.43|STANDARD_ERROR_OF_MEAN|2.21|<|0.05|TWO_SIDED|95.0|1.0|9.86||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||9.86|1.00|<0.05
82379434|NCT01690117|164468185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.99|STANDARD_ERROR_OF_MEAN|1.0|<|0.01|TWO_SIDED|95.0|1.01|4.97||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||4.97|1.01|<0.01
82512489|NCT02047110|164717616|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|90.0|-19.4|19.4|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||19.4|-19.4|
82379435|NCT01690117|164468186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.87||0.06|TWO_SIDED|95.0|-0.05|3.45||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||3.45|-0.05|0.06
82379436|NCT01690117|164468187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|1.22||0.3|TWO_SIDED|95.0|-0.65|2.07||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.07|-0.65|0.30
82379437|NCT01690117|164468188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|1.02||0.24|TWO_SIDED|95.0|-0.66|2.59||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.59|-0.66|0.24
82379438|NCT01690117|164468189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|1.04|<|0.05|TWO_SIDED|95.0|-2.5|1.62||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||1.62|-2.50|<0.05
82379439|NCT01690117|164468190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|8.86||0.88|TWO_SIDED|95.0|-2.63|2.25||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||2.25|-2.63|0.88
82379440|NCT01690117|164468191|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.93|STANDARD_ERROR_OF_MEAN|1.92|<|0.05|TWO_SIDED|95.0|-8.74|-1.11||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-1.11|-8.74|<0.05
82512490|NCT02047110|164717616|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|90.0|-18.3|18.3|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||18.3|-18.3|
82512491|NCT02047110|164717616|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5|||||TWO_SIDED|90.0|-12.1|26.6|||||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|p-values are not presented as they were not meaningful; 3 treatment groups had only a single patient with partial remission.||26.6|-12.1|
82512492|NCT02047110|164717617|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.0||||0.0092|TWO_SIDED|90.0|5.5|43.1||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||43.1|5.5|0.0092
82512493|NCT02047110|164717617|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.3||||0.1243|TWO_SIDED|90.0|-5.9|30.5||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||30.5|-5.9|0.1243
82512494|NCT02047110|164717617|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5||||0.1198|TWO_SIDED|90.0|-7.1|31.4||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 12, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||31.4|-7.1|0.1198
82512495|NCT02047110|164717618|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.4||||0.1241|TWO_SIDED|90.0|-1.0|0.2||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 18 mg minus Placebo."|||0.2|-1.0|0.1241
82512496|NCT02047110|164717618|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|0.3||||0.3033|TWO_SIDED|90.0|-0.5|1.0||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 90 mg minus Placebo."|||1.0|-0.5|0.3033
82512497|NCT02047110|164717618|SUPERIORITY_OR_OTHER||Median estimate by Hodges-Lehmann method|-0.2||||0.3203|TWO_SIDED|90.0|-0.8|0.4||One sided p-value from Wilcoxon rank-sum test|Wilcoxon rank-sum test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Moses method. Difference calculated as risankizumab 180 mg minus Placebo."|||0.4|-0.8|0.3203
82512498|NCT02047110|164717619|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5||||0.2639|TWO_SIDED|90.0|-12.1|26.6||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper-Pearson method. Difference calculated as risankizumab 18 mg minus Placebo."|||26.6|-12.1|0.2639
82569173|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.029|0.04|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.040|-0.029|
82512499|NCT02047110|164717619|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.1||||0.2691|TWO_SIDED|90.0|-10.9|25.7||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups.|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 90 mg minus Placebo."|||25.7|-10.9|0.2691
82512500|NCT02047110|164717619|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.5||||0.4174|TWO_SIDED|90.0|-21.8|17.0||The Suissa-Shuster unconditional exact test was used to test the difference in the proportion of patients achieving the endpoint at Week 24, between treatment groups|Suissa-Shuster unconditional exact test||"The confidence interval for the difference in proportion between the treatment groups was obtained by the Clopper- Pearson method. Difference calculated as risankizumab 180 mg minus Placebo."|||17.0|-21.8|0.4174
82379441|NCT01690117|164468192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-13.31|-3.66||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-3.66|-13.31|<0.001
82512501|NCT03296163|164717620|EQUIVALENCE|"Equivalence analysis was based on the risk ratio (RR) (MB02/EU-approved Avastin) with an equivalence margin predefined \[0.73, 1.36\].~The ORR estimate was stratified using the Cochran-Mantel-Haenszel estimate of the RR and corresponding 2-sided 90% confidence interval (CI)."|Risk Ratio (RR)|0.91|||||TWO_SIDED|90.0|0.78|1.06|||||Direction of comparison is: For RR: MB02/EU-approved Avastin. 95% CI was also calculated: (0.758, 1.092)|||1.060|0.780|
82512502|NCT03296163|164717620|EQUIVALENCE|The ORR estimate was stratified using the Cochran-Mantel-Haenszel estimate of the risk difference (RD) (MB02-EU-approved Avastin) with an equivalence margin predefined \[-12%, 12%\] and corresponding 2-sided 95% CI.|Risk Difference (RD)|-4.02|||||TWO_SIDED|90.0|-10.51|2.47|||||Direction of comparison is: For RD: MB02 - EU-approved Avastin. 95% CI was also calculated: (-11.76, 3.71)|||2.47|-10.51|
82569174|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.034|0.036|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.036|-0.034|
82379442|NCT01690117|164468193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.91|STANDARD_ERROR_OF_MEAN|1.98||0.05|TWO_SIDED|95.0|-7.86|0.04||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||0.04|-7.86|0.05
82569175|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.006|0.063|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.063|-0.006|
82569176|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.011|0.059|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.059|-0.011|
82569177|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.039|0.031|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.031|-0.039|
82569178|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|0.004|0.073|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.073|0.004|
82569179|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.004|0.066|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.066|-0.004|
82569180|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|0.006|0.076|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.076|0.006|
82569181|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.043|0.027|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.027|-0.043|
82569182|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.032|0.037|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.037|-0.032|
82512503|NCT03296163|164717621|OTHER|Hazard ratio of MB02 versus EU-approved Avastin; a hazard ratio =1 indicated no difference in progressive disease(PD)/death between 2 reporting groups; \>1 indicated an increase in PD/death in MB02; \<1 indicated an increase in PD/death in EU-approved Avastin.|Hazard Ratio (HR)|1.187|||||TWO_SIDED|95.0|0.98|1.44||||||||1.44|0.98|
82512504|NCT03296163|164717622|OTHER||Hazard Ratio (HR)|1.108|||||TWO_SIDED|95.0|0.827|1.485||||||||1.485|0.827|
82523725|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.742|TWO_SIDED|95.0|-66.0|93.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 4||93|-66|0.742
82512505|NCT00673452|164717650|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Model: PGI-S = baseline PGI-S + treatment + pooled investigator + visit + treatment-by-visit + baseline-by-visit.||Patients treated with 60-120 mg duloxetine for 12 weeks compared with placebo will show greater improvement in symptoms as assessed by Patient's Global Impressions of Improvement (PGI-I). Sample size determined using 2-sided t-test with significance level of 0.05, and discontinuation rate of 5% without postbaseline data. With 261 patients per arm, study has approximately 85% power to detect treatment group difference of -0.4 points (standard deviation of 1.5) in PGI-I between treatment groups.||||<0.001
82512506|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.19|-0.31||P-value for Worst Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.31|-1.19|<0.001
82569183|NCT01040403|164848140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.018|||TWO_SIDED|95.0|-0.025|0.045|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.045|-0.025|
82512507|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.61||||0.001|TWO_SIDED|95.0|-0.99|-0.24||P-value for Least Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.24|-0.99|0.001
82379443|NCT01690117|164468194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.1||0.91|TWO_SIDED|95.0|-3.96|4.45||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||4.45|-3.96|0.91
82379444|NCT01690117|164468195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|1.47||0.05|TWO_SIDED|95.0|-0.01|5.81||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||5.81|-0.01|0.05
82512508|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.74|||<|0.001|TWO_SIDED|95.0|-1.13|-0.35||P-value for Average Pain Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.35|-1.13|<0.001
82379445|NCT01690117|164468196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|1.91|<|0.05|TWO_SIDED|95.0|0.68|8.33||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||8.33|0.68|<0.05
82379446|NCT01690117|164468197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53|STANDARD_ERROR_OF_MEAN|1.95|<|0.01|TWO_SIDED|95.0|-8.4|-0.65||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||-0.65|-8.40|<0.01
82512509|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.2|-0.31||P-value for Pain Right Now Severity. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.31|-1.20|<0.001
82569184|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.041|0.138|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.138|0.041|
82512510|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.39|-0.49||P-value for General Activity Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.49|-1.39|<0.001
82512511|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.41|-0.49||P-value for Mood Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.49|-1.41|<0.001
82512512|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.24|-0.36||P-value for Walking Ability Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.36|-1.24|<0.001
82569185|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|0.043|0.139|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.139|0.043|
82569186|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.066|0.164|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.164|0.066|
82569187|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.046|0.05|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.050|-0.046|
82569188|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.023|0.074|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.074|-0.023|
82569189|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.025|0.072|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.072|-0.025|
82379447|NCT01690117|164468198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|1.52|<|0.01|TWO_SIDED|95.0|4.78|10.83||The a priori threshold for statistical significance was 0.05. For the secondary outcomes inference statistics were explorative. Therefore the p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||||10.83|4.78|<0.01
82569190|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.059|0.156|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.156|0.059|
82569191|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.084|0.181|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.181|0.084|
82569192|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|0.096|0.193|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.193|0.096|
82569193|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.024|0.074|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.074|-0.024|
82512513|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value for Normal Work Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.21|<0.001
82569194|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.01|0.086|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.086|-0.010|
82569195|NCT01040403|164848141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.025|||TWO_SIDED|95.0|-0.036|0.061|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.061|-0.036|
82569196|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.059|0.02|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.020|-0.059|
82569197|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.026|0.053|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.053|-0.026|
82569198|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.028|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.051|-0.028|
82569199|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.006|0.072|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.072|-0.006|
82569200|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.009|0.071|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.071|-0.009|
82569201|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.041|0.037|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.037|-0.041|
82569202|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.015|0.093|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.093|0.015|
82379448|NCT02676882|164468199|OTHER|A Chi Squared analysis was performed to determine how the rate of relapse in Group 1 (27.3%) compared to that of historical controls in the literature (67.7%). (Cohen, JAMA 2006)||||||0.005||||||A priori threshold for statistical significance: p\<0.05|Chi-squared|||||||0.005
82379449|NCT02676882|164468200|OTHER|A one-way repeated measures ANOVA was used to examine the overall course of Group 2 participants' MADRS scores. (F(6, 29)=5.16, p=0.001).||||||0.001||||||a priori threshold for statistical significance: p \<0.05|ANOVA|||||||0.001
82379450|NCT01518322|164468203|SUPERIORITY_OR_OTHER||Kappa Statistics|0.049|||||TWO_SIDED|95.0|-0.0895|0.1875||||||Kappa statistics were used to determine the level of agreement between FeNO measurements and asthma diagnosis using the a dichotomous schemes a measurement greater than 35 ppb for children under the age of 12 years or greater than 50 ppb for subjects at least 12 years of age was considered high.||0.1875|-0.0895|
82379451|NCT01269918|164468207|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority delta of 7.5 mmHg. If noninferiority was detected, we proceeded to test for superiority.|Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-13.0|-5.0|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on MAP collapsed over time was estimated using a 1-tailed t test from a repeated measures ANOVA model.||-5|-13|< 0.001
82379452|NCT01269918|164468207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|97.5|-13.0|-4.0|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on MAP collapsed over time was estimated using a 1-tailed t test from a repeated measures ANOVA model.||-4|-13|< 0.001
82379453|NCT01269918|164468208|NON_INFERIORITY_OR_EQUIVALENCE|We used a noninferiority delta of 1 point. If noninferiority was detected, we proceeded to test for superiority.|Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on VAS pain score estimated from a 1-tailed t test from a repeated measures ANOVA model.||-1.1|-2.7|< 0.001
82379454|NCT01269918|164468208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|97.5|-2.8|-0.9|||t-test, 1 sided|||Dexmedetomidine versus remifentanyl on VAS pain score estimated from a 1-tailed t test from a repeated measures ANOVA model.||-0.9|-2.8|< 0.001
82379455|NCT01269918|164468209|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority delta = 2 mg opioid|Median Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on opioid consumption estimated from a Wilcoxon rank sum test||-5|-10|< 0.001
82379456|NCT01269918|164468209|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|97.5|-10.0|-3.0|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on opioid consumption estimated from a Wilcoxon rank sum test||-3|-10|< 0.001
82379457|NCT01269918|164468210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-10.0|3.0|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on heart rate was assessed using a linear mixed effects model adjusting for baseline heart rate.||3|-10|< 0.001
82379458|NCT01269918|164468211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.16|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on SOMCT estimated using a linear mixed effects model adjusting for baseline SOMCT score.||0.5|-2.6|0.16
82379459|NCT01269918|164468212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.6|0.03|||Mixed Models Analysis|||Dexmedetomidine versus remifentanyl on Aldrete score estimated using a linear mixed effects model adjusting for baseline Aldrete score.||0.03|-0.6|0.07
82379460|NCT01269918|164468213|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.009|TWO_SIDED|95.0|-1.0|-0.001|||Wilcoxon (Mann-Whitney)|||Dexmedetomidine versus remifentanyl on Nursing workload comparison estimated using a Wilcoxon rank sum test.||-0.001|-1|0.009
82379461|NCT01269918|164468214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11|||<|0.001|TWO_SIDED|95.0|0.07|0.18|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to open eyes estimated using Cox regression.||0.18|0.07|< 0.001
82379462|NCT01269918|164468215|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.12|||<|0.001|TWO_SIDED|95.0|0.07|0.19|||Regression, Cox|||Remifentanyl versus dexmedetomidine on time to recall assessed using Cox regression.||0.19|0.07|< 0.001
82379463|NCT01269918|164468216|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.022|TWO_SIDED|95.0|0.48|0.95|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to fitness discharge estimated using Cox regression.||0.95|0.48|0.022
82569203|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.006|0.084|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.084|0.006|
82512514|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.38|-0.52||P-value for Relations with Other People Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.52|-1.38|<0.001
82512515|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.35|-0.39||P-value for Sleep Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.39|-1.35|<0.001
82512516|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.39|||<|0.001|TWO_SIDED|95.0|-1.92|-0.86||P-value for Enjoyment of Life Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.86|-1.92|<0.001
82512517|NCT00673452|164717651|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.93|||<|0.001|TWO_SIDED|95.0|-1.33|-0.52||P-value for Average Interference. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BPI Score change from baseline to LOCF endpoint = BPI baseline + treatment + pooled investigator|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.52|-1.33|<0.001
82633689|NCT02590406|164983438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANOVA|||We calculated our sample size using data from EPO2: PV study (Couture: simultaneous submitted manuscript), where we found a difference in the FRC of 21% between reverse Trendelenburg with non-invasive positive pressure ventilation and beach chair position without positive pressure ventilation. Assuming there would be a difference of 21% in the apnea time, with a type I error of 5% and power of 80%, a total of 17 patients by group was needed.||||0.005
82633690|NCT02590406|164983439|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82633691|NCT02590406|164983440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||ANOVA|||||||0.0003
82633692|NCT02590406|164983441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||ANOVA|||||||0.9
82633693|NCT02590406|164983442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||ANOVA|||||||0.03
82633694|NCT00957723|164983445|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change from pre-op to 1 year, 2 year and 5 year||||<0.0001
82633695|NCT00957723|164983446|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change from pre-op to 1, 2, and 5 year||||<0.0001
82633696|NCT00957723|164983448|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||SF36 Physical Component Score change from preop to 1 year||||<0.0001
82512518|NCT00673452|164717652|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83||||0.005|TWO_SIDED|95.0|-1.41|-0.25||P-value for General Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.25|-1.41|0.005
82569204|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.008|0.087|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.087|0.008|
82569205|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.049|0.031|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.031|-0.049|
82633697|NCT00957723|164983448|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Sign test|||SF36 Mental Component Score change from preop to 1 year||||0.0002
82569206|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.046|0.033|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.033|-0.046|
82569207|NCT01040403|164848142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.037|0.042|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.042|-0.037|
82569208|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.084|0.202|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||0.202|0.084|
82569209|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.092|0.21|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||0.210|0.092|
82569210|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.072|0.191|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||0.191|0.072|
82569211|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.051|0.066|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||0.066|-0.051|
82569212|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.071|0.048|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||0.048|-0.071|
82569213|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.079|0.039|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||0.039|-0.079|
82569214|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.116|0.234|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||0.234|0.116|
82633698|NCT00957723|164983448|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 2 years||||<0.0001
82633699|NCT00957723|164983448|SUPERIORITY_OR_OTHER|||||||0.0177|||||||Sign test|||SF36 Mental Component Score change from preop to 2 years||||0.0177
82633700|NCT00957723|164983448|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 3 year||||<0.0001
82633701|NCT00957723|164983448|SUPERIORITY_OR_OTHER|||||||0.0393|||||||Sign test|||SF36 Mental Component Score change from preop to 3 year||||0.0393
82633702|NCT00957723|164983448|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 4 year||||<0.0001
82633703|NCT00957723|164983448|SUPERIORITY_OR_OTHER|||||||0.4905|||||||t-test, 2 sided|||SF36 Mental Component Score change from preop to 4 year||||0.4905
82512519|NCT00673452|164717652|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72||||0.013|TWO_SIDED|95.0|-1.3|-0.15||P-value for Physical Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.15|-1.30|0.013
82512520|NCT00673452|164717652|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.92||||0.003|TWO_SIDED|95.0|-1.52|-0.32||P-value for Mental Fatigue. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.52|0.003
82512521|NCT00673452|164717652|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88||||0.005|TWO_SIDED|95.0|-1.49|-0.26||P-value for Reduced Activity. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.26|-1.49|0.005
82379464|NCT01269918|164468217|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.45|TWO_SIDED|95.0|0.81|1.62|||Regression, Cox|||Remifentanyl versus Dexmedetomidine on time to PACU discharge estimated using Cox proportional hazard regression||1.62|0.81|0.45
82512522|NCT00673452|164717652|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.49|-0.38||P-value for Reduced Motivation. P-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|ANCOVA|Model: MFI subscale change from baseline at endpoint = MFI subscale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.38|-1.49|<0.001
82512523|NCT00673452|164717653|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.89||||0.007|TWO_SIDED|95.0|-3.25|-0.53||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BDI-II Total score change from baseline to endpoint = baseline BDI-II total score + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.53|-3.25|0.007
82633704|NCT00957723|164983448|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF36 Physical Component Score change from preop to 5 year||||<0.0001
82379465|NCT01269918|164468218|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.91|TWO_SIDED|95.0|0.5|2.2|||Chi-squared|||Dexmedetomidine versus remifentanyl on postoperative nausea estimated from chi squared test.||2.2|0.5|0.91
82512524|NCT00673452|164717654|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.51|-0.16||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: CGI-S score change from baseline at endpoint = CGI-S score baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.16|-0.51|<0.001
82512525|NCT00673452|164717655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.07||||0.907|TWO_SIDED|95.0|-1.13|1.27||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: BAI total score change from baseline to endpoint = baseline BAI total + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||1.27|-1.13|0.907
82569215|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.116|0.234|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||0.234|0.116|
82379466|NCT01269918|164468219|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.16|TWO_SIDED|95.0|0.07|1.7|||Chi-squared|||Dexmedetomidine versus remifentanyl on postoperative vomiting estimated from a chi square test.||1.7|0.07|0.16
82379467|NCT01269918|164468220|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.21|TWO_SIDED|95.0|0.1|1.7|||Chi-squared|||Dexmedetomidine versus remifentanyl on incidence of shivering estimated from a chi square test.||1.7|0.1|0.21
82379468|NCT04660331|164468236|OTHER||||||||||||||||||2-sided t-test conducted for pre- and post-training results.|||
82379469|NCT04660331|164468237|OTHER||||||||||||||||||We grouped pharmacy data on vaccines delivered pre/post intervention into six categories: HPV vaccine, Tdap, Meningococcal, Influenza, COVID-19, and other vaccines. We then compared the counts of total vaccines that were conducted in each group pre- and post-training.|||
82379470|NCT04660331|164468238|OTHER||||||||||||||||||We grouped pharmacy data on vaccines delivered pre/post intervention into six categories: HPV vaccine, Tdap, Meningococcal, Influenza, COVID-19, and other vaccines. We then compared the counts of total vaccines that were conducted in each group pre- and post-training.|||
82379471|NCT01870778|164468249|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.3857|TWO_SIDED|95.0|0.83|1.15||Adjusted alpha p-value based on multiple testing procedure.|Log Rank|One-sided p-value||||1.15|0.83|0.3857
82379472|NCT01870778|164468250|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0968|TWO_SIDED|95.0|0.75|1.07||Adjusted p-value based on multiple testing procedure|Gehan's generalized Wilcoxon test|One-sided p-value||||1.07|0.75|0.0968
82379473|NCT01870778|164468251|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.389|TWO_SIDED|95.0|0.81|1.08|||Log Rank|2-sided p-value||||1.08|0.81|0.3890
82379474|NCT01870778|164468252|SUPERIORITY|||||||0.2204||||||Based on multiple testing procedure|Wilcoxon rank sum test|One-sided p-value||||||0.2204
82379475|NCT01870778|164468253|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.2744|TWO_SIDED|95.0|0.88|1.07||Adjusted p-value based on multiple testing procedure|Log Rank|||||1.07|0.88|0.2744
82379476|NCT01870778|164468254|SUPERIORITY|||||||0.2103|||||||Wilcoxon rank sum test|2-sided p-value||||||0.2103
82633705|NCT00957723|164983448|SUPERIORITY_OR_OTHER|||||||0.0037|||||||Sign test|||SF36 Mental Component Score change from preop to 5 year||||0.0037
82379477|NCT01870778|164468255|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.005|TWO_SIDED|95.0|1.02|1.14|||Log Rank|2-sided p-value||Exertional dyspnea||1.14|1.02|0.0050
82512526|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.22||||0.003|TWO_SIDED|95.0|1.76|8.67||P-value for Bodily Pain. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.67|1.76|0.003
82569216|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.14|0.259|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||0.259|0.140|
82569217|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.06|0.059|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||0.059|-0.060|
82379478|NCT01870778|164468255|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.0051|TWO_SIDED|95.0|1.02|1.14|||Log Rank|2-sided p-value||Orthopnea||1.14|1.02|0.0051
82379479|NCT01870778|164468255|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9962|TWO_SIDED|95.0|0.95|1.05|||Log Rank|2-sided p-value||Rales||1.05|0.95|0.9962
82379480|NCT01870778|164468255|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.0196|TWO_SIDED|95.0|1.01|1.15|||Log Rank|2-sided p-value||Jugular venous pressure||1.15|1.01|0.0196
82379481|NCT01870778|164468255|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.2158|TWO_SIDED|95.0|0.98|1.1|||Log Rank|2-sided p-value||Peripheral edema, pre-sacral edema||1.10|0.98|0.2158
82379482|NCT01870778|164468256|SUPERIORITY||Ratio of RLX030 to placebo|0.9401||||0.0209|TWO_SIDED|95.0|0.8921|0.9907|||Repeated measures model|||Day 2||0.9907|0.8921|0.0209
82379483|NCT01870778|164468256|SUPERIORITY||Ratio of RLX030 to placebo|0.898||||0.0034|TWO_SIDED|95.0|0.8358|0.9649|||Repeated measures model|||Day 5||0.9649|0.8358|0.0034
82379484|NCT01870778|164468256|SUPERIORITY||Ratio of RLX030 to placebo|0.9074||||0.0209|TWO_SIDED|95.0|0.8355|0.9854|||Repeated measures model|||Day 14||0.9854|0.8355|0.0209
82379485|NCT01870778|164468257|SUPERIORITY||Ratio of RLX030 to placebo|0.8597||||0.0007|TWO_SIDED|95.0|0.7876|0.9385|||Repeated measures model|||Day 2||0.9385|0.7876|0.0007
82379486|NCT01870778|164468257|SUPERIORITY||Ratio of RLX030 to placebo|0.9539||||0.3709|TWO_SIDED|95.0|0.86|1.0579|||Repeated measures model|||Day 5||1.0579|0.8600|0.3709
82379487|NCT01870778|164468257|SUPERIORITY||Ratio of RLX030 to placebo|0.9543||||0.3893|TWO_SIDED|95.0|0.8578|1.0617|||Repeated measures model|||Day 14||1.0617|0.8578|0.3893
82379488|NCT01870778|164468258|SUPERIORITY||Ratio of RLX030 to placebo|0.9637||||0.0003|TWO_SIDED|95.0|0.9447|0.983|||Repeated measures model|||Day 2||0.9830|0.9447|0.0003
82379489|NCT01870778|164468258|SUPERIORITY||Ratio of RLX030 to placebo|0.9922||||0.5361|TWO_SIDED|95.0|0.9677|1.0172|||Repeated measures model|||Day 5||1.0172|0.9677|0.5361
82379490|NCT01870778|164468258|SUPERIORITY||Ratio of RLX030 to placebo|0.9863||||0.375|TWO_SIDED|95.0|0.9567|1.0169|||Repeated measures model|||Day 14||1.0169|0.9567|0.3750
82379491|NCT00708110|164468283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.001|TWO_SIDED|95.0|-2.0|-1.07|||ANCOVA|||||-1.07|-2.00|<0.001
82379492|NCT00708110|164468283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|||<|0.001|TWO_SIDED|95.0|-2.52|-1.55|||ANCOVA|||||-1.55|-2.52|<0.001
82379493|NCT00708110|164468283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|||<|0.001|TWO_SIDED|95.0|-2.94|-2.02|||ANCOVA|||||-2.02|-2.94|<0.001
82569218|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.035|0.083|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||0.083|-0.035|
82633706|NCT00957723|164983450|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||LEAS score change from preop to 1, 2, 3, 4, and 5 years||||<0.0001
82633707|NCT00877890|164983454|NON_INFERIORITY_OR_EQUIVALENCE|The choice of a 0.4% noninferiority margin was resulted from the considerations of expected clinical benefit of BYETTA in this study based on clinical data evaluating exenatide once weekly and BYETTA, regulatory guidance, published literature, and statistical considerations.|Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|95.0|-0.94|-0.39|||ANOVA|Analysis of variance (ANOVA) model includes treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors.||Superiority of exenatide once weekly to BYETTA if the upper limit of the 2-sided 95% CI for treatment difference (exenatide once weekly minus BYETTA) is \<0; noninferiority if this upper limit is \<0.4%. Power: Assuming 15% dropout rate with 206 subjects will complete the study. This sample size would provide 90% power for non-inferiority test with assumption of greater reduction (0.1%) in exenatide once weekly and a common standard deviation of 1.1%.||-0.39|-0.94|<.0001
82633708|NCT00877890|164983455|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target value of \<7% at Week 24 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||<.0001
82633709|NCT00877890|164983456|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target values of \<=6.5% at Week 24 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||<.0001
82379494|NCT01197911|164468308|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.148|||||TWO_SIDED|90.0|0.9293|1.4182||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.4182|0.9293|
82512527|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.42|||<|0.001|TWO_SIDED|95.0|3.41|9.43||P-value for General Health. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||9.43|3.41|<0.001
82512528|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|7.44|||<|0.001|TWO_SIDED|95.0|4.41|10.47||P-value for Mental Health. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||10.47|4.41|<0.001
82512529|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.47||||0.002|TWO_SIDED|95.0|2.06|8.88||P-value for Physical Functioning. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.88|2.06|0.002
82633710|NCT00877890|164983457|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|5.57||0.0006|TWO_SIDED|95.0|-31.4|-9.5||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the fasting plasma glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline fasting plasma glucose. Power: based on the primary measurement.||-9.5|-31.4|0.0006
82512530|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|9.78||||0.004|TWO_SIDED|95.0|3.11|16.45||P-value for Role-Emotional. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||16.45|3.11|0.004
82379495|NCT01197911|164468308|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.5518|||||TWO_SIDED|90.0|1.2468|1.9314||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One Participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.9314|1.2468|
82379496|NCT01197911|164468310|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|0.9477|||||TWO_SIDED|90.0|0.7908|1.1356||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.1356|0.7908|
82379497|NCT01197911|164468310|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.0782|||||TWO_SIDED|90.0|0.8941|1.3002||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One Participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.3002|0.8941|
82379498|NCT01197911|164468324|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.2323|||||TWO_SIDED|90.0|0.9618|1.5789||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.5789|0.9618|
82379499|NCT01197911|164468324|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.5587|||||TWO_SIDED|90.0|1.2165|1.9971||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.9971|1.2165|
82379500|NCT01197911|164468325|SUPERIORITY_OR_OTHER||Geometric Least-Squares Mean Ratio|1.0027|||||TWO_SIDED|90.0|0.8049|1.2492||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available.||1.2492|0.8049|
82379501|NCT01197911|164468325|SUPERIORITY_OR_OTHER||GeometricLeast-Squares Mean Ratio|1.2254|||||TWO_SIDED|90.0|0.9836|1.5266||||||This statistical analysis consisted of all evaluable hepatic impaired participants for whom at least one evaluable matching healthy participant was available. One participant with moderate hepatic impairment was not included in the statistical analysis of the PK parameters as there was no appropriate participant with normal hepatic function match.||1.5266|0.9836|
82379502|NCT03282916|164468334|SUPERIORITY|Linear mixed-effects models (LMM) were used to assess the treatment effects on the outcome with change score from baseline as the dependent variable and treatment, study time point, and their interaction as predictors, adjusting for baseline value of the outcome.|Mean Difference (Final Values)|3.91|||<|0.05|TWO_SIDED|95.0|1.03|6.8||Not adjusted for multiple comparisons|Mixed Models Analysis|Adjusting for baseline value of ADAS-Cog11||"Null hypothesis: there is no difference in change in ADAS-Cog11 between valacyclovir and placebo treatment.~A sample size of 130 participants (65 per arm) was originally projected to detect Cohen's d of 0.50 with 80% power at 5% significance level. Recruitment target was reduced to 120 participants due to pandemic-related recruitment delays and required study completion within the extended funding timeline. For n=120, the minimum detectable effect size increased slightly to Cohen's d of 0.52."||6.80|1.03|<0.05
82442216|NCT00734071|164592944|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|1.558||0.995|TWO_SIDED|95.0|-3.09|3.07||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||3.07|-3.09|0.995
82512531|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.59||||0.632|TWO_SIDED|95.0|-4.93|8.11||P-value for Role-Physical. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||8.11|-4.93|0.632
82512532|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.67|||<|0.001|TWO_SIDED|95.0|2.73|10.61||P-value for Social Functioning. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||10.61|2.73|<0.001
82512533|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.31||||0.015|TWO_SIDED|95.0|0.84|7.79||P-value for Vitality. The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||7.79|0.84|0.015
82379503|NCT01526057|164468338|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and area under the serum concentration-time curve (AUC) from time 0 extrapolated to infinite time (AUC 0-inf) are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|105.67|||||TWO_SIDED|90.0|96.91|115.21|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way analysis of variance (ANOVA) model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.21|96.91|
82379504|NCT01526057|164468338|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC 0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|106.62|||||TWO_SIDED|90.0|97.65|116.41|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||116.41|97.65|
82512534|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.14||||0.134|TWO_SIDED|95.0|-0.35|2.64||P-value for Physical Component Summary (PCS). The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||2.64|-0.35|0.134
82633711|NCT00877890|164983458|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Multiplicity adjustment using Hochberg procedure for the 3 key secondary endpoints (i.e., percent to achieving HbA1c goal of \<7%, change in fasting glucose, and percent of achieving fasting plasma glucose goal of \<=126 mg/dL) was performed.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving fasting plasma glucose target of \<=126 mg/dL at Week 24 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving fasting plasma glucose target. Power: based on the primary measurement.||||0.0008
82633712|NCT00877890|164983459|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.487||0.0514|TWO_SIDED|95.0|-1.91|0.01|||ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the body weight as a covariate. Null hypothesis: no difference between treatments in change from baseline body weight. Power: based on the primary measurement.||0.01|-1.91|0.0514
82633713|NCT00877890|164983460|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.5||0.2367|TWO_SIDED|95.0|-4.7|1.2|||ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the systolic blood pressure as a covariate. Null hypothesis: no difference between treatments in change from baseline systolic blood pressure. Power: based on the primary measurement.||1.2|-4.7|0.2367
82633714|NCT00877890|164983461|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7717|TWO_SIDED|95.0|-1.7|2.2|||ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the diastolic blood pressure as a covariate. Null hypothesis: no difference between treatments in change from baseline diastolic blood pressure. Power: based on the primary measurement.||2.2|-1.7|0.7717
82633715|NCT00877890|164983462|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001|TWO_SIDED|95.0|-22.9|-9.1|||ANCOVA|||Analysis: Change in total cholesterol from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the total cholesterol as a covariate. Null hypothesis: no difference between treatments in change from baseline total cholesterol. Power: based on the primary measurement.||-9.1|-22.9|<.0001
82633716|NCT00877890|164983463|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.8||0.1251|TWO_SIDED|95.0|-2.8|0.3|||ANCOVA|||Analysis: Change in HDL from baseline (Day 1) to Week 24 was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the HDL as a covariate. Null hypothesis: no difference between treatments in change from baseline HDL. Power: based on the primary measurement.||0.3|-2.8|0.1251
82633717|NCT00877890|164983464|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.043||0.2558|TWO_SIDED|95.0|0.87|1.04|||ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 30 to baseline (Day 1) , expressed as the ratio, was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the triglycerides as a covariate. Null hypothesis: no difference between treatments in change from baseline triglycerides. Power: based on the primary measurement.||1.04|0.87|0.2558
82633718|NCT00281528|164983470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4476||95.0||||Group comparison was performed between group 260 mg/m\^2 ABI-007 every 3 weeks and group 130 mg/m\^2 ABI-007 weekly, as based on amended protocol, no type I error adjustment for multiplicity; a priori threshold for statistical significance is 0.05.|Cochran-Mantel-Haenszel|Stratified by study site||||||0.4476
82633719|NCT01225211|164983505|SUPERIORITY_OR_OTHER||LS Mean difference|-2.679||||0.267|TWO_SIDED|95.0|-7.484|2.125|||ANCOVA|||||2.125|-7.484|0.267
82633720|NCT01225211|164983505|SUPERIORITY_OR_OTHER||LS Mean difference|-9.676|||<|0.001|TWO_SIDED|95.0|-14.801|-4.551|||ANCOVA|||||-4.551|-14.801|<0.001
82633721|NCT01225211|164983506|SUPERIORITY_OR_OTHER||LS Mean difference|-1.306||||0.68|TWO_SIDED|95.0|-7.565|4.953|||ANCOVA|||||4.953|-7.565|0.680
82633722|NCT01225211|164983506|SUPERIORITY_OR_OTHER||LS Mean difference|-2.67||||0.409|TWO_SIDED|95.0|-9.053|3.712|||ANCOVA|||||3.712|-9.053|0.409
82633723|NCT01225211|164983506|SUPERIORITY_OR_OTHER||LS Mean difference|-4.526||||0.161|TWO_SIDED|95.0|-10.888|1.835|||ANCOVA|||||1.835|-10.888|0.161
82633724|NCT01225211|164983506|SUPERIORITY_OR_OTHER||LS Mean difference|-2.867||||0.396|TWO_SIDED|95.0|-9.543|3.81|||ANCOVA|||||3.810|-9.543|0.396
82633725|NCT01225211|164983506|SUPERIORITY_OR_OTHER||LS Mean difference|-3.78||||0.365|TWO_SIDED|95.0|-12.028|4.467|||ANCOVA|||||4.467|-12.028|0.365
82633726|NCT01225211|164983507|SUPERIORITY_OR_OTHER||LS Mean difference|0.6||||0.5978|TWO_SIDED|95.0|-1.66|2.86|||Mixed Model Repeated Measure (MMRM)|||||2.86|-1.66|0.5978
82633727|NCT03049852|164983528|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82633728|NCT03049852|164983530|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.007|TWO_SIDED||||||ANOVA|||||||0.007
82633729|NCT02140762|164983560|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|67.0|||<|0.0001|TWO_SIDED|95.0|65.0|69.0|||Generalized Linear Model||VE is based on the relative risk (RR). The Poisson Distribution and Log Link options were used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the lower limit of the 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 1 month after the 2nd injection for each strain is defined as \[1-(% of subjects without bactericidal activity at 1:4 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\]x100. The combined VE across all strains will be computed by mean of a generalized linear model.||69|65|<0.0001
82512535|NCT00673452|164717656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.83|||<|0.001|TWO_SIDED|95.0|2.05|5.6||P-value for Mental Component Summary (MCS). The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: SF-36 subscale change from baseline at endpoint = SF-36 subscale at baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||5.60|2.05|<0.001
82512536|NCT00673452|164717657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96||||0.083|TWO_SIDED|95.0|-2.05|0.13||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: MGH-CPFQ change from baseline at endpoint = MGH-CPFQ baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||0.13|-2.05|0.083
82512537|NCT00673452|164717658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.18|-0.32||P-value for Mood. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.32|-1.18|<0.001
82512538|NCT00673452|164717658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64||||0.003|TWO_SIDED|95.0|-1.05|-0.22||P-value for Anxiety. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.22|-1.05|0.003
82569219|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.035|0.083|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||0.083|-0.035|
82633730|NCT02140762|164983560|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|4.6|||||TWO_SIDED||||||Generalized Linear Model|||vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
82379505|NCT01526057|164468338|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC 0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|100.9|||||TWO_SIDED|90.0|92.38|110.2|||||Rituximab-EU is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||110.20|92.38|
82379506|NCT01526057|164468339|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|104.19|||||TWO_SIDED|90.0|92.75|117.06||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||117.06|92.75|
82379507|NCT01526057|164468339|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|100.45|||||TWO_SIDED|90.0|89.2|113.11||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.11|89.20|
82379508|NCT01526057|164468339|EQUIVALENCE|PK similarity for a given test-to-reference comparison would be demonstrated if the 90% CI for the test-to-reference ratios in Cmax and AUC0-inf are within the 80.00% to 125.00% range.|Test-to-reference ratio: adjusted means|96.4|||||TWO_SIDED|90.0|85.57|108.6||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||108.60|85.57|
82379509|NCT01526057|164468340|SUPERIORITY||Test-to-reference ratio: adjusted means|103.74|||||TWO_SIDED|90.0|95.1|113.12|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.12|95.10|
82379510|NCT01526057|164468340|SUPERIORITY||Test-to-reference ratio: adjusted means|105.56|||||TWO_SIDED|90.0|96.64|115.3|||||Rituximab-Pfizer is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.30|96.64|
82379511|NCT01526057|164468340|SUPERIORITY||Test-to-reference ratio: adjusted means|101.76|||||TWO_SIDED|90.0|93.13|111.18|||||Rituximab-EU is the numerator.|A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data.||111.18|93.13|
82569220|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.081|0.197|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||0.197|0.081|
82379512|NCT01526057|164468341|SUPERIORITY||Test-to-reference ratio: adjusted means|103.36|||||TWO_SIDED|90.0|92.81|115.12||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||115.12|92.81|
82379513|NCT01526057|164468341|SUPERIORITY||Test-to-reference ratio: adjusted means|101.33|||||TWO_SIDED|90.0|90.82|113.04||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||113.04|90.82|
82512539|NCT00673452|164717658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72||||0.003|TWO_SIDED|95.0|-1.19|-0.25||P-value for Pain. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.25|-1.19|0.003
82512540|NCT00673452|164717658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49||||0.05|TWO_SIDED|95.0|-0.97|0.0||P-value for Sleep. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.00|-0.97|0.050
82512541|NCT00673452|164717658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.32|-0.43||P-value for Stiffness. P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Likert scale change from baseline at endpoint = Likert scale baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.43|-1.32|<0.001
82512542|NCT00673452|164717659|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||0.002
82512543|NCT00673452|164717660|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||0.003
82512544|NCT00673452|164717661|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.82||||0.084|TWO_SIDED|95.0|-0.25|3.88||P-value for Systolic Blood Pressure (SBP). A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||3.88|-0.25|0.084
82512545|NCT00673452|164717661|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52||||0.434|TWO_SIDED|95.0|-0.79|1.84||P-value for Diastolic Blood Pressure (DBP). A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||1.84|-0.79|0.434
82379514|NCT01526057|164468341|SUPERIORITY||Test-to-reference ratio: adjusted means|98.03|||||TWO_SIDED|90.0|87.83|109.4||||||A 90% CI on the estimated difference between 2 treatment groups was constructed using a 1-way ANOVA model based on natural log-transformed data. The estimated differences for the log-transformed PK parameters were then transformed to relative ratios of PK parameters by exponentiation.||109.40|87.83|
82512546|NCT00673452|164717662|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.96||||0.003|TWO_SIDED|95.0|0.67|3.26||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||3.26|0.67|0.003
82512547|NCT00673452|164717663|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Suicidal Ideation. A priori threshold for statistical significance is 0.05.|Fisher Exact|||||||1.00
82512548|NCT00673452|164717664|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.21|-0.45||A priori threshold for statistical significance is 0.05.|ANCOVA|Model: Change = baseline + treatment + pooled investigator.|Least Squares Mean Difference = Duloxetine minus Placebo.|||-0.45|-1.21|<0.001
82512549|NCT03495908|164717667|NON_INFERIORITY|Non-inferiority margin is 0.4% HbA1c|Mean Difference (Net)|-0.2207||||0.007|TWO_SIDED|95.0|-0.6654|0.2241||Non-inferiority p-value based on the 0.4% non-inferiority margin|Mixed Models Analysis||RHI - RAI estimated treatment difference. Upper confidence interval 0.22 is less than the 0.4% non-inferiority margin.|RHI - RAI estimated treatment difference (ETD) in HbA1c. Per-protocol analysis is the pre-specified primary outcome.||0.2241|-0.6654|0.007
82512550|NCT03495908|164717668|SUPERIORITY|Comparison of Post-randomization prevalence of hypoglycemia based on 7-point glucose profiles.||||||0.82|||||||Fisher Exact|||Post-randomization prevalence of hypoglycemia based on 7-point glucose profiles.||||.82
82569221|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.092|0.207|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||0.207|0.092|
82379515|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.31|1.78|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 3.||1.78|0.31|
82379516|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.6|1.88|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 5.||1.88|0.60|
82633731|NCT02140762|164983560|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|12.7|||||TWO_SIDED||||||generalized linear model.|||Vaccine effectiveness \<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
82379517|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.66|1.73|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 9.||1.73|0.66|
82379518|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.73|1.56|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 13.||1.56|0.73|
82379519|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.68|1.62|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 17.||1.62|0.68|
82379520|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.66|1.69|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 21.||1.69|0.66|
82379521|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.7|2.0|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 25 (EOT).||2.00|0.70|
82379522|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.28|1.73|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 3.||1.73|0.28|
82379523|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.43|1.54|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 5.||1.54|0.43|
82569222|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.073|0.189|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||0.189|0.073|
82379524|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.49|1.42|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 9.||1.42|0.49|
82379525|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.5|1.22|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 13.||1.22|0.50|
82569223|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.047|0.068|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||0.068|-0.047|
82569224|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.066|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||0.051|-0.066|
82569225|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.076|0.039|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||0.039|-0.076|
82379526|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.57|1.44|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 17.||1.44|0.57|
82379527|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.88|2.1|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 21.||2.10|0.88|
82379528|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.78|2.18|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 25 (EOT).||2.18|0.78|
82379529|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.36|2.45|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 3.||2.45|0.36|
82379530|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.41|1.44|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 5.||1.44|0.41|
82379531|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.47|1.31|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 9.||1.31|0.47|
82379532|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.48|1.13|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 13.||1.13|0.48|
82379533|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.55|1.36|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 17.||1.36|0.55|
82379534|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.85|1.95|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 21.||1.95|0.85|
82379535|NCT01526057|164468360|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.7|1.73|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 25 (EOT).||1.73|0.70|
82379536|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.12|1.79|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 3.||1.79|0.12|
82379537|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.2|1.26|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 5.||1.26|0.20|
82379538|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.43|1.41|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 9.||1.41|0.43|
82379539|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.61|1.74|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 13.||1.74|0.61|
82379540|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.56|1.74|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 17.||1.74|0.56|
82379541|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.34|1.36|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 21.||1.36|0.34|
82569226|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.131|0.247|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||0.247|0.131|
82379542|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.46|1.63|||||Rituximab-EU is the numerator.|Statistical analysis of rituximab-EU versus rituximab-Pfizer at Week 25 (EOT).||1.63|0.46|
82379543|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.27|2.6|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 3.||2.60|0.27|
82379544|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.31|1.62|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 5.||1.62|0.31|
82379545|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.41|1.4|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 9.||1.40|0.41|
82379546|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.51|1.57|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 13.||1.57|0.51|
82379547|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.51|1.68|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 17.||1.68|0.51|
82379548|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.68|2.19|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 21.||2.19|0.68|
82379549|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.44|1.62|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-Pfizer at Week 25 (EOT).||1.62|0.44|
82379550|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|1.79|||||TWO_SIDED|95.0|0.44|7.2|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 3.||7.20|0.44|
82379551|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.52|3.86|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 5.||3.86|0.52|
82379552|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.51|1.87|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 9.||1.87|0.51|
82379553|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.5|1.5|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 13.||1.50|0.50|
82379554|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.52|1.69|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 17.||1.69|0.52|
82379555|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|1.8|||||TWO_SIDED|95.0|0.93|3.5|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 21.||3.50|0.93|
82379556|NCT01526057|164468361|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.51|1.89|||||Rituximab-US is the numerator.|Statistical analysis of rituximab-US versus rituximab-EU at Week 25 (EOT).||1.89|0.51|
82569227|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.121|0.236|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||0.236|0.121|
82379557|NCT02273388|164468379|OTHER||Difference of adjusted means|-4.56|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-10.59|1.48|||||Comparison vs. 1 hour infusion \[2h-1h\]|Change from baseline to 5 minutes before infusion end. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||1.48|-10.59|
82379558|NCT02273388|164468379|OTHER||Difference of adjusted means|-7.14|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-13.18|-1.11|||||Comparison vs. 1hour infusion \[2h-1h\]|Change from baseline to 1 hour after infusion end. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||-1.11|-13.18|
82379559|NCT02273388|164468379|OTHER||Difference of adjusted means|-3.58|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-9.61|2.46|||||Comparison vs. 1 hour infusion \[2h-1h\]|Change from baseline to 4 hours after infusion start. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||2.46|-9.61|
82379560|NCT02273388|164468379|OTHER||Difference of adjusted means|-8.66|STANDARD_ERROR_OF_MEAN|3.61|||TWO_SIDED|90.0|-14.7|-2.63|||||Comparison vs. 1 hour \[2h-1h\]|Change from baseline to 24 hours after infusion start. Linear mixed model with sequence, course, treatment (both infusion types i.e. 1 hour duration and 2 hour duration) and time as fixed effects and treatment\*time as interaction effect, as well as the continuous , fixed covariate of baseline value.||-2.63|-14.70|
82379561|NCT04331808|164468403|SUPERIORITY||Median posterior absolute risk differenc|-9.0|||||TWO_SIDED|90.0|-21.0|3.1||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credibility interval here|||3.1|-21.0|
82379562|NCT04331808|164468404|SUPERIORITY||Median posterior Hazard Ratio|0.58|||||TWO_SIDED|90.0|0.33|1.0||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible Interval here|||1.00|0.33|
82379563|NCT04331808|164468405|SUPERIORITY||Median posterior absolute risk differenc|1.7|||||TWO_SIDED|90.0|-13.6|17.1||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credible Interval here Results are presented as the proportion not improved, so that an effective treatment would be associated with a decrease in proportion.|||17.1|-13.6|
82569228|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|0.155|0.271|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||0.271|0.155|
82379564|NCT04331808|164468406|SUPERIORITY||Median posterior Hazard Ratio|1.19|||||TWO_SIDED|90.0|0.71|2.04||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible Interval here|||2.04|0.71|
82569229|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.069|0.048|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||0.048|-0.069|
82379565|NCT04331808|164468407|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.4|3.55|||Regression, Cox|adjusted for age and sex||Day 14||3.55|0.40|
82379566|NCT04331808|164468407|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.33|2.53|||Regression, Cox|adjusted for age and centre||Day 28||2.53|0.33|
82379567|NCT04331808|164468407|SUPERIORITY||Cox Proportional Hazard|0.64|||||TWO_SIDED|95.0|0.25|1.65|||Regression, Cox|adjusted for age and centre||Day 90||1.65|0.25|
82379568|NCT04331808|164468407|SUPERIORITY||Hazard Ratio (HR)|0.37|||||TWO_SIDED|95.0|0.12|1.15|||Regression, Cox|adjusted for age and centre||Day 14||1.15|0.12|
82379569|NCT04331808|164468407|SUPERIORITY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.32|1.47|||Regression, Cox|adjusted for age and centre||Day 28||1.47|0.32|
82379570|NCT04331808|164468407|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.3|1.49|||Regression, Cox|adjusted for age and centre||Day 90||1.49|0.30|
82379571|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.6|||||TWO_SIDED|95.0|0.27|1.28|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 4||1.28|0.27|
82379572|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.86|||||TWO_SIDED|95.0|0.43|1.71|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre||Day 7|% Confidence Interval is % Credible Interval here|1.71|0.43|
82379573|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.76|||||TWO_SIDED|95.0|0.4|1.42|||Proportionnal odds model|Bayesian analysis. Adjusted for age and sex|% Confidence Interval is % Credible Interval here|Day 14||1.42|0.40|
82379574|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.85|||||TWO_SIDED|95.0|0.39|1.82|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre||Day 4|% Confidence Interval is % Credible Interval here|1.82|0.39|
82379575|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.69|||||TWO_SIDED|95.0|0.32|1.47|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 7||1.47|0.32|
82379576|NCT04331808|164468408|SUPERIORITY||Median posterior OR|0.68|||||TWO_SIDED|95.0|0.32|1.43|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre|% Confidence Interval is % Credible Interval here|Day 14||1.43|0.32|
82379577|NCT04331808|164468409|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-6.9|1.7||adjusted on age and centre||||||1.7|-6.9|
82379578|NCT04331808|164468410|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.98|2.01|||Fine-Gray model|adjusted for age and centre||Day 28||2.01|0.98|
82379579|NCT04331808|164468410|SUPERIORITY||Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.82|2.52|||Fine-Gray model|||Day 28||2.52|0.82|
82379580|NCT04331808|164468410|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.8|2.03|||Fine-Gray model|adjusted on age and centre||Day 90||2.03|0.80|
82379581|NCT04331808|164468411|SUPERIORITY||Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|1.02|2.27|||Fine-Gray model|adjusted on age and centre||Day 28||2.27|1.02|
82379582|NCT04331808|164468411|SUPERIORITY||Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.8|2.63|||Fine-Gray model|adjusted for age and centre||Day 28||2.63|0.80|
82379583|NCT04331808|164468411|SUPERIORITY||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.84|2.17|||Fine-Gray model|adjusted for age and centre||Day 90||2.17|0.84|
82379584|NCT04331808|164468412|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.73|1.81|||Fine-Gray model|adjusted on age and centre||Day 28||1.81|0.73|
82379585|NCT04331808|164468412|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.73|2.24|||Fine-Gray model|adjusted on age and centre||Day 90||2.24|0.73|
82379586|NCT03493685|164468429|OTHER||Slope difference|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.7491|TWO_SIDED|95.0|-1.74|2.41|||Mixed Models Analysis|||||2.41|-1.74|0.7491
82379587|NCT03493685|164468430|OTHER||Risk Difference (RD)|16.0||||0.0094|TWO_SIDED|95.0|3.96|28.04|||Mixed Models Analysis|||||28.04|3.96|0.0094
82379588|NCT03493685|164468431|OTHER||Slope difference|0.9|STANDARD_ERROR_OF_MEAN|1.09||0.4203|TWO_SIDED|95.0|-1.27|3.04|||Mixed Models Analysis|||||3.04|-1.27|0.4203
82379589|NCT03493685|164468432|OTHER||Mean Difference (Final Values)|1.8||||0.2708|TWO_SIDED|95.0|-1.39|4.93|||ANCOVA|||||4.93|-1.39|0.2708
82379590|NCT04467840|164468435|SUPERIORITY||Risk Difference (RD)|3.86||||0.391|TWO_SIDED|95.0|-4.93|12.65||The threshold for statistical significance was p = 0.05|Cochran-Mantel-Haenszel||Opaganib - Placebo|||12.65|-4.93|0.391
82379591|NCT04467840|164468436|SUPERIORITY||Risk Difference (RD)|3.91||||0.38|TWO_SIDED|95.0|-4.78|12.6||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Cochran-Mantel-Haenszel|||||12.60|-4.78|0.380
82379592|NCT04467840|164468437|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.231|TWO_SIDED|95.0|0.91|1.45||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.45|0.91|0.231
82379593|NCT04467840|164468438|SUPERIORITY||Hazard Ratio, log|1.08||||0.472|TWO_SIDED|95.0|0.87|1.33||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.33|0.87|0.472
82379594|NCT04467840|164468439|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.521|TWO_SIDED|95.0|0.846|1.378||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Log Rank|||||1.378|0.846|0.521
82379595|NCT04467840|164468440|SUPERIORITY||Risk Difference (RD)|-1.51||||0.701|TWO_SIDED|95.0|-9.19|6.18||The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Cochran-Mantel-Haenszel|||||6.18|-9.19|0.701
82379596|NCT04467840|164468441|SUPERIORITY|The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Hazard Ratio (HR)|1.34||||0.043|TWO_SIDED|95.0|0.99|1.82|||Log Rank|||||1.82|0.99|0.043
82379597|NCT04467840|164468442|SUPERIORITY|The threshold for statistical significance was p = 0.05, only if the primary endpoint was significant. This p-value is not adjusted for multiple comparisons because the primary endpoint was not met.|Risk Difference (RD)|8.3||||0.118|TWO_SIDED|95.0|-2.05|18.65|||Cochran-Mantel-Haenszel|||||18.65|-2.05|0.118
82379598|NCT04467840|164468446|SUPERIORITY||Risk Difference (RD)|12.28||||0.033|TWO_SIDED|95.0|1.06|23.5||unadjusted p-value|Cochran-Mantel-Haenszel|||||23.50|1.06|0.033
82379599|NCT04467840|164468447|SUPERIORITY||Risk Difference (RD)|-4.75||||0.5|TWO_SIDED|95.0|-18.67|9.17|||Cochran-Mantel-Haenszel|||||9.17|-18.67|0.500
82379600|NCT04467840|164468448|SUPERIORITY||Risk Difference (RD)|12.75||||0.023|TWO_SIDED|95.0|1.9|23.6|||Cochran-Mantel-Haenszel|||||23.60|1.90|0.023
82379601|NCT04467840|164468449|SUPERIORITY||Risk Difference (RD)|-4.12||||0.561|TWO_SIDED|95.0|-18.07|9.82|||Cochran-Mantel-Haenszel|||||9.82|-18.07|0.561
82633732|NCT02140762|164983560|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|18.2|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
82379602|NCT04467840|164468450|SUPERIORITY||Hazard Ratio (HR)|1.44||||0.01|TWO_SIDED|95.0|1.07|1.93|||Log Rank|||||1.93|1.07|0.01
82379603|NCT04467840|164468451|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.545|TWO_SIDED|95.0|0.58|1.34|||Log Rank|||||1.34|0.58|0.545
82379604|NCT04467840|164468452|SUPERIORITY||Hazard Ratio (HR)|1.276||||0.1|TWO_SIDED|95.0|0.94|1.732|||Log Rank|||||1.732|0.940|0.100
82379605|NCT04467840|164468454|SUPERIORITY||Risk Difference (RD)|-10.5||||0.012|TWO_SIDED|95.0|-18.44|-2.57|||Cochran-Mantel-Haenszel|||||-2.57|-18.44|0.012
82379606|NCT04467840|164468455|SUPERIORITY||Risk Difference (RD)|7.2||||0.304|TWO_SIDED|95.0|-6.46|20.86|||Cochran-Mantel-Haenszel|||||20.86|-6.46|0.304
82379607|NCT04467840|164468456|SUPERIORITY||Risk Difference (RD)|-9.22||||0.019|TWO_SIDED|95.0|-16.63|-1.8|||Cochran-Mantel-Haenszel|||||-1.80|-16.63|0.019
82379608|NCT04467840|164468457|SUPERIORITY||Risk Difference (RD)|7.37||||0.273|TWO_SIDED|95.0|-5.66|20.39|||Cochran-Mantel-Haenszel|||||20.39|-5.66|0.273
82379609|NCT05201794|164468480|SUPERIORITY||Odds Ratio (OR)|67.3|||=|0.1409|ONE_SIDED|80.0|15.2|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for proof-of-concept (PoC) when the planned interim analysis would have been performed.|||15.2|=0.1409
82569230|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.033|0.082|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||0.082|-0.033|
82512551|NCT03495908|164717669|SUPERIORITY|Analysis of the 7-point profiles within the ITT population (n=136)|Risk Ratio (RR)|0.925||||0.861|TWO_SIDED|95.0|0.386|2.217||Results are from a Poisson regression model with repeated measures; generalized estimating equations (GEE) approach.|Regression, Poisson|Poisson regression model with repeated measures; generalized estimating equations (GEE) approach|The incidence rate ratio quantitates the risk of hypoglycemia in the RHI group (RR numerator) compared with the RAI group (RR numerator). Results from Poisson regression model with repeated measures; generalized estimating equations (GEE) approach.|Level 1 (≤70 mg/dL or (\<3.9 mmol/L)) and level 2 hypoglycemia (\<54 mg/dL (\<3.0 mmol/L)) events are analyzed. No level 3 events were reported for either group.||2.217|0.386|0.861
82512552|NCT03495908|164717670|SUPERIORITY||Mean Difference (Net)|-0.01073||||0.415|TWO_SIDED|95.0|-0.03674|0.01528|||Mixed Models Analysis||Between Group Comparison (RHI-RAI) Estimated Treatment Difference (ETD) mixed effects model analysis|RHI versus RAI for Insulin Intent-to-treat Population N=136 Mixed Model Estimates for Insulin TDD U/kg I||0.01528|-0.03674|0.415
82512553|NCT03495908|164717671|SUPERIORITY||Mean Difference (Net)|-1.0776||||0.32|TWO_SIDED|95.0|-3.2139|1.0587|||Mixed Models Analysis||Between Group Comparison (RHI-RAI) Estimated Treatment Difference (ETD) mixed effects model analysis|||1.0587|-3.2139|0.320
82512554|NCT03495908|164717672|SUPERIORITY||Mean Difference (Net)|-265.85|||<|0.0001|TWO_SIDED|95.0|-288.6|-243.11|||Mixed Models Analysis||Estimated Treatment Difference (RHI-RAI) from repeated measures mixed model least squares estimates|||-243.11|-288.60|<0.0001
82569231|NCT01040403|164848143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.023|0.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||0.092|-0.023|
82512555|NCT03495908|164717673|NON_INFERIORITY|Change in A1C Non-inferiority Margin is 0.4%|Mean Difference (Net)|-0.1317||||0.02|TWO_SIDED|95.0|-0.5838|0.3205||p-value for non-inferiority|Mixed Models Analysis||Between Group Difference (RHI-RAI) mixed effects repeated measures model analysis.Upper confidence interval 0.32 is less than the 0.4% non-inferiority margin.|Intent-to-treat secondary outcome of HbA1c response for assessment of non-inferiority of RHI compared to RAI||0.3205|-0.5838|0.02
82512556|NCT01339390|164717713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3941|STANDARD_ERROR_OF_MEAN|0.5759||0.4937|TWO_SIDED|95.0|-0.7347|1.5229||calculated after fitting the data to a repeated measures mixed model to control for repeated subject and random site and group effects|t-test, 2 sided|accounted for repeated measures and random effects|The difference is expressed as the Move (arm 2) group minus the Move Out (arm 1) group|This is the analysis at 12 months, comparing the change in weight from 12 months to baseline in our Move Out (arm 1) vs Move (arm 2) groups||1.5229|-.7347|0.4937
82512557|NCT01339390|164717713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5893|STANDARD_ERROR_OF_MEAN|0.5759||0.3062|TWO_SIDED|95.0|-0.5395|1.7181||calculated after fitting the data to a repeated measures mixed model to control for repeated subject and random site and group effects|t-test, 2 sided|accounted for repeated measures and random effects|The difference is expressed as the Move (arm 2) group minus the Move Out (arm 1) group|This is the analysis at 24 months, comparing the change in weight from 24 months to baseline in our Move Out (arm 1) vs Move (arm 2) groups||1.7181|-0.5395|0.3062
82512558|NCT00378703|164717718|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm B (bevacizumab and temsirolimus) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk)||||0.89
82512559|NCT00378703|164717718|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm C (bevacizumab and sorafenib) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk).||||0.54
82512560|NCT00378703|164717718|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Log Rank|||Progression-free survival was compared between Arm D (sorafenib and temsirolimus) and Arm A (bevacizumab alone) using stratified log rank test, stratified on prior cytokine or vaccine therapy and risk category (low/intermediate/high risk).||||0.68
82569232|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.106|0.01|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.010|-0.106|
82569233|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.065|0.051|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.051|-0.065|
82379610|NCT05201794|164468480|SUPERIORITY||Odds Ratio (OR)|67.2|||=|0.1418|ONE_SIDED|80.0|14.9|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||14.9|=0.1418
82379611|NCT05201794|164468481|SUPERIORITY||Odds Ratio (OR)|87.8|||=|0.0192|ONE_SIDED|80.0|58.1|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||58.1|=0.0192
82379612|NCT05201794|164468481|SUPERIORITY||Odds Ratio (OR)|62.9|||=|0.1131|ONE_SIDED|80.0|20.0|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||20|=0.1131
82379613|NCT05201794|164468482|SUPERIORITY||Odds Ratio (OR)|85.4|||=|0.0302|ONE_SIDED|80.0|62.6|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||62.6|=0.0302
82379614|NCT05201794|164468482|SUPERIORITY||Odds Ratio (OR)|60.5|||=|0.2239|ONE_SIDED|80.0|-6.3|||One-sided p-value|Exact logistic regression model|P-value was obtained from an exact logistic regression model adjusted for stratification factor region (America, Asia).|1-sided odds-ratio and 80% CI were obtained from exact logistic regression model adjusted for region (America, Asia).|The study was prematurely terminated before reaching the number of laboratory-confirmed DENV infections that were planned for the interim analysis. The 1-sided 20% significance level was described in the protocol as the significance level for PoC when the planned interim analysis would have been performed.|||-6.3|=0.2239
82379615|NCT06418529|164468489|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.85|1.05||||||||1.05|0.85|
82379616|NCT06418529|164468490|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.83|1.07||||||||1.07|0.83|
82379617|NCT06418529|164468491|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.79|0.99||||||||0.99|0.79|
82569234|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.072|0.044|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.044|-0.072|
82379618|NCT06418529|164468492|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.79|1.04||||||||1.04|0.79|
82379619|NCT06418529|164468493|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.81|1.05||||||||1.05|0.81|
82512561|NCT00378703|164717721|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.0076
82512562|NCT00378703|164717721|SUPERIORITY_OR_OTHER|||||||0.0085|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.0085
82512563|NCT00378703|164717721|SUPERIORITY_OR_OTHER|||||||0.3006|TWO_SIDED|||||Each combination arm was compared with the bevacizumab alone arm. Since there were 3 pairwise comparisons, a Bonferroni--adjusted p-value of 0.017 was considered to be statistically significant.|Fisher Exact|||The response rate of each combination arm was compared to that of the bevacizumab alone arm.||||0.3006
82512564|NCT02915744|164717766|OTHER||ESMO-MCBS (v1.0)|1.0|||||TWO_SIDED|||||||||||||
82569235|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|-0.017|0.099|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.099|-0.017|
82633733|NCT02140762|164983560|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|59.1|||||TWO_SIDED|||||||||Vaccine effectiveness \<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity strains in ABCWY)/(% of not killed strains/without bactericidal activity strains in ACWY)\*100\].||||
82633734|NCT02140762|164983561|SUPERIORITY_OR_OTHER||Vaccine effectiveness|44.0|||<|0.0001|TWO_SIDED|95.0|41.0|47.0|||General Linear Model (GLM)||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the LL of the 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 4 months after the second injection for each strain is defined as \[1 - (% of subjects without bactericidal activity at 1:4 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100.The combined VE across all strains will be computed by mean of a generalized linear model.||47|41|< 0.0001
82633735|NCT02140762|164983561|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|9.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82633736|NCT02140762|164983561|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|22.7|||||TWO_SIDED|||||||||Vaccine effectiveness\<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82379620|NCT06418529|164468494|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.09||||||||1.09|0.79|
82512565|NCT00813358|164717768|NON_INFERIORITY|NI=7%|KM product-limit estimator|99.1|||||TWO_SIDED|95.0|97.4|100.0||||||||100|97.4|
82512566|NCT04497987|164717769|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.26|0.63|||Regression, Logistic|||||0.63|0.26|<0.001
82512567|NCT04497987|164717770|SUPERIORITY||Odds Ratio (OR)|0.43|||<|0.001|TWO_SIDED|95.0|0.27|0.67|||Regression, Logistic|||||0.67|0.27|<0.001
82512568|NCT04497987|164717771|SUPERIORITY||Odds Ratio (OR)|0.66||||0.021|TWO_SIDED|95.0|0.46|0.94|||Regression, Logistic|||||0.94|0.46|0.021
82512569|NCT03890367|164717810|NON_INFERIORITY|The two-sided 97.5 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was greater than (\>) -10%.|Difference in Percentage|10.43|||||TWO_SIDED|97.5|5.68|16.2||||||||16.2|5.68|
82512570|NCT03890367|164717811|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|16.3|||||TWO_SIDED|97.5|12.7|21.0||||||||21.0|12.7|
82569236|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.024|0.093|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.093|-0.024|
82569237|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.065|0.051|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.051|-0.065|
82569238|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.032|0.148|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.148|0.032|
82379621|NCT04653454|164468496|SUPERIORITY|||||||0.129||||||Hypoglycemic Episodes \<54 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.129
82379622|NCT04653454|164468496|SUPERIORITY|||||||0.008||||||Hypoglycemic Episodes \<70 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.008
82379623|NCT04653454|164468497|SUPERIORITY|||||||0.203||||||Hypoglycemic Episodes \<54 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.203
82512571|NCT03890367|164717812|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|16.3|||||TWO_SIDED|97.5|12.7|21.0||||||||21.0|12.7|
82512572|NCT03890367|164717813|SUPERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The superiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>0%.|Difference in Percentage|10.43|||||TWO_SIDED|97.5|5.68|16.2||||||||16.20|5.68|
82512573|NCT03890367|164717814|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|0.0|||||TWO_SIDED|97.5|-2.3|2.28||||||||2.28|-2.30|
82512574|NCT03890367|164717815|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|1.32|||||TWO_SIDED|97.5|1.06|1.64||||||||1.64|1.06|
82512575|NCT03890367|164717816|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|1.32|||||TWO_SIDED|97.5|1.06|1.64||||||||1.64|1.06|
82512576|NCT03890367|164717817|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|5.24|||||TWO_SIDED|97.5|1.83|9.85||||||||9.85|1.83|
82512577|NCT03890367|164717818|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|6.8|||||TWO_SIDED|97.5|5.04|9.18||||||||9.18|5.04|
82512578|NCT03890367|164717819|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|6.8|||||TWO_SIDED|97.5|5.04|9.18||||||||9.18|5.04|
82512579|NCT03890367|164717820|NON_INFERIORITY|The two-sided 97.5% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 97.5% CI of the percentage difference between compared groups was \>-10%.|Difference in Percentage|0.0|||||TWO_SIDED|97.5|-2.71|2.67||||||||2.67|-2.71|
82512580|NCT03890367|164717821|NON_INFERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The non-inferiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1/1.5.|GMT Ratio|2.27|||||TWO_SIDED|97.5|1.82|2.84||||||||2.84|1.82|
82512581|NCT03890367|164717822|SUPERIORITY|The two-sided 97.5% CI of the ratio of post-vaccination GMTs was calculated using normal approximation of log-transformed titers. The superiority was demonstrated if the lower limit of the two-sided 97.5% CI of the ratio of GMTs between compared groups was \>1.|GMT Ratio|2.27|||||TWO_SIDED|97.5|1.82|2.84||||||||2.84|1.82|
82512582|NCT04011475|164717830|OTHER|||||||0.0276|||||||Log Rank|||||||0.0276
82512583|NCT04011475|164717830|OTHER||Hazard Ratio (HR)|0.875||||0.6665|TWO_SIDED|95.0|0.47|1.604|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group A versus group B using group B as reference.|||1.604|0.47|0.6665
82512584|NCT04011475|164717830|OTHER||Hazard Ratio (HR)|2.377||||0.031|TWO_SIDED|95.0|1.083|5.221|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group A versus group C using group C as reference.|||5.221|1.083|0.0310
82512585|NCT04011475|164717830|OTHER||Hazard Ratio (HR)|2.716||||0.0116|TWO_SIDED|95.0|1.25|5.901|||Regression, Cox||Hazard Ratio (HR) was from Cox regression comparing group B versus group C using group C as reference.|||5.901|1.250|0.0116
82512586|NCT04011475|164717831|OTHER||Rate ratio|0.67||||0.0756|TWO_SIDED|95.0|0.43|1.04|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.04|0.43|0.0756
82512587|NCT04011475|164717831|OTHER||Rate ratio|4.36|||<|0.0001|TWO_SIDED|95.0|2.27|8.4|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||8.40|2.27|< 0.0001
82512588|NCT04011475|164717831|OTHER||Rate ratio|0.34||||0.0022|TWO_SIDED|95.0|0.17|0.68|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.68|0.17|0.0022
82512589|NCT04011475|164717832|OTHER||Rate ratio|1.25||||0.7394|TWO_SIDED|95.0|0.34|4.65|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||4.65|0.34|0.7394
82512590|NCT04011475|164717833|OTHER||Rate ratio|0.65||||0.1116|TWO_SIDED|95.0|0.38|1.11|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.11|0.38|0.1116
82379624|NCT04653454|164468497|SUPERIORITY||||||<|0.001||||||Hypoglycemic Episodes \<70 mg/dL|Wilcoxon (Mann-Whitney)|||||||<0.001
82379625|NCT04653454|164468499|SUPERIORITY|||||||0.076||||||Hyperglycemic Episodes \>180 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.076
82379626|NCT04653454|164468499|SUPERIORITY|||||||0.038||||||Hyperglycemic Episodes \>250 mg/dL|Wilcoxon (Mann-Whitney)|||||||0.038
82379627|NCT04653454|164468500|SUPERIORITY||||||<|0.0001||||||Creatinine|Spearman Correlation coefficients|||||||<0.0001
82379628|NCT04653454|164468500|SUPERIORITY|||||||0.0002||||||139GFR|Spearman Correlation coefficients|||||||0.0002
82379629|NCT04653454|164468500|SUPERIORITY|||||||0.22||||||Bicarbonate|Spearman Correlation coefficients|||||||0.22
82379630|NCT04653454|164468500|SUPERIORITY|||||||0.48||||||Hemoglobin|Spearman Correlation coefficients|||||||0.48
82379631|NCT04653454|164468500|SUPERIORITY|||||||0.77||||||MAP|Spearman Correlation coefficients|||||||0.77
82379632|NCT04653454|164468500|SUPERIORITY|||||||0.0516||||||SpO2|Spearman Correlation coefficients|||||||0.0516
82379633|NCT03514459|164468515|SUPERIORITY||Prevalence ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.54|2.2|||Poisson regression|Robust standard errors||||2.20|1.54|<0.001
82512591|NCT04011475|164717833|OTHER||Rate ratio|3.78||||0.0004|TWO_SIDED|95.0|1.81|7.88|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||7.88|1.81|0.0004
82512592|NCT04011475|164717833|OTHER||Rate ratio|0.41||||0.0239|TWO_SIDED|95.0|0.19|0.89|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.89|0.19|0.0239
82512593|NCT04011475|164717834|OTHER||Rate ratio|0.71||||0.4164|TWO_SIDED|95.0|0.32|1.61|||Z-test||The rate ratio was from Poisson regression for Group A versus Group B using Group B as the reference group.|||1.61|0.32|0.4164
82512594|NCT04011475|164717834|OTHER||Rate ratio|7.0||||0.01|TWO_SIDED|95.0|1.59|30.8|||Z-test||The rate ratio was from Poisson regression for Group B versus Group C using Group C as the reference group.|||30.8|1.59|0.0100
82379634|NCT01321749|164468550|SUPERIORITY_OR_OTHER||||||<|0.05||5.0|||||Log Rank|||||||<0.05
82379635|NCT02763046|164468560|SUPERIORITY||Odds Ratio (OR)|1.32||||0.3512|TWO_SIDED|95.0|0.74|2.36|||Regression, Logistic|||||2.36|0.74|0.3512
82512595|NCT04011475|164717834|OTHER||Rate ratio|0.2||||0.0377|TWO_SIDED|95.0|0.04|0.91|||Z-test||The rate ratio was from Poisson regression for Group C versus Group A using Group A as the reference group.|||0.91|0.04|0.0377
82512596|NCT04011475|164717835|OTHER|||||||0.2035|||||||Log Rank|||||||0.2035
82512597|NCT04011475|164717836|OTHER|||||||0.1858|||||||Chi-squared|Chi-square test was applied for assessing the inter-group difference.||||||0.1858
82512598|NCT04011475|164717837|OTHER|||||||0.0144|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.0144
82512599|NCT04011475|164717837|OTHER|||||||0.9219|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.9219
82512600|NCT04011475|164717837|OTHER|||||||0.959|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.9590
82569239|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|0.001|0.118|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.118|0.001|
82379636|NCT02763046|164468561|SUPERIORITY||Odds Ratio (OR)|1.33||||0.401|TWO_SIDED|95.0|0.68|2.6|||Regression, Logistic|||Week 12||2.60|0.68|0.4010
82379637|NCT02763046|164468561|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4382|TWO_SIDED|95.0|0.67|2.55|||Regression, Logistic|||Week 12||2.55|0.67|0.4382
82379638|NCT02763046|164468561|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0934|TWO_SIDED|95.0|0.91|3.5|||Regression, Logistic|||Week 16||3.50|0.91|0.0934
82379639|NCT02763046|164468561|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2619|TWO_SIDED|95.0|0.75|2.9|||Regression, Logistic|||Week 16||2.90|0.75|0.2619
82512601|NCT04011475|164717838|OTHER|||||||0.2909|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.2909
82512602|NCT04011475|164717838|OTHER|||||||0.1618|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.1618
82512603|NCT04011475|164717838|OTHER|||||||0.4695|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.4695
82512604|NCT04011475|164717839|OTHER||||||>|0.9999|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||> 0.9999
82512605|NCT04011475|164717839|OTHER|||||||0.2516|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.2516
82512606|NCT04011475|164717839|OTHER|||||||0.0036|||||||Pair t-test|Pair t-test was used for assessing the intra-group difference.||||||0.0036
82512607|NCT04011475|164717840|OTHER|||||||0.6189|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.6189
82512608|NCT04011475|164717840|OTHER|||||||0.7656|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.7656
82512609|NCT04011475|164717840|OTHER|||||||0.3594|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was used for assessing the intra-group difference.||||||0.3594
82512610|NCT04011475|164717841|OTHER|||||||0.0483|||||||Chi-squared|Chi-square test was applied for assessing the inter-group difference.||||||0.0483
82512611|NCT05036642|164717848|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.02
82512612|NCT05036642|164717849|OTHER|||||||0.01|||||||ANOVA|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.01
82512613|NCT05036642|164717850|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Difference in measurements from 'no device' (baseline) to 'with device.'||||0.48
82512614|NCT02066298|164717861|SUPERIORITY|||||||0.14|||||||exact binomial test|a priori threshold for significance was 0.025||The null hypothesis was that, among those participants for which either mometasone is not equal to placebo, the proportion for which mometasone is superior to placebo is equal to the proportion for which placebo is superior to mometasone. The trial was designed to provide power of 0.85 for a 0.20 difference between the proportions being compared at a significance level of 0.025.||||0.14
82512615|NCT02066298|164717861|SUPERIORITY|||||||0.029||||||a priori threshold for significance was 0.025|exact binomial test|||The null hypothesis was that, among those participants for which either tiotropium is not equal to placebo, the proportion for which tiotropium is superior to placebo is equal to the proportion for which placebo is superior to tiotropium. The trial was designed to provide power of 0.85 for a 0.20 difference between the proportions being compared at a significance level of 0.025.||||0.029
82512616|NCT02066298|164717861|SUPERIORITY|||||||0.001||||||this analysis is considered exploratory|exact binomial test|||The null hypothesis was that, among those participants for which either mometasone is not equal to placebo, the proportion for which mometasone is superior to placebo is equal to the proportion for which placebo is superior to mometasone. This was an exploratory analysis and there were no power considerations.||||0.001
82512617|NCT02066298|164717861|SUPERIORITY|||||||0.45||||||this analysis is considered exploratory|exact binomial test|||The null hypothesis was that, among those participants for which either tiotropium is not equal to placebo, the proportion for which tiotropium is superior to placebo is equal to the proportion for which placebo is superior to tiotropium. This was an exploratory analysis and there were no power considerations.||||0.45
82512618|NCT00630877|164717885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82512619|NCT00630877|164717887|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
82512620|NCT00630877|164717888|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
82512621|NCT00630877|164717889|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
82512622|NCT00630877|164717890|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Spearman rank-order correlation|||||||<0.0001
82512623|NCT00630877|164717891|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Independent groups t-test|||||||0.002
82512624|NCT00630877|164717892|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Independent groups t-test|||||||<0.001
82569240|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.002|0.114|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.114|-0.002|
82569241|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.089|0.028|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.028|-0.089|
82379640|NCT02763046|164468562|SUPERIORITY||LS (least square) Mean|-10.29|STANDARD_ERROR_OF_MEAN|6.25||0.0997|TWO_SIDED|95.0|-22.55|1.96|||Mixed Model for Repeated Measures (MMRM)|||||1.96|-22.55|0.0997
82379641|NCT02763046|164468562|SUPERIORITY||LS Mean|-12.3|STANDARD_ERROR_OF_MEAN|7.23||0.0888|TWO_SIDED|95.0|-26.47|1.87|||Mixed Model for Repeated Measures (MMRM)|||||1.87|-26.47|0.0888
82379642|NCT02763046|164468562|SUPERIORITY||LS Mean|-8.29|STANDARD_ERROR_OF_MEAN|7.18||0.2484|TWO_SIDED|95.0|-22.36|5.79|||Mixed Model for Repeated Measures (MMRM)|||||5.79|-22.36|0.2484
82379643|NCT02763046|164468563|SUPERIORITY||LS Mean|-2.06||||0.7735|TWO_SIDED|95.0|-16.11|11.98|||Mixed Model for Repeated Measures (MMRM)|||delayed tapering (W12) vs early tapering (W16)||11.98|-16.11|0.7735
82379644|NCT02763046|164468564|SUPERIORITY||LS Mean|-0.39|STANDARD_ERROR_OF_MEAN|0.3||0.1926|TWO_SIDED|95.0|-0.99|0.2|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.20|-0.99|0.1926
82379645|NCT02763046|164468564|SUPERIORITY||LS Mean|-0.46|STANDARD_ERROR_OF_MEAN|0.35||0.1914|TWO_SIDED|95.0|-1.14|0.23|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.23|-1.14|0.1914
82512625|NCT02033889|164717906|SUPERIORITY||Difference in Least Squares Means|-0.88|||<|0.001|TWO_SIDED|95.0|-1.05|-0.71|||Constrained Longitudinal Data Analysis||||Based on Constrained Longitudinal Data Analysis (cLDA) model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another anti-hyperglycemic agent, AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-0.71|-1.05|<0.001
82379646|NCT02763046|164468564|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.34||0.3397|TWO_SIDED|95.0|-1.01|0.35|||Mixed Model for Repeated Measures (MMRM)|||Week 12||0.35|-1.01|0.3397
82379647|NCT02763046|164468564|SUPERIORITY||LS Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.33||0.0384|TWO_SIDED|95.0|-1.33|-0.04|||Mixed Model for Repeated Measures (MMRM)|||Week 16||-0.04|-1.33|0.0384
82569242|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.092|0.024|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.024|-0.092|
82633737|NCT02140762|164983561|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|19.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82379648|NCT02763046|164468564|SUPERIORITY||LS Mean|-0.41|STANDARD_ERROR_OF_MEAN|0.33||0.2116|TWO_SIDED|95.0|-1.05|0.23|||Mixed Model for Repeated Measures (MMRM)|||Week 16||0.23|-1.05|0.2116
82379649|NCT02763046|164468565|SUPERIORITY||LS Mean|0.63|STANDARD_ERROR_OF_MEAN|1.02||0.5384|TWO_SIDED|95.0|-1.38|2.63|||Mixed Model for Repeated Measures (MMRM)|||||2.63|-1.38|0.5384
82379650|NCT02763046|164468565|SUPERIORITY||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|1.18||0.9251|TWO_SIDED|95.0|-2.43|2.21|||Mixed Model for Repeated Measures (MMRM)|||||2.21|-2.43|0.9251
82379651|NCT02763046|164468565|SUPERIORITY||LS Mean|1.36|STANDARD_ERROR_OF_MEAN|1.16||0.2432|TWO_SIDED|95.0|-0.93|3.66|||Mixed Model for Repeated Measures (MMRM)|||||3.66|-0.93|0.2432
82379652|NCT00080912|164468566|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The original sample size was determined based on the non-inferiority. The original sample size is based on assumption of response rate on the multiple fraction arm is 70%, 260 patients were required in each treatment arm to have 80% power to exclude, with a one sided alpha of 0.05, a response rate of 60% or less in the single fraction radiation group (non-inferiority margin =10%). Given an inevaluability rate of 30%, 850 patients (425 for each treatment arm) were randomized to the study.|Risk Difference (RD)|4.0||||0.03|ONE_SIDED|95.0||9.2||p-value is for one-sided non-inferiority test|Cochran-Mantel-Haenszel||The upper limit of one-sided 95% CI for the response rate difference was 9.2%, which was below the pre-specified 10% non-inferiority boundary|||9.2||0.03
82379653|NCT00725491|164468593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Whitehead|||||||<0.001
82379654|NCT01495000|164468595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.05|||<|0.0001|TWO_SIDED|95.0|1.91|4.19|||ANCOVA|||||4.19|1.91|<0.0001
82379655|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9326|||||TWO_SIDED|95.0|0.9048|0.9604||||||Time point: 0-2 hours||0.9604|0.9048|
82379656|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9431|||||TWO_SIDED|95.0|0.9081|0.9782||||||Time point: 2-4 hours||0.9782|0.9081|
82379657|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9503|||||TWO_SIDED|95.0|0.9419|0.9857||||||Time point: 4-9 hours||0.9857|0.9419|
82633738|NCT02140762|164983561|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|38.2|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:4 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82379658|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9197|||||TWO_SIDED|95.0|0.8914|0.948||||||Time point: 0-2 hours||0.9480|0.8914|
82379659|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9349|||||TWO_SIDED|95.0|0.8986|0.9712||||||Time point: 2-4 hours||0.9712|0.8986|
82379660|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9498|||||TWO_SIDED|95.0|0.919|0.9805||||||Time point: 4-9 hours||0.9805|0.9190|
82379661|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9412|||||TWO_SIDED|95.0|0.9102|0.9722||||||Time point: 0-2 hours||0.9722|0.9102|
82379662|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9419|||||TWO_SIDED|95.0|0.9041|0.9796||||||Time point: 2-4 hours||0.9796|0.9041|
82379663|NCT01608100|164468614|SUPERIORITY_OR_OTHER||Area Under the Curve|0.9449|||||TWO_SIDED|95.0|0.9046|0.9852||||||Time point: 4-9 hours||0.9852|0.9046|
82379664|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|7.0||||0.0004|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||0.0004
82512626|NCT02033889|164717906|SUPERIORITY||Difference in Least Squares Means|-0.7|||<|0.001|TWO_SIDED|95.0|-0.87|-0.53|||Constrained Longitudinal Data Analysis||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another anti-hyperglycemic agent, AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-0.53|-0.87|<0.001
82512627|NCT02033889|164717908|OTHER||Difference in % vs Placebo/Glimepiride|1.5|||||TWO_SIDED|95.0|-2.1|5.4|||||||Miettinen \& Nurminen method was used to construct the 95% CI|5.4|-2.1|
82512628|NCT02033889|164717908|OTHER||Difference in % vs Placebo/Glimepiride|1.0|||||TWO_SIDED|95.0|-2.5|4.7|||||||Miettinen \& Nurminen method was used to construct the 95% CI|4.7|-2.5|
82512629|NCT02033889|164717909|SUPERIORITY||Difference in Least Squares Means|-38.25|||<|0.001|TWO_SIDED|95.0|-44.5|-31.99|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-31.99|-44.50|<0.001
82512630|NCT02033889|164717909|SUPERIORITY||Difference in the Least Squares Means|-26.69|||<|0.001|TWO_SIDED|95.0|-32.9|-20.48|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-20.48|-32.90|<0.001
82569243|NCT01040403|164848144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.062|0.055|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.055|-0.062|
82379665|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|2.31||||0.0004|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||0.0004
82379666|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.09||||0.0011|TWO_SIDED|95.0|1.59|5.95||Likelihood Ratio|Regression, Cox|||Hazard Ratio||5.95|1.59|0.0011
82379667|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|12.76|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
82379668|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|3.65|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
82379669|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.21|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|2.21|<0.0001
82379670|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|7.17|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
82379671|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|2.07|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
82379672|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.54||||0.0002|TWO_SIDED|95.0|1.84|6.87||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.87|1.84|0.0002
82379673|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|12.83|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
82379674|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|3.66|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
82379675|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.68|||<|0.0001|TWO_SIDED|95.0|2.25|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|2.25|<0.0001
82569244|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.087|0.223|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.223|0.087|
82569245|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.079|0.215|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.215|0.079|
82569246|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.058|0.195|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.195|0.058|
82569247|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.075|0.06|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.060|-0.075|
82569248|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.097|0.041|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.041|-0.097|
82569249|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.089|0.048|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.048|-0.089|
82569250|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.106|0.242|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.242|0.106|
82569251|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.113|0.25|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.250|0.113|
82569252|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|0.135|0.272|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.272|0.135|
82569253|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.061|0.076|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.076|-0.061|
82569254|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.038|0.098|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.098|-0.038|
82569255|NCT01040403|164848145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.046|0.09|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.090|-0.046|
82569256|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.114|0.013|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.013|-0.114|
82633739|NCT02140762|164983562|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|46.0|||<|0.0001|TWO_SIDED|95.0|43.0|49.0|||Generalized Linear Model||VE is based on the relative risk (RR).The Poisson Distribution and Log Link options were used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects:treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤ 10%. If the lower limit of the 95% CI for VE is \>10% the null hypothesis is to be rejected and effectiveness declared. The VE at 1 month after the 2nd injection for each strain is defined as \[1-(% of subjects without bactericidal activity at 1:8 dilution in MenABCWY group / % of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\]x100. The combined VE across all strains will be computed by mean of a generalized linear model.||49|43|<0.0001
82379676|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|6.07||||0.002|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||0.0020
82569257|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.055|0.071|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||0.071|-0.055|
82569258|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.074|0.053|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.053|-0.074|
82569259|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.004|0.122|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.122|-0.004|
82569260|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.024|0.104|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.104|-0.024|
82569261|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.082|0.045|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus +O 2.5/5|||0.045|-0.082|
82569262|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.047|0.174|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||0.174|0.047|
82569263|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.017|0.144|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.144|0.017|
82569264|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.005|0.132|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||0.132|0.005|
82569265|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.094|0.034|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.034|-0.094|
82569266|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.105|0.021|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.021|-0.105|
82569267|NCT01040403|164848146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|-0.075|0.052|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.052|-0.075|
82569268|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.759|STANDARD_ERROR_OF_MEAN|4.189|||TWO_SIDED|95.0|10.533|26.985|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-3h||26.985|10.533|
82569269|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.157|STANDARD_ERROR_OF_MEAN|4.173|||TWO_SIDED|95.0|16.962|33.351|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-3h||33.351|16.962|
82633740|NCT02140762|164983562|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|25.5|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82379677|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|2.09||||0.002|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||0.0020
82379678|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.95||||0.005|TWO_SIDED|95.0|1.41|6.05||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.05|1.41|0.0050
82379679|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|12.15|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value greater than the cutoff|Kaplan-Meier||||<0.0001
82379680|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Proportion Percentage|3.57|||<|0.0001|TWO_SIDED||||||Log Rank||Proportion percentage for subjects with ARCHITECT Troponin value less than or equal to the cutoff|Kaplan-Meier||||<0.0001
82512631|NCT02033889|164717910|SUPERIORITY||Difference in Least Squares Means|-1.6|||<|0.001|TWO_SIDED|95.0|-2.16|-1.03|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-1.03|-2.16|<0.001
82512632|NCT02033889|164717910|SUPERIORITY||Difference in Least Squares Means|-1.67|||<|0.001|TWO_SIDED|95.0|-2.24|-1.11|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status. Time was treated as a categorical variable.|-1.11|-2.24|<0.001
82379681|NCT01608100|164468615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.55|||<|0.0001|TWO_SIDED|95.0|2.08|6.03||Likelihood Ratio|Regression, Cox|||Hazard Ratio||6.03|2.08|<0.0001
82379682|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|84.44|||||TWO_SIDED|95.0|75.28|91.23||||||Time point: 0-2 hours||91.23|75.28|
82379683|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|92.21|||||TWO_SIDED|83.81|83.81|97.09||||||Time point: 2-4 hours||97.09|83.81|
82379684|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|93.9|||||TWO_SIDED|95.0|86.34|97.99||||||Time point: 4-9 hours||97.99|86.34|
82379685|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|85.26|||||TWO_SIDED|95.0|76.51|91.7||||||Time point: 0-2 hours||91.70|76.51|
82379686|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|91.86|||||TWO_SIDED|95.0|83.95|96.66||||||Time point: 2-4 hours||96.66|83.95|
82633741|NCT02140762|164983562|OTHER|For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].|Vaccine Effectiveness|19.1|||||TWO_SIDED|||||||||Vaccine effectiveness\<30%||||
82379687|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|94.95|||||TWO_SIDED|95.0|88.61|98.34||||||Time point: 4-9 hours||98.34|88.61|
82379688|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|87.32|||||TWO_SIDED|95.0|77.3|94.04||||||Time point: 0-2 hours||94.04|77.30|
82379689|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|92.0|||||TWO_SIDED|95.0|83.4|97.01||||||Time point: 2-4 hours||97.01|83.40|
82379690|NCT01608100|164468616|SUPERIORITY_OR_OTHER||Percent Sensitivity|93.15|||||TWO_SIDED|95.0|84.74|97.74||||||Time point: 4-9 hours||97.74|84.74|
82379691|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|85.73|||||TWO_SIDED|95.0|83.18|88.03||||||Time point: 0-2 hours||88.03|83.18|
82569270|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.804|STANDARD_ERROR_OF_MEAN|4.216|||TWO_SIDED|95.0|21.526|38.082|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-3h||38.082|21.526|
82379692|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|85.2|||||TWO_SIDED|95.0|82.66|87.5||||||Time point: 2-4 hours||87.50|82.66|
82379693|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|82.82|||||TWO_SIDED|95.0|79.99|85.4||||||Time point: 4-9 hours||85.40|79.99|
82379694|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|83.76|||||TWO_SIDED|95.0|81.12|86.17||||||Time point: 0-2 hours||86.17|81.12|
82379695|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|83.72|||||TWO_SIDED|95.0|81.09|86.11||||||Time point: 2-4 hours||86.11|81.09|
82379696|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|80.72|||||TWO_SIDED|95.0|77.82|83.39||||||Time point: 4-9 hours||83.39|77.82|
82633742|NCT02140762|164983562|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|10.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82379697|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|86.35|||||TWO_SIDED|95.0|83.79|88.63||||||Time point: 0-2 hours||88.63|83.79|
82379698|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|85.81|||||TWO_SIDED|95.0|83.31|88.07||||||Time point: 2-4 hours||88.07|83.31|
82379699|NCT01608100|164468617|SUPERIORITY_OR_OTHER||Percent Specificity|84.05|||||TWO_SIDED|95.0|81.31|86.54||||||Time point: 4-9 hours||86.54|81.31|
82379700|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.1|||||TWO_SIDED|95.0|96.82|98.95||||||Time point: 0-2 hours||98.95|96.82|
82379701|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.19|||||TWO_SIDED|95.0|98.25|99.7||||||Time point: 2-4 hours||99.70|98.25|
82569271|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.398|STANDARD_ERROR_OF_MEAN|4.173|||TWO_SIDED|95.0|-1.796|14.592|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-3h||14.592|-1.796|
82379702|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.23|||||TWO_SIDED|95.0|98.22|99.75||||||Time point: 4-9 hours||99.75|98.22|
82379703|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.08|||||TWO_SIDED|95.0|96.81|98.95||||||Time point: 0-2 hours||98.95|96.81|
82379704|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.05|||||TWO_SIDED|95.0|98.05|99.62||||||Time point: 2-4 hours||99.62|98.05|
82379705|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.24|||||TWO_SIDED|95.0|98.22|99.75||||||Time point: 4-9 hours||99.75|98.22|
82379706|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|98.73|||||TWO_SIDED|95.0|97.61|99.42||||||Time point: 0-2 hours||99.42|97.61|
82379707|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.2|||||TWO_SIDED|95.0|98.27|99.71||||||Time point: 2-4 hours||99.71|98.27|
82379708|NCT01608100|164468618|SUPERIORITY_OR_OTHER||Negative Predictive Value|99.25|||||TWO_SIDED|95.0|98.26|99.76||||||Time point: 4-9 hours||99.76|98.26|
82379709|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|38.78|||||TWO_SIDED|95.0|31.92|45.98||||||Time point: 0-2 hours||45.98|31.92|
82633743|NCT02140762|164983562|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|40.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82633744|NCT02140762|164983563|SUPERIORITY_OR_OTHER||Vaccine Effectiveness|20.0|||<|0.0001|TWO_SIDED|95.0|16.0|23.0||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|Generalized Linear Model||VE is based on the relative risk (RR). The POISSON DISTRIBUTION and LOG LINK options was used in the generalized linear model to compute the log10 RR and the corresponding confidence interval. Fixed effects: treatment group, strain (and center).|H0 (Null Hypothesis): Vaccine Effectiveness (VE) ≤10%. If the lower limit of 95% CI for VE is \> 10% the null hypothesis is to be rejected and effectiveness declared. The VE at 4 months after the 2nd injection for each strain is defined as \[1 - (% of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/% of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||23|16|< 0.0001
82379710|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.68|||||TWO_SIDED|95.0|29.03|42.76||||||Time point: 2-4 hours||42.76|29.03|
82512633|NCT02033889|164717911|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|4.48|||<|0.001|TWO_SIDED|95.0|2.64|7.62|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|7.62|2.64|<0.001
82379711|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|36.49|||||TWO_SIDED|95.0|29.99|43.38||||||Time point: 4-9 hours||43.38|29.99|
82379712|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|36.82|||||TWO_SIDED|95.0|30.43|43.56||||||Time point: 0-2 hours||43.56|30.43|
82379713|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.75|||||TWO_SIDED|95.0|29.43|42.45||||||Time point: 2-4 hours||42.45|29.43|
82379714|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|37.75|||||TWO_SIDED|95.0|31.71|44.09||||||Time point: 4-9 hours||44.09|31.71|
82379715|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.84|||||TWO_SIDED|95.0|28.7|43.47||||||Time point: 0-2 hours||43.47|28.70|
82379716|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.94|||||TWO_SIDED|95.0|29.16|43.16||||||Time point: 2-4 hours||43.16|29.16|
82569272|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.046|STANDARD_ERROR_OF_MEAN|4.239|||TWO_SIDED|95.0|2.721|19.37|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-3h||19.370|2.721|
82379717|NCT01608100|164468619|SUPERIORITY_OR_OTHER||Positive Predictive Value|35.05|||||TWO_SIDED|95.0|28.36|42.21||||||Time point: 4-9 hours||42.21|28.36|
82379718|NCT00780338|164468639|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.58
82379719|NCT00780338|164468641|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.61
82633745|NCT02140762|164983563|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|36.4|||||TWO_SIDED|||||||||Vaccine effectiveness\<10% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82633746|NCT02140762|164983563|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|15.5|||||TWO_SIDED|||||||||Vaccine effectiveness\<30% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82442217|NCT00734071|164592945|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|2.951||0.731|TWO_SIDED|95.0|-4.79|6.83||Statistical tests were 2-sided and results were presented with 95% confidence intervals with the estimated P-values at the 5% level of significance (ie, statistical significance if P\<0.05). No adjustments for multiplicity were made.|Mixed model for repeated measurements|||||6.83|-4.79|0.731
82523726|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.0||||0.446|TWO_SIDED|95.0|-109.0|48.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 4||48|-109|0.446
82569273|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.648|STANDARD_ERROR_OF_MEAN|4.204|||TWO_SIDED|95.0|-3.608|12.903|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-3h||12.903|-3.608|
82569274|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.318|STANDARD_ERROR_OF_MEAN|4.201|||TWO_SIDED|95.0|10.068|26.568|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-3h||26.568|10.068|
82569275|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.511|STANDARD_ERROR_OF_MEAN|4.197|||TWO_SIDED|95.0|15.27|31.752|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-3h||31.752|15.270|
82569276|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.817|STANDARD_ERROR_OF_MEAN|4.214|||TWO_SIDED|95.0|14.543|31.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-3h||31.092|14.543|
82569277|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.193|STANDARD_ERROR_OF_MEAN|4.23|||TWO_SIDED|95.0|-3.115|13.5|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-3h||13.500|-3.115|
82569278|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.499|STANDARD_ERROR_OF_MEAN|4.185|||TWO_SIDED|95.0|-3.719|12.717|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-3h||12.717|-3.719|
82569279|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.694|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-8.941|7.554|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-3h||7.554|-8.941|
82569280|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.751|STANDARD_ERROR_OF_MEAN|4.013|||TWO_SIDED|95.0|10.87|26.632|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|AUC 0-6h||26.632|10.870|
82569281|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.009|STANDARD_ERROR_OF_MEAN|3.998|||TWO_SIDED|95.0|18.158|33.86|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|AUC 0-6h||33.860|18.158|
82569282|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.347|STANDARD_ERROR_OF_MEAN|4.039|||TWO_SIDED|95.0|21.416|37.278|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|AUC 0-6h||37.278|21.416|
82569283|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.259|STANDARD_ERROR_OF_MEAN|3.998|||TWO_SIDED|95.0|-0.592|15.109|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|AUC 0-6h||15.109|-0.592|
82569284|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.596|STANDARD_ERROR_OF_MEAN|4.061|||TWO_SIDED|95.0|2.621|18.571|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|AUC 0-6h||18.571|2.621|
82569285|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.337|STANDARD_ERROR_OF_MEAN|4.028|||TWO_SIDED|95.0|-4.572|11.247|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|AUC 0-6h||11.247|-4.572|
82569286|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.654|STANDARD_ERROR_OF_MEAN|4.025|||TWO_SIDED|95.0|11.75|27.558|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|AUC 0-6h||27.558|11.750|
82569287|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.762|STANDARD_ERROR_OF_MEAN|4.021|||TWO_SIDED|95.0|14.866|30.659|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|AUC 0-6h||30.659|14.866|
82569288|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.536|STANDARD_ERROR_OF_MEAN|4.038|||TWO_SIDED|95.0|17.607|33.464|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|AUC 0-6h||33.464|17.607|
82569289|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.108|STANDARD_ERROR_OF_MEAN|4.053|||TWO_SIDED|95.0|-4.852|11.067|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|AUC 0-6h||11.067|-4.852|
82569290|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.881|STANDARD_ERROR_OF_MEAN|4.009|||TWO_SIDED|95.0|-1.991|13.754|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|AUC 0-6h||13.754|-1.991|
82569291|NCT01040403|164848147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.773|STANDARD_ERROR_OF_MEAN|4.024|||TWO_SIDED|95.0|-5.129|10.675|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|AUC 0-6h||10.675|-5.129|
82569292|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.316|STANDARD_ERROR_OF_MEAN|4.371|||TWO_SIDED|95.0|-6.268|10.9|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||10.900|-6.268|
82569293|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.478|STANDARD_ERROR_OF_MEAN|4.362|||TWO_SIDED|95.0|-4.088|13.044|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||13.044|-4.088|
82569294|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.668|STANDARD_ERROR_OF_MEAN|4.403|||TWO_SIDED|95.0|-3.978|13.314|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||13.314|-3.978|
82569295|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.162|STANDARD_ERROR_OF_MEAN|4.349|||TWO_SIDED|95.0|-6.379|10.702|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||10.702|-6.379|
82569296|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.352|STANDARD_ERROR_OF_MEAN|4.419|||TWO_SIDED|95.0|-6.326|11.029|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||11.029|-6.326|
82569297|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|4.39|||TWO_SIDED|95.0|-8.43|8.81|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||8.810|-8.430|
82569298|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.488|STANDARD_ERROR_OF_MEAN|4.392|||TWO_SIDED|95.0|-7.136|10.113|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||10.113|-7.136|
82569299|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.262|STANDARD_ERROR_OF_MEAN|4.386|||TWO_SIDED|95.0|-5.35|11.875|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||11.875|-5.350|
82569300|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.121|STANDARD_ERROR_OF_MEAN|4.408|||TWO_SIDED|95.0|-1.535|15.778|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||15.778|-1.535|
82633747|NCT02140762|164983563|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|20.9|||||TWO_SIDED|||||||||Vaccine effectiveness\<60% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82633748|NCT02140762|164983563|OTHER|Vaccine effectiveness at one month after the second vaccination against each of the endemic US N.meningitidis serogroup B strains. Each individual strain data was analysed separately with treatment group as only independent variable in the model.|Vaccine Effectiveness|11.8|||||TWO_SIDED|||||||||Vaccine effectiveness\<100% For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated. For each strain, vaccine effectiveness (VE) of the MenABCWY compared to MenACWY was evaluated as VE= \[1- (% not killed/without bactericidal activity at 1:8 dilution in MenABCWY group)/(% of not killed strains/without bactericidal activity in ACWY group)\*100\].||||
82633749|NCT00537810|164983596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Chi-squared|df=3||Post-treatment||||0.60
82512634|NCT02033889|164717911|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|3.03|||<|0.001|TWO_SIDED|95.0|1.81|5.06|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|5.06|1.81|<0.001
82569301|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.774|STANDARD_ERROR_OF_MEAN|4.423|||TWO_SIDED|95.0|-6.91|10.458|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||10.458|-6.910|
82633750|NCT00537810|164983596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Chi-squared|df=3||6 month follow up||||0.13
82633751|NCT00537810|164983596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|df=3||12 month follow up||||0.29
82633752|NCT02253173|164983614|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633753|NCT02253173|164983614|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633754|NCT02253173|164983614|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633755|NCT02253173|164983615|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633756|NCT02253173|164983615|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633757|NCT02253173|164983615|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633758|NCT02253173|164983616|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512635|NCT02033889|164717912|SUPERIORITY||Difference in Least Squares Means|-4.5|||<|0.001|TWO_SIDED|95.0|-6.81|-2.19|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-2.19|-6.81|<0.001
82512636|NCT02033889|164717912|SUPERIORITY||Difference in Least Squares Means|-3.68||||0.002|TWO_SIDED|95.0|-5.96|-1.39|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-1.39|-5.96|0.002
82379720|NCT00780338|164468642|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.09
82633759|NCT02253173|164983616|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633760|NCT02253173|164983616|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512637|NCT02033889|164717913|SUPERIORITY||Difference in Least Squares Means|-2.42||||0.001|TWO_SIDED|95.0|-3.86|-0.98|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.98|-3.86|0.001
82512638|NCT02033889|164717913|SUPERIORITY||Difference in Least Squares Means|-1.82||||0.013|TWO_SIDED|95.0|-3.24|-0.39|||Constrained Longitudinal Data Analysis||||Based on the cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.39|-3.24|0.013
82633761|NCT02253173|164983617|SUPERIORITY_OR_OTHER|||||||0.0149|||||||Mixed Models Analysis|||||||0.0149
82633762|NCT02253173|164983617|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633763|NCT02253173|164983617|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633764|NCT02253173|164983618|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633765|NCT02253173|164983618|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512639|NCT02033889|164717914|SUPERIORITY||Adjusted Odds Ratio|5.41|||<|0.001|TWO_SIDED|95.0|2.1|13.9|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|13.90|2.10|<0.001
82512640|NCT02033889|164717914|SUPERIORITY||Adjusted Odds Ratio|3.1||||0.023|TWO_SIDED|95.0|1.17|8.22|||Regression, Logistic||||Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, prior antihyperglycemic medication (metformin monotherapy or metformin + another AHA), menopausal status, covariates for baseline A1C and baseline eGFR (continuous). Missing data imputed using a multiple imputation procedure based on cLDA prediction modeling with fixed effects as in the primary analysis, which allows for participants with missing data to be included in the analysis.|8.22|1.17|0.023
82512641|NCT02033889|164717915|SUPERIORITY||Difference in % vs Placebo|-16.2|||<|0.001|TWO_SIDED|95.0|-22.2|-11.2|||Miettinen & Nurminen method|Miettinen \& Nurminen method was used to construct both the 95% CI and derive p-value for the difference between the proportions (i.e. percentages).||||-11.2|-22.2|<0.001
82512642|NCT02033889|164717915|SUPERIORITY||Difference in % vs Placebo|-14.8|||<|0.001|TWO_SIDED|95.0|-20.9|-9.4|||Miettinen & Nurminen method.|Miettinen \& Nurminen method was used to construct both the 95% CI and derive p-value for the difference between the proportions (i.e. percentages).||||-9.4|-20.9|<0.001
82512643|NCT02033889|164717934|OTHER||Difference in the Least Squares Means|-0.1|||||TWO_SIDED|95.0|-0.71|0.5|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.50|-0.71|
82633766|NCT02253173|164983618|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633767|NCT02253173|164983619|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82379721|NCT00780338|164468643|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.01
82379722|NCT00780338|164468644|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.00
82512644|NCT02033889|164717934|OTHER||Difference in the Least Squares Means|-0.23|||||TWO_SIDED|97.0|-0.83|0.37|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.37|-0.83|
82569302|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.663|STANDARD_ERROR_OF_MEAN|4.381|||TWO_SIDED|95.0|-2.97|14.236|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||14.236|-2.970|
82633768|NCT02253173|164983619|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633769|NCT02253173|164983619|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512645|NCT02033889|164717935|OTHER||Difference in the Least Squares Means|0.7|||||TWO_SIDED|95.0|0.0|1.39|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|1.39|0.00|
82379723|NCT00780338|164468645|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.45
82379724|NCT00780338|164468646|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.65
82379725|NCT00780338|164468647|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.00
82379726|NCT00780338|164468648|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||We first conducted an intent-to-treat analysis by fitting a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.||||.61
82379727|NCT00780338|164468649|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time. We report the interaction p value here.|Linear Growth Models|||Mirroring the intent-to-treat analysis (but comparing AGTO users to AGTO non users instead), we fitted a model with two sets of random effects, one for matched coalitions and one with random intercepts and linear functions of time to account for trajectories of repeated observations within respondent. The model included three fixed effect terms: group (AGTO vs. control), time (Baseline=0 years, Mid=1 year, Post=2 years), and an interaction between group and time.||||.02
82379728|NCT01288807|164468660|OTHER|repeated measure ANOVA|||||<|0.01|||||||ANOVA|||||||< 0.01
82379729|NCT01288807|164468661|OTHER|two-tailed paired t-test|||||<|0.05|||||||t-test, 2 sided|||This analysis looks at the cold threshold measured in degrees celcius before and after treatment.||||< 0.05
82512646|NCT02033889|164717935|OTHER||Difference in the Least Squares Means|0.3|||||TWO_SIDED|95.0|-0.38|0.99|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.99|-0.38|
82379730|NCT01288807|164468662|OTHER||||||>|0.05|||||||t-test, 2 sided|||This analysis looks at the pressure threshold measured in pounds per square inch before and after treatment||||> 0.05
82569303|NCT01040403|164848148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.859|STANDARD_ERROR_OF_MEAN|4.403|||TWO_SIDED|95.0|-4.786|12.504|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||12.504|-4.786|
82379731|NCT01288807|164468663|OTHER||||||>|0.05||||||one-way repeated measure ANOVA|ANOVA|||||||> 0.05
82379732|NCT02321111|164468665|OTHER|ANOVA||||||0.02|||||||ANOVA|||||||0.02
82512647|NCT02033889|164717936|OTHER||Difference in the Least Squares Means|0.27|||||TWO_SIDED|95.0|-0.15|0.68|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.68|-0.15|
82569304|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.682|STANDARD_ERROR_OF_MEAN|4.849|||TWO_SIDED|95.0|9.161|28.204|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||28.204|9.161|
82569305|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.599|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|14.116|33.083|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||33.083|14.116|
82569306|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.097|STANDARD_ERROR_OF_MEAN|4.879|||TWO_SIDED|95.0|20.517|39.677|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||39.677|20.517|
82379733|NCT00707239|164468670|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.4|||||TWO_SIDED|70.0|-21.6|10.9||||||Cure: Confidence interval (CI) was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70 percent (%) CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||10.9|-21.6|
82379734|NCT00707239|164468670|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.0|||||TWO_SIDED|70.0|-6.1|24.8||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||24.8|-6.1|
82379735|NCT00707239|164468671|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2|||||TWO_SIDED|70.0|-14.3|14.0||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||14.0|-14.3|
82379736|NCT00707239|164468671|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.5|||||TWO_SIDED|70.0|4.3|31.8||||||Cure: CI was calculated using the Wilson score method, with continuity correction. Clinical response (rates of cure) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||31.8|4.3|
82379737|NCT00707239|164468674|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-18.5|||||TWO_SIDED|70.0|-39.6|4.2||||||Eradication: CI was calculated using the Wilson score method, with continuity correction. Microbiological response (rates of eradication) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||4.2|-39.6|
82379738|NCT00707239|164468674|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|70.0|-23.8|20.9||||||Eradication: CI was calculated using the Wilson score method, with continuity correction. Microbiological response (rates of eradication) by using a 2-sided 70% CI for the true difference in efficacy (tigecycline regimen minus imipenem/cilastatin regimen) was calculated. Statistical testing was done at 15% alpha.||20.9|-23.8|
82379739|NCT00707239|164468675|SUPERIORITY_OR_OTHER|||||||0.527|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||Nausea: p-value was calculated using 2-tail Fischer's exact test.||||0.527
82569307|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.917|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|-4.568|14.402|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||14.402|-4.568|
82379740|NCT00707239|164468675|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||Vomiting: p-value was calculated using 2-tail Fischer's exact test.||||0.390
82569308|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.415|STANDARD_ERROR_OF_MEAN|4.907|||TWO_SIDED|95.0|1.78|21.05|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||21.050|1.780|
82569309|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.498|STANDARD_ERROR_OF_MEAN|4.866|||TWO_SIDED|95.0|-3.057|16.053|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||16.053|-3.057|
82379741|NCT00707239|164468676|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||p-value was calculated using 2-tail Fischer's exact test.||||1.000
82512648|NCT02033889|164717936|OTHER||Difference in the Least Squares Means|0.08|||||TWO_SIDED|95.0|-0.33|0.48|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.48|-0.33|
82379742|NCT00707239|164468677|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Statistical testing was done at 5% alpha.|Fisher Exact|||p-value was calculated using 2-tail Fischer's exact test.||||1.000
82512649|NCT02033889|164717937|OTHER||Difference in the Least Squares Means|-0.19|||||TWO_SIDED|95.0|-0.76|0.39|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.39|-0.76|
82633770|NCT02253173|164983620|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82379743|NCT00707239|164468683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0479||||0.78|TWO_SIDED|95.0|0.754|1.46|||Regression, Logistic|||Statistical analysis was carried out between categories, experienced nausea and did not experience nausea.||1.46|0.754|0.78
82379744|NCT00707239|164468683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84644||||0.356|TWO_SIDED|95.0|0.593|1.21|||Regression, Logistic|||Statistical analysis was carried out between categories, experienced vomiting and did not experience vomiting.||1.21|0.593|0.356
82379745|NCT00707239|164468684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0054||||0.836|TWO_SIDED|95.0|0.956|1.06|||Regression, Logistic|||Statistical analysis was carried out between categories, cure and failure/indeterminate.||1.06|0.956|0.836
82379746|NCT00707239|164468688|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||Intravenous antibiotic treatment: One-way analysis of variance (ANOVA) with treatment as factor was used to calculate p-value.||||0.245
82379747|NCT00707239|164468688|SUPERIORITY_OR_OTHER|||||||0.484|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||Hospital stay: One-way ANOVA with treatment as factor was used to calculate p-value.||||0.484
82379748|NCT00707239|164468688|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED|||||Statistical testing was done at 5% alpha.|ANOVA|||ICU stay: One-way ANOVA with treatment as factor was used to calculate p-value.||||0.192
82379749|NCT01400477|164468731|SUPERIORITY|||||||0.89||||||A priori vape was \<0.05|ANOVA|df 1, 37||||||0.89
82379750|NCT00262028|164468740|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the lower limit (LL) of the 95% confidence intervals (CI) of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|37.0|||||TWO_SIDED|95.0|29.0|44.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup A||44|29|
82379751|NCT00262028|164468740|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the lower LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.0|26.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup C||26|12|
82379752|NCT00262028|164468740|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|23.0|||||TWO_SIDED|95.0|17.0|29.0||||||Noninferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup W||29|17|
82379753|NCT00262028|164468740|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY-CRM was considered to be noninferior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator)in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> -10% against each serogroup|Vaccine group difference|31.0|||||TWO_SIDED|95.0|25.0|38.0||||||No inferiority of immune responses of MenACWY-CRM to licensed comparator against serogroup Y||38|25|
82379754|NCT00262028|164468740|SUPERIORITY_OR_OTHER||Vaccine group difference|37.0|||||TWO_SIDED|95.0|29.0|44.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup A~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||44|29|
82379755|NCT00262028|164468740|SUPERIORITY_OR_OTHER||Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.0|26.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup C~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||26|12|
82379756|NCT00262028|164468740|SUPERIORITY_OR_OTHER||Vaccine group difference|23.0|||||TWO_SIDED|95.0|17.0|29.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup W~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||29|17|
82379757|NCT00262028|164468740|SUPERIORITY_OR_OTHER||Vaccine group difference|31.0|||||TWO_SIDED|95.0|25.0|38.0||||||"Superiority of immune responses of MenACWY-CRM to licensed comparator against serogroup Y~MenACWY-CRM was considered to be superior to the licensed comparator if the LL of the 95% CI of the difference (MenACWY minus licensed comparator) in the percentage of the subjects with hSBA titer ≥ 1:4 at one month post vaccination was \> 0% against each serogroup"||38|25|
82379758|NCT04583735|164468752|SUPERIORITY||LSMean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.396||0.0004|TWO_SIDED|95.0|-2.28|-0.69||MMRM analysis with an unstructured variance-covariance matrix including change from Baseline value as dependent variable \& covariates: Baseline value, treatment group, visit, visit-by-treatment \& visit-by-Baseline value interactions.|MMRM|||||-0.69|-2.28|0.0004
82379759|NCT01875978|164468756|SUPERIORITY_OR_OTHER||||||<|0.05||||||P-value \<0.05 is significance meaningful.|t-test, 1 sided|Student's t-test, 1 sided||Hypothesis: phytosterols improve metabolic status||||<0.05
82379760|NCT01875978|164468757|SUPERIORITY_OR_OTHER||||||<|0.05||||||P value \<0.05 for statistical significance|t-test, 1 sided|Student's t test, 1 sided||Hypothesis: phytosterols increase the anti-oxidative capacity.||||<0.05
82379761|NCT01875978|164468758|SUPERIORITY_OR_OTHER||||||<|0.05||||||P\<0.05 for statistical significance|t-test, 1 sided|Student's t test, 1 sided||Phytosterols increase IGF-1||||<0.05
82379762|NCT01875978|164468759|SUPERIORITY_OR_OTHER||||||<|0.05||||||P value \<0.05 for statistical significance|t-test, 1 sided|Student's t-test, 1 sided||Hypothesis:phytosterols increase endothelial progenitor cells to provide endothelial repair and vessel protection||||<0.05
82379763|NCT04870710|164468768|SUPERIORITY||Median Difference (Net)|0.1||||0.1|TWO_SIDED||||||Friedman||||Non-parametric tests were used consisting of Friedman and Durbin Conover tests|||0.10
82512650|NCT02033889|164717937|OTHER||Difference in the Least Squares Means|-0.21|||||TWO_SIDED|95.0|-0.78|0.35|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.35|-0.78|
82633771|NCT02253173|164983620|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82379764|NCT05724589|164468799|SUPERIORITY|A repeated measures ANOVA was selected to analyze changes in skin hydration across four time points within the same participants..|Mean Difference (Final Values)|2.671||||1|TWO_SIDED|||||The p-value reflects the overall test for difference in hydration over time and is not adjusted for multiple comparisons. The pre-defined threshold for statistical significance was p \< 0.05.|ANOVA|No additional adjustments were applied. Degrees of freedom and sphericity assumptions were checked.|The mean difference was calculated based on changes in skin hydration from baseline to Week 16 using repeated measures ANOVA, in accordance with the pre-specified statistical analysis plan.|Skin hydration was evaluated longitudinally using repeated measures ANOVA at Baseline, Week 8, Week 12, and Week 16. This pre-specified statistical test assessed within-subject changes over time to determine the efficacy of the serum.|The overall p-value corresponds to the repeated measures ANOVA evaluating changes over four time points. No multiplicity adjustments were applied.|||1.000
82379765|NCT05724589|164468800|SUPERIORITY|The statistical analysis in this study to assess changes in Transepidermal Water Loss (TEWL) after serum application involved a repeated measures analysis of variance (ANOVA). This approach allows for the examination of differences in TEWL across multiple time points (baseline, 8 weeks, 12 weeks, and 16 weeks) within the same individuals. The use of repeated measures ANOVA accounts for the correlated nature of the data, as multiple measurements are obtained from each participant over time.|Mean Difference (Final Values)|-3.656||||0.096|TWO_SIDED|||||A repeated measures ANOVA was used to assess changes in hydration over time. The mean difference between baseline and 16 weeks was -3.656 (arbitrary units). Results are presented in the corresponding outcome measure table.|ANOVA|||||||0.096
82379766|NCT05724589|164468801|SUPERIORITY|The chosen test was designed to assess whether application of the intervention resulted in any statistically significant differences over time in the primary outcome measure, assuming superiority.|Mean Difference (Final Values)|-0.043||||0.169|TWO_SIDED|||||The pre-specified significance threshold was set at p \< 0.05. No adjustments for multiple comparisons were applied.|ANOVA|Sphericity tested; Greenhouse-Geisser applied if needed. Repeated measures ANOVA accounted for within-subject correlations.|The estimation parameter reflects the change in the R2 elasticity measure from baseline to 16 weeks. The direction of change is based on the final minus baseline value, with baseline serving as the reference point.|The statistical analysis utilized repeated measures ANOVA to evaluate changes in facial skin elasticity (R2 parameter) across multiple time points (Baseline, Week 8, Week 12, and Week 16) within the same participants. This approach accounts for the correlation of repeated measures over time.||||0.169
82379767|NCT05724589|164468802|SUPERIORITY|This study aimed to evaluate changes in wrinkle scores using a 4-grade percentage wrinkle improvement scale across different time points, including baseline, 8 weeks, 12 weeks, and 16 weeks|Mean Difference (Final Values)|1.0||||1|TWO_SIDED||||||ANOVA||The Mean Difference represents the change in wrinkle scores from baseline (Day 0) to follow-up at Week 8, Week 12, or Week 16. For example, a Mean Difference of 1.0 indicates a 1-point improvement from baseline to Week 16 (Week 16 - baseline score).|||||1.000
82379768|NCT05724589|164468803|SUPERIORITY|Repeated measures ANOVA was used to detect any change in facial melanin levels due to the intervention.|Mean Difference (Final Values)|-3.458||||1|TWO_SIDED|||||The p-value indicates no statistically significant change in facial melanin index over time. The p-value was not adjusted for multiple comparisons. Statistical significance was pre-specified at p \< 0.05.|ANOVA|Sphericity assumptions were checked and addressed as needed (e.g., Greenhouse-Geisser correction).|The estimation parameter reflects the mean change in melanin index from baseline to week 16. Baseline was used as the reference point in the analysis.|The statistical analysis assessed changes in facial melanin index after serum application using repeated measures ANOVA. This method evaluated differences across multiple time points (Baseline, Week 8, Week 12, and Week 16) within the same participants, accounting for the correlated nature of repeated measures.||||1.000
82379769|NCT05724589|164468804|SUPERIORITY|A descriptive analysis was performed. No hypothesis testing or power calculation was conducted for this outcome.|percentage of participants at week 16|44.0||||1|TWO_SIDED|||||The p-value reflects descriptive analysis of SGAIS improvement scores; no statistical testing for significance was conducted.|Descriptive|The evaluation involved categorical SGAIS ratings assigned by two independent dermatologists.|This estimate reflects the proportion of participants rated as showing mild improvement on the SGAIS at Week 16, as detailed in the tabular data.|Improvement in facial appearance was assessed using the Subject Global Aesthetic Improvement Scale (SGAIS), rated independently by two board-certified dermatologists at multiple time points (8, 12, and 16 weeks).||||1.000
82379770|NCT05724589|164468805|SUPERIORITY|Descriptive summary statistics were used to report satisfaction at multiple time points. No inferential testing was performed.|percentage of participants at week 16|75.0|||||TWO_SIDED||||||Descriptive|No formal statistical hypothesis testing was performed.|The estimated percentage reflects participants who reported a satisfaction score of 2 or 3 at week 16.|"Satisfaction was assessed at weeks 8, 12, and 16 using a quartile scale:~0 = Unsatisfied, 1 = Slightly satisfied, 2 = Satisfied, 3 = Very satisfied. One participant was lost to follow-up after week 12."||||
82379771|NCT05724589|164468806|SUPERIORITY|This was a descriptive safety analysis. No inferential hypothesis testing was conducted.|Percentage adverse events by week 16|0.0|||||TWO_SIDED||||||Descriptive|No formal statistical test was conducted.|Descriptive summaries of adverse event incidence are reported in the results tables.|The analysis population includes 28 participants. One subject was lost to follow-up at week 12. Adverse events were assessed through video calls at weeks 2 and 4, and in-person visits at 2, 3, and 4 months.||||
82379772|NCT00141778|164468832|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Chi-squared|||Discrete variables were compared among treatment groups with a chi-square test.||||0.95
82379773|NCT00141778|164468833|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
82379774|NCT00141778|164468834|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Chi-squared|||||||0.15
82379775|NCT00141778|164468835|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
82569310|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.742|STANDARD_ERROR_OF_MEAN|4.862|||TWO_SIDED|95.0|8.194|27.29|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||27.290|8.194|
82569311|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.115|STANDARD_ERROR_OF_MEAN|4.856|||TWO_SIDED|95.0|14.58|33.651|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||33.651|14.580|
82569312|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.095|STANDARD_ERROR_OF_MEAN|4.876|||TWO_SIDED|95.0|15.52|34.67|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||34.670|15.520|
82379776|NCT00141778|164468836|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Kruskal-Wallis|||||||0.56
82379777|NCT00141778|164468837|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Kruskal-Wallis|||||||0.15
82379778|NCT00141778|164468838|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Chi-squared|||||||0.38
82379779|NCT00141778|164468839|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Chi-squared|||||||0.65
82379780|NCT03051672|164468900|SUPERIORITY|||||||||||||The study terminated at stage 1 and no p-value was estimated.||||The study uses a Simon 2-stage design. In stage 1, if \>/=1 of 8 achieved OR then continue to stage 2 (enroll 19 more). If \>/= 3 of 27 respond, the regimen would be considered promising. The null ORR\<= 3% and alternative ORR\>/=20%. With this design, the probability of stopping the trial early is 58% if the true ORR is 3%. This design at 80% power to declare the combination effective, while controlling for less than 5% 1-sided type I error under the null hypothesis.|The study terminated at stage 1 and no p-value was estimated.|||
82379781|NCT01328184|164468904|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|102.82|STANDARD_DEVIATION|9.0|||TWO_SIDED|90.0|97.58|108.35|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||108.35|97.58|
82633772|NCT02253173|164983620|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82379782|NCT01328184|164468905|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|101.94|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|98.54|105.47|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||105.47|98.54|
82379783|NCT01328184|164468906|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|99.22|STANDARD_DEVIATION|10.4|||TWO_SIDED|90.0|93.4|105.39|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV).|No formal testing, investigation of relative bioavailability.||105.39|93.40|
82633773|NCT02253173|164983621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82379784|NCT01328184|164468907|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as Microgynon plus empa divided by Microgynon|Geometric Mean Ratio|105.81|STANDARD_DEVIATION|10.7|||TWO_SIDED|90.0|99.47|112.55|||ANOVA|Based on ANOVA with fixed term for treatment and random term for subject.|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability.||112.55|99.47|
82379785|NCT02360215|164468924|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.029|TWO_SIDED|95.0|0.59|0.96|||Gray's test|||Null hypothesis: the addition of HA-WBRT as compared to WBRT will increase time to neurocognitive failure from 53.8% in the WBRT arm to 42.8% in the HA-WBRT arm at 6 months. Treating death as a competing risk and using a Gray's test with two-sided α=0.05 to test for statistically significant difference in the distribution of neurocognitive failure times, it was calculated that 230 events over both arms would provide 90% statistical power.||0.96|0.59|0.029
82379786|NCT02360215|164468925|SUPERIORITY|||||||0.0586|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.0586
82379787|NCT02360215|164468925|SUPERIORITY|||||||0.0048|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\>61 year vs. \<= 61 years) is reported here.||||0.0048
82379788|NCT02360215|164468925|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Total Recall is reported here.||||<0.0001
82379789|NCT02360215|164468926|SUPERIORITY|||||||0.2656|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.2656
82379790|NCT02360215|164468926|SUPERIORITY|||||||0.0067|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0067
82569313|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.373|STANDARD_ERROR_OF_MEAN|4.896|||TWO_SIDED|95.0|-3.24|15.986|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||15.986|-3.240|
82633774|NCT02253173|164983621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633775|NCT02253173|164983621|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633776|NCT02253173|164983622|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633777|NCT02253173|164983622|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633778|NCT02253173|164983622|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512651|NCT02033889|164717941|OTHER||Difference in the Least Squares Means|0.17|||||TWO_SIDED|95.0|-0.53|0.88|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.88|-0.53|
82512652|NCT02033889|164717941|OTHER||Difference in the Least Squares Means|-0.18|||||TWO_SIDED|97.0|-0.88|0.51|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.51|-0.88|
82512653|NCT02033889|164717942|OTHER||Difference in the Least Squares Means|0.25|||||TWO_SIDED|95.0|-0.48|0.98|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.98|-0.48|
82512654|NCT02033889|164717942|OTHER||Difference in the Least Squares Means|0.2|||||TWO_SIDED|95.0|-0.51|0.91|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.91|-0.51|
82633779|NCT02253173|164983623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633780|NCT02253173|164983623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633781|NCT02253173|164983623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633782|NCT02253173|164983624|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633783|NCT02253173|164983624|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633784|NCT02253173|164983624|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633785|NCT02253173|164983625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633786|NCT02253173|164983625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633787|NCT02253173|164983625|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633788|NCT02253173|164983626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633789|NCT02253173|164983626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633790|NCT02253173|164983626|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633791|NCT02253173|164983627|SUPERIORITY_OR_OTHER|||||||0.026|||||||Mixed Models Analysis|||||||0.0260
82512655|NCT02033889|164717943|OTHER||Difference in the Least Squares Means|-0.5|||||TWO_SIDED|95.0|-0.95|-0.04|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.04|-0.95|
82512656|NCT02033889|164717943|OTHER||Difference in the Least Squares Means|-0.22|||||TWO_SIDED|95.0|-0.66|0.23|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.23|-0.66|
82569314|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.353|STANDARD_ERROR_OF_MEAN|4.845|||TWO_SIDED|95.0|-2.161|16.866|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||16.866|-2.161|
82633792|NCT02253173|164983627|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Mixed Models Analysis|||||||0.0019
82633793|NCT02253173|164983627|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Mixed Models Analysis|||||||0.0105
82633794|NCT02253173|164983628|SUPERIORITY_OR_OTHER|||||||0.0069|||||||Mixed Models Analysis|||||||0.0069
82633795|NCT02253173|164983628|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Mixed Models Analysis|||||||0.0009
82633796|NCT02253173|164983628|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633797|NCT02253173|164983629|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
82633798|NCT02253173|164983629|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633799|NCT02253173|164983629|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633800|NCT02253173|164983630|SUPERIORITY_OR_OTHER|||||||0.1269|||||||Mixed Models Analysis|||||||0.1269
82633801|NCT02253173|164983630|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Mixed Models Analysis|||||||0.0019
82633802|NCT02253173|164983630|SUPERIORITY_OR_OTHER|||||||0.0082|||||||Mixed Models Analysis|||||||0.0082
82633803|NCT02253173|164983631|SUPERIORITY_OR_OTHER|||||||0.0094|||||||Mixed Models Analysis|||||||0.0094
82633804|NCT02253173|164983631|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82633805|NCT02253173|164983631|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
82633806|NCT02253173|164983632|SUPERIORITY_OR_OTHER|||||||0.0128|||||||Mixed Models Analysis|||||||0.0128
82633807|NCT02253173|164983632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633808|NCT02253173|164983632|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Mixed Models Analysis|||||||0.0008
82633809|NCT02253173|164983633|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
82633810|NCT02253173|164983633|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633811|NCT02253173|164983633|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633812|NCT02253173|164983634|SUPERIORITY_OR_OTHER|||||||0.9616|||||||Mixed Models Analysis|||||||0.9616
82633813|NCT02253173|164983634|SUPERIORITY_OR_OTHER|||||||0.2439|||||||Mixed Models Analysis|||||||0.2439
82633814|NCT02253173|164983634|SUPERIORITY_OR_OTHER|||||||0.6518|||||||Mixed Models Analysis|||||||0.6518
82633815|NCT02253173|164983635|SUPERIORITY_OR_OTHER|||||||0.7829|||||||Mixed Models Analysis|||||||0.7829
82633816|NCT02253173|164983635|SUPERIORITY_OR_OTHER|||||||0.2328|||||||Mixed Models Analysis|||||||0.2328
82633817|NCT02253173|164983635|SUPERIORITY_OR_OTHER|||||||0.4118|||||||Mixed Models Analysis|||||||0.4118
82633818|NCT02253173|164983636|SUPERIORITY_OR_OTHER|||||||0.0639|||||||Mixed Models Analysis|||||||0.0639
82633819|NCT02253173|164983636|SUPERIORITY_OR_OTHER|||||||0.0356|||||||Mixed Models Analysis|||||||0.0356
82633820|NCT02253173|164983636|SUPERIORITY_OR_OTHER|||||||0.0914|||||||Mixed Models Analysis|||||||0.0914
82633821|NCT02253173|164983637|SUPERIORITY_OR_OTHER|||||||0.0503|||||||Mixed Models Analysis|||||||0.0503
82379791|NCT02360215|164468926|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recall Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Delayed Recall is reported here.||||<0.0001
82569315|NCT01040403|164848149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|4.861|||TWO_SIDED|95.0|-8.566|10.525|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||10.525|-8.566|
82633822|NCT02253173|164983637|SUPERIORITY_OR_OTHER|||||||0.0055|||||||Mixed Models Analysis|||||||0.0055
82633823|NCT02253173|164983637|SUPERIORITY_OR_OTHER|||||||0.0263|||||||Mixed Models Analysis|||||||0.0263
82512657|NCT02033889|164717944|OTHER||Difference in the Least Squares Means|0.06|||||TWO_SIDED|95.0|-0.61|0.72|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.72|-0.61|
82512658|NCT02033889|164717944|OTHER||Difference in the Least Squares Means|-0.15|||||TWO_SIDED|95.0|-0.78|0.49|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.49|-0.78|
82512659|NCT02033889|164717948|OTHER||Difference in the Least Squares Means|-0.23|||||TWO_SIDED|95.0|-1.01|0.56|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.56|-1.01|
82512660|NCT02033889|164717948|OTHER||Difference in the Least Squares Means|-0.28|||||TWO_SIDED|97.0|-1.06|0.5|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.50|-1.06|
82633824|NCT02253173|164983638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633825|NCT02253173|164983638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82512661|NCT02033889|164717949|OTHER||Difference in the Least Squares Means|0.27|||||TWO_SIDED|95.0|-0.58|1.13|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|1.13|-0.58|
82512662|NCT02033889|164717949|OTHER||Difference in the Least Squares Means|0.12|||||TWO_SIDED|95.0|-0.7|0.93|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.93|-0.70|
82512663|NCT02033889|164717950|OTHER||Difference in the Least Squares Means|-0.84|||||TWO_SIDED|95.0|-1.44|-0.24|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|-0.24|-1.44|
82512664|NCT02033889|164717950|OTHER||Difference in the least Squares Means|-0.54|||||TWO_SIDED|95.0|-1.12|0.05|||||||Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.05|-1.12|
82512665|NCT02033889|164717951|OTHER||Difference in the Least Squares Means|-0.06|||||TWO_SIDED|95.0|-0.77|0.65|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.65|-0.77|
82512666|NCT02033889|164717951|OTHER||Difference in the Least Squares Means|0.18|||||TWO_SIDED|95.0|-0.5|0.85|||||||Based on cLDA model with fixed effects for treatment, time, prior anti hyperglycemic medication (Metformin monotherapy or Metformin + another AHA), baseline eGFR (continuous), menopausal status, and the interaction of time by treatment. Time was treated as a categorical variable.|0.85|-0.50|
82512667|NCT01312909|164717979|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6337|TWO_SIDED|95.0|0.59|2.37||Threshold for significance at 0.05 level.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model with terms treatment, age strata, body weight strata and pooled center. A testing order was used to control type I error. 1mg Varenicline twice daily group was tested against placebo first, and if statistically significant difference was observed, the 0.5 mg Varenicline twice daily group was tested against placebo.||2.37|0.59|0.6337
82512668|NCT01312909|164717979|SUPERIORITY||Odds Ratio (OR)|1.73||||0.1114|TWO_SIDED|95.0|0.88|3.39||Threshold for significance at 0.05 level.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model with terms treatment, age strata, body weight strata and pooled center. A testing order was used to control type I error. 1mg Varenicline twice daily group was tested against placebo first, and if statistically significant difference was observed, the 0.5 mg Varenicline twice daily group was tested against placebo.||3.39|0.88|0.1114
82512669|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.21||||0.5793|TWO_SIDED|95.0|0.62|2.38|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 12||2.38|0.62|0.5793
82512670|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0932|TWO_SIDED|95.0|0.91|3.51|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 12||3.51|0.91|0.0932
82512671|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.23||||0.5647|TWO_SIDED|95.0|0.61|2.5|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 24||2.50|0.61|0.5647
82512672|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.46||||0.2917|TWO_SIDED|95.0|0.72|2.96|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 24||2.96|0.72|0.2917
82512673|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.25||||0.5616|TWO_SIDED|95.0|0.58|2.69|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 52||2.69|0.58|0.5616
82512674|NCT01312909|164717980|SUPERIORITY||Odds Ratio (OR)|1.79||||0.13|TWO_SIDED|95.0|0.84|3.78|||Regression, Logistic|Odds ratios and p-values were obtained from separate logistic regression models of treatment, pooled center, age strata and body weight strata.||Week 52||3.78|0.84|0.1300
82512675|NCT01312909|164717982|SUPERIORITY||Least square (LS) mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.58||0.354|TWO_SIDED|95.0|-1.69|0.6|||Longitudinal repeated measures model|||Week 12: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.60|-1.69|0.3540
82512676|NCT01312909|164717982|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.59||0.7574|TWO_SIDED|95.0|-1.35|0.98|||Longitudinal repeated measures model|||Week 12: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.98|-1.35|0.7574
82512677|NCT01312909|164717982|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.6||0.5676|TWO_SIDED|95.0|-1.53|0.84|||Longitudinal repeated measures model|||Week 24: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.84|-1.53|0.5676
82633826|NCT02253173|164983638|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633827|NCT02253173|164983639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633828|NCT02253173|164983639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633829|NCT02253173|164983639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633830|NCT02253173|164983640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633831|NCT02253173|164983640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633832|NCT02253173|164983640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633833|NCT02253173|164983641|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633834|NCT02253173|164983641|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633835|NCT02253173|164983641|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633836|NCT02253173|164983642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633837|NCT02253173|164983642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633838|NCT02253173|164983642|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633839|NCT02253173|164983643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633840|NCT02253173|164983643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633841|NCT02253173|164983643|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633842|NCT02253173|164983644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633843|NCT02253173|164983644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633844|NCT02253173|164983644|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633845|NCT02253173|164983645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633846|NCT02253173|164983645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633847|NCT02253173|164983645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633848|NCT02253173|164983646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633849|NCT02253173|164983646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633850|NCT02253173|164983646|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633851|NCT02253173|164983647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633852|NCT02253173|164983647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633853|NCT02253173|164983647|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633854|NCT02253173|164983648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633855|NCT02253173|164983648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633856|NCT02253173|164983648|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633857|NCT02253173|164983649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633858|NCT02253173|164983649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633859|NCT02253173|164983649|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633860|NCT02253173|164983650|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mixed Models Analysis|||||||0.0004
82633861|NCT02253173|164983650|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633862|NCT02253173|164983650|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633863|NCT02253173|164983651|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82633864|NCT02253173|164983651|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633865|NCT02253173|164983651|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633866|NCT02253173|164983652|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633867|NCT02253173|164983652|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633868|NCT02253173|164983652|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633869|NCT02253173|164983653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633870|NCT02253173|164983653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633871|NCT02253173|164983653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82633872|NCT02253173|164983654|SUPERIORITY_OR_OTHER|||||||0.9075|||||||ANCOVA|||||||0.9075
82633873|NCT02253173|164983654|SUPERIORITY_OR_OTHER|||||||0.0492|||||||ANCOVA|||||||0.0492
82633874|NCT02253173|164983654|SUPERIORITY_OR_OTHER|||||||0.0019|||||||ANCOVA|||||||0.0019
82633875|NCT02253173|164983655|SUPERIORITY_OR_OTHER|||||||0.9719|||||||ANCOVA|||||||0.9719
82633876|NCT02253173|164983655|SUPERIORITY_OR_OTHER|||||||0.0614|||||||ANCOVA|||||||0.0614
82633877|NCT02253173|164983655|SUPERIORITY_OR_OTHER|||||||0.0085|||||||ANCOVA|||||||0.0085
82633878|NCT02253173|164983656|SUPERIORITY_OR_OTHER|||||||0.9999|||||||ANCOVA|||||||0.9999
82633879|NCT02253173|164983656|SUPERIORITY_OR_OTHER|||||||0.2855|||||||ANCOVA|||||||0.2855
82633880|NCT02253173|164983656|SUPERIORITY_OR_OTHER|||||||0.1189|||||||ANCOVA|||||||0.1189
82633881|NCT02253173|164983657|SUPERIORITY_OR_OTHER|||||||0.4162|||||||ANCOVA|||||||0.4162
82633882|NCT02253173|164983657|SUPERIORITY_OR_OTHER|||||||0.0013|||||||ANCOVA|||||||0.0013
82633883|NCT02253173|164983657|SUPERIORITY_OR_OTHER|||||||0.0003|||||||ANCOVA|||||||0.0003
82633884|NCT02253173|164983658|SUPERIORITY_OR_OTHER|||||||0.9929|||||||ANCOVA|||||||0.9929
82379792|NCT02360215|164468927|SUPERIORITY|||||||0.0993|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.0993
82379793|NCT02360215|164468927|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0001
82379794|NCT02360215|164468927|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with HVLT-R Delayed Recognition Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline Delayed Recognition is reported here.||||<0.0001
82633885|NCT02253173|164983658|SUPERIORITY_OR_OTHER|||||||0.9634|||||||ANCOVA|||||||0.9634
82379795|NCT02360215|164468928|SUPERIORITY|||||||0.5988|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.5988
82569316|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_ERROR_OF_MEAN|4.853|||TWO_SIDED|95.0|-8.36|10.699|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||10.699|-8.360|
82633886|NCT02253173|164983658|SUPERIORITY_OR_OTHER|||||||0.0898|||||||ANCOVA|||||||0.0898
82633887|NCT02253173|164983659|SUPERIORITY_OR_OTHER|||||||0.5146|||||||ANCOVA|||||||0.5146
82633888|NCT02253173|164983659|SUPERIORITY_OR_OTHER|||||||0.0099|||||||ANCOVA|||||||0.0099
82633889|NCT02253173|164983659|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.0150
82633890|NCT02253173|164983660|SUPERIORITY_OR_OTHER|||||||0.9039|||||||ANCOVA|||||||0.9039
82633891|NCT02253173|164983660|SUPERIORITY_OR_OTHER|||||||0.3751|||||||ANCOVA|||||||0.3751
82512678|NCT01312909|164717982|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.61||0.2356|TWO_SIDED|95.0|-1.92|0.47|||Longitudinal repeated measures model|||Week 24: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.47|-1.92|0.2356
82512679|NCT01312909|164717982|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.62||0.773|TWO_SIDED|95.0|-1.03|1.38|||Longitudinal repeated measures model|||Week 52: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||1.38|-1.03|0.7730
82379796|NCT02360215|164468928|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0005
82379797|NCT02360215|164468928|SUPERIORITY||||||<|0.0001|||||||McNemar|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part A (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline TMT Part A is reported here.||||<0.0001
82379798|NCT02360215|164468929|SUPERIORITY|||||||0.9226|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9226
82379799|NCT02360215|164468929|SUPERIORITY||||||<|0.0024|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0024
82379800|NCT02360215|164468929|SUPERIORITY||||||<|0.0001|||||||Regression, Cox|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with TMT Part B (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline TMT Part B is reported here.||||<0.0001
82379801|NCT02360215|164468930|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline COWA is reported here.||||<0.0001
82512680|NCT01312909|164717982|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.62||0.2166|TWO_SIDED|95.0|-1.99|0.45|||Longitudinal repeated measures model|||Week 52: Analysis was performed using longitudinal repeated measures model with the change from baseline average number of Cigarettes Smoked as the dependent variable, including terms treatment, visit, age strata, body weight strata, pooled center, baseline measure and treatment by visit interaction.||0.45|-1.99|0.2166
82569317|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.436|STANDARD_ERROR_OF_MEAN|4.843|||TWO_SIDED|95.0|-5.073|13.945|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||13.945|-5.073|
82569318|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.189|STANDARD_ERROR_OF_MEAN|4.887|||TWO_SIDED|95.0|-4.407|14.785|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||14.785|-4.407|
82633892|NCT02253173|164983660|SUPERIORITY_OR_OTHER|||||||0.0073|||||||ANCOVA|||||||0.0073
82512681|NCT01312909|164717983|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6133|TWO_SIDED|95.0|0.34|1.9|||Regression, Logistic|||Week 9 through Week 24: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||1.90|0.34|0.6133
82512682|NCT01312909|164717983|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0335|TWO_SIDED|95.0|1.07|4.79|||Regression, Logistic|||Week 9 through Week 24: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||4.79|1.07|0.0335
82569319|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267|STANDARD_ERROR_OF_MEAN|4.828|||TWO_SIDED|95.0|-6.214|12.747|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||12.747|-6.214|
82569320|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.02|STANDARD_ERROR_OF_MEAN|4.904|||TWO_SIDED|95.0|-5.61|13.65|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||13.650|-5.610|
82569321|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.753|STANDARD_ERROR_OF_MEAN|4.873|||TWO_SIDED|95.0|-8.816|10.322|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||10.322|-8.816|
82569322|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.986|STANDARD_ERROR_OF_MEAN|4.876|||TWO_SIDED|95.0|-6.589|12.561|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||12.561|-6.589|
82633893|NCT00498706|164983665|SUPERIORITY_OR_OTHER||t value|-2.95||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82633894|NCT00498706|164983666|SUPERIORITY_OR_OTHER||Chi-square|5.83||||0.02||95.0|||||Chi-squared|||||||0.02
82512683|NCT01312909|164717983|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9874|TWO_SIDED|95.0|0.37|2.65|||Regression, Logistic|||Week 9 through Week 52: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||2.65|0.37|0.9874
82512684|NCT01312909|164717983|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0188|TWO_SIDED|95.0|1.19|6.55|||Regression, Logistic|||Week 9 through Week 52: Odds ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center, age strata and body weight strata.||6.55|1.19|0.0188
82633895|NCT00498706|164983666|SUPERIORITY_OR_OTHER||Chi-square|7.75||||0.006||95.0|||||Chi-squared||Attrition before week 5 was significantly lower in T-CBT than in face-to-face CBT.|||||.006
82633896|NCT00498706|164983668|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority is established by showing that the true difference between 2 treatment arms is likely to be smaller than a prespecified noninferiority margin that separates clinically important from clinically negligible (acceptable) differences.|Mean Difference (Net)|-0.09|STANDARD_DEVIATION|1.26||0.89|TWO_SIDED|95.0|-1.35|1.17|||Mixed Models Analysis|||Longitudinal depression scores were modeled with repeated-measures linear regression models.Time was treated as a categorical variable to account for nonlinear effects of time, and an unstructured covariance matrix was assumed.||1.17|-1.35|0.89
82633897|NCT00498706|164983669|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority is established by showing that the true difference between 2 treatment arms is likely to be smaller than a prespecified noninferiority margin that separates clinically important from clinically negligible (acceptable) differences.|Mean Difference (Net)|1.07|STANDARD_DEVIATION|1.695||0.22|TWO_SIDED|95.0|-0.63|2.76|||Mixed Models Analysis|||Longitudinal depression scores were modeled with repeated-measures linear regression models.Time was treated as a categorical variable to account for nonlinear effects of time, and an unstructured covariance matrix was assumed.||2.76|-0.63|0.22
82633898|NCT05315297|164983680|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82633899|NCT05315297|164983681|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82633900|NCT05315297|164983682|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82633901|NCT05315297|164983683|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
82633902|NCT05315297|164983684|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82633903|NCT05315297|164983685|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82633904|NCT01265719|164983686|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.2||0.1126|TWO_SIDED|95.0|-0.09|0.74|||ANCOVA||Change from baseline to last available observation in BCVA was analyzed using an ANCOVA model with fixed effect for treatment group with baseline BCVA value as covariate.|\<5 years||0.74|-0.09|0.1126
82633905|NCT01265719|164983686|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.484|TWO_SIDED|95.0|-0.12|0.06|||ANCOVA||Change from baseline to last available observation in BCVA was analyzed using an ANCOVA model with fixed effect for treatment group with baseline BCVA value as covariate.|5 to \<18 years||0.06|-0.12|0.4840
82633906|NCT01265719|164983688|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.3||0.902|TWO_SIDED|95.0|-0.63|0.56|||ANCOVA||Change from baseline to last available observation in HCD was analyzed using an ANCOVA model with fixed effect for treatment group with baseline HCD value as covariate.|\<5 years||0.56|-0.63|0.9020
82633907|NCT01265719|164983688|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.2||0.8826|TWO_SIDED|95.0|-0.37|0.43|||ANCOVA||Change from baseline to last available observation in HCD was analyzed using an ANCOVA model with fixed effect for treatment group with baseline HCD value as covariate.|5 to \<18 years||0.43|-0.37|0.8826
82633908|NCT01265719|164983689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.62|STANDARD_ERROR_OF_MEAN|1.25||0.2003|TWO_SIDED|95.0|-4.13|0.89|||ANCOVA||Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|\<5 years||0.89|-4.13|0.2003
82512685|NCT01513317|164717994|SUPERIORITY_OR_OTHER||Difference in proportions|0.082||||0.271|TWO_SIDED|95.0|-0.03|0.2|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants who had a reduction in RBC transfusion to treat the anemia of MDS.|||0.20|-0.03|0.271
82512686|NCT01513317|164717995|SUPERIORITY_OR_OTHER||Difference in LS means|0.07||||0.872|TWO_SIDED|95.0|-0.79|0.93|||ANCOVA||The estimated parameter is the difference in LS means of the change from baseline hemoglobin levels at Week 13.|||0.93|-0.79|0.872
82633909|NCT01265719|164983689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.75||0.894|TWO_SIDED|95.0|-1.59|1.39|||ANCOVA||Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|5 to \<18 years (IOP \<21mmHg at Baseline)||1.39|-1.59|0.8940
82633910|NCT01265719|164983689|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-6.66|STANDARD_ERROR_OF_MEAN|2.41||0.0184|TWO_SIDED|95.0|-11.95|-1.36|||ANCOVA|The results were interpreted with caution because of the very small sample size of non-PG treatment group (n=4).|Change from baseline to last available observation in IOP was analyzed using an ANCOVA model with fixed effect for treatment group with baseline IOP value as covariate.|5 to \<18 years (IOP ≥21mmHg at Baseline)||-1.36|-11.95|0.0184
82633911|NCT01265719|164983690|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.0|||>|0.999|TWO_SIDED|95.0|-13.97|15.9|||Fisher Exact|||||15.90|-13.97|>0.999
82633912|NCT01265719|164983691|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.4|||>|0.999|TWO_SIDED|95.0|-15.32|14.55|||Fisher Exact|||||14.55|-15.32|>0.999
82633913|NCT01265719|164983692|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.2|||>|0.999|TWO_SIDED|95.0|-13.78|16.09|||Fisher Exact|||||16.09|-13.78|>0.999
82633914|NCT01265719|164983694|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.6||||0.6414|TWO_SIDED|95.0|-13.39|16.48|||Fisher Exact|||||16.48|-13.39|0.6414
82633915|NCT01265719|164983695|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.52||0.2437|TWO_SIDED|95.0|-0.43|1.65|||ANCOVA||Change from baseline to last available observation in longest lash length (LLL) was analyzed using an ANCOVA model with fixed effect for treatment group with baseline LLL value as covariate.|\<5 years||1.65|-0.43|0.2437
82633916|NCT01265719|164983695|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.32||0.5199|TWO_SIDED|95.0|-0.85|0.43|||ANCOVA||Change from baseline to last available observation in LLL was analyzed using an ANCOVA model with fixed effect for treatment group with baseline LLL value as covariate.|5 to \<18 years||0.43|-0.85|0.5199
82633917|NCT01265719|164983696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.68|STANDARD_ERROR_OF_MEAN|15.54||0.8643|TWO_SIDED|95.0|-34.3|28.94|||ANCOVA||Change from baseline to last available observation in corneal thickness was analyzed using an ANCOVA model with fixed effect for treatment group with baseline corneal thickness value as covariate.|\<5 years||28.94|-34.30|0.8643
82633918|NCT01265719|164983696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.87|STANDARD_ERROR_OF_MEAN|4.87||0.8591|TWO_SIDED|95.0|-10.54|8.8|||ANCOVA||Change from baseline to last available observation in corneal thickness was analyzed using an ANCOVA model with fixed effect for treatment group with baseline corneal thickness value as covariate.|5 to \<18 years||8.80|-10.54|0.8591
82633919|NCT01265719|164983697|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.5||||0.2413|TWO_SIDED|95.0|-10.49|19.36|||Fisher Exact|||||19.36|-10.49|0.2413
82633920|NCT05466240|164983725|EQUIVALENCE|For each post-baseline collection time point, treatment difference and p-value comparing the mean change in viral load from baseline between treatment arms from an analysis of covariance model with covariate baseline viral load.|||||<|0.95|||||||ANCOVA|||||||<0.95
82633921|NCT00626327|164983741|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for measles was greater than -5%, at 6 weeks after MMRV vaccination.|Difference % (MenACWY-CRM+MMRV-MMRV)|-1.0|||||TWO_SIDED|95.0|-3.4|0.5||||||Non-inferiority of immune response to measles following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV given alone.||0.5|-3.4|
82633922|NCT00626327|164983741|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for mumps was greater than -5%, at 6 weeks after MMRV vaccination.|Difference % (MenACWY-CRM+MMRV - MMRV )|1.0|||||TWO_SIDED|95.0|-1.0|3.7||||||Non-inferiority of immune response to mumps following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||3.7|-1|
82633923|NCT00626327|164983741|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroconversion for rubella was greater than -5%, at 6 weeks after MMRV vaccination.|Difference% (MenACWY-CRM+MMRV-MMRV)|-2.0|||||TWO_SIDED|95.0|-4.5|0.8||||||Non-inferiority of immune response to rubella following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||0.8|-4.5|
82633924|NCT00626327|164983741|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM+MMRV group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentage of subjects with seroprotection for varicella was greater than -10%, at 6 weeks after MMRV vaccination.|Difference% (MenACWY-CRM+MMRV-MMRV)|-1.0|||||TWO_SIDED|95.0|-3.9|1.2||||||Non-inferiority of immune response to varicella following one dose of MMRV administered concomitantly with MenACWY-CRM as compared to MMRV administered alone.||1.2|-3.9|
82633925|NCT00626327|164983742|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|0.0|||||TWO_SIDED|95.0|-4.7|4.5||||||Non-inferiority of immune response of MenACWY-CRM against serogroup A when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||4.5|-4.7|
82633926|NCT00626327|164983742|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|0.0|||||TWO_SIDED|95.0|-1.8|1.9||||||Non-inferiority of immune response of MenACWY-CRM against serogroup C when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||1.9|-1.8|
82512687|NCT01513317|164717996|SUPERIORITY_OR_OTHER||Difference in proportions|0.042||||0.494|TWO_SIDED|95.0|-0.06|0.15|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants achieving hemoglobin improvement at Week 13.|||0.15|-0.06|0.494
82512688|NCT01513317|164717997|SUPERIORITY_OR_OTHER||Difference in proportions|0.002||||0.986|TWO_SIDED|95.0|-0.09|0.09|||Cochran-Mantel-Haenszel||The estimated parameter is the difference in proportion of participants who did not require a blood transfusion in the 8 weeks of treatment before unblinding at Week 13.|||0.09|-0.09|0.986
82512689|NCT01513317|164717998|SUPERIORITY_OR_OTHER||Difference in LS means|1.96||||0.363|TWO_SIDED|95.0|-2.35|6.27|||ANCOVA||The estimated parameter is the difference in LS means for changes from baseline in bone marrow blasts at Week 13.|||6.27|-2.35|0.363
82512690|NCT01513317|164717999|SUPERIORITY_OR_OTHER||Difference in LS means|-1.69||||0.073|TWO_SIDED|95.0|-3.55|0.17|||ANCOVA||The estimated parameter is the difference in LS means of the number of RBC transfusions during the 8 weeks of treament before unblinding at Week 13.|||0.17|-3.55|0.073
82523727|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.0||||0.157|TWO_SIDED|95.0|-22.0|137.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 4||137|-22|0.157
82633927|NCT00626327|164983742|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|1.0|||||TWO_SIDED|95.0|-1.3|3.9||||||Non-inferiority of immune response of MenACWY-CRM against serogroup W-135 when concomitantly administered with MMRV vaccine as compared to MenACWY vaccine given alone.||3.9|-1.3|
82633928|NCT00626327|164983742|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MenACWY-CRM + MMRV group was considered non-inferior to that of MenACWY-CRM group if the lower limit of the two-sided 95% CI around the difference of the percentage of subjects with hSBA ≥1:8 at 6 weeks after the second dose of MenACWY-CRM given to 12 month old toddlers was greater than -10% for each serogroup.|Difference% (MenACWY-CRM+MMRV-MenACWY)|2.0|||||TWO_SIDED|95.0|-1.9|5.3||||||Non-inferiority of immune response of MenACWY-CRM against serogroup Y when concomitantly administered with MMRV vaccine as compared to MenACWY-CRM vaccine given alone.||5.3|-1.9|
82633929|NCT00626327|164983747|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of MMRV+MenACWY group was considered non-inferior to that of MMRV group if the lower limit of the two-sided 95% CI of the difference in the percentages of subjects with seroconversion for varicella was greater than -10%.|Difference% (MenACWY-CRM+MMRV- MMRV)|-1.0|||||TWO_SIDED|95.0|-2.4|0.8||||||Non-inferiority of anti-varicella response following one dose of MMRV when administered concomitantly with MenACWY vaccine as compared to MMRV administered alone.||0.8|-2.4|
82379802|NCT02360215|164468930|SUPERIORITY|||||||0.9749|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9749
82633930|NCT01716585|164983757|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects administered telaprevir plus peginterferon (pegIFN)/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 70% to achieve noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV, and the LCB of the 95% CI must have exceeded 80% to achieve superiority.|Percentage of Participants with SVR12|96.4|||||TWO_SIDED|95.0|94.7|98.1|||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure was used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|With a sample size of 450 subjects and assuming that 92% of the subjects in Arm A will achieve SVR12, this study has greater than 90% power to demonstrate non-inferiority with a 2-sided 95% lower confidence bound greater than 70% and greater than 90% power to demonstrate superiority with a 2-sided 95% lower confidence bound greater than 80% (based on the normal approximation of a single binomial proportion). 95% CI calculated using the normal approximation to the binomial distribution.||98.1|94.7|
82633931|NCT01716585|164983758|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|Fisher Exact|||||||< 0.001
82633932|NCT01716585|164983759|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 75% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|95.7|||||TWO_SIDED|95.0|93.4|97.9||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and first 3 secondary efficacy endpoints in the order numbered below.|||95% CI calculated using the normal approximation to the binomial distribution.|||97.9|93.4|
82633933|NCT01716585|164983760|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic HCV treatment-naive subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 84% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|98.0|||||TWO_SIDED|95.0|95.8|100.0|||||95% CI calculated using the normal approximation to the binomial distribution.|||100.0|95.8|
82633934|NCT03288987|164983772|NON_INFERIORITY|Noninferiority was declared by comparing the 90% CI for the hazard ratio (HR) of the AryoGen Pharmed Bevacizumab to the reference product (Roche Bevacizumab) to the point-estimate margin and was based on the synthesis method.|Hazard Ratio (HR)|0.79||||0.47|TWO_SIDED|90.0|0.46|1.35|||Regression, Cox|Upper limit of CI is lower than the noninferiority margin (1.44).|The 90 % CI based on synthesis method is (0.45,1.38). In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.35|0.46|0.47
82633935|NCT03288987|164983773|OTHER||Hazard Ratio (HR)|0.99||||0.99|TWO_SIDED|95.0|0.55|1.8|||Regression, Cox||In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.80|0.55|0.99
82633936|NCT03288987|164983774|OTHER|||||||0.17|||||||Fisher's Exact Test|||||||0.17
82379803|NCT02360215|164468930|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with COWA (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here. is reported here.||||<0.0001
82633937|NCT03288987|164983775|OTHER||Hazard Ratio (HR)|1.11||||0.59|TWO_SIDED|95.0|0.76|1.61|||Regression, Cox||In HR calculation, the AryoGen Pharmed Bevacizumab to Roche Bevacizumab was reported. (reference group was Roche Bevacizumab)|||1.61|0.76|0.59
82633938|NCT03288987|164983776|OTHER||||||>|0.05|||||||Fisher's Exact Test|||||||>0.05
82633939|NCT01143116|164983783|OTHER|||||||0.625|||||||Wilcoxon (Mann-Whitney)|||||||0.6250
82633940|NCT01143116|164983783|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.7500
82633941|NCT01143116|164983784|OTHER|||||||0.875|||||||Wilcoxon (Mann-Whitney)|||||||0.8750
82633942|NCT01143116|164983784|OTHER|||||||0.625|||||||Wilcoxon (Mann-Whitney)|||||||0.6250
82633943|NCT01143116|164983785|OTHER|||||||0.0254|||||||Wilcoxon (Mann-Whitney)|||||||0.0254
82633944|NCT01143116|164983785|OTHER|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||||||0.0039
82633945|NCT01143116|164983786|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82633946|NCT01143116|164983786|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82512691|NCT02873923|164718002|OTHER||Correlation coefficient|0.66|||||TWO_SIDED|95.0|0.63|0.68|||||||As of today, the meta-analytic surrogacy evaluation scheme proposed by Buyse and Burzykowski et al. is considered as the most statistically rigorous method for the validation of surrogate endpoints. This approach requires individual-patient data (IPD) from multiple randomized clinical trials (RCT) with similar design and treatment to address surrogacy from a multi-level framework. At the patient level, the surrogate endpoint should be correlated and predictive of the final endpoint regardless of the treatment (individual level association). At the trial level, the treatment effect on the surrogate endpoint should be correlated and predictive of the treatment effect on the final endpoint (trial-level association). Individual-level and trial-level associations estimated using weighted linear regression and the two-stage model introduced by Buyse and Burzykowski.|0.68|0.63|
82512692|NCT02873923|164718003|OTHER||correlation coefficient|0.0|||||TWO_SIDED|95.0|0.0|0.005|||||||As of today, the meta-analytic surrogacy evaluation scheme proposed by Buyse and Burzykowski et al. is considered as the most statistically rigorous method for the validation of surrogate endpoints. This approach requires individual-patient data (IPD) from multiple randomized clinical trials (RCT) with similar design and treatment to address surrogacy from a multi-level framework. At the patient level, the surrogate endpoint should be correlated and predictive of the final endpoint regardless of the treatment (individual level association). At the trial level, the treatment effect on the surrogate endpoint should be correlated and predictive of the treatment effect on the final endpoint (trial-level association). Individual-level and trial-level associations estimated using weighted linear regression and the two-stage model introduced by Buyse and Burzykowski.|0.005|0.00|
82512693|NCT01639001|164718020|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.402|||<|0.0001|TWO_SIDED|95.0|0.286|0.565||The study was to be considered positive if the 1-sided log-rank test for PFS, stratified for baseline stratification factors (ECOG PS, ethnicity, and brain metastases) was significant at the 0.02496level.|1 sided stratified log-rank||Based on the Cox Proportional hazards model stratified by ECOG PS, ethnicity, and brain metastases. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of crizotinib.|The study was designed to test the null hypothesis H0: λ=1.0 versus the alternative hypothesis HA: λ \< 1.0, where λ is the hazard ratio (HR; Crizotinib/Chemotherapy). Evaluation of 160 PFS events in the 2 arms using a 1-sided log-rank test at the 0.025 level of significance was required to detect a HR of 0.64 with 80% power.||0.565|0.286|<0.0001
82569323|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.916|STANDARD_ERROR_OF_MEAN|4.868|||TWO_SIDED|95.0|-4.643|14.475|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||14.475|-4.643|
82569324|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.432|STANDARD_ERROR_OF_MEAN|4.882|||TWO_SIDED|95.0|-2.154|17.019|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||17.019|-2.154|
82569325|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93|STANDARD_ERROR_OF_MEAN|4.909|||TWO_SIDED|95.0|-7.708|11.568|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||11.568|-7.708|
82569326|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.446|STANDARD_ERROR_OF_MEAN|4.854|||TWO_SIDED|95.0|-5.085|13.978|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||13.978|-5.085|
82569327|NCT01040403|164848150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.517|STANDARD_ERROR_OF_MEAN|4.87|||TWO_SIDED|95.0|-7.046|12.079|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||12.079|-7.046|
82569328|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.212|STANDARD_ERROR_OF_MEAN|0.158|||TWO_SIDED|95.0|-0.523|0.099|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Week 1||0.099|-0.523|
82633947|NCT01143116|164983787|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82569329|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.319|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.634|-0.004|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Week 1||-0.004|-0.634|
82569330|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.379|0.249|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Week 1||0.249|-0.379|
82569331|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.107|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.42|0.206|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Week 1||0.206|-0.420|
82569332|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.168|0.462|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Week 1||0.462|-0.168|
82569333|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.255|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|95.0|-0.062|0.571|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Week 1||0.571|-0.062|
82633948|NCT01143116|164983787|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82633949|NCT01143116|164983788|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82633950|NCT01143116|164983789|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82633951|NCT01143116|164983790|OTHER|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
82633952|NCT01143116|164983790|OTHER|||||||0.0078|||||||Wilcoxon (Mann-Whitney)|||||||0.0078
82633953|NCT01143116|164983791|OTHER|||||||0.7188|||||||Wilcoxon (Mann-Whitney)|||||||0.7188
82633954|NCT01143116|164983791|OTHER|||||||0.6406|||||||Wilcoxon (Mann-Whitney)|||||||0.6406
82633955|NCT01143116|164983792|OTHER|||||||0.4375|||||||Wilcoxon (Mann-Whitney)|||||||0.4375
82633956|NCT01143116|164983792|OTHER|||||||0.2969|||||||Wilcoxon (Mann-Whitney)|||||||0.2969
82512694|NCT01639001|164718021|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|41.869|||<|0.0001|TWO_SIDED|95.0|30.34|53.398||If the PFS endpoint was significant, ORR was to be considered significant if 2-sided p-value from Pearson chi-square test was \<= 0.04992.|2-sided pearson chi-square test||Treatment difference in ORR (%)|The confidence interval for the treatment difference was based on normal distribution.||53.398|30.340|<0.0001
82512695|NCT01639001|164718022|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.056||||0.6172|TWO_SIDED|95.0|0.734|1.521||If the PFS and ORR endpoints were significant, OS was to be considered significant if 1-sided, log-rank test stratified for ECOG, ethnicity and metastases was \<= 0.02496.|1 sided stratified log-rank||Based on the Cox Proportional hazards model stratified by ECOG PS, ethnicity, and brain metastases. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of crizotinib.|||1.521|0.734|0.6172
82633957|NCT01143116|164983793|OTHER|||||||0.5391|||||||Wilcoxon (Mann-Whitney)|||||||0.5391
82633958|NCT01143116|164983793|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.0010
82633959|NCT01143116|164983794|OTHER|||||||0.4766|||||||Wilcoxon (Mann-Whitney)|||||||0.4766
82633960|NCT01143116|164983794|OTHER|||||||0.0068|||||||Wilcoxon (Mann-Whitney)|||||||0.0068
82633961|NCT01143116|164983795|OTHER|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
82633962|NCT01143116|164983795|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||||||0.4180
82569334|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.271|0.355|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Week 1||0.355|-0.271|
82512696|NCT01639001|164718023|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|8.906||||0.1204|TWO_SIDED|95.0|-2.275|20.086|||2-sided pearson chi-square test||Treatment Difference in DCR Rate (%)|The confidence interval for the treatment difference was based on normal distribution.||20.086|-2.275|0.1204
82512697|NCT01639001|164718027|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.348|||<|0.0001|TWO_SIDED|95.0|0.246|0.493|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||0.493|0.246|<0.0001
82512698|NCT01639001|164718028|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.669||||0.127|TWO_SIDED|95.0|0.335|1.338|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||1.338|0.335|0.1270
82512699|NCT01639001|164718029|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.277|||<|0.0001|TWO_SIDED|95.0|0.186|0.412|||1 sided unstratified log-rank||Based on the Cox Proportional hazards model.|||0.412|0.186|<0.0001
82512700|NCT01639001|164718030|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.432|||<|0.0001|TWO_SIDED|95.0|0.307|0.61||2-sided Hochberg adjusted p-values|2 sided unstratified log rank||Based on the Cox Proportional hazards model.|||0.610|0.307|<0.0001
82512701|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.451|||<|0.0001|TWO_SIDED|95.0|3.79|11.11|||Mixed Models Analysis|||Analysis presented for QLQ-C30 Global QoL. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||11.11|3.79|<0.0001
82512702|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.613||||0.014|TWO_SIDED|95.0|0.73|6.49|||Mixed Models Analysis|||Analysis presented for QLQ-C30 cognitive functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||6.49|0.73|0.0140
82512703|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.652||||0.2427|TWO_SIDED|95.0|-1.12|4.42|||Mixed Models Analysis|||Analysis presented for QLQ-C30 emotional functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||4.42|-1.12|0.2427
82512704|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.7267|||<|0.0001|TWO_SIDED|95.0|4.15|9.3|||Mixed Models Analysis|||Analysis presented for QLQ-C30 physical functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||9.30|4.15|<0.0001
82512705|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.8109||||0.0003|TWO_SIDED|95.0|3.15|10.47|||Mixed Models Analysis|||Analysis presented for QLQ-C30 role functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||10.47|3.15|0.0003
82512706|NCT01639001|164718031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.594||||0.014|TWO_SIDED|95.0|1.13|10.06|||Mixed Models Analysis|||Analysis presented for QLQ-C30 social functioning. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||10.06|1.13|0.0140
82512707|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.0432||||0.0016|TWO_SIDED|95.0|-9.79|-2.3|||Mixed Models Analysis|||Analysis presented for QLQ-C30 appetite loss. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-2.30|-9.79|0.0016
82512708|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.5026||||0.0263|TWO_SIDED|95.0|0.53|8.47|||Mixed Models Analysis|||Analysis presented for QLQ-C30 constipation. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||8.47|0.53|0.0263
82512709|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.8085|||<|0.0001|TWO_SIDED|95.0|12.94|18.68|||Mixed Models Analysis|||Analysis presented for QLQ-C30 diarrhea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||18.68|12.94|<0.0001
82512710|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.7449|||<|0.0001|TWO_SIDED|95.0|-11.3|-4.19|||Mixed Models Analysis|||Analysis presented for QLQ-C30 dyspnea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-4.19|-11.30|<0.0001
82569335|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.564|0.062|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Week 1||0.062|-0.564|
82569336|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.492|0.135|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Week 1||0.135|-0.492|
82633963|NCT01797302|164983811|SUPERIORITY|||||||0.88||||||interaction term from model group\*time|Mixed Models Analysis|||||||0.88
82633964|NCT01797302|164983812|SUPERIORITY|||||||0.85||||||interaction term for group\*time|Mixed Models Analysis|||||||0.85
82633965|NCT01797302|164983813|SUPERIORITY|||||||0.61||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.61
82633966|NCT01797302|164983814|SUPERIORITY|||||||0.24||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.24
82633967|NCT01797302|164983815|SUPERIORITY|||||||0.0117||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0117
82569337|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-0.611|0.024|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Week 1||0.024|-0.611|
82569338|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.221|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.533|0.092|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Week 1||0.092|-0.533|
82569339|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.242|0.388|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Week 1||0.388|-0.242|
82569340|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.241|0.462|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Week 4||0.462|-0.241|
82569341|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.445|0.261|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Week 4||0.261|-0.445|
82569342|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.301|0.406|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Week 4||0.406|-0.301|
82569343|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.555|0.15|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Week 4||0.150|-0.555|
82569344|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.058|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.411|0.296|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Week 4||0.296|-0.411|
82569345|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.208|0.496|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Week 4||0.496|-0.208|
82569346|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.217|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.568|0.135|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Week 4||0.135|-0.568|
82569347|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.363|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.714|-0.012|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Week 4||-0.012|-0.714|
82569348|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.246|STANDARD_ERROR_OF_MEAN|0.179|||TWO_SIDED|95.0|-0.598|0.106|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Week 4||0.106|-0.598|
82569349|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|95.0|-0.503|0.21|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Week 4||0.210|-0.503|
82569350|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.178|||TWO_SIDED|95.0|-0.379|0.321|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Week 4||0.321|-0.379|
82633968|NCT01797302|164983816|SUPERIORITY|||||||0.53||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.53
82633969|NCT01797302|164983817|SUPERIORITY|||||||0.0256||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0256
82633970|NCT01797302|164983818|SUPERIORITY|||||||0.0945||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0945
82633971|NCT01797302|164983819|SUPERIORITY|||||||0.12||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.12
82633972|NCT01797302|164983820|SUPERIORITY|||||||0.0094||||||interaction term group\*time from linear mixed model|Mixed Models Analysis|||||||0.0094
82633973|NCT01051856|164983866|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Chi-squared|||||||0.35
82633974|NCT02176226|164983869|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82633975|NCT02176226|164983870|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82633976|NCT01038635|164983879|SUPERIORITY_OR_OTHER||Maximal tolerated dose|75.0|||||TWO_SIDED||||||||Maximal tolerated dose not reached as no dose limiting toxicity documented. MTD considered to be last dose level.|||||
82633977|NCT04542525|164983888|SUPERIORITY||||||<|0.0001|||||||Exact Test of Binomial Proportion||||P-value is provided from exact test of binomial proportion (one-sided alpha = 2.5%) comparing PanOptix Toric Trifocal IOL Model TFNT20 with historical threshold 29.2 % (rate calculated for a non-toric IOL in Japanese study patients that would qualify for a T2 lens using the same toric calculator).|||<0.0001
82633978|NCT01566981|164983907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6925|STANDARD_DEVIATION|1.4708||0.005|TWO_SIDED|95.0|0.2221|1.1629|||t-test, 2 sided|without adjustments, df=39||"Null hypothesis was that Information and Communication Technology (ICT) supported diabetes care could have significant impact on reduction of baseline glycated hemoglobin (EHbA1c) after 1 year follow-up.~The sample in intervention group was normally distributed, so observed power (two-tailed hypothesis) was 0.45, for Cohen's d= 0.6 and alpha level =0.05"||1.1629|0.2221|0.005
82633979|NCT01351415|164983915|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.84||||0.1044|TWO_SIDED|90.0|0.71|1.0|||Stratified Log-Rank test|||The stratification factors for Log-Rank test and Hazard Ratio (HR) are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to first PD and smoking status.||1.00|0.71|0.1044
82569351|NCT01040403|164848154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.235|0.47|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Week 4||0.470|-0.235|
82569352|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.223|0.25|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|Day 1||0.250|-0.223|
82569353|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.37|0.104|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Day 1||0.104|-0.370|
82569354|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.278|0.199|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Day 1||0.199|-0.278|
82569355|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.382|0.088|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Day 1||0.088|-0.382|
82569356|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.291|0.186|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Day 1||0.186|-0.291|
82569357|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.144|0.332|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Day 1||0.332|-0.144|
82569358|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.282|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.519|-0.045|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Day 1||-0.045|-0.519|
82569359|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.35|0.124|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Day 1||0.124|-0.350|
82633980|NCT01351415|164983916|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.83||||0.0573|TWO_SIDED|90.0|0.7|0.98|||Stratified Log-Rank test|||PFS 2: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.98|0.70|0.0573
82569360|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.293|0.18|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Day 1||0.180|-0.293|
82569361|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|-0.069|0.408|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Day 1||0.408|-0.069|
82569362|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.01|0.461|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Day 1||0.461|-0.010|
82569363|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.18|0.293|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Day 1||0.293|-0.180|
82569364|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.067|0.387|||Mixed Models Analysis||Difference calculated as T+O 1.25/ minus Olo 5|Day 29||0.387|-0.067|
82569365|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.034|0.491|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|Day 29||0.491|0.034|
82569366|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|95.0|-0.148|0.316|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|Day 29||0.316|-0.148|
82569367|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.115|||TWO_SIDED|95.0|-0.124|0.328|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|Day 29||0.328|-0.124|
82569368|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.306|0.154|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|Day 29||0.154|-0.306|
82569369|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.408|0.052|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|Day 29||0.052|-0.408|
82569370|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.056|0.4|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|Day 29||0.400|-0.056|
82569371|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.171|0.285|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|Day 29||0.285|-0.171|
82569372|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.11|0.346|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|Day 29||0.346|-0.110|
82569373|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.115|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-0.345|0.115|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|Day 29||0.115|-0.345|
82569374|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.281|0.173|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|Day 29||0.173|-0.281|
82633981|NCT01351415|164983916|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.63||||0.0045|TWO_SIDED|90.0|0.49|0.83|||Stratified Log-Rank test|||PFS 3: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.83|0.49|0.0045
82379804|NCT02360215|164468931|SUPERIORITY|||||||0.2552|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.2552
82379805|NCT02360215|164468931|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||<0.0001
82379806|NCT02360215|164468931|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with the neurocognitive composite score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline composite score is reported here.||||<0.0001
82379807|NCT02360215|164468932|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Symptom Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.57
82379808|NCT02360215|164468932|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Symptom Severity score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline symptom severity is reported here.||||<0.0001
82512711|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.4915||||0.0001|TWO_SIDED|95.0|-9.82|-3.17|||Mixed Models Analysis|||Analysis presented for QLQ-C30 fatigue. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.17|-9.82|0.0001
82633982|NCT01351415|164983917|SUPERIORITY_OR_OTHER||Estimated difference in response rate|0.0237||||0.081|TWO_SIDED|90.0|-0.0156|0.063|||Stratified Cochran-Mantel-Haenszel test|||The stratification factors for Cochran-Mantel-Haenszel test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.0630|-0.0156|0.0810
82633983|NCT01351415|164983918|SUPERIORITY_OR_OTHER||Estimated difference in Disease Control|0.0326||||0.0218|TWO_SIDED|90.0|-0.0288|0.094|||Stratified Cochran-Mantel-Haenszel test|||The stratification factors for Cochran-Mantel-Haenszel test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.0940|-0.0288|0.0218
82379809|NCT02360215|164468932|SUPERIORITY|||||||0.083|||||||Mixed Models Analysis|||A two-sample t-test with a 2-sided type I error of 0.05 provides \>90% statistical power to detect a medium effect size of 0.5 for a comparison of the change from baseline to 6 months from the start of treatment. The comparison at six months was tested within a mixed effects model with covariates age, RPA class, prior radiosurgery, prior surgical resection, baseline score, treatment arm, and time was used.||||0.083
82379810|NCT02360215|164468933|SUPERIORITY|||||||0.9118|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Interference Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.9118
82379811|NCT02360215|164468933|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Interference Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline interference score is reported here.||||<0.0001
82633984|NCT01351415|164983919|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.29||||0.06|TWO_SIDED|90.0|0.09|0.9|||Stratified Log-Rank test|||The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.90|0.09|0.0600
82633985|NCT01351415|164983921|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.79||||0.0311|TWO_SIDED|90.0|0.65|0.95|||Stratified Log-Rank test|||TTP2: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.95|0.65|0.0311
82633986|NCT01351415|164983921|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.69||||0.0326|TWO_SIDED|90.0|0.52|0.92|||Stratified Log-Rank test|||TTP3: The stratification factors for Log-Rank test are the type of planned 2nd-line SoC treatment, the number of cycles of Bevacizumab maintenance treatment prior to PD1 and the smoking status.||0.92|0.52|0.0326
82633987|NCT00472043|164983948|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||||<0.001
82569375|NCT01040403|164848155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.166|0.289|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|Day 29||0.289|-0.166|
82569376|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.481|0.037|||Mixed Models Analysis||Difference calculated as T+O 1.25/5 minus Olo 5|||0.037|-0.481|
82569377|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.441|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.7|-0.182|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus Olo 5|||-0.182|-0.700|
82569378|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.409|0.111|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus Olo 5|||0.111|-0.409|
82633988|NCT01981096|164983974|SUPERIORITY|||||||0.011||||||The a priori threshold was alpha = .05.|ANCOVA|Adjusted for age and baseline pain levels||This analysis represents the between group comparisons (i.e., FIT Teens vs. CBT) from baseline assessment to the 3-month follow-up, the primary endpoint of the trial.||||.011
82512712|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.6165||||0.2099|TWO_SIDED|95.0|-9.27|2.04|||Mixed Models Analysis|||Analysis presented for QLQ-C30 financial difficulties. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||2.04|-9.27|0.2099
82512713|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.7756||||0.0004|TWO_SIDED|95.0|-10.49|-3.06|||Mixed Models Analysis|||Analysis presented for QLQ-C30 insomnia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.06|-10.49|0.0004
82512714|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.519||||0.0902|TWO_SIDED|95.0|-5.43|0.4|||Mixed Models Analysis|||Analysis presented for QLQ-C30 nausea and vomiting. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.40|-5.43|0.0902
82512715|NCT01639001|164718032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.4349|||<|0.0001|TWO_SIDED|95.0|-11.42|-5.45|||Mixed Models Analysis|||Analysis presented for QLQ-C30 pain. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-5.45|-11.42|<0.0001
82512716|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.8547||||0.0039|TWO_SIDED|95.0|-8.15|-1.56|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 alopecia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-1.56|-8.15|0.0039
82569379|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.219|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.478|0.04|||Mixed Models Analysis||Difference calculated as T+O 2.5/5 minus T+O 1.25/5|||0.040|-0.478|
82569380|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.189|0.335|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 1.25/5|||0.335|-0.189|
82569381|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|0.031|0.553|||Mixed Models Analysis||Difference calculated as T+O 5/5 minus T+O 2.5/5|||0.553|0.031|
82569382|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.382|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.641|-0.123|||Mixed Models Analysis||Difference calculated as T+O 1.25/10 minus Olo 10|||-0.123|-0.641|
82569383|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.132|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.39|0.127|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus Olo 10|||0.127|-0.390|
82569384|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.585|-0.067|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus Olo 10|||-0.067|-0.585|
82569385|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.01|0.511|||Mixed Models Analysis||Difference calculated as T+O 2.5/10 minus T+O 1.25/10|||0.511|-0.010|
82569386|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.202|0.314|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 1.25/10|||0.314|-0.202|
82569387|NCT01040403|164848156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.194|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|-0.453|0.065|||Mixed Models Analysis||Difference calculated as T+O 5/10 minus T+O 2.5/10|||0.065|-0.453|
82569388|NCT02367105|164848159|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.58|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariate||||||0.58
82569389|NCT02367105|164848160|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.03
82569390|NCT02367105|164848161|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.97|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||.97
82569391|NCT02367105|164848162|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.56|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.56
82569392|NCT02367105|164848163|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82569393|NCT02367105|164848164|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
82569394|NCT02367105|164848165|SUPERIORITY||Mean Difference (Final Values)|-42.0||||0.04|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.04
82569395|NCT02367105|164848166|SUPERIORITY||Mean Difference (Final Values)|-29.0||||0.67|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||.67
82569396|NCT02367105|164848167|SUPERIORITY||Mean Difference (Final Values)|-0.019||||0.003|TWO_SIDED||||||Mixed Models Analysis|Baseline valued adjusted||||||0.003
82569397|NCT02367105|164848168|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.69
82633989|NCT01981096|164983975|SUPERIORITY|||||||0.055||||||The a priori threshold was alpha = .05.|ANCOVA|Adjusted for age and baseline pain levels||This analysis represents the between group comparisons (i.e., FIT Teens vs. CBT) from baseline assessment to the 3-month follow-up, the primary endpoint of the trial.||||.055
82512717|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.9957||||0.0004|TWO_SIDED|95.0|-10.85|-3.14|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 coughing. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-3.14|-10.85|0.0004
82512718|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5181||||0.7082|TWO_SIDED|95.0|-3.23|2.2|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 dysphagia. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||2.20|-3.23|0.7082
82512719|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.6471|||<|0.0001|TWO_SIDED|95.0|-11.85|-5.44|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 dyspnoea. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-5.44|-11.85|<0.0001
82523728|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.826|TWO_SIDED|95.0|-93.0|74.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 8||74|-93|0.826
82379812|NCT02360215|164468934|SUPERIORITY|||||||0.1964|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.1964
82379813|NCT02360215|164468934|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline cognitive factor score is reported here.||||<0.0001
82379814|NCT02360215|164468934|SUPERIORITY|||||||0.0032|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Cognitive Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Prior radiotherapy (yes vs. no) is reported here.||||0.0032
82379815|NCT02360215|164468935|SUPERIORITY|||||||0.8877|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Treatment Arm (WBRT+Memantine vs. HA-WBRT Memantine) is reported here.||||0.8877
82379816|NCT02360215|164468935|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Baseline neurologic factor is reported here.||||<0.0001
82379817|NCT02360215|164468935|SUPERIORITY|||||||0.0078|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept estimates are not shown.)||A mixed effects model was run with MDASI-BT Neurologic Factor Score (baseline, 2, 4, 6, and 12 months) as the outcome of interest. Age, RPA class, prior radiosurgery, prior surgical resection were the covariates considered in each model along with interaction terms treatment\*time, time\*time, time\*time\*time and remained if p\<0.05. Baseline score, treatment arm, and time were forced into the model. Age (\> 61 years vs. \<= 61 years) is reported here.||||0.0078
82379818|NCT02360215|164468936|SUPERIORITY|||||||0.86||||||Significance level = 0.05|t-test, 2 sided|||||||0.86
82379819|NCT02360215|164468938|SUPERIORITY|||||||0.95||||||Significance level = 0.05|t-test, 2 sided|||||||0.95
82379820|NCT02360215|164468939|SUPERIORITY|||||||0.66||||||Significance level = 0.05|t-test, 2 sided|||||||0.66
82379821|NCT02360215|164468940|SUPERIORITY|||||||0.18||||||Significance level = 0.05|t-test, 2 sided|||||||0.18
82379822|NCT02360215|164468941|SUPERIORITY|||||||0.64||||||Significance level = 0.05|t-test, 2 sided|||||||0.64
82379823|NCT02360215|164468942|SUPERIORITY|||||||0.91||||||Significance level = 0.05|t-test, 2 sided|||||||0.91
82379824|NCT02360215|164468943|OTHER|||||||0.92||||||Significance level = 0.05|t-test, 2 sided|||||||0.92
82379825|NCT02360215|164468944|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.076|TWO_SIDED|95.0|0.98|1.47||Two-sided significance level = 0.05|Log Rank||Reference level = WBRT + Memantine|||1.47|0.98|0.076
82379826|NCT02360215|164468945|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.242|TWO_SIDED|95.0|0.91|1.43||Two-sided significance level = 0.05|Log Rank||Reference level = WBRT + Memantin|||1.43|0.91|0.242
82379827|NCT02360215|164468946|SUPERIORITY|||||||0.47||||||Two-sided p-value = 0.05|Chi-squared|||||||0.47
82379828|NCT02218463|164468962|SUPERIORITY|||||||0.206|||||||Fisher Exact|||Assessment of complete resolution between the 2 study arms.||||0.206
82379829|NCT02218463|164468963|SUPERIORITY|||||||0.0001|||||||ANOVA|||Time Effect||||0.0001
82633990|NCT02109939|164984007|SUPERIORITY||Mean Difference (Net)|-2.836|STANDARD_ERROR_OF_MEAN|1.758||0.107|TWO_SIDED|95.0|-6.285|0.613|||Mixed Models Analysis|Repeated Measures including week 4.||||0.613|-6.285|0.1070
82379830|NCT02218463|164468963|SUPERIORITY|||||||0.37|||||||ANOVA|||Treatment Effect||||0.370
82379831|NCT02218463|164468963|SUPERIORITY|||||||0.425|||||||ANOVA|||Treatment by time interaction||||0.425
82379832|NCT02059512|164468975|SUPERIORITY|||||||0.24|||||||Kruskal-Wallis|||||||0.24
82379833|NCT02059512|164468976|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||Length of hospital stay.||||0.1
82379834|NCT02059512|164468976|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||Length of stay in the intensive care unit.||||0.1
82379835|NCT02059512|164468977|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||||||0.4
82379836|NCT02059512|164468977|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Analysis of leukocytes 0-6 hours of the postoperative period.||||0.8
82379837|NCT02059512|164468977|SUPERIORITY|||||||0.9|||||||Kruskal-Wallis|||Analysis of leukocytes 12-18 hours of the postoperative period.||||0.9
82379838|NCT02059512|164468977|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||Analysis of leukocytes 18-24 hours of the postoperative period.||||0.2
82379839|NCT02059512|164468977|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||Analysis of leukocytes 48 hours of the postoperative period.||||0.5
82379840|NCT02059512|164468977|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Analysis of leukocytes 72 hours of the postoperative period.||||0.4
82379841|NCT02059512|164468977|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Analysis of leukocytes 96 hours of the postoperative period/||||0.6
82633991|NCT02109939|164984008|SUPERIORITY||Mean Difference (Net)|-2.207|STANDARD_ERROR_OF_MEAN|1.653||0.1822|TWO_SIDED|95.0|-5.45|1.036|||Mixed Models Analysis|MMRM with week 4 data.||||1.036|-5.450|0.1822
82379842|NCT02059512|164468977|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Analysis of leukocytes 7 days of the postoperative period.||||0.4
82379843|NCT02059512|164468977|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||Analysis of leukocytes 14 days of the postoperative period.||||0.5
82512720|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.2504||||0.1284|TWO_SIDED|95.0|-2.86|0.36|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 haemoptysis. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.36|-2.86|0.1284
82512721|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.2363||||0.0265|TWO_SIDED|95.0|-7.98|-0.49|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in arm or shoulder. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.49|-7.98|0.0265
82512722|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.2237||||0.0185|TWO_SIDED|95.0|-7.74|-0.71|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in chest. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.71|-7.74|0.0185
82512723|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.5901||||0.0075|TWO_SIDED|95.0|-7.95|-1.23|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 pain in other parts. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-1.23|-7.95|0.0075
82512724|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6732||||0.2848|TWO_SIDED|95.0|-4.74|1.39|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 peripheral neuropathy. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||1.39|-4.74|0.2848
82512725|NCT01639001|164718033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.398||||0.0296|TWO_SIDED|95.0|-4.56|-0.24|||Mixed Models Analysis|||Analysis presented for QLQ-LC13 sore mouth. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EORTC QLQ-C30 subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||-0.24|-4.56|0.0296
82512726|NCT01639001|164718034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.9136||||0.0123|TWO_SIDED|95.0|0.85|6.98|||Mixed Models Analysis|||From a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EQ-5D VAS subscale score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||6.98|0.85|0.0123
82512727|NCT01639001|164718035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0425||||0.032|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||From a repeated measures mixed-effects model with an intercept term, treatment, visit day and baseline EQ-5D Index score (intercept and visit day are included as random effects). P-values and confidence intervals are not adjusted for multiplicity.||0.08|0.00|0.0320
82512728|NCT01639001|164718037|SUPERIORITY_OR_OTHER_LEGACY||Overall percent agreement|0.934|||||TWO_SIDED|95.0|0.914|0.949|||||95% CI for agreement rate is calculated by the Wilson (Score) Confidence Limit method with alpha=0.05|||0.949|0.914|
82512729|NCT01639001|164718037|SUPERIORITY_OR_OTHER_LEGACY||Kappa|0.847|||||TWO_SIDED|95.0|0.8065|0.8875|||||Kappa coefficient is a statistic which measures inter-rater agreement for qualitative (categorical) items.|||0.8875|0.8065|
82512730|NCT01034397|164718119|SUPERIORITY_OR_OTHER|||||||1||||||Wrist region: Tocilizumab versus placebo; Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82512731|NCT01034397|164718119|SUPERIORITY_OR_OTHER|||||||0.026||||||2nd and 5th MCP joints: Tocilizumab versus placebo|t-test, 1 sided|||||||0.026
82512732|NCT01034397|164718119|SUPERIORITY_OR_OTHER|||||||1||||||Total synovitis score: Tocilizumab versus placebo; Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82512733|NCT01034397|164718120|SUPERIORITY_OR_OTHER|||||||0.421||||||Percentage Change in OMERACT RAMRIS global score; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.421
82379844|NCT02059512|164468978|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||CRP initially.||||0.1
82379845|NCT02059512|164468978|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||CRP postoperative 4-6 days.||||0.4
82379846|NCT02059512|164468978|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||CRP postoperative 12-14 days.||||0.99
82379847|NCT02059512|164468979|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||The volume of discharge through the drains on the first day after surgery.||||0.2
82379848|NCT02059512|164468979|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||The volume of discharge through the drains on the second day after the operation.||||0.3
82379849|NCT02059512|164468980|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Troponin I postoperative day 1.||||0.6
82512734|NCT01034397|164718121|SUPERIORITY_OR_OTHER|||||||0.434||||||Absolute change in OMERACT RAMRIS global score; Placebo versus Tocilizumab|t-test, 1 sided|||||||0.434
82512735|NCT01034397|164718124|SUPERIORITY_OR_OTHER|||||||1||||||Change in Wrist region; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82512736|NCT01034397|164718124|SUPERIORITY_OR_OTHER|||||||0.065||||||Change in 2nd to 5th MCP; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.065
82512737|NCT01034397|164718124|SUPERIORITY_OR_OTHER|||||||1||||||Change in Total synovitis; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82512738|NCT01034397|164718126|SUPERIORITY_OR_OTHER|||||||1||||||Absolute Change in Bone erosion; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82633992|NCT02109939|164984009|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0134|TWO_SIDED|95.0|1.07|1.86|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.86|1.07|0.0134
82633993|NCT02109939|164984012|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0066|TWO_SIDED|95.0|1.14|2.27|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||2.27|1.14|0.0066
82633994|NCT02109939|164984015|SUPERIORITY||Odds Ratio (OR)|1.13||||0.2852|TWO_SIDED|95.0|0.9|1.43|||Generalized linear mixed model.|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.43|0.90|0.2852
82379850|NCT02059512|164468980|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Troponin I postoperative day 3.||||0.4
82379851|NCT02059512|164468980|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Myoglobin postoperative day 1.||||0.8
82512739|NCT01034397|164718127|SUPERIORITY_OR_OTHER|||||||1||||||Percentage Change in Bone erosion; Tocilizumab versus placebo. Since one-sided t-test was used all effects in the opposite direction of what was predicted have a p-value=1.|t-test, 1 sided|||||||1.00
82512740|NCT01034397|164718130|SUPERIORITY_OR_OTHER|||||||0.266||||||Percentage Change in Bone oedema; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.266
82512741|NCT01034397|164718131|SUPERIORITY_OR_OTHER|||||||0.337||||||Absolute Change in Bone edema; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.337
82633995|NCT02109939|164984016|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0023|TWO_SIDED|95.0|1.14|1.79|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.79|1.14|0.0023
82379852|NCT02059512|164468980|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||Myoglobin postoperative day 3.||||0.7
82379853|NCT02059512|164468981|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||CPK-MB postoperative day 1.||||0.7
82379854|NCT02059512|164468981|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||CPK-MB postoperative day 3.||||0.8
82379855|NCT02059512|164468982|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||Hb intraoperatively before turning off the cardiopulmonary bypass(CPB).||||1.0
82379856|NCT02059512|164468982|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Hb at the end of the operation.||||0.4
82379857|NCT02059512|164468983|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||HCT intraoperatively before turning off the cardiopulmonary bypass (CPB).||||0.8
82379858|NCT02059512|164468983|SUPERIORITY|||||||0.3|||||||Kruskal-Wallis|||HCT at the end of the operation.||||0.3
82379859|NCT02059512|164468984|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||K+ intraoperatively before turning off the cardiopulmonary bypass (CPB).||||0.4
82633996|NCT02109939|164984025|SUPERIORITY||Odds Ratio (OR)|1.43||||0.014|TWO_SIDED|95.0|1.07|1.89|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.89|1.07|0.0140
82633997|NCT02109939|164984026|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0663|TWO_SIDED|95.0|0.98|1.76|||Generalized linear mixed model|The reported outcome measure is the estimated percentage from a generalized linear mixed model, not a simple count of subjects.||||1.76|0.98|0.0663
82633998|NCT01801189|164984106|SUPERIORITY|||||||0.1||||||Threshold for significance was P \<0.05.|t-test, 1 sided|||||||0.10
82379860|NCT02059512|164468984|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||K+ at the end of the operation.||||0.1
82379861|NCT02059512|164468985|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
82379862|NCT02059512|164468986|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
82379863|NCT02059512|164468987|SUPERIORITY|||||||0.6|||||||Chi-squared|||Hydrothorax / postoperative period.||||0.6
82379864|NCT02059512|164468987|SUPERIORITY|||||||0.2|||||||Chi-squared|||Hydropericardium / postoperative period.||||0.2
82379865|NCT02059512|164468987|SUPERIORITY|||||||0.6|||||||Chi-squared|||Resternotomy / postoperative period.||||0.6
82379866|NCT02059512|164468987|SUPERIORITY|||||||0.06|||||||Chi-squared|||Atrial fibrillation / postoperative period.||||0.06
82512742|NCT01034397|164718134|SUPERIORITY_OR_OTHER|||||||0.114||||||Percentage change in DCE-MRI EER (global); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.114
82379867|NCT02059512|164468987|SUPERIORITY|||||||0.06|||||||Chi-squared|||Atrial flutter / postoperative period.||||0.06
82512743|NCT01034397|164718135|SUPERIORITY_OR_OTHER|||||||0.239||||||Absolute Change in DCE-MRI EER; Tocilizumab versus placebo.|t-test, 1 sided|||||||0.239
82512744|NCT01034397|164718138|SUPERIORITY_OR_OTHER|||||||0.271||||||Percentage change in DCE-MRI EER (MCP); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.271
82512745|NCT01034397|164718139|SUPERIORITY_OR_OTHER|||||||0.37||||||Absolute change in DCE-MRI EER (MCP); Placebo versus Tocilizumab|t-test, 1 sided|||||||0.370
82512746|NCT01034397|164718142|SUPERIORITY_OR_OTHER|||||||1||||||Percentage and absolute change in DCE-MRI EER (wrist); Placebo versus Tocilizumab|t-test, 1 sided|||||||1.00
82379868|NCT02059512|164468988|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||||||0.4
82379869|NCT02059512|164468989|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Lvd ind. (Lvd mm./BSA kg / cm) - Evaluation of the left ventricular end-diastolic size index.||||0.5
82379870|NCT02059512|164468989|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Lvs ind. (Lvs mm./BSA kg / cm) - Evaluation of the left ventricular end-systolic size index.||||0.5
82379871|NCT02059512|164468989|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||LAind. (LA mm./BSA kg / cm) - Left Atrial Size Index Assessment.||||0.6
82379872|NCT02059512|164468990|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||LVEDV MOD BP ind. (LVEDV MOD BP ml./BSA kg / cm) - Evaluation of the left ventricular end-diastolic volume index.||||0.4
82379873|NCT02059512|164468990|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||Evaluation of the left ventricular end-systolic volume index (LVESV MOD BP ind.)||||0.3
82379874|NCT02059512|164468991|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
82379875|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Physical Functioning SF-36. Comparison of patients of group 1 and group 2 with the control group - group 0.||||0.7
82379876|NCT02059512|164468993|SUPERIORITY|||||||0.8|||||||RepeatedMeasures ANOVA|||Role-Physical Functioning SF-36||||0.8
82379877|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Bodily pain SF-36||||0.7
82379878|NCT02059512|164468993|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||General Health SF-36.||||0.6
82379879|NCT02059512|164468993|SUPERIORITY|||||||0.8|||||||RepeatedMeasures ANOVA|||Vitality SF-36.||||0.8
82379880|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Social Functioning SF-36.||||0.7
82379881|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Role- Emotional SF-36.||||0.7
82379882|NCT02059512|164468993|SUPERIORITY|||||||0.96|||||||RepeatedMeasures ANOVA|||Mental Health SF-36.||||0.96
82379883|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Minnesota Quality of Life (MHFLQ).||||0.7
82379884|NCT02059512|164468993|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||Seattle QuestionnairePhysical limitation.||||0.6
82379885|NCT02059512|164468993|SUPERIORITY|||||||0.4|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireAngina stability.||||0.4
82379886|NCT02059512|164468993|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireAngina frequency.||||0.6
82379887|NCT02059512|164468993|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaireTreatment satisfaction.||||0.7
82379888|NCT02059512|164468993|SUPERIORITY|||||||0.3|||||||RepeatedMeasures ANOVA|||SeattleQuestionnaire Disease perception.||||0.3
82379889|NCT02059512|164468994|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82379890|NCT02059512|164468995|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
82379891|NCT02059512|164468996|SUPERIORITY|||||||0.35|||||||RepeatedMeasures ANOVA|||||||0.35
82379892|NCT02059512|164468997|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||Lvd ind. (Lvd mm./BSA) - left ventricular end-diastolic size index. All patients included in the study.||||0.2
82379893|NCT02059512|164468997|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||Lvs ind. (Lvs mm./BSA kg / cm) - left ventricular end-systolic size index.||||0.2
82379894|NCT02059512|164468997|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||LAind. (LA mm./BSA kg / cm) - left atrial index.||||0.5
82379895|NCT02059512|164468998|SUPERIORITY|||||||0.6|||||||RepeatedMeasures ANOVA|||LVEDV MOD BP ind. (LVEDV MOD BP ml./BSA kg / cm) - left ventricular end-diastolic volume index.||||0.6
82379896|NCT02059512|164468998|SUPERIORITY|||||||0.2|||||||RepeatedMeasures ANOVA|||LVESV MOD BP ind. (LVESV MOD BP ml./BSA kg / cm) - left ventricular end-systolic volume index.||||0.2
82512747|NCT01034397|164718147|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82512748|NCT01034397|164718150|SUPERIORITY_OR_OTHER|||||||0.067|||||||t-test, 1 sided|||||||0.067
82512749|NCT01034397|164718152|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
82512750|NCT01034397|164718154|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 1 sided|||||||0.002
82512751|NCT01034397|164718156|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Baseline to Week 12|Friedman's T test|||||||<0.001
82512752|NCT01034397|164718156|SUPERIORITY_OR_OTHER|||||||0.5||||||Change from Baseline to Week 12|Friedman's T test|||||||0.500
82512753|NCT01034397|164718157|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 1 sided|||||||0.007
82512754|NCT01034397|164718160|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
82512755|NCT01034397|164718162|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 1 sided|||||||0.002
82512756|NCT01034397|164718164|SUPERIORITY_OR_OTHER|||||||0.118|||||||t-test, 1 sided|||||||0.118
82512757|NCT01034397|164718166|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 1 sided|||||||1.00
82512758|NCT01034397|164718168|SUPERIORITY_OR_OTHER|||||||0.437|||||||t-test, 1 sided|||||||0.437
82512759|NCT01034397|164718169|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 1 sided|||||||1.00
82512760|NCT01034397|164718172|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 1 sided|||||||0.190
82633999|NCT01801189|164984106|SUPERIORITY|||||||0.23||||||Threshold for significance \<0.05|t-test, 1 sided|||POD 1||||.23
82512761|NCT01034397|164718174|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 1 sided|||||||0.051
82512762|NCT03192150|164718186|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was two-sided and performed using a significance (alpha) level of 0.05.|||||<|0.0001||||||P-values were from a Chi-Square test (with continuity correction) of differences between treatments in the proportion of participants with ACC Grade 0 who did not receive rescue medication versus all other grades combined.|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||||||< 0.0001
82512763|NCT03192150|164718187|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.311||||0.0054|TWO_SIDED|95.0|1.311|4.074||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 1||4.074|1.311|0.0054
82512764|NCT03192150|164718187|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.581|||<|0.0001|TWO_SIDED|95.0|1.967|6.519||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 8||6.519|1.967|< 0.0001
82512765|NCT03192150|164718187|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.503|||<|0.0001|TWO_SIDED|95.0|1.909|6.426||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 15||6.426|1.909|< 0.0001
82512766|NCT03192150|164718187|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.659|||<|0.0001|TWO_SIDED|95.0|1.987|6.736||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 18||6.736|1.987|< 0.0001
82512767|NCT03192150|164718187|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.952||||0.0008|TWO_SIDED|95.0|1.596|5.462||P-values were from a Chi-Square test with continuity correction.|Chi-squared, Corrected|A Fisher's exact test was used if ≥ 1 of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 29||5.462|1.596|0.0008
82569398|NCT02367105|164848169|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.94|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.94
82634000|NCT01801189|164984106|SUPERIORITY|||||||0.31||||||Threshold for significance \<0.05|t-test, 1 sided|||POD 2||||.31
82379897|NCT02059512|164468999|SUPERIORITY|||||||0.35|||||||RepeatedMeasures ANOVA|||Peak E of transmitral flow||||0.35
82379898|NCT02059512|164468999|SUPERIORITY|||||||0.7|||||||RepeatedMeasures ANOVA|||Peak A of transmitral flow.||||0.7
82379899|NCT02059512|164469000|SUPERIORITY|||||||0.5|||||||RepeatedMeasures ANOVA|||Peak E of transmitral flow/ Peak A of transmitral flow (E/A).||||0.5
82379900|NCT02059512|164469001|SUPERIORITY|||||||0.9|||||||RepeatedMeasures ANOVA|||DT (Half-time of wave E).||||0.9
82379901|NCT02059512|164469001|SUPERIORITY|||||||0.9|||||||RepeatedMeasures ANOVA|||time of isovolumic relaxation of the left ventricle||||0.9
82379902|NCT02059512|164469002|SUPERIORITY|||||||0.0367|||||||Kruskal-Wallis|||||||0.0367
82379903|NCT02059512|164469003|SUPERIORITY|||||||0.04|||||||Chi-squared|||Assessment of the functioning of grafts. Patency of grafts within a specified time of treatment (angiography).||||0.04
82379904|NCT02059512|164469004|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82379905|NCT02059512|164469005|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|||||||0.05
82379906|NCT02059512|164469006|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|Data were analyzed by 1, 2, and 3 sections according to the study design.||Mononuclear fraction %||||0.05
82379907|NCT02059512|164469006|SUPERIORITY|||||||0.057|||||||Discriminant Analysis|Data were analyzed by 1, 2, and 3 sections according to the study design.||CD34+ %||||0.057
82379908|NCT02059512|164469006|SUPERIORITY|||||||0.05|||||||Discriminant Analysis|||CD133+ %||||0.05
82379909|NCT02059512|164469007|SUPERIORITY|||||||0.046|||||||Factor analysis|||Factor analysis - determining the influence of a factor, in this case, smoking, on the deficit in the number of meters passed according to the test with a 6-minute walk.||||0.046
82379910|NCT03848715|164469008|SUPERIORITY|||||||0.16|||||||Regression, Linear|||||||.16
82379911|NCT04179838|164469020|SUPERIORITY|||||||0.001||||||Corrected for multiple comparisons in piriform cortex|t-test, 1 sided|||Null hypothesis is that there was no difference in decoding accuracy between sleep-deprived and non-sleep deprived interventions. Paired t-test on decoding accuracy from both phases (sleep-deprived minus non-sleep deprived) against the null hypothesis of no difference.||||0.001
82379912|NCT04179838|164469021|SUPERIORITY|||||||0.021|||||||t-test, 1 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.021
82379913|NCT04179838|164469022|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.63
82379914|NCT04179838|164469023|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.08
82379915|NCT04179838|164469024|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.28
82379916|NCT04179838|164469025|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.50
82379917|NCT04179838|164469026|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Null hypothesis is that there was no change after the sleep-deprived relative to the non-sleep deprived intervention. One sample t-test on percentage change in the sleep-deprived relative to non-sleep deprived phase.||||0.58
82379918|NCT02203357|164469059|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0||||The p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance.|ANOVA|||||||<0.05
82379919|NCT01111318|164469068|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|123.15|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|98.89|153.36|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as mild divided by healthy||153.36|98.89|
82379920|NCT01111318|164469068|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|146.97|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|118.02|183.02|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as moderate divided by healthy||183.02|118.02|
82379921|NCT01111318|164469068|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|174.7|STANDARD_DEVIATION|29.0|||TWO_SIDED|90.0|140.29|217.55|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as severe divided by healthy||217.55|140.29|
82379922|NCT01111318|164469069|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|103.81|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|82.29|130.95|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as mild divided by healthy||130.95|82.29|
82379923|NCT01111318|164469069|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|123.31|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|97.74|155.55|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as moderate divided by healthy||155.55|97.74|
82379924|NCT01111318|164469069|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio|148.41|STANDARD_DEVIATION|30.7|||TWO_SIDED|90.0|117.65|187.23|||ANOVA|Based on ANOVA with fixed effect for treatment (corresponding to hepatic impairment status).|Standard deviation is actually the geometric coefficient of variation|Ratio calculated as severe divided by healthy||187.23|117.65|
82379925|NCT02493660|164469102|NON_INFERIORITY|The non-inferiority margin was 10% for all composite endpoints. The primary analysis method was a multilinear regression model for month 12 success with age (\<65 years, ≥65 years), gender, and treatment as the model covariates for the PP population for noninferiority testing.||||||0.0049|||||||Regression, Logistic|Primary analysis method was for month 12 success with age (\<65 years, ≥65 years), sex, and treatment as the model covariates.||||||0.0049
82634001|NCT01021293|164984116|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 1 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.28|1.24||||||Non-inferiority of Poliorix™ as compared to OPV||1.24|-1.28|
82634002|NCT01021293|164984116|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 2 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.28|1.24||||||Non-inferiority of Poliorix™ as compared to OPV||1.24|-1.28|
82634003|NCT01021293|164984116|NON_INFERIORITY|Non-inferiority of Poliorix™ vaccine as compared to OPV vaccine in terms of the immune response to poliovirus type 3 one month after the third vaccine dose. Non-inferiority in terms of immunogenicity to poliovirus antigens was demonstrated if the upper limit of the 95% confidence interval (CI) on the group difference \[Control Group minus Poliorix Group\] in the percentage of seroprotected subjects|Difference in seroprotection rate|-1.69|||||TWO_SIDED|95.0|-3.9|-0.44||||||Non-inferiority of Poliorix™ as compared to OPV||-0.44|-3.9|
82634004|NCT02534324|164984149|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Chi-squared|||||||0.49
82634005|NCT02534324|164984150|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
82634006|NCT01138995|164984151|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher's combination test|Between group difference for entire sample||||||0.75
82634007|NCT01138995|164984152|SUPERIORITY_OR_OTHER||||||<|0.022|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.022
82634008|NCT01138995|164984153|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82379926|NCT02493660|164469105|NON_INFERIORITY|The non-inferiority margin was 10% for all composite endpoints.|||||<|0.05|||||||Regression, Logistic|||Results from logistic regression model.||||<0.05
82379927|NCT01050530|164469112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|||<|0.0001|TWO_SIDED|95.0|-2.08|-0.93|||t-test, 2 sided|||||-0.93|-2.08|<0.0001
82634009|NCT03993314|164984173|SUPERIORITY|||||||0.757||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients achieving a level of numbness of T6 or higher between the two groups.||||0.757
82634010|NCT03993314|164984174|SUPERIORITY|||||||0.186||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median level of numbness between the two groups.||||0.186
82634011|NCT03993314|164984175|SUPERIORITY|||||||0.132||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients requiring epidural activation between the two groups.||||0.132
82634012|NCT03993314|164984176|SUPERIORITY|||||||0.833||||||Two-sided p-value|Farrington-Manning (Score) test|||Exact Farrington-Manning (Score) test of the null hypothesis that there is no difference between the proportion of patients requiring supplemental IV sedation or general anesthesia between the two groups.||||0.833
82634013|NCT03993314|164984177|SUPERIORITY|||||||0.004||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median modified Bromage score between the two groups.||||0.004
82379928|NCT01050530|164469113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-300.7||||0.0093|TWO_SIDED|95.0|-526.2|-75.1|||t-test, 2 sided|||||-75.1|-526.2|0.0093
82379929|NCT04055740|164469134|SUPERIORITY|||||||0.2201|||||||Spearman Correlation Coefficient|This test measures correlation of avg ILA grade per patient with total time of lead extraction. Average ILA grade of all patients in outcome measures.||H0: rho = 0 Spearman correlation coefficient calculated between average ILA grade and total time of lead extraction||||0.2201
82379930|NCT04055740|164469134|SUPERIORITY|||||||0.5157|||||||Spearman Correlation Coefficient|This measures correlation of avg ILA grade per patient with total laser pulsations used for extraction. Avg ILA grade of patients in outcome measures.||H0: rho = 0 Spearman Correlation coefficient calculated between average ILA grades and laser pulsations||||0.5157
82379931|NCT02023983|164469146|OTHER|||||||0.765|||||||Fisher Exact|||||||0.765
82379932|NCT02023983|164469147|OTHER|||||||1|||||||Fisher Exact|||||||1
82379933|NCT02105467|164469148|SUPERIORITY_OR_OTHER||||||<|0.001|||||||One-sided, one-sample exact test|||Superiority of SVR12 in the Immediate Treatment group was tested against the historical response rate of 73%.||||<0.001
82379934|NCT02105467|164469149|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-10.8|9.6|||||Between-treatment difference (Immediate Treatment Group - Deferred Treatment Group) was analyzed using the Miettinen and Nurminen method.|||9.6|-10.8|
82569399|NCT02367105|164848170|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.41|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.41
82512768|NCT01448850|164718196|SUPERIORITY_OR_OTHER||Rate ratio|0.92||||0.645|TWO_SIDED|90.0|0.68|1.25||Data was analyzed using Poisson regression with Pearson correction, adjusting for treatment, background therapy and history of previous exacerbations.|Poisson regression|||||1.25|0.68|0.645
82512769|NCT02664038|164718216|SUPERIORITY||Mean Difference (Final Values)|-2.82|STANDARD_ERROR_OF_MEAN|2.68|<|0.05|TWO_SIDED|0.05|-8.23|2.588|||ANCOVA|covaried for days of heavy drinking over the 30 days prior to randomization.||||2.588|-8.23|<.05
82379935|NCT02105467|164469150|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-4.4|2.0|||||Between-treatment difference (Immediate Treatment Group - Deferred Treatment Group) was analyzed using the Miettinen and Nurminen method.|||2.0|-4.4|
82512770|NCT02664038|164718217|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.66|<|0.05|TWO_SIDED|0.05|-3.26|3.61|||ANCOVA|Days of heavy drinking 30 days prior to randomization||||3.61|-3.26|<.05
82512771|NCT02664038|164718218|SUPERIORITY||Mean Difference (Final Values)|2.94|STANDARD_ERROR_OF_MEAN|1.49||0.77|TWO_SIDED|0.05|1.45|4.43|||Mixed Models Analysis|Repeated measure with Baseline, 13 weeks and 26 weeks||||4.43|1.45|.77
82569400|NCT02367105|164848171|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.46|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.46
82634014|NCT03993314|164984178|SUPERIORITY|||||||0.674||||||Two-sided p-value|Wilcoxon (Mann-Whitney)|Test performed was an exact test; no continuity correction was used.||Exact Wilcoxon test of the null hypothesis that there is no difference between the median modified Bromage score between the two groups.||||0.674
82634015|NCT03993314|164984179|SUPERIORITY|||||||0.196|||||||Log Rank|||Log-rank test of the null hypothesis that there is no difference in the time to discharge from the Post Anesthesia Care Unit (PACU) between the two groups.||||0.196
82634016|NCT01005966|164984184|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.01||||0.2117|TWO_SIDED|95.0|-7.75|1.73||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|Analysis of variance (ANOVA) based on a mixed model with the factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for NaF toothpaste and AmF toothpaste to be equal with respect to enamel remineralization potential.||1.73|-7.75|0.2117
82634017|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.96||||0.0002|TWO_SIDED|95.0|4.27|13.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||13.66|4.27|0.0002
82512772|NCT02664038|164718219|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|1.53|<|0.05|TWO_SIDED|95.0|-1.61|4.5|||Mixed Models Analysis|||||4.50|-1.61|<.05
82634018|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.57||||0.0557||95.0|-0.11|9.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel remineralization potential.||9.24|-0.11|0.0557
82379936|NCT00811733|164469159|SUPERIORITY_OR_OTHER||percentage of participants|47.0|||||TWO_SIDED|95.0|21.3|73.4|||||The estimated value represents the percentage of participants with OR.|||73.4|21.3|
82379937|NCT00811733|164469159|SUPERIORITY_OR_OTHER||percentage of participants|68.0|||||TWO_SIDED|95.0|45.1|86.1|||||The estimated value represents the percentage of participants with OR.|||86.1|45.1|
82512773|NCT02664038|164718220|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.43||0.05|TWO_SIDED|0.05|0.19|1.11|||t-test, 2 sided|||||1.11|.19|.05
82512774|NCT00086580|164718242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.467|0.795|||Regression, Cox|Cox proportional hazards model was stratified by Rai Stage Group||||0.795|0.467|<0.001
82379938|NCT00811733|164469160|SUPERIORITY_OR_OTHER||percentage of participants|33.0|||||TWO_SIDED|95.0|11.8|61.6|||||The estimated value represents the percentage of participants with OR.|||61.6|11.8|
82512775|NCT00086580|164718243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.178|TWO_SIDED|95.0|-0.03|0.15||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Cochran-Mantel-Haenszel|CMH chi-square test for a difference in overall response rates between treatments stratified by Rai Stage Group.|Difference and confidence interval (CI) calculated using the recommended method by Altman et al.|Comparison of Overall Response.||0.15|-0.03|0.178
82523729|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.773||95.0|-95.0|70.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 8||70|-95|0.773
82523730|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|47.0||||0.277|TWO_SIDED|95.0|-38.0|131.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 8||131|-38|0.277
82523731|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.0||||0.319|TWO_SIDED|95.0|-43.0|132.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 12||132|-43|0.319
82523732|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.716|TWO_SIDED|95.0|-71.0|103.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 12||103|-71|0.716
82512776|NCT00086580|164718243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.018|TWO_SIDED|95.0|0.02|0.15||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Cochran-Mantel-Haenszel|CMH chi-square test for a difference in complete response rates between treatments stratified by Rai Stage Group.|Difference and confidence interval (CI) calculated using the recommended method by Altman et al.|Comparison of complete response (CR).||0.15|0.02|0.018
82634019|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.55|||<|0.0001|TWO_SIDED|95.0|18.86|28.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||28.24|18.86|<0.0001
82379939|NCT00811733|164469160|SUPERIORITY_OR_OTHER||percentage of participants|64.0|||||TWO_SIDED|95.0|40.7|82.8|||||The estimated value represents the percentage of participants with OR.|||82.8|40.7|
82512777|NCT00086580|164718244|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.648||||0.042|TWO_SIDED|95.0|0.449|0.937||P-value presented is adjusted for multiple tests using Hochberg procedure for 3 clinically important secondary endpoints: ORR, CR rates and OS.|Regression, Cox|Cox proportional hazards model stratified by Rai Stage Group||||0.937|0.449|0.042
82512778|NCT00086580|164718245|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.562|||<|0.001|TWO_SIDED|95.0|0.42|0.752|||Regression, Cox|Cox regression model stratified by Rai Stage Group.||||0.752|0.420|<0.001
82512779|NCT00086580|164718247|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.718||||0.021|TWO_SIDED|95.0|0.543|0.951|||Regression, Cox|Cox proportional hazards model stratified by Rai Stage Group.||||0.951|0.543|0.021
82512780|NCT00086580|164718255|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.75||||0.102|TWO_SIDED|95.0|0.531|1.059|||Regression, Cox|||||1.059|0.531|0.102
82512781|NCT00086580|164718256|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.443|||<|0.001|TWO_SIDED|95.0|0.292|0.671|||Regression, Cox|||||0.671|0.292|<0.001
82512782|NCT00086580|164718257|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.066||||0.819|TWO_SIDED|95.0|0.619|1.836|||Regression, Cox|Cox proportional hazards model||||1.836|0.619|0.819
82569401|NCT02367105|164848172|SUPERIORITY|Baseline value adjusted|Mean Difference (Final Values)|0.6||||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||0.96
82379940|NCT01958437|164469199|SUPERIORITY|||||||0.048|||||||ANCOVA|||RM ANCOVA (covarying order) for cognitively intact groups||||.048
82512783|NCT00086580|164718258|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.416|||<|0.001|TWO_SIDED|95.0|0.25|0.69|||Regression, Cox|Cox proportional hazards model||||0.690|0.250|<0.001
82512784|NCT00086580|164718261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.014|TWO_SIDED|95.0|0.01|0.08|||Cochran-Mantel-Haenszel|CMH chi-square test for a difference in response rates between treatments stratified by Rai Stage Group.||||0.08|0.01|0.014
82569402|NCT02367105|164848173|SUPERIORITY||Mean Difference (Final Values)|-0.284||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||.003
82379941|NCT01958437|164469199|SUPERIORITY|||||||0.063|||||||ANCOVA|||RM ANCOVA (covarying order) for MCI group||||.063
82512785|NCT03235024|164718264|EQUIVALENCE|A sample size of 52 per group would achieve \>80% power to reject the null hypothesis of equal means when the population mean difference is μ1 - μ2 = (-1.4) - (-5.3) = 3.9 with a standard deviation for both groups of 7.0 and with a significance level (alpha) of 0.025 using a 1-sided 2-sample equal variance t-test.||||||0.0228||||||At Week 2|t-test, 1 sided|||||||0.0228
82512786|NCT02357576|164718271|OTHER|Percentage and frequencies were used to describe the incidence of PNAC in the two groups.||||||0.617|||||||Fisher Exact|||||||0.617
82512787|NCT02357576|164718272|OTHER|Percentage and frequencies were used to describe the incidence of severe PNAC.||||||0.45|||||||Fisher Exact|||||||0.450
82512788|NCT02357576|164718273|OTHER|The Kaplan Meier curve was used to evaluated the time to first PNAC event.||||||0.2716|||||||Log Rank|A log rank test was used to test the equality of the survival curve between the two groups.||||||0.2716
82569403|NCT02367105|164848174|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.16|TWO_SIDED||||||Mixed Models Analysis|Baseline value and years of education as covariates||||||.16
82379942|NCT01958437|164469200|SUPERIORITY|||||||0.27|||||||ANCOVA|Main effect of stimulation covarying session order||Change between active and sham tDCS sessions for allocentric blocks||||.27
82379943|NCT01958437|164469200|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
82512789|NCT01959581|164718304|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Repeated measures ANOVA||||<.05
82512790|NCT03773757|164718311|SUPERIORITY|Longitudinal measures of NPI-Q patient over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.8719|||||||Mixed Models Analysis|||||||0.8719
82569404|NCT02367105|164848175|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.21|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.21
82569405|NCT02367105|164848176|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.41|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.41
82569406|NCT02367105|164848177|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value and years if education as covariates||||||.03
82379944|NCT01958437|164469201|SUPERIORITY||||||<|0.001|||||||ANCOVA|Main effect of session using repeated measures ANCOVA covarying stimulation order||||||<.001
82379945|NCT01958437|164469201|SUPERIORITY|||||||0.046|||||||ANCOVA|Main effect of session using repeated measures ANCOVA covarying stimulation order||||||.046
82379946|NCT01958437|164469202|SUPERIORITY|||||||0.497|||||||ANCOVA|||Repeated Measures ANCOVA (covarying stimulation order)||||.497
82379947|NCT01958437|164469202|SUPERIORITY|||||||0.599|||||||ANCOVA|||||||.599
82379948|NCT03442751|164469203|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0004|TWO_SIDED|95.0|-1.5|-0.4|||ANCOVA|||Repeated measures mixed analysis of covariance model||-0.4|-1.5|0.0004
82569407|NCT02367105|164848178|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||.03
82569408|NCT02367105|164848179|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.18|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||.18
82569409|NCT02367105|164848180|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.1|TWO_SIDED||||||Mixed Models Analysis|Baseline values and years of education as covariates||||||0.10
82569410|NCT02367105|164848181|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.65|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||.65
82379949|NCT03442751|164469204|SUPERIORITY|last observation carried forward was used to impute missing Month 12 data|Mean Difference (Net)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|||repeated measures mixed analysis of covariance model||-0.6|-1.6|<0.0001
82512791|NCT03773757|164718312|SUPERIORITY|Longitudinal measures of SM-EOLD over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.8389|||||||Mixed Models Analysis|||||||0.8389
82512792|NCT03773757|164718313|SUPERIORITY|Longitudinal measures of PHQ-8 over 24 months were compared between the two groups using mixed effects model that included a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.3431|||||||Mixed Models Analysis|||||||0.3431
82512793|NCT03773757|164718314|SUPERIORITY|Longitudinal measures of NPI-Q caregiver distress over 24 months were compared between the two groups using mixed effects model including a group indicator variable, time since baseline, and an interaction between group and time as independent variables. Unstructured variance-covariance matrix was used to adjust for within-subject correlations over time. Predicted differences in mean scores between the two groups at each time point were estimated using the contrast procedures in the mixed model.||||||0.6612|||||||Mixed Models Analysis|||||||0.6612
82512794|NCT03773757|164718315|SUPERIORITY|A zero-inflated Poisson (ZIP) model was used to compare the mean numbers of hospitalization/ED events between the two groups. The ZIP model consists of a combination of a standard Poisson distribution for count data and a binary logistic regression model to account for additional zero events exceeding what would be expected from an underlying Poisson distribution.||||||0.0007|||||||Zero-Inflated Poisson Regression Model|||||||0.0007
82512795|NCT00550836|164718329|SUPERIORITY|||||||0.36|||||||Log Rank|||It was calculated that 39 participants randomized in a 1:1 fashion between the 2 arms would have 80% to detect a difference in median survival of 6 vs. 9.7 months for GE vs. PGE respectively with a minimum follow up of 6 months. Sample size was determined using a 1-sided log-rank test at alpha=0.20.||||0.36
82512796|NCT00550836|164718330|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82512797|NCT00550836|164718331|SUPERIORITY|||||||0.419|||||||Log Rank|||||||0.419
82512798|NCT00550836|164718332|OTHER|||||||0.36|||||||Log Rank|||||||0.36
82512799|NCT02144675|164718334|OTHER||||||<|0.05|||||||Regression, Cox|||||||<.05
82512800|NCT01458171|164718340|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.45||||||||0.450||
82512801|NCT01458171|164718340|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.523||||||||0.523||
82512802|NCT01559311|164718352|SUPERIORITY_OR_OTHER|||||||0.1734|||||||Wilcoxon (Mann-Whitney)|||"* H01: μ LVEF, 1= μ LVEF, 2a vs H1a: μ LVEF, 1 \< μ LVEF, 2a~* Where μ LVEF, 1 is the mean of LVEF at month 12 in DDDR Gp.~* μ LVEF, 2a is the mean of LVEF at month 12 in CRT-P ON Gp,"||||0.1734
82512803|NCT01559311|164718352|SUPERIORITY_OR_OTHER|||||||0.1439|||||||Wilcoxon (Mann-Whitney)|||"* H03: μ LVEF, 1= μ LVEF, 2b vs H1a: μ LVEF, 1 \< μ LVEF, 2b~* Where μ LVEF, 1 is the mean of LVEF at month 12 in DDDR Gp.~* μ LVEF, 2b is the mean of LVEF at month 12 in the CRT-P OFF Gp"||||0.1439
82512804|NCT01559311|164718353|SUPERIORITY_OR_OTHER|||||||0.6276|||||||Wilcoxon (Mann-Whitney)|||"* H02: μ LVESV, 1 = μ LVESV, 2a vs H1b: μ LVESV, 1 \> μ LVESV, 2a~* Where, μLVESV, 1 is the mean of LVESV at month 12 in the DDDR Group,~* μLVESV, 2a is the mean of LVESV at month 12 in the CRT-P ON group"||||0.6276
82512805|NCT01559311|164718353|SUPERIORITY_OR_OTHER|||||||0.5871|||||||Wilcoxon (Mann-Whitney)|||"* H04: μ LVESV, 1 = μ LVESV, 2b vs H1b: μ LVESV, 1 \> μ LVESV, 2b~* Where, μLVESV, 1 is the mean of LVESV at month 12 in the DDDR Group,~* and μLVESV, 2b is the mean of LVESV at month 12 in CRT-P OFF group."||||0.5871
82512806|NCT00515827|164718373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.546||95.0||||P-value is 2-sided and is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.546
82512807|NCT01969838|164718391|NON_INFERIORITY|To evaluate the noninferiority of MMB over RUX, a conventional 2-sided confidence interval (CI) was calculated for the difference in splenic response rate (SRR) at Week 24: delta = prob(MMB) - 0.6\*prob(RUX). If the lower bound of the 2-sided 95% CI for delta was greater than 0, MMB was declared noninferior to RUX in SRR at Week 24. The 2-sided 95% CI of delta was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions. This is the noninferiority proportion difference.|Proportion Difference - Stratified CMH|0.09||||0.014|TWO_SIDED|95.0|0.02|0.16|||Cochran-Mantel-Haenszel|||||0.16|0.02|0.014
82512808|NCT01969838|164718392|NON_INFERIORITY|To evaluate the noninferiority of MMB over RUX, a conventional 2-sided CI was calculated for the difference in TSS response rate at Week 24: delta = prob(MMB) - 0.67\*prob(RUX). If the lower bound of the 2-sided 95% CI for delta was greater than 0, MMB was declared to be noninferior to RUX in TSS response rate at Week 24. The 2-sided 95% CI of delta was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions. This is called the noninferiority proportion difference.|Proportion Difference - Stratified CMH|0.0||||0.98|TWO_SIDED|95.0|-0.08|0.08|||Cochran-Mantel-Haenszel|||||0.08|-0.08|0.98
82512809|NCT01969838|164718393|SUPERIORITY||Rate ratio|0.28|||<|0.001|TWO_SIDED|95.0|0.19|0.43|||Negative Binomial Model, Adjusted||A smaller ratio represents larger benefit.|||0.43|0.19|<0.001
82512810|NCT01969838|164718394|SUPERIORITY||Proportion Difference - Stratified CMH|0.18|||<|0.001|TWO_SIDED|95.0|0.09|0.26|||Cochran-Mantel-Haenszel||A larger proportion represents larger benefit.|||0.26|0.09|<0.001
82512811|NCT01969838|164718395|SUPERIORITY||Proportion Difference - Stratified CMH|-0.1||||0.019|TWO_SIDED|95.0|-0.19|-0.02|||Cochran-Mantel-Haenszel||A smaller proportion represents larger benefit.|||-0.02|-0.19|0.019
82512812|NCT00408993|164718396|SUPERIORITY_OR_OTHER|||||||0.617||95.0||||Treatment effects were evaluated based on a two-sided significance level of 0.05 and interaction effects at 0.10. No adjustments for multiple comparisons were made.|ANCOVA|Model=Treatment, Pooled Investigator and Baseline.||With 104 patients per arm, the study has at least 85% power to detect a treatment group difference of -1.20 points in baseline to endpoint mean change on the BPI 24-hour average pain score between Duloxetine and Placebo. Sample size determined using a two-sided t-test with alpha=0.05, and assuming a common standard deviation of 2.5 and a discontinuation rate of 25%.||||0.617
82512813|NCT00408993|164718397|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||P-value for Worst Pain Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.070
82512814|NCT00408993|164718397|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value for Least Pain Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.151
82512815|NCT00408993|164718397|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Pain Right Now Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.012
82512816|NCT00408993|164718397|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||P-value for Average Interference Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.077
82512817|NCT00408993|164718398|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.036
82512818|NCT00408993|164718399|SUPERIORITY_OR_OTHER|||||||0.955||95.0||||P-value for Visit 3|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.955
82569411|NCT02367105|164848182|SUPERIORITY||Mean Difference (Final Values)|0.553||||0.03|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.03
82569412|NCT02367105|164848183|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.04|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.04
82634020|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.4||||0.0625|TWO_SIDED|95.0|-0.23|9.03||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||9.03|-0.23|0.0625
82569413|NCT02367105|164848184|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.35|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.35
82569414|NCT02367105|164848185|SUPERIORITY||Median Difference (Final Values)|0.01||||0.65|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.65
82512819|NCT00408993|164718399|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Visit 4|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.004
82512820|NCT00408993|164718399|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Visit 5|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.037
82512821|NCT00408993|164718399|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Visit 6|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||<0.001
82512822|NCT00408993|164718399|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-value for Visit 7|Mixed Models Analysis|Repeated Measures: Model=Treatment, Pooled Investigator, Visit, Baseline, baseline MDD status, Treatment\*Visit and Baseline\*Visit.||||||0.028
82512823|NCT00408993|164718400|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.207
82512824|NCT00408993|164718401|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Fisher Exact|||||||0.008
82569415|NCT02367105|164848186|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.27|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.27
82569416|NCT02367105|164848187|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.39|TWO_SIDED|||||Baseline value adjusted|Mixed Models Analysis|||||||0.39
82569417|NCT02367105|164848188|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
82569418|NCT02367105|164848189|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.9|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.90
82569419|NCT02367105|164848190|SUPERIORITY||Mean Difference (Final Values)|-252.0|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||<0.001
82569420|NCT02367105|164848191|SUPERIORITY||Mean Difference (Final Values)|-24.9|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline value as covariates||||||<0.001
82569421|NCT02367105|164848192|SUPERIORITY||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||<0.001
82569422|NCT02367105|164848193|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.31|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.31
82569423|NCT02367105|164848194|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.42|TWO_SIDED|||||Baseline values as covariates|Mixed Models Analysis|||||||0.42
82569424|NCT02367105|164848195|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.69
82569425|NCT02367105|164848196|SUPERIORITY||Mean Difference (Final Values)|-13.1||||0.23|TWO_SIDED||||||Mixed Models Analysis|Baseline value adjusted||||||0.23
82569426|NCT02367105|164848197|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82634021|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|18.99|||<|0.0001|TWO_SIDED|95.0|14.36|23.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||23.61|14.36|<0.0001
82569427|NCT02367105|164848198|SUPERIORITY||Mean Difference (Net)|-1.0||||0.36|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.36
82569428|NCT02367105|164848199|SUPERIORITY||Mean Difference (Final Values)|-8.6||||0.23|TWO_SIDED||||||Mixed Models Analysis|Baseline values as covariates||||||0.23
82569429|NCT02367105|164848200|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.69|TWO_SIDED||||||Mixed Models Analysis|Baseline values adjusted||||||0.69
82569430|NCT02367105|164848201|SUPERIORITY||Number of participants|0.0|||>|0.05|TWO_SIDED|||||A priori threshold = voxel p\<.001, cluster p\<.05, false discovery rate (FDR) whole brain correction. There is no correction for multiple seeds given small sample sizes and pre-post design.|t-test, 2 sided|||||||>.05
82569431|NCT02367105|164848202|SUPERIORITY||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED|||||Using DESeq2 R package. P values were adjusted using the Benjamini and Hochberg's approach for controlling the false discovery rate.|t-test, 2 sided|||6 months vs Baseline||||0.37
82569432|NCT02367105|164848202|SUPERIORITY||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.12||0.02|TWO_SIDED|||||Using DESeq2 R package. P values were adjusted using the Benjamini and Hochberg's approach for controlling the false discovery rate|t-test, 2 sided|||6 months vs Baseline||||.02
82569433|NCT02367105|164848203|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.05|TWO_SIDED||||||Mixed Models Analysis|Final vs baseline||||||.05
82569434|NCT02367105|164848203|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.3|TWO_SIDED||||||Mixed Models Analysis|Final vs baseline||||||0.3
82569435|NCT00413634|164848286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||ANOVA|||||||0.092
82569436|NCT00413634|164848289|SUPERIORITY_OR_OTHER_LEGACY|||||||0.857||95.0|||||ANOVA|||||||0.857
82569437|NCT00413634|164848290|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0|||||ANOVA|||||||0.013
82569438|NCT00413634|164848291|SUPERIORITY_OR_OTHER_LEGACY|||||||0.378||95.0|||||ANOVA|||||||0.378
82569439|NCT00413634|164848292|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0|||||ANOVA|||||||0.013
82569440|NCT00413634|164848293|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0|||||ANOVA|||||||0.035
82569441|NCT00413634|164848294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0|||||ANOVA|||||||0.023
82569442|NCT00413634|164848295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557||95.0|||||ANOVA|||||||0.557
82569443|NCT00413634|164848296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0|||||ANOVA|||||||0.027
82569444|NCT00413634|164848297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||ANOVA|||||||0.007
82569445|NCT00413634|164848298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0|||||ANOVA|||||||0.027
82569446|NCT00413634|164848299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||95.0|||||ANOVA|||||||0.011
82569447|NCT00527514|164848334|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||The sample size of this study was not based on the statistical power consideration and was considered as sufficient for the evaluation of the efficacy and safety of the proposed olmesartan medoxomil-based treatment regimen.||||<0.0001
82569448|NCT00527514|164848335|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||Statistical analysis parameters apply to both the daytime and nighttime rows.||||<0.0001
82569449|NCT00527514|164848336|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
82569450|NCT00527514|164848337|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||<0.0001
82569451|NCT00527514|164848338|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
82569452|NCT00527514|164848339|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||<0.0001
82512825|NCT00408993|164718403|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value for 5-Item Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.364
82379950|NCT05807828|164469237|SUPERIORITY||Median Difference (Final Values)|7.5|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median difference between the cup angle of the Control Group for Cup Training and the cup angle of VR Group for Cup Training.||||<0.05
82512826|NCT00408993|164718403|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value for 8-Item Score|ANCOVA|Model=Treatment, Pooled Investigator, Baseline and Major Depressive Disorder status at baseline.||||||0.590
82512827|NCT00408993|164718404|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|Model=Treatment and Pooled Investigator||||||0.620
82512828|NCT00408993|164718405|SUPERIORITY_OR_OTHER|||||||0.324||95.0|||||ANOVA|Model=Treatment and Pooled Investigator||||||0.324
82512829|NCT00408993|164718406|SUPERIORITY_OR_OTHER|||||||0.642||95.0||||P-value for Systolic Blood Pressure|ANOVA|Model=Treatment and Pooled Investigator||||||0.642
82512830|NCT00408993|164718406|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||P-value for Diastolic Blood Pressure|ANOVA|Model=Treatment and Pooled Investigator||||||0.601
82512831|NCT00408993|164718407|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for Chloride|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.014
82512832|NCT00408993|164718407|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for High Density Lipoprotein Cholesterol|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.005
82512833|NCT00408993|164718407|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Sodium|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.011
82512834|NCT00408993|164718407|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||P-value for triglycerides|ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-value.||||||0.044
82379951|NCT05807828|164469237|SUPERIORITY||Median Difference (Final Values)|291.5|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median difference between the stem angle of the Control Group for Stem Training and the stem angle of VR Group for Stem Training.||||<0.05
82512835|NCT00408993|164718408|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||ANOVA|Sums of squares from ANOVA on the ranks: Model=Treatment and Pooled Investigator for treatment effects p-values.||||||0.017
82512836|NCT02660359|164718437|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025 and only the significant dose continued in the hierarchal testing strategy.|LS Mean Difference|-8.97||||0.0001|TWO_SIDED|95.0|-13.5|-4.44|||MMLM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-4.44|-13.5|0.0001
82512837|NCT02660359|164718437|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025 and only the significant dose continued in the hierarchal testing strategy.|LS Mean Difference|-9.76|||<|0.0001|TWO_SIDED|95.0|-14.41|-5.12|||MMLM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-5.12|-14.41|<0.0001
82512838|NCT02660359|164718438|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|45.55||||0.0002|TWO_SIDED|95.0|6.09|340.69|||Generalised linear mixed model (GLMM)|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline- by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||340.69|6.09|0.0002
82512839|NCT02660359|164718438|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|31.69||||0.0009|TWO_SIDED|95.0|4.17|240.58|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||240.58|4.17|0.0009
82379952|NCT05807828|164469238|SUPERIORITY||Mean Difference (Final Values)|54.5|STANDARD_DEVIATION|106.6|<|0.05|TWO_SIDED||||||paired t-test|||Each medical student carried out an implantation following VR training and without VR training. Therefore, there was a deviation (mean difference) between the predefined target and the implanted inclination for the cup or the stem version for the same medical student with VR training.||||<0.05
82379953|NCT05807828|164469238|SUPERIORITY||Mean Difference (Final Values)|89.8|STANDARD_DEVIATION|133.9|<|0.05|TWO_SIDED||||||paired t-test|||Each medical student carried out an implantation following VR training and without VR training. Therefore, there was a deviation (mean difference) between the predefined target and the implanted inclination for the cup or the stem version for the same medical student without VR training (control).||||<0.05
82379954|NCT05807828|164469239|SUPERIORITY||Median Difference (Final Values)|14.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Median difference between the time needed for cup implantation for Control cup group and the time needed for cup implantation for VR cup group||||<0.05
82379955|NCT05807828|164469239|SUPERIORITY||Median Difference (Final Values)|2.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Median difference between the time needed for stem implantation for Control stem group and the time needed for stem implantation for VR stem group||||<0.05
82379956|NCT02635984|164469252|SUPERIORITY|||||||0.003|||||||Chi-squared|||Based on an 80 % power and an alpha of 0.05, we estimated a need for 49 patients in each treatment arm. From a review of existing literature, the sample size was based on an estimated CR achieved in 65 % of patients on triplet therapy alone and a hypothesized clinically relevant increase of 25 % for the treatment group to 90 %.||||0.003
82379957|NCT02635984|164469253|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82379958|NCT02635984|164469254|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
82379959|NCT02635984|164469255|SUPERIORITY|||||||0.28|||||||Chi-squared|||||||0.28
82379960|NCT02635984|164469256|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82379961|NCT02635984|164469257|SUPERIORITY|||||||0.006|||||||Chi-squared|||||||0.006
82379962|NCT02635984|164469258|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
82379963|NCT02635984|164469259|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82379964|NCT02189837|164469268|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|88.76|STANDARD_ERROR_OF_MEAN|36.67||0.018|TWO_SIDED|95.0|15.73|161.8|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The superiority of evolocumab monotherapy to placebo was tested using a 2-sided p-value at a significance level of 0.05.||161.80|15.73|0.018
82379965|NCT02189837|164469268|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|236.35|STANDARD_ERROR_OF_MEAN|36.32|<|0.001|TWO_SIDED|95.0|164.02|308.69|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The treatment effect of evolocumab plus atorvastatin compared with placebo plus atorvastatin was estimated and a nominal p-value is provided.||308.69|164.02|<0.001
82379966|NCT02189837|164469268|SUPERIORITY_OR_OTHER||Treatment Effect|147.59|STANDARD_ERROR_OF_MEAN|51.61||0.005|TWO_SIDED|95.0|44.8|250.38|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||To assess whether the treatment effect of evolocumab compared with placebo depended on being administered alone or combined with atorvastatin, the interaction was tested, i.e., the difference between the treatment difference versus the respective placebo group for the evolocumab+atorvastatin group and the evolocumab group was calculated.||250.38|44.80|0.005
82512840|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.55||||0.0007|TWO_SIDED|95.0|1.72|7.34||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 600 U versus Placebo.||7.34|1.72|0.0007
82523733|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|75.0||||0.098|TWO_SIDED|95.0|-14.0|163.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 12||163|-14|0.098
82523734|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.0||||0.832|TWO_SIDED|95.0|-80.0|100.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 16||100|-80|0.832
82512841|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|2.94||||0.0037|TWO_SIDED|95.0|1.43|6.07||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 800 U versus Placebo||6.07|1.43|0.0037
82512842|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.98|||<|0.0001|TWO_SIDED|95.0|2.03|7.79||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement level: Dysport® 600 U versus Placebo||7.79|2.03|<0.0001
82512843|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by- visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|2.73||||0.0034|TWO_SIDED|95.0|1.4|5.33||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement level: Dysport® 800 U versus Placebo||5.33|1.40|0.0034
82512844|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|7.38|||<|0.0001|TWO_SIDED|95.0|3.5|15.58||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement level: Dysport® 600 U versus Placebo||15.58|3.5|<0.0001
82512845|NCT02660359|164718439|SUPERIORITY|Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|5.28|||<|0.0001|TWO_SIDED|95.0|2.48|11.24||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement level: Dysport® 800 U versus Placebo||11.24|2.48|<0.0001
82512846|NCT02660359|164718441|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|96.14|||<|0.0001|TWO_SIDED|95.0|53.1|139.19|||MMRM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||139.19|53.10|<0.0001
82569453|NCT02630706|164848341|SUPERIORITY|Constrained longitudinal data analysis (cLDA)|Difference in the LSM vs. placebo|-0.69|||<|0.001|TWO_SIDED|95.0|-0.85|-0.52||cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), country (China, other), baseline eGFR (continuous) and the interaction of time by treatment.|cLDA|Least squares means = LSM||The primary hypothesis of the study was the mean change from baseline in HbA1c for 15 mg ertugliflozin is greater than that for placebo.||-0.52|-0.85|<0.001
82569454|NCT02630706|164848341|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), country (China, other), baseline eGFR (continuous) and the interaction of time by treatment.|Difference in the LS Means vs. Placebo|-0.8|||<|0.001|TWO_SIDED|95.0|-0.97|-0.63|||cLDA|||The primary hypothesis of the study was the mean change from baseline in HbA1c for 5 mg ertugliflozin is greater than that for placebo.||-0.63|-0.97|<0.001
82569455|NCT02630706|164848342|SUPERIORITY||Difference in the LSM vs. placebo|-0.68|||<|0.001|TWO_SIDED|95.0|-0.86|-0.5||cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment.|cLDA|||||-0.50|-0.86|<0.001
82569456|NCT02630706|164848342|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-AHA status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment.|Difference in the LS Means vs. Placebo|-0.76|||<|0.001|TWO_SIDED|95.0|-0.95|-0.58|||cLDA|||||-0.58|-0.95|<0.001
82569457|NCT02630706|164848343|OTHER||Difference in % vs. Placebo|-6.0|||||TWO_SIDED|95.0|-16.5|4.6|||||||Miettinen-Nurminen method|4.6|-16.5|
82569458|NCT02630706|164848343|OTHER||Difference in % vs. Placebo|-2.8|||||TWO_SIDED|95.0|-13.3|7.7|||||||Miettinen-Nurminen method|7.7|-13.3|
82569459|NCT02630706|164848344|OTHER||Difference in % vs. Placebo|-8.9|||||TWO_SIDED|95.0|-20.5|3.0|||||||Miettinen-Nurminen method|3.0|-20.5|
82569460|NCT02630706|164848344|OTHER||Difference in % vs. Placebo|-4.8|||||TWO_SIDED|95.0|-16.5|6.9|||||||Miettinen-Nurminen method|6.9|-16.5|
82569461|NCT02630706|164848347|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-27.78|||<|0.001|TWO_SIDED|95.0|-33.85|-21.7|||cLDA|||||-21.70|-33.85|<0.001
82569462|NCT02630706|164848347|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-30.4|||<|0.001|TWO_SIDED|95.0|-36.45|-24.35|||cLDA|||||-24.35|-36.45|<0.001
82634022|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.59|||<|0.0001|TWO_SIDED|95.0|9.95|19.23||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (675ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||19.23|9.95|<0.0001
82569463|NCT02630706|164848348|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-26.21|||<|0.001|TWO_SIDED|95.0|-32.41|-20.01|||cLDA|||||-20.01|-32.41|<0.001
82569464|NCT02630706|164848348|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-28.55|||<|0.001|TWO_SIDED|95.0|-34.67|-22.43|||cLDA|||||-22.43|-34.67|<0.001
82569465|NCT02630706|164848349|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-2.0|||<|0.001|TWO_SIDED|95.0|-2.51|-1.5|||cLDA|||||-1.50|-2.51|<0.001
82634023|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.58||||0.0017|TWO_SIDED|95.0|2.88|12.27||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the AmF toothpaste (1400ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel remineralization potential.||12.27|2.88|0.0017
82634024|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.97|||<|0.0001|TWO_SIDED|95.0|7.31|16.64||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel remineralization potential.||16.64|7.31|<0.0001
82569466|NCT02630706|164848349|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.78|||<|0.001|TWO_SIDED|95.0|-2.28|-1.28|||cLDA|||||-1.28|-2.28|<0.001
82569467|NCT02630706|164848350|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in LS Means vs. Placebo|-2.05|||<|0.001|TWO_SIDED|95.0|-2.63|-1.21|||cLDA|||||-1.21|-2.63|<0.001
82569468|NCT02630706|164848350|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.79|||<|0.001|TWO_SIDED|95.0|-2.36|-1.21|||cLDA|||||-1.21|-2.36|<0.001
82569469|NCT02630706|164848351|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.56|||<|0.001|TWO_SIDED|95.0|2.49|8.35|||Logistic regression model|||||8.35|2.49|<0.001
82569470|NCT02630706|164848351|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.59|||<|0.001|TWO_SIDED|95.0|2.52|8.36|||Logistic regression model|||||8.36|2.52|<0.001
82569471|NCT02630706|164848352|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|4.49|||<|0.001|TWO_SIDED|95.0|2.32|8.68|||Logistic regression model|||||8.68|2.32|<0.001
82569472|NCT02630706|164848352|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|3.47|||<|0.001|TWO_SIDED|95.0|1.77|6.8|||Logistic regression model|||||6.80|1.77|<0.001
82569473|NCT02630706|164848353|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-4.09|||<|0.001|TWO_SIDED|95.0|-6.48|-1.69|||cLDA|||||-1.69|-6.48|<0.001
82569474|NCT02630706|164848353|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-5.3|||<|0.001|TWO_SIDED|95.0|-7.68|-2.92|||cLDA|||||-2.92|-7.68|<0.001
82634025|NCT01005966|164984185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|26.56|||<|0.0001|TWO_SIDED|95.0|21.88|31.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and placebo toothpaste (0ppmF) to be equal with respect to enamel remineralization potential.||31.24|21.88|<0.0001
82379967|NCT02189837|164469269|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.14|STANDARD_ERROR_OF_MEAN|4.4|<|0.001||95.0|-65.91|-48.38|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-48.38|-65.91|<0.001
82379968|NCT02189837|164469269|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-37.95|STANDARD_ERROR_OF_MEAN|4.31|<|0.001|TWO_SIDED|95.0|-46.55|-29.34|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-29.34|-46.55|<0.001
82379969|NCT02189837|164469269|SUPERIORITY_OR_OTHER||Treatment Effect|19.2|STANDARD_ERROR_OF_MEAN|6.15||0.003|TWO_SIDED|95.0|6.93|31.47|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||31.47|6.93|0.003
82379970|NCT02189837|164469270|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.65|STANDARD_ERROR_OF_MEAN|10.41||0.11|TWO_SIDED|95.0|-37.37|4.08|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||4.08|-37.37|0.11
82379971|NCT02189837|164469270|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-32.66|STANDARD_ERROR_OF_MEAN|10.31||0.002|TWO_SIDED|95.0|-53.19|-12.13|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-12.13|-53.19|0.002
82379972|NCT02189837|164469270|SUPERIORITY_OR_OTHER||Treatment Effect|-16.01|STANDARD_ERROR_OF_MEAN|14.65||0.28|TWO_SIDED|95.0|-45.18|13.16|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||13.16|-45.18|0.28
82379973|NCT02189837|164469271|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-2.12|STANDARD_ERROR_OF_MEAN|13.4||0.87|TWO_SIDED|95.0|-28.94|24.7|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The superiority of evolocumab monotherapy to placebo was tested using a 2-sided p-value at a significance level of 0.05.||24.70|-28.94|0.87
82379974|NCT02189837|164469271|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|39.06|STANDARD_ERROR_OF_MEAN|12.76||0.003|TWO_SIDED|95.0|13.52|64.59|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||The treatment effect of evolocumab plus atorvastatin compared with placebo plus atorvastatin was estimated and a nominal p-value is provided.||64.59|13.52|0.003
82379975|NCT02189837|164469271|SUPERIORITY_OR_OTHER||Treatment Effect|41.18|STANDARD_ERROR_OF_MEAN|18.5||0.03|TWO_SIDED|95.0|4.15|78.2|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||To assess whether the treatment effect of evolocumab compared with placebo depended on being administered alone or combined with atorvastatin, the interaction was tested, i.e., the difference between the treatment difference versus the respective placebo group for the evolocumab+atorvastatin group and the evolocumab group was calculated.||78.20|4.15|0.030
82379976|NCT02189837|164469272|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-39.43|STANDARD_ERROR_OF_MEAN|11.6||0.001|TWO_SIDED|95.0|-62.66|-16.21|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||-16.21|-62.66|0.001
82379977|NCT02189837|164469272|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|23.28|STANDARD_ERROR_OF_MEAN|11.05||0.039|TWO_SIDED|95.0|1.16|45.4|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||45.40|1.16|0.039
82379978|NCT02189837|164469272|SUPERIORITY_OR_OTHER||Treatment Effect|62.72|STANDARD_ERROR_OF_MEAN|16.02|<|0.001|TWO_SIDED|95.0|30.65|94.79|||ANCOVA|Model includes terms for the 2 factors in the factorial design (placebo or evolocumab and oral placebo or statin), their interaction, and LDL-C level.||||94.79|30.65|<0.001
82379979|NCT05620082|164469388|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82379980|NCT05620082|164469389|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82379981|NCT05620082|164469390|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82379982|NCT05620082|164469391|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Comparing Appearance of supplements||||0.10
82379983|NCT05620082|164469391|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Comparing Smell of supplements between groups||||0.10
82379984|NCT05620082|164469391|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Comparing Taste of supplements||||0.08
82379985|NCT05620082|164469391|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Comparing Sweetness of supplements||||0.70
82379986|NCT05620082|164469391|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Comparing Texture of supplements||||0.02
82379987|NCT05620082|164469391|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparing Thickness of supplements||||0.45
82379988|NCT05620082|164469391|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Comparing Aftertaste of supplements||||0.25
82379989|NCT05620082|164469391|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparing 'Feeling in mouth' of supplements||||0.45
82379990|NCT05620082|164469391|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparing 'Future choice' of supplements||||0.06
82379991|NCT05620082|164469392|SUPERIORITY|||||||0.004||||||Pairwise comparisons with Bonferroni correction revealed a significant increase in total daily energy intake from baseline to porridge timepoints (p\<0.001).|Related samples Friedman's Two-Way ANOVA|||||||0.004
82379992|NCT05411991|164469400|SUPERIORITY||Net treatment benefit|10.5||||0.357|TWO_SIDED|95.0|-11.9|31.9|||General pairwaise comparison|||||31.9|-11.9|0.357
82379993|NCT05767905|164469412|OTHER||ratio|108.49|||||TWO_SIDED|90.0|100.55|117.05|||Mixed Models Analysis|"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment and Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment.||117.05|100.55|
82379994|NCT05767905|164469412|OTHER||ratio|106.16|||||TWO_SIDED|90.0|98.39|114.54|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 2 250 mg Fasted was the Reference treatment.||114.54|98.39|
82379995|NCT05767905|164469412|OTHER||ratio|228.99|||||TWO_SIDED|90.0|178.67|293.48|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed High-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||293.48|178.67|
82512847|NCT02660359|164718441|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|90.78|||<|0.0001|TWO_SIDED|95.0|47.07|134.48|||MMRM|||Treatment group, visit (Week 6), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||134.48|47.07|<0.0001
82512848|NCT02660359|164718442|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|175.0|||<|0.0001|TWO_SIDED|95.0|122.9|227.0|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||227.0|122.90|<0.0001
82512849|NCT02660359|164718442|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|168.4|||<|0.0001|TWO_SIDED|95.0|113.6|223.1|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||223.1|113.6|<0.0001
82512850|NCT02660359|164718443|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-41.5|-24.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-24.4|-41.5|<0.0001
82634026|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.24||||0.7912|TWO_SIDED|95.0|-239.62|314.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and AmF toothpaste (1400ppmF) to be equal with respect to enamel fluoride uptake potential.||314.09|-239.62|0.7912
82634027|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|532.61||||0.0002|TWO_SIDED|95.0|259.06|806.16||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Na MFP/NaF toothpaste (1450ppmF) to be equal with respect to enamel fluoride uptake potential.||806.16|259.06|0.0002
82569475|NCT02630706|164848354|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-2.64||||0.058|TWO_SIDED|95.0|-5.36|0.09|||cLDA|||||0.09|-5.36|0.058
82569476|NCT02630706|164848354|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-4.08||||0.003|TWO_SIDED|95.0|-6.78|-1.39|||cLDA|||||-1.39|-6.78|0.003
82569477|NCT02630706|164848355|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.4||||0.086|TWO_SIDED|95.0|-3.0|0.2|||cLDA|||||0.20|-3.00|0.086
82569478|NCT02630706|164848355|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.42||||0.081|TWO_SIDED|95.0|-3.01|0.17|||cLDA|||||0.17|-3.01|0.081
82569479|NCT02630706|164848356|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-0.95||||0.315|TWO_SIDED|95.0|-2.8|0.9|||cLDA|||||0.90|-2.80|0.315
82569480|NCT02630706|164848356|SUPERIORITY|cLDA model with fixed effects for treatment, time, anti-hyperglycemic medication status at Screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the LS Means vs. Placebo|-1.0||||0.282|TWO_SIDED|95.0|-2.83|0.83|||cLDA|||||0.83|-2.83|0.282
82569481|NCT02630706|164848357|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.9||||0.001|TWO_SIDED|95.0|2.46|32.22||Nominal p-values were provided.|Logistic regression model|||||32.22|2.46|0.001
82569482|NCT02630706|164848357|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|10.69|||<|0.001|TWO_SIDED|95.0|2.95|38.71||Nominal p-values were provided.|Logistic regression model|||||38.71|2.95|<0.001
82379996|NCT05767905|164469412|OTHER||ratio|207.19|||||TWO_SIDED|90.0|164.41|261.09||||||Part 2 PF-06821497 Form 2 1250 mg Fed Low-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||261.09|164.41|
82379997|NCT05767905|164469412|OTHER||ratio|102.19|||||TWO_SIDED|90.0|95.55|109.3|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment, and Part 1 PF-06821497 Form 2 250 mg Fasted was the Test treatment||109.30|95.55|
82379998|NCT05767905|164469413|OTHER||ratio|145.49|||||TWO_SIDED|90.0|121.29|174.53|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment.||174.53|121.29|
82379999|NCT05767905|164469413|OTHER||ratio|122.64|||||TWO_SIDED|90.0|102.24|147.12|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 3 250 mg Fasted was the Test treatment and Part 1 PF-06821497 Form 2 250 mg Fasted was the Reference treatment.||147.12|102.24|
82380000|NCT05767905|164469413|OTHER||ratio|284.72|||||TWO_SIDED|90.0|226.39|358.06|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed Low-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||358.06|226.39|
82380001|NCT05767905|164469413|OTHER||ratio|327.87|||||TWO_SIDED|90.0|256.9|418.44|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 2 PF-06821497 Form 2 1250 mg Fed High-fat was the Test treatment and Part 2 PF-06821497 Form 2 1250 mg Fasted was the Reference treatment.||418.44|256.90|
82380002|NCT05767905|164469413|OTHER||ratio|118.63|||||TWO_SIDED|90.0|96.36|146.06|||Mixed Models Analysis|Mixed Model was fitted to obtain:1.Ratio of geometric means 2.90% CI of ratio of geometric means||Part 1 PF-06821497 Form 1 250 mg Fasted was the Reference treatment, and Part 1 PF-06821497 Form 2 250 mg Fasted was the Test treatment.||146.06|96.36|
82512851|NCT02660359|164718443|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|-32.5|||<|0.0001|TWO_SIDED|95.0|-41.5|-23.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-23.4|-41.5|<0.0001
82569483|NCT02630706|164848358|SUPERIORITY|Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), Country (China, other), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.34|||<|0.001|TWO_SIDED|95.0|2.52|27.6||Nominal p-values were provided.|Logistic regression model|||||27.60|2.52|<0.001
82380003|NCT03535740|164469417|OTHER|||||||0.0763||||||P-value was based on the comparison of the confirm ORR among the 90/180mg group against a fixed response rate of 20%.|Exact Binomial Test|The calculation was based on an exact binomial test with a total 1-sided alpha level of 0.025 at primary analysis.||||||0.0763
82512852|NCT02660359|164718444|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|152.8|||<|0.0001|TWO_SIDED|95.0|99.2|206.5|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||206.5|99.2|<0.0001
82512853|NCT02660359|164718444|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|169.7|||<|0.0001|TWO_SIDED|95.0|111.7|227.6|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX- naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||227.6|111.7|<0.0001
82634028|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|692.91|||<|0.0001|TWO_SIDED|95.0|418.73|967.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||967.09|418.73|<0.0001
82380004|NCT01015534|164469520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9||||0.019|TWO_SIDED|95.0|1.3|12.9||The sample size was calculated with a two-sided test,a type-I error probability of 0.05 and a power of 0.80,Twenty- eight patients in each treatment arm were required to detect a difference in ORR of 0.29|Chi-squared|||||12.9|1.3|0.019
82380005|NCT01015534|164469521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.688||||0.704|TWO_SIDED|95.0|0.138|3.422|||Fisher Exact|||||3.422|.138|.704
82380006|NCT01015534|164469522|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Log Rank|||||||0.84
82380007|NCT02015611|164469527|SUPERIORITY|||||||0.63|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.63
82380008|NCT02015611|164469528|SUPERIORITY|||||||0.64|||||||Regression, Linear|adjusted for age, sex, race, season, and baseline value||||||0.64
82380009|NCT02015611|164469529|SUPERIORITY|||||||0.08|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.08
82380010|NCT02015611|164469530|SUPERIORITY|||||||0.53|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.53
82380011|NCT02015611|164469531|SUPERIORITY|||||||0.75|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.75
82380012|NCT02015611|164469532|SUPERIORITY|||||||0.92|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.92
82380013|NCT02015611|164469533|SUPERIORITY|||||||0.94|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.94
82380014|NCT02015611|164469534|SUPERIORITY|||||||0.61|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.61
82380015|NCT02015611|164469535|SUPERIORITY|||||||0.59|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.59
82380016|NCT02015611|164469536|SUPERIORITY|||||||0.21|||||||ANCOVA|adjusted for age, sex, race, season (time-varying)||||||0.21
82512854|NCT02660359|164718445|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|Odds Ratio (OR)|31.1|||<|0.0001|TWO_SIDED|95.0|7.05|137.09|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||137.09|7.05|<0.0001
82512855|NCT02660359|164718445|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|Odds Ratio (OR)|28.08|||<|0.0001|TWO_SIDED|95.0|6.24|126.25|||GLMM|||Treatment group, recorded stratification factors, visit, treatment-by-visit interaction, study baseline-by- visit interaction and study baseline weekly number of UI episodes as fixed effect.||126.25|6.24|<0.0001
82512856|NCT04622254|164718457|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512857|NCT04622254|164718458|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512858|NCT04622254|164718459|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512859|NCT04622254|164718460|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512860|NCT04622254|164718461|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82634029|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1879.4|||<|0.0001|TWO_SIDED|95.0|1605.75|2153.04||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (1426ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||2153.04|1605.75|<0.0001
82634030|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|495.38||||0.0005|TWO_SIDED|95.0|221.09|769.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and Na MFP/ NaF toothpaste (1450ppmF) and to be equal with respect to enamel fluoride uptake potential.||769.66|221.09|0.0005
82634031|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|655.67|||<|0.0001|TWO_SIDED|95.0|382.41|928.93||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||928.93|382.41|<0.0001
82634032|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1842.16|||<|0.0001|TWO_SIDED|95.0|1568.73|2115.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for AmF toothpaste (1400ppmF) and placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||2115.60|1568.73|<0.0001
82634033|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|160.3||||0.2448|TWO_SIDED|95.0|-110.58|431.18||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and NaF toothpaste (675ppmF) to be equal with respect to enamel fluoride uptake potential.||431.18|-110.58|0.2448
82634034|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1346.79|||<|0.0001|TWO_SIDED|95.0|1076.46|1617.11||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the Na MFP/NaF toothpaste (1450ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||1617.11|1076.46|<0.0001
82512861|NCT04622254|164718462|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512862|NCT04622254|164718463|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512863|NCT04622254|164718464|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512864|NCT04622254|164718465|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512865|NCT04622254|164718466|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512866|NCT04622254|164718467|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512867|NCT04622254|164718468|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512868|NCT04622254|164718469|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512869|NCT04622254|164718469|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82512870|NCT04622254|164718470|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512871|NCT04622254|164718470|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512872|NCT01560624|164718473|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0275|TWO_SIDED|95.0|0.56|0.97|||Cox proportion-hazard model|||||0.97|0.56|0.0275
82512873|NCT01560624|164718473|SUPERIORITY|||||||0.0391|||||||Log Rank|||||||0.0391
82512874|NCT01560624|164718474|SUPERIORITY||Hodges Lehmann estimate location shift|7.0||||0.0913|TWO_SIDED|95.0|0.0|16.0|||ANCOVA|||||16.0|0|0.0913
82512875|NCT01560624|164718475|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82512876|NCT01560624|164718476|SUPERIORITY|||||||0.0028|||||||Fisher Exact|||||||0.0028
82512877|NCT00451282|164718477|SUPERIORITY_OR_OTHER|||||||0.69|||||||t-test, 2 sided|||||||.69
82512878|NCT00451282|164718478|SUPERIORITY_OR_OTHER|||||||0.89|||||||t-test, 2 sided|||||||.89
82512879|NCT00451282|164718479|SUPERIORITY_OR_OTHER|||||||0.69|||||||t-test, 2 sided|||||||.69
82512880|NCT00451282|164718480|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||.18
82569484|NCT02630706|164848358|SUPERIORITY|Adjusted odds ratio based on a logistic regression model fitted with fixed effects for treatment, anti-hyperglycemic medication status at screening (metformin alone, metformin + another AHA), baseline eGFR (continuous) and baseline A1C (continuous). Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.|Adjusted Odds Ratio relative to placebo|8.29|||<|0.001|TWO_SIDED|95.0|2.44|28.11||Nominal p-values were provided.|Logistic regression model|||||28.11|2.44|<0.001
82634035|NCT01005966|164984186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1186.49|||<|0.0001|TWO_SIDED|95.0|915.38|1457.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA based on a mixed model with factors subject, treatment and period was used.|Statistical tests were 2-sided with a significance level of 0.05.|Null hypothesis considered population means for the NaF toothpaste (675ppmF) and Placebo toothpaste (0ppmF) to be equal with respect to enamel fluoride uptake potential.||1457.60|915.38|<0.0001
82634036|NCT01451203|164984187|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann point estimate of shift|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0||The ANCOVA on the ranks with treatment as factors and Baseline rank as covariate was used.|ANCOVA|||The mTSS was analyzed using LINEAR for the imputation of missing data at Week 52.The primary Week 52 analysis assessed whether treatment up to Week 52 with the CZP group was superior to the placebo group in mTSS at Week 52. The 2-sided null and alternative hypotheses were: H0: πC = πM Ha: πC ≠ πM where πC represented subjects in the CZP group at Week 52 and πM represented subjects in the placebo group at Week 52.||0.00|0.00|<0.001
82634037|NCT01451203|164984188|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman point estimate of shift|0.0||||0.003|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|The ANCOVA on the ranks with treatment as factors and Baseline rank as covariate was used.||The mTSS was analyzed using LINEAR for the imputation of missing data at Week 24.||0.00|0.00|0.003
82634038|NCT01451203|164984189|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82634039|NCT01451203|164984190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82634040|NCT01451203|164984191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Fisher Exact|||||||0.002
82634041|NCT02528643|164984201|SUPERIORITY||Hazard Ratio (HR)|1.146||||0.248|TWO_SIDED|95.0|0.774|1.696||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model, stratified by geographic region and ECOG performance status. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Stratified Analysis. The null hypothesis was stated as: OS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: OS is prolonged in enzalutamide arm. The null hypothesis was tested using a stratified one-sided log-rank test at the 0.10 level. Stratification factors were ECOG performance status and region from eCRF.||1.696|0.774|0.248
82634042|NCT02528643|164984201|SUPERIORITY||Hazard Ratio (HR)|1.142||||0.252|TWO_SIDED|95.0|0.773|1.688||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Unstratified Analysis. The null hypothesis was stated as: OS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: OS is prolonged in enzalutamide arm. The null hypothesis was tested using a one-sided log-rank test at the 0.10 level.||1.688|0.773|0.252
82569485|NCT02630706|164848359|OTHER||Difference in % (Ert. 15 mg. - placebo)|-9.0|||<|0.001||95.0|-14.5|-5.0|||Miettinen & Nurminen method|Miettinen \& Nurminen method stratified by country ('China' or 'other') for the overall population.||||-5.0|-14.5|<0.001
82569486|NCT02630706|164848359|OTHER||Difference in % (Ert. 5 mg. - placebo)|-8.4|||<|0.001|TWO_SIDED|95.0|-14.0|-4.4|||Miettinen & Nurminen method|Miettinen \& Nurminen method stratified by country ('China' or 'other') for the overall population.||||-4.4|-14.0|<0.001
82634043|NCT02528643|164984206|SUPERIORITY||Hazard Ratio (HR)|1.039||||0.396|TWO_SIDED|95.0|0.732|1.474||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model, stratified by ECOG performance status and region. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Stratified Analysis. The null hypothesis was stated as: PFS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: PFS is prolonged in enzalutamide arm. The null hypothesis was tested using a stratified one-sided log-rank test at the 0.10 level. Stratification factors were ECOG performance status and region from eCRF.||1.474|0.732|0.396
82634044|NCT02528643|164984206|SUPERIORITY||Hazard Ratio (HR)|0.959||||0.586|TWO_SIDED|95.0|0.684|1.345||One-sided p-value.|Log Rank||Calculated using a Cox proportional hazard model. Hazard ratio \< 1 indicated a reduction in hazard rate in favor of enzalutamide group.|Unstratified Analysis. The null hypothesis was stated as: PFS distributions of the 2 arms are equivalent. The alternative hypothesis was stated as: PFS is prolonged in enzalutamide arm. The null hypothesis was tested using a one-sided log-rank test at the 0.10 level.||1.345|0.684|0.586
82634045|NCT03521089|164984211|SUPERIORITY|||||||0.0039|||||||ANCOVA|||||||0.0039
82634046|NCT03521089|164984211|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82634047|NCT03521089|164984211|SUPERIORITY|||||||0.0156|||||||Wilcoxon (Mann-Whitney)|||||||0.0156
82634048|NCT03521089|164984212|SUPERIORITY|||||||0.9674|||||||ANCOVA|||||||0.9674
82569487|NCT02630706|164848360|OTHER||Difference in % (Ert. 15 mg. - placebo)|-8.9||||0.001||95.0|-15.1|-4.2|||Miettinen & Nurminen method|||||-4.2|-15.1|0.001
82569488|NCT02630706|164848360|OTHER||Difference in % (Ert. 5 mg. - placebo)|-9.6|||<|0.001|TWO_SIDED|95.0|-15.8|-5.7|||Miettinen & Nurminen method|||||-5.7|-15.8|<0.001
82634049|NCT03521089|164984212|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
82634050|NCT03521089|164984212|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.2500
82634051|NCT03521089|164984213|SUPERIORITY|||||||0.0067|||||||ANCOVA|||||||0.0067
82634052|NCT03521089|164984213|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
82634053|NCT03521089|164984213|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.7500
82634054|NCT03521089|164984214|SUPERIORITY|||||||0.3069|||||||ANCOVA|||||||0.3069
82512881|NCT03228680|164718484|NON_INFERIORITY|The pre-specified non-inferiority (NI) margin was -3.0 oocytes. The NI was evaluated based on the two-sided 95% CI from the ANOVA on 'number of oocytes retrieved' with treatment and AMH stratum as fixed factors.|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-2.3|-0.1|||||If the lower bound of 95% CI was well above pre-specified NI limit of -3.0 oocytes, then NI of FE 999049 to FOLLISTIM with respect to number of oocytes retrieved in women undergoing controlled ovarian stimulation would be demonstrated|Mean number of oocytes retrieved.||-0.1|-2.3|
82377674|NCT06360081|164462952|EQUIVALENCE|The assessment of bioequivalence was based on two-sided 90% CIs for the ratios of the geometric means (gMean) (T/R) using an acceptance range of 80.0 to 125.0%.|Ratio of adjusted geometric means (T/R)|99.89|||<|0.0001|TWO_SIDED|90.0|97.08|102.78||p-value was calculated for ratios outside the 80.0 to 125.0% interval.|ANOVA||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 9.0%.|PK endpoints were back transformed to the original scale to provide the point estimate and 90% confidence intervals (CIs) for each endpoint. The model included effects accounting for variation in sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the others were considered as fixed. Confidence intervals were calculated based on the residual error from the ANOVA.||102.78|97.08|<0.0001
82634055|NCT03521089|164984214|SUPERIORITY|||||||0.1875|||||||Wilcoxon (Mann-Whitney)|||||||0.1875
82634056|NCT03521089|164984214|SUPERIORITY|||||||0.7188|||||||Wilcoxon (Mann-Whitney)|||||||0.7188
82512882|NCT03228680|164718485|OTHER||Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-7.5|10.6|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with at least one gestational sac 5-6 weeks after transfer.||10.6|-7.5|
82512883|NCT03228680|164718486|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-9.5|9.6|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with positive beta-hCG.||9.6|-9.5|
82512884|NCT03228680|164718487|OTHER||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-6.7|10.8|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of participants with vital pregnancy.||10.8|-6.7|
82512885|NCT03228680|164718488|OTHER||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-8.9|12.8|||||The difference (FE 999049-FOLLISTIM) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across AMH strata.|Percentage of implanted embryos 5-6 weeks after transfer.||12.8|-8.9|
82512886|NCT03228680|164718490|SUPERIORITY|||||||0.244||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with blastocyst transfer cancellation.||||0.244
82634057|NCT03521089|164984215|SUPERIORITY|||||||0.2609|||||||ANCOVA|||||||0.2609
82634058|NCT03521089|164984215|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
82634059|NCT03521089|164984215|SUPERIORITY|||||||0.0156|||||||Wilcoxon (Mann-Whitney)|||||||0.0156
82634060|NCT03521089|164984216|SUPERIORITY|||||||0.6951|||||||ANCOVA|||||||0.6951
82634061|NCT03521089|164984216|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
82634062|NCT03521089|164984216|SUPERIORITY|||||||0.0938|||||||Wilcoxon (Mann-Whitney)|||||||0.0938
82634063|NCT03521089|164984217|SUPERIORITY|||||||0.3592|||||||ANCOVA|||||||0.3592
82634064|NCT03521089|164984217|SUPERIORITY|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
82512887|NCT03228680|164718491|SUPERIORITY|||||||0.254||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with \<4 oocytes retrieved (low response).||||0.254
82512888|NCT03228680|164718491|SUPERIORITY|||||||0.041||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 4-7 oocytes retrieved (moderate response).||||0.041
82512889|NCT03228680|164718491|SUPERIORITY|||||||0.705||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 8-14 oocytes retrieved (targeted response).||||0.705
82512890|NCT03228680|164718491|SUPERIORITY|||||||0.183||||||P-value was based on likelihood ratio test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with 15-19 oocytes retrieved (hyperresponse).||||0.183
82512891|NCT03228680|164718491|SUPERIORITY|||||||0.03||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with \>= (more than equal to) 20 oocytes retrieved (severe hyperresponse).||||0.030
82512892|NCT03228680|164718492|SUPERIORITY|||||||0.893||||||P-value was based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \< 15 pmol/L (\<4 oocytes retrieved)||||0.893
82512893|NCT03228680|164718492|SUPERIORITY|||||||0.002||||||P-value was based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \>= 15 pmol/L (\>=15 oocytes retrieved)||||0.002
82512894|NCT03228680|164718492|SUPERIORITY|||||||0.021||||||P-value based on likelihood ratio chi-square test.|Chi-squared|||Proportion of participants with extreme ovarian responses: AMH \>= 15 pmol/L (\>=20 oocytes retrieved)||||0.021
82442218|NCT02080260|164592969|SUPERIORITY||16-week PFS Rate|0.1||||0.824|TWO_SIDED|95.0|0.012|0.317||This p-value is only based on partial enrollment of the study. The study enrollment was stopped early due to futility.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|The null hypothesis assumes a median PFS of 6 weeks, corresponding to a 16-week PFS rate of approximately 0.15. A single-stage design will be used to test that the 16-week PFS rate is less than or equal to 0.15. If at least 8 of the 32 subjects are alive and progression free at 16 weeks, the null hypothesis will be rejected. Assuming a one-sided alpha = 0.10 significance level, this will provide at least 90% power to reject the null hypothesis, assuming the true 16-week PFS rate is 0.35.||0.317|0.012|0.824
82512895|NCT03228680|164718494|SUPERIORITY|||||||0.017||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with early OHSS (any grade).||||0.017
82512896|NCT03228680|164718494|SUPERIORITY|||||||0.035||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (moderate/severe).||||0.035
82512897|NCT03228680|164718494|SUPERIORITY|||||||0.006||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (any grade) and/or preventive interventions.||||0.006
82512898|NCT03228680|164718494|SUPERIORITY|||||||0.009||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportion of participants with early OHSS (moderate/severe) and/or preventive interventions.||||0.009
82512899|NCT03228680|164718495|SUPERIORITY|||||||0.968||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with late OHSS (any grade).||||0.968
82512900|NCT03228680|164718495|SUPERIORITY|||||||0.582||||||P-value was based on likelihood ratio chi-square test.|Regression, Logistic|The model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors.||Proportions of participants with late OHSS (moderate/severe).||||0.582
82512901|NCT03228680|164718496|SUPERIORITY|||||||0.198||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of follicles on stimulation Day 6 was analyzed.||||0.198
82512902|NCT03228680|164718497|SUPERIORITY|||||||0.036||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of follicles at end-of-stimulation was analyzed.||||0.036
82512903|NCT03228680|164718498|SUPERIORITY|||||||0.592||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The average size of 3 largest follicles was analyzed.||||0.592
82512904|NCT03228680|164718499|SUPERIORITY|||||||0.286||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The average size of 3 largest follicles was analyzed.||||0.286
82512905|NCT03228680|164718500|SUPERIORITY|||||||0.395||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The fertilization rate (number of oocytes with 2 pronuclei divided by the number of oocytes retrieved) was analyzed.||||0.395
82634065|NCT03521089|164984217|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82634066|NCT01432236|164984218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.0001|TWO_SIDED|95.0|-0.91|-0.31||Primary analysis was two-sided and performed at the 0.05 significance level.|Mixed Models Analysis|Satterthwaite's approximation was used to estimate denominator degrees of freedom.||Analysis was done using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.31|-0.91|0.0001
82442219|NCT02080260|164592970|OTHER|Estimation only.|Median|6.1|||||TWO_SIDED|95.0|2.9|7.1|||||The Kaplan Meier method was used to estimate the median PFS(in weeks) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||7.1|2.9|
82442220|NCT02080260|164592971|OTHER|Estimation only.|Median|9.4|||||TWO_SIDED|95.0|8.1|17.0|||||The Kaplan Meier method was used to estimate the median OS(in weeks) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||17.0|8.1|
82512906|NCT03228680|164718501|SUPERIORITY|||||||0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of embryos on Day 3 was analyzed.||||0.001
82512907|NCT03228680|164718501|SUPERIORITY|||||||0.004||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of good-quality embryos on Day 3 was analyzed.||||0.004
82512908|NCT03228680|164718502|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of blastocysts on Day 5 was analyzed.||||<.001
82512909|NCT03228680|164718502|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of good-quality blastocysts on Day 5 was analyzed.||||<0.001
82512910|NCT03228680|164718503|SUPERIORITY||Mean ratio|1.03||||0.228|TWO_SIDED|95.0|0.98|1.09||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of FSH on stimulation Day 6.||1.09|0.98|0.228
82512911|NCT03228680|164718503|SUPERIORITY||Mean ratio|0.97||||0.777|TWO_SIDED|95.0|0.81|1.17||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of LH on stimulation Day 6.||1.17|0.81|0.777
82442221|NCT02080260|164592972|OTHER|Estimation only|Overall Response Rate|0.05|||||TWO_SIDED|95.0|0.001|0.249|||||Confidence interval estimated using the Clopper Pearson method.|||0.249|0.001|
82569489|NCT00702273|164848404|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin of -8%|Risk Difference (RD)|2.4|||||TWO_SIDED|95.0|-2.6|7.4||||||Treatment groups were compared with a generalized linear model including covariates treatment group, age class and region.||7.4|-2.6|
82634067|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6|||<|0.0001|TWO_SIDED|95.0|-9.33|-3.87||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the FIQ total score. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-3.87|-9.33|<0.0001
82442222|NCT02080260|164592973|OTHER|Estimation only.|Disease Control Rate|0.3|||||TWO_SIDED|95.0|0.119|0.543|||||Confidence interval estimated using the Clopper Pearson method.|||0.543|0.119|
82634068|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42||||0.0078|TWO_SIDED|95.0|-0.74|-0.11||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for parameter 'physical impairment'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.11|-0.74|0.0078
82512912|NCT03228680|164718504|SUPERIORITY||Mean ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.84|0.94||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of FSH at end-of-stimulation.||0.94|0.84|<0.001
82512913|NCT03228680|164718504|SUPERIORITY||Mean ratio|1.17||||0.057|TWO_SIDED|95.0|1.0|1.39||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of LH at end-of-stimulation.||1.39|1.00|0.057
82569490|NCT01123512|164848411|NON_INFERIORITY_OR_EQUIVALENCE|"Pr( Pt - Pc \> -12.5% \| data), calculated using Bayesian multiple imputation for missing 12-month values, as specified in the protocol. The Kiva System is declared non-inferior to control if Pr( Pt - Pc \> -12.5% \| data)\> 96.6%."|% Probability of Equivalence = 99.92|99.92|||||TWO_SIDED|||||"Pr( Pt - Pc \> -12.5% \| data), calculated using Bayesian multiple imputation for missing 12-month values, as specified in the protocol. The Kiva System is declared non-inferior to control if Pr( Pt - Pc \> -12.5% \| data)\> 96.6%."|Bayesian test of proportions|||||||
82380017|NCT03737357|164469609|NON_INFERIORITY|The tolerance range or non-inferiority margin characterizes the largest absolute difference which is considered to be dismissible. A MBL of less than 0.5mm within the first year after implant loading constitutes an acceptable clinical standard(10, 18, 19). In this clinical trial, a non-inferiority margin of 20% of the acceptable clinical standard was chosen, which amounts to 0.1mm.|paired difference|0.01||||0.074|TWO_SIDED||||||t-test, 1 sided|Non-inferiority one-sided paired t-tests using a non-inferiority margin of -0.10mm.|The paired difference is (SLActive® bone level change from baseline (CFB) - SLA® CFB (i.e. resorption))||In the PP population, the paired difference between SLActive® and SLA® bone level change from baseline (CFB) was estimated at 0.01 mm with a standard deviation of 0.444 mm (95% CI: -Inf, 0.11; p = 0.074), based on a one-sided paired t-test with a non-inferiority margin of 0.10 mm.|||0.074
82512914|NCT03228680|164718505|SUPERIORITY||Mean ratio|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of estradiol on stimulation Day 6.||0.93|0.71|0.002
82442223|NCT00289198|164593022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.256|||<|0.001|TWO_SIDED|95.0|-1.73|-0.78||Change from Baseline (Day 1) in reflective total nasal symptom scores for Placebo versus that for fluticasone furoate|ANCOVA|||||-0.78|-1.73|<0.001
82512915|NCT03228680|164718506|SUPERIORITY||Mean ratio|0.85||||0.003|TWO_SIDED|95.0|0.76|0.95||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of estradiol at end-of-stimulation.||0.95|0.76|0.003
82569491|NCT02551692|164848412|OTHER||Partial sum of squares|855.65||||0.534|TWO_SIDED||||||ANOVA|||||||0.534
82569492|NCT02551692|164848413|OTHER||Partial sum of squares|29602.69||||0.26|TWO_SIDED||||||ANOVA|||||||0.26
82569493|NCT02551692|164848414|OTHER||Partial sum of squares|101.69||||0.318|TWO_SIDED||||||ANCOVA|||||||0.318
82569494|NCT01196741|164848425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.57|TWO_SIDED|95.0|0.65|1.23|||Regression, Cox|||||1.23|0.65|0.57
82512916|NCT03228680|164718507|SUPERIORITY||Mean ratio|1.02||||0.814|TWO_SIDED|95.0|0.89|1.16||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of progesterone on stimulation Day 6.||1.16|0.89|0.814
82569495|NCT01196741|164848426|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Cox|||||||0.81
82569496|NCT01196741|164848429|SUPERIORITY_OR_OTHER|||||||0.0476|||||||Mixed Models Analysis|||||||0.0476
82569497|NCT01196741|164848431|SUPERIORITY_OR_OTHER|||||||0.99|||||||Regression, Cox|||||||0.99
82569498|NCT01227928|164848432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984|||||TWO_SIDED|95.0|0.595|1.626|||||The Hazard Ratio (HR) is estimated using a Pike estimator. The HR was adjusted for the stratification factor of first-line treatment outcome.|||1.626|0.595|
82569499|NCT01227928|164848433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.811||||0.5901|TWO_SIDED|95.0|0.376|1.751|||Log Rank||The Hazard Ratio (HR) is estimated using a Pike estimator. The HR was adjusted for the three stratification factors.|||1.751|0.376|0.5901
82569500|NCT01772823|164848455|OTHER|||||||0.7513||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Size of the Pill) differ between intervention arms."|Chi-squared|||||||0.7513
82442224|NCT00289198|164593023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.459|||<|0.001|TWO_SIDED|95.0|-1.93|-0.99||Mean change from Baseline in AM pre-dose instantaneous TNSS over entire period for Placebo versus that for Fluticasone furoate|ANCOVA|||||-0.99|-1.93|<0.001
82442225|NCT00289198|164593024|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|Based on logistic regression adjusting for age, gender and country||||||<0.001
82512917|NCT03228680|164718508|SUPERIORITY||Mean ratio|0.78|||<|0.001|TWO_SIDED|95.0|0.68|0.88||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of progesterone levels at end-of-stimulation.||0.88|0.68|<0.001
82512918|NCT03228680|164718509|SUPERIORITY||Mean ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.73|0.92||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin A on stimulation Day 6.||0.92|0.73|<0.001
82512919|NCT03228680|164718510|SUPERIORITY||Mean ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.72|0.88||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin A at end-of-stimulation.||0.88|0.72|<0.001
82512920|NCT03228680|164718511|SUPERIORITY||Mean ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin B on stimulation Day 6.||0.93|0.75|<0.001
82512921|NCT03228680|164718512|SUPERIORITY||Mean ratio|0.88||||0.027|TWO_SIDED|95.0|0.79|0.99||The P-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The ANCOVA model included treatment and AMH stratum (\<15 pmol/L and ≥15 pmol/L) as fixed factors and log-baseline as covariate.|Mean ratio is equal to FE 999049/FOLLISTIM.|Circulating levels of Inhibin B at end-of-stimulation.||0.99|0.79|0.027
82512922|NCT03228680|164718513|SUPERIORITY|||||||0.694||||||2-sided|van Elteren test|P-value was based on van Elteren test adjusted for AMH strata.||The number of stimulation days at end-of-stimulation.||||0.694
82512923|NCT01420302|164718608|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82512924|NCT03759223|164718653|SUPERIORITY|||||||0.04||||||0:24 weeks|Mixed Models Analysis|||||||.04
82512925|NCT03759223|164718653|SUPERIORITY|||||||0.05||||||0:24 weeks|Mixed Models Analysis|||||||.05
82512926|NCT03759223|164718653|SUPERIORITY|||||||0.58||||||12:12 weeks|Mixed Models Analysis|||||||.58
82512927|NCT05421078|164718666|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.14|-36.53|<.0001
82569501|NCT01772823|164848456|OTHER|||||||0.8281||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Taste of the Pill) differ between intervention arms."|Chi-squared|Pearson Chi-Square||||||0.8281
82569502|NCT01772823|164848457|OTHER|||||||0.3761||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Color of the Pill) differ between intervention arms."|Chi-squared|||||||0.3761
82569503|NCT01772823|164848458|OTHER|||||||0.4359||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Taking the pill every day) differ between intervention arms."|Chi-squared|||||||0.4359
82569504|NCT01772823|164848459|OTHER|||||||0.3801||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Taking part in the study) differ between intervention arms."|Chi-squared|||||||0.3801
82569505|NCT01772823|164848460|OTHER|||||||0.1968||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on HIV test at every visit) differ between intervention arms."|Chi-squared|||||||0.1968
82569506|NCT01772823|164848461|OTHER|||||||0.1226||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Risk Reduction counseling at every visit) differ between intervention arms."|Chi-squared|||||||0.1226
82569507|NCT01772823|164848462|OTHER|||||||0.0994||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on Questions about sexual behavior) differ between intervention arms."|Chi-squared|||||||0.0994
82569508|NCT01772823|164848463|OTHER|||||||0.5285||||||"The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant feelings on the Physician exam) differ between intervention arms."|Chi-squared|||||||0.5285
82569509|NCT01772823|164848467|OTHER|||||||0.0001||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0001
82569510|NCT01772823|164848468|OTHER|||||||0.0098||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0098
82569511|NCT01772823|164848469|OTHER|||||||0.0766||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0766
82569512|NCT01772823|164848470|OTHER|||||||0.1581||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1581
82569513|NCT01772823|164848471|OTHER|||||||0.43||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.4300
82569514|NCT01772823|164848472|OTHER|||||||0.1201||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1201
82569515|NCT01772823|164848473|OTHER|||||||0.1682||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.1682
82569516|NCT01772823|164848474|OTHER|||||||0.2747||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.2747
82569517|NCT01772823|164848475|OTHER|||||||0.0046||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0046
82569518|NCT01772823|164848476|OTHER|||||||0.029||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to the session evaluation question) differ between intervention arms.|Chi-squared|||||||0.0290
82569519|NCT01772823|164848477|OTHER|||||||0.107|||||||Kruskal-Wallis|||||||0.1070
82569520|NCT01772823|164848479|OTHER|||||||0.2991||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified race) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.2991
82569521|NCT01772823|164848480|OTHER|||||||0.0298||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified race) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.0298
82569522|NCT01772823|164848481|OTHER|||||||0.8643||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant self-identified ethnicity) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.8643
82569523|NCT01772823|164848482|OTHER|||||||0.9037||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant BMI) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.9037
82569524|NCT01772823|164848483|OTHER|||||||0.5279|||||||Kruskal-Wallis|||||||0.5279
82569525|NCT01772823|164848484|OTHER|||||||0.5369||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participation in high-risk sex acts) differ between groups (On PrEP vs. Off PrEP).|Fisher Exact|||||||0.5369
82569526|NCT01772823|164848487|OTHER|||||||0.2193||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2193
82569527|NCT01772823|164848488|OTHER|||||||0.1255||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1255
82569528|NCT01772823|164848489|OTHER|||||||0.0706||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0706
82569529|NCT01772823|164848490|OTHER|||||||0.0088||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0088
82569530|NCT01772823|164848491|OTHER|||||||0.2482||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2482
82569531|NCT01772823|164848492|OTHER|||||||0.1647||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1647
82569532|NCT01772823|164848493|OTHER|||||||0.688||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.6880
82569533|NCT01772823|164848494|OTHER|||||||0.2881||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2881
82569534|NCT01772823|164848495|OTHER|||||||0.2223||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.2223
82380018|NCT00951496|164469614|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study was designed to provide 80% power when arm II reduces the progression free survival event rate 20%. The critical p-value accounts for correlation between 2 primary hypotheses.|Hazard Ratio (HR)|0.94||||0.341|TWO_SIDED|95.0|0.81|1.09||P value not adjusted for multiplicity. Significance Threshold = 0.027|Log Rank|Stratified by stage of disease and size of residual disease.|Progression free survival of arm II relative to arm I. Adjusted for stage of disease and residual size.|P value.(an P value is used to determine statistical significance in a hypothesis test). from a stratified log rank test to assess equality of progression free survival hazards of arm II and arm I||1.09|0.81|0.341
82380019|NCT00951496|164469614|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study was designed to provide 80% power when arm III reduced the true progression free survival event rate. 20% compared to arm I. Critical p value accounts for correlation between 2 primary hypotheses.|Hazard Ratio (HR)|0.99||||0.587|TWO_SIDED|95.0|0.86|1.15||P value not adjusted for multiplicity. Significance threshold = 0.027 accounting for 2 correlated primary hypotheses.|Log Rank|Stratified by stage of disease and size of residual disease.|Progression free survival hazard of arm III to arm I. Adjusted for stage of disease and residual disease size.|P value from a log rank test comparing the progression free survival hazards of arm III to arm I.||1.15|0.86|0.587
82380020|NCT03123068|164469650|OTHER||||||>|0.05|||||||Mann Whitney U test|||||||>0.05
82380021|NCT04782076|164469654|OTHER||LS Mean Difference (Final Values)|1.43|||||TWO_SIDED|90.0|1.33|1.55|||Mixed Models Analysis|Least Squares Mean (LS Mean)||||1.55|1.33|
82380022|NCT04782076|164469655|OTHER||LS Mean Difference (Final Values)|1.38|||||TWO_SIDED|90.0|1.3|1.46|||Mixed Models Analysis|||||1.46|1.30|
82512928|NCT05421078|164718666|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
82512929|NCT05421078|164718666|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
82569535|NCT01772823|164848496|OTHER|||||||0.0617||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0617
82380023|NCT03787134|164469699|SUPERIORITY|||||||0.335|||||||t-test, 2 sided|||cued memory item reconstruction - test of reconstruction strength against 0||||.335
82380024|NCT03787134|164469699|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||uncued memory item reconstruction - test of reconstruction strength against 0||||.016
82380025|NCT00619060|164469715|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||Binomial|||||||0.01
82380026|NCT03281876|164469727|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the Control group. The objective is to be considered a success if the lower limit of the 87% CI is above 0%.|Other: Vaccine Efficacy rate|-2.26||||0.8157|TWO_SIDED|87.0|-18.27|11.58|||Negative Binomial regression|Negative Binomial model with arm, country, gold grade, history of exacerbation and age category as covariates and log time as offset variable||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of moderate and severe AECOPDs||11.58|-18.27|0.8157
82380027|NCT03281876|164469728|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the Control group.|Other: Vaccine Efficacy rate|-2.26||||0.8157|TWO_SIDED|95.0|-23.45|15.29|||Negative Binomial regression|Negative Binomial model with arm, country, gold grade, history of exacerbation and age category as covariates and log time as offset variable||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of moderate and severe AECOPDs||15.29|-23.45|0.8157
82380028|NCT03281876|164469735|OTHER|Vaccine Efficacy is defined as 1 minus the risk ratio (Rvacc / Rcon) based on the number of moderate and severe AECOPD observed in 1 year , with Rvacc = average yearly incidence rate of AECOPD events per subject in the GSK3277511A Group and Rcon = average yearly incidence rate of AECOPD events per subject in the control group.|Vaccine efficacy rate|-2.72||||0.77|TWO_SIDED|95.0|-22.95|14.19|||Negative Binomial regression|||To assess efficacy of the investigational vaccine as compared to the placebo control with respect to the rate of AECOPDs of any severity- upto 12 months follow up period||14.19|-22.95|0.7700
82512930|NCT05421078|164718667|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||p value is calculated||-15.14|-36.53|<.0001
82512931|NCT05421078|164718667|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
82512932|NCT05421078|164718667|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
82634069|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.0014|TWO_SIDED|95.0|-1.36|-0.33||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'feel good'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.33|-1.36|0.0014
82634070|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.005|TWO_SIDED|95.0|-1.01|-0.18||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above for parameter 'work missed'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.18|-1.01|0.0050
82634071|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.0002|TWO_SIDED|95.0|-1.14|-0.36||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'do work'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.36|-1.14|0.0002
82634072|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0006|TWO_SIDED|95.0|-1.0|-0.28||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'pain'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.28|-1.00|0.0006
82634073|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.0315|TWO_SIDED|95.0|-0.85|-0.04||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'fatigue'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.04|-0.85|0.0315
82634074|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76||||0.0003|TWO_SIDED|95.0|-1.17|-0.35||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'rested'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.35|-1.17|0.0003
82634075|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.0007|TWO_SIDED|95.0|-1.11|-0.31||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'stiffness'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.31|-1.11|0.0007
82634076|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55||||0.0048|TWO_SIDED|95.0|-0.93|-0.17||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'anxiety'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.17|-0.93|0.0048
82634077|NCT01432236|164984220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.53||Analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Statistical analysis presented above is for the parameter 'depression'. Analysis was performed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.53|-1.32|<0.0001
82634078|NCT01432236|164984221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED|||||This analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Cochran-Mantel-Haenszel|||The PGIC variable was analyzed using Cochran Mantel-Haenszel (CMH) test with modified ridit transformation.||||0.0637
82380029|NCT03281876|164469737|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.94||||0.5751|TWO_SIDED|95.0|0.758|1.166|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate or severe AECOPDs, one year follow-up starting 1 month post dose 2||1.166|0.758|0.5751
82512933|NCT05421078|164718668|SUPERIORITY||Least Squares (LS) Means|-25.84|STANDARD_ERROR_OF_MEAN|5.387|<|0.0001|TWO_SIDED|95.0|-36.53|-15.14||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.14|-36.53|<.0001
82380030|NCT03281876|164469738|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.934||||0.5194|TWO_SIDED|95.0|0.758|1.15|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for any AECOPDs, one year follow-up starting 1 month post dose 2||1.15|0.758|0.5194
82380031|NCT03281876|164469739|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.05||||0.8581|TWO_SIDED|95.0|0.616|1.791|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for mild AECOPDs, one year follow-up starting 1 month post dose 2||1.791|0.616|0.8581
82442226|NCT00289198|164593025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.274|||<|0.001|TWO_SIDED|95.0|-1.74|-0.81|||ANCOVA|||||-0.81|-1.74|<0.001
82380032|NCT03281876|164469739|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.995||||0.9634|TWO_SIDED|95.0|0.792|1.249|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate AECOPDs, one year follow-up starting 1 month post dose 2||1.249|0.792|0.9634
82380033|NCT03281876|164469739|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|0.722||||0.1755|TWO_SIDED|95.0|0.45|1.157|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for severe AECOPDs, one year follow-up starting 1 month post dose 2||1.157|0.45|0.1755
82380034|NCT03281876|164469746|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.038||||0.9463|TWO_SIDED|95.0|0.73|1.477|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate or severe NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.477|0.73|0.9463
82380035|NCT03281876|164469747|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.093||||0.6042|TWO_SIDED|95.0|0.782|1.528|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for any NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.528|0.782|0.6042
82380036|NCT03281876|164469748|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|2.243||||0.0777|TWO_SIDED|95.0|0.914|5.504|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for mild NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||5.504|0.914|0.0777
82380037|NCT03281876|164469748|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.021||||0.9121|TWO_SIDED|95.0|0.71|1.467|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for moderate NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||1.467|0.71|0.9121
82380038|NCT03281876|164469748|OTHER|The dependent variable is the time to first occurrence of the event. The reference is the Placebo.|Hazard Ratio (HR)|1.12||||0.8737|TWO_SIDED|95.0|0.278|4.502|||Regression, Cox|Analysis using Cox proportional hazard regression including history of exacerbation, study treatment, GOLD grade and age group as covariate.||Hazard rate for severe NTHi-associated and/or Mcat-associated AECOPDs, one year follow-up starting 1 month post dose 2||4.502|0.278|0.8737
82380039|NCT02208089|164469760|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Null hypothesis = TransPRK produced no gains in vision over and above those produced by CXL only||||0.03
82380040|NCT02208089|164469761|SUPERIORITY|||||||0.005|||||||Chi-squared|||Null hypothesis = an equal proportion of patients in both study arms have clinically significant visual gains||||0.005
82380041|NCT02208089|164469762|NON_INFERIORITY|Non-inferiority = no significant difference between rates of clinically significant visual loss between groups at the p≤0.05 level||||||0.13|||||||Chi-squared|||null hypothesis = rates of clinically significant visual loss are equal for TransPRKCXL and CXL only||||0.13
82380042|NCT02443740|164469774|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio.|39.58|||||TWO_SIDED|90.0|30.14|51.99|||||Values have been back-transformed from the log scale.|||51.99|30.14|
82380043|NCT02443740|164469775|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|80.6|||||TWO_SIDED|90.0|59.74|108.75|||||Values have been back-transformed from the log scale.|||108.75|59.74|
82380044|NCT02443740|164469776|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|80.12|||||TWO_SIDED|90.0|58.92|108.94|||||Values have been back-transformed from the log scale.|||108.94|58.92|
82512934|NCT05421078|164718668|SUPERIORITY||Least Squares (LS) Means|-33.34|STANDARD_ERROR_OF_MEAN|5.378|<|0.0001|TWO_SIDED|95.0|-44.01|-22.66||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.66|-44.01|<.0001
82634079|NCT01432236|164984222|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|TWO_SIDED|||||This analysis was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Cochran-Mantel-Haenszel|||The PGIC variable was analyzed using CMH test with modified ridit transformation.||||0.1160
82380045|NCT02443740|164469781|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|65.58|||||TWO_SIDED|90.0|62.18|69.16|||||Values have been back-transformed from the log scale.|||69.16|62.18|
82380046|NCT02443740|164469782|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|68.62|||||TWO_SIDED|90.0|63.27|74.41|||||Values have been back-transformed from the log scale.|||74.41|63.27|
82380047|NCT02443740|164469783|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio.|29.76|||||TWO_SIDED|90.0|24.17|36.64|||||Values have been back-transformed from the log scale.|||36.64|24.17|
82380048|NCT02443740|164469785|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|16.71|||||TWO_SIDED|90.0|15.35|18.18|||||Values were back-transformed from the log scale.|||18.18|15.35|
82380049|NCT02443740|164469787|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Geometric Mean Ratio|15.21|||||TWO_SIDED|90.0|13.29|17.42|||||Values were back-transformed from the log scale.|||17.42|13.29|
82380050|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.93|TWO_SIDED|95.0|-0.4|0.44|||Mixed model for repeated measurements|||"Day 1, 30 min post dose.~SpO2/FiO2 and FiO2 (%) over the first 24 hours: analyzed using a linear mixed model for repeated measures (MMRM) including treatment, timepoint, treatment by timepoint interaction, investigational site and gestational age (GA) group as fixed effects, and predose values as covariates. The adjusted mean difference between treatments, and their 95% confidence intervals (CIs) at each timepoint and averaged over the first 24 hours were estimated by the model."||0.44|-0.40|0.930
82380051|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.346|TWO_SIDED|95.0|-0.59|0.21|||Mixed model for repeated measurements|||Day 1, 1 h post dose||0.21|-0.59|0.346
82380052|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.549|TWO_SIDED|95.0|-0.43|0.23|||Mixed model for repeated measurements|||Day 1, 3 h post dose||0.23|-0.43|0.549
82380053|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.539|TWO_SIDED|95.0|-0.43|0.23|||Mixed model for repeated measurements|||Day 1, 6 h post dose||0.23|-0.43|0.539
82380054|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.491|TWO_SIDED|95.0|-0.21|0.43|||Mixed model for repeated measurements|||Day 1, 12 h post dose||0.43|-0.21|0.491
82380055|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.623|TWO_SIDED|95.0|-0.22|0.37|||Mixed model for repeated measurements|||Day 1, 18 h post dose||0.37|-0.22|0.623
82380056|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.608|TWO_SIDED|95.0|-0.25|0.43|||Mixed model for repeated measurements|||Day 1, 24 h post dose||0.43|-0.25|0.608
82380057|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.869|TWO_SIDED|95.0|-0.35|0.3|||Mixed Models Analysis|||"Day 2, post dose~SpO2/FiO2 was compared between treatments at the remaining post-treatment time points (i.e., Days 2, 3, 5, 7): analyzed using mixed model including treatment, investigational site and gestational age group as fixed effects and pre-dose ratio as covariate."||0.30|-0.35|0.869
82380058|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.833|TWO_SIDED|95.0|-0.38|0.31|||Mixed Models Analysis|||Day 3, post dose||0.31|-0.38|0.833
82380059|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.772|TWO_SIDED|95.0|-0.39|0.29|||Mixed Models Analysis|||Day 5, post dose||0.29|-0.39|0.772
82380060|NCT02452476|164469790|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.963|TWO_SIDED|95.0|-0.33|0.35|||Mixed Models Analysis|||Day 7, post dose||0.35|-0.33|0.963
82380061|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-1.94||||0.519|TWO_SIDED|95.0|-7.87|3.99|||Mixed model for repeated measurements|||Day 1, 30 min post dose||3.99|-7.87|0.519
82380062|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|2.45||||0.282|TWO_SIDED|95.0|-2.04|6.93|||Mixed model for repeated measurements|||Day 1, 1 h post dose||6.93|-2.04|0.282
82512935|NCT05421078|164718668|SUPERIORITY||Least Squares (LS) Means|-36.12|STANDARD_ERROR_OF_MEAN|5.323|<|0.0001|TWO_SIDED|95.0|-46.68|-25.55||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-25.55|-46.68|<.0001
82380063|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.854|TWO_SIDED|95.0|-4.04|4.86|||Mixed model for repeated measurements|||Day 1, 3 h post dose||4.86|-4.04|0.854
82380064|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.861|TWO_SIDED|95.0|-5.0|4.19|||Mixed model for repeated measurements|||Day 1, 6 h post dose||4.19|-5.00|0.861
82380065|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.117|TWO_SIDED|95.0|-6.24|0.7|||Mixed model for repeated measurements|||Day 1, 12 h post dose||0.70|-6.24|0.117
82380066|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-1.92||||0.185|TWO_SIDED|95.0|-4.79|0.94|||Mixed model for repeated measurements|||Day 1, 18 h post dose||0.94|-4.79|0.185
82380067|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.678|TWO_SIDED|95.0|-5.82|3.8|||Mixed model for repeated measurements|||Day 1, 24 h post dose||3.80|-5.82|0.678
82442227|NCT00289198|164593026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.291|||<|0.001|TWO_SIDED|95.0|-1.77|-0.81|||ANCOVA|||||-0.81|-1.77|<0.001
82380068|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.961|TWO_SIDED|95.0|-3.49|3.67|||Mixed Models Analysis|||"Day 2, post dose~SpO2/FiO2 was compared between treatments at the remaining post-treatment time points (i.e., Days 2, 3, 5, 7): analyzed using mixed model including treatment, investigational site and gestational age group as fixed effects and pre-dose ratio as covariate."||3.67|-3.49|0.961
82380069|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|-1.53||||0.544|TWO_SIDED|95.0|-6.53|3.46|||Mixed Models Analysis|||Day 3, post dose||3.46|-6.53|0.544
82380070|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.492|TWO_SIDED|95.0|-3.28|6.76|||Mixed Models Analysis|||Day 5, post dose||6.76|-3.28|0.492
82380071|NCT02452476|164469791|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.634|TWO_SIDED|95.0|-3.9|6.36|||Mixed Models Analysis|||Day 7, post dose||6.36|-3.90|0.634
82380072|NCT02452476|164469792|SUPERIORITY|Mortality or BPD incidence at 36-week PMA was compared by treatment, using Cochran-Mantel-Haenszel (CMH), adjusting for stratification gestational age (GA) group. Relative risk (RR) and its 95% confidence interval are also provided.|Relative risk|1.03||||0.811|TWO_SIDED|95.0|0.81|1.32|||Cochran-Mantel-Haenszel|||Week 36 PMA Incidence of BPD||1.32|0.81|0.811
82380073|NCT02452476|164469792|SUPERIORITY||Relative risk|1.0||||0.972|TWO_SIDED|95.0|0.81|1.25|||Cochran-Mantel-Haenszel|||Week 36 PMA Incidence of Mortality/BPD||1.25|0.81|0.972
82380074|NCT02452476|164469792|SUPERIORITY||Relative risk|0.74||||0.619|TWO_SIDED|95.0|0.23|2.42|||Cochran-Mantel-Haenszel|||Week 36 PMA Mortality||2.42|0.23|0.619
82380075|NCT02452476|164469792|SUPERIORITY||Relative risk|1.46||||0.602|TWO_SIDED|95.0|0.35|6.09|||Cochran-Mantel-Haenszel|||Day 28 PNA Mortality||6.09|0.35|0.602
82380076|NCT02452476|164469792|SUPERIORITY||Relative risk|0.56||||0.606|TWO_SIDED|95.0|0.06|5.29|||Cochran-Mantel-Haenszel|||Day 14 PNA RDS-associated mortality in 14 days of life||5.29|0.06|0.606
82380077|NCT02452476|164469793|SUPERIORITY||Odds Ratio (OR)|0.69||||0.409|TWO_SIDED|95.0|0.3|1.57|||Fisher Exact|||||1.57|0.30|0.409
82380078|NCT02452476|164469794|SUPERIORITY|The percentage of patients requiring at least one rescue surfactant dose were compared by treatment group using the Fisher's exact test at 5% significance interval. Odds ratio (OR) and related exact 95% CI are also provided.|Odds Ratio (OR)|1.21||||0.689|TWO_SIDED|95.0|0.55|2.67|||Fisher Exact|||The percentage of patients requiring at least one rescue surfactant dose.||2.67|0.55|0.689
82380079|NCT02452476|164469795|SUPERIORITY|||||||0.935|||||||Wilcoxon (Mann-Whitney)|||||||0.935
82380080|NCT00683657|164469803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.16||0.0001|TWO_SIDED|95.0|-25.1|-8.5||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pre treatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin.|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-8.5|-25.1|0.0001
82380081|NCT00683657|164469804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-44.4|-16.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-16.1|-44.4|<0.0001
82380082|NCT00683657|164469805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.4|STANDARD_ERROR_OF_MEAN|10.41||0.001|TWO_SIDED|95.0|-56.2|-14.7||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-14.7|-56.2|0.0010
82380083|NCT00683657|164469806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|STANDARD_ERROR_OF_MEAN|4.22|<|0.0001|TWO_SIDED|95.0|-27.1|-10.3||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-10.3|-27.1|<0.0001
82380084|NCT00683657|164469807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|4.0||0.0002|TWO_SIDED|95.0|-23.3|-7.4||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|ANCOVA Model: post - pre = pretreatment|Mean difference = adjusted mean change for saxagliptin 5 mg + Metformin - adjusted mean change for Placebo + Metformin|With 39 subjects per treatment group, there was a 93% power for the primary endpoint to detect a difference in 24-hour mean weighted glucose of 16 mg/dL between saxagliptin and placebo, assuming a standard deviation of 20 mg/dL. Assuming a dropout rate of 15%, a total of 92 subjects (46 subjects per treatment arm) needed to be randomized.||-7.4|-23.3|0.0002
82380085|NCT02085447|164469850|SUPERIORITY|||||||0.012|||||||t-test, 1 sided|||||||.012
82380086|NCT02085447|164469851|SUPERIORITY|||||||0.028|||||||t-test, 1 sided|||||||.028
82380087|NCT02085447|164469852|SUPERIORITY|||||||0.162|||||||t-test, 1 sided|||||||.162
82380088|NCT02085447|164469853|SUPERIORITY|||||||0.021|||||||t-test, 1 sided|||||||.021
82380089|NCT02085447|164469854|SUPERIORITY|||||||0.005|||||||t-test, 1 sided|||||||.005
82380090|NCT02085447|164469855|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82512936|NCT05421078|164718669|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
82512937|NCT05421078|164718669|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
82569536|NCT01772823|164848497|OTHER|||||||0.0868||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0868
82380091|NCT02085447|164469856|SUPERIORITY|||||||0.197|||||||t-test, 1 sided|||||||.197
82380092|NCT02085447|164469857|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82380093|NCT02085447|164469858|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82380094|NCT02085447|164469859|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82380095|NCT02085447|164469860|SUPERIORITY|||||||0.053|||||||t-test, 1 sided|||||||.053
82380096|NCT02085447|164469861|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82380097|NCT02085447|164469862|SUPERIORITY|||||||0.821|||||||t-test, 1 sided|||||||.821
82380098|NCT02085447|164469863|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.330
82380099|NCT02085447|164469864|SUPERIORITY|||||||0.425|||||||t-test, 1 sided|||||||.425
82380100|NCT02085447|164469865|SUPERIORITY|||||||0.577|||||||t-test, 1 sided|||||||.577
82380101|NCT02085447|164469866|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.330
82380102|NCT02085447|164469867|SUPERIORITY|||||||0.706|||||||t-test, 1 sided|||||||.706
82380103|NCT02085447|164469868|SUPERIORITY|||||||0.481|||||||t-test, 1 sided|||||||.481
82512938|NCT05421078|164718669|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
82512939|NCT05421078|164718670|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
82569537|NCT01772823|164848498|OTHER|||||||0.1847||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.1847
82380104|NCT02085447|164469869|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||.020
82380105|NCT02085447|164469870|SUPERIORITY|||||||0.103|||||||t-test, 1 sided|||||||.103
82380106|NCT02085447|164469871|SUPERIORITY|||||||0.063|||||||t-test, 1 sided|||||||.063
82380107|NCT01112059|164469912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.05|TWO_SIDED|95.0|0.128|0.633|||Wilcoxon (Mann-Whitney)|||||0.633|0.128|<0.05
82380108|NCT04871776|164469929|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.67|1.14|||||How vs Usual Care|We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.14|0.67|
82442228|NCT00289198|164593027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.118|||<|0.001|TWO_SIDED|95.0|-20.03|-8.21|||ANCOVA|||||-8.21|-20.03|<0.001
82380109|NCT04871776|164469929|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.81|1.28||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.28|0.81|
82512940|NCT05421078|164718670|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
82512941|NCT05421078|164718670|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
82512942|NCT05421078|164718671|SUPERIORITY||Least Squares (LS) Means|-27.2|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001|TWO_SIDED|95.0|-38.37|-16.04||p value is calculated|ANCOVA|||||-16.04|-38.37|<.0001
82512943|NCT05421078|164718671|SUPERIORITY||Least Squares (LS) Means|-31.23|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|-42.36|-20.1||p value is calculated|ANCOVA|||||-20.10|-42.36|<.0001
82512944|NCT05421078|164718671|SUPERIORITY||Least Squares (LS) Means|-36.81|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED|95.0|-47.83|-25.8||p value is calculated|ANCOVA|||||-25.80|-47.83|<.0001
82512945|NCT05421078|164718672|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
82512946|NCT05421078|164718672|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
82380110|NCT04871776|164469929|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.96|1.51||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.51|0.96|
82512947|NCT05421078|164718672|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
82512948|NCT05421078|164718673|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
82512949|NCT05421078|164718673|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
82512950|NCT05421078|164718673|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
82512951|NCT05421078|164718674|SUPERIORITY||Least Squares (LS) Means|-19.0|STANDARD_ERROR_OF_MEAN|3.439|<|0.0001|TWO_SIDED|95.0|-25.83|-12.18||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-12.18|-25.83|<.0001
82512952|NCT05421078|164718674|SUPERIORITY||Least Squares (LS) Means|-22.45|STANDARD_ERROR_OF_MEAN|3.441|<|0.0001|TWO_SIDED|95.0|-29.28|-15.62||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-15.62|-29.28|<.0001
82380111|NCT04871776|164469930|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.67|1.01||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.01|0.67|
82380112|NCT04871776|164469930|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.87|1.23||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.23|0.87|
82380113|NCT04871776|164469930|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|1.06|1.49||||||We used generalized estimating equations with a logit link function and binary-distributed errors, adjusting for clinic-day clustering and including clinic as an adjustment variable for all models. This analysis is otherwise unadjusted.||1.49|1.06|
82442229|NCT00289198|164593028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.033|||<|0.001|TWO_SIDED|95.0|-27.13|-12.94|||ANCOVA|||||-12.94|-27.13|<0.001
82512953|NCT05421078|164718674|SUPERIORITY||Least Squares (LS) Means|-24.86|STANDARD_ERROR_OF_MEAN|3.406|<|0.0001|TWO_SIDED|95.0|-31.62|-18.1||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.10|-31.62|<.0001
82512954|NCT05421078|164718675|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|||||-14.31|-33.56|<.0001
82512955|NCT05421078|164718675|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
82512956|NCT05421078|164718675|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
82512957|NCT05421078|164718676|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.31|-33.56|<.0001
82512958|NCT05421078|164718676|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
82512959|NCT05421078|164718676|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
82512960|NCT05421078|164718677|SUPERIORITY||Least Squares (LS) Means|-23.94|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|-33.56|-14.31||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.31|-33.56|<.0001
82380114|NCT06389487|164469955|NON_INFERIORITY|Non-Inferiority (NI) was to be demonstrated if the upper limit of the 95% confidence interval (CI) of the group GMT ratio between Part A:RSV-OA Group over Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was less than or equal to (≤) 1.5.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||The comparison is done using the group ratio of adjusted GMT (Part A:RSV-OA/ Part A:RSV-A-AIR) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-A strain after RSVPreF3 OA investigational vaccine administration.||0.81|0.64|
82442230|NCT00289198|164593029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||<|0.001|TWO_SIDED|95.0|-0.41|-0.14|||ANCOVA|||Rhinorrhea score, Placebo vs Fluticasone furoate||-0.14|-0.41|<0.001
82442231|NCT00289198|164593029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Nasal Congestion, Placebo vs Fluticasone furoate||-0.14|-0.42|<0.001
82380115|NCT06389487|164469956|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group SRR difference between Part A:RSV-OA Group and Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤10%.|Difference in percentage|-9.33|||||TWO_SIDED|95.0|-14.55|-4.1|||||The comparison is done using the difference of SRR (Part A:RSV-OA - Part A:RSV-A-AIR).|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-A strain after RSVPreF3 OA investigational vaccine administration.||-4.10|-14.55|
82380116|NCT06389487|164469957|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group GMT ratio between Part A:RSV-OA Group over Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤1.5.|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.65|0.82|||||The comparison is done using the group ratio of adjusted GMT (Part A:RSV-OA/ Part A:RSV-A-AIR) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-B strain after RSVPreF3 OA investigational vaccine administration.||0.82|0.65|
82380117|NCT06389487|164469958|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 95% CI of the group SRR difference between Part A:RSV-OA Group and Part A:RSV-A-AIR Group at 1 month post RSVPreF3 OA vaccine administration was ≤10%.|Difference in percentage|-10.03|||||TWO_SIDED|95.0|-15.26|-4.8|||||The comparison is done using the difference of SRR (Part A:RSV-OA - Part A:RSV-A-AIR).|To demonstrate the non-inferiority of the humoral immune response in participants aged 18-49 YOA at increased risk for RSV disease (Part A:RSV-A-AIR Group) compared to older adults aged ≥60 YOA (Part A:RSV-OA Group) for the RSV-B strain after RSVPreF3 OA investigational vaccine administration.||-4.80|-15.26|
82380118|NCT05016960|164469978|OTHER|one group paired samples t test to compare scores at pre vs. post treatment||||||0.503|||||||t-test, 2 sided|||||||.503
82512961|NCT05421078|164718677|SUPERIORITY||Least Squares (LS) Means|-28.39|STANDARD_ERROR_OF_MEAN|4.849|<|0.0001|TWO_SIDED|95.0|-38.01|-18.76||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-18.76|-38.01|<.0001
82512962|NCT05421078|164718677|SUPERIORITY||Least Squares (LS) Means|-28.55|STANDARD_ERROR_OF_MEAN|4.801|<|0.0001|TWO_SIDED|95.0|-38.08|-19.03||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.03|-38.08|<.0001
82380119|NCT05016960|164469979|NON_INFERIORITY|one group paired samples t test||||||0.23|||||||t-test, 2 sided|||||||.230
82380120|NCT05016960|164469980|OTHER|one group paired samples t test||||||0.061|||||||t-test, 2 sided|||||||.061
82380121|NCT05016960|164469981|OTHER|one group paired samples t test|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82380122|NCT05016960|164469982|OTHER|one group paired samples t test||||||0.01|||||||t-test, 2 sided|||||||.01
82380123|NCT05016960|164469983|OTHER|one group paired samples t test||||||0.625|||||||t-test, 2 sided|||||||.625
82380124|NCT05016960|164469984|OTHER|one group paired samples t test||||||0.134|||||||t-test, 2 sided|||||||.134
82512963|NCT05421078|164718678|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
82512964|NCT05421078|164718678|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
82512965|NCT05421078|164718678|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
82512966|NCT05421078|164718679|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
82634080|NCT01432236|164984223|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||This secondary analyses was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Regression, Logistic|||Statistical analysis presented above is for 30% responders. Analysis was conducted using a logistic regression model using sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors. Logit link transformation was used for the model.||||0.0007
82380125|NCT05016960|164469985|OTHER|one group paired samples t test||||||0.515|||||||t-test, 2 sided|||||||.515
82512967|NCT05421078|164718679|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
82512968|NCT05421078|164718679|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
82512969|NCT05421078|164718680|SUPERIORITY||Least Squares (LS) Means|133.11|STANDARD_ERROR_OF_MEAN|10.205|<|0.0001|TWO_SIDED|95.0|112.85|153.36||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||153.36|112.85|<.0001
82512970|NCT05421078|164718680|SUPERIORITY||Least Squares (LS) Means|147.41|STANDARD_ERROR_OF_MEAN|10.195|<|0.0001|TWO_SIDED|95.0|127.17|167.64||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||167.64|127.17|<.0001
82512971|NCT05421078|164718680|SUPERIORITY||Least Squares (LS) Means|155.98|STANDARD_ERROR_OF_MEAN|10.1|<|0.0001|TWO_SIDED|95.0|135.93|176.02||p value is calculated|Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||176.02|135.93|<.0001
82512972|NCT00414050|164718698|NON_INFERIORITY_OR_EQUIVALENCE|Modified Process Hepatitis B vaccine-5µg (micrograms) declared non-inferior to RECOMBIVAX HB™ if the lower bound of the 95% Confidence Interval for the ratio of Geometric Mean Titers (Modified Process Vaccine 5 micrograms/RECOMBIVAX HB™) was \>= 0.67. The study had 98 percent power for this test, based on an assumption of true equality.|Ratio of geometric means|1.99|||||TWO_SIDED|95.0|1.69|2.35||||||Comparison of Induced (effected) Geometric Mean Titer for the Modified Hepatitis B Process Vaccine and RECOMBIVAX Hepatitis B vaccine.||2.35|1.69|
82512973|NCT01109316|164718701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.48|||||TWO_SIDED|95.0|0.2|0.76|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age stratum + Baseline HbA1c.|This was the primary gated analysis.||0.76|0.20|
82512974|NCT01109316|164718702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.22|||||TWO_SIDED|95.0|-0.07|0.52|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age Stratum + Baseline HbA1c; where participant is treated as a random effect.|||0.52|-0.07|
82512975|NCT01109316|164718702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.25|||||TWO_SIDED|95.0|-0.05|0.56|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Age Stratum + Baseline HbA1c; where participant is treated as a random effect.|||0.56|-0.05|
82512976|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|||||TWO_SIDED|95.0|-0.29|0.51|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.51|-0.29|
82512977|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|||||TWO_SIDED|95.0|-0.41|0.73|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.73|-0.41|
82512978|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.03|||||TWO_SIDED|95.0|-0.18|0.24|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.24|-0.18|
82380126|NCT05016960|164469986|OTHER|one group paired samples t test||||||0.41|||||||t-test, 2 sided|||||||.410
82512979|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.56|0.27|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.27|-0.56|
82380127|NCT05016960|164469987|OTHER|one group paired samples t test||||||0.706|||||||t-test, 2 sided|||||||.706
82380128|NCT05016960|164469988|OTHER|one group paired samples t test||||||0.062|||||||t-test, 2 sided|||||||.062
82380129|NCT05016960|164469989|OTHER|one group paired samples t test||||||0.39|||||||t-test, 2 sided|||||||.390
82380130|NCT05016960|164469990|OTHER|one group paired samples t test||||||0.38|||||||t-test, 2 sided|||||||.38
82380131|NCT05016960|164469991|OTHER|One group paired samples t test||||||0.064|||||||t-test, 2 sided|||||||.064
82512980|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|||||TWO_SIDED|95.0|-0.48|0.6|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.60|-0.48|
82512981|NCT01109316|164718703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.85|0.65|||||Least Squares Mean Difference of Daily Bolus Insulin = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose + Age Stratum.|||0.65|-0.85|
82512982|NCT01109316|164718704|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|||||TWO_SIDED|95.0|-0.02|0.14|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c.|||0.14|-0.02|
82512983|NCT01109316|164718704|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.09|||||TWO_SIDED|95.0|0.01|0.18|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c.|||0.18|0.01|
82512984|NCT01109316|164718705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.5|1.75|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.75|0.50|
82512985|NCT01109316|164718705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.29|1.67|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Lispro 2 Day.|||1.67|0.29|
82512986|NCT01109316|164718705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.56|1.41|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.41|0.56|
82380132|NCT00116779|164469996|SUPERIORITY_OR_OTHER||Percentage of participants|86.0||||||95.0|73.0|94.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||94|73|
82512987|NCT01109316|164718705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.66|1.64|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Lispro 2 Day.|||1.64|0.66|
82512988|NCT01109316|164718706|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||1.00
82512989|NCT01109316|164718707|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value computed using a negative binomial test including factors for treatment, period, and sequence.|Negative Binomial Test|||||||0.164
82512990|NCT01109316|164718707|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value computed using a negative binomial test including factors for treatment, period, and sequence.|Negative Binomial Test|||||||0.185
82512991|NCT01109316|164718708|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Premature Reservoir Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.736
82512992|NCT01109316|164718708|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Premature Reservoir Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.006
82512993|NCT01109316|164718708|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Premature Infusion Set Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||1.00
82512994|NCT01109316|164718708|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Premature Infusion Set Change. P-value computed using Treatment comparison Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used for p-value calculation.|Gart's Test|||||||0.017
82512995|NCT01109316|164718709|SUPERIORITY_OR_OTHER|||||||0.471||95.0||||P-value for Premature Reservoir Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.471
82634081|NCT01432236|164984223|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0205|TWO_SIDED|||||This secondary analyses was conducted using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Regression, Logistic|||Statistical analysis presented above is for 50% responders. Analysis was conducted using a logistic regression model using sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors. Logit link transformation was used for the model.||||0.0205
82512996|NCT01109316|164718709|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Premature Reservoir Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||<0.001
82512997|NCT01109316|164718709|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for Premature Infusion Set Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.737
82512998|NCT01109316|164718709|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Premature Infusion Set Change. P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||<0.001
82512999|NCT01109316|164718711|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.006
82513000|NCT01109316|164718711|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is computed using negative binomial test including factors for treatment, period and sequence.|Negative Binomial Test|||||||0.002
82513001|NCT01109316|164718712|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Body Weight.|Crossover Model|||||||0.060
82380133|NCT00116779|164469996|SUPERIORITY_OR_OTHER||Percentage of participants|77.0||||||95.0|64.0|88.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||88|64|
82513002|NCT01109316|164718712|SUPERIORITY_OR_OTHER|||||||0.486||95.0||||P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Body Weight.|Crossover Model|||||||0.486
82513003|NCT01109316|164718713|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||P-value is for Systolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Systolic Blood Pressure.|Crossover Model|||||||0.056
82513004|NCT01109316|164718713|SUPERIORITY_OR_OTHER|||||||0.805||95.0||||P-value is for Systolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Systolic Blood Pressure.|Crossover Model|||||||0.805
82513005|NCT01109316|164718713|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for Diastolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Diastolic Blood Pressure.|Crossover Model|||||||0.020
82513006|NCT01109316|164718713|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value is for Diastolic Blood Pressure. P-value computed using crossover model. Response = Treatment + Sequence + Period + Age stratum + Baseline Diastolic Blood Pressure.|Crossover Model|||||||0.051
82513007|NCT00395044|164718722|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Mixed Models Analysis|||||||.029
82513008|NCT01192152|164718811|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of geometric least squares means|1.045|||||TWO_SIDED|90.0|1.025|1.065|||||Ratio = Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf.||1.065|1.025|
82513009|NCT01192152|164718811|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|103.05||||||95.0||||||||Geometric least squares means for Treatment B||||
82513010|NCT01192152|164718811|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|98.61||||||95.0||||||||Geometric least squares means for Treatment A||||
82513011|NCT01192152|164718812|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.035|||||TWO_SIDED|90.0|1.009|1.062|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||1.062|1.009|
82513012|NCT01192152|164718812|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|101.16||||||95.0||||||||Geometric least squares means for Treatment B||||
82513013|NCT01192152|164718812|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|97.72||||||95.0||||||||Geometric least squares means for Treatment A||||
82513014|NCT01192152|164718814|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of geometric least squares mean|0.999|||||TWO_SIDED|90.0|0.948|1.053|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf.||1.053|0.948|
82513015|NCT01192152|164718814|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|24.85||||||95.0||||||||Geometric least squares means for Treatment B||||
82513016|NCT01192152|164718814|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|24.88||||||95.0||||||||Geometric least squares means for Treatment A||||
82513017|NCT01192152|164718831|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|ratio of geometric least squares means|0.894|||||TWO_SIDED|90.0|0.833|0.959|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided at least 99% power to conclude BE with respect to Cmax and AUC0-inf.||0.959|0.833|
82513018|NCT01192152|164718831|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|8713.4||||||95.0||||||||Geometric least squares mean for Treatment B||||
82513019|NCT01192152|164718831|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|9746.3||||||95.0||||||||Geometric least squares mean for Treatment A||||
82513020|NCT01192152|164718832|SUPERIORITY_OR_OTHER||ratio of geometric least squares means|0.906|||||TWO_SIDED|90.0|0.848|0.968|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||0.968|0.848|
82513021|NCT01192152|164718832|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|8377.8||||||95.0||||||||Geometric least squares means for Treatment B||||
82513022|NCT01192152|164718832|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|9246.8||||||95.0||||||||Geometric least squares mean for Treatment A||||
82380134|NCT00116779|164469997|SUPERIORITY_OR_OTHER||Percentage of participants|90.0||||||95.0|79.0|96.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||96|79|
82380135|NCT00116779|164469997|SUPERIORITY_OR_OTHER||Percentage of participants|89.0||||||95.0|78.0|95.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||95|78|
82569538|NCT01772823|164848499|OTHER|||||||0.0226||||||The chi-squared test of homogeneity is used to assess whether the proportions of the independent variable (participant responses to this question) differ between intervention arms.|Chi-squared|||||||0.0226
82569539|NCT00337285|164848534|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||< 0.0001
82380136|NCT00116779|164469997|SUPERIORITY_OR_OTHER|||||||0.8413||95.0|||||Chi-squared|||||||0.8413
82380137|NCT00116779|164469998|SUPERIORITY_OR_OTHER||Percentage of participants|93.0||||||95.0|82.0|99.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||99|82|
82380138|NCT00116779|164469998|SUPERIORITY_OR_OTHER||Percentage of participants|98.0||||||95.0|87.0|100.0|||||The 95% confidence interval was calculated by Clopper-Pearson method.|||100|87|
82380139|NCT00116779|164469999|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Log Rank|||Time to 50% reduction||||.904
82634082|NCT01432236|164984224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|||<|0.0001|TWO_SIDED|95.0|0.31|0.84||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-subject error as random factors.||0.84|0.31|<0.0001
82380140|NCT00116779|164469999|SUPERIORITY_OR_OTHER|||||||0.778||95.0|||||Log Rank|||Days to 90% reduction||||.778
82569540|NCT00337285|164848536|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||< 0.0001
82442232|NCT00289198|164593029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.331|||<|0.001|TWO_SIDED|95.0|-0.47|-0.2|||ANCOVA|||Nasal Itching, Placebo vs Fluticasone furoate||-0.20|-0.47|<0.001
82513023|NCT01192152|164718834|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|ratio of geometric least squares means|0.917|||||TWO_SIDED|90.0|0.859|0.98|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a 5-mg saxagliptin tablet plus two 500-mg metformin XR tablets under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided at least 99% power to conclude BE with respect to Cmax and AUC0-inf.||0.980|0.859|
82513024|NCT01192152|164718834|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|1055.9||||||95.0||||||||Geometric least squares means for Treatment B||||
82380141|NCT03743051|164470010|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|1.345|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|0.718|1.971|||ANOVA|||"To declare anamorelin superior to placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change in body weight from baseline over 12 weeks (H0w) and the corresponding alternative hypothesis (H1w) were:~H0w: MWa = MW; H1w: MWa ≠ MWp~Where MWa is the mean change in body weight from baseline over 12 weeks for the anamorelin arm and MWp is the mean change in body weight from baseline over 12 weeks for the placebo arm."||1.971|0.718|<0.0001
82513025|NCT01192152|164718834|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|1151.2||||||95.0||||||||Geometric least squares means for Treatment A||||
82513026|NCT03181542|164718854|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
82513027|NCT03181542|164718855|SUPERIORITY|||||||0.4|||||||Jonckheere-Terpstra Test|||||||0.40
82513028|NCT03181542|164718856|SUPERIORITY|||||||0.9|||||||Jonckheere-Terpstra Test|||||||0.90
82513029|NCT01009099|164718857|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||ANCOVA|Co-variates included in the analysis were time walked on the constant workrate test at baseline and adherence (sessions completed/expected).||The outcomes compared were time walked on the constant workrate treadmill test measured in minutes.||||0.63
82523735|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.0||||0.579|TWO_SIDED|95.0|-64.0|114.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 16||114|-64|0.579
82380142|NCT03743051|164470011|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|0.622|STANDARD_ERROR_OF_MEAN|0.434||0.1514|TWO_SIDED|95.0|-0.228|1.472|||ANOVA|||"To declare anamorelin superior to the placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change from baseline over 12 weeks in patient 5-IASS (H0A) and the corresponding alternative (H1A) were:~H0A: MAa = MAp; H1A: MAa ≠ MAp~Where MAa is the mean change from baseline over 12 weeks in 5-IASS for the anamorelin arm and MAp is the mean change from baseline over 12 weeks in 5-IASS for the placebo arm."||1.472|-0.228|0.1514
82380143|NCT03743051|164470012|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.532|<|0.0001|TWO_SIDED|95.0|1.367|3.453|||ANOVA|||||3.453|1.367|<0.0001
82380144|NCT03743051|164470013|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|1.336|STANDARD_ERROR_OF_MEAN|0.484||0.0057|TWO_SIDED|95.0|0.388|2.284|||ANOVA|||||2.284|0.388|0.0057
82380145|NCT03743051|164470014|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|1.027|STANDARD_ERROR_OF_MEAN|0.403||0.0108|TWO_SIDED|95.0|0.238|1.816|||ANOVA|||||1.816|0.238|0.0108
82380146|NCT03743051|164470015|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.535|STANDARD_ERROR_OF_MEAN|0.475||0.2605|TWO_SIDED|95.0|-0.397|1.466|||ANOVA|||||1.466|-0.397|0.2605
82380147|NCT01422200|164470016|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82380148|NCT01113892|164470025|NON_INFERIORITY|"The non-inferiority margin was 15%. The following null hypothesis (H0) and alternative hypothesis (HA) were tested, with the primary patency rate at 6 months for FUSION Bioline (PF), and the primary patency rate at 6 months for EXXCEL (PE).~H0: PF - PE \< - 0.15; HA: PF - PE \> - 0.15 An exact 1-sided test was used for the observed difference of patency rates between the FUSION Bioline (test) and EXXCEL (control) products."|Mean Difference (Net)|16.4|||<|0.0001|TWO_SIDED|95.0|2.7|29.9||The threshold for significance was p = .05|Exact 1-sided test||Difference = Patency (Fusion Bioline) - Patency (EXXCEL)|It was calculated that 200 participants randomized in a 1:1 fashion would have at least 80% power to detect a difference of 15% in the number of participants with primary patency between FUSION Bioline and EXXCEL groups at 6 months. It was assumed that the ratio of Above-Knee to Below-Knee procedures was 60:40; based on this, the primary patency rate for the combined Above-Knee and Below-Knee patients was 79%. Assumptions included a 10% withdrawal rate prior to the 6-month evaluation.||29.9|2.7|<.0001
82513030|NCT01848990|164718861|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 95% CI for the treatment difference ≤0.40, it is concluded that Hylenex recombinant preadministration is noninferior to standard CSII.|least squares mean treatment difference|0.05||||0.4516|TWO_SIDED|95.0|-0.08|0.18|||ANOVA|Analysis of variance (ANOVA) with treatment (Hylenex, standard rapid-acting insulin CSII) as a fixed effect|Hylenex minus Standard CSII|Sample size calculated based on approximately 400 participants (Pt) being enrolled. No more than 10% dropout rate at 6 months allowed at least 270 Hylenex and 90 standard CSII Pt to reach primary metabolic endpoint evaluation. Assuming HbA1c standard deviation of 0.7% and population difference of 0% between treatments, Pt reaching primary efficacy endpoint would provide \>90% power to demonstrate HbA1c noninferiority at margin of 0.4% using confidence bound from 2-tailed 95% confidence interval.||0.18|-0.08|0.4516
82523203|NCT04274894|164741695|NON_INFERIORITY|"The hypothesis for the primary safety analysis is:~H0: Change in 24-hour average SBP from Baseline to EOT ≥ 3 mmHg Vs. H1: Change in 24-hour average SBP from Baseline to EOT \< 3 mmHg"|LS Mean Change from Baseline to EOT|1.9|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|0.63|3.13||||||The primary endpoint of change from Baseline to End of Treatment (EOT) in average 24-hour SBP was evaluated using a linear regression model with change in average 24-hour SBP from Baseline to EOT as the dependent variable, centralized baseline average 24-hour SBP, ongoing medical history of hypertension, and pooled study center as covariates in the per protocol population.||3.13|0.63|
82380149|NCT01113892|164470026|EQUIVALENCE|Fisher's Exact test was used to evaluate whether subjects with any MALE event or POD were homogeneous across the treatment arms.||||||0.033|ONE_SIDED|95.0|||||Fisher Exact|||The number and percentage of subjects with a MALE or POD event were summarized by treatment group.||||.033
82380150|NCT01113892|164470027|OTHER|||||||0.017|||||||Chi-squared|Proportion of subjects who achieved primary assisted patency for both treatment groups were compared using a Chi-Square test||||||.017
82380151|NCT01113892|164470028|OTHER|||||||0.137|||||||Chi-squared|Proportion of subjects who achieve secondary patency for both treatment groups will be compared using a Chi-Square test||||||.137
82523204|NCT02279043|164741701|SUPERIORITY||Odds Ratio (OR)|0.88||||0.89|TWO_SIDED|95.0|0.16|4.88|||Regression, Logistic|||||4.88|0.16|0.89
82380152|NCT01113892|164470029|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Difference between groups were compared with the Wilcoxon Rank Sum Test||||<.0001
82380153|NCT01113892|164470031|NON_INFERIORITY|"Repeated 6 month analyses for 12 month results.The non-inferiority margin was 15%. The following null hypothesis (H0) and alternative hypothesis (HA) were tested, with the primary patency rate for FUSION Bioline (PF), and the primary patency rate for EXXCEL (PE).~H0: PF - PE \< - 0.15; HA: PF - PE \> - 0.15 An exact 1-sided test was used for the observed difference of patency rates between the FUSION Bioline (test) and EXXCEL (control) products, with a p-value ≤ .05 indicating significance."|Mean Difference (Net)|9.5||||0.0001|TWO_SIDED|95.0|-4.8|23.0|||Exact 1-sided test|||||23.0|-4.8|.0001
82380154|NCT01113892|164470033|OTHER|||||||0.181|||||||Chi-squared|Proportion of subjects who achieve primary assisted patency for both treatment groups will be compared using a Chi-Square test||||||.181
82380155|NCT01113892|164470035|OTHER|||||||0.68|||||||Chi-squared|Proportion of subjects who achieve secondary patency for both treatment groups will be compared using a Chi Square test||||||.68
82380156|NCT02200055|164470056|SUPERIORITY_OR_OTHER|This measurement was collected for each participant. A pre-operative and post-operative bioimpedance measurement was taken.|Mean Difference (Final Values)|0.53|||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
82380157|NCT00776035|164470063|SUPERIORITY||||||<|0.005|||||||Student's t-test|||Average myocardial blood flow, men versus women||||<0.005
82380158|NCT00776035|164470064|SUPERIORITY||||||<|0.05|||||||Student's t-test|||Average myocardial fatty acid utilization, men versus women||||<0.05
82380159|NCT00791778|164470065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.655|TWO_SIDED|95.0|0.72|1.63|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization|Sorafenib compared to Placebo|Sample size based on the primary efficacy endpoint of PFS. Clinically meaningful improvement defined as 65% increase in median PFS. With one-sided alpha of 0.10, power of 90% and a randomization ratio of 1:1 between Sorafenib and Placebo, a total of 105 PFS events were required.||1.63|0.72|0.655
82380160|NCT00791778|164470066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.951|TWO_SIDED|95.0|0.93|2.2|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization|Sorafenib compared to Placebo|||2.20|0.93|0.951
82513031|NCT01848990|164718862|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 95% CI for the treatment difference ≤0.40, it is concluded that Hylenex recombinant preadministration is noninferior to standard CSII.|least squares mean treatment difference|0.14||||0.0711|TWO_SIDED|95.0|-0.01|0.28|||ANOVA|ANOVA with treatment (Hylenex, standard rapid-acting insulin CSII) as a fixed effect|Hylenex minus Standard CSII|Sample size calculated based on approximately 400 Pt being enrolled. No more than 10% dropout rate at 6 months allowed at least 270 Hylenex and 90 standard CSII Pt to reach primary metabolic endpoint evaluation. Assuming HbA1c standard deviation of 0.7% and population difference of 0% between treatments, Pt reaching primary efficacy endpoint would provide \>90% power to demonstrate HbA1c noninferiority at margin of 0.4% using confidence bound from 2-tailed 95% confidence interval.||0.28|-0.01|0.0711
82513032|NCT01848990|164718863|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.69||||0.0105|TWO_SIDED|||||SMBG \<56 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0105
82513033|NCT01848990|164718863|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.79||||0.013|TWO_SIDED|||||SMBG \<=70 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0130
82513034|NCT01848990|164718863|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.78||||0.0511|TWO_SIDED|||||Nocturnal HEs|negative binomial model||Hylenex/Standard CSII|||||0.0511
82380161|NCT00791778|164470067|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.84|TWO_SIDED|95.0|0.69|3.23|||Log Rank|Two treatment groups compared using a log-rank test with one-sided alpha of 0.10 stratified by the same factors as randomization.|Sorafenib compared to Placebo|||3.23|0.69|0.84
82380162|NCT04886596|164470092|OTHER|VE is demonstrated if the lower limit (LL) of the 2-sided confidence interval (CI) for vaccine efficacy (VE) is above 20%.|VE|82.58|||||TWO_SIDED|96.95|57.89|94.08|||Poisson regression method||VE in terms of occurrence of RSV-confirmed LRTD was evaluated using the conditional exact binomial method based on the Poisson model|To demonstrate the vaccine efficacy (VE) efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD during the first season in adults ≥ 60 YOA||94.08|57.89|
82380163|NCT04886596|164470093|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|62.91|||||TWO_SIDED|97.5|46.74|74.79|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over three seasons.||74.79|46.74|
82380164|NCT04886596|164470093|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.18|||||TWO_SIDED|97.5|48.19|80.04|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over two seasons.||80.04|48.19|
82513035|NCT01848990|164718863|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.34||||0.1176|TWO_SIDED|||||Severe HEs|negative binomial model||Hylenex/Standard CSII|||||0.1176
82513036|NCT01848990|164718864|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.81||||0.0456|TWO_SIDED|||||SMBG \<56 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.0456
82513037|NCT01848990|164718864|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.92||||0.2322|TWO_SIDED|||||SMBG \<=70 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.2322
82569541|NCT03214250|164848541|SUPERIORITY|One-sided|probability|0.577||||0.006|ONE_SIDED|95.0|0.417|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.417|0.006
82380165|NCT04886596|164470094|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.76|||||TWO_SIDED|97.5|51.82|79.11|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine followed by 1 annual revaccination before Season 2 in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over three seasons.||79.11|51.82|
82380166|NCT04886596|164470094|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 20%.|VE|67.12|||||TWO_SIDED|97.5|48.09|80.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine followed by 1 annual revaccination before Season 2 in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over two seasons.||80.00|48.09|
82442233|NCT00289198|164593029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.52|-0.27|||ANCOVA|||Sneezing score, Placebo vs Fluticasone furoate||-0.27|-0.52|<0.001
82513038|NCT01848990|164718864|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.87||||0.1365|TWO_SIDED|||||Nocturnal HEs|negative binomial model||Hylenex/Standard CSII|||||0.1365
82380167|NCT04886596|164470095|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|69.83|||||TWO_SIDED|97.5|42.18|85.72|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype A in adults ≥ 60 YOA over 3 seasons.||85.72|42.18|
82380168|NCT04886596|164470095|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|58.57|||||TWO_SIDED|97.5|35.9|74.11|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype B in adults ≥ 60 YOA over 3 seasons.||74.11|35.90|
82380169|NCT04886596|164470096|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|55.12|||||TWO_SIDED|97.5|16.52|77.52|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose and 1 annual revaccination before Season 2 of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype A in adults ≥ 60 YOA over 3 seasons.||77.52|16.52|
82380170|NCT04886596|164470096|OTHER|VE is demonstrated if the LL of the 2-sided CI for VE is above 0%.|VE|73.58|||||TWO_SIDED|97.5|55.1|85.4|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To demonstrate the vaccine efficacy of a single dose and 1 annual revaccination before Season 2 of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD for RSV subtype B in adults ≥ 60 YOA over 3 seasons.||85.40|55.10|
82513039|NCT01848990|164718864|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.07||||0.8909|TWO_SIDED|||||Severe HEs|negative binomial model||Hylenex/Standard CSII|||||0.8909
82380171|NCT04886596|164470097|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|18.41|||||TWO_SIDED|95.0|-19.1|44.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season)|To evaluate vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hMPV-confirmed LRTD in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine up to the end of Season 1.||44.33|-19.10|
82380172|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.78|||||TWO_SIDED|95.0|40.73|71.96|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=65YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.96|40.73|
82380173|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|65.98|||||TWO_SIDED|95.0|44.32|80.16|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=70YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||80.16|44.32|
82380174|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|36.24|||||TWO_SIDED|95.0|-93.99|82.47|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=80YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||82.47|-93.99|
82380175|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|66.56|||||TWO_SIDED|95.0|49.33|78.64|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=65YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.64|49.33|
82442234|NCT00289198|164593030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357||||0.001|TWO_SIDED|95.0|-0.5|-0.22|||ANCOVA|||Rhinorrhea score, Placebo versus fluticasone furoate||-0.22|-0.50|0.001
82513040|NCT01848990|164718865|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.98||||0.7292|TWO_SIDED|||||SMBG \>240 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.7292
82513041|NCT01848990|164718865|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|0.95||||0.5895|TWO_SIDED|||||SMBG \>300 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.5895
82523205|NCT02279043|164741702|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
82523206|NCT02279043|164741703|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82523207|NCT02279043|164741703|SUPERIORITY||Slope|0.59||||0.02|TWO_SIDED|95.0|0.08|1.11|||Regression, Linear|||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||1.11|0.08|0.02
82523208|NCT02279043|164741704|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82523209|NCT02279043|164741705|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82513042|NCT01848990|164718866|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.04||||0.5414|TWO_SIDED|||||SMBG \>240 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.5414
82513043|NCT01848990|164718866|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|rate ratio|1.03||||0.711|TWO_SIDED|||||SMBG \>300 mg/dL|negative binomial model||Hylenex/Standard CSII|||||0.7110
82380176|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.25|||||TWO_SIDED|95.0|40.49|79.55|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=70YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine at end of season 3.||79.55|40.49|
82442235|NCT00289198|164593030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.001|TWO_SIDED|95.0|-0.51|-0.23|||ANCOVA|||Nasal Congestion score, Placebo versus fluticasone furoate||-0.23|-0.51|0.001
82513044|NCT01848990|164718867|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-3.4||||0.5394|TWO_SIDED|95.0|-14.2|7.5||Breakfast|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.5|-14.2|0.5394
82513045|NCT01848990|164718867|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|4.3||||0.4151|TWO_SIDED|95.0|-6.1|14.8||Lunch|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||14.8|-6.1|0.4151
82513046|NCT01848990|164718867|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.993|TWO_SIDED|95.0|-9.5|9.6||Dinner|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||9.6|-9.5|0.9930
82523210|NCT02279043|164741706|SUPERIORITY||Odds Ratio (OR)|1.29||||0.34|TWO_SIDED|95.0|0.75|2.2|||Regression, Logistic|||||2.20|0.75|0.34
82380177|NCT04886596|164470098|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|32.81|||||TWO_SIDED|95.0|-108.42|81.73|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by \>=80YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine at end of season 3.||81.73|-108.42|
82380178|NCT04886596|164470099|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|80.64|||||TWO_SIDED|95.0|55.9|92.73|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 1 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||92.73|55.90|
82380179|NCT04886596|164470099|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.39|||||TWO_SIDED|95.0|36.44|77.7|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 2 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||77.70|36.44|
82380180|NCT04886596|164470099|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|47.15|||||TWO_SIDED|95.0|7.06|71.59|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 3 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.59|7.06|
82513047|NCT01848990|164718867|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.2||||0.941|TWO_SIDED|95.0|-6.4|6.9||Overall|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.9|-6.4|0.9410
82513048|NCT01848990|164718868|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-4.8||||0.3239|TWO_SIDED|95.0|-14.3|4.7||Breakfast|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||4.7|-14.3|0.3239
82513049|NCT01848990|164718868|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.4||||0.754|TWO_SIDED|95.0|-7.4|10.2||Lunch|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||10.2|-7.4|0.7540
82380181|NCT04886596|164470099|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|54.92|||||TWO_SIDED|95.0|27.85|72.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 2 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||72.98|27.85|
82380182|NCT04886596|164470099|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.51|||||TWO_SIDED|95.0|22.35|88.79|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over season 3 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.79|22.35|
82380183|NCT04886596|164470100|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.86|||||TWO_SIDED|95.0|57.62|90.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 1 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||90.48|57.62|
82442236|NCT00289198|164593030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.372||||0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Nasal itching score, Placebo versus fluticasone furoate||-0.24|-0.50|0.001
82442237|NCT00289198|164593030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.372||||0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Sneezing score, Placebo versus fluticasone furoate||-0.24|-0.50|0.001
82513050|NCT01848990|164718868|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.1||||0.7904|TWO_SIDED|95.0|-9.5|7.2||Dinner|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.2|-9.5|0.7904
82513051|NCT01848990|164718868|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.6||||0.4016|TWO_SIDED|95.0|-8.5|3.4||Overall|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||3.4|-8.5|0.4016
82513052|NCT01848990|164718869|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.4||||0.526|TWO_SIDED|95.0|-5.6|2.9|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.9|-5.6|0.5260
82513053|NCT01848990|164718870|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.5||||0.8049|TWO_SIDED|95.0|-3.7|4.7|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||4.7|-3.7|0.8049
82634083|NCT01432236|164984225|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.81||||0.0018|TWO_SIDED|95.0|-12.66|-2.96||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-2.96|-12.66|0.0018
82634084|NCT01432236|164984226|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8||||0.0117|TWO_SIDED|95.0|-10.29|-1.31||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors||-1.31|-10.29|0.0117
82442238|NCT00289198|164593031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.281||||0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Rhinorrhea score,Placebo versus fluticasone furoate||-0.14|-0.42|0.001
82513054|NCT01848990|164718871|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%||||||0.8955||||||HbA1c \<7.0%|Chi-squared|||||||0.8955
82380184|NCT04886596|164470100|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.59|||||TWO_SIDED|95.0|34.0|75.1|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 2 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||75.10|34.00|
82513055|NCT01848990|164718871|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%||||||0.8926||||||HbA1c ≤6.5%|Chi-squared|||||||0.8926
82513056|NCT01848990|164718872|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.13||||0.7735|TWO_SIDED|95.0|-0.76|1.03|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.03|-0.76|0.7735
82513057|NCT01848990|164718873|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-1.1||||0.4948|TWO_SIDED|95.0|-4.1|2.0||Daily bolus dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.0|-4.1|0.4948
82513058|NCT01848990|164718873|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.3||||0.1099|TWO_SIDED|95.0|-0.5|5.2||Daily basal dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||5.2|-0.5|0.1099
82523211|NCT02279043|164741707|SUPERIORITY||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.49|2.05|||Regression, Logistic|||||2.05|0.49|0.99
82513059|NCT01848990|164718873|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.4||||0.583|TWO_SIDED|95.0|-3.7|6.6||Daily total dose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.6|-3.7|0.5830
82513060|NCT01848990|164718874|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.8778|TWO_SIDED|95.0|-1.0|1.1|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.1|-1.0|0.8778
82513061|NCT01848990|164718875|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.1||||0.3233|TWO_SIDED|95.0|-6.3|2.1|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.1|-6.3|0.3233
82442239|NCT00289198|164593031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.314||||0.001|TWO_SIDED|95.0|-0.45|-0.17|||ANCOVA|||Nasal Congestion score, Placebo versus fluticasone furoate||-0.17|-0.45|0.001
82513062|NCT01848990|164718877|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.0||||0.7708|TWO_SIDED|95.0|-5.8|7.8||Average glucose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7.8|-5.8|0.7708
82513063|NCT01848990|164718877|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|1.8||||0.6058|TWO_SIDED|95.0|-5.0|8.6||Median glucose|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||8.6|-5.0|0.6058
82513064|NCT01848990|164718877|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.7||||0.6571|TWO_SIDED|95.0|-4.0|2.5||Average daily standard deviation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||2.5|-4.0|0.6571
82442240|NCT00289198|164593031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.324||||0.001|TWO_SIDED|95.0|-0.45|-0.19|||ANCOVA|||Nasal itching score, Placebo versus fluticasone furoate||-0.19|-0.45|0.001
82380185|NCT04886596|164470100|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|47.91|||||TWO_SIDED|95.0|8.51|71.97|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 3 in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||71.97|8.51|
82380186|NCT04886596|164470100|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.33|||||TWO_SIDED|95.0|33.59|74.94|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 2 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||74.94|33.59|
82380187|NCT04886596|164470100|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|68.4|||||TWO_SIDED|95.0|24.64|89.08|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, and region).|To evaluate the efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD over Year 3 in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||89.08|24.64|
82380188|NCT04886596|164470101|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.75|||||TWO_SIDED|95.0|57.95|89.26|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of a single dose of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 1.||89.26|57.95|
82380189|NCT04886596|164470101|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.63|||||TWO_SIDED|95.0|52.47|77.95|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 2, following a single dose of the RSVPreF3 OA investigational vaccine.||77.95|52.47|
82442241|NCT00289198|164593031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.374||||0.001|TWO_SIDED|95.0|-0.5|-0.25|||ANCOVA|||Sneezing score, Placebo versus fluticasone furoate||-0.25|-0.50|0.001
82442242|NCT00289198|164593032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.292|||<|0.001||95.0|-0.43|-0.15|||ANCOVA|||Rhinorrhea score, Placebo vs Fluticasone furoate||-0.15|-0.43|<0.001
82513065|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-2.2||||0.6252|TWO_SIDED|95.0|-11.3|6.9||Time per day \<56 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||6.9|-11.3|0.6252
82380190|NCT04886596|164470101|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.87|||||TWO_SIDED|95.0|46.76|74.11|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 3, following a single dose of the RSVPreF3 OA investigational vaccine.||74.11|46.76|
82513066|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-5.5||||0.5929|TWO_SIDED|95.0|-25.9|14.9||Time per day ≤70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||14.9|-25.9|0.5929
82634085|NCT01432236|164984227|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.35||||0.0511|TWO_SIDED|95.0|-0.04|16.74||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||16.74|-0.04|0.0511
82634086|NCT01432236|164984228|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13||||0.1139|TWO_SIDED|95.0|-0.29|0.03||This was done using a two-sided test with α=0.05. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors. Analyzed as a count variable using a generalized linear model assuming a Poisson distribution and utilizing a log link transformation.||0.03|-0.29|0.1139
82634087|NCT01432236|164984230|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.5||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analysis presented in the above table is for HADS-A (anxiety). Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||-0.50|-1.40|<0.0001
82634088|NCT01432236|164984230|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.88||||0.0005|TWO_SIDED|95.0|-1.37|-0.39||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analysis presented in the above table is for HADS-D (depression). Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and subject within sequence and within-subject error as random factors.||-0.39|-1.37|0.0005
82634089|NCT01432236|164984232|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.3854|TWO_SIDED|95.0|-0.02|0.06||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||0.06|-0.02|0.3854
82634090|NCT01432236|164984234|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55||||0.0085|TWO_SIDED|95.0|0.14|0.97||Two-sided test with α=0.05 was used. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Mixed Models Analysis|||Analyzed using a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within-participant error as random factors.||0.97|0.14|0.0085
82634091|NCT05064449|164984240|OTHER||Geometric Mean Ratio (%)|116.59|||||TWO_SIDED|90.0|91.3|148.9|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90 percent (%) confidence intervals (CIs) for the geometric mean ratio (GMR) of Cmax for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed Cmax.||148.90|91.30|
82634092|NCT05064449|164984241|OTHER||Geometric Mean Ratio (%)|107.31|||||TWO_SIDED|90.0|88.02|130.83|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of Cmax for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed Cmax.||130.83|88.02|
82634093|NCT05064449|164984242|OTHER||Geometric Mean Ratio (%)|123.96|||||TWO_SIDED|90.0|106.21|144.68|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUC∞ for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.||144.68|106.21|
82380191|NCT04886596|164470101|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.49|||||TWO_SIDED|95.0|52.27|77.86|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 2, following annual revaccination of the RSVPreF3 OA investigational vaccine.||77.86|52.27|
82442243|NCT00289198|164593032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.264|||<|0.001|TWO_SIDED|95.0|-0.4|-0.12|||ANCOVA|||Nasal Congestion score, Placebo vs Fluticasone furoate||-0.12|-0.40|<0.001
82513067|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|6.9||||0.5207|TWO_SIDED|95.0|-14.4|28.3||Time per day \>70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||28.3|-14.4|0.5207
82513068|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-23.3||||0.4754|TWO_SIDED|95.0|-87.8|41.2||Time per day \<140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||41.2|-87.8|0.4754
82513069|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|23.9||||0.4644|TWO_SIDED|95.0|-40.7|88.6||Time per day ≥140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||88.6|-40.7|0.4644
82569542|NCT03214250|164848541|SUPERIORITY|One-sided|probability|0.481||||0.062|ONE_SIDED|95.0|0.337|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.337|0.062
82380192|NCT04886596|164470101|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.66|||||TWO_SIDED|95.0|51.71|78.34|||Regression, Cox||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (%) = Vaccine Efficacy (Piecewise Cox model with time-varying efficacy - adjusted by age and region).|To evaluate the evolution of efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA over Season 3, following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.34|51.71|
82442244|NCT00289198|164593032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.336|||<|0.001|TWO_SIDED|95.0|-0.48|-0.2|||ANCOVA|||Nasal Itching score, Placebo vs Fluticasone furoate||-0.20|-0.48|<0.001
82569543|NCT03214250|164848541|SUPERIORITY|One-sided|probability|0.413||||0.233|ONE_SIDED|95.0|0.27|||one-sided p-value|z-test|One-sided, one-sample z-test of the Kaplan-Meier estimate of the 1-year OS rate (and its standard error) against the historical rate of 35%||Each treatment arm was analyzed independently and compared to a historical 1-year OS reference rate of 35%.|||0.270|0.233
82569544|NCT01376050|164848553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
82569545|NCT01376050|164848554|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
82569546|NCT05694533|164848555|OTHER|Descriptive only.|Geometric Mean Ratio|0.84|||||TWO_SIDED|90.0|0.76|0.92||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.92|0.76|
82569547|NCT05694533|164848555|OTHER|Descriptive only.|Geometric Mean Ratio|0.8|||||TWO_SIDED|90.0|0.69|0.93||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.93|0.69|
82569548|NCT05694533|164848556|OTHER|Descriptive only.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.78|0.92||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.92|0.78|
82569549|NCT05694533|164848556|OTHER|Descriptive only.|Geometric Mean Ratio|0.81|||||TWO_SIDED|90.0|0.74|0.89||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.89|0.74|
82569550|NCT05694533|164848557|OTHER|Descriptive only.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.78|0.91||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between Midazolam on Day 15 and Midazolam on Day 1.||0.91|0.78|
82569551|NCT05694533|164848557|OTHER|Descriptive only.|Geometric Mean Ratio|0.87|||||TWO_SIDED|90.0|0.78|0.97||||A random effects model was used to calculate the confidence interval.|Day 15/Day 1|The comparison is between 1-hydroxymidazolam on Day 15 and 1-hydroxymidazolam on Day 1.||0.97|0.78|
82513070|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.8||||0.9232|TWO_SIDED|95.0|-54.2|59.8||Time per day outside of 71 to 180 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||59.8|-54.2|0.9232
82380193|NCT04886596|164470102|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|66.49|||||TWO_SIDED|95.0|47.54|79.4|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with low/medium risk (Charlson Comorbidity Index), following a single dose of the RSVPreF3 OA investigational vaccine.||79.40|47.54|
82442245|NCT00289198|164593032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.412|||<|0.001|TWO_SIDED|95.0|-0.54|-0.28|||ANCOVA|||Sneezing score, Placebo vs Fluticasone furoate||-0.28|-0.54|<0.001
82513071|NCT01848990|164718878|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|18.4||||0.5151|TWO_SIDED|95.0|-37.5|74.4||Time per day outside of 71 to 139 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||74.4|-37.5|0.5151
82513072|NCT01848990|164718879|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-33.5||||0.4216|TWO_SIDED|95.0|-115.9|48.9||Area per day \<56 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||48.9|-115.9|0.4216
82442246|NCT00289198|164593033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.506||||0.004|TWO_SIDED|95.0|-0.85|-0.16|||ANCOVA|||||-0.16|-0.85|0.004
82513073|NCT01848990|164718879|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-84.7||||0.5697|TWO_SIDED|95.0|-379.2|209.8||Area per day ≤70 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||209.8|-379.2|0.5697
82513074|NCT01848990|164718879|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|342.9||||0.9241|TWO_SIDED|95.0|-6772.3|7458.2||Area per day ≥140 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||7458.2|-6772.3|0.9241
82523212|NCT02279043|164741708|SUPERIORITY||Odds Ratio (OR)|1.48||||0.08|TWO_SIDED|95.0|0.95|2.29|||Regression, Logistic|||||2.29|0.95|0.08
82523213|NCT02279043|164741709|SUPERIORITY||Odds Ratio (OR)|1.63||||0.03|TWO_SIDED|95.0|1.05|2.58|||Regression, Logistic|||||2.58|1.05|0.03
82442247|NCT00289198|164593034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.491||||0.007||95.0|-0.85|-0.13|||ANCOVA|||||-0.13|-0.85|0.007
82513075|NCT01848990|164718879|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|2.8||||0.9232|TWO_SIDED|95.0|-54.2|59.8||Area per day outside of 71 to 180 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||59.8|-54.2|0.9232
82513076|NCT01848990|164718879|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|Mean Difference (Final Values)|258.2||||0.9423|TWO_SIDED|95.0|-6792.2|7308.7||Area per day outside of 71 to 139 mg/dL|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Least squares mean treatment difference (Hylenex minus Standard CSII)|||7308.7|-6792.2|0.9423
82380194|NCT04886596|164470102|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.88|||||TWO_SIDED|95.0|34.81|74.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with high risk (Charlson Comorbidity Index), following a single dose of the RSVPreF3 OA investigational vaccine.||74.98|34.81|
82513077|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.5246|TWO_SIDED|95.0|-0.7|0.4||Leisure activities|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.4|-0.7|0.5246
82513078|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.1||||0.638|TWO_SIDED|95.0|-0.8|0.5||Work life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.8|0.6380
82634094|NCT05064449|164984243|OTHER||Geometric Mean Ratio (%)|100.57|||||TWO_SIDED|90.0|86.17|117.38|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUC∞ for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.||117.38|86.17|
82442248|NCT00289198|164593035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.531||||0.003|TWO_SIDED|95.0|-0.88|-0.19|||ANCOVA|||||-0.19|-0.88|0.003
82513079|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.5719|TWO_SIDED|95.0|-0.7|0.4||Local or long distance travel|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.4|-0.7|0.5719
82513080|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.2||||0.4052|TWO_SIDED|95.0|-0.8|0.3||Vacations|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.8|0.4052
82513081|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.724|TWO_SIDED|95.0|-0.4|0.6||Do physically|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.7240
82513082|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6876|TWO_SIDED|95.0|-0.4|0.6||Family life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6876
82513083|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6478|TWO_SIDED|95.0|-0.4|0.6||Friendships and social life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6478
82442249|NCT00289198|164593036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.496||||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||||-0.15|-0.84|0.005
82569552|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.93|||||TWO_SIDED|95.0|0.64|1.36|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Any of the 4 Serotypes||1.36|0.64|
82569553|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.96|||||TWO_SIDED|95.0|0.44|2.21|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 1||2.21|0.44|
82569554|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.326|||||TWO_SIDED|95.0|0.64|2.94|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 2||2.94|0.64|
82569555|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 3 between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.056|||||TWO_SIDED|95.0|0.48|2.51|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 3||2.51|0.48|
82569556|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.629|||||TWO_SIDED|95.0|0.27|1.47|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Serotype 4||1.47|0.27|
82442250|NCT00289198|164593037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.216||||0.001|TWO_SIDED|95.0|-0.34|-0.09|||ANCOVA|||Eye itching/burning score, Placebo vs fluticasone furoate||-0.09|-0.34|0.001
82513084|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.9744|TWO_SIDED|95.0|-0.6|0.6||Close personal relationship|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.6|0.9744
82513085|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.3177|TWO_SIDED|95.0|-0.3|0.8||Sex life|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.8|-0.3|0.3177
82513086|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.2087|TWO_SIDED|95.0|-0.2|0.7||Physical appearance|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.7|-0.2|0.2087
82513087|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.7907|TWO_SIDED|95.0|-0.4|0.5||Self-confidence|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.4|0.7907
82569557|NCT01983553|164848563|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|1.22|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative risk; Unserotyped||1.22|0.00|
82380195|NCT04886596|164470102|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|72.55|||||TWO_SIDED|95.0|54.34|84.37|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with low/medium risk (Charlson Comorbidity Index), following annual revaccination of the RSVPreF3 OA investigational vaccine.||84.37|54.34|
82380196|NCT04886596|164470102|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.99|||||TWO_SIDED|95.0|37.17|78.01|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA by baseline comorbidities with high risk (Charlson Comorbidity Index), following annual revaccination of the RSVPreF3 OA investigational vaccine.||78.01|37.17|
82380197|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.48|||||TWO_SIDED|95.0|38.62|76.74|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with no pre-existing comorbidity of interest, following a single dose of the RSVPreF3 OA investigational vaccine.||76.74|38.62|
82380198|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.73|||||TWO_SIDED|95.0|45.1|78.14|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing comorbidity of interest, following a single dose of the RSVPreF3 OA investigational vaccine.||78.14|45.10|
82380199|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|68.14|||||TWO_SIDED|95.0|45.71|82.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing cardiorespiratory condition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.33|45.71|
82380200|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|63.88|||||TWO_SIDED|95.0|31.35|82.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing endocrinometabolic condition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.48|31.35|
82380201|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.16|||||TWO_SIDED|95.0|41.08|79.17|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with no pre-existing comorbidity of interest, following annual revaccination of the RSVPreF3 OA investigational vaccine.||79.17|41.08|
82634095|NCT05064449|164984244|OTHER||Geometric Mean Ratio (%)|121.97|||||TWO_SIDED|90.0|103.47|143.79|||||GMR (%) was calculated as 100\*(Soticlestat + Itraconazole / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUClast for soticlestat with versus without itraconazole were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.||143.79|103.47|
82634096|NCT05064449|164984245|OTHER||Geometric Mean Ratio (%)|107.38|||||TWO_SIDED|90.0|91.68|125.77|||||GMR (%) was calculated as 100\*(Soticlestat + Mefenamic Acid / Soticlestat Alone).|Linear mixed-effects model was used for analysis, using fixed-effect (treatment), random-effect (participants). The point estimates and the 90% CIs for the GMR of AUClast for soticlestat with versus without mefenamic acid were calculated by exponentiation of the point estimates of the differences between treatments and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.||125.77|91.68|
82380202|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|71.19|||||TWO_SIDED|95.0|51.92|83.65|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing comorbidity of interest, following annual revaccination of the RSVPreF3 OA investigational vaccine.||83.65|51.92|
82442251|NCT00289198|164593037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.137||||0.028|TWO_SIDED|95.0|-0.26|-0.02|||ANCOVA|||Eye tearing/watering score, Placebo vs fluticasone furoate||-0.02|-0.26|0.028
82442252|NCT00289198|164593037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.156||||0.01|TWO_SIDED|95.0|-0.27|-0.04|||ANCOVA|||Eye redness, Placebo vs fluticasone furoate||-0.04|-0.27|0.010
82442253|NCT00289198|164593038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215||||0.002|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Eye itching/burning score, Placebo vs fluticasone furoate||-0.08|-0.35|0.002
82380203|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|75.94|||||TWO_SIDED|95.0|54.11|88.54|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing cardiorespiratory condition,following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.54|54.11|
82513088|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.3||||0.3444|TWO_SIDED|95.0|-0.8|0.3||Motivation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.8|0.3444
82442254|NCT00289198|164593038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.161||||0.016||95.0|-0.29|-0.03|||ANCOVA|||Eye tearing or watering, Placebo vs fluticasone furoate||-0.03|-0.29|0.016
82442255|NCT00289198|164593038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113||||0.076|TWO_SIDED|95.0|-0.24|-0.01|||ANCOVA|||Eye redness score, Placebo vs fluticasone furoate||-0.01|-0.24|0.076
82513089|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.2||||0.2175|TWO_SIDED|95.0|-0.1|0.6||The way people in general react|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.1|0.2175
82513090|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.4||||0.2062|TWO_SIDED|95.0|-1.0|0.2||Feelings about the future|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.2|-1.0|0.2062
82513091|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.8762|TWO_SIDED|95.0|-0.5|0.6||Financial situation|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.5|0.8762
82513092|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.89|TWO_SIDED|95.0|-0.5|0.5||Living situation and conditions|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.5|-0.5|0.8900
82513093|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|-0.5||||0.1367|TWO_SIDED|95.0|-1.1|0.2||Depend on others|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.2|-1.1|0.1367
82513094|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.3||||0.3144|TWO_SIDED|95.0|-0.3|0.9||Freedom to eat|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.9|-0.3|0.3144
82513095|NCT01848990|164718880|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.6869|TWO_SIDED|95.0|-0.4|0.6||Freedom to drink|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.6|-0.4|0.6869
82513096|NCT01848990|164718881|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.9901|TWO_SIDED|95.0|-0.3|0.3|||ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||0.3|-0.3|0.9901
82513097|NCT01848990|164718882|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.1||||0.9081|TWO_SIDED|95.0|-1.1|1.3||DTSQs|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.3|-1.1|0.9081
82513098|NCT01848990|164718882|NON_INFERIORITY|prespecific non-inferiority margin of 0.4%|least squares mean treatment difference|0.0||||0.984|TWO_SIDED|95.0|-1.5|1.6||DTSQc|ANOVA|ANOVA with treatment (Hylenex, Standard CSII) as a fixed effect|Hylenex minus Standard CSII|||1.6|-1.5|0.9840
82513099|NCT03851016|164718919|SUPERIORITY|||||||0.113|||||||Mancova|||"Null hypothesis is that there would be no difference in change of depressive symptoms between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the GDS-12R at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in depressive symptoms."||||.113
82513100|NCT03851016|164718920|SUPERIORITY|||||||0.123|||||||Mancova|||"Null hypothesis is that there would be no difference in change of Presence of Meaning (POM) between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the POM at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in POM."||||.123
82513101|NCT03851016|164718921|SUPERIORITY|||||||0.91|||||||Mancova|||"The null hypothesis is that there would be no difference in change of Search for Meaning (SFM) between Life Story Book Intervention and Usual Care. A multivariate analysis of covariance (MANCOVA) models with the SFM at baseline as the covariate, and the treatment group and study site as factors. The test was performed with a significance level of 0.05.~A sample size of 20 was needed to provide 90% power to detect a 5 point difference in SFM."||||.910
82513102|NCT00853658|164718923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.1724|TWO_SIDED|95.0|0.85|1.03|||Regression, Cox|||(superiority)||1.03|0.85|0.1724
82513103|NCT00853658|164718923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.4579|TWO_SIDED|95.0|0.85|1.07|||Regression, Cox|||(superiority) Non-Diabetic patients||1.07|0.85|0.4579
82513104|NCT00853658|164718923|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified Non-inferiority margin 1.104 is used.|Hazard Ratio (HR)|0.99||||0.0368|TWO_SIDED|95.0|0.9|1.1|||Regression, Cox|||||1.10|0.90|0.0368
82380204|NCT04886596|164470103|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|69.85|||||TWO_SIDED|95.0|37.51|87.05|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD in adults ≥ 60 YOA with at least 1 pre-existing endocrinometabolic condition, following annual revaccination of the RSVPreF3 OA investigational vaccine.||87.05|37.51|
82513105|NCT00853658|164718923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9118|TWO_SIDED|95.0|0.9|1.1|||Regression, Cox|||(superiority)||1.10|0.90|0.9118
82442256|NCT00289198|164593039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.211||||0.001|TWO_SIDED|95.0|-0.34|-0.08|||ANCOVA|||Eye itching/burning score, Placebo vs Fluticasone furoate||-0.08|-0.34|0.001
82513106|NCT01227512|164718939|SUPERIORITY_OR_OTHER|||||||0.9495||||||The alpha level was set at 0.05|Generalized Wilcoxon Test|Participants who used rescue therapy within first 7 days of treatment period were censored at time they started the rescue therapy.||||||0.9495
82513107|NCT01227512|164718940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.146||95.0|-0.7|0.11||alpha level was set at 0.05. p-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.|ANCOVA|Includes factors of treatment, study center and covariate baseline.||||0.11|-0.70|0.1460
82513108|NCT01227512|164718941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.315||95.0|-0.57|0.19|||ANCOVA|P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.||P value corresponds to 24 hours post-dose.||0.19|-0.57|0.3150
82513109|NCT01227512|164718941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.5381||95.0|-0.57|0.3|||ANCOVA|P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.||P value corresponds to 72 hours post-dose.||0.30|-0.57|0.5381
82513110|NCT01227512|164718942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.2702||95.0|-0.73|0.21||P-value was derived from a Cochran-Mantel-Haenszel (CMH) row mean scores test.|Cochran-Mantel-Haenszel|||||0.21|-0.73|0.2702
82513111|NCT01227512|164718943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.77||||0.0019||95.0|1.43|6.11||P-value was derived from an ANCOVA model with treatment and clinical center as factors and baseline value as covariate.|ANCOVA|||||6.11|1.43|0.0019
82380205|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-153.57|||||TWO_SIDED|95.0|-16322.97|88.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (frail) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||88.00|-16322.97|
82380206|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|70.07|||||TWO_SIDED|95.0|43.89|85.33|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (pre-frail) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||85.33|43.89|
82513112|NCT01227512|164718944|SUPERIORITY_OR_OTHER|||||||0.5128||||||p-value was derived from Generalized Wilcoxon test stratified by treatment. Participants who received rescue therapy were censored at the time of receiving rescue therapy.|Generalized Wilcoxon Test|||||||0.5128
82513113|NCT01227512|164718945|SUPERIORITY_OR_OTHER||Relative Risk|1.1||||0.5795||95.0|0.79|1.52||P-value was derived using a CMH test stratified by hyponatremia symptoms severity.|Cochran-Mantel-Haenszel|||||1.52|0.79|0.5795
82380207|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|61.04|||||TWO_SIDED|95.0|42.89|74.08|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (fit) in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||74.08|42.89|
82442257|NCT00289198|164593039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145||||0.023|TWO_SIDED|95.0|-0.27|-0.02|||ANCOVA|||Eye tearing/watering, Placebo vs Fluticasone furoate||-0.02|-0.27|0.023
82513114|NCT01227512|164718946|SUPERIORITY_OR_OTHER||Relative Risk|0.33||||0.1568||95.0|0.07|1.65||p-value was derived using a CMH test stratified by hyponatremia symptoms severity.|Cochran-Mantel-Haenszel|||||1.65|0.07|0.1568
82513115|NCT01312766|164718987|NON_INFERIORITY_OR_EQUIVALENCE|The one-way Analysis of Variance with Least-Squares means was performed to calculate the 95% Confidence Interval of the difference between the two treatments. If the lower bound of the 95% Confidence Interval of the difference between means (hMG-IBSA minus Menopur®) was greater than -2.1, then hMG-IBSA would be considered to be not-inferior to the comparator.|Mean Difference (Final Values)|1.9||||0.012|TWO_SIDED|95.0|0.43|3.43|||ANOVA|||||3.43|0.43|0.012
82513116|NCT01312766|164718988|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
82513117|NCT01312766|164718990|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Fisher Exact|||||||0.90
82513118|NCT01312766|164718991|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
82513119|NCT01312766|164718994|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||||||0.61
82513120|NCT01312766|164718995|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
82513121|NCT01312766|164718996|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
82513122|NCT01312766|164718997|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82513123|NCT01312766|164718998|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||ANOVA|||||||0.04
82513124|NCT01312766|164718999|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Fisher Exact|||||||0.61
82513125|NCT02391948|164719143|OTHER||mean population value age 12|98.3|||||TWO_SIDED|95.0|97.8|98.6||||||||98.6|97.8|
82634097|NCT05064449|164984246|OTHER||Median Difference (Final Values)|0.003|||=|0.2305|TWO_SIDED|90.0|-0.001|0.126|||Wilcoxon Signed Rank Test||Difference was calculated as (Soticlestat + Itraconazole) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% CI was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.126|-0.001|=0.2305
82513126|NCT02391948|164719143|OTHER||mean population value age 12|89.1|||||TWO_SIDED|95.0|86.6|91.1||||||||91.1|86.6|
82513127|NCT02391948|164719143|OTHER||mean population value age 12|50.1|||||TWO_SIDED|95.0|46.5|53.6||||||||53.6|46.5|
82513128|NCT02391948|164719143|OTHER||mean population value age 12|25.3|||||TWO_SIDED|95.0|23.7|27.0||||||||27.0|23.7|
82513129|NCT02391948|164719143|OTHER||mean population value age 12|6.48|||||TWO_SIDED|95.0|5.66|7.38||||||||7.38|5.66|
82513130|NCT02391948|164719144|OTHER||mean population value age 12|0.44|||||TWO_SIDED|95.0|0.38|0.49||||||||0.49|0.38|
82513131|NCT02391948|164719144|OTHER||mean population value age 12|0.68|||||TWO_SIDED|95.0|0.6|0.77||||||||0.77|0.60|
82513132|NCT02391948|164719144|OTHER||mean population value age 12|0.93|||||TWO_SIDED|95.0|0.79|1.07||||||||1.07|0.79|
82513133|NCT02391948|164719144|OTHER||mean population value age 12|1.38|||||TWO_SIDED|95.0|1.22|1.54||||||||1.54|1.22|
82513134|NCT02391948|164719144|OTHER||mean population value age 12|2.16|||||TWO_SIDED|95.0|2.01|2.31||||||||2.31|2.01|
82513135|NCT02391948|164719145|OTHER||mean population value|4.49|||||TWO_SIDED|95.0|4.43|4.54||||||||4.54|4.43|
82513136|NCT02391948|164719145|OTHER||mean population value|4.1|||||TWO_SIDED|95.0|3.99|4.2||||||||4.20|3.99|
82513137|NCT02391948|164719145|OTHER||mean population value|3.99|||||TWO_SIDED|95.0|3.75|4.25||||||||4.25|3.75|
82513138|NCT02391948|164719145|OTHER||mean population value|2.95|||||TWO_SIDED|95.0|2.73|3.19||||||||3.19|2.73|
82513139|NCT02391948|164719145|OTHER||mean population value|1.59|||||TWO_SIDED|95.0|1.44|1.75||||||||1.75|1.44|
82513140|NCT02391948|164719146|OTHER||mean population value|1362.3|||||TWO_SIDED|95.0|1313.6|1410.7||||||||1410.7|1313.6|
82513141|NCT02391948|164719146|OTHER||mean population value|1096.33|||||TWO_SIDED|95.0|1028.8|1158.62||||||||1158.62|1028.80|
82442258|NCT00289198|164593039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176||||0.005|TWO_SIDED|95.0|-0.3|-0.05|||ANCOVA|||Eye Redness score, Placebo vs Fluticasone furoate||-0.05|-0.30|0.005
82442259|NCT00289198|164593040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.223||||0.001|TWO_SIDED|95.0|-0.35|-0.09|||ANCOVA|||Eye itching/burning, Placebo vs fluticasone furoate||-0.09|-0.35|0.001
82634098|NCT05064449|164984247|OTHER||Median Difference (Final Values)|-0.096|||=|0.583|TWO_SIDED|90.0|-0.128|0.018|||Wilcoxon Signed Rank Test||Difference was calculated as (Soticlestat + Mefenamic Acid) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.018|-0.128|=0.5830
82513142|NCT02391948|164719146|OTHER||mean population value|592.62|||||TWO_SIDED|95.0|533.79|652.72||||||||652.72|533.79|
82380208|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|13.62|||||TWO_SIDED|95.0|-6751.38|98.91|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (frail) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||98.91|-6751.38|
82442260|NCT00289198|164593040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.04|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Eye Tearing/Watering score, Placebo vs fluticasone furoate||-0.01|-0.25|0.040
82513143|NCT02391948|164719147|OTHER||mean population value|3.99|||||TWO_SIDED|95.0|3.91|4.07||||||||4.07|3.91|
82513144|NCT02391948|164719147|OTHER||mean population value|3.49|||||TWO_SIDED|95.0|3.39|3.6||||||||3.60|3.39|
82513145|NCT02391948|164719147|OTHER||mean population value|3.23|||||TWO_SIDED|95.0|3.08|3.37||||||||3.37|3.08|
82513146|NCT02391948|164719147|OTHER||mean population value|2.8|||||TWO_SIDED|95.0|2.67|2.93||||||||2.93|2.67|
82513147|NCT02391948|164719147|OTHER||mean population value|1.79|||||TWO_SIDED|95.0|1.67|1.91||||||||1.91|1.67|
82513148|NCT02391948|164719148|OTHER||mean population value|0.59|||||TWO_SIDED|9.0|0.47|0.72||||||||0.72|0.47|
82513149|NCT02391948|164719148|OTHER||mean population value|1.1|||||TWO_SIDED|95.0|0.91|1.3||||||||1.30|0.91|
82513150|NCT02391948|164719148|OTHER||mean population value|0.68|||||TWO_SIDED|95.0|0.48|0.89||||||||0.89|0.48|
82634099|NCT03474380|164984287|SUPERIORITY|A generalized linear mixed model (GLMM) with a negative binomial distribution and a log link was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods) and site. The final model was adjusted for Veteran characteristics, including age, gender, race, marital status, service connection, rural status, and chronic disease burden concurrence score (Nosos).|rate ratio (RR)|0.58||||0.091|TWO_SIDED|95.0|0.31|1.09|||generalized linear mixed model (GLMM)||Rate ratio, rate of days not in the community in 6 month intervals in intervention versus usual care.|Days not at home in 6 month intervals.||1.09|0.31|0.091
82634100|NCT03474380|164984288|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||0.8|-0.7|0.98
82634101|NCT03474380|164984289|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|0.4||||0.167|TWO_SIDED|95.0|-0.2|1.0|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||1.0|-0.2|0.167
82634102|NCT03474380|164984290|SUPERIORITY|A generalized linear mixed model (GLMM) was fit including a time-varying indicator for when iHI-FIVES program launched, fixed effects for time (indicator variables for each of the time periods), site, and indicator for the time point of the survey, and an indicator for the interaction of the time point of the survey with the time-varying indicator for treatment. The final model was adjusted for caregiver characteristics.|Mean Difference (Net)|-0.5||||0.122|TWO_SIDED|95.0|-1.0|0.1|||Mixed Models Analysis||This is the estimated mean difference from baseline to 3 months between usual care and intervention.|||0.1|-1.0|0.122
82634103|NCT04450394|164984291|NON_INFERIORITY|The non-inferiority margin is 0.4%. Non-inferiority is achieved if the upper limit of the 90% Confidence Interval is below 0.4.|LS Mean Difference|0.06|||||TWO_SIDED|90.0|-0.11|0.24||||||||0.24|-0.11|
82634104|NCT01192139|164984296|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin|Ratio of Geometric Least Squares Means|1.039|||||TWO_SIDED|90.0|1.011|1.068|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.068|1.011|
82442261|NCT00289198|164593040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.142||||0.022|TWO_SIDED|95.0|-0.26|-0.02|||ANCOVA|||Eye Redness score, Placebo vs fluticasone furoate||-0.02|-0.26|0.022
82442262|NCT00289198|164593041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.376||||0.004|TWO_SIDED|95.0|2.71|14.04|||ANCOVA|||||14.04|2.71|0.004
82513151|NCT02391948|164719148|OTHER||mean population value|1.38|||||TWO_SIDED|95.0|1.12|1.65||||||||1.65|1.12|
82442263|NCT00289198|164593042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.28||||0.002|TWO_SIDED|95.0|3.52|15.04|||ANCOVA|||||15.04|3.52|0.002
82513152|NCT02391948|164719148|OTHER||mean population value|2.33|||||TWO_SIDED|95.0|2.08|2.6||||||||2.60|2.08|
82513153|NCT02391948|164719149|OTHER||mean population value age 12|70.6|||||TWO_SIDED|95.0|69.1|72.0||||||||72.0|69.1|
82513154|NCT02391948|164719149|OTHER||mean population value age 12|62.1|||||TWO_SIDED|95.0|59.4|65.0||||||||65.0|59.4|
82569558|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|1.411|||||TWO_SIDED|95.0|0.64|3.42|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Any Serotype||3.42|0.64|
82569559|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.807|||||TWO_SIDED|95.0|0.53|1.25|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Any Serotype||1.25|0.53|
82442264|NCT00289198|164593043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.638||||0.009|TWO_SIDED|95.0|1.89|13.39|||ANCOVA|||||13.39|1.89|0.009
82569560|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|4.885|||||TWO_SIDED|95.0|0.7|212.02|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 1||212.02|0.70|
82569561|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 1 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.557|||||TWO_SIDED|95.0|0.21|1.46|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 1||1.46|0.21|
82569562|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|2.931|||||TWO_SIDED|95.0|0.36|134.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 2||134.83|0.36|
82569563|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|1.165|||||TWO_SIDED|95.0|0.53|2.74|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 2||2.74|0.53|
82569564|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants at Year 1 for Serotype 3 (4 to 5 year) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|1.221|||||TWO_SIDED|95.0|0.2|12.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 3||12.83|0.20|
82569565|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 3 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|1.013|||||TWO_SIDED|95.0|0.41|2.73|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 3||2.73|0.41|
82569566|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|0.977|||||TWO_SIDED|95.0|0.21|6.04|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Serotype 4||6.04|0.21|
82569567|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.506|||||TWO_SIDED|95.0|0.18|1.44|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Serotype 4||1.44|0.18|
82569568|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped (4 to 5 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 585 instead of 3203.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.6|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 4 to 5 years; Unserotyped||2.60|0.00|
82569569|NCT01983553|164848566|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Unserotyped (6 to 11 years) between the CYD Dengue vaccine group and the Control group. Total number of participants analyzed were 2618 instead of 3203.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|19.75|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; 6 to 11 years; Unserotyped||19.75|0.00|
82513155|NCT02391948|164719149|OTHER||mean population value age 12|62.9|||||TWO_SIDED|95.0|60.9|65.0||||||||65.0|60.9|
82513156|NCT02391948|164719149|OTHER||mean population value age 12|58.2|||||TWO_SIDED|95.0|56.7|59.7||||||||59.7|56.7|
82513157|NCT02391948|164719149|OTHER||mean population value age 12|51.9|||||TWO_SIDED|95.0|50.2|53.6||||||||53.6|50.2|
82513158|NCT02391948|164719150|OTHER||mean population value age 12|78.3|||||TWO_SIDED|95.0|76.0|80.4||||||||80.4|76.0|
82442265|NCT01062061|164593045|SUPERIORITY_OR_OTHER|||||||0.9733||95.0|||||Chi-squared|||||||0.9733
82442266|NCT01062061|164593046|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Chi-squared|||||||0.0001
82513159|NCT02391948|164719150|OTHER||mean population value age 12|66.1|||||TWO_SIDED|95.0|63.5|68.5||||||||68.5|63.5|
82513160|NCT02391948|164719150|OTHER||mean population value age 12|60.5|||||TWO_SIDED|95.0|57.3|63.3|||mean population value age 12|||||63.3|57.3|
82513161|NCT02391948|164719150|OTHER||mean population value age 12|37.9|||||TWO_SIDED|95.0|35.6|40.3||||||||40.3|35.6|
82513162|NCT02391948|164719150|OTHER||mean population value age 12|14.5|||||TWO_SIDED|95.0|12.4|16.5||||||||16.5|12.4|
82513163|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.06|2.02|||||Data from all GMFCS levels was used, country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in family-centredness outcome.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor family-centred service.||2.02|1.06|
82513164|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|1.07|2.03|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor parents' perception of needs being met.||2.03|1.07|
82513165|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.96|1.38|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in the amount of focus on environment.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.38|0.96|
82523214|NCT02279043|164741709|SUPERIORITY||Slope|0.5||||0.03|TWO_SIDED|95.0|0.04|0.97|||Mixed Models Analysis|Mixed effects logistic regression||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||0.97|0.04|0.03
82513166|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|1.07|1.58|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in focus on participation.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.58|1.07|
82513167|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.58|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of physical therapy services.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of physical therapy services.||1.58|0.72|
82513168|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.74|1.28|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of occupational therapy services.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of occupational therapy.||1.28|0.74|
82569570|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes; Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|1.174|||||TWO_SIDED|95.0|0.27|7.03|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Any grade||7.03|0.27|
82569571|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes; Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.252|||||TWO_SIDED|95.0|0.0|4.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Grade I||4.83|0.00|
82442267|NCT00046930|164593063|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0|||||Log Rank|Stratified on age (\< 70 vs. \>=70) and type of leukemia (de novo AML, secondary RAEB-t, or secondary RAEB AML)||The study was designed to have 80% power to detect a non-proportional hazards difference in OS at the one-sided 0.025 significance level of 30.2% vs 39.6%, 12.8% vs 27.1% and 7.0% vs 14.0% at 1 years, 2 years, and full information for zosuquidar and placebo, respectively.||||0.28
82442268|NCT00046930|164593064|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16||95.0|||||Log Rank|Stratified on age and type of leukemia||||||0.16
82513169|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.97|1.6|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in amount of speech and language therapy.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Participation outcome for the predictor amount of speech and language therapy.||1.60|0.97|
82513170|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.0|1.88|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor family-centred service.||1.88|1.00|
82513171|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.78|1.44|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor family-centred service.||1.44|0.78|
82513172|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.54|1.26|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor family-centred service.||1.26|0.54|
82380209|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|74.32|||||TWO_SIDED|95.0|49.33|88.31|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (pre-frail) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||88.31|49.33|
82442269|NCT00046930|164593065|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.617|TWO_SIDED|95.0|0.77|1.65||Test was stratified on age and type of leukemia.|Mantel Haenszel||Zosuquidar/Placebo|Test of difference in the CR (complete remission) rate between the arms.||1.65|0.77|0.617
82523215|NCT02279043|164741710|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.01|TWO_SIDED|95.0|1.42|3.56|||Regression, Logistic|||||3.56|1.42|<0.01
82523216|NCT02279043|164741710|SUPERIORITY||Slope|0.84|||<|0.01|TWO_SIDED|95.0|0.33|1.35|||Mixed Models Analysis|Mixed effects logistic regression||Multivariate analysis adjusting for cluster, as association was significant in bivariate test.||1.35|0.33|<0.01
82523217|NCT02279043|164741711|SUPERIORITY||Odds Ratio (OR)|1.02||||0.93|TWO_SIDED|95.0|0.52|2.74|||Regression, Logistic|||||2.74|0.52|0.93
82442270|NCT01657760|164593067|EQUIVALENCE|80% power to detect difference p\<0.05 two tailed|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.03||0.87|TWO_SIDED|||||ANOVA, uncorrected for MC.|ANOVA|||||||0.87
82513173|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.0|1.87|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor parents' perception of needs being met.||1.87|1.00|
82513174|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.83|1.53|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor parents' perception of needs being met.||1.53|0.83|
82513175|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.59|1.3|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor parents' perception of needs being met.||1.3|0.59|
82523218|NCT02279043|164741712|SUPERIORITY||Odds Ratio (OR)|1.19||||0.68|TWO_SIDED|95.0|0.52|2.74|||Regression, Logistic|||||2.74|0.52|0.68
82523219|NCT02279043|164741713|SUPERIORITY||Odds Ratio (OR)|1.24||||0.33|TWO_SIDED|95.0|0.08|1.93|||Regression, Logistic|||||1.93|0.08|0.33
82523736|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|42.0||||0.369|TWO_SIDED|95.0|-49.0|133.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 16||133|-49|0.369
82513176|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.9|1.29|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.29|0.9|
82513177|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.86|1.22||||||Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.22|0.86|
82513178|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.7|1.13|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor degree of focus on environment (assistive devices, equipment, home/school modifications).||1.13|0.7|
82634105|NCT01192139|164984296|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Least Squares Means|1.078|||||TWO_SIDED|90.0|1.049|1.108|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.108|1.049|
82634106|NCT01192139|164984296|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|104.65||||||95.0||||||||Geometric least squares means for treatment A||||
82634107|NCT01192139|164984296|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|108.74||||||95.0||||||||Geometric least squares means for treatment B||||
82634108|NCT01192139|164984296|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|100.84||||||95.0||||||||Geometric least squares mean for treatment C||||
82634109|NCT01192139|164984298|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|1.039|||||TWO_SIDED|90.0|1.011|1.068|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||1.068|1.011|
82634110|NCT01192139|164984298|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|1.051|1.11|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.110|1.051|
82634111|NCT01192139|164984298|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|102.84||||||95.0||||||||Geometric least squares mean for treatment A||||
82513179|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.9|1.31|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.31|0.9|
82634112|NCT01192139|164984298|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|106.89||||||95.0||||||||Geometric least squares mean for treatment B||||
82634113|NCT01192139|164984298|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|98.99||||||95.0||||||||Geometric least squares mean for treatment C||||
82634114|NCT01192139|164984299|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of saxagliptin.|Ratio of Geometric Least Squares Means|1.021|||||TWO_SIDED|90.0|0.94|1.109|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 94% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.109|0.940|
82634115|NCT01192139|164984299|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the fed to fasted ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin.|Ratio of Geometric Least Squares Means|0.949|||||TWO_SIDED|90.0|0.873|1.031|||||Ratio = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.031|0.873|
82634116|NCT01192139|164984299|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|25.68||||||95.0||||||||Geometric least squares mean for treatment A||||
82634117|NCT01192139|164984299|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|26.21||||||95.0||||||||Geometric least squares mean for treatment B||||
82634118|NCT01192139|164984299|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|27.63||||||95.0||||||||Geometric least squares mean for treatment C||||
82634119|NCT01192139|164984308|NON_INFERIORITY_OR_EQUIVALENCE|BE concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Least Squares Geometric Means|0.915|||||TWO_SIDED|90.0|0.836|1.002|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a saxagliptin tablet and a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 96% and 97% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.002|0.836|
82634120|NCT01192139|164984308|NON_INFERIORITY_OR_EQUIVALENCE|lack of food effect concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(INF) of saxagliptin and metformin.|Ratio of Geometric LS Mean and 90% CI|1.01|||||TWO_SIDED|90.0|0.918|1.111|||||Ratio = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.111|0.918|
82634121|NCT01192139|164984308|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5542.2||||||95.0||||||||Geometric least squares means for treatment A||||
82634122|NCT01192139|164984308|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5072.9||||||95.0||||||||Geometric least squares mean for treatment B||||
82634123|NCT01192139|164984308|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5023.3||||||95.0||||||||Geometric least squares mean for treatment C||||
82634124|NCT01192139|164984309|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|0.92|||||TWO_SIDED|90.0|0.854|0.992|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|||0.992|0.854|
82634125|NCT01192139|164984309|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.025|||||TWO_SIDED|95.0|0.951|1.105|||||Ratio=Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||1.105|0.951|
82634126|NCT01192139|164984309|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|5287.1||||||95.0||||||||Geometric least squares means for treatment A||||
82634127|NCT01192139|164984309|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|4866.2||||||95.0||||||||Geometric least squares mean for treatment B||||
82634128|NCT01192139|164984309|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|4746.8||||||95.0||||||||Geometric least squares means for treatment C||||
82513180|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.91|1.32|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.32|0.91|
82380210|NCT04886596|164470104|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|64.79|||||TWO_SIDED|95.0|46.1|77.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed LRTD by baseline frailty status (fit) in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||77.75|46.10|
82380211|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.38|||||TWO_SIDED|95.0|42.43|82.68|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to any case definition, following a single dose of the RSVPreF3 OA investigational vaccine.||82.68|42.43|
82380212|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|67.38|||||TWO_SIDED|95.0|42.43|82.68|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 1, following a single dose of the RSVPreF3 OA investigational vaccine.||82.68|42.43|
82513181|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.76|1.24|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor focus on participation (structured play/recreation/leisure activities).||1.24|0.76|
82523737|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.0||||0.487|TWO_SIDED|95.0|-121.0|58.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 20||58|-121|0.487
82380213|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|59.16|||||TWO_SIDED|95.0|-119.6|95.93|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to the case definition 2, following a single dose of the RSVPreF3 OA investigational vaccine.||95.93|-119.60|
82569572|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Any of the 4 Serotypes Grade II between the CYD Dengue vaccine group and the Control group.|Relative Risk|2.012|||||TWO_SIDED|95.0|0.2|99.1|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Any serotype; Grade II||99.10|0.20|
82569573|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 2; Any grade||39.49|0.01|
82569574|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 2 Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 2; Grade I||39.49|0.01|
82634129|NCT01192139|164984310|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within 0.800 to 1.250 for both Cmax and AUC0-inf of metformin.|Ratio of Geometric Least Squares Means|0.933|||||TWO_SIDED|95.0|0.865|1.007|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of a metformin XR tablet under fed conditions, then 24 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 24 subjects would have provided 96% and 97% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||1.007|0.865|
82380214|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.8|||||TWO_SIDED|95.0|57.05|90.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to any case definition, following annual revaccination of the RSVPreF3 OA investigational vaccine.||90.75|57.05|
82569575|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Any grade between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.252|||||TWO_SIDED|95.0|0.0|4.83|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Any grade||4.83|0.00|
82569576|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Grade I between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|19.62|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Grade I||19.62|0.00|
82380215|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|78.8|||||TWO_SIDED|95.0|57.05|90.75|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 1, following annual revaccination of the RSVPreF3 OA investigational vaccine.||90.75|57.05|
82380216|NCT04886596|164470105|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|20.27|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of severe RSV-confirmed LRTD in adults ≥ 60 YOA according to case definition 2, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|20.27|
82380217|NCT04886596|164470106|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|51.13|||||TWO_SIDED|95.0|40.31|60.21|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed ARI in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||60.21|40.31|
82380218|NCT04886596|164470106|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|58.44|||||TWO_SIDED|95.0|48.1|66.96|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of RSV-confirmed ARI in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||66.96|48.10|
82380219|NCT04886596|164470107|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.33|||||TWO_SIDED|95.0|-1.47|5.99|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any ARI in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||5.99|-1.47|
82380220|NCT04886596|164470107|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|3.32|||||TWO_SIDED|95.0|-0.5|6.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any ARI in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||6.98|-0.50|
82380221|NCT04886596|164470107|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|3.68|||||TWO_SIDED|95.0|-1.55|8.63|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any LRTD in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||8.63|-1.55|
82380222|NCT04886596|164470107|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|6.99|||||TWO_SIDED|95.0|1.81|11.9|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of any LRTD in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||11.90|1.81|
82513182|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor amount of physical therapy services.||1.15|.7|
82380223|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|50.37|||||TWO_SIDED|95.0|-184.45|95.19|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||95.19|-184.45|
82380224|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|50.37|||||TWO_SIDED|95.0|-184.45|95.19|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||95.19|-184.45|
82380225|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|11.56|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|11.56|
82380226|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|11.56|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|11.56|
82523738|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0||||0.887|TWO_SIDED|95.0|-82.0|95.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 20||95|-82|0.887
82513183|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.74|1.48|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of physical therapy services.||1.48|.74|
82513184|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life -Self Care outcome for the predictor amount of occupational therapy.||1.21|.72|
82513185|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.89|1.5|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of occupational therapy.||1.5|.89|
82513186|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.65|1.38|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of occupational therapy.||1.38|.65|
82513187|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.81|1.31|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Child Engagement in Daily Life - Self Care outcome for the predictor amount of speech and language therapy.||1.31|.81|
82513188|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.87|1.39|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of speech and language therapy.||1.39|.87|
82513189|NCT02391948|164719151|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.6|1.25|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Six Minute Walk Test outcome for the predictor amount of speech and language therapy.||1.25|.6|
82634130|NCT01192139|164984310|NON_INFERIORITY_OR_EQUIVALENCE|Lack of food effect was concluded if the 90% CIs for the test-to-reference ratios of geometric means were entirely contained within (80%, 125%) for both Cmax and AUC(inf) of saxagliptin and metformin.|Ratio of Geometric Least Squares Means|0.898|||||TWO_SIDED|90.0|0.832|0.969|||||Ration = Treatment B/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|||0.969|0.832|
82513190|NCT02391948|164719151|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.92|1.53|||||Country was included as a model covariate. OR represents the odds of children developing 'better than expected' (top 10%) vs 'as expected' (central 80%) for each unit change in parents' perception of needs being met.|Logistic regression comparing children progressing better than expected to those progressing as expected on the Early Clinical Assessment of Balance outcome for the predictor amount of physical therapy services.||1.53|.92|
82513191|NCT02391948|164719155|OTHER||population average|2319.0|||||TWO_SIDED|95.0|1460.0|3218.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3218|1460|
82513192|NCT02391948|164719155|OTHER||population average|1858.0|||||TWO_SIDED|95.0|1233.0|2530.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||2530|1233|
82513193|NCT02391948|164719156|OTHER||population average|5240.0|||||TWO_SIDED|95.0|3874.0|6670.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||6670|3874|
82513194|NCT02391948|164719156|OTHER||population average|4319.0|||||TWO_SIDED|95.0|3258.0|5443.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||5443|3258|
82634131|NCT01192139|164984310|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|608.41||||||95.0||||||||Geometric least squares mean for treatment A||||
82513195|NCT02391948|164719157|OTHER||population average|108.0|||||TWO_SIDED|95.0|67.0|151.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||151|67|
82513196|NCT02391948|164719157|OTHER||population average|100.0|||||TWO_SIDED|95.0|58.0|145.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||145|58|
82513197|NCT02391948|164719157|OTHER||population average|10.0|||||TWO_SIDED|95.0|0.0|35.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model. This analysis combined children in GMFCS Levels III-V.||35|0|
82513198|NCT02391948|164719158|OTHER||population average|2815.0|||||TWO_SIDED|95.0|2025.0|3650.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3650|2025|
82513199|NCT02391948|164719158|OTHER||population average|3109.0|||||TWO_SIDED|95.0|2502.0|3739.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model.||3739|2502|
82634132|NCT01192139|164984310|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|567.85||||||95.0||||||||Geometric least squares mean for treatment B||||
82634133|NCT01192139|164984310|SUPERIORITY_OR_OTHER||Geometric least squares mean (ng*hr/mL)|632.39||||||95.0||||||||Geometric least squares mean for treatment C||||
82513200|NCT02391948|164719158|OTHER||population average|1056.0|||||TWO_SIDED|95.0|471.0|1665.0||||||The outcome was modelled as a function of age using a linear mixed effects model, and the population value at age 12 years was estimated from the model. This analysis combined children in GMFCS Levels III-V.||1665|471|
82513201|NCT02348489|164719163|SUPERIORITY||Difference in response rate (%)|1.92||||0.482|TWO_SIDED|96.0|-3.67|7.5|||Cochran-Mantel-Haenszel|||The complete response rate was compared between the treatment groups using a Cochran Mantel-Haenszel (CMH) test at an alpha level of 0.04 stratified to adjust for stratification factors used at randomization: age (\<75 or \>=75), Eastern Cooperative Oncology Group (ECOG) performance status (0-1, 2-3), study center region (North American, Europe, Rest of World), and secondary AML (secondary to MDS or other antecedent hematologic disorder) or poor-risk cytogenetics (Yes, No/Unknown).||7.5|-3.67|0.482
82569577|NCT01983553|164848574|OTHER|Relative risk analysis of the event rate per 100 participants during Year 1 to Year 4 for Serotype 4 Grade II between the CYD Dengue vaccine group and the Control group.|Relative Risk|0.503|||||TWO_SIDED|95.0|0.01|39.49|||||The 95% confidence interval of the relative risk was calculated using the Exact method described by Breslow and Day.|Relative Risk; Serotype 4; Grade II||39.49|0.01|
82634134|NCT03812224|164984316|SUPERIORITY||LS Mean Difference|-1.62|||<|0.001||95.0|-2.52|-0.73|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of migraine type and prior migraine preventive treatment status, and baseline value as covariates and assumes a first-order auto regression covariance structure.||-0.73|-2.52|<0.001
82634135|NCT03812224|164984317|SUPERIORITY||Odds Ratio (OR)|2.33||||0.005|TWO_SIDED|95.0|1.29|4.23|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test, stratified by stratification factors of migraine type and prior migraine preventive treatment status.||||4.23|1.29|0.005
82634136|NCT03812224|164984318|SUPERIORITY||LS Mean Difference|-1.47|||<|0.001||95.0|-2.24|-0.71|||Generalized Linear Mixed Model|||Analysis utilizes a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of migraine type (episodic migraine or chronic migraine) and prior migraine preventive treatment status (ever used or never used), and baseline value as covariates and assumes a first-order auto regression covariance structure.||-0.71|-2.24|<0.001
82634137|NCT02516605|164984334|OTHER||adjusted fold change from baseline|0.86||||0.293|TWO_SIDED|90.0|0.68|1.09|||ANCOVA|||||1.09|0.68|0.293
82380227|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|22.14|||||TWO_SIDED|95.0|-457.67|93.12|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the RSV seson in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||93.12|-457.67|
82523739|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.0||||0.486|TWO_SIDED|95.0|-59.0|123.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 20||123|-59|0.486
82634138|NCT02516605|164984334|OTHER||adjusted fold change from baseline|0.47|||<|0.001|TWO_SIDED|90.0|0.37|0.6|||ANCOVA|||||0.60|0.37|<0.001
82634139|NCT02516605|164984334|OTHER||adjusted fold change from baseline|0.32|||<|0.001|TWO_SIDED|90.0|0.26|0.4|||ANCOVA|||||0.40|0.26|<.001
82569578|NCT00594178|164848577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-250.8||||0.318|TWO_SIDED|95.0|-778.87|277.21|||t-test, 2 sided|||Paired samples T-test was used to assess the statisical changes between baseline and post-exercise lean muscle mass.||277.21|-778.87|.318
82634140|NCT02516605|164984334|OTHER||adjusted fold change from baseline|0.36|||<|0.001|TWO_SIDED|90.0|0.27|0.47|||ANCOVA|||||0.47|0.27|<.001
82634141|NCT02516605|164984344|OTHER||Median difference from baseline|1.0||||0.898|TWO_SIDED|90.0|-7.0|6.0|||Wilcoxon rank-sum test|Day 28||||6.0|-7.0|0.898
82634142|NCT02516605|164984344|OTHER||Median difference from baseline|2.0||||0.593|TWO_SIDED|90.0|-4.0|10.0|||Wilcoxon rank-sum test|Day 56||||10.0|-4.0|0.593
82634143|NCT02516605|164984344|OTHER||Median difference from baseline|-3.0||||0.509|TWO_SIDED|90.0|-11.0|4.0|||Wilcoxon rank-sum test|Day 84||||4.0|-11.0|0.509
82634144|NCT02516605|164984344|OTHER||Median difference from baseline|1.5||||0.591|TWO_SIDED|90.0|-5.0|7.0|||Wilcoxon rank-sum test|Day 28||||7.0|-5.0|0.591
82634145|NCT02516605|164984344|OTHER||Median difference from baseline|-2.0||||0.702|TWO_SIDED|90.0|-12.0|4.0|||Wilcoxon rank-sum test|Day 56||||4.0|-12.0|0.702
82634146|NCT02516605|164984344|OTHER||Median difference from baseline|-1.0||||0.838|TWO_SIDED|90.0|-10.0|8.0|||Wilcoxon rank-sum test|Day 84||||8.0|-10.0|0.838
82634147|NCT02516605|164984344|OTHER||Median difference from baseline|4.0||||0.297|TWO_SIDED|90.0|-3.0|8.0|||Wilcoxon rank-sum test|Day 28||||8.0|-3.0|0.297
82569579|NCT00594178|164848578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0645||||0.011|TWO_SIDED|95.0|0.01827|0.11073|||t-test, 2 sided|||Paired samples T-test was used to assess the statisical changes between baseline and post-exercise bone density.||.11073|.01827|.011
82569580|NCT02005393|164848584|NON_INFERIORITY_OR_EQUIVALENCE|Image settings were considered non-inferior if scores overlapped within 1 SD of mean.||||||||||||||||All 20 subjects enrolled in the study, including Subject 219 that was dropped from the Reader assessments due to corrupted images, were all rated as having similar white light images between the FICE and NBI procedures for each location used in the concurrence study. This assessment was intended to assure that no procedural sequence or visualization bias was introduced into the image acquisition process. The overall Reader mean (SD) for both FICE and NBI were equal to or greater than 3.0 (0.8).|The results reported utilized the average Likert scores for each of the 3 readers, for each of the FICE settings (0-9), as compared to FICE. The overall Reader mean (SD) for both FICE and NBI were equal to or greater than 3.0 (0.8).The overall mean scores were comparable between FICE and NBI to provide acceptable diagnostic image visualization quality.|||
82569581|NCT00726713|164848734|SUPERIORITY_OR_OTHER||||||=|0.013|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 16||||=0.013
82569582|NCT00726713|164848734|SUPERIORITY_OR_OTHER||||||=|0.033|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 24||||=0.033
82569583|NCT00726713|164848735|SUPERIORITY_OR_OTHER||||||=|0.027|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Change from Baseline, Week 16||||=0.027
82569584|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Folate, Change from BL, Week 16||||=0.0001
82569585|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Folate, Change from BL, Week 24||||=0.0001
82569586|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total MMA, Change from Baseline Week 16||||=0.0001
82569587|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0008|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total MMA, Change from BL, Week 24||||=0.0008
82634148|NCT02516605|164984344|OTHER||Median difference from baseline|-6.0||||0.236|TWO_SIDED|90.0|-14.0|1.0|||Wilcoxon rank-sum test|Day 56||||1.0|-14.0|0.236
82569588|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0001||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||Total Homocysteine, Change from BL, Week 16||||=0.0001
82569589|NCT00726713|164848736|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||Total Homocysteine, Change from BL, Week 24||||=0.0001
82569590|NCT00726713|164848737|SUPERIORITY_OR_OTHER||||||=|0.0306||||||Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes|Mixed Models Analysis|||SF-36 MCS, Change from BL, Week 24||||=0.0306
82569591|NCT00726713|164848740|SUPERIORITY_OR_OTHER||||||=|0.054|||||||Mixed Models Analysis|Generalized linear mixed models were used to assess baseline for continuous and discrete outcomes||HADS Depression, Change from BL, Week 24||||=0.054
82569592|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-0.791||||0.0002|TWO_SIDED|95.0|-1.203|-0.378|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-0.378|-1.203|0.0002
82634149|NCT02516605|164984344|OTHER||Median difference from baseline|-6.5||||0.192|TWO_SIDED|90.0|-15.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-15.0|0.192
82569593|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-0.851|||<|0.0001|TWO_SIDED|95.0|-1.263|-0.439|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-0.439|-1.263|<.0001
82569594|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.545|||<|0.0001|TWO_SIDED|95.0|-1.954|-1.135|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 4b (including all time points).||-1.135|-1.954|<.0001
82569595|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.208|||<|0.0001|TWO_SIDED|95.0|-1.639|-0.778|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-0.778|-1.639|<.0001
82569596|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.245|||<|0.0001|TWO_SIDED|95.0|-1.679|-0.811|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-0.811|-1.679|<.0001
82569597|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.846|||<|0.0001|TWO_SIDED|95.0|-2.273|-1.418|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 5b (including all time points).||-1.418|-2.273|<.0001
82569598|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.696|||<|0.0001|TWO_SIDED|95.0|-2.08|-1.312|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.2% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.312|-2.080|<.0001
82569599|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-1.617|||<|0.0001|TWO_SIDED|95.0|-2.001|-1.232|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.4% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.232|-2.001|<.0001
82569600|NCT03231969|164848759|SUPERIORITY||Mean Difference (Final Values)|-2.009|||<|0.0001|TWO_SIDED|95.0|-2.387|-1.63|||ANCOVA|||Treatment difference (95%CI): Bilastine 0.6% arm minus Bilastine 0% (Vehicle) arm at Visit 6 (including all time points).||-1.630|-2.387|<.0001
82634150|NCT02516605|164984344|OTHER||Median difference from baseline|2.0||||0.605|TWO_SIDED|90.0|-2.0|9.0|||Wilcoxon rank-sum test|Day 28||||9.0|-2.0|0.605
82634151|NCT02516605|164984344|OTHER||Median difference from baseline|-11.0||||0.037|TWO_SIDED|90.0|-21.0|-1.0|||Wilcoxon rank-sum test|Day 56||||-1.0|-21.0|0.037
82634152|NCT02516605|164984344|OTHER||Median difference from baseline|-3.5||||0.397|TWO_SIDED|90.0|-11.0|3.0|||Wilcoxon rank-sum test|Day 84||||3.0|-11.0|0.397
82634153|NCT02516605|164984345|OTHER||Median difference from baseline|1.0||||0.342|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 28||||2.0|-1.0|0.342
82380228|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|22.14|||||TWO_SIDED|95.0|-457.67|93.12|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the RSV season in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||93.12|-457.67|
82513202|NCT02348489|164719164|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7328|TWO_SIDED|95.0|0.83|1.14|||Stratified log-rank|||Overall survival curves were estimated using Kaplan-Meier method and compared between the treatment groups using a 2-sided stratification log-rank test, stratified by the same factors used at randomization: age (\<75 or \>=75), Eastern Cooperative Oncology Group (ECOG) performance status (0-1, 2-3), study center region (North American, Europe, Rest of World), and secondary AML (secondary to MDS or other antecedent hematologic disorder) or poor-risk cytogenetics (Yes, No/Unknown).||1.14|0.83|0.7328
82513203|NCT01268644|164719210|SUPERIORITY|||||||0.14||||||P value comparing baseline to week 12|Mixed Models Analysis|||||||0.14
82513204|NCT01268644|164719211|SUPERIORITY|||||||0.01||||||P value comparing week 0 with week 12.|Mixed Models Analysis|||||||0.01
82513205|NCT01268644|164719212|SUPERIORITY|||||||0.009||||||P value comparing week 0 to week 12.|Mixed Models Analysis|||||||0.009
82513206|NCT01268644|164719213|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||||||0.75
82513207|NCT04086472|164719227|SUPERIORITY||Least squares (LS) Mean Difference|-1.31||||0.808|TWO_SIDED|90.0|-10.25|7.64|||ANOVA|||Treatment vs. Placebo||7.64|-10.25|0.808
82513208|NCT04086472|164719227|SUPERIORITY||LS Mean Difference|-6.51||||0.229|TWO_SIDED|90.0|-15.46|2.43|||ANOVA|||Treatment vs. Placebo||2.43|-15.46|0.229
82513209|NCT04086472|164719227|SUPERIORITY||LS Mean Difference|-4.81||||0.363|TWO_SIDED|90.0|-13.58|3.96|||ANOVA|||Treatment vs. Placebo||3.96|-13.58|0.363
82513210|NCT04086472|164719227|SUPERIORITY||LS Mean Difference|-5.92||||0.273|TWO_SIDED|90.0|-14.87|3.02|||ANOVA|||Treatment vs. Placebo||3.02|-14.87|0.273
82513211|NCT04086472|164719228|OTHER|Treatment vs. Placebo|Difference in percentage|0.51|||||TWO_SIDED|95.0|-36.57|37.78|||||95% CI based on the Chan and Zhang exact method|||37.78|-36.57|
82513212|NCT04086472|164719228|OTHER|Treatment vs. Placebo|Difference in percentage|-22.56|||||TWO_SIDED|95.0|-56.7|15.53|||||95% CI based on the Chan and Zhang exact method|||15.53|-56.70|
82513213|NCT04086472|164719228|OTHER|Treatment vs. Placebo|Difference in percentage|-17.62|||||TWO_SIDED|95.0|-53.09|20.01|||||95% CI based on the Chan and Zhang exact method|||20.01|-53.09|
82513214|NCT04086472|164719228|OTHER|Treatment vs. Placebo|Difference in percentage|-22.56|||||TWO_SIDED|95.0|-56.7|15.53|||||95% CI based on the Chan and Zhang exact method|Treatment vs. Placebo||15.53|-56.70|
82513215|NCT00048724|164719247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.452||||0.1439||95.0|0.88|2.396|||Cox Proportional Hazards Model|Age (\<= 50 years, \>50 years) and participation in a prior study (yes, no) were stratification factors.|Hazard ratio represents results of untreated control relative to treatment.|The primary scientific hypothesis is that, 0.5 ug/kg subcutaneous once weekly PegIntron as maintenance therapy is efficacious, when compared to no treatment, in the prevention of clinical events in adult subjects with compensated cirrhosis (Metavir F4), secondary to Chronic Hepatitis C, who have failed to respond to therapy with any α interferon plus ribavirin.||2.396|0.880|0.1439
82513216|NCT00048724|164719248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.007||95.0|1.13|2.166|||Cox Proportional Hazards Model|Age (\<= 50 years, \>50 years) and participation in a prior study (yes, no) were stratification factors.|Hazard ratio represents results of untreated control relative to treatment.|The secondary hypothesis is that 0.5 ug/kg subcutaneous once weekly PegIntron as maintenance therapy is efficacious, when compared to no treatment, in the prevention of disease progression in adult subjects with compensated cirrhosis (Metavir F4), secondary to Chronic Hepatitis C, who have failed to respond to therapy with any α interferon plus ribavirin.||2.166|1.130|0.0070
82513217|NCT04116229|164719249|EQUIVALENCE|"Alternative hypothesis: people with normal-weight BMI have lower DBSI restricted fraction, or putative cellularity, than people with obesity.~Null hypothesis: DBSI restricted fraction, or putative cellularity, is not different between normal-weight and obese groups."|Median Difference (Final Values)|0.05||||0.28|TWO_SIDED|||||a priori threshold: p \< 0.05|Independent-Samples Median Test|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.||||0.28
82513218|NCT04116229|164719249|EQUIVALENCE|"Alternative hypothesis: people with normal-weight BMI have lower DBSI hindered fraction, or putative vasogenic edema, than people with obesity.~Null hypothesis: DBSI hindered fraction, or putative vasogenic edema, is not different between normal-weight and obese groups."|Median Difference (Final Values)|0.18||||0.03|TWO_SIDED|||||a priori threshold: p \< 0.05|Independent-Samples Median Test|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.||||0.03
82634154|NCT02516605|164984345|OTHER||Median difference from baseline|0.0||||0.699|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|-1.0|0.699
82523740|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.0||||0.604||95.0|-113.0|66.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 24||66|-113|0.604
82634155|NCT02516605|164984345|OTHER||Median difference from baseline|-1.0||||0.377|TWO_SIDED|90.0|-3.0|0.0|||Wilcoxon rank-sum test|Day 84||||0.0|-3.0|0.377
82513219|NCT04116229|164719250|OTHER|"Alternative hypothesis: Worse crystallized cognitive function will relate to greater putative vasogenic edema (DBSI HF) in white matter tracts.~Null hypothesis: Crystallized cogntive function is not related to DBSI HF."|Slope|-0.69||||0.01|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.01
82513220|NCT04116229|164719250|OTHER|"Alternative hypothesis: Worse fluid cognitive function will relate to greater putative vasogenic edema (DBSI HF) in white matter tracts.~Null hypothesis: Fluid cogntive function is not related to DBSI HF."|Slope|0.52||||0.1|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.10
82513221|NCT04116229|164719250|OTHER|"Alternative hypothesis: Worse crystallized cognitive function will relate to greater putative cellularity (DBSI RF) in white matter tracts.~Null hypothesis: Crystallized cognitive function is not related to DBSI RF."|Slope|-0.45||||0.01|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.01
82513222|NCT04116229|164719250|OTHER|"Alternative hypothesis: Worse fluid cognitive function will relate to greater putative cellularity (DBSI RF) in white matter tracts.~Null hypothesis: Fluid cognitive function is not related to DBSI RF."|Slope|0.22||||0.1|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.10
82513223|NCT04116229|164719251|OTHER|"Alternative hypothesis: higher levels of insulin, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Insulin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.18|||>|0.46|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||>0.46
82634156|NCT02516605|164984345|OTHER||Median difference from baseline|1.0||||0.132|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test|Day 28||||2.0|0.0|0.132
82523741|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0||||0.872|TWO_SIDED|95.0|-97.0|82.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 24||82|-97|0.872
82523742|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.0||||0.355|TWO_SIDED|95.0|-48.0|134.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Pre-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 24||134|-48|0.355
82523743|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0||||0.839|TWO_SIDED|95.0|-65.0|80.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 4||80|-65|0.839
82634157|NCT02516605|164984345|OTHER||Median difference from baseline|1.0||||0.292|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|0.0|0.292
82634158|NCT02516605|164984345|OTHER||Median difference from baseline|0.0||||0.979|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|0.979
82634159|NCT02516605|164984345|OTHER||Median difference from baseline|2.0||||0.102|TWO_SIDED|90.0|0.0|4.0|||Wilcoxon rank-sum test|Day 28||||4.0|0.0|0.102
82634160|NCT02516605|164984345|OTHER||Median difference from baseline|0.0||||0.717|TWO_SIDED|90.0|-1.0|2.0|||Wilcoxon rank-sum test|Day 56||||2.0|-1.0|0.717
82634161|NCT02516605|164984345|OTHER||Median difference|0.0||||1|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|1.000
82513224|NCT04116229|164719251|OTHER|"Alternative hypothesis: higher levels of insulin, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Insulin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.22|||>|0.5|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||>0.5
82513225|NCT04116229|164719252|OTHER|"Alternative hypothesis: higher levels of leptin, a pro-inflammatory marker and satiety hormone, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Leptin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.15||||0.62|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.62
82523744|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.0||||0.741|TWO_SIDED|95.0|-60.0|84.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 4||84|-60|0.741
82634162|NCT02516605|164984345|OTHER||Median difference from baseline|2.0||||0.142|TWO_SIDED|90.0|0.0|5.0|||Wilcoxon rank-sum test|Day 28||||5.0|0.0|0.142
82634163|NCT02516605|164984345|OTHER||Median difference from baseline|0.0||||0.975|TWO_SIDED|90.0|-1.0|1.0|||Wilcoxon rank-sum test|Day 56||||1.0|-1.0|0.975
82634164|NCT02516605|164984345|OTHER||Median difference from baseline|0.0||||0.602|TWO_SIDED|90.0|-2.0|1.0|||Wilcoxon rank-sum test|Day 84||||1.0|-2.0|0.602
82634165|NCT02516605|164984346|OTHER||Mean difference from baseline|-2.78|STANDARD_ERROR_OF_MEAN|8.436||0.743|TWO_SIDED|90.0|-16.91|11.34|||ANCOVA|Day 7||||11.34|-16.91|0.743
82634166|NCT02516605|164984346|OTHER||Median difference from baseline|-14.07|STANDARD_ERROR_OF_MEAN|8.229||0.093|TWO_SIDED|90.0|-27.85|-0.28|||ANCOVA|Day 14||||-0.28|-27.85|0.093
82634167|NCT02516605|164984346|OTHER||Median difference from baseline|7.78|STANDARD_ERROR_OF_MEAN|8.71||0.376|TWO_SIDED|90.0|-6.81|22.38|||ANCOVA|Day 21||||22.38|-6.81|0.376
82634168|NCT02516605|164984346|OTHER||Median difference from baseline|7.03|STANDARD_ERROR_OF_MEAN|9.187||0.448|TWO_SIDED|90.0|-8.36|22.43|||ANCOVA|Day 28||||22.43|-8.36|0.448
82634169|NCT02516605|164984346|OTHER||Median difference from baseline|-15.25|STANDARD_ERROR_OF_MEAN|7.192||0.039|TWO_SIDED|90.0|-27.3|-3.19|||ANCOVA|Day 56||||-3.19|-27.30|0.039
82634170|NCT02516605|164984346|OTHER||Median difference from baseline|-16.93|STANDARD_ERROR_OF_MEAN|8.592||0.054|TWO_SIDED|90.0|-31.31|-2.54|||ANCOVA|Day 84||||-2.54|-31.31|0.054
82634171|NCT02516605|164984346|OTHER||Median difference from baseline|11.34|STANDARD_ERROR_OF_MEAN|8.434||0.185|TWO_SIDED|90.0|-2.78|25.46|||ANCOVA|Day 7||||25.46|-2.78|0.185
82634172|NCT02516605|164984346|OTHER||Median difference from baseline|7.74|STANDARD_ERROR_OF_MEAN|8.226||0.351|TWO_SIDED|90.0|-6.05|21.52|||ANCOVA|Day 14||||21.52|-6.05|0.351
82523745|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|71.0||||0.056|TWO_SIDED|95.0|-1.8|143.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 4||143|-1.8|0.056
82523746|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.0||||0.554|TWO_SIDED|95.0|-107.0|57.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 8||57|-107|0.554
82523747|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.0||||0.472|TWO_SIDED|95.0|-110.0|51.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 8||51|-110|0.472
82523748|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.0||||0.116|TWO_SIDED|95.0|-16.0|149.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 8||149|-16|0.116
82523749|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0||||0.805|TWO_SIDED|95.0|-98.0|76.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 12||76|-98|0.805
82523750|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.763|TWO_SIDED|95.0|-73.0|100.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 12||100|-73|0.763
82523751|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|75.0||||0.096|TWO_SIDED|95.0|-13.0|163.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 12||163|-13|0.096
82523752|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0||||0.485|TWO_SIDED|95.0|-118.0|56.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 16||56|-118|0.485
82513226|NCT04116229|164719252|OTHER|"Alternative hypothesis: higher levels of leptin, a pro-inflammatory marker and satiety hormone, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Leptin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.07||||0.82|TWO_SIDED||||||Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.82
82513227|NCT04116229|164719253|OTHER|"Alternative hypothesis: higher levels of ghrelin, an anti-inflammatory marker and hunger hormone, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Ghrelin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.19||||0.53|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.53
82513228|NCT04116229|164719253|OTHER|"Alternative hypothesis: higher levels of ghrelin, an anti-inflammatory marker and hunger hormone, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Ghrelin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.12||||0.71|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.71
82513229|NCT04116229|164719254|OTHER|"Alternative hypothesis: greater HOMA-IR, where higher HOMA-IR indicates greater insulin resistance, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: HOMA-IR levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.19||||0.53|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.53
82513230|NCT04116229|164719254|OTHER|"Alternative hypothesis: greater HOMA-IR, where higher HOMA-IR indicates greater insulin resistance, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: HOMA-IR levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.21||||0.5|TWO_SIDED||||||Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.5
82569601|NCT03247738|164848763|SUPERIORITY|The primary end point of our study was the comparison of platelet reactivity measured by VerifyNow PRU between cangrelor and placebo at 30 minutes after drugs were administered at the start of PCI. Assuming a common standard deviation of 70 PRU, a sample size of 20 patients per group would allow detection of a 70 PRU difference between groups with 85% power and a two-sided α = 0.05. Considering the 2 arms and a possible 25% rate of invalid PD results we planned to randomize up to 50 patients.|Mean Difference (Net)|152.0|||<|0.001|TWO_SIDED|95.0|108.0|195.0|||ANCOVA|the baseline value of platelet reactivity used as a covariate||||195|108|<0.001
82569602|NCT00129649|164848765|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82569603|NCT04148521|164848787|SUPERIORITY||Odds Ratio (OR)|1.15||||0.27|TWO_SIDED|95.0|0.9|1.47|||Mixed Models Analysis|||||1.47|0.90|0.27
82569604|NCT04148521|164848788|SUPERIORITY||Odds Ratio (OR)|1.04||||0.83|TWO_SIDED|95.0|0.75|1.43|||Mixed Models Analysis|||||1.43|0.75|0.83
82569605|NCT04148521|164848789|SUPERIORITY||Odds Ratio (OR)|1.43||||0.12|TWO_SIDED|95.0|0.91|2.26|||Mixed Models Analysis|||||2.26|0.91|0.12
82634173|NCT02516605|164984346|OTHER||Median difference from baseline|16.79|STANDARD_ERROR_OF_MEAN|8.707||0.059|TWO_SIDED|90.0|2.2|31.38|||ANCOVA|day 21||||31.38|2.20|0.059
82634174|NCT02516605|164984346|OTHER||Median difference from baseline|14.05|STANDARD_ERROR_OF_MEAN|9.184||0.132|TWO_SIDED|90.0|-1.35|29.44|||ANCOVA|Day 28||||29.44|-1.35|0.132
82569606|NCT04148521|164848790|SUPERIORITY||Odds Ratio (OR)|1.17||||0.51|TWO_SIDED|95.0|0.73|1.86|||Mixed Models Analysis|||||1.86|0.73|0.51
82569607|NCT02864342|164848818|OTHER||||||<|0.001|||||||Satterthwaite t-test|||The effect of medication reminders on Symbicort adherence was evaluated using a t-test. The equality of variances was also tested and as the variances were not equal, the Satterthwaite-t test was reported.||||<0.001
82569608|NCT02573883|164848824|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82569609|NCT02573883|164848825|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82569610|NCT02573883|164848827|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
82569611|NCT02573883|164848829|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82569612|NCT02341599|164848841|OTHER|LS mean ratio of Group B/Group A|LS mean ratio|1.29|||||TWO_SIDED|90.0|1.06|1.58|||||LS mean ratio was calculated from analysis of variance (ANOVA) model.|||1.58|1.06|
82569613|NCT02341599|164848841|OTHER|LS mean ratio of Group C/Group A|LS mean ratio|1.08|||||TWO_SIDED|90.0|0.889|1.32|||||LS mean ratio was calculated from ANOVA model.|||1.32|0.889|
82569614|NCT02341599|164848841|OTHER|LS mean ratio of Group D/Group A|LS mean ratio|2.51|||||TWO_SIDED|90.0|2.06|3.06|||||LS mean ratio was calculated from ANOVA model.|||3.06|2.06|
82569615|NCT02341599|164848841|OTHER|LS mean ratio of Group E: Period 1/Group A|LS mean ratio|0.989|||||TWO_SIDED|90.0|0.806|1.21|||||LS mean ratio was calculated from ANOVA model.|||1.21|0.806|
82569616|NCT02341599|164848841|OTHER|LS mean ratio of Group E: Period 2/Group A|LS mean ratio|3.27|||||TWO_SIDED|90.0|2.67|4.02|||||LS mean ratio was calculated from ANOVA model.|||4.02|2.67|
82634175|NCT02516605|164984346|OTHER||Median difference from baseline|-1.75|STANDARD_ERROR_OF_MEAN|7.19||0.809|TWO_SIDED|90.0|-13.8|10.31|||ANCOVA|Day 56||||10.31|-13.80|0.809
82634176|NCT02516605|164984346|OTHER||Median difference from baseline|-10.9|STANDARD_ERROR_OF_MEAN|8.59||0.21|TWO_SIDED|90.0|-25.29|3.48|||ANCOVA|Day 84||||3.48|-25.29|0.210
82513231|NCT04116229|164719255|OTHER|"Alternative hypothesis: higher levels of IL-10, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: IL-10 levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.5||||0.09|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.09
82513232|NCT04116229|164719255|OTHER|"Alternative hypothesis: higher levels of IL-10, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: IL-10 levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.2||||0.45|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.45
82513233|NCT04116229|164719256|OTHER|"Alternative hypothesis: higher levels of adiponectin, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: Adiponectin levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.38||||0.19|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.19
82569617|NCT02341599|164848841|OTHER|LS mean ratio of Group E: Period 1/Group E: Period 2|LS mean ratio|0.299|||||TWO_SIDED|90.0|0.236|0.378|||||LS mean ratio was calculated from ANOVA model.|||0.378|0.236|
82569618|NCT02341599|164848842|OTHER|LS mean ratio of Group B/Group A|LS mean ratio|1.04|||||TWO_SIDED|90.0|0.846|1.27|||||LS mean ratio was calculated from ANOVA model.|||1.27|0.846|
82634177|NCT02516605|164984346|OTHER||Median difference from baseline|13.92|STANDARD_ERROR_OF_MEAN|7.963||0.086||90.0|0.58|27.25|||ANCOVA|day 7||||27.25|0.58|0.086
82523753|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.0||||0.704|TWO_SIDED|95.0|-69.0|103.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 16||103|-69|0.704
82513234|NCT04116229|164719256|OTHER|"Alternative hypothesis: higher levels of adiponectin, an anti-inflammatory marker, will relate to lower levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: Adiponectin levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|-0.2||||0.52|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.52
82634178|NCT02516605|164984346|OTHER||Median difference from baseline|0.48|STANDARD_ERROR_OF_MEAN|7.787||0.951|TWO_SIDED|90.0|-12.57|13.53|||ANCOVA|Day 14||||13.53|-12.57|0.951
82634179|NCT02516605|164984346|OTHER||Median difference from baseline|5.02|STANDARD_ERROR_OF_MEAN|8.244||0.545|TWO_SIDED|90.0|-8.79|18.83|||ANCOVA|day 21||||18.83|-8.79|0.545
82513235|NCT04116229|164719257|OTHER|"Alternative hypothesis: higher levels of TNF-alpha, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: TNF-alpha levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|-0.05||||0.9|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.90
82634180|NCT02516605|164984346|OTHER||Median difference from baseline|0.19|STANDARD_ERROR_OF_MEAN|8.697||0.982|TWO_SIDED|90.0|-14.38|14.77|||ANCOVA|Day 28||||14.77|-14.38|0.982
82634181|NCT02516605|164984346|OTHER||Median difference from baseline|-13.82|STANDARD_ERROR_OF_MEAN|6.797||0.047|TWO_SIDED|90.0|-25.21|-2.43|||ANCOVA|day 56||||-2.43|-25.21|0.047
82634182|NCT02516605|164984346|OTHER||Median difference from baseline|-18.23|STANDARD_ERROR_OF_MEAN|8.11||0.029|TWO_SIDED|90.0|-31.81|-4.64|||ANCOVA|Day 84||||-4.64|-31.81|0.029
82513236|NCT04116229|164719257|OTHER|"Alternative hypothesis: higher levels of TNF-alpha, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: TNF-alpha levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.04||||0.87|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.87
82513237|NCT04116229|164719258|OTHER|"Alternative hypothesis: higher levels of MCP-1, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: MCP-1 levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.34||||0.26|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.26
82513238|NCT04116229|164719258|OTHER|"Alternative hypothesis: higher levels of MCP-1, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: MCP-1 levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.12||||0.71|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.71
82513239|NCT04116229|164719259|OTHER|"Alternative hypothesis: higher levels of CRP, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI restricted fraction after controlling for BMI.~Null hypothesis: CRP levels will not be related to DBSI RF in white matter tracts after controlling for BMI."|Slope|0.19||||0.54|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study. Analyses performed across normal-weight and obese groups.||||0.54
82513240|NCT04116229|164719259|OTHER|"Alternative hypothesis: higher levels of CRP, a pro-inflammatory marker, will relate to higher levels of putative neuroinflammation in white matter tracts as measured by DBSI hindered fraction after controlling for BMI.~Null hypothesis: CRP levels will not be related to DBSI HF in white matter tracts after controlling for BMI."|Slope|0.09||||0.77|TWO_SIDED|||||a priori threshold: p \< 0.05|Regression, Linear|||"This is a pilot study with a small sample. Power to detect significant results is therefore low in the current study.~Analyses performed across normal-weight and obese groups."||||0.77
82513241|NCT02595684|164719260|SUPERIORITY|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
82513242|NCT02595684|164719260|SUPERIORITY|||||||0.635|||||||Wilcoxon (Mann-Whitney)|||||||0.635
82513243|NCT02595684|164719261|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.380
82513244|NCT02595684|164719261|SUPERIORITY|||||||0.441|||||||Wilcoxon (Mann-Whitney)|||||||0.441
82513245|NCT02595684|164719262|SUPERIORITY|||||||515|||||||Wilcoxon (Mann-Whitney)|||||||0515
82513246|NCT02595684|164719262|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
82513247|NCT02595684|164719263|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82513248|NCT02595684|164719263|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
82513249|NCT02595684|164719264|SUPERIORITY|||||||0.767|||||||Wilcoxon (Mann-Whitney)|||||||0.767
82634183|NCT02516605|164984346|OTHER||Median difference from baseline|26.7|STANDARD_ERROR_OF_MEAN|8.799||0.004|TWO_SIDED|90.0|11.97|41.44|||ANCOVA|Day 7||||41.44|11.97|0.004
82634184|NCT02516605|164984346|OTHER||Median difference from baseline|8.17|STANDARD_ERROR_OF_MEAN|9.032||0.37|TWO_SIDED|90.0|-6.96|23.29|||ANCOVA|Day 14||||23.29|-6.96|0.370
82634185|NCT02516605|164984346|OTHER||Median difference from baseline|5.9|STANDARD_ERROR_OF_MEAN|10.014||0.558|TWO_SIDED|90.0|-10.86|22.66|||ANCOVA|Day 21||||22.66|-10.86|0.558
82634186|NCT02516605|164984346|OTHER||Median difference from baseline|8.91|STANDARD_ERROR_OF_MEAN|10.911||0.418|TWO_SIDED|90.0|-9.34|27.15|||ANCOVA|Day 28||||27.15|-9.34|0.418
82634187|NCT02516605|164984346|OTHER||Median difference from baseline|-11.08|STANDARD_ERROR_OF_MEAN|7.69||0.156|TWO_SIDED|90.0|-23.95|1.8|||ANCOVA|Day 56||||1.80|-23.95|0.156
82634188|NCT02516605|164984346|OTHER||Median difference from baseline|-16.93|STANDARD_ERROR_OF_MEAN|8.961||0.064|TWO_SIDED|90.0|-31.94|-1.92|||ANCOVA|Day 84||||-1.92|-31.94|0.064
82634189|NCT02643420|164984347|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% confidence interval (CI) of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|-0.148|||<|0.0001|TWO_SIDED|95.0|-0.266|-0.031|||t-statistics|The p-values are based on the calculated t-statistics from the bootstrapped sample mean and standard deviation.||||-0.031|-0.266|<0.0001
82634190|NCT02643420|164984348|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.685|TWO_SIDED|95.0|-1.43|0.94|||Negative binomial regression|||||0.94|-1.43|0.685
82634191|NCT02643420|164984349|SUPERIORITY||Median Difference (Final Values)|1.2||||0.155|TWO_SIDED|95.0|0.93|1.56|||Asymptotic normality assumption|P-value was obtained based upon asymptotic normality assumption on the log10 transformed data.||||1.56|0.93|0.155
82634192|NCT02643420|164984350|SUPERIORITY||Percent Difference|1.1||||0.435|TWO_SIDED|95.0|-8.6|10.8|||Fisher Exact|||||10.8|-8.6|0.435
82513250|NCT02595684|164719264|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||||||0.779
82513251|NCT02595684|164719265|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
82513252|NCT02595684|164719265|SUPERIORITY|||||||0.767|||||||Wilcoxon (Mann-Whitney)|||||||0.767
82513253|NCT02595684|164719266|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
82513254|NCT02595684|164719266|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
82634193|NCT02643420|164984351|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.042|||<|0.0001|TWO_SIDED|95.0|-0.032|0.116|||t-statistics|||DSN in Cycle 2||0.116|-0.032|<0.0001
82634194|NCT02643420|164984351|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.026|||<|0.0001|TWO_SIDED|95.0|-0.032|0.085|||t-statistics|||DSN in Cycle 3||0.085|-0.032|<0.0001
82634195|NCT02643420|164984351|NON_INFERIORITY|The margin of non-inferiority to be used in the study is 0.62 day. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% CI of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean Difference (Final Values)|0.027|||<|0.0001|TWO_SIDED|95.0|-0.036|0.089|||t-statistics|||DSN in Cycle 4||0.089|-0.036|<0.0001
82634196|NCT02643420|164984352|SUPERIORITY||Percent Difference|0.3||||1|TWO_SIDED|95.0|-9.5|10.0|||Fisher Exact|||||10.0|-9.5|1.000
82513255|NCT02595684|164719267|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
82513256|NCT02595684|164719267|SUPERIORITY|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
82513257|NCT02595684|164719268|SUPERIORITY|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
82513258|NCT02595684|164719268|SUPERIORITY|||||||0.086|||||||Wilcoxon (Mann-Whitney)|||||||0.086
82513259|NCT02595684|164719269|SUPERIORITY|||||||0.285|||||||Wilcoxon (Mann-Whitney)|||||||0.285
82513260|NCT02595684|164719269|SUPERIORITY|||||||0.854|||||||Wilcoxon (Mann-Whitney)|||||||0.854
82513261|NCT02595684|164719270|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
82513262|NCT02595684|164719270|SUPERIORITY|||||||0.263|||||||Wilcoxon (Mann-Whitney)|||||||0.263
82513263|NCT02595684|164719271|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
82634197|NCT02643420|164984353|SUPERIORITY||Percent Difference|0.0||||1|TWO_SIDED|95.0|-9.7|9.8|||Fisher Exact|||FN in Cycle 2||9.8|-9.7|1.000
82634198|NCT02643420|164984353|SUPERIORITY||Percent Difference|1.6||||0.201|TWO_SIDED|95.0|-8.2|11.3|||Fisher Exact|||FN in Cycle 3||11.3|-8.2|0.201
82634199|NCT02643420|164984353|SUPERIORITY||Percent Difference|1.0||||0.232|TWO_SIDED|95.0|-8.7|10.8|||Fisher Exact|||FN in Cycle 4||10.8|-8.7|0.232
82634200|NCT02127970|164984356|NON_INFERIORITY|The non-inferiority hypothesis test was to be a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in responder rates is greater than -10%, then the single-dose dalbavancin regimen was to be declared non-inferior to the two dose dalbavancin regimen.|Difference|-2.9|||||TWO_SIDED|95.0|-8.5|2.8|||||For the difference in clinical responder rates (single-dose group minus two dose group), the 95% CI was calculated using the Miettinen and Nurminen method without adjustment.|||2.8|-8.5|
82634201|NCT00542321|164984386|SUPERIORITY_OR_OTHER||difference between proportions|0.5||||1|TWO_SIDED|95.0|||||Fisher Exact|Chi-Square = 0.750, df = 1||Pearson Chi-Square Test for difference between groups||||1.00
82634202|NCT00542321|164984387|SUPERIORITY_OR_OTHER||Rank sums|52.0||||1|TWO_SIDED|95.0||||Alpha = .05|Wilcoxon (Mann-Whitney)|||There will be no difference in duration of mechanical ventilation between groups.||||1.0
82513264|NCT02595684|164719271|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
82513265|NCT02595684|164719272|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||||||0.722
82513266|NCT02595684|164719272|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
82513267|NCT02595684|164719273|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.260
82513268|NCT02595684|164719273|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82513269|NCT02595684|164719274|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
82513270|NCT02595684|164719274|SUPERIORITY|||||||0.952|||||||Wilcoxon (Mann-Whitney)|||||||0.952
82513271|NCT02595684|164719275|SUPERIORITY|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
82513272|NCT02595684|164719275|SUPERIORITY|||||||0.108|||||||Wilcoxon (Mann-Whitney)|||||||0.108
82513273|NCT02595684|164719276|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||||||0.092
82569619|NCT02341599|164848842|OTHER|LS mean ratio of Group C/Group A|LS mean ratio|0.524|||||TWO_SIDED|90.0|0.428|0.641|||||LS mean ratio was calculated from ANOVA model.|||0.641|0.428|
82634203|NCT00542321|164984388|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.451
82513274|NCT02595684|164719276|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
82513275|NCT04574362|164719277|SUPERIORITY||Risk Difference (RD)|9.2|||<|0.0001|TWO_SIDED|95.0|5.4|13.0|||Cochran-Mantel-Haenszel||Risk difference and associated 95 percent (%) confidence interval (CI) were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||13.0|5.4|<0.0001
82513276|NCT04574362|164719278|SUPERIORITY||Risk Difference (RD)|14.8|||<|0.0001|TWO_SIDED|95.0|9.6|20.0|||Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||20.0|9.6|<0.0001
82513277|NCT04574362|164719279|SUPERIORITY||Risk Difference (RD)|18.1|||<|0.0001|TWO_SIDED|95.0|13.0|23.3|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||23.3|13.0|<0.0001
82513278|NCT04574362|164719280|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.0001|TWO_SIDED|95.0|11.4|22.3|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||22.3|11.4|<0.0001
82513279|NCT04574362|164719281|SUPERIORITY||Risk Difference (RD)|-11.5|||<|0.0001|TWO_SIDED|95.0|-15.0|-8.0|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||-8.0|-15.0|<0.0001
82513280|NCT04574362|164719282|SUPERIORITY||Risk Difference (RD)|7.7|||<|0.0001|TWO_SIDED|95.0|4.3|11.2|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk differences and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||11.2|4.3|<0.0001
82513281|NCT04574362|164719283|SUPERIORITY||Risk difference|7.7|||<|0.0001|TWO_SIDED|95.0|4.4|11.0|||Cochran-Mantel-Haenszel|Within the family of key secondary endpoints, multiplicity was controlled using the Hochberg procedure.|Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||11.0|4.4|<0.0001
82513282|NCT04574362|164719284|SUPERIORITY||Risk difference|-0.7||||0.2057|TWO_SIDED|95.0|-1.9|0.4||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|15 minutes post-dose||0.4|-1.9|0.2057
82513283|NCT04574362|164719284|SUPERIORITY||Risk Difference (RD)|0.0||||0.9702|TWO_SIDED|95.0|-1.1|1.1||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|30 minutes post-dose||1.1|-1.1|0.9702
82513284|NCT04574362|164719284|SUPERIORITY||Risk Difference (RD)|1.0||||0.2419|TWO_SIDED|95.0|-0.7|2.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|45 minutes post-dose||2.8|-0.7|0.2419
82513285|NCT04574362|164719284|SUPERIORITY||Risk Difference (RD)|2.4||||0.0597|TWO_SIDED|95.0|-0.1|4.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|60 minutes post-dose||4.8|-0.1|0.0597
82513286|NCT04574362|164719284|SUPERIORITY||Risk Difference (RD)|5.2||||0.0012|TWO_SIDED|95.0|2.1|8.4||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|90 minutes post-dose||8.4|2.1|0.0012
82569620|NCT02341599|164848842|OTHER|LS mean ratio of Group D/Group A|LS mean ratio|0.678|||||TWO_SIDED|90.0|0.554|0.831|||||LS mean ratio was calculated from ANOVA model.|||0.831|0.554|
82569621|NCT02341599|164848842|OTHER|LS mean ratio of Group E: Period 1/Group A|LS mean ratio|0.273|||||TWO_SIDED|90.0|0.221|0.336|||||LS mean ratio was calculated from ANOVA model.|||0.336|0.221|
82634204|NCT00542321|164984389|SUPERIORITY_OR_OTHER||probability|0.43||||1||95.0|||||Fisher Exact|||||||1.0
82634205|NCT00542321|164984390|SUPERIORITY_OR_OTHER||Rank sums|56.0||||1|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0
82569622|NCT02341599|164848842|OTHER|LS mean ratio of Group E: Period 2/Group A|LS mean ratio|0.326|||||TWO_SIDED|90.0|0.265|0.402|||||LS mean ratio was calculated from ANOVA model.|||0.402|0.265|
82569623|NCT02341599|164848842|OTHER|LS mean ratio of Group E: Period 2/Group E: Period 1|LS mean ratio|0.808|||||TWO_SIDED|90.0|0.65|1.0|||||LS mean ratio was calculated from ANOVA model.|||1.00|0.650|
82513287|NCT04574362|164719285|SUPERIORITY||Risk Difference (RD)|-0.7||||0.6809|TWO_SIDED|95.0|-3.9|2.5||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|15 minutes post-dose||2.5|-3.9|0.6809
82513288|NCT04574362|164719285|SUPERIORITY||Risk Difference (RD)|2.2||||0.2586|TWO_SIDED|95.0|-1.6|6.0||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|30 minutes post-dose||6.0|-1.6|0.2586
82513289|NCT04574362|164719285|SUPERIORITY||Risk Difference (RD)|4.5||||0.0421|TWO_SIDED|95.0|0.2|8.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|45 minutes post-dose||8.8|0.2|0.0421
82569624|NCT01125566|164848851|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.4224||95.0|0.87|1.41||Two sided p-value was derived from a log rank test stratified by the setting of prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Regression, Cox||Hazard ratio is derived from Cox proportional hazard model stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|||1.41|0.87|0.4224
82569625|NCT01125566|164848852|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.024|TWO_SIDED|95.0|1.03|1.63||Two sided p-value from a log rank test stratified by the setting of prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Regression, Cox||Hazard ratio is derived from Cox proportional hazard model stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.63|1.03|0.0240
82569626|NCT01125566|164848853|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.6431||95.0|0.756|1.572|||Regression, Logistic|Logistic regression stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|The odds ratio for the comparison afatinib + vinorelbine vs. trastuzumab + vinorelbine below 1 favours Afatinib.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.572|0.756|0.6431
82569627|NCT01125566|164848854|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.029||||0.8829||95.0|0.707|1.496|||Regression, Logistic|Logistic regression stratified by prior Trastuzumab failure, hormone receptors status and region of the investigational site.|The odds ratio for the comparison afatinib + vinorelbine vs. trastuzumab + vinorelbine below 1 favours AV.|Results of presented analyses are to be seen as exploratory (no confirmatory testing was performed)||1.496|0.707|0.8829
82513290|NCT04574362|164719285|SUPERIORITY||Risk Difference (RD)|6.6||||0.0066|TWO_SIDED|95.0|1.8|11.3||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|60 minutes post-dose||11.3|1.8|0.0066
82569628|NCT00519285|164848857|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.3802|TWO_SIDED|95.6|0.822|1.08||A priori threshold for statistical significance was set to 0.044 using the O'Brien-Fleming alpha spending function to account for two interim analyses.|Log Rank|Log rank test stratified on ECOG Performance Status|Hazard ratio (HR) aflibercept versus placebo estimated from a Cox proportional hazard model stratified on ECOG Performance Status|"Null hypothesis: No difference between aflibercept and placebo~The study was designed to provide 90% power to detect a 1.25-fold increase in median survival with aflibercept compared to placebo at a overall one-sided significance level of 0.025 with 873 deaths."||1.08|0.822|0.3802
82569629|NCT02970305|164848868|SUPERIORITY||Difference in MMRM LSMs|-1.9|STANDARD_ERROR_OF_MEAN|0.95||0.0434|TWO_SIDED|95.0|-3.8|-0.1|||Mixed-effects model for repeated measure|||||-0.1|-3.8|0.0434
82569630|NCT00988117|164848903|SUPERIORITY_OR_OTHER||Tscore|5.19|||<|0.01||95.0||||t-tests were statistically thresholded using the joint probability distribution method to correct for multiple comparisons, p \< 0.01 for voxel height and p \< 0.05 for cluster extent|t-test, 2 sided|A mask included only those regions where the patients showed abnormally low fALFF at either timepoint relative to a sample of 15 age-matched controls.||"Each voxel's BOLD signal time series was detrended and transformed to the frequency domain. We divided the sum of the square roots across the 0.01-0.08 Hz range by that across the entire frequency range (0-0.25 Hz).~fALFF group comparisons were evaluated using t-tests corrected for multiple comparisons. To determine if there were treatment-associated changes in brain activity, we compared voxel-wise fALFF in the patients at baseline to post-treatment."||||<0.01
82569631|NCT00988117|164848904|SUPERIORITY_OR_OTHER||pearson's r correlation coefficient|-0.82|||<|0.01||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left inferior frontal gyrus / premotor falff change||||<.01
82569632|NCT00988117|164848904|SUPERIORITY_OR_OTHER||pearson's correlation coefficient|-0.35||||0.36||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left supplementary motor area falff change||||.36
82569633|NCT00988117|164848905|SUPERIORITY_OR_OTHER||pearson's r correlation|0.18||||0.58||95.0|||||Regression, Linear|||correlation with left premotor / inferior frontal gyri falff change||||.58
82513291|NCT04574362|164719285|SUPERIORITY||Risk Difference (RD)|9.9||||0.0002|TWO_SIDED|95.0|4.8|14.9||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|90 minutes post-dose||14.9|4.8|0.0002
82569634|NCT00988117|164848905|SUPERIORITY_OR_OTHER||pearson's correlation coefficient|0.26||||0.41||95.0||||This p-value was not adjusted for multiple comparisons.|Regression, Linear|||correlation with left supplementary motor area falff change||||.41
82513292|NCT04574362|164719286|SUPERIORITY||Risk Difference (RD)|-10.4||||0.1148|TWO_SIDED|95.0|-23.5|2.8||Nominal p-value|Cochran-Mantel-Haenszel||Risk difference and associated 95% CI were calculated from Mantel-Haenszel test, stratified by use of prophylactic medication and country. The risk difference was tested at a two-sided alpha level of 0.05.|||2.8|-23.5|0.1148
82513293|NCT00047463|164719293|SUPERIORITY_OR_OTHER|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the groups would be similar in tolerance. This was a pilot study so we did not do a power calculation.||||0.26
82523220|NCT01939548|164741715|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|3.11|STANDARD_ERROR_OF_MEAN|2.409||0.1991|TWO_SIDED|80.0|0.01|6.21||Primary analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), PANSS Total baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value of PANSS Total by treatment interaction and background antipsychotics.||6.21|0.01|0.1991
82569635|NCT01355471|164848914|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||GEE: Logit link function|Generalized Estimation Equation (GEE) methods with Logit link function and marginal expectation model.||||||<0.001
82569636|NCT02930837|164848915|SUPERIORITY||Percentage of patients|63.3|||<|0.0001|TWO_SIDED|95.0|54.42|71.42|||One-sample test||Percentage of patients with Favourable outcome|A null hypothesis of p ≤40% versus the alternative hypothesis of p \>40% was tested using a one sample test at two-sided significance level of 0.05, where p denoted the response rate in Chinese patients who were treated within 3-4.5 h after stroke onset.||71.42|54.42|<0.0001
82569637|NCT00006436|164848946|SUPERIORITY|||||||0.1|||||||Two-tailed log rank test||||Compared the PFS of interim PET positive participants to the PFS of interim PET negative.|||0.10
82569638|NCT01502371|164848961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.87||||0.019|TWO_SIDED|95.0|0.64|7.09||Constrained longitudinal data analysis (cLDA) model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA model|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 50 mcg BID vs. Placebo||7.09|0.64|0.019
82634206|NCT04138758|164984395|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.85|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of a first COPD exacerbation.||0.85|0.68|
82634207|NCT04138758|164984396|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.57|0.97|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of first hospitalization for community-acquired pneumonia.||0.97|0.57|
82634208|NCT04138758|164984397|OTHER|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of escalation.|Hazard Ratio (HR)|0.23|||||TWO_SIDED|95.0|0.19|0.27|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|||0.27|0.19|
82634209|NCT04138758|164984398|OTHER||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.19|0.26|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of escalation.||0.26|0.19|
82634210|NCT04138758|164984399|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.42|0.51|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of any element of a composite outcome including exacerbation, hospitalization for pneumonia, or escalation.||0.51|0.42|
82634211|NCT04138758|164984400|OTHER||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.41|0.49|||||Hazard Ratio lower than 1 favors Tiotropium + Olodaterol.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid therapy combination on the risk of any element of a composite outcome including exacerbation, hospitalization for pneumonia, or escalation.||0.49|0.41|
82634212|NCT02988115|164984403|SUPERIORITY||Least squares means difference|-21.41|STANDARD_ERROR_OF_MEAN|1.897|<|0.001|TWO_SIDED|95.0|-25.132|-17.697|||ANCOVA||bempedoic acid (BA) therapy minus placebo|||-17.697|-25.132|<0.001
82634213|NCT02988115|164984404|SUPERIORITY||Least squares means difference|-18.91|STANDARD_ERROR_OF_MEAN|2.063|<|0.001|TWO_SIDED|95.0|-22.951|-14.865|||ANCOVA||BA therapy minus placebo|||-14.865|-22.951|<0.001
82634214|NCT02988115|164984405|SUPERIORITY||Least squares means difference|-17.94|STANDARD_ERROR_OF_MEAN|1.597|<|0.001|TWO_SIDED|95.0|-21.07|-14.811|||ANCOVA||BA therapy minus placebo|non-HDL-C||-14.811|-21.070|<0.001
82634215|NCT02988115|164984405|SUPERIORITY||Least squares means difference|-14.76|STANDARD_ERROR_OF_MEAN|1.287|<|0.001|TWO_SIDED|95.0|-17.283|-12.239|||ANCOVA||BA therapy minus placebo|TC||-12.239|-17.283|<0.001
82634216|NCT02988115|164984405|SUPERIORITY||Least squares means difference|-14.96|STANDARD_ERROR_OF_MEAN|1.581|<|0.001|TWO_SIDED|95.0|-18.062|-11.866|||ANCOVA||BA therapy minus placebo|apoB||-11.866|-18.062|<0.001
82634217|NCT02988115|164984406|SUPERIORITY||Median treatment difference|-24.29|STANDARD_ERROR_OF_MEAN|-24.3|<|0.001|TWO_SIDED|95.0|-35.888|-12.712|||Wilcoxon rank sum test||BA therapy minus placebo|||-12.712|-35.888|<0.001
82634218|NCT00104299|164984425|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of -20%|Difference between group success rates|10.6|||<|0.001||95.1|-3.2|24.3||P-value is adjusted for interim analysis using a Lan-DeMets alpha spending function with an O'Brien-Fleming boundary, allocating 0.003 alpha to the interim analysis and 0.049 alpha to the final analysis.|95.1% CI of difference|Calculate 95.1% CI around the difference in success rates between arms. Lower bound above non-inferiority margin of -20% indicates non-inferiority.||In calculating the sample size, we assumed that the percentage of patients in both treatment groups would achieve disease remission off prednisone by 6 months was 70%. We specified a non-inferiority margin of -20% on the difference in remission rates (rituximab rate minus cyclophosphamide rate) and a one-sided 0.025 level test. Assuming a 10% dropout rate, RAVE required 100 patients in each arm to have 83% power to conclude non-inferiority.||24.3|-3.2|<0.001
82634219|NCT00104299|164984426|SUPERIORITY_OR_OTHER|||||||0.927||||||P-value is from the Poisson regression model adjusting for clinical study site and ANCA type. The natural logarithm of participant-months is used as an offset in this model|Poisson regression model|||Participant-months are defined as duration in months from the first study drug dosing date to the last date of the participant in the protocol. The rate of selected AEs is defined as the total number of selected AEs divided by total participant-months, and indicates the number of events per participant per month on average. Participants are grouped according to their originally received treatment.||||0.927
82634220|NCT00104299|164984427|SUPERIORITY_OR_OTHER||95.1% Confidence Interval of Difference|10.6||||0.133|TWO_SIDED|95.1|-3.2|24.4|||Chi-squared|At 6 months, the confidence interval is 95.1%.||The p-value is from a chi-square test.||24.4|-3.2|0.133
82569639|NCT01502371|164848961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.29|||<|0.001|TWO_SIDED|95.0|3.05|9.53||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 100 mcg BID vs. Placebo||9.53|3.05|<0.001
82569640|NCT01502371|164848961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.34||||0.001|TWO_SIDED|95.0|2.07|8.61||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 200 mcg BID vs. Placebo||8.61|2.07|0.001
82569641|NCT01502371|164848962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.15||||0.045|TWO_SIDED|95.0|0.43|37.87||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 50 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||37.87|0.43|0.045
82569642|NCT01502371|164848962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|27.35||||0.004|TWO_SIDED|95.0|8.63|46.08||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 100 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||46.08|8.63|0.004
82634221|NCT00104299|164984428|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.761|TWO_SIDED|95.0|0.5|1.7||The log-rank test assesses the difference between the two treatment arms in the flaring pattern after complete remission|Log Rank|The log-rank test assesses the difference between the two treatment arms in the flaring pattern after complete remission||Participants are censored at the time of crossover, open label rituximab, or best medical judgement, if applicable. If a participant has no flare after complete remission prior to their Month 18 visit, the duration is censored at the date of the Month 18 Visit||1.7|0.5|0.761
82634222|NCT00104299|164984429|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.861|TWO_SIDED|95.0|0.6|1.5|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the flaring pattern after remission||Participants are censored at the time of crossover, open label rituximab, or best medical judgement, if applicable. If a participant has no flare after complete remission prior to their Month 18 visit, the duration is censored at the date of the Month 18 Visit||1.5|0.6|0.861
82513294|NCT00113516|164719296|SUPERIORITY_OR_OTHER||probability|0.405|||||TWO_SIDED|90.0|0.315|0.494|||Kaplan-Meier||The probability of survival along with the corresponding confidence interval (CI) (for the log \[-log (1-year survival rate)\]) was calculated using a normal approximation and then back transformed to give a CI for the 1-year survival rate itself.|The study was designed to test the null hypothesis that the true one-year probability of survival is 0.40 versus the alternative hypothesis that the true one-year probability of survival is at least 0.55. The sample size was determined using a One-Sample Survival design, assuming alpha=0.05 (1-sided), power= 0.90, 6 month accrual, a minimum follow-up period of 12 months, and an expectation that approximately 5% of subjects may be lost to follow-up.||0.494|0.315|
82513295|NCT00113516|164719300|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|27.4|||||TWO_SIDED|95.0|18.2|38.2||||||||38.2|18.2|
82513296|NCT00113516|164719314|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Wilcoxon Rank Sum Test|||||||0.474
82569643|NCT01502371|164848962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.01||||0.057|TWO_SIDED|95.0|-0.51|36.53||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in AM PEF: MF MDI 200 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||36.53|-0.51|0.057
82634223|NCT00104299|164984430|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.497|TWO_SIDED|95.0|0.7|1.3|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the pattern of achieving remission|The hazard ratio and confidence interval are based on a Cox proportional hazard model comparing rituximab to the control group, adjusting for clinical study site, ANCA type, and glucocorticoid use prior to baseline.|||1.3|0.7|0.497
82634224|NCT00104299|164984431|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3||||0.147|TWO_SIDED|95.0|0.9|1.8|||Log Rank|The log-rank test assesses the difference between the two treatment arms in the pattern of achieving complete remission|The hazard ratio and confidence interval are based on a Cox proportional hazard model comparing rituximab to the control group, adjusting for clinical study site, ANCA type, and glucocorticoid use prior to baseline.|||1.8|0.9|0.147
82634225|NCT00104299|164984432|SUPERIORITY_OR_OTHER|||||||0.504||95.0|||||Chi-squared|||Proportions of subjects experiencing a serious adverse event through 18 months and prior to censoring for open-label, crossover, or best medical judgment according to originally assigned treatment arm were compared using a two-sided Chi-squared test.||||0.504
82634226|NCT02630459|164984450|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.58|-1.2||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.20|-2.58|<0.001
82513297|NCT00113516|164719315|SUPERIORITY_OR_OTHER|||||||0.836||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.836
82513298|NCT00113516|164719315|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.071
82513299|NCT00113516|164719315|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.393
82513300|NCT00113516|164719315|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.029
82569644|NCT01502371|164848963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.28|TWO_SIDED|95.0|-0.08|0.27||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 50 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.27|-0.08|0.280
82513301|NCT00113516|164719315|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.247
82513302|NCT00113516|164719316|SUPERIORITY_OR_OTHER|||||||0.305||95.0|||||Wilcoxon Rank Sum Test|||||||0.305
82634227|NCT02630459|164984450|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.31|||<|0.001|TWO_SIDED|95.0|-3.0|-1.62||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.62|-3.00|<0.001
82634228|NCT02630459|164984450|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.25||||0.004|TWO_SIDED|95.0|-2.1|-0.41||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-0.41|-2.10|0.004
82634229|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.3|13.8|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Full Administration||13.8|-13.3|
82634230|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Not Full Administration||13.3|-13.8|
82513303|NCT00113516|164719317|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.738
82513304|NCT00113516|164719317|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.438
82513305|NCT00113516|164719317|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.236
82513306|NCT00113516|164719317|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.287
82513307|NCT00113516|164719317|SUPERIORITY_OR_OTHER|||||||0.772||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.772
82513308|NCT00113516|164719318|SUPERIORITY_OR_OTHER|||||||0.537||95.0|||||Wilcoxon Rank Sum Test|||||||0.537
82513309|NCT00113516|164719319|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||Wilcoxon Rank Sum Test|||Cycle 1, Day 28||||0.813
82513310|NCT00113516|164719319|SUPERIORITY_OR_OTHER|||||||0.849||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 1||||0.849
82513311|NCT00113516|164719319|SUPERIORITY_OR_OTHER|||||||0.121||95.0|||||Wilcoxon Rank Sum Test|||Cycle 2, Day 28||||0.121
82513312|NCT00113516|164719319|SUPERIORITY_OR_OTHER|||||||0.582||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 1||||0.582
82513313|NCT00113516|164719319|SUPERIORITY_OR_OTHER|||||||0.383||95.0|||||Wilcoxon Rank Sum Test|||Cycle 3, Day 28||||0.383
82513314|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.6782|TWO_SIDED|95.0|0.61|2.15|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.15|0.61|0.6782
82513315|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.198|TWO_SIDED|95.0|0.77|3.3|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.30|0.77|0.1980
82513316|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.1344|TWO_SIDED|95.0|0.82|3.98|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.98|0.82|0.1344
82513317|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.4809|TWO_SIDED|95.0|0.56|3.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||3.39|0.56|0.4809
82513318|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.6||||0.0153|TWO_SIDED|95.0|1.19|11.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 3, Day 1||11.13|1.19|0.0153
82513319|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.7||||0.2085|TWO_SIDED|95.0|0.52|14.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 3, Day 28||14.37|0.52|0.2085
82513320|NCT00113516|164719320|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group|Cycle 5, Day 28||23.57|0.08|0.8084
82513321|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.507|TWO_SIDED|95.0|0.65|2.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.39|0.65|0.5070
82513322|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.4474|TWO_SIDED|95.0|0.63|2.82|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||2.82|0.63|0.4474
82513323|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7599|TWO_SIDED|95.0|0.4|1.95|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||1.95|0.40|0.7599
82513324|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0109|TWO_SIDED|95.0|0.12|0.8|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||0.80|0.12|0.0109
82634231|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 4: Discontinued Investigational Product||13.3|-13.8|
82513325|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.6878|TWO_SIDED|95.0|0.43|3.58|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||3.58|0.43|0.6878
82513326|NCT00113516|164719321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.7||||0.4637|TWO_SIDED|95.0|0.38|8.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||8.12|0.38|0.4637
82634232|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.3|13.8|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Full Administration||13.8|-13.3|
82569645|NCT01502371|164848963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.178|TWO_SIDED|95.0|-0.06|0.3||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 100 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.30|-0.06|0.178
82569646|NCT01502371|164848963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.18||||0.045|TWO_SIDED|95.0|0.0|0.36||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA|||Change from Baseline in PAQLQ(S) Total Score: MF MDI 200 mcg BID vs. Placebo. Only participants who received MF MDI or Placebo were included in the statistical analysis.||0.36|0.00|0.045
82634233|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Not Full Administration||13.3|-13.8|
82380229|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|-54.53|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease during the RSV season in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|-54.53|
82569647|NCT01502371|164848964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.39||||0.368|TWO_SIDED|95.0|-1.65|4.44||cLDA model method proposed by Liang \& Zeger includes terms for treatment, time in weeks, age strata (age 5-6, 7-11), treatment by time interaction \& region (North America, Latin America \& the European Union)|cLDA model|||Change from Baseline in percent predicted FEV1 at Week 12: MF MDI 50 mcg BID vs. MF DPI 100 mcg QD. Only participants who received MF MDI 50 mcg BID or MF DPI 100 mcg QD were included in the statistical analysis.||4.44|-1.65|0.368
82634234|NCT02630459|164984451|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-13.8|13.3|||||The 95% CI for the difference was calculated using the Newcombe hybrid score method.|Week 8: Discontinued Investigational Product||13.3|-13.8|
82380230|NCT04886596|164470108|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|100.0|||||TWO_SIDED|95.0|-54.53|100.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to RT-PCR-confirmed RSV respiratory disease or complication related to RT-PCR-confirmed RSV ARI during the RSV season in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||100.00|-54.53|
82513327|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5277|TWO_SIDED|95.0|0.39|1.62|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.62|0.39|0.5277
82513328|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.466|TWO_SIDED|95.0|0.58|3.29|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 1, Day 28||3.29|0.58|0.4660
82513329|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.5337|TWO_SIDED|95.0|0.52|3.44|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 2, Day 1||3.44|0.52|0.5337
82513330|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0712|TWO_SIDED|95.0|0.13|1.13|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 2, Day 28||1.13|0.13|0.0712
82513331|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.2948|TWO_SIDED|95.0|0.54|7.07|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 3, Day 1||7.07|0.54|0.2948
82634235|NCT02630459|164984452|SUPERIORITY||Common Odds Ratio|4.73|||<|0.001|TWO_SIDED|95.0|2.24|9.99||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a Cochran-Mantel-Haenszel (CMH) test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||9.99|2.24|<0.001
82634236|NCT02630459|164984452|SUPERIORITY||Common Odds Ratio|5.6|||<|0.001|TWO_SIDED|95.0|2.6|12.06||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a CMH test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||12.06|2.60|<0.001
82634237|NCT02630459|164984452|SUPERIORITY||Common Odds Ratio|3.21||||0.009|TWO_SIDED|95.0|1.3|7.88||P-values for pairwise comparisons were nominal and obtained from the CMH test using data including placebo and corresponding erenumab dose group only.|Cochran-Mantel-Haenszel|||The common odds ratios and p-values were obtained from a CMH test, stratified by stratification factor prior/current treatment with migraine prophylactic medication status.||7.88|1.30|0.009
82634238|NCT02630459|164984453|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.04|||<|0.001|TWO_SIDED|95.0|-2.63|-1.45||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.45|-2.63|<0.001
82634239|NCT02630459|164984453|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-2.07|||<|0.001|TWO_SIDED|95.0|-2.66|-1.49||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-1.49|-2.66|<0.001
82634240|NCT02630459|164984453|SUPERIORITY|To maintain a family-wise type I error at 0.05, the pairwise comparisons were tested in a sequential testing procedure in the order of erenumab 140 mg QM vs placebo, erenumab 70 mg QM vs placebo and erenumab 28 mg QM vs placebo. The lower dose group was tested only when the higher dose group was considered statistically significant.|LS Mean Difference|-1.07||||0.004|TWO_SIDED|95.0|-1.8|-0.35||P-values for pairwise comparisons were nominal and without multiplicity adjustment.|Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit interaction, stratification factor (prior/current treatment with migraine prophylactic medication status), and baseline value as covariates and assumed a first-order autoregressive covariance structure||-0.35|-1.80|0.004
82513332|NCT00113516|164719322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.3||||0.32|TWO_SIDED|95.0|0.28|38.48|||Log Rank||HR was based upon the ratio of \>=Median Cutpoint group hazard to \<Median Cutpoint group.|Cycle 3, Day 28||38.48|0.28|0.3200
82513333|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.7824|TWO_SIDED|95.0|0.56|2.17|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.17|0.56|0.7824
82513334|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.1918|TWO_SIDED|95.0|0.77|3.47|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.47|0.77|0.1918
82513335|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.1093|TWO_SIDED|95.0|0.85|4.3|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||4.30|0.85|0.1093
82513336|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.4809|TWO_SIDED|95.0|0.56|3.39|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||3.39|0.56|0.4809
82513337|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.2||||0.011|TWO_SIDED|95.0|1.26|13.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||13.85|1.26|0.0110
82513338|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.7||||0.2085|TWO_SIDED|95.0|0.52|14.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||14.37|0.52|0.2085
82513339|NCT00113516|164719323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||23.57|0.08|0.8084
82513340|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.5215|TWO_SIDED|95.0|0.62|2.53|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.53|0.62|0.5215
82513341|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.2504|TWO_SIDED|95.0|0.72|3.49|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.49|0.72|0.2504
82513342|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.8766|TWO_SIDED|95.0|0.42|2.11|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||2.11|0.42|0.8766
82513343|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0109|TWO_SIDED|95.0|0.12|0.8|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||0.80|0.12|0.0109
82569648|NCT02811302|164848979|OTHER|A simple count and percentage of the population were calculated based on the number of patients adjudicated as having Respiratory Depression.|||||||||||||||||To determine the risk assessment score, first the number of patients with Respiratory Depression (RD) had to be identified. Per the rules established for the Clinical Endpoint Committee, 655 (43.6%) patients were identified as having RD.|||
82513344|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.5627|TWO_SIDED|95.0|0.46|4.18|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||4.18|0.46|0.5627
82569649|NCT02811302|164848980|OTHER|Multivariable model for (Multivariate logistic regression) Respiratory Depression, followed by validation with Harrell's Optimism using a bootstrap sampling method.|Area Under the Curve|0.76|||||TWO_SIDED|95.0|0.73|0.79|||||The model was performed using stepwise selection including all potential predictors and interactions terms (medical history and baseline characteristics).|A modified Full Analysis Dataset (1335) was used to derive and validate the risk assessment tool. Subjects were excluded if they had major deviations or consent withdrawals. Subjects that did not have any monitoring data were also excluded. Finally, 69 subjects were further excluded from the model, as they were missing parameters to calculate their risk score.|The model derived from the logistic regression was assessed by the Hosmer-Lemshow goodness of fit test (P = 0.831). The derived model was validated by Harrell's Optimism using a Bootstrap sampling method (500 samples from the modified dataset, 1335) with replacement. The logistic regression model with stepwise selection was performed for each bootstrap sample, and AUC calculated. The optimism calculated by Harrell's algorithm was 0.02. The model was then checked for the quartiles of the effective monitoring and for geography used as a random effect. The performance measurement of the final model was adjusted according the Harrell's Optimism for a final adjusted AUC of 0.74.|0.79|0.73|
82513345|NCT00113516|164719324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.7||||0.4637|TWO_SIDED|95.0|0.38|8.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||8.12|0.38|0.4637
82513346|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.6682|TWO_SIDED|95.0|0.39|1.84|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.84|0.39|0.6682
82513347|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.6854|TWO_SIDED|95.0|0.49|3.0|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.00|0.49|0.6854
82569650|NCT02598934|164848986|SUPERIORITY_OR_OTHER||Difference in percentage of participants|16.9||||0.002|TWO_SIDED|95.0|6.1|27.7||P-value between Consult group and Non-consult group for the item in the BCS: ibandronate was effective in treating osteoporosis|Chi-squared, Corrected|||||27.7|6.1|0.002
82569651|NCT02598934|164848986|SUPERIORITY_OR_OTHER||Difference in percentage of participants|14.9||||0.009|TWO_SIDED|95.0|4.0|25.8||P-value between Consult group and Non-consult group for the item in the BCS: ibandronate reduces risk of breaking bone.|Chi-squared, Corrected|||||25.8|4.0|0.009
82569652|NCT02598934|164848986|SUPERIORITY_OR_OTHER||Difference in percentage of participants|16.9||||0.001|TWO_SIDED|95.0|6.3|27.5|||Chi-squared, Corrected|P-value between Consult group and Non-consult group for items in BCS: ibandronate effective in treating osteoporosis or reduces risk of breaking bone.||||27.5|6.3|0.001
82569653|NCT02598934|164848986|SUPERIORITY_OR_OTHER||Difference in percentage of participants|14.9||||0.01|TWO_SIDED|95.0|3.9|25.9||P-value between Consult group and Non-consult group for items in BCS: ibandronate effective in treating osteoporosis and reduces risk of breaking bone.|Chi-squared, Corrected|||||25.9|3.9|0.010
82569654|NCT03302559|164849025|OTHER|Testing hypothesis is that the mean change from baseline is zero.|||||<|0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||<0.001
82513348|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.6028|TWO_SIDED|95.0|0.49|3.37|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.37|0.49|0.6028
82569655|NCT03302559|164849026|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.005||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Forehead)||||0.005
82569656|NCT03302559|164849026|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Periocular)||||0.02
82569657|NCT03302559|164849026|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.0006||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Cheeks)||||0.0006
82569658|NCT03302559|164849026|OTHER|Testing hypothesis is that the mean change from baseline is zero||||||0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Perioral)||||0.001
82569659|NCT03302559|164849027|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Forehead)||||0.02
82569660|NCT03302559|164849027|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.006||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Periocular)||||0.006
82513349|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0712|TWO_SIDED|95.0|0.13|1.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.13|0.13|0.0712
82513350|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.3411|TWO_SIDED|95.0|0.5|7.15|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||7.15|0.50|0.3411
82569661|NCT03302559|164849027|OTHER|Testing hypothesis is that the mean change from baseline is zero.|||||<|0.001||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Cheeks)||||<0.001
82569662|NCT03302559|164849027|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.5||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Perioral)||||0.5
82513351|NCT00113516|164719325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.3||||0.32|TWO_SIDED|95.0|0.28|38.48|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||38.48|0.28|0.3200
82513352|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.4768|TWO_SIDED|95.0|0.7|2.17|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.17|0.70|0.4768
82634241|NCT00125138|164984462|SUPERIORITY_OR_OTHER||Difference of LS Mean|0.1||||0.5177|TWO_SIDED|95.0|-6.3|6.6||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||6.6|-6.3|0.5177
82634242|NCT00125138|164984462|SUPERIORITY_OR_OTHER||Difference of LS mean|-2.9||||0.1519|TWO_SIDED|95.0|-8.5|2.7||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||2.7|-8.5|0.1519
82513353|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.1484|TWO_SIDED|95.0|0.84|3.13|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.13|0.84|0.1484
82513354|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.8957|TWO_SIDED|95.0|0.5|2.18|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||2.18|0.50|0.8957
82513355|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5681|TWO_SIDED|95.0|0.33|1.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.85|0.33|0.5681
82513356|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.8||||0.0074|TWO_SIDED|95.0|1.35|10.88|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||10.88|1.35|0.0074
82513357|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.1637|TWO_SIDED|95.0|0.06|1.7|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||1.70|0.06|0.1637
82513358|NCT00113516|164719326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6||||0.4328|TWO_SIDED|95.0|0.23|29.12|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||29.12|0.23|0.4328
82513359|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.4269|TWO_SIDED|95.0|0.72|2.21|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||2.21|0.72|0.4269
82569663|NCT03302559|164849028|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.002||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.002
82569664|NCT03302559|164849029|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.0008||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.0008
82513360|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.929|TWO_SIDED|95.0|0.51|1.86|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||1.86|0.51|0.9290
82513361|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.8195|TWO_SIDED|95.0|0.44|1.91|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||1.91|0.44|0.8195
82513362|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.221|TWO_SIDED|95.0|0.26|1.38|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.38|0.26|0.2210
82513363|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.4297|TWO_SIDED|95.0|0.24|1.85|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||1.85|0.24|0.4297
82634243|NCT00125138|164984462|SUPERIORITY_OR_OTHER||Difference of LS mean|0.3||||0.5406|TWO_SIDED|95.0|-5.2|5.8||One-sided pairwise p-value comparing each active treatment to placebo.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||The null hypothesis for each endpoint is that each melperone dose has the same mean as placebo; the alternative hypothesis is that at least one dose is more efficacious than placebo. Only subjects with both a baseline and Day 43 (end of Maintenance Phase) value are included.||5.8|-5.2|0.5406
82513364|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0522|TWO_SIDED|95.0|0.06|1.11|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||1.11|0.06|0.0522
82634244|NCT00125138|164984463|SUPERIORITY_OR_OTHER|||||||0.9212||95.0||||Overall p-value using a one-way ANCOVA.|ANCOVA|One-way ANCOVA: Treatment, country, and baseline anti-psychotic medication status (recent or distant) as factors; baseline measurement as a covariate.||Only subjects with both a baseline and a post-baseline value are included.||||0.9212
82634245|NCT01258738|164984479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.64||||0.0062|TWO_SIDED|95.0|5.36|27.92||P-value \<0.05 was required to declare statistical significance.|Cochran-Mantel-Haenszel|||"The null hypothesis was that the efficacy of etanercept was not different from placebo as measured by the proportion of subjects achieving an ASAS 40 response after 12 weeks of treatment. The alternative hypothesis was that the efficacy of etanercept was different from placebo.~The primary endpoint was tested at 2-sided alpha = 0.05 significance level. Comparative analysis was carried out for Week 12 data only."||27.92|5.36|0.0062
82634246|NCT01258738|164984480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.46||||0.0059|TWO_SIDED|95.0|3.69|19.24|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||19.24|3.69|0.0059
82634247|NCT01258738|164984480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.19||||0.3786|TWO_SIDED|95.0|-4.98|15.35|||Cochran-Mantel-Haenszel|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4"||15.35|-4.98|0.3786
82634248|NCT01258738|164984480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.83||||0.0304|TWO_SIDED|95.0|1.79|23.87|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||23.87|1.79|0.0304
82634249|NCT01258738|164984480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.52||||0.0023|TWO_SIDED|95.0|7.29|29.75|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||29.75|7.29|0.0023
82634250|NCT01258738|164984481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.44||||0.0189|TWO_SIDED|95.0|3.2|25.68|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||25.68|3.20|0.0189
82634251|NCT01258738|164984481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.29||||0.0983|TWO_SIDED|95.0|-2.17|22.75|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||22.75|-2.17|0.0983
82634252|NCT01258738|164984481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.61||||0.0867|TWO_SIDED|95.0|-2.63|23.84|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||23.84|-2.63|0.0867
82634253|NCT01258738|164984481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.27||||0.0195|TWO_SIDED|95.0|3.1|29.43|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||29.43|3.10|0.0195
82634254|NCT01258738|164984482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.63|||<|0.0001|TWO_SIDED|95.0|11.85|33.41|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||33.41|11.85|<0.0001
82513365|NCT00113516|164719327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.6949|TWO_SIDED|95.0|0.05|7.0|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||7.00|0.05|0.6949
82513366|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.766|TWO_SIDED|95.0|0.51|1.65|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 1||1.65|0.51|0.7660
82513367|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.2682|TWO_SIDED|95.0|0.72|3.23|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 1, Day 28||3.23|0.72|0.2682
82513368|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.2726|TWO_SIDED|95.0|0.69|3.7|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 1||3.70|0.69|0.2726
82513369|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.2787|TWO_SIDED|95.0|0.22|1.55|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 2, Day 28||1.55|0.22|0.2787
82569665|NCT03302559|164849030|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.02||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12||||0.02
82569666|NCT03302559|164849035|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.3||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Normal Skin)||||0.3
82569667|NCT03302559|164849035|OTHER|Testing hypothesis is that the mean change from baseline is zero.||||||0.4||||||Statistical significance is defined as a p-value ≤0.05.|Paired t-test|||Change from Baseline at Week 12 (Target Lesion)||||0.4
82569668|NCT03469492|164849081|SUPERIORITY|||||||0.006|||||||Regression, Linear|||||||0.006
82569669|NCT03469492|164849085|SUPERIORITY|||||||0.266|||||||Mixed Models Analysis|||||||0.266
82569670|NCT03469492|164849088|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82569671|NCT03469492|164849089|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82634255|NCT01258738|164984482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.83||||0.0021|TWO_SIDED|95.0|5.09|20.57|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||20.57|5.09|0.0021
82634256|NCT01258738|164984482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.89||||0.002|TWO_SIDED|95.0|5.18|24.6|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||24.60|5.18|0.0020
82634257|NCT01258738|164984482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.79|||<|0.0001|TWO_SIDED|95.0|10.92|32.67|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||32.67|10.92|<0.0001
82569672|NCT01726049|164849091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-4.5|-0.3||||||||-0.3|-4.5|
82569673|NCT01726049|164849091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||||TWO_SIDED|95.0|-7.1|-2.3||||||||-2.3|-7.1|
82569674|NCT01726049|164849092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.9|1.4||||||||1.4|-0.9|
82569675|NCT01726049|164849092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-0.3|1.6||||||||1.6|-0.3|
82569676|NCT01726049|164849093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.9|0.1||||||||0.1|-0.9|
82569677|NCT01726049|164849093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||||0.1|-0.5|
82569678|NCT01726049|164849094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.9|1.0||||||||1.0|-1.9|
82569679|NCT01726049|164849094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|||||TWO_SIDED|95.0|-5.2|-1.8||||||||-1.8|-5.2|
82569680|NCT02416713|164849113|SUPERIORITY||relative change from baseline|0.66||||0.12|TWO_SIDED|95.0|-0.18|1.51|||Mixed Models Analysis|||||1.51|-0.18|0.12
82569681|NCT02416713|164849113|SUPERIORITY||relative change from baseline|-0.3||||0.49|TWO_SIDED|95.0|-1.17|0.57|||Mixed Models Analysis|||||0.57|-1.17|0.49
82569682|NCT02416713|164849113|SUPERIORITY||Slope|-0.16||||0.7|TWO_SIDED|95.0|-1.0|0.69|||Mixed Models Analysis|||||0.69|-1.00|0.70
82569683|NCT04190225|164849154|SUPERIORITY||Median Difference (Final Values)|18.4||||0.04|TWO_SIDED|95.0|4.67|37.28|||quantile regression||Median difference is not the difference in the two medians, but is the median of differences between groups (why it is 18.4 and not 23)|||37.28|4.67|0.04
82569684|NCT04190225|164849155|SUPERIORITY||Median Difference (Final Values)|23.5||||0.03|TWO_SIDED|95.0|8.35|32.76|||quantile regression|||||32.76|8.35|0.03
82569685|NCT01850823|164849177|EQUIVALENCE|Equivalence based on Test/Reference Ratio and 90% confidence interval (as per OGD guidance)|Ratio Test/Reference LS Mean|114.723|||||TWO_SIDED|90.0|99.077|134.286||||||Conducted on Per Protocol Population||134.286|99.077|
82569686|NCT01850823|164849178|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||The superiority of treatment over the placebo will be concluded if the treatment's mean change from baseline is statistically significantly greater (p\<0.05, 2-sided) than that of the placebo in the ANCOVA based on the treatment and placebo results. The superiority of Test and Reference treatments over the placebo will be evaluated identically in a separate ANCOVA.||||<0.0001
82569687|NCT01850823|164849178|SUPERIORITY|||||||0.0002|||||||ANCOVA|||The superiority of treatment over the placebo will be concluded if the treatment's mean change from baseline is statistically significantly greater (p\<0.05, 2-sided) than that of the placebo in the ANCOVA based on the treatment and placebo results. The superiority of Test and Reference treatments over the placebo will be evaluated identically in a separate ANCOVA.||||0.0002
82569688|NCT01751165|164849180|NON_INFERIORITY_OR_EQUIVALENCE|Non-nferiority criteria: The upper limit (UL) of the 97.5% confidence interval (CI) for the anti-gE ELISA geometric mean concentration (GMC) ratio (0,2-month schedule over 0,6-month schedule) at one month post-dose 2 had to be below 1.5.|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.98|1.39|||ANCOVA|||To demonstrate the non-inferiority in terms of anti-gE humoral immune response one month post-dose 2 given according to a 0,6-month schedule compared to a 0,2-month schedule.||1.39|0.98|
82513370|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.4||||0.0241|TWO_SIDED|95.0|1.09|17.56|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 1||17.56|1.09|0.0241
82513371|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.4||||0.0943|TWO_SIDED|95.0|0.59|48.81|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 3, Day 28||48.81|0.59|0.0943
82569689|NCT01751165|164849180|NON_INFERIORITY_OR_EQUIVALENCE|Non-nferiority criteria: The upper limit (UL) of the 97.5% confidence interval (CI) for the anti-gE ELISA geometric mean concentration (GMC) ratio (0,2-month schedule over 0,6-month schedule) at one month post-dose 2 had to be below 1.5.|Adjusted GMC ratio|1.19|||||TWO_SIDED|97.5|0.93|1.53|||ANCOVA|||To demonstrate the non-inferiority in terms of anti-gE humoral immune response one month post-dose 2 given according to a 0,12-month schedule compared to a 0,2-month schedule.||1.53|0.93|
82634258|NCT01258738|164984483|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82569690|NCT01387815|164849191|OTHER||||||<|0.001|||||||Chi-squared|||Comparison does not include missing.||||<0.001
82569691|NCT01387815|164849192|OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
82634259|NCT01258738|164984483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.74|-0.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.34|-0.74|<0.001
82569692|NCT01387815|164849193|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82569693|NCT01387815|164849194|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82569694|NCT01387815|164849195|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82569695|NCT01387815|164849196|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82569696|NCT01387815|164849197|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82569697|NCT01387815|164849198|OTHER|||||||0.016|||||||t-test, 2 sided|||||||0.016
82569698|NCT01387815|164849199|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.060
82569699|NCT01387815|164849200|OTHER|||||||0.056|||||||t-test, 2 sided|||||||0.056
82569700|NCT01387815|164849201|OTHER|||||||0.755|||||||t-test, 2 sided|||||||0.755
82569701|NCT01387815|164849202|OTHER|||||||0.091|||||||t-test, 2 sided|||||||0.091
82569702|NCT01387815|164849203|OTHER|||||||0.106|||||||t-test, 2 sided|||||||0.106
82569703|NCT01387815|164849204|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82569704|NCT01387815|164849205|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
82513372|NCT00113516|164719328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.8084|TWO_SIDED|95.0|0.04|11.79|||Log Rank||HR was based upon the ratio of \> = median cutpoint group hazard to \< median cutpoint group.|Cycle 5, Day 28||11.79|0.04|0.8084
82569705|NCT01387815|164849206|OTHER|||||||0.083|||||||t-test, 2 sided|||||||0.083
82569706|NCT01387815|164849207|OTHER|||||||0.495|||||||t-test, 2 sided|||||||0.495
82569707|NCT01387815|164849208|OTHER|||||||0.097|||||||t-test, 2 sided|||||||0.097
82569708|NCT01387815|164849209|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
82634260|NCT01258738|164984483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.81|-0.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.41|-0.81|<0.001
82380231|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-1.81|||||TWO_SIDED|95.0|-25.43|17.49|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||17.49|-25.43|
82380232|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-4.72|||||TWO_SIDED|95.0|-28.26|14.61|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory disease during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||14.61|-28.26|
82380233|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-3.61|||||TWO_SIDED|95.0|-28.2|16.38|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine||16.38|-28.20|
82380234|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-3.59|||||TWO_SIDED|95.0|-27.55|15.98|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory diseases during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||15.98|-27.55|
82513373|NCT01298063|164719340|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|92.64|STANDARD_DEVIATION|33.6||0.1998|TWO_SIDED|90.0|67.96|126.27||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||126.270|67.960|0.1998
82513374|NCT01298063|164719340|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|94.88|STANDARD_DEVIATION|31.6||0.144|TWO_SIDED|90.0|72.278|124.549||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||124.549|72.278|0.1440
82569709|NCT01387815|164849210|OTHER|||||||0.037|||||||t-test, 2 sided|||||||0.037
82569710|NCT01387815|164849211|OTHER|||||||0.084|||||||t-test, 2 sided|||||||0.084
82569711|NCT01387815|164849212|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.090
82569712|NCT01387815|164849213|OTHER|||||||0.059|||||||t-test, 2 sided|||||||0.059
82569713|NCT01387815|164849214|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
82569714|NCT01387815|164849215|OTHER|||||||0.115|||||||t-test, 2 sided|||||||0.115
82569715|NCT01387815|164849216|OTHER|||||||0.002|||||||Log Rank|||||||0.002
82569716|NCT01387815|164849217|OTHER|||||||0.002|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.002
82569717|NCT01387815|164849218|OTHER|"Comparison does not include the Missing category."||||||0.017|||||||Chi-squared|||||||0.017
82569718|NCT01387815|164849219|OTHER|||||||0.01||||||"Comparison does not include the Missing category."|Chi-squared|||||||0.010
82569719|NCT01387815|164849220|OTHER|||||||0.015|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.015
82569720|NCT01387815|164849221|OTHER|||||||0.06|||||||Chi-squared|||"Comparison does not include the Missing category."||||0.060
82569721|NCT01387815|164849222|OTHER|||||||0.501|||||||t-test, 2 sided|||||||0.501
82569722|NCT01387815|164849223|OTHER|||||||0.807|||||||t-test, 2 sided|||||||0.807
82569723|NCT01387815|164849224|OTHER|||||||0.479|||||||t-test, 2 sided|||||||0.479
82569724|NCT01387815|164849225|OTHER|||||||0.918|||||||t-test, 2 sided|||||||0.918
82569725|NCT01387815|164849226|OTHER|||||||0.609|||||||t-test, 2 sided|||||||0.609
82569726|NCT01387815|164849227|OTHER|||||||0.367|||||||t-test, 2 sided|||||||0.367
82569727|NCT01387815|164849228|OTHER|||||||0.521|||||||t-test, 2 sided|||||||0.521
82569728|NCT01387815|164849229|OTHER|||||||0.793|||||||t-test, 2 sided|||||||0.793
82569729|NCT01387815|164849230|OTHER|||||||0.442|||||||t-test, 2 sided|||||||0.442
82569730|NCT01387815|164849231|OTHER|||||||0.434|||||||t-test, 2 sided|||||||0.434
82569731|NCT01387815|164849232|OTHER|||||||0.752|||||||t-test, 2 sided|||||||0.752
82569732|NCT01387815|164849233|OTHER|||||||0.469|||||||t-test, 2 sided|||||||0.469
82569733|NCT01387815|164849234|OTHER|||||||0.419|||||||t-test, 2 sided|||||||0.419
82380235|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.98|||||TWO_SIDED|95.0|-23.52|23.99|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the RSV season in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||23.99|-23.52|
82380236|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|-1.71|||||TWO_SIDED|95.0|-28.56|19.7|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory disease during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||19.70|-28.56|
82380237|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|4.8|||||TWO_SIDED|95.0|-22.14|26.0|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||26.00|-22.14|
82513375|NCT01298063|164719341|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|109.47|STANDARD_DEVIATION|30.3||0.2002|TWO_SIDED|90.0|82.683|144.947||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||144.947|82.683|0.2002
82513376|NCT01298063|164719341|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|126.89|STANDARD_DEVIATION|42.8||0.5281|TWO_SIDED|90.0|86.028|187.159||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||187.159|86.028|0.5281
82634261|NCT01258738|164984483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.85|-0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.37|-0.85|<0.001
82634262|NCT01258738|164984484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.84||||0.0209|TWO_SIDED|95.0|2.58|23.09|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||23.09|2.58|0.0209
82569734|NCT01387815|164849235|OTHER|||||||0.695|||||||t-test, 2 sided|||||||0.695
82513377|NCT01298063|164719342|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|90.61|STANDARD_DEVIATION|32.8||0.2309|TWO_SIDED|90.0|66.915|122.705||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||122.705|66.915|0.2309
82569735|NCT01387815|164849236|OTHER|||||||0.452|||||||t-test, 2 sided|||||||0.452
82634263|NCT01258738|164984484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.65||||0.0179|TWO_SIDED|95.0|1.82|15.48|||Cochran-Mantel-Haenszel|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only.~Week 2"||15.48|1.82|0.0179
82380238|NCT04886596|164470109|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|4.64|||||TWO_SIDED|95.0|-21.73|25.48|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of hospitalization due to any respiratory diseases or complication related to any respiratory diseases during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||25.48|-21.73|
82442271|NCT01062841|164593071|SUPERIORITY_OR_OTHER||Rate Ratio|0.77|||<|0.05|TWO_SIDED|95.0|0.62|0.94||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.94|0.62|<0.05
82442272|NCT01062841|164593072|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.54||||0.04|TWO_SIDED|95.0|0.3|0.97|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||0.97|0.30|0.04
82569736|NCT01387815|164849237|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
82634264|NCT01258738|164984484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.81||||0.0611|TWO_SIDED|95.0|-0.03|13.65|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||13.65|-0.03|0.0611
82513378|NCT01298063|164719342|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|94.49|STANDARD_DEVIATION|32.4||0.1546|TWO_SIDED|90.0|71.563|124.764||P-value for ratio outside interval 80 - 125 percent|ANOVA|Adjusted (by treatment) geometric mean ratio|The standard deviation is actually the intra individual geometric coefficient of variation|||124.764|71.563|0.1546
82569737|NCT01387815|164849238|OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
82569738|NCT01387815|164849239|OTHER|||||||0.252|||||||t-test, 2 sided|||||||0.252
82569739|NCT01387815|164849243|OTHER|||||||0.143|||||||Chi-squared|||||||0.143
82569740|NCT01387815|164849244|OTHER|||||||0.415|||||||Chi-squared|||||||0.415
82569741|NCT01387815|164849245|OTHER|||||||0.604|||||||Chi-squared|||||||0.604
82569742|NCT01387815|164849246|OTHER|||||||0.504|||||||Fisher Exact|||||||0.504
82569743|NCT01387815|164849247|OTHER|||||||0.92|||||||Chi-squared|||||||0.920
82569744|NCT01387815|164849248|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82569745|NCT01387815|164849249|OTHER|||||||0.575|||||||Chi-squared|||||||0.575
82569746|NCT01387815|164849252|OTHER|||||||0.856|||||||Chi-squared|||||||0.856
82569747|NCT01387815|164849253|OTHER|||||||0.623|||||||Chi-squared|||||||0.623
82569748|NCT01387815|164849254|OTHER|||||||0.732|||||||Chi-squared|||||||0.732
82569749|NCT01387815|164849255|OTHER|||||||0.896|||||||t-test, 2 sided|||||||0.896
82634265|NCT01258738|164984484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.73||||0.0141|TWO_SIDED|95.0|3.14|22.32|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||22.32|3.14|0.0141
82634266|NCT01258738|164984484|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634267|NCT01258738|164984485|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||Log Rank|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 12 data only."||||0.0022
82634268|NCT01258738|164984486|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634269|NCT01258738|164984486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0156|TWO_SIDED|95.0|-1.26|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.13|-1.26|0.0156
82634270|NCT01258738|164984486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0111|TWO_SIDED|95.0|-1.06|-0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.14|-1.06|0.0111
82634271|NCT01258738|164984486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0936|TWO_SIDED|95.0|-0.91|0.07|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.07|-0.91|0.0936
82634272|NCT01258738|164984486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.2678|TWO_SIDED|95.0|-0.81|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.23|-0.81|0.2678
82569750|NCT01387815|164849256|OTHER|||||||0.879|||||||t-test, 2 sided|||||||0.879
82569751|NCT01387815|164849257|OTHER|||||||0.763|||||||t-test, 2 sided|||||||0.763
82569752|NCT01387815|164849258|OTHER|||||||0.657|||||||Chi-squared|||||||0.657
82569753|NCT01387815|164849259|OTHER|||||||0.987|||||||Chi-squared|||||||0.987
82569754|NCT01387815|164849260|OTHER|||||||0.011|||||||Fisher Exact|||||||0.011
82569755|NCT01387815|164849261|OTHER|||||||0.351|||||||t-test, 2 sided|||||||0.351
82569756|NCT01387815|164849262|OTHER|||||||0.835|||||||t-test, 2 sided|||||||0.835
82569757|NCT01387815|164849264|OTHER|||||||0.714|||||||Fisher Exact|||||||0.714
82569758|NCT01387815|164849265|OTHER|||||||0.737|||||||Fisher Exact|||||||0.737
82569759|NCT01387815|164849266|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82569760|NCT01387815|164849270|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82569761|NCT01387815|164849271|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82569762|NCT01387815|164849273|OTHER|||||||0.714|||||||Fisher Exact|||||||0.714
82569763|NCT01387815|164849274|OTHER|||||||0.747|||||||Fisher Exact|||||||0.747
82569764|NCT01387815|164849275|OTHER|||||||0.495|||||||Fisher Exact|||||||0.495
82569765|NCT01387815|164849279|OTHER|||||||0.364|||||||Fisher Exact|||||||0.364
82569766|NCT01387815|164849280|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82569767|NCT01387815|164849281|OTHER|||||||0.723|||||||Fisher Exact|||||||0.723
82569768|NCT01387815|164849288|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
82569769|NCT01387815|164849289|OTHER|||||||0.672|||||||t-test, 2 sided|||||||0.672
82569770|NCT01387815|164849290|OTHER|||||||0.482|||||||t-test, 2 sided|||||||0.482
82569771|NCT01387815|164849291|OTHER|||||||0.938|||||||t-test, 2 sided|||||||0.938
82569772|NCT01387815|164849292|OTHER|||||||0.144|||||||t-test, 2 sided|||||||0.144
82569773|NCT01387815|164849293|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.360
82569774|NCT01387815|164849294|OTHER|||||||0.808|||||||t-test, 2 sided|||||||0.808
82569775|NCT01387815|164849295|OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
82569776|NCT01387815|164849296|OTHER|||||||0.184|||||||t-test, 2 sided|||||||0.184
82569777|NCT01387815|164849297|OTHER|||||||0.305|||||||t-test, 2 sided|||||||0.305
82569778|NCT01387815|164849299|OTHER|||||||0.757|||||||t-test, 2 sided|||||||0.757
82569779|NCT01387815|164849300|OTHER|||||||0.321|||||||t-test, 2 sided|||||||0.321
82569780|NCT01387815|164849301|OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
82569781|NCT01387815|164849302|OTHER|||||||0.395|||||||t-test, 2 sided|||||||0.395
82569782|NCT01387815|164849304|OTHER|||||||0.739|||||||t-test, 2 sided|||||||0.739
82569783|NCT01387815|164849305|OTHER|||||||0.291|||||||t-test, 2 sided|||||||0.291
82569784|NCT00553605|164849353|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 2-sided 95% CI of the treatment difference (parecoxib - ketoprofen) was greater than -10 mm.|Least-squares (LS) mean difference|-1.12|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|95.0|-6.53|4.3||||||LS mean difference and 95 percent (%) confidence interval (CI) were based on analysis of covariance (ANCOVA) model with terms for treatment group and country, and baseline as covariates.||4.30|-6.53|
82523221|NCT01939548|164741715|SUPERIORITY_OR_OTHER||LSM Difference|2.3|STANDARD_ERROR_OF_MEAN|2.445||0.3488|TWO_SIDED|80.0|-0.85|5.45||Primary analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), PANSS Total baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value of PANSS Total by treatment interaction and background antipsychotics.||5.45|-0.85|0.3488
82569785|NCT00553605|164849354|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|2.52||0.972|TWO_SIDED|95.0|-5.04|4.86|||ANCOVA|||p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||4.86|-5.04|0.972
82634273|NCT01258738|164984487|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results included unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82569786|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|0.75|STANDARD_ERROR_OF_MEAN|2.56||0.768|TWO_SIDED|95.0|-4.28|5.79|||ANCOVA|||Minute 15: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||5.79|-4.28|0.768
82569787|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|2.91||0.866|TWO_SIDED|95.0|-6.22|5.24|||ANCOVA|||Minute 30: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||5.24|-6.22|0.866
82569788|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|0.94|STANDARD_ERROR_OF_MEAN|2.7||0.729|TWO_SIDED|95.0|-4.38|6.26|||ANCOVA|||Minute 45: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||6.26|-4.38|0.729
82569789|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|2.62|STANDARD_ERROR_OF_MEAN|2.47||0.29|TWO_SIDED|95.0|-2.24|7.48|||ANCOVA|||Minute 60: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||7.48|-2.24|0.290
82569790|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|2.16|STANDARD_ERROR_OF_MEAN|2.14||0.314|TWO_SIDED|95.0|-2.05|6.37|||ANCOVA|||Minute 90: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||6.37|-2.05|0.314
82569791|NCT00553605|164849356|SUPERIORITY_OR_OTHER||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|1.72||0.926|TWO_SIDED|95.0|-3.23|3.55|||ANCOVA|||Minute 120: p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country, and baseline as covariates.||3.55|-3.23|0.926
82569792|NCT00553605|164849357|SUPERIORITY_OR_OTHER||LS mean difference|10.13|STANDARD_ERROR_OF_MEAN|13.43||0.451|TWO_SIDED|95.0|-16.3|36.54|||ANCOVA|||p-value, LS mean difference and 95% CI were based on ANCOVA model with terms for treatment group and country as covariates.||36.54|-16.3|0.451
82569793|NCT00553605|164849358|SUPERIORITY_OR_OTHER|||||||0.3982|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.3982
82569794|NCT00553605|164849358|SUPERIORITY_OR_OTHER|||||||0.5552|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.5552
82569795|NCT00553605|164849359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.007||||0.9785|TWO_SIDED|95.0|0.6|1.69|||Regression, Logistic|||p-value was based on logistic regression model with terms for treatment group and baseline as covariates.||1.69|0.60|0.9785
82569796|NCT00553605|164849360|SUPERIORITY_OR_OTHER|||||||0.2482|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using Cochran-Mantel-Haenszel (CMH) model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.2482
82569797|NCT00553605|164849360|SUPERIORITY_OR_OTHER|||||||0.7659|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.7659
82569798|NCT00553605|164849361|SUPERIORITY_OR_OTHER|||||||0.9783|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 30: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.9783
82569799|NCT00553605|164849361|SUPERIORITY_OR_OTHER|||||||0.6847|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Minute 120: p-value was calculated using CMH model and using modified ridit scores, testing for non-zero correlation and controlling for country.||||0.6847
82569800|NCT00553605|164849362|SUPERIORITY_OR_OTHER|||||||0.9645|TWO_SIDED||||||Log Rank|||||||0.9645
82569801|NCT00496626|164849374|SUPERIORITY_OR_OTHER||GMT ratio|101.6|||<=|0.05|TWO_SIDED|95.0|88.1|117.2||The ANCOVA models showed the lower bounds of two-sided 95% CI on the GMT ratio \[GARDASIL™/placebo\] were greater than 1 for each HPV type, so the null hypothesis was rejected. The CI reported is for HPV18, the type with the smallest CI lower bound.|ANCOVA||Superiority of GARDASIL™ to placebo was claimed if, for each of the four HPV types, the lower bound of the two-sided 95% CI on the GMT ratio \[GARDASIL™/placebo\] being \>1, or equivalently, the two-sided p-value \<0.05.|An Analysis of Covariance (ANCOVA) model was used for each HPV type, based on the pooled data from all age groups and genders. The natural-log-transformed titer was the response variable, and vaccination group, gender and age group were covariates. The null hypothesis was that the GMT ratio (Gardasil/Placebo) was equal to 1.||117.2|88.1|<=0.05
82569802|NCT00496626|164849375|SUPERIORITY_OR_OTHER||Seroconversion Rate|96.65|||<=|0.05||95.0|93.74|98.46||The lower bound of the 95% CI for the seroconversion rate was greater than 90% for each type so the null hypothesis was rejected. The CI reported is for HPV6, the type with the smallest lower bound.|Exact Binomial CI|||The null hypothesis was that the seroconversion rate in the Gardasil® Group was less than 90% for each HPV type.||98.46|93.74|<=0.05
82569803|NCT02561806|164849377|NON_INFERIORITY|Non-inferiority margin was -12.6% for 97.5% confidence interval|Risk Difference (RD)|0.321|||<|0.001|TWO_SIDED|97.5|0.198|0.445|||Regression, Logistic|||||0.445|0.198|<0.001
82569804|NCT02561806|164849378|SUPERIORITY||Risk Ratio (RR)|1.285|||<|0.001|TWO_SIDED|95.0|1.13|1.439|||Regression, Logistic|||||1.439|1.130|<0.001
82634274|NCT01258738|164984487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0102|TWO_SIDED|95.0|-1.4|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.19|-1.40|0.0102
82634275|NCT01258738|164984487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.0007|TWO_SIDED|95.0|-1.44|-0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.39|-1.44|0.0007
82513379|NCT02802345|164719344|SUPERIORITY||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|1.431||0.7191|TWO_SIDED|95.0|-3.33|2.3|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 12 weeks).|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline SGRQ total score as covariate, treatment-by-visit and baseline SGRQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned. Data collected after Visit 5 (planned 12 weeks after start of study treatment) were not used for this analysis.|"H0: There is no difference in the mean change from baseline in SGRQ total score at Week 12 between treatment with nintedanib co-administered with sildenafil and treatment with nintedanib alone.~Ha: There is a difference in the mean change from baseline in SGRQ total score at Week 12 between treatment with nintedanib co-administered with sildenafil and treatment with nintedanib alone."|2.30|-3.33|0.7191
82513380|NCT02802345|164719345|SUPERIORITY||Adjusted mean difference|-2.94|STANDARD_ERROR_OF_MEAN|2.198||0.1823|TWO_SIDED|95.0|-7.27|1.39|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 12 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline UCSD SOBQ total score as covariate, treatment-by-visit and baseline UCSD SOBQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned. Data collected after Visit 5 (planned 12 weeks after start of study treatment) were not used for this analysis.||1.39|-7.27|0.1823
82513381|NCT02802345|164719346|SUPERIORITY||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|1.631||0.1809|TWO_SIDED|95.0|-5.4|1.02|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 24 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline SGRQ total score as covariate, treatment-by-visit and baseline SGRQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned.||1.02|-5.40|0.1809
82513382|NCT02802345|164719347|SUPERIORITY||Adjusted mean difference|-2.41|STANDARD_ERROR_OF_MEAN|2.529||0.3421|TWO_SIDED|95.0|-7.39|2.58|||Mixed Model for Repeated Measures (MMRM)|The Roger- Kenward approximation was used to estimate denominator degrees of freedom.|Adjusted mean difference (Nintedanib +placebo vs Nintedanib+sildenafil) is based on all analyzed patients in the model (not only patients with a measurement at baseline and at 24 weeks)|Mixed Model for Repeated Measures (MMRM) included fixed effects for treatment, visit, presence of any echocardiographic signs, baseline UCSD SOBQ total score as covariate, treatment-by-visit and baseline UCSD SOBQ total score-by-visit interaction terms using an unstructured covariance matrix. No imputation was planned.||2.58|-7.39|0.3421
82513383|NCT02802345|164719348|SUPERIORITY||Percentage ratio (%)|0.83|||||TWO_SIDED|95.0|0.58|1.2|||||Within strata confidence limits are calculated according to Wald. Percentage ratio = (% of Nintedanib+sildenafil) / (% of Nintedanib+placebo).|Relative risk, Comparison of treatment groups is calculated by Cochran-Mantel-Haenszel test adjusting for the categorical covariate presence of any echocardiographic signs indicative of right heart dysfunction (yes/no), adjusted Mantel-Haenszel type risk ratios and risk differences with 95% confidence are presented.||1.20|0.58|
82513384|NCT02802345|164719348|SUPERIORITY||Percentage difference (%)|-5.37||||0.334|TWO_SIDED|95.0|-16.25|5.52|||Cochran-Mantel-Haenszel||Within strata confidence limits are calculated according to Wald. Percentage difference = (% of Nintedanib+sildenafil) - (% of Nintedanib+placebo).|Risk difference, Comparison of treatment groups is calculated by Cochran-Mantel-Haenszel test adjusting for the categorical covariate presence of any echocardiographic signs indicative of right heart dysfunction (yes/no), adjusted Mantel-Haenszel type risk ratios and risk differences with 95% confidence are presented.||5.52|-16.25|0.334
82513385|NCT01706250|164719349|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.29|STANDARD_DEVIATION|32.98||0.6779|||||||t-test, 2 sided|||Percent change for IL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.6779
82513386|NCT01706250|164719349|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.68|STANDARD_DEVIATION|29.51||0.2847|||||||t-test, 2 sided|||Percent change for NIL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.2847
82569805|NCT02561806|164849379|SUPERIORITY||Risk Ratio (RR)|2.699||||0.009|TWO_SIDED|95.0|1.423|3.975|||Regression, Logistic|||||3.975|1.423|0.009
82634276|NCT01258738|164984487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0057|TWO_SIDED|95.0|-1.35|-0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.23|-1.35|0.0057
82634277|NCT01258738|164984487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0077|TWO_SIDED|95.0|-1.44|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.22|-1.44|0.0077
82513387|NCT01706250|164719349|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.24|STANDARD_DEVIATION|23.35||0.6894|||||||t-test, 2 sided|||Percent change for TL count for MAXCLARITY II Vs PROACTIV at Wk 8||||0.6894
82569806|NCT02561806|164849380|SUPERIORITY||Risk Ratio (RR)|1.469|||<|0.001|TWO_SIDED|95.0|1.244|1.695|||Regression, Logistic|||||1.695|1.244|<0.001
82380239|NCT04886596|164470110|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.94|||||TWO_SIDED|95.0|28.91|82.15|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV- ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||82.15|28.91|
82634278|NCT01258738|164984488|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82513388|NCT01706250|164719350|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.38|STANDARD_DEVIATION|50.1||0.9909|||||||Signed Rank|||Percent change for MAXCLARITY II Vs PROACTIV: IL count, BL to Wk 1 (within group)||||0.9909
82513389|NCT01706250|164719350|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0|STANDARD_DEVIATION|39.91||0.6671|||||||t-test, 2 sided|||IL count for MAXCLARITY II Vs PROACTIV- BL to Wk 2 (within group)||||0.6671
82513390|NCT01706250|164719350|SUPERIORITY_OR_OTHER||Median Difference (Net)|23.64|STANDARD_DEVIATION|52.05||0.0632|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: IL count, BL to Wk 4 (within group)||||0.0632
82513391|NCT01706250|164719351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|42.31||0.7385|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 1 (within group)||||0.7385
82513392|NCT01706250|164719351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.04|STANDARD_DEVIATION|37.77||0.7296|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 2 (within group)||||0.7296
82513393|NCT01706250|164719351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|STANDARD_DEVIATION|36.11||0.3774|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: NIL count, BL to Wk 4 (within group)||||0.3774
82513394|NCT01706250|164719352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02|STANDARD_DEVIATION|29.53||0.7634|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 1 (within group)||||0.7634
82513395|NCT01706250|164719352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.75|STANDARD_DEVIATION|29.61||0.4087|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 2 (within group)||||0.4087
82513396|NCT01706250|164719352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_DEVIATION|25.4||0.2455|||||||t-test, 2 sided|||Percent change for MAXCLARITY II Vs PROACTIV: TL count, BL to Wk 4 (within group)||||0.2455
82513397|NCT01706250|164719353|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.39||1|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
82513398|NCT01706250|164719353|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_DEVIATION|0.56||0.125|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.1250
82513399|NCT01706250|164719353|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_DEVIATION|0.46||0.625|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.6250
82513400|NCT01706250|164719353|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.59||1|||||||Signed Rank|||Change, in ISGA for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||1.0000
82513401|NCT01706250|164719354|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.45||1|||||||Signed Rank|||Change, in Erythema for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
82513402|NCT01706250|164719354|SUPERIORITY_OR_OTHER||Signed Rank|0.05|STANDARD_DEVIATION|0.23||1|||||||Signed Rank|||Change, in Erythema for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||1.0000
82513403|NCT01706250|164719355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.22||1|||||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.00
82513404|NCT01706250|164719355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.23||1|||||||Signed rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||1.0000
82513405|NCT01706250|164719356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_DEVIATION|0.46||1|||||||Signed rank|||Change, in Peeling, for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||1.0000
82513406|NCT01706250|164719357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_DEVIATION|0.67||0.5313||95.0|||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.5313
82513407|NCT01706250|164719357|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.16|STANDARD_DEVIATION|0.6||0.5||95.0|||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.5000
82513408|NCT01706250|164719357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.86||0.75|||||||Signed Rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.7500
82513409|NCT01706250|164719357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.84||0.25|||||||Signed rank|||Change, in Redness for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.2500
82513410|NCT01706250|164719358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.86||0.2131|||||||Signed Rank)|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.2131
82513411|NCT01706250|164719358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_DEVIATION|1.16||0.2656||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.2656
82513412|NCT01706250|164719358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.75||0.2344||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.2344
82513413|NCT01706250|164719358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.73||0.3594||95.0|||||Signed Rank|||Change, in Dryness for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.3594
82513414|NCT01706250|164719359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.32||0.6172|||||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.6172
82513415|NCT01706250|164719359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26|STANDARD_DEVIATION|0.93||0.3984|||||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.3984
82513416|NCT01706250|164719359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_DEVIATION|1.1||0.0781||95.0|||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.0781
82513417|NCT01706250|164719359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.24||0.375||95.0|||||Signed Rank|||Change, in Burning for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.3750
82513418|NCT01706250|164719360|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|STANDARD_DEVIATION|0.46||1||95.0|||||[Signed Rank]|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||1.0000
82569807|NCT02561806|164849381|SUPERIORITY||Risk Ratio (RR)|3.421||||0.021|TWO_SIDED|95.0|1.353|5.488|||Regression, Logistic|||||5.488|1.353|0.021
82634279|NCT01258738|164984488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.0091|TWO_SIDED|95.0|-1.62|-0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.23|-1.62|0.0091
82513419|NCT01706250|164719360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_DEVIATION|0.58||0.0625||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.0625
82513420|NCT01706250|164719360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.75||0.25||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.2500
82513421|NCT01706250|164719360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.38||0.25||95.0|||||Signed Rank|||Change, in Itching for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.2500
82569808|NCT02561806|164849388|SUPERIORITY||Risk Ratio (RR)|1.391||||0.012|TWO_SIDED|95.0|1.085|1.698|||Regression, Logistic|||||1.698|1.085|0.012
82569809|NCT02547441|164849401|SUPERIORITY|||||||0.043|||||||ANCOVA|||||||0.043
82513422|NCT01706250|164719361|SUPERIORITY_OR_OTHER||Signed Rank|0.15|STANDARD_DEVIATION|0.59||0.5||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 1 (within group)||||0.5000
82513423|NCT01706250|164719361|SUPERIORITY_OR_OTHER||Signed Rank|0.11|STANDARD_DEVIATION|0.57||0.75||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 2 (within group)||||0.7500
82569810|NCT02547441|164849402|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|||||||0.019
82569811|NCT01322009|164849408|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Analysis run over study period but data entered only for the 6 h time point||||||>0.05
82513424|NCT01706250|164719361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.62||0.4531||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 4 (within group)||||0.4531
82513425|NCT01706250|164719361|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.86||0.625||95.0|||||Signed Rank|||Change, in Scaling for MAXCLARITY II Vs PROACTIV: from BL to Wk 8 (within group)||||0.6250
82513426|NCT03254134|164719379|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.534|0.97||||||There was no formal hypothesis testing.|The hazard ratio of stroke for the dabigatran group as compared to the warfarin group and its 95% CI were estimated from the propensity score matched group using a Cox regression model with treatment group as the dependent variable|0.970|0.534|
82634280|NCT01258738|164984488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0097|TWO_SIDED|95.0|-1.38|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.19|-1.38|0.0097
82634281|NCT01258738|164984488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0101|TWO_SIDED|95.0|-1.45|-0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.20|-1.45|0.0101
82513427|NCT03254134|164719380|SUPERIORITY||Hazard Ratio (HR)|0.549|||||TWO_SIDED|95.0|0.303|0.994||||||There was no formal hypothesis testing.|The hazard ratio of systemic embolism for the dabigatran group as compared to the warfarin group and its 95% CI were estimated from the propensity score matched group using a Cox regression model with treatment group as the dependent variable|0.994|0.303|
82513428|NCT00799617|164719389|SUPERIORITY||Mean Difference (Net)|0.58|||<|0.001|TWO_SIDED|95.0|0.38|0.78||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||0.78|0.38|<0.001
82513429|NCT00799617|164719390|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2|TWO_SIDED|95.0|0.83|2.45||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||The treatment effect for dichotomous outcomes is the odds ratio for achieving the outcome versus not achieving the outcome among men assigned to testosterone versus those assigned to placebo.||2.45|0.83|0.20
82513430|NCT00799617|164719391|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3|TWO_SIDED|95.0|0.83|1.84||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||1.84|0.83|0.30
82513431|NCT00799617|164719392|SUPERIORITY||Mean Difference (Final Values)|41.0||||0.003|TWO_SIDED|95.0|14.0|67.0||Determined by a linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||67|14|.003
82513432|NCT00799617|164719393|SUPERIORITY||Mean Difference (Final Values)|6.8|||<|0.001|TWO_SIDED|95.0|4.8|8.7||Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors.|Regression, Linear|||||8.7|4.8|<.001
82513433|NCT00799617|164719394|SUPERIORITY||Mean Difference (Net)|-0.07||||0.88|TWO_SIDED|95.0|-0.92|0.79||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis|||"A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.~The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors."||0.79|-0.92|.88
82513434|NCT00799617|164719395|SUPERIORITY|Dichotomous hemoglobin response is an increase of 1g/dL or more from baseline.|Odds Ratio (OR)|31.5||||0.002|TWO_SIDED|95.0|3.7|277.8||The P-value for the significance of the treatment effect was determined by a logistic mixed model with a random intercept for participant.|Mixed Models Analysis|The statistical analysis was intent-to-treat by a logistic mixed effects model adjusted for balancing factors.||||277.8|3.7|.002
82513435|NCT00799617|164719396|SUPERIORITY||Mean Difference (Net)|2.93|||<|0.001|TWO_SIDED|95.0|2.13|3.74||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||3.74|2.13|<0.001
82634282|NCT01258738|164984488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.0031|TWO_SIDED|95.0|-1.61|-0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.33|-1.61|0.0031
82513436|NCT00799617|164719397|SUPERIORITY||Median Difference (Net)|2.64|||<|0.001|TWO_SIDED|95.0|1.68|3.61||The p value for the treatment effect was determined with the use of a linear mixed model with a random effect for participant.|Mixed Models Analysis|Adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, use of PDE5 inhibitors||||3.61|1.68|<0.001
82513437|NCT00799617|164719398|SUPERIORITY||Mean Difference (Final Values)|4.09||||0.28|TWO_SIDED|95.0|-3.0|11.18||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||11.18|-3.00|0.28
82513438|NCT00799617|164719399|SUPERIORITY||Odds Ratio (OR)|1.34||||0.15|TWO_SIDED|95.0|0.9|2.0||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||2.00|0.90|0.15
82513439|NCT00799617|164719400|SUPERIORITY||Mean Difference (Net)|2.75||||0.03|TWO_SIDED|95.0|0.2|5.29||The P value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||5.29|0.20|0.03
82634283|NCT01258738|164984489|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634284|NCT01258738|164984489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.0064|TWO_SIDED|95.0|-1.49|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.25|-1.49|0.0064
82513440|NCT00799617|164719401|SUPERIORITY||Mean Difference (Net)|1.21||||0.06|TWO_SIDED|95.0|-0.04|2.46||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||2.46|-0.04|0.06
82513441|NCT00799617|164719402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.41||||0.03|TWO_SIDED|95.0|0.31|4.5||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||4.50|0.31|0.03
82513442|NCT00799617|164719403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.04|TWO_SIDED|95.0|0.02|0.92||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Mixed Models Analysis|||||0.92|0.02|0.04
82634285|NCT01258738|164984489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0407|TWO_SIDED|95.0|-1.12|-0.02|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.02|-1.12|0.0407
82634286|NCT01258738|164984489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.0349|TWO_SIDED|95.0|-1.24|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.05|-1.24|0.0349
82380240|NCT04886596|164470110|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|63.8|||||TWO_SIDED|95.0|28.5|83.2|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV-ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||83.20|28.50|
82513443|NCT00799617|164719404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.79|-0.19||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Treatment Effect|||||-0.19|-0.79|<0.001
82513444|NCT00799617|164719405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72||||0.004|TWO_SIDED|95.0|-1.2|-0.23||The p value for the treatment effect was determined with the use of a logistic mixed model with a random effect for participant for dichotomous outcomes and a linear mixed model with a random effect for participant for continuous outcomes.|Treatment Effect|||||-0.23|-1.20|0.004
82513445|NCT00799617|164719406|SUPERIORITY||Mean Difference (Final Values)|47.0||||0.006|TWO_SIDED|95.0|13.0|80.0||Determined by linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||80|13|.006
82513446|NCT00799617|164719407|SUPERIORITY||Mean Difference (Final Values)|-27.0||||0.31|TWO_SIDED|95.0|-80.0|26.0||Determined by a linear mixed model with all balancing factors and baseline outcome value as covariates and a random effect for participant.|Regression, Linear||Mean difference in change from baseline for participants assigned to testosterone v. placebo, with adjustment for balancing factors: baseline testosterone, age, site, trial participation, use of antidepressants, PDE5 inhibitors, baseline outcome.|||26|-80|.31
82513447|NCT00799617|164719408|SUPERIORITY||Mean Difference (Final Values)|2.9|||<|0.001|TWO_SIDED|95.0|2.1|3.7||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||3.7|2.1|<.001
82513448|NCT00799617|164719409|SUPERIORITY||Mean Difference (Final Values)|4.2|||<|0.001|TWO_SIDED|95.0|3.2|5.3||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||5.3|3.2|<.001
82513449|NCT00799617|164719410|SUPERIORITY||Median Difference (Final Values)|1.5|||<|0.001|TWO_SIDED|95.0|0.9|2.0||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.0|0.9|<.001
82513450|NCT00799617|164719411|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.5|1.5||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.5|0.5|<.001
82513451|NCT00799617|164719412|SUPERIORITY||Mean Difference (Final Values)|1.3|||<|0.001|TWO_SIDED|95.0|0.8|1.7|||Regression, Linear|||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."||1.7|0.8|<.001
82513452|NCT00799617|164719413|SUPERIORITY||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.3|809.0||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||809|5.3|<.001
82569812|NCT01657877|164849411|NON_INFERIORITY_OR_EQUIVALENCE|The success criterion for this study was to observe the upper bound of the 2-sided 95% confidence interval for difference in % change in SMHR to be \<= 6 units SMHR i.e. 1500 ppm fluoride as SMFP + 5% CSP is no more than 6 units inferior to the 1500 ppm fluoride as SMFP + 0 % CSP dentifrice.|Adjusted mean difference|-2.23||||0.2601|TWO_SIDED|95.0|-6.11|1.66|||ANOVA|Based on the mixed effects ANOVA considering treatment and study period as factors, and subject as random effect|Difference is 1500 ppm fluoride as SMFP and 0 % CSP minus 1500 ppm fluoride as SMFP and 5 % CSP such that a positive difference favors 1500 ppm fluoride as SMFP and 0 % CSP|The null hypothesis states that the population mean for the 1500 ppm fluoride as SMFP + 0% CSP minus the population mean for the 1500 ppm fluoride as SMFP and 5% CSP dentifrice is more than 6 %.||1.66|-6.11|0.2601
82569813|NCT00812838|164849545|SUPERIORITY|||||||0.5154||||||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.|t-test, 2 sided|||||||0.5154
82569814|NCT00812838|164849546|SUPERIORITY|||||||0.3009||||||This applies to 100 units of Botulinum Toxin Type A arm vs the Normal saline arm|t-test, 2 sided|||"This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.~This analysis pertains to both categories"||||0.3009
82380241|NCT04886596|164470110|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|65.69|||||TWO_SIDED|95.0|28.56|85.47|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV- ARI during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||85.47|28.56|
82380242|NCT04886596|164470110|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|62.87|||||TWO_SIDED|95.0|21.45|84.29|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to RSV-ARI during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||84.29|21.45|
82569815|NCT00812838|164849547|SUPERIORITY|||||||0.0166||||||This applies to 100 units of Botulinum Toxin Type A arm vs the Normal saline arm|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||0.0166
82569816|NCT00812838|164849548|SUPERIORITY|||||||0.8566||||||Threshold for statistical significance was \<0.05|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||.8566
82569817|NCT00812838|164849549|SUPERIORITY|||||||0.0286||||||Threshold for statistical significance is \<0.05|t-test, 2 sided|||This will be a pilot study; it was assessed that 10 subjects in each arm, for a total of 20 subjects, will allow us to determine if the therapy is effective. To allow for screen failures, 45 subjects are planned for screening.||||0.0286
82569818|NCT02287883|164849555|OTHER|Clustered two-sample t-test||||||0.8|||||||t-test, 2 sided|||||||0.80
82569819|NCT02287883|164849556|OTHER|Clustered two-sample t-test||||||0.48|||||||t-test, 2 sided|||||||0.48
82634287|NCT01258738|164984489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.0021|TWO_SIDED|95.0|-1.65|-0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.37|-1.65|0.0021
82634288|NCT01258738|164984490|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634289|NCT01258738|164984490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0164|TWO_SIDED|95.0|-1.04|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.11|-1.04|0.0164
82513453|NCT00799617|164719414|SUPERIORITY||Mean Difference (Final Values)|8.5|||<|0.001|TWO_SIDED|95.0|6.0|10.9||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||10.9|6.0|<.001
82513454|NCT00799617|164719415|SUPERIORITY||Mean Difference (Final Values)|5.7|||<|0.001|TWO_SIDED|95.0|4.3|7.2||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||7.2|4.3|<.001
82513455|NCT00799617|164719416|SUPERIORITY||Mean Difference (Final Values)|1.8|||<|0.001|TWO_SIDED|95.0|1.1|2.6||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.6|1.1|<.001
82513456|NCT00799617|164719417|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.005|TWO_SIDED|95.0|0.3|1.7||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.7|0.3|.005
82513457|NCT00799617|164719418|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.5|1.4||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.4|0.5|<.001
82513458|NCT00799617|164719419|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.01|TWO_SIDED|95.0|0.25|2.09||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||2.09|0.25|.01
82513459|NCT00799617|164719420|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.052|TWO_SIDED|95.0|-0.01|1.36||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.36|-0.01|.052
82513460|NCT00799617|164719421|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.27|TWO_SIDED|95.0|-0.45|1.58||"Treatment effect is the mean difference in the change from baseline between testosterone and placebo arms.~The P-Value for the significance of the treatment effect was determined by multivariable linear regression adjusted for balancing factors."|Regression, Linear|||||1.58|-0.45|0.27
82513461|NCT00799617|164719422|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.24|TWO_SIDED|95.0|-0.76|0.19||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||0.19|-0.76|.24
82513462|NCT00799617|164719423|SUPERIORITY||Mean Difference (Net)|-0.12||||0.89|TWO_SIDED|95.0|-1.89|1.65||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||1.65|-1.89|.89
82634290|NCT01258738|164984490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0095|TWO_SIDED|95.0|-0.95|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.13|-0.95|0.0095
82513463|NCT00799617|164719424|SUPERIORITY||Mean Difference (Net)|-5.51||||0.14|TWO_SIDED|95.0|-12.91|1.88||The estimated difference and P-value were determined by a linear mixed-model with a random effect for participants using outcomes at month 6 and month 12.|Mixed Models Analysis||The difference is the mean difference in the change from baseline to 6 months to 12 months in participants allocated to testosterone vs placebo adjusted for balancing factors.|A positive estimated difference indicates greater increases, smaller decreases, or both for the testosterone group compared with the placebo group.||1.88|-12.91|.14
82513464|NCT00799617|164719425|SUPERIORITY||Mean Difference (Net)|0.83|||<|0.001|TWO_SIDED|95.0|0.48|1.39||The P-value for the significance of the treatment effect was determined by a linear mixed model for continuous outcomes with a random intercept for participant.|Mixed Models Analysis||Intent-to-treat analysis by a linear mixed effects model adjusted for balancing factors.|||1.39|0.48|<.001
82513465|NCT02442830|164719444|OTHER|Log rank test||||||0.002|||||||Log Rank|||||||.002
82513466|NCT02553746|164719453|SUPERIORITY|||||||0.748|||||||Chi-squared, Corrected|||||||0.748
82513467|NCT02553746|164719454|SUPERIORITY|||||||0.498|||||||Chi-squared, Corrected|||||||0.498
82569820|NCT02287883|164849557|OTHER|Clustered two-sample t-test||||||0.05|||||||t-test, 2 sided|||||||0.05
82513468|NCT02553746|164719455|SUPERIORITY|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
82513469|NCT02553746|164719456|SUPERIORITY|||||||0.162|||||||Wilcoxon (Mann-Whitney)|||||||0.162
82513470|NCT02553746|164719457|SUPERIORITY|||||||0.104|||||||Chi-squared, Corrected|||||||0.104
82513471|NCT02553746|164719458|SUPERIORITY||||||<|0.005|||||||Wilcoxon (Mann-Whitney)|||||||<0.005
82513472|NCT00298038|164719465|SUPERIORITY|Analysis based on the overall comparison of time to the first breakthrough overt HE episode between rifaximin and placebo groups adjusting for analysis region, using the Cox proportional hazards model (Score test, \[that is, Log rank test stratified by analysis region\]) with a 2-sided test at a significance level of 0.05 under the proportional hazards assumption.|Hazard Ratio (HR)|0.421|||<|0.0001|TWO_SIDED|95.0|0.276|0.641|||Cox proportional hazards model|||||0.641|0.276|<0.0001
82513473|NCT02556710|164719488|SUPERIORITY|||||||0.94|||||||ANCOVA|Adjusted for baseline WOMAC Score||||||0.94
82569821|NCT01193218|164849608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.87|-0.57||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 5mg minus placebo||-0.57|-0.87|<0.0001
82569822|NCT01193218|164849608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.55||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 10mg minus placebo||-0.55|-0.85|<0.0001
82634291|NCT01258738|164984490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0127|TWO_SIDED|95.0|-0.99|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.12|-0.99|0.0127
82634292|NCT01258738|164984490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0166|TWO_SIDED|95.0|-0.99|-0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.10|-0.99|0.0166
82634293|NCT01258738|164984491|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634294|NCT01258738|164984491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.0029|TWO_SIDED|95.0|-1.28|-0.27|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.27|-1.28|0.0029
82634295|NCT01258738|164984491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0147|TWO_SIDED|95.0|-1.21|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.13|-1.21|0.0147
82634296|NCT01258738|164984491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0056|TWO_SIDED|95.0|-1.28|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.22|-1.28|0.0056
82513474|NCT02556710|164719489|SUPERIORITY|||||||0.53|||||||ANCOVA|Adjusted for baseline WOMAC score||||||0.53
82634297|NCT01258738|164984491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.001|TWO_SIDED|95.0|-1.52|-0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.39|-1.52|0.0010
82634298|NCT01258738|164984492|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634299|NCT01258738|164984492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0173|TWO_SIDED|95.0|-1.19|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.12|-1.19|0.0173
82634300|NCT01258738|164984492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1618|TWO_SIDED|95.0|-0.97|0.16|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.16|-0.97|0.1618
82634301|NCT01258738|164984492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.0153|TWO_SIDED|95.0|-1.25|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.13|-1.25|0.0153
82513475|NCT02556710|164719490|SUPERIORITY|||||||0.35||||||Adjusted for baseline WOMAC Score.|ANCOVA|||||||0.35
82513476|NCT00827372|164719491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0658|||||||t-test, 2 sided|||With a sample size of 14 evaluable subjects, we will have 80% power to detect a change in excess arm volume of .8 standard deviations using a two-sided paired t-test. We will have 90% power to detect a difference of .9 standard deviations. A Paired T-Test was used to test the difference in arm volume from the second baseline measurement to Cycle 2 only.||||0.0658
82569823|NCT01193218|164849608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 25mg minus placebo||-0.80|-1.10|<0.0001
82513477|NCT00827372|164719492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||t-test, 2 sided|||A Paired T-Test was used to compare the IFP affected at first versus affected at last reading.||||0.0061
82569824|NCT01193218|164849608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.06|-0.76||the analyses were made sequentially compared with placebo from high dose of empagliflozin and the full significant level (5%) was maintained by the hierarchical procedure.|ANCOVA|'treatment', 'renal function', and 'number of previous antidiabetic medication' as a fixed effect and baseline HbA1c as a covariate||Difference calculated as empa 50mg minus placebo||-0.76|-1.06|<0.0001
82569825|NCT01193218|164849609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.367|||<|0.0001|TWO_SIDED|95.0|5.34|70.236|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.||Odds ratio calculated as the odds of Empa 5mg divided by the odds of placebo||70.236|5.340|<0.0001
82569826|NCT01193218|164849609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.889||||0.0003|TWO_SIDED|95.0|2.942|40.301|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.||Odds ratio calculated as the odds of Empa 10mg divided by the odds of placebo||40.301|2.942|0.0003
82634302|NCT01258738|164984492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0866|TWO_SIDED|95.0|-1.05|0.07|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.07|-1.05|0.0866
82513478|NCT00827372|164719493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0143|||||||t-test, 2 sided|||A Paired T-Test was used for the difference in the impedance ratio from the second baseline to cycle 2, day 1||||0.0143
82569827|NCT01193218|164849609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.624|||<|0.0001|TWO_SIDED|95.0|7.601|99.99|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.|The upper limit of confidence interval is actually \>99.99|Odds ratio calculated as the odds of Empa 25mg divided by the odds of placebo||99.99|7.601|<0.0001
82513479|NCT02139644|164719496|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.154||||0.0076|TWO_SIDED|95.0|0.041|0.267|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the first in the sequence.||0.267|0.041|0.0076
82513480|NCT02139644|164719496|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.131||||0.0322|TWO_SIDED|95.0|0.011|0.25|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the second in the sequence.||0.250|0.011|0.0322
82513481|NCT02139644|164719496|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.335||||0|TWO_SIDED|95.0|0.216|0.453|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the third in the sequence.||0.453|0.216|0.0000
82634303|NCT01258738|164984493|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82513482|NCT02139644|164719496|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.325||||0|TWO_SIDED|95.0|0.203|0.447|||ANCOVA|Fixed effects of treatment, sex, (pooled) center, previous therapy (ICS or ICS/LABA), and covariates of age and baseline FEV1.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fourth in the sequence.||0.447|0.203|0.0000
82513483|NCT02139644|164719497|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.262||||0|TWO_SIDED|95.0|0.168|0.356|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the fifth in the sequence.||0.356|0.168|0.0000
82513484|NCT02139644|164719497|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.266||||0|TWO_SIDED|95.0|0.172|0.36|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the sixth in the sequence.||0.360|0.172|0.0000
82513485|NCT02139644|164719497|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.151||||0.0017|TWO_SIDED|95.0|0.057|0.244|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the seventh in the sequence.||0.244|0.057|0.0017
82634304|NCT01258738|164984493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.1413|TWO_SIDED|95.0|-0.95|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.14|-0.95|0.1413
82513486|NCT02139644|164719497|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.119||||0.0132|TWO_SIDED|95.0|0.025|0.212|||ANCOVA|Effects due to baseline trough AM FEV1, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment.||A fixed-sequence multiple testing procedure was used to control the overall Type I error rate at the 0.05 level (2-sided) for the primary endpoints analyses. Analyses appear in the defined sequence. This is the eighth in the sequence.||0.212|0.025|0.0132
82380243|NCT04886596|164470111|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|2.59|||||TWO_SIDED|95.0|-8.29|12.42|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the study period in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||12.42|-8.29|
82513487|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|10.926||||0.0123|TWO_SIDED|95.0|2.38|19.471||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||19.471|2.380|0.0123
82569828|NCT01193218|164849609|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.906|||<|0.0001|TWO_SIDED|95.0|12.12|99.99|||Regression, Logistic|The model includes 'treatment', 'renal function', 'number of previous antidiabetic medications' and 'continuous baseline HbA1c'.|The upper limit of confidence interval is actually \>99.99|Odds ratio calculated as the odds of Empa 50mg divided by the odds of placebo||99.99|12.120|<0.0001
82569829|NCT01193218|164849610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.7|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-31.61|-21.8|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 5mg minus placebo||-21.80|-31.61|<0.0001
82634305|NCT01258738|164984493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0284|TWO_SIDED|95.0|-1.14|-0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.06|-1.14|0.0284
82634306|NCT01258738|164984493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.0659|TWO_SIDED|95.0|-1.07|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.03|-1.07|0.0659
82634307|NCT01258738|164984493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.0098|TWO_SIDED|95.0|-1.26|-0.18|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.18|-1.26|0.0098
82634308|NCT01258738|164984494|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634309|NCT01258738|164984494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0037|TWO_SIDED|95.0|-1.26|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.25|-1.26|0.0037
82634310|NCT01258738|164984494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0044|TWO_SIDED|95.0|-1.35|-0.25|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.25|-1.35|0.0044
82634311|NCT01258738|164984494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0104|TWO_SIDED|95.0|-1.26|-0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.17|-1.26|0.0104
82634312|NCT01258738|164984494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.006|TWO_SIDED|95.0|-1.33|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.22|-1.33|0.0060
82634313|NCT01258738|164984495|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634314|NCT01258738|164984495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.2268|TWO_SIDED|95.0|-0.8|0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.19|-0.80|0.2268
82634315|NCT01258738|164984495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1145|TWO_SIDED|95.0|-0.93|0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.10|-0.93|0.1145
82634316|NCT01258738|164984495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0512|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.00|-1.00|0.0512
82634317|NCT01258738|164984495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.0509|TWO_SIDED|95.0|-1.02|0.0|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.00|-1.02|0.0509
82634318|NCT01258738|164984496|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82569830|NCT01193218|164849610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.34|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-34.25|-24.42|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 10mg minus placebo||-24.42|-34.25|<0.0001
82569831|NCT01193218|164849610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.75|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-42.66|-32.84|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 25mg minus placebo||-32.84|-42.66|<0.0001
82634319|NCT01258738|164984496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.243|TWO_SIDED|95.0|-0.79|0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.20|-0.79|0.2430
82634320|NCT01258738|164984496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0384|TWO_SIDED|95.0|-1.09|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.03|-1.09|0.0384
82634321|NCT01258738|164984496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0797|TWO_SIDED|95.0|-1.03|0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.06|-1.03|0.0797
82634322|NCT01258738|164984496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.2186|TWO_SIDED|95.0|-0.9|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.21|-0.90|0.2186
82634323|NCT01258738|164984497|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634324|NCT01258738|164984497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.141|TWO_SIDED|95.0|-0.96|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.14|-0.96|0.1410
82634325|NCT01258738|164984497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2299|TWO_SIDED|95.0|-0.88|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.21|-0.88|0.2299
82634326|NCT01258738|164984497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.3221|TWO_SIDED|95.0|-0.87|0.29|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.29|-0.87|0.3221
82634327|NCT01258738|164984497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1891|TWO_SIDED|95.0|-0.99|0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.20|-0.99|0.1891
82634328|NCT01258738|164984498|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634329|NCT01258738|164984498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.108|TWO_SIDED|95.0|-0.9|0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.09|-0.90|0.1080
82634330|NCT01258738|164984498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0389|TWO_SIDED|95.0|-1.06|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.03|-1.06|0.0389
82634331|NCT01258738|164984498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.1181|TWO_SIDED|95.0|-0.98|0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.11|-0.98|0.1181
82634332|NCT01258738|164984498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.2271|TWO_SIDED|95.0|-0.94|0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.22|-0.94|0.2271
82634333|NCT01258738|164984499|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634334|NCT01258738|164984499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0044|TWO_SIDED|95.0|-1.27|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.24|-1.27|0.0044
82569832|NCT01193218|164849610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-41.51|-31.69|||ANCOVA|treatment, renal function, number of previous antidiabetic medication as fixed effects, baseline fasting plasma glucose, baseline HbA1c as covariates||Difference calculated as empa 50mg minus placebo||-31.69|-41.51|<0.0001
82513488|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|7.018||||0.1074|TWO_SIDED|95.0|-1.531|15.567||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||15.567|-1.531|0.1074
82513489|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|20.824||||0|TWO_SIDED|95.0|12.253|29.395||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||29.395|12.253|0.0000
82513490|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.273||||0|TWO_SIDED|95.0|12.728|29.818||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||29.818|12.728|0.0000
82513491|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|9.898||||0.0233|TWO_SIDED|95.0|1.349|18.447||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||18.447|1.349|0.0233
82634335|NCT01258738|164984499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0455|TWO_SIDED|95.0|-1.09|-0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.01|-1.09|0.0455
82634336|NCT01258738|164984499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.175|TWO_SIDED|95.0|-0.91|0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.17|-0.91|0.1750
82634337|NCT01258738|164984499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.0379|TWO_SIDED|95.0|-1.12|-0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.03|-1.12|0.0379
82634338|NCT01258738|164984500|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634339|NCT01258738|164984500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0826|TWO_SIDED|95.0|-0.98|0.06|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.06|-0.98|0.0826
82634340|NCT01258738|164984500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1538|TWO_SIDED|95.0|-0.96|0.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.15|-0.96|0.1538
82634341|NCT01258738|164984500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0728|TWO_SIDED|95.0|-1.04|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.05|-1.04|0.0728
82634342|NCT01258738|164984500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0975|TWO_SIDED|95.0|-0.99|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.08|-0.99|0.0975
82634343|NCT01258738|164984501|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634344|NCT01258738|164984501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0186|TWO_SIDED|95.0|-1.18|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.11|-1.18|0.0186
82634345|NCT01258738|164984501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0106|TWO_SIDED|95.0|-1.01|-0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.13|-1.01|0.0106
82634346|NCT01258738|164984501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0048|TWO_SIDED|95.0|-1.11|-0.2|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.20|-1.11|0.0048
82634347|NCT01258738|164984501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0016|TWO_SIDED|95.0|-1.31|-0.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.31|-1.31|0.0016
82523754|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|72.0||||0.108|TWO_SIDED|95.0|-16.0|159.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 16||159|-16|0.108
82513492|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|14.255||||0.0011|TWO_SIDED|95.0|5.732|22.778||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||22.778|5.732|0.0011
82569833|NCT01013740|164849617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||||95.0|0.53|1.35|||||The Pike estimator of the treatment HR was based on the log rank test.|||1.35|0.53|
82569834|NCT01013740|164849622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.63|3.58||||||||3.58|0.63|
82569835|NCT00510146|164849677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.018|TWO_SIDED|95.0|-3.93|-0.36||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in MADRS total score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.36|-3.93|0.018
82569836|NCT00510146|164849678|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with symptomatic response at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.050
82569837|NCT00510146|164849679|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with symptomatic remission at any time from a Cochran-Mantel-Haenszel test using region as strata.|Cochran-Mantel-Haenszel|||||||0.367
82569838|NCT00510146|164849680|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.11||||0.008|TWO_SIDED|95.0|-0.2|-0.03||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Mania score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.03|-0.20|0.008
82634348|NCT01258738|164984502|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634349|NCT01258738|164984502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0058|TWO_SIDED|95.0|-1.37|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.24|-1.37|0.0058
82634350|NCT01258738|164984502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0064|TWO_SIDED|95.0|-1.42|-0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.24|-1.42|0.0064
82513493|NCT02139644|164719498|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|10.347||||0.0175|TWO_SIDED|95.0|1.822|18.872||Significance level of 0.05.|mixed model for repeated measures|||The analysis of change from baseline in weekly average of daily (AM predose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using an mixed model for repeated measures (MMRM) with an unstructured covariance matrix and with effects due to baseline weekly average of daily AM PEF, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||18.872|1.822|0.0175
82569839|NCT00510146|164849680|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.24||||0.037|TWO_SIDED|95.0|-0.47|-0.01||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Depression score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.01|-0.47|0.037
82569840|NCT00510146|164849680|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.008|TWO_SIDED|95.0|-0.53|-0.08||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in CGI-BP Overall score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.08|-0.53|0.008
82569841|NCT00510146|164849681|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with recovery from a Cochran-Mantel-Haenszel test using region as strata.|Cochran-Mantel-Haenszel|||||||0.156
82569842|NCT00510146|164849682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||<|0.001|TWO_SIDED|95.0|-1.56|-0.43||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.43|-1.56|<0.001
82569843|NCT00510146|164849683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.002|TWO_SIDED|95.0|-3.61|-0.81||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||-0.81|-3.61|0.002
82569844|NCT00510146|164849684|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with major depressive episode from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.297
82569845|NCT00510146|164849684|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with major depressive episode with melancholic features from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.264
82634351|NCT01258738|164984502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.0002|TWO_SIDED|95.0|-1.85|-0.6|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.60|-1.85|0.0002
82634352|NCT01258738|164984502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.0134|TWO_SIDED|95.0|-1.49|-0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.17|-1.49|0.0134
82569846|NCT00510146|164849685|SUPERIORITY_OR_OTHER|||||||0.195||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current hypomanic episode from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.195
82569847|NCT00510146|164849686|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current psychotic disorders from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.163
82569848|NCT00510146|164849686|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current mood disorders with psychotic features from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.442
82569849|NCT00510146|164849687|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current alcohol dependence from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||1.00
82569850|NCT00510146|164849687|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with current alcohol abuse from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.324
82569851|NCT00510146|164849689|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with emergence of mania at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.031
82569852|NCT00510146|164849690|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with EPS symptoms (akathisia) at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.269
82569853|NCT00510146|164849690|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||p-value represents a comparison of the olanzapine and placebo groups in percentage of participants with EPS symptoms (parkinsonism) at endpoint from a Cochran-Mantel-Haenszel test using geographic region as strata.|Cochran-Mantel-Haenszel|||||||0.736
82569854|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-standing systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.146
82569855|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-sitting systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.249
82569856|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-standing diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.146
82569857|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-sitting diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.271
82569858|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-orthostatic change in systolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.284
82569859|NCT00510146|164849691|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-orthostatic change in diastolic blood pressure from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.067
82569860|NCT00510146|164849692|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in weight from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
82569861|NCT00510146|164849693|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in fasting glucose from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.179
82569862|NCT00510146|164849693|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
82569863|NCT00510146|164849693|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in triglycerides from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.003
82569864|NCT00510146|164849693|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in LDL cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||<0.001
82569865|NCT00510146|164849693|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint-in HDL cholesterol from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.095
82513494|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.165||||0.0002|TWO_SIDED|95.0|-0.251|-0.08||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.080|-0.251|0.0002
82569866|NCT00510146|164849694|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in albumin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
82513495|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.143||||0.001|TWO_SIDED|95.0|-0.229|-0.058||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.058|-0.229|0.0010
82513496|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.23||||0|TWO_SIDED|95.0|-0.315|-0.144||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.144|-0.315|0.0000
82513497|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.194||||0|TWO_SIDED|95.0|-0.279|-0.109||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.109|-0.279|0.0000
82513498|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.064||||0.1381|TWO_SIDED|95.0|-0.15|0.021||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.021|-0.150|0.1381
82513499|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.051||||0.2438|TWO_SIDED|95.0|-0.136|0.035||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.035|-0.136|0.2438
82513500|NCT02139644|164719499|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.029||||0.5095|TWO_SIDED|95.0|-0.114|0.057||Significance level of 0.05.|mixed model for repeated measures|||The change from baseline in the weekly average of the total daily asthma symptom scores over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.057|-0.114|0.5095
82513501|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.463||||0.0004|TWO_SIDED|95.0|-0.716|-0.209||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.209|-0.716|0.0004
82513502|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.464||||0.0003|TWO_SIDED|95.0|-0.718|-0.211||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.211|-0.718|0.0003
82513503|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.675||||0|TWO_SIDED|95.0|-0.928|-0.421||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.421|-0.928|0.0000
82513504|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.704||||0|TWO_SIDED|95.0|-0.957|-0.45||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||-0.450|-0.957|0.0000
82523755|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-64.0||||0.147||95.0|-151.0|23.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 20||23|-151|0.147
82523756|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.792|TWO_SIDED|95.0|-98.0|75.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 20||75|-98|0.792
82513505|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.212||||0.1014|TWO_SIDED|95.0|-0.465|0.042||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.042|-0.465|0.1014
82513506|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.239||||0.064|TWO_SIDED|95.0|-0.492|0.014||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.014|-0.492|0.0640
82513507|NCT02139644|164719500|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.241||||0.0626|TWO_SIDED|95.0|-0.494|0.013||Significance level of 0.05|mixed model for repeated measures|||The change from baseline in the weekly average of total daily (24-hour) use of albuterol/ salbutamol inhalation aerosol (number of inhalations) over weeks 1 to 12 was analyzed using an MMRM with an unstructured covariance matrix and with effects due to baseline value, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), week, treatment, and week-by-treatment interaction.||0.013|-0.494|0.0626
82513508|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679||||||Significance level of 0.05|Log Rank|||||||0.1679
82513509|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1701||||||Significance level of 0.05|Log Rank|||||||0.1701
82513510|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0437||||||Significance level of 0.05|Log Rank|||||||0.0437
82513511|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1718||||||Significance level of 0.05|Log Rank|||||||0.1718
82513512|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3134||||||Significance level of 0.05|Log Rank|||||||0.3134
82513513|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.993||||||Significance level of 0.05|Log Rank|||||||0.9930
82569867|NCT00510146|164849695|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in ALT/SGPT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569868|NCT00510146|164849695|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in AST/SGOT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
82569869|NCT00510146|164849695|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in GGT from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569870|NCT00510146|164849696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in direct bilirubin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82513514|NCT02139644|164719501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9999||||||Significance level of 0.05|Log Rank|||||||0.9999
82569871|NCT00510146|164849696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in total bilirubin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82513515|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.301||||0.0044|TWO_SIDED|95.0|0.094|0.508||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.508|0.094|0.0044
82513516|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.253||||0.0155|TWO_SIDED|95.0|0.048|0.458||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.458|0.048|0.0155
82513517|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.473||||0|TWO_SIDED|95.0|0.27|0.676||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.676|0.270|0.0000
82513518|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.23||||0.0293|TWO_SIDED|95.0|0.023|0.437||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.437|0.023|0.0293
82513519|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|0.172||||0.0913|TWO_SIDED|95.0|-0.028|0.372||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.372|-0.028|0.0913
82513520|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.023||||0.8216|TWO_SIDED|95.0|-0.223|0.177||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.177|-0.223|0.8216
82513521|NCT02139644|164719502|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.071||||0.4934|TWO_SIDED|95.0|-0.275|0.133||Significance level of 0.05|ANCOVA|||The change from baseline in AQLQ(S) score (patients ≥18 years of age) at endpoint (ie, last postbaseline observation) was analyzed using an ANCOVA model with effects due to baseline AQLQ(S) score, sex, age, (pooled) center, previous therapy (ICS or ICS/LABA), and treatment, imputing missing data via last observation carried forward (LOCF).||0.133|-0.275|0.4934
82513522|NCT03223298|164719515|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||3-month mean change (from pre-op) in Jaw Pain compared between the Botox group and Placebo group.||||0.80
82513523|NCT03223298|164719516|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||3-month mean Jaw Function Limitation Scale score compared between Botox group and placebo group.||||0.50
82513524|NCT03223298|164719517|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Change in MIO with Pain at 3-months post-intervention compared between Botox group and Placebo group.||||0.30
82380244|NCT04886596|164470111|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|6.7|||||TWO_SIDED|95.0|-4.05|16.39|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the study period in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||16.39|-4.05|
82513525|NCT03223298|164719517|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Change in MIO without Pain at 3-months post-intervention compared between Botox group and Placebo group.||||0.50
82513526|NCT03223298|164719518|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Mean change at 3 months post intervention - General Health Score, compared between Botox group and Placebo group.||||0.40
82513527|NCT00274716|164719572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.6||0.157|TWO_SIDED|95.0|-5.3|0.9|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.9|-5.3|0.157
82569872|NCT00510146|164849696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in uric acid from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569873|NCT00510146|164849697|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in erythrocyte count from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.003
82634353|NCT01258738|164984503|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634354|NCT01258738|164984503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0316|TWO_SIDED|95.0|-1.09|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.05|-1.09|0.0316
82634355|NCT01258738|164984503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0973|TWO_SIDED|95.0|-0.99|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.08|-0.99|0.0973
82634356|NCT01258738|164984503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0216|TWO_SIDED|95.0|-1.27|-0.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.10|-1.27|0.0216
82634357|NCT01258738|164984503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.2425|TWO_SIDED|95.0|-1.03|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.26|-1.03|0.2425
82569874|NCT00510146|164849698|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hematocrit from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.001
82569875|NCT00510146|164849699|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hemoglobin A1c from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||0.009
82634358|NCT01258738|164984504|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82513528|NCT00274716|164719572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.5||0.01|TWO_SIDED|95.0|-7.1|-1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-1.0|-7.1|0.010
82513529|NCT00274716|164719572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|1.6||0.042|TWO_SIDED|95.0|-6.4|-0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-0.1|-6.4|0.042
82513530|NCT00274716|164719572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.6||0.517|TWO_SIDED|95.0|-2.1|4.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||4.1|-2.1|0.517
82513531|NCT00274716|164719572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.602|TWO_SIDED|95.0|-3.9|2.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||2.3|-3.9|0.602
82634359|NCT01258738|164984504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2688|TWO_SIDED|95.0|-0.92|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.26|-0.92|0.2688
82380245|NCT04886596|164470111|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|10.95|||||TWO_SIDED|95.0|-0.68|21.31|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the RSV seasons in adults ≥ 60 YOA, following a single dose of the RSVPreF3 OA investigational vaccine.||21.31|-0.68|
82569876|NCT00510146|164849700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in hemoglobin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569877|NCT00510146|164849701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in prolactin from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569878|NCT00510146|164849702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in urinalysis-specific gravity from Wilcoxon's rank-sum test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569879|NCT00510146|164849703|SUPERIORITY_OR_OTHER|||||||0.104||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in QTcF interval from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.104
82569880|NCT00510146|164849703|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in QTcB interval from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.006
82634360|NCT01258738|164984504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0866|TWO_SIDED|95.0|-1.17|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.08|-1.17|0.0866
82634361|NCT01258738|164984504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0277|TWO_SIDED|95.0|-1.34|-0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.08|-1.34|0.0277
82569881|NCT00510146|164849704|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint in heart rate from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||||0.035
82569882|NCT00510146|164849705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.943|TWO_SIDED|95.0|-0.59|0.64||p-value represents a comparison of the olanzapine and placebo groups in change from baseline to endpoint for MINI Suicidality Total Score from the following ANCOVA model: Change=Treatment+Baseline+Geographic Region.|ANCOVA|||||0.64|-0.59|0.943
82569883|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||p-value represents change from baseline to endpoint-standing diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.736
82569884|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||p-value represents change from baseline to endpoint-sitting diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.944
82569885|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||p-value represents change from baseline to endpoint-standing systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.080
82634362|NCT01258738|164984504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.239|TWO_SIDED|95.0|-1.04|0.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.26|-1.04|0.2390
82569886|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.612||95.0||||p-value represents change from baseline to endpoint-sitting systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.612
82569887|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||p-value represents change from baseline to endpoint-orthostatic change in diastolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.640
82569888|NCT00510146|164849713|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||p-value represents change from baseline to endpoint-orthostatic change in systolic blood pressure from t-tests on change.|t-test, 2 sided|||||||0.122
82569889|NCT00510146|164849714|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for weight from t-tests on change.|t-test, 2 sided|||||||<0.001
82569890|NCT00510146|164849715|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for albumin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569891|NCT00510146|164849715|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value represents change from baseline to endpoint for total protein from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.002
82569892|NCT00510146|164849716|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value represents change from baseline to endpoint for alkaline phosphatase from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.002
82569893|NCT00510146|164849716|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value represents change from baseline to endpoint for CPK from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.010
82569894|NCT00510146|164849716|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||p-value represents change from baseline to endpoint for GGT from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.354
82569895|NCT00510146|164849717|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value represents change from baseline to endpoint for chlorine from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.010
82634363|NCT01258738|164984505|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634364|NCT01258738|164984505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0928|TWO_SIDED|95.0|-1.0|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.08|-1.00|0.0928
82569896|NCT00510146|164849718|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for creatinine from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569897|NCT00510146|164849719|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||p-value represents change from baseline to endpoint for erythrocyte count from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.021
82569898|NCT00510146|164849720|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||p-value represents change from baseline to endpoint for hemoglobin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.035
82569899|NCT00510146|164849721|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value represents change from baseline to endpoint for platelet count from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||0.024
82569900|NCT00510146|164849722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for prolactin from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569901|NCT00510146|164849723|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for uric acid from Wilcoxon's signed-rank test.|Wilcoxon (Mann-Whitney)|||||||<0.001
82569902|NCT00510146|164849724|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||p-value represents change from baseline to endpoint for fasting glucose from t-tests on change.|t-test, 2 sided|||||||0.047
82569903|NCT00510146|164849724|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||p-value represents change from baseline to endpoint for cholesterol from t-tests on change.|t-test, 2 sided|||||||0.130
82569904|NCT00510146|164849724|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||p-value represents change from baseline to endpoint for triglycerides from t-tests on change.|t-test, 2 sided|||||||0.055
82569905|NCT00510146|164849724|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||p-value represents change from baseline to endpoint for LDL cholesterol from t-tests on change.|t-test, 2 sided|||||||0.049
82569906|NCT00510146|164849724|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value represents change from baseline to endpoint for HDL cholesterol from t-tests on change.|t-test, 2 sided|||||||<0.001
82569907|NCT00510146|164849725|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||p-value represents change from baseline to endpoint for QTcF from t-test.|t-test, 2 sided|||||||0.023
82569908|NCT00510146|164849725|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value represents change from baseline to endpoint for QTcB from t-test.|t-test, 2 sided|||||||0.044
82569909|NCT00510146|164849726|SUPERIORITY_OR_OTHER|||||||0.919||95.0||||p-value represents change from baseline to endpoint for heart rate from t-test.|t-test, 2 sided|||||||0.919
82569910|NCT03790878|164849820|OTHER|||||||0.018|||||||ANCOVA|||||||0.018
82569911|NCT03790878|164849821|OTHER|||||||0.396|||||||Multilevel modeling|||||||0.396
82569912|NCT03790878|164849822|OTHER|||||||0.002|||||||Multilevel modeling|||||||0.002
82569913|NCT00582114|164849825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36||||0.001|TWO_SIDED|95.0|1.36|4.23|||Mixed Models Analysis|||Cardiovascular events were counted by subject and included the following: myocardial infarction, stroke, hospitalization for congestive heart failure, hospitalized angina, arrhythmias, cardiac arrest, coronary revascularization and heart valve replacement. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals (95% CIs).||4.23|1.36|0.001
82569914|NCT00582114|164849825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.29||||0.02|TWO_SIDED|95.0|1.07|5.21|||Mixed Models Analysis|||As a post hoc analysis, we determined the narrower definition of cardiovascular events per group that included myocardial infarction, stroke, congestive heart failure or cardiovascular death. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals (95% CIs).||5.21|1.07|0.02
82569915|NCT00582114|164849825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.13||||0.02|TWO_SIDED|95.0|1.08|10.99|||Mixed Models Analysis|||Hospitalization for congestive heart failure between groups was analyzed. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals.||10.99|1.08|0.02
82569916|NCT00582114|164849825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.61||||0.002|TWO_SIDED|95.0|1.18|2.19|||Mixed Models Analysis|||All-cause hospitalizations between groups were analyzed. The duration of participation in the study per subject, which according to the trial design could be up to 12 months, was determined. Incidence rate ratio (IRR) by treatment was then determined along with the 95%confidence intervals.||2.19|1.18|0.002
82569917|NCT00118703|164849826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094||||0.604|TWO_SIDED|95.0|-0.26|0.45|||ANCOVA|The analysis method was adjusted for Baseline rTNSS, country, age, and gender, in addition to treatment effect.||||0.45|-0.26|0.604
82569918|NCT00118703|164849827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061||||0.729|TWO_SIDED|95.0|-0.29|0.41|||ANCOVA|The analysis method was adjusted for Baseline iTNSS, country, age, and gender, in addition to treatment effect.||||0.41|-0.29|0.729
82569919|NCT00118703|164849828|SUPERIORITY_OR_OTHER|||||||0.064|||||||Regression, Logistic|Overall evaluation of response to therapy was illustrated and analyzed using logistic regression adjusting for age, gender, investigator, and treatmen||||||0.064
82569920|NCT01343251|164849884|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Chi-squared|||||||0.48
82569921|NCT01343251|164849885|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
82569922|NCT01343251|164849886|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||SF-36 Test 1 Total Score|t-test, 2 sided|||||||0.49
82569923|NCT01343251|164849886|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||SF-36 Test 2 Total Score|t-test, 2 sided|||||||0.91
82569924|NCT01343251|164849886|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||SF-36 Test 3 Total Score|t-test, 2 sided|||||||0.67
82569925|NCT01343251|164849886|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||SF-36 Test 4 Total Score|t-test, 2 sided|||||||<0.001
82569926|NCT01343251|164849887|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Chi-squared|||||||0.04
82569927|NCT01343251|164849888|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Chi-squared|||||||0.90
82513532|NCT00274716|164719573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|2.4||0.046|TWO_SIDED|95.0|-9.7|-0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||-0.1|-9.7|0.046
82569928|NCT01468077|164849899|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0164|||||TWO_SIDED|95.0|-0.2685|0.2988|||||The CI (confidence interval) is calculated by Exact method based on binomial distribution.|||0.2988|-0.2685|
82569929|NCT00004146|164849922|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.65|1.12|||t-test, 1 sided|||the study design is to detect 30% reduction in hazard of deaths with 78% power at one side alpha level of 0.10. Overall survial time was calculated from time of histological diagnosis until time of death from any event.||1.12|0.65|0.10
82569930|NCT03024996|164849925|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.495|TWO_SIDED|95.0|0.75|1.15|||Log Rank|||||1.15|0.75|0.4950
82569931|NCT03024996|164849926|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8868||95.0|0.67|1.42|||Log Rank|||||1.42|0.67|0.8868
82569932|NCT03024996|164849927|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.201|TWO_SIDED|95.0|0.63|1.1|||Log Rank|||||1.10|0.63|0.2010
82634365|NCT01258738|164984505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.0139|TWO_SIDED|95.0|-1.27|-0.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.15|-1.27|0.0139
82569933|NCT03024996|164849928|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.2811|TWO_SIDED|95.0|0.69|1.12|||Log Rank|||||1.12|0.69|0.2811
82569934|NCT03024996|164849929|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0735|TWO_SIDED|95.0|0.55|1.03|||Log Rank|||||1.03|0.55|0.0735
82569935|NCT03024996|164849930|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1396|TWO_SIDED|95.0|0.67|1.06|||Log Rank|||||1.06|0.67|0.1396
82569936|NCT03024996|164849931|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4762|TWO_SIDED|95.0|0.55|1.33|||Log Rank|||||1.33|0.55|0.4762
82380246|NCT04886596|164470111|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses.|VE|12.12|||||TWO_SIDED|95.0|0.32|22.58|||Poisson regression method||VE is defined as 1 minus the relative risk (RR). RR=the ratio of the incidence rates of RSVPreF3 Group over Placebo Group. VE (% ) = Vaccine Efficacy (Poisson method - adjusted by age, region and season).|To evaluate the vaccine efficacy of the RSVPreF3 OA investigational vaccine in the prevention of complications related to any ARI during the RSV seasons in adults ≥ 60 YOA, following annual revaccination of the RSVPreF3 OA investigational vaccine.||22.58|0.32|
82380247|NCT04620746|164470138|SUPERIORITY|||||||0.98|||||||Chi-squared, Corrected|||||||0.98
82569937|NCT03024996|164849932|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.5111|TWO_SIDED|95.0|0.74|1.16|||Log Rank|||||1.16|0.74|0.5111
82569938|NCT00477464|164849963|SUPERIORITY_OR_OTHER||percentage of participants|59.0|||||TWO_SIDED|95.0|44.2|72.4|||||The estimated value represents the percentage of participants who achieved a best overall response of complete response, partial response, or stable disease.|||72.4|44.2|
82380248|NCT04620746|164470139|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82513533|NCT00274716|164719573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|2.4||0.108|TWO_SIDED|95.0|-8.7|0.9|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.9|-8.7|0.108
82569939|NCT03677245|164849992|OTHER|Wilcoxon signed ranks test used to compared pre-intervention to post-intervention means of the Pediatric Balance Scale. No power calculation performed or utilized.|Mean Difference (Final Values)|1.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82569940|NCT00130728|164850008|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.7583||95.0|0.799|1.177||relative to placebo arm|Log Rank||Stratified analysis; Hazard ratio is relative to placebo arm.|||1.177|0.799|0.7583
82569941|NCT00130728|164850009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.623|||<|0.0001||95.0|0.519|0.748||relative to placebo arm|Log Rank||Stratified analysis; hazard ratio is relative to placebo arm.|||0.748|0.519|<.0001
82634366|NCT01258738|164984505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0017|TWO_SIDED|95.0|-1.53|-0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.36|-1.53|0.0017
82634367|NCT01258738|164984505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.0008|TWO_SIDED|95.0|-1.61|-0.43|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.43|-1.61|0.0008
82380249|NCT02756611|164470162|SUPERIORITY||||||<|0.001|||||||Binomial test|||The null hypothesis stated that the CR rate for BCRi-naïve participants would be ≤ 6%, based on the CR rate reported for current therapies at the time the study was designed, with an alternative hypothesis that the CR rate would be \> 6%. If the p-value for this test was \< 0.025, the null hypothesis would be rejected.||||<0.001
82513534|NCT00274716|164719573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.5||0.099|TWO_SIDED|95.0|-9.0|0.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||0.8|-9.0|0.099
82513535|NCT00274716|164719573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|2.5||0.752|TWO_SIDED|95.0|-5.7|4.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||4.1|-5.7|0.752
82513536|NCT00274716|164719573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.5||0.941|TWO_SIDED|95.0|-4.7|5.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline mean trough SiDBP as a continuous variable||||5.0|-4.7|0.941
82513537|NCT00274716|164719574|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.2|-0.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-0.7|-2.2|<0.001
82513538|NCT00274716|164719574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-0.4|-1.9|0.003
82513539|NCT00274716|164719574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||-1.0|-2.4|<0.001
82513540|NCT00274716|164719574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.462|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||1.0|-0.5|0.462
82513541|NCT00274716|164719574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.4||0.118|TWO_SIDED|95.0|-0.2|1.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline weight as a continuous variable||||1.3|-0.2|0.118
82513542|NCT00274716|164719575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.059|TWO_SIDED|95.0|-3.7|0.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||0.1|-3.7|0.059
82569942|NCT00130728|164850010|SUPERIORITY_OR_OTHER_LEGACY||Percentage difference|6.4||||0.0068||95.0|1.8|11.3||Relative to placebo arm|Mantel Haenszel||Difference in objective response rates relative to placebo arm|||11.3|1.8|0.0068
82513543|NCT00274716|164719575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-5.5|-1.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||-1.7|-5.5|<0.001
82513544|NCT00274716|164719575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.9||0.136|TWO_SIDED|95.0|-3.3|0.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||0.5|-3.3|0.136
82513545|NCT00274716|164719575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.9||0.686|TWO_SIDED|95.0|-2.2|1.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||1.4|-2.2|0.686
82513546|NCT00274716|164719575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|0.9||0.022|TWO_SIDED|95.0|-4.0|-0.3|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline waist as a continuous variable||||-0.3|-4.0|0.022
82513547|NCT00274716|164719576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|4.3||0.005|TWO_SIDED|95.0|-20.8|-3.7|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||-3.7|-20.8|0.005
82513548|NCT00274716|164719576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|4.4||0.066|TWO_SIDED|95.0|-16.7|0.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||0.5|-16.7|0.066
82513549|NCT00274716|164719576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|4.5||0.319|TWO_SIDED|95.0|-13.4|4.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||4.4|-13.4|0.319
82513550|NCT00274716|164719576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|4.4||0.077|TWO_SIDED|95.0|-16.4|0.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||0.8|-16.4|0.077
82569943|NCT02725008|164850047|SUPERIORITY||Odds Ratio (OR)|2.32||||0.3|TWO_SIDED|95.0|0.54|10.07|||Chi-squared|||||10.07|0.54|0.3
82569944|NCT02725008|164850048|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
82380250|NCT02756611|164470173|SUPERIORITY||||||<|0.001|||||||Binomial test|||The null hypothesis stated that the CR rate for BCRi-naïve participants would be ≤ 6%, based on the CR rate reported for current therapies at the time the study was designed, with an alternative hypothesis that the CR rate would be \> 6%. If the p-value for this test was \< 0.025, the null hypothesis would be rejected.||||<0.001
82569945|NCT00702546|164850049|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-9.4|||||TWO_SIDED|95.0|-19.5|0.7||||||Treatment groups were compared with a generalized linear model for the cumulative ongoing pregnancy rate including covariates treatment group, age class (\< 32 yrs vs. ≥ 32 yrs), planned IVF treatment (IVF vs. ICSI) and region (Europe vs. Asia).||0.7|-19.5|
82569946|NCT00983892|164850056|SUPERIORITY_OR_OTHER||Slope|-1.56||||0.03|TWO_SIDED|95.0|-2.97|-0.15|||GEE|Adjusting for baseline symptom severity, caregiver type, week number, and cancer site.||||-0.15|-2.97|0.030
82569947|NCT03181282|164850062|SUPERIORITY||Slope|0.0529|STANDARD_ERROR_OF_MEAN|0.0194||0.0194|TWO_SIDED|95.0|0.0132|0.0925|||Mixed Models Analysis|Mixed model analysis with repeated measures.||This analysis is for the On Medication / On Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||0.0925|0.0132|0.0194
82569948|NCT03181282|164850062|SUPERIORITY||Slope|0.0718|STANDARD_ERROR_OF_MEAN|0.0231||0.004625|TWO_SIDED|95.0|0.0242|0.1194|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the Off Medication / Off Stimulation Condition. Age was controlled for in the analysis given the baseline difference in age between groups.||0.1194|0.0242|0.004625
82569949|NCT03181282|164850063|SUPERIORITY||Slope|10.5248|STANDARD_ERROR_OF_MEAN|4.8439||0.038389|TWO_SIDED|95.0|0.6038|20.4459|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the On Medication / On Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||20.4459|0.6038|0.038389
82569950|NCT03181282|164850063|SUPERIORITY||Slope|7.7233|STANDARD_ERROR_OF_MEAN|4.668||0.109873|TWO_SIDED|95.0|-1.8652|17.3117|||Mixed Models Analysis|Mixed models analysis with repeated measures.||This analysis is for the Off Medication / Off Stimulation condition. Age was controlled for in the analysis given the baseline difference in age between groups.||17.3117|-1.8652|0.109873
82569951|NCT01424189|164850086|NON_INFERIORITY_OR_EQUIVALENCE|With 300 subjects in the ReSTOR Toric IOL test group and 150 subjects in the ReSTOR IOL control group, there was over 99% power to demonstrate that the upper 95% confidence limit for the observed difference in UCDVA between IOL groups was less than the clinical performance target of 0.1 logMAR units at Month 12, assuming the true difference between groups is zero. This was based on an assumed standard deviation for UCDVA of 0.16 logMAR units and a 1-sided, α=0.05 test.|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.013|||ONE_SIDED|95.0||0.03||||||||0.030||
82569952|NCT01424189|164850087|NON_INFERIORITY_OR_EQUIVALENCE|With 300 subjects in the ReSTOR Toric IOL test group and 150 subjects in the ReSTOR IOL control group, there was over 99% power to demonstrate that the upper 95% confidence limit for the observed difference in UCNVA between IOL groups was less than the clinical performance target of 0.1 logMAR units at Month 12, assuming the true difference between groups is zero. This estimate was based on an assumed standard deviation for UCNVA of 0.16 logMAR units and a 1-sided, α=0.05 test.|Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.015|||ONE_SIDED|95.0||-0.017||||||||-0.017||
82569953|NCT00513461|164850114|SUPERIORITY||Mean Difference (Net)|7.78||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.160
82569954|NCT00513461|164850127|SUPERIORITY||Mean Difference (Net)|0.43||||0.878|TWO_SIDED||||||Two-Group t-test|||||||0.878
82569955|NCT00513461|164850128|SUPERIORITY||Mean Difference (Net)|-3.66||||0.212|TWO_SIDED||||||Two-Group t-test|||||||0.212
82569956|NCT04522778|164850132|OTHER|||||||0.029|||||||t-test, 1 sided|||A ratio of events per month was calculated for each participant. Participants were compared to themselves prior to intervention (i.e. event ratios pre intervention were compared to event ratios following intervention.)||||.029
82569957|NCT04522778|164850133|SUPERIORITY|||||||0.35|||||||t-test, 1 sided|||A ratio of events per month was calculated for each participant. Participants were compared to themselves prior to intervention (i.e. event ratios pre intervention were compared to event ratios following intervention.)||||.35
82569958|NCT04522778|164850134|SUPERIORITY|||||||0.334|||||||t-test, 1 sided|||||||.334
82569959|NCT04522778|164850135|SUPERIORITY||Odds Ratio (OR)|38.26|STANDARD_ERROR_OF_MEAN|50.195||0.005|TWO_SIDED|95.0|2.926154|500.4402|||Chi-squared|||||500.4402|2.926154|.005
82569960|NCT04522778|164850136|SUPERIORITY||Odds Ratio (OR)|30.975|STANDARD_ERROR_OF_MEAN|35.73483||0.003|TWO_SIDED|95.0|3.22|297.17|||Chi-squared|||||297.17|3.22|.003
82569961|NCT04522778|164850137|SUPERIORITY||Odds Ratio (OR)|27.36|STANDARD_ERROR_OF_MEAN|31.72||0.004|TWO_SIDED|95.0|2.82|265.45|||Chi-squared|||||265.45|2.82|.004
82569962|NCT04522778|164850138|SUPERIORITY||Odds Ratio (OR)|10.93|STANDARD_ERROR_OF_MEAN|10.345||0.011|TWO_SIDED|95.0|1.71|69.82|||Chi-squared|||||69.82|1.71|.011
82634368|NCT01258738|164984506|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82569963|NCT04522778|164850139|SUPERIORITY||Odds Ratio (OR)|0.298|STANDARD_ERROR_OF_MEAN|0.2189||0.099|TWO_SIDED|95.0|0.0706|1.258|||Chi-squared|||||1.258|.0706|.099
82569964|NCT04522778|164850140|SUPERIORITY||Odds Ratio (OR)|1.201|STANDARD_ERROR_OF_MEAN|1.201||0.312|TWO_SIDED|95.0|0.549|6.562|||Chi-squared|||||6.562|.549|.312
82569965|NCT04522778|164850141|SUPERIORITY||Odds Ratio (OR)|1.519|STANDARD_ERROR_OF_MEAN|2.022||0.753|TWO_SIDED|95.0|0.112|20.623|||Chi-squared|||||20.623|.112|.753
82569966|NCT04522778|164850142|SUPERIORITY||Odds Ratio (OR)|0.321|STANDARD_ERROR_OF_MEAN|0.257||0.156|TWO_SIDED|95.0|0.067|1.541|||Chi-squared|||||1.541|.067|.156
82569967|NCT04522778|164850143|SUPERIORITY||Odds Ratio (OR)|0.458|STANDARD_ERROR_OF_MEAN|0.358||0.318|TWO_SIDED|95.0|0.099|2.122|||Chi-squared|||||2.122|.099|.318
82569968|NCT04522778|164850144|SUPERIORITY||Odds Ratio (OR)|0.449|STANDARD_ERROR_OF_MEAN|0.882||0.684|TWO_SIDED|95.0|0.009|21.003|||Chi-squared|||||21.003|.009|.684
82569969|NCT04522778|164850145|SUPERIORITY||Odds Ratio (OR)|2.335|STANDARD_ERROR_OF_MEAN|2.683||0.46|TWO_SIDED|95.0|0.246|22.194|||Chi-squared|||||22.194|.246|.460
82569970|NCT04522778|164850146|SUPERIORITY||Odds Ratio (OR)|2.299|STANDARD_ERROR_OF_MEAN|2.47293||0.439|TWO_SIDED|95.0|0.279|18.927|||Chi-squared|||||18.927|.279|.439
82569971|NCT04522778|164850147|SUPERIORITY||Odds Ratio (OR)|1.634|STANDARD_ERROR_OF_MEAN|2.187||0.714|TWO_SIDED|95.0|0.119|22.514|||Chi-squared|||||22.514|.119|.714
82569972|NCT04522778|164850148|SUPERIORITY||Odds Ratio (OR)|0.379|STANDARD_ERROR_OF_MEAN|0.448||0.412|TWO_SIDED|95.0|0.037|3.842|||Chi-squared|||||3.842|.037|.412
82513551|NCT00274716|164719576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|4.4||0.418|TWO_SIDED|95.0|-12.2|5.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline LDL-C as a continuous variable||||5.1|-12.2|0.418
82513552|NCT00274716|164719577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|2.5||0.015|TWO_SIDED|95.0|-11.3|-1.2|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-1.2|-11.3|0.015
82513553|NCT00274716|164719577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|2.6||0.124|TWO_SIDED|95.0|-9.2|1.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||1.1|-9.2|0.124
82513554|NCT00274716|164719577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.6||0.429|TWO_SIDED|95.0|-3.1|7.2|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||7.2|-3.1|0.429
82513555|NCT00274716|164719577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|2.5||0.001|TWO_SIDED|95.0|-13.3|-3.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-3.4|-13.3|0.001
82513556|NCT00274716|164719577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|2.5||0.018|TWO_SIDED|95.0|-11.1|-1.1|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline HDL-C as a continuous variable||||-1.1|-11.1|0.018
82513557|NCT00274716|164719578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|9.0||0.587|TWO_SIDED|95.0|-12.9|22.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||22.8|-12.9|0.587
82513558|NCT00274716|164719578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|9.2||0.562|TWO_SIDED|95.0|-23.5|12.8|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||12.8|-23.5|0.562
82513559|NCT00274716|164719578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|9.2||0.802|TWO_SIDED|95.0|-15.8|20.4|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||20.4|-15.8|0.802
82513560|NCT00274716|164719578|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|9.0||0.772|TWO_SIDED|95.0|-15.2|20.5|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||20.5|-15.2|0.772
82513561|NCT00274716|164719578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|9.2||0.409|TWO_SIDED|95.0|-25.9|10.6|||ANCOVA|Treatment group and ambulatory blood pressure measurement (ABPM; yes or no) as class variables and baseline TG as a continuous variable||||10.6|-25.9|0.409
82634369|NCT01258738|164984506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.4559|TWO_SIDED|95.0|-0.84|0.38|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.38|-0.84|0.4559
82513562|NCT04193202|164719583|SUPERIORITY||Estimated difference|0.75||||0.034|TWO_SIDED|95.0|0.06|1.44|||Longitudinal ANCOVA|The model included terms for treatment group, visit, interaction of treatment by visit, gender, and baseline LCQ total score.|The estimated difference is the treatment difference in model based mean change from baseline at Week 12|||1.44|0.06|0.034
82513563|NCT04193202|164719584|OTHER||Estimated Difference|-6.92||||0.006|TWO_SIDED|95.0|-11.88|-1.97||Nominal p value, not controlled for multiplicity|Longitudinal ANCOVA|The model included terms for treatment group, visit, interaction of treatment by visit, gender, and baseline mean weekly cough severity VAS score.|The estimated difference is the treatment difference in model based mean change from baseline at Week 12.|||-1.97|-11.88|0.006
82513564|NCT01777997|164719599|OTHER|||||||0.001|||||||Regression, repeated measures (GEE)|||Estimated mean change from baseline to weeks 24-48 on ART from repeated measures (GEE) model, against the null hypothesis of zero change. Estimated mean represents on ART levels minus pre-ART levels.||||0.001
82513565|NCT01694706|164719608|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|120.35|STANDARD_DEVIATION|23.2||0.342|TWO_SIDED|90.0|102.09|141.88|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||141.88|102.09|0.3420
82513566|NCT01694706|164719608|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|94.33|STANDARD_DEVIATION|30.8||0.0962|TWO_SIDED|90.0|76.21|116.76|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||116.76|76.21|0.0962
82513567|NCT01694706|164719609|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|118.79|STANDARD_DEVIATION|52.4||0.3993|TWO_SIDED|90.0|83.19|169.628|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||169.628|83.190|0.3993
82513568|NCT01694706|164719609|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|93.55|STANDARD_DEVIATION|53.0||0.2204|TWO_SIDED|90.0|65.783|133.03|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||133.030|65.783|0.2204
82513569|NCT01694706|164719610|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|121.28|STANDARD_DEVIATION|24.0||0.3765|TWO_SIDED|90.0|102.32|143.74|||ANOVA|Ratio calculated as Faldaprevir after a high-fat meal divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||143.74|102.32|0.3765
82569973|NCT04522778|164850149|SUPERIORITY||Odds Ratio (OR)|0.579|STANDARD_ERROR_OF_MEAN|0.539||0.558|TWO_SIDED|95.0|0.094|3.582|||Chi-squared|||||3.582|.094|.558
82634370|NCT01258738|164984506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0345|TWO_SIDED|95.0|-1.28|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.05|-1.28|0.0345
82513570|NCT01694706|164719610|NON_INFERIORITY_OR_EQUIVALENCE|no formal testing, investigation of bioavailability|Geometric Mean Ratio|94.72|STANDARD_DEVIATION|31.4||0.0946|TWO_SIDED|90.0|76.25|117.67|||ANOVA|Ratio calculated as Faldaprevir and Omeprazole divided by Faldaprevir in fasting|Standard deviation is actually the geometric coefficient of variation (gCV)|||117.67|76.25|0.0946
82513571|NCT01923181|164719614|SUPERIORITY|This hypothesis was controlled for multiplicity.|Mean treatment difference|-1.47|||<|0.0001|TWO_SIDED|95.0|-1.73|-1.22|||Mixed Models Analysis||Oral semaglutide 40 mg pooled - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.22|-1.73|<0.0001
82513572|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.4||||0.0069|TWO_SIDED|95.0|-0.69|-0.11|||Mixed Models Analysis||Oral semaglutide 2.5 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.11|-0.69|0.0069
82513573|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.18|-0.6|||Mixed Models Analysis||Oral semaglutide 5 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.60|-1.18|<0.0001
82513574|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.47|-0.9|||Mixed Models Analysis||Oral semaglutide 10 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-0.90|-1.47|<0.0001
82569974|NCT04522778|164850150|SUPERIORITY||Odds Ratio (OR)|0.688|STANDARD_ERROR_OF_MEAN|0.609||0.673|TWO_SIDED|95.0|0.121|3.9|||Chi-squared|||||3.90|.121|.673
82569975|NCT04522778|164850151|SUPERIORITY||Odds Ratio (OR)|0.674|STANDARD_ERROR_OF_MEAN|0.438||0.544|TWO_SIDED|95.0|0.189|2.406|||Chi-squared|||||2.406|.189|.544
82634371|NCT01258738|164984506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.034|TWO_SIDED|95.0|-1.3|-0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.05|-1.30|0.0340
82634372|NCT01258738|164984506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0634|TWO_SIDED|95.0|-1.24|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.03|-1.24|0.0634
82634373|NCT01258738|164984507|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634374|NCT01258738|164984507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.0007|TWO_SIDED|95.0|-1.56|-0.43|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.43|-1.56|0.0007
82634375|NCT01258738|164984507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0073|TWO_SIDED|95.0|-1.39|-0.22|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-0.22|-1.39|0.0073
82634376|NCT01258738|164984507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.0094|TWO_SIDED|95.0|-1.48|-0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.21|-1.48|0.0094
82634377|NCT01258738|164984507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.012|TWO_SIDED|95.0|-1.54|-0.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.19|-1.54|0.0120
82634378|NCT01258738|164984508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.96||||0.0029|TWO_SIDED|95.0|7.54|32.37|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||32.37|7.54|0.0029
82634379|NCT01258738|164984508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.59||||0.01|TWO_SIDED|95.0|3.18|19.99|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||19.99|3.18|0.0100
82634380|NCT01258738|164984508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.75||||0.012|TWO_SIDED|95.0|3.62|23.89|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||23.89|3.62|0.0120
82634381|NCT01258738|164984508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.12||||0.0213|TWO_SIDED|95.0|3.04|27.2|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||27.20|3.04|0.0213
82513575|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.38|||<|0.0001|TWO_SIDED|95.0|-1.68|-1.09|||Mixed Models Analysis||Oral Semaglutide 20 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.09|-1.68|<0.0001
82513576|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-1.89|-1.3|||Mixed Models Analysis||Oral semaglutide 40 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.30|-1.89|<0.0001
82513577|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.14|||Mixed Models Analysis||Oral semaglutide 40 mg slow dose-escalation - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.14|-1.72|<0.0001
82513578|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.64|-1.04|||Mixed Models Analysis||Oral semaglutide 40 mg fast dose-escalation - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.04|-1.64|<0.0001
82513579|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-1.56|||<|0.0001|TWO_SIDED|95.0|-1.85|-1.27|||Mixed Models Analysis||Subcutaneous semaglutide 1 mg - Placebo|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||-1.27|-1.85|<0.0001
82513580|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|1.16|||<|0.0001|TWO_SIDED|95.0|0.87|1.45|||Mixed Models Analysis||Oral semaglutide 2.5 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||1.45|0.87|<0.0001
82513581|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.67|||<|0.0001|TWO_SIDED|95.0|0.38|0.96|||Mixed Models Analysis||Oral semaglutide 5 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.96|0.38|<0.0001
82513582|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.37||||0.0116|TWO_SIDED|95.0|0.08|0.67|||Mixed Models Analysis||Oral semaglutide 10 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.67|0.08|0.0116
82513583|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.18||||0.244|TWO_SIDED|95.0|-0.12|0.47|||Mixed Models Analysis||Oral semaglutide 20 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.47|-0.12|0.2440
82513584|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|-0.04||||0.7973|TWO_SIDED|95.0|-0.34|0.26|||Mixed Models Analysis||Oral semaglutide 40 mg - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.26|-0.34|0.7973
82513585|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.13||||0.3901|TWO_SIDED|95.0|-0.16|0.42|||Mixed Models Analysis||Oral semaglutide 40 mg slow-dose escalation - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.42|-0.16|0.3901
82523757|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.0||||0.275||95.0|-39.0|138.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 20||138|-39|0.275
82634382|NCT01258738|164984509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.88||||0.2755|TWO_SIDED|95.0|-5.15|20.92|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||20.92|-5.15|0.2755
82634383|NCT01258738|164984509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.57||||0.195|TWO_SIDED|95.0|-4.39|21.54|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||21.54|-4.39|0.1950
82634384|NCT01258738|164984509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.99||||0.0278|TWO_SIDED|95.0|0.72|27.26|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||27.26|0.72|0.0278
82634385|NCT01258738|164984509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.29||||0.0174|TWO_SIDED|95.0|2.28|28.3|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||28.30|2.28|0.0174
82634386|NCT01258738|164984510|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634387|NCT01258738|164984510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.0201|TWO_SIDED|95.0|-0.99|-0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4 and 12 data only. Week 4||-0.09|-0.99|0.0201
82513586|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.22||||0.1612|TWO_SIDED|95.0|-0.09|0.52|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Subcutaneous semaglutide 1 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.52|-0.09|0.1612
82513587|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.17||||0.2669|TWO_SIDED|95.0|-0.13|0.46|||Mixed Models Analysis||Oral semaglutide 40 mg slow-dose escalation - Oral semaglutide 40 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.46|-0.13|0.2669
82513588|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.26||||0.0989|TWO_SIDED|95.0|-0.05|0.56|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Oral semaglutide 40 mg|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.56|-0.05|0.0989
82513589|NCT01923181|164719614|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Treatment difference|0.09||||0.5565|TWO_SIDED|95.0|-0.21|0.39|||Mixed Models Analysis||Oral semaglutide 40 mg fast-dose escalation - Oral semaglutide 40 mg slow-dose escalation|Results are based on the data from the on-treatment without rescue medication observation period. The analysis was based on mixed model for repeated measurements with treatment, stratum and country as fixed factors and baseline value as covariate, all nested within visit. Group mean estimates were adjusted according to observed baseline distribution.||0.39|-0.21|0.5565
82513590|NCT00456092|164719656|SUPERIORITY||Odds Ratio (OR)|4.19||||0.002|TWO_SIDED|95.0|1.72|10.2||A p-value \< 0.025 (2-sided) is considered statistically significant, after adjusting for two treatment comparisons using the Bonferroni procedure.|Chi-squared, Corrected|||||10.20|1.72|0.002
82513591|NCT00456092|164719656|SUPERIORITY||Odds Ratio (OR)|5.77|||<|0.001|TWO_SIDED|95.0|2.4|13.88||A p-value \< 0.025 (2-sided) is considered statistically significant, after adjusting for two treatment comparisons using the Bonferroni procedure.|Chi-squared, Corrected|||||13.88|2.40|< 0.001
82513592|NCT00456092|164719659|SUPERIORITY||Odds Ratio (OR)|5.12||||0.056|TWO_SIDED|95.0|1.06|24.67|||Chi-squared, Corrected|||||24.67|1.06|0.056
82513593|NCT00456092|164719659|SUPERIORITY||Odds Ratio (OR)|6.95||||0.012|TWO_SIDED|95.0|1.49|32.35|||Chi-squared, Corrected|||||32.35|1.49|0.012
82513594|NCT00456092|164719660|SUPERIORITY||Odds Ratio (OR)|5.4||||0.204|TWO_SIDED|95.0|0.61|47.54|||Chi-squared, Corrected|||||47.54|0.61|0.204
82513595|NCT00456092|164719660|SUPERIORITY||Odds Ratio (OR)|4.12||||0.371|TWO_SIDED|95.0|0.45|37.88|||Chi-squared, Corrected|||||37.88|0.45|0.371
82513596|NCT00456092|164719661|SUPERIORITY||Odds Ratio (OR)|1.568||||0.264|TWO_SIDED|95.0|0.79|3.11|||Chi-squared, Corrected|||||3.11|0.79|0.264
82513597|NCT00456092|164719661|SUPERIORITY||Odds Ratio (OR)|1.98||||0.071|TWO_SIDED|95.0|1.0|3.91|||Chi-squared, Corrected|||||3.91|1.00|0.071
82513598|NCT00456092|164719662|SUPERIORITY||Odds Ratio (OR)|1.305||||0.549|TWO_SIDED|95.0|0.66|2.57|||Chi-squared, Corrected|||||2.57|0.66|0.549
82513599|NCT00456092|164719662|SUPERIORITY||Odds Ratio (OR)|1.033||||1|TWO_SIDED|95.0|0.53|2.03|||Chi-squared, Corrected|||||2.03|0.53|1.000
82513600|NCT00456092|164719663|SUPERIORITY||Odds Ratio (OR)|2.06||||0.083|TWO_SIDED|95.0|0.98|4.34|||Chi-squared, Corrected|||||4.34|0.98|0.083
82513601|NCT00456092|164719663|SUPERIORITY||Odds Ratio (OR)|1.63||||0.279|TWO_SIDED|95.0|0.77|3.44|||Chi-squared, Corrected|||||3.44|0.77|0.279
82634388|NCT01258738|164984510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0558|TWO_SIDED|95.0|-1.02|0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4 and 12 data only. Week 12||0.01|-1.02|0.0558
82634389|NCT01258738|164984511|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634390|NCT01258738|164984511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.6741|TWO_SIDED|95.0|-0.18|0.28|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.28|-0.18|0.6741
82634391|NCT01258738|164984511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3896|TWO_SIDED|95.0|-0.33|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.13|-0.33|0.3896
82634392|NCT01258738|164984511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.7468|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.31|-0.22|0.7468
82513602|NCT00456092|164719664|SUPERIORITY||Odds Ratio (OR)|1.32||||0.548|TWO_SIDED|95.0|0.66|2.66|||Chi-squared, Corrected|||||2.66|0.66|0.548
82513603|NCT00456092|164719664|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.52|2.11|||Chi-squared, Corrected|||||2.11|0.52|1.000
82513604|NCT00456092|164719667|SUPERIORITY||Treatment Difference|11.58||||0.136|TWO_SIDED||||||ANOVA|ANOVA model with treatment as the factor.|Treatment Difference = Apremilast 20 mg BID - Placebo|||||0.136
82513605|NCT00456092|164719667|SUPERIORITY||Treatment Difference|13.53||||0.08|TWO_SIDED||||||ANOVA|ANOVA model with treatment as the factor.|Treatment Difference = Apremilast 20 mg BID - Placebo|||||0.080
82513606|NCT00456092|164719668|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.65|TWO_SIDED|95.0|0.745|1.211|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||1.211|0.745|0.650
82569976|NCT04522778|164850152|SUPERIORITY||Odds Ratio (OR)|1.88|STANDARD_ERROR_OF_MEAN|1.631||0.464|TWO_SIDED|95.0|0.345|10.278|||Chi-squared|||||10.278|.345|.464
82569977|NCT04522778|164850153|SUPERIORITY||Odds Ratio (OR)|5.595|STANDARD_ERROR_OF_MEAN|5.675||0.09|TWO_SIDED|95.0|0.766|40.854|||Chi-squared|||||40.854|.766|.090
82569978|NCT04522778|164850154|SUPERIORITY||Odds Ratio (OR)|0.987|STANDARD_ERROR_OF_MEAN|1.119||0.991|TWO_SIDED|95.0|0.107|9.114|||Chi-squared|||||9.114|.107|.991
82569979|NCT04522778|164850155|SUPERIORITY||Odds Ratio (OR)|4.239|STANDARD_ERROR_OF_MEAN|5.027||0.223|TWO_SIDED|95.0|0.415|43.326|||Chi-squared|||||43.326|.415|.223
82569980|NCT04522778|164850156|SUPERIORITY||Odds Ratio (OR)|2.199|STANDARD_ERROR_OF_MEAN|2.496||0.488|TWO_SIDED|95.0|0.238|20.348|||Chi-squared|||||20.348|.238|.488
82569981|NCT04522778|164850157|SUPERIORITY||Odds Ratio (OR)|0.177|STANDARD_ERROR_OF_MEAN|0.129||0.018|TWO_SIDED|95.0|0.0424|0.743|||Chi-squared|||||.743|.0424|.018
82569982|NCT04522778|164850158|SUPERIORITY||Odds Ratio (OR)|3.688|STANDARD_ERROR_OF_MEAN|4.358||0.269|TWO_SIDED|95.0|0.364|37.379|||Chi-squared|||||37.379|.364|.269
82569983|NCT04522778|164850159|SUPERIORITY||Odds Ratio (OR)|4.251|STANDARD_ERROR_OF_MEAN|3.829||0.108|TWO_SIDED|95.0|0.728|24.84|||Chi-squared|||||24.84|.728|.108
82569984|NCT04522778|164850160|SUPERIORITY||Odds Ratio (OR)|3.658|STANDARD_ERROR_OF_MEAN|2.99||0.113|TWO_SIDED|95.0|0.737|18.157|||Chi-squared|||||18.157|.737|.113
82569985|NCT04522778|164850161|SUPERIORITY||Odds Ratio (OR)|2.495|STANDARD_ERROR_OF_MEAN|1.156||0.049|TWO_SIDED|95.0|1.004|6.202|||Chi-squared|||||6.202|1.004|.049
82569986|NCT02920021|164850163|SUPERIORITY||Least Squares (LS) Mean Difference|60.046|STANDARD_ERROR_OF_MEAN|79.918||0.463|TWO_SIDED|95.0|-108.566|228.657|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline value as covariate.|Treatment Difference = Etokimab - Placebo|||228.657|-108.566|0.463
82569987|NCT02920021|164850164|SUPERIORITY||LS Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.016||0.962|TWO_SIDED|95.0|-0.031|0.032|||ANCOVA|ANCOVA model with treatment as fixed effect and baseline value as covariate.|Treatment Difference = Etokimab - Placebo|||0.032|-0.031|0.962
82569988|NCT05400226|164850185|OTHER|Summary statistics of quantitative data, one-sided exact binomial test for null hypothesis, Clopper-Pearson method for 95% exact confidence intervals|Proportion|0.425|||<|0.0001|TWO_SIDED|95.0|0.27|0.591|||Exact Binomial Test||The Parameter Dispersion Value is the asymptotic standard error of the proportion.|Single arm open-label||0.591|0.270|< .0001
82569989|NCT05400226|164850186|OTHER||Proportion|0.85|||||TWO_SIDED|95.0|0.675|0.939||||||||0.939|0.675|
82569990|NCT05400226|164850187|OTHER||Proportion|0.455|||||TWO_SIDED|95.0|0.202|0.733||||||||0.733|0.202|
82569991|NCT05400226|164850188|OTHER||Proportion|0.333|||||TWO_SIDED|95.0|0.126|0.633||||||||0.633|0.126|
82569992|NCT05400226|164850189|OTHER||Proportion|0.773|||||TWO_SIDED|95.0|0.65|0.862||||||||0.862|0.650|
82569993|NCT00312845|164850191|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Log Rank|||||||0.039
82569994|NCT00312845|164850192|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82569995|NCT00424177|164850268|SUPERIORITY_OR_OTHER||Proportion of subjects in Cycle 2 or 3|0.87||||||95.0|0.74|0.94||||||||0.94|0.74|
82569996|NCT02154347|164850322|SUPERIORITY||Mean Difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.95|-0.37|||t-test, 2 sided|||||-0.37|-0.95|<0.001
82569997|NCT02188784|164850323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.03||||0.457|TWO_SIDED|95.0|-34.38|76.43|||Regression, Linear|||||76.43|-34.38|0.4570
82569998|NCT02188784|164850324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77||||0.9487|TWO_SIDED|95.0|-24.12|22.59|||Regression, Linear|||Change from Baseline to Week 8||22.59|-24.12|0.9487
82569999|NCT02188784|164850324|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.67||||0.1921|TWO_SIDED|95.0|-31.71|6.37|||Regression, Linear|||Change from Baseline to Week 16||6.37|-31.71|0.1921
82570000|NCT02188784|164850325|SUPERIORITY_OR_OTHER||Mean Difference (Net)|182.43||||0.4296|TWO_SIDED|95.0|-272.14|637.0|||Regression, Linear|||||637.0|-272.14|0.4296
82570001|NCT02188784|164850326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6||||0.0722|TWO_SIDED|95.0|-0.33|7.52|||Regression, Linear|||Change from baseline to week 8||7.52|-0.33|0.0722
82570002|NCT02188784|164850326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71||||0.6927|TWO_SIDED|95.0|-2.83|4.24|||Regression, Linear|||Change from baseline to week 16||4.24|-2.83|0.6927
82570003|NCT02188784|164850327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.0643|TWO_SIDED|95.0|-0.21|7.33|||Regression, Linear|||||7.33|-0.21|0.0643
82570004|NCT02188784|164850328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.4006|TWO_SIDED|95.0|-1.04|2.58|||Regression, Linear|||||2.58|-1.04|0.4006
82570005|NCT02250183|164850334|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Each case (participant) serves as its own control because they received both treatment modalities simultaneously.|McNemar|McNemar test was used because participants received both treatments, so this variable was non-independent in our single group sample.|2-sided|Each participant received both treatment modalities - MEDIHONEY® and SANTYL - and thus had two wound cultures performed, one for each treatment modality. This was a single group study; however, wound culture results were contrasted with each other across participants. Thus, independent variable was treatment modality, while dependent variable was the wound culture result (positive for presence of bacteria versus negative for absence of bacteria).||||1.00
82513607|NCT00456092|164719668|SUPERIORITY||Hazard Ratio (HR)|1.265||||0.283|TWO_SIDED|95.0|0.791|2.024|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.024|0.791|0.283
82513608|NCT00456092|164719669|SUPERIORITY||Hazard Ratio (HR)|1.337||||0.253|TWO_SIDED|95.0|0.791|2.26|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.260|0.791|0.253
82513609|NCT00456092|164719669|SUPERIORITY||Hazard Ratio (HR)|3.023||||0.026|TWO_SIDED|95.0|1.059|8.63|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||8.630|1.059|0.026
82513610|NCT00456092|164719670|SUPERIORITY||Hazard Ratio (HR)|1.006||||0.984|TWO_SIDED|95.0|0.457|2.215|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||2.215|0.457|0.984
82380251|NCT03135015|164470182|OTHER||Percentage Change from Control|-14.09||||0.1146|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.1146
82380252|NCT03135015|164470182|OTHER||Percentage Change from Control|-17.42||||0.0519|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.0519
82513611|NCT00456092|164719670|SUPERIORITY||Hazard Ratio (HR)|0.872||||0.836|TWO_SIDED|95.0|0.158|4.797|||Chi-squared||Based on a proportional hazards model comparing the hazard functions associated with the treatment and placebo.|||4.797|0.158|0.836
82513612|NCT00456092|164719675|SUPERIORITY||Adjusted Mean Difference|1.4||||0.308|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Mental Component||||0.308
82513613|NCT00456092|164719675|SUPERIORITY||Adjusted Mean Difference|4.1||||0.003|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Mental Component||||0.003
82634393|NCT01258738|164984511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.6871|TWO_SIDED|95.0|-0.35|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.23|-0.35|0.6871
82634394|NCT01258738|164984512|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634395|NCT01258738|164984512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.4332|TWO_SIDED|95.0|-0.57|1.32|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||1.32|-0.57|0.4332
82513614|NCT00456092|164719675|SUPERIORITY||Adjusted Mean Difference|1.6||||0.182|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Physical Component||||0.182
82513615|NCT00456092|164719675|SUPERIORITY||Adjusted Mean Difference|2.7||||0.026|TWO_SIDED||||||ANOVA|ANOVA model including treatment group, methotrexate use, and baseline score.|Adjusted mean difference (Apremilast-Placebo) was based on the ANOVA model described above.|Physical Component||||0.026
82513616|NCT00456092|164719676|SUPERIORITY||Adjusted Mean Difference|-2.1||||0.016|TWO_SIDED||||||ANOVA|ANOVA model using treatment group, methotrexate use, and interaction of treatment group and methotrexate use as factors.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.016
82380253|NCT03135015|164470182|OTHER||Percentage Change from Control|-8.95|||||TWO_SIDED|||||||||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||
82380254|NCT03135015|164470183|OTHER|||||||0.1146|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons||||0.1146
82380255|NCT03135015|164470183|OTHER|||||||0.0519|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons||||0.0519
82380256|NCT03135015|164470184|OTHER|||||||0.5827|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5827
82380257|NCT03135015|164470184|OTHER|||||||0.5485|||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5485
82380258|NCT03135015|164470185|OTHER||Percentage Change from Control|-8.53||||0.5827|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5827
82380259|NCT03135015|164470185|OTHER||Percentage Change from Control|9.32||||0.5485|TWO_SIDED||||||t-test, 2 sided|||The blinded AUC results for the 6 treatments will be subjected to repeated measures analysis of variance (ANOVA) examining for the main effects of treatment and participant-group, and treatment\*group interaction. After demonstration of significant heterogeneity among the 6 coded treatments, differences between individual means will be assessed using Tukey's test to adjust for multiple comparisons.||||0.5485
82380260|NCT03135015|164470186|OTHER|||||||0.1234|||||||t-test, 2 sided|||||||0.1234
82380261|NCT03135015|164470186|OTHER|||||||0.0331|||||||t-test, 2 sided|||||||0.0331
82380262|NCT03135015|164470187|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.0500
82380263|NCT03135015|164470187|OTHER|||||||0.0568|||||||t-test, 2 sided|||||||0.0568
82380264|NCT03135015|164470188|OTHER|||||||0.0509|||||||t-test, 2 sided|||||||0.0509
82380265|NCT03135015|164470188|OTHER|||||||0.5016|||||||t-test, 2 sided|||||||0.5016
82380266|NCT03135015|164470189|OTHER|||||||0.8444|||||||t-test, 2 sided|||||||0.8444
82380267|NCT03135015|164470189|OTHER|||||||0.9681|||||||t-test, 2 sided|||||||0.9681
82380268|NCT03135015|164470189|OTHER|||||||0.1022|||||||t-test, 2 sided|||||||.1022
82380269|NCT03135015|164470189|OTHER|||||||0.3738|||||||t-test, 2 sided|||||||.3738
82380270|NCT03135015|164470189|OTHER||Mean Difference (Net)|-13.123|STANDARD_ERROR_OF_MEAN|8.55|||TWO_SIDED||||||||Percentage Change from Control|||||
82380271|NCT03135015|164470189|OTHER||Mean Difference (Net)|-10.362|STANDARD_ERROR_OF_MEAN|10.387|||TWO_SIDED||||||||Percentage Change from Control|||||
82380272|NCT03135015|164470189|OTHER||Mean Difference (Net)|-13.738|STANDARD_ERROR_OF_MEAN|13.463|||TWO_SIDED||||||||Percentage Change from Control|||||
82380273|NCT03135015|164470189|OTHER||Mean Difference (Net)|-12.929|STANDARD_ERROR_OF_MEAN|14.282|||TWO_SIDED||||||||Percentage Change from Control|||||
82380274|NCT03135015|164470190|OTHER|||||||0.0111|||||||t-test, 2 sided|||||||0.0111
82380275|NCT03135015|164470190|OTHER|||||||0.1684|||||||t-test, 2 sided|||||||0.1684
82380276|NCT03135015|164470190|OTHER||Mean Difference (Net)|-11.604|STANDARD_ERROR_OF_MEAN|6.722|||TWO_SIDED||||||||Percentage Change from Control|||||
82380277|NCT03135015|164470190|OTHER||Mean Difference (Net)|12.755|STANDARD_ERROR_OF_MEAN|8.489|||TWO_SIDED||||||||Percentage Change from Control|||||
82380278|NCT03135015|164470190|OTHER||Mean Difference (Net)|-13.293|STANDARD_ERROR_OF_MEAN|9.664|||TWO_SIDED||||||||Percentage Change from Control|||||
82380279|NCT03135015|164470190|OTHER||Mean Difference (Net)|2.526|STANDARD_ERROR_OF_MEAN|5.813|||TWO_SIDED||||||||Percentage Change from Control|||||
82380280|NCT03135015|164470191|OTHER||Percentage Change from Control|-21.09||||0.0374|TWO_SIDED||||||t-test, 2 sided|||||||0.0374
82380281|NCT03135015|164470192|OTHER||Percentage Change from Control|-24.22||||0.0098|TWO_SIDED||||||t-test, 2 sided|||||||0.0098
82380282|NCT03135015|164470192|OTHER||Percentage Change from Control|-25.02||||0.0391|TWO_SIDED||||||t-test, 2 sided|||||||0.0391
82380283|NCT03135015|164470193|OTHER||Percentage Change from Control|-36.28||||0.0034|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0034
82380284|NCT03135015|164470193|OTHER||Percentage Change from Control|-33.21||||0.0058|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0058
82380285|NCT03135015|164470193|OTHER||Percentage Change from Control|-53.27||||0.0016|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0016
82380286|NCT03135015|164470193|OTHER||Percentage Change from Control|-46.19||||0.0125|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0125
82380287|NCT03135015|164470194|OTHER||Percentage Change from Control|-31.36||||0.0788|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0788
82380288|NCT03135015|164470194|OTHER||Percentage Change from Control|-30.32||||0.0887|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0887
82380289|NCT03135015|164470194|OTHER||Percentage Change from Control|-39.96||||0.0266|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0266
82380290|NCT03135015|164470194|OTHER||Percentage Change from Control|-41.8||||0.0455|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0455
82380291|NCT03135015|164470195|OTHER||Percentage Change from Control|-41.82||||0.0261|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0261
82380292|NCT03135015|164470195|OTHER||Percentage Change from Control|-36.45||||0.0391|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0391
82380293|NCT03135015|164470195|OTHER||Percentage Change from Control|-82.11||||0.0372|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0372
82513617|NCT00456092|164719676|SUPERIORITY||Adjusted Mean Difference|-1.4||||0.105|TWO_SIDED||||||ANOVA|ANOVA model using treatment group, methotrexate use, and interaction of treatment group and methotrexate use as factors.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.105
82513618|NCT00456092|164719678|SUPERIORITY||Adjusted Mean Difference|3.3||||0.028|TWO_SIDED||||||ANOVA|ANOVA model with treatment, methotrexate use, and interaction of treatment group and methotrexate use as factors and baseline score as the covariate.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.028
82570006|NCT02250183|164850335|SUPERIORITY||Mean Difference (Final Values)|3.615|STANDARD_ERROR_OF_MEAN|0.79||0.003|TWO_SIDED|95.0|1.149|4.565||The null hypothesis was that the two mean scores would not differ significantly at p\<.05 level.|t-test, 2 sided|df = 13||A paired samples, 2-tailed, t-test was used to compare means within participants for ratings of MEDIHONEY and SANTYL satisfaction total scores. The null hypothesis was that the two mean scores would not differ significantly at p\<.05 level.||4.565|1.149|.003
82380294|NCT03135015|164470195|OTHER||Percentage Change from Control|-55.81||||0.1631|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in blood glucose will be computed at 120 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.1631
82380295|NCT03135015|164470196|OTHER||Percentage Change from Control|-46.43||||0.0303|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in insulin will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.0303
82380296|NCT03135015|164470196|OTHER||Percentage Change from Control|-19.64||||0.4283|TWO_SIDED||||||t-test, 2 sided|||Change from baseline (CFB) in insulin will be computed at 90 minutes. The CFB results for the capsule treatments and the water control will be subjected to a paired t-test examining whether the mean difference between the two sets of observations is equal to zero.||||0.4283
82380297|NCT02348112|164470254|NON_INFERIORITY|The number and proportion of subjects experiencing a 50% or greater reduction in pad weight at 6 months were compared, and non-inferiority assessed using a normal approximation test (Z-test) for a difference in binomial proportion. Non-inferiority was considered achieved if the 95% confidence interval for the difference in proportions (Comparator - Altis) was less than 0.15.|Difference in Proportions|-0.054||||0.013|TWO_SIDED|95.0|-0.139|0.031|||Normal approximation test (Z-test)|||||0.031|-0.139|0.013
82380298|NCT02348112|164470255|NON_INFERIORITY|The number and proportion of subjects experiencing device- and/or procedure-related serious adverse events were tabulated for each study group. Non-inferiority through 36 months was calculated using a normal approximation test (Z-test) for a difference in binomial proportion. Non-inferiority was considered achieved if the lower limit of the 95% confidence interval for the difference in proportions (Comparator - Altis) is greater than -0.10 in the mITT analysis population.|Difference in Proportions|0.013|||<|0.0001|TWO_SIDED|95.0|-0.023|0.048|||Normal approximation test (Z-test)|||||0.048|-0.023|<0.0001
82513619|NCT00456092|164719678|SUPERIORITY||Adjusted Mean Difference|4.3||||0.004|TWO_SIDED||||||ANOVA|ANOVA model with treatment, methotrexate use, and interaction of treatment group and methotrexate use as factors with baseline score as the covariate.|The adjusted mean difference (Apremilast-Placebo) is based on an ANOVA model described above.|||||0.004
82513620|NCT01416194|164719701|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
82570007|NCT03282799|164850337|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
82513621|NCT01416194|164719701|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.91|TWO_SIDED|95.0|0.4|2.2|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.2|0.4|0.91
82380299|NCT01998841|164470256|SUPERIORITY||Difference in Annualized Rate of Change|0.33|STANDARD_ERROR_OF_MEAN|0.41||0.43|TWO_SIDED|95.0|-0.48|1.13|||RCRM|||Analysis was based on random coefficient regression model (RCRM) using unstructured covariance matrix: API Composite Endpoint=Treatment \* Analysis Year + interactive voice or Web-based response system (IxRS) defined Age Group + IxRS defined Education History + IxRS defined apolipoprotein E4 (APOE4) Carrier Status + IxRS defined CDR Global Score.||1.13|-0.48|0.43
82380300|NCT01998841|164470257|SUPERIORITY||Difference in Annualized Rate of Change|0.008|STANDARD_ERROR_OF_MEAN|0.006||0.16|TWO_SIDED|95.0|-0.003|0.02|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: FCSRT Cueing Index = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.02|-0.003|0.16
82380301|NCT01998841|164470258|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.48|TWO_SIDED|95.0|0.41|1.52|||Stratified Log Rank||Hazard ratios were estimated by Cox regression|Stratification factors used: Age Group, Education History, APOE4 Carrier Status, Clinical Dementia Rating (CDR) Global Score.||1.52|0.41|0.48
82380302|NCT01998841|164470259|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.76|TWO_SIDED|95.0|0.53|1.59|||Stratified Log Rank||Hazard ratios were estimated by Cox regression.|Stratification factors used: Age Group, Education History, APOE4 Carrier Status.||1.59|0.53|0.76
82380303|NCT01998841|164470260|SUPERIORITY||Difference in Annualized Rate of Change|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.64|TWO_SIDED|95.0|-0.15|0.09|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: CDR-SB = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.09|-0.15|0.64
82380304|NCT01998841|164470261|SUPERIORITY||Difference in Annualized Rate of Change|0.18|STANDARD_ERROR_OF_MEAN|0.29||0.55|TWO_SIDED|95.0|-0.4|0.75|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: RBANS Total Score = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.75|-0.40|0.55
82380305|NCT01998841|164470262|SUPERIORITY||Difference in Annualized Rate of Change|-0.0006|STANDARD_ERROR_OF_MEAN|0.002||0.69|TWO_SIDED|95.0|-0.0037|0.0024|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: PET SUVR = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.0024|-0.0037|0.69
82380306|NCT01998841|164470263|SUPERIORITY||Difference in Annualized Rate of Change|0.003|STANDARD_ERROR_OF_MEAN|0.002||0.25|TWO_SIDED|95.0|-0.002|0.007|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: FDG-PET = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.007|-0.002|0.25
82380307|NCT01998841|164470264|SUPERIORITY||Difference in Annualized Rate of Change|107.78|STANDARD_ERROR_OF_MEAN|92.28||0.25|TWO_SIDED|95.0|-74.5|290.05|||RCRM|||Whole Brain: Analysis was based on RCRM using unstructured covariance matrix: MRI Whole Brain (Derived) = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||290.05|-74.5|0.25
82513622|NCT01416194|164719702|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
82380308|NCT01998841|164470264|SUPERIORITY||Difference in Annualized Rate of Change|9.6|STANDARD_ERROR_OF_MEAN|17.39||0.58|TWO_SIDED|95.0|-24.74|43.94|||RCRM|||Bilateral Hippocampus: Analysis was based on RCRM using unstructured covariance matrix: MRI Bilateral Hippocampus = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||43.94|-24.74|0.58
82380309|NCT01998841|164470264|SUPERIORITY||Difference in Annualized Rate of Change|19.92|STANDARD_ERROR_OF_MEAN|213.08||0.93|TWO_SIDED|95.0|-400.78|440.62|||RCRM|||Ventricles: Analysis was based on RCRM using unstructured covariance matrix: MRI Ventricles = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||440.62|-400.78|0.93
82380310|NCT01998841|164470265|SUPERIORITY||Difference in Annualized Rate of Change|-1.97|STANDARD_ERROR_OF_MEAN|3.09||0.53|TWO_SIDED|95.0|-8.17|4.23|||RCRM|||tTau: Analysis was based on RCRM using unstructured covariance matrix: CSF tTau = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||4.23|-8.17|0.53
82380311|NCT01998841|164470265|SUPERIORITY||Difference in Annualized Rate of Change|-0.5|STANDARD_ERROR_OF_MEAN|0.46||0.28|TWO_SIDED|95.0|-1.43|0.43|||RCRM|||pTau: Analysis was based on RCRM using unstructured covariance matrix: CSF pTau = Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||0.43|-1.43|0.28
82380312|NCT01998841|164470273|SUPERIORITY||Difference in Annualized Rate of Change|7522.55|STANDARD_ERROR_OF_MEAN|313.17|<|0.0001|TWO_SIDED|95.0|6903.44|8141.65|||RCRM|||Aβ1-40: Analysis was based on RCRM using unstructured covariance matrix: APlasma Amyloid Beta 1-40 =Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||8141.65|6903.44|<0.0001
82380313|NCT01998841|164470273|SUPERIORITY||Difference in Annualized Rate of Change|556.03|STANDARD_ERROR_OF_MEAN|23.98|<|0.0001|TWO_SIDED|95.0|508.63|603.44|||RCRM|||Aβ1-42: Analysis was based on RCRM using unstructured covariance matrix: Plasma Amyloid Peptid Beta 42 =Treatment \* Analysis Year + IxRS defined Age Group + IxRS defined Education History + IxRS defined APOE4 Carrier Status + IxRS defined CDR Global Score.||603.44|508.63|<0.0001
82380314|NCT01263938|164470340|OTHER|||||||0.625||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.625
82570008|NCT03282799|164850338|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
82570009|NCT03282799|164850339|OTHER||||||<|0.001|||||||Fisher Exact|||||||<.001
82634396|NCT01258738|164984512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9947|TWO_SIDED|95.0|-0.98|0.98|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.98|-0.98|0.9947
82380315|NCT01263938|164470340|OTHER|||||||0.813||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.813
82634397|NCT01258738|164984512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.1558|TWO_SIDED|95.0|-0.28|1.75|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||1.75|-0.28|0.1558
82634398|NCT01258738|164984512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21||||0.0488|TWO_SIDED|95.0|0.03|2.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||2.39|0.03|0.0488
82634399|NCT01258738|164984513|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634400|NCT01258738|164984513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.7645|TWO_SIDED|95.0|-2.06|2.8|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||2.80|-2.06|0.7645
82634401|NCT01258738|164984513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.4178|TWO_SIDED|95.0|-1.48|3.55|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||3.55|-1.48|0.4178
82634402|NCT01258738|164984513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.443|TWO_SIDED|95.0|-1.67|3.79|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||3.79|-1.67|0.4430
82634403|NCT01258738|164984513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39||||0.1095|TWO_SIDED|95.0|-0.54|5.31|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||5.31|-0.54|0.1095
82634404|NCT01258738|164984514|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634405|NCT01258738|164984514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9504|TWO_SIDED|95.0|-0.46|0.49|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.49|-0.46|0.9504
82634406|NCT01258738|164984514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.4971|TWO_SIDED|95.0|-0.7|0.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.34|-0.70|0.4971
82634407|NCT01258738|164984514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8999|TWO_SIDED|95.0|-0.47|0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.54|-0.47|0.8999
82634408|NCT01258738|164984514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9712|TWO_SIDED|95.0|-0.6|0.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.62|-0.60|0.9712
82634409|NCT01258738|164984515|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634410|NCT01258738|164984515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.4556|TWO_SIDED|95.0|-1.46|3.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||3.24|-1.46|0.4556
82634411|NCT01258738|164984515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85||||0.0543|TWO_SIDED|95.0|-0.05|5.75|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||5.75|-0.05|0.0543
82570010|NCT03282799|164850340|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
82570011|NCT03282799|164850341|OTHER|||||||0.685|||||||Wilcoxon (Mann-Whitney)|||||||.685
82570012|NCT03282799|164850342|OTHER|||||||0.784|||||||Wilcoxon (Mann-Whitney)|||||||.784
82570013|NCT03282799|164850343|OTHER|||||||0.587|||||||Wilcoxon (Mann-Whitney)|||||||.587
82570014|NCT03282799|164850344|OTHER|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||||||.394
82570015|NCT03282799|164850345|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||.660
82570016|NCT03282799|164850346|OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.290
82570017|NCT02080403|164850362|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.1159|TWO_SIDED|95.0|-0.4|0.04|||Mixed Models Analysis|||||0.04|-0.40|0.1159
82634412|NCT01258738|164984515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26||||0.1754|TWO_SIDED|95.0|-1.02|5.53|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||5.53|-1.02|0.1754
82380316|NCT01263938|164470340|OTHER||||||>|0.999||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||>0.999
82380317|NCT01263938|164470341|OTHER||||||>|0.999||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||>0.999
82380318|NCT01263938|164470342|OTHER|||||||0.813||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.813
82380319|NCT01263938|164470343|OTHER|||||||0.625||||||Threshold for statistical significance: p\<0.05|Wilcoxon signed rank|||Sample size calculations were based on having sufficient power to detect a change in each of the outcome variables from baseline to week 12.The effect size was calculated as (detectable difference in change in outcome) / (SD of the change). Based on preliminary in vitro data, the smallest effect size was 1.88. Assuming that only 40% of this effect will be present in vivo (effect size=0.75), alpha = 0.05 and 80% power, n=16 is needed to complete the study.||||0.625
82634413|NCT01258738|164984515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45||||0.3985|TWO_SIDED|95.0|-1.93|4.82|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||4.82|-1.93|0.3985
82634414|NCT01258738|164984516|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test, after Week 24. For label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634415|NCT01258738|164984516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.2823|TWO_SIDED|95.0|-0.18|0.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.62|-0.18|0.2823
82634416|NCT01258738|164984516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.4029|TWO_SIDED|95.0|-0.23|0.58|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.58|-0.23|0.4029
82634417|NCT01258738|164984516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.511|TWO_SIDED|95.0|-0.25|0.51|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.51|-0.25|0.5110
82634418|NCT01258738|164984516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.5844|TWO_SIDED|95.0|-0.32|0.56|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.56|-0.32|0.5844
82634419|NCT01258738|164984517|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634420|NCT01258738|164984517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0129|TWO_SIDED|95.0|-0.95|-0.11|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.11|-0.95|0.0129
82634421|NCT01258738|164984517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.6003|TWO_SIDED|95.0|-0.61|0.35|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.35|-0.61|0.6003
82634422|NCT01258738|164984517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0911|TWO_SIDED|95.0|-0.89|0.07|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.07|-0.89|0.0911
82380320|NCT04052620|164470344|NON_INFERIORITY|Non-inferiority criteria: if the upper 95% Confidence Interval (CI) of Least Square (LS) mean difference was less than 13 mm then DDEA 2.32% gel BID was concluded as non-inferior.|Mean Difference (Final Values)|1.11|STANDARD_ERROR_OF_MEAN|2.09||0.595|TWO_SIDED|95.0|-3.0|5.22|||ANCOVA|||||5.22|-3.00|0.5950
82380321|NCT04052620|164470346|OTHER||Mean Difference (Final Values)|-2.43|STANDARD_ERROR_OF_MEAN|2.12||0.2536|TWO_SIDED|95.0|-6.61|1.75|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||1.75|-6.61|0.2536
82380322|NCT04052620|164470346|OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|1.76||0.6643|TWO_SIDED|95.0|-4.23|2.7|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||2.70|-4.23|0.6643
82570018|NCT01171183|164850394|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.52|STANDARD_DEVIATION|37.64||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82380323|NCT04052620|164470347|OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.19||0.3118|TWO_SIDED|95.0|-1.13|3.54|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||3.54|-1.13|0.3118
82380324|NCT04052620|164470347|OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|1.35||0.4937|TWO_SIDED|95.0|-3.6|1.74|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||1.74|-3.60|0.4937
82570019|NCT01171183|164850395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_DEVIATION|4.54||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82380325|NCT04052620|164470347|OTHER||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|1.67||0.3825|TWO_SIDED|95.0|-1.83|4.74|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||4.74|-1.83|0.3825
82380326|NCT04052620|164470348|OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.26||0.836|TWO_SIDED|95.0|-2.23|2.75|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||2.75|-2.23|0.8360
82380327|NCT04052620|164470348|OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|1.24||0.3119|TWO_SIDED|95.0|-3.69|1.18|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||1.18|-3.69|0.3119
82380328|NCT04052620|164470348|OTHER||Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|1.45||0.2535|TWO_SIDED|95.0|-1.2|4.52|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||4.52|-1.20|0.2535
82380329|NCT04052620|164470349|OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|1.51||0.6242|TWO_SIDED|95.0|-2.23|3.71|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||3.71|-2.23|0.6242
82380330|NCT04052620|164470349|OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|2.06||0.8905|TWO_SIDED|95.0|-4.33|3.77|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||3.77|-4.33|0.8905
82380331|NCT04052620|164470349|OTHER||Mean Difference (Final Values)|2.12|STANDARD_ERROR_OF_MEAN|2.24||0.3439|TWO_SIDED|95.0|-2.29|6.54|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||6.54|-2.29|0.3439
82380332|NCT04052620|164470350|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.1554|TWO_SIDED|95.0|-0.44|0.07|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||0.07|-0.44|0.1554
82380333|NCT04052620|164470350|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.0047|TWO_SIDED|95.0|-0.66|-0.12|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||-0.12|-0.66|0.0047
82380334|NCT04052620|164470350|OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0082|TWO_SIDED|95.0|-0.66|-0.1|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||-0.10|-0.66|0.0082
82380335|NCT04052620|164470351|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.2182|TWO_SIDED|95.0|-0.3|0.07|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 3|||0.07|-0.30|0.2182
82380336|NCT04052620|164470351|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0574|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||0.01|-0.36|0.0574
82380337|NCT04052620|164470351|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0194|TWO_SIDED|95.0|-0.37|-0.03|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 8|||-0.03|-0.37|0.0194
82380338|NCT04052620|164470352|OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.821||0.6545|TWO_SIDED|95.0|-1.25|1.986|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 1|||1.986|-1.250|0.6545
82380339|NCT04052620|164470352|OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.721||0.4924|TWO_SIDED|95.0|-1.915|0.924|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||0.924|-1.915|0.4924
82380340|NCT04052620|164470353|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.823||0.9491|TWO_SIDED|95.0|-1.675|1.57|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 1|||1.570|-1.675|0.9491
82380341|NCT04052620|164470353|OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.451||0.582|TWO_SIDED|95.0|-2.059|3.659|||ANCOVA||DDEA 2.32% gel vs DDEA 1.16% gel, Day 5|||3.659|-2.059|0.5820
82380342|NCT02899962|164470376|SUPERIORITY|The primary endpoint was time to first relapse during the maintenance phase. This was calculated as the number of days from randomisation to the day where the subject had the first relapse confirmed. For subjects who either did not encounter a relapse or were withdrawn from the trial, the number of days was treated as a censored observation at the day of end of trial visit.|Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.47|0.69|||Regression, Cox||Estimates are obtained from a proportional hazards model with treatment group,pooled trial site,disease severity at maintenance baseline (Week 4; determined by PGA) as factors.|All randomized subjects were considered for statistical analysis.||0.69|0.47|<0.001
82380343|NCT02899962|164470377|SUPERIORITY||Mean Difference (Net)|0.11|||<|0.001|TWO_SIDED|95.0|0.08|0.14|||ANOVA|Factors adjusted for in the ANOVA model were treatment group, pooled trial site, and disease severity at maintenance baseline (PGA).|Multiple imputation of data for withdrawn subjects was done using 100 imputations and depended on whether the subject's reason for withdrawal potentially was related to treatment. Length of the maintenance phase was assumed to be 52 weeks (364 days)|The number of days in remission was calculated as the sum of days where the subject was in remission periods. The proportion of days in remission was calculated as the number of days in remission divided by the length of the maintenance phase in days.||0.14|0.08|<0.001
82380344|NCT02899962|164470378|SUPERIORITY||Rate ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.46|0.63|||Poisson regression||The number of relapses was analysed using a Poisson regression model with treatment group,pooled sites,disease severity at maintenance baseline as factors, subject as random effect, and time at risk as an offset.|||0.63|0.46|<0.001
82380345|NCT00473590|164470386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.956||||0.9179|TWO_SIDED|95.0|0.404|2.261|||Log Rank|The strata were number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|The hazard ratios were estimated using Cox regression.|Stratified analysis||2.261|0.404|0.9179
82380346|NCT00473590|164470386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.836||||0.6665|TWO_SIDED|95.0|0.369|1.893||The tests were exploratory because patients were not randomized to the two arms with respect to response status.|Log Rank||The hazard ratios were estimated using Cox regression.|Unstratified analysis.||1.893|0.369|0.6665
82380347|NCT00473590|164470387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.633||||0.3134|TWO_SIDED|95.0|0.258|1.552|||Log Rank||The hazard ratios were estimated using Cox regression. The strata were number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|Stratified analysis||1.552|0.258|0.3134
82570020|NCT02161406|164850472|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||||||0.28
82570021|NCT02161406|164850473|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|||||||0.73
82570022|NCT02161406|164850474|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82634423|NCT01258738|164984517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.3144|TWO_SIDED|95.0|-0.73|0.24|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.24|-0.73|0.3144
82380348|NCT00473590|164470387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.608||||0.2634|TWO_SIDED|95.0|0.251|1.468|||Log Rank||The hazard ratios were estimated using Cox regression.|Unstratified analysis||1.468|0.251|0.2634
82380349|NCT00473590|164470388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.743||||0.2804|TWO_SIDED|95.0|0.432|1.276|||Log Rank|The analysis was stratified for number of prior cancer treatments (1, \> 1) and β2-microglobulin level (\< 3.5, ≥ 3.5 mg/L).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to BORT + P.|The null hypothesis was that there was no difference between the 2 treatment groups. The alternative hypothesis was that progression-free survival was longer in the BORT + BV group. Stratified Analysis.||1.276|0.432|0.2804
82380350|NCT00473590|164470388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.713||||0.2009|TWO_SIDED|95.0|0.424|1.2|||Log Rank||Hazard ratio relative to BORT + P was estimated using Cox regression.|Unstratified Analysis.||1.200|0.424|0.2009
82380351|NCT00395161|164470406|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Log Rank|Two-sided logrank test was used, stratified by immune compromised status at study entry (a factor also used to stratify the study randomization)||Null hypothesis was equal median time in both arms. Sample size calculated to yield 90% power to detect a significant effect, assuming inverse hazard rate of 1.5 using two-sided logrank test with alpha=0.05. This required recruitment until 263 patients with an event were enrolled (though the study was terminated early for futility by the DSMB).||||0.29
82380352|NCT00395161|164470407|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Rate analysis (see comments)|95% CIs were calculated for rates in each arm, and rates compared between arms, via approach of DR Cox, Biometrika (1953), vol 40, pp. 354-60.||Null hypothesis of equal event rates in the two study arms.||||0.81
82380353|NCT00395161|164470408|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.09
82380354|NCT00395161|164470409|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Chi-squared|||||||0.07
82380355|NCT00395161|164470410|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Chi-squared|||||||0.16
82380356|NCT01610492|164470414|OTHER||Geometric Mean|0.76|||||TWO_SIDED|95.0|0.57|1.01||||||||1.01|0.57|
82380357|NCT01610492|164470415|OTHER||Geometric Mean|0.27|||||TWO_SIDED|95.0|0.12|0.58||||||||0.58|0.12|
82380358|NCT03093259|164470459|OTHER|One-sided 10% significance level||||||0.2096|||||||Chi-squared|||||||0.2096
82380359|NCT03093259|164470460|OTHER|||||||0.1588|||||||Chi-squared|||||||0.1588
82380360|NCT03093259|164470461|OTHER|||||||0.483|||||||ANCOVA|||||||0.4830
82380361|NCT03093259|164470462|OTHER|||||||0.0742|||||||ANCOVA|||||||0.0742
82380362|NCT03093259|164470463|OTHER|||||||0.0462|||||||ANCOVA|||||||0.0462
82380363|NCT02575833|164470464|NON_INFERIORITY|The non-inferiority margin was -90 seconds.|Treatment Difference|-11.0|STANDARD_ERROR_OF_MEAN|20.4|||TWO_SIDED|90.0|-44.9|22.9||||||The primary endpoint was analyzed using an analysis of variance model with terms for treatment group and randomization strata (\< 7 or ≥ 7 minutes). If the lower bound of the 90% confidence interval (CI) of the difference in change from baseline in exercise duration was above the non-inferiority margin of -90 seconds, then the hypothesis that erenumab does not decrease exercise duration would be supported.||22.9|-44.9|
82380364|NCT02575833|164470465|SUPERIORITY|The log-rank test statistic was used to compare the two treatment groups at a significance level of 0.10.|Normal score|1.55||||0.69|||||||Stratified Log Rank|Log rank test stratified by baseline total exercise time strata (\< 7 minutes or ≥ 7 minutes).|A normal score \< 0 indicates fewer than expected events for erenumab 140 mg relative to placebo and therefore a longer survival time.|||||0.69
82380365|NCT02575833|164470465|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.69|TWO_SIDED|90.0|0.73|1.69|||Cox Proportional Hazard|Adjusted by stratified baseline total exercise time strata (\< 7 or ≥ 7 minutes)|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.69|0.73|0.69
82380366|NCT02575833|164470465|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.44|TWO_SIDED|90.0|0.52|1.26|||Cox Proportional Hazard|Adjusted by continuous baseline total exercise time|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.26|0.52|0.44
82380367|NCT02575833|164470465|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.47|TWO_SIDED|90.0|0.52|1.28|||Cox Proportional Hazard|Adjusted by baseline total exercise time strata (\< 7 or ≥ 7 minutes), age group (\< 65, ≥ 65), and sex.|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced angina free survival for erenumab 140 mg relative to placebo.|||1.28|0.52|0.47
82380368|NCT02575833|164470466|SUPERIORITY|The log-rank test statistic was used to compare the two treatment groups at a significance level of 0.10.|Normal score|2.2||||0.59|||||||Stratified Log Rank|Log rank test stratified by baseline total exercise time strata (\< 7 minutes or ≥ 7 minutes).|A normal score \< 0 indicates fewer than expected events for erenumab 140 mg relative to placebo and therefore a longer survival time.|||||0.59
82380369|NCT02575833|164470466|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.59|TWO_SIDED|90.0|0.76|1.69|||Cox Proportional Hazard|Adjusted by stratified baseline total exercise time strata (\< 7 or ≥ 7 minutes)|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.69|0.76|0.59
82380370|NCT02575833|164470466|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.75|TWO_SIDED|90.0|0.73|1.6|||Cox Proportional Hazard|Adjusted by continuous baseline total exercise time|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.60|0.73|0.75
82380371|NCT02575833|164470466|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.39|TWO_SIDED|90.0|0.82|1.87|||Cox Proportional Hazard|Adjusted by baseline total exercise time strata (\< 7 or ≥ 7 minutes), age group (\< 65, ≥ 65), and sex.|Hazard ratio estimates were obtained from the Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average event rate and a longer exercise-induced ST-segment depression free survival for erenumab 140 mg relative to placebo.|||1.87|0.82|0.39
82570023|NCT02161406|164850475|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82513623|NCT01416194|164719702|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.5|2.4|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.4|0.5|0.76
82634424|NCT01258738|164984518|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634425|NCT01258738|164984518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.6476|TWO_SIDED|95.0|-0.46|0.29|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 2||0.29|-0.46|0.6476
82634426|NCT01258738|164984518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9777|TWO_SIDED|95.0|-0.4|0.39|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 4||0.39|-0.40|0.9777
82634427|NCT01258738|164984518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.4453|TWO_SIDED|95.0|-0.28|0.65|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 8||0.65|-0.28|0.4453
82513624|NCT01416194|164719703|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.3|0.9|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.9|0.3|0.01
82513625|NCT01416194|164719703|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.37|TWO_SIDED|95.0|0.4|1.5|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.5|0.4|0.37
82513626|NCT01416194|164719704|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.5|0.10
82634428|NCT01258738|164984518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.5782|TWO_SIDED|95.0|-0.33|0.6|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12, data only. Week 12||0.60|-0.33|0.5782
82380372|NCT00550459|164470510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_DEVIATION|0.55||0.08|TWO_SIDED|95.0|-0.03|0.5||Secondary endpoints were ordered in 5 tiers to be analyzed only when \>=1 of the endpoints in the prior tier were significant. Since primary endpoint not stat significant, analyses of secondary endpoint tiers presented for exploratory purposes only|ANCOVA|ANCOVA with factors of treatment, disease severity, age(6 Degrees of Freedom), and covariate baseline to fit primary endpoint using the ITT dataset.||Analysis of covariance (ANCOVA) with factors of treatment,disease severity (\<130mEq/L \[mmol/L\] or ≥130mEq/L \[mmol/L\] at baseline),age (\<65, ≥65 to \<75,and ≥75 years) (factor with 6 Degrees of Freedom), and covariate baseline used to fit primary endpoint using the intent-to-treat (ITT) dataset. Estimated treatment effect and its 95% confidence interval (CI) provided under the model with p-value. A 2-sided alpha (0.05) applied to the primary analysis. Primary analysis based on observed cases (OC).||0.50|-0.03|0.08
82380373|NCT00550459|164470511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.63||0.21|TWO_SIDED|95.0|-0.12|0.51||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.51|-0.12|0.21
82380374|NCT00550459|164470512|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.27|STANDARD_DEVIATION|0.41||0.02|TWO_SIDED|95.0|0.04|0.51||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.51|0.04|0.02
82570024|NCT02161406|164850476|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
82570025|NCT02161406|164850477|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
82570026|NCT02161406|164850478|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
82570027|NCT02161406|164850479|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.34
82570028|NCT02161406|164850480|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82570029|NCT02161406|164850481|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
82570030|NCT02161406|164850482|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
82570031|NCT02161406|164850483|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.37
82380375|NCT00550459|164470513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26|STANDARD_DEVIATION|0.83||0.21|TWO_SIDED|95.0|-0.15|0.67||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.67|-0.15|0.21
82380376|NCT00550459|164470514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_DEVIATION|0.39||0.16|TWO_SIDED|95.0|-0.05|0.3||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.30|-0.05|0.16
82380377|NCT00550459|164470515|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.51|STANDARD_DEVIATION|3.53||0.23|TWO_SIDED|95.0|-4.02|1.0||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||1.00|-4.02|0.23
82380378|NCT00550459|164470516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_DEVIATION|3.51||0.18|TWO_SIDED|95.0|-2.04|0.38||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||0.38|-2.04|0.18
82570032|NCT02161406|164850484|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.55
82570033|NCT02161406|164850485|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
82570034|NCT02161406|164850486|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
82570035|NCT02161406|164850487|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||||||0.81
82570036|NCT02161406|164850488|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
82570037|NCT02161406|164850489|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
82570038|NCT02161406|164850490|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82634429|NCT01258738|164984519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0414|TWO_SIDED|95.0|-1.88|-0.04|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-0.04|-1.88|0.0414
82634430|NCT01258738|164984520|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634431|NCT01258738|164984520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.93|||<|0.001|TWO_SIDED|95.0|-4.16|-1.7|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-1.70|-4.16|<0.001
82634432|NCT01258738|164984521|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634433|NCT01258738|164984521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0414|TWO_SIDED|95.0|-1.88|-0.04|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||-0.04|-1.88|0.0414
82634434|NCT01258738|164984522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0132|TWO_SIDED|95.0|-0.72|-0.08|||ANCOVA|||"Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made.~Comparative analysis was carried out for Week 12 data only."||-0.08|-0.72|0.0132
82634435|NCT01258738|164984523|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634436|NCT01258738|164984523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.2438|TWO_SIDED|95.0|-0.52|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.13|-0.52|0.2438
82634437|NCT01258738|164984523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.1958|TWO_SIDED|95.0|-0.42|0.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.09|-0.42|0.1958
82634438|NCT01258738|164984523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.1624|TWO_SIDED|95.0|-0.46|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.08|-0.46|0.1624
82634439|NCT01258738|164984523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0091|TWO_SIDED|95.0|-0.54|-0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.08|-0.54|0.0091
82513627|NCT01416194|164719704|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.19|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.2|0.4|0.19
82634440|NCT01258738|164984524|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634441|NCT01258738|164984524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0836|TWO_SIDED|95.0|-1.32|0.08|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.08|-1.32|0.0836
82634442|NCT01258738|164984524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.5402|TWO_SIDED|95.0|-1.02|0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.54|-1.02|0.5402
82634443|NCT01258738|164984524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.8167|TWO_SIDED|95.0|-0.69|0.87|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.87|-0.69|0.8167
82634444|NCT01258738|164984524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9891|TWO_SIDED|95.0|-0.72|0.73|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.73|-0.72|0.9891
82634445|NCT01258738|164984525|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82513628|NCT01416194|164719705|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
82513629|NCT01416194|164719705|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9|TWO_SIDED|95.0|0.4|2.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.1|0.4|0.90
82634446|NCT01258738|164984525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6148|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.05|-0.08|0.6148
82634447|NCT01258738|164984525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2547|TWO_SIDED|95.0|-0.11|0.03|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.03|-0.11|0.2547
82513630|NCT01416194|164719706|SUPERIORITY||Hazard Ratio (HR)|1.9|||<|0.01|TWO_SIDED|95.0|1.4|2.5|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||2.5|1.4|<0.01
82513631|NCT01416194|164719706|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.74|TWO_SIDED|95.0|0.7|1.3|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.3|0.7|0.74
82570039|NCT02161406|164850491|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
82570040|NCT02161406|164850492|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
82570041|NCT02161406|164850493|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
82513632|NCT01416194|164719707|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.01|TWO_SIDED|95.0|0.3|0.6|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.6|0.3|<0.01
82513633|NCT01416194|164719707|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.01|TWO_SIDED|95.0|0.4|0.9|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.9|0.4|0.01
82513634|NCT01416194|164719708|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.01|TWO_SIDED|95.0|0.1|0.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.5|0.1|<0.01
82513635|NCT01416194|164719708|SUPERIORITY||Hazard Ratio (HR)|0.4||||0.06|TWO_SIDED|95.0|0.2|1.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.2|0.06
82513636|NCT01416194|164719709|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.01|TWO_SIDED|95.0|0.3|0.7|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.7|0.3|<0.01
82570042|NCT02161406|164850494|SUPERIORITY|||||||0.03|||||||van Elteren test|The van Elteren test adjusted for duration of dcSSc. Multiple imputation was used to address missing follow-up data in 5 components of CRISS.||||||0.03
82513637|NCT01416194|164719709|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.38|TWO_SIDED|95.0|0.5|1.4|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.4|0.5|0.38
82513638|NCT01416194|164719711|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.24|TWO_SIDED|95.0|0.9|1.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.5|0.9|0.24
82513639|NCT01416194|164719711|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.59|TWO_SIDED|95.0|0.8|1.6|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.6|0.8|0.59
82513640|NCT01416194|164719712|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.03|TWO_SIDED|95.0|0.6|1.0|||Regression, Logistic|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.0|0.6|0.03
82513641|NCT01416194|164719712|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.19|TWO_SIDED|95.0|0.6|1.1|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.1|0.6|0.19
82570043|NCT02161406|164850495|SUPERIORITY|||||||0.1769|||||||Mixed Models Analysis|||||||0.1769
82570044|NCT02161406|164850496|SUPERIORITY|||||||0.9075|||||||Mixed Models Analysis|||||||0.9075
82570045|NCT02161406|164850497|SUPERIORITY|||||||0.5831|||||||Mixed Models Analysis|||||||0.5831
82570046|NCT02161406|164850498|SUPERIORITY|||||||0.0193|||||||Mixed Models Analysis|||||||0.0193
82513642|NCT01416194|164719713|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.01|TWO_SIDED|95.0|0.2|0.5|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||0.5|0.2|<0.01
82513643|NCT01416194|164719713|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.24|TWO_SIDED|95.0|0.3|1.3|||Regression, Linear|||The hazard ratio from Cox proportional hazard regression models was used for comparison of event rates of the primary and secondary endpoints in each treatment group. Statistical two-sided tests was used with a significance level of 0.05.||1.3|0.3|0.24
82513644|NCT01222494|164719716|SUPERIORITY|||||||0.01||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.01
82513645|NCT01222494|164719717|SUPERIORITY|||||||0.04||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.04
82513646|NCT01222494|164719718|SUPERIORITY|||||||0.7||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.70
82570047|NCT02161406|164850499|SUPERIORITY|||||||0.0097|||||||Mixed Models Analysis|||||||0.0097
82570048|NCT02161406|164850500|SUPERIORITY|||||||0.0751|||||||Mixed Models Analysis|||||||0.0751
82634448|NCT01258738|164984525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.1208|TWO_SIDED|95.0|-0.08|0.01|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.01|-0.08|0.1208
82634449|NCT01258738|164984525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.8291|TWO_SIDED|95.0|-0.13|0.17|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.17|-0.13|0.8291
82634450|NCT01258738|164984526|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634451|NCT01258738|164984526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.3536|TWO_SIDED|95.0|-0.64|0.23|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||0.23|-0.64|0.3536
82634452|NCT01258738|164984526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0769|TWO_SIDED|95.0|-0.97|0.05|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||0.05|-0.97|0.0769
82634453|NCT01258738|164984526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4698|TWO_SIDED|95.0|-0.7|0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||0.33|-0.70|0.4698
82634454|NCT01258738|164984526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0167|TWO_SIDED|95.0|-1.19|-0.12|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.12|-1.19|0.0167
82634455|NCT01258738|164984527|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Most within group comparisons to baseline were \<0.001, from paired t-test. For open-label period results include unadjusted mean changes and standard errors, no covariate adjustments were applied.||||<0.001
82634456|NCT01258738|164984527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|||<|0.0001|TWO_SIDED|95.0|-4.39|-1.66|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-1.66|-4.39|<0.0001
82634457|NCT01258738|164984527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.86||||0.0008|TWO_SIDED|95.0|-6.09|-1.62|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-1.62|-6.09|0.0008
82634458|NCT01258738|164984527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.04||||0.0143|TWO_SIDED|95.0|-5.47|-0.61|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.61|-5.47|0.0143
82634459|NCT01258738|164984527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.0038|TWO_SIDED|95.0|-5.23|-1.02|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-1.02|-5.23|0.0038
82634460|NCT01258738|164984528|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test||||<0.001
82634461|NCT01258738|164984528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.71|||<|0.0001|TWO_SIDED|95.0|-10.85|-4.58|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-4.58|-10.85|<0.0001
82513647|NCT01222494|164719719|SUPERIORITY|||||||0.003||||||The p-value refers to the treatment group term in the model. The a priori threshold for statistical significance in this planned primary test was p \< 0.05.|ANCOVA|||An ANCOVA was used to test for differences between groups at endpoint, controlling for baseline values.||||0.003
82513648|NCT01174030|164719720|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.392|||<|0.001||95.0|2.637|26.71|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||26.710|2.637|<0.001
82513649|NCT01174030|164719720|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.269||||0.549||95.0|0.586|2.747|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||2.747|0.586|0.549
82513650|NCT01174030|164719720|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.738||||0.027||95.0|1.097|12.742|||GEE:Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||12.742|1.097|0.027
82570049|NCT02161406|164850501|SUPERIORITY|||||||0.4927|||||||Mixed Models Analysis|||||||0.4927
82570050|NCT02161406|164850502|SUPERIORITY|||||||0.1604|||||||Mixed Models Analysis|||||||0.1604
82570051|NCT02161406|164850503|SUPERIORITY|||||||0.7281|||||||Mixed Models Analysis|||||||0.7281
82570052|NCT02161406|164850504|SUPERIORITY|||||||0.1679|||||||Mixed Models Analysis|||||||0.1679
82570053|NCT02161406|164850505|SUPERIORITY|||||||0.2906|||||||Mixed Models Analysis|||||||0.2906
82570054|NCT02034162|164850513|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82570055|NCT02034162|164850514|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82634462|NCT01258738|164984528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.12|||<|0.0001|TWO_SIDED|95.0|-9.16|-3.09|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||-3.09|-9.16|<0.0001
82634463|NCT01258738|164984528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.78||||0.0009|TWO_SIDED|95.0|-9.15|-2.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-2.41|-9.15|0.0009
82634464|NCT01258738|164984528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.03|||<|0.0001|TWO_SIDED|95.0|-10.34|-3.73|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-3.73|-10.34|<0.0001
82634465|NCT01258738|164984529|SUPERIORITY_OR_OTHER|||||||0.037|||||||t-test, 2 sided|||With the exception of change from Baseline in the placebo group at Week 12, within group comparisons to baseline for all other treatment groups and time points were \<0.001, from paired t-test.||||0.0370
82634466|NCT01258738|164984529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9965|TWO_SIDED|95.0|-4.39|4.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 4||4.37|-4.39|0.9965
82634467|NCT01258738|164984529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.61||||0.197|TWO_SIDED|95.0|-1.89|9.1|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 8||9.10|-1.89|0.1970
82634468|NCT01258738|164984529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.07||||0.0394|TWO_SIDED|95.0|0.3|11.84|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 12||11.84|0.30|0.0394
82634469|NCT01258738|164984530|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.01 at Week 12 and \<0.001 thereafter, from paired t-test.||||<0.01
82634470|NCT01258738|164984530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.1341|TWO_SIDED|95.0|-0.02|0.21|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 4||0.21|-0.02|0.1341
82634471|NCT01258738|164984530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.0447|TWO_SIDED|95.0|0.0|0.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 8||0.14|0.00|0.0447
82634472|NCT01258738|164984530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.1345|TWO_SIDED|95.0|-0.02|0.13|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 8, 12 data only. Week 12||0.13|-0.02|0.1345
82513651|NCT01174030|164719721|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.683||||0.003||95.0|1.388|5.188|||GEE:Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model||||5.188|1.388|.003
82634473|NCT01258738|164984531|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634474|NCT01258738|164984531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.31||||0.1035|TWO_SIDED|95.0|-0.27|2.9|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||2.90|-0.27|0.1035
82634475|NCT01258738|164984531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38||||0.0134|TWO_SIDED|95.0|0.5|4.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||4.26|0.50|0.0134
82634476|NCT01258738|164984532|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.05, from paired t-test.||||<0.05
82634477|NCT01258738|164984532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18||||0.252|TWO_SIDED|95.0|-0.84|3.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||3.19|-0.84|0.2520
82634478|NCT01258738|164984532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.4981|TWO_SIDED|95.0|-1.63|3.34|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||3.34|-1.63|0.4981
82634479|NCT01258738|164984533|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634480|NCT01258738|164984533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.4621|TWO_SIDED|95.0|-0.9|0.41|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.41|-0.90|0.4621
82634481|NCT01258738|164984533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.3842|TWO_SIDED|95.0|-1.28|0.5|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.50|-1.28|0.3842
82634482|NCT01258738|164984534|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634483|NCT01258738|164984534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.6357|TWO_SIDED|95.0|-0.52|0.86|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.86|-0.52|0.6357
82513652|NCT01174030|164719721|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.892||||0.056||95.0|0.98|3.651|||GEE: Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.651|0.980|0.056
82513653|NCT01174030|164719721|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.885||||0.074||95.0|0.946|3.756|||GEE:Logit link Function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.756|0.946|0.074
82513654|NCT01174030|164719722|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.582|||<|0.001||95.0|2.755|15.723|||GEE: Logit link function|Generalize Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||15.723|2.755|<0.001
82513655|NCT01174030|164719722|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.853||||0.093||95.0|0.903|3.802|||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||3.802|0.903|0.093
82513656|NCT01174030|164719722|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.365||||0.054||95.0|0.96|5.825|||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||5.825|0.960|0.054
82513657|NCT00563797|164719723|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||F=7.73|Mixed Models Analysis|||Comparison is between baseline and during treatment.||||0.014
82513658|NCT00563797|164719724|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||F=36.32|Mixed Models Analysis|||Comparison of baseline and post-treatment||||.0001
82513659|NCT00563797|164719725|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Mixed Models Analysis|||||||.025
82513660|NCT00563797|164719726|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Mixed Models Analysis|||||||.019
82513661|NCT02809976|164719727|OTHER|single group/descriptive analysis||||||0.02|||||||paired t-test|||||||0.02
82513662|NCT03091751|164719767|OTHER||Mean Difference (Final Values)|10.41||||0.77|TWO_SIDED|95.0|-224.88|245.7|||t-test, 1 sided|||||245.70|-224.88|0.77
82513663|NCT03091751|164719768|OTHER||Mean Difference (Final Values)|0.3068||||0.002|TWO_SIDED|95.0|0.1501|0.4635|||t-test, 1 sided|||||0.4635|0.1501|0.002
82513664|NCT03091751|164719769|OTHER||Mean Difference (Final Values)|-3.3||||0.3|TWO_SIDED|95.0|-8.9|2.3|||t-test, 1 sided|||||2.3|-8.9|0.30
82513665|NCT03091751|164719770|OTHER||Mean Difference (Final Values)|-0.0058||||0.16|TWO_SIDED|95.0|-0.0119|0.0003|||t-test, 1 sided|||||0.0003|-0.0119|0.16
82570056|NCT02034162|164850516|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82513666|NCT03091751|164719771|OTHER||Mean Difference (Final Values)|-7.609||||0.02|TWO_SIDED|95.0|-13.344|-1.879|||t-test, 1 sided|||||-1.879|-13.344|0.02
82513667|NCT01161329|164719773|NON_INFERIORITY_OR_EQUIVALENCE|It was estimated that 128 individuals would be required for 80 % Power with a type I error of 5% to detect a 2-point difference in BBS with a standard deviation of +/- 4 points. Because of the slow recruitment and the statistically significant improvements observed in the primary outcome in the intervention group during an interim analysis the study was finalized with fewer participants than had been initially calculated.||||||0.001||||||The Bonferroni method was used to assess longitudinal Changes and correct for multiple comparisons, with significance set at p\<0.016 to minimize the risk for type I errors.|Wilcoxon (Mann-Whitney)|||Intention-to-treat analysis was performed to assess the effects on the outcome measures. Between-group differences for all outcome measures were analyzed using Mann-Whitney U-test.||||0.001
82513668|NCT01161329|164719774|SUPERIORITY_OR_OTHER|||||||0.09||||||The p-value for the man differnece in SPPB between grpoups att three months was 0.09|Wilcoxon (Mann-Whitney)|||||||0.09
82513669|NCT03161314|164719776|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Baseline||||0.660
82513670|NCT03161314|164719776|SUPERIORITY|||||||0.734|||||||t-test, 2 sided|||2 weeks after the intervention||||0.734
82513671|NCT03161314|164719776|SUPERIORITY|||||||0.629|||||||t-test, 2 sided|||4 weeks after the intervention||||0.629
82513672|NCT03161314|164719776|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||1-month follow-up||||0.752
82570057|NCT02034162|164850517|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82513673|NCT03161314|164719776|SUPERIORITY|||||||0.512|||||||t-test, 2 sided|||2-month follow-up||||0.512
82570058|NCT00760513|164850523|SUPERIORITY||Mean Difference (Net)|-1.7||||0.48|TWO_SIDED|95.0|-6.3|3.0||The a priori threshold for statistical significance = P\</=0.05|Regression, Linear|Adjusted for baseline value of liver fat percentage||We estimated that a 20% decrease in liver fat with Omacor treatment, assuming a sigma of 0.3, and an alpha of 0.05; with 91 participants completing our trial, we had 86% power to detect a 20% change in liver fat (two tailed test) (see HEPATOLOGY 2014;60:1211-1221).||3.0|-6.3|0.48
82634484|NCT01258738|164984534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.2439|TWO_SIDED|95.0|-1.39|0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.36|-1.39|0.2439
82634485|NCT01258738|164984535|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82513674|NCT03161314|164719776|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513675|NCT03161314|164719776|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513676|NCT03161314|164719777|SUPERIORITY|||||||0.128|||||||t-test, 2 sided|||Baseline||||0.128
82513677|NCT03161314|164719777|SUPERIORITY|||||||0.889|||||||t-test, 2 sided|||2 weeks after the intervention||||0.889
82513678|NCT03161314|164719777|SUPERIORITY|||||||0.793|||||||t-test, 2 sided|||4 weeks after the intervention||||0.793
82513679|NCT03161314|164719777|SUPERIORITY|||||||0.602|||||||t-test, 2 sided|||1-month follow-up||||0.602
82513680|NCT03161314|164719777|SUPERIORITY|||||||0.574|||||||t-test, 2 sided|||2-month follow-up||||0.574
82513681|NCT03161314|164719777|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513682|NCT03161314|164719777|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513683|NCT03161314|164719778|SUPERIORITY|||||||0.374|||||||t-test, 2 sided|||Baseline||||0.374
82513684|NCT03161314|164719778|SUPERIORITY|||||||0.674|||||||t-test, 2 sided|||2 weeks after the intervention||||0.674
82513685|NCT03161314|164719778|SUPERIORITY|||||||0.781|||||||t-test, 2 sided|||4 weeks after the intervention||||0.781
82513686|NCT03161314|164719778|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||1-month follow-up||||0.778
82513687|NCT03161314|164719778|SUPERIORITY|||||||0.727|||||||t-test, 2 sided|||2-month follow-up||||0.727
82513688|NCT03161314|164719778|SUPERIORITY|||||||0.014|||||||ANOVA|||Within group comparison||||0.014
82513689|NCT03161314|164719778|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
82513690|NCT03161314|164719779|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Baseline||||0.390
82513691|NCT03161314|164719779|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||2 weeks after the intervention||||0.770
82513692|NCT03161314|164719779|SUPERIORITY|||||||0.603|||||||t-test, 2 sided|||4 weeks after the intervention||||0.603
82513693|NCT03161314|164719779|SUPERIORITY|||||||0.922|||||||t-test, 2 sided|||1-month follow-up||||0.922
82513694|NCT03161314|164719779|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||2-month follow-up||||0.560
82513695|NCT03161314|164719779|SUPERIORITY|||||||0.181|||||||ANOVA|||Within group comparison||||0.181
82513696|NCT03161314|164719779|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513697|NCT03161314|164719780|SUPERIORITY|||||||0.334|||||||t-test, 2 sided|||Baseline||||0.334
82513698|NCT03161314|164719780|SUPERIORITY|||||||0.766|||||||t-test, 2 sided|||2 weeks after the intervention||||0.766
82513699|NCT03161314|164719780|SUPERIORITY|||||||0.598|||||||t-test, 2 sided|||4 weeks after the intervention||||0.598
82513700|NCT03161314|164719780|SUPERIORITY|||||||0.682|||||||t-test, 2 sided|||1-month follow-up||||0.682
82513701|NCT03161314|164719780|SUPERIORITY|||||||0.707|||||||t-test, 2 sided|||2-month follow-up||||0.707
82513702|NCT03161314|164719780|SUPERIORITY|||||||0.008|||||||ANOVA|||Within group comparison||||0.008
82513703|NCT03161314|164719780|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
82513704|NCT03161314|164719781|SUPERIORITY|||||||0.287|||||||t-test, 2 sided|||Baseline||||0.287
82513705|NCT03161314|164719781|SUPERIORITY|||||||0.861|||||||t-test, 2 sided|||2 weeks after the intervention||||0.861
82513706|NCT03161314|164719781|SUPERIORITY|||||||0.641|||||||t-test, 2 sided|||4 weeks after the intervention||||0.641
82513707|NCT03161314|164719781|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||1-month follow-up||||0.864
82513708|NCT03161314|164719781|SUPERIORITY|||||||0.888|||||||t-test, 2 sided|||2-month follow-up||||0.888
82513709|NCT03161314|164719781|SUPERIORITY|||||||0.262|||||||ANOVA|||Within group comparison||||0.262
82380379|NCT00550459|164470517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.75|STANDARD_DEVIATION|3.45|<|0.0001|TWO_SIDED|95.0|2.89|6.6||ANCOVA with factors of treatment, disease severity, age, and severity by age interaction, and baseline as covariate. The estimated treatment and its 95% CI were provided under the model along with the p-value.|ANCOVA|||Per-protocol, secondary endpoints were ordered in 5 tiers and were to be analyzed only when at least 1 of the endpoints in the previous tier was significant. As the primary endpoint was not statistically significant, the analyses of subsequent secondary endpoint tiers are presented for exploratory purposes only.||6.60|2.89|<0.0001
82380380|NCT01459783|164470555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.76|TWO_SIDED|95.0|-5.13|6.95||We adopted Bonferroni adjustment for multiple testing and used a significance level of .05/3 = 0.017 to interpret the results for our primary outcomes.|Regression, Linear|Multivariate analyses included non-response weights and controlled for study arm, stratification variables, baseline values, \& intervention duration.|The difference in differences at 12 months is reported as in-person arm minus phone arm values from a multivariable analysis. A positive adjusted difference means worse burden for the in-person arm compared to the phone arm.|Analyses were intention-to-treat. Due to attrition and those ineligible for 12-month follow-up due to study ending before that time, we created survey non-response weights for each wave. Prior to the study, a sample size of 125 participants per group was based on the two primary outcomes, with a Type I Error of 0.025 (Bonferroni adjustment), setting a 0.5-SD difference in outcomes as clinically important, 80% power, 0.45 SD difference in difference in outcomes between groups, and 25% attrition.||6.95|-5.13|0.76
82513710|NCT03161314|164719781|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82513711|NCT03698773|164719806|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82513712|NCT03698773|164719807|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82513713|NCT01599650|164719832|SUPERIORITY_OR_OTHER||difference in LS mean|10.0|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|7.3|12.8|||ANOVA|||||12.8|7.3|<0.0001
82513714|NCT01599650|164719832|SUPERIORITY_OR_OTHER||difference in LS Means|8.7|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|5.8|11.6|||ANOVA|||||11.6|5.8|<0.0001
82380381|NCT01459783|164470556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.49|TWO_SIDED|95.0|-1.74|3.55||We used Bonferroni adjustment for multiple testing and a significance level of .05/3 = 0.017 to interpret the results for our primary outcomes. The behavior measure is analyzed two ways: total number of problems (reported here), and reaction score.|Regression, Linear|Multivariate analyses included non-response weights and controlled for study arm, stratification variables, baseline values, \& intervention duration.|The difference in differences at 12 months is reported as in-person arm minus phone arm values from a multivariable analysis. A positive adjusted difference means worse problems for the in-person arm compared to the phone arm.|Analyses were intention-to-treat. Due to attrition and those ineligible for 12-month follow-up due to study ending before that time, we created survey non-response weights for each wave. Prior to the study, a sample size of 125 participants per group was based on the two primary outcomes, with a Type I Error of 0.025 (Bonferroni adjustment), setting a 0.5-SD difference in outcomes as clinically important, 80% power, 0.45 SD difference in difference in outcomes between groups, and 25% attrition.||3.55|-1.74|0.49
82380382|NCT04211831|164470561|OTHER||Least square mean difference|-1.29|||=|0.1722|TWO_SIDED|95.0|-3.16|0.58|||mixed model for repeated measures||Treatment comparison between Placebo and URO-902 24 mg using least sqaure mean difference and 95% confidence interval (CI) has been presented.|||0.58|-3.16|=0.1722
82380383|NCT04211831|164470561|OTHER||Least Square Mean Difference|-2.24|||=|0.0159|TWO_SIDED|95.0|-4.04|-0.43|||Mixed model for repeated measures||Treatment comparison between Placebo and URO-902 48 mg using least sqaure mean difference and 95% CI has been presented.|||-0.43|-4.04|=0.0159
82634486|NCT01258738|164984535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.3286|TWO_SIDED|95.0|-1.55|0.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||0.52|-1.55|0.3286
82380384|NCT00967330|164470563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
82380385|NCT00967330|164470564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.588||||0.0012|TWO_SIDED|95.0|0.423|0.817|||Chi-squared|||||0.817|0.423|0.0012
82380386|NCT00967330|164470565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.8283|TWO_SIDED|95.0|0.684|1.354|||Chi-squared|||||1.354|0.684|0.8283
82380387|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|0.06||||0.34745|TWO_SIDED|95.0|-0.02|0.14|||Fisher Exact|||Response rate based on participants with CR at 4 weeks after RT.||0.14|-0.02|0.34745
82380388|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|0.09||||0.17923|TWO_SIDED|95.0|0.0|0.17|||Fisher Exact|||The response rate based on participants with CR at \>4 weeks after RT.||0.17|0.00|0.17923
82380389|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|0.0||||1|TWO_SIDED|95.0|-0.08|0.08|||Fisher Exact|||The response rate based on participants with CR at Month 6.||0.08|-0.08|1.00000
82380390|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|0.25||||0.0021|TWO_SIDED|95.0|0.12|0.38|||Fisher Exact|||Response rate based on participants with CR or PR at 4 weeks after RT.||0.38|0.12|0.00210
82380391|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|0.1||||0.18761|TWO_SIDED|95.0|-0.02|0.23|||Fisher Exact|||Response rate based on participants with CR and PR at \>4 weeks after RT.||0.23|-0.02|0.18761
82380392|NCT00967330|164470567|SUPERIORITY_OR_OTHER||Difference in response rate|-0.05||||0.38974|TWO_SIDED|95.0|-0.18|0.07|||Fisher Exact|||Response rate based on participants with CR or PR at Month 6.||0.07|-0.18|0.38974
82513715|NCT03304379|164719849|SUPERIORITY||Least Square (LS) Mean Difference|-0.63|||=|0.0003|TWO_SIDED|95.0|-0.971|-0.286||Threshold for significance at 0.05 level.|MMRM|||Analyses were based on a multiple imputation approach using a Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction.||-0.286|-0.971|= 0.0003
82513716|NCT03304379|164719849|SUPERIORITY||LS Mean Difference|-0.77|||>|0.0001|TWO_SIDED|95.0|-1.154|-0.383||Threshold for significance at 0.05 level.|MMRM|||"(mFAS)~Analyses were based on a multiple imputation approach using a MMRM model with baseline, randomization strata, baseline, treatment, visit and treatment by-visit interaction"||-0.383|-1.154|> 0.0001
82513717|NCT03304379|164719850|SUPERIORITY||LS Mean Difference|-0.64|||=|0.0003|TWO_SIDED|95.0|-0.981|-0.29||Threshold for significance at 0.05 level.|MMRM|||Analyses were based on a multiple imputation approach using a Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction.||-0.290|-0.981|= 0.0003
82634487|NCT01258738|164984536|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82513718|NCT03304379|164719850|SUPERIORITY||LS Mean Difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.198|-0.443||Threshold for significance at 0.05 level|MMRM|||"(mFAS)~Analyses were based on a multiple imputation approach using an Mixed-Effect Model With Repeated Measure (MMRM) model with baseline randomization strata, baseline, treatment, visit and treatment by-visit interaction."||-0.443|-1.198|<0.0001
82513719|NCT03304379|164719851|SUPERIORITY||Odds Ratio (OR)|1.581|||=|0.0013|TWO_SIDED|95.0|1.195|2.092||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analyses are based on Cochran-Mantel-Haenszel model.||2.092|1.195|= 0.0013
82634488|NCT01258738|164984536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.1829|TWO_SIDED|95.0|-1.93|0.37|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 12 data only.||0.37|-1.93|0.1829
82634489|NCT01258738|164984537|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.05, from paired t-test.||||<0.05
82523758|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.0||||0.53|TWO_SIDED|95.0|-115.0|59.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 2.5 mg at Week 24||59|-115|0.530
82523759|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.0||||0.827|TWO_SIDED|95.0|-77.0|96.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 7.5 mg at Week 24||96|-77|0.827
82523760|NCT01218126|164743209|SUPERIORITY_OR_OTHER||Mean Difference (Net)|35.0||||0.434|TWO_SIDED|95.0|-53.0|124.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Post-Bronchodilator FVC for Placebo versus Losmapimod 15 mg at Week 24||124|-53|0.434
82523761|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.686|TWO_SIDED|95.0|-3.3|2.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||2.2|-3.3|0.686
82523762|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5||||0.279|TWO_SIDED|95.0|-1.2|4.2|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||4.2|-1.2|0.279
82523763|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.193|TWO_SIDED|95.0|-4.6|0.9|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.9|-4.6|0.193
82523764|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.803|TWO_SIDED|95.0|-2.7|3.5|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||3.5|-2.7|0.803
82523765|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.229|TWO_SIDED|95.0|-1.2|5.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||5.0|-1.2|0.229
82523766|NCT01218126|164743210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.39|TWO_SIDED|95.0|-4.5|1.8|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.8|-4.5|0.390
82523767|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96||||0.157|TWO_SIDED|95.0|0.91|1.01|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4||1.01|0.91|0.157
82523768|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0|TWO_SIDED|95.0|0.86|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||0.95|0.86|0.000
82523769|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0|TWO_SIDED|95.0|0.86|0.96|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||0.96|0.86|0.000
82523770|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.072||95.0|0.9|1.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 8||1.00|0.90|0.072
82380393|NCT00967330|164470569|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|2.1002||||0.4975|TWO_SIDED|95.0|-3.9855|8.186|||ANOVA|||Physical Functioning. Analysis of variance (ANOVA) included all post-baseline data (Months 3 through 21).||8.1860|-3.9855|0.4975
82634490|NCT01258738|164984537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37||||0.5226|TWO_SIDED|95.0|-4.95|9.68|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||9.68|-4.95|0.5226
82634491|NCT01258738|164984537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62||||0.6232|TWO_SIDED|95.0|-4.9|8.14|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||8.14|-4.90|0.6232
82634492|NCT01258738|164984537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.52||||0.3877|TWO_SIDED|95.0|-4.53|11.57|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||11.57|-4.53|0.3877
82634493|NCT01258738|164984537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.74||||0.2402|TWO_SIDED|95.0|-3.22|12.69|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||12.69|-3.22|0.2402
82380394|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4704||||0.76|TWO_SIDED|95.0|-10.9358|7.9951|||ANOVA|||Role Functioning. ANOVA included all post-baseline data (Months 3 through 21).||7.9951|-10.9358|0.7600
82380395|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02278||||0.9949|TWO_SIDED|95.0|-7.035|6.9895|||ANOVA|||Emotional Functioning. ANOVA included all post-baseline data (Months 3 through 21).||6.9895|-7.0350|0.9949
82634494|NCT01258738|164984538|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001 at Week 16 and thereafter, from paired t-test.||||<0.001
82380396|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8213||||0.6253|TWO_SIDED|95.0|-9.155|5.5125|||ANOVA|||Cognitive Functioning. ANOVA included all post-baseline data (Months 3 through 21).||5.5125|-9.1550|0.6253
82380397|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6126||||0.7219|TWO_SIDED|95.0|-7.2953|10.5205|||ANOVA|||Social Functioning. ANOVA included all post-baseline data (Months 3 through 21).||10.5205|-7.2953|0.7219
82634495|NCT01258738|164984538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.19||||0.0193|TWO_SIDED|95.0|-16.85|-1.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-1.52|-16.85|0.0193
82634496|NCT01258738|164984538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.08||||0.173|TWO_SIDED|95.0|-12.41|2.26|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||2.26|-12.41|0.1730
82634497|NCT01258738|164984538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.26||||0.1224|TWO_SIDED|95.0|-14.23|1.71|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||1.71|-14.23|0.1224
82634498|NCT01258738|164984538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.14||||0.0461|TWO_SIDED|95.0|-18.11|-0.16|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.16|-18.11|0.0461
82380398|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4989||||0.2443|TWO_SIDED|95.0|-2.4046|9.4023|||ANOVA|||Global Health Status /QoL. ANOVA included all post-baseline data (Months 3 through 21).||9.4023|-2.4046|0.2443
82380399|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3449||||0.3287|TWO_SIDED|95.0|-10.0739|3.3841|||ANOVA|||Fatigue. ANOVA included all post-baseline data (Months 3 through 21).||3.3841|-10.0739|0.3287
82380400|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.196||||0.0485|TWO_SIDED|95.0|-8.3635|-0.0285|||ANOVA|||Nausea/Vomiting. ANOVA included all post-baseline data (Months 3 through 21).||-0.02850|-8.3635|0.0485
82380401|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.095||||0.0354|TWO_SIDED|95.0|-17.5629|-0.6271|||ANOVA|||Pain. ANOVA included all post-baseline data (Months 3 through 21).||-0.6271|-17.5629|0.0354
82380402|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2088||||0.3724|TWO_SIDED|95.0|-10.2784|3.8608|||ANOVA|||Dyspnoea. ANOVA included all post-baseline data (Months 3 through 21).||3.8608|-10.2784|0.3724
82380403|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.876||||0.2884|TWO_SIDED|95.0|-13.9002|4.1482|||ANOVA|||Insomnia. ANOVA included all post-baseline data (Months 3 through 21).||4.1482|-13.9002|0.2884
82380404|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.782||||0.4081|TWO_SIDED|95.0|-9.3926|3.8282|||ANOVA|||Appetite loss. ANOVA included all post-baseline data (Months 3 through 21).||3.8282|-9.3926|0.4081
82380405|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9375||||0.275|TWO_SIDED|95.0|-11.0245|3.1495|||ANOVA|||Constipation. ANOVA included all post-baseline data (Months 3 through 21).||3.1495|-11.0245|0.2750
82380406|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1685||||0.0213|TWO_SIDED|95.0|-11.4129|-0.9241|||ANOVA|||Diarrhoea. ANOVA included all post-baseline data (Months 3 through 21).||-0.9241|-11.4129|0.0213
82380407|NCT00967330|164470569|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7295||||0.5201|TWO_SIDED|95.0|-11.0727|5.6137|||ANOVA|||Financial Problems. ANOVA included all post-baseline data (Months 3 through 21).||5.6137|-11.0727|0.5201
82380408|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2699||||0.3613|TWO_SIDED|95.0|-10.2983|3.7585|||ANOVA|||Future uncertainty. ANOVA included all post-baseline data (Months 3 through 21).||3.7585|-10.2983|0.3613
82380409|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1159||||0.6146|TWO_SIDED|95.0|-5.4654|3.2336|||ANOVA|||Visual disorder. ANOVA included all post-baseline data (Months 3 through 21).||3.2336|-5.4654|0.6146
82380410|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1014||||0.686|TWO_SIDED|95.0|-4.2449|6.4477|||ANOVA|||Motor dysfunction. ANOVA included all post-baseline data (Months 3 through 21).||6.4477|-4.2449|0.6860
82380411|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1009||||0.9706|TWO_SIDED|95.0|-5.468|5.2663|||ANOVA|||Communication deficit. ANOVA included all post-baseline data (Months 3 through 21).||5.2663|-5.4680|0.9706
82380412|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.3294||||0.0124|TWO_SIDED|95.0|-14.855|-1.8037|||ANOVA|||Headaches. ANOVA included all post-baseline data (Months 3 through 21).||-1.8037|-14.8550|0.0124
82513720|NCT03304379|164719852|SUPERIORITY||LS Mean Difference|-0.14|||=|0.0365|TWO_SIDED|95.0|-0.28|-0.009||Threshold for significance at 0.05 level.|MMRM|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analyses are based on a multiple imputation approach using Mixed-Effect Model With Repeated Measure (MMRM) model.||-0.009|-0.28|= 0.0365
82513721|NCT03402243|164719867|SUPERIORITY||Estimated mean ratio|1.38|||||TWO_SIDED|95.0|1.1|1.75|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a total menthol ban smoked relative to those randomized to a menthol cigarette ban|||1.75|1.1|
82380413|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0054||||0.5997|TWO_SIDED|95.0|-4.7654|2.7545|||ANOVA|||Seizures. ANOVA included all post-baseline data (Months 3 through 21).||2.7545|-4.7654|0.5997
82380414|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4399||||0.3458|TWO_SIDED|95.0|-10.6002|3.7204|||ANOVA|||Drowsiness. ANOVA included all post-baseline data (Months 3 through 21).||3.7204|-10.6002|0.3458
82380415|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5908||||0.2383|TWO_SIDED|95.0|-12.2279|3.0464|||ANOVA|||Hair loss. ANOVA included all post-baseline data (Months 3 through 21).||3.0464|-12.2279|0.2383
82380416|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9807||||0.7491|TWO_SIDED|95.0|-5.0373|6.9988|||ANOVA|||Itchy skin. ANOVA included all post-baseline data (Months 3 through 21).||6.9988|-5.0373|0.7491
82380417|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0341||||0.7755|TWO_SIDED|95.0|-8.1508|6.0827|||ANOVA|||Weakness of legs. ANOVA included all post-baseline data (Months 3 through 21).||6.0827|-8.1508|0.7755
82380418|NCT00967330|164470570|SUPERIORITY_OR_OTHER||LS Mean Difference|0.469||||0.841|TWO_SIDED|95.0|-4.1211|5.0591|||ANOVA|||Bladder control. ANOVA included all post-baseline data (Months 3 through 21).||5.0591|-4.1211|0.8410
82513722|NCT03402243|164719867|SUPERIORITY||Estimated mean ratio|0.87|||||TWO_SIDED|95.0|0.68|1.11|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a menthol cigarettes ban relative to those randomized to no menthol ban|||1.11|0.68|
82513723|NCT03402243|164719867|SUPERIORITY||Estimated mean ratio|1.2|||||TWO_SIDED|95.0|0.99|1.45|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized to a menthol ban for cigarettes and e-cigarettes relative to those randomized to no menthol ban|||1.45|0.99|
82513724|NCT03402243|164719867|SUPERIORITY|||||||0.349|||||||Kruskal-Wallis|||Average number of puffs per participants over the 6 week study period||||0.349
82380419|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1933||||0.0817|TWO_SIDED|95.0|-0.411|0.02438|||ANOVA|||Orientation to time and place. ANOVA included all post-baseline data (Months 3 through 21).||0.02438|-0.4110|0.0817
82380420|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02955||||0.0773|TWO_SIDED|95.0|-0.06234|0.003241|||ANOVA|||Immediate recall. ANOVA included all post-baseline data (Months 3 through 21).||0.003241|-0.06234|0.0773
82513725|NCT03402243|164719868|SUPERIORITY|||||||0.185|||||||Mixed Models Analysis|||Comparison among groups in number of cigarette packs selected||||0.185
82513726|NCT03402243|164719868|SUPERIORITY|||||||0.076|||||||Mixed Models Analysis|||Comparison among groups in number of e-cigarette liquid units selected||||0.076
82513727|NCT03402243|164719869|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
82513728|NCT03022617|164719935|SUPERIORITY||Mean Difference (Final Values)|21.5|STANDARD_DEVIATION|10.89||0.05|TWO_SIDED||||||t-test, 2 sided|||||||.05
82634499|NCT01258738|164984539|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82513729|NCT02486406|164719955|SUPERIORITY||Wilson's score method|98.4|||||TWO_SIDED|95.0|91.7|99.7||||||According to the Highlights of Prescribing Information of PEGASYS, the SVR24 rate was 47% among 45 treatment-naïve pediatric participants with HCV GT1 in the NV17424 trial. To show that the DAA regimen is superior to this current standard of care by 20%, the lower bound of the 2-sided 95% confidence interval of the SVR12 rate across all participants in the study must be greater than 67%.||99.7|91.7|
82634500|NCT01258738|164984539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.97||||0.0372|TWO_SIDED|95.0|-11.58|-0.36|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.36|-11.58|0.0372
82634501|NCT01258738|164984539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1||||0.2126|TWO_SIDED|95.0|-7.98|1.79|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||1.79|-7.98|0.2126
82634502|NCT01258738|164984539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.66||||0.033|TWO_SIDED|95.0|-12.79|-0.54|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||-0.54|-12.79|0.0330
82634503|NCT01258738|164984539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.85||||0.0397|TWO_SIDED|95.0|-13.38|-0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||-0.33|-13.38|0.0397
82634504|NCT01258738|164984540|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group comparisons to baseline were \<0.001 at Week 16 and at Week 32 and thereafter, from paired t test.||||<0.001
82634505|NCT01258738|164984540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.29||||0.0382|TWO_SIDED|95.0|-16.12|-0.46|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 2||-0.46|-16.12|0.0382
82634506|NCT01258738|164984540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.25||||0.1648|TWO_SIDED|95.0|-12.69|2.19|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 4||2.19|-12.69|0.1648
82513730|NCT03509948|164719981|SUPERIORITY||Geometric Least Squares Mean|79.57|||||TWO_SIDED|90.0|66.4|95.35||||||Fed/Fasted Ratio||95.35|66.40|
82513731|NCT03509948|164719982|SUPERIORITY||Geometric Least Squares Mean|92.08|||||TWO_SIDED|90.0|88.37|95.95||||||Fed/Fasted Ratio||95.95|88.37|
82513732|NCT03509948|164719983|SUPERIORITY||Geometric Least Squares Mean|90.89|||||TWO_SIDED|90.0|84.99|97.2||||||Fed/Fasted Ratio||97.20|84.99|
82634507|NCT01258738|164984540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98||||0.1476|TWO_SIDED|95.0|-14.11|2.15|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 8||2.15|-14.11|0.1476
82634508|NCT01258738|164984540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.68||||0.0687|TWO_SIDED|95.0|-18.03|0.68|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 2, 4, 8, 12 data only. Week 12||0.68|-18.03|0.0687
82634509|NCT01258738|164984541|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634510|NCT01258738|164984541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.2578|TWO_SIDED|95.0|-1.21|0.33|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||0.33|-1.21|0.2578
82634511|NCT01258738|164984541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.4334|TWO_SIDED|95.0|-1.21|0.52|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||0.52|-1.21|0.4334
82634512|NCT01258738|164984542|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||All within group comparisons to baseline were \<0.001, from paired t-test.||||<0.001
82634513|NCT01258738|164984542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.3554|TWO_SIDED|95.0|-4.7|1.7|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 4||1.70|-4.70|0.3554
82634514|NCT01258738|164984542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91||||0.335|TWO_SIDED|95.0|-5.82|1.99|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Comparative analysis was carried out for Week 4, 12 data only. Week 12||1.99|-5.82|0.3350
82634515|NCT01258738|164984543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41||||14.41|TWO_SIDED|95.0|0.04|28.78|||ANCOVA|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||28.78|0.04|14.41
82634516|NCT01258738|164984544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.03||||0.1285|TWO_SIDED|95.0|-2.51|24.56|||Cochran-Mantel-Haenszel|||Secondary and supportive analyses were performed at 2-sided alpha = 0.05 significance level. No adjustment for multiple testing was made. Descriptive analysis was carried out for Week 12 data only.||24.56|-2.51|0.1285
82513733|NCT03509948|164719985|SUPERIORITY||Geometric Least Squares Mean|1.0|||||TWO_SIDED|90.0|0.25|1.75||||||Fed/Fasted Ratio||1.75|0.25|
82513734|NCT03509948|164719987|SUPERIORITY||Geometric Least Squares Mean|91.4|||||TWO_SIDED|90.0|87.55|95.41||||||Fed/Fasted Ratio||95.41|87.55|
82513735|NCT03221257|164719990|SUPERIORITY||Mean Difference (Net)|-0.14||||0.9326|TWO_SIDED||||||Mixed Models Analysis|||||||0.9326
82513736|NCT03221257|164719991|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9968|TWO_SIDED||||||Mixed Models Analysis|||||||0.9968
82513737|NCT03221257|164719992|SUPERIORITY||Mean Difference (Net)|0.46||||0.7489|TWO_SIDED||||||Mixed Models Analysis|||||||0.7489
82513738|NCT03221257|164719993|SUPERIORITY||Mean Difference (Net)|-9.2||||0.8898|TWO_SIDED||||||Mixed Models Analysis|||||||0.8898
82513739|NCT03221257|164719994|SUPERIORITY||Mean Difference (Net)|0.86||||0.3826|TWO_SIDED||||||Mixed Models Analysis|||||||0.3826
82513740|NCT03221257|164719995|SUPERIORITY||Mean Difference (Net)|-0.14||||0.2819|TWO_SIDED||||||Mixed Models Analysis|||||||0.2819
82513741|NCT03221257|164719996|SUPERIORITY||Mean Difference (Net)|-1.35||||0.7534|TWO_SIDED||||||Mixed Models Analysis|||||||0.7534
82513742|NCT03221257|164719997|SUPERIORITY||Mean Difference (Net)|-1.58||||0.1701|TWO_SIDED||||||ANCOVA|||||||0.1701
82513743|NCT03221257|164719998|SUPERIORITY||Mean Difference (Net)|-2.44||||0.3515|TWO_SIDED||||||ANCOVA|||||||0.3515
82513744|NCT03221257|164719999|SUPERIORITY||Mean Difference (Net)|-3.51||||0.1177|TWO_SIDED||||||ANCOVA|||||||0.1177
82513745|NCT03221257|164720000|SUPERIORITY||Mean Difference (Net)|-3.98||||0.1931|TWO_SIDED||||||ANCOVA|||||||0.1931
82513746|NCT03221257|164720001|SUPERIORITY||Mean Difference (Net)|121.3||||0.1811|TWO_SIDED||||||ANCOVA|||||||0.1811
82513747|NCT03221257|164720002|SUPERIORITY||Hazard Ratio (HR)|1.433||||0.3261|TWO_SIDED||||||Stratified log rank|||||||0.3261
82513748|NCT03221257|164720003|SUPERIORITY||Odds Ratio (OR)|1.6||||0.454|TWO_SIDED||||||Regression, Logistic|||||||0.454
82513749|NCT03328897|164720062|SUPERIORITY||Mean Difference (Net)|-4.23|STANDARD_ERROR_OF_MEAN|0.746|<|0.001|TWO_SIDED|95.0|-5.7|-2.77|||Mixed Model with Repeated Measures(MMRM)|||||-2.77|-5.70|<0.001
82513750|NCT03328897|164720062|SUPERIORITY||Mean Difference (Net)|-3.79|STANDARD_ERROR_OF_MEAN|0.738|<|0.001|TWO_SIDED|95.0|-5.24|-2.33|||Mixed Model with Repeated Measures(MMRM)|||||-2.33|-5.24|<0.001
82513751|NCT03328897|164720063|SUPERIORITY||Mean Difference (Net)|-10.19|STANDARD_ERROR_OF_MEAN|1.555|<|0.001|TWO_SIDED|95.0|-13.25|-7.14|||Mixed Model with Repeated Measures(MMRM)|||||-7.14|-13.25|<0.001
82513752|NCT03328897|164720063|SUPERIORITY||Mean Difference (Net)|-9.12|STANDARD_ERROR_OF_MEAN|1.535|<|0.001|TWO_SIDED|95.0|-12.14|-6.1|||Mixed Model with Repeated Measures(MMRM)|||||-6.10|-12.14|<0.001
82513753|NCT03328897|164720064|SUPERIORITY||Mean Difference (Net)|-5.92|STANDARD_ERROR_OF_MEAN|0.853|<|0.001|TWO_SIDED|95.0|-7.59|-4.24|||Mixed Model with Repeated Measures(MMRM)|||||-4.24|-7.59|<0.001
82513754|NCT03328897|164720064|SUPERIORITY||Mean Difference (Net)|-5.35|STANDARD_ERROR_OF_MEAN|0.842|<|0.001|TWO_SIDED|95.0|-7.0|-3.69|||Mixed Model with Repeated Measures(MMRM)|||||-3.69|-7.00|<0.001
82513755|NCT03328897|164720065|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|3.27|15.06|||Regression, Logistic|||||15.06|3.27|<0.001
82513756|NCT03328897|164720065|SUPERIORITY||Odds Ratio (OR)|7.03|||<|0.001|TWO_SIDED|95.0|3.29|15.06|||Regression, Logistic|||||15.06|3.29|<0.001
82513757|NCT03328897|164720066|SUPERIORITY||Odds Ratio (OR)|11.21|||<|0.001|TWO_SIDED|95.0|3.88|32.37|||Regression, Logistic|||||32.37|3.88|<0.001
82513758|NCT03328897|164720066|SUPERIORITY||Odds Ratio (OR)|5.88||||0.001|TWO_SIDED|95.0|2.01|17.17|||Regression, Logistic|||||17.17|2.01|0.001
82513759|NCT03328897|164720067|SUPERIORITY||Odds Ratio (OR)|2.73|||<|0.001|TWO_SIDED|95.0|1.51|4.95|||Regression, Logistic|||||4.95|1.51|<0.001
82513760|NCT03328897|164720067|SUPERIORITY||Odds Ratio (OR)|2.53||||0.002|TWO_SIDED|95.0|1.41|4.56|||Regression, Logistic|||||4.56|1.41|0.002
82513761|NCT03328897|164720068|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-5.7|-2.3|||Mixed Model with Repeated Measures(MMRM)|||||-2.3|-5.7|<0.001
82513762|NCT03328897|164720068|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-5.1|-1.8|||Mixed Model with Repeated Measures(MMRM)|||||-1.8|-5.1|<0.001
82513763|NCT03328897|164720069|SUPERIORITY||Hazard Ratio (HR)|1.71|||<|0.001|TWO_SIDED|95.0|1.25|2.33|||Regression, Cox|||||2.33|1.25|<0.001
82513764|NCT03328897|164720069|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.001|TWO_SIDED|95.0|1.22|2.25|||Regression, Cox|||||2.25|1.22|0.001
82513765|NCT03143829|164720090|OTHER|||||||0.083|||||||t-test, 2 sided|||Differences at week 10||||0.083
82513766|NCT03143829|164720091|OTHER|||||||0.099|||||||t-test, 2 sided|||Descriptive comparison||||.099
82513767|NCT03143829|164720092|OTHER|||||||0.558|||||||t-test, 2 sided|||comparison at time 4||||.558
82513768|NCT03143829|164720093|OTHER|||||||0.153|||||||Chi-squared|||descriptive comparison of resource use||||.153
82513769|NCT00924950|164720118|SUPERIORITY||Mean Difference (Final Values)|0.8571||||0.0008|TWO_SIDED||||||t-test, 2 sided|||||||0.0008
82513770|NCT01602315|164720123|SUPERIORITY_OR_OTHER_LEGACY||median HR|0.99||||||||||||||The hazard ratio was estimated using the Bayesian Cox proportional hazard (PH) model.||||
82513771|NCT01602315|164720123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12||||0.643|TWO_SIDED|95.0|0.69|1.82|||Regression, Cox|||||1.82|0.69|0.643
82513772|NCT01602315|164720123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54||||0.039|TWO_SIDED|95.0|0.3|0.97|||Regression, Cox|||Adjusted on Covariates: treatment, sum of longest diameters from central data \[SLD (C)\], Hemaglobin (Hgb) and White Blood Cells (WBC).||0.97|0.30|0.039
82380421|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1429||||0.2608|TWO_SIDED|95.0|-0.1065|0.3924|||ANOVA|||Repetitions required. ANOVA included all post-baseline data (Months 3 through 21).||0.3924|-0.1065|0.2608
82380422|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|0.003262||||0.9836|TWO_SIDED|95.0|-0.3092|0.3158|||ANOVA|||Calculations. ANOVA included all post-baseline data (Months 3 through 21).||0.3158|-0.3092|0.9836
82380423|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03782||||0.661|TWO_SIDED|95.0|-0.2071|0.1315|||ANOVA|||Short-term verbal memory. ANOVA included all post-baseline data (Months 3 through 21).||0.1315|-0.2071|0.6610
82380424|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08037||||0.4464|TWO_SIDED|95.0|-0.2875|0.1268|||ANOVA|||Language and construct ability. ANOVA included all post-baseline data (Months 3 through 21).||0.1268|-0.2875|0.4464
82513773|NCT01602315|164720126|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier method (median)|43.0|||||TWO_SIDED|95.0|27.0|88.0|||||days|||88.0|27.0|
82513774|NCT01602315|164720132|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.28||||0.313|TWO_SIDED|95.0|0.79|2.05|||Regression, Cox|||||2.05|0.79|0.313
82513775|NCT01602315|164720133|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier (median)|294.0|||||TWO_SIDED|95.0|172.0|463.0||||||||463.0|172.0|
82513776|NCT01602315|164720147|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.235|TWO_SIDED|95.0|0.49|1.19|||Regression, Cox|||||1.19|0.49|0.235
82570059|NCT00760513|164850524|SUPERIORITY||Mean Difference (Net)|-0.001||||1|TWO_SIDED|95.0|-0.3|0.3||A priori p value threshold \</=0.5|Regression, Linear|Adjusted for baseline||Based on the available evidence at the time, we assumed that a 0.6-1.0 unit change in fibrosis score might be clinically significant (Hepatology 2008 Feb;47(2):455-460). Consequently, to detect a minimum 0.6 unit change in score (e.g. 9.0 at baseline and 8.4 at the end of the study) with an SD of 1.0, 100 participants would provide \>80% power at the 5% significance level, and with a 15% drop out of participants there would also be \>80% power to detect this effect.||0.3|-0.3|1.0
82513777|NCT01602315|164720147|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.062|TWO_SIDED|95.0|0.4|1.02|||Regression, Cox|||Adjusted on Covariates: treatment, sum of longest diameters from local data \[SLD (L)\], Hemaglobin (Hgb) and White Blood Cells (WBC).||1.02|0.4|0.062
82380425|NCT00967330|164470571|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3128||||0.4717|TWO_SIDED|95.0|-1.1658|0.5402|||ANOVA|||Total score. ANOVA included all post-baseline data (Months 3 through 21).||0.5402|-1.1658|0.4717
82380426|NCT00967330|164470572|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.151||||0.2078|TWO_SIDED|95.0|-5.4983|1.1963|||ANOVA|||KPS score. ANOVA included all post-baseline data (Months 3 through 21).||1.1963|-5.4983|0.2078
82380427|NCT05085834|164470592|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.71|STANDARD_ERROR_OF_MEAN|0.14|<|0.01|TWO_SIDED|95.0|0.43|0.98|||linear combination of coefficients|||effect of Zinc supplementation on ln(Zinc, μg/dL)||0.98|0.43|<0.01
82380428|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.002|STANDARD_ERROR_OF_MEAN|0.29||1|TWO_SIDED|95.0|-0.57|0.57|||linear combination of coefficients|||effect of Zinc supplementation on ln(hsCRP ng/mL)||0.57|-0.57|1.00
82380429|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.08|TWO_SIDED|95.0|-0.18|0.01|||linear combination of coefficients|||effect of Zinc supplementation on ln(sCD14, ng/mL)||0.01|-0.18|0.08
82380430|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.77|TWO_SIDED|95.0|-0.21|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(sCD163, ng/mL)||0.15|-0.21|0.77
82380431|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.2|STANDARD_ERROR_OF_MEAN|0.15||0.19|TWO_SIDED|95.0|-0.1|0.5|||linear combination of coefficients|||effect of Zinc supplementation on ln(D-dimer, ng/mL)||0.50|-0.10|0.19
82513778|NCT00127790|164720150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.01|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.010
82634517|NCT00721136|164984577|OTHER|||||||||||||||||Continuous variables were expressed as mean ± standard deviation and analyzed using Student's t-test and Mann-Whitney U-test in cases of nonparametric distribution. Categorical variables were expressed as numbers or percentages and analyzed with two-tailed Fisher's exact test or χ2-test as appropriate. Data were analyzed on an intention-to-treat basis using STATA 10.1 (College Station, TX). A two-tailed alpha of 0.05 was considered statistically significant.|Continuous variables were expressed as mean ± standard deviation and analyzed using Student's t-test and Mann-Whitney U-test in cases of nonparametric distribution. Categorical variables were expressed as numbers or percentages and analyzed with two-tailed Fisher's exact test or χ2-test as appropriate. Data were analyzed on an intention-to-treat basis using STATA 10.1 (College Station, TX). A two-tailed alpha of 0.05 was considered statistically significant.|||
82634518|NCT00732199|164984580|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||T- test was conducted to compare the 2 groups.||||<0.05
82634519|NCT00732199|164984581|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Compares control vs hypoxia trials vs recovery post-hypoxia||||||<0.05
82634520|NCT00732199|164984582|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82634521|NCT00732199|164984583|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82634522|NCT00256204|164984641|SUPERIORITY_OR_OTHER|||||||0.0133|||||||Repeated Measures Mixed Linear Model|||"Hypothesis #1: Slopes Superiority of 1mg Rasagiline over Placebo in the PC Phase Where slope is the model estimate of the change from baseline in total UPDRS per week.~In this analysis, all available post-baseline observations in the PC Phase of the trial are analyzed (ITT efficacy data analysis set, weeks 12, 24 and 36). The placebo groups for rasagiline 1mg (delayed-start) and 2mg (delayed-start)are combined to one placebo group."||||0.0133
82634523|NCT00256204|164984641|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Repeated Measures Mixed Linear Model|||"Hypothesis #1: Slopes Superiority of 2mg Rasagiline over Placebo in the PC Phase Where slope is the model estimate of the change from baseline in total UPDRS per week.~In this analysis, all available post-baseline observations in the PC Phase of the trial are analyzed (ITT efficacy data analysis set, weeks 12, 24 and 36). The placebo groups for rasagiline 1mg (delayed-start)and 2mg (delayed-start) are combined to one placebo group."||||0.0001
82634524|NCT00256204|164984641|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The analysis was performed on separate datasets and not on the combined dataset as was pre-specified to account for unexpected interactions of dose level by baseline UPDRS and of dose level by center .|Repeated Measures|||Hypothesis #2: Superiority of Early over Delayed Start at Week 72 In this analysis, observations of subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active-treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set).||||0.0250
82634525|NCT00256204|164984641|SUPERIORITY_OR_OTHER|||||||0.6028||95.0||||The analysis was performed on separate datasets and not on the combined dataset as was pre-specified to account for unexpected interactions of dose level by baseline UPDRS and of dose level by center|Repeated Measures|||Hypothesis #2:Superiority of Early over Delayed Start at Week 72 In this analysis, observations of subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active-treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set.)||||0.6028
82634526|NCT00256204|164984641|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inf Test for difference in slopes between treatment groups. One sided 95% CI calculated for difference between slopes of the 1mg early-start group and the 1mg delayed-start group. The inferiority null hypothesis of the early-start group slope over delayed-start group slope is rejected, if the upper limit of one sided 95% CI for difference in slopes does not cross non-inferiority margin of 0.15 UPDRS points per week.|Slope|0.0||||||90.0|-0.036|0.036||||||"Hypothesis #3: Slopes Non-Inferiority of Early Start over Delayed Start in the Active Phase.~Where slope is the model estimate of the change from baseline in total UPDRS per week. In this analysis, observations of all subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set)."||0.036|-0.036|
82634527|NCT00256204|164984641|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inf Test for difference in slopes between treatment groups. One sided 95% CI calculated for difference between slopes of the 2mg early-start group and the 2mg delayed-start group. The inferiority null hypothesis of the early-start group slope over delayed-start group slope is rejected, if the upper limit of one sided 95% CI for difference in slopes does not cross non-inferiority margin of 0.15 UPDRS points per week.|Slope|0.029||||||90.0|-0.005|0.062||||||"Hypothesis #3: Slopes Non-Inferiority of Early Start over Delayed Start in the Active Phase.~Where slope is the model estimate of the change from baseline in total UPDRS per week. In this analysis, observations of all subjects entering the active phase with at least 24 weeks of treatment during the PC Phase and at least one available Total UPDRS measurement during the active treatment phase from weeks 48, 54, 60, 66 or 72, are analyzed (ACTE data analysis set)."||0.062|-0.005|
82634528|NCT00256204|164984642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.005|||<|0.0001||95.0|-3.857|-2.153|||ANCOVA|||The adjusted means of the changes in Total UPDRS from baseline to LOV in the placebo-controlled phase, observed in the 1 mg and 2 mg rasagiline early-start groups are compared (two contrasts) to the combined placebo group (1 mg and 2 mg rasagiline delayed-start groups), by applying an Analysis of Covariance model. The model includes treatment group, center and baseline Total UPDRS as covariates. For this analysis, both delayed start arms are pooled as a 'placebo arm'||-2.153|-3.857|<0.0001
82634529|NCT00256204|164984642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.154|||<|0.0001||95.0|-4.004|-2.305|||ANCOVA|||"The adjusted means of the changes in Total UPDRS from baseline to LOV in the placebo-controlled phase, observed in the 1 mg and 2 mg rasagiline early-start groups are compared (two contrasts) to the combined placebo group (1 mg and 2 mg rasagiline delayed-start groups), by applying an Analysis of Covariance model. The model includes treatment group, center and baseline Total UPDRS as covariates.~For this analysis, both delayed start arms are pooled as a 'placebo arm'"||-2.305|-4.004|<0.0001
82634530|NCT03459794|164984644|OTHER|||||||||||||||||All measurements were compared to the same group at t=0, that is before the drug or placebo was administered. We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level.|We analyzed the changes is level for each cytokine between the groups. P value was adjusted for multiple comparisons and significance determined using the Holm-Sidak method. The threshold value for statistical significance for the mean value between groups was set at p =\<0.05 for each cytokine measured. The number of cytokines that met this threshold is reported.|||
82513779|NCT00127790|164720150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.581|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.581
82513780|NCT00127790|164720150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6||||0.011|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.011
82513781|NCT00127790|164720151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.33|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.33
82513782|NCT00127790|164720151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.112|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.112
82513783|NCT00127790|164720151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.737|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.737
82634531|NCT03459794|164984645|OTHER|||||||||||||||||All measurements were compared to the same treated/control group at t=0, before the drug or placebo was administered. We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level.|We compared the expression levels for each transcript, using the mean levels in each group, not at the individual participant level. The p-value for each transcript is adjusted for multiple comparisons across all 770 transcripts, using the Benjamini-Yekutieli method. The number reported is the number of transcripts where p=\<0.05.|||
82634532|NCT03459794|164984646|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82634533|NCT02177942|164984647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.6931|TWO_SIDED|95.0|-0.2|0.13|||ANCOVA||Difference is test treatment minus control treatment such that a positive difference favours the test treatment.|||0.13|-0.20|0.6931
82513784|NCT00127790|164720152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.063|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.063
82634534|NCT01234337|164984656|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973|||=|0.405618|TWO_SIDED|95.0|0.779|1.217||One-sided p-value from log rank test (stratified per randomization as in interactive voice response system \[IVRS\]).|Log Rank|||PFS was compared using a stratified log-rank test with a one-sided alpha of 0.005, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95 percent (%) CIs were calculated using the Cox model, stratified by the above factors. A Hazard ratio of less than (\<) 1 indicates superiority of Sorafenib + Capecitabine over Placebo + Capecitabine.||1.217|0.779|=0.405618
82634535|NCT01234337|164984657|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.195|||=|0.930088|TWO_SIDED|95.0|0.943|1.513||One-sided p-value from log rank test (stratified per randomization as in IVRS). OS was compared using a stratified log-rank test, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease.|Log Rank||The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95% CIs were calculated using the Cox model, stratified by randomization factors.|At the time of PFS final analysis, it was OS interim analysis (IA) with 285 total death events. According to protocol specified O'Brien-Fleming type alpha spending function and 285 death events at IA, the prespecified alpha for this analysis was 0.0075 (one-sided). A Hazard ratio \< 1 indicates superiority of Sorafenib+Capecitabine over Placebo+Capecitabine.||1.513|0.943|=0.930088
82634536|NCT01234337|164984658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||=|0.2105|TWO_SIDED|95.0|0.723|1.146||One-sided p-value from log rank test (stratified per randomization as in IVRS).|Log Rank||The hazard ratio (sorafenib + capecitabine / placebo + capecitabine) and its 95% CIs were calculated using the Cox model, stratified by the above factors.|TTP was compared using a stratified log-rank test with a one-sided alpha of 0.025, stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. A Hazard ratio \<1 indicates superiority of Sorafenib+Capecitabine over Placebo+Capecitabine.||1.146|0.723|=0.2105
82634537|NCT01234337|164984659|SUPERIORITY_OR_OTHER||Percent Difference|1.93|||=|0.257412|TWO_SIDED|95.0|-3.9|7.77||One-sided p-value from Cochran Mantel-Haenszel test (stratified per randomization as in IVRS)|Cochran-Mantel-Haenszel|||ORR and 95% CI based on Cochran Mantel-Haenszel Test stratified by region, hormone receptor status, number of previous chemotherapies for metastatic disease. Difference = (Placebo + Capecitabine) - (Sorafenib + Capecitabine).||7.77|-3.9|=0.257412
82634538|NCT01234337|164984660|SUPERIORITY_OR_OTHER||Percent Difference|-2.34|||=|0.284674|TWO_SIDED|95.0|-10.4|5.72||One-sided p-value from Cochran-Mantel-Haenszel test (stratified per randomization as in IVRS).|Cochran-Mantel-Haenszel|||"DCR and 95% CI based on general association Cochran-Mantel-Haenszel statistic with one-sided alpha of 0.025 stratified by number of prior chemotherapies for metastatic disease, hormone receptor status, and region. Difference = Placebo + Capecitabine - Sorafenib + Capecitabine."||5.72|-10.4|=0.284674
82634539|NCT01234337|164984662|SUPERIORITY_OR_OTHER||LSM Difference|-0.441|||||TWO_SIDED|95.0|-0.967|0.086||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.086|-0.967|
82634540|NCT01234337|164984663|SUPERIORITY_OR_OTHER||LSM Difference|-0.025|||||TWO_SIDED|95.0|-0.053|0.002||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.002|-0.053|
82634541|NCT01234337|164984664|SUPERIORITY_OR_OTHER||LSM Difference|-1.696|||||TWO_SIDED|95.0|-3.619|0.227||||||Estimate of Difference (least squares mean \[LSM\] difference) = (Sorafenib + Capecitabine) - (Placebo + Capecitabine). The difference between the two treatment groups was evaluated with an analysis of covariance model using the baseline score and the same stratification factors as used for randomization (IVRS) as covariates.||0.227|-3.619|
82634542|NCT01234337|164984665|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.14|||||TWO_SIDED|90.0|0.92|1.4||||||Statistical analysis for Cmax: 5-fluorouracil||1.40|0.92|
82634543|NCT01234337|164984665|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.29|||||TWO_SIDED|90.0|1.07|1.56||||||Statistical analysis for Cmax: Capecitabine||1.56|1.07|
82634544|NCT01234337|164984666|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.11|||||TWO_SIDED|90.0|0.95|1.3||||||Statistical analysis for AUC(0-tlast): 5-fluorouracil||1.30|0.95|
82634545|NCT01234337|164984666|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.39|||||TWO_SIDED|90.0|1.22|1.58||||||Statistical analysis for AUC(0-tlast): Capecitabine||1.58|1.22|
82634546|NCT03490734|164984668|SUPERIORITY|||||||0.52||||||Corrected for multiple comparisons by using the threshold free cluster enhancement, nonparametric thresholding algorithm in FMRIB Software Library (FSL), resulting in a family-wise error rate (FWE) corrected significance threshold of p-FWE\<0.05|ANCOVA|||Whole-brain analyses were used. No clusters of significant activation were detected.||||0.52
82513785|NCT00127790|164720152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.786|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores||||0.786
82513786|NCT00127790|164720152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.039|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.039
82513787|NCT00127790|164720153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.2||||0.016|||||||Generlaized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.016
82513788|NCT00127790|164720153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4||||0.187|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.187
82570060|NCT00760513|164850525|SUPERIORITY||Mean Difference (Net)|-0.03||||0.9|TWO_SIDED|95.0|-0.4|0.3||A priori threshold for statistical significance p \</=0.05|Regression, Linear|Adjusted for baseline measurement.||There was no power calculation for this end point.||0.3|-0.4|0.9
82513789|NCT00127790|164720153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2||||0.015|||||||Generalized Estimating Equations|||Two-tailed comparison of pre-post scores.||||0.015
82513790|NCT02057757|164720208|EQUIVALENCE|The equivalence margin is 1.25 Days.||||||0.5634|||||||Fay - Shaw|||||||0.5634
82513791|NCT02057757|164720209|SUPERIORITY|||||||0.645||||||The p-value for each time point was calculated; Day 3|Fay - Shaw|||||||0.645
82513792|NCT02057757|164720209|SUPERIORITY|||||||0.989||||||The p-value for each value was calculated (Day 7).|Fay-Shaw|||||||0.989
82513793|NCT02057757|164720209|SUPERIORITY|||||||0.809||||||Day 14|Fay-Shaw|||||||0.809
82513794|NCT02057757|164720209|SUPERIORITY|||||||0.671||||||Day 28|Fay-Shaw|||||||0.671
82513795|NCT02057757|164720211|SUPERIORITY|||||||0.4277||||||Cough|Fay - Shaw|||||||0.4277
82513796|NCT02057757|164720211|SUPERIORITY|||||||0.4022||||||Sore Throat|Fay-Shaw|||||||0.4022
82513797|NCT02057757|164720211|SUPERIORITY|||||||0.5957||||||Fatigue|Fay-Shaw|||||||0.5957
82513798|NCT02057757|164720211|SUPERIORITY|||||||0.0446||||||Nasal Discharge|Fay-Shaw|||||||0.0446
82634547|NCT03490734|164984669|SUPERIORITY|||||||0.016||||||Corrected for multiple comparisons by using the threshold free cluster enhancement (TFCE), nonparametric thresholding algorithm in FSL, resulting in a family-wise error rate corrected significance threshold of p-FWE \< 0.05|ANCOVA|||||||0.016
82634548|NCT04111185|164984701|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82634549|NCT01277666|164984717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.546|TWO_SIDED|95.0|-6.1|11.0|||Mantel Haenszel|||comparison of Placebo and GSK1605786A 500 mg once daily||11.0|-6.1|0.546
82634550|NCT01277666|164984717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.648|TWO_SIDED|95.0|-6.5|10.7|||Mantel Haenszel|||comparison of Placebo and GSK1605786A 500 mg twice daily||10.7|-6.5|0.648
82634551|NCT01277666|164984718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.592|TWO_SIDED|95.0|-8.8|4.8|||Mantel Haenszel|||||4.8|-8.8|0.592
82634552|NCT01277666|164984718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.475|TWO_SIDED|95.0|-9.2|4.4|||Mantel Haenszel|||||4.4|-9.2|0.475
82634553|NCT01277666|164984719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.415|TWO_SIDED|95.0|-4.4|10.3|||Mantel Haenszel|||||10.3|-4.4|0.415
82634554|NCT01277666|164984719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.354|TWO_SIDED|95.0|-3.9|10.9|||Mantel Haenszel|||||10.9|-3.9|0.354
82634555|NCT01277666|164984720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-5.2|5.2|||Mantel Haenszel|||||5.2|-5.2|0.985
82634556|NCT01277666|164984720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.709|TWO_SIDED|95.0|-6.1|4.1|||Mantel Haenszel|||||4.1|-6.1|0.709
82634557|NCT01277666|164984721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.633|TWO_SIDED|95.0|-6.5|10.4|||Mantel Haenszel|||||10.4|-6.5|0.633
82634558|NCT01277666|164984721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.889|TWO_SIDED|95.0|-7.8|9.0|||Mantel Haenszel|||||9.0|-7.8|0.889
82634559|NCT01277666|164984722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.541|TWO_SIDED|95.0|-8.1|4.2|||Mantel Haenszel|||||4.2|-8.1|0.541
82634560|NCT01277666|164984722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.43|TWO_SIDED|95.0|-8.5|3.7|||Mantel Haenszel|||||3.7|-8.5|0.430
82634561|NCT01277666|164984723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13|STANDARD_ERROR_OF_MEAN|2.426||0.642|TWO_SIDED|95.0|-5.89|3.64||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 8||3.64|-5.89|0.642
82634562|NCT01277666|164984723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|2.652||0.898|TWO_SIDED|95.0|-5.55|4.87||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 12||4.87|-5.55|0.898
82634563|NCT01277666|164984723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.37|STANDARD_ERROR_OF_MEAN|2.467||0.173|TWO_SIDED|95.0|-1.48|8.21||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 8||8.21|-1.48|0.173
82634564|NCT01277666|164984723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.85|STANDARD_ERROR_OF_MEAN|2.697||0.493|TWO_SIDED|95.0|-3.45|7.15||P-values were obtained from an analysis of covariance model with baseline score as the covariate.|ANCOVA|||Week 12||7.15|-3.45|0.493
82634565|NCT01385098|164984725|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82513799|NCT02057757|164720211|SUPERIORITY|||||||0.8628||||||Difficulty Breathing|Fay-Shaw|||||||0.8628
82513800|NCT02057757|164720211|SUPERIORITY|||||||0.16||||||Headache|Fay-Shaw|||||||0.16
82513801|NCT02057757|164720211|SUPERIORITY|||||||0.1234||||||Muscle Pain|Fay-Shaw|||||||0.1234
82513802|NCT02057757|164720211|SUPERIORITY|||||||0.2155||||||Nausea|Fay-Shaw|||||||0.2155
82634566|NCT01385098|164984726|SUPERIORITY_OR_OTHER|||||||0.013||||||Change from preoperative to 12 weeks|Wilcoxon (Mann-Whitney)|||||||0.013
82634567|NCT01385098|164984726|SUPERIORITY_OR_OTHER|||||||0.01||||||Change from preoperative to 12 weeks|Wilcoxon (Mann-Whitney)|||||||0.010
82634568|NCT01084096|164984727|SUPERIORITY|Trial powered to detect a 30% reduction in 28-d NM among \<5th %tile for birth weight infants. We used an intention-to-treat approach, with a model-based adaptation of the permutation test. We fitted an individual-level linear model with 28-d NM by site and randomization strata, nested within site, and computed the residual for each individual and mean cluster-level residuals. Next, we used an ANOVA model to test for trt differences between mean residuals for intervention and control clusters.|Risk Ratio (RR)|0.96||||0.65|TWO_SIDED|95.0|0.87|1.06|||t-test, 2 sided|Cluster-level with 62 degrees of freedom \[101 clusters-37 strata-2 treatment groups\].|Calculated from generalized linear models accounting for the cluster-level variance and adjusted for randomization strata. Each stratum corresponds to 2-4 clusters within the site with equal distribution to treatment and control arms.|||1.06|0.87|0.65
82634569|NCT01084096|164984728|SUPERIORITY||Risk Difference (RD)|0.3546|||<|0.0001|TWO_SIDED|95.0|0.3299|0.3792|||Cochran-Mantel-Haenszel|P-values were calculated from Cochran-Mantel-Haenszel test controlling for randomization strata.|Risk difference represents risk in the intervention clusters minus the risk in the control clusters.|The trial was powered to detect a 30% reduction in 28-day neonatal mortality among infants born at less than the 5th percentile of birth weight, based on previous research and an expected increase from 10% to 50% in the use of antenatal corticosteroids among women at risk of preterm birth in the intervention group.||0.3792|0.3299|<0.0001
82634570|NCT01084096|164984729|OTHER|Descriptive analysis.|Odds Ratio (OR)|1.45|||<|0.0001|TWO_SIDED|95.0|1.33|1.58||P-values were calculated from Cochran-Mantel-Haenszel test controlling for randomization strata.|Cochran-Mantel-Haenszel|||||1.58|1.33|<0.0001
82634571|NCT01084096|164984731|SUPERIORITY||Risk Ratio (RR)|1.12||||0.0127|TWO_SIDED|95.0|1.02|1.22||P-value calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated p value was adjusted for randomization strata.|Generalized linear model with GEE||Relative risk calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated measure of risk was adjusted for randomization strata.|||1.22|1.02|0.0127
82513803|NCT02057757|164720211|SUPERIORITY|||||||0.5176||||||Vomiting|Fay-Shaw|||||||0.5176
82634572|NCT01084096|164984732|OTHER|Descriptive analysis.|Risk Ratio (RR)|1.11||||0.0181|TWO_SIDED|95.0|1.02|1.22||P-value calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated p value was adjusted for randomization strata.|Generalized linear model with GEE||Relative risk calculated from a generalized linear model with generalized estimating equations to estimate parameters while controlling for cluster correlations. Model-generated measure of risk was adjusted for randomization strata.|||1.22|1.02|0.0181
82634573|NCT01249404|164984750|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-0.1|||=|0.2859|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for MAS in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect analysis of covariance (ANCOVA) model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.1|-0.3|=0.2859
82634574|NCT01249404|164984750|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|||=|0.0091|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for MAS in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||-0.1|-0.5|=0.0091
82513804|NCT02057757|164720211|SUPERIORITY|||||||0.6986||||||Diarrhea|Fay-Shaw|||||||0.6986
82513805|NCT02057757|164720212|SUPERIORITY|||||||0.985|||||||Fay - Shaw|||||||0.9850
82513806|NCT02057757|164720213|SUPERIORITY|||||||0.681||||||Any Time|Fay - Shaw|||||||0.681
82513807|NCT02057757|164720213|SUPERIORITY|||||||0.341||||||Day 0|Fay-Shaw|||||||0.341
82513808|NCT02057757|164720213|SUPERIORITY|||||||0.321||||||Day 3|Fay-Shaw|||||||0.321
82513809|NCT02057757|164720213|SUPERIORITY|||||||0.957||||||Day 7|Fay-Shaw|||||||0.957
82380432|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.19|STANDARD_ERROR_OF_MEAN|0.11||0.1|TWO_SIDED|95.0|-0.41|0.04|||linear combination of coefficients|||effect of Zinc supplementation on ln(VCAM, ng/mL)||0.04|-0.41|0.10
82380433|NCT05085834|164470593|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.41|STANDARD_ERROR_OF_MEAN|20.19||0.98|TWO_SIDED|95.0|-39.16|39.98|||linear combination of coefficients|||effect of Zinc supplementation on ln(ICAM, ng/mL)||39.98|-39.16|0.98
82380434|NCT05085834|164470594|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.55|TWO_SIDED|95.0|-0.09|0.16|||linear combination of coefficients|||effect of Zinc supplementation on ln(sTNF-RI , pg/mL)||0.16|-0.09|0.55
82380435|NCT05085834|164470594|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.004|STANDARD_ERROR_OF_MEAN|0.07||0.95|TWO_SIDED|95.0|-0.13|0.13|||linear combination of coefficients|||effect of Zinc supplementation on ln(sTNF-RII, pg/m)||0.13|-0.13|0.95
82380436|NCT05085834|164470594|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.19||0.73|TWO_SIDED|95.0|-0.3|0.43|||linear combination of coefficients|||effect of Zinc supplementation on ln(IL-6, pg/mL)||0.43|-0.30|0.73
82380437|NCT05085834|164470594|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.12|STANDARD_ERROR_OF_MEAN|0.18||0.48|TWO_SIDED|95.0|-0.22|0.47|||linear combination of coefficients|||effect of Zinc supplementation on ln(IP-10, pg/mL)||0.47|-0.22|0.48
82380438|NCT05085834|164470595|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|1819.18|STANDARD_ERROR_OF_MEAN|8530.03||0.83|TWO_SIDED|95.0|-14899.37|18537.74|||linear combination of coefficients|||effect of Zinc supplementation on ln(OxLDL, U/L)||18537.74|-14899.37|0.83
82380439|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.84|TWO_SIDED|95.0|-0.12|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(Non-HDL Cholesterol (mg/dL))||0.15|-0.12|0.84
82513810|NCT02057757|164720213|SUPERIORITY|||||||0.788||||||Day 14|Fay-Shaw|||||||0.788
82513811|NCT02057757|164720213|SUPERIORITY|||||||0.544||||||Day 28|Fay-Shaw|||||||0.544
82513812|NCT02057757|164720214|SUPERIORITY|||||||0.671||||||Any Time|Fay - Shaw|||||||0.671
82513813|NCT02057757|164720214|SUPERIORITY|||||||0.325||||||Day 0|Fay-Shaw|||||||0.325
82513814|NCT02057757|164720214|SUPERIORITY|||||||0.987||||||Day 3|Fay-Shaw|||||||0.987
82380440|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.18|TWO_SIDED|95.0|-0.19|0.04|||linear combination of coefficients|||effect of Zinc supplementation on ln(HDL (mg/dL))||0.04|-0.19|0.18
82513815|NCT02057757|164720214|SUPERIORITY|||||||0.987||||||Day 7|Fay-Shaw|||||||0.987
82513816|NCT02057757|164720214|SUPERIORITY|||||||0.311||||||Day 14|Fay-Shaw|||||||0.311
82513817|NCT02057757|164720215|SUPERIORITY|||||||0.973||||||Any Time|Fay - Shaw|||||||0.973
82513818|NCT02057757|164720215|SUPERIORITY|||||||0.575||||||Day 0|Fay-Shaw|||||||0.575
82513819|NCT02057757|164720215|SUPERIORITY|||||||0.548||||||Day 3|Fay-Shaw|||||||0.548
82513820|NCT02057757|164720215|SUPERIORITY|||||||0.987||||||Day 7|Fay-Shaw|||||||0.987
82513821|NCT02057757|164720215|SUPERIORITY|||||||0.987||||||Day 14|Fay-Shaw|||||||0.987
82513822|NCT02057757|164720215|SUPERIORITY|||||||0.987||||||Day 28|Fay-Shaw|||||||0.987
82513823|NCT02057757|164720216|SUPERIORITY|||||||0.928||||||Pneumonia|Fay - Shaw|||||||0.928
82513824|NCT02057757|164720216|SUPERIORITY|||||||0.9669||||||ARDS|Fay-Shaw|||||||0.9669
82513825|NCT02057757|164720216|SUPERIORITY|||||||0.0832||||||Bronchitis|Fay-Shaw|||||||0.0832
82513826|NCT02057757|164720217|SUPERIORITY|||||||0.036||||||Adults (\>= 18 Years ) - Global Assessment: Have you felt as good as you did before you had the respiratory illness?|Fay - Shaw|||||||0.0360
82513827|NCT02057757|164720217|SUPERIORITY|||||||0.038||||||Adults (\>= 18 Years) - Global Assessment: Are you functioning as well as you were before you had the respiratory illness?|Fay-Shaw|||||||0.0380
82513828|NCT02057757|164720217|SUPERIORITY|||||||0.5035||||||Children (\< 18 Years) - Global Assessment: Have you/your child felt as good as you did before you had the respiratory illness?|Fay-Shaw|||||||0.5035
82513829|NCT02057757|164720217|SUPERIORITY|||||||0.9231||||||Children (\<18 Years) - Global Assessment: Are you/your child functioning as well as you/your child were before you/your child had the respiratory illness?|Fay-Shaw|||||||0.9231
82513830|NCT02057757|164720221|SUPERIORITY|||||||0.9785||||||No Detectable Virus on Day 3|Fay-Shaw|||||||0.9785
82513831|NCT02480621|164720244|SUPERIORITY||Mean Difference (Net)|1.74|||<|0.1|TWO_SIDED||||||t-test, 2 sided|||||||<0.10
82513832|NCT04632940|164720256|OTHER||LS Mean Difference|-0.528|STANDARD_ERROR_OF_MEAN|0.8912||0.5553|TWO_SIDED|95.0|-2.308|1.251|||Mixed Models Analysis|||||1.251|-2.308|0.5553
82513833|NCT00684424|164720263|SUPERIORITY_OR_OTHER_LEGACY||R-ratio|-56.723|STANDARD_DEVIATION|46.9499||||95.0|||||summary statistic|||R-ratio of seizure frequency summaries = \[(t-b)/(t+b)\]\*100; where t= treatment seizure frequency and b= baseline seizure frequency.||||
82513834|NCT02442700|164720284|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82513835|NCT03282955|164720292|NON_INFERIORITY|Non-inferiority margin= 1.151||||||0.025|||||||t-test, 1 sided|||||||0.025
82513836|NCT00835406|164720348|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA will be performed on ln-transformed Ae0-36 and Rmax at the α level of 0.05.|Ratio of the mean|97.94||||||90.0|90.96|105.45|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.45|90.96|
82513837|NCT00835406|164720349|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA will be performed on ln-transformed Ae0-35 and Rmax at the α level of 0.05.|Ratio of the mean|100.36||||||90.0|92.85|108.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.48|92.85|
82634575|NCT01249404|164984751|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|||=|0.064|TWO_SIDED|95.0|0.0|0.5|||ANCOVA||LS means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on visit results with treatment, BTX treatment status at baseline and centre as covariates.|The mean PGA at Week 4 in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.5|-0.0|=0.0640
82634576|NCT01249404|164984751|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|||=|0.0665|TWO_SIDED|95.0|0.0|0.5|||ANCOVA||LS means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on visit results with treatment, BTX treatment status at baseline and centre as covariates.|The mean PGA at Week 4 in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.5|-0.0|=0.0665
82634577|NCT01249404|164984751|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.0466|TWO_SIDED||||||ANCOVA on rank PGA scores||LS means for each treatment group and treatment comparisons and the p-values are obtained from an analysis of variance on visit results based on ranked values with treatment, BTX treatment status at baseline and centre as explanatory variables.|The LS mean rank values were back transformed to the original scale to give ranked PGA scores in an attempt to better normalise the data and restore power.||||0.0466
82634578|NCT01249404|164984751|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.0406|TWO_SIDED||||||ANCOVA on rank PGA scores||LS means for each treatment group and treatment comparisons and the p-values are obtained from an analysis of variance on visit results based on ranked values with treatment, BTX treatment status at baseline and centre as explanatory variables.|The LS mean rank values were back transformed to the original scale to give ranked PGA scores in an attempt to better normalise the data and restore power.||||0.0406
82634579|NCT01249404|164984752|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|||=|0.7247|TWO_SIDED|95.0|-0.02|0.03|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for barefoot comfortable walking speed in the Dysport® 1000 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect analysis of covariance (ANCOVA) model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.03|-0.02|=0.7247
82634580|NCT01249404|164984752|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|||=|0.7266|TWO_SIDED|95.0|-0.03|0.02|||ANCOVA||LS Means for each treatment group and treatment comparisons as well as the p-values are obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, BTX treatment status at baseline and centre as covariates.|The least squares mean change from baseline to Week 4 for barefoot comfortable walking speed in the Dysport® 1500 U and Placebo groups were compared using 2 contrast analyses within a single mixed effect ANCOVA model, controlling for the baseline values, the randomisation stratification factor (BTX treatment status at baseline) and the centre, all as fixed effects.||0.02|-0.03|=0.7266
82634581|NCT02058940|164984795|OTHER|||||||0.2|||||||Spearman's Correlation Coefficient|||||||0.2
82634582|NCT02600715|164984837|EQUIVALENCE|Test for differences in continuous variables.||||||0.94||||||Two-sided alpha of 0.05 was used to determine statistical significance.|Kruskal-Wallis|||||||0.94
82634583|NCT04853368|164984848|SUPERIORITY||LS Mean of Difference|2.6|STANDARD_ERROR_OF_MEAN|0.84||0.002|TWO_SIDED|90.0|1.22|4.04||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||4.04|1.22|0.002
82634584|NCT04853368|164984848|SUPERIORITY||LS Mean of Difference|1.3|STANDARD_ERROR_OF_MEAN|1.92||0.254|TWO_SIDED|90.0|-2.07|4.67||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||4.67|-2.07|0.254
82634585|NCT04853368|164984848|SUPERIORITY||LS Mean of Difference|0.9||||0.402|TWO_SIDED|90.0|-5.07|6.77||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Primary analysis of ppFEV1 using MMRM excludes data inconsistent with baseline in terms of the timing of bronchodilator or airway clearance regimen.||||6.77|-5.07|0.402
82634586|NCT04853368|164984850|SUPERIORITY||LS Mean of Difference|5.5|STANDARD_ERROR_OF_MEAN|2.63||0.022|TWO_SIDED|90.0|1.07|9.92||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||9.92|1.07|0.022
82634587|NCT04853368|164984850|SUPERIORITY||LS Mean of Difference|-14.1||||0.043|TWO_SIDED|90.0|-27.59|-0.62||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||-0.62|-27.59|0.043
82634588|NCT04853368|164984851|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.047||0.003|TWO_SIDED|90.0|0.059|0.219||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.219|0.059|0.003
82634589|NCT04853368|164984851|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.089||0.475|TWO_SIDED|90.0|-0.162|0.15||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.150|-0.162|0.475
82634590|NCT04853368|164984851|SUPERIORITY||LS Mean of Difference|-0.06||||0.352|TWO_SIDED|90.0|-0.332|0.212||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||Cohort 2: Difference between Triple Therapy and Placebo||0.212|-0.332|0.352
82634591|NCT04853368|164984852|SUPERIORITY||LS Mean of Difference|0.089|STANDARD_ERROR_OF_MEAN|0.0403||0.017|TWO_SIDED|90.0|0.0209|0.1568||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.1568|0.0209|0.017
82380441|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.09||0.84|TWO_SIDED|95.0|-0.19|0.15|||linear combination of coefficients|||effect of Zinc supplementation on ln(LDL (mg/dL))||0.15|-0.19|0.84
82380442|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.11||0.55|TWO_SIDED|95.0|-0.15|0.29|||linear combination of coefficients|||effect of Zinc supplementation on ln(VLDL (mg/dL))||0.29|-0.15|0.55
82380443|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.78|TWO_SIDED|95.0|-0.11|0.09|||linear combination of coefficients|||effect of Zinc supplementation on ln(Cholesterol (mg/dl))||0.09|-0.11|0.78
82634592|NCT04853368|164984852|SUPERIORITY||LS Mean of Difference|0.103|STANDARD_ERROR_OF_MEAN|0.1033||0.169|TWO_SIDED|90.0|-0.1814|0.288||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.2880|-0.1814|0.169
82634593|NCT04853368|164984852|SUPERIORITY||Mean Difference (Final Values)|0.136||||0.23|TWO_SIDED|90.0|-0.1809|0.4527||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|The LS mean is estimated using the mixed-Effect model repeat measurement method.||||0.4527|-0.1809|0.230
82634594|NCT04853368|164984853|SUPERIORITY||LS Mean of Difference|4.4||||0.002|TWO_SIDED|90.0|2.04|6.78||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.78|2.04|0.002
82634595|NCT04853368|164984853|SUPERIORITY||LS Mean of Difference|1.3||||0.35|TWO_SIDED|90.0|-4.42|6.97||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.97|-4.42|0.350
82634596|NCT04853368|164984853|SUPERIORITY||LS Mean of Difference|1.3||||0.412|TWO_SIDED|90.0|-8.75|11.34||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.34|-8.75|0.412
82634597|NCT04853368|164984854|SUPERIORITY||LS Mean of Difference|4.36|||<|0.001|TWO_SIDED|90.0|2.19|6.524||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||6.524|2.190|<0.001
82634598|NCT04853368|164984854|SUPERIORITY||LS Mean of Difference|-0.59||||0.396|TWO_SIDED|90.0|-4.449|3.268||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||3.268|-4.449|0.396
82634599|NCT04853368|164984854|SUPERIORITY||LS Mean of Difference|-2.0||||0.305|TWO_SIDED|90.0|-8.724|4.732||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||4.732|-8.724|0.305
82634600|NCT04853368|164984855|SUPERIORITY||LS Mean of Difference|6.475||||0.018|TWO_SIDED|90.0|1.4443|11.5056||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.5056|1.4443|0.018
82634601|NCT04853368|164984855|SUPERIORITY||LS Mean of Difference|6.019||||0.214|TWO_SIDED|90.0|-7.1464|19.1844||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||19.1844|-7.1464|0.214
82634602|NCT04853368|164984855|SUPERIORITY||LS Mean of Difference|7.29||||0.286|TWO_SIDED|90.0|-15.186|29.766||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||29.7660|-15.1860|0.286
82513838|NCT02550652|164720400|SUPERIORITY||Difference in Percentage of Participants|12.3||||0.1145|TWO_SIDED|95.0|-3.4|28.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||28.1|-3.4|0.1145
82634603|NCT04853368|164984856|SUPERIORITY||LS Mean of Difference|5.6||||0.057|TWO_SIDED|90.0|-0.26|11.37||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||11.37|-0.26|0.057
82634604|NCT04853368|164984856|SUPERIORITY||LS Mean of Difference|8.6||||0.088|TWO_SIDED|90.0|-2.18|19.4||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|||||19.40|-2.18|0.088
82634605|NCT04853368|164984856|SUPERIORITY||LS Mean of Difference|11.2||||0.142|TWO_SIDED|90.0|-6.9|29.25||One-sided p-value; p-value \<=0.05 indicates significance.|Mixed Models Analysis|Note: The LS mean is estimated using the linear regression on the change in CFQ-R from baseline to day 29.||||29.25|-6.90|0.142
82634606|NCT00612573|164984858|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.75|STANDARD_DEVIATION|0.85||0.779|TWO_SIDED|95.0|-14.8|10.3|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||10.3|-14.8|0.779
82634607|NCT00612573|164984858|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.69|STANDARD_DEVIATION|0.9||0.983|TWO_SIDED|95.0|-13.7|11.7|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||11.7|-13.7|0.983
82634608|NCT00612573|164984858|SUPERIORITY_OR_OTHER||Mean Change from Baseline|-0.92|STANDARD_DEVIATION|0.97||0.087|TWO_SIDED|95.0|-1.5|27.3|||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||27.3|-1.5|0.087
82634609|NCT00612573|164984859|SUPERIORITY_OR_OTHER|||||||0.807||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.807
82634610|NCT00612573|164984859|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.075
82634611|NCT00612573|164984859|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.039
82634612|NCT00612573|164984860|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.212
82634613|NCT00612573|164984860|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.505
82634614|NCT00612573|164984860|SUPERIORITY_OR_OTHER|||||||0.399||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.399
82634615|NCT00612573|164984861|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.276
82634616|NCT00612573|164984861|SUPERIORITY_OR_OTHER|||||||0.231||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.231
82634617|NCT00612573|164984861|SUPERIORITY_OR_OTHER|||||||0.081||95.0|||||Cochran-Mantel-Haenszel|Stratified by Investigational Site||||||0.081
82634618|NCT04495166|164984878|SUPERIORITY|||||||0.757||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||The sample size was calculated based on an effect size of 0.65 on depression, which is based on a previous meta-analysis (Sockol et al., 2011). Sample size calculation considered a difference in means between two independent groups, probability of type I error of 5%, statistical power of 80%, a two-tailed test, and a dropout rate of 15%.||||0.757
82634619|NCT04495166|164984879|SUPERIORITY|||||||0.91||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.910
82380444|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.58|TWO_SIDED|95.0|-0.17|0.31|||linear combination of coefficients|||effect of Zinc supplementation on ln(Triglycerides (mg/dL))||0.31|-0.17|0.58
82380445|NCT05085834|164470596|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.44|STANDARD_ERROR_OF_MEAN|0.47||0.35|TWO_SIDED|95.0|-1.36|0.48|||linear combination of coefficients|||effect of Zinc supplementation on Metabolic Syndrome||0.48|-1.36|0.35
82634620|NCT04495166|164984881|SUPERIORITY|||||||0.442||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.442
82513839|NCT02550652|164720400|SUPERIORITY||Difference in Percentage of Participants|12.3||||0.1145|TWO_SIDED|80.0|2.1|22.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|Difference in Percentage of Participants||||22.6|2.1|0.1145
82634621|NCT04495166|164984882|SUPERIORITY|||||||0.223||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.223
82634622|NCT04495166|164984883|SUPERIORITY|||||||0.54||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.540
82570061|NCT01475461|164850567|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.172||0.5206|TWO_SIDED|80.0|-0.21|0.23||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.23|-0.21|0.5206
82634623|NCT04495166|164984884|SUPERIORITY|||||||0.901||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.901
82634624|NCT04495166|164984885|SUPERIORITY|||||||0.748||||||Statistical tests were 2-sided and p values \<0.05 were considered statistically significant|t-test, 2 sided|To include participants that were not assessed in post-baseline assessments we used multiple imputation by chained equations with 100 imputations.||||||0.748
82380446|NCT05085834|164470597|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.06|STANDARD_ERROR_OF_MEAN|0.07||0.36|TWO_SIDED|95.0|-0.07|0.2|||linear combination of coefficients|||effect of Zinc supplementation on ln(Chol:HDL Ratio)||0.20|-0.07|0.36
82634625|NCT03938857|164984901|OTHER||Slope|-0.1088295|STANDARD_ERROR_OF_MEAN|0.4728041||0.814|TWO_SIDED|95.0|-1.035508|0.8178494|||Mixed Models Analysis||Estimated value represents interaction between treatment and days.|Placebo group compared to combined Dexmedetomidine groups.||0.8178494|-1.035508|0.814
82513840|NCT02550652|164720401|SUPERIORITY||Difference in Percentage of Participants|20.1||||0.0246||95.0|3.0|37.2||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||37.2|3.0|0.0246
82513841|NCT02550652|164720401|SUPERIORITY||Difference in Percentage of Participants|20.1||||0.0246|TWO_SIDED|80.0|8.9|31.3||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||31.3|8.9|0.0246
82513842|NCT02550652|164720402|SUPERIORITY|||||||0.0744|||||||Log Rank|||||||0.0744
82513843|NCT02550652|164720403|SUPERIORITY||Difference in Percentage of Participants|21.7||||0.015||95.0|4.7|38.7||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||38.7|4.7|0.0150
82570062|NCT01475461|164850567|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.178||0.1645|TWO_SIDED|80.0|-0.4|0.05||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo||0.05|-0.40|0.1645
82570063|NCT01475461|164850567|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.172||0.1592|TWO_SIDED|80.0|-0.39|0.05||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.05|-0.39|0.1592
82634626|NCT00724594|164984935|OTHER|||||||0.9||||||not significant|t-test, 2 sided|||Term infant cohort : NAC vs control H0= there will be no difference in resistive index in Middle Cerebral Artery after N-acetylcysteine or saline in the term cohort.||||0.9
82380447|NCT05085834|164470598|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.35|STANDARD_ERROR_OF_MEAN|2.01||0.86|TWO_SIDED|95.0|-4.29|3.6|||linear combination of coefficients|||effect of Zinc supplementation on BMI (kg/m2)||3.60|-4.29|0.86
82513844|NCT02550652|164720403|SUPERIORITY||Difference in Percentage of Participants|21.7||||0.015|TWO_SIDED|80.0|10.6|32.8||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||32.8|10.6|0.0150
82513845|NCT02550652|164720404|SUPERIORITY||Difference in Percentage of Participants|-2.0||||0.8461|TWO_SIDED|95.0|-17.5|13.4||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||13.4|-17.5|0.8461
82634627|NCT00724594|164984935|OTHER|||||||0.9|||||||t-test, 2 sided|||Preterm infant cohort: NAC vs control H0= there will be no difference in resisitive index in MCA after N-acetylcysteine or saline in preterm cohort||||0.9
82380448|NCT05085834|164470599|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.74|TWO_SIDED|95.0|-0.08|0.05|||linear combination of coefficients|||effect of Zinc supplementation on ln(Waist-umbilicus (cm))||0.05|-0.08|0.74
82380449|NCT05085834|164470600|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-2.99|STANDARD_ERROR_OF_MEAN|12.23||0.81|TWO_SIDED|95.0|-26.97|20.99|||linear combination of coefficients|||effect of Zinc supplementation on Weight (lbs)||20.99|-26.97|0.81
82380450|NCT05085834|164470601|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|95.0|-0.07|0.03|||linear combination of coefficients|||effect of Zinc supplementation on ln(Systolic blood pressure (mmHg))||0.03|-0.07|0.41
82380451|NCT05085834|164470601|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-1.68|STANDARD_ERROR_OF_MEAN|2.06||0.42|TWO_SIDED|95.0|-5.71|2.36|||linear combination of coeff|||effect of Zinc supplementation on Diastolic blood pressure (mmHg)||2.36|-5.71|0.42
82380452|NCT05085834|164470602|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7|TWO_SIDED|95.0|-0.26|0.17|||linear combination of coefficients|||effect of Zinc supplementation on ln(10 year ASCVD (%))||0.17|-0.26|0.70
82380453|NCT05085834|164470603|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.62|TWO_SIDED|95.0|-0.17|0.1|||linear combination of coefficients|||effect of Zinc supplementation on Reactive Hyperemic Index||0.10|-0.17|0.62
82380454|NCT05085834|164470603|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.59|STANDARD_ERROR_OF_MEAN|2.43||0.81|TWO_SIDED|95.0|-4.19|5.36|||linear combination of coefficients|||effect of Zinc supplementation on Augmentation Index||5.36|-4.19|0.81
82380455|NCT05085834|164470604|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.9|TWO_SIDED|95.0|-0.26|0.3|||linear combination of coefficients|||effect of Zinc supplementation on ln(IFAB (pg/mL))||0.30|-0.26|0.90
82380456|NCT05085834|164470604|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.18|STANDARD_ERROR_OF_MEAN|0.15||0.24|TWO_SIDED|95.0|-0.12|0.47|||linear combination of coefficients|||effect of Zinc supplementation on ln(BDG (pg/mL))||0.47|-0.12|0.24
82380457|NCT05085834|164470605|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.69|TWO_SIDED|95.0|-0.21|0.32|||v|||effect of Zinc supplementation on ln(LBP (ng/mL))||0.32|-0.21|0.69
82380458|NCT05085834|164470605|OTHER|Generalized estimating equations were used while adjusting for age and sex, and examining interactions between time and treatment. Combining linear coefficients in the equation while accounting for the multiplicative effects of treatment and time were considered to assess the true effect size of zinc supplementation on biomarkers.|β coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.49|TWO_SIDED|95.0|-0.16|0.34|||linear combination of coefficients|||effect of Zinc supplementation on ln(Zonulin (ng/mL)||0.34|-0.16|0.49
82380459|NCT03657797|164470609|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-0.4||||0.2666|TWO_SIDED|95.0|-1.11|0.31||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 470 0.21% was compared to latanoprost.||0.31|-1.11|0.2666
82380460|NCT03657797|164470609|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-0.81||||0.0281|TWO_SIDED|95.0|-1.52|-0.09||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 0.042% was compared to latanoprost.||-0.09|-1.52|0.0281
82513846|NCT02550652|164720404|SUPERIORITY||Difference in Percentage of Participants|-2.0||||0.8461|TWO_SIDED|80.0|-12.1|8.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||8.1|-12.1|0.8461
82513847|NCT02550652|164720405|SUPERIORITY|||||||0.353|||||||Log Rank|||||||0.3530
82513848|NCT02550652|164720406|SUPERIORITY||Difference in Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.491||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||-0.491|-1.13|<0.0001
82513849|NCT02550652|164720406|SUPERIORITY||Difference in Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|80.0|-1.019|-0.602||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||-0.602|-1.019|<0.0001
82380461|NCT03657797|164470609|NON_INFERIORITY|LS mean, the difference in LS mean (NCX 470 minus latanoprost), and the 2-sided 95% CI for the difference was obtained. Non-inferiority could be claimed if the upper limit of the 2-sided 95% CI around the difference between the LS mean for NCX 470 and the LS mean for latanoprost was \< 1.5 mmHg. If non-inferiority was met, superiority was tested which could be claimed if the p-value for treatment difference was \<= 0.05 and the LS mean difference in change from baseline was \< 0.|Mean Difference (Final Values)|-1.23||||0.0009|TWO_SIDED|95.0|-1.96|-0.51||p-value was not adjusted for multiple comparisons|ANCOVA|||NCX 0.065% was compared to latanoprost.||-0.51|-1.96|0.0009
82513850|NCT02550652|164720407|SUPERIORITY||Difference in Adjusted Mean|0.178||||0.0004|TWO_SIDED|95.0|0.081|0.275||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||0.275|0.081|0.0004
82634628|NCT00724594|164984936|OTHER|||||||0.9||||||not significant|t-test, 2 sided|||Maternal cohort: NAC versus control l H0= PT will not be different in mothers after NAC or saline||||0.9
82513851|NCT02550652|164720407|SUPERIORITY||Difference in Adjusted Mean|0.178||||0.0004|TWO_SIDED|80.0|0.115|0.241|||ANCOVA|||||0.241|0.115|0.0004
82513852|NCT02550652|164720408|SUPERIORITY||Difference in Adjusted Mean|0.088|||<|0.0001||95.0|0.052|0.124|||ANCOVA|Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).||||0.124|0.052|<0.0001
82513853|NCT02550652|164720408|SUPERIORITY||Difference in Adjusted Mean|0.088|||<|0.0001|TWO_SIDED|80.0|0.065|0.112||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|ANCOVA|||||0.112|0.065|<0.0001
82570064|NCT01475461|164850567|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.174||0.0049|TWO_SIDED|80.0|-0.68|-0.23||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.23|-0.68|0.0049
82570065|NCT01475461|164850567|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.173||0.0068|TWO_SIDED|80.0|-0.65|-0.21||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.21|-0.65|0.0068
82570066|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.097||0.3434|TWO_SIDED|80.0|-0.16|0.09||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.09|-0.16|0.3434
82570067|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.101||0.0892|TWO_SIDED|80.0|-0.27|-0.01||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.01|-0.27|0.0892
82570068|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.097||0.0826|TWO_SIDED|80.0|-0.26|-0.01||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.01|-0.26|0.0826
82570069|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.098||0.0031|TWO_SIDED|80.0|-0.4|-0.15||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.15|-0.40|0.0031
82570070|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.098||0.0005|TWO_SIDED|80.0|-0.45|-0.2||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.20|-0.45|0.0005
82570071|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.144||0.5133|TWO_SIDED|80.0|-0.18|0.19||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.19|-0.18|0.5133
82634629|NCT00724594|164984936|OTHER|||||||0.9|||||||t-test, 2 sided|||Infant cohort: NAC versus control H0= prothrombin time will not be different in the infants after NAC or saline||||0.9
82570072|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.15||0.1873|TWO_SIDED|80.0|-0.33|0.06||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.06|-0.33|0.1873
82513854|NCT02550652|164720409|SUPERIORITY||Difference in Percentage of Participants|13.9||||0.09||95.0|-2.4|30.1||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||30.1|-2.4|0.0900
82513855|NCT02550652|164720409|SUPERIORITY||Difference in Percentage of Participants|13.9||||0.09|TWO_SIDED|80.0|3.2|24.5||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||24.5|3.2|0.0900
82634630|NCT00724594|164984937|OTHER|||||||0.072|||||||t-test, 2 sided|||correcting for gestational age at birth||||0.072
82634631|NCT00724594|164984938|OTHER|||||||0.014|||||||t-test, 2 sided|||||||0.014
82634632|NCT00783263|164984960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.25|||<|0.001|TWO_SIDED|95.0|-19.89|-10.6|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time, stratum and the interaction of time by treatment.||||-10.60|-19.89|<0.001
82513856|NCT02550652|164720410|SUPERIORITY||Difference in Percentage of Participants|10.6||||0.1838|TWO_SIDED|95.0|-6.4|27.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||27.6|-6.4|0.1838
82513857|NCT02550652|164720410|SUPERIORITY||Difference in Percentage of Participants|10.6||||0.1838|TWO_SIDED|80.0|-0.5|21.7||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||21.7|-0.5|0.1838
82513858|NCT02550652|164720411|SUPERIORITY||Difference in Percentage of Participants|7.3||||0.3726|TWO_SIDED|95.0|-10.0|24.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%."|Cochran-Mantel-Haenszel|||||24.6|-10.0|0.3726
82634633|NCT00783263|164984961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.31|||<|0.001|TWO_SIDED|95.0|-18.95|-5.67|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time and the interaction of time by treatment.||||-5.67|-18.95|<0.001
82634634|NCT00783263|164984961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.46|||<|0.001|TWO_SIDED|95.0|-23.92|-10.99|||Longitudinal Data Analysis (LDA)|Longitudinal Data Analysis was based on a constrained LDA model with terms for treatment, time and the interaction of time by treatment.||||-10.99|-23.92|<0.001
82634635|NCT00783263|164984962|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5|||<|0.001|TWO_SIDED|95.0|2.9|6.9|||Logistic Regression|Logistic Regression included terms for treatment, stratum and baseline LDL-C category (3 levels: \<100, 100-\<130, ≥130 mg/dL).||||6.9|2.9|<0.001
82513859|NCT02550652|164720411|SUPERIORITY||Difference in Percentage of Participants|7.3||||0.3726|TWO_SIDED|80.0|-4.0|18.6||"Stratified by race (Afro Caribbean/African American vs. Others) and region (US vs. non-US sites).~Statistically significant at pre-specified alpha of 20%"|Cochran-Mantel-Haenszel|||||18.6|-4.0|0.3726
82634636|NCT00783263|164984963|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.1|||<|0.001|TWO_SIDED|95.0|1.7|5.8|||Logistic Regression|Logistic Regression included terms for treatment and baseline LDL-C category (3 levels: \<100, 100-\<130, \>=130 mg/dL).||||5.8|1.7|<0.001
82513860|NCT01196871|164720427|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|2.942|||||TWO_SIDED|90.0|2.439|3.548|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% confidence interval (CI) are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.548|2.439|
82513861|NCT01196871|164720427|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|2.942|||||TWO_SIDED|90.0|2.431|3.56|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.560|2.431|
82634637|NCT00783263|164984963|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|3.4|12.3|||Logistic Regression|Logistic Regression included terms for treatment and baseline LDL-C category (3 levels: \<100, 100-\<130, \>=130 mg/dL).||||12.3|3.4|<0.001
82634638|NCT00783263|164984964|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.0|||<|0.001|TWO_SIDED|95.0|4.6|14.0|||Logistic Regression|||||14.0|4.6|<0.001
82634639|NCT00783263|164984965|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|2.2|11.8|||Logistic Regression|||Stratum I||11.8|2.2|<0.001
82570073|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.145||0.212|TWO_SIDED|80.0|-0.3|0.07||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.07|-0.30|0.2120
82634640|NCT00783263|164984965|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.4|||<|0.001|TWO_SIDED|95.0|5.2|24.8|||Logistic Regression|||Stratum II||24.8|5.2|<0.001
82634641|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.65|||<|0.001|TWO_SIDED|95.0|-11.59|-5.71|||Longitudinal Data Analysis|||Total Cholesterol (mg/dL)||-5.71|-11.59|<0.001
82634642|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.306|TWO_SIDED|95.0|-9.04|2.84|||Longitudinal Data Analysis|||Triglycerides (mg/dL)||2.84|-9.04|0.306
82380462|NCT03657797|164470610|NON_INFERIORITY|NCX 470 0.021% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.9788||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were 0.51 (week 1), 0.68 (week 2), 0.75 (exit visit); p-values were 0.5560 (week 1), 0.9788 (week 2), 0.8796 (exit visit)||NCX 470 0.021% was compared to latanoprost.||||<0.9788
82380463|NCT03657797|164470610|NON_INFERIORITY|NCX 470 0.042% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.3863||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were 0.20 (week 1), 0.38 (week 2), 0.11 (exit visit); p-values were 0.1556 (week 1), 0.3863 (week 2), 0.0912 (exit visit)||NCX 470 0.042% was compared to latanoprost.||||<0.3863
82634643|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.15||||0.111|TWO_SIDED|95.0|-4.79|0.49|||Longitudinal Data Analysis|||High-Density Lipoprotein Cholesterol||0.49|-4.79|0.111
82634644|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.98|||<|0.001|TWO_SIDED|95.0|-16.1|-7.86|||Longitudinal Data Analysis|||Non High-Density Liproprotein Cholesterol||-7.86|-16.10|<0.001
82634645|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.25|||<|0.001|TWO_SIDED|95.0|-18.36|-8.13|||Longitudinal Data Analysis|||LDL Cholesterol/HDL Cholesterol||-8.13|-18.36|<0.001
82634646|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.45||||0.002|TWO_SIDED|95.0|-10.53|-2.36|||Longitudinal Data Analysis|||Total Cholesterol/HDL Cholesterol||-2.36|-10.53|0.002
82634647|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.52||||0.001|TWO_SIDED|95.0|-15.3|-3.75|||Longitudinal Data Analysis|||Non-HDL Cholestrol/HDL Cholesterol||-3.75|-15.30|0.001
82634648|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.41|||<|0.001|TWO_SIDED|95.0|-12.74|-6.08|||Longitudinal Data Analysis|||Apolipoprotein B (Apo B)||-6.08|-12.74|<0.001
82634649|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.82||||0.102|TWO_SIDED|95.0|-3.99|0.36|||Longitudinal Data Analysis|||Apolipoprotein A-I (Apo A-I)||0.36|-3.99|0.102
82634650|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.54|||<|0.001|TWO_SIDED|95.0|-11.25|-3.83|||Longitudinal Data Analysis|||Apolipoprotein B/Apo A-I||-3.83|-11.25|<0.001
82634651|NCT00783263|164984966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.08||||0.861|TWO_SIDED|95.0|-13.13|10.97|||Longitudinal Data Analysis|||hs-C-Reactive Protein||10.97|-13.13|0.861
82634652|NCT00405756|164984977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.395|||<|0.001|TWO_SIDED|95.0|0.278|0.56||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.560|0.278|<0.001
82634653|NCT00405756|164984977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.494|||<|0.001|TWO_SIDED|95.0|0.347|0.702||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.702|0.347|<0.001
82634654|NCT00405756|164984977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.134|TWO_SIDED|95.0|0.589|1.075||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||1.075|0.589|0.134
82523771|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0|TWO_SIDED|95.0|0.85|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.95|0.85|0.000
82634655|NCT00405756|164984978|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.214|0.541|||Log Rank|P-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.||||0.541|0.214|<0.001
82634656|NCT00405756|164984980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.337|||<|0.001|TWO_SIDED|95.0|0.231|0.493||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.493|0.231|<0.001
82634657|NCT00405756|164984980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.414|||<|0.001|TWO_SIDED|95.0|0.284|0.603||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||0.603|0.284|<0.001
82634658|NCT00405756|164984980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.826||||0.223|TWO_SIDED|95.0|0.606|1.125||The p-value is based on unstratified log rank test of Kaplan-Meier curve differences between the treatment groups.|Log Rank|||||1.125|0.606|0.223
82634659|NCT00405756|164984981|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||<0.001
82634660|NCT00405756|164984981|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||0.009
82634661|NCT00405756|164984981|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value calculation excludes the category - Response not evaluable (NE)|Wilcoxon (Mann-Whitney)|||||||0.003
82634662|NCT00405756|164984981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.04|5.47|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||5.47|2.04|<0.001
82634663|NCT00405756|164984981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.096|TWO_SIDED|95.0|0.95|2.62|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||2.62|0.95|0.096
82634664|NCT00405756|164984981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.12||||0.002|TWO_SIDED|95.0|1.33|3.37|||Fisher Exact|||Based on dichotomized response: 1) CR or PR 2) SD or PD or NE||3.37|1.33|0.002
82634665|NCT00405756|164984983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.348|||<|0.001|TWO_SIDED|95.0|0.228|0.531||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.531|0.228|<0.001
82634666|NCT00405756|164984983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.419|||<|0.001|TWO_SIDED|95.0|0.281|0.623||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.623|0.281|<0.001
82634667|NCT00405756|164984983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.302|TWO_SIDED|95.0|0.571|1.191||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||1.191|0.571|0.302
82634668|NCT00405756|164984984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.404|||<|0.001|TWO_SIDED|95.0|0.296|0.553||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.553|0.296|<0.001
82634669|NCT00405756|164984984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.499|||<|0.001|TWO_SIDED|95.0|0.363|0.688||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||0.688|0.363|<0.001
82634670|NCT00405756|164984984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.827||||0.169|TWO_SIDED|95.0|0.63|1.085||The p-value is based on unstratified log rank test of Kaplan Meier curve differences between the treatment groups.|Log Rank|||||1.085|0.630|0.169
82634671|NCT01117428|164985013|EQUIVALENCE|Differences between Parts E and F in terms of Best Overall Response evaluated from screening until disease progression.||||||0.6645||||||No adjustment, 5% significance level|Fisher Exact|||||||0.6645
82570074|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.146||0.0001|TWO_SIDED|80.0|-0.73|-0.35||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, as the covariates, time was repeated for participant.||-0.35|-0.73|0.0001
82380464|NCT03657797|164470610|NON_INFERIORITY|NCX 470 0.065% was compared to latanoprost 0.005% at each visit. The LS mean, LS mean difference and the 95% CIs for the difference was calculated. Non-inferiority at each visit could be claimed if the upper limit of the 95% CI was \<1.5 mmHg. If non-inferiority was established, superiority could be claimed if the upper limit of the 95% CI was \<0 and p\<0.05.|||||<|0.0174||||||p-value was not adjusted for multiple comparisons|ANCOVA|Upper 95% CIs were -0.35 (week 1), -0.15 (week 2), -0.27 (exit visit); p-values were 0.0040 (week 1), 0.0174 (week 2), 0.0093 (exit visit)||NCX 470 0.065% was compared to latanoprost.||||<0.0174
82380465|NCT01402570|164470637|SUPERIORITY_OR_OTHER||REML|0.17||||0.66|TWO_SIDED|95.0|-0.67|0.95||Time was predictor of interest, controlling for age, gender, baseline PROMIS physical functioning, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.95|-0.67|0.66
82513862|NCT01196871|164720427|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|2.354|||||TWO_SIDED|90.0|1.826|3.035|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.035|1.826|
82513863|NCT01196871|164720427|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|2.375|||||TWO_SIDED|90.0|1.839|3.068|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||3.068|1.839|
82380466|NCT01402570|164470638|SUPERIORITY_OR_OTHER||REML|0.0||||0.44|TWO_SIDED|95.0|-0.01|0.02||Time was predictor of interest, controlling for age, gender, baseline sleep efficiency, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.02|-0.01|0.44
82380467|NCT01402570|164470639|SUPERIORITY_OR_OTHER||REML|145.54||||0.35|TWO_SIDED|95.0|-178.93|470.02||Time was predictor of interest, controlling for age, gender, baseline steps per day, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||470.02|-178.93|0.35
82380468|NCT01402570|164470640|SUPERIORITY_OR_OTHER||REML|-1.05||||0.07|TWO_SIDED|95.0|-2.21|0.1||Time was predictor of interest, controlling for age, gender, baseline fatigue, and overall functional status.|Mixed Models Analysis|||Linear mixed modeling (LMM) with random effects for intercept and repeated effects for assessment period was used to analyze change over time for study outcomes. The primary predictor of interest in this study was the relationship of time to each of the outcomes to evaluate the potential effect of the intervention. Independent LMMs were used to study outcomes.||0.10|-2.21|0.07
82380469|NCT01634048|164470661|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82513864|NCT01196871|164720428|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.629|||||TWO_SIDED|90.0|1.44|1.843|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.843|1.440|
82513865|NCT01196871|164720428|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.546|||||TWO_SIDED|90.0|1.3|1.838|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.838|1.300|
82523772|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88||||0|TWO_SIDED|95.0|0.83|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 8||0.94|0.83|0.000
82523773|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.728|TWO_SIDED|95.0|0.93|1.05|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||1.05|0.93|0.728
82523774|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.002|TWO_SIDED|95.0|0.86|0.97|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||0.97|0.86|0.002
82523775|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.001|TWO_SIDED|95.0|0.84|0.95|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.95|0.84|0.001
82634672|NCT02519777|164985016|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.60
82634673|NCT02519777|164985016|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.33
82634674|NCT02519777|164985016|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 48 from baseline||||0.61
82634675|NCT02519777|164985018|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.61
82634676|NCT02519777|164985018|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.72
82634677|NCT02519777|164985018|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.79
82634678|NCT02519777|164985018|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.55
82634679|NCT02519777|164985018|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.47
82634680|NCT02519777|164985018|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.95
82634681|NCT02519777|164985018|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 24 from baseline||||0.85
82634682|NCT02519777|164985018|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 72 from baseline||||0.67
82634683|NCT02519777|164985018|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in normalized composite neurocognitive test scores at Week 96 from baseline||||0.70
82634684|NCT02519777|164985019|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 24 from baseline||||0.99
82634685|NCT02519777|164985019|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 48 from baseline||||0.97
82634686|NCT02519777|164985019|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 72 from baseline||||0.79
82634687|NCT02519777|164985019|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in functional status scores at Week 96 from baseline||||0.99
82634688|NCT02519777|164985019|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 24 from baseline||||0.74
82634689|NCT02519777|164985019|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 48 from baseline||||0.69
82634690|NCT02519777|164985019|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 72 from baseline||||0.44
82634691|NCT02519777|164985019|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in functional status scores at Week 96 from baseline||||1.00
82634692|NCT02519777|164985019|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 24 from baseline||||0.83
82570075|NCT01475461|164850568|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.146||0.0021|TWO_SIDED|80.0|-0.61|-0.23||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.23|-0.61|0.0021
82634693|NCT02519777|164985019|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 48 from baseline||||0.80
82380470|NCT00742209|164470664|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|0.3||||0.579|TWO_SIDED|95.0|-0.6|1.1||A combination of a sequential method and the Hochberg procedure has been used to maintain the overall experiment-size alphas level of 0.05 for the comparison of GEn vs. placebo.|ANCOVA|An ANCOVA model with baseline number of MHD and IHS Headache Classification for presence or absence of aura as covariates was used.|Adjusted mean difference versus placebo|||1.1|-0.6|0.579
82380471|NCT01332487|164470683|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Acute Urinary Retention|Chi-squared|||||||0.002
82380472|NCT01332487|164470683|SUPERIORITY_OR_OTHER|||||||0||95.0||||Surgery|Chi-squared|||||||0.000
82513866|NCT01196871|164720430|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.025|||||TWO_SIDED|90.0|0.921|1.14|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.140|0.921|
82634694|NCT02519777|164985019|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 72 from baseline||||0.86
82380473|NCT01332487|164470683|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Emergency Surgery|Chi-squared|||||||0.597
82523776|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.01||||0.823|TWO_SIDED|95.0|0.95|1.07|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||1.07|0.95|0.823
82523777|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96||||0.153|TWO_SIDED|95.0|0.9|1.02|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||1.02|0.90|0.153
82380474|NCT02440464|164470703|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.10.|Log Rank|||The null hypothesis is that there is no difference in progression-free survival time post-randomization among randomized subjects receiving Ixazomib vs Placebo maintenance therapy during the 21 month period post-randomization. This was compared between treatment arms using a log rank test.||||1.0
82380475|NCT02440464|164470704|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with acute grade III-IV GVHD between the Ixazomib and Placebo arms during 100 days post-randomization, with death prior to acute GVHD treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
82380476|NCT02440464|164470705|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with chronic GVHD between the Ixazomib and Placebo arms during 21 months post-randomization, with death prior to chronic GVHD treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
82513867|NCT01196871|164720430|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects mode Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.256|||||TWO_SIDED|90.0|1.026|1.538|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.538|1.026|
82634695|NCT02519777|164985019|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in functional status scores at Week 96 from baseline||||1.00
82634696|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|3.32|||||TWO_SIDED|95.0|-2.78|9.42||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||9.42|-2.78|
82634697|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|5.17|||||TWO_SIDED|95.0|-0.53|10.87||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||10.87|-0.53|
82634698|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|-8.21|||||TWO_SIDED|95.0|-16.56|0.13||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||0.13|-16.56|
82634699|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|3.17|||||TWO_SIDED|95.0|-3.07|9.42||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||9.42|-3.07|
82634700|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|3.48|||||TWO_SIDED|95.0|-3.11|10.06||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||10.06|-3.11|
82634701|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|-1.85|||||TWO_SIDED|95.0|-7.89|4.19||||||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||4.19|-7.89|
82634702|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|-0.15|||||TWO_SIDED|95.0|-4.53|4.23||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 24||4.23|-4.53|
82634703|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|-1.69|||||TWO_SIDED|95.0|-4.99|1.6||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48||1.60|-4.99|
82634704|NCT02519777|164985020|SUPERIORITY||Difference in Percentage of Participants|6.36|||||TWO_SIDED|95.0|-2.7|15.42||||||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in number of participants with HIV-1 RNA ≥ 50 copies/mL at Week 96||15.42|-2.70|
82634705|NCT02519777|164985022|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 24 from baseline||||0.67
82634706|NCT02519777|164985022|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 48 from baseline||||0.78
82634707|NCT02519777|164985022|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD4+ T-cell count at Week 96 from baseline||||0.94
82634708|NCT02519777|164985022|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 24 from baseline||||0.42
82634709|NCT02519777|164985022|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 48 from baseline||||0.07
82634710|NCT02519777|164985022|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 96 from baseline||||0.37
82634711|NCT02519777|164985022|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 24 from baseline||||0.08
82634712|NCT02519777|164985022|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 48 from baseline||||0.33
82634713|NCT02519777|164985022|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD4+ T-cell count at Week 96 from baseline||||0.56
82634714|NCT02519777|164985024|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 24 from baseline||||0.63
82513868|NCT01196871|164720432|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.034|||||TWO_SIDED|90.0|0.929|1.152|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.152|0.929|
82634715|NCT02519777|164985024|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 48 from baseline||||0.38
82513869|NCT01196871|164720432|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|1.063|||||TWO_SIDED|90.0|0.972|1.164|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 2 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.164|0.972|
82634716|NCT02519777|164985024|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in CD8+ T-cell count at Week 96 from baseline||||0.95
82634717|NCT02519777|164985024|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 24 from baseline||||0.27
82634718|NCT02519777|164985024|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 48 from baseline||||0.23
82634719|NCT02519777|164985024|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 96 from baseline||||0.09
82634720|NCT02519777|164985024|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 24 from baseline||||0.03
82634721|NCT02519777|164985024|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 48 from baseline||||0.02
82634722|NCT02519777|164985024|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in CD8+ T-cell count at Week 96 from baseline||||0.09
82634723|NCT02519777|164985025|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 sCD14 in plasma at Week 48 from baseline||||1.00
82513870|NCT01196871|164720434|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUC0-t Ratio|1.059|||||TWO_SIDED|90.0|0.818|1.371|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUC0-t Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.371|0.818|
82634724|NCT02519777|164985025|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 sCD14 in plasma at Week 48 from baseline||||0.95
82634725|NCT02519777|164985025|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 sCD14 in plasma at Week 48 from baseline||||0.96
82634726|NCT02519777|164985026|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||0.52
82634727|NCT02519777|164985026|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||<0.01
82634728|NCT02519777|164985026|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in plasma at Week 48 from baseline||||<0.01
82634729|NCT02519777|164985027|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.91
82634730|NCT02519777|164985027|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.86
82634731|NCT02519777|164985027|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 sTNFr-II in plasma at Week 48 from baseline||||0.94
82634732|NCT02519777|164985028|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 VCAM in plasma at Week 48 from baseline||||0.70
82634733|NCT02519777|164985028|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 VCAM in plasma at Week 48 from baseline||||0.28
82513871|NCT01196871|164720434|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|AUCinfinity Ratio|1.052|||||TWO_SIDED|90.0|0.807|1.371|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 AUCinfinity Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.371|0.807|
82513872|NCT01196871|164720435|OTHER|Geometric means for each treatment combination is obtained from the linear mixed effects model Log (parameter) = Intercept + ß\*Treatment + Error.|Cmax Ratio|0.997|||||TWO_SIDED|90.0|0.791|1.259|||||The ratios of the geometric means (combination/alone) and its 90% CI are obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|Statistical Analysis of Stage 1 Cmax Data: Point estimates for the geometric means and their 90% CI are obtained by exponentiating the least squares mean and the lower and upper bounds of the 90% CI of the natural log-transformed data.||1.259|0.791|
82513873|NCT03062891|164720450|SUPERIORITY||Slope|0.54||||0.572|TWO_SIDED|95.0|-1.33|2.4|||Regression, Linear|||This analysis looked at the interaction between baseline anxiety symptoms and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.40|-1.33|.572
82570076|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|2.87|STANDARD_ERROR_OF_MEAN|4.823||0.724|TWO_SIDED|80.0|-3.32|9.07||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||9.07|-3.32|0.7240
82570077|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.77|STANDARD_ERROR_OF_MEAN|4.952||0.3608|TWO_SIDED|80.0|-8.13|4.59||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.59|-8.13|0.3608
82570078|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|4.816||0.2511|TWO_SIDED|80.0|-9.42|2.95||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.95|-9.42|0.2511
82570079|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.28|STANDARD_ERROR_OF_MEAN|4.851||0.0673|TWO_SIDED|80.0|-13.51|-1.05||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-1.05|-13.51|0.0673
82570080|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.22|STANDARD_ERROR_OF_MEAN|4.843||0.0106|TWO_SIDED|80.0|-17.44|-5.0||p-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.00|-17.44|0.0106
82570081|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|5.138||0.4127|TWO_SIDED|80.0|-7.73|5.47||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.47|-7.73|0.4127
82570082|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|5.261||0.3604|TWO_SIDED|80.0|-8.64|4.87||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.87|-8.64|0.3604
82570083|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.35|STANDARD_ERROR_OF_MEAN|5.147||0.077|TWO_SIDED|80.0|-13.96|-0.74||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.74|-13.96|0.0770
82570084|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.79|STANDARD_ERROR_OF_MEAN|5.171||0.0451|TWO_SIDED|80.0|-15.43|-2.15||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.15|-15.43|0.0451
82570085|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|5.191||0.0001|TWO_SIDED|80.0|-26.57|-13.23||p-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-13.23|-26.57|0.0001
82570086|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|5.599||0.5783|TWO_SIDED|80.0|-6.08|8.3||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.30|-6.08|0.5783
82570087|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|5.785||0.3604|TWO_SIDED|80.0|-9.5|5.36||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.36|-9.50|0.3604
82570088|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.12|STANDARD_ERROR_OF_MEAN|5.636||0.0161|TWO_SIDED|80.0|-19.36|-4.88||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.88|-19.36|0.0161
82380477|NCT02440464|164470706|SUPERIORITY|The null hypothesis is that there is no difference in the proportions of participants in the best response to treatment categories between the Ixazomib and Placebo arms during 2 years post-transplant among participants in sCR/CR at randomization. These proportions were compared using Fisher's Exact test.||||||0.89|||||||Fisher Exact|Statistical significance was determined using a pre-specified one-sided threshold of 0.05.||Participants in sCR/CR at Randomization||||0.890
82380478|NCT02440464|164470706|SUPERIORITY|||||||0.754||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in the proportions of participants in the best response to treatment categories between the Ixazomib and Placebo arms during 2 years post-transplant among participants not in sCR/CR at randomization. These proportions were compared using Fisher's Exact test.||||0.754
82380479|NCT02440464|164470708|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with progression between the Ixazomib and Placebo arms during 21 months post-randomization, with death prior to progression treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||1.0
82380480|NCT02440464|164470709|SUPERIORITY|||||||0.174||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference in overall survival time post-randomization among randomized subjects receiving Ixazomib vs Placebo maintenance therapy during the 21 month period post-randomization. This was compared between treatment arms using a log rank test.||||0.174
82380481|NCT02440464|164470710|SUPERIORITY|||||||0.173||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Gray's Test|||The null hypothesis is that there is no difference in the proportions of participants with treatment-related mortality between the Ixazomib and Placebo arms during 21 months post-randomization, with progression treated as a competing risk. Cumulative incidences are compared between treatment arms using Gray's test.||||0.173
82380482|NCT02440464|164470712|SUPERIORITY|||||||0.258||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 6 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.258
82380483|NCT02440464|164470712|SUPERIORITY|||||||0.252||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 12 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.252
82380484|NCT02440464|164470712|SUPERIORITY|||||||0.258||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3-5 toxicities between the Ixazomib and Placebo arms during 18 months post-randomization, with death from a cause other than toxicity treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||0.258
82380485|NCT02440464|164470714|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 6 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
82380486|NCT02440464|164470714|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 12 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
82380487|NCT02440464|164470714|SUPERIORITY|||||||1||||||Statistical significance was determined using a pre-specified one-sided threshold of 0.05.|Z test|||The null hypothesis is that there is no difference in the proportions of participants with Grade 3 infections between the Ixazomib and Placebo arms during 18 months post-randomization, with death from a cause other than infection treated as a competing risk. Cumulative incidences are estimated at 6, 12 and 18 months post randomization using Aalen-Johansen estimators for each treatment group. Comparison of cumulative incidence between treatment arms was done using a Z test at fixed time points.||||1.0
82380488|NCT01999920|164470736|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||.064
82570089|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|5.663||0.2185|TWO_SIDED|80.0|-11.68|2.87||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.87|-11.68|0.2185
82634734|NCT02519777|164985028|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 VCAM in plasma at Week 48 from baseline||||0.85
82380489|NCT01999920|164470737|SUPERIORITY||Standard error|5.5|STANDARD_ERROR_OF_MEAN|3.13||0.11|TWO_SIDED|95.0|-1.32|12.32|||Mixed Models Analysis|||||12.32|-1.32|0.11
82380490|NCT01999920|164470738|SUPERIORITY||Standard error|0.34|STANDARD_ERROR_OF_MEAN|2.44||0.89|TWO_SIDED|95.0|-4.85|5.53|||Mixed Models Analysis|||Confidence variable||5.53|-4.85|0.89
82513874|NCT03062891|164720451|SUPERIORITY||Slope|0.08||||0.934|TWO_SIDED|95.0|-1.82|1.98|||Regression, Linear|||This analysis looked at the interaction between baseline depression symptoms and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.98|-1.82|.934
82513875|NCT03062891|164720452|SUPERIORITY||Slope|1.07||||0.253|TWO_SIDED|95.0|-0.76|2.89|||Regression, Linear|||This analysis looked at the interaction between attentional problems and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.89|-0.76|.253
82513876|NCT03062891|164720453|SUPERIORITY||Slope|1.2||||0.215|TWO_SIDED|95.0|-0.7|3.1|||Regression, Linear|||This analysis looked at the interaction between baseline paranois and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.10|-0.70|.215
82513877|NCT03062891|164720453|SUPERIORITY||Slope|1.14||||0.254|TWO_SIDED|95.0|-0.83|3.11|||Regression, Linear|||This analysis looked at the interaction between baseline hallucinations and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.11|-0.83|.254
82513878|NCT03062891|164720453|SUPERIORITY||Slope|-0.27||||0.778|TWO_SIDED|95.0|-2.13|1.59|||Regression, Linear|||This analysis looked at the interaction between baseline cognitive disorganization and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.59|-2.13|.778
82513879|NCT03062891|164720454|SUPERIORITY||Slope|-0.25||||0.8|TWO_SIDED|95.0|-2.16|1.67|||Regression, Linear|||This analysis looked at the interaction between baseline positive mental health and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||1.67|-2.16|.800
82634735|NCT02519777|164985029|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.99
82380491|NCT01999920|164470738|SUPERIORITY||Standard error|1.18|STANDARD_ERROR_OF_MEAN|4.41||0.79|TWO_SIDED|95.0|-8.21|10.58|||Mixed Models Analysis|||Discomfort with Closeness variable||10.58|-8.21|0.79
82513880|NCT03062891|164720455|SUPERIORITY||Slope|0.59||||0.525|TWO_SIDED|95.0|-1.25|2.44|||Regression, Linear|||This analysis looked at the interaction between baseline perceived stress and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||2.44|-1.25|.525
82634736|NCT02519777|164985029|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.26
82634737|NCT02519777|164985029|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 MIP-1 Beta in CSF at Week 48 from baseline||||0.20
82634738|NCT02519777|164985030|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.59
82634739|NCT02519777|164985030|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.39
82634740|NCT02519777|164985030|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 IP-10 in CSF at Week 48 from baseline||||0.80
82634741|NCT02519777|164985031|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.90
82634742|NCT02519777|164985031|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.14
82634743|NCT02519777|164985031|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 Neopterin in CSF at Week 48 from baseline||||0.49
82634744|NCT02519777|164985032|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm B: DTG and placebo MVC in change in Log10 NFL in CSF at Week 48 from baseline||||0.52
82634745|NCT02519777|164985032|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: Placebo MVC and placebo DTG and Arm C: MVC and DTG in change in Log10 NFL in CSF at Week 48 from baseline||||0.99
82634746|NCT02519777|164985032|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: DTG and placebo MVC and Arm C: MVC and DTG in change in Log10 NFL in CSF at Week 48 from baseline||||0.54
82634747|NCT00082628|164985109|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Nonparametric ANCOVA Model|||||||<0.001
82634748|NCT03481634|164985115|NON_INFERIORITY|Non-inferiority (4-letter margin)|LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.81|<|0.001|TWO_SIDED|95.0|-2.9|0.3||1-sided p-value|ANOVA|||||0.3|-2.9|<0.001
82634749|NCT03481634|164985115|NON_INFERIORITY|Non-inferiority (4-letter margin)|LS mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.94||0.227|TWO_SIDED|95.0|-5.1|-1.4||1-sided p-value|ANOVA|||||-1.4|-5.1|0.227
82634750|NCT03481634|164985116|NON_INFERIORITY|Non-inferiority (4-letter margin)|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-3.0|0.0||(1-sided)|ANOVA|||||-0.0|-3.0|<0.001
82634751|NCT03481634|164985116|NON_INFERIORITY|Non-inferiority (4-letter margin)|Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-5.2|-1.7||(1-sided)|ANOVA|||||-1.7|-5.2|
82634752|NCT03481634|164985120|OTHER|Descriptive|LS mean difference|-3.8|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-6.0|-1.7|||ANOVA|||||-1.7|-6.0|
82634753|NCT03481634|164985120|OTHER|Descriptive|LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.0|0.1|||ANOVA|||||0.1|-4.0|
82380492|NCT01999920|164470738|SUPERIORITY||Standard error|3.94|STANDARD_ERROR_OF_MEAN|3.79||0.31|TWO_SIDED|95.0|-4.12|12.01|||Mixed Models Analysis|||Relationships as Secondary variable||12.01|-4.12|0.31
82380493|NCT01999920|164470738|SUPERIORITY||Standard error|-2.6|STANDARD_ERROR_OF_MEAN|1.49||0.1|TWO_SIDED|95.0|-5.79|0.58|||Mixed Models Analysis|||Need for Approval variable||0.58|-5.79|0.10
82634754|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|8.68|||TWO_SIDED|95.0|-17.7|16.4|||ANOVA|||Week 4||16.4|-17.7|
82634755|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-2.1|STANDARD_ERROR_OF_MEAN|8.41|||TWO_SIDED|95.0|-18.7|14.4|||ANOVA|||Week 4||14.4|-18.7|
82634756|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|12.2|STANDARD_ERROR_OF_MEAN|8.87|||TWO_SIDED|95.0|-5.2|29.7|||ANOVA|||Week 6||29.7|-5.2|
82634757|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|8.38|||TWO_SIDED|95.0|-14.0|18.9|||ANOVA|||Week 6||18.9|-14.0|
82634758|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|8.61|||TWO_SIDED|95.0|-16.0|17.9|||ANOVA|||Week 8||17.9|-16.0|
82634759|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.28|||TWO_SIDED|95.0|-19.6|12.9|||ANOVA|||Week 8||12.9|-19.6|
82634760|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|6.4|STANDARD_ERROR_OF_MEAN|8.73|||TWO_SIDED|95.0|-10.7|23.6|||ANOVA|||Week 12||23.6|-10.7|
82634761|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|8.85|||TWO_SIDED|95.0|-14.6|20.2|||ANOVA|||Week 12||20.2|-14.6|
82513881|NCT03062891|164720456|SUPERIORITY||Slope|1.3||||0.14|TWO_SIDED|95.0|-0.43|3.03|||Regression, Linear|||This analysis looked at the interaction between baseline threatening life events and group on the change in insomnia symptoms across the intervention. The results of the interaction are reported here.||3.03|-0.43|.140
82570090|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.41|STANDARD_ERROR_OF_MEAN|5.649||0.0034|TWO_SIDED|80.0|-22.67|-8.16||p-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-8.16|-22.67|0.0034
82513882|NCT03062891|164720457|SUPERIORITY||Slope|-2.58||||0.03|TWO_SIDED|95.0|-4.9|-0.25|||Generalized estimating equation|||This analysis looked at the effect of group on changes in anxiety symptoms across the intervention period.||-0.25|-4.90|.030
82634762|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|8.5|||TWO_SIDED|95.0|-15.7|17.8|||ANOVA|||Week 16||17.8|-15.7|
82513883|NCT03062891|164720458|SUPERIORITY||Slope|-0.63||||0.456|TWO_SIDED|95.0|-2.24|1.01|||Generalized estimating equation|||This analysis looked at the effect of group on changes in depression symptoms across the intervention period.||1.01|-2.24|.456
82513884|NCT03062891|164720459|SUPERIORITY||Slope|-2.34||||0.11|TWO_SIDED|95.0|-5.21|0.53|||Generalized estimating equation|||This analysis looked at the effect of group on changes attentional problems across the intervention period.||0.53|-5.21|.110
82513885|NCT03062891|164720460|SUPERIORITY||Slope|-1.69||||0.041|TWO_SIDED|95.0|-3.31|-0.07|||Generalized estimating equations|||This analysis looked at the effect of group on changes in psychotic experiences (paranoia) across the intervention period.||-0.07|-3.31|.041
82380494|NCT01999920|164470738|SUPERIORITY||Standard error|0.71|STANDARD_ERROR_OF_MEAN|2.82||0.8|TWO_SIDED|95.0|-5.3|6.72|||Mixed Models Analysis|||Preoccupation with Relationships variable||6.72|-5.30|0.80
82380495|NCT01999920|164470739|SUPERIORITY||Standard error|-19.91|STANDARD_ERROR_OF_MEAN|6.99||0.008|TWO_SIDED|95.0|-34.23|-5.58|||Mixed Models Analysis|||||-5.58|-34.23|0.008
82380496|NCT01999920|164470740|SUPERIORITY||Standard error|3.29|STANDARD_ERROR_OF_MEAN|1.43||0.026|TWO_SIDED|95.0|0.42|6.16|||Mixed Models Analysis|||||6.16|0.42|0.026
82634763|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.29|||TWO_SIDED|95.0|-19.7|12.9|||ANOVA|||Week 16||12.9|-19.7|
82634764|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|8.9|STANDARD_ERROR_OF_MEAN|8.92|||TWO_SIDED|95.0|-8.6|26.5|||ANOVA|||Week 18||26.5|-8.6|
82634765|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|8.47|||TWO_SIDED|95.0|-14.1|19.2|||ANOVA|||Week 18||19.2|-14.1|
82634766|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|8.55|||TWO_SIDED|95.0|-20.2|13.4|||ANOVA|||Week 20||13.4|-20.2|
82634767|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-5.8|STANDARD_ERROR_OF_MEAN|8.12|||TWO_SIDED|95.0|-21.7|10.2|||ANOVA|||Week 20||10.2|-21.7|
82634768|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-13.9|STANDARD_ERROR_OF_MEAN|9.06|||TWO_SIDED|95.0|-31.7|3.9|||ANOVA|||Week 24||3.9|-31.7|
82634769|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-17.8|STANDARD_ERROR_OF_MEAN|8.95|||TWO_SIDED|95.0|-35.4|-0.2|||ANOVA|||Week 24||-0.2|-35.4|
82634770|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-8.7|STANDARD_ERROR_OF_MEAN|8.26|||TWO_SIDED|95.0|-25.0|7.5|||ANOVA|||Week 28||7.5|-25.0|
82634771|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-8.7|STANDARD_ERROR_OF_MEAN|8.49|||TWO_SIDED|95.0|-25.4|8.0|||ANOVA|||Week 28||8.0|-25.4|
82634772|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|9.49|||TWO_SIDED|95.0|-21.8|15.5|||ANOVA|||Week 32||15.5|-21.8|
82634773|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-11.7|STANDARD_ERROR_OF_MEAN|9.02|||TWO_SIDED|95.0|-29.5|6.0|||ANOVA|||Week 32||6.0|-29.5|
82634774|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|36.3|STANDARD_ERROR_OF_MEAN|11.01|||TWO_SIDED|95.0|14.6|57.9|||ANOVA|||Week 36||57.9|14.6|
82634775|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|9.97|||TWO_SIDED|95.0|0.7|40.0|||ANOVA|||Week 36||40.0|0.7|
82634776|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-6.1|STANDARD_ERROR_OF_MEAN|9.19|||TWO_SIDED|95.0|-24.2|11.9|||ANOVA|||Week 40||11.9|-24.2|
82634777|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-6.5|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-25.2|12.2|||ANOVA|||Week 40||12.2|-25.2|
82634778|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|9.33|||TWO_SIDED|95.0|-10.4|26.3|||ANOVA|||Week 44||26.3|-10.4|
82634779|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-16.2|18.3|||ANOVA|||Week 44||18.3|-16.2|
82634780|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|13.6|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-5.8|32.9|||ANOVA|||Week 48||32.9|-5.8|
82634781|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|9.26|||TWO_SIDED|95.0|-13.5|23.0|||ANOVA|||Week 48||23.0|-13.5|
82634782|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|9.52|||TWO_SIDED|95.0|-14.5|23.0|||ANOVA|||Week 52||23.0|-14.5|
82634783|NCT03481634|164985123|OTHER|Descriptive|LS mean difference|-5.1|STANDARD_ERROR_OF_MEAN|8.78|||TWO_SIDED|95.0|-22.3|12.2|||ANOVA|||Week 52||12.2|-22.3|
82634784|NCT03481634|164985124|OTHER|Descriptive|LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-16.6|20.0|||ANOVA|||||20.0|-16.6|
82634785|NCT03481634|164985124|OTHER|Descriptive|LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|8.79|||TWO_SIDED|95.0|-20.7|13.8|||ANOVA|||||13.8|-20.7|
82634786|NCT03481634|164985131|OTHER|Descriptive; Week 28|Difference - %|1.6|||||TWO_SIDED|95.0|-5.3|8.4|||Bootstrap method|||||8.4|-5.3|
82634787|NCT03481634|164985131|OTHER|Descriptive; Week 28|Difference - %|4.1|||||TWO_SIDED|95.0|-2.1|10.3|||Bootstrap method|||||10.3|-2.1|
82634788|NCT03481634|164985131|OTHER|Descriptive; Week 52|Difference - %|5.8|||||TWO_SIDED|95.0|-1.2|12.4|||Bootstrap method|||||12.4|-1.2|
82634789|NCT03481634|164985131|OTHER|Descriptive; Week 52|Difference - %|6.7|||||TWO_SIDED|95.0|0.6|12.9|||Bootstrap method|||||12.9|0.6|
82634790|NCT03481634|164985131|OTHER|Descriptive: Week 76|Difference - %|2.8|||||TWO_SIDED|95.0|-3.9|9.4|||Bootstrap method|||||9.4|-3.9|
82634791|NCT03481634|164985131|OTHER|Descriptive: Week 76|Difference - %|0.7|||||TWO_SIDED|95.0|-5.7|7.0|||Bootstrap method|||||7.0|-5.7|
82634792|NCT03481634|164985131|OTHER|Descriptive: Week 100|Difference - %|1.7|||||TWO_SIDED|95.0|-5.0|8.1|||Bootstrap method|||||8.1|-5.0|
82634793|NCT03481634|164985131|OTHER|Descriptive: Week 100|Difference - %|2.2|||||TWO_SIDED|95.0|-4.0|8.4|||Bootstrap method|||||8.4|-4.0|
82634794|NCT03481634|164985133|OTHER|Descriptive; Week 28|Difference - %|-0.3|||||TWO_SIDED|95.0|-6.4|5.8|||Bootstrap method|||||5.8|-6.4|
82634795|NCT03481634|164985133|OTHER|Descriptive; Week 28|Difference - %|4.6|||||TWO_SIDED|95.0|-1.3|11.0|||Bootstrap method|||||11.0|-1.3|
82634796|NCT03481634|164985133|OTHER|Descriptive; Week 52|Difference - %|-4.2|||||TWO_SIDED|95.0|-10.2|2.2|||Bootstrap method|||||2.2|-10.2|
82634797|NCT03481634|164985133|OTHER|Descriptive; Week 52|Difference - %|3.9|||||TWO_SIDED|95.0|-2.2|10.5|||Bootstrap method|||||10.5|-2.2|
82634798|NCT03481634|164985133|OTHER|Descriptive; Week 72|Difference - %|-9.2|||||TWO_SIDED|95.0|-15.5|-2.8|||Bootstrap method|||||-2.8|-15.5|
82634799|NCT03481634|164985133|OTHER|Descriptive; Week 72|Difference - %|-2.3|||||TWO_SIDED|95.0|-8.4|4.4|||Bootstrap method|||||4.4|-8.4|
82634800|NCT03481634|164985133|OTHER|Descriptive; Week 100|Difference - %|-7.7|||||TWO_SIDED|95.0|-14.0|-1.6|||Bootstrap method|||||-1.6|-14.0|
82634801|NCT03481634|164985133|OTHER|Descriptive; Week 100|Difference - %|0.4|||||TWO_SIDED|95.0|-5.7|6.8|||Bootstrap method|||||6.8|-5.7|
82570091|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|6.387||0.5727|TWO_SIDED|80.0|-7.03|9.37||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||9.37|-7.03|0.5727
82380497|NCT01999920|164470741|SUPERIORITY||Standard error|21.38|STANDARD_ERROR_OF_MEAN|7.65||0.01|TWO_SIDED|95.0|5.64|37.11|||Mixed Models Analysis|||||37.11|5.64|0.01
82570092|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|6.578||0.4961|TWO_SIDED|80.0|-8.51|8.38||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.38|-8.51|0.4961
82570093|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|6.411||0.2616|TWO_SIDED|80.0|-12.33|4.14||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.14|-12.33|0.2616
82513886|NCT03062891|164720460|SUPERIORITY||Slope|-0.22||||0.531|TWO_SIDED|95.0|-0.92|0.48|||Generalized estimating equation|||This analysis looked at the effect of group on changes in psychotic experiences (hallucinations) across the intervention period.||0.48|-0.92|.531
82513887|NCT03062891|164720460|SUPERIORITY||Slope|-0.37||||0.13|TWO_SIDED|95.0|-0.84|0.11|||Generalized estimating equation|||This analysis looked at the effect of group on changes in psychotic experiences (cognitive disorganization) across the intervention period.||0.11|-0.84|.130
82513888|NCT03062891|164720461|SUPERIORITY||Slope|0.07||||0.916|TWO_SIDED|95.0|-1.17|1.3|||Generalized estimating equation|||This analysis looked at the effect of group on changes in positive mental health across the intervention period.||1.30|-1.17|.916
82513889|NCT03062891|164720462|SUPERIORITY||Slope|-2.03||||0.027|TWO_SIDED|95.0|-3.83|-0.23|||Generalized estimating equation|||This analysis looked at the effect of group on changes in perceived stress across the intervention period.||-0.23|-3.83|.027
82570094|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|6.441||0.9197|TWO_SIDED|80.0|0.79|17.34||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||17.34|0.79|0.9197
82570095|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.76|STANDARD_ERROR_OF_MEAN|6.398||0.086|TWO_SIDED|80.0|-16.98|-0.54||p-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.54|-16.98|0.0860
82570096|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|6.476||0.5132|TWO_SIDED|80.0|-8.1|8.53||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.53|-8.10|0.5132
82570097|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|6.676||0.656|TWO_SIDED|80.0|-5.89|11.26||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.26|-5.89|0.6560
82570098|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|6.17|STANDARD_ERROR_OF_MEAN|6.496||0.8285|TWO_SIDED|80.0|-2.17|14.52||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||14.52|-2.17|0.8285
82570099|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|15.98|STANDARD_ERROR_OF_MEAN|6.527||0.9925|TWO_SIDED|80.0|7.59|24.36||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||24.36|7.59|0.9925
82513890|NCT03062891|164720464|SUPERIORITY||Odds Ratio (OR)|1.36||||0.296|TWO_SIDED|95.0|0.77|2.4|||Regression, Logistic|||Assocation between baseline anxiety symptoms and exploding head syndrome||2.40|0.77|.296
82513891|NCT03062891|164720464|SUPERIORITY||Odds Ratio (OR)|0.69||||0.065|TWO_SIDED|95.0|0.47|1.02|||Regression, Logistic|||Assocation between baseline insomnia symptoms and exploding head syndrome||1.02|0.47|.065
82513892|NCT03062891|164720464|SUPERIORITY||Odds Ratio (OR)|0.67||||0.145|TWO_SIDED|95.0|0.39|1.15|||Regression, Logistic|||Assocation between baseline depression symptoms and exploding head syndrome||1.15|0.39|.145
82513893|NCT03062891|164720464|SUPERIORITY||Odds Ratio (OR)|1.26||||0.398|TWO_SIDED|95.0|0.73|2.19|||Regression, Logistic|||Assocation between baseline life stress and exploding head syndrome||2.19|0.73|.398
82570100|NCT01475461|164850569|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|6.487||0.601|TWO_SIDED|80.0|-6.67|10.0||p-value was 1-sided.|t-test, 1 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||10.00|-6.67|0.6010
82570101|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|0.449||0.0913|TWO_SIDED|80.0|0.18|1.34||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80 percent (%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.34|0.18|0.0913
82513894|NCT03062891|164720464|SUPERIORITY||Odds Ratio (OR)|1.72||||0.001|TWO_SIDED|95.0|1.24|2.38|||Regression, Logistic|||Assocation between sleep paralysis and exploding head syndrome||2.38|1.24|.001
82513895|NCT01071512|164720482|OTHER|||||||0.17|||||||Mixed Models Analysis|||Analysis used all available data from subjects, including those who dropped out early.||||0.17
82513896|NCT01071512|164720483|OTHER|||||||0.6|||||||Mixed Models Analysis|||Analysis used all available data||||0.6
82513897|NCT01071512|164720484|OTHER|||||||0.3|||||||Mixed Models Analysis|||Analysis used all available data||||0.3
82513898|NCT01071512|164720485|OTHER|||||||0.02|||||||Mixed Models Analysis|||Analysis used all available data||||0.02
82513899|NCT01071512|164720486|OTHER|||||||0.9|||||||Mixed Models Analysis|||Analysis used all available data||||0.9
82570102|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.461||0.5236|TWO_SIDED|80.0|-0.3|0.89||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.89|-0.30|0.5236
82570103|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.447||0.9244|TWO_SIDED|80.0|-0.53|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|-0.53|0.9244
82634802|NCT00792922|164985196|SUPERIORITY|Predicted prevalence was estimated in each community using the baseline observed prevalence, treatment arm \& parameters estimated from square root transformed model.For each arm estimated prevalences were averaged.Difference in adjusted mean prevalence for enhanced arm and standard arm was calculated.For confidence intervals for adjusted difference,steps 1 to 4 for 1000 bootstrap samples were repeated.Median of adjusted mean differences, corresponding 2.5 % \& 97.5 % percentiles were reported.|Mean Difference (Final Values)|1.4||||0.22|TWO_SIDED|95.0|-1.0|3.8|||Regression, Linear|||"This is analysis done in Tanzania:~Only the main effect of coverage was analyzed.We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of infection."||3.8|-1|0.22
82634803|NCT00792922|164985196|SUPERIORITY|For each community using the baseline observed prevalence, treatment arm and parameters estimated from square root transformed model we estimated predicted prevalence.For each arm we average estimated prevalences.The difference in the adjusted mean prevalence for enhanced arm and standard arm was then calculated.In order to derive the confidence intervals for the adjusted difference, we repeated Steps 1 to 4 for 1000 bootstrap samples.The median of the adjusted mean differences were reported.|Mean Difference (Final Values)|2.6||||0.73|TWO_SIDED|95.0|-0.3|5.3|||Ordinary least squares linear regression|||"This is the analysis done in Tanzania:~Only the main effect of coverage was analyzed.We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.~Here we are looking at the prevalence of trachoma"||5.3|-0.3|0.73
82634804|NCT00792922|164985196|SUPERIORITY||Median Difference (Final Values)|-4.6||||0.2|TWO_SIDED|95.0|-11.1|1.9|||Regression, Linear|||"This is the statistical analysis for Niger:~We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of infection."||1.9|-11.1|0.20
82634805|NCT00792922|164985196|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.6|TWO_SIDED|95.0|-7.7|12.5|||Regression, Linear|||"This is the statistical analysis for Niger:~We hypothesized that increasing the coverage of MDA to greater than 90 % as monitored in children would result in more rapid decline in infection and trachoma compared to usual coverage.Here we are looking at the prevalence of trachoma."||12.5|-7.7|0.60
82634806|NCT00352027|164985205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.997|||||||Cox Model|||The association of age with EFS was compared. P values from Score test were computed for the statistical significance.||||0.9970
82634807|NCT00352027|164985208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.997|||||||Cox Model|||||||0.9970
82634808|NCT00352027|164985240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.265||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.265
82634809|NCT00352027|164985240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.057
82634810|NCT00352027|164985240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.079
82634811|NCT00352027|164985240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.025
82634812|NCT00352027|164985240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.680
82634813|NCT00352027|164985241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
82634814|NCT00352027|164985241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
82634815|NCT00352027|164985241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
82634816|NCT00352027|164985241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.184
82634817|NCT00352027|164985241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.563
82634818|NCT00352027|164985242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.319||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.319
82634819|NCT00352027|164985242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.010
82634820|NCT00352027|164985242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.002
82634821|NCT00352027|164985242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.015
82634822|NCT00352027|164985242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.588||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.588
82634823|NCT00352027|164985243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.071
82634824|NCT00352027|164985243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
82634825|NCT00352027|164985243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
82634826|NCT00352027|164985243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||<0.001
82513900|NCT02188485|164720487|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.72||0.278|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|Thwarted belonging (INQ-TB) at 10 week follow-up||||.278
82513901|NCT02188485|164720487|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.38||0.591|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|Perceived burden (INQ-PB) at 10-week follow-up||||.591
82513902|NCT02188485|164720488|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.52||0.511|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|||||.511
82513903|NCT02188485|164720489|SUPERIORITY||Mean Difference (Final Values)|-2.47|STANDARD_ERROR_OF_MEAN|0.85||0.014|TWO_SIDED||||||Mixed Models Analysis||This mean difference is not identical to the mean difference presented in the summary table because this mean difference was adjusted for random effects in the model.|||||.014
82513904|NCT01720069|164720546|SUPERIORITY|||||||0.772|||||||ANCOVA|||||||0.772
82513905|NCT01720069|164720547|SUPERIORITY|||||||0.891|||||||ANCOVA|||||||0.891
82513906|NCT01720069|164720548|SUPERIORITY|||||||0.066|||||||ANCOVA|||||||0.066
82513907|NCT01720069|164720549|SUPERIORITY|||||||0.063|||||||ANCOVA|||||||0.063
82513908|NCT01720069|164720550|SUPERIORITY|||||||0.054|||||||ANCOVA|||||||0.054
82513909|NCT01720069|164720551|SUPERIORITY|||||||0.168|||||||Fisher Exact|||||||0.168
82513910|NCT01720069|164720551|SUPERIORITY|||||||0.363|||||||Fisher Exact|||||||0.363
82513911|NCT01720069|164720551|SUPERIORITY|||||||0.805|||||||Fisher Exact|||||||0.805
82513912|NCT00508742|164720553|SUPERIORITY_OR_OTHER||Rate Ratio|0.56|||||TWO_SIDED|95.0|0.47|0.65||||||||0.65|0.47|
82513913|NCT00508742|164720554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.5|0.9||||||Month 7: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.9|0.5|
82513914|NCT00508742|164720554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.4|0.7||||||Month 12: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.7|0.4|
82513915|NCT00508742|164720554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.3|0.5||||||Month 13: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.5|0.3|
82513916|NCT00508742|164720554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.4|0.7||||||Month 18: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.7|0.4|
82513917|NCT00508742|164720554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.4|0.8||||||Month 24: 13vPnC/7vPnC, odds ratio was calculated using a logistic regression model with treatment group as the independent variable.||0.8|0.4|
82513918|NCT02517905|164720614|SUPERIORITY||LSMD|-2.7||||0.8661|TWO_SIDED|95.0|-33.5|28.2|||ANOVA|||||28.2|-33.5|0.8661
82513919|NCT02517905|164720615|SUPERIORITY||LSMD|-4.0||||0.578|TWO_SIDED|95.0|-18.2|10.2|||ANOVA|||||10.2|-18.2|0.5780
82513920|NCT02517905|164720616|SUPERIORITY||LSMD|5.9||||0.801|TWO_SIDED|95.0|-40.2|52.1|||ANOVA|||||52.1|-40.2|0.8010
82513921|NCT00672477|164720665|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||< 0.0001
82513922|NCT00672477|164720666|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||< 0.0001
82570104|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.452||0.5066|TWO_SIDED|80.0|-0.28|0.88||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.88|-0.28|0.5066
82634827|NCT00352027|164985243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.707
82513923|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.5378||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and second visit is as follows.||||0.5378
82513924|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.919||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and third visit is as follows.||||0.919
82513925|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.4255||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7 was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the second and third visit is as follows.||||0.4255
82513926|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.1037||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and second visit is as follows.||||0.1037
82513927|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.0008||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the first and third visit is as follows.||||0.0008
82634828|NCT00352027|164985244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.042
82513928|NCT02451748|164720672|EQUIVALENCE|ANOVA||||||0.0001||||||Tukey adjustment for multiple comparisons|ANOVA|A priori threshold was \<0.05.||The mean mRNA expression for IL-7R was compared between all three visits simultaneously in RA Peripheral Blood Nonnuclear Cells. The comparison between the second and third visit is as follows.||||0.0001
82634829|NCT00352027|164985244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.025
82634830|NCT00352027|164985244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.013
82634831|NCT00352027|164985244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.027
82513929|NCT01257204|164720680|SUPERIORITY_OR_OTHER||Difference|20.8|||||TWO_SIDED|80.0|4.9|36.8|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||36.8|4.9|
82513930|NCT01257204|164720680|SUPERIORITY_OR_OTHER||Difference|20.1|||||TWO_SIDED|80.0|3.9|36.3|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||36.3|3.9|
82513931|NCT01257204|164720689|SUPERIORITY_OR_OTHER||Difference|10.0|||||TWO_SIDED|80.0|-6.8|26.7|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||26.7|-6.8|
82570105|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.449||0.8947|TWO_SIDED|80.0|-0.64|0.52||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.64|0.8947
82570106|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91|STANDARD_ERROR_OF_MEAN|0.478||0.0577|TWO_SIDED|80.0|0.3|1.52||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.52|0.30|0.0577
82570107|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.49||0.3012|TWO_SIDED|80.0|-0.12|1.14||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.14|-0.12|0.3012
82570108|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.476||0.3165|TWO_SIDED|80.0|-0.13|1.09||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.09|-0.13|0.3165
82570109|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.481||0.5191|TWO_SIDED|80.0|-0.31|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.31|0.5191
82570110|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.479||0.5107|TWO_SIDED|80.0|-0.3|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.30|0.5107
82570111|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.488||0.1054|TWO_SIDED|80.0|0.17|1.42||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.42|0.17|0.1054
82570112|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.502||0.5341|TWO_SIDED|80.0|-0.33|0.96||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.96|-0.33|0.5341
82570113|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.487||0.2782|TWO_SIDED|80.0|-0.1|1.15||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.15|-0.10|0.2782
82570114|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.492||0.5331|TWO_SIDED|80.0|-0.32|0.94||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.94|-0.32|0.5331
82570115|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.489||0.907|TWO_SIDED|80.0|-0.57|0.68||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.68|-0.57|0.9070
82570116|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.512||0.1757|TWO_SIDED|80.0|0.04|1.35||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.35|0.04|0.1757
82513932|NCT01257204|164720689|SUPERIORITY_OR_OTHER||Difference|7.4|||||TWO_SIDED|80.0|-9.4|24.2|||||The difference in the percentage of participants with antiviral response between daclatasvir and placebo was presented with a difference estimate (daclatasvir - placebo) and 80% confidence Interval.|||24.2|-9.4|
82570117|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.527||0.4083|TWO_SIDED|80.0|-0.24|1.11||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.11|-0.24|0.4083
82634832|NCT00352027|164985244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.243||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.243
82513933|NCT01863446|164720719|SUPERIORITY|Unpaired t-test comparing Lighting 1 and Lighting2||||||0.334|||||||t-test, 2 sided|||||||0.334
82513934|NCT01863446|164720719|SUPERIORITY|Unpaired t-test comparing Lighting3 vs Lighting 4||||||0.423|||||||t-test, 2 sided|||||||0.423
82513935|NCT01863446|164720720|SUPERIORITY|Unpaired t-test of Lighting1 vs Lighting2||||||0.78|||||||t-test, 2 sided|||||||0.780
82513936|NCT01863446|164720720|SUPERIORITY|Unpaired t-test of Lighting3 vs Lighting4||||||0.791|||||||t-test, 2 sided|||||||0.791
82513937|NCT01863446|164720721|SUPERIORITY|Unpaired t-test||||||0.883|||||||t-test, 2 sided|||||||0.883
82513938|NCT01863446|164720721|SUPERIORITY|Unpaired t-test||||||0.271|||||||t-test, 2 sided|||||||0.271
82570118|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.511||0.315|TWO_SIDED|80.0|-0.14|1.17||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.17|-0.14|0.3150
82513939|NCT03779997|164720722|SUPERIORITY||Risk Ratio (RR)|0.78|STANDARD_DEVIATION|0.1||0.07|TWO_SIDED|95.0|0.6|1.02||0.05 a priori threshold for statistical significance.|Log-linear GEE regression|||Null hypothesis: no difference in the percentage of urine drug tests (UDT) negative for opioids between the two treatment arms.Treatment-as-usual (TAU) is the reference group.||1.02|0.60|0.07
82513940|NCT03779997|164720723|SUPERIORITY||Risk Ratio (RR)|0.84|STANDARD_DEVIATION|0.11||0.2|TWO_SIDED|95.0|0.65|1.1||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs|||Null hypothesis: no difference between treatment arms in the percentage of patients engaged in treatment at week 12. TAU is the reference group.||1.10|0.65|0.20
82513941|NCT03779997|164720724|SUPERIORITY||Risk Ratio (RR)|0.73|STANDARD_DEVIATION|0.17||0.18|TWO_SIDED|95.0|0.45|1.16||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs|||Null hypothesis: No difference between arms in the percentage of participants engaged in treatment at week 24 post-randomization. TAU is the reference group.||1.16|0.45|0.18
82513942|NCT03779997|164720725|SUPERIORITY||Median Difference (Final Values)|0.9|STANDARD_DEVIATION|0.45||0.31|TWO_SIDED|95.0|-0.9|2.7||0.05 a priori threshold for statistical significance.|t-test, 2 sided||TAU is the reference group.|Null hypothesis: No difference between arms on the number of consecutive weeks with UDT negative for opioids.||2.7|-0.9|0.31
82513943|NCT03779997|164720726|SUPERIORITY||Risk Ratio (RR)|0.71|STANDARD_DEVIATION|0.41||0.57|TWO_SIDED|95.0|0.23|2.26||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in the number of participants who self-reported illicit opioid use at week 12.||2.26|0.23|0.57
82513944|NCT03779997|164720727|SUPERIORITY||Risk Ratio (RR)|1.01|STANDARD_DEVIATION|0.066||0.88|TWO_SIDED|95.0|0.89|1.15||0.05 a priori threshold for statistical significance.|GEE Poisson regression||TAU is the reference group.|Null hypothesis: No difference between arms in the mean number of days adherent to buprenorphine by self-report.||1.15|0.89|0.88
82513945|NCT03779997|164720729|SUPERIORITY||Risk Ratio (RR)|1.17|STANDARD_DEVIATION|0.6||0.77|TWO_SIDED|95.0|0.42|3.24||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in number of participants who had one or more urine drug tests negative for buprenorphine.||3.24|0.42|0.77
82634833|NCT00352027|164985245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.546||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.546
82513946|NCT03779997|164720730|SUPERIORITY||Risk Ratio (RR)|0.67|STANDARD_DEVIATION|0.26||0.3|TWO_SIDED|95.0|0.32|1.43||0.05 a priori threshold for statistical significance.|Poisson regression with robust SEs||TAU is the reference group.|Null hypothesis: No difference between arms in number of participants who tested positive for stimulants at week 12.||1.43|0.32|0.30
82513947|NCT03779997|164720731|SUPERIORITY||Median Difference (Final Values)|0.02|STANDARD_DEVIATION|0.07||0.91|TWO_SIDED|95.0|-0.29|0.32||0.05 a priori threshold for statistical significance|t-test, 2 sided||TAU is the reference group|Null hypothesis: No difference between arms in mean treatment satisfaction scores||0.32|-0.29|0.91
82634834|NCT00352027|164985245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.242
82634835|NCT00352027|164985245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.372
82634836|NCT00352027|164985245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.503||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.503
82634837|NCT00352027|164985245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.372
82634838|NCT00352027|164985246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.558
82634839|NCT00352027|164985246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.039
82634840|NCT00352027|164985246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.162
82634841|NCT00352027|164985246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.162
82634842|NCT00352027|164985247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.381
82634843|NCT00352027|164985247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.006
82634844|NCT00352027|164985247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.277
82634845|NCT00352027|164985247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.134||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.134
82634846|NCT00352027|164985248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
82634847|NCT00352027|164985248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
82634848|NCT00352027|164985248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.629
82634849|NCT00352027|164985248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.858||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.858
82634850|NCT00352027|164985249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.744||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.744
82634851|NCT00352027|164985249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.075||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.075
82634852|NCT00352027|164985249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.512
82634853|NCT00352027|164985249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.088
82634854|NCT00352027|164985250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
82634855|NCT00352027|164985250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.041
82513948|NCT00491244|164720734|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8|||<|0.001|TWO_SIDED|95.0|1.46|2.21|||Chi-squared|||||2.21|1.46|< 0.001
82513949|NCT00491244|164720735|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.61||||0.35|TWO_SIDED|95.0|0.65|4.01|||Chi-squared|||||4.01|0.65|0.35
82513950|NCT03095417|164720736|SUPERIORITY|||||||0.747|||||||Mixed Models Analysis|||||||0.747
82513951|NCT03095417|164720737|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
82513952|NCT03095417|164720738|SUPERIORITY|||||||0.264|||||||Mixed Models Analysis|||||||0.264
82513953|NCT03095417|164720739|SUPERIORITY|||||||0.511|||||||Mixed Models Analysis|||||||0.511
82513954|NCT03095417|164720740|SUPERIORITY|||||||0.677|||||||Mixed Models Analysis|||||||0.677
82634856|NCT00352027|164985250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
82634857|NCT00352027|164985250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.078
82634858|NCT00352027|164985251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
82634859|NCT00352027|164985251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
82634860|NCT00352027|164985251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
82634861|NCT00352027|164985251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.739
82513955|NCT03095417|164720741|SUPERIORITY|||||||0.815|||||||Mixed Models Analysis|||||||0.815
82513956|NCT03095417|164720742|SUPERIORITY|||||||0.719|||||||Mixed Models Analysis|||||||0.719
82513957|NCT03095417|164720743|SUPERIORITY|||||||0.346|||||||Mixed Models Analysis|||||||0.346
82513958|NCT03095417|164720744|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.910
82513959|NCT03095417|164720745|SUPERIORITY|||||||0.794|||||||Mixed Models Analysis|||||||0.794
82513960|NCT03095417|164720746|SUPERIORITY|||||||0.626|||||||Mixed Models Analysis|||||||0.626
82513961|NCT03095417|164720747|SUPERIORITY|||||||0.774|||||||Mixed Models Analysis|||||||0.774
82513962|NCT02571452|164720748|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|1.53||0.021|TWO_SIDED|95.0|-6.65|-0.55||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||-0.55|-6.65|.021
82513963|NCT02571452|164720749|SUPERIORITY||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|0.57||0.568|TWO_SIDED|95.0|-1.26|2.3||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||2.30|-1.26|.568
82513964|NCT02571452|164720750|SUPERIORITY||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-5.87|-2.33||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||-2.33|-5.87|<.001
82513965|NCT02571452|164720751|SUPERIORITY||Mean Difference (Net)|-0.66|STANDARD_ERROR_OF_MEAN|0.49||0.173|TWO_SIDED|95.0|-1.61|0.29||The threshold for statistical significance was p=.05.|Mixed Models Analysis|||||0.29|-1.61|.173
82570119|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.516||0.6631|TWO_SIDED|80.0|-0.44|0.89||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.89|-0.44|0.6631
82380498|NCT02058069|164470744|NON_INFERIORITY_OR_EQUIVALENCE|The Alternative Hypothesis: The Investigational Device (RIO) true event rate is non-inferior to 0.066 (event rate for manual TKA) with a non-inferiority margin of 0.06. The 0.066 rate is based on literature and 0.06 was determined in consultation with FDA.|Rare Adverse Event Rate|0.0|||||ONE_SIDED|95.0||0.0331|||||If the upper bound is \<0.126 then the primary composite safety endpoint is met. After the surgeon completed the procedure, at the conclusion of the participant's hospital stay, and 3 months post-operative were used in this single analysis.|||0.0331||
82513966|NCT01591746|164720752|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82513967|NCT01591746|164720753|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.56
82513968|NCT01591746|164720754|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Right breast initial percent volume expansion||||0.45
82513969|NCT01591746|164720754|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Left breast initial percent volume expansion||||0.98
82513970|NCT01591746|164720755|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82513971|NCT01591746|164720756|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82513972|NCT01591746|164720757|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82513973|NCT02248922|164720787|OTHER|||||||0.4099|||||||ANOVA|||||||0.4099
82513974|NCT02248922|164720788|OTHER|||||||0.6961|||||||ANOVA|||||||0.6961
82513975|NCT02248922|164720789|OTHER|||||||0.354|||||||ANOVA|||||||0.3540
82513976|NCT02248922|164720790|OTHER|||||||0.591|||||||ANOVA|||||||0.5910
82513977|NCT02248922|164720791|OTHER|||||||0.4249|||||||ANOVA|||||||0.4249
82513978|NCT02248922|164720792|OTHER|||||||0.3963|||||||ANOVA|||||||0.3963
82513979|NCT02248922|164720793|OTHER|||||||0.3502|||||||ANOVA|||||||0.3502
82513980|NCT00752908|164720808|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82513981|NCT00887341|164720813|SUPERIORITY_OR_OTHER|||||||0.238|||||||Chi-squared|||||||0.238
82513982|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.121|||||||Chi-squared|||Week 4||||0.121
82513983|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.809|||||||Chi-squared|||Week 8||||0.809
82513984|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.367|||||||Chi-squared|||Week 12||||0.367
82513985|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.339|||||||Chi-squared|||Week 16||||0.339
82513986|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.017|||||||Chi-squared|||Week 20||||0.017
82513987|NCT00887341|164720820|SUPERIORITY_OR_OTHER|||||||0.451|||||||Chi-squared|||Final visit||||0.451
82513988|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.377|||||||Chi-squared|||Week 4||||0.377
82513989|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.387|||||||Chi-squared|||Week 8||||0.387
82513990|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.304|||||||Chi-squared|||Week 12||||0.304
82513991|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.509|||||||Chi-squared|||Week 16||||0.509
82513992|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||Week 20||||0.110
82513993|NCT00887341|164720821|SUPERIORITY_OR_OTHER|||||||0.504|||||||Chi-squared|||Final visit||||0.504
82513994|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.327|||||||Chi-squared|||Week 4||||0.327
82570120|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.512||0.8694|TWO_SIDED|80.0|-0.74|0.57||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.57|-0.74|0.8694
82570121|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.545||0.2031|TWO_SIDED|80.0|0.0|1.4||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.40|0.00|0.2031
82513995|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.786|||||||Chi-squared|||Week 8||||0.786
82513996|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.482|||||||Chi-squared|||Week 12||||0.482
82513997|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.68|||||||Chi-squared|||Week 16||||0.680
82513998|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||Week 20||||0.690
82513999|NCT00887341|164720822|SUPERIORITY_OR_OTHER|||||||0.516|||||||Chi-squared|||Final Visit||||0.516
82514000|NCT00887341|164720823|SUPERIORITY_OR_OTHER|||||||0.97|||||||Chi-squared|||Week 8||||0.970
82514001|NCT00887341|164720823|SUPERIORITY_OR_OTHER|||||||0.587|||||||Chi-squared|||Week 12||||0.587
82514002|NCT00887341|164720823|SUPERIORITY_OR_OTHER|||||||0.184|||||||Chi-squared|||Week 16||||0.184
82514003|NCT00887341|164720823|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||Week 20||||0.600
82514004|NCT00887341|164720823|SUPERIORITY_OR_OTHER|||||||0.937|||||||Chi-squared|||Final Visit||||0.937
82514005|NCT01591681|164720832|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||Sample size was computed to be 45 participants using the system for 42 nights (21 nights with system active and 21 control nights) for a total of 1,890 nights in order to have 90% power with a type 1 error rate of 5% to reject the null hypothesis of no difference in nocturnal hypoglycemia assuming a true population rate of 30% of control nights and 15% of intervention nights with hypoglycemia after adjusting for the correlation from repeated nights and misclassification due to sensor inaccuracy.||||<0.001
82514006|NCT01591681|164720833|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||<0.001
82514007|NCT01591681|164720834|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
82514008|NCT01591681|164720835|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
82514009|NCT01591681|164720836|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
82514010|NCT01591681|164720837|SUPERIORITY_OR_OTHER|||||||0.71||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.71
82514011|NCT01591681|164720838|SUPERIORITY_OR_OTHER|||||||0.62||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.62
82514012|NCT01591681|164720839|SUPERIORITY_OR_OTHER|||||||0.1||||||The a priori threshold for statistical significance is 0.05.|repeated measures logistic regression|Was used to test differences using mixed effects and a within subject autocorrelation structure to account for multiple nights from the same subject.||||||0.10
82514013|NCT01591681|164720840|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||<0.001
82514014|NCT01591681|164720841|SUPERIORITY_OR_OTHER|||||||0.98||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||0.98
82514015|NCT01591681|164720842|SUPERIORITY_OR_OTHER|||||||0.93||||||The a priori threshold for statistical significance is 0.05.|Repeated measures regression model|Repeated measures regression model was used accounting for correlated data from the same participant and for the overnight measures.||||||0.93
82514016|NCT01649856|164720843|SUPERIORITY_OR_OTHER||Difference in Response Rates|8.2||||0.076||95.0|-1.1|17.5|||Chi-squared|||||17.5|-1.1|0.076
82514017|NCT02138214|164720857|OTHER|||||||0.567||||||p-value threshold for statistical significance is 0.05|Fisher Exact|||||||0.567
82514018|NCT02138214|164720858|OTHER|||||||0.11|||||||t-test, 2 sided|||||||0.110
82514019|NCT02138214|164720860|OTHER|||||||0.758|||||||Fisher Exact|||||||0.758
82514020|NCT02138214|164720862|OTHER|||||||0.236|||||||Fisher Exact|||||||0.236
82514021|NCT02138214|164720863|OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
82514022|NCT02138214|164720864|OTHER|||||||0.4|||||||t-test, 2 sided|||||||0.400
82514023|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||||95.0|1.5|1.79|||||Hazard ratio for hospitalization or emergency department visit for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.79|1.50|
82514024|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||||95.0|1.17|1.41|||||Hazard ratio for hospitalization or emergency department visit for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.41|1.17|
82514025|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.78||||||95.0|1.59|2.0|||||Hazard ratio for emergency department visit for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||2.00|1.59|
82514026|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||||95.0|1.17|1.51|||||Hazard ratio for emergency department visit for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.51|1.17|
82514027|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||||95.0|1.41|1.94|||||Hazard ratio for outpatient visit with oral steroid fill for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.94|1.41|
82514028|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||||95.0|1.26|1.76|||||Hazard ratio for outpatient visit with oral steroid fill for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.76|1.26|
82514029|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||||95.0|1.23|1.57|||||Hazard ratio for outpatient visit with antibiotic fill for IP compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.57|1.23|
82514030|NCT01331694|164720875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||||95.0|1.17|1.51|||||Hazard ratio for outpatient visit with antibiotic fill for TIO compared to FSC; HR estimate adjusted for age, sex, geographic region, pre-initial treatment comorbidities, and COPD-related utilization|||1.51|1.17|
82514031|NCT01129141|164720877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.198|STANDARD_ERROR_OF_MEAN|2.88|<|0.0001|TWO_SIDED|95.0|-22.86|-11.53|||Mixed Models Analysis|||||-11.53|-22.86|<.0001
82514032|NCT02076412|164720901|SUPERIORITY||Risk Difference (RD)|13.8||||0.1519|TWO_SIDED|95.0|0.5|27.1|||Fisher Exact||Confidence interval for treatment difference (risk difference) was based on the normal approximation|||27.1|0.5|0.1519
82514033|NCT02076412|164720906|SUPERIORITY||Risk Difference (RD)|-0.01||||0.4927|TWO_SIDED|95.0|-0.05|0.02||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.02|-0.05|0.4927
82514034|NCT02076412|164720907|SUPERIORITY||Risk Difference (RD)|-0.12||||0.2499|TWO_SIDED|95.0|-0.32|0.09||P-value from a two-sided two-sample t-test, testing for a difference in means between fostamatinib and placebo.|t-test, 2 sided|||||0.09|-0.32|0.2499
82514035|NCT00958880|164720908|SUPERIORITY_OR_OTHER||Slope|10.46||||0.015||95.0|||||Regression, Linear|||||||.015
82514036|NCT00958880|164720909|SUPERIORITY_OR_OTHER||Slope|0.03||||0.575||95.0|||||Regression, Linear|||||||.575
82514037|NCT01971346|164720910|OTHER|||||||0.38||||||Type III TNF-alpha p-value=0.36. Type III IFN-alpha p-value=0.36. Interaction was not included in this model.|Regression, Linear|||A cumulative score reflecting change in PASI during the course of treatment was calculated and treated as a continuous response variable. Linear modeling was done to determine if change in PASI score was associated with the baseline TNF-alpha signal, baseline IFN-alpha signal and/or an interaction between these two signals.||||0.38
82514038|NCT01971346|164720911|OTHER|||||||0.03||||||Test of Hypotheses for Between subject effect of PASI profile p-value=0.03 Test of Hypotheses for Within subject effect of Time p-value=0.38 Test of Hypotheses for Within subject effect of Time\*PASI profile p-value=0.31|ANOVA|||The strength of the TNF-alpha cytokine signals will be treated as a response variable in a univariate repeated measure analysis of variance, with PASI response profile and time as covariates. Testing if TNF-alpha signals are significantly altered during the course of etanercept therapy and if such changes differ between subjects with different PASI response profiles.||||0.03
82514039|NCT01971346|164720912|OTHER|||||||0.34||||||Test of Hypotheses for Between subject effect of PASI profile p-value=0.34 Test of Hypotheses for Within subject effect of Time p-value=0.73 Test of Hypotheses for Within subject effect of Time\*PASI profile p-value=0.57|ANOVA|||The strength of the IFN-alpha cytokine signals will be treated as a response variable in a univariate repeated measure analysis of variance, with PASI response profile and time as covariates. Testing if IFN-alpha signals are significantly altered during the course of etanercept therapy and if such changes differ between subjects with different PASI response profiles.||||0.34
82514040|NCT02755831|164720921|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Fisher's Exact Test||||<0.05
82514041|NCT02755831|164720922|OTHER||||||<|0.05|||||||Friedman test|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences at individual time points.||||||<.05
82514042|NCT02755831|164720923|OTHER||||||<|0.05|||||||Friedman|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences at individual time points.||||||<0.05
82514043|NCT02755831|164720924|OTHER||||||<|0.05|||||||Friedman Test|Friedman's test was used to analyze differences with a post hoc Wilcoxon Ranked Sign test to compare differences in treatment group only.||||||<0.05
82514044|NCT02755831|164720925|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|T-test used to compare mean difference in hospital costs at time of delivery.||||||<0.05
82514045|NCT01516879|164720932|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.97|STANDARD_ERROR_OF_MEAN|2.1|<|0.001|TWO_SIDED|95.0|-61.08|-52.85|||Repeated measures linear effects model|The model included treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 52 in LDL-C between evolocumab 420 mg and placebo, and the alternative hypothesis was that a mean difference did exist.||-52.85|-61.08|<0.001
82380499|NCT02058069|164470746|OTHER|The analysis was performed using standard OC curves generated using Sample Size Analyzer® version 2.0 by Taylor Enterprise Inc. (Dr. Wayne A. Taylor).|Alignment Difference <4.38 Degrees|1.0|||||ONE_SIDED|95.0|0.966||||||Estimation Parameter is: proportion of participants with limb alignment difference \<4.38 degrees If the lower bound is \>0.95 then the assessment passes.||||0.966|
82380500|NCT02058069|164470747|NON_INFERIORITY|The upper bound for the one-sided 95% confidence interval will be compared with -9. If the upper bound is less than -9, then non-inferiority holds.|Mean Difference (Final Values)|-33.1|||<|0.001|ONE_SIDED|95.0||-29.6|||t-test, 2 sided||If the upper bound is less than -9, then non-inferiority holds.|Change from pre-op to 3 months||-29.6||<0.001
82514046|NCT01516879|164720933|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.8|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-62.3|-53.3|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-53.3|-62.3|<0.001
82514047|NCT01516879|164720934|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|75.8|||<|0.001|TWO_SIDED|95.0|70.8|79.7|||Cochran-Mantel-Haenszel|CMH test stratified by the stratification factor. For testing, non-achievement was imputed for participants with a missing value at Week 52.|Treatment difference using placebo as the reference.|||79.7|70.8|<0.001
82570122|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.563||0.7137|TWO_SIDED|80.0|-0.52|0.93||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.93|-0.52|0.7137
82380501|NCT03290378|164470792|SUPERIORITY||||||<|0.005|TWO_SIDED|95.0|||||ANCOVA|||||||<.005
82514048|NCT01516879|164720935|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.51|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-60.57|-54.45|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-54.45|-60.57|<0.001
82514049|NCT01516879|164720936|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.15|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-37.19|-33.11|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-33.11|-37.19|<0.001
82514050|NCT01516879|164720937|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.45|STANDARD_ERROR_OF_MEAN|1.41|<|0.001|TWO_SIDED|95.0|-36.21|-30.68|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-30.68|-36.21|<0.001
82514051|NCT01516879|164720938|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.27|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-54.25|-46.28|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-46.28|-54.25|<0.001
82634862|NCT00352027|164985252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.933
82514052|NCT01516879|164720939|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.21|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-47.56|-40.85|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-40.85|-47.56|<0.001
82514053|NCT01516879|164720940|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.14|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|-40.41|-33.87|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-33.87|-40.41|<0.001
82514054|NCT01516879|164720941|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.21|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-49.79|-42.63|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-42.63|-49.79|<0.001
82570123|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.545||0.681|TWO_SIDED|80.0|-0.48|0.92||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.92|-0.48|0.6810
82514055|NCT01516879|164720942|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.35|STANDARD_ERROR_OF_MEAN|1.94|<|0.001|TWO_SIDED|95.0|-26.15|-18.55|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-18.55|-26.15|<0.001
82514056|NCT01516879|164720943|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-11.54|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-17.21|-5.86|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-5.86|-17.21|<0.001
82514057|NCT01516879|164720944|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.42|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|3.28|7.56|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||7.56|3.28|<0.001
82514058|NCT01516879|164720945|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.15|STANDARD_ERROR_OF_MEAN|5.64|<|0.001|TWO_SIDED|95.0|-40.23|-18.08|||Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference using placebo as the reference.|||-18.08|-40.23|<0.001
82514059|NCT01516879|164720946|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.14|STANDARD_ERROR_OF_MEAN|1.84||0.94|TWO_SIDED|95.0|-3.76|3.48|||ANCOVA|The ANCOVA model includes treatment group and stratification factor as covariates.|Treatment difference using placebo as the reference.|||3.48|-3.76|0.94
82514060|NCT00594256|164720967|SUPERIORITY_OR_OTHER||||||=|0.002||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||=0.002
82514061|NCT00594256|164720968|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.02
82570124|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.55||0.6921|TWO_SIDED|80.0|-0.92|0.49||P-value was 2-sided.|t-test, 2 sided|||Week 14: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.49|-0.92|0.6921
82634863|NCT00352027|164985252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.933
82514062|NCT00594256|164720969|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.04
82514063|NCT00594256|164720970|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||Open label baseline final paired t test||||0.8
82514064|NCT00594256|164720971|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 1 sided|||Open label baseline final paired t test||||<0.01
82514065|NCT04160260|164720978|EQUIVALENCE|Omadacycline 300 mg PO provided equivalent total exposure as measured by AUC relative to omadacycline 100 mg IV.|Geometric Mean Ratio|95.17|||||TWO_SIDED|90.0|84.2|107.5|||||A t-test on the natural log-transformed PK parameter AUC(0-48) was performed to obtain the Geometric Mean Ratio and its confidence interval.|Comparison was performed with the 100 mg intravenous (IV) omadacycline treatment group (data were obtained from 6 completed studies-NCT numbers not available). Using the Day 1 plasma concentration profile of the 100 mg IV QD dosing from these studies, a BID dosing on Day 1 and a QD dosing on Day 2 was simulated using the superposition principle. Log Geometric Mean (GM) AUC(0-48) of omadacycline for the 100 mg IV omadacycline group was as follows:Participants analyzed=63; GM (SD)=9.98 (0.2091).||107.5|84.2|
82514066|NCT04160260|164720979|EQUIVALENCE|Omadacycline 300 mg PO provided equivalent total exposure as measured by AUC relative to omadacycline 100 mg IV.|Geometric Mean Ratio|100.8|||||TWO_SIDED|90.0|88.0|115.5|||||A t-test on the natural log-transformed PK parameter AUC(0-24) was performed to obtain the Geometric Mean Ratio and its confidence interval.|Comparison was performed with the 100 mg IV omadacycline treatment group (data were obtained from 6 completed studies-NCT numbers not available). Using the Day 1 plasma concentration profile of the 100 mg IV QD dosing from these studies, a BID dosing on Day 1 and a QD dosing on Day 2 was simulated using the superposition principle. Log GM AUC(0-24) of omadacycline for the 100 mg IV omadacycline group was as follows:Participants analyzed=63; GM (SD)=9.26 (0.1985).||115.5|88.0|
82514067|NCT01130740|164720989|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED||||||Mixed Models Analysis|||This is a comparison of 6-month outcomes between the two study groups. (Primary comparison is for 12 months.)||||0.158
82514068|NCT01130740|164720989|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Mixed Models Analysis|||This is the 12-month comparison between the 2 study groups, which is the primary study analysis.||||0.008
82380502|NCT01366417|164470793|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|0.133|<|0.05|TWO_SIDED|95.0|1.95|2.48|||ANOVA|||Hypothesis: ChloraPrep will meet or exceed the 1.0 log reduction in colony forming units/cm\^2 at 30 seconds after application.||2.48|1.95|< 0.05
82380503|NCT01366417|164470793|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.25|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|1.99|2.51|||ANOVA|||hypothesis: 70% Isopropyl Alcohol will meet or exceed 1.0 log 10 colony forming units / cm\^2 at 30 seconds after treatment||2.51|1.99|<0.05
82380504|NCT01366417|164470794|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.65|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|2.39|2.91|||ANOVA|||Hypothesis: ChloraPrep One Step will meet or exceed 2.0 log 10 reduction at 10 minutes after treatment.||2.91|2.39|<0.05
82514069|NCT01130740|164720990|SUPERIORITY_OR_OTHER|||||||0.274|TWO_SIDED||||||Mixed Models Analysis|||This is the between-group 12-month comparison.||||0.274
82514070|NCT01130740|164720991|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||Mixed Models Analysis|||||||0.177
82634864|NCT00352027|164985252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.051
82380505|NCT01366417|164470794|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.6|STANDARD_DEVIATION|0.133|<|0.05|TWO_SIDED|95.0|2.33|2.86|||ANOVA|||Hypothesis: 70% Isopropyl Alcohol will meet or exceed 2.0 log 10 reduction at 10 minutes after treatment||2.86|2.33|<0.05
82380506|NCT01037218|164470806|SUPERIORITY_OR_OTHER||Difference in LS Means|3.38|||<|0.0001|TWO_SIDED|95.0|1.7|5.07|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||5.07|1.70|<0.0001
82380507|NCT01037218|164470806|SUPERIORITY_OR_OTHER||Difference in LS Means|5.74|||<|0.0001|TWO_SIDED|95.0|4.05|7.43|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||7.43|4.05|<0.0001
82514071|NCT01891734|164721008|SUPERIORITY_OR_OTHER||Cohen's d|0.3|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82634865|NCT00352027|164985252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0779||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.0779
82380508|NCT01037218|164470806|SUPERIORITY_OR_OTHER||Difference in LS Means|7.53|||<|0.0001|TWO_SIDED|95.0|5.86|9.2|||ANCOVA|Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||9.20|5.86|<0.0001
82514072|NCT01891734|164721009|SUPERIORITY_OR_OTHER||Cohen's d|0.3|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82514073|NCT00459134|164721041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|1.19||0.576|TWO_SIDED|95.0|-1.67|3.0||This p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups.||The null hypothesis is that sexual function will be the same in both groups at 12 weeks. A Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups was used to test this hypothesis.||3.00|-1.67|0.576
82514074|NCT00459134|164721042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.49|STANDARD_ERROR_OF_MEAN|1.73||0.01|TWO_SIDED|95.0|1.09|7.89||This p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Mixed effect repeated measures model constrained such that the baseline means were equal in the two groups.||The null hypothesis was that quality of life would be the same in both groups at 12 weeks. A mixed effect repeated measures model constrained such that the baseline means were equal in the two groups was used to test this hypothesis.||7.89|1.09|0.010
82514075|NCT00829621|164721043|SUPERIORITY_OR_OTHER||||||=|0.36|||||||t-test, 1 sided|||||||=0.36
82514076|NCT00320281|164721065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||ANCOVA|||||||0.432
82514077|NCT01856140|164721077|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.52
82514078|NCT01856140|164721077|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.47
82514079|NCT01856140|164721077|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.52
82514080|NCT01856140|164721078|OTHER|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.227
82514081|NCT01856140|164721078|OTHER|||||||0.573|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.573
82514082|NCT01856140|164721078|OTHER|||||||0.588|||||||Wilcoxon (Mann-Whitney)|||||||0.588
82514083|NCT01856140|164721079|OTHER|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.262
82514084|NCT01856140|164721079|OTHER|||||||0.631|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks.||||0.631
82514085|NCT01856140|164721079|OTHER|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.796
82514086|NCT01856140|164721080|OTHER|||||||0.337|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at baseline||||0.337
82380509|NCT01037218|164470807|SUPERIORITY_OR_OTHER||Difference in LS Means|20.19|||<|0.0001|TWO_SIDED|95.0|13.44|26.93|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||26.93|13.44|<0.0001
82514087|NCT01856140|164721080|OTHER|||||||0.078|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 6 weeks||||0.078
82514088|NCT01856140|164721080|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two groups at post-injection 12 weeks.||||0.439
82514089|NCT01627249|164721141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||<|0.001|TWO_SIDED|95.0|1.4|5.7|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Bevacizumab||5.7|1.4|<0.001
82514090|NCT01627249|164721141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1||||0.034|TWO_SIDED|95.0|0.1|4.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Ranibizumab||4.2|0.1|0.034
82514091|NCT01627249|164721141|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.12|TWO_SIDED|95.0|-0.4|3.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs. Bevacizumab||3.2|-0.4|0.12
82634866|NCT00352027|164985253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.415||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.415
82634867|NCT00352027|164985253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.005
82380510|NCT01037218|164470807|SUPERIORITY_OR_OTHER||Difference in LS Means|25.06|||<|0.0001|TWO_SIDED|95.0|18.32|31.81|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||31.81|18.32|<0.0001
82514092|NCT01627249|164721142|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-69.9|||<|0.001|TWO_SIDED|95.0|-91.1|-48.6|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Bevacizumab||-48.6|-91.1|<0.001
82514093|NCT01627249|164721142|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.6||||0.036|TWO_SIDED|95.0|-36.0|-1.2|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Ranibizumab||-1.2|-36|0.036
82514094|NCT01627249|164721142|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-51.2|||<|0.001|TWO_SIDED|95.0|-71.2|-31.3|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||-31.3|-71.2|<0.001
82514095|NCT01627249|164721143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5||||0.001|TWO_SIDED|95.0|2.9|10.1|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Bevacizumab||10.1|2.9|0.001
82514096|NCT01627249|164721143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7||||0.0031|TWO_SIDED|95.0|1.4|8.0|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs. Ranibizumab||8.0|1.4|0.0031
82570125|NCT01475461|164850576|SUPERIORITY_OR_OTHER||LS Mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.545||0.3702|TWO_SIDED|80.0|-1.19|0.21||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.21|-1.19|0.3702
82634868|NCT00352027|164985253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.245
82634869|NCT00352027|164985253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.005
82634870|NCT00352027|164985254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.814||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.814
82514097|NCT01627249|164721143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.21|TWO_SIDED|95.0|-1.1|4.8|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||4.8|-1.1|0.21
82514098|NCT01627249|164721144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.69|TWO_SIDED|95.0|-1.3|2.7|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Bevacizumab||2.7|-1.3|0.69
82514099|NCT01627249|164721144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED|95.0|-2.3|1.5|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Aflibercept vs Ranibizumab||1.5|-2.3|0.69
82514100|NCT01627249|164721144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.69|TWO_SIDED|95.0|-0.9|3.1|||ANCOVA||Reported P-values have been adjusted for multiple treatment group comparisons.|Ranibizumab vs Bevacizumab||3.1|-0.9|0.69
82514101|NCT01176591|164721162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82514102|NCT01176591|164721163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82634871|NCT00352027|164985254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.553||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.553
82634872|NCT00352027|164985254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.173||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.173
82514103|NCT01176591|164721164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82514104|NCT01176591|164721165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||t-test, 2 sided|||||||0.039
82514105|NCT01176591|164721167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82514106|NCT00982319|164721175|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82634873|NCT00352027|164985254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||||||P-values are shown after correction for multiple testing using the False Discovery Rate Method.|Wilcoxon Signed Rank Test|||||||0.122
82634874|NCT00352027|164985255|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82514107|NCT00097591|164721190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.002|TWO_SIDED|95.0|0.726|0.927||The primary outcome measure was analyzed first in the UA/NSTEMI population, followed by All ACS subjects, followed by the STEMI population.|Gehan-Wilcoxon|||For UA/NSTEMI population||0.927|0.726|0.002
82380511|NCT01037218|164470807|SUPERIORITY_OR_OTHER||Difference in LS Means|32.84|||<|0.0001|TWO_SIDED|95.0|26.18|39.5|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||39.50|26.18|<0.0001
82634875|NCT00352027|164985256|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
82514108|NCT00097591|164721190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.019|TWO_SIDED|95.0|0.649|0.968|||Gehan-Wilcoxon|||For STEMI population||0.968|0.649|0.019
82634876|NCT00352027|164985257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
82634877|NCT00352027|164985258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
82634878|NCT00352027|164985259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
82514109|NCT00097591|164721190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.812|||<|0.001|TWO_SIDED|95.0|0.732|0.902|||Gehan-Wilcoxon|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For All ACS population||0.902|0.732|<0.001
82634879|NCT00352027|164985260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generallized Estimating Equations (GEE)|||||||<0.001
82634880|NCT00352027|164985261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634881|NCT00352027|164985262|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634882|NCT00352027|164985263|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82514110|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.314||||0.002|TWO_SIDED|95.0|1.107|1.559|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For non-CABG TIMI Major or Minor Bleeding||1.559|1.107|0.002
82514111|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.315||||0.029|TWO_SIDED|95.0|1.028|1.683|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For non-CABG TIMI Major Bleeding||1.683|1.028|0.029
82634883|NCT00352027|164985264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Generalized Estimating Equations (GEE)|||||||0.005
82634884|NCT00352027|164985265|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634885|NCT00352027|164985266|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634886|NCT00352027|164985267|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634887|NCT00352027|164985268|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634888|NCT00352027|164985269|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Generalized Estimating Equations (GEE)|||||||<0.001
82634889|NCT00352027|164985270|SUPERIORITY_OR_OTHER_LEGACY|||||||0.908|||||||Log Rank|||||||0.908
82634890|NCT00352027|164985271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178|||||||Log Rank|||||||0.178
82634891|NCT00352027|164985272|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411|||||||Log Rank|||||||0.411
82634892|NCT00352027|164985274|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4318|||||||Cox Model|||||||0.4318
82634893|NCT00352027|164985275|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2199|||||||Cox Model|||||||0.2199
82634894|NCT00352027|164985276|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8946|||||||Cox Model|||||||0.8946
82634895|NCT04491591|164985281|SUPERIORITY|||||||0.801|||||||Kruskal-Wallis|||||||0.801
82634896|NCT04491591|164985282|SUPERIORITY|||||||0.1336|||||||Fisher Exact|||Reconstruction versus No reconstruction||||0.1336
82634897|NCT04491591|164985282|SUPERIORITY|Immediate reconstruction versus delayed reconstruction||||||0.5505|||||||Fisher Exact|||||||0.5505
82634898|NCT04491591|164985282|SUPERIORITY|||||||0.6178|||||||Fisher Exact|||Flap reconstruction versus Implant reconstruction||||0.6178
82634899|NCT04491591|164985283|SUPERIORITY|||||||0.2317|||||||Fisher Exact|||||||0.2317
82634900|NCT04491591|164985284|SUPERIORITY|||||||0.1052|||||||Fisher Exact|||||||0.1052
82634901|NCT04491591|164985285|OTHER||||||||||||||||||Within subjects pre/post comparison|||
82634902|NCT04491591|164985286|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82634903|NCT04491591|164985288|OTHER||||||||||||||||||Descriptive analysis using mean and standard deviation|||
82634904|NCT04491591|164985289|SUPERIORITY|||||||0.0302|||||||Kruskal-Wallis|||||||0.0302
82634905|NCT04491591|164985290|SUPERIORITY|||||||0.135|||||||Fisher Exact|||Reconstruction versus No reconstruction||||0.135
82634906|NCT04491591|164985290|SUPERIORITY|||||||0.51|||||||Fisher Exact|||Immediate reconstruction versus delayed reconstruction||||0.510
82634907|NCT04491591|164985290|SUPERIORITY|||||||0.469|||||||Fisher Exact|||Flap reconstruction versus Implant reconstruction||||0.469
82634908|NCT04491591|164985291|SUPERIORITY|||||||0.308|||||||Fisher Exact|||||||0.308
82634909|NCT04491591|164985292|SUPERIORITY|||||||0.036|||||||Fisher Exact|||||||0.036
82634910|NCT02607735|164985298|SUPERIORITY|The SVR12 rate for the SOF/VEL/VOX group was compared to the performance goal of 85% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.|||||<|0.001|||||||2-sided exact 1-sample binomial test|||||||<0.001
82634911|NCT01058356|164985311|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|STANDARD_ERROR_OF_MEAN|0.4|<|0.05|TWO_SIDED|95.0|0.17|4.15|||Regression, Logistic|||"Null hypothesis: The efficay of the probiotic Lactobacilli (Lacidofil cap®) for the prevention of AAD in adults is not different form the placebo group in multi-center, randomized, placebo-controlled, double-blind trial.~Power calculation:~The assumption of sample size calculation:~difference 18% (8% : 26%) α: 0.05, statistical power: 90%, two sided difference: 18% Compliance: 80%~\- Unadjusted sample size (N=200) 180 + 10(%) drop out = 180 + 180/ (1-0.1)2 = 222.2 Total 220 subjects"||4.15|0.17|<0.05
82634912|NCT01058356|164985312|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.27|<|0.05|TWO_SIDED|95.0|0.18|1.55|||Regression, Logistic|||"Null hypothesis: The efficay of the probiotic Lactobacilli (Lacidofil cap®) for the prevention of AAD in adults is not different form the placebo group in multi-center, randomized, placebo-controlled, double-blind trial.~Power calculation:~The assumption of sample size calculation:~difference 18% (8% : 26%) α: 0.05, statistical power: 90%, two sided difference: 18% Compliance: 80%~\- Unadjusted sample size (N=200) 180 + 10(%) drop out = 180 + 180/ (1-0.1)2 = 222.2 Total 220 subjects"||1.55|0.18|<0.05
82634913|NCT00606021|164985326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.1815|TWO_SIDED|95.0|0.42|1.37||The significant level for the primary outcome measure of progression free survival during maintenance phase is one-sided 0.2.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||1.37|0.42|0.1815
82634914|NCT00606021|164985327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.1233|TWO_SIDED|95.0|0.4|1.26||The significant level for the secondary outcome measure of progression free survival during overall period is one-sided 0.2.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||1.26|0.40|0.1233
82514112|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.517||||0.015|TWO_SIDED|95.0|1.083|2.126|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - Life-threatening events (LT)||2.126|1.083|0.015
82514113|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.191||||0.002|TWO_SIDED|95.0|1.158|11.113|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Fatal||11.113|1.1580|0.002
82514114|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.119||||0.736|TWO_SIDED|95.0|0.582|2.152|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Symptomatic intracranial hemorrage (ICH)||2.152|0.582|0.736
82634915|NCT00606021|164985328|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.7239|TWO_SIDED|95.0|0.56|2.28||The significant level for the secondary outcome measure overall survival during maintenance period is two-sided 0.05.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||2.28|0.56|0.7239
82380512|NCT01037218|164470808|SUPERIORITY_OR_OTHER||Difference in LS Means|21.72|||<|0.0001|TWO_SIDED|95.0|14.19|29.24|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||29.24|14.19|<0.0001
82380513|NCT01037218|164470808|SUPERIORITY_OR_OTHER||Difference in LS Means|26.82|||<|0.0001|TWO_SIDED|95.0|19.27|34.37|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||34.37|19.27|<0.0001
82380514|NCT01037218|164470808|SUPERIORITY_OR_OTHER||Difference in LS Means|35.41|||<|0.0001|TWO_SIDED|95.0|27.98|42.83|||ANCOVA|"P-values were obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||42.83|27.98|<0.0001
82380515|NCT01037218|164470809|SUPERIORITY_OR_OTHER||Difference in LS Means|1.52|||<|0.0001|TWO_SIDED|95.0|0.81|2.23|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.23|0.81|<0.0001
82380516|NCT01037218|164470809|SUPERIORITY_OR_OTHER||Difference in LS Means|2.29|||<|0.0001|TWO_SIDED|95.0|1.58|3.0|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||3.00|1.58|<0.0001
82380517|NCT01037218|164470809|SUPERIORITY_OR_OTHER||Difference in LS Means|2.9|||<|0.0001|TWO_SIDED|95.0|2.2|3.6|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||3.60|2.20|<0.0001
82514115|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.617||||0.016|TWO_SIDED|95.0|1.159|5.908|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring inotropes||5.908|1.159|0.016
82514116|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.998||||0.995|TWO_SIDED|95.0|0.528|1.885|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring surgical intervention||1.885|0.528|0.995
82514117|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.499||||0.084|TWO_SIDED|95.0|0.945|2.379|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Major Bleeding - LT - Requiring transfusion (\>=4 units)||2.379|0.945|0.084
82634916|NCT00606021|164985329|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.6376|TWO_SIDED|95.0|0.59|2.38||The significant level for the secondary outcome measure overall survival during overall period is two-sided 0.05.|Regression, Cox|Stratified Cox regression model is used for hazard ratio estimate. Stratification factor: response status prior to randomization.||||2.38|0.59|0.6376
82634917|NCT01202643|164985334|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||ANCOVA|||||||0.67
82380518|NCT01037218|164470810|SUPERIORITY_OR_OTHER||Difference in LS Means|0.59||||0.0673|TWO_SIDED|95.0|-0.04|1.22|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.22|-0.04|0.0673
82514118|NCT00097591|164721191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.313||||0.022|TWO_SIDED|95.0|1.04|1.656|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||For the subset of non-CABG TIMI Minor Bleeding||1.656|1.040|0.022
82514119|NCT00097591|164721192|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.784|||<|0.001|TWO_SIDED|95.0|0.688|0.894|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 30 days||0.894|0.688|<0.001
82514120|NCT00097591|164721192|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794|||<|0.001|TWO_SIDED|95.0|0.703|0.896|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 90 days||0.896|0.703|<0.001
82514121|NCT00097591|164721193|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.767|||<|0.001|TWO_SIDED|95.0|0.672|0.876|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 30 days||0.876|0.672|<0.001
82514122|NCT00097591|164721193|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797|||<|0.001|TWO_SIDED|95.0|0.705|0.901|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||Through 90 days||0.901|0.705|<0.001
82380519|NCT01037218|164470810|SUPERIORITY_OR_OTHER||Difference in LS Means|1.53|||<|0.0001|TWO_SIDED|95.0|0.9|2.16|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.16|0.90|<0.0001
82380520|NCT01037218|164470810|SUPERIORITY_OR_OTHER||Difference in LS Means|1.53|||<|0.0001|TWO_SIDED|95.0|0.91|2.15|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.15|0.91|<0.0001
82514123|NCT00097591|164721194|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.838|||<|0.001|TWO_SIDED|95.0|0.762|0.921|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||||0.921|0.762|<0.001
82514124|NCT00097591|164721195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.831|||<|0.001|TWO_SIDED|95.0|0.751|0.919|||Log Rank|Clinical presentation, UA/NSTEMI versus STEMI, was used as a stratification factor.||||0.919|0.751|<0.001
82514125|NCT02312310|164721196|SUPERIORITY|Test of trend across doses.||||||0.393|||||||Mixed Models Analysis|Change in outcome from baseline to 12 weeks tested using mixed effects models controlling for baseline measures, treatment, sex, age, and education.|||The flavanol effect on the change in each outcome from baseline to 12 weeks was tested using linear mixed effects models controlling for the respective baseline measures, four categories of treatment, sex, age, and education. Regression adjusted mean within-group tests of change were estimated and tested for statistical significance from the model. The primary test used for assessing the treatment effect was the linear trend contrast from the model across: placebo, low, medium and high dose. The model for cognitive measures incorporated additional outcome measurement times at 4 weeks and 20 weeks and included categorical time (4, 12, 20 weeks) as a predictor as well as a treatment (4 category) by time interaction, and a random intercept to control for repeated measures within individuals (results for 4 and 20 weeks not presented).|||.393
82380521|NCT01037218|164470811|SUPERIORITY_OR_OTHER||Difference in LS Means|0.36||||0.0566|TWO_SIDED|95.0|-0.01|0.73|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.73|-0.01|0.0566
82514126|NCT01168999|164721201|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<0.01
82514127|NCT01168999|164721202|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared|||||||0.01
82634918|NCT01202643|164985335|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared, Corrected|||Study was closed due to insufficient recruitment||||0.74
82514128|NCT01168999|164721203|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
82514129|NCT01168999|164721204|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
82514130|NCT01168999|164721205|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Repeated Measure ANOVA|||||||0.05
82514131|NCT01168999|164721206|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Repeated Measure ANOVA|||||||>0.05
82514132|NCT01276327|164721212|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|99.92|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|97.11|102.81|||Unscaled average Bioequivalence||Geometric standard error of mean was calculated.|||102.81|97.11|
82514133|NCT01276327|164721213|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|94.17|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|89.08|99.55|||Unscaled average Bioequivalence||Geometric Standard error of mean was calculated.|||99.55|89.08|
82380522|NCT01037218|164470811|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.0002|TWO_SIDED|95.0|0.34|1.08|||ANCOVA|P-values obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.08|0.34|0.0002
82514134|NCT01276327|164721214|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together.|Adjusted gMean Ratio (Test/Ref) (%)|79.99|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|74.65|85.72|||Scaled average bioequivalence (SABE)||Geometric Standard error of mean was calculated.|||85.72|74.65|
82570126|NCT00241969|164850600|SUPERIORITY|Some data were missing for energy intake (n=3 baseline, n=13 post-treatment), thus the PROC MIXED procedure (SAS) with maximum likelihood estimation was used to analyze this outcome with time as a repeated measure factor.|maximum likelihood estimation|431.0|||<|0.001|TWO_SIDED|95.0|282.0|581.0|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Some data were missing for energy intake (N = 3 baseline; 13 post treatment), and thus the PROC MIXED procedure (SAS) with maximum likelihood estimation was used to analyze this outcome with time as a repeated measures factor, no group main effect at baseline for energy intake, and sex, baseline Pseudomonas aeruginosa status, and treatment modality as covariates in the statistical model. This model is similar to an analysis of covariance model with baseline energy intake included as an additional covariate, but the PROC MIXED model employs maximum likelihood estimation and consequently allows for data to be missing at random. The test of the time by group interaction within this PROC MIXED model indicated whether the behavioral and nutrition treatment was efficacious relative to our control treatment.|581|282|<0.001
82570127|NCT00241969|164850601|SUPERIORITY|All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates.|maximum likelihood|0.09||||0.25|TWO_SIDED|95.0|-0.06|0.24|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates. Group main effects on these change scores in the presence of covariates were examined to determine the efficacy of the behavioral and nutrition treatment.|0.24|-0.06|0.25
82570128|NCT00241969|164850602|SUPERIORITY|All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of HAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates.|maximum likelihood|0.14||||0.049|TWO_SIDED|95.0|0.001|0.27|||ANCOVA||||All analyses were performed on the full intention-to-treat sample (defined a priori as attending the first treatment session). Analyses of WAZ and HAZ change scores were carried out within the PROC GLM procedure (SAS Institute Inc.) using an analysis of covariance model with sex, Pseudomonas aeruginosa status at baseline, treatment modality, and baseline value of the corresponding outcome variable as covariates. Group main effects on these change scores in the presence of covariates were examined to determine the efficacy of the behavioral and nutrition treatment.|0.27|0.001|0.049
82570129|NCT00846768|164850635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.015||0.3011||95.0|-0.014|0.044|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.044|-0.014|0.3011
82570130|NCT00846768|164850635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.015||0.1582||95.0|-0.008|0.05|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.050|-0.008|0.1582
82570131|NCT00846768|164850635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.015||0.0003||95.0|0.025|0.083|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.083|0.025|0.0003
82514135|NCT01276327|164721215|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|97.31|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|88.9|106.51|||Scaled average bioequivalence (SABE)||Geometric standard error of mean was calculated.|||106.51|88.90|
82634919|NCT03198884|164985336|OTHER|The percent of patients with an RNA \<50 copies/mL at each time point was analyzed using McNemar's test following the guidelines of the Snapshot algorithm. Missing RNA data was considered a treatment failure. Change in mean serum creatinine from baseline was analyzed using Wilcoxon signed rank test.|||||<|0.05|||||||McNemar||||Change in mean CD4+ cell counts from baseline was analyzed using a paired t-test. All analyses used a p-value of less than or equal to 0.05 as significant. Statistical analyses were performed using R software, version 3.4.3.|||<0.05
82634920|NCT03198884|164985337|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82634921|NCT01899729|164985363|OTHER|Used mixed effects model||||||0.06|||||||Mixed Models Analysis|||||||0.06
82514136|NCT01276327|164721216|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|99.92|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|97.1|102.81|||Unscaled average bioequivalence||Geometric Standard error of mean was calculated.|||102.81|97.10|
82514137|NCT01276327|164721217|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|101.85|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|98.18|105.67|||Unscaled average bioequivalence||Geometric standard error of mean was calculated.|||105.67|98.18|
82514138|NCT01276327|164721218|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the FDC tablet compared with the individual tablets of linagliptin and pioglitazone administered together|Adjusted gMean Ratio (Test/Ref) (%)|80.79|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|75.6|86.34|||Scaled average bioequivalence (SABE)||Geometric standard error of mean was calculated.|||86.34|75.60|
82514139|NCT00807092|164721221|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.666||||95.0|-1.332|1.306||A statistical significant threshold p less than 0.025|ANCOVA|Treatment and strata as factors; baseline (visit 2) value of mean IAUC(0-4hours) as covariate|BIAsp 30 - BHI 30|"The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4hours) of BIAsp 30 after 6 weeks of treatment-Change in mean IAUC(0-4hours) of BHI 30 after 6 weeks of treatment greater than or equal to 0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4hours) of BIAsp 30 after 6 weeks of treatment-Change in mean IAUC(0-4hours) of BHI 30 after 6 weeks of treatment less than 0 mol\*h/L"||1.306|-1.332|
82514140|NCT00807092|164721222|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.178|STANDARD_ERROR_OF_MEAN|1.0||0.2412||95.0|-0.802|3.157||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Breakfast|"Null hypothesis and alternative hypothesis for breakfast:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for breakfast after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for breakfast after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for breakfast after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for breakfast after 6 weeks of treatment≠0 mol\*h/L"||3.157|-0.802|0.2412
82514141|NCT00807092|164721222|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.318|STANDARD_ERROR_OF_MEAN|1.216||0.794||95.0|-2.724|2.087||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Lunch|"Null hypothesis and alternative hypothesis for lunch:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for lunch after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for lunch after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for lunch after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for lunch after 6 weeks of treatment≠0 mol\*h/L"||2.087|-2.724|0.794
82514142|NCT00807092|164721222|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.749||||0.3093||95.0|-2.2|0.703||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; corresponding baseline (week 0) value of mean IAUC(0-4h) as covariate (breakfast/lunch/dinner)|Dinner|"Null hypothesis and alternative hypothesis for dinner:~The null hypothesis (H0) was:~H0: Change in mean IAUC(0-4h) of BIAsp 30 for dinner after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for dinner after 6 weeks of treatment =0 mol\*h/L against the alternative hypothesis(H1): H1: Change in mean IAUC (0-4h) of BIAsp 30 for dinner after 6 weeks of treatment-Change in mean IAUC(0-4h) of BHI 30 for dinner after 6 weeks of treatment≠0 mol\*h/L"||0.703|-2.2|0.3093
82514143|NCT00807092|164721223|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.448|STANDARD_ERROR_OF_MEAN|0.261||0.0891||95.0|-0.069|0.964||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of mean FBG as covariate||"The null hypothesis (H0) was:~H0: Change in mean FBG of BIAsp 30 after 6 weeks of treatment-Change in mean FBG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in mean FBG of BIAsp 30 after 6 weeks of treatment-Change in mean FBG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.964|-0.069|0.0891
82514144|NCT00807092|164721225|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.495|STANDARD_ERROR_OF_MEAN|0.247||0.0472||95.0|0.006|0.984||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of mean FBG as covariate||"The null hypothesis (H0) was:~H0: Change in FPG of BIAsp 30 after 6 weeks of treatment-Change in FPG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in FPG of BIAsp 30 after 6 weeks of treatment-Change in FPG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.984|0.0060|0.0472
82523778|NCT01218126|164743212|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.126|TWO_SIDED|95.0|0.9|1.01|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.01|0.90|0.126
82634922|NCT01454531|164985367|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Paired values|t-test, 2 sided|||The null hypothesis is no changes in IgE-blocking factor values from visit 1 (baseline) to visit 6 (end of treatment) versus the alternative hypothesis of change in IgE-blocking factor values||||<0.001
82634923|NCT01454531|164985368|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Paired samples|t-test, 2 sided|||The null hypothesis is no changes in Phleum specific IgG4 values from visit 1 (baseline) to visit 6 (end of treatment) versus the alternative hypothesis of change in Phleum specific IgG4 values||||<0.001
82634924|NCT01454531|164985369|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Parallel Line Assay|||Parallel Line Assay is based on the construction of two dose-response regression lines obtained plotting the allergen concentration used to prick test the subjects against the wheal size obtained. ANOVA allows to check for regression, linearity and parallelism. A common slope and y-intercepts are calculated. The CTI is the exponentiation of the difference between y-intercepts divided by the common slope. (Finney D.J., Statistical Method in Biological Assay, 1978).||||<0.01
82380523|NCT01037218|164470811|SUPERIORITY_OR_OTHER||Difference in LS Means|0.71||||0.0001|TWO_SIDED|95.0|0.34|1.07|||ANCOVA|P-values obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.07|0.34|0.0001
82514145|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.676||95.0|-0.41|0.63||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 2) value of BG as covariate|Before breakfast|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.63|-0.41|0.676
82514146|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.23||||0.026||95.0|0.15|2.31||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after breakfast|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||2.31|0.15|0.026
82514147|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.5||95.0|-0.53|1.08||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Before lunch|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.08|-0.53|0.5
82514148|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.747||95.0|-0.86|1.19||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after lunch|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.19|-0.86|0.747
82514149|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.581||95.0|-1.23|0.69||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Before dinner|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.69|-1.23|0.581
82514150|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.326||95.0|-1.42|0.48||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|2 hours after dinner|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.48|-1.42|0.326
82514151|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.643||95.0|-0.61|0.99||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Bedtime|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.99|-0.61|0.643
82514152|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.008||95.0|0.21|1.33||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|3 AM|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.33|0.21|0.0080
82514153|NCT00807092|164721226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.274||95.0|-0.22|0.75||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of BG as covariate|Average|"For each endpoint of SMBG :The null hypothesis (H0) was:~H0: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in BG of BIAsp 30 after 6 weeks of treatment-Change in BG of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.75|-0.22|0.274
82523779|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.87||||0.291|TWO_SIDED|95.0|0.68|1.12|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 4||1.12|0.68|0.291
82514154|NCT00807092|164721227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.062||95.0|-0.05|2.04||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Breakfast|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||2.04|-0.05|0.062
82514155|NCT00807092|164721227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.933||95.0|-1.12|1.22||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Lunch|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.22|-1.12|0.933
82514156|NCT00807092|164721227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.922||95.0|-1.16|1.05||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Dinner|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||1.05|-1.16|0.922
82514157|NCT00807092|164721227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29||||0.313||95.0|-0.28|0.85||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of prandial BG increment as covariate|Average|"For each endpoint of Prandial Blood Glucose Increment :The null hypothesis (H0) was:~H0: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment =0 mmol/L against the alternative hypothesis(H1): H1: Change in prandial BG increment of BIAsp 30 after 6 weeks of treatment-Change in prandial BG increment of BHI 30 after 6 weeks of treatment≠0 mmol/L"||0.85|-0.28|0.313
82514158|NCT00807092|164721228|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.187|STANDARD_ERROR_OF_MEAN|0.371||0.6149||95.0|-0.547|0.921||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (visit 2) value of mean MAGE as covariate||The full analysis set using LOCF (Last Observation Carried Forward) consists of all randomised subjects who had been exposed to at least one dose of the trial products.||0.921|-0.547|0.6149
82514159|NCT00807092|164721229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.328|STANDARD_ERROR_OF_MEAN|0.577||0.5706||95.0|-0.813|1.468||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of GA as covariate||"The null hypothesis (H0) was:~H0: Change in GA of BIAsp 30 after 6 weeks of treatment-Change in GA of BHI 30 after 6 weeks of treatment =0 % against the alternative hypothesis(H1): H1: Change in GA of BIAsp 30 after 6 weeks of treatment-Change in GA of BHI 30 after 6 weeks of treatment≠0 %"||1.468|-0.813|0.5706
82514160|NCT00807092|164721230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.113||0.8598||95.0|-0.243|0.243||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of HbA1c as covariate||"The null hypothesis (H0) was:~H0: Change in HbA1c of BIAsp 30 after 6 weeks of treatment-Change in HbA1c of BHI 30 after 6 weeks of treatment =0 % against the alternative hypothesis(H1): H1: Change in HbA1c of BIAsp 30 after 6 weeks of treatment-Change in HbA1c of BHI 30 after 6 weeks of treatment≠0%"||0.243|-0.243|0.8598
82570132|NCT00846768|164850635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.015||0.7046||95.0|-0.034|0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.023|-0.034|0.7046
82634925|NCT00711009|164985382|NON_INFERIORITY_OR_EQUIVALENCE|The exact 95% confidence interval for the difference in response rates (LPV/r + RAL minus LPV/r + FTC/TDF) was used to assess non-inferiority. The LPV/r+RAL arm was considered non-inferior to the LPV/r+FTC/TDF arm because the lower limit of the confidence interval was \>/= -20%. Because the LPV/r+RAL arm was considered non-inferior based on the 20% margin, the results were assessed on a more rigorous 12% margin (-12%), as prespecified.|Diff. in Percentage of Subj. Responding|-1.6||||0.85|TWO_SIDED|95.0|-12.0|8.8|||exact binomial method|||The null hypothesis was that the response rate for the LPV/r + RAL arm was more than 20% lower than the response rate for the LPV/r + FTC/TDF arm. The planned sample size of 100 participants per treatment group provided 90% power to conclude that the LPV/r + RAL arm was non-inferior to the control arm, based on a non-inferiority margin of -20% (with a type I error rate of 0.05).||8.8|-12.0|0.850
82634926|NCT04259749|164985476|OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.58|3.4|||||Adjusted for age, education, lifetime use of tobacco products.|||3.40|0.58|
82634927|NCT04259749|164985476|OTHER||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|0.92|5.63|||||Adjusted for age, education, and lifetime use of tobacco products|||5.63|0.92|
82634928|NCT04259749|164985477|OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.61|4.07|||||Adjusted for age, education, and lifetime use of tobacco products|||4.07|0.61|
82523780|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78||||0.046|TWO_SIDED|95.0|0.61|1.0|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 4||1.00|0.61|0.046
82634929|NCT04259749|164985477|OTHER||Odds Ratio (OR)|3.45|||||TWO_SIDED|95.0|1.32|9.02|||||Adjusted for age, education, and lifetime use of tobacco products|||9.02|1.32|
82634930|NCT04259749|164985478|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.59|3.68|||||Adjusted for age, education, and lifetime use of tobacco|||3.68|.59|
82634931|NCT04259749|164985478|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.05|6.42|||||Adjusted for age, education, and lifetime use of tobacco products.|||6.42|1.05|
82634932|NCT04259749|164985479|OTHER||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.47|2.49|||||Adjusted for age, education, and lifetime use of tobacco|||2.49|.47|
82634933|NCT04259749|164985479|OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|0.62|3.31|||||Adjusted for age, education, and lifetime use of tobacco products|||3.31|.62|
82634934|NCT04259749|164985480|OTHER||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.72|4.14|||||Adjusted for age, education, and lifetime use of tobacco products|||4.14|.72|
82634935|NCT04259749|164985480|OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.83|4.95|||||Adjusted for age, education, and lifetime use of tobacco products.|||4.95|.83|
82634936|NCT04259749|164985481|OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.4|3.18|||||Adjusted for age, education, and lifetime tobacco use|||3.18|.40|
82634937|NCT04259749|164985481|OTHER||Odds Ratio (OR)|2.04|||||TWO_SIDED|95.0|0.73|5.71|||||Adjusted for age, education, and lifetime tobacco use|||5.71|.73|
82634938|NCT04259749|164985482|OTHER||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.66|4.75|||||Adjusted for age, education, and lifetime tobacco use|||4.75|.66|
82634939|NCT04259749|164985482|OTHER||Odds Ratio (OR)|3.06|||||TWO_SIDED|95.0|1.13|8.29|||||Adjusted for age, education, and lifetime use of tobacco|||8.29|1.13|
82634940|NCT04259749|164985483|OTHER||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.51|3.7|||||Adjusted for age, education, and lifetime tobacco use|||3.70|.51|
82523781|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.014|TWO_SIDED|95.0|0.57|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 4||0.94|0.57|0.014
82634941|NCT04259749|164985483|OTHER||Odds Ratio (OR)|2.32|||||TWO_SIDED|95.0|0.85|6.31|||||Adjusted for age, education, and lifetime tobacco use|||6.31|.85|
82634942|NCT04259749|164985484|OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.29|4.26|||||Adjusted for age, education, and lifetime tobacco use|||4.26|.29|
82634943|NCT04259749|164985484|OTHER||Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.57|7.06|||||Adjusted for age, education, and lifetime tobacco use|||7.06|.57|
82634944|NCT04259749|164985485|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.33|3.31|||||Adjusted for age, education, and lifetime tobacco use|||3.31|.33|
82634945|NCT04259749|164985485|OTHER||Odds Ratio (OR)|2.43|||||TWO_SIDED|0.95|0.83|7.13|||||Adjusted for age, education, and lifetime tobacco use|||7.13|.83|
82634946|NCT04259749|164985486|OTHER||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.72|4.14|||||Adjusted for age, education, and lifetime tobacco use|||4.14|.72|
82634947|NCT04259749|164985486|OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.83|4.95|||||Adjusted for age, education, and lifetime tobacco use|||4.95|.83|
82634948|NCT00303602|164985487|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||P-value for Week 2 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.428
82634949|NCT00303602|164985487|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||P-value for Week 4 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.859
82634950|NCT00303602|164985487|SUPERIORITY_OR_OTHER|||||||0.885||95.0||||P-value for Week 8 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.885
82523782|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.04||||0.755|TWO_SIDED|95.0|0.82|1.32|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 8||1.32|0.82|0.755
82523783|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.029|TWO_SIDED|95.0|0.6|0.97|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.97|0.60|0.029
82523784|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.015|TWO_SIDED|95.0|0.58|0.94|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 8||0.94|0.58|0.015
82380524|NCT01037218|164470812|SUPERIORITY_OR_OTHER||Difference in LS Means|0.86||||0.0019|TWO_SIDED|95.0|0.32|1.4|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||1.40|0.32|0.0019
82380525|NCT01037218|164470812|SUPERIORITY_OR_OTHER||Difference in LS Means|1.55|||<|0.0001|TWO_SIDED|95.0|1.01|2.09|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.09|1.01|<0.0001
82380526|NCT01037218|164470812|SUPERIORITY_OR_OTHER||Difference in LS Means|2.09|||<|0.0001|TWO_SIDED|95.0|1.55|2.62|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||2.62|1.55|<0.0001
82380527|NCT01037218|164470813|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Armitage test|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
82514161|NCT00807092|164721231|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.054|STANDARD_ERROR_OF_MEAN|0.128||0.671||95.0|-0.307|0.198||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of duration of hypoglycaemic events as covariate|Blood glucose below 3.5 mmol/l|"The null hypothesis (H0) was:~H0: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment =0 hours against the alternative hypothesis(H1): H1: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment≠0 hours"||0.198|-0.307|0.671
82523785|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.468|TWO_SIDED|95.0|0.71|1.17|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 12||1.17|0.71|0.468
82570133|NCT00846768|164850635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.015||0.0248||95.0|0.004|0.063|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.063|0.004|0.0248
82514162|NCT00807092|164721231|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.038||0.7544||95.0|-0.088|0.064||A statistical significant threshold p\<0.05|ANCOVA|Treatment and strata as factors; baseline (week 0) value of duration of hypoglycaemic events as covariate|Blood glucose below 2.5 mmol/l|"The null hypothesis (H0) was:~H0: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment =0 hours against the alternative hypothesis(H1): H1: Duration of Hypoglycaemic Events Based on CGMS of BIAsp 30 after 6 weeks of treatment-Duration of Hypoglycaemic Events Based on CGMS of BHI 30 after 6 weeks of treatment≠0 hours"||0.064|-0.088|0.7544
82634951|NCT00303602|164985487|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-value for Week 12 Change from Baseline. There was no adjustment for multiple comparisons.|Mixed Models Analysis|||||||0.784
82514163|NCT01229228|164721253|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.417|STANDARD_ERROR_OF_MEAN|2.7891|<|0.001|TWO_SIDED|95.0|16.923|27.91|||ANCOVA|||||27.910|16.923|<0.001
82634952|NCT00303602|164985487|SUPERIORITY_OR_OTHER|||||||0.465||95.0||||P-value for Week 16 Change from Baseline. There was no adjustment for multiple comparisons|Mixed Models Analysis|||||||0.465
82634953|NCT00303602|164985488|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|-0.19||||0.442||95.0|-0.67|0.3|||ANCOVA||Change = Endpoint minus baseline|||0.30|-0.67|0.442
82634954|NCT00303602|164985489|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|-0.32||||0.328||95.0|-0.95|0.32|||ANCOVA||Change = Endpoint minus baseline|||0.32|-0.95|0.328
82634955|NCT00303602|164985490|SUPERIORITY_OR_OTHER|||||||0.385||95.0|||||Mixed Models Analysis|||||||0.385
82634956|NCT00303602|164985491|SUPERIORITY_OR_OTHER||Least Square Mean Change Difference|0.1||||0.914||95.0|-1.65|1.84|||ANCOVA||Change = endpoint minus baseline|||1.84|-1.65|0.914
82634957|NCT00303602|164985492|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||Up to Week 16 p-value|Fisher Exact|||||||0.325
82634958|NCT00303602|164985494|SUPERIORITY_OR_OTHER|||||||0.344||95.0|||||Mixed Models Analysis|||||||0.344
82634959|NCT00303602|164985495|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||Systolic Blood Pressure Change to Endpoint p-value|Rank-Sum Test|||||||0.708
82634960|NCT00303602|164985495|SUPERIORITY_OR_OTHER|||||||0.453||95.0||||Diastolic Blood Pressure Change to Endpoint p-value|Rank-Sum Test|||||||0.453
82634961|NCT00303602|164985496|SUPERIORITY_OR_OTHER|||||||0.187||95.0||||Total Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.187
82634962|NCT00303602|164985496|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||High-Density Lipoprotein Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.163
82634963|NCT00303602|164985496|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||Low-Density Lipoprotein Cholesterol Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.323
82634964|NCT00303602|164985496|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Triglycerides Change to Endpoint p-value|Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.581
82634965|NCT00303602|164985497|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.227
82634966|NCT00303602|164985498|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.020
82634967|NCT00303602|164985499|SUPERIORITY_OR_OTHER|||||||0.834||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals of this regression in CMH test.||||||0.834
82634968|NCT00303602|164985500|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Cochran-Mantel-Haenszel|Ranks of change from baseline were regressed on ranks of baseline value of assay. Treatments compared using residuals on this regression in CMH test.||||||0.022
82634969|NCT00303602|164985501|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||Endpoint Metabolic Syndrome p-value|Fisher Exact|||||||0.515
82634970|NCT00303602|164985502|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||Mixed Models Analysis|||||||0.118
82634971|NCT00303602|164985503|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Mixed Models Analysis|||||||0.161
82634972|NCT00303602|164985504|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Mixed Models Analysis|||||||0.229
82634973|NCT00784225|164985508|SUPERIORITY||Cox Proportional Hazard|0.75||||0.52|TWO_SIDED|95.0|0.32|1.79|||Regression, Cox|||Statistical analysis for number of participants with visually significant AMD in SEE sites during pill-taking for selenium||1.79|0.32|0.52
82514164|NCT02710630|164721276|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|119.33|STANDARD_DEVIATION|40.4|||TWO_SIDED|90.0|101.838|139.834|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||139.834|101.838|
82634974|NCT00784225|164985508|SUPERIORITY||Cox Proportional Hazard|0.75||||0.51|TWO_SIDED|95.0|0.31|1.77|||Regression, Cox|||Statistical analysis for number of participants with visually significant AMD in SEE sites during pill-taking for vitamin E||1.77|0.31|0.51
82634975|NCT00784225|164985509|SUPERIORITY||Cox Proportional Hazard|0.91||||0.37|TWO_SIDED|95.0|0.75|1.11|||Regression, Cox|||||1.11|0.75|0.37
82634976|NCT00784225|164985509|SUPERIORITY||Cox Proportional Hazard|1.02||||0.81|TWO_SIDED|95.0|0.84|1.25|||Regression, Cox|||||1.25|0.84|0.81
82634977|NCT00784225|164985510|SUPERIORITY||Cox Proportional Hazard|2.5||||0.12|TWO_SIDED|95.0|0.79|7.98|||Regression, Cox|||Statistical analysis for number of participants with advanced AMD in SEE sites during pill-taking for selenium||7.98|0.79|0.12
82634978|NCT00784225|164985510|SUPERIORITY||Cox Proportional Hazard|0.99||||0.98|TWO_SIDED|95.0|0.35|2.82|||Regression, Cox|||Statistical analysis for number of participants with advanced AMD in SEE sites during pill-taking for vitamin E||2.82|0.35|0.98
82634979|NCT00784225|164985511|SUPERIORITY||Cox Proportional Hazard|0.84||||0.19|TWO_SIDED|95.0|0.64|1.09|||Regression, Cox|||||1.09|0.64|0.19
82634980|NCT00784225|164985511|SUPERIORITY||Cox Proportional Hazard|1.08||||0.58|TWO_SIDED|95.0|0.83|1.41|||Regression, Cox|||||1.41|0.83|0.58
82380528|NCT01037218|164470813|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
82380529|NCT01037218|164470813|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
82380530|NCT01037218|164470813|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||||<0.0001
82380531|NCT01037218|164470814|SUPERIORITY_OR_OTHER||Difference in LS Means|12.65|||<|0.0001|TWO_SIDED|95.0|7.01|18.29|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||18.29|7.01|<0.0001
82380532|NCT01037218|164470814|SUPERIORITY_OR_OTHER||Difference in LS Means|19.61|||<|0.0001|TWO_SIDED|95.0|13.95|25.27|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||25.27|13.95|<0.0001
82514165|NCT02710630|164721276|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|52.97|STANDARD_DEVIATION|168.9|||TWO_SIDED|90.0|33.341|84.158|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||84.158|33.341|
82380533|NCT01037218|164470814|SUPERIORITY_OR_OTHER||Difference in LS Means|27.01|||<|0.0001|TWO_SIDED|95.0|21.44|32.59|||ANOVA|P-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||32.59|21.44|<0.0001
82380534|NCT01037218|164470815|SUPERIORITY_OR_OTHER||Difference in LS Means|0.44|||<|0.0001|TWO_SIDED|95.0|0.3|0.57|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.57|0.30|<0.0001
82514166|NCT02710630|164721276|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|59.01|STANDARD_DEVIATION|73.4|||TWO_SIDED|90.0|45.255|76.955|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||76.955|45.255|
82514167|NCT02710630|164721276|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|108.21|STANDARD_DEVIATION|55.7|||TWO_SIDED|90.0|87.698|133.53|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||133.530|87.698|
82634981|NCT02551874|164985512|NON_INFERIORITY|Noninferiority was defined by upper bound of 95% CI \<0.3%|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.085||0.118|TWO_SIDED|95.0|-0.3|0.03||Superiority|Mixed Models Analysis|Adjusted for treatment, baseline HbA1c, randomization stratification factor, visit, treatment-by-visit, and baseline HbA1c-by-visit.||||0.03|-0.30|0.118
82634982|NCT02551874|164985513|SUPERIORITY||Mean Difference (Final Values)|-3.64|STANDARD_ERROR_OF_MEAN|0.282|<|0.001|TWO_SIDED|95.0|-4.2|-3.09|||Mixed Models Analysis|Adjusted for treatment, baseline body weight, randomization stratification factor, visit, treatment-by-visit, and baseline body weight-by-visit.||||-3.09|-4.20|<0.001
82634983|NCT02551874|164985514|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.62|||Regression, Logistic|Adjusted for baseline HbA1c and randomization stratification factor (background medication of metformin with or without SU).||||0.62|0.30|<0.001
82634984|NCT02551874|164985515|SUPERIORITY||Odds Ratio (OR)|1.8||||0.008|TWO_SIDED|95.0|1.16|2.67|||Regression, Logistic|||||2.67|1.16|0.008
82634985|NCT02551874|164985516|NON_INFERIORITY|Noninferiority was defined by lower bound of 95% CI \>-10%.|Adjusted Percent Difference|-0.4|||||TWO_SIDED|95.0|-7.42|6.54||||||||6.54|-7.42|
82634986|NCT02551874|164985517|NON_INFERIORITY|Noninferiority was defined by upper bound of 95% CI \<12 mg/dL.|Mean Difference (Final Values)|-19.99|STANDARD_ERROR_OF_MEAN|3.55|<|0.0001|TWO_SIDED|95.0|-26.98|-13.0|||Mixed Models Analysis|Adjusted for treatment, baseline measurement, randomization stratification factor, visit, treatment-by-visit, and baseline-by-visit.||||-13.00|-26.98|<0.0001
82634987|NCT00313716|164985518|SUPERIORITY_OR_OTHER|||||||0.01||||||"H0: Proportion of participants expected to have a favorable GOS outcome in the Epo2 group - in Placebo group is \>= 0.2.~H1: Proportion in Epo2 group - in Placebo group \< 0.2"|Futility analysis|||The primary analysis plan was a futility trial of the Epo 2 regimen arm. We hypothesized that 30% of subjects in the placebo group would have a favorable outcome at six months and there would be no interaction between the Epo and the transfusion threshold groups. Using a one-sided alpha of 0.15, a sample size of 62 subjects in the Epo 2 regimen group and 100 subjects in the placebo group provided 91% power to test the futility hypothesis.||||.01
82634988|NCT00313716|164985518|SUPERIORITY_OR_OTHER|||||||0.13||||||"H0: Proportion of participants expected to have a favorable GOS outcome in the Epo1 group - in Placebo group is \>= 0.2.~H1: Proportion in Epo1 group - in Placebo group \< 0.2"|Futility analysis|||The primary analysis plan was a futility trial of the Epo 1 regimen arm. We hypothesized that 30% of subjects in the placebo group would have a favorable outcome at six months and there would be no interaction between the Epo and the transfusion threshold groups.||||0.13
82634989|NCT00313716|164985518|SUPERIORITY_OR_OTHER|||||||0.34|||||||2-sample test of proportions|||We hypothesized that 40% of the patients in the TT7 group would have a favorable GOS score and that there would be no interaction between the Epo and TT groups. Assuming a 2-sided test with an alpha level of 0.05, we estimated that a sample size of 200 patients would provide 80% power to detect a 20% absolute increase in the GOS score for the TT10 group.||||.34
82634990|NCT00313716|164985519|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
82634991|NCT00313716|164985520|SUPERIORITY_OR_OTHER|||||||0.25|||||||Log Rank|||||||.25
82634992|NCT00313716|164985520|SUPERIORITY_OR_OTHER|||||||0.75|||||||Log Rank|||||||.75
82634993|NCT00313716|164985520|SUPERIORITY_OR_OTHER|||||||0.72|||||||Log Rank|||||||.72
82634994|NCT00313716|164985521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79||||0.08|TWO_SIDED|95.0|0.93|3.45|||Regression, Cox|||||3.45|.93|.08
82634995|NCT00313716|164985522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.26|TWO_SIDED|95.0|-0.22|0.05|||2-sample test - equality of proportions|||||.05|-.22|.26
82634996|NCT01491802|164985543|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.090
82634997|NCT01491802|164985544|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.680
82634998|NCT01491802|164985545|SUPERIORITY|||||||0.197|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.197
82634999|NCT01491802|164985546|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.006
82635000|NCT01491802|164985547|SUPERIORITY|||||||0.044|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.044
82635001|NCT01491802|164985548|SUPERIORITY|||||||0.573|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.573
82635002|NCT01491802|164985549|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.960
82635003|NCT01491802|164985550|SUPERIORITY|||||||0.944|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.944
82635004|NCT01491802|164985551|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||A paired t-test using a 2-sided test of significance was used to compare values after LAMA versus LABA/LAMA treatment.||||0.028
82635005|NCT01347931|164985589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|7.0|<|0.05|TWO_SIDED|95.0|2.0|10.0|||t-test, 2 sided|||A sample size of 26 patient pairs was determined based on the assumption of a true treatment difference in mean ADL endurance time of 4 ± 7 minutes using a two-tailed, paired t test (α=0.05, power=0.80).||10|2|<0.05
82514168|NCT02710630|164721276|SUPERIORITY_OR_OTHER||Ratio|110.21|STANDARD_DEVIATION|41.1|||TWO_SIDED|90.0|93.939|129.297|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||129.297|93.939|
82635006|NCT01347931|164985590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|4.0|<|0.05|TWO_SIDED|95.0|1.0|7.0|||t-test, 2 sided|||Two-tailed t test||7|1|<0.05
82514169|NCT02710630|164721277|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|118.31|STANDARD_DEVIATION|44.2|||TWO_SIDED|90.0|99.569|140.579|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||140.579|99.569|
82380535|NCT01037218|164470815|SUPERIORITY_OR_OTHER||Difference in LS Means|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.68|0.40|<0.0001
82514170|NCT02710630|164721277|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|57.49|STANDARD_DEVIATION|132.3|||TWO_SIDED|90.0|38.502|85.837|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||85.837|38.502|
82514171|NCT02710630|164721277|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|61.94|STANDARD_DEVIATION|69.0|||TWO_SIDED|90.0|48.13|79.72|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||79.720|48.130|
82514172|NCT02710630|164721277|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|108.26|STANDARD_DEVIATION|55.8|||TWO_SIDED|90.0|87.704|133.629|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||133.629|87.704|
82380536|NCT01037218|164470815|SUPERIORITY_OR_OTHER||Difference in LS Means|0.83|||<|0.0001|TWO_SIDED|95.0|0.69|0.97|||ANCOVA|P-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||0.97|0.69|<0.0001
82514173|NCT02710630|164721277|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.76|STANDARD_DEVIATION|43.0|||TWO_SIDED|90.0|91.238|127.281|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||127.281|91.238|
82380537|NCT01037218|164470816|SUPERIORITY_OR_OTHER||Difference in LS Means|15.18|||<|0.0001|TWO_SIDED|95.0|10.21|20.14|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||20.14|10.21|<0.0001
82380538|NCT01037218|164470816|SUPERIORITY_OR_OTHER||Difference in LS Means|14.94|||<|0.0001|TWO_SIDED|95.0|9.96|19.92|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||19.92|9.96|<0.0001
82380539|NCT01037218|164470816|SUPERIORITY_OR_OTHER||Difference in LS Means|21.06|||<|0.0001|TWO_SIDED|95.0|16.15|25.96|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||25.96|16.15|<0.0001
82380540|NCT01037218|164470817|SUPERIORITY_OR_OTHER||Difference in LS Means|17.51|||<|0.0001|TWO_SIDED|95.0|10.22|24.81|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||24.81|10.22|<0.0001
82514174|NCT02710630|164721278|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|118.26|STANDARD_DEVIATION|38.5|||TWO_SIDED|90.0|101.627|137.621|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||137.621|101.627|
82380541|NCT01037218|164470817|SUPERIORITY_OR_OTHER||Difference in LS Means|28.32|||<|0.0001|TWO_SIDED|95.0|21.01|35.62|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||35.62|21.01|<0.0001
82380542|NCT01037218|164470817|SUPERIORITY_OR_OTHER||Difference in LS Means|33.82|||<|0.0001|TWO_SIDED|95.0|26.61|41.02|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||41.02|26.61|<0.0001
82380543|NCT01037218|164470818|SUPERIORITY_OR_OTHER||Difference in LS Means|18.73|||<|0.0001|TWO_SIDED|95.0|11.23|26.23|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||26.23|11.23|<0.0001
82380544|NCT01037218|164470818|SUPERIORITY_OR_OTHER||Difference in LS Means|29.39|||<|0.0001|TWO_SIDED|95.0|21.86|36.92|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001 (NCT00282607).||36.92|21.86|<0.0001
82380545|NCT01037218|164470818|SUPERIORITY_OR_OTHER||Difference in LS Means|34.35|||<|0.0001|TWO_SIDED|95.0|26.94|41.75|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to the 4 treatment groups (placebo and udenafil 50mg, 100mg or 150mg). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure. Considerations are based on results from Phase 2, Dong-A Study DA 2005-001(NCT00282607).||41.75|26.94|<0.0001
82380546|NCT00897715|164470819|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED|||||0.05 is the a priori threshold for statistical significance|ANCOVA|||For the primary specific aim, we will compare the mean percent change on hsCRP between the intervention arm and the placebo arm using linear regression. We anticipate that the intervention will conservatively decrease hsCRP by 54%; whereas, placebo will have no effect. Accordingly, we have estimated that we will need 24 subjects in the experimental arm and 24 controls to have an 80% power, with an alpha of 0.05 to detect the above mentioned effect size.||||0.03
82380547|NCT00897715|164470820|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||0.05 is the a priori threshold for statistical significance|ANCOVA|||||||0.01
82380548|NCT02289729|164470835|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380549|NCT02289729|164470836|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380550|NCT02289729|164470837|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380551|NCT02289729|164470838|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380552|NCT02289729|164470839|SUPERIORITY|||||||0.0328|||||||t-test|||||||0.0328
82380553|NCT02289729|164470840|SUPERIORITY|||||||0.4183|||||||t-test|||||||0.4183
82380554|NCT02289729|164470841|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380555|NCT02289729|164470842|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
82514175|NCT02710630|164721278|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|87.26|STANDARD_DEVIATION|60.2|||TWO_SIDED|90.0|69.404|109.722|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||109.722|69.404|
82380556|NCT02289729|164470843|SUPERIORITY|||||||0.0109|||||||t-test|||||||0.0109
82514176|NCT02710630|164721278|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|71.4|STANDARD_DEVIATION|49.2|||TWO_SIDED|90.0|58.828|86.648|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||86.648|58.828|
82514177|NCT02710630|164721278|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|116.67|STANDARD_DEVIATION|37.7|||TWO_SIDED|90.0|100.516|135.41|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||135.410|100.516|
82380557|NCT02289729|164470844|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
82380558|NCT02289729|164470845|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380559|NCT02289729|164470846|SUPERIORITY|||||||0.0002|||||||signed-rank test|||||||0.0002
82380560|NCT02289729|164470847|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380561|NCT02289729|164470848|SUPERIORITY|||||||0.0038|||||||t-test|||||||0.0038
82380562|NCT02289729|164470849|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
82380563|NCT02289729|164470850|SUPERIORITY|||||||0.0274|||||||signed-rank test|||||||0.0274
82514178|NCT02710630|164721278|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|109.85|STANDARD_DEVIATION|38.7|||TWO_SIDED|90.0|94.452|127.75|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||127.750|94.452|
82514179|NCT02710630|164721279|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.69|STANDARD_DEVIATION|40.2|||TWO_SIDED|90.0|98.783|135.491|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||135.491|98.783|
82380564|NCT02289729|164470851|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
82514180|NCT02710630|164721279|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|50.43|STANDARD_DEVIATION|173.7|||TWO_SIDED|90.0|31.519|80.689|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||80.689|31.519|
82380565|NCT02289729|164470852|SUPERIORITY|||||||0.0006|||||||t-test|||||||0.0006
82380566|NCT02289729|164470853|SUPERIORITY|||||||0.001|||||||signed-rank test|||||||0.0010
82380567|NCT02289729|164470854|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
82380568|NCT02289729|164470855|SUPERIORITY|||||||0.0297|||||||t-test|||||||0.0297
82380569|NCT02289729|164470856|SUPERIORITY|||||||0.0279|||||||t-test|||||||0.0279
82380570|NCT02289729|164470857|SUPERIORITY|||||||0.2777|||||||t-test|||||||0.2777
82380571|NCT02289729|164470858|SUPERIORITY|||||||0.0047|||||||t-test|||||||0.0047
82380572|NCT02289729|164470859|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
82380573|NCT02289729|164470860|SUPERIORITY||||||<|0.5877|||||||t-test|||||||<0.5877
82380574|NCT02289729|164470861|SUPERIORITY|||||||0.0002|||||||t-test|||||||0.0002
82570134|NCT00846768|164850636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052|STANDARD_ERROR_OF_MEAN|0.015||0.0006||95.0|-0.081|-0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.023|-0.081|0.0006
82514181|NCT02710630|164721279|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|56.71|STANDARD_DEVIATION|74.2|||TWO_SIDED|90.0|43.388|74.122|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||74.122|43.388|
82514182|NCT02710630|164721279|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.99|STANDARD_DEVIATION|52.8|||TWO_SIDED|90.0|87.554|130.732|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||130.732|87.554|
82514183|NCT02710630|164721279|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.07|STANDARD_DEVIATION|40.7|||TWO_SIDED|90.0|91.399|125.432|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||125.432|91.399|
82570135|NCT00846768|164850636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047|STANDARD_ERROR_OF_MEAN|0.015||0.0019||95.0|-0.076|-0.017|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||-0.017|-0.076|0.0019
82514184|NCT02710630|164721280|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.39|STANDARD_DEVIATION|45.3|||TWO_SIDED|90.0|96.74|137.644|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||137.644|96.740|
82570136|NCT00846768|164850636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.015||0.4111||95.0|-0.041|0.017|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.017|-0.041|0.4111
82380575|NCT02289729|164470862|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<0.0001
82514185|NCT02710630|164721280|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|54.12|STANDARD_DEVIATION|138.6|||TWO_SIDED|90.0|35.818|81.774|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||81.774|35.818|
82514186|NCT02710630|164721280|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|58.96|STANDARD_DEVIATION|71.4|||TWO_SIDED|90.0|45.489|76.431|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||76.431|45.489|
82514187|NCT02710630|164721280|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.38|STANDARD_DEVIATION|57.0|||TWO_SIDED|90.0|85.846|131.836|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||131.836|85.846|
82514188|NCT02710630|164721280|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|103.73|STANDARD_DEVIATION|43.3|||TWO_SIDED|90.0|87.74|122.628|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||122.628|87.740|
82635007|NCT03479203|164985592|OTHER|T-Test followed by Bonferroni post-hoc analysis.|Mean Difference (Final Values)|1.96|STANDARD_DEVIATION|1.5||0.05|TWO_SIDED|95.0|1.0|6.0|||t-test, 2 sided|||"Blood assessed for C-reactive protein (CRP), soluble intercellular adhesion molecule (sICAM), the high mobility group box-1 (HMGB1), the NLRP3 inflammasome, and nitrates (NOx for nitric oxide) pre- and post-vaping. CRP, sICAM HMGB1 and NLRP3 is in ng/ml blood and NOx is in nanomol/ml. These numbers were weighted to obtain an inflammation index in blood. This index represents the fold increase over pre-vaping values."||6|1|0.05
82514189|NCT02710630|164721281|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|115.27|STANDARD_DEVIATION|38.4|||TWO_SIDED|90.0|99.063|134.13|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: A1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||134.130|99.063|
82380576|NCT02289729|164470863|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380577|NCT02289729|164470864|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
82380578|NCT02289729|164470865|SUPERIORITY||||||<|0.0001|||||||t-test|||||||< 0.0001
82380579|NCT02289729|164470866|SUPERIORITY|||||||0.0001|||||||t-test|||||||0.0001
82380580|NCT02289729|164470867|SUPERIORITY||||||<|0.0001|||||||signed-rank test|||||||< 0.0001
82380581|NCT02289729|164470868|SUPERIORITY|||||||0.2428|||||||signed-rank test|||||||0.2428
82380582|NCT02289729|164470869|SUPERIORITY|||||||0.0687|||||||t-test|||||||0.0687
82380583|NCT02289729|164470870|SUPERIORITY|||||||0.3126|||||||t-test|||||||0.3126
82380584|NCT02289729|164470871|SUPERIORITY|||||||0.1533|||||||t-test|||||||0.1533
82380585|NCT02289729|164470872|SUPERIORITY|||||||0.8145|||||||t-test|||||||0.8145
82380586|NCT02289729|164470873|SUPERIORITY|||||||0.4048|||||||t-test|||||||0.4048
82380587|NCT02289729|164470874|SUPERIORITY|||||||0.8321|||||||t-test|||||||0.8321
82380588|NCT02289729|164470875|SUPERIORITY|||||||0.1945|||||||signed-rank test|||||||0.1945
82514190|NCT02710630|164721281|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|83.73|STANDARD_DEVIATION|62.8|||TWO_SIDED|90.0|66.033|106.163|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: B1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||106.163|66.033|
82380589|NCT02289729|164470876|SUPERIORITY|||||||0.7937|||||||t-test|||||||0.7937
82380590|NCT02289729|164470877|SUPERIORITY|||||||0.0234|||||||signed-rank test|||||||0.0234
82380591|NCT02289729|164470878|SUPERIORITY|||||||0.5922|||||||t-test|||||||0.5922
82380592|NCT02289729|164470879|SUPERIORITY|||||||1|||||||t-test|||||||1.000
82380593|NCT02289729|164470880|SUPERIORITY|||||||0.6481|||||||t-test|||||||0.6481
82380594|NCT02289729|164470881|SUPERIORITY|||||||0.6741|||||||t-test|||||||0.6741
82514191|NCT02710630|164721281|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|68.77|STANDARD_DEVIATION|50.3|||TWO_SIDED|90.0|56.452|83.782|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: C1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||83.782|56.452|
82635008|NCT00836342|164985600|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||Null hypothesis: There is no difference in mean carotenoid levels between subjects with a history of squamous cell carcinom and control subjects.||||0.31
82635009|NCT00836342|164985601|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
82514192|NCT02710630|164721281|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|107.13|STANDARD_DEVIATION|49.6|||TWO_SIDED|90.0|88.616|129.51|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: D1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||129.510|88.616|
82635010|NCT00836342|164985602|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
82635011|NCT00656136|164985614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.077||||0.7428|TWO_SIDED|95.0|0.862|1.346||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||Primary analysis was performed after 358 deaths were observed among randomized patients. The data cut-off date for the primary analysis was 08 July 2010.||1.346|0.862|0.7428
82380595|NCT02289729|164470882|OTHER||Fisher's z|0.27846||||0.0389|TWO_SIDED|95.0|0.014175|0.495059|||Fisher's z Transformation|||PDQ-39 with UPDRS-III||0.495059|0.014175|0.0389
82380596|NCT02289729|164470882|OTHER||Fisher's z|0.07359||||0.5852|TWO_SIDED|95.0|-0.188409|0.32558|||Fisher's z Transformation|||PDQ-39 with UPDRS-IV||0.325580|-0.188409|0.5852
82380597|NCT02289729|164470882|OTHER||Fisher's z|0.21311||||0.114|TWO_SIDED|95.0|-0.051127|0.444152|||Fisher's z Transformation|||PDQ-39 with NMSS||0.444152|-0.051127|0.1140
82380598|NCT02289729|164470882|OTHER||Fisher's z|0.29062||||0.0311|TWO_SIDED|95.0|0.026334|0.504186|||Fisher's z Transformation|||PDQ-39 with BAI||0.504186|0.026334|0.0311
82380599|NCT02289729|164470882|OTHER||Fisher's z|0.49952||||0.0002|TWO_SIDED|95.0|0.230995|0.643312|||Fisher's z Transformation|||PDQ-39 with BDI-II||0.643312|0.230995|0.0002
82380600|NCT02289729|164470882|OTHER||Fisher's z|0.08869||||0.5146|TWO_SIDED|95.0|-0.176169|0.341163|||Fisher's z Transformation|||PDQ-39 with AS||0.341163|-0.176169|0.5146
82514193|NCT02710630|164721281|SUPERIORITY_OR_OTHER||Ratio [Test/Reference]|106.64|STANDARD_DEVIATION|38.9|||TWO_SIDED|90.0|91.625|124.114|||||"The adjusted geometric mean (gMean) ratio \[%\] calculated as Dabigatran Etexilate Tablet: E1/Dabigatran Etexilate Capsule: Ref.~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|||124.114|91.625|
82523222|NCT01939548|164741716|SUPERIORITY_OR_OTHER||LSM Difference|-0.23|STANDARD_ERROR_OF_MEAN|1.476||0.8786|TWO_SIDED|80.0|-2.13|1.67||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.67|-2.13|0.8786
82380601|NCT02289729|164470882|OTHER||Fisher's z|0.34688||||0.0108|TWO_SIDED|95.0|0.079996|0.546657|||Fisher's z Transformation|||PDQ-39 with PFS||0.546657|0.079996|0.0108
82514194|NCT03224468|164721282|SUPERIORITY|Power was determined to be 85.2% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.15|0.4||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.40|0.15|<0.001
82635012|NCT00656136|164985614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.976||||0.3955|TWO_SIDED|95.0|0.814|1.17||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||Final analysis was performed after 526 deaths were observed among randomized patients. The data cut-off date for the final analysis was 04 October 2013.||1.170|0.814|0.3955
82635013|NCT00656136|164985615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.381|||<|0.0001|TWO_SIDED|95.0|0.306|0.475||P-value is one-sided (afatinib vs placebo) log rank test stratified by gender and baseline ECOG score (0,1 vs 2)|Regression, Cox|Model stratified by gender and baseline ECOG score (0,1 vs 2)||||0.475|0.306|<0.0001
82635014|NCT00656136|164985616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.61||||0.0071|TWO_SIDED|95.0|2.1|115.0||P-value is derived from logistic regression model adjusted for stratification factors, gender and baseline ECOG score (0, 1 vs 2)|Regression, Logistic|Model stratified by gender and baseline ECOG score (0,1 vs 2)||||115|2.1|0.0071
82635015|NCT02242305|164985642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.809|TWO_SIDED|90.0|-0.33|0.27|||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.|Treatment differences were estimated by reference to the Least Squares (LS) mean differences within 3 days and the corresponding 90% CIs. The mean difference calculated as Hyoscine Butylbromide tablets 10 mg - Hyoscine Butylbromide capsules 10 mg.|||0.27|-0.33|0.809
82635016|NCT02242305|164985642|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.809|TWO_SIDED|95.0|-0.39|0.33|||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.|Treatment differences were estimated by reference to the Least Squares (LS) mean differences within 1 day and the corresponding 90% CIs. The mean difference calculated as Hyoscine Butylbromide tablets 10 mg - Hyoscine Butylbromide capsules 10 mg.|||0.33|-0.39|0.809
82635017|NCT02242305|164985643|SUPERIORITY_OR_OTHER|||||||0.079|||||||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline pain intensity as a covariate was used.||||||0.079
82635018|NCT02242305|164985648|SUPERIORITY_OR_OTHER|||||||0.531|||||||ANCOVA|Analysis of Covariance (ANCOVA) model including treatment and center as fixed effects and baseline score as covariates was used.||||||0.531
82635019|NCT03547960|164985649|SUPERIORITY|||||||0.639|||||||Chi-squared|||||||0.639
82635020|NCT03547960|164985649|SUPERIORITY|||||||0.283|||||||Wilcoxon (Mann-Whitney)|||||||0.283
82380602|NCT02289729|164470882|OTHER||Fisher's z|0.22455||||0.0989|TWO_SIDED|95.0|-0.042139|0.455224|||Fisher's z Transformation|||PDQ-39 with NBL A-S||0.455224|-0.042139|0.0989
82635021|NCT03547960|164985651|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||||||0.564
82635022|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.4|<0.0001
82635023|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.7|<0.0001
82380603|NCT02289729|164470882|OTHER||Fisher's z|0.35742||||0.006|TWO_SIDED|95.0|0.106797|0.565335|||Fisher's z Transformation|||PDQ-39 with NBL C-D||0.565335|0.106797|0.0060
82514195|NCT03224468|164721283|SUPERIORITY|Power was determined to be 83.6% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.45||0.5|TWO_SIDED|95.0|-1.4|0.4||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in scale score for MM above and beyond WLC (positive values denote higher score for MM).|The mean difference in scale scores between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's scale scores at baseline.||0.4|-1.4|0.50
82570137|NCT00846768|164850636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.015||0.709||95.0|-0.035|0.024|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.024|-0.035|0.7090
82380604|NCT02289729|164470882|OTHER||Fisher's z|0.00011||||0.9993|TWO_SIDED|95.0|-0.260462|0.260673|||Fisher's z Transformation|||PDQ-39 with NBL C-R||0.260673|-0.260462|0.9993
82380605|NCT02289729|164470882|OTHER||Fisher's z|-0.36687||||0.0088|TWO_SIDED|95.0|-0.565795|-0.092154|||Fisher's z Transformation|||PDQ-39 with ZBI||-0.092154|-0.565795|0.0088
82380606|NCT02289729|164470882|OTHER||Fisher's z|0.21643||||0.1222|TWO_SIDED|95.0|-0.057959|0.454911|||Fisher's z Transformation|||PDQ-39 with Goldberg-Anxiety||0.454911|-0.057959|0.1222
82635024|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.4||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.4|-2.0|<0.0001
82380607|NCT02289729|164470882|OTHER||Fisher's z|0.57423||||0.0041|TWO_SIDED|95.0|0.180247|0.74704|||Fisher's z Transformation|||PDQ-39 with Goldberg-Depression||0.747040|0.180247|0.0041
82380608|NCT02289729|164470883|OTHER||Fisher's z|0.31946||||0.0239|TWO_SIDED|95.0|0.042257|0.534657|||Fisher's z Transformation|||PDQ-39 with UPDRS-III||0.534657|0.042257|0.0239
82570138|NCT00846768|164850636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.015||0.0211||95.0|0.005|0.064|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.064|0.005|0.0211
82635025|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|0.3||||0.0799|TWO_SIDED|95.0|0.0|0.6||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 3 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.6|-0.0|0.0799
82635026|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.1||||0.3942|TWO_SIDED|95.0|-0.4|0.2||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide 7 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.2|-0.4|0.3942
82635027|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.3||||0.0272|TWO_SIDED|95.0|-0.6|0.0||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurement||Oral semaglutide 14 mg - Liraglutide 0.9 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and stratification factor as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.0|-0.6|0.0272
82635028|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.5|-1.1|<0.0001
82635029|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.5|<0.0001
82380609|NCT02289729|164470883|OTHER||Fisher's z|0.36796||||0.0093|TWO_SIDED|95.0|0.090528|0.568388|||Fisher's z Transformation|||PDQ-39 with UPDRS-IV||0.568388|0.090528|0.0093
82380610|NCT02289729|164470883|OTHER||Fisher's z|0.38627||||0.0069|TWO_SIDED|95.0|0.105875|0.582517|||Fisher's z Transformation|||PDQ-39 with NMSS||0.582517|0.105875|0.0069
82380611|NCT02289729|164470883|OTHER||Fisher's z|0.70289|||<|0.0001|TWO_SIDED|95.0|0.40173|0.753097|||Fisher's z Transformation|||PDQ-39 with BAI||0.753097|0.401730|< 0.0001
82380612|NCT02289729|164470883|OTHER||Fisher's z|0.63758|||<|0.0001|TWO_SIDED|95.0|0.345567|0.72341|||Fisher's z Transformation|||PDQ-39 with BDI-II||0.723410|0.345567|<0.0001
82380613|NCT02289729|164470883|OTHER||Fisher's z|0.24114||||0.0882|TWO_SIDED|95.0|-0.036024|0.476404|||Fisher's z Transformation|||PDQ-39 with AS||0.476404|-0.036024|0.0882
82523223|NCT01939548|164741716|SUPERIORITY_OR_OTHER||LSM Difference|-1.14|STANDARD_ERROR_OF_MEAN|1.502||0.4483|TWO_SIDED|80.0|-3.08|0.79||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.79|-3.08|0.4483
82380614|NCT02289729|164470883|OTHER||Fisher's z|0.67113|||<|0.0001|TWO_SIDED|95.0|0.374757|0.739016|||Fisher's z Transformation|||PDQ-39 with PFS||0.739016|0.374757|< 0.0001
82380615|NCT02289729|164470883|OTHER||Fisher's z|0.60612|||<|0.0001|TWO_SIDED|95.0|0.317572|0.708072|||Fisher's z Transformation|||PDQ-39 with NBL A-S||0.708072|0.317572|< 0.0001
82380616|NCT02289729|164470883|OTHER||Fisher's z|0.60613|||<|0.0001|TWO_SIDED|95.0|0.31758|0.708076|||Fisher's z Transformation|||PDQ-39 with NBL C-D||0.708076|0.317580|< 0.0001
82380617|NCT02289729|164470883|OTHER||Fisher's z|0.41143||||0.0036|TWO_SIDED|95.0|0.133445|0.597087|||Fisher's z Transformation|||PDQ-39 with NBL C-R||0.597087|0.133445|0.0036
82514196|NCT03224468|164721284|SUPERIORITY|Power was determined to be 84.3% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.5||0.9|TWO_SIDED|95.0|-0.3|0.24||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.24|-0.30|0.90
82514197|NCT03224468|164721285|SUPERIORITY|Power was determined to be 83.6% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.5||0.93|TWO_SIDED|95.0|-0.38|0.39||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||0.39|-0.38|0.93
82514198|NCT03224468|164721286|SUPERIORITY|Power was determined to be 90.4% using a Monte Carlo simulation approach in which data were simulated from a multi-level linear regression model with a subject-varying random intercept, a shared baseline across WLC and MMC, and fixed effects for a change over each time point. Simulated data were fit with a linear model estimated via GEE - simulations were repeated 1000 times and power was estimated as the proportion where the contrast between WLC and MM had p\<0.05.|Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-1.3|-0.43||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the five primary outcome measures. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's number of symptoms at baseline.||-0.43|-1.30|<0.001
82514199|NCT03224468|164721287|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.0|2.5|||||Estimate is the mean difference in number of symptoms for MM above and beyond WLC (positive values denote higher number of symptoms for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at weeks 4 and 12 of the study, and for a subject's score at baseline.||2.5|-1.0|
82514200|NCT03224468|164721289|SUPERIORITY||Mean Difference (Net)|-7.7|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-19.0|3.5|||||Estimate is the mean difference in the congruency cost on response time for MM above and beyond WLC (positive values indicate higher cost for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||3.5|-19.0|
82514201|NCT03224468|164721290|SUPERIORITY||Mean Difference (Net)|-24.1|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|95.0|-45.9|-2.2|||||Estimate is the mean difference in the switching cost on response time for MM above and beyond WLC (positive values indicate higher cost for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||-2.2|-45.9|
82514202|NCT03224468|164721291|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|95.0|-0.007|0.011|||||Estimate is the mean difference in discriminability for MM above and beyond WLC (positive values indicate better ability to identify target items for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.011|-0.007|
82514203|NCT03224468|164721292|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.8|1.7|||||Estimate is the mean difference in number of total errors for MM above and beyond WLC (positive values indicate greater number of errors for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||1.7|-1.8|
82514204|NCT03224468|164721293|SUPERIORITY||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-7.4|0.3|||||Estimate is the mean difference in number of repetition errors for MM above and beyond WLC (positive values indicate greater number of errors for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.3|-7.4|
82570139|NCT00846768|164850637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.014||0.1753||95.0|-0.045|0.008|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.008|-0.045|0.1753
82380618|NCT02289729|164470883|OTHER||Fisher's z|-0.33661||||0.0239|TWO_SIDED|95.0|-0.557217|-0.044411|||Fisher's z Transformation|||PDQ-39 with ZBI||-0.044411|-0.557217|0.0239
82380619|NCT02289729|164470883|OTHER||Fisher's z|0.64565|||<|0.0001|TWO_SIDED|95.0|0.339454|0.734221|||Fisher's z Transformation|||PDQ-39 with Goldberg-Anxiety||0.734221|0.339454|< 0.0001
82380620|NCT02289729|164470883|OTHER||Fisher's z|0.10898||||0.7058|TWO_SIDED|95.0|-0.427482|0.588111|||Fisher's z Transformation|||PDQ-39 with Goldberg-Depression||0.588111|-0.427482|0.7058
82380621|NCT02289729|164470884|OTHER||Fisher's z|-0.57271|||<|0.0001|TWO_SIDED|95.0|-0.689585|-0.289724|||Fisher's z Transformation|||SQLC with ZBI||-0.289724|-0.689585|< 0.0001
82570140|NCT00846768|164850637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.014||0.3444||95.0|-0.04|0.014|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.014|-0.040|0.3444
82380622|NCT02289729|164470884|OTHER||Fisher's z|-0.16332||||0.4142|TWO_SIDED|95.0|-0.504489|0.224771|||Fisher's z Transformation|||SQLC with Goldberg Anxiety||0.224771|-0.504489|0.4142
82514205|NCT03224468|164721294|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.2|0.1|||||Estimate is the mean difference in discriminability for MM above and beyond WLC (positive values indicate a greater ability to recognize previously studied words for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||0.1|-0.2|
82380623|NCT02289729|164470884|OTHER||Fisher's z|-0.48143||||0.0239|TWO_SIDED|95.0|-0.715956|-0.063481|||Fisher's z Transformation|||SQLC with Goldberg Depression||-0.063481|-0.715956|0.0239
82380624|NCT02289729|164470884|OTHER||Fisher's z|0.06326||||0.6546|TWO_SIDED|95.0|-0.210715|0.327872|||Fisher's z Transformation|||SQLC with NBL A-S||0.327872|-0.210715|0.6546
82380625|NCT02289729|164470884|OTHER||Fisher's z|0.17674||||0.2114|TWO_SIDED|95.0|-0.100105|0.425116|||Fisher's z Transformation|||SQLC with NBL C-D||0.425116|-0.100105|0.2114
82514206|NCT03224468|164721295|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.2|1.0|||||Estimate is the mean difference in number recalled for MM above and beyond WLC (positive values indicate a greater ability to recall previously studied words for MM).|The mean difference in number of symptoms between the MM and WLC groups was estimated via a linear model with a dummy-coded contrast (0 for WLC, 1 for MM). The model adjusted for change at week 12 of the study, and for a subject's score at baseline.||1.0|-0.2|
82514207|NCT01978119|164721296|NON_INFERIORITY_OR_EQUIVALENCE|Non- inferiority was demonstrated if lower limit of the CI (0.025 one sided significance level) for the difference of the mean change from Baseline in trough FEV1 of FSC administered BID by capsule-based unit dose DPI versus FSC administered BID by multi-dose DPI is greater than -125 milliliter (mL).|Mean Difference (Net)|0.028|||||TWO_SIDED|95.0|-0.024|0.08|||Repeated Measures Mixed Models|||||0.080|-0.024|
82570141|NCT00846768|164850637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.014||0.1161||95.0|-0.005|0.049|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.049|-0.005|0.1161
82570142|NCT00846768|164850637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.014||0.6789||95.0|-0.033|0.021|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.021|-0.033|0.6789
82570143|NCT00846768|164850637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.014||0.0129||95.0|0.007|0.062|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.062|0.007|0.0129
82570144|NCT00846768|164850638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.017||0.4931||95.0|-0.023|0.047|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.047|-0.023|0.4931
82570145|NCT00846768|164850638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.2597||95.0|-0.015|0.054|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.054|-0.015|0.2597
82570146|NCT00846768|164850638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.018||0.0006||95.0|0.027|0.097|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.097|0.027|0.0006
82570147|NCT00846768|164850638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.017||0.6578||95.0|-0.042|0.027|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.027|-0.042|0.6578
82570148|NCT00846768|164850638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.018||0.0175||95.0|0.008|0.077|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.077|0.008|0.0175
82570149|NCT00846768|164850639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.02||0.0353||95.0|-0.081|-0.003|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.003|-0.081|0.0353
82570150|NCT00846768|164850639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.2875||95.0|-0.06|0.018|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.018|-0.060|0.2875
82570151|NCT00846768|164850639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015|STANDARD_ERROR_OF_MEAN|0.02||0.4553||95.0|-0.024|0.054|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.054|-0.024|0.4553
82570152|NCT00846768|164850639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.2902||95.0|-0.06|0.018|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.018|-0.060|0.2902
82380626|NCT02289729|164470884|OTHER||Fisher's z|0.2944||||0.0374|TWO_SIDED|95.0|0.017222|0.516523|||Fisher's z Transformation|||SQLC with NBL C-R||0.516523|0.017222|0.0374
82380627|NCT02289729|164470884|OTHER||Fisher's z|-0.36687||||0.0088|TWO_SIDED|95.0|-0.565795|-0.092154|||Fisher's z Transformation|||SQLC with Global PDQ-39||-0.092154|-0.565795|0.0088
82380628|NCT02289729|164470884|OTHER||Fisher's z|-0.13433||||0.3374|TWO_SIDED|95.0|-0.387439|0.139207|||Fisher's z Transformation|||SQLC with UPDRS-III||0.139207|-0.387439|0.3374
82380629|NCT02289729|164470884|OTHER||Fisher's z|0.17846||||0.2025|TWO_SIDED|95.0|-0.095693|0.424291|||Fisher's z Transformation|||SQLC with UPDRS-IV||0.424291|-0.095693|0.2025
82380630|NCT02289729|164470884|OTHER||Fisher's z|0.01625||||0.9076|TWO_SIDED|95.0|-0.252613|0.282777|||Fisher's z Transformation|||SQLC with Global NMSS||0.282777|-0.252613|0.9076
82514208|NCT01978119|164721297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|||||TWO_SIDED|95.0|-1.039|0.334||||||||0.334|-1.039|
82514209|NCT01978119|164721298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||||TWO_SIDED|95.0|-0.372|0.927||||||||0.927|-0.372|
82514210|NCT01978119|164721299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|||||TWO_SIDED|95.0|-0.074|0.088|||||Day 28 Change from Baseline Analysis|||0.088|-0.074|
82380631|NCT02289729|164470885|OTHER||Fisher's z|-0.7468|||<|0.0001|TWO_SIDED|95.0|-0.777482|-0.425693|||Fisher's z Transformation|||SQLC with ZBI||-0.425693|-0.777482|< 0.0001
82380632|NCT02289729|164470885|OTHER||Fisher's z|0.17924||||0.5347|TWO_SIDED|95.0|-0.368382|0.632178|||Fisher's z Transformation|||SQLC with Goldberg Anxiety||0.632178|-0.368382|0.5347
82380633|NCT02289729|164470885|OTHER||Fisher's z|-0.06987||||0.8251|TWO_SIDED|95.0|-0.597767|0.500464|||Fisher's z Transformation|||SQLC with Goldberg Depression||0.500464|-0.597767|0.8251
82380634|NCT02289729|164470885|OTHER||Fisher's z|-0.1106||||0.4581|TWO_SIDED|95.0|-0.382323|0.179601|||Fisher's z transformation|||SQLC with NBL A-S||0.179601|-0.382323|0.4581
82380635|NCT02289729|164470885|OTHER||Fisher's z|0.00326||||0.9826|TWO_SIDED|95.0|-0.281136|0.287128|||Fisher's z Transformation|||SQLC with NBL C-D||0.287128|-0.281136|0.9826
82380636|NCT02289729|164470885|OTHER||Fisher's z|-0.10293||||0.4899|TWO_SIDED|95.0|-0.375749|0.187021|||Fisher's z Transformation|||SQLC with NBL C-R||0.187021|-0.375749|0.4899
82380637|NCT02289729|164470885|OTHER||Fisher's z|-0.33661||||0.0239|TWO_SIDED|95.0|-0.557217|-0.044411|||Fisher's z Transformation|||SQLC with Global PDQ-39||-0.044411|-0.557217|0.0239
82380638|NCT02289729|164470885|OTHER||Fisher's z|-0.23658||||0.1125|TWO_SIDED|95.0|-0.484427|0.055538|||Fisher's z Transformation|||SQLC with UPDRS-III||0.055538|-0.484427|0.1125
82380639|NCT02289729|164470885|OTHER||Fisher's z|-0.13015||||0.3826|TWO_SIDED|95.0|-0.398887|0.16062|||Fisher's z Transformation|||SQLC with UPDRS-IV||0.160620|-0.398887|0.3826
82380640|NCT02289729|164470885|OTHER||Fisher's z|0.11688||||0.4382|TWO_SIDED|95.0|-0.176724|0.390468|||Fisher's z Transformation|||SQLC with Global NMSS||0.390468|-0.176724|0.4382
82380641|NCT02291237|164470899|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.55||||0.416|TWO_SIDED|95.0|-1.87|0.78|||ANCOVA|P-value and Least Squares (LS) Means are from model with terms for sex, age (continuous), and treatment group and baseline peak VO2 as the covariate.||The analysis evaluated the change in Peak VO2 from baseline to Week 24 for the eleclazine group compared with that of the placebo group using analysis of covariance (ANCOVA) including terms for baseline Peak VO2, sex, and age (continuous).||0.78|-1.87|0.416
82380642|NCT02291237|164470900|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.42||||0.517|TWO_SIDED|95.0|-1.68|0.85||P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline peak VO2 as the covariate.|ANCOVA|||The analysis evaluated the change in Peak VO2 from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline Peak VO2, sex, and age (continuous).||0.85|-1.68|0.517
82380643|NCT02291237|164470901|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|1.54||||0.513|TWO_SIDED|95.0|-3.11|6.19|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in MLHFQ from baseline to Week 24 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||6.19|-3.11|0.513
82514211|NCT01978119|164721299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.022||||||95.0|-0.049|0.092|||||Day 56 Change from Baseline Analysis|||0.092|-0.049|
82514212|NCT01978119|164721300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.35|||||TWO_SIDED|95.0|-1.34|10.05||||||||10.05|-1.34|
82514213|NCT01978119|164721301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.2|0.09||||||||0.09|-0.20|
82380644|NCT02291237|164470902|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|0.1||||0.964|TWO_SIDED|95.0|-4.36|4.56|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in MLHFQ from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||4.56|-4.36|0.964
82380645|NCT02291237|164470903|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|-0.04||||0.944|TWO_SIDED|95.0|-1.18|1.1|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in treadmill exercise time from baseline to Week 24 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||1.10|-1.18|0.944
82380646|NCT02291237|164470904|SUPERIORITY||LS Mean Difference(Eleclazine - Placebo)|0.0||||0.993|TWO_SIDED|95.0|-0.96|0.97|||ANCOVA|P-value and LS Means are from model with terms for sex, age (continuous), and treatment group and baseline score as the covariate.||The analysis evaluated the change in treadmill exercise time from baseline to Week 12 for the eleclazine group compared with that of the placebo group using ANCOVA including terms for baseline treadmill exercise time, sex, and age (continuous).||0.97|-0.96|0.993
82380647|NCT07034820|164470905|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.001|TWO_SIDED|95.0|48.0|64.0||A priori statistical significance threshold for the primary endpoint was set at a two-sided alpha level of 0.05. No adjustment for multiple comparisons was applied to the primary outcome analysis, as it was the sole primary endpoint.|Chi-squared||The Risk Difference (RD) indicates the absolute difference in hemorrhoid regression rates between the Nimsai Herbal Group and the Placebo Group. Calculation: Nimsai Herbal (78%) - Placebo (22%) = 56%.|Powered for 56% difference (80% power, alpha=0.05) to detect the anticipated difference in hemorrhoid regression rates between groups. The sample size of N=300 (150 participants per arm) was calculated based on an expected regression rate of 22% in the placebo group and 78% in the Nimsai Herbal group. This ensured sufficient statistical power for the primary efficacy analysis.||64|48|<0.001
82380648|NCT01074944|164470948|NON_INFERIORITY_OR_EQUIVALENCE|Eliglustat QD treatment was declared non-inferior to BID treatment if the lower bound of the 95% confidence interval (CI) for the difference was within the non-inferiority margin of -0.15 (or -15%).|Difference in Percentage Stable|-2.7|||||TWO_SIDED|95.0|-17.7|11.9||||||||11.9|-17.7|
82380649|NCT03741400|164471005|OTHER|||||||0.88||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in total seconds||||0.88
82380650|NCT03741400|164471005|OTHER|||||||0.99||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in fine motor skill assessment||||0.99
82380651|NCT03741400|164471005|OTHER|||||||0.8||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in gross motor skills assessment||||0.80
82380652|NCT03741400|164471006|OTHER|||||||0.61||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||||||0.61
82514214|NCT01978119|164721303|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.25|||||TWO_SIDED|95.0|-6.97|2.46||||||||2.46|-6.97|
82514215|NCT01978119|164721304|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||||0.5|-0.9|
82380653|NCT03741400|164471007|OTHER|||||||0.47||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in total seconds||||0.47
82380654|NCT03741400|164471007|OTHER|||||||0.55||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in fine motor skill assessment||||0.55
82380655|NCT03741400|164471007|OTHER|||||||0.38||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis of change in gross motor skills assessment||||0.38
82380656|NCT03741400|164471008|OTHER|||||||0.24||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||||||0.24
82380657|NCT03741400|164471009|OTHER|||||||0.18||||||A priori threshold for statistical significance, 0.05|Mann-Whitney U test|||||||0.18
82380658|NCT03741400|164471010|OTHER|||||||0.926||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis at week 12||||0.926
82380659|NCT03741400|164471010|OTHER|||||||0.828||||||A priori threshold for statistical significance, 0.05|ANCOVA|Nonparametric ANCOVA using Quade's test with adjustments for age, sex, and NIHSS||Analysis at week 24||||0.828
82380660|NCT03714828|164471019|OTHER||Overall Response Rate|100.0||||0.0005|ONE_SIDED|95.0|76.2||||One-sample binomial test|One-sample binomial test versus null hypothesis value of 0.50.|||||76.2|0.0005
82380661|NCT03714828|164471021|OTHER|Descriptive statistics|Mean|48.7|STANDARD_DEVIATION|29.2|||TWO_SIDED|||||||||||||
82380662|NCT03714828|164471023|OTHER|Binomial proportion of TILs|Percentage|83.3|||||TWO_SIDED|||||||||||||
82380663|NCT03714828|164471026|OTHER|Counts of TILs|Percentage|100.0|||||TWO_SIDED|||||||||||||
82380664|NCT03714828|164471027|OTHER||Percentage|100.0|||||TWO_SIDED|||||||||||||
82514216|NCT01978119|164721305|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-4.64|3.11||||||||3.11|-4.64|
82514217|NCT00812812|164721306|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.198|TWO_SIDED|95.0|-11.7|2.5|||ANCOVA||Mean difference was estimated as paroxetine minus placebo.|||2.5|-11.7|0.198
82514218|NCT00908960|164721315|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.7||||0.06|TWO_SIDED|95.0|1.03|43.17|||Fine and Gray regression|||||43.17|1.03|0.06
82514219|NCT04165291|164721324|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<.01
82514220|NCT04165291|164721325|OTHER|||||||0.08|||||||ANOVA|||||||.08
82514221|NCT04165291|164721326|SUPERIORITY|||||||0.116|||||||Repeated Measures Analysis of Variance|||||||.116
82514222|NCT04165291|164721327|SUPERIORITY||Mean Difference (Final Values)|5.146|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82514223|NCT04165291|164721328|SUPERIORITY|||||||0.13|||||||ANOVA|||||||.13
82514224|NCT04165291|164721329|SUPERIORITY|||||||0.35|||||||ANOVA|||||||.35
82380665|NCT00972595|164471029|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN™ (ondansetron) 8-mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN™ tablet over-encapsulated/U.K. ZOFRAN™ tablet) of AUC0-∞ and Cmax for ondansetron each lie within the interval 0.80 to 1.25.|Least-Squares Mean Ratio|0.98||||||90.0|0.93|1.03||||||Least-Squares Mean Ratio (OE U.K. tablet / U.K. tablet): an over-encapsulated single 8 mg tablet of United Kingdom (U.K.) ZOFRAN™ (ondansetron) taken orally; a single 8 mg tablet of ZOFRAN™ (ondansetron) which is marketed in the United Kingdom (U.K.) taken orally||1.03|0.93|
82380666|NCT00972595|164471030|NON_INFERIORITY_OR_EQUIVALENCE|Study Primary Hypothesis: A single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet over-encapsulated is bioequivalent to a single dose of the U.K. ZOFRAN™ (ondansetron) 8 mg tablet. That is, the true geometric mean ratios (U.K. ZOFRAN™ tablet over-encapsulated/U.K. ZOFRAN™ tablet) of AUC0-∞ and Cmax for ondansetron each lie within the interval 0.80 to 1.25.|Least-Squares Mean Ratio|0.99||||||90.0|0.93|1.05||||||"Least-Squares Mean Ratio (OE U.K. tablet / U.K. tablet): an over-encapsulated single 8 mg tablet of United Kingdom~(U.K.) ZOFRAN™ (ondansetron) taken orally; a single 8 mg tablet of ZOFRAN™ (ondansetron) which is marketed in the~United Kingdom (U.K.) taken orally"||1.05|0.93|
82514225|NCT03056690|164721330|SUPERIORITY|Mixed model repeated measures (MMRM) analysis model is performed with change from baseline (Week 8) as response; treatment, center (pooled where necessary), time (week 8) and treatment\*time as fixed effects, baseline and baseline\*time as covariates.|LSMean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.25||0.086|TWO_SIDED|90.0|-0.76|0.07|||MMRM|||||0.07|-0.76|0.086
82514226|NCT03056690|164721336|SUPERIORITY||Difference|0.2||||0.551|TWO_SIDED|90.0|-11.9|12.5|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||12.5|-11.9|0.551
82514227|NCT03056690|164721337|SUPERIORITY||Difference|6.9||||0.202|TWO_SIDED|90.0|-5.2|19.1|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||19.1|-5.2|0.202
82514228|NCT03056690|164721338|SUPERIORITY||Difference|1.7||||0.451|TWO_SIDED|90.0|-10.5|13.8|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||13.8|-10.5|0.451
82380667|NCT02586155|164471031|SUPERIORITY||Cox Proportional Hazard|0.823||||0.107|TWO_SIDED|95.0|0.649|1.044|||Stratified long-rank|||||1.044|0.649|0.1070
82380668|NCT02586155|164471032|SUPERIORITY||Cox Proportional Hazard|0.849||||0.1495|TWO_SIDED|95.0|0.679|1.061|||Stratified long-rank|||||1.061|0.679|0.1495
82514229|NCT03056690|164721339|SUPERIORITY||Difference|6.1||||0.174|TWO_SIDED|90.0|-6.2|18.1|||Fisher Exact|CI for each treatment group and the difference of the proportions is an exact unconditional confidence interval based on Santner-Snell approach.||||18.1|-6.2|0.174
82514230|NCT03056690|164721340|SUPERIORITY||Least Square (LS) Mean difference|-1.48|STANDARD_ERROR_OF_MEAN|2.04||0.235|TWO_SIDED|90.0|-4.86|1.9||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 2||1.90|-4.86|0.235
82514231|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-2.97|STANDARD_ERROR_OF_MEAN|2.34||0.103|TWO_SIDED|90.0|-6.84|0.89||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 4||0.89|-6.84|0.103
82514232|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-2.59|STANDARD_ERROR_OF_MEAN|2.53||0.154|TWO_SIDED|90.0|-6.78|1.6||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Function Subscale: Week 8||1.60|-6.78|0.154
82514233|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-1.34|STANDARD_ERROR_OF_MEAN|1.88||0.238|TWO_SIDED|90.0|-4.45|1.77||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 2||1.77|-4.45|0.238
82514234|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-3.73|STANDARD_ERROR_OF_MEAN|2.11||0.039|TWO_SIDED|90.0|-7.22|-0.24||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 4||-0.24|-7.22|0.039
82380669|NCT02586155|164471033|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.03|TWO_SIDED|95.0|0.38|0.94|||Stratified long-rank|||||0.94|0.38|0.03
82380670|NCT02586155|164471034|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.44|TWO_SIDED|95.0|0.62|1.24|||Stratified long-rank|||||1.24|0.62|0.44
82380671|NCT02586155|164471045|SUPERIORITY||Cox Proportional Hazard|0.78||||0.03|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.03
82380672|NCT01168427|164471098|OTHER|There was no formal statistical hypothesis tested. The goal was to estimate the procedure-related complications 90 days post implant using the Kaplan-Meier method.|Rate|0.034|||||ONE_SIDED|95.0||0.1292||||||||0.1292||
82380673|NCT01256879|164471190|OTHER|Each CimTest-A, CimTest-B, and Commercial Cimetidine Solution are compared to Active Comparator (i.e. Sorbitol-free Cimetidine Solution), as a percentage of Active Comparator, per routine FDA bioequivalence testing of AUC.|||||||||||||||||Bioequivalence testing of AUC, per FDA guidance, is applied. Each CimTest-A, CimTest-B, and Commercial Cimetidine Solution are compared to Active Comparator (i.e. Sorbitol-free Cimetidine Solution), as a percentage of Active Comparator, per routine FDA bioequivalence testing of AUC. The upper and lower 90% Confidence Interval for CimTest-A is 104.4% to 120.6%. The upper and lower 90% Confidence Interval for CimTest-B is 97.9% to 113.0%. The upper and lower 90% Confidence Interval for Commercial Cimetidine Solution is 93.2% to 107.7%.|||
82380674|NCT00725920|164471202|SUPERIORITY_OR_OTHER|||||||0.0076||95.0|||||t-test, 2 sided|||||||0.0076
82380675|NCT01243957|164471203|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.79|||||TWO_SIDED|90.0|1.61|2.0|||ANOVA|||||2.00|1.61|
82380676|NCT01243957|164471204|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.63|||||TWO_SIDED|90.0|1.49|1.79|||ANOVA|||||1.79|1.49|
82570153|NCT00846768|164850639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.02||0.0731||95.0|-0.003|0.075|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.075|-0.003|0.0731
82570154|NCT00846768|164850640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.027||0.0917||95.0|-0.008|0.099|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.099|-0.008|0.0917
82570155|NCT00846768|164850640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.027||0.1273||95.0|-0.012|0.095|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.095|-0.012|0.1273
82380677|NCT01243957|164471205|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5459|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.50|-0.50|0.5459
82570156|NCT00846768|164850640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.027||0.008||95.0|0.019|0.127|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.127|0.019|0.0080
82570157|NCT00846768|164850640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.027||0.8683||95.0|-0.049|0.058|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.058|-0.049|0.8683
82570158|NCT00846768|164850640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.027||0.2444||95.0|-0.022|0.086|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.086|-0.022|0.2444
82570159|NCT00846768|164850641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.032||0.0023||95.0|-0.162|-0.036|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||-0.036|-0.162|0.0023
82570160|NCT00846768|164850641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.103|STANDARD_ERROR_OF_MEAN|0.032||0.0015||95.0|-0.165|-0.04|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||-0.040|-0.165|0.0015
82570161|NCT00846768|164850641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.032||0.4508||95.0|-0.087|0.039|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.039|-0.087|0.4508
82570162|NCT00846768|164850641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.032||0.9087||95.0|-0.059|0.066|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.066|-0.059|0.9087
82570163|NCT00846768|164850641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.032||0.0146||95.0|0.016|0.142|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.142|0.016|0.0146
82570164|NCT00846768|164850642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|STANDARD_ERROR_OF_MEAN|0.027||0.3291||95.0|-0.08|0.027|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.027|-0.080|0.3291
82570165|NCT00846768|164850642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.027||0.2638||95.0|-0.084|0.023|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.023|-0.084|0.2638
82570166|NCT00846768|164850642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.027||0.3386||95.0|-0.028|0.08|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.080|-0.028|0.3386
82380678|NCT01243957|164471206|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.99|1.04|||ANOVA|||Ratio of Geometric LS Means of AUCτ for fluoxetine alone and fluoxetine + LY2216684.||1.04|0.99|
82380679|NCT01243957|164471206|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.01|1.06|||ANOVA|||Ratio of Geometric LS Means of AUCτ for norfluoxetine alone and norfluoxetine + LY2216684.||1.06|1.01|
82570167|NCT00846768|164850642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.027||0.8877||95.0|-0.05|0.057|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.057|-0.050|0.8877
82570168|NCT00846768|164850642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.027||0.0402||95.0|0.003|0.111|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.111|0.003|0.0402
82570169|NCT00846768|164850643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.034||0.0133||95.0|0.018|0.151|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.151|0.018|0.0133
82570170|NCT00846768|164850643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.034||0.045||95.0|0.002|0.135|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.135|0.002|0.0450
82514235|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-3.06|STANDARD_ERROR_OF_MEAN|2.34||0.097|TWO_SIDED|90.0|-6.93|0.81||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Symptoms Subscale: Week 8||0.81|-6.93|0.097
82514236|NCT03056690|164721340|SUPERIORITY||LSMean DIfference|-0.99|STANDARD_ERROR_OF_MEAN|0.63||0.057|TWO_SIDED|90.0|-2.03|0.04||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 2||0.04|-2.03|0.057
82514237|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.63||0.018|TWO_SIDED|90.0|-2.39|-0.29||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 4||-0.29|-2.39|0.018
82380680|NCT01243957|164471207|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.0|||||TWO_SIDED|90.0|0.97|1.03|||ANOVA|||Ratio of Geometric LS Means of Cmax for fluoxetine alone and fluoxetine + LY2216684||1.03|0.97|
82380681|NCT01243957|164471207|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|1.0|1.07|||ANOVA|||Ratio of Geometric LS Means of Cmax for norfluoxetine alone and norfluoxetine + LY2216684.||1.07|1.00|
82514238|NCT03056690|164721340|SUPERIORITY||LSMean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.7||0.111|TWO_SIDED|90.0|-2.02|0.3||MMRM analysis model is performed with change from baseline (Weeks 2, 4, and 8) as response; treatment, center (pooled where necessary), time (Weeks 2, 4 and 8), treatment\*time as fixed effects, baseline and baseline\*time as covariates.|MMRM|||Overall Impact Subscale: Week 8||0.30|-2.02|0.111
82514239|NCT03056690|164721341|SUPERIORITY||LSMean difference|-3.15|STANDARD_ERROR_OF_MEAN|2.36||0.092|TWO_SIDED|90.0|-7.05|0.75||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Function Subscale||0.75|-7.05|0.092
82570171|NCT00846768|164850643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.034||0.0078||95.0|0.025|0.159|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.159|0.025|0.0078
82570172|NCT00846768|164850643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.034||0.6268||95.0|-0.05|0.083|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.083|-0.050|0.6268
82570173|NCT00846768|164850643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.034||0.4891||95.0|-0.044|0.091|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.091|-0.044|0.4891
82570174|NCT00846768|164850644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.04||0.6259||95.0|-0.097|0.059|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg bid|||0.059|-0.097|0.6259
82570175|NCT00846768|164850644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.039||0.919||95.0|-0.082|0.074|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 5 mcg bid|||0.074|-0.082|0.9190
82570176|NCT00846768|164850644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.04||0.0985||95.0|-0.012|0.145|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg qd minus Olo 2 mcg bid|||0.145|-0.012|0.0985
82570177|NCT00846768|164850644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.039||0.6991||95.0|-0.093|0.063|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 10 mcg qd minus Olo 5 mcg qd|||0.063|-0.093|0.6991
82380682|NCT01243957|164471208|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.08||||0.423|TWO_SIDED|90.0|-3.0|1.42|||Wilcoxon (Mann-Whitney)|||Ratio of Geometric LS Means of Tmax for fluoxetine alone and fluoxetine + LY2216684.||1.42|-3.00|0.4230
82570178|NCT00846768|164850644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0802||95.0|-0.009|0.149|||Mixed Models Analysis|Means adjusted using a mixed effects model with treatment and period as fixed effects and period as repeated effect with patient as repeated subject.|Olo 5 mcg bid minus Olo 2 mcg bid|||0.149|-0.009|0.0802
82570179|NCT04353817|164850651|SUPERIORITY||Least Squares (LS) Mean Difference|-2.26|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.81|||Mixed-effects Model for Repeated Measure|||||-1.81|-2.71|<0.0001
82380683|NCT01243957|164471208|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0||||0.0293|TWO_SIDED|90.0|-6.5|-1.0|||Wilcoxon (Mann-Whitney)|||Ratio of Geometric LS Means of Tmax for norfluoxetine alone and norfluoxetine + LY2216684.||-1.00|-6.50|0.0293
82380684|NCT02456740|164471209|SUPERIORITY|The primary endpoint was tested independently for each erenumab dose at an alpha level of 0.04 for 70 mg and of 0.01 for 140 mg to maintain the type 1 error rate at an alpha level of 0.05.|LS Mean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.88|-0.92|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.92|-1.88|< 0.001
82570180|NCT04353817|164850652|SUPERIORITY||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-55.3|-47.1||This is the nominal p-value without multiplicity controlled.|Mixed-effects Model for Repeated Measure|||||-47.1|-55.3|<0.0001
82570181|NCT04358068|164850660|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.51||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.51
82570182|NCT04358068|164850661|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.79||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.79
82570183|NCT04358068|164850662|SUPERIORITY|Participant specific AUCs were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.53||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.53
82570184|NCT04358068|164850663|SUPERIORITY|Participant specific durations were compared between randomized arms using a two-sided Wilcoxon test with a two-sided 5% type I error rate||||||0.83||||||Wilcoxon Test was not stratified by high/low risk because of the small number enrolled|Wilcoxon (Mann-Whitney)|||||||0.83
82635030|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.1|-1.7|<0.0001
82635031|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|0.2||||0.1958|TWO_SIDED|95.0|-0.1|0.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 3 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.5|-0.1|0.1958
82635032|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.2||||0.1868|TWO_SIDED|95.0|-0.5|0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 7 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.1|-0.5|0.1868
82635033|NCT03018028|164985652|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.4||||0.0077|TWO_SIDED|95.0|-0.7|-0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Liraglutide 0.9 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as a covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.1|-0.7|0.0077
82635034|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.63||||0.2579|TWO_SIDED|95.0|0.29|1.4||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.40|0.29|0.2579
82635035|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.25||||0.0052|TWO_SIDED|95.0|0.1|0.66||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.66|0.10|0.0052
82635036|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.31||||0.0259|TWO_SIDED|95.0|0.11|0.87||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.87|0.11|0.0259
82514240|NCT03056690|164721341|SUPERIORITY||LSMean difference|-3.29|STANDARD_ERROR_OF_MEAN|2.16||0.065|TWO_SIDED|90.0|-6.85|0.28||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Symptoms subscale||0.28|-6.85|0.065
82514241|NCT03056690|164721341|SUPERIORITY||LSMean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.65||0.049|TWO_SIDED|90.0|-2.15|-0.01||ANCOVA model is performed with change from baseline at the EOT timepoint as response treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.|ANCOVA|||Overall Impact Subscale.||-0.01|-2.15|0.049
82570185|NCT00338949|164850667|SUPERIORITY_OR_OTHER_LEGACY|||||||0.228|||||||t-test, 2 sided|||||||0.228
82514242|NCT03056690|164721342|SUPERIORITY|The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Odds Ratio (OR)|1.43||||0.192|TWO_SIDED|90.0|0.91|2.24|||Likelihood test|||Week 2||2.24|0.91|0.192
82514243|NCT03056690|164721342|SUPERIORITY||Odds Ratio (OR)|1.33||||0.285|TWO_SIDED|90.0|0.86|2.07||The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Likelihod test|||Week 4||2.07|0.86|0.285
82514244|NCT03056690|164721342|SUPERIORITY||Odds Ratio (OR)|1.2||||0.486|TWO_SIDED|90.0|0.78|1.87||The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test. p-value is for the comparison of ASP0819 15 mg with Placebo from the above described proportional odds model.|Likelihood test|||EOT||1.87|0.78|0.486
82380685|NCT02456740|164471209|SUPERIORITY|The primary endpoint was tested independently for each erenumab dose at an alpha level of 0.04 for 70 mg and of 0.01 for 140 mg to maintain the type 1 error rate at an alpha level of 0.05.|LS Mean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.33|-1.37|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.37|-2.33|< 0.001
82514245|NCT03056690|164721343|SUPERIORITY|The 90% 2-sided CI is based on profile likelihood and 2-sided p-value is based on likelihood test.|Odds Ratio (OR)|1.32||||0.305|TWO_SIDED|90.0|0.85|2.05|||Likelihood test|||Week 8||2.05|0.85|0.305
82514246|NCT02127307|164721349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.446|||<|0.0001|TWO_SIDED|95.0|0.3227|0.6156||At 0.025 level of significance.|Cox proportional hazards model|||"AdreView-Heart Failure Group with H/M \<1.60 vs. H/M ≥1.60:~Data analysis was performed using Cox proportional hazards model to demonstrate the relationship of consensus numeric H/M ratio and time to adverse cardiac events to identify participants with higher risk of death. Hazard (risk) of a death for a participant with H/M ratio at time t was expressed as Hl (t)/Hh (t)=Ψ,where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.6156|0.3227|<0.0001
82514247|NCT02797262|164721374|SUPERIORITY||Mean Difference (Net)|0.02||||0.57|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)||Treatment Difference = Intervention - Control|Compared the IPAM score between two groups.||||0.57
82380686|NCT02456740|164471210|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 70 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.04.|Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.52|2.98|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test, stratified by the randomization stratification factors (region and prior/current treatment with migraine prophylactic medication).||2.98|1.52|< 0.001
82380687|NCT02456740|164471210|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 140 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.01.|Odds Ratio (OR)|2.81|||<|0.001|TWO_SIDED|95.0|2.01|3.94|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test, stratified by the randomization stratification factors (region and prior/current treatment with migraine prophylactic medication).||3.94|2.01|< 0.001
82514248|NCT02797262|164721376|SUPERIORITY||Mean Difference (Net)|-0.02||||0.08|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the change of the plasma HIV RNA levels during the intervention period (week 0-16) between two groups.||||0.08
82514249|NCT02797262|164721376|SUPERIORITY||Mean Difference (Net)|-0.02||||0.23|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the change of the plasma HIV RNA levels during the post-intervention period (week 16-28) between two groups.||||0.23
82514250|NCT02797262|164721376|SUPERIORITY||Mean Difference (Net)|-0.73||||0.03|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Treatment Difference = Intervention - Control|Compared the plasma HIV RNA levels during week 4-28 between two groups.||||0.03
82570186|NCT00338949|164850668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958|||||||t-test, 2 sided|||||||0.958
82380688|NCT02456740|164471211|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 70 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.04.|LS Mean Difference|-0.94|||<|0.001|TWO_SIDED|95.0|-1.23|-0.64|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.64|-1.23|< 0.001
82380689|NCT02456740|164471211|SUPERIORITY|If the primary endpoint was statistically significant for the erenumab 140 mg group, using a gate-keeping strategy, the first two (first tier) secondary endpoints were tested using the Hochberg method at an alpha level of 0.01.|LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.71|-1.12|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, (stratification factors region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.12|-1.71|< 0.001
82380690|NCT02456740|164471212|SUPERIORITY|If the first tier secondary endpoints were statistically significant for both erenumab doses the erenumab 140 mg group for the 2 remaining MPFID secondary endpoints was tested using the Hochberg method at a level of 0.05; If only the erenumab 70 mg group or 140 mg group showed statistical significance for the first tier secondary endpoints then the erenumab 140 group for the 2 remaining MPFID secondary endpoints was tested for significance at a level of either 0.04 or 0.01 respectively.|LS Mean Difference|-2.43|||<|0.001|TWO_SIDED|95.0|-3.51|-1.35|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.35|-3.51|< 0.001
82380691|NCT02456740|164471212|SUPERIORITY|If the erenumab 140 mg group for both remaining MPFID secondary endpoints were statistically significant, then the erenumab 70 mg group for the two remaining MPFID secondary endpoints was tested for significance using the Hochberg method with the same alpha level carried over from 140 mg group.|LS Mean Difference|-1.86|||<|0.001|TWO_SIDED|95.0|-2.95|-0.77|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-0.77|-2.95|< 0.001
82570187|NCT01841112|164850671|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3712|||||TWO_SIDED|95.0|0.7272|2.0151|||||The standard error of slope estimate = 0.3038.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||2.0151|0.7272|
82380692|NCT02456740|164471213|SUPERIORITY|If the first tier secondary endpoints were statistically significant for both erenumab doses the erenumab 140 mg group for the 2 remaining MPFID secondary endpoints was tested using the Hochberg method at a level of 0.05; If only the erenumab 70 mg group or 140 mg group showed statistical significance for the first tier secondary endpoints then the erenumab 140 group for the 2 remaining MPFID secondary endpoints was tested for significance at a level of either 0.04 or 0.01 respectively.|LS Mean Difference|-2.57|||<|0.001|TWO_SIDED|95.0|-3.62|-1.51|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.51|-3.62|< 0.001
82380693|NCT02456740|164471213|SUPERIORITY|If the erenumab 140 mg group for both remaining MPFID secondary endpoints were statistically significant, then the erenumab 70 mg group for the two remaining MPFID secondary endpoints was tested for significance using the Hochberg method with the same alpha level carried over from 140 mg group.|LS Mean Difference|-2.22|||<|0.001|TWO_SIDED|95.0|-3.28|-1.16|||Generalized Linear Mixed Model|||Analyzed using a generalized linear mixed model which includes treatment, visit, treatment by visit interaction, stratification factors (region and prior/current treatment with migraine prophylactic medication), and baseline value as covariates.||-1.16|-3.28|< 0.001
82380694|NCT02892331|164471231|SUPERIORITY|||||||0.006||||||VO2 testing was not performed for one participant in the HIGH-INT group.|ANCOVA|||Comparison between the CON and the HIGH-INT group||||0.006
82380695|NCT02892331|164471231|SUPERIORITY|||||||0.045||||||VO2 testing was not performed for one participant in the HIGH-INT group.|ANCOVA|||Comparison between the CON and MOD-INT group||||0.045
82380696|NCT02892331|164471231|SUPERIORITY|VO2 testing was not performed for one participant in the HIGH-INT group.||||||0.449|||||||ANCOVA|||Comparison between MOD-INT and High-INT groups||||0.449
82380697|NCT02892331|164471232|SUPERIORITY|||||||0.276|||||||ANCOVA|||Comparison between the CON and High-INT groups||||0.276
82380698|NCT02892331|164471232|SUPERIORITY|||||||0.633|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.633
82380699|NCT02892331|164471232|SUPERIORITY|||||||0.555|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.555
82380700|NCT02892331|164471233|SUPERIORITY|||||||0.37|||||||ANCOVA|||Comparison between the CON group and the HIGH-INT group||||0.370
82380701|NCT02892331|164471233|SUPERIORITY|||||||0.383|||||||ANCOVA|||Comparison between the CON and the MOD-INT group||||0.383
82380702|NCT02892331|164471233|SUPERIORITY|||||||0.0972|||||||ANCOVA|||Comparison for the MOD-INT and HIGH-INT groups||||0.0972
82380703|NCT02892331|164471234|SUPERIORITY|||||||0.932|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.932
82380704|NCT02892331|164471234|SUPERIORITY|||||||0.307|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.307
82380705|NCT02892331|164471234|SUPERIORITY|||||||0.376|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.376
82514251|NCT03837496|164721399|SUPERIORITY||Slope|-0.66||||0.504|TWO_SIDED|95.0|-2.59|1.27||a priori threshold p\<0.05|ANCOVA|Adjusted for distress and receipt of ovarian suppression.||Analysis comparing the change in monthly adherence to adjuvant endocrine therapy across the study period adjusting for distress and receipt of ovarian suppression.||1.27|-2.59|.504
82514252|NCT03837496|164721399|SUPERIORITY||Slope|-0.17||||0.225|TWO_SIDED|95.0|-0.44|-0.1||a priori threshold p\<0.05|ANCOVA|Adjusted for distress and receipt of ovarian suppression||Analysis comparing the change in weekly adherence rates to adjuvant endocrine therapy across the study period adjusting for distress and receipt of ovarian suppression.||-0.10|-0.44|.225
82380706|NCT02892331|164471235|SUPERIORITY|||||||0.136|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.136
82380707|NCT02892331|164471235|SUPERIORITY|||||||0.262|||||||ANCOVA|||Comparison between the CON and the MOD-INT group||||0.262
82380708|NCT02892331|164471235|SUPERIORITY|||||||0.715|||||||ANCOVA|||Comparison between the MOD-INT group and the HIGH-INT groups||||0.715
82380709|NCT02892331|164471236|SUPERIORITY|||||||0.056|||||||ANCOVA|||Comparison between the CON and High-INT groups||||0.056
82380710|NCT02892331|164471236|SUPERIORITY|||||||0.349|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.349
82380711|NCT02892331|164471236|SUPERIORITY|||||||0.359|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.359
82380712|NCT02892331|164471237|SUPERIORITY|||||||0.224|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.224
82380713|NCT02892331|164471237|SUPERIORITY|||||||0.199|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.199
82380714|NCT02892331|164471237|SUPERIORITY|||||||0.952|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.952
82380715|NCT02892331|164471238|SUPERIORITY|||||||0.783|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.783
82514253|NCT03837496|164721400|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.63|TWO_SIDED|95.0|-0.4|0.66||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in self-reported endocrine therapy adherence between groups on the MARS-5 scale from baseline to 12-weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||0.66|-0.40|.630
82380716|NCT02892331|164471238|SUPERIORITY|||||||0.098|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.098
82380717|NCT02892331|164471238|SUPERIORITY|||||||0.071|||||||ANCOVA|||Comparison between the MOD and HIGH-INT groups||||0.071
82380718|NCT02892331|164471239|SUPERIORITY|||||||0.94|||||||ANCOVA|||Comparison between the CON and the HIGH-INT groups||||0.940
82380719|NCT02892331|164471239|SUPERIORITY|||||||0.994|||||||ANCOVA|||Comparison between the CON and MOD-INT groups||||0.994
82380720|NCT02892331|164471239|SUPERIORITY|||||||0.94|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.940
82380721|NCT02892331|164471240|SUPERIORITY|||||||0.769|||||||ANCOVA|||Comparison of the CON and HIGH-INT groups||||0.769
82380722|NCT02892331|164471240|SUPERIORITY|||||||0.8|||||||ANCOVA|||Comparison of the CON and MOD-INT groups||||0.800
82380723|NCT02892331|164471240|SUPERIORITY|||||||0.769|||||||ANCOVA|||||||0.769
82380724|NCT02892331|164471241|SUPERIORITY|||||||1|||||||ANCOVA|||Comparison between the CON and the MOD groups||||1.000
82380725|NCT02892331|164471241|SUPERIORITY|||||||0.993|||||||ANCOVA|||Comparison of HIGH-INT and CON groups||||0.993
82380726|NCT02892331|164471241|SUPERIORITY|||||||0.994|||||||ANCOVA|||Comparison between the MOD-INT and the HIGH-INT groups||||0.994
82514254|NCT03837496|164721401|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.186|TWO_SIDED|95.0|-1.27|6.44||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in satisfaction with adjuvant endocrine therapy between groups on the CTSQ from baseline to 12 weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||6.44|-1.27|.186
82514255|NCT03837496|164721402|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.562|TWO_SIDED|95.0|-3.49|1.91||a priori threshold p \< 0.05|ANCOVA|Adjusted for baseline values of criterion outcomes, distress and receipt of ovarian suppression||Analysis comparing the change in symptom distress between groups on the BCPT scale from baseline to 12-weeks post-baseline adjusting for distress, receipt of ovarian suppression, and baseline values of criterion outcome.||1.91|-3.49|.562
82514256|NCT04551105|164721448|SUPERIORITY||different in area under the LROC curve|0.0374|||<|0.05|TWO_SIDED|95.0|0.019|0.0557|||OR-DBM model|||||0.0557|0.0190|<0.05
82514257|NCT04551105|164721449|SUPERIORITY||Mean Difference (Net)|12.78|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82514258|NCT04551105|164721450|SUPERIORITY||different in sensitivity|-0.0013|||<|0.05|TWO_SIDED|95.0|-0.2307|0.2281|||McNemar|||||0.2281|-0.2307|<0.05
82380727|NCT02892331|164471242|SUPERIORITY|||||||0.821|||||||ANCOVA|||Change in insulin sensitivity (CON vs. HIGH-INT)||||0.821
82380728|NCT02892331|164471242|SUPERIORITY|||||||0.985|||||||ANCOVA|||Change in insulin sensitivity (CON vs. MOD-INT)||||0.985
82380729|NCT02892331|164471242|SUPERIORITY|||||||0.856|||||||ANCOVA|||Change in insulin sensitivity (MOD-INT vs. HIGH-INT)||||0.856
82514259|NCT04551105|164721450|SUPERIORITY||different in specificity|0.1065|||<|0.05|TWO_SIDED|95.0|0.0008|0.2122|||McNemar|||||0.2122|0.0008|<0.05
82380730|NCT02892331|164471243|SUPERIORITY|||||||0.093|||||||ANCOVA|||Comparison between the CON and HIGH-INT groups||||0.093
82380731|NCT02892331|164471243|SUPERIORITY|||||||0.033|||||||ANCOVA|||Comparison between the CON and the MOD-INT groups||||0.033
82380732|NCT02892331|164471243|SUPERIORITY|||||||0.602|||||||ANCOVA|||Comparison between the MOD-INT and HIGH-INT groups||||0.602
82380733|NCT02892331|164471244|SUPERIORITY|||||||0.424|||||||ANCOVA|||Change in PGC1A (CON vs. HIGH-INT)||||0.424
82514260|NCT04551105|164721450|SUPERIORITY||different in PPV|-0.086|||<|0.05|TWO_SIDED|95.0|-0.1824|0.0104|||McNemar|||||0.0104|-0.1824|<0.05
82514261|NCT04551105|164721450|SUPERIORITY||different in NPV|0.086|||<|0.05|TWO_SIDED|95.0|-0.0104|0.1824|||McNemar|||||0.1824|-0.0104|<0.05
82514262|NCT02447991|164721451|SUPERIORITY||||||<|0.33||||||Significance level p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.33
82380734|NCT02892331|164471244|SUPERIORITY|||||||0.308|||||||ANCOVA|||Change in PGC1A (CON vs. MOD-INT)||||0.308
82380735|NCT02892331|164471244|SUPERIORITY|||||||0.844|||||||ANCOVA|||Change in PGC1a (MOD-INT vs. HIGH-INT)||||0.844
82380736|NCT02892331|164471244|SUPERIORITY|||||||0.135|||||||ANCOVA|||Change in citrate synthase (CON vs. HIGH-INT)||||0.135
82380737|NCT02892331|164471244|SUPERIORITY|||||||0.8|||||||ANCOVA|||Change in Citrate synthase (CON vs. MOD-INT)||||0.800
82380738|NCT02892331|164471244|SUPERIORITY|||||||0.195|||||||ANCOVA|||Change in citrate synthase||||0.195
82380739|NCT02892331|164471244|SUPERIORITY|||||||0.459|||||||ANCOVA|||Change in complex I||||0.459
82514263|NCT02447991|164721452|SUPERIORITY||||||<|0.18||||||Signficant at p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication||||<0.18
82514264|NCT02447991|164721453|SUPERIORITY||||||<|0.62||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo as measured by the proportion of treated episodes in which subjects experience freedom from vestibular symptoms (i.e., severity rating of Grade 0) at 1 hour after taking study medication.||||<0.62
82380740|NCT02892331|164471244|SUPERIORITY|||||||0.213|||||||ANCOVA|||Change in complex 1 (CON vs. MOD-INT groups)||||0.213
82380741|NCT02892331|164471244|SUPERIORITY|||||||0.971|||||||ANCOVA|||Change in complex II (MOD-INT vs. HIGH-INT)||||0.971
82380742|NCT02892331|164471244|SUPERIORITY|||||||0.634|||||||ANCOVA|||Change in complex III (CON vs. HIGH-INT)||||0.634
82514265|NCT02447991|164721454|SUPERIORITY||||||<|0.19||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportions of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness as measured by the proportion of treated episodes in which subjects experience freedom from vestibular symptoms (i.e., severity rating of Grade 0) at 1 hour after taking study medication.||||<0.19
82514266|NCT02447991|164721455|SUPERIORITY||||||<|0.14||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of headaches as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.14
82514267|NCT02447991|164721456|SUPERIORITY||||||<|0.72||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of photophobia/phonophobia as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.72
82514268|NCT02447991|164721457|SUPERIORITY||||||<|0.48||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of sensitivity to motion as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication.||||<0.48
82514269|NCT02447991|164721458|SUPERIORITY||||||<|0.35||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of nausea/vomiting as measured by the proportion of treated episodes in which subjects experience a reduction in severity rating from Grade 3/2 to Grade 1/0 at 1 hour after taking study medication..||||<0.35
82514270|NCT02447991|164721459|SUPERIORITY||||||<|0.022||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with effectiveness of study medication||||<0.022
82514271|NCT02447991|164721459|SUPERIORITY||||||<|0.418||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with side effects of study medication||||<0.418
82514272|NCT02447991|164721459|SUPERIORITY||||||<|0.674||||||Significance of threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with convenience of study medication||||<0.674
82514273|NCT02447991|164721459|SUPERIORITY||||||<|0.016||||||Significance of threshold of p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on the Treatment Satisfaction Questionnaire for Medication at 48 hours after each attack treated with overall satisfaction of study medication||||<0.016
82514274|NCT02447991|164721460|SUPERIORITY||||||<|0.009||||||Significance threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on physical well-being||||<0.009
82514275|NCT02447991|164721460|SUPERIORITY||||||<|0.467||||||Significance threshold p\<0.05|Regression, Linear|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo on mental well-being||||<0.467
82514276|NCT02447991|164721461|SUPERIORITY||||||<|0.013||||||Significance threshold p\<0.05|Logistic regression with GEE|GEE=generalized estimating equations - this accounts for repeated measures within patients.This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be tolerated as well as placebo with regard to fatigue.||||<0.013
82514277|NCT02447991|164721461|SUPERIORITY||||||<|0.021||||||Significance threshold p\<0.05|Logistic regression with GEE|GEE=generalized estimating equations - this accounts for repeated measures within patients. This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be tolerated as well as placebo with regard to sleepiness/drowsiness||||<0.021
82514278|NCT02447991|164721462|SUPERIORITY||||||<|0.76||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of vertigo measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.76
82514279|NCT02447991|164721463|SUPERIORITY||||||<|0.041||||||Significance threshold p \< 0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of unsteadiness/dizziness episodes measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.041
82514280|NCT02447991|164721464|SUPERIORITY||||||<|0.12||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of headaches measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.12
82380743|NCT02892331|164471244|SUPERIORITY|||||||0.919|||||||ANCOVA|||Change in Complex III (CON vs. MOD-INT groups)||||0.919
82514281|NCT02447991|164721465|SUPERIORITY||||||<|0.051||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of photophobia/phonophobia measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.051
82514282|NCT02447991|164721466|SUPERIORITY||||||<|0.006||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of sensitivity to motion measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.006
82514283|NCT02447991|164721467|SUPERIORITY||||||<|0.67||||||Significance threshold p\<0.05|Chi-squared, Corrected|This analysis applies to proportion of treated episodes.||Hypothesis: Rizatriptan will be superior to placebo in reducing the severity of nausea/vomiting measured by the proportion of treated episodes that subjects rate at grade 1/0 24 hours after taking study medication.||||<0.67
82514284|NCT00019682|164721483|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.035
82380744|NCT02892331|164471244|SUPERIORITY|||||||0.574|||||||ANCOVA|||Change in complex III||||0.574
82380745|NCT02892331|164471244|SUPERIORITY|||||||0.295|||||||ANCOVA|||Change in Complex IV (CON vs. HIGH-INT)||||0.295
82514285|NCT00019682|164721484|SUPERIORITY|||||||0.008||||||Unadjusted 2 tail p value.|Log Rank|||||||0.008
82514286|NCT00019682|164721485|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82514287|NCT00019682|164721486|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||FACT-G scale||||>0.05
82514288|NCT00019682|164721486|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||FACT-F scale||||>0.05
82514289|NCT00019682|164721486|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||SF-36 scale||||>0.05
82514290|NCT00019682|164721486|NON_INFERIORITY|Evaluated inferiority in quality of life outcomes between arms.|||||>|0.05|||||||Mixed Models Analysis|||SDS scale||||>0.05
82514291|NCT01612546|164721498|OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
82514292|NCT02276495|164721503|SUPERIORITY|||||||0.668|||||||Kruskal-Wallis|||||||0.668
82570188|NCT01841112|164850671|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3652|||||TWO_SIDED|95.0|1.0421|1.6883|||||The standard error of slope estimate = 0.1516.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.6883|1.0421|
82380746|NCT02892331|164471244|SUPERIORITY|||||||0.097|||||||ANCOVA|||Change in complex IV (CON vs. MOD-INT)||||0.097
82514293|NCT02276495|164721504|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
82570189|NCT01841112|164850672|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.1998|||||TWO_SIDED|95.0|0.4794|1.9202|||||The standard error of slope estimate = 0.3380.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.9202|0.4794|
82570190|NCT01841112|164850672|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0299|||||TWO_SIDED|95.0|0.7131|1.3466|||||The standard error of slope estimate = 0.1486.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.3466|0.7131|
82570191|NCT01841112|164850673|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2015|||||TWO_SIDED|95.0|0.5078|1.8952|||||The standard error of slope estimate = 0.3272.|Dose proportionality was assessed in Chinese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.8952|0.5078|
82514294|NCT02276495|164721505|SUPERIORITY|||||||0.013|||||||Kruskal-Wallis|||||||0.013
82514295|NCT03246529|164721511|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified Cochran-Mantel-Haenszel (CMH) test (by response status and baseline platelet count),||||||<0.0001
82514296|NCT03246529|164721512|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82514297|NCT03246529|164721513|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82514298|NCT01040871|164721554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.038||||0.915|TWO_SIDED|95.0|0.529|2.037|||Cochran-Mantel-Haenszel|Stratified by IPI score|Odds ratio: VR-CAP CR rate relative to R-CHOP CR rate|||2.037|0.529|0.915
82514299|NCT00673049|164721571|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.35|TWO_SIDED|95.0|0.909|1.31||One-sided significance level at alpha=0.024 was used. Two-sided p-value was reported.|Log Rank|Nominal p-values were reported without adjustment for the interim analysis.||P-value was calculated using log-rank test stratified by gender (Male or Female), Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to \[=\<1\] or 2), and region (United States/Canada, European Union, rest of world). The stratified Cox proportional hazards model was fitted to estimate the hazard ratio, using the same stratification variables as above.||1.310|0.909|0.35
82514300|NCT00673049|164721572|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.426|TWO_SIDED|95.0|0.898|1.287||One-sided significance level at alpha=0.001 was used. Two-sided p-value was reported.|Log Rank|||P-value was calculated using log-rank test stratified by gender (Male or Female), ECOG performance status (less than or equal to \[=\<1\] or 2), and region (United States/Canada, European Union, rest of world). The stratified Cox proportional hazards model was fitted to estimate the hazard ratio, using the same stratification variables as above.||1.287|0.898|0.426
82514301|NCT00673049|164721573|SUPERIORITY_OR_OTHER||Difference in response rates|1.668||||0.338|TWO_SIDED|95.0|-1.7|5.1|||Chi-squared|||||5.1|-1.7|0.338
82514302|NCT01175824|164721594|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the upper limit of the 95% confidence interval (CI) of the difference in the LS mean between the two treatment arms (twice-daily insulin lispro Low Mixture minus the comparator arm) at 24 weeks is \<0.4%.|LS mean difference|-0.21|||||TWO_SIDED|95.0|-0.38|-0.04||||||||-0.04|-0.38|
82514303|NCT01175824|164721595|SUPERIORITY_OR_OTHER|||||||0.1858||95.0|||||Mixed Models Analysis|||||||0.1858
82514304|NCT01175824|164721596|SUPERIORITY_OR_OTHER|||||||0.3588||95.0||||HbA1c concentration \<7%|Fisher Exact|||||||0.3588
82514305|NCT01175824|164721596|SUPERIORITY_OR_OTHER|||||||0.5958||95.0||||HbA1c \<=6.5%|Fisher Exact|||||||0.5958
82514306|NCT01175824|164721597|SUPERIORITY_OR_OTHER|||||||0.0827||95.0||||p-value is for the Week 12 comparison|Mixed Models Analysis|||||||0.0827
82514307|NCT01175824|164721597|SUPERIORITY_OR_OTHER|||||||0.5353||95.0||||p-value is for the Week 24 comparison|Mixed Models Analysis|||||||0.5353
82514308|NCT01175824|164721601|SUPERIORITY_OR_OTHER|||||||0.2833||95.0||||p-value is for the comparison at Week 12.|Mixed Models Analysis|||||||0.2833
82635037|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|2.7||||0.0674|TWO_SIDED|95.0|0.93|7.8||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||7.80|0.93|0.0674
82380747|NCT02892331|164471244|SUPERIORITY|||||||0.468|||||||ANCOVA|||Change in complex IV||||0.468
82514309|NCT01175824|164721601|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||p-value is for the comparison at Week 24.|Mixed Models Analysis|||||||0.0176
82570192|NCT01841112|164850673|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0301|||||TWO_SIDED|95.0|0.7133|1.3469|||||The standard error of slope estimate = 0.1486.|Dose proportionality was assessed in Japanese subjects. For the power model perfect dose proportionality would correspond to a slope of 1.||1.3469|0.7133|
82380748|NCT02892331|164471244|SUPERIORITY|||||||0.589|||||||ANCOVA|||Change in complex V||||0.589
82380749|NCT02892331|164471244|SUPERIORITY|||||||0.196|||||||ANCOVA|||Change in complex V (CON vs. MOD-INT)||||0.196
82380750|NCT02892331|164471244|SUPERIORITY|||||||0.436|||||||ANCOVA|||Change in Complex V (MOD-INT vs. HIGH-INT)||||0.436
82380751|NCT02892331|164471245|SUPERIORITY|||||||0.756|||||||ANCOVA|||Comparison of general health subscale (CON vs. HIGH INT)||||0.756
82380752|NCT02892331|164471245|SUPERIORITY|||||||0.115|||||||ANCOVA|||General Health Subscale (CON vs. MOD-INT)||||0.115
82380753|NCT02892331|164471245|SUPERIORITY|||||||0.225|||||||ANCOVA|||General Health Subscale (MOD-INT vs. HIGH-INT)||||0.225
82380754|NCT02892331|164471245|SUPERIORITY|||||||0.758|||||||ANCOVA|||Physical health Sub-scale (CON vs. HIGH-INT)||||0.758
82514310|NCT01175824|164721607|SUPERIORITY_OR_OTHER||LS mean difference|-0.22|||||TWO_SIDED|95.0|-0.39|-0.05||||Superiority will be concluded if of 95% CI upper limit for treatment difference (2x-daily insulin lispro LM minus the comparator arm) at 24 wks is \<0%||||-0.05|-0.39|
82514311|NCT02979535|164721610|OTHER||GMT ratio|0.947|||||TWO_SIDED|95.0|0.773|1.16||||||Antigen HPV-16||1.16|0.773|
82380755|NCT02892331|164471245|SUPERIORITY|||||||0.759|||||||ANCOVA|||Physical health subscale (CON vs. MOD-INT)||||0.759
82380756|NCT02892331|164471245|SUPERIORITY|||||||0.465|||||||ANCOVA|||Physical Health subscale (MOD-INT vs. HIGH-INT)||||0.465
82514312|NCT02979535|164721610|OTHER||GMT ratio|0.986|||||TWO_SIDED|95.0|0.803|1.21||||||Antigen HPV-18||1.21|0.803|
82380757|NCT02892331|164471245|SUPERIORITY|||||||0.549|||||||ANCOVA|||Role Physical subscale (CON vs. HIGH-INT)||||0.549
82380758|NCT02892331|164471245|SUPERIORITY|||||||0.679|||||||ANCOVA|||Role Physical Subscale (CON vs. MOD-INT)||||0.679
82380759|NCT02892331|164471245|SUPERIORITY|||||||0.334|||||||ANCOVA|||Role Physical Subscale (MOD-INT vs. HIGH-INT)||||0.334
82380760|NCT02892331|164471245|SUPERIORITY|||||||0.273|||||||ANCOVA|||Bodily pain subscale (CON vs. HIGH-INT)||||0.273
82380761|NCT02892331|164471245|SUPERIORITY|||||||0.642|||||||ANCOVA|||Bodily pain subscale (CON vs. MOD-INT)||||0.642
82380762|NCT02892331|164471245|SUPERIORITY|||||||0.52|||||||ANCOVA|||Bodily Pain Subscale (MOD-INT vs. HIGH-INT)||||0.520
82380763|NCT02892331|164471245|SUPERIORITY|||||||0.46|||||||ANCOVA|||Vitality subscale (CON vs. HIGH-INT)||||0.460
82380764|NCT02892331|164471245|SUPERIORITY|||||||0.203|||||||ANCOVA|||Vitality sub-scale (CON vs. MOD-INT group)||||0.203
82380765|NCT02892331|164471245|SUPERIORITY|||||||0.058|||||||ANCOVA|||Vitality subscale (MOD-INT vs. HIGH-INT)||||0.058
82380766|NCT02892331|164471245|SUPERIORITY|||||||0.739|||||||ANCOVA|||Social Function subscale (CON vs. HIGH-INT)||||0.739
82380767|NCT02892331|164471245|SUPERIORITY|||||||0.059|||||||ANCOVA|||Social Function subscale (CON vs. MOD-INT)||||0.059
82380768|NCT02892331|164471245|SUPERIORITY|||||||0.038|||||||ANCOVA|||Social Function sub-scale (HIGH-INT vs. MOD-INT)||||0.0380
82380769|NCT02892331|164471245|SUPERIORITY|||||||0.95|||||||ANCOVA|||Comparison of mental health subscale (CON vs. HIGH-INT)||||0.950
82380770|NCT02892331|164471245|SUPERIORITY|||||||0.096|||||||ANCOVA|||Change in mental health subscale (CON Vs. MOD INT)||||0.096
82380771|NCT02892331|164471245|SUPERIORITY|||||||0.127|||||||ANCOVA|||Change in mental health subscale (MOD-INT vs. HIGH-INT)||||0.127
82380772|NCT02892331|164471245|SUPERIORITY|||||||0.373|||||||ANCOVA|||Change in role emotional subscale (CON vs HIGH-INT)||||0.373
82380773|NCT02892331|164471245|SUPERIORITY|||||||0.63|||||||ANCOVA|||Change in role emotional sub-scale||||0.630
82380774|NCT02892331|164471245|SUPERIORITY|||||||0.034|||||||ANCOVA|||Change in role emotional subscale (MOD vs. HIGH-INT)||||0.034
82380775|NCT02892331|164471245|SUPERIORITY|||||||0.07|||||||ANCOVA|||Change in role emotional subscale (CON vs. MOD-INT)||||0.070
82380776|NCT02892331|164471245|SUPERIORITY|||||||0.945|||||||ANCOVA|||Change in physical health sub-scale (MOD-INT vs. HIGH-INT)||||0.945
82380777|NCT02892331|164471246|SUPERIORITY|||||||0.65|||||||ANCOVA|||Change in the mental health sum scale (CON vs. HIGH-INT)||||0.650
82380778|NCT02892331|164471246|SUPERIORITY|||||||0.034|||||||ANCOVA|||Change in mental health (sum) subscale (MOD-INT vs. HIGH-INT)||||0.034
82380779|NCT02892331|164471246|SUPERIORITY|||||||0.33|||||||ANCOVA|||Change in physical health (sum)||||0.330
82380780|NCT02892331|164471246|SUPERIORITY|||||||0.297|||||||ANCOVA|||Change in physical health (sum) subscale||||0.297
82380781|NCT02892331|164471247|SUPERIORITY|||||||0.109|||||||ANCOVA|||Change in steps (CON vs. HIGH-INT)||||0.109
82514313|NCT02979535|164721611|OTHER||GMT ratio|0.977|||||TWO_SIDED|95.0|0.653|1.46||||||Dengue Virus Serotype 1||1.46|0.653|
82514314|NCT02979535|164721611|OTHER||GMT ratio|0.911|||||TWO_SIDED|95.0|0.654|1.27||||||Dengue Virus Serotype 2||1.27|0.654|
82514315|NCT02979535|164721611|OTHER||GMT ratio|0.921|||||TWO_SIDED|95.0|0.727|1.17||||||Dengue Virus Serotype 3||1.17|0.727|
82514316|NCT02979535|164721611|OTHER||GMT ratio|0.931|||||TWO_SIDED|95.0|0.733|1.18||||||Dengue Virus Serotype 4||1.18|0.733|
82514317|NCT04820673|164721625|OTHER||||||<|0.0001||||||P\<0.0001, calculated by t-test, corresponds to baseline response group domain scores in comparison to week-12 domain scores (CFB). CFB is calculated using available matching data for each domain. Higher domain scores indicate higher disease burden.|t-test, 2 sided|||Week 12 vs Baseline||||<.0001
82514318|NCT00587587|164721627|SUPERIORITY_OR_OTHER|||||||1||||||"P-value compares overall incidence of AEs between groups, ie Apligraf 12/17 and Control 10/13.~UADE is defined in 21CFR812.3(s)"|Fisher Exact|||Fisher's exact test used to evaluate treatment differences between Apligraf subjects and Control subjects experiencing any AEs.||||1.0000
82514319|NCT00587587|164721628|SUPERIORITY_OR_OTHER|||||||0.5863||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5863
82514320|NCT00587587|164721629|SUPERIORITY_OR_OTHER|||||||0.3783||95.0|||||Fisher Exact|||||||0.3783
82514321|NCT00587587|164721630|SUPERIORITY_OR_OTHER|||||||0.7149|||||||Wilcoxon (Mann-Whitney)|||Treatment differences in scar firmness evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.7149
82514322|NCT00587587|164721631|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||Wilcoxon (Mann-Whitney)|||Treatment differences in scar thickness evaluated using a 2-tailed Wilcoxon rank sum test||||0.1670
82514323|NCT00587587|164721632|SUPERIORITY_OR_OTHER|||||||0.7221|TWO_SIDED|0.0|||||Wilcoxon (Mann-Whitney)|||Global assessments analyzed as ordinal ranks. Treatment differences in global assessment evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.7221
82570193|NCT00878553|164850680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.606|STANDARD_ERROR_OF_MEAN|2.42||0.0118|TWO_SIDED|95.0|-15.284|-1.927||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes||-1.927|-15.284|0.0118
82570194|NCT00878553|164850680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.98|STANDARD_ERROR_OF_MEAN|2.421||0.0037|TWO_SIDED|95.0|-16.685|-3.275||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement|Literature-based estimates of WASO SD range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes||-3.275|-16.685|0.0037
82570195|NCT00878553|164850680|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.153|STANDARD_ERROR_OF_MEAN|2.422||0.0077|TWO_SIDED|95.0|-15.857|-2.448||Change from baseline in mean WASO3-7 compared values for the 20-mg dose vs. placebo. If that comparison demonstrated superiority of the 20-mg dose, then results for the 15-mg dose vs. placebo were compared; if significant, then 10-mg vs. placebo.|Mixed Models Analysis|This hierarchical, 2-sided testing procedure maintained the overall level of significance at approximately 0.05.|Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment. A negative mean change from baseline indicates an improvement|Literature-based estimates of WASO SD range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 20-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||-2.448|-15.857|0.0077
82380782|NCT02892331|164471247|SUPERIORITY|||||||0.099|||||||ANCOVA|||Change in steps (CON vs. MOD-INT)||||0.099
82514324|NCT00587587|164721633|SUPERIORITY_OR_OTHER|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||Global assessments analyzed as ordinal ranks. Treatment differences in global assessment evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.4080
82514325|NCT00587587|164721634|SUPERIORITY_OR_OTHER|||||||0.9556||0.0|||||Wilcoxon (Mann-Whitney)|||Differences evaluated using a 2-tailed Wilcoxon rank sum test with pooled variances.||||0.9556
82380783|NCT02892331|164471247|SUPERIORITY|||||||0.947|||||||ANCOVA|||Change in steps (MOD-INT vs. HIGH-INT)||||0.947
82380784|NCT00610428|164471252|SUPERIORITY|||||||0.084||||||p-values calculated by Log-rank Test in step-down sequence (10 mg to 5 mg)|Survival|||Survival time is defined as time to the first successful headache relief.||||0.0840
82514326|NCT01162005|164721635|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82514327|NCT00767000|164721655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.51|||<|0.001||95.0|-0.8|-0.22|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.22|-0.80|<0.001
82514328|NCT00767000|164721655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64|||<|0.001||95.0|-0.93|-0.36|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.36|-0.93|<0.001
82514329|NCT00767000|164721655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.81|||<|0.001||95.0|-1.1|-0.53|||Contrained longitudinal model|||Analysis for change from baseline to Week 14||-0.53|-1.10|<0.001
82514330|NCT00767000|164721655|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.75|||<|0.001||95.0|-1.04|-0.46|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-0.46|-1.04|<0.001
82514331|NCT00767000|164721656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-36.6|||<|0.001||95.0|-55.6|-17.5|||Constrained longitudial model|||Analysis for change from baseline to Week 14||-17.5|-55.6|<0.001
82514332|NCT00767000|164721656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-26.7||||0.005||95.0|-45.4|-8.1|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-8.1|-45.4|0.005
82514333|NCT00767000|164721656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-35.0|||<|0.001||95.0|-54.0|-16.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-16.0|-54.0|<0.001
82514334|NCT00767000|164721656|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-36.9|||<|0.001||95.0|-55.9|-17.9|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||-17.9|-55.9|<0.001
82514335|NCT00767000|164721657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.8||||0.791||95.0|-11.6|15.2|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||15.2|-11.6|0.791
82514336|NCT00767000|164721657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.3||||0.121||95.0|-2.7|23.2|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||23.2|-2.7|0.121
82514337|NCT00767000|164721657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.3||||0.169||95.0|-22.6|4.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||4.0|-22.6|0.169
82514338|NCT00767000|164721657|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.7||||0.321||95.0|-6.6|20.0|||Constrained longitudinal model|||Analysis for change from baseline to Week 14||20.0|-6.6|0.321
82514339|NCT02039505|164721671|SUPERIORITY||Adjusted Odds Ratio|1.37||||0.2722|TWO_SIDED|95.0|0.779|2.399|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||2.399|0.779|0.2722
82514340|NCT02039505|164721672|SUPERIORITY||Adjusted Odds Ratio|2.88||||0.021|TWO_SIDED|95.0|1.168|7.108|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||7.108|1.168|0.0210
82514341|NCT02039505|164721678|SUPERIORITY||Adjusted Odds Ratio|1.66||||0.198|TWO_SIDED|95.0|0.762|3.596|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||3.596|0.762|0.1980
82380785|NCT00610428|164471252|SUPERIORITY|Survival time is defined as time to the first successful headache relief.||||||0.0383||||||p-values calculated by Log-rank Test in step-down sequence (10 mg to 5 mg)|Survival|||||||0.0383
82380786|NCT00070564|164471301|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.32||||0.022|TWO_SIDED|95.0|1.04|1.68|||Log Rank|||||1.68|1.04|0.022
82514342|NCT02039505|164721679|SUPERIORITY||Adjusted Odds Ratio|1.33||||0.3168|TWO_SIDED|95.0|0.755|2.356|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||2.356|0.755|0.3168
82514343|NCT02039505|164721680|SUPERIORITY||Adjusted Odds Ratio|3.48||||0.0067|TWO_SIDED|95.0|1.407|8.626|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||8.626|1.407|0.0067
82514344|NCT02039505|164721681|SUPERIORITY||Adjusted Odds Ratio|3.49||||0.0066|TWO_SIDED|95.0|1.409|8.642|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||8.642|1.409|0.0066
82514345|NCT02039505|164721682|SUPERIORITY||Adjusted Odds Ratio|2.02||||0.209|TWO_SIDED|95.0|0.677|6.033|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||6.033|0.677|0.2090
82514346|NCT02039505|164721683|SUPERIORITY||Adjusted Odds Ratio|3.38||||0.1571|TWO_SIDED|95.0|0.636|17.981|||Cochran-Mantel-Haenszel||CMH test was used for analysis. Prior TNFα antagonist use (yes/no) was used as stratification factor.|||17.981|0.636|0.1571
82514347|NCT01172938|164721695|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.0||||0.0001|TWO_SIDED|95.0|9.7|28.3|||Cochran-Mantel-Haenszel|2-sided p-value is based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline disease modifying antirheumatic drug (DMARD) use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% confidence interval (CI) is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||28.3|9.7|0.0001
82514348|NCT01172938|164721695|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.3||||0.0166|TWO_SIDED|95.0|2.2|20.4|||Cochran-Mantel-Haenszel|2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||20.4|2.2|0.0166
82523786|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.011||95.0|0.57|0.93|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 12||0.93|0.57|0.011
82380787|NCT00070564|164471301|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.24||||0.072|TWO_SIDED|95.0|0.98|1.59|||Log Rank|||||1.59|0.98|0.072
82380788|NCT00070564|164471301|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12||||0.38|TWO_SIDED|95.0|0.87|1.44|||Log Rank|||||1.44|0.87|0.38
82380789|NCT00070564|164471301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Log Rank|||||||0.11
82380790|NCT00070564|164471301|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.733|TWO_SIDED|95.0|0.61|1.41|||Log Rank|||||1.41|0.61|0.733
82380791|NCT00070564|164471302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.44||||0.013|TWO_SIDED|95.0|1.08|1.93|||Log Rank|||||1.93|1.08|0.013
82380792|NCT00070564|164471302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.46||||0.011|TWO_SIDED|95.0|1.09|1.95|||Log Rank|||||1.95|1.09|0.011
82380793|NCT00070564|164471302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.24||||0.17|TWO_SIDED|95.0|0.91|1.68|||Log Rank|||||1.68|0.91|0.17
82380794|NCT00070564|164471302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Log Rank|||||||0.040
82380795|NCT00070564|164471302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.724|TWO_SIDED|95.0|0.54|1.53|||Log Rank|||||1.53|0.54|0.724
82380796|NCT00070564|164471304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|||||||Log Rank|||Overall treatment differences.||||0.67
82380797|NCT00070564|164471304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.42
82380798|NCT00070564|164471305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Log Rank|||Test of overall treatment differences.||||0.90
82380799|NCT00070564|164471305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.52
82380800|NCT00070564|164471306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076|||||||Log Rank|||Test of overall treatment differences.||||0.076
82380801|NCT00070564|164471306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.018
82380802|NCT00070564|164471307|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Log Rank|||Test of overall treatment differences.||||0.062
82380803|NCT00070564|164471307|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.010
82380804|NCT00070564|164471308|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Log Rank|||Test of overall treatment differences.||||0.69
82380805|NCT00070564|164471308|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||Log Rank|||Test of interaction two treatments: AC and paclitaxel.||||0.66
82380806|NCT00070564|164471309|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Log Rank|||Test of overall treatment differences||||0.40
82380807|NCT00070564|164471309|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|||||||Log Rank|||Test of interaction of two treatments: AC and paclitaxel.||||0.28
82514349|NCT01172938|164721696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.159||||0.0017|TWO_SIDED|95.0|-0.258|-0.06|||ANCOVA|Based on an ANCOVA model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.060|-0.258|0.0017
82514350|NCT01172938|164721696|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.113||||0.0252|TWO_SIDED|95.0|-0.211|-0.014|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.014|-0.211|0.0252
82514351|NCT01172938|164721697|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|22.2|||<|0.0001|TWO_SIDED|95.0|13.4|30.9||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||30.9|13.4|<0.0001
82514352|NCT01172938|164721697|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.4||||0.0038|TWO_SIDED|95.0|4.2|20.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||20.7|4.2|0.0038
82380808|NCT00931528|164471338|SUPERIORITY_OR_OTHER||Difference in percentages|5.0||||0.49|TWO_SIDED|95.0|1.0|9.0|||Chi-squared|||Sample size calculations were based on the hypothesis that the use of tadalafil would statistically significant increase the proportion of patients maintaining spontaneous erectile function compared to the use of placebo. Based on a 2-sided Fisher exact test with alpha=0.05, 91 patients/arm would provide 80% statistical power to detect an increase from 20% to 40% in spontaneous erectile response at weeks 28-30. Although designed for the Fisher exact test, Chi-square was used and reported.||9|1|0.49
82380809|NCT00931528|164471338|SUPERIORITY|||||||0.2386|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped: ethnicity, Zubrod, T stage, prostate-specific antigen (PSA).) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.2386
82380810|NCT00931528|164471338|SUPERIORITY|||||||0.7908|||||||Regression, Linear|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.)The results for each explanatory variable are reported separately. RT method is reported here.||||0.7908
82380811|NCT00931528|164471338|SUPERIORITY|||||||0.0467|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.0467
82380812|NCT00931528|164471338|SUPERIORITY|||||||0.0068|||||||Regression, Logistic|||Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX vs. N0)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. N Stage is reported here.||||0.0068
82380813|NCT00931528|164471339|SUPERIORITY|||||||0.93|||||||Chi-squared|2-sided significance level = 0.05||Year 1||||0.93
82380814|NCT00931528|164471339|SUPERIORITY|||||||0.58|||||||Chi-squared|2-sided significance level = 0.05||Year 2||||0.58
82380815|NCT00931528|164471339|SUPERIORITY|||||||0.9501|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.9501
82380816|NCT00931528|164471339|SUPERIORITY|||||||0.102|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. RT method is reported here.||||0.1020
82635038|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.07||||0.9087|TWO_SIDED|95.0|0.32|3.54||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||3.54|0.32|0.9087
82380817|NCT00931528|164471339|SUPERIORITY|||||||0.1855|||||||Regression, Logistic|||Year 1: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[none\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, N stage, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.1855
82514353|NCT01172938|164721698|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.182||||0.0005|TWO_SIDED|95.0|-0.283|-0.08||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.080|-0.283|0.0005
82514354|NCT01172938|164721698|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.135||||0.0091|TWO_SIDED|95.0|-0.236|-0.034||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.034|-0.236|0.0091
82635039|NCT03018028|164985679|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.33||||0.6498|TWO_SIDED|95.0|0.38|4.62||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 0.9 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||4.62|0.38|0.6498
82514355|NCT01172938|164721699|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.42||||0.0056|TWO_SIDED|95.0|0.71|4.13||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.13|0.71|0.0056
82514356|NCT01172938|164721699|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7||||0.0504|TWO_SIDED|95.0|0.0|3.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.40|-0.00|0.0504
82514357|NCT01172938|164721700|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.7||||0.0017|TWO_SIDED|95.0|6.6|26.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.8|6.6|0.0017
82514358|NCT01172938|164721700|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.9|||||TWO_SIDED|95.0|-1.2|18.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.9|-1.2|
82514359|NCT01172938|164721701|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.9||||0.0023|TWO_SIDED|95.0|-12.9|-2.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.8|-12.9|0.0023
82514360|NCT01172938|164721701|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.8|||||TWO_SIDED|95.0|-10.8|-0.7|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.7|-10.8|
82514361|NCT01172938|164721702|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-1.2|0.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.4|-1.2|
82514362|NCT01172938|164721702|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.3|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.3|
82570196|NCT00878553|164850681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.604|STANDARD_ERROR_OF_MEAN|2.755||0.1476|TWO_SIDED|95.0|-13.208|2.0||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||2.000|-13.208|0.1476
82570197|NCT00878553|164850681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.912|STANDARD_ERROR_OF_MEAN|2.757||0.0757|TWO_SIDED|95.0|-14.546|0.722||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||0.722|-14.546|0.0757
82570198|NCT00878553|164850681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.521|STANDARD_ERROR_OF_MEAN|2.757||0.1553|TWO_SIDED|95.0|-13.154|2.113||Adjusted mean differences were analyzed via general linear model that used change from baseline as response variable and included effects for patient, period, sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Literature-based estimates of WASO (Wake After Sleep Onset) SD (Standard Deviation) range from 39 to 45 minutes. Null hypothesis: difference between mean WASO3-7 values for placebo and the 15-mg SKP-1041 dose level equals 0. By using a 2-sided, 1-sample t test at the 5% level of significance of this null hypothesis and an assumed SD of 45 minutes, a sample size of 54 completed patients was calculated to provide 90% power to detect a mean treatment difference of 20 minutes.||2.113|-13.154|0.1553
82514363|NCT01172938|164721703|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|||||TWO_SIDED|95.0|-1.1|0.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.4|-1.1|
82514364|NCT01172938|164721703|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.3|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.3|
82514365|NCT01172938|164721704|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.88|||||TWO_SIDED|95.0|-7.41|-2.34|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-2.34|-7.41|
82514366|NCT01172938|164721704|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.39|||||TWO_SIDED|95.0|-6.92|-1.86|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-1.86|-6.92|
82380818|NCT00931528|164471339|SUPERIORITY|||||||0.5739|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Treatment arm is reported here.||||0.5739
82514367|NCT01172938|164721705|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|||||TWO_SIDED|95.0|-0.76|-0.31|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.31|-0.76|
82514368|NCT01172938|164721705|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||||TWO_SIDED|95.0|-0.7|-0.25|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.25|-0.70|
82514369|NCT01172938|164721706|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.33|||||TWO_SIDED|95.0|0.43|4.23|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||4.23|0.43|
82514370|NCT01172938|164721706|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|||||TWO_SIDED|95.0|-1.77|2.03|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||2.03|-1.77|
82514371|NCT01172938|164721707|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.56|||||TWO_SIDED|95.0|1.72|5.4|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||5.40|1.72|
82514372|NCT01172938|164721707|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.04|||||TWO_SIDED|95.0|0.21|3.88|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||3.88|0.21|
82514373|NCT01172938|164721708|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|24.6|||||TWO_SIDED|95.0|15.2|34.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||34.0|15.2|
82570199|NCT00878553|164850682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.831|STANDARD_ERROR_OF_MEAN|2.4||0.0092|TWO_SIDED|95.0|2.208|15.454||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||15.454|2.208|0.0092
82380819|NCT00931528|164471339|SUPERIORITY|||||||0.0422|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. RT method is reported here.||||0.0422
82514374|NCT01172938|164721708|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.4|||||TWO_SIDED|95.0|3.4|21.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.5|3.4|
82514375|NCT01172938|164721709|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-10.6|||||TWO_SIDED|95.0|-15.4|-5.7|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-5.7|-15.4|
82514376|NCT01172938|164721709|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.1|||||TWO_SIDED|95.0|-12.0|-2.2|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-2.2|-12.0|
82514377|NCT01172938|164721710|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|||||TWO_SIDED|95.0|-1.6|0.0|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.0|-1.6|
82514378|NCT01172938|164721710|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|-0.8|||||TWO_SIDED|95.0|-1.6|0.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.1|-1.6|
82514379|NCT01172938|164721711|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.2|0.3|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.3|-1.2|
82380820|NCT00931528|164471339|SUPERIORITY|||||||0.5237|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. Age is reported here.||||0.5237
82514380|NCT01172938|164721711|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||0.1|-1.5|
82514381|NCT01172938|164721712|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-6.38|||||TWO_SIDED|95.0|-9.0|-3.75|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-3.75|-9.00|
82380821|NCT00931528|164471339|SUPERIORITY|||||||0.477|||||||Regression, Logistic|||Year 2: Logistic regression using generalized estimating equations was performed modeling the probability of non-responders. Only treatment arm (Placebo vs. Tadalafil), age (\> 65 vs. other), RT method (External RT vs. brachytherapy), and significant pretreatment characteristics \[N stage (NX)\] were retained in the model. (Dropped pretreatment characteristics: ethnicity, Zubrod, T stage, PSA.) The results for each explanatory variable are reported separately. N Stage is reported here.||||0.4770
82380822|NCT00931528|164471340|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.97
82514382|NCT01172938|164721712|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-4.41|||||TWO_SIDED|95.0|-7.03|-1.79|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-1.79|-7.03|
82514383|NCT01172938|164721713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-0.94|-0.46|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.46|-0.94|
82514384|NCT01172938|164721713|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||||TWO_SIDED|95.0|-0.7|-0.22|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||-0.22|-0.70|
82514385|NCT01172938|164721714|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|2.21|||||TWO_SIDED|95.0|0.32|4.1|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||4.10|0.32|
82514386|NCT01172938|164721714|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|0.4|||||TWO_SIDED|95.0|-1.5|2.29|||||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|||2.29|-1.50|
82514387|NCT01172938|164721715|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|3.3|||||TWO_SIDED|95.0|-10.1|16.7|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.7|-10.1|
82514388|NCT01172938|164721715|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.3|||||TWO_SIDED|95.0|-6.5|21.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.1|-6.5|
82514389|NCT01172938|164721716|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|2.9|||||TWO_SIDED|95.0|-13.4|19.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.3|-13.4|
82514390|NCT01172938|164721716|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.7|||||TWO_SIDED|95.0|-9.1|24.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.6|-9.1|
82514391|NCT01172938|164721717|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.2|||||TWO_SIDED|95.0|9.0|29.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||29.3|9.0|
82514392|NCT01172938|164721717|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.6|||||TWO_SIDED|95.0|6.4|26.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.8|6.4|
82380823|NCT00931528|164471340|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.99
82380824|NCT00931528|164471340|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.24
82380825|NCT00931528|164471341|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.70
82514393|NCT01172938|164721718|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|13.2|||||TWO_SIDED|95.0|-0.1|26.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.5|-0.1|
82380826|NCT00931528|164471341|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.65
82380827|NCT00931528|164471341|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|Significance level = 0.05||||||0.72
82514394|NCT01172938|164721718|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.3|||||TWO_SIDED|95.0|-2.4|25.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||25.0|-2.4|
82514395|NCT01172938|164721719|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.9|||||TWO_SIDED|95.0|-6.8|24.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.6|-6.8|
82514396|NCT01172938|164721719|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.7|||||TWO_SIDED|95.0|-8.7|24.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.2|-8.7|
82514397|NCT01172938|164721720|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|26.3|||||TWO_SIDED|95.0|17.1|35.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||35.5|17.1|
82380828|NCT00931528|164471342|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.14
82380829|NCT00931528|164471342|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.64
82380830|NCT00931528|164471342|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.18
82380831|NCT00931528|164471343|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.67
82380832|NCT00931528|164471343|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.98
82380833|NCT00931528|164471343|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.96
82380834|NCT00931528|164471344|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|Significance level = 0.05||Week 30||||0.86
82380835|NCT00931528|164471344|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|Significance level = 0.05||Year 1||||0.93
82380836|NCT00931528|164471344|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|Significance level = 0.05||Year 2||||0.52
82380837|NCT01730053|164471347|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.2|||<|0.0001|TWO_SIDED|98.75|-49.2|-19.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-19.3|-49.2|<0.0001
82380838|NCT01730053|164471347|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-36.1|||<|0.0001|TWO_SIDED|98.75|-51.5|-20.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||-20.7|-51.5|<0.0001
82380839|NCT01730053|164471347|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.3|||=|0.0453|TWO_SIDED|98.75|-45.8|5.1||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||5.1|-45.8|=0.0453
82380840|NCT01730053|164471347|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.3|||=|0.0136|TWO_SIDED|98.75|-50.9|0.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||0.3|-50.9|=0.0136
82380841|NCT01730053|164471348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|98.75|-47.4|-23.0||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 1.25 % level.||-23.0|-47.4|<0.0001
82380842|NCT01730053|164471348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-33.2|||<|0.0001|TWO_SIDED|98.75|-45.9|-20.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-20.5|-45.9|<0.0001
82380843|NCT01730053|164471348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.5|||=|0.0131|TWO_SIDED|98.75|-49.2|0.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||0.2|-49.2|=0.0131
82380844|NCT01730053|164471349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|98.75|-47.4|-17.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-17.9|-47.4|<0.0001
82380845|NCT01730053|164471349|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.2|||<|0.0001|TWO_SIDED|98.75|-47.0|-17.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.5|-47|<0.0001
82514398|NCT01172938|164721720|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.2|||||TWO_SIDED|95.0|5.4|23.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||23.1|5.4|
82380846|NCT01730053|164471350|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.3|||<|0.0001|TWO_SIDED|98.75|-48.2|-22.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-22.5|-48.2|<0.0001
82380847|NCT01730053|164471350|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|98.75|-45.6|-19.0||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-19.0|-45.6|<0.0001
82514399|NCT01172938|164721721|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|10.3|||||TWO_SIDED|95.0|3.7|16.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.8|3.7|
82635040|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.34||||0.0219|TWO_SIDED|95.0|0.14|0.86||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 3 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.86|0.14|0.0219
82380848|NCT01730053|164471351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.2|||<|0.0001|TWO_SIDED|98.75|-40.1|-18.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-18.3|-40.1|<0.0001
82380849|NCT01730053|164471351|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-26.8|||<|0.0001|TWO_SIDED|98.75|-37.9|-15.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.7|-37.9|<0.0001
82380850|NCT01730053|164471352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.7|||<|0.0001|TWO_SIDED|98.75|-40.1|-21.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-21.3|-40.1|<0.0001
82380851|NCT01730053|164471352|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.3|||<|0.0001|TWO_SIDED|98.75|-38.0|-18.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.7|-38.0|<0.0001
82514400|NCT01172938|164721721|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.5|||||TWO_SIDED|95.0|3.0|16.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.0|3.0|
82380852|NCT01730053|164471353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|98.75|-43.9|-18.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-18.9|-43.9|<0.0001
82380853|NCT01730053|164471353|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|98.75|-42.1|-16.4||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.4|-42.1|<0.0001
82380854|NCT01730053|164471354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.8|||<|0.0001|TWO_SIDED|98.75|-43.2|-22.4||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-22.4|-43.2|<0.0001
82380855|NCT01730053|164471354|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|98.75|-39.1|-17.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.3|-39.1|<0.0001
82380856|NCT01730053|164471355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.6|||<|0.0001|TWO_SIDED|98.75|-29.4|-11.8||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-11.8|-29.4|<0.0001
82514401|NCT01172938|164721722|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|3.1|||||TWO_SIDED|95.0|-0.4|6.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.5|-0.4|
82514402|NCT01172938|164721722|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|4.8|||||TWO_SIDED|95.0|0.8|8.7|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||8.7|0.8|
82514403|NCT01172938|164721723|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.9|||||TWO_SIDED|95.0|8.3|21.5|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.5|8.3|
82570200|NCT00878553|164850682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.425|STANDARD_ERROR_OF_MEAN|2.402||0.0023|TWO_SIDED|95.0|3.775|17.075||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||17.075|3.775|0.0023
82514404|NCT01172938|164721723|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|10.1|||||TWO_SIDED|95.0|4.0|16.1|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.1|4.0|
82514405|NCT01172938|164721724|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.5|||||TWO_SIDED|95.0|4.8|14.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||14.2|4.8|
82380857|NCT01730053|164471355|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.3|||<|0.0001|TWO_SIDED|98.75|-29.3|-11.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.2|-29.3|<0.0001
82514406|NCT01172938|164721724|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|4.7|||||TWO_SIDED|95.0|1.2|8.3|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||8.3|1.2|
82635041|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.15||||0.0005|TWO_SIDED|95.0|0.05|0.44||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 7 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.44|0.05|0.0005
82514407|NCT01172938|164721725|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|7.6|||||TWO_SIDED|95.0|-2.8|17.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.9|-2.8|
82514408|NCT01172938|164721725|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.9|||||TWO_SIDED|95.0|0.8|23.0|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||23.0|0.8|
82380858|NCT01730053|164471356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.1|||<|0.0001|TWO_SIDED|98.75|-39.7|-16.5||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-16.5|-39.7|<0.0001
82380859|NCT01730053|164471356|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.0|||<|0.0001|TWO_SIDED|98.75|-35.7|-12.3||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.3|-35.7|<0.0001
82380860|NCT01730053|164471357|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.5|||<|0.0001|TWO_SIDED|98.75|-42.1|-16.9||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-16.9|-42.1|<0.0001
82380861|NCT01730053|164471357|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.9|||<|0.0001|TWO_SIDED|98.75|-37.7|-12.2||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.2|-37.7|<0.0001
82380862|NCT01730053|164471358|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.1|||<|0.0001|TWO_SIDED|98.75|-29.4|-10.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification).||-10.7|-29.4|<0.0001
82380863|NCT01730053|164471358|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.2|||<|0.0001|TWO_SIDED|98.75|-26.7|-7.7||Threshold for significance ≤ 0.0125.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.7|-26.7|<0.0001
82380864|NCT01730053|164471359|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.4|||<|0.0001|TWO_SIDED|98.75|2.6|59.5||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||59.5|2.6|<0.0001
82380865|NCT01730053|164471359|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.4|||=|0.0007|TWO_SIDED|98.75|1.8|40.5||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||40.5|1.8|=0.0007
82380866|NCT01730053|164471360|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.6|||<|0.0001|TWO_SIDED|98.75|2.58|88.2||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||88.2|2.58|<0.0001
82380867|NCT01730053|164471360|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.9|||=|0.001|TWO_SIDED|98.75|1.7|56.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||56.7|1.7|=0.001
82380868|NCT01730053|164471361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.6|||<|0.0001|TWO_SIDED|98.75|3.6|96.2||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||96.2|3.6|<0.0001
82380869|NCT01730053|164471361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.6|||<|0.0001|TWO_SIDED|98.75|2.5|53.1||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||53.1|2.5|<0.0001
82380870|NCT01730053|164471362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|20.3|||<|0.0001|TWO_SIDED|98.75|2.4|67.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||67.7|2.4|<0.0001
82380871|NCT01730053|164471362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.7|||=|0.0002|TWO_SIDED|98.75|2.4|67.7||Threshold for significance ≤ 0.0125.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||67.7|2.4|=0.0002
82380872|NCT01730053|164471363|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-23.9|||<|0.0001|TWO_SIDED|98.75|-38.6|-9.1||Threshold for significance ≤ 0.0125.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-9.1|-38.6|<0.0001
82380873|NCT01730053|164471363|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-23.6|||=|0.0001|TWO_SIDED|98.75|-39.0|-8.2||Threshold for significance ≤ 0.0125.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.2|-39.0|=0.0001
82514409|NCT01172938|164721726|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-1.4|||||TWO_SIDED|95.0|-17.7|14.8|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||14.8|-17.7|
82514410|NCT01172938|164721726|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|2.4|||||TWO_SIDED|95.0|-14.8|19.6|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.6|-14.8|
82514411|NCT01172938|164721727|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.4|||||TWO_SIDED|95.0|6.6|28.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||28.2|6.6|
82514412|NCT01172938|164721727|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.8|||||TWO_SIDED|95.0|5.6|27.9|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||27.9|5.6|
82514413|NCT01172938|164721728|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|5.8|||||TWO_SIDED|95.0|-10.7|22.4|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.4|-10.7|
82514414|NCT01172938|164721728|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.8|||||TWO_SIDED|95.0|-8.5|26.2|||||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||26.2|-8.5|
82514415|NCT04188041|164721760|OTHER|see above||||||0.02|||||||Wilcoxon signed rank test|||Non-parametric Wilcoxon signed rank test for paired data was used to test for significant change in confidence.||||0.02
82514416|NCT00701389|164721772|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the 90% CI is less than 5 mmHg, the primary hypothesis would be supported.|Difference in Least Squares Means|1.5|||||TWO_SIDED|90.0|0.0|3.0|||Mixed Effect Model|||100 mg sumatriptan/600 mg telcagepant minus 100 mg sumatriptan/telcagepant placebo||3.0|0.0|
82514417|NCT00701389|164721773|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.2|||||TWO_SIDED|90.0|-0.2|2.7|||Mixed Effect Model|||sumatriptan placebo/600 mg telcagepant minus sumatriptan placebo/telcagepant placebo||2.7|-0.2|
82380874|NCT01730053|164471364|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|7.4|||=|0.0311|TWO_SIDED|98.75|-1.2|16.1||Threshold for significance ≤ 0.0125.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant for rosuvastatin 10 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||16.1|-1.2|=0.0311
82380875|NCT05842967|164471390|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|GMR|1.57|||||TWO_SIDED|95.0|1.396|1.759|||||GMRs (ratio of GMTs from C3671023 SSA to C3671013 immunogenicity subset), 2-sided CI were calculated by exponentiating difference in LS means, corresponding CIs based on regression model. Data reported here is for RSV A.|||1.759|1.396|
82380876|NCT05842967|164471390|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|GMR|1.52|||||TWO_SIDED|95.0|1.333|1.725|||||GMRs (ratio of GMTs from C3671023 SSA to C3671013 immunogenicity subset), 2-sided CI were calculated by exponentiating difference in LS means, corresponding CIs based on regression model. Data reported here is for RSV B.|||1.725|1.333|
82380877|NCT05842967|164471391|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|Difference in percentage|5.1|||||TWO_SIDED|95.0|1.2|9.2|||||Difference (C3671023 SSA, compared to C3671013 immunogenicity subset) in proportions, expressed as a percentage; 95% CIs for percentage difference were calculated using exact method based on Miettinen and Nurminen. Data reported here is for RSV A.|||9.2|1.2|
82514418|NCT04808609|164721778|OTHER|feasibility test|Risk Ratio (RR)|1.27|STANDARD_ERROR_OF_MEAN|1.63||0.77|TWO_SIDED|95.0|0.24|6.76|||Fisher Exact|||||6.76|0.24|0.77
82514419|NCT04808609|164721779|OTHER|feasibility test|Risk Ratio (RR)|1.27|STANDARD_ERROR_OF_MEAN|0.84||0.66|TWO_SIDED|95.0|0.43|3.78|||Chi-squared|||||3.78|0.43|0.66
82514420|NCT04808609|164721780|OTHER|feasibility test|Cohen's D|0.21|STANDARD_ERROR_OF_MEAN|0.33||0.59|TWO_SIDED|95.0|-0.44|0.86|||t-test, 2 sided|||||0.86|-0.44|0.59
82514421|NCT04808609|164721780|OTHER|feasibility|Cohen's D|0.41|STANDARD_ERROR_OF_MEAN|0.17||0.02|TWO_SIDED|95.0|0.07|0.74|||t-test, 1 sided|||Results from Paired T-Test assessing the with-subject time effect on exhaled CO in ppm from baseline to 12 weeks||0.74|0.07|0.02
82514422|NCT04808609|164721781|OTHER|feasibility test|Cohen's D|0.16|STANDARD_ERROR_OF_MEAN|0.31||0.61|TWO_SIDED|95.0|-0.46|0.78|||t-test, 2 sided|||||0.78|-0.46|0.61
82514423|NCT04808609|164721782|OTHER|feasibility test|Cohen's D|0.19|STANDARD_ERROR_OF_MEAN|0.31||0.55|TWO_SIDED|95.0|-0.42|0.8|||t-test, 2 sided|||||0.80|-0.42|0.55
82514424|NCT04808609|164721783|OTHER|feasibility test|Cohen's D|0.004|STANDARD_ERROR_OF_MEAN|0.31||0.99|TWO_SIDED|95.0|-0.61|0.62|||t-test, 2 sided|||||0.62|-0.61|0.99
82514425|NCT00618657|164721793|OTHER||Standard Error|0.03|||||TWO_SIDED|||||||||||||
82514426|NCT00618657|164721793|OTHER||Standard Error|0.03|||||TWO_SIDED|||||||||||||
82514427|NCT01958918|164721874|SUPERIORITY|||||||0.185|||||||ANOVA|||||||0.1850
82514428|NCT02114892|164721902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
82514429|NCT02114892|164721903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
82514430|NCT02114892|164721904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.070
82514431|NCT02114892|164721905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.338|||||||Wilcoxon (Mann-Whitney)|||||||0.338
82514432|NCT02114892|164721906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||||||0.278
82514433|NCT02114892|164721907|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82514434|NCT02114892|164721908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083|||||||Wilcoxon (Mann-Whitney)|||||||0.083
82514435|NCT02114892|164721909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82514436|NCT02114892|164721910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82514437|NCT02114892|164721911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.946|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.946
82514438|NCT02114892|164721912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.365
82514439|NCT02114892|164721913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.557
82514440|NCT02114892|164721914|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82514441|NCT02114892|164721915|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82514442|NCT02114892|164721916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||0.672
82514443|NCT00659269|164721921|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
82514444|NCT02832674|164721922|SUPERIORITY|||||||0.05|TWO_SIDED|90.0|||||Fisher Exact|||The primary endpoint was an evaluation of the proportion of subjects with ≥ 20 mm2 lift at Day 90.||||0.05
82514445|NCT02832674|164721923|OTHER|Binomial test of proportions||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
82380878|NCT05842967|164471391|NON_INFERIORITY|Noninferiority was declared if both the null hypothesis of GMR and the null hypothesis of difference in seroresponse rates were rejected for both RSV A and RSV B serum NTs, with a type I error (2-sided) of 5%.|Difference in percentage|8.3|||||TWO_SIDED|95.0|4.2|12.6|||||Difference (C3671023 SSA, compared to C3671013 immunogenicity subset) in proportions, expressed as a percentage; 95% CIs for percentage difference were calculated using exact method based on Miettinen and Nurminen. Data reported here is for RSV B.|||12.6|4.2|
82380879|NCT03511105|164471434|OTHER||Absolute Difference|-30.46|STANDARD_ERROR_OF_MEAN|48.662|||TWO_SIDED|95.0|-127.07|65.51|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI has been presented.|||65.51|-127.07|
82380880|NCT03511105|164471434|OTHER||Percentage change|8.73|STANDARD_ERROR_OF_MEAN|13.453|||TWO_SIDED|95.0|-21.41|31.3|||||Percentage change on GSK2798745 relative to placebo has been presented.|||31.30|-21.41|
82380881|NCT03511105|164471435|OTHER||Absolute Difference|-4.26|STANDARD_ERROR_OF_MEAN|13.679|||TWO_SIDED|95.0|-31.49|22.87|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI have been presented.|||22.87|-31.49|
82380882|NCT03511105|164471435|OTHER||Percentage change|7.31|STANDARD_ERROR_OF_MEAN|22.837|||TWO_SIDED|95.0|-48.2|41.64|||||Percentage change on GSK2798745 relative to placebo has been presented.|||41.64|-48.20|
82380883|NCT03511105|164471436|OTHER||Absolute Difference|-0.06|STANDARD_ERROR_OF_MEAN|3.178|||TWO_SIDED|95.0|-6.28|6.2|||||Absolute difference (GSK2798745 - Placebo) and 95% CrI have been presented.|||6.20|-6.28|
82380884|NCT03511105|164471436|OTHER||Percentage change|0.1|STANDARD_ERROR_OF_MEAN|5.429|||TWO_SIDED|95.0|-11.15|10.16|||||Percentage change on GSK2798745 relative to placebo has been presented.|||10.16|-11.15|
82380885|NCT02810457|164471477|EQUIVALENCE|A 90% CI for the ORR ratio between FKB238 and Avastin was estimated and compared to the margin (0.73 to 1.38), which was deemed to represent a clinically acceptable difference with respect to ORR. If the 90% CI was within the equivalence margin (0.73 to 1.38), an equivalence between FKB238 and Avastin, with respect to the ORR, was confirmed.|Ratio in ORR|0.96|||||TWO_SIDED|90.0|0.86|1.08||||||||1.08|0.86|
82380886|NCT02810457|164471478|OTHER|Ratio in ORR analysis of FKB238 versus Avastin.|Ratio in ORR|0.94|||||TWO_SIDED|90.0|0.83|1.06||||||Comparison between groups: Risk ratio in ORR at Week 19 by BICR.||1.06|0.83|
82635042|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.23||||0.0098|TWO_SIDED|95.0|0.07|0.7||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.70|0.07|0.0098
82380887|NCT02810457|164471479|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.82|1.16|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, Eastern Cooperative Oncology Group (ECOG) performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.16|0.82|
82635043|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|2.95||||0.1193|TWO_SIDED|95.0|0.76|11.46||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 3 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||11.46|0.76|0.1193
82635044|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.31||||0.7147|TWO_SIDED|95.0|0.31|5.56||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 7 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||5.56|0.31|0.7147
82635045|NCT03018028|164985680|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.97||||0.3765|TWO_SIDED|95.0|0.44|8.85||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 14 mg / Liraglutide 0.9 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and stratification factor as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||8.85|0.44|0.3765
82635046|NCT02532998|164985706|SUPERIORITY_OR_OTHER||Treatment differences|-1.258|||||TWO_SIDED|90.0|-1.721|0.7945|||mixed linear model|Analyses done using mixed linear model involving fixed effect, random effect, and a covariate.||Statistical analysis of urinary sodium/potassium ratio between Treatment C and Treatment D.||0.7945|-1.721|
82635047|NCT02532998|164985721|SUPERIORITY_OR_OTHER||Treatment differences|3.409|||||TWO_SIDED|90.0|2.946|3.872|||mixed linear model|Analyses done using mixed linear model involving fixed effect, random effect, and a covariate.||Statistical analysis of urinary sodium/potassium ratio between Treatment A and Treatment B.||3.872|2.946|
82635048|NCT02625610|164985739|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.1779|TWO_SIDED|95.0|0.74|1.11|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||1.11|0.74|0.1779
82635049|NCT02625610|164985740|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||||1.28|0.85|
82635050|NCT02625610|164985742|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.55|1.51||||||||1.51|0.55|
82635051|NCT02074436|164985752|OTHER|||||||0.5|TWO_SIDED|0.001|||||Fisher Exact|||The results are from the first and only interim analysis focusing on the primary endpoint: proportion of patient with major bleeding (Grade 3 and 4) during the study. The interim analysis was performed after 11 patients in each arm were randomized and results were obtained. One-sided fisher's exact test was employed in the analysis. The null hypothesis is the probability of occurring major bleeding is the same for Arm A and Arm B||||0.5
82635052|NCT03099304|164985761|SUPERIORITY||Odds Ratio (OR)|13.79||||0.0057|TWO_SIDED|95.0|1.73|640.85||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||640.85|1.73|0.0057
82635053|NCT03099304|164985761|SUPERIORITY||Odds Ratio (OR)|10.3||||0.0243|TWO_SIDED|95.0|1.24|487.28||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||487.28|1.24|0.0243
82635054|NCT03099304|164985761|SUPERIORITY||Odds Ratio (OR)|28.48|||<|0.0001|TWO_SIDED|95.0|3.74|1305.2||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||1305.2|3.74|<0.0001
82635055|NCT03099304|164985761|SUPERIORITY||Odds Ratio (OR)|24.66||||0.0001|TWO_SIDED|95.0|3.28|1121.4||The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression|||||1121.4|3.28|0.0001
82635056|NCT03099304|164985762|SUPERIORITY||Odds Ratio (OR)|1.03||||0.4936|TWO_SIDED|95.0|0.05||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.05|0.4936
82635057|NCT03099304|164985762|SUPERIORITY||Odds Ratio (OR)|4.16||||0.114|TWO_SIDED|95.0|0.62||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.62|0.1140
82514446|NCT02832674|164721924|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared|||Analysis of all effectiveness endpoints was conducted on the ITT population and on the PP population.|The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
82514447|NCT02832674|164721925|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
82514448|NCT02832674|164721926|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
82380888|NCT02810457|164471480|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.96|1.45|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.45|0.96|
82380889|NCT02810457|164471481|OTHER|Hazard ratio analysis of FKB238 versus Avastin.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.74|1.23|||||Treatment hazard ratio \<1 favors FKB238.|Hazard ratio and its 95% CI were calculated using the Cox regression model adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age) with ties handled by the Efron method.||1.23|0.74|
82514449|NCT02832674|164721927|OTHER|||||||0.025|TWO_SIDED|95.0|||||Chi-squared||||The summary included number and percentage of subjects in each of the categories and the 2 sided Clopper-Pearson 95% CI. a binomial test of proportions tested the improvement at Day 90 and Day 180.|||0.025
82514450|NCT00718042|164721928|SUPERIORITY_OR_OTHER||Specificity|99.86|||||TWO_SIDED|95.0|99.79|99.91|||Point Estimate||Numerator = All blood donors tested nonreactive from all True Negative blood donors (16,223) Denominator = All True Negative blood donors (16,246) True Negative excludes donor specimens positive by supplemental testing (3)|||99.91|99.79|
82514451|NCT00718042|164721930|SUPERIORITY_OR_OTHER||Point estimate|100.0|||||TWO_SIDED|95.0|96.7|100.0|||Sensitivity|||||100.00|96.70|
82635058|NCT03099304|164985762|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0501|TWO_SIDED|95.0|1.0||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||1.00|0.0501
82635059|NCT03099304|164985762|SUPERIORITY||Odds Ratio (OR)|3.89||||0.1257|TWO_SIDED|95.0|0.58||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|exact logistic regression||||||0.58|0.1257
82635060|NCT03099304|164985763|SUPERIORITY||Odds Ratio (OR)|1.19||||0.9794|TWO_SIDED|95.0|0.33|4.33|||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).||||4.33|0.33|0.9794
82635061|NCT03099304|164985763|SUPERIORITY||Odds Ratio (OR)|1.69||||0.4893|TWO_SIDED|95.0|0.51|5.86|||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).||||5.86|0.51|0.4893
82635062|NCT03099304|164985770|SUPERIORITY||Least squares mean (LSM) difference|-0.44|STANDARD_ERROR_OF_MEAN|0.16||0.0056|TWO_SIDED|95.0|-0.75|-0.13|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.13|-0.75|0.0056
82635063|NCT03099304|164985770|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0095|TWO_SIDED|95.0|-0.7|-0.1|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.10|-0.70|0.0095
82635064|NCT03099304|164985770|SUPERIORITY||LSM difference|-0.68|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.37|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.37|-0.99|<0.0001
82635065|NCT03099304|164985770|SUPERIORITY||LSM difference|-0.51|STANDARD_ERROR_OF_MEAN|0.15||0.0011|TWO_SIDED|95.0|-0.8|-0.21|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.21|-0.80|0.0011
82635066|NCT03099304|164985772|SUPERIORITY||LSM difference|-36.71|STANDARD_ERROR_OF_MEAN|10.34||0.0005|TWO_SIDED|95.0|-57.15|-16.27|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-16.27|-57.15|0.0005
82635067|NCT03099304|164985772|SUPERIORITY||LM difference|-35.12|STANDARD_ERROR_OF_MEAN|10.01||0.0006|TWO_SIDED|95.0|-54.91|-15.33|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-15.33|-54.91|0.0006
82635068|NCT03099304|164985772|SUPERIORITY||LSM difference|-46.02|STANDARD_ERROR_OF_MEAN|10.35|<|0.0001|TWO_SIDED|95.0|-66.47|-25.57|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-25.57|-66.47|<0.0001
82635069|NCT03099304|164985772|SUPERIORITY||LSM difference|-43.8|STANDARD_ERROR_OF_MEAN|9.98|<|0.0001|TWO_SIDED|95.0|-63.52|-24.07|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-24.07|-63.52|<0.0001
82635070|NCT03099304|164985779|SUPERIORITY||LSM difference|-2.84|STANDARD_ERROR_OF_MEAN|1.32||0.0326|TWO_SIDED|95.0|-5.44|-0.24|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.24|-5.44|0.0326
82635071|NCT03099304|164985779|SUPERIORITY||LSM difference|-2.74|STANDARD_ERROR_OF_MEAN|1.28||0.0333|TWO_SIDED|95.0|-5.26|-0.22|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-0.22|-5.26|0.0333
82635072|NCT03099304|164985779|SUPERIORITY||LSM difference|-5.08|STANDARD_ERROR_OF_MEAN|1.31||0.0002|TWO_SIDED|95.0|-7.68|-2.48|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-2.48|-7.68|0.0002
82635073|NCT03099304|164985779|SUPERIORITY||LSM difference|-4.08|STANDARD_ERROR_OF_MEAN|1.27||0.0016|TWO_SIDED|95.0|-6.59|-1.57|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-1.57|-6.59|0.0016
82635074|NCT03099304|164985781|SUPERIORITY||LSM difference|-23.53|STANDARD_ERROR_OF_MEAN|6.99||0.001|TWO_SIDED|95.0|-37.35|-9.71|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-9.71|-37.35|0.0010
82635075|NCT03099304|164985781|SUPERIORITY||LSM difference|-18.47|STANDARD_ERROR_OF_MEAN|6.77||0.0072|TWO_SIDED|95.0|-31.86|-5.08|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-5.08|-31.86|0.0072
82635076|NCT03099304|164985781|SUPERIORITY||LSM difference|-29.81|STANDARD_ERROR_OF_MEAN|6.98|<|0.0001|TWO_SIDED|95.0|-43.61|-16.0|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-16.00|-43.61|<0.0001
82514452|NCT00718042|164721933|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|97.4|99.8|||Percentage Negative|||||99.8|97.4|
82514453|NCT04327934|164721937|EQUIVALENCE|We compared groups across treatments||||||0.018|||||||ANOVA|||||||0.018
82514454|NCT04327934|164721938|EQUIVALENCE|We compared across groups and within groups over time.|||||<|0.016|||||||ANOVA|||||||<0.016
82635077|NCT03099304|164985781|SUPERIORITY||LSM difference|-25.56|STANDARD_ERROR_OF_MEAN|6.75||0.0002|TWO_SIDED|95.0|-38.89|-12.22|||Log Rank|Treatment comparisons were performed using the log-rank test stratified by randomization stratification factor.|LSM difference = treatment minus vehicle|||-12.22|-38.89|0.0002
82635078|NCT03099304|164985793|SUPERIORITY||Odds Ratio (OR)|1.03||||0.4936|TWO_SIDED|95.0|0.05||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.05|0.4936
82635079|NCT03099304|164985793|SUPERIORITY||Odds Ratio (OR)|4.16||||0.114|TWO_SIDED|95.0|0.62||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.62|0.1140
82635080|NCT03099304|164985793|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0501|TWO_SIDED|95.0|1.0||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||1.00|0.0501
82635081|NCT03099304|164985793|SUPERIORITY||Odds Ratio (OR)|3.89||||0.1257|TWO_SIDED|95.0|0.58||The upper limit of the confidence interval was not estimatable because there were too few participants with a response of clear or almost clear.||exact logistic regression|The exact logistic regression model includes treatment and stratification factor (age ≤30 versus \>30).|||||0.58|0.1257
82635082|NCT02274766|164985840|SUPERIORITY||Least Squares Mean Difference|-14.4|STANDARD_ERROR_OF_MEAN|3.03|<|0.0001|TWO_SIDED|95.0|-20.4|-8.3|||Linear Mixed Model w/ Repeated Measures|Change from baseline is a dependent variable; the baseline value is a continuous covariate||32 subjects per treatment arm provided 90% power using a 2-sided test at 5% significance.||-8.3|-20.4|<0.0001
82635083|NCT02274766|164985841|SUPERIORITY||Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.775||0.0168|TWO_SIDED|95.0|0.35|3.45||Change from Baseline in ON time without troublesome dyskinesia.|Linear Mixed Model w/ Repeated Measures|||||3.45|0.35|0.0168
82635084|NCT02274766|164985841|SUPERIORITY||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.648||0.0853|TWO_SIDED|95.0|-2.42|0.16||Change from Baseline in ON time with troublesome dyskinesia.|Linear Mixed Model w/ Repeated Measures|||||0.16|-2.42|0.0853
82635085|NCT02274766|164985841|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.461||0.0199|TWO_SIDED|95.0|-2.02|-0.18||Change from Baseline in OFF time.|Linear Mixed Model w/ Repeated Measures|||||-0.18|-2.02|0.0199
82635086|NCT02430389|164985846|SUPERIORITY_OR_OTHER|||||||0.0575|TWO_SIDED||||||t-test, 2 sided|||||||.0575
82635087|NCT02430389|164985847|SUPERIORITY_OR_OTHER|||||||0.348|TWO_SIDED||||||t-test, 2 sided|||||||.348
82514455|NCT04327934|164721938|EQUIVALENCE|We compared across groups and within groups over time.||||||0.08|||||||ANOVA|||||||0.08
82635088|NCT02394028|164985859|SUPERIORITY||Difference in rate|1.1||||0.8508|TWO_SIDED|95.0|-10.85|12.56||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||12.56|-10.85|0.8508
82635089|NCT02394028|164985859|SUPERIORITY||Difference in rate|3.8||||0.5235|TWO_SIDED|95.0|-8.3|15.27||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||15.27|-8.30|0.5235
82635090|NCT02394028|164985861|SUPERIORITY||Difference in rate|4.9||||0.7908|TWO_SIDED|95.0|-6.26|16.11||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||16.11|-6.26|0.7908
82635091|NCT02394028|164985861|SUPERIORITY||Difference in rate|5.8||||0.317|TWO_SIDED|95.0|-5.43|17.05||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||17.05|-5.43|0.3170
82635092|NCT02394028|164985862|SUPERIORITY||Difference in rate|11.3||||0.0088|TWO_SIDED|95.0|2.7|19.65||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||19.65|2.70|0.0088
82635093|NCT02394028|164985863|SUPERIORITY||Difference in rate|11.5||||0.0026|TWO_SIDED|95.0|4.11|18.83||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||18.83|4.11|0.0026
82635094|NCT02394028|164985865|SUPERIORITY||Difference in rate|3.1||||1|TWO_SIDED|95.0|-8.02|13.45||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||13.45|-8.02|1
82635095|NCT02394028|164985865|SUPERIORITY||Difference in rate|2.3||||0.7908|TWO_SIDED|95.0|-8.78|12.56||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||12.56|-8.78|0.7908
82635096|NCT02394028|164985867|SUPERIORITY||Difference in rate|1.6||||1|TWO_SIDED|95.0|-6.51|9.73||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||9.73|-6.51|1
82635097|NCT02394028|164985867|SUPERIORITY||Difference in rate|6.5||||0.5235|TWO_SIDED|95.0|-2.24|15.16||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates are adjusted using CMH weights and the 95% CIs use the Newcombes method.|||15.16|-2.24|0.5235
82635098|NCT02394028|164985868|SUPERIORITY||Difference in LSM|-0.5||||0.311|TWO_SIDED|90.0|-1.4|0.3|||MMRM|||Bowel Domain Score||0.3|-1.4|0.3110
82635099|NCT02394028|164985869|SUPERIORITY||Difference in LSM|0.2||||1|TWO_SIDED|95.0|-0.5|0.9||The multiplicity adjusted p-values are presented.|MMRM|||Functional Domain Scale||0.9|-0.5|1
82514456|NCT04327934|164721941|OTHER|||||||0.05||||||Friedman's tests to compare slopes|Friedman's test|||||||0.05
82514457|NCT04327934|164721943|OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
82514458|NCT04327934|164721943|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
82514459|NCT04327934|164721944|EQUIVALENCE|We compared groups across treatments||||||0.0023|||||||ANOVA|||||||0.0023
82514460|NCT04327934|164721945|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
82514461|NCT04327934|164721946|OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
82514462|NCT02822794|164721951|SUPERIORITY||||||<|0.001|||||||Binomial test|P-value is obtained from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL+RBV 12 Weeks (GT1) over the performance goal of 50%.||||||<0.001
82514463|NCT02822794|164721951|SUPERIORITY||||||<|0.001|||||||Binomial test|P-value is obtained from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL +RBV 24 Weeks (GT1) over the performance goal of 50%.||||||<0.001
82514464|NCT01736852|164721992|NON_INFERIORITY|non-inferiority margin of 10%, α = 0.025, power = 0.80,||||||0.06|||||||Fisher Exact|||.ample size calculations were performed using an expected rate of 4% for each group,a one-sided exact test, α = 0.025, power = 0.80, non-inferiority margin of 10% resulting in a sample size of 124 patients or 62 patients per treatment arm.||||0.06
82635100|NCT02394028|164985869|SUPERIORITY||Difference in LSM|0.0||||1|TWO_SIDED|95.0|-0.7|0.7||The multiplicity adjusted p-values are presented.|MMRM|||Functional Domain Score||0.7|-0.7|1
82635101|NCT02394028|164985869|SUPERIORITY||Difference in LSM|0.1||||1|TWO_SIDED|95.0|-0.8|0.9||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Domain Score||0.9|-0.8|1
82635102|NCT02394028|164985869|SUPERIORITY||Difference in LSM|-0.3||||1|TWO_SIDED|95.0|-1.1|0.5||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Domain Score||0.5|-1.1|1
82635103|NCT02394028|164985870|SUPERIORITY||Difference in rate|17.3||||0.0677|TWO_SIDED|95.0|3.52|30.27||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||30.27|3.52|0.0677
82635104|NCT02394028|164985871|SUPERIORITY||Difference in rates|18.6||||0.048|TWO_SIDED|95.0|11.07|25.96||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||25.96|11.07|0.0480
82635105|NCT02394028|164985872|SUPERIORITY||Difference in rates|13.5||||0.121|TWO_SIDED|95.0|-2.9|29.94|||Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||29.94|-2.90|0.1210
82635106|NCT02394028|164985873|SUPERIORITY||Difference in rates|6.2||||0.048|TWO_SIDED|95.0|0.54|11.93||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||11.93|0.54|0.0480
82514465|NCT02708745|164721993|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||.29
82514466|NCT02708745|164721994|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
82635107|NCT02394028|164985874|SUPERIORITY||Difference in rates|11.2||||0.0677|TWO_SIDED|95.0|3.04|19.24||The multiplicity adjusted p-values are presented.|Cochran-Mantel-Haenszel||Difference in response rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||19.24|3.04|0.0677
82635108|NCT02394028|164985875|SUPERIORITY||Difference in rates|16.2||||0.0035|TWO_SIDED|95.0|8.96|23.31||Nominal p-value, no adjustment for multiplicity performed.|Cochran-Mantel-Haenszel||Difference in remission rates is adjusted using CMH weights and the 95% CIs use the Newcombes method.|||23.31|8.96|0.0035
82635109|NCT02394028|164985876|SUPERIORITY||Difference in LSM|-0.3||||0.4009|TWO_SIDED|95.0|-0.9|0.4||The multiplicity adjusted p-values are presented.|MMRM|||Functional Symptoms Domain||0.4|-0.9|0.4009
82635110|NCT02394028|164985876|SUPERIORITY||Difference in LSM|-0.3||||0.4009|TWO_SIDED|95.0|-1.0|0.4||The multiplicity adjusted p-values are presented.|MMRM|||Bowel Symptoms Domain||0.4|-1.0|0.4009
82635111|NCT00742391|164985886|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82635112|NCT00742391|164985887|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0001
82635113|NCT00989664|164985930|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||||||<0.001
82514467|NCT02708745|164721995|SUPERIORITY|||||||0.78||||||For the barrier 'not having enough time to discuss vaccine concerns', P=0.78. For the barrier 'not realizing until late in visit that parent had vaccine concerns', P=0.37. For the barrier 'not understanding parent specific vaccine concerns', P=0.66.|Chi-squared|||||||0.78
82514468|NCT00403546|164722001|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-1.09|1.12|||Mixed Models Analysis|||At Baseline||1.12|-1.09|0.980
82514469|NCT00403546|164722001|SUPERIORITY||Mean Difference (Net)|1.02||||0.033|TWO_SIDED|95.0|0.08|1.95|||Mixed Models Analysis|||At Week 2||1.95|0.08|0.033
82514470|NCT00403546|164722001|SUPERIORITY||Mean Difference (Net)|0.73||||0.171|TWO_SIDED|95.0|-0.32|1.77|||Mixed Models Analysis|||At Week 4||1.77|-0.32|0.171
82514471|NCT00403546|164722001|SUPERIORITY||Mean Difference (Net)|0.5||||0.38|TWO_SIDED|95.0|-0.62|1.62|||Mixed Models Analysis|||At Week 6||1.62|-0.62|0.380
82514472|NCT00403546|164722001|SUPERIORITY||Mean Difference (Net)|-0.12||||0.84|TWO_SIDED|95.0|-1.32|1.08|||Mixed Models Analysis|||At Week 8||1.08|-1.32|0.840
82514473|NCT00403546|164722002|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.737|TWO_SIDED|95.0|-1.23|0.88|||Mixed Models Analysis|||At Baseline||0.88|-1.23|0.737
82514474|NCT00403546|164722002|SUPERIORITY||Mean Difference (Net)|-0.14||||0.764|TWO_SIDED|95.0|-1.09|0.8|||Mixed Models Analysis|||At Week 2||0.80|-1.09|0.764
82635114|NCT03091920|164985967|OTHER|No statistical testing was performed.|LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-14.2|12.4|||||LS mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1 postdose AM 1 hour||12.4|-14.2|
82380890|NCT02810457|164471482|OTHER|Comparison between arms: Odds ratio.|Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.64|1.58|||||Odds ratio \>1 favors FKB238.|The DCR was compared between treatment arms using logistic regression adjusting for baseline characteristics (randomization stratification factors, ECOG performance status at baseline, gender, smoking history and age).||1.58|0.64|
82380891|NCT02750618|164471521|SUPERIORITY||Least Squares Mean Difference|0.96|||<|0.0001|TWO_SIDED|95.0|0.73|1.19|||GEE model|||||1.19|0.73|< 0.0001
82380892|NCT02750618|164471523|SUPERIORITY||Difference in LS Means|2.21|||<|0.0001|TWO_SIDED|95.0|2.07|2.35|||GEE model|||||2.35|2.07|< 0.0001
82380893|NCT02750618|164471524|SUPERIORITY||Difference in LS Means|2.23|||<|0.0001|TWO_SIDED|95.0|2.01|2.45|||GEE model|||The GEE model includes the RGI-C score as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure. The least squares (LS) mean, standard error (SE), 95% confidence interval (CI) and 2-sided p-value are from the GEE model.||2.45|2.01|< 0.0001
82380894|NCT02750618|164471525|SUPERIORITY||Difference in LS Means|-1.75|||<|0.0001|TWO_SIDED|95.0|-1.98|-1.53|||GEE model|||||-1.53|-1.98|< 0.0001
82380895|NCT02750618|164471526|SUPERIORITY||Difference in LS Means|-2.02|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.8||The GEE model includes the change from baseline in RSS as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure.|GEE model|||||-1.80|-2.25|< 0.0001
82514475|NCT00403546|164722002|SUPERIORITY||Mean Difference (Net)|0.25||||0.642|TWO_SIDED|95.0|-0.82|1.32|||Mixed Models Analysis|||At Week 4||1.32|-0.82|0.642
82514476|NCT00403546|164722002|SUPERIORITY||Mean Difference (Net)|-0.34||||0.57|TWO_SIDED|95.0|-1.5|0.83|||Mixed Models Analysis|||At Week 6||0.83|-1.50|0.570
82514477|NCT00403546|164722002|SUPERIORITY||Mean Difference (Net)|-0.09||||0.894|TWO_SIDED|95.0|-1.34|1.17|||Mixed Models Analysis|||At Week 8||1.17|-1.34|0.894
82380896|NCT02750618|164471527|SUPERIORITY||Difference in LS Means|1.21|||<|0.0001|TWO_SIDED|95.0|0.9|1.51|||GEE model|||||1.51|0.90|< 0.0001
82380897|NCT02750618|164471528|SUPERIORITY||Difference in LS Means|1.51|||<|0.0001|TWO_SIDED|95.0|1.27|1.76||The GEE model includes the RGI-C score as the dependent variable, visit as a factor, age and RSS at baseline as covariates, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.|GEE|||||1.76|1.27|< 0.0001
82514478|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|-1.82||||0.599|TWO_SIDED|95.0|-8.68|5.05|||Mixed Models Analysis|||SBP at Baseline||5.05|-8.68|0.599
82380898|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-82.91||||0.0004|TWO_SIDED|95.0|-128.68|-37.15|||GEE model|||Week 4||-37.15|-128.68|0.0004
82380899|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-83.84||||0.064|TWO_SIDED|95.0|-172.55|4.88|||GEE model|||Week 12||4.88|-172.55|0.0640
82380900|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-161.38|||<|0.0001|TWO_SIDED|95.0|-186.7|-136.05|||GEE model|||Week 20||-136.05|-186.70|< 0.0001
82380901|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-214.99|||<|0.0001|TWO_SIDED|95.0|-241.7|-188.28|||GEE model|||Week 40||-188.28|-241.70|< 0.0001
82380902|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-226.58|||<|0.0001|TWO_SIDED|95.0|-249.11|-204.06|||GEE model|||Week 48||-204.06|-249.11|< 0.0001
82380903|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-216.45|||<|0.0001|TWO_SIDED|95.0|-248.13|-184.77|||GEE model|||Week 56||-184.77|-248.13|< 0.0001
82380904|NCT02750618|164471532|SUPERIORITY||Difference in LS Means|-216.76|||<|0.0001|TWO_SIDED|95.0|-241.66|-191.86|||GEE model|||Week 64||-191.86|-241.66|< 0.0001
82514479|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|3.53||||0.235|TWO_SIDED|95.0|-2.31|9.37|||Mixed Models Analysis|||SBP at Week 1||9.37|-2.31|0.235
82380905|NCT02750618|164471532|SUPERIORITY||LS Mean|-231.22|||<|0.0001|TWO_SIDED|95.0|-262.51|-199.93|||GEE|||Week 76||-199.93|-262.51|< 0.0001
82380906|NCT02750618|164471532|SUPERIORITY||LS Mean|-237.78|||<|0.0001|TWO_SIDED|95.0|-262.94|-212.62|||GEE|||Week 88||-212.62|-262.94|< 0.0001
82380907|NCT02750618|164471532|SUPERIORITY||LS Mean|-218.14|||<|0.0001|TWO_SIDED|95.0|-248.21|-188.08|||GEE|||Week 100||-188.08|-248.21|< 0.0001
82380908|NCT02750618|164471532|SUPERIORITY||LS Mean|-233.91|||<|0.0001|TWO_SIDED|95.0|-255.66|-212.16|||GEE|||Week 112||-212.16|-255.66|< 0.0001
82380909|NCT02750618|164471532|SUPERIORITY||LS Mean|-252.22|||<|0.0001|TWO_SIDED|95.0|-268.51|-235.93|||GEE|||Week 124||-235.93|-268.51|< 0.0001
82380910|NCT02750618|164471532|SUPERIORITY||LS Mean|-267.89|||<|0.0001|TWO_SIDED|95.0|-293.61|-242.16|||GEE|||Week 136||-242.16|-293.61|< 0.0001
82514480|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|2.83||||0.449|TWO_SIDED|95.0|-3.8|8.57|||Mixed Models Analysis|||SBP at Week 2||8.57|-3.80|0.449
82514481|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|3.64||||0.301|TWO_SIDED|95.0|-3.28|10.56|||Mixed Models Analysis|||SBP at Week 4||10.56|-3.28|0.301
82514482|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|-0.75||||0.842|TWO_SIDED|95.0|-8.13|6.63|||Mixed Models Analysis|||SBP at Week 6||6.63|-8.13|0.842
82514483|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|6.33||||0.109|TWO_SIDED|95.0|-1.43|14.09|||Mixed Models Analysis|||SBP at Week 8||14.09|-1.43|0.109
82514484|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|-0.8||||0.741|TWO_SIDED|95.0|-5.62|4.02|||Mixed Models Analysis|||DBP at Baseline||4.02|-5.62|0.741
82380911|NCT02750618|164471532|SUPERIORITY||LS Mean|-248.05|||<|0.0001|TWO_SIDED|95.0|-272.85|-223.25|||GEE|||Week 148||-223.25|-272.85|< 0.0001
82380912|NCT02750618|164471532|SUPERIORITY||LS Mean|-248.47|||<|0.0001|TWO_SIDED|95.0|-270.01|-226.93|||GEE|||Week 160||-226.93|-270.01|< 0.0001
82380913|NCT02019472|164471538|SUPERIORITY_OR_OTHER||LS mean difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.07|-0.46|||ANCOVA|||||-0.46|-1.07|< 0.001
82380914|NCT02019472|164471538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.39|||=|0.013|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||||-0.08|-0.69|=0.013
82514485|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|1.44||||0.552|TWO_SIDED|95.0|-3.32|6.19|||Mixed Models Analysis|||DBP at Week 1||6.19|-3.32|0.552
82514486|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|2.83||||0.268|TWO_SIDED|95.0|-2.18|7.84|||Mixed Models Analysis|||DBP at Week 2||7.84|-2.18|0.268
82514487|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|1.02||||0.719|TWO_SIDED|95.0|-4.53|6.56|||Mixed Models Analysis|||DBP at Week 4||6.56|-4.53|0.719
82514488|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|-2.86||||0.334|TWO_SIDED|95.0|-8.68|2.96|||Mixed Models Analysis|||DBP at Week 6||2.96|-8.68|0.334
82514489|NCT00403546|164722004|SUPERIORITY||Mean Difference (Net)|4.38||||0.151|TWO_SIDED|95.0|-1.61|10.37|||Mixed Models Analysis|||DBP at Week 8||10.37|-1.61|0.151
82514490|NCT00403546|164722006|SUPERIORITY||Mean Difference (Final Values)|2.77||||0.416|TWO_SIDED|95.0|-3.97|9.5|||Mixed Models Analysis|Mixed models analysis with random slopes||At Baseline||9.50|-3.97|0.416
82514491|NCT00403546|164722006|SUPERIORITY||Mean Difference (Net)|0.37||||0.854|TWO_SIDED|95.0|-3.59|4.33|||Mixed Models Analysis|||At Week 2||4.33|-3.59|0.854
82380915|NCT02019472|164471539|SUPERIORITY_OR_OTHER||Percentage Difference|-4.8||||0.306|TWO_SIDED|95.0|-14.1|4.4|||Cochran-Mantel-Haenszel|||||4.4|-14.1|0.306
82380916|NCT02019472|164471539|SUPERIORITY_OR_OTHER||Percentage Difference|3.6||||0.464|TWO_SIDED|95.0|-6.0|13.1|||Cochran-Mantel-Haenszel|||||13.1|-6|0.464
82380917|NCT02019472|164471540|SUPERIORITY_OR_OTHER||Percentage Difference|5.4||||0.086|TWO_SIDED|95.0|-0.7|11.4|||Cochran-Mantel-Haenszel|||||11.4|-0.7|0.086
82380918|NCT02019472|164471540|SUPERIORITY_OR_OTHER||Percentage Difference|12.8|||<|0.001|TWO_SIDED|95.0|5.9|19.7|||Cochran-Mantel-Haenszel|||||19.7|5.9|< 0.001
82514492|NCT00403546|164722006|SUPERIORITY||Mean Difference (Net)|1.95||||0.406|TWO_SIDED|95.0|-2.68|6.58|||Mixed Models Analysis|||At Week 4||6.58|-2.68|0.406
82514493|NCT00403546|164722006|SUPERIORITY||Mean Difference (Net)|-3.01||||0.256|TWO_SIDED|95.0|-8.23|2.21|||Mixed Models Analysis|||At Week 6||2.21|-8.23|0.256
82514494|NCT00403546|164722006|SUPERIORITY||Mean Difference (Net)|-1.37||||0.642|TWO_SIDED|95.0|-7.2|4.45|||Mixed Models Analysis|||At Week 8||4.45|-7.20|0.642
82514495|NCT00403546|164722008|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.135|TWO_SIDED|95.0|-1.55|0.2|||Mixed Models Analysis|||At Baseline||0.20|-1.55|0.135
82514496|NCT00403546|164722008|SUPERIORITY||Mean Difference (Net)|0.44||||0.262|TWO_SIDED|95.0|-0.33|1.21|||Mixed Models Analysis|||At Week 2||1.21|-0.33|0.262
82514497|NCT00403546|164722008|SUPERIORITY||Mean Difference (Net)|0.58||||0.209|TWO_SIDED|95.0|-0.33|1.49|||Mixed Models Analysis|||At Week 4||1.49|-0.33|0.209
82570201|NCT00878553|164850682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.147|STANDARD_ERROR_OF_MEAN|2.402||0.003|TWO_SIDED|95.0|3.498|16.796||All aspects of the study's primary endpoint were statistically significant, and no adjustment for multiple testing was made for secondary efficacy endpoints.|Mixed Models Analysis||A positive mean difference from baseline indicates an improvement.|The adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence, and treatment.||16.796|3.498|0.0030
82380919|NCT02019472|164471541|SUPERIORITY_OR_OTHER||Percentage Difference|-2.7||||0.603|TWO_SIDED|95.0|-12.8|7.4|||Cochran-Mantel-Haenszel|||||7.4|-12.8|0.603
82514498|NCT00403546|164722008|SUPERIORITY||Mean Difference (Net)|0.03||||0.95|TWO_SIDED|95.0|-1.01|1.07|||Mixed Models Analysis|||At Week 6||1.07|-1.01|0.950
82514499|NCT00403546|164722008|SUPERIORITY||Mean Difference (Net)|0.57||||0.34|TWO_SIDED|95.0|-0.61|1.76|||Mixed Models Analysis|||At Week 8||1.76|-0.61|0.340
82514500|NCT01700946|164722040|SUPERIORITY|||||||0.035|||||||Log Rank|||||||0.035
82514501|NCT01700946|164722041|SUPERIORITY|||||||0.105|||||||Log Rank|||||||0.105
82514502|NCT01700946|164722042|SUPERIORITY|||||||0.1181|||||||Fisher Exact|||||||0.1181
82380920|NCT02019472|164471541|SUPERIORITY_OR_OTHER||Percentage Difference|2.4||||0.644|TWO_SIDED|95.0|-7.6|12.3|||Cochran-Mantel-Haenszel|||||12.3|-7.6|0.644
82380921|NCT02157935|164471548|SUPERIORITY_OR_OTHER||Rate ratio|0.76||||0.0059|TWO_SIDED|95.0|0.62|0.92|||Negative binomial model|||||0.92|0.62|0.0059
82380922|NCT02157935|164471549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0164|TWO_SIDED|95.0|0.64|0.96|||Regression, Cox|||||0.96|0.64|0.0164
82380923|NCT02157935|164471550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.343||||0.007|TWO_SIDED|95.0|-2.318|-0.368|||Mixed Models Analysis|||||-0.368|-2.318|0.0070
82380924|NCT02157935|164471551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.0091|TWO_SIDED|95.0|0.008|0.053|||Mixed Models Analysis|||||0.053|0.008|0.0091
82380925|NCT02157935|164471552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.203||||0.0082|TWO_SIDED|95.0|-0.353|-0.053|||ANCOVA|||||-0.053|-0.353|0.0082
82380926|NCT02157935|164471553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028||||0.0048|TWO_SIDED|95.0|-0.048|-0.009|||ANCOVA|||||-0.009|-0.048|0.0048
82380927|NCT03192488|164471554|SUPERIORITY||Mean Difference (Final Values)|1.06||||0.047|TWO_SIDED|95.0|0.01|2.11|||ANOVA|"The overall model was adjusted for the co-variate VO2max."||||2.11|0.01|0.047
82514503|NCT01168934|164722045|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|43.44|||||TWO_SIDED|90.0|39.68|47.56||||||Natural log transformed AUC (0 - ∞)(dn) of crizotinib was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||47.56|39.68|
82380928|NCT03192488|164471555|SUPERIORITY|||||||0.327|||||||ANOVA|||||||0.327
82514504|NCT01168934|164722048|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|44.67|||||TWO_SIDED|90.0|40.9|48.78||||||Natural log transformed AUClast(dn) of crizotinib was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||48.78|40.90|
82380929|NCT03192488|164471555|SUPERIORITY|||||||0.557|||||||ANOVA|||||||0.557
82380930|NCT03588910|164471561|SUPERIORITY|Wilcoxon rank-sum tests||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||.87
82380931|NCT03588910|164471562|SUPERIORITY|Wilcoxon rank-sum tests||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||.36
82380932|NCT03588910|164471563|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||.91
82380933|NCT03588910|164471564|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.29
82380934|NCT03588910|164471565|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||.36
82380935|NCT00572936|164471568|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for significance was \<0.05|ANOVA|||||||<.05
82380936|NCT00572936|164471569|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for statistical significance was \<0.05|ANOVA|||||||<0.05
82380937|NCT00572936|164471570|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.93||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.93
82514505|NCT01504438|164722063|OTHER|||||||0.29|||||||ANOVA|||||||0.29
82514506|NCT01504438|164722064|OTHER|||||||0.31|||||||ANOVA|||||||0.31
82380938|NCT00572936|164471571|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.84||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.84
82380939|NCT00572936|164471572|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.|||||<|0.05||||||threshold for statistical significance was \<0.05|ANOVA|||||||<0.05
82380940|NCT00572936|164471573|EQUIVALENCE|ANOVA was performed to compare the results between the three interventions.||||||0.89||||||threshold for statistical significance was \<0.05|ANOVA|||||||0.89
82380941|NCT00572936|164471574|EQUIVALENCE|Kruskal-Wallis test was used to compare the differences between outflow facility for the three interventions|||||<|0.05||||||threshold for statistical significance was \<0.05|Kruskal-Wallis|||||||<0.05
82380942|NCT00572936|164471575|EQUIVALENCE|Kruskal-Wallis test was used to compare the differences in uveoscleral outflow between the three interventions|||||<|0.05||||||threshold for statistical analysis was \<0.05|Kruskal-Wallis|||||||<0.05
82380943|NCT02547428|164471576|SUPERIORITY||Treatment difference|-8.1|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-11.0|-5.1|||ANCOVA||Sample size of 60 participants (30 per treatment sequence) was needed to provide minimum 85% power to detect 5 point difference between treatments at a 2-sided significance level of 5% using a paired t-test.|Null hypothesis was that there was no difference in ADHD-RS-IV total score change from Baseline between CTN SR and placebo. The analysis of covariance (ANCOVA) model included terms for period, sequence, and treatment as fixed effects, and Baseline score as a covariate, and a participate-within-sequence term as a random effect.||-5.1|-11.0|<0.001
82380944|NCT02547428|164471577|SUPERIORITY||Treatment difference|-7.1|STANDARD_ERROR_OF_MEAN|1.74|<|0.001|TWO_SIDED|95.0|-10.7|-3.6|||ANCOVA|||Null hypothesis was that there was no difference in ADHD-RS-IV total score change from Baseline between CTN SR 400 mg/day and placebo.||-3.6|-10.7|<0.001
82380945|NCT02806908|164471602|SUPERIORITY|||||||0.0022|||||||ANOVA|||||||0.0022
82380946|NCT02806908|164471603|SUPERIORITY|||||||0.0416|||||||ANOVA|||||||0.0416
82380947|NCT02806908|164471604|SUPERIORITY|||||||0.0963|||||||McNemar|||||||0.0963
82380948|NCT02806908|164471605|SUPERIORITY|||||||0.3018|||||||McNemar|||||||0.3018
82380949|NCT02806908|164471606|SUPERIORITY|||||||0.424|||||||McNemar|||||||0.4240
82380950|NCT02806908|164471607|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
82380951|NCT02806908|164471608|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
82380952|NCT02806908|164471609|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82380953|NCT02806908|164471610|SUPERIORITY|||||||0.6291|||||||McNemar|||||||0.6291
82380954|NCT02806908|164471611|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82380955|NCT02806908|164471612|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82380956|NCT02806908|164471613|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82380957|NCT02806908|164471614|SUPERIORITY|||||||0.7744|||||||McNemar|||||||0.7744
82380958|NCT02806908|164471615|SUPERIORITY|||||||0.7539|||||||McNemar|||||||0.7539
82514507|NCT01504438|164722065|OTHER|||||||0.07|||||||ANOVA|||||||0.07
82514508|NCT01504438|164722066|OTHER|||||||0.04|||||||ANOVA|||||||0.04
82380959|NCT02806908|164471616|SUPERIORITY|||||||0.1141|||||||ANOVA|||||||0.1141
82635115|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|0.6|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-11.8|12.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 1 hour||12.9|-11.8|
82380960|NCT02806908|164471617|SUPERIORITY|||||||0.4441|||||||ANOVA|||||||0.4441
82380961|NCT02806908|164471618|SUPERIORITY|||||||0.3423|||||||ANOVA|||||||0.3423
82380962|NCT02806908|164471619|SUPERIORITY|||||||0.9384|||||||ANOVA|||||||0.9384
82380963|NCT02806908|164471620|SUPERIORITY|||||||0.0939|||||||ANOVA|||||||0.0939
82380964|NCT02806908|164471621|SUPERIORITY|||||||0.0246|||||||ANOVA|||||||0.0246
82380965|NCT02806908|164471622|SUPERIORITY|||||||0.1475|||||||ANOVA|||||||0.1475
82380966|NCT02806908|164471623|SUPERIORITY|||||||0.1513|||||||ANOVA|||||||0.1513
82380967|NCT02806908|164471624|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
82380968|NCT02806908|164471625|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82380969|NCT02806908|164471626|SUPERIORITY|||||||0.4774|||||||ANOVA|||||||0.4774
82380970|NCT02806908|164471627|SUPERIORITY|||||||0.3801|||||||ANOVA|||||||0.3801
82380971|NCT02806908|164471628|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82514509|NCT02610140|164722069|SUPERIORITY||Hazard Ratio (HR)|1.215||||0.859125|TWO_SIDED|95.0|0.85|||1-sided p-value from log-rank test (stratified by TTP on 1st line treatment). P-value is calculated based on alpha level 0.0125.|Log Rank||Hazard ratio (anetumab ravtansine / vinorelbine) was estimated using Cox proportional hazards models with Wald CIs, stratified by Time to progression (TTP) on 1st line treatment.|PFS anetumab ravtansine / vinorelbine||1,738|0.850|0.859125
82635116|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-13.9|STANDARD_ERROR_OF_MEAN|8.1|||TWO_SIDED|95.0|-30.6|2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 4 hour||2.8|-30.6|
82380972|NCT01760304|164471629|SUPERIORITY|||||||0.769|||||||2-sided paired t-test|||a paired t-test was calculated comparing baseline measures and post intervention||||0.769
82514510|NCT02610140|164722070|SUPERIORITY||Hazard Ratio (HR)|1.072||||0.655624|TWO_SIDED|95.0|0.763|1.506||1-sided p-value from log-rank test (stratified by TTP on 1st line treatment). Alpha spending/boundary for interim was 0.00245. Alpha boundary value for final analysis was 0.02421.|Log Rank||Hazard ratio (anetumab ravtansine/vinorelbine) was estimated using Cox proportional hazards models with Wald CIs, stratified by TTP on 1st line treatment.|OS anetumab ravtansine / vinorelbine||1.506|0.763|0.655624
82514511|NCT02610140|164722075|SUPERIORITY||Difference (%) improvement rate symptoms|4.65||||0.244|TWO_SIDED|95.0|-8.2|17.51|||Cochran-Mantel-Haenszel|1-sided Cochran-Mantel-Haenszel test, stratified by TTP on 1st line treatment||Anetumab ravtansine versus vinorelbine||17.51|-8.20|0.244
82635117|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-15.5|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-31.0|0.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 4 hour||0|-31.0|
82514512|NCT02610140|164722076|SUPERIORITY||Hazard Ratio (HR)|0.829||||0.313747|TWO_SIDED|95.0|0.386|1.779|||Log Rank|one-sided log-rank test stratified by time to progression (TTP) on first line treatment||Anetumab ravtansine versus vinorelbine||1.779|0.386|0.313747
82635118|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-9.9|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-23.8|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 8 hour||3.9|-23.8|
82514513|NCT02610140|164722077|SUPERIORITY||Hazard Ratio (HR)|0.924||||0.378916|TWO_SIDED|95.0|0.557|1.533|||Log Rank|one-sided log-rank test stratified by time to progression (TTP) on first line treatment||Anetumab ravtansine versus vinorelbine||1.533|0.557|0.378916
82514514|NCT02610140|164722078|SUPERIORITY||Difference (%) improvement rate of pain|6.64||||0.214|TWO_SIDED|95.0|-9.4|22.68|||Cochran-Mantel-Haenszel|1-sided Cochran-Mantel-Haenszel test, stratified by TTP on 1st line treatment||||22.68|-9.40|0.214
82514515|NCT02610140|164722081|SUPERIORITY||Mean Difference (Final Values)|9.5|||||TWO_SIDED|95.0|0.1|39.3||||||||39.3|0.1|
82635119|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-16.0|9.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose AM 8 hour||9.7|-16.0|
82514516|NCT02610140|164722081|SUPERIORITY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|0.0|35.9||||||||35.9|0.0|
82514517|NCT02617589|164722082|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.31||||0.0037|TWO_SIDED|95.0|1.09|1.58|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.58|1.09|0.0037
82514518|NCT02617589|164722083|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.43|||||TWO_SIDED|95.0|1.19|1.71|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.71|1.19|
82514519|NCT02617589|164722087|SUPERIORITY|Hazard Ratio is Nivolumab over Temozolomide|Stratified Cox proportional hazard model|1.31||||0.0024|TWO_SIDED|95.0|1.1|1.55|||Log-rank test stratified|Log-rank test stratified by complete or partial resection at baseline as entered into the IVRS.||||1.55|1.10|0.0024
82514520|NCT01975389|164722088|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.021469|TWO_SIDED|95.0|0.65|0.97|||Log Rank|||Hazard ratio and 95% Confidence Interval (CI) were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.97|0.65|0.021469
82514521|NCT01975389|164722089|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.007597|TWO_SIDED|95.0|0.6|0.93|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.93|0.60|0.007597
82514522|NCT01975389|164722090|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.035958|TWO_SIDED|95.0|0.68|0.99|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.99|0.68|0.035958
82514523|NCT01975389|164722091|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.015694|TWO_SIDED|95.0|0.64|0.95|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.95|0.64|0.015694
82514524|NCT01975389|164722092|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.814224|TWO_SIDED|95.0|0.62|1.46|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.46|0.62|0.814224
82514525|NCT01975389|164722093|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.018053|TWO_SIDED|95.0|0.65|0.96|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.96|0.65|0.018053
82514526|NCT01975389|164722094|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.446033|TWO_SIDED|95.0|0.5|1.36|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.36|0.50|0.446033
82514527|NCT01975389|164722095|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.029977|TWO_SIDED|95.0|0.57|0.97|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.97|0.57|0.029977
82514528|NCT01975389|164722096|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.162615|TWO_SIDED|95.0|0.14|1.44|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.44|0.14|0.162615
82380973|NCT01760304|164471629|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||paired T-test|||a paired t-test was calculated comparing baseline measures and post intervention||||<0.0001
82380974|NCT01760304|164471631|SUPERIORITY_OR_OTHER||||||<|0.05|||||||paired t-test|||||||<0.05
82514529|NCT01975389|164722097|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.051534|TWO_SIDED|95.0|0.59|1.0|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.00|0.59|0.051534
82514530|NCT01975389|164722098|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104998|TWO_SIDED|95.0|0.41|1.09|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.09|0.41|0.104998
82514531|NCT01975389|164722099|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.294331|TWO_SIDED|95.0|0.5|1.24|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.24|0.50|0.294331
82514532|NCT01975389|164722101|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104998|TWO_SIDED|95.0|0.41|1.09|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.09|0.41|0.104998
82514533|NCT01975389|164722102|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6012|TWO_SIDED|95.0|0.6|1.34|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.34|0.60|0.601200
82380975|NCT04429503|164471633|NON_INFERIORITY|p-value for one-sided non-inferiority (NI) test at a margin of 4 letters|Least Square (LS) Mean Difference|-0.57|||<|0.0001|TWO_SIDED|95.0|-2.26|1.13|||Mixed Model for Repeated Measurements||HDq12 minus 2q8|||1.13|-2.26|<0.0001
82380976|NCT04429503|164471633|NON_INFERIORITY|p-value for one-sided non-inferiority (NI) test at a margin of 4 letters|LS Mean Difference|-1.44||||0.0031|TWO_SIDED|95.0|-3.27|0.39|||Mixed Model for Repeated Measurements||HDq16 minus 2q8|||0.39|-3.27|0.0031
82514534|NCT01975389|164722103|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.678061|TWO_SIDED|95.0|0.72|1.67|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.67|0.72|0.678061
82514535|NCT01975389|164722104|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.010457|TWO_SIDED|95.0|0.63|0.94|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.94|0.63|0.010457
82514536|NCT01975389|164722105|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.509847|TWO_SIDED|95.0|0.71|2.01|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||2.01|0.71|0.509847
82514537|NCT01975389|164722106|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002981|TWO_SIDED|95.0|0.58|0.9|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||0.90|0.58|0.002981
82514538|NCT01975389|164722107|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.748975|TWO_SIDED|95.0|0.7|1.3|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.30|0.70|0.748975
82514539|NCT01975389|164722108|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.626157|TWO_SIDED|95.0|0.63|1.32|||Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model stratified by geographic region and complete statin intolerance with treatment as a covariate.||1.32|0.63|0.626157
82514540|NCT01975389|164722109|SUPERIORITY||LS mean difference|-56.9|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-57.91|-55.89|||MMRM|||Least square (LS) mean differences, associated 95% CI, and p-values were from an mixed model repeated measures (MMRM) model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-55.89|-57.91|<0.001
82514541|NCT01975389|164722110|SUPERIORITY||LS mean difference|-73.8|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-75.11|-72.5|||MMRM|||LS mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-72.50|-75.11|<0.001
82514542|NCT01975389|164722111|SUPERIORITY||LS mean difference|-39.31|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-40.55|-38.06|||ANCOVA|||LS-mean difference, associated 95% CI, and p-value were from an analysis of covariance (ANCOVA) model with fixed effects for treatment group, baseline value, geographic region and complete statin intolerance.||-38.06|-40.55|<0.001
82514543|NCT01975389|164722112|SUPERIORITY||LS mean difference|-51.87|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-52.81|-50.94|||MMRM|||Non-HDLC: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-50.94|-52.81|<0.001
82514544|NCT01975389|164722112|SUPERIORITY||LS mean difference|-18.41|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-19.96|-16.86|||MMRM|||VLDL-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-16.86|-19.96|<0.001
82523787|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0|TWO_SIDED|95.0|0.5|0.82|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 12||0.82|0.50|0.000
82380977|NCT04429503|164471634|NON_INFERIORITY|The non-inferiority margin was set at 15%|Adjusted Difference (%)|1.98|||||TWO_SIDED|95.0|-6.61|10.57|||||Difference with confidence interval (CI) was calculated using Mantel-Haenszel weighting scheme adjusted for stratification factors|||10.57|-6.61|
82514545|NCT01975389|164722112|SUPERIORITY||LS mean difference|-29.2|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|-31.44|-26.96|||MMRM|||RLP-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-26.96|-31.44|<0.001
82380978|NCT04429503|164471634|NON_INFERIORITY|The non-inferiority margin was set at 15%.|Adjusted Difference (%)|-7.52|||||TWO_SIDED|95.0|-16.88|1.84|||||Difference with confidence interval (CI) was calculated using Mantel-Haenszel weighting scheme adjusted for stratification factors|||1.84|-16.88|
82380979|NCT05516108|164471655|OTHER|||||||0.004|||||||Mixed Models Analysis|Stata mixed||time (pre, post, follow-up) x condition (mindfulness, coping)||||.004
82380980|NCT05516108|164471656|OTHER|||||||0.02|||||||Mixed Models Analysis|||time (pre, post, follow-up) x condition (mindfulness, coping)||||.020
82380981|NCT05516108|164471657|OTHER|||||||0.74|||||||Mixed Models Analysis|Stata melogit||time (pre, post, follow-up) x condition (mindfulness, coping)||||.74
82380982|NCT05516108|164471658|OTHER|||||||0.1|||||||Mixed Models Analysis|||time (pre, post, follow-up) x condition (mindfulness, coping)||||.10
82380983|NCT05516108|164471659|OTHER|||||||0.009|||||||Mixed Models Analysis|Stata mixed||time (pre, post, follow-up) x condition (mindfulness, coping)||||.009
82380984|NCT06192589|164471700|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.43|||<|0.01|TWO_SIDED|90.0|1.34|1.52||Analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of cannabidiol on citalopram compared to citalopram alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.52|1.34|<0.01
82380985|NCT06192589|164471701|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12|||<|0.01|TWO_SIDED|90.0|1.06|1.17||Analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of cannabidiol on citalopram compared to citalopram alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.17|1.06|<0.01
82635120|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-26.2|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 predose PM||8.6|-26.2|
82635121|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-19.7|12.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 predose PM||12.6|-19.7|
82635122|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-18.7|12.2||||||Day 1 postdose PM 1 hour||12.2|-18.7|
82635123|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.4|STANDARD_ERROR_OF_MEAN|6.9|||TWO_SIDED|95.0|-18.7|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1 postdose PM||9.9|-18.7|
82635124|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-18.2|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose AM||1.3|-18.2|
82635125|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-14.8|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose AM||3.3|-14.8|
82635126|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-15.4|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-28.1|-2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 1 hour||-2.8|-28.1|
82635127|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-9.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-21.1|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 1 hour||2.3|-21.1|
82635128|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.8|STANDARD_ERROR_OF_MEAN|8.1|||TWO_SIDED|95.0|-25.6|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 4 hour||7.9|-25.6|
82635129|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.2|STANDARD_ERROR_OF_MEAN|7.5|||TWO_SIDED|95.0|-26.7|4.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose AM 4 hour||4.4|-26.7|
82635130|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-24.0|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose PM||0.6|-24.0|
82635131|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-7.0|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-18.4|4.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 predose PM||4.4|-18.4|
82635132|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|1.6|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-13.0|16.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 1 hour||16.2|-13.0|
82635133|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|95.0|-12.9|14.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 1 hour||14.2|-12.9|
82635134|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-16.4|7.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 4 hour||7.1|-16.4|
82635135|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.0|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-13.9|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2 postdose PM 4 hour||7.9|-13.9|
82635136|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-15.8|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 predose AM||6.4|-15.8|
82635137|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-16.0|4.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 predose AM||4.5|-16.0|
82635138|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-13.6|13.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 postdose PM 4 hour||13.1|-13.6|
82635139|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-2.8|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-15.2|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3 postdose PM 4 hour||9.6|-15.2|
82635140|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-15.5|3.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4 predose AM||3.0|-15.5|
82635141|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.1|STANDARD_ERROR_OF_MEAN|4.1|||TWO_SIDED|95.0|-16.6|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4 predose AM||0.5|-16.6|
82635142|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-1.7|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-11.8|8.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5 predose AM||8.4|-11.8|
82635143|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-10.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-19.4|-0.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5 predose AM||-0.7|-19.4|
82635144|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-6.7|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-18.1|4.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6 predose AM||4.7|-18.1|
82635145|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-14.8|6.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6 predose AM||6.3|-14.8|
82635146|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-12.2|14.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 predose AM||14.1|-12.2|
82635147|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-16.0|8.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 predose AM||8.4|-16.0|
82635148|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.0|STANDARD_ERROR_OF_MEAN|5.8|||TWO_SIDED|95.0|-15.1|9.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 1 hour||9.1|-15.1|
82635149|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-6.4|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-17.6|4.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 1 hour||4.8|-17.6|
82635150|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-9.5|STANDARD_ERROR_OF_MEAN|6.4|||TWO_SIDED|95.0|-22.7|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 4 hour||3.7|-22.7|
82635151|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-17.2|STANDARD_ERROR_OF_MEAN|5.9|||TWO_SIDED|95.0|-29.5|-5.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7 postdose AM 4 hour||-5.0|-29.5|
82635152|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-24.4|1.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose AM||1.1|-24.4|
82635153|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-20.2|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose AM||3.5|-20.2|
82635154|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-13.4|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-28.1|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 1 hour||1.4|-28.1|
82635155|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-10.3|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-24.0|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 1 hour||3.3|-24.0|
82380986|NCT06192589|164471702|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.34|TWO_SIDED|90.0|0.96|1.16|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.16|0.96|0.34
82635156|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-10.1|STANDARD_ERROR_OF_MEAN|8.2|||TWO_SIDED|95.0|-27.0|6.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 4 hour||6.9|-27.0|
82380987|NCT06192589|164471702|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12||||0.1|TWO_SIDED|90.0|1.0|1.26|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect.||1.26|1.00|0.10
82380988|NCT06192589|164471703|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.19||||0.02|TWO_SIDED|90.0|1.05|1.35|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.35|1.05|0.02
82380989|NCT06192589|164471703|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.11||||0.29|TWO_SIDED|90.0|0.94|1.3|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.30|0.94|0.29
82380990|NCT06192589|164471710|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.01||||0.47|TWO_SIDED|90.0|0.98|1.05|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.05|0.98|0.47
82514546|NCT01975389|164722112|SUPERIORITY||LS mean difference|-51.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-52.37|-50.42|||MMRM|||Apo B: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-50.42|-52.37|<0.001
82514547|NCT01975389|164722112|SUPERIORITY||LS mean difference|6.91|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|6.33|7.5|||MMRM|||HDL-C: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||7.50|6.33|<0.001
82514548|NCT01975389|164722112|SUPERIORITY||LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|3.9|4.9|||MMRM|||Apo A-I: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 52 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||4.90|3.90|<0.001
82570202|NCT00878553|164850683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.562|STANDARD_ERROR_OF_MEAN|0.244||0.1005|TWO_SIDED|95.0|-1.235|0.11||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||0.110|-1.235|0.1005
82514549|NCT01975389|164722112|SUPERIORITY||LS mean difference|-37.99|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-38.75|-37.22|||MMRM|||Total cholesterol: LS-mean differences, associated 95% CI, and p-values were from an MMRM model including observations through Week 70 with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographic region and complete statin intolerance.||-37.22|-38.75|<0.001
82514550|NCT01975389|164722113|SUPERIORITY||LS mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.81|0.83|||MMRM|||Triglycerides: LS-mean differences, associated 95% CI and p-values were from an MMRM model including observations through Week 70 on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance. The 95% CI was derived by exponentiating the LS-mean difference confidence interval from the log scale.||0.83|0.81|<0.001
82514551|NCT01975389|164722113|SUPERIORITY||LS mean difference|0.68|||<|0.001|TWO_SIDED|95.0|0.67|0.69|||MMRM|||Lp(a): LS-mean differences, associated 95% CI and p-values were from an MMRM model on the Difference of log-transformed observations with fixed effects for treatment group, visit, a treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance. The 95% CI was derived by exponentiating the LS-mean difference confidence interval from the log scale.||0.69|0.67|<0.001
82514552|NCT01975389|164722114|SUPERIORITY||LS mean difference|1.06||||0.002|TWO_SIDED|95.0|1.02|1.09|||MMRM|||LS-mean differences, associated 95% CI and p-values were from an MMRM model on the difference of log-transformed observations with fixed effects for treatment group, visit, treatment group\*visit interaction, log-transformed baseline value, log-transformed baseline value\*visit interaction, geographical region and complete statin intolerance.||1.09|1.02|0.002
82514553|NCT01312961|164722115|SUPERIORITY||Odds Ratio (OR)|0.077|||<|0.0001|TWO_SIDED|95.0|0.021|0.28||Threshold for significance at 0.05 level.|Regression, Logistic||Dupilumab 300 mg vs. Placebo|Analysis was performed using a logistic regression model with treatment groups and stratification factor (prior ICS/LABA combination therapy dose) as covariates.||0.280|0.021|<0.0001
82514554|NCT01208233|164722156|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.735||||0.4962|TWO_SIDED|80.0|0.41|1.31|||Regression, Logistic|LOCF was used to impute missing data.||||1.31|0.41|0.4962
82514555|NCT01208233|164722156|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.561||||0.2517|TWO_SIDED|80.0|0.29|1.07|||Regression, Logistic|The analysis was based on OC.||||1.07|0.29|0.2517
82514556|NCT01208233|164722157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|3.942||0.9716|TWO_SIDED|80.0|-4.972|5.254|||Mixed Models Analysis|||Paretic hand||5.254|-4.972|0.9716
82514557|NCT01208233|164722158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.789|STANDARD_ERROR_OF_MEAN|7.2392||0.1417|TWO_SIDED|80.0|1.401|20.177|||Mixed Models Analysis|||Paretic to non-paretic hand ratio (%)||20.177|1.401|0.1417
82514558|NCT01208233|164722159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.33|STANDARD_ERROR_OF_MEAN|5.4241||0.0611|TWO_SIDED|80.0|-17.351|-3.31|||Mixed Models Analysis|||Paretic hand||-3.310|-17.351|0.0611
82514559|NCT01208233|164722159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|3.2899||0.9433|TWO_SIDED|80.0|-4.011|4.48|||Mixed Models Analysis|||Non-paretic hand||4.480|-4.011|0.9433
82514560|NCT01208233|164722160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.812|STANDARD_ERROR_OF_MEAN|6.8448||0.0654|TWO_SIDED|80.0|-21.668|-3.957|||Mixed Models Analysis|||Paretic to non-paretic hand ratio (%)||-3.957|-21.668|0.0654
82514561|NCT01208233|164722161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.972||||0.951|TWO_SIDED|80.0|0.54|1.76|||Regression, Logistic|||LOCF was used to impute missing data.||1.76|0.54|0.9510
82514562|NCT01208233|164722162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.854||||0.7234|TWO_SIDED|80.0|0.48|1.51|||Regression, Logistic|||LOCF was used to impute missing data.||1.51|0.48|0.7234
82514563|NCT01208233|164722163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.283|STANDARD_ERROR_OF_MEAN|0.6755||0.6759|TWO_SIDED|80.0|-1.156|0.589|||Mixed Models Analysis|||||0.589|-1.156|0.6759
82514564|NCT01208233|164722164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.433||||0.4213|TWO_SIDED|80.0|0.81|2.54|||Regression, Logistic|||BI \>=95, LOCF was used to impute missing data.||2.54|0.81|0.4213
82514565|NCT01208233|164722164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.651||||0.276|TWO_SIDED|80.0|0.92|2.98|||Regression, Logistic|||BI=100, LOCF was used to impute missing data.||2.98|0.92|0.2760
82380991|NCT06192589|164471710|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|0.99||||0.73|TWO_SIDED|90.0|0.96|1.03|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.03|0.96|0.73
82380992|NCT06192589|164471711|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.12||||0.03|TWO_SIDED|90.0|1.03|1.21|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.21|1.03|0.03
82380993|NCT06192589|164471711|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|0.98||||0.66|TWO_SIDED|90.0|0.91|1.06|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.06|0.91|0.66
82514566|NCT01208233|164722165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.599|STANDARD_ERROR_OF_MEAN|4.4547||0.2118|TWO_SIDED|80.0|-0.15|11.348|||Mixed Models Analysis|||||11.348|-0.150|0.2118
82514567|NCT01208233|164722166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.062|STANDARD_ERROR_OF_MEAN|1.7844||0.5541|TWO_SIDED|80.0|-1.252|3.375|||Mixed Models Analysis|||||3.375|-1.252|0.5541
82514568|NCT01208233|164722167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.334|STANDARD_ERROR_OF_MEAN|0.4178||0.426|TWO_SIDED|80.0|-0.874|0.205|||Mixed Models Analysis|||||0.205|-0.874|0.4260
82514569|NCT01208233|164722168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.477|STANDARD_ERROR_OF_MEAN|5.4394||0.65|TWO_SIDED|80.0|-4.547|9.5|||Mixed Models Analysis|||(L+R)/28 × 100%||9.500|-4.547|0.6500
82514570|NCT01208233|164722168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.874|STANDARD_ERROR_OF_MEAN|6.7431||0.5671|TWO_SIDED|80.0|-4.834|12.583|||Mixed Models Analysis|||(L/14) × 100%||12.583|-4.834|0.5671
82514571|NCT01208233|164722168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.049|STANDARD_ERROR_OF_MEAN|5.2816||0.843|TWO_SIDED|80.0|-5.771|7.87|||Mixed Models Analysis|||(R/14) × 100%||7.870|-5.771|0.8430
82514572|NCT01208233|164722169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.0733||0.1512|TWO_SIDED|80.0|0.011|0.201|||Mixed Models Analysis|||(L R)/(L+R)||0.201|0.011|0.1512
82514573|NCT01208233|164722170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.279|STANDARD_ERROR_OF_MEAN|0.5041||0.0128|TWO_SIDED|80.0|-1.929|-0.629|||Mixed Models Analysis|||||-0.629|-1.929|0.0128
82514574|NCT01208233|164722171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.1226||0.4713|TWO_SIDED|80.0|-0.07|0.248|||Mixed Models Analysis|||||0.248|-0.070|0.4713
82514575|NCT01208233|164722178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.516|STANDARD_ERROR_OF_MEAN|2.7201||0.8501|TWO_SIDED|80.0|-4.026|2.995|||Mixed Models Analysis|||Non-paretic hand||2.995|-4.026|0.8501
82514576|NCT01181895|164722179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.244|TWO_SIDED|95.0|-0.048|0.188||P-value for the adjusted treatment difference for Vilanterol 25 µg OD versus Placebo.|ANCOVA||The estimated value represents the adjusted treatment difference in the weighted mean 0-24 hour FEV1 (Liters) at Week 12 for Vilanterol 25 µg OD versus Placebo.|||0.188|-0.048|0.244
82514577|NCT01181895|164722179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.926|TWO_SIDED|95.0|-0.124|0.113||P-value for the adjusted treatment difference for Salmetarol 50 µg BID versus Placebo.|ANCOVA||The estimated value represents the adjusted treatment difference in the weighted mean 0-24 hour FEV1 (Liters) at Week 12 for Salmeterol 50 µg BID versus Placebo.|||0.113|-0.124|0.926
82514578|NCT00023452|164722203|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% confidence interval (CI) was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.24|||||ONE_SIDED|95.0||0.01|||||The difference in cumulative TB disease rate is the rate in the 3RPT/INH arm minus the rate in the 9INH arm.|||0.01||
82514579|NCT00023452|164722204|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Rate|-0.21|||||ONE_SIDED|95.0||0.04|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.04||
82514580|NCT00023452|164722205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.25|||||ONE_SIDED|95.0||0.03|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.03||
82514581|NCT00023452|164722206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Chi-squared|||||||0.02
82514582|NCT00023452|164722207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24||95.0|||||Chi-squared|||Grade 3 Drug Toxicity||||0.24
82514583|NCT00023452|164722207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||95.0|||||Chi-squared|||Grade 4 Drug Toxicity||||0.59
82514584|NCT00023452|164722208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0|||||Chi-squared|||||||0.22
82514585|NCT00023452|164722210|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82514586|NCT00023452|164722211|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82514587|NCT00023452|164722212|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority test statistic was based on the difference of the nonparametric Kaplan-Meier estimators. The asymptotic variance of the test statistic was obtained through Greenwood's formula and a two-sided 95% CI was constructed for the difference. If the upper bound of the CI was smaller than the noninferiority margin 0.75%, then the null hypothesis would be rejected and noninferiority could be claimed.|Difference in Cumulative TB Disease Rate|-0.19|||||ONE_SIDED|95.0||0.06|||||The difference in cumulative TB disease rate is the percentage in the 3RPT/INH arm minus the percentage in the 9INH arm.|||0.06||
82514588|NCT01940705|164722221|SUPERIORITY||Mean Difference (Final Values)|5.578||||0.001|TWO_SIDED||||||ANOVA|||Analysis for Hearing Aid Skills and Knowledge test Skills scale||||0.001
82514589|NCT01940705|164722221|SUPERIORITY||Mean Difference (Final Values)|4.235||||0.003|TWO_SIDED||||||ANOVA|||Analysis for Hearing Aid Skills and Knowledge test Knowledge scale||||0.003
82514590|NCT01940705|164722222|SUPERIORITY||Mean Difference (Final Values)|0.956||||0.414|TWO_SIDED||||||ANOVA|||||||0.414
82635157|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|7.6|||TWO_SIDED|95.0|-20.4|11.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 postdose AM 4 hour||11.1|-20.4|
82514591|NCT01940705|164722223|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.847|TWO_SIDED||||||ANOVA|||||||0.847
82514592|NCT06748040|164722238|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.4852|TWO_SIDED|95.0|-2.4|1.2||P-value less than 0.05 is considered as statistically significant.|t-test, 2 sided|||||1.2|-2.4|0.4852
82514593|NCT04621500|164722239|OTHER|The sequencing transcriptional profile cannot be analyzed by a statistical method.|||||||||||||||||In this open label study, the RNA sequencing transcription analysis was performed to assess if the transcriptome would be modified by vitamin D supplementation and it uniformaly was.|||
82514594|NCT04419493|164722250|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%|Geometric Least Squares Mean ratio (%)|102.2|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|92.83|94.87|110.1|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||110.10|94.87|
82514595|NCT04419493|164722252|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%|Geometric Least Squares Mean ratio (%)|105.81|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|92.83|99.18|112.88|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||112.88|99.18|
82635158|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.2|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|95.0|-19.5|11.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose PM||11.0|-19.5|
82523788|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.95||||0.696|TWO_SIDED|95.0|0.74|1.22|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 2.5 mg at Week 24||1.22|0.74|0.696
82635159|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|6.8|||TWO_SIDED|95.0|-15.4|12.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8 predose PM||12.8|-15.4|
82635160|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-12.7|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-23.0|-2.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9 predose AM||-2.5|-23.0|
82380994|NCT06192589|164471712|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies.|Geometric mean ratio|1.08||||0.13|TWO_SIDED|90.0|0.99|1.18|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect.||1.18|0.99|0.13
82635161|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.2|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-14.7|4.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9 predose AM||4.3|-14.7|
82635162|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.0|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-19.0|2.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10 predose AM||2.9|-19.0|
82635163|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-14.0|6.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10 predose||6.3|-14.0|
82635164|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-16.1|STANDARD_ERROR_OF_MEAN|7.2|||TWO_SIDED|95.0|-31.0|-1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11 predose AM||-1.2|-31.0|
82635165|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-22.1|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11 predose AM||5.6|-22.1|
82523789|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81||||0.099|TWO_SIDED|95.0|0.64|1.04|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 7.5 mg at Week 24||1.04|0.64|0.099
82635166|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-14.6|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12 predose AM||7.9|-14.6|
82635167|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.5|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-15.9|4.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12 predose AM||4.9|-15.9|
82635168|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.9|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-22.1|-1.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose AM||-1.7|-22.1|
82635169|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-6.5|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-16.0|2.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose AM||2.9|-16.0|
82635170|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-14.3|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-25.4|-3.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 1 hour||-3.2|-25.4|
82635171|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.8|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-22.1|-1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 1 hour||-1.5|-22.1|
82635172|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-29.0|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 4 hour||5.6|-29.0|
82635173|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-9.8|STANDARD_ERROR_OF_MEAN|7.7|||TWO_SIDED|95.0|-25.9|6.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose AM 4 hour||6.2|-25.9|
82635174|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-11.3|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-22.4|-0.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 postdose PM||-0.1|-22.4|
82514596|NCT04419493|164722254|EQUIVALENCE|Bioequivalence was concluded, if the confidence interval (CI) for the comparison of geometric least squares means ratio was included in the pre-defined equivalence range of 80.00% to 125.00% .|Geometric Least Squares Mean ratio (%)|102.17|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|92.83|94.79|110.12|||||Geometric Least Squares Mean ratio is: Alteplase, TPA-02/Alteplase, TPA-05. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The null hypothesis was that the ratio of expected geometric least squares means Alteplase, TPA-02 vs. Alteplase, TPA-05 is less than 80.00% or more than 125.00%.~The statistical model used for the analysis of this endpoints was an analysis of variance (ANOVA) model on the logarithmic scale.~This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. All effects were considered as fixed."||110.12|94.79|
82635175|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-9.9|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-20.2|0.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13 predose PM||0.4|-20.2|
82514597|NCT01782131|164722259|NON_INFERIORITY|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme. The p-Value is based on the one-sided non-inferiority test. Non-inferiority of posaconazole vs. voriconazole is established if the upper limit of the 95% confidence interval is less than 10%.|Estimated Difference in Percent|-5.3|||<|0.0001|TWO_SIDED|95.0|-11.6|1.0|||Miettinen and Nurminen|||||1.0|-11.6|<.0001
82635176|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-22.0|10.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14 predose AM||10.5|-22.0|
82635177|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-6.1|STANDARD_ERROR_OF_MEAN|7.3|||TWO_SIDED|95.0|-21.1|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14 predose AM||9.0|-21.1|
82514598|NCT01782131|164722260|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|0.3|||||TWO_SIDED|95.0|-8.2|8.8||||||||8.8|-8.2|
82635178|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-8.1|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-21.7|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15 / Discharge||5.6|-21.7|
82635179|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-5.0|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-17.7|7.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15 / Discharge||7.6|-17.7|
82635180|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|4.8|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-7.0|16.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21 / Follow-up||16.7|-7.0|
82635181|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|5.2|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-5.8|16.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21 / Follow-up||16.2|-5.8|
82514599|NCT01782131|164722261|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|-2.5|||||TWO_SIDED|95.0|-9.9|4.9||||||||4.9|-9.9|
82514600|NCT01782131|164722262|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|3.1|||||TWO_SIDED|95.0|-6.9|13.1||||||||13.1|-6.9|
82635182|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|5.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-11.7|22.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42 / End of Trial||22.6|-11.7|
82514601|NCT01782131|164722263|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Estimated Difference in Percent|-3.4|||||TWO_SIDED|95.0|-13.9|7.1||||||||7.1|-13.9|
82514602|NCT01782131|164722264|OTHER|Based on Miettinen and Nurminen's method stratified by the risk for mortality/poor outcome (high risk, not high risk) and using Cochran-Mantel-Haenszel weighting scheme.|Difference in Percent|-0.6|||||TWO_SIDED|95.0|-11.2|10.1||||||||10.1|-11.2|
82514603|NCT01782131|164722265|OTHER||Survival Rate in Percent|60.7||||0.2767|TWO_SIDED|95.0|52.8|67.8||Based on Stratified Log-Rank method stratified by the risk for mortality/poor outcome (high risk, not high risk).|Kaplan-Meier|From product-limit (Kaplan-Meier) method for censored data.||Analysis of Time to All-Cause Mortality Through Day 114: Posaconazole vs. Voriconazole||67.8|52.8|0.2767
82514604|NCT01782131|164722266|OTHER|Based on Miettinen and Nurminen's method.|Difference in Percent|20.4|||||TWO_SIDED|95.0|-4.1|42.7||||||||42.7|-4.1|
82514605|NCT01782131|164722267|OTHER|Based on Miettinen and Nurminen's method.|Difference in Percent|11.3|||||TWO_SIDED|95.0|-6.9|28.6||||||||28.6|-6.9|
82514606|NCT01782131|164722268|OTHER||Difference in Percent|0.3||||0.8305|TWO_SIDED|95.0|-2.9|3.6|||Miettinen & Nurminen|||Abnormal Hepatic Laboratory Value||3.6|-2.9|0.8305
82514607|NCT01782131|164722268|OTHER||Difference in Percent|-3.6||||0.3633|TWO_SIDED|95.0|-11.3|4.2|||Miettinen & Nurminen|||CNS and Visual Disturbances||4.2|-11.3|0.3633
82514608|NCT01782131|164722268|OTHER||Difference in Percent|-2.8||||0.3724|TWO_SIDED|95.0|-9.1|3.4|||Miettinen & Nurminen|||Dermatologic Reactions||3.4|-9.1|0.3724
82570203|NCT00878553|164850683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.037|STANDARD_ERROR_OF_MEAN|0.244||0.0028|TWO_SIDED|95.0|-1.712|-0.362||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||-0.362|-1.712|0.0028
82570204|NCT00878553|164850683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.793|STANDARD_ERROR_OF_MEAN|0.244||0.0216|TWO_SIDED|95.0|-1.467|-0.118||Adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period,sequence, and treatment.|Mixed Models Analysis|No adjustments for multiple testing were made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|This endpoint summarizes the number of times during Hours 3 7, after onset of persistent sleep, that there was a wake entry of at least 2 epochs duration. To be counted, each entry must have been separated by a sleep stage of 2, 3 4, or rapid eye movement.||-0.118|-1.467|0.0216
82635183|NCT03091920|164985967|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|7.7|||TWO_SIDED|95.0|-20.4|11.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42 / End of Trial||11.4|-20.4|
82635184|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-8.9|3.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||3.8|-8.9|
82635185|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.0|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-8.4|4.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||4.5|-8.4|
82514609|NCT01782131|164722268|OTHER||Difference in Percent|1.0||||0.6431|TWO_SIDED|95.0|-3.4|5.5|||Miettinen & Nurminen|||Adrenal Insufficiency or Temporal Hypotension||5.5|-3.4|0.6431
82514610|NCT01782131|164722269|OTHER|Based on Miettinen \& Nurminen|Difference in Percent|0.0|||||TWO_SIDED|95.0|-2.8|2.8||||||||2.8|-2.8|
82514611|NCT01782131|164722270|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-10.2|||||TWO_SIDED|95.0|-17.9|-2.4||||||||-2.4|-17.9|
82514612|NCT01782131|164722271|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|1.9|||||TWO_SIDED|95.0|-6.1|9.8||||||||9.8|-6.1|
82514613|NCT01782131|164722272|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-1.4|||||TWO_SIDED|95.0|-5.6|2.7||||||||2.7|-5.6|
82514614|NCT01782131|164722273|OTHER|Based on Miettinen \& Nurminen method.|Difference in Percent|-3.2|||||TWO_SIDED|95.0|-11.0|4.5||||||||4.5|-11.0|
82514615|NCT01073618|164722303|SUPERIORITY_OR_OTHER||Efficacy rate (percent)|75.15|||||TWO_SIDED|95.0|71.36|78.94|||Normal approximation to binomial||Confidence Interval (CI) by normal approximation to binomial.|Efficacy Rate (treatment effective) = Percentage of evaluable participants with clinical response of cure or improvement||78.94|71.36|
82635186|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.2|3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||3.4|-9.2|
82635187|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-13.5|-0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||-0.6|-13.5|
82635188|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.5|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-11.5|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||0.6|-11.5|
82635189|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.8|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||1.5|-10.8|
82635190|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-9.4|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||2.2|-9.4|
82514616|NCT00693992|164722318|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0006|TWO_SIDED|95.0|0.47|0.82|||Log Rank|||||0.82|0.47|0.0006
82514617|NCT00693992|164722319|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.89|TWO_SIDED|95.0|0.73|1.31|||Log Rank|||||1.31|0.73|0.89
82514618|NCT00693992|164722321|SUPERIORITY|||||||0.0061|||||||Fisher Exact|||||||0.0061
82514619|NCT00693992|164722322|SUPERIORITY|||||||0.8393|||||||Fisher Exact|||||||0.8393
82514620|NCT05209191|164722352|SUPERIORITY||Mean Difference (Net)|7.28|STANDARD_DEVIATION|0.65||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
82514621|NCT05209191|164722354|SUPERIORITY||Mean Difference (Net)|0.08||||0.38|TWO_SIDED||||||t-test, 2 sided|||Paired t-test.||||.38
82514622|NCT05209191|164722355|SUPERIORITY||Chi square|52.07||||0.001|TWO_SIDED||||||Chi-squared|||||||.001
82523790|NCT01218126|164743213|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.86||||0.256|TWO_SIDED|95.0|0.67|1.11|||mixed model repeated measures||Analysis performed using a repeated measures model with covariates of treatment, region, smoking status at screening (stratum), history of exacerbations, baseline, visit, visit by baseline and visit by treatment interactions.|Placebo versus Losmapimod 15 mg at Week 24||1.11|0.67|0.256
82635191|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-8.0|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||3.7|-8.0|
82635192|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.0|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-13.8|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||3.9|-13.8|
82635193|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.7|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-11.7|6.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||6.2|-11.7|
82635194|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.4|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-9.7|0.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||0.9|-9.7|
82635195|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-8.5|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||2.2|-8.5|
82635196|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-6.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-13.1|-0.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||-0.3|-13.1|
82635197|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-11.8|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||1.2|-11.8|
82635198|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-14.2|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||3.5|-14.2|
82635199|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-17.5|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||0.5|-17.5|
82635200|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-11.6|0.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||0.2|-11.6|
82635201|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-10.6|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||1.5|-10.6|
82635202|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-7.4|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||6.4|-7.4|
82635203|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.3|4.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||4.7|-9.3|
82635204|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.4|4.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||4.6|-9.4|
82635205|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-8.7|5.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||5.6|-8.7|
82635206|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-6.2|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||6.7|-6.2|
82635207|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-6.2|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||6.8|-6.2|
82635208|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|1.5|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-6.4|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||9.4|-6.4|
82635209|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-9.3|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||6.8|-9.3|
82635210|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.0|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||1.4|-10.0|
82635211|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.3|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||1.3|-10.3|
82635212|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-8.2|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||3.3|-8.2|
82635213|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-13.0|-1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||-1.3|-13.0|
82635214|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-7.7|2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||2.2|-7.7|
82635215|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-9.7|0.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||0.3|-9.7|
82380995|NCT06192589|164471712|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.26|||<|0.01|TWO_SIDED|90.0|1.17|1.36|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Area under the curve was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.36|1.17|<0.01
82380996|NCT06192589|164471713|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.08||||0.12|TWO_SIDED|90.0|1.0|1.17|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of a single dose of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.17|1.00|0.12
82380997|NCT06192589|164471713|OTHER|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.11||||0.07|TWO_SIDED|90.0|1.01|1.21|||Mixed Models Analysis|Analyses are not adjusted for multiplicity.|Comparison was the effect of multiple doses of cannabidiol on morphine compared to morphine alone.|Maximum concentration was log-transformed and the values between groups were compared using a linear mixed effects model with group as a categorical variable and subject as a random effect||1.21|1.01|0.07
82380998|NCT02717507|164471714|OTHER||Slope|0.163|STANDARD_ERROR_OF_MEAN|0.112||0.15|TWO_SIDED|95.0|-0.057|0.383|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVWT/Dz was statistically significant at a two-sided p\<0.05 and the expected LVWT/Dz was higher for carvedilol than placebo over time.|The null hypothesis is that change in LVWT/Dz across time do not vary by arm. Assuming a type I error=0.05, 2-sided test, 15% attrition/year, and correlation range of 0.6-0.8 between measurements, we projected that a sample size of 125/arm would provide 80% power to detect an effect size of 0.23-0.32 for LVWT/Dz at 24m.||0.383|-0.057|0.15
82380999|NCT02717507|164471715|OTHER||Slope|-3.764|STANDARD_ERROR_OF_MEAN|1.705||0.03|TWO_SIDED|95.0|-7.105|-0.424|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||-0.424|-7.105|0.03
82381000|NCT02717507|164471716|OTHER||Slope|-0.045|STANDARD_ERROR_OF_MEAN|0.023||0.05|TWO_SIDED|95.0|-0.09|0.001|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.001|-0.09|0.05
82381001|NCT02717507|164471717|OTHER||Slope|-2.194|STANDARD_ERROR_OF_MEAN|1.605||0.17|TWO_SIDED|95.0|-5.34|0.951|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVESV was statistically significant at a two-sided p\<0.05 and the expected LVESV was lower for carvedilol than placebo over time.|||0.951|-5.34|0.17
82381002|NCT02717507|164471718|OTHER||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.01|TWO_SIDED|95.0|-141.0|-0.024|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||-0.024|-0141|0.01
82523791|NCT01218126|164743214|SUPERIORITY_OR_OTHER||Rate ratio|1.0||||0.989|TWO_SIDED|95.0|0.64|1.54|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 2.5 mg arm) / (Rate of exacerbation in placebo arm)|Losmapimod 2.5 mg versus Placebo||1.54|0.64|0.989
82635216|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.1|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-11.6|3.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||3.5|-11.6|
82635217|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-12.0|3.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||3.3|-12.0|
82635218|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.6|1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||1.9|-10.6|
82570205|NCT00878553|164850684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.452|STANDARD_ERROR_OF_MEAN|0.219||0.219|TWO_SIDED|95.0|-21.98|5.077||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||5.077|-21.980|0.2190
82570206|NCT00878553|164850684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.365|STANDARD_ERROR_OF_MEAN|4.937||0.8441|TWO_SIDED|95.0|-12.327|15.056||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A positive mean change from baseline indicates a worsening.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||15.056|-12.327|0.8441
82570207|NCT00878553|164850684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.84|STANDARD_ERROR_OF_MEAN|4.936||0.0894|TWO_SIDED|95.0|-25.522|1.842||Mean (SEM) = adjusted mean change from baseline in each group (and standard error of the mean) and P value = P value for the comparison of the SEM of the active group with that of the placebo group.|Mixed Models Analysis|No adjustment for multiple testing was made for secondary efficacy endpoints.|A negative mean change from baseline indicates an improvement.|Study was powered on the primary endpoint. Data for sWASO were sourced from Question 5 of the Morning Sleep Questionnaire. Its analysis follows a general linear model change from baseline as response variable including effects for patient, period, sequence, and treatment.||1.842|-25.522|0.0894
82570208|NCT00878553|164850685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|1.469||0.6433|TWO_SIDED|95.0|-1.823|2.943||Analysis included effects for patient, period, sequence and treatment.|Mixed Models Analysis||A positive mean difference from baseline indicates improvement.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||2.943|-1.823|0.6433
82570209|NCT00878553|164850685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.912|STANDARD_ERROR_OF_MEAN|1.523||0.1167|TWO_SIDED|95.0|-4.304|0.481||Analysis included effects for patient, period, sequence and treatment|Mixed Models Analysis||A negative mean difference from baseline indicates a worsening.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||0.481|-4.304|0.1167
82570210|NCT00878553|164850685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.434|STANDARD_ERROR_OF_MEAN|1.626||0.2385|TWO_SIDED|95.0|-0.958|3.826||Analysis included effects for patient, period, sequence and treatment.|Mixed Models Analysis||A positive mean difference from baseline indicates improvement.|Adjusted mean differences were analyzed by using a general linear model that used change from baseline as the response variable.||3.826|-0.958|0.2385
82570211|NCT00878553|164850686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.256||0.0914|TWO_SIDED|95.0|-0.073|0.972|||Mixed Models Analysis||A positive mean change from baseline indicates an improvement.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.972|-0.073|0.0914
82570212|NCT00878553|164850686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.165|STANDARD_ERROR_OF_MEAN|0.259||0.536|TWO_SIDED|95.0|-0.36|0.69|||Mixed Models Analysis||A positive mean change from baseline indicates an improvement.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.690|-0.360|0.5360
82570213|NCT00878553|164850686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262|STANDARD_ERROR_OF_MEAN|0.237||0.3254|TWO_SIDED|95.0|-0.787|0.263|||Mixed Models Analysis||A negative mean change from baseline indicates a worsening.|The adjusted mean differences were analyzed with a general linear model that used change from baseline as the response variable and included effects for patient, period, sequence and treatment.||0.263|-0.787|0.3254
82570214|NCT00878553|164850687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|1.818||0.719|TWO_SIDED|95.0|-3.175|4.595||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates improvement.|||4.595|-3.175|0.7190
82635219|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-12.0|0.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||0.7|-12.0|
82570215|NCT00878553|164850687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.821|STANDARD_ERROR_OF_MEAN|2.422||0.6784|TWO_SIDED|95.0|-3.08|4.722||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates an improvement.|||4.722|-3.080|0.6784
82570216|NCT00878553|164850687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.314|STANDARD_ERROR_OF_MEAN|2.058||0.2433|TWO_SIDED|95.0|-1.586|6.214||Adjusted mean differences were analyzed in a general linear model that used change from baseline as the response variable.|Mixed Models Analysis|The Model included effects for patient, period, sequence and treatment.|A positive mean change from baseline indicates an improvement.|||6.214|-1.586|0.2433
82570217|NCT00878553|164850688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.39||||0.0009|TWO_SIDED||||||ANOVA|F-test 2 degrees of freedom||Cmax(ng/mL) \[Maximum plasma zaleplon concentration\]||||0.0009
82570218|NCT00878553|164850689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.9142||95.0|||||ANOVA|F-test two degrees of freedom||Cmax normalized per dose||||0.9142
82570219|NCT00878553|164850690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.24||||0.1193||95.0|||||ANOVA|F-test 2 degrees of freedom||Time (hour)post-dose of maximum plasma zaleplon concentration||||0.1193
82570220|NCT00878553|164850691|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.85||||0.0003||95.0|||||ANOVA|F-test 2 degrees of freedom||AUC ng\*h/mL)||||0.0003
82570221|NCT00878553|164850692|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.28||||0.2281||95.0|||||ANOVA|F-test 2 degrees of freedom||AUC/Dose (ng\*h/mL/mg)||||0.2281
82570222|NCT00878553|164850693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.4835||95.0|||||ANOVA|2 degrees of freedom F-test||Half-Life (t1/2 in hours) of plasma zaleplon from each of 3 doses of SKP-1041||||0.4835
82570223|NCT02143063|164850694|SUPERIORITY||comparison of rank sum|3752.0||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.01
82570224|NCT02143063|164850694|SUPERIORITY||comparison of rank sum|5287.5||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.78
82570225|NCT02143063|164850695|SUPERIORITY||comparison of rank sum|3675.5||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Primary Aim 1: Compare the standard care and standard care plus traditional CM conditions||||.02
82570226|NCT02143063|164850695|SUPERIORITY||comparison of rank sum|5189.5||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.61
82570227|NCT00461123|164850696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.5248||95.0|-4.18|8.05|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of least squares (LS) means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||8.05|-4.18|0.5248
82570228|NCT00461123|164850697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.87||95.0|-3.58|3.04|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||3.04|-3.58|0.8700
82570229|NCT00461123|164850698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.57||||0.4162||95.0|-8.21|19.35|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||19.35|-8.21|0.4162
82570230|NCT00461123|164850699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.0588||95.0|-13.25|0.26|||ANCOVA|Analysis of covariance (ANCOVA), baseline as covariate, treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group at day +90||0.26|-13.25|0.0588
82570231|NCT00461123|164850700|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.61||||0.7878||95.0|-22.03|16.82|||ANCOVA|Analysis of variance (ANOVA), treatment as fixed factor|Difference of LS means (Placebo minus Vardenafil)|null hypothesis: mean of Vardenafil group equals mean of Placebo group||16.82|-22.03|0.7878
82570232|NCT03029819|164850715|SUPERIORITY|||||||0.52|||||||Chi-squared|||||||.52
82570233|NCT01149876|164850728|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82570234|NCT01149876|164850728|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||.25
82570235|NCT01149876|164850728|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||.48
82570236|NCT01077622|164850812|SUPERIORITY_OR_OTHER||percentage of participants|70.0|||||TWO_SIDED|95.0|34.8|93.3|||||SERC assessment|||93.3|34.8|
82570237|NCT01077622|164850812|SUPERIORITY_OR_OTHER||percentage of participants|70.0|||||TWO_SIDED|95.0|34.8|93.3|||||Investigator assessment|||93.3|34.8|
82570238|NCT00496834|164850877|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -1.5m/s|Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|1.43|||TWO_SIDED|95.0|-0.83|0.01|||||The lower limit of ≥-1.5m/s was judged to prove the non-inferiority of the test group to the control group.|Participants for analysis was modified intention to treat (Number of patients: Losartan group was 88, Carvedilol group was 94).||0.01|-0.83|
82635220|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.3|10.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||10.3|-8.3|
82635221|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.2|9.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||9.7|-9.2|
82381003|NCT02717507|164471719|OTHER||Slope|-2.397|STANDARD_ERROR_OF_MEAN|2.603||0.36|TWO_SIDED|95.0|-7.499|2.704|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVEDV was statistically significant at a two-sided p\<0.05 and the expected LVEDV was lower for carvedilol than placebo over time.|||2.704|-7.499|0.36
82381004|NCT02717507|164471720|OTHER||Slope|0.433|STANDARD_ERROR_OF_MEAN|0.799||0.59|TWO_SIDED|95.0|-1.134|1.999|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||1.999|-1.134|0.59
82381005|NCT02717507|164471721|OTHER||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.302||0.84|TWO_SIDED|95.0|-0.652|0.532|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is positive|||0.532|-0.652|0.84
82381006|NCT02717507|164471722|OTHER||Slope|0.259|STANDARD_ERROR_OF_MEAN|0.373||0.49|TWO_SIDED|95.0|-0.472|0.991|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment was considered efficacious if the group by time interaction for LVEF was statistically significant at a two-sided p\<0.05 and the expected LVEF was higher for carvedilol than placebo over time.|The null hypothesis is that change in LVEF across time do not vary by arm. Assuming a type I error=0.05, 2-sided test, 15% attrition/year, and correlation range of 1.2-1.6 between measurements, we projected that a sample size of 125/arm would provide 80% power to detect an effect size of 0.23-0.32 for LVEF at 24m.||0.991|-0.472|0.49
82635222|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-11.5|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||2.3|-11.5|
82381007|NCT02717507|164471723|OTHER||Slope|0.009|STANDARD_ERROR_OF_MEAN|0.038||0.82|TWO_SIDED|95.0|-0.065|0.082|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.082|-0.065|0.82
82381008|NCT02717507|164471724|OTHER||Slope|2.121|STANDARD_ERROR_OF_MEAN|1.79||0.24|TWO_SIDED|95.0|-1.387|5.63|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative|||5.63|-1.387|0.24
82381009|NCT02717507|164471725|OTHER||Slope|5.113|STANDARD_ERROR_OF_MEAN|8.532||0.55|TWO_SIDED|95.0|-11.608|21.835|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative|||21.835|-11.608|0.55
82381010|NCT02717507|164471726|OTHER||Slope|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.51|TWO_SIDED|95.0|-0.004|0.002|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.002|-0.004|0.51
82381011|NCT02717507|164471727|OTHER||Slope|-0.022|STANDARD_ERROR_OF_MEAN|0.228||0.92|TWO_SIDED|95.0|-0.468|0.424|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||0.424|-0.468|0.92
82381012|NCT02717507|164471729|OTHER||Slope|0.024|STANDARD_ERROR_OF_MEAN|0.104||0.82|TWO_SIDED|95.0|-0.18|0.229|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative.|||0.229|-0.18|0.82
82381013|NCT02717507|164471730|OTHER||Slope|-0.096|STANDARD_ERROR_OF_MEAN|2.439||0.97|TWO_SIDED|95.0|-4.877|4.685|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.||||4.685|-4.877|0.97
82514623|NCT03264157|164722356|NON_INFERIORITY|The null hypothesis is p-p0 ≤ -0.1. The alternative hypothesis is p-p0 \> -0.1, where p is the proportion of subjects with anti-rabies titer of \>0.5 IU/mL at Day 14 in subjects receiving BPL HRIG + vaccine and p0 is the proportion receiving comparator HRIG + vaccine. We reject the null hypothesis at the one-sided 0.025 significance level, and conclude that p-p0 \> -0.1, if the lower bound of an exact 95% binomial confidence interval exceeds -0.1.|lower 95% CI|-0.05||||0.0006|ONE_SIDED|95.0|-0.05|||The threshold for this test is \<=0.025.|Farrington and Manning test||||||-0.05|0.0006
82635223|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-9.9|4.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||4.2|-9.9|
82635224|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-9.3|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-15.5|-3.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||-3.0|-15.5|
82635225|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-8.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-14.6|-1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||-1.9|-14.6|
82635226|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-12.6|2.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||2.0|-12.6|
82635227|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-8.7|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||6.1|-8.7|
82514624|NCT03264157|164722357|NON_INFERIORITY|The prespecified non inferiority margin was 20%. The lower bound of the 95% CI required should be greater than 0.8 to conclude non-inferiority.|lower 95% CI|0.74|||||TWO_SIDED|95.0|0.74|0.94||||||||0.94|0.74|
82514625|NCT03264157|164722358|SUPERIORITY||95% CI|0.97|||||TWO_SIDED||||||||Data analyzed as log normal. The value presented is the untransformed value of the difference between means.|||||
82514626|NCT03264157|164722359|NON_INFERIORITY|The same methodology was used as the primary endpoint for each visit. The statistical analysis is presenting the Day 14 data.|lower 95% CI|-0.05||||0.0006|TWO_SIDED|95.0|-0.05|0.1|||Farrington and Manning test|||||0.10|-0.05|0.0006
82570239|NCT00496834|164850878|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin=-1.5m/s|Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|1.4|||TWO_SIDED|95.0|-0.86|0.15|||||The lower limit of ≥-1.5m/s was judged to prove the non-inferiority of the test group to the control group.|Participants for analysis was per protocol (Number of patients: Losartan group was 54, Carvedilol group was 67). For the primary efficacy endpoints, Per protocol analysis approach was supplementary used.||0.15|-0.86|
82514627|NCT03264157|164722360|NON_INFERIORITY|The same methodology was used as the primary endpoint for each visit. The statistical analysis is presenting the Day 14 data.|lower 95% CI|0.0||||0|TWO_SIDED|95.0|0.0|0.0|||Farrington and Manning test||For Day 14, all subjects achieved the endpoint (RVNA titer \> LLOQ). Since the statistic to measure the performance is a proportion, the proportion is 1 and no variance is calculable.|||0|0|0
82570240|NCT00496834|164850879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9032||95.0||||Significance level=0.05|t-test, 2 sided|The secondary efficacy analysis was performed in the modified intention to treat population using t-test.||||||0.9032
82635228|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-8.2|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||6.7|-8.2|
82635229|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-7.3|7.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||7.9|-7.3|
82635230|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-10.3|0.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||0.6|-10.3|
82635231|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-7.7|3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||3.4|-7.7|
82635232|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-3.9|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-10.0|2.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose||2.3|-10.0|
82635233|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-11.4|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose AM||1.2|-11.4|
82635234|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-8.7|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-15.2|-2.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||-2.2|-15.2|
82635235|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-12.0|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||1.3|-12.0|
82635236|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.4|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-7.6|2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||2.8|-7.6|
82514628|NCT00009737|164722362|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25 in a first step, and then of 1.20 in a second step.|Hazard Ratio (HR)|0.87||||0.053|TWO_SIDED|95.0|0.75|1.0||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||1.00|0.75|0.053
82514629|NCT00009737|164722363|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25|Hazard Ratio (HR)|0.86||||0.041|TWO_SIDED|95.0|0.74|0.99||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||0.99|0.74|0.041
82635237|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-9.7|0.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||0.8|-9.7|
82514630|NCT00009737|164722364|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested by comparing the upper limit of the 95% confidence interval for the hazard ratio to the non-inferiority margin of 1.25|Hazard Ratio (HR)|0.84||||0.071|TWO_SIDED|95.0|0.69|1.01||For difference between arms, \< 0.001 for non-inferiority|Wald Chi-Square Test|||||1.01|0.69|0.071
82514631|NCT01163682|164722368|NON_INFERIORITY|"This tests determined the odds of an increase of greater than or equal to 2 points on the BPI-SF worst pain score, from baseline to 16 weeks, among those in the intervention arm (electo-acupuncture), compared to those in the control arm (sham acupuncture). This change was considered to be clinically meaningful.~Null Hypothesis: electro-acupucture does not prevent taxane-induced peripheral neuropathy"|Odds Ratio (OR)|1.16||||0.25|TWO_SIDED|95.0|0.9|1.5|||Regression, Logistic|||||1.50|0.90|0.25
82570241|NCT00496834|164850880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6574||95.0||||Significance level=0.05|t-test, 2 sided|The secondary efficacy analysis was performed in the modified intention to treat population using t-test||||||0.6574
82570242|NCT01042145|164850893|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
82514632|NCT01163682|164722369|NON_INFERIORITY|This tests determined the odds of an increase of greater than or equal to 5 points on the FACT-NTX scale, from baseline to 16 weeks, among those in the intervention arm (electo-acupuncture), compared to those in the control arm (sham acupuncture). This change was considered to be clinically meaningful.|Odds Ratio (OR)|1.25||||0.09|TWO_SIDED|95.0|0.97|1.62|||Regression, Logistic|||||1.62|0.97|0.09
82514633|NCT02461589|164722370|OTHER||Treatment difference|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.77|||Mixed Models Analysis|||||-0.77|-1.30|<0.0001
82514634|NCT02461589|164722370|OTHER||Treatment difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.08|||Mixed Models Analysis|||||-1.08|-1.61|<0.0001
82570243|NCT01042145|164850894|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.63
82381014|NCT02717507|164471731|OTHER||Slope|1.248|STANDARD_ERROR_OF_MEAN|3.491||0.72|TWO_SIDED|95.0|-5.595|8.091|||Generalized Estimating Equation (GEE)|The treatment effect was determined by testing the significance of the group by time interaction in GEE using a one degree-of-freedom (df) test.|The treatment can be considered beneficial if the mean difference (treatment - control) slope is negative.|The null hypothesis is that change in Average Alanine aminotransferase across time-points described above does not differ by treatment arm, tested using a longitudinal GEE analysis of Average Alanine aminotransferase with a treatment by time interaction.||8.091|-5.595|0.72
82381015|NCT05017246|164471734|SUPERIORITY||Mean Difference (Final Values)|-44.9||||0.0249|TWO_SIDED|95.0|-84.0|-5.8|||Two-sample t-test|Unadjusted analysis|Intrathecal - Epidural|||-5.8|-84.0|0.0249
82514635|NCT02461589|164722370|OTHER||Treatment difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-1.95|-1.42|||Mixed Models Analysis|||||-1.42|-1.95|<0.0001
82514636|NCT02461589|164722370|OTHER||Treatment difference|-1.86|||<|0.0001|TWO_SIDED|95.0|-2.12|-1.6|||Mixed Models Analysis|||||-1.60|-2.12|<0.0001
82514637|NCT04713748|164722375|OTHER||||||<|0.0001|||||||Interclass correlation coefficient|||||||<0.0001
82381016|NCT05017246|164471735|SUPERIORITY||Risk Ratio (RR)|1.04||||0.94|TWO_SIDED|95.0|0.36|3.01|||Chi-squared||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||3.01|0.36|0.94
82514638|NCT00406029|164722379|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.753|TWO_SIDED|95.0|-0.9|1.2||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.753
82514639|NCT00406029|164722379|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.162|TWO_SIDED|95.0|-1.7|0.3||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline at endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.7|0.162
82570244|NCT01042145|164850896|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.51
82381017|NCT05017246|164471736|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.59|TWO_SIDED|95.0|-1.01|0.48|||Bootstrap resampling method|Bootstrap resampling method based on raw data was applied for due to highly right-skewed data (5,000 Bootstrap samples were selected).|Intrathecal - Epidural|||0.48|-1.01|0.59
82381018|NCT05017246|164471737|SUPERIORITY||Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.61|1.48|||Chi-squared||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||1.48|0.61|0.82
82570245|NCT01042145|164850897|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.24
82570246|NCT01042145|164850898|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82381019|NCT05017246|164471740|SUPERIORITY||Risk Ratio (RR)|1.56||||0.67|TWO_SIDED|95.0|0.27|8.95|||Fisher Exact||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||8.95|0.27|0.67
82381020|NCT05017246|164471741|SUPERIORITY||Risk Ratio (RR)|2.08||||0.61|TWO_SIDED|95.0|0.19|22.2|||Fisher Exact||Estimated probability of having the event in Intrathecal group divided by that in Epidural group|||22.2|0.19|0.61
82381021|NCT01866826|164471743|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82381022|NCT01866826|164471744|SUPERIORITY|||||||||||||||||We calculated the proportion of pts with elevated viral levels \>50 copies/ml at each phase of the study.|We estimated that four of the seven patients would have an elevation in viral Ribonucleic Acid (RNA) level \>50 copies/ml.|||
82514640|NCT00406029|164722379|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.049|TWO_SIDED|95.0|-2.1|0.0||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-2.1|0.049
82381023|NCT01866826|164471746|SUPERIORITY||Mean Difference (Net)|0.7872|||||TWO_SIDED|||||||||We calculated the percentage of total lymphocytes that were expressing activation markers at each time point, and compared the differences in the percentages in the Rifaximin and control groups. We used the Wilcoxon test to detect differences between the differences in percentages in the control and Rifaximin groups.||||
82381024|NCT01866826|164471746|SUPERIORITY|||||||0.54|||||||Wilcoxon|||We calculated the percentage of total lymphocytes that were expressing the activation markers at each time point, and compared the differences in the percentages in the Rifaximin and control groups. We used the T-test to detect differences between the differences in percentages in the control group and Rifaximin groups.||||0.54
82381025|NCT02562066|164471759|OTHER||Mean Difference (Net)|1.63||||0.085|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.085
82381026|NCT02562066|164471759|OTHER||Mean Difference (Net)|0.56|||||TWO_SIDED|95.0|-0.97|2.09|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with SGI raw scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||2.09|-0.97|
82381027|NCT02562066|164471760|OTHER||Mean Difference (Net)|3.17||||0.376|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.376
82381028|NCT02562066|164471760|OTHER||Mean Difference (Net)|1.14|||||TWO_SIDED|95.0|-2.31|4.58|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with Overall MFM-32 scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||4.58|-2.31|
82381029|NCT02562066|164471761|OTHER||Mean Difference (Net)|-1.0||||0.8|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Results show the difference in mean CFB at the end of Study Period 1.|A Mann-Whitney-Wilcoxon test for equality of the change from baseline (CFB) in the two treatments in Period 1 will be presented.||||0.800
82381030|NCT02562066|164471761|OTHER||Mean Difference (Net)|0.63|||||TWO_SIDED|95.0|-5.25|6.5|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.|A mixed effects linear model will be fit to the data with Overall MFM-20 scores as the response and fixed effect terms for treatment, period, age group, mutation type and sequence\*period, and a random effect for patient. The LSMeans for the estimated difference between treatments in Period 1 along with a 95% confidence interval for this difference.||6.50|-5.25|
82381031|NCT01514461|164471795|SUPERIORITY_OR_OTHER||% change from reference treatment|-28.78||||0.0538|TWO_SIDED|95.0|-55.69|14.46|||Mixed Models Analysis|Mixed Model of Repeated Measurements||||14.46|-55.69|0.0538
82381032|NCT01514461|164471795|SUPERIORITY_OR_OTHER||% change from reference treatment|-40.88||||0.0182|TWO_SIDED|95.0|-63.99|-2.94|||Mixed Models Analysis|Mixed Model of Repeated Measurements||||-2.94|-63.99|0.0182
82514641|NCT00406029|164722379|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.019|TWO_SIDED|95.0|-2.2|-0.2||The alpha threshold for statistical significance is 0.049 (2-sided).|ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-2.2|0.019
82514642|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.935|TWO_SIDED|95.0|-0.9|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.9|0.935
82570247|NCT04088136|164850899|EQUIVALENCE|A one-tailed independent samples t-test was conducted. A p-value of .05 was used to determine statistical significance.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.67|TWO_SIDED|95.0|-0.42|0.55|||t-test, 2 sided|Use of pooled error term, df = 60.|Negative number reflects fewer errors in EMMI group, as predicted.|||0.55|-0.42|.67
82381033|NCT02222922|164471883|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|79.38||||0.3105|TWO_SIDED|90.0|54.01|116.65|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||116.65|54.01|0.3105
82381034|NCT02222922|164471884|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|77.23||||0.2316|TWO_SIDED|90.0|53.8|110.87|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||110.87|53.80|0.2316
82381035|NCT02222922|164471885|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|84.97||||0.4264|TWO_SIDED|90.0|60.05|120.22|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||120.22|60.05|0.4264
82381036|NCT02222922|164471886|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|88.32||||0.5123|TWO_SIDED|90.0|64.03|121.82|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||121.82|64.03|0.5123
82514643|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.326|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.3|0.326
82381037|NCT02222922|164471887|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|91.15||||0.824|TWO_SIDED|90.0|44.79|185.5|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||185.50|44.79|0.8240
82381038|NCT02222922|164471888|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|89.58||||0.7922|TWO_SIDED|90.0|43.94|182.62|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||182.62|43.94|0.7922
82514644|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.07|TWO_SIDED|95.0|-1.7|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.7|0.070
82514645|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.02|TWO_SIDED|95.0|-1.9|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-1.9|0.020
82514646|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.982|TWO_SIDED|95.0|-1.0|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.0|0.982
82381039|NCT02222922|164471889|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|91.17||||0.824|TWO_SIDED|90.0|44.87|185.25|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||185.25|44.87|0.8240
82514647|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.281|TWO_SIDED|95.0|-1.5|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.5|0.281
82514648|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.261|TWO_SIDED|95.0|-1.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.6|0.261
82514649|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.447|TWO_SIDED|95.0|-1.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.4|0.447
82514650|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.378|TWO_SIDED|95.0|-0.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.6|0.378
82514651|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.299|TWO_SIDED|95.0|-1.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.7|0.299
82514652|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.377|TWO_SIDED|95.0|-1.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.6|0.377
82514653|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.707|TWO_SIDED|95.0|-1.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-1.3|0.707
82514654|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.562|TWO_SIDED|95.0|-1.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.4|0.562
82514655|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.156|TWO_SIDED|95.0|-1.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.7|0.156
82514656|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.292|TWO_SIDED|95.0|-1.6|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.6|0.292
82514657|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.034|TWO_SIDED|95.0|-2.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-2.2|0.034
82514658|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.762|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.762
82514659|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.092|TWO_SIDED|95.0|-1.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.9|0.092
82514660|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.013|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-2.3|0.013
82514661|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.005|TWO_SIDED|95.0|-2.5|-0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.4|-2.5|0.005
82514662|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.293|TWO_SIDED|95.0|-1.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.8|0.293
82570248|NCT04088136|164850900|SUPERIORITY|Everyday Metacognitive Memory group predicted to have superior scores to Memory Strategy Control|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.47|TWO_SIDED||||||t-test, 1 sided||pooled error term, equal variance assumption, df = 60|||||<.47
82514663|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.095|TWO_SIDED|95.0|-2.0|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-2.0|0.095
82514664|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.04||95.0|-2.3|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-2.3|0.040
82514665|NCT00406029|164722380|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.011|TWO_SIDED|95.0|-2.5|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-2.5|0.011
82514666|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.47|TWO_SIDED|95.0|-0.6|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.6|0.470
82514667|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.505|TWO_SIDED|95.0|-0.6|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.6|0.505
82514668|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.114|TWO_SIDED|95.0|-0.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.2|0.114
82514669|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.042|TWO_SIDED|95.0|0.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|0.0|0.042
82570249|NCT04088136|164850901|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.0|<|0.13|TWO_SIDED|95.0|-3.7|7.6|||t-test, 1 sided|||||7.6|-3.7|< .13
82635238|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.7|0.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||0.8|-10.7|
82635239|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-10.4|1.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||1.3|-10.4|
82635240|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-9.0|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-14.6|-3.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||-3.4|-14.6|
82635241|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-8.5|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-14.2|-2.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||-2.8|-14.2|
82514670|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.684|TWO_SIDED|94.0|-0.8|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.8|0.684
82514671|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.489|TWO_SIDED|95.0|-0.7|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.7|0.489
82635242|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-13.8|1.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||1.5|-13.8|
82635243|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-6.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-14.3|1.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||1.2|-14.3|
82635244|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-8.0|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-15.0|-1.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||-1.0|-15.0|
82635245|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-7.1|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-14.2|0.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||0|-14.2|
82635246|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-1.7|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-9.8|6.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||6.4|-9.8|
82635247|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-8.0|8.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||8.5|-8.0|
82635248|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.0|3.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||3.7|-9.0|
82635249|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-7.1|5.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||5.8|-7.1|
82635250|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-5.5|3.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||3.9|-5.5|
82514672|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.305|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.5|0.305
82381040|NCT02222922|164471890|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|102.31||||0.9553|TWO_SIDED|90.0|51.08|204.9|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||204.90|51.08|0.9553
82514673|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.451|TWO_SIDED|95.0|-0.6|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.6|0.451
82514674|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.68|TWO_SIDED|95.0|-1.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.5|0.680
82514675|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.466|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.466
82514676|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.45|TWO_SIDED|95.0|-0.8|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.8|0.450
82514677|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.523|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.523
82514678|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.309|TWO_SIDED|95.0|-0.6|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.6|0.309
82514679|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.136|TWO_SIDED|95.0|-0.3|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.3|0.136
82381041|NCT02222922|164471891|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|81.14||||0.2951|TWO_SIDED|90.0|57.99|113.54|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||113.54|57.99|0.2951
82514680|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.106|TWO_SIDED|95.0|-0.2|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.2|0.106
82381042|NCT02222922|164471892|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|84.02||||0.3769|TWO_SIDED|90.0|60.24|117.19|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||117.19|60.24|0.3769
82514681|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.144|TWO_SIDED|95.0|-0.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.3|0.144
82514682|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.954|TWO_SIDED|95.0|-1.1|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.1|0.954
82514683|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.152|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.3|0.152
82514684|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.012|TWO_SIDED|95.0|0.3|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.3|0.012
82514685|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.025|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.025
82514686|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.151|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.3|0.151
82514687|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.235|TWO_SIDED|95.0|-0.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.5|0.235
82514688|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.007|TWO_SIDED|95.0|0.5|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|0.5|0.007
82514689|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.033|TWO_SIDED|95.0|0.1|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.1|0.033
82514690|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.757|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.757
82514691|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.341|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.5|0.341
82514692|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.024|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.024
82514693|NCT00406029|164722381|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.049|TWO_SIDED|95.0|0.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|0.0|0.049
82514694|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.151|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.3|0.151
82514695|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.93|TWO_SIDED|95.0|-1.1|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.1|0.930
82514696|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.343|TWO_SIDED|95.0|-0.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.6|0.343
82514697|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.746|TWO_SIDED|95.0|-0.9|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.9|0.746
82514698|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.222|TWO_SIDED|94.0|-0.5|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.5|0.222
82514699|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.673|TWO_SIDED|95.0|-1.0|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.0|0.673
82514700|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.415|TWO_SIDED|95.0|-0.7|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.7|0.415
82514701|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.968|TWO_SIDED|95.0|-1.3|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.3|0.968
82514702|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.543|TWO_SIDED|95.0|-1.0|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.0|0.543
82514703|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.967|TWO_SIDED|95.0|-1.4|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.4|0.967
82514704|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.411|TWO_SIDED|95.0|-0.8|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.8|0.411
82514705|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.864|TWO_SIDED|95.0|-1.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.6|0.864
82514706|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.449|TWO_SIDED|95.0|-0.9|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.9|0.449
82514707|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.411|TWO_SIDED|95.0|-2.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-2.0|0.411
82514708|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.576|TWO_SIDED|95.0|-1.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.0|0.576
82381043|NCT02222922|164471893|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|86.15||||0.4385|TWO_SIDED|90.0|62.2|119.32|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||119.32|62.20|0.4385
82381044|NCT02222922|164471894|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Geometric Mean Ratio (GMR)|88.75||||0.5678|TWO_SIDED|90.0|62.24|126.56|||ANOVA|||Test: PF-06647020 1.4 mg/kg + Fluconazole(Q3W-DDI) group; Reference: PF-06647020 2.8 mg/kg (Q3W-DDI) group.||126.56|62.24|0.5678
82381045|NCT02002221|164471945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.08|-0.73|||ANCOVA|||H0: δ vildagliptin 50 mg bid = δ placebo versus H1: δ Vildagliptin 50 mg bid \< δ placebo,||-0.73|-1.08|< 0.001
82381046|NCT01998919|164471956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.34|||||TWO_SIDED|95.0|-10.3|17.0|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||17.0|-10.3|
82381047|NCT01998919|164471957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.63|||||TWO_SIDED|95.0|-5.6|26.8|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||26.8|-5.6|
82570250|NCT04088136|164850902|EQUIVALENCE|Directional hypothesis of fewer errors in Everyday Metacognitive Memory group|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.8||0.57|TWO_SIDED|95.0|-4.8|2.6||A p-value of .05 was used to determine statistical significance.|t-test, 2 sided|Pooled error term, df = 51||||2.6|-4.8|.57
82570251|NCT04088136|164850903|EQUIVALENCE|Two-tailed test of hypothesis of fewer errors in EMMI group|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.3||0.72|TWO_SIDED|95.0|-3.8|5.5||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Pooled error term, df = 49||||5.5|-3.8|.72
82381048|NCT01998919|164471958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.48|||||TWO_SIDED|95.0|-2.7|27.7|||||Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||27.7|-2.7|
82381049|NCT01998919|164471959|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Log Rank|||||||0.0075
82381050|NCT01998919|164471959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42||||0.0099|TWO_SIDED|95.0|0.22|0.81|||Wald test|||||0.81|0.22|0.0099
82381051|NCT01998919|164471960|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Log Rank|||||||0.0004
82381052|NCT01998919|164471960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48||||0.0001|TWO_SIDED|95.0|0.33|0.7|||Wald Test|||||0.70|0.33|0.0001
82381053|NCT01998919|164471961|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|||||||0.0001
82514709|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.603|TWO_SIDED|95.0|-1.9|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.9|0.603
82514710|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.842|TWO_SIDED|95.0|-1.4|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.4|0.842
82570252|NCT04088136|164850904|OTHER|Test of Group X Time interaction|||||<|0.69|||||||Mixed Models Analysis|pooled df = 59||"We ran a 2 X 2 (Group X Time) mixed model analysis with repeated measures on Time (pretest, posttest).~Hypothesis was that Memory Strategy Control group would show greater improvements from pretest to posttest in recall scores"||||< .69
82570253|NCT04088136|164850905|OTHER|One-tailed test of Group X Time interaction|||||<|0.037|||||||Mixed Models Analysis|||"We ran a 2 X 2 (Group X Time) mixed effect model with repeated measures on Time (pretest-posttest).~Predicted hypothesis was greater pretest-posttest improvement in the Memory Strategy Contol group"||||< .037
82381054|NCT01998919|164471961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.68|||Wald test|||||0.68|0.33|<0.0001
82570254|NCT04088136|164850906|OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|9.9||0.69|TWO_SIDED|95.0|-4.0|8.4|||t-test, 2 sided||one instance of missing data due to computer failure during testing. Pooled error term resulting in df = 59|||8.4|-4.0|.69
82570255|NCT04088136|164850907|EQUIVALENCE|Directional hypothesis of shorter time in Everyday Metacognitive Memory group|Mean Difference (Final Values)|-50.0|STANDARD_ERROR_OF_MEAN|103.3||0.63|TWO_SIDED|95.0|-257.4|157.4||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Use of pooled error term, DF = 51||||157.4|-257.4|.63
82381055|NCT01998919|164471962|SUPERIORITY_OR_OTHER|||||||0.5991|||||||Log Rank|||||||0.5991
82381056|NCT01998919|164471962|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3774|TWO_SIDED|95.0|0.58|1.23|||Wald test|||||1.23|0.58|0.3774
82381057|NCT02568072|164471979|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
82381058|NCT02568072|164471980|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82381059|NCT02568072|164471981|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
82381060|NCT02714218|164471990|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0144|TWO_SIDED|95.0|0.38|0.9|||Cochran-Mantel-Haenszel|Two-sided p-value CMH Test for comparison of odds ratio of NIVO 3 + IPI 1 over NIVO 1 + IPI 3||||0.90|0.38|0.0144
82514711|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.558|TWO_SIDED|95.0|-1.9|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-1.9|0.558
82381061|NCT02714218|164471990|SUPERIORITY||Estimated Difference of rates|-12.7|||||TWO_SIDED|95.0|-22.7|-2.6|||||Estimate of NIVO 3 + IPI 1- NIVO 1 + IPI 3 is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 expression and M stage at screening as entered into the IVRS|||-2.6|-22.7|
82514712|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.245|TWO_SIDED|95.0|-0.6|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|-0.6|0.245
82570256|NCT04088136|164850908|EQUIVALENCE|Two-tailed test of hypothesis of shorter time in Everyday Metacognitive Memory group|Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|43.8||0.81|TWO_SIDED|95.0|-77.4|98.5||A p-value of .05 was used to determine statistical significance|t-test, 2 sided|Use of pooled error term, df = 49||||98.5|-77.4|.81
82514713|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.93|TWO_SIDED|95.0|-1.5|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.5|0.930
82514714|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.759|TWO_SIDED|95.0|-1.5|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.5|0.759
82381062|NCT02714218|164471991|SUPERIORITY||Odds Ratio (OR)|0.55||||0.0059|TWO_SIDED|95.0|0.36|0.84|||Cochran-Mantel-Haenszel|Two-sided p-value CMH Test for comparison of odds ratio of NIVO 3 + IPI 1 over NIVO 1 + IPI 3||||0.84|0.36|0.0059
82381063|NCT02714218|164471991|SUPERIORITY||Estimated Difference of rates|-14.4|||||TWO_SIDED|95.0|-24.5|-4.3|||||Estimate of NIVO 3 + IPI 1- NIVO 1 + IPI 3 is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 expression and M stage at screening as entered into the IVRS|||-4.3|-24.5|
82381064|NCT02714218|164471992|SUPERIORITY||Odds Ratio (OR)|0.8||||0.2923|TWO_SIDED|95.0|0.53|1.21|||Cochran-Mantel-Haenszel||p-value from CMH Test for the comparison of the odds ratio of N3I1 over N1I3|||1.21|0.53|0.2923
82514715|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.374|TWO_SIDED|95.0|-2.4|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-2.4|0.374
82381065|NCT02714218|164471993|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.79|1.47|||||Hazard Ratio is N3I1 over N1I3. (NIVO 3 + IPI 1 (N3I1) over NIVO 1 + IPI 3 (N1I3))|||1.47|0.79|
82381066|NCT02714218|164471994|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.4512|TWO_SIDED|95.0|0.84|1.48|||Log Rank|||||1.48|0.84|0.4512
82381067|NCT00860795|164472010|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|||||||.17
82381068|NCT00860795|164472011|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|95.0|||||Regression, Linear|||||||.72
82514716|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.621|TWO_SIDED|95.0|-1.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.3|0.621
82381069|NCT00860795|164472012|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0|||||Regression, Linear|||||||.2
82514717|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.607|TWO_SIDED|95.0|-2.1|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-2.1|0.607
82514718|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.907|TWO_SIDED|95.0|-1.4|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.4|0.907
82514719|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.368|TWO_SIDED|95.0|-2.1|0.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-2.1|0.368
82514720|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.654|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.1|0.654
82514721|NCT00406029|164722382|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.769|TWO_SIDED|95.0|-1.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.7|0.769
82514722|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.055|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.0|0.055
82514723|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.071|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.0|0.071
82514724|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.288|TWO_SIDED|95.0|-0.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.8|0.288
82514725|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.764|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.6|0.764
82514726|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.342|TWO_SIDED|94.0|-0.9|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.9|0.342
82514727|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.611|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.611
82514728|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.424|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.424
82514729|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.991|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.991
82514730|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.185|TWO_SIDED|95.0|-1.3|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.3|0.185
82514731|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.597|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.0|0.597
82514732|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.09|TWO_SIDED|95.0|-1.5|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.5|0.090
82514733|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.686|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.9|0.686
82514734|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.501|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.0|0.501
82514735|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.764|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.6|0.764
82514736|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.715|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.9|0.715
82514737|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.924|TWO_SIDED|95.0|-0.7|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.7|0.924
82514738|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.264|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.2|0.264
82514739|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.976|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.7|0.976
82514740|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.626|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.9|0.626
82514741|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.925|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.925
82514742|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.849|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.0|0.849
82381070|NCT00860795|164472014|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|95.0|||||Regression, Linear|||||||.51
82381071|NCT00860795|164472015|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Regression, Linear|||||||.43
82381072|NCT00860795|164472016|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|95.0|||||Regression, Linear|||||||.61
82381073|NCT02623725|164472038|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95 percent (%) Confidence Interval (CI) of the Geometric mean of titer ratios (GMTRs) (booster vs post-dose 3) was greater than (\>) 1/2 for each serotype.|Geometric mean of titer ratio|1.66|||||TWO_SIDED|95.0|1.33|2.06||||||Dengue Virus Serotype 1||2.06|1.33|
82381074|NCT02623725|164472038|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.82|||||TWO_SIDED|95.0|1.43|2.31||||||Dengue Virus Serotype 2||2.31|1.43|
82381075|NCT02623725|164472038|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.04|||||TWO_SIDED|95.0|0.841|1.27||||||Dengue Virus Serotype 3||1.27|0.841|
82381076|NCT02623725|164472038|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \>1/2 for each serotype.|Geometric mean of titer ratio|1.32|||||TWO_SIDED|95.0|1.01|1.74||||||Dengue Virus Serotype 4||1.74|1.01|
82381077|NCT02623725|164472039|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.66|||||TWO_SIDED|95.0|1.34|2.05||||||Dengue Virus Serotype 1||2.05|1.34|
82381078|NCT02623725|164472039|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.89|||||TWO_SIDED|95.0|1.49|2.41||||||Dengue Virus Serotype 2||2.41|1.49|
82381079|NCT02623725|164472039|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.06|||||TWO_SIDED|95.0|0.86|1.3||||||Dengue Virus Serotype 3||1.30|0.860|
82381080|NCT02623725|164472039|SUPERIORITY|The superiority was to be demonstrated if the lower limit of the two-sided 95% CI for the ratio was \>1.|Geometric mean of titer ratio|1.33|||||TWO_SIDED|95.0|1.02|1.73||||||Dengue Virus Serotype 4||1.73|1.02|
82381081|NCT02654054|164472065|SUPERIORITY||Odds Ratio (OR)|56.79|||<|0.001|TWO_SIDED|95.0|23.002|140.227||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||140.227|23.002|< 0.001
82381082|NCT02654054|164472065|SUPERIORITY||Odds Ratio (OR)|22.98|||<|0.001|TWO_SIDED|95.0|10.466|50.451||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||50.451|10.466|< 0.001
82381083|NCT02654054|164472066|SUPERIORITY||LS Mean of Difference|-222.3|STANDARD_ERROR_OF_MEAN|20.77|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
82381084|NCT02654054|164472066|SUPERIORITY||LS Mean of Difference|-177.5|STANDARD_ERROR_OF_MEAN|18.24|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
82381085|NCT02654054|164472067|SUPERIORITY||Between-Group Difference (%)|79.6|||<|0.001|TWO_SIDED|95.0|71.13|88.16||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|Chi-square or Fisher's exact test|||||88.16|71.13|< 0.001
82514743|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.755|TWO_SIDED|95.0|-0.7|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.7|0.755
82514744|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.863|TWO_SIDED|95.0|-0.8|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.8|0.863
82381086|NCT02654054|164472067|SUPERIORITY||Between-Group Difference (%)|52.4|||<|0.001|TWO_SIDED|95.0|44.11|60.76||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|Chi-square or Fisher's exact test|||||60.76|44.11|< 0.001
82381087|NCT02654054|164472068|SUPERIORITY||LS Mean of Difference|-234.0|STANDARD_ERROR_OF_MEAN|19.27|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82381088|NCT02654054|164472068|SUPERIORITY||LS Mean of Difference|-192.5|STANDARD_ERROR_OF_MEAN|16.7|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82381089|NCT02654054|164472069|SUPERIORITY||LS Mean of Difference|-240.8|STANDARD_ERROR_OF_MEAN|21.69|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82381090|NCT02654054|164472069|SUPERIORITY||LS Mean of Difference|-198.2|STANDARD_ERROR_OF_MEAN|18.76|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82514745|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.477|TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.5|0.477
82514746|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.432|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.0|0.432
82381091|NCT02654054|164472070|SUPERIORITY||Between-Group Difference (%)|49.7|||<|0.001|TWO_SIDED|95.0|30.27|69.18||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||69.18|30.27|< 0.001
82381092|NCT02654054|164472070|SUPERIORITY||Between-Group Difference (%)|45.4|||<|0.001|TWO_SIDED|95.0|26.9|63.92||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||63.92|26.90|< 0.001
82381093|NCT02654054|164472071|SUPERIORITY||LS Mean of Difference|-190.0|STANDARD_ERROR_OF_MEAN|22.59|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82381094|NCT02654054|164472071|SUPERIORITY||LS Mean of Difference|-116.2|STANDARD_ERROR_OF_MEAN|19.7|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82381095|NCT05120193|164472074|NON_INFERIORITY|The primary safety analysis is performed at a one-sided Type I error rate of α = 0.05. The Farrington-Manning method is used to calculate the upper 95% confidence bound for the difference (QI - QC) between the rate of the primary safety endpoint in the investigational arm (QI) and the rate of the primary safety endpoint in the control arm (QC). If the upper confidence bound is less than 0.08, the study is considered to have demonstrated safety of the investigational device.|Risk Difference (RD)|0.005|||<|0.0001|TWO_SIDED|90.0|-0.028|0.037|||Farrington-Manning|||"The null hypothesis (H0) for the primary safety analysis is that the true rate of primary safety events for the investigational device (QI) is equal to or greater than the true rate for the control device (QC) plus a non-inferiority margin (NIM) of 0.08. The alternative hypothesis (HA) is that the rate of primary safety events for the investigational arm (QI) is less than the rate of primary safety events for the control arm (QC) plus the NIM of 0.08.~H0: QI ≥ QC + 0.08 HA: QI \< QC + 0.08"||0.037|-0.028|<0.0001
82381096|NCT05120193|164472075|NON_INFERIORITY|The primary effectiveness analysis (PSE) is performed at a one-sided Type I error rate of α = 0.025. The Farrington-Manning method is used to calculate the lower 97.5% confidence bound for the difference (PI - PC) between the rate of the PSE in the investigational arm (PI) and the rate of the PSE in the control arm (PC). If the lower confidence bound is greater than -0.15, the study is considered to have demonstrated effectiveness of the investigational device.|Risk Difference (RD)|0.08||||0.025|TWO_SIDED|95.0|-0.009|0.168|||Farrington-Manning|||"The null hypothesis (H0) is that the true rate of primary effectiveness endpoint success (no failures through Day 360) for the investigational device (PI) is less than or equal to the true rate for the control device (PC) minus the NIM of 0.15. The alternative hypothesis (HA) is that the success rate for the investigational arm (PI) is greater than the success rate for the control device (PC) minus the NIM of 0.15.~H0: PI ≤ PC - 0.15 HA: PI \> PC - 0.15"||0.168|-0.009|0.025
82381097|NCT05120193|164472076|SUPERIORITY||Mean Difference (Final Values)|-29.2|||<|0.0001|TWO_SIDED|95.0|-31.7|-26.8|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean total energy application time during the ablation procedure for the investigational device (ETI) is greater than or equal to the mean time for the control device (ETC). The alternative hypothesis (HA) is that the mean total energy application time for the investigational device is less.~H0: ETI ≥ ETC versus HA: ETI \< ETC"||-26.8|-31.7|<0.0001
82381098|NCT05120193|164472077|SUPERIORITY||Mean Difference (Final Values)|-26.8|||<|0.0001|TWO_SIDED|95.0|-32.2|-21.4|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean treatment time for the investigational device (TTI) is greater than or equal to the mean treatment time for the control device (TTC). The alternative hypothesis (HA) is that the mean treatment time for the investigational device is less.~H0: TTI ≥ TTC versus HA: TTI \< TTC"||-21.4|-32.2|<0.0001
82381099|NCT05120193|164472078|SUPERIORITY||Mean Difference (Final Values)|-25.1||||0.025|TWO_SIDED|95.0|-33.0|-17.3|||t-test, 1 sided|||"The null hypothesis (H0) is that the mean procedure time for the investigational device (PTI) is greater than or equal to the mean procedure time for the control device (PTC). The alternative hypothesis (HA) is that the mean procedure time for the investigational device is less.~H0: PTI ≥ PTC versus HA: PTI \< PTC"||-17.3|-33.0|0.025
82381100|NCT02513160|164472090|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|150.0|||<|0.0001|TWO_SIDED|95.0|86.8|213.2||a priori threshold for significance of 0.05.|ANCOVA|Difference of LS means, 95% CI, and p-value represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|A fixed-sequence multiple testing procedure was implemented to interpret the results from the primary analysis while controlling the family-wise error rate at 5%. The 640-mcg/day BAI dose was tested first. If the comparison to placebo resulted in p≤0.05, the 320-mcg/day BAI dose was then tested.||213.2|86.8|<0.0001
82381101|NCT02513160|164472090|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|144.0|||<|0.0001|TWO_SIDED|95.0|80.7|206.6||a priori threshold for significance of 0.05.|ANCOVA|Difference of LS means, 95% CI, and p-value represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|A fixed-sequence multiple testing procedure was implemented to interpret the results from the primary analysis while controlling the family-wise error rate at 5%. The 640-mcg/day BAI dose was tested first. If the comparison to placebo resulted in p≤0.05, the 320-mcg/day BAI dose was then tested.||206.6|80.7|<0.0001
82381102|NCT02513160|164472090|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|148.0|||<|0.0001|TWO_SIDED|95.0|84.7|211.4||a priori threshold for significance of 0.05. The p-value was not adjusted.|ANCOVA|Difference of LS means and 95% CI represent ANCOVA results adjusted for baseline, sex, age, current asthma therapy, and treatment.|Active - placebo|||211.4|84.7|<0.0001
82381103|NCT02513160|164472091|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.9||||0.0003|TWO_SIDED|95.0|10.11|33.71||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Treatment comparisons began with am PEF for BAI 640 mcg/day vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BAI 640 mcg/day vs placebo 2) the am PEF for BAI 320 mcg/day vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||33.71|10.11|0.0003
82381104|NCT02513160|164472091|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|30.1|||<|0.0001|TWO_SIDED|95.0|18.33|41.9||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in previous analysis.||41.90|18.33|<0.0001
82381105|NCT02513160|164472091|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|21.0||||0.0006|TWO_SIDED|95.0|9.14|32.83||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||32.83|9.14|0.0006
82381106|NCT02513160|164472092|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|143.0|||<|0.0001|TWO_SIDED|95.0|71.7|214.1||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||214.1|71.7|<0.0001
82381107|NCT02513160|164472092|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|170.0|||<|0.0001|TWO_SIDED|95.0|98.5|240.5||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||240.5|98.5|<0.0001
82381108|NCT02513160|164472092|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|133.0||||0.0003|TWO_SIDED|95.0|61.3|204.3||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||204.3|61.3|0.0003
82381109|NCT02513160|164472093|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.408|-0.64||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.640|-1.408|<0.0001
82381110|NCT02513160|164472093|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.482|-0.717||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.717|-1.482|<0.0001
82381111|NCT02513160|164472093|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-1.03|||<|0.0001|TWO_SIDED|95.0|-1.415|-0.643||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||-0.643|-1.415|<0.0001
82514747|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.909|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.909
82514748|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.812|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.812
82381112|NCT02513160|164472094|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.44|-0.203||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.203|-0.440|<0.0001
82381113|NCT02513160|164472094|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.25|||<|0.0001|TWO_SIDED|95.0|-0.365|-0.128||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Sequential order of analyses described in Outcome #2, analysis #1.||-0.128|-0.365|<0.0001
82570257|NCT04088136|164850909|OTHER||||||<|0.14|||||||Mixed Models Analysis|mixed procedure with unrestricted error covariance matrix. Pooled df for MSWithin = 60||We conducted a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest). Hypothesis was greater reduction in memory complaints from pretest to posttest in EMMI group||||< .14
82570258|NCT04088136|164850910|OTHER|||||||0.037|||||||Mixed Models Analysis|||We ran a 2 X 2 (Group X Time) mixed effect model with repeated measures on Time (pretest-posttest)||||.037
82514749|NCT00406029|164722383|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.54|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.5|0.540
82514750|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.829|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.7|0.829
82381114|NCT02513160|164472094|SUPERIORITY_OR_OTHER_LEGACY||LSM difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.423|-0.185||a priori threshold for significance of 0.05.|mixed model for repeated measures|MMRM analysis with covariates for baseline, sex, age, current asthma therapy, treatment, week, and treatment by week interaction.|Active - placebo|Comparisons for MDI dose versus placebo for the secondary efficacy endpoints were used for assay sensitivity.||-0.185|-0.423|<0.0001
82381115|NCT02513160|164472095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0058|||||||Log Rank|||||||0.0058
82381116|NCT02513160|164472095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||Log Rank|||||||0.0014
82381117|NCT02513160|164472095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062|||||||Log Rank|||||||0.0062
82381118|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|3.9|||<|0.0001|TWO_SIDED|95.0|2.0|7.7||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||7.7|2.0|<0.0001
82514751|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.042|TWO_SIDED|95.0|0.0|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|0.0|0.042
82514752|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.204|TWO_SIDED|95.0|-0.3|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.3|0.204
82514753|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.035|TWO_SIDED|95.0|0.1|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|0.1|0.035
82514754|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.696|TWO_SIDED|94.0|-1.2|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.2|0.696
82514755|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.625|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.625
82381119|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.3|||<|0.0001|TWO_SIDED|95.0|0.1|0.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.6|0.1|<0.0001
82514756|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.478|TWO_SIDED|95.0|-0.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.6|0.478
82381120|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|1.5||||0.6334|TWO_SIDED|95.0|0.8|3.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.0|0.8|0.6334
82381121|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.6||||0.8065|TWO_SIDED|95.0|0.2|1.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.6|0.2|0.8065
82381122|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|10.0|||<|0.0001|TWO_SIDED|95.0|3.8|26.6||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||26.6|3.8|<0.0001
82381123|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.3|0.0|<0.0001
82381124|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.3|0.0|<0.0001
82381125|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
82381126|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.4||||0.0011|TWO_SIDED|95.0|0.2|0.8||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.8|0.2|0.0011
82635251|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-4.6|4.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||4.9|-4.6|
82635252|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|2.1|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-6.5|10.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||10.7|-6.5|
82514757|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.38|TWO_SIDED|95.0|-0.5|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.5|0.380
82381127|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
82514758|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.925|TWO_SIDED|95.0|-1.2|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-1.2|0.925
82381128|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|2.6||||0.0718|TWO_SIDED|95.0|1.0|6.9||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||6.9|1.0|0.0718
82514759|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.285|TWO_SIDED|95.0|-0.5|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.5|0.285
82514760|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.296|TWO_SIDED|95.0|-0.5|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.5|0.296
82381129|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.4||||0.0593|TWO_SIDED|95.0|0.1|1.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.0|0.1|0.0593
82381130|NCT02861586|164472113|SUPERIORITY||Gemetric mean ratio|0.4||||0.0593|TWO_SIDED|95.0|0.1|1.0||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.0|0.1|0.0593
82514761|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.241|TWO_SIDED|95.0|-0.5|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-0.5|0.241
82514762|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.571|TWO_SIDED|95.0|-0.9|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.9|0.571
82381131|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|5.2|||<|0.0001|TWO_SIDED|95.0|2.6|10.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||10.4|2.6|<0.0001
82381132|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|2.2||||0.2005|TWO_SIDED|95.0|0.8|5.7||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||5.7|0.8|0.2005
82514763|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.032|TWO_SIDED|95.0|0.1|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.1|0.032
82514764|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.214|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.4|0.214
82514765|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.051|TWO_SIDED|95.0|0.0|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.0|0.051
82570259|NCT04088136|164850911|OTHER|Hypothesis was greater increase in memory self-efficacy for Everyday Metacognitive Memory group|||||<|0.33|||||||Mixed Models Analysis|mixed model specified unrestricted residual (error) covariance matrix. Pooled df in MS Error = 60||We ran a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest).||||< .33
82381133|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|35.0|||<|0.0001|TWO_SIDED|95.0|13.1|93.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||93.1|13.1|<0.0001
82570260|NCT04088136|164850912|OTHER||||||<|0.2|||||||Mixed Models Analysis|||We ran a 2 X 2 (Group X Time) mixed effects model with repeated measures on Time (pretest, posttest). Hypothesis was greater increase in memory control in EMMI group||||< .20
82570261|NCT04088136|164850913|OTHER|Hypothesis was greater increase in use of external mnemonics in EMMI group|||||<|0.2|||||||Mixed Models Analysis|||||||< .20
82570262|NCT04159805|164850930|SUPERIORITY||Difference in Least Square (LS) Mean|0.29|||=|0.772|TWO_SIDED|95.0|-1.72|2.3||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||2.30|-1.72|=0.772
82514766|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.572|TWO_SIDED|95.0|-0.9|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-0.9|0.572
82381134|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
82381135|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.0|||<|0.0001|TWO_SIDED|0.0|0.0|0.1|||ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.1|0.0|<0.0001
82381136|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.4||||0.1138|TWO_SIDED|95.0|0.2|1.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||1.1|0.2|0.1138
82381137|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|6.7|||<|0.0001|TWO_SIDED|95.0|2.5|18.1||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||18.1|2.5|<0.0001
82381138|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
82381139|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.1|0.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.4|0.1|<0.0001
82381140|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|16.0|||<|0.0001|TWO_SIDED|95.0|4.9|52.4||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||52.4|4.9|<0.0001
82381141|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.2|0.0|<0.0001
82381142|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|0.1|||<|0.0001|TWO_SIDED|95.0|0.0|0.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||0.2|0.0|<0.0001
82381143|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.3|0.3|1.0000
82381144|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.3||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.3|0.3|1.0000
82514767|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.041|TWO_SIDED|95.0|0.1|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.1|0.041
82570263|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.01|||=|0.299|TWO_SIDED|95.0|-0.94|2.97||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||2.97|-0.94|=0.299
82381145|NCT02861586|164472113|SUPERIORITY||Geometric mean ratio|1.0||||1|TWO_SIDED|95.0|0.3|3.2||Pairwise comparisons were adjusted for multiple tests according to Tukey-Kramer. The threshold for significance was 0.05.|ANOVA|Analysis of variance was conducted with treatment group as a fixed factor.||||3.2|0.3|1.0000
82381146|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|0.9||||0.9775|TWO_SIDED|95.0|0.4|2.0|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||2.0|0.4|0.9775
82381147|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|1.3||||0.8366|TWO_SIDED|95.0|0.6|3.1|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.1|0.6|0.8366
82381148|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|1.5||||0.5625|TWO_SIDED|95.0|0.7|3.6|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.6|0.7|0.5625
82381149|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|1.5||||0.5924|TWO_SIDED|95.0|0.6|3.5|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||3.5|0.6|0.5924
82381150|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|1.8||||0.3122|TWO_SIDED|95.0|0.8|4.1|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||4.1|0.8|0.3122
82381151|NCT02861586|164472122|SUPERIORITY||Geometric mean ratio|1.2||||0.9665|TWO_SIDED|95.0|0.5|2.8|||ANOVA|Analysis of variance was performed with baseline measles titer group as a fixed factor.||||2.8|0.5|0.9665
82381152|NCT05258773|164472143|SUPERIORITY||LS Mean difference Arm A - Arm B|-11.0||||0.1406|TWO_SIDED|95.0|-25.9|3.9||An analysis of covariance (ANCOVA) model was used to assess changes from baseline at 500Hz at the Day 49 visit comparing the treatment groups.The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||3.9|-25.9|0.1406
82514768|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.24|TWO_SIDED|95.0|-0.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.5|0.240
82514769|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.047|TWO_SIDED|95.0|0.0|2.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.4|0.0|0.047
82635253|NCT03091920|164985968|OTHER|No statistical testing was performed.|Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-7.9|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||9.6|-7.9|
82514770|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.228|TWO_SIDED|95.0|-0.5|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.5|0.228
82514771|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.03|TWO_SIDED|95.0|0.1|2.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|0.1|0.030
82570264|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|-0.11|||=|0.924|TWO_SIDED|95.0|-2.34|2.13||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||2.13|-2.34|=0.924
82570265|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.86|||=|0.091|TWO_SIDED|95.0|-0.32|4.04||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||4.04|-0.32|=0.091
82570266|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|-0.18|||=|0.887|TWO_SIDED|95.0|-2.82|2.45||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||2.45|-2.82|=0.887
82570267|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.8|||=|0.162|TWO_SIDED|95.0|-0.76|4.36||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||4.36|-0.76|=0.162
82570268|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|-0.36|||=|0.784|TWO_SIDED|95.0|-3.01|2.29||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||2.29|-3.01|=0.784
82635254|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|6.2|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-4.4|16.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||16.8|-4.4|
82514772|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.059|TWO_SIDED|95.0|0.0|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|0.0|0.059
82514773|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.5||||0.021|TWO_SIDED|95.0|0.2|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|0.2|0.021
82514774|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.428|TWO_SIDED|95.0|-0.6|1.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-0.6|0.428
82514775|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.025|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|0.2|0.025
82514776|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.0||||0.064|TWO_SIDED|95.0|-0.1|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-0.1|0.064
82635255|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|9.1|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-1.5|19.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 1 hour||19.8|-1.5|
82635256|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-9.0|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||9.0|-9.0|
82514777|NCT00406029|164722384|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.047|TWO_SIDED|95.0|0.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|0.0|0.047
82635257|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-4.6|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 4 hour||13.4|-4.6|
82635258|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-7.5|7.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||7.1|-7.5|
82635259|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.6|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-5.7|8.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose AM 8 hour||8.9|-5.7|
82635260|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-2.0|12.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||12.1|-2.0|
82635261|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.2|STANDARD_ERROR_OF_MEAN|3.4|||TWO_SIDED|95.0|-1.8|12.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, pre-dose PM||12.3|-1.8|
82635262|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-5.1|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||9.6|-5.1|
82635263|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-6.0|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, post-dose PM 1 hour||8.7|-6.0|
82381153|NCT05258773|164472143|SUPERIORITY||LS Mean difference Arm A - Arm B|-14.4||||0.0567|TWO_SIDED|95.0|-29.24|0.45||An ANCOVA model was used to assess changes from baseline at the average across three frequencies (250-750 Hz) at the Day 49 visit comparing the treatment groups. The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||0.45|-29.24|0.0567
82381154|NCT05258773|164472143|SUPERIORITY||LS Mean difference Arm A - Arm B|-9.0||||0.2588|TWO_SIDED|95.0|-25.0|7.1||An ANCOVA model was used to assess changes from baseline at 500Hz at EOS on Day 105 comparing the treatment groups.The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||7.1|-25.0|0.2588
82514778|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.345|TWO_SIDED|95.0|-1.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-1.4|0.345
82514779|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.468|TWO_SIDED|95.0|-0.6|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.6|0.468
82635264|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.0|6.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||6.9|-5.0|
82635265|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.3|6.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose AM||6.6|-5.3|
82635266|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-8.1|13.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||13.2|-8.1|
82635267|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-6.3|15.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 1 hour||15.0|-6.3|
82635268|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.6|11.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||11.2|-4.6|
82635269|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-1.0|14.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose AM 4 hour||14.9|-1.0|
82635270|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-8.5|5.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||5.9|-8.5|
82635271|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-8.5|5.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, pre-dose PM||5.9|-8.5|
82635272|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.2|9.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||9.5|-9.2|
82514780|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.596|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.596
82514781|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.107|TWO_SIDED|95.0|-0.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-0.2|0.107
82514782|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.348|TWO_SIDED|94.0|-1.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.8|0.348
82514783|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.938|TWO_SIDED|95.0|-1.1|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.1|0.938
82514784|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.897|TWO_SIDED|95.0|-1.1|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.1|0.897
82514785|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.518|TWO_SIDED|95.0|-0.8|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.8|0.518
82514786|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.311|TWO_SIDED|95.0|-2.2|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-2.2|0.311
82514787|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.597|TWO_SIDED|95.0|-1.0|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.0|0.597
82514788|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.925|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.5|0.925
82514789|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.478|TWO_SIDED|95.0|-0.9|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.9|0.478
82514790|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.995|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.5|0.995
82514791|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.057|TWO_SIDED|95.0|0.0|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|0.0|0.057
82514792|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.6||||0.431|TWO_SIDED|95.0|-0.9|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-0.9|0.431
82514793|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.099|TWO_SIDED|95.0|-0.2|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|-0.2|0.099
82514794|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.847|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-1.5|0.847
82514795|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.093|TWO_SIDED|95.0|-0.2|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-0.2|0.093
82514796|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.471|TWO_SIDED|95.0|-0.9|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-0.9|0.471
82514797|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.102|TWO_SIDED|95.0|-0.2|2.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|-0.2|0.102
82381155|NCT05258773|164472143|SUPERIORITY||LS Mean difference Arm A - Arm B|-13.84||||0.0979|TWO_SIDED|95.0|-30.49|2.8||An ANCOVA model was used to assess changes from baseline at the average across three frequencies (250-750 Hz) at EOS on Day 105, comparing the treatment groups. The treatment group was included as a fixed factor, with baseline values as a covariate.|ANCOVA||The change in hearing threshold from baseline was expected to be smaller in the treated group (arm A) than in the control group (arm B).|||2.80|-30.49|0.0979
82635273|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.5|9.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 1 hour||9.2|-9.5|
82514798|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.415|TWO_SIDED|95.0|-0.9|2.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-0.9|0.415
82514799|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.5||||0.051|TWO_SIDED|95.0|0.0|3.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.0|0.0|0.051
82514800|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.103|TWO_SIDED|95.0|-0.3|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-0.3|0.103
82381156|NCT03593473|164472156|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at -40 minutes.||||0.37
82381157|NCT03593473|164472156|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at -20 minutes.||||0.40
82381158|NCT03593473|164472156|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 0 minutes.||||0.63
82381159|NCT03593473|164472156|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 10 minutes.||||0.72
82381160|NCT03593473|164472156|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 15 minutes.||||0.88
82381161|NCT03593473|164472156|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 28 minutes.||||0.85
82381162|NCT03593473|164472156|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 38 minutes.||||0.72
82381163|NCT03593473|164472156|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||T-test comparing mean cortisol by study arm at 48 minutes.||||0.57
82381164|NCT03593473|164472156|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol as the outcome variable with time, study arm, and an interaction between time and study arm as the exposure variables. Times are restricted to times 0, +10, +15, and +28, which reflect the measures taken during the Trier Social Stress Test. The p-value presented below is for the interaction term between time and study arm.||||0.96
82381165|NCT03593473|164472157|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at -40 minutes.||||0.71
82381166|NCT03593473|164472157|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at -20 minutes.||||0.92
82381167|NCT03593473|164472157|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 0 minutes.||||0.92
82381168|NCT03593473|164472157|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 10 minutes.||||0.40
82381169|NCT03593473|164472157|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 15 minutes.||||0.97
82381170|NCT03593473|164472157|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 28 minutes.||||0.71
82381171|NCT03593473|164472157|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 38 minutes.||||0.78
82381172|NCT03593473|164472157|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||T-test comparing mean ACTH by study arm at 48 minutes.||||0.63
82381173|NCT03593473|164472157|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol as the outcome variable with time, study arm, and an interaction between time and study arm as the exposure variables. This is the p-value for the interaction term between time and study arm.||||0.11
82381174|NCT03593473|164472158|SUPERIORITY|||||||0.07|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at -40 minutes and Cortisol at -20 minutes.||||0.07
82381175|NCT03593473|164472158|SUPERIORITY|||||||0.22|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at -20 minutes and Cortisol at 0 minutes.||||0.22
82381176|NCT03593473|164472158|SUPERIORITY|||||||0.14|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at 0 minutes and Cortisol at +10 minutes.||||0.14
82381177|NCT03593473|164472158|SUPERIORITY|||||||0.14|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +10 minutes and Cortisol at +15 minutes.||||0.14
82381178|NCT03593473|164472158|SUPERIORITY|||||||0.05|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +15 minutes and Cortisol at +28 minutes.||||0.05
82381179|NCT03593473|164472158|SUPERIORITY|||||||0.1|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +28 minutes and Cortisol at +38 minutes.||||0.10
82381180|NCT03593473|164472158|SUPERIORITY|||||||0.9|||||||Fisher's Z test|||Fisher's Z test for correlation between ACTH at +38 minutes and Cortisol at +48 minutes.||||0.90
82381181|NCT03593473|164472158|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||A mixed effects model with random intercept and slope was used to model cortisol at time j+1 as the outcome with ACTH at time j, study arm, and an interaction term between ACTH at time j and study arm as the exposure variables. The p-value presented below is for the interaction term between ACTH at time j and study arm.||||0.21
82381182|NCT03593473|164472159|SUPERIORITY|||||||0.8441|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -40 to -35||||0.8441
82381183|NCT03593473|164472159|SUPERIORITY|||||||0.7919|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -35 to -30||||0.7919
82381184|NCT03593473|164472159|SUPERIORITY|||||||0.5639|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -30 to -25||||0.5639
82381185|NCT03593473|164472159|SUPERIORITY|||||||0.3139|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -25 to -20||||0.3139
82514801|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.022|TWO_SIDED|95.0|0.3|3.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.2|0.3|0.022
82514802|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.903|TWO_SIDED|95.0|-1.2|1.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.2|0.903
82635274|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-5.1|7.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||7.4|-5.1|
82514803|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.074|TWO_SIDED|95.0|-0.1|2.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-0.1|0.074
82381186|NCT03593473|164472159|SUPERIORITY|||||||0.4222|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -20 to -15||||0.4222
82381187|NCT03593473|164472159|SUPERIORITY|||||||0.834|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -15 to -10||||0.834
82381188|NCT03593473|164472159|SUPERIORITY|||||||0.7562|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -10 to -5||||0.7562
82381189|NCT03593473|164472159|SUPERIORITY|||||||0.4245|||||||t-test, 2 sided|||High frequency heart rate variability at minutes -5 to 0||||0.4245
82381190|NCT03593473|164472159|SUPERIORITY|||||||0.1425|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 5 to 8||||0.1425
82381191|NCT03593473|164472159|SUPERIORITY|||||||0.7175|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 8 to 13||||0.7175
82381192|NCT03593473|164472159|SUPERIORITY|||||||0.1417|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 13 to 18||||0.1417
82381193|NCT03593473|164472159|SUPERIORITY|||||||0.0514|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 18 to 23||||0.0514
82381194|NCT03593473|164472159|SUPERIORITY|||||||0.1507|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 23 to 28||||0.1507
82635275|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-3.4|9.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 2, post-dose PM 4 hour||9.2|-3.4|
82381195|NCT03593473|164472159|SUPERIORITY|||||||0.4204|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 8 to 33||||0.4204
82381196|NCT03593473|164472159|SUPERIORITY|||||||0.4209|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 33 to 38||||0.4209
82514804|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.185|TWO_SIDED|95.0|-0.4|2.2|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.4|0.185
82514805|NCT00406029|164722385|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.054|TWO_SIDED|95.0|0.0|2.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.6|0.0|0.054
82514806|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.985|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.5|0.985
82381197|NCT03593473|164472159|SUPERIORITY|||||||0.2569|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 38 to 43||||0.2569
82381198|NCT03593473|164472159|SUPERIORITY|||||||0.0828|||||||t-test, 2 sided|||High frequency heart rate variability at minutes 43 to 48||||0.0828
82381199|NCT03593473|164472160|SUPERIORITY|||||||0.6452|||||||t-test, 2 sided|||Pre-ejection period at minutes -40 to -35||||0.6452
82381200|NCT03593473|164472160|SUPERIORITY|||||||0.3228|||||||t-test, 2 sided|||Pre-ejection period at minutes -35 to -30||||0.3228
82381201|NCT03593473|164472160|SUPERIORITY|||||||0.3541|||||||t-test, 2 sided|||Pre-ejection period at minutes -30 to -25||||0.3541
82381202|NCT03593473|164472160|SUPERIORITY|||||||0.4311|||||||t-test, 2 sided|||Pre-ejection period at minutes -25 to -20||||0.4311
82381203|NCT03593473|164472160|SUPERIORITY|||||||0.3349|||||||t-test, 2 sided|||Pre-ejection period at minutes -20 to -15||||0.3349
82381204|NCT03593473|164472160|SUPERIORITY|||||||0.2646|||||||t-test, 2 sided|||Pre-ejection period at minutes -15 to -10||||0.2646
82514807|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.556|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.3|0.556
82514808|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.776|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.4|0.776
82381205|NCT03593473|164472160|SUPERIORITY|||||||0.1095|||||||t-test, 2 sided|||Pre-ejection period at minutes -10 to -5||||0.1095
82381206|NCT03593473|164472160|SUPERIORITY|||||||0.0194|||||||t-test, 2 sided|||Pre-ejection period at minutes -5 to 0||||0.0194
82381207|NCT03593473|164472160|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||Pre-ejection period at minutes 5 to 8||||0.473
82381208|NCT03593473|164472160|SUPERIORITY|||||||0.5768|||||||t-test, 2 sided|||Pre-ejection period at minutes 8 to 13||||0.5768
82381209|NCT03593473|164472160|SUPERIORITY|||||||0.3477|||||||t-test, 2 sided|||Pre-ejection period at minutes 13 to 18||||0.3477
82381210|NCT03593473|164472160|SUPERIORITY|||||||0.1413|||||||t-test, 2 sided|||Pre-ejection period at minutes 18 to 23||||0.1413
82381211|NCT03593473|164472160|SUPERIORITY|||||||0.2128|||||||t-test, 2 sided|||Pre-ejection period at minutes 23 to 28||||0.2128
82381212|NCT03593473|164472160|SUPERIORITY|||||||0.1415|||||||t-test, 2 sided|||Pre-ejection period at minutes 28 to 33||||0.1415
82381213|NCT03593473|164472160|SUPERIORITY|||||||0.1126|||||||t-test, 2 sided|||Pre-ejection period at minutes 33 to 38||||0.1126
82381214|NCT03593473|164472160|SUPERIORITY|||||||0.1647|||||||t-test, 2 sided|||Pre-ejection period at minutes 38 to 43||||0.1647
82381215|NCT03593473|164472160|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||Pre-ejection period at minutes 43 to 48||||0.088
82381216|NCT06700512|164472169|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|paired||"H0 (Objective 1) SRT (study HA) is either not significantly different from SRT without HAs or significantly worse than SRT without HAs.~H1(Objective 1) SRT(study HA) is significantly better than SRT without HAs. A mean difference in SRT of 1 dB measured with the Oldenburg sentence test can be assumed as a typical difference in speech intelligibility to show a clinically meaningful improvement."||||<0.001
82570269|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.79|||=|0.166|TWO_SIDED|95.0|-0.79|4.37||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||4.37|-0.79|=0.166
82381217|NCT06700512|164472169|NON_INFERIORITY|A mean difference in SRT of 1 dB measured with the Oldenburg sentence test (Wagener et al, 1999a-c), can be assumed as a typical difference in speech intelligibility to show a clinically meaningful improvement (Kollmeier et al, 2011). Thus if SRT with study hearing aids is 1dB or more worse than with subjects' own hearing aids and the difference is significant (p\<0.05), inferiority of study hearing aid is assumed otherwise study hearing aids are considered non-inferior|||||<|0.001||||||paired|t-test, 1 sided|||H0 (Objective 2) SRT (study HA) is significantly worse than SRT(own HAs). H1(Objective 2) There is no difference between SRT(study HA) and SRT(own HAs) or SRT (study HA) is significantly better than SRT (own HAs) SRT= Speech Reception Threshold in dB||||<0.001
82381218|NCT03103087|164472217|SUPERIORITY||Treatment Difference|56.47|||<|0.0001|TWO_SIDED|95.0|46.45|66.49||P-value was stratified by baseline MBL volume (\< 225 mL or ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo.|||66.49|46.45|<0.0001
82381219|NCT03103087|164472218|SUPERIORITY||Treatment Difference|47.3|||<|0.0001|TWO_SIDED|95.0|38.04|56.56||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel|Treatment difference was relugolix plus E2/NETA minus placebo. 95% confidence interval (CI) for the difference is based on the normal approximation.||||56.56|38.04|<0.0001
82381220|NCT03103087|164472219|SUPERIORITY||Treatment Difference|-69.2|STANDARD_ERROR_OF_MEAN|7.58|<|0.0001|TWO_SIDED|95.0|-84.1|-54.3||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. Assessed at a 2-sided α = 0.05 significance.|Mixed Models Analysis||Treatment difference was relugolix plus E2/NETA minus placebo.|||-54.3|-84.1|<0.0001
82381221|NCT03103087|164472220|SUPERIORITY||Treatment Difference|55.88|||<|0.0001|TWO_SIDED|95.0|37.25|74.52||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||74.52|37.25|<0.0001
82381222|NCT03103087|164472221|SUPERIORITY||Treatment Difference|29.99|||<|0.0001|TWO_SIDED|95.0|15.6|44.38||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||44.38|15.6|<0.0001
82381223|NCT03103087|164472222|SUPERIORITY||Treatment Difference|-10.0|STANDARD_ERROR_OF_MEAN|8.03|=|0.2153|TWO_SIDED|95.0|-25.8|5.8||LS Means based on analysis of covariance model including treatment, randomization stratification factors, Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World), and Baseline values as covariate.|ANCOVA|||||5.8|-25.8|=0.2153
82381224|NCT03103087|164472223|SUPERIORITY||Treatment Difference|-12.2|STANDARD_ERROR_OF_MEAN|4.57|=|0.0078|TWO_SIDED|95.0|-21.3|-3.2||LS Means based on analysis of covariance model including treatment, randomization stratification factors, Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World), and Baseline values as covariate.|ANCOVA|||||-3.2|-21.3|=0.0078
82381225|NCT03103087|164472224|SUPERIORITY||Treatment Difference|-33.4|STANDARD_ERROR_OF_MEAN|3.98|<|0.0001|TWO_SIDED|95.0|-41.2|-25.5||Assessed at a 2-sided α = 0.05 significance level.|Mixed Models Analysis||Relugolix plus E2/NETA minus placebo. Treatment, visit, region, Baseline MBL and treatment by visit interaction as fixed effects.|||-25.5|-41.2|<0.0001
82381226|NCT03103087|164472227|OTHER||Risk Ratio (RR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.07|0.33|||Fisher Exact|||||0.33|0.07|<0.0001
82381227|NCT03103087|164472232|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||< 0.0001
82570270|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|0.42|||=|0.724|TWO_SIDED|95.0|-1.98|2.82||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||2.82|-1.98|=0.724
82381228|NCT03103087|164472233|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82381229|NCT03103087|164472234|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||<0.0001
82381230|NCT03103087|164472235|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||< 0.0001
82381231|NCT03103087|164472236|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||<0.0001
82381232|NCT03103087|164472237|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus Placebo based on mixed-effect model with treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381233|NCT03103087|164472238|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World). Lower limit of normal is Hgb \< 11.6 g/dL.|Cochran-Mantel-Haenszel|||||||<0.0001
82381234|NCT03103087|164472239|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included.|Mixed Models Analysis|||||||<0.0001
82381235|NCT03103087|164472240|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82514809|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.777|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.4|0.777
82381236|NCT03103087|164472241|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381237|NCT03103087|164472242|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381238|NCT03103087|164472243|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82381239|NCT03103087|164472244|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included.|Mixed Models Analysis|||||||<0.0001
82514810|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.92|TWO_SIDED|94.0|-0.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.5|0.920
82514811|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.155|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.1|0.155
82514812|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.843|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.843
82381240|NCT03103087|164472245|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82381241|NCT03103087|164472246|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381242|NCT03103087|164472247|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381243|NCT03103087|164472249|SUPERIORITY||||||<|0.0001||||||LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo based on mixed-effect model with treatment, visit, region, Baseline MBL, and treatment by visit interaction included as fixed effects.|Mixed Models Analysis|||||||<0.0001
82381244|NCT03103087|164472256|SUPERIORITY|||||||0.0004||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||0.0004
82381245|NCT03664232|164472261|SUPERIORITY||Least-Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09|=|0.284|TWO_SIDED|80.0|-0.17|0.07|||Mixed effects model for repeatedmeasures|||||0.07|-0.17|=0.284
82381246|NCT03664232|164472262|SUPERIORITY||Least-Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.1|=|0.29|TWO_SIDED|80.0|-0.18|0.07|||MMRM|||||0.07|-0.18|=0.290
82381247|NCT03664232|164472263|SUPERIORITY||Least-Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.1|=|0.231|TWO_SIDED|80.0|-0.21|0.06|||MMRM|||||0.06|-0.21|=0.231
82381248|NCT03500198|164472296|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
82381249|NCT03500198|164472298|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82381250|NCT03500198|164472299|SUPERIORITY||||||<|0.0001|||||||1-sided logistic regression|||||||<0.0001
82381251|NCT03051100|164472383|SUPERIORITY||Least squares mean difference|-60.5|STANDARD_ERROR_OF_MEAN|3.67|<|0.001|TWO_SIDED|95.0|-68.0|-53.0|||ANCOVA||Triplet therapy minus placebo|||-53.0|-68.0|<0.001
82514813|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.673|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.4|0.673
82514814|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.612|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.612
82381252|NCT03051100|164472384|SUPERIORITY||Least squares mean difference|-58.7|STANDARD_ERROR_OF_MEAN|3.02|<|0.001|TWO_SIDED|95.0|-64.9|-52.6|||ANCOVA||Triplet therapy minus placebo|non-HDL-C||-52.6|-64.9|<0.001
82381253|NCT03051100|164472384|SUPERIORITY||Least squares mean difference|-46.0|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-51.6|-40.4|||ANCOVA||Triplet therapy minus placebo|TC||-40.4|-51.6|<0.001
82381254|NCT03051100|164472384|SUPERIORITY||Least squares mean difference|-54.1|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-59.7|-48.6|||ANCOVA|||apoB||-48.6|-59.7|<0.001
82381255|NCT03051100|164472384|SUPERIORITY||Least squares mean difference|-36.3|STANDARD_ERROR_OF_MEAN|6.58|<|0.001|TWO_SIDED|95.0|-49.7|-22.8|||ANCOVA|||TG||-22.8|-49.7|<0.001
82381256|NCT03051100|164472384|SUPERIORITY||Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|2.7|=|0.588|TWO_SIDED|95.0|-7.0|4.0|||ANCOVA|||HDL-C||4.0|-7.0|=0.588
82381257|NCT03051100|164472385|SUPERIORITY||Median treatment difference|-41.9|STANDARD_ERROR_OF_MEAN|9.86|<|0.001|TWO_SIDED|95.0|-60.0|-21.4|||Wilcoxon rank sum test|||||-21.4|-60.0|<0.001
82381258|NCT03051100|164472386|SUPERIORITY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82381259|NCT03051100|164472387|SUPERIORITY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82381260|NCT03335475|164472395|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
82381261|NCT03335475|164472396|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
82381262|NCT03335475|164472397|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
82381263|NCT05921903|164472408|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|3.52|||||TWO_SIDED|95.0|2.26|5.48|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 2.||5.48|2.26|
82381264|NCT05921903|164472408|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.28|2.04|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 3.||2.04|1.28|
82381265|NCT05921903|164472409|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.26|||||TWO_SIDED|95.0|0.94|1.69|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_IC\_2/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). ANCOVA model included the group as fixed effect, and SOT type and baseline log10-transformed titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of vaccine (RSV\_IC\_1 group) and participants that received lung or kidney solid organ transplant and 2 doses of vaccine (RSV\_IC\_2 group) for the RSV-A strain at Visit 4.||1.69|0.94|
82514815|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.512|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.4|0.512
82381266|NCT05921903|164472410|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.31|||||TWO_SIDED|95.0|1.01|1.68|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of study intervention (RSV\_IC\_1 group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 4.||1.68|1.01|
82381267|NCT05921903|164472411|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.8|1.3|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_2) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 2 doses of study intervention (RSV\_IC\_2 group) and healthy participants (RSV\_HA group) for the RSV-A strain at Visit 4.||1.30|0.80|
82381268|NCT05921903|164472413|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|3.37|||||TWO_SIDED|95.0|2.28|4.98|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 2.||4.98|2.28|
82514816|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.269|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.269
82514817|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.516|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.516
82514818|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.597|TWO_SIDED|95.0|-0.8|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.8|0.597
82381269|NCT05921903|164472413|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.67|||||TWO_SIDED|95.0|1.32|2.13|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/Pooled RSV\_IC) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant (Pooled RSV\_IC group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 3.||2.13|1.32|
82381270|NCT05921903|164472414|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.28|||||TWO_SIDED|95.0|0.97|1.7|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_IC\_2/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). ANCOVA model included the group as fixed effect, and SOT type and baseline log10-transformed titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of vaccine (RSV\_IC\_1 group) and participants that received lung or kidney solid organ transplant and 2 doses of vaccine (RSV\_IC\_2 group) for the RSV-B strain at Visit 4.||1.70|0.97|
82381271|NCT05921903|164472415|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.29|||||TWO_SIDED|95.0|1.0|1.65|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_1) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 1 dose of study intervention (RSV\_IC\_1 group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 4.||1.65|1.00|
82381272|NCT05921903|164472416|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|GMT Ratio|1.01|||||TWO_SIDED|95.0|0.8|1.26|||ANCOVA||The comparison is done using the group ratio of adjusted GMT (RSV\_HA/RSV\_IC\_2) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate.|To evaluate the humoral immune response to the RSVPreF3 OA investigational vaccine in participants that received lung or kidney solid organ transplant and 2 doses of study intervention (RSV\_IC\_2 group) and healthy participants (RSV\_HA group) for the RSV-B strain at Visit 4.||1.26|0.80|
82381273|NCT00789854|164472437|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin for differences was set to 3 units in the MADRS total score.~A power set to 80% and using a Bonferroni-adjusted one-sided alpha\* = alpha/3 = 0.0083 yields a planned sample size of 192 patients per study group. With a drop out of 4% a total of 600 randomized patients were required to obtain 192 efficacy evaluable patients per treatment group."|Mean Difference (Final Values)|-2.322||||||97.5|-4.6|-0.05||The CI is for comparing add-on quetiapine versus add-on Lithium. The CI = confidence interval was adjusted for multiple comparisons. The -0.05 value should have been +3 or above to fail to reject the null hypothesis.|ANCOVA|Non-inferiority between add-on quetiapine XR and add-on lithium was shown in the Per Protocol analysis set.||Add-on quetiapine XR was tested versus add-on lithium for non-inferiority. The null hypothesis was that the add-on quetiapine treatment was non-inferior to add-on lithium.||-0.05|-4.6|
82381274|NCT00789854|164472437|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin for differences was set to 3 units in the MADRS total score.~A power set to 80% and using a Bonferroni-adjusted one-sided alpha\* = alpha/3 = 0.0083 yields a planned sample size of 192 patients per study group. With a drop out of 4% a total of 600 randomized patients were required to obtain 192 efficacy evaluable patients per treatment group."|Mean Difference (Final Values)|-1.639||||||97.5|-3.24|1.312||The CI is for comparing quetiapine XR mono versus add-on Lithium. The CI = confidence interval was adjusted for multiple comparisons. The 1.312 value should have been +3 or above to fail to reject the null hypothesis.|ANCOVA|Non-inferiority between quetiapine XR mono and add-on lithium was shown in the Per Protocol analysis set.||Quetiapine XR mono was tested versus add-on lithium for non-inferiority. The null hypothesis was that the quetiapine XR mono treatment was non-inferior to add-on lithium.||1.312|-3.24|
82381275|NCT00789854|164472438|SUPERIORITY_OR_OTHER|||||||0.0489||95.0||||Adjustment for multiplicity was done, alpha = 0.025|ANCOVA|Superiority testing of primary outcome showed no significant difference in the Modified Intention To Treat (ITT) population||The null hypothesis was that the add-on quetiapine XR treatment was not different to the add-on lithium treatment. The power calculation was done for the primary non-inferior analysis. This superiority analysis was only done if the non-inferior analysis was successful.||||0.0489
82381276|NCT00789854|164472438|SUPERIORITY_OR_OTHER|||||||0.4368||95.0||||Adjustment for multiplicity was done, alpha = 0.025|ANCOVA|Superiority testing of primary outcome showed no significant difference in the Modified Intention To Treat (ITT) population||The null hypothesis was that the quetiapine XR mono treatment was not different from the add-on lithium treatment. The power calculation was done for the primary non-inferior analysis. This superiority analysis was only done if the non-inferior analysis was successful.||||0.4368
82381277|NCT05906628|164472479|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|4.48|21.49|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||||21.49|4.48|<0.0001
82381278|NCT05906628|164472479|SUPERIORITY||Response rate difference|42.5|STANDARD_ERROR_OF_MEAN|6.03|||TWO_SIDED|95.0|30.7|54.36||||||||54.36|30.70|
82381279|NCT05906628|164472480|SUPERIORITY||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.14|8.38|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 4||8.38|2.14|<0.0001
82381280|NCT05906628|164472480|SUPERIORITY||Response rate difference|29.5|STANDARD_ERROR_OF_MEAN|6.52|||TWO_SIDED|95.0|16.69|42.24||||||Week 4||42.24|16.69|
82514819|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.766|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.7|0.766
82381281|NCT05906628|164472480|SUPERIORITY||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.02|7.51|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 16||7.51|2.02|<0.0001
82381282|NCT05906628|164472480|SUPERIORITY||Response rate difference|29.5|STANDARD_ERROR_OF_MEAN|6.69|||TWO_SIDED|95.0|16.34|42.57||||||Week 16||42.57|16.34|
82381283|NCT05906628|164472481|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1789|TWO_SIDED|95.0|0.718|5.923|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Day 3||5.923|0.718|0.1789
82381284|NCT05906628|164472481|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0024|TWO_SIDED|95.0|1.603|8.951|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 1 (Day 7)||8.951|1.603|0.0024
82381285|NCT05906628|164472482|SUPERIORITY||Odds Ratio (OR)|9.91|||<|0.0001|TWO_SIDED|95.0|4.44|22.13|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by stratification factors IGA-CHE score (3 or 4) and region (North America or outside of North America).||Week 16||22.13|4.44|<0.0001
82381286|NCT05906628|164472482|SUPERIORITY||Response rate difference|45.6|STANDARD_ERROR_OF_MEAN|6.49|||TWO_SIDED|95.0|32.83|58.27||||||Week 16||58.27|32.83|
82381287|NCT05906628|164472484|SUPERIORITY||Cox regression model|1.719||||0.0025|TWO_SIDED|95.0|1.211|2.44|||Log Rank|stratified by randomization stratification factors|Cox regression model stratified by stratification factors (Baseline IGA-CHE 3/4, Region : North America or outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.440|1.211|0.0025
82381288|NCT05906628|164472487|SUPERIORITY||Cox regression model|1.279||||0.1319|TWO_SIDED|95.0|0.931|1.759|||Log Rank|stratified by randomization stratification factors|Cox regression model stratified by stratification factors (Baseline IGA-CHE 3/4, Region : North America or outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||1.759|0.931|0.1319
82381289|NCT01108718|164472501|SUPERIORITY_OR_OTHER||Rate of Preference|0.45|STANDARD_DEVIATION|0.5|>|0.1|TWO_SIDED|95.0|0.43|0.47|||McNemar||Rate of preference refers specifically to Tempur-Pedic Mattress.|h0: Rate Preference Tempur-pedic mattress = Rate Preference control mattress h1: Rate Preference Tempur-pedic mattress = Rate Preference control mattress||.47|.43|>0.1
82381290|NCT05317312|164472502|SUPERIORITY||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|12.08||0.123|TWO_SIDED|95.0|-5.2|42.7|||Emax||The estimated difference between 1.25mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|||42.7|-5.2|0.123
82381291|NCT05317312|164472502|SUPERIORITY||Mean Difference (Final Values)|34.7|STANDARD_ERROR_OF_MEAN|10.25|<|0.001|TWO_SIDED|95.0|14.4|55.0|||Emax||||The estimated difference between 5mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|55.0|14.4|<0.001
82381292|NCT05317312|164472502|SUPERIORITY||Mean Difference (Final Values)|42.8|STANDARD_ERROR_OF_MEAN|9.53|<|0.001|TWO_SIDED|95.0|23.9|61.7|||Emax||The estimated difference between 15mg bid and placebo is based on the Emax model. The values that appear in the Outcome Measure Data Table are observed values.|||61.7|23.9|<0.001
82381293|NCT05317312|164472503|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.0|0.2|||||The estimated difference between 1.5mg bid and placebo is based on Mixed Model Repeated Measures.The values in the Outcome Measure Data are observed mean values.|||0.2|-2.0|
82381294|NCT05317312|164472503|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-1.8|0.4|||||The estimated difference between 5mg bid and placebo is based on Mixed Model Repeated Measures. The values in the Outcome Measure Data are observed mean values|||0.4|-1.8|
82381295|NCT05317312|164472503|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-1.9|0.3|||||The estimated difference between 15mg bid and placebo is based on Mixed Model Repeated Measures.. The values in the Outcome Measure Data are observed mean values|||0.3|-1.9|
82514820|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.428|TWO_SIDED|95.0|-0.9|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.9|0.428
82514821|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.796|TWO_SIDED|95.0|-0.7|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.7|0.796
82381296|NCT05317312|164472504|SUPERIORITY|||||||0.036|||||||Log Rank|||||||0.036
82381297|NCT05317312|164472504|SUPERIORITY|||||||0.006|||||||Log Rank|||||||0.006
82381298|NCT05317312|164472504|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82381299|NCT05317312|164472505|SUPERIORITY|||||||0.411|||||||Log Rank|||||||0.411
82381300|NCT05317312|164472505|SUPERIORITY|||||||0.383|||||||Log Rank|||||||0.383
82381301|NCT05317312|164472505|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82381302|NCT05317312|164472506|SUPERIORITY||Risk Difference (RD)|27.4||||0.042|TWO_SIDED|95.0|2.0|52.7|||Chi-squared|||||52.7|2.0|0.042
82381303|NCT05317312|164472506|SUPERIORITY||Risk Difference (RD)|34.5||||0.01|TWO_SIDED|95.0|9.7|59.3|||Chi-squared|||||59.3|9.7|0.01
82381304|NCT05317312|164472506|SUPERIORITY||Risk Difference (RD)|51.9|||<|0.001|TWO_SIDED|95.0|29.6|74.1|||Chi-squared|||||74.1|29.6|<0.001
82381305|NCT05317312|164472507|SUPERIORITY||Risk Difference (RD)|-31.2||||0.019|TWO_SIDED|95.0|-55.9|-6.5|||Chi-squared|||||-6.5|-55.9|0.019
82381306|NCT05317312|164472507|SUPERIORITY||Risk Difference (RD)|-16.9||||0.187|TWO_SIDED|95.0|-41.6|7.8|||Chi-squared|||||7.8|-41.6|0.187
82381307|NCT05317312|164472507|SUPERIORITY||Risk Difference (RD)|-44.4||||0.001|TWO_SIDED|95.0|-68.3|20.6|||Chi-squared|||||20.6|-68.3|0.001
82381308|NCT01422213|164472509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|0.22|0.5||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the composite z-score was analysed using the mixed model for repeated measurements (MMRM) with an unstructured covariance structure. The model included terms for grouped site, baseline composite z-score, baseline composite z-score-by-visit interaction, and treatment-by-visit interaction.||0.50|0.22|<0.0001
82514822|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.988|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.988
82570271|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.81|||=|0.124|TWO_SIDED|95.0|-0.52|4.14||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.14|-0.52|=0.124
82514823|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.786|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.786
82514824|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.702|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.702
82514825|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.371|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.3|0.371
82570272|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|0.29|||=|0.856|TWO_SIDED|95.0|-2.91|3.48||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||3.48|-2.91|=0.856
82514826|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.981|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.981
82514827|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.282|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.3|0.282
82514828|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.55|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.7|0.550
82514829|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.72|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.5|0.720
82514830|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.742|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.742
82514831|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.211|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.2|0.211
82381309|NCT01422213|164472509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|0.19|0.47||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the composite z-score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline composite z-score, baseline composite z-score-by-visit interaction, and treatment-by-visit interaction.||0.47|0.19|<0.0001
82381310|NCT01422213|164472510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|2.5|5.9||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the DSST (number of correct symbols) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||5.90|2.50|<0.0001
82381311|NCT01422213|164472510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|2.57|5.94||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the DSST (number of correct symbols) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||5.94|2.57|<0.0001
82381312|NCT01422213|164472511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|0.46||0.0287|TWO_SIDED|95.0|0.11|1.93||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the RAVLT (acquisition) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.93|0.11|0.0287
82381313|NCT01422213|164472511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.46||0.1988|TWO_SIDED|95.0|-0.31|1.5||To adjust for multiplicity, the 10 and 20 mg doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.05/2 = 0.025.|Mixed Models Analysis|||Based on the FAS, the RAVLT (acquisition) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.50|-0.31|0.1988
82381314|NCT01422213|164472512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.24||0.0033|TWO_SIDED|95.0|0.24|1.19||Since the p-value for RAVLT acquisition for 10 mg was \>0.025, the p-value for this test is nominal.|Mixed Models Analysis|||Based on the FAS, the RAVLT (delayed recall) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.19|0.24|0.0033
82381315|NCT01422213|164472512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.24||0.0073|TWO_SIDED|95.0|0.17|1.12||Since the p-value for RAVLT acquisition for 20 mg was \>0.025, the p-value for this test is nominal.|Mixed Models Analysis|||Based on the FAS, the RAVLT (delayed recall) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||1.12|0.17|0.0073
82381316|NCT01422213|164472513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|1.37||0.0061|TWO_SIDED|95.0|-6.45|-1.08||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT A (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.08|-6.45|0.0061
82381317|NCT01422213|164472513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|1.35||0.0052|TWO_SIDED|95.0|-6.46|-1.14||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT A (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.14|-6.46|0.0052
82381318|NCT01422213|164472514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.57|STANDARD_ERROR_OF_MEAN|2.73||0.0058|TWO_SIDED|95.0|-12.93|-2.2||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT B (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.20|-12.93|0.0058
82514832|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.906|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-0.6|0.906
82514833|NCT00406029|164722386|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.868|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.868
82514834|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.747|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.6|0.747
82514835|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.14|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.140
82514836|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.148|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.148
82514837|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.005|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-1.2|0.005
82514838|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.256|TWO_SIDED|94.0|-0.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.8|0.256
82514839|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.343|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.343
82514840|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.102|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.0|0.102
82514841|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.161|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.161
82381319|NCT01422213|164472514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.01|STANDARD_ERROR_OF_MEAN|2.7||0.0009|TWO_SIDED|95.0|-14.32|-3.7||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the TMT B (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-3.70|-14.32|0.0009
82381320|NCT01422213|164472515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|1.28||0.0018|TWO_SIDED|95.0|-6.5|-1.49||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Congruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.49|-6.50|0.0018
82381321|NCT01422213|164472515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.45|STANDARD_ERROR_OF_MEAN|1.26||0.0005|TWO_SIDED|95.0|-6.93|-1.97||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Congruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-1.97|-6.93|0.0005
82381322|NCT01422213|164472516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|2.04||0.001|TWO_SIDED|95.0|-10.76|-2.74||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Incongruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.74|-10.76|0.0010
82381323|NCT01422213|164472516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.52|STANDARD_ERROR_OF_MEAN|2.02||0.0013|TWO_SIDED|95.0|-10.49|-2.54||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the Incongruent STROOP Time to Complete (Executive Function) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.54|-10.49|0.0013
82381324|NCT01422213|164472517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|-0.07|-0.02||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the SRT (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.02|-0.07|0.0002
82381325|NCT01422213|164472517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0157|TWO_SIDED|95.0|-0.05|-0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the SRT (Speed of Processing) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.01|-0.05|0.0157
82381326|NCT01422213|164472518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.009||0.0005|TWO_SIDED|95.0|-0.05|-0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CRT (Attention) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.01|-0.05|0.0005
82381327|NCT01422213|164472518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.009||0.3549|TWO_SIDED|95.0|-0.03|0.01||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CRT (Attention) was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||0.01|-0.03|0.3549
82381328|NCT01422213|164472519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-6.45|-2.96||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the MADRS Total Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-2.96|-6.45|<0.0001
82381329|NCT01422213|164472519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-8.43|-4.98||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the MADRS Total Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-4.98|-8.43|<0.0001
82381330|NCT01422213|164472520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.88|-0.42||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-S Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.42|-0.88|<0.0001
82381331|NCT01422213|164472520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.08|-0.62||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-S Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site, baseline value, baseline value-by-visit interaction, and treatment-by-visit interaction.||-0.62|-1.08|<0.0001
82381332|NCT01422213|164472521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.81|-0.4||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-I Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site and treatment-by-visit interaction.||-0.40|-0.81|<0.0001
82514842|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.15|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.150
82514843|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.175|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.175
82381333|NCT01422213|164472521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.06|-0.65||No adjustment for multiplicity was made.|Mixed Models Analysis|||Based on the FAS, the CGI-I Score was analysed using the MMRM with an unstructured covariance structure. The model included terms for grouped site and treatment-by-visit interaction.||-0.65|-1.06|<0.0001
82514844|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.013|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-1.2|0.013
82514845|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.12|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-0.9|0.120
82381334|NCT01422213|164472522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0002|TWO_SIDED|95.0|1.44|3.33||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||3.33|1.44|0.0002
82381335|NCT01422213|164472522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.43|||<|0.0001|TWO_SIDED|95.0|2.26|5.21||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||5.21|2.26|<0.0001
82381336|NCT01422213|164472523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.003|TWO_SIDED|95.0|1.29|3.41||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||3.41|1.29|0.0030
82381337|NCT01422213|164472523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.0001|TWO_SIDED|95.0|1.95|5.03||Wald's Test. No adjustment for multiplicity was made.|Regression, Logistic|||||5.03|1.95|<0.0001
82381338|NCT01422213|164472524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.059||0.0393|TWO_SIDED|95.0|0.01|0.24||No adjustment for multiplicity was made.|ANCOVA|||||0.24|0.01|0.0393
82381339|NCT01422213|164472525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.068||0.0007|TWO_SIDED|95.0|0.1|0.36||No adjustment for multiplicity was made.|ANCOVA|||||0.36|0.10|0.0007
82381340|NCT01422213|164472525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.068||0.0246|TWO_SIDED|95.0|0.02|0.29||No adjustment for multiplicity was made.|ANCOVA|||||0.29|0.02|0.0246
82381341|NCT02857816|164472527|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||This is a single arm study. The primary objective was to demonstrate a statistically significant reduction between baseline and following the 12th PTNM therapy sessions in the number of UUI episodes per day.||||<0.0001
82381342|NCT01320293|164472536|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|||Null hypothesis: Percent change in endothelial function from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||<0.05
82381343|NCT01320293|164472537|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|||Null hypothesis: change in IL-6 levels from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||<0.05
82381344|NCT01320293|164472538|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||Null hypothesis: change in adiponectin levels from baseline visit to end of treatment/month 6 will be zero change. (percent change=0)||||0.05
82381345|NCT01532934|164472541|SUPERIORITY_OR_OTHER|||||||0.02||||||As stated, the p-value reflects the Factor 1 by treatment interaction term and its effect on percent days abstinent/month.|Regression, Linear|||A priori hypothesis. Psychopathy Factor 1 (F1) X treatment interaction to predict higher substance use among people high in F1 + who get treatment relative to individuals with high F1 who get standard care.||||.02
82381346|NCT01532934|164472542|SUPERIORITY_OR_OTHER|||||||0.34||||||As stated, the p-value reflects the F1 X treatment interaction term and its effect on substance use consequences. A priori threshold for significance was p\<.05.|Regression, Linear|||Experimental hypothesis: The F1 X treatment interaction will show that individuals low on F1 who get treatment will reduce substance use consequences at six months relative to those low on F1 who get standard care.||||.34
82381347|NCT01532934|164472543|SUPERIORITY_OR_OTHER|||||||0.69||||||a priori threshold p\<.05|Regression, Logistic|||Experimental hypothesis: Treatment X F1 interaction will predict fewer charges at one-year follow-up for individuals low on F1 who got treatment relative to individuals low on F1 who did not.||||.69
82381348|NCT00793455|164472547|SUPERIORITY_OR_OTHER||Rate Ratio|3.1|||<|0.05|TWO_SIDED|95.0|1.5|6.2|||Chi-squared|||We compared the outcomes in the intervention and control groups using rate ratios and chi square test at 3 and 6 months, a 2 sided test with a p value \< .05 was used to determine significance. The study was powered to detect a 10-percentage point difference in screening completion between intervention and control groups if the control rate of completion as 20% or less with 80% power.||6.2|1.5|<0.05
82381349|NCT00793455|164472548|SUPERIORITY_OR_OTHER||Rate Ratio|1.5|||<|0.05|TWO_SIDED|95.0|1.03|2.2|||Chi-squared|||Same as primary outcome.||2.2|1.03|<0.05
82381350|NCT01597778|164472549|SUPERIORITY||Difference in Kaplan-Meier estimates|6.1||||0.4092|TWO_SIDED|95.0|-5.2|17.4||Statistical significance was determined using a pre-specified threshold of 0.05. Final p-value is adjusted for the interim looks per study design.|Z-test to compare the Kaplan-Meier Est.|||The primary null hypothesis of the study is that there is no difference between the 2 year PFS probabilities for dUCB vs. haplo-BM.||17.4|-5.2|0.4092
82381351|NCT01597778|164472549|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.06|TWO_SIDED|95.0|0.99|1.7||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||The null hypothesis of the study is that there is no difference between the 2 year PFS probabilities for dUCB vs. haplo-BM after adjustment for age, performance score, and disease type.||1.70|0.99|0.060
82381352|NCT01597778|164472551|SUPERIORITY|||||||0.046||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before neutrophil recovery is competing risk.||The null hypothesis is that there is no difference between the neutrophil engraftment post-transplantation for dUCB vs. haplo-BM.||||0.046
82381353|NCT01597778|164472552|SUPERIORITY|||||||0.16||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before Platelet recovery is competing risk.||The null hypothesis is that there is no difference between the platelet engraftment to 20k post-transplantation for dUCB vs. haplo-BM.||||0.160
82381354|NCT01597778|164472552|SUPERIORITY|||||||0.146||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before Platelet recovery is competing risk.||The null hypothesis is that there is no difference between the platelet engraftment to 50k post-transplantation for dUCB vs. haplo-BM.||||0.146
82381355|NCT01597778|164472554|SUPERIORITY|||||||0.693||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before 2nd graft failure is competing risk.||The null hypothesis is that there is no difference between the secondary graft failure probabilities post-transplantation for dUCB vs. haplo-BM.||||0.693
82381356|NCT01597778|164472555|SUPERIORITY|||||||0.142||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to aGVHD is competing risk.||The null hypothesis is that there is no difference between the aGVHD grade II - IV probabilities post-transplantation for dUCB vs. haplo-BM.||||0.142
82381357|NCT01597778|164472555|SUPERIORITY|||||||0.604||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to aGVHD is competing risk.||The null hypothesis is that there is no difference between the aGVHD grade III - IV probabilities post-transplantation for dUCB vs. haplo-BM.||||0.604
82570273|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|1.64|||=|0.292|TWO_SIDED|95.0|-1.48|4.76||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||4.76|-1.48|=0.292
82570274|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|0.11|||=|0.944|TWO_SIDED|95.0|-3.14|3.37||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||3.37|-3.14|=0.944
82381358|NCT01597778|164472556|SUPERIORITY|||||||0.361||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death before cGVHD is competing risk.||The null hypothesis is that there is no difference between the cGVHD probabilities post-transplantation for dUCB vs. haplo-BM.||||0.361
82570275|NCT04159805|164850930|SUPERIORITY||Difference in LS Mean|0.85|||=|0.589|TWO_SIDED|95.0|-2.33|4.02||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||4.02|-2.33|=0.589
82381359|NCT01597778|164472557|SUPERIORITY|||||||0.0373||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference between the OS probabilities at year 2 post-randomization for dUCB vs. haplo-BM.||||0.0373
82381360|NCT01597778|164472557|SUPERIORITY|||||||0.0235||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference between the OS probabilities at year 2 post-transplant for dUCB vs. haplo-BM.||||0.0235
82514846|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.971|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.6|0.971
82381361|NCT01597778|164472558|SUPERIORITY|||||||0.039||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality across the two treatment groups.||The null hypothesis is that there is no difference between the TRM probabilities post-randomization for dUCB vs. haplo-BM.||||0.039
82381362|NCT01597778|164472558|SUPERIORITY|||||||0.03||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality across the two treatment groups.||The null hypothesis is that there is no difference between the TRM probabilities post-transplantation for dUCB vs. haplo-BM||||0.030
82514847|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.456|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.7|0.456
82381363|NCT01597778|164472559|SUPERIORITY|||||||0.968||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to relapse is competing risk.||The null hypothesis is that there is no difference between the relapse/progression probabilities post-randomization for dUCB vs. haplo-BM.||||0.968
82381364|NCT01597778|164472559|SUPERIORITY|||||||0.907||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|Estimate cumulative incidence functions from competing risks data and test equality of 2 trt grps. Death prior to relapse is competing risk.||The null hypothesis is that there is no difference between the relapse/progression probabilities post- transplantation for dUCB vs. haplo-BM.||||0.907
82381365|NCT01597778|164472562|SUPERIORITY|||||||0.0003||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference between the total duration of hospitalization within 6 months post-randomization for dUCB vs. haplo-BM.||||0.0003
82381366|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|6.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82381367|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|9.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82514848|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.018|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.1|-1.2|0.018
82514849|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.175|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-0.9|0.175
82514850|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.422|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-0.3|0.422
82514851|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.651|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.4|0.651
82514852|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.096|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.1|-1.0|0.096
82514853|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.86|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.5|0.860
82514854|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.511|TWO_SIDED|95.0|-0.8|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-0.8|0.511
82514855|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.286|TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.9|0.286
82514856|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.004|TWO_SIDED|95.0|-1.4|-0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.3|-1.4|0.004
82514857|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.06|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.1|0.060
82514858|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.345|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.8|0.345
82514859|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.439|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-0.7|0.439
82514860|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.004|TWO_SIDED|95.0|-1.4|0.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-1.4|0.004
82514861|NCT00406029|164722393|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.04|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-1.1|0.040
82514862|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.743|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.1|0.743
82514863|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.225|TWO_SIDED|95.0|-2.2|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.2|0.225
82570276|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-0.93|||=|0.406|TWO_SIDED|95.0|-3.17|1.31||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||1.31|-3.17|=0.406
82514864|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.252|TWO_SIDED|95.0|-2.2|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-2.2|0.252
82514865|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.173|TWO_SIDED|95.0|-2.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-2.3|0.173
82514866|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.757|TWO_SIDED|94.0|-1.3|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|-1.3|0.757
82514867|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.581|TWO_SIDED|95.0|-1.1|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.1|0.581
82514868|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.195|TWO_SIDED|95.0|-2.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.5|0.195
82514869|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.272|TWO_SIDED|95.0|-2.4|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-2.4|0.272
82514870|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.758|TWO_SIDED|95.0|-1.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-1.7|0.758
82442273|NCT01062841|164593073|SUPERIORITY_OR_OTHER||Rate Ratio|0.78|||<|0.05|TWO_SIDED|95.0|0.64|0.96||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.96|0.64|<0.05
82381368|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82514871|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.416|TWO_SIDED|95.0|-2.1|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-2.1|0.416
82514872|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.174|TWO_SIDED|95.0|-2.5|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-2.5|0.174
82514873|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.547|TWO_SIDED|95.0|-1.1|2.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.0|-1.1|0.547
82514874|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.372|TWO_SIDED|95.0|-0.8|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-0.8|0.372
82514875|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.942|TWO_SIDED|95.0|-1.4|1.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.5|-1.4|0.942
82514876|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.082|TWO_SIDED|95.0|-2.8|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-2.8|0.082
82514877|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.267|TWO_SIDED|95.0|-2.3|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-2.3|0.267
82514878|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.801|TWO_SIDED|95.0|-1.5|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-1.5|0.801
82514879|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.753|TWO_SIDED|95.0|-1.9|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.9|0.753
82514880|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.087|TWO_SIDED|95.0|-3.1|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-3.1|0.087
82514881|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.796|TWO_SIDED|95.0|-1.9|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.9|0.796
82514882|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.621|TWO_SIDED|95.0|-1.3|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-1.3|0.621
82514883|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.784|TWO_SIDED|95.0|-1.8|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-1.8|0.784
82514884|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9||||0.024|TWO_SIDED|95.0|-3.5|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-3.5|0.024
82514885|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.963|TWO_SIDED|95.0|-1.6|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.6|0.963
82514886|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.331|TWO_SIDED|95.0|-0.8|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-0.8|0.331
82514887|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.898|TWO_SIDED|95.0|-1.4|1.6|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-1.4|0.898
82514888|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.058|TWO_SIDED|95.0|-3.0|0.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.0|-3.0|0.058
82381369|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82381370|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.5 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82381371|NCT04910100|164472566|NON_INFERIORITY|To demonstrate noninferiority, the upper limits of the 2-sided 95% confidence interval for the difference between each comparison must be lower than 1.5 mmHg at all timepoints and lower than 1.0 mmHg for the majority of the timepoints (i.e. at least 5 of 9). This was a Phase 2 study and so the sample size was not based on a formal sample size calculation. The study was planned to provide sufficient data to power a Phase 3 study.|Timepoints with Mean IOP < 1.0 mm Hg|0.0|||||TWO_SIDED|||||||||The primary efficacy analysis was the between group comparison of the mean IOP values in the study eye at each time point at each visit (a total of 9 between-group comparisons). A hierarchical analysis was conducted to compare each of the investigational products against the comparator, timolol 0.5% as follows: (1) Timolol Suspensions 0.5% (2) Nebivolol Suspension 1% (3) Nebivolol Suspension 0.5%.||||
82381372|NCT02329015|164472569|SUPERIORITY_OR_OTHER||Slope|0.58||||0.54|TWO_SIDED|95.0|-1.25|2.41|||Regression, Logistic|||Model 1: An intent to treat analyses was performed determining effect of group assignment on academic performance while controlling for previous year GPA.||2.41|-1.25|0.54
82381373|NCT02329015|164472569|SUPERIORITY_OR_OTHER||Slope|1.67||||0.08|TWO_SIDED|95.0|-0.21|3.55|||Regression, Linear|||Model 2: As active participation between groups was significantly different a second intent to treat analysis was performed which added to Model 1 (controlling for previous year GPA) by controlling for active participation.||3.55|-0.21|0.08
82381374|NCT02329015|164472569|SUPERIORITY_OR_OTHER||Slope|2.7||||0.009|TWO_SIDED|95.0|0.69|4.71|||Regression, Linear|||Model 3: Per Protocol Analysis: it was hypothesized that any benefit of yoga education would only accrue if the student was assigned to yoga classes and actively participated in the class. A third Model was fit with an interaction term for class assignment and class participation.||4.71|0.69|0.009
82381375|NCT02329015|164472570|SUPERIORITY_OR_OTHER|||||||0.301|||||||Regression, Linear|||Analysis of the Voluntary subscale of the Response to Stress Questionnaire||||0.301
82381376|NCT03918629|164472577|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for geometric mean ratio (GMR) was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.9|||||Adjusted geometric mean ratio (GMR) was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin A||0.90|0.74|
82381377|NCT03918629|164472577|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.57|||||TWO_SIDED|95.0|0.49|0.66|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean difference in logarithmic scale.|Toxin B||0.66|0.49|
82514889|NCT00406029|164722394|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.832|TWO_SIDED|95.0|-1.3|1.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-1.3|0.832
82514890|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.365|TWO_SIDED|95.0|-2.0|5.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.3|-2.0|0.365
82514891|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.476|TWO_SIDED|95.0|-2.4|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-2.4|0.476
82381378|NCT03918629|164472578|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-1.8|||||TWO_SIDED|95.0|-6.4|2.9|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin A||2.9|-6.4|
82381379|NCT03918629|164472578|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-16.8|||||TWO_SIDED|95.0|-21.3|-12.2|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin B||-12.2|-21.3|
82635276|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-7.5|4.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||4.8|-7.5|
82381380|NCT03918629|164472587|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.87|||||TWO_SIDED|95.0|0.8|0.95|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin A||0.95|0.80|
82381381|NCT03918629|164472587|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for GMR was \>0.67 for both Toxin A and Toxin B.|Adjusted Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||Adjusted GMR was estimated by the ratio of the adjusted GMCs (adjusted for baseline concentrations). CIs based on the student t distribution for the mean or the mean difference in logarithmic scale.|Toxin B||0.81|0.62|
82381382|NCT03918629|164472588|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.7|1.7|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin A||1.7|-3.7|
82381383|NCT03918629|164472588|NON_INFERIORITY|The noninferiority objective was achieved if the lower limit of the 95% CI for the difference was \>-10% for both Toxin A and Toxin B.|Percentage difference|-10.3|||||TWO_SIDED|95.0|-15.1|-5.5|||||The difference (2-Dose - 3-Dose) and the associated 95% CIs for the difference were calculated using the Miettinen and Nurminen method.|Toxin B||-5.5|-15.1|
82514892|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.8||||0.343|TWO_SIDED|95.0|-2.0|5.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.6|-2.0|0.343
82635277|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-6.5|5.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, pre-dose AM||5.8|-6.5|
82635278|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-9.9|5.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||5.3|-9.9|
82381384|NCT01891864|164472594|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin for the comparison of GP2015 with Enbrel with respect to PASI 75 response at Week 12 was based on response rates reported in two pivotal placebo controlled trials (Leonardi et al 2003; Papp et al 2005). Based on the observed effect size of 45-46%, an equivalence margin of 18% was chosen so that at least 60% of the treatment effect seen for Enbrel was maintained. A response rate of 49% was assumed for the comparator treatment Enbrel.|Risk Difference (RD)|-2.3|||||TWO_SIDED|95.0|-9.85|5.3||||||PASI 75 response rate (proportion of patients showing at least a 75% improvement in PASI) after the first 12 weeks of treatment (Treatment Period 1) was the primary endpoint to assess equivalence between GP2015 and Enbrel®. Therapeutic equivalence in terms of PASI75 could be concluded if the exact 95% confidence interval for the difference in the PASI75 rates is completely contained within the interval \[-18%; 18%\]. A logistic regression model was to be employed.||5.3|-9.85|
82381385|NCT01891864|164472595|NON_INFERIORITY_OR_EQUIVALENCE|A MMRM (Mixed Model Repeated Method) was performed on the percentage change from baseline in PASI score from baseline to Week 12. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2015 and Enbrel was contained within the interval \[-15%; 15%\].|Mean Difference (Final Values)|-0.64|||||TWO_SIDED|95.0|-3.474|2.204||||||||2.204|-3.474|
82381386|NCT01891864|164472595|NON_INFERIORITY_OR_EQUIVALENCE|The mean averaged treatment effect (ATE) of percent change from baseline in PASI score up to week 12 was derived for each patient and analyzed using an ANCOVA approach. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2015 and Enbrel was contained within the interval \[-15%; 15%\].|Mean Difference (Final Values)|-0.88|||||TWO_SIDED|95.0|-3.61|1.845||||||||1.845|-3.61|
82570277|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|0.9|||=|0.418|TWO_SIDED|95.0|-1.34|3.14||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.14|-1.34|=0.418
82570278|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-0.94|||=|0.463|TWO_SIDED|95.0|-3.53|1.65||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||1.65|-3.53|=0.463
82635279|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.2|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.4|9.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 3, post-dose PM 4 hour||9.8|-5.4|
82381387|NCT00273182|164472644|SUPERIORITY_OR_OTHER||Overall survival rate at 36 month|71.0|||||TWO_SIDED|95.0|68.6|73.2||No p values for the analysis.|Kaplan-Meier (product limit) estimates|Survival curves of cause-specific mortality were created based on Kaplan-Meier (product limit) estimates.|The estimate is the overall survival rate at 36 month. left-truncation methods were used in the survival analysis for previously implanted subjects.|For overall mortality, the endpoint is the proportion of subjects alive during three years post-implant. Survival curves of overall mortality and cause-specific mortality were created based on Kaplan-Meier (product limit) estimates. Confidence intervals will be calculated on a log-log scale.||73.2|68.6|
82570279|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-0.1|||=|0.936|TWO_SIDED|95.0|-2.7|2.49||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||2.49|-2.70|=0.936
82570280|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-1.8|||=|0.17|TWO_SIDED|95.0|-4.41|0.82||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||0.82|-4.41|=0.170
82570281|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|0.52|||=|0.687|TWO_SIDED|95.0|-2.1|3.13||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||3.13|-2.10|=0.687
82514893|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.103|TWO_SIDED|95.0|-6.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-6.8|0.103
82514894|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3||||0.224|TWO_SIDED|94.0|-6.0|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-6.0|0.224
82514895|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.4||||0.448|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-5.1|0.448
82381388|NCT00273182|164472644|SUPERIORITY_OR_OTHER||Cause specific survival rate at 36 month|85.3|||||TWO_SIDED|95.0|83.3|87.1||No p value for this analysis.|Kaplan-Meier (product limit) estimates|Cause specific survival rate at 36 month.|left-truncation methods were used in the survival analysis for previously implanted subjects.|For cause-specific mortality, the endpoint is the proportion of patients who are alive or do not die due to the progressive heart failure or sudden cardiac death causes during 3 years post-implant. Survival curves of cause-specific mortality were created based on Kaplan-Meier (product limit) estimates. Confidence intervals were calculated on a log-log scale.||87.1|83.3|
82381389|NCT00273182|164472648|SUPERIORITY_OR_OTHER||event free rate|89.8|||||TWO_SIDED|95.0|88.3|91.2||No p value for this analysis.|Kaplan-Meier (product limit) estimate|||Kaplan-Meier (product limit) estimate of the curve representing the time to first post-implant LV lead related complication were calculated to the first time point where fewer than 50 patients are still at risk. Confidence intervals will be calculated on a log-log scale.||91.2|88.3|
82514896|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7||||0.154|TWO_SIDED|95.0|-6.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-6.4|0.154
82381390|NCT02490631|164472649|SUPERIORITY|||||||0.456|||||||Chi-squared|||||||0.456
82381391|NCT02490631|164472650|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||.019
82381392|NCT00856492|164472651|SUPERIORITY_OR_OTHER|||||||0.019|||||||Chi-squared|||||||0.019
82381393|NCT00856492|164472652|SUPERIORITY_OR_OTHER|||||||0.64|||||||Log Rank|||||||0.64
82381394|NCT00856492|164472653|SUPERIORITY_OR_OTHER|||||||0.71|||||||Log Rank|||||||0.71
82381395|NCT03832686|164472656|OTHER|||||||0.86||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.86
82514897|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.8||||0.01|TWO_SIDED|95.0|-8.5|-1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-1.1|-8.5|0.010
82514898|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.2||||0.54|TWO_SIDED|95.0|-2.6|5.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.0|-2.6|0.540
82514899|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.646|TWO_SIDED|95.0|-4.7|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-4.7|0.646
82381396|NCT03832686|164472657|OTHER|||||||0.69||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.69
82381397|NCT03832686|164472658|OTHER|||||||0.47||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of Eating in Public Score||||0.47
82381398|NCT03832686|164472658|OTHER|||||||0.73||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of Normalcy of Diet score||||0.73
82381399|NCT03832686|164472659|OTHER|||||||0.65||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of MBSImP Oral score||||0.65
82381400|NCT03832686|164472659|OTHER|||||||0.24||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||Comparison of MBSImP Pharyngeal score||||0.24
82381401|NCT03832686|164472660|OTHER|||||||0.53||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.53
82381402|NCT03832686|164472661|OTHER|||||||0.5||||||A p-value of \<0.05 would be considered statistically significant.|Logistic Regression|||||||0.50
82381403|NCT04199104|164472663|SUPERIORITY||point estimate|19.3||||1.9e-06|TWO_SIDED|95.0|11.2|27.3|||Miettinen and Nurminen method|||||27.3|11.2|0.0000019
82381404|NCT04199104|164472664|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0001129|TWO_SIDED|95.0|0.55|0.83|||Regression, Cox|||||0.83|0.55|0.0001129
82381405|NCT04199104|164472665|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.8819584|TWO_SIDED|95.0|0.91|1.45|||Regression, Cox|||||1.45|0.91|0.8819584
82381406|NCT04796961|164472696|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|0.1|0.7||||||||0.7|0.1|
82381407|NCT04796961|164472697|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-0.1|1.1||||||smoking screening||1.1|-0.1|
82381408|NCT04796961|164472697|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.1|1.2||||||readiness to quit assessments||1.2|-0.1|
82381409|NCT04796961|164472697|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|0.8|2.0||||||smoking cessation counseling||2.0|0.8|
82381410|NCT04796961|164472697|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.5|1.7||||||smoking cessation pharmacotherapy||1.7|-0.5|
82381411|NCT04581824|164472740|OTHER||Difference in Response Rate|9.32|||||TWO_SIDED|80.0|1.46|17.18|||||Mantel and Haenszel method with Sato's variance estimator was used for between arms comparison and was stratified by PD-L1 status and smoking status based on the strata data collected in interactive response technology (IRT) at randomization|||17.18|1.46|
82381412|NCT04796909|164472741|SUPERIORITY|||||||0.05|||||||Repeated-measures ANCOVA|||||||0.05
82381413|NCT04796909|164472742|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381414|NCT04796909|164472743|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381415|NCT04796909|164472744|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381416|NCT04796909|164472745|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381417|NCT04796909|164472746|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381418|NCT04796909|164472747|SUPERIORITY|||||||0.05|||||||Repeated-Measures ANCOVA|||||||0.05
82381419|NCT04796909|164472748|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82381420|NCT04796909|164472749|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82381421|NCT04796909|164472750|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82381422|NCT04162847|164472786|SUPERIORITY||Odds Ratio (OR)|0.98||||0.76|TWO_SIDED|95.0|0.88|1.1|||Regression, Logistic|||Baseline||1.10|.88|.76
82381423|NCT04162847|164472786|SUPERIORITY||Odds Ratio (OR)|0.84||||0.001|TWO_SIDED|95.0|0.76|0.93|||Regression, Logistic|||6 week follow-up||.93|.76|.001
82514900|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.608|TWO_SIDED|95.0|-4.9|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-4.9|0.608
82514901|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9||||0.343|TWO_SIDED|95.0|-6.0|2.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.1|-6.0|0.343
82635280|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|0.2|13.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||13.7|0.2|
82635281|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-1.7|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 4, pre-dose AM||11.8|-1.7|
82381424|NCT04162847|164472786|SUPERIORITY||Odds Ratio (OR)|0.82||||0|TWO_SIDED|95.0|0.74|0.9|||Regression, Logistic|||6 month follow-up||.90|.74|.000
82381425|NCT04162847|164472786|SUPERIORITY||Odds Ratio (OR)|0.86||||0.002|TWO_SIDED|95.0|0.77|0.95|||Regression, Logistic|||2 year||.95|.77|.002
82381426|NCT04162847|164472787|SUPERIORITY||Odds Ratio (OR)|6.7||||0|TWO_SIDED|95.0|5.98|7.5|||Chi-squared|||A comparison of service uptake between the intervention and control groups over the 6-month follow-up period.||7.50|5.98|.000
82381427|NCT04162847|164472787|SUPERIORITY||Odds Ratio (OR)|1.83||||0|TWO_SIDED|95.0|1.64|2.04|||Chi-squared|||A secondary analysis using the same criterion for the intervention group (access to the digital intervention during the 6-month follow-up) but expanding the control group definition to include individuals who reported having psychotherapy or starting a new medication at any point during the full 2-year follow-up period.||2.04|1.64|.000
82381428|NCT04162847|164472788|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 6 week||||.000
82381429|NCT04162847|164472788|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 6 months||||.000
82381430|NCT04162847|164472788|SUPERIORITY|||||||0.02|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PHQ-9 2 year||||.02
82381431|NCT04162847|164472788|SUPERIORITY|||||||0.002|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 6 week||||.002
82381432|NCT04162847|164472788|SUPERIORITY|||||||0.8|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 6 month||||.80
82381433|NCT04162847|164472788|SUPERIORITY|||||||0.51|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||GADQ-IV 2 year||||.51
82514902|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.7||||0.419|TWO_SIDED|95.0|-2.5|5.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.9|-2.5|0.419
82635282|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-3.1|9.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||9.0|-3.1|
82635283|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-3.4|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 5, pre-dose AM||8.7|-3.4|
82635284|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.4|10.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||10.0|-5.4|
82570282|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-1.24|||=|0.374|TWO_SIDED|95.0|-4.05|1.57||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||1.57|-4.05|=0.374
82570283|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|0.99|||=|0.478|TWO_SIDED|95.0|-1.82|3.8||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.80|-1.82|=0.478
82570284|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-0.51|||=|0.69|TWO_SIDED|95.0|-3.12|2.09||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||2.09|-3.12|=0.690
82570285|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|2.12|||=|0.106|TWO_SIDED|95.0|-0.48|4.71||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.71|-0.48|=0.106
82570286|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-0.89|||=|0.547|TWO_SIDED|95.0|-3.89|2.12||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||2.12|-3.89|=0.547
82570287|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|2.19|||=|0.144|TWO_SIDED|95.0|-0.81|5.18||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||5.18|-0.81|=0.144
82570288|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|-1.37|||=|0.431|TWO_SIDED|95.0|-4.91|2.17||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||2.17|-4.91|=0.431
82381434|NCT04162847|164472788|SUPERIORITY|||||||0.004|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 6 week||||.004
82381435|NCT04162847|164472788|SUPERIORITY|||||||0.02|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 6 month||||.02
82570289|NCT04159805|164850931|SUPERIORITY||Difference in LS Mean|1.2|||=|0.488|TWO_SIDED|95.0|-2.34|4.74|||MMRM|||Change From Baseline at Week 16||4.74|-2.34|=0.488
82570290|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|-0.34|||=|0.855|TWO_SIDED|95.0|-4.14|3.45||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.45|-4.14|=0.855
82570291|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|3.19|||=|0.093|TWO_SIDED|95.0|-0.56|6.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||6.95|-0.56|=0.093
82570292|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|1.8|||=|0.41|TWO_SIDED|95.0|-2.61|6.2||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||6.20|-2.61|=0.410
82570293|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|3.13|||=|0.154|TWO_SIDED|95.0|-1.25|7.5||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||7.50|-1.25|=0.154
82514903|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|1.1||||0.562|TWO_SIDED|95.0|-2.8|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-2.8|0.562
82635285|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.4|7.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 6, pre-dose AM||7.0|-8.4|
82381436|NCT04162847|164472788|SUPERIORITY|||||||0.09|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||SPDQ 2 year||||.09
82381437|NCT04162847|164472788|SUPERIORITY|||||||0.66|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 6 week||||.66
82514904|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.525|TWO_SIDED|95.0|-5.3|2.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.7|-5.3|0.525
82635286|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.6|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||11.8|-1.6|
82635287|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.7|11.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, pre-dose AM||11.7|-1.7|
82570294|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|-0.94|||=|0.662|TWO_SIDED|95.0|-5.29|3.41||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||3.41|-5.29|=0.662
82570295|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|3.26|||=|0.13|TWO_SIDED|95.0|-1.02|7.54||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||7.54|-1.02|=0.130
82570296|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|1.27|||=|0.586|TWO_SIDED|95.0|-3.44|5.98||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||5.98|-3.44|=0.586
82570297|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|4.93|||=|0.039|TWO_SIDED|95.0|0.26|9.6||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||9.60|0.26|=0.039
82570298|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|-0.22|||=|0.909|TWO_SIDED|95.0|-4.03|3.6||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||3.60|-4.03|=0.909
82570299|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|2.65|||=|0.158|TWO_SIDED|95.0|-1.09|6.4||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||6.40|-1.09|=0.158
82570300|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|-0.88|||=|0.764|TWO_SIDED|95.0|-6.8|5.05||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||5.05|-6.80|=0.764
82570301|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|5.2|||=|0.08|TWO_SIDED|95.0|-0.67|11.06||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||11.06|-0.67|=0.080
82381438|NCT04162847|164472788|SUPERIORITY|||||||0.85|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 6 month||||.85
82570302|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|-1.01|||=|0.677|TWO_SIDED|95.0|-5.98|3.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||3.95|-5.98|=0.677
82570303|NCT04159805|164850932|SUPERIORITY||Difference in LS Mean|4.81|||=|0.055|TWO_SIDED|95.0|-0.1|9.73||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||9.73|-0.10|=0.055
82570304|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|0.52|||=|0.78|TWO_SIDED|95.0|-3.23|4.27||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||4.27|-3.23|=0.780
82570305|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|0.5|||=|0.771|TWO_SIDED|95.0|-2.99|3.99||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||3.99|-2.99|=0.771
82570306|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-0.04|||=|0.984|TWO_SIDED|95.0|-4.22|4.14||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||4.14|-4.22|=0.984
82570307|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|2.44|||=|0.213|TWO_SIDED|95.0|-1.47|6.35||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||6.35|-1.47|=0.213
82381439|NCT04162847|164472788|SUPERIORITY|||||||0.97|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||PDSR 2 year||||.97
82381440|NCT04162847|164472788|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 6 week||||.000
82381441|NCT04162847|164472788|SUPERIORITY|||||||0|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 6 month||||.000
82381442|NCT04162847|164472788|SUPERIORITY|||||||0.54|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||EDE-Q Global 2 year||||.54
82381443|NCT04162847|164472789|SUPERIORITY|||||||0.48|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Mental component summary 6 months||||.48
82635288|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|9.3|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-1.6|20.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||20.2|-1.6|
82381444|NCT04162847|164472789|SUPERIORITY|||||||0.04|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Mental component summary 2 years||||.04
82381445|NCT04162847|164472789|SUPERIORITY|||||||0.97|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Physical component summary 6 months||||.97
82381446|NCT04162847|164472789|SUPERIORITY|||||||0.8|||||||multilevel modeling methods|Multilevel modeling was used to examine differences in changes in each outcome measure between the two conditions.||Physical component summary 2 years||||.80
82381447|NCT02502149|164472826|OTHER||Adjusted Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.24|||||The adjusted geometric mean ratio is calculated as 15K (PK2)/2K (PK1).|||1.24|0.93|
82381448|NCT02502149|164472827|OTHER||Adjusted Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.87|1.16|||||The adjusted geometric mean ratio is calculated as 15K (PK2)/2K (PK1).|||1.16|0.87|
82381449|NCT01641640|164472915|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial exact test|||Superiority would be demonstrated if the SVR12 rate was higher than the 60% null SVR rate based on historical control data.||||< 0.001
82381450|NCT02550561|164472933|SUPERIORITY|||||||0.317||||||Subjects that reported either moderately or markedly improved on the GRA scale at 6 weeks compared to 12 weeks.|McNemar|||||||0.317
82381451|NCT02550561|164472934|OTHER|||||||0.47|||||||paired t-tests|||The mean change in Visual Analog Scale (VAS) score for bladder pain||||0.47
82381452|NCT02550561|164472934|OTHER|||||||0.17|||||||paired t-test|||The mean change in Pelvis Pain and Urgency/Frequency Patient Symptom (PUF) score||||0.17
82381453|NCT02550561|164472934|OTHER|||||||0.08|||||||paired t-test|||The mean change for O'Leary-Sant Interstitial Cystitis Symptom Index (ICSI)||||.08
82381454|NCT02550561|164472934|OTHER|||||||0.51|||||||paired t-test|||The mean change O'Leary-Sant Interstitial Cystitis Problem Index (ICPI)||||0.51
82381455|NCT02550561|164472934|OTHER|||||||0.22|||||||paired t-test|||The mean change in 24-h urinary frequency||||0.22
82381456|NCT02069015|164472938|SUPERIORITY||Mean Difference|0.05|||<|0.001|TWO_SIDED|95.0|-4.781|6.906|||paired t-test|||||6.906|-4.781|<0.001
82381457|NCT00191477|164472955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.946||||0.777||95.0|0.643|1.392||Only 87 recurrences and 7 deaths were documented at planned end of follow-up. The study was stopped early for futility reasons based on an interim analysis using pre-defined stopping boundaries for the hazard ratio (HR) of RFS.|Log Rank|||Sample-size calculation based on estimated 1-year recurrence-free survival (RFS) rates of 63% (gemcitabine) and 50% (placebo). 191 critical events were required to detect a difference in RFS (80% power, log-rank test, alpha=0.050). Sample size of 328 patients with clinical evidence of superficial bladder cancer needed to observe these 191 events within a 24-month follow-up period, assuming 246 of these patients would receive instillation and have histopathological diagnosis of pTa/pT1(G1-3/Gx).||1.392|0.643|0.777
82381458|NCT01169064|164472983|SUPERIORITY_OR_OTHER|||||||0.365|||||||Chi-squared|||||||.365
82381459|NCT01169064|164472984|SUPERIORITY|||||||0.282|||||||Mixed Models Analysis|||||||.282
82514905|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.0||||0.148|TWO_SIDED|95.0|-7.0|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-7.0|0.148
82635289|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|13.0|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|2.1|23.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 1 hour||23.9|2.1|
82635290|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.1|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|0.2|13.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||13.9|0.2|
82514906|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.3||||0.546|TWO_SIDED|95.0|-5.4|2.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.9|-5.4|0.546
82514907|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.7||||0.068|TWO_SIDED|95.0|-7.6|0.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.3|-7.6|0.068
82514908|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.5||||0.208|TWO_SIDED|95.0|-6.5|1.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-6.5|0.208
82514909|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.4||||0.099|TWO_SIDED|95.0|-7.5|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-7.5|0.099
82514910|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8||||0.731|TWO_SIDED|95.0|-3.6|5.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.1|-3.6|0.731
82514911|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.861|TWO_SIDED|95.0|-4.5|3.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-4.5|0.861
82514912|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.621|TWO_SIDED|95.0|-5.2|3.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.1|-5.2|0.621
82514913|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2||||0.288|TWO_SIDED|95.0|-6.4|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-6.4|0.288
82514914|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.861|TWO_SIDED|95.0|-3.5|4.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||4.1|-3.5|0.861
82514915|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.954|TWO_SIDED|95.0|-4.0|3.7|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-4.0|0.954
82514916|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.6||||0.419|TWO_SIDED|95.0|-5.5|2.3|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.3|-5.5|0.419
82514917|NCT00406029|164722395|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.2||||0.088|TWO_SIDED|95.0|-6.9|0.5|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-6.9|0.088
82514918|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.924|TWO_SIDED|95.0|-3.5|3.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.2|-3.5|0.924
82381460|NCT02301169|164473011|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by weekly means of the daily Average Pain Score (APS), T4P1001 compared with placebo|Mean Difference (Final Values)|0.3748299||||0.4162|TWO_SIDED|95.0|-0.5479411|1.297601||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons|t-test, 2 sided|Welch two sample t-test||||1.2976010|-0.5479411|0.4162
82514919|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.84|TWO_SIDED|95.0|-3.8|3.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.1|-3.8|0.840
82514920|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9||||0.599|TWO_SIDED|95.0|-4.4|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-4.4|0.599
82514921|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.6||||0.134|TWO_SIDED|95.0|-6.0|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-6.0|0.134
82514922|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.846|TWO_SIDED|94.0|-4.1|3.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.3|-4.1|0.846
82514923|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|1.3||||0.467|TWO_SIDED|95.0|-2.3|5.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.0|-2.3|0.467
82381461|NCT02301169|164473012|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by weekly means of the daily Worst Pain Score (WPS), T4P1001 compared with placebo.|Mean Difference (Final Values)|0.1255102||||0.7887|TWO_SIDED|95.0|-0.8152493|1.0662697||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||1.0662697|-0.8152493|0.7887
82635291|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|11.5|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|4.6|18.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, post-dose AM 4 hour||18.3|4.6|
82442274|NCT01062841|164593074|SUPERIORITY_OR_OTHER||Rate Ratio|1.2|||>|0.05|TWO_SIDED|95.0|0.82|1.75||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||1.75|0.82|>0.05
82635292|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.9|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-4.8|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose AM||8.6|-4.8|
82635293|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|4.1|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-2.6|10.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose||10.8|-2.6|
82635294|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|9.7|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-0.1|19.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||19.6|-0.1|
82635295|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|9.6|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-0.3|19.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 1 hour||19.4|-0.3|
82635296|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.8|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|0.0|15.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||15.5|0|
82635297|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|8.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|0.6|16.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, post-dose AM 4 hour||16.1|0.6|
82381462|NCT02301169|164473013|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by Investigator Global Assessment of Change, T4P1001 compared with Placebo|Mean Difference (Final Values)|0.802381||||0.2353|TWO_SIDED|95.0|-0.5457743|2.1505362||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||2.1505362|-0.5457743|0.2353
82635298|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.1|11.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||11.7|-5.1|
82635299|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|3.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.4|11.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 8, pre-dose PM||11.3|-5.4|
82635300|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-6.1|9.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||9.1|-6.1|
82635301|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-5.3|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 9, pre-dose AM||9.9|-5.3|
82635302|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-4.0|12.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose||12.6|-4.0|
82635303|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-3.2|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 10, pre-dose AM||13.4|-3.2|
82635304|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-11.0|8.0|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||8.0|-11.0|
82635305|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-10.3|8.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 11, pre-dose AM||8.6|-10.3|
82635306|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|2.9|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-7.7|13.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||13.4|-7.7|
82635307|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|5.1|||TWO_SIDED|95.0|-9.4|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 12, pre-dose AM||11.8|-9.4|
82635308|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.4|10.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||10.3|-8.4|
82635309|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.3|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose AM||9.4|-9.3|
82514924|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.533|TWO_SIDED|95.0|-4.8|2.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.5|-4.8|0.533
82514925|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.094|TWO_SIDED|95.0|-6.7|0.5|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.5|-6.7|0.094
82514926|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.994|TWO_SIDED|95.0|-3.7|3.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-3.7|0.994
82514927|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.944|TWO_SIDED|95.0|-3.5|3.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-3.5|0.944
82514928|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.424|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.2|-5.1|0.424
82514929|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.0||||0.042|TWO_SIDED|95.0|-7.8|-0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||-0.2|-7.8|0.042
82514930|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|3.7||||0.075|TWO_SIDED|95.0|-0.4|7.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||7.8|-0.4|0.075
82514931|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|3.9||||0.052|TWO_SIDED|95.0|0.0|7.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||7.8|0.0|0.052
82514932|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.975|TWO_SIDED|95.0|-4.0|3.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.9|-4.0|0.975
82514933|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.2||||0.541|TWO_SIDED|95.0|-5.2|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-5.2|0.541
82635310|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-1.3|15.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||15.3|-1.3|
82635311|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|9.9|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|1.6|18.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 1 hour||18.2|1.6|
82635312|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|5.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-1.0|12.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||12.3|-1.0|
82635313|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|7.2|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|0.5|13.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, post-dose AM 4 hour||13.9|0.5|
82635314|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-8.4|7.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||7.4|-8.4|
82381463|NCT02301169|164473014|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain intensity measured after heat pain stimuli, T4P1001 compared with placebo.|Mean Difference (Final Values)|0.7656429||||0.06204|TWO_SIDED|95.0|-0.0406744|1.5719601||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||1.5719601|-0.0406744|0.06204
82381464|NCT02301169|164473015|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: no difference in mean change from baseline to day 42 of pain severity as measured by the Brief Pain Inventory (BPI), T4P1001 compared with placebo.|Mean Difference (Final Values)|1.683333||||0.3386|TWO_SIDED|95.0|-1.83119|5.197857||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment group comparisons.|t-test, 2 sided|Welch two sample t-test||||5.197857|-1.831190|0.3386
82381465|NCT01805089|164473027|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82381466|NCT03762265|164473030|SUPERIORITY||Difference in percentage|5.73|STANDARD_ERROR_OF_MEAN|7.535||0.4469|TWO_SIDED|95.0|-9.037|20.5|||Cochran-Mantel-Haenszel|||P-value and 95% confidence interval (CI) were based on Cochran-Mantel-Haenszel general association test stratified by disease type (PV or PF) and disease history (newly diagnosed \[\<=6 months prior to screening\] or relapsing \[diagnosed greater than \[\>\] 6 months prior to screening\]).||20.500|-9.037|0.4469
82381467|NCT03762265|164473031|SUPERIORITY||Difference in percentage|8.13|STANDARD_ERROR_OF_MEAN|7.085||0.251|TWO_SIDED|95.0|-5.752|22.019|||Cochran-Mantel-Haenszel|||P-value and 95% CI were based on Cochran-Mantel-Haenszel general association test stratified by disease type (PV or PF) and disease history (newly diagnosed \[\<=6 months prior to screening\] or relapsing \[diagnosed \>6 months prior to screening\]).||22.019|-5.752|0.2510
82381468|NCT02845700|164473095|SUPERIORITY|||||||0.08|||||||ANOVA|2 (time) x 2 (group) x 5 (dilution %) repeated measures ANOVA||||||.08
82635315|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|1.9|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-6.0|9.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 13, pre-dose PM||9.9|-6.0|
82635316|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|3.9|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.0|11.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||11.8|-4.0|
82635317|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.6|11.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, pre-dose AM||11.2|-4.6|
82635318|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.0|7.3|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||7.3|-8.0|
82635319|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-7.2|8.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 15, Discharge||8.1|-7.2|
82635320|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-11.5|10.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||10.2|-11.5|
82635321|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|6.7|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|95.0|-4.1|17.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 21, Follow-up||17.5|-4.1|
82635322|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-9.1|9.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||9.6|-9.1|
82635323|NCT03091920|164985969|OTHER|No statistical testing was performed.|Least squares mean difference|0.8|STANDARD_ERROR_OF_MEAN|4.5|||TWO_SIDED|95.0|-8.5|10.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 42, End of trial||10.2|-8.5|
82635324|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-3.32|STANDARD_ERROR_OF_MEAN|3.07|||TWO_SIDED|95.0|-9.68|3.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||3.04|-9.68|
82514934|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.931|TWO_SIDED|95.0|-4.1|3.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.7|-4.1|0.931
82514935|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.618|TWO_SIDED|95.0|-4.7|2.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||2.8|-4.7|0.618
82635325|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-2.55|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|95.0|-8.76|3.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||3.66|-8.76|
82381469|NCT02845700|164473096|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|t(4) = -1.19, p = .39||Post-hoc estimates of observed power for the difference between group means was calculated to be .15.||||.39
82514936|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.8||||0.341|TWO_SIDED|95.0|-5.6|1.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.9|-5.6|0.341
82514937|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2||||0.256|TWO_SIDED|95.0|-6.0|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-6.0|0.256
82381470|NCT02845700|164473099|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|t(4) = 0.66, p = .54||Post-hoc estimates of observed power for the difference between group means was calculated to be .08.||||.54
82514938|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|1.8||||0.399|TWO_SIDED|95.0|-2.4|6.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||6.0|-2.4|0.399
82514939|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|1.4||||0.477|TWO_SIDED|95.0|-2.5|5.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||5.4|-2.5|0.477
82514940|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.8||||0.172|TWO_SIDED|95.0|-6.8|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-6.8|0.172
82514941|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3||||0.254|TWO_SIDED|95.0|-6.2|1.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.7|-6.2|0.254
82514942|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.972|TWO_SIDED|95.0|-3.6|3.8|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||3.8|-3.6|0.972
82514943|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.891|TWO_SIDED|95.0|-3.5|4.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||4.0|-3.5|0.891
82514944|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.8||||0.143|TWO_SIDED|95.0|-6.6|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-6.6|0.143
82514945|NCT00406029|164722396|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.2||||0.083|TWO_SIDED|95.0|-6.8|0.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-6.8|0.083
82514946|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.154|TWO_SIDED|95.0|-0.2|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.2|0.154
82514947|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.38|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.4|0.380
82514948|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.288|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.3|0.288
82514949|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.355|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 2 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.4|0.355
82514950|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.831|TWO_SIDED|94.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.831
82514951|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.198|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.2|-1.2|0.198
82635326|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-2.93|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-8.62|2.75|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||2.75|-8.62|
82514952|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.792|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.8|0.792
82514953|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.749|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 4 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-0.8|0.749
82381471|NCT00699998|164473106|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.915||||0.21|TWO_SIDED|95.0|0.793|1.055||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.055|0.793|0.210
82381472|NCT00699998|164473106|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.029||||0.731|TWO_SIDED|95.0|0.865|1.225||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.225|0.865|0.731
82381473|NCT00699998|164473107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.388|TWO_SIDED|95.0|0.812|1.088|||Log Rank|Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.088|0.812|0.388
82381474|NCT00699998|164473107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.998||||0.99|TWO_SIDED|95.0|0.833|1.195||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.195|0.833|0.990
82381475|NCT00699998|164473108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.353|TWO_SIDED|95.0|0.826|1.073||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.073|0.826|0.353
82381476|NCT00699998|164473108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.029||||0.719|TWO_SIDED|95.0|0.869|1.218||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.218|0.869|0.719
82381477|NCT00699998|164473109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.27|TWO_SIDED|95.0|0.81|1.063||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.063|0.810|0.270
82381478|NCT00699998|164473109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017||||0.831|TWO_SIDED|95.0|0.862|1.2||Two-sided p-value based on a log-rank test stratified by clopidogrel status at randomization.|Log Rank||HR and two-sided 95% CI derived using Cox proportional hazards model with treatment and clopidogrel status at randomization as fixed effects.|||1.200|0.862|0.831
82381479|NCT00699998|164473110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-100.208|||<|0.001|TWO_SIDED|95.0|-107.872|-92.545||p-value is for Day 30 comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) for Day 30 comparison|||-92.545|-107.872|<0.001
82381480|NCT00699998|164473110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-104.475|||<|0.001|TWO_SIDED|95.0|-115.383|-93.566||p-value is for 12 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) for 12 month comparison.|||-93.566|-115.383|<0.001
82381481|NCT00699998|164473110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.413|||<|0.001|TWO_SIDED|95.0|-63.718|-33.108||p-value is for 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) is for the 30 day comparison.|||-33.108|-63.718|<0.001
82514954|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.896|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-0.8|0.896
82381482|NCT00699998|164473110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.264|||<|0.001|TWO_SIDED|95.0|-69.061|-23.468||p-value is for the 12 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Estimated Mean Difference (Final Values) is for the 12 month comparison.|||-23.468|-69.061|<0.001
82381483|NCT00699998|164473111|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|0.982||||0.631|TWO_SIDED|95.0|0.91|1.059||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.059|0.910|0.631
82381484|NCT00699998|164473111|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.01||||0.844|TWO_SIDED|95.0|0.916|1.113||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.113|0.916|0.844
82381485|NCT00699998|164473111|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.138||||0.098|TWO_SIDED|95.0|0.977|1.325||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.325|0.977|0.098
82381486|NCT00699998|164473111|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.066||||0.545|TWO_SIDED|95.0|0.867|1.31||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.310|0.867|0.545
82381487|NCT00699998|164473112|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.018||||0.727|TWO_SIDED|95.0|0.919|1.129||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.129|0.919|0.727
82570308|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-1.97|||=|0.371|TWO_SIDED|95.0|-6.4|2.45||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||2.45|-6.40|=0.371
82570309|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|0.11|||=|0.956|TWO_SIDED|95.0|-4.01|4.23||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||4.23|-4.01|=0.956
82635327|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-3.23|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-10.37|3.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||3.92|-10.37|
82381488|NCT00699998|164473112|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.057||||0.346|TWO_SIDED|95.0|0.942|1.187||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.187|0.942|0.346
82381489|NCT00699998|164473112|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.096||||0.458|TWO_SIDED|95.0|0.859|1.399||p-value is for the 30 day comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 30 day comparison.|||1.399|0.859|0.458
82381490|NCT00699998|164473112|SUPERIORITY_OR_OTHER||Geometric Ratio Estimate|1.033||||0.802|TWO_SIDED|95.0|0.803|1.329||p-value is for the 6 month comparison. ANCOVA Model: Measurement = treatment + baseline value + clopidogrel status at randomization.|ANCOVA||Geometric Ratio Estimate is for the 6 month comparison.|||1.329|0.803|0.802
82381491|NCT00699998|164473114|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||p-value is for the comparison of physical limitations at baseline. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.5
82381492|NCT00699998|164473114|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||p-value is for the comparison of angina frequency at baseline. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.72
82570310|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-1.06|||=|0.641|TWO_SIDED|95.0|-5.65|3.53||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.53|-5.65|=0.641
82570311|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-0.33|||=|0.876|TWO_SIDED|95.0|-4.61|3.95||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||3.95|-4.61|=0.876
82635328|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|0.52|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-6.46|7.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||7.49|-6.46|
82381493|NCT00699998|164473114|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||p-value is for the comparison of physical limitations at 24 months. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.63
82381494|NCT00699998|164473114|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||p-value is for the comparison of angina frequency at at 24 months. p-values are from a regression model with treatment group and the respective baseline quality-of-life measure as predictors.|ANCOVA|||||||0.53
82381495|NCT04616612|164473125|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
82381496|NCT04616612|164473126|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||.04
82381497|NCT04616612|164473127|OTHER||||||||||||||||||"Qualitative data evaluated from interviews tailored after the acceptability scale questionnaire. These interview questions specifically asked participant to rate from strongly disagree to strongly agree on each question and then rationalize answers.~Mobile support: 77% of participants agreed that mobile messages supported their health behaviors.~Time required: 85% disagreed that the intervention took too much time to learn.~Program effectiveness: 92% enjoyed this learning approach, with 100% agreeing they could use the information to improve health behaviors.~Rationalization feedback found participants in rural areas reported difficulties accessing texts."|||
82381498|NCT04616612|164473128|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82381499|NCT04616612|164473129|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82381500|NCT04616612|164473130|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
82514955|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.5|0.480
82514956|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.4||||0.285|TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.4|0.285
82514957|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.212|TWO_SIDED|95.0|-0.3|1.3|||ANCOVA|||LS means treatment difference in change from baseline to Week 6 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.3|-0.3|0.212
82381501|NCT04616612|164473131|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
82381502|NCT04616612|164473132|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||.84
82635329|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|95.0|-7.74|5.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||5.03|-7.74|
82635330|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-2.71|STANDARD_ERROR_OF_MEAN|4.21|||TWO_SIDED|95.0|-11.46|6.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.04|-11.46|
82635331|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-1.87|STANDARD_ERROR_OF_MEAN|3.95|||TWO_SIDED|95.0|-10.09|6.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.35|-10.09|
82635332|NCT03091920|164985974|OTHER|No statistical testing was performed.|Least squares mean difference|-2.29|STANDARD_ERROR_OF_MEAN|3.67|||TWO_SIDED|95.0|-9.93|5.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||5.35|-9.93|
82635333|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|-7.06|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-14.52|0.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||0.40|-14.52|
82635334|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|-4.19|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-11.52|3.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.14|-11.52|
82381503|NCT04616612|164473133|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||0.84
82570312|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-1.86|||=|0.458|TWO_SIDED|95.0|-6.91|3.18||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||3.18|-6.91|=0.458
82635335|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|-3.82|STANDARD_ERROR_OF_MEAN|3.69|||TWO_SIDED|95.0|-11.47|3.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.83|-11.47|
82635336|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|1.42|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-6.1|8.94|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.94|-6.10|
82635337|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|-6.44|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-16.36|3.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||3.47|-16.36|
82635338|NCT03091920|164985975|OTHER|No statistical testing was performed.|Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|4.52|||TWO_SIDED|95.0|-10.44|8.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||8.38|-10.44|
82635339|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|3.26|||TWO_SIDED|95.0|-6.97|6.54|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.54|-6.97|
82635340|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|-1.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-8.24|5.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||5.03|-8.24|
82635341|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|-3.12|STANDARD_ERROR_OF_MEAN|3.74|||TWO_SIDED|95.0|-10.88|4.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||4.65|-10.88|
82635342|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|3.68|||TWO_SIDED|95.0|-8.45|6.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||6.80|-8.45|
82635343|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|0.87|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-7.84|9.58|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||9.58|-7.84|
82635344|NCT03091920|164985976|OTHER|No statistical testing was performed.|Least squares mean difference|-2.98|STANDARD_ERROR_OF_MEAN|3.96|||TWO_SIDED|95.0|-11.23|5.26|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||5.26|-11.23|
82635345|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-5.55|STANDARD_ERROR_OF_MEAN|3.84|||TWO_SIDED|95.0|-13.51|2.41|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.41|-13.51|
82635346|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-2.47|STANDARD_ERROR_OF_MEAN|3.83|||TWO_SIDED|95.0|-10.41|5.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||5.47|-10.41|
82514958|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.883|TWO_SIDED|95.0|-0.9|1.0|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.9|0.883
82635347|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-8.05|STANDARD_ERROR_OF_MEAN|4.49|||TWO_SIDED|95.0|-17.36|1.25|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||1.25|-17.36|
82381504|NCT01451463|164473135|SUPERIORITY_OR_OTHER|||||||0.009|||||||t-test, 2 sided|||||||.009
82381505|NCT01451463|164473136|SUPERIORITY_OR_OTHER|||||||0.114|||||||t-test, 2 sided|||||||.114
82381506|NCT04740918|164473137|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (estrogen receptors (ER) and/or progesterone receptor (PgR) positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the Hazard Ratio (HR).|Hazard Ratio (HR)|0.75||||0.2876|TWO_SIDED|95.0|0.44|1.28|||Log Rank|||||1.28|0.44|0.2876
82514959|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0||||0.947|TWO_SIDED|95.0|-0.9|0.9|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.9|-0.9|0.947
82381507|NCT04740918|164473138|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.59||||0.5151|TWO_SIDED|95.0|0.39|6.43|||Log Rank|||||6.43|0.39|0.5151
82381508|NCT04740918|164473139|SUPERIORITY|A Cochran-Mantel-Haenszel chi-square test, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis), was used to test for difference in response rates.|Odds Ratio (OR)|1.16||||0.724|TWO_SIDED|95.0|0.5|2.7|||Cochran-Mantel-Haenszel|||||2.70|0.50|0.7240
82381509|NCT04740918|164473140|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|0.65||||0.3531|TWO_SIDED|95.0|0.26|1.61|||Log Rank|||||1.61|0.26|0.3531
82381510|NCT04740918|164473141|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.35||||0.7175|TWO_SIDED|95.0|0.27|6.81|||Log Rank|||||6.81|0.27|0.7175
82381511|NCT04740918|164473142|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.||||||0.3173|||||||Log Rank|||||||0.3173
82381512|NCT04740918|164473143|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.19||||0.8658|TWO_SIDED|95.0|0.16|8.6|||Log Rank|||||8.60|0.16|0.8658
82381513|NCT04740918|164473144|SUPERIORITY|Cox proportional hazards model, stratified by local hormonal status (ER and/or PgR positive vs. ER and PgR negative/unknown) and Disease status (visceral metastasis without brain metastasis vs. non-visceral metastasis only without brain metastasis \[including locally advanced disease\] vs. Brain metastasis) were used to estimate the HR.|Hazard Ratio (HR)|1.16||||0.8407|TWO_SIDED|95.0|0.27|4.99|||Log Rank|||||4.99|0.27|0.8407
82381514|NCT03759392|164473156|SUPERIORITY||Least squares mean difference|-0.447|STANDARD_ERROR_OF_MEAN|0.2931||0.13|TWO_SIDED|95.0|-1.024|0.131|||ANCOVA|Using multiple imputation||||0.131|-1.024|0.13
82381515|NCT03759392|164473157|SUPERIORITY||Least squares mean difference|-5.388|STANDARD_ERROR_OF_MEAN|2.3937||0.025|TWO_SIDED|95.0|-10.108|-0.0668|||ANCOVA|Using multiple imputation||||-0.0668|-10.108|0.025
82381516|NCT03759392|164473158|SUPERIORITY||Least squares mean difference|0.414|STANDARD_ERROR_OF_MEAN|0.6215||0.51|TWO_SIDED|95.0|-0.81|1.639|||ANCOVA|Using multiple imputation||||1.639|-0.810|0.51
82381517|NCT03759392|164473159|SUPERIORITY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.42||0.54|TWO_SIDED|95.0|-0.6|1.1|||Repeated measures mixed model|||||1.1|-0.6|0.54
82381518|NCT01709500|164473160|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.4|||<|0.0001|TWO_SIDED|95.0|-58.1|-44.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Alirocumab group was compared to the placebo group using an appropriate contrast statement.||-44.8|-58.1|<0.0001
82381519|NCT01709500|164473161|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.2|||<|0.0001|TWO_SIDED|95.0|-58.7|-45.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 5% level.||-45.6|-58.7|<0.0001
82514960|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.663|TWO_SIDED|95.0|-1.1|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.1|0.663
82514961|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.7||||0.157|TWO_SIDED|95.0|-0.3|1.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 8 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.6|-0.3|0.157
82514962|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.5||||0.283|TWO_SIDED|95.0|-1.4|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.4|0.283
82381520|NCT01709500|164473162|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-54.7|-42.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-42.2|-54.7|<0.0001
82381521|NCT01709500|164473163|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.8|||<|0.0001|TWO_SIDED|95.0|-55.0|-42.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-42.5|-55|<0.0001
82381522|NCT01709500|164473164|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.3|||<|0.0001|TWO_SIDED|95.0|-44.1|-34.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-34.5|-44.1|<0.0001
82381523|NCT01709500|164473165|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.8|||<|0.0001|TWO_SIDED|95.0|-44.5|-35.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-35.1|-44.5|<0.0001
82381524|NCT01709500|164473166|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.7|||<|0.0001|TWO_SIDED|95.0|-51.8|-39.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-39.7|-51.8|<0.0001
82381525|NCT01709500|164473167|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.4|||<|0.0001|TWO_SIDED|95.0|-52.3|-40.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-40.4|-52.3|<0.0001
82381526|NCT01709500|164473168|SUPERIORITY_OR_OTHER||LS Mean difference|-32.8|||<|0.0001|TWO_SIDED|95.0|-37.4|-28.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-28.1|-37.4|<0.0001
82514963|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.768|TWO_SIDED|95.0|-1.0|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.0|0.768
82635348|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-8.28|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|-17.42|0.87|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||0.87|-17.42|
82381527|NCT01709500|164473169|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.5|||<|0.0001|TWO_SIDED|95.0|-39.2|-29.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-29.8|-39.2|<0.0001
82381528|NCT01709500|164473170|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.0|||<|0.0001|TWO_SIDED|95.0|-47.8|-36.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-36.2|-47.8|<0.0001
82514964|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.334|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.4|-1.3|0.334
82514965|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.465|TWO_SIDED|95.0|-1.2|0.6|||ANCOVA|||LS means treatment difference in change from baseline to Week 10 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.6|-1.2|0.465
82514966|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.688|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.8|-1.2|0.688
82635349|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-9.34|STANDARD_ERROR_OF_MEAN|4.86|||TWO_SIDED|95.0|-19.43|0.74|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||0.74|-19.43|
82635350|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-3.05|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-12.95|6.84|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||6.84|-12.95|
82635351|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|3.36|STANDARD_ERROR_OF_MEAN|3.91|||TWO_SIDED|95.0|-4.74|11.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||11.47|-4.74|
82635352|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|2.82|STANDARD_ERROR_OF_MEAN|3.82|||TWO_SIDED|95.0|-5.1|10.75|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||10.75|-5.10|
82635353|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-4.43|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-15.23|6.37|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.37|-15.23|
82635354|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-4.85|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-15.65|5.94|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.94|-15.65|
82381529|NCT01709500|164473171|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.9|||<|0.0001|TWO_SIDED|95.0|-34.5|-25.4|||Mixed Models Analysis|Threshold for significance ≤ 0.05.||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.4|-34.5|<0.0001
82514967|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.9||||0.062|TWO_SIDED|95.0|0.0|1.8|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.8|0.0|0.062
82381530|NCT01709500|164473172|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.8|||<|0.0001|TWO_SIDED|95.0|-66.8|-50.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-50.8|-66.8|<0.0001
82514968|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.579|TWO_SIDED|95.0|-1.2|0.7|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||0.7|-1.2|0.579
82381531|NCT01709500|164473173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|52.2|||<|0.0001|TWO_SIDED|95.0|20.9|130.0||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||130|20.9|<0.0001
82514969|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.644|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||LS means treatment difference in change from baseline to Week 12 obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.2|-0.7|0.644
82514970|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.825|TWO_SIDED|95.0|-0.8|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.8|0.825
82514971|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.5||||0.233|TWO_SIDED|95.0|-0.3|1.4|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.4|-0.3|0.233
82570313|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-0.68|||=|0.769|TWO_SIDED|95.0|-5.37|4.0||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||4.00|-5.37|=0.769
82570314|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|-1.14|||=|0.699|TWO_SIDED|95.0|-7.07|4.8||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||4.80|-7.07|=0.699
82570315|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|1.1|||=|0.687|TWO_SIDED|95.0|-4.41|6.62||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 14||6.62|-4.41|=0.687
82570316|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|0.2|||=|0.944|TWO_SIDED|95.0|-5.55|5.95||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||5.95|-5.55|=0.944
82570317|NCT04159805|164850933|SUPERIORITY||Difference in LS Mean|2.48|||=|0.351|TWO_SIDED|95.0|-2.87|7.83||From a MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 16||7.83|-2.87|=0.351
82381532|NCT01709500|164473174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.3|||<|0.0001|TWO_SIDED|95.0|21.4|132.6||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||132.6|21.4|<0.0001
82381533|NCT01709500|164473175|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|239.7|||<|0.0001|TWO_SIDED|95.0|31.6|1820.3||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1820.3|31.6|<0.0001
82514972|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.1||||0.853|TWO_SIDED|95.0|-0.8|1.0|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.0|-0.8|0.853
82514973|NCT00406029|164722397|SUPERIORITY_OR_OTHER||Difference in LS Means|0.2||||0.592|TWO_SIDED|95.0|-0.6|1.1|||ANCOVA|||LS means treatment difference in change from baseline to endpoint obtained from an ANCOVA model with effect for treatment and baseline covariate.||1.1|-0.6|0.592
82514974|NCT01038921|164722398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0||||0.013|||||||Mixed Models Analysis|||Average change in systolic blood pressure from pre-treatment baseline to post-treatment at 10 weeks when those subjects were on Melatonin was compared to the average change in systolic blood pressure from pre-treatment baseline to post-treatment at 10 weeks when those same subjects were on Placebo using an intent-to-treat mixed model. Power was estimated based on having 30 subjects completing both the melatonin arm and the placebo arm.||||0.013
82514975|NCT02443298|164722437|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.0255|TWO_SIDED|80.0|1.18|1.81|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|This was analyzed by using a Cox proportional hazards model that included treatment and the stratification factor of OCS use at baseline as fixed effects.||1.81|1.18|0.0255
82635355|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-0.81|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-9.1|7.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||7.47|-9.10|
82514976|NCT02443298|164722438|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.0131|TWO_SIDED|80.0|1.2|1.79|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|This was analyzed by using a Cox proportional hazards model that included treatment and the stratification factor of OCS use at baseline as fixed effects.||1.79|1.20|0.0131
82514977|NCT02443298|164722439|SUPERIORITY||Rate Ratio|1.4937|STANDARD_ERROR_OF_MEAN|0.22||0.0065|TWO_SIDED|80.0|1.2366|1.8044|||Negative binomial regression||Comparison of Risankizumab to Placebo|Annualized rate is obtained from fitting a negative binomial regression including logarithm of the exposure as an offset, treatment, and OCS use at baseline as covariate.||1.8044|1.2366|0.0065
82514978|NCT02443298|164722440|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4619|TWO_SIDED|80.0|0.88|1.57|||Cox proportional hazards model||Comparison of Risankizumab to Placebo|Time to first event is obtained from fitting a Cox proportional-hazards model including treatment, and OCS use at baseline as covariate||1.57|0.88|0.4619
82514979|NCT02443298|164722441|SUPERIORITY||Rate Ratio|1.1317|STANDARD_ERROR_OF_MEAN|0.237||0.555|TWO_SIDED|80.0|0.8652|1.4803|||Negative binomial regression||Comparison of Risankizumab to Placebo|Annualized rate is obtained from fitting a negative binomial regression including logarithm of the exposure as an offset, treatment, and OCS use at baseline as covariate.||1.4803|0.8652|0.5550
82514980|NCT02443298|164722442|SUPERIORITY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.051||0.4423|TWO_SIDED|80.0|-0.104|0.026|||Mixed Models Analysis|Unstructured covariance structure for within-patient variation|Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting a mixed effect repeated measures (MMRM) model including treatment, OCS use at baseline, test day, treatment-by-test day interaction, baseline, and baseline-by-test day interaction as covariates patient as a random effect.||0.026|-0.104|0.4423
82635356|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-2.63|STANDARD_ERROR_OF_MEAN|3.76|||TWO_SIDED|95.0|-10.42|5.16|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.16|-10.42|
82635357|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-5.54|STANDARD_ERROR_OF_MEAN|3.98|||TWO_SIDED|95.0|-13.8|2.72|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||2.72|-13.80|
82514981|NCT02443298|164722443|SUPERIORITY||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.045||0.1377|TWO_SIDED|80.0|-0.126|-0.009|||Mixed Models Analysis|Unstructured covariance structure for within-patient variation|Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting a mixed effect repeated measures (MMRM) model including treatment, OCS use at baseline, test day, treatment-by-test day interaction, baseline, and baseline-by-test day interaction as covariates patient as a random effect.||-0.009|-0.126|0.1377
82514982|NCT02443298|164722444|SUPERIORITY||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.115||0.1985|TWO_SIDED|80.0|0.0|0.297|||ANCOVA||Comparison of Risankizumab to Placebo|The adjusted mean (SE) are obtained from fitting an analysis of covariance (ANCOVA) model separately for each week including treatment, OCS use at baseline, and baseline as covariates. The weekly averages of daily measurements are calculated before fitting the model.||0.297|0.000|0.1985
82523792|NCT01218126|164743214|SUPERIORITY_OR_OTHER||Rate ratio|0.98||||0.915||95.0|0.64|1.5|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 7.5 mg arm) / (Rate of exacerbation in placebo arm)|Placebo versus Losmapimod 7.5 mg||1.50|0.64|0.915
82523793|NCT01218126|164743214|SUPERIORITY_OR_OTHER||Rate ratio|0.74||||0.21|TWO_SIDED|95.0|0.47|1.18|||Negative Binomial regression model|Covariates of treatment, group, smoking status, history of exacerbations and region, with logarithm of time on treatment as an offset variable.|Rate ratio= (Rate of exacerbation in Losmapimod 15 mg arm) / (Rate of exacerbation in placebo arm)|Placebo versus Losmapimod 15 mg||1.18|0.47|0.210
82523794|NCT01860703|164743220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.01|||||TWO_SIDED|90.0|1.02|5.01||||||||5.01|1.02|
82381534|NCT01709500|164473176|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|240.6|||<|0.0001|TWO_SIDED|95.0|31.4|1841.7||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1841.7|31.4|<0.0001
82514983|NCT01047683|164722445|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.1|||<|0.0001|TWO_SIDED|95.0|-46.6|-21.5||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.01 for the primary endpoint.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A standard deviation of 45% in the TG measurements and a significance level of P \< 0.01 required a sample size of 69 completed patients per treatment group to provide greater than or equal to 90% power to detect a difference of 30% between AMR101 and placebo in the percentage of change from baseline in the fasting TG levels.||-21.5|-46.6|<0.0001
82635358|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|3.97|||TWO_SIDED|95.0|-8.25|8.23|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||8.23|-8.25|
82635359|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-2.89|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-12.01|6.23|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||6.23|-12.01|
82635360|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|2.17|STANDARD_ERROR_OF_MEAN|4.32|||TWO_SIDED|95.0|-6.78|11.13|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||11.13|-6.78|
82635361|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-4.23|STANDARD_ERROR_OF_MEAN|4.68|||TWO_SIDED|95.0|-13.93|5.47|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||5.47|-13.93|
82514984|NCT01047683|164722445|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.7||||0.0051|TWO_SIDED|95.0|-33.3|-5.6|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-5.6|-33.3|0.0051
82635362|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|1.37|STANDARD_ERROR_OF_MEAN|4.59|||TWO_SIDED|95.0|-8.14|10.88|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||10.88|-8.14|
82635363|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-0.57|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-10.32|9.18|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||9.18|-10.32|
82635364|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|2.49|STANDARD_ERROR_OF_MEAN|4.6|||TWO_SIDED|95.0|-7.04|12.02|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||12.02|-7.04|
82635365|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-7.89|STANDARD_ERROR_OF_MEAN|5.03|||TWO_SIDED|95.0|-18.33|2.55|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||2.55|-18.33|
82635366|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-6.49|STANDARD_ERROR_OF_MEAN|5.03|||TWO_SIDED|95.0|-16.92|3.95|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||3.95|-16.92|
82635367|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-3.84|STANDARD_ERROR_OF_MEAN|4.91|||TWO_SIDED|95.0|-14.03|6.35|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.35|-14.03|
82635368|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|0.78|STANDARD_ERROR_OF_MEAN|4.62|||TWO_SIDED|95.0|-8.8|10.35|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||10.35|-8.80|
82635369|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-7.13|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-17.79|3.53|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||3.53|-17.79|
82514985|NCT01047683|164722446|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-28.6||||0.0005|TWO_SIDED|95.0|-43.4|-13.9||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05 for secondary and exploratory endpoints.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-13.9|-43.4|0.0005
82514986|NCT01047683|164722446|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-15.3||||0.1152|TWO_SIDED|95.0|-30.3|-0.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-0.7|-30.3|0.1152
82514987|NCT01047683|164722447|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-13.6||||0.0006|TWO_SIDED|95.0|-20.2|-6.3||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-6.3|-20.2|0.0006
82514988|NCT01047683|164722447|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.1||||0.2367|TWO_SIDED|95.0|-12.3|2.2|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||2.2|-12.3|0.2367
82523795|NCT01860703|164743226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.23|||||TWO_SIDED|90.0|3.26|7.19||||||||7.19|3.26|
82523796|NCT01860703|164743229|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|13.42|||||TWO_SIDED|90.0|11.1|15.75||||||||15.75|11.10|
82523797|NCT02532556|164743230|SUPERIORITY||||||<|0.05|||||||Wilcoxan signed-rank test|||||||<0.05
82381535|NCT01709500|164473177|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-20.3|||<|0.0001|TWO_SIDED|95.0|-26.4|-14.2||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-14.2|-26.4|<0.0001
82523798|NCT02532556|164743231|SUPERIORITY||||||<|0.05|||||||Wilcoxan signed-rank test|||||||<0.05
82381536|NCT01709500|164473178|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8|||=|0.0009|TWO_SIDED|95.0|2.8|10.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||10.7|2.8|= 0.0009
82381537|NCT01709500|164473179|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.9|||=|0.0012|TWO_SIDED|95.0|-17.5|-4.3||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure. Statistical analysis used a multiple imputation approach followed by a robust regression model.||-4.3|-17.5|= 0.0012
82381538|NCT01709500|164473180|SUPERIORITY_OR_OTHER||LS Mean Difference|4.4|||=|0.0062|TWO_SIDED|95.0|1.3|7.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||7.5|1.3|= 0.0062
82381539|NCT01709500|164473181|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.1|||<|0.0001|TWO_SIDED|95.0|-25.0|-13.1||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-13.1|-25|<0.0001
82381540|NCT01709500|164473182|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|||=|0.0147|TWO_SIDED|95.0|0.9|7.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||7.8|0.9|= 0.0147
82381541|NCT01709500|164473183|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.6|||=|0.024|TWO_SIDED|95.0|-16.1|-1.1||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-1.1|-16.1|= 0.024
82381542|NCT01709500|164473184|SUPERIORITY_OR_OTHER||LS Mean Difference|2.3|||=|0.1475|TWO_SIDED|95.0|-0.8|5.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||5.5|-0.8|= 0.1475
82514989|NCT01047683|164722448|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.5||||0.0019|TWO_SIDED|95.0|-13.5|-3.2||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-3.2|-13.5|0.0019
82514990|NCT01047683|164722448|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.6||||0.2367|TWO_SIDED|95.0|-7.8|1.9|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||1.9|-7.8|0.2367
82523799|NCT00696410|164743233|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||p value represents test of paired (within patient) difference||||0.068
82381543|NCT03170544|164473188|OTHER||Mean|1.33|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|0.63|2.04|||||Mean (SE) and 95% CI were based on a linear fixed effects model containing a fixed effect for treatment (MK1092 Doses, Glargine).||The primary hypothesis would be supported if the Bayesian posterior probability of the true mean of GIRmax of MK-1092 lying within 1.5 and 4.5 mg/kg/min exceeded the prespecified threshold of 70% (in Part 3).|2.04|0.63|
82381544|NCT03170544|164473188|OTHER||Mean|2.74|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|2.03|3.44|||||Mean (SE) and 95% CI were based on a linear fixed effects model containing a fixed effect for treatment (MK1092 Doses, Glargine).||The primary hypothesis would be supported if the Bayesian posterior probability of the true mean of GIRmax of MK-1092 lying within 1.5 and 4.5 mg/kg/min exceeded the prespecified threshold of 70% (in Part 3).|3.44|2.03|
82381545|NCT00420420|164473217|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at Week 4||||0.283
82381546|NCT00420420|164473218|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at week 4||||0.180
82381547|NCT00420420|164473219|SUPERIORITY_OR_OTHER|||||||0.716||95.0||||A longitudinal mixed model was used to compare groups, including factors for week, strata (MMSE score and concomitant AD therapy), treatment, and week-by-treatment interaction.|Mixed Models Analysis|||comparison at Week 4||||0.716
82381548|NCT05479435|164473246|OTHER|||||||0.83|||||||Kruskal-Wallis|||||||0.830
82381549|NCT05479435|164473247|OTHER|||||||0.654|||||||ANCOVA|||||||0.654
82381550|NCT05479435|164473248|OTHER|||||||0.803|||||||ANCOVA|||||||0.803
82381551|NCT05479435|164473249|OTHER|||||||0.398|||||||ANCOVA|||||||0.398
82381552|NCT05479435|164473250|OTHER|||||||0.132|||||||Kruskal-Wallis|||||||0.132
82514991|NCT01047683|164722449|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.3||||0.6768|TWO_SIDED|95.0|-12.9|8.1||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||8.1|-12.9|0.6768
82514992|NCT01047683|164722449|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|5.2||||0.3022|TWO_SIDED|95.0|-5.4|15.6|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||15.6|-5.4|0.3022
82514993|NCT01047683|164722450|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.7|||<|0.0001|TWO_SIDED|95.0|-25.0|-11.3||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-11.3|-25.0|<0.0001
82514994|NCT01047683|164722450|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.1||||0.0182|TWO_SIDED|95.0|-15.1|-1.4|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-1.4|-15.1|0.0182
82523800|NCT00696410|164743233|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.022
82523801|NCT00696410|164743234|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|95.0|||||Sign test|||p value represents test of paired (within patient) difference||||0.71
82381553|NCT05479435|164473251|OTHER|||||||0.991|||||||Kruskal-Wallis|||||||0.991
82381554|NCT05479435|164473252|OTHER|||||||0.278|||||||Kruskal-Wallis|||||||0.278
82381555|NCT05479435|164473253|OTHER|||||||0.479|||||||ANCOVA|||||||0.479
82381556|NCT05479435|164473254|OTHER|||||||0.849|||||||Kruskal-Wallis|||||||0.849
82381557|NCT05479435|164473255|OTHER|||||||0.504|||||||Kruskal-Wallis|||||||0.504
82381558|NCT05479435|164473256|OTHER|||||||0.017|||||||ANCOVA|||||||0.017
82381559|NCT05479435|164473257|OTHER|||||||0.025|||||||Kruskal-Wallis|||||||0.025
82381560|NCT05479435|164473258|OTHER|||||||0.016|||||||ANCOVA|||||||0.016
82381561|NCT05479435|164473259|OTHER|||||||0.041|||||||ANCOVA|||||||0.041
82381562|NCT05479435|164473260|OTHER|||||||0.352|||||||Kruskal-Wallis|||||||0.352
82381563|NCT05479435|164473261|OTHER|||||||0.39|||||||Kruskal-Wallis|||||||0.390
82381564|NCT05479435|164473262|OTHER|||||||0.928|||||||ANCOVA|||||||0.928
82381565|NCT05479435|164473263|OTHER|||||||0.558|||||||Kruskal-Wallis|||||||0.558
82381566|NCT05479435|164473264|OTHER|||||||0.133|||||||Kruskal-Wallis|||||||0.133
82514995|NCT05101252|164722484|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.00 logMAR for distance.|Least-square Mean|-0.08|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|98.75|-0.14|-0.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 22 subjects were required to test for superiority for distance.||-0.01|-0.14|
82514996|NCT05101252|164722484|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.17 logMAR for intermediate.|Least-square Mean|0.0|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|98.75|-0.06|0.07|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 12 subjects were required to test for superiority for intermediate.||0.07|-0.06|
82635370|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|1.66|STANDARD_ERROR_OF_MEAN|4.93|||TWO_SIDED|95.0|-8.59|11.91|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||11.91|-8.59|
82381567|NCT05479435|164473265|OTHER|||||||0.367|||||||Kruskal-Wallis|||||||0.367
82381568|NCT05479435|164473266|OTHER|||||||0.631|||||||ANCOVA|||||||0.631
82381569|NCT05479435|164473267|OTHER|||||||0.056|||||||ANCOVA|||||||0.056
82381570|NCT05479435|164473268|OTHER|||||||0.979|||||||ANCOVA|||||||0.979
82514997|NCT05101252|164722484|SUPERIORITY|Superiority was declared if the upper limit of the 98.75% confidence interval of was below 0.17 logMAR for near.|Least-square Mean|0.09|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|98.75|0.02|0.16|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 90% statistical power, that 60 subjects were required to test for superiority for near.||0.16|0.02|
82523802|NCT00696410|164743234|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.33
82381571|NCT05479435|164473269|OTHER|||||||0.377|||||||ANCOVA|||||||0.377
82381572|NCT05479435|164473270|OTHER|||||||0.979|||||||ANCOVA|||||||0.979
82635371|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-6.31|STANDARD_ERROR_OF_MEAN|4.74|||TWO_SIDED|95.0|-16.17|3.55|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||3.55|-16.17|
82635372|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-1.17|STANDARD_ERROR_OF_MEAN|4.54|||TWO_SIDED|95.0|-10.6|8.27|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||8.27|-10.60|
82381573|NCT05479435|164473271|OTHER|||||||0.055|||||||ANCOVA|||||||0.055
82381574|NCT04231825|164473278|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
82381575|NCT04231825|164473279|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
82381576|NCT04231825|164473280|SUPERIORITY|||||||0.8|||||||ANCOVA|||||||0.80
82381577|NCT04231825|164473281|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
82381578|NCT04231825|164473282|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
82381579|NCT01662635|164473283|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Continuous variables were summarized as arithmetic means, medians and standard deviations; and categorical variables were reported as proportions with 95% confidence intervals. Inferential comparisons were performed using Student's t test. The x2 or Fisher's exact tests were used to assess significance among categorical variables.||||< 0.05
82381580|NCT03861390|164473284|OTHER|||||||0.24||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.24
82381581|NCT03861390|164473285|OTHER|||||||0.17||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.17
82381582|NCT03861390|164473286|OTHER|||||||0.7||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.70
82514998|NCT05101252|164722485|SUPERIORITY|Superiority was declared if the lower bound of the 98.75% confidence interval was above 32.|Least-square Mean|50.8|STANDARD_ERROR_OF_MEAN|2.922|||TWO_SIDED|98.75|43.1|58.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1.25% individually) with at least 99% statistical power, that 13 subjects were required to test for superiority for CLUE vision scores.||58.5|43.1|
82523803|NCT00696410|164743235|SUPERIORITY_OR_OTHER|||||||0.69|||||||Sign test|||p value represents test of paired (within patient) difference||||0.69
82523804|NCT00696410|164743235|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.004
82381583|NCT03861390|164473286|OTHER|||||||0.37||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.37
82381584|NCT03861390|164473287|OTHER|||||||0.77||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.77
82381585|NCT03861390|164473287|OTHER|||||||0.48||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.48
82381586|NCT03861390|164473288|OTHER|||||||0.96||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.96
82381587|NCT03861390|164473288|OTHER|||||||0.91||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.91
82570318|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-27.9|||=|0.09|TWO_SIDED|95.0|-60.18|4.38||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 2||4.38|-60.18|=0.090
82381588|NCT03861390|164473289|OTHER|||||||0.46||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.46
82381589|NCT03861390|164473289|OTHER|||||||0.46||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.46
82381590|NCT03861390|164473290|OTHER|||||||0.82||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.82
82381591|NCT03861390|164473290|OTHER|The a priori threshold for statistical significance is \< 0.05.||||||0.99|||||||Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.99
82381592|NCT03861390|164473291|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.38
82381593|NCT03861390|164473291|OTHER|||||||0.84||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.84
82381594|NCT03861390|164473292|OTHER|||||||0.49||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.49
82381595|NCT03861390|164473292|OTHER|||||||0.52||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.52
82381596|NCT00611923|164473327|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.57|||||||t-test, 2 sided|||paired t-test analysis comparing change from baseline PMTS score at month 1 between flutamide and placebo groups||||= 0.57
82381597|NCT00611923|164473327|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.27|||||||t-test, 2 sided|||paired t-test analysis comparing change from baseline PMTS score at month 2 between flutamide and placebo groups.||||= .27
82381598|NCT00611923|164473328|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.52|||||||t-test, 2 sided|||paired t-test comparing change in DRSP scores from baseline to Month 1 of treatment Larger positive change score indicates a greater reduction in symptoms from baseline.||||= 0.52
82381599|NCT00611923|164473328|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|||||||t-test, 2 sided|||paired t-test comparing change in DRSP scores from baseline to Month 2 of treatment Larger positive change score indicates a greater reduction in symptoms from baseline.||||= 0.2
82381600|NCT00611923|164473329|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.8|||||||t-test, 2 sided|||||||= 0.8
82381601|NCT00611923|164473329|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.1|||||||t-test, 2 sided|||||||= 0.1
82381602|NCT00611923|164473330|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.15|||||||t-test, 2 sided|||paired t-test was performed comparing the Clinical Global Improvement score at month 1 between placebo and flutamide groups||||=.15
82381603|NCT00611923|164473330|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.05|||||||t-test, 2 sided|||t-test was performed comparing the Clinical Global Improvement score at month 2 between placebo and flutamide groups||||= .05
82381604|NCT00611923|164473331|SUPERIORITY_OR_OTHER_LEGACY|Comparison of change from baseline score to treatment month 1 between placebo and flutamide treated subjects.|||||=|0.5|||||||t-test, 2 sided|||||||=0.5
82381605|NCT00611923|164473331|SUPERIORITY_OR_OTHER_LEGACY|paired t-test analysis comparing change from baseline CGI severity score at month 2 between flutamide and placebo groups|||||<|0.04|||||||t-test, 2 sided|||||||<.04
82381606|NCT00611923|164473332|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|||||||t-test, 2 sided|||paired t-test was performed comparing the Patient Global Improvement score at month 1 between placebo and flutamide groups||||=0.2
82381607|NCT00611923|164473332|SUPERIORITY_OR_OTHER_LEGACY|paired t-test was performed comparing the Patient Globall Improvement score at treatment month 2 between placebo and flutamide groups|||||=|0.06|||||||t-test, 2 sided|||||||=0.06
82381608|NCT03096314|164473334|SUPERIORITY|||||||0.26|||||||Generalized linear model|||||||0.26
82381609|NCT03096314|164473335|SUPERIORITY||Risk Difference (RD)|4.3|||||TWO_SIDED|95.0|-0.1|8.6||||||||8.6|-0.1|
82381610|NCT03096314|164473336|SUPERIORITY||Risk Difference (RD)|3.7|||||TWO_SIDED|95.0|-0.5|8.0||||||||8.0|-0.5|
82381611|NCT03096314|164473337|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-5.4|6.0||||||||6.0|-5.4|
82514999|NCT05101252|164722486|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the least-square mean difference was below 0.05 logMAR.|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|-0.05|0.05|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|LSM difference was calculated as Test minus Control|It was calculated using a 2 independent sample means t-test with a 2-sided type I error rate of 5% with at least 95% statistical power, that 60 subjects were required to test for non-inferiority of the Test compared to the Control for distance (4m).||0.05|-0.05|
82515000|NCT01243944|164722492|SUPERIORITY_OR_OTHER||Odds Ratio, log|32.67|||<|0.0001|TWO_SIDED|95.0|5.04|1337.0|||Exact Cochran-Mantel-Haenszel|||||1337|5.04|< 0.0001
82381612|NCT03096314|164473338|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-2.7|0.0||||||||0.0|-2.7|
82381613|NCT03096314|164473339|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-4.8|0.4||||||||0.4|-4.8|
82381614|NCT03096314|164473340|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.1|0.5||||||||0.5|-2.1|
82381615|NCT03096314|164473341|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||||0.1|0|
82381616|NCT03096314|164473342|SUPERIORITY||Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-2.1|3.6||||||||3.6|-2.1|
82515001|NCT01243944|164722493|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.01|||<|0.0001|TWO_SIDED|95.0|4.24|1144.0|||Exact Cochran-Mantel-Haenszel|||||1144|4.24|<0.0001
82515002|NCT01243944|164722494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.57||||0.0016|TWO_SIDED|95.0|1.5|9.06|||Exact Cochran-Mantel-Haenszel|P-value was calculated using stratified exact Cochran-Mantel-Haenszel test by adjusting for the WBC/platelet status (abnormal vs normal) at baseline.||||9.06|1.50|0.0016
82515003|NCT01731171|164722517|OTHER|The effect of treatment was calculated using logistic regression and the Cox proportional hazard function employing age, gender, and race as covariates.|Cox Proportional Hazard|0.37|||=|0.029|TWO_SIDED|95.0|||||Regression, Logistic||Values less than one favor adjunctive probiotic treatment, while values higher than one favor the placebo.|||||=.029
82515004|NCT01731171|164722518|SUPERIORITY||||||=|0.022|||||||Chi-squared|||||||=.022
82515005|NCT01731171|164722519|SUPERIORITY||||||=|0.009|||||||Regression, Linear|||||||=.009
82381617|NCT03096314|164473343|SUPERIORITY||Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|-22.0|34.9||||||Mild ARDS||34.9|-22.0|
82381618|NCT03096314|164473343|SUPERIORITY||Risk Difference (RD)|-25.6|||||TWO_SIDED|95.0|-56.3|5.1||||||Moderate ARDS||5.1|-56.3|
82381619|NCT03096314|164473343|SUPERIORITY||Risk Difference (RD)|19.1|||||TWO_SIDED|95.0|-2.9|41.1||||||Severe ARDS||41.1|-2.9|
82515006|NCT01731171|164722520|SUPERIORITY||||||=|0.017|||||||Kruskal-Wallis|||||||=.017
82515007|NCT01410110|164722521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.66|STANDARD_ERROR_OF_MEAN|4.41||0.55|TWO_SIDED|95.0|-11.57|6.25||a prior threshold p \< .05|t-test, 2 sided|df = 40||t-test for equality of means||6.25|-11.57|.55
82635373|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-7.01|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-19.13|5.11|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||5.11|-19.13|
82381620|NCT03096314|164473344|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-7.3|5.0||||||No AKI||5.0|-7.3|
82381621|NCT03096314|164473344|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-5.6|3.4||||||Mild AKI||3.4|-5.6|
82635374|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-4.11|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-15.55|7.34|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||7.34|-15.55|
82635375|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|1.77|STANDARD_ERROR_OF_MEAN|5.48|||TWO_SIDED|95.0|-9.63|13.17|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||13.17|-9.63|
82635376|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-3.47|STANDARD_ERROR_OF_MEAN|5.18|||TWO_SIDED|95.0|-14.25|7.31|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.31|-14.25|
82635377|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-1.73|STANDARD_ERROR_OF_MEAN|4.57|||TWO_SIDED|95.0|-11.24|7.77|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||7.77|-11.24|
82635378|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|-5.55|STANDARD_ERROR_OF_MEAN|4.46|||TWO_SIDED|95.0|-14.83|3.73|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.73|-14.83|
82635379|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|1.98|STANDARD_ERROR_OF_MEAN|5.21|||TWO_SIDED|95.0|-8.85|12.81|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||12.81|-8.85|
82635380|NCT03091920|164985977|OTHER|No statistical testing was performed.|Least squares mean difference|1.07|STANDARD_ERROR_OF_MEAN|4.69|||TWO_SIDED|95.0|-8.68|10.82|||||Least squares mean difference and associated 95% CI are from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||10.82|-8.68|
82635381|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-2.12|STANDARD_ERROR_OF_MEAN|2.06|||TWO_SIDED|95.0|-6.38|2.15|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.15|-6.38|
82635382|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-2.39|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-6.59|1.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.80|-6.59|
82635383|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-2.26|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|95.0|-6.11|1.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||1.60|-6.11|
82635384|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-3.39|STANDARD_ERROR_OF_MEAN|2.34|||TWO_SIDED|95.0|-8.25|1.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.47|-8.25|
82635385|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|2.31|||TWO_SIDED|95.0|-6.4|3.18|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.18|-6.40|
82635386|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-6.9|1.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||1.90|-6.90|
82635387|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-4.96|STANDARD_ERROR_OF_MEAN|3.01|||TWO_SIDED|95.0|-11.22|1.31|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.31|-11.22|
82635388|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-4.5|STANDARD_ERROR_OF_MEAN|2.84|||TWO_SIDED|95.0|-10.41|1.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.40|-10.41|
82635389|NCT03091920|164985978|OTHER|No statistical testing was performed.|Least squares mean difference|-4.73|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|95.0|-10.27|0.81|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||0.81|-10.27|
82635390|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-4.87|STANDARD_ERROR_OF_MEAN|2.86|||TWO_SIDED|95.0|-10.8|1.06|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.06|-10.80|
82635391|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-5.02|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-10.87|0.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||0.83|-10.87|
82635392|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-4.23|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-9.55|1.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.10|-9.55|
82635393|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-2.15|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-7.4|3.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.11|-7.40|
82635394|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-8.74|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.64|-1.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||-1.85|-15.64|
82635395|NCT03091920|164985979|OTHER|No statistical testing was performed.|Least squares mean difference|-5.34|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-11.84|1.15|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.15|-11.84|
82635396|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-4.86|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.96|-4.86|
82570319|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-15.77|||=|0.328|TWO_SIDED|95.0|-47.5|15.96||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 2||15.96|-47.50|=0.328
82570320|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-12.65|||=|0.441|TWO_SIDED|95.0|-44.94|19.63||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 3||19.63|-44.94|=0.441
82570321|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|1.39|||=|0.931|TWO_SIDED|95.0|-30.33|33.12||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 3||33.12|-30.33|=0.931
82570322|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-28.18|||=|0.087|TWO_SIDED|95.0|-60.46|4.11||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||4.11|-60.46|=0.087
82570323|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|4.44|||=|0.783|TWO_SIDED|95.0|-27.29|36.16||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 4||36.16|-27.29|=0.783
82570324|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-29.08|||=|0.077|TWO_SIDED|95.0|-61.36|3.21||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 5||3.21|-61.36|=0.077
82570325|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-15.72|||=|0.33|TWO_SIDED|95.0|-47.45|16.0||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 5||16.00|-47.45|=0.330
82570326|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-14.14|||=|0.4|TWO_SIDED|95.0|-47.19|18.91||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||18.91|-47.19|=0.400
82635397|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-0.71|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-5.07|3.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||3.65|-5.07|
82635398|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-3.32|STANDARD_ERROR_OF_MEAN|2.64|||TWO_SIDED|95.0|-8.79|2.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.14|-8.79|
82570327|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|0.0|||=|1|TWO_SIDED|95.0|-32.18|32.19||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 6||32.19|-32.18|=1.000
82635399|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-1.74|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|-7.14|3.67|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||3.67|-7.14|
82570328|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-26.47|||=|0.117|TWO_SIDED|95.0|-59.64|6.69||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 7||6.69|-59.64|=0.117
82635400|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-1.88|STANDARD_ERROR_OF_MEAN|3.22|||TWO_SIDED|95.0|-8.58|4.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||4.83|-8.58|
82570329|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-12.75|||=|0.436|TWO_SIDED|95.0|-44.94|19.44||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 7||19.44|-44.94|=0.436
82570330|NCT04159805|164850934|SUPERIORITY|From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|Difference in LS Mean|-47.91|||=|0.005|TWO_SIDED|95.0|-81.54|-14.29||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||-14.29|-81.54|=0.005
82570331|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-20.48|||=|0.215|TWO_SIDED|95.0|-52.92|11.95||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 8||11.95|-52.92|=0.215
82635401|NCT03091920|164985980|OTHER|No statistical testing was performed.|Least squares mean difference|-4.3|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|95.0|-10.69|2.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||2.10|-10.69|
82570332|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-3.97|||=|0.815|TWO_SIDED|95.0|-37.34|29.4||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||29.40|-37.34|=0.815
82635402|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-4.45|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-11.3|2.41|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.41|-11.30|
82381622|NCT03096314|164473344|SUPERIORITY||Risk Difference (RD)|-0.6|||||TWO_SIDED|95.0|-4.4|3.2||||||Moderate AKI||3.2|-4.4|
82381623|NCT03096314|164473344|SUPERIORITY||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-1.7|7.3||||||Severe AKI||7.3|-1.7|
82515008|NCT01410110|164722522|SUPERIORITY_OR_OTHER||Slope|0.162|STANDARD_ERROR_OF_MEAN|0.94||0.86|TWO_SIDED|95.0|-1.73|2.05||Time X Condition|Mixed Models Analysis|Mixed Models allows for all randomized participants (N=48) to be included in the model.||F Test (df = 1,39.32), Type III Fixed Effects for Time X Condition||2.05|-1.73|.86
82635403|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-5.17|STANDARD_ERROR_OF_MEAN|3.34|||TWO_SIDED|95.0|-12.1|1.75|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||1.75|-12.10|
82381624|NCT03096314|164473345|SUPERIORITY||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-1.9|2.9||||||||2.9|-1.9|
82381625|NCT03096314|164473346|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
82381626|NCT03096314|164473347|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-4.4|5.1||||||||5.1|-4.4|
82381627|NCT03096314|164473348|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
82381628|NCT03096314|164473349|SUPERIORITY||Mean Difference (Final Values)|35.5|||||TWO_SIDED|95.0|31.5|39.6||||||||39.6|31.5|
82381629|NCT03096314|164473350|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82381630|NCT03096314|164473351|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82515009|NCT01410110|164722523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.49|STANDARD_ERROR_OF_MEAN|2.41|<|0.31|TWO_SIDED|95.0|-7.36|2.39||a priori threshold p \< .05|t-test, 2 sided|||||2.39|-7.36|<.31
82381631|NCT03096314|164473352|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82515010|NCT01410110|164722524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.952||0.87|TWO_SIDED|95.0|-1.77|2.08||a priori threshold p \< .05|t-test, 2 sided|df=39||||2.08|-1.77|.87
82515011|NCT01410110|164722525|SUPERIORITY_OR_OTHER||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.84||0.67|TWO_SIDED|95.0|-2.07|1.33|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition F Test (df = 1,36.86)||1.33|-2.07|.67
82381632|NCT03096314|164473353|SUPERIORITY|||||||0.25|||||||Fisher Exact|||||||0.25
82381633|NCT03096314|164473354|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
82381634|NCT03096314|164473355|SUPERIORITY|||||||0.24|||||||Chi-squared|||||||0.24
82381635|NCT00471081|164473389|SUPERIORITY||Percentage of subjects with hSBA titers|88.4|||||TWO_SIDED|95.0|81.9|93.2|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup A.||93.2|81.9|
82515012|NCT01410110|164722526|SUPERIORITY_OR_OTHER||Slope|-0.42|STANDARD_ERROR_OF_MEAN|0.62||0.5|TWO_SIDED|95.0|-1.67|0.83|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition, F Test F (df = 1,42.4)||.83|-1.67|.50
82635404|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-5.23|STANDARD_ERROR_OF_MEAN|3.69|||TWO_SIDED|95.0|-12.87|2.42|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||2.42|-12.87|
82635405|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-8.22|STANDARD_ERROR_OF_MEAN|3.58|||TWO_SIDED|95.0|-15.64|-0.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||-0.79|-15.64|
82381636|NCT00471081|164473389|SUPERIORITY||Percentage of subjects with hSBA titers|100.0|||||TWO_SIDED|95.0|97.3|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 90%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup C.||100|97.3|
82381637|NCT00471081|164473389|SUPERIORITY||Percentage of subjects with hSBA titers|99.3|||||TWO_SIDED|95.0|96.2|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup W-135.||100|96.2|
82381638|NCT00471081|164473389|SUPERIORITY||Percentage of subjects with hSBA titers|99.3|||||TWO_SIDED|95.0|96.2|100.0|||||Immunogenecity of GSK134612 was demonstrated if the lower limit (LL) of the 2-sided exact 95% confidence interval (CI) was higher than the pre-defined clinical limit of 80%.|To demonstrate the immunogenicity of GSK134612 administered on a 2-dose schedule at 9 and 12 months of age with respect to serum bactericidal assay using human complement (hSBA) titers ≥1:8 for each discrete N. meningitidis serogroup Y.||100|96.2|
82381639|NCT01479465|164473413|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.0395|TWO_SIDED|95.0|1.01|2.06|||Log Rank|||"The null hypothesis was that the hazard ratio (HR) equals to 1 between SIM treatment arm and placebo, while the alternative hypothesis was that HR was less than 1.~The HR (95% confidence interval \[CI\]) and p-value (for comparison between SIM treatment arm and placebo) were based on two-sided log-rank test, stratified based on the 2-level Eastern Cooperative Oncology Group (ECOG) performance status (0 or \> 0) at randomization."||2.06|1.01|0.0395
82381640|NCT01479465|164473413|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.1042|TWO_SIDED|95.0|0.92|1.89|||Log Rank|||"The null hypothesis was that the HR equals to 1 between SIM treatment arm and placebo, while the alternative hypothesis was that HR was less than 1.~The HR (95% CI) and p-value (for comparison between SIM treatment arm and placebo) were based on two-sided log-rank test, stratified based on the 2-level ECOG performance status (0 or \> 0) at randomization."||1.89|0.92|0.1042
82515013|NCT01410110|164722527|SUPERIORITY_OR_OTHER||Slope|1.16|STANDARD_ERROR_OF_MEAN|0.42||0.008|TWO_SIDED|95.0|0.32|2.01|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects Time X Condition F Test (df = 1,70.15)||2.01|.32|.008
82381641|NCT01062425|164473485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||One-sided test with significance level of 0.15.|Z-test|||The null hypothesis was that the 6m PFS rates for both arms are 50%, and the alternative hypothesis was that patients receiving the experimental regimen would have a 6-month PFS rate of 66%. With 150 eligible patients, there would be an 80% statistical power to detect the 16% absolute increase in 6m PFS at a significance level of 0.15, using a one-sided Z test for two proportions.||||0.005
82381642|NCT01062425|164473486|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.44|TWO_SIDED|95.0|0.6|1.24||Significance level 0.05, two-sided test.|Log Rank||Placebo is the reference arm for the hazard ratio.|||1.24|0.6|0.44
82381643|NCT01062425|164473486|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.648|TWO_SIDED|95.0|0.62|1.34|||Regression, Cox||Placebo is reference level for the hazard ratio.|Multivariate analysis with the Cox proportional hazard model for overall survival was performed with the stratification variables as fixed variables to assess the treatment effect adjusting patient-specific risk factors. The covariates evaluated for the multivariate models were assigned protocol treatment, MGMT methylation status, and RPA risk class.||1.34|0.62|0.648
82381644|NCT01062425|164473487|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.03|TWO_SIDED|95.0|0.47|0.95||Significance level 0.05, two-sided test.|Log Rank||Placebo is the reference arm for the hazard ratio.|||0.95|0.47|0.03
82515014|NCT01410110|164722528|SUPERIORITY_OR_OTHER||Slope|2.025|STANDARD_ERROR_OF_MEAN|0.93||0.03|TWO_SIDED|95.0|0.169|3.93|||Mixed Models Analysis|Time X Condition||Type III Fixed Effects Time X Condition F Test (df = 1,37.8)||3.93|.169|.03
82515015|NCT01410110|164722529|SUPERIORITY_OR_OTHER||Slope|3.86|STANDARD_ERROR_OF_MEAN|2.77||0.17|TWO_SIDED|95.0|-1.73|9.46||a priori p-value is .05. for two-tailed test. Positive estimated value is in the direction of the experimental condition.|Mixed Models Analysis|Time X Condition||Type III Fixed Effects for Time X Condition F Test (df = 1,39.8)||9.46|-1.73|.17
82381645|NCT01062425|164473487|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.036|TWO_SIDED|95.0|0.46|0.97|||Regression, Cox||Placebo is the reference arm.|Multivariate analysis with the Cox proportional hazard model for progression-free survival was performed with the stratification variables as fixed variables to assess the treatment effect adjusting patient-specific risk factors. The covariates evaluated for the multivariate models were assigned protocol treatment, MGMT methylation status, and recursive partitioning analysis (RPA) risk class.||0.97|0.46|0.036
82381646|NCT01062425|164473488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||Significance level 0.05, two-sided test.|Chi-squared|||||||0.02
82515016|NCT02799082|164722541|SUPERIORITY_OR_OTHER||||||<|0.0001||||||"The percentages stated relate to the total number of subjects for the respective week and treatment.~Cochran-Mantel-Haenszel Test stratified by center"|Cochran-Mantel-Haenszel|||||||<0.0001
82515017|NCT02799082|164722542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82515018|NCT02799082|164722550|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82515019|NCT02799082|164722551|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82635406|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-6.72|STANDARD_ERROR_OF_MEAN|3.65|||TWO_SIDED|95.0|-14.29|0.86|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||0.86|-14.29|
82523805|NCT00696410|164743236|SUPERIORITY_OR_OTHER|||||||0.48|||||||Sign test|||p value represents test of paired (within patient) difference||||0.48
82523806|NCT00696410|164743236|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.39
82515020|NCT03149328|164722585|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates).||||||0.3||||||Threshold for statistical significance was p=0.05|ANCOVA|||We will examine the trajectories of outcome measures for patients in the comparator and intervention groups. The area under the curve (AUC) will be calculated for each trajectory during the period that the patient is participating to create a summary score. Null Hypothesis is that both groups are the same.||||0.30
82515021|NCT03149328|164722586|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates).||||||0.28|||||||ANCOVA|||We will examine the trajectories of outcome measures for patients in the comparator and intervention groups. The area under the curve (AUC) will be calculated for each trajectory during the period that the patient is participating to create a summary score. Null Hypothesis = both groups are the same||||0.28
82515022|NCT03149328|164722587|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.22||||||Threshold for statistical Significance was p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups in the number of hospitalizations"||||0.22
82515023|NCT03149328|164722587|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.1||||||Threshold for statistical Significance was p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups in the number of emergency room visits"||||0.10
82381647|NCT01651117|164473520|EQUIVALENCE|Mixed methods ANCOVA with patient random effects, to compare change in HbA1c from baseline to 6 months between treatment and control groups.|Mean Difference (Final Values)|-0.3268|STANDARD_ERROR_OF_MEAN|0.1739||0.0611|TWO_SIDED|95.0|-0.669|0.0154||Subject random effect included because same model was used for analyses of 2 separate follow up periods (baseline to 6 month, and baseline to 12 month, reported separately).|Mixed Models Analysis|Multiple imputation used for intent-to-treat analysis.|Negative parameter estimate means decrease in HbA1c was greater for treatment group than for control group.|||0.0154|-0.6690|0.0611
82635407|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-3.14|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|95.0|-10.66|4.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||4.38|-10.66|
82381648|NCT00289848|164473555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|STANDARD_DEVIATION|1.08|<|0.001||95.0|-1.23|-0.83|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline A1C as a covariate||||-0.83|-1.23|<0.001
82381649|NCT00289848|164473556|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|STANDARD_DEVIATION|39.8|<|0.001||95.0|-38.4|-23.7|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline FPG as a covariate||||-23.7|-38.4|<0.001
82381650|NCT00289848|164473557|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-56.6|STANDARD_DEVIATION|59.2|<|0.001||95.0|-68.8|-44.3|||ANCOVA|ANCOVA with terms of treatment, country, prior diabetes pharmacotherapy (not on AHA or on AHA), and baseline 2-hr PMG as a covariate||||-44.3|-68.8|<0.001
82381651|NCT01234350|164473558|OTHER||IRR|0.829||||0.4007|TWO_SIDED|95.0|0.536|1.283||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% confidence interval (CI), and incidence rate ratio (IRRs) with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|The IRs were estimated using a Poisson-mixture regression model.||1.283|0.536|0.4007
82381652|NCT01234350|164473559|OTHER||IRR|0.874||||0.671|TWO_SIDED|95.0|0.47|1.626||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For osteoporosis and osteopenia events. The IRs were estimated using Poisson-mixture regression model.||1.626|0.470|0.6710
82381653|NCT01234350|164473559|OTHER||IRR|1.857||||0.4544|TWO_SIDED|95.0|0.367|9.403||Poisson-mixture regression was used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For bone fracture events. The IRs were estimated using Poisson-mixture regression model.||9.403|0.367|0.4544
82635408|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-4.71|5.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||5.45|-4.71|
82381654|NCT01234350|164473560|OTHER||IRR|1.193||||0.2529|TWO_SIDED|95.0|0.882|1.613||Poisson mixture regression was used to model the influence of age, stage of disease, and history of diabetes mellitus along with the treatment group effect on the number of events adjusted for individual study exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For glucose intolerance. The IRs were estimated using Poisson-mixture regression model.||1.613|0.882|0.2529
82381655|NCT01234350|164473560|OTHER||IRR|2.623||||0.0208|TWO_SIDED|95.0|1.158|5.944||Poisson-mixture regression is used to model the influence of age, stage of disease, and relevant medical history along with the treatment group effect on the number of events adjusted for individual trial exposures measured in 100 PYE.|Wald test|The IRs for each treatment arm with 95% CI, and IRRs with 95% CI and p-values were based on Wald test.|IRR for treatment with the lower 95% confidence limit \>1 suggest increased risk of AESI; upper confidence limit \<1 suggest decreased risk of AESI with the use of FIRMAGON. The limit including 1 suggests no difference b/w treatment groups.|For T2DM. The IRs were estimated using Poisson-mixture regression model.||5.944|1.158|0.0208
82381656|NCT01234350|164473567|OTHER||Odds Ratio (OR)|0.747||||0.0821|TWO_SIDED|95.0|0.537|1.038||A logistic regression was used to model the influence of age, stage of disease and relevant medical history along with the treatment group on the time to event for all-cause mortality.|Regression, Logistic|Logistic regression was used to model the influence of age, stage of disease and relevant medical history along with the treatment group.||The analyses of all-cause mortality was based on logistic regressions.||1.038|0.537|0.0821
82635409|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|2.37|||TWO_SIDED|95.0|-4.94|4.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16||4.91|-4.94|
82381657|NCT02792517|164473569|OTHER||Least Squares Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.88|1.22|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.22|0.88|
82515024|NCT03149328|164722588|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.18||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||0.18
82635410|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-2.33|STANDARD_ERROR_OF_MEAN|3.73|||TWO_SIDED|95.0|-10.07|5.41|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.41|-10.07|
82381658|NCT02792517|164473570|OTHER||Least Squares Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.91|1.14|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.14|0.91|
82381659|NCT02792517|164473571|OTHER||Least Squares Geometric Mean Ratio|1.06|||||TWO_SIDED|90.0|0.97|1.16|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.16|0.97|
82381660|NCT02792517|164473572|OTHER||Least Squares Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.96|1.1|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.10|0.96|
82381661|NCT02792517|164473573|OTHER||Least Squares Geometric Mean Ratio|1.05|||||TWO_SIDED|90.0|0.9|1.23|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed Cmax was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.23|0.90|
82381662|NCT02792517|164473574|OTHER||Least Squares Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.94|1.12|||||Ratio of EE/norgestimate + erenumab to EE/norgestimate alone|The log-transformed AUCtau was analyzed using a linear mixed effects model with treatment as a fixed effect and subject as a random effect.||1.12|0.94|
82381663|NCT00663793|164473608|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 8 per group was estimated to confer an 80% power to detect a 40% difference in testosterone AUC with a standard deviation of 20% at an alpha of 0.05|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon sign-rank|||||||<0.05
82381664|NCT00663793|164473609|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was performed for this pilot study.|||||<|0.05||95.0|||||Wilcoxon sign-rank|||||||<0.05
82381665|NCT00663793|164473610|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation was performed for this pilot study||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Area-under-the-curve for serum estradiol||||0.05
82381666|NCT01836471|164473651|SUPERIORITY_OR_OTHER||least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.038||0.7269|TWO_SIDED|90.0|-0.5|0.08|||Mixed Models Analysis|||||0.08|-0.5|0.7269
82381667|NCT01836471|164473652|SUPERIORITY_OR_OTHER||least sqares mean|0.01|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|90.0|-0.08|0.09||||||||0.09|-0.08|
82381668|NCT01836471|164473652|SUPERIORITY_OR_OTHER||least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|90.0|-0.04|0.13||||||||0.13|-0.04|
82381669|NCT01836471|164473652|SUPERIORITY_OR_OTHER||least squares mean|-0.04|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|90.0|-0.13|0.05||||||||0.05|-0.13|
82381670|NCT01836471|164473653|SUPERIORITY_OR_OTHER|||||||0.9179|||||||Mixed Models Analysis|||||||0.9179
82381671|NCT01836471|164473654|SUPERIORITY_OR_OTHER||least squares mean|-0.02|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|95.0|-0.22|0.17||||||||0.17|-0.22|
82381672|NCT01836471|164473654|SUPERIORITY_OR_OTHER||least sqares mean|-0.07|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|-0.32|0.19||||||||0.19|-0.32|
82381673|NCT01836471|164473654|SUPERIORITY_OR_OTHER||least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.16|0.37||||||||0.37|-0.16|
82381674|NCT01836471|164473654|SUPERIORITY_OR_OTHER||least squares mean|-0.17|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.43|0.09||||||||0.09|-0.43|
82381675|NCT01836471|164473655|SUPERIORITY_OR_OTHER|||||||0.793|||||||Mixed Models Analysis|||||||0.7930
82381676|NCT02224157|164473696|NON_INFERIORITY|Non-inferiority analysis based on CI instead of p-value, hence no p-value calculated for this analysis. Upper limit of the 1-sided 95% confidence limit \<1.2 indicates Symbicort 'as needed' is non-inferior to Pulmicort bid|Rate ratio|0.97|||||ONE_SIDED|95.0||1.16|||Negative binomial model|Adjusted for randomised treatment, pre-study treatment and region. Logarithm of follow-up time is used as an offset variable.|A rate ratio less than 1 indicates a lower rate of exacerbations in the Symbicort 'as needed' treatment group.|||1.16||
82381677|NCT02224157|164473697|SUPERIORITY||Hazard Ratio (HR)|0.955||||0.664|TWO_SIDED|95.0|0.777|1.174|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||1.174|0.777|0.664
82523224|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|0.81|STANDARD_ERROR_OF_MEAN|0.809||0.3201|TWO_SIDED|80.0|-0.23|1.85||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.85|-0.23|0.3201
82515025|NCT03149328|164722589|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)||||||0.79||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||0.79
82635411|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-2.45|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-10.26|5.37|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.37|-10.26|
82635412|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-0.75|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-6.62|5.13|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.13|-6.62|
82635413|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-1.13|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|95.0|-6.83|4.58|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||4.58|-6.83|
82635414|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-5.13|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-10.72|0.47|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||0.47|-10.72|
82635415|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-3.64|STANDARD_ERROR_OF_MEAN|2.72|||TWO_SIDED|95.0|-9.29|2.01|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||2.01|-9.29|
82635416|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-3.92|STANDARD_ERROR_OF_MEAN|3.52|||TWO_SIDED|95.0|-11.22|3.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||3.38|-11.22|
82381678|NCT02224157|164473698|SUPERIORITY||Least Square Mean Difference|-32.6||||0.003|TWO_SIDED|95.0|-53.7|-11.4|||Mixed Models Analysis|Rand treatment,pre-study treatment,region,visit,rand treatment by visit; fixed effects. Patient; random effect, baseline FEV1; covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. Estimate corresponds to average treatment effect across all treatment visits.|||-11.4|-53.7|0.003
82635417|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-2.46|STANDARD_ERROR_OF_MEAN|3.42|||TWO_SIDED|95.0|-9.54|4.63|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||4.63|-9.54|
82635418|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-4.75|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-10.9|1.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||1.39|-10.90|
82635419|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-1.25|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-7.35|4.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||4.85|-7.35|
82635420|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-2.11|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|-8.57|4.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.35|-8.57|
82635421|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|0.05|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-6.21|6.31|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||6.31|-6.21|
82635422|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-6.66|STANDARD_ERROR_OF_MEAN|3.65|||TWO_SIDED|95.0|-14.22|0.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.90|-14.22|
82635423|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-6.38|STANDARD_ERROR_OF_MEAN|3.68|||TWO_SIDED|95.0|-14.01|1.25|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||1.25|-14.01|
82635424|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-2.29|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-9.3|4.71|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||4.71|-9.30|
82381679|NCT02224157|164473700|SUPERIORITY||Least Square Mean Difference|0.03|||||TWO_SIDED|95.0|0.0|0.07||No p-value was calculated for this efficacy variable|ANCOVA|Model with randomised treatment, pre-study treatment and region as factors, and no. of 'as needed' inhalations at baseline as continuous covariate|A mean difference less than zero indicates a larger mean reduction in number of 'as needed' inhalations in the Symbicort 'as needed' group.|||0.07|0.00|
82381680|NCT02224157|164473701|SUPERIORITY||Least Square Mean Difference|-6.85|||<|0.001|TWO_SIDED|95.0|-8.37|-5.34|||ANCOVA|adjusted for randomised treatment, pre-study treatment and region as factors and the percent 'as needed' free days during run-in as a cont covariate.|An estimate of difference \>0 means that there was a larger increase in the % of 'as needed' free days in the Symbicort 'as-needed' arm.|||-5.34|-8.37|< 0.001
82381681|NCT02224157|164473702|SUPERIORITY||Least Square Mean Difference|-37.48|||<|0.001|TWO_SIDED|95.0|-39.18|-35.77|||ANOVA|model adjusted for: randomised treatment, pre-study treatment and region.|An estimate of difference \>0 means that there was a higher % of controller use days in the Symbicort 'as-needed' group.|||-35.77|-39.18|<0.001
82381682|NCT02224157|164473703|SUPERIORITY||Least Square Mean Difference|0.109|||<|0.001|TWO_SIDED|95.0|0.068|0.15|||Mixed Models Analysis|rand treatment, pre-study treatment, region, visit, rand treat by visit as fixed, patient as random, and baseline ACQ-5 as covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||0.150|0.068|<0.001
82381683|NCT02224157|164473704|SUPERIORITY||Least Square Mean Difference|-0.096|||<|0.001|TWO_SIDED|95.0|-0.137|-0.054|||Mixed Models Analysis|rand treatment, pre-study treatment, region, visit, rand treat by visit as fixed, patient as random and baseline AQLQ as covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-0.054|-0.137|<0.001
82381684|NCT02224157|164473705|SUPERIORITY||Rate ratio|0.97||||0.754|TWO_SIDED|95.0|0.78|1.2|||Negative binomial model|Adjusted for randomised treatment, pre-study treatment and region. Logarithm of follow-up time is used as an offset variable.|A rate ratio less than 1 indicates a lower rate of exacerbations in the Symbicort 'as needed' treatment group.|||1.20|0.78|0.754
82381685|NCT00235755|164473744|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||<0.001
82381686|NCT00235755|164473744|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||0.007
82515026|NCT03149328|164722590|EQUIVALENCE|Based on a power analysis for an ANCOVA comparing 2 groups using the area under the curve approach, a total sample 459 (655 x 70% response rate) will provide 80% power to detect effect sizes (f2) of moderate magnitude at a statistical significance level of 0.05 (e.g., f2 ranging from 0.15 for 1 covariate to 0.19 for 10 covariates)|||||<|0.001||||||Threshold for statistical significance p = 0.05|ANCOVA|||"Analysis of covariance (ANCOVA) will be used as the method of analysis to compare outcomes of both groups while controlling for within- and between-group differences, such as comorbidities, gender, age and dialysis type. ANCOVA is necessary to control for baseline and potential confounders.~Null hypotheses = No difference between groups"||||<0.001
82381687|NCT00235755|164473745|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82381688|NCT00235755|164473745|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82381689|NCT01416636|164473764|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82381690|NCT01416636|164473764|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
82381691|NCT01416636|164473765|SUPERIORITY|||||||0.605|||||||Wilcoxon (Mann-Whitney)|||||||0.605
82381692|NCT01416636|164473766|SUPERIORITY|||||||0.307|||||||Wilcoxon (Mann-Whitney)|||||||0.307
82381693|NCT01416636|164473767|SUPERIORITY|||||||0.0019|||||||Chi-squared|||||||0.0019
82381694|NCT01416636|164473768|SUPERIORITY|||||||0.557|||||||Wilcoxon (Mann-Whitney)|||||||0.557
82381695|NCT01416636|164473769|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82381696|NCT01416636|164473770|SUPERIORITY|||||||1e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00001
82381697|NCT01416636|164473771|SUPERIORITY|||||||3e-06|||||||Wilcoxon (Mann-Whitney)|||||||0.000003
82381698|NCT01416636|164473772|SUPERIORITY|||||||8e-05|||||||Wilcoxon (Mann-Whitney)|||||||0.00008
82381699|NCT01416636|164473773|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82381700|NCT01416636|164473774|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
82381701|NCT01288079|164473810|SUPERIORITY_OR_OTHER||LS mean|-1.5|STANDARD_ERROR_OF_MEAN|2.95||0.617|TWO_SIDED|95.0|-7.35|4.39|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||4.39|-7.35|0.617
82381702|NCT01288079|164473810|SUPERIORITY_OR_OTHER||LS mean|-3.6|STANDARD_ERROR_OF_MEAN|3.26||0.277|TWO_SIDED|95.0|-10.06|2.91|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||2.91|-10.06|0.277
82381703|NCT01288079|164473810|SUPERIORITY_OR_OTHER||LS mean|-3.9|STANDARD_ERROR_OF_MEAN|2.95||0.194|TWO_SIDED|95.0|-9.72|2.0|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit, treatment by visit interaction, region, responsiveness, and region by responsiveness are fixed effects in the model; pooled center is a random effect.||2.00|-9.72|0.194
82381704|NCT02387840|164473813|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.0002
82381705|NCT02387840|164473813|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.0003
82381706|NCT02387840|164473814|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.081|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.081
82381707|NCT02387840|164473814|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.081|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.081
82381708|NCT02387840|164473815|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Comparison of T1 values||||0.12
82381709|NCT02387840|164473815|OTHER|This test was a two-sample test using non-parametric data. A predefined margin was not used because no gold standard exists. A p-value of less than 0.05 was considered statistically different||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Comparison of T2 values||||0.14
82381710|NCT00868530|164473820|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.120
82381711|NCT01609790|164473827|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||Z-test|One-sided test, significance level 0.15||Assuming a 36% 6-month (6m) rate in the placebo arm \[from the March 2009 Food and Drug Administration (FDA) briefing\], a 55% rate in the AMG 386 arm, and an exponential distribution corresponds to median PFS of 4.1 and 7 months, respectively, with a hazard ratio of 0.59 (AMG 386 arm vs. placebo arm). A total of 114 patients (57 per arm) will yield 85% power to detect an absolute 19% difference of 6m PFS rate at a 1-sided alpha level of 0.15 based on a 2-sample proportion test.||||0.98
82381712|NCT01609790|164473828|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|||||||Chi-squared|||||||0.85
82381713|NCT01609790|164473829|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.46||||0.09|TWO_SIDED|95.0|0.95|2.27|||Log Rank|||||2.27|0.95|0.09
82381714|NCT01609790|164473830|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.51||||0.04|TWO_SIDED|95.0|1.02|2.24|||Log Rank|||||2.24|1.02|0.04
82635425|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|3.28|||TWO_SIDED|95.0|-6.97|6.64|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.64|-6.97|
82381715|NCT01609790|164473831|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Chi-squared|||||||0.7
82381716|NCT02546986|164473844|SUPERIORITY||Hazard Ratio (HR)|1.374||||0.1789|TWO_SIDED|90.0|0.926|2.038|||Stratified Log-Rank Test|Stratified by squamous cell carcinoma versus non-squamous cell carcinoma|Hazard ratio and associated 2-sided 90% CIs were estimated using a Cox proportional hazard model|||2.038|0.926|0.1789
82381717|NCT02546986|164473845|SUPERIORITY||Disease Control Rate Difference|-13.3||||0.1572|TWO_SIDED|90.0|-29.0|3.5|||Cochran-Mantel-Haenszel|Stratified by squamous cell carcinoma vs non-squamous cell carcinoma||||3.5|-29.0|0.1572
82381718|NCT02546986|164473846|SUPERIORITY||Hazard Ratio (HR)|1.375||||0.2968|TWO_SIDED|90.0|0.83|2.276|||Stratified Log Rank|Stratified by squamous cell carcinoma vs non-squamous cell carcinoma).|Hazard ratio and associated 2-sided 90% CIs were estimated using Cox proportional hazard model.|||2.276|0.830|0.2968
82381719|NCT02546986|164473847|SUPERIORITY||Overall Response Rate (ORR) Difference|5.3|||||TWO_SIDED|90.0|-11.5|21.3|||||The 90% exact unconditional confidence interval was used for ORR difference.|||21.3|-11.5|
82381720|NCT02546986|164473849|SUPERIORITY||Hazard Ratio (HR)|1.352||||0.199|TWO_SIDED|90.0|0.914|2.0|||Stratified Log-Rank Test|Stratified by squamous cell carcinoma versus non-squamous cell carcinoma|Hazard ratio and associated 2-sided 90% CIs were estimated using a Cox proportional hazard model|||2.000|0.914|0.1990
82381721|NCT03985800|164473872|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|1.26||||0.53||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 1.26 with two degrees of freedom.||Null hypothesis: The trajectory of IBD complexity score does not differ by treatment group.||||0.53
82381722|NCT03985800|164473872|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.14||||0.57||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*age interaction term is 1.14 with two degrees of freedom.||Aim 2b., moderation by age. Null hypothesis: Age does not moderate the trajectory of complexity score by treatment group.||||0.57
82381723|NCT03985800|164473872|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|0.08||||0.96||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*diagnosis interaction term is 0.08 with two degrees of freedom.||Aim 2b., moderation by diagnosis. Null hypothesis: Diagnosis does not moderate the trajectory of complexity score by treatment group.||||0.96
82515027|NCT01306617|164722601|SUPERIORITY_OR_OTHER|||||||0.547|TWO_SIDED||||||Regression, Logistic|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||For the percentage of subjects with HCV RNA suppressed below the LLOD from Week 4 through Week 12, if it was assumed that 60% of subjects would be successfully suppressed from Week 4 through Week 12, then 20 subjects in arm 1 would give a 95% 2-sided confidence interval (CI) of (38.5%, 81.5%), 10 subjects in arm 2 would give a 95% CI of (29.6%, 90.4%), and 15 subjects in arm 3 would give a 95% CI of (35.2%, 84.8%) for the percentage of subjects suppressed using the binomial exact method.||||0.547
82381724|NCT03985800|164473872|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|6.41||||0.17||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 6.41 with two degrees of freedom.||Aim 2b., moderation by site. Null hypothesis: Site does not moderate the trajectory of complexity score by treatment group.||||0.17
82515028|NCT01306617|164722601|SUPERIORITY_OR_OTHER|||||||0.207|TWO_SIDED||||||Regression, Logistic|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.207
82515029|NCT01306617|164722602|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.061
82515030|NCT01306617|164722603|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.061
82515031|NCT01306617|164722603|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.375
82515032|NCT01306617|164722604|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.312
82515033|NCT01306617|164722604|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.012
82515034|NCT01306617|164722605|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.312
82381725|NCT03985800|164473872|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|2.6||||0.27||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 2.6 with two degrees of freedom.||Aim 2b., moderation by eHealth literacy. Null hypothesis: eHealth literacy does not moderate the trajectory of complexity score by treatment group.||||0.27
82381726|NCT03985800|164473873|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|0.21||||0.9||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 0.21 with two degrees of freedom.||Aim 1. The trajectory of PHQ-ADS does not differ by treatment group.||||0.90
82381727|NCT03985800|164473873|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.21||||0.55||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|||Aim 2a, moderation by disease activity. Null hypothesis: Disease activity does not moderate the trajectory of behavioral health score by treatment group.||||0.55
82381728|NCT03985800|164473873|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|1.37||||0.5||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*age interaction term is 1.37 with two degrees of freedom.||Aim 2b, moderation by age. Null hypothesis: Age does not moderate the trajectory of behavioral health score by treatment group.||||0.50
82381729|NCT03985800|164473873|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|5.16||||0.08||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*diagnosis interaction term is 5.16 with two degrees of freedom.||Aim 2b, moderation by diagnosis. Null hypothesis: Diagnosis does not moderate the trajectory of behavioral health score by treatment group.||||0.08
82381730|NCT03985800|164473873|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|0.11||||1||||||Threshold for statistical significance was 0.05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*site interaction term is 0.11 with two degrees of freedom.||Aim 2b, moderation by site. Null hypothesis: Site does not moderate the trajectory of behavioral health score by treatment group.||||1.0
82381731|NCT03985800|164473873|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|3.23||||0.2||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|The Chi-squared statistic for the group\*time\*eHealth literacy interaction term is 3.23 with two degrees of freedom.||Aim 2b, moderation by eHealth literacy. Null hypothesis: eHealth literacy does not moderate the trajectory of behavioral health score by treatment group.||||0.20
82381732|NCT03985800|164473874|SUPERIORITY|Considering a range of effect sizes for B1, B2, and B3, we estimated the outcome Y as Y=B1\*X+B2\*M+B3\*X\*M+ε, where ε\~N(0,1). Using Monte Carlo methods, we averaged across scenarios to determine the typical effect of B3 that can be detected with our current and projected sample sizes after 25% attrition. With our projected sample sizes we expect 0.80 power to detect a significant interaction when the magnitude of B3 is at least 0.50.|Type III Wald chi-squared|3.09||||0.53||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 3.09 with two degrees of freedom.||Null hypothesis: The trajectory of functional impairment does not differ by treatment group.||||0.53
82381733|NCT03985800|164473875|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|6.01||||0.05||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 6.01 with two degrees of freedom.||Null hypothesis: The trajectory of IBD-IBS symptom severity does not differ by treatment group.||||0.05
82381734|NCT03985800|164473876|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|4.14||||0.13||||||The threshold for statistical significance was .05.|Mixed Models Analysis|For hospitalizations, the Chi-squared statistic for the group\*time interaction term is 4.14 with two degrees of freedom||Null hypothesis: The trajectory of hospitalizations does not differ by treatment group.||||0.13
82381735|NCT03985800|164473876|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|0.82||||0.67||||||The threshold for statistical significance was .05.|Mixed Models Analysis|For ED visits, the Chi-squared statistic for the group\*time interaction term is 0.82 with two degrees of freedom.||Null hypothesis: The trajectory of ED visits does not differ by treatment group.||||0.67
82381736|NCT03985800|164473877|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|1.98||||0.37||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 1.98 with two degrees of freedom.||Null hypothesis: The trajectory of self-efficacy does not differ by treatment group.||||0.37
82381737|NCT03985800|164473878|SUPERIORITY|We calculated statistical power for the target sample size of 675 (\~337 in each of TEAM and TECH arms). After adjusting for the multiple testing in Aim 1 (2 tests) and considering 25% attrition, a sample size of 505 (\~252 per treatment group) will provide over 99.9% power for the hypothesis test for Aim 1.|Type III Wald chi-squared|5.57||||0.06||||||The threshold for statistical significance was .05.|Mixed Models Analysis|The Chi-squared statistic for the group\*time interaction term is 5.57 with two degrees of freedom.||Null hypothesis: The trajectory of quality of life does not differ by treatment group.||||0.06
82381738|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|0.9999|||||TWO_SIDED|95.0|0.8313|1.2025||||||||1.2025|0.8313|
82381739|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2454|||||TWO_SIDED|95.0|1.0355|1.4979||||||||1.4979|1.0355|
82381740|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2392|||||TWO_SIDED|95.0|1.0304|1.4904||||||||1.4904|1.0304|
82381741|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2394|||||TWO_SIDED|95.0|1.0305|1.4906||||||||1.4906|1.0305|
82381742|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|0.995|||||TWO_SIDED|95.0|0.8273|1.1967||||||||1.1967|0.8273|
82381743|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.5058|||||TWO_SIDED|95.0|1.252|1.811||||||||1.8110|1.2520|
82381744|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.506|||||TWO_SIDED|95.0|1.2522|1.8113||||||||1.8113|1.2522|
82381745|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2091|||||TWO_SIDED|95.0|1.0053|1.4541||||||||1.4541|1.0053|
82381746|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2151|||||TWO_SIDED|95.0|1.0103|1.4614||||||||1.4614|1.0103|
82381747|NCT05277922|164473880|SUPERIORITY||Geometric mean ratio|1.2456|||||TWO_SIDED|95.0|1.0357|1.4981||||||||1.4981|1.0357|
82381748|NCT00813150|164473900|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.196|TWO_SIDED|95.0|0.43|1.19|||Regression, Cox|||Null Hypothesis: The (median) time to progression is equal in both treatment groups||1.19|0.43|0.196
82381749|NCT00813150|164473901|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.196|TWO_SIDED|95.0|0.43|1.19|||Regression, Cox|||||1.19|0.43|0.196
82381750|NCT00813150|164473902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.645|TWO_SIDED|95.0|0.41|1.73|||Regression, Cox|||||1.73|0.41|0.645
82381751|NCT00813150|164473903|SUPERIORITY_OR_OTHER|||||||0.814|||||||Fisher Exact|||||||0.814
82381752|NCT03851406|164473995|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||> 0.99
82381753|NCT03851406|164473996|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||||||> 0.99
82381754|NCT03851406|164473997|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||> 0.99
82381755|NCT03851406|164473997|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||> 0.99
82381756|NCT03851406|164473998|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.38
82381757|NCT03851406|164473998|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.38
82381758|NCT03851406|164473999|OTHER|||||||0.25||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.25
82381759|NCT03851406|164473999|OTHER|||||||0.63||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.63
82381760|NCT03851406|164474000|OTHER|||||||0.88||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.88
82381761|NCT03851406|164474000|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||>0.99
82381762|NCT03851406|164474001|OTHER|||||||0.88||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.88
82381763|NCT03851406|164474001|OTHER|||||||0.25||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.25
82381764|NCT03851406|164474002|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||>0.99
82381765|NCT03851406|164474002|OTHER||||||>|0.99||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||>0.99
82381766|NCT03851406|164474003|OTHER|||||||0.75||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||4 hours post WSP exposure||||0.75
82381767|NCT03851406|164474003|OTHER|||||||0.38||||||The a priori threshold for statistical significance is \< 0.05.|Wilcoxon (Mann-Whitney)|||24 hours post WSP exposure||||0.38
82381768|NCT01217112|164474022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.044||0.766|TWO_SIDED|90.0|-0.09|0.06|||ANCOVA|||Data was analysed by analysis of covariance (ANCOVA). The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.06|-0.09|0.766
82381769|NCT01217112|164474022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.043||0.424|TWO_SIDED|90.0|-0.04|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.04|0.424
82381770|NCT01217112|164474022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.041||0.412|TWO_SIDED|90.0|-0.1|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.10|0.412
82381771|NCT01217112|164474022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.043||0.668|TWO_SIDED|90.0|-0.05|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.05|0.668
82381772|NCT01217112|164474023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.046||0.978|TWO_SIDED|90.0|-0.08|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.08|0.978
82635426|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-7.74|STANDARD_ERROR_OF_MEAN|3.51|||TWO_SIDED|95.0|-15.03|-0.44|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||-0.44|-15.03|
82635427|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-3.86|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|-10.88|3.16|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||3.16|-10.88|
82635428|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-9.53|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|95.0|-16.1|-2.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8||-2.95|-16.10|
82635429|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-5.66|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-11.82|0.5|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||0.50|-11.82|
82635430|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-8.62|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-17.77|0.54|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||0.54|-17.77|
82635431|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-6.05|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-14.79|2.69|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||2.69|-14.79|
82635432|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|-10.51|7.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.79|-10.51|
82635433|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-4.95|STANDARD_ERROR_OF_MEAN|4.11|||TWO_SIDED|95.0|-13.5|3.6|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||3.60|-13.50|
82635434|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-3.43|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|-10.81|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.96|-10.81|
82635435|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-5.38|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-12.64|1.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||1.89|-12.64|
82635436|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|95.0|-7.55|7.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||7.39|-7.55|
82635437|NCT03091920|164985981|OTHER|No statistical testing was performed.|Least squares mean difference|-1.89|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|-8.89|5.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||5.12|-8.89|
82635438|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-0.79|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|95.0|-4.17|2.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.59|-4.17|
82635439|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-1.09|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|95.0|-4.47|2.29|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||2.29|-4.47|
82635440|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-0.94|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|95.0|-4.02|2.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||2.14|-4.02|
82635441|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-2.67|STANDARD_ERROR_OF_MEAN|1.89|||TWO_SIDED|95.0|-6.6|1.26|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||1.26|-6.60|
82635442|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-1.84|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-5.77|2.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.10|-5.77|
82635443|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-2.25|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|95.0|-5.83|1.32|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||1.32|-5.83|
82635444|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-3.97|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|-9.5|1.56|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.56|-9.50|
82635445|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-4.17|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-9.52|1.18|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||1.18|-9.52|
82635446|NCT03091920|164985982|OTHER|No statistical testing was performed.|Least squares mean difference|-4.07|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-9.01|0.87|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||0.87|-9.01|
82515035|NCT01306617|164722605|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Cochran-Mantel-Haenszel|Arm, baseline log10 HCV RNA level (\<=800,000, \>800,000), IL-28B genotype (CC, non-CC), and HCV subgenotype (1a, 1b) were used as strata.||||||0.012
82635447|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|95.0|-8.01|1.21|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.21|-8.01|
82635448|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-3.6|STANDARD_ERROR_OF_MEAN|2.23|||TWO_SIDED|95.0|-8.21|1.02|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||1.02|-8.21|
82635449|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-7.53|0.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||0.92|-7.53|
82635450|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-2.01|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-6.24|2.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.23|-6.24|
82635451|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-7.29|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-12.8|-1.79|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||-1.79|-12.80|
82635452|NCT03091920|164985983|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-10.43|0.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||0.23|-10.43|
82515036|NCT01306617|164722606|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||Log Rank|||||||0.395
82515037|NCT01306617|164722606|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Log Rank|||||||0.010
82515038|NCT01306617|164722607|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Log Rank|||||||0.048
82635453|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|0.99|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-2.97|4.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||4.95|-2.97|
82635454|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|0.55|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-3.41|4.52|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||4.52|-3.41|
82515039|NCT01114516|164722638|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||Log Rank|||Kaplan Meier survival analysis||||0.018
82381773|NCT01217112|164474023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.045||0.864|TWO_SIDED|90.0|-0.08|0.07|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.07|-0.08|0.864
82635455|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|-2.54|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-7.63|2.56|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.56|-7.63|
82381774|NCT01217112|164474023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.537|TWO_SIDED|90.0|-0.12|0.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.05|-0.12|0.537
82381775|NCT01217112|164474023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.045||0.26|TWO_SIDED|90.0|-0.02|0.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.13|-0.02|0.260
82381776|NCT01217112|164474024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.088|TWO_SIDED|90.0|-0.61|-0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.01|-0.61|0.088
82381777|NCT01217112|164474024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.177||0.583|TWO_SIDED|90.0|-0.2|0.39|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.39|-0.20|0.583
82381778|NCT01217112|164474024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.169||0.388|TWO_SIDED|90.0|-0.14|0.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.43|-0.14|0.388
82381779|NCT01217112|164474024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.58|TWO_SIDED|90.0|-0.19|0.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.38|-0.19|0.580
82381780|NCT01217112|164474025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.198||0.829|TWO_SIDED|90.0|-0.29|0.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.37|-0.29|0.829
82381781|NCT01217112|164474025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.196||0.575|TWO_SIDED|90.0|-0.22|0.44|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.44|-0.22|0.575
82381782|NCT01217112|164474025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.203||0.356|TWO_SIDED|90.0|-0.15|0.53|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.53|-0.15|0.356
82635456|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|-2.26|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-7.36|2.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||2.85|-7.36|
82635457|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|3.13|||TWO_SIDED|95.0|-7.55|5.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||5.49|-7.55|
82381783|NCT01217112|164474025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.188||0.472|TWO_SIDED|90.0|-0.18|0.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.45|-0.18|0.472
82381784|NCT01217112|164474026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.181||0.115|TWO_SIDED|90.0|-0.59|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.59|0.115
82381785|NCT01217112|164474026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.177||0.782|TWO_SIDED|90.0|-0.25|0.35|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.35|-0.25|0.782
82515040|NCT01114516|164722639|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|1.06|2.05||||||||2.05|1.06|
82515041|NCT01114516|164722640|SUPERIORITY_OR_OTHER|||||||0.393|TWO_SIDED||||||Kruskal-Wallis|||||||0.393
82515042|NCT03779841|164722650|SUPERIORITY||Risk Ratio (RR)|0.8||||0.1612|TWO_SIDED|95.0|0.58|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.58|0.1612
82635458|NCT03091920|164985984|OTHER|No statistical testing was performed.|Least squares mean difference|-3.68|STANDARD_ERROR_OF_MEAN|3.04|||TWO_SIDED|95.0|-10.0|2.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||2.65|-10.00|
82515043|NCT03779841|164722650|SUPERIORITY||Risk Ratio (RR)|1.04||||0.7789|TWO_SIDED|95.0|0.79|1.37|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.37|0.79|0.7789
82515044|NCT03779841|164722651|SUPERIORITY|||||||0.2972|||||||stratified Wilcoxon (Van Elteren)|||P-value is obtained from stratified Wilcoxon (Van Elteren) test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.2972
82515045|NCT03779841|164722651|SUPERIORITY|||||||0.8722|||||||stratified Wilcoxon (Van Elteren)|||P-value is obtained from stratified Wilcoxon (Van Elteren) test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.8722
82635459|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-2.58|STANDARD_ERROR_OF_MEAN|2.49|||TWO_SIDED|95.0|-7.76|2.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||2.59|-7.76|
82515046|NCT03779841|164722652|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9814|TWO_SIDED|95.0|0.5|1.96|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.96|0.50|0.9814
82515047|NCT03779841|164722652|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9715|TWO_SIDED|95.0|0.5|1.97|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.97|0.50|0.9715
82515048|NCT03779841|164722653|SUPERIORITY|||||||0.1281|||||||Log Rank|||P-value is from stratified log-rank test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.1281
82515049|NCT03779841|164722653|SUPERIORITY|||||||0.882|||||||Log Rank|||P-value is from stratified log-rank test versus Placebo with type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years) as stratification factors.||||0.8820
82515050|NCT03779841|164722654|SUPERIORITY||Risk Ratio (RR)|0.79||||0.1623|TWO_SIDED|95.0|0.57|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.57|0.1623
82515051|NCT03779841|164722654|SUPERIORITY||Risk Ratio (RR)|1.04||||0.7776|TWO_SIDED|95.0|0.78|1.39|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.39|0.78|0.7776
82515052|NCT03779841|164722655|SUPERIORITY||Risk Ratio (RR)|0.79||||0.1603|TWO_SIDED|95.0|0.56|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.56|0.1603
82515053|NCT03779841|164722655|SUPERIORITY||Risk Ratio (RR)|1.06||||0.6706|TWO_SIDED|95.0|0.8|1.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.42|0.80|0.6706
82515054|NCT03779841|164722656|SUPERIORITY||Risk Ratio (RR)|0.78||||0.1583|TWO_SIDED|95.0|0.55|1.1|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.10|0.55|0.1583
82523807|NCT00696410|164743237|SUPERIORITY_OR_OTHER|||||||0.92|||||||Sign test|||p value represents test of paired (within patient) difference||||0.92
82635460|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.06|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-9.32|1.19|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||1.19|-9.32|
82635461|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-3.86|STANDARD_ERROR_OF_MEAN|2.73|||TWO_SIDED|95.0|-9.51|1.8|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||1.80|-9.51|
82635462|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.73|STANDARD_ERROR_OF_MEAN|2.73|||TWO_SIDED|95.0|-10.4|0.93|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||0.93|-10.40|
82635463|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-5.1|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-12.06|1.86|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||1.86|-12.06|
82635464|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-2.96|STANDARD_ERROR_OF_MEAN|3.33|||TWO_SIDED|95.0|-9.87|3.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||3.96|-9.87|
82635465|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|0.87|STANDARD_ERROR_OF_MEAN|2.69|||TWO_SIDED|95.0|-4.7|6.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||6.45|-4.70|
82635466|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|0.55|STANDARD_ERROR_OF_MEAN|2.63|||TWO_SIDED|95.0|-4.9|6.01|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||6.01|-4.90|
82635467|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|-7.22|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.10|-7.22|
82635468|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|3.28|||TWO_SIDED|95.0|-7.27|6.34|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.34|-7.27|
82515055|NCT03779841|164722656|SUPERIORITY||Risk Ratio (RR)|1.07||||0.6694|TWO_SIDED|95.0|0.8|1.43|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.43|0.80|0.6694
82635469|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|1.72|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|-3.26|6.69|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||6.69|-3.26|
82635470|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-4.69|5.2|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||5.20|-4.69|
82635471|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.43|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|95.0|-8.5|-0.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||-0.36|-8.50|
82635472|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.17|STANDARD_ERROR_OF_MEAN|1.99|||TWO_SIDED|95.0|-8.3|-0.03|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||-0.03|-8.30|
82515056|NCT03779841|164722657|SUPERIORITY||Risk Ratio (RR)|0.81||||0.2578|TWO_SIDED|95.0|0.55|1.18|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.18|0.55|0.2578
82523808|NCT00696410|164743237|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||p value tests difference between the marker in CHF patients at time 0 and Health Controls (between group)||||0.22
82523809|NCT03184792|164743240|SUPERIORITY||Mean Difference (Final Values)|9.5|||<|0|TWO_SIDED|95.0|6.6|12.4|||ANOVA|||||12.4|6.6|<0.000
82523810|NCT03184792|164743240|SUPERIORITY||Median Difference (Final Values)|10.4||||0.01|TWO_SIDED|95.0|3.7|17.0|||t-test, 2 sided|||||17.0|3.7|0.010
82523811|NCT03184792|164743241|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82523812|NCT02134587|164743254|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.00001
82523813|NCT02134587|164743255|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82523814|NCT01515748|164743264|SUPERIORITY|||||||0.0152||||||Threshold for statistical significance at 0.049.|Stratified Log Rank|||Analysis was performed using Kaplan-Meier method. Comparison was stratified based on site and TNM classification (T4/N-, T2/N+, T3-4/N+).||||0.0152
82523815|NCT01971723|164743299|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||ANOVA|Groups were compared against each other at the two different time points and against themselves at the same time points.||This statistical analysis is for the squat one repetition maximum outcomes, only.||||.38
82523816|NCT01971723|164743299|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||This statistical analysis is for the bench press one repetition maximum outcomes, only.||||0.0001
82515057|NCT03779841|164722657|SUPERIORITY||Risk Ratio (RR)|1.05||||0.7526|TWO_SIDED|95.0|0.76|1.47|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.47|0.76|0.7526
82515058|NCT03779841|164722658|SUPERIORITY||Risk Ratio (RR)|0.8||||0.2549|TWO_SIDED|95.0|0.55|1.18|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.18|0.55|0.2549
82515059|NCT03779841|164722658|SUPERIORITY||Risk Ratio (RR)|1.03||||0.8544|TWO_SIDED|95.0|0.73|1.45|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.45|0.73|0.8544
82381786|NCT01217112|164474026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.173||0.902|TWO_SIDED|90.0|-0.27|0.31|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.31|-0.27|0.902
82523817|NCT01971723|164743299|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||This statistical analysis is for the deadlift one repetition maximum measures, only.||||.3
82523818|NCT01971723|164743299|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||This statistical analysis compares the outcomes of the total weight lifted.||||0.0001
82381787|NCT01217112|164474026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.166||0.993|TWO_SIDED|90.0|-0.28|0.28|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.28|-0.28|0.993
82381788|NCT01217112|164474027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.143||0.956|TWO_SIDED|90.0|-0.23|0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.25|-0.23|0.956
82381789|NCT01217112|164474027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.144||0.705|TWO_SIDED|90.0|-0.19|0.3|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.30|-0.19|0.705
82381790|NCT01217112|164474027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.148||0.466|TWO_SIDED|90.0|-0.14|0.36|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.36|-0.14|0.466
82381791|NCT01217112|164474027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.136||0.876|TWO_SIDED|90.0|-0.21|0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.25|-0.21|0.876
82381792|NCT01217112|164474028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.034||0.408|TWO_SIDED|90.0|-0.03|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.03|0.408
82381793|NCT01217112|164474028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.032||0.714|TWO_SIDED|90.0|-0.04|0.07|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.07|-0.04|0.714
82381794|NCT01217112|164474028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.032||0.267|TWO_SIDED|90.0|-0.09|0.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.02|-0.09|0.267
82381795|NCT01217112|164474028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.032||0.484|TWO_SIDED|90.0|-0.03|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.03|0.484
82381796|NCT01217112|164474029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.039||0.56|TWO_SIDED|90.0|-0.09|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.09|0.560
82381797|NCT01217112|164474029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.037||0.956|TWO_SIDED|90.0|-0.06|0.06|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.06|-0.06|0.956
82381798|NCT01217112|164474029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.039||0.403|TWO_SIDED|90.0|-0.1|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.10|0.403
82381799|NCT01217112|164474029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.037||0.617|TWO_SIDED|90.0|-0.04|0.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.08|-0.04|0.617
82381800|NCT01217112|164474030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.108||0.815|TWO_SIDED|90.0|-0.16|0.21|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.21|-0.16|0.815
82381801|NCT01217112|164474030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.105||0.418|TWO_SIDED|90.0|-0.09|0.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.26|-0.09|0.418
82381802|NCT01217112|164474030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.111||0.236|TWO_SIDED|90.0|-0.05|0.32|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.32|-0.05|0.236
82523819|NCT01971723|164743300|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82523820|NCT01971723|164743301|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical measurement is for cholesterol measure outcomes, only.||||>.05
82523821|NCT01971723|164743301|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for glucose measure outcomes, only.||||>.05
82523822|NCT01971723|164743301|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for HDL measure outcomes, only.||||>.05
82523823|NCT01971723|164743301|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for LDL measure outcomes, only.||||>.05
82523824|NCT01971723|164743301|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis for the triglyceride measure outcomes, only.||||>.05
82523825|NCT01971723|164743302|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82381803|NCT01217112|164474030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.103||0.556|TWO_SIDED|90.0|-0.11|0.23|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.23|-0.11|0.556
82381804|NCT01217112|164474031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.241||0.329|TWO_SIDED|90.0|-0.64|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.64|0.329
82381805|NCT01217112|164474031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.236||0.232|TWO_SIDED|90.0|-0.11|0.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.68|-0.11|0.232
82381806|NCT01217112|164474031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.222||0.164|TWO_SIDED|90.0|-0.06|0.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.68|-0.06|0.164
82381807|NCT01217112|164474031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.232||0.302|TWO_SIDED|90.0|-0.15|0.63|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.63|-0.15|0.302
82381808|NCT01217112|164474032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.231||0.614|TWO_SIDED|90.0|-0.5|0.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.27|-0.50|0.614
82381809|NCT01217112|164474032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.227||0.669|TWO_SIDED|90.0|-0.28|0.48|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.48|-0.28|0.669
82381810|NCT01217112|164474032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.24||0.621|TWO_SIDED|90.0|-0.28|0.52|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.52|-0.28|0.621
82381811|NCT01217112|164474032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.222||0.867|TWO_SIDED|90.0|-0.33|0.41|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.41|-0.33|0.867
82381812|NCT01217112|164474033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.55|STANDARD_ERROR_OF_MEAN|2.624||0.335|TWO_SIDED|90.0|-1.84|6.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.95|-1.84|0.335
82515060|NCT03779841|164722659|SUPERIORITY||Risk Ratio (RR)|0.74||||0.1718|TWO_SIDED|95.0|0.48|1.14|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.14|0.48|0.1718
82515061|NCT03779841|164722659|SUPERIORITY||Risk Ratio (RR)|0.83||||0.3801|TWO_SIDED|95.0|0.54|1.27|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.27|0.54|0.3801
82515062|NCT03779841|164722660|SUPERIORITY||Risk Ratio (RR)|0.87||||0.5531|TWO_SIDED|95.0|0.54|1.39|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.39|0.54|0.5531
82515063|NCT03779841|164722660|SUPERIORITY||Risk Ratio (RR)|0.82||||0.4213|TWO_SIDED|95.0|0.51|1.33|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.33|0.51|0.4213
82381813|NCT01217112|164474033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.36|STANDARD_ERROR_OF_MEAN|2.545||0.358|TWO_SIDED|90.0|-1.9|6.62|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.62|-1.90|0.358
82381814|NCT01217112|164474033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|2.406||0.9|TWO_SIDED|90.0|-3.72|4.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.33|-3.72|0.900
82381815|NCT01217112|164474033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.02|STANDARD_ERROR_OF_MEAN|2.486||0.019|TWO_SIDED|90.0|1.86|10.19|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.19|1.86|0.019
82381816|NCT01217112|164474034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.245||0.325|TWO_SIDED|90.0|-0.65|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.65|0.325
82523826|NCT01971723|164743303|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82381817|NCT01217112|164474034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.238||0.438|TWO_SIDED|90.0|-0.21|0.59|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.59|-0.21|0.438
82381818|NCT01217112|164474034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.226||0.701|TWO_SIDED|90.0|-0.29|0.47|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.47|-0.29|0.701
82381819|NCT01217112|164474034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.232||0.624|TWO_SIDED|90.0|-0.5|0.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.27|-0.50|0.624
82381820|NCT01217112|164474035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.058||0.233|TWO_SIDED|90.0|-0.17|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.17|0.233
82381821|NCT01217112|164474035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.056||0.727|TWO_SIDED|90.0|-0.07|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.07|0.727
82381822|NCT01217112|164474035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.053||0.593|TWO_SIDED|90.0|-0.06|0.12|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.12|-0.06|0.593
82381823|NCT01217112|164474035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.056||0.075|TWO_SIDED|90.0|-0.2|-0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.01|-0.20|0.075
82515064|NCT03779841|164722661|SUPERIORITY||Risk Ratio (RR)|0.92||||0.804|TWO_SIDED|95.0|0.49|1.73|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.73|0.49|0.8040
82515065|NCT03779841|164722661|SUPERIORITY||Risk Ratio (RR)|1.1||||0.7573|TWO_SIDED|95.0|0.61|1.98|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.98|0.61|0.7573
82381824|NCT01217112|164474036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.084||0.236|TWO_SIDED|90.0|-0.04|0.24|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.24|-0.04|0.236
82381825|NCT01217112|164474036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.082||0.579|TWO_SIDED|90.0|-0.09|0.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.18|-0.09|0.579
82515066|NCT03779841|164722662|SUPERIORITY||Risk Ratio (RR)|0.69||||0.4065|TWO_SIDED|95.0|0.28|1.67|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.67|0.28|0.4065
82515067|NCT03779841|164722662|SUPERIORITY||Risk Ratio (RR)|1.28||||0.5257|TWO_SIDED|95.0|0.6|2.7|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||2.70|0.60|0.5257
82515068|NCT03779841|164722663|SUPERIORITY||Risk Ratio (RR)|0.78||||0.1612|TWO_SIDED|95.0|0.55|1.11|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.11|0.55|0.1612
82381826|NCT01217112|164474036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.077||0.837|TWO_SIDED|90.0|-0.15|0.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.11|-0.15|0.837
82381827|NCT01217112|164474036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.081||0.467|TWO_SIDED|90.0|-0.08|0.19|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.19|-0.08|0.467
82381828|NCT01217112|164474037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.613||0.533|TWO_SIDED|90.0|-1.41|0.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.64|-1.41|0.533
82381829|NCT01217112|164474037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.585||0.804|TWO_SIDED|90.0|-0.84|1.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.13|-0.84|0.804
82523827|NCT01971723|164743304|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82381830|NCT01217112|164474037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.556||0.916|TWO_SIDED|90.0|-0.87|0.99|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.99|-0.87|0.916
82381831|NCT01217112|164474037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.583||0.04|TWO_SIDED|90.0|-2.2|-0.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||-0.25|-2.20|0.040
82381832|NCT01217112|164474038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|10.838||0.366|TWO_SIDED|90.0|-28.06|8.27|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||8.27|-28.06|0.366
82515069|NCT03779841|164722663|SUPERIORITY||Risk Ratio (RR)|1.0||||0.9966|TWO_SIDED|95.0|0.74|1.35|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.35|0.74|0.9966
82515070|NCT03779841|164722664|SUPERIORITY||Risk Ratio (RR)|0.68||||0.3374|TWO_SIDED|95.0|0.3|1.52|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.52|0.30|0.3374
82515071|NCT03779841|164722664|SUPERIORITY||Risk Ratio (RR)|1.23||||0.5403|TWO_SIDED|95.0|0.62|2.45|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||2.45|0.62|0.5403
82515072|NCT03779841|164722665|SUPERIORITY||Risk Ratio (RR)|3.94||||0.0163|TWO_SIDED|95.0|1.16|13.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||13.42|1.16|0.0163
82515073|NCT03779841|164722665|SUPERIORITY||Risk Ratio (RR)|2.7||||0.1101|TWO_SIDED|95.0|0.76|9.64|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||9.64|0.76|0.1101
82515074|NCT03779841|164722666|SUPERIORITY||Risk Ratio (RR)|0.86||||0.3339|TWO_SIDED|95.0|0.64|1.16|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.16|0.64|0.3339
82515075|NCT03779841|164722666|SUPERIORITY||Risk Ratio (RR)|1.1||||0.4614|TWO_SIDED|95.0|0.85|1.42|||Cochran-Mantel-Haenszel|||P-values and Risk Ratios (and their corresponding 95% CI) for each pairwise comparison of AGN-151607 versus Placebo are obtained from Cochran-Mantel-Haenszel (CMH) test controlling for type of surgery (presence or absence of valve surgery) and age group (\< 65 or ≥ 65 years).||1.42|0.85|0.4614
82515076|NCT01016834|164722684|SUPERIORITY_OR_OTHER|||||||0.0007|||||||t-test, 2 sided|||For the primary analyses and other PPMQ-R variables, the mean of the differences between each subject's rating of overall treatment satisfaction at the end of study based on the subject's experience using Sumavel DosePro and the rating at baseline based on the subject's pre-study triptan treatment were compared using a two-sided paired t-test at the 5% level of significance||||0.0007
82515077|NCT03047447|164722692|OTHER|||||||0.001||||||Change over time from week 0 to week 10 with HgA1c for experimental ketogenic group vs.control exercise and non-exercise groups.|ANOVA|||||||0.001
82515078|NCT03047447|164722693|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with weight for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
82515079|NCT03047447|164722694|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with BMI for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
82515080|NCT03047447|164722695|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with body fat mass for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
82515081|NCT03047447|164722696|OTHER|||||||0.001|||||||ANOVA|Change over time from week 0 to week 10 with blood ketones for experimental ketogenic group vs.control exercise and non-exercise groups.||||||0.001
82515082|NCT02669329|164722706|OTHER||success proportion|85.2|||||TWO_SIDED|95.0|72.9|93.4||||||||93.4|72.9|
82523225|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|0.85|STANDARD_ERROR_OF_MEAN|0.813||0.2961|TWO_SIDED|80.0|-0.19|1.9||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.90|-0.19|0.2961
82381833|NCT01217112|164474038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|10.692||0.844|TWO_SIDED|90.0|-15.81|20.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||20.03|-15.81|0.844
82381834|NCT01217112|164474038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.96|STANDARD_ERROR_OF_MEAN|10.026||0.118|TWO_SIDED|90.0|-32.76|0.84|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.84|-32.76|0.118
82515083|NCT01404312|164722731|NON_INFERIORITY|"Non-inferiority margin: 1.25 events per 100 person-years.~Sample size determination was based on the assumption of a primary endpoint rate of 2.0/100 person-years, with a one-sided 0.025 alpha level, and targeting at least 90% power. This required a sample size of approximately 2500. The sample size was adjusted upwards to account for loss to follow-up, interim monitoring, and to allow for subgroup analyses with reasonable power."|Incidence Rate Difference|-0.0231|||||TWO_SIDED|95.1|-0.346|0.3|||||"Estimate given as Incidence rate in Arm A - Incidence Rate in Arm B (negative favors Arm A).~Incidence rate units: Events per 100 person-years"|Mantel-Haenszel method used for estimating standardized incidence rate in each arm and incidence rate difference.||0.300|-0.346|
82515084|NCT01404312|164722732|SUPERIORITY||Risk Difference (RD)|-0.016||||0.073|TWO_SIDED|95.0|-0.035|0.002||Not adjusted for multiple comparisons.|Fisher Exact||Estimate given as: Proportion Arm A - Proportion Arm B|"Comparison of the proportion of participants with any SAE occurrence between arms A and B.~H0: Proportion of participants with SAE in Arm A = Proportion of participants with SAE in Arm B."||0.002|-0.035|0.073
82515085|NCT01404312|164722733|SUPERIORITY||Risk Difference (RD)|-0.0058||||0.405|TWO_SIDED|95.0|-0.019|0.007||Not adjusted for multiple comparisons|Fisher Exact||Estimate given as: Proportion Arm A - Proportion Arm B|"Comparison of the proportion of participants with any targeted adverse event occurrence between arms A and B.~H0: Proportion of participants with a targeted adverse event in Arm A = Proportion of participants with a targeted adverse event in Arm B."||0.007|-0.019|0.405
82523828|NCT01971723|164743305|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82523829|NCT01971723|164743306|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82635473|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-3.39|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.82|3.04|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||3.04|-9.82|
82635474|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.06|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|-7.51|5.38|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||5.38|-7.51|
82635475|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-2.82|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-8.12|2.48|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||2.48|-8.12|
82635476|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.36|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|95.0|-6.63|3.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||3.91|-6.63|
82635477|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.19|STANDARD_ERROR_OF_MEAN|2.97|||TWO_SIDED|95.0|-7.35|4.97|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.97|-7.35|
82635478|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.26|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|95.0|-7.3|4.77|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||4.77|-7.30|
82635479|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-5.86|STANDARD_ERROR_OF_MEAN|3.29|||TWO_SIDED|95.0|-12.68|0.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.95|-12.68|
82635480|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|3.36|||TWO_SIDED|95.0|-13.16|0.76|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||0.76|-13.16|
82635481|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-7.87|4.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||4.65|-7.87|
82635482|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-0.63|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-6.85|5.59|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||5.59|-6.85|
82635483|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-6.91|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-12.74|-1.08|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||-1.08|-12.74|
82635484|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.04|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-9.73|1.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||1.66|-9.73|
82381835|NCT01217112|164474038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.67|STANDARD_ERROR_OF_MEAN|10.256||0.518|TWO_SIDED|90.0|-23.86|10.51|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.51|-23.86|0.518
82515086|NCT01404312|164722734|SUPERIORITY||Odds Ratio (OR)|2.093|||||TWO_SIDED|95.0|1.315|3.332|||||"Estimate given as: Odds of being in higher category (more stringent management due to toxicity) for Arm B compared with arm A~Not adjusted for multiple comparisons."|"Odds ratio of being in higher category estimated from proportional odds model~H0: Odds ratio of being in higher category for Arm A vs Arm B = 1"||3.332|1.315|
82635485|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-8.25|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-13.59|-2.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||-2.91|-13.59|
82635486|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-5.56|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-10.76|-0.35|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||-0.35|-10.76|
82635487|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-7.07|STANDARD_ERROR_OF_MEAN|3.91|||TWO_SIDED|95.0|-15.2|1.05|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||1.05|-15.20|
82635488|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-5.85|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-13.68|1.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||1.98|-13.68|
82635489|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-10.14|7.33|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||7.33|-10.14|
82635490|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-5.16|STANDARD_ERROR_OF_MEAN|3.99|||TWO_SIDED|95.0|-13.46|3.14|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||3.14|-13.46|
82635491|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-2.37|STANDARD_ERROR_OF_MEAN|3.74|||TWO_SIDED|95.0|-10.14|5.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||5.40|-10.14|
82381836|NCT01217112|164474039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.294||0.576|TWO_SIDED|90.0|-0.66|0.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.33|-0.66|0.576
82515087|NCT01404312|164722735|SUPERIORITY|||||||0.3078||||||Not adjusted for multiple comparisons|Log Rank|||H0: Survival curve Arm A = Survival curve Arm B||||0.3078
82381837|NCT01217112|164474039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.283||0.648|TWO_SIDED|90.0|-0.6|0.34|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.34|-0.60|0.648
82523830|NCT01971723|164743307|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>.05
82523831|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for deadlift volume measure outcomes, only.||||>.05
82570333|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-4.31|||=|0.794|TWO_SIDED|95.0|-36.84|28.22||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 10||28.22|-36.84|=0.794
82381838|NCT01217112|164474039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.269||0.447|TWO_SIDED|90.0|-0.66|0.24|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.24|-0.66|0.447
82515088|NCT01404312|164722736|SUPERIORITY||Hazard Ratio (HR)|1.396||||0.2802|TWO_SIDED|95.0|0.762|2.559||Not adjusted for multiple comparisons|Hazard Ratio||Hazard ratio given as: Arm B hazard / Arm A hazard, i.e. HR \> 1 favors arm A|"Competing risk analysis using the Fine-Gray model, treating TB-related deaths as competing risks, and other deaths including deaths of unknown cause as the event of interest.~H0: Hazard Ratio for Arm A vs Arm B = 1"||2.559|0.762|0.2802
82515089|NCT00116805|164722741|NON_INFERIORITY_OR_EQUIVALENCE|With a sample size of 160 subjects in the TDF group and 80 subjects in the ADV group, a two group large-sample normal approximation test of proportions with a one-sided 0.025 significance level would have 95% power to reject the null hypothesis that the TDF treatment was inferior to the ADV treatment (the difference in proportions was less than -0.080) in favor of the alternative hypothesis that the TDF treatment was not inferior.|Difference in proportions|54.1|STANDARD_ERROR_OF_MEAN|4.8|<|0.001|TWO_SIDED|95.0|44.6|63.6||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted (baseline ALT ≤ 4 x upper limit of the normal range \[ULN\] or \> 4 x ULN) difference is 0.|Z-test|2-sided 95% confidence interval (CI), stratified by baseline ALT was used to evaluate difference between groups in proportion of complete responders.||||63.6|44.6|<0.001
82381839|NCT01217112|164474039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.283||0.273|TWO_SIDED|90.0|-0.79|0.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.16|-0.79|0.273
82515090|NCT00116805|164722742|SUPERIORITY_OR_OTHER||Difference in proportions|63.1|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|53.8|72.3||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference in zero.|Z-test|Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||||72.3|53.8|<0.001
82515091|NCT00116805|164722743|SUPERIORITY_OR_OTHER||Difference in proportions|-1.4|STANDARD_ERROR_OF_MEAN|5.4||0.801|TWO_SIDED|95.0|-12.0|9.3||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference is zero.|Z-test|Two-sided 95% CIs, stratified by baseline ALT (baseline ALT ≤ 4 x ULN or \> 4 x ULN), were used to evaluate treatment group differences.||||9.3|-12.0|0.801
82515092|NCT00116805|164722748|SUPERIORITY_OR_OTHER||Difference in proportions|5.8|STANDARD_ERROR_OF_MEAN|5.8||0.32|TWO_SIDED|95.0|-5.6|17.2||P-value corresponds to a Z-test of the null hypothesis that the stratum-adjusted difference in zero. Difference, standard error of the difference, and the CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||||17.2|-5.6|0.320
82515093|NCT00116805|164722754|SUPERIORITY_OR_OTHER||Difference in proportions|13.6|STANDARD_ERROR_OF_MEAN|6.4||0.032|TWO_SIDED|95.0|1.1|26.1||P-value corresponds to a Z-test. Statistical tests were not adjusted for baseline ALT stratum.|Z-test|Difference, standard error of the difference, and CI are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).||||26.1|1.1|0.032
82515094|NCT00116805|164722755|SUPERIORITY_OR_OTHER||Difference in proportions|-9.8|STANDARD_ERROR_OF_MEAN|6.0||0.1|TWO_SIDED|95.0|-21.5|1.9||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and CI are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).||||1.9|-21.5|0.100
82515095|NCT00116805|164722760|SUPERIORITY_OR_OTHER||Difference in proportions|6.1|STANDARD_ERROR_OF_MEAN|5.3||0.245|TWO_SIDED|95.0|-4.2|16.4||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg loss.||16.4|-4.2|0.245
82515096|NCT00116805|164722760|SUPERIORITY_OR_OTHER||Difference in proportions|4.7|STANDARD_ERROR_OF_MEAN|5.2||0.363|TWO_SIDED|95.0|-5.5|14.9||P-value for HBeAg seroconversion corresponds to Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg seroconversion.||14.9|-5.5|0.363
82515097|NCT00116805|164722761|SUPERIORITY_OR_OTHER||Difference in proportions|0.3|STANDARD_ERROR_OF_MEAN|5.9||0.963|TWO_SIDED|95.0|-11.3|11.9||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).||This information pertains to HBeAg loss.||11.9|-11.3|0.963
82515098|NCT00116805|164722761|SUPERIORITY_OR_OTHER||Difference in proportions|0.7|STANDARD_ERROR_OF_MEAN|5.6||0.904|TWO_SIDED|95.0|-10.4|11.7||P-value above for HBeAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero.|Z-test|Difference, standard error of the difference, and Cl are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \>4 x ULN).||This information pertains to seroconversion to anti-HBe.||11.7|-10.4|0.904
82570334|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-36.78|||=|0.033|TWO_SIDED|95.0|-70.48|-3.08||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Change From Baseline at Week 12||-3.08|-70.48|=0.033
82515099|NCT00116805|164722762|SUPERIORITY_OR_OTHER||Difference in proportions|10.9|STANDARD_ERROR_OF_MEAN|4.6||0.018|TWO_SIDED|95.0|1.9|19.9||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero. Difference, standard error of the difference, and confidence interval (CI) are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg loss.||19.9|1.9|0.018
82515100|NCT00116805|164722762|SUPERIORITY_OR_OTHER||Difference in proportions|4.3|STANDARD_ERROR_OF_MEAN|3.0||0.148|TWO_SIDED|95.0|-1.5|10.2||P-value corresponds to a Z-test of the null hypothesis that the ALT stratum-adjusted difference is zero. Difference, standard error of the difference, and confidence interval (CI) are stratum adjusted (baseline ALT ≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg seroconversion.||10.2|-1.5|0.148
82515101|NCT00116805|164722763|SUPERIORITY_OR_OTHER||Difference in proportions|0.9|STANDARD_ERROR_OF_MEAN|2.9||0.757|TWO_SIDED|95.0|-4.8|6.5||P-value above for HBsAg loss corresponds to a Z-test of the null hypothesis that stratum-adjusted difference is zero. Difference, standard error of the difference, and CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to HBsAg loss.||6.5|-4.8|0.757
82515102|NCT00116805|164722763|SUPERIORITY_OR_OTHER||Difference in proportions|0.9|STANDARD_ERROR_OF_MEAN|2.6||0.733|TWO_SIDED|95.0|-4.2|5.9||P-value above corresponds to Z-test of the null hypothesis that stratum-adjusted difference is zero. Difference, standard error of the difference, and CI are stratum adjusted based on baseline ALT category (≤ 4 x ULN or \> 4 x ULN).|Z-test|||This information pertains to seroconversion to anti-HBs.||5.9|-4.2|0.733
82515103|NCT00071487|164722798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.3677|TWO_SIDED|95.0|-19.4|7.2||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using a last observation carried forward (LOCF) imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||7.2|-19.4|0.3677
82515104|NCT00071487|164722798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.4244|TWO_SIDED|95.0|-8.7|20.6||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||20.6|-8.7|0.4244
82515105|NCT00071487|164722798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5||||0.3296|TWO_SIDED|95.0|-19.6|6.6||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||6.6|-19.6|0.3296
82515106|NCT00071487|164722799|SUPERIORITY_OR_OTHER|||||||0.6423||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.6423
82515107|NCT00071487|164722799|SUPERIORITY_OR_OTHER|||||||0.8536||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.8536
82515108|NCT00071487|164722799|SUPERIORITY_OR_OTHER|||||||0.9705||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Patients who required protocol-prohibited medications were considered to have a flare on the date the prohibited medication was started or date of the first flare, whichever came first. Patients who withdrew from the study for reasons other than SLE disease manifestations or hospitalization related to SLE or who missed 2 or more consecutive visits were censored at the time of the last assessment.||||0.9705
82515109|NCT00071487|164722800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1||||0.1763|TWO_SIDED|95.0|-22.4|4.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||4.1|-22.4|0.1763
82515110|NCT00071487|164722800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.7112|TWO_SIDED|95.0|-20.9|14.3||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||14.3|-20.9|0.7112
82515111|NCT00071487|164722800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.332|TWO_SIDED|95.0|-22.2|7.5||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||7.5|-22.2|0.3320
82515112|NCT00071487|164722801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.6||||0.1287|TWO_SIDED|95.0|-65.6|8.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation. If patient required a protocol-prohibited medication, the SELENA SLEDAI score of the last visit prior to the use of the prohibited medication was used.||8.4|-65.6|0.1287
82515113|NCT00071487|164722801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98||||0.8807|TWO_SIDED|95.0|-36.2|42.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||42.1|-36.2|0.8807
82515114|NCT00071487|164722801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.41||||0.1131|TWO_SIDED|95.0|-68.1|7.3||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data was handled by using LOCF imputation.||7.3|-68.1|0.1131
82515115|NCT00071487|164722802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.7823|TWO_SIDED|95.0|-13.8|10.4||P-value was not adjusted for multiple testing|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||10.4|-13.8|0.7823
82570335|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-10.79|||=|0.513|TWO_SIDED|95.0|-43.26|21.67||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 12||21.67|-43.26|=0.513
82570336|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-56.21|||=|0.002|TWO_SIDED|95.0|-91.69|-20.73||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 14||-20.73|-91.69|=0.002
82381840|NCT01217112|164474040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.097||0.615|TWO_SIDED|90.0|-2.4|1.29|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.29|-2.40|0.615
82515116|NCT00071487|164722802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.1774|TWO_SIDED|95.0|-18.2|3.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||3.4|-18.2|0.1774
82515117|NCT00071487|164722802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.6406|TWO_SIDED|95.0|-14.8|9.1|||t-test, 2 sided|P-value was not adjusted for multiple testing.||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||9.1|-14.8|0.6406
82570337|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-36.94|||=|0.036|TWO_SIDED|95.0|-71.39|-2.48||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 14||-2.48|-71.39|=0.036
82515118|NCT00071487|164722803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.7822|TWO_SIDED|95.0|-38.6|29.1||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||29.1|-38.6|0.7822
82570338|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-62.98|||=|0.001|TWO_SIDED|95.0|-100.64|-25.31||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 16||-25.31|-100.64|=0.001
82515119|NCT00071487|164722803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9||||0.3332|TWO_SIDED|95.0|-45.3|15.4||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||15.4|-45.3|0.3332
82515120|NCT00071487|164722803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7||||0.466|TWO_SIDED|95.0|-46.9|21.5||P-value was not adjusted for multiple testing.|t-test, 2 sided|||Missing data for BILAG were handled as described previously for SELENA SLEDAI.||21.5|-46.9|0.4660
82515121|NCT00071487|164722804|SUPERIORITY_OR_OTHER|||||||0.5615||95.0||||P-value was not adjusted for multiple comparisons.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.5615
82515122|NCT00071487|164722804|SUPERIORITY_OR_OTHER|||||||0.7593||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.7593
82515123|NCT00071487|164722804|SUPERIORITY_OR_OTHER|||||||0.2273||95.0||||P-value was not adjusted for multiple testing.|Log Rank|||Missing data for BILAG were handled as described previously for SELENA SLEDAI (SLE Flare Index).||||0.2273
82635492|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-4.51|STANDARD_ERROR_OF_MEAN|3.72|||TWO_SIDED|95.0|-12.25|3.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||3.23|-12.25|
82381841|NCT01217112|164474040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.973||0.342|TWO_SIDED|90.0|-0.7|2.57|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.57|-0.70|0.342
82515124|NCT00071487|164722805|SUPERIORITY_OR_OTHER||percent difference from placebo|-7.1||||0.4355|TWO_SIDED|95.0|-24.7|10.6||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||10.6|-24.7|0.4355
82515125|NCT00071487|164722805|SUPERIORITY_OR_OTHER||percent difference from placebo|4.4||||0.6669|TWO_SIDED|95.0|-15.5|24.2||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||24.2|-15.5|0.6669
82515126|NCT00071487|164722805|SUPERIORITY_OR_OTHER||percent difference from placebo|17.7||||0.0882|TWO_SIDED|95.0|-2.5|37.9||P-value was not adjusted for multiple testing.|Likelihood ratio chi-squared|||Patients who dropped out or had missing data were considered failures.||37.9|-2.5|0.0882
82515127|NCT01722331|164722857|SUPERIORITY||Difference in percentages|56.6|||<|0.001|TWO_SIDED|95.0|49.6|62.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||62.8|49.6|<0.001
82515128|NCT01722331|164722857|SUPERIORITY||Difference in percentages|58.0|||<|0.001|TWO_SIDED|95.0|51.0|64.1|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||64.1|51.0|<0.001
82515129|NCT01722331|164722858|SUPERIORITY||Difference in percentages|52.1|||<|0.001|TWO_SIDED|95.0|44.8|58.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||58.5|44.8|<0.001
82515130|NCT01722331|164722858|SUPERIORITY||Difference in percentages|50.9|||<|0.001|TWO_SIDED|95.0|43.6|57.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||57.4|43.6|<0.001
82515131|NCT01722331|164722862|SUPERIORITY||Difference in percentages|32.9|||<|0.001|TWO_SIDED|95.0|26.8|38.8|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||38.8|26.8|<0.001
82515132|NCT01722331|164722862|SUPERIORITY||Difference in percentages|32.1|||<|0.001|TWO_SIDED|95.0|25.9|38.0|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||38.0|25.9|<0.001
82515133|NCT01722331|164722863|SUPERIORITY||Difference in percentages|12.7|||<|0.001|TWO_SIDED|95.0|8.3|17.2|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||17.2|8.3|<0.001
82515134|NCT01722331|164722863|SUPERIORITY||Difference in percentages|12.7|||<|0.001|TWO_SIDED|95.0|8.0|17.3|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||17.3|8.0|<0.001
82515135|NCT01722331|164722865|OTHER||Difference in least squares means|-7.7|||<|0.001|TWO_SIDED|95.0|-8.6|-6.8|||Constrained Longitudinal Data Analysis|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-6.8|-8.6|<0.001
82515136|NCT01722331|164722865|OTHER||Difference in least squares means|-7.4|||<|0.001|TWO_SIDED|95.0|-8.3|-6.5|||Constrained Longitudinal Data Analysis|Terms for time, the interaction of time by treatment, body weight (\<=90 kg, \>90 kg), and prior exposure to biologic therapy for psoriasis (yes/no).||||-6.5|-8.3|<0.001
82523832|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for auxiliary squat volume measure outcomes, only.||||>.05
82523833|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||This statistical analysis is for squat volume measure outcomes, only.||||>.05
82523834|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for bench volume measure outcomes, only.||||>.05
82523835|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for total squat volume measures, only.||||>.05
82523836|NCT01971723|164743308|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is for total weight lifted volume measure outcomes, only.||||>.05
82523837|NCT01971723|164743309|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82523838|NCT01971723|164743310|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82523839|NCT01971723|164743311|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANOVA|||||||.05
82523840|NCT03188055|164743319|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82523841|NCT03188055|164743320|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||||||0.709
82523842|NCT03188055|164743321|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82523843|NCT03188055|164743322|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||0.063
82515137|NCT01722331|164722866|OTHER||Difference in percentages|38.9|||<|0.001|TWO_SIDED|95.0|31.9|45.4|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||45.4|31.9|<0.001
82570339|NCT04159805|164850934|SUPERIORITY||Difference in LS Mean|-28.81|||=|0.13|TWO_SIDED|95.0|-66.12|8.51||From MMRM analysis over all post-baseline visits, with the change from baseline as the outcome, treatment group, visit, and treatment-by-visit interaction as factors, and adjusted by baseline value and baseline-by-visit interaction.|MMRM|||Week 16||8.51|-66.12|=0.130
82381842|NCT01217112|164474040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.934||0.314|TWO_SIDED|90.0|-2.52|0.62|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.62|-2.52|0.314
82515138|NCT01722331|164722866|OTHER||Difference in percentages|36.1|||<|0.001|TWO_SIDED|95.0|29.3|42.5|||Cochran-Mantel-Haenszel|Stratified by body weight (\<=90kg, \>90kg) and prior exposure to biologic therapy for psoriasis (yes/no). P-values are not adjusted for multiplicity.||||42.5|29.3|<0.001
82515139|NCT01154166|164722867|SUPERIORITY_OR_OTHER||Adjusted mean for treatment difference|-1.76|||<|0.001|TWO_SIDED|95.0|-2.27|-1.26|||ANCOVA||The estimated value indicates the treatment difference for the adjusted mean for Ropinirole PR and placebo.|||-1.26|-2.27|<0.001
82523844|NCT03188055|164743323|SUPERIORITY|||||||0.892|||||||t-test, 2 sided|||||||0.892
82523845|NCT03188055|164743324|SUPERIORITY||||||>|0.99||||||Using an a priori statistical significance of 0.05.|Fisher Exact|||Comparison of concordance status by intervention status (outcome by predictor).||||> . 99
82523846|NCT03188055|164743325|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||||||0.188
82523847|NCT03188055|164743326|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
82523848|NCT03188055|164743328|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||||||0.698
82523849|NCT03188055|164743329|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82635493|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-0.44|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|-7.6|6.72|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||6.72|-7.60|
82635494|NCT03091920|164985985|OTHER|No statistical testing was performed.|Least squares mean difference|-1.98|STANDARD_ERROR_OF_MEAN|3.32|||TWO_SIDED|95.0|-8.88|4.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.92|-8.88|
82515140|NCT04265755|164722880|OTHER|Adjusted analysis utilizes a logistic regression model which includes age, sex, dose switch, Baseline value of interest, and mPRS as covariates and presents the mPRS estimates.|Odds Ratio (OR)|1.01||||0.86|TWO_SIDED|95.0|0.9|1.13|||Regression, Logistic||Based on a 1 standard deviation increase in mPRS.|Odds of achieving at least 50% reduction from Baseline in mean MMD over months 4, 5, and 6 in relation to mPRS.||1.13|0.90|0.86
82515141|NCT01282710|164722915|SUPERIORITY_OR_OTHER|||||||0.04627||95.0|||||Mixed Models Analysis|||"Agreement between SureCALL® and IUPC Contraction Peak Events~Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0."||||.04627
82515142|NCT01282710|164722915|SUPERIORITY_OR_OTHER|||||||0.1676||95.0|||||Mixed Models Analysis|||"Agreement between TOCO and IUPC Contraction Peak Events~Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0."||||0.1676
82515143|NCT01807585|164722917|NON_INFERIORITY|Non-inferiority was determined by the application of a Z-test with a 10% non-inferiority margin as well as examination of confidence intervals.|Risk Difference (RD)|3.5|||<|0.0001|TWO_SIDED|95.0|-0.7|7.6|||One tailed Z-test|||Last Observation Carried Forward (LOCF)||7.6|-0.7|<0.0001
82515144|NCT01854554|164722921|SUPERIORITY|||||||0.74|||||||Gray's test|Cumulative Incidence Function treating progressive disease (RANO) or death before cognitive function decline as a competing risk.||||||.74
82515145|NCT01854554|164722922|SUPERIORITY|||||||0.6|||||||Log Rank|||||||.60
82515146|NCT01854554|164722923|SUPERIORITY|||||||0.24|||||||Log Rank|||||||0.24
82515147|NCT02504645|164722925|SUPERIORITY|||||||0.2631|TWO_SIDED|0.0|||||Chi-squared|||||||0.2631
82515148|NCT00359762|164722927|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority test was based on the upper 1-sided 97.5% CI for the hazard ratio of Exenatide/Glimepiride;the upper bound was compared to 1.25: if \<1.25, the hypothesis that the risk of treatment failure with Exenatide is more than 1.25 times greater than the risk with Glimepiride is rejected.Superiority test was based on the 2-sided 95% CI for the hazard ratio. If CI excludes 1, the hypothesis that the risk of treatment failure with Exenatide is equal to that with Glimepiride is rejected.|Hazard Ratio|0.748||||0.002|TWO_SIDED|95.0|0.623|0.899|||Regression, Cox|Time to treatment failure was modeled using Cox regression with treatment and baseline HbA1c as predictive terms.||The null hypothesis (H0) and alternative hypothesis (H1) for the primary analysis (i.e., non-inferiority) are:H0: hazards of treatment for Exenatide/hazards of treatment for Glimepiride \>=1.25.H1: hazards of treatment for Exenatide/hazards of treatment for Glimepiride \< 1.25. With 527 patients in each arm, the study would have approximately 90% power to conclude non-inferiority of Exenatide to Glimepiride.||0.899|0.623|0.0020
82515149|NCT00359762|164722928|SUPERIORITY_OR_OTHER|||||||0.0315|TWO_SIDED|99.95|||||Log Rank|||Kaplan-Meier survival curves for time to treatment failure were compared between treatment groups using log rank test.||||0.0315
82515150|NCT00359762|164722929|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|5.56||0.7648|TWO_SIDED|95.0|-12.58|9.25|||Mixed Models Analysis|||Mixed-model Repeated Measures (MMRM) analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||9.25|-12.58|0.7648
82515151|NCT00359762|164722930|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.35|STANDARD_ERROR_OF_MEAN|7.399||0.0528|TWO_SIDED|95.0|-28.88|0.17|||ANCOVA|||Change in HOMA-B from baseline to endpoint was analyzed by an analysis of covariance (ANCOVA) model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||0.17|-28.88|0.0528
82570340|NCT01393613|164850939|SUPERIORITY_OR_OTHER|||||||0.0093|||||||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare the average effect analysis for brexpiprazole 2 mg/day and 4 mg/day and placebo combined treatment groups at Week 6. The primary analysis was performed by fitting a Mixed Model Repeated Measures (MMRM) with an unstructured variance covariance structure. The model included fixed class effect terms for treatment, trial site, visit week, baseline, baseline and visit interaction and an interaction term of treatment by visit week.||||0.0093
82635495|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|3.19|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|-0.1|6.48|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.48|-0.10|
82635496|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|3.53|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|0.25|6.82|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.82|0.25|
82570341|NCT01393613|164850939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47||||0.0022|TWO_SIDED|95.0|-10.6|-2.35|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-2.35|-10.6|0.0022
82515152|NCT00359762|164722931|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.904|TWO_SIDED|95.0|-0.07|0.06|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.06|-0.07|0.9040
82515153|NCT00359762|164722932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.017||0.25|TWO_SIDED|95.0|-0.05|0.01|||ANCOVA|||Change in fasting proinsulin/insulin ratio from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||0.01|-0.05|0.2500
82515154|NCT00359762|164722933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|4.497||0.9001|TWO_SIDED|95.0|-9.4|8.27|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||8.27|-9.40|0.9001
82515155|NCT00359762|164722934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|11.19|STANDARD_ERROR_OF_MEAN|4.966||0.0246|TWO_SIDED|95.0|1.44|20.95|||ANCOVA|||Change in DI30/DG30 ratio from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||20.95|1.44|0.0246
82515156|NCT00359762|164722935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|1.598||0.0036|TWO_SIDED|95.0|1.53|7.81|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||7.81|1.53|0.0036
82515157|NCT00359762|164722936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|7.33|STANDARD_ERROR_OF_MEAN|2.128||0.0006|TWO_SIDED|95.0|3.15|11.5|||ANCOVA|||Change in disposition index from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||11.50|3.15|0.0006
82515158|NCT00359762|164722937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0128|TWO_SIDED|95.0|-0.31|-0.04|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.04|-0.31|0.0128
82515159|NCT00359762|164722938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.0015|TWO_SIDED|95.0|-0.26|-0.06|||ANCOVA|||Change in HbA1c from baseline to endpoint was analyzed by an ANCOVA model that includes treatment as factor and baseline value as a covariate.||-0.06|-0.26|0.0015
82515160|NCT00359762|164722939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.174|<|0.0001|TWO_SIDED|95.0|-1.03|-0.34|||Mixed Models Analysis|||MMRM includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.34|-1.03|<.0001
82515161|NCT00359762|164722940|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.183||0.0109|TWO_SIDED|95.0|-0.83|-0.11|||ANCOVA|||Change in fasting plasma glucose from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||-0.11|-0.83|0.0109
82515162|NCT00359762|164722941|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.424|<|0.0001|TWO_SIDED|95.0|-3.64|-1.97|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-1.97|-3.64|<.0001
82515163|NCT00359762|164722942|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|0.327|<|0.0001|TWO_SIDED|95.0|-2.84|-1.55|||ANCOVA|||Change in postprandial (2 hours) plasma glucose from baseline to endpoint was analyzed by an ANCOVA model that includes treatment and baseline HbA1c stratum (\<=7.3%, \>7.3% to \<=8.2%, \>8.2%) as factors and baseline value as a covariate.||-1.55|-2.84|<.0001
82515164|NCT00359762|164722943|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|0.463|<|0.0001|TWO_SIDED|95.0|-6.31|-4.49|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction and baseline value as a covariate. The unstructured covariance matrix was used.||-4.49|-6.31|<.0001
82515165|NCT00359762|164722944|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|1.228|<|0.0001|TWO_SIDED|95.0|-7.61|-2.79|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-2.79|-7.61|<.0001
82515166|NCT00359762|164722945|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.75||0.0228|TWO_SIDED|95.0|-3.18|-0.24|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.24|-3.18|0.0228
82515167|NCT00359762|164722946|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.805||0.3737|TWO_SIDED|95.0|-2.3|0.86|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and visit by treatment interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.86|-2.30|0.3737
82381843|NCT01217112|164474040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.964||0.889|TWO_SIDED|90.0|-1.48|1.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.75|-1.48|0.889
82381844|NCT01217112|164474041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|50.89|STANDARD_ERROR_OF_MEAN|168.459||0.764|TWO_SIDED|90.0|-232.02|333.8|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||333.80|-232.02|0.764
82381845|NCT01217112|164474041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-70.76|STANDARD_ERROR_OF_MEAN|156.72||0.654|TWO_SIDED|90.0|-333.96|192.44|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||192.44|-333.96|0.654
82381846|NCT01217112|164474041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-111.5|STANDARD_ERROR_OF_MEAN|146.276||0.45|TWO_SIDED|90.0|-357.17|134.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||134.16|-357.17|0.450
82515168|NCT00359762|164722947|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.089||0.0042|TWO_SIDED|95.0|-0.43|-0.08|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||-0.08|-0.43|0.0042
82515169|NCT00359762|164722948|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.079||0.7914|TWO_SIDED|95.0|-0.13|0.18|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.18|-0.13|0.7914
82515170|NCT00359762|164722949|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.019||0.0011|TWO_SIDED|95.0|0.02|0.1|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value as a covariate. The unstructured covariance matrix was used.||0.10|0.02|0.0011
82515171|NCT00359762|164722950|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.22|0.37|||Negative Binomial Model|||The number of hypoglycemic episodes by patient were compared between treatment groups using a negative binomial model with effects for treatment and baseline HbA1c and the logarithm of the days of exposure as the offset variable.||0.37|0.22|<.0001
82515172|NCT00359762|164722951|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.141||0.0508|TWO_SIDED|95.0|0.0|0.55|||Mixed Models Analysis|||MMRM analysis includes treatment, visit, and treatment by visit interaction, and baseline value at Period III as a covariate. The compound symmetric covariance structure was assumed.||0.55|-0.00|0.0508
82515173|NCT02819726|164722954|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ration|95.33|||||TWO_SIDED|90.0|87.07|104.37||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model (ANOVA) with fixed effect for treatment||104.37|87.07|
82515174|NCT02819726|164722954|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|93.43|||||TWO_SIDED|90.0|85.54|102.15||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.15|85.54|
82515175|NCT02819726|164722954|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.06|||||TWO_SIDED|90.0|89.49|107.45||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model (ANOVA) with fixed effect for treatment||107.45|89.49|
82515176|NCT02819726|164722955|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|94.07|||||TWO_SIDED|90.0|86.91|101.81||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||101.81|86.91|
82515177|NCT02819726|164722955|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ration|94.39|||||TWO_SIDED|90.0|87.21|102.16||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.16|87.21|
82515178|NCT02819726|164722955|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|100.35|||||TWO_SIDED|90.0|92.68|108.65||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||108.65|92.68|
82381847|NCT01217112|164474041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|97.42|STANDARD_ERROR_OF_MEAN|149.124||0.517|TWO_SIDED|90.0|-153.02|347.86|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||347.86|-153.02|0.517
82381848|NCT01217112|164474042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|40.94||0.84|TWO_SIDED|90.0|-60.28|76.94|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||76.94|-60.28|0.840
82381849|NCT01217112|164474042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.31|STANDARD_ERROR_OF_MEAN|39.521||0.834|TWO_SIDED|90.0|-57.92|74.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||74.55|-57.92|0.834
82381850|NCT01217112|164474042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.62|STANDARD_ERROR_OF_MEAN|39.044||0.767|TWO_SIDED|90.0|-77.06|53.81|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||53.81|-77.06|0.767
82381851|NCT01217112|164474042|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.51|STANDARD_ERROR_OF_MEAN|39.68||0.289|TWO_SIDED|90.0|-23.99|109.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||109.01|-23.99|0.289
82381852|NCT01217112|164474043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.106||0.569|TWO_SIDED|90.0|-0.24|0.12|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.12|-0.24|0.569
82515179|NCT02819726|164722956|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|96.31|||||TWO_SIDED|90.0|90.52|102.46||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.46|90.52|
82515180|NCT02819726|164722956|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.65|||||TWO_SIDED|90.0|92.64|105.05||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||105.05|92.64|
82381853|NCT01217112|164474043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.101||0.984|TWO_SIDED|90.0|-0.17|0.17|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.17|-0.17|0.984
82381854|NCT01217112|164474043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.098||0.176|TWO_SIDED|90.0|-0.3|0.03|||ANCOVA|||v Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.30|0.176
82381855|NCT01217112|164474043|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.099||0.895|TWO_SIDED|90.0|-0.15|0.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.18|-0.15|0.895
82381856|NCT01217112|164474044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.745||0.871|TWO_SIDED|90.0|-1.13|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-1.13|0.871
82381857|NCT01217112|164474044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.721||0.826|TWO_SIDED|90.0|-1.05|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-1.05|0.826
82381858|NCT01217112|164474044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.703||0.693|TWO_SIDED|90.0|-1.46|0.9|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.90|-1.46|0.693
82381859|NCT01217112|164474044|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.722||0.536|TWO_SIDED|90.0|-0.76|1.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.66|-0.76|0.536
82381860|NCT01217112|164474045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|8.633||0.878|TWO_SIDED|90.0|-15.8|13.13|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||13.13|-15.80|0.878
82381861|NCT01217112|164474045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|8.377||0.919|TWO_SIDED|90.0|-13.18|14.89|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||14.89|-13.18|0.919
82515181|NCT02819726|164722956|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|102.43|||||TWO_SIDED|90.0|96.14|109.14||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||109.14|96.14|
82515182|NCT02819726|164722957|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|94.93|||||TWO_SIDED|90.0|89.03|101.23||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||101.23|89.03|
82381862|NCT01217112|164474045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.72|STANDARD_ERROR_OF_MEAN|7.989||0.557|TWO_SIDED|90.0|-8.67|18.11|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||18.11|-8.67|0.557
82381863|NCT01217112|164474045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|8.328||0.275|TWO_SIDED|90.0|-4.76|23.16|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||23.16|-4.76|0.275
82515183|NCT02819726|164722957|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|98.75|||||TWO_SIDED|90.0|92.61|105.3||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||105.30|92.61|
82515184|NCT02819726|164722957|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|104.03|||||TWO_SIDED|90.0|97.54|110.95||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||110.95|97.54|
82515185|NCT02819726|164722958|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|89.08|||||TWO_SIDED|90.0|77.2|102.79||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||102.79|77.20|
82570342|NCT01393613|164850939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08||||0.1448|TWO_SIDED|95.0|-7.23|1.07|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.07|-7.23|0.1448
82515186|NCT02819726|164722958|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|102.56|||||TWO_SIDED|90.0|88.72|118.56||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||118.56|88.72|
82381864|NCT01217112|164474046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.45|STANDARD_ERROR_OF_MEAN|16.445||0.528|TWO_SIDED|90.0|-17.12|38.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||38.01|-17.12|0.528
82381865|NCT01217112|164474046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|15.825||0.99|TWO_SIDED|90.0|-26.32|26.72|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||26.72|-26.32|0.990
82381866|NCT01217112|164474046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|15.369||0.776|TWO_SIDED|90.0|-21.37|30.15|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||30.15|-21.37|0.776
82381867|NCT01217112|164474046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|44.51|STANDARD_ERROR_OF_MEAN|15.834||0.007|TWO_SIDED|90.0|17.98|71.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||71.05|17.98|0.007
82515187|NCT02819726|164722958|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%) for all treatment comparisons|GLS Mean Ratio|115.13|||||TWO_SIDED|90.0|99.51|133.21||||||The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance (ANOVA) model with fixed effect for treatment||133.21|99.51|
82515188|NCT02819726|164722959|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.134||0.2402|TWO_SIDED|95.0|-0.422|0.106|||ANCOVA|||Least square means and confidence intervals (CIs) were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.106|-0.422|0.2402
82515189|NCT02819726|164722959|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Means Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.135||0.1346|TWO_SIDED|95.0|-0.469|0.063|||ANCOVA|||Least square means and CIs were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.063|-0.469|0.1346
82515190|NCT02819726|164722959|EQUIVALENCE|The equivalence between 2 study treatments would be declared if the two-sided 95% CI of the difference in change from baseline in DAS28-CRP at week 24 in entirely contained within the equivalence margin of \[-0.6,0.6\]|LS Means Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.137||0.7429|TWO_SIDED|95.0|-0.314|0.224|||ANCOVA|||Least square means and CIs were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only||0.224|-0.314|0.7429
82515191|NCT02819726|164722968|OTHER||LS Means Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.172||0.6068|TWO_SIDED|95.0|-0.428|0.25|||ANCOVA|||Week 52 (EOS). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.250|-0.428|0.6068
82570343|NCT01393613|164850939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.37||||0.1588|TWO_SIDED|95.0|-8.06|1.32|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6. MMRM analysis fixed effect of treatment, clinical visit, trial site, treatment visit interaction, Baseline value, and Baseline visit interaction as covariates.||1.32|-8.06|0.1588
82635497|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|3.36|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|0.4|6.32|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 1||6.32|0.40|
82515192|NCT02819726|164722968|OTHER||LS Means Difference|0.09|STANDARD_ERROR_OF_MEAN|0.172||0.599|TWO_SIDED|95.0|-0.249|0.43|||ANCOVA|||Week 52 (EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.430|-0.249|0.5990
82515193|NCT02819726|164722968|OTHER||LS Means Difference|0.18|STANDARD_ERROR_OF_MEAN|0.175||0.3053|TWO_SIDED|95.0|-0.165|0.532|||ANCOVA|||Week 53 (EOS) MabThera vs Rituxan. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and Baseline DAS28-CRP value as a covariate. ANCOVA model contains treatment group only.||0.532|-0.165|0.3053
82515194|NCT02819726|164722969|OTHER||Difference (%)|9.4|STANDARD_ERROR_OF_MEAN|7.22|||TWO_SIDED|95.0|-4.74|23.03||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||23.03|-4.74|
82570344|NCT01393613|164850940|SUPERIORITY_OR_OTHER|||||||0.0069|||||||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare the average effect analysis for brexpiprazole 2 mg/day and 4 mg/day and placebo combined treatment groups at Week 6.||||0.0069
82635498|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|4.59|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|95.0|0.95|8.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.23|0.95|
82381868|NCT01217112|164474047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.536||0.717|TWO_SIDED|90.0|-0.7|1.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.09|-0.70|0.717
82515195|NCT02819726|164722969|OTHER||Difference (%)|-2.5|STANDARD_ERROR_OF_MEAN|7.05|||TWO_SIDED|95.0|-15.95|11.22||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||11.22|-15.95|
82515196|NCT02819726|164722969|OTHER||Difference (%)|-11.8|STANDARD_ERROR_OF_MEAN|7.26|||TWO_SIDED|95.0|-25.47|2.45||||||Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method.||2.45|-25.47|
82381869|NCT01217112|164474047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.531||0.218|TWO_SIDED|90.0|-0.23|1.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.55|-0.23|0.218
82635499|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|4.49|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|95.0|0.86|8.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.12|0.86|
82515197|NCT02819726|164722970|OTHER||Difference (%)|9.5|STANDARD_ERROR_OF_MEAN|6.87|||TWO_SIDED|95.0|-4.07|22.46||||||ACR20 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||22.46|-4.07|
82515198|NCT02819726|164722970|OTHER||Difference (%)|3.5|STANDARD_ERROR_OF_MEAN|7.07|||TWO_SIDED|95.0|-10.22|17.03||||||ACR50 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||17.03|-10.22|
82515199|NCT02819726|164722970|OTHER||Difference (%)|-5.9|STANDARD_ERROR_OF_MEAN|6.88|||TWO_SIDED|95.0|-19.1|7.51||||||ACR50 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||7.51|-19.10|
82515200|NCT02819726|164722970|OTHER||Difference (%)|10.0|STANDARD_ERROR_OF_MEAN|5.78|||TWO_SIDED|95.0|-1.52|21.22||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||21.22|-1.52|
82515201|NCT02819726|164722970|OTHER||Difference|5.4|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-6.69|17.13||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||17.13|-6.69|
82635500|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|4.54|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|1.27|7.81|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 7||7.81|1.27|
82515202|NCT02819726|164722970|OTHER||Difference (%)|-4.7|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|92.0|-15.68|6.41||||||ACR70 Week 52 (EOS) assessment. The 95% CIs for ACR response rate and difference were derived using the Wilson Score method. The adjusted difference and its 95% confidence intervals are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP value as a covariate.||6.41|-15.68|
82381870|NCT01217112|164474047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.514||0.378|TWO_SIDED|90.0|-0.4|1.32|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.32|-0.40|0.378
82381871|NCT01217112|164474047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.532||0.361|TWO_SIDED|90.0|-0.4|1.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.38|-0.40|0.361
82381872|NCT01217112|164474048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.417|TWO_SIDED|90.0|-0.01|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.01|0.417
82515203|NCT02819726|164722971|OTHER||LS Means Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.991||0.1997|TWO_SIDED|95.0|-3.23|0.671|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||0.671|-3.230|0.1997
82635501|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.94|||TWO_SIDED|95.0|-1.45|6.61|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||6.61|-1.45|
82515204|NCT02819726|164722971|OTHER||LS Means Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.996||0.9098|TWO_SIDED|95.0|-2.074|1.848|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||1.848|-2.074|0.9098
82381873|NCT01217112|164474048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.34|TWO_SIDED|90.0|-0.01|0.04|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.04|-0.01|0.340
82381874|NCT01217112|164474048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.013||0.915|TWO_SIDED|90.0|-0.02|0.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.02|-0.02|0.915
82515205|NCT02819726|164722971|OTHER||LS Means Difference|1.17|STANDARD_ERROR_OF_MEAN|1.008||0.248|TWO_SIDED|95.0|-0.817|3.15|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||3.150|-0.817|0.2480
82515206|NCT02819726|164722971|OTHER||LS Means Difference|-1.96|STANDARD_ERROR_OF_MEAN|1.5||0.1931|TWO_SIDED|95.0|-4.909|0.996|||ANCOVA|||Tender Joint Count (TJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||0.996|-4.909|0.1931
82515207|NCT02819726|164722971|OTHER||LS Means Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.5||-0.77|TWO_SIDED|95.0|-3.722|2.184|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||2.184|-3.722|-0.77
82442275|NCT01062841|164593075|SUPERIORITY_OR_OTHER||Rate Ratio|0.94|||>|0.05|TWO_SIDED|95.0|0.61|1.44||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||1.44|0.61|>0.05
82442276|NCT01062841|164593076|SUPERIORITY_OR_OTHER||Rate Ratio|0.75|||<|0.05|TWO_SIDED|95.0|0.58|0.97||The model was adjusted for participant-specific covariates (participant-level baseline colonization with the specific MDRO, age, sex, race, and length of stay before enrollment), and NH quality ratings.|Regression, Poisson|||A mixed-effects multilevel Poisson regression model was used to predict MDRO prevalence density as a function of the intervention (primary outcome), including facility as a random effect and offset by the number of anatomic sites sampled. Because we expected participants colonized at baseline to have a greater likelihood of subsequent colonization, we included participant-level baseline MDRO colonization as a fixed effect.||0.97|0.58|<0.05
82442277|NCT01062841|164593078|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.09||||0.92|TWO_SIDED|95.0|0.22|5.45|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||5.45|0.22|0.92
82442278|NCT01062841|164593079|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.83||||0.34|TWO_SIDED|95.0|0.53|6.31|||Regression, Cox|||A Cox proportional hazards model using the cluster option with robust standard errors was used to predict time to the first and recurrent infections, adjusting for participant-level and facility-level covariates.||6.31|0.53|0.34
82442279|NCT01062841|164593080|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.78||||0.01|TWO_SIDED|95.0|0.65|0.95|||Regression, Cox|||A Cox proportional hazards model was used to evaluate the effect of this intervention on an individual's risk of new MDRO acquisition, defined as the number of residents with new acquisitions per 1000 device-days at risk after adjusting for resident-level and facility-level covariates, as well as clustering by facility. Residents colonized with the specific MDRO at baseline were excluded from these analyses.||0.95|0.65|0.01
82442280|NCT01062841|164593081|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.85||||0.61|TWO_SIDED|95.0|0.45|1.6|||Regression, Cox|||A Cox proportional hazards model was used to evaluate the effect of this intervention on an individual's risk of new MDRO acquisition, defined as the number of residents with new acquisitions per 1000 device-days at risk after adjusting for resident-level and facility-level covariates, as well as clustering by facility. Residents colonized with the specific MDRO at baseline were excluded from these analyses.||1.60|0.45|0.61
82442281|NCT01062841|164593082|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9||||0.59|TWO_SIDED|95.0|0.6|1.33|||Regression, Cox|||||1.33|0.60|0.59
82515208|NCT02819726|164722971|OTHER||LS Means Difference|1.19|STANDARD_ERROR_OF_MEAN|1.52||0.4352|TWO_SIDED|95.0|-1.805|4.18|||ANCOVA|||Swollen Joint Count (SJC) Week 52 (EOS) assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate.||4.180|-1.805|0.4352
82515209|NCT02819726|164722972|OTHER||LS Means Difference|-4.16|STANDARD_ERROR_OF_MEAN|3.242||0.2008|TWO_SIDED|95.0|-10.541|2.226|||ANCOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||2.226|-10.541|0.2008
82381875|NCT01217112|164474048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.465|TWO_SIDED|90.0|-0.01|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.01|0.465
82635502|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|3.17|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-0.78|7.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.11|-0.78|
82381876|NCT01217112|164474049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|1.616||0.646|TWO_SIDED|90.0|-1.96|3.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.45|-1.96|0.646
82515210|NCT02819726|164722972|OTHER||LS Means Difference|-0.39|STANDARD_ERROR_OF_MEAN|3.242||-0.39|TWO_SIDED|95.0|-6.771|5.994|||ANOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline||5.994|-6.771|-0.39
82515211|NCT02819726|164722972|OTHER||LS Means Difference|3.77|STANDARD_ERROR_OF_MEAN|3.268||0.2498|TWO_SIDED|95.0|-2.665|10.204|||ANCOVA|||Week 52 (EOS) Physician's Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline||10.204|-2.665|0.2498
82570345|NCT01393613|164850940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.0015|TWO_SIDED|95.0|-0.62|-0.15|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6. The analysis of this key secondary endpoint was conducted if both comparisons of brexpiprazole 4 mg/day vs placebo and brexpiprazole 2 mg/day vs placebo of the primary endpoint were significant. Because only the comparison of brexpiprazole 4 mg/day vs placebo met the threshold in the primary analysis, the following analysis is not part of the formal statistical testing and is descriptive only.||-0.15|-0.62|0.0015
82515212|NCT02819726|164722973|OTHER||LS Means Difference|-1.23|STANDARD_ERROR_OF_MEAN|3.592||0.7322|TWO_SIDED|95.0|-8.0302|5.841|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.841|-8.0302|0.7322
82381877|NCT01217112|164474049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.598||0.219|TWO_SIDED|90.0|-0.69|4.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.66|-0.69|0.219
82381878|NCT01217112|164474049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|1.563||0.307|TWO_SIDED|90.0|-1.0|4.23|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.23|-1.00|0.307
82381879|NCT01217112|164474049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.52|STANDARD_ERROR_OF_MEAN|1.612||0.348|TWO_SIDED|90.0|-1.17|4.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.22|-1.17|0.348
82381880|NCT01217112|164474050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|1.299||0.187|TWO_SIDED|90.0|-0.44|3.91|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.91|-0.44|0.187
82515213|NCT02819726|164722973|OTHER||LS Means Difference|-2.21|STANDARD_ERROR_OF_MEAN|3.623||0.5418|TWO_SIDED|95.0|-9.347|4.92|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||4.920|-9.347|0.5418
82515214|NCT02819726|164722973|OTHER||LS Means Difference|-0.98|STANDARD_ERROR_OF_MEAN|3.633||0.7869|TWO_SIDED|95.0|-8.136|6.169|||ANCOVA|||Week 52 (EOS) Participants Pain Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||6.169|-8.136|0.7869
82515215|NCT02819726|164722974|OTHER||LS Means Difference|-1.28|STANDARD_ERROR_OF_MEAN|3.443||0.7097|TWO_SIDED|95.0|-8.062|5.496|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||5.496|-8.062|0.7097
82515216|NCT02819726|164722974|OTHER||LS Means Difference|-1.48|STANDARD_ERROR_OF_MEAN|3.453||0.6683|TWO_SIDED|95.0|-8.28|5.317|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||5.317|-8.280|0.6683
82515217|NCT02819726|164722974|OTHER||LS Means Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.494||0.9548|TWO_SIDED|95.0|-7.078|6.682|||ANCOVA|||Week 52 (EOS) Participants Disease Activity Assessment. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline)||6.682|-7.078|0.9548
82515218|NCT02819726|164722975|OTHER||LS Means Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.086||0.0505|TWO_SIDED|95.0|-0.339|0.0|||ANCOVA|||Week 52 (EOS) HAQ-DI (0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.000|-0.339|0.0505
82570346|NCT01393613|164850940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.1269|TWO_SIDED|95.0|-0.42|-0.05|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.05|-0.42|0.1269
82570347|NCT01393613|164850940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4449|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.16|-0.37|0.4449
82570348|NCT01393613|164850941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.59||||0.0005|TWO_SIDED|95.0|2.02|7.17|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||7.17|2.02|0.0005
82570349|NCT01393613|164850941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.1286|TWO_SIDED|95.0|-0.58|4.59|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||4.59|-0.58|0.1286
82570350|NCT01393613|164850941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21||||0.0332|TWO_SIDED|95.0|0.26|6.16|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||6.16|0.26|0.0332
82635503|NCT03091920|164985986|OTHER|No statistical testing was performed.|Least squares mean difference|2.87|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|95.0|-0.71|6.45|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 14||6.45|-0.71|
82570351|NCT01393613|164850942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.0166|TWO_SIDED|95.0|-3.08|-0.31|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.31|-3.08|0.0166
82635504|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|2.17|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-2.65|6.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.99|-2.65|
82515219|NCT02819726|164722975|OTHER||LS Means Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.086||0.1141|TWO_SIDED|95.0|-0.307|0.033|||ANCOVA|||Week 52 (EOS) HAQ-DI (0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.033|-0.307|0.1141
82515220|NCT02819726|164722975|OTHER||LS Means Difference|0.03|STANDARD_ERROR_OF_MEAN|0.087||0.7111|TWO_SIDED|95.0|-0.139|0.204|||ANCOVA|||Week 52 (EOS) HAQ-DI )0-3). Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||0.204|-0.139|0.7111
82515221|NCT02819726|164722976|OTHER||LS Means Difference|-0.43|STANDARD_ERROR_OF_MEAN|1.871||0.8183|TWO_SIDED|95.0|-4.113|3.253|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||3.253|-4.113|0.8183
82381881|NCT01217112|164474050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|1.28||0.578|TWO_SIDED|90.0|-1.43|2.86|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.86|-1.43|0.578
82515222|NCT02819726|164722976|OTHER||LS Means Difference|1.51|STANDARD_ERROR_OF_MEAN|1.868||0.4186|TWO_SIDED|95.0|-2.164|5.191|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.191|-2.164|0.4186
82381882|NCT01217112|164474050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|1.249||0.368|TWO_SIDED|90.0|-0.96|3.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.22|-0.96|0.368
82381883|NCT01217112|164474050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|1.304||0.696|TWO_SIDED|90.0|-1.67|2.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.69|-1.67|0.696
82515223|NCT02819726|164722976|OTHER||LS Means Difference|1.94|STANDARD_ERROR_OF_MEAN|1.885||0.3035|TWO_SIDED|95.0|-1.768|5.655|||ANCOVA|||Week 52 (EOS) CRP. Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline value as a covariate. Change from Study Day 1 (Baseline).||5.655|-1.768|0.3035
82635505|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|4.09|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-0.73|8.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||8.91|-0.73|
82635506|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|4.56|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|0.6|8.51|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||8.51|0.60|
82635507|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|4.02|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|0.07|7.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||7.98|0.07|
82515224|NCT02819726|164722977|OTHER||LS Means Difference|0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9249|TWO_SIDED|95.0|-0.375|0.413|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.413|-0.375|0.9249
82515225|NCT02819726|164722977|OTHER||LS Measn Difference|0.05|STANDARD_ERROR_OF_MEAN|0.201||0.05|TWO_SIDED|95.0|-0.351|0.442|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.442|-0.351|0.05
82515226|NCT02819726|164722977|OTHER||LS Means Diference|0.03|STANDARD_ERROR_OF_MEAN|0.205||0.8962|TWO_SIDED|95.0|-0.376|0.43|||ANCOVA|||Week 52 ( EOS) Least square means and confidence intervals were estimated from an ANCOVA model containing treatment group as a factor and baseline DAS28-ESR value as a covariate. ANCOVA model contains treatment group only.||0.430|-0.376|0.8962
82515227|NCT02819726|164722978|OTHER||Difference (%)|2.2|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-2.56|7.83||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||7.83|-2.56|
82515228|NCT02819726|164722978|OTHER||Difference (%)|1.0|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-4.74|6.67||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||6.67|-4.74|
82515229|NCT02819726|164722978|OTHER||Difference (%)|-1.3|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|95.0|-6.75|3.39||||||Week 52 (EOS) Major Clinical Response. The 95% CIs for major clinical response rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.39|-6.75|
82515230|NCT02819726|164722979|OTHER||Difference (%)|-1.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|-6.9|3.9||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.90|-6.9|
82515231|NCT02819726|164722979|OTHER||Difference (%)|-1.2|STANDARD_ERROR_OF_MEAN|1.95|||TWO_SIDED|95.0|-7.07|3.86||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||3.86|-7.07|
82515232|NCT02819726|164722979|OTHER||Differnce (%)|-0.1|STANDARD_ERROR_OF_MEAN|2.27|||TWO_SIDED|95.0|-6.05|5.83||||||Week 52 (EOS). Clinical remission is defined as score of Simplified Disease Activity Index (SDAI) smaller than 3.3. The 95% CIs for clinical remission rate and treatment difference were derived using the Wilson Score method. The adjusted difference and its 95% CI are from a logistic regression model containing treatment group as a factor and baseline DAS28-CRP as a covariate.||5.83|-6.05|
82515233|NCT02819726|164722980|OTHER||Difference (%)|1.3|STANDARD_ERROR_OF_MEAN|7.19|||TWO_SIDED|95.0|-12.59|15.1||||||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||15.10|-12.59|
82515234|NCT02819726|164722980|OTHER||Difference (%)|0.2|STANDARD_ERROR_OF_MEAN|7.21|||TWO_SIDED|95.0|-13.75|14.03|||Difference (%)|||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||14.03|-13.75|
82515235|NCT02819726|164722980|OTHER||Difference (%)|-1.1|STANDARD_ERROR_OF_MEAN|7.29|||TWO_SIDED|95.0|-15.14|12.91||||||Week 52 EULAR score 'Good'. EULAR (European League Against Rheumatism) response was classified using the individual amount of change in the DAS28-CRP score. The 95% CIs for EULAR response rate and treatment difference were derived using the Wilson Score method.||12.91|-15.14|
82635508|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|3.12|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-1.15|7.39|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.39|-1.15|
82635509|NCT03091920|164985987|OTHER|No statistical testing was performed.|Least squares mean difference|3.74|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-0.44|7.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.92|-0.44|
82635510|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|1.1|7.49|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||7.49|1.10|
82635511|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|2.94|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|95.0|-0.23|6.1|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1||6.10|-0.23|
82515236|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|22.1|||||TWO_SIDED|90.0|-137.1|181.3||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||181.3|-137.1|
82515237|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|69.5|||||TWO_SIDED|90.0|-91.8|230.8||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||230.8|-91.8|
82515238|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day 15 \[AUEC(0-d15)\]|Statistical Comparisons Difference|47.4|||||TWO_SIDED|90.0|-112.5|207.2||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||207.2|-112.5|
82381884|NCT01217112|164474051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.32||0.327|TWO_SIDED|90.0|-0.9|3.51|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.51|-0.90|0.327
82515239|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|310.7|||||TWO_SIDED|90.0|-187.9|809.4||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||809.4|-187.9|
82515240|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|296.1|||||TWO_SIDED|90.0|-213.8|806.1||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||806.1|-213.8|
82515241|NCT02819726|164722986|OTHER|Statistical comparison of CD19+ B-cell pharmacokinetic parameters at Day week \[AUEC(0-w24)\]|Statistical Comparisons Difference|-14.6|||||TWO_SIDED|90.0|-527.4|498.2||||||The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||498.2|-527.4|
82515242|NCT02652780|164722992|SUPERIORITY||Mean Difference (Net)|-0.008||||0.8783|TWO_SIDED|95.0|-0.119|0.102|||ANCOVA|||A mixed model of analysis of covariance (ANCOVA) was used with change from baseline at Week 48 as the response, and participants, eyes of the participant as random factor, treatment and baseline LogMAR value as covariates in the model. P-value is used to assess the significance of the difference between All-GS010 and All-Sham with respect to change of LogMAR from baseline.||0.102|-0.119|0.8783
82515243|NCT04177693|164723041|SUPERIORITY|||||||0.112|||||||Kruskal-Wallis|||||||0.112
82515244|NCT04177693|164723042|SUPERIORITY|||||||0.613|||||||Kruskal-Wallis|||||||0.613
82515245|NCT04177693|164723043|SUPERIORITY|||||||0.202|||||||Kruskal-Wallis|||||||0.202
82515246|NCT04177693|164723044|SUPERIORITY|||||||0.508|||||||Kruskal-Wallis|||||||0.508
82515247|NCT04177693|164723045|SUPERIORITY|||||||0.237|||||||Kruskal-Wallis|||||||0.237
82515248|NCT04177693|164723046|SUPERIORITY|||||||0.327|||||||Kruskal-Wallis|||||||0.327
82515249|NCT04177693|164723047|SUPERIORITY|||||||0.633|||||||Kruskal-Wallis|||||||0.633
82515250|NCT04177693|164723048|SUPERIORITY|||||||0.146|||||||Kruskal-Wallis|||||||0.146
82515251|NCT04177693|164723049|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
82515252|NCT04177693|164723050|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82515253|NCT04177693|164723051|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82635512|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|4.8|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|95.0|0.5|9.11|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||9.11|0.50|
82515254|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-8.6|||||TWO_SIDED|95.0|-12.1|-5.1||||||Serotype 1: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-5.1|-12.1|
82515255|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-15.5|||||TWO_SIDED|95.0|-20.1|-10.8||||||Serotype 3: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||-10.8|-20.1|
82515256|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-8.4|||||TWO_SIDED|95.0|-12.0|-4.9||||||Serotype 4: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-4.9|-12.0|
82515257|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-4.3|||||TWO_SIDED|95.0|-7.8|-0.8||||||Serotype 5: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-0.8|-7.8|
82515258|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-2.4|||||TWO_SIDED|95.0|-4.6|-0.2||||||Serotype 6A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-0.2|-4.6|
82515259|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-4.1|||||TWO_SIDED|95.0|-7.0|-1.2||||||Serotype 6B: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-1.2|-7.0|
82515260|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-1.0|||||TWO_SIDED|95.0|-2.7|0.7||||||Serotype 7F: 2-sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.7|-2.7|
82515261|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-7.9|||||TWO_SIDED|95.0|-11.3|-4.6||||||Serotype 9V: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-4.6|-11.3|
82515262|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-0.8|||||TWO_SIDED|95.0|-3.1|1.6||||||Serotype 14: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||1.6|-3.1|
82515263|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.9||||||Serotype 18C: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||1.9|-3.1|
82635513|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|0.84|9.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7||9.36|0.84|
82515264|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-1.0|||||TWO_SIDED|95.0|-2.6|0.5||||||Serotype 19A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.5|-2.6|
82515265|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|0.2|||||TWO_SIDED|95.0|-1.5|2.0||||||Serotype 19F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||2.0|-1.5|
82515266|NCT04382326|164723064|NON_INFERIORITY|Comparison was conducted for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|percentage difference|-7.6|||||TWO_SIDED|95.0|-11.4|-3.9||||||Serotype 23F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-3.9|-11.4|
82515267|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|11.2|||||TWO_SIDED|95.0|8.6|14.0||||||Serotype 8: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||14.0|8.6|
82515268|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|-3.3|||||TWO_SIDED|95.0|-6.9|0.3||||||Serotype 10A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||0.3|-6.9|
82381885|NCT01217112|164474051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|1.303||0.851|TWO_SIDED|90.0|-1.93|2.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.43|-1.93|0.851
82570352|NCT01393613|164850942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.5101|TWO_SIDED|95.0|-1.86|0.93|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.93|-1.86|0.5101
82515269|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|7.1||||||95.0|4.2|10.2||||||Serotype 11A: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||10.2|4.2|
82515270|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|-18.1|||||TWO_SIDED|95.0|-22.1|-14.0||||||Serotype 12F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||-14.0|-22.1|
82515271|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|12.7|||||TWO_SIDED|95.0|10.2|15.4||||||Serotype 15B: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||15.4|10.2|
82515272|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|12.8|||||TWO_SIDED|95.0|10.3|15.5||||||Serotype 22F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||15.5|10.3|
82515273|NCT04382326|164723064|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|percentage difference|1.1|||||TWO_SIDED|95.0|-2.2|4.5||||||Serotype 33F: 2-Sided CI were calculated based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage||4.5|-2.2|
82515274|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.69|||||TWO_SIDED|95.0|0.63|0.76||||||Serotype 1: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.76|0.63|
82515275|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.61|0.73||||||Serotype 3: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.73|0.61|
82515276|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.78||||||95.0|0.7|0.86||||||Serotype 4: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.70|
82515277|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82||||||Serotype 5: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.67|
82515278|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.7|0.85||||||Serotype 6A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.85|0.70|
82515279|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7|||||TWO_SIDED|95.0|0.62|0.79||||||Serotype 6B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.79|0.62|
82515280|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.76|||||TWO_SIDED|95.0|0.7|0.82||||||Serotype 7F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.70|
82515281|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.8||||||95.0|0.73|0.88||||||Serotype 9V: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.88|0.73|
82515282|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.81|1.0||||||Serotype 14: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.00|0.81|
82515283|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.74||||||95.0|0.67|0.82||||||Serotype 18C: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.82|0.67|
82515284|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.94||||||Serotype 19A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.94|0.77|
82515285|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.78|0.96||||||Serotype 19F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.96|0.78|
82515286|NCT04382326|164723065|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC was to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.64|||||TWO_SIDED|95.0|0.57|0.72||||||Serotype 23F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.72|0.57|
82515287|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.87|||||TWO_SIDED|95.0|1.71|2.06||||||Serotype 8: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||2.06|1.71|
82635514|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|1.89|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-2.93|6.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||6.70|-2.93|
82635515|NCT03091920|164985988|OTHER|No statistical testing was performed.|Least squares mean difference|2.55|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.15|7.25|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14||7.25|-2.15|
82381886|NCT01217112|164474051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.281||0.672|TWO_SIDED|90.0|-1.6|2.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.69|-1.60|0.672
82381887|NCT01217112|164474051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|1.327||0.978|TWO_SIDED|90.0|-2.26|2.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.18|-2.26|0.978
82515288|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.94||||||95.0|2.64|3.26||||||Serotype 10A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||3.26|2.64|
82515289|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.67|||||TWO_SIDED|95.0|1.51|1.84||||||Serotype 11A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.84|1.51|
82515290|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.88||||||95.0|0.79|0.97||||||Serotype 12F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.97|0.79|
82635516|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|6.81|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|1.4|12.22|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||12.22|1.40|
82515291|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.95||||||95.0|5.39|6.55||||||Serotype 15B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||6.55|5.39|
82515292|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.01||||||95.0|4.54|5.52||||||Serotype 22F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||5.52|4.54|
82570353|NCT01393613|164850942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.3938|TWO_SIDED|95.0|-2.26|0.89|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.89|-2.26|0.3938
82570354|NCT01393613|164850943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.0231|TWO_SIDED|95.0|-2.28|-0.17|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.17|-2.28|0.0231
82570355|NCT01393613|164850943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.1547|TWO_SIDED|95.0|-1.83|0.29|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.29|-1.83|0.1547
82635517|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|6.55|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|95.0|1.12|11.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 0-4 hours||11.99|1.12|
82515293|NCT04382326|164723065|NON_INFERIORITY|For the additional 7 serotypes, the compared results were from serotype 1 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.4|||||TWO_SIDED|95.0|3.99|4.85||||||Serotype 33F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||4.85|3.99|
82515294|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-4.3|||||TWO_SIDED|95.0|-7.5|-1.4||||||Diphtheria: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||-1.4|-7.5|
82635518|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|-0.95|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-8.18|6.28|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||6.28|-8.18|
82381888|NCT01217112|164474052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.512||0.857|TWO_SIDED|90.0|-0.95|0.76|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.76|-0.95|0.857
82635519|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|1.85|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|-5.39|9.09|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 4-8 hours||9.09|-5.39|
82381889|NCT01217112|164474052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.549||0.543|TWO_SIDED|90.0|-0.58|1.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.26|-0.58|0.543
82381890|NCT01217112|164474052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.495||0.859|TWO_SIDED|90.0|-0.74|0.92|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.92|-0.74|0.859
82515295|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.3|||||TWO_SIDED|95.0|-1.0|1.7||||||Tetanus: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||1.7|-1.0|
82381891|NCT01217112|164474052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.526||0.467|TWO_SIDED|90.0|-1.27|0.5|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.50|-1.27|0.467
82515296|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-0.2||||||95.0|-3.5|3.1||||||Pertussis (PT): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.1|-3.5|
82381892|NCT01217112|164474053|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.406||0.124|TWO_SIDED|90.0|-1.32|0.05|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.05|-1.32|0.124
82381893|NCT01217112|164474053|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.439||0.909|TWO_SIDED|90.0|-0.68|0.79|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.79|-0.68|0.909
82381894|NCT01217112|164474053|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.392||0.245|TWO_SIDED|90.0|-1.12|0.2|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.20|-1.12|0.245
82381895|NCT01217112|164474053|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.412||0.382|TWO_SIDED|90.0|-1.05|0.33|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.33|-1.05|0.382
82381896|NCT01217112|164474054|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.837||0.376|TWO_SIDED|90.0|-2.15|0.66|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.66|-2.15|0.376
82381897|NCT01217112|164474054|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.908||0.688|TWO_SIDED|90.0|-1.15|1.89|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.89|-1.15|0.688
82381898|NCT01217112|164474054|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.803||0.637|TWO_SIDED|90.0|-1.73|0.96|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.96|-1.73|0.637
82381899|NCT01217112|164474054|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.849||0.355|TWO_SIDED|90.0|-2.22|0.63|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.63|-2.22|0.355
82442282|NCT00765882|164593084|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93||||0.0012|TWO_SIDED|95.0|1.5|5.72||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 145-μg dose and those taking placebo.~The power, adjusted for multiplicity, was expected to be 90% based on study NCT00402337 (MCP-103-201) data."||5.72|1.50|0.0012
82381900|NCT01217112|164474055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.391||0.482|TWO_SIDED|90.0|-0.39|0.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.95|-0.39|0.482
82515297|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.6||||||95.0|-2.5|3.9||||||Pertussis (FHA): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.9|-2.5|
82515298|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|-1.3||||||95.0|-4.7|2.2||||||Pertussis (PRN): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.2-Sided CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||2.2|-4.7|
82570356|NCT01393613|164850943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.2004|TWO_SIDED|95.0|-1.98|0.42|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.42|-1.98|0.2004
82515299|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.2|2.9||||||HBsAg: 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||2.9|-3.2|
82515300|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.4|3.2||||||Poliovirus (Type 1): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.2|-3.4|
82635520|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.98|5.23|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||5.23|-5.98|
82570357|NCT01393613|164850944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0009|TWO_SIDED|95.0|-0.78|-0.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel (CMH) row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.20|-0.78|0.0009
82635521|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|3.1|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-2.5|8.7|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 8-12 hours||8.70|-2.50|
82635522|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|6.46|STANDARD_ERROR_OF_MEAN|2.14|||TWO_SIDED|95.0|2.02|10.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||10.89|2.02|
82635523|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.57|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|95.0|1.19|9.95|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 12-16 hours||9.95|1.19|
82635524|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|3.63|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|0.34|6.91|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||6.91|0.34|
82635525|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|2.41|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-0.84|5.66|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 16-20 hours||5.66|-0.84|
82635526|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|1.74|STANDARD_ERROR_OF_MEAN|2.23|||TWO_SIDED|95.0|-2.89|6.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||6.36|-2.89|
82635527|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|0.33|STANDARD_ERROR_OF_MEAN|2.25|||TWO_SIDED|95.0|-4.33|4.99|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 1, 20-24 hours||4.99|-4.33|
82635528|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.36|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|-1.17|9.88|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||9.88|-1.17|
82635529|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.41|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|95.0|-0.14|10.96|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 0-4 hours||10.96|-0.14|
82635530|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.88|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|0.36|9.4|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||9.40|0.36|
82635531|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|-0.22|8.83|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 4-8 hours||8.83|-0.22|
82635532|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.04|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-0.65|8.72|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||8.72|-0.65|
82635533|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|2.26|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.42|6.94|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 8-12 hours||6.94|-2.42|
82635534|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|6.9|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|1.91|11.89|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||11.89|1.91|
82635535|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|6.15|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|1.22|11.08|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 12-16 hours||11.08|1.22|
82635536|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.99|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|0.05|9.93|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||9.93|0.05|
82635537|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.34|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|0.45|10.22|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 16-20 hours||10.22|0.45|
82635538|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|1.67|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-3.17|6.52|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||6.52|-3.17|
82635539|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.03|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|-0.86|8.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 7, 20-24 hours||8.92|-0.86|
82635540|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|4.05|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|95.0|-1.18|9.27|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||9.27|-1.18|
82515301|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.8||||||95.0|-2.4|4.6||||||Poliovirus (Type 2): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||4.6|-2.4|
82515302|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0||||||95.0|-3.2|3.1||||||Poliovirus (Type 3): 2-Sided CI was calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.1|-3.2|
82381901|NCT01217112|164474055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.489||0.708|TWO_SIDED|90.0|-0.65|1.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.02|-0.65|0.708
82381902|NCT01217112|164474055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.434||0.166|TWO_SIDED|90.0|-0.12|1.37|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.37|-0.12|0.166
82515303|NCT04382326|164723066|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the percentage differences (20vPnC - 13vPnC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Hib (≥0.15 μg/mL): 2-Sided CI were calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||3.0|-3.0|
82570358|NCT01393613|164850944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0422|TWO_SIDED|95.0|-0.6|-0.01|||Cochran-Mantel-Haenszel|CMH row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.01|-0.60|0.0422
82635541|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|3.76|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-1.38|8.9|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 0-4 hours||8.90|-1.38|
82635542|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.18|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-1.7|12.06|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||12.06|-1.70|
82381903|NCT01217112|164474055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.408||0.424|TWO_SIDED|90.0|-0.37|1.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.03|-0.37|0.424
82381904|NCT01217112|164474056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.26||0.022|TWO_SIDED|90.0|0.94|5.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.25|0.94|0.022
82381905|NCT01217112|164474056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|1.532||0.014|TWO_SIDED|90.0|1.44|6.69|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.69|1.44|0.014
82381906|NCT01217112|164474056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|1.4||0.053|TWO_SIDED|90.0|0.45|5.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.25|0.45|0.053
82381907|NCT01217112|164474056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|1.299||0.012|TWO_SIDED|90.0|1.33|5.78|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.78|1.33|0.012
82381908|NCT01217112|164474057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.35|STANDARD_ERROR_OF_MEAN|1.463||0.032|TWO_SIDED|90.0|0.84|5.85|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.85|0.84|0.032
82381909|NCT01217112|164474057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.27|STANDARD_ERROR_OF_MEAN|1.798||0.026|TWO_SIDED|90.0|1.18|7.35|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.35|1.18|0.026
82381910|NCT01217112|164474057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.44|STANDARD_ERROR_OF_MEAN|1.626||0.046|TWO_SIDED|90.0|0.65|6.22|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.22|0.65|0.046
82381911|NCT01217112|164474057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|1.512||0.018|TWO_SIDED|90.0|1.26|6.45|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.45|1.26|0.018
82381912|NCT01217112|164474058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.806||0.294|TWO_SIDED|90.0|-0.52|2.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.25|-0.52|0.294
82381913|NCT01217112|164474058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|0.988||0.092|TWO_SIDED|90.0|0.05|3.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.43|0.05|0.092
82570359|NCT01393613|164850944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.1358|TWO_SIDED|95.0|-0.56|0.08|||Cochran-Mantel-Haenszel|CMH row mean scores differ test controlling for study center.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.08|-0.56|0.1358
82381914|NCT01217112|164474058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|0.893||0.173|TWO_SIDED|90.0|-0.28|2.79|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||2.79|-0.28|0.173
82635543|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.61|STANDARD_ERROR_OF_MEAN|3.25|||TWO_SIDED|95.0|-1.14|12.37|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 4-8 hours||12.37|-1.14|
82381915|NCT01217112|164474058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.837||0.545|TWO_SIDED|90.0|-0.92|1.95|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.95|-0.92|0.545
82381916|NCT01217112|164474059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.67|STANDARD_ERROR_OF_MEAN|1.214||0.038|TWO_SIDED|90.0|0.59|4.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.75|0.59|0.038
82381917|NCT01217112|164474059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|1.486||0.004|TWO_SIDED|90.0|2.16|7.26|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.26|2.16|0.004
82381918|NCT01217112|164474059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.35||0.088|TWO_SIDED|90.0|0.09|4.72|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||4.72|0.09|0.088
82381919|NCT01217112|164474059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|1.252||0.01|TWO_SIDED|90.0|1.39|5.68|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||5.68|1.39|0.010
82381920|NCT01217112|164474060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|1.814||0.064|TWO_SIDED|90.0|0.42|6.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||6.64|0.42|0.064
82381921|NCT01217112|164474060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.55|STANDARD_ERROR_OF_MEAN|2.237||0.008|TWO_SIDED|90.0|2.72|10.38|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||10.38|2.72|0.008
82381922|NCT01217112|164474060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|2.016||0.084|TWO_SIDED|90.0|0.19|7.1|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.10|0.19|0.084
82381923|NCT01217112|164474060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|1.871||0.041|TWO_SIDED|90.0|0.84|7.25|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.25|0.84|0.041
82381924|NCT01217112|164474061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.129|TWO_SIDED|90.0|-0.14|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.14|0.129
82442283|NCT00765882|164593084|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.22|||<|0.0001|TWO_SIDED|95.0|2.2|8.1||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 290-μg dose and those taking placebo.~The power, adjusted for multiplicity, was expected to be 96% based on study NCT00460811 (MCP-103-202) data."||8.10|2.20|<0.0001
82635544|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|-0.21|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-5.35|4.92|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||4.92|-5.35|
82515304|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|0.65|||||TWO_SIDED|95.0|0.59|0.72||||||Serotype 1: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.72|0.59|
82515305|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7|||||TWO_SIDED|95.0|0.64|0.76||||||Serotype 3: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.76|0.64|
82635545|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|1.61|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-3.42|6.65|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 8-12 hours||6.65|-3.42|
82381925|NCT01217112|164474061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.051||0.961|TWO_SIDED|90.0|-0.08|0.09|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.09|-0.08|0.961
82442284|NCT01874275|164593099|SUPERIORITY_OR_OTHER|||||||0.2413|TWO_SIDED||||||Mixed Models Analysis|||||||0.2413
82442285|NCT02337530|164593103|SUPERIORITY||Odds Ratio (OR)|1.37||||0.73|TWO_SIDED|95.0|0.28|7.01|||Fisher Exact|||||7.01|0.28|0.73
82381926|NCT01217112|164474061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.048||0.128|TWO_SIDED|90.0|-0.16|0.01|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.01|-0.16|0.128
82381927|NCT01217112|164474061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.045||0.3|TWO_SIDED|90.0|-0.12|0.03|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.03|-0.12|0.300
82635546|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.08|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-1.19|11.36|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||11.36|-1.19|
82381928|NCT01217112|164474062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|5.38||0.625|TWO_SIDED|90.0|-6.37|11.67|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||11.67|-6.37|0.625
82635547|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|5.3|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-0.83|11.42|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 12-16 hours||11.42|-0.83|
82381929|NCT01217112|164474062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.77|STANDARD_ERROR_OF_MEAN|5.519||0.226|TWO_SIDED|90.0|-2.48|16.02|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||16.02|-2.48|0.226
82381930|NCT01217112|164474062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|5.103||0.904|TWO_SIDED|90.0|-7.94|9.18|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||9.18|-7.94|0.904
82442286|NCT02337530|164593103|SUPERIORITY||Odds Ratio (OR)|6.4||||0.01|TWO_SIDED|95.0|1.65|24.8|||Fisher Exact|||||24.8|1.65|0.01
82442287|NCT02337530|164593104|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.56|TWO_SIDED|95.0|0.42|1.6|||Log Rank|||||1.60|0.42|0.56
82442288|NCT02337530|164593104|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.44|TWO_SIDED|95.0|0.4|1.49|||Log Rank|||||1.49|0.40|0.44
82515306|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.7||||||95.0|0.63|0.78||||||Serotype 4: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.78|0.63|
82381931|NCT01217112|164474062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.17|STANDARD_ERROR_OF_MEAN|5.71||0.285|TWO_SIDED|90.0|-3.41|15.75|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||15.75|-3.41|0.285
82381932|NCT01217112|164474063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.568||0.138|TWO_SIDED|90.0|-1.81|0.1|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.10|-1.81|0.138
82381933|NCT01217112|164474063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.547||0.505|TWO_SIDED|90.0|-1.28|0.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||0.55|-1.28|0.505
82515307|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.69||||||95.0|0.61|0.77||||||Serotype 5: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.77|0.61|
82515308|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.72||||||95.0|0.65|0.81||||||Serotype 6A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.81|0.65|
82515309|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.7||||||Serotype 6B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.70|0.51|
82515310|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.75||||||95.0|0.69|0.81||||||Serotype 7F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.81|0.69|
82515311|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.65|0.8||||||Serotype 9V: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.80|0.65|
82515312|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79||||||95.0|0.71|0.89||||||Serotype 14: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.89|0.71|
82515313|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.77||||||95.0|0.7|0.84||||||Serotype 18C: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.84|0.70|
82515314|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.86||||||Serotype 19A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.72|
82515315|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.79||||||95.0|0.73|0.86||||||Serotype 19F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.86|0.73|
82515316|NCT04382326|164723067|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group. Noninferiority was declared for if the lower bound of the 2-sided 95% CI for the IgG GMR of 20vPnC to 13vPnC for the serotype is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.75||||||Serotype 23F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC-13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.75|0.58|
82570360|NCT01393613|164850945|SUPERIORITY_OR_OTHER||Relative Risk|1.54||||0.0006|TWO_SIDED|95.0|1.2|2.0|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||2.00|1.20|0.0006
82635548|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|95.0|-4.02|6.63|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||6.63|-4.02|
82515317|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.98||||||95.0|1.81|2.16||||||Serotype 8: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||2.16|1.81|
82515318|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.32||||||95.0|1.18|1.49||||||Serotype 10A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.49|1.18|
82570361|NCT01393613|164850945|SUPERIORITY_OR_OTHER||Relative Risk|1.22||||0.168|TWO_SIDED|95.0|0.92|1.62|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.62|0.92|0.1680
82381934|NCT01217112|164474063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.54||0.743|TWO_SIDED|90.0|-0.73|1.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.08|-0.73|0.743
82381935|NCT01217112|164474063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.565||0.54|TWO_SIDED|90.0|-0.6|1.29|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||1.29|-0.60|0.540
82381936|NCT01217112|164474065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|1.664||0.701|TWO_SIDED|90.0|-2.14|3.43|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.43|-2.14|0.701
82515319|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.52||||||95.0|1.39|1.67||||||Serotype 11A: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.67|1.39|
82515320|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6||||||95.0|0.54|0.67||||||Serotype 12F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||0.67|0.54|
82515321|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.82|||||TWO_SIDED|95.0|4.39|5.3||||||Serotype 15B: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||5.30|4.39|
82570362|NCT01393613|164850945|SUPERIORITY_OR_OTHER||Relative Risk|1.35||||0.0433|TWO_SIDED|95.0|1.02|1.79|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.79|1.02|0.0433
82381937|NCT01217112|164474065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.77|STANDARD_ERROR_OF_MEAN|1.662||0.006|TWO_SIDED|90.0|1.99|7.55|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||7.55|1.99|0.006
82570363|NCT01393613|164850946|SUPERIORITY_OR_OTHER||Relative Risk|0.82||||0.5202|TWO_SIDED|95.0|0.44|1.51|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||1.51|0.44|0.5202
82381938|NCT01217112|164474065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|1.589||0.542|TWO_SIDED|90.0|-1.68|3.64|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.64|-1.68|0.542
82570364|NCT01393613|164850946|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||0.9894|TWO_SIDED|95.0|0.55|1.85|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.85|0.55|0.9894
82570365|NCT01393613|164850946|SUPERIORITY_OR_OTHER||Relative Risk|0.76||||0.4586|TWO_SIDED|95.0|0.36|1.59|||Cochran-Mantel-Haenszel|CMH general association test||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.59|0.36|0.4586
82570366|NCT01393613|164850947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0029|TWO_SIDED|95.0|-2.3|-0.48|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.48|-2.30|0.0029
82515322|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|4.06||||||95.0|3.68|4.48||||||Serotype 22F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||4.48|3.68|
82515323|NCT04382326|164723067|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 19A (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.64||||||95.0|1.46|1.83||||||Serotype 33F: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - lowest 13vPnC) of the logarithms of the IgG concentrations and the corresponding CI (based on the Student's t distribution).||1.83|1.46|
82515324|NCT04382326|164723075|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.29||||||95.0|1.05|1.58||||||Measles: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.58|1.05|
82515325|NCT04382326|164723076|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.08|||||TWO_SIDED|95.0|0.85|1.38||||||Mumps: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.38|0.85|
82515326|NCT04382326|164723077|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|1.23|||||TWO_SIDED|95.0|1.02|1.48||||||Rubella: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution).||1.48|1.02|
82515327|NCT04382326|164723078|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR of 20vPnC group to 13vPnC group is greater than 0.5 (2-fold NI margin).|Geometric Mean Ratios|0.99|||||TWO_SIDED|95.0|0.84|1.17||||||Varicella: GMR and 2-Sided CI were calculated by exponentiating the mean difference (20vPnC - 13vPnC) of the logarithms of the concentrations and the corresponding CI (based on the Student's t distribution)||1.17|0.84|
82515328|NCT01762761|164723079|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|26.08|||<|0.001|TWO_SIDED|95.0|7.29|93.26|||Regression, Logistic|||||93.26|7.29|<0.001
82570367|NCT01393613|164850947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.3559|TWO_SIDED|95.0|-1.34|0.48|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.48|-1.34|0.3559
82570368|NCT01393613|164850947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.3646|TWO_SIDED|95.0|-1.51|0.56|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.56|-1.51|0.3646
82570369|NCT01393613|164850948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.1273|TWO_SIDED|95.0|-2.61|0.33|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||0.33|-2.61|0.1273
82570370|NCT01393613|164850948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.64|TWO_SIDED|95.0|-1.83|1.12|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||1.12|-1.83|0.6400
82570371|NCT01393613|164850948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.4423|TWO_SIDED|95.0|-2.32|1.01|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||1.01|-2.32|0.4423
82570372|NCT01393613|164850949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0194|TWO_SIDED|95.0|-2.36|-0.21|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.21|-2.36|0.0194
82635549|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|2.93|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-2.26|8.12|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 16-20 hours||8.12|-2.26|
82515329|NCT01762761|164723080|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|23.8|||<|0.001|TWO_SIDED|95.0|8.54|66.33|||Regression, Logistic|||||66.33|8.54|<0.001
82570373|NCT01393613|164850949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.0754|TWO_SIDED|95.0|-2.06|0.1|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.10|-2.06|0.0754
82570374|NCT01393613|164850949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.108|TWO_SIDED|95.0|-2.22|0.22|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.22|-2.22|0.1080
82515330|NCT01762761|164723081|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.52|||<|0.001|TWO_SIDED|95.0|3.84|18.94|||Regression, Logistic|||||18.94|3.84|<0.001
82635550|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|-1.34|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-7.52|4.85|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.85|-7.52|
82515331|NCT01762761|164723082|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.001|TWO_SIDED|95.0|0.13|0.59|||Mixed Models Analysis|||||0.59|0.13|0.001
82515332|NCT01762761|164723083|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.59||||0.306|TWO_SIDED|95.0|0.21|1.64|||Mixed Models Analysis|||||1.64|0.21|0.306
82515333|NCT01762761|164723084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.12|||<|0.001|TWO_SIDED|95.0|4.01|9.34|||Log Rank|||||9.34|4.01|<0.001
82515334|NCT01762761|164723085|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.13|||<|0.001|TWO_SIDED|95.0|0.05|0.37|||Regression, Logistic|||||0.37|0.05|<0.001
82515335|NCT01762761|164723086|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|16.54||||0.008|TWO_SIDED|95.0|2.09|131.12|||Regression, Logistic|||||131.12|2.09|0.008
82515336|NCT01762761|164723087|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||van Elteren stratified rank test|||||||<0.001
82515337|NCT01762761|164723088|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||van Elteren stratified rank test|||||||<0.001
82515338|NCT00833924|164723122|SUPERIORITY_OR_OTHER||Rate of 30-day freedom from MAE|99.2|||<|0.01|TWO_SIDED|95.0|95.4|100.0|||Exact binomial test|||Null hypothesis: The 30-day Freedom from MAE for patients treated with the Zenith® Low Profile AAA Endovascular Graft does not meet the performance goal (88%).||100|95.4|<0.01
82381939|NCT01217112|164474065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|1.627||0.827|TWO_SIDED|90.0|-2.36|3.08|||ANCOVA|||Data was analysed by ANCOVA. The fitted ANCOVA models included the baseline parameter scores as covariate, with treatment group and gender as factors. All statistical tests were two-sided at the 10% significance level.||3.08|-2.36|0.827
82635551|NCT03091920|164985989|OTHER|No statistical testing was performed.|Least squares mean difference|-1.14|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-7.25|4.98|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate.|Day 14, 20-24 hours||4.98|-7.25|
82635552|NCT03091920|164985990|OTHER|No statistical testing was performed.|Least squares mean difference|-0.288|STANDARD_ERROR_OF_MEAN|0.274|||TWO_SIDED|95.0|-0.857|0.282|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.282|-0.857|
82635553|NCT03091920|164985990|OTHER|No statistical testing was performed.|Least squares mean difference|-0.105|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.708|0.498|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.498|-0.708|
82515339|NCT00833924|164723123|SUPERIORITY_OR_OTHER||12-month Device Success Rate|97.3|||<|0.01|TWO_SIDED|95.0|92.4|99.4|||Exact binomial test|||Null hypothesis: The 12-month device success for patients treated with the Zenith® Low Profile AAA Endovascular Graft does not meet the performance goal (84%).||99.4|92.4|<0.01
82515340|NCT01485861|164723127|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.77||||0.1606|TWO_SIDED|90.0|0.56|1.04|||Log Rank|||||1.04|0.56|0.1606
82515341|NCT01485861|164723127|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.89||||0.53|TWO_SIDED|90.0|0.66|1.2|||Log Rank|||||1.20|0.66|0.5300
82635554|NCT03091920|164985990|OTHER|No statistical testing was performed.|Least squares mean difference|-0.196|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|-0.727|0.335|||||Least Squares mean difference and associated 95% CI is from an ANCOVA model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|||0.335|-0.727|
82635555|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-23.188|STANDARD_ERROR_OF_MEAN|27.97|||TWO_SIDED|95.0|-84.13|37.753|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||37.753|-84.130|
82381940|NCT00806403|164474108|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Fisher Exact|||Null hypothesis:there is no difference in ST resolution at 120 minutes after inclusion between thrombolysis and primary PCI. The power calculation was based on the aim to prove a 50% reduction of failure to achive at least a 50% ST resolution (40% failure in thrombolysis group and 20% failure in Primary PCI group). With a power of 80% and a significance level of 0.05 (2-sided test), a total of 166 patients would be required.||||0.56
82381941|NCT00806403|164474109|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82381942|NCT00806403|164474110|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||Null hypothesis:there is no difference in number of patients with TIMI 3 flow at 5-7 days after inclusion between thrombolysis and primary PCI. The power calculation was based on the aim to prove a 65% reduction of failure to achive TIMI 3 flow (30% failure in thrombolysis group and 10% failure in Primary PCI group). With a power of 90% and a significance level of 0.05 (2-sided test), a total of 180 patients would be required.||||0.04
82381943|NCT00806403|164474111|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||||||0.50
82381944|NCT00806403|164474112|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Fisher Exact|||||||0.21
82381945|NCT03197389|164474126|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|||||||||||||
82381946|NCT00226499|164474214|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|94.943|||<|0.0001|TWO_SIDED|97.5|92.446|96.615|||Regression, Cox|||Vaccine Efficacy (VE) was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||96.615|92.446|<0.0001
82381947|NCT00226499|164474214|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|65.428||||0.1265|TWO_SIDED|97.5|57.182|72.086|||Regression, Cox|||Vaccine Efficacy (VE) was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||72.086|57.182|0.1265
82381948|NCT00226499|164474215|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|99.498||||0.0001|TWO_SIDED|95.0|97.522|99.898|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||99.898|97.522|0.0001
82635556|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-14.033|STANDARD_ERROR_OF_MEAN|26.092|||TWO_SIDED|95.0|-70.883|42.817|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||42.817|-70.883|
82381949|NCT00226499|164474215|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|90.741||||0.1265|TWO_SIDED|95.0|85.866|93.934|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||93.934|85.866|0.1265
82635557|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-18.611|STANDARD_ERROR_OF_MEAN|24.138|||TWO_SIDED|95.0|-71.204|33.982|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 8||33.982|-71.204|
82381950|NCT00226499|164474216|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|92.487|||<|0.0001|TWO_SIDED|95.0|89.927|94.396|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||94.396|89.927|<0.0001
82381951|NCT00226499|164474216|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|64.585||||0.1265|TWO_SIDED|95.0|57.503|70.486|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||70.486|57.503|0.1265
82381952|NCT00226499|164474236|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|95.855|||<|0.0001|TWO_SIDED|95.0|94.075|97.101|||Regression, Cox|||VE was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||97.101|94.075|<0.0001
82635558|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-25.389|STANDARD_ERROR_OF_MEAN|16.885|||TWO_SIDED|95.0|-62.551|11.774|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||11.774|-62.551|
82381953|NCT00226499|164474236|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|69.812||||0.1265|TWO_SIDED|95.0|62.848|75.47|||Regression, Cox|||VE was measured by calculating the relative risk of a confirmed varicella case in a vaccine group compared to a confirmed varicella case in the control group.||75.470|62.848|0.1265
82381954|NCT00226499|164474237|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|99.072|||<|0.0001|TWO_SIDED|95.0|97.907|99.589|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||99.589|97.907|<0.0001
82381955|NCT00226499|164474237|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|89.532||||0.1265|TWO_SIDED|95.0|86.126|92.102|||Regression, Cox|||VE was measured by calculating the relative risk of a moderate or severe confirmed varicella case in a vaccine group compared to a moderate or severe confirmed varicella case in the control group.||92.102|86.126|0.1265
82381956|NCT00226499|164474238|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Priorix-Tetra as compared to Priorix).|Vaccine Efficacy|94.816|||<|0.0001|TWO_SIDED|95.0|92.838|96.248|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||96.248|92.838|<0.0001
82381957|NCT00226499|164474238|OTHER|To demonstrate at least 60% VE, with respect to confirmed varicella disease over at least a two-year period of follow-up (beginning 42 days post dose 2) of Varilrix as compared to Priorix).|Vaccine Efficacy|68.932||||0.1265|TWO_SIDED|95.0|61.893|74.671|||Regression, Cox|||VE was measured by calculating the relative risk of a probable or confirmed varicella case in a vaccine group compared to a probable or confirmed varicella case in the control group.||74.671|61.893|0.1265
82381958|NCT00946920|164474261|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between treatments (degarelix versus goserelin acetate) was chosen to be -5 percentage points.|Kaplan-Meier estimate|79.6|||||TWO_SIDED|95.0|75.6|83.7||||||The cumulative probability of testosterone ≤0.5 ng/mL from Day 3 to Day 364 was estimated by the Kaplan-Meier method. Only testosterone measurements taken at scheduled trial visits from Day 3 to Day 364 were included in the analysis. The hypothesis to test was the following: a non-inferiority assessment determined whether degarelix was non-inferior to goserelin with respect to the cumulative probability of testosterone ≤0.5 ng/mL from Day 3 to Day 364.||83.7|75.6|
82381959|NCT02964247|164474266|SUPERIORITY||Treatment difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.89|-0.48|||pattern mixture model||Liraglutide - Placebo|Statistical analysis for the primary estimand. Primary estimand: treatment effect (effectiveness) based on the FAS using week 26 measurements from the in-trial observation period. The change in HbA1c from baseline to week 26 were analysed using a pattern mixture model with multiple imputation to impute missing data, with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline HbA1c as covariate.||-0.48|-0.89|<.001
82515342|NCT01485861|164723127|SUPERIORITY|Strata are: prior enzalutamide (Yes vs. No), progression factor (prostate-specific antigen \[PSA\] only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).|Hazard Ratio (HR)|0.75||||0.1689|TWO_SIDED|90.0|0.54|1.05|||Log Rank|||||1.05|0.54|0.1689
82515343|NCT01485861|164723127|SUPERIORITY|Strata are: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).|Hazard Ratio (HR)|0.94||||0.7484|TWO_SIDED|90.0|0.69|1.28|||Log Rank|||||1.28|0.69|0.7484
82515344|NCT01485861|164723128|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.39||||0.0064|TWO_SIDED|90.0|0.22|0.7|||Log Rank|||||0.70|0.22|0.0064
82515345|NCT01485861|164723128|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.46||||0.0285|TWO_SIDED|90.0|0.25|0.83|||Log Rank|||||0.83|0.25|0.0285
82515346|NCT01485861|164723146|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.87||||0.417|TWO_SIDED|95.0|0.62|1.22|||Log Rank|||||1.22|0.62|0.4170
82515347|NCT01485861|164723146|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.93||||0.6712|TWO_SIDED|95.0|0.67|1.3|||Log Rank|||||1.30|0.67|0.6712
82570375|NCT01393613|164850950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0045|TWO_SIDED|95.0|-2.34|-0.43|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6. Because only the comparison of brexpiprazole 4 mg/day versus placebo met the threshold in the primary analysis, the following analysis is not part for the formal statistical testing and is descriptive only.||-0.43|-2.34|0.0045
82570376|NCT01393613|164850950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.4753|TWO_SIDED|95.0|-1.31|0.61|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.61|-1.31|0.4753
82381960|NCT02964247|164474266|SUPERIORITY|Test was not controlled for type I error. Secondary estimand: treatment effect (efficacy) based on the FAS using post baseline measurements up to and including week 26 from the on-treatment without rescue medication obs. period.|Treatment difference|-0.74|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.94|-0.53|||Mixed Models Analysis||Liraglutide - Placebo|Statistical analysis for the secondary estimand.The change in HbA1c from baseline up to and including week 26 at scheduled time points were analysed using MMRM with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline HbA1c as covariate, all nested within visit.||-0.53|-0.94|<.001
82381961|NCT02964247|164474267|SUPERIORITY||Treatment difference|-0.82|STANDARD_ERROR_OF_MEAN|0.46||0.077|TWO_SIDED|95.0|-1.73|0.09|||pattern mixture model||Liraglutide - Placebo|Statistical analysis for the primary estimand. Primary estimand: treatment effect (effectiveness) based on the FAS using week 26 measurements from the in-trial observation period. The change in body weight from baseline to week 26 were analysed using a pattern mixture model with multiple imputation to impute missing data, with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline body weight as covariate.||0.09|-1.73|0.077
82381962|NCT02964247|164474267|SUPERIORITY|Test was not controlled for type I error. Secondary estimand: treatment effect (efficacy) based on the FAS using post baseline measurements up to and including week 26 from the on-treatment without rescue medication obs. period.|Treatment difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46||0.062|TWO_SIDED|95.0|-1.77|0.04|||Mixed Models Analysis||Liraglutide - Placebo|Statistical analysis for the secondary estimand. The change in body weight from baseline up to and including week 26 at scheduled time points were analysed using MMRM with treatment, country and the stratification factor (metformin use at baseline: yes vs. no) as categorical fixed effects and baseline body weight as covariate, all nested within visit.||0.04|-1.77|0.062
82381963|NCT03888469|164474300|NON_INFERIORITY|Non-inferiority margin = 0.05|Least Squares Mean Difference|0.0|||||ONE_SIDED|95.0||0.0|||Mixed effects repeated measures model|Mixed effects repeated measures model with terms for lens, period and sequence as fixed effects and subject as a random effect.|Difference = DDT2 - Moist|||0.00||
82570377|NCT01393613|164850950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.115|TWO_SIDED|95.0|-1.96|0.21|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.21|-1.96|0.1150
82570378|NCT01393613|164850951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.0021|TWO_SIDED|95.0|-2.05|-0.46|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.46|-2.05|0.0021
82381964|NCT03207776|164474403|SUPERIORITY||Odds Ratio (OR)|0.8||||0.041|TWO_SIDED|95.0|0.64|0.99|||Mixed Models Analysis|||||0.99|0.64|0.041
82381965|NCT03207776|164474404|SUPERIORITY||Odds Ratio (OR)|0.99||||0.952|TWO_SIDED|95.0|0.69|1.42|||Mixed Models Analysis|||||1.42|0.69|0.952
82381966|NCT03207776|164474405|SUPERIORITY||Odds Ratio (OR)|0.91||||0.472|TWO_SIDED|95.0|0.71|1.17|||Mixed Models Analysis|||||1.17|0.71|0.472
82570379|NCT01393613|164850951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.6792|TWO_SIDED|95.0|-0.97|0.63|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||0.63|-0.97|0.6792
82570380|NCT01393613|164850951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.5752|TWO_SIDED|95.0|-1.16|0.65|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.65|-1.16|0.5752
82570381|NCT01393613|164850952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.0104|TWO_SIDED|95.0|-1.51|-0.2|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 4mg/day and placebo was performed at Week 6.||-0.20|-1.51|0.0104
82381967|NCT03207776|164474406|SUPERIORITY||Odds Ratio (OR)|1.14||||0.544|TWO_SIDED|95.0|0.74|1.77|||Mixed Models Analysis|||||1.77|0.74|0.544
82515348|NCT01485861|164723146|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.5164|TWO_SIDED|95.0|0.62|1.27|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.27|0.62|0.5164
82381968|NCT02342678|164474407|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.13|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|||||2.2|-0.3|0.13
82515349|NCT01485861|164723146|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8955|TWO_SIDED|95.0|0.72|1.44|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.44|0.72|0.8955
82515350|NCT01485861|164723147|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.63||||0.1472|TWO_SIDED|95.0|0.33|1.19|||Log Rank|||||1.19|0.33|0.1472
82515351|NCT01485861|164723147|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.45||||0.0157|TWO_SIDED|95.0|0.23|0.87|||Log Rank|||||0.87|0.23|0.0157
82515352|NCT01485861|164723150|SUPERIORITY||Hazard Ratio (HR)|0.7|||=|0.0665|TWO_SIDED|90.0|0.51|0.97|||Log Rank|||||0.97|0.51|= 0.0665
82381969|NCT02342678|164474408|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.18|TWO_SIDED|95.0|-0.2|1.1|||ANCOVA|||||1.1|-0.2|0.18
82515353|NCT01485861|164723150|SUPERIORITY||Hazard Ratio (HR)|0.99|||=|0.9319|TWO_SIDED|90.0|0.73|1.33|||Log Rank|||||1.33|0.73|= 0.9319
82381970|NCT02342678|164474409|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.89|TWO_SIDED|95.0|-1.2|1.3|||ANCOVA|||||1.3|-1.2|0.89
82515354|NCT01485861|164723150|SUPERIORITY||Hazard Ratio (HR)|0.7|||=|0.071|TWO_SIDED|90.0|0.5|0.97|||Log Rank|||Strata were: prior Enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||0.97|0.50|= 0.0710
82381971|NCT02342678|164474410|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.13|TWO_SIDED|95.0|-0.3|2.0|||ANCOVA|||||2.0|-0.3|0.13
82381972|NCT02342678|164474411|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.73|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||||0.4|-0.3|0.73
82381973|NCT02342678|164474412|SUPERIORITY||Mean Difference (Final Values)|-19.3||||0.38|TWO_SIDED|95.0|-62.9|24.3|||ANCOVA|||||24.3|-62.9|0.38
82381974|NCT02342678|164474413|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.24|TWO_SIDED|95.0|-3.7|14.8|||ANCOVA|||||14.8|-3.7|0.24
82515355|NCT01485861|164723150|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.789|TWO_SIDED|90.0|0.7|1.31|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.31|0.70|= 0.7890
82515356|NCT01485861|164723151|SUPERIORITY||Hazard Ratio (HR)|0.68|||=|0.2906|TWO_SIDED|90.0|0.37|1.25|||Log Rank|||||1.25|0.37|= 0.2906
82515357|NCT01485861|164723151|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.2716|TWO_SIDED|90.0|0.35|1.22|||Log Rank|||||1.22|0.35|= 0.2716
82570382|NCT01393613|164850952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0373|TWO_SIDED|95.0|-1.35|-0.04|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 2mg/day and placebo was performed at Week 6.||-0.04|-1.35|0.0373
82570383|NCT01393613|164850952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.089|TWO_SIDED|95.0|-1.39|0.1|||Mixed Models Analysis|MMRM analysis fixed effect of treatment, trial site, visit, treatment visit interaction, Baseline value, Baseline visit interaction as covariates.||Statistical analysis to compare brexpiprazole 1mg/day and placebo was performed at Week 6.||0.10|-1.39|0.0890
82570384|NCT00562484|164851020|SUPERIORITY_OR_OTHER||Vaccine Efficacy|42.0|||||TWO_SIDED|95.0|30.0|52.0||||||Vaccine efficacy = 100 x (1 - ratio of incidence rate)||52|30|
82515358|NCT01485861|164723152|SUPERIORITY|Unstratified|Difference in response rates|1.97|||=|0.7913|TWO_SIDED|90.0|-10.25|14.18|||Chi-squared|||||14.18|-10.25|= 0.7913
82515359|NCT01485861|164723152|SUPERIORITY|Unstratified|Difference in response rates|-1.22|||=|0.8675|TWO_SIDED|90.0|-13.24|10.8|||Chi-squared|||||10.80|-13.24|= 0.8675
82515360|NCT01485861|164723153|SUPERIORITY||Difference in response rates|11.43|||=|0.4176|TWO_SIDED|90.0|-11.43|58.32|||Chi-squared|||||58.32|-11.43|= 0.4176
82515361|NCT01485861|164723153|SUPERIORITY||Difference in response rates|15.43|||=|0.2802|TWO_SIDED|90.0|-7.58|38.44|||Chi-squared|||||38.44|-7.58|= 0.2802
82515362|NCT01485861|164723154|SUPERIORITY||Difference in response rates|9.58|||=|0.3646|TWO_SIDED|90.0|-7.65|26.8|||Chi-squared|||||26.80|-7.65|= 0.3646
82515363|NCT01485861|164723154|SUPERIORITY||Difference in response rates|0.22|||=|0.9821|TWO_SIDED|90.0|-15.89|16.33|||Chi-squared|||||16.33|-15.89|= 0.9821
82570385|NCT00562484|164851021|SUPERIORITY_OR_OTHER||Vaccine efficacy|60.0|||||TWO_SIDED|95.0|44.0|72.0||||||Vaccine efficacy = 100 x (1 - ratio of incidence rate)||72|44|
82635559|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-21.176|STANDARD_ERROR_OF_MEAN|16.221|||TWO_SIDED|95.0|-56.879|14.527|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||14.527|-56.879|
82635560|NCT03091920|164985995|OTHER|No statistical testing was performed.|Least squares mean difference|-23.282|STANDARD_ERROR_OF_MEAN|14.691|||TWO_SIDED|95.0|-55.618|9.053|||||Least Squares mean difference and associated 95% confidence interval (CI) is from an analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline as covariate. Standard Error of the Mean=Standard Error of the LS Mean Difference.|Day 15||9.053|-55.618|
82570386|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The first blood samples from both groups were collected before cardiopulmonary bypass.||||0.377
82570387|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples were collected from both groups on arrival of intensive care unit.||||0.051
82635561|NCT03922945|164986015|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82635562|NCT03922945|164986016|SUPERIORITY||||||<|0.0017|||||||Cochran-Mantel-Haenszel|||||||<0.0017
82515364|NCT01485861|164723155|SUPERIORITY||Difference in response rates|-3.17|||=|0.8489|TWO_SIDED|90.0|-30.93|24.58|||Chi-squared|||||24.58|-30.93|= 0.8489
82515365|NCT01485861|164723155|SUPERIORITY||Difference in response rates|12.38|||=|0.5186|TWO_SIDED|90.0|-16.36|41.12|||Chi-squared|||||41.12|-16.36|= 0.5186
82515366|NCT01485861|164723156|SUPERIORITY|Unstratified|Hazard Ratio (HR)|1.31|||=|0.678|TWO_SIDED|90.0|0.45|3.8|||Log Rank|||||3.80|0.45|= 0.6780
82515367|NCT01485861|164723156|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.85|||=|0.8372|TWO_SIDED|90.0|0.24|3.02|||Log Rank|||||3.02|0.24|= 0.8372
82515368|NCT01485861|164723156|SUPERIORITY||Hazard Ratio (HR)|0.77|||=|0.7733|TWO_SIDED|90.0|0.17|3.5|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||3.50|0.17|= 0.7733
82515369|NCT01485861|164723156|SUPERIORITY||Hazard Ratio (HR)|2.46|||=|0.4227|TWO_SIDED|90.0|0.36|16.59|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||16.59|0.36|= 0.4227
82515370|NCT01485861|164723157|SUPERIORITY||Hazard Ratio (HR)|999.99|||=|0.3173|TWO_SIDED|90.0|0.0||NA = Not estimable due to limited number of events observed||Log Rank||\>||||0.00|= 0.3173
82515371|NCT01485861|164723157|SUPERIORITY||Hazard Ratio (HR)|999.99|||=|0.6171|TWO_SIDED|90.0|0.0||NA = Not estimable due to limited number of events observed||Log Rank||\>||||0.00|= 0.6171
82515372|NCT01485861|164723158|SUPERIORITY||Difference in response rates|3.75|||=|0.6652|TWO_SIDED|90.0|-10.47|17.97|||Chi-squared|||||17.97|-10.47|= 0.6652
82381975|NCT02342678|164474414|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|||||0.9|-0.4|0.46
82381976|NCT01568892|164474475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.16|||<|0.001|TWO_SIDED|95.0|-1.52|-0.8|||ANCOVA||The estimated value represents the adjusted mean difference between the two treatment arms.|||-0.80|-1.52|<0.001
82381977|NCT03810092|164474590|OTHER||Odds Ratio, log|-0.04||||0.05|TWO_SIDED|95.0|-0.55|0.42|||Regression, Linear|||Relationship between ADL score evolution and hemoglobine rate, in the no transfusion group||0.42|-0.55|0.05
82381978|NCT03810092|164474590|OTHER||Odds Ratio, log|0.39||||0.05|TWO_SIDED|95.0|-1.0|2.2|||Regression, Logistic|||Relationship between ADL score evolution and hemoglobine rate, in the transfusion group||2.2|-1|0.05
82381979|NCT03380429|164474600|SUPERIORITY||Mean Difference (Final Values)|12.0|||<|0.001|TWO_SIDED|95.0|5.2|18.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||18.8|5.2|<0.001
82381980|NCT03380429|164474601|OTHER||Mean Difference (Final Values)|8.2||||0.016|TWO_SIDED|95.0|1.6|14.9||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||14.9|1.6|0.016
82381981|NCT03380429|164474601|OTHER||Mean Difference (Final Values)|9.3||||0.006|TWO_SIDED|95.0|2.7|16.0||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||16.0|2.7|0.006
82381982|NCT03380429|164474601|OTHER||Mean Difference (Final Values)|8.1||||0.018|TWO_SIDED|95.0|1.4|14.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||14.8|1.4|0.018
82381983|NCT03380429|164474602|OTHER||Mean Difference (Final Values)|9.3||||0.003|TWO_SIDED|95.0|3.2|15.3||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||15.3|3.2|0.003
82381984|NCT03380429|164474602|OTHER||Mean Difference (Final Values)|7.7||||0.011|TWO_SIDED|95.0|1.8|13.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||13.7|1.8|0.011
82515373|NCT01485861|164723158|SUPERIORITY||Difference in response rates|7.48|||=|0.3734|TWO_SIDED|90.0|-6.29|21.24|||Chi-squared|||||21.24|-6.29|= 0.3734
82515374|NCT01485861|164723159|SUPERIORITY||Difference in response rates|4.41|||=|0.7633|TWO_SIDED|90.0|-19.76|28.58|||Chi-squared|||||28.58|-19.76|= 0.7633
82381985|NCT03380429|164474602|OTHER||Mean Difference (Final Values)|5.5||||0.066|TWO_SIDED|95.0|-0.4|11.4||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||11.4|-0.4|0.066
82381986|NCT03380429|164474602|OTHER||Mean Difference (Final Values)|2.8||||0.359|TWO_SIDED|95.0|-3.1|8.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||8.7|-3.1|0.359
82381987|NCT03380429|164474603|OTHER||Mean Difference (Final Values)|9.7||||0.004|TWO_SIDED|95.0|3.1|16.3||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||16.3|3.1|0.004
82381988|NCT03380429|164474603|OTHER||Mean Difference (Final Values)|7.1||||0.032|TWO_SIDED|95.0|0.6|13.5||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||13.5|0.6|0.032
82381989|NCT03380429|164474603|OTHER||Mean Difference (Final Values)|5.9||||0.07|TWO_SIDED|95.0|-0.5|12.4||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||12.4|-0.5|0.070
82635563|NCT03922945|164986023|SUPERIORITY|||||||0.7465|||||||Mixed Models Analysis|||||||0.7465
82515375|NCT01485861|164723159|SUPERIORITY||Difference in response rates|4.41|||=|0.7633|TWO_SIDED|90.0|-19.76|28.58|||Chi-squared|||||28.58|-19.76|= 0.7633
82381990|NCT03380429|164474603|OTHER||Mean Difference (Final Values)|3.4||||0.294|TWO_SIDED|95.0|-3.0|9.9||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline adherence, duration of run-in (visits), country, gender and age.|||9.9|-3.0|0.294
82515376|NCT01485861|164723160|SUPERIORITY||Difference in response rates|2.24|||=|0.8317|TWO_SIDED|90.0|-15.07|19.54|||Chi-squared|||||19.54|-15.07|= 0.8317
82515377|NCT01485861|164723160|SUPERIORITY||Difference in response rates|5.14|||=|0.6139|TWO_SIDED|90.0|-11.6|21.88|||Chi-squared|||||21.88|-11.60|= 0.6139
82515378|NCT01485861|164723161|SUPERIORITY||Difference in response rates|34.85|||=|0.0505|TWO_SIDED|90.0|7.14|62.56|||Chi-squared|||||62.56|7.14|= 0.0505
82515379|NCT01485861|164723161|SUPERIORITY||Difference in response rates|-9.6|||=|0.4989|TWO_SIDED|90.0|-32.54|13.35|||Chi-squared|||||13.35|-32.54|= 0.4989
82635564|NCT03287960|164986046|OTHER|Two-sided confidence interval obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that at least 5% of participants in the population of interest will achieve 10% weight loss.||||||0.0001|||||||Clopper-Pearson method|||||||0.0001
82515380|NCT01485861|164723164|SUPERIORITY|Unstratified|Hazard Ratio (HR)|0.95|||=|0.8483|TWO_SIDED|90.0|0.61|1.47|||Log Rank|||||1.47|0.61|= 0.8483
82515381|NCT01485861|164723164|SUPERIORITY|Unstratified|Hazard Ratio (HR)|1.08|||=|0.785|TWO_SIDED|90.0|0.7|1.65|||Log Rank|||||1.65|0.70|= 0.7850
82515382|NCT01485861|164723164|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.8847|TWO_SIDED|90.0|0.66|1.65|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.65|0.66|= 0.8847
82515383|NCT01485861|164723164|SUPERIORITY||Hazard Ratio (HR)|1.05|||=|0.8647|TWO_SIDED|90.0|0.67|1.63|||Log Rank|||Strata were: prior enzalutamide (Yes vs. No), progression factor (PSA only vs. other), and number of prior chemotherapy regimens for metastatic disease (one vs. more than one).||1.63|0.67|= 0.8647
82515384|NCT01485861|164723165|SUPERIORITY||Hazard Ratio (HR)|0.89|||=|0.8271|TWO_SIDED|90.0|0.39|2.06|||Log Rank|||||2.06|0.39|= 0.8271
82515385|NCT01485861|164723165|SUPERIORITY||Hazard Ratio (HR)|0.84|||=|0.7383|TWO_SIDED|90.0|0.35|2.02|||Log Rank|||||2.02|0.35|= 0.7383
82515386|NCT01260922|164723169|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.16|||||TWO_SIDED|90.0|97.07|107.51|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.51|97.07|
82635565|NCT03287960|164986047|OTHER|Two-sided confidence interval (CI) obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that at least 5% of patients in the population of interest would achieve 10% weight loss.|||||<|0.0001|||||||Clopper-Pearson method|||||||<0.0001
82635566|NCT03287960|164986048|OTHER|Model based summary statistics from longitudinal mixed analysis of variance (ANOVA) model with fixed effect for visit, baseline body weight and random effect for participant, one sided p-value from model.|Least Squares Mean|-12.37|||<|0.0001|TWO_SIDED|90.0|-15.08|-9.66|||ANOVA|Longitudinal mixed ANOVA||||-9.66|-15.08|<.0001
82381991|NCT03380429|164474604|OTHER||Mean Difference (Final Values)|4.8||||0.118|TWO_SIDED|95.0|-1.2|10.8||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||10.8|-1.2|0.118
82635567|NCT03287960|164986049|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline daily hunger score and random effect for participant, one sided p-value from model.|Least Squares Mean|-42.69|||<|0.0001|TWO_SIDED|90.0|-56.35|-29.02|||ANOVA|Longitudinal mixed analysis of variance (ANOVA) model||||-29.02|-56.35|<.0001
82635568|NCT03287960|164986050|OTHER|Two-sided CI obtained using Clopper-Pearson method and one-sided p-value obtained from exact binomial test, testing that ≥5 % of participants in the population of interest would achieve ≥25 % improvement in daily hunger score.|||||<|0.0001|||||||Clopper-Pearson method|||||||<.0001
82381992|NCT03380429|164474604|OTHER||Mean Difference (Final Values)|4.8||||0.105|TWO_SIDED|95.0|-1.0|10.7||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||10.7|-1.0|0.105
82381993|NCT03380429|164474604|OTHER||Mean Difference (Final Values)|9.2||||0.002|TWO_SIDED|95.0|3.3|15.1||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||15.1|3.3|0.002
82381994|NCT03380429|164474604|OTHER||Mean Difference (Final Values)|7.3||||0.015|TWO_SIDED|95.0|1.5|13.2||p-value was calculated using ANCOVA.|ANCOVA||Analysis was performed by ANCOVA adjusted for randomized treatment arm, Baseline rescue use, duration of run-in (visits), country, gender and age.|||13.2|1.5|0.015
82515387|NCT01260922|164723170|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Slope|94.75|||||TWO_SIDED|90.0|92.11|97.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||97.46|92.11|
82381995|NCT03380429|164474606|OTHER||Mean Difference (Net)|-0.5||||0.4|TWO_SIDED|95.0|-1.6|0.6||p-value was calculated using Mixed Model Repeated Measures (MMRM).|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||0.6|-1.6|0.400
82515388|NCT01070810|164723171|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82515389|NCT01070810|164723172|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.97|TWO_SIDED|95.0|0.61|1.62|||Regression, Cox|||Time to shock reversal was complicated by a high incidence of death prior to the event. To account for this we classified death as a competing risk event and used the estimated cumulative incidence function (CIF) to illustrate the comparison of CIFs between the two treatment groups using the Fine-Gray competing risk model. We tested the subdistribution hazards of these two CIF functions and obtained the estimated hazard ratio with 95% confidence intervals.||1.62|0.61|0.97
82635569|NCT03287960|164986051|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for visit, baseline waist circumference and random effect for participant, one sided p-value from model.|Least Squares Mean|-8.9||||0.0031|TWO_SIDED|90.0|-14.1|-3.61|||ANOVA|Longitudinal mixed ANOVA||||-3.61|-14.10|0.0031
82635570|NCT03287960|164986054|OTHER|Model based summary statistics from longitudinal mixed analysis of variance model with fixed effect for week, baseline BMI and random effect for participant, one sided p-value from model.|Least Squares Mean|-14.0|||<|0.0001|TWO_SIDED|90.0|-16.8|-11.2|||ANOVA|Longitudinal mixed ANOVA model||||-11.20|-16.80|<.0001
82635571|NCT03287089|164986076|SUPERIORITY||Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|95.0|0.49|2.43|||Chi-squared|||||2.43|0.49|0.84
82635572|NCT03287089|164986077|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
82635573|NCT03287089|164986078|SUPERIORITY|||||||0.68|||||||t-test, 1 sided|||||||0.68
82635574|NCT01646255|164986091|SUPERIORITY_OR_OTHER||Least Square Mean|-1.2|||=|0.0002|TWO_SIDED|95.0|-1.83|-0.57||Primary efficacy analyses was made with confirmatory 2-sided test with significance level 0.05.|ANCOVA|||"Estimate of treatment effect has been obtained from an analysis of covariance (ANCOVA) model to the change from Baseline value in absolute time spent off. The ANCOVA model contained treatment and (pooled) site as factors and Baseline off time as covariate. A last observation carried forward (LOCF) imputation approach was used for missing values (during both Titration and Maintenance Periods) for the primary efficacy analysis."||-0.57|-1.83|=0.0002
82635575|NCT01241318|164986126|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.88|1.44|||||The chlorhexidine arm is the numerator and dry cord care arm is the denominator in the relative risk calculation. Generalised estimating equation models were used to adjust for cluster randomized design.|||1.44|0.88|
82635576|NCT01241318|164986127|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.86|1.47|||||Generalized estimating equation models adjusting for cluster-randomized design were used.|||1.47|0.86|
82515390|NCT01070810|164723173|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82635577|NCT01241318|164986128|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.47|1.13|||||Generalized estimating equation models adjusting for cluster-randomized design were used.|||1.13|0.47|
82635578|NCT02355665|164986132|SUPERIORITY||Estimated Success Rate Ratio|2.0||||0.021|TWO_SIDED|95.0|1.1|3.66||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||3.66|1.10|0.021
82635579|NCT02355665|164986133|SUPERIORITY||Estimated Success Rate Ratio|3.04||||0.004|TWO_SIDED|95.0|1.39|6.68||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.68|1.39|0.004
82635580|NCT02355665|164986134|SUPERIORITY||Estimated Success Rate Ratio|2.87||||0.011|TWO_SIDED|95.0|1.23|6.71||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.71|1.23|0.011
82635581|NCT02355665|164986135|SUPERIORITY||Estimated Success Rate Ratio|1.66||||0.04|TWO_SIDED|95.0|1.02|2.71||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||2.71|1.02|0.040
82635582|NCT02355665|164986136|SUPERIORITY||Estimated Success Rate Ratio|2.09||||0.023|TWO_SIDED|95.0|1.09|3.98||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||3.98|1.09|0.023
82635583|NCT02355665|164986137|SUPERIORITY||Estimated Success Rate Ratio|2.91||||0.006|TWO_SIDED|95.0|1.32|6.42||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||6.42|1.32|0.006
82515391|NCT01070810|164723174|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82515392|NCT01070810|164723175|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
82515393|NCT05061446|164723176|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
82515394|NCT05061446|164723176|OTHER||Difference in percentage|26.3|||||TWO_SIDED|95.0|6.52|46.12||||||||46.12|6.52|
82515395|NCT05061446|164723177|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
82515396|NCT05061446|164723177|OTHER||Difference in percentage|26.3|||||TWO_SIDED|95.0|6.52|46.12||||||||46.12|6.52|
82515397|NCT05061446|164723178|OTHER||Difference in percentage|20.0|||||TWO_SIDED|95.0|-0.24|40.24||||||||40.24|-0.24|
82515398|NCT05061446|164723178|OTHER||Difference in percentage|31.6|||||TWO_SIDED|95.0|10.68|52.48||||||||52.48|10.68|
82515399|NCT05061446|164723179|OTHER||Difference in percentage|6.7|||||TWO_SIDED|95.0|-5.96|19.29||||||||19.29|-5.96|
82515400|NCT05061446|164723179|OTHER||Difference in percentage|5.3|||||TWO_SIDED|95.0|-4.78|15.3||||||||15.30|-4.78|
82515401|NCT05061446|164723180|OTHER||Difference in percentage|26.2|||||TWO_SIDED|95.0|-1.22|53.6||||||||53.60|-1.22|
82515402|NCT05061446|164723180|OTHER||Difference in percentage|45.5|||||TWO_SIDED|95.0|19.3|71.68||||||||71.68|19.30|
82515403|NCT00153101|164723231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8462||95.0|0.92|1.07|||Regression, Cox|||||1.07|0.92|0.8462
82515404|NCT00153101|164723231|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was 1.13|Hazard Ratio (HR)|1.01||||0.0019||97.5|0.93|1.1|||Regression, Cox|||||1.10|0.93|0.0019
82515405|NCT00153101|164723232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9086||95.0|0.93|1.09|||Regression, Cox|||||1.09|0.93|0.9086
82515406|NCT00153101|164723232|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was 1.13|Hazard Ratio (HR)|0.99||||0.0004||97.5|0.9|1.08|||Regression, Cox|||||1.08|0.90|0.0004
82381996|NCT03380429|164474606|OTHER||Mean Difference (Net)|0.4||||0.441|TWO_SIDED|95.0|-0.7|1.5||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.5|-0.7|0.441
82515407|NCT00153101|164723233|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.4535||95.0|0.93|1.17|||Regression, Cox|||||1.17|0.93|0.4535
82635584|NCT02355665|164986138|SUPERIORITY||Estimated Success Rate Ratio|2.66||||0.013|TWO_SIDED|95.0|1.2|5.92||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by study site and number of cigarettes smoked per day at baseline (\<20 per day vs ≥20 per day).|Estimated Success Rate Ratio = Nicotine/Placebo|The null hypothesis was no difference in continuous smoking abstinence rates between treatments. The alternative hypothesis was a difference in continuous smoking abstinence rates between treatments.||5.92|1.20|0.013
82515408|NCT00153101|164723233|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9421||95.0|0.89|1.12|||Regression, Cox|||||1.12|0.89|0.9421
82515409|NCT00153101|164723234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2909||95.0|0.94|1.23|||Regression, Cox|||||1.23|0.94|0.2909
82515410|NCT00153101|164723234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2534||95.0|0.94|1.24|||Regression, Cox|||||1.24|0.94|0.2534
82515411|NCT00153101|164723235|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2248||95.0|0.79|1.06|||Regression, Cox|||||1.06|0.79|0.2248
82515412|NCT00153101|164723235|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.1829||95.0|0.79|1.05|||Regression, Cox|||||1.05|0.79|0.1829
82515413|NCT00153101|164723236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.4984||95.0|0.82|1.1|||Regression, Cox|||||1.10|0.82|0.4984
82515414|NCT00153101|164723236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.1203||95.0|0.97|1.29|||Regression, Cox|||||1.29|0.97|0.1203
82515415|NCT00153101|164723237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.4221|TWO_SIDED|95.0|0.73|2.15|||Regression, Cox|||||2.15|0.73|0.4221
82515416|NCT00153101|164723237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7305||95.0|0.51|1.6|||Regression, Cox|||||1.60|0.51|0.7305
82515417|NCT00153101|164723238|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.6248||95.0|0.54|1.45|||Regression, Cox|||||1.45|0.54|0.6248
82515418|NCT00153101|164723238|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0751|TWO_SIDED|95.0|0.36|1.05|||Regression, Cox|||||1.05|0.36|0.0751
82515419|NCT00153101|164723239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.3682||95.0|0.63|1.18|||Regression, Cox|||||1.18|0.63|0.3682
82515420|NCT00153101|164723239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6014||95.0|0.69|1.24|||Regression, Cox|||||1.24|0.69|0.6014
82515421|NCT00153101|164723240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.255||95.0|0.91|1.42|||Regression, Cox|||||1.42|0.91|0.2550
82515422|NCT00153101|164723240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.5297||95.0|0.86|1.34|||Regression, Cox|||||1.34|0.86|0.5297
82515423|NCT00153101|164723241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.4593||95.0|0.82|1.56|||Regression, Cox|||||1.56|0.82|0.4593
82515424|NCT00153101|164723241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.7468||95.0|0.68|1.32|||Regression, Cox|||||1.32|0.68|0.7468
82515425|NCT00153101|164723242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.5461|TWO_SIDED|95.0|0.71|1.2|||Regression, Cox|||||1.20|0.71|0.5461
82515426|NCT00153101|164723242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.3436||95.0|0.68|1.14|||Regression, Cox|||||1.14|0.68|0.3436
82515427|NCT00153101|164723243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0133||95.0|0.8|0.97|||Regression, Cox|||||0.97|0.80|0.0133
82515428|NCT00153101|164723243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.1251||95.0|0.84|1.02|||Regression, Cox|||||1.02|0.84|0.1251
82515429|NCT00153101|164723244|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0213||95.0|0.67|0.97|||Regression, Cox|||||0.97|0.67|0.0213
82515430|NCT00153101|164723244|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.2396||95.0|0.75|1.07|||Regression, Cox|||||1.07|0.75|0.2396
82515431|NCT00153101|164723245|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0111||95.0|0.83|0.98|||Regression, Cox|||||0.98|0.83|0.0111
82515432|NCT00153101|164723245|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.0606||95.0|0.85|1.0|||Regression, Cox|||||1.00|0.85|0.0606
82515433|NCT00153101|164723246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.0082||95.0|1.05|1.35|||Regression, Cox|||||1.35|1.05|0.0082
82515434|NCT00153101|164723246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.2164||95.0|0.95|1.23|||Regression, Cox|||||1.23|0.95|0.2164
82515435|NCT00153101|164723247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.3732||95.0|0.83|1.07|||Regression, Cox|||||1.07|0.83|0.3732
82515436|NCT00153101|164723247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.3633||95.0|0.94|1.2|||Regression, Cox|||||1.20|0.94|0.3633
82515437|NCT00153101|164723248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.2713||95.0|0.97|1.13|||Regression, Cox|||||1.13|0.97|0.2713
82515438|NCT00153101|164723248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.515||95.0|0.95|1.11|||Regression, Cox|||||1.11|0.95|0.5150
82515439|NCT00153101|164723249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.3485||95.0|0.77|1.1|||Regression, Cox|||for subjects without diabetes at baseline||1.10|0.77|0.3485
82515440|NCT00153101|164723249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.1235||95.0|0.96|1.36|||Regression, Cox|||for subjects without diabetes at baseline||1.36|0.96|0.1235
82515441|NCT00153101|164723250|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99||||0.869||95.0|0.89|1.11|||Chi-squared|||for subjects with available Mini Mental State Examination (MMSE) at baseline||1.11|0.89|0.8690
82570388|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.282|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples from both groups were collected 24 hours after Operation.||||0.282
82381997|NCT03380429|164474606|OTHER||Mean Difference (Net)|0.8||||0.164|TWO_SIDED|95.0|-0.3|1.9||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.9|-0.3|0.164
82515442|NCT00153101|164723250|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04||||0.4337||95.0|0.94|1.17|||Chi-squared|||for subjects with available Mini Mental State Examination (MMSE) at baseline||1.17|0.94|0.4337
82570389|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. These blood samples were collected 48 hours after cardiopulmonary Bypass.||||0.277
82515443|NCT00153101|164723251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.2666||95.0|0.83|1.05|||Regression, Cox|||for subjects without atrial fibrillation at baseline||1.05|0.83|0.2666
82515444|NCT00153101|164723251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.4784||95.0|0.85|1.08|||Regression, Cox|||for subjects without atrial fibrillation at baseline||1.08|0.85|0.4784
82515445|NCT00153101|164723252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0483||95.0|0.76|1.0|||Regression, Cox|||||1.00|0.76|0.0483
82515446|NCT00153101|164723253|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.2192||95.0|0.81|1.05|||Regression, Cox|||||1.05|0.81|0.2192
82515447|NCT00153101|164723254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7764||95.0|0.85|1.24|||Regression, Cox|||||1.24|0.85|0.7764
82515448|NCT00153101|164723255|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0574||95.0|0.62|1.01|||Regression, Cox|||||1.01|0.62|0.0574
82515449|NCT00153101|164723256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1365||95.0|0.64|1.06|||Regression, Cox|||||1.06|0.64|0.1365
82381998|NCT03380429|164474606|OTHER||Mean Difference (Net)|0.3||||0.661|TWO_SIDED|95.0|-0.9|1.4||p-value was calculated using MMRM.|MMRM||Analysis was performed by MMRM adjusted for randomized treatment arm,Baseline ACT total score,randomized treatment arm-by-visit interaction,Baseline ACT total score-by-visit interaction,gender,age,country and participant fitted as a random factor.|||1.4|-0.9|0.661
82381999|NCT03380429|164474607|OTHER||Odds Ratio (OR)|0.75||||0.385|TWO_SIDED|95.0|0.39|1.44||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.44|0.39|0.385
82515450|NCT00153101|164723257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.694||95.0|0.82|1.34|||Regression, Cox|||||1.34|0.82|0.6940
82382000|NCT03380429|164474607|OTHER||Odds Ratio (OR)|1.24||||0.517|TWO_SIDED|95.0|0.64|2.42||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.42|0.64|0.517
82382001|NCT03380429|164474607|OTHER||Odds Ratio (OR)|0.97||||0.921|TWO_SIDED|95.0|0.51|1.85||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.85|0.51|0.921
82382002|NCT03380429|164474607|OTHER||Odds Ratio (OR)|0.72||||0.321|TWO_SIDED|95.0|0.38|1.38||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.38|0.38|0.321
82515451|NCT00153101|164723258|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58||||0.0245||95.0|1.06|2.35|||Regression, Cox|||||2.35|1.06|0.0245
82515452|NCT00153101|164723259|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.5798||95.0|0.36|1.76|||Regression, Cox|||||1.76|0.36|0.5798
82515453|NCT00153101|164723260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0006||95.0|0.65|0.89|||Regression, Cox|||||0.89|0.65|0.0006
82515454|NCT00153101|164723261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.0085||95.0|0.48|0.9|||Regression, Cox|||||0.90|0.48|0.0085
82515455|NCT00153101|164723262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.0015||95.0|0.69|0.92|||Regression, Cox|||||0.92|0.69|0.0015
82382003|NCT03380429|164474608|OTHER||Odds Ratio (OR)|1.04||||0.911|TWO_SIDED|95.0|0.54|1.98||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.98|0.54|0.911
82382004|NCT03380429|164474608|OTHER||Odds Ratio (OR)|1.33||||0.383|TWO_SIDED|95.0|0.7|2.54||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.54|0.70|0.383
82382005|NCT03380429|164474608|OTHER||Odds Ratio (OR)|1.08||||0.814|TWO_SIDED|95.0|0.57|2.04||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.04|0.57|0.814
82382006|NCT03380429|164474608|OTHER||Odds Ratio (OR)|1.01||||0.986|TWO_SIDED|95.0|0.53|1.89||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.89|0.53|0.986
82382007|NCT03380429|164474609|OTHER||Odds Ratio (OR)|0.93||||0.833|TWO_SIDED|95.0|0.48|1.81||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.81|0.48|0.833
82515456|NCT00153101|164723263|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.0101||95.0|1.08|1.79|||Regression, Cox|||||1.79|1.08|0.0101
82515457|NCT00153101|164723264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9563||95.0|0.82|1.24|||Regression, Cox|||||1.24|0.82|0.9563
82515458|NCT00153101|164723265|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.0868||95.0|0.98|1.41|||Chi-squared|||||1.41|0.98|0.0868
82515459|NCT00153101|164723266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0172||95.0|0.6|0.95|||Regression, Cox|||||0.95|0.60|0.0172
82382008|NCT03380429|164474609|OTHER||Odds Ratio (OR)|1.35||||0.383|TWO_SIDED|95.0|0.69|2.67||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||2.67|0.69|0.383
82382009|NCT03380429|164474609|OTHER||Odds Ratio (OR)|0.85||||0.628|TWO_SIDED|95.0|0.44|1.63||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.63|0.44|0.628
82382010|NCT03380429|164474609|OTHER||Odds Ratio (OR)|0.94||||0.844|TWO_SIDED|95.0|0.49|1.8||p-value was calculated using logistic regression|Regression, Logistic||Analysis was performed by logistic regression adjusted for randomized treatment arm, Baseline ACT total score, country, gender and age.|||1.80|0.49|0.844
82382011|NCT02949973|164474614|OTHER||Percentage|70.0|||||TWO_SIDED|||||||||||||
82382012|NCT02949973|164474615|OTHER||Percentage|40.0|||||TWO_SIDED|||||||||||||
82382013|NCT02949973|164474616|OTHER||Percentage|20.0|||||TWO_SIDED|||||||||||||
82382014|NCT02949973|164474617|OTHER||Percentage|20.0|||||TWO_SIDED|||||||||||||
82382015|NCT02949973|164474618|OTHER||Percentage|70.0|||||TWO_SIDED|95.0|34.8|93.3||||||||93.3|34.8|
82382016|NCT02949973|164474619|OTHER||Percentage|50.0|||||TWO_SIDED|95.0|15.7|84.3||||||||84.3|15.7|
82515460|NCT00153101|164723267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1431||95.0|0.78|1.04|||Regression, Cox|||||1.04|0.78|0.1431
82515461|NCT00153101|164723268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8974||95.0|0.81|1.21|||Regression, Cox|||||1.21|0.81|0.8974
82515462|NCT03169153|164723269|SUPERIORITY||||||<|0.0001|||||||Mixed effects repeated measures|||||||<0.0001
82515463|NCT03299192|164723270|SUPERIORITY|||||||0.001||||||This feasibility study is small and not designed to look at outcome statistics|GEE with Ancova features|||||||.001
82515464|NCT00983580|164723272|SUPERIORITY|||||||0.448|||||||Chi-squared|||||||0.448
82515465|NCT00983580|164723273|SUPERIORITY|||||||0.358|||||||Wilcoxon (Mann-Whitney)|||This statistical analysis compares the difference between the number of patients with No adenoma recurrence at 12 months with those with adenoma recurrence at 12 months.||||0.358
82515466|NCT00983580|164723275|SUPERIORITY|||||||0.513|||||||t-test, 2 sided|||||||0.513
82515467|NCT01652716|164723279|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1349||0.0072|TWO_SIDED|95.0|-0.63|-0.1|||Mixed model for repeated measure (MMRM)|Based on a repeated measures mixed model including fixed categorical effects of treatment||||-0.10|-0.63|0.0072
82515468|NCT01652716|164723280|SUPERIORITY_OR_OTHER|||||||0.2247|||||||Cochran-Mantel-Haenszel|||||||0.2247
82515469|NCT01652716|164723281|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|5.841||0.1656|TWO_SIDED|95.0|-21.7|1.3||Adjusted|Cochran-Mantel-Haenszel|||||1.3|-21.7|0.1656
82515470|NCT01652716|164723282|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.4497||0.3744|TWO_SIDED|95.0|-0.48|1.28|||Cochran-Mantel-Haenszel|||||1.28|-0.48|0.3744
82515471|NCT01652716|164723283|SUPERIORITY_OR_OTHER||LS Mean Difference|26.74|STANDARD_ERROR_OF_MEAN|15.8957||0.0985|TWO_SIDED|95.0|-5.16|58.64|||Cochran-Mantel-Haenszel|||||58.64|-5.16|0.0985
82515472|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.16||0.0004|TWO_SIDED|95.0|-0.88|-0.25|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.25|-0.88|0.0004
82515473|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-0.99|-0.34|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.34|-0.99|<0.0001
82382017|NCT04129125|164474626|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|83.4|||<|0.0001|TWO_SIDED|95.0|78.0|88.0||The p-value a priori threshold for statistical significance was \<0.025|Fisher Exact|||The FDA agreed performance goal for the primary efficacy endpoint was for the lower bound of the two-sided 95% CI to be \>69%||88|78|<0.0001
82515474|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.89|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.89|0.0007
82382018|NCT04129125|164474627|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|1.9|||||TWO_SIDED|95.0|0.6|4.4||||||The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤6.0%||4.4|0.6|
82515475|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.38|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.38|-1.05|<0.0001
82515476|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0006||95.0|-0.88|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.88|0.0006
82515477|NCT04666441|164723307|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007||95.0|-0.87|-0.24|||ANCOVA|||Difference vs. Placebo (log10 copies/mL)||-0.24|-0.87|0.0007
82515478|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0002||95.0|-0.72|-0.23|||ANCOVA|||||-0.23|-0.72|0.0002
82515479|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.82|-0.32|||ANCOVA|||||-0.32|-0.82|<0.0001
82515480|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.83|-0.33|||ANCOVA|||||-0.33|-0.83|<0.0001
82515481|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.13||0.0002||95.0|-0.75|-0.24|||ANCOVA|||||-0.24|-0.75|0.0002
82515482|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.004||95.0|-0.62|-0.12|||ANCOVA|||||-0.12|-0.62|0.0040
82515483|NCT04666441|164723308|SUPERIORITY||Difference of LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.12||0.0007||95.0|-0.67|-0.18|||ANCOVA|||||-0.18|-0.67|0.0007
82515484|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.33|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.82|<0.0001
82515485|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.40|-0.90|<0.0001
82515486|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.42|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.42|-0.97|<0.0001
82515487|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.19|-0.58|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.58|-1.19|<0.0001
82515488|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.84|-0.33|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.84|<0.0001
82515489|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.95|-0.43|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.43|-0.95|<0.0001
82515490|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.98|-0.44|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.44|-0.98|<0.0001
82515491|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.64|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.64|-1.25|<0.0001
82515492|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.87|-0.37|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.37|-0.87|<0.0001
82515493|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.93|-0.42|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.42|-0.93|<0.0001
82515494|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.99|-0.44|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.44|-0.99|<0.0001
82515495|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.93|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.61|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.61|-1.25|<0.0001
82515496|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.31|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.31|-0.80|<0.0001
82515497|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.89|-0.38|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.38|-0.89|<0.0001
82515498|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.97|-0.43|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.43|-0.97|<0.0001
82515499|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.52|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.52|-1.15|<0.0001
82515500|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.76|-0.27|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.27|-0.76|<0.0001
82515501|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.83|-0.33|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.83|<0.0001
82515502|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.82|-0.28|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.28|-0.82|<0.0001
82515503|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.95|-0.32|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.32|-0.95|<0.0001
82515504|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.73|-0.23|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.73|0.0002
82635585|NCT02355665|164986139|SUPERIORITY||Estimated Mean Difference|-0.02||||0.847|TWO_SIDED|95.0|-0.64|0.6||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.60|-0.64|0.847
82635586|NCT02355665|164986140|SUPERIORITY||Estimated Mean Difference|-0.1||||0.861|TWO_SIDED|95.0|-0.62|0.42||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.42|-0.62|0.861
82635587|NCT02355665|164986141|SUPERIORITY||Estimated Mean Difference|-0.19||||0.266|TWO_SIDED|95.0|-0.61|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.24|-0.61|0.266
82635588|NCT02355665|164986142|SUPERIORITY||Estimated Mean Difference|0.09||||0.487|TWO_SIDED|95.0|-0.38|0.55||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of desire/urge to smoke between treatments. The alternative hypothesis was a difference in distribution of the ratings of desire/urge to smoke between treatments.||0.55|-0.38|0.487
82635589|NCT02355665|164986143|SUPERIORITY||Estimated Mean Difference|-0.11||||0.433|TWO_SIDED|95.0|-0.65|0.43||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.43|-0.65|0.433
82635590|NCT02355665|164986144|SUPERIORITY||Estimated Mean Difference|-0.58||||0.022|TWO_SIDED|95.0|-1.15|-0.01||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||-0.01|-1.15|0.022
82635591|NCT02355665|164986145|SUPERIORITY||Estimated Mean Difference|0.0||||0.665|TWO_SIDED|95.0|-0.5|0.49||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.49|-0.50|0.665
82635592|NCT02355665|164986146|SUPERIORITY||Estimated Mean Difference|-0.1||||0.3|TWO_SIDED|95.0|-0.51|0.31||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of irritability/frustration/anger between treatments. The alternative hypothesis was a difference in distribution of the ratings of irritability/frustration/anger between treatments.||0.31|-0.51|0.300
82635593|NCT02355665|164986147|SUPERIORITY||Estimated Mean Difference|-0.17||||0.754|TWO_SIDED|95.0|-0.78|0.43||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.43|-0.78|0.754
82635594|NCT02355665|164986148|SUPERIORITY||Estimated Mean Difference|-0.41||||0.116|TWO_SIDED|95.0|-0.89|0.08||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.08|-0.89|0.116
82635595|NCT02355665|164986149|SUPERIORITY||Estimated Mean Difference|-0.14||||0.392|TWO_SIDED|95.0|-0.47|0.2||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.20|-0.47|0.392
82635596|NCT02355665|164986150|SUPERIORITY||Estimated Mean Difference|-0.23||||0.179|TWO_SIDED|95.0|-0.59|0.13||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of restlessness between treatments. The alternative hypothesis was a difference in distribution of the ratings of restlessness between treatments.||0.13|-0.59|0.179
82635597|NCT02355665|164986151|SUPERIORITY||Estimated Mean Difference|0.01||||0.925|TWO_SIDED|95.0|-0.44|0.47||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.47|-0.44|0.925
82635598|NCT02355665|164986152|SUPERIORITY||Estimated Mean Difference|-0.21||||0.325|TWO_SIDED|95.0|-0.66|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.24|-0.66|0.325
82515505|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.31|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.31|-0.82|<0.0001
82570390|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Creatinine concentration. We test the null hypothesis that serum Creatinine was the same in both groups. The blood samples were collected from both groups 72 hours after cardiopulmonary bypass.||||0.308
82382019|NCT04129125|164474628|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|84.0||||0.0001|TWO_SIDED|95.0|78.0|89.0||The p-value a priori threshold for statistical significance was \<0.025|Fisher Exact|||The FDA agreed performance goal for the primary efficacy endpoint was for the lower bound of the two-sided 95% CI to be \>69%||89|78|0.0001
82382020|NCT04129125|164474629|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|0.9|||||TWO_SIDED|95.0|0.1|3.4||||||The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤6.0%||3.4|0.1|
82570391|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.211|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The first blood samples were collected before cardiopulmonary bypass.||||0.211
82570392|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected on arrival of intensive care unit.||||0.004
82515506|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.33|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.33|-0.87|<0.0001
82382021|NCT04129125|164474638|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|12.7|||||TWO_SIDED|95.0|8.5|16.7|||||Event and CI estimated using Kaplan-Meier method|The FDA agreed performance goal for the all-cause mortality endpoint was for the observed rate to be ≤20.3%||16.7|8.5|
82515507|NCT04666441|164723309|SUPERIORITY||Difference of LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.16|-0.52|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.52|-1.16|<0.0001
82515508|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.12||0.0005|TWO_SIDED|95.0|-0.64|-0.18|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.18|-0.64|0.0005
82515509|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.46|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.23|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.69|<0.0001
82570393|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 24 hours after operation.||||0.221
82515510|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.75|-0.26|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.26|-0.75|<0.0001
82515511|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.88|-0.32|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.32|-0.88|<0.0001
82515512|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.12||0.0003|TWO_SIDED|95.0|-0.69|-0.21|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.21|-0.69|0.0003
82382022|NCT04129125|164474649|OTHER|The study sample size of 260 subjects was selected to have at least 90 percent power for primary safety and efficacy endpoints and all-cause mortality|Event rate|12.3|||||TWO_SIDED|95.0|8.1|17.2|||||Event and CI estimated using Kaplan-Meier method|The FDA agreed performance goal for the primary safety endpoint was for the observed rate to be ≤20.3%||17.2|8.1|
82515513|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.53|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.77|-0.29|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.77|<0.0001
82515514|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.53|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.78|-0.29|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.78|<0.0001
82515515|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.98|-0.41|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.41|-0.98|<0.0001
82515516|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.72|-0.25|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.25|-0.72|<0.0001
82515517|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.74|-0.28|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.28|-0.74|<0.0001
82515518|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.79|-0.3|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.30|-0.79|<0.0001
82515519|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.4|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.40|-0.99|<0.0001
82515520|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0009|TWO_SIDED|95.0|-0.63|-0.16|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.16|-0.63|0.0009
82570394|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 48 hours after operation.||||0.796
82382023|NCT02174627|164474710|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% confidence interval (CI) of the difference between roxadustat and placebo exceeded 0 g/dL.|LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|0.041|<|0.001|TWO_SIDED|95.0|1.27|1.43|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; MAR-based multiple imputation ANCOVA model.||1.43|1.27|<0.001
82382024|NCT02174627|164474711|SUPERIORITY||Relative Risk|9.12|||<|0.001|TWO_SIDED|95.0|7.63|10.89|||Cochran-Mantel-Haenszel|||Comparison of the percentage of responders for roxadustat versus placebo was analysed using a Cochran-Mantel-Haenszel test adjusting for baseline Hb, baseline eGFR, geographic region and CV history.||10.89|7.63|<0.001
82382025|NCT02174627|164474712|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0 g/dL.|LS Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|0.91|1.35|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; MAR-based multiple imputation ANCOVA model.||1.35|0.91|<0.001
82570395|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.463|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of serum Cystatin C concentration. We test the null hypothesis that serum Cystatin C was the same in both groups. The blood samples were collected 72 hours after operation.||||0.463
82515521|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|95.0|-0.69|-0.23|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.23|-0.69|0.0001
82515522|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.77|-0.27|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.27|-0.77|<0.0001
82382026|NCT02174627|164474713|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.47|0.52|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||0.52|0.47|<0.001
82515523|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.92|-0.34|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.34|-0.92|<0.0001
82570396|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.118|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The first blood samples were collected before cardiopulmonary bypass.||||0.118
82382027|NCT02174627|164474714|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.4|0.45|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||0.45|0.40|<0.001
82515524|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.0046|TWO_SIDED|95.0|-0.57|-0.1|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.10|-0.57|0.0046
82570397|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected on arrival of intensive care unit.||||0.0001
82515525|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.62|-0.15|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.15|-0.62|0.0011
82515526|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.0029|TWO_SIDED|95.0|-0.62|-0.13|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.13|-0.62|0.0029
82570398|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected one hour after cardiopulmonary bypass.||||0.0001
82515527|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.012|TWO_SIDED|95.0|-0.66|-0.08|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.08|-0.66|0.0120
82570399|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected four hours after cardiopulmonary bypass.||||0.0001
82382028|NCT02174627|164474715|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.033|<|0.001|TWO_SIDED|95.0|-0.42|-0.29|||ANCOVA|||Difference between groups (roxadustat minus placebo) in LS mean changes; ANCOVA model.||-0.29|-0.42|<0.001
82570400|NCT02672514|164851033|SUPERIORITY_OR_OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||The early diagnosis of AKI currently depends on the detection of reduced kidney function by the rise of the postoperative NGAL levels in plasma. We test the null hypothesis that the NGAL level was the same in both groups. The blood samples were collected 48 hours after cardiopulmonary bypass.||||0.171
82515528|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0062|TWO_SIDED|95.0|-0.56|-0.09|||ANCOVA|||Baseline Viral Load \>10\^4 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.09|-0.56|0.0062
82515529|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.62|-0.16|||ANCOVA|||Baseline Viral Load \>10\^5 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.16|-0.62|0.0011
82515530|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.13||0.0011|TWO_SIDED|95.0|-0.66|-0.17|||ANCOVA|||Baseline Viral Load \>10\^6 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.17|-0.66|0.0011
82515531|NCT04666441|164723310|SUPERIORITY||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.15||0.0001|TWO_SIDED|95.0|-0.87|-0.29|||ANCOVA|||Baseline Viral Load \>10\^7 copies/mL Difference vs. Placebo (log10 copies/mL)||-0.29|-0.87|0.0001
82515532|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.007||95.0|-0.85|-0.14|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.14|-0.85|0.0070
82515533|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.06|-0.33|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.33|-1.06|0.0002
82515534|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.19||0.0008||95.0|-1.0|-0.26|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.26|-1.00|0.0008
82635599|NCT02355665|164986153|SUPERIORITY||Estimated Mean Difference|0.13||||0.891|TWO_SIDED|95.0|-0.24|0.51||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.51|-0.24|0.891
82635600|NCT02355665|164986154|SUPERIORITY||Estimated Mean Difference|-0.11||||0.721|TWO_SIDED|95.0|-0.48|0.25||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of difficulty concentrating between treatments. The alternative hypothesis was a difference in distribution of the ratings of difficulty concentrating between treatments.||0.25|-0.48|0.721
82515535|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.19||0.0125||95.0|-0.85|-0.1|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.10|-0.85|0.0125
82515536|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.0696||95.0|-0.7|0.03|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||0.03|-0.70|0.0696
82515537|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0187|TWO_SIDED|95.0|-0.79|-0.07|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 3 (log10 copies/mL)||-0.07|-0.79|0.0187
82635601|NCT02355665|164986155|SUPERIORITY||Estimated Mean Difference|-0.03||||0.608|TWO_SIDED|95.0|-0.54|0.49||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.49|-0.54|0.608
82515538|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.96|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.39|-0.52|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.52|-1.39|<0.0001
82515539|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-1.09|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.53|-0.64|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.64|-1.53|<0.0001
82515540|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-1.03|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.48|-0.59|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.59|-1.48|<0.0001
82515541|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.5|-0.6|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.60|-1.50|<0.0001
82515542|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.46|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.46|-1.34|<0.0001
82635602|NCT02355665|164986156|SUPERIORITY||Estimated Mean Difference|-0.63||||0.014|TWO_SIDED|95.0|-1.16|-0.09||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||-0.09|-1.16|0.014
82515543|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.92|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.35|-0.48|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 5 (log10 copies/mL)||-0.48|-1.35|<0.0001
82515544|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.22||0.0004||95.0|-1.23|-0.35|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.35|-1.23|0.0004
82515545|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0058||95.0|-1.08|-0.18|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.18|-1.08|0.0058
82515546|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0046||95.0|-1.11|-0.2|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.20|-1.11|0.0046
82515547|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.23||0.0019||95.0|-1.18|-0.27|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.27|-1.18|0.0019
82515548|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.33|-0.44|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.44|-1.33|<0.0001
82515549|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.0079||95.0|-1.04|-0.16|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 7 (log10 copies/mL)||-0.16|-1.04|0.0079
82515550|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.23||0.0515||95.0|-0.9|0.0|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.00|-0.90|0.0515
82515551|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.23||0.1864||95.0|-0.77|0.15|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.15|-0.77|0.1864
82515552|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.24||0.2866||95.0|-0.72|0.21|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.21|-0.72|0.2866
82515553|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.11|STANDARD_ERROR_OF_MEAN|0.24||0.647||95.0|-0.58|0.36|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.36|-0.58|0.6470
82515554|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.23||0.028||95.0|-0.97|-0.06|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||-0.06|-0.97|0.0280
82515555|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.23||0.0854||95.0|-0.84|0.05|||Mixed Models Analysis|||Difference vs. Placebo, by Day 15 (log10 copies/mL)||0.05|-0.84|0.0854
82515556|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.1078|TWO_SIDED|95.0|-0.69|0.07|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.07|-0.69|0.1078
82515557|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.2235||95.0|-0.62|0.14|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.14|-0.62|0.2235
82515558|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.2||0.1369||95.0|-0.68|0.09|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.09|-0.68|0.1369
82515559|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.661||95.0|-0.48|0.31|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.31|-0.48|0.6610
82515560|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.0284||95.0|-0.81|-0.05|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||-0.05|-0.81|0.0284
82515561|NCT04666441|164723314|SUPERIORITY||Difference of LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.08||95.0|-0.71|0.04|||Mixed Model for Repeated Measures (MMRM)|||Difference vs. Placebo, by Day 22 (log10 copies/mL)||0.04|-0.71|0.0800
82515562|NCT04286594|164723340|OTHER|Change in single group over time|Mean Difference (Final Values)|11.667|STANDARD_DEVIATION|5.051|<|0.001|TWO_SIDED|95.0|8.457|14.876|||t-test, 1 sided|||||14.876|8.457|<0.001
82515563|NCT05955560|164723351|SUPERIORITY|||||||0.04||||||A two-sided paired t-test was used and p-value derived. The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||||0.04
82515564|NCT03809182|164723356|SUPERIORITY|||||||0.38|TWO_SIDED|95.0||||A p-value less than .05 was considered statistically significant.|Mixed Models Analysis|||Null hypothesis: There is no difference in plasmatic glucose levels between dexmedetomidine and 0.9% sodium-chloride groups.||||0.38
82515565|NCT03809182|164723357|SUPERIORITY|||||||0.02||||||A p-value less than .05 was considered statistically significant.|Mixed Models Analysis|||Null hypothesis: There is no difference in insulin levels between dexmedetomidine and 0.9% sodium-chloride groups.||||0.02
82515566|NCT03794089|164723363|SUPERIORITY|||||||0.035||||||a priori threshold for statistical significance was p\<=.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline GAD-7 total scores||||0.035
82635603|NCT02355665|164986157|SUPERIORITY||Estimated Mean Difference|0.04||||0.9|TWO_SIDED|95.0|-0.3|0.38||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.38|-0.30|0.900
82635604|NCT02355665|164986158|SUPERIORITY||Estimated Mean Difference|-0.06||||0.731|TWO_SIDED|95.0|-0.44|0.31||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of anxiety between treatments. The alternative hypothesis was a difference in distribution of the ratings of anxiety between treatments.||0.31|-0.44|0.731
82635605|NCT02355665|164986159|SUPERIORITY||Estimated Mean Difference|0.04||||0.635|TWO_SIDED|95.0|-0.28|0.36||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.36|-0.28|0.635
82635606|NCT02355665|164986160|SUPERIORITY||Estimated Mean Difference|-0.05||||0.273|TWO_SIDED|95.0|-0.42|0.32||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.32|-0.42|0.273
82635607|NCT02355665|164986161|SUPERIORITY||Estimated Mean Difference|-0.06||||0.879|TWO_SIDED|95.0|-0.4|0.28||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.28|-0.40|0.879
82635608|NCT02355665|164986162|SUPERIORITY||Estimated Mean Difference|0.02||||0.823|TWO_SIDED|95.0|-0.28|0.32||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of dysphoric or depressed mood between treatments. The alternative hypothesis was a difference in distribution of the ratings of dysphoric or depressed mood between treatments.||0.32|-0.28|0.823
82635609|NCT02355665|164986163|SUPERIORITY||Estimated Mean Difference|0.0||||0.804|TWO_SIDED|95.0|-0.4|0.4||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.40|-0.40|0.804
82635610|NCT02355665|164986164|SUPERIORITY||Estimated Mean Difference|0.13||||0.438|TWO_SIDED|95.0|-0.3|0.57||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.57|-0.30|0.438
82635611|NCT02355665|164986165|SUPERIORITY||Estimated Mean Difference|-0.08||||0.517|TWO_SIDED|95.0|-0.44|0.28||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||0.28|-0.44|0.517
82635612|NCT02355665|164986166|SUPERIORITY||Estimated Mean Difference|-0.42||||0.027|TWO_SIDED|95.0|-0.77|-0.06||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of insomnia between treatments. The alternative hypothesis was a difference in distribution of the ratings of insomnia between treatments.||-0.06|-0.77|0.027
82635613|NCT02355665|164986167|SUPERIORITY||Estimated Mean Difference|-0.3||||0.105|TWO_SIDED|95.0|-0.93|0.33||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.33|-0.93|0.105
82635614|NCT02355665|164986168|SUPERIORITY||Estimated Mean Difference|-0.04||||0.604|TWO_SIDED|95.0|-0.6|0.51||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.51|-0.60|0.604
82382029|NCT02174627|164474716|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the upper limit of the 2-sided 95% CI for the HR was ≤1.0.|Hazard Ratio (HR)|0.26|||<|0.001|TWO_SIDED|95.0|0.23|0.31|||Regression, Cox|||Treatments were compared using a Cox proportional hazards model, with baseline Hb and baseline eGFR as continuous variables used as covariates, and treatment group, CV history and geographic region as fixed effects. The Efron method was used for ties and p-values were calculated using the Wald test.||0.31|0.23|<0.001
82382030|NCT02174627|164474717|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the upper limit of the 2-sided 95% CI for the HR was ≤1.0.|Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.3|0.44|||Regression, Cox|||Treatments were compared using a Cox proportional hazards model, with baseline Hb and baseline eGFR as continuous variables used as covariates, and treatment group, CV history and geographic region as fixed effects. The Efron method was used for ties and p-values were calculated using the Wald test.||0.44|0.30|<0.001
82442289|NCT03249935|164593122|SUPERIORITY|||||||||||||||||Assumptions were that 20% of enrolled chlamydia-infected males will have urethral symptoms and azithromycin treatment failures will occur in 10% of symptomatic men vs. 2% of asymptomatic men. At a one-sided 0.05 significance level with power of 0.80, a sample size of 357 evaluable males would be needed, or approximately 72 symptomatic and 285 asymptomatic males. Assuming 20% of males enrolled would be unevaluable, a total of 446 males was targeted for enrollment.|Given that the study closed early and there were only 4 treatment failures, formal hypothesis testing was not performed.|||
82442290|NCT03249935|164593123|SUPERIORITY||Odds Ratio (OR)|0.75||||0.656|TWO_SIDED|95.0|0.22|2.62|||Regression, Logistic|||Unadjusted odds ratio for age in years as a continuous variable in a logistic regression model predicting treatment failure at day 28||2.62|0.22|0.656
82442291|NCT03249935|164593123|SUPERIORITY||Odds Ratio (OR)|4.65||||0.197|TWO_SIDED|95.0|0.45|47.89|||Regression, Logistic|||Unadjusted odds ratio for reporting at baseline new partners in the last 30 days (reference group=no new partners) from a logistic model predicting treatment failure at day 28.||47.89|0.45|0.197
82515567|NCT03794089|164723364|SUPERIORITY|||||||0.231||||||a priori threshold for statistical significance was p\<=0.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline PHQ-9 total scores||||0.231
82515568|NCT03794089|164723365|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.393||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 4 weeks||||0.393
82442292|NCT03249935|164593123|SUPERIORITY||Odds Ratio (OR)|0.68||||0.058|TWO_SIDED|95.0|0.45|1.01|||Regression, Logistic|||Unadjusted odds ratio for Chlamydia viral load at baseline as a continuous variable in a logistic model predicting treatment failure at day 28.||1.01|0.45|0.058
82442293|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted difference|0.18|||||TWO_SIDED|95.0|-0.11|0.46|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 29||0.46|-0.11|
82635615|NCT02355665|164986169|SUPERIORITY||Estimated Mean Difference|-0.35||||0.194|TWO_SIDED|95.0|-0.93|0.24||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.24|-0.93|0.194
82635616|NCT02355665|164986170|SUPERIORITY||Estimated Mean Difference|-0.11||||0.502|TWO_SIDED|95.0|-0.62|0.4||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of the ratings of increased appetite between treatments. The alternative hypothesis was a difference in distribution of the ratings of increased appetite between treatments.||0.40|-0.62|0.502
82635617|NCT02355665|164986171|SUPERIORITY||Estimated Mean Difference|-0.56||||0.483|TWO_SIDED|95.0|-2.84|1.73||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||1.73|-2.84|0.483
82635618|NCT02355665|164986172|SUPERIORITY||Estimated Mean Difference|-1.79||||0.102|TWO_SIDED|95.0|-4.24|0.67||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||0.67|-4.24|0.102
82382031|NCT02174627|164474718|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.283||0.12|TWO_SIDED|95.0|-0.11|0.99|||Mixed Models Analysis|||Difference between groups (roxadustat minus placebo) in LS mean changes; MMRM analysis.||0.99|-0.11|0.120
82382032|NCT02174627|164474719|OTHER||Rate of Change Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.254||0.046|TWO_SIDED|95.0|-1.0|-0.01||Nominal p-value (as prior sequential outcome measure p-value did not meet \< 0.05.|Random Effects Analysis|||Difference between groups (roxadustat minus placebo) in rate of change in eGFR; random effects analysis.||-0.01|-1.00|0.046
82635619|NCT02355665|164986173|SUPERIORITY||Estimated Mean Difference|-0.45||||0.532|TWO_SIDED|95.0|-2.27|1.38||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||1.38|-2.27|0.532
82635620|NCT02355665|164986174|SUPERIORITY||Estimated Mean Difference|-1.01||||0.354|TWO_SIDED|95.0|-2.93|0.91||The significance threshold level was 0.05 (two-sided).|Wilcoxon (Mann-Whitney)||Estimated Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in distribution of aggregated withdrawal scores between treatments. The alternative hypothesis was a difference in distribution of aggregated withdrawal scores between treatments.||0.91|-2.93|0.354
82382033|NCT02174627|164474720|SUPERIORITY|Superiority of roxadustat compared with placebo would be declared if the lower bound of the 2-sided 95% CI of the difference between roxadustat and placebo exceeded 0.|LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.269||0.051|TWO_SIDED|95.0|0.0|1.05||Nominal p-value (as prior sequential outcome measure p-value did not meet \< 0.05.|Mixed Models Analysis|||Difference between groups (roxadustat minus placebo) in LS mean changes; MMRM analysis.||1.05|0.00|0.051
82382034|NCT02996227|164474782|NON_INFERIORITY|The noninferiority was defined as no more than 25% greater opioid consumption and no worse than 1-point higher pain score at rest. Non-inferiority of TAP with liposomal bupivacaine to epidural could be claimed if the upper limit of the 95.2% CI for the mean difference of pain scores at rest was less than 1 point and the CI for the ratio of geometric means in opioid consumption was less than 1.25.|Mean Difference (Final Values)|0.09|||<|0.001|TWO_SIDED|95.2|-0.12|0.3|||Mixed Models Analysis|||||0.30|-0.12|<0.001
82382035|NCT02996227|164474783|NON_INFERIORITY|The noninferiority was defined as no more than 25% greater opioid consumption and no worse than 1-point higher pain score at rest. Non-inferiority of TAP with liposomal bupivacaine to epidural could be claimed if the upper limit of the 95.2% CI for the mean difference of pain scores at rest was less than 1 point and the CI for the ratio of geometric means in opioid consumption was less than 1.25.|Ratio of Geometric means|1.37||||0.754|TWO_SIDED|95.2|1.05|1.79|||Mixed Models Analysis|||||1.79|1.05|0.754
82382036|NCT02996227|164474784|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.56|TWO_SIDED|99.0|0.53|2.76|||Regression, Linear|linear regression after logarithm transformation||||2.76|0.53|0.560
82382037|NCT02996227|164474785|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.357|TWO_SIDED|99.0|-0.65|1.37|||Regression, Linear||Difference in means between two groups was assessed using mixed effects model with repeated measurements with unstructured correlation structure|||1.37|-0.65|0.357
82382038|NCT02996227|164474786|SUPERIORITY||Risk Ratio (RR)|0.64||||0.006|TWO_SIDED|99.0|0.42|0.98|||generalized linear regression|||||0.98|0.42|0.006
82570401|NCT04260464|164851049|OTHER||Test/Reference Ratio|110.15|||||TWO_SIDED|95.0|83.76|144.86||||||Analysis of variance (ANOVA) was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||144.86|83.76|
82515569|NCT03794089|164723365|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.022||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 8 weeks||||0.022
82382039|NCT02996227|164474787|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.695|TWO_SIDED|99.0|-4.31|5.85|||Regression, Linear||Difference in means between two groups was assessed using mixed effects model with repeated measurements with unstructured correlation structure.|||5.85|-4.31|0.695
82515570|NCT03794089|164723365|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.013||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to 12 weeks||||0.013
82515571|NCT03794089|164723365|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.049||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Anxiety subscale total from Baseline to Post assessment (16 weeks)||||0.049
82515572|NCT03794089|164723366|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.008||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 4 weeks||||0.008
82515573|NCT03794089|164723366|SUPERIORITY|Testing null hypothesis of no difference between groups|||||<|0.001||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 8 weeks||||<0.001
82515574|NCT03794089|164723366|SUPERIORITY|Testing null hypothesis of no difference between groups|||||<|0.001||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to 12 weeks||||<0.001
82515575|NCT03794089|164723366|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.008||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Depression subscale total from Baseline to Post-assessment (16 weeks)||||0.008
82515576|NCT03794089|164723367|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.44||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 4 weeks||||0.440
82515577|NCT03794089|164723367|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.022||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 8 weeks||||0.022
82635621|NCT02355665|164986343|SUPERIORITY||Least Squares Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|1.679||0.558|TWO_SIDED|95.0|-2.42|4.41||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||4.41|-2.42|0.558
82382040|NCT02996227|164474788|SUPERIORITY||Ratio of geometric means|0.98||||0.738|TWO_SIDED|99.0|0.86|1.12|||Regression, Linear|linear regression after logarithmic transformation||||1.12|0.86|0.738
82515578|NCT03794089|164723367|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.032||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to 12 weeks||||0.032
82515579|NCT03794089|164723367|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.091||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in DASS-21 Stress subscale total from Baseline to Post-assessment (16 weeks)||||0.091
82515580|NCT03794089|164723368|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.058||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 4 weeks||||0.058
82515581|NCT03794089|164723368|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.032||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 8 weeks||||0.032
82515582|NCT03794089|164723368|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.007||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to 12 weeks||||0.007
82515583|NCT03794089|164723368|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.044||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in OASIS total score from Baseline to Post assessment (16 weeks)||||0.044
82515584|NCT03794089|164723369|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.328||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 4 weeks||||0.328
82515585|NCT03794089|164723369|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.148||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 8 weeks||||0.148
82515586|NCT03794089|164723369|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.002||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to 12 weeks||||0.002
82515587|NCT03794089|164723369|SUPERIORITY|Testing null hypothesis of no difference between groups||||||0.069||||||a priori threshold for statistical significance was p\<=0.05|Mixed Models Analysis|||Change in ODSIS total from Baseline to Post-assessment (16 weeks)||||0.069
82515588|NCT03794089|164723370|SUPERIORITY|||||||0.928||||||a priori threshold for statistical significance was p\<=0.05|ANCOVA|||comparisons of groups at post-assessment controls for baseline Q-LES-Q-SF total scores||||0.928
82515589|NCT03794089|164723371|SUPERIORITY|||||||0.402||||||a priori threshold for statistical significance was p\<.05|Fisher Exact|degrees of freedom = 1||Testing null hypothesis of no difference between groups||||0.402
82515590|NCT03794089|164723372|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|||Testing the null hypothesis of no difference between groups||||<0.001
82515591|NCT03794089|164723373|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|Used Satterthwaite method given unequal variances||Testing the null hypothesis of no difference between groups||||.006
82515592|NCT03794089|164723374|SUPERIORITY|||||||0.004||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|used Satterthwaite method given unequal variances||Testing the null hypothesis of no difference between groups||||0.004
82515593|NCT03794089|164723375|SUPERIORITY|||||||0.002||||||a priori threshold for statistical significance was p\<=.05|t-test, 2 sided|||Testing the null hypothesis of no difference between groups||||0.002
82515594|NCT03119766|164723387|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.041|TWO_SIDED|95.0|0.04|1.85|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of GIS scores after 8 weeks of treatment were compared.||1.85|0.04|0.041
82515595|NCT03119766|164723387|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.041|TWO_SIDED|95.0|0.04|1.74|||Mixed Models Analysis||"Fixed factor Treatment and random factor research center were used in mixed model. Difference in mean changes between groups was estimeted."|Mean changes of GIS scores after 8 weeks of treatment were compared. Influence of between center variation was estimated.||1.74|0.04|0.041
82515596|NCT03119766|164723388|SUPERIORITY|||||||0.067|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 1 point.||||0.067
82382041|NCT03349060|164474792|SUPERIORITY||Difference in Percentage|15.8||||0.0037|TWO_SIDED|95.0|6.8|24.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.8|6.8|0.0037
82515597|NCT03119766|164723388|SUPERIORITY|||||||0.029|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 2 points.||||0.029
82515598|NCT03119766|164723388|SUPERIORITY|||||||0.082|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 3 points.||||0.082
82382042|NCT03349060|164474792|SUPERIORITY||Difference in Percentage|36.0|||<|0.0001|TWO_SIDED|95.0|26.2|45.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.7|26.2|<0.0001
82382043|NCT03349060|164474793|SUPERIORITY||Difference in Percentage|27.9|||<|0.0001|TWO_SIDED|95.0|17.4|38.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.3|17.4|<0.0001
82382044|NCT03349060|164474793|SUPERIORITY||Difference in Percentage|51.0|||<|0.0001|TWO_SIDED|95.0|40.5|61.5|||Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||61.5|40.5|<0.0001
82382045|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|18.0||||0.0004|TWO_SIDED|95.0|10.2|25.8|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the Cochran-Mantel-Haenszel (CMH) risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||25.8|10.2|0.0004
82382046|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|42.5|||<|0.0001|TWO_SIDED|95.0|33.6|51.4|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||51.4|33.6|<0.0001
82515599|NCT03119766|164723388|SUPERIORITY|||||||0.046|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 4 points.||||0.046
82515600|NCT03119766|164723388|SUPERIORITY|||||||0.111|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 5 points.||||0.111
82515601|NCT03119766|164723389|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.435|TWO_SIDED|95.0|-0.93|2.15|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of NDI scores after 8 weeks of treatment were compared.||2.15|-0.93|0.435
82635622|NCT02355665|164986344|SUPERIORITY||Least Squares Mean Difference|3.04|STANDARD_ERROR_OF_MEAN|3.409||0.383|TWO_SIDED|95.0|-4.03|10.11||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||10.11|-4.03|0.383
82515602|NCT03119766|164723390|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.655|TWO_SIDED|95.0|-2.0|1.26|||ANOVA||Results are presented as estimated differences of Least Squares Means according to ANOVA model|Mean changes of SF-36 scores (physical health domain) after 8 weeks of treatment were compared.||1.26|-2.00|0.655
82515603|NCT03119766|164723390|SUPERIORITY||Median Difference (Final Values)|0.65||||0.375|TWO_SIDED|95.0|-0.79|2.1|||ANOVA|||Mean changes of SF-36 scores (mental health domain) after 8 weeks of treatment were compared.||2.10|-0.79|0.375
82515604|NCT03119766|164723391|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82515605|NCT03119766|164723392|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Side effects analysis.||||0.08
82515606|NCT03119766|164723392|SUPERIORITY|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect||||0.139
82515607|NCT03119766|164723392|SUPERIORITY|||||||0.251|||||||Wilcoxon (Mann-Whitney)|||Efficacy index analysis.||||0.251
82515608|NCT02034578|164723395|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.953|||||TWO_SIDED|90.0|0.873|1.04||||||B versus A||1.040|0.873|
82515609|NCT02034578|164723395|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.805|||||TWO_SIDED|90.0|0.749|0.865||||||C versus A||0.865|0.749|
82515610|NCT02034578|164723397|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.966|||||TWO_SIDED|90.0|0.924|1.01||||||B versus A||1.010|0.924|
82515611|NCT02034578|164723397|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.919|||||TWO_SIDED|90.0|0.896|0.942||||||C versus A||0.942|0.896|
82515612|NCT02034578|164723398|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.968|||||TWO_SIDED|90.0|0.926|1.011||||||B versus A||1.011|0.926|
82515613|NCT02034578|164723398|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.922|||||TWO_SIDED|90.0|0.899|0.947||||||C versus A||0.947|0.899|
82515614|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS mean difference|0.26||||0.617|TWO_SIDED|95.0|-0.78|1.3||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.30|-0.78|0.617
82515615|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.732|TWO_SIDED|95.0|-1.23|1.73||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.73|-1.23|0.732
82515616|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.715|TWO_SIDED|95.0|-1.2|1.73||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.73|-1.20|0.715
82635623|NCT02355665|164986345|SUPERIORITY||Least Squares Mean Difference|7.13|STANDARD_ERROR_OF_MEAN|4.573||0.138|TWO_SIDED|95.0|-2.56|16.83||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment, baseline smoking category, study site, and baseline weight were factors.|Least Squares Mean Difference = Nicotine - Placebo|The null hypothesis was no difference in mean change from baseline in body weight between treatments. The alternative hypothesis was a difference in mean change from baseline in body weight between treatments.||16.83|-2.56|0.138
82515617|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35||||0.177|TWO_SIDED|95.0|-0.85|0.16||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||0.16|-0.85|0.177
82515618|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.579|TWO_SIDED|95.0|-0.94|0.53||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.53|-0.94|0.579
82515619|NCT01159938|164723408|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49||||0.167|TWO_SIDED|95.0|-1.19|0.21||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 30-min pre-breakfast in brachial arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||0.21|-1.19|0.167
82515620|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.676|TWO_SIDED|95.0|-1.1|0.72||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.72|-1.10|0.676
82515621|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.957|TWO_SIDED|95.0|-1.27|1.34||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.34|-1.27|0.957
82515622|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.513|TWO_SIDED|95.0|-1.68|0.85||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.85|-1.68|0.513
82515623|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.623|TWO_SIDED|95.0|-0.47|0.28||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.28|-0.47|0.623
82515624|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.916|TWO_SIDED|95.0|-0.51|0.57||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.57|-0.51|0.916
82515625|NCT01159938|164723409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.413|TWO_SIDED|95.0|-0.73|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 60-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-0.73|0.413
82515626|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.724|TWO_SIDED|95.0|-0.94|1.34||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.34|-0.94|0.724
82515627|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.479|TWO_SIDED|95.0|-1.05|2.2||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||2.20|-1.05|0.479
82442294|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.09|||||TWO_SIDED|95.0|-0.34|0.17|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 57||0.17|-0.34|
82570402|NCT04260464|164851049|OTHER||Test/Reference Ratio|94.58|||||TWO_SIDED|90.0|55.84|160.19||||||ANOVA was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||160.19|55.84|
82442295|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.08|||||TWO_SIDED|95.0|-0.37|0.2|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 85||0.20|-0.37|
82515628|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18||||0.825|TWO_SIDED|95.0|-1.76|1.41||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in aortic arteries. Significance was assessed at 2-sided 5% level.|ANCOVA|||||1.41|-1.76|0.825
82382047|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|15.0||||0.0251|TWO_SIDED|95.0|1.9|28.0|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||28.0|1.9|0.0251
82382048|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|41.1|||<|0.0001|TWO_SIDED|95.0|27.8|54.4|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||54.4|27.8|<0.0001
82382049|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|20.0||||0.0019|TWO_SIDED|95.0|7.4|32.7|||Cochran-Mantel-Haenszel|||Week 8: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||32.7|7.4|0.0019
82515629|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.378|TWO_SIDED|95.0|-0.65|0.25||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.25|-0.65|0.378
82515630|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.553|TWO_SIDED|95.0|-0.84|0.46||The p-value is for the LS mean difference (high minus low postprandial glucose) in PWV at 120 mins post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.46|-0.84|0.553
82515631|NCT01159938|164723410|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.512|TWO_SIDED|95.0|-0.83|0.42||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 120-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.42|-0.83|0.512
82515632|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.466|TWO_SIDED|95.0|-1.09|0.51||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.51|-1.09|0.466
82635624|NCT02417935|164986361|NON_INFERIORITY|If the upper bound of the 95% CI does not exceed 0.51 (pre-defined non-inferiority margin), it will be concluded that duloxetine is not inferior to Pregabalin.|Mean Difference (Final Values)|0.072||||0.7|TWO_SIDED|95.0|-0.295|0.439|||Mixed Models Analysis|||||0.439|-0.295|0.700
82635625|NCT02417935|164986362|OTHER||Mean Difference (Final Values)|-0.2||||0.149|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||0.1|-0.4|0.149
82635626|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|0.1||||0.535|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||Worst Pain||0.6|-0.3|.535
82635627|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.1||||0.436|TWO_SIDED|95.0|-0.5|0.2|||Mixed Models Analysis|||Least Pain||0.2|-0.5|.436
82382050|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|45.3|||<|0.0001|TWO_SIDED|95.0|32.7|57.8|||Cochran-Mantel-Haenszel|||Week 8: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||57.8|32.7|<0.0001
82382051|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|22.5||||0.0003|TWO_SIDED|95.0|10.3|34.8|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||34.8|10.3|0.0003
82515633|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44||||0.449|TWO_SIDED|95.0|-1.6|0.72||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.72|-1.60|0.449
82635628|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|0.1||||0.534|TWO_SIDED|95.0|-0.2|0.5|||Mixed Models Analysis|||Average Pain||0.5|-0.2|.534
82635629|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|0.0||||0.948|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|||Pain Right Now||0.4|-0.4|.948
82635630|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.2||||0.225|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||General Activity||0.1|-0.6|.225
82635631|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.2||||0.276|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||Mood||0.2|-0.6|.276
82635632|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.1||||0.507|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Walking Ability||0.2|-0.4|.507
82635633|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.2||||0.216|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||Normal Work||0.1|-0.5|.216
82635634|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.2||||0.233|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||Relations with other people||0.1|-0.4|.233
82635635|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|0.0||||0.857|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Sleep||0.3|-0.3|.857
82635636|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.2||||0.133|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||Enjoyment of life||0.1|-0.5|.133
82635637|NCT02417935|164986363|OTHER||Mean Difference (Final Values)|-0.16||||0.246|TWO_SIDED|95.0|-0.44|0.11|||Mixed Models Analysis|||Average Interference Score||0.11|-0.44|.246
82635638|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|-0.7||||0.627|TWO_SIDED|95.0|-3.6|2.2|||ANCOVA|||Total Score||2.2|-3.6|.627
82635639|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|-0.2||||0.355|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Burning Pain||0.2|-0.6|.355
82515634|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.792|TWO_SIDED|95.0|-1.25|0.96||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.96|-1.25|0.792
82515635|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16||||0.493|TWO_SIDED|95.0|-0.63|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-0.63|0.493
82635640|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|0.1||||0.731|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Pressing Pain||0.4|-0.3|.731
82382052|NCT03349060|164474794|SUPERIORITY||Difference in Percentage|41.7|||<|0.0001|TWO_SIDED|95.0|29.6|53.9|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||53.9|29.6|<0.0001
82382053|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|16.3||||0.0055|TWO_SIDED|95.0|7.4|25.2|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||25.2|7.4|0.0055
82515636|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.091|TWO_SIDED|95.0|-1.25|0.1||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.10|-1.25|0.091
82515637|NCT01159938|164723411|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.425|TWO_SIDED|95.0|-0.39|0.9||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 180-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.90|-0.39|0.425
82635641|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|0.1||||0.721|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||Paroxysmal Pain||0.4|-0.3|.721
82635642|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|-0.2||||0.345|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Evoked Pain||0.2|-0.5|.345
82515638|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.275|TWO_SIDED|95.0|-1.36|0.4||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.40|-1.36|0.275
82382054|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|43.3|||<|0.0001|TWO_SIDED|95.0|33.1|53.6|||Cochran-Mantel-Haenszel|||Week 2: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||53.6|33.1|<0.0001
82382055|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|12.5||||0.1138|TWO_SIDED|95.0|-3.0|28.0|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||28.0|-3.0|0.1138
82382056|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|41.8|||<|0.0001|TWO_SIDED|95.0|26.2|57.4|||Cochran-Mantel-Haenszel|||Week 4: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||57.4|26.2|<0.0001
82382057|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|28.7|||<|0.0001|TWO_SIDED|95.0|15.3|42.1|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||42.1|15.3|<0.0001
82382058|NCT03349060|164474795|SUPERIORITY||Difference in Percentage|47.8|||<|0.0001|TWO_SIDED|95.0|34.6|61.1|||Cochran-Mantel-Haenszel|||Week 12: Each complete imputed data set was analyzed using the CMH risk difference method adjusting by randomization strata, separately for each week. Results from multiply imputed data sets were combined using Rubin's rules to obtain treatment difference, 95% CI and p-value.||61.1|34.6|<0.0001
82515639|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.784||95.0|-1.44|1.1||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||1.10|-1.44|0.784
82515640|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79||||0.197|TWO_SIDED|95.0|-2.01|0.43||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in aortic arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.43|-2.01|0.197
82382059|NCT03349060|164474796|SUPERIORITY||Difference in least squares (LS) mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.4|<0.0001
82382060|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.2|-2.0|<0.0001
82382061|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.6|<0.0001
82515641|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.122|TWO_SIDED|95.0|-0.9|0.11||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.11|-0.90|0.122
82515642|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43||||0.246|TWO_SIDED|95.0|-1.16|0.31||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.31|-1.16|0.246
82635643|NCT02417935|164986364|OTHER||Mean Difference (Final Values)|-0.1||||0.557|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Paresthesia/Dysesthesia||0.3|-0.5|.557
82382062|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-2.8|<0.0001
82635644|NCT02417935|164986365|OTHER||Mean Difference (Final Values)|-0.2||||0.106|TWO_SIDED|95.0|-0.4|0.0|||Mixed Models Analysis|||||0.0|-0.4|.106
82635645|NCT02417935|164986366|OTHER||Mean Difference (Final Values)|0.014||||0.361|TWO_SIDED|95.0|-0.0161|0.0441|||ANCOVA|||||0.0441|-0.0161|.361
82382063|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-0.9||||0.0035|TWO_SIDED|95.0|-1.5|-0.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-1.5|0.0035
82635646|NCT02417935|164986367|OTHER||Mean Difference (Final Values)|0.2||||0.701|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|.701
82635647|NCT02417935|164986368|OTHER||Mean Difference (Final Values)|0.005||||0.976|TWO_SIDED|95.0|-0.355|0.366|||Mixed Models Analysis|||||0.366|-0.355|.976
82515643|NCT01159938|164723412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37||||0.298|TWO_SIDED|95.0|-1.06|0.33||P-value is for LS mean difference (high minus low postprandial glucose) in PWV at 240-min post-breakfast in brachial arteries. Significance was assessed at the 2-sided 5% level.|ANCOVA|||||0.33|-1.06|0.298
82382064|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.3|-2.5|<0.0001
82635648|NCT02417935|164986369|OTHER||Mean Difference (Final Values)|0.136||||0.503|TWO_SIDED|95.0|-0.264|0.537|||Mixed Models Analysis|||||0.537|-0.264|.503
82570403|NCT04260464|164851049|OTHER||Test/Reference Ratio|124.2|||||TWO_SIDED|90.0|100.24|153.89||||||ANOVA was used to compare the natural log transformed Cmax for PF-06700841 between the normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||153.89|100.24|
82570404|NCT04260464|164851050|OTHER||Test/Reference Ratio|112.08|||||TWO_SIDED|95.0|60.85|206.45||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||206.45|60.85|
82570405|NCT04260464|164851050|OTHER||Test/Reference Ratio|70.97|||||TWO_SIDED|90.0|27.6|182.49||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||182.49|27.60|
82570406|NCT04260464|164851050|OTHER||Test/Reference Ratio|147.7|||||TWO_SIDED|90.0|75.17|290.21||||||ANOVA was used to compare the natural log transformed AUCinf for PF-06700841 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||290.21|75.17|
82635649|NCT02417935|164986370|OTHER|||||||0.632||||||30% reduction|Fisher Exact|||||||.632
82382065|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-1.1||||0.001|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.7|0.0010
82382066|NCT03349060|164474796|SUPERIORITY||Difference in LS mean|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-2.7|<0.0001
82570407|NCT04260464|164851051|OTHER||Test/Reference Ratio|177.53|||||TWO_SIDED|95.0|135.82|232.04||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||232.04|135.82|
82570408|NCT04260464|164851051|OTHER||Test/Reference Ratio|132.69|||||TWO_SIDED|90.0|95.08|185.17||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||185.17|95.08|
82570409|NCT04260464|164851051|OTHER||Test/Reference Ratio|122.04|||||TWO_SIDED|90.0|84.47|176.3||||||ANOVA was used to compare the natural log transformed Cmax for M1 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||176.30|84.47|
82635650|NCT02417935|164986370|OTHER|||||||0.907|||||||Fisher Exact|||50% Reduction||||.907
82635651|NCT01813149|164986411|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|df=20 t-statistic = 2.90||A t-test to see if expression of α1-AR differs between phenylephrine responders and non-responders||||0.009
82442296|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.23|||||TWO_SIDED|95.0|-0.5|0.04|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 113||0.04|-0.50|
82515644|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.49||||0.024|TWO_SIDED|95.0|-6.5|-0.48||P-value is for the Least Square (LS) mean difference (high minus low postprandial glucose) in change in PWA at 60-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, body mass index (BMI), visit, group, condition, group by condition, and random participant.||||-0.48|-6.50|0.024
82515645|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.859|TWO_SIDED|95.0|-2.59|3.09||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 60-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|The LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||3.09|-2.59|0.859
82635652|NCT02269709|164986419|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline and Follow-up #1||||<0.0001
82635653|NCT02269709|164986419|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline vs. Follow up #2||||<0.0001
82635654|NCT02269709|164986419|OTHER|Changes in mean liver shear wave speed (SWS) between time points were assessed using a mixed-effect model with post hoc Tukey correction.|||||<|0.0001|||||||Mixed Models Analysis|||Comparison of Baseline vs. Follow-up #3||||<0.0001
82382067|NCT03349060|164474797|SUPERIORITY||Difference in LS mean|-1.3||||0.0002|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.0|0.0002
82635655|NCT02269709|164986420|OTHER|Mean IVC pressures from different time points were compared using the Wilcoxon signed-rank test.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82635656|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.838|STANDARD_ERROR_OF_MEAN|3.775|<|0.001|TWO_SIDED|95.0|-57.335|-42.34|||Mixed Models Analysis|One-sided p-value (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the mixed-effect model for repeated measures (MMRM) model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.340|-57.335|<0.001
82515646|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.19||||0.155|TWO_SIDED|95.0|-5.25|0.87||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.87|-5.25|0.155
82515647|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.685|TWO_SIDED|95.0|-3.46|2.3||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 120-min post-breakfast. Significance was assessed at 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||2.30|-3.46|0.685
82515648|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.84||||0.292|TWO_SIDED|95.0|-5.33|1.64||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 180-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||1.64|-5.33|0.292
82515649|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|2.04||||0.216|TWO_SIDED|95.0|-1.25|5.33||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 180-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||5.33|-1.25|0.216
82515650|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.87||||0.065|TWO_SIDED|95.0|-5.92|0.18||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.18|-5.92|0.065
82635657|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.754|STANDARD_ERROR_OF_MEAN|3.912|<|0.001|TWO_SIDED|95.0|-74.523|-58.986|||Mixed Models Analysis|One-sided p-value (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.986|-74.523|<0.001
82515651|NCT01159938|164723413|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.954|TWO_SIDED|95.0|-2.96|2.8||P-value is for LS mean difference (high minus low postprandial glucose) in change in PWA at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||2.80|-2.96|0.954
82515652|NCT01159938|164723414|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.905|TWO_SIDED|95.0|-0.31|0.27||P-value is for Least Square (LS) mean difference (high minus low postprandial glucose) in change in PAT at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.27|-0.31|0.905
82515653|NCT01159938|164723414|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.004|TWO_SIDED|95.0|0.14|0.69||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 120-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.69|0.14|0.004
82515654|NCT01159938|164723414|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.584|TWO_SIDED|95.0|-0.41|0.23||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.23|-0.41|0.584
82515655|NCT01159938|164723414|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.436|TWO_SIDED|95.0|-0.19|0.44||P-value is for LS mean difference (high minus low postprandial glucose) in change in PAT at 240-min post-breakfast. Significance was assessed at the 2-sided 5% level.|ANCOVA|LS mean was adjusted for age, BMI, visit, group, condition, group by condition, and random participant.||||0.44|-0.19|0.436
82635658|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.534|STANDARD_ERROR_OF_MEAN|3.903|<|0.001|TWO_SIDED|95.0|-79.284|-63.784|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-63.784|-79.284|<0.001
82515656|NCT01138124|164723428|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.04|||<|0.0001|TWO_SIDED|95.0|1.51|2.75|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.75|1.51|<0.0001
82515657|NCT01138124|164723428|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.82||||0.0001|TWO_SIDED|95.0|1.34|2.46|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.46|1.34|0.0001
82515658|NCT01138124|164723428|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.52||||0.0627|TWO_SIDED|95.0|0.98|2.36|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||2.36|0.98|0.0627
82515659|NCT01138124|164723428|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.33||||0.2183|TWO_SIDED|95.0|0.85|2.08|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.08|0.85|0.2183
82570410|NCT04260464|164851052|OTHER||Test/Reference Ratio|445.99|||||TWO_SIDED|95.0|326.55|609.13||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the severe impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||609.13|326.55|
82635659|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.531|STANDARD_ERROR_OF_MEAN|4.016|<|0.001|TWO_SIDED|95.0|-55.511|-39.551|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.551|-55.511|<0.001
82635660|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.624|STANDARD_ERROR_OF_MEAN|3.993|<|0.001|TWO_SIDED|95.0|-70.557|-54.691|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.691|-70.557|<0.001
82635661|NCT02055976|164986422|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.268|STANDARD_ERROR_OF_MEAN|3.955|<|0.001|TWO_SIDED|95.0|-72.128|-56.409|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-56.409|-72.128|<0.001
82635662|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.293|STANDARD_ERROR_OF_MEAN|3.587|<|0.001|TWO_SIDED|95.0|-49.417|-35.168|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the mixed-effect model for repeated measures (MMRM) model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.168|-49.417|<0.001
82635663|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.262|STANDARD_ERROR_OF_MEAN|3.696|<|0.001|TWO_SIDED|95.0|-63.603|-48.921|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.921|-63.603|<0.001
82635664|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.384|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-68.733|-54.035|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.035|-68.733|<0.001
82635665|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.578|STANDARD_ERROR_OF_MEAN|4.273|<|0.001|TWO_SIDED|95.0|-56.067|-39.088|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.088|-56.067|<0.001
82635666|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-63.346|STANDARD_ERROR_OF_MEAN|4.244|<|0.001|TWO_SIDED|95.0|-71.776|-54.915|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.915|-71.776|<0.001
82635667|NCT02055976|164986423|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.691|STANDARD_ERROR_OF_MEAN|4.226|<|0.001|TWO_SIDED|95.0|-75.088|-58.295|||Mixed Models Analysis|One-sided p-values (adjusted for multiplicity) was derived from the MMRM model.||Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.295|-75.088|<0.001
82635668|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-67.254|STANDARD_ERROR_OF_MEAN|4.785|<|0.001|TWO_SIDED|95.0|-76.757|-57.752|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.752|-76.757|<0.001
82635669|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-87.122|STANDARD_ERROR_OF_MEAN|4.959|<|0.001|TWO_SIDED|95.0|-96.969|-77.275|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-77.275|-96.969|<0.001
82635670|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-93.327|STANDARD_ERROR_OF_MEAN|4.949|<|0.001|TWO_SIDED|95.0|-103.153|-83.501|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-83.501|-103.153|<0.001
82635671|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.724|STANDARD_ERROR_OF_MEAN|6.243|<|0.001|TWO_SIDED|95.0|-84.128|-59.321|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.321|-84.128|<0.001
82570411|NCT04260464|164851052|OTHER||Test/Reference Ratio|144.63|||||TWO_SIDED|90.0|112.76|185.5||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the mild impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||185.50|112.76|
82515660|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.82|||<|0.0001|TWO_SIDED|95.0|1.86|4.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.28|1.86|<0.0001
82382068|NCT03349060|164474797|SUPERIORITY||Difference in LS mean|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.6|||Mixed Models Analysis|||MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.6|-3.0|<0.0001
82382069|NCT03349060|164474798|SUPERIORITY|||||||0.0071||||||P-value was controlled by randomization strata.|Log Rank|||||||0.0071
82382070|NCT03349060|164474798|SUPERIORITY||||||<|0.0001||||||P-value was controlled by randomization strata.|Log Rank|||||||<0.0001
82442297|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|0.03|||||TWO_SIDED|95.0|-0.26|0.32|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 141||0.32|-0.26|
82515661|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.53|||<|0.0001|TWO_SIDED|95.0|1.66|3.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy"|||3.85|1.66|<0.0001
82515662|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.75||||0.001|TWO_SIDED|95.0|1.51|5.03|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.03|1.51|0.001
82635672|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-96.206|STANDARD_ERROR_OF_MEAN|6.209|<|0.001|TWO_SIDED|95.0|-108.541|-83.872|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-83.872|-108.541|<0.001
82515663|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.44||||0.0042|TWO_SIDED|95.0|1.32|4.49|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.49|1.32|0.0042
82515664|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.8||||0.0645|TWO_SIDED|95.0|0.97|3.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.36|0.97|0.0645
82515665|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.65||||0.1232|TWO_SIDED|95.0|0.87|3.11|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||3.11|0.87|0.1232
82515666|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.55||||0.316|TWO_SIDED|95.0|0.17|1.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.78|0.17|0.3160
82515667|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.48||||0.2234|TWO_SIDED|95.0|0.15|1.57|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||1.57|0.15|0.2234
82515668|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.35||||0.3071|TWO_SIDED|95.0|0.76|2.42|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.42|0.76|0.3071
82515669|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.17||||0.6062|TWO_SIDED|95.0|0.65|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.11|0.65|0.6062
82515670|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.31||||0.5205|TWO_SIDED|95.0|0.58|2.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.97|0.58|0.5205
82515671|NCT01138124|164723429|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.11||||0.8042|TWO_SIDED|95.0|0.48|2.57|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.57|0.48|0.8042
82515672|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|3.15|||<|0.0001|TWO_SIDED|95.0|2.04|4.86|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.86|2.04|<0.0001
82515673|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.88|||<|0.0001|TWO_SIDED|95.0|1.85|4.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.46|1.85|<0.0001
82515674|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.75||||0.0015|TWO_SIDED|95.0|1.47|5.13|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.13|1.47|0.0015
82515675|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.45||||0.0053|TWO_SIDED|95.0|1.31|4.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.62|1.31|0.0053
82515676|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.68||||0.0777|TWO_SIDED|95.0|0.94|2.99|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.99|0.94|0.0777
82515677|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.5||||0.1762|TWO_SIDED|95.0|0.83|2.69|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.69|0.83|0.1762
82515678|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.82||||0.699|TWO_SIDED|95.0|0.29|2.28|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.28|0.29|0.6990
82515679|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.72||||0.5274|TWO_SIDED|95.0|0.26|2.01|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.01|0.26|0.5274
82515680|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.34||||0.3245|TWO_SIDED|95.0|0.75|2.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.39|0.75|0.3245
82515681|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.6388|TWO_SIDED|95.0|0.64|2.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.07|0.64|0.6388
82515682|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.11||||0.796|TWO_SIDED|95.0|0.49|2.51|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.51|0.49|0.796
82515683|NCT01138124|164723430|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.94||||0.8772|TWO_SIDED|95.0|0.41|2.15|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.15|0.41|0.8772
82515684|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.9|||<|0.0001|TWO_SIDED|95.0|1.88|4.47|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.47|1.88|<0.0001
82442298|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.13|||||TWO_SIDED|95.0|-0.41|0.15|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 169||0.15|-0.41|
82635673|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.533|STANDARD_ERROR_OF_MEAN|6.145|<|0.001|TWO_SIDED|95.0|-110.743|-86.323|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-86.323|-110.743|<0.001
82635674|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.225|STANDARD_ERROR_OF_MEAN|4.736|<|0.001|TWO_SIDED|95.0|-65.63|-46.819|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.819|-65.630|<0.001
82635675|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-73.813|STANDARD_ERROR_OF_MEAN|4.881|<|0.001|TWO_SIDED|95.0|-83.507|-64.119|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.119|-83.507|<0.001
82635676|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-81.239|STANDARD_ERROR_OF_MEAN|4.885|<|0.001|TWO_SIDED|95.0|-90.939|-71.538|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-71.538|-90.939|<0.001
82382071|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|6.5||||0.0869|TWO_SIDED|95.0|-0.3|13.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||13.3|-0.3|0.0869
82515685|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.65|||<|0.0001|TWO_SIDED|95.0|1.71|4.11|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||4.11|1.71|<0.0001
82515686|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.19||||0.0212|TWO_SIDED|95.0|1.12|4.25|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||4.25|1.12|0.0212
82515687|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.95||||0.0522|TWO_SIDED|95.0|0.99|3.81|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||3.81|0.99|0.0522
82515688|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.87||||0.0337|TWO_SIDED|95.0|1.05|3.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.32|1.05|0.0337
82635677|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-72.573|STANDARD_ERROR_OF_MEAN|5.983|<|0.001|TWO_SIDED|95.0|-84.461|-60.684|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.684|-84.461|<0.001
82635678|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-96.222|STANDARD_ERROR_OF_MEAN|5.948|<|0.001|TWO_SIDED|95.0|-108.039|-84.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.405|-108.039|<0.001
82515689|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.64||||0.0947|TWO_SIDED|95.0|0.92|2.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.95|0.92|0.0947
82635679|NCT02055976|164986425|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-102.184|STANDARD_ERROR_OF_MEAN|5.919|<|0.001|TWO_SIDED|95.0|-113.945|-90.424|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-90.424|-113.945|<0.001
82382072|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|20.3||||0.0001|TWO_SIDED|95.0|12.0|28.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.6|12.0|0.0001
82382073|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|13.1||||0.0259|TWO_SIDED|95.0|2.6|23.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.6|2.6|0.0259
82382074|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|33.0|||<|0.0001|TWO_SIDED|95.0|21.7|44.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.2|21.7|<0.0001
82515690|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.42||||0.3928|TWO_SIDED|95.0|0.64|3.16|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.16|0.64|0.3928
82515691|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.21||||0.6502|TWO_SIDED|95.0|0.54|2.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.72|0.54|0.6502
82382075|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|25.0||||0.0001|TWO_SIDED|95.0|14.2|35.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.8|14.2|0.0001
82382076|NCT03349060|164474799|SUPERIORITY||Difference in Percentage|44.6|||<|0.0001|TWO_SIDED|95.0|33.6|55.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.6|33.6|<0.0001
82635680|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-69.537|STANDARD_ERROR_OF_MEAN|5.721|<|0.001|TWO_SIDED|95.0|-80.9|-58.175|||Mixed Models Analysis|One-sided p-value (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.175|-80.900|<0.001
82515692|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.34||||0.3275|TWO_SIDED|95.0|0.75|2.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.39|0.75|0.3275
82382077|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|3.9||||0.0802|TWO_SIDED|95.0|-0.7|8.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.5|-0.7|0.0802
82515693|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.6365|TWO_SIDED|95.0|0.64|2.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.08|0.64|0.6365
82635681|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.446|STANDARD_ERROR_OF_MEAN|5.855|<|0.001|TWO_SIDED|95.0|-98.074|-74.818|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-74.818|-98.074|<0.001
82382078|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|9.8||||0.0045|TWO_SIDED|95.0|4.0|15.7||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.7|4.0|0.0045
82635682|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.273|STANDARD_ERROR_OF_MEAN|5.898|<|0.001|TWO_SIDED|95.0|-109.983|-86.563|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-86.563|-109.983|<0.001
82382079|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|5.2||||0.1888|TWO_SIDED|95.0|-1.9|12.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.4|-1.9|0.1888
82382080|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|21.7|||<|0.0001|TWO_SIDED|95.0|13.0|30.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.5|13.0|<0.0001
82442299|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.12|||||TWO_SIDED|95.0|-0.38|0.13|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 197||0.13|-0.38|
82382081|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|13.8||||0.0071|TWO_SIDED|95.0|5.2|22.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||22.4|5.2|0.0071
82382082|NCT03349060|164474800|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|19.8|38.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.7|19.8|<0.0001
82382083|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with event was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
82515694|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.01||||0.9858|TWO_SIDED|95.0|0.42|2.41|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.41|0.42|0.9858
82515695|NCT01138124|164723431|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.87||||0.7671|TWO_SIDED|95.0|0.36|2.12|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, chronic pancreatitis, neuropathic pain, epilepsy."|||2.12|0.36|0.7671
82515696|NCT01138124|164723432|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.79||||0.0031|TWO_SIDED|95.0|1.22|2.63|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.63|1.22|0.0031
82382084|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with event was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
82515697|NCT01138124|164723432|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.68||||0.0095|TWO_SIDED|95.0|1.13|2.49|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.49|1.13|0.0095
82442300|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.04|||||TWO_SIDED|95.0|-0.32|0.25|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 225||0.25|-0.32|
82515698|NCT01138124|164723432|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.65||||0.097|TWO_SIDED|95.0|0.91|2.99|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||2.99|0.91|0.0970
82515699|NCT01138124|164723432|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.63||||0.1123|TWO_SIDED|95.0|0.89|2.97|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.97|0.89|0.1123
82515700|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.53||||0.0012|TWO_SIDED|95.0|1.44|4.44|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)"|||4.44|1.44|0.0012
82515701|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.34||||0.0034|TWO_SIDED|95.0|1.32|4.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.14|1.32|0.0034
82515702|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.18||||0.0856|TWO_SIDED|95.0|0.9|5.32|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.32|0.9|0.0856
82515703|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.14||||0.0996|TWO_SIDED|95.0|0.87|5.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.28|0.87|0.0996
82515704|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.89||||0.0563|TWO_SIDED|95.0|0.98|3.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.63|0.98|0.0563
82515705|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.77||||0.0896|TWO_SIDED|95.0|0.92|3.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.43|0.92|0.0896
82515706|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.4||||0.5308|TWO_SIDED|95.0|0.49|4.01|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.01|0.49|0.5308
82515707|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.39||||0.5458|TWO_SIDED|95.0|0.48|4.02|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.02|0.48|0.5458
82515708|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.87||||0.7744|TWO_SIDED|95.0|0.35|2.19|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.19|0.35|0.7744
82515709|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.83||||0.6999|TWO_SIDED|95.0|0.33|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.11|0.33|0.6999
82515710|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.32||||0.6528|TWO_SIDED|95.0|0.39|4.47|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.47|0.39|0.6528
82515711|NCT01138124|164723433|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.3||||0.6722|TWO_SIDED|95.0|0.38|4.47|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.47|0.38|0.6722
82515712|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|3.24|||<|0.0001|TWO_SIDED|95.0|1.79|5.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||5.85|1.79|<0.0001
82515713|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.9||||0.0005|TWO_SIDED|95.0|1.59|5.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.28|1.59|0.0005
82515714|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.54||||0.042|TWO_SIDED|95.0|1.03|6.25|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.25|1.03|0.042
82515715|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.4||||0.0603|TWO_SIDED|95.0|0.96|5.98|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.98|0.96|0.0603
82515716|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.35||||0.3762|TWO_SIDED|95.0|0.69|2.65|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.65|0.69|0.3762
82515717|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.33||||0.4073|TWO_SIDED|95.0|0.68|2.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.63|0.68|0.4073
82515718|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.95||||0.9294|TWO_SIDED|95.0|0.29|3.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.12|0.29|0.9294
82515719|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.99||||0.9875|TWO_SIDED|95.0|0.3|3.29|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.29|0.3|0.9875
82515720|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.19||||0.66|TWO_SIDED|95.0|0.54|2.63|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.63|0.54|0.66
82515721|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||0.811|TWO_SIDED|95.0|0.5|2.45|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.45|0.5|0.8110
82515722|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.7||||0.3336|TWO_SIDED|95.0|0.58|4.96|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.96|0.58|0.3336
82515723|NCT01138124|164723434|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.63||||0.3782|TWO_SIDED|95.0|0.55|4.84|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.84|0.55|0.3782
82515724|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.89||||0.0841|TWO_SIDED|95.0|0.92|3.88|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.88|0.92|0.0841
82382085|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.9|3.9||P-value could not be calculated since percentage of participants with event was 0.||||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.9|-3.9|
82515725|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.75||||0.1313|TWO_SIDED|95.0|0.85|3.63|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.63|0.85|0.1313
82515726|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.03||||0.1488|TWO_SIDED|95.0|0.78|5.34|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.34|0.78|0.1488
82515727|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.05||||0.1495|TWO_SIDED|95.0|0.77|5.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||5.46|0.77|0.1495
82515728|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|2.44||||0.0013|TWO_SIDED|95.0|1.42|4.22|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||4.22|1.42|0.0013
82515729|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.34||||0.0026|TWO_SIDED|95.0|1.35|4.07|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.07|1.35|0.0026
82515730|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.78||||0.2421|TWO_SIDED|95.0|0.68|4.69|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.69|0.68|0.2421
82515731|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.7||||0.2899|TWO_SIDED|95.0|0.64|4.53|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||4.53|0.64|0.2899
82515732|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.99||||0.9723|TWO_SIDED|95.0|0.42|2.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.29|0.42|0.9723
82515733|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.91||||0.8206|TWO_SIDED|95.0|0.39|2.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||2.13|0.39|0.8206
82515734|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.15||||0.8135|TWO_SIDED|95.0|0.35|3.82|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.82|0.35|0.8135
82515735|NCT01138124|164723435|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.15||||0.8173|TWO_SIDED|95.0|0.34|3.86|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, hypertension, diuretic use, diabetes, neuropathic pain, and epilepsy."|||3.86|0.34|0.8173
82515736|NCT00982020|164723442|SUPERIORITY_OR_OTHER|||||||0.15||||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures analysis terms included baseline BMI, baseline age, gender, intervention group, visit, region, intervention group\*visit.||||||0.150
82515737|NCT00982020|164723443|SUPERIORITY_OR_OTHER|||||||0.52||||||The threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model terms included: baseline, baseline age, gender, intervention group, and region.||||||0.520
82515738|NCT00982020|164723445|SUPERIORITY_OR_OTHER|||||||0.008||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.008
82515739|NCT00982020|164723446|SUPERIORITY_OR_OTHER|||||||0.266||||||The threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included intervention group, visit, region, and intervention group\*visit.||||||0.266
82515740|NCT00982020|164723447|SUPERIORITY_OR_OTHER|||||||0.954||||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM analysis terms included baseline, baseline age, gender, intervention group, visit, region, and intervention group\*visit.||||||0.954
82515741|NCT00982020|164723448|SUPERIORITY_OR_OTHER|||||||0.103||||||Threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.103
82515742|NCT00982020|164723449|SUPERIORITY_OR_OTHER|||||||0.436||||||The threshold for statistical significance was 0.05|Mixed Models Analysis|MMRM analysis terms included baseline, intervention group, visit, region, and intervention group\*visit.||||||0.436
82515743|NCT00466193|164723457|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for treatment|ANCOVA|||||||<0.001
82515744|NCT00466193|164723459|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for treatment|ANCOVA|||||||0.006
82515745|NCT00466193|164723462|SUPERIORITY_OR_OTHER|||||||0.0041||95.0||||P-value is for treatment|ANCOVA|||||||0.0041
82515746|NCT04088097|164723506|SUPERIORITY|||||||0.01|||||||ANOVA|||||||.01
82515747|NCT04088097|164723507|SUPERIORITY|||||||0.75|||||||ANOVA|||||||.75
82515748|NCT04088097|164723508|SUPERIORITY|||||||0.03|||||||ANOVA|||||||.03
82515749|NCT03556761|164723515|SUPERIORITY||Risk Ratio (RR)|0.4||||0.03|TWO_SIDED|95.0|0.2|0.81|||Regression, Linear|||||0.81|0.20|0.03
82515750|NCT03556761|164723516|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.12|TWO_SIDED|95.0|0.95|1.51|||Regression, Cox|||||1.51|0.95|0.12
82515751|NCT03556761|164723517|SUPERIORITY||Risk Ratio (RR)|0.55||||0.14|TWO_SIDED|95.0|0.25|1.21|||Chi-squared|||||1.21|0.25|0.14
82515752|NCT03556761|164723518|SUPERIORITY||Risk Ratio (RR)|0.87||||0.36|TWO_SIDED|95.0|0.64|1.18|||Chi-squared|||||1.18|0.64|0.36
82515753|NCT03556761|164723519|SUPERIORITY||Risk Ratio (RR)|0.02||||0.76|TWO_SIDED|95.0|-0.09|0.13|||Regression, Linear|||||.13|-0.09|0.76
82515754|NCT03556761|164723520|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82515755|NCT03556761|164723521|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|0.32|28.59||||||||28.59|0.32|
82515756|NCT03556761|164723522|SUPERIORITY||Risk Ratio (RR)|0.61||||0.03|TWO_SIDED|95.0|0.39|0.96|||Chi-squared|||||0.96|0.39|0.03
82515757|NCT01075074|164723533|SUPERIORITY_OR_OTHER|||||||0.006||||||Corrected for 6 comparisons.|Kruskal-Wallis|||A sample size of 23 subjects per group was estimated to achieve 80% power to detect a 10 point difference in the aggregated QOR40 score for the 3 study groups to be compared assuming an overall standard deviation of 12.||||0.006
82515758|NCT01075074|164723533|SUPERIORITY_OR_OTHER||Median Difference (Net)|16.0||||0.03|TWO_SIDED|95.0|1.0|30.0|||Wilcoxon (Mann-Whitney)|||||30|1|0.03
82515759|NCT01075074|164723533|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0||||0.01|TWO_SIDED|95.0|2.0|31.0|||Wilcoxon (Mann-Whitney)|||||31|2|0.01
82515760|NCT01075074|164723533|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||1|TWO_SIDED|95.0|-16.0|12.0|||Wilcoxon (Mann-Whitney)|||||12|-16|1.0
82382086|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|6.5||||0.0234|TWO_SIDED|95.0|1.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|1.3|0.0234
82515761|NCT01075074|164723534|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||P values is corrected for 6 comparisons|Kruskal-Wallis|||||||0.0003
82515762|NCT01075074|164723534|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Corrected for 6 comparisons|Kruskal-Wallis|||||||0.0003
82515763|NCT01075074|164723534|SUPERIORITY_OR_OTHER||Median Difference (Net)|195.0||||0.0004|TWO_SIDED|95.0|98.0|300.0|||Wilcoxon (Mann-Whitney)|||||300|98|0.0004
82515764|NCT01075074|164723534|SUPERIORITY_OR_OTHER||Median Difference (Net)|195.0||||0.0003|TWO_SIDED|95.0|98.0|278.0|||Wilcoxon (Mann-Whitney)|||||278|98|0.0003
82515765|NCT01075074|164723534|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.86|TWO_SIDED|95.0|-105.0|83.0|||Wilcoxon (Mann-Whitney)|||||83|-105|0.86
82515766|NCT01075074|164723535|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Corrected for multiple comparisons (n=6).|Kruskal-Wallis|||||||0.0005
82515767|NCT01075074|164723535|SUPERIORITY_OR_OTHER||Median Difference (Net)|38.0||||0.01|TWO_SIDED|95.0|8.0|50.0|||Wilcoxon (Mann-Whitney)|||||50|8|0.01
82515768|NCT01075074|164723535|SUPERIORITY_OR_OTHER||Median Difference (Net)|40.0||||0.003|TWO_SIDED|95.0|12.0|47.0|||Wilcoxon (Mann-Whitney)|||||47|12|0.003
82515769|NCT01075074|164723535|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||0.95|TWO_SIDED|95.0|-18.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|-18|0.95
82515770|NCT01075074|164723536|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Corrected for multiple comparisons (n=6).|Kruskal-Wallis|||||||0.03
82382087|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|4.6||||0.0592|TWO_SIDED|95.0|-0.3|9.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.5|-0.3|0.0592
82382088|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|11.7||||0.0022|TWO_SIDED|95.0|5.5|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|5.5|0.0022
82382089|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|7.0||||0.019|TWO_SIDED|95.0|1.7|12.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.3|1.7|0.0190
82515771|NCT01075074|164723536|SUPERIORITY_OR_OTHER||Median Difference (Net)|30.0||||0.01|TWO_SIDED|95.0|0.0|60.0|||Wilcoxon (Mann-Whitney)|||||60|0|0.01
82515772|NCT01075074|164723536|SUPERIORITY_OR_OTHER||Median Difference (Net)|30.0||||0.04|TWO_SIDED|95.0|0.0|60.0|||Wilcoxon (Mann-Whitney)|||||60|0|0.04
82382090|NCT03349060|164474801|SUPERIORITY||Difference in Percentage|13.1||||0.001|TWO_SIDED|95.0|6.7|19.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.7|0.0010
82382091|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|24.0|||<|0.0001|TWO_SIDED|95.0|13.9|34.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.1|13.9|<0.0001
82382092|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|45.1|||<|0.0001|TWO_SIDED|95.0|34.7|55.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.5|34.7|<0.0001
82515773|NCT01075074|164723536|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.92|TWO_SIDED|95.0|-30.0|30.0|||Wilcoxon (Mann-Whitney)|||||30|-30|0.92
82515774|NCT01614210|164723537|OTHER||percentage decrease in Ki67 after 7 days|||||0.0001|||||||t-test, 1 sided|||||||0.0001
82515775|NCT03669081|164723543|OTHER|The null hypothesis for the test was no difference between groups.||||||0.006||||||The significance level for this test was 0.05.|Wilcoxon (Mann-Whitney)|We used an exact Wilcoxon rank sum test due to the skewed nature of the morphine equivalents data and the small sample sizes in each group.||||||0.006
82382093|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|33.5|||<|0.0001|TWO_SIDED|95.0|21.6|45.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.4|21.6|<0.0001
82515776|NCT03669081|164723544|OTHER|The null hypothesis was no difference between groups.||||||0.029|||||||Exact Wilcoxon rank sum test|||||||0.029
82570412|NCT04260464|164851052|OTHER||Test/Reference Ratio|229.12|||||TWO_SIDED|90.0|189.97|276.35||||||ANOVA was used to compare the natural log transformed AUCinf for M1 between normal renal function group (Reference) and the moderate impaired renal function group (Test). Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model.||276.35|189.97|
82515777|NCT03669081|164723545|NON_INFERIORITY|We conducted a 1-sided non-inferiority test using an alpha level of 0.025, for a comparison of the fold change of creatinine levels (pre-operative creatinine/post-operative creatinine) in the Toradol group. Our minimum non-inferiority margin was 0.5, ie the post-operative creatinine level could only increase to at most two times the pre-operative creatinine level.|||||<|0.0001||||||This p-value was compared to a significance threshold of 0.025.|Wilcoxon (Mann-Whitney)|||The safety outcome was used to power our study.To achieve 90% power at a 2.5% significance level for testing that the post-surgery creatinine increase is at most two-fold (where 1.5 fold is expected), or alternatively for the pre-surgery creatinine group to be ≥0.5 times the post-surgery, we need 17 subjects in the toradol group. This calculation was based on a non-inferiority test (one sided t-test) using a coefficient of variation of 0.25 based on preliminary data.||||<0.0001
82515778|NCT03669081|164723546|OTHER|The null hypothesis was no difference between groups.||||||0.002|||||||t-test, 2 sided|||||||0.002
82515779|NCT03669081|164723547|OTHER|The null hypothesis was no difference between groups.|||||>|0.99|||||||Fisher Exact|||||||>0.99
82382094|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|52.7|||<|0.0001|TWO_SIDED|95.0|41.2|64.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||64.2|41.2|<0.0001
82382095|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|34.1|||<|0.0001|TWO_SIDED|95.0|21.9|46.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.3|21.9|<0.0001
82515780|NCT00389324|164723549|NON_INFERIORITY_OR_EQUIVALENCE|The administration effect between SC and IV was assessed by exponentiation of the difference in least squares means between study phases (Test minus Reference) and the corresponding 90% confidence interval (CI) for the geometric LSM ratio between study phases (Test/Reference) for AUC. The Test (SC) was to be considered non-inferior to Reference (IV) if the lower bound of 90% CIs for the geometric LSM ratios of AUC between the Test and Reference was above 0.80 (80%).|Geometric Least Square Mean Ratio|0.888||||||90.0|0.861|0.917|||ANOVA||An adjusted steady-state area under the concentration vs. time curve following SC administration based on IV dosing schedule was calculated as AUC0-τ,SC multiplied by 3 or 4 for subjects on every-3-week or every-4-week IV dosing schedule.|The IV phase was considered as the Reference study phase and the SC phase as the Test study phase. The ANOVA included calculation of least-squares means (LSM), differences between adjusted means and the standard error associated with these differences.||0.917|0.861|
82570413|NCT02806505|164851072|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.6746|TWO_SIDED|95.0|0.49|3.06||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||3.06|0.49|0.6746
82382096|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|52.9|||<|0.0001|TWO_SIDED|95.0|41.3|64.6|||Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||64.6|41.3|<0.0001
82635683|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.435|STANDARD_ERROR_OF_MEAN|7.209|<|0.001|TWO_SIDED|95.0|-85.757|-57.112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.112|-85.757|<0.001
82515781|NCT00534352|164723599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Cmin as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|95.47||||||90.0|82.77|110.1||No p-values.|Mixed Models Analysis (Cmin)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Cmin. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||110.1|82.77|
82635684|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-94.959|STANDARD_ERROR_OF_MEAN|7.236|<|0.001|TWO_SIDED|95.0|-109.333|-80.585|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-80.585|-109.333|<0.001
82635685|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-98.519|STANDARD_ERROR_OF_MEAN|7.15|<|0.001|TWO_SIDED|95.0|-112.727|-84.311|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.311|-112.727|<0.001
82635686|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.191|STANDARD_ERROR_OF_MEAN|5.741|<|0.001|TWO_SIDED|95.0|-66.592|-43.791|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-43.791|-66.592|<0.001
82635687|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-72.211|STANDARD_ERROR_OF_MEAN|5.848|<|0.001|TWO_SIDED|95.0|-83.825|-60.597|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.597|-83.825|<0.001
82442301|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|0.08|||||TWO_SIDED|95.0|-0.19|0.36|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 253||0.36|-0.19|
82515782|NCT00534352|164723599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Cmax as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|102.6||||||90.0|92.91|113.3||No p-values.|Mixed Models Analysis (Cmax)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Cmax. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||113.3|92.91|
82515783|NCT00534352|164723599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for AUC24 as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|LS means of ratios|98.97||||||90.0|89.23|109.8||No p-values.|Mixed Models Analysis (AUC24)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of AUC24. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||109.8|89.23|
82515784|NCT00534352|164723599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was shown for Css,av as the 90% confidence intervals (CI) of the LSmean ratio was within the 80-125% limits.|Least Square (LS) mean ratio|99.3||||||90.0|89.39|110.3||No p-values.|Mixed Models Analysis (Css,av)|The linear mixed effects model was controlled for treatment as fixed effects, and subject as a random effect.|The results are for the mean ratio of Css,av. Numerator: Treatment B Denominator: Treatment A|Previous studies showed that the intrasubject variability on the log transformed Cmax and AUC12h of TMC125 was less than or equal to 40%. Based on this and with complete data on 20 patients, the 90% CI of the true ratio of the means was expected to be contained within 81-124% of the observed ratio of the means.||110.3|89.39|
82515785|NCT04788147|164723611|OTHER|"The modified 3+3 design with 6 patients at the 'Recommended RefleXion FDG Dose level' aims to ensure that the observed proportion of patients below activity threshold to be less than 33%.~Probability of Observations at Most 1 of 6 below Activity Threshold True below activity rate 40% 30% 20% 10% Probability at most 1 of 6 patients below activity threshold 0.233 0.420 0.655 0.886"||||||||||||||||"Statistical analysis of the primary endpoint is not applicable to Cohort I. A modified 3+3 design was utilized wherein meeting the activity level threshold, not dose-limiting toxicity, is the endpoint. The RRFD is primarily based upon the lower FDG dose level where 5 to 6 out of 6 subjects have an Activity Concentration greater than 5 kBq/ml."|"Statistical analysis of the primary endpoint is not applicable to Cohort I. A modified 3+3 design was utilized wherein meeting the activity level threshold, not dose-limiting toxicity, is the endpoint. The RRFD is primarily based upon the lower FDG dose level where 5 to 6 out of 6 subjects have an Activity Concentration greater than 5 kBq/ml."|||
82570414|NCT02806505|164851073|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.3923|TWO_SIDED|95.0|0.6|3.76||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||3.76|0.60|0.3923
82570415|NCT02806505|164851074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8843|TWO_SIDED|95.0|0.43|2.68||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||Week 12: The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||2.68|0.43|0.8843
82570416|NCT02806505|164851074|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.5866|TWO_SIDED|95.0|0.28|2.04||Assessed by Cochran-Mantel-Haenszel test stratified by country (Brazil, France, Other) and HCV genotype (1 vs. non-1).|Cochran-Mantel-Haenszel|||Week 24: The odds ratio is the ratio of the odds of a response in the Peginterferon alfa-2a 135 mcg group with the odds of a response in the Peginterferon alfa-2a 90 mcg group.||2.04|0.28|0.5866
82570417|NCT01114139|164851155|SUPERIORITY|The 95% confidence interval was calculated using the large sample assumption.|Treatment Difference|75.59|||<|0.0001|TWO_SIDED|95.0|71.15|80.02|||Cochran-Mantel-Haenszel|The p-value is the result of the Cochran-Mantel-Haenszel test, adjusted for Baseline hemoglobin level and underlying condition.|The treatment difference (ferumoxytol - placebo) was expressed as a percentage.|Participants who achieved a ≥2.0 g/dL increase in hemoglobin from Baseline up to Week 5 were analyzed. Statistical comparison was performed for data up to Week 5 only. Baseline was defined as the Day 1 value (prior to injection of study drug). The screening or most recent value prior to Day 1 was used for any participant with missing Day 1 information.||80.02|71.15|<0.0001
82382097|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|35.3|||<|0.0001|TWO_SIDED|95.0|23.3|47.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.4|23.3|<0.0001
82515786|NCT01144338|164723625|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.91||||0.061|TWO_SIDED|95.0|0.832|1.004|||Regression, Cox|||||1.004|0.832|0.061
82515787|NCT01144338|164723626|NON_INFERIORITY|Non-inferiority test of EQW over Placebo H0: HR ≥ 1.3 vs. H1: HR \< 1.3|Hazard Ratio (HR)|0.91|||<|0.001|TWO_SIDED|95.0|0.832|1.004|||Regression, Cox|||This analysis uses the same endpoint and cox regression method as the primary efficacy analysis. However, the statistical hypothesis is a non-inferiority test with a margin of HR=1.3.||1.004|0.832|< 0.001
82515788|NCT01144338|164723627|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.86||||0.016|TWO_SIDED|95.0|0.77|0.97|||Regression, Cox|||||0.97|0.77|0.016
82570418|NCT03954223|164851187|SUPERIORITY|||||||0.4|TWO_SIDED|95.0|||||ANOVA|||||||0.4
82570419|NCT03954223|164851188|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.2|TWO_SIDED|95.0|||||Regression, Linear|Mixed-effects generalized linear model of the glycemic profile change extracted from CGM data.||||||0.2
82570420|NCT00858247|164851201|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
82570421|NCT00858247|164851202|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANCOVA|||||||0.80
82570422|NCT00858247|164851203|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANCOVA|||||||0.65
82570423|NCT00858247|164851204|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|||||||0.68
82515789|NCT01144338|164723628|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.88||||0.096|TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|||||1.02|0.76|0.096
82515790|NCT01144338|164723629|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.97||||0.622|TWO_SIDED|95.0|0.85|1.1|||Regression, Cox|||||1.10|0.85|0.622
82515791|NCT01144338|164723630|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.85||||0.095|TWO_SIDED|95.0|0.7|1.03|||Regression, Cox|||||1.03|0.70|0.095
82515792|NCT01144338|164723631|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|1.05||||0.402|TWO_SIDED|95.0|0.94|1.18|||Regression, Cox|||||1.18|0.94|0.402
82515793|NCT01144338|164723632|SUPERIORITY|Superiority test of EQW over Placebo H0: HR ≥ 1 vs. H1: HR \< 1|Hazard Ratio (HR)|0.94||||0.485|TWO_SIDED|95.0|0.78|1.13|||Regression, Cox|||||1.13|0.78|0.485
82515794|NCT04796610|164723633|SUPERIORITY||Odds Ratio (OR)|0.55||||0.49|TWO_SIDED|95.0|0.1|2.98|||Regression, Logistic|Model is adjusted for participant age|Results are presented for an indicator where 0=control and 1=intervention|||2.98|.1|0.49
82635688|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-83.065|STANDARD_ERROR_OF_MEAN|5.913|<|0.001|TWO_SIDED|95.0|-94.807|-71.323|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-71.323|-94.807|<0.001
82515795|NCT04796610|164723634|SUPERIORITY||Odds Ratio (OR)|16.82||||0.011|TWO_SIDED|95.0|1.93|146.91||Model is adjusted for participant age|Regression, Logistic||Results are presented for an indicator where 0=control and 1=intervention|||146.91|1.93|.011
82515796|NCT04796610|164723635|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.03|TWO_SIDED|95.0|0.07|0.97|||Regression, Linear|Model is adjusted for participant age|Results are presented for an indicator where 0=control and 1=intervention|||0.97|0.07|.03
82515797|NCT02401672|164723636|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82515798|NCT02401672|164723637|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82515799|NCT02401672|164723638|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82515800|NCT02401672|164723639|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82515801|NCT04737538|164723680|OTHER||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-13.3|-8.8|||Non-parametric method (Van Elteren test)|||||-8.8|-13.3|<0.0001
82515802|NCT04737538|164723681|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.01||0.4488|TWO_SIDED|95.0|-1.6|2.4|||Non-parametric method (Van Elteren test)|||||2.4|-1.6|0.4488
82515803|NCT04737538|164723682|OTHER||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|1.18|<|0.0001|TWO_SIDED|95.0|-13.8|-9.1|||Non-parametric method (Van Elteren test)|||||-9.1|-13.8|<0.0001
82515804|NCT03735862|164723684|OTHER|Paired t-Test|||||<|0.001|||||||t-test, 1 sided|||Difference between baseline and follow-up||||<0.001
82515805|NCT03735862|164723685|SUPERIORITY||||||<|0.0001|||||||McNemar|||Difference between baseline and follow-up||||<0.0001
82515806|NCT04122443|164723688|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.3|1.9||||||||1.9|0.3|
82515807|NCT04122443|164723689|SUPERIORITY||Mean Difference (Final Values)|13.0|||||TWO_SIDED|95.0|-3.0|29.0||||||||29|-3|
82515808|NCT04122443|164723690|SUPERIORITY||Mean Difference (Final Values)|9.0|||||TWO_SIDED|95.0|-5.0|23.0||||||||23|-5|
82515809|NCT04122443|164723691|SUPERIORITY||Mean Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-10.0|21.0||||||||21|-10|
82515810|NCT01072201|164723693|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82515811|NCT01072201|164723694|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82515812|NCT01072201|164723695|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups||||0.05
82515813|NCT00360334|164723696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.71|||<|0.001||95.0|2.62|8.46|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the primary outcome divided by the odds of a patient in the insulin glargine arm achieving the primary outcome||8.46|2.62|<0.001
82515814|NCT00360334|164723697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.76|||<|0.001||95.0|3.11|10.64|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||10.64|3.11|<0.001
82515815|NCT00360334|164723698|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82515816|NCT00360334|164723699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.28||95.0|0.44|1.26|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.26|0.44|0.280
82515817|NCT00360334|164723700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.191||95.0|0.42|1.19|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.19|0.42|0.191
82515818|NCT00360334|164723701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.363||95.0|0.66|3.07|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||3.07|0.66|0.363
82515819|NCT00360334|164723703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
82515820|NCT00360334|164723704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
82515821|NCT00360334|164723705|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
82515822|NCT00360334|164723706|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Model Repeated Measures|||||||<0.001
82515823|NCT00360334|164723707|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Repeated Measures|||||||<0.001
82515824|NCT00360334|164723708|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.91||||0.001||95.0|3.7|210.54|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||210.54|3.70|0.001
82635689|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-73.879|STANDARD_ERROR_OF_MEAN|6.678|<|0.001|TWO_SIDED|95.0|-87.147|-60.612|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-60.612|-87.147|<0.001
82635690|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-95.428|STANDARD_ERROR_OF_MEAN|6.697||0.001|TWO_SIDED|95.0|-108.732|-82.124|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-82.124|-108.732|0.001
82635691|NCT02055976|164986427|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-104.859|STANDARD_ERROR_OF_MEAN|6.654|<|0.001|TWO_SIDED|95.0|-118.079|-91.639|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-91.639|-118.079|<0.001
82570424|NCT00858247|164851205|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANCOVA|||||||0.40
82635692|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.642|STANDARD_ERROR_OF_MEAN|2.717|<|0.001|TWO_SIDED|95.0|-37.039|-26.246|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.246|-37.039|<0.001
82635693|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.88|STANDARD_ERROR_OF_MEAN|2.781|<|0.001|TWO_SIDED|95.0|-45.403|-34.358|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.358|-45.403|<0.001
82635694|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.889|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-51.45|-40.329|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-40.329|-51.450|<0.001
82442302|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|0.13|||||TWO_SIDED|95.0|-0.12|0.38|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 281||0.38|-0.12|
82515825|NCT00360334|164723710|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Mixed Model Repeated Measures|||||||0.014
82515826|NCT00360334|164723711|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Mixed Model Repeated Measures|||||||0.100
82515827|NCT00360334|164723712|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||ANCOVA|||||||0.125
82515828|NCT00360334|164723713|SUPERIORITY_OR_OTHER|||||||0.471||95.0|||||ANCOVA|||||||0.471
82515829|NCT00360334|164723714|SUPERIORITY_OR_OTHER|||||||0.601||95.0|||||ANCOVA|||||||0.601
82515830|NCT00360334|164723715|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||||||0.650
82515831|NCT00360334|164723716|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||ANCOVA|||||||0.017
82515832|NCT00360334|164723717|SUPERIORITY_OR_OTHER|||||||0.667||95.0|||||ANCOVA|||||||0.667
82515833|NCT00360334|164723718|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.675||||0.139||95.0|0.401|1.136|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||1.136|0.401|0.139
82515834|NCT00360334|164723719|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.317||||0.001||95.0|0.159|0.63|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||0.630|0.159|0.001
82515835|NCT00360334|164723720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.797||||0.716||95.0|0.235|2.705|||Regression, Logistic|||Odds Ratio (OR) = odds of a patient in the exenatide arm achieving the secondary outcome divided by the odds of a patient in the insulin glargine arm achieving the secondary outcome||2.705|0.235|0.716
82515836|NCT00360334|164723721|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||ANCOVA on ranks|||||||0.113
82515837|NCT00360334|164723722|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA on ranks|||||||<0.001
82515838|NCT00360334|164723723|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANCOVA on ranks|||||||0.740
82515839|NCT04028388|164723738|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.1465|TWO_SIDED|95.0|0.56|2.65|||Wilcoxon (Mann-Whitney)|||||2.65|0.56|0.1465
82515840|NCT04028388|164723742|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.4576|TWO_SIDED|95.0|0.39|7.93|||Log Rank|||DOR is calculated in the subpopulation of subjects experiencing a response (CR or PR). Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome.||7.93|0.39|0.4576
82570425|NCT00858247|164851206|SUPERIORITY_OR_OTHER|||||||0.47|||||||ANCOVA|||||||0.47
82515841|NCT04028388|164723743|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.0776|TWO_SIDED|95.0|0.65|3.48|||Wilcoxon (Mann-Whitney)|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome"||3.48|0.65|0.0776
82515842|NCT04028388|164723745|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.2539|TWO_SIDED|95.0|0.79|2.49|||Log Rank|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome."||2.49|0.79|0.2539
82515843|NCT04028388|164723746|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.3062|TWO_SIDED|95.0|0.76|2.42|||Wilcoxon (Mann-Whitney)|||"Difference between the cohorts is tested with Log-rank test and estimated using Univariate Cox model.~Wilcoxon test is used if proportional hazards assumption is not fulfilled. Hazard Ratio \< 1 means that tested drug (ModraDoc006/r) has better outcome."||2.42|0.76|0.3062
82515844|NCT02199691|164723752|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|9.2|||||TWO_SIDED|95.0|3.4|15.0||||||Serogroup A||15|3.4|
82515845|NCT02199691|164723752|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|24.6|||||TWO_SIDED|95.0|20.3|29.0||||||Serogroup C||29|20.3|
82570426|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.09|||||TWO_SIDED|95.0|0.89|1.33||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-1 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.33|0.89|
82570427|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.92|||||TWO_SIDED|95.0|0.75|1.12||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-4 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.12|0.75|
82442303|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.03|||||TWO_SIDED|95.0|-0.27|0.22|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 309||0.22|-0.27|
82515846|NCT02199691|164723752|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|16.2|||||TWO_SIDED|95.0|12.3|20.2||||||||20.2|12.3|
82515847|NCT02199691|164723752|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|19.6|||||TWO_SIDED|95.0|14.2|24.8||||||Serogroup W||24.8|14.2|
82635695|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.137|STANDARD_ERROR_OF_MEAN|3.006|<|0.001|TWO_SIDED|95.0|-36.11|-24.164|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-24.164|-36.110|<0.001
82515848|NCT02199691|164723753|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|5.0|||||TWO_SIDED|95.0|-0.8|10.5||||||Serogroup A||10.5|-0.8|
82515849|NCT02199691|164723753|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.5|2.4||||||Serogroup C||2.4|-2.5|
82515850|NCT02199691|164723753|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-4.3|1.2||||||Serogroup Y||1.2|-4.3|
82515851|NCT02199691|164723753|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-7.3|2.6||||||Serogroup W||2.6|-7.3|
82515852|NCT02199691|164723754|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.845|||||TWO_SIDED|95.0|0.722|0.99||||||PT: Geometric Mean Ratio||0.99|0.722|
82515853|NCT02199691|164723754|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.746|||||TWO_SIDED|95.0|0.661|0.842||||||FHA: Geometric Mean Ratio||0.842|0.661|
82515854|NCT02199691|164723754|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.753|||||TWO_SIDED|95.0|0.627|0.903||||||PRN: Geometric Mean Ratio||0.903|0.627|
82515855|NCT02199691|164723754|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio was \>2/3.|Geometric Mean Ratio|0.679|||||TWO_SIDED|95.0|0.525|0.878||||||FIM: Geometric Mean Ratio||0.878|0.525|
82515856|NCT02199691|164723755|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|-1.1|||||TWO_SIDED|95.0|-3.3|1.3||||||Serogroup Diphtheria||1.3|-3.3|
82515857|NCT02199691|164723755|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.1|||||TWO_SIDED|95.0|-1.2|1.9||||||Serogroup Tetanus||1.9|-1.2|
82515858|NCT02199691|164723756|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-1.8|6.3||||||HPV Type 6||6.3|-1.8|
82515859|NCT02199691|164723756|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.8|||||TWO_SIDED|95.0|-1.3|3.9||||||HPV Type 11||3.9|-1.3|
82570428|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.03|||||TWO_SIDED|95.0|0.85|1.26||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-5 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.26|0.85|
82570429|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.12|||||TWO_SIDED|95.0|0.78|1.61||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-6B serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.61|0.78|
82515860|NCT02199691|164723756|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.4|||||TWO_SIDED|95.0|-1.9|3.6||||||HPV Type 16||3.6|-1.9|
82635696|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.525|STANDARD_ERROR_OF_MEAN|3.018|<|0.001|TWO_SIDED|95.0|-45.52|-33.531|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.531|-45.520|<0.001
82515861|NCT02199691|164723756|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|0.4|||||TWO_SIDED|95.0|-1.9|3.6||||||HPV Type 18||3.6|-1.9|
82515862|NCT03117387|164723812|OTHER|Bland-Altman analysis estimates bias between TOF-Cuff and electromyography.|bias|0.0|||||TWO_SIDED|0.05|-0.05|0.05||||||"Paired measurements were compared using a Bland-Altman analysis modified for repeated measurements (http://sec.lumc.nl/method\_agreement\_analysis, Leiden, the Netherlands).~This Bland-Altman analysis corrects for between subject variability of repeated paired measurements in individual subjects."||0.05|-0.05|
82515863|NCT03403634|164723813|SUPERIORITY|||||||0.046||||||significance level = 0.05|t-test, 1 sided|df = 11. one-sided as post treatment increases were of interest. the fold changes were log-transformed prior to inferences.||||||0.046
82515864|NCT00822510|164723859|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<.05
82515865|NCT00822510|164723861|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|0.79|||||ANOVA|||||||.79
82515866|NCT00822510|164723862|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|0.001|||||ANOVA|||||||.001
82515867|NCT00822510|164723863|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|0.001|||||ANOVA|||||||.001
82515868|NCT00822510|164723864|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|0.71|||||ANOVA|||||||.71
82515869|NCT00822510|164723865|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|0.01|||||ANOVA|||||||.01
82515870|NCT03320070|164723866|SUPERIORITY|||||||0.5076|||||||Chi-squared|||||||0.5076
82515871|NCT03320070|164723868|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
82515872|NCT03320070|164723870|SUPERIORITY|||||||0.0848|||||||Chi-squared|||||||0.0848
82515873|NCT03320070|164723872|SUPERIORITY|||||||0.2005|||||||Chi-squared|||||||0.2005
82515874|NCT03320070|164723874|SUPERIORITY|||||||0.9416|||||||Chi-squared|||||||0.9416
82515875|NCT03320070|164723876|SUPERIORITY|||||||0.1853|||||||Chi-squared|||||||0.1853
82515876|NCT00562159|164723912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|||=|0.005|TWO_SIDED|95.0|-2.22|-0.4|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.40|-2.22|=0.005
82515877|NCT00562159|164723913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||=|0.015|TWO_SIDED|95.0|-1.46|-0.26|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.26|-1.46|=0.015
82382098|NCT03349060|164474802|SUPERIORITY||Difference in Percentage|53.5|||<|0.0001|TWO_SIDED|95.0|42.0|65.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||65.0|42.0|<0.0001
82382099|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|0.6||||0.7285|TWO_SIDED|95.0|-3.9|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-3.9|0.7285
82515878|NCT00562159|164723914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||=|0.084|TWO_SIDED|95.0|-0.96|0.06|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||0.06|-0.96|=0.084
82515879|NCT00562159|164723915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||=|0.022|TWO_SIDED|95.0|-0.48|-0.05|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.05|-0.48|=0.022
82515880|NCT02753751|164724054|SUPERIORITY|The Mantel-Haenszel test was used, accounting for each hospital as an individual stratum, and to obtain the pooled relative risks across hospitals without adjusting for other baseline factors. (Alert arm is the numerator, control arm is the denominator.) Patients discharged prior to 14 days without an outcome of interest were assumed to be free of that outcome at 14 days. A p-value of \<=0.04 was considered statistically significant to account for the interim analysis.|Risk Ratio (RR)|1.02||||0.67|TWO_SIDED|95.0|0.93|1.13||A p-value of \<=0.04 was considered statistically significant to account for the interim analysis.|Cochran-Mantel-Haenszel|||In our retrospective analysis of patients with AKI at 3 potential study hospitals, the composite outcome was 24.5%. A clinically meaningful relative reduction in this risk would be 20%. 5,024 patients (2,512 in each group) would have 90% power to detect a difference in outcome at least this extreme at a two-sided alpha of 0.05 as calculated using the Cochran-Mantel-Haenszel test. We have elected to increase this number by 20% to account for potential contamination.||1.13|0.93|0.67
82515881|NCT02334800|164724084|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|73.6|||||TWO_SIDED|90.0|57.81|93.71||||||||93.71|57.81|
82515882|NCT02334800|164724084|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|115.3|||||TWO_SIDED|90.0|90.57|146.79||||||||146.79|90.57|
82382100|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|4.0||||0.1448|TWO_SIDED|95.0|-1.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-1.2|0.1448
82515883|NCT02334800|164724084|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|133.68|||||TWO_SIDED|90.0|105.0|170.19||||||||170.19|105.00|
82382101|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|3.9||||0.2576|TWO_SIDED|95.0|-2.6|10.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.5|-2.6|0.2576
82382102|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|20.4||||0.0001|TWO_SIDED|95.0|12.0|28.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.9|12.0|0.0001
82570430|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.05|||||TWO_SIDED|95.0|0.88|1.25||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-7F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.25|0.88|
82515884|NCT02334800|164724085|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|94.99|||||TWO_SIDED|90.0|69.93|129.03||||||||129.03|69.93|
82515885|NCT02334800|164724085|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|117.75|||||TWO_SIDED|90.0|86.69|159.95||||||||159.95|86.69|
82515886|NCT02334800|164724085|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|129.89|||||TWO_SIDED|90.0|95.63|176.43||||||||176.43|95.63|
82515887|NCT02334800|164724086|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|83.01|||||TWO_SIDED|90.0|65.37|105.43||||||||105.43|65.37|
82515888|NCT02334800|164724086|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.28|||||TWO_SIDED|90.0|105.73|170.53||||||||170.53|105.73|
82515889|NCT02334800|164724086|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|176.88|||||TWO_SIDED|90.0|139.28|224.63||||||||224.63|139.28|
82515890|NCT02334800|164724087|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|72.81|||||TWO_SIDED|90.0|56.43|93.93||||||||93.93|56.43|
82515891|NCT02334800|164724087|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|115.57|||||TWO_SIDED|90.0|89.58|149.11||||||||149.11|89.58|
82515892|NCT02334800|164724087|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.66|||||TWO_SIDED|90.0|104.38|173.73||||||||173.73|104.38|
82515893|NCT02334800|164724088|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|82.14|||||TWO_SIDED|90.0|63.83|105.71||||||||105.71|63.83|
82515894|NCT02334800|164724088|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|134.9|||||TWO_SIDED|90.0|104.82|173.6||||||||173.60|104.82|
82515895|NCT02334800|164724088|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|178.39|||||TWO_SIDED|90.0|138.62|229.57||||||||229.57|138.62|
82515896|NCT02334800|164724091|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|107.37|||||TWO_SIDED|90.0|78.06|147.68||||||||147.68|78.06|
82515897|NCT02334800|164724091|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|137.5|||||TWO_SIDED|90.0|99.96|189.12||||||||189.12|99.96|
82515898|NCT02334800|164724091|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|172.27|||||TWO_SIDED|90.0|125.25|236.96||||||||236.96|125.25|
82515899|NCT02703844|164724115|SUPERIORITY|||||||0.0089|||||||ANCOVA|||||||0.0089
82515900|NCT00801684|164724129|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The difference between the active treatment was compared to placebo. For a null hypothesis, the difference would equal 0 (zero).||||<0.0001
82515901|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.132|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.132
82515902|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.658|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.658
82515903|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.142|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.142
82515904|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.207|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.207
82515905|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.077|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of combined patidegib gel 2% once daily and twice daily compared with vehicle gel at Week 12.||||0.077
82515906|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.331|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of combined patidegib gel 4% once daily and twice daily compared with vehicle gel at Week 12.||||0.331
82515907|NCT02828111|164724133|OTHER|Pairwise comparison||||||0.117|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||This is the analysis of all four patidegib gel treatment groups combined compared with vehicle gel at Week 12.||||0.117
82515908|NCT02828111|164724137|OTHER|Pairwise comparison||||||0.038|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.038
82515909|NCT02828111|164724137|OTHER|Pairwise comparison||||||0.099|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.099
82515910|NCT02828111|164724137|OTHER|Pairwise comparison||||||0.198|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.198
82515911|NCT02828111|164724137|OTHER|Pairwise comparison||||||0.757|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 12||||0.757
82515912|NCT02828111|164724138|OTHER|Pairwise comparison||||||0.043|||||||Fisher Exact|||at Week 12||||0.043
82515913|NCT02828111|164724138|OTHER|Pairwise comparison||||||0.312|||||||Fisher Exact|||at Week 12||||0.312
82515914|NCT02828111|164724138|OTHER|Pairwise comparison||||||0.353|||||||Fisher Exact|||at Week 12||||0.353
82515915|NCT02828111|164724138|OTHER|Pairwise comparison||||||0.093|||||||Fisher Exact|||This is the analysis of combined patidegib gel 2% once daily and twice daily compared with vehicle gel at Week 12.||||0.093
82515916|NCT02828111|164724138|OTHER|Pairwise comparison||||||1|||||||Fisher Exact|||This is the analysis of combined patidegib gel 4% once daily and twice daily compared with vehicle gel at Week 12.||||1.000
82515917|NCT02828111|164724138|OTHER|Pairwise comparison||||||0.157|||||||Fisher Exact|||This is the analysis of all four patidegib gel treatment groups combined compared with combined vehicle gel at Week 12.||||0.157
82635697|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.372|STANDARD_ERROR_OF_MEAN|2.983|<|0.001|TWO_SIDED|95.0|-47.299|-35.445|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.445|-47.299|<0.001
82442304|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.03|||||TWO_SIDED|95.0|-0.37|0.31|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 337||0.31|-0.37|
82515918|NCT00614939|164724140|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.151||0.007|TWO_SIDED|95.0|-0.71|-0.12|||ANCOVA|\*Adjusted for baseline HbA1c||||-0.12|-0.71|0.007
82570431|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.88|||||TWO_SIDED|95.0|0.69|1.13||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-9V serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.13|0.69|
82515919|NCT00614939|164724141|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.34|STANDARD_ERROR_OF_MEAN|12.847||0.339||95.0|-37.91|13.22|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||13.22|-37.91|0.339
82515920|NCT00614939|164724142|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.36|STANDARD_ERROR_OF_MEAN|16.938||0.798|TWO_SIDED|95.0|-38.65|29.93|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||29.93|-38.65|0.798
82515921|NCT00614939|164724143|SUPERIORITY_OR_OTHER||Mean Difference (Net)|44.01|STANDARD_ERROR_OF_MEAN|30.815||0.164|TWO_SIDED|95.0|-18.93|106.94|||ANCOVA|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||106.94|-18.93|0.164
82515922|NCT00614939|164724144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.713|||TWO_SIDED|95.0|-2.1|0.74|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||0.74|-2.10|
82515923|NCT00614939|164724145|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.941|||TWO_SIDED|95.0|-2.14|1.67|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.67|-2.14|
82515924|NCT00614939|164724146|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|95.0|-1.05|5.93|||Footnote|\*Adjusted for baseline FPG||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||5.93|-1.05|
82515925|NCT00614939|164724147|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.82|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|-1.27|-0.37|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=26 for saxagliptin and n=34 for placebo~\*Adjusted for baseline HbA1c"||||-0.37|-1.27|
82382103|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|9.0||||0.0423|TWO_SIDED|95.0|1.3|16.8|||Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.8|1.3|0.0423
82515926|NCT00614939|164724148|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.98|STANDARD_ERROR_OF_MEAN|18.475|||TWO_SIDED|95.0|-54.28|18.33|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=17 for saxagliptin and n=16 for placebo~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||18.33|-54.28|
82635698|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.374|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|-30.717|-20.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-20.032|-30.717|<0.001
82635699|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.49|STANDARD_ERROR_OF_MEAN|2.741|<|0.001|TWO_SIDED|95.0|-38.934|-28.047|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-28.047|-38.934|<0.001
82635700|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-38.76|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-44.262|-33.258|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.258|-44.262|<0.001
82635701|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.847|STANDARD_ERROR_OF_MEAN|2.879|<|0.001|TWO_SIDED|95.0|-36.568|-25.127|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-25.127|-36.568|<0.001
82635702|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.019|STANDARD_ERROR_OF_MEAN|2.887|<|0.001|TWO_SIDED|95.0|-45.754|-34.285|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.285|-45.754|<0.001
82382104|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|28.0|||<|0.0001|TWO_SIDED|95.0|18.7|37.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.2|18.7|<0.0001
82382105|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|13.3||||0.0066|TWO_SIDED|95.0|5.4|21.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.2|5.4|0.0066
82515927|NCT00614939|164724149|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.73|STANDARD_ERROR_OF_MEAN|25.326|||TWO_SIDED|95.0|-65.77|34.3|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=5 for saxagliptin and n=11 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||34.30|-65.77|
82635703|NCT02055976|164986428|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.947|STANDARD_ERROR_OF_MEAN|2.869|<|0.001|TWO_SIDED|95.0|-49.647|-38.247|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-38.247|-49.647|<0.001
82382106|NCT03349060|164474803|SUPERIORITY||Difference in Percentage|33.4|||<|0.0001|TWO_SIDED|95.0|24.3|42.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.5|24.3|<0.0001
82382107|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
82382108|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.8|-3.8|
82382109|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.9|3.9||P-value could not be calculated since percentage of participants with events was 0.||||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.9|-3.9|
82382110|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|6.5||||0.0234|TWO_SIDED|95.0|1.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|1.3|0.0234
82382111|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|4.6||||0.0604|TWO_SIDED|95.0|-0.3|9.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.5|-0.3|0.0604
82382112|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|11.7||||0.0022|TWO_SIDED|95.0|5.5|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|5.5|0.0022
82382113|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|6.4||||0.0255|TWO_SIDED|95.0|1.2|11.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.6|1.2|0.0255
82382114|NCT03349060|164474804|SUPERIORITY||Difference in Percentage|13.1||||0.001|TWO_SIDED|95.0|6.7|19.4|||Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.7|0.0010
82515928|NCT00614939|164724150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-38.09|STANDARD_ERROR_OF_MEAN|53.822|||TWO_SIDED|95.0|-144.44|68.26|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=2 for saxagliptin and n=5 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||68.26|-144.44|
82515929|NCT00614939|164724151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|1.027|||TWO_SIDED|95.0|-2.99|1.04|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=17 for saxagliptin and n=16 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.04|-2.99|
82382115|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-5.8|||<|0.0001|TWO_SIDED|95.0|-8.2|-3.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.3|-8.2|<0.0001
82515930|NCT00614939|164724152|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|1.405|||TWO_SIDED|95.0|-3.66|1.89|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=5 for saxagliptin and n=11 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||1.89|-3.66|
82515931|NCT00614939|164724153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.14|STANDARD_ERROR_OF_MEAN|2.985|||TWO_SIDED|95.0|-8.04|3.76|||Repeated Measures|"Number of subjects with observed values at Week 52 was n=2 for saxagliptin and n=5 for placebo.~\*Adjusted for baseline FPG"||"Additional details about the analysis, such as null hypothesis and power calculation:~Due to a statistically significant treatment-by-baseline renal impairment interaction, fasting plasma glucose results were analyzed separately for each baseline renal impairment category."||3.76|-8.04|
82570432|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.98|||||TWO_SIDED|95.0|0.73|1.31||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-14 serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.31|0.73|
82570433|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.08|||||TWO_SIDED|95.0|0.86|1.37||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-18C serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.37|0.86|
82570434|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|0.99|||||TWO_SIDED|95.0|0.78|1.25||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-19F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.25|0.78|
82382116|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-10.6|||<|0.0001|TWO_SIDED|95.0|-13.0|-8.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-8.1|-13.0|<0.0001
82515932|NCT02660944|164724187|SUPERIORITY|Two-sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|0.37||||0.845|TWO_SIDED|95.0|-3.42|4.15|||t-test, 2 sided|||Change from baseline at Day 85 RSLV-132 versus placebo||4.15|-3.42|0.845
82382117|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-7.9|||<|0.0001|TWO_SIDED|95.0|-10.7|-5.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.0|-10.7|<0.0001
82515933|NCT02660944|164724187|SUPERIORITY|Two-sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|-0.48||||0.818|TWO_SIDED|95.0|-4.66|3.7|||t-test, 2 sided|||Change from baseline at Day 169 RSLV-132 versus placebo||3.70|-4.66|0.818
82515934|NCT03586999|164724200|SUPERIORITY||proportion|0.3||||0.1|TWO_SIDED|90.0||||The proportion achieving a complete response will be calculated and will compared to null proportion of 30%. The population proportion for complete response rate, p-value and 90% confidence intervals for the complete response rate will be calculated.|t-test, 2 sided|||The study was to be suspended, if, at any time, there was sufficient evidence to suggest that the true probability of achieving a complete response falls below 30% while assuming the treatment drug will elicit a 56% complete response rate. Statistically significant evidence for this low complete response rate is defined as an observed complete response rate whose upper one-sided 90% confidence limit is 0-30%. Sample size calculations were made assuming 80% power.||||.1
82382118|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-12.7|||<|0.0001|TWO_SIDED|95.0|-15.6|-9.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.9|-15.6|<0.0001
82382119|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.6|-5.5|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.5|-11.6|<0.0001
82515935|NCT04096560|164724210|SUPERIORITY||LS Mean Difference|26.4|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|20.07|32.73||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||32.73|20.07|<0.001
82635704|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.118|STANDARD_ERROR_OF_MEAN|3.344|<|0.001|TWO_SIDED|95.0|-47.76|-34.476|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-34.476|-47.760|<0.001
82382120|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-13.5|||<|0.0001|TWO_SIDED|95.0|-16.5|-10.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.4|-16.5|<0.0001
82382121|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-8.3|||<|0.0001|TWO_SIDED|95.0|-11.6|-5.1|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.1|-11.6|<0.0001
82382122|NCT03349060|164474805|SUPERIORITY||Difference in LS mean|-14.0|||<|0.0001|TWO_SIDED|95.0|-17.3|-10.8|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.8|-17.3|<0.0001
82515936|NCT04096560|164724210|SUPERIORITY||LS Mean Difference|29.9|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|23.68|36.07||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||36.07|23.68|<0.001
82515937|NCT04096560|164724210|SUPERIORITY||LS Mean Difference|35.0|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|28.73|41.34||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||41.34|28.73|<0.001
82515938|NCT04096560|164724217|SUPERIORITY||LS Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-14.07|-6.16||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-6.16|-14.07|<0.001
82570435|NCT02447432|164851221|NON_INFERIORITY|GMCs ratio and its 95 % CI were obtained using an ANOVA model on the logarithm-10 transformed concentrations-pooled variance.|GMCs ratio|1.28|||||TWO_SIDED|95.0|0.92|1.8||||||(Synflorix/10Pn\_4d) antibody GMCs ratio for ANTI-23F serotype: to demonstrate non-inferiority of 10Pn-PD-DiT vaccine (4-dose presentation) as compared to 10Pn-PD-DiT vaccine (1-dose presentation) in terms of immune response, 1 month after dose 3. Criterion: the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean antibody concentration (GMC) ratios (Synflorix/10Pn\_4d) should be below a limit of 2-fold for each of the 10 serotypes.||1.80|0.92|
82515939|NCT04096560|164724217|SUPERIORITY||LS Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED|95.0|-15.2|-7.56||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-7.56|-15.20|<0.001
82515940|NCT04096560|164724217|SUPERIORITY||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-16.96|-9.09||The analysis used a linear MMRM with fixed effects for baseline (Day -1 mean values), treatment, visit, and treatment-by-visit interaction. Visit was repeated factor in the model.|MMRM|The unstructured covariance structure was used for the repeated statement.||||-9.09|-16.96|<0.001
82382123|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-7.8||||0.0004|TWO_SIDED|95.0|-12.1|-3.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.5|-12.1|0.0004
82570436|NCT00014222|164851241|SUPERIORITY|||||||0.0007|||||||Log Rank|||||||0.0007
82570437|NCT00014222|164851242|SUPERIORITY|||||||0.084|||||||Log Rank|||||||0.084
82570438|NCT03398421|164851243|SUPERIORITY||Ratio of adjusted geometric mean|2.005|||||TWO_SIDED|90.0|1.807|2.224||||||||2.224|1.807|
82570439|NCT03398421|164851250|SUPERIORITY||Ratio of adjusted geometric mean|0.802|||||TWO_SIDED|90.0|0.69|0.933||||||||0.933|0.690|
82570440|NCT00874497|164851300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0824||||0.1761|TWO_SIDED|95.0|-0.0378|0.2025||P-values are based on Analysis of Covariance (ANCOVA) model of the change FEV1 from baseline to the specified study week using treatment group and current smoking status as fixed effects and the baseline FEV1 value as a covariate.|ANCOVA|||Statistical analysis at Week 104.||0.2025|-0.0378|0.1761
82570441|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.904||||0.139|TWO_SIDED|95.0|-6.77|0.97|||ANCOVA|||Statistical analysis of Right Upper region of the lung at Week 104.||0.97|-6.77|0.139
82570442|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.46|TWO_SIDED|95.0|-4.46|2.04|||ANCOVA|||Statistical analysis of Right Middle region of the Lung at Week 104.||2.04|-4.46|0.460
82570443|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.176||||0.457|TWO_SIDED|95.0|-7.98|3.63|||ANCOVA|||Statistical analysis of Right Lower region of the Lung at Week 104.||3.63|-7.98|0.457
82515941|NCT04096560|164724218|SUPERIORITY||IRR|0.05|||=|0.002|TWO_SIDED|95.0|0.007|0.317||The incidence rate was the exponentiated LS means and the incidence rate ratio (IRR) was the exponentiated LS mean differences from the generalized estimating equation (GEE) Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.317|0.007|=0.002
82442305|NCT00989235|164593126|SUPERIORITY_OR_OTHER||Adjusted Difference|0.23|||||TWO_SIDED|95.0|-0.09|0.55|||ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.|Change from Baseline = Post-baseline - Baseline value.|Day 365||0.55|-0.09|
82515942|NCT04096560|164724218|SUPERIORITY||IRR|0.2|||=|0.019|TWO_SIDED|95.0|0.05|0.767||The incidence rate was the exponentiated LS means and the IRR was the exponentiated LS mean differences from the GEE Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.767|0.050|=0.019
82515943|NCT04096560|164724218|SUPERIORITY||IRR|0.15|||=|0.001|TWO_SIDED|95.0|0.047|0.482||The incidence rate was the exponentiated LS means and the IRR was the exponentiated LS mean differences from the GEE Poisson regression model.|MMRM|The Poisson regression with natural log link was on the count of cataplexy per week.||||0.482|0.047|=0.001
82515944|NCT01343407|164724226|OTHER||Difference in Least Squares Means (LSM)|-22.2||||0.011|TWO_SIDED|90.0|-35.7|-8.7|||Linear mixed effects model|||||-8.7|-35.7|0.011
82515945|NCT01343407|164724226|OTHER||Difference in LSM|-18.9||||0.023|TWO_SIDED|90.0|-32.1|-5.8|||Linear mixed effects model|||||-5.8|-32.1|0.023
82635705|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.787|STANDARD_ERROR_OF_MEAN|3.402|<|0.001|TWO_SIDED|95.0|-61.543|-48.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.032|-61.543|<0.001
82382124|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-14.8|||<|0.0001|TWO_SIDED|95.0|-19.0|-10.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-10.5|-19.0|<0.0001
82382125|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-11.7|||<|0.0001|TWO_SIDED|95.0|-16.6|-6.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-6.9|-16.6|<0.0001
82442306|NCT00989235|164593127|SUPERIORITY_OR_OTHER||estimate of difference|0.4|||||TWO_SIDED|95.0|-17.2|18.0|||normal approximation|For 95% CI: normal approximation with continuity correction.||||18.0|-17.2|
82515946|NCT01343407|164724227|OTHER||LS Mean Ratio (LSMR)|0.48||||0.006|TWO_SIDED|90.0|0.32|0.72|||Linear mixed effects model||||% Inhibition: 52.2 (90% CI: 28.3, 68.2). The % Inhibition of FEV1\*hr (reduction of the allergen-induced LAR) for MK-1029 vs Placebo was calculated as 100\*(1-LSMR).|0.72|0.32|0.006
82570444|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.167||||0.362|TWO_SIDED|95.0|-6.88|2.54|||ANCOVA|||Statistical analysis of Left Upper region of the Lung at Week 104.||2.54|-6.88|0.362
82515947|NCT01343407|164724227|OTHER||LS Mean Ratio (LSMR)|0.58||||0.012|TWO_SIDED|90.0|0.41|0.81|||Linear mixed effects model||||% Inhibition: 42.4 (90% CI: 19.3, 58.8) The % Inhibition of FEV1\*hr (reduction of the allergen-induced LAR) for MK-1029 vs Placebo was calculated as 100\*(1-LSMR).|0.81|0.41|0.012
82570445|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.225||||0.67|TWO_SIDED|95.0|-6.94|4.48|||ANCOVA|||Statistical analysis of Left Lower region of the Lung at Week 104.||4.48|-6.94|0.670
82635706|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-60.549|STANDARD_ERROR_OF_MEAN|3.453|<|0.001|TWO_SIDED|95.0|-67.403|-53.694|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-53.694|-67.403|<0.001
82382126|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-18.5|||<|0.0001|TWO_SIDED|95.0|-23.4|-13.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-13.6|-23.4|<0.0001
82382127|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.7|-9.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.0|-19.7|<0.0001
82635707|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.589|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-43.999|-29.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-29.178|-43.999|<0.001
82382128|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-22.6|||<|0.0001|TWO_SIDED|95.0|-28.0|-17.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.3|-28.0|<0.0001
82382129|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-13.8|||<|0.0001|TWO_SIDED|95.0|-19.3|-8.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-8.2|-19.3|<0.0001
82382130|NCT03349060|164474806|SUPERIORITY||Difference in LS mean|-22.0|||<|0.0001|TWO_SIDED|95.0|-27.6|-16.5|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.5|-27.6|<0.0001
82382131|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|1.3||||0.521|TWO_SIDED|95.0|-3.4|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-3.4|0.5210
82382132|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|4.0||||0.1416|TWO_SIDED|95.0|-1.3|9.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.3|-1.3|0.1416
82570446|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.218||||0.244|TWO_SIDED|95.0|-5.98|1.55|||ANCOVA|||Statistical analysis of Right Whole region of the Lung at Week 104.||1.55|-5.98|0.244
82382133|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|4.6||||0.2002|TWO_SIDED|95.0|-2.1|11.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.2|-2.1|0.2002
82442307|NCT00989235|164593128|SUPERIORITY_OR_OTHER||estimate of difference|-8.6|||||TWO_SIDED|95.0|-20.3|3.2|||normal approximation|For 95% CI: normal approximation with continuity correction.||||3.2|-20.3|
82570447|NCT00874497|164851301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.374||||0.574|TWO_SIDED|95.0|-6.23|3.48|||ANCOVA|||Statistical analysis of Left Whole region of the Lung at Week 104.||3.48|-6.23|0.574
82515948|NCT01343407|164724228|OTHER||LSM Difference|85.84|||<|0.001|TWO_SIDED|90.0|65.3|106.4|||Linear mixed effects model||Full inhibition is ≥74% inhibition of blood eosinophil CD11b expression at trough|||106.4|65.3|<0.001
82515949|NCT01343407|164724228|OTHER||LSM Difference|83.29|||<|0.001|TWO_SIDED|90.0|63.9|102.7|||Linear mixed effects model||Full inhibition is ≥74% inhibition of blood eosinophil CD11b expression at trough|||102.7|63.9|<0.001
82382134|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|23.6|||<|0.0001|TWO_SIDED|95.0|15.1|32.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.2|15.1|<0.0001
82382135|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|9.6||||0.0434|TWO_SIDED|95.0|1.3|17.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.9|1.3|0.0434
82515950|NCT04079933|164724256|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL|Mean Difference (Net)|-12.6||||0.2347|TWO_SIDED|95.0|-33.5|8.27|||t-test, 2 sided||"Difference in Least Square (LS) means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL||8.27|-33.5|0.2347
82515951|NCT04079933|164724256|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL|Mean Difference (Net)|-11.9||||0.2905|TWO_SIDED|95.0|-33.9|10.2|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline in urinary total NNAL||10.2|-33.9|0.2905
82515952|NCT04079933|164724257|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study in urinary total NNAL|Mean Difference (Net)|-3.72||||0.9433|TWO_SIDED|95.0|-107.0|99.4|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study in urinary total NNAL||99.4|-107|0.9433
82523226|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|0.39|STANDARD_ERROR_OF_MEAN|0.743||0.6015|TWO_SIDED|80.0|-0.57|1.35||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.35|-0.57|0.6015
82570448|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97||||0.436|TWO_SIDED|95.0|-1.53|3.47|||ANCOVA|||Statistical analysis of Right Upper region of the Lung at Week 104.||3.47|-1.53|0.436
82570449|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31||||0.067|TWO_SIDED|95.0|-0.17|4.79|||ANCOVA|||Statistical analysis of Right Middle region of the Lung at Week 104.||4.79|-0.17|0.067
82523227|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|0.21|STANDARD_ERROR_OF_MEAN|0.761||0.7787|TWO_SIDED|80.0|-0.77|1.19||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.19|-0.77|0.7787
82635708|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.683|STANDARD_ERROR_OF_MEAN|3.734|<|0.001|TWO_SIDED|95.0|-62.102|-47.265|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-47.265|-62.102|<0.001
82382136|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|26.6|||<|0.0001|TWO_SIDED|95.0|17.1|36.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.2|17.1|<0.0001
82442308|NCT00989235|164593130|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.45|1.69|||Cox proportional hazards model||Hazard ratio determined by a Cox proportional hazards model with treatment as the only covariate.|Through Month 12||1.69|0.45|
82382137|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|15.8||||0.0019|TWO_SIDED|95.0|7.5|24.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.0|7.5|0.0019
82382138|NCT03349060|164474807|SUPERIORITY||Difference in Percentage|33.3|||<|0.0001|TWO_SIDED|95.0|24.0|42.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.7|24.0|<0.0001
82382139|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|10.8||||0.0151|TWO_SIDED|95.0|3.3|18.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.3|3.3|0.0151
82382140|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|30.0|||<|0.0001|TWO_SIDED|95.0|21.0|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|21.0|<0.0001
82382141|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|21.2||||0.001|TWO_SIDED|95.0|10.2|32.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.3|10.2|0.0010
82382142|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|37.9|||<|0.0001|TWO_SIDED|95.0|26.6|49.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.3|26.6|<0.0001
82382143|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|23.5||||0.0003|TWO_SIDED|95.0|12.6|34.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.3|12.6|0.0003
82515953|NCT04079933|164724257|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in urinary total NNAL|Mean Difference (Net)|-12.2||||0.8264|TWO_SIDED|95.0|-122.0|97.5|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in urinary total NNAL; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in urinary total NNAL||97.5|-122|0.8264
82382144|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|41.7|||<|0.0001|TWO_SIDED|95.0|30.7|52.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||52.7|30.7|<0.0001
82570450|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97||||0.163|TWO_SIDED|95.0|-0.83|4.77|||ANCOVA|||Statistical analysis of Right Lower region of the Lung at Week 104.||4.77|-0.83|0.163
82382145|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|19.6||||0.0026|TWO_SIDED|95.0|8.1|31.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.1|8.1|0.0026
82442309|NCT00989235|164593131|SUPERIORITY_OR_OTHER||estimate of difference|-1.1|||||TWO_SIDED|95.0|-12.9|10.7|||normal approximation|For 95% CI: normal approximation with continuity correction.||||10.7|-12.9|
82570451|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27||||0.102|TWO_SIDED|95.0|-0.48|5.02|||ANCOVA|||Statistical analysis of Left Upper region of the Lung at Week 104.||5.02|-0.48|0.102
82515954|NCT04079933|164724258|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents|Mean Difference (Net)|-1.13||||0.4903|TWO_SIDED|95.0|-4.35|2.1|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents||2.10|-4.35|0.4903
82515955|NCT04079933|164724258|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents|Mean Difference (Net)|-1.4||||0.4251|TWO_SIDED|95.0|-4.88|2.07|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in nicotine equivalents||2.07|-4.88|0.4251
82382146|NCT03349060|164474808|SUPERIORITY||Difference in Percentage|40.0|||<|0.0001|TWO_SIDED|95.0|28.3|51.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||51.7|28.3|<0.0001
82515956|NCT04079933|164724259|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents|Mean Difference (Net)|-9.83||||0.406|TWO_SIDED|95.0|-33.2|13.5|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents||13.5|-33.2|0.4060
82570452|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11||||0.162|TWO_SIDED|95.0|-0.89|5.12|||ANCOVA|||Statistical analysis of Left Lower region of the Lung at Week 104.||5.12|-0.89|0.162
82570453|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.16|TWO_SIDED|95.0|-0.73|4.29|||ANCOVA|||Statistical analysis of Right Whole region of the Lung at Week 104.||4.29|-0.73|0.160
82523228|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|1.63|STANDARD_ERROR_OF_MEAN|1.285||0.2068|TWO_SIDED|80.0|-0.02|3.29||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|General Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||3.29|-0.02|0.2068
82570454|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.08||||0.122|TWO_SIDED|95.0|-0.58|4.75|||ANCOVA|||Statistical analysis of Left Whole region of the Lung at Week 104.||4.75|-0.58|0.122
82570455|NCT00874497|164851303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05||||0.106|TWO_SIDED|95.0|-0.46|4.56|||ANCOVA|||Statistical analysis of Whole Lung region of the Lung at Week 104.||4.56|-0.46|0.106
82515957|NCT04079933|164724259|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents|Mean Difference (Net)|-10.3||||0.4165|TWO_SIDED|95.0|-35.4|14.7|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in nicotine equivalents; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in nicotine equivalents||14.7|-35.4|0.4165
82523229|NCT01939548|164741717|SUPERIORITY_OR_OTHER||LSM Difference|0.98|STANDARD_ERROR_OF_MEAN|1.326||0.4611|TWO_SIDED|80.0|-0.73|2.69||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|General Subscale Score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||2.69|-0.73|0.4611
82382147|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|1.3||||0.3151|TWO_SIDED|95.0|-2.9|5.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.6|-2.9|0.3151
82382148|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|6.0||||0.0292|TWO_SIDED|95.0|0.7|11.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.3|0.7|0.0292
82382149|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|-0.2||||0.9402|TWO_SIDED|95.0|-5.9|5.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.5|-5.9|0.9402
82382150|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|15.3||||0.0019|TWO_SIDED|95.0|7.3|23.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.2|7.3|0.0019
82442310|NCT00989235|164593132|SUPERIORITY_OR_OTHER||estimate of difference|-7.7|||||TWO_SIDED|95.0|-22.6|7.3|||normal approximation|95% CI: normal approximation with continuity correction.||||7.3|-22.6|
82515958|NCT04079933|164724260|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA|Mean Difference (Net)|-269.0||||0.724|TWO_SIDED|95.0|-1773.0|1235.0|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA||1235|-1773|0.7240
82523230|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|0.96|STANDARD_ERROR_OF_MEAN|0.591||0.1083|TWO_SIDED|80.0|0.19|1.72||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Anxiety/depression symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.72|0.19|0.1083
82382151|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|10.8||||0.0078|TWO_SIDED|95.0|4.2|17.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.4|4.2|0.0078
82382152|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|22.2|||<|0.0001|TWO_SIDED|95.0|14.2|30.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.1|14.2|<0.0001
82442311|NCT00989235|164593133|SUPERIORITY_OR_OTHER||estimate of difference|-10.6|||||TWO_SIDED|95.0|-31.1|10.0|||normal approximation|95% CI: normal approximation with continuity correction.||||10.0|-31.1|
82570456|NCT00874497|164851304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.423||||0.469|TWO_SIDED|95.0|-5.32|2.48|||ANCOVA|||LS Mean Difference between Tetomilast and Placebo at Week 104.||2.48|-5.32|0.469
82570457|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.519|TWO_SIDED|95.0|-4.42|2.27|||ANCOVA|||Statistical analysis of right upper region of the lung at Week 104.||2.27|-4.42|0.519
82570458|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.463|TWO_SIDED|95.0|-3.92|1.82|||ANCOVA|||Statistical analysis of right middle region of the lung at Week 104.||1.82|-3.92|0.463
82570459|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.598|TWO_SIDED|95.0|-6.74|3.94|||ANCOVA|||Statistical analysis of right lower region of the lung at Week 104.||3.94|-6.74|0.598
82382153|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|8.2||||0.0528|TWO_SIDED|95.0|1.0|15.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.3|1.0|0.0528
82382154|NCT03349060|164474809|SUPERIORITY||Difference in Percentage|26.4|||<|0.0001|TWO_SIDED|95.0|17.6|35.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.3|17.6|<0.0001
82515959|NCT04079933|164724260|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA|Mean Difference (Net)|50.5||||0.9508|TWO_SIDED|95.0|-1566.0|1667.0|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in S-PMA||1667|-1566|0.9508
82570460|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.94||||0.142|TWO_SIDED|95.0|-6.92|1.03|||ANCOVA|||Statistical analysis of left upper region of the lung at Week 104.||1.03|-6.92|0.142
82570461|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.757|TWO_SIDED|95.0|-6.26|4.59|||ANCOVA|||Statistical analysis of left lower region of the lung at Week 104.||4.59|-6.26|0.757
82442312|NCT00598078|164593199|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANOVA|||||||0.013
82570462|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||0.5|TWO_SIDED|95.0|-5.03|2.5|||ANCOVA|||Statistical analysis of right whole region of the lung at Week 104.||2.50|-5.03|0.500
82570463|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||0.353|TWO_SIDED|95.0|-6.09|2.23|||ANCOVA|||Statistical analysis of left whole region of the lung at Week 104.||2.23|-6.09|0.353
82570464|NCT00874497|164851305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.438|TWO_SIDED|95.0|-5.43|2.4|||ANCOVA|||Statistical analysis of whole region of the lung at Week 104.||2.40|-5.43|0.438
82382155|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.9|<0.0001
82382156|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-3.0|<0.0001
82442313|NCT00598078|164593199|SUPERIORITY_OR_OTHER|||||||0.713||95.0|||||ANOVA|||||||0.713
82442314|NCT00598078|164593199|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANOVA|||||||0.038
82635709|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.517|STANDARD_ERROR_OF_MEAN|3.688|<|0.001|TWO_SIDED|95.0|-63.845|-49.189|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.189|-63.845|<0.001
82635710|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.262|STANDARD_ERROR_OF_MEAN|3.196|<|0.001|TWO_SIDED|95.0|-39.608|-26.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.915|-39.608|<0.001
82515960|NCT04079933|164724261|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA|Mean Difference (Net)|-19.0||||0.1524|TWO_SIDED|95.0|-45.1|7.12|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA||7.12|-45.1|0.1524
82515961|NCT04079933|164724261|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA|Mean Difference (Net)|-12.1||||0.4014|TWO_SIDED|95.0|-40.4|16.3|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in S-PMA; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in S-PMA||16.3|-40.4|0.4014
82570465|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|351487.0||||0.22|TWO_SIDED|95.0|-219976.0|922951.0|||ANCOVA|||Statistical analysis of right upper region of the lung at Week 104.||922951|-219976|0.220
82570466|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|103036.0||||0.146|TWO_SIDED|95.0|-37651.0|243723.0|||ANCOVA|||Statistical analysis of right middle region of the lung at Week 104||243723|-37651|0.146
82635711|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.956|STANDARD_ERROR_OF_MEAN|3.239|<|0.001|TWO_SIDED|95.0|-52.388|-39.523|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.523|-52.388|<0.001
82635712|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.5|STANDARD_ERROR_OF_MEAN|3.305|<|0.001|TWO_SIDED|95.0|-58.063|-44.937|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-44.937|-58.063|<0.001
82635713|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.474|STANDARD_ERROR_OF_MEAN|3.547|<|0.001|TWO_SIDED|95.0|-47.523|-33.426|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.426|-47.523|<0.001
82515962|NCT04079933|164724262|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin|Mean Difference (Net)|-0.507||||0.0241|TWO_SIDED|95.0|-0.946|-0.0674|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin||-0.0674|-0.946|0.0241
82635714|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-54.634|STANDARD_ERROR_OF_MEAN|3.549|<|0.001|TWO_SIDED|95.0|-61.685|-47.583|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-47.583|-61.685|<0.001
82635715|NCT02055976|164986430|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.608|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-66.602|-52.614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-52.614|-66.602|<0.001
82635716|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.265|STANDARD_ERROR_OF_MEAN|3.566|<|0.001|TWO_SIDED|95.0|-50.347|-36.183|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-36.183|-50.347|<0.001
82635717|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-57.962|STANDARD_ERROR_OF_MEAN|3.628|<|0.001|TWO_SIDED|95.0|-65.167|-50.758|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.758|-65.167|<0.001
82515963|NCT04079933|164724262|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin|Mean Difference (Net)|-0.367||||0.1292|TWO_SIDED|95.0|-0.843|0.108|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in carboxyhemoglobin||0.108|-0.843|0.1292
82570467|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|247358.0||||0.322|TWO_SIDED|95.0|-252728.0|747444.0|||ANCOVA|||Statistical analysis of right lower region of the lung at Week 104||747444|-252728|0.322
82570468|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|362384.0||||0.141|TWO_SIDED|95.0|-126518.0|851286.0|||ANCOVA|||Statistical analysis of left upper region of the lung at Week 104.||851286|-126518|0.141
82635718|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.729|STANDARD_ERROR_OF_MEAN|3.682|<|0.001|TWO_SIDED|95.0|-72.039|-57.419|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.419|-72.039|<0.001
82635719|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.428|STANDARD_ERROR_OF_MEAN|3.535|<|0.001|TWO_SIDED|95.0|-43.451|-29.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-29.405|-43.451|<0.001
82635720|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-53.296|STANDARD_ERROR_OF_MEAN|3.538|<|0.001|TWO_SIDED|95.0|-60.325|-46.267|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.267|-60.325|<0.001
82635721|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.489|STANDARD_ERROR_OF_MEAN|3.496|<|0.001|TWO_SIDED|95.0|-62.436|-48.542|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.542|-62.436|<0.001
82382157|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-2.2|<0.0001
82635722|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-35.288|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-42.059|-28.516|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-28.516|-42.059|<0.001
82382158|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.4|-2.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.0|-3.4|<0.0001
82515964|NCT04079933|164724263|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin|Mean Difference (Net)|-10.0||||0.0333|TWO_SIDED|95.0|-19.2|-0.803|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin||-0.803|-19.2|0.0333
82635723|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.845|STANDARD_ERROR_OF_MEAN|3.456|<|0.001|TWO_SIDED|95.0|-55.709|-41.982|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-41.982|-55.709|<0.001
82382159|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.8|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.8|-2.3|<0.0001
82382160|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.8|-3.2|<0.0001
82523231|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|1.05|STANDARD_ERROR_OF_MEAN|0.611||0.0869|TWO_SIDED|80.0|0.27|1.84||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Anxiety/depression symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.84|0.27|0.0869
82570469|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|294202.0||||0.325|TWO_SIDED|95.0|-303329.0|891733.0|||ANCOVA|||Statistical analysis of left lower region of the lung at Week 104.||891733|-303329|0.325
82570470|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|575882.0||||0.258|TWO_SIDED|95.0|-439692.0|1591457.0|||ANCOVA|||Statistical analysis of right whole region of the lung at Week 104.||1591457|-439692|0.258
82635724|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.114|STANDARD_ERROR_OF_MEAN|3.526|<|0.001|TWO_SIDED|95.0|-62.116|-48.112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.112|-62.116|<0.001
82635725|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.045|STANDARD_ERROR_OF_MEAN|3.56|<|0.001|TWO_SIDED|95.0|-47.118|-32.971|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-32.971|-47.118|<0.001
82570471|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|589373.0||||0.247|TWO_SIDED|95.0|-426928.0|1605673.0|||ANCOVA|||Statistical analysis of left whole region of the lung at Week 104.||1605673|-426928|0.247
82570472|NCT00874497|164851306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1156318.0||||0.251|TWO_SIDED|95.0|-855009.0|3167645.0|||ANCOVA|||Statistical analysis of whole lung region of the lung at Week 104.||3167645|-855009|0.251
82570473|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.9||||0.181|TWO_SIDED|95.0|-38.0|193.8|||ANCOVA|||Statistical analysis of right upper lung region (RV) at Week 104.||193.8|-38.0|0.181
82382161|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-1.3||||0.0005|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.1|0.0005
82570474|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9||||0.781|TWO_SIDED|95.0|-48.8|36.9|||ANCOVA|||Statistical analysis of right middle lung region (RV) at Week 104.||36.9|-48.8|0.781
82570475|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.7||||0.445|TWO_SIDED|95.0|-77.8|173.2|||ANCOVA|||Statistical analysis of right lower lung region (RV) at Week 104.||173.2|-77.8|0.445
82570476|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.6||||0.259|TWO_SIDED|95.0|-48.1|173.2|||ANCOVA|||Statistical analysis of left upper lung region (RV) at Week 104.||173.2|-48.1|0.259
82570477|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0||||0.639|TWO_SIDED|95.0|-105.6|169.6|||ANCOVA|||Statistical analysis of left lower lung region (RV) at Week 104.||169.6|-105.6|0.639
82570478|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|102.3||||0.408|TWO_SIDED|95.0|-145.9|350.5|||ANCOVA|||Statistical analysis of right whole lung region (RV) at Week 104.||350.5|-145.9|0.408
82570479|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85.2||||0.445|TWO_SIDED|95.0|-138.8|309.2|||ANCOVA|||Statistical analysis of left whole lung region (RV) at Week 104.||309.2|-138.8|0.445
82570480|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|187.6||||0.421|TWO_SIDED|95.0|-279.6|654.8|||ANCOVA|||Statistical analysis of whole lung region (RV) at Week 104.||654.8|-279.6|0.421
82570481|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.7||||0.353|TWO_SIDED|95.0|-58.5|159.9|||ANCOVA|||Statistical analysis of right upper lung region (TLC) at Week 104.||159.9|-58.5|0.353
82570482|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9||||0.66|TWO_SIDED|95.0|-35.3|55.0|||ANCOVA|||Statistical analysis of right middle lung region (TLC) at Week 104.||55.0|-35.3|0.660
82570483|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7||||0.859|TWO_SIDED|95.0|-110.7|132.1|||ANCOVA|||Statistical analysis of right lower lung region (TLC) at Week 104.||132.1|-110.7|0.859
82570484|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.5||||0.253|TWO_SIDED|95.0|-38.4|141.4|||ANCOVA|||Statistical analysis of left upper lung region (TLC)at Week 104.||141.4|-38.4|0.253
82570485|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.3||||0.754|TWO_SIDED|95.0|-126.0|172.6|||ANCOVA|||Statistical analysis of left lower lung region (TLC) at Week 104.||172.6|-126.0|0.754
82570486|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.2||||0.546|TWO_SIDED|95.0|-145.1|269.5|||ANCOVA|||Statistical analysis of right whole lung region (TLC) at Week 104.||269.5|-145.1|0.546
82570487|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.9||||0.554|TWO_SIDED|95.0|-155.5|285.3|||ANCOVA|||Statistical analysis of left whole lung region (TLC) at Week 104.||285.3|-155.5|0.554
82515965|NCT04079933|164724263|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin|Mean Difference (Net)|-6.76||||0.1767|TWO_SIDED|95.0|-16.6|3.08|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in carboxyhemoglobin||3.08|-16.6|0.1767
82515966|NCT04079933|164724264|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide|Mean Difference (Net)|-1.51||||0.2961|TWO_SIDED|95.0|-4.36|1.34|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide||1.34|-4.36|0.2961
82570488|NCT00874497|164851307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|132.2||||0.524|TWO_SIDED|95.0|-284.9|549.4|||ANCOVA|||Statistical analysis of whole lung region (TLC) at Week 104.||549.4|-284.9|0.524
82570489|NCT00874497|164851308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5843|TWO_SIDED|95.0|-0.07|0.04|||ANCOVA|||||0.04|-0.07|0.5843
82382162|NCT03349060|164474810|SUPERIORITY||Difference in LS mean|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-2.9|<0.0001
82570490|NCT00874497|164851309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249||||0.1252|TWO_SIDED|95.0|-0.073|0.571|||ANCOVA|||||0.571|-0.073|0.1252
82442315|NCT01479595|164593226|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.514||||0.005|TWO_SIDED|90.0|-0.811|-0.217|||Mixed Models Analysis|||||-0.217|-0.811|0.005
82515967|NCT04079933|164724264|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide|Mean Difference (Net)|-1.05||||0.5015|TWO_SIDED|95.0|-4.12|2.03|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in exhaled carbon monoxide||2.03|-4.12|0.5015
82515968|NCT04079933|164724265|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide|Mean Difference (Net)|-12.1||||0.2048|TWO_SIDED|95.0|-30.9|6.68|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in exhaled carbon monoxide||6.68|-30.9|0.2048
82570491|NCT00874497|164851310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1835||||0.4661|TWO_SIDED|95.0|-0.6892|0.3221|||ANCOVA|||||0.3221|-0.6892|0.4661
82570492|NCT00874497|164851311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.134|TWO_SIDED|95.0|-0.19|1.4|||ANCOVA|||||1.40|-0.19|0.134
82570493|NCT00874497|164851312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.074|TWO_SIDED|95.0|-1.5|0.07|||ANCOVA|||Statistical analysis for sRaw||0.07|-1.50|0.074
82570494|NCT00874497|164851312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.155|TWO_SIDED|95.0|-0.09|0.52|||ANCOVA|||Statistical analysis for sGaw||0.52|-0.09|0.155
82570495|NCT00874497|164851313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.845|TWO_SIDED|95.0|-0.77|0.64|||ANCOVA|||Statistical analysis for mean prior daily breath symptoms||0.64|-0.77|0.845
82515969|NCT04079933|164724265|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to control in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to control in exhaled carbon monoxide|Mean Difference (Net)|-7.32||||0.4731|TWO_SIDED|95.0|-27.4|12.8|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to control in exhaled carbon monoxide; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to control in exhaled carbon monoxide||12.8|-27.4|0.4731
82515970|NCT04079933|164724266|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day|Mean Difference (Net)|-3.86|||<|0.0001|TWO_SIDED|95.0|-5.25|-2.47|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Change from baseline = study group + visit + study group\*visit + subject +random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day||-2.47|-5.25|<0.0001
82515971|NCT04079933|164724266|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day|Mean Difference (Net)|-3.74|||<|0.0001|TWO_SIDED|95.0|-5.14|-2.34|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline in cigarettes smoked per day||-2.34|-5.14|<0.0001
82570496|NCT00874497|164851313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.549|TWO_SIDED|95.0|-0.52|0.94|||ANCOVA|||Statistical analysis for mean prior daily cough symptoms||0.94|-0.52|0.549
82570497|NCT00874497|164851313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.717|TWO_SIDED|95.0|-0.93|0.65|||ANCOVA|||Statistical analysis for mean prior daily sputum symptoms||0.65|-0.93|0.717
82515972|NCT04079933|164724267|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day|Mean Difference (Net)|-22.5|||<|0.0001|TWO_SIDED|95.0|-30.5|-14.5|||t-test, 2 sided||"Difference in Least Square means (Test - Control) using Mixed Effects Repeated Measures Model 1:~Percent Change from baseline = study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day||-14.5|-30.5|<0.0001
82515973|NCT04079933|164724267|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day|Mean Difference (Net)|-22.3|||<|0.0001|TWO_SIDED|95.0|-30.4|-14.1|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~%Change from baseline = study group +visit +study group\*visit +CPD +Sex +Race +BMI +Age +subject +random error, fitted with unstructured covariance matrix."|Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study in cigarettes smoked per day||-14.1|-30.4|<0.0001
82515974|NCT04079933|164724268|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence|Mean Difference (Net)|-0.408||||0.0919|TWO_SIDED|95.0|-0.884|0.0673|||t-test, 2 sided||"Difference in LS mean change between study groups using Mixed Effects Repeated Measures Model 1:~Change from baseline=study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence||0.0673|-0.884|0.0919
82515975|NCT04079933|164724268|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence|Mean Difference (Net)|-0.405||||0.0975|TWO_SIDED|95.0|-0.886|0.0751|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|Null hypothesis = Test and Control groups will have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence||0.0751|-0.886|0.0975
82570498|NCT00874497|164851315|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Statistical analysis for level I (self management) at week 104.||||1.000
82570499|NCT00874497|164851315|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Statistical analysis for level II (physician visit) at week 104.||||1.0000
82570500|NCT00874497|164851315|SUPERIORITY_OR_OTHER|||||||0.5092|||||||Fisher Exact|||Statistical analysis for level III (hospital visit) at week 104.||||0.5092
82515976|NCT04079933|164724268|EQUIVALENCE|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"|Mean Difference (Net)|-8.31||||0.0643|TWO_SIDED|95.0|-17.1|0.499|||t-test, 2 sided||"Difference in LS mean percent change between study groups using Mixed Effects Repeated Measures Model 1:~Change from baseline=study group + visit + study group\*visit + subject + random error, fitted with unstructured covariance matrix"|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"||0.499|-17.1|0.0643
82570501|NCT00874497|164851316|SUPERIORITY_OR_OTHER|||||||0.63||||||Fisher's Exact test was used to determine whether the tetomilast and placebo groups differ in the proportion of participants who experienced Level 2 or higher COPD exacerbations during the study.|Fisher Exact|||Statistical analysis at Week 104||||0.630
82570502|NCT00665223|164851333|SUPERIORITY|This analysis compared ACR16 45 mg vs. placebo during the randomization phase.|Mean Difference (Final Values)|-0.36||||0.456|TWO_SIDED|97.5|-1.44|0.72|||ANCOVA|||The analysis of covariance (ANCOVA) main effects model included a term for treatment and covariates for baseline mMS, gender, and use of antipsychotic medication.||0.72|-1.44|0.456
82570503|NCT00665223|164851333|SUPERIORITY|This analysis compared ACR16 90 mg vs. placebo during the randomization phase.|Mean Difference (Final Values)|-0.99||||0.042|TWO_SIDED|97.5|-2.08|0.1|||ANCOVA|||The analysis of covariance (ANCOVA) main effects model included a term for treatment and covariates for baseline mMS, gender, and use of antipsychotic medication.||0.10|-2.08|0.042
82570504|NCT00002597|164851346|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.0309|TWO_SIDED|95.0|1.01|1.35|||Log Rank||Reference level = Hormone Therapy + Radiation Therapy|Null hypothesis: 8-year OS rate of 60% radiation therapy (RT) alone vs. 67% with hormone therapy. The study was designed with 90% power to detect a 7-percentage- point absolute difference in the 8-year survival rate, with the use of a one-sided log-rank test at the 0.025 significance level, requiring 1980 patients and 716 deaths for definitive analysis.||1.35|1.01|0.0309
82570505|NCT00002597|164851347|SUPERIORITY||Hazard Ratio (HR)|1.86||||0.001|TWO_SIDED|95.0|1.27|2.74|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.74|1.27|0.001
82570506|NCT00002597|164851348|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.0013|TWO_SIDED|95.0|1.17|1.93|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||1.93|1.17|0.0013
82570507|NCT00002597|164851349|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.035|TWO_SIDED|95.0|1.03|2.06|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.06|1.03|0.035
82635726|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-53.81|STANDARD_ERROR_OF_MEAN|3.56|<|0.001|TWO_SIDED|95.0|-60.883|-46.737|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-46.737|-60.883|<0.001
82382163|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-10.9|||<|0.0001|TWO_SIDED|95.0|-14.8|-7.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.0|-14.8|<0.0001
82570508|NCT00002597|164851350|SUPERIORITY||Hazard Ratio (HR)|1.74|||<|0.001|TWO_SIDED|95.0|1.48|2.04|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||2.04|1.48|<0.001
82570509|NCT00002597|164851351|SUPERIORITY||Hazard Ratio (HR)|1.5|||<|0.001|TWO_SIDED|95.0|1.21|1.85|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||1.85|1.21|<0.001
82570510|NCT00002597|164851352|SUPERIORITY||Hazard Ratio (HR)|2.06|||<|0.001|TWO_SIDED|95.0|1.34|3.16|||Gray's test||Reference level = Hormone Therapy + Radiation Therapy|Gray's test was used to compare cumulative incidence between treatment arms (1-sided significance level of 0.025) and the Fine-Gray model was used to calculate hazard ratios.||3.16|1.34|<0.001
82570511|NCT00002597|164851353|SUPERIORITY||Hazard Ratio (HR)|1.38|||<|0.001|TWO_SIDED|95.0|1.22|1.56|||Log Rank||Reference level = Hormone Therapy + Radiation Therapy|Treatment arms were compared using the log-rank test (one-sided significance level of 0.025).||1.56|1.22|<0.001
82570512|NCT00002597|164851354|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82570513|NCT02485899|164851398|OTHER||Hazard Ratio (HR)|0.14|||<|0.0001|TWO_SIDED|95.0|0.06|0.33|||Cox Proportional Hazards model|||||0.33|0.06|<0.0001
82570514|NCT02485899|164851399|OTHER||Hazard Ratio (HR)|0.01|||<|0.0001|TWO_SIDED||||||Cox Proportional Hazards model|||||||<0.0001
82570515|NCT00859976|164851465|SUPERIORITY|A superiority test was used to calculate the number of patients that are needed in order to show a difference between the bone mineral density surrounding BoneMaster coated cups compared to plasma HA sprayed cups.||||||0.457|||||||Wilcoxon (Mann-Whitney)|Change in bone mineral density, normalised to baseline levels.||||||0.4570
82523232|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.575||0.8601|TWO_SIDED|80.0|-0.84|0.64||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Disorganized thought symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.64|-0.84|0.8601
82635727|NCT02055976|164986431|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-58.62|STANDARD_ERROR_OF_MEAN|3.533|<|0.001|TWO_SIDED|95.0|-65.64|-51.6|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-51.600|-65.640|<0.001
82635728|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.896|STANDARD_ERROR_OF_MEAN|2.643|<|0.001|TWO_SIDED|95.0|3.646|14.145|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.145|3.646|<0.001
82635729|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|15.429|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|10.141|20.717|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||20.717|10.141|<0.001
82635730|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.321|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|6.959|17.683|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||17.683|6.959|<0.001
82635731|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.804|STANDARD_ERROR_OF_MEAN|3.041||0.014|TWO_SIDED|95.0|0.761|12.847|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.847|0.761|0.014
82570516|NCT02604342|164851475|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.33|||Stratified log-rank test||Estimated hazard ratio obtained from stratified Cox model with treatment group as covariate.|||0.33|0.12|<0.001
82635732|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.565|STANDARD_ERROR_OF_MEAN|3.023|<|0.001|TWO_SIDED|95.0|4.556|16.573|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.573|4.556|<0.001
82635733|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.895|STANDARD_ERROR_OF_MEAN|2.969|<|0.001|TWO_SIDED|95.0|6.993|18.796|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.796|6.993|<0.001
82635734|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.644|STANDARD_ERROR_OF_MEAN|3.266||0.005|TWO_SIDED|95.0|2.157|15.13|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.130|2.157|0.005
82635735|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.708|STANDARD_ERROR_OF_MEAN|3.272|<|0.001|TWO_SIDED|95.0|8.208|21.208|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||21.208|8.208|<0.001
82635736|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.168|STANDARD_ERROR_OF_MEAN|3.317|<|0.001|TWO_SIDED|95.0|4.58|17.757|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||17.757|4.580|<0.001
82635737|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.132|STANDARD_ERROR_OF_MEAN|2.609||0.001|TWO_SIDED|95.0|2.947|13.316|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.316|2.947|0.001
82635738|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.23|STANDARD_ERROR_OF_MEAN|2.592|<|0.001|TWO_SIDED|95.0|5.079|15.381|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.381|5.079|<0.001
82635739|NCT02055976|164986433|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.767|STANDARD_ERROR_OF_MEAN|2.565||0.014|TWO_SIDED|95.0|0.67|10.864|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.864|0.670|0.014
82515977|NCT04079933|164724268|EQUIVALENCE|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"|Mean Difference (Net)|-8.84||||0.0517|TWO_SIDED|95.0|-17.7|0.0661|||t-test, 2 sided||"Difference in LS means (Test - Control) using Mixed Effects Repeated Measures Model 2:~Change from baseline= study group + visit + study group\*visit + CPD + Sex + Race + BMI + Age + subject + random error, fitted with unstructured covariance matrix"|"Statistical Analysis of Difference in Percent Change from Baseline in Total Score of Fagerstrom Test for Cigarette Dependence between the Study Groups.~Null hypothesis = Test and Control groups will have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of percent change from baseline to end of study for Fagerstrom Test score for Cigarette Dependence"||0.0661|-17.7|0.0517
82570517|NCT02604342|164851476|SUPERIORITY||Difference in C-ORR|0.667|||<|0.001|TWO_SIDED|95.0|0.39|0.86|||Chi-squared|||95% confidence interval of the difference (alectinib - chemotherapy) computed using Hauck-Anderson approach.||0.86|0.39|<0.001
82570518|NCT02024750|164851499|OTHER||Mean Difference (Net)|0.005||||0.72|TWO_SIDED|95.0|-0.021|0.03||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Negative values indicate a clinical benefit.|During the intervention period, the treatment effect on A1c. Results reflect the difference in A1c trend between usual care and intervention arms.||0.030|-0.021|0.72
82570519|NCT02024750|164851499|OTHER||Mean Difference (Net)|-0.01||||0.38|TWO_SIDED|95.0|-0.034|0.013||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Negative values indicate a clinical benefit.|During the post-intervention period, the treatment effect on A1c. Results reflect the difference in A1c trend between usual care and intervention arms.||0.013|-0.034|0.38
82570520|NCT02024750|164851500|OTHER||Mean Difference (Net)|0.023||||0.87|TWO_SIDED|95.0|-0.249|0.295||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on child quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.295|-0.249|0.87
82570521|NCT02024750|164851500|OTHER||Mean Difference (Net)|-0.074||||0.74|TWO_SIDED|95.0|-0.517|0.369||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on child quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.369|-0.517|0.74
82570522|NCT02024750|164851501|OTHER||Mean Difference (Net)|-0.037||||0.79|TWO_SIDED|95.0|-0.312|0.237||The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on parent quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.237|-0.312|0.79
82570523|NCT02024750|164851501|OTHER||Mean Difference (Net)|-0.009||||0.97|TWO_SIDED|95.0|-0.467|0.448||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on parent quality of life. Results reflect the difference in QOL trend between usual care and intervention arms.||0.448|-0.467|0.97
82635740|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.079|STANDARD_ERROR_OF_MEAN|1.905|<|0.001|TWO_SIDED|95.0|2.296|9.863|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.863|2.296|<0.001
82382164|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-18.9|||<|0.0001|TWO_SIDED|95.0|-22.7|-15.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.1|-22.7|<0.0001
82570524|NCT02024750|164851502|OTHER||Mean Difference (Net)|0.134||||0.3|TWO_SIDED|95.0|-0.121|0.388||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the intervention period, the treatment effect on parent fear of hypoglycemia. Results reflect the difference in FOH trend between usual care and intervention arms.||0.388|-0.121|0.30
82570525|NCT02024750|164851502|OTHER||Mean Difference (Net)|-0.006||||0.98|TWO_SIDED|95.0|-0.384|0.373||The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|Adjustments were made for study stratification variables and covariates that were imbalanced between study arms at baseline.|Positive values indicate a clinical benefit.|During the post-intervention period, the treatment effect on parent fear of hypoglycemia. Results reflect the difference in FOH trend between usual care and intervention arms.||0.373|-0.384|0.98
82570526|NCT01702519|164851510|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence was established if 90% confidence interval (CI) of the ratio (Test/Ref) of geometric means was included in the limit of 0.80 - 1.25|Treatment Ratio|0.946|||||TWO_SIDED|90.0|0.912|0.982|||Treatment Ratio||The ratio between the geometric means of the test and reference formulations was calculated|Null hypothesis considered no difference between the two treatments.||0.982|0.912|
82382165|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.3|-7.8|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.8|-17.3|<.0001
82382166|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-22.1|||<|0.0001|TWO_SIDED|95.0|-26.8|-17.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.3|-26.8|<.0001
82515978|NCT04079933|164724269|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study|Probability|0.216||||0.216|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study||||0.2160
82570527|NCT01702519|164851511|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if 90% confidence interval (CI) of the ratio (Test/Ref) of geometric means was included in the limit of 0.80 - 1.25.|Treatment Ratio|0.962|||||TWO_SIDED|90.0|0.92|1.0|||Treatment Ratio||The ratio between the geometric means of the test and reference formulations was calculated|Null hypothesis considered no difference between the treatments.||1.00|0.92|
82382167|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-14.3|||<|0.0001|TWO_SIDED|95.0|-19.5|-9.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-9.0|-19.5|<.0001
82515979|NCT04079933|164724269|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study|Probability|0.0648||||0.0648|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Null hypothesis = Test and Control groups will have equivalent levels of change in quit attempts from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quit attempts from baseline to end of study||||0.0648
82635741|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.786|STANDARD_ERROR_OF_MEAN|1.918|<|0.001|TWO_SIDED|95.0|6.976|14.597|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.597|6.976|<0.001
82570528|NCT01161628|164851528|SUPERIORITY_OR_OTHER||||||<|0.5|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: p (CR rate) is 0.5 or less versus... Alternative hypothesis: p \>0.5 A sample size of 25 patients gives 90% power with an alpha = 0.05||||<0.5
82570529|NCT00984698|164851543|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||Analysis must be qualified by small sample size, worse baseline symptom severity in CBSRT arm, and greater levels of attrition in PCGT arm||||<.05
82570530|NCT00984698|164851544|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||Analysis must be qualified by small sample size, worse baseline symptom severity in CBSRT arm, and greater levels of attrition in PCGT arm||||<.05
82515980|NCT04079933|164724270|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent levels of change in quitting intentions from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quitting intentions from baseline to end of study|Probability|0.5977||||0.5977|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent levels of change in quitting intentions from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent levels of change in quitting intentions from baseline to end of study||||0.5977
82382168|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-22.0|||<|0.0001|TWO_SIDED|95.0|-27.2|-16.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.7|-27.2|<.0001
82382169|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-13.3|||<|0.0001|TWO_SIDED|95.0|-19.0|-7.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-7.7|-19.0|<0.0001
82635742|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.069|STANDARD_ERROR_OF_MEAN|1.945|<|0.001|TWO_SIDED|95.0|5.206|12.932|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.932|5.206|<0.001
82382170|NCT03349060|164474811|SUPERIORITY||Difference in LS mean|-21.9|||<|0.0001|TWO_SIDED|95.0|-27.5|-16.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.3|-27.5|<.0001
82382171|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|22.3||||0.0028|TWO_SIDED|95.0|8.7|35.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.9|8.7|0.0028
82382172|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|40.1|||<|0.0001|TWO_SIDED|95.0|27.1|53.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.2|27.1|<0.0001
82515981|NCT04079933|164724271|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of NNAL; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of NNAL|Mean Difference (Net)|10.0||||0.4388|TWO_SIDED|95.0|-15.5|35.5|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of NNAL; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of NNAL||35.5|-15.5|0.4388
82570531|NCT00746356|164851546|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|0.0066|STANDARD_DEVIATION|0.3103|<|0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used, and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|<0.0001
82570532|NCT00746356|164851547|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|-0.0625|STANDARD_DEVIATION|0.0948||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
82570533|NCT00746356|164851548|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|-0.0556|STANDARD_DEVIATION|0.0824||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If all three primary effectiveness endpoints were met a value of 5% was used, if two were met, a value of 2.5% were used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
82570534|NCT00746356|164851549|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was calculated for an 80% power to reject the null hypothesis at 1.67% significance level.|Mean Difference (Final Values)|0.0028|STANDARD_DEVIATION|0.2852||0.0001|ONE_SIDED|95.0|-0.25|||P-value was adjusted for multiple efficacy endpoints. If three primary effectiveness endpoints were met a value of 5% was used, if two were met a value of 2.5% was used and if one was met a value of 1.67% was used.|t-test, 1 sided|If the data is not normally distributed, then the Wilcoxon signed rank test will be used to perform the two one-sided testing.||The null hypothesis was rejected at significance level 1.67% if the mean difference between the automatic test and the manual test was \<0.25 volts.|||-0.25|0.0001
82570535|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.13||0.23|TWO_SIDED||||||Regression, Linear|||Overall Behavior. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.23
82570536|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.07
82635743|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.859|STANDARD_ERROR_OF_MEAN|2.173||0.014|TWO_SIDED|95.0|0.541|9.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.178|0.541|0.014
82635744|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.331|STANDARD_ERROR_OF_MEAN|2.161|<|0.001|TWO_SIDED|95.0|3.037|11.624|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||11.624|3.037|<0.001
82570537|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.99|TWO_SIDED||||||Regression, Linear|||Orienting. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.99
82515982|NCT04079933|164724272|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of nicotine metabolites; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of nicotine metabolites|Mean Difference (Net)|0.45||||0.339|TWO_SIDED|95.0|-0.48|1.38|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of nicotine metabolites; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of nicotine metabolites||1.38|-0.48|0.3390
82515983|NCT04079933|164724273|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of S-PMA; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of S-PMA|Mean Difference (Net)|-205.0||||0.4526|TWO_SIDED|95.0|-745.0|334.0|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of S-PMA; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of S-PMA||334|-745|0.4526
82515984|NCT04079933|164724274|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carboxyhemoglobin; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carboxyhemoglobin|Mean Difference (Net)|0.0||||0.944|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carboxyhemoglobin; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carboxyhemoglobin||0.2|-0.2|0.9440
82570538|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.16||0.005|TWO_SIDED||||||Regression, Linear|||Fidget. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and BeSAFE).||||.005
82570539|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.11||0.01|TWO_SIDED||||||Regression, Linear|||Overall Behavior. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.01
82570540|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.09||0.04|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.04
82570541|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.06|TWO_SIDED||||||Regression, Linear|||Appropriate Response. Change-from-baseline analyses were conducted (post-intervention assessment ratings minus pre-intervention assessment ratings) and compared between intervention groups (Floreo and TAU).||||.06
82570542|NCT03605368|164851588|EQUIVALENCE|Simple linear models ('lm' in R) were conducted. Statistical significance was set at p\<.05.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.14||0.09|TWO_SIDED||||||Regression, Linear|||||||.09
82570543|NCT03605368|164851589|EQUIVALENCE|A linear regression compared change in Police Interaction Knowledge scores by group (Floreo vs. TAU) from pre- to post-intervention. Significance was set at p\<.05.|Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|2.67||0.55|TWO_SIDED||||||Regression, Linear|||||||.55
82570544|NCT03605368|164851589|EQUIVALENCE|A linear regression compared change in Police Interaction Knowledge scores by group (Floreo vs. TAU) from pre- to post-intervention. Significance was set at p\<.05.|Mean Difference (Final Values)|5.42|STANDARD_ERROR_OF_MEAN|2.73||0.05|TWO_SIDED||||||Regression, Linear|||||||.05
82570545|NCT02484547|164851594|SUPERIORITY||Difference|-0.26||||0.0901|TWO_SIDED|95.0|-0.569|0.041|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.041|-0.569|0.0901
82570546|NCT02484547|164851594|SUPERIORITY||Difference|-0.39||||0.012|TWO_SIDED|95.0|-0.694|-0.086|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CDR-SB as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline CDR-SB, baseline CDR-SB by visit.||-0.086|-0.694|0.0120
82570547|NCT02484547|164851595|SUPERIORITY||Difference|-0.1||||0.7578|TWO_SIDED|95.0|-0.65|0.48|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||0.48|-0.65|0.7578
82635745|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.075|STANDARD_ERROR_OF_MEAN|2.122|<|0.001|TWO_SIDED|95.0|4.856|13.293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.293|4.856|<0.001
82635746|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.936|STANDARD_ERROR_OF_MEAN|2.266||0.005|TWO_SIDED|95.0|1.435|10.437|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.437|1.435|0.005
82635747|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.213|STANDARD_ERROR_OF_MEAN|2.271|<|0.001|TWO_SIDED|95.0|5.702|14.724|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.724|5.702|<0.001
82635748|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.056|STANDARD_ERROR_OF_MEAN|2.302|<|0.001|TWO_SIDED|95.0|3.484|12.629|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.629|3.484|<0.001
82635749|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.846|STANDARD_ERROR_OF_MEAN|1.778|<|0.001|TWO_SIDED|95.0|2.312|9.38|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.380|2.312|<0.001
82635750|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.91|STANDARD_ERROR_OF_MEAN|1.766|<|0.001|TWO_SIDED|95.0|3.4|10.421|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.421|3.400|<0.001
82515985|NCT04079933|164724275|EQUIVALENCE|Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carbon monoxide; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carbon monoxide|Mean Difference (Net)|0.0||||0.7484|TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||Null hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will have equivalent levels of change in mean exposure of carbon monoxide; Alternate hypothesis = The Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT have equivalent levels of change from baseline to end of study in mean exposure of carbon monoxide||1|-1|0.7484
82570548|NCT02484547|164851595|SUPERIORITY||Difference|0.6||||0.0493|TWO_SIDED|95.0|0.0|1.13|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low Dose, BIIB037 High Dose), difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MMSE as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline MMSE, baseline MMSE by visit interaction, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||1.13|0.00|0.0493
82635751|NCT02055976|164986434|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.168|STANDARD_ERROR_OF_MEAN|1.748||0.01|TWO_SIDED|95.0|0.693|7.642|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.642|0.693|0.010
82635752|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.7208|STANDARD_ERROR_OF_MEAN|0.6289||0.127|TWO_SIDED|95.0|-0.5283|1.97|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.9700|-0.5283|0.127
82635753|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0574|STANDARD_ERROR_OF_MEAN|0.6461||0.053|TWO_SIDED|95.0|-0.2259|2.3406|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.3406|-0.2259|0.053
82635754|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2445|STANDARD_ERROR_OF_MEAN|0.6511||0.354|TWO_SIDED|95.0|-1.0486|1.5375|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.5375|-1.0486|0.354
82635755|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8055|STANDARD_ERROR_OF_MEAN|0.8615||0.176|TWO_SIDED|95.0|-0.9066|2.5177|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.5177|-0.9066|0.176
82635756|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0071|STANDARD_ERROR_OF_MEAN|0.8641||0.011|TWO_SIDED|95.0|0.2899|3.7242|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.7242|0.2899|0.011
82635757|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7116|STANDARD_ERROR_OF_MEAN|0.852||0.024|TWO_SIDED|95.0|0.0184|3.4049|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.4049|0.0184|0.024
82382173|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|17.1||||0.0217|TWO_SIDED|95.0|2.8|31.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.4|2.8|0.0217
82515986|NCT04079933|164724276|EQUIVALENCE|Null hypothesis = Cigarette consumption (CPD) determined using the Day 1 (Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will be equivalent; Alternate hypothesis = Cigarette consumption (CPD) determined using the Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT be equivalent|Mean Difference (Net)|0.0||||0.9992|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Null hypothesis = Cigarette consumption (CPD) determined using the Day 1 (Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will be equivalent; Alternate hypothesis = Cigarette consumption (CPD) determined using the Day 1(Weekly Recall) and Day 8 (Daily Tracking using IVRS) methods will NOT be equivalent||0|0|0.9992
82515987|NCT04079933|164724298|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study|Probability|0.1661||||0.1661|TWO_SIDED||||||Cochran-Mantel-Haenszel||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study||||0.1661
82635758|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8585|STANDARD_ERROR_OF_MEAN|0.7844||0.138|TWO_SIDED|95.0|-0.6992|2.4163|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.4163|-0.6992|0.138
82635759|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8807|STANDARD_ERROR_OF_MEAN|0.799||0.137|TWO_SIDED|95.0|-0.7064|2.4678|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.4678|-0.7064|0.137
82635760|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2624|STANDARD_ERROR_OF_MEAN|0.8053||0.373|TWO_SIDED|95.0|-1.337|1.8618|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.8618|-1.3370|0.373
82635761|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3239|STANDARD_ERROR_OF_MEAN|0.7472||0.333|TWO_SIDED|95.0|-1.1611|1.8089|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.8089|-1.1611|0.333
82382174|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|32.2|||<|0.0001|TWO_SIDED|95.0|18.5|45.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||45.9|18.5|<0.0001
82635762|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.9322|STANDARD_ERROR_OF_MEAN|0.7488||0.006|TWO_SIDED|95.0|0.4441|3.4203|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.4203|0.4441|0.006
82635763|NCT02055976|164986436|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.834|STANDARD_ERROR_OF_MEAN|0.7442||0.133|TWO_SIDED|95.0|-0.6451|2.313|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.3130|-0.6451|0.133
82635764|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0813|STANDARD_ERROR_OF_MEAN|2.0411||0.155|TWO_SIDED|95.0|-1.973|6.1356|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.1356|-1.9730|0.155
82635765|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.2608|STANDARD_ERROR_OF_MEAN|2.0965||0.062|TWO_SIDED|95.0|-0.9035|7.425|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.4250|-0.9035|0.062
82635766|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.8224|STANDARD_ERROR_OF_MEAN|2.1126||0.349|TWO_SIDED|95.0|-3.3733|5.0182|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.0182|-3.3733|0.349
82635767|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.3254|STANDARD_ERROR_OF_MEAN|2.7702||0.202|TWO_SIDED|95.0|-3.1801|7.831|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.8310|-3.1801|0.202
82515988|NCT04079933|164724298|EQUIVALENCE|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study|Probability|0.2139||||0.2139|TWO_SIDED||||||Fisher Exact||Estimated value is the probability of observed distribution assuming the null hypothesis|Null hypothesis = Test and Control groups will have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study; Alternate hypothesis = Test and Control groups will NOT have equivalent number of subjects in subgroups based on urinary total NNAL change from baseline to end of study||||0.2139
82515989|NCT02059148|164724315|SUPERIORITY_OR_OTHER||Ratio of Geometric LSMeans|1.24|||||TWO_SIDED|90.0|1.11|1.38||||||||1.38|1.11|
82515990|NCT02059148|164724316|SUPERIORITY_OR_OTHER||Ratio of Geometric LSMeans|1.14|||||TWO_SIDED|90.0|1.05|1.23||||||||1.23|1.05|
82515991|NCT02059148|164724317|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.95||||0.0006|TWO_SIDED|90.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|1.00|0.0006
82515992|NCT01385059|164724362|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82515993|NCT03880578|164724372|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-14.9|-5.7|||Mixed Models Analysis|The outcome measure is change over time between treatment groups, reported as a mean adjusted difference.|change in the composite score of the ThyPRO between groups|||-5.7|-14.9|<0.001
82515994|NCT03880578|164724373|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.06|TWO_SIDED|95.0|-4.34|0.06|||Mixed Models Analysis|||||0.06|-4.34|0.06
82570549|NCT02484547|164851596|SUPERIORITY||Difference|-0.701||||0.1962|TWO_SIDED|95.0|-1.7649|0.3627|||MMRM|||Adjusted mean for each treatment group(Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADASCog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region, and laboratory ApoE status.||0.3627|-1.7649|0.1962
82515995|NCT03880578|164724374|SUPERIORITY||Median Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|1.27|2.03|||Mixed Models Analysis||MAD obtained after log transformation of TSH|||2.03|1.27|<0.001
82515996|NCT03880578|164724375|SUPERIORITY||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.87|-0.35|||Mixed Models Analysis|||FT3||-0.35|-0.87|<0.001
82515997|NCT03880578|164724375|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.12|TWO_SIDED|95.0|-1.81|0.15|||Mixed Models Analysis|||FT4||0.15|-1.81|0.12
82515998|NCT03880578|164724376|SUPERIORITY||Mean Difference (Final Values)|-11.6|||<|0.001|TWO_SIDED|95.0|-14.6|-8.5|||Mixed Models Analysis|||||-8.5|-14.6|<0.001
82570550|NCT02484547|164851596|SUPERIORITY||Difference|-1.4||||0.0097|TWO_SIDED|95.0|-2.4596|-0.3396|||MMRM|||Adjusted mean for each treatment group(Placebo,BIIB037 Low Dose,BIIB037 High Dose),difference from Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in ADASCog 13 as dependent variable and with fixed effects of treatment group,categorical visit,treatment-by-visit interaction,baseline ADAS-Cog 13,baseline ADAS-Cog 13 by visit interaction,baseline MMSE,AD symptomatic medication use at baseline,region, and laboratory ApoE status.||-0.3396|-2.4596|0.0097
82382175|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|15.7||||0.0363|TWO_SIDED|95.0|1.4|30.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.0|1.4|0.0363
82515999|NCT05204134|164724383|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82516000|NCT05204134|164724384|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82516001|NCT05204134|164724385|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82516002|NCT05204134|164724386|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82516003|NCT05204134|164724387|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82516004|NCT05204134|164724388|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82516005|NCT05204134|164724389|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516006|NCT05204134|164724390|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516007|NCT05204134|164724391|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516008|NCT05204134|164724392|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison between 2 week run-in and 13 weeks Control-IQ use with adaptation.||||<0.001
82516009|NCT05204134|164724393|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516010|NCT05204134|164724394|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516011|NCT05204134|164724395|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516012|NCT05204134|164724396|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516013|NCT05204134|164724397|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516014|NCT05204134|164724398|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516015|NCT05204134|164724399|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516016|NCT05204134|164724400|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516017|NCT05204134|164724401|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516018|NCT05204134|164724402|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82635768|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.1048|STANDARD_ERROR_OF_MEAN|2.7784||0.015|TWO_SIDED|95.0|0.5833|11.6263|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||11.6263|0.5833|0.015
82635769|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.2393|STANDARD_ERROR_OF_MEAN|2.7396||0.03|TWO_SIDED|95.0|-0.2058|10.6845|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.6845|-0.2058|0.030
82635770|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.1827|STANDARD_ERROR_OF_MEAN|2.4251||0.185|TWO_SIDED|95.0|-2.6334|6.9988|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.9988|-2.6334|0.185
82635771|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.1376|STANDARD_ERROR_OF_MEAN|2.4716||0.195|TWO_SIDED|95.0|-2.7718|7.0469|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.0469|-2.7718|0.195
82635772|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3113|STANDARD_ERROR_OF_MEAN|2.4909||0.45|TWO_SIDED|95.0|-4.6358|5.2584|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.2584|-4.6358|0.450
82635773|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.6078|STANDARD_ERROR_OF_MEAN|2.3322||0.397|TWO_SIDED|95.0|-4.0274|5.2431|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.2431|-4.0274|0.397
82635774|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.7096|STANDARD_ERROR_OF_MEAN|2.3367||0.008|TWO_SIDED|95.0|1.0659|10.3532|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.3532|1.0659|0.008
82635775|NCT02055976|164986437|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.4558|STANDARD_ERROR_OF_MEAN|2.323||0.147|TWO_SIDED|95.0|-2.1608|7.0724|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.0724|-2.1608|0.147
82635776|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.9203|STANDARD_ERROR_OF_MEAN|1.3242|<|0.001|TWO_SIDED|95.0|-7.5504|-2.2901|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.2901|-7.5504|<0.001
82635777|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.1983|STANDARD_ERROR_OF_MEAN|1.3462|<|0.001|TWO_SIDED|95.0|-9.8718|-4.5249|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.5249|-9.8718|<0.001
82635778|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.3118|STANDARD_ERROR_OF_MEAN|1.3505|<|0.001|TWO_SIDED|95.0|-9.9935|-4.6301|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.6301|-9.9935|<0.001
82635779|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.0629|STANDARD_ERROR_OF_MEAN|1.032||0.002|TWO_SIDED|95.0|-5.1132|-1.0125|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.0125|-5.1132|0.002
82516019|NCT05204134|164724403|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82516020|NCT05204134|164724404|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82516021|NCT01312467|164724425|SUPERIORITY_OR_OTHER||||||>|0.773|TWO_SIDED||||||A paired t-test|||||||> 0.773
82516022|NCT02752048|164724430|OTHER|Change in time to rise from the floor from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-1.378||||0.596|TWO_SIDED|95.0|-6.757|4.0|||t-test, 2 sided|||||4.000|-6.757|0.596
82516023|NCT02752048|164724430|OTHER|Change in time to rise from the floor from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|1.349||||0.433|TWO_SIDED|95.0|-2.22|4.918|||t-test, 2 sided|||||4.918|-2.220|0.433
82516024|NCT02752048|164724431|OTHER|Change in 10-m walk/run test from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.484||||0.382|TWO_SIDED|95.0|-1.618|0.65|||t-test, 2 sided|||||0.650|-1.618|0.382
82516025|NCT02752048|164724431|OTHER|Change in 10-m walk/run test from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.397||||0.501|TWO_SIDED|95.0|-1.61|0.817|||t-test, 2 sided|||||0.817|-1.610|0.501
82516026|NCT02752048|164724432|OTHER|Change in time to up and go from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.533||||0.549|TWO_SIDED|95.0|-2.363|1.298|||t-test, 2 sided|||||1.298|-2.363|0.549
82516027|NCT02752048|164724432|OTHER|Change in time to up and go from baseline to Week 24 were calculated to evaluate|Mean Difference (Final Values)|-0.225||||0.767|TWO_SIDED|95.0|-1.801|1.351|||t-test, 2 sided|||||1.351|-1.801|0.767
82516028|NCT01431508|164724440|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||Comparison of Week 12 and Baseline||||<0.05
82516029|NCT00132769|164724441|SUPERIORITY_OR_OTHER||Difference in LS Mean|1.48||||0.278|TWO_SIDED|95.0|-1.21|4.18|||ANCOVA|||||4.18|-1.21|0.278
82516030|NCT00132769|164724442|SUPERIORITY_OR_OTHER||Difference in Percent|-5.66||||0.543|TWO_SIDED|95.0|-24.45|13.13|||Cochran-Mantel-Haenszel|||||13.13|-24.45|0.543
82516031|NCT00132769|164724449|SUPERIORITY_OR_OTHER||LS mean ratio between treatments|0.84||||0.225|TWO_SIDED|95.0|0.63|1.12|||ANCOVA|||||1.12|0.63|0.225
82516032|NCT00129259|164724450|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|P-value for testing treatment effect uses change in ln(AUC+1) as the outcome variable and adjusts for baseline ln(AUC+1).||"Null hypothesis: The mean change from baseline to Month 24 in the 4-hour C-peptide AUC does not differ between treatment groups after adjusting for baseline C-peptide AUC.~Alternative hypothesis: The mean change from baseline to Month 24 in the 4-hour C-peptide AUC differs between the treatment groups after adjusting for baseline values."||||0.002
82516033|NCT00129259|164724451|SUPERIORITY_OR_OTHER|||||||0.697||95.0|||||ANCOVA|ANCOVA adjusts for baseline HbA1c.||"Null hypothesis: The mean change in HbA1c from baseline (pre-treatment) to Month 24 does not differ between treatment groups.~Alternative hypothesis: The mean change in HbA1c from baseline to Month 24 differs between treatment groups."||||0.697
82516034|NCT00129259|164724452|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|ANCOVA adjusts for baseline daily insulin use per kg||"Null hypothesis: The mean change from baseline to Month 24 in daily insulin use per kg does not differ between the treatment and control groups.~Alternative hypothesis: The mean change from baseline to Month 24 in daily insulin use per kg differs between the treatment and control groups."||||0.110
82516035|NCT02939105|164724505|OTHER||success proportion|86.7|||||TWO_SIDED|95.0|69.3|96.2||||||||96.2|69.3|
82516036|NCT00139997|164724507|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|||||||0.028
82382176|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|23.7||||0.0011|TWO_SIDED|95.0|9.8|37.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.7|9.8|0.0011
82516037|NCT01968434|164724529|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The sample size was calculated to detect a 0.75 point difference between any two treatment groups with a 90% power and p\<0.05. Such sample size was 60 subject which was elevated ot 75 subjects per group to account for drop outs. For comparison of cough evaluation before and after treatment a paired Student t test was used.||||<0.01
82516038|NCT01968434|164724530|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82516039|NCT01968434|164724531|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82516040|NCT01543256|164724544|NON_INFERIORITY|Non-Inferiority margin was 20%||||||0.008|||||||Exact non-inferiority|||||||.008
82516041|NCT01543256|164724545|SUPERIORITY|||||||0.568|||||||Fisher Exact|||||||.568
82516042|NCT01543256|164724546|SUPERIORITY||||||<|0.001|||||||Negative binomial|||||||<.001
82516043|NCT01543256|164724547|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||.99
82516044|NCT01543256|164724548|SUPERIORITY|||||||0.519|||||||Wilcoxon (Mann-Whitney)|||||||.519
82516045|NCT01543256|164724549|SUPERIORITY||||||<|0.001|||||||Negative binomial|||||||<.001
82516046|NCT00262834|164724551|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum tests were used to compare the differences (post-pre) between groups.||||||0.42
82516047|NCT00262834|164724552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum tests were used to compare the differences (post-pre) between groups.||||||0.50
82516048|NCT00262834|164724553|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82516049|NCT00844194|164724555|SUPERIORITY_OR_OTHER||LSmean|-1.49|||<|0.0001|TWO_SIDED|95.0|-1.89|-1.1|||ANCOVA|with last observation carried forward (LOCF)||||-1.10|-1.89|< 0.0001
82516050|NCT00844194|164724555|SUPERIORITY_OR_OTHER||LSmean|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.04|||ANCOVA|||||-1.04|-2.30|< 0.0001
82516051|NCT03017508|164724658|SUPERIORITY||Mean Difference (Final Values)|-8.34|STANDARD_DEVIATION|18.34||0.056|TWO_SIDED||||||t-test, 2 sided|||Paired t-test on VAS scores during speech comparing sublingual riluzole to placebo||||0.056
82516052|NCT02162810|164724669|OTHER||||||<|0.62|||||||Fisher Exact|||Due to the number of 0 cell counts, it is not possible to do individual statistics for each complication, so we looked at the incidence of complications overall between the two arms.||||<.62
82516053|NCT02162810|164724670|OTHER||||||<|0.61|||||||Fisher Exact|||||||<0.61
82516054|NCT02162810|164724671|OTHER||||||<|0.87|||||||Fisher Exact|||Improvement category: Chordee with Degloving||||<.87
82516055|NCT02162810|164724671|OTHER||||||<|0.64|||||||Fisher Exact|||Improvement category: Ventral Chordee||||<.64
82516056|NCT02162810|164724671|OTHER||||||<|0.85|||||||Fisher Exact|||Improvement category: Chordee with Plication||||<.85
82516057|NCT00706121|164724677|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.96||||0.96|TWO_SIDED|95.0|0.9|1.02|||Log binomial regression|||||1.02|0.9|0.96
82516058|NCT00706121|164724678|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.92||||0.32|TWO_SIDED|95.0|0.78|1.08|||Log binomial regression|||||1.08|0.78|0.32
82516059|NCT00706121|164724680|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.91||||0.24|TWO_SIDED|95.0|0.77|1.07|||Log binomial regression|||||1.07|0.77|0.24
82516060|NCT00706121|164724681|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.38|TWO_SIDED|95.0|0.96|1.1|||Log binomial regression|||||1.10|0.96|0.38
82516061|NCT02223390|164724695|SUPERIORITY|A sample size of 60 was chosen as adequate to examine the feasibility and acceptability of a pilot randomized controlled trial (RCT) with two conditions.||||||0.08||||||A priori threshold for statistical significance was p\<.05. The p-value presented corresponds to the time by condition interaction parameter.|Mixed Models Analysis|To assess changes in PTSD symptoms over time by intervention condition, linear mixed models were fit using the PROC MIXED procedure in SAS.||Statistical analyses reported below is for PCL - Total at 3 months.||||0.08
82516062|NCT02223390|164724696|SUPERIORITY|A sample size of 60 was chosen as adequate to examine the feasibility and acceptability of a pilot RCT with two conditions.||||||0.05||||||A priori threshold was defined as p\<0.05.|Chi-squared|||||||0.05
82516063|NCT00795600|164724703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.645|STANDARD_ERROR_OF_MEAN|3.364||0.849||95.0|-7.404|6.114||H01 (hypothesis): Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||6.114|-7.404|0.849
82516064|NCT00795600|164724704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|3.478||0.948||95.0|-7.588|6.407||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||6.407|-7.588|0.948
82516065|NCT00795600|164724705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|196.36|STANDARD_ERROR_OF_MEAN|498.7||0.696||95.0|-805.8|1198.5||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||1198.5|-805.8|0.696
82382177|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|20.1||||0.008|TWO_SIDED|95.0|5.8|34.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||34.5|5.8|0.0080
82516066|NCT00795600|164724706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|192.81|STANDARD_ERROR_OF_MEAN|515.4||0.71||95.0|-844.0|1229.7||H01: Micro detemir = micro NPH against the alternative H01: Microl detemir ≠ micro NPH.|ANCOVA|||The primary objective and endpoint of the trial was to compare the change in trunk fat mass (g) between insulin detemir versus insulin NPH at baseline and at week 26. A standard deviation of 5% was chosen based on a previous trial. A difference in trunk fat mass of 5% was considered clinically relevant also according to this trial.||1229.7|-844.0|0.710
82516067|NCT00795600|164724707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|288.21|STANDARD_ERROR_OF_MEAN|766.41||0.709||95.0|-1252.0|1828.4|||ANCOVA|||||1828.4|-1252.0|0.709
82382178|NCT03349060|164474812|SUPERIORITY||Difference in Percentage|29.1|||<|0.0001|TWO_SIDED|95.0|15.0|43.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.3|15.0|<0.0001
82382179|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.4|-2.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.2|-5.4|<0.0001
82382180|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-5.5|||<|0.0001|TWO_SIDED|95.0|-7.1|-3.9|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.9|-7.1|<0.0001
82382181|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-3.3||||0.0001|TWO_SIDED|95.0|-5.0|-1.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.7|-5.0|0.0001
82382182|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-6.1|||<|0.0001|TWO_SIDED|95.0|-7.8|-4.5|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.5|-7.8|<.0001
82382183|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-2.8||||0.0075|TWO_SIDED|95.0|-4.8|-0.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-4.8|0.0075
82382184|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-5.3|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-3.3|-7.4|<0.0001
82382185|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-2.8||||0.0072|TWO_SIDED|95.0|-4.8|-0.8|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.8|-4.8|0.0072
82382186|NCT03349060|164474813|SUPERIORITY||Difference in LS mean|-4.9|||<|0.0001|TWO_SIDED|95.0|-6.9|-2.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.9|-6.9|<0.0001
82382187|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-1.3||||0.275|TWO_SIDED|95.0|-3.5|1.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||1.0|-3.5|0.2750
82516068|NCT00795600|164724708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|2.732||0.948||95.0|-5.668|5.313|||ANCOVA|||||5.313|-5.668|0.948
82516069|NCT00795600|164724709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1151.0|STANDARD_ERROR_OF_MEAN|810.48||0.162||95.0|-2780.0|477.33|||ANCOVA|||||477.33|-2780.0|0.162
82516070|NCT00795600|164724710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.747|STANDARD_ERROR_OF_MEAN|1.788||0.131||95.0|-6.34|0.846|||ANCOVA|||||0.846|-6.340|0.131
82516071|NCT00795600|164724711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-110.4|STANDARD_ERROR_OF_MEAN|368.69||0.766||95.0|-851.3|630.51|||ANCOVA|||||630.51|-851.3|0.766
82516072|NCT00795600|164724712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|1.662||0.716||95.0|-3.949|2.729|||ANCOVA|||||2.729|-3.949|0.716
82382188|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-2.5||||0.028|TWO_SIDED|95.0|-4.8|-0.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-4.8|0.0280
82516073|NCT00795600|164724713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.491|STANDARD_ERROR_OF_MEAN|0.695||0.483||95.0|-0.906|1.888|||ANCOVA|||||1.888|-0.906|0.483
82516074|NCT00795600|164724714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|1.909||0.952||95.0|-3.721|3.953|||ANCOVA|||||3.953|-3.721|0.952
82382189|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-3.5||||0.0051|TWO_SIDED|95.0|-5.9|-1.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.1|-5.9|0.0051
82382190|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-6.4|||<|0.0001|TWO_SIDED|95.0|-8.8|-4.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.0|-8.8|<0.0001
82516075|NCT00795600|164724715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278|STANDARD_ERROR_OF_MEAN|0.746||0.711||95.0|-1.778|1.221|||ANCOVA|||||1.221|-1.778|0.711
82516076|NCT00795600|164724716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.585|STANDARD_ERROR_OF_MEAN|1.854||0.397||95.0|-5.31|2.141|||ANCOVA|||||2.141|-5.310|0.397
82382191|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-2.1||||0.1706|TWO_SIDED|95.0|-5.1|0.9|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.9|-5.1|0.1706
82516077|NCT00795600|164724717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.916|STANDARD_ERROR_OF_MEAN|10.985||0.421||95.0|-30.99|13.159|||ANCOVA|||||13.159|-30.99|0.421
82516078|NCT00795600|164724718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.061|STANDARD_ERROR_OF_MEAN|6.216||0.42||95.0|-17.55|7.43|||ANCOVA|||||7.430|-17.55|0.420
82516079|NCT00795600|164724719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.961|STANDARD_ERROR_OF_MEAN|13.007||0.705||95.0|-31.1|21.178|||ANCOVA|||||21.178|-31.10|0.705
82516080|NCT00795600|164724720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.59|STANDARD_ERROR_OF_MEAN|4.776||0.341||95.0|-14.19|5.007|||ANCOVA|||||5.007|-14.19|0.341
82516081|NCT00795600|164724721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.034||0.902||95.0|-0.064|0.073|||ANCOVA|||||0.073|-0.064|0.902
82382192|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-4.4||||0.0048|TWO_SIDED|95.0|-7.4|-1.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.4|-7.4|0.0048
82516082|NCT00795600|164724722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.789|STANDARD_ERROR_OF_MEAN|3.85||0.839||95.0|-8.525|6.947|||ANCOVA|||||6.947|-8.525|0.839
82516083|NCT00795600|164724723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.041||0.607||95.0|-0.105|0.062|||ANCOVA|||||0.062|-0.105|0.607
82516084|NCT00795600|164724724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.777|STANDARD_ERROR_OF_MEAN|3.719||0.635||95.0|-9.254|5.7|||ANCOVA|||||5.700|-9.254|0.635
82516085|NCT00795600|164724725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.266||0.628||95.0|-0.663|0.403|||ANCOVA|||||0.403|-0.663|0.628
82516086|NCT00795600|164724726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.92|STANDARD_ERROR_OF_MEAN|17.46||0.535||95.0|-46.03|24.182|||ANCOVA|||||24.182|-46.03|0.535
82516087|NCT00795600|164724727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.918|STANDARD_ERROR_OF_MEAN|4.332||0.66||95.0|-10.65|6.813|||ANCOVA|||||6.813|-10.65|0.660
82516088|NCT00795600|164724754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.629|STANDARD_ERROR_OF_MEAN|0.967||0.518||95.0|-2.572|1.313|||ANCOVA|||||1.313|-2.572|0.518
82516089|NCT00795600|164724755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.546|STANDARD_ERROR_OF_MEAN|1.283||0.673||95.0|-3.123|2.032|||ANCOVA|||||2.032|-3.123|0.673
82516090|NCT00795600|164724756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|1.386||0.738||95.0|-2.319|3.25|||ANCOVA|||||3.250|-2.319|0.738
82516091|NCT00795600|164724757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.062|STANDARD_ERROR_OF_MEAN|2.168||0.346||95.0|-2.3|6.423|||ANCOVA|||||6.423|-2.300|0.346
82516092|NCT00795600|164724758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.726|STANDARD_ERROR_OF_MEAN|6.173||0.781||95.0|-10.71|14.167|||ANCOVA|||||14.167|-10.71|0.781
82570551|NCT02484547|164851597|SUPERIORITY||Difference|0.7||||0.1515|TWO_SIDED|95.0|-0.27|1.73|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low dose and BIIB037 High Dose), difference from Placebo,95% CI and p-value at each time point were based on an MMRM model, with change from baseline in ADCSADL-MCI as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||1.73|-0.27|0.1515
82382193|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-2.5||||0.0629|TWO_SIDED|95.0|-5.2|0.1|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.1|-5.2|0.0629
82382194|NCT03349060|164474814|SUPERIORITY||Difference in LS mean|-3.6||||0.01|TWO_SIDED|95.0|-6.2|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-6.2|0.0100
82442316|NCT02133664|164593239|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.57||0.05|TWO_SIDED|95.0|-2.03|4.32|||t-test, 2 sided|||With the initial sample size plan of 53 subjects, we expect an 80% power to detect a significant difference in PASAT score with a mean difference of 8.3 points between the treatment and placebo group.||4.32|-2.03|0.05
82523233|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.593||0.3454|TWO_SIDED|80.0|-1.33|0.2||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Disorganized thought symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.20|-1.33|0.3454
82635780|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.6209|STANDARD_ERROR_OF_MEAN|1.0367|<|0.001|TWO_SIDED|95.0|-5.6804|-1.5614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.5614|-5.6804|<0.001
82382195|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|6.6||||0.1238|TWO_SIDED|95.0|-0.7|13.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||13.9|-0.7|0.1238
82516093|NCT01381172|164724802|OTHER|The primary analysis employed a Bayesian repeated measures linear model to estimate group differences in mean pVO2 at 24 weeks from baseline, with 30% borrowing of information (70% down-weighting) from the corresponding treatment group difference observed in the FIX-5 study subgroup. The Bayesian posterior probability would need to be \> 0.975 to be considered a positive result with statistical significance.||||||0.975||||||The posterior probability (Pr) that the mean difference in pVO2 (Δ3) between device and control groups is greater than zero must exceed 0.975 to meet the primary effectiveness endpoint.|Bayesian posterior probability|||The FIX-HF-5C Study was a study designed to confirm the preliminary evidence reported in the FIX-HF-5 subgroup analysis demonstrating improvement in subjects with LVEF 25-45% and NYHA class III-IV. A Bayesian statistical approach was employed to leverage the data available, particularly the pVO2 results, from the FIX-HF-5 subgroup.||||0.975
82516094|NCT01248884|164724810|NON_INFERIORITY|Non-inferiority in terms of immune response to diphteria antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 1) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.3||||||||2.3|-2.25|
82516095|NCT01248884|164724810|NON_INFERIORITY|Non-inferiority in terms of immune response to tetanus antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 1) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.3||||||||2.3|-2.25|
82516096|NCT01248884|164724810|NON_INFERIORITY|Non-inferiority in terms of immune response to diphteria antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 2) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.27||||||||2.27|-2.25|
82516097|NCT01248884|164724810|NON_INFERIORITY|Non-inferiority in terms of immune response to tetanus antigens was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK2177744 Group 2) in the percentage of seroprotected subject was below or equal to 10%.|Difference in percentage|0.0|||||TWO_SIDED|97.5|-2.25|2.27||||||||2.27|-2.25|
82516098|NCT01248884|164724812|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PT) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 1) was below or equal to 1.5.|GMC ratio|1.26|||||TWO_SIDED|97.5|1.11|1.44||||||||1.44|1.11|
82516099|NCT01248884|164724812|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PRN) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 1) was below or equal to 1.5.|GMC ratio|1.33|||||TWO_SIDED|97.5|1.14|1.54||||||||1.54|1.14|
82516100|NCT01248884|164724812|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PT) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 2) was below or equal to 1.5.|GMC ratio|1.25|||||TWO_SIDED|97.5|1.1|1.43||||||||1.43|1.1|
82516101|NCT01248884|164724812|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigen (anti-PRN) was demonstrated if the upper limit of the 97.5% confidence interval (CI) on the GMC ratio (Infanrix hexa Group divided by GSK2177744 Group 2) was below or equal to 1.5.|GMC ratio|1.58|||||TWO_SIDED|97.5|1.37|1.84||||||||1.84|1.37|
82516102|NCT01248884|164724813|NON_INFERIORITY|Non-inferiority in terms of immune response to PRP antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-3.52|||||TWO_SIDED|97.5|-10.19|3.0||||||||3|-10.19|
82516103|NCT01248884|164724813|NON_INFERIORITY|Non-inferiority in terms of immune response to PRP antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa Group minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|0.57|||||TWO_SIDED|97.5|-6.53|7.7||||||||7.7|-6.53|
82516104|NCT01248884|164724814|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|0.56|||||TWO_SIDED|97.5|-3.27|4.63||||||Immune response non-inferiority - anti-HBs (ELISA)||4.63|-3.27|
82516105|NCT01248884|164724814|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.94|||||TWO_SIDED|97.5|-4.57|2.36||||||Immune response non-inferiority - anti-HBs (ELISA)||2.36|-4.57|
82516106|NCT01248884|164724814|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 1) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.4|||||TWO_SIDED|97.5|-4.62|3.8||||||Immune response non-inferiority - anti-HBs (CLIA)||3.8|-4.62|
82516107|NCT01248884|164724814|NON_INFERIORITY|Non-inferiority in terms of immune response to hepatitis B (HBs) antigens was demonstrated if the upper limit of the 97.5 confidence interval (CI) on the group difference (Infanrix hexa minus GSK217744 Group 2) in the percentage of seroprotected subjects was below or equal to 10%.|Difference in percentage|-0.92|||||TWO_SIDED|97.5|-5.07|3.02||||||Immune response non-inferiority - anti-HBs (CLIA)||3.02|-5.07|
82516108|NCT00575588|164724826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.05|0.16||||||||0.16|-0.05|
82516109|NCT00575588|164724827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.2|||<|0.0001|TWO_SIDED|95.0|-38.1|-28.5||Between group comparison significant after controlling overall alpha of the study|Fisher Exact|||||-28.5|-38.1|<0.0001
82516110|NCT00575588|164724828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001||95.0|-2.7|-1.7||Between group comparison significant after controlling overall alpha of the study|ANCOVA|||||-1.7|-2.7|<0.0001
82516111|NCT00575588|164724829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.04|TWO_SIDED|95.0|-0.0046|-0.0001||Between group comparison significant after controlling overall alpha of the study|Mixed Models Analysis|||||-0.0001|-0.0046|0.040
82516112|NCT00575588|164724830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.17|0.06|||Repeated Measures|||||0.06|-0.17|
82516113|NCT00575588|164724831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.9|||||TWO_SIDED|95.0|-39.8|-30.0||||||||-30.0|-39.8|
82516114|NCT00575588|164724832|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|95.0|-3.32|-2.2|||Repeated Measures|||||-2.20|-3.32|
82516115|NCT00575588|164724833|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0035|STANDARD_ERROR_OF_MEAN|0.0007|||TWO_SIDED|95.0|-0.0048|-0.0022|||Mixed Models Analysis|||||-0.0022|-0.0048|
82516116|NCT01854827|164724834|SUPERIORITY|Percent was evaluated relative to 80% where statistical superiority was demonstrated if the one-sided, 90% Clopper-Pearson lower confidence bound was \> 80%.|Percent of patients|79.3|||||ONE_SIDED|90.0|63.2||||||||The lower bound of the 90% Clopper-Pearson confidence interval was \< 80%, therefore the study failed to achieve the feasibility definition stated in the protocol.||63.2|
82635781|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.1778|STANDARD_ERROR_OF_MEAN|1.0269|<|0.001|TWO_SIDED|95.0|-6.2184|-2.1372|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.1372|-6.2184|<0.001
82516117|NCT01854827|164724835|SUPERIORITY|Percent was evaluated relative to 80% where statistical superiority was demonstrated if the one-sided, 90% Clopper-Pearson lower confidence bound was \> 80%.|Percent of patients|79.3|||||ONE_SIDED|90.0|63.2||||||||The lower bound of the 90% Clopper-Pearson confidence interval was \< 80%, therefore the study failed to achieve the feasibility definition stated in the protocol.||63.2|
82516118|NCT01854827|164724836|OTHER|Percents with serious AEs prior to liver transplant were calculated, along with one-sided 90% Clopper-Pearson confidence interval lower bounds.|Percent of patients|89.7|||||ONE_SIDED|90.0|75.4||||||||||75.4|
82635782|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.2914|STANDARD_ERROR_OF_MEAN|1.2954||0.006|TWO_SIDED|95.0|-5.8649|-0.7178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.7178|-5.8649|0.006
82635783|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.3569|STANDARD_ERROR_OF_MEAN|1.3157|<|0.001|TWO_SIDED|95.0|-8.9706|-3.7432|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.7432|-8.9706|<0.001
82635784|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.3962|STANDARD_ERROR_OF_MEAN|1.3233|<|0.001|TWO_SIDED|95.0|-9.0247|-3.7677|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.7677|-9.0247|<0.001
82635785|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.9228|STANDARD_ERROR_OF_MEAN|0.9199|<|0.001|TWO_SIDED|95.0|-5.7506|-2.095|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.0950|-5.7506|<0.001
82635786|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.7094|STANDARD_ERROR_OF_MEAN|0.9244|<|0.001|TWO_SIDED|95.0|-6.5459|-2.8729|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.8729|-6.5459|<0.001
82635787|NCT02055976|164986439|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4374|STANDARD_ERROR_OF_MEAN|0.9187|<|0.001|TWO_SIDED|95.0|-6.263|-2.6118|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.6118|-6.2630|<0.001
82635788|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.4492|STANDARD_ERROR_OF_MEAN|10.2401||0.004|TWO_SIDED|95.0|-47.7872|-7.1112|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.1112|-47.7872|0.004
82635789|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.5908|STANDARD_ERROR_OF_MEAN|10.4568|<|0.001|TWO_SIDED|95.0|-61.3577|-19.824|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-19.8240|-61.3577|<0.001
82516119|NCT01854827|164724837|OTHER|Percent of patients with level 3-5 toxicity are presented along with one-sided 90% Clopper-Pearson confidence interval lower bound.|Percent of patients|89.7|||||ONE_SIDED|90.0|75.4||||||||||75.4|
82635790|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.163|STANDARD_ERROR_OF_MEAN|10.5402||0.006|TWO_SIDED|95.0|-48.0927|-6.2332|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.2332|-48.0927|0.006
82382196|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|20.1||||0.0008|TWO_SIDED|95.0|11.0|29.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.2|11.0|0.0008
82382197|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|6.8||||0.2091|TWO_SIDED|95.0|-2.8|16.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.4|-2.8|0.2091
82516120|NCT01854827|164724838|OTHER|Percent of patients with other expected AEs are presented along with one-sided 90% Clopper-Pearson confidence limit lower bound.|Percent of patients|27.6|||||ONE_SIDED|90.0|14.5||||||||||14.5|
82516121|NCT01854827|164724839|SUPERIORITY|One-sided testing for superiority of IVIG to historical control.|Odds Ratio (OR)|0.67||||0.5486|ONE_SIDED|90.0||2.38|||Regression, Logistic|||IVIG was compared to the historical placebo control from the START study (n=64): PMID: 24794368 NCT00294684||2.38||0.5486
82516122|NCT01854827|164724840|SUPERIORITY|One-sided testing for superiority of IVIG relative to historical control.|Odds Ratio (OR)|0.33||||0.8455|ONE_SIDED|90.0||1.22|||Regression, Logistic|||IVIG was compared for superiority to the historical control of START study placebo (N=64). PMID: 24794368 NCT00294684||1.22||0.8455
82382198|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|24.0||||0.0005|TWO_SIDED|95.0|12.9|35.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.0|12.9|0.0005
82382199|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|9.1||||0.1161|TWO_SIDED|95.0|-0.9|19.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.1|-0.9|0.1161
82382200|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|26.5||||0.0002|TWO_SIDED|95.0|15.3|37.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.7|15.3|0.0002
82516123|NCT01854827|164724841|SUPERIORITY|One-sided.|Odds Ratio (OR)|0.29||||0.8431|ONE_SIDED|90.0||1.24||One-sided|Regression, Logistic|||IVIG was compared for superiority to the historical START placebo control (N=64).||1.24||0.8431
82516124|NCT01854827|164724842|SUPERIORITY|One-sided for IVIG superior to historical START placebo control. PMID: 24794368 NCT00294684|Risk Difference (RD)|-11.9|||||ONE_SIDED|90.0||2.1||||||K-M estimates for survival for IVIG vs the historical START placebo control are provided, along with one-sided 90% upper bounds of the confidence intervals.||2.1||
82516125|NCT00736996|164724844|SUPERIORITY_OR_OTHER||||||<|0.0125|TWO_SIDED|||||Statistical significance was defined as a 2-sided p-value \< 0.0125 (=0.05/4) to adjust for multiple comparisons.|Regression, Linear|||The mean change in domain score with PIO was compared with the mean change in domain score with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline domain score.||||<0.0125
82570552|NCT02484547|164851597|SUPERIORITY||Difference|1.7||||0.0006|TWO_SIDED|95.0|0.75|2.74|||MMRM|||Adjusted mean for each treatment group (Placebo, BIIB037 Low dose and BIIB037 High Dose), difference from Placebo,95% CI and p-value at each time point were based on an MMRM model, with change from baseline in ADCSADL-MCI as dependent variable and with fixed effects of treatment group, categorical visit, treatment-by-visit interaction, baseline ADCS-ADL-MCI, baseline ADCS-ADL-MCI by visit interaction, baseline MMSE, AD symptomatic medication use at baseline, region, and laboratory ApoE status.||2.74|0.75|0.0006
82382201|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|8.1||||0.1837|TWO_SIDED|95.0|-2.8|19.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.1|-2.8|0.1837
82382202|NCT03349060|164474815|SUPERIORITY||Difference in Percentage|19.8||||0.0046|TWO_SIDED|95.0|8.1|31.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||31.6|8.1|0.0046
82382203|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|3.2||||0.4795|TWO_SIDED|95.0|-10.3|16.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||16.6|-10.3|0.4795
82382204|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-12.7|12.7||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.7|-12.7|
82382205|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|13.3||||0.1452|TWO_SIDED|95.0|-3.6|30.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.3|-3.6|0.1452
82382206|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|9.7||||0.2232|TWO_SIDED|95.0|-6.1|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-6.1|0.2232
82382207|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|5.8||||0.5707|TWO_SIDED|95.0|-13.7|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-13.7|0.5707
82382208|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|5.8||||0.5777|TWO_SIDED|95.0|-13.6|25.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.1|-13.6|0.5777
82382209|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|19.3||||0.0744|TWO_SIDED|95.0|1.0|37.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.5|1.0|0.0744
82382210|NCT03349060|164474816|SUPERIORITY||Difference in Percentage|9.7||||0.2232|TWO_SIDED|95.0|-6.1|25.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.4|-6.1|0.2232
82570553|NCT03448536|164851601|SUPERIORITY||LS Means Difference|4.31|||<|0.001|TWO_SIDED|95.0|2.06|6.56|||ANCOVA|||||6.56|2.06|< 0.001
82382211|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|31.6|||<|0.0001|TWO_SIDED|95.0|17.2|46.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.0|17.2|<0.0001
82570554|NCT03448536|164851602|SUPERIORITY||LS Means Difference|9.8|||<|0.001|TWO_SIDED|95.0|5.75|13.85|||ANCOVA|||||13.85|5.75|< 0.001
82516126|NCT00736996|164724844|SUPERIORITY_OR_OTHER||||||<|0.0125|TWO_SIDED|||||Statistical significance was defined as a 2-sided p-value \< 0.0125 (=0.05/4) to adjust for multiple comparisons.|Regression, Linear|||The mean change in domain score with EET was compared with the mean change in domain score with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline domain score.||||<0.0125
82516127|NCT00736996|164724845|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with PIO was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
82635791|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.1677|STANDARD_ERROR_OF_MEAN|8.8755||0.004|TWO_SIDED|95.0|-41.8023|-6.5332|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.5332|-41.8023|0.004
82516128|NCT00736996|164724845|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with EET was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
82635792|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.2255|STANDARD_ERROR_OF_MEAN|8.9203||0.017|TWO_SIDED|95.0|-36.9471|-1.5038|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.5038|-36.9471|0.017
82635793|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-26.5155|STANDARD_ERROR_OF_MEAN|8.8387||0.002|TWO_SIDED|95.0|-44.0795|-8.9515|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-8.9515|-44.0795|0.002
82570555|NCT03448536|164851603|SUPERIORITY||LS Means Difference|1.52|||=|0.129|TWO_SIDED|95.0|-0.45|3.49|||ANCOVA|||||3.49|-0.45|= 0.129
82570556|NCT03448536|164851604|SUPERIORITY||LS Means Difference|8.27|||<|0.001|TWO_SIDED|95.0|5.76|10.78|||ANCOVA|||||10.78|5.76|< 0.001
82635794|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.3898|STANDARD_ERROR_OF_MEAN|5.1768|<|0.001|TWO_SIDED|95.0|-28.6698|-8.1097|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-8.1097|-28.6698|<0.001
82516129|NCT00736996|164724846|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with PIO was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
82516130|NCT00736996|164724846|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||The mean change with EET was compared with the mean change with Placebo in a linear regression conditioned on the stratification categories (MCI subtype and number of APOE ε4 alleles) and the baseline level of the outcome variable.||||<0.05
82516131|NCT02667912|164724847|SUPERIORITY||Mean Difference (Final Values)|10.8||||0.045|TWO_SIDED|95.0|0.3|21.4||The a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||21.4|0.3|0.045
82516132|NCT02667912|164724850|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82516133|NCT02667912|164724851|OTHER|||||||0.203|||||||t-test, 2 sided|||||||0.203
82516134|NCT02667912|164724852|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.27|TWO_SIDED|95.0|-11.9|3.4|||t-test, 2 sided|||||3.4|-11.9|0.27
82516135|NCT02667912|164724853|SUPERIORITY||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|5.7||0.17|TWO_SIDED|95.0|-3.7|19.3||The a priori threshold for statistical significance p\<0.05|t-test, 2 sided|||||19.3|-3.7|0.17
82516136|NCT02667912|164724856|SUPERIORITY|||||||0.213|||||||t-test, 2 sided|||||||0.213
82516137|NCT02667912|164724857|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|||||||0.041
82516138|NCT02667912|164724858|OTHER|||||||0.304|||||||t-test, 2 sided|||||||0.304
82516139|NCT02667912|164724859|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82516140|NCT02667912|164724860|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82516141|NCT02667912|164724861|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82635795|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.7882|STANDARD_ERROR_OF_MEAN|5.264|<|0.001|TWO_SIDED|95.0|-47.2423|-26.3341|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.3341|-47.2423|<0.001
82516142|NCT02667912|164724862|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82516143|NCT02667912|164724863|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82516144|NCT02667912|164724864|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||0.054
82516145|NCT02667912|164724865|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
82516146|NCT02667912|164724866|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||||||0.324
82516147|NCT02667912|164724867|SUPERIORITY|||||||0.217|||||||t-test, 2 sided|||||||0.217
82516148|NCT02667912|164724868|SUPERIORITY|||||||0.238|||||||t-test, 2 sided|||||||0.238
82516149|NCT02667912|164724869|SUPERIORITY|||||||0.969|||||||t-test, 2 sided|||||||0.969
82516150|NCT02667912|164724870|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
82516151|NCT02673697|164724952|NON_INFERIORITY|"The primary analysis will calculate the Bayesian posterior probability that the difference \[MACCECONTROL~\- MACCEPERCEVAL\] is lower than 0.05 (predetermined non-inferiority margin): The null hypothesis will be rejected, and non-inferiority concluded, if the posterior probability exceeds 0.9775 at the final analysis."||||||0.9914||||||The null hypothesis will be rejected, and non-inferiority concluded, if the posterior probability exceeds 0.9775 at the final analysis.|Bayesian|||"A the primary analysis will compare Perceval valve (Treatment arm) vs. standard sutured stented valve (Control arm) on the Per Protocol population.~A one-sided non-inferiority test, using the non-inferiority margin Δ=0.05, will be performed to compare the two arms on the proportion of subjects that are event-free at one year (primary analysis)."||||0.9914
82516152|NCT00022516|164724960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.14|TWO_SIDED|95.0|0.6|1.06|||Log Rank|||||1.06|0.6|0.14
82516153|NCT00022516|164724961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.357|TWO_SIDED|95.0|0.65|1.17|||Log Rank|||||1.17|0.65|0.3570
82516154|NCT00022516|164724962|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.3178|TWO_SIDED|95.0|0.62|1.17|||Log Rank|||||1.17|0.62|0.3178
82516155|NCT00022516|164724963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.06|TWO_SIDED|95.0|0.6|1.01|||Log Rank|||||1.01|0.6|0.06
82382212|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|35.7|||<|0.0001|TWO_SIDED|95.0|21.5|49.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.9|21.5|<0.0001
82516156|NCT03321019|164724967|OTHER||F-statistic|8.59|||<|0.0001|TWO_SIDED|||||The p value was adjusted for multiple comparisons using Tukey's method.|ANOVA|Degree of freedom - 3, 278||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||<.0001
82382213|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|20.4||||0.009|TWO_SIDED|95.0|5.2|35.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.6|5.2|0.0090
82382214|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|33.3|||<|0.0001|TWO_SIDED|95.0|19.0|47.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.7|19.0|<0.0001
82382215|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|16.5||||0.0421|TWO_SIDED|95.0|0.6|32.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||32.4|0.6|0.0421
82382216|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|33.8|||<|0.0001|TWO_SIDED|95.0|18.9|48.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.8|18.9|<0.0001
82382217|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|23.5||||0.0035|TWO_SIDED|95.0|8.2|38.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.8|8.2|0.0035
82382218|NCT03349060|164474817|SUPERIORITY||Difference in Percentage|28.8||||0.0002|TWO_SIDED|95.0|13.8|43.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.9|13.8|0.0002
82382219|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|17.1||||0.2497|TWO_SIDED|95.0|-9.1|43.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.2|-9.1|0.2497
82382220|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|17.1||||0.2371|TWO_SIDED|95.0|-9.0|43.3|||Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||43.3|-9.0|0.2371
82382221|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|28.8||||0.0697|TWO_SIDED|95.0|-0.8|58.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.3|-0.8|0.0697
82382222|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|43.9||||0.003|TWO_SIDED|95.0|16.2|71.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||71.7|16.2|0.0030
82382223|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|31.0||||0.0583|TWO_SIDED|95.0|2.0|59.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||59.9|2.0|0.0583
82382224|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|41.2||||0.0085|TWO_SIDED|95.0|13.2|69.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||69.1|13.2|0.0085
82382225|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|19.3||||0.1948|TWO_SIDED|95.0|-9.8|48.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.5|-9.8|0.1948
82516157|NCT03321019|164724968|OTHER||F-statistic|0.44||||0.72|TWO_SIDED|||||Tukey's method was used to control for multiple comparisons.|ANOVA|Degrees of freedom - 3. 278||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.72
82570557|NCT03448536|164851605|SUPERIORITY||LS Means Difference|0.56|||=|0.307|TWO_SIDED|95.0|-0.52|1.64|||ANCOVA|||||1.64|-0.52|= 0.307
82635796|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-36.8453|STANDARD_ERROR_OF_MEAN|5.3084|<|0.001|TWO_SIDED|95.0|-47.3864|-26.3041|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-26.3041|-47.3864|<0.001
82516158|NCT03321019|164724969|OTHER||F-statistic|3.048||||0.02|TWO_SIDED|||||Dunnett's T3 method was used to account for multiple comparisons.|ANOVA|degrees of freedom: 3, 229||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.02
82382226|NCT03349060|164474818|SUPERIORITY||Difference in Percentage|30.6||||0.0296|TWO_SIDED|95.0|2.8|58.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.5|2.8|0.0296
82570558|NCT03448536|164851606|SUPERIORITY||LS Means Difference|3.75|||<|0.001|TWO_SIDED|95.0|2.34|5.16|||ANCOVA|||||5.16|2.34|< 0.001
82570559|NCT03448536|164851607|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
82570560|NCT03448536|164851609|SUPERIORITY||||||=|0.002|||||||Cochran-Mantel-Haenszel|||||||= 0.002
82570561|NCT01494298|164851628|SUPERIORITY_OR_OTHER||||||=|0.002||95.0||||The control group average age was 6 years lower(P=0.001). Results were adjusted via a logistic regression and presented as age-adjusted means and SE. The unadjusted differences had similar results.|t-test, 2 sided|||Hypothesis - There will be differences in ApoB between AA with T2DM and those without. To achieve a power of 80%, 48 subjects in each group were needed to detect 15 mg/dL difference in ApoB levels, assuming a standard deviation of 26 mg/dL if alpha was set at 0.05. Continuous data were compared using a Students t-test and categorical data were compared using test.||||=0.002
82570562|NCT01494298|164851630|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||t-test, 2 sided|||||||0.84
82570563|NCT00942188|164851637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.854|||||TWO_SIDED|95.0|-1.94|0.23|||ANCOVA|||||0.23|-1.94|
82570564|NCT00942188|164851637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.252|||||TWO_SIDED|95.0|-2.48|-0.03|||ANCOVA|||||-0.03|-2.48|
82570565|NCT00942188|164851637|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|||||TWO_SIDED|95.0|-1.76|0.54|||ANCOVA|||||0.54|-1.76|
82570566|NCT00942188|164851638|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.995|||||TWO_SIDED|95.0|-9.82|3.83|||ANCOVA|||||3.83|-9.82|
82635797|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.9411|STANDARD_ERROR_OF_MEAN|7.8656|<|0.001|TWO_SIDED|95.0|-48.5748|-17.3075|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.3075|-48.5748|<0.001
82382227|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-0.5||||0.1718|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.2|-1.1|0.1718
82516159|NCT03321019|164724970|OTHER||F-statistic|2.939||||0.034|TWO_SIDED|||||The p value was adjusted in the analysis for multiple comparisons using Tukey's method.|ANOVA|Degrees of freedom - 3, 231||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.034
82570567|NCT00942188|164851638|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.324|||||TWO_SIDED|95.0|-10.21|5.56|||ANCOVA|||||5.56|-10.21|
82570568|NCT00942188|164851638|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.635|||||TWO_SIDED|95.0|-9.16|5.89|||ANCOVA|||||5.89|-9.16|
82570569|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.59|0.05||This is the estimated value for week 10 HbA1c.|ANCOVA|||||0.05|-0.59|
82570570|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.369|||||TWO_SIDED|95.0|-0.74|0.0||This is the estimated value for HbA1c at Week 10.|ANCOVA|||||0.00|-0.74|
82570571|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.227|||||TWO_SIDED|95.0|-0.59|0.13||This is the estimated value for HbA1c at Week 10.|ANCOVA|||||0.13|-0.59|
82570572|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.267|||||TWO_SIDED|95.0|-0.61|0.08||This is the estimated value for HbA1c at week 12.|ANCOVA|||||0.08|-0.61|
82570573|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.396|||||TWO_SIDED|95.0|-0.79|0.0||This is the estimated value for HbA1c at Week 12.|ANCOVA|||||0.00|-0.79|
82570574|NCT00942188|164851640|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.221|||||TWO_SIDED|95.0|-0.59|0.15||This is the estimated value for HbA1c at week 12.|ANCOVA|||||0.15|-0.59|
82570575|NCT00511836|164851706|SUPERIORITY_OR_OTHER||||||<|2e-05|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0.||||<0.00002
82570576|NCT00511836|164851709|SUPERIORITY_OR_OTHER||||||<|0.013|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0||||<0.013
82570577|NCT00511836|164851710|SUPERIORITY_OR_OTHER|||||||0.245|||||||t-test, 1 sided|||Null hypothesis: mean treatment difference=0||||0.245
82570578|NCT00362375|164851731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.05|TWO_SIDED|95.0|1.28|4.5|||Generalized Estimating Equation|||GEE cluster-adjusted odds ratio||4.50|1.28|<0.05
82570579|NCT00362375|164851732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|||<|0.05|TWO_SIDED|95.0|0.2|1.16|||GEE|||||1.16|0.20|<0.05
82382228|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.1||||0.0018|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.7|0.0018
82382229|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.3||||0.0005|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-2.0|0.0005
82570580|NCT00362375|164851733|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39|||<|0.05|TWO_SIDED|95.0|0.99|1.95|||GEE|||||1.95|0.99|<0.05
82570581|NCT00362375|164851734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07|||<|0.05|TWO_SIDED|95.0|0.8|1.44|||GEE|GEE incident rate ratio||||1.44|0.80|<0.05
82570582|NCT00362375|164851735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|||<|0.05|TWO_SIDED|95.0|0.76|2.71|||GEE|||||2.71|0.76|<0.05
82570583|NCT04702893|164851805|OTHER|No formal hypotheses were tested.||||||0.1185|||||||Z-test of correlation|||||||0.1185
82570584|NCT04702893|164851806|OTHER|No formal hypotheses were tested.||||||0.5135|||||||Z-test of correlation|||||||0.5135
82635798|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.3176|STANDARD_ERROR_OF_MEAN|7.9032|<|0.001|TWO_SIDED|95.0|-47.0238|-15.6114|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-15.6114|-47.0238|<0.001
82635799|NCT02055976|164986440|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.847|STANDARD_ERROR_OF_MEAN|7.8576|<|0.001|TWO_SIDED|95.0|-48.465|-17.2289|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.2289|-48.4650|<0.001
82635800|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.663|STANDARD_ERROR_OF_MEAN|1.431|<|0.001|TWO_SIDED|95.0|4.82|10.506|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.506|4.820|<0.001
82635801|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.29|STANDARD_ERROR_OF_MEAN|1.46|<|0.001|TWO_SIDED|95.0|6.389|12.19|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||12.190|6.389|<0.001
82635802|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.255|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|4.336|10.175|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||10.175|4.336|<0.001
82635803|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.228|STANDARD_ERROR_OF_MEAN|1.806||0.11|TWO_SIDED|95.0|-1.361|5.818|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.818|-1.361|0.110
82382230|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.1|-2.5|<0.0001
82382231|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-0.7||||0.0476|TWO_SIDED|95.0|-1.5|0.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.0|-1.5|0.0476
82382232|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.0|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.0|-2.4|<0.0001
82635804|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.578|STANDARD_ERROR_OF_MEAN|1.815||0.001|TWO_SIDED|95.0|1.972|9.185|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.185|1.972|0.001
82635805|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.712|STANDARD_ERROR_OF_MEAN|1.789||0.005|TWO_SIDED|95.0|1.156|8.268|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.268|1.156|0.005
82635806|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.888|STANDARD_ERROR_OF_MEAN|2.035||0.002|TWO_SIDED|95.0|1.844|9.932|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.932|1.844|0.002
82516160|NCT03321019|164724971|OTHER||F-statistic|1.494||||0.022|TWO_SIDED|||||Tukey's method was used to adjust for multiple comparisons.|ANOVA|Degrees of freedom - 3, 274||Healthy controls were compared to PD participants across each of the 3 visits. PD participants were compared between visits 1, 2 and 3.||||0.022
82382233|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.1||||0.0028|TWO_SIDED|95.0|-1.9|-0.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.4|-1.9|0.0028
82382234|NCT03349060|164474819|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-2.3|<0.0001
82516161|NCT02328326|164725016|SUPERIORITY||Mean Difference (Net)|2.6||||0.048|TWO_SIDED|95.0|0.02|5.18|||Regression, Linear|Model was adjusted for baseline value of PAM, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAM is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAM score compared to patient participants in PACT.||5.18|0.02|0.048
82516162|NCT02328326|164725017|SUPERIORITY||Mean Difference (Net)|0.9||||0.32|TWO_SIDED|95.0|-0.87|2.67|||Regression, Linear|Model adjusted for baseline value of ukpds, insulin use, site, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline. Reference for comparison is PACT.|The null hypothesis was that change (baseline to 12 months) in ukpds 5 year risk score is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' 5-year cardiovascular event risk.||2.67|-0.87|0.32
82570585|NCT04702893|164851807|OTHER|No formal hypotheses were tested.||||||0.0764|||||||Z-test of correlation|||||||0.0764
82570586|NCT04702893|164851808|OTHER|No formal hypotheses were tested.||||||0.3478|||||||Z-test of correlation|||||||0.3478
82570587|NCT03831854|164851833|SUPERIORITY||Median Difference (Final Values)|0.0||||0.08|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.08
82635807|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.251|STANDARD_ERROR_OF_MEAN|2.062|<|0.001|TWO_SIDED|95.0|5.153|13.349|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.349|5.153|<0.001
82382235|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-0.2||||0.6134|TWO_SIDED|95.0|-0.9|0.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.5|-0.9|0.6134
82516163|NCT02328326|164725018|SUPERIORITY||Mean Difference (Net)|0.71||||0.01|TWO_SIDED|95.0|0.2|1.22|||Regression, Linear|Model adjusted for BL value of Healthy Eating, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Healthy Eating is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly change patient participants' Healthy Eating scores compared to patient participants in PACT.||1.22|0.20|0.01
82516164|NCT02328326|164725019|SUPERIORITY||Mean Difference (Net)|0.17||||0.33|TWO_SIDED|95.0|-0.17|0.51|||Regression, Linear|Model was adjusted for baseline value of A1c, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in A1c is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' A1c score compared to patient participants in PACT.||0.51|-0.17|0.33
82516165|NCT02328326|164725020|SUPERIORITY||Mean Difference (Net)|-2.82||||0.18|TWO_SIDED|95.0|-7.0|1.35|||Regression, Linear|Model was adjusted for baseline value of SBP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40.|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in SBP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' SBP score compared to patient participants in PACT.||1.35|-7.00|0.18
82516166|NCT02328326|164725021|SUPERIORITY||Mean Difference (Net)|0.12||||0.83|TWO_SIDED|95.0|-0.95|1.19|||Regression, Linear|Model was adjusted for baseline value of PAID, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAID is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAID score compared to patient participants in PACT.||1.19|-0.95|0.83
82570588|NCT03831854|164851834|SUPERIORITY|||||||0.11|||||||Fisher Exact|The relative risk could not be assessed due to zero incidence in the treatment group||||||0.11
82635808|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.264|STANDARD_ERROR_OF_MEAN|2.072||0.006|TWO_SIDED|95.0|1.147|9.38|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.380|1.147|0.006
82635809|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.065|STANDARD_ERROR_OF_MEAN|1.843||0.004|TWO_SIDED|95.0|1.402|8.728|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.728|1.402|0.004
82635810|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.096|STANDARD_ERROR_OF_MEAN|1.853||0.004|TWO_SIDED|95.0|1.413|8.78|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||8.780|1.413|0.004
82635811|NCT02055976|164986442|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.301|STANDARD_ERROR_OF_MEAN|1.832||0.011|TWO_SIDED|95.0|0.658|7.943|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.943|0.658|0.011
82635812|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.389|STANDARD_ERROR_OF_MEAN|2.525|<|0.001|TWO_SIDED|95.0|8.373|18.405|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.405|8.373|<0.001
82635813|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.546|STANDARD_ERROR_OF_MEAN|2.576|<|0.001|TWO_SIDED|95.0|11.43|21.663|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||21.663|11.430|<0.001
82635814|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.288|STANDARD_ERROR_OF_MEAN|2.593|<|0.001|TWO_SIDED|95.0|8.137|18.438|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.438|8.137|<0.001
82635815|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.112|STANDARD_ERROR_OF_MEAN|2.909||0.081|TWO_SIDED|95.0|-1.671|9.895|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||9.895|-1.671|0.081
82635816|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.56|STANDARD_ERROR_OF_MEAN|2.927|<|0.001|TWO_SIDED|95.0|3.743|15.377|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.377|3.743|<0.001
82635817|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.826|STANDARD_ERROR_OF_MEAN|2.878|<|0.001|TWO_SIDED|95.0|4.103|15.548|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85 : Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.548|4.103|<0.001
82382236|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-0.7||||0.0422|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.0|-1.4|0.0422
82570589|NCT03831854|164851835|SUPERIORITY||Median Difference (Final Values)|-2.3||||0.63|TWO_SIDED|98.5|-9.5|5.0|||Wilcoxon (Mann-Whitney)|||||5.0|-9.5|0.63
82635818|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.004|STANDARD_ERROR_OF_MEAN|3.326||0.002|TWO_SIDED|95.0|3.395|16.612|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.612|3.395|0.002
82635819|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.252|STANDARD_ERROR_OF_MEAN|3.367|<|0.001|TWO_SIDED|95.0|9.56|22.943|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||22.943|9.560|<0.001
82635820|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.571|STANDARD_ERROR_OF_MEAN|3.384||0.003|TWO_SIDED|95.0|2.847|16.295|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.295|2.847|0.003
82570590|NCT03831854|164851836|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.58|TWO_SIDED|98.3|-1.7|2.6|||t-test, 2 sided|||||2.6|-1.7|0.58
82570591|NCT03831854|164851837|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|98.3|0.3|3.8|||Chi-squared|||||3.8|0.3|1.0
82516167|NCT02328326|164725022|SUPERIORITY||Mean Difference (Net)|0.11||||0.79|TWO_SIDED|95.0|-0.71|0.93|||Regression, Linear|Model was adjusted for baseline value of PEPPI, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PEPPI is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PEPPI score compared to patient participants in PACT.||0.93|-0.71|0.79
82516168|NCT02328326|164725023|SUPERIORITY||Median Difference (Net)|0.15||||0.21|TWO_SIDED|95.0|-0.09|0.4|||Regression, Linear|Model adjusted for BL value of Cho to HDL Ratio, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40.|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Chol to HDL Ratio is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly decrease patient participants' Chol to HDL Ratio score compared to patient participants in PACT.||0.40|-0.09|0.21
82635821|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.029|STANDARD_ERROR_OF_MEAN|2.858||0.001|TWO_SIDED|95.0|3.348|14.71|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.710|3.348|0.001
82382237|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-0.5||||0.205|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.3|-1.2|0.2050
82516169|NCT02328326|164725025|SUPERIORITY||Mean Difference (Net)|0.3||||0.01|TWO_SIDED|95.0|0.08|0.53|||Regression, Linear|Model was adjusted for baseline value of IOCQ, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in IOCQ is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' IOCQ score compared to patient participants in PACT.||0.53|0.08|0.01
82516170|NCT02328326|164725026|EQUIVALENCE|Equivalent distribution among categories|difference in count|-1.0||||0.17|TWO_SIDED||||||Chi-squared||||Difference in count of those who stopped smoking in CO-IMPACT vs. those who stopped smoking in PACT.|||0.17
82516171|NCT02328326|164725027|SUPERIORITY||Mean Difference (Net)|-0.04||||0.87|TWO_SIDED|95.0|-0.56|0.47|||Regression, Linear|Model adjusted for BL value of Physical Activity, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Physical activity is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Physical activity score compared to patient participants in PACT.||0.47|-0.56|0.87
82570592|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-2.6||||0.887|TWO_SIDED|90.0|-6.2|1.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 2||1.0|-6.2|0.887
82570593|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|0.3||||0.431|TWO_SIDED|90.0|-2.6|3.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 2||3.2|-2.6|0.431
82570594|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-1.0||||0.647|TWO_SIDED|90.0|-5.4|3.4|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||3.4|-5.4|0.647
82635822|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.543|STANDARD_ERROR_OF_MEAN|2.876||0.002|TWO_SIDED|95.0|2.827|14.26|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.260|2.827|0.002
82570595|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|2.4||||0.13|TWO_SIDED|90.0|-1.1|6.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||6.0|-1.1|0.130
82570596|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-2.5||||0.818|TWO_SIDED|90.0|-6.9|2.0|||Mixed model repeated measures analysis||Comparison of model-based mean estimates|Day 15||2.0|-6.9|0.818
82570597|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|0.3||||0.457|TWO_SIDED|90.0|-3.6|4.1|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 15||4.1|-3.6|0.457
82570598|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-3.1||||0.906|TWO_SIDED|90.0|-6.9|0.8|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||0.8|-6.9|0.906
82570599|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-0.4||||0.566|TWO_SIDED|90.0|-4.1|3.3|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||3.3|-4.1|0.566
82570600|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-1.3||||0.686|TWO_SIDED|90.0|-5.6|3.1|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||3.1|-5.6|0.686
82570601|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|1.4||||0.28|TWO_SIDED|90.0|-2.5|5.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||5.2|-2.5|0.280
82635823|NCT02055976|164986443|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.898|STANDARD_ERROR_OF_MEAN|2.84||0.001|TWO_SIDED|95.0|3.252|14.544|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||14.544|3.252|0.001
82516172|NCT02328326|164725028|SUPERIORITY||Mean Difference (Net)|0.23||||0.31|TWO_SIDED|95.0|-0.22|0.68|||Regression, Linear|Model adjusted for BL value of Blood Sugar Home Testing, insulin use, randomization strat. variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Blood Sugar Home Testing is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Blood Sugar Home Testing score compared to patient participants in PACT.||0.68|-0.22|0.31
82570602|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-2.4||||0.849|TWO_SIDED|90.0|-6.3|1.4|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.4|-6.3|0.849
82570603|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|1.5||||0.254|TWO_SIDED|90.0|-2.2|5.2|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||5.2|-2.2|0.254
82635824|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.462|STANDARD_ERROR_OF_MEAN|1.434|<|0.001|TWO_SIDED|95.0|-10.311|-4.614|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-4.614|-10.311|<0.001
82382238|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-1.2||||0.0012|TWO_SIDED|95.0|-1.9|-0.5|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.5|-1.9|0.0012
82635825|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.693|STANDARD_ERROR_OF_MEAN|1.469|<|0.001|TWO_SIDED|95.0|-9.61|-3.776|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-3.776|-9.610|<0.001
82570604|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|-2.7||||0.866|TWO_SIDED|90.0|-6.6|1.3|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.3|-6.6|0.866
82570605|NCT03927690|164851846|SUPERIORITY||Difference (Test vs Reference)|2.0||||0.198|TWO_SIDED|90.0|-1.9|5.8|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||5.8|-1.9|0.198
82570606|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.2||||0.998|TWO_SIDED|90.0|1.08|1.33|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||1.33|1.08|0.998
82570607|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.0||||0.527|TWO_SIDED|90.0|0.92|1.09|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 8||1.09|0.92|0.527
82570608|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.21||||0.999|TWO_SIDED|90.0|1.1|1.33|||Mixed model repeated measures analysis||Comparison of model-based mean estimates|Day 15||1.33|1.10|0.999
82516173|NCT02328326|164725029|SUPERIORITY||Mean Difference (Net)|0.07||||0.87|TWO_SIDED|95.0|-0.76|0.89|||Regression, Linear|Model adjusted for BL value of Blood Pressure Home Testing, insulin use, randomization strat. variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Blood Pressure Home Testing is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Blood Pressure Home Testing score compared to patient participants in PACT.||0.89|-0.76|0.87
82382239|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-0.4||||0.2657|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.3|-1.2|0.2657
82516174|NCT02328326|164725030|SUPERIORITY||Mean Difference (Net)|-0.1||||0.56|TWO_SIDED|95.0|-0.42|0.23|||Regression, Linear|Model adjusted for BL value of Take Oral Meds as Prescribed, insulin use, randomization strat variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Take Oral Meds as Prescribed is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Take Oral Meds as Prescribed score compared to patient participants in PACT.||0.23|-0.42|0.56
82635826|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.755|STANDARD_ERROR_OF_MEAN|1.479|<|0.001|TWO_SIDED|95.0|-11.692|-5.817|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.817|-11.692|<0.001
82516175|NCT02328326|164725031|SUPERIORITY||Mean Difference (Net)|0.07||||0.67|TWO_SIDED|95.0|-0.26|0.41|||Regression, Linear|Model adjusted for baseline value of Take Insulin as Prescribed, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Take Insulin as prescribed is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Take Insulin as Prescribed compared to patient participants in PACT.||0.41|-0.26|0.67
82516176|NCT02328326|164725032|SUPERIORITY|The null hypothesis was that change (baseline to 12 months) in Foot Care is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Foot Care score compared to patient participants in PACT.|Median Difference (Net)|0.26||||0.29|TWO_SIDED|95.0|-0.22|0.75|||Regression, Linear|Model was adjusted for baseline value of Foot Care, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|||Net difference defined as 12 months minus baseline|0.75|-0.22|0.29
82516177|NCT02328326|164725033|SUPERIORITY||Mean Difference (Net)|0.4||||0.01|TWO_SIDED|95.0|0.09|0.71|||Regression, Linear|Model was adjusted for baseline value of SE, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in SE is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly change patient participants' SE scores compared to patient participants in PACT.||0.71|0.09|0.01
82516178|NCT02328326|164725034|SUPERIORITY||Mean Difference (Net)|0.1||||0.67|TWO_SIDED|95.0|-0.34|0.55|||Regression, Linear|Model was adjusted for baseline value of Lorig\_CP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in Lorig\_CP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' Lorig\_CP score compared to patient participants in PACT.||0.55|-0.34|0.67
82516179|NCT02328326|164725035|SUPERIORITY||Mean Difference (Net)|0.28||||0.53|TWO_SIDED|95.0|-0.6|1.16|||Regression, Linear||Net difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in CSIS is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' CSIS score compared to patient participants in PACT.||1.16|-0.60|0.53
82516180|NCT02328326|164725036|SUPERIORITY||Mean Difference (Net)|0.32||||0.5|TWO_SIDED|95.0|-0.61|1.25|||Regression, Linear|Model was adjusted for baseline value of PAID\_CP, insulin use, randomization stratification variables: care partner not in home and PAM cutoff of 40|Net difference defined as 12 months minus baselineNet difference defined as 12 months minus baseline|The null hypothesis was that change (baseline to 12 months) in PAID\_CP is the same for CO-IMPACT (intervention) compared to PACT (control). The alternative hypothesis is that that COIMPACT will significantly increase patient participants' PAID\_CP score compared to patient participants in PACT.||1.25|-0.61|0.50
82516181|NCT03452917|164725040|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.82|ONE_SIDED|95.0|-8.0||||Chi-squared||||||-8.0|0.82
82516182|NCT03452917|164725040|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.66|ONE_SIDED|95.0|-6.5||||Chi-squared||||||-6.5|0.66
82516183|NCT03452917|164725041|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.44|TWO_SIDED|95.0|-6.0|2.6|||Chi-squared|||||2.6|-6.0|0.44
82516184|NCT03452917|164725041|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.85|TWO_SIDED|95.0|-4.9|4.0|||Chi-squared|||||4.0|-4.9|0.85
82516185|NCT03452917|164725042|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.12|TWO_SIDED|95.0|-0.9|5.4|||Wilcoxon (Mann-Whitney)|||||5.4|-0.9|0.12
82516186|NCT03452917|164725042|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.41|TWO_SIDED|95.0|-2.5|3.6|||Wilcoxon (Mann-Whitney)|||||3.6|-2.5|0.41
82516187|NCT03452917|164725043|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.42|TWO_SIDED|95.0|-8.3|3.5|||Chi-squared|||||3.5|-8.3|0.42
82516188|NCT03452917|164725043|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.49|TWO_SIDED|95.0|-8.0|3.9|||Chi-squared|||||3.9|-8.0|0.49
82635827|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.072|STANDARD_ERROR_OF_MEAN|1.773||0.484|TWO_SIDED|95.0|-3.596|3.451|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.451|-3.596|0.484
82570609|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.03||||0.716|TWO_SIDED|90.0|0.95|1.12|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 15||1.12|0.95|0.716
82382240|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-1.2||||0.0019|TWO_SIDED|95.0|-2.0|-0.5|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.5|-2.0|0.0019
82516189|NCT03452917|164725044|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.93|TWO_SIDED|95.0|-7.8|8.6|||Chi-squared|||||8.6|-7.8|0.93
82570610|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.21||||1|TWO_SIDED|90.0|1.13|1.31|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||1.31|1.13|1.000
82516190|NCT03452917|164725044|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.2|TWO_SIDED|95.0|-2.8|13.3|||Chi-squared|||||13.3|-2.8|0.20
82516191|NCT03452917|164725045|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.5|TWO_SIDED|95.0|-7.7|3.8|||Chi-squared|||||3.8|-7.7|0.50
82516192|NCT03452917|164725045|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.48|TWO_SIDED|95.0|-7.8|3.7|||Chi-squared|||||3.7|-7.8|0.48
82516193|NCT03452917|164725046|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.49|TWO_SIDED|95.0|-6.0|2.6|||Chi-squared|||||2.6|-6.0|0.49
82516194|NCT03452917|164725046|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.85|TWO_SIDED|95.0|-4.9|4.0|||Chi-squared|||||4.0|-4.9|0.85
82516195|NCT01242527|164725077|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-21.68||||0.005|TWO_SIDED|95.0|-40.7|-2.89||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate and treatment and user/non-user of lipid-altering drugs as factors|||-2.89|-40.70|0.005
82516196|NCT01242527|164725077|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-21.19||||0.007|TWO_SIDED|95.0|-40.32|-2.29||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|||-2.29|-40.32|0.007
82516197|NCT01242527|164725077|SUPERIORITY_OR_OTHER||Placebo adjusted % change from baseline|-26.6|||<|0.001|TWO_SIDED|95.0|-45.12|-8.38||P-value adjusted with Dunnett's procedure for multiple comparisons of Epanova vs olive oil|ANCOVA p-value on ranked data|ANCOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|ANCOVA on log-scale TG with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors|||-8.38|-45.12|<0.001
82516198|NCT04177108|164725092|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0098||95.0|0.28|0.85|||Log Rank|||||0.85|0.28|0.0098
82516199|NCT04177108|164725092|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.2396||95.0|0.42|1.25|||Log Rank|||||1.25|0.42|0.2396
82570611|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|0.98||||0.281|TWO_SIDED|90.0|0.91|1.05|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 29||1.05|0.91|0.281
82516200|NCT04177108|164725092|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9809||95.0|0.63|1.58|||Log Rank|||||1.58|0.63|0.9809
82516201|NCT04177108|164725093|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6805||95.0|0.55|2.51|||Log Rank|||||2.51|0.55|0.6805
82382241|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-0.5||||0.1675|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.2|-1.3|0.1675
82382242|NCT03349060|164474820|SUPERIORITY||Difference in LS mean|-1.0||||0.0085|TWO_SIDED|95.0|-1.8|-0.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.3|-1.8|0.0085
82516202|NCT04177108|164725093|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.6314||95.0|0.55|2.64|||Log Rank|||||2.64|0.55|0.6314
82516203|NCT04177108|164725093|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9164||95.0|0.52|2.06|||Log Rank|||||2.06|0.52|0.9164
82516204|NCT04307186|164725145|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."|||||<|0.0001||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 1||||<0.0001
82516205|NCT04307186|164725145|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."||||||0.5775||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 2||||0.5775
82516206|NCT04307186|164725145|OTHER|"McNemar test was used for the exploratory analysis of difference between the percentage of participants greatly prefer/prefer gadoquatrane and greatly prefer/prefer gadobutrol."||||||0.3173||||||P-Value was calculated. p \< 0.05 indicates a difference between the two reads; p \> 0.05 indicates the observed data do not contradict equality.|McNemar|||Reader 3||||0.3173
82570612|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.32||||1|TWO_SIDED|90.0|1.2|1.46|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||1.46|1.20|1.000
82516207|NCT04307186|164725146|NON_INFERIORITY|The non-inferiority of gadoquatrane versus gadobutrol was evaluated using CIs based on the t-distribution. A non-inferiority margin of 1 was used, i.e. meaning that a 95% two-sided CI for the mean difference gadoquatrane minus gadobutrol score must exclude the value -1.|Mean Difference (Final Values)|-0.05|||<|0.0001|TWO_SIDED|95.0|-0.24|0.13||P-Value was calculated. Non-inferiority was achieved with a one-sided p-value lower than 0.025.|t-test, 1 sided|||Average reader||0.13|-0.24|<0.0001
82516208|NCT04307186|164725147|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|1.06|1.34|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.34|1.06|
82570613|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|0.96||||0.2|TWO_SIDED|90.0|0.88|1.04|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 43||1.04|0.88|0.200
82635828|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.701|STANDARD_ERROR_OF_MEAN|1.793||0.173|TWO_SIDED|95.0|-5.264|1.862|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.862|-5.264|0.173
82635829|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.953|STANDARD_ERROR_OF_MEAN|1.761||0.135|TWO_SIDED|95.0|-5.452|1.546|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.546|-5.452|0.135
82635830|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.447|STANDARD_ERROR_OF_MEAN|2.406||0.034|TWO_SIDED|95.0|-9.23|0.335|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.335|-9.230|0.034
82382243|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|8.8||||0.5539|TWO_SIDED|95.0|-19.6|37.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||37.2|-19.6|0.5539
82382244|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|27.9||||0.0561|TWO_SIDED|95.0|0.8|55.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.1|0.8|0.0561
82382245|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|-4.9||||0.746|TWO_SIDED|95.0|-33.4|23.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.7|-33.4|0.7460
82635831|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.764|STANDARD_ERROR_OF_MEAN|2.442||0.003|TWO_SIDED|95.0|-11.617|-1.91|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.910|-11.617|0.003
82382246|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|0.0||||1|TWO_SIDED|95.0|-28.3|28.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.3|-28.3|1.0000
82382247|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|20.8||||0.1474|TWO_SIDED|95.0|-4.5|46.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||46.2|-4.5|0.1474
82382248|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|37.3||||0.0123|TWO_SIDED|95.0|12.1|62.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||62.5|12.1|0.0123
82382249|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|-0.4||||0.976|TWO_SIDED|95.0|-28.5|27.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.6|-28.5|0.9760
82516209|NCT04307186|164725147|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.94|1.25|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.25|0.94|
82382250|NCT03349060|164474821|SUPERIORITY||Difference in Percentage|7.8||||0.5965|TWO_SIDED|95.0|-20.4|36.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.1|-20.4|0.5965
82382251|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|24.0||||0.2278|TWO_SIDED|95.0|-9.9|58.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.0|-9.9|0.2278
82516210|NCT04307186|164725148|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|2.07|||||TWO_SIDED|95.0|1.87|2.28|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||2.28|1.87|
82382252|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|35.2||||0.0996|TWO_SIDED|95.0|-2.0|72.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||72.4|-2.0|0.0996
82382253|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|14.5||||0.4449|TWO_SIDED|95.0|-21.6|50.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||50.6|-21.6|0.4449
82382254|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|16.9||||0.4139|TWO_SIDED|95.0|-21.6|55.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.5|-21.6|0.4139
82382255|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|-6.7||||0.729|TWO_SIDED|95.0|-40.7|27.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.4|-40.7|0.7290
82516211|NCT04307186|164725148|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|2.06|||||TWO_SIDED|95.0|1.86|2.25|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||2.25|1.86|
82570614|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|1.18||||1|TWO_SIDED|90.0|1.09|1.28|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.28|1.09|1.000
82570615|NCT03927690|164851852|SUPERIORITY||Ratio (Test vs Reference)|0.94||||0.083|TWO_SIDED|90.0|0.87|1.01|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 57||1.01|0.87|0.083
82570616|NCT03927690|164851852|SUPERIORITY||Ratio(Test vs Reference)|1.26||||1|TWO_SIDED|90.0|1.14|1.38|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.38|1.14|1.000
82570617|NCT03927690|164851852|SUPERIORITY||Ratio(Test vs Reference)|0.96||||0.254|TWO_SIDED|90.0|0.88|1.06|||Mixed model repeated measures analysis||Comparison of model-based mean estimates.|Day 85||1.06|0.88|0.254
82570618|NCT01844726|164851896|SUPERIORITY||Mean Difference (Net)|0.05||||0.1|TWO_SIDED||||||t-test, 2 sided|||Change in BOLD signal activation across task derived learning circuit were compared between GLYX-13 and placebo groups using an independent group t-test.||||.10
82570619|NCT01844726|164851897|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||.57
82570620|NCT00913068|164851935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Chi-squared|||||||0.0012
82570621|NCT04269434|164851936|NON_INFERIORITY|"The No Screening Arm is considered non-inferior if the upper limit of the 95% Confidence Interval is less than 1.25"|Incidence rate ratio|1.318|||||TWO_SIDED|95.0|1.068|1.627||||||Compared to screening group||1.627|1.068|
82570622|NCT04269434|164851937|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.788|||||TWO_SIDED|95.0|0.719|0.863||||||For Azithromycin. Compared to screening group||0.863|0.719|
82570623|NCT04269434|164851937|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.561|||||TWO_SIDED|95.0|0.426|0.739||||||For Ceftriaxone. Compared to screening group||0.739|0.426|
82570624|NCT04269434|164851937|NON_INFERIORITY|No prespecified margin|Incidence rate ratio|0.55|||||TWO_SIDED|95.0|0.515|0.588||||||For Doxycycline. Compared to screening group||0.588|0.515|
82570625|NCT04269434|164851938|NON_INFERIORITY|No prespecified margin.|Incidence rate ratio|1.373|||||TWO_SIDED|95.0|0.963|1.956||||||Compared to screening group||1.956|0.963|
82570626|NCT04269434|164851939|NON_INFERIORITY|No prespecified margin.|Incidence rate ratio|1.471|||||TWO_SIDED|95.0|0.943|2.299||||||Compared to screening group||2.299|0.943|
82570627|NCT01772563|164851941|OTHER||Geometric mean ratio (GMR) [%]|93.63|||||TWO_SIDED|90.0|82.07|106.81|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV%)=25.1.|"Statistical analysis of Volasertib:~AUC0-tz was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||106.81|82.07|
82570628|NCT01772563|164851941|OTHER||Geometric mean ratio (GMR) [%]|75.77|||||TWO_SIDED|90.0|67.83|84.632|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=21.0.|"Statistical analysis of CD 10899:~AUC0-tz was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||84.632|67.830|
82635832|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.951|STANDARD_ERROR_OF_MEAN|2.458||0.009|TWO_SIDED|95.0|-10.836|-1.066|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.066|-10.836|0.009
82570629|NCT01772563|164851942|OTHER||Geometric mean ratio (GMR) [%]|79.4|||||TWO_SIDED|90.0|64.896|97.137|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=39.3.|"Statistical analysis of volasertib:~Cmax was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||97.137|64.896|
82570630|NCT01772563|164851942|OTHER||Geometric mean ratio (GMR) [%]|63.48|||||TWO_SIDED|90.0|55.372|72.775|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV%)=26.1.|"Statistical analysis of CD 10899:~Cmax was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||72.775|55.372|
82570631|NCT01772563|164851943|OTHER||Geometric mean ratio (GMR) [%]|97.85|||||TWO_SIDED|90.0|87.09|109.94|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=22.7.|"Statistical analysis of volasertib:~AUC0-∞ was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||109.94|87.09|
82635833|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|1.915||0.056|TWO_SIDED|95.0|-6.876|0.736|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.736|-6.876|0.056
82570632|NCT01772563|164851943|OTHER||Geometric mean ratio (GMR) [%]|77.42|||||TWO_SIDED|90.0|69.001|86.871|||||GMR (test/reference) i.e. (Volasertib+Itraconazole/ Volasertib). Intra- individual coefficient of variation (gCV %)=22.5.|"Statistical analysis of CD 10899:~AUC0-∞ was log-transformed prior to fitting an analysis of variance (ANOVA) model. This model included effects for 'treatment' and 'subject'. 90% confidence intervals (CIs) were computed, then back-transformed to the original scale to give the point estimator and interval estimates for the geometric mean ratio (GMR)."||86.871|69.001|
82570633|NCT00832000|164851944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_DEVIATION|1.24|<|0.001|TWO_SIDED|95.0|-2.66|-0.706|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model (n=57). When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.706|-2.66|<0.001
82516212|NCT04307186|164725149|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.27|||||TWO_SIDED|95.0|1.11|1.43|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.43|1.11|
82516213|NCT04307186|164725149|OTHER|95% two-sided CIs based on a t-distribution for the difference of combined pre- and post-contrast minus pre-contrast scores.|Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|1.05|1.32|||||Descriptive comparison of the result following gadobutrol with the result following gadoquatrane.|Average Reader||1.32|1.05|
82516214|NCT01175226|164725151|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.020
82516215|NCT02854540|164725152|OTHER||Mean difference (percent)|59.0|STANDARD_DEVIATION|16.0|||TWO_SIDED|||||||||||||
82516216|NCT02670629|164725170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
82516217|NCT01344460|164725178|SUPERIORITY_OR_OTHER||Percentage difference|18.3|||<|0|TWO_SIDED|95.0|15.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Majority reader; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||15.2|<0.000
82516218|NCT01344460|164725178|SUPERIORITY_OR_OTHER||Percentage difference|16.4|||<|0|TWO_SIDED|95.0|13.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 1; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||13.2|<0.000
82635834|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.557|STANDARD_ERROR_OF_MEAN|1.937||0.095|TWO_SIDED|95.0|-6.408|1.293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||1.293|-6.408|0.095
82382256|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|8.7||||0.6585|TWO_SIDED|95.0|-27.3|44.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.6|-27.3|0.6585
82382257|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|18.2||||0.3638|TWO_SIDED|95.0|-18.7|55.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.1|-18.7|0.3638
82382258|NCT03349060|164474822|SUPERIORITY||Difference in Percentage|40.5||||0.055|TWO_SIDED|95.0|2.4|78.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||78.5|2.4|0.0550
82382259|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-18.8||||0.4036|TWO_SIDED|95.0|-58.4|20.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.9|-58.4|0.4036
82382260|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-35.3||||0.158|TWO_SIDED|95.0|-75.9|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-75.9|0.1580
82516219|NCT01344460|164725178|SUPERIORITY_OR_OTHER||Percentage difference|24.0|||<|0|TWO_SIDED|95.0|20.5||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|Cluster adjusted McNemar||Blinded reader 2; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||20.5|<0.000
82382261|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-14.2||||0.514|TWO_SIDED|95.0|-53.5|25.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.1|-53.5|0.5140
82516220|NCT01344460|164725178|SUPERIORITY_OR_OTHER||Percentage difference|17.4|||<|0|TWO_SIDED|95.0|14.3||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|||Blinded reader 3; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||14.3|<0.000
82516221|NCT01344460|164725178|SUPERIORITY_OR_OTHER||Percentage difference|25.6|||<|0|TWO_SIDED|95.0|21.9||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||McNemar|||Clinical investigator; Superiority analysis; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||21.9|<0.000
82516222|NCT01344460|164725179|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|6.8|||||TWO_SIDED|95.0|-2.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-2.2|
82382262|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-19.8||||0.4149|TWO_SIDED|95.0|-63.3|23.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.7|-63.3|0.4149
82570634|NCT00832000|164851944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.68|STANDARD_DEVIATION|1.24||0.04||95.0|-3.85|-0.139|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model (n=57). When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.139|-3.85|0.04
82382263|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-18.8||||0.4036|TWO_SIDED|95.0|-58.4|20.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.9|-58.4|0.4036
82635835|NCT02055976|164986445|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.271|STANDARD_ERROR_OF_MEAN|1.913||0.004|TWO_SIDED|95.0|-9.074|-1.469|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.469|-9.074|0.004
82382264|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|-30.7||||0.2092|TWO_SIDED|95.0|-70.9|9.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.6|-70.9|0.2092
82382265|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|11.9||||0.5982|TWO_SIDED|95.0|-29.1|53.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.0|-29.1|0.5982
82382266|NCT03349060|164474823|SUPERIORITY||Difference in Percentage|4.2||||0.8647|TWO_SIDED|95.0|-36.3|44.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.7|-36.3|0.8647
82382267|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|-78.6||||0.0546|TWO_SIDED|95.0|-117.5|-39.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||-39.6|-117.5|0.0546
82516223|NCT01344460|164725179|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|0.0|||||TWO_SIDED|95.0|-9.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-9.7|
82382268|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|-27.9||||0.3573|TWO_SIDED|95.0|-62.5|6.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.7|-62.5|0.3573
82382269|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|-3.6||||0.9219|TWO_SIDED|95.0|-55.6|48.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||48.5|-55.6|0.9219
82382270|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
82382271|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|-25.0||||0.5408|TWO_SIDED|95.0|-77.0|27.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.0|-77.0|0.5408
82382272|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
82516224|NCT01344460|164725179|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|14.3|||||TWO_SIDED|95.0|5.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||5.1|
82570635|NCT00832000|164851945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|STANDARD_DEVIATION|1.19|<|0.001|TWO_SIDED|95.0|-2.0|-1.26|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-1.26|-2.00|<0.001
82570636|NCT00832000|164851946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_DEVIATION|1.27|<|0.001|TWO_SIDED|95.0|-1.67|-0.861|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.861|-1.67|<0.001
82635836|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.88|STANDARD_ERROR_OF_MEAN|7.071|<|0.001|TWO_SIDED|95.0|-45.925|-17.836|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.836|-45.925|<0.001
82516225|NCT01344460|164725179|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|3.0|||||TWO_SIDED|95.0|-5.8||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||-5.8|
82516226|NCT01344460|164725179|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|20.0|||||TWO_SIDED|95.0|11.7||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.7|
82516227|NCT01344460|164725180|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.0|||||TWO_SIDED|95.0|7.0||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Majority reader; The percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.0|
82516228|NCT01344460|164725180|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|11.3|||||TWO_SIDED|95.0|9.1||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 1; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||9.1|
82516229|NCT01344460|164725180|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|9.7|||||TWO_SIDED|95.0|7.6||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 2; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||7.6|
82382273|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|-25.0||||0.5408|TWO_SIDED|95.0|-77.0|27.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.0|-77.0|0.5408
82382274|NCT03349060|164474824|SUPERIORITY||Difference in Percentage|24.6||||0.3173|TWO_SIDED|95.0|-14.4|63.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||63.6|-14.4|0.3173
82516230|NCT01344460|164725180|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|13.4|||||TWO_SIDED|95.0|11.2||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Blinded reader 3; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.2|
82516231|NCT01344460|164725180|NON_INFERIORITY_OR_EQUIVALENCE|using a -7.5% non-inferiority margin|Percentage difference|13.1|||||TWO_SIDED|95.0|11.0||Not Appropriate, upper intervals were not used in the statistical analysis and were not of interest for the study.||The cluster-adjusted two-sided 95% CI|||Clinical investigator; the percentage difference was calculated as gadobutrol-enhanced minus unenhanced MRA.|||11.0|
82516232|NCT01344460|164725181|SUPERIORITY_OR_OTHER||percentage|54.6|||||ONE_SIDED|95.0|46.2||||One sided 95% confidence interval|||Majority reader|||46.2|
82516233|NCT01344460|164725181|SUPERIORITY_OR_OTHER||percentage|51.6|||||ONE_SIDED|95.0|43.6||||One sided 95% confidence interval|||Blinded Reader 1|||43.6|
82516234|NCT01344460|164725181|SUPERIORITY_OR_OTHER||percentage|54.4|||||ONE_SIDED|95.0|45.5||||One sided 95% confidence interval|||Blinded Reader 2|||45.5|
82516235|NCT01344460|164725181|SUPERIORITY_OR_OTHER||percentage|53.4|||||ONE_SIDED|95.0|44.8||||One sided 95% confidence interval|||Blinded Reader 3|||44.8|
82635837|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.187|STANDARD_ERROR_OF_MEAN|7.242|<|0.001|TWO_SIDED|95.0|-43.571|-14.803|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-14.803|-43.571|<0.001
82516236|NCT01344460|164725181|SUPERIORITY_OR_OTHER||percentage|71.3|||||ONE_SIDED|95.0|64.7||||One sided 95% confidence interval|||Clinical investigator|||64.7|
82516237|NCT01344460|164725182|SUPERIORITY_OR_OTHER||percentage|95.9|||||ONE_SIDED|95.0|94.9||||One sided 95% confidence interval|||Majority reader|||94.9|
82516238|NCT01344460|164725182|SUPERIORITY_OR_OTHER||percentage|95.0|||||ONE_SIDED|95.0|93.8||||One sided 95% confidence interval|||Blinded Reader 1|||93.8|
82516239|NCT01344460|164725182|SUPERIORITY_OR_OTHER||percentage|96.2|||||ONE_SIDED|95.0|95.2||||One sided 95% confidence interval|||Blinded Reader 2|||95.2|
82516240|NCT01344460|164725182|SUPERIORITY_OR_OTHER||percentage|95.8|||||ONE_SIDED|95.0|94.8||||One sided 95% confidence interval|||Blinded Reader 3|||94.8|
82516241|NCT01344460|164725182|SUPERIORITY_OR_OTHER||percentage|98.4|||||ONE_SIDED|95.0|97.8||||One sided 95% confidence interval|||Clinical investigator|||97.8|
82516242|NCT01344460|164725185|SUPERIORITY_OR_OTHER||Diameter difference|0.17|STANDARD_DEVIATION|1.28|||||||||Mean Difference|||CTA Minus Unenhanced MRA for blinded Reader on vessel DIA at normal point||||
82516243|NCT01344460|164725185|SUPERIORITY_OR_OTHER||Diameter difference|-0.09|STANDARD_DEVIATION|1.14|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at normal point||||
82570637|NCT00832000|164851947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.918|STANDARD_DEVIATION|1.29|<|0.001|TWO_SIDED|95.0|-1.3|-0.532|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.532|-1.30|<0.001
82516244|NCT01344460|164725185|SUPERIORITY_OR_OTHER||Mean Difference|0.41|STANDARD_DEVIATION|1.15|||||||||Mean Difference|||CTA minus Unenhanced MRA for blinded reader on vessel DIA at narrowest point||||
82516245|NCT01344460|164725185|SUPERIORITY_OR_OTHER||Diameter difference|-0.15|STANDARD_DEVIATION|1.01|||||||||Mean Difference|||CTA minus Gadobutrol-Enhanced MRA for blinded reader on vessel DIA at narrowest point||||
82382275|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-2.8||||0.0006|TWO_SIDED|95.0|-4.4|-1.2|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-1.2|-4.4|0.0006
82382276|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-6.3|||<|0.0001|TWO_SIDED|95.0|-7.9|-4.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.7|-7.9|<0.0001
82382277|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.6|-2.0|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-2.0|-5.6|<0.0001
82382278|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-8.4|||<|0.0001|TWO_SIDED|95.0|-10.2|-6.6|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-6.6|-10.2|<0.0001
82382279|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-2.7||||0.0096|TWO_SIDED|95.0|-4.7|-0.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-4.7|0.0096
82516246|NCT03285477|164725200|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 complete clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
82382280|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-7.2|||<|0.0001|TWO_SIDED|95.0|-9.3|-5.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-5.2|-9.3|<0.0001
82382281|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-3.1||||0.0049|TWO_SIDED|95.0|-5.2|-0.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.9|-5.2|0.0049
82382282|NCT03349060|164474825|SUPERIORITY||Difference in LS mean|-6.9|||<|0.0001|TWO_SIDED|95.0|-9.0|-4.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-4.7|-9.0|<0.0001
82382283|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.4||||0.002|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.1|-0.6|0.0020
82382284|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.6|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.0|<0.0001
82382285|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.5||||0.0011|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.7|0.0011
82382286|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.7|-1.2|<0.0001
82516247|NCT03285477|164725201|SUPERIORITY||||||<|0.0001||||||P-value threshold for statistical significance was 0.5%|Cochran-Mantel-Haenszel|||Statistical significance in the study for Day 57 partial clearance rate was analyzed using a Cochran-Mantel-Haenszel model controlling for treatment location (face or scalp) and treatment group (Placebo versus KX2-391 Ointment 1%).||||<0.0001
82516248|NCT03483623|164725212|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516249|NCT03483623|164725213|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516250|NCT03483623|164725214|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516251|NCT03483623|164725215|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516252|NCT03483623|164725216|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516253|NCT03483623|164725217|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516254|NCT03483623|164725218|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516255|NCT03483623|164725219|SUPERIORITY|||||||0.0001||||||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS|ANOVA|||Statistical analysis applies to all combinations-NATO WELP, NATO FIS, RAVEN WELP, RAVEN FIS||||0.0001
82516256|NCT01085318|164725220|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|864.1||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
82382287|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.5||||0.002|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.8|0.0020
82382288|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.2|<0.0001
82382289|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.5||||0.0014|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.2|-0.8|0.0014
82382290|NCT03349060|164474826|SUPERIORITY||Difference in LS mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-0.6|-1.3|<0.0001
82516257|NCT01085318|164725221|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|644.99|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516258|NCT05932290|164725232|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.71|||Regression, Cox||Hazard ratios (HRs) were estimated using unadjusted Cox proportional hazard models.|||0.71|0.37|<.0001
82516259|NCT05932290|164725233|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.0003|TWO_SIDED|95.0|0.22|0.64|||Regression, Cox||IPTW HRs were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances.|||0.64|0.22|.0003
82635838|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-39.657|STANDARD_ERROR_OF_MEAN|7.29|<|0.001|TWO_SIDED|95.0|-54.136|-25.178|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-25.178|-54.136|<0.001
82382291|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|6.0||||0.0575|TWO_SIDED|95.0|0.3|11.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.7|0.3|0.0575
82382292|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|18.1||||0.0002|TWO_SIDED|95.0|10.7|25.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||25.5|10.7|0.0002
82382293|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|9.2||||0.0411|TWO_SIDED|95.0|1.3|17.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.1|1.3|0.0411
82516260|NCT05932290|164725236|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0062|TWO_SIDED|95.0|0.47|0.88|||Regression, Cox||HRs were estimated using unadjusted Cox proportional hazard models.|||0.88|0.47|.0062
82516261|NCT05932290|164725237|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.0032|TWO_SIDED|95.0|0.27|0.77|||Regression, Cox|IPTW HRs were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances.||||0.77|0.27|.0032
82516262|NCT02055352|164725297|NON_INFERIORITY_OR_EQUIVALENCE|A change of 5-10% from baseline values is considered to be clinically important. The estimated adjusted treatment difference for budesonide 400 μg twice a day/ indacaterol 150 μg once daily minus fixed combination of fluticasone/ salmeterol 250/ 50 μg twice daily was displayed along with the associated one-sided 97.5% confidence interval. If the lower limit of this confidence interval was to the right (i.e. above) - 10 mL, then non-inferiority could be claimed.||||||0.004|||||||Mixed effects General linear model|||||||0.004
82516263|NCT05349617|164725306|SUPERIORITY||Percent Difference|86.2|||<|0.0001|TWO_SIDED|95.0|80.0|90.3||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups. Both coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|Day 22||90.3|80|<0.0001
82516264|NCT05349617|164725307|SUPERIORITY||[GMT Ratio]|90.0|||<|0.0001|TWO_SIDED|95.0|69.0|117.0||Both coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo).|Day 22||117|69|<0.0001
82516265|NCT05349617|164725313|SUPERIORITY||Percent Difference|79.5|||<|0.0001|TWO_SIDED|95.0|72.3|84.6||Key secondary endpoints were tested hierarchically (Day 15 tested prior to Day 183), such that each was only tested if both coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 15||84.6|72.3|<0.0001
82516266|NCT05349617|164725313|SUPERIORITY||Percent Difference|74.4|||<|0.0001|TWO_SIDED|95.0|67.1|80.1||Key secondary endpoints were tested hierarchically (Day 15 tested prior to Day 183), such that each was only tested if both coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 183||80.1|67.1|<0.0001
82516267|NCT05349617|164725314|SUPERIORITY||[GMT Ratio]|42.0|||<|0.0001|TWO_SIDED|95.0|32.0|56.0|||ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo)|Day 15||56|32|<0.0001
82516268|NCT05349617|164725314|SUPERIORITY||[GMT Ratio]|28.0|||<|0.0001|TWO_SIDED|95.0|22.0|35.0|||ANOVA|ANOVA model covers site and treatment group as fixed effects, assuming log titers' normality. p-value tests equivalence of mean titers between groups.|Ratio of GMTs is (PXVX0317:placebo)|Day 183||35|22|<0.0001
82516269|NCT05349617|164725315|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 15||||<0.0001
82635839|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.681|STANDARD_ERROR_OF_MEAN|13.601||0.366|TWO_SIDED|95.0|-31.713|22.35|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||22.350|-31.713|0.366
82635840|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.227|STANDARD_ERROR_OF_MEAN|13.586||0.773|TWO_SIDED|95.0|-16.774|37.228|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||37.228|-16.774|0.773
82516270|NCT05349617|164725315|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 22||||<0.0001
82516271|NCT05349617|164725315|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95 percent CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 183||||<0.0001
82516272|NCT05349617|164725316|SUPERIORITY||Percent Difference|91.6|||<|0.0001|TWO_SIDED|95.0|86.0|94.6|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 15||94.6|86.0|<0.0001
82516273|NCT05349617|164725316|SUPERIORITY||Percent Difference|94.1|||<|0.0001|TWO_SIDED|95.0|89.2|96.5|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 22||96.5|89.2|<0.0001
82516274|NCT05349617|164725316|SUPERIORITY||Percent Difference|91.8|||<|0.0001|TWO_SIDED|95.0|86.3|94.8|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 183||94.8|86.3|<0.0001
82516275|NCT05349617|164725316|SUPERIORITY||Percent Difference|82.8|||<|0.0001|TWO_SIDED|95.0|75.9|87.5||p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|Chi-squared||SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 15||87.5|75.9|<0.0001
82516276|NCT05349617|164725316|SUPERIORITY||Percent Difference|88.3|||<|0.0001|TWO_SIDED|95.0|82.4|92.0|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 22||92.0|82.4|<0.0001
82570638|NCT00832000|164851948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.109|STANDARD_DEVIATION|0.563|<|0.001|TWO_SIDED|95.0|-0.177|-0.056|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.056|-0.177|<0.001
82382294|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|26.2|||<|0.0001|TWO_SIDED|95.0|16.9|35.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.5|16.9|<0.0001
82382295|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|8.9||||0.0781|TWO_SIDED|95.0|-0.1|18.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.0|-0.1|0.0781
82382296|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|26.2|||<|0.0001|TWO_SIDED|95.0|16.2|36.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.3|16.2|<0.0001
82382297|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|14.2||||0.0075|TWO_SIDED|95.0|5.3|23.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.2|5.3|0.0075
82382298|NCT03349060|164474827|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|19.6|38.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.9|19.6|<0.0001
82382299|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.034||||0.0453|TWO_SIDED|95.0|0.001|0.066|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.066|0.001|0.0453
82382300|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.068|||<|0.0001|TWO_SIDED|95.0|0.036|0.101|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.101|0.036|<0.0001
82382301|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.025||||0.1821|TWO_SIDED|95.0|-0.012|0.062|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.062|-0.012|0.1821
82382302|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.055||||0.0038|TWO_SIDED|95.0|0.018|0.092|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.092|0.018|0.0038
82382303|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.048||||0.0241|TWO_SIDED|95.0|0.006|0.09|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.090|0.006|0.0241
82516277|NCT05349617|164725316|SUPERIORITY||Percent Difference|82.0|||<|0.0001|TWO_SIDED|95.0|75.2|86.8|||Chi-squared|p-value is from a two-sided chi-square test of equality of SNA response percentages between groups.|SNA response rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 183||86.8|75.2|<0.0001
82516278|NCT01763567|164725317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|STANDARD_DEVIATION|9.5|||TWO_SIDED|||||||||||||
82516279|NCT01763567|164725318|SUPERIORITY_OR_OTHER||percent of events correctly detected|16.7|||||TWO_SIDED|||||||||||||
82516280|NCT01763567|164725319|SUPERIORITY_OR_OTHER||percent of events correctly detected|88.9|||||TWO_SIDED|||||||||||||
82516281|NCT01763567|164725320|SUPERIORITY_OR_OTHER||% of false alert|85.8|||||TWO_SIDED|||||||||||||
82516282|NCT01763567|164725321|SUPERIORITY_OR_OTHER||% of false alert|56.5|||||TWO_SIDED|||||||||||||
82635841|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.646|STANDARD_ERROR_OF_MEAN|13.362||0.422|TWO_SIDED|95.0|-29.206|23.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||23.915|-29.206|0.422
82382304|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.093|||<|0.0001|TWO_SIDED|95.0|0.051|0.134|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.134|0.051|<0.0001
82382305|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.044||||0.0461|TWO_SIDED|95.0|0.001|0.087|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.087|0.001|0.0461
82382306|NCT03349060|164474828|SUPERIORITY||Difference in LS mean|0.064||||0.0037|TWO_SIDED|95.0|0.021|0.107|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.107|0.021|0.0037
82382307|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|4.548||||0.0319|TWO_SIDED|95.0|0.397|8.7|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||8.700|0.397|0.0319
82382308|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|8.659|||<|0.0001|TWO_SIDED|95.0|4.496|12.822|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||12.822|4.496|<0.0001
82382309|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|4.361||||0.0702|TWO_SIDED|95.0|-0.362|9.084|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||9.084|-0.362|0.0702
82382310|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|10.085|||<|0.0001|TWO_SIDED|95.0|5.349|14.821|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||14.821|5.349|<0.0001
82382311|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|6.045||||0.03|TWO_SIDED|95.0|0.589|11.501|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||11.501|0.589|0.0300
82382312|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|9.803||||0.0005|TWO_SIDED|95.0|4.368|15.237|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||15.237|4.368|0.0005
82382313|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|7.569||||0.0067|TWO_SIDED|95.0|2.119|13.019|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||13.019|2.119|0.0067
82382314|NCT03349060|164474829|SUPERIORITY||Difference in LS mean|9.374||||0.0008|TWO_SIDED|95.0|3.933|14.815|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||14.815|3.933|0.0008
82635842|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.911|STANDARD_ERROR_OF_MEAN|10.309||0.107|TWO_SIDED|95.0|-33.411|7.589|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.589|-33.411|0.107
82382315|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|-0.004||||0.9568|TWO_SIDED|95.0|-0.137|0.13|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.130|-0.137|0.9568
82382316|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.09||||0.1782|TWO_SIDED|95.0|-0.042|0.223|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.223|-0.042|0.1782
82516283|NCT04401579|164725332|SUPERIORITY||Cox Proportional Hazard|1.15||||0.047|TWO_SIDED|95.0|1.0|1.31|||Log Rank|||||1.31|1.00|0.047
82382317|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.174||||0.0491|TWO_SIDED|95.0|0.001|0.347|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.347|0.001|0.0491
82382318|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.284||||0.0015|TWO_SIDED|95.0|0.112|0.456|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.456|0.112|0.0015
82382319|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.004||||0.9638|TWO_SIDED|95.0|-0.185|0.194|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.194|-0.185|0.9638
82382320|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.08||||0.4016|TWO_SIDED|95.0|-0.109|0.27|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.270|-0.109|0.4016
82516284|NCT04401579|164725348|SUPERIORITY||Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-12.0|0.0||||||||0|-12|
82516285|NCT04401579|164725349|SUPERIORITY||Risk Difference (RD)|-5.0|||||TWO_SIDED|95.0|-10.0|0.0||||||||0|-10|
82516286|NCT04401579|164725359|SUPERIORITY||Odds Ratio (OR)|1.26||||0.44|TWO_SIDED|95.0|1.01|1.57|||Regression, Logistic|||||1.57|1.01|0.44
82516287|NCT04401579|164725369|SUPERIORITY||Cox Proportional Hazard|1.21||||0.002|TWO_SIDED|95.0|1.06|1.39|||Log Rank|||||1.39|1.06|0.002
82382321|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.007||||0.9429|TWO_SIDED|95.0|-0.184|0.198|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.198|-0.184|0.9429
82382322|NCT03349060|164474830|SUPERIORITY||Difference in LS mean|0.062||||0.5212|TWO_SIDED|95.0|-0.13|0.254|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||0.254|-0.130|0.5212
82382323|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|2.131||||0.6467|TWO_SIDED|95.0|-7.095|11.358|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||11.358|-7.095|0.6467
82382324|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|11.549||||0.0147|TWO_SIDED|95.0|2.338|20.761|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||20.761|2.338|0.0147
82382325|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|6.853||||0.1894|TWO_SIDED|95.0|-3.453|17.159|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||17.159|-3.453|0.1894
82382326|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|16.99||||0.0015|TWO_SIDED|95.0|6.699|27.281|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||27.281|6.699|0.0015
82382327|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|8.672||||0.1267|TWO_SIDED|95.0|-2.518|19.862|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||19.862|-2.518|0.1267
82382328|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|9.354||||0.1009|TWO_SIDED|95.0|-1.866|20.573|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||20.573|-1.866|0.1009
82382329|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|6.071||||0.1915|TWO_SIDED|95.0|-3.107|15.249|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||15.249|-3.107|0.1915
82516288|NCT04401579|164725370|SUPERIORITY||Cox Proportional Hazard|1.2||||0.005|TWO_SIDED|95.0|1.05|1.38|||Log Rank|||||1.38|1.05|0.005
82382330|NCT03349060|164474831|SUPERIORITY||Difference in LS mean|12.948||||0.0064|TWO_SIDED|95.0|3.754|22.143|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, week, treatment by week interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||22.143|3.754|0.0064
82382331|NCT03349060|164474832|SUPERIORITY||Difference in LS mean|3.6||||0.0102|TWO_SIDED|95.0|0.9|6.4||Analysis of covariance (ANCOVA) model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||6.4|0.9|0.0102
82382332|NCT03349060|164474832|SUPERIORITY||Difference in LS mean|4.5||||0.0013|TWO_SIDED|95.0|1.8|7.3||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||7.3|1.8|0.0013
82382333|NCT03349060|164474833|SUPERIORITY||Difference in LS mean|1.0||||0.5241|TWO_SIDED|95.0|-2.1|4.2||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.2|-2.1|0.5241
82382334|NCT03349060|164474833|SUPERIORITY||Difference in LS mean|0.9||||0.5821|TWO_SIDED|95.0|-2.3|4.1||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.1|-2.3|0.5821
82516289|NCT04401579|164725371|SUPERIORITY||Cox Proportional Hazard|1.24||||0.003|TWO_SIDED|95.0|1.07|1.44|||Log Rank|||||1.44|1.07|0.003
82516290|NCT04401579|164725374|SUPERIORITY||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.73|1.68||||||This analysis is for Asian participants.||1.68|0.73|
82516291|NCT04401579|164725374|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.75|1.5||||||This analysis is for Black or African American participants.||1.50|0.75|
82516292|NCT04401579|164725374|SUPERIORITY||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.93|1.37||||||This analysis is for White participants.||1.37|0.93|
82516293|NCT04401579|164725374|SUPERIORITY||Cox Proportional Hazard|1.34|||||TWO_SIDED|95.0|1.03|1.74||||||This analysis is for Race of Other participants.||1.74|1.03|
82516294|NCT04401579|164725375|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.08|1.6||||||This analysis is for Not Hispanic or Latino participants||1.60|1.08|
82516295|NCT04401579|164725375|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.89|1.31||||||This analysis is for Hispanic or Latino participants.||1.31|0.89|
82516296|NCT04401579|164725376|SUPERIORITY||Cox Proportional Hazard|1.23|||||TWO_SIDED|95.0|1.04|1.46||||||This analysis is for Male participants.||1.46|1.04|
82516297|NCT04401579|164725376|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||This analysis is for Female participants.||1.32|0.85|
82523234|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|0.78|STANDARD_ERROR_OF_MEAN|0.789||0.3273|TWO_SIDED|80.0|-0.24|1.79||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.79|-0.24|0.3273
82635843|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.119|STANDARD_ERROR_OF_MEAN|10.461||0.015|TWO_SIDED|95.0|-43.923|-2.315|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-2.315|-43.923|0.015
82382335|NCT03349060|164474834|SUPERIORITY||Difference in LS mean|3.8||||0.0013|TWO_SIDED|95.0|1.5|6.1||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||6.1|1.5|0.0013
82382336|NCT03349060|164474834|SUPERIORITY||Difference in LS mean|4.7|||<|0.0001|TWO_SIDED|95.0|2.4|7.0||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||7.0|2.4|<0.0001
82382337|NCT03349060|164474835|SUPERIORITY||Difference in LS mean|1.7||||0.2256|TWO_SIDED|95.0|-1.0|4.4||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||4.4|-1.0|0.2256
82382338|NCT03349060|164474835|SUPERIORITY||Difference in LS mean|3.0||||0.0275|TWO_SIDED|95.0|0.3|5.8||ANCOVA model was used including treatment as main effect and randomization strata (baseline disease severity and age category) and baseline value as covariates.|ANCOVA|||||5.8|0.3|0.0275
82382339|NCT00803790|164474849|SUPERIORITY_OR_OTHER_LEGACY||least square mean ratio|1.01|||||TWO_SIDED|90.0|0.92|1.11||||||||1.11|0.92|
82382340|NCT00803790|164474850|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0||||||Least squares mean ratio for AUC 0-80 hr for vitamin D following administration of combination tablet and vitamin D alone. No correction for endogenous Vitamin D concentration pre-treatment was made in the analysis.||1.00|0.89|
82382341|NCT00803790|164474851|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Ratio|0.94|||||TWO_SIDED|90.0|0.88|1.0||||||"Least squares mean ratio for Cmax for vitamin D following administration of combination tablet and vitamin D alone.~No correction for endogenous Vitamin D concentration pre-treatment was made in the analysis."||1.00|0.88|
82382342|NCT05022667|164474870|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
82382343|NCT05022667|164474871|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||.5
82382344|NCT05022667|164474872|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||.2
82382345|NCT05022667|164474873|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
82635844|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.159|STANDARD_ERROR_OF_MEAN|10.535||0.054|TWO_SIDED|95.0|-38.108|3.789|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.789|-38.108|0.054
82516298|NCT00489970|164725385|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% confidence interval (CI) for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|1.41|||||TWO_SIDED|97.5|-1.16|4.17|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against diphtheria antigen, one month following vaccination.||4.17|-1.16|
82382346|NCT05022667|164474874|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||.4
82382347|NCT05022667|164474876|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||.3
82382348|NCT01415518|164474879|SUPERIORITY_OR_OTHER||Ratio|1.069|||<|0.0001|TWO_SIDED|95.0|1.043|1.096|||ANCOVA|multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.096|1.043|<.0001
82382349|NCT01415518|164474880|SUPERIORITY_OR_OTHER||Ratio|1.067|||<|0.0001|TWO_SIDED|95.0|1.044|1.09|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.090|1.044|<.0001
82382350|NCT01415518|164474881|SUPERIORITY_OR_OTHER||Ratio|1.068|||<|0.0001||95.0|1.043|1.092|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.092|1.043|<.0001
82382351|NCT01415518|164474882|SUPERIORITY_OR_OTHER||Ratio|1.04||||0.0007|TWO_SIDED|95.0|1.017|1.064|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.064|1.017|0.0007
82382352|NCT01415518|164474883|SUPERIORITY_OR_OTHER||Ratio|1.045|||<|0.0001|TWO_SIDED|95.0|1.024|1.065|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.065|1.024|<.0001
82382353|NCT01415518|164474884|SUPERIORITY_OR_OTHER||Ratio|1.038||||0.0003|TWO_SIDED|95.0|1.017|1.06|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.060|1.017|0.0003
82382354|NCT01415518|164474885|SUPERIORITY_OR_OTHER||Ratio|1.035||||0.0248|TWO_SIDED|95.0|1.004|1.066|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.066|1.004|0.0248
82382355|NCT01415518|164474886|SUPERIORITY_OR_OTHER||Ratio|1.038||||0.0074|TWO_SIDED|95.0|1.01|1.067|||ANCOVA|Multiplicative ANCOVA model with treatment and centre as fixed factors and baseline value as a (log-transformed) covariate||||1.067|1.010|0.0074
82382356|NCT01415518|164474887|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.172||||0.0001|TWO_SIDED|95.0|12.733|37.611|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||37.611|12.733|0.0001
82382357|NCT01415518|164474888|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.136|||<|0.0001|TWO_SIDED|95.0|12.163|30.11|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||30.110|12.163|<.0001
82382358|NCT01415518|164474889|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.044|||<|0.0001|TWO_SIDED|95.0|14.927|31.161|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||31.161|14.927|<.0001
82382359|NCT01415518|164474890|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.513|||<|0.0001|TWO_SIDED|95.0|18.74|44.286|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||44.286|18.740|<.0001
82382360|NCT01415518|164474891|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.322|||<|0.0001|TWO_SIDED|95.0|14.425|34.22|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||34.220|14.425|<.0001
82382361|NCT01415518|164474892|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.168|||<|0.0001|TWO_SIDED|95.0|18.906|35.431|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||35.431|18.906|<.0001
82382362|NCT01415518|164474893|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.297||||0.0102|TWO_SIDED|95.0|-0.522|-0.071|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.071|-0.522|0.0102
82570639|NCT00832000|164851949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|STANDARD_DEVIATION|13.1||0.09|TWO_SIDED|95.0|-0.68|9.75|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||9.75|-0.680|0.09
82382363|NCT01415518|164474894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.343||||0.0004|TWO_SIDED|95.0|-0.533|-0.153|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.153|-0.533|0.0004
82382364|NCT01415518|164474895|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.342||||0.0002|TWO_SIDED|95.0|-0.523|-0.162|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.162|-0.523|0.0002
82382365|NCT01415518|164474896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.279|||<|0.0001|TWO_SIDED|95.0|-0.381|-0.177|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.177|-0.381|<.0001
82382366|NCT01415518|164474897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.193||||0.0002|TWO_SIDED|95.0|-0.294|-0.092|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.092|-0.294|0.0002
82382367|NCT01415518|164474898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.208||||0.0001|TWO_SIDED|95.0|-0.308|-0.108|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of score as a covariate||||-0.108|-0.308|0.0001
82382368|NCT01415518|164474899|SUPERIORITY_OR_OTHER||Rate ratio|0.565||||0.0425|TWO_SIDED|95.0|0.325|0.981|||Poisson regression|Poisson regression model with treatment as a factor and the duration time in study as an offset variable||||0.981|0.325|0.0425
82382369|NCT01415518|164474899|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.604||||0.088|TWO_SIDED|95.0|0.339|1.078|||Regression, Cox|Time to the first COPD exacerbation||||1.078|0.339|0.0880
82382370|NCT01415518|164474899|SUPERIORITY_OR_OTHER|||||||0.0845|||||||Log Rank|Time to the first COPD exacerbation||||||0.0845
82570640|NCT00832000|164851950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.568|STANDARD_DEVIATION|0.6|<|0.001|TWO_SIDED|95.0|-0.812|-0.325|||Wilcoxon (Mann-Whitney)||Residual standard deviation.|P value indicates significance level of the Wilcoxon test associated with mexiletine effect from the linear mixed effects model. The Wilcoxon test was substituted because the outcome is not continuous and therefore normality of the residuals is not satisfied. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.325|-0.812|<0.001
82570641|NCT00832000|164851951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|1.083|<|0.001|TWO_SIDED|95.0|-0.633|-0.142|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.142|-0.633|<0.001
82570642|NCT00832000|164851952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.313|STANDARD_DEVIATION|0.889|<|0.001|TWO_SIDED|95.0|-0.602|-0.149|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.149|-0.602|<0.001
82635845|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.416|STANDARD_ERROR_OF_MEAN|12.718||0.029|TWO_SIDED|95.0|-49.696|0.865|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||0.865|-49.696|0.029
82382371|NCT01415518|164474900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.055||||0.2281|TWO_SIDED|95.0|-0.144|0.035|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||0.035|-0.144|0.2281
82382372|NCT01415518|164474901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.122||||0.001|TWO_SIDED|95.0|-0.194|-0.049|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.049|-0.194|0.0010
82570643|NCT00832000|164851953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.464|STANDARD_DEVIATION|0.516|<|0.001|TWO_SIDED|95.0|-0.675|-0.254|||Wilcoxon (Mann-Whitney)||Residual standard deviation.|P value indicates significance level of the Wilcoxon test associated with mexiletine effect from the linear mixed effects model. The Wilcoxon test was substituted because the outcome is not continuous and therefore normality of the residuals is not satisfied. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-0.254|-0.675|<0.001
82570644|NCT00832000|164851954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_DEVIATION|12.6||0.5|TWO_SIDED|95.0|-3.34|6.73|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||6.73|-3.34|0.50
82570645|NCT00832000|164851955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|STANDARD_DEVIATION|3.44|<|0.001|TWO_SIDED|95.0|-4.07|-1.3|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||-1.30|-4.07|<0.001
82570646|NCT00832000|164851956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.58|STANDARD_DEVIATION|5.35|<|0.001|TWO_SIDED|95.0|3.44|7.72|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. All P values were 2-sided and .05 was considered the threshold of statistical significance.||7.72|3.44|<0.001
82570647|NCT00832000|164851957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|STANDARD_DEVIATION|6.5||0.9|TWO_SIDED|95.0|-5.87|5.17|||Wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||5.17|-5.87|0.90
82570648|NCT00832000|164851957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|6.5||0.03|TWO_SIDED|95.0|0.941|20.6|||wald||Residual standard deviation.|P value indicates significance level of the Wald test associated with mexiletine effect from the linear mixed effects model. When a carryover effect was detected, the significance level associated with the additive portion of the mexiletine effect (labeled period 1) is followed by the level associated with the interaction of mexiletine and period 2 (labeled period 2). All P values were 2-sided and .05 was considered the threshold of statistical significance.||20.6|0.941|0.03
82382373|NCT01415518|164474902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.106||||0.0073|TWO_SIDED|95.0|-0.183|-0.029|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of reliever medication as a covariate||||-0.029|-0.183|0.0073
82382374|NCT03190993|164474924|OTHER|Linear mixed effect models were used to test if changes (Day 28 - Baseline) were equal between treatment groups (primary outcome).|Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.43|=|0.22|TWO_SIDED||||||Regression, Linear|||||||=0.22
82382375|NCT00127231|164474925|EQUIVALENCE||Odds Ratio (OR)|0.42|||<|0.005|TWO_SIDED|95.0|0.23|0.75|||Mixed Models Analysis|||Drinking frequency was analyzed using a generalized binomial mixed-effects model with the logit link function and a random intercept. The use of a binomial distribution was indicated for this analysis because the outcome was assessed using a 90-day TLFB interview, which has a cap at 90 days.||0.75|0.23|<0.005
82382376|NCT00838903|164474930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|||||TWO_SIDED|95.0|-1.16|-0.65|||ANCOVA|||||-0.65|-1.16|
82382377|NCT00838903|164474930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.53|-0.17|||ANCOVA|||||-0.17|-0.53|
82382378|NCT00838903|164474930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.45|-0.09|||ANCOVA|||||-0.09|-0.45|
82442317|NCT00300482|164593258|SUPERIORITY_OR_OTHER||||||<|0.001||||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide \>99% power to detect a 17% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82570649|NCT01898442|164851958|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||ANCOVA|||||||0.017
82516299|NCT00489970|164725385|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% confidence interval (CI) for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|0.31|||||TWO_SIDED|97.5|-1.52|2.07|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against tetanus antigen, one month following vaccination.||2.07|-1.52|
82516300|NCT00489970|164725385|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|1.32|||||TWO_SIDED|97.5|-3.41|4.15|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against diphtheria antigen, one month following vaccination.||4.15|-3.41|
82635846|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.287|STANDARD_ERROR_OF_MEAN|12.705||0.311|TWO_SIDED|95.0|-31.541|18.968|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.968|-31.541|0.311
82382379|NCT00838903|164474930|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value is for superiority testing of albiglutide over placebo at 0.05 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - placebo) is equal to zero||||||<0.0001
82382380|NCT00838903|164474930|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - sitagliptin) is equal to the pre-specified non-inferiority margin of 0.3%.|||||<|0.0001||||||The p-value is for non-inferiority testing of albiglutide versus sitagliptin at 0.0125 level.|t-test, 1 sided|||||||<0.0001
82382381|NCT00838903|164474930|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - glimepiride) is equal to the pre-specified non-inferiority margin of 0.3%.|||||<|0.0001||||||The p-value is for non-inferiority testing of albiglutide versus glimepiride at 0.0125 level.|t-test, 1 sided|||||||<0.0001
82382382|NCT00838903|164474930|SUPERIORITY_OR_OTHER|||||||0.0001||||||The p-value is for superiority testing of albiglutide versus sitagliptin at 0.025 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - sitagliptin) is equal to zero.||||||0.0001
82635847|NCT02055976|164986446|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-32.443|STANDARD_ERROR_OF_MEAN|12.555||0.006|TWO_SIDED|95.0|-57.4|-7.485|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.485|-57.400|0.006
82382383|NCT00838903|164474930|SUPERIORITY_OR_OTHER|||||||0.0033||||||The p-value is for superiority testing of albiglutide versus glimepiride at 0.025 level.|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - glimepiride) is equal to zero.||||||0.0033
82382384|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|7.2|||||TWO_SIDED|95.0|-2.1|16.4|||||95% CI for difference of two proportions was calculated using Cochran-Mantel-Haenszel (CMH) method.|||16.4|-2.1|
82382385|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|3.5|||||TWO_SIDED|95.0|-3.1|10.0|||||95% CI for difference of two proportions was calculated using CMH method.|||10|-3.1|
82382386|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|24.3|||||TWO_SIDED|95.0|9.0|39.5|||||95% CI for difference of two proportions was calculated using CMH method.|||39.5|9|
82516301|NCT00489970|164725385|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the seroprotection rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in percentage|0.31|||||TWO_SIDED|97.5|-3.69|2.07|||||Standardized asymptotic 97.5% CI for the group difference in the seroprotection rate was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group and Control group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to seroprotection rate against tetanus antigen, one month following vaccination.||2.07|-3.69|
82516302|NCT00489970|164725387|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PT GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|1.53|||||TWO_SIDED|97.5|1.31|1.79|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PT one month following vaccination||1.79|1.31|
82570650|NCT03974100|164851964|EQUIVALENCE|Equivalence criteria (analysis set PPS): 95% CI for difference in means contained in \[-1.45%, 1.45%\]|Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.3325|||TWO_SIDED|95.0|-0.798|0.509|||Mixed-model repeated measures (MMRM)|MMRM included treatment, prior bisphosphonate use, DXA machine type, visit, visit-treatment interaction, and baseline LS-BMD as a continuous covariate|Difference GP2411 (Test) - EU-Prolia (Reference)|||0.509|-0.798|
82570651|NCT03974100|164851965|EQUIVALENCE|Equivalence criteria (analysis set TP1 FAS): 95% CI for difference in means contained in \[-1.45%, 1.45%\] (criteria 1) or in \[-2.00%, 2.00%\] (criteria 2)|Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.3321|||TWO_SIDED|95.0|-0.83|0.475|||Mixed-model repeated measures (MMRM)|MMRM included treatment, prior bisphosphonate use, DXA machine type, visit, visit-treatment interaction, and baseline LS-BMD as a continuous covariate|Difference GP2411 (Test) - EU-Prolia (Reference)|||0.475|-0.830|
82516303|NCT00489970|164725387|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-FHA GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|5.27|||||TWO_SIDED|97.5|4.62|6.01|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-FHA one month following vaccination||6.01|4.62|
82382387|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|12.3|||||TWO_SIDED|95.0|1.3|23.3|||||95% CI for difference of two proportions was calculated using CMH method.|||23.3|1.3|
82382388|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||95% CI for difference of two proportions was calculated using CMH method.|||0|0|
82382389|NCT04225715|164474939|SUPERIORITY||Difference in Response Rate|6.7|||||TWO_SIDED|95.0|-2.2|15.7|||||95% CI for difference of two proportions was calculated using CMH method.|||15.7|-2.2|
82516304|NCT00489970|164725387|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PRN GMC ratios (Boostrix Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|3.62|||||TWO_SIDED|97.5|3.07|4.25|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Boostrix Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PRN one month following vaccination||4.25|3.07|
82570652|NCT03974100|164851966|EQUIVALENCE|Equivalence criteria (analysis set PDS): 95% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||ANCOVA|ANCOVA was performed on log-transformed AUEC including treatment and log baseline CTX value as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.01|0.98|
82382390|NCT04225715|164474940|SUPERIORITY||6.2|6.2|||||TWO_SIDED|95.0|-2.0|14.5|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 7: Week 24||14.5|-2|
82635848|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-35.967|STANDARD_ERROR_OF_MEAN|10.822|<|0.001|TWO_SIDED|95.0|-57.463|-14.472|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-14.472|-57.463|<0.001
82635849|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.186|STANDARD_ERROR_OF_MEAN|11.044||0.005|TWO_SIDED|95.0|-51.123|-7.249|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-7.249|-51.123|0.005
82635850|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.01|STANDARD_ERROR_OF_MEAN|11.16|<|0.001|TWO_SIDED|95.0|-62.175|-17.845|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-17.845|-62.175|<0.001
82382391|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|13.4|||||TWO_SIDED|95.0|1.2|25.6|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 8: Week 36||25.6|1.2|
82382392|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|7.2|||||TWO_SIDED|95.0|-2.1|16.4|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 2: Week 48||16.4|-2.1|
82382393|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|3.5|||||TWO_SIDED|95.0|-3.1|10.0|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 3: Week 48||10|-3.1|
82635851|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.17|STANDARD_ERROR_OF_MEAN|10.906||0.614|TWO_SIDED|95.0|-18.502|24.842|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||24.842|-18.502|0.614
82635852|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.563|STANDARD_ERROR_OF_MEAN|11.067||0.221|TWO_SIDED|95.0|-30.554|13.427|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||13.427|-30.554|0.221
82382394|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|31.2|||||TWO_SIDED|95.0|14.7|47.6|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 4: Week 48||47.6|14.7|
82382395|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|18.4|||||TWO_SIDED|95.0|5.4|31.4|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 6: Week 48||31.4|5.4|
82382396|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|8.1|||||TWO_SIDED|95.0|-3.9|20.1|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 2: FUW 48||20.1|-3.9|
82382397|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|-2.7|||||TWO_SIDED|95.0|-8.1|2.7|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 3: FUW 48||2.7|-8.1|
82635853|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.649|STANDARD_ERROR_OF_MEAN|10.933||0.303|TWO_SIDED|95.0|-27.376|16.079|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.079|-27.376|0.303
82382398|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|14.6|||||TWO_SIDED|95.0|0.4|28.8|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 4: FUW 48||28.8|0.4|
82382399|NCT04225715|164474940|SUPERIORITY||Difference in Response Rate|9.5|||||TWO_SIDED|95.0|-2.5|21.5|||||95% CI for difference of two proportions was calculated using CMH method.|Combo 6: FUW 48||21.5|-2.5|
82382400|NCT02549859|164475008|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382401|NCT02549859|164475009|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
82382402|NCT02549859|164475010|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
82382403|NCT02549859|164475011|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382404|NCT02549859|164475012|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382405|NCT02549859|164475013|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382406|NCT02549859|164475014|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382407|NCT02549859|164475015|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
82382408|NCT02549859|164475016|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382409|NCT02549859|164475017|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382410|NCT02549859|164475018|SUPERIORITY||||||<|0.01|||||||Paired t-test, 2 sided|||||||<0.01
82382411|NCT02549859|164475019|SUPERIORITY||||||<|0.001|||||||Paired t-test, 2 sided|||||||<0.001
82382412|NCT02549859|164475020|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382413|NCT02549859|164475021|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382414|NCT02549859|164475022|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382415|NCT02549859|164475023|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382416|NCT02549859|164475024|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382417|NCT02549859|164475025|SUPERIORITY||||||<|0.05|||||||Paired t-test, 2 sided|||||||<0.05
82382418|NCT02549859|164475026|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382419|NCT02549859|164475027|SUPERIORITY||||||>|0.05|||||||Paired t-test, 2 sided|||||||>0.05
82382420|NCT00360282|164475040|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Sign test|||||||0.007
82382421|NCT00360282|164475041|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Sign test|||||||.549
82382422|NCT00607620|164475049|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||||0.98|0.79|
82635854|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.003|STANDARD_ERROR_OF_MEAN|14.53||0.067|TWO_SIDED|95.0|-50.882|6.875|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||6.875|-50.882|0.067
82382423|NCT00607620|164475050|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-2.1|-0.3|||||The data represented refers to the group mean difference (intervention versus control) of the change score between baseline to 12-months.|||-0.3|-2.1|
82382424|NCT00607620|164475051|SUPERIORITY||Mean Difference (Net)|3.4|||||TWO_SIDED|95.0|0.4|6.4|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||6.4|0.4|
82516305|NCT00489970|164725387|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PT GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|1.64||||||97.5|1.33|2.03|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PT one month following vaccination||2.03|1.33|
82516306|NCT00489970|164725387|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-FHA GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|5.27|||||TWO_SIDED|97.5|4.37|6.36|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-FHA one month following vaccination||6.36|4.37|
82516307|NCT00489970|164725387|NON_INFERIORITY|One month after vaccination, the lower limits of the 97.5% CIs for the anti-PRN GMC ratios (Adacel Group divided by Infanrix Group in APV-039) were greater than or equal to 0.67|GMC ratio|4.47|||||TWO_SIDED|97.5|3.58|5.57|||GMC ratio|The associated CI was derived using the method proposed by G.Y. Zou and A. Donner \[Zou, 2008\]||To demonstrate that the immune response elicited by a second dose of Tdap vaccine, Boostrix (Adacel Group) was non-inferior to the immune response elicited by a three dose series of Infanrix vaccine in infants in the German household contact efficacy study APV-039, with respect to antibodies against anti-PRN one month following vaccination||5.57|3.58|
82382425|NCT00607620|164475052|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-3.3|1.9|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||1.9|-3.3|
82516308|NCT00489970|164725388|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-5.91|||||TWO_SIDED|97.5|-14.67|2.85|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against diphtheria antigen, one month following vaccination.||2.85|-14.67|
82516309|NCT00489970|164725388|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-1.44|||||TWO_SIDED|97.5|-10.63|7.79|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against tetanus antigen, one month following vaccination.||7.79|-10.63|
82570653|NCT03974100|164851966|EQUIVALENCE|Equivalence criteria (analysis set PDS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.98|1.01|||ANCOVA|ANCOVA was performed on log-transformed AUEC including treatment and log baseline CTX value as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.01|0.98|
82382426|NCT00607620|164475053|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-1.02|0.99|||||The data represented refers to the group mean difference (intervention versus control) of the change score between 6-months and 12-months.|||0.99|-1.02|
82570654|NCT03974100|164851967|EQUIVALENCE|Equivalence criteria (analysis set PKS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.92|1.03|||ANCOVA|ANCOVA was performed on log-transformed Cmax including treatment and weight as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.03|0.92|
82570655|NCT03974100|164851968|EQUIVALENCE|Equivalence criteria (analysis set PKS): 90% CI for ratio of geometric means contained in \[0.80, 1.25%\]|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05|||ANCOVA|ANCOVA was performed on log-transformed AUCinf including treatment and weight as a continuous covariate|Geometric mean ratio of GP2411 (Test) to EU-Prolia (Reference)|||1.05|0.93|
82570656|NCT00623363|164851994|SUPERIORITY|||||||0.503|||||||Monte Carlo estimates|||Baseline (Day -7)||||0.503
82570657|NCT00623363|164851994|SUPERIORITY||Least Squares (LS) Mean|20.6|||||TWO_SIDED|95.0|1.82|39.37||||||Average of Days 1 and 2||39.37|1.82|
82570658|NCT00623363|164851994|SUPERIORITY||Least Squares (LS) Mean|3.6|||||TWO_SIDED|95.0|-15.18|22.37||||||Change from Baseline||22.37|-15.18|
82570659|NCT00623363|164851994|SUPERIORITY||Least Squares (LS) Mean|36.59|||||TWO_SIDED|95.0|24.04|49.14||||||Average of Days 1 and 2||49.14|24.04|
82570660|NCT00623363|164851994|SUPERIORITY||Least Squares (LS) Mean|19.59||||0.16|TWO_SIDED|95.0|7.04|32.14|||ANCOVA|||Change from Baseline||32.14|7.04|0.160
82516310|NCT00489970|164725388|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against diphtheria antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-8.56|||||TWO_SIDED|97.5|-20.33|2.73|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against diphtheria antigen, one month following vaccination.||2.73|-20.33|
82516311|NCT00489970|164725388|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against tetanus antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-11.79|||||TWO_SIDED|97.5|-22.98|0.15|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against tetanus antigen, one month following vaccination.||0.15|-22.98|
82516312|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against PT antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-2.85|||||TWO_SIDED|97.5|-9.09|3.08|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PT antigen, one month following vaccination.||3.08|-9.09|
82382427|NCT02375971|164475088|SUPERIORITY|The primary efficacy variable was treatment success, defined as the absence of active ROP and absence of unfavorable structural outcomes in both eyes 24 weeks after starting study treatment.|Odds Ratio (OR)|2.19||||0.0254|TWO_SIDED|95.0|0.9932|4.8235|||Cochran-Mantel-Haenszel|||||4.8235|0.9932|0.0254
82635855|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.761|STANDARD_ERROR_OF_MEAN|14.676||0.003|TWO_SIDED|95.0|-70.934|-12.588|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-12.588|-70.934|0.003
82382428|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.2536||||||Cycle 1. No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 1. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.2536
82516313|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against FHA antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-7.05|||||TWO_SIDED|97.5|-13.16|-1.4|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against FHA antigen, one month following vaccination.||-1.40|-13.16|
82516314|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Boostrix group) minus the first dose of Boostrix (Control group)\] against PRN antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-10.32|||||TWO_SIDED|97.5|-17.5|-3.38|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Boostrix group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PRN antigen, one month following vaccination.||-3.38|-17.50|
82516315|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against PT antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|-1.24|||||TWO_SIDED|97.5|-10.03|5.57|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PT antigen, one month following vaccination.||5.57|-10.03|
82635856|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-34.933|STANDARD_ERROR_OF_MEAN|14.832||0.01|TWO_SIDED|95.0|-64.41|-5.456|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.456|-64.410|0.010
82635857|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.978|STANDARD_ERROR_OF_MEAN|11.725||0.064|TWO_SIDED|95.0|-41.282|5.326|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||5.326|-41.282|0.064
82382429|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.23||0.5757||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 2. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.5757
82382430|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6065||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 3. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.6065
82382431|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.31||0.4301||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 4. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.4301
82382432|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.49||0.3125||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 5. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.3125
82442318|NCT00300482|164593258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide \>99% power to detect a 17% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82516316|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against FHA antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response rate|4.01|||||TWO_SIDED|97.5|-2.38|8.66|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against FHA antigen, one month following vaccination.||8.66|-2.38|
82523547|NCT02052310|164742669|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% CI for the treatment difference in LS means of change from baseline Hb averaged over Weeks 28 to 52 lay entirely above -0.75 g/dL.|LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.067||0.0148|TWO_SIDED|95.0|0.032|0.296|||Mixed Models Analysis|||Treatment comparison was made using mixed model for repeated measures (MMRM) with baseline Hb as a covariate, and treatment, visit, visit-by-treatment interaction and randomization stratification factors except mean qualifying screening hemoglobin (≤8.0 vs. \>8.0 g/dL) as fixed effects.||0.296|0.032|0.0148
82523548|NCT02052310|164742670|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|LS Mean Difference|-18.34|STANDARD_ERROR_OF_MEAN|1.584|<|0.0001|TWO_SIDED|95.0|-21.448|-15.232|||Mixed Models Analysis|||Treatment comparison was made using a MMRM with baseline LDL cholesterol as a covariate, and treatment, visit, visit-by-treatment interaction and randomization stratification factors as fixed effects.||-15.232|-21.448|<0.0001
82523549|NCT02052310|164742671|NON_INFERIORITY|The non-inferiority margin was fixed as a difference of -0.75.|LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.099||0.8178|TWO_SIDED|95.0|-0.171|0.217|||ANCOVA|ANCOVA multiple imputation||Treatment comparison was made using the multiple imputation strategy by combining the results of ANCOVA model with baseline Hb as a covariate, and treatment, region and cardiovascular/cerebrovascular/thromboembolic medical history (yes vs. no) as factors.||0.217|-0.171|0.8178
82635858|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.654|STANDARD_ERROR_OF_MEAN|11.903||0.318|TWO_SIDED|95.0|-29.311|18.004|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||18.004|-29.311|0.318
82523550|NCT02052310|164742672|SUPERIORITY|||||||0.00028||||||Threshold for significance at 0.05 level.|Rank ANCOVA|||Treatment comparison was made using an ANCOVA model with baseline iron repletion status, treatment, and randomization stratification factors as fixed effects.||||0.00028
82523551|NCT02052310|164742673|NON_INFERIORITY|The non-inferiority margin for the difference between groups was 1.8.|Hazard Ratio (HR)|1.26||||0.3284|TWO_SIDED|95.0|0.791|2.016|||Cox Proportional Hazards model|||Analysis was done using a Cox Proportional Hazards model adjusting for baseline Hb and other stratification factors except mean qualifying screening hemoglobin (\<= 8.0 vs. \>8.0 g/dL) as fixed effects.||2.016|0.791|0.3284
82516317|NCT00489970|164725389|NON_INFERIORITY|One month after vaccination, the lower limit of the 97.5% CI for the difference between groups in the booster response rate \[a second dose of Boostrix (Adacel group) minus the first dose of Boostrix (Control group)\] against PRN antigen was greater than or equal to -10% (clinical limit for non-inferiority).|Difference in booster response|-4.76|||||TWO_SIDED|97.5|-14.53|3.18|||||Standardized asymptotic 97.5% CI for the group difference in the Booster response was calculated.|To demonstrate that the immune response elicited by a second dose of Boostrix vaccine (Adacel group) was non-inferior to the immune response elicited by a first dose of Boostrix vaccine (Control group), with respect to booster response against PRN antigen, one month following vaccination.||3.18|-14.53|
82516318|NCT00566228|164725436|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.69|TWO_SIDED|95.0|0.62|2.08|||Log Rank|||||2.08|0.62|0.690
82635859|NCT02055976|164986448|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-19.435|STANDARD_ERROR_OF_MEAN|11.807||0.052|TWO_SIDED|95.0|-42.902|4.032|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||4.032|-42.902|0.052
82442319|NCT00300482|164593259|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 92% power to detect a 5% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82516319|NCT00566228|164725439|SUPERIORITY|||||||0.679|||||||Log Rank|||||||0.679
82516320|NCT02646423|164725468|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.84|1.05||||||||1.05|0.84|
82516321|NCT02646423|164725469|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.86|1.16||||||||1.16|0.86|
82516322|NCT02646423|164725470|SUPERIORITY||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-0.16|0.19||||||||0.19|-0.16|
82516323|NCT02646423|164725471|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-1.81|1.05||||||||1.05|-1.81|
82516324|NCT02646423|164725472|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-1.96|1.27||||||||1.27|-1.96|
82516325|NCT02646423|164725473|SUPERIORITY||Mean Difference (Net)|0.36|||||TWO_SIDED|95.0|-0.94|1.66||||||||1.66|-0.94|
82635860|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.974|STANDARD_ERROR_OF_MEAN|7.674|<|0.001|TWO_SIDED|95.0|-41.217|-10.731|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-10.731|-41.217|<0.001
82516326|NCT02646423|164725474|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.09|0.03||||||||0.03|-0.09|
82516327|NCT02646423|164725475|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.46|1.51||||||||1.51|0.46|
82516328|NCT02646423|164725476|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.64|1.56||||||||1.56|0.64|
82516329|NCT02646423|164725477|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.64|2.81||||||||2.81|0.64|
82516330|NCT02646423|164725478|SUPERIORITY||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.6|6.62||||||||6.62|0.60|
82516331|NCT02646423|164725479|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.72|1.35||||||||1.35|0.72|
82382433|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.41||0.8169||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 6.Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.8169
82516332|NCT02646423|164725480|SUPERIORITY||Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.86|1.48||||||||1.48|0.86|
82516333|NCT04564833|164725481|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82516334|NCT04564833|164725481|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82516335|NCT04564833|164725482|SUPERIORITY|||||||0.3954|||||||ANCOVA|||||||0.3954
82516336|NCT04564833|164725482|SUPERIORITY|||||||0.0682|||||||ANCOVA|||||||0.0682
82516337|NCT04564833|164725483|SUPERIORITY|||||||0.6755|||||||Fisher Exact|||||||0.6755
82516338|NCT04564833|164725483|SUPERIORITY|||||||0.6758|||||||Fisher Exact|||||||0.6758
82516339|NCT04564833|164725484|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
82516340|NCT04564833|164725484|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
82516341|NCT04495712|164725499|SUPERIORITY|||||||0.71|||||||Log Rank|||||||0.71
82516342|NCT04495712|164725500|SUPERIORITY|||||||0.07|||||||Log Rank|||||||0.07
82516343|NCT04495712|164725501|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
82516344|NCT00823082|164725587|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82516345|NCT00823082|164725588|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82516346|NCT00823082|164725589|SUPERIORITY_OR_OTHER|||||||0.6115|TWO_SIDED||||||Fisher Exact|||At ICU discharge visit||||0.6115
82516347|NCT00823082|164725590|SUPERIORITY_OR_OTHER|||||||0.1211|TWO_SIDED||||||Fisher Exact|||Follow-up visit||||0.1211
82516348|NCT00823082|164725590|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||1.000
82516349|NCT00823082|164725591|SUPERIORITY_OR_OTHER|||||||0.487|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||0.4870
82516350|NCT00823082|164725592|SUPERIORITY_OR_OTHER|||||||0.3897|TWO_SIDED||||||Hodges-Lehmann test|||||||0.3897
82635861|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.11|STANDARD_ERROR_OF_MEAN|7.831||0.004|TWO_SIDED|95.0|-36.665|-5.555|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-5.555|-36.665|0.004
82516351|NCT00823082|164725593|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0000
82516352|NCT00823082|164725594|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Fisher Exact|||||||0.0004
82516353|NCT00823082|164725595|SUPERIORITY_OR_OTHER|||||||0.0209|TWO_SIDED||||||ANCOVA|||||||0.0209
82516354|NCT00823082|164725596|SUPERIORITY_OR_OTHER|||||||0.7433|TWO_SIDED||||||ANCOVA|||Number of units of packed red blood cells||||0.7433
82516355|NCT00823082|164725596|SUPERIORITY_OR_OTHER|||||||0.7453|TWO_SIDED||||||ANCOVA|||Units of fresh frozen plasma||||0.7453
82516356|NCT00823082|164725596|SUPERIORITY_OR_OTHER|||||||0.2705|TWO_SIDED||||||ANCOVA|||Units of platelets||||0.2705
82516357|NCT00823082|164725597|SUPERIORITY_OR_OTHER|||||||0.446|TWO_SIDED||||||Fisher Exact|||||||0.4460
82516358|NCT00823082|164725598|SUPERIORITY_OR_OTHER|||||||0.4936|TWO_SIDED||||||Fisher Exact|||||||0.4936
82516359|NCT00823082|164725599|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Follow-up visit||||1.000
82516360|NCT00823082|164725599|SUPERIORITY_OR_OTHER|||||||0.6218|TWO_SIDED||||||Fisher Exact|||ICU discharge visit||||0.6218
82635862|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.034|STANDARD_ERROR_OF_MEAN|7.917|<|0.001|TWO_SIDED|95.0|-46.758|-15.31|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-15.310|-46.758|<0.001
82516361|NCT00823082|164725600|SUPERIORITY_OR_OTHER|||||||0.9574|TWO_SIDED||||||Hodges-Lehmann|||||||0.9574
82516362|NCT00823082|164725601|SUPERIORITY_OR_OTHER|||||||0.7489|||||||Hodges-Lehmann test|||||||0.7489
82516363|NCT01767116|164725602|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 73% to achieve noninferiority.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|98.2|100.0|||||95% CI was calculated using the Wilson score method for the single proportion because the point estimate was 100%..|For the primary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.2|
82516364|NCT01767116|164725602|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 73% to achieve noninferiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|For the primary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.6|
82635863|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.034|STANDARD_ERROR_OF_MEAN|9.553||0.799|TWO_SIDED|95.0|-10.948|27.015|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||27.015|-10.948|0.799
82516365|NCT01767116|164725603|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%. The lower confidence bound of the 2-sided 95% CI for the difference in percentage of participants with sustained virologic response at 12 weeks after treatment must exceed -10.5% to achieve noninferiority.|Difference in Percentage of Participants|0.5|||||TWO_SIDED|95.0|-0.5|1.4|||||95% CI was calculated using the normal approximation to the binomial distribution.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a -10% margin, a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per arm provides \>95% power to demonstrate noninferiority of ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV compared with ABT-450/r/ABT-267 and ABT-333, plus RBV (normal approximation of a single binomial proportion in a 1-sample test for superiority).||1.4|-0.5|
82516366|NCT01767116|164725604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82516367|NCT01767116|164725605|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|98.2|100.0|||||95% CI calculated using the Wilson score method for the single proportion; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 84% to achieve superiority.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.2|
82635864|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.511|STANDARD_ERROR_OF_MEAN|9.682||0.398|TWO_SIDED|95.0|-21.748|16.727|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||16.727|-21.748|0.398
82635865|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.369|STANDARD_ERROR_OF_MEAN|9.58||0.515|TWO_SIDED|95.0|-18.668|19.407|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||19.407|-18.668|0.515
82635866|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.056|STANDARD_ERROR_OF_MEAN|8.801||0.128|TWO_SIDED|95.0|-27.549|7.437|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||7.437|-27.549|0.128
82635867|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-24.352|STANDARD_ERROR_OF_MEAN|8.882||0.004|TWO_SIDED|95.0|-42.008|-6.695|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-6.695|-42.008|0.004
82635868|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.994|STANDARD_ERROR_OF_MEAN|8.987||0.049|TWO_SIDED|95.0|-32.858|2.87|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||2.870|-32.858|0.049
82635869|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.83|STANDARD_ERROR_OF_MEAN|9.326||0.071|TWO_SIDED|95.0|-32.368|4.709|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||4.709|-32.368|0.071
82635870|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.378|STANDARD_ERROR_OF_MEAN|9.464||0.361|TWO_SIDED|95.0|-22.191|15.435|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||15.435|-22.191|0.361
82442320|NCT00300482|164593259|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 92% power to detect a 5% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82635871|NCT02055976|164986449|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.035|STANDARD_ERROR_OF_MEAN|9.389||0.056|TWO_SIDED|95.0|-33.698|3.629|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||3.629|-33.698|0.056
82635872|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-76.189|STANDARD_ERROR_OF_MEAN|5.431|<|0.001|TWO_SIDED|95.0|-86.975|-65.403|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-65.403|-86.975|<0.001
82516368|NCT01767116|164725605|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.6|100.0|||||95% CI calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 84% to achieve superiority.|For the secondary efficacy endpoint of sustained virologic response at 12 weeks after treatment, based on a 2-sided significance level of 0.05 and an underlying rate of 92% or higher in each arm, a sample size of 200 participants per treatment arm provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (84%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|98.6|
82635873|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-95.205|STANDARD_ERROR_OF_MEAN|5.556|<|0.001|TWO_SIDED|95.0|-106.238|-84.172|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-84.172|-106.238|<0.001
82570661|NCT01062269|164852034|SUPERIORITY_OR_OTHER||||||<|0.05||||||Differences between test products were assessed by repeated measures analysis of variance. If sequence was not found to be statistically significant(p\>0.05),then it was removed from the final model.|measures analysis of variance|Differences between test powders assessed by repeated measures analysis of variance, pairwise comparisons between treatments by Scheffe procedure.||"The BASA scale components were derived from the parameters best shown to differentiate acceptability between different BAS preparations (taste and texture),as well as other parameters useful for differentiating between different BAS preparations(appearance and mixability). The scale was then weighted based upon an Importance of Acceptability questionnaire regarding the individual scale components. The developed scale should reasonably allow for future comparisons of differing BAS formulations."||||<0.05
82382434|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.4||0.9359|||||||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 7. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.9359
82570662|NCT01438840|164852036|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82570663|NCT03738397|164852050|SUPERIORITY||Adjusted Response Rate Difference|9.7||||0.007|TWO_SIDED|95.0|2.6|16.7||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||16.7|2.6|0.007
82570664|NCT03738397|164852051|SUPERIORITY||Least Squares (LS) Mean Difference|-18.21|STANDARD_ERROR_OF_MEAN|2.753|<|0.001|TWO_SIDED|95.0|-23.61|-12.8||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-12.80|-23.61|<0.001
82570665|NCT03738397|164852052|SUPERIORITY||Adjusted Response Rate Difference|20.4|||<|0.001|TWO_SIDED|95.0|14.8|26.0||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||26.0|14.8|<0.001
82570666|NCT03738397|164852053|SUPERIORITY||Adjusted Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|13.8|28.6||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||28.6|13.8|<0.001
82570667|NCT03738397|164852054|SUPERIORITY||LS Mean Difference|-28.02|STANDARD_ERROR_OF_MEAN|3.177|<|0.001|TWO_SIDED|95.0|-34.25|-21.78||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-21.78|-34.25|<0.001
82570668|NCT03738397|164852055|SUPERIORITY||Adjusted Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|19.3|32.7||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||32.7|19.3|<0.001
82570669|NCT03738397|164852056|SUPERIORITY||LS Mean Difference|-23.02|STANDARD_ERROR_OF_MEAN|2.548|<|0.001|TWO_SIDED|95.0|-28.03|-18.02||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD categories in the model.|Difference = Upadacitinib - Dupilumab|||-18.02|-28.03|<0.001
82570670|NCT03738397|164852057|SUPERIORITY||Adjusted Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|12.4|27.3||A multiple testing procedure was used to provide a strong control of the type I error rate at alpha = 0.05 (2-sided) across analyses comparing upadacitinib versus dupilumab with respect to the primary and ranked secondary endpoints.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for vIGA-AD categories (moderate \[3\] versus severe \[4\]).|Response rate difference = Upadacitinib - Dupilumab|||27.3|12.4|<0.001
82570671|NCT03783546|164852061|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
82570672|NCT03783546|164852063|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82635874|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-106.077|STANDARD_ERROR_OF_MEAN|5.622|<|0.001|TWO_SIDED|95.0|-117.239|-94.915|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-94.915|-117.239|<0.001
82570673|NCT01817712|164852104|SUPERIORITY||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.46|3.14|||Regression, Logistic|||||3.14|1.46|<0.001
82570674|NCT01817712|164852105|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|Site used as strata||||||0.004
82570675|NCT01817712|164852106|OTHER|Longitudinal analysis of PCL-5 (change from baseline)|Mean Difference (Net)|-1.9||||0.07|TWO_SIDED|95.0|-3.91|0.12|||Mixed Models Analysis|||||0.12|-3.91|0.07
82635875|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.234|STANDARD_ERROR_OF_MEAN|6.622|<|0.001|TWO_SIDED|95.0|-84.39|-58.077|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-58.077|-84.390|<0.001
82635876|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-100.638|STANDARD_ERROR_OF_MEAN|6.609|<|0.001|TWO_SIDED|95.0|-113.768|-87.508|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-87.508|-113.768|<0.001
82635877|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-103.386|STANDARD_ERROR_OF_MEAN|6.525|<|0.001|TWO_SIDED|95.0|-116.353|-90.42|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-90.420|-116.353|<0.001
82635878|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.124|STANDARD_ERROR_OF_MEAN|5.382|<|0.001|TWO_SIDED|95.0|-71.813|-50.435|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.435|-71.813|<0.001
82635879|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-81.837|STANDARD_ERROR_OF_MEAN|5.48|<|0.001|TWO_SIDED|95.0|-92.721|-70.954|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-70.954|-92.721|<0.001
82635880|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-89.683|STANDARD_ERROR_OF_MEAN|5.567|<|0.001|TWO_SIDED|95.0|-100.74|-78.627|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-78.627|-100.740|<0.001
82635881|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-76.747|STANDARD_ERROR_OF_MEAN|6.118|<|0.001|TWO_SIDED|95.0|-88.902|-64.593|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.593|-88.902|<0.001
82635882|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-100.666|STANDARD_ERROR_OF_MEAN|6.098|<|0.001|TWO_SIDED|95.0|-112.781|-88.551|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-88.551|-112.781|<0.001
82635883|NCT02055976|164986451|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-109.49|STANDARD_ERROR_OF_MEAN|6.054|<|0.001|TWO_SIDED|95.0|-121.519|-97.462|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-97.462|-121.519|<0.001
82635884|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.772|STANDARD_ERROR_OF_MEAN|3.473|<|0.001|TWO_SIDED|95.0|-53.671|-39.874|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-39.874|-53.671|<0.001
82523235|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|0.69|STANDARD_ERROR_OF_MEAN|0.806||0.3963|TWO_SIDED|80.0|-0.35|1.72||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Negative symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.72|-0.35|0.3963
82442321|NCT00300482|164593260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 99% power to detect a 43% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82570676|NCT02979613|164852116|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-1.9|2.0|||||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted Mantel-Haenszel (MH) percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|The null hypothesis was that the TAF group is at least 4% worse than the TDF group with respect to the percentage of participants with HBV DNA ≥ 20 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 4% worse than the TDF group with respect to the percentage of participants with HBV DNA ≥ 20 IU/mL at Week 48.||2.0|-1.9|
82516369|NCT00439777|164725623|NON_INFERIORITY_OR_EQUIVALENCE|Assuming equal efficacy, a total of 88 events will give a power of 90% to demonstrate that rivaroxaban is at least as effective as the comparator, considering a relative non-inferiority upper CI margin for the hazard ratio of 2.0 (two-sided alpha=0.05). The mean overall incidence for the primary efficacy outcome of 3% was expected and therefore 1465 patients per group would be needed. This number was to be adjusted based on the observed overall incidence of symptomatic recurrent VTE.|Hazard Ratio (HR)|1.12|STANDARD_ERROR_OF_MEAN|0.2067||0.0026|TWO_SIDED|95.0|0.75|1.68|||Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing). Based on this model, rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI was less than 2.0.||1.68|0.75|0.0026
82442322|NCT00300482|164593260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 205 per arm would provide 99% power to detect a 43% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82516370|NCT00439777|164725624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.15||0.33|TWO_SIDED|95.0|0.86|1.56||Nominal p-value|Regression, Cox||The standard error of the log hazard ratio was estimated.|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.||1.56|0.86|0.33
82516371|NCT00439777|164725625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|STANDARD_ERROR_OF_MEAN|0.1499||0.275|TWO_SIDED|95.0|0.63|1.14||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|||1.14|0.63|0.275
82635885|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|3.554|<|0.001|TWO_SIDED|95.0|-66.257|-52.143|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-52.143|-66.257|<0.001
82442323|NCT02120365|164593266|SUPERIORITY||Mean Difference (Final Values)|0.729|STANDARD_ERROR_OF_MEAN|1.986||0.867|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|Medication dose was a within-subjects factor (crossover design)||||0.867
82516372|NCT00439777|164725626|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.257||0.55|TWO_SIDED|95.0|0.7|1.93||nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.93|0.70|0.55
82516373|NCT00439777|164725627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|STANDARD_ERROR_OF_MEAN|0.3289||0.85|TWO_SIDED|95.0|0.49|1.79||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.79|0.49|0.85
82635886|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.868|STANDARD_ERROR_OF_MEAN|3.595|<|0.001|TWO_SIDED|95.0|-74.007|-59.73|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.730|-74.007|<0.001
82635887|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.051|STANDARD_ERROR_OF_MEAN|3.595|<|0.001|TWO_SIDED|95.0|-47.195|-32.908|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-32.908|-47.195|<0.001
82516374|NCT00439777|164725628|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|STANDARD_ERROR_OF_MEAN|0.08756||0.23|TWO_SIDED|95.0|0.76|1.07||If the primary efficacy analysis shows that rivaroxaban is non-inferior to the comparator, the principal safety outcome was to be compared between treatment groups to maintain the overall type I error of 0.05 (2-sided) (a closed testing procedure).|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.07|0.76|0.23
82635888|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.009|STANDARD_ERROR_OF_MEAN|3.587|<|0.001|TWO_SIDED|95.0|-63.135|-48.882|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.882|-63.135|<0.001
82635889|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-57.576|STANDARD_ERROR_OF_MEAN|3.544|<|0.001|TWO_SIDED|95.0|-64.618|-50.533|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-50.533|-64.618|<0.001
82635890|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.991|STANDARD_ERROR_OF_MEAN|3.389|<|0.001|TWO_SIDED|95.0|-44.721|-31.26|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-31.260|-44.721|<0.001
82635891|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-50.856|STANDARD_ERROR_OF_MEAN|3.451|<|0.001|TWO_SIDED|95.0|-57.709|-44.002|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-44.002|-57.709|<0.001
82635892|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.354|STANDARD_ERROR_OF_MEAN|3.505|<|0.001|TWO_SIDED|95.0|-63.315|-49.393|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.393|-63.315|<0.001
82635893|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.172|STANDARD_ERROR_OF_MEAN|3.647|<|0.001|TWO_SIDED|95.0|-50.417|-35.926|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.926|-50.417|<0.001
82516375|NCT03855189|164725652|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516376|NCT03855189|164725652|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from ANOVA.||||<0.01
82516377|NCT03855189|164725652|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from ANOVA.||||0.06
82516378|NCT03855189|164725653|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
82516379|NCT03855189|164725653|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516380|NCT03855189|164725653|OTHER|||||||0.5|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.50
82635894|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.698|STANDARD_ERROR_OF_MEAN|3.633|<|0.001|TWO_SIDED|95.0|-63.916|-49.48|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.480|-63.916|<0.001
82635895|NCT02055976|164986452|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.305|STANDARD_ERROR_OF_MEAN|3.609|<|0.001|TWO_SIDED|95.0|-68.477|-54.134|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.134|-68.477|<0.001
82516381|NCT03855189|164725656|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516382|NCT03855189|164725656|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516383|NCT03855189|164725656|OTHER|||||||0.11|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.11
82516384|NCT03855189|164725657|OTHER|||||||0.05|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.05
82516385|NCT03855189|164725657|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516386|NCT03855189|164725657|OTHER|||||||0.13|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.13
82635896|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.69928|STANDARD_ERROR_OF_MEAN|0.13216|<|0.001|TWO_SIDED|95.0|-1.96175|-1.43682|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.43682|-1.96175|<0.001
82382435|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6233|||||||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 8. Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.6233
82516387|NCT03855189|164725658|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.06
82516388|NCT03855189|164725658|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516389|NCT03855189|164725658|OTHER|||||||0.81|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.81
82516390|NCT03855189|164725659|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
82516391|NCT03855189|164725659|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516392|NCT03855189|164725659|OTHER|||||||0.17|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.17
82635897|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.07922|STANDARD_ERROR_OF_MEAN|0.13446|<|0.001|TWO_SIDED|95.0|-2.34622|-1.81223|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.81223|-2.34622|<0.001
82516393|NCT03855189|164725660|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516394|NCT03855189|164725660|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
82516395|NCT03855189|164725660|OTHER|||||||0.39|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.39
82516396|NCT03855189|164725661|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516397|NCT03855189|164725661|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516398|NCT03855189|164725661|OTHER|||||||0.6|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.60
82516399|NCT03855189|164725662|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516400|NCT03855189|164725662|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516401|NCT03855189|164725662|OTHER|||||||0.54|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.54
82516402|NCT03855189|164725663|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516403|NCT03855189|164725663|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516404|NCT03855189|164725663|OTHER|||||||0.71|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.71
82516405|NCT03855189|164725664|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516406|NCT03855189|164725664|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516407|NCT03855189|164725664|OTHER|||||||0.77|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.77
82516408|NCT03855189|164725665|OTHER|||||||0.11|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.11
82516409|NCT03855189|164725665|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516410|NCT03855189|164725665|OTHER|||||||0.6|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.60
82516411|NCT03855189|164725666|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516412|NCT03855189|164725666|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516413|NCT03855189|164725666|OTHER|||||||0.59|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.59
82516414|NCT03855189|164725667|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
82516415|NCT03855189|164725667|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516416|NCT03855189|164725667|OTHER|||||||0.43|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.43
82635898|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.23886|STANDARD_ERROR_OF_MEAN|0.13553|<|0.001|TWO_SIDED|95.0|-2.50795|-1.96978|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.96978|-2.50795|<0.001
82635899|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.43281|STANDARD_ERROR_OF_MEAN|0.16311|<|0.001|TWO_SIDED|95.0|-1.75689|-1.10872|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.10872|-1.75689|<0.001
82635900|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.01501|STANDARD_ERROR_OF_MEAN|0.16217|<|0.001|TWO_SIDED|95.0|-2.33718|-1.69283|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.69283|-2.33718|<0.001
82635901|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.11359|STANDARD_ERROR_OF_MEAN|0.16038|<|0.001|TWO_SIDED|95.0|-2.4323|-1.79489|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.79489|-2.43230|<0.001
82635902|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.35298|STANDARD_ERROR_OF_MEAN|0.13609|<|0.001|TWO_SIDED|95.0|-1.62324|-1.08271|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.08271|-1.62324|<0.001
82635903|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.79615|STANDARD_ERROR_OF_MEAN|0.1379|<|0.001|TWO_SIDED|95.0|-2.07001|-1.52229|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.52229|-2.07001|<0.001
82635904|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.86921|STANDARD_ERROR_OF_MEAN|0.13927|<|0.001|TWO_SIDED|95.0|-2.14575|-1.59266|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.59266|-2.14575|<0.001
82635905|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.57311|STANDARD_ERROR_OF_MEAN|0.14333|<|0.001|TWO_SIDED|95.0|-1.85788|-1.28834|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.28834|-1.85788|<0.001
82516417|NCT03855189|164725668|OTHER|||||||0.09|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.09
82635906|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.00256|STANDARD_ERROR_OF_MEAN|0.14228|<|0.001|TWO_SIDED|95.0|-2.28521|-1.7199|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.71990|-2.28521|<0.001
82635907|NCT02055976|164986454|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.20298|STANDARD_ERROR_OF_MEAN|0.14142|<|0.001|TWO_SIDED|95.0|-2.48399|-1.92197|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-1.92197|-2.48399|<0.001
82516418|NCT03855189|164725668|OTHER|||||||0.08|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.08
82382436|NCT00380874|164475113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.5||0.1569||||||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 9.Sample size was based on original primary efficacy parameter (PEP) of time to persistent paresthesia symptoms (symptoms developing in 35% of subjects taking pregabalin and 60% taking placebo symptoms). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, the study would have had at least 90% power using 100 subjects per treatment group. The original PEP was modified to secondary due to lack of symptom emergence.||||0.1569
82382437|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7207||95.0|-0.25|0.17||Model terms include treatment, study center, and baseline score.|ANCOVA|Cycle 1. No multiple comparisons adjustment was made.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 1.||0.17|-0.25|0.7207
82382438|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.36||0.3111||95.0|-0.36|1.1||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 2.||1.10|-0.36|0.3111
82382439|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.48||0.5925||95.0|-0.7|1.22||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 3.||1.22|-0.70|0.5925
82382440|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.55||0.5812||95.0|-0.8|1.41||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 4.||1.41|-0.80|0.5812
82516419|NCT03855189|164725668|OTHER|||||||0.96|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.96
82516420|NCT03855189|164725669|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82635908|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.92915|STANDARD_ERROR_OF_MEAN|2.83037|<|0.001|TWO_SIDED|95.0|-47.55052|-36.30778|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-36.30778|-47.55052|<0.001
82516421|NCT03855189|164725669|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82382441|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.7||0.2925||95.0|-0.67|2.16||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 5.||2.16|-0.67|0.2925
82516422|NCT03855189|164725669|OTHER|||||||0.64|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.64
82516423|NCT03855189|164725670|OTHER|||||||0.25|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.25
82516424|NCT03855189|164725670|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
82516425|NCT03855189|164725670|OTHER|||||||0.26|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.26
82516426|NCT03855189|164725671|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516427|NCT03855189|164725671|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516428|NCT03855189|164725671|OTHER|||||||0.09|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.09
82516429|NCT03855189|164725672|OTHER|||||||0.05|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.05
82516430|NCT03855189|164725672|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82382442|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.54||0.9276||95.0|-1.15|1.05||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 6.||1.05|-1.15|0.9276
82382443|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.53||0.9952||95.0|-1.06|1.07|||ANCOVA|Model terms include treatment, study center, and baseline score.||Cycle 7.||1.07|-1.06|0.9952
82516431|NCT03855189|164725672|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
82516432|NCT03855189|164725673|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
82516433|NCT03855189|164725673|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516434|NCT03855189|164725673|OTHER|||||||0.53|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.53
82516435|NCT03855189|164725674|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
82516436|NCT03855189|164725674|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516437|NCT03855189|164725674|OTHER|||||||0.02|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.02
82635909|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.08604|STANDARD_ERROR_OF_MEAN|2.88356|<|0.001|TWO_SIDED|95.0|-56.81235|-45.35973|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-45.35973|-56.81235|<0.001
82635910|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-55.516|STANDARD_ERROR_OF_MEAN|2.91014|<|0.001|TWO_SIDED|95.0|-61.29424|-49.73777|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-49.73777|-61.29424|<0.001
82635911|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.30375|STANDARD_ERROR_OF_MEAN|3.07498|<|0.001|TWO_SIDED|95.0|-39.41376|-27.19373|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-27.19373|-39.41376|<0.001
82635912|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.8521|STANDARD_ERROR_OF_MEAN|3.05746|<|0.001|TWO_SIDED|95.0|-53.92668|-41.77751|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-41.77751|-53.92668|<0.001
82635913|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.65686|STANDARD_ERROR_OF_MEAN|3.02097|<|0.001|TWO_SIDED|95.0|-54.6606|-42.65313|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.65313|-54.66060|<0.001
82635914|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-33.5292|STANDARD_ERROR_OF_MEAN|2.96599|<|0.001|TWO_SIDED|95.0|-39.42015|-27.63826|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-27.63826|-39.42015|<0.001
82635915|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.8568|STANDARD_ERROR_OF_MEAN|3.00531|<|0.001|TWO_SIDED|95.0|-49.82617|-37.88744|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-37.88744|-49.82617|<0.001
82635916|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.36865|STANDARD_ERROR_OF_MEAN|3.03981|<|0.001|TWO_SIDED|95.0|-52.40589|-40.33142|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-40.33142|-52.40589|<0.001
82516438|NCT03855189|164725675|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516439|NCT03855189|164725675|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82635917|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-38.06019|STANDARD_ERROR_OF_MEAN|3.1361|<|0.001|TWO_SIDED|95.0|-44.29176|-31.82863|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-31.82863|-44.29176|<0.001
82516440|NCT03855189|164725675|OTHER|||||||0.34|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.34
82635918|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-48.57807|STANDARD_ERROR_OF_MEAN|3.1135|<|0.001|TWO_SIDED|95.0|-54.76397|-42.39217|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.39217|-54.76397|<0.001
82382444|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.55||0.6265||95.0|-0.85|1.38|||ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 8.||1.38|-0.85|0.6265
82382445|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.62||0.4209||95.0|-1.77|0.76||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Cycle 9.||0.76|-1.77|0.4209
82516441|NCT03855189|164725676|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516442|NCT03855189|164725676|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82635919|NCT02055976|164986455|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.87214|STANDARD_ERROR_OF_MEAN|3.09363|<|0.001|TWO_SIDED|95.0|-58.01968|-45.7246|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113:Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-45.72460|-58.01968|<0.001
82516443|NCT03855189|164725676|OTHER|||||||0.04|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.04
82516444|NCT03855189|164725677|OTHER|||||||0.06|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.06
82516445|NCT03855189|164725677|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516446|NCT03855189|164725677|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516447|NCT03855189|164725678|OTHER|||||||0.13|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.13
82516448|NCT03855189|164725678|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516449|NCT03855189|164725678|OTHER|||||||0.07|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.07
82516450|NCT03855189|164725679|OTHER|||||||0.03|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.03
82516451|NCT03855189|164725679|OTHER||||||<|0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||<0.01
82516452|NCT03855189|164725679|OTHER|||||||0.01|||||||ANOVA|||Pairwise treatment comparison based on t-test from an analysis of variance (ANOVA).||||0.01
82516453|NCT00754845|164725690|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.91|||Log Rank|Stratified by the stratification factors at randomization||||0.91|0.48|0.01
82516454|NCT00754845|164725691|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
82516455|NCT00754845|164725692|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.83|TWO_SIDED|95.0|0.73|1.28|||Log Rank|||||1.28|0.73|0.83
82516456|NCT00754845|164725693|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82516457|NCT03238001|164725694|NON_INFERIORITY|In order to show non-inferiority, a lower 90% confidence limit (CL) for the difference in kappa scores would need to be greater than or equal to -0.20. The 90% confidence interval was calculated based on 5000 bootstrapped differences in kappa scores.|Lower 90% CL for difference in Kappas|-0.12|||||TWO_SIDED|90.0|-0.12|0.05|||||90% CI for Kappa of DCTclock/MoCA - Kappa of MMSE/MoCA (estimated with bootstrap method using 5000 bootstraps).|A two-one-sided tests approach was taken, where, prior to analysis, it was determined that a delta (equivalence margin) of 0.20 would be considered a significant difference between the DCTclock/MoCA kappa and the MMSE/MoCA kappa. The reasoning behind this determination can be found in the study's statistical analysis plan.||0.05|-0.12|
82516458|NCT03176693|164725711|EQUIVALENCE|A power analysis was calculated based on findings reported by Weingarten et al. of more frequent episodes of hypotension (defined as difference of mean systolic blood pressure \<30% from baseline) in phenoxybenzamine compared with doxazosin (15.7% versus 5.1%). Using a standard deviation of 16 and 11 (derived from reported interquartile ranges, assuming normal distribution), respectively, to achieve 80% power using an alpha =.05, a total sample size of 56 patients was determined.||||||0.56||||||Threshold for statistical significance = 0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis: hemodynamic instability time will not differ between arms||||.56
82516459|NCT02207829|164725719|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis: the difference between the trt means (umeclidinium minus tiotropium) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium may be deemed statistically non-inferior to tiotropium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, umeclidinium may be deemed statistically superior to tiotropium.|Mean Difference (Final Values)|0.059|||<|0.001|TWO_SIDED|95.0|0.029|0.088|||Mixed Models Analysis|||||0.088|0.029|<0.001
82516460|NCT01418209|164725722|SUPERIORITY_OR_OTHER|||||||0.02||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.02
82516461|NCT01418209|164725722|SUPERIORITY_OR_OTHER|||||||0.02||||||p-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold of statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.02
82516462|NCT01418209|164725723|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||VMS frequency values were log transformed for modeling.||||<0.001
82635920|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33157|STANDARD_ERROR_OF_MEAN|0.02639|<|0.001|TWO_SIDED|95.0|-0.38399|-0.27916|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.27916|-0.38399|<0.001
82382446|NCT00380874|164475114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.54||0.9657||95.0|-1.06|1.11||No multiple comparisons adjustment was made.|ANCOVA|Model terms include treatment, study center, and baseline score.|LS means and corresponding standard errors derived from ANCOVA model were used.|Last Observation Carried Forward (LOCF)endpoint.||1.11|-1.06|0.9657
82516463|NCT01418209|164725723|SUPERIORITY_OR_OTHER|||||||0.005||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures||VMS frequency values were log transformed for modeling.||||0.005
82635921|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44402|STANDARD_ERROR_OF_MEAN|0.02682|<|0.001|TWO_SIDED|95.0|-0.49727|-0.39077|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39077|-0.49727|<0.001
82635922|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.48314|STANDARD_ERROR_OF_MEAN|0.02698|<|0.001|TWO_SIDED|95.0|-0.53671|-0.42956|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.42956|-0.53671|<0.001
82635923|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.30542|STANDARD_ERROR_OF_MEAN|0.0323|<|0.001|TWO_SIDED|95.0|-0.3696|-0.24124|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.24124|-0.36960|<0.001
82635924|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44143|STANDARD_ERROR_OF_MEAN|0.03183|<|0.001|TWO_SIDED|95.0|-0.50466|-0.37821|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.37821|-0.50466|<0.001
82635925|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.46235|STANDARD_ERROR_OF_MEAN|0.03148|<|0.001|TWO_SIDED|95.0|-0.52491|-0.3998|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39980|-0.52491|<0.001
82635926|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26949|STANDARD_ERROR_OF_MEAN|0.02615|<|0.001|TWO_SIDED|95.0|-0.32142|-0.21755|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.21755|-0.32142|<0.001
82635927|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.37493|STANDARD_ERROR_OF_MEAN|0.02649|<|0.001|TWO_SIDED|95.0|-0.42754|-0.32231|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.32231|-0.42754|<0.001
82635928|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.41199|STANDARD_ERROR_OF_MEAN|0.02676|<|0.001|TWO_SIDED|95.0|-0.46512|-0.35886|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.35886|-0.46512|<0.001
82635929|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31806|STANDARD_ERROR_OF_MEAN|0.02979|<|0.001|TWO_SIDED|95.0|-0.37723|-0.25888|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.25888|-0.37723|<0.001
82635930|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.42583|STANDARD_ERROR_OF_MEAN|0.02932|<|0.001|TWO_SIDED|95.0|-0.48409|-0.36758|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.36758|-0.48409|<0.001
82635931|NCT02055976|164986457|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45501|STANDARD_ERROR_OF_MEAN|0.02912|<|0.001|TWO_SIDED|95.0|-0.51287|-0.39715|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-0.39715|-0.51287|<0.001
82635932|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.42411|STANDARD_ERROR_OF_MEAN|3.72907|<|0.001|TWO_SIDED|95.0|-56.83019|-42.01803|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-42.01803|-56.83019|<0.001
82635933|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-66.63383|STANDARD_ERROR_OF_MEAN|3.7905|<|0.001|TWO_SIDED|95.0|-74.16086|-59.10681|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-59.10681|-74.16086|<0.001
82635934|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-71.72901|STANDARD_ERROR_OF_MEAN|3.81541|<|0.001|TWO_SIDED|95.0|-79.30431|-64.15371|||Mixed Models Analysis|||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-64.15371|-79.30431|<0.001
82635935|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-43.56596|STANDARD_ERROR_OF_MEAN|3.92236|<|0.001|TWO_SIDED|95.0|-51.35899|-35.77293|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-35.77293|-51.35899|<0.001
82516464|NCT01418209|164725725|SUPERIORITY_OR_OTHER|||||||0.01||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.01
82516465|NCT01418209|164725725|SUPERIORITY_OR_OTHER|||||||0.07||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.07
82516466|NCT01418209|164725727|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo.||||<0.001
82516467|NCT01418209|164725727|SUPERIORITY_OR_OTHER|||||||0.03||||||P-values from active treatment vs. placebo contrasts in a repeated measures linear model of outcome as a function of treatment arm, clinical site, week, and baseline outcome. The a priori threshold for statistical significance was 0.025.|repeated measures linear model|Robust standard errors were calculated using generalized estimating equations to account for within-participant correlation between repeated measures.||Outcome differences between active treatment and placebo||||0.03
82516468|NCT01802411|164725744|SUPERIORITY||LSMD|13.1||||0.5598|TWO_SIDED|95.0|-31.0|57.0|||ANCOVA|||||57|-31|0.5598
82516469|NCT00560833|164725758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.01|TWO_SIDED|95.0|-2.3|-0.4||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.4|-2.3|<0.01
82516470|NCT00560833|164725758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.01|TWO_SIDED|95.0|-3.1|-1.2||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.2|-3.1|<0.01
82516471|NCT00560833|164725758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-1.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.0|-2.9|<0.01
82516472|NCT00560833|164725758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-1.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-1.0|-2.9|<0.01
82382447|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.5392||95.0|-0.24|0.12|||ANCOVA|||Cycle 1.||0.12|-0.24|0.5392
82516473|NCT00560833|164725760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.06|TWO_SIDED|95.0|-2.0|0.0||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.0|-2.0|0.06
82516474|NCT00560833|164725760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|||<|0.01|TWO_SIDED|95.0|-3.0|-0.9||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.9|-3.0|<0.01
82516475|NCT00560833|164725760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-0.9||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.9|-2.9|<0.01
82516476|NCT00560833|164725760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.01|TWO_SIDED|95.0|-2.6|-0.5||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.5|-2.6|<0.01
82516477|NCT00560833|164725761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.62|TWO_SIDED|95.0|-0.09|0.03||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.03|-0.09|0.62
82516478|NCT00560833|164725761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.02|TWO_SIDED|95.0|-0.12|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.12|0.02
82382448|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.22||0.5412||95.0|-0.3|0.57|||ANCOVA|||Cycle 2.||0.57|-0.30|0.5412
82516479|NCT00560833|164725761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.01|TWO_SIDED|95.0|-0.13|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.13|0.01
82635936|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-62.34926|STANDARD_ERROR_OF_MEAN|3.86432|<|0.001|TWO_SIDED|95.0|-70.02607|-54.67245|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.67245|-70.02607|<0.001
82635937|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-65.06617|STANDARD_ERROR_OF_MEAN|3.82052|<|0.001|TWO_SIDED|95.0|-72.65818|-57.47415|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 85: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-57.47415|-72.65818|<0.001
82635938|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.52435|STANDARD_ERROR_OF_MEAN|3.66973|<|0.001|TWO_SIDED|95.0|-47.81299|-33.23571|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-33.23571|-47.81299|<0.001
82635939|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-56.14495|STANDARD_ERROR_OF_MEAN|3.71641|<|0.001|TWO_SIDED|95.0|-63.52668|-48.76322|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-48.76322|-63.52668|<0.001
82635940|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.5637|STANDARD_ERROR_OF_MEAN|3.7569|<|0.001|TWO_SIDED|95.0|-69.0251|-54.1023|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-54.10230|-69.02510|<0.001
82516480|NCT00560833|164725761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.02|TWO_SIDED|95.0|-0.12|-0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||-0.01|-0.12|0.02
82516481|NCT00560833|164725762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||1|TWO_SIDED|95.0|-0.06|0.07||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.07|-0.06|1.0
82516482|NCT00560833|164725762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.72|TWO_SIDED|95.0|-0.09|0.04||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.04|-0.09|0.72
82635941|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-46.34109|STANDARD_ERROR_OF_MEAN|4.16385|<|0.001|TWO_SIDED|95.0|-54.61427|-38.06792|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-38.06792|-54.61427|<0.001
82635942|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.3789|STANDARD_ERROR_OF_MEAN|4.09957|<|0.001|TWO_SIDED|95.0|-69.52338|-53.23443|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-53.23443|-69.52338|<0.001
82382449|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.34||0.5358||95.0|-0.48|0.9|||ANCOVA|||Cycle 3.||0.90|-0.48|0.5358
82635943|NCT02055976|164986458|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-64.67274|STANDARD_ERROR_OF_MEAN|4.06866|<|0.001|TWO_SIDED|95.0|-72.75728|-56.5882|||Mixed Models Analysis|One-sided p-values (unadjusted for multiplicity) was derived from the MMRM model.||Day 113: Adjusted mean difference and 2-sided 95% confidence interval were derived from the MMRM model with fixed effects for treatment, visit, baseline value, treatment by visit interaction, and baseline by visit interaction.||-56.58820|-72.75728|<0.001
82516483|NCT00560833|164725762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.13|TWO_SIDED|95.0|-0.12|0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.01|-0.12|0.13
82516484|NCT00560833|164725762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.15|TWO_SIDED|95.0|-0.12|0.01||Dunnet-adjusted from ANCOVA with factors for treatment and (pooled) center and a covariate for baseline value.|ANCOVA|||||0.01|-0.12|0.15
82516485|NCT02212028|164725848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|68.0||||0.022|TWO_SIDED|95.0|10.0|126.0|||ANOVA|||||126|10|0.022
82516486|NCT02212028|164725849|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||||||0.005
82516487|NCT00414700|164725852|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|Adjusted for age, associated lesion(s) and location of lesion||Test for superiority||||0.003
82516488|NCT00414700|164725853|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|Adjusted for age, associated lesion(s) and location of lesion.||Test for superiority||||0.010
82570677|NCT02979613|164852117|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-1.9|1.9|||||Difference in the percentage of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||1.9|-1.9|
82516489|NCT00414700|164725854|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -9 % points|Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-3.28|6.9|||ANCOVA|Adjusted for baseline Overall KOOS score, age, associated lesion(s) and location of lesion.||||6.90|-3.28|
82516490|NCT04837482|164725884|NON_INFERIORITY|Noninferiority of AGN-190584 was concluded if the lower bound of the 95% CI of the least-square mean difference between AGN-190584 and vehicle was greater than the pre-specified margin of -0.25.|Least-Square (LS) Mean|-0.224|STANDARD_ERROR_OF_MEAN|0.0602||0.0006|TWO_SIDED|95.0|-0.346|-0.103|||Mixed Models Analysis|Linear mixed-effects model with repeated measures||||-0.103|-0.346|0.0006
82516491|NCT00987467|164725888|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82516492|NCT00086346|164725890|SUPERIORITY_OR_OTHER|||||||0.342|||||||Rank ANCOVA|||||||0.342
82516493|NCT00086346|164725891|SUPERIORITY_OR_OTHER|||||||0.017|||||||Cochran-Mantel-Haenszel|||Comparison between treatment groups of percentages of patients with biopsy-confirmed acute rejection.||||0.017
82516494|NCT00086346|164725892|SUPERIORITY_OR_OTHER||||||>|0.05|||||||1 way ANOVA, two sided|||||||>0.05
82516495|NCT00086346|164725893|NON_INFERIORITY_OR_EQUIVALENCE|The a priori criterion for declaring non-inferiority was a lower bound of the 95% confidence interval (CI) having a ≥ 5% difference in graft loss. -5.2 is \< 5 % difference.|Mean Difference (Net)|-1.2||||||95.0|-5.2|2.8|||||Weighted difference in percentage of graft loss: (CNI% minus SRL%); negative values are favorable to CNI group|||2.8|-5.2|
82570678|NCT02979613|164852117|SUPERIORITY|||||||0.9953||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.9953
82516496|NCT01303627|164725937|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Statistical analyses were performed x2 test or Mann Whitney U test as approriate. A p value of \<0.05 was considered statistically significant.|Chi-squared|||The incidence of complications on removal of the cLMA has been reported 54 % in awake patients group A power analysis indicated that a minimum 16 patients in each group were required to demonstrate a difference that 50% reduction the complications (a power of 80% and α error 0.05).||||<0.05
82516497|NCT01054820|164725945|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||Null hypothesis: no change from baseline. Study powered at 95 percent (%) to detect a mean change of at least 1.2 units, with assumed standard deviation of at most 3.2 units.||||<0.0001
82516498|NCT01054820|164725946|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|McNemar|||||||<0.0001
82516499|NCT01054820|164725947|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
82516500|NCT01054820|164725948|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
82516501|NCT01054820|164725949|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
82516502|NCT01054820|164725950|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
82516503|NCT01054820|164725953|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|t-test, 2 sided|||||||<0.0001
82516504|NCT00321919|164725959|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.778976||||0.2036|TWO_SIDED|95.0|0.53|1.14|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to first cardiovascular event in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|The null hypothesis stated that there was no difference with regard to the event-free distribution of the combined endpoint of all protocol specified cardiovascular events between Early Epoetin beta therapy and Late Epoetin beta therapy groups.||1.14|0.53|0.2036
82635944|NCT00890396|164986470|SUPERIORITY|||||||0.67|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||0.67
82382450|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.41||0.4059||95.0|-0.48|1.17|||ANCOVA|||Cycle 4.||1.17|-0.48|0.4059
82635945|NCT00890396|164986471|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or from decreased to absent).||||>0.99
82635946|NCT00890396|164986472|SUPERIORITY|||||||0.61|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.61
82635947|NCT00890396|164986473|SUPERIORITY|||||||0.78|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.78
82635948|NCT00890396|164986474|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.80
82516505|NCT00321919|164725960|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.744575||||0.4833|TWO_SIDED|95.0|0.33|1.7|||Regression, Cox||The Cox regression model was used to estimate the relative risk of an event of the time to death due to cardiovascular reasons in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|||1.70|0.33|0.4833
82382451|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.49||0.2712||95.0|-0.44|1.52|||ANCOVA|||Cycle 5.||1.52|-0.44|0.2712
82516506|NCT00321919|164725962|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.658259||||0.1391|TWO_SIDED|95.0|0.38|1.15|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to death for all causes in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy treatment group.|||1.15|0.38|0.1391
82635949|NCT00890396|164986475|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.11
82635950|NCT00890396|164986476|SUPERIORITY|||||||0.85|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.85
82382452|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.38||0.9181||95.0|-0.81|0.73|||ANCOVA|||Cycle 6.||0.73|-0.81|0.9181
82635951|NCT00890396|164986477|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.95
82635952|NCT00890396|164986478|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.40
82635953|NCT00890396|164986479|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||Kruskal-Wallis test was used to test if there were a statistically significant difference between the two treatment groups.||||0.11
82635954|NCT04411472|164986480|SUPERIORITY||Odds Ratio (OR)|1.18||||0.8025|TWO_SIDED|95.0|0.805|1.732|||One-sided p-value|||||1.732|0.805|0.8025
82635955|NCT04411472|164986481|SUPERIORITY||Odds Ratio (OR)|0.54||||0.1824|TWO_SIDED|95.0|0.139|2.131|||One-sided p-value|||||2.131|0.139|0.1824
82635956|NCT04411472|164986482|SUPERIORITY||Odds Ratio (OR)|0.02||||0.008|TWO_SIDED|95.0|0.001|0.405|||One-sided p-value|||||0.405|0.001|0.0080
82635957|NCT04411472|164986483|SUPERIORITY||Odds Ratio (OR)|0.94||||0.3894|TWO_SIDED|95.0|0.606|1.454|||One-sided p-value|||||1.454|0.606|0.3894
82635958|NCT04411472|164986484|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1237|TWO_SIDED|95.0|0.128|1.697|||One-sided p-value|||||1.697|0.128|0.1237
82635959|NCT04411472|164986486|SUPERIORITY||z-score statistic difference proportions|-7.9||||0.019|TWO_SIDED|95.0|-15.4|-0.4||one-sided p-value based on the z-score statistic for the difference in proportions|one-sided p-value|||||-0.4|-15.4|0.019
82635960|NCT04411472|164986487|SUPERIORITY|||||||0.546|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through to Day 28||||0.5460
82635961|NCT04411472|164986487|SUPERIORITY|||||||0.677|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.6770
82635962|NCT04411472|164986487|SUPERIORITY|||||||0.993|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.9930
82635963|NCT04411472|164986487|SUPERIORITY|||||||0.779|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.7790
82635964|NCT04411472|164986488|SUPERIORITY|||||||0.051|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through Day 28||||0.0510
82635965|NCT04411472|164986488|SUPERIORITY|||||||0.013|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.0130
82635966|NCT04411472|164986488|SUPERIORITY|||||||0.025|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.0250
82382453|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.42||0.4357||95.0|-0.52|1.17|||ANCOVA|||Cycle 7.||1.17|-0.52|0.4357
82382454|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.49||0.5103||95.0|-0.67|1.33|||ANCOVA|||||1.33|-0.67|0.5103
82516507|NCT00321919|164725965|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.804594||||0.4985|TWO_SIDED|95.0|0.43|1.51|||Regression, Cox||The Cox regression model was used to estimate the relative risk of time to first cardiovascular intervention in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group|||1.51|0.43|0.4985
82382455|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.58||0.8499||95.0|-1.29|1.07|||ANCOVA|||Cycle 9.||1.07|-1.29|0.8499
82516508|NCT00321919|164725967|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82046||||0.3419|TWO_SIDED|95.0|0.55|1.23|||Regression, Cox||The Cox regression model was used to estimate the relative risk of the time to first hospitalization for cardiovascular reasons in Late Epoetin beta therapy group compared to the Early Epoetin beta therapy group.|||1.23|0.55|0.3419
82516509|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of General health scale of Quality of life for Year 1.||||0.0029
82516510|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of General health scale of Quality of life for Year 2||||0.0081
82635967|NCT04411472|164986488|SUPERIORITY|||||||0.073|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.0730
82635968|NCT04411472|164986489|SUPERIORITY|||||||1|||||||One-sided p-value from re-randomization|||Days alive and free of organ support through Day 28||||1.0000
82635969|NCT04411472|164986489|SUPERIORITY|||||||0.979|||||||One-sided p-value from re-randomization|||Number of days free of MV||||0.9790
82635970|NCT04411472|164986489|SUPERIORITY|||||||0.675|||||||One-sided p-value from re-randomization|||Number of days free of RRT||||0.6750
82635971|NCT04411472|164986489|SUPERIORITY|||||||0.031|||||||One-sided p-value from re-randomization|||Number of days free of vasopressors and inotropes||||0.0310
82382456|NCT00380874|164475115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.39||0.7359||95.0|-0.9|0.64|||ANCOVA|||LOCF endpoint.||0.64|-0.90|0.7359
82382457|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.09||0.2034||95.0|-0.06|0.29|||ANCOVA|||Burning Spontaneous Pain Cycle 3||0.29|-0.06|0.2034
82570679|NCT02979613|164852118|NON_INFERIORITY|Non-inferiority was assessed using a 95% CI approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.0|||||TWO_SIDED|95.0|-3.7|3.7|||||Difference in the percentage of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||3.7|-3.7|
82516511|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Mental health scale of Quality of life for Year 1||||0.0005
82516512|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0965|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Mental Health scale of Quality of life for Year 2||||0.0965
82516513|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical function scale of Quality of life for Year 1||||0.0004
82516514|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.9864|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical function scale of Quality of life for Year 2||||0.9864
82635972|NCT04411472|164986490|SUPERIORITY|||||||0.545|||||||One-sided p-value from re-randomization|||||||0.5450
82635973|NCT04411472|164986491|SUPERIORITY|||||||0.081|||||||One-sided p-value from re-randomization|||||||0.0810
82635974|NCT04411472|164986492|SUPERIORITY|||||||0.979|||||||One-sided p-value from re-randomization|||||||0.9790
82635975|NCT04411472|164986493|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6916|TWO_SIDED|95.0|0.806|1.437|||One-sided p-value|||||1.437|0.806|0.6916
82635976|NCT04411472|164986494|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.0628|TWO_SIDED|95.0|0.18|1.234|||One-sided p-value|||||1.234|0.180|0.0628
82635977|NCT04411472|164986495|SUPERIORITY||Hazard Ratio (HR)|0.01|||<|0.0001|TWO_SIDED|95.0|0.001|0.054|||One-sided p-value|||||0.054|0.001|<0.0001
82635978|NCT02504424|164986497|OTHER||percent of breasts successfully exchange|100.0|||||ONE_SIDED|||||||||Treatment Success includes all breasts which were exchanged successfully in the Per Protocol Cohort, excluding non-device related failures. The Treatment Success Rate per breast is 100% (80/80). Note: Denominator = 80 (86 implanted breasts - 6 breasts). Failed exchange = 4 breasts (non-device related) \& Missing = 2 breasts (patient non-compliant w/study and withdrew consent after treatment).||||
82635979|NCT02504424|164986497|OTHER||% breasts successfully exchanged|100.0|||||ONE_SIDED|||||||||Sensitivity Analysis (Best / Worst Case): Treatment Success by subject for the Per Protocol cohort includes all failures (excluding non-device related failures). The best case analysis considers success if the subject has at least one breast successfully reconstructed, and the worst case analysis considers it a failure if at least one breast has failed. The treatment success by subject is 100% for both best and worst case analysis.||||
82635980|NCT02504424|164986498|OTHER||% breasts successfully exchanged|95.2|||||ONE_SIDED|||||||||Secondary analysis is repeated including all breasts in the PP cohort (including non-device related failures). The Treatment Success Rate by breast, based on the Per Protocol cohort, including all cause failures, is 95.2% (80/84). One subject (2 breasts) are not included in analysis as subject withdrew from the study prior to exchange of her expanders.||||
82635981|NCT00440232|164986501|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.969||||0.172|TWO_SIDED|95.0|0.74|5.235|||Chi-squared|||||5.235|0.74|0.172
82635982|NCT00440232|164986502|SUPERIORITY_OR_OTHER||log rank chi square|1.247||||0.264||95.0|||||Log Rank|df=1||||||0.264
82635983|NCT00362297|164986512|SUPERIORITY_OR_OTHER_LEGACY||Incident Risk Ratio|0.79||||0.052||95.0|0.63|1.0|||Regression, Poisson|Adjusted for period effects.||Comparison of genital HSV shedding rate on high dose acyclovir to standard dose valacyclovir. Powered with 80% chance of detecting 50% reduction in genital shedding rate on high dose acyclovir compared to standard dose valacyclovir.||1.00|0.63|0.052
82635984|NCT00982111|164986527|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.9561|TWO_SIDED|95.0|0.84|1.21|||Log Rank|||||1.21|0.84|0.9561
82635985|NCT00982111|164986528|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.6647|TWO_SIDED|95.0|0.8|1.16|||Log Rank|||||1.16|0.80|0.6647
82635986|NCT00982111|164986529|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.7945|TWO_SIDED|95.0|0.68|1.34|||Cochran-Mantel-Haenszel|||||1.34|0.68|0.7945
82635987|NCT00982111|164986530|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.18||||0.0459|TWO_SIDED|95.0|1.0|1.39|||Log Rank|||||1.39|1.00|0.0459
82635988|NCT00684073|164986539|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.42||||0.13||95.0||||p-value adjusted for treatment only|ANCOVA||Difference between treatments (Suboxone minus Subutex)estimated by ANCOVA = 0.42.|||||0.130
82516515|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical Role scale of Quality of life for Year 1||||0.0097
82516516|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Physical Role scale of Quality of life for Year 2||||0.1670
82635989|NCT01657903|164986549|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|41.15|||<|0.0001|TWO_SIDED|95.0|34.42|47.89||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||47.89|34.42|<0.0001
82635990|NCT01657903|164986549|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|41.28|||<|0.0001|TWO_SIDED|95.0|34.51|48.06||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||48.06|34.51|<0.0001
82635991|NCT01657903|164986549|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|40.83|||<|0.0001|TWO_SIDED|95.0|34.06|47.61||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %RER. Statistical tests were 2-sided with a significance level of 0.05.||47.61|34.06|<0.0001
82635992|NCT01657903|164986550|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.36|||<|0.0001|TWO_SIDED|95.0|6.01|12.72||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||12.72|6.01|<0.0001
82635993|NCT01657903|164986550|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.45|||<|0.0001|TWO_SIDED|95.0|6.07|12.82||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||12.82|6.07|<0.0001
82635994|NCT01657903|164986550|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.66|||<|0.0001|TWO_SIDED|95.0|8.28|15.03||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the treatments in comparison to be equal with respect to %SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.03|8.28|<0.0001
82635995|NCT03512028|164986557|SUPERIORITY||Mean Difference (Net)|3.2||||0.002|TWO_SIDED|||||Interaction effect of group x time from pre- to post- intervention|ANOVA||Estimated difference between slopes|Mixed model ANOVA with group (RLIC, Sham) and time (pre-, post-, and follow-up ). The main analysis of interest is the group x time interaction from pre- to post-.||||0.002
82635996|NCT03512028|164986557|SUPERIORITY|||||||0.001||||||Main effect of time|ANOVA|||||||0.001
82382458|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.3062||95.0|-0.4|0.13|||ANCOVA|||Burning Spontaneous Pain Cycle 4||0.13|-0.40|0.3062
82635997|NCT03512028|164986557|SUPERIORITY|||||||0.844||||||Main effect of group|ANOVA|||||||0.844
82635998|NCT01259388|164986558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.346|||||||t-test, 2 sided|||||||0.346
82635999|NCT01259388|164986560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82636000|NCT01032265|164986576|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27||95.0|||||Mixed Models Analysis|||analysis between groups||||0.27
82636001|NCT01032265|164986577|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||95.0|||||Mixed Models Analysis|||analysis between groups||||0.52
82636002|NCT01032265|164986578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Mixed Models Analysis|||analysis between groups||||0.30
82636003|NCT01032265|164986579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.02
82636004|NCT01032265|164986580|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||<0.001
82636005|NCT01032265|164986581|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23||95.0|||||negative binomial regression|||analysis between groups||||0.23
82636006|NCT01032265|164986582|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.01
82636007|NCT02728804|164986584|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.65|TWO_SIDED|95.0|0.66|1.29|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.29|0.66|0.65
82636008|NCT02728804|164986585|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7|TWO_SIDED|95.0|0.79|1.43|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.43|0.79|0.70
82516517|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Social function scale of Quality of life for Year 1||||0.0058
82516518|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.1455|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Social function scale of Quality of life for Year 2||||0.1455
82516519|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Vitality function scale of Quality of life for Year 1||||0.0009
82636009|NCT02728804|164986586|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.87|TWO_SIDED|95.0|0.73|1.31|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.31|0.73|0.87
82516520|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.0123|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Vitality function scale of Quality of life for Year 2||||0.0123
82516521|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.3155|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Bodily pain scale of Quality of life for Year 1||||0.3155
82516522|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.7076|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Bodily pain scale of Quality of life for Year 2||||0.7076
82516523|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.1291|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Emotional role scale of Quality of life for Year 1||||0.1291
82570680|NCT02979613|164852118|SUPERIORITY|||||||0.98||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.98
82570681|NCT02979613|164852120|NON_INFERIORITY|Non-inferiority was assessed using a 95% confidence interval (CI) approach, with a non-inferiority margin of 4%.|Difference in the Percentages|0.9|||||TWO_SIDED|95.0|-3.5|5.2|||||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||5.2|-3.5|
82570682|NCT02979613|164852120|SUPERIORITY|||||||0.6863||||||P-value for the superiority tests compared the percentage of each HBV DNA outcome was from CMH tests stratified by baseline age groups and baseline HBeAg status strata.|Cochran-Mantel-Haenszel|||||||0.6863
82570683|NCT02979613|164852122|SUPERIORITY||Difference in the Percentages|1.4||||0.7258|TWO_SIDED|95.0|-7.2|10.1||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||10.1|-7.2|0.7258
82570684|NCT02979613|164852123|SUPERIORITY||Difference in the Percentages|2.7||||0.1348|TWO_SIDED|95.0|-2.3|7.7||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||7.7|-2.3|0.1348
82570685|NCT02979613|164852124|SUPERIORITY||Difference in the Percentages|9.0||||0.1005|TWO_SIDED|95.0|-2.0|20.1||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||20.1|-2.0|0.1005
82570686|NCT02979613|164852125|SUPERIORITY||Difference in the Percentages|2.5||||0.4154|TWO_SIDED|95.0|-4.5|9.5||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years).|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups.|||9.5|-4.5|0.4154
82570687|NCT02979613|164852126|SUPERIORITY||Difference in the Percentages|-2.0||||0.0281|TWO_SIDED|95.0|-4.4|0.3||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||0.3|-4.4|0.0281
82570688|NCT02979613|164852128|SUPERIORITY||Difference in the Percentages|-0.8||||0.5373|TWO_SIDED|95.0|-3.7|2.1||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||2.1|-3.7|0.5373
82570689|NCT02979613|164852129|SUPERIORITY||Difference in the Percentages|0.4||||0.5845|TWO_SIDED|95.0|-1.7|2.5||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|||2.5|-1.7|0.5845
82570690|NCT02979613|164852130|SUPERIORITY||Difference in the Percentages|4.5||||0.1405|TWO_SIDED|95.0|-1.6|10.6||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||10.6|-1.6|0.1405
82636010|NCT02728804|164986587|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.92|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||0.92|0.48|0.01
82636011|NCT02728804|164986588|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.1|TWO_SIDED|95.0|0.95|1.87|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||1.87|0.95|0.10
82382459|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.2787||95.0|-0.37|0.11|||ANCOVA|||Burning Spontaneous Pain Cycle 5||0.11|-0.37|0.2787
82516524|NCT00321919|164725974|SUPERIORITY_OR_OTHER|||||||0.5528|TWO_SIDED||||||ANCOVA|||Mean Change from Baseline in the Score of Emotional role scale of Quality of life for Year 2||||0.5528
82516525|NCT01227889|164725979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.26|0.6||The p value from a stratified log-rank test was adjusted for disease stage at screening.|Log Rank||HRs were estimated using a Pike estimator. HR from a stratified log-rank test was adjusted for disease stage at screening.|||0.60|0.26|<0.0001
82516526|NCT01227889|164725980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.2|0.61|||||HRs were estimated using a Pike estimator. HR was adjusted for disease stage at screening.|||0.61|0.20|
82516527|NCT01227889|164725981|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.57|1.18|||||HRs were estimated using a Pike estimator. HR was adjusted for disease stage at screening.|||1.18|0.57|
82516528|NCT01175382|164726001|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis of Covariance used to compare mean changes from baseline to 6 weeks among groups adjusting for baseline values and age. Last Observation Carried Forward was used for imputation of missing data.||||<.0001
82516529|NCT01175382|164726002|SUPERIORITY_OR_OTHER|||||||0.0013|||||||ANCOVA|||Analysis of Covariance to test for differences in mean change from 6 weeks to 12 weeks in voiding frequency controlling for age and 6 week frequency. Last Observation Carried Forward was used to impute missing data.||||.0013
82516530|NCT01175382|164726003|SUPERIORITY_OR_OTHER|||||||0.2933|||||||ANCOVA|||Analysis of Covariance testing whether mean change in 24-hour voiding frequency differed among the groups after adjusting for baseline voiding frequency and age. Last Observation Carried Forward was used to impute missing data.||||0.2933
82516531|NCT01175382|164726004|SUPERIORITY_OR_OTHER|||||||0.0051|||||||ANCOVA|||Analysis of Covariance used to test means changes among the groups adjusting for baseline values and age. Last Observation Carried Forward was used to impute missing data.||||0.0051
82636012|NCT02728804|164986588|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.002|TWO_SIDED|95.0|1.28|2.89|||Regression, Cox|Covariate adjustment for insurance status, education, and sex.||||2.89|1.28|0.002
82382460|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.4124||95.0|-0.2|0.47|||ANCOVA|||Burning Spontaneous Pain Cycle 6||0.47|-0.20|0.4124
82382461|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.35||0.9541||95.0|-0.68|0.73|||ANCOVA|||Burning Spontaneous Pain Cycle 7||0.73|-0.68|0.9541
82516532|NCT01175382|164726005|SUPERIORITY_OR_OTHER|||||||0.1402|||||||ANCOVA|||Analysis of Covariance comparing mean change score among groups controlling for age and baseline score||||.1402
82516533|NCT01175382|164726006|SUPERIORITY_OR_OTHER|||||||0.0015|||||||ANCOVA|||Analysis of Covariance comparing mean change in Nocturia among groups adjusting for baseline values of nocturia and age. Last Observation Carried Forward was used to impute missing data.||||0.0015
82516534|NCT01175382|164726007|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||Analysis of Covariance comparing mean change in Overactive Bladder Questionnaire from baseline to 6 weeks among groups after controlling for baseline value and age. Last Observation Carried Forward was used to impute missing data.||||<.0001
82382462|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3383||95.0|-0.33|0.92|||ANOVA|||Burning Spontaneous Pain Cycle 8||0.92|-0.33|0.3383
82382463|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.8918||95.0|-0.84|0.74|||ANCOVA|||Burning Spontaneous Pain||0.74|-0.84|0.8918
82382464|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.26||0.9614||95.0|-0.54|0.51|||ANCOVA|||Burning Spontaneous Pain LOCF endpoint||0.51|-0.54|0.9614
82382465|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3022||95.0|-0.17|0.05|||ANCOVA|||Pressing Spontaneous Pain Cycle 2||0.05|-0.17|0.3022
82382466|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3747||95.0|-0.04|0.12|||ANCOVA|||Pressing Spontaneous Pain Cycle 3||0.12|-0.04|0.3747
82382467|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.163||95.0|-0.4|0.07|||ANCOVA|||Pressing Spontaneous Pain Cycle 4||0.07|-0.40|0.1630
82382468|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9568||95.0|-0.12|0.11|||ANOVA|||Pressing Spontaneous Pain Cycle 5||0.11|-0.12|0.9568
82382469|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9793||95.0|-0.13|0.13|||ANCOVA|||Pressing Spontaneous Pain Cycle 6||0.13|-0.13|0.9793
82382470|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.25||0.885||95.0|-0.54|0.47|||ANCOVA|||Pressing Spontaneous Pain Cycle 7||0.47|-0.54|0.8850
82382471|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2199||95.0|-0.17|0.7|||ANCOVA|||Pressing Spontaneous Pain Cycle 8||0.70|-0.17|0.2199
82382472|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.4017||95.0|-0.14|0.35|||ANCOVA|||Pressing Spontaneous Pain Cycle 9||0.35|-0.14|0.4017
82382473|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4113||95.0|-0.1|0.24|||ANCOVA|||Pressing Spontaneous Pain LOCF Endpoint||0.24|-0.10|0.4113
82516535|NCT01175382|164726008|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||"Analysis of Covariance comparing mean chance in IPSS from baseline to 6 weeks among groups controlling for baseline IPSS values and age.~Last Observation Carried Forward was used to impute missing data."||||<.0001
82382474|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3011||95.0|-0.06|0.02|||ANCOVA|||Paroxysmal Pain Cycle 3||0.02|-0.06|0.3011
82382475|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.4482||95.0|-0.26|0.12|||ANCOVA|||Paroxysmal Pain Cycle 4||0.12|-0.26|0.4482
82382476|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.3058||95.0|-0.31|0.1|||ANCOVA|||Paroxysmal Pain Cycle 5||0.10|-0.31|0.3058
82382477|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.3035||95.0|-0.38|0.12|||ANCOVA|||Paroxysmal Pain Cycle 6||0.12|-0.38|0.3035
82382478|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.23||0.9636||95.0|-0.46|0.48|||ANCOVA|||Paroxysmal Pain Cycle 7||0.48|-0.46|0.9636
82382479|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.35||0.366||95.0|-0.38|1.02|||ANCOVA|||Paroxysmal Pain Cycle 8||1.02|-0.38|0.3660
82382480|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.4093||95.0|-0.69|0.29|||ANCOVA|||Paroxysmal Pain Cycle 9||0.29|-0.69|0.4093
82382481|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5208||95.0|-0.39|0.2|||ANCOVA|||Paroxysmal Pain LOCF Endpoint||0.20|-0.39|0.5208
82382482|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9931||95.0|-0.17|0.17|||ANCOVA|||Evoke Pain Cycle 2||0.17|-0.17|0.9931
82382483|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.5867||95.0|-0.25|0.44|||ANCOVA|||Evoke Pain Cycle 3||0.44|-0.25|0.5867
82382484|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.2748||95.0|-0.37|0.11|||ANCOVA|||Evoke Pain Cycle 4||0.11|-0.37|0.2748
82382485|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.5521||95.0|-0.51|0.28|||ANCOVA|||Evoke Pain Cycle 5||0.28|-0.51|0.5521
82382486|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.39||0.6734||95.0|-0.96|0.62|||ANCOVA|||Evoke Pain Cycle 6||0.62|-0.96|0.6734
82516536|NCT01175382|164726009|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Cochran-Mantel-Haenszel|||||||0.0022
82516537|NCT01175382|164726010|SUPERIORITY_OR_OTHER|||||||0.0222|||||||Cochran-Mantel-Haenszel|||||||.0222
82382487|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.37||0.1214||95.0|-0.16|1.33|||ANCOVA|||Evoke Pain Cycle 7||1.33|-0.16|0.1214
82382488|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.51||0.1845||95.0|-0.34|1.72|||ANCOVA|||Evoke Pain Cycle 8||1.72|-0.34|0.1845
82382489|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.37||0.6863||95.0|-0.6|0.9|||ANCOVA|||Evoke Pain Cycle 9||0.90|-0.60|0.6863
82382490|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.27||0.9273||95.0|-0.51|0.56|||ANCOVA|||Evoke Pain LOCF Endpoint||0.56|-0.51|0.9273
82382491|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.12||0.0416||95.0|0.01|0.5|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 2||0.50|0.01|0.0416
82382492|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1819||95.0|-0.1|0.5|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 3||0.50|-0.10|0.1819
82516538|NCT01175382|164726011|SUPERIORITY_OR_OTHER|||||||0.0217|||||||Cochran-Mantel-Haenszel|||||||.0217
82382493|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.17||0.0331||95.0|0.03|0.7|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 4||0.70|0.03|0.0331
82382494|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0608||95.0|-0.02|0.83|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 5||0.83|-0.02|0.0608
82382495|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.33||0.2809||95.0|-0.31|1.03|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 6||1.03|-0.31|0.2809
82516539|NCT01175382|164726012|SUPERIORITY_OR_OTHER|||||||0.669|||||||ANCOVA|||Analysis of Covariance used to test whether mean changes in Urgency Score from 6 weeks to 12 weeks differed among groups after controlling for age and 6 week Urgency Score. Last Observation Carried Forward was used to impute missing values.||||0.6690
82382496|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.32||0.3445||95.0|-0.34|0.95|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 7||0.95|-0.34|0.3445
82382497|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.47||0.2806||95.0|-0.44|1.46|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 8||1.46|-0.44|0.2806
82382498|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.49||0.5217||95.0|-0.68|1.33|||ANCOVA|||Parethesia/Dysesthesia Pain Cycle 9||1.33|-0.68|0.5217
82382499|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.34||0.3628||95.0|-0.37|1.0|||ANCOVA|||Parethesia/Dysesthesia Pain LOCF Endpoint||1.00|-0.37|0.3628
82382500|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.3557||95.0|0.0|0.01|||ANCOVA|||Total Score Cycle 2||0.01|-0.00|0.3557
82382501|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.2824||95.0|0.0|0.01|||ANCOVA|||Total Score Cycle 3||0.01|-0.00|0.2824
82382502|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5931||95.0|-0.01|0.01|||ANCOVA|||Total Score Cycle 4||0.01|-0.01|0.5931
82516540|NCT01175382|164726013|SUPERIORITY_OR_OTHER|||||||0.0812|||||||ANCOVA|||Analysis of Covariance to test whether mean change in Incontinence Episodes from 6 weeks to 12 weeks differed among groups after controlling for age and frequency of incontinence episodes at 6 weeks. Last Observation Carried Forward was used to impute missing values.||||0.0812
82382503|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.9865||95.0|-0.01|0.01|||ANCOVA|||Total Score Cycle 5||0.01|-0.01|0.9865
82382504|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9854||95.0|-0.02|0.02|||ANCOVA|||Total Score Cycle 6||0.02|-0.02|0.9854
82382505|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3403||95.0|-0.01|0.04|||ANCOVA|||Total Score Cycle 7||0.04|-0.01|0.3403
82382506|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.2226||95.0|-0.01|0.05|||ANCOVA|||Total Score Cycle 8||0.05|-0.01|0.2226
82516541|NCT01175382|164726014|SUPERIORITY_OR_OTHER|||||||0.5578|||||||ANCOVA|||Analysis of Covariance used to test whether mean changes in nocturia from 6 weeks to 12 weeks differed among groups after controlling for age and 6 week nocturia frequency. Last Observation Carried Forward was used to impute missing values.||||0.5578
82570691|NCT02979613|164852130|SUPERIORITY||Difference in the Percentages|3.8||||0.3133|TWO_SIDED|95.0|-3.7|11.4||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||11.4|-3.7|0.3133
82570692|NCT02979613|164852131|SUPERIORITY||Difference in the Percentages|14.1||||0.3381|TWO_SIDED|95.0|-16.4|44.6||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory criteria||44.6|-16.4|0.3381
82570693|NCT02979613|164852131|SUPERIORITY||Difference in the Percentages|23.8||||0.0136|TWO_SIDED|95.0|5.3|42.3||P-value was from the CMH test, stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentage of participants between the treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||42.3|5.3|0.0136
82570694|NCT02979613|164852132|SUPERIORITY||Difference in the Percentages|-2.9||||0.2803|TWO_SIDED|95.0|-8.4|2.6||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||2.6|-8.4|0.2803
82570695|NCT02979613|164852132|SUPERIORITY||Difference in the Percentages|-5.9||||0.0788|TWO_SIDED|95.0|-12.6|0.7||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||0.7|-12.6|0.0788
82570696|NCT02979613|164852133|SUPERIORITY||Difference in the Percentages|-23.9||||0.088|TWO_SIDED|95.0|-51.2|3.4||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Central Laboratory Criteria||3.4|-51.2|0.0880
82570697|NCT02979613|164852133|SUPERIORITY||Difference in the Percentages|-18.6||||0.051|TWO_SIDED|95.0|-37.4|0.2||P-value was from CMH tests stratified by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|Cochran-Mantel-Haenszel||Difference in the percentages of participants between treatment groups and its 95% CI were calculated based on the stratum-adjusted MH percentage, adjusted by baseline age groups (\< 50, ≥ 50 years) and baseline HBeAg status strata.|AASLD Criteria||0.2|-37.4|0.0510
82570698|NCT02979613|164852134|SUPERIORITY||Difference in LSM|-0.02||||0.0186|TWO_SIDED|95.0|-0.03|0.0|||ANOVA|||P-value, difference in least squares mean (LSM), and its 95% CI were derived from analysis of variance (ANOVA) model with baseline age groups (\< 50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||0.00|-0.03|0.0186
82570699|NCT02979613|164852135|SUPERIORITY||Difference in LSM|0.0||||0.6956|TWO_SIDED|95.0|-0.02|0.01|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||0.01|-0.02|0.6956
82382507|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9694||95.0|-0.03|0.03|||ANCOVA|||Total Score Cycle 9||0.03|-0.03|0.9694
82382508|NCT00380874|164475116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.8957||95.0|-0.02|0.02|||ANCOVA|||Total Score LOCF Endpoint||0.02|-0.02|0.8957
82442324|NCT02120365|164593267|SUPERIORITY||Mean Difference (Final Values)|5.514|STANDARD_ERROR_OF_MEAN|3.038||0.071|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|mixed models, medication was a within-subjects factor||||0.071
82516542|NCT01175382|164726015|SUPERIORITY_OR_OTHER|||||||0.0279|||||||ANCOVA|||Analysis of Covariance to test whether mean change in Overactive Bladder Questionnaire (OAB-q) from 6 to 12 weeks differed among groups after controlling for age and 6 week OAB-q score. Last Observation Carried Forward was used to impute missing values.||||0.0279
82516543|NCT01175382|164726016|SUPERIORITY_OR_OTHER|||||||0.2553|||||||ANCOVA|||Analysis of Covariance to test whether mean change in the International Prostate Symptom Scale (IPSS) from 6 to 12 weeks differed among groups||||0.2553
82516544|NCT01175382|164726017|SUPERIORITY_OR_OTHER|||||||0.3165|||||||Cochran-Mantel-Haenszel|||||||0.3165
82516545|NCT01175382|164726018|SUPERIORITY_OR_OTHER|||||||0.8153|||||||Cochran-Mantel-Haenszel|||||||0.8153
82442325|NCT02120365|164593268|SUPERIORITY||Mean Difference (Final Values)|0.729|STANDARD_ERROR_OF_MEAN|2.905||0.667|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|mixed models||||0.667
82516546|NCT01175382|164726019|SUPERIORITY_OR_OTHER|||||||0.5536|||||||Cochran-Mantel-Haenszel|||||||0.5536
82516547|NCT01175382|164726020|SUPERIORITY_OR_OTHER|||||||0.2035|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Nocturia frequency differed among the groups after adjusting for baseline Nocturia frequency and age. Last Observation Carried Forward was used to impute missing data||||0.2035
82516548|NCT01175382|164726021|SUPERIORITY_OR_OTHER|||||||0.0549|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Urgency Score differed among the groups after adjusting for Urgency Scoe and age. Last Observation Carried Forward was used to impute missing data||||.0549
82516549|NCT01175382|164726022|SUPERIORITY_OR_OTHER|||||||0.507|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Incontinent Episodes differed among the groups after adjusting for baseline Incontinent episodes frequency and age. Last Observation Carried Forward was used to impute missing data||||0.5070
82516550|NCT01175382|164726023|SUPERIORITY_OR_OTHER|||||||0.0529|||||||ANCOVA|||Analysis of Covariance testing whether mean change in Overactive Bladder Questionnaire differed among the groups after adjusting for baseline Overactive Bladder Questionnaire Score and age. Last Observation Carried Forward was used to impute missing data||||.0529
82516551|NCT01175382|164726024|SUPERIORITY_OR_OTHER|||||||0.2384|||||||ANCOVA|||Analysis of Covariance to test whether mean change in International Prostate Symptom Score from Baseline to 12 weeks differed among groups after controlling for baseline International Prostate Symptom Score and age. Last Observation Carried Forward was used to impute missing values.||||0.2384
82516552|NCT02019719|164726029|SUPERIORITY_OR_OTHER||E0 (g/dL)|-1.37|||||TWO_SIDED|95.0|-1.72|-1.03|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-1.03|-1.72|
82516553|NCT02019719|164726029|SUPERIORITY_OR_OTHER||ED50 (mg)|21.88|||||TWO_SIDED|95.0|9.99|42.64|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||42.64|9.99|
82570700|NCT02979613|164852136|SUPERIORITY||Difference in LSM|1.167|||<|0.0001|TWO_SIDED|95.0|0.797|1.536|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.536|0.797|< 0.0001
82570701|NCT02979613|164852137|SUPERIORITY||Difference in LSM|0.977||||0.0002|TWO_SIDED|95.0|0.465|1.49|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.490|0.465|0.0002
82570702|NCT02979613|164852138|SUPERIORITY||Difference in LSM|1.881|||<|0.0001|TWO_SIDED|95.0|1.275|2.486|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||2.486|1.275|< 0.0001
82570703|NCT02979613|164852139|SUPERIORITY||Difference in LSM|0.604||||0.097|TWO_SIDED|95.0|-0.11|1.317|||ANOVA|||P-value, difference in LSM, and its 95% CI were from ANOVA with baseline age groups (\<50, ≥ 50 years), baseline HBeAg status, and treatment group as fixed effects in the model.||1.317|-0.110|0.0970
82570704|NCT02979613|164852140|SUPERIORITY||||||<|0.0001||||||P-values were from the 2-sided Wilcoxon rank sum test to compare the 2 treatment groups.|Wilcoxon rank sum test|||||||< 0.0001
82570705|NCT02979613|164852141|SUPERIORITY|||||||0.7535||||||P-values were from the 2-sided Wilcoxon rank sum test to compare the 2 treatment groups.|Wilcoxon rank sum test|||||||0.7535
82570706|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||12.9|-30.8|
82570707|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||27.8|-14.1|
82570708|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall redness events||12.9|-30.8|
82570709|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall redness events||25.5|-16.4|
82570710|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall tingling events||1.3|-41.7|
82570711|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-23.3|18.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall tingling events||18.7|-23.3|
82442326|NCT02120365|164593269|SUPERIORITY||Mean Difference (Final Values)|2.242|STANDARD_ERROR_OF_MEAN|1.393||0.285|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|||||0.285
82516554|NCT02019719|164726029|SUPERIORITY_OR_OTHER||Emax (g/dL)|5.88|||||TWO_SIDED|95.0|3.2|8.61|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||8.61|3.20|
82570712|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.2|8.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall itching events||8.3|-35.2|
82516555|NCT02019719|164726029|SUPERIORITY_OR_OTHER||Gamma|1.13|||||TWO_SIDED|95.0|0.7|1.68|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.68|0.70|
82516556|NCT02019719|164726029|SUPERIORITY_OR_OTHER||Var|0.66|||||TWO_SIDED|95.0|0.5|0.88|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||0.88|0.50|
82570713|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|12.0|||||TWO_SIDED|95.0|-9.5|32.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall itching events||32.2|-9.5|
82570714|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-30.8|12.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall warmth events||12.9|-30.8|
82570715|NCT01568112|164852164|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall warmth events||25.5|-16.4|
82570716|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.2|8.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||8.3|-35.2|
82570717|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|12.0|||||TWO_SIDED|95.0|-9.5|32.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||32.2|-9.5|
82570718|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|-19.0|||||TWO_SIDED|95.0|-39.6|3.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||3.7|-39.6|
82570719|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||27.8|-14.1|
82382509|NCT00380874|164475118|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.49||0.7489||95.0||||No multiple comparisons adjustment was necessary.|ANCOVA|Model terms include treatment, study center, and baseline score.|Least squares (LS) means and corresponding standard errors derived from ANCOVA model were used.|LOCF cycle endpoint. Sample size based on original primary efficacy parameter (PEP) of time to persistent symptoms (developing in 35% of pregabalin subjects \& 60% of placebo subjects). Assuming Type I error rate of 0.05 and a 2-sided log-rank test for equality of time to persistent symptoms survival curves, study would have had at least 90% power using 100 subjects per treatment group. Original PEP was modified to secondary due to lack of persistent paresthetic symptom emergence.||||0.7489
82382510|NCT02816736|164475119|SUPERIORITY||ratio of the AUCs|0.95||||0.45|TWO_SIDED|95.0|0.84|1.08|||Regression, Linear|||AUC was normalized for time; With the log-scale, the value of 0 indicates, on average, no change in NTproBNP from baseline.||1.08|0.84|0.45
82382511|NCT02816736|164475120|SUPERIORITY||Mean Difference (Net)|-11.22||||0.15|TWO_SIDED|95.0|-26.4|3.97|||general linear model|||||3.97|-26.4|0.15
82382512|NCT02816736|164475121|SUPERIORITY||Odds Ratio (OR)|1.14||||0.51|TWO_SIDED|95.0|0.78|1.68|||ordinal logistic regression|||||1.68|0.78|0.51
82382513|NCT02816736|164475122|SUPERIORITY||Odds Ratio (OR)|1.55||||0.16|TWO_SIDED|95.0|0.84|2.87|||Regression, Logistic|||||2.87|0.84|0.16
82382514|NCT02816736|164475123|SUPERIORITY||Odds Ratio (OR)|0.99||||0.99|TWO_SIDED|95.0|0.34|2.91|||Regression, Logistic|||||2.91|0.34|0.99
82382515|NCT02816736|164475124|SUPERIORITY||Odds Ratio (OR)|2.05||||0.035|TWO_SIDED|95.0|1.05|4.0|||Regression, Logistic|||||4.00|1.05|0.035
82382516|NCT01139775|164475145|SUPERIORITY_OR_OTHER||Bayesian Posterior Probability|0.96|||||TWO_SIDED||||||||Pemetrexed + cisplatin + LY2603618 was considered superior to pemetrexed + cisplatin if the posterior probability of superiority exceeded 0.85.|The analysis for comparing progression-free survival time between the treatment arms used a Bayesian Augmented Control model with a hierarchical random-effects distribution on treatment effects. The final model incorporated historical data from a completed Phase 3 study (NCT00789373) to augment the prospective control arm data.||||
82382517|NCT01139775|164475147|SUPERIORITY_OR_OTHER|||||||0.2294|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Log Rank|||||||0.2294
82382518|NCT01139775|164475148|SUPERIORITY_OR_OTHER|||||||0.0824|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Chi-squared|||||||0.0824
82516557|NCT02019719|164726029|SUPERIORITY_OR_OTHER||MED (mg)|1.98|||||TWO_SIDED|95.0|0.75|3.41|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||3.41|0.75|
82639835|NCT02163759|164994503|SUPERIORITY||Difference in Remission Rates|-4.5||||0.3383|TWO_SIDED|95.0|-14.1|5.07||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||5.07|-14.10|0.3383
82382519|NCT01139775|164475149|SUPERIORITY_OR_OTHER|||||||0.4924|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Wilcoxon (Mann-Whitney)|||||||0.4924
82382520|NCT01139775|164475160|SUPERIORITY_OR_OTHER|||||||0.0946|TWO_SIDED|||||The test of treatment effect was conducted at a 2-sided alpha level of 0.10.|Chi-squared|||||||0.0946
82382521|NCT04760626|164475161|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec with doseguide minus once daily basal insulin analogue) was strictly below 0.3 percent point.|Treatment difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.09|||ANCOVA|||The response and change from baseline in response after 52 weeks were analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors, and baseline HbA1c as a covariate.||-0.09|-0.66|<0.0001
82382522|NCT01597973|164475229|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
82382523|NCT01597973|164475230|SUPERIORITY|||||||0.583|||||||Chi-squared|||||||0.5830
82382524|NCT01597973|164475231|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
82382525|NCT01597973|164475232|SUPERIORITY|||||||0.255|||||||Chi-squared|||||||0.255
82382526|NCT01597973|164475233|SUPERIORITY|||||||0.59|||||||Chi-squared|||nephrotoxicity analysis||||0.59
82382527|NCT01597973|164475233|SUPERIORITY|||||||0.22|||||||Fisher Exact|||Hypersensitivity analysis||||0.22
82382528|NCT01597973|164475233|SUPERIORITY|||||||0.94|||||||Chi-squared|||Hepatoxicity analysis||||0.94
82382529|NCT01597973|164475233|SUPERIORITY|||||||1|||||||Fisher Exact|||Seizures analysis||||1.00
82382530|NCT01597973|164475233|SUPERIORITY|||||||0.2|||||||Fisher Exact|||Neurotoxicity analysis||||0.20
82382531|NCT02723344|164475234|OTHER|||||||0.056|||||||Wilcoxon-rank sum|||||||.056
82382532|NCT02723344|164475235|OTHER|||||||0.26||||||Wilcoxon Rank-Sum|Wilcoxon (Mann-Whitney)|||||||.26
82516558|NCT02019719|164726029|SUPERIORITY_OR_OTHER||TD (mg)|3.9|||||TWO_SIDED|95.0|2.2|5.63|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||5.63|2.20|
82382533|NCT02723344|164475237|OTHER|||||||0.64|||||||Wilcoxon Rank-Sum|||||||.64
82382534|NCT01008605|164475247|SUPERIORITY_OR_OTHER||Lower limit, 95% one-sided CI|95.83|||||ONE_SIDED|95.0|87.46||||||||||87.46|
82382535|NCT00908544|164475255|OTHER|Changes (within CHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 36.|Mean Difference (Final Values)|0.2||||0.98|TWO_SIDED|95.0|0.0|0.4|||t-test, 1 sided|||||0.4|0.0|0.98
82382536|NCT00908544|164475255|OTHER|Changes (within PHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 36.|Mean Difference (Final Values)|-1.4|||<|0.01|TWO_SIDED|95.0|-1.7|-1.1|||t-test, 1 sided|||||-1.1|-1.7|<0.01
82516559|NCT02019719|164726029|SUPERIORITY_OR_OTHER||MAD (mg)|8.65|||||TWO_SIDED|95.0|6.51|11.44|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||11.44|6.51|
82382537|NCT00908544|164475255|OTHER|Changes (within CHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 84.|Mean Difference (Final Values)|0.12||||0.93|TWO_SIDED|95.0|-0.1|0.3|||t-test, 1 sided|||||0.3|-0.1|0.93
82382538|NCT00908544|164475255|OTHER|Changes (within PHI group) in HIV DNA in PBMC from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at months 84.|Mean Difference (Final Values)|-1.3|||<|0.01|TWO_SIDED|95.0|-1.6|-1.0|||t-test, 1 sided|||||-1.0|-1.6|<0.01
82382539|NCT00908544|164475256|OTHER|Changes (within CHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 36.|Mean Difference (Final Values)|0.2||||0.99|TWO_SIDED|95.0|0.0|0.4|||t-test, 1 sided|||||0.4|0.0|0.99
82382540|NCT00908544|164475256|OTHER|Changes (within PHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 36.|Mean Difference (Final Values)|-1.7|||<|0.01|TWO_SIDED|95.0|-2.0|-1.5|||t-test, 1 sided|||||-1.5|-2.0|<0.01
82516560|NCT02203019|164726047|EQUIVALENCE|Outcome comparison used the Mann Whitney U test||||||0.107|||||||Wilcoxon (Mann-Whitney)|||||||0.107
82382541|NCT00908544|164475256|OTHER|Changes (within CHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 84.|Mean Difference (Final Values)|0.2||||0.97|TWO_SIDED|95.0|0.0|0.3|||t-test, 1 sided|||||0.3|-0.0|0.97
82516561|NCT02203019|164726048|EQUIVALENCE|Outcomes were compared using a Mann Whitney U test.||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.260
82570720|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||1.3|-41.7|
82570721|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||27.8|-14.1|
82570722|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|-33.0|||||TWO_SIDED|95.0|-52.2|-10.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-10.6|-52.2|
82570723|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-21.0|21.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||21.0|-21.0|
82570724|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|-21.0|||||TWO_SIDED|95.0|-41.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||1.3|-41.7|
82382542|NCT00908544|164475256|OTHER|Changes (within PHI Group) in HIV DNA in CD4+T cells from Baseline (BL) will be tested for statistical significance using one-tailed paired t-test or Wilcoxon signed rank test as appropriate on distribution of data at month 84.|Mean Difference (Final Values)|-1.7|||<|0.01|TWO_SIDED|95.0|-2.0|-1.4|||t-test, 1 sided|||||-1.4|-2.0|<0.01
82382543|NCT01267019|164475288|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||This is a statistical analysis to determine the training effect of social cognitive skills training (in vivo and social cog versus control).||||< .05
82382544|NCT01267019|164475289|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82382545|NCT01267019|164475290|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82382546|NCT04632927|164475297|OTHER||Odds Ratio (OR)|3.647||||0.002|TWO_SIDED|95.0|1.601|8.311|||Regression, Logistic|The OR was calculated using a logistic regression model with treatment group, baseline HAQ-DI and strata (body weight) as independent variables||||8.311|1.601|0.002
82382547|NCT00460603|164475407|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.585||||0.9726|TWO_SIDED|95.0|0.332|1.031|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes versus \[vs.\] no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.031|0.332|0.9726
82382548|NCT00460603|164475407|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.735||||0.8391|TWO_SIDED|95.0|0.399|1.352|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.352|0.399|0.8391
82382549|NCT00460603|164475407|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.797||||0.8192|TWO_SIDED|95.0|0.489|1.299|||Cochran-Mantel-Haenszel|||One-sided Cochran-Mantel-Haenszel test of treatment stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no) was used for the analysis.||1.299|0.489|0.8192
82442327|NCT02120365|164593270|SUPERIORITY||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.408||0.843|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|Mixed Models||||.843
82516562|NCT02203019|164726049|EQUIVALENCE|Outcomes were compared using a Mann Whitney U test.||||||0.376|||||||Wilcoxon (Mann-Whitney)|||||||0.376
82516563|NCT02203019|164726050|EQUIVALENCE|Outcomes were compared using a Chi square test.||||||0.739|||||||Chi-squared|||||||0.739
82516564|NCT01055639|164726052|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
82516565|NCT01055639|164726053|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82570725|NCT01568112|164852165|SUPERIORITY_OR_OTHER||Difference in percentage|18.0|||||TWO_SIDED|95.0|-2.4|38.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||38.8|-2.4|
82570726|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.6|9.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||9.2|-35.6|
82570727|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.7|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||21.7|-24.7|
82570728|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-35.6|9.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||9.2|-35.6|
82516566|NCT01055639|164726054|SUPERIORITY_OR_OTHER|||||||0.88|||||||t-test, 2 sided|||||||0.88
82516567|NCT01055639|164726055|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
82516568|NCT01055639|164726056|SUPERIORITY_OR_OTHER|||||||0.87|||||||t-test, 2 sided|||||||0.87
82516569|NCT01055639|164726057|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
82516570|NCT01055639|164726058|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 2 sided|||||||0.19
82516571|NCT01055639|164726059|SUPERIORITY_OR_OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
82516572|NCT01055639|164726060|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
82516573|NCT01659021|164726067|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.18|0.37||P-value is from stratified log-rank test, adjusted for randomization stratification factors (17p deletion/TP53 mutation, immunoglobulin heavy chain variable region (IGHV) mutation, and disease status).|Log Rank||Hazard Ratio and 95% confidence intervals (CI) are from the proportional hazard model, adjusted for randomization stratification factors.|||0.37|0.18|<0.0001
82382550|NCT00460603|164475439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.5699|TWO_SIDED|95.0|0.47|2.45|||Log Rank|||Hazard ratio and corresponding 95% confidence interval (CI) was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.45|0.47|0.5699
82382551|NCT00460603|164475439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.2167|TWO_SIDED|95.0|0.33|1.61|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.61|0.33|0.2167
82516574|NCT01659021|164726068|SUPERIORITY||Odds Ratio (OR)|16.85|||<|0.0001|TWO_SIDED|95.0|8.17|34.76||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) Chi-square test stratified by stratification factors.|Cochran-Mantel-Haenszel||Odds ratio and 95% CIs were calculated from the CMH Chi-square test stratified by stratification factors.|||34.76|8.17|<0.0001
82516575|NCT01659021|164726069|SUPERIORITY||Odds Ratio (OR)|483.16|||<|0.0001|TWO_SIDED|95.0|94.63|2467.02||P-value was calculated from the CMH Chi-square test stratified by stratification factors.|Cochran-Mantel-Haenszel||Odds ratio and 95% CIs were calculated from the CMH Chi-square test stratified by stratification factors.|||2467.02|94.63|<0.0001
82516576|NCT01659021|164726070|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.247|TWO_SIDED|95.0|0.54|1.15||P-value is from stratified log-rank test, adjusted for randomization stratification factors (17p deletion/TP53 mutation, IGHV mutation, and disease status).|Log Rank|||||1.15|0.54|0.247
82516577|NCT01659021|164726071|OTHER||Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.17|0.51|||||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model without any adjustments.|||0.51|0.17|
82516578|NCT02079805|164726073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||||TWO_SIDED|95.0|-0.89|1.78||||||Telmisartan 40 mg, Azilsartan 20 mg||1.78|-0.89|
82516579|NCT00383435|164726080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82516580|NCT00383435|164726080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||ANCOVA|||||||0.007
82516581|NCT00383435|164726081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82516582|NCT00383435|164726081|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029|||||||ANCOVA|||||||0.029
82516583|NCT00383435|164726082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||||||0.002
82570729|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-22.9|23.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||23.7|-22.9|
82516584|NCT00383435|164726082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059|||||||ANCOVA|||||||0.059
82516585|NCT02347761|164726086|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Squares Mea Difference (SE)|0.1036|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0663|0.1409||The primary null hypothesis for this study is that the mean change from baseline in trough FEV1 at Week 12 for the SUN-101 50 mcg dose is equal to the mean change from baseline in trough FEV1 at Week 12 for Placebo.|MMixed Model Repeat Measurement|to control the family-wise Type I error rate,the Hochberg procedure(a tree-structured gatekeeping procedure)was used for comparisons of this endpoint|standard error of the least squares mean|The change from baseline in trough FEV1 was analyzed using a mixed model for repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit, visit by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1409|0.0663|<0.0001
82570730|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-11.0|||||TWO_SIDED|95.0|-33.0|11.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||11.9|-33.0|
82570731|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-5.0|||||TWO_SIDED|95.0|-27.5|18.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||18.8|-27.5|
82570732|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-17.0|||||TWO_SIDED|95.0|-38.1|6.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||6.5|-38.1|
82382552|NCT00460603|164475439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.8746|TWO_SIDED|95.0|0.75|2.98|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.98|0.75|0.8746
82382553|NCT00460603|164475440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.8884|TWO_SIDED|95.0|0.81|2.41|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.41|0.81|0.8884
82636013|NCT00453349|164986617|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 87% in the per protocol population"|Mean Difference (Final Values)|-3.2||||||95.0|-10.7|4.9|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||4.9|-10.7|
82636014|NCT00453349|164986618|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-1.9||||||95.0|-9.9|6.0|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.0|-9.9|
82636015|NCT00453349|164986619|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-3.2||||||95.0|-7.4|0.8|||||Mean difference denotes the difference of clinical improvement rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||0.8|-7.4|
82636016|NCT00453349|164986620|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-0.1||||||95.0|-8.1|7.5|||||Mean difference denotes the difference of clinical improvement rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.5|-8.1|
82636017|NCT00453349|164986621|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|5.4||||||95.0|-12.7|20.3|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||20.3|-12.7|
82636018|NCT00453349|164986622|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|4.3||||||95.0|-19.4|17.6|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||17.6|-19.4|
82636019|NCT00453349|164986623|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-2.5||||||95.0|-8.6|4.9|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||4.9|-8.6|
82636020|NCT00453349|164986624|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-0.1||||||95.0|-8.1|7.5|||||Mean difference denotes the difference of clinical cure rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.5|-8.1|
82636021|NCT00453349|164986625|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|-7.9||||||95.0|-24.9|15.9|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||15.9|-24.9|
82636022|NCT00453349|164986626|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variables.|Mean Difference (Final Values)|3.7||||||95.0|-30.5|11.9|||||Mean difference denotes the difference of eradication rates in percent between the two treatment groups. A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||11.9|-30.5|
82636023|NCT00149227|164986643|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|-0.975|0.975|||Cox's proportional hazard analysis|||"We estimated the number of enrolled patients to validate the hypothesis under the assumption that the valsartan add-on group achieves a 20% risk reduction compared with the conventional treatment group and gives 80% statistical power for detecting a clinical signiﬁcance with a two-tailed 5% statistical signiﬁcant level.~with a two-tailed 5% statistical signiﬁcant level."||0.975|-0.975|<0.05
82636024|NCT02828982|164986657|SUPERIORITY|||||||0.585||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||The null hypothesis was that there would be no difference in metabolic costs between the two groups||||0.585
82636025|NCT02828982|164986658|SUPERIORITY|||||||0.452||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||The null hypothesis was that there were no differences in the number of steps taken outside of the home for the two prostheses.||||0.452
82636026|NCT02828982|164986659|OTHER|paired t-test of Physical component scores between the two conditions||||||0.48||||||a prior threshold for significance was 0.05|t-test, 2 sided|||||||0.480
82636027|NCT02828982|164986659|SUPERIORITY|||||||0.408||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||Mental Component Score||||0.408
82636028|NCT02828982|164986660|SUPERIORITY|||||||0.058||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Ambulation Score||||0.058
82636029|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.123||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Appearance Score||||.123
82636030|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.052||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Frustration Score||||.052
82636031|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.188||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Perceived Response Score||||.188
82636032|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.336||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Limb Health Score||||.336
82636033|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.043||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Social Burden Score||||.043
82636034|NCT02828982|164986660|OTHER|paired t-test between conditions||||||0.391||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Sounds Score||||.391
82636035|NCT02828982|164986660|SUPERIORITY|paired t-test between conditions||||||0.799||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Utility Score||||.799
82636036|NCT02828982|164986660|SUPERIORITY|||||||0.173||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Well-Being||||.173
82636037|NCT02828982|164986661|OTHER|paired t-test between conditions||||||0.655||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Biceps Femoris||||0.655
82636038|NCT02828982|164986661|OTHER|paired t-test between conditions||||||0.281||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Rectus Femoris||||.281
82636039|NCT02828982|164986661|OTHER|paired t-test between conditions||||||0.844||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Soleus||||.844
82636040|NCT02828982|164986661|OTHER|paired t-test between conditions||||||0.11||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Intact Side Tibialis Anterior||||.110
82570733|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-11.0|||||TWO_SIDED|95.0|-34.2|12.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||12.2|-34.2|
82636041|NCT02828982|164986661|OTHER|paired t-test between conditions||||||0.394||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Side Biceps Femoris||||.394
82636042|NCT02828982|164986661|SUPERIORITY|||||||0.141||||||Statistical significance was set a-priori at p\<0.05.|t-test, 2 sided|||Residual Side Rectus Femoris||||.141
82636043|NCT02828982|164986662|SUPERIORITY|||||||0.212||||||Statistical significance was set a-priori at p\<0.05|t-test, 2 sided|||||||0.212
82636044|NCT02312934|164986663|OTHER||||||=|0.41||||||All pairwise comparisons were Sidak corrected for multiple comparisons at the p \< 0.05 level.|Mixed Models Analysis|Degrees of freedom were corrected using Greenhouse-Geisser estimates of sphericity (ε = 0.72).||For the Primary Aim (Specific Aim 1), a mixed-models repeated measures ANOVA was used to assess the interaction of treatment group (nicotine, placebo) with time (Visit), using change from baseline PCI FACT-Cog score (Visit 3, Visit 4, and Visit 5) as the dependent measure.||||=0.41
82636045|NCT02312934|164986664|OTHER|||||||0.79||||||All pairwise comparisons were Sidak corrected for multiple comparisons at the p \< 0.05 level.|Mixed Models Analysis|Degrees of freedom were corrected using Greenhouse-Geisser estimates of sphericity (ε = 0.72).||For the Secondary Aim (Specific Aim 2), a mixed-models repeated measures ANOVA was used to assess the interaction of treatment group (nicotine, placebo) with time (Visit), using change from baseline CPT Scores (Visit 3, Visit 4, and Visit 5) as the dependent measure.||||0.79
82636046|NCT02475564|164986675|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mann-Whitney test|||A sample size of at least 21 patients per arm would be necessary to have a 90% chance of detecting, as significant at the 1% level, a difference of 3 points in a scale of 10 points, between both groups as the primary outcome, after 42 days of treatment.||||0.7
82636047|NCT02475564|164986676|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mann-Whitney test|||||||0.1
82523236|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|0.64|STANDARD_ERROR_OF_MEAN|0.888||0.4713|TWO_SIDED|80.0|-0.5|1.78||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||1.78|-0.50|0.4713
82570734|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-20.0|||||TWO_SIDED|95.0|-40.6|3.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||3.8|-40.6|
82570735|NCT01568112|164852166|SUPERIORITY_OR_OTHER||Difference in percentage|-18.0|||||TWO_SIDED|95.0|-40.2|5.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||5.5|-40.2|
82570736|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-3.0|-0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||-0.9|-3.0|
82570737|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|0.2|2.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||2.3|0.2|
82570738|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-3.2|-1.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||-1.2|-3.2|
82570739|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|0.1|2.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||2.5|0.1|
82570740|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-2.8|-0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||-0.7|-2.8|
82570741|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|0.1|2.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||2.3|0.1|
82570742|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.7|-0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-0.9|-2.7|
82570743|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-0.4|1.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||1.6|-0.4|
82570744|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.8|-1.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||-1.0|-2.8|
82570745|NCT01568112|164852167|SUPERIORITY_OR_OTHER||Mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|0.2|2.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||2.2|0.2|
82570746|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||0.8|-1.7|
82570747|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.8|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||0.4|-1.8|
82570748|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.0|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||0.6|-2.0|
82570749|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.9|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Redness events||0.5|-1.9|
82570750|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-2.0|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||0.4|-2.0|
82570751|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.1|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Warmth events||0.2|-2.1|
82570752|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-2.2|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||0.1|-2.2|
82570753|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.2|0.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Tingling events||-0.0|-2.2|
82570754|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.1|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||0.4|-2.1|
82570755|NCT01568112|164852168|SUPERIORITY_OR_OTHER||Mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.4|-0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Itching events||-0.1|-2.4|
82570756|NCT01568112|164852169|SUPERIORITY_OR_OTHER||Difference in percentage|-12.0|||||TWO_SIDED|95.0|-32.2|9.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||9.5|-32.2|
82570757|NCT01568112|164852169|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Overall flushing events||27.8|-14.1|
82570758|NCT01568112|164852170|SUPERIORITY_OR_OTHER||Difference in percentage|-22.0|||||TWO_SIDED|95.0|-41.0|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||0.1|-41.0|
82636048|NCT02475564|164986677|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mann-Whitney test|||||||0.8
82570759|NCT01568112|164852170|SUPERIORITY_OR_OTHER||Difference in percentage|7.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||27.8|-14.1|
82570760|NCT01568112|164852171|SUPERIORITY_OR_OTHER||Difference in percentage|-20.0|||||TWO_SIDED|95.0|-40.6|3.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||3.8|-40.6|
82570761|NCT01568112|164852171|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.7|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||21.7|-24.7|
82570762|NCT01568112|164852172|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-22.0|22.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||22.0|-22.0|
82570763|NCT01568112|164852172|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-16.4|25.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||25.5|-16.4|
82570764|NCT01568112|164852173|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-24.2|19.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||19.7|-24.2|
82570765|NCT01568112|164852173|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-23.3|18.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||18.7|-23.3|
82570766|NCT01568112|164852174|SUPERIORITY_OR_OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-29.4|17.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||17.1|-29.4|
82570767|NCT01568112|164852174|SUPERIORITY_OR_OTHER||Difference in percentage|1.0|||||TWO_SIDED|95.0|-22.1|24.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||24.5|-22.1|
82570768|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.1|1.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||1.1|-1.1|
82570769|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.1|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.9|-1.1|
82570770|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.4|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.8|-1.4|
82570771|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.7|0.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.1|-1.7|
82570772|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-0.5|1.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||1.6|-0.5|
82570773|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.7|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||1.3|-0.7|
82570774|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-1.0|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.9|-1.0|
82570775|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.1|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.8|-1.1|
82570776|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.6|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.7|-0.6|
82442328|NCT02120365|164593271|SUPERIORITY||Mean Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|2.07||0.691|TWO_SIDED||||||Mixed Models Analysis||Representing the high dose 10mg compared to the placebo 0mg dose.|We report the main effect of dose on the outcome measure||||.691
82570777|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.6|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.5|-0.6|
82570778|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.0|0.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.3|-1.0|
82570779|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.8|-0.8|
82570780|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.6|-1.0|
82570781|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.8|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.9|-0.8|
82570782|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Difference in percentage|0.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.7|1.1||||||Bloating||1.1|-0.7|
82570783|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.9|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.7|-0.9|
82570784|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||0.9|-0.8|
82570785|NCT01568112|164852175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-0.7|1.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||1.1|-0.7|
82570786|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.0|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.8|-1.0|
82570787|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.8|-0.8|
82570788|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.7|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.4|-1.7|
82636049|NCT03395704|164986678|SUPERIORITY||||||<|0.0001|||||||General Linear Model|||||||< 0.0001
82382554|NCT00460603|164475440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.6648|TWO_SIDED|95.0|0.66|1.89|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.89|0.66|0.6648
82382555|NCT00460603|164475440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.8065|TWO_SIDED|95.0|0.75|2.07|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.07|0.75|0.8065
82382556|NCT00460603|164475441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.155||||0.6904|TWO_SIDED|95.0|0.656|2.033|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.033|0.656|0.6904
82382557|NCT00460603|164475441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.203||||0.7364|TWO_SIDED|95.0|0.676|2.141|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||2.141|0.676|0.7364
82382558|NCT00460603|164475441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.414|TWO_SIDED|95.0|0.535|1.653|||Log Rank|||Hazard ratio and corresponding 95% CI was calculated based on the Cox proportional hazards model stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no). One-sided p-value was derived from the log-rank test stratified by prior adjuvant chemotherapy (yes vs. no) and prior pelvic irradiation (yes vs. no).||1.653|0.535|0.4140
82516586|NCT02347761|164726086|SUPERIORITY|A sample size of 215 subjects per treatment would give \~ 90% power to detect a treatment difference of 80 mL in the change from baseline in trough FEV1 at Week 12 between each of the 2 SUN-101 dose groups and placebo at alpha= 0.05, assuming a standard deviation of 255 mL and using a 2-sided test.|Least Squares Mean Difference (SE)|0.0961|STANDARD_ERROR_OF_MEAN|0.01896|<|0.0001|TWO_SIDED|95.0|0.0589|0.1334||The primary null hypothesis for this study is that the mean change from baseline in trough FEV1 at Week 12 for the SUN-101 50 mcg dose is equal to the mean change from baseline in trough FEV1 at Week 12 for Placebo.|Mixed Model Repeat Measurement|to control the family-wise Type I error rate,the Hochberg procedure(a tree-structured gatekeeping procedure)was used for comparisons of the endpoint.|Standard error of the least squares mean|The change from baseline in trough FEV1 was analyzed using a mixed model for repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit, visit by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1334|0.0589|<0.0001
82636050|NCT00772031|164986692|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.97||0.77|TWO_SIDED|95.0|-1.8|2.4|||ANCOVA|covariate adjustments: study site, baseline mod-to-sev 28-day headache-rate, topiramate use, medication overuse, and anti-depressive medications use.|Topiramate plus placebo mean reduction minus topiramate plus propranolol reduction|The study was designed to enroll 250 subjects to provide at least 90% power to detect a 3-day difference and 87% power to detect a 2.5-day difference in 28-day moderate-to-severe headache rate reductions at six months, assuming a type I error rate of 0.05, a two-sided test, a 10% loss to follow-up and a standard deviation of within-person change in days with headache of six.||2.4|-1.8|0.77
82382559|NCT03003962|164475443|OTHER|"The analysis was performed using the stratified log-rank test, adjusting for PD-L1 expression (TC 25% to 49% versus \>= 50%) and histology and smoking status (squamous vs. non-squamous + never smoker vs.~non-squamous + former/current smoker) and using the rank tests of association approach."|Hazard Ratio (HR)|0.84||||0.037|TWO_SIDED|95.0|0.706|0.989|||Stratified Log-rank test||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model|||0.989|0.706|0.037
82636051|NCT00772031|164986693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0|0.75|2.78||||||||2.78|0.75|
82636052|NCT00772031|164986694|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.5|2.02||||||||2.02|0.50|
82636053|NCT00772031|164986696|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_DEVIATION|3.75||0.91||95.0|||||ANCOVA|||||||0.91
82636054|NCT03419741|164986700|OTHER|We plan to enroll 20 participants within one year. Eleven participants were enrolled. 11/20 = 55% completed the number of enrollment.|%|11.0|||||TWO_SIDED||||||percentage|||||||
82382560|NCT03003962|164475444|OTHER|"The analysis was performed using the stratified log-rank test, adjusting for PD-L1 expression (TC 25% to 49% versus \>= 50%) and histology and smoking status (squamous vs. non-squamous + never smoker vs.~non-squamous + former/current smoker) and using the rank tests of association approach."|Hazard Ratio (HR)|0.96||||0.628|TWO_SIDED|95.0|0.793|1.151|||Stratified log-rank test||The HR and CI were calculated using a stratified Cox proportional hazards model.|||1.151|0.793|0.628
82382561|NCT03871543|164475487|OTHER|Statistical Difference|Mean difference|0.159|STANDARD_ERROR_OF_MEAN|0.287|||ONE_SIDED|95.0|-0.402||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|Upper Lid|||-0.402|
82382562|NCT03871543|164475487|OTHER|Statistical Difference|Mean Difference|0.236|STANDARD_ERROR_OF_MEAN|0.289|||ONE_SIDED|95.0|-0.328||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|Lower Lid|||-0.328|
82570789|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.7|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||0.2|-1.7|
82570790|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.7|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||0.6|-0.7|
82382563|NCT03871543|164475488|OTHER|Statistical difference|Mean Ratio|0.918|||||ONE_SIDED|95.0||1.227|||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean ratio was calculated as Symptomatic divided by Asymptomatic|||1.227||
82382564|NCT03871543|164475489|OTHER|Statistical difference|Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.019|||ONE_SIDED|95.0||0.022|||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic|||0.022||
82516587|NCT02347761|164726087|SUPERIORITY||Least Squares Mean (SE)|0.1264|STANDARD_ERROR_OF_MEAN|0.02076|<|0.0001|TWO_SIDED|95.0|0.0856|0.1672||In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|Least squares mean (SE)|||The change from baseline in trough FEV1 was analyzed using mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1672|0.0856|<0.0001
82516588|NCT02347761|164726087|SUPERIORITY|In order to control the family-wise Type I error rate, the Hochberg procedure (a tree-structured gatekeeping procedure) was used for comparisons of the primary efficacy endpoints and the key secondary efficacy endpoints.|LS mean (SE)|0.1052|STANDARD_ERROR_OF_MEAN|0.0206|<|0.0001|TWO_SIDED|95.0|0.0647|0.1457|||LS mean (SE)|||The change from baseline in trough FEV1 was analyzed using mixed model repeated measures including terms for treatment, cardiovascular risk, background LABA use, visit week, visit week by treatment interaction, and baseline FEV1 as a covariate. An unstructured covariance matrix was used.||0.1457|0.0647|<0.0001
82516589|NCT03447769|164726128|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.258|TWO_SIDED|95.0|0.78|1.14||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|||1.14|0.78|0.258
82570791|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||0.8|-0.7|
82570792|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.6|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||0.7|-0.6|
82636055|NCT02194699|164986743|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.84||||0.4656|TWO_SIDED|95.0|0.53|1.34|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate ratio): Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.34|0.53|0.4656
82636056|NCT02194699|164986743|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|1.13||||0.4126|TWO_SIDED|95.0|0.85|1.5|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate ratio): Biomarker negative population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.50|0.85|0.4126
82636057|NCT02194699|164986743|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|15.83||||0.4656|TWO_SIDED|95.0|-33.71|47.01|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|"Comparison of AAER (rate reduction): Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||47.01|-33.71|0.4656
82636058|NCT02194699|164986743|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|1.03||||0.8027|TWO_SIDED|95.0|0.81|1.31|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): FAS population; Tralo 300 mg Q2W vs placebo.||1.31|0.81|0.8027
82636059|NCT02194699|164986743|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|-3.14||||0.8027|TWO_SIDED|95.0|-31.46|19.08|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): FAS population; Tralo 300 mg Q2W vs placebo.||19.08|-31.46|0.8027
82636060|NCT02194699|164986744|SUPERIORITY||Least square (LS) Mean difference|1.86||||0.6033|TWO_SIDED|95.0|-5.16|8.88|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~Restricted maximum likelihood (REML) based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||8.88|-5.16|0.6033
82636061|NCT02194699|164986744|SUPERIORITY||LS Mean difference|3.37||||0.1276|TWO_SIDED|95.0|-0.97|7.7|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||7.70|-0.97|0.1276
82636062|NCT02194699|164986744|SUPERIORITY||LS Mean difference|2.95||||0.1164|TWO_SIDED|95.0|-0.73|6.62|||Repeated measures analysis||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of % change from baseline in pre-dose/pre-BD FEV1 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis on patients with a baseline pre-dose/pre-BD FEV1 assessment||6.62|-0.73|0.1164
82382565|NCT03871543|164475490|OTHER|Statistical difference|Mean Difference|1.185|STANDARD_ERROR_OF_MEAN|3.483|||ONE_SIDED|95.0|-4.613||||Mixed Models Analysis|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Symptomatic minus Asymptomatic||||-4.613|
82636063|NCT02194699|164986745|SUPERIORITY||LS Mean difference|-0.2||||0.1456|TWO_SIDED|95.0|-0.47|0.07|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.07|-0.47|0.1456
82382566|NCT03871543|164475491|OTHER|Statistical difference|Mean Ratio|1.984|||||ONE_SIDED|95.0|1.198||||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean Ratio was calculated as Symptomatic divided by Asymptomatic|Upper Lid|||1.198|
82382567|NCT03871543|164475491|OTHER|Statistical Difference|Mean Ratio|1.8|||||ONE_SIDED|95.0|1.093||||Generalized Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom.|Mean Ratio was calculated as Symptomatic divided by Asymptomatic|Lower Lid|||1.093|
82516590|NCT03447769|164726133|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.676|TWO_SIDED|95.0|0.76|1.58||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 \<1%||1.58|0.76|0.676
82516591|NCT03447769|164726133|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.036|TWO_SIDED|95.0|0.34|1.05||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 ≥1% and \<49%||1.05|0.34|0.036
82516592|NCT03447769|164726133|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.823|TWO_SIDED|95.0|0.73|2.43||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test|PD-L1 ≥50%||2.43|0.73|0.823
82516593|NCT03447769|164726134|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.872|TWO_SIDED|95.0|0.87|1.72||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|CD8 \< median||1.72|0.87|0.872
82636064|NCT02194699|164986745|SUPERIORITY||LS Mean difference|0.04||||0.6548|TWO_SIDED|95.0|-0.13|0.2|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.20|-0.13|0.6548
82516594|NCT03447769|164726134|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.303|TWO_SIDED|95.0|0.62|1.33||1-sided p-value|Stratified log-rank test||The HR for DFS was calculated, along with its 95% confidence interval, from a stratified Cox model using the same stratification factors as those for the log-rank test.|CD8 ≥ median||1.33|0.62|0.303
82636065|NCT02194699|164986745|SUPERIORITY||LS Mean difference|-0.04||||0.5763|TWO_SIDED|95.0|-0.18|0.1|||Repeated measures analysis||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in total asthma symptom score at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.10|-0.18|0.5763
82636066|NCT02194699|164986746|SUPERIORITY||LS Mean difference|0.27||||0.0874|TWO_SIDED|95.0|-0.04|0.57|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.57|-0.04|0.0874
82636067|NCT02194699|164986746|SUPERIORITY||LS Mean difference|-0.01||||0.9083|TWO_SIDED|95.0|-0.2|0.17|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.17|-0.20|0.9083
82516595|NCT01255358|164726157|OTHER|Changes from baseline (V1) at V2, V4 and V7 were analyzed with a RMANOVA design with age and ICARS at baseline as covariates. A Wilcoxon non-parametric test between visits was performed when the overall analysis was significant in order to help determine timing of effects|Mean Difference (Final Values)|-4.0|STANDARD_DEVIATION|7.5||0.02|TWO_SIDED|95.0|-7.1|-0.9|||Wilcoxon (Mann-Whitney)|||The primary analysis on ICARS Total score has been conducted on the ITT Population employing carry-forward and carry-backward procedures for missing data imputation, in order to evaluate all enrolled patients.||-0.9|-7.1|0.02
82636068|NCT02194699|164986746|SUPERIORITY||LS Mean difference|0.06||||0.4506|TWO_SIDED|95.0|-0.1|0.22|||Repeated measures analysis||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.22|-0.10|0.4506
82516596|NCT01255358|164726158|OTHER|Changes from baseline (V1) at V2, V4 and V7 were analyzed with a RMANOVA design with age and ICARS at baseline as covariates. A Wilcoxon non-parametric test between visits was performed when the overall analysis was significant in order to help determine timing of effects|Mean Difference (Final Values)|-5.2|STANDARD_DEVIATION|7.0||0.0031|TWO_SIDED|95.0|-8.4|-2.0|||Wilcoxon (Mann-Whitney)|||Overall analysis on the PP Population||-2|-8.4|0.0031
82516597|NCT01255358|164726163|OTHER|VABS Total score and subscales have been analyzed with a RMANOVA design, using age as covariate (dichotomized as Low- or High-, using median age as threshold).|Median Difference (Final Values)|1.3|STANDARD_DEVIATION|1.2|<|0.0001|TWO_SIDED|95.0|0.8|1.8|||Wilcoxon (Mann-Whitney)|||VABS total score at V7||1.8|0.8|<0.0001
82516598|NCT01255358|164726164|OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|1.1|<|0.0001|TWO_SIDED|95.0|1.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|1|<0.0001
82570793|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.2|1.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||1.3|-0.2|
82516599|NCT00856583|164726220|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 90% confidence interval (CI) for the estimated all-cause mortality ratio was \<1.5 (pre-specified), the null hypothesis was rejected. With this limit, 7,600 patient years of exposure (PYE) were required to ensure 80% power at the 5% significance level of rejecting the null hypothesis when assuming a mortality of 2 deaths per 100 PYE. As the actual mortality was only about half that anticipated, more exposure was necessary and the duration of the study increased markedly.|Hazard Ratio (HR)|1.117||||0.05|TWO_SIDED|90.0|0.831|1.5|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.|The hazard ratio is calculated as sertindole (numerator) versus risperidone (denominator).|The basis for the statistical analysis of the first primary outcome was the null hypothesis of an excess mortality in sertindole-treated patients compared to the mortality in risperidone-treated patients for the WRT+30 days period.||1.500|0.831|0.05
82516600|NCT00856583|164726220|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 90% CI for the estimated all-cause mortality ratio was \<1.5 (pre-specified), the null hypothesis was rejected. With this limit, 7,600 PYE were required to ensure 80% power at the 5% significance level of rejecting the null hypothesis when assuming a mortality of 2 deaths per 100 PYE. As the actual mortality was only about half that anticipated, more exposure was necessary and the duration of the study increased markedly.|Hazard Ratio (HR)|0.98|||<|0.05|TWO_SIDED|90.0|0.684|1.405|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.|The hazard ratio is calculated as sertindole (numerator) versus risperidone (denominator).|The basis for the statistical analysis of the first primary outcome was the null hypothesis of an excess mortality in sertindole-treated patients compared to the mortality in risperidone-treated patients for the ORT period.||1.405|0.684|<0.05
82516601|NCT00856583|164726221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.84||||0.0022|TWO_SIDED|95.0|1.45|5.55|||Cox Proportional Hazard|Adjusted: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), region, year since start of enrollment||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||5.55|1.45|0.0022
82516602|NCT00856583|164726222|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73||||0.29|TWO_SIDED|95.0|0.63|4.78|||Cox Proportional Hazard|Adjusted for: age and sex.||The basis for the statistical analysis of time to 1st occurence of the secondary primary outcome (one patient in the risperidone group reported more than one occurrence of this event) was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||4.78|0.63|0.29
82570794|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.4|0.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.4|-0.4|
82382568|NCT03871543|164475492|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1416||||0.3446|TWO_SIDED|95.0|-0.4148|0.1551|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1551|-0.4148|0.3446
82516603|NCT00856583|164726223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.34|TWO_SIDED|95.0|0.36|1.41|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.41|0.36|0.34
82516604|NCT00856583|164726224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.26|TWO_SIDED|95.0|0.4|1.28|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.28|0.40|0.26
82516605|NCT00856583|164726225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.13||||0.081|TWO_SIDED|95.0|0.91|4.98|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy).||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||4.98|0.91|0.081
82516606|NCT00856583|164726226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.24|TWO_SIDED|95.0|0.33|1.32|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.32|0.33|0.24
82516607|NCT00856583|164726227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.59|TWO_SIDED|95.0|0.7|1.85|||Cox Proportional Hazard|Adjusted for: age, sex, last previous antipsychotic treatment (mono-/polytherapy), year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of mortality hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.85|0.70|0.59
82516608|NCT00856583|164726228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.65|TWO_SIDED|95.0|0.66|1.29|||Cox Proportional Hazard|Adjusted for: age, sex, duration of schizophrenia, time since last suicide attempt, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.29|0.66|0.65
82570795|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.4|0.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||0.2|-0.4|
82382569|NCT03871543|164475493|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0887||||0.5556|TWO_SIDED|95.0|-0.207|0.3694|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3694|-0.2070|0.5556
82382570|NCT03871543|164475494|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2052||||0.1676|TWO_SIDED|95.0|-0.4676|0.0905|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0905|-0.4676|0.1676
82516609|NCT00856583|164726229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.044|TWO_SIDED|95.0|0.45|0.99|||Cox Proportional Hazard|Adjusted for: age, sex, duration of schizophrenia, time since last suicide attempt, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||0.99|0.45|0.044
82516610|NCT00856583|164726230|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.04|TWO_SIDED|95.0|1.01|1.57|||Cox Proportional Hazard|Adjusted for: age, sex, time since last suicide attempt, last antipsychotic medication (a-/typicals/both), region, year since start of enrollment.||The basis for the statistical analysis of time to 1st occurence of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.57|1.01|0.040
82516611|NCT00856583|164726231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.28|1.43|||Cox Proportional Hazard|Adjusted: disease duration, time since last suicide attempt, last antipsychotic medication (a-/typicals/both), region, year since start of enrollment.||The basis for the statistical analysis of this secondary outcome was the null hypothesis of hazard ratio equal to 1 for the sertindole-treated patients versus risperidone-treated patients during the WRT+30 days period.||1.43|1.28|<0.0001
82636069|NCT02194699|164986747|SUPERIORITY||LS Mean difference|-0.27||||0.04|TWO_SIDED|95.0|-0.53|-0.01|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||-0.01|-0.53|0.0400
82382571|NCT03871543|164475495|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0903||||0.5483|TWO_SIDED|95.0|-0.2054|0.3709|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3709|-0.2054|0.5483
82382572|NCT03871543|164475496|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2679||||0.0719|TWO_SIDED|95.0|-0.5205|0.0278|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0278|-0.5205|0.0719
82382573|NCT03871543|164475497|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.3434||||0.019|TWO_SIDED|95.0|-0.5786|0.0554|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.0554|-0.5786|0.0190
82382574|NCT03871543|164475498|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.2975||||0.042|TWO_SIDED|95.0|-0.541|-0.0078|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||-0.0078|-0.5410|0.0420
82382575|NCT03871543|164475499|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.127||||0.3973|TWO_SIDED|95.0|-0.1696|0.4024|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.4024|-0.1696|0.3973
82382576|NCT03871543|164475500|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.021||||0.8894|TWO_SIDED|95.0|-0.3094|0.271|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.2710|-0.3094|0.8894
82382577|NCT03871543|164475501|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|0.0762||||0.6129|TWO_SIDED|95.0|-0.219|0.3585|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.3585|-0.2190|0.6129
82516612|NCT01944046|164726232|SUPERIORITY|||||||0.503||||||not adjusted primary outcome|Mixed Models Analysis|adjusted for baseline, age category, functionality category||||||0.503
82516613|NCT01944046|164726233|SUPERIORITY|||||||0.61||||||not adjusted primary outcome, p threshold 0.05|Mixed Models Analysis|adjustment for value at week 24,||||||0.61
82516614|NCT04289753|164726252|SUPERIORITY||Odds Ratio (OR)|0.56|||||TWO_SIDED|95.0|0.46|0.69||||||||0.69|0.46|
82516615|NCT04289753|164726253|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
82516616|NCT04289753|164726254|SUPERIORITY||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.7|1.0||||||||1.0|0.70|
82382578|NCT03871543|164475502|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1402||||0.3493|TWO_SIDED|95.0|-0.4137|0.1565|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1565|-0.4137|0.3493
82382579|NCT03871543|164475503|OTHER|Statistical significance correlation: Statistically Significant correlations were concluded if the upper CL is below 0 or the lower CL is above 0|Correlation Coefficient|-0.1192||||0.427|TWO_SIDED|95.0|-0.3958|0.1772|||Pearson correlation|Pearson correlation statistics using Fisher's z transformation||||0.1772|-0.3958|0.4270
82382580|NCT01839708|164475504|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82382581|NCT01839708|164475505|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82516617|NCT00366626|164726286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|STANDARD_DEVIATION|6.32||0.51|TWO_SIDED|95.0|-1.85|3.69|||ANOVA|||This was a 2 gene (asn40asn vs 40asp) by two medication (naltrexone vs placebo) design. The main hypothesis was that the effect of naltrexone (mean naltrexone drinking - placebo drinking) would be greater in the 40asp subjects than in the asn40asn subjects. Thus the null hypothesis there would be no gene by medication interaction. The mean difference above is then the difference in the size of the naltrexone effect in the two genotypes, equivalent to the interaction.||3.69|-1.85|0.51
82516618|NCT00366626|164726287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|STANDARD_DEVIATION|6.1||0.28|TWO_SIDED|95.0|-1.22|4.11|||ANOVA|||This was a 2 gene (asn40asn vs 40asp) by 2 medication (naltrexone vs. placebo)interaction analysis. The main hypothesis was that subjects who had 40asp OPRM1 allele would a greater naltrexone effect on drinking (Placebo - Naltrexxone) than the asn40asn subjects. Thus the null hypothesis was the gene by medication interaction.||4.11|-1.22|0.28
82636070|NCT02194699|164986747|SUPERIORITY||LS Mean difference|0.0||||0.9735|TWO_SIDED|95.0|-0.16|0.16|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.16|-0.16|0.9735
82636071|NCT02194699|164986747|SUPERIORITY||LS Mean difference|-0.08||||0.2432|TWO_SIDED|95.0|-0.21|0.05|||Repeated measures analysis||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of change in mean score from baseline for ACQ-6 at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.05|-0.21|0.2432
82636072|NCT02194699|164986748|SUPERIORITY||Rate ratio|0.39||||0.0576|TWO_SIDED|95.0|0.15|1.03|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|"Comparison of AAER associated with an ER/UC visit or hospitalisation: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.03|0.15|0.0576
82636073|NCT02194699|164986748|SUPERIORITY||Rate ratio|0.83||||0.5249|TWO_SIDED|95.0|0.46|1.48|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|"Comparison of AAER associated with an ER/UC visit or hospitalisation: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term was included in the analysis model."||1.48|0.46|0.5249
82382582|NCT01839708|164475506|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382583|NCT01839708|164475507|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82516619|NCT05799495|164726288|OTHER||LS Mean difference|-0.671|STANDARD_ERROR_OF_MEAN|0.3178||0.0181|TWO_SIDED|80.0|-1.08|-0.262|||Mixed Models Analysis|||||-0.262|-1.080|0.0181
82516620|NCT05799495|164726288|OTHER||LS Mean difference|-0.802|STANDARD_ERROR_OF_MEAN|0.3562||0.0127|TWO_SIDED|80.0|-1.26|-0.344|||Mixed Models Analysis|||||-0.344|-1.260|0.0127
82516621|NCT05799495|164726288|OTHER||LS Mean difference|-1.167|STANDARD_ERROR_OF_MEAN|0.264|<|0.0001|TWO_SIDED|80.0|-1.506|-0.827|||Mixed Models Analysis|||||-0.827|-1.506|<.0001
82516622|NCT05799495|164726289|OTHER||LS Mean difference|-0.608|STANDARD_ERROR_OF_MEAN|0.3402||0.0378|TWO_SIDED|80.0|-1.046|-0.17|||Mixed Models Analysis|||Day 3||-0.170|-1.046|0.0378
82516623|NCT05799495|164726289|OTHER||LS Mean difference|-1.304|STANDARD_ERROR_OF_MEAN|0.3718||0.0003|TWO_SIDED|80.0|-1.782|-0.826|||Mixed Models Analysis|||Day 3||-0.826|-1.782|0.0003
82516624|NCT05799495|164726289|OTHER||LS Mean difference|-1.148|STANDARD_ERROR_OF_MEAN|0.2803|<|0.0001|TWO_SIDED|80.0|-1.509|-0.788|||Mixed Models Analysis|||Day 3||-0.788|-1.509|<.0001
82516625|NCT05799495|164726289|OTHER||LS Mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.2732||0.5931|TWO_SIDED|80.0|-0.287|0.416|||Mixed Models Analysis|||Day 10||0.416|-0.287|0.5931
82636074|NCT02194699|164986748|SUPERIORITY||Rate ratio|0.67||||0.1155|TWO_SIDED|95.0|0.41|1.1|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: FAS population; Tralo 300 mg Q2W vs placebo.||1.10|0.41|0.1155
82570796|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.6|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.6|-0.6|
82382584|NCT01839708|164475508|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382585|NCT01839708|164475509|OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82382586|NCT01839708|164475510|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382587|NCT01839708|164475511|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382588|NCT01839708|164475512|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382589|NCT01839708|164475513|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382590|NCT01839708|164475514|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382591|NCT01839708|164475515|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82516626|NCT05799495|164726289|OTHER||LS Mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.2914||0.508|TWO_SIDED|80.0|-0.369|0.381|||Mixed Models Analysis|||Day 10||0.381|-0.369|0.5080
82516627|NCT05799495|164726289|OTHER||LS Mean difference|-0.214|STANDARD_ERROR_OF_MEAN|0.223||0.1692|TWO_SIDED|80.0|-0.501|0.073|||Mixed Models Analysis|||Day 10||0.073|-0.501|0.1692
82382592|NCT01839708|164475516|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382593|NCT01839708|164475517|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82382594|NCT01051960|164475523|OTHER|comparison of means|Mean Difference (Final Values)|-93.0||||0.0008|TWO_SIDED|||||significant at p\<0.05|t-test, 2 sided|||Whether change from baseline to 24-weeks is significantly different from zero||||.0008
82516628|NCT05799495|164726289|OTHER||LS Mean difference|-0.239|STANDARD_ERROR_OF_MEAN|0.2004||0.1172|TWO_SIDED|80.0|-0.497|0.019|||Mixed Models Analysis|||Day 14||0.019|-0.497|0.1172
82516629|NCT05799495|164726289|OTHER||LS Mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.2178||0.3979|TWO_SIDED|80.0|-0.337|0.224|||Mixed Models Analysis|||Day 14||0.224|-0.337|0.3979
82516630|NCT05799495|164726289|OTHER||LS Mean difference|-0.383|STANDARD_ERROR_OF_MEAN|0.1655||0.0109|TWO_SIDED|80.0|-0.595|-0.17|||Mixed Models Analysis|||Day 14||-0.170|-0.595|0.0109
82570797|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.7|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||0.5|-0.7|
82516631|NCT04102501|164726295|SUPERIORITY|||||||0.5858|||||||Mixed Models Analysis|||||||0.5858
82516632|NCT04102501|164726296|SUPERIORITY|||||||0.8061|||||||Mixed Models Analysis|||||||0.8061
82516633|NCT02371369|164726311|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
82570798|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.1|1.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||1.0|-0.1|
82382595|NCT01051960|164475524|OTHER||Mean Difference (Final Values)|44.5||||7e-05|TWO_SIDED||||||t-test, 2 sided|||change from baseline to 24 weeks||||0.00007
82382596|NCT04537078|164475538|OTHER||Median Difference (Final Values)|1.5||||0.254|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.254
82382597|NCT04537078|164475539|OTHER||Median Difference (Final Values)|9.48||||0.219|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.219
82382598|NCT04537078|164475540|OTHER||Median Difference (Final Values)|1.0||||0.269|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.269
82382599|NCT04537078|164475541|OTHER||Median Difference (Final Values)|0.0||||0.072|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.072
82382600|NCT04537078|164475542|OTHER|||||||1|||||||Fisher Exact|||||||1
82382601|NCT04537078|164475543|OTHER|||||||0.72|||||||Chi-squared|||||||0.720
82382602|NCT04537078|164475544|OTHER||Median Difference (Final Values)|2.0||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.002
82516634|NCT02371369|164726312|OTHER|Treatment comparison analysis||||||0.0043|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||0.0043
82516635|NCT02371369|164726313|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Fisher's Exact Test|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
82516636|NCT02371369|164726314|OTHER|Treatment comparison analysis||||||0.0019|||||||Mixed effects model for repeated measure|||Treatment comparison between pexidartinib and placebo groups at Week 25||||0.0019
82516637|NCT02371369|164726315|OTHER|Treatment comparison analysis|||||<|0.0001|||||||Mixed effects model for repeated measure|||Treatment comparison between the pexidartinib and placebo groups at Week 25||||<0.0001
82516638|NCT01587651|164726343|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was assessed using a 95% CI of the difference in mean PRU between ticagrelor and prasugrel (2 arms combined). Under the assumption of 0 difference in mean PRU between prasugrel 10 mg QD MD and ticagrelor 90 mg BID MD, a common SD of 60 PRU (based on previous DSI studies and published data), and a drop-out rate not exceeding 15%, a sample size of 105 allows for the 95% CI to stay within ± 45 PRU (non-inferiority margin) with a power of 90%.|Mean Difference (Final Values)|46.0|STANDARD_ERROR_OF_MEAN|10.66|||TWO_SIDED|95.0|24.9|67.2||||||ANCOVA model included treatment as a main effect and pre-randomization baseline PRU as a covariate. The combined prasugrel groups were modeled as a single treatment. If the upper limit of the CI for the mean difference was not greater than 45 PRU, then the PD response to prasugrel 10 mg QD MD was deemed noninferior to that achieved by ticagrelor 90 mg BID MD.||67.2|24.9|
82516639|NCT00358735|164726353|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82516640|NCT00358735|164726354|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82516641|NCT00358735|164726355|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Chi-squared|||||||0.0004
82516642|NCT00358735|164726357|SUPERIORITY_OR_OTHER|||||||0.953|||||||Chi-squared|||||||0.953
82516643|NCT00358735|164726358|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.050
82516644|NCT00358735|164726359|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
82516645|NCT00358735|164726360|SUPERIORITY_OR_OTHER|||||||0.507|||||||Chi-squared|||||||0.507
82570799|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.2|0.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||0.6|-0.2|
82382603|NCT04537078|164475545|OTHER||Median Difference (Final Values)|600.0||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
82382604|NCT04537078|164475546|OTHER||Median Difference (Final Values)|2.0||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82382605|NCT04537078|164475547|OTHER||Median Difference (Final Values)|33.33||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82516646|NCT00358735|164726361|SUPERIORITY_OR_OTHER|||||||0.052|||||||Chi-squared|||||||0.052
82516647|NCT00358735|164726362|SUPERIORITY_OR_OTHER|||||||0.798|||||||Chi-squared|||||||0.798
82516648|NCT00358735|164726363|SUPERIORITY_OR_OTHER|||||||0.036|||||||Chi-squared|||||||0.036
82516649|NCT03191903|164726374|SUPERIORITY|||||||0.5874|||||||ANOVA|||||||0.5874
82570800|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.8|0.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.7|-0.8|
82516650|NCT03191903|164726375|SUPERIORITY|||||||0.0829|||||||ANOVA|||||||0.0829
82516651|NCT03191903|164726376|SUPERIORITY|||||||0.4673|||||||ANOVA|||||||0.4673
82382606|NCT04537078|164475548|OTHER||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82516652|NCT03191903|164726377|SUPERIORITY|||||||0.9408|||||||ANOVA|||||||0.9408
82516653|NCT03191903|164726378|SUPERIORITY|||||||0.777|||||||ANOVA|||||||0.7770
82516654|NCT03191903|164726379|SUPERIORITY|||||||0.759|||||||ANOVA|||||||0.7590
82516655|NCT03191903|164726380|SUPERIORITY|||||||0.8309|||||||ANOVA|||||||0.8309
82570801|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.7|0.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||0.8|-0.7|
82382607|NCT04537078|164475549|OTHER||Median Difference (Final Values)|0.0||||0.851|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.851
82382608|NCT04537078|164475550|OTHER||Median Difference (Final Values)|25.0||||0.304|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.304
82382609|NCT04537078|164475551|OTHER||Median Difference (Final Values)|1.0||||0.486|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.486
82382610|NCT01256450|164475584|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.587|TWO_SIDED|95.0|-0.646|0.366|||ANCOVA|||||0.366|-0.646|.5870
82382611|NCT01704495|164475594|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.56||||0.119|TWO_SIDED|90.0|0.98|2.49||2-sided p-value|Poisson regression|Correction for overdispersion made by Pearson chi-square|AZD5069 45 mg BID vs Placebo|||2.49|0.98|0.119
82382612|NCT01704495|164475594|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.53||||0.141|TWO_SIDED|90.0|0.95|2.46||2-sided|Poisson Regression|Correction for overdispersion made by Pearson chi-square|AZD5069 15 mg BID vs Placebo|||2.46|0.95|0.141
82516656|NCT03191903|164726381|SUPERIORITY|||||||0.6215|||||||ANOVA|||||||0.6215
82516657|NCT03191903|164726382|SUPERIORITY|||||||0.216|||||||ANOVA|||||||0.2160
82516658|NCT03191903|164726383|SUPERIORITY|||||||0.7026|||||||ANOVA|||||||0.7026
82516659|NCT03191903|164726384|SUPERIORITY|||||||0.0438|||||||ANOVA|||||||0.0438
82516660|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.541|STANDARD_ERROR_OF_MEAN|0.156||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Anxiety||||0.001
82516661|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.161||0.356|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count; a=0.05|Mixed Models Analysis|||Cough or Shortness of Breath||||0.356
82516662|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.163||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Depression||||0.001
82516663|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.141||0.962|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Diarrhea||||0.962
82516664|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.162||0.651|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Difficulty falling or staying asleep||||0.651
82516665|NCT02897141|164726415|SUPERIORITY|Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.145||0.23|TWO_SIDED||||||Mixed Models Analysis|||Difficulty remembering||||0.230
82382613|NCT01704495|164475594|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29||||0.397|TWO_SIDED|90.0|0.79|2.11||2-sided|Poisson Regression|Correction for overdispersion made by Pearson chi-square|AZD5069 5 mg BID vs Placebo|||2.11|0.79|0.397
82382614|NCT01787292|164475642|SUPERIORITY|||||||0.001||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|Least square means were adjusted for carryover from the crossover design and between subjects effects were analyzed using Kenward-Roger df estimation||||||.001
82516666|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|0.126||0.275|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Dizziness||||0.275
82516667|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.175||0.987|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fatigue||||0.987
82382615|NCT01787292|164475643|SUPERIORITY|||||||0.8|||||||ANCOVA|||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.||||.8
82382616|NCT01787292|164475644|SUPERIORITY|||||||0.05||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|||||||.05
82516668|NCT02897141|164726415|SUPERIORITY||Mean Difference (Net)|-0.275|STANDARD_ERROR_OF_MEAN|0.132||0.037|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fever, chills, sweats||||0.037
82516669|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.101||0.534|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Nausea or vomiting||||0.534
82516670|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.485|STANDARD_ERROR_OF_MEAN|0.157||0.002|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Neuropathy||||0.002
82570802|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-1.6|0.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||-0.0|-1.6|
82516671|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.139||0.349|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Skin problems||||0.349
82516672|NCT02897141|164726415|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.107||0.02|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Weight loss or wasting||||0.020
82516673|NCT02897141|164726416|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|7.27||0.001|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Physical functioning scale||||0.001
82516674|NCT02897141|164726416|SUPERIORITY|\[Not specified\]|Median Difference (Final Values)|7.47|STANDARD_ERROR_OF_MEAN|10.02||0.458|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Role limitations due to physical health scale||||0.458
82516675|NCT02897141|164726416|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|9.91||0.725|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Role limitations due to emotional problems scale||||0.725
82516676|NCT02897141|164726416|SUPERIORITY|\[Not specified\]|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.09||0.807|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|\[Not specified\]|\[Not specified\]|Energy/fatigue scale|\[Not specified\]|||0.807
82516677|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|3.73||0.693|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Emotional well-being scale||||0.693
82382617|NCT01787292|164475645|SUPERIORITY|||||||0.05||||||To account for sequence carryover, we employed analysis of covariance inclusive of sequence by period covariates against treatment effects.|ANCOVA|A Kenward-Rogers adjustment for degrees of freedom was made to account for carryover effects.||||||.05
82382618|NCT01787292|164475646|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82382619|NCT01787292|164475647|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82382620|NCT01787292|164475648|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82382621|NCT01787292|164475649|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||.5
82382622|NCT01787292|164475650|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|A Kenward-Rogers adjustment for df was made to account for carryover effects.||||||.6
82382623|NCT01787292|164475651|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||.4
82382624|NCT01787292|164475652|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
82516678|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|-8.93|STANDARD_ERROR_OF_MEAN|5.8||0.128|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Social functioning scale||||0.128
82516679|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|-14.33|STANDARD_ERROR_OF_MEAN|5.18||0.007|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Pain scale||||0.007
82382625|NCT01787292|164475653|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||.25
82516680|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|3.93||0.96|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||General health scale||||0.960
82516681|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|4.47||0.836|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Physical health summary scale||||0.836
82382626|NCT01787292|164475654|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82516682|NCT02897141|164726416|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|3.6||0.822|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Mental health summary scale||||0.822
82570803|NCT01568112|164852176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.2|0.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||0.5|-1.2|
82516683|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.25||0.529|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Physical Function||||0.529
82516684|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|1.71|STANDARD_ERROR_OF_MEAN|1.68||0.312|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Anxiety||||0.312
82516685|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|1.81||0.841|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Depression||||0.841
82516686|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.07||0.848|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Fatigue||||0.848
82516687|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|2.03||0.208|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Sleep Disturbance||||0.208
82516688|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|2.29||0.754|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Satisfaction with participation in social roles||||0.754
82516689|NCT02897141|164726417|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|1.66||0.454|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Pain interference||||0.454
82516690|NCT02897141|164726418|SUPERIORITY||Mean Difference (Final Values)|-2.52|STANDARD_ERROR_OF_MEAN|2.19||0.252|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||||||0.252
82516691|NCT02897141|164726419|SUPERIORITY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|0.62||0.017|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||CASE adherence index||||0.017
82516692|NCT02897141|164726419|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|5.06||0.338|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Visual analogue scale||||0.338
82516693|NCT02897141|164726420|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.743|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Overall||||0.743
82516694|NCT02897141|164726420|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.2||0.166|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Quality of life||||0.166
82516695|NCT02897141|164726420|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.26||0.899|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Perceived usefulness||||0.899
82516696|NCT02897141|164726420|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.26||0.803|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||Perceived ease of use||||0.803
82570804|NCT01568112|164852177|SUPERIORITY_OR_OTHER||Difference in percentage|9.0|||||TWO_SIDED|95.0|-11.8|30.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||30.0|-11.8|
82516697|NCT02897141|164726420|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.48|TWO_SIDED|||||Model controlled for age, sex, race, education, and CD4 count ; a=0.05|Mixed Models Analysis|||User Control||||0.480
82516698|NCT03283670|164726423|SUPERIORITY||Mean Difference (Net)|-0.75||||0.55|TWO_SIDED||||||t-test, 2 sided|||HAMD-21 at 2 Hours, placebo vs 25% nitrous oxide||||0.55
82516699|NCT03283670|164726423|SUPERIORITY||Mean Difference (Net)|-1.4||||0.47|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21, 25% nitrous oxide vs placebo at 24 hours||||0.47
82516700|NCT03283670|164726423|SUPERIORITY||Median Difference (Net)|-0.87||||0.49|TWO_SIDED||||||t-test, 2 sided|||HAMD-21 at 2 Hours, placebo vs 50% nitrous oxide||||0.49
82516701|NCT03283670|164726423|SUPERIORITY||Mean Difference (Net)|-1.9||||0.34|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 24 hours, placebo vs 50% nitrous oxide||||0.34
82516702|NCT03283670|164726423|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.94|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 2 hours, 25% nitrous oxide vs 50% nitrous oxide||||0.94
82516703|NCT03283670|164726423|SUPERIORITY||Mean Difference (Net)|-0.5||||0.8|TWO_SIDED||||||t-test, 2 sided|||Change in HAMD-21 at 24 hours, 25% nitrous oxide vs 50% nitrous oxide||||0.80
82516704|NCT00612313|164726426|SUPERIORITY_OR_OTHER||Difference in percentages|9.7||||0.02|TWO_SIDED|||||The estimated rate of time spent well was evaluated using a Poisson regression with adjustment for CDRS-R score at the end of the acute phase, age group, and gender.|Regression, Poisson||Differencein percentages represents estimated percentage for medication management + CBT Arm minus estimated percentage for medication management only Arm.|||||.02
82516705|NCT00746954|164726490|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANOVA|||Comparisons among groups||||0.45
82516706|NCT02041195|164726509|OTHER||Least Squares (LS) Mean Difference|-4.26||||0.004|TWO_SIDED|90.0|-6.81|-1.72||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.72|-6.81|0.004
82516707|NCT02041195|164726509|OTHER||LS Mean difference|-3.63||||0.012|TWO_SIDED|90.0|-6.23|-1.03|||Longitudinal mixed analysis of variance|One-sided p-value.|A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.03|-6.23|0.012
82570805|NCT01568112|164852177|SUPERIORITY_OR_OTHER||Difference in percentage|9.0|||||TWO_SIDED|95.0|-11.8|30.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||30.0|-11.8|
82382627|NCT05691712|164475664|SUPERIORITY||LS Mean Difference|-16.1|||<|0.001|TWO_SIDED|95.0|-19.9|-12.36|||Mixed Models Analysis|||||-12.36|-19.9|<0.001
82516708|NCT02041195|164726511|OTHER||LS Mean Difference|-3.57|||<|0.001|TWO_SIDED|90.0|-5.24|-1.89||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.89|-5.24|<0.001
82516709|NCT02041195|164726513|OTHER||LS Mean Difference|-2.22||||0.002|TWO_SIDED|90.0|-3.44|-1.0|||Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, timepoint, treatment-by-timepoint, baseline weight as covariate, and participant as random effect was used.|||-1.00|-3.44|0.002
82382628|NCT05691712|164475664|SUPERIORITY||LS Mean Difference|-15.9|||<|0.001|TWO_SIDED|95.0|-19.7|-12.1|||Mixed Models Analysis|||||-12.10|-19.7|<0.001
82516710|NCT00674986|164726530|SUPERIORITY_OR_OTHER||Difference|0.28|STANDARD_ERROR_OF_MEAN|0.14||0.0416|TWO_SIDED|95.0|0.01|0.54|||Fisher Exact|||||0.54|0.01|0.0416
82516711|NCT00674986|164726531|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82382629|NCT05691712|164475665|SUPERIORITY||LS Mean Difference|-13.06|||<|0.001|TWO_SIDED|95.0|-16.8|-9.34|||Mixed Models Analysis|||||-9.34|-16.8|<0.001
82382630|NCT05691712|164475666|SUPERIORITY||LS Mean Difference|-4.4|||<|0.001|TWO_SIDED|95.0|-5.8|-2.9|||Mixed Models Analysis|||||-2.9|-5.8|<0.001
82382631|NCT05691712|164475666|SUPERIORITY||LS Mean Difference|-6.5|||<|0.001|TWO_SIDED|95.0|-8.0|-5.0|||Mixed Models Analysis|||||-5.0|-8.0|<0.001
82382632|NCT05691712|164475666|SUPERIORITY||LS Mean Difference|-6.0|||<|0.001|TWO_SIDED|95.0|-7.5|-4.5|||Mixed Models Analysis|||||-4.5|-7.5|<0.001
82516712|NCT00674986|164726532|SUPERIORITY_OR_OTHER|||||||0.2777||95.0|||||t-test, 2 sided|||||||0.2777
82516713|NCT00674986|164726533|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||t-test, 2 sided|||||||0.1160
82516714|NCT00674986|164726534|SUPERIORITY_OR_OTHER|||||||0.1146||95.0|||||t-test, 2 sided|||||||0.1146
82516715|NCT00674986|164726535|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|||||||0.0470
82516716|NCT00674986|164726536|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
82516717|NCT01880424|164726538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.001||95.0|1.21|2.09||Statistical significance (p\<0.05) was required in both co-primary efficacy parameters to meet the primary efficacy objective; both p-values met this criterion.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for geographic region|Odds ratio for response rate (linaclotide : placebo)|Null Hypothesis: There is no difference between the linaclotide dose and placebo in the proportion of 12-week Abdominal Pain/Abdominal Discomfort Responders or there is no difference in the proportion of 12-week IBS Degree of Relief Responders. With 800 planned patients, the statistical power was expected to be approximately 95%, with an overall type I error rate controlled at the 0.05 level (2-sided), based on assumptions from NCT00948818 (LIN-MD-31) study data.||2.09|1.21|0.0010
82516718|NCT01880424|164726539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56|||<|0.0001||95.0|1.83|3.58||Statistical significance (p\<0.05) was required in both co-primary efficacy parameters to meet the primary efficacy objective; both p-values met this criterion.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for geographic region|Odds ratio for response rate (linaclotide : placebo)|Null Hypothesis: There is no difference between the linaclotide dose and placebo in the proportion of 12-week Abdominal Pain/Abdominal Discomfort Responders or there is no difference in the proportion of 12-week IBS Degree of Relief Responders. With 800 planned patients, the statistical power was expected to be approximately 95%, with an overall type I error rate controlled at the 0.05 level (2-sided), based on assumptions from NCT00948818 (LIN-MD-31) study data.||3.58|1.83|<0.0001
82516719|NCT00996996|164726561|SUPERIORITY_OR_OTHER||Percentage of participants|95.0|||||TWO_SIDED|95.0|90.0|100.0|||||The estimated value represents the percentage of participants with a confirmed response.|||100|90|
82516720|NCT00996996|164726562|SUPERIORITY_OR_OTHER||Percentage of participants|97.0|||||TWO_SIDED|95.0|94.0|100.0|||||The estimated value represents the percentage of participants with a response.|||100|94|
82382633|NCT05691712|164475668|SUPERIORITY||LS Mean Difference|-21.9|||<|0.001|TWO_SIDED|95.0|-32.4|-11.3|||Mixed Models Analysis|||||-11.3|-32.4|<0.001
82516721|NCT00996996|164726563|SUPERIORITY_OR_OTHER||Percentage of participants|70.0|||||TWO_SIDED|95.0|59.0|80.0|||||The estimated value represents the percentage of participants with a confirmed CR.|||80|59|
82516722|NCT00996996|164726563|SUPERIORITY_OR_OTHER||Percentage of participants|3.0|||||TWO_SIDED|95.0|0.0|6.0|||||The estimated value represents the percentage of participants with a confirmed CCR.|||6|0|
82516723|NCT00996996|164726563|SUPERIORITY_OR_OTHER||Percentage of participants|75.0|||||TWO_SIDED|95.0|65.0|85.0|||||The estimated value represents the percentage of participants with confirmed CR + confirmed CCR.|||85|65|
82516724|NCT00996996|164726563|SUPERIORITY_OR_OTHER||Percentage of participants|17.0|||||TWO_SIDED|95.0|9.0|26.0|||||The estimated value represents the percentage of participants with a confirmed PR.|||26|9|
82516725|NCT00996996|164726564|SUPERIORITY_OR_OTHER||Percentage of participants|74.0|||||TWO_SIDED|95.0|64.0|84.0|||||The estimated value represents the percentage of participants with a CR.|||84|64|
82516726|NCT00996996|164726564|SUPERIORITY_OR_OTHER||Percentage of participants|4.0|||||TWO_SIDED|95.0|0.0|8.0|||||The estimated value represents the percentage of participants with a CCR.|||8|0|
82516727|NCT00996996|164726564|SUPERIORITY_OR_OTHER||Percentage of participants|78.0|||||TWO_SIDED|95.0|68.0|87.0|||||The estimated value represents the percentage of participants with a CR + CCR.|||87|68|
82516728|NCT00996996|164726564|SUPERIORITY_OR_OTHER||Percentage of participants|20.0|||||TWO_SIDED|95.0|11.0|29.0|||||The estimated value represents the percentage of participants with a PR.|||29|11|
82516729|NCT00760929|164726591|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4301||90.0|0.58|1.21|||Wald Test|||||1.21|0.58|0.4301
82516730|NCT00760929|164726591|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.0342||90.0|0.42|0.9|||Wald Test|||||0.90|0.42|0.0342
82516731|NCT02099838|164726595|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
82516732|NCT02099838|164726595|SUPERIORITY_OR_OTHER|||||||0.065||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0650
82570806|NCT01568112|164852178|SUPERIORITY_OR_OTHER||Difference in percentage|2.0|||||TWO_SIDED|95.0|-18.8|23.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||23.3|-18.8|
82516733|NCT02099838|164726595|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HbA1c between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0005
82516734|NCT02099838|164726596|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
82516735|NCT02099838|164726596|SUPERIORITY_OR_OTHER|||||||0.0849||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0849
82516736|NCT02099838|164726596|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of FPG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0005
82382634|NCT05691712|164475668|SUPERIORITY||LS Mean Difference|-28.9|||<|0.001|TWO_SIDED|95.0|-39.6|-18.1|||Mixed Models Analysis|||||-18.1|-39.6|<0.001
82382635|NCT05691712|164475668|SUPERIORITY||LS Mean Difference|-27.3|||<|0.001|TWO_SIDED|95.0|-38.2|-16.5|||Mixed Models Analysis|||||-16.5|-38.2|<0.001
82570807|NCT01568112|164852178|SUPERIORITY_OR_OTHER||Difference in percentage|6.0|||||TWO_SIDED|95.0|-14.1|27.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||27.8|-14.1|
82382636|NCT03296527|164475704|NON_INFERIORITY|If the lower-limit of the two-sided 95% confidence interval (CI) was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected. In that case, it would be claimed that FE 999049 was non-inferior to GONAL-F with respect to ongoing pregnancy rate in women undergoing controlled ovarian stimulation.|Risk Difference (RD)|5.4|||||TWO_SIDED|95.0|-0.2|11.0|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with ongoing pregnancy rate||11.0|-0.2|
82382637|NCT03296527|164475705|OTHER||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|0.3|12.3|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with positive beta-hCG||12.3|0.3|
82382638|NCT03296527|164475706|OTHER||Risk Difference (RD)|4.9|||||TWO_SIDED|95.0|-0.9|10.7|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with at least one gestational sac 5-6 weeks after transfer||10.7|-0.9|
82382639|NCT03296527|164475707|OTHER||Risk Difference (RD)|4.2|||||TWO_SIDED|95.0|-1.5|9.8|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with at least one intrauterine gestational sac with fetal heart beat 5-6 weeks after transfer||9.8|-1.5|
82382640|NCT03296527|164475708|OTHER||Risk Difference (RD)|3.9|||||TWO_SIDED|95.0|-1.6|9.5|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of implanted embryos 5-6 weeks after transfer||9.5|-1.6|
82382641|NCT03296527|164475709|OTHER||Risk Difference (RD)|4.4|||||TWO_SIDED|95.0|-0.9|9.7|||||The difference (FE 999049 - GONAL-F) in rates was estimated and a two-sided 95% Cl was constructed using the Mantel-Haenszel method to combine results across age strata.|Percentage of participants with ongoing implantation rate||9.7|-0.9|
82382642|NCT03296527|164475710|SUPERIORITY|Logistic regression including AMH group as a factor.|Odds Ratio (OR)|0.79||||0.083|TWO_SIDED|95.0|0.6|1.03||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with \<4 or \>=15 oocytes retrieved||1.03|0.60|0.083
82382643|NCT03296527|164475710|OTHER|Logistic regression including AMH group as a factor.|Odds Ratio (OR)|0.89||||0.489|TWO_SIDED|95.0|0.65|1.23||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with \<4 or \>=20 oocytes retrieved||1.23|0.65|0.489
82382644|NCT03296527|164475711|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.6||||0.075|TWO_SIDED|95.0|0.34|1.06||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (any grade)||1.06|0.34|0.075
82382645|NCT03296527|164475711|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.75||||0.365|TWO_SIDED|95.0|0.4|1.4||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (moderate/severe)||1.40|0.40|0.365
82382646|NCT03296527|164475711|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.33||||0.012|TWO_SIDED|95.0|0.13|0.83||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with any preventive intervention||0.83|0.13|0.012
82382647|NCT03296527|164475711|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.49||||0.004|TWO_SIDED|95.0|0.3|0.81||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (any grade) and/or preventive interventions||0.81|0.30|0.004
82382648|NCT03296527|164475711|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.56||||0.029|TWO_SIDED|95.0|0.33|0.95|||Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with early OHSS (moderate/severe) and/or preventive interventions||0.95|0.33|0.029
82382649|NCT03296527|164475712|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.52|13.74||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with cycle cancellation due to poor response||13.74|1.52|0.002
82636075|NCT02194699|164986750|SUPERIORITY||LS Mean difference|-0.95||||0.036|TWO_SIDED|95.0|-1.85|-0.06|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in rescue medication use at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||-0.06|-1.85|0.0360
82636076|NCT02194699|164986750|SUPERIORITY||LS Mean difference|0.15||||0.5864|TWO_SIDED|95.0|-0.4|0.7|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in rescue medication use at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||0.70|-0.40|0.5864
82636077|NCT02194699|164986750|SUPERIORITY||LS Mean difference|-0.17||||0.4689|TWO_SIDED|95.0|-0.63|0.29|||Repeated measures analysis||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.29|-0.63|0.4689
82636078|NCT02194699|164986751|SUPERIORITY||LS Mean difference|6.15||||0.5094|TWO_SIDED|95.0|-12.13|24.43|||Repeated measures analysis||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||24.43|-12.13|0.5094
82636079|NCT02194699|164986751|SUPERIORITY||LS Mean difference|3.02||||0.5984|TWO_SIDED|95.0|-8.22|14.26|||Repeated measures analysis||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||14.26|-8.22|0.5984
82636080|NCT02194699|164986751|SUPERIORITY||LS Mean difference|7.84||||0.3971|TWO_SIDED|95.0|-10.32|26.0|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||26.00|-10.32|0.3971
82636081|NCT02194699|164986751|SUPERIORITY||LS Mean difference|3.59||||0.531|TWO_SIDED|95.0|-7.65|14.83|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||14.83|-7.65|0.5310
82382650|NCT03296527|164475712|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.24|0.62||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with transfer cancellation due to excessive ovarian response/OHSS risk||0.62|0.24|<0.001
82516737|NCT02099838|164726597|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
82516738|NCT02099838|164726597|SUPERIORITY_OR_OTHER|||||||0.2428||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.2428
82382651|NCT03296527|164475712|OTHER|Treatment groups were compared using a logistic regression model including age stratum as factor.|Odds Ratio (OR)|0.62||||0.02|TWO_SIDED|95.0|0.42|0.93||The p-value is based on the likelihood ratio test.|Regression, Logistic||Odds ratio is equal to FE 999049/GONAL-F.|Proportion of participants with cycle cancellation due to poor or excessive response, or transfer cancellation due to excessive response/OHSS risk||0.93|0.42|0.020
82382652|NCT03296527|164475713|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 10 mm||||<.001
82382653|NCT03296527|164475713|SUPERIORITY||||||<|0.001||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 12 mm||||<.001
82382654|NCT03296527|164475713|SUPERIORITY|||||||0.568||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 15 mm||||0.568
82382655|NCT03296527|164475713|SUPERIORITY|||||||0.839||||||2-sided|van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 17 mm||||0.839
82570808|NCT01568112|164852179|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-32.1|14.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||14.3|-32.1|
82382656|NCT03296527|164475714|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 10 mm||||<.001
82382657|NCT03296527|164475714|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 12 mm||||<.001
82382658|NCT03296527|164475714|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 15 mm||||<.001
82382659|NCT03296527|164475714|SUPERIORITY|||||||0.011|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of follicles \>= 17 mm||||0.011
82382660|NCT03296527|164475715|SUPERIORITY|||||||0.14|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Largest follicle (mm)||||0.140
82382661|NCT03296527|164475715|SUPERIORITY|||||||0.155|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average follicle size (mm)||||0.155
82382662|NCT03296527|164475715|SUPERIORITY|||||||0.159|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Treatment comparison: Average size of 3 largest follicles (mm)||||0.159
82516739|NCT02099838|164726597|SUPERIORITY_OR_OTHER|||||||0.0003||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2hPPG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0003
82382663|NCT03296527|164475716|SUPERIORITY|||||||0.848|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Largest follicle (mm)||||0.848
82382664|NCT03296527|164475716|SUPERIORITY|||||||0.629|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average follicle size (mm)||||0.629
82382665|NCT03296527|164475716|SUPERIORITY|||||||0.768|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Average size of 3 largest follicles (mm)||||0.768
82382666|NCT03296527|164475717|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Mean number of oocytes retrieved||||<.001
82382667|NCT03296527|164475719|SUPERIORITY|||||||0.197|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Percentage of MII oocytes / oocytes retrieved||||0.197
82382668|NCT03296527|164475720|SUPERIORITY|||||||0.79|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Fertilization rate relative to oocytes retrieved||||0.790
82382669|NCT03296527|164475721|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of embryos on day 3||||<.001
82516740|NCT02099838|164726598|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||<0.0001
82516741|NCT02099838|164726598|SUPERIORITY_OR_OTHER|||||||0.7353||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between before and after treatment in Placebo group.. The test was performed with a significance level of 0.05.||||0.7353
82516742|NCT02099838|164726598|SUPERIORITY_OR_OTHER|||||||0.0013||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of fasting insulin between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0013
82516743|NCT02099838|164726599|SUPERIORITY_OR_OTHER|||||||0.1147||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.1147
82570809|NCT01568112|164852179|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-25.0|21.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||21.7|-25.0|
82382670|NCT03296527|164475721|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value based on van Elteren test adjusted for age stratum.||Number of good-quality embryos on Day 3||||<.001
82382671|NCT03296527|164475722|SUPERIORITY||Mean ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.74|0.88||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of LH on stimulation Day 6||0.88|0.74|<0.001
82382672|NCT03296527|164475723|SUPERIORITY||Mean ratio|0.9||||0.018|TWO_SIDED|95.0|0.82|0.98||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.||Circulating concentrations of LH at end-of-stimulation||0.98|0.82|0.018
82382673|NCT03296527|164475724|SUPERIORITY||Mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.7|0.84||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Estradiol on stimulation Day 6||0.84|0.70|<0.001
82382674|NCT03296527|164475725|SUPERIORITY||Mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.81||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Estradiol at end-of-stimulation||0.81|0.68|<0.001
82382675|NCT03296527|164475726|SUPERIORITY||Mean Ratio|0.89||||0.003|TWO_SIDED|95.0|0.82|0.96||The p-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Progesterone on stimulation Day 6||0.96|0.82|0.003
82382676|NCT03296527|164475727|SUPERIORITY||Mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.79||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Progesterone at end-of-stimulation||0.79|0.68|<0.001
82382677|NCT03296527|164475728|SUPERIORITY||Mean ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.7|0.83||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.||Circulating concentrations of Inhibin A on stimulation Day 6||0.83|0.70|<0.001
82382678|NCT03296527|164475729|SUPERIORITY||Mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.83||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin A at end-of-stimulation||0.83|0.71|<0.001
82382679|NCT03296527|164475730|SUPERIORITY||Mean ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.77|0.89||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin B on stimulation Day 6||0.89|0.77|<0.001
82382680|NCT03296527|164475731|SUPERIORITY||Mean ratio|0.87||||0.001|TWO_SIDED|95.0|0.8|0.95||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of Inhibin B at end-of-stimulation||0.95|0.80|0.001
82516744|NCT02099838|164726599|SUPERIORITY_OR_OTHER|||||||0.4006||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.4006
82516745|NCT02099838|164726599|SUPERIORITY_OR_OTHER|||||||0.0614||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of 2-hour postprandial insulin between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0614
82570810|NCT01568112|164852186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|13.79|||TWO_SIDED|95.0|-20.9|34.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||34.1|-20.9|
82516746|NCT02099838|164726600|SUPERIORITY_OR_OTHER|||||||0.3795||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.3795
82570811|NCT01568112|164852186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|10.03|||TWO_SIDED|95.0|-14.2|25.7|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||25.7|-14.2|
82570812|NCT01568112|164852187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.2|STANDARD_ERROR_OF_MEAN|24.4|||TWO_SIDED|95.0|-26.5|70.9|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||70.9|-26.5|
82570813|NCT01568112|164852187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|11.08|||TWO_SIDED|95.0|-20.5|23.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||23.6|-20.5|
82570814|NCT01568112|164852188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.5|STANDARD_ERROR_OF_MEAN|13.32|||TWO_SIDED|95.0|-9.2|44.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||44.2|-9.2|
82570815|NCT01568112|164852188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|8.8|||TWO_SIDED|95.0|-17.2|18.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|||18.0|-17.2|
82570816|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.96|STANDARD_ERROR_OF_MEAN|4.601|||TWO_SIDED|95.0|-6.34|12.26|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||12.26|-6.34|
82382681|NCT03296527|164475732|SUPERIORITY||Mean ratio|1.08|||<|0.001|TWO_SIDED|95.0|1.04|1.12||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH on stimulation Day 6||1.12|1.04|<0.001
82382682|NCT03296527|164475733|SUPERIORITY||Mean ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.89|0.95||The p-value corresponds to F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH at end-of-stimulation||0.95|0.89|<0.001
82382683|NCT03296527|164475734|SUPERIORITY||Mean ratio|1.03||||0.184|TWO_SIDED|95.0|0.99|1.07||The p-value corresponds to the two-sided F-test of treatment effect.|ANCOVA|The multiplicative ANCOVA model included treatment and age stratum as fixed factors.|Mean ratio is equal to FE 999049/GONAL-F.|Circulating concentrations of FSH at oocyte retrieval visit||1.07|0.99|0.184
82382684|NCT03296527|164475735|SUPERIORITY||||||<|0.001|||||||van Elteren test|p-value is based on van Elteren test adjusted for AMH group.||Total gonadotropin dose||||<.001
82570817|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|STANDARD_ERROR_OF_MEAN|2.347|||TWO_SIDED|95.0|-8.81|0.67|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.67|-8.81|
82570818|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.74|STANDARD_ERROR_OF_MEAN|7.335|||TWO_SIDED|95.0|-3.15|26.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||26.63|-3.15|
82570819|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|STANDARD_ERROR_OF_MEAN|2.321|||TWO_SIDED|95.0|-2.67|6.77|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||6.77|-2.67|
82570820|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.21|STANDARD_ERROR_OF_MEAN|7.812|||TWO_SIDED|95.0|-6.72|25.14|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||25.14|-6.72|
82570821|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|4.152|||TWO_SIDED|95.0|-11.31|5.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||5.63|-11.31|
82382685|NCT03296527|164475737|SUPERIORITY|Treatment groups were compared using the van Elteren test.||||||0.001|||||||van Elteren|p-value is based on van Elteren test adjusted for AMH group.||Number of stimulation days||||0.001
82570822|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|7.516|||TWO_SIDED|95.0|-18.36|12.19|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||12.19|-18.36|
82516747|NCT02099838|164726600|SUPERIORITY_OR_OTHER|||||||0.4236||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.4236
82516748|NCT02099838|164726600|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TC between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||1.0000
82516749|NCT02099838|164726601|SUPERIORITY_OR_OTHER|||||||0.3151||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.3151
82516750|NCT02099838|164726601|SUPERIORITY_OR_OTHER|||||||0.6963||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.6963
82516751|NCT02099838|164726601|SUPERIORITY_OR_OTHER|||||||0.3204||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TG between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.3204
82516752|NCT02099838|164726602|SUPERIORITY_OR_OTHER|||||||0.0038||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.0038
82516753|NCT02099838|164726602|SUPERIORITY_OR_OTHER|||||||0.3812||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.3812
82516754|NCT02099838|164726602|SUPERIORITY_OR_OTHER|||||||0.0108||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of HDL between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.0108
82516755|NCT02099838|164726603|SUPERIORITY_OR_OTHER|||||||0.5476||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.5476
82516756|NCT02099838|164726603|SUPERIORITY_OR_OTHER|||||||0.1248||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.1248
82516757|NCT02099838|164726603|SUPERIORITY_OR_OTHER|||||||0.362||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of LDL between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.3620
82516758|NCT02099838|164726604|SUPERIORITY_OR_OTHER|||||||0.5636||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.5636
82516759|NCT02099838|164726604|SUPERIORITY_OR_OTHER|||||||0.3681||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.3681
82516760|NCT02099838|164726604|SUPERIORITY_OR_OTHER|||||||0.2589||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of ALT between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.2589
82516761|NCT02099838|164726605|SUPERIORITY_OR_OTHER|||||||0.7972||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.7972
82516762|NCT02099838|164726605|SUPERIORITY_OR_OTHER|||||||0.7801||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.7801
82570823|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|7.141|||TWO_SIDED|95.0|-20.71|8.35|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||8.35|-20.71|
82570824|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.21|STANDARD_ERROR_OF_MEAN|5.292|||TWO_SIDED|95.0|-22.9|6.49|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||6.49|-22.90|
82516763|NCT02099838|164726605|SUPERIORITY_OR_OTHER|||||||0.8744||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of AST between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.8744
82516764|NCT02099838|164726606|SUPERIORITY_OR_OTHER|||||||0.8034||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.8034
82516765|NCT02099838|164726606|SUPERIORITY_OR_OTHER|||||||0.7675||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TBil between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.7675
82516766|NCT02099838|164726606|SUPERIORITY_OR_OTHER|||||||0.6918||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of TBil between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.6918
82382686|NCT03473184|164475765|OTHER|p-values are from an ANOVA of the average numerical score (sum of erythema and edema) at 24 and 48 hours post irradiation (Days 3 and 4) with effects of subject and treatment, using Fisher's least significant differences.||||||1|||||||ANOVA|||Irradiated vehicle and untreated irradiated sites versus irradiated diacerein site, and non-irradiated vehicle site versus non-irradiated diacerein site and untreated irradiated site versus irradiated vehicle site.||||1.0000
82382687|NCT03473184|164475765|OTHER|p-values are from an ANOVA of the average numerical score (sum of erythema and edema) at 24 and 48 hours post irradiation (Days 3 and 4) with effects of subject and treatment, using Fisher's least significant differences.||||||0.0008|||||||ANOVA|||Non-irradiated diacerein and vehicle sites versus irradiated diacerein site, and irradiated vehicle and untreated irradiated sites versus non-irradiated diacerein site, and non-irradiated vehicle site versus irradiated vehicle site, and untreated irradiated site versus non-irradiated vehicle site.||||0.0008
82516767|NCT02099838|164726607|SUPERIORITY_OR_OTHER|||||||0.0339||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Pioglitazone and Metformin group. The test was performed with a significance level of 0.05.||||0.0339
82382688|NCT02524847|164475766|OTHER||Overall response rate (%)|55.2|||<|0.001|TWO_SIDED|95.0|35.7|73.6|||t-test, 2 sided|2-sided p-value for testing the null hypothesis H0: Standard therapy has a CR+PR rate = 10% after 4 weeks, using the exact Binomial test.||||73.6|35.7|<.001
82382689|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|711.4||||0.0038|TWO_SIDED|95.0|292.5|1130.3|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, Least Squares Means (LSM), and Confidence Intervals (CI) were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1130.3|292.5|0.0038
82382690|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|1119.8|||<|0.0001|TWO_SIDED|95.0|858.9|1380.6|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1380.6|858.9|<0.0001
82516768|NCT02099838|164726607|SUPERIORITY_OR_OTHER|||||||0.0997||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between before and after treatment in Placebo group. The test was performed with a significance level of 0.05.||||0.0997
82570825|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.33|STANDARD_ERROR_OF_MEAN|6.536|||TWO_SIDED|95.0|-30.13|11.47|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||11.47|-30.13|
82636082|NCT02194699|164986751|SUPERIORITY||LS Mean difference|3.46||||0.4764|TWO_SIDED|95.0|-6.06|12.97|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|Comparison of mean change from baseline in morning PEF at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||12.97|-6.06|0.4764
82382691|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|780.0||||0.0523|TWO_SIDED|95.0|-8.5|1568.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1568.5|-8.5|0.0523
82516769|NCT02099838|164726607|SUPERIORITY_OR_OTHER|||||||0.5015||||||The a priori threshold for statistical significance is 0.05; the change was statistical significant with P-value less than 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of DBil between Pioglitazone and Metformin group and Placebo group. The test was performed with a significance level of 0.05.||||0.5015
82516770|NCT02731131|164726608|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
82516771|NCT02731131|164726610|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher Exact|||||||0.22
82516772|NCT02731131|164726611|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
82516773|NCT02731131|164726612|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.30
82516774|NCT02731131|164726613|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
82516775|NCT02509624|164726614|OTHER||%Geometric least-square mean(GLSM) ratio|105.08|||||TWO_SIDED|90.0|77.08|143.23||||||AUCinf of selonsertib||143.23|77.08|
82516776|NCT02509624|164726614|OTHER||% GLSM ratio|142.65|||||TWO_SIDED|90.0|120.52|168.84||||||AUCinf of selonsertib||168.84|120.52|
82516777|NCT02509624|164726614|OTHER||% GLSM ratio|110.55|||||TWO_SIDED|90.0|86.99|140.49||||||AUCinf of selonsertib||140.49|86.99|
82516778|NCT02509624|164726614|OTHER||% GLSM ratio|62.05|||||TWO_SIDED|90.0|43.84|87.81||||||AUCinf of GS-607509||87.81|43.84|
82516779|NCT02509624|164726614|OTHER||% GLSM ratio|66.44|||||TWO_SIDED|90.0|36.72|120.21||||||AUCinf of GS-607509||120.21|36.72|
82516780|NCT02509624|164726614|OTHER||% GLSM ratio|103.46|||||TWO_SIDED|90.0|51.75|206.83||||||AUCinf of GS-607509||206.83|51.75|
82516781|NCT02509624|164726615|OTHER||% GLSM ratio|99.87|||||TWO_SIDED|90.0|73.38|135.92||||||AUClast of selonsertib||135.92|73.38|
82516782|NCT02509624|164726615|OTHER||% GLSM ratio|141.75|||||TWO_SIDED|90.0|118.5|169.55||||||AUClast of selonsertib||169.55|118.50|
82516783|NCT02509624|164726615|OTHER||% GLSM ratio|112.24|||||TWO_SIDED|90.0|87.69|143.65||||||AUClast of selonsertib||143.65|87.69|
82516784|NCT02509624|164726615|OTHER||% GLSM ratio|61.2|||||TWO_SIDED|90.0|43.06|86.98||||||AUClast of GS-607509||86.98|43.06|
82516785|NCT02509624|164726615|OTHER||% GLSM ratio|61.07|||||TWO_SIDED|90.0|33.62|110.91||||||AUClast of GS-607509||110.91|33.62|
82516786|NCT02509624|164726615|OTHER||% GLSM ratio|96.13|||||TWO_SIDED|90.0|48.47|190.67||||||AUClast of GS-607509||190.67|48.47|
82516787|NCT02509624|164726616|OTHER||% GLSM ratio|88.68|||||TWO_SIDED|90.0|74.83|105.1||||||Cmax of selonsertib||105.10|74.83|
82516788|NCT02509624|164726616|OTHER||% GLSM ratio|91.16|||||TWO_SIDED|90.0|78.76|105.52||||||Cmax of selonsertib||105.52|78.76|
82516789|NCT02509624|164726616|OTHER||% GLSM ratio|100.19|||||TWO_SIDED|90.0|83.73|119.88||||||Cmax of selonsertib||119.88|83.73|
82516790|NCT02509624|164726616|OTHER||% GLSM ratio|71.44|||||TWO_SIDED|90.0|54.58|93.5||||||Cmax of GS-607509||93.50|54.58|
82516791|NCT02509624|164726616|OTHER||% GLSM ratio|46.92|||||TWO_SIDED|90.0|32.59|67.54||||||Cmax of GS-607509||67.54|32.59|
82516792|NCT02509624|164726616|OTHER||% GLSM ratio|93.93|||||TWO_SIDED|90.0|67.6|130.5||||||Cmax of GS-607509||130.50|67.60|
82516793|NCT01666002|164726651|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82516794|NCT01666002|164726652|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82516795|NCT03108924|164726665|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.53|1.13||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.13|0.53|
82516796|NCT03108924|164726668|OTHER||GMR|2.98|||||TWO_SIDED|90.0|2.01|4.41||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||4.41|2.01|
82516797|NCT03108924|164726668|OTHER||GMR|4.43|||||TWO_SIDED|95.0|2.82|6.96||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||6.96|2.82|
82516798|NCT03108924|164726668|OTHER||GMR|4.74|||||TWO_SIDED|90.0|2.95|7.59||||Categorical Analysis|GMR = GM for ESRD HD / GM for Healthy Controls|||7.59|2.95|
82516799|NCT03108924|164726670|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.54|1.08||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.08|0.54|
82516800|NCT03108924|164726673|OTHER||GMR|3.23|||||TWO_SIDED|90.0|2.01|5.2||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||5.20|2.01|
82516801|NCT03108924|164726673|OTHER||GMR|4.08|||||TWO_SIDED|90.0|2.49|6.7||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||6.70|2.49|
82516802|NCT03108924|164726673|OTHER||GMR|4.43|||||TWO_SIDED|90.0|2.65|7.39||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||7.39|2.65|
82516803|NCT03108924|164726675|OTHER||GMR|0.73|||||TWO_SIDED|90.0|0.52|1.03||||Categorical Analysis|GMR = GM for ESRD HD / GM for ESRD Non-HD|||1.03|0.52|
82516804|NCT03108924|164726678|OTHER||GMR|2.09|||||TWO_SIDED|90.0|1.22|3.56||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||3.56|1.22|
82516805|NCT03108924|164726678|OTHER||GMR|1.89|||||TWO_SIDED|95.0|1.1|3.25||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||3.25|1.10|
82516806|NCT03108924|164726678|OTHER||GMR|1.9|||||TWO_SIDED|90.0|1.13|3.19||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||3.19|1.13|
82516807|NCT03108924|164726680|OTHER||GMR|1.3|||||TWO_SIDED|90.0|0.88|1.9||||Categorical Analysis|GMR = GM for ESRD / GM for ESRD Non-HD|||1.90|0.88|
82516808|NCT03108924|164726683|OTHER||GMR|0.34|||||TWO_SIDED|95.0|0.23|0.5||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||0.50|0.23|
82516809|NCT03108924|164726683|OTHER||GMR|0.23|||||TWO_SIDED|95.0|0.14|0.35||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||0.35|0.14|
82516810|NCT03108924|164726683|OTHER||GMR|0.21|||||TWO_SIDED|95.0|0.13|0.34||||Categorical Analysis|GMR = GM for ESRD Non-HD / GM for Healthy Controls|||0.34|0.13|
82516811|NCT03108924|164726685|OTHER||GMR|0.31|||||TWO_SIDED|90.0|0.25|0.39||||Categorical Analysis|GMR = GM for Moderate RI / GM for Healthy Controls|||0.39|0.25|
82516812|NCT03108924|164726685|OTHER||GMR|0.1|||||TWO_SIDED|90.0|0.07|0.16||||Categorical Analysis|GMR = GM for Severe RI / GM for Healthy Controls|||0.16|0.07|
82382692|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|1775.1|||<|0.0001|TWO_SIDED|95.0|1392.3|2158.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||2158.0|1392.3|<0.0001
82516813|NCT02265705|164726694|SUPERIORITY||Odds Ratio (OR)|4.1||||0.001|TWO_SIDED|95.0|2.5|6.9|||Regression, Logistic|||||6.9|2.5|0.001
82516814|NCT02265705|164726695|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.056||0.001|TWO_SIDED|95.0|-0.31|-0.09|||ANCOVA|||||-0.09|-0.31|0.001
82516815|NCT02265705|164726696|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.116||0.001|TWO_SIDED|95.0|-1.25|-0.79|||ANCOVA|||||-0.79|-1.25|0.001
82516816|NCT02265705|164726697|SUPERIORITY||Difference in response rate|1.4|||||TWO_SIDED|95.0|-0.5|3.3||||||||3.3|-0.5|
82516817|NCT02265705|164726698|SUPERIORITY||Median Difference (Final Values)|-12.9||||0.004|TWO_SIDED|95.0|-28.0|-2.9|||Wilcoxon (Mann-Whitney)|||||-2.9|-28.0|0.004
82516818|NCT02265705|164726699|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.2|-0.3|||ANCOVA|||||-0.3|-1.2|0.002
82516819|NCT02265705|164726700|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|0.001
82516820|NCT02265705|164726701|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|||||-0.5|-1.3|0.001
82516821|NCT00941603|164726737|SUPERIORITY_OR_OTHER||Difference in percent|-3.5||||0.06|TWO_SIDED|95.0|-7.2|0.2|||ANOVA|Least-square (LS) means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||0.2|-7.2|0.06
82516822|NCT00941603|164726737|SUPERIORITY_OR_OTHER||Difference in percent|-3.1||||0.1|TWO_SIDED|95.0|-6.7|0.6||LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.|ANOVA|||||0.6|-6.7|0.10
82516823|NCT00941603|164726737|SUPERIORITY_OR_OTHER||Difference in percent|-5.7|||<|0.01|TWO_SIDED|95.0|-9.4|-2.0|||ANOVA|||LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||-2.0|-9.4|<0.01
82516824|NCT00941603|164726737|SUPERIORITY_OR_OTHER||Difference in percent|-1.3||||0.48|TWO_SIDED|95.0|-5.0|2.4|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||2.4|-5.0|0.48
82516825|NCT00941603|164726737|SUPERIORITY_OR_OTHER||Difference in percent|-0.4||||0.85|TWO_SIDED|95.0|-4.0|3.3|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||3.3|-4.0|0.85
82516826|NCT00941603|164726738|SUPERIORITY_OR_OTHER||Difference in percent|-3.0||||0.09|TWO_SIDED|95.0|-6.5|0.4|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||0.4|-6.5|0.09
82516827|NCT00941603|164726738|SUPERIORITY_OR_OTHER||Difference in percent|-3.6||||0.04|TWO_SIDED|95.0|-7.1|-0.2|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||-0.2|-7.1|0.04
82516828|NCT00941603|164726738|SUPERIORITY_OR_OTHER||Difference in percent|-4.4||||0.01|TWO_SIDED|95.0|-7.9|-1.0|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||-1.0|-7.9|0.01
82516829|NCT00941603|164726738|SUPERIORITY_OR_OTHER||Difference in percent|-1.4||||0.41|TWO_SIDED|95.0|-4.9|2.0|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||2.0|-4.9|0.41
82516830|NCT00941603|164726738|SUPERIORITY_OR_OTHER||Difference in percent|0.7||||0.68|TWO_SIDED|95.0|-2.7|4.2|||ANOVA|LS means and LS standard errors based on ANOVA model extracting effects due to treatment, gender, and primary diagnosis.||||4.2|-2.7|0.68
82516831|NCT03029208|164726824|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|Least square (LS) mean difference|-0.1|||||TWO_SIDED|95.0|-0.34|0.14|||||An ANCOVA model including randomization stratification factors Baseline Hgb and treatment was performed to obtain a point estimate and two-sided 95% CI for the treatment difference (daprodustat-darbepoetin alfa).|||0.14|-0.34|
82570826|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.69|STANDARD_ERROR_OF_MEAN|8.376|||TWO_SIDED|95.0|-30.02|4.63|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||4.63|-30.02|
82570827|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|STANDARD_ERROR_OF_MEAN|8.654|||TWO_SIDED|95.0|-29.48|6.32|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||6.32|-29.48|
82570828|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|STANDARD_ERROR_OF_MEAN|10.274|||TWO_SIDED|95.0|-35.44|7.57|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||7.57|-35.44|
82570829|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.29|STANDARD_ERROR_OF_MEAN|12.369|||TWO_SIDED|95.0|-33.39|18.81|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||18.81|-33.39|
82570830|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|6.472|||TWO_SIDED|95.0|-20.4|5.93|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||5.93|-20.40|
82570831|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|60.33|STANDARD_ERROR_OF_MEAN|34.455|||TWO_SIDED|95.0|-10.78|131.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||131.4|-10.78|
82570832|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|59.87|STANDARD_ERROR_OF_MEAN|65.007|||TWO_SIDED|95.0|-71.51|191.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||191.2|-71.51|
82570833|NCT01568112|164852189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.78|STANDARD_ERROR_OF_MEAN|40.44|||TWO_SIDED|95.0|-27.09|136.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||136.6|-27.09|
82570834|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|5.281|||TWO_SIDED|95.0|-6.79|14.68|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||14.68|-6.79|
82570835|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|2.563|||TWO_SIDED|95.0|-9.57|0.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||0.83|-9.57|
82570836|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.51|STANDARD_ERROR_OF_MEAN|8.024|||TWO_SIDED|95.0|-2.84|29.86|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||29.86|-2.84|
82570837|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|STANDARD_ERROR_OF_MEAN|2.379|||TWO_SIDED|95.0|-2.41|7.29|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||7.29|-2.41|
82570838|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.84|STANDARD_ERROR_OF_MEAN|8.143|||TWO_SIDED|95.0|-5.81|27.5|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||27.50|-5.81|
82570839|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|4.671|||TWO_SIDED|95.0|-12.08|7.09|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||7.09|-12.08|
82570840|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|8.488|||TWO_SIDED|95.0|-19.03|15.64|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||15.64|-19.03|
82570841|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|STANDARD_ERROR_OF_MEAN|7.832|||TWO_SIDED|95.0|-23.93|8.11|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||8.11|-23.93|
82570842|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|4.811|||TWO_SIDED|95.0|-23.8|17.6|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||17.60|-23.80|
82570843|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|4.155|||TWO_SIDED|95.0|-22.75|13.0|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Vomiting||13.00|-22.75|
82570844|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.08|STANDARD_ERROR_OF_MEAN|16.243|||TWO_SIDED|95.0|-59.2|9.05|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||9.05|-59.20|
82570845|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.95|STANDARD_ERROR_OF_MEAN|14.83|||TWO_SIDED|95.0|-54.89|6.98|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||6.98|-54.89|
82570846|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.49|STANDARD_ERROR_OF_MEAN|10.847|||TWO_SIDED|95.0|-35.38|10.39|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||10.39|-35.38|
82570847|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|12.542|||TWO_SIDED|95.0|-32.79|20.13|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||20.13|-32.79|
82570848|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|6.442|||TWO_SIDED|95.0|-15.87|10.41|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||10.41|-15.87|
82570849|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.89|STANDARD_ERROR_OF_MEAN|50.239|||TWO_SIDED|95.0|-22.04|185.8|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||185.8|-22.04|
82570850|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.52|STANDARD_ERROR_OF_MEAN|32.896|||TWO_SIDED|95.0|-40.13|93.18|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||93.18|-40.13|
82570851|NCT01568112|164852190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.78|STANDARD_ERROR_OF_MEAN|41.055|||TWO_SIDED|95.0|-31.65|135.2|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||135.2|-31.65|
82570852|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|2.626|||TWO_SIDED|95.0|-7.35|3.99|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||3.99|-7.35|
82570853|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.18|||TWO_SIDED|95.0|-6.62|2.62|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Nausea||2.62|-6.62|
82570854|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|5.717|||TWO_SIDED|95.0|-11.64|12.49|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Diarrhea||12.49|-11.64|
82570855|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.48|STANDARD_ERROR_OF_MEAN|4.597|||TWO_SIDED|95.0|-14.11|5.14||||||Diarrhea||5.14|-14.11|
82570856|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.794|||TWO_SIDED|95.0|-1.1|2.57|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||2.57|-1.10|
82570857|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.775|||TWO_SIDED|95.0|-1.17|2.4|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Upper abdominal pain||2.40|-1.17|
82570858|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|1.705|||TWO_SIDED|95.0|-5.08|2.79|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||2.79|-5.08|
82570859|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.56|STANDARD_ERROR_OF_MEAN|27.886|||TWO_SIDED|95.0|-42.19|79.32|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Lower abdominal pain||79.32|-42.19|
82570860|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|2.801|||TWO_SIDED|95.0|-3.65|8.56|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||8.56|-3.65|
82570861|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.242|||TWO_SIDED|95.0|-3.71|1.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Indigestion||1.83|-3.71|
82570862|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.83|STANDARD_ERROR_OF_MEAN|19.649|||TWO_SIDED|95.0|-48.73|60.38|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||60.38|-48.73|
82570863|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|11.219|||TWO_SIDED|95.0|-28.38|33.91|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Constipation||33.91|-28.38|
82570864|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.36|STANDARD_ERROR_OF_MEAN|9.811|||TWO_SIDED|95.0|-35.56|6.83|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||6.83|-35.56|
82570865|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.12|STANDARD_ERROR_OF_MEAN|41.961|||TWO_SIDED|95.0|-22.88|157.1|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Bloating||157.1|-22.88|
82570866|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|98.65|STANDARD_ERROR_OF_MEAN|74.566|||TWO_SIDED|95.0|-58.01|255.3|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||255.3|-58.01|
82570867|NCT01568112|164852191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.27|STANDARD_ERROR_OF_MEAN|7.928|||TWO_SIDED|95.0|-5.22|27.76|||||Reference arm is BG00012 240 mg BID; negative values means reduced side effect.|Flatulence||27.76|-5.22|
82570868|NCT00497874|164852210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.003||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(145) = 2.8||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, the t-test-and the results pooled.||||.003
82570869|NCT00497874|164852211|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.002||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(181) = 2.9||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.002
82636083|NCT02194699|164986751|SUPERIORITY||LS Mean difference|3.88||||0.4221|TWO_SIDED|95.0|-5.6|13.37|||Repeated measures analysis||Model included fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as fixed covariate.|Comparison of mean change from baseline in evening PEF at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||13.37|-5.60|0.4221
82516832|NCT03029208|164726825|SUPERIORITY||LS mean difference|19.4||||0.8949|TWO_SIDED|95.0|-11.0|49.9|||ANCOVA||An ANCOVA model was used to compare the difference in this average monthly IV iron dose between arms, including factors for Baseline dose, treatment and the randomization stratification factors.|||49.9|-11.0|0.8949
82516833|NCT03029208|164726826|SUPERIORITY||LS mean difference|3.23||||0.8168|TWO_SIDED|95.0|-3.82|10.27|||Mixed model repeated measures (MMRM)||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||10.27|-3.82|0.8168
82516834|NCT03029208|164726826|SUPERIORITY||LS mean difference|4.21||||0.9793|TWO_SIDED|95.0|0.17|8.26|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||8.26|0.17|0.9793
82516835|NCT03029208|164726826|SUPERIORITY||LS mean difference|4.1||||0.9597|TWO_SIDED|95.0|-0.51|8.7|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||8.70|-0.51|0.9597
82516836|NCT03029208|164726827|SUPERIORITY||LS mean difference|-0.09||||0.484|TWO_SIDED|95.0|-4.72|4.53|||ANCOVA||The difference in change from Baseline in SBP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.53|-4.72|0.4840
82516837|NCT03029208|164726827|SUPERIORITY||LS mean difference|1.99||||0.9156|TWO_SIDED|95.0|-0.85|4.82|||ANCOVA||The difference in change from Baseline in DBP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.82|-0.85|0.9156
82516838|NCT03029208|164726827|SUPERIORITY||LS mean difference|1.29||||0.7966|TWO_SIDED|95.0|-1.76|4.33|||ANCOVA||The difference in change from Baseline in MAP at the derived end of treatment was analyzed with an ANCOVA model including terms for treatment, prognostic randomization stratification factors.|||4.33|-1.76|0.7966
82516839|NCT03029208|164726828|SUPERIORITY||Ratio of exacerbation rate|1.01||||0.5174|TWO_SIDED|95.0|0.73|1.39|||Negative binomial model||Model estimated exacerbation rates, ratio of model estimated exacerbation rates and CIs were estimated using a negative binomial model for the treatment group comparison.|||1.39|0.73|0.5174
82516840|NCT03029208|164726830|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.04|||||TWO_SIDED|95.0|-0.29|0.36|||||The difference in change from Baseline in post-randomization Hgb at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||0.36|-0.29|
82516841|NCT03029208|164726831|SUPERIORITY||Difference in response rate|-0.8||||0.5411|TWO_SIDED|95.0|-12.2|10.7|||Cochran-Mantel-Haenszel||A Cochran-Mantel-Haenszel (CMH) test adjusted for treatment and randomization stratification factors were used to compare the number of responders between the treatment groups.|||10.7|-12.2|0.5411
82516842|NCT03029208|164726832|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|2.05|||||TWO_SIDED|95.0|-4.45|11.27|||||Hodges-Lehmann Estimate of Treatment Difference has been reported.|||11.27|-4.45|
82516843|NCT03029208|164726833|SUPERIORITY||Probability|0.54||||0.1538|TWO_SIDED|95.0|0.46|0.61|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.61|0.46|0.1538
82516844|NCT03029208|164726834|OTHER||Hazard Ratio (HR)|1.06||||0.5348|TWO_SIDED|95.0|0.31|3.66|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, dialysis type and dialysis start manner.|||3.66|0.31|0.5348
82636084|NCT02194699|164986752|SUPERIORITY||LS Mean difference|-5.04||||0.1099|TWO_SIDED|95.0|-11.21|1.14|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||1.14|-11.21|0.1099
82636085|NCT02194699|164986752|SUPERIORITY||LS Mean difference|0.46||||0.8112|TWO_SIDED|95.0|-3.33|4.25|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis. A variable for the biomarker population (positive, negative) as well as a treatment-by-biomarker population interaction term and a 3-way biomarker population-by-treatment-by-visit interaction term was included in the analysis model."||4.25|-3.33|0.8112
82636086|NCT02194699|164986752|SUPERIORITY||LS Mean difference|-1.19||||0.4645|TWO_SIDED|95.0|-4.4|2.01|||Repeated measures analysis||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in number (%) of awakenings at Week 52: FAS population; Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||2.01|-4.40|0.4645
82636087|NCT02194699|164986753|SUPERIORITY||Odds Ratio (OR)|0.77||||0.344|TWO_SIDED|95.0|0.44|1.33|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Biomarker positive population; Tralo 300 mg Q2W vs placebo.||1.33|0.44|0.3440
82636088|NCT02194699|164986753|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7768|TWO_SIDED|95.0|0.75|1.46|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Biomarker negative population; Tralo 300 mg Q2W vs placebo.||1.46|0.75|0.7768
82516845|NCT03029208|164726835|SUPERIORITY||LS mean difference|-0.39||||0.6641|TWO_SIDED|95.0|-2.22|1.44|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.44|-2.22|0.6641
82636089|NCT02194699|164986753|SUPERIORITY||Odds Ratio (OR)|0.91||||0.5276|TWO_SIDED|95.0|0.69|1.21|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: FAS population; Tralo 300 mg Q2W vs placebo.||1.21|0.69|0.5276
82636090|NCT00649220|164986783|SUPERIORITY_OR_OTHER|||||||0.22626||95.0|||||t-test, 2 sided|||Two-side, paired t-test on the null hypothesis that antipsychotics are reduced by 10% compared to baseline||||0.22626
82636091|NCT00649220|164986783|SUPERIORITY_OR_OTHER|||||||0.34192||95.0|||||Wilcoxon signed rank test|||Wilcoxon signed rank test on the null hypothesis that antipsychotics are reduced by 10% compared to baseline||||0.34192
82636092|NCT01111058|164986793|SUPERIORITY||Difference in survival proportions|0.0022||||0.9|TWO_SIDED|95.0|-0.33|0.33|||Comparison of Kaplan-Meier estimates|Used Greenwood standard errors||||0.33|-0.33|0.90
82636093|NCT01111058|164986793|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
82516846|NCT03029208|164726835|SUPERIORITY||LS mean difference|1.13||||0.103|TWO_SIDED|95.0|-0.63|2.89|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.89|-0.63|0.1030
82516847|NCT03029208|164726835|SUPERIORITY||LS mean difference|0.49||||0.3157|TWO_SIDED|95.0|-1.51|2.48|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.48|-1.51|0.3157
82516848|NCT03029208|164726835|SUPERIORITY||LS mean difference|-1.31||||0.8855|TWO_SIDED|95.0|-3.46|0.84|||MMRM||SF-36 HRQoL PCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||0.84|-3.46|0.8855
82516849|NCT03029208|164726836|SUPERIORITY||LS mean difference|-0.67||||0.7146|TWO_SIDED|95.0|-2.99|1.66|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.66|-2.99|0.7146
82516850|NCT03029208|164726836|SUPERIORITY||LS mean difference|-1.53||||0.905|TWO_SIDED|95.0|-3.82|0.76|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||0.76|-3.82|0.9050
82516851|NCT03029208|164726836|SUPERIORITY||LS mean difference|-0.32||||0.595|TWO_SIDED|95.0|-2.91|2.28|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.28|-2.91|0.5950
82516852|NCT03029208|164726836|SUPERIORITY||LS mean difference|-0.23||||0.5619|TWO_SIDED|95.0|-3.17|2.7|||MMRM||SF-36 HRQoL MCS domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.70|-3.17|0.5619
82516853|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.14||||0.4523|TWO_SIDED|95.0|-2.21|2.49|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||2.49|-2.21|0.4523
82516854|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.07||||0.5222|TWO_SIDED|95.0|-2.57|2.43|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.43|-2.57|0.5222
82516855|NCT03029208|164726837|SUPERIORITY||LS mean difference|2.33||||0.044|TWO_SIDED|95.0|-0.35|5.02|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||5.02|-0.35|0.0440
82516856|NCT03029208|164726837|SUPERIORITY||LS mean difference|-2.61||||0.9523|TWO_SIDED|95.0|-5.68|0.46|||MMRM||SF-36 HRQoL bodily pain domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||0.46|-5.68|0.9523
82516857|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.05||||0.4811|TWO_SIDED|95.0|-1.82|1.91|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.91|-1.82|0.4811
82516858|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.28||||0.3834|TWO_SIDED|95.0|-1.56|2.11|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.11|-1.56|0.3834
82516859|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.26||||0.3983|TWO_SIDED|95.0|-1.72|2.24|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.24|-1.72|0.3983
82516860|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.18||||0.5617|TWO_SIDED|95.0|-2.51|2.15|||MMRM||SF-36 HRQoL general health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.15|-2.51|0.5617
82516861|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.15||||0.8336|TWO_SIDED|95.0|-3.48|1.18|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.18|-3.48|0.8336
82516862|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.41||||0.9188|TWO_SIDED|95.0|-3.4|0.57|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||0.57|-3.40|0.9188
82516863|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.48||||0.6495|TWO_SIDED|95.0|-2.96|1.99|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.99|-2.96|0.6495
82516864|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.27||||0.5737|TWO_SIDED|95.0|-3.09|2.56|||MMRM||SF-36 HRQoL mental health domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||2.56|-3.09|0.5737
82516865|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.33||||0.3963|TWO_SIDED|95.0|-2.15|2.82|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||2.82|-2.15|0.3963
82636094|NCT01111058|164986794|SUPERIORITY|||||||0.086|||||||Fisher Exact|||||||0.086
82516866|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.62||||0.322|TWO_SIDED|95.0|-2.01|3.25|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||3.25|-2.01|0.3220
82516867|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.53||||0.3485|TWO_SIDED|95.0|-2.13|3.18|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||3.18|-2.13|0.3485
82516868|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.49||||0.8064|TWO_SIDED|95.0|-4.87|1.9|||MMRM||SF-36 HRQoL role-emotional domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.90|-4.87|0.8064
82516869|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.29||||0.8687|TWO_SIDED|95.0|-3.57|0.98|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||0.98|-3.57|0.8687
82516870|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.71||||0.2435|TWO_SIDED|95.0|-1.29|2.7|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||2.70|-1.29|0.2435
82516871|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.87||||0.7747|TWO_SIDED|95.0|-3.15|1.41|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.41|-3.15|0.7747
82516872|NCT03029208|164726837|SUPERIORITY||LS mean difference|-0.73||||0.7141|TWO_SIDED|95.0|-3.26|1.81|||MMRM||SF-36 HRQoL role-physical domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.81|-3.26|0.7141
82516873|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.03||||0.7803|TWO_SIDED|95.0|-3.65|1.59|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 8.|||1.59|-3.65|0.7803
82516874|NCT03029208|164726837|SUPERIORITY||LS mean difference|-1.18||||0.8556|TWO_SIDED|95.0|-3.35|1.0|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 12.|||1.00|-3.35|0.8556
82570870|NCT00497874|164852212|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.04||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(153) = 1.8||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.04
82636095|NCT02790476|164986802|SUPERIORITY||Mean Difference (Final Values)|-27.8|||<|0.05|TWO_SIDED|95.0|-38.2|-17.63||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (288.36-347.65 = -59.29) and control (318.60-350.09 = -31.49) arms, resulting in a difference of -27.80.|1-3 months post intervention||-17.63|-38.20|<0.05
82570871|NCT00497874|164852213|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.07||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(57) = 1.5||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.07
82570872|NCT00497874|164852214|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.05||95.0|||||t-test, 1 sided|t(94) = 1.5||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, logistic regression-and the results pooled.||||.05
82570873|NCT00497874|164852215|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis shows that sample size provided power of at least .80 to detect estimated differences.||||||0.13||95.0||||Statistical significance of the pooled results was evaluated using a t-test and degrees of freedom that take into account the uncertainty in the data and the uncertainty due to missing values.|t-test, 1 sided|t(123) = 1.2||Multiple imputation was used to estimate missing data for the 9-month assessment. Ten datasets were imputed using Multivariate Imputation by Chained Equations. Using SAS v9.1 PROC MI, the complete datasets were analyzed using complete data methodology-in this case, the t-test-and the results pooled.||||.13
82570874|NCT02820597|164852217|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-tests on the mean change from baseline. No adjustments were made for multiple comparisons.||Null hypothesis is that the within-participant change from baseline in rTNSS is 0.||||<0.001
82570875|NCT02820597|164852218|SUPERIORITY||||||<|0.001||||||Paired t-tests on the mean change from baseline. No adjustments were made for multiple comparisons.|t-test, 2 sided|||Null hypothesis is that the within-participant change from baseline in rhinitis symptoms VAS is 0.||||<0.001
82570876|NCT03898700|164852225|OTHER||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This one-group feasibility study examined outcomes of coaching using descriptive statistics (changed score) and the Wilcoxon signed-rank test. A changed score of 2 points reflects clinical significance. The Wilcoxon was used to determine statistical significance. Performance scores from 31 coaching goals across 7 informal caregivers were used for analysis.||||<0.001
82570877|NCT03898700|164852225|OTHER||Median Difference (Net)|2.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This one-group feasibility study examined outcomes of coaching using descriptive statistics (changed score) and the Wilcoxon signed-rank test. A changed score of 2 points reflects clinical significance. The Wilcoxon was used to determine statistical significance. Satisfaction scores from 31 coaching goals across 7 informal caregivers were used for analysis.||||<0.001
82570878|NCT02808975|164852274|SUPERIORITY||||||=|0.049|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.049
82570879|NCT02808975|164852275|SUPERIORITY||||||=|0.067|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.067
82570880|NCT02808975|164852276|SUPERIORITY||||||=|0.003|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.003
82570881|NCT02808975|164852277|SUPERIORITY||||||=|0.313|||||||ANCOVA|Across all strata, P-values are calculated from ANCOVA with stratum, baseline value, and treatment in the model.||||||=0.313
82570882|NCT02808975|164852278|SUPERIORITY||||||=|0.746|||||||Cochran-Mantel-Haenszel|Across all strata, P-value calculated from Cochran-Mantel-Haenszel test adjusted for strata. Stratum containing zero count: 0.1 added to each cell.||||||=0.746
82570883|NCT02106195|164852293|SUPERIORITY|Change from Baseline to Day 28|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|3.04||0.324|TWO_SIDED|95.0|-3.7|1.4|||t-test, 2 sided|||||1.4|-3.7|0.324
82570884|NCT03568812|164852299|SUPERIORITY||Mean Difference (Net)|111.8||||0.02|TWO_SIDED|95.0|40.9|182.7||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of unadjusted CD4 level||182.7|40.9|0.02
82636096|NCT02790476|164986802|SUPERIORITY||Mean Difference (Final Values)|-12.42|||<|0.01|TWO_SIDED|95.0|-18.4|-6.55||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (167.83-347.65 = -179.83) and control (182.67-350.09 = -167.41) arms, resulting in a difference of -12.42.|||-6.55|-18.40|<0.01
82382693|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|921.4||||0.0002|TWO_SIDED|95.0|515.7|1327.1|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1327.1|515.7|0.0002
82382694|NCT01268527|164475791|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|937.8||||0.0115|TWO_SIDED|95.0|267.6|1607.9|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||1607.9|267.6|0.0115
82382695|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|101.5||||0.0042|TWO_SIDED|95.0|36.0|167.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||167.0|36.0|0.0042
82382696|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|182.4|||<|0.0001|TWO_SIDED|95.0|140.3|224.4|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||224.4|140.3|<0.0001
82382697|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|169.5|||<|0.0001|TWO_SIDED|95.0|127.4|211.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||211.5|127.4|<0.0001
82382698|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|246.6|||<|0.0001|TWO_SIDED|95.0|185.0|308.1|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||308.1|185.0|<0.0001
82382699|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|132.3||||0.0043|TWO_SIDED|95.0|53.9|210.7|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||210.7|53.9|0.0043
82382700|NCT01268527|164475792|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|145.0||||0.0036|TWO_SIDED|95.0|64.2|225.8|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM) and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||225.8|64.2|0.0036
82382701|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|80.7||||0.0013|TWO_SIDED|95.0|34.6|126.7|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||126.7|34.6|0.0013
82516875|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.08||||0.4763|TWO_SIDED|95.0|-2.61|2.77|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.77|-2.61|0.4763
82382702|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|127.9|||<|0.0001|TWO_SIDED|95.0|92.4|163.5|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||163.5|92.4|<0.0001
82516876|NCT03029208|164726837|SUPERIORITY||LS mean difference|0.73||||0.3208|TWO_SIDED|95.0|-2.35|3.8|||MMRM||SF-36 HRQoL social functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||3.80|-2.35|0.3208
82516877|NCT03029208|164726838|SUPERIORITY||LS mean difference|-1.02||||0.791|TWO_SIDED|95.0|-3.5|1.46|||MMRM||SF-36 HRQoL vitality domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||1.46|-3.50|0.7910
82516878|NCT03029208|164726838|SUPERIORITY||LS mean difference|-1.45||||0.8648|TWO_SIDED|95.0|-4.03|1.14|||MMRM||SF-36 HRQoL vitality domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.14|-4.03|0.8648
82516879|NCT03029208|164726839|SUPERIORITY||LS mean difference|-0.28||||0.5879|TWO_SIDED|95.0|-2.75|2.19|||MMRM||SF-36 HRQoL physical functioning domain score was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 28.|||2.19|-2.75|0.5879
82636097|NCT02790476|164986803|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.224|TWO_SIDED|95.0|-0.92|0.22||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (3.45-3.74 = -0.29) and control (3.45-4.59= -0.64) arms, resulting in a difference of -0.35.|Change in mean number of =\> 50 MME prescriptions pre- to 1-3 months post-intervention||0.22|-0.92|0.224
82382703|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|110.2||||0.0458|TWO_SIDED|95.0|2.4|218.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||218.0|2.4|0.0458
82382704|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|207.5|||<|0.0001|TWO_SIDED|95.0|155.2|259.9|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||259.9|155.2|<0.0001
82382705|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|125.3||||0.0003|TWO_SIDED|95.0|71.5|179.0|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||179.0|71.5|0.0003
82382706|NCT01268527|164475793|SUPERIORITY||Difference in LSM (vehicle - E6201 gel)|128.6||||0.0029|TWO_SIDED|95.0|93.9|163.3|||ANCOVA|||The following hypotheses were based on the Full Analysis Population: null Hypothesis and alternative hypothesis. P values, LSM, and CI were obtained from ANCOVA model with factors for treatment and baseline psoriatic infiltrate thickness as a continuous covariate.||163.3|93.9|0.0029
82382707|NCT00122382|164475797|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|15.1|||<|0.001|TWO_SIDED|95.0|6.0|24.2||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving an ACR 50 response.||24.2|6.0|<0.001
82382708|NCT00122382|164475798|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|15.5|||<|0.001|TWO_SIDED|95.0|8.2|22.8||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving MCR.||22.8|8.2|<0.001
82382709|NCT00122382|164475799|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-0.98|-0.48||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||||-0.48|-0.98|<0.001
82382710|NCT00122382|164475800|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|9.8||||0.024|TWO_SIDED|95.0|1.3|18.4||p-value of \<0.05: probability for testing the difference between ABA and PLA.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving HAQ response.||18.4|1.3|0.024
82382711|NCT00122382|164475801|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|2.5||||0.005|TWO_SIDED|95.0|0.77|4.23||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||PCS Adjusted Mean Change from Baseline to Month 12||4.23|0.77|0.005
82382712|NCT00122382|164475801|SUPERIORITY_OR_OTHER||Estimate of/Adjusted Difference|1.81||||0.046|TWO_SIDED|95.0|0.03|3.6||p-value of \<0.05: probability for testing the difference between ABA and PLA.|ANCOVA|Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||MCS Adjusted Mean Change from Baseline to Month 12||3.60|0.03|0.046
82382713|NCT00122382|164475802|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value of \<0.05: probability for comparison of change in radiographic scores between abatacept and placebo.|Nonparametric ANCOVA|||comparison of change in erosion scores between abatacept and placebo||||0.033
82382714|NCT00122382|164475802|SUPERIORITY_OR_OTHER|||||||0.353||95.0||||P-value of \<0.05: probability for comparison of change in radiographic scores between abatacept and placebo.|Nonparametric ANCOVA|||comparison of change in JSN scores between abatacept and placebo||||0.353
82516880|NCT03029208|164726839|SUPERIORITY||LS mean difference|-1.43||||0.8525|TWO_SIDED|95.0|-4.12|1.26|||MMRM||SF-36 HRQoL physical functioning domain scor was analyzed using an MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms at Week 52.|||1.26|-4.12|0.8525
82570885|NCT03568812|164852299|SUPERIORITY||Mean Difference (Net)|73.4||||0.03|TWO_SIDED|95.0|5.9|140.8||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of adjusted CD4 level||140.8|5.9|0.03
82570886|NCT03568812|164852300|SUPERIORITY||Mean Difference (Net)|0.3||||0.55|TWO_SIDED|95.0|-0.5|1.0||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||There is no difference between probiotics - placebo|The statistical analysis of unadjusted Th17 change after intervention||1.0|-0.5|0.55
82570887|NCT03568812|164852300|SUPERIORITY||Mean Difference (Net)|0.1||||0.79|TWO_SIDED|95.0|-0.7|0.9||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||There is no difference between probiotics - placebo|The statistical analysis of adjusted Th17 change after intervention||0.9|-0.7|0.79
82570888|NCT03568812|164852302|SUPERIORITY||Mean Difference (Net)|-12.7||||0.03|TWO_SIDED|95.0|-23.9|-1.5||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of unadjusted Fecal Calprotectin Level change after intervention||-1.5|-23.9|0.03
82570889|NCT03568812|164852302|SUPERIORITY||Mean Difference (Net)|-15.6||||0.01|TWO_SIDED|95.0|-27.6|-3.6||The threshold for statistical significance was p = 0.05 The variable was adjusted to duration of ARV regimen and baseline CD4 level|ANCOVA||Treatment difference = Probiotics - Placebo|The statistical analysis of adjusted Fecal Calprotectin Level change after intervention||-3.6|-27.6|0.01
82382715|NCT00122382|164475804|SUPERIORITY_OR_OTHER||Estimated Difference between ABA and PLA|18.1|||<|0.001|TWO_SIDED|95.0|9.6|26.6||Total score was tested only if there was statistical significance in remission rate. For each test, the nominal type I error rate is set at 5%; this sequential testing procedure preserves the overall type I error rate at 5%.|Chi-squared, Continuity-Corrected|||Estimated Difference between ABA and PLA is the estimated difference between ABA and PLA in the proportion of subjects achieving DAS28-CRP remission.||26.6|9.6|<0.001
82570890|NCT03568812|164852304|SUPERIORITY|||||||0.551||||||The threshold for statistical significance was p = 0.05|Chi-squared|||The statistical analysis of food frequency change after intervention (12 weeks)||||0.551
82570891|NCT00634842|164852325|NON_INFERIORITY_OR_EQUIVALENCE|The primary hypothesis was that there would be no difference in efficacy as measured by the proportion of subjects reaching HbA1c level \< 7% between the two FPG titration arms (70-90 mg/dL and 80-110 mg/dL, respectively) with a non-inferiority margin of 20%. If non-inferiority of the 70-90mg/dL arm was established, superiority was to be tested using a Logistic regression model with baseline HbA1c as a covariate. Superiority was to be concluded if the odds ratio was significantly greater than 1.|Odds Ratio (OR)|1.86||||0.0411||95.0|1.03|3.37|||Test for Difference in Proportions|||To show non-inferiority for the primary endpoint, 100 subjects per group provides 80% power to show that the 95% CI for the difference of proportions between treatments is within the 20% margin under the assumption of equality of proportions. It is also sufficient to show superiority under the assumption that the first proportion is greater than the second by at least 20%. With a predicted withdrawal rate of 15%, 236 subjects were needed based on a treatment ratio of 1:1 for the two treatments.||3.37|1.03|0.0411
82636098|NCT02790476|164986803|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.08|-0.33||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (3.00-3.74 = -0.74) and control (3.15-4.59= -1.44) arms, resulting in a difference of -0.70.|Change in mean number of =\> 50 MME prescriptions pre- to 4-12 months post-intervention||-0.33|-1.08|<0.001
82636099|NCT02790476|164986803|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.279|TWO_SIDED|95.0|-0.59|0.17||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.00-2.14 = -0.14) and control (2.20-2.55= -0.35) arms, resulting in a difference of -0.21.|Change in mean number of \> 90 MME prescriptions pre- to 1-3 months post-intervention||0.17|-0.59|0.279
82636100|NCT02790476|164986803|SUPERIORITY||Mean Difference (Final Values)|-0.38|||<|0.01|TWO_SIDED|95.0|-0.63|-0.12||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (1.71-2.14 = -0.43) and control (1.74-2.55= -0.81) arms, resulting in a difference of -0.38.|Change in mean number of \> 90 MME prescriptions pre- to 4-12 months post-intervention||-0.12|-0.63|<0.01
82636101|NCT02790476|164986804|SUPERIORITY||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-3.2|-0.1||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|Pre-intervention values were trimmed at 95% with bootstrapped means and confidence intervals.|This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean DME in the letter (72.3-76 = -3.7) and control (82-82.9 = -0.9) arms, resulting in a difference of -1.6.|||-0.1|-3.2|<0.05
82382716|NCT00122382|164475805|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||Total score was tested only if there was statistical significance in remission rate. For each test, the nominal type I error rate is set at 5%; this sequential testing procedure preserves the overall type I error rate at 5%.|non-parametric ANCOVA|||||||<0.040
82570892|NCT00634842|164852326|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis was that there would be no difference in efficacy as measured by the proportion of subjects reaching HbA1c level \<= 6.5% between the two FPG titration arms (70-90 mg/dL and 80-110 mg/dL, respectively) with a non-inferiority margin of 20%. If non-inferiority of the 70-90mg/dL arm was established, superiority was to be tested using a Logistic regression model with baseline HbA1c as a covariate. Superiority was to be concluded if the odds ratio was significantly greater than 1.|Odds Ratio (OR)|2.34||||0.0064||95.0|1.27|4.3|||Regression, Logistic|||||4.30|1.27|0.0064
82636102|NCT02790476|164986806|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.823|TWO_SIDED|95.0|-0.23|0.29||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.44-3.72 = -1.28) and control (2.26-3.51= -1.25) arms, resulting in a difference of 0.03.|Change in mean number of new patients pre- to 1-3 months post-intervention||0.29|-0.23|0.823
82382717|NCT00122382|164475820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||signed rank test|||||||<0.001
82382718|NCT01213966|164475824|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||PPR24 was summarized descriptively. No statistical test was performed. The PRR24 values were summarised when the corresponding regression fit had a p-value of p ≤0.01 and an adjusted coefficient of determination (R2) ≥0.85.|Regression, Linear|||PPR24 was summarised descriptively. No statistical test was performed.||||0.01
82516881|NCT03029208|164726840|SUPERIORITY||LS mean difference|0.03||||0.3154|TWO_SIDED|95.0|-0.09|0.14|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.14|-0.09|0.3154
82570893|NCT00634842|164852327|SUPERIORITY_OR_OTHER||LSMean|-0.271||||0.0019||95.0|-0.441|-0.101|||ANCOVA|The analyses for HbA1c were adjusted for baseline HbA1c values.||||-0.101|-0.441|0.0019
82636103|NCT02790476|164986806|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.692|TWO_SIDED|95.0|-0.2|0.14||The threshold for statistical significance is p=0.05.|Mixed Models Analysis||This measure is a difference-in-difference, calculated by subtracting the pre- and post-intervention difference in mean MME in the letter (2.08-3.72 = -1.64) and control (1.84-3.51= -1.67) arms, resulting in a difference of -0.03.|Change in mean number of new patients pre- to 4-12 months post-intervention||0.14|-0.20|0.692
82636104|NCT01729559|164986807|NON_INFERIORITY_OR_EQUIVALENCE|A 10% noninferiority margin was selected based on a previous trial showing a difference in the incidence of DVT of 13% with the use of 30 mg of enoxaparin every 12 hours compared to 5,000 U of unfractionated heparin (UFH) every 12 hr. To achieve 90% power using an a priori margin of 10% with a one-sided alpha of 0.025, a total of 182 patients (91 in each arm) was required.|Risk Difference (RD)|6.5||||0.025|TWO_SIDED|95.0|-2.9|15.8||One-tailed test of the cumulative VTE incidence between treatment groups.|Chi-squared, Corrected||Unadjusted cumulative incidence values between the two treatment groups were subtracted to calculate the risk difference for VTE between groups. This difference was compared to the a priori 10% margin of difference using the 95% confidence interval.|Analysis was performed in a subset of patients who received at least one follow-up venous duplex ultrasound of the lower extremities.||15.8|-2.9|0.025
82636105|NCT01729559|164986807|NON_INFERIORITY_OR_EQUIVALENCE|A 10% noninferiority margin was selected based on these data showing a difference in the incidence of DVT of 13% with the use of 30 mg of enoxaparin every 12 hours compared to 5,000 U of UFH every 12 hours. To achieve 90% power using an a priori margin of 10% with a one-sided alpha of 0.025, a total of 182 patients (91 in each arm) was required. This analysis was performed in the entire sample.|Risk Difference (RD)|3.1||||0.025|TWO_SIDED|95.0|-1.6|7.7||One-tailed test of the cumulative VTE incidence between treatment groups.|Chi-squared, Corrected||Unadjusted cumulative incidence values between the two treatment groups were subtracted to calculate the risk difference for VTE between groups. This difference was compared to the a priori 10% margin of difference using the 95% confidence interval.|"Analysis was performed in the total sample of eligible patients and who received their assigned treatment (referred to as the randomized treated sample) ."||7.7|-1.6|0.025
82636106|NCT04646668|164986821|SUPERIORITY|Due to the pilot nature of the current study, formal power calculations were not conducted.||||||0.002|||||||ANOVA|||The null hypothesis is that there is no difference in nicotine delivery between cigarettes, e-cigarettes, and heat not burn after the standardized 10-puff bout. ANOVAs were conducted to detect differences between products for nicotine concentration at five minutes (immediately following 10-puff bout). The test was performed with a significance level of 0.05 (two-sided).||||0.002
82636107|NCT00608426|164986827|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Logistic|||||||.02
82636108|NCT00608426|164986828|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||for the comparison of telephone counseling between the two groups|Mixed effects logistic regression|||||||<.001
82636109|NCT00608426|164986828|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|||||for the comparison of in-person counseling between the two groups|Mixed effects logistic regression|||||||0.57
82636110|NCT00608426|164986828|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||for the comparison of used medications between the two groups|Mixed effects logistic regression|||||||.15
82636111|NCT00608426|164986828|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||for the comparison of combination counseling and medication between the two groups|Mixed effects logistic regression|||||||<.001
82636112|NCT00608426|164986828|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED|||||for the comparison of attended VA smoking cessation clinic between the two groups|Mixed effects logistic regression|||||||.77
82636113|NCT00608426|164986828|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||for the comparison of received VA smoking cessation medication between the two groups|Mixed effects logistic regression|||||||.002
82636114|NCT00608426|164986829|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Regression, Logistic|||||||0.13
82382719|NCT00204490|164475825|OTHER|||||||0.071|||||||t-test, 2 sided|||(FGBT% at 1 year of treatment minus FGBT% at baseline) divided by FGBT% at baseline.||||0.071
82636115|NCT01707667|164986832|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.012|TWO_SIDED|95.0|1.6|9.9|||Linear Mixed-Effect Models Analysis|||||9.9|1.6|0.012
82636116|NCT01707667|164986833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|69051.4||||0.079|TWO_SIDED|95.0|-12004.5|150107.3|||Linear Mixed-Effect Models Analysis|||||150107.3|-12004.5|0.079
82636117|NCT01707667|164986834|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2||||0.717|TWO_SIDED|95.0|-45.3|63.7|||Linear Mixed-Effect Models Analysis|||||63.7|-45.3|0.717
82636118|NCT01707667|164986835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|TWO_SIDED||||||Log Rank|||||||0.295
82636119|NCT01707667|164986836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.179||||0.18|TWO_SIDED|95.0|-0.465|0.107|||Linear Mixed-Effect Models Analysis|||||0.107|-0.465|0.180
82636120|NCT01707667|164986837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.8||||0.225|TWO_SIDED|95.0|-12.6|44.3|||Linear Mixed-Effect Models Analysis|||||44.3|-12.6|0.225
82636121|NCT01453439|164986840|SUPERIORITY||Slope|-0.4602|STANDARD_ERROR_OF_MEAN|0.1249|<|0.01|TWO_SIDED|||||Degrees of freedom=90.9|Mixed Models Analysis|Effect of interest: time by group interaction|The estimated value describes the mean slope difference of CBT compared to SPT.|"We compared the difference in the rate of change in BDD symptom severity over time (during treatment phase) between the randomized treatment groups (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in BDD symptom severity in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||<.01
82382720|NCT00204490|164475825|OTHER|||||||0.08|||||||t-test, 2 sided|||(FGBT% at 2 year of treatment minus FGBT% at baseline) divided by FGBT% at baseline.||||0.080
82382721|NCT00204490|164475825|OTHER||Slope|-0.107|STANDARD_ERROR_OF_MEAN|0.045||0.019|TWO_SIDED||||||Regression, Linear|Mixed model|slope for interaction of treatment and time, placebo was the reference group; square root transformed outcome.|Intention to treat||||0.019
82516882|NCT03029208|164726841|SUPERIORITY||LS mean difference|-3.4||||0.7651|TWO_SIDED|95.0|-12.7|5.9|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||5.9|-12.7|0.7651
82516883|NCT03029208|164726842|SUPERIORITY||LS mean difference|-6.43||||0.9875|TWO_SIDED|95.0|-12.05|-0.82|||MMRM||Tired/Low energy/Weak domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||-0.82|-12.05|0.9875
82382722|NCT03477006|164475828|SUPERIORITY|||||||0.91|||||||Chi-squared|||||||0.91
82516884|NCT03029208|164726842|SUPERIORITY||LS mean difference|-4.11||||0.9663|TWO_SIDED|95.0|-8.52|0.3|||MMRM||Chest pain/Shortness of breath domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.30|-8.52|0.9663
82516885|NCT03029208|164726842|SUPERIORITY||LS mean difference|-6.6||||0.993|TWO_SIDED|95.0|-11.84|-1.35|||MMRM||Cognitive domain: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||-1.35|-11.84|0.9930
82382723|NCT03477006|164475829|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
82382724|NCT03477006|164475830|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
82382725|NCT02729025|164475861|SUPERIORITY||LS Mean Treatment Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24||0.18|TWO_SIDED|95.0|-7.4|1.39|||Multivariate regression model||Treatment difference used placebo as the reference|A multivariate regression was modelled on the primary endpoint as well as three other response variables (percent change in Lp\[a\] at Weeks 8 and 16, baseline MDS TBR, and baseline Lp\[a\]). The primary endpoint was regressed on the treatment group and statin stratification factor; baseline MDS TBR and Lp(a) were regressed on the statin stratification factor, and percent changes in Lp(a) were regressed on the treatment group, statin stratification factor, visit, and treatment group by visit.||1.39|-7.40|0.18
82382726|NCT02729025|164475862|SUPERIORITY||LS Mean Treatment Difference|-13.89|STANDARD_ERROR_OF_MEAN|2.73|<|0.0001|TWO_SIDED|95.0|-19.29|-8.49|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-8.49|-19.29|<0.0001
82382727|NCT02729025|164475863|SUPERIORITY||LS Mean Treatment Difference|-60.66|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|-65.81|-55.51|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-55.51|-65.81|<0.0001
82382728|NCT02729025|164475864|SUPERIORITY||LS Mean Treatment Difference|-51.29|STANDARD_ERROR_OF_MEAN|2.15|<|0.0001|TWO_SIDED|95.0|-55.85|-47.33|||Repeated measures linear effects model|The model included treatment group, statin stratification, scheduled visit, and the interaction of treatment with scheduled visit.|Treatment difference used placebo as the reference|||-47.33|-55.85|<0.0001
82382729|NCT03296813|164475891|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.765|TWO_SIDED|95.0|0.885|1.18||P-value not adjusted for multiple comparisons.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.180|0.885|0.765
82382730|NCT03296813|164475892|SUPERIORITY||Hazard Ratio (HR)|0.918||||0.113|TWO_SIDED|95.0|0.826|1.02||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality or first all-cause hospitalization through month 12 among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.020|0.826|0.113
82570894|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-3.9|5.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||5.6|-3.9|
82382731|NCT03296813|164475893|SUPERIORITY||Risk Ratio (RR)|0.945||||0.366|TWO_SIDED|95.0|0.836|1.068||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Linear|||To determine whether torsemide is superior to furosemide with respect to total all-cause hospitalizations through month 12 among patients hospitalized for heart failure.|P-value from a negative binomial regression of the frequency of re-hospitalizations with an offset term of the log of each subject's months to last re-hospitalization assessment through month 12. Re-hospitalizations greater than or equal to 5 were combined and analyzed with re-hospitalizations = 5 (i.e., one category \>=5) and for the subjects with \>=5 re-hospitalizations, the offset term was the log of the months to the 5th re-hospitalization.|1.068|0.836|0.366
82516886|NCT03029208|164726842|SUPERIORITY||LS mean difference|-3.03||||0.8765|TWO_SIDED|95.0|-8.19|2.12|||MMRM||Shortness of breath, no activity: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||2.12|-8.19|0.8765
82570895|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|3.3||||||95.0|-7.3|13.8||||||For serotype 6B the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||13.8|-7.3|
82442329|NCT01726673|164593282|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the upper extremity fugl meyer score in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|302.0||||0.256|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in upper extremity fugl meyer score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.256
82636122|NCT01453439|164986840|SUPERIORITY||Slope|-0.00984|STANDARD_ERROR_OF_MEAN|0.1038||0.62|TWO_SIDED|||||Degrees of freedom=74.7|Mixed Models Analysis|The effect of interest was the time by group interaction.|The estimated value describes the mean slope difference of CBT compared to SPT during follow-up (week 24 to week 50).|"We compared the difference in the rate of change in BDD symptom severity over time (during the follow-up phase) between the randomized treatment groups (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in BDD symptom severity during follow-up will not differ significantly between CBT and SPT treatments \[to be tested\]."||||.62
82636123|NCT01453439|164986841|SUPERIORITY|||||||0.1||||||Degrees of freedom=93.2|Mixed Models Analysis|||"We compared the change in Patient Insight over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in insight in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.10
82636124|NCT01453439|164986841|SUPERIORITY|||||||0.45||||||Degrees of freedom=74.5|Mixed Models Analysis|||"We compared the change in Patient Insight over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in insight in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.45
82636125|NCT01453439|164986842|SUPERIORITY|||||||0.05||||||Degrees of freedom=89.1|Mixed Models Analysis|||"We compared the change in depressive symptoms over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in depressive symptoms in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.05
82636126|NCT01453439|164986842|SUPERIORITY|||||||0.26||||||Degrees of freedom=63.7|Mixed Models Analysis|||"We compared the change in depressive symptoms over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in depressive symptoms in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.26
82636127|NCT01453439|164986843|SUPERIORITY|||||||0.04||||||Degrees of freedom=91.4|Mixed Models Analysis|||"We compared the change in Quality of life satisfaction over time (During treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in Quality of life satisfaction severity in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.04
82636128|NCT01453439|164986843|SUPERIORITY|||||||0.82||||||Degrees of freedom=74.7|Mixed Models Analysis|||"We compared the change in the quality of life satisfaction over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in the quality of life satisfaction in the CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.82
82636129|NCT01453439|164986844|SUPERIORITY||Mean Difference (Net)|0.7937|STANDARD_ERROR_OF_MEAN|0.3007||0.0095|TWO_SIDED|||||Effect of interest: Treatment main effect, two-sided alpha = 0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment type, site, time (repeated)) Effect of interest: main effect of treatment: F(num df=1, den df=112) = 5.17|Least Squares Means difference|Null hypothesis: There is no significant different in the perceived credibility of CBT and SPT.||||0.0095
82636130|NCT01453439|164986848|SUPERIORITY|||||||0.3||||||Degrees of freedom=88.0|Mixed Models Analysis|||"We compared the change in social functioning over time (During Treatment phase) by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts, and slopes as random effects per person.~Null hypothesis: The rate of improvement in social functioning in the CBT group will not be significantly different from the SPT group \[to be tested\]."||||.30
82636131|NCT01453439|164986848|SUPERIORITY|||||||0.85||||||Degrees of freedom=74.5|Mixed Models Analysis|||"We compared the change in social functioning over time (during the follow-up phase), by randomized treatment group (CBT vs. SPT) using a latent growth curve model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of improvement in social functioning CBT group will not be significantly different from the SPT group during follow-up \[to be tested\]."||||.85
82636132|NCT01453439|164986849|SUPERIORITY||Mean Difference (Net)|1.5867|STANDARD_ERROR_OF_MEAN|0.6882||0.0235|TWO_SIDED|||||a priori significance level: 2-sided alpha = 0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment type, site, time (repeated)) Effect of interest: main effect of treatment - F(num def=1,den df=79.9) = 15.55|Least Squares Means difference|Null hypothesis: There is no significant difference in treatment satisfaction between patients with BDD assigned to CBT vs. SPT.||||0.0235
82570896|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|2.3||||||95.0|-2.1|7.3||||||For serotype 9V the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||7.3|-2.1|
82382732|NCT03296813|164475894|SUPERIORITY||Hazard Ratio (HR)|0.943||||0.61|TWO_SIDED|95.0|0.753|1.181||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Regression, Cox|||To determine whether torsemide is superior to furosemide with respect to all-cause mortality or first all-cause hospitalization through day 30 among patients hospitalized for heart failure.|P-value from a Cox proportional hazards regression model including the assigned treatment (torsemide vs. furosemide as the reference group) as well as age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.181|0.753|0.610
82382733|NCT03296813|164475895|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.194|TWO_SIDED|95.0|-0.66|3.26||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 1 month compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|3.26|-0.66|0.194
82516887|NCT03029208|164726842|SUPERIORITY||LS mean difference|-4.27||||0.9464|TWO_SIDED|95.0|-9.48|0.94|||MMRM||Severity-short breath, Resting: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.94|-9.48|0.9464
82516888|NCT03029208|164726842|SUPERIORITY||LS mean difference|-5.31||||0.9101|TWO_SIDED|95.0|-13.09|2.47|||MMRM||Difficulty standing for long time: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||2.47|-13.09|0.9101
82516889|NCT03029208|164726842|SUPERIORITY||LS mean difference|-6.52||||0.9586|TWO_SIDED|95.0|-13.9|0.86|||MMRM||Difficulty sleeping: MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.86|-13.90|0.9586
82516890|NCT03029208|164726843|SUPERIORITY||LS mean difference|0.27||||0.981|TWO_SIDED|95.0|0.02|0.53|||MMRM||MMRM model was fitted from Baseline up to Week 8 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.53|0.02|0.9810
82516891|NCT03029208|164726843|SUPERIORITY||LS mean difference|0.05||||0.6743|TWO_SIDED|95.0|-0.17|0.26|||MMRM||MMRM model was fitted from Baseline up to Week 12 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.26|-0.17|0.6743
82516892|NCT03029208|164726843|SUPERIORITY||LS mean difference|0.16||||0.8997|TWO_SIDED|95.0|-0.09|0.4|||MMRM||MMRM model was fitted from Baseline up to Week 28 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.40|-0.09|0.8997
82516893|NCT03029208|164726843|SUPERIORITY||LS mean difference|0.18||||0.8835|TWO_SIDED|95.0|-0.12|0.47|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, dialysis type, dialysis start manner, Baseline value and Baseline value by time and treatment by time interactions.|||0.47|-0.12|0.8835
82516894|NCT03207750|164726878|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% Confidence Interval (CI) for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-D antibodies should be ≥-10%.|Difference in anti-D concentration|0.0|||||TWO_SIDED|95.0|-0.8|0.79||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 0.1 IU/mL) of anti-D antibodies.||0.79|-0.80|
82516895|NCT03207750|164726878|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% Confidence Interval (CI) for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-T antibodies should be ≥-10%.|Difference in anti-T concentration|0.0|||||TWO_SIDED|95.0|-0.79|0.77||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 0.1 IU/mL) of anti-T antibodies.||0.77|-0.79|
82516896|NCT03207750|164726879|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-HB antibodies should be ≥-10%.|Difference in anti-HB concentration|-0.65|||||TWO_SIDED|95.0|-1.9|0.16||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective concentrations (≥ 10 mIU/mL) of anti-HB antibodies.||0.16|-1.90|
82516897|NCT03207750|164726880|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 1 antibodies should be ≥-5%.|Difference in anti-polio 1 concentration|0.21|||||TWO_SIDED|95.0|-0.6|1.15||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 1 antibodies.||1.15|-0.60|
82516898|NCT03207750|164726880|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 2 antibodies should be ≥-5%.|Difference in anti-polio 2 concentration|-0.01|||||TWO_SIDED|95.0|-1.02|0.98||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 2 antibodies.||0.98|-1.02|
82570897|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|-1.6||||||95.0|-8.2|4.7||||||For serotype 14 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||4.7|-8.2|
82570898|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|3.0||||||95.0|-2.8|9.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.2|-2.8|
82516899|NCT03207750|164726880|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentration (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-poliovirus type 3 antibodies should be ≥-5%.|Difference in anti-polio 3 concentration|0.0|||||TWO_SIDED|95.0|-0.87|0.84||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with seroprotective titers (≥ 8 ED50) of anti-poliovirus type 3 antibodies.||0.84|-0.87|
82570899|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-3.5|5.1||||||For serotype 19F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||5.1|-3.5|
82570900|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|1.1||||||95.0|-8.4|10.6||||||For serotype 23F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||10.6|-8.4|
82516900|NCT03207750|164726881|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-PT antibodies should be ≥ 0.67.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-PT antibodies.||1.03|0.86|
82570901|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|2.1||||||95.0|-4.8|9.2||||||For serotype 1 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.2|-4.8|
82570902|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|-1.7||||||95.0|-7.9|4.2||||||For serotype 3 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||4.2|-7.9|
82570903|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|2.1||||||95.0|-5.6|9.9||||||For serotype 5 the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||9.9|-5.6|
82570904|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-9.9|7.6||||||For serotype 6A the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||7.6|-9.9|
82570905|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.0|2.8||||||For serotype 7F the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||2.8|-3.0|
82570906|NCT00464945|164852329|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.6|3.5||||||For serotype 19A the difference in percentages between the two groups (13vPnC Manufacturing - 13vPnC Pilot) was calculated||3.5|-3.6|
82570907|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|1.35||||||95.0|1.1|1.65||||||For serotype 4 the GMC ratio was calculated||1.65|1.10|
82516901|NCT03207750|164726881|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-FHA antibodies should be ≥ 0.67.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.92|1.08|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-FHA antibodies.||1.08|0.92|
82570908|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.7|1.31||||||For serotype 6B the GMC ratio was calculated||1.31|0.70|
82570909|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|1.05||||||95.0|0.89|1.24||||||For serotype 9V the GMC ratio was calculated||1.24|0.89|
82570910|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.71|1.22||||||For serotype 14 the GMC ratio was calculated||1.22|0.71|
82570911|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|1.06||||||95.0|0.86|1.3||||||For serotype 18C the GMC ratio was calculated||1.30|0.86|
82570912|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.98||||||95.0|0.81|1.17||||||For serotype 19F the GMC ratio was calculated||1.17|0.81|
82570913|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.9||||||95.0|0.7|1.15||||||For serotype 23F the GMC ratio was calculated||1.15|0.70|
82570914|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|1.1||||||95.0|0.88|1.37||||||For serotype 1 the GMC ratio was calculated||1.37|0.88|
82570915|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|1.0||||||95.0|0.83|1.2||||||For serotype 3 the GMC ratio was calculated||1.20|0.83|
82570916|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.79|1.16||||||For serotype 5 the GMC ratio was calculated||1.16|0.79|
82570917|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.83||||||95.0|0.66|1.05||||||For serotype 6A the GMC ratio was calculated||1.05|0.66|
82570918|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.79|1.11||||||For serotype 7F the GMC ratio was calculated||1.11|0.79|
82570919|NCT00464945|164852333|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.79|1.13||||||For serotype 19A the GMC ratio was calculated||1.13|0.79|
82570920|NCT03539068|164852337|SUPERIORITY||||||<|1e-05|||||||Chi-squared|||||||<0.00001
82570921|NCT00551135|164852340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0668|TWO_SIDED|||||Hochberg's adjustment applied to p-value; Hochberg's adjusted p-value was the primary analysis.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0668
82570922|NCT00551135|164852340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0334|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS (least squares) means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0334
82570923|NCT00551135|164852340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8003|TWO_SIDED|||||Hochberg's adjustment applied to p-value; Hochberg's adjusted p-value was the primary analysis.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8003
82570924|NCT00551135|164852340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8003|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8003
82516902|NCT03207750|164726881|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for each of anti-PRN antibodies should be ≥ 0.67.|GMC ratio|0.97|||||TWO_SIDED|95.0|0.86|1.1|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for anti-PRN antibodies.||1.10|0.86|
82516903|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 1 should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 1.||1.14|0.93|
82516904|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 3 should be ≥ 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.91|1.11|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 3.||1.11|0.91|
82382734|NCT03296813|164475895|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.718|TWO_SIDED|95.0|-2.53|1.74||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 6 months compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|1.74|-2.53|0.718
82516905|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 4 should be ≥ 0.5.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.9|1.09|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 4.||1.09|0.90|
82516906|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 5 should be ≥ 0.5.|GMC ratio|1.05|||||TWO_SIDED|95.0|0.94|1.17|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 5.||1.17|0.94|
82516907|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 6A should be ≥ 0.5.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.92|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 6A.||1.12|0.92|
82382735|NCT03296813|164475895|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.987|TWO_SIDED|95.0|-2.26|2.3||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Mixed Models Analysis|||To determine whether torsemide improves the QOL at 12 months compared to Furosemide as assessed by the KCCQ among patients hospitalized for heart failure.|Least squares means results from mixed-model repeated measures analysis of the KCCQ score change from baseline with terms for treatment, time (visit) from randomization, treatment x time (visit) interaction as well as the baseline KCCQ score, age, sex, baseline ejection fraction (\<40%, 41-49%, \>50%, unknown), and loop diuretic treatment prior to index hospital admission as covariates.|2.30|-2.26|0.987
82382736|NCT03296813|164475896|SUPERIORITY|||||||0.904||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 1 month compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.904
82382737|NCT03296813|164475896|SUPERIORITY|||||||0.829||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 6 months compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.829
82570925|NCT00551135|164852340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6932|TWO_SIDED|||||Unadjusted (raw) p-value.|ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline worst pain (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6932
82382738|NCT03296813|164475896|SUPERIORITY|||||||0.342||||||For secondary analyses, a statistically significant p-value \< 0.005 was pre-specified to address the multiple planned analyses and help control the overall type I error rate.|Wilcoxon (Mann-Whitney)|||To determine whether torsemide reduces symptoms of depression at 12 months compared to Furosemide as assessed by the PHQ-2 among patients hospitalized for heart failure.||||0.342
82382739|NCT05161481|164475902|OTHER|"The adjusted mean values for percentage change at Week 24 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|-8.4|STANDARD_ERROR_OF_MEAN|8.9|||TWO_SIDED|95.0|-26.25|9.45||||||Model includes baseline HVPG as linear covariate and treatment and use of NSBBs or carvedilol as fixed effects, treatment by visit interaction and baseline HVPG by visit interaction. The following covariance structure has been used to fit the mixed model: Unstructured.||9.45|-26.25|
82516908|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 6B should be ≥ 0.5.|GMC ratio|0.96|||||TWO_SIDED|95.0|0.83|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 6B.||1.12|0.83|
82636133|NCT01453439|164986850|SUPERIORITY||Median Difference (Net)|9.439|STANDARD_ERROR_OF_MEAN|3.4259||0.0069|TWO_SIDED|||||a priori significance level: 2-sided alpha=0.05 effect adjusted for site effects, time effects, and interactions|ANOVA|repeated measures 3-way ANOVA (treatment group, site, time (repeated)) effect of interest: main effect of treatment: F(num df=1, den df=110) = 7.59|Least Squares Mean difference|Null hypotheses: There is no significant difference in patient expectancy of improvement between BDD patients assigned to CBT vs. SPT.||||0.0069
82516909|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 7F should be ≥ 0.5.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.08|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 7F.||1.08|0.91|
82516910|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 9V should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 9V.||1.14|0.93|
82516911|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 14 should be ≥ 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 14.||1.13|0.89|
82516912|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 18C should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.92|1.14|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 18C.||1.14|0.92|
82516913|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 19A should be ≥ 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.93|1.15|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 19A.||1.15|0.93|
82516914|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 19F should be ≥ 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.95|1.12|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 19F.||1.12|0.95|
82516915|NCT03207750|164726882|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% CI on GMC ratios (HRV PCV-free Liquid group over HRV Lyophilized group) for S. pneumoniae serotype 23F should be ≥ 0.5.|GMC ratio|0.98|||||TWO_SIDED|95.0|0.87|1.1|||ANOVA|ANOVA model that included the vaccine group as fixed effect.||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of GMC ratios for Streptococcus pneumoniae (S. pneumoniae) serotype 23F.||1.10|0.87|
82570926|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4471|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4471
82570927|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7248|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7248
82570928|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7556|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7556
82570929|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0571|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0571
82570930|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0197|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0197
82570931|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2398|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2398
82570932|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0709|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0709
82570933|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9902|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9902
82570934|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0018
82570935|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4639|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4639
82570936|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4845|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4845
82570937|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1641|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1641
82570938|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1025|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1025
82636134|NCT01014442|164986851|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|1.305||||0.2649|TWO_SIDED|95.0|-0.83|4.25|||Wilcoxon rank sum test|||Cmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.2500|-0.8300|0.2649
82516916|NCT03207750|164726883|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentrations (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-PRP antibodies should be ≥-5%.|Difference in anti-PRP concentration|0.17|||||TWO_SIDED|95.0|-1.94|2.28||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with concentrations (≥ 0.15 µg/mL) of anti-PRP antibodies.||2.28|-1.94|
82516917|NCT03207750|164726884|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in seroprotective concentrations (HRV PCV-free Liquid group minus HRV Lyophilized group) for each of anti-PRP antibodies should be ≥-10%.|Difference in anti-PRP concentration|-0.88|||||TWO_SIDED|95.0|-5.75|3.99||||||Non-inferiority of the immune responses to 3 doses of Pediarix, Hiberix and Prevenar 13 when co-administered with 2 doses of the PCV-free liquid HRV vaccine, as compared to when co-administered with lyophilized HRV vaccine in terms of group difference in percentage of subjects with concentrations (≥ 1.0 µg/mL) of anti-PRP antibodies.||3.99|-5.75|
82516918|NCT03207750|164726885|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for PT antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV Lyophilized group||To rule out 10% decrease in seroresponse to PT antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
82516919|NCT03207750|164726885|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for FHA antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV lyophilized group||To rule out 10% decrease in seroresponse to FHA antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
82516920|NCT03207750|164726885|OTHER|p-value on the difference in seroresponse (HRV PCV-free Liquid group minus HRV Lyophilized group) between groups should be \<=0.025 for PRN antigen.|||||<|0.0001|||||||t-test, 1 sided|p-value was computed by integrating on p-values of 1 sided test with alpha=0.025 \& the posterior probability of the cut-off in HRV Lyophilized group||To rule out 10% decrease in seroresponse to PRN antigen in subjects who received Pediarix co-administered with PCV-free-Liquid-HRV vaccine compared to subjects who received Pediarix co-administered with currently licensed lyophilized HRV vaccine where seroresponse was defined as percentage of subjects who showed a concentration above a threshold that led to 95% seroresponse in HRV lyophilized group.||||<.0001
82516921|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.222||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.222
82516922|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.107
82516923|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.127
82516924|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.954
82636135|NCT01014442|164986851|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|11.405||||0.3113|TWO_SIDED|95.0|-10.2|42.78|||Wilcoxon rank sum test|||Cmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||42.7800|-10.2000|0.3113
82636136|NCT01014442|164986851|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.305||||0.2953|TWO_SIDED|95.0|-0.81|0.19|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.8100|0.2953
82516925|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.385
82516926|NCT01046643|164726906|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.310
82516927|NCT01046643|164726907|SUPERIORITY_OR_OTHER|||||||0.594||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.594
82636137|NCT01014442|164986852|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.29||||0.1308|TWO_SIDED|95.0|-2.99|0.41|||Wilcoxon rank sum test|||Cmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.4100|-2.9900|0.1308
82516928|NCT01046643|164726907|SUPERIORITY_OR_OTHER|||||||0.653||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.653
82516929|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.452
82516930|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.868||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.868
82516931|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.549
82516932|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||Category = Medial Frontal Cortex|t-test, 2 sided|||"Category = Medial Frontal Cortex~p-value for null hypothesis = \<0.05"||||.124
82516933|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||Category = Left Hippocampus|t-test, 2 sided|||"Category = Left Hippocampus~p-value for null hypothesis = \<0.05"||||.158
82516934|NCT01046643|164726908|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Category = Right Hippocampus|t-test, 2 sided|||"Category = Right Hippocampus~p-value for null hypothesis = \<0.05"||||.055
82516935|NCT01046643|164726909|SUPERIORITY_OR_OTHER|||||||0.561||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.561
82516936|NCT01046643|164726909|SUPERIORITY_OR_OTHER|||||||0.726||95.0|||||t-test, 2 sided|||p-value for null hypothesis = \<0.05||||.726
82516937|NCT00289341|164726927|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||for injection site reaction only||||0.001
82516938|NCT00289341|164726927|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||Fisher Exact|||for all other adverse events||||>0.2
82636138|NCT01014442|164986852|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-10.845||||0.4886|TWO_SIDED|95.0|-31.5|20.79|||Wilcoxon rank sum test|||Cmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||20.7900|-31.5000|0.4886
82570939|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5615|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5615
82516939|NCT00289341|164726929|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Linear Spline model|||||||0.016
82516940|NCT03893448|164726930|OTHER||Percentage Point Difference|-4.8|||=|0.039|TWO_SIDED|95.0|-9.3|-0.2|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site erythema Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.2|-9.3|= 0.039
82516941|NCT03893448|164726930|OTHER||Percentage Point Difference|-0.4|||=|0.836|TWO_SIDED|95.0|-4.6|3.7|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site induration Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||3.7|-4.6|= 0.836
82516942|NCT03893448|164726930|OTHER||Percentage Point Difference|2.9|||=|0.235|TWO_SIDED|95.0|-1.9|7.6|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site pain Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||7.6|-1.9|= 0.235
82516943|NCT03893448|164726930|OTHER||Percentage Point Difference|2.4|||=|0.26|TWO_SIDED|95.0|-1.7|6.5|||Miettinen & Nurminen||V114-Prevnar 13™|Injection site swelling Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||6.5|-1.7|= 0.260
82516944|NCT03893448|164726931|OTHER||Percentage Point Difference|-1.8|||=|0.446|TWO_SIDED|95.0|-6.3|2.8|||Miettinen & Nurminen||V114-Prevnar 13™|Decreased appetite Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.8|-6.3|= 0.446
82516945|NCT03893448|164726931|OTHER||Percentage Point Difference|1.0|||=|0.622|TWO_SIDED|95.0|-3.0|5.1|||Miettinen & Nurminen||V114-Prevnar 13™|Irritability Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||5.1|-3.0|= 0.622
82516946|NCT03893448|164726931|OTHER||Percentage Point Difference|-3.0|||=|0.202|TWO_SIDED|95.0|-7.6|1.6|||Miettinen & Nurminen||V114-Prevnar 13™|Somnolence (drowsiness) Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||1.6|-7.6|= 0.202
82516947|NCT03893448|164726931|OTHER||Percentage Point Difference|0.0|||=|0.985|TWO_SIDED|95.0|-2.4|2.3|||Miettinen & Nurminen||V114-Prevnar 13™|Urticaria (Hives) Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.3|-2.4|= 0.985
82516948|NCT03893448|164726932|OTHER||Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||V114-Prevnar 13™|Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.4|-0.4|
82516949|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-5.2|-1.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 1 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-1.8|-5.2|< 0.001
82516950|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|15.6|||<|0.001|TWO_SIDED|95.0|12.1|19.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 3 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||19.2|12.1|< 0.001
82636139|NCT01014442|164986852|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.2||||0.2218|TWO_SIDED|95.0|-0.6|0.19|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.6000|0.2218
82636140|NCT01014442|164986853|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.87||||0.0886|TWO_SIDED|95.0|-3.79|0.28|||Wilcoxon rank sum test|||Cmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2800|-3.7900|0.0886
82636141|NCT01014442|164986853|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-30.76||||0.022|TWO_SIDED|95.0|-54.97|-6.36|||Wilcoxon rank sum test|||Cmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-6.3600|-54.9700|0.0220
82516951|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.0|-0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 4 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.6|-4.0|< 0.001
82516952|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-2.1|||<|0.001|TWO_SIDED|95.0|-4.2|-0.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 5 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.2|-4.2|< 0.001
82516953|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-4.9|||<|0.001|TWO_SIDED|95.0|-7.1|-3.0||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 6A Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-3.0|-7.1|< 0.001
82516954|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-6.6|-0.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 6B Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.3|-6.6|< 0.001
82516955|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.9|-0.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 7F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.1|-1.9|< 0.001
82516956|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-2.8|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 9V Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.6|-2.8|< 0.001
82516957|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.6|1.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 14 Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||1.6|-1.6|< 0.001
82516958|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.6|0.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 18C Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||0.7|-2.6|< 0.001
82516959|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.8|||<|0.001|TWO_SIDED|95.0|-3.2|-0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 19A Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.8|-3.2|< 0.001
82516960|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-2.1|-0.4||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 19F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-0.4|-2.1|< 0.001
82636142|NCT01014442|164986853|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.56||||0.0008|TWO_SIDED|95.0|-1.02|-0.27|||Wilcoxon rank sum test|||Cmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.2700|-1.0200|0.0008
82570940|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2904|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2904
82570941|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6017|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6017
82570942|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8549|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8549
82570943|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3386|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3386
82570944|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7070
82570945|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5244|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5244
82636143|NCT01014442|164986854|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|3.945||||0.0318|TWO_SIDED|95.0|0.25|8.23|||Wilcoxon rank sum test|||Cmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.2300|0.2500|0.0318
82636144|NCT01014442|164986854|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-7.59||||0.7144|TWO_SIDED|95.0|-51.19|30.7|||Wilcoxon rank sum test|||Cmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.7000|-51.1900|0.7144
82636145|NCT01014442|164986854|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.27||||0.393|TWO_SIDED|95.0|-0.31|0.88|||Wilcoxon rank sum test|||Cmax of AcMPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.8800|-0.3100|0.3930
82636146|NCT01014442|164986855|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|17.08||||0.3002|TWO_SIDED|95.0|-16.5|74.32|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||74.3200|-16.5000|0.3002
82570946|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4245|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4245
82570947|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8624|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8624
82570948|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7552|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7552
82570949|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7329|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7329
82636147|NCT01014442|164986856|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-25.24||||0.0334|TWO_SIDED|95.0|-53.25|-2.29|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-2.2900|-53.2500|0.0334
82636148|NCT01014442|164986857|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-23.805||||0.1151|TWO_SIDED|95.0|-52.27|5.97|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||5.9700|-52.2700|0.1151
82516961|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-3.2|2.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 23F Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||2.7|-3.2|< 0.001
82516962|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|6.7|||<|0.001|TWO_SIDED|95.0|4.6|9.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 22F This analysis represents the difference between response rate to Serotype 22F in recipients of V114 and lowest response (Serotype 23F at 91.8) in recipients of Prevnar 13™ for shared serotypes, excluding serotype 3. Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||9.2|4.6|< 0.001
82516963|NCT03893448|164726933|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Point Difference|-4.5|||<|0.001|TWO_SIDED|95.0|-7.8|-1.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 33F This analysis represents the difference between response rate to Serotype 33F in recipients of V114 and lowest response (Serotype 23F at 91.8) in recipients of Prevnar 13™ for shared serotypes, excluding serotype 3. Estimated difference, CI, and p-value are calculated based on the Miettinen \& Nurminen method||-1.3|-7.8|< 0.001
82516964|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.64|||<|0.001|TWO_SIDED|95.0|0.59|0.69|||t-test, 1 sided||V114/Prevnar 13™|Serotype 1 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.69|0.59|< 0.001
82636149|NCT01014442|164986858|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-15.63||||0.5974|TWO_SIDED|95.0|-63.88|30.56|||Wilcoxon rank sum test|||Cmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.5600|-63.8800|0.5974
82516965|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.73|||<|0.001|TWO_SIDED|95.0|1.61|1.87|||t-test, 1 sided||V114/Prevnar 13™|Serotype 3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.87|1.61|< 0.001
82516966|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.95|||<|0.001|TWO_SIDED|95.0|0.88|1.03|||t-test, 1 sided||V114/Prevnar 13™|Serotype 4 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.03|0.88|< 0.001
82516967|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.72|||<|0.001|TWO_SIDED|95.0|0.66|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 5 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.66|< 0.001
82516968|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.52|||=|0.167|TWO_SIDED|95.0|0.48|0.58|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.58|0.48|= 0.167
82570950|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3053|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3053
82636150|NCT01014442|164986859|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0005||||0.5466|TWO_SIDED|95.0|-0.00103|0.00259|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00259|-0.00103|0.5466
82570951|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5290
82570952|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7951|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7951
82570953|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.715|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7150
82570954|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4566|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4566
82570955|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7750
82636151|NCT01014442|164986859|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00728||||0.3223|TWO_SIDED|95.0|-0.00707|0.03161|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.03161|-0.00707|0.3223
82516969|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.81|||<|0.001|TWO_SIDED|95.0|0.71|0.93|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6B GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.93|0.71|< 0.001
82516970|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 7F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.71|< 0.001
82516971|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.91|||<|0.001|TWO_SIDED|95.0|0.84|1.0|||t-test, 1 sided||V114/Prevnar 13™|Serotype 9V GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.00|0.84|< 0.001
82516972|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.78|||t-test, 1 sided||V114/Prevnar 13™|Serotype 14 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.78|0.63|< 0.001
82516973|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.76|||<|0.001|TWO_SIDED|95.0|0.7|0.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 18C GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.70|< 0.001
82570956|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9241|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9241
82570957|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8994|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8994
82570958|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2088|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2088
82636152|NCT01014442|164986859|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00026||||0.2108|TWO_SIDED|95.0|-0.0007|0.00012|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00012|-0.00070|0.2108
82636153|NCT01014442|164986859|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0000112||||0.4334|TWO_SIDED|95.0|-0.000014|0.0000462|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called a Hodges-Lehmann estimator.||0.0000462|-0.0000140|0.4334
82636154|NCT01014442|164986860|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00081||||0.1511|TWO_SIDED|95.0|-0.00216|0.0003|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00030|-0.00216|0.1511
82636155|NCT01014442|164986860|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00695||||0.4131|TWO_SIDED|95.0|-0.0205|0.01103|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.01103|-0.02050|0.4131
82636156|NCT01014442|164986860|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00017||||0.2677|TWO_SIDED|95.0|-0.00046|0.00013|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00013|-0.00046|0.2677
82636157|NCT01014442|164986860|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000185||||0.0173|TWO_SIDED|95.0|-0.0000394|-0.000005|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0000050|-0.0000394|0.0173
82636158|NCT01014442|164986861|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00063||||0.3784|TWO_SIDED|95.0|-0.0023|0.00084|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00084|-0.00230|0.3784
82570959|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2152|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2152
82570960|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7662|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7662
82636159|NCT01014442|164986861|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.01602||||0.0942|TWO_SIDED|95.0|-0.03229|0.00297|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00297|-0.03229|0.0942
82516974|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.71|||<|0.001|TWO_SIDED|95.0|0.65|0.77|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.77|0.65|< 0.001
82516975|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.69|0.79|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.79|0.69|< 0.001
82516976|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||t-test, 1 sided||V114/Prevnar 13™|Serotype 23F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.99|0.80|< 0.001
82516977|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|3.64|||<|0.001|TWO_SIDED|95.0|3.33|3.98|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F IgG GMC for Serotype 22F in recipients of V114 was compared to lowest IgG GMC (Serotype 4 at 1.35 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||3.98|3.33|< 0.001
82516978|NCT03893448|164726934|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.24|||<|0.001|TWO_SIDED|95.0|1.1|1.39|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F IgG GMC for Serotype 33F in recipients of V114 was compared to lowest IgG GMC (Serotype 4 at 1.35 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.39|1.10|< 0.001
82516979|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.66|||<|0.001|TWO_SIDED|95.0|0.62|0.72|||t-test, 1 sided||V114/Prevnar 13™|Serotype 1 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.72|0.62|< 0.001
82382740|NCT05161481|164475902|OTHER|"The adjusted mean values for percentage change at Week 24 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|-14.18|STANDARD_ERROR_OF_MEAN|9.93|||TWO_SIDED|95.0|-34.09|5.72||||||Model includes baseline HVPG as linear covariate and treatment and use of NSBBs or carvedilol as fixed effects, treatment by visit interaction and baseline HVPG by visit interaction. The following covariance structure has been used to fit the mixed model: Unstructured.||5.72|-34.09|
82382741|NCT05161481|164475903|OTHER|"The adjusted mean values for percentage change at Week 8 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|3.51|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|95.0|-8.94|15.96||||||The analysis of covariance (ANCOVA) model includes baseline hepatic venous pressure gradient (HVPG) as a linear covariate, with treatment and use of non-selective beta-blockers (NSBBs) or carvedilol as fixed effects. All intercurrent events (ICEs) will be handled using the treatment policy for the primary objective as a sensitivity analysis. That is, all data collected after the intercurrent events will be included in the analysis.||15.96|-8.94|
82570961|NCT00551135|164852341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7579|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from sitting (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7579
82570962|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6896|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6896
82636160|NCT01014442|164986861|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00037||||0.0032|TWO_SIDED|95.0|-0.00062|-0.00015|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00015|-0.00062|0.0032
82636161|NCT01014442|164986861|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000126||||0.176|TWO_SIDED|95.0|-0.0000328|-0.0000091|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0000091|-0.0000328|0.1760
82516980|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.35|||<|0.001|TWO_SIDED|95.0|1.25|1.46|||t-test, 1 sided||V114/Prevnar 13™|Serotype 3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.46|1.25|< 0.001
82636162|NCT01014442|164986862|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0043||||0.0509|TWO_SIDED|95.0|-0.00027|0.00833|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00833|-0.00027|0.0509
82636163|NCT01014442|164986862|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00567||||0.8262|TWO_SIDED|95.0|-0.03414|0.02671|||Wilcoxon rank sum test|||Dose-Normalized Cmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.02671|-0.03414|0.8262
82382742|NCT05161481|164475903|OTHER|"The adjusted mean values for percentage change at Week 8 are derived for each group using the MMRM. The mean difference for the Comparison vs Placebo, is the adjusted mean of the treatment group subtracted from the adjusted mean of the placebo group."|Difference of adjusted means|2.69|STANDARD_ERROR_OF_MEAN|6.82|||TWO_SIDED|95.0|-10.94|16.33||||||ANCOVA) model includes baseline hepatic venous pressure gradient (HVPG) as a linear covariate, with treatment and use of non-selective beta-blockers (NSBBs) or carvedilol as fixed effects. All intercurrent events (ICEs) will be handled using the treatment policy for the primary objective as a sensitivity analysis. That is, all data collected after the intercurrent events will be included in the analysis.||16.33|-10.94|
82516981|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.77|||<|0.001|TWO_SIDED|95.0|0.71|0.84|||t-test, 1 sided||V114/Prevnar 13™|Serotype 4 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.84|0.71|< 0.001
82516982|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.63|||<|0.001|TWO_SIDED|95.0|0.58|0.69|||t-test, 1 sided||V114/Prevnar 13™|Serotype 5 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.69|0.58|< 0.001
82516983|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.6|||<|0.001|TWO_SIDED|95.0|0.54|0.65|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.65|0.54|< 0.001
82516984|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.81|||t-test, 1 sided||V114/Prevnar 13™|Serotype 6B GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.81|0.67|< 0.001
82516985|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.7|||<|0.001|TWO_SIDED|95.0|0.65|0.77|||t-test, 1 sided||V114/Prevnar 13™|Serotype 7F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.77|0.65|< 0.001
82516986|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 9V GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.67|< 0.001
82570963|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1934|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1934
82570964|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6034|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6034
82516987|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.81|||<|0.001|TWO_SIDED|95.0|0.73|0.89|||t-test, 1 sided||V114/Prevnar 13™|Serotype 14 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.89|0.73|< 0.001
82516988|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.85|||<|0.001|TWO_SIDED|95.0|0.78|0.93|||t-test, 1 sided||V114/Prevnar 13™|Serotype 18C GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.93|0.78|< 0.001
82516989|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.8|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19A GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.80|0.68|< 0.001
82570965|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7992|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7992
82516990|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.79|||<|0.001|TWO_SIDED|95.0|0.74|0.86|||t-test, 1 sided||V114/Prevnar 13™|Serotype 19F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.86|0.74|< 0.001
82516991|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.61|||<|0.001|TWO_SIDED|95.0|0.56|0.68|||t-test, 1 sided||V114/Prevnar 13™|Serotype 23F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.68|0.56|< 0.001
82516992|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|4.69|||<|0.001|TWO_SIDED|95.0|4.3|5.11|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F IgG GMC for Serotype 22F in recipients of V114 was compared to the lowest IgG GMC (Serotype 4 at 1.60 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||5.11|4.30|< 0.001
82570966|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4770
82570967|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8730
82570968|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2000
82636164|NCT01014442|164986862|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00023||||0.4345|TWO_SIDED|95.0|-0.0003|0.0007|||Wilcoxon rank sum test|||Dose-Normalized Cmax of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00070|-0.00030|0.4345
82382743|NCT04846569|164475912|SUPERIORITY||Mean Difference (Final Values)|0.004|||||TWO_SIDED|95.0|-0.38|0.39||||||||0.39|-0.38|
82516993|NCT03893448|164726935|NON_INFERIORITY|A conclusion of non-inferiority of V114 to Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|2.59|||<|0.001|TWO_SIDED|95.0|2.36|2.83|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F IgG GMC for Serotype 33F in recipients of V114 was compared to the lowest IgG GMC (Serotype 4 at 1.60 ug/mL) for shared serotype in recipients of Prevnar 13™, excluding serotype 3. GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||2.83|2.36|< 0.001
82382744|NCT04846569|164475913|SUPERIORITY||Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-0.78|0.47||||||||0.47|-0.78|
82516994|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-2.6|1.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Diphtheria toxoid % ≥0.1 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.1|-2.6|< 0.001
82516995|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.4|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Tetanus toxoid: % ≥0.1 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-0.4|< 0.001
82516996|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|0.5|||<|0.001|TWO_SIDED|95.0|-0.7|1.9||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis toxin (PT): % ≥ 5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.9|-0.7|< 0.001
82516997|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-1.3|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis filamentous hemagglutinin (FHA): % ≥5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-1.3|< 0.001
82570969|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5059|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5059
82382745|NCT04846569|164475914|SUPERIORITY|||||||||||||||||All participants who we were able to obtain records for were virally suppressed thus an effect size was unable to be calculated.|All participants who we were able to obtain records for were virally suppressed thus an effect size was unable to be calculated as originally planned.|||
82382746|NCT04846569|164475915|SUPERIORITY||Median Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.53||||||||0.53|-0.20|
82382747|NCT04846569|164475916|OTHER|Qualitative data analysis|||||||||||||||||Thematic qualitative data analysis was conducted to determine the count of participants reporting positively about the intervention|||
82382748|NCT03982511|164476048|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.73|TWO_SIDED|||||Given that this is a pilot RCT, primary aim is to estimate effect sizes for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures|Effect size: 0.17|Difference on difference from T2 to T1 for BMI z-score||||.73
82516998|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|2.0|||<|0.001|TWO_SIDED|95.0|-3.1|7.1||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis fimbrae types 2/3 (FIM 2/3): % ≥20 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||7.1|-3.1|< 0.001
82516999|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|1.8|||<|0.001|TWO_SIDED|95.0|-3.2|6.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Pertussis pertactin (PRN): % ≥5 EU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||6.8|-3.2|< 0.001
82517000|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.8||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 1: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.8|-0.7|< 0.001
82570970|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0348|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0348
82382749|NCT03982511|164476048|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.98|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI z-score from T3 to T1|Effect size: -0.01|||.98
82570971|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3815|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3815
82570972|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4716|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4716
82570973|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1063|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1063
82570974|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3884|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3884
82570975|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3787|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3787
82382750|NCT03982511|164476048|SUPERIORITY||Mean Difference (Net)|1.93|STANDARD_ERROR_OF_MEAN|3.97||0.63|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI percentile from T2 to T1|Effect size: 0.24|||0.63
82570976|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2537|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2537
82570977|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0952|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0952
82570978|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7725|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7725
82570979|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.066|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0660
82570980|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3657|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3657
82570981|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7717|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7717
82570982|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5849|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5849
82382751|NCT03982511|164476048|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|4.51||0.96|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for BMI percentile from T3 to T1|Effect size: 0.03|||0.96
82570983|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9580
82570984|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9884|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9884
82570985|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6743|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6743
82517001|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.6|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 2: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.6|-0.6|< 0.001
82517002|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.6|0.6||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Poliovirus 3: % NAb ≥1:8 dilution Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.6|-0.6|< 0.001
82517003|NCT03893448|164726936|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-4.3|1.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Haemophilus influenzae Type B polyribosylribitol phosphate (Hib-PRP): % ≥0.15 ug/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.5|-4.3|< 0.001
82517004|NCT03893448|164726937|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.09|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - PT GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.09|0.89|< 0.001
82517005|NCT03893448|164726937|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|0.98|||<|0.001|TWO_SIDED|95.0|0.87|1.09|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - FHA GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.09|0.87|< 0.001
82517006|NCT03893448|164726937|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.08|||<|0.001|TWO_SIDED|95.0|0.91|1.28|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - FIM 2/3 GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.28|0.91|< 0.001
82570986|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2689|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2689
82636165|NCT01014442|164986862|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00001||||0.6472|TWO_SIDED|95.0|-0.0000586|0.0000364|||Wilcoxon rank sum test|||Dose-Normalized Cmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000364|-0.0000586|0.6472
82570987|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6907|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6907
82570988|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4798|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4798
82570989|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5609
82570990|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9834|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9834
82570991|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8339|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8339
82570992|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8730
82570993|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6327|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6327
82570994|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3986|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3986
82382752|NCT03982511|164476049|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for Emotion regulation subscale from T2 to T1|Effect size: 0.79|||0.12
82382753|NCT03982511|164476049|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.96|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for emotion regulation subscale from T3 to T1|Effect size: -0.02|||0.96
82382754|NCT03982511|164476050|SUPERIORITY||Mean Difference (Net)|-6.08|STANDARD_ERROR_OF_MEAN|5.42||0.28|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for child weekly screen time from T2 to T1|Effect size: -0.41|||0.28
82570995|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.637|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6370
82570996|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9869|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9869
82570997|NCT00551135|164852342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.755|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from walking (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7550
82570998|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2912|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2912
82570999|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3723|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3723
82571000|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6116|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6116
82517007|NCT03893448|164726937|NON_INFERIORITY|A conclusion of non-inferiority of Pentacel™ administered concomitantly with V114 to Pentacel™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevnar 13™) being \>0.67 (1-sided p-value \<0.025).|GMC Ratio (V114 / Prevnar 13™)|1.0|||<|0.001|TWO_SIDED|95.0|0.84|1.19|||t-test, 1 sided||V114/Prevnar 13™|Pertussis - PRN GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.19|0.84|< 0.001
82517008|NCT03893448|164726938|NON_INFERIORITY|A conclusion of non-inferiority of VAQTA™ administered concomitantly with V114 to VAQTA™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|0.3|||<|0.001|TWO_SIDED|95.0|-1.6|2.2||p value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||2.2|-1.6|< 0.001
82571001|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0835|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0835
82571002|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1497|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1497
82571003|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.395|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3950
82571004|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5892|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5892
82517009|NCT03893448|164726939|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.8|1.3||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Measles antigen ≥255 mIU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||1.3|-1.8|< 0.001
82571005|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6143|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6143
82636166|NCT01014442|164986863|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0333||||0.5745|TWO_SIDED|95.0|-1.95|0.5|||Wilcoxon rank sum test|||Tmax of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5000|-1.9500|0.5745
82382755|NCT03982511|164476050|SUPERIORITY||Mean Difference (Net)|5.83|STANDARD_ERROR_OF_MEAN|7.17||0.43|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for child weekly screen time from T3 to T1|Effect size: 0.42|||0.43
82517010|NCT03893448|164726939|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-3.8|0.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Mumps antigen ≥10 mumps Ab units/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.2|-3.8|< 0.001
82571006|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0104
82571007|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5666|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5666
82571008|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9008|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9008
82571009|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0967|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0967
82571010|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8353|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8353
82571011|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.453|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4530
82517011|NCT03893448|164726939|NON_INFERIORITY|A conclusion of non-inferiority of M-M-R™ II administered concomitantly with V114 to M-M-R™ II administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -5% (1-sided p-value \<0.025).|Percentage Point Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.3|0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Rubella antigen ≥10 IU/mL Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.5|-2.3|< 0.001
82517012|NCT03893448|164726940|NON_INFERIORITY|A conclusion of non-inferiority of VARIVAX™ administered concomitantly with V114 to VARIVAX™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-3.2|0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||0.5|-3.2|< 0.001
82517013|NCT03893448|164726941|NON_INFERIORITY|A conclusion of non-inferiority of HIBERIX™ administered concomitantly with V114 to HIBERIX™ administered concomitantly with Prevnar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevnar 13™) being greater than -10% (1-sided p-value \<0.025).|Percentage Point Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-2.2|-0.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||-0.5|-2.2|< 0.001
82517014|NCT03893448|164726942|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|92.03|||<|0.001|TWO_SIDED|95.0|83.47|101.47|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||101.47|83.47|< 0.001
82517015|NCT03893448|164726942|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|29.5|||<|0.001|TWO_SIDED|95.0|26.16|33.26|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||33.26|26.16|< 0.001
82517016|NCT03893448|164726943|SUPERIORITY||Percentage Point Difference|95.1|||<|0.001|TWO_SIDED|95.0|93.1|96.5||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 22F Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||96.5|93.1|< 0.001
82517017|NCT03893448|164726943|SUPERIORITY||Percentage Point Difference|85.2|||<|0.001|TWO_SIDED|95.0|82.3|87.7||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Serotype 33F Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method.||87.7|82.3|< 0.001
82517018|NCT03893448|164726944|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|68.8|||<|0.001|TWO_SIDED|95.0|63.1|75.02|||t-test, 1 sided||V114/Prevnar 13™|Serotype 22F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||75.02|63.10|< 0.001
82517019|NCT03893448|164726944|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|44.91|||<|0.001|TWO_SIDED|95.0|41.04|49.14|||t-test, 1 sided||V114/Prevnar 13™|Serotype 33F GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||49.14|41.04|< 0.001
82517020|NCT03893448|164726947|SUPERIORITY||Percentage Point Difference|15.6|||<|0.001|TWO_SIDED|95.0|12.1|19.2||p-value is 1-sided|Miettinen & Nurminen||V114-Prevnar 13™|Estimated difference, CI, and p-value are based on the Miettinen \& Nurminen method||19.2|12.1|< 0.001
82571012|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7297|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7297
82517021|NCT03893448|164726948|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|1.73|||<|0.001|TWO_SIDED|95.0|1.61|1.87|||t-test, 1 sided||V114/Prevnar 13™|GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.87|1.61|< 0.001
82517022|NCT03893448|164726949|SUPERIORITY||GMC Ratio (V114 / Prevnar 13™)|1.35|||<|0.001|TWO_SIDED|95.0|1.25|1.46|||t-test, 1 sided||V114/Prevnar 13™|GMC ratio, CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.46|1.25|< 0.001
82517023|NCT04433767|164726987|OTHER||Slope|-1.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age and gender.||||||< 0.001
82636167|NCT01014442|164986863|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.8||||0.2003|TWO_SIDED|95.0|-2.3333|0.0833|||Wilcoxon rank sum test|||Tmax of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0833|-2.3333|0.2003
82636168|NCT01014442|164986863|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.5||||0.0929|TWO_SIDED|95.0|-2.0833|0.0|||Wilcoxon rank sum test|||Tmax of AcMPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.0833|0.0929
82382756|NCT03982511|164476051|SUPERIORITY||Mean Difference (Net)|35.32|STANDARD_ERROR_OF_MEAN|23.86||0.16|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference score for MVPA minutes from T2 to T1|Effect size: 0.85|||0.16
82382757|NCT03982511|164476051|SUPERIORITY|Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|Mean Difference (Net)|16.09|STANDARD_ERROR_OF_MEAN|30.32||0.61|TWO_SIDED||||||ANOVA|Repeated measures||Difference on difference score for MVPA minutes from T3 to T1|Effect size: 0.35|||0.61
82382758|NCT03982511|164476051|SUPERIORITY||Mean Difference (Net)|-64.4|STANDARD_ERROR_OF_MEAN|54.5||0.26|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference score for sedentary minutes from T2 to T1|Effect size: -0.68|||0.26
82382759|NCT03982511|164476051|SUPERIORITY||Mean Difference (Net)|66.25|STANDARD_ERROR_OF_MEAN|66.43||0.34|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference score for sedentary minutes from T3 to T1|effect size: 0.66|||0.34
82382760|NCT03982511|164476052|SUPERIORITY||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|0.75||0.41|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for parent-reported sleep time from T2 to T1|effect size: -0.41|||0.41
82382761|NCT03982511|164476052|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|0.95||0.16|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for parent-reported sleep time from T3 to T1|effect size: 0.76|||0.16
82382762|NCT03982511|164476053|SUPERIORITY||Mean Difference (Net)|-12.62|STANDARD_ERROR_OF_MEAN|14.84||0.42|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for actigraphy-recorded sleep time from T2 to T1|effect size: -0.54|||0.42
82382763|NCT03982511|164476053|SUPERIORITY||Mean Difference (Net)|-38.83|STANDARD_ERROR_OF_MEAN|16.61||0.04|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for actigraphy-recorded sleep time from T3 to T1|effect size: -1.56|||0.04
82382764|NCT03982511|164476054|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.26||0.77|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for problematic media use from T2 to T1|effect size: 0.15|||0.77
82382765|NCT03982511|164476054|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.28||0.47|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for problematic media use from T3 to T1|effect size: -0.38|||0.47
82382766|NCT03982511|164476055|SUPERIORITY||Mean Difference (Net)|9.11|STANDARD_ERROR_OF_MEAN|2.76||0.005|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for child-centered skills from T2 to T1|effect size: 1.65|||0.005
82636169|NCT01014442|164986863|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.0823|TWO_SIDED|95.0|0.0|0.0667|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0667|0.0000|0.0823
82382767|NCT03982511|164476055|SUPERIORITY||Mean Difference (Net)|8.22|STANDARD_ERROR_OF_MEAN|3.81||0.05|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for child-centered skills from T3 to T1|effect size: 1.20|||0.05
82382768|NCT03982511|164476056|SUPERIORITY||Mean Difference (Net)|-17.23|STANDARD_ERROR_OF_MEAN|6.93||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PCDI scores from T2 to T1.|effect size: -1.21|||0.02
82382769|NCT03982511|164476056|SUPERIORITY||Mean Difference (Net)|-19.43|STANDARD_ERROR_OF_MEAN|6.4||0.008|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PCDI scores from T3 to T1|effect size: -1.57|||0.008
82382770|NCT03982511|164476057|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.36||0.5|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for pressure to eat scores from T2 to T1|effect size: -0.34|||0.50
82382771|NCT03982511|164476057|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.37||0.98|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for pressure to eat scores from T3 to T1|effect size: -0.01|||0.98
82517024|NCT04433767|164726989|OTHER||Intercept|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0127|TWO_SIDED|95.0|0.04|0.32|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.32|0.04|0.0127
82517025|NCT04433767|164726990|OTHER||Intercept|0.34|STANDARD_ERROR_OF_MEAN|0.08||0.0005|TWO_SIDED|95.0|0.17|0.51|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.51|0.17|0.0005
82382772|NCT03982511|164476058|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.32||0.17|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive feeding scores from T2 to T1|effect size: -0.70|||0.17
82517026|NCT04433767|164726991|OTHER||Intercept|0.19|STANDARD_ERROR_OF_MEAN|0.11||0.1027|TWO_SIDED|95.0|-0.04|0.42|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.42|-0.04|0.1027
82517027|NCT04433767|164726992|OTHER||Intercept|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4846|TWO_SIDED|95.0|-0.18|0.37|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||0.37|-0.18|0.4846
82517028|NCT04433767|164726993|OTHER||Intercept|9.04|STANDARD_ERROR_OF_MEAN|25.77||0.729|TWO_SIDED|95.0|-44.28|62.36|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||62.36|-44.28|0.7290
82517029|NCT04433767|164726994|OTHER||Intercept|-0.25|STANDARD_ERROR_OF_MEAN|2.43||0.9196|TWO_SIDED|95.0|-5.28|4.78|||Regression, Linear|Adjusted for age, sex, education, and baseline task performance.||||4.78|-5.28|0.9196
82517030|NCT04433767|164726995|OTHER||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.033|TWO_SIDED|95.0|0.01|0.33|||Mixed Models Analysis|Adjusted for age and gender.||||0.33|0.01|0.033
82517031|NCT04433767|164726996|OTHER||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.09||0.041|TWO_SIDED|95.0|0.01|0.35|||Mixed Models Analysis|Adjusted for age and gender.||||0.35|0.01|0.041
82517032|NCT04433767|164726997|OTHER||Slope|-11.13|STANDARD_ERROR_OF_MEAN|3.36||0.001|TWO_SIDED|95.0|-17.81|-4.45|||Mixed Models Analysis|Adjusted for age and gender.||||-4.45|-17.81|0.001
82517033|NCT04433767|164726998|OTHER||Slope|-12.64|STANDARD_ERROR_OF_MEAN|3.68||0.001|TWO_SIDED|95.0|-19.94|-5.33|||Mixed Models Analysis|Adjusted for age and gender.||||-5.33|-19.94|0.001
82517034|NCT04433767|164726999|OTHER||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.15|-0.32|||Mixed Models Analysis|||||-0.32|-1.15|<0.001
82517035|NCT04433767|164727000|OTHER||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.92|-0.34|||Mixed Models Analysis|Adjusted for age and gender.||||-0.34|-0.92|0.001
82517036|NCT04433767|164727001|OTHER||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.65|-0.18|||Mixed Models Analysis|Adjusted for age and gender.||||-0.18|-0.65|<0.001
82517037|NCT04433767|164727002|OTHER||Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.35||0.183|TWO_SIDED|95.0|-1.17|0.23|||Mixed Models Analysis|Adjusted for age and gender.||||0.23|-1.17|0.183
82517038|NCT04433767|164727003|OTHER||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.17|TWO_SIDED|95.0|-0.74|0.13|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.13|-0.74|0.170
82517039|NCT04433767|164727004|OTHER||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.051|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.80|0.00|0.051
82517040|NCT04433767|164727005|OTHER||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.33|-0.11|||Mixed Models Analysis|Analyses adjusted for age and gender.||||-0.11|-0.33|<0.001
82517041|NCT04433767|164727006|OTHER||Slope|0.43|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED|95.0|0.17|0.69|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.69|0.17|0.002
82517042|NCT04433767|164727007|OTHER||Slope|0.52|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED|95.0|0.21|0.83|||Mixed Models Analysis|Analyses adjusted for age and gender.||||0.83|0.21|0.002
82636170|NCT01014442|164986864|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0417||||0.8106|TWO_SIDED|95.0|-0.5|1.7333|||Wilcoxon rank sum test|||Tmax of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.7333|-0.5000|0.8106
82517043|NCT04433767|164727008|OTHER||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.55||0.876|TWO_SIDED|95.0|-1.05|1.23|||Mixed Models Analysis|Analyses adjusted for age and gender.||||1.23|-1.05|0.876
82517044|NCT00298233|164727009|SUPERIORITY_OR_OTHER|||||||0.42||||||Significance assessed at the 5% level for a two-sided comparison|conditional univariate logistic regressi|analysis stratified by study site||Based on previous studies, assumption was made that 30% of children and 55% of adults treated with standard dose oseltamivir would test negative for virus on day five. This would require a sample size of 242 patients to show a 20% absolute improvement in cessation of viral shedding with 85% power and a two sided α of 0.05. To allow for study withdrawals, the target sample size was set at 300 patients.||||0.42
82517045|NCT00298233|164727010|SUPERIORITY_OR_OTHER|||||||0.54||||||Significance assessed at the 5% level for a two-sided comparison|Mantel Haenszel|||||||0.54
82517046|NCT00298233|164727011|SUPERIORITY_OR_OTHER|||||||0.54||||||Significance assessed at the 5% level for a two-sided comparison|Mantel Haenszel|Mantel-Haenszel chi-square stratified by study site||||||0.54
82517047|NCT00298233|164727012|SUPERIORITY_OR_OTHER|||||||0.48||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.48
82517048|NCT00298233|164727013|SUPERIORITY_OR_OTHER|||||||0.66||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.66
82517049|NCT00298233|164727014|SUPERIORITY_OR_OTHER|||||||0.58||||||Significance assessed at the 5% level for a two-sided comparison|Kruskal-Wallis|||||||0.58
82517050|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|82.58|STANDARD_DEVIATION|19.7|||TWO_SIDED|90.0|73.69|92.54|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||92.54|73.69|
82517051|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|83.34|STANDARD_DEVIATION|22.2|||TWO_SIDED|90.0|73.65|94.3|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||94.30|73.65|
82517052|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|83.92|STANDARD_DEVIATION|19.6|||TWO_SIDED|90.0|74.69|94.28|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||94.28|74.69|
82517053|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|92.9|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|88.94|97.04|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||97.04|88.94|
82571013|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0692
82571014|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6333|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6333
82571015|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0325|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0325
82571016|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5788|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5788
82571017|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9224|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9224
82517054|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|96.37|STANDARD_DEVIATION|12.7|||TWO_SIDED|90.0|91.55|101.43|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||101.43|91.55|
82517055|NCT01764945|164727020|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|94.44|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|89.88|99.24|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||99.24|89.88|
82571018|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5527|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5527
82571019|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2624|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2624
82636171|NCT01014442|164986864|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||1|TWO_SIDED|95.0|-0.1667|0.1667|||Wilcoxon rank sum test|||Tmax of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1667|-0.1667|1.0000
82382773|NCT03982511|164476058|SUPERIORITY||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.35||0.34|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive feeding scores from T3 to T1|effect size: -0.51|||0.34
82517056|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|74.07|STANDARD_DEVIATION|21.5|||TWO_SIDED|90.0|65.44|83.83|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||83.83|65.44|
82571020|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3263|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3263
82571021|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3746|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3746
82571022|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0050
82571023|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0493|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0493
82571024|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0773|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0773
82571025|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0547|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0547
82636172|NCT01014442|164986864|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0667||||0.6311|TWO_SIDED|95.0|-0.3333|1.4667|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.4667|-0.3333|0.6311
82382774|NCT03982511|164476059|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.23||0.91|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for emotional feeding scores from T2 to T1|effect size: -0.06|||0.91
82382775|NCT03982511|164476059|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.22||0.45|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for emotional feeding scores from T3 to T1|effect size: -0.40|||0.45
82517057|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|73.23|STANDARD_DEVIATION|26.2|||TWO_SIDED|90.0|63.33|84.68|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||84.68|63.33|
82517058|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.76|STANDARD_DEVIATION|22.7|||TWO_SIDED|90.0|68.94|89.99|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||89.99|68.94|
82517059|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.3|STANDARD_DEVIATION|22.5|||TWO_SIDED|90.0|71.42|85.84|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||85.84|71.42|
82517060|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.43|STANDARD_DEVIATION|30.4|||TWO_SIDED|90.0|69.54|88.46|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||88.46|69.54|
82517061|NCT01764945|164727021|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|78.09|STANDARD_DEVIATION|29.4|||TWO_SIDED|90.0|69.35|87.94|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||87.94|69.35|
82517062|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|82.02|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|75.98|88.55|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment B : treatment A)."||88.55|75.98|
82517063|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|80.93|STANDARD_DEVIATION|14.5|||TWO_SIDED|90.0|74.58|87.83|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment C : treatment A)."||87.83|74.58|
82517064|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|79.6|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|74.84|84.67|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 40 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment D : treatment A)."||84.67|74.84|
82517065|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|91.59|STANDARD_DEVIATION|11.0|||TWO_SIDED|90.0|87.53|95.84|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment F : treatment E)."||95.84|87.53|
82517066|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|94.38|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|89.76|99.24|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment G : treatment E)."||99.24|89.76|
82571026|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1976|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1976
82571027|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3832|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3832
82571028|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4216|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4216
82571029|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5852|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5852
82636173|NCT01014442|164986864|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.433|TWO_SIDED|95.0|-0.1667|0.0167|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0167|-0.1667|0.4330
82571030|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7336|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7336
82571031|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1647|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1647
82571032|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2813|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2813
82571033|NCT00551135|164852343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8423|TWO_SIDED||||||ANOVA|||EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain from coughing (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8423
82571034|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.397|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.3970
82571035|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.764|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.7640
82571036|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5064|TWO_SIDED||||||ANOVA|||"Sitting; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by sitting. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.5064
82382776|NCT03982511|164476060|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for instrumental feeding scores from T2 to T1.|effect size: -1.12|||0.03
82571037|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1318|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1318
82636174|NCT01014442|164986865|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||1|TWO_SIDED|95.0|-1.1667|0.5833|||Wilcoxon rank sum test|||Tmax of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5833|-1.1667|1.0000
82636175|NCT01014442|164986865|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0833||||0.4947|TWO_SIDED|95.0|-2.0|0.0833|||Wilcoxon rank sum test|||Tmax of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0833|-2.0000|0.4947
82382777|NCT03982511|164476060|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for instrumental feeding scores from T3 to T1|effect size: -1.25|||0.03
82517067|NCT01764945|164727022|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|92.91|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|88.42|97.63|||ANOVA||the standard deviation is actually the geometric coefficient of variation.|"relative bioavailability comparison of 120 mg faldaprevir soft gelatine capsules compared with the equivalent dose of an oral solution.~(treatment H : treatment E)."||97.63|88.42|
82517068|NCT01136291|164727034|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The homogeneity between the groups was compared by the Student's t test or the Mann-Whitney test for continuous variables and chi-square for categorical variables.A comparison between values before and after the study group session was performed by the Student's t test. The effect of the exercise was evaluated by repeated measures ANOVA, where the effect of time and group were evaluated on pressure, weight, Body Mass Index (BMI)and World Health Organization Quality of Life Questionnarie domains.||||<0.05
82517069|NCT02308033|164727049|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82517070|NCT02308033|164727050|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82517071|NCT02308033|164727051|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of normal Nugent scores at 7-14 days||||<0.001
82517072|NCT02308033|164727052|SUPERIORITY|||||||0.034|||||||Chi-squared, Corrected|||Comparison of the number of subjects whose reported their symptoms completely resolved||||0.034
82517073|NCT03325712|164727088|OTHER||Slope|0.8188|STANDARD_ERROR_OF_MEAN|0.0725|||TWO_SIDED|90.0|0.6966|0.941|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9410|0.6966|
82517074|NCT03325712|164727089|OTHER||Slope|0.7708|STANDARD_ERROR_OF_MEAN|0.0747|||TWO_SIDED|90.0|0.6449|0.8967|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.8967|0.6449|
82517075|NCT03325712|164727090|OTHER||Slope|0.7167|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|0.4922|0.9412|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9412|0.4922|
82517076|NCT03325712|164727091|OTHER||Slope|0.6825|STANDARD_ERROR_OF_MEAN|0.1344|||TWO_SIDED|90.0|0.4556|0.9094|||||Based on the estimate for slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is standard error of slope.|The basic model for the investigation of dose proportionality is a power model that describes the functional relationship between the dose and PK endpoints. Statistical hypotheses were not tested in a confirmatory sense.||0.9094|0.4556|
82636176|NCT01014442|164986865|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1667||||0.4425|TWO_SIDED|95.0|-1.9667|0.2|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2000|-1.9667|0.4425
82636177|NCT01014442|164986865|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0||||0.972|TWO_SIDED|95.0|-0.05|0.0333|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0333|-0.0500|0.9720
82517077|NCT03325712|164727092|OTHER||Ratio (T/R)|102.81|STANDARD_DEVIATION|17.5|||TWO_SIDED|90.0|87.18|121.25||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"Placebo matching BI 705564. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||121.25|87.18|
82517078|NCT03325712|164727092|OTHER||Ratio (T/R)|93.06|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|79.94|108.32||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 2. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||108.32|79.94|
82517079|NCT03325712|164727092|OTHER||Ratio (T/R)|109.82|STANDARD_DEVIATION|5.0|||TWO_SIDED|90.0|103.59|116.42||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 3. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||116.42|103.59|
82517080|NCT03325712|164727092|OTHER||Ratio ( T/R)|108.37|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|92.0|127.66||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 5. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||127.66|92.00|
82517081|NCT03325712|164727092|OTHER||Ratio (T/R)|109.11|STANDARD_DEVIATION|17.6|||TWO_SIDED|90.0|92.43|128.79||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 4. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||128.79|92.43|
82517082|NCT03325712|164727093|OTHER||Ratio (T/R)|100.1|STANDARD_DEVIATION|18.7|||TWO_SIDED|90.0|83.99|119.31||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"Placebo matching BI 705564. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||119.31|83.99|
82517083|NCT03325712|164727093|OTHER||Ratio (T/R)|84.43|STANDARD_DEVIATION|16.5|||TWO_SIDED|90.0|72.29|98.62||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 2. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||98.62|72.29|
82517084|NCT03325712|164727093|OTHER||Ratio (T/R)|109.41|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|94.34|126.88||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 3. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||126.88|94.34|
82517085|NCT03325712|164727093|OTHER||Ratio (T/R)|95.44|STANDARD_DEVIATION|19.1|||TWO_SIDED|90.0|79.75|114.21||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 5. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||114.21|79.75|
82517086|NCT03325712|164727093|OTHER||Ratio (T/R)|90.04|STANDARD_DEVIATION|25.9|||TWO_SIDED|90.0|70.75|114.59||||Standard deviation is intra-individual geometric coefficient of variation (%).|The effect of BI 705564 on midazolam is estimated by the ratio of the geometric mean (T/R) and confidence interval (CI). CI is calculated based on the residual error from ANOVA.|"BI 705564 dose group 4. Relative bioavailability of midazolam is analyzed using analysis of variance (ANOVA) model on logarithmic scale including random effects for subjects and fixed effects for time point."||114.59|70.75|
82517087|NCT05003791|164727094|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
82517088|NCT05003791|164727095|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
82517089|NCT05003791|164727096|OTHER|This was a cross-sectional design|||||<|0.05|||||||Regression, Linear|||||||<0.05
82517090|NCT01297062|164727097|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% confidence interval (CI), equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-1.36|||||TWO_SIDED|90.0|-2.21|-0.5||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-0.50|-2.21|
82636178|NCT01014442|164986866|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0333||||0.8834|TWO_SIDED|95.0|-1.1667|0.7|||Wilcoxon rank sum test|||Tmax of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.7000|-1.1667|0.8834
82517091|NCT01297062|164727098|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% CI, equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-2.02|||||TWO_SIDED|90.0|-2.88|-1.16||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-1.16|-2.88|
82517092|NCT01297062|164727099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is established if the upper limit of 2-sided 90% CI, equivalent to the upper limit of 1-sided 95% CI, for change from baseline in QTcP (exenatide - placebo) is below 10 msec.|Least Squares Mean Difference|-1.13|||||TWO_SIDED|90.0|-2.11|-0.15||No adjustment on CI for the primary outcome measure.|Mixed Models Analysis||The MMRM includes Treatment (Exenatide versus Placebo), Day, Time, Period, Sequence, and Day-Time-Treatment interaction as fixed effects, subject random intercept.|60 evaluable subjects gives more than 90% power to show non-inferiority of exenatide versus placebo, using t-test in 2-way crossover, alpha=0.05, true difference of 5 msec, and standard deviation of the within-subject difference of 10.04 msec.||-0.15|-2.11|
82517093|NCT01297062|164727100|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.47|||||TWO_SIDED|90.0|2.82|8.12|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||8.12|2.82|
82517094|NCT01297062|164727101|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.56|||||TWO_SIDED|90.0|8.46|12.67|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||12.67|8.46|
82571038|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9367
82636179|NCT01014442|164986866|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.8333||||0.0386|TWO_SIDED|95.0|-2.2|0.0|||Wilcoxon rank sum test|||Tmax of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.2000|0.0386
82382778|NCT03982511|164476061|SUPERIORITY||Mean Difference (Net)|2.23|STANDARD_ERROR_OF_MEAN|1.06||0.05|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for active mediation from T2 to T1|effect size: 1.02|||0.05
82382779|NCT03982511|164476061|SUPERIORITY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.47||0.11|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for active mediation scores from T3 to T1|effect size: 0.88|||0.11
82382780|NCT03982511|164476062|SUPERIORITY||Mean Difference (Net)|3.64|STANDARD_ERROR_OF_MEAN|1.0||0.002|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive mediation scores from T2 to T1|effect size: 1.77|||0.002
82382781|NCT03982511|164476062|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|1.08||0.24|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for restrictive mediation scores from T3 to T1|effect size: 0.63|||0.24
82382782|NCT03982511|164476063|SUPERIORITY||Mean Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|1.05||0.53|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for social coviewing from T2 to T1|effect size: 0.31|||0.53
82382783|NCT03982511|164476063|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|1.1||0.77|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for social coviewing from T3 to T1|effect size: 0.15|||0.77
82636180|NCT01014442|164986866|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.525||||0.0558|TWO_SIDED|95.0|-2.6167|0.0|||Wilcoxon rank sum test|||Tmax of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000|-2.6167|0.0558
82382784|NCT03982511|164476064|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.23||0.91|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in the home from T2 to T1|effect size: 0.04|||0.91
82382785|NCT03982511|164476064|SUPERIORITY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|1.36||0.64|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in the home from T3 to T1|effect size: 0.17|||0.64
82517095|NCT01297062|164727102|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.92|||||TWO_SIDED|90.0|8.71|13.13|||Mixed Models Analysis||The MMRM includes Treatment (Moxifloxacin versus Placebo), Time, Period, Sequence, and Time-Treatment interaction as fixed effects, subject random intercept. Multiplicity adjusted CI for the mean difference is shown.|Assay sensitivity of moxifloxacin is established if the lower limit of the 2-sided 90% CI for difference in change from baseline in QTcP (moxifloxacin - placebo) is greater than 5 msec.||13.13|8.71|
82636181|NCT01014442|164986866|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.15||||0.0082|TWO_SIDED|95.0|-0.2333|-0.0667|||Wilcoxon rank sum test|||Tmax of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0667|-0.2333|0.0082
82517096|NCT01297062|164727105|SUPERIORITY_OR_OTHER||Slope|0.0008||||0.5962|TWO_SIDED|90.0|-0.0017|0.0033|||Mixed Models Analysis||The linear mixed-effects model includes placebo-adjusted change from baseline in QTcP as response, plasma exenatide concentration as covariate, fixed intercept of zero, subject random slope.|The analysis is to test the significance of the linear regression slope (null hypothesis: slope equal to zero) between placebo-adjusted change from baseline in QTcP and exenatide concentration.||0.0033|-0.0017|0.5962
82517097|NCT01422070|164727125|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63|||<|0.05|TWO_SIDED|95.0|0.45|0.88|||generalized estimating equation|Generalized estimating equation adjusts the confidence interval for the correlation of outcomes within-centre.|The fully adjusted multivariable logistic regression analysis showed an OR of 0.63 in favour of the presence of an intermediate care unit in the hospital|The null hypothesis was that hospital mortality of patients admitted to intensive care units with intermediate care unit in the hospital is similar to that of the patients admitted to intensive care units without intermediate care unit in the hospital||0.88|0.45|<0.05
82517098|NCT04369469|164727132|OTHER||Risk Difference (RD)|-0.0205||||0.6059|TWO_SIDED|95.0|-0.1703|0.1293||One-sided Mantel-Haenszel test of the difference in two proportions stratified by intubated or not intubated on Day 1 and a family-wise Type I error of 0.025.|Mantel Haenszel||Two-sided 95% confidence interval using the Sato variance estimator, combined overall imputations.|||0.1293|-0.1703|0.6059
82517099|NCT04745169|164727166|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82517100|NCT04745169|164727167|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82517101|NCT04745169|164727168|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82517102|NCT04745169|164727169|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82517103|NCT04745169|164727170|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82517104|NCT04745169|164727171|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82571039|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1259|TWO_SIDED||||||ANOVA|||"Walking; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by walking. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1259
82382786|NCT03982511|164476064|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.34||0.31|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in child bedroom from T2 to T1|effect size: -0.36|||0.31
82382787|NCT03982511|164476064|SUPERIORITY||Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|0.39||0.04|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for number of screens in child bedroom from T3 to T1|effect size: -0.85|||0.04
82517105|NCT04745169|164727172|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82517106|NCT04745169|164727173|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82517107|NCT04745169|164727174|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82517108|NCT02062502|164727175|NON_INFERIORITY_OR_EQUIVALENCE|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease equal to or more than the prespecified criterion of 10.0 percentage points for Varicella zoster virus.|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-3.2|3.2|||Miettinen and Nurminen|||||3.2|-3.2|<0.001
82517109|NCT02062502|164727176|NON_INFERIORITY_OR_EQUIVALENCE|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on fold-difference, excluding a decrease of 1.5 fold or more.|Risk Difference (RD)|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||t-test, 2 sided|||||1.06|0.85|<0.001
82517110|NCT02062502|164727176|SUPERIORITY_OR_OTHER||Antibody Response Rate|97.2|||<|0.001|TWO_SIDED|95.0|94.4|98.9|||Exact CI method/binomial proportion|||The conclusion of acceptability is based on the lower bound of the 95% Confidence Interval (CI) being \>76%, and implies that the value of the parameter is statistically significantly greater than the prespecified acceptability criterion (76%).||98.9|94.4|<0.001
82571040|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1812|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1812
82517111|NCT03521635|164727184|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|1.68||0.688|TWO_SIDED|95.0|-2.7|4.0|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release|Mean changes from baseline of PDSS-2 score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||4.0|-2.7|0.688
82517112|NCT03521635|164727185|OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.69|TWO_SIDED|95.0|-1.2|0.8|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of NHQ score by patients were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.8|-1.2|0.690
82517113|NCT03521635|164727185|OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.91||0.376|TWO_SIDED|95.0|-2.7|1.1|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of NHQ score by caregivers were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.1|-2.7|0.376
82517114|NCT03521635|164727186|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.66||0.333|TWO_SIDED|95.0|-1.9|0.7|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep night-time sleep score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.7|-1.9|0.333
82571041|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9600
82636182|NCT01014442|164986867|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.13||||0.5224|TWO_SIDED|95.0|-0.26|0.5|||Wilcoxon rank sum test|||Cmin of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.5000|-0.2600|0.5224
82517115|NCT03521635|164727186|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.374|TWO_SIDED|95.0|-0.8|0.3|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep overall night sleep score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.3|-0.8|0.374
82517116|NCT03521635|164727186|OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.49||0.352|TWO_SIDED|95.0|-1.4|0.5|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of SCOPA-Sleep daytime sleepiness score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.5|-1.4|0.352
82517117|NCT03521635|164727187|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.259|TWO_SIDED|95.0|-0.8|0.2|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of EMO sore were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||0.2|-0.8|0.259
82517118|NCT03521635|164727188|OTHER||Odds Ratio (OR)|0.96||||0.9373|TWO_SIDED|95.0|0.36|2.54|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of PDSS-2 score \<18 were performed with treatment and baseline as the independent variables.||2.54|0.36|0.9373
82517119|NCT03521635|164727189|OTHER||Odds Ratio (OR)|2.24||||0.1611|TWO_SIDED|95.0|0.73|7.49|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of EMO score were performed with treatment and baseline as the independent variables.||7.49|0.73|0.1611
82517120|NCT03521635|164727190|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.517|TWO_SIDED|95.0|-2.3|1.2|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of PDQ-8 score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.2|-2.3|0.517
82517121|NCT03521635|164727191|OTHER||Odds Ratio (OR)|3.44||||0.2374|TWO_SIDED|95.0|0.57|36.85|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of CGI-I were performed with treatment as the independent variable.||36.85|0.57|0.2374
82517122|NCT03521635|164727192|OTHER||Odds Ratio (OR)|3.44||||0.2374|TWO_SIDED|95.0|0.57|36.85|||Regression, Logistic||The odds ratio (OR) between Pramipexole Sustained Release and Pramipexole Immediate Release groups.|Logistic regression analyses for responder rate at week 18 of PGI-I were performed with treatment as the independent variable.||36.85|0.57|0.2374
82517123|NCT03521635|164727193|OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.79||0.82|TWO_SIDED|95.0|-1.4|1.7|||REML-based repeated measures approach|Restricted maximum likelihood (REML) - based repeated measures approach was applied.|Mean difference was calculated as Pramipexole Sustained Release minus Pramipexole immediate Release.|Mean changes from baseline of ESS score were analysed using a restricted maximum likelihood (REML) - based repeated measures approach. Analyses included the fixed, categorical effects of treatment, visit in the maintenance period, and treatment-by-visit interaction, and the continuous, fixed covariates of baseline and baseline-by-visit interaction.||1.7|-1.4|0.820
82517124|NCT04535037|164727218|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) of group GMC ratio (Infanrix Hexa over Vaxelis group) was above 0.5.|Adjusted GMC Ratio|0.917|||||TWO_SIDED|95.0|0.71|1.185||||The 95% CI for GMC ratio derived from an ANOVA model on log10 transformed concentration was used. GMC was adjusted for DTPA vaccination of the mother.||To demonstrate that the Haemophilus influenzae type b(Hib) response of Infanrix Hexa Group is non-inferior to the Vaxelis Group in terms of anti-PRP GMCs, 1 month post-booster vaccination.||1.185|0.710|
82517125|NCT04535037|164727219|NON_INFERIORITY|Non-inferiority was demonstrated if the non inferiority of anti-PRP GMC ratio was met and the LL of the 2 sided 95% CI on group difference in the percentage (Infanrix Hexa over Vaxelis group) was more than -10%.|Difference in Percentage|-6.3|||||TWO_SIDED|95.0|-14.1|1.49||||The 2 sided 95% CI of group difference in seroconversion rate (Inv\_group minus Com\_group) was computed based on Miettinen and Nurminen method.||To demonstrate that the Hib response in Infanrix Hexa group is non-inferior to Vaxelis Group in terms of percentage of subjects with anti-PRP antibody concentrations ≥ 5 µg/mL, 1 month post-booster vaccination.||1.49|-14.10|
82517126|NCT01148810|164727227|SUPERIORITY_OR_OTHER||Bayesian analysis|0.96|||||||||||||||Probability that the difference (BAF312-Placebo) is greater than the threshold|||
82517127|NCT02165722|164727241|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.||||||<0.001
82517128|NCT02165722|164727241|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention.||||||<0.001
82517129|NCT02165722|164727241|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.||||<0.001
82517130|NCT02165722|164727241|OTHER|Chi-square tests performed to test for differences in cumulative HPV series initiation vaccination rates from baseline to post-intervention between intervention and control clinics.|||||<|0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||<0.001
82517131|NCT02165722|164727242|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.||||||0.001||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.||||||0.001
82517132|NCT02165722|164727242|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
82517133|NCT02165722|164727242|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention between intervention and control clinics.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
82382788|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.03|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided|ANOVA|repeated measures||Difference on difference for TV on during mealtime from T2 to T1|effect size: -1.25|||0.03
82382789|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.1|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided|ANOVA|repeated measures||Difference on difference for TV on during mealtime from T3 to T1|effect size: -1.08|||0.10
82636183|NCT01014442|164986867|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|11.16||||0.2088|TWO_SIDED|95.0|-5.29|30.29|||Wilcoxon rank sum test|||Cmin of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||30.2900|-5.2900|0.2088
82382790|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.41|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mobile device present during mealtime from T2 to T1|effect size: -0.44|||0.41
82382791|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.22||0.21|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mobile device present during mealtime from T3 to T1|effect size: -0.80|||0.21
82382792|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for other media present during mealtime from T2 to T1|effect size: -1.29|||0.02
82517134|NCT02165722|164727242|OTHER|Chi-square tests performed to test for differences in cumulative HPV series completion vaccination rates from baseline to post-intervention between intervention and control clinics.|||||>|0.05||||||Statistical significance for two-sided tests was set at a type I error (alpha) equal to 0.05.|Chi-squared|||||||>0.05
82517135|NCT02417246|164727250|EQUIVALENCE|A paired t-test was used to compare mean values of AUC0-24 for brand name metoprolol ER and Generic B at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t test, we would have \>80% power to detect a 16% difference in AUC.|Mean Difference (Final Values)|45.1|STANDARD_DEVIATION|222.2||0.3|TWO_SIDED|95.0|-41.1|131.2|||t-test, 2 sided|Average AUC from 0 to 24 hours (0-24) for patients on the 50mg dose of brand name metoprolol ER and Generic B were compared by a paired t-test (n=28)||||131.2|-41.1|0.3
82517136|NCT02417246|164727250|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if 90% confidence interval for the ratio of the population geometric means of the AUC0-24 for Generic B to brand name metoprolol ER falls within 0.8 to 1.25|Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.95||The analysis included a total of 20 patients on Generic B and brand name metoprolol ER, which is less than the initial plan of including 38 patients.||||||0.95|0.76|
82517137|NCT02417246|164727250|EQUIVALENCE|A paired t-test was used to compare mean values of AUC0-24 for brand name metoprolol ER and Generic A at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t test, we would have \>80% power to detect a 16% difference in AUC.|Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|176.5||0.8|TWO_SIDED|95.0|-60.0|74.3|||t-test, 2 sided|Average AUC0-24 for patients on the 50mg dose who were administered brand name metoprolol ER and Generic A were compared using a paired t-test (n=29)||||74.3|-60.0|0.8
82517138|NCT02417246|164727250|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of the AUC0-24 for Generic A to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.86|1.01||This analysis included 21 individuals who were administered brand name metoprolol ER and Generic A, which is less than the initial plan of including 38 patients.||||||1.01|0.86|
82517139|NCT02417246|164727251|EQUIVALENCE|A paired t-test was used to compare the mean values of Cmax for brand name metoprolol ER and Generic B at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t-test, we would have \>80% power to detect a 11% difference in Cmax.|Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|10.7||0.2|TWO_SIDED|95.0|-1.5|6.6|||t-test, 2 sided|Average Cmax for patients on the 50mg dose who were administered brand name metoprolol ER and Generic B were compared using a paired t-test (n=29)||||6.6|-1.5|0.2
82517140|NCT02417246|164727251|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of Cmax for Generic B to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.79|0.95||The analysis included a total of 29 patients on Generic B and brand name metoprolol ER, which is less than the initial plan of including 38 patients||||||0.95|0.79|
82382793|NCT03982511|164476065|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.2|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for other media present during mealtime from T3 to T1|effect size: -0.82|||0.20
82517141|NCT02417246|164727251|EQUIVALENCE|A paired t-test was used to compare the mean values of Cmax for brand name metoprolol ER and Generic A at the 50mg dose. With a sample size of 38, at an alpha level of 0.025 (0.05/2 comparisons), using a 2-sided paired t-test, we would have \>80% power to detect a 11% difference in Cmax.|Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|12.6||0.3|TWO_SIDED|95.0|-7.3|2.3|||t-test, 2 sided|Average Cmax for patients on the 50mg dose who were administered brand name metoprolol ER and Generic A were compared using a paired t-test (n=29)||||2.3|-7.3|0.3
82517142|NCT02417246|164727251|EQUIVALENCE|A bioequivalence (BE) test was performed for patients who were administered the 50mg dose. BE was declared if the 90% confidence interval for the ratio of the population geometric means of Cmax for Generic A to brand name metoprolol ER fell within 0.8 to 1.25|Geometric mean ratio|1.12|||||TWO_SIDED|90.0|1.02|1.23||The analysis included a total of 29 patients on Generic A and brand name metoprolol ER, which is less than a pre-planned sample size of 38.||||||1.23|1.02|
82517143|NCT02417246|164727252|EQUIVALENCE|A mixed effect model for repeated measures was used to model medication effect on HRV comparing brand name metoprolol ER to Generic B, adjusting for quartile, (quartile\*med) interaction, and treatment assignment.|Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0858|TWO_SIDED||||||Mixed Models Analysis|||||||0.0858
82382794|NCT03982511|164476066|SUPERIORITY||Mean Difference (Net)|0.42|STANDARD_ERROR_OF_MEAN|0.14||0.009|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime task accomplishment scores from T2 to T1|effect size: 1.55|||0.009
82636184|NCT01014442|164986867|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.165||||0.1794|TWO_SIDED|95.0|-0.45|0.08|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0800|-0.4500|0.1794
82382795|NCT03982511|164476066|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.15||0.84|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime task accomplishment scores from T3 to T1|effect size: -0.13|||0.84
82517144|NCT02417246|164727252|EQUIVALENCE|A mixed effect model for repeated measures was used to model medication effect on HRV comparing brand name metoprolol ER to Generic A, adjusting for quartile,(quartile\*med) interaction, and treatment assignment.|Slope|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0168|TWO_SIDED||||||Mixed Models Analysis||p for medication\*quartile interaction considered significant if p\<0.025.|||||0.0168
82382796|NCT03982511|164476066|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.2||0.24|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime behavior control scores from T2 to T1|effect size: 0.63|||0.24
82517145|NCT02417246|164727253|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory systolic blood pressure (SBP) by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|-2.39||||0.203|TWO_SIDED||||||Mixed Models Analysis|||||||0.203
82517146|NCT02417246|164727253|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory diastolic blood pressure (DBP) by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|-0.543||||0.671|TWO_SIDED||||||Mixed Models Analysis|||||||0.671
82517147|NCT02417246|164727253|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory SBP by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|-2.371||||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.200
82517148|NCT02417246|164727253|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour ambulatory DBP by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|-2.329||||0.068|TWO_SIDED||||||Mixed Models Analysis|||||||0.068
82517149|NCT02417246|164727254|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour HR by quartile for 35 patients receiving brand name metoprolol ER and Generic B.|Slope|1.233||||0.333|TWO_SIDED||||||Mixed Models Analysis|||||||0.333
82517150|NCT02417246|164727254|EQUIVALENCE|A mixed effect model for repeated measures was performed to model the 24-hour HR by quartile for 35 patients receiving brand name metoprolol ER and Generic A.|Slope|1.134||||0.368|TWO_SIDED||||||Mixed Models Analysis|||||||0.368
82571042|NCT00551135|164852344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.105|TWO_SIDED||||||ANOVA|||"Coughing; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain caused by coughing. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward algorithm or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.1050
82571043|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2818|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2818
82571044|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8631|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8631
82517151|NCT04321460|164727263|SUPERIORITY||Odds Ratio (OR)|4.564||||0.007|TWO_SIDED|95.0|1.66|16.039|||Wilcoxon (Mann-Whitney)|||||16.039|1.66|0.007
82517152|NCT04321460|164727264|SUPERIORITY||Odds Ratio (OR)|4.716||||0.002|TWO_SIDED|95.0|1.898|14.268|||Wilcoxon (Mann-Whitney)|||||14.268|1.898|0.002
82517153|NCT01308749|164727277|OTHER||||||||||||||||||No analyses were completed, this is descriptive only and is an absolute value (number of participants).|||
82517154|NCT01308749|164727281|EQUIVALENCE|Within group test of difference using t-scores adjusted by baseline score, no correction for multiple comparisons, nonparametric model||||||0.023|||||||t-test, 2 sided|||||||0.023
82517155|NCT01308749|164727283|EQUIVALENCE|t-test between groups||||||0.23|||||||t-test, 2 sided|no adjustment for multiple comparison. non parametric||||||0.23
82517156|NCT02896855|164727307|OTHER||Stratified Hazard Ratio|0.69||||0.0418|TWO_SIDED|95.0|0.49|0.99|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|This was for the primary analysis. Hypothesis testing is considered exploratory in this bridging study.||0.99|0.49|0.0418
82517157|NCT02896855|164727307|OTHER||Unstratified Hazard Ratio|0.71||||0.0556|TWO_SIDED|95.0|0.5|1.01|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|This was for the primary analysis. Hypothesis testing is considered exploratory in this bridging study.||1.01|0.50|0.0556
82517158|NCT02896855|164727307|OTHER||Stratified Hazard Ratio|0.6||||0.0008|TWO_SIDED|95.0|0.45|0.81|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|This was for the final analysis. Hypothesis testing is considered exploratory in this bridging study.||0.81|0.45|0.0008
82571045|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5074|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5074
82382797|NCT03982511|164476066|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.15||0.84|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for mealtime behavior control scores from T3 to T1.|effect size: -0.13|||0.84
82382798|NCT03982511|164476067|SUPERIORITY||Mean Difference (Net)|-9.5|STANDARD_ERROR_OF_MEAN|2.17||0|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for ECBI intensity t-scores from T2 to T1|effect size: -1.50|||0.00
82382799|NCT03982511|164476067|SUPERIORITY||Mean Difference (Net)|-7.63|STANDARD_ERROR_OF_MEAN|2.48||0.01|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for ECBI intensity t-scores from T3 to T1|effect size: -1.12|||0.01
82382800|NCT03982511|164476068|SUPERIORITY||Mean Difference (Net)|-6.93|STANDARD_ERROR_OF_MEAN|2.63||0.02|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for internalizing symptoms from T2 to T1|effect size: -0.93|||0.02
82382801|NCT03982511|164476068|SUPERIORITY||Mean Difference (Net)|-6.58|STANDARD_ERROR_OF_MEAN|3.56||0.08|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for internalizing symptoms from T3 to T1|effect size: -0.68|||0.08
82382802|NCT03982511|164476068|SUPERIORITY||Mean Difference (Net)|-6.47|STANDARD_ERROR_OF_MEAN|6.92||0.36|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for adaptive skills from T2 to T1|effect size: -0.33|||0.36
82382803|NCT03982511|164476068|SUPERIORITY||Mean Difference (Net)|-3.57|STANDARD_ERROR_OF_MEAN|8.83||0.69|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|Repeated measures||Difference on difference for adaptive skills from T3 to T1|effect size: -0.15|||0.69
82382804|NCT03982511|164476069|SUPERIORITY||Mean Difference (Net)|35.78|STANDARD_ERROR_OF_MEAN|7.21||0|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PSICA intensity scores from T2 to T1 (higher scores indicate better outcomes).|effect size: 1.70|||0.000
82382805|NCT03982511|164476069|SUPERIORITY||Mean Difference (Net)|21.78|STANDARD_ERROR_OF_MEAN|7.64||0.01|TWO_SIDED|||||Given that this is a pilot RCT (with a small n), primary aim is to estimate effect sizes for a more fully-powered RCT. Both p value and effect size will be provided.|ANOVA|repeated measures||Difference on difference for PSICA intensity scores from T3 to T1|effect size: 1.04|||0.01
82382806|NCT03982511|164476070|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.73|TWO_SIDED|||||Given this is a pilot RCT, primary aim is to estimate effect size for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures|Effect size: 0.17|Difference on difference from T2 to T1 for BMI z-score||||.73
82382807|NCT03982511|164476070|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.98|TWO_SIDED|||||Given this is a pilot RCT, primary aim is to estimate effect size for a more fully-powered RCT. P-values will be provided in addition to effect size.|ANOVA|Repeated measures||Difference on difference for BMI z-scores from T3 to T1.|Effect size: -0.01|||.98
82382808|NCT00444535|164476071|OTHER|Clopper-Pearson exact test (binomial)|Exact binomial procedure|69.2||||||95.0|54.9|81.3||||||||81.3|54.9|
82517159|NCT02896855|164727307|OTHER||Unstratified Hazard Ratio|0.63||||0.0019|TWO_SIDED|95.0|0.47|0.85|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|This was for the final analysis. Hypothesis testing is considered exploratory in this bridging study.||0.85|0.47|0.0019
82517160|NCT02896855|164727309|OTHER||Stratified Hazard Ratio|0.68||||0.0658|TWO_SIDED|95.0|0.45|1.03|||Log Rank|A two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.03|0.45|0.0658
82382809|NCT01697748|164476090|SUPERIORITY|With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15 vs. 7.5%) surgical site infection at a two sided alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.44|1.96||Variables with at least a borderline association with a treatment arm (P≤ .10) were included in a multiple logistic regression model to verify which is independently associated with the outcome of interest||No P values were reported for the association between dressing type and infection, only relative risk and 95% confidence intervals were reported.||With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15 vs. 7.5%) surgical site infection at a two sided alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|Besides the Chi Square, Fisher's Exact test, Student T-test, Mann Whitney U test, and logistic regression were utilized where appropriate|1.96|0.44|
82636185|NCT01014442|164986868|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.125||||0.4027|TWO_SIDED|95.0|-0.38|0.19|||Wilcoxon rank sum test|||Cmin of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1900|-0.3800|0.4027
82517161|NCT02896855|164727309|OTHER||Unstratified Hazard Ratio|0.7||||0.0864|TWO_SIDED|95.0|0.46|1.06|||Log Rank|This two-sided log-rank test was unstratified.|This unstratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.06|0.46|0.0864
82517162|NCT02896855|164727311|OTHER||Difference in Objective Response|9.98||||0.1126|TWO_SIDED|95.0|-2.65|22.6|||Cochran-Mantel-Haenszel|Statistical test is stratified by disease type and hormone receptor status.|The difference in objective response is calculated as Arm B: Pertuzumab minus Arm A: Placebo. 95% CI was calculated using Hauck-Anderson method.|Hypothesis testing is considered exploratory in this bridging study.||22.60|-2.65|0.1126
82517163|NCT02896855|164727311|OTHER||Difference in Objective Response|9.98||||0.1108|TWO_SIDED|95.0|-2.65|22.6|||Fisher Exact|Unadjusted|The difference in objective response is calculated as Arm B: Pertuzumab minus Arm A: Placebo. 95% CI was calculated using Hauck-Anderson method.|Hypothesis testing is considered exploratory in this bridging study.||22.60|-2.65|0.1108
82517164|NCT02896855|164727312|OTHER||Cox Proportional Hazard|0.78||||0.2867|TWO_SIDED|95.0|0.49|1.24|||Log Rank|Two-sided log-rank test was used, stratified by disease type and hormone-receptor status.|This stratified Hazard Ratio (HR) is calculated as Arm B: Pertuzumab versus Arm A: Placebo. Cox proportional hazards model, stratified by disease type and hormone-receptor status, was used to estimate HR and its 95% CI.|Hypothesis testing is considered exploratory in this bridging study.||1.24|0.49|0.2867
82517165|NCT02896855|164727319|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.96|0.75|||||The treatment difference for change from baseline to maximum on-treatment decrease in LVEF is defined as Arm B: Pertuzumab minus Arm A: Placebo.|||0.75|-1.96|
82517166|NCT02585895|164727332|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|74.2|||<|0.0001|TWO_SIDED|95.0|44.6|86.8|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by screening LDL-C level|Treatment difference used apheresis as the reference.|||86.8|44.6|< 0.0001
82517167|NCT02585895|164727333|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-52.74|STANDARD_ERROR_OF_MEAN|5.64|<|0.0001|TWO_SIDED|95.0|-64.18|-41.3|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.|Treatment difference used apheresis as the reference.|||-41.30|-64.18|< 0.0001
82571046|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0401|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0401
82571047|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5509|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5509
82636186|NCT01014442|164986868|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-16.09||||0.0875|TWO_SIDED|95.0|-29.35|6.39|||Wilcoxon rank sum test|||Cmin of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||6.3900|-29.3500|0.0875
82636187|NCT01014442|164986868|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.2||||0.0112|TWO_SIDED|95.0|-0.35|-0.05|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0500|-0.3500|0.0112
82517168|NCT02585895|164727334|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-46.37|STANDARD_ERROR_OF_MEAN|4.67|<|0.0001|TWO_SIDED|95.0|-55.85|-36.9|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.|Treatment difference used apheresis as the reference.|||-36.90|-55.85|< 0.0001
82517169|NCT02585895|164727335|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-35.8|STANDARD_ERROR_OF_MEAN|3.74|<|0.0001|TWO_SIDED|95.0|-43.39|-28.21|||Repeated measures linear effects model|Model included treatment group, screening LDL-C level, scheduled visit, and the interaction of treatment group with scheduled visit as covariates.||||-28.21|-43.39|< 0.0001
82517170|NCT01169467|164727340|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED||||||t-test, 2 sided|||||||0.395
82517171|NCT00784810|164727367|NON_INFERIORITY_OR_EQUIVALENCE|As above.|Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|1.19||0.002|ONE_SIDED|90.0|-5.65||||Mixed Models Analysis|||To achieve a study with 80% power at the 1-sided 5% significance level, for the purposes of demonstrating non inferiority, a sample size of 98 subjects per treatment group was required, i.e. a total of 196 subjects completing the study.|||-5.65|0.002
82517172|NCT00779246|164727374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||>|0.05|TWO_SIDED|95.0|0.5|2.9|||Regression, Logistic|||Null hypothesis was that ASC and CHG would be no different in preventing acquisition of MRSA.||2.9|0.5|>0.05
82571048|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0004
82571049|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7070
82571050|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.384|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3840
82571051|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2732|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2732
82571052|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4418|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4418
82571053|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8379|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8379
82571054|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5944|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5944
82571055|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8139|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8139
82571056|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9709|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9709
82571057|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9666|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9666
82571058|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3204|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3204
82571059|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0869|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0869
82517173|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|Geometric Mean ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.86|1.18|||||Confidence intervals (CIs) were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.18|0.86|
82517174|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.01|||||TWO_SIDED|95.0|0.86|1.18|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.18|0.86|
82517175|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.0|||||TWO_SIDED|95.0|0.85|1.17|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin A||1.17|0.85|
82517176|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.07|||||TWO_SIDED|95.0|0.87|1.31|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.31|0.87|
82517177|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.07|||||TWO_SIDED|95.0|0.88|1.31|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.31|0.88|
82517178|NCT03579459|164727377|EQUIVALENCE|Equivalence was established if the 95% confidence interval of GMC ratio was within the interval (0.5, 2).|GMR|1.01|||||TWO_SIDED|95.0|0.83|1.23|||||CIs were back transformations of confidence levels based on the Student t distribution for the mean logarithm of the concentrations|Toxin B||1.23|0.83|
82636188|NCT01014442|164986869|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.215||||0.0818|TWO_SIDED|95.0|-0.56|0.05|||Wilcoxon rank sum test|||Cmin of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0500|-0.5600|0.0818
82517179|NCT00407537|164727401|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-4.72|||<|0.001|TWO_SIDED|95.0|-5.55|-3.89||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|It was estimated that each study site would on average complete 8 evaluable participants, therefore enrolling 164 sites, 1968 participants would provide at least 90% power to detect a 10% relative reduction in the 10-year predicted risk of total CHD at 12 months (as calculated from the Framingham model) from the control arm based on a two-sided t-test with a 5% significance level.||-3.89|-5.55|<0.001
82571060|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9386|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9386
82571061|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4352|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4352
82517180|NCT00407537|164727402|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-4.76|||<|0.001|TWO_SIDED|95.0|-5.58|-3.93||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-3.93|-5.58|<0.001
82517181|NCT00407537|164727403|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-0.97|||<|0.001|TWO_SIDED|95.0|-1.23|-0.72||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-0.72|-1.23|<0.001
82571062|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4522|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4522
82571063|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6606|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6606
82571064|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1733|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1733
82517182|NCT00407537|164727404|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-0.88|||<|0.001|TWO_SIDED|95.0|-1.16|-0.59||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-0.59|-1.16|<0.001
82517183|NCT00407537|164727405|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.56|-1.15||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-1.15|-1.56|<0.001
82517184|NCT00407537|164727406|SUPERIORITY_OR_OTHER_LEGACY||LSMean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.57|-1.14||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model||Value at a given visit as response. Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|||-1.14|-1.57|<0.001
82517185|NCT00407537|164727411|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.15|||<|0.007|TWO_SIDED|95.0|-5.42|-0.88|||Mixed-effect linear model|||||-0.88|-5.42|<0.007
82517186|NCT00407537|164727412|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.61|||<|0.011|TWO_SIDED|95.0|-2.86|-0.37|||Mixed-effect linear model|||||-0.37|-2.86|<0.011
82517187|NCT00407537|164727413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.75|||<|0.001|TWO_SIDED|95.0|-8.0|-3.5|||Mixed-effect linear model|||||-3.50|-8.00|<0.001
82517188|NCT00407537|164727414|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.17|||<|0.001|TWO_SIDED|95.0|-4.42|-1.92|||Mixed-effect linear model|||||-1.92|-4.42|<0.001
82517189|NCT00407537|164727415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.94|||<|0.001|TWO_SIDED|95.0|-43.71|-34.17||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-34.17|-43.71|<0.001
82517190|NCT00407537|164727415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.31|||<|0.001|TWO_SIDED|95.0|-39.64|-30.99||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-30.99|-39.64|<0.001
82517191|NCT00407537|164727415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.087|TWO_SIDED|95.0|-0.14|2.13||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||HDL||2.13|-0.14|0.087
82517192|NCT00407537|164727415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.65|||<|0.001|TWO_SIDED|95.0|-32.6|-14.7||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effects linear model|||Triglycerides||-14.70|-32.60|<0.001
82517193|NCT00407537|164727416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.07|||<|0.001|TWO_SIDED|95.0|-37.57|-28.56||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-28.56|-37.57|<0.001
82517194|NCT00407537|164727416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.83|||<|0.001|TWO_SIDED|95.0|-33.7|-25.95||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-25.95|-33.70|<0.001
82517195|NCT00407537|164727416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58||||0.379|TWO_SIDED|95.0|-0.71|1.86||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||HDL||1.86|-0.71|0.379
82571065|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8788|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8788
82517196|NCT00407537|164727416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.001|TWO_SIDED|95.0|-28.72|-7.81||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-7.81|-28.72|<0.001
82517197|NCT00407537|164727417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.94|||<|0.001|TWO_SIDED|95.0|-43.71|-34.17||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||TC||-34.17|-43.71|<0.001
82517198|NCT00407537|164727417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.31|||<|0.001|TWO_SIDED|95.0|-39.64|-30.99||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-30.99|-39.64|<0.001
82517199|NCT00407537|164727417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.087|TWO_SIDED|95.0|-0.14|2.13||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|mixed-effect linear model|||HDL||2.13|-0.14|0.087
82636189|NCT01014442|164986869|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-14.03||||0.0945|TWO_SIDED|95.0|-26.9|2.94|||Wilcoxon rank sum test|||Cmin of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.9400|-26.9000|0.0945
82636190|NCT01014442|164986869|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.19||||0.0081|TWO_SIDED|95.0|-0.41|-0.04|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0400|-0.4100|0.0081
82636191|NCT01014442|164986870|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.36||||0.3289|TWO_SIDED|95.0|-1.14|0.28|||Wilcoxon rank sum test|||Cmin of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2800|-1.1400|0.3289
82636192|NCT01014442|164986870|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-20.3||||0.1243|TWO_SIDED|95.0|-49.39|4.71|||Wilcoxon rank sum test|||Cmin of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.7100|-49.3900|0.1243
82636193|NCT01014442|164986870|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.03||||0.8704|TWO_SIDED|95.0|-0.28|0.23|||Wilcoxon rank sum test|||Cmin of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2300|-0.2800|0.8704
82636194|NCT01014442|164986871|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|5.22||||0.4043|TWO_SIDED|95.0|-5.01|24.49|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||24.4900|-5.0100|0.4043
82636195|NCT01014442|164986872|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.44||||0.893|TWO_SIDED|95.0|-6.07|8.01|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.0100|-6.0700|0.8930
82517200|NCT00407537|164727417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.65|||<|0.001|TWO_SIDED|95.0|-32.6|-14.7||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-14.70|-32.60|<0.001
82517201|NCT00407537|164727418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.07|||<|0.001|TWO_SIDED|95.0|-37.57|-28.56||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Total cholesterol||-28.56|-37.57|<0.001
82517202|NCT00407537|164727418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.83|||<|0.001|TWO_SIDED|95.0|-33.7|-25.95||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||LDL||-25.95|-33.70|<0.001
82517203|NCT00407537|164727418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58||||0.379|TWO_SIDED|95.0|-0.71|1.86||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|mixed-effect linear model|||HDL||1.86|-0.71|0.379
82636196|NCT01014442|164986873|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.935||||0.0819|TWO_SIDED|95.0|-14.31|1.11|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.1100|-14.3100|0.0819
82636197|NCT01014442|164986874|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-8.205||||0.0414|TWO_SIDED|95.0|-19.27|-0.07|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.0700|-19.2700|0.0414
82636198|NCT01014442|164986875|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|69.7186||||0.1552|TWO_SIDED|95.0|-23.4659|162.9545|||Wilcoxon rank sum test|||Vz of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||162.9545|-23.4659|0.1552
82571066|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8474|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8474
82571067|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2938|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2938
82571068|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7602|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7602
82571069|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6881|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6881
82571070|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7883|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7883
82571071|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5374|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5374
82571072|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9774|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9774
82571073|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3082|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3082
82571074|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4373|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4373
82636199|NCT01014442|164986875|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.7836||||0.6057|TWO_SIDED|95.0|-3.2675|2.5529|||Wilcoxon rank sum test|||Vz of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.5529|-3.2675|0.6057
82571075|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.654|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6540
82571076|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0002
82571077|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0696|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0696
82571078|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0029|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0029
82571079|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3695|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3695
82571080|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9346|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9346
82571081|NCT00551135|164852345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9631|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9631
82571082|NCT00551135|164852346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9025|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.9025
82636200|NCT01014442|164986875|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|299.1021||||0.0188|TWO_SIDED|95.0|79.5869|695.1789|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||695.1789|79.5869|0.0188
82382810|NCT01697748|164476090|SUPERIORITY|With an SSI rate of 15% at Tampa General Hospital at the time of study design, a sample size of 600 patients was determined to provide a power of 80% to detect a 50% absolute reduction (15% vs. 7.5%) surgical site infection at a two side alpha = 0.05. Assuming an approximate 10% dropout loss to follow up rate, the total sample size was adjusted to 660.|||||<|0.05|TWO_SIDED|95.0||||Variables with at least a borderline association (P≤.10) were then included in a multiple logistic regression model to verify which is independently associated with the outcome of interest|Mixed Models Analysis|In addition to the Chi-Square, Fisher's exact test, Student T-Test, Mann Whitney U test and logistic regression were utilized when appropriate.||||||<0.05
82382811|NCT01697748|164476091|SUPERIORITY||||||<|0.05|||||||see below|Chi square, Fisher Exact, Student t-test, Wilcoxon-Mann-Whitney test where appropriate|||In addition to Chi-Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann Whitney test were utilized where appropriate|||<.05
82571083|NCT00551135|164852346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5652|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.5652
82382812|NCT01697748|164476092|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Chi Square, Fisher's Exact, Student's T test, Wilcoxon-Mann-Whitney test and logistic regression when appropriate,|||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney Test, and logistic regression were utilized where appropriate|||<.05
82382813|NCT01697748|164476092|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Chi Square, Fisher Exact, Student t-test, Wilcoxon-Mann-Whitney test|||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney test and logistic regression were utilized where appropriate|||<.05
82517204|NCT00407537|164727418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.001|TWO_SIDED|95.0|-28.72|-7.81||Baseline value, country, and treatment were used as fixed effect and site was used as a random effect and a compound-symmetry (CS) variance-covariance matrix was used for subjects from the same site.|Mixed-effect linear model|||Triglycerides||-7.81|-28.72|<0.001
82517205|NCT01040130|164727435|SUPERIORITY_OR_OTHER||Ratio to placebo|1.14|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|1.065|1.221|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 5 mcg divided by Placebo|||1.221|1.065|0.0002
82517206|NCT01040130|164727435|SUPERIORITY_OR_OTHER||Ratio to placebo|1.138|STANDARD_ERROR_OF_MEAN|0.04||0.0003||95.0|1.062|1.219|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 10 mcg divided by Placebo|||1.219|1.062|0.0003
82517207|NCT01040130|164727436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.112|0.252|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.252|0.112|<0.0001
82571084|NCT00551135|164852346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.792|TWO_SIDED||||||ANOVA|||"LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.~Last observation carried forward or first non-missing observation carried backward algorithm applied to missing scores 1-3 h PS and independently to missing scores 24-48 h PS, before applying trapezoidal rule to compute AUC. AUC=missing if all scores 1-3 or 24-48 h PS missing."||||0.7920
82636201|NCT01014442|164986876|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|88.959||||0.0659|TWO_SIDED|95.0|-5.7876|209.0183|||Wilcoxon rank sum test|||Vz of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||209.0183|-5.7876|0.0659
82382814|NCT01697748|164476094|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||||Besides the Chi Square, Fisher's Exact test, Student T-test, Wilcoxon-Mann-Whitney test, and logistic regression were utilized where appropriate|||<0.05
82571085|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6679|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6679
82571086|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7308|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7308
82571087|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6781|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6781
82571088|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0930
82571089|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3751|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3751
82571090|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0111|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0111
82571091|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6811|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6811
82571092|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7426|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7426
82571093|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1619|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1619
82636202|NCT01014442|164986876|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.4456||||0.7842|TWO_SIDED|95.0|-3.1366|2.292|||Wilcoxon rank sum test|||Vz of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2.2920|-3.1366|0.7842
82571094|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1132|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1132
82517208|NCT01040130|164727436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.104|0.245|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.245|0.104|<0.0001
82517209|NCT01040130|164727437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.766|STANDARD_ERROR_OF_MEAN|0.223||0.0007||95.0|-1.205|-0.326|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.326|-1.205|0.0007
82571095|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9822|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9822
82571096|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1883|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1883
82571097|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9391|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9391
82571098|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9664|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9664
82571099|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0747|TWO_SIDED||||||ANOVA|||Day 1 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0747
82571100|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9681|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9681
82571101|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3246|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3246
82571102|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7984|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7984
82571103|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8581|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8581
82571104|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9677|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9677
82382815|NCT01697748|164476095|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis||||In addition to the Chi-square, Fisher's exact test, Student T-Test, Wilcoxon-Mann-Whitney test and logistic regression were utilized where approprate|||<0.05
82571105|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7104|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7104
82571106|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8978|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8978
82571107|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.626|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6260
82571108|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4047|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4047
82571109|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4461|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4461
82571110|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9099|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9099
82571111|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8805|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8805
82571112|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2348|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2348
82571113|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4445|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4445
82571114|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8849|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8849
82571115|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2796|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2796
82571116|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5225|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5225
82571117|NCT00551135|164852347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7015|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7015
82571118|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3332|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3332
82571119|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0933|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0933
82571120|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0031
82571121|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9451|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9451
82571122|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7312|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7312
82571123|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0348|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0348
82571124|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8936|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8936
82571125|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7672|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7672
82382816|NCT00832455|164476102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||||||<0.001
82571126|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4285|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4285
82571127|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0785|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0785
82571128|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3348|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3348
82571129|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1366|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1366
82571130|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3338|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3338
82517210|NCT01040130|164727437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.634|STANDARD_ERROR_OF_MEAN|0.225||0.0051||95.0|-1.077|-0.192|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.192|-1.077|0.0051
82517211|NCT01040130|164727438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.258|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.191|0.325|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.325|0.191|<0.0001
82517212|NCT01040130|164727438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.294|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.226|0.362|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.362|0.226|<0.0001
82571131|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4460
82571132|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1078|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1078
82571133|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8273|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8273
82571134|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6140
82382817|NCT00832455|164476102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||||||<0.001
82517213|NCT01040130|164727439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.107|0.252|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.252|0.107|<0.0001
82517214|NCT01040130|164727439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.037||0.0003||95.0|0.064|0.21|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.210|0.064|0.0003
82517215|NCT01040130|164727440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.103|STANDARD_ERROR_OF_MEAN|0.051||0.0447||95.0|-0.204|-0.002|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.002|-0.204|0.0447
82517216|NCT01040130|164727440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.064|STANDARD_ERROR_OF_MEAN|0.052||0.2132||95.0|-0.166|0.037|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.037|-0.166|0.2132
82517217|NCT01040130|164727441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.088|STANDARD_ERROR_OF_MEAN|0.154||0.5698||95.0|-0.391|0.216|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.216|-0.391|0.5698
82517218|NCT01040130|164727441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.155||0.1003||95.0|-0.05|0.561|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.561|-0.050|0.1003
82517219|NCT01040130|164727442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.122|STANDARD_ERROR_OF_MEAN|0.069||0.0784||95.0|-0.258|0.014|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.014|-0.258|0.0784
82517220|NCT01040130|164727442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.115|STANDARD_ERROR_OF_MEAN|0.07||0.1013||95.0|-0.252|0.023|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.023|-0.252|0.1013
82517221|NCT01040130|164727443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.066||0.0015||95.0|-0.339|-0.081|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.081|-0.339|0.0015
82517222|NCT01040130|164727443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|-0.503|-0.243|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.243|-0.503|<0.0001
82517223|NCT01040130|164727444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.034||0.0005||95.0|0.052|0.185|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.185|0.052|0.0005
82571135|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1684|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1684
82571136|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1285|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1285
82571137|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.264|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2640
82571138|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8956|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8956
82571139|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0058|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0058
82382818|NCT00832455|164476104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of physician satisfaction at week 0 compared to week 12.||||||<0.001
82571140|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9929|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9929
82636203|NCT01014442|164986876|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|121.3737||||0.4072|TWO_SIDED|95.0|-233.6483|560.0069|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||560.0069|-233.6483|0.4072
82636204|NCT01014442|164986877|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|207.9933||||0.004|TWO_SIDED|95.0|71.2442|355.1739|||Wilcoxon rank sum test|||Vz of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||355.1739|71.2442|0.0040
82382819|NCT00832455|164476104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of physician satisfaction at week 0 compared to week 8.||||||<0.001
82636205|NCT01014442|164986877|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|2.6186||||0.0689|TWO_SIDED|95.0|-0.1999|6.7766|||Wilcoxon rank sum test|||Vz of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||6.7766|-0.1999|0.0689
82636206|NCT01014442|164986877|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|635.7812||||0.0306|TWO_SIDED|95.0|49.4696|2793.7642|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||2793.7642|49.4696|0.0306
82636207|NCT01014442|164986878|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|4.7477||||0.9029|TWO_SIDED|95.0|-73.5212|59.8304|||Wilcoxon rank sum test|||Vz of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||59.8304|-73.5212|0.9029
82636208|NCT01014442|164986878|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0077||||0.9692|TWO_SIDED|95.0|-3.6739|3.9521|||Wilcoxon rank sum test|||Vz of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.9521|-3.6739|0.9692
82636209|NCT01014442|164986878|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-149.7962||||0.3744|TWO_SIDED|95.0|-644.4526|311.9735|||Wilcoxon rank sum test|||Vz of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||311.9735|-644.4526|0.3744
82382820|NCT00832455|164476105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar-Bowker|The McNemar-Bowker test is a statistical procedure used to compare the proportion of patient satisfaction at week 0 compared to week 12.||||||<0.001
82382821|NCT00832455|164476106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|Change in PACQLQ score between Week 12 and baseline is statistically different than zero||||||<0.001
82382822|NCT03889418|164476130|SUPERIORITY||Odds Ratio, log|-0.009|STANDARD_ERROR_OF_MEAN|0.153||0.956|TWO_SIDED|95.0|-0.309|0.292|||Mixed Models Analysis|||||0.292|-0.309|0.956
82382823|NCT03889418|164476131|SUPERIORITY||Risk Ratio, log|-0.103|STANDARD_ERROR_OF_MEAN|0.05||0.039|TWO_SIDED|95.0|-0.2|-0.005|||Mixed Models Analysis|||||-.005|-0.200|0.039
82382824|NCT03889418|164476132|SUPERIORITY||Rate Ratio, log|0.049|STANDARD_ERROR_OF_MEAN|0.282||0.864|TWO_SIDED|95.0|-0.506|0.603|||Mixed Models Analysis|||||0.603|-0.506|0.864
82382825|NCT03889418|164476133|SUPERIORITY||rate ratio, log|0.018|STANDARD_ERROR_OF_MEAN|0.148||0.901|TWO_SIDED|95.0|-0.272|0.308|||Mixed Models Analysis|||||0.308|-0.272|0.901
82382826|NCT02025725|164476150|SUPERIORITY|||||||0.881|||||||ANCOVA|||||||0.881
82382827|NCT02025725|164476151|SUPERIORITY||Mean Difference (Net)|-0.201||||0.036|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 1: metoclopramide nasal spray minus placebo.||||0.036
82517224|NCT01040130|164727444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.034||0.0073||95.0|0.025|0.159|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.159|0.025|0.0073
82517225|NCT01040130|164727445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.136|0.275|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.275|0.136|<0.0001
82517226|NCT01040130|164727445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.146|0.285|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.285|0.146|<0.0001
82517227|NCT01040130|164727446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.062||0.9239||95.0|-0.115|0.127|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.127|-0.115|0.9239
82382828|NCT02025725|164476151|SUPERIORITY||Mean Difference (Net)|-0.336||||0.025|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 2: metoclopramide nasal spray minus placebo||||0.025
82382829|NCT02025725|164476151|SUPERIORITY||Mean Difference (Net)|-0.347||||0.039|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 3: metoclopramide nasal spray minus placebo.||||0.039
82382830|NCT02025725|164476151|SUPERIORITY||Mean Difference (Net)|-0.364||||0.085|TWO_SIDED||||||ANCOVA|||Change in mean daily GSA total score from Baseline to Week 4: metoclopramide nasal spray minus placebo.||||0.085
82382831|NCT02946463|164476152|NON_INFERIORITY|LDH-N was analyzed using a generalized estimating equation (GEE) approach. The model included the following terms: treatment group, history of transfusion (as a categorical variable based on the stratification factor levels), and baseline LDH level (as a continuous variable). Noninferiority margin was based on the lower bound of the 95% confidence interval (CI) for the odds ratio (OR) of ravulizumab versus eculizumab for LDH normalization being greater than an OR of 0.39.|Odds Ratio (OR)|1.187|||||TWO_SIDED|95.0|0.796|1.769||||||A minimum of 142 participants were estimated to provide 80% power to demonstrate noninferiority of ravulizumab to eculizumab.||1.769|0.796|
82382832|NCT02946463|164476153|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -20%.|Treatment difference|6.8|||||TWO_SIDED|95.0|-4.66|18.14|||||Treatment difference was estimated for ravulizumab - eculizumab.|A minimum of 193 participants were estimated to provide 80% power to demonstrate noninferiority of ravulizumab to eculizumab. The difference of percentages were calculated using stratified Newcombe CI method. Stratification factors were: observed stratification groups of packed red blood cells (pRBC)/whole blood units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||18.14|-4.66|
82382833|NCT02946463|164476154|NON_INFERIORITY|Noninferiority margin was based on the upper bound of the 95% CI. Noninferiority margin was 20%.|Treatment difference|-6.7|||||TWO_SIDED|95.0|-14.21|0.18|||||Treatment difference was estimated for ravulizumab - eculizumab.|The difference of percentages was calculated using stratified Newcombe CI method. The stratification factors were: observed stratification groups of pRBC units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||0.18|-14.21|
82382834|NCT02946463|164476155|NON_INFERIORITY|Noninferiority margin was based on the upper bound of the 95% CI. Noninferiority margin was 20%.|Treatment difference|-0.83|||||TWO_SIDED|95.0|-5.21|3.56|||||Treatment difference was estimated for ravulizumab - eculizumab.|||3.56|-5.21|
82382835|NCT02946463|164476156|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -5%.|Treatment difference|0.67|||||TWO_SIDED|95.0|-1.21|2.55|||||Treatment difference was estimated for ravulizumab - eculizumab.|||2.55|-1.21|
82382836|NCT02946463|164476157|NON_INFERIORITY|Noninferiority margin was based on the lower bound of the 95% CI. Noninferiority margin was -20%.|Treatment difference|2.9|||||TWO_SIDED|95.0|-8.8|14.64|||||Treatment difference was estimated for ravulizumab - eculizumab.|The difference of percentages was calculated using stratified Newcombe CI method. The stratification factors were: observed stratification groups of pRBC units transfused in the 1 year prior to first dose of study drug and screening LDH levels.||14.64|-8.80|
82382837|NCT02166333|164476171|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.54|TWO_SIDED|95.0|0.76|1.15||The P value is nominal and two-sided.|Log Rank||The Experience on Best Dose versus 200 IU/day hazard ratio and its 95% confidence interval were derived from a Cox regression model with dose group as the single model variable.|The Experience on Best Dose group includes all participants assigned or switched to best dose (1000 IU/day) and excludes 41 participants randomized to 2000 or 4000 IU/day who were never issued a bottle of best dose. For those randomized to 2000 or 4000 IU/day, at-risk time and events are measured from the date of their switch to best dose. 150 Experience on Best Dose participants (median follow-up, 10.2 mos) and 125 200 IU/day participants (median follow-up, 20.3 mos) were censored.||1.15|0.76|0.54
82382838|NCT02166333|164476171|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.86|1.25|||||The comparison of the Pooled Higher Doses group versus the 200 IU/d group is a sensitivity analysis.|||1.25|0.86|
82382839|NCT02166333|164476172|SUPERIORITY|The overall P tests for difference between groups in differential change from baseline over time and is from a 3 degree of freedom test of the combined 3 treatment-by-time interaction terms from the longitudinal mixed effects model.||||||0.15||||||The P value is nominal and not adjusted for multiple comparisons.|Regression, Linear|3 degree of freedom interaction test||The two groups were assessed for differential change over time in change from baseline using a longitudinal mixed effects regression model with gait speed as the outcome and fixed effects including a single treatment term, 3 time point terms and 3 treatment-by-time interaction terms and a random intercept for participant.||||0.15
82382840|NCT01766076|164476180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann Whitney test was used for nonparametric variables||||||<0.05
82382841|NCT00359424|164476200|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.5||||0.7031|TWO_SIDED|95.0|-6.1|9.1||The CMH statistic is tested at the two-sided alpha level of 0.05. For the interim analyses of the primary efficacy analysis, the alpha spending function method (Lan and DeMets, 1987) with O'Brien and Fleming (1979) stopping boundaries were adopted.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with mRS of 0-2 at 90 days post-randomization in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with mRS of 0-2 at 90 days post-randomization in IV Only and Endovascular treatment arms).||9.1|-6.1|.7031
82442330|NCT01726673|164593282|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month follow-up) was assessed with upper extremity fugl meyer score for the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|222.0||||0.222|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in upper extremity fugl meyer score from baseline to 36 weeks (follow-up) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.222
82517228|NCT01040130|164727446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.062||0.7368||95.0|-0.144|0.102|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.102|-0.144|0.7368
82517229|NCT01040130|164727447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.067||0.8302||95.0|-0.146|0.118|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.118|-0.146|0.8302
82517230|NCT01040130|164727447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159|STANDARD_ERROR_OF_MEAN|0.068||0.0202||95.0|-0.292|-0.025|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.025|-0.292|0.0202
82517231|NCT01040130|164727448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.056|0.123|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.123|0.056|<0.0001
82517232|NCT01040130|164727448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.068|0.134|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.134|0.068|<0.0001
82636210|NCT01014442|164986879|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|7.8422||||0.1362|TWO_SIDED|95.0|-3.911|18.4444|||Wilcoxon rank sum test|||CL of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||18.4444|-3.9110|0.1362
82636211|NCT01014442|164986879|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1609||||0.4325|TWO_SIDED|95.0|-0.5693|0.271|||Wilcoxon rank sum test|||CL of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2710|-0.5693|0.4325
82636212|NCT01014442|164986879|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|47.2686||||0.0316|TWO_SIDED|95.0|4.197|112.7806|||Wilcoxon rank sum test|||CL of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||112.7806|4.1970|0.0316
82636213|NCT01014442|164986880|SUPERIORITY_OR_OTHER||Hodges-Lehmann estmator|19.0536||||0.0572|TWO_SIDED|95.0|-0.425|35.3852|||Wilcoxon rank sum test|||CL of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||35.3852|-0.4250|0.0572
82636214|NCT01014442|164986880|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.3541||||0.3198|TWO_SIDED|95.0|-0.2524|1.1097|||Wilcoxon rank sum test|||CL of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||1.1097|-0.2524|0.3198
82636215|NCT01014442|164986880|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|54.0322||||0.0845|TWO_SIDED|95.0|-6.7706|160.3469|||Wilcoxon rank sum test|||CL of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||160.3469|-6.7706|0.0845
82636216|NCT01014442|164986881|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|25.0037||||0.0048|TWO_SIDED|95.0|8.2373|43.5102|||Wilcoxon rank sum test|||CL of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||43.5102|8.2373|0.0048
82636217|NCT01014442|164986881|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.4297||||0.0277|TWO_SIDED|95.0|0.034|0.9925|||Wilcoxon rank sum test|||CL of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.9925|0.0340|0.0277
82636218|NCT01014442|164986881|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|318.5455||||0.0002|TWO_SIDED|95.0|154.1902|526.1716|||Wilcoxon rank sum test|||CL of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||526.1716|154.1902|0.0002
82636219|NCT01014442|164986882|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.579||||0.9417|TWO_SIDED|95.0|-14.5052|11.6346|||Wilcoxon rank sum test|||CL of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||11.6346|-14.5052|0.9417
82636220|NCT01014442|164986882|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.1817||||0.2941|TWO_SIDED|95.0|-0.1954|0.6246|||Wilcoxon rank sum test|||CL of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.6246|-0.1954|0.2941
82636221|NCT01014442|164986882|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.9076||||0.817|TWO_SIDED|95.0|-84.8234|109.9321|||Wilcoxon rank sum test|||CL of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||109.9321|-84.8234|0.8170
82636222|NCT01014442|164986883|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-2.4102||||0.2798|TWO_SIDED|95.0|-8.5642|3.0044|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.0044|-8.5642|0.2798
82636223|NCT01014442|164986883|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|72.7203||||0.4063|TWO_SIDED|95.0|-107.1596|393.5295|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||393.5295|-107.1596|0.4063
82636224|NCT01014442|164986883|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-3.6042||||0.0441|TWO_SIDED|95.0|-8.1854|-0.1887|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.1887|-8.1854|0.0441
82636225|NCT01014442|164986884|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-5.8077||||0.051|TWO_SIDED|95.0|-11.7302|0.0033|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0033|-11.7302|0.0510
82636226|NCT01014442|164986884|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-171.159||||0.2733|TWO_SIDED|95.0|-361.4437|171.9652|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||171.9652|-361.4437|0.2733
82382842|NCT00359424|164476201|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.0||||0.5241|TWO_SIDED|99.0|-10.3|6.2||The CMH statistic is tested at the two-sided alpha level of 0.01.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with mortality within 90 days post-randomization in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with mortality within 90 days post-randomization in IV Only and Endovascular treatment arms).||6.2|-10.3|.5241
82517233|NCT01040130|164727449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.191|0.258|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.258|0.191|<0.0001
82517234|NCT01040130|164727449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.193|0.259|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.259|0.193|<0.0001
82517235|NCT01040130|164727450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.031||0.0006||95.0|0.046|0.167|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.167|0.046|0.0006
82517236|NCT01040130|164727450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.031||0.0017||95.0|0.037|0.158|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.158|0.037|0.0017
82517237|NCT01040130|164727451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.285|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.227|0.342|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.342|0.227|<0.0001
82517238|NCT01040130|164727451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.233|0.348|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.348|0.233|<0.0001
82517239|NCT01040130|164727452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.207|0.429|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.429|0.207|<0.0001
82517240|NCT01040130|164727452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.303|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.192|0.414|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.414|0.192|<0.0001
82517241|NCT01040130|164727453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.585|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.47|0.701|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.701|0.470|<0.0001
82517242|NCT01040130|164727453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.618|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001||95.0|0.502|0.734|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.734|0.502|<0.0001
82517243|NCT03198000|164727475|EQUIVALENCE|Prespecified equivalence interval of (-0.22, 0.44).|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.049||0.392|TWO_SIDED|95.0|-0.14|0.055|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.055|-0.140|0.392
82517244|NCT03198000|164727475|EQUIVALENCE|Prespecified equivalence interval of (-0.22, 0.44)|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.049||0.828|TWO_SIDED|95.0|-0.086|0.107|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.107|-0.086|0.828
82517245|NCT03198000|164727476|EQUIVALENCE|Prespecified equivalence interval of (0.80, 1.25).|Odds Ratio (OR)|0.87||||0.576|TWO_SIDED|95.0|0.539|1.411|||GEE model|GEE model with treatment as factor.||||1.411|0.539|0.576
82517246|NCT03198000|164727476|EQUIVALENCE|Prespecified equivalence interval of (0.80, 1.25)|Odds Ratio (OR)|0.87||||0.544|TWO_SIDED|95.0|0.552|1.368|||GEE model|GEE model with treatment as factor.||||1.368|0.552|0.544
82517247|NCT03198000|164727477|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.893|TWO_SIDED|95.0|-0.085|0.074|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.074|-0.085|0.893
82517248|NCT03198000|164727477|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.886|TWO_SIDED|95.0|-0.073|0.084|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.084|-0.073|0.886
82517249|NCT03198000|164727478|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.117|TWO_SIDED|95.0|-0.177|0.02|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.020|-0.177|0.117
82517250|NCT03198000|164727478|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.049||0.255|TWO_SIDED|95.0|-0.153|0.041|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.041|-0.153|0.255
82517251|NCT03198000|164727480|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.085|TWO_SIDED|95.0|-0.05|0.78|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.78|-0.05|0.085
82517252|NCT03198000|164727480|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.269|TWO_SIDED|95.0|-0.18|0.64|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.64|-0.18|0.269
82517253|NCT03198000|164727481|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.162|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.10|-0.60|0.162
82517254|NCT03198000|164727481|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.234|TWO_SIDED|95.0|-0.55|0.14|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.14|-0.55|0.234
82382843|NCT00359424|164476202|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.4||||0.8275|TWO_SIDED|99.0|-4.6|5.5||The CMH statistic is tested at the two-sided alpha level of 0.01.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for the dichotomized baseline NIHSS score (\<20 or ≥20).|Positive adjusted risk difference indicates greater risk in the Endovascular group, while negative adjusted risk difference indicates greater risk in the IV Only group.|Test of null hypothesis (equal proportions of subjects with sICH within 30 hours post IV tPA initiation in IV Only and Endovascular treatment arms) versus alternative hypothesis (unequal proportions of subjects with sICH within 30 hours post IV tPA initiation in IV Only and Endovascular treatment arms).||5.5|-4.6|.8275
82382844|NCT02259010|164476217|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|0.98|||||TWO_SIDED|90.0|0.82|1.19|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.19|0.82|
82382845|NCT02259010|164476218|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|1.35|||||TWO_SIDED|90.0|1.02|1.79|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.79|1.02|
82382846|NCT02259010|164476219|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Ratio|1.39|||||TWO_SIDED|90.0|0.99|1.95|||||Estimates were obtained using a mixed effects model of log (PK parameter) with fixed terms for the itraconazole effect and random terms for participant within period.|||1.95|0.99|
82382847|NCT01445730|164476241|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82382848|NCT01445730|164476242|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82382849|NCT01445730|164476243|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82382850|NCT01445730|164476244|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82382851|NCT01445730|164476245|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82382852|NCT01445730|164476246|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82382853|NCT01445730|164476247|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82382854|NCT03805412|164476262|SUPERIORITY|||||||0.694|||||||t-test, 2 sided|||||||0.694
82382855|NCT05514873|164476269|NON_INFERIORITY|Non-inferiority of Week 12 MG-ADL over Baseline was shown if the upper limit of the 2-sided 95% confidence interval (CI) is less than 2.|||||<|0.001|||||||Mixed Model for Repeated Measures (MMRM)|||||||<0.001
82382856|NCT05142722|164476338|SUPERIORITY||Least Squares (LS) Means|-32.65|STANDARD_ERROR_OF_MEAN|1.602|<|0.0001|TWO_SIDED|95.0|-35.79|-29.5|||ANCOVA|||||-29.50|-35.79|<.0001
82517255|NCT03198000|164727482|EQUIVALENCE|No equivalence interval was specified.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.398|TWO_SIDED|95.0|-0.48|0.19|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.19|-0.48|0.398
82517256|NCT03198000|164727482|EQUIVALENCE|No equivalence interval was specified for this time point.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.233|TWO_SIDED|95.0|-0.54|0.13|||ANCOVA|Mixed effect ANCOVA with treatment as factor and baseline value as a covariate.||||0.13|-0.54|0.233
82517257|NCT00968669|164727543|SUPERIORITY_OR_OTHER|||||||0.435|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.435
82517258|NCT00968669|164727543|SUPERIORITY_OR_OTHER|||||||0.828|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.828
82382857|NCT05142722|164476339|SUPERIORITY||Least Squares (LS) Means|-33.78|STANDARD_ERROR_OF_MEAN|1.678|<|0.0001|TWO_SIDED|95.0|-37.07|-30.49|||ANCOVA|||||-30.49|-37.07|<.0001
82382858|NCT05142722|164476340|SUPERIORITY||Least Squares (LS) Means|-23.98|STANDARD_ERROR_OF_MEAN|1.979|<|0.0001|TWO_SIDED|95.0|-27.87|-20.09||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-20.09|-27.87|<.0001
82382859|NCT05142722|164476341|SUPERIORITY||Least Squares (LS) Means|-18.92|STANDARD_ERROR_OF_MEAN|0.936|<|0.0001|TWO_SIDED|95.0|-20.76|-17.09||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-17.09|-20.76|<.0001
82382860|NCT05142722|164476342|SUPERIORITY||Least Squares (LS) Means|-18.31|STANDARD_ERROR_OF_MEAN|1.057|<|0.0001|TWO_SIDED|95.0|-20.38|-16.23||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-16.23|-20.38|<.0001
82382861|NCT05142722|164476343|SUPERIORITY||Least Squares (LS) Means|-13.8|STANDARD_ERROR_OF_MEAN|1.219|<|0.0001|TWO_SIDED|95.0|-16.2|-11.41||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-11.41|-16.20|<.0001
82382862|NCT05142722|164476344|SUPERIORITY||Least Squares (LS) Means|-29.44|STANDARD_ERROR_OF_MEAN|1.251|<|0.0001|TWO_SIDED|95.0|-31.89|-26.99||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.99|-31.89|<.0001
82382863|NCT05142722|164476345|SUPERIORITY||Least Squares (LS) Means|-28.32|STANDARD_ERROR_OF_MEAN|1.339|<|0.0001|TWO_SIDED|95.0|-30.94|-25.69||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-25.69|-30.94|<.0001
82382864|NCT05142722|164476346|SUPERIORITY||Least Squares (LS) Means|-23.02|STANDARD_ERROR_OF_MEAN|1.564|<|0.0001|TWO_SIDED|95.0|-26.09|-19.95||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.95|-26.09|<.0001
82517259|NCT00968669|164727543|SUPERIORITY_OR_OTHER|||||||0.628|||||||ANOVA|Missing mean ACQ scores at Day 92 was imputed by last observation carried forward||||||0.628
82517260|NCT00968669|164727544|SUPERIORITY_OR_OTHER|||||||0.271|||||||Pairwise Poisson Regression|||||||0.271
82382865|NCT05142722|164476347|SUPERIORITY||Least Squares (LS) Means|136.26|STANDARD_ERROR_OF_MEAN|1.939|<|0.0001|TWO_SIDED|95.0|132.46|140.07||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||140.07|132.46|<.0001
82382866|NCT05142722|164476348|SUPERIORITY||Least Squares (LS) Means|134.43|STANDARD_ERROR_OF_MEAN|2.343|<|0.0001|TWO_SIDED|95.0|129.84|139.03||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||139.03|129.84|<.0001
82382867|NCT05142722|164476349|SUPERIORITY||Least Squares (LS) Means|122.04|STANDARD_ERROR_OF_MEAN|2.299|<|0.0001|TWO_SIDED|95.0|117.53|126.55||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||126.55|117.53|<.0001
82382868|NCT05142722|164476350|SUPERIORITY||Least Squares (LS) Means|-14.12|STANDARD_ERROR_OF_MEAN|20.183||0.4841|TWO_SIDED|95.0|-53.68|25.44||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05; therefore hierarchical testing was stopped for subsequent secondary endpoints|ANCOVA|||||25.44|-53.68|0.4841
82382869|NCT00437021|164476384|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|0.97|1.99|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||1.99|0.97|
82382870|NCT00437021|164476385|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|2.895|||||TWO_SIDED|95.0|2.22|3.69|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||3.69|2.22|
82517261|NCT00968669|164727544|SUPERIORITY_OR_OTHER|||||||0.319|||||||Pairwise Poisson Regression|||||||0.319
82517262|NCT00968669|164727544|SUPERIORITY_OR_OTHER|||||||0.502|||||||Pairwise Poisson Regression|||||||0.502
82517263|NCT00968669|164727545|SUPERIORITY_OR_OTHER|||||||0.756|||||||Pairwise Poisson Regression|||||||0.756
82571141|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0473|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0473
82571142|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2426|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2426
82382871|NCT00437021|164476393|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|1.65|2.76|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||2.76|1.65|
82517264|NCT00968669|164727545|SUPERIORITY_OR_OTHER|||||||0.047|||||||Pairwise Poisson Regression|||||||0.047
82517265|NCT00968669|164727545|SUPERIORITY_OR_OTHER|||||||1|||||||Pairwise Poisson Regression|||||||1.000
82517266|NCT00968669|164727546|SUPERIORITY_OR_OTHER|||||||0.1764|||||||Fisher Exact|||||||0.1764
82636227|NCT01014442|164986884|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-1.9621||||0.0718|TWO_SIDED|95.0|-4.8456|0.2067|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.2067|-4.8456|0.0718
82382872|NCT00437021|164476394|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group A is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|3.08|||||TWO_SIDED|95.0|2.57|3.59|||||Estimate and corresponding 95% confidence interval are calculated on the log2 scale.|Null hypothesis: The mean difference in log2 transformed titers between Group B and Group A \>= 1.||3.59|2.57|
82517267|NCT00968669|164727546|SUPERIORITY_OR_OTHER|||||||0.4031|||||||Fisher Exact|||||||0.4031
82517268|NCT00968669|164727546|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82517269|NCT00968669|164727547|SUPERIORITY_OR_OTHER|||||||0.8475|||||||Fisher Exact|||||||0.8475
82517270|NCT00968669|164727547|SUPERIORITY_OR_OTHER|||||||0.0811|||||||Fisher Exact|||||||0.0811
82517271|NCT00968669|164727547|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82517272|NCT00968669|164727548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.938||||0.144|||||||Log Rank|Stratified by atopic asthma and steroid use||||||0.144
82517273|NCT00968669|164727548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.618||||0.395|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.395
82517274|NCT00968669|164727548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.899||||0.863|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.863
82517275|NCT00968669|164727549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.717|||||||Log Rank|Stratified by atopic asthma and steroid use||||||0.717
82517276|NCT00968669|164727549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.467||||0.07|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.070
82517277|NCT00968669|164727549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.955||||0.934|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.934
82517278|NCT00968669|164727550|SUPERIORITY_OR_OTHER|||||||0.813|||||||ANOVA|||||||0.813
82517279|NCT00968669|164727550|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||||||0.290
82571143|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3478|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3478
82517280|NCT00968669|164727550|SUPERIORITY_OR_OTHER|||||||0.303|||||||ANOVA|||||||0.303
82517281|NCT00968669|164727551|SUPERIORITY_OR_OTHER|||||||0.764|||||||Fisher Exact|||Combined MEDI-528 treatment was compared to placebo||||0.764
82517282|NCT00968669|164727552|SUPERIORITY_OR_OTHER|||||||0.986|||||||Fisher Exact|||Combined MEDI-528 treatment was compared to placebo||||0.986
82571144|NCT00551135|164852351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1694|TWO_SIDED||||||ANOVA|||Day 10 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1694
82571145|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0630
82571146|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0347|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0347
82571147|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024|TWO_SIDED||||||ANOVA|||24 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0024
82571148|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0767|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0767
82571149|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1327|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1327
82571150|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED||||||ANOVA|||48 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0078
82571151|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0694|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0694
82571152|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2173|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2173
82571153|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0193|TWO_SIDED||||||ANOVA|||72 h PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0193
82571154|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0673|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0673
82571155|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2629|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2629
82571156|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0388|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0388
82571157|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0651|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0651
82571158|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3242|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3242
82571159|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0345|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0345
82571160|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0487|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0487
82571161|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3384|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3384
82571162|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0467|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0467
82571163|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0347|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0347
82571164|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3086|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3086
82571165|NCT00551135|164852352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0406|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0406
82571166|NCT00551135|164852353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4177|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4177
82571167|NCT00551135|164852353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4410
82571168|NCT00551135|164852353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.556|TWO_SIDED||||||ANOVA|||LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5560
82571169|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4273|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4273
82571170|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4466|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4466
82571171|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|TWO_SIDED||||||ANOVA|||Total CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3785
82382873|NCT02999269|164476395|SUPERIORITY|||||||0.04||||||p-value for time by amplitude interaction|Regression, Linear|||For the primary outcomes (change in HDRS24), we performed a full longitudinal model with an unstructured repeated measures covariance matrix on subjects who completed the study in the assigned treatment arm. The dependent variable was HDRS at each visit and the independent variables included progress (time within the ECT series: pre-, mid-, and post-ECT), amplitude, age, sex, pulse width and the following interactions: progress/amplitude, progress/sex, and progress/pulse width.|Time-by-amplitude interaction (F4, 72 = 2.65, p = 0.04).|||0.04
82382874|NCT02999269|164476395|SUPERIORITY|||||||0.0001|||||||Regression, Linear|||||||0.0001
82382875|NCT02999269|164476396|SUPERIORITY|||||||0.37|||||||Regression, Linear|||||||0.37
82382876|NCT02999269|164476396|SUPERIORITY|||||||0.5||||||p-value is time-by-amplitude interaction|Regression, Linear|||||||0.50
82382877|NCT02999269|164476396|SUPERIORITY||||||<|0.01||||||Progress (F2,71 = 11.15, p \< 0.01)|Regression, Linear|||||||< 0.01
82382878|NCT01120184|164476413|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target hazard ratio (HR) equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm. Non-inferiority was established if the upper bound of the 97.5% CI was less than (\<) 1.1765. Superiority was achieved if the upper bound of the 97.5% CI was \<1.00.|Hazard Ratio (HR)|0.91||||0.3125|TWO_SIDED|97.5|0.73|1.13||Test and p-value apply for superiority test. Two-sided significance level of 2.5% was used to adjust for independent comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Placebo vs. Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.13|0.73|0.3125
82382879|NCT01120184|164476413|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target HR equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm. Non-inferiority was established if the upper bound of the 97.5% CI was \<1.1765. Superiority was achieved if the upper bound of the 97.5% CI was \<1.00.|Hazard Ratio (HR)|0.87||||0.1407|TWO_SIDED|97.5|0.69|1.08||Test and p-value apply for superiority test. Two-sided significance level of 2.5% was used to adjust for independent comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs. Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.08|0.69|0.1407
82382880|NCT01120184|164476413|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study was powered for superiority with target HR equal to 0.75, as well as for non-inferiority with HR equal to 1.1765 for comparison between each of the trastuzumab emtansine-containing arms and the trastuzumab + taxane arm.|Hazard Ratio (HR)|0.91||||0.3075|TWO_SIDED|97.5|0.73|1.13||Test and p-value apply for superiority test. Primary endpoint did not meet superiority of PFS for trastuzumab emtansine + pertuzumab versus trastuzumab + taxane (two-sided significance level 2.5%); thus, tests and p-value are considered descriptive.|Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs. Trastuzumab Emtansine + Placebo|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.13|0.73|0.3075
82517283|NCT00968669|164727553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.955||||0.7171|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.7171
82517284|NCT00968669|164727553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.6219|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.6219
82517285|NCT00968669|164727553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.909||||0.6182|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.6182
82517286|NCT00968669|164727554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.712|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.7120
82571172|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5272|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5272
82571173|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4257|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4257
82382881|NCT01120184|164476415|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.6568|TWO_SIDED|97.5|0.73|1.2|||Log Rank||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.20|0.73|0.6568
82517287|NCT00968669|164727554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.5086|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.5086
82517288|NCT00968669|164727554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.887||||0.5184|||||||Log Rank|Stratified by atopic asthma status and steroid use||||||0.5184
82517289|NCT00968669|164727555|SUPERIORITY_OR_OTHER|||||||0.837|||||||Two-sample t-test|||||||0.837
82517290|NCT00968669|164727555|SUPERIORITY_OR_OTHER|||||||0.756|||||||Two-sample t-test|||||||0.756
82517291|NCT00968669|164727555|SUPERIORITY_OR_OTHER|||||||0.224|||||||Two-sample t-test|||||||0.224
82517292|NCT00968669|164727556|SUPERIORITY_OR_OTHER|||||||0.409|||||||Two-sample t-test|||||||0.409
82517293|NCT00968669|164727556|SUPERIORITY_OR_OTHER|||||||0.847|||||||Two-sample t-test|||||||0.847
82517294|NCT00968669|164727556|SUPERIORITY_OR_OTHER|||||||0.968|||||||Two-sample t-test|||||||0.968
82517295|NCT00968669|164727557|SUPERIORITY_OR_OTHER|||||||0.208|||||||Fisher Exact|||Combined MEDI-528 dose groups versus placebo||||0.208
82517296|NCT00968669|164727558|SUPERIORITY_OR_OTHER|||||||0.574|||||||Fisher Exact|||Combined MEDI-528 dose groups versus placebo||||0.574
82636228|NCT01014442|164986885|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-8.6964||||0.0002|TWO_SIDED|95.0|-13.7713|-4.6498|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-4.6498|-13.7713|0.0002
82636229|NCT01014442|164986885|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-268.9537||||0.0058|TWO_SIDED|95.0|-506.7782|-77.397|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-77.3970|-506.7782|0.0058
82636230|NCT01014442|164986885|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-4.828|||<|0.0001|TWO_SIDED|95.0|-7.1455|-2.6133|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-2.6133|-7.1455|<0.0001
82636231|NCT01014442|164986886|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|1.7477||||0.7144|TWO_SIDED|95.0|-12.101|14.6563|||Wilcoxon rank sum test|||AUC0-12 of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||14.6563|-12.1010|0.7144
82636232|NCT01014442|164986886|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-156.3255||||0.3413|TWO_SIDED|95.0|-526.0765|195.8348|||Wilcoxon rank sum test|||AUC0-12 of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||195.8348|-526.0765|0.3413
82517297|NCT02255175|164727564|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|t=.501, df=33||||||.620
82636233|NCT01014442|164986886|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.888||||0.6251|TWO_SIDED|95.0|-3.0288|4.2273|||Wilcoxon rank sum test|||AUC0-12 of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||4.2273|-3.0288|0.6251
82517298|NCT02255175|164727565|SUPERIORITY|||||||0.855|||||||t-test, 2 sided|t=.185, df=33||||||.855
82517299|NCT02255175|164727566|SUPERIORITY|||||||0.758|||||||t-test, 2 sided|t=-.310, df=33||||||.758
82636234|NCT01014442|164986887|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|24.315||||0.2342|TWO_SIDED|95.0|-16.0292|79.365|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||79.3650|-16.0292|0.2342
82636235|NCT01014442|164986888|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-13.5592||||0.1964|TWO_SIDED|95.0|-37.395|5.4825|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||5.4825|-37.3950|0.1964
82517300|NCT02255175|164727567|SUPERIORITY|||||||0.518|||||||t-test, 2 sided|t=.653, df=33||||||.518
82517301|NCT02255175|164727568|SUPERIORITY|||||||0.645|||||||t-test, 2 sided|t=.465, df=33||||||.645
82517302|NCT02255175|164727569|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|t=2.56, df=33||||||.015
82517303|NCT02255175|164727570|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|t=.705, df=33||||||.486
82517304|NCT02255175|164727571|SUPERIORITY|||||||0.831|||||||t-test, 2 sided|t=.216, df=33||||||.831
82517305|NCT02255175|164727572|SUPERIORITY|||||||0.0002|||||||Repeated measures ANOVA|F(1,33)=17.91||||||.0002
82636236|NCT01014442|164986889|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-22.7878||||0.0672|TWO_SIDED|95.0|-44.8217|3.7573|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||3.7573|-44.8217|0.0672
82636237|NCT01014442|164986890|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-21.4737||||0.2453|TWO_SIDED|95.0|-64.1567|8.5708|||Wilcoxon rank sum test|||Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||8.5708|-64.1567|0.2453
82636238|NCT01014442|164986891|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00237||||0.1362|TWO_SIDED|95.0|-0.00734|0.00106|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00106|-0.00734|0.1362
82636239|NCT01014442|164986891|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.04797||||0.4325|TWO_SIDED|95.0|-0.08467|0.26322|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 MPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.26322|-0.08467|0.4325
82636240|NCT01014442|164986891|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00311||||0.0316|TWO_SIDED|95.0|-0.00645|-0.00029|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00029|-0.00645|0.0316
82517306|NCT01827904|164727619|SUPERIORITY|Percent change from Baseline at the 3 Month visit in the Exablate test vs. Sham control arms was tested using the t-test.|||||<|0.001|||||||t-test, 1 sided|alpha = 0.05 for the hypothesis test. H0: M3ExAblate ≤ M3Sham H1: M3ExAblate \> M3Sham||"Note that the Crossover group was a rescue treatment group and not integral to the experimental design statistical analysis."||||<0.001
82517307|NCT04773015|164727631|OTHER|||||||0.6371|||||||Fisher Exact|||||||0.6371
82517308|NCT04773015|164727632|OTHER|||||||0.1448|||||||Fisher Exact|||||||0.1448
82517309|NCT04773015|164727633|OTHER|||||||0.1507|||||||Fisher Exact|||||||0.1507
82517310|NCT04773015|164727634|OTHER|||||||0.1189|||||||Fisher Exact|||||||0.1189
82517311|NCT01165281|164727650|NON_INFERIORITY_OR_EQUIVALENCE|In order to demonstrate that the upper limit of the confidence interval of intergroup differences in change from baseline is not higher than the noninferiority margin of 1 with a 1-tailed significance level of 0.025 and 90% power, the sample size was calculated to be 133 patients in each group for a total of 266 patients. Assuming approximately 20% of patients would be excluded from the analyses, the target sample size was 330 patients.|Least-Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.226||0.786|TWO_SIDED|95.0|-0.506|0.383|||ANCOVA|Analysis of covariance (ANCOVA) model was used with treatment and country as factors and baseline pain intensity score as a covariate.||The primary hypothesis to be tested for the study was that the JNS024 ER group was not inferior to oxycodone CR as defined by the upper limit of the 95% confidence interval of the difference between JNS024 ER and oxycodone CR on the mean change from baseline of the NRS pain intensity score during the last 3 days of study drug administration. It was to be concluded that JNS024 ER is not inferior to oxycodone CR if the upper 95% confidence limit is less than 1 point.||0.383|-0.506|0.786
82517312|NCT00364858|164727666|SUPERIORITY_OR_OTHER||Agresti and Min|-0.176||||||95.0|-0.357|0.058||||||Difference in proportion of Clinical Success = (Proportion of participants with Clinical Success Q4 - Proportion of participants with Clinical Success Q2).||0.058|-0.357|
82517313|NCT04295564|164727744|SUPERIORITY||Mean Difference (Final Values)|82.1|||<|0.05|TWO_SIDED|95.0|8.3|155.9||This is a calculate p value|Mixed Models Analysis|adjusted for the correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient testing||||155.9|8.3|<0.05
82517314|NCT04295564|164727745|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.02|TWO_SIDED|95.0|0.1|1.1||This is a calculated p value|Mixed Models Analysis|Adjusted for correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient test.||||1.1|0.1|<0.02
82517315|NCT04295564|164727746|SUPERIORITY||Mean Difference (Final Values)|62.7|||<|0.05|TWO_SIDED|95.0|4.5|121.0||This is a calculated p value|Mixed Models Analysis|P-value adjusted for correlation between twin pairs and gestational age at birth (stratification variable), sex, and length at outpatient testing.||||121|4.5|<0.05
82517316|NCT04295564|164727747|SUPERIORITY||Odds Ratio (OR)|0.59|||>|0.05|TWO_SIDED|95.0|0.27|1.31||This is a calculated p value|Regression, Logistic|||||1.31|0.27|>0.05
82517317|NCT04295564|164727747|SUPERIORITY||Odds Ratio (OR)|0.59|||>|0.05|TWO_SIDED|95.0|0.27|1.31|||Regression, Logistic|Adjusted for gestational age at birth (stratification variable)||||1.31|0.27|>0.05
82517318|NCT01808690|164727762|SUPERIORITY|||||||0.005||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted multivariable models, which included sex, pubertal status, change in BMI, and baseline M/I.||Insulin function was defined as M/I (mg/kg/min)/(insulin). Power calculations were based on data from a small study in youth with poorly controlled T1DM, which reported a significant increase in M/I in the 11 participants treated with Metformin. On the basis of the effect size reported in that study, a sample size of 25 per group and an alpha of 0.05 provided us with 93% power to detect a difference of 1 SD in the primary outcome of M/I.||||0.005
82636241|NCT01014442|164986891|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0000158||||0.3269|TWO_SIDED|95.0|-0.0000134|0.0000552|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000552|-0.0000134|0.3269
82517319|NCT01808690|164727763|SUPERIORITY|||||||0.46||||||Threshold for statistical significance P=0.05|Regression, Linear|Adjusted for the baseline value of the variable, sex, age, change in VO2peak, change in insulin sensitivity, and treatment condition.||||||0.46
82517320|NCT01808690|164727764|SUPERIORITY|||||||0.04||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in SBP, change in BMI, and change in M/I.||||||0.04
82517321|NCT01808690|164727765|SUPERIORITY|||||||0.04||||||Threshold for significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in systolic blood pressure, change in BMI, and change in M/I.||||||0.04
82517322|NCT01808690|164727766|SUPERIORITY|||||||0.01||||||Threshold for statistical significance P=0.05|Regression, Linear|Adjusted for the baseline value of BMI percentile, diabetes duration, and A1c.||||||0.01
82517323|NCT01808690|164727767|SUPERIORITY|||||||0.03||||||Threshold for statistical significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in SBP, change in BMI, and change in M/I.||||||0.03
82517324|NCT01808690|164727768|SUPERIORITY|||||||0.8||||||Threshold for significance P=0.05|Regression, Linear|We also fitted mutlivariable models, which included changed in systolic blood pressure, change in BMI, and change in M/I.||||||0.8
82517325|NCT00492349|164727781|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANCOVA|||Mixed model ANCOVA in which baseline served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||<0.05
82517326|NCT00492349|164727782|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||||||All treatment main and interaction effect p-values were \> 0.05.|ANCOVA|||Mixed model ANCOVA in which baseline CPT Detectability served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||>0.05
82517327|NCT00492349|164727783|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANCOVA|||Mixed model ANCOVA in which baseline Antisaccade Errors served as the covariate and Smoking status and measurement occasions were between and within-groups factors, respectively.||||<0.05
82571174|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1428|TWO_SIDED||||||ANOVA|||Total CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1428
82517328|NCT01928719|164727785|OTHER||Hazard Ratio (HR)|3.3|||<|0.0001|TWO_SIDED|95.0|1.95|5.58|||Regression, Cox||The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||5.58|1.95|<0.0001
82517329|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|3.4|||<|0.0001|TWO_SIDED|95.0|1.99|5.81||Testing the effect of treatment group in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Age Group, Working Status, and BMI.|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|The reference group is Same Nicotine Content Group.||5.81|1.99|<0.0001
82517330|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.51||||0.06|TWO_SIDED|95.0|0.26|1.03||Testing the effect of age group (ages 30-39) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 30-39 to the Age group 18-29.|The reference group is Age equals 18-29.||1.03|0.26|0.06
82517331|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.33|||<|0.002|TWO_SIDED|95.0|0.17|0.66||Testing the effect of age group (ages 40-49) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 40-49 to the Age group 18-29.|The reference group is Age equals 18-29.||0.66|0.17|<0.002
82517332|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.33|||<|0.002|TWO_SIDED|95.0|0.16|0.65||Testing the effect of age group (Ages 50-59) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 50-59 to Age group 18-29.|The reference group is Age equals 18-29.||0.65|0.16|<0.002
82517333|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.39||||0.1|TWO_SIDED|95.0|0.13|1.18||Testing the effect of age group (Ages 60-65) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and BMI.|The direction of comparison is Age group 60-65 to the Age group 18-29.|The reference group is Age equals 18-29.||1.18|0.13|0.1
82517334|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|1.6||||0.1|TWO_SIDED|95.0|0.92|2.66||Testing the effect of working status in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Age, and BMI.||The reference group is not currently working.|The direction of comparison is currently working to not currently working.|2.66|0.92|0.1
82517335|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.25||||0.006|TWO_SIDED|95.0|0.1|0.67||Testing the effect of BMI Normal Weight group (\>=18.5 \& \<25) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Normal Weight (\>=18.5 \& \<25) to Underweight (\<18.5) group.|The reference group is BMI Underweight (\<18.5)||0.67|0.1|0.006
82517336|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.35||||0.034|TWO_SIDED|95.0|0.13|0.92||Testing the effect of BMI Overweight group (\>=25 \& \< 30) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Overweight (\>=25 \& \< 30) to Underweight (\<18.5) group.|The reference group is BMI Underweight group (\<18.5)||0.92|0.13|0.034
82517337|NCT01928719|164727786|OTHER||Hazard Ratio (HR)|0.31||||0.011|TWO_SIDED|95.0|0.13|0.77||Testing the effect of BMI Obese group (\>=30) in a Multivariable Cox Regression Model.|Regression, Cox|Adjusting for Treatment Group, Working Status, and Age.|The direction of comparison is Obese (\>=30) to Underweight (\<18.5) group.|The reference group is BMI Underweight group (\<18.5)||0.77|0.13|0.011
82517338|NCT01928719|164727787|OTHER||Least Squares Mean Difference|-4.1||||0.0006|TWO_SIDED|95.0|-6.44|-1.75|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-1.75|-6.44|0.0006
82517339|NCT01928719|164727788|OTHER||Least Squares Mean Difference|-136.7|||<|0.0001|TWO_SIDED|95.0|-171.7|-101.7|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-101.7|-171.7|<.0001
82517340|NCT01928719|164727789|OTHER||Least Squares Mean Difference|-4.03||||0.0305|TWO_SIDED|95.0|-7.68|-0.38|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||-0.38|-7.68|0.0305
82636242|NCT01014442|164986892|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00383||||0.0572|TWO_SIDED|95.0|-0.00761|0.0001|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00010|-0.00761|0.0572
82517341|NCT01928719|164727790|OTHER||Least Squares Mean Difference|1.81||||0.0207|TWO_SIDED|95.0|0.28|3.33|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||3.33|0.28|0.0207
82517342|NCT01928719|164727791|OTHER||Least Squares Mean Difference|-0.16||||0.4191|TWO_SIDED|95.0|-0.56|0.23|||Mixed Models Analysis|The model included time, group, and time-by-group interaction; treating baseline scores for outcomes as covariates|The direction of comparison is reduced nicotine content vs. same nicotine content cigarettes.|||0.23|-0.56|0.4191
82517343|NCT05732454|164727840|SUPERIORITY||Difference in percentage|-3.76|||=|0.558|TWO_SIDED|95.0|-16.36|8.83|||Cochran-Mantel-Haenszel|||Normal approximation adjusting for the stratification factor (disease severity as measured by baseline IGA score 3 \[moderate\], 4 \[severe\]) derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach was used.||8.83|-16.36|=0.5580
82517344|NCT05732454|164727841|SUPERIORITY||Difference in percentage|9.07|||=|0.3685|TWO_SIDED|95.0|-10.7|28.85|||Cochran-Mantel-Haenszel|||Normal approximation adjusting for the stratification factor (disease severity as measured by baseline IGA score 3 \[moderate\], 4 \[severe\]) derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach was used.||28.85|-10.70|=0.3685
82517345|NCT05732454|164727842|SUPERIORITY||Difference in Mean|-29.22|||=|0.0303|TWO_SIDED|95.0|-55.53|-2.9|||Rubin's rule|||Jump-to-Control (JTC) method was used for evaluation. A complete imputed dataset was analyzed using analysis of covariance model including effects of treatment group, actual stratification factor, and baseline value. Multiple results of the treatment comparison were combined using Rubin's rules, reporting the combined treatment difference, its standard error, 95% CI and 2-sided p-value, across the visits.||-2.90|-55.53|=0.0303
82517346|NCT01153633|164727857|SUPERIORITY_OR_OTHER|||||||0.2317||95.0||||F-test (2-sided), ANCOVA with baseline target ulcer size as covariate|F-test|||||||0.2317
82517347|NCT01153633|164727861|SUPERIORITY_OR_OTHER|||||||0.4905||95.0|||||Fisher Exact|||||||0.4905
82517348|NCT01153633|164727862|SUPERIORITY_OR_OTHER|||||||0.9945||95.0||||F-test (2-sided), ANCOVA with baseline target ulcer size as covariate|F-test|||||||0.9945
82517349|NCT01262651|164727884|SUPERIORITY||Median Difference (Final Values)|3.41||||0.0854|TWO_SIDED|95.0|0.0|8.16|||Wilcoxon (Mann-Whitney)|||||8.16|0.00|0.0854
82517350|NCT00377819|164727924|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.35%|Mean Difference (Final Values)|0.85|||<|0.0001||95.0|0.44|1.25|||Repeated Measures Model||Based on repeated measures model adjusting for treatment, length of prior alendronate stratification variable, visit, baseline value, machine type, treatment by visit interaction, and baseline value by machine type interaction|||1.25|0.44|<0.0001
82517351|NCT00377819|164727925|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.22%|Mean Difference (Final Values)|1.18|||<|0.0001||95.0|0.63|1.73|||Repeated Measures Model||Based on repeated measures model adjusting for treatment, length of prior alendronate stratification variable, visit, baseline value, machine type, treatment by visit interaction, and baseline value by machine type interaction|||1.73|0.63|<0.0001
82517352|NCT00377819|164727926|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Van Elteren Stratified Rank Test|||||||<0.0001
82517353|NCT04827212|164727987|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.037|TWO_SIDED|||||P\<0.05|Mixed Models Analysis|||||||0.037
82517354|NCT04827212|164727988|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.78|TWO_SIDED|||||p-value is adjusted for multiple comparisons- P\<0.025; controlled for baseline values as there was a significant difference between groups at baseline|Mixed Models Analysis|||||||0.78
82517355|NCT04827212|164727989|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.56|TWO_SIDED|||||adjusted for multiple comparisons- P\<0.025; controlled for baseline value due to a significant difference between groups at baseline|Mixed Models Analysis|||||||0.56
82517356|NCT04827212|164727990|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.4
82517357|NCT04827212|164727991|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.18|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.18
82517358|NCT04827212|164727992|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.86|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.86
82517359|NCT04827212|164727993|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.21|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.21
82517360|NCT04827212|164727994|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.19|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.19
82517361|NCT04827212|164727995|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.12|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.12
82517362|NCT04827212|164727996|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.41|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.41
82517363|NCT04827212|164727997|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.43|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.43
82517364|NCT04827212|164727998|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.53|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.53
82517365|NCT04827212|164727999|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.98|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.98
82517366|NCT04827212|164728000|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.96|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.96
82517367|NCT04827212|164728001|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.91|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.91
82517368|NCT04827212|164728002|SUPERIORITY||Mean Difference (Final Values)|13.1||||0.25|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.25
82517369|NCT04827212|164728003|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.46|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.46
82517370|NCT04827212|164728004|SUPERIORITY||Mean Difference (Final Values)|9.6||||0.41|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.41
82517371|NCT04827212|164728005|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.12|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.12
82517372|NCT04827212|164728006|SUPERIORITY||Mean Difference (Final Values)|-11.9||||0.2|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.20
82517373|NCT04827212|164728007|SUPERIORITY||Mean Difference (Final Values)|-14.0||||0.13|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.13
82517374|NCT04827212|164728008|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.94|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.94
82517375|NCT04827212|164728009|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.72|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.72
82517376|NCT04827212|164728010|SUPERIORITY||Mean Difference (Final Values)|12.3||||0.33|TWO_SIDED|||||p-value is adjusted for multiple comparisons and significance threshold was set at P\<0.0167|Mixed Models Analysis|||||||0.33
82517377|NCT00148343|164728023|SUPERIORITY_OR_OTHER||Slope|1.26|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-0.2|2.75|||||Mixed model analysis. Slope is in reference to treatment x time interaction for full 36 weeks|||2.75|-0.2|
82517378|NCT00148343|164728024|SUPERIORITY||Slope|-5.07|STANDARD_ERROR_OF_MEAN|2.54|<|0.05|TWO_SIDED|95.0|-10.05|-0.09|||Mixed Models Analysis||Slope is in reference to from baseline to end of follow-up at 36 weeks.|||-0.09|-10.05|<0.05
82517379|NCT00148343|164728025|SUPERIORITY_OR_OTHER||Slope|0.31|STANDARD_ERROR_OF_MEAN|7.35|<|0.05|TWO_SIDED|95.0|-14.096|14.716|||Mixed Models Analysis||Slope is in reference to start of treatment to end of follow up at 36 weeks|||14.716|-14.096|<0.05
82517380|NCT00148343|164728026|SUPERIORITY||Slope|-1.95|STANDARD_ERROR_OF_MEAN|5.53|||TWO_SIDED|95.0|-12.79|8.89|||||Mixed models analysis. Slope refers to baseline to final follow up at 36 weeks|||8.89|-12.79|
82517381|NCT00148343|164728027|SUPERIORITY||Slope|0.006|STANDARD_ERROR_OF_MEAN|0.026|<|0.05|TWO_SIDED|95.0|-0.045|0.057|||Mixed Models Analysis||Slope is in reference to baseline to end of follow-up at 36 weeks|||0.057|-0.045|<0.05
82571175|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2316|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2316
82517382|NCT02528214|164728032|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Least Square (LS) Mean Difference|28.24|||<|0.0001|TWO_SIDED|95.0|15.81|40.67||Threshold for significance at two-sided 0.05 level.|ANCOVA||LS mean difference represents reduction difference i.e. dupilumab - placebo.|The outcome measure was analyzed using analysis of covariance (ANCOVA) model which included percentage reduction of OCS dose at Week 24 as the response variable, and treatment group, baseline eosinophil level, optimized OCS dose at baseline, region as covariates. Missing data was imputed using a pattern mixture model by multiple imputation approach.||40.67|15.81|< 0.0001
82517383|NCT02528214|164728034|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|3.98|||<|0.0001|TWO_SIDED|95.0|2.06|7.67||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant achieved the 50% OCS dose reduction criterion as the response variable, and treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||7.67|2.06|< 0.0001
82571176|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3468|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3468
82571177|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5367|TWO_SIDED||||||ANOVA|||Total CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5367
82571178|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0549|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0549
82571179|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1351|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1351
82571180|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9599|TWO_SIDED||||||ANOVA|||Total CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9599
82571181|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4273|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4273
82636243|NCT01014442|164986892|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.09626||||0.3198|TWO_SIDED|95.0|-0.25269|0.11464|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.11464|-0.25269|0.3198
82571182|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4466|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4466
82571183|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|TWO_SIDED||||||ANOVA|||CT Distinct CME 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3785
82571184|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2869|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2869
82571185|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9905
82571186|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9381|TWO_SIDED||||||ANOVA|||CT Distinct CME 24 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9381
82382882|NCT01120184|164476415|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.5691|TWO_SIDED|97.5|0.67|1.11|||Log Rank||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.11|0.67|0.5691
82517384|NCT02528214|164728035|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|4.48|||<|0.0001|TWO_SIDED|95.0|2.39|8.39||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant achieved a reduction of OCS dose to \<5 mg/day at Week 24 as the response variable, treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||8.39|2.39|< 0.0001
82517385|NCT02528214|164728036|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|2.57||||0.0024|TWO_SIDED|95.0|1.4|4.73||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome was analyzed using a logistic regression model. The model included binary status of whether or not a participant achieved their maximum possible reduction of OCS dose per protocol at Week 24 as the response variable, treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed by using a pattern mixture model by multiple imputation approach.||4.73|1.4|0.0024
82517386|NCT02528214|164728037|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).|Odds Ratio (OR)|2.74||||0.0015|TWO_SIDED|95.0|1.47|5.1||Threshold for significance at 0.05.|Regression, Logistic||Dupilumab 300 mg q2w v Placebo q2w|The outcome measure was analyzed using a logistic regression model. The model included the binary status of whether or not a participant no longer required OCS at Week 24 as the response variable, and treatment groups, optimized OCS dose at baseline, regions, and baseline eosinophil level subgroups as covariates. Missing data was imputed using a pattern mixture model by multiple imputation approach.||5.1|1.47|0.0015
82517387|NCT01380327|164728046|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.7||||0.001|TWO_SIDED|95.0|1.2|2.3|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.18) vs. high dose group (numerator=1.98).|Analysis compared cockroach SLIT -high dose, Placebo - high dose||2.3|1.2|0.001
82517388|NCT01380327|164728046|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.7|3.1|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.18) vs. low dose group (numerator=2.69).|Analysis compared cockroach SLIT - low dose, placebo - low dose||3.1|1.7|<0.0001
82517389|NCT01380327|164728047|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3|||<|0.0001|TWO_SIDED|95.0|1.1|1.4|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.04) vs. high dose group (numerator=1.32).|Analysis compared cockroach SLIT - high dose, placebo - high dose||1.4|1.1|<0.0001
82517390|NCT01380327|164728047|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.11|TWO_SIDED|95.0|1.0|1.2|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.04) vs. low dose group (numerator=1.14).|Analysis compared cockroach SLIT - low dose, placebo - low dose||1.2|1.0|0.11
82571187|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2158|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2158
82571188|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7887|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7887
82517391|NCT01380327|164728048|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.06|TWO_SIDED|95.0|1.0|2.4|||Mixed Models Analysis||Estimated value and associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.03) vs. high dose group (numerator=1.57).|Analysis compared cockroach SLIT - high dose, placebo - high dose||2.4|1.0|0.06
82571189|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.925|TWO_SIDED||||||ANOVA|||CT Distinct CME 72 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9250
82571190|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1472|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1472
82517392|NCT01380327|164728048|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.4||||0.13|TWO_SIDED|95.0|0.9|2.2|||Mixed Models Analysis||Estimated value \& associated CI is the ratio of change (baseline to post-baseline) in placebo group (denominator=1.03) vs. low dose group (numerator=1.45).|Analysis compared cockroach SLIT - low dose, placebo - low dose||2.2|0.9|0.13
82382883|NCT01120184|164476417|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|97.5|0.69|1.04|||||Direction of comparison: Trastuzumab Emtasine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||1.04|0.69|
82517393|NCT01380327|164728049|SUPERIORITY_OR_OTHER||Treatment effect|-12.9||||0.21|TWO_SIDED|95.0|-33.2|7.5|||Mixed Models Analysis||Estimated value\& associated CI is the treatment effect: baseline to post-baseline change in measurement in high dose group (-7.2) minus baseline to post-baseline change in measurement in placebo group (5.7) .|Analysis compared cockroach SLIT - high dose, placebo - high dose||7.5|-33.2|0.21
82517394|NCT01380327|164728049|SUPERIORITY_OR_OTHER||Treatment effect|13.5||||0.2|TWO_SIDED|95.0|-7.1|34.1|||Mixed Models Analysis||Estimated value\& associated CI is the treatment effect: baseline to post-baseline change in measurement in high dose group (19.2) minus baseline to post-baseline change in measurement in placebo group (5.7) .|Analysis compared cockroach SLIT - low dose, placebo - low dose||34.1|-7.1|0.20
82517395|NCT02504294|164728053|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded since the lower bound of the 95% CI of the difference in percentage was greater than the non-inferiority margin (-12.5%).|Difference in Percentage|-1.3975|||||TWO_SIDED|95.0|-7.6503|4.8553||||||Clustered binomial analysis using logistic regression method was performed and generalized estimating equation method was used to construct 95 percent (%) two-sided confidence intervals (CIs).||4.8553|-7.6503|
82517396|NCT02504294|164728054|SUPERIORITY_OR_OTHER||LS Mean Difference|-1062.0|STANDARD_ERROR_OF_MEAN|803.95||0.1874|TWO_SIDED|95.0|-2643.2|519.2|||ANCOVA|||P-value was calculated using analysis of covariance (ANCOVA) model with treatment as factor and baseline ESA dose as covariate.||519.2|-2643.2|0.1874
82517397|NCT03836287|164728106|OTHER||Odds Ratio (OR)|2.34||||0.0004|TWO_SIDED|95.0|1.47|3.72|||Regression, Logistic|||||3.72|1.47|0.0004
82517398|NCT03836287|164728107|OTHER||Mean Difference (Net)|-29.71|STANDARD_ERROR_OF_MEAN|9.543||0.0019|TWO_SIDED|95.0|-48.42|-11.0|||ANCOVA|||||-11.00|-48.42|0.0019
82517399|NCT01949480|164728126|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.643|||||||t-test, 2 sided|||||||0.643
82517400|NCT01949480|164728128|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.077|||||||t-test, 2 sided|||This p-value is calculated for the NRS at rest.||||.077
82517401|NCT01949480|164728128|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.39|||||||t-test, 2 sided|||This p-value is calculated for the NRS during deep inspiration at 24 hrs.||||0.39
82517402|NCT01949480|164728129|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.605|||||||t-test, 2 sided|||||||0.605
82517403|NCT01949480|164728130|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.104|||||||t-test, 2 sided|||This p-value is for the Local Anesthetic infused in 24 hrs.||||0.104
82517404|NCT01949480|164728131|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.308|||||||t-test, 2 sided|||||||0.308
82517405|NCT01949480|164728132|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.487|||||||t-test, 2 sided|||||||0.487
82517406|NCT01949480|164728133|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.493|||||||t-test, 2 sided|||||||0.493
82517407|NCT01949480|164728134|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.574|||||||t-test, 2 sided|||||||0.574
82517408|NCT01949480|164728135|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.913|||||||t-test, 2 sided|||||||0.913
82517409|NCT01949480|164728136|NON_INFERIORITY|To detect an effect size of 0.92 SD units with a power of 81% and alpha level of 0.05, a total sample size of 40 patients (20 patients/group) was calculated.||||||0.783|||||||t-test, 2 sided|||||||0.783
82517410|NCT00144339|164728138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.0||0.9524||95.0|-4.0|4.0|||t-test, 2 sided|Random-effects model|Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||4|-4|0.9524
82517411|NCT00144339|164728139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.2074||95.0|-2.0|6.0|||t-test, 2 sided|Random-effects model|Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||6|-2|0.2074
82517412|NCT00144339|164728140|SUPERIORITY_OR_OTHER|||||||0.2488||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.2488
82517413|NCT00144339|164728141|SUPERIORITY_OR_OTHER|||||||0.0145||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.0145
82636244|NCT01014442|164986892|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00131||||0.0845|TWO_SIDED|95.0|-0.00352|0.00013|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00013|-0.00352|0.0845
82517414|NCT00144339|164728142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|4.0||0.299||95.0|-12.0|4.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||4|-12|0.2990
82517415|NCT00144339|164728143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.0||0.8375||95.0|-9.0|7.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||7|-9|0.8375
82517416|NCT00144339|164728144|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|4.0||0.1143||95.0|-14.0|2.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||2|-14|0.1143
82517417|NCT00144339|164728145|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|4.0||0.787||95.0|-9.0|7.0|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||7|-9|0.7870
82517418|NCT00144339|164728146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.784||95.0|-0.2|0.3|||t-test, 2 sided||Arbitrary covariance matrix; fixed treatment effect; individual patients are random; rate of decline estimated as the slope of the random effects model|Linear random effects model||0.3|-0.2|0.7840
82517419|NCT00144339|164728147|SUPERIORITY_OR_OTHER|||||||0.2705||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.2705
82517420|NCT00144339|164728148|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.306
82517421|NCT00144339|164728149|SUPERIORITY_OR_OTHER|||||||0.8103||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.8103
82571191|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5383|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5383
82571192|NCT00551135|164852354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8869|TWO_SIDED||||||ANOVA|||CT Distinct CME EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline pain catastrophizing total score. Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8869
82571193|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4024|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.4024
82571194|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9766|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.9766
82571195|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9975|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 3 h PS;||||0.9975
82571196|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9038|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.9038
82517422|NCT00144339|164728150|SUPERIORITY_OR_OTHER|||||||0.9814||95.0|||||Wilcoxon Rank-sum test|Rate calculated as (measure on 30days after completion of treatment - measure on day 1 )/ years in between||||||0.9814
82571197|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.937|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.9370
82571198|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2134|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 24 h PS;||||0.2134
82571199|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.2482
82571200|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.2207
82571201|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at 72 h PS;||||0.9191
82571202|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0686|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0686
82382884|NCT01120184|164476417|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|97.5|0.63|0.95|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.95|0.63|
82382885|NCT01120184|164476419|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|97.5|0.66|0.97|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.97|0.66|
82517423|NCT00144339|164728151|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.81|0.91|||Log Rank|Cox regression with treatment|Median estimated by Kaplan-Meier estimates; hazard ratio shown as tio vs. placebo|Cox regression||0.91|0.81|<0.0001
82517424|NCT00144339|164728152|SUPERIORITY_OR_OTHER||Rate Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.81|0.91|||t-test, 2 sided||Ratio calculated as estimated number of events in tio/number of events in placebo|Poisson regression adjusted for overdispersion and treatment exposure||0.91|0.81|<0.0001
82517425|NCT00144339|164728153|SUPERIORITY_OR_OTHER|||||||0.3481||95.0|||||Fisher Exact|||||||0.3481
82517426|NCT00144339|164728154|SUPERIORITY_OR_OTHER||Rate Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.03||0.0011||95.0|0.83|0.95|||t-test, 2 sided||Poisson regression adjusting for overdispersion with Pearson's method adjusting for treatment exposure. The logarithm of treatment exposure is used as offset when building the Poisson model.|Poisson regression adjusted for overdispersion and treatment exposure||0.95|0.83|0.0011
82636245|NCT01014442|164986892|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.00001||||0.1769|TWO_SIDED|95.0|-0.000025|0.0000043|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000043|-0.0000250|0.1769
82636246|NCT01014442|164986893|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0049||||0.0048|TWO_SIDED|95.0|-0.00876|-0.00148|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.00148|-0.00876|0.0048
82636247|NCT01014442|164986893|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.14764||||0.0277|TWO_SIDED|95.0|-0.31026|-0.01067|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||-0.01067|-0.31026|0.0277
82636248|NCT01014442|164986893|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0035||||0.0002|TWO_SIDED|95.0|-0.00476|0.00168|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00168|-0.00476|0.0002
82636249|NCT01014442|164986893|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0000138||||0.1661|TWO_SIDED|95.0|-0.0000295|0.0000047|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000047|-0.0000295|0.1661
82636250|NCT01014442|164986894|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00054||||0.9417|TWO_SIDED|95.0|-0.01037|0.01042|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.01042|-0.01037|0.9417
82636251|NCT01014442|164986894|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.1461||||0.2941|TWO_SIDED|95.0|-0.39951|0.12988|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of MPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.12988|-0.39951|0.2941
82517427|NCT00144339|164728155|SUPERIORITY_OR_OTHER|||||||0.1766||95.0|||||Fisher Exact|||||||0.1766
82517428|NCT00144339|164728156|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.04||0.0024||95.0|0.78|0.95|||Log Rank||Hazard ratio shown as tiotropium bromide vs. placebo|Cox regression||0.95|0.78|0.0024
82517429|NCT00144339|164728157|SUPERIORITY_OR_OTHER||Rate ratio|0.94|STANDARD_ERROR_OF_MEAN|0.06||0.3413||95.0|0.82|1.07|||t-test, 2 sided||Ratio of estimated number of events between tiotropium bromide and placebo|||1.07|0.82|0.3413
82517430|NCT00144339|164728158|SUPERIORITY_OR_OTHER||Rate ratio|1.01||||0.8624||95.0|0.87|1.18|||t-test, 2 sided||Ratio of estimated number of days of chronic obstructive pulmonary disease (COPD) exacerbation leading to hospitalization between tio and placebo|Poisson regression adjusting for overdispersion with Pearson's method adjusting for treatment exposure. The logarithm of treatment exposure is used as offset when building the Poisson model.||1.18|0.87|0.8624
82517431|NCT00144339|164728159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|||<|0.0001||95.0|0.077|0.098|||ANOVA|Repeated measures ANOVA||||0.098|0.077|<.0001
82636252|NCT01014442|164986894|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.00033||||0.817|TWO_SIDED|95.0|-0.00361|0.00421|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of AcMPAG at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.00421|-0.00361|0.8170
82636253|NCT01014442|164986894|SUPERIORITY_OR_OTHER||Hodge-Lehmann estimator|-0.0000239||||0.1927|TWO_SIDED|95.0|-0.0000594|0.0000154|||Wilcoxon rank sum test|||Dose-Normalized AUC0-12 of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0000154|-0.0000594|0.1927
82517432|NCT00144339|164728160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|||<|0.0001||95.0|0.037|0.057|||ANOVA|Repeated measures ANOVA||||0.057|0.037|<.0001
82382886|NCT01120184|164476419|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|97.5|0.65|0.95|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.95|0.65|
82517433|NCT00144339|164728161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|||<|0.0001||95.0|0.087|0.11|||ANOVA|Repeated measures ANOVA||||0.110|0.087|<.0001
82517434|NCT00144339|164728162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|||<|0.0001||95.0|0.047|0.069|||ANOVA|Repeated measures ANOVA||||0.069|0.047|<.0001
82517435|NCT00144339|164728163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|||<|0.0001||95.0|0.091|0.115|||ANOVA|Repeated measures ANOVA||||0.115|0.091|<.0001
82517436|NCT00144339|164728164|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.054|||<|0.0001||95.0|0.042|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.042|<.0001
82517437|NCT00144339|164728165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|||<|0.0001||95.0|0.078|0.104|||ANOVA|Repeated measures ANOVA||||0.104|0.078|<.0001
82517438|NCT00144339|164728166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|||<|0.0001||95.0|0.04|0.066|||ANOVA|Repeated measures ANOVA||||0.066|0.040|<.0001
82517439|NCT00144339|164728167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|||<|0.0001||95.0|0.081|0.107|||ANOVA|Repeated measures ANOVA||||0.107|0.081|<.0001
82517440|NCT00144339|164728168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|||<|0.0001||95.0|0.049|0.075|||ANOVA|Repeated measures ANOVA||||0.075|0.049|<.0001
82517441|NCT00144339|164728169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|||<|0.0001||95.0|0.081|0.109|||ANOVA|Repeated measures ANOVA||||0.109|0.081|<.0001
82517442|NCT00144339|164728170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||<|0.0001||95.0|0.047|0.075|||ANOVA|Repeated measures ANOVA||||0.075|0.047|<.0001
82517443|NCT00144339|164728171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|||<|0.0001||95.0|0.085|0.114|||ANOVA|Repeated measures ANOVA||||0.114|0.085|<.0001
82517444|NCT00144339|164728172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||<|0.0001||95.0|0.051|0.08|||ANOVA|Repeated measures ANOVA||||0.080|0.051|<.0001
82517445|NCT00144339|164728173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|||<|0.0001||95.0|0.08|0.11|||ANOVA|Repeated measures ANOVA||||0.110|0.080|<.0001
82517446|NCT00144339|164728174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||<|0.0001||95.0|0.045|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.045|<.0001
82517447|NCT00144339|164728175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|||<|0.0001||95.0|0.073|0.103|||ANOVA|Repeated measures ANOVA||||0.103|0.073|<.0001
82517448|NCT00144339|164728176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|||<|0.0001||95.0|0.033|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.033|<.0001
82517449|NCT00144339|164728177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.0001||95.0|0.168|0.211|||ANOVA|Repeated measures ANOVA||||0.211|0.168|<.0001
82517450|NCT00144339|164728178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||<|0.0001||95.0|0.037|0.073|||ANOVA|Repeated measures ANOVA||||0.073|0.037|<.0001
82517451|NCT00144339|164728179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|||<|0.0001||95.0|0.18|0.228|||ANOVA|Repeated measures ANOVA||||0.228|0.180|<.0001
82517452|NCT00144339|164728180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||<|0.0001||95.0|0.034|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.034|<.0001
82517453|NCT00144339|164728181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|||<|0.0001||95.0|0.173|0.222|||ANOVA|Repeated measures ANOVA||||0.222|0.173|<.0001
82517454|NCT00144339|164728182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||<|0.0001||95.0|0.026|0.07|||ANOVA|Repeated measures ANOVA||||0.070|0.026|<.0001
82517455|NCT00144339|164728183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|||<|0.0001||95.0|0.167|0.221|||ANOVA|Repeated measures ANOVA||||0.221|0.167|<.0001
82517456|NCT00144339|164728184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||<|0.0001||95.0|0.026|0.074|||ANOVA|Repeated measures ANOVA||||0.074|0.026|<.0001
82517457|NCT00144339|164728185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|||<|0.0001||95.0|0.161|0.216|||ANOVA|Repeated measures ANOVA||||0.216|0.161|<.0001
82517458|NCT00144339|164728186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|||<|0.0001||95.0|0.035|0.084|||ANOVA|Repeated measures ANOVA||||0.084|0.035|<.0001
82517459|NCT00144339|164728187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|||<|0.0001||95.0|0.157|0.213|||ANOVA|Repeated measures ANOVA||||0.213|0.157|<.0001
82517460|NCT00144339|164728188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047||||0.0005||95.0|0.021|0.074|||ANOVA|Repeated measures ANOVA||||0.074|0.021|0.0005
82517461|NCT00144339|164728189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.0001||95.0|0.17|0.229|||ANOVA|Repeated measures ANOVA||||0.229|0.170|<.0001
82517462|NCT00144339|164728190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||<|0.0001||95.0|0.038|0.093|||ANOVA|Repeated measures ANOVA||||0.093|0.038|<.0001
82517463|NCT00144339|164728191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|||<|0.0001||95.0|0.154|0.215|||ANOVA|Repeated measures ANOVA||||0.215|0.154|<.0001
82517464|NCT00144339|164728192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046||||0.002||95.0|0.017|0.076|||ANOVA|Repeated measures ANOVA||||0.076|0.017|0.0020
82517465|NCT00144339|164728193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.139|0.201|||ANOVA|Repeated measures ANOVA||||0.201|0.139|<.0001
82517466|NCT00144339|164728194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0365||95.0|0.002|0.061|||ANOVA|Repeated measures ANOVA||||0.061|0.002|0.0365
82517467|NCT00144339|164728195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.147|0.192|||ANOVA|Repeated measures ANOVA||||0.192|0.147|<.0001
82517468|NCT00144339|164728196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.0002||95.0|0.018|0.058|||ANOVA|Repeated measures ANOVA||||0.058|0.018|0.0002
82517469|NCT00144339|164728197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||<|0.0001||95.0|0.161|0.21|||ANOVA|Repeated measures ANOVA||||0.210|0.161|<.0001
82517470|NCT00144339|164728198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.0018||95.0|0.014|0.06|||ANOVA|Repeated measures ANOVA||||0.060|0.014|0.0018
82517471|NCT00144339|164728199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|||<|0.0001||95.0|0.151|0.201|||ANOVA|Repeated measures ANOVA||||0.201|0.151|<.0001
82517472|NCT00144339|164728200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0069||95.0|0.009|0.055|||ANOVA|Repeated measures ANOVA||||0.055|0.009|0.0069
82517473|NCT00144339|164728201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|||<|0.0001||95.0|0.127|0.182|||ANOVA|Repeated measures ANOVA||||0.182|0.127|<.0001
82517474|NCT00144339|164728202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.002||95.0|0.015|0.065|||ANOVA|Repeated measures ANOVA||||0.065|0.015|0.0020
82517475|NCT00144339|164728203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|||<|0.0001||95.0|0.139|0.194|||ANOVA|Repeated measures ANOVA||||0.194|0.139|<.0001
82517476|NCT00144339|164728204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0165||95.0|0.006|0.057|||ANOVA|Repeated measures ANOVA||||0.057|0.006|0.0165
82517477|NCT00144339|164728205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.0001||95.0|0.141|0.199|||ANOVA|Repeated measures ANOVA||||0.199|0.141|<.0001
82517478|NCT00144339|164728206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.0248||95.0|0.004|0.059|||ANOVA|Repeated measures ANOVA||||0.059|0.004|0.0248
82517479|NCT00144339|164728207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|||<|0.0001||95.0|0.136|0.196|||ANOVA|Repeated measures ANOVA||||0.196|0.136|<.0001
82517480|NCT00144339|164728208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.0004||95.0|0.022|0.078|||ANOVA|Repeated measures ANOVA||||0.078|0.022|0.0004
82517481|NCT00144339|164728209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|||<|0.0001||95.0|0.13|0.192|||ANOVA|Repeated measures ANOVA||||0.192|0.130|<.0001
82517482|NCT00144339|164728210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.0809||95.0|-0.003|0.057|||ANOVA|Repeated measures ANOVA||||0.057|-0.003|0.0809
82571203|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0746
82382887|NCT01120184|164476429|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-8.2|||||TWO_SIDED|95.0|-15.9|-0.5|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||-0.5|-15.9|
82517483|NCT00144339|164728211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.0001||95.0|0.119|0.182|||ANOVA|Repeated measures ANOVA||||0.182|0.119|<.0001
82517484|NCT00144339|164728212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.0915||95.0|-0.004|0.057|||ANOVA|Repeated measures ANOVA||||0.057|-0.004|0.0915
82517485|NCT00144339|164728213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88|||<|0.0001||95.0|-3.535|-2.226|||ANOVA|Repeated measures ANOVA||||-2.226|-3.535|<.0001
82517486|NCT00144339|164728214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.771|||<|0.0001||95.0|-3.461|-2.081|||ANOVA|Repeated measures ANOVA||||-2.081|-3.461|<.0001
82517487|NCT00144339|164728215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.593|||<|0.0001||95.0|-3.352|-1.834|||ANOVA|Repeated measures ANOVA||||-1.834|-3.352|<.0001
82517488|NCT00144339|164728216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.384|||<|0.0001||95.0|-3.191|-1.576|||ANOVA|Repeated measures ANOVA||||-1.576|-3.191|<.0001
82517489|NCT00144339|164728217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.423|||<|0.0001||95.0|-3.277|-1.569|||ANOVA|Repeated measures ANOVA||||-1.569|-3.277|<.0001
82517490|NCT00144339|164728218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.345|||<|0.0001||95.0|-4.229|-2.462|||ANOVA|Repeated measures ANOVA||||-2.462|-4.229|<.0001
82517491|NCT00144339|164728219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.818|||<|0.0001||95.0|-3.742|-1.894|||ANOVA|Repeated measures ANOVA||||-1.894|-3.742|<.0001
82517492|NCT00144339|164728220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.303|||<|0.0001||95.0|-3.266|-1.34|||ANOVA|Repeated measures ANOVA||||-1.340|-3.266|<.0001
82517493|NCT00144339|164728221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|STANDARD_ERROR_OF_MEAN|0.06||0.0242||95.0|0.74|0.98|||Log Rank||Cox regression with treatment; hazard ratio shown as tiotropium bromide vs. placebo|||0.98|0.74|0.0242
82571204|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0512|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Fatigue at EOT;||||0.0512
82517494|NCT00144339|164728222|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|STANDARD_ERROR_OF_MEAN|0.06||0.0339||95.0|0.76|0.99|||Log Rank||Cox regression; cut-off at 4 years ; vital status form intended at 4 years; hazard ratio shown as tio vs. placebo|Hazard ratio of all cause mortality vital status was information followed-up after discontinuation; vital status information up to 1440 days after the start of treatment was used||0.99|0.76|0.0339
82517495|NCT00144339|164728223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|STANDARD_ERROR_OF_MEAN|0.06||0.0859||95.0|0.79|1.02|||Log Rank||Cox regression; cut-off at 4 years plus 30 days; vital status form intended at 4 years; hazard ratio shown as tio vs. placebo|||1.02|0.79|0.0859
82517496|NCT00144339|164728224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1936||95.0|0.67|1.08|||Log Rank||Cox regression with treatment; hazard ratio shown as tiotropium bromide vs. placebo|||1.08|0.67|0.1936
82517497|NCT00144339|164728225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.2377||95.0|0.71|1.09|||Log Rank||Cox regression; cut-off at 4 years plus 30 days; vital status form intended at 4 years; hazard ratio shown as tiotropium bromide vs. placebo|||1.09|0.71|0.2377
82517498|NCT00144339|164728226|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.029||95.0|0.73|0.98|||Z-test|incidence rate = number of patients with event/ time at risk|Rate ratio of incidence rates (tiotropium/placebo)|||0.98|0.73|0.0290
82517499|NCT00144339|164728227|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.44||||0.1158||95.0|0.91|2.26|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||2.26|0.91|0.1158
82517500|NCT00144339|164728228|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.95||||0.7725||95.0|0.68|1.33|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.33|0.68|0.7725
82517501|NCT00144339|164728229|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.25||||0.2666||95.0|0.84|1.87|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.87|0.84|0.2666
82517502|NCT00144339|164728230|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.59||||0.0337||95.0|0.37|0.96|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.96|0.37|0.0337
82517503|NCT00144339|164728231|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.58||||0.0537||95.0|0.33|1.01|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.01|0.33|0.0537
82636254|NCT01014442|164986895|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.1616||||0.0821|TWO_SIDED|95.0|-0.0121|0.4188|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 4. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.4188|-0.0121|0.0821
82636255|NCT01014442|164986896|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.0427||||0.3628|TWO_SIDED|95.0|-0.0455|0.1221|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 8. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1221|-0.0455|0.3628
82636256|NCT01014442|164986897|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|0.001||||0.9873|TWO_SIDED|95.0|-0.1152|0.1173|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 20. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.1173|-0.1152|0.9873
82517504|NCT00144339|164728232|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.71||||0.0403||95.0|0.52|0.99|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.99|0.52|0.0403
82517505|NCT00144339|164728233|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.0001||95.0|0.77|0.92|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.92|0.77|0.0001
82517506|NCT00144339|164728234|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|1.2||||0.4789||95.0|0.73|1.98|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.98|0.73|0.4789
82517507|NCT00144339|164728235|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.84||||0.0014||95.0|0.76|0.94|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.94|0.76|0.0014
82517508|NCT00144339|164728236|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.61||||0.0236||95.0|0.4|0.94|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.94|0.40|0.0236
82517509|NCT00144339|164728237|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.95||||0.5064||95.0|0.81|1.11|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||1.11|0.81|0.5064
82517510|NCT00144339|164728238|SUPERIORITY_OR_OTHER||Rate ratio of incidence rates|0.69||||0.0104||95.0|0.52|0.92|||Z-test||Rate ratio of incidence rates (tiotropium/placebo)|||0.92|0.52|0.0104
82517511|NCT00167544|164728240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||<|0.05|TWO_SIDED|95.0|-19.49|30.29|||ANCOVA|||The primary analysis of total brain tissue volume was performed using multiple linear regression controlling for postmenstrual age at MRI scan to adjust for differences in timing at MRI. The distributions of potentially important confounding variables at baseline were compared in the two groups using parametric and non-parametric tests as appropriate. All analyses were performed using STATA 11.0. Please see PubMed: 23140612.||30.29|-19.49|<0.05
82517512|NCT03819660|164728254|OTHER||percentage|38.5|||||TWO_SIDED|||||||||||||
82517513|NCT02265237|164728256|SUPERIORITY|97.5% CI was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV genotype 4 (GT4)-infected subjects treated with pegIFN/RBV.|Percentage of Participants|100.0|||||TWO_SIDED|97.5|92.4|100.0|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||100.0|92.4|
82517514|NCT02265237|164728256|SUPERIORITY|97.5% confidence interval (CI) was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV GT4-infected subjects treated with pegIFN/RBV.|Percentage of Participants|96.6|||||TWO_SIDED|97.5|86.7|99.2|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||99.2|86.7|
82571205|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7118|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.7118
82571206|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9883|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.9883
82382888|NCT01120184|164476429|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-3.7|||||TWO_SIDED|95.0|-11.4|3.9|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|||3.9|-11.4|
82382889|NCT01120184|164476429|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|4.5|||||TWO_SIDED|95.0|-3.3|12.2|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|||12.2|-3.3|
82382890|NCT01120184|164476430|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-4.6|||||TWO_SIDED|95.0|-12.1|2.8|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||2.8|-12.1|
82382891|NCT01120184|164476430|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|-1.8|||||TWO_SIDED|95.0|-9.2|5.7|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|||5.7|-9.2|
82382892|NCT01120184|164476430|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rate|2.9|||||TWO_SIDED|95.0|-4.5|10.3|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|||10.3|-4.5|
82382893|NCT01120184|164476431|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|97.5|0.43|0.84|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.84|0.43|
82382894|NCT01120184|164476431|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|97.5|0.45|0.85|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.85|0.45|
82382895|NCT01120184|164476433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|-32.2|||||TWO_SIDED|95.0|-40.0|-24.0|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||-24|-40|
82517515|NCT02265237|164728256|SUPERIORITY|97.5% CI was calculated using the Wilson score method; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 67% to achieve superiority. The predefined threshold of 67% was based on historical SVR rates for HCV genotype 4 (GT4)-infected subjects treated with pegIFN/RBV.|Percentage of Participants|93.4|||||TWO_SIDED|97.5|82.6|97.7|||||The confidence interval was calculated using the Wilson score method.|The overall 2-sided significance level of 0.05 was split between Part I (arms A and B) and Part II (arm C) using a Bonferroni corrected alpha level of 0.025 for each part. Additionally, a fixed sequence procedure for Part I was used to proceed through the primary efficacy comparisons in the following order: 1) test of superiority of arm B and 2) test of superiority of arm A. The primary outcome within Arm C was tested with a Bonferroni-corrected Type 1 error rate of 0.025 for superiority.||97.7|82.6|
82382896|NCT01120184|164476433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|-24.2|||||TWO_SIDED|95.0|-32.0|-16.0|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||-16|-32|
82382897|NCT01120184|164476433|SUPERIORITY_OR_OTHER_LEGACY||Difference in Symptom Rate|8.0|||||TWO_SIDED|95.0|-2.3|18.4|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab Emtansine + Placebo|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||18.4|-2.3|
82517516|NCT02265237|164728257|SUPERIORITY|Treatment differences (with 95% confidence intervals) and corresponding P-value for the specified comparisons were estimated using stratum adjusted Mantel-Haenszel (MH) proportion and continuity-corrected variance, adjusting for IFN/RBV treatment history (treatment-naïve or treatment-experienced).|Stratum-Adjusted MH Difference|-3.39||||0.304|TWO_SIDED|95.0|-9.85|3.07|||Mantel Haenszel|||Within Part I (arm A and B), since superiority was demonstrated for both arms in the primary outcome measures, testing continued to the first secondary outcome measure.||3.07|-9.85|0.304
82571207|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.977|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 3 h PS;||||0.9770
82571208|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5457|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.5457
82382898|NCT01120184|164476437|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.57|0.86|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.86|0.57|
82382899|NCT01120184|164476437|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.55|0.84|||||Direction of comparison: Trastuzumab Emtansine + Pertuzumab vs Trastuzumab + Taxane|Stratified Analysis: Stratification factors included world region (United States, Western Europe/Canada/Australia-Pacific, Eastern Europe, Asia, others); prior adjuvant/neoadjuvant therapy (no, yes \[trastuzumab and/or lapatinib\], yes \[no trastuzumab and/or lapatinib\]), and visceral disease (present, absent).||0.84|0.55|
82382900|NCT01120184|164476441|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.4|1.15|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.15|0.40|
82382901|NCT01120184|164476442|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.66|||||TWO_SIDED|95.0|0.41|1.07|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.07|0.41|
82517517|NCT02265237|164728258|SUPERIORITY|Treatment differences (with 95% confidence intervals) and corresponding P-value for the specified comparisons were estimated using stratum adjusted Mantel-Haenszel proportion and continuity-corrected variance, adjusting for IFN/RBV treatment history (treatment-naïve or treatment-experienced).|Stratum-Adjusted MH Difference|6.45||||0.086|TWO_SIDED|95.0|-0.91|13.81|||Mantel Haenszel|||Within Part II (arm C), since superiority was demonstrated for the primary outcome measure, testing continued to the second secondary outcome measure.||13.81|-0.91|0.086
82571209|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2579|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.2579
82382902|NCT01120184|164476444|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|97.5|0.65|1.25|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.25|0.65|
82382903|NCT01120184|164476446|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|97.5|0.74|1.34|||||Direction of comparison: Trastuzumab Emtansine + Placebo vs Trastuzumab + Taxane|||1.34|0.74|
82382904|NCT01894841|164476475|SUPERIORITY||Partial eta squared|0.03||||0.13|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.13
82382905|NCT01894841|164476476|SUPERIORITY||Partial eta squared|0.01||||0.79|TWO_SIDED||||||RMANOVA|Adjusted for change in depression from baseline to 1yr (measured via QIDS).||||||.79
82382906|NCT01894841|164476477|SUPERIORITY||Partial eta squared|0.02||||0.49|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.49
82517518|NCT00839072|164728282|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax does not exceed 125%.|Ratio of the mean|59.66|||||TWO_SIDED|90.0|50.99|69.81|||||Trazodone Contramid® OAD/Desyrel®|||69.81|50.99|
82571210|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1232|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 24 h PS;||||0.1232
82571211|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.288|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.2880
82382907|NCT01894841|164476478|SUPERIORITY||Partial eta-squared|0.003||||0.96|TWO_SIDED|||||Adjusted for change in depression from baseline to 1yr (measured via QIDS).|RMANOVA|||||||.96
82382908|NCT01894841|164476479|SUPERIORITY||Partial eta squared|0.01||||0.62|TWO_SIDED||||||RMANOVA|Adjusted for change in depression from baseline to 1yr (measured via QIDS).||||||.62
82382909|NCT00529087|164476498|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|24.4|||<|0.001||95.0|17.3|31.4|||Chi-squared|||||31.4|17.3|<0.001
82382910|NCT00529087|164476499|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.5|||<|0.001||95.0|15.1|24.0|||t-test, 2 sided|||||24.0|15.1|<0.001
82382911|NCT00529087|164476499|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|20.9|||<|0.001||95.0|16.1|25.7|||t-test, 2 sided|||||25.7|16.1|<0.001
82517519|NCT00839072|164728283|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUCT is between 80% and 125%.|Ratio of the mean|78.55|||||TWO_SIDED|90.0|69.7|88.51|||||Trazodone Contramid® OAD/Desyrel®|||88.51|69.70|
82382912|NCT00529087|164476500|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Log Rank|Log-rank test for comparisons of survival distributions||||||<0.001
82382913|NCT00529087|164476501|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.6|||<|0.001||95.0|1.1|2.1|||ANCOVA|Treatment as factor and baseline weekly RFBM as covariate||||2.1|1.1|<0.001
82382914|NCT00529087|164476501|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.7||||0.011||95.0|0.2|1.2|||ANCOVA|Treatment as factor and baseline weekly RFBM as covariate||||1.2|0.2|0.011
82382915|NCT00529087|164476503|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|20.4|||<|0.001||95.0|9.5|31.3|||Chi-squared|||||31.3|9.5|<0.001
82382916|NCT00529087|164476503|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|7.0||||0.212||95.0|-4.0|18.0|||Chi-squared|||||18.0|-4.0|0.212
82382917|NCT00529087|164476504|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||The statistical analysis for all time points (1, 2, 3 and 6 hours) is only shown once as the p value is the same for all time points.||||<0.001
82382918|NCT00529087|164476504|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||The statistical analysis for all time points (1, 2, 3 and 6 hours) is only shown once as the p value is the same for all time points.||||<0.001
82382919|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.5|||<|0.001||95.0|11.2|17.9|||ANOVA|Treatment as a factor||1 hour||17.9|11.2|<0.001
82382920|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||<|0.001||95.0|4.6|11.4|||ANOVA|Treatment as a factor||1 hour||11.4|4.6|<0.001
82382921|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.5|||<|0.001||95.0|14.4|22.5|||ANOVA|Treatment as a factor||2 hours||22.5|14.4|<0.001
82517520|NCT00839072|164728284|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC∞ is between 80% and 125%.|Ratio of the mean|80.05|||||TWO_SIDED|90.0|70.67|90.68|||||Trazodone Contramid® OAD/Desyrel®|||90.68|70.67|
82517521|NCT01682837|164728288|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||0.07
82382922|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.4|||<|0.001||95.0|6.3|14.5|||ANOVA|Treatment as a factor||2 hours||14.5|6.3|<0.001
82382923|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.3|||<|0.001||95.0|15.0|23.5|||ANOVA|Treatment as a factor||3 hours||23.5|15.0|<0.001
82382924|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||<|0.001||95.0|6.7|15.3|||ANOVA|Treatment as a factor||3 hours||15.3|6.7|<0.001
82382925|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.5|||<|0.001||95.0|15.2|23.9|||ANOVA|Treatment as a factor||4 hours||23.9|15.2|<0.001
82382926|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||<|0.001||95.0|6.6|15.4|||ANOVA|Treatment as a factor||4 hours||15.4|6.6|<0.001
82382927|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.7|||<|0.001||95.0|15.2|24.1|||ANOVA|Treatment as a factor||6 hours||24.1|15.2|<0.001
82382928|NCT00529087|164476505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|||<|0.001||95.0|6.2|15.2|||ANOVA|Treatment as a factor||6 hours||15.2|6.2|<0.001
82382929|NCT00529087|164476506|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|21.0|||<|0.001||95.0|10.2|31.9|||Chi-squared|||||31.9|10.2|<0.001
82382930|NCT00529087|164476506|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|5.6||||0.316||95.0|-5.3|16.5|||Chi-squared|||||16.5|-5.3|0.316
82382931|NCT00529087|164476507|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|19.7|||<|0.001||95.0|9.4|30.1|||Chi-squared|||||30.1|9.4|<0.001
82382932|NCT00529087|164476507|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|13.3||||0.016||95.0|2.6|24.0|||Chi-squared|||||24.0|2.6|0.016
82382933|NCT00529087|164476508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|||<|0.001||95.0|1.0|1.9|||ANCOVA|Treatment as factor, Baseline as covariate||||1.9|1.0|<0.001
82382934|NCT00529087|164476508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.102||95.0|-0.1|0.8|||ANCOVA|Treatment as factor, Baseline as covariate||||0.8|-0.1|0.102
82382935|NCT00529087|164476509|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.1|||<|0.001||95.0|0.6|1.5|||ANCOVA|||||1.5|0.6|<0.001
82382936|NCT00529087|164476509|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|||<|0.001||95.0|0.0|0.9|||ANCOVA|||||0.9|0.0|<0.001
82382937|NCT00529087|164476510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|||<|0.001||95.0|0.8|1.6|||ANCOVA|Treatment as factor, Baseline as covariate||||1.6|0.8|<0.001
82382938|NCT00529087|164476510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.012||95.0|0.1|0.9|||ANCOVA|Treatment as factor, Baseline as covariate||||0.9|0.1|0.012
82382939|NCT00529087|164476511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.002||95.0|0.2|0.7|||ANCOVA|Treatment as factor, Baseline as covariate||||0.7|0.2|0.002
82382940|NCT00529087|164476511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.119||95.0|-0.1|0.5|||ANCOVA|Treatment as factor, Baseline as covariate||||0.5|-0.1|0.119
82382941|NCT00529087|164476512|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.3||||0.008||95.0|-0.5|-0.1|||ANCOVA|Treatment as factor, Baseline as covariate||||-0.1|-0.5|0.008
82382942|NCT00529087|164476512|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.2||||0.015||95.0|-0.5|0.0|||ANCOVA|Treatment as factor, Baseline as covariate||||0.0|-0.5|0.015
82382943|NCT00529087|164476515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.731||95.0|-5.4|7.7|||ANCOVA|Treatment as factor, Baseline as covariate||||7.7|-5.4|0.731
82517522|NCT01682837|164728289|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82517523|NCT01682837|164728290|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|||||||0.16
82517524|NCT01682837|164728291|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|||||||0.70
82517525|NCT01682837|164728292|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Models Analysis|||||||0.42
82517526|NCT01682837|164728293|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mixed Models Analysis|||||||0.10
82517527|NCT01682837|164728294|SUPERIORITY_OR_OTHER|||||||0.64|||||||Mixed Models Analysis|||||||0.64
82517528|NCT01682837|164728295|SUPERIORITY_OR_OTHER|||||||0.18|||||||Mixed Models Analysis|||||||0.18
82517529|NCT01682837|164728296|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mixed Models Analysis|||||||0.12
82382944|NCT00529087|164476515|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.779||95.0|-5.6|7.5|||ANCOVA|Treatment as factor, Baseline as covariate||||7.5|-5.6|0.779
82517530|NCT01664078|164728299|OTHER|The Intent-to-Treat (ITT) analysis set includes all subjects who had the aortic bifurcate device introduced into the body. This ITT analysis set will be used for all safety and clinical assessment endpoints.||||||0.47|||||||Mixed Models Analysis|||||||0.47
82517531|NCT02877485|164728312|OTHER||Mean Difference (Net)|1.5||||0.7|TWO_SIDED|95.0|-6.0|8.9||"Statistical Tests:~Independent t-test to assess differences in mean change in NOSE scores when comparing the two study groups, and p\<0.05 deemed statistically significant"|t-test, 2 sided||Change in Mean NOSE score from baseline to post saline versus change in NOSE score from baseline to post intranasal steroid.|"1\) H0: mean change in NOSE score from baseline after in study group 1 = mean change in NOSE score from baseline in study group 2~Power calculation: To detect a 20% difference in NOSE scores with 80% power and a 2-sided alpha level of 0.05 required 20 participants per study group, for a total of 40 participants."||8.9|-6.0|0.7
82517532|NCT02877485|164728313|OTHER||Mean Difference (Final Values)|-50.0|STANDARD_DEVIATION|27.6|<|0.001|TWO_SIDED|||||Paired t-tests to assess differences in mean NOSE score when the treatment groups were combined (saline arm+ steroid arm) at five post-operative time intervals compared to the combined preoperative baseline scores. Significance at p\<0.05.|Paired t-test|||H0: Mean pre- treatment baseline patient NOSE score = Mean post- treatment baseline patient NOSE score.||||<0.001
82517533|NCT01812044|164728330|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.035
82517534|NCT01812044|164728330|SUPERIORITY_OR_OTHER|||||||0.189|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.189
82517535|NCT01812044|164728330|SUPERIORITY_OR_OTHER|||||||0.298|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|P-value based on Wilcoxon rank sum test of difference in medians between groups.||||||0.298
82517536|NCT02120924|164728370|EQUIVALENCE|Bioequivalence was established if the 90% CI for the ratio of Test/Reference means was contained within the interval \[0.80, 1.25\].|Mean Difference (Net)|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Bioequivalence was established if the 90% CI for the ratio of Test/Reference means was contained within the interval \[0.80, 1.25\].|The primary endpoint was the percent change from baseline to Week 12 in the inflammatory (papules and pustules) lesion counts in PP population.||1.05|0.92|
82517537|NCT02120924|164728371|EQUIVALENCE|A two-sided, continuity-corrected, 90% CI on the Test-to-Reference difference for the proportion of subjects with treatment success on the IGE was constructed.|Mean Difference (Net)|0.044|||||TWO_SIDED|90.0|-0.028|0.116|||||Bioequivalence was established if the 90% CI for the difference was contained within the interval \[-0.20, +0.20\].|||0.116|-0.028|
82517538|NCT01884350|164728372|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.24||||0.8117|TWO_SIDED|95.0|-2.18|1.7||P-value (two-sided) corresponds to the two-sample t-tests for difference in percentage of adherence at Week 24|t-test, 2 sided|||||1.7|-2.18|0.8117
82382945|NCT00529087|164476516|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|5.6||||0.023||95.0|0.8|10.4|||ANCOVA|Treatment as factor, baseline as covariate||||10.4|0.8|0.023
82382946|NCT00529087|164476516|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.8||||0.258||95.0|-2.0|7.6|||ANCOVA|Treatment as factor, baseline as covariate||||7.6|-2.0|0.258
82382947|NCT00529087|164476518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.0||||0.071||95.0|-0.6|14.5|||ANCOVA|Treatment as factor, baseline as covariate||||14.5|-0.6|0.071
82517539|NCT01884350|164728373|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is from a paired t-test comparing percent adherence at 12 and 24 Weeks. Only participants with available data at both Study Days 85 and 169 are included.|paired t-test|||Percent adherence at 12 Weeks v. Percent adherence at 24 Weeks||||<0.0001
82517540|NCT01884350|164728373|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is from a paired t-test comparing percent adherence at 12 and 24 Weeks. Only participants with available data at both Study Days 85 and 169 are included.|paired t-test|||Percent adherence at 12 Weeks v. Percent adherence at 24 Weeks||||<0.0001
82517541|NCT01884350|164728374|NON_INFERIORITY_OR_EQUIVALENCE|F-test p-value is obtained from the one-way ANOVA model||||||0.8707|||||||ANOVA|||||||0.8707
82517542|NCT01884350|164728374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.6399|TWO_SIDED|95.0|-2.88|4.68||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||4.68|-2.88|0.6399
82517543|NCT01884350|164728374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.9616|TWO_SIDED|95.0|-3.45|3.29||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||3.29|-3.45|0.9616
82517544|NCT01884350|164728374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.6341|TWO_SIDED|95.0|-2.6|4.24||P-values are obtained from the Cochran t-test for pairwise comparison between groups (two-sided).|t-test, 2 sided|||||4.24|-2.60|0.6341
82517545|NCT01884350|164728375|SUPERIORITY|||||||0.1924||||||\<=2 Drink/Day Average vs None|Wald Chi-square test|||||||0.1924
82517546|NCT01884350|164728375|SUPERIORITY|||||||0.0305||||||\>=3 Drink/Day Average vs None|Wald Chi-square test|||||||0.0305
82517547|NCT01884350|164728375|SUPERIORITY|||||||0.0107||||||Mini-mental state examination score|Wald Chi-square test|||||||0.0107
82517548|NCT01884350|164728375|SUPERIORITY|||||||0.6982||||||Higher managerial, administrative and professional occupations vs UKSOC1|Wald Chi-square test|||||||0.6982
82517549|NCT01884350|164728375|SUPERIORITY|||||||0.7277||||||Higher professional occupations vs UKSOC1|Wald Chi-square test|||||||0.7277
82517550|NCT01884350|164728375|SUPERIORITY|||||||0.7581||||||Intermediate occupations vs UKSOC1|Wald Chi-square test|||||||0.7581
82517551|NCT01884350|164728375|SUPERIORITY|||||||0.2328||||||Large employers and higher managerial and adm. occupations vs UKSOC1|Wald Chi-square test|||||||0.2328
82517552|NCT01884350|164728375|SUPERIORITY|||||||0.7507||||||Lower managerial, administrative and professional occupations vs UKSOC1|Wald Chi-square test|||||||0.7507
82517553|NCT01884350|164728375|SUPERIORITY|||||||0.0091||||||Lower supervisory and technical occupations vs UKSOC1|Wald Chi-square test|||||||0.0091
82517554|NCT01884350|164728375|SUPERIORITY|||||||0.673||||||Never worked and long-term unemployed vs UKSOC1|Wald Chi-square test|||||||0.6730
82517555|NCT01884350|164728375|SUPERIORITY|||||||0.0117||||||Routine occupations vs UKSOC1|Wald Chi-square test|||||||0.0117
82382948|NCT00529087|164476518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.6||||0.087||95.0|-1.0|14.2|||ANCOVA|Treatment as factor, baseline as covariate||||14.2|-1.0|0.087
82382949|NCT00529087|164476519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6||||0.038||95.0|0.4|14.7|||ANCOVA|Treatment as factor, baseline as covariate||||14.7|0.4|0.038
82382950|NCT00529087|164476519|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.3||||0.237||95.0|-2.8|11.5|||ANCOVA|Treatment as factor, baseline as covariate||||11.5|-2.8|0.237
82382951|NCT02954601|164476520|OTHER|Values obtained using a Mixed Model Repeated Measures Analysis of Variance with an unstructured covariance matrix. Treatment, Period and Baseline value (for change and percent change) are factors in the model with repeated values for a subject.||||||0.1311|||||||Mixed Models Analysis|||||||0.1311
82382952|NCT02954601|164476523|OTHER|||||||0.3061|TWO_SIDED|95.0|||||Mixed Models Analysis|||Values obtained using a Mixed Model Repeated Measures Analysis of Variance with an unstructured covariance matrix. Treatment period and Baseline value (for change and percent change) are factors in the model with repeated values for subject.||||0.3061
82382953|NCT05251337|164476547|SUPERIORITY|||||||0.462|||||||Mixed Models Analysis|||||||0.462
82382954|NCT05251337|164476548|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||||||0.285
82382955|NCT05251337|164476550|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||0.091
82382956|NCT03158038|164476575|SUPERIORITY||Rate difference|0.0|||||TWO_SIDED|95.0|-6.7|1.9||||||||1.9|-6.7|
82382957|NCT03158038|164476576|SUPERIORITY||Rate difference|1.3|||||TWO_SIDED|95.0|-12.8|13.2||||||Statistical analysis up to Day 8||13.2|-12.8|
82382958|NCT03158038|164476576|SUPERIORITY||Rate difference|0.4|||||TWO_SIDED|95.0|-14.1|13.2||||||Statistical analysis up to Day 15||13.2|-14.1|
82517556|NCT01884350|164728375|SUPERIORITY|||||||0.191||||||Semi-routine occupations vs UKSOC1|Wald Chi-square test|||||||0.1910
82382959|NCT04227197|164476587|SUPERIORITY|The p value compares the trend in the number of indicated or completed evaluations in the Intervention arm versus Control arm.||||||0.018|||||||Cochran-Armitage trend test|Two tailed; no continuity correction||||||0.018
82382960|NCT04227197|164476589|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group.||||||0.468|||||||ANOVA|||This is the p value for the PedsQL Psychosocial Health Score||||0.468
82382961|NCT04227197|164476589|SUPERIORITY|||||||0.802|||||||ANOVA|||This p value is for the PedsQL Physical Functioning Score||||0.802
82382962|NCT04227197|164476589|SUPERIORITY|||||||0.761|||||||ANOVA|||This is the p value for the PedsQL Total Scale Score||||0.761
82382963|NCT04227197|164476589|SUPERIORITY|||||||0.965|||||||ANOVA|||This is the p value for the PedsQL FIM Parental HRQL Summary Score||||0.965
82382964|NCT04227197|164476589|SUPERIORITY|||||||0.619|||||||ANOVA|||This is the p value for the PedsQL FIM Family Functioning Summary Score||||0.619
82382965|NCT04227197|164476589|SUPERIORITY|||||||0.469|||||||ANOVA|||This is the p value for the PedsQL FIM Total Scale Score||||0.469
82382966|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.068|||||||ANOVA|||This is for the change from baseline on PedsQL Psychosocial Health Score||||0.068
82517557|NCT01884350|164728375|SUPERIORITY|||||||0.9559||||||Paroxysmal vs Persistent Atrial Fibrillation|Wald Chi-square test|||||||0.9559
82517558|NCT01884350|164728375|SUPERIORITY|||||||0.0264||||||Permanent vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.0264
82517559|NCT01884350|164728375|SUPERIORITY|||||||0.1087||||||\<=2 Drink/Day Average vs None|Wald Chi-square test|||||||0.1087
82382967|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.907|||||||ANOVA|||This is for the change from baseline for PedsQL Physical Functioning Score||||0.907
82382968|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.196|||||||ANOVA|||This is for the change from baseline for PedsQL Total Scale Score||||0.196
82517560|NCT01884350|164728375|SUPERIORITY|||||||0.0679||||||\>=3 Drink/Day Average vs None|Wald Chi-square test|||||||0.0679
82517561|NCT01884350|164728375|SUPERIORITY|||||||0.2128||||||Paroxysmal vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.2128
82636257|NCT01014442|164986898|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimator|-0.0857||||0.2178|TWO_SIDED|95.0|-0.187|0.0265|||Wilcoxon rank sum test|||Free Fraction of Free MPA at Day 90. Analysis was performed using Wilcoxon rank sum test; corresponding p-value and point estimate (Hodges-Lehmann estimator) were calculated. The point estimator derived by sending the confidence level to zero is called as Hodges-Lehmann estimator.||0.0265|-0.1870|0.2178
82382969|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.112|||||||ANOVA|||This is for the change from baseline for PedsQL FIM Parental HRQL Summary Score||||0.112
82382970|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.245|||||||ANOVA|||This is for change from baseline for PedsQL FIM Family Functioning Summary Score||||0.245
82382971|NCT04227197|164476590|SUPERIORITY|The p value compares the change from baseline on quality of life measures between the Intervention group and Control group||||||0.219|||||||ANOVA|||This is for change from baseline for PedsQL FIM Total Scale Score||||0.219
82442331|NCT01726673|164593283|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the WOLF Motor Function test time score (out of 1800 seconds) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in WMFT time score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U Value|251.5||||1|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the WMFT time score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||1.0
82517562|NCT01884350|164728375|SUPERIORITY|||||||0.3739||||||Permanent vs Persistant Atrial Fibrillation|Wald Chi-square test|||||||0.3739
82517563|NCT01884350|164728375|SUPERIORITY|||||||0.843||||||VKA status: Naive vs. Non-Naive|Wald Chi-square test|||||||0.843
82517564|NCT04537923|164728382|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-1.24|-0.97|||Mixed Models Analysis|||||-0.97|-1.24|<0.001
82517565|NCT04537923|164728383|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-0.89|||<|0.001|TWO_SIDED|95.0|-1.08|-0.7|||Mixed Models Analysis|||||-0.70|-1.08|<0.001
82517566|NCT04537923|164728383|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.11|||<|0.001|TWO_SIDED|95.0|-1.3|-0.92|||Mixed Models Analysis|||||-0.92|-1.30|<0.001
82517567|NCT04537923|164728383|NON_INFERIORITY|0.3% noninferiority margin.|LS Mean Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.49|-1.11|||Mixed Models Analysis|||||-1.11|-1.49|<0.001
82517568|NCT04537923|164728384|SUPERIORITY||Odds Ratio (OR)|3.13|||<|0.0001|TWO_SIDED|95.0|2.25|4.36|||Regression, Logistic|||||4.36|2.25|<0.0001
82517569|NCT04537923|164728384|SUPERIORITY||Odds Ratio (OR)|6.16|||<|0.0001|TWO_SIDED|95.0|4.27|8.88|||Regression, Logistic|||||8.88|4.27|<0.0001
82517570|NCT04537923|164728384|SUPERIORITY||Odds Ratio (OR)|7.94|||<|0.0001|TWO_SIDED|95.0|5.37|11.75|||Regression, Logistic|||||11.75|5.37|<0.0001
82517571|NCT04537923|164728385|SUPERIORITY||LS Mean Difference|-10.7|||<|0.001|TWO_SIDED|95.0|-11.5|-9.9|||Mixed Models Analysis|||||-9.9|-11.5|<0.001
82517572|NCT04537923|164728385|SUPERIORITY||LS Mean Difference|-13.7|||<|0.001|TWO_SIDED|95.0|-14.5|-12.9|||Mixed Models Analysis|||||-12.9|-14.5|<0.001
82517573|NCT04537923|164728385|SUPERIORITY||LS Mean Difference|-15.9|||<|0.001|TWO_SIDED|95.0|-16.7|-15.0|||Mixed Models Analysis|||||-15.0|-16.7|<0.001
82517574|NCT04537923|164728386|SUPERIORITY||LS Mean Difference|-23.2|||<|0.001|TWO_SIDED|95.0|-30.8|-15.7|||Mixed Models Analysis|||||-15.7|-30.8|<0.001
82517575|NCT04537923|164728386|SUPERIORITY||LS Mean Difference|-33.0|||<|0.001|TWO_SIDED|95.0|-40.6|-25.4|||Mixed Models Analysis|||||-25.4|-40.6|<0.001
82517576|NCT04537923|164728386|SUPERIORITY||LS Mean Difference|-31.6|||<|0.001|TWO_SIDED|95.0|-39.3|-23.8|||Mixed Models Analysis|||||-23.8|-39.3|<0.001
82517577|NCT04537923|164728387|SUPERIORITY||LS Mean Difference|-0.9||||0.682|TWO_SIDED|95.0|-5.0|3.3|||Mixed Models Analysis|||||3.3|-5.0|0.682
82517578|NCT04537923|164728387|SUPERIORITY||LS Mean Difference|-5.6||||0.01|TWO_SIDED|95.0|-9.9|-1.4|||Mixed Models Analysis|||||-1.4|-9.9|0.010
82382972|NCT03446027|164476596|OTHER|"Prespecified Tobit Regression mode: the model included the AWD baseline measurement, a treatment indicator and the type of centre (SET versus non-SET) as covariates. As the data collected for AWD showed a right-skewed distribution, a square root transformation was used to normalise the data and used for the regression Tobit model. This resulted in the unit of measure being units rather than meters."|square root transformation|0.835||||0.28|TWO_SIDED|95.0|-0.674|2.343|||Tobit Regression|||"Right censored Tobit regression model for AWD at 3 months for the ITT population.~Difference between arms (between baseline and 3 months) - the primary analysis estimates the difference in the AWD at 3 months between the two treatment groups control vs. device. Control group includes both BMT and BMT + SET and the treatment group includes NMES + BMT and NMES + BMT + SET Included participants with both baseline and 3 month treadmill data."||2.343|-0.674|0.28
82382973|NCT03446027|164476597|OTHER|"Right censored, Tobit Regression model to assess the effects of baseline characteristics for ICD at 3 months for the ITT Population. This resulted in the unit of measure being units and not meters.~Included participants with both baseline and 3 month treadmill data. Calculation between arms - estimates the difference in the ICD at 3 months between the two treatment groups.~Control group includes both BMT and BMT + SET and the treatment group includes NMES + BMT and NMES + BMT + SET"|square root transformation|0.972||||0.23|TWO_SIDED|95.0|-0.6|2.546|||Right censored, Tobit Regression|||||2.546|-0.600|0.23
82382974|NCT03446027|164476601|OTHER|"Linear Regression Model for Duplex ultrasonography (Volume flow - measured in one leg) at 3 months for the ITT population.~Difference (calculation) between the two groups and not per arm (control vs treatment). Unit of measure is Units due to the use of a linear regression model rather than cc/min."|Linear regression|0.483||||0.516|TWO_SIDED|95.0|-0.984|1.95|||Regression, Linear|||||1.950|-0.984|0.516
82382975|NCT00708552|164476651|SUPERIORITY||Mean Difference (Net)|1.1||||0.159|TWO_SIDED|95.0|-0.4|2.7|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-15mg at Week 24||2.7|-0.4|0.159
82382976|NCT00708552|164476651|SUPERIORITY||Mean Difference (Net)|0.7||||0.41|TWO_SIDED|95.0|-0.9|2.3|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-35mg at Week 24||2.3|-0.9|0.410
82382977|NCT00708552|164476651|SUPERIORITY||Mean Difference (Net)|-0.2||||0.821|TWO_SIDED|95.0|-1.6|1.2|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs Donepezil at Week 24||1.2|-1.6|0.821
82517579|NCT04537923|164728387|SUPERIORITY||LS Mean Difference|-11.8|||<|0.001|TWO_SIDED|95.0|-16.0|-7.5|||Mixed Models Analysis|||||-7.5|-16.0|<0.001
82382978|NCT00708552|164476652|SUPERIORITY||Mean Difference (Net)|0.2||||0.254|TWO_SIDED|95.0|-0.1|0.5|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.1|0.254
82382979|NCT00708552|164476652|SUPERIORITY||Mean Difference (Net)|-0.1||||0.394|TWO_SIDED|95.0|-0.4|0.2|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-35mg at Week 24||0.2|-0.4|0.394
82517580|NCT04537923|164728388|SUPERIORITY||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|95.0|5.66|11.83|||Regression, Logistic|||||11.83|5.66|<0.001
82571212|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0894|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.0894
82571213|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1979|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at 72 h PS;||||0.1979
82636258|NCT01014442|164986904|SUPERIORITY_OR_OTHER||Difference in rates|-1.8||||1|TWO_SIDED|95.0|-24.9|22.1|||Fisher Exact|||||22.1|-24.9|1.0000
82382980|NCT00708552|164476652|SUPERIORITY||Mean Difference (Net)|-0.3||||0.049|TWO_SIDED|95.0|-0.6|0.0|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs Donepezil at Week 24||-0.0|-0.6|0.049
82382981|NCT00708552|164476653|SUPERIORITY||Mean Difference (Net)|-1.6||||0.423|TWO_SIDED|95.0|-5.6|2.3|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs SB-742457-15mg at Week 24||2.3|-5.6|0.423
82382982|NCT00708552|164476653|SUPERIORITY||Mean Difference (Net)|-2.1||||0.305|TWO_SIDED|95.0|-6.1|1.9|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs SB-742457-35mg at Week 24||1.9|-6.1|0.305
82382983|NCT00708552|164476653|SUPERIORITY||Mean Difference (Net)|2.0||||0.282|TWO_SIDED|95.0|-1.7|5.7|||Mixed model repeated measures|||RBANS Total Score, Placebo Vs Donepezil at Week 24||5.7|-1.7|0.282
82382984|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|1.4||||0.096|TWO_SIDED|95.0|-0.3|3.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 24||3.1|-0.3|0.096
82382985|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|1.0||||0.281|TWO_SIDED|95.0|-0.8|2.8|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 24||2.8|-0.8|0.281
82382986|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|0.4||||0.63|TWO_SIDED|95.0|-1.1|1.9|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 24||1.9|-1.1|0.630
82382987|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|-1.1||||0.655|TWO_SIDED|95.0|-5.7|3.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 24||3.6|-5.7|0.655
82517581|NCT04537923|164728388|SUPERIORITY||Odds Ratio (OR)|16.9|||<|0.001|TWO_SIDED|95.0|11.44|24.96|||Regression, Logistic|||||24.96|11.44|<0.001
82517582|NCT04537923|164728388|SUPERIORITY||Odds Ratio (OR)|21.85|||<|0.001|TWO_SIDED|95.0|14.49|32.93|||Regression, Logistic|||||32.93|14.49|<0.001
82517583|NCT04537923|164728389|SUPERIORITY||Odds Ratio (OR)|28.25|||<|0.001|TWO_SIDED|95.0|18.36|43.46|||Regression, Logistic|||||43.46|18.36|<0.001
82517584|NCT04537923|164728389|SUPERIORITY||Odds Ratio (OR)|58.9|||<|0.001|TWO_SIDED|95.0|36.76|94.39|||Regression, Logistic|||||94.39|36.76|<0.001
82517585|NCT04537923|164728389|SUPERIORITY||Odds Ratio (OR)|77.76|||<|0.001|TWO_SIDED|95.0|47.49|127.33|||Regression, Logistic|||||127.33|47.49|<0.001
82517586|NCT04537923|164728390|SUPERIORITY||LS Mean Difference|1.5||||0.005|TWO_SIDED|95.0|0.5|2.6|||ANCOVA|||||2.6|0.5|0.005
82517587|NCT04537923|164728390|SUPERIORITY||LS Mean Difference|2.3|||<|0.001|TWO_SIDED|95.0|1.2|3.3|||ANCOVA|||||3.3|1.2|<0.001
82636259|NCT00147082|164986953|SUPERIORITY|||||||0.05||||||The threshold for significance was p\<0.05|Kruskal-Wallis|||p values were calculated||||0.05
82382988|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|-1.5||||0.545|TWO_SIDED|95.0|-6.2|3.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 24||3.3|-6.2|0.545
82517588|NCT04537923|164728390|SUPERIORITY||LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.2|3.3|||ANCOVA|||||3.3|1.2|<0.001
82571214|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0686|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.0686
82382989|NCT00708552|164476654|SUPERIORITY||Mean Difference (Net)|2.4||||0.27|TWO_SIDED|95.0|-1.9|6.8|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs Donepezil at Week 24||6.8|-1.9|0.270
82382990|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|1.5||||0.138|TWO_SIDED|95.0|-0.5|3.6|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 24||3.6|-0.5|0.138
82517589|NCT04537923|164728391|SUPERIORITY||LS Mean Difference|1.6||||0.02|TWO_SIDED|95.0|0.3|2.9|||ANCOVA|||||2.9|0.3|0.020
82517590|NCT04537923|164728391|SUPERIORITY||LS Mean Difference|2.8|||<|0.001|TWO_SIDED|95.0|1.5|4.2|||ANCOVA|||||4.2|1.5|<0.001
82517591|NCT04537923|164728391|SUPERIORITY||LS Mean Difference|2.1||||0.004|TWO_SIDED|95.0|0.7|3.5|||ANCOVA|||||3.5|0.7|0.004
82571215|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0746|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.0746
82636260|NCT00147082|164986954|SUPERIORITY|||||||0.05||||||The p value (\<0.05) was the threshold for significance|Kruskal-Wallis|||p value was calculated||||0.05
82636261|NCT00147082|164986955|SUPERIORITY|||||||0.05||||||The p value (\<0.05) was the threshold for significance|Kruskal-Wallis|||The p value was calculated||||0.05
82382991|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|1.3||||0.216|TWO_SIDED|95.0|-0.7|3.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 24||3.2|-0.7|0.216
82382992|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|-0.1||||0.921|TWO_SIDED|95.0|-1.9|1.7|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 24||1.7|-1.9|0.921
82382993|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|-2.1||||0.41|TWO_SIDED|95.0|-7.0|2.9|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 24||2.9|-7.0|0.410
82517592|NCT01261611|164728392|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|An ANCOVA on the change from baseline, baseline TWSTRS Total score, baseline BTX status and pooled centre as explanatory variables was performed.||A pre-specified analysis of the LS mean difference between the Dysport NG and Placebo arms was performed. A total of 210 subjects were included in the analysis.||||<0.0001
82517593|NCT01261611|164728392|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|An ANCOVA on the change from baseline, baseline TWSTRS Total score, baseline BTX status and pooled centre as explanatory variables was performed.||A pre-specified analysis of the LS mean difference between the Dysport and Placebo arms was performed. A total of 213 subjects were included in the analysis.||||<0.0001
82517594|NCT01261611|164728392|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An ANCOVA on the change from baseline with treatment, baseline TWSTRS Total score, BTX status at baseline and pooled centre as explanatory variables had been performed. The non-inferiority margin was 3 points.|LS mean difference|1.532|||||TWO_SIDED|95.0|-0.819|3.883||||||A pre-specified analysis of the LS mean difference between the Dysport NG and Dysport arms was performed. A total of 315 subjects were included in the analysis.||3.883|-0.819|
82382994|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|-1.1||||0.667|TWO_SIDED|95.0|-5.9|3.8|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 24||3.8|-5.9|0.667
82382995|NCT00708552|164476655|SUPERIORITY||Mean Difference (Net)|2.7||||0.246|TWO_SIDED|95.0|-1.9|7.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs Donepezil at Week 24||7.2|-1.9|0.246
82382996|NCT00708552|164476656|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs SB-742457-15mg at Week 24||0.6|-0.1|0.146
82382997|NCT00708552|164476656|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.733|TWO_SIDED|95.0|-0.4|0.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs SB-742457-35mg at Week 24||0.3|-0.4|0.733
82517595|NCT03586648|164728423|SUPERIORITY|Statistically superiority will be concluded if the lower limit of the confidence intervals of the Test lens is greater than 32 points.|Least-square Mean|39.3|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|32.7|45.9|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||Data only from the first period will be used if period effect is significant.||45.9|32.7|
82571216|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4669|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Drowsiness at EOT;||||0.4669
82636262|NCT02996981|164986979|SUPERIORITY|||||||0.299|||||||Chi-squared|df=1||||||0.299
82382998|NCT00708552|164476656|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.145|TWO_SIDED|95.0|-0.5|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+ score, Placebo Vs Donepezil at Week 24||0.1|-0.5|0.145
82517596|NCT03586648|164728424|NON_INFERIORITY|Statistically superiority will be concluded if the lower limit of the confidence intervals of the Test lens is greater than -5 points.|Least-square Mean Difference|-11.5|STANDARD_ERROR_OF_MEAN|4.14|||TWO_SIDED|95.0|-19.7|-3.3|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control.|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.||-3.3|-19.7|
82382999|NCT00708552|164476657|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.295|TWO_SIDED|95.0|-0.2|0.6|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs SB-742457-15mg at Week 24||0.6|-0.2|0.295
82383000|NCT00708552|164476657|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.495|TWO_SIDED|95.0|-0.5|0.2|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs SB-742457-35mg at Week 24||0.2|-0.5|0.495
82383001|NCT00708552|164476657|SUPERIORITY||Mean Difference (Net)|-0.3||||0.166|TWO_SIDED|95.0|-0.6|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CBIC+, Placebo Vs Donepezil at Week 24||0.1|-0.6|0.166
82523237|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|1.21|STANDARD_ERROR_OF_MEAN|0.895||0.1787|TWO_SIDED|80.0|0.06|2.36||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Positive symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||2.36|0.06|0.1787
82383002|NCT00708552|164476658|SUPERIORITY||Mean Difference (Net)|0.1||||0.847|TWO_SIDED|95.0|-1.1|1.4|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs SB-742457-15mg at Week 12||1.4|-1.1|0.847
82517597|NCT02395120|164728425|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.05|TWO_SIDED|95.0|1.21|3.08||We addressed the issue of multiple testing, both multiple comparisons and multiple sites, using a gatekeeper approach. The use of 0.05 alpha level for each test maintained a 0.05 family-wise alpha level for the six tests (three at each site).|Regression, Logistic||||The primary outcome analysis utilized generalized estimating equations (GEE) with a logit link for the binary dental care receipt outcome. The GEE analysis was conducted using dental care receipt outcomes as restorative care alone (ICDAS codes ≥3), as well as combined preventive (i.e. sealants) and restorative care (ICDAS codes ≥1). Models were fit separately to the overall data (all sites combined), the combined EC and WA sites (based on our original plan of two predominantly low-income school districts), and the BD schools alone. Each model included, as covariates, indicator variables for intervention, site (except for the model with BD alone), child grade, and caregiver demographic variables (race, education, marital status). Corresponding estimated odds ratios and 95% Confidence Intervals were computed.|3.08|1.21|<0.05
82517598|NCT00377234|164728428|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Null hypothesis: Preference rate (including patients not expressing treatment preference and considering order treatments were received) for monthly ibandronate = 50%. Null hypothesis is rejected if P-value was below significance threshold of P \<0.05|Garts Test|||||||<0.0001
82383003|NCT00708552|164476658|SUPERIORITY||Mean Difference (Net)|-0.1||||0.833|TWO_SIDED|95.0|-1.4|1.1|||Mixed Models Analysis|||ADAS-Cog Total Score, Placebo Vs SB-742457-35mg at Week 12||1.1|-1.4|0.833
82383004|NCT00708552|164476658|SUPERIORITY||Mean Difference (Net)|-0.5||||0.443|TWO_SIDED|95.0|-1.6|0.7|||Mixed model repeated measures|||ADAS-Cog Total Score, Placebo Vs Donepzil at Week 12||0.7|-1.6|0.443
82517599|NCT00377234|164728428|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The reported p-values for the primary analysis test whether the overall preference rate for ibandronate equals 50%. Preference within each sequence is not tested.|Prescott Test|||||||<0.0001
82517600|NCT01997398|164728433|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Differences in baseline and 6-month postoperative scores were assessed using a series of repeated measures general linear models with a single within-subjects factor and no between-subjects factors.|Repeated measures general linear models|||||||<0.001
82383005|NCT00708552|164476659|SUPERIORITY||Mean Difference (Net)|0.1||||0.32|TWO_SIDED|95.0|-0.1|0.3|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-15mg at Week 12||0.3|-0.1|0.320
82383006|NCT00708552|164476659|SUPERIORITY||Mean Difference (Net)|0.0||||0.927|TWO_SIDED|95.0|-0.2|0.2|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs SB-742457-35mg at Week 12||0.2|-0.2|0.927
82383007|NCT00708552|164476659|SUPERIORITY||Mean Difference (Net)|-0.2||||0.059|TWO_SIDED|95.0|-0.4|0.0|||Mixed model repeated measures|||CIBIC+ Score, Placebo Vs Donepzil at Week 12||0.0|-0.4|0.059
82517601|NCT01024569|164728435|SUPERIORITY||MIXREG Estimate|-1.16|STANDARD_ERROR_OF_MEAN|-2.21||0.027|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.027
82517602|NCT01024569|164728436|SUPERIORITY||MIXREG Estimate|0.4|STANDARD_ERROR_OF_MEAN|2.37||0.02|TWO_SIDED||||||Mixed Effects Random Regression|||Mixed Effects Random Regression analysis was used to assess the effects of study condition on Hope outcomes.||||0.020
82517603|NCT01024569|164728437|SUPERIORITY||MIXREG Estimate|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.029|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.029
82517604|NCT01024569|164728438|SUPERIORITY||MIXREG Estimate|1.06|STANDARD_ERROR_OF_MEAN|0.52||0.042|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.042
82383008|NCT00708552|164476660|SUPERIORITY||Mean Difference (Net)|-1.9||||0.257|TWO_SIDED|95.0|-5.2|1.4|||Mixed model repeated measures|||RBANS total score, Placebo Vs SB-742457-15mg at Week 12||1.4|-5.2|0.257
82383009|NCT00708552|164476660|SUPERIORITY||Mean Difference (Net)|0.9||||0.57|TWO_SIDED|95.0|-2.2|4.0|||Mixed model repeated measures|||RBANS total score, Placebo Vs SB-742457-35mg at Week 12||4.0|-2.2|0.570
82517605|NCT01024569|164728439|SUPERIORITY||MIXREG Estimate|0.39|STANDARD_ERROR_OF_MEAN|0.11||0.001|TWO_SIDED||||||Mixed Effects Random Regression|||||||.001
82517606|NCT00384085|164728456|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.56||||0.0628|TWO_SIDED|95.0|0.97|2.52||The type I error was controlled by performing a 2-tailed comparison at a p=0.0475 level for superiority testing.|Regression, Logistic|||||2.52|0.97|0.0628
82571217|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5533|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.5533
82383010|NCT00708552|164476660|SUPERIORITY||Mean Difference (Net)|3.4||||0.031|TWO_SIDED|95.0|0.3|6.4|||Mixed model repeated measures|||RBANS total score, Placebo Vs Donepzil at Week 12||6.4|0.3|0.031
82636263|NCT03451630|164987016|SUPERIORITY|||||||0.0211||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.49 with degrees of freedom (6, 3152).||Overall Test of Group by Time Interaction||||0.0211
82636264|NCT03451630|164987016|SUPERIORITY||Mean Difference (Final Values)|2.69|STANDARD_ERROR_OF_MEAN|1.22||0.028|TWO_SIDED|95.0|0.29|5.09||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 4.83 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to 12-Months using linear contrast.||5.09|0.29|0.0280
82636265|NCT03451630|164987016|SUPERIORITY||Mean Difference (Final Values)|2.07|STANDARD_ERROR_OF_MEAN|1.23||0.0935|TWO_SIDED|95.0|-0.35|4.48||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.81 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to 12-Months using linear contrast.||4.48|-0.35|0.0935
82636266|NCT03451630|164987016|SUPERIORITY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|1.05||0.5538|TWO_SIDED|95.0|-1.44|2.68||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.35 with degrees of freedom (1, 3152).||Test for group difference in the change from baseline to12-Months using linear contrast.||2.68|-1.44|0.5538
82636267|NCT03451630|164987017|SUPERIORITY|Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).||||||0.8505|||||||Mixed Models Analysis|F-statistics 0.44 with degrees of freedom (6, 3154).||Overall Test of the Group by Time Interaction||||0.8505
82636268|NCT03451630|164987017|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 16.97 with degrees of freedom (3, 3160).||Test for significant change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
82636269|NCT03451630|164987017|SUPERIORITY|||||||0.8656||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.14 with degrees of freedom (2, 1229).||Test for significant change by treatment when the treatment-by-time interaction effect is not significant.||||0.8656
82636270|NCT03451630|164987017|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.29||0.474|TWO_SIDED|95.0|-1.61|3.46||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.51 with degrees of freedom (1, 3154)||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||3.46|-1.61|0.4740
82636271|NCT03451630|164987017|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|1.26||0.6017|TWO_SIDED|95.0|-1.81|3.13||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.27 with degrees of freedom (1, 3154).||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||3.13|-1.81|0.6017
82636272|NCT03451630|164987017|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.99||0.786|TWO_SIDED|95.0|-1.67|2.2||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.07 with degrees of freedom (1, 3154).||Test for group difference in the change from baseline to 12-Months using the linear contrasts.||2.20|-1.67|0.7860
82636273|NCT03451630|164987018|SUPERIORITY|||||||0.59||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.08 with degrees of freedom (2).||Overall Test of Marginal Group Differences||||0.59
82636274|NCT03451630|164987018|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6692|TWO_SIDED|95.0|0.76|2.11||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.8 with degrees of freedom (2).||Test for the Treatment Effect||2.11|0.76|0.6692
82383011|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|0.2||||0.798|TWO_SIDED|95.0|-1.1|1.5|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 12||1.5|-1.1|0.798
82636275|NCT03451630|164987018|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6692|TWO_SIDED|95.0|0.7|1.93||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.80 with degrees of freedom (2).||Test for the Treatment Effect||1.93|0.70|0.6692
82636276|NCT03451630|164987018|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6692|TWO_SIDED|95.0|0.75|1.59||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-square statistics 0.8 with degrees of freedom (2).||Test for the Treatment Effect||1.59|0.75|0.6692
82383012|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|0.1||||0.918|TWO_SIDED|95.0|-1.3|1.4|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.3|0.918
82517607|NCT00384085|164728457|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of Lantus/Apidra-1 would be established if the upper limit of the 2 sided, 99.75% CI for the difference in the mean change from baseline between Lantus/Apidra-1 and Novolog Mix 70/30 was \<0.5%.|Adjusted Mean of difference|-0.34||||0.0359|TWO_SIDED|95.0|-0.82|0.15||The type I error was controlled by performing a 2-tailed comparison at a p=0.0025 level for noninferiority testing.|Mixed Models Analysis|||||0.15|-0.82|0.0359
82517608|NCT00384085|164728458|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.66||||0.0313|TWO_SIDED|95.0|1.04|2.64||The type I error was controlled by performing a 2-tailed comparison at a p=0.0475 level for superiority testing.|Regression, Logistic|||||2.64|1.04|0.0313
82517609|NCT00384085|164728459|SUPERIORITY_OR_OTHER||Adjusted Mean of difference|-0.31||||0.0565|TWO_SIDED|95.0|-0.63|0.01|||ANCOVA|||||0.01|-0.63|0.0565
82517610|NCT00384085|164728460|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.79||||0.014|TWO_SIDED|95.0|1.12|2.85|||Regression, Logistic|||||2.85|1.12|0.0140
82517611|NCT00384085|164728461|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.02||||0.9268|TWO_SIDED|95.0|0.61|1.71|||Regression, Logistic|||||1.71|0.61|0.9268
82517612|NCT00384085|164728461|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.11||||0.0107|TWO_SIDED|95.0|1.19|3.73|||Regression, Logistic|||||3.73|1.19|0.0107
82636277|NCT03451630|164987019|SUPERIORITY|||||||0.58||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.08 with degrees of freedom (2).||Overall Test of Marginal Group Differences||||0.58
82383013|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|0.1||||0.924|TWO_SIDED|95.0|-1.2|1.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 12||1.3|-1.2|0.924
82383014|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|-0.8||||0.676|TWO_SIDED|95.0|-4.7|3.0|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 12||3.0|-4.7|0.676
82517613|NCT00384085|164728461|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.06||||0.0121|TWO_SIDED|95.0|1.17|3.61|||Regression, Logistic|||||3.61|1.17|0.0121
82517614|NCT01944631|164728479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.613|STANDARD_ERROR_OF_MEAN|0.359||0.0895|TWO_SIDED|95.0|-1.321|0.095|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.095|-1.321|0.0895
82517615|NCT01944631|164728480|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.176|STANDARD_ERROR_OF_MEAN|0.146||0.231|TWO_SIDED|95.0|-0.464|0.113|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.113|-0.464|0.2310
82517616|NCT01944631|164728481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.443|STANDARD_ERROR_OF_MEAN|0.304||0.1465|TWO_SIDED|95.0|-1.042|0.156|||ANCOVA||Difference calculated as bisolviral minus placebo|||0.156|-1.042|0.1465
82517617|NCT01944631|164728482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.728|STANDARD_ERROR_OF_MEAN|3.102||0.8148|TWO_SIDED|95.0|-5.39|6.845|||ANCOVA||Difference calculated as bisolviral minus placebo|||6.845|-5.390|0.8148
82517618|NCT01944631|164728483|SUPERIORITY_OR_OTHER|||||||0.1887|TWO_SIDED||||||Log Rank|Log-rank test stratifying for the variable 'baseline TSS'||||||0.1887
82517619|NCT01944631|164728484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1069||||0.6954|TWO_SIDED|95.0|0.666|1.84|||Regression, Logistic||A value greater than one favours bisolviral|||1.840|0.666|0.6954
82383015|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|3.1||||0.086|TWO_SIDED|95.0|-0.4|6.7|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 12||6.7|-0.4|0.086
82517620|NCT02811861|164728493|SUPERIORITY||Stratified Hazard Ratio|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.8|||Stratified Log-rank Test|Hazard ratio is based on a Cox Proportional Hazards Model including treatment group as a factor.||||0.80|0.53|<0.0001
82517621|NCT02811861|164728493|SUPERIORITY||Stratified Hazard Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.32|0.49|||Stratified Log-rank Test|Hazard ratio is based on a Cox Proportional Hazards Model including treatment group as a factor.||||0.49|0.32|<0.0001
82517622|NCT03740490|164728548|SUPERIORITY||Mean Difference (Net)|-0.1||||0.284|TWO_SIDED|95.0|-0.28|0.08|||Mixed Models Analysis|||Each outcome was modeled using a mixed-effects regression with the change score as the dependent variable and treatment group (Smart-T vs. QuitGuide) as the predictor, restricted to participants who received or would have received that type of message.||0.08|-0.28|0.284
82383016|NCT00708552|164476661|SUPERIORITY||Mean Difference (Net)|4.2||||0.021|TWO_SIDED|95.0|0.6|7.7|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on RBANS Total score, Placebo Vs Donepezil at Week 12||7.7|0.6|0.021
82383017|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|0.1||||0.908|TWO_SIDED|95.0|-1.5|1.7|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-15mg at Week 12||1.7|-1.5|0.908
82383018|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|-0.2||||0.826|TWO_SIDED|95.0|-1.7|1.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.7|0.826
82383019|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|-1.2||||0.088|TWO_SIDED|95.0|-2.7|0.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on ADAS-Cog Total score, Placebo Vs Donepezil at Week 12||0.2|-2.7|0.088
82383020|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|-3.6||||0.053|TWO_SIDED|95.0|-7.3|0.0|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-15mg at Week 12||0.0|-7.3|0.053
82571218|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1611|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.1611
82571219|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1611|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 3 h PS;||||0.1611
82517623|NCT03740490|164728549|SUPERIORITY||Mean Difference (Net)|0.06||||0.477|TWO_SIDED|95.0|-0.11|0.24|||Mixed Models Analysis|||||0.24|-0.11|0.477
82571220|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4793|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.4793
82571221|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3533|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.3533
82383021|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|-0.4||||0.848|TWO_SIDED|95.0|-4.0|3.3|||Mixed Models Analysis|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs SB-742457-35mg at Week 12||3.3|-4.0|0.848
82571222|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8852|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 24 h PS;||||0.8852
82571223|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.3173
82571224|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.3173
82571225|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8864|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at 72 h PS;||||0.8864
82571226|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8084|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.8084
82571227|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.3173
82571228|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Inability to Concentrate at EOT;||||0.2207
82571229|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3747|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.3747
82571230|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.145|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.1450
82571231|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2054|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 3 h PS;||||0.2054
82571232|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4106|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.4106
82517624|NCT03740490|164728550|SUPERIORITY||Mean Difference (Net)|0.03||||0.456|TWO_SIDED|95.0|-0.05|0.1|||Mixed Models Analysis|||||0.10|-0.05|0.456
82517625|NCT03740490|164728551|SUPERIORITY||Mean Difference (Net)|-0.22||||0.215|TWO_SIDED|95.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.215
82517626|NCT02031276|164728594|OTHER||difference in percentage of participants|12.6||||0.0955|TWO_SIDED|95.0|-2.2|27.5|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-tumor necrosis factor (anti-TNF) exposure.||27.5|-2.2|0.0955
82571233|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2199|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.2199
82571234|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2896|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at 24 h PS;||||0.2896
82571235|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||1.0000
82571236|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||0.3173
82636278|NCT03451630|164987019|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7436|TWO_SIDED|95.0|0.43|3.02||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect||3.02|0.43|0.7436
82517627|NCT02031276|164728595|OTHER||difference in percentage of participants|13.4||||0.1151|TWO_SIDED|95.0|-3.3|30.1|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||30.1|-3.3|0.1151
82517628|NCT02031276|164728596|OTHER||difference in percentage of participants|12.0||||0.0057|TWO_SIDED|95.0|3.5|20.6|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||20.6|3.5|0.0057
82517629|NCT02031276|164728597|OTHER||difference in percentage of participants|18.7||||0.0104|TWO_SIDED|95.0|4.4|33.0|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||33.0|4.4|0.0104
82517630|NCT02031276|164728598|OTHER||difference in percentage of participants|2.4||||0.4977|TWO_SIDED|95.0|-4.5|9.2|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||9.2|-4.5|0.4977
82517631|NCT02031276|164728599|OTHER||difference in percentage of participants|7.4||||0.0107|TWO_SIDED|95.0|1.7|13.0|||Cochran-Mantel-Haenszel|||Statistics for the difference are calculated using the Cochran-Mantel-Haenszel risk difference stratified by anti-TNF exposure.||13.0|1.7|0.0107
82383022|NCT00708552|164476662|SUPERIORITY||Mean Difference (Net)|4.7||||0.011|TWO_SIDED|95.0|1.1|8.2|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on RBANS Total score, Placebo Vs Donepezil at Week 12||8.2|1.1|0.011
82517632|NCT03073603|164728667|NON_INFERIORITY|We performed a non-inferiority test for the proportions of the drug continuation and drug discontinuation arms experiencing a new MS relapse and/or MRI Brain Lesion over the course of the study duration. The non-inferiority margin used was 8%.|Difference in proportion|0.0753||||0.521|TWO_SIDED|95.0|0.0063|0.15|||Exact binomial test|Exact binomial test for difference in two proportions||We tested the null hypothesis of inferiority with the proportion of disease events (i.e., new MS relapse and/or MRI brain lesion) for the drug discontinuation group being 8% greater than the proportion for the drug continuation group under the alternative that the two rates are equal.||0.1500|0.0063|0.521
82517633|NCT03073603|164728668|SUPERIORITY|||||||0.766|||||||Chi-squared|||||||0.766
82517634|NCT03073603|164728669|SUPERIORITY|||||||0.604|||||||t-test, 2 sided|||||||0.604
82517635|NCT03073603|164728670|SUPERIORITY|||||||0.198|||||||t-test, 2 sided|||||||0.198
82571237|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3943|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Nausea at EOT;||||0.3943
82383023|NCT00708552|164476663|SUPERIORITY||Mean Difference (Net)|0.1||||0.671|TWO_SIDED|95.0|-0.2|0.3|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ score, Placebo Vs SB-742457-15mg at Week 12||0.3|-0.2|0.671
82383024|NCT00708552|164476663|SUPERIORITY||Mean Difference (Net)|-0.1||||0.413|TWO_SIDED|95.0|-0.4|0.2|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ Total score, Placebo Vs SB-742457-35mg at Week 12||0.2|-0.4|0.413
82517636|NCT03073603|164728671|SUPERIORITY|||||||0.354|||||||t-test, 2 sided|||||||0.354
82383025|NCT00708552|164476663|SUPERIORITY||Mean Difference (Net)|-0.1||||0.245|TWO_SIDED|95.0|-0.4|0.1|||Mixed model repeated measures|||Baseline MMSE score of 16-26 on CIBIC+ Total score, Placebo Vs Donepezil at Week 12||0.1|-0.4|0.245
82383026|NCT00708552|164476664|SUPERIORITY||Mean Difference (Net)|0.1||||0.369|TWO_SIDED|95.0|-0.2|0.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ score, Placebo Vs SB-742457-15mg at Week 12||0.4|-0.2|0.369
82383027|NCT00708552|164476664|SUPERIORITY||Mean Difference (Net)|0.1||||0.55|TWO_SIDED|95.0|-0.2|0.4|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ Total score, Placebo Vs SB-742457-35mg at Week 12||0.4|-0.2|0.550
82517637|NCT03073603|164728672|SUPERIORITY|||||||0.831|||||||t-test, 2 sided|||||||0.831
82383028|NCT00708552|164476664|SUPERIORITY||Mean Difference (Net)|-0.3||||0.082|TWO_SIDED|95.0|-0.5|0.0|||Mixed model repeated measures|||Baseline MMSE score of 10-20 on CIBIC+ Total score, Placebo Vs Donepezil at Week 12||0.0|-0.5|0.082
82383029|NCT00708552|164476665|SUPERIORITY||Mean Difference (Net)|-0.7||||0.417|TWO_SIDED|95.0|-2.4|1.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-15mg at Week 12||1.0|-2.4|0.417
82383030|NCT00708552|164476665|SUPERIORITY||Mean Difference (Net)|0.3||||0.725|TWO_SIDED|95.0|-1.4|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-35mg at Week 12||2.0|-1.4|0.725
82383031|NCT00708552|164476665|SUPERIORITY||Mean Difference (Net)|0.6||||0.506|TWO_SIDED|95.0|-1.1|2.2|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs Donepezil at Week 12||2.2|-1.1|0.506
82383032|NCT00708552|164476665|SUPERIORITY||Mean Difference (Net)|-0.3||||0.723|TWO_SIDED|95.0|-2.3|1.6|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-15mg at Week 24||1.6|-2.3|0.723
82383033|NCT00708552|164476665|SUPERIORITY||Median Difference (Net)|-0.1||||0.919|TWO_SIDED|95.0|-2.2|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs SB-742457-35mg at Week 24||2.0|-2.2|0.919
82383034|NCT00708552|164476665|SUPERIORITY||Mean Difference (Net)|-0.1||||0.896|TWO_SIDED|95.0|-2.3|2.0|||Mixed model repeated measures|||ADCS-ADL Total score, Placebo Vs Donepezil at Week 24||2.0|-2.3|0.896
82383035|NCT00708552|164476666|SUPERIORITY||Mean Difference (Net)|-0.2||||0.594|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||CSDD Total score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.9|0.594
82517638|NCT03073603|164728673|SUPERIORITY|||||||0.252|||||||t-test, 2 sided|||||||0.252
82517639|NCT03073603|164728674|SUPERIORITY|||||||0.983|||||||t-test, 2 sided|||||||0.983
82517640|NCT03073603|164728675|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
82517641|NCT03073603|164728676|SUPERIORITY|||||||0.748|||||||t-test, 2 sided|||||||0.748
82517642|NCT03073603|164728677|SUPERIORITY|||||||0.773|||||||t-test, 2 sided|||||||0.773
82383036|NCT00708552|164476666|SUPERIORITY||Mean Difference (Net)|0.2||||0.523|TWO_SIDED|95.0|-0.5|0.9|||ANCOVA|||CSDD Total score, Placebo Vs SB-742457-35mg at Week 24||0.9|-0.5|0.523
82383037|NCT00708552|164476666|SUPERIORITY||Mean Difference (Net)|0.3||||0.429|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||CSDD Total score, Placebo Vs Donepezil at Week 24||1.0|-0.4|0.429
82383038|NCT00708552|164476667|SUPERIORITY||Mean Difference (Net)|0.0||||0.966|TWO_SIDED|95.0|-0.8|0.8|||ANCOVA|||MMSE Total score, Placebo Vs SB-742457-15mg at Week 24||0.8|-0.8|0.966
82383039|NCT00708552|164476667|SUPERIORITY||Mean Difference (Net)|0.3||||0.505|TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||MMSE Total score, Placebo Vs SB-742457-35mg at Week 24||1.1|-0.5|0.505
82383040|NCT00708552|164476667|SUPERIORITY||Mean Difference (Net)|0.8||||0.044|TWO_SIDED|95.0|0.0|1.6|||ANCOVA|||MMSE Total score, Placebo Vs Donepezil at Week 24||1.6|0.0|0.044
82383041|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.0||||0.869|TWO_SIDED|95.0|-0.5|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-15mg at Week 12||0.5|-0.5|0.869
82383042|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.2||||0.5|TWO_SIDED|95.0|-0.4|0.8|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-35mg at Week 12||0.8|-0.4|0.500
82383043|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.3||||0.14|TWO_SIDED|95.0|-0.1|0.8|||Mixed model repeated measures|||Basic Score, Placebo Vs Donepezil at Week 12||0.8|-0.1|0.140
82383044|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.0||||0.91|TWO_SIDED|95.0|-0.6|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-15mg at Week 24||0.5|-0.6|0.910
82383045|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.1||||0.774|TWO_SIDED|95.0|-0.5|0.7|||Mixed model repeated measures|||Basic Score, Placebo Vs SB-742457-35mg at Week 24||0.7|-0.5|0.774
82383046|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|-0.1||||0.726|TWO_SIDED|95.0|-0.7|0.5|||Mixed model repeated measures|||Basic Score, Placebo Vs Donepezil at Week 24||0.5|-0.7|0.726
82383047|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|-0.8||||0.292|TWO_SIDED|95.0|-2.2|0.7|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-15mg at Week 12||0.7|-2.2|0.292
82383048|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.0||||0.946|TWO_SIDED|95.0|-1.3|1.4|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-35mg at Week 12||1.4|-1.3|0.946
82517643|NCT03073603|164728678|SUPERIORITY|||||||0.224|||||||t-test, 2 sided|||||||0.224
82517644|NCT03073603|164728679|SUPERIORITY|||||||0.962|||||||t-test, 2 sided|||||||0.962
82517645|NCT03073603|164728680|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
82383049|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.2||||0.802|TWO_SIDED|95.0|-1.3|1.6|||Mixed model repeated measures|||Instrumental Score, Placebo Vs Donepezil at Week 12||1.6|-1.3|0.802
82383050|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|-0.4||||0.636|TWO_SIDED|95.0|-2.1|1.3|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-15mg at Week 24||1.3|-2.1|0.636
82383051|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|-0.3||||0.752|TWO_SIDED|95.0|-2.0|1.5|||Mixed model repeated measures|||Instrumental Score, Placebo Vs SB-742457-35mg at Week 24||1.5|-2.0|0.752
82517646|NCT03073603|164728681|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||||||0.406
82517647|NCT03073603|164728682|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||||||0.348
82517648|NCT03073603|164728683|SUPERIORITY|||||||0.086|||||||t-test, 2 sided|||||||0.086
82517649|NCT03073603|164728684|SUPERIORITY|||||||0.575|||||||t-test, 2 sided|||||||0.575
82517650|NCT03073603|164728685|SUPERIORITY|||||||0.733|||||||Chi-squared|||||||0.733
82517651|NCT03073603|164728686|SUPERIORITY|||||||0.733|||||||Chi-squared|||||||0.733
82517652|NCT03073603|164728687|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
82517653|NCT00304070|164728737|OTHER||2 Year EFS|0.89||||0.44|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 90% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.44
82571238|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1703|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.1703
82571239|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0807|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.0807
82571240|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7728|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 3 h PS;||||0.7728
82517654|NCT00304070|164728737|OTHER||2 Year EFS|0.53||||0.4|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 50% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.40
82517655|NCT00304070|164728737|OTHER||2 Year EFS|0.55||||8.53e-06|TWO_SIDED|95.0|||||2-year KM estimate|||We will test the 2-year EFS is 15% using the asymptotic distribution of the complementary log-log distribution of the Kaplan-Meier (KM) estimate.||||0.00000853
82571241|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.4770
82571242|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3625|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.3625
82571243|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0617|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 24 h PS;||||0.0617
82517656|NCT00377676|164728744|NON_INFERIORITY_OR_EQUIVALENCE|In order to test the primary hypothesis at a one-sided alpha = .05 and have a power of 0.9, when the non-inferiority margin is 1.5, the total number of subjects with all-cause SAEs that must be observed during the study was found to be 235. Assuming the placebo rate is 0.08, the required sample size was found to be 2991.|Hazard Ratio (HR)|1.02|||<|0.05|ONE_SIDED|95.0||1.27||Using the Lan and Demets alpha spending function for O'Brien-Fleming boundaries and the overall one-sided significance level of 5%, a level of 0.04068 was to be used at the interim analysis and 0.03938 at the time of the final analysis.|Regression, Cox||cycloset to placebo|||1.27||<0.05
82517657|NCT00377676|164728745|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.58|||<|0.05|TWO_SIDED|95.0|0.35|0.96|||Regression, Cox|||In order to test the hypothesis for serious cardiovascular adverse events as for the primary endpoint at a one-sided alpha = 0.5 when the non-inferiority margin is 1.5, the final sample size of 3000 to 3300 subjects was to provide at least 62% power, assuming a hypothetical rate of events of 3.43%, or 103 to 113 cardiovascular SAEs. Upon demonstration of non-inferiority - a 2 sided using 95% CI was used to assess for superiority.||.96|.35|<0.05
82517658|NCT00377676|164728746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|1.4|<|0.001|||||||ANOVA|||If the standard deviation of HbA1c level is about 1.0% and the baseline and 24 week scores have a correlation of 0.50 then the effect size is 0.5%/1.0% = 0.50. For the metformin/SU analysis, 160 subjects assuming a standard deviation of 1.0% would provide a power of 90% power to detect differences in mean changes of 0.5% or larger.||||<0.001
82517659|NCT00377676|164728747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|||||||ANOVA|||||||<0.001
82517660|NCT00782340|164728788|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHQ composite score as a co-variate.||||||0.003
82517661|NCT00782340|164728789|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model that includes treatment as a factor and baseline OHDAS composite score as a co-variate.||||||0.003
82517662|NCT00782340|164728790|SUPERIORITY_OR_OTHER|||||||0.01||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model including a factor for randomized treatment along with the OHSA composite value at randomization as a covariate.||||||0.010
82517663|NCT00782340|164728791|SUPERIORITY_OR_OTHER|||||||0.003||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||0.003
82571244|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3061|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at 72 h PS;||||0.3061
82517664|NCT00782340|164728792|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|ANCOVA|ANCOVA model including a factor for randomized treatment along with the OHSA composite value at randomization as a covariate.||||||0.009
82517665|NCT00782340|164728793|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors.|Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at baseline.||||||<0.001
82517666|NCT00782340|164728794|SUPERIORITY_OR_OTHER|||||||0.327||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the this endpoint was not positive, no additional statistical analyses will be performed on secondary endpoints.|Fisher Exact|||||||0.327
82517667|NCT01306162|164728818|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|214.0|STANDARD_DEVIATION|19.9||1|TWO_SIDED|90.0|191.0|240.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation.|150mg DE + 400mg DR same time (TrtB) vs 150mg DE (TrtA)||240|191|1.0000
82517668|NCT01306162|164728818|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|130.0|STANDARD_DEVIATION|25.0||0.6697|TWO_SIDED|90.0|112.0|151.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||151|112|0.6697
82571245|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at EOT;||||0.2207
82571246|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Dizziness at EOT;||||0.3173
82571247|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.9191
82571248|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.3173
82571249|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 3 h PS;||||0.2207
82636279|NCT03451630|164987019|SUPERIORITY||Odds Ratio (OR)|0.84||||0.7436|TWO_SIDED|95.0|0.31|2.25||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect.||2.25|0.31|0.7436
82383052|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|-0.1||||0.92|TWO_SIDED|95.0|-1.9|1.7|||Mixed model repeated measures|||Instrumental Score, Placebo Vs Donepezil at Week 24||1.7|-1.9|0.920
82383053|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.0||||0.972|TWO_SIDED|95.0|-0.7|0.6|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-15mg at Week 12||0.6|-0.7|0.972
82383054|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.3||||0.378|TWO_SIDED|95.0|-0.4|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-35mg at Week 12||0.9|-0.4|0.378
82517669|NCT01306162|164728818|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|236.0|STANDARD_DEVIATION|21.8||0.9992||90.0|173.0|321.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||321|173|0.9992
82517670|NCT01306162|164728818|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|162.0|STANDARD_DEVIATION|20.1||0.9171|TWO_SIDED|90.0|119.0|221.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||221|119|0.9171
82517671|NCT01306162|164728819|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|187.0|STANDARD_DEVIATION|24.3||0.9999|TWO_SIDED|90.0|162.0|215.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||215|162|0.9999
82517672|NCT01306162|164728819|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|115.0|STANDARD_DEVIATION|31.2||0.2207|TWO_SIDED|90.0|95.0|138.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||138|95|0.2207
82636280|NCT03451630|164987019|SUPERIORITY||Odds Ratio (OR)|1.36||||0.7436|TWO_SIDED|95.0|0.62|2.97|||Regression, Logistic|Chi-squared statistics 0.59 with degrees of freedom (2).||Test for the treatment effect.||2.97|0.62|0.7436
82517673|NCT01306162|164728819|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|225.0|STANDARD_DEVIATION|26.1||0.9946||90.0|156.0|326.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||326|156|0.9946
82517674|NCT01306162|164728819|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|133.0|STANDARD_DEVIATION|23.0||0.6221|TWO_SIDED|90.0|94.0|190.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||190|94|0.6221
82383055|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.3||||0.346|TWO_SIDED|95.0|-0.3|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs Donepezil at Week 12||0.9|-0.3|0.346
82383056|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.1||||0.72|TWO_SIDED|95.0|-0.6|0.9|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-15mg at Week 24||0.9|-0.6|0.720
82383057|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.2||||0.598|TWO_SIDED|95.0|-0.6|1.0|||Mixed model repeated measures|||Total Independence Score, Placebo Vs SB-742457-35mg at Week 24||1.0|-0.6|0.598
82383058|NCT00708552|164476668|SUPERIORITY||Mean Difference (Net)|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.1|||Mixed model repeated measures|||Total Independence Score, Placebo Vs Donepezil at Week 24||1.1|-0.5|0.480
82636281|NCT03451630|164987020|SUPERIORITY|||||||0.5558||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.82 with degrees of freedom (6, 3057)||Overall test of treatment-by-time interaction||||0.5558
82383059|NCT03971071|164476709|SUPERIORITY||Common odds ratio|1.37||||0.13|TWO_SIDED|95.0|0.92|2.05|||Cochran-Mantel-Haenszel||Erenumab 70 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||2.05|0.92|0.13
82517675|NCT01306162|164728820|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|214.0|STANDARD_DEVIATION|20.7||1|TWO_SIDED|90.0|190.0|241.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||241|190|1.0000
82636282|NCT03451630|164987020|SUPERIORITY|||||||0.0002||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 6.74 with degrees of freedom (3, 3063).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0002
82636283|NCT03451630|164987020|SUPERIORITY|||||||0.7846||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.24 with degrees of freedom (2,1197).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.7846
82636284|NCT03451630|164987020|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.61||0.2444|TWO_SIDED|95.0|-1.92|0.49||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-Statistics 1.36 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.49|-1.92|0.2444
82636285|NCT03451630|164987020|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.61||0.648|TWO_SIDED|95.0|-1.48|0.92||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.21 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.92|-1.48|0.6480
82636286|NCT03451630|164987020|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.46||0.3476|TWO_SIDED|95.0|-1.34|0.47||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.88 with degrees of freedom (1, 3057).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.47|-1.34|0.3476
82636287|NCT03451630|164987021|SUPERIORITY|||||||0.5199||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.86 with degrees of freedom (6, 3148)||Overall test of treatment-by-time||||0.5199
82636288|NCT03451630|164987021|SUPERIORITY|||||||0.0008||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 5.56 with degrees of freedom (3, 3154).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0008
82636289|NCT03451630|164987021|SUPERIORITY|||||||0.9897||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.01 with degrees of freedom (2,1229).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9897
82636290|NCT03451630|164987021|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.8749|TWO_SIDED|95.0|-0.03|0.03||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.02 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.03|-0.03|0.8749
82517676|NCT01306162|164728820|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|132.0|STANDARD_DEVIATION|26.3||0.7223|TWO_SIDED|90.0|113.0|155.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||155|113|0.7223
82571250|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6692|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.6692
82636291|NCT03451630|164987021|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.2216|TWO_SIDED|95.0|-0.05|0.01||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.49 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.01|-0.05|0.2216
82383060|NCT03971071|164476709|SUPERIORITY||Common odds ratio|2.01|||<|0.001|TWO_SIDED|95.0|1.33|3.05|||Cochran-Mantel-Haenszel||Erenumab 140 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||3.05|1.33|<0.001
82383061|NCT03971071|164476710|SUPERIORITY||Least squares mean difference|-1.23||||0.033|TWO_SIDED|95.0|-2.35|-0.1||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.10|-2.35|0.033
82383062|NCT03971071|164476710|SUPERIORITY||Least squares mean difference|-2.74|||<|0.001|TWO_SIDED|95.0|-3.87|-1.62||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-1.62|-3.87|<0.001
82517677|NCT01306162|164728820|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|258.0|STANDARD_DEVIATION|24.6||0.9993||90.0|182.0|365.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||365|182|0.9993
82517678|NCT01306162|164728820|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|159.0|STANDARD_DEVIATION|21.5||0.8875|TWO_SIDED|90.0|114.0|222.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||222|114|0.8875
82517679|NCT01306162|164728821|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtB: TrtA (%)|180.0|STANDARD_DEVIATION|24.6||0.9998|TWO_SIDED|90.0|156.0|207.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR (TrtB) vs 150mg DE (TrtA)||207|156|0.9998
82517680|NCT01306162|164728821|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtC: TrtA (%)|114.0|STANDARD_DEVIATION|29.4||0.1866|TWO_SIDED|90.0|95.0|136.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR 2h later (TrtC) vs 150mg DE (TrtA)||136|95|0.1866
82517681|NCT01306162|164728821|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtD: TrtA (%)|234.0|STANDARD_DEVIATION|26.7||0.9958||90.0|160.0|340.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid same time (TrtD) vs 150mg DE (TrtA)||340|160|0.9958
82517682|NCT01306162|164728821|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability|Geometric mean ratio TrtE: TrtA (%)|126.0|STANDARD_DEVIATION|22.6||0.5164|TWO_SIDED|90.0|89.0|179.0||p-value for geometric mean ratio being outside interval 80% to 125%|ANOVA|ANOVA with sequence, period and treatment as fixed effects and subject within sequence as random effect.|The standard deviation is actually the Geometric coefficient of variation|150mg DE + 400mg DR bid 2h later (TrtE) vs 150mg DE (TrtA)||179|89|0.5164
82383063|NCT03971071|164476711|SUPERIORITY||Common odds ratio|1.62||||0.019|TWO_SIDED|95.0|1.08|2.43|||Cochran-Mantel-Haenszel||Erenumab 70 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||2.43|1.08|0.019
82383064|NCT03971071|164476711|SUPERIORITY||Common odds ratio|2.63|||<|0.001|TWO_SIDED|95.0|1.75|3.96|||Cochran-Mantel-Haenszel||Erenumab 140 mg versus Placebo. Common odds ratio and p-value were obtained from a Cochran-Mantel-Haenszel test, stratified by concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No).|||3.96|1.75|<0.001
82636292|NCT03451630|164987021|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.0607|TWO_SIDED|95.0|0.0|0.04||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.52 with degrees of freedom (1, 3148).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.04|0.00|0.0607
82636293|NCT03451630|164987022|SUPERIORITY|||||||0.1884||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.46 with degrees of freedom (6, 3138)||Overall test of treatment-by-time||||0.1884
82517683|NCT00780962|164728875|SUPERIORITY||Percentage Difference|0.6|||>|0.5|TWO_SIDED|95.0|-4.8|6.0|||Wald|||"The study was powered to find a 10% absolute risk reduction in the rate of contrast-induced nephropathy (a=.05, 90% power). We initially estimated the need for 600 patients and repowered to 800 patients after the 1st interim analysis. The study was halted for futility at the 2nd interim analysis.~Reported here 357 (89.4%) of the 399 enrolled subjects who completed a second blood draw at the time the study closed."||6.0|-4.8|>0.5
82636294|NCT03451630|164987022|SUPERIORITY|||||||0.009||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.87 with degrees of freedom (3, 3144).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0090
82636295|NCT03451630|164987022|SUPERIORITY|||||||0.217||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.53 with degrees of freedom (2, 1227).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.2170
82636296|NCT03451630|164987022|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.09||0.191|TWO_SIDED|95.0|-0.06|0.28||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.71 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.28|-0.06|0.1910
82636297|NCT03451630|164987022|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.0229|TWO_SIDED|95.0|0.03|0.35||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 5.18 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.35|0.03|0.0229
82636298|NCT03451630|164987022|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.2547|TWO_SIDED|95.0|-0.21|0.06||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.30 with degrees of freedom (1, 3138).||Test for Group difference in the change from baseline to 12 months using the linear contrasts.||0.06|-0.21|0.2547
82636299|NCT03451630|164987023|SUPERIORITY|||||||0.0413||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.49 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.0413
82636300|NCT03451630|164987023|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.1433|TWO_SIDED|95.0|-0.28|0.04||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.14 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.04|-0.28|0.1433
82636301|NCT03451630|164987023|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4272|TWO_SIDED|95.0|-0.1|0.23||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.63 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.23|-0.10|0.4272
82636302|NCT03451630|164987023|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.0037|TWO_SIDED|95.0|-0.31|-0.06||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 8.45 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||-0.06|-0.31|0.0037
82636303|NCT03451630|164987024|SUPERIORITY|||||||0.8231||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.38 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.8231
82517684|NCT01660763|164728876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.59|STANDARD_ERROR_OF_MEAN|10.88|<|0.001|TWO_SIDED|95.0|66.2|108.98|||ANCOVA|||||108.98|66.20|<0.001
82517685|NCT01910519|164728886|OTHER|||||||0.0039|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M183-TBA at day 1 with MN titers at day 42||||0.0039
82636304|NCT03451630|164987024|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 330.05 with degrees of freedom (2, 1948).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
82383065|NCT03971071|164476712|SUPERIORITY||Least squares mean difference|-3.25||||0.007|TWO_SIDED|95.0|-5.62|-0.88||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.88|-5.62|0.007
82383066|NCT03971071|164476712|SUPERIORITY||Least squares mean difference|-2.13||||0.075|TWO_SIDED|95.0|-4.48|0.22||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||0.22|-4.48|0.075
82383067|NCT03971071|164476713|SUPERIORITY||Least squares mean difference|-2.61||||0.028|TWO_SIDED|95.0|-4.92|-0.29||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 70 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.29|-4.92|0.028
82383068|NCT03971071|164476713|SUPERIORITY||Least squares mean difference|-2.37||||0.043|TWO_SIDED|95.0|-4.67|-0.07||Nominal p-value is presented without multiplicity adjustment.|Linear Mixed Model||Erenumab 140 mg versus Placebo. Covariates: treatment, visit, treatment-by-visit, concomitant oral migraine preventive treatment initiated before screening and taken during baseline (Yes or No), and baseline value.|||-0.07|-4.67|0.043
82383069|NCT04556305|164476715|SUPERIORITY|||||||0.409|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.409
82383070|NCT04556305|164476715|SUPERIORITY|||||||0.456|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.456
82383071|NCT04556305|164476715|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.692
82383072|NCT04556305|164476716|SUPERIORITY|||||||0.179|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.179
82383073|NCT04556305|164476716|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.910
82517686|NCT01910519|164728886|OTHER|||||||0.0368|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M115-cytokines-receptors cluster at day 1 with MN titers at day 42||||0.0368
82383074|NCT04556305|164476716|SUPERIORITY|||||||0.159|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.159
82383075|NCT04556305|164476717|SUPERIORITY|||||||0.078|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.078
82383076|NCT04556305|164476717|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.130
82517687|NCT01910519|164728886|OTHER|||||||0.0465|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M74-transcriptional targets of glucocorticoid receptor at day 1 with MN titers at day 42||||0.0465
82517688|NCT01910519|164728886|OTHER|||||||0.0411|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M58-B cell development/activation at day 1 with MN titers at day 42||||0.0411
82383077|NCT04556305|164476717|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.430
82383078|NCT04556305|164476718|SUPERIORITY|||||||0.772|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.772
82383079|NCT04556305|164476718|SUPERIORITY|||||||0.107|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.107
82517689|NCT01910519|164728886|OTHER|||||||0.0067|||||||ANOVA|||Correlation of vaccine-induced blood transcription modules (BTMs) M114.0-TBA at day 1 with MN titers at day 42||||0.0067
82383080|NCT04556305|164476718|SUPERIORITY|||||||0.915|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.915
82571251|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7793|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.7793
82571252|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6065|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 24 h PS;||||0.6065
82571253|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.357|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.3570
82636305|NCT03451630|164987024|SUPERIORITY|||||||0.6061||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.50 with degrees of freedom (2 , 1948).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.6061
82383081|NCT04556305|164476719|SUPERIORITY|||||||0.078|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.078
82383082|NCT04556305|164476719|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.130
82571254|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.969|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.9690
82571255|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5299|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at 72 h PS;||||0.5299
82636306|NCT03451630|164987024|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7459|TWO_SIDED|95.0|-0.15|0.11||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.11|-0.15|0.7459
82636307|NCT03451630|164987024|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3169|TWO_SIDED|95.0|-0.18|0.08||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.00 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.08|-0.18|0.3169
82636308|NCT03451630|164987024|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.4098|TWO_SIDED|95.0|-0.07|0.14||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.68 with degrees of freedom (1, 3164).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.14|-0.07|0.4098
82636309|NCT03451630|164987025|SUPERIORITY|||||||0.4732||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.88 with degrees of freedom (4, 1945).||Overall test for the treatment-by-time interaction||||0.4732
82636310|NCT03451630|164987025|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 319.14 with degrees of freedom (2, 1948).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
82636311|NCT03451630|164987025|SUPERIORITY|||||||0.9628||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.04 with degrees of freedom (2, 1948).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9628
82636312|NCT03451630|164987025|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.8438|TWO_SIDED|95.0|-0.16|0.19||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.04 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.19|-0.16|0.8438
82636313|NCT03451630|164987025|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.7425|TWO_SIDED|95.0|-0.19|0.15||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.15|-0.19|0.7425
82636314|NCT03451630|164987025|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.5044|TWO_SIDED|95.0|-0.1|0.17||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.45 with degrees of freedom (1, 1945).||Test for Group difference in the change from baseline to 12-Months using the linear contrasts.||0.17|-0.10|0.5044
82636315|NCT03451630|164987026|SUPERIORITY|||||||0.9804||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.9804
82636316|NCT03451630|164987026|SUPERIORITY||||||<|0.0001||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 21.80 with degrees of freedom (2, 3168).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||<0.0001
82517690|NCT04266028|164728887|OTHER|No statistical analyses were performed.|no statistical analyses were performed|0.0|||||TWO_SIDED|||||No statistical analyses were performed||||No statistical analyses were performed.|No statistical analyses were performed.|||
82571256|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4821|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.4821
82636317|NCT03451630|164987026|SUPERIORITY|||||||0.9764||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.02 with degrees of freedom (2, 1211).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.9764
82636318|NCT03451630|164987026|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9757|TWO_SIDED|95.0|0.63|1.6||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-test statistics 0.03.||Odds ratio of Treatment at 12-Months||1.60|0.63|0.9757
82383083|NCT04556305|164476719|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.430
82517691|NCT00952653|164728891|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|71.4|||||TWO_SIDED|90.0|65.08|78.33|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||78.33|65.08|
82517692|NCT00952653|164728892|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|86.08|||||TWO_SIDED|90.0|79.04|93.74|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||93.74|79.04|
82636319|NCT03451630|164987026|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7958|TWO_SIDED|95.0|0.67|1.68||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-test statistics 0.26.||Odds ratio of Treatment at 12-Months||1.68|0.67|0.7958
82571257|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8295|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.8295
82636320|NCT03451630|164987026|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7646|TWO_SIDED|95.0|0.67|1.34||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.30||Odds ratio of Treatment at 12-Months||1.34|0.67|0.7646
82383084|NCT04556305|164476720|SUPERIORITY|||||||0.487|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.487
82383085|NCT04556305|164476720|SUPERIORITY|||||||0.827|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.827
82636321|NCT03451630|164987027|SUPERIORITY|||||||0.9622||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.15 with degrees of freedom (4, 3164).||Overall test for the treatment-by-time interaction||||0.9622
82636322|NCT03451630|164987027|SUPERIORITY|||||||0.0377||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 3.28 with degrees of freedom (2, 3168).||Test for the change over time when the treatment-by-time interaction effect is not significant.||||0.0377
82636323|NCT03451630|164987027|SUPERIORITY|||||||0.83||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistic 0.19 with degrees of freedom (2, 1903).||Test for the change by treatment when the treatment-by-time interaction effect is not significant.||||0.8300
82636324|NCT03451630|164987027|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7507|TWO_SIDED|95.0|0.38|2.0||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.32||Odds ratio of Treatment at 12-Months||2.00|0.38|0.7507
82636325|NCT03451630|164987027|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8844|TWO_SIDED|95.0|0.42|2.13||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.15||Odds ratio of Treatment at 12-Months||2.13|0.42|0.8844
82636326|NCT03451630|164987027|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8227|TWO_SIDED|95.0|0.49|1.77||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|T-statistics -0.22||Odds ratio of Treatment at 12-Months||1.77|0.49|0.8227
82636327|NCT03451630|164987028|OTHER|||||||1|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Frequency and test of the marginal association between event rate and treatment for eligible participants' data at 12 months for MMA-1a||||1.00
82636328|NCT03451630|164987028|OTHER|||||||0.242|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Frequency and test of the marginal association between event rate and treatment for eligible participants' data at 12 months for MMA-1b||||0.242
82636329|NCT03451630|164987029|OTHER|||||||0.1112|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Test of the marginal association between event rate and treatment for eligible participants' data at 12 months for PCE-1||||0.1112
82636330|NCT03451630|164987029|OTHER|||||||0.4754|||||||Fisher Exact|Fisher's exact test for the null hypothesis of no association between each event and treatment group.||Test of the marginal association between event rate and treatment for eligible participants' data at 12 months for PCE-2||||0.4754
82636331|NCT03451630|164987030|SUPERIORITY||Odds Ratio (OR)|0.74||||0.9079|TWO_SIDED|95.0|0.13|4.28||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||4.28|0.13|0.9079
82636332|NCT03451630|164987030|SUPERIORITY||Odds Ratio (OR)|0.68||||0.9079|TWO_SIDED|95.0|0.13|3.72||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||3.72|0.13|0.9079
82636333|NCT03451630|164987030|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9079|TWO_SIDED|95.0|0.34|3.45||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Regression, Logistic|Chi-squared statistics 0.19 with degrees of freedom (2).||Test for the treatment effect (without weight) using a Firth's penalized logistic regression model for rare events.||3.45|0.34|0.9079
82636334|NCT03451630|164987031|SUPERIORITY|||||||0.9912||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.07 with degrees of freedom (4, 335).||Test for the treatment-by-time interaction (without weight) for SPC-1.||||0.9912
82636335|NCT03451630|164987031|SUPERIORITY|||||||0.876||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.13 with degrees of freedom (2, 339).||Test for change over time for SPC-1||||0.8760
82517693|NCT00952653|164728893|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|92.55|||||TWO_SIDED|90.0|87.43|97.97|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||97.97|87.43|
82517694|NCT00952653|164728894|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|101.17|||||TWO_SIDED|90.0|92.96|110.11|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference). Based on the sample size, this study has at least 85% power overall to demonstrate the lack of an interaction \[that is, equivalence in both AUCinf and Cmax and both midazolam and 1-hydroxy midazolam\], where overall study power is to be based on the product of the individual powers of the parameters of interest.||110.11|92.96|
82636336|NCT03451630|164987031|SUPERIORITY|||||||0.678||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.39 with degrees of freedom (2, 276).||Test for change in treatment effect for SPC-1||||0.6780
82517695|NCT00952653|164728895|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|72.1|||||TWO_SIDED|90.0|66.04|78.72|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference)||78.72|66.04|
82517696|NCT00952653|164728898|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|87.39|||||TWO_SIDED|90.0|80.42|94.96|||||Values have been back-transformed from the log scale.|DVS SR + Midazolam (test) versus Midazolam (reference)||94.96|80.42|
82517697|NCT00380068|164728901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.5|STANDARD_DEVIATION|65.64|<|0.001||95.0|11.8|29.3|||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||29.3|11.8|<0.001
82517698|NCT00380068|164728902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|2.11|<|0.001||95.0|-0.8|-0.3|||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||-0.3|-0.8|<0.001
82517699|NCT00380068|164728903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.001||95.0|-1.0|-0.2|||t-test, 2 sided|Paired t-test on change from Baseline to Week 48||||-0.2|-1.0|0.001
82517700|NCT00380068|164728904|SUPERIORITY_OR_OTHER||Percent change from baseline|-25.5||||||95.0|-33.6|-16.3|||||Percent change from baseline derived from Geometric Mean Ratio|||-16.3|-33.6|
82517701|NCT00380068|164728905|SUPERIORITY_OR_OTHER||Percent change from baseline|-29.2||||||95.0|-39.8|-16.6|||||Percent change from baseline derived from Geometric Mean Ratio|||-16.6|-39.8|
82636337|NCT03451630|164987031|SUPERIORITY|||||||0.1761||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.59 with degrees of freedom (4, 284).||Test for the treatment-by-time interaction (without weight) for SPC-2||||0.1761
82383086|NCT04556305|164476720|SUPERIORITY|||||||0.908|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.908
82383087|NCT04556305|164476721|SUPERIORITY|||||||0.371|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.371
82383088|NCT04556305|164476721|SUPERIORITY|||||||0.633|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.633
82383089|NCT04556305|164476721|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.230
82383090|NCT04556305|164476722|SUPERIORITY|||||||0.798|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.798
82383091|NCT04556305|164476722|SUPERIORITY|||||||0.461|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.461
82383092|NCT04556305|164476722|SUPERIORITY|||||||0.419|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.419
82383093|NCT04556305|164476723|SUPERIORITY|||||||0.619|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.619
82383094|NCT04556305|164476723|SUPERIORITY|||||||0.468|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.468
82383095|NCT04556305|164476723|SUPERIORITY|||||||0.387|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.387
82383096|NCT04556305|164476724|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.380
82383097|NCT04556305|164476724|SUPERIORITY|||||||0.759|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.759
82383098|NCT04556305|164476724|SUPERIORITY|||||||0.219|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.219
82517702|NCT00380068|164728906|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test performed on actual change from baseline WHO functional Class (eg, a change from WHO Class III to II is -1; a change from WHO Class IV to II is -2; etc).|Wilcoxon signed-rank test|||||||<0.001
82636338|NCT03451630|164987031|SUPERIORITY|||||||0.3239||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.13 with degrees of freedom (2, 288).||Test for change over time for SPC-2||||0.3239
82383099|NCT04556305|164476725|SUPERIORITY|||||||0.995|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.995
82517703|NCT00380068|164728907|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test performed on actual change from baseline WHO functional Class (eg, a change from WHO Class III to II is -1; a change from WHO Class IV to II is -2; etc).|Wilcoxon signed-rank test|||||||<0.001
82517704|NCT00380068|164728908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired t-test on change from Baseline to Week 24||||||<0.001
82636339|NCT03451630|164987031|SUPERIORITY|||||||0.7415||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.30 with degrees of freedom (2, 139).||Test for change in treatment effect for SPC-2||||0.7415
82636340|NCT03451630|164987032|SUPERIORITY|||||||0.9786||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.11 with degrees of freedom (4, 608).||Test for the treatment-by-time interaction (without weight) for SPD-1.||||0.9786
82636341|NCT03451630|164987032|SUPERIORITY|||||||0.4703||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.76 with degrees of freedom (2, 612).||Test for change over time for SPD-1||||0.4703
82636342|NCT03451630|164987032|SUPERIORITY|||||||0.877||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.13 with degrees of freedom (2, 332).||Test for change in treatment effect for SPD-1||||0.8770
82636343|NCT03451630|164987032|SUPERIORITY|||||||0.6198||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.66 with degrees of freedom (4, 469).||Test for the treatment-by-time interaction (without weight) for SPD-2||||0.6198
82636344|NCT03451630|164987032|SUPERIORITY|||||||0.6211||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.48 with degrees of freedom (2, 473).||Test for change over time for SPD-2||||0.6211
82636345|NCT03451630|164987032|SUPERIORITY|||||||0.1471||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.93 with degrees of freedom (2, 219).||Test for change in treatment effect for SPD-2.||||0.1471
82636346|NCT03451630|164987033|SUPERIORITY|||||||0.8247||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.38 with degrees of freedom (4, 280).||Test for the treatment-by-time interaction (without weight) for AMM-1||||0.8247
82636347|NCT03451630|164987033|SUPERIORITY|||||||0.6651||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.41 with degrees of freedom (2, 284).||Test for change over time for AMM-1||||0.6651
82636348|NCT03451630|164987033|SUPERIORITY|||||||0.3441||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 1.07 with degrees of freedom (2, 218).||Test for change in treatment effect for AMM-1||||0.3441
82636349|NCT03451630|164987033|SUPERIORITY|||||||0.0847||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 2.07 with degrees of freedom (4, 280).||Test for the treatment-by-time interaction (without weight) for AMM-2||||0.0847
82517705|NCT00380068|164728909|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired t-test on change from Baseline to Week 48||||||<0.001
82517706|NCT00380068|164728910|SUPERIORITY_OR_OTHER||percent event free|89.4||||||95.0|84.4|92.8|||||Estimate obtained through Kaplan-Meier methods|||92.8|84.4|
82517707|NCT00380068|164728911|SUPERIORITY_OR_OTHER||percent event free|84.1||||||95.0|78.2|88.6|||||Estimate obtained through Kaplan-Meier methods|||88.6|78.2|
82636350|NCT03451630|164987033|SUPERIORITY|||||||0.9695||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.03 with degrees of freedom (2, 284).||Test for change over time for AMM-2||||0.9695
82636351|NCT03451630|164987033|SUPERIORITY|||||||0.9396||||||Controlling for: age, sex, race, ethnicity, insurance, engagement at baseline, comfortability with technology, tech literacy (HINTS), social support at baseline (ISEL), health literacy (AAHLS), illness burden (CCI), and area deprivation index (ADI).|Mixed Models Analysis|F-statistics 0.06 with degrees of freedom (2, 200).||Test for change in treatment effect for AMM-2||||0.9396
82636352|NCT00089505|164987039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.69|||<|0.001|TWO_SIDED|95.0|1.79|7.61||P-value was not adjusted for multiple interim analyses, but any adjustment would be negligible because Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used in interim monitoring.|Regression, Cox|The model was stratified by screening CD4 strata (\<50 vs. \>=50 cells/mm\^3).|The HR is for NVP/NVP vs. NVP/LPV\_r.|||7.61|1.79|<0.001
82517708|NCT00380068|164728912|SUPERIORITY_OR_OTHER||percent event free|95.3||||||95.0|91.4|97.4|||||Estimate obtained through Kaplan-Meier methods|||97.4|91.4|
82517709|NCT00380068|164728913|SUPERIORITY_OR_OTHER||percent event free|92.9||||||95.0|88.3|95.8|||||Estimate obtained through Kaplan-Meier methods|||95.8|88.3|
82517710|NCT00380068|164728914|SUPERIORITY_OR_OTHER||percent event free|95.0||||||95.0|88.5|97.9|||||Estimate obtained through Kaplan-Meier methods|||97.9|88.5|
82636353|NCT00089505|164987040|NON_INFERIORITY_OR_EQUIVALENCE|NoNVP/NVP regimen will be considered equivalent to the NoNVP/LPV\_r regimen if the two-sided 95% confidence interval for the hazard ratio for virologi falure is entirely below 2.0; equivalence will be established if the same confidence interval is entirely within the range 0.5 to 2.0.|Hazard Ratio (HR)|0.85||||0.43|TWO_SIDED|95.0|0.56|1.29||P-value is for a test of superiority and was not adjusted for interim analyses, but any adjustment would be negligible because Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used.|Regression, Cox|The cox proportional hazard model was stratified by screening CD4 strata (\<50 vs. \>=50 cells/mm3).|The HR is for NoNVP/NVP vs. NoNVP/LPV\_r.|||1.29|0.56|0.43
82636354|NCT03503617|164987057|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82636355|NCT02041533|164987063|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.15||||0.2511|TWO_SIDED|95.0|0.91|1.45|||Log Rank|Log-rank test stratified by histology (squamous vs. non-squamous) as entered into the IVRS.|Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.45|0.91|0.2511
82383100|NCT04556305|164476725|SUPERIORITY|||||||0.946|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.946
82383101|NCT04556305|164476725|SUPERIORITY|||||||0.593|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.593
82517711|NCT00380068|164728915|SUPERIORITY_OR_OTHER||percent event free|90.0||||||95.0|81.6|94.7|||||Estimate obtained through Kaplan-Meier methods|||94.7|81.6|
82383102|NCT04556305|164476726|SUPERIORITY|||||||0.092|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.092
82517712|NCT00380068|164728916|SUPERIORITY_OR_OTHER||percent event free|97.1||||||95.0|93.6|98.7|||||Estimate obtained through Kaplan-Meier methods|||98.7|93.6|
82517713|NCT00380068|164728917|SUPERIORITY_OR_OTHER||percent event free|95.3||||||95.0|91.2|97.6|||||Estimate obtained through Kaplan-Meier methods|||97.6|91.2|
82517714|NCT01458574|164728918|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95 percent (%) confidence interval (CI) based on normal approximation for the difference in binomial proportions. Missing data were imputed using Non-responder imputation (NRI).||31.2|15.3|<0.0001
82636356|NCT02041533|164987064|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.95|1.43|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.43|0.95|
82636357|NCT02041533|164987065|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.79|1.2|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.20|0.79|
82383103|NCT04556305|164476726|SUPERIORITY|||||||0.245|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.245
82383104|NCT04556305|164476726|SUPERIORITY|||||||0.107|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.107
82571258|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3304|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Constipation at EOT;||||0.3304
82636358|NCT02041533|164987066|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.86|1.24|||||Stratified Cox proportional hazard model. Hazard ratio of nivolumab to investigator's choice chemotherapy.|||1.24|0.86|
82636359|NCT02041533|164987067|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.46|1.06|||||Stratified by histology (squamous vs.non-squamous) at randomization. Strata adjusted odds ratio (Nivolumab over investigator choice of chemotherapy) using Mantel-Haenszel method.|||1.06|0.46|
82517715|NCT01458574|164728918|SUPERIORITY_OR_OTHER||Difference in percentage|29.5|||<|0.0001|TWO_SIDED|95.0|21.4|37.6|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||37.6|21.4|<0.0001
82517716|NCT01458574|164728919|SUPERIORITY_OR_OTHER||Difference in percentage|24.2|||<|0.0001|TWO_SIDED|95.0|16.0|32.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.5|16.0|<0.0001
82571259|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 3 h PS;||||0.2482
82571260|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.2482
82571261|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.2207
82383105|NCT04556305|164476727|SUPERIORITY|||||||0.244|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.244
82383106|NCT04556305|164476727|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.085
82383107|NCT04556305|164476727|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.710
82383108|NCT04556305|164476728|SUPERIORITY|||||||0.491|||||||Mixed Models Analysis|||Statistical Test 1: Main effect of Mind (MindMoves + Mind vs. Move + Usual Care) for change over time||||.491
82383109|NCT04556305|164476728|SUPERIORITY|||||||0.444|||||||Mixed Models Analysis|||Statistical Test 2: Main effect of Move (MindMoves + Move vs. Mind + Usual Care) for change over time||||.444
82383110|NCT04556305|164476728|SUPERIORITY|||||||0.279|||||||Mixed Models Analysis|||Statistical Test 3: Interaction effect of Mind x Move (MindMoves + Usual Care vs. Mind + Move) for change over time||||.279
82383111|NCT02996968|164476750|NON_INFERIORITY|"Non-inferiority was declared if the POUR rate at 1-week with self-discontinuation was no worse than the POUR rate at 1-week with office-discontinuation, by a pre-specified margin of 15%.~A sample size was calculated to be 74 patients in each arm based on the following:~* The estimated POUR requiring indwelling urinary catheter at 1-week postoperative is 16%~* The non-inferiority margin was set at 15%.~* The power was set at 80%"|Proportion Difference|0.002||||0.5|ONE_SIDED|95.0||0.095||2-sample test for equality of proportions with continuity correction|Two proportions Z-test|||||0.095||0.5
82383112|NCT01786993|164476808|SUPERIORITY_OR_OTHER||Event-Free Probability|0.932|||||TWO_SIDED|95.0|0.904|0.951||||||"The hypothesis is formally expressed as:~H0: Freedom from system-related complications through 9 months ≤ 75% Ha: Freedom from system-related complications through 9 months \> 75%"||0.951|0.904|
82571262|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8055|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 24 h PS;||||0.8055
82571263|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9191|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.9191
82571264|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8488|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.8488
82571265|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at 72 h PS;||||0.2482
82571266|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2482
82571267|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2207|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2207
82571268|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Itching at EOT;||||0.2482
82442332|NCT01726673|164593283|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month follow-up) was assessed with the WOLF Motor Function test time score (out of 1800 seconds) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in WMFT time score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|208.5||||0.592|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the WMFT time score from baseline to 36 weeks ( 6 month follow-up) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||0.592
82442333|NCT01726673|164593284|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 12 weeks of training was assessed with the Motor Power Manual Muscle Test Score for the upper extremity (out of 100 points) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in MRC score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|270.5||||0.68|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the MRC score from baseline to 12 weeks (discharge) across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U test|||||||0.680
82517717|NCT01458574|164728919|SUPERIORITY_OR_OTHER||Difference in percentage|32.6|||<|0.0001|TWO_SIDED|95.0|24.2|41.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||41.0|24.2|<0.0001
82636360|NCT00529152|164987106|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Regression, Linear|||Change in Serum Ferritin from baseline to week 24 was compared using regression analysis; null hypothesis was defined as no change in serum ferritin from baseline to week 24||||0.0005
82442334|NCT01726673|164593284|EQUIVALENCE|Statistical analysis of median change from baseline to week 36 (6 month FU) was assessed with the Motor Power Manual Muscle Test Score for the upper extremity (out of 100 points) in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in MRC score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|187.5||||0.837|TWO_SIDED|||||The Mann-Whitney U test was performed to compare median change in the MRC score from baseline to 6 month FU across two separate study conditions (active vs. sham tDCS).|Mann-Whitney U Test|||||||0.837
82636361|NCT01497899|164987107|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the E/C/F/TAF group was at least 12% lower than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 24. The alternative hypothesis was that the E/C/F/TAF group was less than 12% lower than the E/C/F/TDF group.|Difference in percentages|-2.9||||0.58|TWO_SIDED|95.0|-13.5|7.7|||Cochran-Mantel-Haenszel|P-value comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA stratum.|Difference in percentages of virologic success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|||7.7|-13.5|0.58
82636362|NCT02347124|164987112|SUPERIORITY||Odds Ratio (OR)|1.29||||0.13|TWO_SIDED|95.0|0.93|1.78||Adjusted for baseline sex, age, cigarettes per day, depression history, motivation, self-efficacy, current use of a stop-smoking medication, state quitline, and dental insurance.|Regression, Logistic|||||1.78|0.93|0.13
82636363|NCT02347124|164987113|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9|TWO_SIDED|95.0|0.69|1.53||Adjusted for baseline sex, age, depression history, motivation, self-efficacy, state quitline, and dental insurance.|Regression, Logistic|||||1.53|0.69|0.90
82636364|NCT02347124|164987114|SUPERIORITY||Odds Ratio (OR)|1.22||||0.21|TWO_SIDED|95.0|0.89|1.69||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||1.69|0.89|0.21
82636365|NCT02347124|164987115|SUPERIORITY||Odds Ratio (OR)|1.42||||0.04|TWO_SIDED|95.0|1.01|2.0||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||2.00|1.01|0.04
82636366|NCT02347124|164987116|SUPERIORITY||Odds Ratio (OR)|1.37||||0.09|TWO_SIDED|95.0|0.95|1.96||Model is adjusted for sex, age, cigarettes per day at baseline, depression, self-efficacy, motivation, self-reported use of a stop smoking medication at baseline, and stratification variables state quit line and dental insurance.|Regression, Logistic|||||1.96|0.95|0.09
82636367|NCT02347124|164987117|SUPERIORITY||Odds Ratio (OR)|-0.05||||0.85|TWO_SIDED|95.0|-0.57|0.47|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline knowledge score.||||0.47|-0.57|0.85
82442335|NCT02863523|164593286|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82442336|NCT02863523|164593287|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
82442337|NCT02863523|164593288|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82571269|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3291|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.3291
82636368|NCT02347124|164987118|SUPERIORITY||Odds Ratio (OR)|0.41||||0.14|TWO_SIDED|95.0|-0.14|0.96|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline knowledge score.||||0.96|-0.14|0.14
82636369|NCT02347124|164987119|SUPERIORITY||Odds Ratio (OR)|0.35||||0.002|TWO_SIDED|95.0|0.13|0.56|||Regression, Linear|Adjusted for sex, age, state quit line, and baseline self-efficacy score.||||0.56|0.13|.002
82636370|NCT02347124|164987120|SUPERIORITY||Odds Ratio (OR)|0.0||||0.97|TWO_SIDED|95.0|-0.22|0.23||Adjusted for sex, age, state quit line, and baseline self-efficacy score.|Regression, Linear|||||0.23|-0.22|0.97
82636371|NCT02347124|164987121|SUPERIORITY||Odds Ratio (OR)|-0.1||||0.16|TWO_SIDED|95.0|-0.24|0.04|||Regression, Linear|Adjusted for sex, age, state quit line, use of stop-smoking medications, baseline motivation, and baseline cigarettes per day.||||0.04|-0.24|0.16
82636372|NCT02347124|164987122|SUPERIORITY||Odds Ratio (OR)|-0.02||||0.83|TWO_SIDED|95.0|-0.16|0.13|||Regression, Linear|Adjusted for sex, age, state quit line, use of a smoking cessation medication at baseline, baseline motivation score, and baseline cigarettes per day.||||0.13|-0.16|0.83
82636373|NCT02347124|164987123|SUPERIORITY||Odds Ratio (OR)|0.22||||0.02|TWO_SIDED|95.0|0.04|0.41|||Regression, Linear|adjusted for sex, age, state quit line, and baseline motivation score.||||0.41|0.04|0.02
82383113|NCT01786993|164476809|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a binomial distribution with a 44% probability for non-responders between 3 months and 9 months in both study arms, the sample size required for 85% power to reject the null hypothesis at the 5% significance level is 394. To adjust for a potential net crossover of 15% and an overall attrition rate of 20%, the total number of patients required to be enrolled in this study is 506.|Difference of proportions|-0.049||||0.0131|ONE_SIDED|97.5|-0.138||||normal approximation for binomial dist|||"H0: (Non-responder rate in the BiV arm between 3 M randomization and 9 M) - (Non-responder rate in the MPP arm between 3 M randomization and 9 M) ≤ -0.15~Ha: (Non-responder rate in the BiV arm between 3 M randomization and 9 M) - (Non-responder rate in the MPP arm between 3 M randomization and 9 M) \> -0.15~The null hypothesis will be rejected at the 2.5% significance level if the lower one-sided 97.5% confidence bound for the difference in the proportions is above -0.15."|||-0.138|0.0131
82383114|NCT00071110|164476811|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Statistic (t): -1.00|t-test, 2 sided|||||||0.32
82383115|NCT00071110|164476812|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||Statistic (t): 1.56|t-test, 2 sided|||||||0.09
82383116|NCT00071110|164476813|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||Statistic (t): 1.40|t-test, 2 sided|||||||0.17
82383117|NCT03655405|164476814|SUPERIORITY||Incidence Rate Ratio|0.972||||0.723|TWO_SIDED|95.0|0.83|1.138|||Regression, Poisson|Number of PIMs at follow-up, adjusted for baseline value||||1.138|0.830|0.723
82636374|NCT02347124|164987124|SUPERIORITY||Odds Ratio (OR)|0.02||||0.82|TWO_SIDED|95.0|-0.17|0.21|||Regression, Linear|||||0.21|-0.17|0.82
82636375|NCT02347124|164987125|SUPERIORITY||Odds Ratio (OR)|-0.02||||0.8|TWO_SIDED|95.0|-0.2|0.16|||Regression, Linear|Adjusted for sex, age, state quit line, baseline self-efficacy score, baseline cigarettes per day, and baseline use of stop smoking medications.||||0.16|-0.20|0.80
82383118|NCT03655405|164476815|SUPERIORITY||Incidence Rate Ratio|0.763||||0.033|TWO_SIDED|95.0|0.594|0.979|||Regression, Poisson|Number of potentially inappropriate DDD at follow-up, adjusted for baseline value||||0.979|0.594|0.033
82383119|NCT03655405|164476816|SUPERIORITY||Incidence Rate Ratio|0.915||||0.064|TWO_SIDED|95.0|0.834|1.005|||Regression, Poisson|Number of chronic drugs at follow-up, adjusted for baseline value||||1.005|0.834|0.064
82383120|NCT03655405|164476817|SUPERIORITY||Incidence Rate Ratio|1.019||||0.857|TWO_SIDED|95.0|0.833|1.246|||Regression, Poisson|Number of chronic drugs at follow-up, adjusted for baseline value||||1.246|0.833|0.857
82636376|NCT02347124|164987126|SUPERIORITY||Odds Ratio (OR)|0.07||||0.45|TWO_SIDED|95.0|-0.11|0.26|||Regression, Linear|Adjusted for sex, age, state quit line, baseline self-efficacy score, baseline cigarettes per day, and baseline use of stop smoking medication.||||0.26|-0.11|0.45
82636377|NCT04269629|164987129|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACEI) and the group without such treatment. The primary outcome was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.25||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||It was assumed that 24% of the patients would be on β-blockers and/or ACE inhibitors (ACEI). A χ2 test with a two-sided 5% significance level has an 80% power to detect the difference between the group without antihypertensive medication with 6% SR during VIT and the group on β-blockers and/or ACEI with 12.3% SR during VIT (OR = 2.2) when the sample sizes are 631 and 200, respectively. A drop-out rate of 37% was assumed which resulted in a required number of 1,319 patients.||||0.25
82636378|NCT04269629|164987130|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.29||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.29
82636379|NCT04269629|164987131|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitor) and the group without such treatment. The secondary outcomes were analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.04||||||The level of significance was set at 0.05. Correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more severe systemic sting reactions (p=0.04).|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more severe systemic sting reactions.||||0.04
82636380|NCT04269629|164987132|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.|||||<|0.001||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||<0.001
82636381|NCT04269629|164987133|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.99||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for sIgE levels - bee venom.||||0.99
82636382|NCT04269629|164987133|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.15||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for sIgE levels - vespid venom.||||0.15
82636383|NCT04269629|164987134|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.16||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.16
82636384|NCT04269629|164987135|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitors) and the group without such treatment. The secondary outcomes was analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.5||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||||||0.50
82636385|NCT04269629|164987136|OTHER|||||||0.72||||||The level of significance was set at 0.05.|Fisher Exact|||||||0.72
82636386|NCT04269629|164987137|OTHER|All patients participating in this study belong to one of the following two groups for analysis: the group with antihypertensive treatment (β-blockers or ACE inhibitor) and the group without such treatment. The secondary outcomes were analyzed using logistic linear mixed models with a random intercept. This model type takes into account the clustered structure of the data, i.e., observations clustered in the different participating centers.||||||0.11||||||The level of significance was set at 0.05.|Mixed Models Analysis|Missing at random was assumed, and multiple imputations were conducted with 50 imputations taking into account the cluster design.||Analysis for correlation of the prevalence of cardiovascular diseases and/or hypertension with the risk for more frequent SR under VIT.||||0.11
82383121|NCT03655405|164476819|SUPERIORITY||Slope|-1.36||||0.769|TWO_SIDED|95.0|-10.6|7.89|||Regression, Linear|Scale value at follow-up, adjusted for baseline value||Analysis for the scale component||7.89|-10.60|0.769
82517718|NCT01458574|164728920|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001|TWO_SIDED|95.0|17.4|43.2|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||43.2|17.4|<0.0001
82383122|NCT03655405|164476819|SUPERIORITY||Slope|-0.096||||0.075|TWO_SIDED|95.0|-0.202|0.01|||Regression, Linear|Scale value at follow-up, adjusted for baseline value||Analysis for the index component||0.01|-0.202|0.075
82517719|NCT01458574|164728920|SUPERIORITY_OR_OTHER||Difference in percentage|42.2|||<|0.0001|TWO_SIDED|95.0|27.9|56.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||56.5|27.9|<0.0001
82517720|NCT01458574|164728921|SUPERIORITY_OR_OTHER||Difference in percentage|22.7|||<|0.0001|TWO_SIDED|95.0|14.8|30.6|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||30.6|14.8|<0.0001
82383123|NCT03655405|164476820|SUPERIORITY||Incidence Rate Ratio|1.237||||0.212|TWO_SIDED|95.0|0.886|1.727|||Mixed-effect regression, Poisson|Number at follow-up, adjusted for baseline value||||1.727|0.886|0.212
82383124|NCT03655405|164476821|SUPERIORITY||p-value|0.675||||0.675|TWO_SIDED||||||Fisher Exact|||||||0.675
82383125|NCT03655405|164476822|SUPERIORITY||p-value|0.615||||0.615|TWO_SIDED||||||Fisher Exact|||||||0.615
82383126|NCT03655405|164476823|SUPERIORITY||p-value|0.366||||0.366|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.366
82383127|NCT03655405|164476824|SUPERIORITY||p-value|0.738||||0.738|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.738
82383128|NCT03655405|164476825|SUPERIORITY||p-value|0.781||||0.781|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.781
82517721|NCT01458574|164728921|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|16.4|32.4|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.4|16.4|<0.0001
82517722|NCT01458574|164728922|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.6|23.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.7|10.6|<0.0001
82636387|NCT01882439|164987141|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.95|STANDARD_ERROR_OF_MEAN|5.73|<|0.0001|TWO_SIDED|95.0|14.72|37.19|||Large sample approximation|Missing response (MR) = non-response (NR)||||37.19|14.72|<0.0001
82383129|NCT03655405|164476826|SUPERIORITY||p-value|0.958||||0.958|TWO_SIDED||||||Fisher Exact|||||||0.958
82571270|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1391|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.1391
82383130|NCT03655405|164476827|SUPERIORITY||p-value|0.911||||0.911|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.911
82383131|NCT03817190|164476870|SUPERIORITY||Proportion of participants|-0.2277||||0.688|TWO_SIDED|95.0|-1.0415|0.586|||GLMM|||||0.5860|-1.0415|0.6880
82383132|NCT03817190|164476871|SUPERIORITY||Proportion of participants|-0.276||||0.4321|TWO_SIDED|95.0|-0.9185|0.3665|||GLMM|||||0.3665|-0.9185|0.4321
82383133|NCT02565628|164476897|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.02|STANDARD_ERROR_OF_MEAN|10.49||0.6382|ONE_SIDED|90.0||8.97|||Mixed Models Analysis|||||8.97||0.6382
82383134|NCT00333983|164476976|SUPERIORITY_OR_OTHER|||||||0.025||||||P value was set at .025 to adjust for 2 treatment comparisons and for interim monitoring for the treatment effect.|Mixed Models Analysis|||An analysis of all robot interventions compared with intensive conventional exercise for Fugl-Meyer change were completed using linear mixed models.||||.025
82383135|NCT02992236|164476977|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||< 0.0001
82383136|NCT03808948|164476991|OTHER||Odds Ratio (OR)|0.62||||0.4842|TWO_SIDED|95.0|0.08|1.97|||Regression, Logistic|||Binary logistic regression with mGFR/eGFR ratio as independent variate, AKI as binary outcome||1.97|0.08|0.4842
82383137|NCT00568451|164477002|SUPERIORITY_OR_OTHER||Median|12.5|||||ONE_SIDED|95.0|4.5||||Kaplan-Meier||||||4.5|
82383138|NCT05344560|164477007|NON_INFERIORITY|A non-inferiority margin of -5 points was used.|Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|2.018|||TWO_SIDED|95.0|-6.92|1.07|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test \[senofilcon A (C3) HEV chromophore\] minus Control \[senofilcon A (C3)\]|||1.07|-6.92|
82383139|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Spearman Correlation|||||||0.07
82383140|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Spearman Correlation|||||||0.60
82383141|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Spearman Correlation|||||||0.27
82383142|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Spearman Correlation|||||||0.77
82383143|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Spearman Correlation|||||||0.47
82383144|NCT00391768|164477014|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Spearman Correlation|||||||0.96
82383145|NCT01620138|164477016|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82383146|NCT00449865|164477030|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Global Statistical Test|The global statistical test yielded t = -0.75 (2-sided p-value = .45, df=1865.8).||||||0.45
82383147|NCT00406367|164477031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5||No type I-error adjustment was necessary in this study.|ANCOVA|Indepent variables in the model were treatment, baseline JRS-Severity score, gender, age, dose, and pooled center.||The null hypothesis in the analysis of covariance (ANCOVA) model was the absence of difference in the change from baseline in the JRS severity subscore between incobotulinumtoxinA (Xeomin) and placebo. The ANCOVA model was performed 2-sided (type-I error=5 percent) and change from baseline in the JRS Severity subscore assessed by a blinded Independent Rater as dependent variable. The independent variables were treatment, baseline JRS Severity subscore, gender, age, dose group, and pooled center.||-0.5|-1.4|<0.001
82571271|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6318|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 3 h PS;||||0.6318
82517723|NCT01458574|164728922|SUPERIORITY_OR_OTHER||Difference in percentage|20.3|||<|0.0001|TWO_SIDED|95.0|13.5|27.1|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.1|13.5|<0.0001
82517724|NCT01458574|164728923|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||<|0.0001|TWO_SIDED|95.0|18.1|35.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||35.5|18.1|<0.0001
82517725|NCT01458574|164728923|SUPERIORITY_OR_OTHER||Difference in percentage|29.0|||<|0.0001|TWO_SIDED|95.0|20.3|37.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||37.7|20.3|<0.0001
82517726|NCT01458574|164728924|SUPERIORITY_OR_OTHER||Difference in percentage|21.2|||<|0.0001|TWO_SIDED|95.0|14.1|28.3|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||28.3|14.1|<0.0001
82517727|NCT01458574|164728924|SUPERIORITY_OR_OTHER||Difference in percentage|26.4|||<|0.0001|TWO_SIDED|95.0|19.0|33.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||33.8|19.0|<0.0001
82517728|NCT01458574|164728925|SUPERIORITY_OR_OTHER||Difference in percentage|30.6|||<|0.0001|TWO_SIDED|95.0|18.1|43.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||43.1|18.1|<0.0001
82517729|NCT01458574|164728925|SUPERIORITY_OR_OTHER||Difference in percentage|44.5|||<|0.0001|TWO_SIDED|95.0|31.8|57.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||57.2|31.8|<0.0001
82517730|NCT01458574|164728925|SUPERIORITY_OR_OTHER||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|18.7|41.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||41.4|18.7|<0.0001
82517731|NCT01458574|164728925|SUPERIORITY_OR_OTHER||Difference in percentage|43.2|||<|0.0001|TWO_SIDED|95.0|31.1|55.3|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||55.3|31.1|<0.0001
82517732|NCT01458574|164728926|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|13.8|35.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||35.0|13.8|<0.0001
82517733|NCT01458574|164728926|SUPERIORITY_OR_OTHER||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|28.7|52.3|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||52.3|28.7|<0.0001
82517734|NCT01458574|164728927|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001|TWO_SIDED|95.0|20.9|39.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||39.7|20.9|<0.0001
82517735|NCT01458574|164728927|SUPERIORITY_OR_OTHER||Difference in percentage|37.2|||<|0.0001|TWO_SIDED|95.0|28.1|46.4|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||46.4|28.1|<0.0001
82636388|NCT01882439|164987141|SUPERIORITY_OR_OTHER||Risk Difference (RD)|23.31|STANDARD_ERROR_OF_MEAN|5.71|<|0.0001|TWO_SIDED|95.0|12.1|34.51|||Large sample approximation|MR=NR||||34.51|12.10|<0.0001
82517736|NCT01458574|164728927|SUPERIORITY_OR_OTHER||Difference in percentage|31.3|||<|0.0001|TWO_SIDED|95.0|22.4|40.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||40.2|22.4|<0.0001
82517737|NCT01458574|164728927|SUPERIORITY_OR_OTHER||Difference in percentage|41.7|||<|0.0001|TWO_SIDED|95.0|32.9|50.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||50.5|32.9|<0.0001
82517738|NCT01458574|164728928|SUPERIORITY_OR_OTHER||Difference in percentage|29.8|||<|0.0001|TWO_SIDED|95.0|20.9|38.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||38.7|20.9|<0.0001
82636389|NCT01882439|164987142|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2529|STANDARD_ERROR_OF_MEAN|0.06422|<|0.0001|TWO_SIDED|95.0|-0.3792|-0.1266|||Mixed Models Analysis|No imputation||||-0.1266|-0.3792|<0.0001
82636390|NCT01882439|164987142|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.215|STANDARD_ERROR_OF_MEAN|0.06453||0.0009|TWO_SIDED|95.0|-0.3419|-0.0881|||Mixed Models Analysis|No imputation||||-0.0881|-0.3419|0.0009
82636391|NCT03125902|164987179|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2032|TWO_SIDED|95.0|0.6|1.12|||Log Rank|||Stratified Analysis||1.12|0.60|0.2032
82636392|NCT03125902|164987179|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.2601|TWO_SIDED|95.0|0.62|1.14|||Log Rank|||Unstratified Analysis||1.14|0.62|0.2601
82442338|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted mean|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0056|TWO_SIDED|95.0|-0.56|-0.1|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.10|-0.56|0.0056
82571272|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6319|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.6319
82571273|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8149|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.8149
82571274|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5795|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 24 h PS;||||0.5795
82571275|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 72 h PS;||||0.1750
82571276|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0676|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at 72 h PS;||||0.0676
82571277|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2943|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at EOT;||||0.2943
82571278|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0719|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Difficulty Urinating at EOT;||||0.0719
82636393|NCT03125902|164987180|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.86||||0.1343|TWO_SIDED|95.0|0.7|1.05|||Log Rank|||||1.05|0.70|0.1343
82636394|NCT03125902|164987180|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1285|TWO_SIDED|95.0|0.7|1.05|||Log Rank|||Unstratified Analysis||1.05|0.70|0.1285
82571279|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9283|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.9283
82571280|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9024|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.9024
82571281|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7655|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 3 h PS;||||0.7655
82636395|NCT03125902|164987181|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5798|TWO_SIDED|95.0|0.76|1.64|||Log Rank|||Stratified Analysis||1.64|0.76|0.5798
82636396|NCT03125902|164987181|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4035|TWO_SIDED|95.0|0.8|1.72|||Log Rank|||Unstratified Analysis||1.72|0.80|0.4035
82571282|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||1.0000
82571283|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.846|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||0.8460
82636397|NCT03125902|164987182|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.3425|TWO_SIDED|95.0|0.88|1.43|||Log Rank|||Stratified analysis||1.43|0.88|0.3425
82636398|NCT03125902|164987182|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2166|TWO_SIDED|95.0|0.92|1.48|||Log Rank|||Unstratified Analysis||1.48|0.92|0.2166
82636399|NCT03125902|164987184|OTHER|Stratified analysis|Hazard Ratio (HR)|0.94||||0.6465|TWO_SIDED|95.0|0.71|1.24|||Log Rank|||||1.24|0.71|0.6465
82636400|NCT03125902|164987186|OTHER||Odds Ratio (OR)|1.44||||0.1526|TWO_SIDED|95.0|0.87|2.37|||Cochran-Mantel-Haenszel|||||2.37|0.87|0.1526
82636401|NCT03125902|164987187|OTHER||Odds Ratio (OR)|1.4||||0.1834|TWO_SIDED|95.0|0.85|2.31|||Cochran-Mantel-Haenszel|||||2.31|0.85|0.1834
82571284|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6419|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 24 h PS;||||0.6419
82571285|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9522|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.9522
82571286|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.5800
82571287|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7675|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at 72 h PS;||||0.7675
82571288|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1672|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.1672
82636402|NCT03125902|164987188|OTHER||Odds Ratio (OR)|1.42||||0.0513|TWO_SIDED|95.0|1.0|2.02|||Cochran-Mantel-Haenszel|||||2.02|1.00|0.0513
82636403|NCT03125902|164987189|OTHER||Odds Ratio (OR)|1.3||||0.1226|TWO_SIDED|95.0|0.93|1.81|||Cochran-Mantel-Haenszel|||||1.81|0.93|0.1226
82636404|NCT03125902|164987190|OTHER|Unstratified Analysis|Hazard Ratio (HR)|0.74||||0.0641|TWO_SIDED|95.0|0.54|1.02|||Log Rank|||||1.02|0.54|0.0641
82517739|NCT01458574|164728928|SUPERIORITY_OR_OTHER||Difference in percentage|40.2|||<|0.0001|TWO_SIDED|95.0|31.4|49.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||49.0|31.4|<0.0001
82517740|NCT01458574|164728929|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||31.2|15.3|<0.0001
82517741|NCT01458574|164728929|SUPERIORITY_OR_OTHER||Difference in percentage|24.4|||<|0.0001|TWO_SIDED|95.0|16.4|32.4|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||32.4|16.4|<0.0001
82517742|NCT01458574|164728929|SUPERIORITY_OR_OTHER||Difference in percentage|23.2|||<|0.0001|TWO_SIDED|95.0|15.3|31.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||31.2|15.3|<0.0001
82517743|NCT01458574|164728929|SUPERIORITY_OR_OTHER||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|21.9|38.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||38.2|21.9|<0.0001
82517744|NCT01458574|164728930|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.6|23.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.7|10.6|<0.0001
82517745|NCT01458574|164728930|SUPERIORITY_OR_OTHER||Difference in percentage|20.8|||<|0.0001|TWO_SIDED|95.0|14.0|27.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.7|14.0|<0.0001
82517746|NCT01458574|164728931|SUPERIORITY_OR_OTHER||Difference in percentage|10.1||||0.0006|TWO_SIDED|95.0|4.5|15.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||15.7|4.5|0.0006
82517747|NCT01458574|164728931|SUPERIORITY_OR_OTHER||Difference in percentage|6.6||||0.0092|TWO_SIDED|95.0|1.5|11.7|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||11.7|1.5|0.0092
82517748|NCT01458574|164728931|SUPERIORITY_OR_OTHER||Difference in percentage|10.6||||0.0004|TWO_SIDED|95.0|5.0|16.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.2|5.0|0.0004
82517749|NCT01458574|164728931|SUPERIORITY_OR_OTHER||Difference in percentage|11.2|||<|0.0001|TWO_SIDED|95.0|5.5|16.9|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.9|5.5|<0.0001
82517750|NCT01458574|164728932|SUPERIORITY_OR_OTHER||Difference in percentage|5.6||||0.0029|TWO_SIDED|95.0|2.1|9.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||9.0|2.1|0.0029
82517751|NCT01458574|164728932|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.035|TWO_SIDED|95.0|0.3|5.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||5.8|0.3|0.0350
82517752|NCT01458574|164728933|SUPERIORITY_OR_OTHER||Difference in percentage|17.2|||<|0.0001|TWO_SIDED|95.0|10.3|24.0|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.0|10.3|<0.0001
82517753|NCT01458574|164728933|SUPERIORITY_OR_OTHER||Difference in percentage|15.3|||<|0.0001|TWO_SIDED|95.0|8.5|22.0|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||22.0|8.5|<0.0001
82517754|NCT01458574|164728933|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||<|0.0001|TWO_SIDED|95.0|8.8|22.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||22.5|8.8|<0.0001
82517755|NCT01458574|164728933|SUPERIORITY_OR_OTHER||Difference in percentage|19.8|||<|0.0001|TWO_SIDED|95.0|12.7|27.0|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.0|12.7|<0.0001
82636405|NCT03125902|164987200|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.01227|TWO_SIDED|95.0|0.42|0.9|||Log Rank|||Unstratified Analysis||0.90|0.42|0.01227
82636406|NCT01997333|164987230|SUPERIORITY|||||||0.761|||||||Log Rank|Stratified log rank test.||||||0.761
82517756|NCT01458574|164728934|SUPERIORITY_OR_OTHER||Difference in percentage|11.1|||<|0.0001|TWO_SIDED|95.0|5.9|16.4|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.4|5.9|<0.0001
82517757|NCT01458574|164728934|SUPERIORITY_OR_OTHER||Difference in percentage|13.2|||<|0.0001|TWO_SIDED|95.0|7.7|18.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.7|7.7|<0.0001
82517758|NCT01458574|164728935|SUPERIORITY_OR_OTHER||Difference in percentage|12.1|||<|0.0001|TWO_SIDED|95.0|6.3|17.9|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||17.9|6.3|<0.0001
82517759|NCT01458574|164728935|SUPERIORITY_OR_OTHER||Difference in percentage|8.1||||0.0021|TWO_SIDED|95.0|2.8|13.5|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||13.5|2.8|0.0021
82517760|NCT01458574|164728935|SUPERIORITY_OR_OTHER||Difference in percentage|10.6||||0.0004|TWO_SIDED|95.0|5.0|16.2|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.2|5.0|0.0004
82517761|NCT01458574|164728935|SUPERIORITY_OR_OTHER||Difference in percentage|12.7|||<|0.0001|TWO_SIDED|95.0|6.8|18.6|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.6|6.8|<0.0001
82517762|NCT01458574|164728936|SUPERIORITY_OR_OTHER||Difference in percentage|5.6||||0.0029|TWO_SIDED|95.0|2.1|9.0|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||9.0|2.1|0.0029
82517763|NCT01458574|164728936|SUPERIORITY_OR_OTHER||Difference in percentage|4.6||||0.0064|TWO_SIDED|95.0|1.4|7.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||7.8|1.4|0.0064
82517764|NCT01458574|164728938|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.9|||Linear mixed effect model|||At Week 24||-1.9|-3.2|<0.0001
82517765|NCT01458574|164728938|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.8|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.2|||Linear mixed effect model|||At Week 24||-2.2|-3.5|<0.0001
82517766|NCT01458574|164728938|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.7|||Linear mixed effect model|||At Week 52||-1.7|-3.4|<0.0001
82517767|NCT01458574|164728938|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.1|-2.5|||Linear mixed effect model|||At Week 52||-2.5|-4.1|<0.0001
82517768|NCT01458574|164728939|SUPERIORITY_OR_OTHER||Difference in percentage|40.1|||<|0.0001|TWO_SIDED|95.0|25.0|55.3|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||55.3|25.0|<0.0001
82517769|NCT01458574|164728939|SUPERIORITY_OR_OTHER||Difference in percentage|48.4|||<|0.0001|TWO_SIDED|95.0|32.7|64.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||64.1|32.7|<0.0001
82517770|NCT01458574|164728939|SUPERIORITY_OR_OTHER||Difference in percentage|36.0|||<|0.0001|TWO_SIDED|95.0|21.6|50.3|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||50.3|21.6|<0.0001
82517771|NCT01458574|164728939|SUPERIORITY_OR_OTHER||Difference in percentage|46.2|||<|0.0001|TWO_SIDED|95.0|31.0|61.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||61.4|31.0|<0.0001
82517772|NCT01458574|164728940|SUPERIORITY_OR_OTHER||Difference in percentage|31.8|||<|0.0001|TWO_SIDED|95.0|18.8|44.8|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||44.8|18.8|<0.0001
82517773|NCT01458574|164728940|SUPERIORITY_OR_OTHER||Difference in percentage|42.2|||<|0.0001|TWO_SIDED|95.0|27.9|56.5|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||56.5|27.9|<0.0001
82517774|NCT01458574|164728941|SUPERIORITY_OR_OTHER||Difference in percentage|38.6|||<|0.0001|TWO_SIDED|95.0|23.4|53.8|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||53.8|23.4|<0.0001
82517775|NCT01458574|164728941|SUPERIORITY_OR_OTHER||Difference in percentage|48.4|||<|0.0001|TWO_SIDED|95.0|32.7|64.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||64.1|32.7|<0.0001
82571289|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9634|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.9634
82383148|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% confidence intervals (CIs) for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|0.5|7.4||||||15 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The mixed model for repeated measurements (MMRM) included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||7.4|0.5|
82383149|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|-0.5|6.5||||||30 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||6.5|-0.5|
82383150|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|0.2|7.2||||||45 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||7.2|0.2|
82442339|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted mean|-0.72|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.95|-0.48|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.48|-0.95|<0.0001
82517776|NCT01458574|164728941|SUPERIORITY_OR_OTHER||Difference in percentage|34.4|||<|0.0001|TWO_SIDED|95.0|20.1|48.8|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||48.8|20.1|<0.0001
82517777|NCT01458574|164728941|SUPERIORITY_OR_OTHER||Difference in percentage|46.2|||<|0.0001|TWO_SIDED|95.0|31.0|61.4|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||61.4|31.0|<0.0001
82571290|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1161|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Confusion at EOT;||||0.1161
82636407|NCT01997333|164987231|SUPERIORITY|||||||0.264|||||||Cochran-Mantel-Haenszel|Adjusted for stratification factors.||||||0.264
82636408|NCT01997333|164987233|SUPERIORITY|||||||0.726|||||||Log Rank|Stratified log rank.||||||0.726
82636409|NCT01906489|164987258|SUPERIORITY||Odds Ratio (OR)|11.4739|||=|0.0001|TWO_SIDED|95.0|3.3505|39.2931|||Fisher Exact|||||39.2931|3.3505|=0.0001
82636410|NCT01906489|164987259|OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82636411|NCT01906489|164987260|OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82636412|NCT01906489|164987262|OTHER||||||=|0.0953|TWO_SIDED||||||Fisher Exact|||||||=0.0953
82636413|NCT01906489|164987263|OTHER||||||=|0.1238|TWO_SIDED||||||Fisher Exact|||||||=0.1238
82636414|NCT01906489|164987264|OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82636415|NCT01906489|164987265|OTHER||||||=|0.0019|||||||t-test, 2 sided|||Week 2||||=0.0019
82636416|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
82636417|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
82636418|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
82636419|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
82636420|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
82636421|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
82636422|NCT01906489|164987265|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
82636423|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 2||||<0.0001
82636424|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
82636425|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
82636426|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
82636427|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
82636428|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
82636429|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
82636430|NCT01906489|164987267|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
82636431|NCT01906489|164987269|OTHER||||||=|0.0031|||||||t-test, 2 sided|||Week 2||||=0.0031
82636432|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 4||||<0.0001
82636433|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 6||||<0.0001
82636434|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 8||||<0.0001
82636435|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 12||||<0.0001
82636436|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 16||||<0.0001
82636437|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 19||||<0.0001
82636438|NCT01906489|164987269|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 20||||<0.0001
82636439|NCT01906489|164987271|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Week 2||||<0.0001
82636440|NCT01906489|164987271|OTHER||||||=|0.0133|||||||t-test, 2 sided|||Week 4||||=0.0133
82571291|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0754|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0754
82571292|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0711|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0711
82571293|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0711|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 3 h PS;||||0.0711
82571294|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.2482
82571295|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8091|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.8091
82571296|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2482|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at 24 h PS;||||0.2482
82636441|NCT01906489|164987271|OTHER||||||=|0.3053|||||||t-test, 2 sided|||Week 6||||=0.3053
82636442|NCT01906489|164987271|OTHER||||||=|0.1918|||||||t-test, 2 sided|||Week 8||||=0.1918
82636443|NCT01906489|164987271|OTHER||||||=|0.209|||||||t-test, 2 sided|||Week 12||||=0.2090
82517778|NCT01458574|164728942|SUPERIORITY_OR_OTHER||Difference in percentage|12.9||||0.0074|TWO_SIDED|95.0|2.6|23.2|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.2|2.6|0.0074
82517779|NCT01458574|164728942|SUPERIORITY_OR_OTHER||Difference in percentage|13.2||||0.0103|TWO_SIDED|95.0|2.4|24.1|||CMH chi-square test|||At Week 24: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.1|2.4|0.0103
82636444|NCT01906489|164987271|OTHER||||||=|0.6184|||||||t-test, 2 sided|||Week 16||||=0.6184
82636445|NCT01906489|164987271|OTHER||||||=|0.3604|||||||t-test, 2 sided|||Week 19||||=0.3604
82636446|NCT01906489|164987271|OTHER||||||=|0.4056|||||||t-test, 2 sided|||Week 20||||=0.4056
82636447|NCT01906489|164987277|OTHER||Hazard Ratio (HR)|4.1451|||=|0.0017|TWO_SIDED|95.0|1.5752|10.908|||Log Rank|||||10.9080|1.5752|=0.0017
82636448|NCT01078389|164987307|SUPERIORITY_OR_OTHER|||||||0.472|||||||Ranked Analysis of Covariance (ANCOVA)|Baseline modified Sharp/van der Heijde Erosion Score as a covariate.||Change from Baseline at Month 24||||0.472
82636449|NCT01078389|164987308|SUPERIORITY_OR_OTHER|||||||0.548|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Total Score from full hands and feet as a covariate.||Change from Baseline at Month 24||||0.548
82636450|NCT01078389|164987309|SUPERIORITY_OR_OTHER|||||||0.389|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Erosion Score from full hands and feet as a covariate.||Change from Baseline at Month 24||||0.389
82517780|NCT01458574|164728942|SUPERIORITY_OR_OTHER||Difference in percentage|16.8||||0.0018|TWO_SIDED|95.0|6.2|27.5|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.5|6.2|0.0018
82517781|NCT01458574|164728942|SUPERIORITY_OR_OTHER||Difference in percentage|16.7||||0.0029|TWO_SIDED|95.0|5.5|27.9|||CMH chi-square test|||At Week 52: P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||27.9|5.5|0.0029
82517782|NCT01458574|164728943|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.0419|TWO_SIDED|95.0|0.1|15.7|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||15.7|0.1|0.0419
82517783|NCT01458574|164728943|SUPERIORITY_OR_OTHER||Difference in percentage|11.1||||0.0121|TWO_SIDED|95.0|2.3|19.9|||CMH chi-square test|||P-value based on CMH chi-square test stratified by induction study treatment and baseline remission status. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||19.9|2.3|0.0121
82517784|NCT02279641|164728977|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|133.0|||||TWO_SIDED|90.0|111.0|159.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||159|111|
82517785|NCT02279641|164728977|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|67.9|||||TWO_SIDED|90.0|65.2|70.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||70.7|65.2|
82517786|NCT02279641|164728979|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|102.0|||||TWO_SIDED|90.0|93.3|111.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||111|93.3|
82517787|NCT02279641|164728979|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|61.8|||||TWO_SIDED|90.0|58.1|65.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||65.7|58.1|
82517788|NCT02279641|164728979|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|90.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
82571297|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.3173
82636451|NCT01078389|164987310|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|Baseline RAMRIS Synovitis Score as a covariate.||Synovitis: Change from Baseline at Month 24||||<0.001
82636452|NCT01078389|164987310|SUPERIORITY_OR_OTHER|||||||0.634|||||||Ranked ANCOVA|Baseline RAMRIS Erosion(Distal+Proximal) Score as a covariate.||Erosion(Distal+Proximal): Change from Baseline at Month 24||||0.634
82636453|NCT01078389|164987310|SUPERIORITY_OR_OTHER|||||||0.307|||||||Ranked ANCOVA|Baseline RAMRIS Edema(Distal+Proximal) Score as a covariate.||Edema(Distal+Proximal): Change from Baseline at Month 24||||0.307
82636454|NCT01078389|164987311|SUPERIORITY_OR_OTHER|||||||0.122|||||||Ranked ANCOVA|Baseline modified Sharp/van der Heijde Total Score as a covariate.||Change from Baseline at Month 24||||0.122
82636455|NCT04823494|164987312|NON_INFERIORITY|For sample size in each sequence group is 16 (total N=32), a 2 X 2 crossover design will have 80% power to reject the null hypothesis that the SELF-FIT APHAB mean is inferior to the PRO-FIT APHAB mean. The non-inferiority difference margin is 8.4, the standard deviation of differences is 16.3, and p\<.025. The non-inferiority margin of 8.4 preserves half the 95% critical difference for the global APHAB score (16.8). The common standard deviation reported for the APHAB global score is 16.0.|Mean Difference (Final Values)|1.4|||<|0.025|TWO_SIDED|95.0|-1.59|4.73||There were two outcome measures, primary and secondary, considered. As a result, the a priori p value of .05 for statistical significance was adjusted for multiple comparisons to .025.|t-test, 1 sided|The mean differences and 95% CIs in APHAB global score between SELF-FIT and PRO-FIT were calculated using bias-corrected \& accelerated bootstrapping.|The mean difference and 95% CIs are for Self-Fit minus Pro-Fit aided scores. These values are the pooled data for all 37 participants, 19 receiving one sequence and 18 the other sequence.|"For the wear-time crossover field trial, the APHAB was measured following both the audiology best-practices hearing aid fitting (PRO-FIT) and the self-fitting method (SELF-FIT).~* Null hypothesis: Mean (APHAB SELF-FIT - APHAB PRO-FIT ) ≥ 8.4~* Alternative hypothesis: Mean (APHAB SELF-FIT - APHAB PRO-FIT) \< 8.4~The mean difference between the aided scores for the two fitting methods, Self-Fit minus Pro-Fit, represent the primary outcome measure. The expected difference = 0."||4.73|-1.59|<0.025
82636456|NCT04823494|164987313|NON_INFERIORITY|For the QuickSIN, a clinically meaningful difference is 3 dB and half that difference resulted in a margin of 1.5 dB. This 1.5-dB margin was used for the QuickSIN for the non-inferiority analyses of the data from the field-trial component. The mean difference, QuickSIN Self-Fit minus QuickSIN Pro-Fit, should be less than 1.5 dB for the entire sample (N=37) to meet the non-inferiority criterion.|Mean Difference (Final Values)|0.58|||<|0.025|TWO_SIDED|95.0|-0.03|1.2||The a priori threshold value of 0.05 was Bonferroni-adjusted to 0.025 based on the use of two outcome measures, APHAB global (primary) and QuickSIN (secondary).|t-test, 1 sided|The mean differences in dB, SELF-FIT minus PRO-FIT, were calculated with 95% confidence intervals (bias-corrected, accelerated bootstrap) generated.|Mean differences in aided QuickSIN SNR in dB, Self-Fit minus Pro-Fit, were calculated for the entire group of 37 participants with about 1/2 receiving one of the two fit sequences (Pro-Fit then Self-Fit or Self-Fit then Pro-Fit).|"For the QuickSIN, aided performance after each wear period was compared between SELF-FIT and PRO-FIT.~* Null hypothesis: Mean (QuickSIN SELF-FIT - QuickSIPRO-FIT) ≥ 1.5 dB~* Alternative hypothesis: Mean (QuickSIN SELF-FIT - QuickSIN PRO-FIT) \< 1.5 dB~Power calculations were based on the primary outcome measured, the aided APHAB global score, (see information for that outcome measure). With the minimum required N of 32 based on the APHAB global score, the power for QuickSIN exceeded 80%."||1.20|-0.03|<0.025
82636457|NCT03691831|164987314|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0001|TWO_SIDED|95.0|2.14|10.76||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mixed Models Analysis|||A summary of the wart clearance at Visit 10.||10.76|2.14|0.0001
82636458|NCT03691831|164987315|SUPERIORITY||Mean Difference (Final Values)|2.71||||0.0001|TWO_SIDED|95.0|1.61|4.56|||Mixed Models Analysis|||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.||4.56|1.61|0.0001
82636459|NCT03691831|164987316|SUPERIORITY||Odds Ratio (OR)|15.44|||<|0.0001|TWO_SIDED|95.0|9.0|21.8|||Wilcoxon (Mann-Whitney)|||||21.8|9.0|<0.0001
82636460|NCT03691831|164987317|SUPERIORITY||Odds Ratio (OR)|5.2||||0.0006|TWO_SIDED|95.0|1.76|15.53|||Wilcoxon (Mann-Whitney)|||||15.53|1.76|0.0006
82636461|NCT03691831|164987318|SUPERIORITY||Hazard Ratio (HR)|3.33|||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82636462|NCT04524663|164987326|SUPERIORITY||Median Difference (Net)|0.59||||0.89|TWO_SIDED|95.0|-8.14|9.32|||Regression, Linear|||||9.32|-8.14|0.89
82636463|NCT04524663|164987327|SUPERIORITY||Median Difference (Net)|18.9||||0.02|TWO_SIDED|95.0|2.98|34.83|||Regression, Linear|||||34.83|2.98|0.02
82636464|NCT04524663|164987328|SUPERIORITY||Hazard Ratio (HR)|1.69||||0.24|TWO_SIDED|95.0|0.7|4.1|||Cox proportional hazards model|||||4.10|0.70|0.24
82636465|NCT04524663|164987329|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82636466|NCT04524663|164987330|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.24|TWO_SIDED|95.0|0.32|1.33|||Cox proportional hazards model|||||1.33|0.32|0.24
82636467|NCT02361307|164987351|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82442340|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.75|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.98|-0.51|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.51|-0.98|<0.0001
82636468|NCT01189201|164987369|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.9|STANDARD_DEVIATION|7.2|||TWO_SIDED|90.0|102.07|107.8|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the geometric coefficient of variation (gCV)|No formal testing, investigation of relative bioavailability||107.80|102.07|
82571298|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.3173
82517789|NCT02279641|164728980|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|103.0|||||TWO_SIDED|90.0|94.9|112.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||112|94.9|
82517790|NCT02279641|164728980|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|61.8|||||TWO_SIDED|90.0|58.1|65.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||65.7|58.1|
82517791|NCT02279641|164728982|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|89.5|||||TWO_SIDED|90.0|81.8|98.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||98.0|81.8|
82383151|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|2.7|9.7||||||60 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||9.7|2.7|
82517792|NCT02279641|164728982|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|119.0|||||TWO_SIDED|90.0|114.0|125.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||125|114|
82517793|NCT02279641|164728983|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|87.5|||||TWO_SIDED|90.0|79.3|96.6|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||96.6|79.3|
82517794|NCT02279641|164728983|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|193.0|||||TWO_SIDED|90.0|177.0|210.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||210|177|
82517795|NCT02279641|164728983|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|105.0|||||TWO_SIDED|90.0|94.4|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||117|94.4|
82636469|NCT01189201|164987370|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.91|STANDARD_DEVIATION|12.8|||TWO_SIDED|90.0|99.97|110.09|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||110.09|99.97|
82636470|NCT01189201|164987371|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|107.68|STANDARD_DEVIATION|15.3|||TWO_SIDED|90.0|101.7|114.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||114.02|101.70|
82517796|NCT02279641|164728986|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.7|||||TWO_SIDED|95.0|87.7|111.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||111|87.7|
82517797|NCT02279641|164728987|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|95.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
82517798|NCT02279641|164728988|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|95.9|||||TWO_SIDED|95.0|88.4|104.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||104|88.4|
82517799|NCT02279641|164728989|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|101.0|||||TWO_SIDED|95.0|86.7|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||117|86.7|
82517800|NCT04964089|164728990|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.91||0.0083|TWO_SIDED|95.03|-3.88|-0.29|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA as covariates.||||-0.29|-3.88|0.0083
82517801|NCT02099006|164729008|SUPERIORITY_OR_OTHER|||||||0.3|||||||t-test, 2 sided|Paired T test||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of loperamide than with the daily application of a placebo cream.||||0.30
82517802|NCT02099006|164729008|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of ketamine than with the daily application of a placebo cream.||||0.33
82517803|NCT02099006|164729008|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of gabapentin than with the daily application of a placebo cream.||||0.65
82636471|NCT01189201|164987372|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|109.68|STANDARD_DEVIATION|26.2|||TWO_SIDED|90.0|99.55|120.83|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||120.83|99.55|
82636472|NCT01189201|164987375|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.78|STANDARD_DEVIATION|7.1|||TWO_SIDED|90.0|102.02|107.61|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||107.61|102.02|
82383152|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|1.3|8.3||||||2 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||8.3|1.3|
82383153|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Square (LS) Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|-1.7|5.3||||||3 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||5.3|-1.7|
82383154|NCT03187301|164477051|NON_INFERIORITY|For each post-dose time point, change from baseline (ΔQTcF) was compared between APL-130277 and placebo (ΔΔQTcF). The hypothesis of no clinical difference was accepted, if all upper limits of the two-sided 90% CIs for APL-130277 versus placebo fell below 10 msec.|Least Sqaure (LS) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.12||||90.0|-4.2|2.8||||||4 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||2.8|-4.2|
82383155|NCT03187301|164477056|NON_INFERIORITY|15 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|0.3|8.6||||||||8.6|0.3|
82383156|NCT03187301|164477056|NON_INFERIORITY|30 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-1.6|6.7||||||||6.7|-1.6|
82383157|NCT03187301|164477056|NON_INFERIORITY|45 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-0.9|7.4||||||||7.4|-0.9|
82383158|NCT03187301|164477056|NON_INFERIORITY|60 mins post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|-0.9|7.5||||||||7.5|-0.9|
82383159|NCT03187301|164477056|NON_INFERIORITY|2 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|90.0|0.8|9.2||||||||9.2|0.8|
82383160|NCT03187301|164477056|NON_INFERIORITY|3 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|90.0|0.4|8.8||||||||8.8|0.4|
82442341|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted mean|-0.57|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.81|-0.34|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.34|-0.81|<0.0001
82517804|NCT02099006|164729008|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of amitriptyline and baclofen than with the daily application of a placebo cream.||||0.25
82636473|NCT01189201|164987376|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin individual tablets (fasted)|Geometric Mean Ratio|104.64|STANDARD_DEVIATION|19.7|||TWO_SIDED|90.0|97.23|112.62|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||112.62|97.23|
82636474|NCT01189201|164987377|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|85.86|STANDARD_DEVIATION|9.3|||TWO_SIDED|90.0|81.33|90.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||90.64|81.33|
82636475|NCT01189201|164987378|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|61.41|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|54.1|69.71|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||69.71|54.10|
82636476|NCT01189201|164987379|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|85.32|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|80.77|90.14|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||90.14|80.77|
82636477|NCT01189201|164987380|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|93.18|STANDARD_DEVIATION|15.7|||TWO_SIDED|90.0|85.07|102.05|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||102.05|85.07|
82636478|NCT01189201|164987381|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|68.48|STANDARD_DEVIATION|27.2|||TWO_SIDED|90.0|58.59|80.03|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||80.03|58.59|
82636479|NCT01189201|164987382|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A1 (fed)|Geometric Mean Ratio|90.95|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|84.24|98.19|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||98.19|84.24|
82636480|NCT01189201|164987383|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|95.64|STANDARD_DEVIATION|9.6|||TWO_SIDED|90.0|91.19|100.3|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.30|91.19|
82636481|NCT01189201|164987384|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|98.04|STANDARD_DEVIATION|13.0|||TWO_SIDED|90.0|91.95|104.53|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||104.53|91.95|
82636482|NCT01189201|164987385|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|95.69|STANDARD_DEVIATION|9.8|||TWO_SIDED|90.0|91.17|100.43|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.43|91.17|
82636483|NCT01189201|164987386|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|92.98|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|86.36|100.09|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||100.09|86.36|
82636484|NCT01189201|164987387|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|103.71|STANDARD_DEVIATION|22.4|||TWO_SIDED|90.0|92.93|115.74|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||115.74|92.93|
82636485|NCT01189201|164987388|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa plus linagliptin FDC A1 (fasted) divided by empa plus linagliptin FDC A3 (fasted)|Geometric Mean Ratio|96.36|STANDARD_DEVIATION|14.3|||TWO_SIDED|90.0|89.78|103.42|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the gCV|No formal testing, investigation of relative bioavailability||103.42|89.78|
82442342|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted mean|-0.33|STANDARD_ERROR_OF_MEAN|0.12||0.0062|TWO_SIDED|95.0|-0.56|-0.09|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment||-0.09|-0.56|0.0062
82517805|NCT02099006|164729008|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in daily genital pain would be no different with the daily application of ketoprofen than with the daily application of a placebo cream.||||1.0
82517806|NCT02099006|164729009|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of loperamide cream than with the daily application of a placebo cream.||||0.31
82571299|NCT00551135|164852355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4386|TWO_SIDED|||||P-values are derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||Retching/Vomiting at EOT;||||0.4386
82383161|NCT03187301|164477056|NON_INFERIORITY|4 hours post-dose: time-matched, baseline-corrected comparison between APL-130277 and placebo using the ΔΔQTcB approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcB as a covariate. The patient nested within sequence was included as a random effect|Least Square (LS) Mean Differeence|2.6|STANDARD_ERROR_OF_MEAN|2.56|||TWO_SIDED|90.0|-1.6|6.9||||||||6.9|-1.6|
82571300|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1723|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.1723
82571301|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0639|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS||||0.0639
82571302|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.0021
82571303|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1127|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.1127
82571304|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0703|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.0703
82571305|NCT00551135|164852356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|TWO_SIDED|||||P-values derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||EOT.||||0.0012
82571306|NCT00551135|164852358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1927|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||24 h PS.||||0.1927
82571307|NCT00551135|164852358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3865|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS||||0.3865
82517807|NCT02099006|164729009|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of ketamine cream than with the daily application of a placebo cream.||||1
82571308|NCT00551135|164852358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9869|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.9869
82571309|NCT00551135|164852358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4354|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.4354
82571310|NCT00551135|164852358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8061|TWO_SIDED|||||P-values derived from CMH test adjusted for pooled centers. Centers with fewer than 8 treated subjests have been combined into pooled centers.|Cochran-Mantel-Haenszel|||72 h PS.||||0.8061
82571311|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1682|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1682
82571312|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2821|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2821
82571313|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4781|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4781
82517808|NCT02099006|164729009|SUPERIORITY_OR_OTHER|||||||0.66|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of gabapentin cream than with the daily application of a placebo cream.||||0.66
82517809|NCT02099006|164729009|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of ketoprofen cream than with the daily application of a placebo cream.||||0.42
82517810|NCT02099006|164729009|SUPERIORITY_OR_OTHER|||||||0.79|||||||t-test, 2 sided|Paired||Null hypothesis - that the improvement in tampon test pain would be no different with the daily application of amitriptyline/baclofen cream than with the daily application of a placebo cream.||||0.79
82517811|NCT01308580|164729010|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.214|Hazard Ratio (HR)|1.024|||||ONE_SIDED|98.89||1.184|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|The hazard ratio for OS was estimated using the Cox proportional hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization. Cabazitaxel 20 mg/m\^2 relative to 25 mg/m\^2 dose group was considered non-inferior if the upper bound of 1-sided 98.89% confidence interval of hazard ratio (20 mg/m\^2 versus 25 mg/m\^2) was less than the non-inferiority margin of 1.214.||1.184||
82517812|NCT01308580|164729010|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024|||||ONE_SIDED|95.0|0.922||||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|The hazard ratio for OS was estimated using the Cox proportional hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization. Cabazitaxel 25 mg/m\^2 was considered to be superior to 20 mg/m\^2 dose if the lower bound of 1-sided 95% confidence interval of hazard ratio was greater than 1.|||0.922|
82636486|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenA|Vaccine Group Differences at Day 86|19.0|||||TWO_SIDED|97.5|10.0|28.9|||MN method|||Non-inferiority of seroresponse of two vaccinations vs.one vaccination for age cohort (2 to 5 years of age) for MenA||28.9|10|
82636487|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenC|Vaccine Group Differences at Day 86|27.0|||||TWO_SIDED|97.5|16.9|37.7|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenC||37.7|16.9|
82636488|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenW|Vaccine Group Differences at Day 86|14.0|||||TWO_SIDED|97.5|1.4|26.7|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenW||26.7|1.4|
82636489|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 2 to 5 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for Men Y|Vaccine Group differences at Day 86|27.0|||||TWO_SIDED|97.5|15.6|37.6|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (2 to 5 years of age) for MenY||37.6|15.6|
82636490|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenA|Vaccines Group Differences at Day 86|11.0|||||TWO_SIDED|97.5|1.7|21.3|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenA||21.3|1.7|
82636491|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenC|Vaccines Group differences at Day 86|19.0|||||TWO_SIDED|97.5|9.9|29.2|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenC||29.2|9.9|
82636492|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenW|Vaccines Group Differences at Day 86|4.0|||||TWO_SIDED|97.5|-8.6|17.4|||MN method|||Non-inferiority of seroresponse of two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenW||17.4|-8.6|
82636493|NCT01682876|164987390|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was demonstrated for 6 to 10 years of age group if the lower limit of the 2-sided 97.5% confidence interval (CI) for the difference in seroresponse rate between the 2-dose vaccination schedule and the 1-dose vaccination schedule (2-dose schedule minus the 1-dose schedule) was greater than -10% for MenY|Vaccines Group Differences at Day 86|29.0|||||TWO_SIDED|97.5|18.4|40.0|||MN method|||Non-inferiority of seroresponse for two vaccinations vs. one vaccination for age cohort (6 to 10 years of age) for MenY||40|18.4|
82636494|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|18.0|||||TWO_SIDED|98.75|9.1|28.0|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenA was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenA||28|9.1|
82636495|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|28.0||||||98.75|17.1|38.7|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenC was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenC||38.7|17.1|
82636496|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine Group differences at Day 86|14.0|||||TWO_SIDED|98.75|1.0|27.1|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenW was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenW||27.1|1|
82383162|NCT03187301|164477060|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|10.0|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|5.3|14.8||||||60 mins post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||14.8|5.3|
82571314|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0557|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0557
82636497|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine groups Differences at Day 86|28.0|||||TWO_SIDED|98.75|16.2|39.3|||MN method|||Superiority for age cohort (2 through 5 years of age) for MenY was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenY||39.3|16.2|
82517813|NCT01308580|164729011|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.099|||||TWO_SIDED|95.0|0.974|1.24|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.24|0.974|
82383163|NCT03187301|164477060|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|7.5|17.1||||||2 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||17.1|7.5|
82517814|NCT01308580|164729012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.096|||||TWO_SIDED|95.0|0.902|1.331|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.331|0.902|
82517815|NCT01308580|164729014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.195|||||TWO_SIDED|95.0|1.025|1.393|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.393|1.025|
82517816|NCT01308580|164729016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046|||||TWO_SIDED|95.0|0.874|1.251|||||Cabazitaxel 20 mg/m\^2 vs Cabazitaxel 25 mg/m\^2|Hazard ratio is estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by measurability of the disease at baseline, ECOG PS score at baseline, and region at the time of randomization.||1.251|0.874|
82517817|NCT02091167|164729031|OTHER|||||||0.05|||||||ANOVA|||We powered for a medium effect size based on our previous study with effect size (partial ղ2) of 0.10384 for the main within-subject factor in the two-way ANOVA with repeated measures. With a power of 80%, and a two-sided probability of a type I error of 5%, the resulting minimum sample size was 30 participants. To account for waiving or dropouts we increased the estimated sample size to approximately 10%, resulting in 33 subjects in total (approximately 16 to 17 subjects in each group).|"Most of data (age, patterns of crack-cocaine use, 5-items OCCS) were normally distributed according to the D'Agostino \& Pearson normality test, thus they were analyzed by parametric tests. Between-group (sham- and real tDCS) comparisons were conducted by unpaired Student´s t-tests. For all other non-parametric data (gender, schooling, employment, marital state and tobacco use), Chi-square or Fisher tests were used to compare sham and real tDCS groups.~Besides the two-way ANOVA with repeated measures followed by Bonferroni-corrected t-tests, linear regression analyses were done over craving scores obtained along the 4-week treatment (five time-points measurements) for both groups. Additional comparisons between initial and final OCDS scores were done by paired t-tests for each group, and differences between final and initial scores were compared between sham-tDCS and real tDCS groups with unpaired t-test."|||0.05
82517818|NCT02091167|164729032|OTHER|||||||0.05|||||||Fisher Exact|||Two patients from each group were lost to follow-up after their discharge from the hospital.||||0.05
82517819|NCT03822533|164729036|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.69|TWO_SIDED|95.0|-0.059|0.089|||t-test, 2 sided|||Mean difference using independent samples t-test.||0.089|-0.059|0.69
82517820|NCT03822533|164729036|SUPERIORITY||Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.093|0.063||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis||Presenting β-values from linear regression analysis for group variable adjusted for baseline differences in EQ-5D-3L-index. The results from this analysis were used to calculate incremental cost-effectiveness ratio (mean difference in costs divided by mean difference in QALYs).||0.063|-0.093|
82517821|NCT03822533|164729037|SUPERIORITY||Mean Difference (Final Values)|-364.0||||0.17|TWO_SIDED|95.0|-891.0|164.0|||t-test, 2 sided|||Independent-samples t-test. Dependent variable cost items, independent variable group (physiotherapist or physician assessment)||164|-891|0.17
82517822|NCT03822533|164729037|SUPERIORITY||Mean Difference (Final Values)|-364.0|||||TWO_SIDED|95.0|-870.0|143.0||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis||||143|-870|
82517823|NCT03822533|164729038|SUPERIORITY||Mean Difference (Final Values)|-233.0||||0.23|TWO_SIDED|95.0|-616.0|150.0|||t-test, 2 sided|||Independent-samples t-test. Dependent variable cost items, independent variable group (physiotherapist or physician assessment)||150|-616|0.23
82517824|NCT03822533|164729038|SUPERIORITY||Mean Difference (Final Values)|-233.0|||||TWO_SIDED|95.0|-605.0|139.0||The linear regression analysis was needed to calculate the incremental cost efficiency ratio (ICER). The p-value from this test was not relevant for the ICER calculation.|Regression, Linear|First step in a cost-efficiency analysis.||Linear regression analysis. The results from this analysis were used to calculate incremental cost-effectiveness ratio (mean difference in costs divided by mean difference in QALYs).||139|-605|
82517825|NCT03822533|164729041|SUPERIORITY||Mean Difference (Final Values)|48.0||||0.72|TWO_SIDED|95.0|-219.0|314.0|||t-test, 2 sided|||||314|-219|0.72
82517826|NCT03822533|164729042|SUPERIORITY||Mean Difference (Final Values)|-178.0|||<|0.01|TWO_SIDED|95.0|-239.0|118.0|||t-test, 2 sided|||||118|-239|<0.01
82517827|NCT03822533|164729043|SUPERIORITY||Mean Difference (Final Values)|-24.0||||0.01|TWO_SIDED|95.0|-42.0|6.2|||t-test, 2 sided|||||6.2|-42|0.01
82517828|NCT03822533|164729044|SUPERIORITY||Mean Difference (Final Values)|-12.0||||0.62|TWO_SIDED|95.0|-59.0|36.0|||t-test, 2 sided|||||36|-59|0.62
82517829|NCT03822533|164729045|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.87|TWO_SIDED|95.0|-13.0|15.0|||t-test, 2 sided|||||15|-13|0.87
82517830|NCT03822533|164729046|SUPERIORITY||Mean Difference (Final Values)|-254.0||||0.27|TWO_SIDED|95.0|-728.0|220.0|||t-test, 2 sided|||||220|-728|0.27
82517831|NCT03822533|164729047|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.96|TWO_SIDED|95.0|-113.0|118.0|||t-test, 2 sided|||||118|-113|0.96
82383164|NCT03187301|164477060|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|10.9|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|6.1|15.7||||||3 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||15.7|6.1|
82383165|NCT03187301|164477060|NON_INFERIORITY|The hypothesis of assay sensitivity(difference in QTcF time between moxifloxacin and placebo)was evaluated by observing if any of the 4 post-dose evaluation time points had a one-sided(Bonferroni-corrected)95% lower confidence limit which was equal to, or exceeded, 5 msec.|Least Square (LS) Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|90.0|4.2|13.8||||||4 hours post-dose: time-matched, baseline-corrected comparison between moxifloxacin and placebo using the ΔΔQTcF approach. The MMRM included region, gender, planned sequence, period, treatment, time, and interaction between treatment and time as fixed factors, and baseline QTcF as a covariate. The patient nested within sequence was included as a random effect.||13.8|4.2|
82383166|NCT02158585|164477071|SUPERIORITY||Mean Difference (Final Values)|8.93||||0.5618|TWO_SIDED|95.0|-3.49|21.35|||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference between groups in average total number of vertigo attacks||21.35|-3.49|0.5618
82383167|NCT02158585|164477072|SUPERIORITY|||||||0.03429|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference between average total number of vertigo attacks in pre-treatment and treatment||||0.03429
82383168|NCT02158585|164477073|SUPERIORITY||Mean Difference (Net)|4.57||||0.0092|TWO_SIDED|95.0|0.85|8.29|||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference in total average number of vertigo attacks during 3 week time periods||8.29|0.85|0.0092
82383169|NCT02158585|164477076|SUPERIORITY||Median Difference (Final Values)|11.14||||0.0385|TWO_SIDED|95.0|-15.64|37.92|||Wilcoxon (Mann-Whitney)|||||37.92|-15.64|0.0385
82383170|NCT00442897|164477087|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.714||||||95.0|1.77|7.78|||||Odds ratio was adjusted by baseline LDL strata.|||7.78|1.77|
82383171|NCT00442897|164477088|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.579||||||95.0|1.32|5.06|||||Odds ratio was adjusted by baseline LDL strata.|||5.06|1.32|
82383172|NCT04498182|164477089|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.81||0.2305|TWO_SIDED|95.0|-8.9|2.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.2|-8.9|0.2305
82383173|NCT04498182|164477089|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.81||0.7436|TWO_SIDED|95.0|-4.6|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-4.6|0.7436
82383174|NCT04498182|164477090|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4936|TWO_SIDED|95.0|-1.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-1.9|0.4936
82383175|NCT04498182|164477090|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.7131|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.6|-1.1|0.7131
82517832|NCT00823719|164729067|SUPERIORITY_OR_OTHER||percentage of participants|69.0|||||TWO_SIDED|95.0|48.2|85.7|||||The estimated value represents the percentage of participants with OR for participants receiving Ofatumumab + DHAP treatment.|||85.7|48.2|
82517833|NCT00823719|164729067|SUPERIORITY_OR_OTHER||percentage of participants|55.0|||||TWO_SIDED|95.0|36.4|71.9|||||The estimated value represents the percentage of participants with OR for participants receiving Ofatumumab + ICE treatment.|||71.9|36.4|
82383176|NCT04498182|164477091|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.81||0.2305|TWO_SIDED|95.0|-8.9|2.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.2|-8.9|0.2305
82383177|NCT04498182|164477091|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.81||0.7436|TWO_SIDED|95.0|-4.6|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-4.6|0.7436
82383178|NCT04498182|164477092|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.17||0.0281|TWO_SIDED|95.0|-13.2|-0.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.8|-13.2|0.0281
82383179|NCT04498182|164477092|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|3.18||0.9186|TWO_SIDED|95.0|-5.9|6.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.6|-5.9|0.9186
82383180|NCT04498182|164477093|SUPERIORITY||LS Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.17||0.0281|TWO_SIDED|95.0|-13.2|-0.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.8|-13.2|0.0281
82383181|NCT04498182|164477093|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|3.18||0.9186|TWO_SIDED|95.0|-5.9|6.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.6|-5.9|0.9186
82383182|NCT04498182|164477094|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.75||0.9846|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.5|-1.5|0.9846
82383183|NCT04498182|164477094|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6508|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.8|-1.1|0.6508
82383184|NCT04498182|164477095|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.75||0.9846|TWO_SIDED|95.0|-1.5|1.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.5|-1.5|0.9846
82517834|NCT00823719|164729067|SUPERIORITY_OR_OTHER||percentage of participants|61.0|||||TWO_SIDED|95.0|47.4|73.5|||||The estimated value represents the percentage of participants with OR for participants receiving Total Ofatumumab + Chemotherapy treatment.|||73.5|47.4|
82517835|NCT00320216|164729090|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi square test|Stratified by baseline weight \[\<=90kg vs \> 90 kg\].||||||<0.001
82517836|NCT00320216|164729090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82442343|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.72|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.95|-0.49|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.49|-0.95|<0.0001
82517837|NCT00320216|164729090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82517838|NCT00320216|164729090|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||To control for the multiplicity for the primary endpoint analysis, the 4 pairwise comparisons between ustekinumab groups and placebo were performed sequentially at alpha = 0.05. The order of testing was prespecified from high to low doses.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis:No difference between any ustekinumab group and placebo at an overall significant level of 0.05. Sample Size: With 300 participants (60 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in primary endpoint between ustekinumab groups and placebo using a CMH test with stratification by baseline weight \[≤ 90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.01
82517839|NCT00320216|164729091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82517840|NCT00320216|164729091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82517841|NCT00320216|164729091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|||||||<0.001
82571315|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6098|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6098
82571316|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1821|TWO_SIDED||||||ANOVA|||2 h BS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1821
82636498|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine groups differences at Day 86|11.0|||||TWO_SIDED|98.75|1.0|21.2|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenA was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenA||21.2|1|
82636499|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine Group differences at Day 86|18.0|||||TWO_SIDED|97.5|9.5|27.1|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenC was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenC||27.1|9.5|
82636500|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine Group Differences at Day 86|5.0|||||TWO_SIDED|98.75|-8.4|18.8|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenW was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenW||18.8|-8.4|
82636501|NCT01682876|164987391|SUPERIORITY_OR_OTHER||Vaccine group Differences at Day 86|29.0|||||TWO_SIDED|98.75|17.0|39.6|||MN method|||Superiority for age cohort (6 through 10 years of age) for MenY was demonstrated if the lower limit of the 2-sided (1-2α) % CI for seroresponse increase between the 2-dose vaccination schedule and the 1-dose vaccination schedule was above 10% for MenY||39.6|17|
82636502|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||||TWO_SIDED|95.0|1.17|4.53||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced erythema in the two doses versus in the one dose of MenACWY-CRM||4.53|1.17|
82636503|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.75|||||TWO_SIDED|95.0|1.18|6.36||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced induration in the two doses versus in the one dose of MenACWY-CRM||6.36|1.18|
82517842|NCT00320216|164729091|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between any ustekinumab group and placebo.||||<0.001
82517843|NCT04153409|164729094|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Statistical comparisons of the 7 mean changes from baseline to different time-points (0-24 hours) were undertaken in one mixed effects model of analysis taking into account the cross-over nature of the study and the multiple time points within each period to explore a possible treatment effect in this small proof of concept study. Change from baseline at 0.5 hours is presented in this section|Mean Difference (Net)|-0.02||||0.9733|TWO_SIDED|95.0|-1.23|1.19||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 0.5 hours||1.19|-1.23|0.9733
82571317|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1628|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1628
82636504|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.85|1.34||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced tenderness in the two doses versus in the one dose of MenACWY-CRM||1.34|0.85|
82636505|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.54|1.42||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced change in eating habits in the two doses versus in the one dose of MenACWY-CRM||1.42|0.54|
82636506|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.76|1.52||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced sleepiness in the two doses versus in the one dose of MenACWY-CRM||1.52|0.76|
82636507|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.74|1.43||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced irritability in the two doses versus in the one dose of MenACWY-CRM||1.43|0.74|
82636508|NCT01682876|164987396|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.33|1.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fever (≥38 °C) in the two doses versus in the one dose of MenACWY-CRM||1.74|0.33|
82636509|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.77|2.65||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced erythema in the two doses versus in the one dose of MenACWY-CRM||2.65|0.77|
82636510|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.49|||||TWO_SIDED|95.0|0.81|2.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced induration in the two doses versus in the one dose of MenACWY-CRM||2.74|0.81|
82571318|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8999|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8999
82517844|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.42||||0.4942|TWO_SIDED|95.0|-1.64|0.79||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 1 hour. The change from baseline at 1 hour was extracted from the mixed model analysis including all time points.||0.79|-1.64|0.4942
82517845|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.25||||0.6866|TWO_SIDED|95.0|-1.46|0.97||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 1.5 hours. The change from baseline at 1.5 hours was extracted from the mixed model analysis including all time points.||0.97|-1.46|0.6866
82517846|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.89||||0.1488|TWO_SIDED|95.0|-2.11|0.32||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 2 hours. The change from baseline at 2 hours was extracted from the mixed model analysis including all time points.||0.32|-2.11|0.1488
82517847|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.36||||0.5644|TWO_SIDED|95.0|-1.57|0.86||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 4 hours. The change from baseline at 4 hours was extracted from the mixed model analysis including all time points.||0.86|-1.57|0.5644
82517848|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.7||||0.2561|TWO_SIDED|95.0|-1.91|0.51||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 8 hours, The change from baseline at 8 hours was extracted from the mixed model analysis including all time points.||0.51|-1.91|0.2561
82636511|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.27|||||TWO_SIDED|95.0|1.04|1.55||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced pain in the two doses versus in the one dose of MenACWY-CRM||1.55|1.04|
82517849|NCT04153409|164729094|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9875|TWO_SIDED|95.0|-1.22|1.2||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is Active-Placebo|Change from baseline at 24 hours. The change from baseline at 24 hours was extracted from the mixed model analysis including all time points.||1.20|-1.22|0.9875
82517850|NCT05046795|164729098|SUPERIORITY||Mean Difference (Net)|150.91|STANDARD_ERROR_OF_MEAN|23.727|<|0.0001|TWO_SIDED|95.0|104.145|197.671|||Mixed Models Analysis|||||197.671|104.145|<0.0001
82517851|NCT05046795|164729099|SUPERIORITY||Mean Difference (Net)|144.35|STANDARD_ERROR_OF_MEAN|21.192|<|0.0001|TWO_SIDED|95.0|102.61|186.088|||Mixed Models Analysis|||||186.088|102.610|<0.0001
82636512|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.81|||||TWO_SIDED|95.0|0.98|3.33||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced loss of appetite in the two doses versus in the one dose of MenACWY-CRM||3.33|0.98|
82636513|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.77|2.17||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced nausea in the two doses versus in the one dose of MenACWY-CRM||2.17|0.77|
82517852|NCT05046795|164729100|SUPERIORITY||Mean Difference (Net)|287.75|STANDARD_ERROR_OF_MEAN|38.473|<|0.0001|TWO_SIDED|95.0|211.933|363.57|||Mixed Models Analysis|||||363.570|211.933|<0.0001
82517853|NCT05046795|164729101|SUPERIORITY||Mean Difference (Net)|105.9|STANDARD_ERROR_OF_MEAN|16.89|<|0.0001|TWO_SIDED|95.0|72.6|139.12|||ANCOVA|||||139.12|72.60|<0.0001
82517854|NCT05046795|164729102|SUPERIORITY||Mean Difference (Net)|154.8|STANDARD_ERROR_OF_MEAN|28.37|<|0.0001|TWO_SIDED|95.0|98.86|210.78|||ANCOVA|||||210.78|98.86|<0.0001
82517855|NCT05046795|164729103|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_ERROR_OF_MEAN|1.8||0.0064|TWO_SIDED|95.0|-8.49|-1.4|||ANCOVA|||||-1.40|-8.49|0.0064
82383185|NCT04498182|164477095|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.6508|TWO_SIDED|95.0|-1.1|1.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.8|-1.1|0.6508
82517856|NCT05046795|164729104|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0144|TWO_SIDED|95.0|1.16|3.84|||Regression, Logistic|||||3.84|1.16|0.0144
82517857|NCT01866410|164729117|OTHER|||||||0.4|||||||Log Rank|||||||0.4
82517858|NCT01866410|164729118|OTHER|||||||0.5|||||||Log Rank|||||||0.5
82517859|NCT00553267|164729135|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001||95.0|-3.77|-1.75||Doses tested against A10 in a hierarchical manner to address issues of multiplicity. T80/A10 was tested first, then T40/A10.|ANCOVA|Adjusted for baseline and country effect||"Testing that the combination treatments are superior to monotherapy A10.~The number of patients in the treatment arms ensure the tests have over 90% power."||-1.75|-3.77|<0.0001
82636514|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.65|||||TWO_SIDED|95.0|1.06|2.57||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fatigue in the two doses versus in the one dose of MenACWY-CRM||2.57|1.06|
82571319|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||ANOVA|||1 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3990
82571320|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2665|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2665
82571321|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4885|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4885
82636515|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.37|||||TWO_SIDED|95.0|0.99|1.89||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced myalgia in the two doses versus in the one dose of MenACWY-CRM||1.89|0.99|
82636516|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.07|||||TWO_SIDED|95.0|0.97|4.42||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced arthralgia in the two doses versus in the one dose of MenACWY-CRM||4.42|0.97|
82383186|NCT04498182|164477096|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4936|TWO_SIDED|95.0|-1.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-1.9|0.4936
82571322|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6415|TWO_SIDED||||||ANOVA|||2 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6415
82571323|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2269|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2269
82383187|NCT04498182|164477096|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.7131|TWO_SIDED|95.0|-1.1|1.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.6|-1.1|0.7131
82636517|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.83|||||TWO_SIDED|95.0|1.22|2.74||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced headache in the two doses versus in the one dose of MenACWY-CRM||2.74|1.22|
82517860|NCT00553267|164729135|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001||95.0|-3.86|-1.84||Doses tested against A10 in a hierarchical manner to address issues of multiplicity. T80/A10 was tested first, then T40/A10.|ANCOVA|Adjusted for baseline and country effect||"Testing that the combination treatments are superior to monotherapy A10.~The number of patients in the treatment arms ensure the tests have over 90% power."||-1.84|-3.86|<0.0001
82517861|NCT00553267|164729136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|-5.15|-2.16|||ANCOVA|Adjusted for baseline and country effect||||-2.16|-5.15|<0.0001
82517862|NCT00553267|164729136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001||95.0|-5.35|-2.36|||ANCOVA|Adjusted for baseline and country effect||||-2.36|-5.35|<0.0001
82517863|NCT00553267|164729137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.002|TWO_SIDED|95.0|1.21|2.32|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.32|1.21|0.002
82571324|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3228|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3228
82517864|NCT00553267|164729137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91|||<|0.001||95.0|1.37|2.65|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.65|1.37|<0.001
82517865|NCT00553267|164729138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.004||95.0|1.3|4.25|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||4.25|1.30|0.004
82517866|NCT00553267|164729138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.004||95.0|1.29|4.22|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||4.22|1.29|0.004
82571325|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808|TWO_SIDED||||||ANOVA|||3 h PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1808
82571326|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3282|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3282
82571327|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0342|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0342
82636518|NCT01682876|164987397|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.48|2.68||||||The safety of two vaccine groups was compared by calculating risk ratio of the proportions of subjects who experienced fever (≥38 °C) in the two doses versus in the one dose of MenACWY-CRM||2.68|0.48|
82383188|NCT04498182|164477097|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.38||0.0786|TWO_SIDED|95.0|-12.6|0.7|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.7|-12.6|0.0786
82383189|NCT04498182|164477097|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.39||0.9477|TWO_SIDED|95.0|-6.9|6.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.5|-6.9|0.9477
82517867|NCT00553267|164729139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.002||95.0|1.21|2.34|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.34|1.21|0.002
82517868|NCT00553267|164729139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||<|0.001||95.0|1.38|2.68|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.68|1.38|<0.001
82517869|NCT00553267|164729140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.027||95.0|1.04|2.0|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.00|1.04|0.027
82571328|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4198|TWO_SIDED||||||ANOVA|||Day 2 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4198
82571329|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9049|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9049
82517870|NCT00553267|164729140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.008||95.0|1.12|2.15|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.15|1.12|0.008
82517871|NCT00553267|164729141|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.006||95.0|1.14|2.21|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.21|1.14|0.006
82517872|NCT00553267|164729141|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.002||95.0|1.2|2.32|||Mantel Haenszel|Mantel-Haenszel statistics adjusted for country effect||||2.32|1.20|0.002
82517873|NCT00553267|164729142|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon rank sum test|Stratified (for country) Wilcoxon rank sum test||||||0.006
82517874|NCT00553267|164729142|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon rank sum test|Stratified (for country) Wilcoxon rank sum test||||||<0.001
82517875|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.03|0.92|||Mixed Model Repeated Measure Analysis||Mean difference = GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 4||0.92|-0.03|
82383190|NCT04498182|164477098|SUPERIORITY||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.38||0.0786|TWO_SIDED|95.0|-12.6|0.7|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.7|-12.6|0.0786
82383191|NCT04498182|164477098|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.39||0.9477|TWO_SIDED|95.0|-6.9|6.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.5|-6.9|0.9477
82383192|NCT04498182|164477099|SUPERIORITY||LS Means Difference|-5.0|STANDARD_ERROR_OF_MEAN|3.16||0.1153|TWO_SIDED|95.0|-11.2|1.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.2|-11.2|0.1153
82383193|NCT04498182|164477099|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|3.15||0.9975|TWO_SIDED|95.0|-6.2|6.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.2|-6.2|0.9975
82383194|NCT04498182|164477100|SUPERIORITY||LS Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|3.16||0.1153|TWO_SIDED|95.0|-11.2|1.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.2|-11.2|0.1153
82517876|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|95.0|0.25|1.13|||Mixed Model Repeated Measure Analysis||Mean difference = GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 4||1.13|0.25|
82517877|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.246|||TWO_SIDED|95.0|-0.2|0.8|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 4||0.80|-0.20|
82517878|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.292|||TWO_SIDED|95.0|-0.24|0.95|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 5||0.95|-0.24|
82517879|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|0.279|||TWO_SIDED|95.0|-0.05|1.09|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg- Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 5||1.09|-0.05|
82383195|NCT04498182|164477100|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|3.15||0.9975|TWO_SIDED|95.0|-6.2|6.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.2|-6.2|0.9975
82383196|NCT04498182|164477101|SUPERIORITY||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|3.82||0.1518|TWO_SIDED|95.0|-13.0|2.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.0|-13.0|0.1518
82442344|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.03|-0.56|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.56|-1.03|<0.0001
82517880|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.319|||TWO_SIDED|95.0|-0.61|0.69|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 5||0.69|-0.61|
82517881|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|0.235|||TWO_SIDED|95.0|0.15|1.11|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 6||1.11|0.15|
82517882|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|95.0|-0.06|0.86|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 6||0.86|-0.06|
82517883|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.259|||TWO_SIDED|95.0|-0.29|0.77|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 6||0.77|-0.29|
82517884|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.61|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.1|1.12|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 7||1.12|0.10|
82517885|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|0.242|||TWO_SIDED|95.0|0.09|1.08|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||1.08|0.09|
82517886|NCT00833989|164729171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|95.0|-0.39|0.73|||Mixed Model Repeated Measure Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||0.73|-0.39|
82517887|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.56|STANDARD_ERROR_OF_MEAN|4.981|||TWO_SIDED|95.0|-0.6|19.71|||Mixed Model Repeated Measures Analysis||Mean difference =GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, visit 4||19.71|-0.60|
82383197|NCT04498182|164477101|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.87||0.407|TWO_SIDED|95.0|-4.4|10.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||10.8|-4.4|0.4070
82383198|NCT04498182|164477102|SUPERIORITY||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|3.82||0.1518|TWO_SIDED|95.0|-13.0|2.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||2.0|-13.0|0.1518
82383199|NCT04498182|164477102|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.87||0.407|TWO_SIDED|95.0|-4.4|10.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||10.8|-4.4|0.4070
82383200|NCT04498182|164477103|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.56||0.756|TWO_SIDED|95.0|-8.1|5.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.9|-8.1|0.7560
82383201|NCT04498182|164477103|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.62||0.8308|TWO_SIDED|95.0|-7.9|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-7.9|0.8308
82383202|NCT04498182|164477104|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.56||0.756|TWO_SIDED|95.0|-8.1|5.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.9|-8.1|0.7560
82383203|NCT04498182|164477104|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.62||0.8308|TWO_SIDED|95.0|-7.9|6.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||6.4|-7.9|0.8308
82442345|NCT01719003|164593289|SUPERIORITY_OR_OTHER||Adjusted mean|-0.63|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.86|-0.4|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||-0.40|-0.86|<0.0001
82442346|NCT01719003|164593289|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of empagliflozin 10 mg qd against metformin 1000 mg bid were to be tested for HbA1c change from baseline to Week 24 at the level of α=0.025 (one-sided), through application of a non-inferiority margin of 0.35%.|Adjusted mean|0.39|STANDARD_ERROR_OF_MEAN|0.12||0.6246|TWO_SIDED|95.0|0.15|0.62|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 25 mg qd minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||0.62|0.15|0.6246
82517888|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.47|STANDARD_ERROR_OF_MEAN|4.801|||TWO_SIDED|95.0|-1.32|18.26|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 4||18.26|-1.32|
82442347|NCT01719003|164593289|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of empagliflozin 10 mg qd against metformin 1000 mg bid were to be tested for HbA1c change from baseline to Week 24 at the level of α=0.025 (one-sided), through application of a non-inferiority margin of 0.35%.|Adjusted mean|0.4|STANDARD_ERROR_OF_MEAN|0.12||0.6558|TWO_SIDED|95.0|0.16|0.63|||Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 10 mg qd minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of HbA1c (in units of %) after 24 weeks of double-blind treatment.||0.63|0.16|0.6558
82517889|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|5.47|||TWO_SIDED|95.0|-11.1|11.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 4||11.24|-11.1|
82517890|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.58|STANDARD_ERROR_OF_MEAN|5.631|||TWO_SIDED|95.0|0.01|23.15|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 5||23.15|0.01|
82517891|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.77|STANDARD_ERROR_OF_MEAN|5.411|||TWO_SIDED|95.0|-2.35|19.89|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 5||19.89|-2.35|
82517892|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|6.195|||TWO_SIDED|95.0|-12.2|13.21|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 5||13.21|-12.2|
82517893|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.66|STANDARD_ERROR_OF_MEAN|5.351|||TWO_SIDED|95.0|-1.34|20.66|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, Visit 6||20.66|-1.34|
82517894|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.45|STANDARD_ERROR_OF_MEAN|5.198|||TWO_SIDED|95.0|-3.22|18.13|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 6||18.13|-3.22|
82517895|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.63|STANDARD_ERROR_OF_MEAN|5.959|||TWO_SIDED|95.0|-22.9|1.6|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 6||1.60|-22.9|
82517896|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.59|STANDARD_ERROR_OF_MEAN|6.134|||TWO_SIDED|95.0|-3.07|22.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo|Placebo Vs GSK249320 1 mg/kg, visit 7||22.24|-3.07|
82517897|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.89|STANDARD_ERROR_OF_MEAN|5.948|||TWO_SIDED|95.0|-6.37|18.15|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo|Placebo Vs GSK249320 5 mg/kg, Visit 7||18.15|-6.37|
82517898|NCT00833989|164729172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.11|STANDARD_ERROR_OF_MEAN|6.768|||TWO_SIDED|95.0|-17.1|10.84|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo|Placebo Vs GSK249320 15 mg/kg, Visit 7||10.84|-17.1|
82517899|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.47|STANDARD_ERROR_OF_MEAN|7.047|||TWO_SIDED|95.0|-15.81|12.86|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||12.86|-15.81|
82517900|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Median Difference (Net)|9.86|STANDARD_ERROR_OF_MEAN|6.852|||TWO_SIDED|95.0|-4.08|23.8|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 4||23.80|-4.08|
82517901|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|7.376|||TWO_SIDED|95.0|-20.41|9.6|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 4||9.60|-20.41|
82517902|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|10.04|||TWO_SIDED|95.0|-22.87|18.07|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 7||18.07|-22.87|
82517903|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.03|STANDARD_ERROR_OF_MEAN|10.31|||TWO_SIDED|95.0|-15.95|26.0|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 7||26.00|-15.95|
82517904|NCT00833989|164729173|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.07|STANDARD_ERROR_OF_MEAN|10.916|||TWO_SIDED|95.0|-32.29|12.15|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change in Total Fugl-Meyer assessment= Treatment + Visit + Treatment \* Visit + Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 7||12.15|-32.29|
82517905|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|5.147|||TWO_SIDED|95.0|-10.4|10.61|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||10.61|-10.4|
82517906|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.75|STANDARD_ERROR_OF_MEAN|5.157|||TWO_SIDED|95.0|-7.75|13.26|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 4||13.26|-7.75|
82517907|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.85|STANDARD_ERROR_OF_MEAN|5.409|||TWO_SIDED|95.0|-6.17|15.88|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 4||15.88|-6.17|
82517908|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|6.504|||TWO_SIDED|95.0|-12.1|14.45|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 5||14.45|-12.1|
82517909|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|6.426|||TWO_SIDED|95.0|-11.0|15.12|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 5||15.12|-11.0|
82636519|NCT03852901|164987402|OTHER||Mean Difference (Final Values)|40.717|STANDARD_ERROR_OF_MEAN|4.866|<|0.001|TWO_SIDED|95.0|31.166|50.268||Type III of fixed effects. Num df = 1; Den df = 902.758; F = 70.003; Sig. \< 0.001 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||50.268|31.166|<0.001
82383204|NCT04498182|164477105|SUPERIORITY||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.26||0.0005|TWO_SIDED|95.0|-12.4|-3.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.5|-12.4|0.0005
82383205|NCT04498182|164477105|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|2.26||0.0585|TWO_SIDED|95.0|-8.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.2|-8.7|0.0585
82383206|NCT04498182|164477106|SUPERIORITY||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.26||0.0005|TWO_SIDED|95.0|-12.4|-3.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.5|-12.4|0.0005
82383207|NCT04498182|164477106|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|2.26||0.0585|TWO_SIDED|95.0|-8.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.2|-8.7|0.0585
82517910|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22|STANDARD_ERROR_OF_MEAN|6.82|||TWO_SIDED|95.0|-16.1|11.68|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 5||11.68|-16.1|
82383208|NCT04498182|164477107|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|2.77||0.0015|TWO_SIDED|95.0|-14.3|-3.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.4|-14.3|0.0015
82571330|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0456|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0456
82571331|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2463|TWO_SIDED||||||ANOVA|||Day 3 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2463
82571332|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8231|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8231
82571333|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0221|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0221
82571334|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6974|TWO_SIDED||||||ANOVA|||Day 4 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6974
82571335|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7461|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7461
82571336|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1198|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1198
82571337|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8031|TWO_SIDED||||||ANOVA|||Day 5 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8031
82571338|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8515|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8515
82571339|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1285|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1285
82571340|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5561|TWO_SIDED||||||ANOVA|||Day 6 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5561
82571341|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6858|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6858
82571342|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0693|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0693
82571343|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5547|TWO_SIDED||||||ANOVA|||Day 7 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5547
82571344|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.461|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4610
82571345|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.664|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6640
82571346|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6158|TWO_SIDED||||||ANOVA|||Day 8 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6158
82571347|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1632|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1632
82571348|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1770
82571349|NCT00551135|164852359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4882|TWO_SIDED||||||ANOVA|||Day 9 PS; LS Means from ANOVA model with terms of treatment, pooled center, baseline VAS score and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4882
82517911|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|6.664|||TWO_SIDED|95.0|-12.9|14.18|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 6||14.18|-12.9|
82517912|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|6.595||||95.0|-12.4|14.43|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 6||14.43|-12.4|
82517913|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|7.02|||TWO_SIDED|95.0|-15.2|13.32|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 6||13.32|-15.2|
82517914|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.25|STANDARD_ERROR_OF_MEAN|6.953|||TWO_SIDED|95.0|-11.9|16.4|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 7||16.40|-11.9|
82383209|NCT04498182|164477107|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.6812|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.3|-6.6|0.6812
82383210|NCT04498182|164477108|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|2.77||0.0015|TWO_SIDED|95.0|-14.3|-3.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-3.4|-14.3|0.0015
82517915|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.52|STANDARD_ERROR_OF_MEAN|6.909|||TWO_SIDED|95.0|-10.5|17.55|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 7||17.55|-10.5|
82517916|NCT00833989|164729174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|7.328|||TWO_SIDED|95.0|-15.4|14.39|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 7||14.39|-15.4|
82517917|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|3.42|||TWO_SIDED|95.0|-5.33|8.65|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 4||8.65|-5.33|
82636520|NCT03852901|164987403|OTHER||Mean Difference (Final Values)|-0.637|STANDARD_ERROR_OF_MEAN|1.051||0.545|TWO_SIDED|95.0|-2.699|1.426||Type III of fixed effects. Num df = 1; Den df = 884.229; F = .367; Sig = .545 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||1.426|-2.699|0.545
82383211|NCT04498182|164477108|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.6812|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.3|-6.6|0.6812
82383212|NCT04498182|164477109|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.5||0.152|TWO_SIDED|95.0|-8.5|1.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.3|-8.5|0.1520
82517918|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|-7.56|6.96|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 4||6.96|-7.56|
82383213|NCT04498182|164477109|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.49||0.8515|TWO_SIDED|95.0|-5.4|4.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.4|-5.4|0.8515
82383214|NCT04498182|164477110|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.5||0.152|TWO_SIDED|95.0|-8.5|1.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||1.3|-8.5|0.1520
82517919|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|3.534|||TWO_SIDED|95.0|-2.67|11.78|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 4||11.78|-2.67|
82636521|NCT03852901|164987404|OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.009||0.003|TWO_SIDED|95.0|0.009|0.044||Type III of fixed effects. Num df = 1; Den df = 880.629; F = 8.782; Sig. = 0.003 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||.044|.009|0.003
82383215|NCT04498182|164477110|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.49||0.8515|TWO_SIDED|95.0|-5.4|4.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.4|-5.4|0.8515
82383216|NCT04498182|164477111|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0302|TWO_SIDED|95.0|-12.1|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-12.1|0.0302
82636522|NCT03852901|164987405|OTHER||Mean Difference (Final Values)|-2.647|STANDARD_ERROR_OF_MEAN|1.329||0.047|TWO_SIDED|95.0|-5.255|-0.04||Type III of fixed effects. Num df = 1; Den df = 880.870; F = 3.970; Sig. = 0.047 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||-0.040|-5.255|0.047
82636523|NCT03852901|164987406|OTHER||Mean Difference (Final Values)|-5.573|STANDARD_ERROR_OF_MEAN|1.853||0.003|TWO_SIDED|95.0|-9.21|-1.937||Type III of fixed effects. Num df = 1; Den df = 902.181; F = 9.049; Sig. = 0.003 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit \& Timepoint; Fixed effects: repeated-measures. Visit, Timepoint, Sex, Visit\*Sex||No a-priori power calculation was performed due to the exploratory nature of the study.||-1.937|-9.210|0.003
82517920|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|3.841|||TWO_SIDED|95.0|-5.78|9.89|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 5||9.89|-5.78|
82517921|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.35|STANDARD_ERROR_OF_MEAN|3.958|||TWO_SIDED|95.0|-10.4|5.72|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 5||5.72|-10.4|
82517922|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.44|STANDARD_ERROR_OF_MEAN|3.978|||TWO_SIDED|95.0|-6.68|9.55|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 5||9.55|-6.68|
82517923|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.46|STANDARD_ERROR_OF_MEAN|4.109|||TWO_SIDED|95.0|-4.94|11.85|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 6||11.85|-4.94|
82517924|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|4.235|||TWO_SIDED|95.0|-8.15|9.12|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 6||9.12|-8.15|
82517925|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|4.28|||TWO_SIDED|95.0|-7.97|9.5|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 6||9.50|-7.97|
82517926|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.04|STANDARD_ERROR_OF_MEAN|4.205|||TWO_SIDED|95.0|-5.53|11.61|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 1 mg/kg, Visit 7||11.61|-5.53|
82517927|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.58|STANDARD_ERROR_OF_MEAN|4.376|||TWO_SIDED|95.0|-11.5|6.32|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 5 mg/kg, Visit 7||6.32|-11.5|
82383217|NCT04498182|164477111|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.92||0.8013|TWO_SIDED|95.0|-6.5|5.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.0|-6.5|0.8013
82383218|NCT04498182|164477112|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0302|TWO_SIDED|95.0|-12.1|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-12.1|0.0302
82383219|NCT04498182|164477112|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.92||0.8013|TWO_SIDED|95.0|-6.5|5.0|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.0|-6.5|0.8013
82383220|NCT04498182|164477113|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.52||0.8166|TWO_SIDED|95.0|-4.4|5.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.5|-4.4|0.8166
82571350|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7936|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7936
82571351|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5092|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5092
82571352|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4233|TWO_SIDED||||||ANOVA|||Baseline; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4233
82571353|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2033|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2033
82636524|NCT03852901|164987407|OTHER|||||||0.5849||||||Type III of fixed effects. Num df: 2; Den df = 33; F = 0.5451; Sig. = 0.5849 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age, fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.5849
82636525|NCT03852901|164987408|OTHER|||||||0.0142||||||Type III of fixed effects. Num df = 2; Den df = 35; F = 4.8191; Sig. = 0.0142 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effect: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age, fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.0142
82636526|NCT03852901|164987409|OTHER|||||||0.024||||||Type III of fixed effects. Num df: 2; Den df = 34; F = 4.1501; Sig. = 0.0244 (threshold for statistical significance p \< 0.05)|Mixed Models Analysis|Random effects: ID; Repeated measures: Visit; Fixed effects: Visit, Sex, Age and fCSF||No a-priori power calculation was performed due to the exploratory nature of the study.||||0.024
82636527|NCT00911508|164987410|SUPERIORITY||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.65|1.15||||||||1.15|0.65|
82636528|NCT00911508|164987411|SUPERIORITY||Cox Proportional Hazard|0.85|||||TWO_SIDED|95.0|0.6|1.21||||||||1.21|0.60|
82636529|NCT00911508|164987412|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.74|0.93||||||||0.93|0.74|
82636530|NCT00911508|164987413|SUPERIORITY||Cox Proportional Hazard|0.88|||||TWO_SIDED|95.0|0.72|1.09||||||||1.09|0.72|
82636531|NCT00911508|164987414|SUPERIORITY||Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.53|1.68||||||||1.68|0.53|
82636532|NCT00911508|164987415|SUPERIORITY||Cox Proportional Hazard|0.87|||||TWO_SIDED|95.0|0.51|1.51||||||||1.51|0.51|
82636533|NCT00911508|164987416|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.33|1.72||||||||1.72|0.33|
82636534|NCT00911508|164987417|SUPERIORITY||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.41|3.09||||||||3.09|0.41|
82636535|NCT00911508|164987418|SUPERIORITY||Cox Proportional Hazard|0.52|||||TWO_SIDED|95.0|0.45|0.6||||||||0.60|0.45|
82636536|NCT00911508|164987419|SUPERIORITY||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.77|0.97||||||||0.97|0.77|
82636537|NCT00911508|164987420|SUPERIORITY||Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|3.7|6.9|||Mixed Models Analysis|||12 Month||6.9|3.7|<0.001
82636538|NCT00911508|164987420|SUPERIORITY||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED|95.0|2.1|4.8|||Mixed Models Analysis|||5 Years||4.8|2.1|<0.001
82636539|NCT00911508|164987421|SUPERIORITY||Mean Difference (Net)|-1.7||||0.001|TWO_SIDED|95.0|-2.3|-1.2|||Mixed Models Analysis|||12 Month||-1.2|-2.3|0.001
82571354|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2142|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2142
82636540|NCT00911508|164987421|SUPERIORITY||Mean Difference (Net)|-1.4||||0.001|TWO_SIDED|95.0|-1.9|-0.9|||Mixed Models Analysis|||5 Year||-0.9|-1.9|0.001
82636541|NCT00911508|164987422|SUPERIORITY||Mean Difference (Net)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.0|-1.1|||Mixed Models Analysis|||12 Month||-1.1|-2.0|<0.001
82636542|NCT00911508|164987422|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||5 Year||-0.4|-1.7|<0.001
82636543|NCT01409382|164987435|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|1.5|7.6|||Chi-squared|||Take home babies||7.6|1.5|<0.05
82636544|NCT04308668|164987437|SUPERIORITY||Mean Difference (Net)|-2.4||||0.35|TWO_SIDED|95.0|-7.0|2.2|||Fisher Exact||Values represent percentages. Experimental treatment arm compared with the placebo control arm.|||2.2|-7.0|0.35
82636545|NCT04308668|164987438|SUPERIORITY||Mean Difference (Net)|-0.27||||0.117|TWO_SIDED|95.0|-0.61|0.27|||Mixed Models Analysis|||||0.27|-0.61|0.117
82636546|NCT01266967|164987446|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||<|0.0001|TWO_SIDED|95.0|29.3|52.6|||Exact Test||The estimated value represents the percentage of participants with OIR.|||52.6|29.3|<0.0001
82571355|NCT00551135|164852360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1218|TWO_SIDED||||||ANOVA|||Change at EOT; LS Means from ANOVA model with terms of treatment, pooled center, baseline item score and basline PCS (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1218
82636547|NCT01266967|164987446|SUPERIORITY_OR_OTHER||percentage of participants|37.0|||<|0.0001|TWO_SIDED|95.0|25.3|49.8|||Exact Test||The estimated value represents the percentage of participants with OIR.|||49.8|25.3|<0.0001
82636548|NCT01020812|164987559|SUPERIORITY_OR_OTHER||proportion of participants|0.286|||||TWO_SIDED|95.0|0.031|0.636|||||The data was analyzed in a competing risk model with death as a competing risk. The proportion of 0.286 is the cumulative incidence function at 12 months.|The data was analyzed in a competitive risk model with the cumulative incidence function as the estimator. Death and other progression were competitive risks.||0.636|0.031|
82383221|NCT04498182|164477113|SUPERIORITY||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.52||0.3371|TWO_SIDED|95.0|-2.5|7.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.4|-2.5|0.3371
82517928|NCT00833989|164729175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.73|STANDARD_ERROR_OF_MEAN|4.396|||TWO_SIDED|95.0|-5.22|12.69|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo.~Affected Change from Baseline = Treatment + Visit + Treatment \* Visit + Affected Baseline + Unaffected Baseline"|Placebo Vs GSK249320 15 mg/kg, Visit 7||12.69|-5.22|
82383222|NCT04498182|164477114|SUPERIORITY|||||||0.3365|||||||Wilcoxon (Mann-Whitney)|||||||0.3365
82383223|NCT04498182|164477114|SUPERIORITY|||||||0.7323|||||||Wilcoxon (Mann-Whitney)|||||||0.7323
82636549|NCT01020812|164987560|SUPERIORITY_OR_OTHER||probability|0.4|||||TWO_SIDED||||||||This is the overall survival probability at 18 months.|The data was analyzed using the Kaplan Meier estimator.||||
82383224|NCT04498182|164477115|SUPERIORITY|||||||0.1557|||||||Wilcoxon (Mann-Whitney)|||||||0.1557
82383225|NCT04498182|164477115|SUPERIORITY|||||||0.6845|||||||Wilcoxon (Mann-Whitney)|||||||0.6845
82383226|NCT04498182|164477116|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.52||0.8166|TWO_SIDED|95.0|-4.4|5.5|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||5.5|-4.4|0.8166
82383227|NCT04498182|164477116|SUPERIORITY|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.52||0.3371|TWO_SIDED|95.0|-2.5|7.4|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.4|-2.5|0.3371
82383228|NCT04498182|164477117|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.81||0.5215|TWO_SIDED|95.0|-3.7|7.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.3|-3.7|0.5215
82383229|NCT04498182|164477117|SUPERIORITY||LS Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|2.81||0.1312|TWO_SIDED|95.0|-1.3|9.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||9.8|-1.3|0.1312
82383230|NCT04498182|164477118|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.81||0.5215|TWO_SIDED|95.0|-3.7|7.3|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||7.3|-3.7|0.5215
82517929|NCT00833989|164729176|SUPERIORITY_OR_OTHER|||||||0.926|||||||Fisher Exact|||Visit 4||||0.9260
82383231|NCT04498182|164477118|SUPERIORITY||LS Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|2.81||0.1312|TWO_SIDED|95.0|-1.3|9.8|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||9.8|-1.3|0.1312
82383232|NCT04498182|164477119|SUPERIORITY||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.99||0.0254|TWO_SIDED|95.0|-8.4|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-8.4|0.0254
82383233|NCT04498182|164477119|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.99||0.1362|TWO_SIDED|95.0|-6.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-6.9|0.1362
82383234|NCT04498182|164477120|SUPERIORITY||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.99||0.0254|TWO_SIDED|95.0|-8.4|-0.6|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||-0.6|-8.4|0.0254
82383235|NCT04498182|164477120|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.99||0.1362|TWO_SIDED|95.0|-6.9|0.9|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.9|-6.9|0.1362
82636550|NCT01519700|164987563|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limit: -1 day Power: 90% Confidence level: 97.5% Randomization ratio: 1:1 (EP2006:Neupogen)|Mean Difference (Net)|0.04|||||ONE_SIDED|97.5|-0.26||||||The one-sided 97.5% Confidence Interval: \[-0.26, ∞).||||-0.26|
82383236|NCT04498182|164477121|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.06||0.0573|TWO_SIDED|95.0|-8.0|0.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.1|-8.0|0.0573
82517930|NCT00833989|164729176|SUPERIORITY_OR_OTHER|||||||0.5647|||||||Fisher Exact|||Visit 6||||0.5647
82517931|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.34|STANDARD_ERROR_OF_MEAN|0.896|||TWO_SIDED|95.0|-3.17|0.49|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 3||0.49|-3.17|
82383237|NCT04498182|164477121|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.06||0.993|TWO_SIDED|95.0|-4.0|4.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.1|-4.0|0.9930
82383238|NCT04498182|164477122|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.06||0.0573|TWO_SIDED|95.0|-8.0|0.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||0.1|-8.0|0.0573
82383239|NCT04498182|164477122|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.06||0.993|TWO_SIDED|95.0|-4.0|4.1|||ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||||4.1|-4.0|0.9930
82383240|NCT04498182|164477123|SUPERIORITY||Odds Ratio (OR)|1.48||||0.3068|TWO_SIDED|95.0|0.7|3.15|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.15|0.70|0.3068
82383241|NCT04498182|164477123|SUPERIORITY||Odds Ratio (OR)|1.22||||0.6167|TWO_SIDED|95.0|0.56|2.68|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||2.68|0.56|0.6167
82383242|NCT04498182|164477124|SUPERIORITY||Odds Ratio (OR)|0.64||||0.2867|TWO_SIDED|95.0|0.28|1.46|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.46|0.28|0.2867
82517932|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.861|||TWO_SIDED|95.0|-1.95|1.57|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 3||1.57|-1.95|
82517933|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|0.933|||TWO_SIDED|95.0|-4.83|-1.02|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 3||-1.02|-4.83|
82636551|NCT01091116|164987579|SUPERIORITY_OR_OTHER|||||||0.5263||95.0|||||ANCOVA|||Tests of Fixed Effects for the primary efficacy variable including baseline treatment and visit (from Visit 3 to Visit 5) as covariates||||0.5263
82636552|NCT02155660|164987600|SUPERIORITY||Rate ratio|0.85||||0.0638|TWO_SIDED|95.0|0.71|1.01|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.01|0.71|0.0638
82636553|NCT02155660|164987600|SUPERIORITY||Rate ratio|1.04||||0.6575|TWO_SIDED|95.0|0.88|1.23|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.23|0.88|0.6575
82383243|NCT04498182|164477124|SUPERIORITY||Odds Ratio (OR)|0.7||||0.3803|TWO_SIDED|95.0|0.32|1.57|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.57|0.32|0.3803
82383244|NCT04498182|164477125|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4375|TWO_SIDED|95.0|0.58|3.58|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.58|0.58|0.4375
82383245|NCT04498182|164477125|SUPERIORITY||Odds Ratio (OR)|1.3||||0.584|TWO_SIDED|95.0|0.51|3.27|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||3.27|0.51|0.5840
82383246|NCT04498182|164477126|SUPERIORITY||Odds Ratio (OR)|0.73||||0.5046|TWO_SIDED|95.0|0.29|1.84|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||1.84|0.29|0.5046
82383247|NCT04498182|164477126|SUPERIORITY||Odds Ratio (OR)|1.27||||0.5751|TWO_SIDED|95.0|0.56|2.88|||Cochran-Mantel-Haenszel|Adjusted by analysis center||||2.88|0.56|0.5751
82636554|NCT02155660|164987600|SUPERIORITY||Rate ratio|0.93||||0.3988|TWO_SIDED|95.0|0.78|1.1|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.10|0.78|0.3988
82383248|NCT02104219|164477127|SUPERIORITY_OR_OTHER|||||||0.0755|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median RGI-C score differs from 0 for each time interval. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Pairs of radiographs were centrally evaluated by 3 independent, blinded pediatric radiologists trained in the assessment of the skeletal manifestations of HPP. The mean RGI-C score across the 3 radiologists was calculated and served as the patient's RGI-C score for a specific time point||||0.0755
82517934|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.868|||TWO_SIDED|95.0|-2.47|1.08|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 4||1.08|-2.47|
82517935|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.834|||TWO_SIDED|95.0|-1.98|1.44|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 4||1.44|-1.98|
82636555|NCT02155660|164987601|SUPERIORITY||Rate ratio|1.04||||0.7564|TWO_SIDED|95.0|0.82|1.32|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.32|0.82|0.7564
82636556|NCT02155660|164987601|SUPERIORITY||Rate ratio|1.08||||0.5573|TWO_SIDED|95.0|0.84|1.37|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.37|0.84|0.5573
82517936|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|0.904|||TWO_SIDED|95.0|-2.77|0.92|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 4||0.92|-2.77|
82517937|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.278|||TWO_SIDED|95.0|-3.64|1.57|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 1 mg/kg, Visit 6||1.57|-3.64|
82517938|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|1.278|||TWO_SIDED|95.0|-2.97|2.24|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 5 mg/kg, Visit 6||2.24|-2.97|
82517939|NCT00833989|164729177|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|-0.66|1.408|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Change from Baseline = Treatment + Visit + Treatment \* Visit + Baseline|Placebo Vs GSK249320 15 mg/kg, Visit 6||1.408|-0.66|
82636557|NCT02155660|164987601|SUPERIORITY||Rate ratio|1.02||||0.8644|TWO_SIDED|95.0|0.8|1.3|||Negative binomial|Model includes treatment group, region, background therapy, number of exacerbations in the previous year.||||1.30|0.80|0.8644
82636558|NCT02155660|164987602|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.5043|TWO_SIDED|95.0|-0.029|0.059|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.059|-0.029|0.5043
82636559|NCT02155660|164987602|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.7691|TWO_SIDED|95.0|-0.051|0.037|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.037|-0.051|0.7691
82383249|NCT02104219|164477128|SUPERIORITY_OR_OTHER|||||||0.6344|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median change in height Z-score from baseline to last assessment differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The earliest documented height measurement that was abstracted within the period from 5 to 15 years of age, inclusive, was defined as the baseline height. Height measurements were assigned to Z-scores calculated using Centers for Disease Control and Prevention 2000 growth charts and methodology. Changes in height Z-score from Baseline were computed by subtracting baseline height Z-score from post baseline height Z-scores. The post baseline time points were grouped by time intervals.||||0.6344
82517940|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.46|STANDARD_ERROR_OF_MEAN|12.584|||TWO_SIDED|95.0|-6.11|45.04|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 1 mg/kg, Visit 4||45.04|-6.11|
82517941|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.99|STANDARD_ERROR_OF_MEAN|12.131|||TWO_SIDED|95.0|-3.66|45.64|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 5 mg/kg, Visit 4||45.64|-3.66|
82517942|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.79|STANDARD_ERROR_OF_MEAN|13.143|||TWO_SIDED|95.0|-14.9|38.5|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 15 mg/kg, Visit 4||38.50|-14.9|
82383250|NCT02104219|164477129|SUPERIORITY_OR_OTHER|||||||0.452|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether the median change in weight Z-score from baseline to last assessment differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The earliest documented weight measurement that was abstracted within the period from 5 to 15 years of age, inclusive, was defined as the baseline weight. Weight measurements were assigned to Z-scores calculated using Centers for Disease Control and Prevention 2000 growth charts and methodology. Changes in weight Z-score from Baseline were computed by subtracting baseline weight Z-score from post baseline weight Z-scores. The post baseline time points were grouped by time intervals.||||0.4520
82383251|NCT02104219|164477130|SUPERIORITY_OR_OTHER|||||||0.4545|TWO_SIDED|||||The p-value is based on a nonparametric sign test used to determine whether change from baseline in the median RSS score differs from 0 for each time interval. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||The Baseline x-ray set defined for RGI-C, which was compared with its subsequent x-ray sets, was also used as the Baseline x-ray set for the RSS reading. Changes from Baseline were computed based on this baseline RSS score, and postbaseline time points were grouped by intervals of time from Baseline.||||0.4545
82383252|NCT02667704|164477131|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|98.85|STANDARD_DEVIATION|11.4|||TWO_SIDED|90.0|91.32|107.01|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||107.010|91.320|
82383253|NCT02667704|164477132|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|103.36|STANDARD_DEVIATION|26.5|||TWO_SIDED|90.0|86.134|124.025|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||124.025|86.134|
82383254|NCT02667704|164477133|SUPERIORITY_OR_OTHER||Ratio of geometric means in percentage|101.98|STANDARD_DEVIATION|10.3|||TWO_SIDED|90.0|94.909|109.57|||ANOVA||Relative bioavailability was estimated by the ratio (T/R) of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient of variation.|Analysis of variance (ANOVA) model on the log scale including treatment as fixed effect and subject as a random effect||109.570|94.909|
82383255|NCT00997373|164477134|SUPERIORITY_OR_OTHER|||||||0.0373|TWO_SIDED||||||Fisher Exact|||||||0.0373
82383256|NCT03809663|164477135|SUPERIORITY||Odds Ratio (OR)|1.686||||0.56|TWO_SIDED|95.0|0.29|9.809||Nominal p-value|Regression, Logistic|||||9.809|0.290|0.56
82636560|NCT02155660|164987602|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.3767|TWO_SIDED|95.0|-0.024|0.064|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.064|-0.024|0.3767
82517943|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.71|STANDARD_ERROR_OF_MEAN|9.021|||TWO_SIDED|95.0|-2.63|34.06|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 1 mg/kg, Visit 6||34.06|-2.63|
82636561|NCT02155660|164987603|SUPERIORITY||Mean Difference (Final Values)|-1.011||||0.3636|TWO_SIDED|95.0|-3.192|1.171|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||1.171|-3.192|0.3636
82383257|NCT03809663|164477135|SUPERIORITY||Odds Ratio (OR)|1.011||||0.99|TWO_SIDED|95.0|0.135|7.551||Nominal p-value|Regression, Logistic|||||7.551|0.135|0.99
82383258|NCT03809663|164477135|SUPERIORITY||Odds Ratio (OR)|2.146||||0.38|TWO_SIDED|95.0|0.39|11.8||Nominal p-value|Regression, Logistic|||||11.800|0.390|0.38
82383259|NCT03809663|164477136|SUPERIORITY||Odds Ratio (OR)|0.982||||0.97|TWO_SIDED|95.0|0.344|2.803||Nominal p-value|Regression, Logistic|||||2.803|0.344|0.97
82517944|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.56|STANDARD_ERROR_OF_MEAN|8.835|||TWO_SIDED|95.0|-6.38|29.5|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 5 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 5 mg/kg, Visit 6||29.50|-6.38|
82517945|NCT00833989|164729178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.49|STANDARD_ERROR_OF_MEAN|9.641|||TWO_SIDED|95.0|-27.1|12.08|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 15 mg/kg - Placebo Barthel Total Score= Treatment + Visit + Treatment \*Visit|Placebo Vs GSK249320 15 mg/kg, Visit 6||12.08|-27.1|
82517946|NCT00833989|164729179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|1.849|||TWO_SIDED|95.0|-4.12|3.43|||ANCOVA||Mean difference= GSK249320 1 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 1 mg/kg, Visit 6||3.43|-4.12|
82517947|NCT00833989|164729179|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-3.96|3.62|||ANCOVA||Mean difference= GSK249320 5 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 5 mg/kg, Visit 6||3.62|-3.96|
82517948|NCT00833989|164729179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15|STANDARD_ERROR_OF_MEAN|2.037|||TWO_SIDED|95.0|-5.31|3.01|||ANCOVA||Mean difference= GSK249320 15 mg/kg - Placebo Day 90 MoCA = Treatment + Day 5 MoCA|Placebo Vs GSK249320 15 mg/kg, Visit 6||3.01|-5.31|
82517949|NCT00833989|164729180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|1.408|||TWO_SIDED|95.0|-3.12|2.63|||ANCOVA||"Mean difference= GSK249320 1 mg/kg - Placebo.~Day 90 GDS Score= Treatment + Day 5 GDS Score"|Placebo Vs GSK249320 1 mg/kg, Visit 6||2.63|-3.12|
82383260|NCT03809663|164477136|SUPERIORITY||Odds Ratio (OR)|1.217||||0.7|TWO_SIDED|95.0|0.441|3.356||Nominal p-value|Regression, Logistic|||||3.356|0.441|0.70
82383261|NCT03809663|164477136|SUPERIORITY||Odds Ratio (OR)|0.73||||0.58|TWO_SIDED|95.0|0.243|2.197||Nominal p-value|Regression, Logistic|||||2.197|0.243|0.58
82383262|NCT02275819|164477169|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||.14
82383263|NCT02275819|164477170|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||||||.22
82517950|NCT00833989|164729180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.55|STANDARD_ERROR_OF_MEAN|1.347|||TWO_SIDED|95.0|-1.2|4.3|||ANCOVA||"Mean difference= GSK249320 5 mg/kg - Placebo~Day 90 GDS Score= Treatment + Day 5 GDS Score"|Placebo Vs GSK249320 5 mg/kg, Visit 6||4.30|-1.20|
82517951|NCT00833989|164729180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|1.486|||TWO_SIDED|95.0|-3.09|2.98|||ANCOVA||"Mean difference= GSK249320 15 mg/kg - Placebo.~Day 90 GDS Score= Treatment+Day 5 GDS Score"|Placebo Vs GSK249320 15 mg/kg, Visit 6||2.98|-3.09|
82383264|NCT02275819|164477171|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
82383265|NCT02275819|164477172|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||.08
82383266|NCT02275819|164477173|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82517952|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.289|STANDARD_ERROR_OF_MEAN|0.2639|||TWO_SIDED|95.0|-0.841|0.264|||Mixed Model Repeated Measures Analysis||Mean difference= GSK249320 1 mg/kg - Placebo Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline|Stimulation Level 100%, Visit 4 Day 30||0.264|-0.841|
82517953|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.2637|||TWO_SIDED|95.0|-0.862|0.241|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 4 Day 30||0.241|-0.862|
82517954|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.303|STANDARD_ERROR_OF_MEAN|0.3172|||TWO_SIDED|95.0|-0.966|0.361|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 4 Day 30||0.361|-0.966|
82517955|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1841|||TWO_SIDED|95.0|-0.184|0.593|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.593|-0.184|
82517956|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.105|STANDARD_ERROR_OF_MEAN|0.1846|||TWO_SIDED|95.0|-0.284|0.494|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.494|-0.284|
82517957|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.416|STANDARD_ERROR_OF_MEAN|0.2602|||TWO_SIDED|95.0|-0.132|0.965|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 100%, Visit 7 Day 112||0.965|-0.132|
82517958|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.156|STANDARD_ERROR_OF_MEAN|0.8652|||TWO_SIDED|95.0|-0.65|2.961|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||2.961|-0.650|
82517959|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.518|STANDARD_ERROR_OF_MEAN|0.8324|||TWO_SIDED|95.0|-2.249|1.213|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||1.213|-2.249|
82517960|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.269|STANDARD_ERROR_OF_MEAN|1.0383|||TWO_SIDED|95.0|-2.436|1.898|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 4 Day 30||1.898|-2.436|
82517961|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.806|STANDARD_ERROR_OF_MEAN|0.5862|||TWO_SIDED|95.0|-0.42|2.031|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 7 Day 112||2.031|-0.420|
82517962|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.007|STANDARD_ERROR_OF_MEAN|0.564|||TWO_SIDED|95.0|-1.183|1.168|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit"|Stimulation Level 110%, Visit 7 Day 112||1.168|-1.183|
82517963|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.506|STANDARD_ERROR_OF_MEAN|0.757|||TWO_SIDED|95.0|-0.064|3.077|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 110%, Visit 7 Day 112||3.077|-0.064|
82517964|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.644|STANDARD_ERROR_OF_MEAN|1.2976|||TWO_SIDED|95.0|-1.056|4.344|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||4.344|-1.056|
82517965|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231|STANDARD_ERROR_OF_MEAN|1.1762|||TWO_SIDED|95.0|-2.681|2.219|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||2.219|-2.681|
82517966|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.184|STANDARD_ERROR_OF_MEAN|1.4796|||TWO_SIDED|95.0|-3.279|2.91|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 4 Day 30||2.910|-3.279|
82517967|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.622|STANDARD_ERROR_OF_MEAN|0.9746|||TWO_SIDED|95.0|-1.428|2.672|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||2.672|-1.428|
82636562|NCT02155660|164987603|SUPERIORITY||Mean Difference (Final Values)|-1.388||||0.2106|TWO_SIDED|95.0|-3.562|0.786|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.786|-3.562|0.2106
82517968|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.602|STANDARD_ERROR_OF_MEAN|0.934|||TWO_SIDED|95.0|-2.56|1.356|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||1.356|-2.560|
82517969|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.063|STANDARD_ERROR_OF_MEAN|1.281|||TWO_SIDED|95.0|-0.61|4.736|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 120%, Visit 7 Day 112||4.736|-0.610|
82517970|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.556|STANDARD_ERROR_OF_MEAN|1.4588|||TWO_SIDED|95.0|-1.494|4.607|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||4.607|-1.494|
82517971|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.531|STANDARD_ERROR_OF_MEAN|1.2336|||TWO_SIDED|95.0|-3.102|2.041|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||2.041|-3.102|
82517972|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.185|STANDARD_ERROR_OF_MEAN|1.5697|||TWO_SIDED|95.0|-3.471|3.101|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 4 Day 30||3.101|-3.471|
82517973|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.686|STANDARD_ERROR_OF_MEAN|1.2689|||TWO_SIDED|95.0|-1.996|3.367|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||3.367|-1.996|
82636563|NCT02155660|164987603|SUPERIORITY||Mean Difference (Final Values)|-0.602||||0.5851|TWO_SIDED|95.0|-2.763|1.56|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||1.560|-2.763|0.5851
82636564|NCT02155660|164987604|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.8525|TWO_SIDED|95.0|-0.82|0.99|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.99|-0.82|0.8525
82636565|NCT02155660|164987604|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.987|TWO_SIDED|95.0|-0.91|0.89|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.89|-0.91|0.9870
82636566|NCT02155660|164987604|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.8204|TWO_SIDED|95.0|-1.0|0.79|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.79|-1.00|0.8204
82636567|NCT02155660|164987605|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2636|TWO_SIDED|95.0|-1.102|0.301|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.301|-1.102|0.2636
82636568|NCT02155660|164987605|SUPERIORITY||Mean Difference (Final Values)|-0.296||||0.4087|TWO_SIDED|95.0|-0.998|0.406|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.406|-0.998|0.4087
82636569|NCT02155660|164987605|SUPERIORITY||Mean Difference (Final Values)|-0.425||||0.2336|TWO_SIDED|95.0|-1.125|0.275|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.275|-1.125|0.2336
82636570|NCT02155660|164987606|SUPERIORITY||Mean Difference (Final Values)|-0.642||||0.0012|TWO_SIDED|95.0|-1.029|-0.254|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.254|-1.029|0.0012
82636571|NCT02155660|164987606|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0852|TWO_SIDED|95.0|-0.727|0.047|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.047|-0.727|0.0852
82636572|NCT02155660|164987606|SUPERIORITY||Mean Difference (Final Values)|-0.364||||0.065|TWO_SIDED|95.0|-0.75|0.023|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.023|-0.750|0.0650
82636573|NCT02155660|164987607|SUPERIORITY||Mean Difference (Final Values)|-0.041||||0.0415|TWO_SIDED|95.0|-0.081|-0.002|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.002|-0.081|0.0415
82636574|NCT02155660|164987607|SUPERIORITY||Mean Difference (Final Values)|-0.055||||0.0069|TWO_SIDED|95.0|-0.094|-0.015|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.015|-0.094|0.0069
82636575|NCT02155660|164987607|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.2008|TWO_SIDED|95.0|-0.065|0.014|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.014|-0.065|0.2008
82636576|NCT02155660|164987611|SUPERIORITY||Rate ratio|0.98||||0.8158|TWO_SIDED|95.0|0.81|1.18|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.18|0.81|0.8158
82636577|NCT02155660|164987611|SUPERIORITY||Rate ratio|0.98||||0.8378|TWO_SIDED|95.0|0.82|1.18|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.18|0.82|0.8378
82636578|NCT02155660|164987611|SUPERIORITY||Rate ratio|0.92||||0.3759|TWO_SIDED|95.0|0.76|1.11|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.11|0.76|0.3759
82636579|NCT02155660|164987612|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9141|TWO_SIDED|95.0|0.76|1.36|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.36|0.76|0.9141
82383267|NCT02792062|164477188|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|113.06||||0.659|TWO_SIDED|90.0|70.37|181.67|||Mixed Models Analysis|||Mixed effect model with natural log-transformed Cmax of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||181.67|70.37|0.659
82383268|NCT02792062|164477188|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|45.43||||0.012|TWO_SIDED|90.0|27.86|74.07|||Mixed Models Analysis|||Mixed effect model with natural log-transformed Cmax of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||74.07|27.86|0.012
82636580|NCT02155660|164987612|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0323|TWO_SIDED|95.0|1.03|1.87|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.87|1.03|0.0323
82517974|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.556|STANDARD_ERROR_OF_MEAN|1.0822|||TWO_SIDED|95.0|-2.838|1.726|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||1.726|-2.838|
82636581|NCT02155660|164987612|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5109|TWO_SIDED|95.0|0.82|1.48|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.48|0.82|0.5109
82517975|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.219|STANDARD_ERROR_OF_MEAN|1.4792|||TWO_SIDED|95.0|-0.884|5.322|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 130%, Visit 7 Day 112||5.322|-0.884|
82517976|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.631|STANDARD_ERROR_OF_MEAN|1.589|||TWO_SIDED|95.0|-1.696|4.958|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||4.958|-1.696|
82517977|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.508|STANDARD_ERROR_OF_MEAN|1.2985|||TWO_SIDED|95.0|-3.219|2.203|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||2.203|-3.219|
82517978|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|1.6603|||TWO_SIDED|95.0|-3.369|3.588|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 4 Day 30||3.588|-3.369|
82517979|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.852|STANDARD_ERROR_OF_MEAN|1.5675|||TWO_SIDED|95.0|-2.446|4.15|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 1 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||4.150|-2.446|
82517980|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.357|STANDARD_ERROR_OF_MEAN|1.2918|||TWO_SIDED|95.0|-3.074|2.359|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 5 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||2.359|-3.074|
82517981|NCT00833989|164729181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.686|STANDARD_ERROR_OF_MEAN|1.7306|||TWO_SIDED|95.0|-1.937|5.308|||Mixed Model Repeated Measures Analysis||"Mean difference= GSK249320 15 mg/kg - Placebo~Change from Baseline= Treatment + Visit + Treatment\* Visit + Baseline"|Stimulation Level 140%, Visit 7 Day 112||5.308|-1.937|
82636582|NCT02155660|164987614|SUPERIORITY||Rate ratio|0.68||||0.0287|TWO_SIDED|95.0|0.49|0.96|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.96|0.49|0.0287
82517982|NCT00690755|164729191|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||.001
82517983|NCT02830594|164729297|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.6|||||||Paired t Test|||||||0.60
82517984|NCT02830594|164729298|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.87|||||||Paired t Test|||||||0.87
82383269|NCT02792062|164477189|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.28||||0.238|TWO_SIDED|90.0|66.09|107.47|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC∞ of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||107.47|66.09|0.238
82383270|NCT02792062|164477189|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|53.2|||<|0.001|TWO_SIDED|90.0|41.39|68.37|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC∞ of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||68.37|41.39|<0.001
82517985|NCT02830594|164729299|EQUIVALENCE|Specifically, a sample-size of 14 patients will have 80% power to detect an effect size of 0.71 using a paired t-test with a 0.05 one-sided significance level. The effect size is the mean difference divided by the standard deviation of the difference.||||||0.64|||||||Paired t Test|||||||0.64
82636583|NCT02155660|164987614|SUPERIORITY||Rate ratio|0.89||||0.4631|TWO_SIDED|95.0|0.65|1.22|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||1.22|0.65|0.4631
82517986|NCT01934218|164729304|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-2.7|2.7|||Basic longitudinal model|||||2.7|-2.7|0.988
82517987|NCT01934218|164729305|OTHER|Euflexxa would be considered superior to Gel-One if the difference in mean change from baseline in VAS pain score at week 26 was 5 mm or greater (on the 100mm VAS pain scale). If the difference in mean change values were within 5 mm, Gel-One would not be considered inferior to Euflexxa.||||||||||||||||A post-hoc non-inferiority comparison of the Gel-One mean change from baseline in VAS pain score at week 26 (Following 50-foot walk test) against the same assessment collected from subjects treated with Euflexxa in a separate study (PMID:19539353) was also performed.|Change from baseline (95% CI) for Euflexxa was -25.7 (-29.0, -22.4) and the difference between Euflexxa and Gel-One (95% CI) was -3.8 (-inf, -0.3).|||
82517988|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-1.42|1.12|||||Direct effect of Zanamivir prophylaxis on influenza risk|||1.12|-1.42|
82383271|NCT02792062|164477190|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.68||||0.256|TWO_SIDED|90.0|66.23|108.27|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC(0-120) of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||108.27|66.23|0.256
82383272|NCT02792062|164477190|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|52.56|||<|0.001|TWO_SIDED|90.0|40.78|67.74|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUC(0-120) of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||67.74|40.78|<0.001
82383273|NCT02792062|164477191|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|84.68||||0.256|TWO_SIDED|90.0|66.23|108.27|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUClast of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value before breakfast - value in fasted condition without breakfast).||108.27|66.23|0.256
82383274|NCT02792062|164477191|SUPERIORITY_OR_OTHER||Least Square Mean Ratio (%)|52.56|||<|0.001|TWO_SIDED|90.0|40.78|67.74|||Mixed Models Analysis|||Mixed effect model with natural log-transformed AUClast of unchanged TAK-385 as dependent variables, arm, treatment period and dosing condition as fixed effects, and participants as a random effect was used to calculate the difference between the dosing conditions (value after breakfast - value in fasted condition without breakfast).||67.74|40.78|<0.001
82383275|NCT04390763|164477252|OTHER||Hazard Ratio (HR)|0.7|||||ONE_SIDED|90.0||1.04|||Bayesian two-piece hazard model||Estimated posterior median of the HR after the risk changing timepoint and one-sided 90% credible interval are reported.|||1.04||
82383276|NCT04390763|164477252|OTHER||Hazard Ratio (HR)|1.41|||||ONE_SIDED|90.0||1.96|||Bayesian two-piece hazard model||Estimated posterior median of the HR after the risk changing timepoint and one-sided 90% credible interval are reported.|||1.96||
82517989|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-0.93|0.17|||||Total effect of zanamivir prophylaxis|||0.17|-0.93|
82517990|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-0.75|0.47|||||Direct effect of zanamivir prophylaxis when index is treated|||0.47|-0.75|
82517991|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.23|||||TWO_SIDED|95.0|-1.15|1.62|||||Risk in cohort 1 minus risk in cohort 2|||1.62|-1.15|
82517992|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-0.51|0.03|||||Protective effect of zanamivir on susceptible risk|||0.03|-0.51|
82517993|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Direct effect of Zanamivir prophylaxis on influenza risk|||1.01|0.99|
82383277|NCT04390763|164477253|OTHER||Hazard Ratio (HR)|1.02||||0.46|ONE_SIDED|90.0||1.37|||Regression, Cox|||||1.37||0.46
82517994|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
82517995|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.99|
82517996|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.02|||||Risk in cohort 1 minus risk in cohort 2|||1.02|0.99|
82517997|NCT01156701|164729318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|0.99|
82517998|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-1.17|0.36|||||Direct effect of Zanamivir prophylaxis on asthma risk|||0.36|-1.17|
82517999|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-0.8|0.03|||||Total effect of zanamivir prophylaxis|||0.03|-0.80|
82518000|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.28|||||TWO_SIDED|95.0|-0.75|0.18|||||Direct effect of zanamivir prophylaxis when index is treated|||0.18|-0.75|
82383278|NCT04390763|164477253|OTHER||Hazard Ratio (HR)|1.08||||0.38|ONE_SIDED|90.0||1.44|||Regression, Cox|||||1.44||0.38
82383279|NCT01153815|164477295|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Exact Smirnov test|||||||<0.001
82518001|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|95.0|-0.89|0.85|||||Risk in cohort 1 minus risk in cohort 2|||0.85|-0.89|
82518002|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.31|0.11|||||Protective effect of zanamivir on susceptible risk|||0.11|-0.31|
82518003|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of Zanamivir prophylaxis on asthma risk|||1.00|0.99|
82518004|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
82518005|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.99|
82518006|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Risk in cohort 1 minus risk in cohort 2|||1.01|0.99|
82518007|NCT01156701|164729319|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
82518008|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.46|||||TWO_SIDED|95.0|-0.61|1.54|||||Direct effect of Zanamivir prophylaxis on pneumonia risk|||1.54|-0.61|
82518009|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.45|-0.04|||||Total effect of zanamivir prophylaxis|||-0.04|-0.45|
82518010|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.39|0.09|||||Direct effect of zanamivir prophylaxis when index is treated|||0.09|-0.39|
82518011|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.72|||||TWO_SIDED|95.0|-0.38|1.81|||||Risk in cohort 1 minus risk in cohort 2|||1.81|-0.38|
82518012|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.22|0.02|||||Protective effect of zanamivir on susceptible risk|||0.02|-0.22|
82518013|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.02|||||Direct effect of Zanamivir prophylaxis on pneumonia risk|||1.02|0.99|
82518014|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Total effect of zanamivir prophylaxis|||1.00|1.00|
82383280|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.89|||||TWO_SIDED|95.0|0.68|1.16|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.16|0.68|
82383281|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.95|||||TWO_SIDED|95.0|0.73|1.23|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.23|0.73|
82383282|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.06|||||TWO_SIDED|95.0|0.81|1.38|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.38|0.81|
82518015|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|1.00|
82518016|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Risk in cohort 1 minus risk in cohort 2|||1.02|1.00|
82518017|NCT01156701|164729320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
82383283|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.2|||||TWO_SIDED|95.0|0.9|1.6|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.6|0.9|
82383284|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.33|||||TWO_SIDED|95.0|1.0|1.77|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.77|1|
82383285|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.9|||||TWO_SIDED|95.0|0.68|1.2|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.2|0.68|
82383286|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.79|||||TWO_SIDED|95.0|0.63|0.97|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||0.97|0.63|
82383287|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.06|||||TWO_SIDED|95.0|0.86|1.13|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.13|0.86|
82383288|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.35|||||TWO_SIDED|95.0|1.09|1.67|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.67|1.09|
82383289|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.79|||||TWO_SIDED|95.0|0.61|1.02|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.02|0.61|
82518018|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.28|||||TWO_SIDED|95.0|-0.83|3.4|||||Direct effect of Zanamivir prophylaxis on bronchitis risk|||3.40|-0.83|
82518019|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-0.98|0.47|||||Total effect of zanamivir prophylaxis|||0.47|-0.98|
82518020|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.09|||||TWO_SIDED|95.0|-0.85|0.67|||||Direct effect of zanamivir prophylaxis when index is treated|||0.67|-0.85|
82636584|NCT02155660|164987614|SUPERIORITY||Rate ratio|0.67||||0.0185|TWO_SIDED|95.0|0.48|0.94|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.94|0.48|0.0185
82518021|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.53|||||TWO_SIDED|95.0|-0.7|3.76|||||Risk in cohort 1 minus risk in cohort 2|||3.76|-0.70|
82518022|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.16|||||TWO_SIDED|95.0|-0.44|0.12|||||Protective effect of zanamivir on susceptible risk|||0.12|-0.44|
82518023|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||Direct effect of Zanamivir prophylaxis on bronchitis risk|||1.03|0.99|
82383290|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|0.91|||||TWO_SIDED|95.0|0.7|1.18|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.18|0.7|
82571356|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0830
82383291|NCT00450437|164477304|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the hSBA GMT at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|hSBA GMT ratios|1.16|||||TWO_SIDED|95.0|0.89|1.5|||ANOVA|||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y at 1 month after vaccination was contained within the equivalence interval (0.5, 2.0).||1.5|0.89|
82518024|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.99|
82518025|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Direct effect of zanamivir prophylaxis when index is treated|||1.01|0.99|
82518026|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.99|1.04|||||Risk in cohort 1 minus risk in cohort 2|||1.04|0.99|
82518027|NCT01156701|164729321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|1.00|
82571357|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2339|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2339
82636585|NCT02577107|164987636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.314|STANDARD_ERROR_OF_MEAN|4.1613|||TWO_SIDED|95.0|9.618|31.011||||||||31.011|9.618|
82518028|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-3.08|2.79|||||Direct effect of Zanamivir prophylaxis on risk of any respiratory diagnosis|||2.79|-3.08|
82518029|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.07|||||TWO_SIDED|95.0|-2.39|0.25|||||Total effect of zanamivir prophylaxis|||0.25|-2.39|
82571358|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0629|TWO_SIDED||||||ANOVA|||Total score change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0629
82518030|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.08|||||TWO_SIDED|95.0|-2.51|0.35|||||Direct effect of zanamivir prophylaxis when index is treated|||0.35|-2.51|
82518031|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.93|||||TWO_SIDED|95.0|-2.29|4.14|||||Risk in cohort 1 minus risk in cohort 2|||4.14|-2.29|
82518032|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.58|0.59|||||Protective effect of zanamivir on susceptible risk|||0.59|-0.58|
82518033|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.03|||||Direct effect of Zanamivir prophylaxis on risk of any respiratory diagnosis|||1.03|0.97|
82518034|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.0|||||Total effect of zanamivir prophylaxis|||1.00|0.98|
82518035|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.0|||||Direct effect of zanamivir prophylaxis when index is treated|||1.00|0.98|
82518036|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.98|1.04|||||Risk in cohort 1 minus risk in cohort 2|||1.04|0.98|
82518037|NCT01156701|164729322|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.0|||||Protective effect of zanamivir on susceptible risk|||1.00|0.99|
82518038|NCT02232893|164729333|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82518039|NCT02911948|164729334|SUPERIORITY|Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was strictly below 0.0% for null hypothesis (H0): D=0.0% against the alternative (HA): D≠0.0%, where D is the mean difference (IDegLira - IDeg).|Treatment contrast|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.06|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an ANCOVA model with treatment and pre-trial anti-diabetic treatment as fixed factors and corresponding baseline HbA1c value as covariate.||-1.06|-1.50|<0.0001
82518040|NCT03965052|164729409|OTHER|||||||1|||||||Fisher Exact|||||||1.000
82518041|NCT03965052|164729411|OTHER|||||||1|||||||Fisher Exact|||Lissamine green treatment groups||||1.000
82518042|NCT03965052|164729411|OTHER|||||||0.667|||||||Fisher Exact|||Fluorescein treatment groups||||0.667
82518043|NCT03965052|164729412|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82518044|NCT03965052|164729413|OTHER|||||||0.977|||||||Chi-squared, Corrected|||the analysis was per protocol||||0.977
82518045|NCT03965052|164729415|OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||0.019
82518046|NCT01365494|164729471|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be achieved if the lower limit of the two-sided 95% CI of the post vaccination (day 14) ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.667|Ratio of GMCs-Zagreb and Essen at day 14|1.03|||||TWO_SIDED|95.0|0.89|1.19|||ANOVA|||To demonstrate non-inferiority in immune response of the Zagreb postexposure schedule of Rabipur to that of the conventional Essen postexposure schedule at study day 14||1.19|0.89|
82518047|NCT01365494|164729473|SUPERIORITY_OR_OTHER||Ratio of GMCs-Zagreb and Essen at day 7|0.38|||||TWO_SIDED|95.0|0.3|0.48|||ANOVA|||||0.48|0.3|
82518048|NCT01365494|164729473|SUPERIORITY_OR_OTHER||Ratio of GMCs-Zagreb and Essen at day 42|0.96||||||95.0|0.86|1.07|||ANOVA|||||1.07|0.86|
82518049|NCT03351049|164729475|SUPERIORITY|||||||0.8|||||||Chi-squared|||Compare the effectiveness of reactive support surfaces with and without low air loss in preventing pressure injuries||||0.8
82518050|NCT02730819|164729501|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||P-values of 0.05 or lower were considered statistically significant.||||0.006
82518051|NCT02730819|164729502|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||P-values of 0.05 or lower were considered statistically significant.||||0.006
82518052|NCT01410448|164729526|SUPERIORITY_OR_OTHER|||||||0.0921|||||||Regression, Logistic|||||||0.0921
82518053|NCT00360529|164729543|SUPERIORITY_OR_OTHER|||||||0.0454||95.0||||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|Wilcoxon (Mann-Whitney)|||Flibanserin 50 mg qhs versus placebo||||0.0454
82518054|NCT00360529|164729543|SUPERIORITY_OR_OTHER|||||||0.0024||95.0||||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|Wilcoxon (Mann-Whitney)|||Flibanserin 100 mg qhs versus placebo||||0.0024
82518055|NCT00360529|164729544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2606||95.0|-1.0|3.7||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||3.7|-1.0|0.2606
82518056|NCT00360529|164729544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.066||95.0|-0.1|4.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||4.6|-0.1|0.066
82518057|NCT00360529|164729545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.1601||95.0|-2.9|0.5||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.5|-2.9|0.1601
82571359|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5721|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5721
82571360|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9713|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9713
82571361|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4809|TWO_SIDED||||||ANOVA|||Total score change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4809
82571362|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1561|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1561
82571363|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5267|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5267
82571364|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1125|TWO_SIDED||||||ANOVA|||Rumination change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1125
82571365|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2965|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2965
82571366|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7774|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.7774
82571367|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||ANOVA|||Rumination change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3990
82571368|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4465|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4465
82571369|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4385|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.4385
82571370|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2265|TWO_SIDED||||||ANOVA|||Magnification change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2265
82571371|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5985|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.5985
82571372|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2146|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.2146
82571373|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3382|TWO_SIDED||||||ANOVA|||Magnification change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.3382
82571374|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0430
82571375|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1128|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.1128
82518058|NCT00360529|164729545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.0001||95.0|-5.6|-2.2||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||-2.2|-5.6|0.0001
82636586|NCT02452892|164987640|SUPERIORITY|To control for multiple comparisons in the primary endpoint analysis, a hierarchical approach was taken. First LFMS 60min. was compared to LFMS sham. If p\<0.05 for this comparison, then LFMS 20min. was formally compared to LFMS sham for statistical significance.||||||0.307||||||"P-value displayed for 60min.~Mixed Model Repeated Measures (MMRM) model."|Mixed Models Analysis|Week 1 baseline HAM-D6 total score, treatment,visit treatment\*visit age, \& gender included in model. Visit was the repeated measure within subjects.||Comparisons of 60 min LFMS vs. sham, LSMean diff with 95% Confidence Interval (CI) reported. Hypothesis 1: no difference between 60 min. LFMS and sham therapy in mean change from baseline (Day 1) to end of Tx Day 4 in HAM-D6 total score. If hypothesis is rejected at significance level of 0.05, then second hypothesis will be tested. Hypothesis 2:no difference between 20 min. LFMS \& sham therapy in mean change from baseline (Day 1) to the end of Tx. Day 4 in HAM-D6 total score.||||0.307
82518059|NCT00360529|164729546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1144||95.0|-0.3|0.0||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.0|-0.3|0.1144
82518060|NCT00360529|164729546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0001||95.0|-0.5|-0.2||Hierarchical ordering used for multiple endpoints, and Hochberg used for multiple dose comparisons. P-values ordered (p1≤p2). If p2≤0.05 then all doses significant. If p1≤0.025 then reject null for p1|ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||-0.2|-0.5|0.0001
82518061|NCT00360529|164729547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.0173||95.0|0.0|0.4|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||0.4|0.0|0.0173
82518062|NCT00360529|164729547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0001||95.0|0.2|0.5|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||0.5|0.2|0.0001
82518063|NCT00360529|164729548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.0071||95.0|0.4|2.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 50 mg qhs versus placebo||2.6|0.4|0.0071
82518064|NCT00360529|164729548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.0001||95.0|1.4|3.6|||ANCOVA|Model includes treatment, centre and baseline as a covariate||Flibanserin 100 mg qhs versus placebo||3.6|1.4|0.0001
82518065|NCT00360529|164729549|SUPERIORITY_OR_OTHER||Percentage responders|34.7||||0.0513||95.0|29.0|40.4|||Cochran-Mantel-Haenszel|Model includes treatment and centre||Flibanserin 25 mg bid versus placebo||40.4|29.0|0.0513
82518066|NCT00360529|164729549|SUPERIORITY_OR_OTHER||Percentage responders|38.6||||0.0059||95.0|32.6|44.6|||Cochran-Mantel-Haenszel|Model includes treatment and centre||Flibanserin 50 mg qhs versus placebo||44.6|32.6|0.0059
82518067|NCT00932893|164729597|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.487|||<|0.0001||95.0|0.371|0.638||To control family-wise Type 1 error, a step-down procedure was applied in following order: PFS, objective response rate (ORR), overall survival (OS), and disease control rate (DCR). Statistical significance: 1-sided at alpha=0.025.|Log Rank|||P-value was obtained from 1-sided log-rank test stratified by Eastern Cooperative Oncology Group performance status (ECOG PS) score, brain metastases, and prior epidermal growth factor receptor tyrosine kinase inhibitor (EGFR TKI) treatment. The hazard ratio and corresponding 95% confidence interval (CI) from the stratified Cox Proportional Hazards model were also presented.||0.638|0.371|<0.0001
82636587|NCT02452892|164987640|SUPERIORITY|To control for multiple comparisons in the primary endpoint analysis, a hierarchical approach was taken. First LFMS 60min. was compared to LFMS sham. If p\<0.05 for this comparison, then LFMS 20min. was formally compared to LFMS sham for statistical significance.||||||0.859||||||P-value displayed for 20min. Mixed Model Repeated Measures (MMRM) model.|Mixed Models Analysis|Week 1 baseline HAM-D6 total score, treatment,visit treatment\*visit age, \& gender included in model. Visit was the repeated measure within subjects.||Comparisons of 20 min LFMS vs. sham, LSMean diff with 95% Confidence Interval (CI) reported. Hypothesis 1: no difference between 60 min. LFMS and sham therapy in mean change from baseline (Day 1) to end of Tx Day 4 in HAM-D6 total score. If hypothesis is rejected at significance level of 0.05, then second hypothesis will be tested. Hypothesis 2:no difference between 20 min. LFMS \& sham therapy in mean change from baseline (Day 1) to the end of Tx. Day 4 in HAM-D6 total score.||||0.859
82518068|NCT00932893|164729598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854||||0.1145||95.0|0.661|1.104||Statistical significance: 1-sided at alpha=0.025|Log Rank|||P-value was obtained from 1-sided log-rank test stratified by ECOG PS score, brain metastases, and prior EGFR TKI treatment. The hazard ratio and corresponding 95% CI from the stratified Cox proportional hazards model were also presented.||1.104|0.661|0.1145
82518069|NCT00932893|164729600|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.394|||<|0.0001||95.0|2.463|4.676||Statistical significance: 2-sided at alpha=0.025.|Cochran-Mantel-Haenszel|||P-value was obtained from Cochran-Mantel-Haenszel (CMH) test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||4.676|2.463|<0.0001
82518070|NCT00932893|164729601|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.502|||<|0.0001||95.0|1.297|1.741||Statistical significance: 2-sided at alpha=0.0004.|Cochran-Mantel-Haenszel|||P-value was obtained from CMH test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||1.741|1.297|<0.0001
82518071|NCT00932893|164729602|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.697|||<|0.0001|TWO_SIDED|95.0|1.368|2.103||Statistical significance: 2-sided at alpha=0.0004.|Cochran-Mantel-Haenszel|||P-value was obtained from CMH test stratified by ECOG PS, brain metastases, and prior EGFR TKI treatment. The risk ratio and corresponding 95% CI from the stratified CMH test were also reported.||2.103|1.368|<0.0001
82518072|NCT00932893|164729608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.497|||<|0.0001||95.0|0.373|0.661|||Log Rank|||The p-value was obtained from 2-sided unstratified log-rank test. The hazard ratio and corresponding 95% CI from the Cox Proportional Hazards model were also presented.||0.661|0.373|<0.0001
82518073|NCT00626522|164729636|SUPERIORITY_OR_OTHER||Least squares mean difference|0.206|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.131|0.28|||ANCOVA|||||0.280|0.131|<0.0001
82518074|NCT00626522|164729636|SUPERIORITY_OR_OTHER||Least squares mean difference|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.18|0.329|||ANCOVA|||||0.329|0.180|<0.0001
82518075|NCT00626522|164729636|SUPERIORITY_OR_OTHER||Least squares mean difference|0.265|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.191|0.34|||ANCOVA|||||0.340|0.191|<0.0001
82518076|NCT02250612|164729641|SUPERIORITY|||||||0.93|||||||ANCOVA|||||||0.93
82518077|NCT02250612|164729641|SUPERIORITY|||||||0.92|||||||ANCOVA|||||||0.92
82518078|NCT02250612|164729641|SUPERIORITY|||||||0.23|||||||ANCOVA|||||||0.23
82518079|NCT02250612|164729641|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
82518080|NCT02250612|164729641|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||0.25
82518081|NCT02250612|164729641|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
82518082|NCT02250612|164729642|SUPERIORITY|||||||0.94|||||||ANCOVA|||||||0.94
82518083|NCT02250612|164729642|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
82518084|NCT02250612|164729642|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
82518085|NCT02250612|164729642|SUPERIORITY|||||||0.412|||||||ANCOVA|||||||0.412
82383292|NCT00450437|164477305|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|8.0|||||TWO_SIDED|95.0|3.0|14.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||14|3|
82383293|NCT00450437|164477305|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||7|-2|
82383294|NCT00450437|164477305|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|12.0|||||TWO_SIDED|95.0|6.0|18.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||18|6|
82383295|NCT00450437|164477305|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|27.0|||||TWO_SIDED|95.0|20.0|33.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||33|20|
82383296|NCT00450437|164477306|NON_INFERIORITY_OR_EQUIVALENCE|MenACWY was considered noninferior to Menactra if the upper limit of the two-sided 95% CI of the difference in the percentage of subjects experiencing at least one severe systemic reaction \[MenACWY minus Menactra\] was less than 6%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.0|2.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, safety.||2|-1|
82518086|NCT02250612|164729642|SUPERIORITY|||||||0.79|||||||ANCOVA|||||||0.79
82518087|NCT02250612|164729642|SUPERIORITY|||||||0.28|||||||ANCOVA|||||||0.28
82636588|NCT02452892|164987641|SUPERIORITY|||||||0.966||||||P-value is not adjusted for multiple comparisons. P-value was estimated from Mixed Model Repeated Measures (MMRM) model.|Mixed Models Analysis|Week 2 baseline HAM-D6 total score, treatment, visit, treatment\*visit, age, \& gender included in model. Visit was the repeated measure within subject.||||||0.966
82383297|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||3|-10|
82383298|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-12.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||0|-12|
82383299|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
82383300|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|5.0|||||TWO_SIDED|95.0|0.0|10.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||10|0|
82518088|NCT04389762|164729644|OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82518089|NCT04389762|164729645|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
82518090|NCT04389762|164729646|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
82518091|NCT04389762|164729647|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.040
82518092|NCT04389762|164729648|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
82518093|NCT04389762|164729649|OTHER|||||||0.115|||||||t-test, 2 sided|||||||0.115
82518094|NCT04389762|164729650|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
82518095|NCT02349295|164729656|OTHER||Odds Ratio (OR)|4.74|||<|0.001|TWO_SIDED|95.0|2.65|8.48||model includes: treatment, geographic region, and tumor necrosis factor inhibitor (TNFi) experience (inadequate responder to 1 TNFi, inadequate responder to 2 TNFi, or intolerance to a TNFi).|Regression, Logistic|1\) uses a Wald's test , 2) Non-responder imputation (NRI) was used to calculate the response rates.||||8.48|2.65|<0.001
82442348|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted mean|-18.8|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-25.5|-12.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-12.2|-25.5|<0.0001
82518096|NCT02349295|164729656|OTHER|1\) uses a Wald's test , 2) Non-responder imputation (NRI) was used to calculate the response rates.|Odds Ratio (OR)|3.79|||<|0.001|TWO_SIDED|95.0|2.12|6.78|||Regression, Logistic|||model includes: treatment, geographic region, and TNFi experience (inadequate responder to 1 TNFi, inadequate responder to 2 TNFi, or intolerance to a TNFi)||6.78|2.12|<0.001
82518097|NCT06111742|164729699|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Induction||||<0.001
82518098|NCT06111742|164729699|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||OR entry||||<0.001
82518099|NCT06111742|164729700|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||||||0.022
82518100|NCT06111742|164729702|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82518101|NCT01914926|164729703|NON_INFERIORITY_OR_EQUIVALENCE|Chi-Square test||||||0.0001||95.0|||||Chi-squared|||We estimated a sample size of 200 patients assigned in a 1:1 ratio to receive diltiazem and metoprolol would achieve 80% power to detect non-inferiority using a one-sided two sample t-test. The margin of equivalence is -10.||||.0001
82518102|NCT02239679|164729707|SUPERIORITY|||||||0.0166|||||||ANCOVA|||||||0.0166
82518103|NCT02239679|164729713|SUPERIORITY|||||||0.0102||||||no adjustments for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0102
82571376|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0632|TWO_SIDED||||||ANOVA|||Helplessness change at 3 h PS; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.0632
82571377|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8667|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.8667
82636589|NCT02452892|164987642|SUPERIORITY|The persistence rate calculated based on Week 1 treatment group: 20 minutes LFMS, 60 minutes LFMS and sham therapy.||||||0.294||||||For 60 min LFMS, P-value not adjusted for multiple comparisons. P-value estimated using LR model including Wk2 baseline HAM-D6 total score, treatment, age \& gender as covariates.|Regression, Logistic|Non-responder imputation (NRI) for missing data, where missing post-baseline results were considered non-response||||||0.294
82636590|NCT02452892|164987642|SUPERIORITY|The persistence rate calculated based on Week 1 treatment group: 20 minutes LFMS, 60 minutes LFMS and sham therapy.||||||0.232||||||For 20min. LFMS, P-value not adjusted for multiple comparisons. P-value estimated using Logistic Regression model including Wk2 baseline HAM-D6 total score, treatment, age \& gender as covariates.|Regression, Logistic|Non-responder imputation (NRI) for missing data, where missing post-baseline results were considered non-response||||||0.232
82636591|NCT02452892|164987643|SUPERIORITY|||||||0.0932||||||P-value is not adjusted for multiple comparisons.|ANCOVA|P-value was estimated using ANCOVA model with treatment, age, \& gender as factors and baseline negative MADRS score as a covariate.||Estimates for LS Means, confidence intervals, difference in LS means and p-value are from an ANCOVA model with treatment, age, sex as factors and baseline negative MADRS score as a covariate.||||0.0932
82518104|NCT02239679|164729713|SUPERIORITY|||||||0.0089||||||no adjustment for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0089
82518105|NCT02239679|164729714|SUPERIORITY|||||||0.0004||||||no adjustments for multiple comparisons|Cochran-Mantel-Haenszel|stratified by site||||||0.0004
82518106|NCT02239679|164729714|SUPERIORITY||||||<|0.0001||||||no adjustment for multiple comparison|Cochran-Mantel-Haenszel|stratified by site||||||<0.0001
82518107|NCT02605954|164729779|NON_INFERIORITY|With 200 participants randomized to switch to the E/C/F/TAF FDC group at Day 1 and 100 participants randomized to the ABC/3TC+3rd Agent group at Week 24, the lower limit of the observed one sided 97.5% confidence interval was expected to be greater than -0.120 (ie, non-inferiority margin of 12%) with \> 90% power when the percentage of responders in both treatment groups for the primary endpoint is at least 90% at Week 24.|Difference in Percentages|-4.4||||0.15|TWO_SIDED|95.0|-9.4|1.9|||Fisher Exact|||||1.9|-9.4|0.15
82571378|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6365|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.6365
82518108|NCT02605954|164729780|NON_INFERIORITY|With 200 participants randomized to switch to the E/C/F/TAF FDC group at Day 1 and 100 participants randomized to the delayed switch group at Week 12, the lower limit of the observed one sided 97.5% confidence interval will be expected to be greater than -0.120 (ie, non-inferiority margin of 12%) with \> 90% power when the percentage of responders in both treatment groups for the primary endpoint is at least 90% at Week 12.|Difference in Percentages|-3.8||||0.17|TWO_SIDED|95.0|-8.3|1.6|||Fisher Exact|||||1.6|-8.3|0.17
82571379|NCT00551135|164852361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9275|TWO_SIDED||||||ANOVA|||Helplessness change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline PCS score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects were combined into pooled centers.||||0.9275
82636592|NCT02452892|164987643|SUPERIORITY|||||||0.7509||||||The p-value is not adjusted for multiple comparisons.|ANCOVA|P-value was estimated using ANCOVA model with treatment, age, \& gender as factors and baseline negative MADRS score as a covariate.||Estimates for LS Means, confidence intervals, difference in LS means and p-value are from an ANCOVA model with treatment, age, sex as factors and baseline negative MADRS score as a covariate.||||0.7509
82518109|NCT02605954|164729782|OTHER||Difference in least square mean|-36.0||||0.11|TWO_SIDED|95.0|-80.0|9.0|||ANOVA|||||9|-80|0.11
82518110|NCT03214367|164729795|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|-0.08||||0.06|TWO_SIDED|95.0|-0.16|0.0|||Mixed Models Analysis|||||0.00|-0.16|0.060
82518111|NCT03214367|164729795|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.13||||0.003|TWO_SIDED|95.0|0.04|0.22|||Mixed Models Analysis|||||0.22|0.04|0.003
82518112|NCT03214367|164729796|SUPERIORITY||LS Mean Difference|-27.9|||<|0.001|TWO_SIDED|95.0|-35.3|-20.6|||ANCOVA|||||-20.6|-35.3|<0.001
82518113|NCT03214367|164729796|SUPERIORITY||LS Mean Difference|13.2||||0.002|TWO_SIDED|95.0|5.0|21.4|||ANCOVA|||||21.4|5.0|0.002
82518114|NCT03214367|164729797|SUPERIORITY||LS Mean Difference|-31.2|||<|0.001|TWO_SIDED|95.0|-41.1|-21.2|||ANCOVA|||||-21.2|-41.1|<0.001
82636593|NCT02452892|164987644|SUPERIORITY|Positive score is the sum of 10 items: 1,3,5,9,10,12,14,16,17,19.||||||0.2672||||||P-value not adjusted for multiple comparisons.|ANCOVA|P-value estimated using ANCOVA model with treatment,age,\& gender as factors \& baseline positive PANAS score as a covariate.||||||0.2672
82636594|NCT02452892|164987644|SUPERIORITY|Positive score is the sum of 10 items: 1,3,5,9,10,12,14,16,17,19.||||||0.166||||||P-value not adjusted for multiple comparisons.|ANCOVA|P-value estimated using ANCOVA model with treatment,age,\& gender as factors \& baseline positive PANAS score as a covariate.||||||0.1660
82383301|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-1.0|10.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||10|-1|
82518115|NCT03214367|164729797|SUPERIORITY||LS Mean Difference|-6.7||||0.235|TWO_SIDED|95.0|-17.6|4.3|||ANCOVA|||||4.3|-17.6|0.235
82518116|NCT03214367|164729806|SUPERIORITY||LS Mean Difference|-0.06||||0.184|TWO_SIDED|95.0|-0.16|0.03|||Mixed Models Analysis|||||0.03|-0.16|0.184
82518117|NCT03508843|164729807|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<.001
82518118|NCT03508843|164729808|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<.001
82518119|NCT03508843|164729809|SUPERIORITY||||||>|0.05|||||||McNemar|||||||>.05
82518120|NCT03555396|164729811|SUPERIORITY||Mean Difference (Final Values)|-3.54||||0.483|TWO_SIDED|95.0|-13.53|6.46|||t-test, 2 sided|||||6.46|-13.53|0.483
82518121|NCT03555396|164729812|SUPERIORITY|||||||0.637|||||||Chi-squared|||||||0.637
82518122|NCT03555396|164729813|SUPERIORITY||Mean Difference (Net)|9.54||||0.037|TWO_SIDED|95.0|0.59|18.49||Difference in mean change in adherence from baseline to 6 month follow-up between individuals in the intervention and control arms.|Mixed Models Analysis|Multilevel linear mixed model with random effects (dyad \& intercept); adjusting for participant age, sex, baseline adherence, and partner HIV status||||18.49|0.59|0.037
82383302|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-6.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||5|-6|
82518123|NCT03555396|164729814|SUPERIORITY|||||||0.621|||||||Chi-squared|Fisher's Exact Test used for small sample sizes||||||0.621
82518124|NCT00958919|164729822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.0004|TWO_SIDED|95.0|2.69|9.38|||t-test, 2 sided|||||9.38|2.69|.0004
82518125|NCT00958919|164729823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.024|TWO_SIDED|95.0|0.49|6.85|||t-test, 2 sided|||||6.85|0.49|.024
82518126|NCT00958919|164729824|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||||||0.45
82518127|NCT00958919|164729825|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82518128|NCT00958919|164729826|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82518129|NCT01369342|164729860|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82383303|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-13.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||0|-13|
82518130|NCT01369342|164729860|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82636595|NCT02452892|164987645|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0307||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were considered as random missing data.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~* All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~* The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~* The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0307
82636596|NCT02452892|164987645|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.3537||||||"P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were considered as random missing data.~."|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.3537
82636597|NCT02452892|164987646|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0848||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was removed.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0848
82636598|NCT02452892|164987646|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.593||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where Incorrect Item #2 data was removed.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.5930
82636599|NCT02452892|164987647|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.0307||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was imputed using worst possible value.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.0307
82636600|NCT02452892|164987647|SUPERIORITY|Negative score is sum of 10 items: 2,4,6,7,8,11,13,15,18,20.||||||0.3907||||||P-value not adjusted for multiple comparisons. All missing values including the 72 data points in Item#2 were treated where incorrect Item #2 data was imputed using worst possible value.|ANCOVA|P-value estimated using ANCOVA model with treatment, age, \& gender as factors \& baseline negative PANAS score as a covariate.||"Due to item #2 error, analyses were done in the following manner to check robustness:~All missing values including these 72 data points in item #2 were considered as random missing data (values posted in outcome measures).~The 72 data points were removed \& the negative score for affected subjects \& visits were not calculated.~The 72 data points were imputed using worst value imputation algorithm (using score =5 as extremely) while other random missing values imputed by average."||||0.3907
82518131|NCT01369342|164729861|SUPERIORITY_OR_OTHER|||||||0.009||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||0.009
82636601|NCT00545740|164987663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0|||||Cochran-Mantel-Haenszel|||||||0.063
82636602|NCT00545740|164987663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.736||95.0|||||Cochran-Mantel-Haenszel|||||||0.736
82636603|NCT00545740|164987663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0|||||Cochran-Mantel-Haenszel|||||||0.780
82636604|NCT00545740|164987665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0|||||Cochran-Mantel-Haenszel|||||||0.047
82636605|NCT00545740|164987665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0|||||Cochran-Mantel-Haenszel|||||||0.741
82636606|NCT00545740|164987665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0|||||Cochran-Mantel-Haenszel|||||||0.780
82636607|NCT02117024|164987670|SUPERIORITY|||||||0.0011|||||||Log Rank|||||||0.0011
82636608|NCT02117024|164987670|OTHER||Hazard Ratio (HR)|1.0|||<|0.05|TWO_SIDED||||||Other|||With only 50% of enrollment complete prior to study termination by sponsor, insufficient sample size exists to fully complete efficacy analysis.||||<0.05
82518132|NCT01369342|164729861|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518133|NCT01369342|164729862|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518134|NCT01369342|164729862|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82636609|NCT02500706|164987680|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: HbA1c non-inferiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%"|Treatment difference|-0.02|||<|0.001|TWO_SIDED|95.0|-0.11|0.07||p-value from the 2-sided test for treatment difference evaluated at the 5% level|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.07|-0.11|<0.001
82383304|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-3.0|11.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||11|-3|
82442349|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted mean|-23.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-29.7|-16.3||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-16.3|-29.7|<0.0001
82442350|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted Mean|-26.7|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-33.5|-20.0||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-20.0|-33.5|<0.0001
82442351|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted mean|-16.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-22.8|-9.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Empagliflozin 25 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-9.2|-22.8|<0.0001
82442352|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted mean|-15.6|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-22.3|-8.9||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG of double-blind treatment||-8.9|-22.3|<0.0001
82442353|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted Mean|-14.8|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-21.4|-8.2||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-8.2|-21.4|<0.0001
82442354|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted Mean|-28.2|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-35.0|-21.5||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-21.5|-35.0|<0.0001
82518135|NCT01369342|164729863|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518136|NCT01369342|164729863|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518137|NCT01369342|164729864|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518138|NCT01369342|164729864|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by study region (Asia, Eastern Europe, or rest of world) and CDAI score (=\< 300 or \>300).||||||< 0.001
82518139|NCT03204279|164729890|OTHER|No comparison between the two dose groups is performed, thus no statistical test is applied. In the next section the goodness of fit of the loess function correlating exposure and response is reported.|Pearson R|0.076||||0.55|TWO_SIDED|||||CR in the delayed phase vs AUC0-inf|loess (Local regression or polynomial)|The p-value represents the probability found if the correlation coefficient was zero (null hypothesis).|R is the Pearson correlation is a coefficient statistic that measures linear correlation between two variables CR in the delayed phase vs AUC0-inf|The population consist of all patients having CR in the delayed phase and AUC0-inf and Cmax, there is no comparison between the two dose groups.||||0.55
82571380|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2136|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2136
82571381|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0094|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.0094
82383305|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|10.0|||||TWO_SIDED|95.0|4.0|17.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||17|4|
82571382|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2131|TWO_SIDED||||||ANOVA|||PCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2131
82571383|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3245|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.3245
82571384|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.407|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.4070
82383306|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-13.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||1|-13|
82518140|NCT03204279|164729890|OTHER|No comparison between the two dose groups is performed, thus no statistical test is applied. In the next section the goodness of fit of the loess function correlating exposure and response is reported.|Pearson R|-0.041||||0.75|TWO_SIDED|||||CR in the delayed phase vs Cmax|loess (Local regression or polynomial)|The p-value represents the probability found if the correlation coefficient was zero (null hypothesis).|R is the Pearson correlation is a coefficient statistic that measures linear correlation between two variables CR in the delayed phase vs Cmax|The population consist of all patients having CR in the delayed phase and AUC0-inf and Cmax, there is no comparison between the two dose groups.||||0.75
82383307|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-6.0|8.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||8|-6|
82518141|NCT00924885|164729892|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The primary end-point was the 'overall pain experience', evaluated as described previously. Assuming the mean overall pain in the RN group to be 27 mm (value chosen after analysis of data from a previous study, Cerne et al., 2006) on VAS, with a standard deviation (SD) of 21.5 mm, 121 patients in each group would be needed to demonstrate a decrease in overall pain of 8 mm (30%) with 80% power and a significance level of 0.05 (two-tailed tests).||||0.04
82518142|NCT02508480|164729894|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction. The p-value reported below is for group effect.||||0.66
82636610|NCT02500706|164987680|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: HbA1c non-inferiority of postmeal faster aspart versus mealtime NovoRapid®/NovoLog®.~Non-inferiority of postmeal faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%"|Treatment difference|0.1|||<|0.001|TWO_SIDED|95.0|0.004|0.19||p-value from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.19|0.004|<0.001
82636611|NCT02500706|164987680|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: HbA1c superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Superiority was to be confirmed if the upper boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was below 0%-points."|Treatment difference|-0.02||||0.633|TWO_SIDED|95.0|-0.11|0.07||p-value from the 2-sided test for treatment difference evaluated at the 5% level|ANOVA model after multiple imputation|||The endpoint was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline HbA1c as a covariate.||0.07|-0.11|0.633
82636612|NCT02500706|164987681|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: 1-hour postprandial glucose (PPG) increments superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog.~Superiority was confirmed if the upper boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was below 0."|Treatment difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.36|-0.45||p-value from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA|||Change from baseline in postprandial glucose increment (meal test) is analysed using an analysis of variance model. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline postprandial glucose increment as a covariate.||-0.45|-1.36|<0.001
82636613|NCT02500706|164987682|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 5: 1,5-anhydroglucitol superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog®.~Superiority was to be confirmed if the lower boundary of the two-sided 95% CI of the mean treatment difference (mealtime faster aspart minus mealtime NovoRapid®/NovoLog®) was above 0."|Treatment difference|0.02||||0.924|TWO_SIDED|95.0|-0.31|0.34||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|ANOVA model after multiple imputation|||Change from baseline in 1,5-anhydroglucitol was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model includes treatment, region and bolus adjusting method at randomisation as factors, and baseline 1,5-anhydroglucitol as a covariate.||0.34|-0.31|0.924
82636614|NCT03123549|164987750|SUPERIORITY|||||||0.017|||||||t-test, 1 sided|||||||0.017
82636615|NCT03370133|164987775|SUPERIORITY||Odds Ratio (OR)|99.869|||<|0.001|TWO_SIDED|95.0|34.02|293.175||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||293.175|34.020|<0.001
82636616|NCT03370133|164987775|SUPERIORITY||Odds Ratio (OR)|6.056|||<|0.001|TWO_SIDED|95.0|3.874|9.466||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||9.466|3.874|<0.001
82636617|NCT03370133|164987776|SUPERIORITY||Odds Ratio (OR)|118.762|||<|0.001|TWO_SIDED|95.0|36.701|384.307||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||384.307|36.701|<0.001
82636618|NCT03370133|164987776|SUPERIORITY||Odds Ratio (OR)|4.809|||<|0.001|TWO_SIDED|95.0|3.096|7.47||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH (Cochran-Mantel-Haenszel) test with region and prior biologic exposure as stratification variables.||7.470|3.096|<0.001
82518143|NCT02508480|164729895|SUPERIORITY|||||||0.884||||||Group effect for Proactive Coping|Mixed Models Analysis|||"The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.~The p-value reported below is for group effect for Proactive Coping."||||0.884
82636619|NCT03370133|164987777|SUPERIORITY||Odds Ratio (OR)|25.59|||<|0.001|TWO_SIDED|95.0|9.063|72.253||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||72.253|9.063|<0.001
82636620|NCT03370133|164987778|SUPERIORITY||Odds Ratio (OR)|25.471|||<|0.001|TWO_SIDED|95.0|9.02|71.925||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||71.925|9.020|<0.001
82636621|NCT03370133|164987779|SUPERIORITY||Odds Ratio (OR)|123.02|||<|0.001|TWO_SIDED|95.0|29.394|514.862||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||514.862|29.394|<0.001
82636622|NCT03370133|164987779|SUPERIORITY||Odds Ratio (OR)|18.202|||<|0.001|TWO_SIDED|95.0|10.998|30.123||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||30.123|10.998|<0.001
82636623|NCT03370133|164987780|SUPERIORITY||Odds Ratio (OR)|16.258|||<|0.001|TWO_SIDED|95.0|7.356|35.931||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||35.931|7.356|<0.001
82636624|NCT03370133|164987781|SUPERIORITY||Odds Ratio (OR)|22.279|||<|0.001|TWO_SIDED|95.0|9.795|50.674||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||50.674|9.795|<0.001
82636625|NCT03370133|164987782|SUPERIORITY||Odds Ratio (OR)|23.049|||<|0.001|TWO_SIDED|95.0|10.201|52.077||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||52.077|10.201|<0.001
82636626|NCT03370133|164987783|SUPERIORITY||Odds Ratio (OR)|37.696|||<|0.001|TWO_SIDED|95.0|16.92|83.987||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs PBO) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables. Logit method was used where CMH test not possible due to very low response.||83.987|16.920|<0.001
82636627|NCT03370133|164987784|SUPERIORITY||Odds Ratio (OR)|8.047|||<|0.001|TWO_SIDED|95.0|5.107|12.679||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||12.679|5.107|<0.001
82636628|NCT03370133|164987785|SUPERIORITY||Odds Ratio (OR)|3.795|||<|0.001|TWO_SIDED|95.0|2.442|5.899||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||5.899|2.442|<0.001
82636629|NCT03370133|164987786|SUPERIORITY||Odds Ratio (OR)|4.379|||<|0.001|TWO_SIDED|95.0|2.85|6.73||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||6.730|2.850|<0.001
82636630|NCT03370133|164987787|SUPERIORITY||Odds Ratio (OR)|2.412|||<|0.001|TWO_SIDED|95.0|1.573|3.699||P-values for the comparison of treatment groups (BKZ 320 mg Q4W vs Ustekinumab) were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio was calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.699|1.573|<0.001
82636631|NCT03742271|164987821|SUPERIORITY|Superiority was concluded in the lower limit of the 95% confidence interval was above 0.50.|Proportion|0.974|||||TWO_SIDED|95.0|0.925|0.995|||Binomial Exact Test|||This study was powered to test the hypothesis that at least 50% will have an acceptable lens fitting.||0.995|0.925|
82636632|NCT01624974|164987822|SUPERIORITY||Difference in Least Squares (LS) Means|0.047||||0.282|TWO_SIDED|95.0|-0.039|0.134|||LDA model|The LDA model assumes that repeated measurements follow a multivariate normal distribution.||||0.134|-0.039|0.282
82383308|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for percentage of subjects with seroresponse at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|7.0|||||TWO_SIDED|95.0|0.0|14.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with seroresponse comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||14|0|
82571385|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349|TWO_SIDED||||||ANOVA|||PCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.3490
82571386|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1122|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.1122
82571387|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.1380
82571388|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2023|TWO_SIDED||||||ANOVA|||MCSS at baseline; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2023
82636633|NCT02380703|164987835|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.29|TWO_SIDED|95.0|0.78|2.32||For participants who dropped out, their time until study attrition was used as the exposure period; and they were carried forward as part of the overall incidence count.|Regression, Cox|||Sample-size calculations were performed, based on the ability to detect a small-to-moderate difference (Cohen's h = 0.4) in rate of aggression onset over a 1-year period between APT and EU-PC, assuming 80% power and a type I error rate of 5%. Given an anticipated rate of aggression onset over 1 year of 37% for EU-PC, an ES of h = 0.4 allows detection of aggression onset in APT as high as 19%. Given this effect size and up to 10% attrition, our goal was to include 220 total participants.||2.32|0.78|0.29
82442355|NCT01719003|164593290|SUPERIORITY_OR_OTHER||Adjusted mean|-12.6|STANDARD_ERROR_OF_MEAN|3.4||0.0002|TWO_SIDED|95.0|-19.1|-6.0||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Empagliflozin 10 mg qd|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of FPG after 24 weeks of double-blind treatment.||-6.0|-19.1|0.0002
82571389|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2639|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2639
82571390|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2524|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.2524
82571391|NCT00551135|164852363|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0832|TWO_SIDED||||||ANOVA|||MCSS change at EOT; LS Means from ANOVA model with terms of treatment, pooled center and baseline score (for baseline visit ANOVA model with terms of treatment and pooled center). Centers with fewer than 8 treated subjects have were combined into pooled centers.||||0.0832
82571392|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2371|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.2371
82571393|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4435|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.4435
82571394|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1692|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||1 month PS.||||0.1692
82571395|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8169|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.8169
82571396|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5592|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.5592
82571397|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4453|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||3 month PS.||||0.4453
82571398|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4795|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.4795
82571399|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2733|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.2733
82571400|NCT00551135|164852364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED|||||P-values are derived from Cochran-Mantel-Haenszel test adjusted for pooled centers. Centers with fewer than 8 treated subjects were combined into pooled centers.|Cochran-Mantel-Haenszel|||6 month PS.||||0.3173
82518144|NCT02508480|164729895|SUPERIORITY|||||||0.543||||||Group effect for Avoidant Coping.|Mixed Models Analysis|||"The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.~The p-value reported below is for group effect for Avoidant Coping."||||0.543
82518145|NCT02508480|164729896|SUPERIORITY|||||||0.135||||||The p-value above is for the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.135
82518146|NCT02508480|164729897|SUPERIORITY|||||||0.25||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared on the interpersonal function subscale using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.25
82518147|NCT02508480|164729897|SUPERIORITY|||||||0.118||||||The p-value represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared on the intrapsychic foundations subscale using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.118
82518148|NCT02508480|164729898|SUPERIORITY|||||||0.917||||||The p-value is for group effect for tcpm\_days\_participated.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction. The p-value reported below is for group effect for tcpm\_days\_participated.||||0.917
82636634|NCT02380703|164987835|EQUIVALENCE|Examination of whether the presence of aggression is equivalent between APT and EU-PC|Difference in frequencies|1.21||||0.27|TWO_SIDED|||||Association between presence of aggression and condition (APT vs EU-PC).|Chi-squared|X2(1) = 1.21||||||0.27
82442356|NCT01719003|164593291|SUPERIORITY_OR_OTHER||Adjusted mean|-2.5|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.33|-1.68||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.68|-3.33|<0.0001
82518149|NCT02508480|164729899|SUPERIORITY|||||||0.017||||||The p-value above is for the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.017
82518150|NCT02508480|164729900|SUPERIORITY|||||||0.597||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.597
82518151|NCT02508480|164729901|SUPERIORITY|||||||0.076||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.076
82518152|NCT02508480|164729902|SUPERIORITY|||||||0.978||||||The p-value above represents the overall group effect.|Mixed Models Analysis|||The two study arms were compared using mixed models analysis controlling for baseline scores. Variables included in the model were- baseline score, group, time, and group by time interaction.||||0.978
82518153|NCT04969250|164729906|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
82518154|NCT04969250|164729907|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.40
82518155|NCT04969250|164729908|SUPERIORITY|||||||0.078|||||||Fisher Exact|||||||0.078
82518156|NCT04969250|164729909|SUPERIORITY|||||||0.033|||||||Fisher Exact|||||||0.033
82636635|NCT02380703|164987836|SUPERIORITY||F-statistic|1.59||||0.19|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.19
82518157|NCT02119416|164729911|OTHER|Maximum heart rate after 2 mg/kg of caffeine compared to baseline was assessed using a mixed effects regression model. Sex and pubertal stage were included in the model as time invariant predictors.|||||<|0.05||||||The p-value was not adjusted for multiple comparisons.|mixed effects regression|||||||<0.05
82518158|NCT02119416|164729911|OTHER|We compared means of our dependent variables after administration of different doses of caffeine.|||||<|0.05||||||The p-value was set prior to the analysis and all comparisons were planned.|ANCOVA|||We used repeated measures ANOVAS and conducted planned comparisons between groups as post-hoc tests.||||< 0.05
82636636|NCT02380703|164987837|SUPERIORITY||F-statistic|2.43||||0.06|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.06
82518159|NCT02119416|164729912|OTHER|mixed effects regression models were used with sex and pubertal stage as time invariant predictors.|||||<|0.05|||||||mixed effects regression|||order was included in the analysis. We examined caffeine dose.||||<0.05
82518160|NCT02119416|164729912|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82518161|NCT00574587|164729923|SUPERIORITY_OR_OTHER_LEGACY||95% Confidence interval|54.0|||<|0.1|TWO_SIDED|20.0|34.0|74.0|||Simon's Mimimax 2-stage design|||||74|34|<0.10
82383309|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||3|-10|
82383310|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-12.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||0|-12|
82518162|NCT01592435|164729927|SUPERIORITY_OR_OTHER|||||||0.02||||||level of significance (alpha) = 0.05 All p-values were calculated (and verified) by our statistician and are correct. They were rounded to fit four digits.|t-test, 1 sided|||||||0.02
82518163|NCT01592435|164729928|SUPERIORITY_OR_OTHER|||||||0||||||level of significance (alpha) = 0.05 All p-values were calculated (and verified) by our statistician and are correct. They were rounded to fit four digits.|t-test, 1 sided|||||||0.00
82518164|NCT03593655|164729956|SUPERIORITY||incidence rate ratio|1.01||||0.92|TWO_SIDED|95.0|0.9|1.12||the a priori threshold for statistical significance was \<0.05|generalized estimating equation|Poisson (log) link, adjusted for period, offset of number of visits per period, exchangeable correlation structure, and robust errors.|The incidence rate ratio compares FTC/TDF to the dapivirine vaginal ring.|Comparison of the proportion of participants experiencing a grade 2 adverse event between products, with a null hypothesis of no difference.||1.12|0.90|0.92
82518165|NCT03732209|164729962|SUPERIORITY||F value, group x time interaction|7.155||||0.017|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA||Reported values in outcome measures data table reflect mean change in glycosylated hemoglobin for each group (Session 2 - Session 1)|Due to minimal data being available at Weeks 16 and 24 due to COVID-19-related attrition, only baseline (Week 0) and Week 8 data were included in the analysis.||||.017
82518166|NCT03732209|164729963|SUPERIORITY||F value, group x time interaction|4.885||||0.042|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA||The values reported in the outcome measures data table reflect mean change in AUC (Session 2 - Session 1)|Due to minimal data being available at Weeks 16 and 24 due to COVID-19-related attrition, only baseline (Week 0) and Week 8 data were included in the analysis.||||.042
82518167|NCT03732209|164729964|SUPERIORITY||F value, group x time interaction|2.33||||0.146|TWO_SIDED|||||This p value reflects the interaction between group (episodic future thinking, control) and time (baseline, Week 8)|ANOVA|||Due to minimal data available at Week 16 and 24 due to COVID-19-related attrition, only ratings from Week 8 were included in the analysis.||||.146
82518168|NCT03732209|164729965|SUPERIORITY||Median Difference (Final Values)|1.23||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Due to minimal data available at Week 16 and 24 due to COVID-19-related attrition, only ratings from Week 8 were included in the analysis.||||.042
82518169|NCT03021187|164729998|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.7|< 0.0001
82518170|NCT03021187|164729998|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.7|-1.1|< 0.0001
82518171|NCT03021187|164729998|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.0|-1.4|< 0.0001
82523238|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|0.35|STANDARD_ERROR_OF_MEAN|0.426||0.4123|TWO_SIDED|80.0|-0.2|0.9||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Uncontrolled hostility/excitement symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.90|-0.20|0.4123
82636637|NCT02380703|164987838|SUPERIORITY||F-statistic|0.33||||0.8|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.80
82636638|NCT02380703|164987839|SUPERIORITY||F-statistic|0.21||||0.89|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.89
82636639|NCT02380703|164987840|SUPERIORITY||F-statistic|1.48||||0.22|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.22
82636640|NCT02380703|164987841|SUPERIORITY||F-statistic|0.38||||0.77|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.77
82636641|NCT02380703|164987842|SUPERIORITY||F-statistic|0.56||||0.64|TWO_SIDED|||||P value for interaction between treatment arm and time|Mixed Models Analysis||"Interaction between time and treatment arm:~Numerator df = 3, denominator df = 510"|"Differences between APT and EU-PC in change over time (baseline, and 3, 6 and 12 months) for our secondary outcomes were evaluated using individual linear growth curve models (SAS Proc Mixed, SAS Institute, Inc., Cary, NC) with an autoregressive covariance structure type.~The main interest was the interaction between group (APT vs EU-PC) and time."||||0.64
82636642|NCT01408862|164987852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Results will be expressed as mean + SD from independent experiments. Statistical significance between means were determined by Wilcoxon-paired test. Variable will be log-transformed if they were not normally distributed. . We used the CSS/ Statistica program package, StatSoft V 6.0.~This analysis applies to both GLP1R and GIPR categories"||||0.04
82636643|NCT01408862|164987853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.2|||||||ANOVA|||Results will be expressed as mean + SD from independent experiments. Statistical significance between means were determined by two-way ANOVA with repeated measures on one factor, for variables measured in several consecutive times. Variable will be log-transformed if they were not normally distributed. Wilcoxon test for paired samples was used. The Statistica program package (StatSoft V 6.0) were used to perform these analyses, which applied to both GLP1R and GIPR agonist effect categories.||||0.20
82518172|NCT03021187|164729998|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
82518173|NCT03021187|164729998|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.2|<0.0001
82636644|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Group Mean Ratio|1.13|||||TWO_SIDED|96.67|1.02|1.25||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.25|1.02|
82636645|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.01|||||TWO_SIDED|96.67|0.91|1.12||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.12|0.91|
82636646|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratio|0.89|||||TWO_SIDED|96.67|0.8|0.99||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 1)Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||0.99|0.80|
82518174|NCT03021187|164729998|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.6|<0.0001
82518175|NCT03021187|164729999|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9||||0.0392|TWO_SIDED|95.0|-1.8|0.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.0|-1.8|0.0392
82518176|NCT03021187|164729999|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.0||||0.0001|TWO_SIDED|95.0|-3.0|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.0|-3.0|0.0001
82518177|NCT03021187|164729999|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.2|-2.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, interaction strata and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-2.3|-4.2|<0.0001
82518178|NCT03021187|164729999|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.9||||0.0111|TWO_SIDED|95.0|-1.6|-0.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 3 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and interaction strata as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-1.6|0.0111
82518179|NCT03021187|164729999|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.8|-3.2|<0.0001
82518180|NCT03021187|164729999|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.4|-3.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, region, strata and the interaction strata as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-3.0|-4.4|<0.0001
82518181|NCT03021187|164730019|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.73||||0.0627|TWO_SIDED|95.0|0.53|1.02||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.02|0.53|0.0627
82518182|NCT03021187|164730019|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.63||||0.0083|TWO_SIDED|95.0|0.44|0.89||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.89|0.44|0.0083
82518183|NCT03021187|164730019|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.57||||0.0019|TWO_SIDED|95.0|0.4|0.81||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.81|0.40|0.0019
82518184|NCT03021187|164730020|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.75||||0.121|TWO_SIDED|95.0|0.53|1.08||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.08|0.53|0.1210
82518185|NCT03021187|164730020|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.48||||0.0007|TWO_SIDED|95.0|0.32|0.74||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.74|0.32|0.0007
82518186|NCT03021187|164730020|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0006|TWO_SIDED|95.0|0.31|0.73||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.73|0.31|0.0006
82518187|NCT00718718|164730035|SUPERIORITY_OR_OTHER|||||||0.026|||||||Cochran-Mantel-Haenszel|||||||0.026
82518188|NCT00718718|164730035|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cochran-Mantel-Haenszel|||||||0.052
82518189|NCT00718718|164730035|SUPERIORITY_OR_OTHER|||||||0.026|||||||Cochran-Mantel-Haenszel|||||||0.026
82518190|NCT00718718|164730035|SUPERIORITY_OR_OTHER|||||||0.104|||||||Cochran-Mantel-Haenszel|||||||0.104
82518191|NCT00718718|164730036|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
82518192|NCT00718718|164730036|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
82518193|NCT00718718|164730036|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
82518194|NCT00718718|164730036|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
82518195|NCT00718718|164730036|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Van Der Waerden ANOVA|||||||< 0.001
82518196|NCT00718718|164730037|SUPERIORITY_OR_OTHER|||||||0.148|||||||Cochran-Mantel-Haenszel|||||||0.148
82518197|NCT03394924|164730042|SUPERIORITY||Odds Ratio (OR)|5.6||||0.106|TWO_SIDED|95.0|0.6|52.0|||Cochran-Mantel-Haenszel|||||52|0.6|0.106
82518198|NCT03394924|164730042|SUPERIORITY||Odds Ratio (OR)|7.0||||0.063|TWO_SIDED|95.0|0.75|65.22|||Cochran-Mantel-Haenszel|||||65.22|0.75|0.063
82518199|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|0.47||||0.616|TWO_SIDED|95.0|-1.39|2.32|||ANCOVA|||Analysis for total bilirubin.||2.32|-1.39|0.616
82518200|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|0.19||||0.844|TWO_SIDED|95.0|-1.78|2.16|||ANCOVA|||Analysis for total bilirubin.||2.16|-1.78|0.844
82518201|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|-0.67||||0.18|TWO_SIDED|95.0|-1.67|0.32|||ANCOVA|||Analysis for conjugated bilirubin.||0.32|-1.67|0.18
82518202|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|-0.64||||0.239|TWO_SIDED|95.0|-1.71|0.44|||ANCOVA|||Analysis for conjugated bilirubin.||0.44|-1.71|0.239
82518203|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|1.21||||0.116|TWO_SIDED|95.0|-0.31|2.73|||ANCOVA|||Analysis for unconjugated bilirubin.||2.73|-0.31|0.116
82518204|NCT03394924|164730046|SUPERIORITY||Least squares mean difference|0.72||||0.36|TWO_SIDED|95.0|-0.84|2.28|||ANCOVA|||Analysis for unconjugated bilirubin.||2.28|-0.84|0.36
82518205|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-25.55||||0.001|TWO_SIDED|95.0|-40.07|-11.04|||ANCOVA|||Analysis for ALT.||-11.04|-40.07|0.001
82518206|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-21.35||||0.009|TWO_SIDED|95.0|-37.1|-5.6|||ANCOVA|||Analysis for ALT.||-5.6|-37.1|0.009
82518207|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-21.42||||0|TWO_SIDED|95.0|-32.48|-10.35|||ANCOVA|||Analysis for AST.||-10.35|-32.48|0.000
82518208|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-20.84||||0.001|TWO_SIDED|95.0|-32.8|-8.87|||ANCOVA|||Analysis for AST.||-8.87|-32.8|0.001
82518209|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-86.49||||0|TWO_SIDED|95.0|-123.78|-49.21|||ANCOVA|||Analysis for GGT.||-49.21|-123.78|0.000
82518210|NCT03394924|164730047|SUPERIORITY||Least squares mean difference|-115.13||||0|TWO_SIDED|95.0|-155.04|-75.22|||ANCOVA|||Analysis for GGT.||-75.22|-155.04|0.000
82518211|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-26.66||||0.148|TWO_SIDED|95.0|-63.1|9.79|||ANCOVA|||Analysis for HA.||9.79|-63.1|0.148
82518212|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-28.99||||0.142|TWO_SIDED|95.0|-68.02|10.05|||ANCOVA|||Analysis for HA.||10.05|-68.02|0.142
82518213|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-3.09||||0.02|TWO_SIDED|95.0|-5.68|-0.51|||ANCOVA|||Analysis for PIIINP.||-0.51|-5.68|0.02
82518214|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-3.79||||0.009|TWO_SIDED|95.0|-6.6|-0.97|||ANCOVA|||Analysis for PIIINP.||-0.97|-6.6|0.009
82518215|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-41.96||||0.015|TWO_SIDED|95.0|-75.47|-8.44|||ANCOVA|||Analysis for TIMP 1.||-8.44|-75.47|0.015
82518216|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-46.56||||0.011|TWO_SIDED|95.0|-81.91|-11.21|||ANCOVA|||Analysis for TIMP 1.||-11.21|-81.91|0.011
82571401|NCT03463577|164852416|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.38|||||TWO_SIDED|98.75|1.21|1.58|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted relative risk (RR) for pre-eclampsia and eclampsia in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||1.58|1.21|
82571402|NCT03463577|164852416|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.28|||||TWO_SIDED|98.75|1.12|1.47|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted RR for intra-uterine infections (chorioamnionitis and endometritis) in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||1.47|1.12|
82571403|NCT03463577|164852417|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|0.71|||||TWO_SIDED|98.75|0.64|0.78|||||Adjusted relative risk with 98.75% CI was estimated by Poisson regression model|Demonstration of adjusted RR for preterm delivery in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was less than 2 (non-inferiority testing).||0.78|0.64|
82571404|NCT03463577|164852418|NON_INFERIORITY|The objective was to rule out a two-fold increase (non-inferiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis Ho: RR ≥ 2 was rejected if upper limit of the 98.75% CI for the adjusted RR was below 2.|Risk Ratio (RR)|1.04|||||TWO_SIDED|98.75|0.94|1.16|||||Adjusted RR with 98.75% CI-Poisson regression model|Demonstration of adjusted RR for small for gestational age in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was less than 2 (non-inferiority testing).||1.16|0.94|
82636647|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.19|||||TWO_SIDED|96.67|0.74|1.93||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.93|0.74|
82636648|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.85|||||TWO_SIDED|96.67|0.52|1.38||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.38|0.52|
82636649|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.71|||||TWO_SIDED|96.67|0.44|1.15||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 22) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.15|0.44|
82518217|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-9.73||||0.018|TWO_SIDED|95.0|-17.7|-1.75|||ANCOVA|||Analysis for PRO C3.||-1.75|-17.7|0.018
82518218|NCT03394924|164730048|SUPERIORITY||Least squares mean difference|-6.73||||0.125|TWO_SIDED|95.0|-15.41|1.95|||ANCOVA|||Analysis for PRO C3.||1.95|-15.41|0.125
82518219|NCT03394924|164730049|SUPERIORITY||Least squares mean difference|-0.37||||0|TWO_SIDED|95.0|-0.56|-0.18|||ANCOVA|||||-0.18|-0.56|0.000
82518220|NCT03394924|164730049|SUPERIORITY||Least squares mean difference|-0.33||||0.002|TWO_SIDED|95.0|-0.54|-0.13|||ANCOVA|||||-0.13|-0.54|0.002
82518221|NCT03394924|164730050|SUPERIORITY||Least squares mean difference|-0.35||||0.026|TWO_SIDED|95.0|-0.65|-0.04|||ANCOVA|||||-0.04|-0.65|0.026
82518222|NCT03394924|164730050|SUPERIORITY||Least squares mean difference|-0.26||||0.104|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||||0.05|-0.57|0.104
82518223|NCT03394924|164730051|SUPERIORITY||Least squares mean difference|6.81||||0.757|TWO_SIDED|95.0|-37.17|50.78|||ANCOVA|||Analysis for fibrinogen.||50.78|-37.17|0.757
82518224|NCT03394924|164730051|SUPERIORITY||Least squares mean difference|31.77||||0.174|TWO_SIDED|95.0|-14.42|77.97|||ANCOVA|||Analysis for fibrinogen.||77.97|-14.42|0.174
82518225|NCT03394924|164730051|SUPERIORITY||Least squares mean difference|-0.98||||0.378|TWO_SIDED|95.0|-3.18|1.23|||ANCOVA|||Analysis for CRP.||1.23|-3.18|0.378
82518226|NCT03394924|164730051|SUPERIORITY||Least squares mean difference|-3.1||||0.008|TWO_SIDED|95.0|-5.38|-0.83|||ANCOVA|||Analysis for CRP.||-0.83|-5.38|0.008
82518227|NCT03394924|164730052|SUPERIORITY||Least squares mean difference|0.34||||0.841|TWO_SIDED|95.0|-3.07|3.76|||ANCOVA|||Analysis for IL6.||3.76|-3.07|0.841
82518228|NCT03394924|164730052|SUPERIORITY||Least squares mean difference|-2.49||||0.163|TWO_SIDED|95.0|-6.01|1.04|||ANCOVA|||Analysis for IL6.||1.04|-6.01|0.163
82518229|NCT03394924|164730052|SUPERIORITY||Least squares mean difference|-0.53||||0.03|TWO_SIDED|95.0|-1.02|-0.05|||ANCOVA|||Analysis for TNF α.||-0.05|-1.02|0.03
82518230|NCT03394924|164730052|SUPERIORITY||Least squares mean difference|-0.4||||0.11|TWO_SIDED|95.0|-0.9|0.09|||ANCOVA|||Analysis for TNF α.||0.09|-0.9|0.11
82518231|NCT03394924|164730053|SUPERIORITY||Least squares mean difference|0.01||||0.944|TWO_SIDED|95.0|-0.25|0.27|||ANCOVA|||Analysis for haptoglobin.||0.27|-0.25|0.944
82518232|NCT03394924|164730053|SUPERIORITY||Least squares mean difference|-0.03||||0.83|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Analysis for haptoglobin.||0.24|-0.3|0.83
82636650|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.14|||||TWO_SIDED|96.67|1.01|1.3||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.30|1.01|
82518233|NCT03394924|164730053|SUPERIORITY||Least squares mean difference|-0.04||||0.546|TWO_SIDED|95.0|-0.19|0.1|||ANCOVA|||Analysis for alpha2 macroglobulin.||0.1|-0.19|0.546
82518234|NCT03394924|164730053|SUPERIORITY||Least squares mean difference|-0.02||||0.785|TWO_SIDED|95.0|-0.18|0.13|||ANCOVA|||Analysis for alpha2 macroglobulin.||0.13|-0.18|0.785
82518235|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.17||||0.176|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Analysis for TG.||0.08|-0.43|0.176
82518236|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.04||||0.783|TWO_SIDED|95.0|-0.3|0.23|||ANCOVA|||Analysis for TG.||0.23|-0.3|0.783
82518237|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.64||||0.061|TWO_SIDED|95.0|-1.31|0.03|||ANCOVA|||Analysis for TC.||0.03|-1.31|0.061
82518238|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.63||||0.08|TWO_SIDED|95.0|-1.34|0.08|||ANCOVA|||Analysis for TC.||0.08|-1.34|0.08
82518239|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|0.08||||0.584|TWO_SIDED|95.0|-0.21|0.37|||ANCOVA|||Analysis for HDL-C.||0.37|-0.21|0.584
82518240|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.22||||0.148|TWO_SIDED|95.0|-0.51|0.08|||ANCOVA|||Analysis for HDL-C.||0.08|-0.51|0.148
82518241|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.5||||0.074|TWO_SIDED|95.0|-1.04|0.05|||ANCOVA|||Analysis for LDL-C.||0.05|-1.04|0.074
82518242|NCT03394924|164730054|SUPERIORITY||Least squares mean difference|-0.3||||0.304|TWO_SIDED|95.0|-0.87|0.28|||ANCOVA|||Analysis for LDL-C.||0.28|-0.87|0.304
82518243|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.25||||0.378|TWO_SIDED|95.0|-0.32|0.82|||ANCOVA|||Analysis for duration.||0.82|-0.32|0.378
82518244|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.65||||0.03|TWO_SIDED|95.0|0.07|1.23|||ANCOVA|||Analysis for duration.||1.23|0.07|0.03
82518245|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.53||||0.036|TWO_SIDED|95.0|0.04|1.03|||ANCOVA|||Analysis for degree.||1.03|0.04|0.036
82518246|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|1.18||||0|TWO_SIDED|95.0|0.67|1.69|||ANCOVA|||Analysis for degree.||1.69|0.67|0.000
82518247|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.02||||0.971|TWO_SIDED|95.0|-0.92|0.96|||ANCOVA|||Analysis for direction.||0.96|-0.92|0.971
82518248|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|1.01||||0.042|TWO_SIDED|95.0|0.04|1.99|||ANCOVA|||Analysis for direction.||1.99|0.04|0.042
82518249|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.37||||0.336|TWO_SIDED|95.0|-0.4|1.14|||ANCOVA|||Analysis for disability.||1.14|-0.4|0.336
82518250|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|1.46||||0|TWO_SIDED|95.0|0.67|2.26|||ANCOVA|||Analysis for disability.||2.26|0.67|0.000
82518251|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|0.48||||0.214|TWO_SIDED|95.0|-0.29|1.25|||ANCOVA|||Analysis for distribution.||1.25|-0.29|0.214
82518252|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|1.23||||0.003|TWO_SIDED|95.0|0.44|2.02|||ANCOVA|||Analysis for distribution.||2.02|0.44|0.003
82518253|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|2.21||||0.103|TWO_SIDED|95.0|-0.47|4.9|||ANCOVA|||Analysis for total.||4.9|-0.47|0.103
82518254|NCT03394924|164730055|SUPERIORITY||Least squares mean difference|6.35||||0|TWO_SIDED|95.0|3.57|9.13|||ANCOVA|||Analysis for total.||9.13|3.57|0.000
82518255|NCT03394924|164730056|SUPERIORITY||Least squares mean difference|12.48||||0.16|TWO_SIDED|95.0|-5.09|30.06|||ANCOVA|||||30.06|-5.09|0.16
82518256|NCT03394924|164730056|SUPERIORITY||Least squares mean difference|25.58||||0.006|TWO_SIDED|95.0|7.67|43.48|||ANCOVA|||||43.48|7.67|0.006
82518257|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-0.15||||0.908|TWO_SIDED|95.0|-2.72|2.43|||ANCOVA|||Analysis for symptoms.||2.43|-2.72|0.908
82518258|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-1.41||||0.298|TWO_SIDED|95.0|-4.09|1.27|||ANCOVA|||Analysis for symptoms.||1.27|-4.09|0.298
82518259|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|1.91||||0.042|TWO_SIDED|95.0|0.07|3.76|||ANCOVA|||Analysis for itch.||3.76|0.07|0.042
82518260|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|3.47||||0.001|TWO_SIDED|95.0|1.55|5.38|||ANCOVA|||Analysis for itch.||5.38|1.55|0.001
82518261|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-0.46||||0.839|TWO_SIDED|95.0|-4.96|4.04|||ANCOVA|||Analysis for fatigue.||4.04|-4.96|0.839
82518262|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-0.32||||0.891|TWO_SIDED|95.0|-5.0|4.36|||ANCOVA|||Analysis for fatigue.||4.36|-5.00|0.891
82518263|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|0.26||||0.834|TWO_SIDED|95.0|-2.25|2.77|||ANCOVA|||Analysis for cognition.||2.77|-2.25|0.834
82518264|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|1.3||||0.327|TWO_SIDED|95.0|-1.33|3.92|||ANCOVA|||Analysis for cognition.||3.92|-1.33|0.327
82518265|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-2.12||||0.262|TWO_SIDED|95.0|-5.86|1.62|||ANCOVA|||Analysis for social.||1.62|-5.86|0.262
82518266|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-0.78||||0.69|TWO_SIDED|95.0|-4.68|3.12|||ANCOVA|||Analysis for social.||3.12|-4.68|0.69
82518267|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|-0.62||||0.433|TWO_SIDED|95.0|-2.19|0.95|||ANCOVA|||Analysis for emotional.||0.95|-2.19|0.433
82518268|NCT03394924|164730057|SUPERIORITY||Least squares mean difference|0.37||||0.653|TWO_SIDED|95.0|-1.28|2.03|||ANCOVA|||Analysis for emotional.||2.03|-1.28|0.653
82571405|NCT03463577|164852419|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.7|0.98|||||Adjusted RR with 95% CI -Poisson regression model|Assessment of adjusted RR for poor fetal growth in the Exposed pregnant women cohort (on or after 1st day of 27th week of pregnancy) compared to the Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.98|0.70|
82571406|NCT03463577|164852419|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.99|1.72|||||Adjusted RR with 95% CI - Poisson regression model|Assessment of adjusted RR for placental abortion in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||1.72|0.99|
82571407|NCT03463577|164852419|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. Superiority to be concluded if lower limit of the 95% CI for the adjusted RR is above 1.|Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.64|0.91|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for preterm pre-labor rupture of membranes in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.91|0.64|
82571408|NCT03463577|164852420|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR =1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.38|||||TWO_SIDED|95.0|0.22|0.67|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for stillbirth/fetal death in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||0.67|0.22|
82571409|NCT03463577|164852420|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.86|1.33|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for transfusion during delivery hospitalization in Exposed women cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical women cohort was 1 or differed from 1 (superiority testing).||1.33|0.86|
82571410|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.38|1.73|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for neonatal death in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.73|0.38|
82571411|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.35|||||TWO_SIDED|95.0|0.81|2.24|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of nervous system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.24|0.81|
82518269|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|1.34||||0.971|TWO_SIDED|95.0|-71.51|74.18|||ANCOVA|||Analysis for FGF19.||74.18|-71.51|0.971
82518270|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|5.54||||0.882|TWO_SIDED|95.0|-68.86|79.95|||ANCOVA|||Analysis for FGF19.||79.95|-68.86|0.882
82518271|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|-51.66||||0.242|TWO_SIDED|95.0|-139.27|35.96|||ANCOVA|||Analysis for C4.||35.96|-139.27|0.242
82518272|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|-94.3||||0.042|TWO_SIDED|95.0|-184.85|-3.75|||ANCOVA|||Analysis for C4.||-3.75|-184.85|0.042
82518273|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|-24.57||||0.52|TWO_SIDED|95.0|-101.03|51.89|||ANCOVA|||Analysis for BA.||51.89|-101.03|0.52
82518274|NCT03394924|164730061|SUPERIORITY||Least squares mean difference|-17.96||||0.672|TWO_SIDED|95.0|-103.07|67.16|||ANCOVA|||Analysis for BA.||67.16|-103.07|0.672
82518275|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|44.54||||0.611|TWO_SIDED|95.0|-205.97|295.06|||ANCOVA|||Analysis for FGF19 AUC0-8.||295.06|-205.97|0.611
82518276|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-29.98||||0.819|TWO_SIDED|95.0|-411.28|351.31|||ANCOVA|||Analysis for FGF19 AUC0-8.||351.31|-411.28|0.819
82518277|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|24.41||||0.818|TWO_SIDED|95.0|-251.92|300.74|||ANCOVA|||Analysis for FGF19 AUC2-8.||300.74|-251.92|0.818
82518278|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-10.53||||0.948|TWO_SIDED|95.0|-435.33|414.27|||ANCOVA|||Analysis for FGF19 AUC2-8.||414.27|-435.33|0.948
82518279|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-91.7||||0.412|TWO_SIDED|95.0|-475.92|292.51|||ANCOVA|||Analysis for C4 AUC0-8.||292.51|-475.92|0.412
82518280|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-250.18||||0.094|TWO_SIDED|95.0|-605.33|104.98|||ANCOVA|||Analysis for C4 AUC0-8.||104.98|-605.33|0.094
82518281|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-83.7||||0.266|TWO_SIDED|95.0|-279.15|111.75|||ANCOVA|||Analysis for C4 AUC2-8.||111.75|-279.15|0.266
82636651|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|1.05|||||TWO_SIDED|96.67|0.93|1.19||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.19|0.93|
82518282|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-238.19||||0.047|TWO_SIDED|95.0|-470.22|-6.15|||ANCOVA|||Analysis for C4 AUC2-8.||-6.15|-470.22|0.047
82518283|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|28.41||||0.694|TWO_SIDED|95.0|-180.2|237.02|||ANCOVA|||Analysis for BA AUC0-8.||237.02|-180.2|0.694
82518284|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-39.5||||0.615|TWO_SIDED|95.0|-264.32|185.32|||ANCOVA|||Analysis for BA AUC0-8.||185.32|-264.32|0.615
82518285|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|2.93||||0.974|TWO_SIDED|95.0|-229.6|235.46|||ANCOVA|||Analysis for BA AUC2-8.||235.46|-229.6|0.974
82518286|NCT03394924|164730062|SUPERIORITY||Least squares mean difference|-26.05||||0.793|TWO_SIDED|95.0|-283.24|231.15|||ANCOVA|||Analysis for BA AUC2-8.||231.15|-283.24|0.793
82518287|NCT02276482|164730067|OTHER||Difference in percentages|3.6|||||TWO_SIDED|95.0|-6.3|13.5|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||13.5|-6.3|
82518288|NCT02276482|164730068|OTHER||Difference in percentages|3.7|||||TWO_SIDED|95.0|-3.4|10.8|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||10.8|-3.4|
82518289|NCT02276482|164730069|OTHER||Difference in percentages|-4.2|||||TWO_SIDED|95.0|-12.9|4.4|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||4.4|-12.9|
82518290|NCT02276482|164730070|OTHER||Difference in percentages|0.2|||||TWO_SIDED|95.0|-7.4|7.7|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||7.7|-7.4|
82518291|NCT02276482|164730071|OTHER||Difference in percentages|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The difference (Tedizolid minus Comparator group) in the clinical success rate and 95% confidence interval calculated using the unstratified method of Miettinen and Nurminen.|||0.0|0.0|
82518292|NCT02005471|164730127|SUPERIORITY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.18|0.29|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified analysis: 17p deletion, risk status, geographic region.||0.29|0.18|<.0001
82518293|NCT02005471|164730127|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.31|||Log Rank||Hazard ratio was estimated by Cox regression model|Unstratified Analysis||0.31|0.19|<.0001
82518294|NCT02005471|164730129|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.28|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.28|0.13|<.0001
82518295|NCT02005471|164730129|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.14|0.3|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.30|0.14|<.0001
82518296|NCT02005471|164730131|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.21|0.57|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factor: geographic region.||0.57|0.21|<.0001
82518297|NCT02005471|164730131|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.22|0.56|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.56|0.22|<.0001
82518298|NCT02005471|164730133|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.09|0.49|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factor: geographic region.||0.49|0.09|<.0001
82518299|NCT02005471|164730133|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.09|0.46|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.46|0.09|<.0001
82518300|NCT02005471|164730134|SUPERIORITY||Difference in Response Rates|25.61|||<|0.0001|TWO_SIDED|95.0|17.88|33.33|||Cochran-Mantel-Haenszel||95% CI for rates were constructed using Pearson- Clopper method. 95% CI for difference in rates were constructed using Anderson-Hauck method.|||33.33|17.88|<.0001
82518301|NCT02005471|164730134|SUPERIORITY||Odds Ratio (OR)|7.81|||||TWO_SIDED|95.0|3.97|15.37|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||15.37|3.97|
82518302|NCT02005471|164730135|SUPERIORITY||Difference in Response Rates|25.61|||<|0.0001|TWO_SIDED|95.0|17.88|33.33|||Cochran-Mantel-Haenszel||95% CI for rates were constructed using Pearson- Clopper method. 95% CI for difference in rates were constructed using Anderson-Hauck method.|||33.33|17.88|<.0001
82518303|NCT02005471|164730135|SUPERIORITY||Odds Ratio (OR)|7.81|||||TWO_SIDED|95.0|3.97|15.37|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||15.37|3.97|
82518304|NCT02005471|164730136|SUPERIORITY||Difference in Response Rates|25.07|||<|0.0001|TWO_SIDED|95.0|16.63|33.51|||Cochran-Mantel-Haenszel||The 95% CI was computed using Anderson-Hauck method.|||33.51|16.63|<.0001
82518305|NCT02005471|164730136|SUPERIORITY||Odds Ratio (OR)|4.59|||||TWO_SIDED|95.0|2.68|7.88|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||7.88|2.68|
82518306|NCT02005471|164730137|SUPERIORITY||Difference in Response Rates|24.55|||<|0.0001|TWO_SIDED|95.0|16.0|33.1|||Cochran-Mantel-Haenszel||The 95% CI was computed using Anderson-Hauck method.|||33.10|16.00|<.0001
82518307|NCT02005471|164730137|SUPERIORITY||Odds Ratio (OR)|4.59|||||TWO_SIDED|95.0|2.68|7.85|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||7.85|2.68|
82518308|NCT02005471|164730139|SUPERIORITY|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.|Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.37|0.74|||Log Rank||Hazard ratio was estimated by Cox regression model.|||0.74|0.37|0.0002
82518309|NCT02005471|164730139|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0003|TWO_SIDED|95.0|0.39|0.76|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.76|0.39|0.0003
82518310|NCT02005471|164730141|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.17|0.29|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.29|0.17|<.0001
82518311|NCT02005471|164730141|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.31|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.31|0.19|<.0001
82518312|NCT02005471|164730145|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.39|||Log Rank||Hazard ratio was estimated by Cox regression model.|Stratified Analysis; Stratification factors: 17p deletion, risk status, geographic region.||0.39|0.23|<.0001
82518313|NCT02005471|164730145|SUPERIORITY||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.25|0.41|||Log Rank||Hazard ratio was estimated by Cox regression model.|Unstratified Analysis||0.41|0.25|<.0001
82518314|NCT02005471|164730146|SUPERIORITY||Difference in MRD Negativity Rates|49.04|||<|0.0001|TWO_SIDED|95.0|40.44|57.64|||Chi-squared||The 95% CI was computed using Anderson-Hauck method.|||57.64|40.44|<.0001
82518315|NCT02005471|164730146|SUPERIORITY||Odds Ratio (OR)|10.77|||||TWO_SIDED|95.0|6.5|17.85|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||17.85|6.50|
82518316|NCT02005471|164730147|SUPERIORITY||Difference in MRD negative rates|13.41|||<|0.0001|TWO_SIDED|95.0|7.99|18.82|||Chi-squared||The 95% CI was computed using Anderson-Hauck method.|||18.82|7.99|<.0001
82518317|NCT02005471|164730147|SUPERIORITY||Odds Ratio (OR)|16.28|||||TWO_SIDED|95.0|3.82|69.35|||||OR was estimated using logistic regression model. The 95% CI was computed using Wald test.|||69.35|3.82|
82518318|NCT00627705|164730158|SUPERIORITY_OR_OTHER|||||||0.449|||||||mixed effects regression models|F= 0.81||Cohen's d = 0.30||||0.449
82518319|NCT00627705|164730160|SUPERIORITY_OR_OTHER||||||<|0.001||||||Aberrant Behavior Checklist irritability subscale (F = 6.80; p = \<.001; d = .96).|Mixed effects regression models|||F values were derived from the interaction of participant group (NAC vs. placebo) and time (week) in mixed effects regression models. Cohen's d was computed based on the standardized mean difference in the change from baseline to week 12.||||<.001
82518320|NCT00627705|164730162|SUPERIORITY_OR_OTHER|||||||0.141|||||||mixed effects regression models|degrees of freedom were 1, 22||F-values were derived from the interaction of Participant Group (NAC vs. Placebo) and Time (Week) in mixed effects regression models.||||.141
82518321|NCT00791765|164730165|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||van Elteren's test|Stratified by baseline body mass index group||||||<0.0001
82518322|NCT00791765|164730166|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by baseline body mass index group||||||<0.0001
82518323|NCT00791765|164730167|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||2-sided pairwise van Elteren's test|Stratified by baseline body mass index group||Comparison of week 24 outcome to week 12 outcome (see Outcome Measure 1)||||<0.0001
82518324|NCT00791765|164730168|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided test with modified ridit scores stratified by baseline body mass index group||||||<0.0001
82518325|NCT00156065|164730182|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.8619||||||95.0|0.6912|0.9644|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9644|0.6912|
82518326|NCT00156065|164730182|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.8834||||||95.0|0.7744|0.955|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9550|0.7744|
82518327|NCT00156065|164730182|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Loss of Effect|0.9376||||||95.0|0.7631|0.9952|||||Loss of effect = increase in total PANSS \>=30% from start of current study; subjective worsening of schizophrenia/request for dose increase; Clinical Global Impressions of Severity of Illness score \>=6; discontinuation for lack of efficacy.|||0.9952|0.7631|
82518328|NCT02207816|164730234|SUPERIORITY||Vaccine efficacy|74.38||||0.2235|TWO_SIDED|95.0|-130.0|97.14|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||97.14|-130|0.2235
82518329|NCT02207816|164730234|SUPERIORITY||Vaccine efficacy|-9.57||||0.8972|TWO_SIDED|95.0|-339.0|72.64|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||72.64|-339|0.8972
82518330|NCT02207816|164730234|SUPERIORITY||Vaccine efficacy|30.58||||0.5333|TWO_SIDED|95.0|-119.0|78.0|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||78.00|-119|0.5333
82518331|NCT02207816|164730234|SUPERIORITY||Vaccine efficacy|44.2||||0.3523|TWO_SIDED|95.0|-90.9|83.69|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||83.69|-90.9|0.3523
82518332|NCT02207816|164730235|SUPERIORITY||Vaccine efficacy|53.68||||0.093|TWO_SIDED|95.0|-13.7|81.13|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||81.13|-13.7|0.0930
82518333|NCT02207816|164730235|SUPERIORITY||Vaccine efficacy|23.33||||0.5035|TWO_SIDED|95.0|-67.1|64.82|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||64.82|-67.1|0.5035
82518334|NCT02207816|164730235|SUPERIORITY||Vaccine efficacy|32.08||||0.3504|TWO_SIDED|95.0|-53.1|69.87|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||69.87|-53.1|0.3504
82518335|NCT02207816|164730235|SUPERIORITY||Vaccine efficacy|37.57||||0.2704|TWO_SIDED|95.0|-44.4|73.01|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||73.01|-44.4|0.2704
82518336|NCT02207816|164730236|SUPERIORITY||Vaccine efficacy|-5.26||||0.4434|TWO_SIDED|95.0|-20.0|7.69|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||7.69|-20.0|0.4434
82518337|NCT02207816|164730236|SUPERIORITY||Vaccine efficacy|-8.1||||0.2634|TWO_SIDED|95.0|-23.9|5.7|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||5.70|-23.9|0.2634
82518338|NCT02207816|164730236|SUPERIORITY||Vaccine efficacy|0.62||||0.9278|TWO_SIDED|95.0|-13.7|13.13|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||13.13|-13.7|0.9278
82518339|NCT02207816|164730236|SUPERIORITY||Vaccine efficacy|5.32||||0.4189|TWO_SIDED|95.0|-8.12|17.09|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/ incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||17.09|-8.12|0.4189
82518340|NCT02207816|164730237|SUPERIORITY||Vaccine efficacy|50.1||||0.1302|TWO_SIDED|95.0|-32.2|82.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||82.90|-32.2|0.1302
82518341|NCT02207816|164730237|SUPERIORITY||Vaccine efficacy|16.9||||0.6897|TWO_SIDED|95.0|-96.9|65.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||65.90|-96.9|0.6897
82518342|NCT02207816|164730237|SUPERIORITY||Vaccine efficacy|25.9||||0.5299|TWO_SIDED|95.0|-82.9|70.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||70.90|-82.9|0.5299
82518343|NCT02207816|164730237|SUPERIORITY||Vaccine efficacy|25.4||||0.5307|TWO_SIDED|95.0|-84.1|70.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||70.70|-84.1|0.5307
82518344|NCT02207816|164730238|SUPERIORITY||Vaccine efficacy|46.2||||0.1853|TWO_SIDED|95.0|-45.0|81.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||81.80|-45.0|0.1853
82518345|NCT02207816|164730238|SUPERIORITY||Vaccine efficacy|35.0||||0.3828|TWO_SIDED|95.0|-69.3|76.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||76.60|-69.3|0.3828
82518346|NCT02207816|164730238|SUPERIORITY||Vaccine efficacy|31.2||||0.4112|TWO_SIDED|95.0|-66.5|72.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||72.70|-66.5|0.4112
82518347|NCT02207816|164730238|SUPERIORITY||Vaccine efficacy|30.8||||0.4121|TWO_SIDED|95.0|-67.6|72.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||72.50|-67.6|0.4121
82518348|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|40.8|||<|0.0001|TWO_SIDED|95.0|15.7|58.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||58.80|15.70|<0.0001
82636652|NCT00620815|164987856|NON_INFERIORITY_OR_EQUIVALENCE|To show statistical equivalence was, confidence intervals (CIs) of all 3 pair wise ratios of the GMAs were inspected.|Geometric Mean Ratios|0.92|||||TWO_SIDED|96.67|0.81|1.04||P-values were not calculated for the equivalence tests due to lack of appropriate statistical software|ANOVA|||(On day 43) Null hypothesis representing non-equivalence was rejected if the two-sided (1-2α)\*100% CI on one GMA ratio is completely within the equivalence range \[0.5, 2.0\].||1.04|0.81|
82636653|NCT02514889|164987884|SUPERIORITY||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|2.05||0.3|TWO_SIDED|95.0|-6.12|1.91||a priori threshold is p = .017, so that experiment-wide critical alpha would be p = .05.|Mixed Models Analysis|Covariates: sex, age, ethnicity, marital status and educational attainment|Difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting).|||1.91|-6.12|0.30
82636654|NCT02514889|164987885|EQUIVALENCE|p-value \>0.20 would be considered equivalent.|Mean Difference (Final Values)|2.59|STANDARD_ERROR_OF_MEAN|1.39||0.06|TWO_SIDED|95.0|-0.1342|5.3228|||Mixed Models Analysis|Covariates included age, sex, ethnicity, educational attainment and marital status||||5.3228|-0.1342|0.06
82636655|NCT02514889|164987886|SUPERIORITY||Mean Difference (Net)|-1.37|STANDARD_ERROR_OF_MEAN|2.55||0.504|TWO_SIDED|95.0|-6.37|3.63|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|Difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting).|||3.63|-6.37|0.504
82636656|NCT02514889|164987887|SUPERIORITY|Difference in differences|Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|2.35||0.3|TWO_SIDED|95.0|-6.47|2.74|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment, marital status|The difference in differences interaction term is the product of assessment period (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||2.74|-6.47|0.30
82636657|NCT02514889|164987888|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.99||0.64|TWO_SIDED|95.0|-1.47|2.39|||Mixed Models Analysis||The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||2.39|-1.47|0.640
82636658|NCT02514889|164987889|EQUIVALENCE|For the comparison conditions to be equivalent, as predicted, the critical alpha was set at P \> 0.20.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.135||0.747|TWO_SIDED|95.0|-0.31|0.22|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||0.22|-.31|0.747
82636659|NCT02514889|164987890|EQUIVALENCE|For the comparison conditions to be judged equivalent, as predicted, the critical p-value was set to P \>.20|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.51||0.776|TWO_SIDED|95.0|-0.85|1.14|||Mixed Models Analysis|Covariates included: age, sex, ethnicity, educational attainment and marital status|The differences in difference interaction term consists of the product of assessment intervals (baseline, 6-months, 12-months) and experimental condition (MyPlate, Calorie Counting)|||1.14|-0.85|0.776
82636660|NCT02978339|164987916|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
82636661|NCT02978339|164987917|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82636662|NCT02978339|164987918|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||||||0.91
82636663|NCT02978339|164987919|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82636664|NCT02978339|164987920|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||.15
82636665|NCT02978339|164987921|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||.06
82518349|NCT02207816|164730239|SUPERIORITY||Vaccine effiicacy|42.7|||<|0.0001|TWO_SIDED|95.0|17.4|60.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||60.80|17.40|<0.0001
82518350|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|16.0||||0.0883|TWO_SIDED|95.0|-6.6|33.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||33.90|-6.60|0.0883
82518351|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|13.0||||0.1889|TWO_SIDED|95.0|-10.7|31.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||31.70|-10.7|0.1889
82636666|NCT02978339|164987922|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||.93
82636667|NCT02705755|164987934|SUPERIORITY||Least Squares Mean Difference|-4.4||||0.0399|TWO_SIDED|95.0|-8.57|-0.23||P-values were reported without multiplicity adjustment.|Repeated-measures Mixed-effect Model|||Least squares mean differences were calculated based on a repeated-measures mixed-effect model with change from baseline at different time points as the dependent variable, the treatment group (TD-9855 or placebo), time point, baseline and the interaction between the treatment group and time point as fixed factors. A compound symmetry was used as the variance-covariance structure.||-0.23|-8.57|0.0399
82636668|NCT00195702|164987950|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The 3 primary efficacy variables were considered in a hierarchical order, with the ACR20 response tested first. The ACR20 response rate at Week 24 was initially assessed using Pearson's chi-squared test at a significance level of 0.05. If significant, pairwise comparisons between each adalimumab dose group and the placebo group were performed.||||<0.001
82636669|NCT00195702|164987950|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The 3 primary efficacy variables were considered in a hierarchical order, with the ACR20 response tested first. The ACR20 response rate at Week 24 was initially assessed using Pearson's chi-squared test at a significance level of 0.05. If significant, pairwise comparisons between each adalimumab dose group and the placebo group were performed.||||<0.001
82571412|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|1.06|1.29|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of eye in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.29|1.06|
82571413|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|2.02|||||TWO_SIDED|95.0|1.59|2.55|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of ear, face or neck in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing.||2.55|1.59|
82571414|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.96|1.31|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of cardiovascular system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infant cohort was 1 or differed from 1 (superiority testing).||1.31|0.96|
82518352|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|16.4||||0.077|TWO_SIDED|95.0|-5.9|34.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||34.00|-5.90|0.0770
82518353|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|0.1||||1|TWO_SIDED|95.0|-25.8|20.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||20.70|-25.8|1.0000
82518354|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|20.8||||0.1624|TWO_SIDED|95.0|-17.5|46.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||46.90|-17.5|0.1624
82518355|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|-2.3||||0.9112|TWO_SIDED|95.0|-47.6|29.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||29.00|-47.6|0.9112
82518356|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|9.2||||0.4023|TWO_SIDED|95.0|-18.0|30.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||30.10|-18.0|0.4023
82518357|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|-4.4||||0.7091|TWO_SIDED|95.0|-34.5|18.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||18.90|-34.5|0.7091
82571415|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.34|||||TWO_SIDED|95.0|1.07|1.68|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of respiratory system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was1 or differed from 1 (superiority testing).||1.68|1.07|
82518358|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|-1.4||||0.9361|TWO_SIDED|95.0|-34.7|23.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||23.60|-34.7|0.9361
82518359|NCT02207816|164730239|SUPERIORITY||Vaccine efficacy|-6.8||||0.628|TWO_SIDED|95.0|-42.0|19.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent parasitemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||19.60|-42.0|0.6280
82518360|NCT02207816|164730240|SUPERIORITY||Vaccine efficacy|100.0||||0.4987|TWO_SIDED|95.0|-3779.0|100.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent severe anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||100.0|-3779|0.4987
82518361|NCT02207816|164730240|SUPERIORITY||Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-4051.0|100.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent severe anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||100.0|-4051|1.0000
82571416|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.41||||||95.0|0.78|2.57|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for clefts in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.57|0.78|
82571417|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.75|||||TWO_SIDED|95.0|1.57|1.95|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of upper gastrointestinal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.95|1.57|
82571418|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|0.63|||||TWO_SIDED|95.0|0.36|1.12|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of lower gastrointestinal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.12|0.36|
82571419|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|1.01|1.42|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of genital organs in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.42|1.01|
82571420|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.4|||||TWO_SIDED|95.0|1.04|1.88|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of renal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing.||1.88|1.04|
82571421|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.5||||||95.0|1.21|1.86|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of musculoskeletal system in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.86|1.21|
82571422|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.85|1.52|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of limb in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.52|0.85|
82571423|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.98|||||TWO_SIDED|95.0|1.76|2.23|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for congenital anomalies of integument in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||2.23|1.76|
82636670|NCT00195702|164987951|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||An ANCOVA model with baseline erosion scores as the covariate was performed. An overall significance test at alpha =0.05 was done. Pairwise comparisons, each at alpha =0.05 (2-sided), were performed if the overall test was significant.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change in modified total Sharp x-ray score at Week 52 tested second. Normality was evaluated by applying the Shapiro-Wilk test procedure to the residuals from the parametric model. The final analysis was performed following a non-parametric approach, ranking the results prior to fitting the model.||||<0.001
82636671|NCT00195702|164987951|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||An ANCOVA model with baseline erosion scores as the covariate was performed. An overall significance test at alpha =0.05 was done. Pairwise comparisons, each at alpha =0.05 (2-sided), were performed if the overall test was significant.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change in modified total Sharp x-ray score at Week 52 tested second. Normality was evaluated by applying the Shapiro-Wilk test procedure to the residuals from the parametric model. The final analysis was performed following a non-parametric approach, ranking the results prior to fitting the model.||||<0.001
82636672|NCT00195702|164987952|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82636673|NCT00195702|164987952|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82442357|NCT01719003|164593291|SUPERIORITY_OR_OTHER||Adjusted Mean|-2.52|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.35|-1.69||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 12.5 mg bid+ Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.69|-3.35|<0.0001
82442358|NCT01719003|164593291|SUPERIORITY_OR_OTHER||Adjusted mean|-2.2|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.03|-1.37||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 1000 mg bid minus Metformin 1000 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment||-1.37|-3.03|<0.0001
82518362|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-254.6||||0.1025|TWO_SIDED|95.0|-3399.0|32.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||32.50|-3399|0.1025
82518363|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-398.6||||0.0284|TWO_SIDED|95.0|-4642.0|-3.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||-3.20|-4642|0.0284
82518364|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|36.7||||0.3543|TWO_SIDED|95.0|-78.8|79.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||79.20|-78.8|0.3543
82571424|NCT03463577|164852421|SUPERIORITY|The objective was to explore differences (superiority testing) in the incidence rate of each of the maternal and infant adverse events, among vaccinated women with Boostrix and their infants as compared to the incidence in a matched cohort of unvaccinated women and their infants. The null hypothesis H0 RR=1 was rejected if lower limit of 95% CI for adjusted RR was above 1.|Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.64|1.85|||||Adjusted RR with 95% CI-Poisson regression model|Assessment of adjusted RR for other and unspecified congenital anomalies in Exposed infants cohort (on or after 1st day of 27th week of pregnancy) compared to Unexposed historical infants cohort was 1 or differed from 1 (superiority testing).||1.85|0.64|
82571425|NCT00236184|164852429|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||||||<0.001
82571426|NCT01101997|164852430|SUPERIORITY||sucess proportion|0.853|||<|0.001|TWO_SIDED|95.0|0.773|0.91|||Chi-squared|||H0: p= 0.6 and Ha: p ≠ 0.6||.910|.773|<0.001
82571427|NCT01101997|164852431|OTHER||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|2.49|||TWO_SIDED|||||||||||||
82636674|NCT00195702|164987953|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
82518365|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|3.2||||1|TWO_SIDED|95.0|-151.0|63.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||63.20|-151|1.0000
82571428|NCT00469456|164852433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.07||95.0|-0.1|2.8|||ANCOVA|||The primary efficacy parameter was change from Baseline to Week 12 in FLCI total score. Missing FLCI total scores at Week 12 were imputed using the last-observation-carried-forward (LOCF) approach.||2.8|-0.1|0.070
82518366|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|44.0||||0.3809|TWO_SIDED|95.0|-120.0|88.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||88.00|-120|0.3809
82571429|NCT00469456|164852434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.022||95.0|0.9|10.9|||ANCOVA|||The secondary efficacy parameter was change from Baseline at Week 12 in the total score of the Social Communication subscale and Communication of Basic Needs subscale of the ASHA FACS. Missing scores at week 12 were imputed using the last-observation-carried-forward (LOCF) approach.||10.9|0.9|0.022
82571430|NCT02669407|164852449|OTHER|Single group|||||<|0.001|||||||Tukey's method|||||||<0.001
82571431|NCT02669407|164852450|OTHER|Single group||||||0.001|||||||Tukey's method|||Baseline, 30 minutes||||0.001
82571432|NCT02669407|164852451|OTHER|Single group||||||0.007|||||||Tukey's method|||baseline, 30 minutes||||0.007
82571433|NCT02669407|164852455|OTHER|Single group||||||0.237|||||||t-test, 2 sided|||Change in left ventricular end diastolic dimension||||0.237
82571434|NCT02669407|164852455|OTHER|Single group||||||0.586|||||||t-test, 2 sided|||Change in left ventricular end systolic dimension||||0.586
82571435|NCT02669407|164852456|OTHER|Single group||||||0.175|||||||t-test, 2 sided|||||||0.175
82571436|NCT02669407|164852458|OTHER|Single group||||||0.061|||||||t-test, 2 sided|||||||0.061
82571437|NCT02669407|164852459|OTHER|Single group||||||0.787|||||||t-test, 2 sided|||||||0.787
82571438|NCT02669407|164852461|OTHER|Single group||||||0.606|||||||t-test, 2 sided|||Baseline, 90 minutes||||0.606
82571439|NCT02669407|164852461|OTHER|Single group||||||0.045|||||||t-test, 2 sided|||Baseline, 24 hours||||0.045
82636675|NCT00195702|164987953|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82636676|NCT00195702|164987954|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82636677|NCT00195702|164987954|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82518367|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|39.1||||0.549|TWO_SIDED|95.0|-140.0|86.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group).||86.90|-140|0.5490
82518368|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-46.3||||0.3239|TWO_SIDED|95.0|-249.0|36.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||36.20|-249|0.3239
82636678|NCT00195702|164987955|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Normality was evaluated by applying the Shapiro-Wilk test to residuals from the parametric model. The final analysis was performed using a parametric approach.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change from baseline in the HAQ at Week 52 tested last. The difference among all treatment groups was assessed using ANCOVA with the baseline value as the covariate. If this was significant (p\<=0.05), pairwise comparisons between each adalimumab dose group and placebo were evaluated using the same method.||||<0.001
82636679|NCT00195702|164987955|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Normality was evaluated by applying the Shapiro-Wilk test to residuals from the parametric model. The final analysis was performed using a parametric approach.|ANCOVA|||The 3 primary efficacy variables were considered in a hierarchical order, with the change from baseline in the HAQ at Week 52 tested last. The difference among all treatment groups was assessed using ANCOVA with the baseline value as the covariate. If this was significant (p\<=0.05), pairwise comparisons between each adalimumab dose group and placebo were evaluated using the same method.||||<0.001
82636680|NCT00195702|164987956|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82636681|NCT00195702|164987956|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82636682|NCT00195702|164987958|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82636683|NCT00195702|164987958|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82636684|NCT00195702|164987962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82636685|NCT00195702|164987962|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82636686|NCT00134563|164987978|SUPERIORITY_OR_OTHER||Relative risk reduction (%)|31.5||||0.0005||||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with Teriflunomide 14 mg compared to placebo|"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and placebo~* H2: No difference between Teriflunomide 7 mg and placebo~The study was sized to detect a 25% relative risk reduction with teriflunomide in the 2-year relapse rate at a significance level of 0.050 with a power ≥95% anticipating a potential 20% 2-year dropout rate."||||0.0005
82636687|NCT00134563|164987978|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|31.2||||0.0002||||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with Teriflunomide 7 mg compared to placebo|||||0.0002
82636688|NCT00134563|164987979|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|29.8||||0.0279||||||"Step down approach:~* H1 tested only if both comparisons on the primary outcome measure were statistically significant~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative risk reduction with Teriflunomide 14 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and placebo~* H2: No difference between Teriflunomide 7 mg and placebo~The study was also sized to detect a 37% hazard rate reduction of an assumed disability progression hazard rate of 0.1783 in the placebo group and 0.1116 in the teriflunomide group by the end of 2 years with a power of 80% anticipating a potential 20% 2-year dropout rate."||||0.0279
82636689|NCT00134563|164987979|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|23.7||||0.0835||||||"Step down approach:~* H1 tested only if both comparisons on the primary outcome measure were statistically significant~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative risk reduction with Teriflunomide 7 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|||||0.0835
82636690|NCT00134563|164987980|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||Mixed-effect model with repeated measures \[MMRM\] on cubic root transformed total lesion volume data (treatment group, region of enrollment, baseline EDSS stratum, visit, treatment-by-visit interaction, baseline value (cubic root transformed) and baseline-by-visit interaction).||||0.0003
82636691|NCT00134563|164987980|SUPERIORITY_OR_OTHER|||||||0.0317||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||Mixed-effect model with repeated measures \[MMRM\] on cubic root transformed total lesion volume data (treatment group, region of enrollment, baseline EDSS stratum, visit, treatment-by-visit interaction, baseline value (cubic root transformed) and baseline-by-visit interaction).||||0.0317
82636692|NCT00134563|164987983|SUPERIORITY_OR_OTHER|||||||0.8271||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||||||0.8271
82636693|NCT00134563|164987983|SUPERIORITY_OR_OTHER|||||||0.3861||||||"A priori threshold for statistical significance ≤0.05~No adjustment for multiple comparisons"|t-test, 2 sided|2-sided t-test on baseline adjusted least-square means||||||0.3861
82518369|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|47.6||||0.2184|TWO_SIDED|95.0|-54.5|84.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 1 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||84.10|-54.5|0.2184
82636694|NCT02839330|164988007|EQUIVALENCE|Equivalence margin: The 2-sided 95% confidence interval (CI) of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|1.01|||||TWO_SIDED|95.0|0.9|1.13||||||aH5N1c Lot #1 vs. aH5N1c Lot #2||1.13|0.90|
82636695|NCT02839330|164988007|EQUIVALENCE|Equivalence margin: The 2-sided 95% CIs of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|0.96|||||TWO_SIDED|95.0|0.86|1.08||||||aH5N1c Lot #2 vs. aH5N1c Lot #3||1.08|0.86|
82636696|NCT02839330|164988007|EQUIVALENCE|Equivalence margin: The 2-sided 95% CIs of all the 3 pairwise comparisons of GMTs to fall between the predefined equivalence ranges of 0.667 and 1.5|GMT ratio|0.97|||||TWO_SIDED|95.0|0.87|1.09||||||aH5N1c Lot #1 vs. aH5N1c Lot #3||1.09|0.87|
82636697|NCT00218439|164988019|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82636698|NCT00218439|164988020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
82636699|NCT00218439|164988021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
82636700|NCT00218439|164988022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|||||||Mixed Models Analysis|||||||0.33
82636701|NCT00218439|164988023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
82636702|NCT00883896|164988024|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-5.9||||0.558|TWO_SIDED|95.0|-25.0|13.3|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided Cochran-Mantel-Haenszel (CMH) test stratified by anti-tumor necrosis factor (anti-TNF) prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||13.3|-25.0|0.558
82636703|NCT00883896|164988024|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-11.4||||0.251|TWO_SIDED|95.0|-30.1|7.3|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.3|-30.1|0.251
82518370|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-116.8||||0.0724|TWO_SIDED|95.0|-476.0|10.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||10.30|-476|0.0724
82636704|NCT00883896|164988024|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.7||||0.707|TWO_SIDED|95.0|-21.7|14.4|||Cochran-Mantel-Haenszel|||P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.4|-21.7|0.707
82636705|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.1||||0.991|TWO_SIDED|95.0|-14.8|14.7|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.7|-14.8|0.991
82636706|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-4.8||||0.518|TWO_SIDED|95.0|-18.4|8.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||8.8|-18.4|0.518
82636707|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Perecent Difference|0.781||||0.63|TWO_SIDED|95.0|-16.9|9.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.8|-16.9|0.630
82636708|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|9.4||||0.295|TWO_SIDED|95.0|-8.3|27.0|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||27.0|-8.3|0.295
82518371|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-81.0||||0.2055|TWO_SIDED|95.0|-393.0|27.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 2 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||27.90|-393|0.2055
82518372|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|-18.4||||0.8138|TWO_SIDED|95.0|-245.0|57.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||57.90|-245|0.8138
82518373|NCT02207816|164730241|SUPERIORITY||Vaccine efficacy|24.4||||0.7887|TWO_SIDED|95.0|-148.0|78.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) against prevalent moderate anemia assessed at Year 3 was estimated as 1-RR, where RR is the risk ratio (proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group).||78.40|-148|0.7887
82518374|NCT02207816|164730242|SUPERIORITY||Vaccine efficacy|40.5||||0.0077|TWO_SIDED|95.0|12.84|59.39|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||59.39|12.84|0.0077
82518375|NCT02207816|164730242|SUPERIORITY||Vaccine efficacy|-4.52||||0.7922|TWO_SIDED|95.0|-45.3|24.8|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||24.80|-45.3|0.7922
82518376|NCT02207816|164730242|SUPERIORITY||Vaccine efficacy|29.03||||0.0802|TWO_SIDED|95.0|-4.22|51.67|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||51.67|-4.22|0.0802
82518377|NCT02207816|164730242|SUPERIORITY||Vaccine efficacy|33.87||||0.0387|TWO_SIDED|95.0|2.13|55.32|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||55.32|2.13|0.0387
82571440|NCT00704171|164852462|SUPERIORITY_OR_OTHER|||||||0.257|||||||Fisher Exact|||Primary objective was to demonstrate superiority of PleuraSeal as an adjunct compared to standard of care alone. Tissue closure rates for the treatment and control groups were assumed to be 0.40 and 0.15, respectively. To achieve 80 percent power (alpha=0.05, 2-tailed, Fisher's Exact Test) required 112 completed subjects. To account for potential subject withdrawals, an additional 8 subjects were to be enrolled for a total of 120 randomized subjects (approx. 60 per treatment group).||||0.257
82571441|NCT00704171|164852463|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|two-sided||||||<0.001
82571442|NCT00704171|164852464|SUPERIORITY_OR_OTHER|||||||0.79|||||||Kaplan-Meier|Kaplan-Meier method was used to obtain estimated median times for each treatment group and the log-rank test was used to compare the two treatments.||||||0.790
82571443|NCT00704171|164852465|SUPERIORITY_OR_OTHER|||||||0.559|||||||2-sample t-test|||||||0.559
82571444|NCT00704171|164852466|SUPERIORITY_OR_OTHER|||||||0.292|||||||2-sample t-test|||||||0.292
82571445|NCT00704171|164852467|SUPERIORITY_OR_OTHER|||||||0.53||||||For subgroup with pre-randomization air leak grade of 1|Fisher Exact|||||||0.53
82571446|NCT00704171|164852467|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||For subgroup with pre-randomization air leak grade of 2 or 3|Fisher Exact|||||||.013
82636709|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Perecent Difference|-3.4||||0.686|TWO_SIDED|95.0|-19.3|12.5|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||12.5|-19.3|0.686
82518378|NCT02207816|164730243|SUPERIORITY||Vaccine efficacy|36.69||||0.0028|TWO_SIDED|95.0|14.6|53.07|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||53.07|14.60|0.0028
82571447|NCT03634839|164852468|SUPERIORITY||Mean Difference (Final Values)|-5.184||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||0.053
82571448|NCT03634839|164852469|SUPERIORITY||Mean Difference (Final Values)|-1.881||||0.187|TWO_SIDED||||||t-test, 2 sided|||Outcome analyses will be intent-to-treat and using mixed-effects models with flavor as a within-subject factor. A significant main effect of flavor with greater liking of sweet plus cooling flavor than sweet minus cooling flavor will be considered supportive of our hypotheses.||||0.187
82571449|NCT03634839|164852470|SUPERIORITY||Mean Difference (Final Values)|-0.286||||0.135|TWO_SIDED||||||t-test, 2 sided|||||||0.135
82571450|NCT03634839|164852471|SUPERIORITY||Mean Difference (Final Values)|1.942||||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.210
82571451|NCT01664923|164852521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.181|0.32||P-value based on log-rank test stratified by disease stage at study entry as reported on the case report form (CRF).|Log Rank||Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.320|0.181|<0.0001
82571452|NCT01664923|164852522|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.137|0.264||P-value based on log-rank test stratified by disease stage at study entry as reported on the CRF.|Log Rank||Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.264|0.137|<0.0001
82571453|NCT01664923|164852523|SUPERIORITY_OR_OTHER||Difference in rates|50.0|||<|0.0001|TWO_SIDED|95.0|41.4|58.5|||Cochran-Mantel-Haenszel|Comparison of the 2 treatment groups using the Cochran-Mantel-Haenszel mean score test stratified by disease stage at study entry.|Enzalutamide response rate minus bicalutamide response rate.|||58.5|41.4|<0.0001
82571454|NCT01664923|164852524|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.324|||<|0.0001|TWO_SIDED|95.0|0.211|0.497|||Log Rank|P-value is based on an unstratified log-rank test.|Hazard ratio is based on an unstratified Cox-regression model (with treatment as the only covariate) and is relative to bicalutamide with \< 1 favoring enzalutamide.|||0.497|0.211|<0.0001
82571455|NCT01664923|164852525|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.4945|TWO_SIDED|95.0|0.695|1.192||This secondary endpoint was not adjusted for multiple comparisons.|Log Rank|P-value is based on a log-rank test stratified by disease stage at study entry.|Hazard ratio is based on a Cox regression model (with treatment as the only covariate) stratified by disease stage at study entry and is relative to bicalutamide with \< 1 favoring enzalutamide.|||1.192|0.695|0.4945
82571456|NCT01664923|164852526|SUPERIORITY_OR_OTHER||Difference in objective response rate|46.05|||<|0.0001|TWO_SIDED|95.0|26.79|65.3||This secondary endpoint was not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Based on unstratified Cochran-Mantel-Haenszel mean score test.||||65.30|26.79|<0.0001
82571457|NCT01086384|164852528|SUPERIORITY_OR_OTHER||Regression Cox|0.795|||||TWO_SIDED|95.0|0.642|0.985|||||The estimated values is the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|||0.985|0.642|
82571458|NCT01086384|164852528|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|15.9||||0.036|TWO_SIDED|95.0|13.5|18.2||P-value for the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|Regression, Cox||The estimated value represents the adjusted probability of 1 or more severe asthma exacerbations by Week 52 for FF 100 µg. Cox Proportional Hazards Model estimate at mean Baseline FEV1, age, and proportional coefficients for sex and region.|||18.2|13.5|0.036
82518379|NCT02207816|164730243|SUPERIORITY||Vaccine efficacy|10.14||||0.443|TWO_SIDED|95.0|-18.1|31.64|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||31.64|-18.1|0.4430
82518380|NCT02207816|164730243|SUPERIORITY||Vaccine efficacy|30.99||||0.0245|TWO_SIDED|95.0|4.67|50.04|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||50.04|4.67|0.0245
82518381|NCT02207816|164730243|SUPERIORITY||Vaccine efficacy|34.24||||0.0122|TWO_SIDED|95.0|8.74|52.61|||Negative binomial regression|Mixed model without random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of severe malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||52.61|8.74|0.0122
82518382|NCT02207816|164730244|SUPERIORITY||Vaccine efficacy|23.67|||<|0.0001|TWO_SIDED|95.0|15.93|30.71|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||30.71|15.93|<.0001
82518383|NCT02207816|164730244|SUPERIORITY||Vaccine efficacy|19.15|||<|0.0001|TWO_SIDED|95.0|10.81|26.71|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[5-17M\] Group over the total number of events/follow-up time in the VeroRab Comparator \[5-17M\] Group).||26.71|10.81|<.0001
82636710|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.772|TWO_SIDED|95.0|-13.2|18.2|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.2|-13.2|0.772
82636711|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|12.8||||0.201|TWO_SIDED|95.0|-6.5|32.0|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||32.0|-6.5|0.201
82636712|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-10.4||||0.256|TWO_SIDED|95.0|-27.3|6.5|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.5|-27.3|0.256
82636713|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|6.1||||0.519|TWO_SIDED|95.0|-11.4|23.5|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||23.5|-11.4|0.519
82518384|NCT02207816|164730244|SUPERIORITY||Vaccine efficacy|15.55||||0.0009|TWO_SIDED|95.0|6.72|23.54|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||23.54|6.72|0.0009
82518385|NCT02207816|164730244|SUPERIORITY||Vaccine efficacy|13.15||||0.0056|TWO_SIDED|95.0|4.05|21.39|||Negative binomial regression|Mixed model with over-dispersion parameter estimated from the random effect \[Lievens, 2011\].||Vaccine efficacy (VE)/incidence comparison against all episodes of clinical malaria were estimated as 1-incidence ratio (IR; total number of events/follow-up time in the GSK257049 Comparator \[6-12W\] Group over the total number of events/follow-up time in the Menjugate Comparator \[6-12W\] Group).||21.39|4.05|0.0056
82518386|NCT02207816|164730245|SUPERIORITY||Vaccine efficacy|35.5||||0.0053|TWO_SIDED|95.0|10.0|54.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||54.00|10.00|0.0053
82518387|NCT02207816|164730245|SUPERIORITY||Vaccine efficacy|11.7||||0.4255|TWO_SIDED|95.0|-20.0|35.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||35.20|-20.0|0.4255
82518388|NCT02207816|164730245|SUPERIORITY||Vaccine efficacy|29.2||||0.0479|TWO_SIDED|95.0|-2.4|51.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||51.40|-2.40|0.0479
82518389|NCT02207816|164730245|SUPERIORITY||Vaccine efficacy|18.1||||0.2346|TWO_SIDED|95.0|-16.9|42.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||42.80|-16.9|0.2346
82636714|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|16.7||||0.094|TWO_SIDED|95.0|-1.9|35.2|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||35.2|-1.9|0.094
82518390|NCT02207816|164730246|SUPERIORITY||Vaccine efficacy|35.9||||0.0051|TWO_SIDED|95.0|10.3|54.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||54.40|10.30|0.0051
82571459|NCT01086384|164852528|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|12.8||||0.036|TWO_SIDED|95.0|10.7|14.9||P-value for the Hazard ratio obtained from the Cox regression analysis for FF/VI 100/25 µg versus FF 100 µg, adjusted for an interim analysis.|Regression, Cox||The estimated value represents the adjusted probability of 1 or more severe asthma exacerbations by Week 52 for FF/VI 100/25 µg. Cox Proportional Hazards Model estimate at mean Baseline FEV1, age, and proportional coefficients for sex and region.|||14.9|10.7|0.036
82571460|NCT01196819|164852531|NON_INFERIORITY|Non-inferiority margin is 0.13mm, if the two-sided upper 95% confidence bound is \<Δ, the Firehawk Stent being tested will be considered non-inferior to the control. This corresponds to a P value \<0.05 from a two-sided Student t-test comparing the difference between FirehawkStent and Xience stent to delta.|Mean Difference (Final Values)|0.17||||0.94|TWO_SIDED|95.0|0.0|0.29|||ANCOVA|||H0: Pe - Pc≥ ∆, H1: Pe - Pc \< ∆. Pe and Pc are the mean 9-month in-stent late loss for the subject in the Firehawk DES group and the Xience group, respectively. ∆ is the non-inferiority margin. A two-sided upper 95% confidence bound will be calculated for the difference in 9-month in-stent late loss .||0.29|0|0.94
82571461|NCT01196819|164852532|NON_INFERIORITY|Assume the in-stent percent diameter stenosis of both FIREHAWK and XIENCE V are 16 ± 16%, the non-inferiority value is 5%, the level of statistical significance is 0.05 (bilateral test), the power is 85%.||||||0.69|||||||Mixed Models Analysis|||||||0.69
82571462|NCT01196819|164852533|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82571463|NCT01196819|164852534|OTHER|||||||0.76|||||||Fisher Exact|||||||0.76
82571464|NCT01196819|164852535|OTHER|||||||0.77|||||||Fisher Exact|||||||0.77
82571465|NCT01196819|164852536|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82571466|NCT00817336|164852626|SUPERIORITY_OR_OTHER||Cohen's d|0.8||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
82636715|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.8||||0.76|TWO_SIDED|95.0|-14.4|20.1|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||20.1|-14.4|0.760
82571467|NCT00817336|164852627|SUPERIORITY||Cohen's d|2.3||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
82571468|NCT00817336|164852628|SUPERIORITY_OR_OTHER||Cohen's d|0.41||||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||.31
82636716|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.6||||0.95|TWO_SIDED|95.0|-16.8|18.0|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.0|-16.8|0.950
82571469|NCT00817336|164852629|SUPERIORITY||Cohen's d|0.41||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||.41
82571470|NCT00935259|164852656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_DEVIATION|52.1||0.455||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||||||0.455
82571471|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.7||||0.014||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 16:00||||0.014
82571472|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 18:3n3||||<0.001
82571473|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.217||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 20:3n6||||0.217
82571474|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.666||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 20:3n9||||0.666
82571475|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.776||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 22:5n6||||0.776
82571476|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.018||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Cholesterol Ester 22:6n3||||0.018
82571477|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.152||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Lysophosphatidylcholine 20:4n6||||0.152
82571478|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-132.1||||0.007||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 18:2n6||||0.007
82571479|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8||||0.325||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 20:3n6||||0.325
82571480|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.3||||0.419||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 20:4n6||||0.419
82571481|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.07||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 22:5n3||||0.070
82571482|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.769||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylcholine 22:5n6||||0.769
82571483|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Phosphatidylethanolamine 18:2n6||||<0.001
82571484|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-240.8||||0.016||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Triacylglycerol 16:00||||0.016
82571485|NCT00935259|164852657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.833||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Triacylglycerol 20:3n9||||0.833
82571486|NCT00935259|164852658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.027||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Fasted||||0.027
82571487|NCT00935259|164852658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||<|0.001||95.0||||Endpoint was analyzed as appropriate for a 2-period crossover model using a mixed model with fixed terms of period and treatment with participants as a random factor.|Mixed Models Analysis|An unstructured covariance and Kenward Roger degrees of freedom were assumed.||Fed||||<0.001
82636717|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|13.6||||0.185|TWO_SIDED|95.0|-5.9|33.0|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||33.0|-5.9|0.185
82571488|NCT00935259|164852660|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Mixed Models Analysis|||Cholesterol ester c20:4n6 / c20:3n6||||0.247
82571489|NCT00935259|164852660|SUPERIORITY_OR_OTHER|||||||0.151||95.0|||||Mixed Models Analysis|||Cholesterol ester c20:5n3 / c20:4n3||||0.151
82571490|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-2.99|STANDARD_ERROR_OF_MEAN|0.81||0.0002|TWO_SIDED|95.0|-4.58|-1.4|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance (ANCOVA) model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-1.40|-4.58|0.0002
82571491|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-3.78|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|-5.38|-2.17|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-2.17|-5.38|<.0001
82571492|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-6.07|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|-7.77|-4.36|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-4.36|-7.77|<.0001
82571493|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-6.68|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-8.28|-5.09|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-5.09|-8.28|<.0001
82571494|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-7.79|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-9.42|-6.16|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-6.16|-9.42|<.0001
82571495|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-5.98|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-7.61|-4.35|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-4.35|-7.61|<.0001
82518391|NCT02207816|164730246|SUPERIORITY||Vaccine efficacy|14.0||||0.334|TWO_SIDED|95.0|-17.3|37.1|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||37.10|-17.3|0.3340
82636718|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.2||||0.982|TWO_SIDED|95.0|-18.8|19.3|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||19.3|-18.8|0.982
82636719|NCT00883896|164988025|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-11.6||||0.223|TWO_SIDED|95.0|-29.0|5.8|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.8|-29.0|0.223
82518392|NCT02207816|164730246|SUPERIORITY||Vaccine efficacy|28.5||||0.0511|TWO_SIDED|95.0|-2.9|50.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Meenjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||50.50|-2.90|0.0511
82518393|NCT02207816|164730246|SUPERIORITY||Vaccine efficacy|20.3||||0.1729|TWO_SIDED|95.0|-13.5|44.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Meenjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||44.20|-13.5|0.1729
82518394|NCT02207816|164730249|SUPERIORITY||Vaccine efficacy|50.1||||0.6244|TWO_SIDED|95.0|-859.0|99.2|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||99.20|-859|0.6244
82518395|NCT02207816|164730249|SUPERIORITY||Vaccine efficacy|-5.7||||1|TWO_SIDED|95.0|-1358.0|92.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group) over the entire follow-up period (from Year 0 to Year 3).||92.30|-1358|1.0000
82518396|NCT02207816|164730249|SUPERIORITY||Vaccine efficacy|-188.9||||0.6244|TWO_SIDED|95.0|-15000.0|76.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||76.80|-15000|0.6244
82518397|NCT02207816|164730249|SUPERIORITY||Vaccine efficacy|3.1||||1|TWO_SIDED|95.0|-7509.0|98.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group) over the entire follow-up period (from Year 0 to Year 3).||98.80|-7509|1.0000
82518398|NCT02207816|164730250|SUPERIORITY||Vaccine efficacy|-98.8||||0.6869|TWO_SIDED|95.0|-2098.0|71.5|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||71.50|-2098|0.6869
82518399|NCT02207816|164730250|SUPERIORITY||Vaccine efficacy|-406.0||||0.0213|TWO_SIDED|95.0|-4650.0|-7.8|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||-7.80|-4650|0.0213
82518400|NCT02207816|164730251|SUPERIORITY||Vaccine efficacy|-98.8||||1|TWO_SIDED|95.0|-12000.0|89.6|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||89.60|-12000|1.0000
82518401|NCT02207816|164730251|SUPERIORITY||Vaccine efficacy|-304.8||||0.2154|TWO_SIDED|95.0|-20000.0|59.9|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||59.90|-20000|0.2154
82518402|NCT02207816|164730252|SUPERIORITY||Vaccine efficacy|-24.3||||1|TWO_SIDED|95.0|-526.0|73.3|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||73.30|-526|1.0000
82518403|NCT02207816|164730252|SUPERIORITY||Vaccine efficacy|-77.1||||0.3834|TWO_SIDED|95.0|-725.0|55.0|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[5-17M\] Group over the proportion in VeroRab Comparator \[5-17M\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||55.00|-725|0.3834
82518404|NCT02207816|164730252|SUPERIORITY||Vaccine efficacy|-297.5||||0.374|TWO_SIDED|95.0|-19000.0|60.7|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||60.70|-19000|0.3740
82518405|NCT02207816|164730252|SUPERIORITY||Vaccine efficacy|-498.1||||0.124|TWO_SIDED|95.0|-27000.0|27.4|||Two-sided Fisher Exact test|||Vaccine efficacy (VE) was estimated as 1-the risk ratio (RR; proportion of subjects reporting events in the GSK257049 Comparator \[6-12W\] Group over the proportion in Menjugate Comparator \[6-12W\] Group), from Month 0 (study start of Malaria-055) to Year 3 (study end of Malaria-076).||27.40|-27000|0.1240
82518406|NCT01227681|164730280|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||Null hypothesis: there is significant deterioration of UPDRS part III scores from baseline to post G-CSF injection one year||||0.64
82518407|NCT00434057|164730288|SUPERIORITY_OR_OTHER||Sensitivity to melanoma|98.0||||0.05||95.0|95.1|100.0|||exact mid-P||"Of 127 melanomas, 114 melanomas had a pre-biopsy diagnosis of Melanoma can not be ruled out or Not melanoma, which qualified them for primary endpoint analysis of sensitivity. MelaFind correctly identified 112/114 melanomas."|MelaFind's sensitivity to cutaneous melanoma and 95% confidence intervals were determined.||100|95.1|0.05
82571496|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|2.99|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|1.38|4.6|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||4.60|1.38|0.0003
82518408|NCT00434057|164730288|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||Specificty of MelaFind and examining dermatologists on the same set of pigmented skin lesions.||||0.02
82636720|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.5||||0.885|TWO_SIDED|95.0|-6.8|5.8|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.8|-6.8|0.885
82636721|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|6.1||||0.18|TWO_SIDED|95.0|-3.4|15.6|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||15.6|-3.4|0.180
82636722|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-2.7||||0.277|TWO_SIDED|95.0|-6.5|1.1|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||1.1|-6.5|0.277
82636723|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|1.7||||0.74|TWO_SIDED|95.0|-7.9|11.3|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.3|-7.9|0.740
82636724|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.4||||0.934|TWO_SIDED|95.0|-9.3|10.1|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||10.1|-9.3|0.934
82636725|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.6||||0.876|TWO_SIDED|95.0|-7.7|6.4|||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.4|-7.7|0.876
82636726|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.1||||0.842|TWO_SIDED|95.0|-11.4|9.2|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.2|-11.4|0.842
82636727|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.1||||0.509|TWO_SIDED|95.0|-8.1|16.3|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||16.3|-8.1|0.509
82636728|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.0||||0.504|TWO_SIDED|95.0|-7.0|15.0|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||15.0|-7.0|0.504
82636729|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.4||||0.373|TWO_SIDED|95.0|-6.3|17.0|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||17.0|-6.3|0.373
82636730|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.4||||0.499|TWO_SIDED|95.0|-12.0|5.2|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.2|-12.0|0.499
82636731|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|7.0||||0.244|TWO_SIDED|95.0|-4.2|18.3|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||18.3|-4.2|0.244
82518409|NCT03814889|164730306|OTHER|||||||0.00025|||||||Wilcoxon Signed-Rank|Paired, ordinal data||||||0.00025
82518410|NCT03814889|164730307|OTHER|||||||0.0014|||||||Wilcoxon Signed-Rank|||||||0.0014
82518411|NCT03814889|164730308|OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
82636732|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.2||||0.979|TWO_SIDED|95.0|-15.0|14.6|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.6|-15.0|0.979
82518412|NCT03814889|164730309|OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
82518413|NCT03814889|164730312|OTHER|||||||0.001|||||||Wilcoxcon Signed-Ranks|||||||0.001
82518414|NCT00373334|164730329|SUPERIORITY_OR_OTHER|||||||0.528||95.0|||||Cochran-Mantel-Haenszel|||||||0.528
82518415|NCT00373334|164730329|SUPERIORITY_OR_OTHER|||||||0.341||95.0|||||Cochran-Mantel-Haenszel|||||||0.341
82518416|NCT00373334|164730330|SUPERIORITY_OR_OTHER|||||||0.746||95.0|||||Chi-squared|||Comparison of nizatidine 2.5 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.746
82636733|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-9.8||||0.166|TWO_SIDED|95.0|-21.8|2.2|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||2.2|-21.8|0.166
82518417|NCT00373334|164730330|SUPERIORITY_OR_OTHER|||||||0.262||95.0|||||Chi-squared|||Comparison of nizatidine 5.0 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.262
82518418|NCT00373334|164730331|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Chi-squared|||Comparison of nizatidine 2.5 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.609
82518419|NCT00373334|164730331|SUPERIORITY_OR_OTHER|||||||0.938||95.0|||||Chi-squared|||Comparison of nizatidine 5.0 group to placebo group. P-value is for overall difference between groups (not comparison of individual categories).||||0.938
82518420|NCT01059565|164730420|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|0.91||||0.663|TWO_SIDED|95.0|-3.24|5.06||"To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.~A gate-keeping procedure to control family-wise Type 1 error was established a priori for primary and key secondary endpoints."|ANCOVA|Baseline was included as a covariate in this model.||"The primary analysis was a test for superiority. Null hypothesis was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.~A sample size of 50 participants per group provided at least 80% power to detect an 8.5% difference in mean AUCave of relative change from baseline in FEV1 % predicted through Week 24 using a two-sided 0.05-level test, assuming a common standard deviation of 15."||5.06|-3.24|0.663
82518421|NCT01059565|164730421|SUPERIORITY_OR_OTHER|||||||0.4158||||||To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.|Negative binomial regression|The negative binomial regression model included an offset parameter which accounted for potential differing study durations due to discontinuations.||The primary analysis was a test for superiority. Null hypothesis was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.4158
82518422|NCT01059565|164730422|SUPERIORITY_OR_OTHER||Difference in LSM|0.18||||0.939|TWO_SIDED|95.0|-4.43|1.78||To correct for multiplicity, a family alpha spending rule was used to control the type 1 error rate of alpha=0.05.|ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||1.78|-4.43|0.939
82518423|NCT01059565|164730423|SUPERIORITY_OR_OTHER||Difference in LSM|0.77||||0.711|TWO_SIDED|95.0|-3.33|4.86|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||4.86|-3.33|0.711
82518424|NCT01059565|164730424|SUPERIORITY_OR_OTHER||Difference in LSM|0.6||||0.762|TWO_SIDED|95.0|-3.3|4.49|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||4.49|-3.30|0.762
82518425|NCT01059565|164730425|SUPERIORITY_OR_OTHER||Difference in LSM|1.95||||0.553|TWO_SIDED|95.0|-4.54|8.44|||ANCOVA|The AUCs of changes from baseline were compared between treatment groups using ANCOVA methods with baseline value as a covariate.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||8.44|-4.54|0.553
82518426|NCT01059565|164730426|SUPERIORITY_OR_OTHER||Difference in LSM|2.99||||0.17|TWO_SIDED|95.0|-1.2|7.28|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||7.28|-1.20|0.170
82518427|NCT01059565|164730427|SUPERIORITY_OR_OTHER||Difference in LSM|-2.57||||0.528|TWO_SIDED|95.0|-10.62|5.49|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||5.49|-10.62|0.528
82518428|NCT01059565|164730428|SUPERIORITY_OR_OTHER||Difference in LSM|3.62||||0.132|TWO_SIDED|95.0|-1.11|8.34|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||8.34|-1.11|0.132
82518429|NCT01059565|164730429|SUPERIORITY_OR_OTHER||Difference in LSM|0.14||||0.531|TWO_SIDED|95.0|-0.29|0.56|||Mixed Models Analysis|P-value was based on a Mixed-Effect Model Repeated Measure model that included terms for treatment, visit, baseline, and treatment/visit interaction.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||0.56|-0.29|0.531
82518430|NCT01059565|164730430|SUPERIORITY_OR_OTHER||Difference in LSM|0.93||||0.232|TWO_SIDED|95.0|-0.62|2.48|||ANCOVA|Baseline was included as a covariate in this model.||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||2.48|-0.62|0.232
82518431|NCT01059565|164730431|SUPERIORITY_OR_OTHER|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.103
82518432|NCT01059565|164730432|SUPERIORITY_OR_OTHER|||||||0.646|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.646
82518433|NCT01059565|164730433|SUPERIORITY_OR_OTHER|||||||0.284|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference between the AZLI and placebo treatment groups versus the alternative hypothesis that there was a difference.||||0.284
82518434|NCT00121238|164730445|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
82518435|NCT02105948|164730491|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.82|||=|0.036|TWO_SIDED|95.0|0.68|0.98||Adjusted p-value to account for two treatment comparisons|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted for FEV1,smoking status and offset of log (time in on-and off-treatment period)|||0.98|0.68|=0.036
82518436|NCT02105948|164730491|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.82|||=|0.029|TWO_SIDED|95.0|0.68|0.98||Unadjusted p-value.|Negative binomial mode||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||0.98|0.68|=0.029
82518437|NCT02105948|164730492|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.98|||>|0.999|TWO_SIDED|95.0|0.85|1.12||Adjusted p-value to account for two treatment comparisons|Negative Binomial Model||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||1.12|0.85|>0.999
82518438|NCT02105948|164730492|SUPERIORITY||Rate ratio (mepolizumab/placebo)|0.98|||=|0.731|TWO_SIDED|95.0|0.85|1.12||Unadjusted p-value.|Negative binomial mode||Analysis using a negative binomial model with covariates of treatment, geographic region, no.of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period)|||1.12|0.85|=0.731
82518439|NCT02105948|164730493|SUPERIORITY||Hazard ratio (Mepolizumab/placebo)|0.75|||=|0.036|TWO_SIDED|95.0|0.6|0.94||Adjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.94|0.60|=0.036
82518440|NCT02105948|164730493|SUPERIORITY||Hazard ratio (Mepolizumab/placebo)|0.75|||=|0.012|TWO_SIDED|95.0|0.6|0.94||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.94|0.60|=0.012
82518441|NCT02105948|164730494|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.16|||=|0.598|TWO_SIDED|95.0|0.77|1.75||Adjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.75|0.77|=0.598
82518442|NCT02105948|164730494|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.16|||=|0.479|TWO_SIDED|95.0|0.77|1.75||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.75|0.77|=0.479
82518443|NCT02105948|164730495|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|0.2|||>|0.999|TWO_SIDED|95.0|-2.8|3.2||Adjusted p-value|Mixed Model Repeated Measure Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||3.2|-2.8|>0.999
82518444|NCT02105948|164730495|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|0.2|||=|0.901|TWO_SIDED|95.0|-2.8|3.2||Unadjusted p-value|Mixed Model Repeated Measure Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||3.2|-2.8|=0.901
82518445|NCT02105948|164730496|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|-0.8|||>|0.999|TWO_SIDED|95.0|-2.0|0.5||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.5|-2.0|>0.999
82518446|NCT02105948|164730496|SUPERIORITY||Mean Difference (Mepolizumab - Placebo)|-0.8|||=|0.244|TWO_SIDED|95.0|-2.0|0.5||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.5|-2.0|=0.244
82518447|NCT02105948|164730497|SUPERIORITY||Hazard ratio (Mepolizumab/Placebo)|0.89|||>|0.999|TWO_SIDED|95.0|0.75|1.05||Adjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.05|0.75|>0.999
82518448|NCT02105948|164730497|SUPERIORITY||Hazard ratio (Mepolizumab/Placebo)|0.89|||=|0.16|TWO_SIDED|95.0|0.75|1.05||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.05|0.75|=0.160
82518449|NCT02105948|164730498|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.1|||>|0.999|TWO_SIDED|95.0|0.81|1.49||Adjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.49|0.81|>0.999
82518450|NCT02105948|164730498|SUPERIORITY||Rate ratio (mepolizumab/placebo)|1.1|||=|0.556|TWO_SIDED|95.0|0.81|1.49||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off-treatment period).|||1.49|0.81|=0.556
82518451|NCT02105948|164730499|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|0.7|||>|0.999|TWO_SIDED|95.0|-1.5|2.9||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.9|-1.5|>0.999
82571497|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|2.2|STANDARD_ERROR_OF_MEAN|0.83||0.0082|TWO_SIDED|95.0|0.57|3.84|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||3.84|0.57|0.0082
82518452|NCT02105948|164730499|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|0.7|||=|0.532|TWO_SIDED|95.0|-1.5|2.9||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline SGRQ Total Score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.9|-1.5|=0.532
82518453|NCT02105948|164730500|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|-0.6|||>|0.999|TWO_SIDED|95.0|-1.5|0.4||Adjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.4|-1.5|>0.999
82518454|NCT02105948|164730500|SUPERIORITY||Mean difference (Mepolizumab - Placebo)|-0.6|||=|0.252|TWO_SIDED|95.0|-1.5|0.4||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.4|-1.5|=0.252
82518455|NCT03762135|164730620|SUPERIORITY|||||||0.044||||||This relates to the entirety of the 6-week period.|GEE Linear Regression|Generalized Estimation Equation Linear Regression||||||0.044
82518456|NCT01358526|164730629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.163||0.0055|TWO_SIDED|95.0|0.13|0.77||A gate-keeping strategy and a Bonferroni-Holm method was used to control the family-wise (primary and secondary efficacy analysis) error rate at the 5% level.|Mixed Models Analysis|Mixed-model repeated measures analysis of pain data using a pattern mixture model framework||||0.77|0.13|0.0055
82518457|NCT01358526|164730630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|2.26||0.0191|TWO_SIDED|95.0|0.9|9.8|||Mixed Models Analysis|Mixed-model repeated measures analysis|Mean difference (final values) is the treatment comparison estimated using mixed model repeated measures analysis with effect for treatment, time (weeks 4, 8, 12), treatment by time interaction, and prerandomization value. Subject is a random effect.|||9.8|0.9|0.0191
82518458|NCT01358526|164730631|SUPERIORITY_OR_OTHER|||||||0.0002||||||"The proportion of subjects responding much improved and very much improved was summarized by treatment group and compared between groups using an exact test"|Fisher Exact|||||||0.0002
82518459|NCT01358526|164730632|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test: responder as dependent variable, treatment as explanatory variable, dose at time of randomization as stratifying factor||Proportion of subjects with a response to treatment that is ≥ 30%||||0.0006
82518460|NCT01358526|164730633|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test: responder as dependent variable, treatment as explanatory variable, dose at time of randomization as stratifying factor||Proportion of subjects with a response to treatment that is ≥ 50%||||0.0018
82518461|NCT01462344|164730634|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority comparison was statistically significant if the upper bound of the two-sided 95% CI falls below 2.675, the non-inferiority margin, and the non-inferiority test one-sided p-value \<0.025.|Hazard Ratio (HR)|1.285||||0.006|TWO_SIDED|95.0|0.726|2.272|||Regression, Cox||Estimated for Hazard ratio|||2.272|0.726|0.006
82518462|NCT01462344|164730634|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0019|||||TWO_SIDED|95.0|-0.0024|0.0063|||||Estimated for Absolute risk difference|||0.0063|-0.0024|
82518463|NCT01462344|164730635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.859|||||TWO_SIDED|95.0|0.729|1.012|||||Estimated for Hazard ratio|||1.012|0.729|
82518464|NCT00809757|164730652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||||TWO_SIDED|95.0|-1.412|0.342|||||Difference is Placebo MDI minus Levalbuterol UDV|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations.||0.342|-1.412|
82518465|NCT00809757|164730652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-1.714|0.335|||||Difference is Levalbuterol UDV minus Levalbuterol MDI|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations||0.335|-1.714|
82636734|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.5||||0.947|TWO_SIDED|95.0|-13.2|14.2|||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||14.2|-13.2|0.947
82518466|NCT00809757|164730652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-1.08|0.771|||||Difference is Levalbuterol UDV minus Levalbuterol MDI|195 subjects were randomized in order to achieve 150 subjects completing the study. The sample size was set based on FDA requirements, and was outside of statistical considerations.||0.771|-1.080|
82518467|NCT03069482|164730741|SUPERIORITY||Slope|1.063|STANDARD_DEVIATION|3.377|=|0.754|TWO_SIDED||||||ANOVA|||||||=0.754
82518468|NCT03069482|164730742|SUPERIORITY||Risk Ratio (RR)|2.103|STANDARD_DEVIATION|0.369||0.044|TWO_SIDED|95.0|1.2|2.6|||Mixed Models Analysis|Zero inflated negative binomial mixed methods regression.||||2.6|1.2|0.044
82518469|NCT03069482|164730743|OTHER||Percent accrual relative to target N|102.0|||||TWO_SIDED||||||||||The goal of this outcome was to determine whether the trial could reach its enrollment target (90 participants).|||
82518470|NCT03069482|164730744|OTHER||Percent retention relative to target|98.3|||||TWO_SIDED||||||||||We calculated the percent of retained participants relative to the retention target (N = 62)|||
82518471|NCT03069482|164730745|OTHER||Percent of respondents|58.0|||||TWO_SIDED|||||||||||||
82518472|NCT03069482|164730747|SUPERIORITY||Trimmed mean difference|8.29574|STANDARD_ERROR_OF_MEAN|2.11||0.046|TWO_SIDED|95.0|0.138|16.453|||Yuen's trimmed mean t-test|||||16.453|0.138|0.046
82518473|NCT03069482|164730748|SUPERIORITY||Trimmed mean difference|7.79514|STANDARD_ERROR_OF_MEAN|2.16||0.109|TWO_SIDED|95.0|-1.867|17.457|||Yuen's trimmed means t-test|||||17.457|-1.867|0.109
82571498|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-0.09|STANDARD_ERROR_OF_MEAN|0.88||0.9209|TWO_SIDED|95.0|-1.82|1.64|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||1.64|-1.82|0.9209
82636735|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|8.3||||0.286|TWO_SIDED|95.0|-7.1|23.8|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||23.8|-7.1|0.286
82518474|NCT03069482|164730749|SUPERIORITY||Trimmed mean difference|2.22222|STANDARD_ERROR_OF_MEAN|1.75||0.50537|TWO_SIDED|95.0|-4.492|8.943|||Yuen's trimmed means t-test|||||8.943|-4.492|0.50537
82518475|NCT03069482|164730750|SUPERIORITY||Trimmed mean difference|5.83333|STANDARD_ERROR_OF_MEAN|2.3||0.27411|TWO_SIDED|95.0|-4.88|16.54|||Yuen's trimmed means t-test|||||16.54|-4.88|0.27411
82518476|NCT01461668|164730796|SUPERIORITY||Odds Ratio (OR)|0.41||||0.32|TWO_SIDED|95.0|0.08|1.86|||Fisher Exact||Confidence interval for the odds ratio is based upon the inversion Fisher's exact test|||1.86|0.08|0.320
82518477|NCT01760239|164730800|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
82518478|NCT01760239|164730801|SUPERIORITY||Odds Ratio (OR)|2.36||||0.046|TWO_SIDED||||||Mixed Models Analysis|||||||.046
82518479|NCT01760239|164730802|SUPERIORITY||Odds Ratio (OR)|5.13||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
82636736|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.6||||0.822|TWO_SIDED|95.0|-15.0|11.8|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.8|-15.0|0.822
82636737|NCT00883896|164988026|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.1||||0.986|TWO_SIDED|95.0|-12.3|12.1|||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||12.1|-12.3|0.986
82636738|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
82636739|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.188|TWO_SIDED|95.0|-2.3|7.3|||Cochran-Mantel-Haenszel|||Week 2:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.3|-2.3|0.188
82636740|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 2: Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||0.0|0.0|
82636741|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|1.1||||0.699|TWO_SIDED|95.0|-4.5|6.6|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.6|-4.5|0.699
82636742|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.4||||0.155|TWO_SIDED|95.0|-3.0|13.8|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||13.8|-3.0|0.155
82636743|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.0||||0.546|TWO_SIDED|95.0|-2.9|0.9|||Cochran-Mantel-Haenszel|||Week 4:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||0.9|-2.9|0.546
82636744|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 6:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
82636745|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.2||||0.269|TWO_SIDED|95.0|-1.8|6.1|||Cochran-Mantel-Haenszel|||Week 6:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||6.1|-1.8|0.269
82636746|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.723|TWO_SIDED|95.0|-1.6|5.6|||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.6|-1.6|0.723
82636747|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.5||||0.205|TWO_SIDED|95.0|-2.3|7.4|||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.4|-2.3|0.205
82636748|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 8: Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the cochran method.||0.0|0.0|
82636749|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|4.0||||0.125|TWO_SIDED|95.0|-1.3|9.4|||Cochran-Mantel-Haenszel|||Week 8:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||9.4|-1.3|0.125
82518480|NCT01983293|164730803|SUPERIORITY|||||||0.001|ONE_SIDED|95.0|||||Fisher Exact|||||||0.001
82518481|NCT03248739|164730812|EQUIVALENCE|Based on occlusion data from the previously referenced prospective study, as well as a P-value of 0.05 and power of 0.80, the study will need to include 90 patients to demonstrate statistical significance. To ensure that power is adequate, we will plan to enroll 120 patients (60 in each arm).||||||0.23|||||||Fisher Exact|||||||0.23
82518482|NCT00321854|164731102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.9||0.6503||95.0|-2.2|1.4|||ANCOVA|||||1.4|-2.2|0.6503
82518483|NCT00321854|164731103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.9||0.9568||95.0|-1.7|1.8|||ANCOVA|||||1.8|-1.7|0.9568
82636750|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|5.0||||0.071|TWO_SIDED|95.0|-1.7|11.8|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||11.8|-1.7|0.071
82636751|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.317|TWO_SIDED|95.0|-1.2|5.1|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.1|-1.2|0.317
82636752|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|2.0||||0.28|TWO_SIDED|95.0|-1.6|5.6|||Cochran-Mantel-Haenszel|||Week 10:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||5.6|-1.6|0.280
82518484|NCT00321854|164731104|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-6.3|-3.2|||ANCOVA|||||-3.2|-6.3|<0.0001
82518485|NCT00321854|164731105|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001||95.0|-5.8|-3.0|||ANCOVA|||||-3|-5.8|<0.0001
82518486|NCT00321854|164731106|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.1|-1.7|||ANCOVA|||||-1.7|-4.1|<0.0001
82518487|NCT00321854|164731107|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.9||0.8693||95.0|-1.8|1.5|||ANCOVA|||||1.5|-1.8|0.8693
82518488|NCT00321854|164731108|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.9||0.8155||95.0|-1.5|1.9|||ANCOVA|||||1.9|-1.5|0.8155
82518489|NCT00321854|164731109|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-6.0|-3.0|||ANCOVA|||||-3|-6|<0.0001
82518490|NCT00321854|164731110|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001||95.0|-5.4|-2.6|||ANCOVA|||||-2.6|-5.4|<0.0001
82518491|NCT00321854|164731111|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-3.9|-1.7|||ANCOVA|||||-1.7|-3.9|<0.0001
82518492|NCT00321854|164731112|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7999||95.0|-1.5|1.1|||ANCOVA|||||1.1|-1.5|0.7999
82518493|NCT00321854|164731113|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7395||95.0|-1.1|1.5|||ANCOVA|||||1.5|-1.1|0.7395
82518494|NCT00321854|164731114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.5|-2.2|||ANCOVA|||||-2.2|-4.5|<0.0001
82518495|NCT00321854|164731115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-4.0|-1.8|||ANCOVA|||||-1.8|-4|<0.0001
82518496|NCT00321854|164731116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.5||0.0002||95.0|-2.7|-0.9|||ANCOVA|||||-0.9|-2.7|0.0002
82518497|NCT00321854|164731117|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9256||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.9256
82518498|NCT00321854|164731118|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9792||95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.9792
82518499|NCT00321854|164731119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.3||0.0001||95.0|-1.7|-0.5|||ANCOVA|||||-0.5|-1.7|0.0001
82518500|NCT00321854|164731120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|-1.6|-0.6|||ANCOVA|||||-0.6|-1.6|<0.0001
82518501|NCT00321854|164731121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.5|-0.6|||ANCOVA|||||-0.6|-1.5|<0.0001
82518502|NCT00321854|164731122|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0376||95.0|-0.5|0.0|||ANCOVA|||||0|-0.5|0.0376
82518503|NCT00321854|164731123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1607||95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.1607
82518504|NCT00321854|164731124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0173||95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|0.0173
82518505|NCT00321854|164731125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0007||95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0007
82518506|NCT00321854|164731126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4381||95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.4381
82518507|NCT00321854|164731127|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.796||||0.5116||95.0|0.403|1.573|||Regression, Logistic|||||1.573|0.403|0.5116
82518508|NCT00321854|164731128|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.153||||0.7913||95.0|0.403|3.299|||Regression, Logistic|||The ordinal responses (3 levels) were analysed using the proportional odds model extension of logistic regression||3.299|0.403|0.7913
82518509|NCT00321854|164731129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1702||95.0|-1.3|0.2|||ANCOVA|||||0.2|-1.3|0.1702
82518510|NCT00321854|164731130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.0009||95.0|-2.2|-0.6|||ANCOVA|||||-0.6|-2.2|0.0009
82518511|NCT00321854|164731131|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.4||0.0005||95.0|-2.1|-0.6|||ANCOVA|||||-0.6|-2.1|0.0005
82518512|NCT00321854|164731132|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0422||95.0|-1.4|0.0|||ANCOVA|||||0|-1.4|0.0422
82518513|NCT00321854|164731133|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.573||||0.2149||95.0|-1.823|0.677|||Wilcoxon (Mann-Whitney)|||||0.677|-1.823|0.2149
82518514|NCT00321854|164731134|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.031||||0.0001||95.0|-3.125|-0.938|||Wilcoxon (Mann-Whitney)|||||-0.938|-3.125|0.0001
82518515|NCT00321854|164731135|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.2605||95.0|0.0|0.026|||Wilcoxon (Mann-Whitney)|||||0.026|0|0.2605
82518516|NCT00321854|164731136|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.051|||<|0.0001||95.0|0.0|0.089|||Wilcoxon (Mann-Whitney)|||||0.089|0|<0.0001
82518517|NCT00321854|164731137|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.0||||0.0489||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|0|0.0489
82518518|NCT00321854|164731138|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.0||||0.0282||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|0|0.0282
82518519|NCT00321854|164731154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|2.5||0.8397||95.0|-5.4|4.4|||ANCOVA|||||4.4|-5.4|0.8397
82518520|NCT04723576|164731159|OTHER|Standard 2-sided non-equivalence test|Mean Difference (Net)|0.189||||0.77|TWO_SIDED|95.0|-1.068|1.446|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||1.446|-1.068|.77
82518521|NCT04723576|164731160|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.238||||0.39|TWO_SIDED|95.0|-0.31|0.785|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.785|-0.310|.39
82518522|NCT04723576|164731161|OTHER|Standard 2-sided non-equivalence test|Mean Difference (Net)|-0.232||||0.24|TWO_SIDED|95.0|-0.618|0.153|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.153|-0.618|.24
82518523|NCT04723576|164731162|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.134||||0.23|TWO_SIDED|95.0|-0.085|0.352|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.352|-0.085|.23
82518524|NCT04723576|164731163|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|-0.051||||0.44|TWO_SIDED|95.0|-0.179|0.078|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care.|||0.078|-0.179|.44
82518525|NCT04723576|164731164|OTHER|Standard 2-sided non-equivalence test|Odds Ratio, log|-0.051||||0.85|TWO_SIDED|95.0|-0.179|0.078|||Repeated measure logistic regression|using GEE method|Effect sizes are the difference between SFA minus Usual Care.|||0.078|-0.179|.85
82518526|NCT04723576|164731165|OTHER|Standard 2-sided non-equivalence test|Median Difference (Net)|0.23||||0.08|TWO_SIDED|95.0|-0.025|0.484|||Mixed Models Analysis||Effect sizes are the difference between SFA minus Usual Care|||0.484|-0.025|.08
82518527|NCT00413153|164731166|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||Initial samples size of N=16 calculated to provide 80% power to detect a 30% change in muscle glucose uptake between groups. Student's t-test used to compare change from baseline and determine treatment effect (net difference over time between the ATV/r vs. LPV/r groups).||||0.035
82518528|NCT00413153|164731167|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Repeated measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs. LPV/r)||||0.12
82518529|NCT00413153|164731168|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.002
82518530|NCT00413153|164731169|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Repeated measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.02
82518531|NCT00413153|164731170|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|||||||0.047
82636753|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|0.6||||0.892|TWO_SIDED|95.0|-7.6|8.8|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||8.8|-7.6|0.892
82636754|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-0.5||||0.903|TWO_SIDED|95.0|-8.3|7.2|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||7.2|-8.3|0.903
82636755|NCT00883896|164988027|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-1.7||||0.625|TWO_SIDED|95.0|-7.2|3.8|||Cochran-Mantel-Haenszel|||Week 12:P-value was assessed from 2-sided CMH test stratified by anti-TNF prior use and geographic region of the site. Treatment group differences and the corresponding confidence intervals adjusted for stratification were calculated using the Cochran method.||3.8|-7.2|0.625
82636756|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.900
82636757|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.522
82636758|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.147|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.147
82636759|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.534|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.534
82636760|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.206|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.206
82636761|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Cochran-Mantel-Haenszel|||Week 2: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.070
82636762|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.936|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.936
82636763|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.625
82518532|NCT00413153|164731171|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.72
82636764|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.586|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.586
82636765|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.685
82518533|NCT00413153|164731172|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.22
82518534|NCT00413153|164731173|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Repeated Measures Ancova|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.004
82518535|NCT00413153|164731174|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Repeated Measures ANCOVA|||Repeated measures ANCOVA, controlling for baseline values, used to assess treatment effect of the randomization over 6 months (net difference over time between ATV/r vs.LPV/r).||||0.0002
82518536|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|5.73|||<|0.001|TWO_SIDED|95.0|4.46|7.36|||Regression, Logistic||BPA+HMT is the numerator|Passive control was set as the reference group.||7.36|4.46|<.001
82518537|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|4.87|||<|0.001|TWO_SIDED|95.0|3.79|6.27|||Regression, Logistic||BPA-only is the numerator|Passive control was set as the reference group.||6.27|3.79|<.001
82518538|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.19|||Regression, Logistic||HMT-only is the numerator|Passive control was set as the reference group.||2.19|1.28|<.001
82518539|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|3.43|||<|0.001|TWO_SIDED|95.0|2.73|4.29|||Regression, Logistic||BPA+HMT is the numerator|HMT was set as the reference group.||4.29|2.73|<.001
82518540|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|2.92|||<|0.001|TWO_SIDED|95.0|2.32|3.66|||Regression, Logistic||BPA-only is the numerator|HMT was set as the reference group.||3.66|2.32|<.001
82518541|NCT04118348|164731261|SUPERIORITY||Odds Ratio (OR)|1.17||||0.114|TWO_SIDED|95.0|0.96|1.43|||Regression, Logistic||BPA+HMT is the numerator|BPA was set as the reference group.||1.43|0.96|.114
82636766|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.340
82636767|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212|||||||Cochran-Mantel-Haenszel|||Week 4: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.212
82636768|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.455|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.455
82636769|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.145|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.145
82636770|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.660
82636771|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.050
82571499|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-0.7|STANDARD_ERROR_OF_MEAN|0.83||0.396|TWO_SIDED|95.0|-2.33|0.92|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||0.92|-2.33|0.3960
82636772|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.428|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.428
82636773|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|||||||Cochran-Mantel-Haenszel|||Week 6: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.160
82636774|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.757|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.757
82636775|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.408|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.408
82636776|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.983|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.983
82636777|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.374
82636778|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.992
82636779|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|||||||Cochran-Mantel-Haenszel|||Week 8: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.422
82636780|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.743|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.743
82636781|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.188|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.188
82636782|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.385|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.385
82636783|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.148
82636784|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.304|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.304
82571500|NCT03856047|164852672|SUPERIORITY||Treatment difference (%-points)|-1.81|STANDARD_ERROR_OF_MEAN|0.84||0.0316|TWO_SIDED|95.0|-3.46|-0.16|||ANCOVA|||Week 26 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline (week 0) body weight as covariate. For each treatment arm, multiple (x1000) imputation of intermittend missing data was done using Markov Chain Monte Carlo, followed by sequential regression for monotone missing values of body weight including sex and region as factors.||-0.16|-3.46|0.0316
82636785|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552|||||||Cochran-Mantel-Haenszel|||Week 10: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.552
82636786|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.494|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.494
82636787|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.421|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.421
82636788|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.418|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.418
82636789|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.235|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.235
82636790|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.268|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.268
82636791|NCT00883896|164988039|SUPERIORITY_OR_OTHER_LEGACY|||||||0.957|||||||Cochran-Mantel-Haenszel|||Week 12: P-value was assessed from 2-sided stratified CMH row mean test by anti-TNF prior use and geographic region of the site.||||0.957
82636792|NCT00661362|164988124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.55|-0.29|||ANCOVA|||||-0.29|-0.55|<0.0001
82636793|NCT00661362|164988125|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.149|<|0.0002|TWO_SIDED|95.0|-0.85|-0.26|||ANCOVA|||||-0.26|-0.85|<0.0002
82636794|NCT00661362|164988126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.1|STANDARD_ERROR_OF_MEAN|2.684|<|0.0002|TWO_SIDED|95.0|-15.37|-4.83|||ANCOVA|||||-4.83|-15.37|<0.0002
82636795|NCT00661362|164988127|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-155.0|STANDARD_ERROR_OF_MEAN|55.0||0.0052|TWO_SIDED|95.0|-264.0|-47.0|||ANCOVA|||||-47|-264|0.0052
82636796|NCT00661362|164988128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2802.0|STANDARD_ERROR_OF_MEAN|989.8||0.0052|TWO_SIDED|95.0|-4753.0|-852.0|||ANCOVA|||||-852|-4753|0.0052
82636797|NCT00661362|164988129|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.1|||<|0.0001|TWO_SIDED|95.0|8.0|24.0|||ANCOVA|||||24.0|8.0|<0.0001
82442359|NCT01719003|164593291|SUPERIORITY_OR_OTHER||Adjusted Mean|-2.26|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-3.09|-1.43||Since previous step in the hierarchical testing failed (primary measure analyses 9 and 10), the analyses for secondary measures of FPG and body weight are considered exploratory and not confirmatory|Mixed Models Analysis|'Baseline HbA1c':linear covariate;'treatment','baseline renal function','region','visit' \& 'visit by treatment interaction':fixed effects.|Empagliflozin 5 mg bid + Metformin 500 mg bid minus Metformin 500 mg bid|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach comparing the change from baseline of body weight after 24 weeks of double-blind treatment.||-1.43|-3.09|<0.0001
82442360|NCT00882908|164593292|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|13.0||||0.051|TWO_SIDED|97.5|-1.9|28.0|||Regression, Logistic||Difference in percentages of participants in the TMC435 75mg and placebo groups with undetectable plasma Hepatitis C virus ribonucleic acid levels at end of treatment (EOT) and at Week 72 estimated from the logistic regression model.|TMC435 75 mg 12 and 24 week treatment groups were pooled and the percentage of participants acheiving SVRW72 were compared with the percentage of participants acheiving SVRW72 in the placebo treatment group.||28.0|-1.9|0.051
82518542|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|2.9|||<|0.001|TWO_SIDED|95.0|2.02|4.15|||Regression, Logistic||BPA+HMT is the numerator|Passive control was set as the reference group.||4.15|2.02|<.001
82518543|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.001|TWO_SIDED|95.0|1.57|3.3|||Regression, Logistic||BPA-only is the numerator|Passive control was set as the reference group.||3.30|1.57|<.001
82518544|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|1.54||||0.03|TWO_SIDED|95.0|1.04|2.27|||Regression, Logistic||HMT-only is the numerator|Passive control was set as the reference group.||2.27|1.04|.030
82518545|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|1.88|||<|0.001|TWO_SIDED|95.0|1.37|2.59|||Regression, Logistic||BPA+HMT is the numerator|HMT was set as the reference group.||2.59|1.37|<.001
82518546|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|1.48||||0.021|TWO_SIDED|95.0|1.06|2.06|||Regression, Logistic||BPA-only is the numerator|HMT was set as the reference group.||2.06|1.06|.021
82518547|NCT04118348|164731262|SUPERIORITY||Odds Ratio (OR)|1.27||||0.107|TWO_SIDED|95.0|0.95|1.71|||Regression, Logistic||BPA+HMT is the numerator|BPA was set as the reference group.||1.71|0.95|.107
82518548|NCT04420221|164731322|SUPERIORITY||Vaccine Efficacy (VE)|-74.76||||0.8042||92.5|-680.61|36.62|||Log Rank|One-sided Group Sequential Design with non-binding beta, yielding two CIs based on cumulative alpha (92.5%) and beta (80.5%) spending|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||36.62|-680.61|0.8042
82518549|NCT04420221|164731323|OTHER||Vaccine Efficacy (VE)|-38.09|||||TWO_SIDED|95.0|-245.77|40.86|||||Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||40.86|-245.77|
82518550|NCT04420221|164731324|OTHER||Vaccine Efficacy (VE)|-75.52|||||TWO_SIDED|95.0|-295.41|17.46|||||Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio times 100.|||17.46|-295.41|
82571501|NCT01721746|164852728|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.68|1.08|||||From stratified cox proportional hazard model with treatment group as a single covariate, stratified by BRAF status, prior anti-CTLA-4 benefit, and PD-L1 status (IVRS source)|Hazard Ratio is Nivolumab 3 mg/kg (IV) over Investigator's Choice (Dacarbazine or Carboplatin+Paclitaxel)||1.08|0.68|
82571502|NCT01721746|164852729|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.1|0.78|1.36|||||Stratified Cox proportional hazard model.|Hazard Ratio is Nivolumab 3 mg/kg (IV) over Investigator's Choice (Dacarbazine or Carboplatin+Paclitaxel)||1.36|0.78|
82571503|NCT01721746|164852730|SUPERIORITY||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.44|3.16||||||For \<5% PD-L1 expression. Ratio of Nivolumab over Investigator's Choice||3.16|0.44|
82571504|NCT01721746|164852730|SUPERIORITY||Odds Ratio (OR)|5.49|||||TWO_SIDED|95.0|1.92|19.08||||||For \>=5% PD-L1 expression. Ratio of Nivolumab over Investigator's Choice||19.08|1.92|
82571505|NCT01721746|164852731|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.5|1.01|||||From unstratified Cox proportional hazard model|PD-L1 Positive||1.01|0.50|
82571506|NCT01721746|164852732|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.75|1.41|||||From unstratified Cox proportional hazard model|PD-L1 Negative||1.41|0.75|
82571507|NCT02601209|164852735|OTHER||Maximum Tolerated Dose (mg)|30.0|||||TWO_SIDED|||||||||||||
82571508|NCT02601209|164852736|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.1419|ONE_SIDED|85.0||1.7|||Log Rank|1-sided statistical test and p-value||||1.70||0.1419
82571509|NCT01185171|164852751|NON_INFERIORITY|The power of the study was conducted as a two-stage, non-inferiority phase II trial with a total sample size of 59 patients to detect a 15% lower rate than 80% achieved with TFHX, with alpha = 0.05 and beta = 0.20. In the first stage, 25 patients were recruited, with a plan to terminate if 16 or less complete responses (CR) were observed. Otherwise, additional 34 patients would be recruited and the treatment would be deemed not inferior to historical if more than 45 CRs were observed.|proportion|0.88|||<|0.01|TWO_SIDED|95.0|0.77|0.95||Ho: CR rate = 0.65 vs Ha: CR rate \> 0.65|Binomial test for a proportion|||||0.95|0.77|< 0.01
82571510|NCT00953199|164852831|SUPERIORITY_OR_OTHER|||||||0.45||||||.05 was set as level of significance|Chi-squared|||We calculated the sample size to be 570 in each arm, providing 80% power, allocation 1:1, two-sided, alpha 0.05, withdrawal rate of 3% and a reduction in pancreatitis from 8% to 4%. Randomization is performed with permuted blocks of 20. Analysis is based on intention to treat.||||.45
82571511|NCT00097669|164852833|SUPERIORITY|"We used Kaplan-Meier methods to construct cumulative time-to-event curves for the two groups, with a comparison by use of the log-rank test.~We used a Cox proportional hazard model analysis to control for any potential imbalance in baseline characteristics and follow-up between the two groups."|Risk Ratio (RR)|0.91||||0.05|TWO_SIDED|95.0|0.82|1.0|||Log Rank|||||1.00|0.82|0.05
82571512|NCT00097669|164852833|SUPERIORITY||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.81|1.0|||Regression, Cox|Analysis before adjusting for any potential imbalance in the baseline characteristics and follow-up duration between the groups.||||1.00|0.81|<0.05
82636798|NCT03802331|164988133|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R (%)|166.02|||||TWO_SIDED|90.0|143.17|192.53|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 19.0.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||192.53|143.17|
82571513|NCT00097669|164852833|SUPERIORITY||Hazard Ratio (HR)|0.91|||<|0.05|TWO_SIDED|95.0|0.81|1.03|||Regression, Cox|Analysis after adjusting for any potential imbalance in the baseline characteristics and follow-up duration between the groups.||||1.03|0.81|<0.05
82571514|NCT03151551|164852847|SUPERIORITY||Rate Difference|8.1||||0.036|TWO_SIDED|95.0|0.5|15.8|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 24.||15.8|0.5|0.036
82571515|NCT03151551|164852848|NON_INFERIORITY|If the lower bound of the 2-sided 95% confidence Interval (CI) for the difference in proportions of responders on IXE minus ADA is greater than the pre-specified margin -12%, IXE will be deemed non-inferior to ADA.|Rate Difference|3.9|||||TWO_SIDED|95.0|-4.3|12.1||||||||12.1|-4.3|
82571516|NCT03151551|164852849|SUPERIORITY||Rate Difference|13.4||||0.001|TWO_SIDED|95.0|5.3|21.6|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 24.||21.6|5.3|0.001
82571517|NCT03151551|164852850|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.725||0.155|TWO_SIDED|95.0|-2.46|0.39|||Mixed Models Analysis|||||0.39|-2.46|0.155
82571518|NCT03151551|164852851|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.249||0.823|TWO_SIDED|95.0|-0.54|0.43|||Mixed Models Analysis|||||0.43|-0.54|0.823
82571519|NCT03151551|164852852|SUPERIORITY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|2.104||0.752|TWO_SIDED|95.0|-4.8|3.47|||Mixed Models Analysis|||||3.47|-4.80|0.752
82571520|NCT03151551|164852853|SUPERIORITY||Mean Difference (Final Values)|-2.79|STANDARD_ERROR_OF_MEAN|2.06||0.177|TWO_SIDED|95.0|-6.83|1.26|||Mixed Models Analysis|||||1.26|-6.83|0.177
82571521|NCT03151551|164852854|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|1.391||0.332|TWO_SIDED|95.0|-4.08|1.38|||Mixed Models Analysis|||||1.38|-4.08|0.332
82571522|NCT03151551|164852855|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.599||0.592|TWO_SIDED|95.0|-0.86|1.5|||Mixed Models Analysis|||||1.50|-0.86|0.592
82571523|NCT03151551|164852856|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.045||0.176|TWO_SIDED|95.0|-0.15|0.03|||Mixed Models Analysis|||||0.03|-0.15|0.176
82636799|NCT03802331|164988134|OTHER|Relative bioavailability|Ajusted Geometric Mean Ratio T/R (%)|235.5|||||TWO_SIDED|90.0|179.82|308.42|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 35.4.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||308.42|179.82|
82383311|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
82518551|NCT02219932|164731325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.006|TWO_SIDED|95.0|1.15|2.26|||Regression, Logistic||fampridine vs. placebo|Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||2.26|1.15|0.006
82518552|NCT02219932|164731325|SUPERIORITY_OR_OTHER||Risk Difference for Adjusted Proportions|0.104|||||TWO_SIDED|95.0|0.03|0.178||||||Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||0.178|0.030|
82636800|NCT03802331|164988135|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R (%)|159.39|||||TWO_SIDED|90.0|140.11|181.34|||||The Adjusted Geometric Mean is adjusted by treatment. Geometric coefficient of variation (gCV) = 16.5.|This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period, and treatment.||181.34|140.11|
82442361|NCT00882908|164593292|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|18.9||||0.004|TWO_SIDED|97.5|4.4|33.5|||Regression, Logistic||Difference in percentages of participants in the TMC435 150mg and placebo groups with undetectable plasma Hepatitis C virus ribonucleic acid levels at end of treatment (EOT) and at Week 72 estimated from the logistic regression model.|TMC/PR 150 mg 12 and 24 week treatment groups were pooled and the percentage of participants achieving SVRW72 was compared the percentage of participants achieving SVRW72 in the placebo treatment group.||33.5|4.4|0.004
82518553|NCT02219932|164731325|SUPERIORITY_OR_OTHER||Relative Risk|1.38|||||TWO_SIDED|95.0|1.06|1.7||||||Based on logistic regression, adjusting for baseline MSWS-12 score, baseline TUG speed, age, screening Expanded Disability Status Scale (EDSS) score and prior aminopyridine. Missing data handled by multiple imputation. Hypothesis testing was performed at the 2-sided 5% significance level overall, with adjustment for testing multiple secondary endpoints.||1.70|1.06|
82518554|NCT02219932|164731326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.03|TWO_SIDED|95.0|1.04|2.07|||Regression, Logistic|||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||2.07|1.04|0.030
82518555|NCT02219932|164731326|SUPERIORITY_OR_OTHER||Risk Difference for Adjusted Proportions|0.092|||||TWO_SIDED|95.0|0.009|0.175||||||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||0.175|0.009|
82518556|NCT02219932|164731326|SUPERIORITY_OR_OTHER||Relative Risk|1.25|||||TWO_SIDED|95.0|0.99|1.51||||||Based on logistic regression, adjusting for baseline TUG speed, screening EDSS score and prior aminopyridine. Missing data were handled using multiple imputation.||1.51|0.99|
82518557|NCT02219932|164731327|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.31|STANDARD_ERROR_OF_MEAN|0.925|<|0.001|TWO_SIDED|95.0|-5.13|-1.5|||mixed model for repeated measures|||||-1.50|-5.13|< 0.001
82518558|NCT02219932|164731328|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.277||0.141|TWO_SIDED|95.0|-0.13|0.95|||mixed model for repeated measures|||||0.95|-0.13|0.141
82518559|NCT02219932|164731329|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.573||0.197|TWO_SIDED|95.0|-0.38|1.86|||mixed model for repeated measures|||||1.86|-0.38|0.197
82518560|NCT04313634|164731345|SUPERIORITY|||||||0.611|||||||Wilcoxon (Mann-Whitney)|||||||0.611
82518561|NCT04313634|164731346|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82518562|NCT04313634|164731347|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82518563|NCT04313634|164731348|SUPERIORITY|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
82518564|NCT04313634|164731350|SUPERIORITY|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
82518565|NCT01201629|164731352|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82518566|NCT01201629|164731353|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82518567|NCT03825380|164731355|NON_INFERIORITY|"Primary tested:Non-inferiority of T4032 to Lumigan® on the change from baseline in IOP using a MMRM. 3 independent models will be performed, one for each time point (8:00, 10:00~\& 16:00). The 95% CI for treatment effect (difference T4032 - Lumigan) will be estimated at Wk 12. NI will be achieved if the upper bound of the 95% CI for the difference between treatment groups (T4032 - Lumigan) is lower than the margin of +1.5 mmHg for each of the 3 time points 8:00, 10:00 \& 16:00."|Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.23||0.453|TWO_SIDED|95.0|-0.62|0.28|||Mixed Models Analysis|||||0.28|-0.62|0.453
82518568|NCT02558010|164731360|SUPERIORITY||||||<|0.05||||||The p-value was calculated, and does not indicate the threshold for statistical significance.|Mixed Models Analysis|||||||<0.05
82518569|NCT00762320|164731367|SUPERIORITY_OR_OTHER||||||=|0.004|||||||t-test, 2 sided|df=4||||||=.004
82518570|NCT00762320|164731372|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|df=7||||||<.001
82518571|NCT03980470|164731379|SUPERIORITY|||||||0.198|||||||ANOVA|||||||0.198
82518572|NCT03980470|164731380|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
82518573|NCT03980470|164731381|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
82518574|NCT03980470|164731382|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82518575|NCT03980470|164731383|OTHER|Bland-Altmann analysis (bias)|Mean Difference (Final Values)|-1.42|||||TWO_SIDED|||||||||||||
82636801|NCT00368069|164988137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.155||||0.038||95.0|0.009|0.301|||ANCOVA|Analysis of covariance (ANCOVA) on (log-) POS freq/week over Treatment period with Treatment, (log-) Baseline POS freq/week as covariate.||||0.301|0.009|0.038
82571524|NCT03151551|164852857|SUPERIORITY||Rate Difference|13.1|||<|0.001|TWO_SIDED|95.0|5.4|20.7|||Regression, Logistic|||After data lock and initial analysis run, a medical inconsistency in baseline PASI data was identified (PASI=0 but BSA≥3%). The scenario was not anticipated or described in protocol or SAP. The inconsistency was resolved using medical judgment. The impacted participants had met baseline criteria for active psoriasis. Therefore, in the primary analysis, participants with baseline PASI=0 \& BSA≥3% were considered PASI100 responders if, and only if, PASI=0 \& BSA=0 achieved at week 52.||20.7|5.4|<0.001
82571525|NCT03151551|164852858|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.091||0.368|TWO_SIDED|95.0|-0.26|0.1|||Mixed Models Analysis|||||0.10|-0.26|0.368
82571526|NCT03151551|164852859|SUPERIORITY||Rate Difference|6.4||||0.108|TWO_SIDED|95.0|-1.8|14.5|||Regression, Logistic|||MDA-18 Entheseal Points||14.5|-1.8|0.108
82571527|NCT03151551|164852859|SUPERIORITY||Rate Difference|5.3||||0.179|TWO_SIDED|95.0|-2.9|13.5|||Regression, Logistic|||MDA-6 Entheseal Points||13.5|-2.9|0.179
82571528|NCT03151551|164852860|SUPERIORITY||Rate Difference|-1.1||||0.846|TWO_SIDED|95.0|-8.9|6.7|||Regression, Logistic|||||6.7|-8.9|0.846
82571529|NCT03151551|164852861|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.83|-0.16|||Mixed Models Analysis|||||-0.16|-0.83|0.004
82571530|NCT03151551|164852862|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.305||0.687|TWO_SIDED|95.0|-0.48|0.72|||Mixed Models Analysis|||||0.72|-0.48|0.687
82571531|NCT03151551|164852863|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.144||0.507|TWO_SIDED|95.0|-0.19|0.38|||Mixed Models Analysis|||||0.38|-0.19|0.507
82571532|NCT03151551|164852864|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|14.951||0.82|TWO_SIDED|95.0|-32.78|25.99|||Mixed Models Analysis|||||25.99|-32.78|0.820
82571533|NCT03151551|164852865|SUPERIORITY||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.79||0.052|TWO_SIDED|95.0|-3.09|0.02|||Mixed Models Analysis|||||0.02|-3.09|0.052
82571534|NCT03151551|164852866|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.949||0.005|TWO_SIDED|95.0|-4.57|-0.84|||Mixed Models Analysis|||||-0.84|-4.57|0.005
82571535|NCT03151551|164852867|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.202||0.158|TWO_SIDED|95.0|-0.68|0.11|||Mixed Models Analysis|||||0.11|-0.68|0.158
82571536|NCT03151551|164852868|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.21||0.711|TWO_SIDED|95.0|-0.49|0.33|||Mixed Models Analysis|||||0.33|-0.49|0.711
82571537|NCT03151551|164852869|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.674||0.439|TWO_SIDED|95.0|-0.8|1.85|||Mixed Models Analysis|||||1.85|-0.80|0.439
82571538|NCT03151551|164852870|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.86||0.594|TWO_SIDED|95.0|-1.23|2.15|||Mixed Models Analysis|||||2.15|-1.23|0.594
82571539|NCT03151551|164852871|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.017||0.979|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|||||0.03|-0.03|0.979
82571540|NCT03151551|164852872|SUPERIORITY||Mean Difference (Final Values)|4.78|STANDARD_ERROR_OF_MEAN|1.782||0.008|TWO_SIDED|95.0|1.28|8.28|||Mixed Models Analysis|||||8.28|1.28|0.008
82571541|NCT03151551|164852873|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.335|<|0.001|TWO_SIDED|95.0|-1.78|-0.46|||Mixed Models Analysis|||||-0.46|-1.78|<0.001
82571542|NCT03151551|164852874|SUPERIORITY||Rate Difference|5.7||||0.165|TWO_SIDED|95.0|-2.4|13.7|||Regression, Logistic|||Effectiveness of Medication||13.7|-2.4|0.165
82571543|NCT03151551|164852874|SUPERIORITY||Rate Difference|6.7||||0.098|TWO_SIDED|95.0|-1.4|14.8|||Regression, Logistic|||Effectiveness over Time of Medication||14.8|-1.4|0.098
82571544|NCT03151551|164852874|SUPERIORITY||Rate Difference|4.6||||0.241|TWO_SIDED|95.0|-3.4|12.6|||Regression, Logistic|||Long Term Safety of Medication||12.6|-3.4|0.241
82571545|NCT03151551|164852874|SUPERIORITY||Rate Difference|4.9||||0.215|TWO_SIDED|95.0|-3.1|13.0|||Regression, Logistic|||Overall Satisfaction with Medication||13.0|-3.1|0.215
82571546|NCT03151551|164852874|SUPERIORITY||Rate Difference|2.1||||0.561|TWO_SIDED|95.0|-5.5|9.7|||Regression, Logistic|||Mostly Satisfied to any Questions||9.7|-5.5|0.561
82571547|NCT05896696|164852876|OTHER||Mean Difference (Final Values)|-1.87|||<|0.0001|TWO_SIDED|95.0|-2.49|-1.26|||Paired sample t-test|||||-1.26|-2.49|<0.0001
82571548|NCT05896696|164852877|OTHER||Mean Difference (Final Values)|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.73|||paired sample t-test|||||-0.73|-1.70|<0.0001
82571549|NCT00143598|164852882|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.58|TWO_SIDED|95.0|0.73|1.76|||Regression, Cox|Adjusted for centre||||1.76|.73|.58
82571550|NCT00781937|164852941|SUPERIORITY_OR_OTHER||Treatment Contrast|-6.06|||<|0.0001||95.0|-7.5|-4.62||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||-4.62|-7.50|<0.0001
82636802|NCT00368069|164988137|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|14.4||||||95.0|0.9|26.0|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over PBO is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS freq/week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||26.0|0.9|
82571551|NCT00781937|164852942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.82|||<|0.0001||95.0|3.01|7.71||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||7.71|3.01|<0.0001
82571552|NCT00781937|164852943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86|||<|0.0001||95.0|2.44|6.09||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3) and the hypotheses of equality between liraglutide and placebo for each were tested in a hierarchical manner; i.e. a conclusion of liraglutide superiority for a given co-primary endpoint could be drawn only if all preceding hypotheses of equality in the hierarchy had been rejected.||6.09|2.44|<0.0001
82571553|NCT00781937|164852944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.3|||<|0.0001||95.0|2.79|10.08||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||10.08|2.79|<0.0001
82571554|NCT00781937|164852945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09|||<|0.0001||95.0|0.03|0.26||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||0.26|0.03|<0.0001
82571555|NCT00781937|164852947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.86|||<|0.0001||95.0|3.12|10.98||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||10.98|3.12|<0.0001
82571556|NCT00781937|164852948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.02|||<|0.0001||95.0|3.65|9.92||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, country, and stratification factor(s) as fixed effects and randomisation value of endpoint as covariate.||||9.92|3.65|<0.0001
82571557|NCT00781937|164852949|SUPERIORITY_OR_OTHER||Treatment Contrast|-5.86|||<|0.0001||95.0|-7.3|-4.43||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-4.43|-7.30|<0.0001
82571558|NCT00781937|164852950|SUPERIORITY_OR_OTHER||Treatment Contrast|-4.23|||<|0.0001||95.0|-6.04|-2.43||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.43|-6.04|<0.0001
82571559|NCT00781937|164852951|SUPERIORITY_OR_OTHER||Treatment Contrast|-2.72||||0.0068||95.0|-4.69|-0.76||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||Analysis is of treatment contrast, change in systolic blood pressure.||-0.76|-4.69|0.0068
82571560|NCT00781937|164852951|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.34||||0.6386||95.0|-1.74|1.07||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||Analysis is of treatment contrast, change in diastolic blood pressure.||1.07|-1.74|0.6386
82571561|NCT00781937|164852952|SUPERIORITY_OR_OTHER||Treatment Contrast|0.97||||0.1968||95.0|-0.51|2.45||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||2.45|-0.51|0.1968
82571562|NCT00781937|164852953|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.11||||0.031||95.0|-0.2|-0.01||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.01|-0.20|0.0310
82442362|NCT01344629|164593309|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|100.9||||||90.0|97.7|104.2||No statistical test|ANOVA|||||104.2|97.7|
82442363|NCT01344629|164593310|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|97.2||||||90.0|87.2|108.3||No statistical test|ANOVA|||||108.3|87.2|
82571563|NCT00781937|164852954|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.09||||0.1098||95.0|-0.2|0.02||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||0.02|-0.20|0.1098
82571564|NCT00781937|164852955|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.11||||0.1149||95.0|-0.24|0.03||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||0.03|-0.24|0.1149
82571565|NCT00781937|164852956|SUPERIORITY_OR_OTHER||Treatment Contrast|-13.01||||0.0141||95.0|-23.4|-2.64||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.64|-23.40|0.0141
82571566|NCT00781937|164852957|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.1199||95.0|0.36|1.12||Two sided, conducted at a 5% significance level|Regression, Logistic|The analysis included treatment, gender, and stratification factor(s) as fixed effects and metabolic status and weight at baseline as covariates.||||1.12|0.36|0.1199
82571567|NCT00781937|164852958|SUPERIORITY_OR_OTHER||Treatment Contrast|-3.5|||<|0.0001||95.0|-4.84|-2.15||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-2.15|-4.84|<0.0001
82571568|NCT00781937|164852959|SUPERIORITY_OR_OTHER||Treatment Contrast|-2.05|||<|0.0001||95.0|-2.53|-1.57||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-1.57|-2.53|<0.0001
82518576|NCT03086447|164731399|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of monocular VA better than equal to 20/40 with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agresti-Coull||All eyes (100%) in the Test group had acceptable VA throughout the study.|Proportion of eyes with overall acceptable VA assessed throughout the study period (up to 4-week) in the Test group was compared to the historical control acceptable rate of 80%. Lower 95% confidence limit was compared to 0.8.||100|96.5|
82571569|NCT00781937|164852960|SUPERIORITY_OR_OTHER||Treatment Contrast|2.35||||0.3689||95.0|-2.79|7.49||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||7.49|-2.79|0.3689
82571570|NCT00781937|164852961|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.1||||0.0053||95.0|-0.16|-0.03||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.03|-0.16|0.0053
82571571|NCT00781937|164852962|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.38|||<|0.0001||95.0|-0.5|-0.26||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.26|-0.50|<0.0001
82571572|NCT00781937|164852963|SUPERIORITY_OR_OTHER||Treatment Contrast|-1.85||||0.0147||95.0|-3.34|-0.37||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.37|-3.34|0.0147
82571573|NCT00781937|164852964|SUPERIORITY_OR_OTHER||Treatment Contrast|-0.27|||<|0.0001||95.0|-0.33|-0.21||Two sided, conducted at a 5% significance level|ANCOVA|The analysis included treatment, gender, country and stratification factor(s) as fixed effects and randomisation value of the endpoint as covariate.||||-0.21|-0.33|<0.0001
82571574|NCT01663506|164852974|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 3||||<0.01
82571575|NCT01663506|164852974|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
82571576|NCT01663506|164852974|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
82636803|NCT00368069|164988139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.158||||0.034||95.0|0.012|0.305|||ANCOVA|ANCOVA on (log-) seizure frequency per week over Treatment period with Treatment, (log-) Baseline seizure frequency per week as covariate.||||0.305|0.012|0.034
82518577|NCT03086447|164731400|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of lens fit with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agrestic-Coull||All eyes (100%) in the Test group had acceptable lens fit at fitting (visit 1).|Proportion of eyes with acceptable lens fit assessed at fitting (visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||100.0|96.5|
82571577|NCT01663506|164852976|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.001
82571578|NCT01663506|164852976|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.0001
82571579|NCT01663506|164852977|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
82571580|NCT01663506|164852977|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.0001
82571581|NCT01663506|164852979|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
82571582|NCT01663506|164852979|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
82571583|NCT01663506|164852980|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
82571584|NCT01663506|164852982|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.001
82571585|NCT01663506|164852982|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
82571586|NCT01663506|164852983|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.05
82571587|NCT01663506|164852983|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.01
82571588|NCT01663506|164852985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||SJC28: Change from Baseline at Month 6||||<0.01
82571589|NCT01663506|164852985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||TJC28: Change from Baseline at Month 6||||<0.01
82571590|NCT01663506|164852985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||SJC28: Change from Baseline at Month 12||||<0.001
82571591|NCT01663506|164852985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||TJC28: Change from Baseline at Month 12||||<0.01
82571592|NCT01663506|164852986|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
82571593|NCT01663506|164852986|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.001
82571594|NCT01663506|164852987|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 6||||<0.01
82571595|NCT01663506|164852987|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||Change from Baseline at Month 12||||<0.001
82571596|NCT02431052|164852994|OTHER|||||||0.0006|||||||Cochran-Mantel-Haenszel|ANCOVA with factors of treatment group (combined vehicle as one group) and baseline count as covariate.||||||0.0006
82571597|NCT02431052|164852995|OTHER|||||||0.0002|||||||Cochran-Mantel-Haenszel|ANCOVA with factors of treatment group (combined vehicle as one group) and baseline count as covariate.||||||0.0002
82571598|NCT02431052|164852996|OTHER|||||||0.0055|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (vehicle treatment groups included as single combined treatment group).||||||0.0055
82571599|NCT02094898|164852997|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571600|NCT02094898|164852997|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.05
82571601|NCT02094898|164852998|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
82571602|NCT02094898|164852999|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571603|NCT02094898|164852999|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571604|NCT02094898|164852999|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
82571605|NCT02094898|164853000|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
82571606|NCT02094898|164853001|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571607|NCT02094898|164853001|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
82571608|NCT02094898|164853002|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571609|NCT02094898|164853003|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571610|NCT02094898|164853003|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571611|NCT02094898|164853004|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571612|NCT02094898|164853005|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
82571613|NCT02094898|164853005|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
82571614|NCT02094898|164853006|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
82571615|NCT02094898|164853007|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.05
82571616|NCT02094898|164853007|SUPERIORITY||||||<|0.08|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.08
82571617|NCT02094898|164853008|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.001
82571618|NCT02094898|164853009|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571619|NCT02094898|164853009|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||alpha level of 0.05.||||<0.01
82571620|NCT03520075|164853021|SUPERIORITY||Geometric Least Squares Mean (Geo LSM)|27.8|||||TWO_SIDED|90.0|8.5|91.2|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||91.2|8.50|
82571621|NCT03520075|164853021|SUPERIORITY||Geo LSM|38.8|||||TWO_SIDED|90.0|11.4|132.0|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||132|11.4|
82571622|NCT03520075|164853021|SUPERIORITY||Geo LSM|58.9|||||TWO_SIDED|90.0|15.7|222.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||222|15.7|
82571623|NCT03520075|164853021|SUPERIORITY||Geo LSM|47.2|||||TWO_SIDED|90.0|20.7|108.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-24 between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||108|20.7|
82571624|NCT03520075|164853022|SUPERIORITY||Geo LSM|18.1|||||TWO_SIDED|90.0|5.28|61.9|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||61.9|5.28|
82571625|NCT03520075|164853022|SUPERIORITY||Geo LSM|44.1|||||TWO_SIDED|90.0|8.32|234.0|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||234|8.32|
82571626|NCT03520075|164853022|SUPERIORITY||Geo LSM|58.7|||||TWO_SIDED|90.0|15.7|220.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||220|15.7|
82571627|NCT03520075|164853022|SUPERIORITY||Geo LSM|40.2|||||TWO_SIDED|90.0|14.3|113.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on AUC0-inf between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||113|14.3|
82571628|NCT03520075|164853023|SUPERIORITY||Geo LSM|17.5|||||TWO_SIDED|90.0|5.62|54.3|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||54.3|5.62|
82571629|NCT03520075|164853023|SUPERIORITY||Geo LSM|34.5|||||TWO_SIDED|90.0|12.0|99.4|||||Ratio of Geo LSM was calculated for Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||99.4|12.0|
82571630|NCT03520075|164853023|SUPERIORITY||Geo LSM|72.6|||||TWO_SIDED|90.0|17.6|299.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||299|17.6|
82571631|NCT03520075|164853023|SUPERIORITY||Geo LSM|72.5|||||TWO_SIDED|90.0|29.1|181.0|||||Ratio of Geo LSM was calculated for Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029.|Comparison of effect of food on Cmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||181|29.1|
82571632|NCT03520075|164853024|SUPERIORITY||Hodges-Lehmann Estimator|-2.275||||0.0388671|TWO_SIDED|90.0|-5.216|-0.083|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% confidence interval (CI) was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C1D1.||-0.0830|-5.2160|0.0388671
82571633|NCT03520075|164853024|SUPERIORITY||Hodges-Lehmann Estimator|1.45||||0.4795001|TWO_SIDED|90.0|-0.917|5.15|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 6 (fed state) and Cohort 9 (fasted state) treatment arm groups of 80 mg ASTX029 in C2D1.||5.1500|-0.9170|0.4795001
82571634|NCT03520075|164853024|SUPERIORITY||Hodges-Lehmann Estimator|-0.45||||0.8272593|TWO_SIDED|90.0|-2.467|0.95|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C1D1.||0.9500|-2.4670|0.8272593
82571635|NCT03520075|164853024|SUPERIORITY||Hodges-Lehmann Estimator|0.583||||0.5126908|TWO_SIDED|90.0|-6.45|3.5|||Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator and 90% CI was calculated using the Moses approximation.|Comparison of effect of food on Tmax between Cohort 7 (fed state) and Cohort 10 (fasted state) treatment arm groups of 120 mg ASTX029 in C2D1.||3.5000|-6.4500|0.5126908
82571636|NCT03305809|164853047|SUPERIORITY||Posterior Mean Difference|-0.89|||||TWO_SIDED|95.0|-2.776|0.969|||||Analyses were conducted using a bayesian mixed-model repeated measures (MMRM), and posterior mean change difference is reported.|||0.969|-2.776|
82571637|NCT03305809|164853047|SUPERIORITY||Posterior Mean Difference|-0.08|||||TWO_SIDED|95.0|-1.996|1.879|||||Analyses were conducted using a bayesian MMRM, and posterior mean change difference is reported.|||1.879|-1.996|
82571638|NCT03305809|164853047|SUPERIORITY||Posterior Mean Difference|-0.78|||||TWO_SIDED|95.0|-2.873|1.277|||||Analyses were conducted using a bayesian MMRM, and posterior mean change difference is reported.|||1.277|-2.873|
82636804|NCT00368069|164988139|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|14.7||||||95.0|1.2|26.3|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over Placebo is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS frequency per week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||26.3|1.2|
82636805|NCT00368069|164988140|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.07||95.0|0.95|3.55|||Regression, Logistic|Logistic regression analysis including Treatment as a factor.|Based on the number of evaluable patients. A patient is considered as evaluable for the response status if he has seizure information in at least one of the period (baseline or treatment period.|||3.55|0.95|0.070
82571639|NCT03305809|164853048|SUPERIORITY||Mean Difference (Net)|-0.2||||0.273|TWO_SIDED|95.0|-0.54|0.15|||Mixed Models Analysis|||||0.15|-0.54|0.273
82571640|NCT03305809|164853048|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.02|-0.3|||Mixed Models Analysis|||||-0.30|-1.02|<0.001
82571641|NCT03305809|164853048|SUPERIORITY||Mean Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.29|-0.53|||Mixed Models Analysis|||||-0.53|-1.29|< 0.001
82571642|NCT03305809|164853049|SUPERIORITY||Mean Difference (Net)|-70.71|STANDARD_ERROR_OF_MEAN|68.495||0.303|TWO_SIDED|95.0|-205.53|64.11|||Mixed Models Analysis|||||64.11|-205.53|0.303
82571643|NCT03305809|164853049|SUPERIORITY||Median Difference (Net)|-107.02|STANDARD_ERROR_OF_MEAN|69.647||0.125|TWO_SIDED|95.0|-244.09|30.06|||Mixed Models Analysis|||||30.06|-244.09|0.125
82571644|NCT03305809|164853049|SUPERIORITY||Mean Difference (Net)|-123.72|STANDARD_ERROR_OF_MEAN|72.892||0.091|TWO_SIDED|95.0|-267.18|19.74|||Mixed Models Analysis|||||19.74|-267.18|0.091
82571645|NCT03305809|164853050|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.985||0.686|TWO_SIDED|95.0|-2.34|1.54|||Mixed Models Analysis|||||1.54|-2.34|0.686
82571646|NCT03305809|164853050|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|1.011||0.485|TWO_SIDED|95.0|-2.7|1.28|||Mixed Models Analysis|||||1.28|-2.70|0.485
82571647|NCT03305809|164853050|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|1.064||0.406|TWO_SIDED|95.0|-2.98|1.21|||Mixed Models Analysis|||||1.21|-2.98|0.406
82571648|NCT03305809|164853051|SUPERIORITY||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.603||0.464|TWO_SIDED|95.0|-0.74|1.63|||Mixed Models Analysis|||||1.63|-0.74|0.464
82571649|NCT03305809|164853051|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.623||0.72|TWO_SIDED|95.0|-1.0|1.45|||Mixed Models Analysis|||||1.45|-1.00|0.720
82571650|NCT03305809|164853051|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.655||0.149|TWO_SIDED|95.0|-0.34|2.24|||Mixed Models Analysis|||||2.24|-0.34|0.149
82571651|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|1.213||0.607|TWO_SIDED|95.0|-3.01|1.76|||Mixed Models Analysis|||Total Score||1.76|-3.01|0.607
82571652|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|1.265||0.18|TWO_SIDED|95.0|-4.19|0.79|||Mixed Models Analysis|||Total Score||0.79|-4.19|0.180
82636806|NCT00368069|164988141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0|||||Mantel Haenszel|Subjects with missing data during the Treatment period were considered in the category \<-25%.||||||0.033
82636807|NCT00368069|164988142|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.205||||0.003||95.0|0.07|0.341|||ANCOVA|ANCOVA on (log-) Treatment POS frequency per week with Treatment and (log-) Baseline POS frequency per week as covariate||||0.341|0.070|0.003
82518578|NCT03086447|164731401|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of lens stability with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Proportion|100.0|||||TWO_SIDED|95.0|96.5|100.0||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Binomial proportion with Agrestic-Coull||All eyes (100%) in the Test group had acceptable stability at fitting.|Proportion of eyes with acceptable stability assessed at fitting (visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||100.0|96.5|
82518579|NCT03086447|164731402|OTHER|It was deemed that a total of 135 subjects in the Test group is sufficient to demonstrate statistical acceptance of absolute rotation with a minimum of 90% statistical power using the reference incidence rate of 95% with a correlation of 0.8 between eyes.|Least square mean proportion|99.6|||||TWO_SIDED|95.0|97.5|99.9||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Linear mixed model with binomial dist.||Above 80% of eyes in the Test group had acceptable rotation.|Proportion of eyes with acceptable absolute rotation assessed at 15-minute upon insertion (fitting, visit 1) in the Test group was compared to the historical control rate of 80%. Lower 95% confidence limit was compared to 0.8.||99.9|97.5|
82571653|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.75|STANDARD_ERROR_OF_MEAN|1.325||0.572|TWO_SIDED|95.0|-3.36|1.86|||Mixed Models Analysis|||Total Score||1.86|-3.36|0.572
82571654|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.173||0.32|TWO_SIDED|95.0|-0.51|0.17|||Mixed Models Analysis|||Delusions||0.17|-0.51|0.320
82571655|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.18||0.037|TWO_SIDED|95.0|-0.73|-0.02|||Mixed Models Analysis|||Delusions||-0.02|-0.73|0.037
82571656|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.558|TWO_SIDED|95.0|-0.49|0.26|||Mixed Models Analysis|||Delusions||0.26|-0.49|0.558
82571657|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.182||0.924|TWO_SIDED|95.0|-0.38|0.34|||Mixed Models Analysis|||Hallucinations||0.34|-0.38|0.924
82571658|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.189||0.061|TWO_SIDED|95.0|-0.73|0.02|||Mixed Models Analysis|||Hallucinations||0.02|-0.73|0.061
82571659|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.199||0.148|TWO_SIDED|95.0|-0.68|0.1|||Mixed Models Analysis|||Hallucinations||0.10|-0.68|0.148
82571660|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.18||0.552|TWO_SIDED|95.0|-0.46|0.25|||Mixed Models Analysis|||Agitation/Aggression||0.25|-0.46|0.552
82571661|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.188||0.735|TWO_SIDED|95.0|-0.43|0.31|||Mixed Models Analysis|||Agitation/Aggression||0.31|-0.43|0.735
82571662|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.197||0.224|TWO_SIDED|95.0|-0.63|0.15|||Mixed Models Analysis|||Agitation/Aggression||0.15|-0.63|0.224
82571663|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.216||0.783|TWO_SIDED|95.0|-0.37|0.48|||Mixed Models Analysis|||Depression/Dysphoria||0.48|-0.37|0.783
82571664|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.226||0.64|TWO_SIDED|95.0|-0.55|0.34|||Mixed Models Analysis|||Depression/Dysphoria||0.34|-0.55|0.640
82571665|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.236||0.592|TWO_SIDED|95.0|-0.59|0.34|||Mixed Models Analysis|||Depression/Dysphoria||0.34|-0.59|0.592
82571666|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.197||0.993|TWO_SIDED|95.0|-0.39|0.39|||Mixed Models Analysis|||Anxiety||0.39|-0.39|0.993
82571667|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.205||0.29|TWO_SIDED|95.0|-0.19|0.62|||Mixed Models Analysis|||Anxiety||0.62|-0.19|0.290
82571668|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.215||0.722|TWO_SIDED|95.0|-0.5|0.35|||Mixed Models Analysis|||Anxiety||0.35|-0.50|0.722
82571669|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.097||0.246|TWO_SIDED|95.0|-0.3|0.08|||Mixed Models Analysis|||Elation/Euphoria||0.08|-0.30|0.246
82518580|NCT03086447|164731403|OTHER|It was deemed that a total of 135 subjects per each study group is sufficient to demonstrate no statistical difference in the CS incidence rate between the Test and Control groups with a minimum of 80% statistical power using the reference incidence rate of 0.005% with a correlation of 0.3 between eyes within subject.|Odds Ratio (OR)|0.29|||||TWO_SIDED|95.0|0.004|1.437||All primary hypotheses were simultaneously evaluated using a significance level of 0.05 following the intersection-union principal. All primary hypotheses must be met to claim success of the study objectives.|Bayesian beta-binomial model|A 95% credible interval for the posterior estimate (Test over Control) was used to test no difference between the Test and Control groups.|odds ratio calculated as Test over Control|Proportion of eyes with unacceptable corneal staining (CS) throughout all planned and unplanned visits in the Test group was compared to that in the Control group.||1.437|0.004|
82518581|NCT03086447|164731404|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|2.39|||TWO_SIDED|95.0|2.1|11.5|||Linear mixed model|A 95% confidence interval for the least square mean difference was used to demonstrate non-inferiority of the Test relative to the Control groups.|Mean difference was calculated as Test minus Control|Sample size calculation was performed considering the effect size of 5 (Test minus Control) to achieve a minimum statistical power of 90% at a 5% significance level.||11.5|2.1|
82518582|NCT03086447|164731405|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|2.04|||TWO_SIDED|95.0|-7.2|0.9|||Linear mixed model|A 95% confidence interval for the least square mean difference was used to demonstrate non-inferiority of the Test relative to the Control groups.|Mean difference was calculated as Test minus Control|Sample size calculation was performed considering the effect size of 5 (Test minus Control) to achieve a minimum statistical power of 90% at a 5% significance level.||0.9|-7.2|
82518583|NCT03086447|164731406|NON_INFERIORITY|A non-inferiority margin of 0.5 was used. This margin is based on a 10% difference in the distribution between the Test and Control groups.|Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.98|3.22|||Generalized LMM w/ binomial dist.||Odds ratio of Test over Control was calculated.|Proportion of eyes with optimal VA assessed at fitting in the Test group was compared to the Control group.||3.22|0.98|
82518584|NCT01218438|164731418|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.012|||<|0.0001|ONE_SIDED|99.0||0.024|||Poisson|||||0.024||<0.0001
82518585|NCT03147248|164731558|NON_INFERIORITY|The non-inferiority was to be concluded if the lower limit of the two-sided 95% confidence interval (CI) for the difference in the mean change from baseline of DAS28 (CRP) at Week 22 was greater that the pre-specified non-inferiority margin of -0.6.|Difference of Least square mean|0.27|||||TWO_SIDED|95.0|0.02|0.52|||||The least squares means and standard errors, estimate of treatment difference (CT-P13 SC 120 mg - CT-P13 IV 3 mg/kg), and 2-sided 95% CI obtained from the ANCOVA model.|Primary efficacy analysis were analyzed using an ANCOVA considering the treatment as fixed effect and country, serum CRP concentration at Week 2 (≤0.6 mg/dL vs. \>0.6 mg/dL), and body weight at Week 6 (≤100 kg vs. \>100 kg) as covariates.||0.52|0.02|
82518586|NCT03750552|164731563|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.413||0.574|TWO_SIDED|95.0|-1.05|0.58|||Mixed Model Repeated Measures|||||0.58|-1.05|0.574
82518587|NCT03750552|164731564|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.284||0.331|TWO_SIDED|95.0|-0.84|0.28|||Mixed Model Repeated Measures|||||0.28|-0.84|0.331
82518588|NCT03750552|164731565|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.376||0.481|TWO_SIDED|95.0|-1.01|0.48|||Mixed Model Repeated Measures|||||0.48|-1.01|0.481
82518589|NCT03750552|164731566|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.073||0.74|TWO_SIDED|95.0|-0.12|0.17|||Cochran-Mantel-Haenszel|Stratified by disease type|The assumed common risk difference estimate and standard error are calculated using Mantel-Haenszel stratum weights and the Sato variance estimator. Mantel-Haenszel confidence limits are shown.|||0.17|-0.12|0.740
82518590|NCT03750552|164731567|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.064||0.0903|TWO_SIDED|95.0|-0.02|0.24|||Cochran-Mantel-Haenszel|Stratified by disease type|The assumed common risk difference estimate and standard error are calculated using Mantel-Haenszel stratum weights and the Sato variance estimator. Mantel-Haenszel confidence limits are shown.|||0.24|-0.02|0.0903
82518591|NCT00581230|164731580|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Wilcoxon signed rank test|||||||0.0003
82518592|NCT00581230|164731581|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
82518593|NCT02008890|164731600|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5722|TWO_SIDED|95.0|0.5|3.53|||Regression, Logistic|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||3.53|0.50|0.5722
82571670|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.101||0.175|TWO_SIDED|95.0|-0.34|0.06|||Mixed Models Analysis|||Elation/Euphoria||0.06|-0.34|0.175
82571671|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.106||0.482|TWO_SIDED|95.0|-0.28|0.13|||Mixed Models Analysis|||Elation/Euphoria||0.13|-0.28|0.482
82571672|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|0.266||0.091|TWO_SIDED|95.0|-0.97|0.07|||Mixed Models Analysis|||Apathy/Indifference||0.07|-0.97|0.091
82571673|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.278||0.248|TWO_SIDED|95.0|-0.87|0.23|||Mixed Models Analysis|||Apathy/Indifference||0.23|-0.87|0.248
82571674|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.29||0.516|TWO_SIDED|95.0|-0.76|0.38|||Mixed Models Analysis|||Apathy/Indifference||0.38|-0.76|0.516
82571675|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.114||0.875|TWO_SIDED|95.0|-0.21|0.24|||Mixed Models Analysis|||Disinhibition||0.24|-0.21|0.875
82571676|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.119||0.005|TWO_SIDED|95.0|0.1|0.57|||Mixed Models Analysis|||Disinhibition||0.57|0.10|0.005
82571677|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.125||0.761|TWO_SIDED|95.0|-0.21|0.28|||Mixed Models Analysis|||Disinhibition||0.28|-0.21|0.761
82571678|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.181||0.183|TWO_SIDED|95.0|-0.6|0.12|||Mixed Models Analysis|||Irritability/Lability||0.12|-0.60|0.183
82571679|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.189||0.765|TWO_SIDED|95.0|-0.43|0.31|||Mixed Models Analysis|||Irritability/Lability||0.31|-0.43|0.765
82571680|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.198||0.279|TWO_SIDED|95.0|-0.18|0.61|||Mixed Models Analysis|||Irritability/Lability||0.61|-0.18|0.279
82571681|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.147||0.252|TWO_SIDED|95.0|-0.12|0.46|||Mixed Models Analysis|||Aberrant Motor Behavior||0.46|-0.12|0.252
82571682|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.154||0.526|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Aberrant Motor Behavior||0.20|-0.40|0.526
82571683|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.161||0.8|TWO_SIDED|95.0|-0.28|0.36|||Mixed Models Analysis|||Aberrant Motor Behavior||0.36|-0.28|0.800
82571684|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.623|TWO_SIDED|95.0|-0.59|0.98|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.98|-0.59|0.623
82571685|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.418||0.354|TWO_SIDED|95.0|-1.21|0.44|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.44|-1.21|0.354
82571686|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.437||0.809|TWO_SIDED|95.0|-0.97|0.75|||Mixed Models Analysis|||Sleep/Nighttime Behavior Disorders||0.75|-0.97|0.809
82571687|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.376||0.79|TWO_SIDED|95.0|-0.84|0.64|||Mixed Models Analysis|||Appetite/Eating Disorders||0.64|-0.84|0.790
82571688|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.392||0.28|TWO_SIDED|95.0|-1.2|0.35|||Mixed Models Analysis|||Appetite/Eating Disorders||0.35|-1.20|0.280
82571689|NCT03305809|164853052|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.412||0.797|TWO_SIDED|95.0|-0.7|0.92|||Mixed Models Analysis|||Appetite/Eating Disorders||0.92|-0.70|0.797
82571690|NCT03305809|164853053|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.61||0.247|TWO_SIDED|95.0|-1.91|0.49|||Mixed Models Analysis|||||0.49|-1.91|0.247
82571691|NCT03305809|164853053|SUPERIORITY||Mean Difference (Net)|-0.88|STANDARD_ERROR_OF_MEAN|0.631||0.164|TWO_SIDED|95.0|-2.12|0.36|||Mixed Models Analysis|||||0.36|-2.12|0.164
82571692|NCT03305809|164853053|SUPERIORITY||Mean Difference (Net)|-1.59|STANDARD_ERROR_OF_MEAN|0.663||0.017|TWO_SIDED|95.0|-2.9|-0.29|||Mixed Models Analysis|||||-0.29|-2.90|0.017
82571693|NCT03305809|164853054|SUPERIORITY||Mean Difference (Net)|-6.41|STANDARD_ERROR_OF_MEAN|2.86||0.026|TWO_SIDED|95.0|-12.04|-0.77|||Mixed Models Analysis|||||-0.77|-12.04|0.026
82571694|NCT03305809|164853054|SUPERIORITY||Mean Difference (Net)|-7.39|STANDARD_ERROR_OF_MEAN|2.969||0.014|TWO_SIDED|95.0|-13.24|-1.53|||Mixed Models Analysis|||||-1.53|-13.24|0.014
82571695|NCT03305809|164853054|SUPERIORITY||Mean Difference (Net)|-10.6|STANDARD_ERROR_OF_MEAN|3.104|<|0.001|TWO_SIDED|95.0|-16.72|-4.48|||Mixed Models Analysis|||||-4.48|-16.72|<0.001
82571696|NCT03305809|164853055|SUPERIORITY||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|1.362||0.683|TWO_SIDED|95.0|-2.13|3.24|||Mixed Models Analysis|||||3.24|-2.13|0.683
82571697|NCT03305809|164853055|SUPERIORITY||Mean Difference (Net)|2.41|STANDARD_ERROR_OF_MEAN|1.413||0.089|TWO_SIDED|95.0|-0.37|5.19|||Mixed Models Analysis|||||5.19|-0.37|0.089
82571698|NCT03305809|164853055|SUPERIORITY||Mean Difference (Net)|1.56|STANDARD_ERROR_OF_MEAN|1.489||0.294|TWO_SIDED|95.0|-1.37|4.49|||Mixed Models Analysis|||||4.49|-1.37|0.294
82571699|NCT03305809|164853056|SUPERIORITY||Mean Difference (Net)|0.63|STANDARD_ERROR_OF_MEAN|0.389||0.105|TWO_SIDED|95.0|-0.13|1.4|||Mixed Models Analysis|||||1.40|-0.13|0.105
82571700|NCT03305809|164853056|SUPERIORITY||Mean Difference (Net)|1.07|STANDARD_ERROR_OF_MEAN|0.406||0.009|TWO_SIDED|95.0|0.27|1.87|||Mixed Models Analysis|||||1.87|0.27|0.009
82571701|NCT03305809|164853056|SUPERIORITY||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|0.428||0.253|TWO_SIDED|95.0|-0.35|1.33|||Mixed Models Analysis|||||1.33|-0.35|0.253
82571702|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_ERROR_OF_MEAN|0.923||0.061|TWO_SIDED|95.0|-3.56|0.08|||Mixed Models Analysis|||Motor Experiences of Daily Living||0.08|-3.56|0.061
82518594|NCT02008890|164731600|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0411|TWO_SIDED|95.0|1.04|6.6|||Regression, Logistic|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||6.60|1.04|0.0411
82518595|NCT02008890|164731601|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.9431|TWO_SIDED|95.0|-4.59|3.47|||Regression, Linear|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||3.47|-4.59|0.9431
82442364|NCT01344629|164593311|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|101.7||||||90.0|98.3|105.2||No statistical test|ANOVA|||||105.2|98.3|
82518596|NCT02008890|164731601|SUPERIORITY||Mean Difference (Final Values)|-3.13||||0.1576|TWO_SIDED|95.0|-7.14|0.88|||Regression, Linear|with factors treatment, country, body weight at baseline visit (\> 90 kg or \>= 90kg) and presence of plaque-type psoriasis||||0.88|-7.14|0.1576
82518597|NCT05912400|164731612|OTHER||||||<|0.01||||||Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain).|Spearman's Rho|||||||<0.01
82518598|NCT05912400|164731612|OTHER|||||||0.02|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.02
82518599|NCT05912400|164731612|OTHER|||||||0.03|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.03
82383312|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.0|6.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||6|-3|
82442365|NCT01344629|164593312|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|110.1||||||90.0|95.8|124.4||No statistical test|ANOVA|||||124.4|95.8|
82442366|NCT01344629|164593313|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|91.4||||||90.0|85.6|97.6||No statistical test|ANOVA|||||97.6|85.6|
82518600|NCT05912400|164731612|OTHER|||||||0.88|||||||Spearman's Rho|Correlation: OCR (Oxygen Consumption Rate) and FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index)||||||0.88
82518601|NCT05912400|164731612|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and vitamin D levels.||||||0.36
82518602|NCT05912400|164731613|OTHER|||||||0.54|||||||Spearman's Rho|Spearman's rho used analyze correlation btwn ECAR (Extracellular Acidification Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain)||||||0.54
82518603|NCT05912400|164731613|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.36
82518604|NCT05912400|164731613|OTHER|||||||0.94|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.94
82518605|NCT05912400|164731613|OTHER|||||||0.53|||||||Spearman's Rho|Correlation: ECAR (Extracellular Acidification Rate) \& FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.53
82518606|NCT05912400|164731613|OTHER|||||||0.51|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between ECAR (Extracellular Acidification Rate) and vitamin D levels.||||||0.51
82518607|NCT05912400|164731614|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and vitamin D levels.||||||0.36
82518608|NCT05912400|164731614|OTHER|||||||0.51|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between ECAR (Extracellular Acidification Rate) and vitamin D levels.||||||0.51
82383313|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-2.0|7.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||7|-2|
82442367|NCT01344629|164593314|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|109.4||||||90.0|102.4|116.8||No statistical test|ANOVA|||||116.8|102.4|
82518609|NCT05912400|164731615|OTHER||||||<|0.01|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Current (Numeric Pain Rating Scale for current pain).||||||<0.01
82518610|NCT05912400|164731615|OTHER|||||||0.54|||||||Spearman's Rho|Spearman's rho used analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Current (Numeric Pain Rating Scale for current pain).||||||0.54
82518611|NCT05912400|164731616|OTHER|||||||0.02|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.02
82442368|NCT01344629|164593315|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between T80/A 5mg FDC tablet and T80mg / A5 mg tablet in concomitant use|Test/Reference Ratio of the mean x 100|109.0||||||90.0|101.5|117.1||No statistical test|ANOVA|||||117.1|101.5|
82518612|NCT05912400|164731616|OTHER|||||||0.36|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) and NRS-11 Best (Numeric Pain Rating Scale for best pain).||||||0.36
82518613|NCT05912400|164731617|OTHER|||||||0.03|||||||Spearman's Rho|Spearman's rho was used to analyze correlation between OCR (Oxygen Consumption Rate) and NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.03
82518614|NCT05912400|164731617|OTHER|||||||0.94|||||||Spearman's Rho|Spearman's rho used to analyze correlation between ECAR (Extracellular Acidification Rate) \& NRS-11 Worst (Numeric Pain Rating Scale for worst pain).||||||0.94
82442369|NCT00762996|164593319|NON_INFERIORITY_OR_EQUIVALENCE|"margin +/- 0.5 logMar lines~The range of non-inferiority for this value is 0.50 thus +/- 0.50 is considered non-inferior to the 0.0 mark.~logarithm of the minimum angle of resolution (logMar) ideal is 0.0 and represents 20/20 Snellen acuity. logMar values \> 0.00 indicate vision poorer than the ideal and values \<0.00 indicate vision greater than the ideal."|Mean Difference (Final Values)|0.005287|STANDARD_ERROR_OF_MEAN|0.00976||||95.0|-0.01389|0.2447|||Mixed Models Analysis||logarithm of the minimum angle of resolution (logMar) ideal is 0.0 and represents 20/20 Snellen acuity. logMar values \> 0.00 indicate vision poorer than the ideal and values \<0.00 indicate vision greater than the ideal.|Null Hypothesis: etafilcon A is greater than or equal to omafilcon A.||0.2447|-0.01389|
82518615|NCT05912400|164731618|OTHER|||||||0.88|||||||Spearman's Rho|Correlation: OCR (Oxygen Consumption Rate) and FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.88
82518616|NCT05912400|164731618|OTHER|||||||0.53|||||||Spearman's Rho|Correlation: ECAR (Extracellular Acidification Rate) \& FACIT-F TOI (Functional Assessment of Chronic Illness Therapy - Fatigue, Trial Outcome Index).||||||0.53
82571703|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-2.37|STANDARD_ERROR_OF_MEAN|0.96||0.014|TWO_SIDED|95.0|-4.26|-0.47|||Mixed Models Analysis|||Motor Experiences of Daily Living||-0.47|-4.26|0.014
82571704|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|1.013|<|0.001|TWO_SIDED|95.0|-5.5|-1.51|||Mixed Models Analysis|||Motor Experiences of Daily Living||-1.51|-5.50|<0.001
82571705|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.822||0.074|TWO_SIDED|95.0|-6.86|0.32|||Mixed Models Analysis|||Motor Exam||0.32|-6.86|0.074
82571706|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.891||0.085|TWO_SIDED|95.0|-7.0|0.45|||Mixed Models Analysis|||Motor Exam||0.45|-7.00|0.085
82518617|NCT02103439|164731657|NON_INFERIORITY_OR_EQUIVALENCE|the lower limit of the 95% confidence interval for the difference in proportions between the difference in the early virological response rate with Algeron and PegIntron should be higher than the non-inferiority margin of 0.2 (-20%)||||||0.227|TWO_SIDED||||||Fisher Exact|||||||0.227
82571707|NCT03305809|164853057|SUPERIORITY||Mean Difference (Net)|-4.23|STANDARD_ERROR_OF_MEAN|1.959||0.032|TWO_SIDED|95.0|-8.09|-0.37|||Mixed Models Analysis|||Motor Exam||-0.37|-8.09|0.032
82571708|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|0.3||||0.898|TWO_SIDED|95.0|-4.92|5.61|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||5.61|-4.92|0.898
82571709|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|0.6||||0.821|TWO_SIDED|95.0|-4.71|5.94|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||5.94|-4.71|0.821
82571710|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|9.4|||<|0.001|TWO_SIDED|95.0|4.11|14.61|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||14.61|4.11|<0.001
82571711|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|0.3||||0.805|TWO_SIDED|95.0|-2.4|3.08|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.08|-2.40|0.805
82571712|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|0.9||||0.513|TWO_SIDED|95.0|-1.85|3.69|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.69|-1.85|0.513
82571713|NCT03305809|164853059|SUPERIORITY||Mean Difference (Net)|3.6||||0.011|TWO_SIDED|95.0|0.83|6.28|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||6.28|0.83|0.011
82571714|NCT03305809|164853060|SUPERIORITY||Mean Difference (Net)|2.5||||0.065|TWO_SIDED|95.0|-0.16|5.08|||Mixed Models Analysis|||||5.08|-0.16|0.065
82571715|NCT03305809|164853060|SUPERIORITY||Mean Difference (Net)|3.6||||0.008|TWO_SIDED|95.0|0.93|6.21|||Mixed Models Analysis|||||6.21|0.93|0.008
82571716|NCT03305809|164853060|SUPERIORITY||Mean Difference (Net)|8.7|||<|0.001|TWO_SIDED|95.0|6.06|11.27|||Mixed Models Analysis|||||11.27|6.06|<0.001
82442370|NCT00762996|164593320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4757|STANDARD_ERROR_OF_MEAN|0.2505||||95.0|0.05563|0.4757|||Mixed Models Analysis||Mean difference is etafilcon A minus omafilcon A.|||0.4757|0.05563|
82442371|NCT02312765|164593335|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
82442372|NCT04063787|164593336|EQUIVALENCE|The null hypothesis is the difference is zero. Thus the equivalence margin equals zero.|Mean Difference (Final Values)|0.408|STANDARD_DEVIATION|1.05||0.012|TWO_SIDED||||||t-test, 2 sided|Paired t-test||Compare before and after use of Fist Assist||||0.012
82636808|NCT00368069|164988142|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over Placebo|18.6||||||95.0|6.7|28.9|||Transf. of ANCOVA results on log data|Percent Reduction of Keppra over Placebo is calculated based on the ANCOVA on log data as 100\*(1-exp(LSmeans Keppra -LSMeans Placebo))||Treatment difference was assessed through the percent reduction in POS frequency per week of Keppra over Placebo by back transformation of the results of the ANCOVA on log data||28.9|6.7|
82636809|NCT02467504|164988153|OTHER|||||||0.53|||||||Chi-squared|||||||0.530
82636810|NCT02467504|164988154|OTHER|||||||0.315|||||||Chi-squared|||||||0.315
82636811|NCT02467504|164988155|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82636812|NCT02467504|164988156|OTHER|||||||0.015|||||||Mixed Models Analysis|||||||0.015
82636813|NCT02467504|164988157|OTHER|Chi||||||0.474|||||||Chi-squared|||||||0.474
82636814|NCT02467504|164988158|OTHER|description of Treg cells in CD4+ T cells||||||0.665|||||||Mixed Models Analysis|||||||0.665
82636815|NCT02467504|164988159|OTHER|||||||0.616|||||||Chi-squared|||||||0.616
82636816|NCT02467504|164988160|OTHER|||||||0.616|||||||Chi-squared|||||||0.616
82636817|NCT02467504|164988161|OTHER|||||||0.2|||||||Chi-squared|||||||0.200
82571717|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|1.6||||0.339|TWO_SIDED|95.0|-1.72|4.99|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||4.99|-1.72|0.339
82571718|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|1.2||||0.486|TWO_SIDED|95.0|-2.26|4.73|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||4.73|-2.26|0.486
82636818|NCT02467504|164988162|OTHER|||||||0.373|||||||Chi-squared|||||||0.373
82636819|NCT02467504|164988163|OTHER|||||||0.565|||||||Chi-squared|||||||0.565
82636820|NCT02467504|164988164|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||||||0.221
82636821|NCT02467504|164988165|OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
82636822|NCT02467504|164988166|OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.740
82636823|NCT02467504|164988167|OTHER|||||||0.881|||||||Mixed Models Analysis|||||||0.881
82636824|NCT02467504|164988168|OTHER|||||||0.422|||||||Mixed Models Analysis|||||||0.422
82636825|NCT02467504|164988169|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
82636826|NCT02467504|164988170|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82636827|NCT02467504|164988171|OTHER|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.156
82636828|NCT00174460|164988173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.991|STANDARD_ERROR_OF_MEAN|0.1067|<|0.001|TWO_SIDED|95.0|0.773|1.21|||ANCOVA|Results from analysis of covariance method (ANCOVA) adjusted for baseline height SDS and target height SDS; Last observation carried forward (LOCF).||Treatment difference||1.210|0.773|<0.001
82636829|NCT00174460|164988174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.415|STANDARD_ERROR_OF_MEAN|0.395|<|0.001|TWO_SIDED|95.0|3.605|5.225|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||5.225|3.605|<0.001
82636830|NCT00174460|164988174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.884|STANDARD_ERROR_OF_MEAN|0.5327||0.108|TWO_SIDED|95.0|-1.977|0.208|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||0.208|-1.977|0.108
82636831|NCT00174460|164988175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.074|STANDARD_ERROR_OF_MEAN|0.7089||0.141|TWO_SIDED|95.0|-2.524|0.376|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity SDS and target height SDS; LOCF.||Treatment difference||0.376|-2.524|0.141
82636832|NCT00174460|164988176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.54|STANDARD_ERROR_OF_MEAN|0.3661|<|0.001|TWO_SIDED|95.0|3.789|5.291|||ANCOVA|Results from ANCOVA adjusted for baseline height, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||5.291|3.789|<0.001
82636833|NCT00174460|164988176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.064|STANDARD_ERROR_OF_MEAN|0.9822|<|0.001|TWO_SIDED|95.0|2.049|6.08|||ANCOVA|Results from ANCOVA adjusted for baseline height, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||6.080|2.049|<0.001
82383314|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.0|6.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||6|-3|
82518618|NCT02103439|164731658|NON_INFERIORITY_OR_EQUIVALENCE|the lower limit of the 95 % confidence interval between the difference in rate of rapid virological response with Algeron and PegIntron should be more than the non-inferiority margin (-20 %)|||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||> 0.05
82636834|NCT00174460|164988177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.719|STANDARD_ERROR_OF_MEAN|0.1606|<|0.001|TWO_SIDED|95.0|0.39|1.047|||ANCOVA|Results from ANCOVA adjusted for baseline height SDS and target height SDS; LOCF.||Treatment difference Month 24||1.047|0.390|<0.001
82442373|NCT01527383|164593346|OTHER||||||<|0.0001|||||||Longitudinal regression|Visit and stratification factor (biologic or non-biologic autoimmune therapy) were covariates|||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||<0.0001
82636835|NCT00174460|164988178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.497|<|0.001|TWO_SIDED|95.0|-3.73|-1.68|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, age, and sex; LOCF.||Treatment difference Month 12||-1.68|-3.73|<0.001
82636836|NCT00174460|164988178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.758||0.537|TWO_SIDED|95.0|-2.04|1.09|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, age, and sex; LOCF.||Treatment difference Month 24||1.09|-2.04|0.537
82518619|NCT04256733|164731714|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||.23
82518620|NCT04256733|164731715|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|||||||.57
82518621|NCT04256733|164731716|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82518622|NCT04542343|164731727|OTHER||Mean Difference (Net)|3.0|||<|0.01|TWO_SIDED|95.0|2.246|3.754|||t-test, 2 sided|||||3.75400|2.24600|<0.01
82636837|NCT00174460|164988179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.405||0.364|TWO_SIDED|95.0|-1.21|0.46|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||0.46|-1.21|0.364
82518623|NCT04542343|164731728|OTHER||Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|95.0|-4.256785|-2.343215|||t-test, 2 sided|||||-2.343215|-4.256785|<0.001
82518624|NCT04542343|164731733|OTHER||Mean Difference (Net)|-0.21818|||<|0.01|TWO_SIDED|95.0|-0.36828|-0.06809|||t-test, 2 sided|||||-0.06809|-0.36828|<0.01
82636838|NCT00174460|164988179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.345||0.506|TWO_SIDED|95.0|-0.94|0.48|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||0.48|-0.94|0.506
82636839|NCT00174460|164988180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|1.188||0.959|TWO_SIDED|95.0|-2.42|2.54|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 12||2.54|-2.42|0.959
82518625|NCT04542343|164731734|OTHER||Mean Difference (Net)|0.05623|STANDARD_ERROR_OF_MEAN|0.026|<|0.05|TWO_SIDED|95.0|0.00459|0.10788|||t-test, 2 sided|||||0.10788|0.00459|<0.05
82518626|NCT01571362|164731735|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.246||0.0114|TWO_SIDED|95.0|-1.11|-0.14||No adjustment was made for multiple comparisons. Statistical significance was if unadjusted p was less than or equal to (\<=) 0.05.|ANCOVA|||Null Hypothesis: No treatment difference. Power was 90%, 2-sided Alpha of 0.05, with assumed difference of 1 point and assumed standard deviation of 2.4 points.||-0.14|-1.11|0.0114
82636840|NCT00174460|164988180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|1.065||0.919|TWO_SIDED|95.0|-2.11|2.32|||ANCOVA|Results from ANCOVA adjusted for baseline skinfold thickness, target height SDS, sex, and age; LOCF.||Treatment difference Month 24||2.32|-2.11|0.919
82518627|NCT01571362|164731736|SUPERIORITY_OR_OTHER||Difference of LS Means|0.18|STANDARD_ERROR_OF_MEAN|0.565||0.7547|TWO_SIDED|95.0|-0.94|1.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and Baseline score and final total daily dose of Titration Period as covariates.|ANCOVA|||||1.29|-0.94|0.7547
82518628|NCT01571362|164731737|SUPERIORITY_OR_OTHER|||||||0.1272|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) stratified by prior pain analgesic (opioid or non-opioid)||||||0.1272
82636841|NCT00174460|164988181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.892|STANDARD_ERROR_OF_MEAN|0.8161||0.336|TWO_SIDED|95.0|-3.158|1.374|||ANCOVA|Results from ANCOVA adjusted for baseline volumetric cortical bone mineral density SDS and target height SDS; LOCF.||Treatment difference Month 12||1.374|-3.158|0.336
82518629|NCT01571362|164731738|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|CMH was stratified by prior pain analgesic (opioid and non-opioid).||||||0.0210
82518630|NCT01571362|164731739|SUPERIORITY_OR_OTHER|||||||0.0248|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0248
82518631|NCT01571362|164731740|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0090
82518632|NCT01571362|164731741|SUPERIORITY_OR_OTHER|||||||0.0874|||||||Cochran-Mantel-Haenszel|The CMH test was stratified by prior pain analgesic (opioid or non-opioid).||||||0.0874
82518633|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Worst Pain Score||||<0.0001
82518634|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Least Pain Score||||<0.0001
82518635|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Average Pain Score||||<0.0001
82518636|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Right Now||||<0.0001
82518637|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Severity Index||||<0.0001
82518638|NCT01571362|164731742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to end of the OL Period for Pain Interference Index||||<0.0001
82518639|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Worst Pain Score||||<0.0001
82518640|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Least Pain Score||||<0.0001
82518641|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Average Pain Score||||<0.0001
82518642|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Right Now||||<0.0001
82518643|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Severity Index||||<0.0001
82518644|NCT01571362|164731743|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Pain Interference Index||||<0.0001
82518645|NCT01571362|164731744|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.62|STANDARD_ERROR_OF_MEAN|0.222||0.0056|TWO_SIDED|95.0|-1.06|-0.18|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.18|-1.06|0.0056
82518646|NCT01571362|164731744|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.243||0.009|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.16|-1.12|0.0090
82518647|NCT01571362|164731744|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.37|STANDARD_ERROR_OF_MEAN|0.271||0.1684|TWO_SIDED|95.0|-0.91|0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||0.16|-0.91|0.1684
82518648|NCT01571362|164731744|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-1.46|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.50|-1.46|<0.0001
82518649|NCT01571362|164731745|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.193||0.0412|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2||-0.02|-0.78|0.0412
82518650|NCT01571362|164731745|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.87|STANDARD_ERROR_OF_MEAN|0.201|<|0.0001|TWO_SIDED|95.0|-1.27|-0.48|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4||-0.48|-1.27|<0.0001
82518651|NCT01571362|164731745|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.226||0.0055|TWO_SIDED|95.0|-1.08|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.19|-1.08|0.0055
82518652|NCT01571362|164731745|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.27|-0.44|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.44|-1.27|<0.0001
82518653|NCT01571362|164731746|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.19||0.0007|TWO_SIDED|95.0|-1.02|-0.27|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.27|-1.02|0.0007
82518654|NCT01571362|164731746|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.74|STANDARD_ERROR_OF_MEAN|0.213||0.0006|TWO_SIDED|95.0|-1.16|-0.32|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.32|-1.16|0.0006
82571719|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|4.2||||0.024|TWO_SIDED|95.0|0.56|7.81|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||7.81|0.56|0.024
82442374|NCT01527383|164593347|OTHER||||||<|0.0001|||||||Longitudinal regression|Visit and stratification factor (biologic or non-biologic autoimmune therapy) were covariates|||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||<0.0001
82442375|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Kruskal-Wallis|||Arm||||0.84
82442376|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Kruskal-Wallis|||Foot||||0.76
82442377|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Kruskal-Wallis|||Arm||||0.53
82571720|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|-0.1||||0.935|TWO_SIDED|95.0|-2.04|1.88|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||1.88|-2.04|0.935
82571721|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|0.7||||0.505|TWO_SIDED|95.0|-1.34|2.72|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||2.72|-1.34|0.505
82571722|NCT03305809|164853061|SUPERIORITY||Mean Difference (Net)|1.22||||0.266|TWO_SIDED|95.0|-0.91|3.3|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.30|-0.91|0.266
82518655|NCT01571362|164731746|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.236||0.007|TWO_SIDED|95.0|-1.11|-0.18|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.18|-1.11|0.0070
82518656|NCT01571362|164731746|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-1.31|-0.44|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.44|-1.31|<0.0001
82383315|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-5.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||1|-5|
82383316|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||2|-4|
82383317|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||4|-2|
82442378|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Kruskal-Wallis|||Foot||||0.07
82518657|NCT01571362|164731747|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.207||0.0022|TWO_SIDED|95.0|-1.05|-0.23|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.23|-1.05|0.0022
82518658|NCT01571362|164731747|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.214||0.0003|TWO_SIDED|95.0|-1.21|-0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.37|-1.21|0.0003
82442379|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||0.25
82442380|NCT01370837|164593371|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||0.27
82442381|NCT01370837|164593371|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Arm vs foot||||< 0.01
82518659|NCT01571362|164731747|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.264||0.0078|TWO_SIDED|95.0|-1.23|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.19|-1.23|0.0078
82518660|NCT01571362|164731747|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.231|<|0.0001|TWO_SIDED|95.0|-1.52|-0.62|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.62|-1.52|<0.0001
82518661|NCT01571362|164731748|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.189||0.0022|TWO_SIDED|95.0|-0.95|-0.21|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.21|-0.95|0.0022
82518662|NCT01571362|164731748|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.198||0.0002|TWO_SIDED|95.0|-1.15|-0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.37|-1.15|0.0002
82518663|NCT01571362|164731748|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.61|STANDARD_ERROR_OF_MEAN|0.228||0.0078|TWO_SIDED|95.0|-1.06|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||-0.16|-1.06|0.0078
82518664|NCT01571362|164731748|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.207|<|0.0001|TWO_SIDED|95.0|-1.35|-0.54|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.54|-1.35|<0.0001
82571723|NCT03305809|164853062|SUPERIORITY||Mean Difference (Net)|0.6||||0.55|TWO_SIDED|95.0|-1.28|2.41|||Mixed Models Analysis|||||2.41|-1.28|0.550
82571724|NCT03305809|164853062|SUPERIORITY||Mean Difference (Net)|1.8||||0.069|TWO_SIDED|95.0|-0.14|3.68|||Mixed Models Analysis|||||3.68|-0.14|0.069
82383318|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||2|-8|
82383319|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||2|-8|
82383320|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:8 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-5.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||5|-5|
82383321|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-9.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-9|
82383322|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||1|-11|
82383323|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain A with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-8.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain A were contained within the equivalence interval (-10%, 10%).||4|-8|
82518665|NCT01571362|164731749|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.188||0.0285|TWO_SIDED|95.0|-0.78|-0.04|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 2.||-0.04|-0.78|0.0285
82383324|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.0|5.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%)||5|-3|
82442382|NCT02558400|164593372|SUPERIORITY|To claim superiority PG324 had to be statistically superior to netarsudil and to latanoprost at all 9 of 9 primary efficacy timepoints|||||<|0.0001|||||||t-test, 2 sided|PG324 vs. netarsudil||||||<0.0001
82442383|NCT02558400|164593372|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. latanoprost||||||<0.0001
82518666|NCT01571362|164731749|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.188||0.0106|TWO_SIDED|95.0|-0.85|-0.11|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 4.||-0.11|-0.85|0.0106
82518667|NCT01571362|164731749|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.17|STANDARD_ERROR_OF_MEAN|0.222||0.4529|TWO_SIDED|95.0|-0.6|0.27|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 8.||0.27|-0.60|0.4529
82571725|NCT03305809|164853062|SUPERIORITY||Mean Difference (Net)|2.9||||0.005|TWO_SIDED|95.0|0.89|4.83|||Mixed Models Analysis|||||4.83|0.89|0.005
82636842|NCT00174460|164988181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.717|STANDARD_ERROR_OF_MEAN|0.6027||0.3|TWO_SIDED|95.0|-0.956|2.391|||ANCOVA|Results from ANCOVA adjusted for baseline volumetric cortical bone mineral density SDS and target height SDS; LOCF.||Treatment difference Month 24||2.391|-0.956|0.300
82636843|NCT00174460|164988182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.615|STANDARD_ERROR_OF_MEAN|0.6591|<|0.001|TWO_SIDED|95.0|4.266|6.963|||ANCOVA|Results from ANCOVA adjusted for baseline growth velocity SDS and target height SDS; LOCF.||Treatment difference||6.963|4.266|<0.001
82636844|NCT00174460|164988183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.482|STANDARD_ERROR_OF_MEAN|0.9666||0.653|TWO_SIDED|95.0|-3.558|2.595|||ANCOVA|Results from ANCOVA adjusted for baseline cortical cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||2.595|-3.558|0.653
82636845|NCT00174460|164988183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.205|STANDARD_ERROR_OF_MEAN|0.8991||0.251|TWO_SIDED|95.0|-3.701|1.292|||ANCOVA|Results from ANCOVA adjusted for baseline cortical cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||1.292|-3.701|0.251
82636846|NCT00174460|164988184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|1.1499||0.914|TWO_SIDED|95.0|-3.524|3.795|||ANCOVA|Results from ANCOVA adjusted for baseline total cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||3.795|-3.524|0.914
82636847|NCT00174460|164988184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.292|STANDARD_ERROR_OF_MEAN|0.4432||0.547|TWO_SIDED|95.0|-0.939|1.522|||ANCOVA|Results from ANCOVA adjusted for baseline total cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||1.522|-0.939|0.547
82636848|NCT00174460|164988185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|0.4542||0.007|TWO_SIDED|95.0|1.049|3.572|||ANCOVA|Results from ANCOVA adjusted for baseline muscle cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 12||3.572|1.049|0.007
82636849|NCT00174460|164988185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.626|STANDARD_ERROR_OF_MEAN|0.6536||0.068|TWO_SIDED|95.0|-0.189|3.44|||ANCOVA|Results from ANCOVA adjusted for baseline muscle cross-sectional area SDS and target height SDS; LOCF.||Treatment difference Month 24||3.440|-0.189|0.068
82636850|NCT00174460|164988188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.5061||0.331|TWO_SIDED|95.0|-0.846|1.965|||ANCOVA|Results from ANCOVA adjusted for baseline strength-strain index SDS and target height SDS; LOCF.||Treatment difference Month 12||1.965|-0.846|0.331
82636851|NCT00174460|164988188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.4703||0.82|TWO_SIDED|95.0|-1.192|1.42|||ANCOVA|Results from ANCOVA adjusted for baseline strength-strain index SDS and target height SDS; LOCF.||Treatment difference Month 24||1.420|-1.192|0.820
82636852|NCT00174460|164988189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.42||0.844|TWO_SIDED|95.0|-0.88|1.05|||ANCOVA|Results from ANCOVA adjusted for baseline hand grip strength SDS and target height SDS; LOCF.||Treatment difference Month 12||1.05|-0.88|0.844
82636853|NCT00174460|164988189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.329||0.519|TWO_SIDED|95.0|-0.52|0.96|||ANCOVA|Results from ANCOVA adjusted for baseline hand grip strength SDS and target height SDS; LOCF.||Treatment difference Month 24||0.96|-0.52|0.519
82636854|NCT00174460|164988192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.998|STANDARD_ERROR_OF_MEAN|0.1095|<|0.001|TWO_SIDED|95.0|0.778|1.219|||Mixed models analysis|Results from repeated measures mixed models analysis adjusted for baseline height SDS, visit, visit\*treatment and target height SDS.||Treatment difference Month 12||1.219|0.778|<0.001
82636855|NCT00174460|164988192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.688|STANDARD_ERROR_OF_MEAN|0.1519|<|0.001|TWO_SIDED|95.0|0.382|0.994|||Mixed models analysis|Results from repeated measures mixed models analysis adjusted for baseline height SDS, visit, visit\*treatment and target height SDS.||Treatment difference Month 24||0.994|0.382|<0.001
82636856|NCT00174460|164988194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.585|STANDARD_ERROR_OF_MEAN|0.3859|<|0.001|TWO_SIDED|95.0|3.806|5.363|||Mixed models analysis|Results from repeated measure mixed models analysis adjusted for baseline height, sex, age, visit, visit\*treatment and target height SDS.||Treatment difference Month 12||5.363|3.806|<0.001
82636857|NCT00174460|164988194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.563|STANDARD_ERROR_OF_MEAN|0.708|<|0.001|TWO_SIDED|95.0|2.134|4.992|||Mixed models analysis|Results from repeated measure mixed models analysis adjusted for baseline height, sex, age, visit, visit\*treatment and target height SDS.||Treatment difference Month 24||4.992|2.134|<0.001
82636858|NCT03982069|164988205|OTHER||||||<|0.001||||||All listed antigens|Chi-squared|||||||<0.001
82636859|NCT03982069|164988206|OTHER||||||<|0.001||||||All listed antigens|Chi-squared|||||||<0.001
82636860|NCT03982069|164988207|OTHER||||||<|0.001||||||Day 28 for all listed antigens|Chi-squared|||||||<0.001
82636861|NCT03982069|164988207|OTHER|||||||0.4||||||Day 0, A/H1N1-A/Brisbane|Chi-squared|||||||0.40
82636862|NCT03982069|164988207|OTHER|||||||0.36||||||Day 0 A/H1N1-A/Kansas egg grown virus|Chi-squared|||||||0.36
82636863|NCT03982069|164988207|OTHER|||||||0.08||||||Day 0 A/H1N1-A/Kansas cell grown virus|Chi-squared|||||||0.08
82636864|NCT03982069|164988207|OTHER|||||||0.91||||||Day 0 B/Victoria-B/Colorado|Chi-squared|||||||0.91
82571726|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|-7.0||||0.045|TWO_SIDED|95.0|-13.92|-0.15|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||-0.15|-13.92|0.045
82383325|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||4|-4|
82571727|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|3.1||||0.39|TWO_SIDED|95.0|-4.05|10.32|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||10.32|-4.05|0.390
82571728|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|-1.1||||0.768|TWO_SIDED|95.0|-8.32|6.16|||Mixed Models Analysis|||Sitting Systolic Blood Pressure||6.16|-8.32|0.768
82518668|NCT01571362|164731749|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.207||0.0018|TWO_SIDED|95.0|-1.06|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|Difference between treatment groups in change from Randomization Baseline to Week 12/Early Termination.||-0.25|-1.06|0.0018
82571729|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|-4.3||||0.041|TWO_SIDED|95.0|-8.48|-0.17|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||-0.17|-8.48|0.041
82518669|NCT01571362|164731750|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.258||0.0061|TWO_SIDED|95.0|-1.22|-0.2|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.20|-1.22|0.0061
82518670|NCT01571362|164731750|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.277||0.0087|TWO_SIDED|95.0|-1.28|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.19|-1.28|0.0087
82571730|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|-0.5||||0.802|TWO_SIDED|95.0|-4.81|3.72|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||3.72|-4.81|0.802
82636865|NCT03982069|164988207|OTHER|||||||0.31||||||Day 0 B/Yamagata-B/Phuket|Chi-squared|||||||0.31
82636866|NCT03982069|164988208|OTHER|||||||0.79||||||Day 0 A/H1N1-A/Brisbane|t-test, 2 sided|||||||0.79
82636867|NCT03982069|164988208|OTHER|||||||0.79||||||Day 0 A/H3N2-A/Kansas egg grown virus|t-test, 2 sided|||||||0.79
82636868|NCT03982069|164988208|OTHER|||||||0.56||||||Day 0 A/H3N2-A/Kansas cell grown virus|t-test, 2 sided|||||||0.56
82636869|NCT03982069|164988208|OTHER|||||||0.95||||||Day 0 B/Victoria-B/Colorado|t-test, 2 sided|||||||0.95
82518671|NCT01571362|164731750|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.56|STANDARD_ERROR_OF_MEAN|0.315||0.0769|TWO_SIDED|95.0|-1.18|0.06|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||0.06|-1.18|0.0769
82518672|NCT01571362|164731750|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.1|STANDARD_ERROR_OF_MEAN|0.289||0.0002|TWO_SIDED|95.0|-1.67|-0.53|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.53|-1.67|0.0002
82518673|NCT01571362|164731751|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.224||0.025|TWO_SIDED|95.0|-0.95|-0.06|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.06|-0.95|0.0250
82518674|NCT01571362|164731751|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.234||0.0002|TWO_SIDED|95.0|-1.36|-0.43|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.43|-1.36|0.0002
82383326|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain C with respect to the immune response to the vaccine lot.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.0|4.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain C were contained within the equivalence interval (-10%, 10%).||4|-4|
82518675|NCT01571362|164731751|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.263||0.0038|TWO_SIDED|95.0|-1.29|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.25|-1.29|0.0038
82518676|NCT01571362|164731751|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-1.46|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.50|-1.46|<0.0001
82518677|NCT01571362|164731752|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.8|STANDARD_ERROR_OF_MEAN|0.214||0.0002|TWO_SIDED|95.0|-1.22|-0.38|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.38|-1.22|0.0002
82518678|NCT01571362|164731752|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.78|STANDARD_ERROR_OF_MEAN|0.235||0.001|TWO_SIDED|95.0|-1.25|-0.32|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.32|-1.25|0.0010
82518679|NCT01571362|164731752|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.79|STANDARD_ERROR_OF_MEAN|0.271||0.0041|TWO_SIDED|95.0|-1.32|-0.25|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.25|-1.32|0.0041
82636870|NCT03982069|164988208|OTHER|||||||0.44||||||Day 0 B/Yamagata-B/Phuket|t-test, 2 sided|||||||0.44
82518680|NCT01571362|164731752|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|-1.52|-0.56|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.56|-1.52|<0.0001
82571731|NCT03305809|164853063|SUPERIORITY||Mean Difference (Net)|-2.4||||0.284|TWO_SIDED|95.0|-6.67|1.97|||Mixed Models Analysis|||Sitting Diastolic Blood Pressure||1.97|-6.67|0.284
82518681|NCT01571362|164731753|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.236||0.0115|TWO_SIDED|95.0|-1.06|-0.14|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.14|-1.06|0.0115
82636871|NCT03982069|164988208|OTHER||||||<|0.001||||||Day 28 for all listed variables|t-test, 2 sided|||||||<0.001
82518682|NCT01571362|164731753|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.256||0.0099|TWO_SIDED|95.0|-1.17|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.16|-1.17|0.0099
82636872|NCT03982069|164988209|OTHER|||||||0.83|||||||Chi-squared|Day 0: A/H1N1-A/Hawaii66-egg based antigen||||||0.83
82636873|NCT03982069|164988209|OTHER|||||||0.79|||||||Chi-squared|Day 0: A/H1N1-A/Hawaii70-cell based antigen||||||0.79
82518683|NCT01571362|164731753|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.307||0.0222|TWO_SIDED|95.0|-1.31|-0.1|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.10|-1.31|0.0222
82636874|NCT03982069|164988209|OTHER|||||||0.65|||||||Chi-squared|Day 0: A/H1N1-A/Delaware||||||0.65
82518684|NCT01571362|164731753|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.264||0.0001|TWO_SIDED|95.0|-1.54|-0.5|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/ Early Termination.||-0.50|-1.54|0.0001
82518685|NCT01571362|164731754|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.218||0.0025|TWO_SIDED|95.0|-1.09|-0.24|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||-0.24|-1.09|0.0025
82571732|NCT03305809|164853064|SUPERIORITY||Mean Difference (Net)|0.0||||0.996|TWO_SIDED|95.0|-4.17|4.19|||Mixed Models Analysis|||||4.19|-4.17|0.996
82571733|NCT03305809|164853064|SUPERIORITY||Mean Difference (Net)|-0.7||||0.767|TWO_SIDED|95.0|-4.99|3.69|||Mixed Models Analysis|||||3.69|-4.99|0.767
82571734|NCT03305809|164853064|SUPERIORITY||Mean Difference (Net)|-0.6||||0.791|TWO_SIDED|95.0|-4.96|3.79|||Mixed Models Analysis|||||3.79|-4.96|0.791
82571735|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|0.98||||0.312|TWO_SIDED|95.0|-0.93|2.88|||ANCOVA|||Week 12||2.88|-0.93|0.312
82571736|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|1.03||||0.289|TWO_SIDED|95.0|-0.89|2.95|||ANCOVA|||Week 12||2.95|-0.89|0.289
82571737|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|1.56||||0.141|TWO_SIDED|95.0|-0.53|3.65|||ANCOVA|||Week 12||3.65|-0.53|0.141
82571738|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|0.06||||0.954|TWO_SIDED|95.0|-1.89|2.01|||ANCOVA|||Week 12||2.01|-1.89|0.954
82571739|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|0.59||||0.584|TWO_SIDED|95.0|-1.53|2.7|||ANCOVA|||||2.70|-1.53|0.584
82636875|NCT03982069|164988209|OTHER|||||||0.06|||||||Chi-squared|Day 0: A/H3N2-A/Hong Kong||||||0.06
82636876|NCT03982069|164988209|OTHER|||||||0.98|||||||Chi-squared|Day 0: B/Victoria-B/Washington||||||0.98
82636877|NCT03982069|164988209|OTHER|||||||0.24|||||||Chi-squared|Day 0: B/Yamagata-B/Phuket||||||0.24
82518686|NCT01571362|164731754|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.235||0.0012|TWO_SIDED|95.0|-1.23|-0.31|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||-0.31|-1.23|0.0012
82571740|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|0.53||||0.623|TWO_SIDED|95.0|-1.59|2.65|||ANCOVA|||Week 12||2.65|-1.59|0.623
82571741|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|1.39||||0.256|TWO_SIDED|95.0|-1.02|3.79|||ANCOVA|||Follow-up||3.79|-1.02|0.256
82571742|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|1.41||||0.258|TWO_SIDED|95.0|-1.04|3.86|||ANCOVA|||Follow-up||3.86|-1.04|0.258
82571743|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|4.59|||<|0.001|TWO_SIDED|95.0|1.93|7.25|||ANCOVA|||Follow-up||7.25|1.93|<0.001
82571744|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|0.02||||0.988|TWO_SIDED|95.0|-2.47|2.51|||ANCOVA|||Follow-up||2.51|-2.47|0.988
82571745|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|3.2||||0.02|TWO_SIDED|95.0|0.51|5.9|||ANCOVA|||Follow-up||5.90|0.51|0.020
82571746|NCT03305809|164853065|SUPERIORITY||Mean Difference (Net)|3.18||||0.022|TWO_SIDED|95.0|0.46|5.91|||ANCOVA|||Follow-up||5.91|0.46|0.022
82571747|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||Dryness severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.42
82571748|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Dryness bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.22
82571749|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANOVA|||Itching severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.37
82571750|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANOVA|||Itching bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.27
82571751|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.46|||||||ANOVA|||Burning severity: P-value for the global F-test testing for all treatment arm effects equal.||||0.46
82571752|NCT00816556|164853067|SUPERIORITY_OR_OTHER|||||||0.67|||||||ANOVA|||Burning bothersomeness: P-value for the global F-test testing for all treatment arm effects equal.||||0.67
82571753|NCT00816556|164853068|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||Baseline vs. week 2: P-value for the global F-test testing for all treatment arm effects equal.||||0.33
82571754|NCT00816556|164853068|SUPERIORITY_OR_OTHER|||||||0.99|||||||ANOVA|||Baseline vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.99
82571755|NCT00816556|164853068|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Week 2 vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.58
82571756|NCT00816556|164853069|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANOVA|||Baseline vs. week 2: P-value for the global F-test testing for all treatment arm effects equal.||||0.007
82571757|NCT00816556|164853069|SUPERIORITY_OR_OTHER|||||||0.32|||||||ANOVA|||Baseline vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.32
82571758|NCT00816556|164853069|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA|||Week 2 vs. week 12: P-value for the global F-test testing for all treatment arm effects equal.||||0.02
82518687|NCT01571362|164731754|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.272||0.0078|TWO_SIDED|95.0|-1.27|-0.19|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||-0.19|-1.27|0.0078
82442384|NCT00131456|164593388|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Regression, Logistic|||Logistic regression was used to analyze all dichotomous outcomes. The dichotomous primary outcome marijuana abstinence was modeled using independent predictors: treatment(Venlafaxine vs. Placebo) and baseline urine THC level. The initial analysis included an interaction between treatment and baseline urine THC levels which was deemed not significant and omitted from the final logistic model.||||<0.01
82518688|NCT01571362|164731754|SUPERIORITY_OR_OTHER||Difference of LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-1.52|-0.56|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/Early Termination.||-0.56|-1.52|<0.0001
82518689|NCT01571362|164731755|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.228||0.0727|TWO_SIDED|95.0|-0.86|0.04|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 2.||0.04|-0.86|0.0727
82518690|NCT01571362|164731755|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.238||0.0501|TWO_SIDED|95.0|-0.94|0.0|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 4.||0.00|-0.94|0.0501
82571759|NCT03546816|164853076|SUPERIORITY|||||||0.229||||||P-value from a Cochran-Mantel-Haenszel (CMH) test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.229
82518691|NCT01571362|164731755|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.262||0.5704|TWO_SIDED|95.0|-0.67|0.37|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 8.||0.37|-0.67|0.5704
82518692|NCT01571362|164731755|SUPERIORITY_OR_OTHER||Difference of LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.245||0.0096|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|Difference between treatment groups in change from Screening to Week 12/ Early Termination.||-0.16|-1.12|0.0096
82571760|NCT03546816|164853077|SUPERIORITY|||||||0.013||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.013
82636878|NCT03982069|164988209|OTHER||||||<|0.01|||||||Chi-squared|Day 28: A/H1N1-A/Hawaii66-egg based antigen, A/H1N1-A/Hawaii70-cell based antigen, A/H1N1-A/Delaware, B/Victoria-B/Washington, B/Yamagata-B/Phuket||||||<0.01
82636879|NCT03982069|164988209|OTHER|||||||0.66|||||||Chi-squared|A/H3N2-A/Hong Kong||||||0.66
82442385|NCT03809910|164593405|SUPERIORITY||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|-0.09|-0.04||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.04|-0.09|<.0001
82518693|NCT01571362|164731756|SUPERIORITY_OR_OTHER||Difference of LS Means|-27.75|STANDARD_ERROR_OF_MEAN|10.968||0.012|TWO_SIDED|95.0|-49.34|-6.16|||ANCOVA||Difference between treatment groups evaluated by ANCOVA with treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|||-6.16|-49.34|0.0120
82442386|NCT03809910|164593406|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.17|-0.07||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.07|-0.17|<0.0001
82518694|NCT01571362|164731757|SUPERIORITY_OR_OTHER||Difference of LS Means|-3.87|STANDARD_ERROR_OF_MEAN|50.5||0.939|TWO_SIDED|95.0|-103.29|95.55|||ANCOVA||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the average daily rescue acetaminophen during the Titration Period and final total daily study medication dose of the Titration Period as covariates.|||95.55|-103.29|0.9390
82571761|NCT03546816|164853078|SUPERIORITY|||||||0.236||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||||||0.236
82518695|NCT01571362|164731763|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 20% loss of analgesic response||||0.0014
82571762|NCT03546816|164853079|SUPERIORITY|||||||0.083||||||P-values, least squares means (LS Mean) and standard deviations (LS SD) from an analysis of covariance (ANCOVA) with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.083
82518696|NCT01571362|164731763|SUPERIORITY_OR_OTHER|||||||0.0024|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 30% loss of analgesic response.||||0.0024
82518697|NCT01571362|164731763|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 40% loss of analgesic response.||||0.0006
82571763|NCT03546816|164853079|SUPERIORITY|||||||0.049||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.049
82636880|NCT03982069|164988210|OTHER|||||||0.22||||||Day 0: A/H1N1-A/Hawaii66 egg based antigen|t-test, 2 sided|||||||0.22
82518698|NCT01571362|164731763|SUPERIORITY_OR_OTHER|||||||0.0021|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors||Time to 50% loss of analgesic response||||0.0021
82571764|NCT03546816|164853079|SUPERIORITY|||||||0.081||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 6||||0.081
82571765|NCT03546816|164853079|SUPERIORITY|||||||0.157||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.157
82518699|NCT01571362|164731765|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon test, survival analysis|P-value from Wilcoxon test with treatment and opioid stratum as factors.||||||0.006
82636881|NCT03982069|164988210|OTHER|||||||0.25||||||Day 0: A/H1N1-A/Hawaii70 cell based antigen|t-test, 2 sided|||||||0.25
82518700|NCT01571362|164731775|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to the End of Open-Label Titration Period.||||<0.0001
82518701|NCT01571362|164731776|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline.||||<0.0001
82636882|NCT03982069|164988210|OTHER|||||||0.13||||||Day 0: A/H1N1-A/Delaware|t-test, 2 sided|||||||0.13
82636883|NCT03982069|164988210|OTHER|||||||0.06||||||Day 0: A/H3N2-A/Hong Kong|t-test, 2 sided|||||||0.06
82636884|NCT03982069|164988210|OTHER|||||||0.78||||||Day 0: B/Victoria-B/Washington|t-test, 2 sided|||||||0.78
82518702|NCT01571362|164731777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05|STANDARD_ERROR_OF_MEAN|0.584||0.0733|TWO_SIDED|95.0|-2.2|0.1||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 2.||0.10|-2.20|0.0733
82518703|NCT01571362|164731777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.642||0.2783|TWO_SIDED|95.0|-1.96|0.57||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 4.||0.57|-1.96|0.2783
82636885|NCT03982069|164988210|OTHER|||||||0.36||||||Day 0: B/Yamagata-B/Phuket|t-test, 2 sided|||||||0.36
82518704|NCT01571362|164731777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.684||0.3951|TWO_SIDED|95.0|-0.77|1.93||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 8.||1.93|-0.77|0.3951
82518705|NCT01571362|164731777|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.614||0.9063|TWO_SIDED|95.0|-1.14|1.28||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||Model-adjusted Change from Screening to Week 12.||1.28|-1.14|0.9063
82518706|NCT01571362|164731778|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.463||0.1139|TWO_SIDED|95.0|-1.65|0.18||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted change from Baseline to Week 2.||0.18|-1.65|0.1139
82518707|NCT01571362|164731778|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.577||0.2264|TWO_SIDED|95.0|-1.84|0.44||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted Change from Baseline to Week 4.||0.44|-1.84|0.2264
82636886|NCT03982069|164988210|OTHER||||||<|0.0001||||||Day 28: A/H1N1-A/Hawaii66 egg based antigen, A/H1N1-A/Hawaii70 cell based antigen, A/H1N1-A/Delaware, B/Victoria-B/Washington, B/Yamagata-B/Phuket|t-test, 2 sided|||||||<0.0001
82571766|NCT03546816|164853080|SUPERIORITY|||||||0.151||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 2||||0.151
82442387|NCT03809910|164593407|SUPERIORITY||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.16|-0.06||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.06|-0.16|<0.0001
82571767|NCT03546816|164853080|SUPERIORITY|||||||0.052||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 4||||0.052
82636887|NCT03982069|164988210|OTHER|||||||0.01||||||Day 28: A/H3N2-A/Hong Kong|t-test, 2 sided|||||||0.01
82636888|NCT03970330|164988219|SUPERIORITY||Mean Difference (Final Values)|1123.0||||0.2|TWO_SIDED|95.0|-755.0|3000.0|||t-test, 2 sided||Difference calculated as Naltrexone minus Placebo|||3000|-755|0.20
82383327|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-5.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||1|-5|
82383328|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||2|-4|
82442388|NCT03809910|164593408|SUPERIORITY||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|-0.25|-0.19||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.19|-0.25|<0.0001
82518708|NCT01571362|164731778|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.619||0.5074|TWO_SIDED|95.0|-0.81|1.63||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Model-adjusted Change from Baseline to Week 8.||1.63|-0.81|0.5074
82518709|NCT01571362|164731779|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Bowker's test of symmetry|||||||<0.0001
82518710|NCT01571362|164731780|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Bowker's test of symmetry|||||||<0.0001
82518711|NCT01571362|164731781|SUPERIORITY_OR_OTHER|||||||0.2211|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.2211
82518712|NCT01571362|164731782|SUPERIORITY_OR_OTHER|||||||0.5767|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.5767
82518713|NCT01571362|164731785|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Cochran-Mantel-Haenszel|Stratified by opioid stratum.||||||0.0004
82518714|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Physical Functioning.||||<0.0001
82518715|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Role-Physical.||||<0.0001
82636889|NCT03970330|164988220|SUPERIORITY||Mean Difference (Final Values)|28.9||||0.06|TWO_SIDED|95.0|-1.9|59.6|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at BASELINE||59.6|-1.9|0.06
82636890|NCT03970330|164988220|SUPERIORITY||Mean Difference (Final Values)|10.4||||0.48|TWO_SIDED|95.0|-20.3|41.2|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 4||41.2|-20.3|0.48
82636891|NCT03970330|164988220|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.21|TWO_SIDED|95.0|-11.8|49.6|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 8||49.6|-11.8|0.21
82636892|NCT03970330|164988220|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.3|TWO_SIDED|95.0|-15.2|46.2|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 12||46.2|-15.2|0.30
82636893|NCT03970330|164988220|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.65|TWO_SIDED|95.0|-24.0|37.5|||Mixed Models Analysis|A single model was run with comparisons between naltrexone and placebo at each visit (not adjusted for multiple comparisons)|Difference calculated as Naltrexone minus Placebo|Comparison of treatment groups at WEEK 16||37.5|-24.0|0.65
82636894|NCT03970330|164988221|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 4||||0.07
82518716|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Bodily Pain.||||<0.0001
82636895|NCT03970330|164988221|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.07
82636896|NCT03970330|164988221|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.06
82518717|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for General Health.||||<0.0001
82518718|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Vitality.||||<0.0001
82636897|NCT03970330|164988221|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||1.00
82636898|NCT03970330|164988222|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Comparison of treament groups at WEEK 4||||0.29
82518719|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Social Functioning.||||<0.0001
82518720|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Role-Emotional.||||<0.0001
82518721|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Mental Health.||||<0.0001
82518722|NCT01571362|164731786|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Physical Component Score.||||<0.0001
82518723|NCT01571362|164731786|SUPERIORITY_OR_OTHER|||||||0.0026|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label Titration Period for Mental Component Score.||||0.0026
82636899|NCT03970330|164988222|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.24
82636900|NCT03970330|164988222|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.20
82636901|NCT03970330|164988222|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||0.53
82636902|NCT03970330|164988223|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 4||||0.37
82636903|NCT03970330|164988223|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 8||||0.39
82636904|NCT03970330|164988223|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 12||||0.37
82636905|NCT03970330|164988223|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at WEEK 16||||0.39
82636906|NCT03970330|164988224|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.08|TWO_SIDED|95.0|-0.6|9.2|||t-test, 2 sided||Difference calculated as Naltrexone minus Placebo|||9.2|-0.6|0.08
82636907|NCT04051320|164988247|SUPERIORITY||F statistic|2.164||||0.16|TWO_SIDED||||||repeated measures ANOVA|||||||0.160
82636908|NCT04051320|164988248|SUPERIORITY||F statistic|1.74||||0.1922|TWO_SIDED||||||ANOVA|||||||0.1922
82636909|NCT04051320|164988249|SUPERIORITY||F statistic|0.837||||0.368|TWO_SIDED||||||ANOVA|||||||0.368
82636910|NCT04051320|164988250|SUPERIORITY||F statistic|0.23||||0.881|TWO_SIDED||||||ANOVA|||||||0.881
82636911|NCT04051320|164988251|SUPERIORITY||F statistic|16.541||||0.000723|TWO_SIDED||||||ANOVA|||||||0.000723
82636912|NCT04051320|164988252|SUPERIORITY||F statistic|0.072||||0.791|TWO_SIDED||||||ANOVA|||||||0.791
82636913|NCT04051320|164988253|SUPERIORITY||F statistic|4.952||||0.0372|TWO_SIDED||||||ANOVA|||||||0.0372
82636914|NCT04051320|164988254|SUPERIORITY||F statistic|3.258||||0.0861|TWO_SIDED||||||ANOVA|||||||0.0861
82636915|NCT04051320|164988255|SUPERIORITY||F statistic|2.37||||0.139|TWO_SIDED||||||ANOVA|||||||0.139
82636916|NCT04051320|164988256|SUPERIORITY||F statistic|1.484||||0.237|TWO_SIDED||||||ANOVA|||||||0.237
82636917|NCT04051320|164988257|SUPERIORITY||F statistic|0.013||||0.91|TWO_SIDED||||||ANOVA|||||||0.910
82636918|NCT04051320|164988258|SUPERIORITY||F statistic|4.609||||0.0449|TWO_SIDED||||||ANOVA|||||||0.0449
82636919|NCT04051320|164988259|SUPERIORITY|||||||0.322|||||||Pearson's Correlation Coefficient|||||||0.322
82636920|NCT04051320|164988259|SUPERIORITY|||||||0.772|||||||Pearson's Correlation Coefficient|||||||0.772
82636921|NCT04051320|164988260|SUPERIORITY||Pearson's r|-0.568314||||0.068|TWO_SIDED||||||Pearson correlation|||||||0.068
82636922|NCT04051320|164988260|SUPERIORITY||Pearson's r|-0.082904||||0.8759289|TWO_SIDED||||||Pearson correlation|||||||0.8759289
82518724|NCT01571362|164731787|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for Physical Functioning, Role-Physical, Bodily Pain, General Health, Vitality, Social Functioning, Role-Emotional, Mental Health, Physical Component Score, and Mental Component Score||||<0.0001
82518725|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|0.952||0.5181|TWO_SIDED|95.0|-1.26|2.49||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Physical Functioning.||2.49|-1.26|0.5181
82518726|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.998||0.9733|TWO_SIDED|95.0|-2.0|1.93||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Role-Physical.||1.93|-2.00|0.9733
82518727|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|0.914||0.01|TWO_SIDED|95.0|0.57|4.18||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Bodily Pain.||4.18|0.57|0.0100
82518728|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.764||0.4712|TWO_SIDED|95.0|-2.06|0.95||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for General Health Perceptions.||0.95|-2.06|0.4712
82518729|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.16|STANDARD_ERROR_OF_MEAN|1.091||0.2898|TWO_SIDED|95.0|-3.3|0.99||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Vitality.||0.99|-3.30|0.2898
82518730|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|1.044||0.1565|TWO_SIDED|95.0|-0.57|3.54||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Social Functioning.||3.54|-0.57|0.1565
82636923|NCT04051320|164988261|SUPERIORITY||Pearson's r|-0.1275539||||0.70859639|TWO_SIDED||||||Pearson correlation|||||||0.70859639
82636924|NCT04051320|164988261|SUPERIORITY||Pearson's r|0.49225646||||0.2617744|TWO_SIDED||||||Pearson correlation|||||||0.2617744
82636925|NCT04051320|164988262|SUPERIORITY|||||||0.568|||||||Pearson's Correlation Coefficient|||||||0.568
82636926|NCT04051320|164988262|SUPERIORITY|||||||0.944|||||||Pearson's Correlation Coefficient|||||||0.944
82636927|NCT04051320|164988263|SUPERIORITY|||||||0.103|||||||Pearson's Correlation Coefficient|||||||0.103
82636928|NCT03485976|164988264|OTHER||||||<|0.001||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||||||<0.001
82636929|NCT03485976|164988265|OTHER|||||||0.004||||||The threshold for significance was p=0.05|t-test, 2 sided|||||||0.004
82636930|NCT03485976|164988266|OTHER|||||||0.001||||||Threshold for significance was p=0.05|t-test, 2 sided|||||||0.001
82383329|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain W with respect to the immune response to the vaccine lot.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain W were contained within the equivalence interval (-10%, 10%).||3|-2|
82383330|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval for all pairs of vaccine lots, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 2 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-8.0|1.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 2 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||1|-8|
82383331|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 1 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-9.0|0.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 1 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||0|-9|
82383332|NCT00450437|164477307|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (-10%, 10%). If the two sided 95% CIs for the percentage of subjects with hSBA titer ≥1:4 at one month following vaccination was within this equivalence interval, Investigational vaccine MenACWY Lot 2 and Investigational vaccine MenACWY Lot 3 would be equivalent for Neisseria Meningitidis strain Y with respect to the immune response to the vaccine lot.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.0|3.0|||ANOVA|||Lot-to-lot consistency would be concluded if the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:4 comparing Investigational vaccine MenACWY Lot 2 to Investigational vaccine MenACWY Lot 3 for Neisseria Meningitidis strain Y were contained within the equivalence interval (-10%, 10%).||3|-5|
82383333|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||8|0|
82383334|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|5.0|||||TWO_SIDED|95.0|1.0|9.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||9|1|
82383335|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|15.0|||||TWO_SIDED|95.0|11.0|20.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs.Licensed MenaCWY vaccine, MenW.||20|11|
82518731|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|1.348||0.522|TWO_SIDED|95.0|-3.52|1.79||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Role-Emotional.||1.79|-3.52|0.5220
82383336|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with seroresponse one month after vaccination is \> -10%.|Vaccine group difference|23.0|||||TWO_SIDED|95.0|19.0|28.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||28|19|
82383337|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||8|0|
82518732|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.995||0.9865|TWO_SIDED|95.0|-1.94|1.98||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Mental Health.||1.98|-1.94|0.9865
82518733|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|0.885||0.2491|TWO_SIDED|95.0|-0.72|2.77||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Physical Component Score.||2.77|-0.72|0.2491
82518734|NCT01571362|164731788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|1.073||0.5219|TWO_SIDED|95.0|-2.8|1.43||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Difference between treatment groups in change from Randomization Baseline for Mental Component Score.||1.43|-2.80|0.5219
82383338|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|0.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||7|0|
82383339|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|6.0|||||TWO_SIDED|95.0|4.0|9.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||9|4|
82383340|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:8 one month after vaccination is \> -10%.|Vaccine group difference|15.0|||||TWO_SIDED|95.0|12.0|20.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||20|12|
82383341|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.0|7.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||7|-1|
82383342|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.0|4.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenC.||4|-1|
82383343|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|6.0|||||TWO_SIDED|95.0|3.0|8.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||8|3|
82383344|NCT00450437|164477308|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for percentage of subjects with hSBA ≥ 1:4 one month after vaccination is \> -10%.|Vaccine group difference|12.0|||||TWO_SIDED|95.0|9.0|16.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||16|9|
82383345|NCT00450437|164477309|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain A with respect to the immune response.|hSBA GMT ratios|1.32|||||TWO_SIDED|95.0|1.12|1.56|||ANOVA|||"Non-inferiority of Investigational MenACWY Vaccine vs. Licensed MenACWY vaccine, MenA.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain A at 1 month after vaccination was to be above 0.5."||1.56|1.12|
82383346|NCT00450437|164477309|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain C with respect to the immune response.|hSBA GMT ratios|1.4|||||TWO_SIDED|95.0|1.17|1.67|||ANOVA|||"Non-inferiority of Investigation MenACWY vaccine vs. Licensed MenACWY vaccine, MenC.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain C at 1 month after vaccination was to be above 0.5."||1.67|1.17|
82383347|NCT00450437|164477309|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain W with respect to the immune response.|hSBA GMT ratios|1.76|||||TWO_SIDED|95.0|1.51|2.05|||ANOVA|||"Non-inferiority of Investigational MenACWY vaccine vs. Licensed MenACWY vaccine, MenW.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain W at 1 month after vaccination was to be above 0.5."||2.05|1.51|
82383348|NCT00450437|164477309|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence lower limit was 0.5. If the lower limit of two sided 95% CIs for the ratio of the hSBA GMT (GMT for investigational vaccine / GMT for licensed vaccine) at one month following vaccination was above this limit, Investigational MenACWY vaccine would be non-inferior to Licensed MenACWY vaccine for Neisseria Meningitidis strain Y with respect to the immune response.|hSBA GMT ratios|2.49|||||TWO_SIDED|95.0|2.11|2.95|||ANOVA|||"Non-inferiority of Investigational MenACWY Vaccine vs. Licensed MenACWY vaccine, MenY.~The study would be considered a success if the lower limit of the two-sided 95% CIs for the hSBA GMT ratios comparing Investigational MenACWY vaccine to Licensed MenACWY vaccine for Neisseria Meningitidis strain Y at 1 month after vaccination was to be above 0.5."||2.95|2.11|
82383349|NCT00450437|164477311|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-7.0|5.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenA.||5|-7|
82442389|NCT03809910|164593409|SUPERIORITY||Adjusted Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.43|-0.33||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.33|-0.43|<0.0001
82518735|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.111||0.1731|TWO_SIDED|95.0|-0.67|3.71||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Physical Functioning.||3.71|-0.67|0.1731
82518736|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.127||0.329|TWO_SIDED|95.0|-1.12|3.32||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Role-Physical.||3.32|-1.12|0.3290
82518737|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|1.047||0.0232|TWO_SIDED|95.0|0.33|4.45||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Bodily Pain.||4.45|0.33|0.0232
82518738|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.858||0.8139|TWO_SIDED|95.0|-1.89|1.49||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for General Health Perceptions.||1.49|-1.89|0.8139
82518739|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|1.117||0.6878|TWO_SIDED|95.0|-2.65|1.75||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Vitality.||1.75|-2.65|0.6878
82518740|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.08||0.0658|TWO_SIDED|95.0|-0.13|4.12||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Social Functioning.||4.12|-0.13|0.0658
82518741|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|1.374||0.867|TWO_SIDED|95.0|-2.48|2.94||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Role-Emotional.||2.94|-2.48|0.8670
82518742|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|1.056||0.7259|TWO_SIDED|95.0|-1.71|2.45||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Mental Health.||2.45|-1.71|0.7259
82518743|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|1.007||0.0989|TWO_SIDED|95.0|-0.32|3.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Physical Component Score.||3.65|-0.32|0.0989
82518744|NCT01571362|164731789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.142||0.9969|TWO_SIDED|95.0|-2.25|2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Difference between treatment groups in change from Screening for Mental Component Score.||2.25|-2.25|0.9969
82518745|NCT01571362|164731790|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82518746|NCT01571362|164731791|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82518747|NCT01571362|164731792|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82518748|NCT01571362|164731793|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82518749|NCT01571362|164731794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.032|STANDARD_ERROR_OF_MEAN|0.0168||0.0605|TWO_SIDED|95.0|-0.001|0.065||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of study drug during the Titration Period as covariates.|ANCOVA|||||0.065|-0.001|0.0605
82518750|NCT01571362|164731795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|1.999||0.7196|TWO_SIDED|95.0|-3.22|4.66||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors; Randomization Baseline score and final total daily dose of study drug during the Titration Period as covariates.|ANCOVA|||||4.66|-3.22|0.7196
82518751|NCT01571362|164731796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.0172||0.228|TWO_SIDED|95.0|-0.013|0.055||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||||0.055|-0.013|0.2280
82518752|NCT01571362|164731797|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|2.048||0.2701|TWO_SIDED|95.0|-1.77|6.3||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariate.|ANCOVA|||||6.30|-1.77|0.2701
82518753|NCT01571362|164731798|SUPERIORITY_OR_OTHER|||||||0.3822|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Work Time Missed due to Low Back Pain.||||0.3822
82518754|NCT01571362|164731798|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Impairment while Working due to Low Back Pain.||||<0.0001
82518755|NCT01571362|164731798|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Overall Work Impairment due to Low Back Pain.||||<0.0001
82518756|NCT01571362|164731798|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to End of Open-Label for % Activity Impairment due to Low Back Pain.||||<0.0001
82518757|NCT01571362|164731799|SUPERIORITY_OR_OTHER|||||||0.0017|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Work Time Missed due to Low Back Pain||||0.0017
82636931|NCT01632345|164988289|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|6.7|||||TWO_SIDED|95.0|-9.0|22.4|||||A negative value would be considered as favoring doravirine over efavirenz.|||22.4|-9.0|
82518758|NCT01571362|164731799|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Impairment while Working due to Low Back Pain||||<0.0001
82518759|NCT01571362|164731799|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Overall Work Impairment due to Low Back Pain||||<0.0001
82518760|NCT01571362|164731799|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from Screening Period value to Randomization Baseline for % Activity Impairment due to Low Back Pain||||<0.0001
82636932|NCT01632345|164988289|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|9.7|||||TWO_SIDED|95.0|-4.6|24.9|||||A negative value would be considered as favoring doravirine over efavirenz.|||24.9|-4.6|
82571768|NCT03546816|164853080|SUPERIORITY|||||||0.175||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 10||||0.175
82518761|NCT01571362|164731800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.31|STANDARD_ERROR_OF_MEAN|2.883||0.1389|TWO_SIDED|95.0|-10.06|1.43||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||1.43|-10.06|0.1389
82571769|NCT03546816|164853081|SUPERIORITY|||||||0.475||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.475
82571770|NCT03546816|164853081|SUPERIORITY|||||||0.02||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.020
82636933|NCT01632345|164988289|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-11.9|||||TWO_SIDED|95.0|-27.9|6.3|||||A negative value would be considered as favoring doravirine over efavirenz.|||6.3|-27.9|
82518762|NCT01571362|164731800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.88|STANDARD_ERROR_OF_MEAN|4.34||0.5094|TWO_SIDED|95.0|-11.56|5.8||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||5.80|-11.56|0.5094
82518763|NCT01571362|164731800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.77|STANDARD_ERROR_OF_MEAN|4.043||0.4944|TWO_SIDED|95.0|-10.81|5.26||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||5.26|-10.81|0.4944
82571771|NCT03546816|164853081|SUPERIORITY|||||||0.492||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.492
82571772|NCT03546816|164853082|SUPERIORITY|||||||0.175||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.175
82571773|NCT03546816|164853082|SUPERIORITY|||||||0.169||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.169
82571774|NCT03546816|164853082|SUPERIORITY|||||||0.516||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.516
82571775|NCT03546816|164853083|SUPERIORITY|||||||0.814||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.814
82636934|NCT01632345|164988289|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|2.0|||||TWO_SIDED|95.0|-14.5|18.4|||||A negative value would be considered as favoring doravirine over efavirenz.|||18.4|-14.5|
82518764|NCT01571362|164731801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.76|STANDARD_ERROR_OF_MEAN|4.295||0.1201|TWO_SIDED|95.0|-15.33|1.81||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||1.81|-15.33|0.1201
82636935|NCT01632345|164988290|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-2.3|||||TWO_SIDED|95.0|-13.7|8.8|||||A negative value would be considered as favoring doravirine over efavirenz.|||8.8|-13.7|
82571776|NCT03546816|164853084|SUPERIORITY|||||||0.113||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.113
82571777|NCT01161446|164853114|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82571778|NCT01161446|164853115|NON_INFERIORITY|Non-inferiority bound: Self-testing was to be considered non-inferior to standard testing if the upper bound of the 95% confidence interval for the odds ratio fell below 2.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.61|1.9|||Regression, Logistic|Used generalized estimating equations with exchangeable working correlation and robust standard errors to account for repeated measures.|The home testing arm represents the numerator and the standard testing arm the denominator.|||1.90|0.61|
82383350|NCT00450437|164477311|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|9.0|||||TWO_SIDED|95.0|3.0|15.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine. MenC.||15|3|
82383351|NCT00450437|164477311|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|9.0|||||TWO_SIDED|95.0|2.0|17.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenW.||17|2|
82518765|NCT01571362|164731801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.99|STANDARD_ERROR_OF_MEAN|5.288||0.3497|TWO_SIDED|95.0|-15.6|5.62||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||5.62|-15.60|0.3497
82518766|NCT01571362|164731801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.38|STANDARD_ERROR_OF_MEAN|4.532||0.6008|TWO_SIDED|95.0|-11.41|6.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||6.65|-11.41|0.6008
82636936|NCT01632345|164988290|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|2.2|||||TWO_SIDED|95.0|-9.9|14.7|||||A negative value would be considered as favoring doravirine over efavirenz.|||14.7|-9.9|
82636937|NCT01632345|164988290|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-2.4|||||TWO_SIDED|95.0|-13.8|8.2|||||A negative value would be considered as favoring doravirine over efavirenz.|||8.2|-13.8|
82383352|NCT00450437|164477311|NON_INFERIORITY_OR_EQUIVALENCE|Immunogenicity of the Investigational MenACWY vaccine would be considered non-inferior to that of the Licensed MenACWY vaccine if the lower limit of the two-sided CI for the between group difference (investigational vaccine minus licensed vaccine) in percentage of seroresponders one month after vaccination is \> -10%.|Vaccine group difference|16.0|||||TWO_SIDED|95.0|9.0|23.0|||ANOVA|||Vaccine group difference Investigational MenACWY vaccine vs. Licensed MenaCWY vaccine, MenY.||23|9|
82518767|NCT01571362|164731802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.34|STANDARD_ERROR_OF_MEAN|4.986||0.1458|TWO_SIDED|95.0|-17.29|2.62||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||2.62|-17.29|0.1458
82571779|NCT01161446|164853116|NON_INFERIORITY|Home testing was to be considered non-inferior to standard testing with respect to STI prevalence if the upper bound of the 95% confidence interval for the difference between the two arms (home - standard) fell below 10%.|Difference in proportions|-0.068|||||TWO_SIDED|95.0|-0.16|0.016||||||||0.016|-0.16|
82571780|NCT01161446|164853117|NON_INFERIORITY|Self-testing was to be considered non-inferior with respect to the number of reported male CAI partners if the upper bound of the 95% CI for the fold-difference in the number of partners between the two arms (self ÷ standard testing) fell below 2.|Incidence Rate Ratio|0.92|||||TWO_SIDED|95.0|0.64|1.33|||Poisson regression|Used generalized estimating equations with exchangeable working correlation and robust standard errors to account for repeated measures.|The home testing arm represents the numerator and the standard testing arm the denominator.|||1.33|0.64|
82636938|NCT01632345|164988290|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-4.8|||||TWO_SIDED|95.0|-15.9|4.1|||||A negative value would be considered as favoring doravirine over efavirenz.|||4.1|-15.9|
82442390|NCT03809910|164593410|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|-0.39|-0.29||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.29|-0.39|<0.0001
82442391|NCT03809910|164593411|SUPERIORITY||Adjusted Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.13|0.18||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.18|0.13|<0.0001
82442392|NCT03809910|164593412|SUPERIORITY||Adjusted Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.21|0.31||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.31|0.21|<0.0001
82442393|NCT03809910|164593413|SUPERIORITY||Adjusted Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.18|0.28||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.28|0.18|<0.0001
82518768|NCT01571362|164731802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.35|STANDARD_ERROR_OF_MEAN|6.496||0.1558|TWO_SIDED|95.0|-22.38|3.68||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||3.68|-22.38|0.1558
82636939|NCT01632345|164988291|SUPERIORITY_OR_OTHER||Difference|-10.2|||||TWO_SIDED|95.0|-20.9|0.5|||||A negative value would be considered as favoring doravirine over efavirenz.|||0.5|-20.9|
82383353|NCT02040805|164477312|NON_INFERIORITY|Margin based on clinically meaningful change of \>= 5 points.||||||0.04|||||||t-test, 1 sided|||Test of non-inferiority.||||0.04
82383354|NCT02040805|164477313|NON_INFERIORITY|Margin based on clinically meaningful change of \>= 2.5 points.||||||0.05|||||||t-test, 1 sided|||Test of non-inferiority.||||0.05
82383355|NCT02040805|164477314|OTHER|linear mixed models analysis|||||<|0.0001|||||||Mixed Models Analysis|df=1||||||<0.0001
82383356|NCT02040805|164477315|OTHER|linear mixed model|||||<|0.0001|||||||Mixed Models Analysis|df=1||||||<0.0001
82442394|NCT03809910|164593414|SUPERIORITY||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.15||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.15|0.09|<0.0001
82442395|NCT03809910|164593414|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.014||0.0214|TWO_SIDED|95.0|-0.06|0.0||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.00|-0.06|0.0214
82442396|NCT03809910|164593415|SUPERIORITY||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.13|0.23||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.23|0.13|<0.0001
82442397|NCT03809910|164593415|SUPERIORITY||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025||0.001|TWO_SIDED|95.0|-0.14|-0.04||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||-0.04|-0.14|0.0010
82442398|NCT03809910|164593416|SUPERIORITY||Adjusted Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.15|0.25||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.25|0.15|<0.0001
82442399|NCT03809910|164593416|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.026||0.1652|TWO_SIDED|95.0|-0.09|0.01||Analysis was performed using ANCOVA model with product, sequence as fixed effects, participant as a random effect and two baseline terms as covariates;1-participant-level baseline score,2-period level baseline minus the participant-level baseline.|ANCOVA|||||0.01|-0.09|0.1652
82442400|NCT04948307|164593461|SUPERIORITY|||||||0.7326|||||||Chi-squared|||||||0.7326
82442401|NCT04948307|164593462|SUPERIORITY|||||||0.7396|||||||Kolmogorov-Smirnoff|||||||0.7396
82636940|NCT01632345|164988292|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-20.4||||0.002|TWO_SIDED|95.0|-32.4|-7.8||Superiority analysis|Miettinen and Nurminen method||A negative value would be considered as favoring doravirine over efavirenz.|||-7.8|-32.4|0.002
82636941|NCT01632345|164988293|SUPERIORITY_OR_OTHER||Difference (Doravirine - Efavirenz)|-20.4||||0.002|TWO_SIDED|95.0|-32.6|-7.5||Superiority analysis|Miettinen and Nurminen method||A negative value would be considered as favoring doravirine over efavirenz.|||-7.5|-32.6|0.002
82383357|NCT00503698|164477330|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||0.91|TWO_SIDED|95.0|0.6|1.57|||Regression, Cox|Time to all-cause death analysed using stratified Cox regression model with treatment and sex as fixed factors, age and time in dialysis as covariates||||1.57|0.60|0.91
82383358|NCT00503698|164477331|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.4977|TWO_SIDED|95.0|0.6|1.28|||Regression, Cox|Time to all-cause death analysed using stratified Cox regression model with treatment and sex as fixed factors, age and time in dialysis as covariates||||1.28|0.60|0.4977
82383359|NCT00503698|164477332|SUPERIORITY_OR_OTHER||Rate ratio|1.13||||0.4409|TWO_SIDED|95.0|0.83|1.53|||Negative binomial regression|||||1.53|0.83|0.4409
82383360|NCT00030901|164477375|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is adjusted for stratification factors age older than 60, African American, baseline PSA, and vitamin E supplementation.|Regression, Logistic|||With target sample size of 466 randomized patients (233 per arm), there is a 90% of power to detect a one-third reduction in the three-year incidence rate of prostate cancer. The alpha level is set at 0.025, one-sided.||||0.73
82442402|NCT04948307|164593463|SUPERIORITY|||||||0.871|||||||Kolmogorov-Smirnoff|||||||0.8710
82442403|NCT04948307|164593464|SUPERIORITY|||||||0.8816|||||||Kolmogorov-Smirnoff|||||||0.8816
82442404|NCT04948307|164593465|SUPERIORITY|||||||0.5281|||||||Chi-squared|||||||0.5281
82442405|NCT04948307|164593466|SUPERIORITY|||||||0.2996|||||||Chi-squared|||||||0.2996
82442406|NCT04948307|164593470|SUPERIORITY|||||||0.7201|||||||Kolmogorov-Smirnoff|||||||0.7201
82442407|NCT04948307|164593472|OTHER|||||||||||||||||Summary statistics are presented.|Summary statistics are presented|||
82442408|NCT04948307|164593474|OTHER||||||||||||||||||Summary statistics are presented.|||
82518769|NCT01571362|164731802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.14|STANDARD_ERROR_OF_MEAN|5.582||0.3604|TWO_SIDED|95.0|-16.25|5.98||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||5.98|-16.25|0.3604
82571781|NCT01777126|164853151|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.0|||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The primary outcome measure was the interval from surgery to discharge. Discharge means that the patient returns to his home. Preliminary data from our institution showed that all patients received parenteral nutrition very early post-surgery and were discharged after a mean of 19.3 ± 5.6 days. Therefore, the primary objective by implementing the ONP was to reduce the length of stay with 3 days.||||<0.001
82636942|NCT01632345|164988294|SUPERIORITY_OR_OTHER||Difference in % response|15.7|||||TWO_SIDED|95.0|-4.1|34.4|||||A positive value would be considered as favoring doravirine over efavirenz.|||34.4|-4.1|
82518770|NCT01571362|164731803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.25|STANDARD_ERROR_OF_MEAN|2.389||0.0768|TWO_SIDED|95.0|-8.95|0.46||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 4||0.46|-8.95|0.0768
82518771|NCT01571362|164731803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.684||0.7109|TWO_SIDED|95.0|-4.3|6.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 8||6.29|-4.30|0.7109
82518772|NCT01571362|164731803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.15|STANDARD_ERROR_OF_MEAN|2.536||0.1031|TWO_SIDED|95.0|-9.14|0.85||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Randomization Baseline score and final total daily dose of the Titration Period as covariates.|ANCOVA|||Week 12/ET||0.85|-9.14|0.1031
82636943|NCT01632345|164988294|SUPERIORITY_OR_OTHER||Difference in % response|10.0|||||TWO_SIDED|95.0|-9.6|29.1|||||A positive value would be considered as favoring doravirine over efavirenz.|||29.1|-9.6|
82442409|NCT02853435|164593528|OTHER||Ratio of geometric LS means|1.0417|||||TWO_SIDED|90.0|0.9809|1.1063|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-inf).|||1.1063|0.9809|
82442410|NCT02853435|164593528|OTHER||Ratio of geometric LS means|1.1108|||||TWO_SIDED|90.0|1.0459|1.1797|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-inf).|||1.1797|1.0459|
82442411|NCT02853435|164593529|OTHER||Ratio of geometric LS means|1.0408|||||TWO_SIDED|90.0|0.9792|1.1062|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-t).|||1.1062|0.9792|
82442412|NCT02853435|164593529|OTHER||Ratio of geometric LS means|1.1138|||||TWO_SIDED|90.0|1.0479|1.1838|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters AUC(0-t).|||1.1838|1.0479|
82442413|NCT02853435|164593531|OTHER||Ratio of geometric LS means|0.9586|||||TWO_SIDED|90.0|0.844|1.0888|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters Cmax.|||1.0888|0.8440|
82442414|NCT02853435|164593531|OTHER||Ratio of geometric LS means|1.1487|||||TWO_SIDED|90.0|1.0113|1.3047|||||A mixed effects model with treatment, sequence, period as fixed effects and participant within sequence as random effect was performed on the natural log-transformed parameters Cmax.|||1.3047|1.0113|
82442415|NCT02853435|164593532|OTHER||Median Difference (Final Values)|-0.233||||0.309|TWO_SIDED|90.0|-0.267|0.0||The p-value is from Wilcoxon signed-rank test.|Wilcoxon signed-rank test.||The median, median difference and 90% CI of the median difference are from Hodge-Lehmann estimate.|||0.000|-0.267|0.309
82442416|NCT02853435|164593532|OTHER||Median Difference (Final Values)|-0.492|||<|0.001|TWO_SIDED|90.0|-0.5|-0.25||The p-value is from Wilcoxon signed-rank test.|Wilcoxon signed-rank test.||The median, median difference and 90% CI of the median difference are from Hodge-Lehmann estimate.|||-0.250|-0.500|<0.001
82442417|NCT00996801|164593639|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.96||||0.012|TWO_SIDED|95.0|-3.58|-0.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.35|-3.58|0.012
82518773|NCT01571362|164731804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.73|STANDARD_ERROR_OF_MEAN|2.776||0.0926|TWO_SIDED|95.0|-10.26|0.8||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||0.80|-10.26|0.0926
82518774|NCT01571362|164731804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.59|STANDARD_ERROR_OF_MEAN|3.414||0.6437|TWO_SIDED|95.0|-8.42|5.24||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||5.24|-8.42|0.6437
82518775|NCT01571362|164731804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|3.391||0.748|TWO_SIDED|95.0|-7.84|5.65||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||5.65|-7.84|0.7480
82518776|NCT01571362|164731805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.38|STANDARD_ERROR_OF_MEAN|4.666||0.0098|TWO_SIDED|95.0|-21.68|-3.07||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-3.07|-21.68|0.0098
82518777|NCT01571362|164731805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.94|STANDARD_ERROR_OF_MEAN|5.336||0.0186|TWO_SIDED|95.0|-23.63|-2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||-2.25|-23.63|0.0186
82518778|NCT01571362|164731805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.2|STANDARD_ERROR_OF_MEAN|4.785||0.0581|TWO_SIDED|95.0|-18.72|0.32||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||0.32|-18.72|0.0581
82518779|NCT01571362|164731806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.56|STANDARD_ERROR_OF_MEAN|5.168||0.0177|TWO_SIDED|95.0|-22.87|-2.25||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-2.25|-22.87|0.0177
82518780|NCT01571362|164731806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.16|STANDARD_ERROR_OF_MEAN|5.998||0.0219|TWO_SIDED|95.0|-26.19|-2.14||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||-2.14|-26.19|0.0219
82518781|NCT01571362|164731806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.35|STANDARD_ERROR_OF_MEAN|5.589||0.0679|TWO_SIDED|95.0|-21.47|0.78||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||0.78|-21.47|0.0679
82383361|NCT07091916|164477384|OTHER|This objective was for the purpose of gathering data pertaining to device safety over the first 2 weeks post-implant. There were no pre-specified performance criteria or hypotheses for this objective.|Proportion|92.9|||||TWO_SIDED||||||descriptive statistics|||The first primary objective is to characterize the freedom from major complications related to the EV ICD System and/or procedure at 2 weeks post-implant. The endpoint is defined as a subject's first occurrence of a major complication related to the EV ICD System and/or procedure, as determined by an independent Clinical Events Committee (CEC), that occurs on or prior to 2 weeks (14 days) post-implant.||||
82518782|NCT01571362|164731807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.654||0.0052|TWO_SIDED|95.0|-12.72|-2.27||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 4||-2.27|-12.72|0.0052
82636944|NCT01632345|164988294|SUPERIORITY_OR_OTHER||Difference in % response|6.6|||||TWO_SIDED|95.0|-13.2|26.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||26.0|-13.2|
82636945|NCT01632345|164988294|SUPERIORITY_OR_OTHER||Difference in % response|15.9|||||TWO_SIDED|95.0|-3.4|34.4|||||A positive value would be considered as favoring doravirine over efavirenz.|||34.4|-3.4|
82636946|NCT01632345|164988295|SUPERIORITY_OR_OTHER||Difference in % response|-0.5|||||TWO_SIDED|95.0|-13.2|11.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||11.2|-13.2|
82636947|NCT01632345|164988296|SUPERIORITY_OR_OTHER||Difference in % response|-1.9|||||TWO_SIDED|95.0|-12.9|9.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||9.2|-12.9|
82383362|NCT07091916|164477385|OTHER|There were no hypotheses for this objective.|Proportion|100.0|||||||||||descriptive statistics|||The primary efficacy objective was to characterize the defibrillation efficacy at implant of the EV ICD System.||||
82636948|NCT01632345|164988297|SUPERIORITY_OR_OTHER||Difference in % response|-0.8|||||TWO_SIDED|95.0|-12.4|10.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||10.7|-12.4|
82383363|NCT04955691|164477395|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82383364|NCT04955691|164477396|SUPERIORITY|||||||0.57|||||||t-test, 1 sided|||\<54 mg/dL||||0.57
82383365|NCT04955691|164477396|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||54-69 mg/dL||||0.43
82383366|NCT04955691|164477397|SUPERIORITY|||||||0.006|||||||t-test, 1 sided|||181-250 mg/dL||||0.006
82383367|NCT04955691|164477397|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||\>250 mg/dL||||<0.001
82383368|NCT03055338|164477424|SUPERIORITY||Difference in LSM|2.6||||0.44|TWO_SIDED|95.0|-4.0|9.2|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = MK-8189 - Risperidone|||9.2|-4.0|0.440
82383369|NCT03055338|164477424|SUPERIORITY||Difference in LSM|-4.7||||0.074|TWO_SIDED|95.0|-9.8|0.5|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = MK-8189 - Placebo|||0.5|-9.8|0.074
82383370|NCT03055338|164477424|SUPERIORITY||Difference in LSM|-7.3||||0.033|TWO_SIDED|95.0|-14.0|-0.6|||Longitudinal ANCOVA|Includes terms for treatment, baseline PANSS total score, age, duration of illness, week, and the interaction of week by treatment.|Difference in LSM = Risperidone - Placebo|||-0.6|-14.0|0.033
82383371|NCT03055338|164477425|OTHER||Difference in % versus Placebo|17.2|||||TWO_SIDED|95.0|3.0|30.8|||||Difference in % = MK-8918 - Placebo||Based on Miettinen \& Nurminen method.|30.8|3.0|
82383372|NCT03055338|164477426|OTHER||Difference in % versus Placebo|-1.2|||||TWO_SIDED|95.0|-9.6|7.0|||||Difference in % = MK-8918 - Placebo||Based on Miettinen \& Nurminen method.|7.0|-9.6|
82383373|NCT03055338|164477427|OTHER||Difference in LSM|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Difference in LSM = MK-8189 - Risperidone|||0.6|-0.2|
82383374|NCT03055338|164477427|OTHER||Difference in LSM|-0.2|||||TWO_SIDED|95.0|-0.5|0.2|||||Difference in LSM = MK-8189 - Placebo|||0.2|-0.5|
82383375|NCT03055338|164477427|OTHER||Difference in LSM|-0.4|||||TWO_SIDED|95.0|-0.8|0.1|||||Difference in LSM = Risperidone - Placebo|||0.1|-0.8|
82383376|NCT04795466|164477441|SUPERIORITY||Least square mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.1442||0.6386|TWO_SIDED|90.0|-0.178|0.316|||Mixed Models Analysis|||NTB Total z-score - day 171||0.316|-0.178|0.6386
82383377|NCT04795466|164477442|SUPERIORITY||Least squares mean difference|-0.002|STANDARD_ERROR_OF_MEAN|0.1739||0.9917|TWO_SIDED|90.0|-0.3|0.296|||Mixed Models Analysis|||Memory function - day 171||0.296|-0.300|0.9917
82383378|NCT04795466|164477443|SUPERIORITY||least squares mean difference|0.186|STANDARD_ERROR_OF_MEAN|0.1958||0.351|TWO_SIDED|90.0|-0.148|0.52|||Mixed Models Analysis|||Executive function- day 171||0.520|-0.148|0.3510
82383379|NCT04795466|164477444|SUPERIORITY||Repeated measures analysis|-0.49|STANDARD_ERROR_OF_MEAN|1.8||0.787|TWO_SIDED|90.0|-3.56|2.58|||Mixed Models Analysis|||DSST - day 171||2.58|-3.56|0.7870
82383380|NCT01102257|164477467|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82383381|NCT03752970|164477469|OTHER||Risk Difference (RD)|-0.609|||||TWO_SIDED|95.0|-0.88|-0.186||||||||-0.186|-0.880|
82383382|NCT03752970|164477470|OTHER||Risk Difference (RD)|-0.509|||||TWO_SIDED|95.0|-0.816|-0.087||||||||-0.087|-0.816|
82383383|NCT03752970|164477471|OTHER||Risk Difference (RD)|-0.509|||||TWO_SIDED|95.0|-0.816|-0.087||||||||-0.087|-0.816|
82383384|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.286|TWO_SIDED|98.3|0.42|1.39|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.39|0.42|0.286
82383385|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.332|TWO_SIDED|98.3|0.43|1.43|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.43|0.43|0.332
82518783|NCT01571362|164731807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.62|STANDARD_ERROR_OF_MEAN|2.999||0.1249|TWO_SIDED|95.0|-10.54|1.29||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 8||1.29|-10.54|0.1249
82518784|NCT01571362|164731807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.19|STANDARD_ERROR_OF_MEAN|2.818||0.004|TWO_SIDED|95.0|-13.74|-2.64||Treatment and prior pain analgesic (opioid or non-opioid) as categorical factors and the Screening score as covariates.|ANCOVA|||Week 12/ET||-2.64|-13.74|0.0040
82636949|NCT01632345|164988298|SUPERIORITY_OR_OTHER||Difference in % response|4.5|||||TWO_SIDED|95.0|-12.5|21.5|||||A positive value would be considered as favoring doravirine over efavirenz.|||21.5|-12.5|
82518785|NCT01221597|164731849|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||ANOVA|||||||0.0005
82518786|NCT01221597|164731850|SUPERIORITY_OR_OTHER|||||||0.0451|TWO_SIDED||||||ANOVA|||||||0.0451
82518787|NCT01221597|164731851|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82518788|NCT01221597|164731852|SUPERIORITY_OR_OTHER|||||||0.0268|TWO_SIDED||||||ANOVA|||||||0.0268
82442418|NCT00996801|164593639|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.81||||0.019|TWO_SIDED|95.0|-3.37|-0.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.25|-3.37|0.019
82442419|NCT00996801|164593639|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.82||||0.019|TWO_SIDED|95.0|-3.23|-0.41||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.41|-3.23|0.019
82442420|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.64|||<|0.001|TWO_SIDED|95.0|-3.9|-1.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.38|-3.90|<0.001
82442421|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.62|||<|0.001|TWO_SIDED|95.0|-3.83|-1.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.40|-3.83|<0.001
82518789|NCT01221597|164731853|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANOVA|||||||0.0800
82518790|NCT01221597|164731854|SUPERIORITY_OR_OTHER|||||||0.3085|TWO_SIDED||||||ANOVA|||||||0.3085
82383386|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.808|TWO_SIDED|98.3|0.6|1.86|||Log Rank||Cox proportional hazards model with only treatment in the model.|||1.86|0.60|0.808
82518791|NCT01221597|164731855|SUPERIORITY_OR_OTHER|||||||0.6321|TWO_SIDED||||||ANOVA|||||||0.6321
82571782|NCT01777126|164853154|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0|||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using the Wilcoxon rank sum test. The result was considered statistically significant if p-values were \< 0.05.||||<0.01
82636950|NCT01632345|164988298|SUPERIORITY_OR_OTHER||Difference in % response|2.8|||||TWO_SIDED|95.0|-13.9|19.8|||||A positive value would be considered as favoring doravirine over efavirenz.|||19.8|-13.9|
82636951|NCT01632345|164988298|SUPERIORITY_OR_OTHER||Difference in % response|12.2|||||TWO_SIDED|95.0|-2.5|28.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||28.0|-2.5|
82383387|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.286|TWO_SIDED|98.3|0.48|1.61|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.61|0.48|0.286
82383388|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.332|TWO_SIDED|98.3|0.42|1.49|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.49|0.42|0.332
82518792|NCT01221597|164731856|SUPERIORITY_OR_OTHER|||||||0.7965|TWO_SIDED||||||ANOVA|||||||0.7965
82636952|NCT01632345|164988298|SUPERIORITY_OR_OTHER||Difference in % response|9.5|||||TWO_SIDED|95.0|-6.2|25.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||25.7|-6.2|
82383389|NCT01467713|164477493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.808|TWO_SIDED|98.3|0.6|1.95|||Log Rank||Cox proportional hazards model with treatment, pooled center, age, gender, and baseline MADRS score in the model.|||1.95|0.60|0.808
82518793|NCT01221597|164731857|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82518794|NCT01715805|164731924|SUPERIORITY||Least Squares Mean Difference (LSMD)|-0.2||||0.7948|TWO_SIDED|95.0|-1.6|1.2||MMRM with treatment group, study center, visit, and treatment group-by-visit interaction as fixed effects, and the baseline value and baseline by-visit interaction as the covariates was used for analyses.|Mixed Models Analysis||Cariprazine + ADT - Placebo + ADT|||1.2|-1.6|0.7948
82636953|NCT01632345|164988299|SUPERIORITY_OR_OTHER||Difference in % response|2.7||||||95.0|-6.1|11.7|||||A positive value would be considered as favoring doravirine over efavirenz.|||11.7|-6.1|
82636954|NCT01632345|164988300|SUPERIORITY_OR_OTHER||Difference in % response|0.1|||||TWO_SIDED|95.0|-9.7|9.9|||||A positive value would be considered as favoring doravirine over efavirenz.|||9.9|-9.7|
82636955|NCT01632345|164988301|SUPERIORITY_OR_OTHER||Difference in % response|3.9|||||TWO_SIDED|95.0|-7.3|15.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||15.0|-7.3|
82518795|NCT01715805|164731925|SUPERIORITY||LSMD|-0.7||||0.2784|TWO_SIDED|95.0|-1.9|0.5||MMRM with treatment group, study center, visit, and treatment group-by-visit interaction as fixed effects, and the baseline value and baseline by-visit interaction as the covariates was used for analyses.|Mixed Models Analysis||Cariprazine +ADT - Placebo + ADT|||0.5|-1.9|0.2784
82518796|NCT02647359|164731932|OTHER||Least Square (LS) Mean Difference|10.76||||0.4868|TWO_SIDED|95.0|-21.914|43.434||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with age and baseline Maximum Reading Speed (both eyes) as covariates, and treatment as a factor.||43.434|-21.914|0.4868
82518797|NCT04642638|164731943|OTHER||Difference in median|6.7|STANDARD_ERROR_OF_MEAN|3.35|||TWO_SIDED|95.0|0.0|6.7|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% confidence interval (CI).|||6.70|0.00|
82518798|NCT04642638|164731943|OTHER||Difference in median|13.3|STANDARD_ERROR_OF_MEAN|10.55|||TWO_SIDED|95.0|3.3|17.8|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% CI.|||17.80|3.30|
82636956|NCT01632345|164988302|SUPERIORITY_OR_OTHER||Difference in CD4 change|33.0|||||TWO_SIDED|95.0|-28.1|94.0|||||A positive value would be considered as favoring doravirine over efavirenz.|||94.0|-28.1|
82383390|NCT01100086|164477522|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|102.0|||||TWO_SIDED|90.0|99.35|105.42|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||105.42|99.35|
82518799|NCT04642638|164731943|OTHER||Difference in median|-6.6|STANDARD_ERROR_OF_MEAN|-5.0|||TWO_SIDED|95.0|-10.0|0.0|||||Post-baseline change from baseline in IFN-gamma ELISpot response magnitudes was compared between groups using differences in medians and associated non-parametric 95% CI.|||0.00|-10.00|
82518800|NCT04642638|164731944|OTHER||Geometric Mean Fold Rise (GMFR) Ratio|2.5|||||TWO_SIDED|95.0|1.72|3.632|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons.|||3.632|1.720|
82518801|NCT04642638|164731944|OTHER||GMFR Ratio|3.88|||||TWO_SIDED|95.0|2.638|5.7|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons.|||5.700|2.638|
82518802|NCT04642638|164731944|OTHER||GMFR Ratio|0.68|||||TWO_SIDED|95.0|0.512|0.893|||||95% CI of GMFR ratio is based on t-distribution, where GMFR ratio is based on the between-treatment-group comparisons|||0.893|0.512|
82518803|NCT00511004|164731959|SUPERIORITY_OR_OTHER||||||<|0.2|TWO_SIDED|||||Adjusted for multiple comparisons|Fisher Exact|||||||<0.2
82518804|NCT00511004|164731960|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Fisher Exact|||||||0.9
82518805|NCT02935062|164731978|SUPERIORITY|||||||0.001|||||||t-test, 1 sided|||||||0.001
82518806|NCT02935062|164731979|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|||||||0.011
82518807|NCT00295750|164732003|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit was -10 percentage points.|Difference in cumulative probability|1.9||||||97.5|-1.8|5.7||||||A non-inferiority assessment determined whether degarelix was non-inferior to leuprolide with respect to the cumulative probability of testosterone \<=0.5 ng/mL from Day 28 to Day 364.||5.7|-1.8|
82518808|NCT00295750|164732003|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit was -10 percentage points.|Difference in cumulative probability|0.9||||||97.5|-3.2|5.0||||||A non-inferiority assessment determined whether degarelix was non-inferior to leuprolide with respect to the cumulative probability of testosterone \<=0.5 ng/mL from Day 28 to Day 364.||5.0|-3.2|
82518809|NCT00295750|164732004|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82518810|NCT00295750|164732004|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82636957|NCT01632345|164988302|SUPERIORITY_OR_OTHER||Difference in CD4 change|-8.3|||||TWO_SIDED|95.0|-68.5|51.9|||||A positive value would be considered as favoring doravirine over efavirenz.|||51.9|-68.5|
82383391|NCT01100086|164477523|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.0|||||TWO_SIDED|90.0|94.94|101.19|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.19|94.94|
82383392|NCT01100086|164477524|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.3|||||TWO_SIDED|90.0|95.2|101.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.48|95.20|
82383393|NCT01100086|164477524|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|98.3|||||TWO_SIDED|90.0|95.2|101.48|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.48|95.20|
82518811|NCT00295750|164732005|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82518812|NCT00295750|164732005|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82518813|NCT00295750|164732007|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 14||||<0.0001
82518814|NCT00295750|164732007|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 14||||<0.0001
82518815|NCT00295750|164732007|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 28||||<0.0001
82518816|NCT00295750|164732007|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Percentage change from baseline to Day 28||||<0.0001
82518817|NCT00295750|164732008|SUPERIORITY_OR_OTHER||Cumulative probability|85.8||||||95.0|79.8|90.1|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||90.1|79.8|
82636958|NCT01632345|164988302|SUPERIORITY_OR_OTHER||Difference in CD4 change|12.5|||||TWO_SIDED|95.0|-44.6|69.5|||||A positive value would be considered as favoring doravirine over efavirenz.|||69.5|-44.6|
82383394|NCT02612623|164477529|OTHER||LSM Difference|-0.56|||||TWO_SIDED|95.0|-2.08|0.96|||||Gefapixant minus Placebo|Least squares mean (LSM) difference: Mixed effect repeated measures model (MMRM) uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.96|-2.08|
82383395|NCT02612623|164477529|OTHER||LSM Difference|-0.71|||||TWO_SIDED|95.0|-2.34|0.92|||||Gefapixant minus Placebo|LSM difference: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.92|-2.34|
82383396|NCT02612623|164477529|OTHER||LSM Difference|-1.35|||||TWO_SIDED|95.0|-2.99|0.3|||||Gefapixant minus Placebo|LSM difference: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||0.30|-2.99|
82383397|NCT02612623|164477529|OTHER||Percentage Change|-42.6|||||TWO_SIDED|95.0|-87.5|162.3|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||162.3|-87.5|
82383398|NCT02612623|164477529|OTHER||Percentage Change|-50.8|||||TWO_SIDED|95.0|-90.3|151.1|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||151.1|-90.3|
82518818|NCT00295750|164732008|SUPERIORITY_OR_OTHER||Cumulative probability|91.1||||||95.0|85.9|94.5|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||94.5|85.9|
82518819|NCT00295750|164732008|SUPERIORITY_OR_OTHER||Cumulative probability|85.9||||||95.0|79.9|90.2|||||95% confidence interval for the cumulative probability of completing the study without prostate specific antigen failure from Day 0 to Day 364.|||90.2|79.9|
82518820|NCT02522715|164732038|OTHER||||||<|0.01|||||||two-sided exact binomial test|||One-sample binomial test with null hypothesis that the percentage of participants with PSA response 1 is equal to 25%.||||<0.01
82518821|NCT01359735|164732047|SUPERIORITY_OR_OTHER|||||||0.263|TWO_SIDED|||||Week 04|Wilcoxon (Mann-Whitney)|||||||0.263
82518822|NCT01359735|164732047|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Week 13|Wilcoxon (Mann-Whitney)|||||||0.500
82518823|NCT01359735|164732048|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Over weeks 1 through 4 or Week 4?|Fisher Exact|||||||0.5
82518824|NCT01359735|164732049|SUPERIORITY_OR_OTHER|||||||0.0594|TWO_SIDED||||||Log Rank|||||||0.0594
82518825|NCT01359735|164732050|SUPERIORITY_OR_OTHER|||||||0.1354|ONE_SIDED|||||3 Weeks|t-test, 1 sided|||||||0.1354
82636959|NCT01632345|164988302|SUPERIORITY_OR_OTHER||Difference in CD4 change|19.6|||||TWO_SIDED|95.0|-45.1|84.2|||||A positive value would be considered as favoring doravirine over efavirenz.|||84.2|-45.1|
82383399|NCT02612623|164477529|OTHER||Percentage Change|-74.0|||||TWO_SIDED|95.0|-95.0|34.7|||||100 x \[(Exponent of LSM Difference) minus 1\]|Estimated Percentage Change: MMRM uses the change from baseline as the dependent variable, and includes the treatment group, visit day, and the interaction between treatment and visit as fixed factors, and baseline as a covariate.||34.7|-95.0|
82383400|NCT00455403|164477644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.01||||0.7279|TWO_SIDED|||||"Applies to row Title year 1"|Mixed Models Analysis||"applies to row title year 1"|||||0.7279
82518826|NCT01359735|164732050|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||12 Weeks|t-test, 1 sided|||||||0.5000
82636960|NCT01632345|164988303|SUPERIORITY_OR_OTHER||Difference in CD4 change|6.3|||||TWO_SIDED|95.0|-38.2|50.8|||||A positive value would be considered as favoring doravirine over efavirenz.|||50.8|-38.2|
82383401|NCT00925704|164477662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.171
82383402|NCT00925704|164477662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.024
82518827|NCT01359735|164732051|SUPERIORITY_OR_OTHER|||||||0.0841|TWO_SIDED|||||Week 3 Post-surgery|t-test, 1 sided|||||||0.0841
82518828|NCT01359735|164732051|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED|||||Week 12 Post-surgery|t-test, 1 sided|||||||0.1780
82518829|NCT03387852|164732093|SUPERIORITY||Odds ratio|0.423|||=|0.0214|TWO_SIDED|95.0|0.203|0.88|||Regression, Logistic||SAR440340 300 mg vs. Placebo|Odds ratio, 95% confidence interval (CI), and p-value derived from logistic regression with treatment, baseline eosinophil strata, region, background ICS dose level at randomization and number of exacerbation events (defined as required use of systemic \[oral and/or parenteral\] steroid treatment, or required hospitalization or emergency room visit) within 1 year prior to screening.||0.88|0.203|=0.0214
82518830|NCT03387852|164732093|SUPERIORITY||Odds ratio|0.52|||=|0.0709|TWO_SIDED|95.0|0.256|1.057|||Regression, Logistic||SAR440340 + Dupilumab vs. Placebo|Odds ratio, 95% CI, and p-value derived from logistic regression with treatment, baseline eosinophil strata, region, background ICS dose level at randomization and number of exacerbation events (defined as required use of systemic \[oral and/or parenteral\] steroid treatment, or required hospitalization or emergency room visit) within 1 year prior to screening.||1.057|0.256|=0.0709
82518831|NCT02194621|164732096|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||>0.05
82383403|NCT00925704|164477663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.313||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||0.313
82518832|NCT02194621|164732097|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82518833|NCT02194621|164732098|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||>0.05
82518834|NCT02194621|164732099|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.002
82636961|NCT01632345|164988304|SUPERIORITY_OR_OTHER||Difference in CD4 change|-2.6|||||TWO_SIDED|95.0|-46.5|41.3|||||A positive value would be considered as favoring doravirine over efavirenz.|||41.3|-46.5|
82636962|NCT01632345|164988305|SUPERIORITY_OR_OTHER||Difference in CD4 change|-4.4|||||TWO_SIDED|95.0|-64.0|55.1|||||A positive value would be considered as favoring doravirine over efavirenz.|||55.1|-64.0|
82636963|NCT01632345|164988306|SUPERIORITY_OR_OTHER||Difference|-2.8|||||TWO_SIDED|95.0|-11.7|6.0|||||A negative value would be considered as favoring doravirine over efavirenz.|||6.0|-11.7|
82383404|NCT00925704|164477663|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Mixed Models Analysis|||Exogenous calcitriol was analyzed using a mixed linear effects model. This model contained sequence group, period, and treatment as fixed effects. The subject within sequence effect was included as a random effect.||||< 0.001
82383405|NCT00925704|164477664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Wilcoxon (Hodges-Lehmann)|||Analysis for Tmax used the Hodges-Lehmann estimate for Wilcoxon's Signed Rank Test.||||0.039
82383406|NCT00925704|164477664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||95.0|||||Wilcoxon (Hodges-Lehmann)|||Analysis for Tmax used the Hodges-Lehmann estimate for Wilcoxon's Signed Rank Test.||||0.305
82383407|NCT00216125|164477665|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.883|TWO_SIDED|95.0|||||Log Rank|||||||0.883
82383408|NCT00502242|164477672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.228||||0.0002|TWO_SIDED|95.0|0.099|0.528||2-sided p-value; alpha equals (=) 0.05|Log Rank|Stratified log-rank test with region and race strata|Stratified Cox proportional hazard model with region and race strata|||0.528|0.099|0.0002
82383409|NCT00502242|164477673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425||||0.0031|TWO_SIDED|95.0|0.237|0.763||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Log Rank|Stratified log-rank test with region and race strata|Stratified Cox proportional hazard model with region and race strata|||0.763|0.237|0.0031
82383410|NCT00502242|164477674|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.002
82383411|NCT00502242|164477674|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.074
82636964|NCT01632345|164988307|SUPERIORITY_OR_OTHER||Difference|-6.5|||||TWO_SIDED|95.0|-14.1|0.3|||||A negative value would be considered as favoring doravirine over efavirenz.|||0.3|-14.1|
82383412|NCT00502242|164477675|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.093
82383413|NCT00502242|164477675|SUPERIORITY_OR_OTHER|||||||0.219|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.219
82383414|NCT00502242|164477676|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||0.002
82383415|NCT00502242|164477676|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.121
82571783|NCT01777126|164853155|SUPERIORITY_OR_OTHER||proportion|||||0.487||95.0|||||Fisher Exact|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square and Fisher's Exact Test. Results were considered statistically significant if p-values were \< 0.05.||||0.487
82636965|NCT02543918|164988308|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the ixekizumab arm to the control arm for the tetanus vaccine was established if the lower limit of the 90% CI excludes an absolute difference of 40% or more.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|90.0|-16.6|19.2||||||Tetanus vaccine responders||19.2|-16.6|
82383416|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.16|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Ramipril||||
82383417|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.36|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Placebo||||
82383418|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.85||||0.0098|TWO_SIDED|95.0|0.76|0.96||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from baseline at Week 3, Ramipril versus (vs.) Placebo||0.96|0.76|0.0098
82383419|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.18|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 4, Ramipril||||
82383420|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.52|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 4, Placebo||||
82383421|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.78||||0.0003|TWO_SIDED|95.0|0.68|0.89||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from baseline at Week 4, Ramipril vs. Placebo||0.89|0.68|0.0003
82383422|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.27|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 8, Ramipirl||||
82383423|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.61|||||TWO_SIDED||||||||Adjusted for baseline|Change from baseline at Week 8, Placebo||||
82383424|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.79||||0.0016|TWO_SIDED|95.0|0.68|0.91||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 8, Ramipril vs. Placebo||0.91|0.68|0.0016
82383425|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.34|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Ramipril||||
82383426|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.63|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Placebo||||
82383427|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.82||||0.0165|TWO_SIDED|95.0|0.7|0.96||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 12, Ramipril vs. Placebo||0.96|0.70|0.0165
82383428|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.48|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Ramipril||||
82518835|NCT02298192|164732154|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was tested against the alternative hypothesis of non-inferiority as given by H0: D ≥0.30% against HA: D \<0.30%.|Treatment Contrast|0.12||||0.012|TWO_SIDED|95.0|-0.04|0.28|||Mixed Models Analysis|||The null hypothesis was tested against the alternative hypothesis of non-inferiority as given by H0: D ≥0.30% against HA: D \<0.30%.||0.28|-0.04|0.012
82636966|NCT02543918|164988308|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the ixekizumab arm to the control arm for the pneumococcal vaccine was established if the lower limit of the 90% CI excludes an absolute difference of 40% or more.|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|90.0|-12.9|11.0||||||Pneumococcal vaccine responders||11.0|-12.9|
82571784|NCT01777126|164853156|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.302|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.302
82383429|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.78|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Placebo||||
82383430|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.83||||0.0264|TWO_SIDED|95.0|0.7|0.98||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 24, Ramipril vs. Placebo||0.98|0.70|0.0264
82383431|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.43|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Ramipril||||
82383432|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.82|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Placebo||||
82383433|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.79||||0.0062|TWO_SIDED|95.0|0.66|0.93||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 30, Ramipril vs. Placebo||0.93|0.66|0.0062
82383434|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.4|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Ramipril||||
82383435|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.67|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Placebo||||
82383436|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.0341|TWO_SIDED|95.0|0.72|0.99||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 36, Ramipril vs. Placebo||0.99|0.72|0.0341
82383437|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.56|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Ramipril||||
82383438|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.86|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Placebo||||
82383439|NCT00502242|164477677|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.06|TWO_SIDED|95.0|0.7|1.01||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic Up/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 52, Ramipril vs. Placebo||1.01|0.70|0.0600
82518836|NCT02693665|164732224|SUPERIORITY|First measure of congruence was taken at 2 weeks post-baseline for controls, or immediately post-Session 2 for intervention dyads. Analysis presented here assessed differences between groups in agreement. This represents the underlying data without examining the pattern of congruence for each dyad over time. Longitudinal latent class analysis of congruence in responses over time between adolescents/families was conducted at the person not variable level.|Odds Ratio (OR)|3.22|||<|0.05|TWO_SIDED|95.0|1.09|9.57|||longitudinal latent class analysis|examined the pattern of change over time.||"Analysis was at the level of the dyad. AIM 1. To evaluate the efficacy of FACE-TC on patient-family congruence in treatment preferences.~H1a: FACE-TC participants will better maintain congruence over time, compared to controls.~H1b: Development of congruence may not be homogeneous and FACE-TC may influence the pattern of congruence development."||9.57|1.09|<0.05
82518837|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.00743162|||<|0.05|TWO_SIDED|95.0|0.928|1.094||The generalized mixed effect models are taking into account missingness by attrition. There were not missing values for the outcomes or predictors that we used.|Mixed Models Analysis|Model forced age, gender, race, family education, family income under the Federal Poverty level, on/off treatment.||Emotional distress-anxiety analysis at baseline comparing intervention and control.||1.094|0.928|<0.05
82518838|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.05037501|||<|0.05|TWO_SIDED|95.0|0.96438584|1.14403138||The generalized mixed effect models are taking into account missingness by attrition. There were not missing values for the outcomes or predictors that we used.|Mixed Models Analysis|Model forced age, gender, race, family education, family income under the Federal Poverty level, on/off treatment.||Emotional distress-anxiety analysis at 3 months post baseline comparing intervention and control. We hypothesized that anxiety would be lower in the intervention group compared to controls.||1.14403138|0.96438584|<0.05
82518839|NCT02693665|164732225|SUPERIORITY|See earlier comments.|Risk Ratio (RR)|1.01136067|||<|0.05|TWO_SIDED|95.0|0.92887892|1.10116656||See earlier comments.|t-test, 2 sided|See earlier comments.||This is analysis for 6 month outcomes of Emotional-distress - anxiety. See details in 3 month outcomes.||1.10116656|0.92887892|<0.05
82518840|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.14070431|||<|0.05|TWO_SIDED|95.0|1.04444724|1.2458325|||t-test, 2 sided||See earlier comments.|These are the 12 month outcomes for Emotional distress - anxiety. See earlier comments.||1.24583250|1.04444724|<0.05
82383440|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.46|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Ramipril||||
82518841|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|0.98078271|||<|0.05|TWO_SIDED|95.0|0.89845609|1.07065301|||t-test, 2 sided|||This analysis is for the outcome Emotional distress - depressive symptoms. We hypothesized that adolescent in the intervention would have lower depressive symptoms compared to controls at 3, 6, and 12 month outcomes. The following are the baseline comparisons between control and intervention which were controlled for in the 3, 6, and 12 month analysis of outcomes.||1.07065301|0.89845609|<0.05
82518842|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.04007715|||<|0.05|TWO_SIDED|95.0|0.94970156|1.13905306|||t-test, 2 sided|||The results here are for the outcome variable Emotional Distress - Depressive symptoms at 3 month outcomes. We hypothesized that adolescents randomized to the intervention would have lower depressive symptoms than controls.||1.13905306|0.94970156|<0.05
82636967|NCT00819052|164988313|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -12%|Cochran's statistic|1.0||||||95.0|-4.3|6.2|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||6.2|-4.3|
82383441|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.05|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 3, Placebo||||
82518843|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.07347088|||<|0.05|TWO_SIDED|95.0|0.9806271|1.17510491|||t-test, 2 sided|||We hypothesize that Emotional Distress - Depressive symptoms would be lower in intervention adolescents compared to controls at 6 months post intervention.||1.17510491|0.98062710|<0.05
82518844|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.11582434|||<|0.05|TWO_SIDED|95.0|1.01653156|1.22481585|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would have lower scores on Emotional Distress - Depressive symptoms compared to controls at 12 months post baseline.||1.22481585|1.01653156|<0.05
82383442|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.71||||0.0034|TWO_SIDED|95.0|0.57|0.89||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 3, Ramipril vs. Placebo||0.89|0.57|0.0034
82383443|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.43|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 4, Ramipril||||
82383444|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.37|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 4, Placebo||||
82383445|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.6|||<|0.0001|TWO_SIDED|95.0|0.47|0.76||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 4, Ramipril vs. Placebo||0.76|0.47|<0.0001
82383446|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.67|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 8, Ramipril||||
82383447|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.74|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 8, Placebo||||
82383448|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.61||||0.0002|TWO_SIDED|95.0|0.47|0.79||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 8, Ramipril vs. Placebo||0.79|0.47|0.0002
82383449|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|1.91|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Ramipril||||
82383450|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.92|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 12, Placebo||||
82383451|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.65||||0.0032|TWO_SIDED|95.0|0.49|0.87||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 12, Ramipril vs. Placebo||0.87|0.49|0.0032
82383452|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.33|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Ramipril||||
82383453|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.39|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 24, Placebo||||
82442422|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.12|||<|0.001|TWO_SIDED|95.0|-3.22|-1.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.02|-3.22|<0.001
82442423|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.74||||0.376|TWO_SIDED|95.0|-1.99|0.52||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.52|-1.99|0.376
82383454|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.69||||0.013|TWO_SIDED|95.0|0.51|0.92||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 24, Ramipril vs. Placebo||0.92|0.51|0.0130
82383455|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.5|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Ramipril||||
82383456|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.39|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 30, Placebo||||
82383457|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.74||||0.0577|TWO_SIDED|95.0|0.54|1.01||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 30, Ramipril vs. Placebo||1.01|0.54|0.0577
82383458|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.52|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Ramipril||||
82383459|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.27|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 36, Placebo||||
82383460|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.77||||0.1146|TWO_SIDED|95.0|0.56|1.07||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 36, Ramipril vs. Placebo||1.07|0.56|0.1146
82383461|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|2.92|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Ramipril||||
82383462|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Fold Change|3.45|||||TWO_SIDED||||||||Adjusted for baseline|Change from Baseline at Week 52, Placebo||||
82383463|NCT00502242|164477678|SUPERIORITY_OR_OTHER||Treatment Ratio|0.85||||0.3496|TWO_SIDED|95.0|0.6|1.2||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with change in the logarithmic U alb/c as dependent variable, treatment and region/race as factors, and logarithmic baseline as covariate|Treatment ratio (Ramipril/Placebo) in the geometric mean fold-change.|Change from Baseline at Week 52, Ramipril vs. Placebo||1.20|0.60|0.3496
82442424|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.71||||0.376|TWO_SIDED|95.0|-1.93|0.5||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.50|-1.93|0.376
82518845|NCT02693665|164732225|SUPERIORITY||Risk Ratio, log|0.98803061|||<|0.05|TWO_SIDED|95.0|0.89065531|1.09605195|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would have no differences in fatigue at baseline if randomization was successful. In this analysis we examine the baseline results.||1.09605195|0.89065531|<0.05
82518846|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.13509797|||<|0.05|TWO_SIDED|95.0|1.01959639|1.26368376|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention arm would report less Fatigue at 3 months outcome compared to controls.||1.26368376|1.01959639|<0.05
82636968|NCT00819052|164988326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.64||||0.7587||95.0|-34.34|25.05|||ANCOVA|Means adjusted for background ARV (Antiretroviral) stratum||||25.05|-34.34|0.7587
82636969|NCT03524664|164988356|SUPERIORITY|||||||0.523||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71) = 0.411, p =.523||Repeated measures ANOVA||||.523
82636970|NCT03524664|164988357|SUPERIORITY|||||||0.173||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=1.89, p=.173||Repeated measures ANOVA||||.173
82383464|NCT00502242|164477679|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 24 weeks post-conversion||||1.0000
82636971|NCT03524664|164988358|SUPERIORITY|||||||0.14||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.23, p=.140||Outcome data analyzed for those with complete data at both timepoints.||||.140
82383465|NCT00502242|164477679|SUPERIORITY_OR_OTHER|||||||0.1115|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Up to 52 weeks post-conversion||||0.1115
82383466|NCT00502242|164477680|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|1.26||0.4933|TWO_SIDED|95.0|-3.33|1.61||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate.|Adjusted for baseline|Change from Baseline at Week 12||1.61|-3.33|0.4933
82383467|NCT00502242|164477680|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|2.48|STANDARD_ERROR_OF_MEAN|1.45||0.0888|TWO_SIDED|95.0|-0.38|5.33||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate.|Adjusted for baseline|Change from Baseline at Week 24||5.33|-0.38|0.0888
82636972|NCT03524664|164988359|SUPERIORITY|||||||0.845||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=.039, p=0.845||Outcome data analyzed for those with complete data at both timepoints.||||0.845
82636973|NCT03524664|164988360|SUPERIORITY|||||||0.147||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=2.147, p=.147||Outcome data analyzed for those with complete data at both timepoints.||||.147
82518847|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.04944737|||<|0.05|TWO_SIDED|95.0|0.94281417|1.16814089|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention would report less Fatigue at 6 months post baseline compared to control adolescents.||1.16814089|0.94281417|<0.05
82383468|NCT00502242|164477680|SUPERIORITY_OR_OTHER||Adjusted LS Mean Difference|2.12|STANDARD_ERROR_OF_MEAN|1.46||0.1475|TWO_SIDED|95.0|-0.75|4.99||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA model with MDRD change as dependent variable, treatment and region/race as factors, and baseline as covariate|Adjusted for baseline|Change from Baseline at Week 52||4.99|-0.75|0.1475
82383469|NCT00502242|164477681|SUPERIORITY_OR_OTHER||Treatment Ratio|0.84||||0.1167|TWO_SIDED|95.0|0.68|1.04||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|Log (Fraction of albumin to protein in urine) as dependent variable, treatment and region/race as factor, and Log(baseline) as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean.|Week 24||1.04|0.68|0.1167
82383470|NCT00502242|164477681|SUPERIORITY_OR_OTHER||Treatment Ratio|1.04||||0.7519|TWO_SIDED|95.0|0.82|1.31||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|Log (Fraction of albumin to protein in urine) as dependent variable, treatment and region/race as factor, and Log(baseline) as covariate.|Treatment ratio (Ramipril/Placebo) in the geometric mean.|Week 52||1.31|0.82|0.7519
82383471|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, Low DBP ≤50 mmHg||||0.470
82636974|NCT03524664|164988361|SUPERIORITY|||||||0.429||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=.633, p=.429||Outcome data analyzed for those with complete data at both timepoints.||||.429
82383472|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, High DBP ≥110 mmHg||||0.220
82383473|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, Low SBP: ≤90 mmHg||||0.470
82383474|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL, High SBP: ≥180 mmHg||||1.000
82383475|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.725|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, Low DBP ≤50 mmHg||||0.725
82383476|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, High DBP ≥110 mmHg||||0.227
82383477|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, Low SBP: ≤90 mmHg||||1.000
82383478|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On Therapy, High SBP: ≥180 mmHg||||0.106
82383479|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off Therapy, High DBP ≥110 mmHg||||1.000
82383480|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off Therapy, Low SBP: ≤90 mmHg||||1.000
82383481|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline, Low DBP ≤50 mmHg||||0.475
82383482|NCT00502242|164477682|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline, Low SBP: ≤90 mmHg||||0.475
82383483|NCT00502242|164477684|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||1.000
82383484|NCT00502242|164477684|SUPERIORITY_OR_OTHER|||||||0.626|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.626
82383485|NCT00502242|164477684|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.297
82383486|NCT00502242|164477684|SUPERIORITY_OR_OTHER|||||||0.356|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.356
82518848|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.11042568|||<|0.05|TWO_SIDED|95.0|0.99383841|1.24068981|||t-test, 2 sided|||We hypothesized that intervention adolescents would report less Fatigue than controls at 12 months post baseline.||1.24068981|0.99383841|<0.05
82383487|NCT00502242|164477685|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.064
82383488|NCT00502242|164477685|SUPERIORITY_OR_OTHER|||||||0.069|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.069
82383489|NCT00502242|164477685|SUPERIORITY_OR_OTHER|||||||0.752|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.752
82383490|NCT00502242|164477685|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.261
82383491|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.09|STANDARD_ERROR_OF_MEAN|0.1||0.381|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 4||||0.381
82383492|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.956|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 12||||0.956
82383493|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.903|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 24||||0.903
82383494|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.503|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||TC, Week 52||||0.503
82383495|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.451|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 4||||0.451
82383496|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.919|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 12||||0.919
82636975|NCT03524664|164988362|SUPERIORITY|||||||0.208||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,70)=1.618, p=.208||Outcome data analyzed for those with complete data at both timepoints.||||.208
82383497|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.637|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 24||||0.637
82383498|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.229|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||HDL-C, Week 52||||0.229
82383499|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.766|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 4||||0.766
82383500|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.14|STANDARD_ERROR_OF_MEAN|0.11||0.217|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 12||||0.217
82383501|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.457|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 24||||0.457
82383502|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.26|STANDARD_ERROR_OF_MEAN|0.13||0.041|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||LDL-C, Week 52||||0.041
82383503|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.25|STANDARD_ERROR_OF_MEAN|0.12||0.044|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 4||||0.044
82383504|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.18|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 12||||0.180
82383505|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.264|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 24||||0.264
82383506|NCT00502242|164477686|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.408|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate||Triglycerides, Week 52||||0.408
82383507|NCT00502242|164477687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.487||||0.0732|TWO_SIDED|95.0|0.887|6.978||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Log Rank||Hazard ratio was based on the Cox proportional hazards model.|||6.978|0.887|0.0732
82383508|NCT00502242|164477689|SUPERIORITY_OR_OTHER|||||||0.7165|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel row mean test||Post-SRL, AM BCAR||||0.7165
82383509|NCT00502242|164477689|SUPERIORITY_OR_OTHER|||||||0.4795|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel row mean test||Post-SRL (On-Therapy), AM BCAR||||0.4795
82383510|NCT00502242|164477690|SUPERIORITY_OR_OTHER|||||||0.4773|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Week 52||||0.4773
82518849|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|0.9683347|||<|0.05|TWO_SIDED|95.0|0.88658183|1.05762611|||t-test, 2 sided|||We hypothesized that there would be no differences at baseline between intervention and control adolescents with respect to Pain Interference.||1.05762611|0.88658183|<0.05
82383511|NCT00502242|164477691|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.124
82383512|NCT00502242|164477691|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.410
82383513|NCT00502242|164477691|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.423
82383514|NCT00502242|164477691|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.297
82383515|NCT00502242|164477692|SUPERIORITY_OR_OTHER|||||||0.726|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||0.726
82383516|NCT00502242|164477693|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||1.000
82383517|NCT00502242|164477694|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||||||0.753
82383518|NCT00502242|164477695|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Baseline||||0.224
82383519|NCT00502242|164477695|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Pre-SRL||||0.179
82383520|NCT00502242|164477695|SUPERIORITY_OR_OTHER|||||||0.604|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||On-Therapy||||0.604
82383521|NCT00502242|164477695|SUPERIORITY_OR_OTHER|||||||0.486|TWO_SIDED|||||2-sided p-value; alpha=0.05 (unadjusted for multiplicity)|Fisher Exact|||Off-Therapy||||0.486
82383522|NCT03207815|164477696|SUPERIORITY||Difference in Treatment Failure Rate|-30.1||||0.0064|TWO_SIDED|95.0|-56.2|-4.1||P-value was estimated from the Cochran-Mantel-Haenszel (CMH) test, adjusted for the stratification factors.|Cochran-Mantel-Haenszel|Participants with missing values on treatment failure status were analyzed as treatment failures using a nonresponder imputation (NRI) method.||||-4.1|-56.2|0.0064
82383523|NCT03207815|164477697|SUPERIORITY||Stratified Hazard Ratio|0.309||||0.0014|TWO_SIDED|95.0|0.144|0.663||P-value was derived from the log rank test stratified by the stratification factors.|Stratified Log-Rank Test||Stratified hazard ratio (95% confidence interval \[CI\]) were derived from the Cox model stratified by the stratification factors.|||0.663|0.144|0.0014
82383524|NCT03207815|164477698|SUPERIORITY||Least Squares Mean Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.355|TWO_SIDED|95.0|-0.4|0.2||P-value was estimated using a repeated measure Analysis of Covariance (ANCOVA) model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in Least Squares (LS)-means (95% CI) were obtained from the repeated measure ANCOVA model.|||0.2|-0.4|0.3550
82518850|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.04450374|||<|0.05|TWO_SIDED|95.0|0.95307464|1.1447037|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention compared to controls would report less Pain Interference at 3 months post baseline.||1.14470370|0.95307464|<0.05
82518851|NCT02693665|164732225|SUPERIORITY||Risk Ratio (RR)|1.07182133|||<|0.05|TWO_SIDED|95.0|0.97835451|1.17421748|||t-test, 2 sided|||We hypothesized that adolescents randomized to the intervention compared to controls would report less Pain Interference at 6 months post baseline.||1.17421748|0.97835451|<0.05
82518852|NCT02693665|164732225|SUPERIORITY||Risk Ratio, log|1.09964781|||<|0.05|TWO_SIDED|95.0|1.00051223|1.20860622|||t-test, 2 sided|||We hypothesized that at 12 month outcome adolescents randomized to the intervention would report less Pain Interference compared to control adolescents.||1.20860622|1.00051223|<0.05
82518853|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.98|||<|0.05|TWO_SIDED|95.0|0.88|1.09|||Mixed Models Analysis|||Meaning and Peace Subscale at 3 months post intervention||1.09|0.88|<0.05
82518854|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.97|||<|0.05|TWO_SIDED|95.0|0.88|1.08|||Mixed Models Analysis|||Meaning and Peace subscale at 6 months post intervention||1.08|0.88|<0.05
82518855|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.82|1.02|||Mixed Models Analysis|||Meaning and Peace subscale at 12 months post intervention||1.02|0.82|<0.05
82518856|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.73|1.16|||Mixed Models Analysis|||Faith subscale score at 3 months post intervention||1.16|0.73|<0.05
82571785|NCT01777126|164853157|SUPERIORITY_OR_OTHER||Proportion|||||0.117|TWO_SIDED|95.0|||||Fisher Exact|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Fisher's Exact Test. The result was considered statistically significant if p-values were \< 0.05.||||0.117
82636976|NCT03524664|164988363|SUPERIORITY|||||||0.3||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=1.09, p=.300||Outcome data analyzed for those with complete data at both timepoints.||||.300
82636977|NCT03524664|164988364|SUPERIORITY|||||||0.099||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.79, p=.099||Outcome data analyzed for those with complete data at both timepoints.||||.099
82518857|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.96|||<|0.05|TWO_SIDED|95.0|0.76|1.21|||Mixed Models Analysis|||Faith subscale at 6 months post intervention||1.21|0.76|<0.05
82518858|NCT02693665|164732226|SUPERIORITY||Mean ratio|0.92|||<|0.05|TWO_SIDED|95.0|0.72|1.17|||Mixed Models Analysis|||Faith subscale scores at 12 months post intervention||1.17|0.72|<0.05
82518859|NCT02693665|164732227|SUPERIORITY||Mean Difference (Final Values)|-0.14|||<|0.05|TWO_SIDED|95.0|-0.42|0.15|||GEE model|||Caregiver Strain subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.15|-0.42|<0.05
82518860|NCT02693665|164732227|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED|95.0|0.02|0.36|||GEE model|||Positive Caregiving Appraisal subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.36|0.02|<0.05
82518861|NCT02693665|164732227|SUPERIORITY||Mean Difference (Final Values)|-0.01|||<|0.05|TWO_SIDED|95.0|-0.35|0.32|||GEE model|||Caregiver Distress subscale at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||0.32|-0.35|<0.05
82518862|NCT02693665|164732227|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.05|TWO_SIDED|95.0|-0.07|0.38|||GEE model|||Family Well-Being subscale at 3 months post-intervention, comparing intervention to TAU, controlling for baseline levels.||0.38|-0.07|<0.05
82518863|NCT02693665|164732229|SUPERIORITY||Slope|0.44|STANDARD_ERROR_OF_MEAN|0.59||0.47|TWO_SIDED||||||Regression, Linear|Intervention effect for quality of adolescent communication score controlling for age, gender, race, income and on active treatment.|It is the standard error of the slope, but this was not an option.|Quality of communication analysis for adolescents||||0.47
82518864|NCT02693665|164732229|SUPERIORITY||Slope|1.15|STANDARD_ERROR_OF_MEAN|0.41|<|0.01|TWO_SIDED||||||Regression, Linear|Testing intervention effect for family member quality of communication score controlling for age, gender, race, income nd on active treatment.|This is standard error of the slope.|Quality of communication analysis for family member.||||<0.01
82518865|NCT02693665|164732235|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|0.71|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Adolescent positive score comparing intervention with TAU.||||<0.05
82518866|NCT02693665|164732235|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Adolescent negative worded score comparing intervention to TAU.||||<0.05
82518867|NCT02693665|164732235|SUPERIORITY||Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|0.74|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Family member positively worded score comparing intervention with treatment as usual.||||<0.05
82518868|NCT02693665|164732235|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.81|<|0.05|TWO_SIDED||||||t-test, 2 sided|||Family member negative worded score comparing intervention to TAU.||||<0.05
82518869|NCT04414696|164732242|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.3|1.5|||||Multivariable linear regression|||1.5|-3.3|
82518870|NCT04414696|164732243|SUPERIORITY||Mean Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-23.5|14.5|||||Multivariable linear regression|||14.5|-23.5|
82518871|NCT04414696|164732244|SUPERIORITY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-1.9|9.5||||||||9.5|-1.9|
82636978|NCT03524664|164988365|SUPERIORITY|||||||0.105||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=2.70, p=.105||Outcome data analyzed for those with complete data at both timepoints.||||.105
82636979|NCT03524664|164988366|SUPERIORITY|||||||0.699||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.15, p=.699||Repeated measures ANOVA||||.699
82518872|NCT04414696|164732245|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-18.9|21.5|||||Multivariable linear regression|||21.5|-18.9|
82442425|NCT00996801|164593640|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.22||||0.699|TWO_SIDED|95.0|-1.32|0.88||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.88|-1.32|0.699
82442426|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.04||||0.002|TWO_SIDED|95.0|-3.43|-0.64||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.64|-3.43|0.002
82442427|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.29||||0.035|TWO_SIDED|95.0|-2.48|-0.09||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.09|-2.48|0.035
82442428|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.76||||0.009|TWO_SIDED|95.0|-3.14|-0.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.38|-3.14|0.009
82518873|NCT04414696|164732246|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.7|1.1|||||Multivariable linear regression|||1.1|-3.7|
82636980|NCT03524664|164988367|SUPERIORITY|||||||0.945||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.005, p=.945||Repeated measures ANOVA||||.945
82442429|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.86||||0.335|TWO_SIDED|95.0|-2.26|0.54||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.54|-2.26|0.335
82442430|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.11||||0.857|TWO_SIDED|95.0|-1.3|1.08||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.08|-1.30|0.857
82442431|NCT00996801|164593641|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.59||||0.542|TWO_SIDED|95.0|-1.96|0.79||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.79|-1.96|0.542
82383525|NCT03207815|164477699|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0145|TWO_SIDED|95.0|-0.8|-0.1||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.1|-0.8|0.0145
82383526|NCT03207815|164477700|SUPERIORITY||LS Mean Treatment Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.025||0.0389|TWO_SIDED|95.0|-0.1|0.0||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, stratification factors and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.00|-0.10|0.0389
82383527|NCT03207815|164477701|SUPERIORITY||LS Mean Treatment Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.034|TWO_SIDED|95.0|-0.05|0.0||P-value was estimated using a repeated measure ANCOVA model which included treatment, eye, interaction of treatment and eye, OCT machine, and best state value.|Repeated Measure ANCOVA|The repeated measure ANCOVA model was used to control for the clustered observations from each eye of a participant.|Treatment difference in LS-means (95% CI) were obtained from the repeated measure ANCOVA model.|||-0.00|-0.05|0.0340
82383528|NCT03207815|164477702|SUPERIORITY||Stratified Hazard Ratio|1.193||||0.5893|TWO_SIDED|95.0|0.625|2.277||P-value was derived from the log rank test stratified by the stratification factors.|Stratified Log-Rank Test||Stratified hazard ratio (95% CI) were derived from the Cox model stratified by the stratification factors.|||2.277|0.625|0.5893
82383529|NCT01671007|164477705|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.64|1.08|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.08|0.64|
82383530|NCT01671007|164477706|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.7|1.27|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.27|0.70|
82383531|NCT01671007|164477707|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.43|1.06|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.06|0.43|
82383532|NCT01671007|164477708|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.43|1.09|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.09|0.43|
82383533|NCT01671007|164477712|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.38|0.88|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, abnormal kidney function, concomitant antiplatelets use and concomitant use of drugs related to bleeding.||0.88|0.38|
82383534|NCT01671007|164477715|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.49|1.84|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous myocardial infarction, concomitant antiplatelets use, concomitant use of drugs related to bleeding, hypertension, and diabetes.||1.84|0.49|
82383535|NCT01671007|164477716|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||Regression, Cox||Hazard ratio of dabigatran versus vitamin K antagonist (vitamin K antagonist as reference).|A multivariable Cox regression model was performed including variables of treatment, age, gender, prior bleed, previous stroke/transient ischaemic attack/systemic embolism, previous myocardial infarction, abnormal kidney function and concomitant antiplatelets use.||1.01|0.60|
82383536|NCT04630002|164477735|OTHER||Ratio of geometric least square means|1.137|||||TWO_SIDED|90.0|0.999|1.293|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.293|0.9990|
82442432|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.24|||<|0.001|TWO_SIDED|95.0|-4.91|-1.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.57|-4.91|<0.001
82442433|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.18|||<|0.001|TWO_SIDED|95.0|-4.78|-1.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.57|-4.78|<0.001
82383537|NCT04630002|164477736|OTHER||Ratio of geometric least square means|1.068|||||TWO_SIDED|90.0|0.9185|1.242|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.242|0.9185|
82383538|NCT04630002|164477737|OTHER||Ratio of geometric least square means|0.9891|||||TWO_SIDED|90.0|0.9313|1.051|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.051|0.9313|
82442434|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-3.2|||<|0.001|TWO_SIDED|95.0|-4.66|-1.74||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-1.74|-4.66|<0.001
82518874|NCT04414696|164732247|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-7.7|4.2|||||Multivariable linear regression|||4.2|-7.7|
82442435|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.27||||0.18|TWO_SIDED|95.0|-2.93|0.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.40|-2.93|0.180
82518875|NCT04414696|164732248|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.2|2.1|||||Multivariable linear regression|||2.1|-1.2|
82518876|NCT04414696|164732249|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|1.1|||||Multivariable linear regression|||1.1|-1|
82518877|NCT04414696|164732250|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.4|1.2|||||Multivariable linear regression|||1.2|-3.4|
82518878|NCT04414696|164732251|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-4.9|1.3|||||Multivariable linear regression|||1.3|-4.9|
82636981|NCT03524664|164988368|SUPERIORITY|||||||0.767||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=0.088, p=.767||Repeated measures ANOVA||||.767
82636982|NCT03524664|164988369|SUPERIORITY|||||||0.682||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,71)=.0.17, p=.682||Repeated measures ANOVA||||.682
82442436|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.2||||0.18|TWO_SIDED|95.0|-2.81|0.4||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.40|-2.81|0.180
82636983|NCT03524664|164988370|SUPERIORITY|||||||0.96||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,42)=0.003, p=.960||Repeated measures ANOVA||||.960
82636984|NCT03524664|164988371|SUPERIORITY|||||||0.643||||||The threshold for statistical significance was p = 0.05.|ANOVA|F(1,42)=0.218, p=.643||Repeated measures ANOVA||||.643
82383539|NCT04630002|164477738|OTHER||Ratio of geometric least square means|1.05|||||TWO_SIDED|90.0|0.9816|1.122|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.122|0.9816|
82571786|NCT01777126|164853158|SUPERIORITY_OR_OTHER||Proportion|||||0.049||95.0|||||Chi-squared|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square Test. Outcome measures were considered statistically significant if p-values were \< 0.05.||||0.049
82636985|NCT03524664|164988372|SUPERIORITY|||||||0.118||||||The threshold for statistical significance was p = 0.05.|ANOVA|Time X Group F(2,90)=2.19, p.118||Repeated measures ANOVA||||.118
82383540|NCT04630002|164477739|OTHER||Ratio of geometric least square means|1.102|||||TWO_SIDED|90.0|1.025|1.185|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.185|1.025|
82383541|NCT04630002|164477740|OTHER||Ratio of geometric least square means|1.12|||||TWO_SIDED|90.0|0.9947|1.26|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.260|0.9947|
82383542|NCT04630002|164477741|OTHER||Ratio of geometric least square means|0.5299|||||TWO_SIDED|90.0|0.4801|0.5848|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||0.5848|0.4801|
82383543|NCT04630002|164477742|OTHER||Ratio of geometric least square means|0.6001|||||TWO_SIDED|90.0|0.5271|0.6833|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||0.6833|0.5271|
82383544|NCT04630002|164477743|OTHER||Ratio of geometric least square means|1.144|||||TWO_SIDED|90.0|1.082|1.21|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.210|1.082|
82383545|NCT04630002|164477744|OTHER||Ratio of geometric least square means|1.104|||||TWO_SIDED|90.0|1.026|1.187|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.187|1.026|
82383546|NCT04630002|164477745|OTHER||Ratio of geometric least square means|0.9435|||||TWO_SIDED|90.0|0.8147|1.093|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter AUC(0-tau).|||1.093|0.8147|
82636986|NCT03524664|164988373|SUPERIORITY|||||||0.8||||||The threshold for statistical significance was p = 0.05.|ANOVA|Time x Group F(2,90)=.223, p=.800||Repeated measures ANOVA||||.800
82383547|NCT04630002|164477746|OTHER||Ratio of geometric least square means|0.8928|||||TWO_SIDED|90.0|0.7467|1.068|||||A linear mixed-effects model with period as a fixed effect, participant as a random effect, and measurements within participant as repeated measures was performed on the log-transformed parameter Cmax.|||1.068|0.7467|
82383548|NCT00375973|164477831|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Regression, Linear|||||||0.23
82383549|NCT00375973|164477832|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
82383550|NCT00375973|164477833|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Regression, Linear|||||||0.67
82383551|NCT00375973|164477834|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
82383552|NCT00375973|164477835|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Regression, Linear|||||||0.06
82383553|NCT00375973|164477836|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||||||0.02
82383554|NCT00375973|164477837|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Fisher Exact|||||||0.24
82571787|NCT01777126|164853159|SUPERIORITY_OR_OTHER||proportion|||||0.698||95.0|||||Chi-squared|||Statistical analysis was performed by the Leuven Statistics Research Centre, KU Leuven, using SPSS package (SPSS Statistics 20.0 for Windows). Statistical analysis was performed using Chi-square Test. Outcome measures were considered statistically significant if p-values were \< 0.05.||||0.698
82383555|NCT01339260|164477848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.001|TWO_SIDED|95.0|1.16|1.87||If superiority of netupitant/palonosetron was established for the CR delayed, CR acute and then CR overall at cycle 1 were to be tested according to a hierarchical procedure;no adjustment for multiplicity was needed.The a priori threshold was 0.050|Cochran-Mantel-Haenszel||Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.|The null hypothesis was rejected if the 2 sided p value from the Cochran Mantel Haenszel test was less than or equal to 0.050 and in the right direction i.e., the Odds Ratio (OR) was in favor of netupitant/palonosetron. Power was 90%.||1.87|1.16|0.001
82383556|NCT01339260|164477849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.047|TWO_SIDED|95.0|1.0|1.87||If the null hypothesis for CR delayed was rejected, analysis of the first key secondary endpoint CR acute was to be performed. Since the analysis was performed according to a hierarchical procedure, no further adjustment for multiplicity was needed.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.||CR in the acute phase was to be tested using the same 2 sided CMH test as for the primary endpoint. netupitant/palonosetron combination was to be considered superior to palonosetron in the acute phase if the 2 sided p value from the CMH was less than or equal to 0.050 and in the right direction.||1.87|1.0|0.047
82383557|NCT01339260|164477850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.001|TWO_SIDED|95.0|1.17|1.85||If the null hypothesis for CR acute was rejected, analysis of the 2nd key secondary endpoint CR overall was to be performed. Since the analysis was performed according to a hierarchical procedure, no further adjustment for multiplicity was needed.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test including treatment, age class and region as strata. All missing data were to be imputed as treatment failures.||CR in the overall phase was to be tested using the same 2 sided CMH test as for the primary endpoint. netupitant/palonosetron combination was to be considered superior to palonosetron in the overall phase if the 2 sided p value from the CMH was less than or equal to 0.050 and in the right direction.||1.85|1.17|0.001
82383558|NCT00343044|164477923|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED|||||Standard statistical methods (log-rank tests) were used in post hoc analyses that compared efficacy parameters in patients who received 1 vs 2 prior treatment regimens.|Log Rank|||Planned enrollment of 40 patients was determined assuming a median progression free survival (PFS) of 9 months (based on a median PFS of 7.2 months for low-dose, metronomic cyclophosphamide plus bevacizumab in a phase 2 study) and an analysis calculating the sample size at which the narrowing of its 95% confidence interval (CI) became greater than .2 for every 2 patients added. Progression free survival was estimated using the Kaplan-Meier method.||||.08
82383559|NCT00343044|164477924|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Standard statistical methods (log-rank tests) were used in post hoc analyses that compared efficacy parameters in patients who received 1 vs 2 prior treatment regimens.|Log Rank|||Overall survival(OS)was estimated using the Kaplan-Meier method.||||.02
82383560|NCT02632409|164477955|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0008|TWO_SIDED|98.22|0.55|0.9|||Stratified Cox Proportional hazard model|||||0.90|0.55|0.0008
82383561|NCT02632409|164477956|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0005|TWO_SIDED|98.72|0.35|0.84|||Stratified Cox Proportional hazard model|||||0.84|0.35|0.0005
82383562|NCT02883062|164477965|SUPERIORITY|||||||0.36|||||||Generalized estimating equation (GEE)|||||||0.36
82383563|NCT02883062|164477966|SUPERIORITY|||||||0.018|||||||Regression, Logistic|||||||0.018
82383564|NCT00720213|164477984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|STANDARD_DEVIATION|8.03||0.0054|TWO_SIDED|95.0|1.44|6.51|||Wilcoxon Signed Rank test|||Each participant was treated with the BiPAP autoSV2 (ASV2) and autoSV Advanced (ASV3) on two separate nights; therefore, the data were analyzed as paired samples. Depending on normality, each endpoint was analyzed with either a paired t-test or the nonparametric Wilcoxon Signed Ranks test. All comparisons were 2-sided conducted at a 5% level of significance.||6.51|1.44|0.0054
82383565|NCT01420068|164478013|SUPERIORITY||Mean Difference (Net)|0.31||||0.84|TWO_SIDED|95.0|-2.74|3.37||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline weight as covariates.||||3.37|-2.74|0.840
82383566|NCT01420068|164478014|SUPERIORITY||Mean Difference (Net)|0.69||||0.303|TWO_SIDED|95.0|-0.63|2.02||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline height as covariates.||||2.02|-0.63|0.303
82383567|NCT01420068|164478015|SUPERIORITY||Mean Difference (Net)|0.03||||0.957|TWO_SIDED|95.0|-1.06|1.12||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and hypertension etiology (primary, secondary) as factors, and Baseline BMI as covariates.||||1.12|-1.06|0.957
82383568|NCT01420068|164478017|SUPERIORITY||Mean Difference (Net)|0.02||||0.992|TWO_SIDED|95.0|-3.29|3.33||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline weight as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||3.33|-3.29|0.992
82636987|NCT03524664|164988374|SUPERIORITY|||||||0.863||||||The threshold for statistical significance was p = 0.05.|ANOVA|Group x Time F(2,92)=0.148, p=.863||Repeated measures ANOVA||||.863
82636988|NCT01522391|164988387|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||||0.491|0.004|0.012
82383569|NCT01420068|164478017|SUPERIORITY||Mean Difference (Net)|-3.06||||0.215|TWO_SIDED|95.0|-8.22|2.1||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline weight as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||2.10|-8.22|0.215
82383570|NCT01420068|164478018|SUPERIORITY||Mean Difference (Net)|0.62||||0.403|TWO_SIDED|95.0|-0.85|2.09||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline height as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||2.09|-0.85|0.403
82383571|NCT01420068|164478018|SUPERIORITY||Mean Difference (Net)|0.92||||0.67|TWO_SIDED|95.0|-3.74|5.57||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline height as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||5.57|-3.74|0.670
82442437|NCT00996801|164593642|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.22||||0.18|TWO_SIDED|95.0|-2.68|0.23||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.23|-2.68|0.180
82442438|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.36||||0.001|TWO_SIDED|95.0|-2.18|-0.54||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.54|-2.18|0.001
82571788|NCT02706951|164853174|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|26.5|||<|0.001|TWO_SIDED|95.0|17.5|35.6||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||35.6|17.5|<0.001
82571789|NCT02706951|164853174|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|30.0|||<|0.001|TWO_SIDED|95.0|21.0|38.9||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||38.9|21.0|<0.001
82383572|NCT01420068|164478019|SUPERIORITY||Mean Difference (Net)|-0.11||||0.86|TWO_SIDED|95.0|-1.29|1.08||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline BMI as covariates||Primary Hypertension group (at LT Visit 18 \[Week 104\])||1.08|-1.29|0.860
82383573|NCT01420068|164478019|SUPERIORITY||Mean Difference (Net)|-1.17||||0.32|TWO_SIDED|95.0|-3.66|1.32||p-value for statistical significance at 0.05 level for 2-sided superiority testing.|ANCOVA|Treatment regimen, region, age strata, and Baseline BMI as covariates.||Secondary hypertension group (at LT Visit 19 \[Week 156\])||1.32|-3.66|0.320
82383574|NCT00745901|164478022|SUPERIORITY_OR_OTHER|||||||0.9698||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9698
82383575|NCT00745901|164478023|SUPERIORITY_OR_OTHER|||||||0.0715||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0715
82383576|NCT00745901|164478024|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0050
82383577|NCT00745901|164478025|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0006
82383578|NCT00745901|164478026|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0031
82571790|NCT02706951|164853175|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|25.3|||<|0.001|TWO_SIDED|95.0|16.8|33.7||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||33.7|16.8|<0.001
82383579|NCT00745901|164478027|SUPERIORITY_OR_OTHER|||||||0.0013||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0013
82383580|NCT00745901|164478028|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82383581|NCT00745901|164478029|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82636989|NCT01522391|164988388|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||||0.491|0.004|0.012
82636990|NCT01522391|164988389|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.66|||Mixed Models Analysis|||Day 7||2.66|0.022|0.242
82636991|NCT01522391|164988389|OTHER||Ratio between geometric means|0.428||||0.482|TWO_SIDED|95.0|0.039|4.696|||Mixed Models Analysis|||Day 21||4.696|0.039|0.482
82383582|NCT00745901|164478030|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82383583|NCT00745901|164478031|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82383584|NCT00745901|164478032|SUPERIORITY_OR_OTHER|||||||0.0033||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0033
82383585|NCT00745901|164478033|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0060
82383586|NCT00745901|164478034|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82383587|NCT00745901|164478035|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82383588|NCT00745901|164478036|SUPERIORITY_OR_OTHER|||||||0.912||95.0|||||Fisher Exact|||||||0.912
82383589|NCT00745901|164478037|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
82383590|NCT00745901|164478038|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||||||0.002
82383591|NCT00745901|164478039|SUPERIORITY_OR_OTHER|||||||0.816||95.0|||||Fisher Exact|||||||0.816
82383592|NCT00745901|164478040|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Fisher Exact|||||||0.012
82383593|NCT00745901|164478041|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
82383594|NCT00758290|164478042|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82383595|NCT00884117|164478053|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<0.0001
82383596|NCT00884117|164478053|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Pairwise Wilcoxon|||||||<0.01
82383597|NCT00884117|164478053|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Pairwise Wilcoxon|||||||<0.01
82383598|NCT00884117|164478054|SUPERIORITY_OR_OTHER|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82383599|NCT00884117|164478054|SUPERIORITY_OR_OTHER|||||||0.009|||||||Pairwise Wilcoxon|||||||0.009
82383600|NCT00884117|164478054|SUPERIORITY_OR_OTHER|||||||0.03|||||||Pairwise Wilcoxon|||||||0.03
82383601|NCT00884117|164478055|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Kruskal-Wallis|||||||0.0005
82383602|NCT00884117|164478055|SUPERIORITY_OR_OTHER|||||||0.008|||||||Pairwise Wilcoxon|||||||0.008
82383603|NCT00884117|164478055|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Pairwise Wilcoxon|||||||<0.0001
82383604|NCT00884117|164478056|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Kruskal-Wallis|||||||0.0002
82383605|NCT00884117|164478056|SUPERIORITY_OR_OTHER|||||||0.008|||||||Pairwise Wilcoxon|||||||0.008
82383606|NCT00884117|164478056|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Pairwise Wilcoxon|||||||<0.0001
82383607|NCT00884117|164478059|SUPERIORITY_OR_OTHER|||||||0.4464|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||0.4464
82383608|NCT00884117|164478060|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||<0.0001
82383609|NCT00884117|164478061|SUPERIORITY_OR_OTHER|||||||0.2499|||||||Cochran-Mantel-Haenszel|||Resistant versus Susceptible||||0.2499
82636992|NCT01522391|164988390|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.66|||Mixed Models Analysis|||Day 7||2.660|0.022|0.242
82442439|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.51||||0.001|TWO_SIDED|95.0|-2.46|-0.55||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.55|-2.46|0.001
82442440|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.92|||<|0.001|TWO_SIDED|95.0|-2.93|-0.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.91|-2.93|<0.001
82442441|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.37||||0.383|TWO_SIDED|95.0|-1.21|0.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.46|-1.21|0.383
82442442|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.52||||0.383|TWO_SIDED|95.0|-1.49|0.45||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.45|-1.49|0.383
82442443|NCT00996801|164593643|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.94||||0.084|TWO_SIDED|95.0|-1.96|0.09||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.09|-1.96|0.084
82442444|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.47||||0.68|TWO_SIDED|95.0|-1.88|0.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.94|-1.88|0.680
82442445|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.01||||0.993|TWO_SIDED|95.0|-1.3|1.28||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.28|-1.30|0.993
82442446|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.1||||0.23|TWO_SIDED|95.0|-2.67|0.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.46|-2.67|0.230
82383610|NCT01753310|164478068|SUPERIORITY_OR_OTHER||Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-12.17|-4.47|||t-test, 2 sided|The 2 sided t-test was on weighted overall treatment difference.|Based on the sample size weighted overall treatment difference.|The superiority of Dysport® to placebo was tested at a two-tailed 5% level by using a stratified analysis of covariance (ANCOVA) with baseline TWSTRS total score as covariate and stratified by the randomisation stratification factor (BoNT-A naïve versus BoNT-A non-naïve).||-4.47|-12.17|<0.001
82383611|NCT01753310|164478069|SUPERIORITY_OR_OTHER||Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|1.65|=|0.001|TWO_SIDED|95.0|-8.67|-2.14|||t-test, 2 sided|The 2 sided t-test was on weighted overall treatment difference.|Based on the sample size weighted overall treatment difference.|The superiority of Dysport® to placebo was tested at a two-tailed 5% level by using a stratified ANCOVA with baseline TWSTRS total score as covariate and stratified by the randomisation stratification factor (BoNT-A naïve versus BoNT-A non-naïve).||-2.14|-8.67|=0.001
82442447|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.84||||0.333|TWO_SIDED|95.0|-2.29|0.61||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.61|-2.29|0.333
82442448|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.37||||0.577|TWO_SIDED|95.0|-1.69|0.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.94|-1.69|0.577
82442449|NCT00996801|164593644|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.47||||0.078|TWO_SIDED|95.0|-3.07|0.12||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.12|-3.07|0.078
82442450|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.99||||0.094|TWO_SIDED|95.0|-4.22|0.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.25|-4.22|0.094
82442451|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.66||||0.157|TWO_SIDED|95.0|-3.82|0.5||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.50|-3.82|0.157
82442452|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.57||||0.157|TWO_SIDED|95.0|-3.53|0.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.38|-3.53|0.157
82383612|NCT01753310|164478070|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||The superiority of Dysport® to placebo on CGIC of CD was tested at a two-tailed 5% level by using an analysis of variance (ANOVA) with treatment and randomisation stratification factor as main effects.||||<0.001
82383613|NCT01753310|164478071|SUPERIORITY_OR_OTHER||||||=|0.033|||||||Mantel-Haenszel chi-squared test|||The superiorty of Dysport® to placebo on treatment response was tested at a two-tailed 5% level by using a Mantel-Haenszel chi-squared test stratified by the randomisation factor.||||=0.033
82383614|NCT01753310|164478072|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||The superiority of Dysport® to placebo on CGIC of CD was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||<0.001
82518879|NCT02621931|164732354|SUPERIORITY||LSM difference from placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.46|-1.15||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the statistical analysis plan (SAP).||-1.15|-2.46|<0.0001
82383615|NCT01753310|164478073|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mantel-Haenszel chi-squared test|||The superiorty of Dysport® to placebo on treatment response was tested at a two-tailed 5% level by using a Mantel-Haenszel chi-squared test stratified by the randomisation factor.||||<0.001
82383616|NCT01753310|164478074|SUPERIORITY_OR_OTHER||||||=|0.174|||||||ANOVA|||The superiority of Dysport® to placebo on CDIP-58 was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||=0.174
82442453|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.43||||0.937|TWO_SIDED|95.0|-2.61|1.76||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.76|-2.61|0.937
82442454|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.1||||0.992|TWO_SIDED|95.0|-2.21|2.01||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.01|-2.21|0.992
82518880|NCT02621931|164732354|SUPERIORITY||LSM difference from placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.76|-1.45||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||-1.45|-2.76|<0.0001
82518881|NCT02621931|164732356|SUPERIORITY||LSM difference from placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-2.48|-0.97||0.05 level of significance|ANCOVA|||||-0.97|-2.48|<0.0001
82383617|NCT01753310|164478075|SUPERIORITY_OR_OTHER||||||=|0.583|||||||ANOVA|||The superiority of Dysport® to placebo on CDIP-58 was tested at a two-tailed 5% level by using an ANOVA with treatment and randomisation stratification factor as main effects.||||=0.583
82383618|NCT01383174|164478103|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||0.015
82383619|NCT01383174|164478104|SUPERIORITY_OR_OTHER|||||||0.465|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.465
82383620|NCT01383174|164478105|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.025
82383621|NCT01383174|164478106|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.004
82518882|NCT02621931|164732356|SUPERIORITY||LSM difference from placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-2.61|-1.09||0.05 level of significance|ANCOVA|||||-1.09|-2.61|<0.0001
82518883|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 1: Active 675/placebo/placebo to Placebo||||<0.0001
82636993|NCT01522391|164988390|OTHER||Ratio between geometric means|0.428||||0.482|TWO_SIDED|95.0|0.039|4.696|||Mixed Models Analysis|||Day 21||4.696|0.039|0.482
82383622|NCT01383174|164478107|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.013
82383623|NCT01383174|164478108|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.267
82383624|NCT01383174|164478109|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.030
82636994|NCT01522391|164988391|OTHER||Ratio between geometric means|0.288||||0.395|TWO_SIDED|95.0|0.016|5.221|||Mixed Models Analysis|||Day 7||5.221|0.016|0.395
82383625|NCT01383174|164478110|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.045
82442455|NCT00996801|164593645|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.01||||0.992|TWO_SIDED|95.0|-1.93|1.9||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.90|-1.93|0.992
82518884|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 1: Active 675/225/225 to Placebo||||<0.0001
82518885|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 2||||<0.0001
82518886|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 2||||<0.0001
82518887|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 3||||<0.0001
82383626|NCT01383174|164478111|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.005
82518888|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Month 3||||<0.0001
82518889|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Overall||||<0.0001
82518890|NCT02621931|164732357|SUPERIORITY||||||<|0.0001||||||0.05 level of significance. P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.|Cochran-Mantel-Haenszel|||Overall||||<0.0001
82518891|NCT02621931|164732358|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82518892|NCT02621931|164732358|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82518893|NCT02621931|164732359|SUPERIORITY||LSM difference from placebo|-2.3|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.95|-1.73||0.05 level of significance|ANCOVA|||||-1.73|-2.95|<0.0001
82518894|NCT02621931|164732360|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82518895|NCT02621931|164732360|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82636995|NCT01522391|164988391|OTHER||Ratio between geometric means|0.067||||0.067|TWO_SIDED|95.0|0.004|1.218|||Mixed Models Analysis|||Day 14||1.218|0.004|0.067
82518896|NCT02621931|164732361|SUPERIORITY|||||||0.0004||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||0.0004
82518897|NCT02621931|164732361|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82518898|NCT00920426|164732369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|||<|0.001|TWO_SIDED|95.0|-2.547|-1.632||Analysis of covariance (ANCOVA) with treatment as fixed effect, and Baseline HIV-1 RNA as covariate.|ANCOVA|||||-1.632|-2.547|<0.001
82518899|NCT00920426|164732395|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.804|||<|0.001|TWO_SIDED|95.0|-2.173|-1.436||ANCOVA with treatment as fixed effect, and baseline HIV-1 RNA as covariate.|ANCOVA|||||-1.436|-2.173|<0.001
82518900|NCT00920426|164732396|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82518901|NCT01292603|164732407|NON_INFERIORITY_OR_EQUIVALENCE|A standard non-inferiority margin of 0.8 for the ratio of Ctrough was used. The non-inferiority limit corresponds to a maximal 20 percent (%) loss in Ctrough which is considered acceptable given the high variability and range of Ctrough data, with an 80% power and a one-sided alpha of 0.05.|Adjusted geometric mean ratio|1.533|||||TWO_SIDED|90.0|1.269|1.852|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.852|1.269|
82518902|NCT01292603|164732408|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.102|||||TWO_SIDED|90.0|0.979|1.242|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.242|0.979|
82518903|NCT01292603|164732409|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.719|||||TWO_SIDED|90.0|0.653|0.792|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||0.792|0.653|
82636996|NCT01522391|164988391|OTHER||Ratio between geometric means|0.484||||0.62|TWO_SIDED|95.0|0.027|8.787|||Mixed Models Analysis|||Day 21||8.787|0.027|0.620
82383627|NCT01383174|164478112|SUPERIORITY_OR_OTHER|||||||0.226|TWO_SIDED|||||P-value represents the significance of the time by treatment group interaction from the repeated-measures linear regression model. For consistency with the manuscript, we report here the absolute means and standard deviations.|Mixed Models Analysis|||||||.226
82636997|NCT01522391|164988392|OTHER||Ratio between geometric means|0.287||||0.403|TWO_SIDED|95.0|0.015|5.55|||Mixed Models Analysis|||Day 7||5.550|0.015|0.403
82383628|NCT01890122|164478114|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.107|<|0.0001|TWO_SIDED|95.0|-0.7|-0.278||An analysis of covariance (ANCOVA) model was used with treatment and country as fixed effects, and Baseline HbA1c as a continuous covariate.|ANCOVA|||||-0.278|-0.700|< 0.0001
82518904|NCT01292603|164732410|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|14.884|||||TWO_SIDED|90.0|11.215|19.755|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||19.755|11.215|
82518905|NCT01292603|164732411|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.895|1.139|||||Ratio based on geometric scale and adjusted for the covariate tumor load at baseline.|||1.139|0.895|
82518906|NCT00907153|164732467|SUPERIORITY||Mean Difference (Net)|-0.017||||0.05|TWO_SIDED|95.0|-0.034|0.0|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||-0.000|-0.034|0.05
82518907|NCT00907153|164732468|SUPERIORITY||Mean Difference (Net)|-1.14||||0.62|TWO_SIDED|95.0|-5.89|3.62|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||3.62|-5.89|0.62
82518908|NCT00907153|164732469|SUPERIORITY||Mean Difference (Net)|-3.65||||0.48|TWO_SIDED|95.0|-14.32|7.02|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||7.02|-14.32|0.48
82518909|NCT00907153|164732470|SUPERIORITY||Mean Difference (Net)|-6.51||||0.02|TWO_SIDED|95.0|-12.07|-0.96|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||-0.96|-12.07|0.02
82518910|NCT00907153|164732471|SUPERIORITY||Mean Difference (Net)|6.28||||0.22|TWO_SIDED|95.0|-3.97|16.54|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||16.54|-3.97|0.22
82518911|NCT00907153|164732472|SUPERIORITY||Mean Difference (Net)|13.84||||0.33|TWO_SIDED|95.0|-210.29|37.98|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||37.98|-210.29|0.33
82518912|NCT00907153|164732473|SUPERIORITY||Mean Difference (Net)|-12.8||||0.39|TWO_SIDED|95.0|-42.94|17.34|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||17.34|-42.94|0.39
82518913|NCT00907153|164732474|SUPERIORITY||Mean Difference (Net)|-75.08||||0.09|TWO_SIDED|95.0|-161.9|11.78|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||11.78|-161.9|0.09
82518914|NCT00907153|164732475|SUPERIORITY||Mean Difference (Net)|0.73||||0.96|TWO_SIDED|95.0|-32.59|34.06|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||34.06|-32.59|0.96
82518915|NCT00907153|164732476|SUPERIORITY||Mean Difference (Net)|3.08||||0.21|TWO_SIDED|95.0|-1.84|7.99|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||7.99|-1.84|0.21
82518916|NCT00907153|164732477|SUPERIORITY||Mean Difference (Net)|0.11||||0.99|TWO_SIDED|95.0|-24.43|24.64|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||24.64|-24.43|0.99
82636998|NCT01522391|164988392|OTHER||Ratio between geometric means|0.032||||0.021|TWO_SIDED|95.0|0.002|0.583|||Mixed Models Analysis|||Day 14||0.583|0.002|0.021
82636999|NCT01522391|164988392|OTHER||Ratio between geometric means|0.271||||0.368|TWO_SIDED|95.0|0.015|4.779|||Mixed Models Analysis|||Day 21||4.779|0.015|0.368
82637000|NCT01522391|164988393|OTHER||Ratio between geometric means|1.045||||0.97|TWO_SIDED|95.0|0.106|10.32|||Mixed Models Analysis|||Day 7||10.32|0.106|0.970
82518917|NCT00907153|164732478|SUPERIORITY||Median Difference (Net)|-1.93||||0.62|TWO_SIDED|95.0|-10.12|6.26|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||6.26|-10.12|0.62
82518918|NCT00907153|164732479|SUPERIORITY||Mean Difference (Net)|0.28||||0.98|TWO_SIDED|95.0|-20.29|20.85|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||20.85|-20.29|0.98
82518919|NCT00907153|164732480|SUPERIORITY||Mean Difference (Net)|10.24||||0.64|TWO_SIDED|95.0|-34.61|55.08|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||55.08|-34.61|0.64
82518920|NCT00907153|164732481|SUPERIORITY||Mean Difference (Net)|0.88||||0.88|TWO_SIDED|95.0|-22.81|8.51|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||8.51|-22.81|0.88
82383629|NCT01890122|164478114|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.108|<|0.0001|TWO_SIDED|95.0|-0.889|-0.467||An ANCOVA model was used with treatment and country as fixed effects, and Baseline HbA1c as a continuous covariate.|ANCOVA|||||-0.467|-0.889|< 0.0001
82383630|NCT04042467|164478211|SUPERIORITY||Estimated intervention effect at 24 mo.|-0.33|||<|0.001|TWO_SIDED|95.0|-0.57|-0.09||The p-value was not adjusted for multiple comparisons, and the a priori threshold for statistical significance was 0.05.|Regression, Linear|Wald test (4 DoF) of intervention main effect and 3 intervention by age interaction parameters equal 0 vs. alternative that at least one was not 0.|The p-value is for the Wald test (4 DoF) evaluating whether the Greenlight Plus and Greenlight group trajectories were significantly different. The estimation parameter is the model-estimated intervention effect at 24 months (kg/m).|"Linear mixed-effects model (random intercepts and slopes for clinics and participants within clinics). A priori adjustment for baseline variables: child birth weight and biological sex, race/ethnicity, health literacy, language, education, income, and food insecurity. Child age and birth weight were included using natural splines with 3 DoF.~Effect evaluated using Wald test with a 2-sided, 0.05 significance level. Null hypothesis: Equal weight-for-length growth trajectories in the two groups."||-0.09|-0.57|<0.001
82383631|NCT05151744|164478215|SUPERIORITY||Difference in Adjusted Means|3.4||||0.0625|TWO_SIDED|95.0|-0.2|7.0|||MMRM|||||7.0|-0.2|0.0625
82383632|NCT05151744|164478217|SUPERIORITY||Difference in Adjusted Mean|2.7||||0.2052|TWO_SIDED|95.0|-1.5|7.0|||MMRM|||||7.0|-1.5|0.2052
82442456|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.47||||0.824|TWO_SIDED|95.0|-2.5|1.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.56|-2.50|0.824
82518921|NCT00907153|164732482|SUPERIORITY||Mean Difference (Net)|-3.15||||0.25|TWO_SIDED|95.0|-8.7|2.41|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||2.41|-8.70|0.25
82518922|NCT00907153|164732483|SUPERIORITY||Mean Difference (Net)|44.31|||<|0.001|TWO_SIDED|95.0|27.13|61.48|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||61.48|27.13|<0.001
82383633|NCT05151744|164478218|SUPERIORITY||Difference in Adjusted Mean|3.3||||0.0192|TWO_SIDED|95.0|0.5|6.0|||MMRM|||||6.0|0.5|0.0192
82383634|NCT05151744|164478219|SUPERIORITY||Difference in Adjusted Mean|2.5||||0.0637|TWO_SIDED|95.0|-0.1|5.2|||MMRM|||||5.2|-0.1|0.0637
82383635|NCT05151744|164478220|SUPERIORITY||Difference in Adjusted Mean|0.8||||0.7091|TWO_SIDED|95.0|-3.3|4.9|||MMRM|||||4.9|-3.3|0.7091
82518923|NCT00907153|164732484|SUPERIORITY||Mean Difference (Net)|1.56||||0.38|TWO_SIDED|95.0|-2.08|5.2|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||5.20|-2.08|0.38
82518924|NCT00907153|164732485|SUPERIORITY||Mean Difference (Net)|-7.84||||0.46|TWO_SIDED|95.0|-29.34|13.67|||Regression, Linear|Model-based differences adjusted for oral contraceptive use and season.||||13.67|-29.34|0.46
82518925|NCT00778648|164732486|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||||||0.023
82518926|NCT02120027|164732488|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986||||0.949|TWO_SIDED|95.0|0.64|1.53|||Cochran-Mantel-Haenszel|||||1.53|0.64|0.949
82518927|NCT02120027|164732489|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.193|TWO_SIDED|95.0|0.88|1.86|||Cochran-Mantel-Haenszel|||||1.86|0.88|0.193
82518928|NCT02120027|164732490|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||0.872|TWO_SIDED|95.0|0.7|1.53|||Cochran-Mantel-Haenszel|||||1.53|0.70|0.872
82518929|NCT02120027|164732491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.339||||0.272|TWO_SIDED|95.0|0.79|2.26|||Cochran-Mantel-Haenszel|||||2.26|0.79|0.272
82518930|NCT02120027|164732492|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.153||||0.567|TWO_SIDED|95.0|0.73|1.81|||Cochran-Mantel-Haenszel|||||1.81|0.73|0.567
82518931|NCT01002872|164732493|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||0.037
82518932|NCT01002872|164732494|SUPERIORITY|||||||0.721|||||||t-test, 2 sided|||||||0.721
82518933|NCT01002872|164732495|SUPERIORITY|||||||0.897|||||||t-test, 2 sided|||||||0.897
82518934|NCT01002872|164732496|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
82518935|NCT01002872|164732497|SUPERIORITY|||||||0.416|||||||t-test, 2 sided|||||||0.416
82518936|NCT01002872|164732498|SUPERIORITY|||||||0.672|||||||t-test, 2 sided|||||||0.672
82518937|NCT01002872|164732499|SUPERIORITY|||||||0.955|||||||t-test, 2 sided|||||||0.955
82518938|NCT01002872|164732500|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82518939|NCT01002872|164732501|SUPERIORITY|||||||0.0066|||||||t-test, 2 sided|||||||0.0066
82637001|NCT01522391|164988393|OTHER||Ratio between geometric means|0.045||||0.009|TWO_SIDED|95.0|0.005|0.447|||Mixed Models Analysis|||Day 14||0.447|0.005|0.009
82637002|NCT01522391|164988393|OTHER||Ratio between geometric means|0.36||||0.377|TWO_SIDED|95.0|0.036|3.556|||Mixed Models Analysis|||Day 21||3.556|0.036|0.377
82571791|NCT02706951|164853175|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|33.6|||<|0.001|TWO_SIDED|95.0|25.1|42.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||42.1|25.1|<0.001
82637003|NCT01522391|164988394|OTHER||Ratio between geometric means|0.961||||0.974|TWO_SIDED|95.0|0.081|11.43|||Mixed Models Analysis|||Day 7||11.43|0.081|0.974
82637004|NCT01522391|164988394|OTHER||Ratio between geometric means|0.046||||0.013|TWO_SIDED|95.0|0.004|0.512|||Mixed Models Analysis|||Day 14||0.512|0.004|0.013
82637005|NCT01522391|164988394|OTHER||Ratio between geometric means|0.447||||0.504|TWO_SIDED|95.0|0.041|4.883|||Mixed Models Analysis|||Day 21||4.883|0.041|0.504
82383636|NCT05151744|164478221|SUPERIORITY||Difference in Adjusted Mean|1.8||||0.1107|TWO_SIDED|95.0|-0.4|4.1|||MMRM|||||4.1|-0.4|0.1107
82383637|NCT05151744|164478222|SUPERIORITY||Difference in Adjusted Mean|2.1||||0.1498|TWO_SIDED|95.0|-0.8|5.0|||MMRM|||||5.0|-0.8|0.1498
82383638|NCT05151744|164478223|SUPERIORITY||Difference in Adjusted Mean|1.8||||0.3783|TWO_SIDED|95.0|-2.3|6.0|||MMRM|||||6.0|-2.3|0.3783
82383639|NCT05151744|164478224|SUPERIORITY||Difference in Adjusted Mean|1.9||||0.1036|TWO_SIDED|95.0|-0.4|4.3|||MMRM|||||4.3|-0.4|0.1036
82383640|NCT05151744|164478231|SUPERIORITY||Difference in Adjusted Mean|-10.0||||0.4968|TWO_SIDED|95.0|-38.9|18.9|||MMRM|||||18.9|-38.9|0.4968
82383641|NCT05151744|164478232|SUPERIORITY||Difference in Adjusted Mean|-23.2||||0.3951|TWO_SIDED|95.0|-76.8|30.5|||MMRM|||||30.5|-76.8|0.3951
82383642|NCT05151744|164478233|SUPERIORITY||Difference in Adjusted Mean|-22.8||||0.0521|TWO_SIDED|95.0|-45.8|0.2|||MMRM|||||0.2|-45.8|0.0521
82637006|NCT01522391|164988395|OTHER||Ratio between geometric means|0.242||||0.242|TWO_SIDED|95.0|0.022|2.659|||Mixed Models Analysis|||Day 7||2.659|0.022|0.242
82637007|NCT01522391|164988395|OTHER||Ratio between geometric means|0.045||||0.012|TWO_SIDED|95.0|0.004|0.491|||Mixed Models Analysis|||Day 14||0.491|0.004|0.012
82571792|NCT02706951|164853176|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Least Squares (LS) Mean Difference|-1.08|||<|0.001|TWO_SIDED|95.0|-1.32|-0.85||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment as the fixed factor, and baseline value and geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.85|-1.32|<0.001
82571793|NCT02706951|164853176|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.64|-1.17||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-1.17|-1.64|<0.001
82637008|NCT01522391|164988395|OTHER||Ratio between geometric means|0.428||||0.483|TWO_SIDED|95.0|0.039|4.697|||Mixed Models Analysis|||Day 21||4.697|0.039|0.483
82637009|NCT01522391|164988396|OTHER||Ratio between geometric means|0.202||||0.197|TWO_SIDED|95.0|0.017|2.34|||Mixed Models Analysis|||Day 7||2.340|0.017|0.197
82637010|NCT01522391|164988396|OTHER||Ratio between geometric means|0.021||||0.002|TWO_SIDED|95.0|0.002|0.227|||Mixed Models Analysis|||Day 14||0.227|0.002|0.002
82637011|NCT01522391|164988396|OTHER||Ratio between geometric means|0.257||||0.257|TWO_SIDED|95.0|0.024|2.752|||Mixed Models Analysis|||Day 21||2.752|0.024|0.257
82637012|NCT01522391|164988397|OTHER||Least Square Mean Difference|20.38||||0.346|TWO_SIDED|95.0|-22.42|63.19|||Mixed Models Analysis|||Day 7||63.19|-22.42|0.346
82637013|NCT01522391|164988397|OTHER||Least Square Mean Difference|29.1||||0.18|TWO_SIDED|95.0|-13.71|71.9|||Mixed Models Analysis|||Day 14||71.90|-13.71|0.18
82637014|NCT01522391|164988397|OTHER||Least Square Mean Difference|-11.64||||0.59|TWO_SIDED|95.0|-54.44|31.16|||Mixed Models Analysis|||Day 21||31.16|-54.44|0.590
82637015|NCT01522391|164988398|OTHER||Least Square Mean Difference|5.95||||0.748|TWO_SIDED|95.0|-30.84|42.73|||Mixed Models Analysis|||Day 7||42.73|-30.84|0.748
82637016|NCT01522391|164988398|OTHER||Least Square Mean Difference|14.62||||0.437|TWO_SIDED|95.0|-22.65|51.88|||Mixed Models Analysis|||Day 14||51.88|-22.65|0.437
82637017|NCT01522391|164988398|OTHER||Least Square Mean Difference|-18.66||||0.322|TWO_SIDED|95.0|-55.92|18.61|||Mixed Models Analysis|||Day 21||18.61|-55.92|0.322
82637018|NCT01522391|164988399|OTHER||Least Square Mean Difference|8.04||||0.631|TWO_SIDED|95.0|-25.15|41.24|||Mixed Models Analysis|||Day 7||41.24|-25.15|0.631
82637019|NCT01522391|164988399|OTHER||Least Square Mean Difference|20.44||||0.224|TWO_SIDED|95.0|-12.75|53.63|||Mixed Models Analysis|||Day 14||53.63|-12.75|0.224
82637020|NCT01522391|164988399|OTHER||Least Square Mean Difference|-1.23||||0.941|TWO_SIDED|95.0|-34.42|31.96|||Mixed Models Analysis|||Day 21||31.96|-34.42|0.941
82637021|NCT01522391|164988400|OTHER||Least Square Means Difference|0.97||||0.954|TWO_SIDED|95.0|-32.93|34.87|||Mixed Models Analysis|||Day 7||34.87|-32.93|0.954
82637022|NCT01522391|164988400|OTHER||Least Square Mean Difference|15.72||||0.358|TWO_SIDED|95.0|-18.18|49.62|||Mixed Models Analysis|||Day 14||49.62|-18.18|0.358
82383643|NCT05151744|164478234|SUPERIORITY||Difference in Adjusted Mean|-17.5||||0.2227|TWO_SIDED|95.0|-45.7|10.7|||MMRM|||||10.7|-45.7|0.2227
82637023|NCT01522391|164988400|OTHER||least Square Mean Difference|-7.94||||0.642|TWO_SIDED|95.0|-41.82|25.94|||Mixed Models Analysis|||Day 21||25.94|-41.82|0.642
82637024|NCT01522391|164988401|OTHER|||||||0.701|||||||Cochran-Mantel-Haenszel|||Day 7||||0.701
82637025|NCT01522391|164988401|OTHER|||||||0.898|||||||Cochran-Mantel-Haenszel|||Day 14||||0.898
82637026|NCT01522391|164988401|OTHER|||||||0.271|||||||Cochran-Mantel-Haenszel|||Day 21||||0.271
82637027|NCT01522391|164988402|OTHER|||||||0.511|||||||Cochran-Mantel-Haenszel|||Day 7||||0.511
82637028|NCT01522391|164988402|OTHER|||||||0.777|||||||Cochran-Mantel-Haenszel|||Day 14||||0.777
82637029|NCT01522391|164988402|OTHER|||||||0.204|||||||Cochran-Mantel-Haenszel|||Day 21||||0.204
82637030|NCT01522391|164988403|OTHER|||||||0.489|||||||Cochran-Mantel-Haenszel|||Day 7||||0.489
82637031|NCT01522391|164988403|OTHER|||||||0.249|||||||Cochran-Mantel-Haenszel|||Day 14||||0.249
82637032|NCT01522391|164988403|OTHER|||||||0.098|||||||Cochran-Mantel-Haenszel|||Day 21||||0.098
82383644|NCT05151744|164478235|SUPERIORITY||Difference in Adjusted Mean|-27.2||||0.2972|TWO_SIDED|95.0|-78.6|24.2|||MMRM|||||24.2|-78.6|0.2972
82637033|NCT01522391|164988404|OTHER|||||||0.291|||||||Cochran-Mantel-Haenszel|||Day 7||||0.291
82637034|NCT01522391|164988404|OTHER|||||||0.113|||||||Cochran-Mantel-Haenszel|||Day 14||||0.113
82637035|NCT01522391|164988404|OTHER|||||||0.033|||||||Cochran-Mantel-Haenszel|||Day 21||||0.033
82637036|NCT01522391|164988405|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 7||||0.825
82637037|NCT01522391|164988405|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 14||||0.825
82637038|NCT01522391|164988405|OTHER|||||||0.208|||||||Cochran-Mantel-Haenszel|||||||0.208
82637039|NCT01522391|164988406|OTHER|||||||0.825|||||||Cochran-Mantel-Haenszel|||Day 7||||0.825
82637040|NCT01522391|164988406|OTHER|||||||0.82|||||||Cochran-Mantel-Haenszel|||Day 14||||0.820
82637041|NCT01522391|164988406|OTHER|||||||0.086|||||||Cochran-Mantel-Haenszel|||Day 21||||0.086
82637042|NCT01522391|164988407|OTHER|||||||0.378|||||||Cochran-Mantel-Haenszel|||Day 7||||0.378
82637043|NCT01522391|164988407|OTHER|||||||0.975|||||||Cochran-Mantel-Haenszel|||Day 14||||0.975
82637044|NCT01522391|164988407|OTHER|||||||0.962|||||||Cochran-Mantel-Haenszel|||Day 21||||0.962
82637045|NCT01522391|164988408|OTHER|||||||0.375|||||||Cochran-Mantel-Haenszel|||Day 7||||0.375
82637046|NCT01522391|164988408|OTHER|||||||0.946|||||||Cochran-Mantel-Haenszel|||Day 14||||0.946
82637047|NCT01522391|164988408|OTHER|||||||0.495|||||||Cochran-Mantel-Haenszel|||Day 21||||0.495
82637048|NCT01522391|164988411|OTHER|||||||0.477|||||||Wilcoxon (Mann-Whitney)|||Day 7 morning||||0.477
82637049|NCT01522391|164988411|OTHER|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||Day 14 morning||||0.651
82637050|NCT01522391|164988411|OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Day 21 morning||||0.340
82637051|NCT01522391|164988412|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Day 7 morning||||0.300
82637052|NCT01522391|164988412|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.705
82383645|NCT05151744|164478236|SUPERIORITY||Difference in Adjusted Mean|-19.4||||0.1071|TWO_SIDED|95.0|-42.9|4.2|||MMRM|||||4.2|-42.9|0.1071
82383646|NCT05151744|164478237|SUPERIORITY||Difference in Adjusted Mean|-14.6||||0.303|TWO_SIDED|95.0|-42.4|13.2|||MMRM|||||13.2|-42.4|0.3030
82383647|NCT05151744|164478238|SUPERIORITY||Difference in Adjusted Mean|-43.0||||0.0878|TWO_SIDED|95.0|-92.4|6.4|||MMRM|||||6.4|-92.4|0.0878
82383648|NCT05151744|164478239|SUPERIORITY||Difference in Adjusted Mean|-22.3||||0.1111|TWO_SIDED|95.0|-49.8|5.2|||MMRM|||||5.2|-49.8|0.1111
82383649|NCT05228470|164478245|OTHER|Null hypothesis of ORR by BICR was 30%.||||||0.0076|||||||Exact binomial test|||||||0.0076
82383650|NCT03771898|164478304|SUPERIORITY|Survival probability free of loss of locomotion estimated up to Week 106 (or two years).|Difference in survival probability (%)|-2.2|||=|0.585|TWO_SIDED|95.0|-22.2|17.7||One-sided, over time intervals during entire follow-up. Stratified generalized log-rank test was used, where matching identification created from matching process in SAS PSMATCH Procedure used as strata.|Log Rank||For the shared time interval up to Week 106 (or two years).|Interval censoring survival analysis.||17.7|-22.2|=0.585
82383651|NCT04998136|164478337|SUPERIORITY||Treatment difference|-12.99|||<|0.0001|TWO_SIDED|95.0|-15.28|-10.7|||ANCOVA|||Treatment policy Estimand. The primary endpoint was analysed using an analysis of covariance (ANCOVA) model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from in-trial observation period.||-10.70|-15.28|<0.0001
82383652|NCT04998136|164478338|SUPERIORITY||Treatment Difference|-13.4|||<|0.0001|TWO_SIDED|95.0|-15.7|-11.11|||MMRM|||Hypothetical Estimand. The primary endpoint was analysed using mixed model for repeated measurements (MMRM). All responses prior to first discontinuation of treatment (or dose reduction, or initiation of other anti-obesity medication or bariatric surgery) were included in MMRM with randomized treatment as factor and baseline body weight as covariate. Analysed data is from on-treatment observation period.||-11.11|-15.70|<0.0001
82383653|NCT04998136|164478339|SUPERIORITY||Odds Ratio (OR)|88.87|||<|0.0001|TWO_SIDED|95.0|21.96|359.61|||Regression, Logistic|||Treatment policy estimand. The primary endpoint was analysed using a binary logistic regression model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from in-trial period.||359.61|21.96|<0.0001
82383654|NCT04998136|164478340|SUPERIORITY||Odds Ratio (OR)|253.47|||<|0.0001|TWO_SIDED|95.0|38.41|1672.57|||Regression, Logistic|||Hypothetical estimand. MMRM was used with randomized treatment as factor and baseline body weight as covariate. The MMRM was performed on body weight (kg) and individual missing week 44 responses were predicted from the MMRM, each participant was then classified for body weight loss \>= 5% and analysed using a binary logistic regression model with randomized treatment as factor and baseline body weight as covariate. Analysed data is from on-treatment observation period.||1672.57|38.41|<0.0001
82383655|NCT03521154|164478360|SUPERIORITY||Hazard Ratio (HR)|0.16|||<|0.001|TWO_SIDED|95.0|0.1|0.24|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.24|0.10|<0.001
82383656|NCT03521154|164478361|SUPERIORITY||Hazard Ratio (HR)|0.17|||||TWO_SIDED|95.0|0.1|0.29|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|PFS in Ex19Del positive patients||0.29|0.10|
82383657|NCT03521154|164478361|SUPERIORITY||Hazard Ratio (HR)|0.32||||||95.0|0.19|0.56|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|PFS in L858R positive patients||0.56|0.19|
82383658|NCT03521154|164478362|SUPERIORITY||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.15|0.34|||Cox proportional hazard model||A hazard ratio \< 1 favours osimertinib|Negative at screening||0.34|0.15|
82571794|NCT02706951|164853177|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.43|-0.22||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.22|-0.43|<0.001
82383659|NCT03521154|164478363|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.09|0.32|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.32|0.09|<0.001
82383660|NCT03521154|164478365|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.53|TWO_SIDED|95.0|0.42|1.56|||Log Rank||A hazard ratio \< 1 favours osimertinib|||1.56|0.42|0.530
82383661|NCT03521154|164478366|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.54|5.08|||Regression, Logistic||An odds ratio \> 1 favours osimertinib|||5.08|1.54|<0.001
82383662|NCT03521154|164478368|SUPERIORITY||Odds Ratio (OR)|2.06||||0.069|TWO_SIDED|95.0|0.94|4.47|||Regression, Logistic||An odds ratio \> 1 favours osimertinib.|||4.47|0.94|0.069
82383663|NCT03521154|164478371|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.38|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.38|0.11|<0.001
82383664|NCT03521154|164478372|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.14|0.32|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.32|0.14|<0.001
82383665|NCT03521154|164478373|SUPERIORITY||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.21|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.21|0.08|<0.001
82383666|NCT03521154|164478374|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.022|TWO_SIDED|95.0|0.28|0.91|||Log Rank||A hazard ratio \< 1 favours osimertinib|||0.91|0.28|0.022
82383667|NCT03521154|164478375|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.088|TWO_SIDED|95.0|0.35|1.08|||Log Rank||A hazard ratio \< 1 favours osimertinib|||1.08|0.35|0.088
82383668|NCT04652726|164478393|SUPERIORITY||LS Mean|-28.54|||<|0.0001|TWO_SIDED|95.0|-35.81|-21.27|||ANCOVA|||||-21.27|-35.81|<.0001
82383669|NCT04652726|164478394|SUPERIORITY||LS Mean|-29.3|||<|0.0001|TWO_SIDED|95.0|-36.24|-22.36|||MMRM|||||-22.36|-36.24|<.0001
82383670|NCT04652726|164478395|SUPERIORITY||LS Mean|-49.99|||<|0.0001|TWO_SIDED|95.0|-63.18|-36.81|||ANCOVA|||||-36.81|-63.18|<.0001
82383671|NCT04652726|164478396|SUPERIORITY||LS Mean|-25.7|||<|0.0001|TWO_SIDED|95.0|-31.68|-19.73|||ANCOVA|||||-19.73|-31.68|<.0001
82383672|NCT04652726|164478397|SUPERIORITY||LS Mean|-6.18||||0.1419|TWO_SIDED|95.0|-17.48|5.12|||ANCOVA|||||5.12|-17.48|0.1419
82383673|NCT04652726|164478398|SUPERIORITY||LS Mean|-26.8|||<|0.0001|TWO_SIDED|95.0|-33.63|-19.97|||ANCOVA|||||-19.97|-33.63|<.0001
82383674|NCT04652726|164478399|SUPERIORITY||LS Mean|-19.2|||<|0.0001|TWO_SIDED|95.0|-24.65|-13.75|||ANCOVA|||||-13.75|-24.65|<.0001
82637053|NCT01522391|164988412|OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Day 21||||0.286
82383675|NCT03976362|164478444|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.004|TWO_SIDED|95.0|0.63|0.93||One-sided p-value based on log-rank test stratified by Eastern Cooperative Cancer Group (ECOG) at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||0.93|0.63|0.0040
82383676|NCT03976362|164478445|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5481|TWO_SIDED|95.0|0.83|1.24||One-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.24|0.83|0.5481
82383677|NCT03976362|164478448|OTHER||Difference in LS Means|0.37||||0.8238|TWO_SIDED|95.0|-2.91|3.66||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||3.66|-2.91|0.8238
82383678|NCT03976362|164478449|OTHER||Hazard Ratio (HR)|0.87||||0.3083|TWO_SIDED|95.0|0.66|1.14||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization Visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization Visit, response at randomization, and baseline PD-L1 expression.|||1.14|0.66|0.3083
82383679|NCT03976362|164478450|OTHER||Difference in Least Square Means|1.68||||0.4686|TWO_SIDED|95.0|-2.87|6.23||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||6.23|-2.87|0.4686
82383680|NCT03976362|164478451|OTHER||Hazard Ratio (HR)|1.01||||0.9174|TWO_SIDED|95.0|0.76|1.35||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.35|0.76|0.9174
82383681|NCT03976362|164478452|OTHER||Difference in Least Square Means|3.83||||0.0245|TWO_SIDED|95.0|0.5|7.16||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||7.16|0.50|0.0245
82518940|NCT01259713|164732563|NON_INFERIORITY_OR_EQUIVALENCE|For the interim analysis performed when 50% of the subjects had completed the study, an alpha of 0.0003 was spent. Therefore, the significance level for the 2-sided test in the primary analysis at the end of the study was 0.0497 (corresponding to 95.03% confidence interval (CI)).|Relative risk reduction|0.33||||0.24|TWO_SIDED|95.03|-0.32|0.66||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|A two-group Cochran-Mantel-Haenszel (CMH) test with a 0.05 two-sided significance level and 2:1 allocation of 354 randomized subjects (236 AmBisome, 118 placebo) would have 81% power to detect a relative reduction of 75% if the rate of IFI is 10% in the placebo group (based on unpublished data from the German Multicenter Acute Lymphoblastic Leukemia Working Group (GMALL) and consistent with the published rate of 16.4% in patients with hematological malignancies undergoing remission induction).||0.66|-0.32|0.24
82518941|NCT01259713|164732564|SUPERIORITY_OR_OTHER||Relative risk reduction|0.25||||0.15|TWO_SIDED|95.0|-0.11|0.5||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.50|-0.11|0.15
82383682|NCT03976362|164478453|OTHER||Hazard Ratio (HR)|1.24||||0.2133|TWO_SIDED|95.0|0.88|1.75||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.75|0.88|0.2133
82442457|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.42||||0.824|TWO_SIDED|95.0|-2.28|1.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.43|-2.28|0.824
82442458|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.96||||0.624|TWO_SIDED|95.0|-3.23|1.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.31|-3.23|0.624
82442459|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.78||||0.7|TWO_SIDED|95.0|-1.25|2.82||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.82|-1.25|0.700
82637054|NCT00877929|164988485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0001||95.0|-7.9|-4.2|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.2|-7.9|0.0001
82518942|NCT01259713|164732565|SUPERIORITY_OR_OTHER||Relative risk reduction|-0.01||||0.97|TWO_SIDED|95.0|-0.94|0.47||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.47|-0.94|0.97
82518943|NCT01259713|164732566|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||The p-value is from the log-rank test stratified by region.|Log Rank|||||||0.33
82518944|NCT01259713|164732567|SUPERIORITY_OR_OTHER||Relative risk reduction|0.25||||0.22|TWO_SIDED|95.0|-0.19|0.53||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|||0.53|-0.19|0.22
82518945|NCT01259713|164732568|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel|||||||0.32
82518946|NCT01259713|164732569|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel|||||||0.32
82518947|NCT01259713|164732570|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED|||||The p-value was from the log-rank test stratified by region.|Log Rank|Participants without consolidation/salvage therapy dates were censored using the earlier of the Early Termination and Study Completion dates.||||||0.69
82383683|NCT03976362|164478454|OTHER||Hazard Ratio (HR)|0.18||||0.9381|TWO_SIDED|95.0|-4.27|4.62||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||4.62|-4.27|0.9381
82442460|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.83||||0.7|TWO_SIDED|95.0|-1.39|3.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.06|-1.39|0.700
82518948|NCT01259713|164732571|SUPERIORITY_OR_OTHER||Relative risk reduction|0.08||||0.2|TWO_SIDED|95.0|-0.04|0.19||P-value was from a stratum-adjusted (stratified by region) CMH test.|Cochran-Mantel-Haenszel||Relative risk reduction = 1 - risk ratio.|Participants were not stratified for leukemia risk.||0.19|-0.04|0.20
82518949|NCT02388724|164732573|NON_INFERIORITY|If the lower bound of the 95% confidence intervals of the difference was more than -10% (non-inferiority margin), non-inferiority for Vonoprazan relative to Lansoprazole was declared.|Difference in percentages|1.1|||||TWO_SIDED|95.0|-3.822|6.087||||||||6.087|-3.822|
82518950|NCT02388724|164732574|SUPERIORITY||Difference in percentages|7.2|||||TWO_SIDED|95.0|-1.054|15.371||||||2 Weeks||15.371|-1.054|
82518951|NCT02388724|164732574|SUPERIORITY||Difference in percentages|1.8|||||TWO_SIDED|95.0|-4.763|8.395||||||4 Weeks||8.395|-4.763|
82383684|NCT03976362|164478455|OTHER||Hazard Ratio (HR)|0.97||||0.8464|TWO_SIDED|95.0|0.72|1.31||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.31|0.72|0.8464
82442461|NCT00996801|164593646|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.3||||0.759|TWO_SIDED|95.0|-1.6|2.19||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.19|-1.60|0.759
82518952|NCT01217073|164732582|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.71|||<|0.001|TWO_SIDED|95.0|-0.93|-0.5||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.50|-0.93|<0.001
82518953|NCT01217073|164732582|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.67|||<|0.001|TWO_SIDED|95.0|-0.88|-0.45||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.45|-0.88|<0.001
82518954|NCT01217073|164732582|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.49|||<|0.001|TWO_SIDED|95.0|-0.7|-0.27||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.27|-0.70|<0.001
82518955|NCT01217073|164732582|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.5|||<|0.001|TWO_SIDED|95.0|-0.71|-0.28||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.28|-0.71|<0.001
82518956|NCT01217073|164732582|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.28||||0.012|TWO_SIDED|95.0|-0.5|-0.06||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-0.06|-0.50|0.012
82518957|NCT01217073|164732583|SUPERIORITY_OR_OTHER||Difference in percentage|6.2|||||TWO_SIDED|95.0|-6.2|18.4||||||||18.4|-6.2|
82518958|NCT01217073|164732583|SUPERIORITY_OR_OTHER||Difference in percentage|12.5|||||TWO_SIDED|95.0|-0.1|24.7||||||||24.7|-0.1|
82518959|NCT01217073|164732583|SUPERIORITY_OR_OTHER||Difference in percentage|5.9|||||TWO_SIDED|95.0|-6.5|18.0||||||||18.0|-6.5|
82518960|NCT01217073|164732583|SUPERIORITY_OR_OTHER||Difference in percentage|5.5|||||TWO_SIDED|95.0|-6.8|17.7||||||||17.7|-6.8|
82518961|NCT01217073|164732583|SUPERIORITY_OR_OTHER||Difference in percentage|2.4|||||TWO_SIDED|95.0|-9.8|14.5||||||||14.5|-9.8|
82518962|NCT01217073|164732584|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.1|4.1||||||||4.1|-4.1|
82518963|NCT01217073|164732584|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-4.9|2.4||||||||2.4|-4.9|
82518964|NCT01217073|164732584|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.1|4.0||||||||4.0|-4.1|
82518965|NCT01217073|164732584|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-4.9|2.4||||||||2.4|-4.9|
82518966|NCT01217073|164732584|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-1.7|7.9||||||||7.9|-1.7|
82518967|NCT01217073|164732585|SUPERIORITY_OR_OTHER||Difference in percent|1.0|||||TWO_SIDED|95.0|-9.8|13.1||||||||13.1|-9.8|
82518968|NCT01217073|164732586|SUPERIORITY_OR_OTHER||Difference in percent|-1.4|||||TWO_SIDED|95.0|-9.1|2.6||||||||2.6|-9.1|
82518969|NCT01217073|164732587|SUPERIORITY_OR_OTHER||Difference in least squares mean|-44.9|||<|0.001|TWO_SIDED|95.0|-59.0|-30.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-30.7|-59.0|<0.001
82518970|NCT01217073|164732587|SUPERIORITY_OR_OTHER||Difference in least squares mean|-41.6|||<|0.001|TWO_SIDED|95.0|-55.3|-27.8||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-27.8|-55.3|<0.001
82518971|NCT01217073|164732587|SUPERIORITY_OR_OTHER||Difference in least squares mean|-35.1|||<|0.001|TWO_SIDED|95.0|-48.9|-21.3||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-21.3|-48.9|<0.001
82518972|NCT01217073|164732587|SUPERIORITY_OR_OTHER||Difference in least squares mean|-33.5|||<|0.001||95.0|-47.3|-19.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-19.7|-47.3|<0.001
82518973|NCT01217073|164732587|SUPERIORITY_OR_OTHER||Difference in least squares mean|-18.8||||0.009|TWO_SIDED|95.0|-32.9|-4.8||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-4.8|-32.9|0.009
82518974|NCT01217073|164732588|SUPERIORITY_OR_OTHER||Difference in least squares mean|-21.4|||<|0.001|TWO_SIDED|95.0|-29.4|-13.4||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-13.4|-29.4|<0.001
82518975|NCT01217073|164732588|SUPERIORITY_OR_OTHER||Difference in least squares mean|-13.5|||<|0.001|TWO_SIDED|95.0|-21.3|-5.7||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-5.7|-21.3|<0.001
82518976|NCT01217073|164732588|SUPERIORITY_OR_OTHER||Difference in least squares mean|-14.3|||<|0.001|TWO_SIDED|95.0|-22.2|-6.3||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-6.3|-22.2|<0.001
82518977|NCT01217073|164732588|SUPERIORITY_OR_OTHER||Difference in least squares mean|-19.0|||<|0.001|TWO_SIDED|95.0|-26.9|-11.2||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||-11.2|-26.9|<0.001
82518978|NCT01217073|164732588|SUPERIORITY_OR_OTHER||Difference in least squares mean|-2.5||||0.539|TWO_SIDED|95.0|-10.4|5.5||With terms for treatment, prior AHA therapy status, geographic region (Japan/ex-Japan), and the interaction of time by treatment, time by prior AHA therapy status, with the constraint that the mean baseline is the same for all treatment groups.|Constrained longitudinal data analysis|||||5.5|-10.4|0.539
82518979|NCT00765843|164732617|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||baseline comparisons||||0.78
82518980|NCT00765843|164732617|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANOVA|||one month comparisons||||0.21
82518981|NCT00765843|164732617|SUPERIORITY_OR_OTHER|||||||0.93|||||||ANOVA|||three months comparisons||||0.93
82518982|NCT01552213|164732644|SUPERIORITY||Risk Ratio (RR)|0.8||||0.32|TWO_SIDED|95.0|0.53|1.24|||Chi-squared|||||1.24|0.53|0.32
82518983|NCT01552213|164732645|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
82518984|NCT01552213|164732646|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
82518985|NCT01552213|164732647|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82518986|NCT01552213|164732648|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
82518987|NCT01552213|164732649|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82518988|NCT01552213|164732650|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82518989|NCT01552213|164732651|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
82518990|NCT01552213|164732652|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
82518991|NCT01552213|164732653|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
82518992|NCT01552213|164732654|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
82518993|NCT01552213|164732655|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
82518994|NCT01552213|164732656|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82518995|NCT01552213|164732657|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
82518996|NCT01816594|164732659|SUPERIORITY|||||||0.811|||||||Fisher Exact|(one-sided)||All participantss||||0.811
82518997|NCT01816594|164732660|SUPERIORITY|||||||0.83|||||||Fisher Exact|(one-sided)||wild type cohort||||0.830
82518998|NCT01816594|164732661|SUPERIORITY|||||||0.786|||||||Fisher Exact|(one-sided)||mutant cohort||||0.786
82518999|NCT01816594|164732662|SUPERIORITY|||||||0.286|||||||Fisher Exact|(one-sided)||All participants||||0.286
82519000|NCT01816594|164732663|SUPERIORITY|||||||0.177|||||||Fisher Exact|(one-sided)||wild type cohort||||0.177
82519001|NCT01816594|164732664|SUPERIORITY|||||||0.929|||||||Fisher Exact|(one-sided)||mutant cohort||||0.929
82519002|NCT01816594|164732665|SUPERIORITY|||||||0.811|||||||Fisher Exact|(one-sided)||||||0.811
82519003|NCT01816594|164732666|SUPERIORITY|||||||0.84|||||||Fisher Exact|(one-sided)||||||0.840
82519004|NCT01816594|164732667|SUPERIORITY|||||||0.724|||||||Fisher Exact|(one-sided)||||||0.724
82519005|NCT01816594|164732668|SUPERIORITY|||||||0.964|||||||Fisher Exact|(one-sided)||All participants||||0.964
82519006|NCT01816594|164732669|SUPERIORITY|||||||0.546|||||||Fisher Exact|(one-sided)||For ER+ participants - pCR||||0.546
82519007|NCT01816594|164732670|SUPERIORITY|||||||0.949|||||||Fisher Exact|(one-sided)||For ER- participants - pCR||||0.949
82519008|NCT01816594|164732671|SUPERIORITY|||||||0.053|||||||Fisher Exact|(one-sided)||For ER+ participants - ORR||||0.053
82519009|NCT01816594|164732672|SUPERIORITY|||||||0.949|||||||Fisher Exact|(one-sided)||For ER- participants - ORR||||0.949
82519010|NCT01816594|164732673|SUPERIORITY|||||||0.666|||||||Fisher Exact|(one-sided)||||||0.666
82519011|NCT01816594|164732674|SUPERIORITY|||||||0.803|||||||Fisher Exact|(one-sided)||||||0.803
82383685|NCT03976362|164478456|OTHER||Difference in Least Square Means|-2.81||||0.087|TWO_SIDED|95.0|-6.02|0.41||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||0.41|-6.02|0.0870
82519012|NCT03905655|164732675|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82519013|NCT03905655|164732675|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82519014|NCT03905655|164732675|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82519015|NCT03905655|164732676|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82519016|NCT03905655|164732676|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82519017|NCT03905655|164732676|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82383686|NCT03976362|164478457|OTHER||Hazard Ratio (HR)|1.6||||0.002|TWO_SIDED|95.0|1.18|2.16||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||2.16|1.18|0.0020
82383687|NCT01598064|164478458|SUPERIORITY_OR_OTHER|||||||0.25|||||||Chi-squared|||||||0.25
82383688|NCT01780038|164478461|OTHER||||||||||||||||||Frequencies and percentages were used to determine this secondary outcome.|||
82519018|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
82519019|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
82519020|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 2 values||||1.000
82519021|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 4 values||||1.000
82519022|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 8 values||||1.000
82519023|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
82519024|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
82519025|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 2 values||||1.000
82519026|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 4 values||||1.000
82519027|NCT03905655|164732677|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.001
82519028|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Day 3 values||||1.000
82519029|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 1 values||||1.000
82519030|NCT03905655|164732677|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Comparison of Week 2 values||||<0.001
82519031|NCT03905655|164732677|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.002
82519032|NCT03905655|164732677|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison of Week 8 values||||1.000
82519033|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519034|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519035|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519036|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519037|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519038|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519039|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82383689|NCT02535026|164478475|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||ER status association with age groups||||0.280
82519040|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519041|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519042|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519043|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519044|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519045|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519046|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82383690|NCT02535026|164478476|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||ER status association with nuclear grade.||||<0.001
82383691|NCT02535026|164478477|SUPERIORITY_OR_OTHER||||||=|0.03|||||||Chi-squared|||ER status association with lymphovascular invasion.||||=0.03
82383692|NCT02535026|164478478|SUPERIORITY_OR_OTHER||||||=|0.004|||||||Chi-squared|||PR status association with age groups||||=0.004
82383693|NCT02535026|164478479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||PR status association with nuclear grade.||||<0.001
82383694|NCT02535026|164478480|SUPERIORITY_OR_OTHER||||||=|0.025|||||||ANOVA|||PR status association with lymphovascular invasion.||||=0.025
82383695|NCT02535026|164478481|SUPERIORITY_OR_OTHER||||||=|0.056|||||||ANOVA|||HER2 status association with age groups.||||=0.056
82383696|NCT02535026|164478482|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||HER2 status association with nuclear grade.||||<0.001
82383697|NCT02535026|164478483|SUPERIORITY_OR_OTHER||||||=|0.129|||||||Chi-squared|||||||=0.129
82519047|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519048|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519049|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519050|NCT03905655|164732678|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519051|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519052|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519053|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519054|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519055|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82383698|NCT02535026|164478484|SUPERIORITY_OR_OTHER||||||=|0.003|||||||ANOVA|||Breast cancer phenotypes association with age groups.||||=0.003
82383699|NCT02535026|164478485|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Breast cancer phenotypes association with nuclear grades.||||<0.001
82383700|NCT02535026|164478486|SUPERIORITY_OR_OTHER||||||=|0.001|||||||ANOVA|||phenotypes of breast cancer association with lymphovascular invasion.||||=0.001
82383701|NCT02535026|164478487|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||phenotypes of breast cancer association with ER status.||||<0.001
82383702|NCT02535026|164478488|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Phenotypes of breast cancer association with PR status.||||<0.001
82383703|NCT02535026|164478489|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||phenotypes of breast cancer association with HER2 status.||||<0.001
82383704|NCT03137160|164478527|SUPERIORITY|||||||1|||||||Fisher Exact|||This is the Investigator Global Assessment comparing the proportion of subjects who achieved a 2 pt reduction at study close (0).||||1
82519056|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82383705|NCT03448419|164478538|SUPERIORITY||Median difference (HL-estimate)|-4.0||||0.4236|TWO_SIDED|95.0|-16.0|6.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||6.0|-16.0|0.4236
82519057|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519058|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519059|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519060|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82383706|NCT03448419|164478539|SUPERIORITY||Median difference (HL-estimate)|3.13||||0.0893|TWO_SIDED|95.0|0.0|7.29|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||7.29|0.00|0.0893
82383707|NCT03448419|164478540|SUPERIORITY||Median Difference (HL-estimate)|0.1||||0.4702|TWO_SIDED|95.0|-0.2|0.4|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||0.40|-0.20|0.4702
82383708|NCT03448419|164478541|SUPERIORITY||Median difference (HL-estimate)|0.0||||0.983|TWO_SIDED|95.0|-9.0|9.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of placebo and the effect of empagliflozin.||9.0|-9.0|0.9830
82383709|NCT03448419|164478542|OTHER||Difference of adjusted means|-0.31||||0.0053|TWO_SIDED|95.0|-0.53|-0.09|||Mixed Model repeated Measures (MMRM)|Covariates: visit-by-treatment interaction, baseline-by-visit interaction. Unstructured covariance structure was used to model within-patient errors.||||-0.09|-0.53|0.0053
82383710|NCT03448419|164478543|OTHER|||||||0.6189|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.6189
82383711|NCT03448419|164478544|OTHER|||||||0.6672|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.6672
82383712|NCT03448419|164478545|OTHER|||||||0.5147|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5147
82383713|NCT03448419|164478546|OTHER|||||||0.863|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.8630
82383714|NCT03448419|164478547|OTHER||Adjusted geometric mean ratio|0.91||||0.141|TWO_SIDED|95.0|0.81|1.03|||Mixed Model repeated Measures (MMRM)|Covariates: NT-proBNP-by-visit interaction and visit-by-treatment interaction. Unstructured covariance structure to model within-patient errors.|Adjusted geometric mean ratio \[Empagliflozin/Placebo\] of relative change to baseline.|The endpoint 'relative change from baseline in NT-proBNP at Week 12' (after log-transformation) was evaluated using an MMRM analysis over time with baseline log-transformed NT-proBNP-by-visit interaction and visit-by-treatment interaction as covariates.Unstructured covariance structure was used to model within-patient errors.||1.03|0.81|0.1410
82383715|NCT04548193|164478558|SUPERIORITY||Mean Difference (Final Values)|6.14||||0.28|TWO_SIDED|95.0|-5.72|17.99|||Wilcoxon (Mann-Whitney)|||||17.99|-5.72|0.28
82383716|NCT04548193|164478559|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.0054|TWO_SIDED|95.0|0.06|1.38|||Wilcoxon (Mann-Whitney)|||||1.38|0.06|.0054
82519061|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519062|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519063|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519064|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519065|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82383717|NCT04548193|164478561|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.0098|TWO_SIDED|95.0|0.24|1.65|||Wilcoxon (Mann-Whitney)|||||1.65|0.24|.0098
82519066|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519067|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519068|NCT03905655|164732679|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519069|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519070|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519071|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519072|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519073|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519074|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519075|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82571795|NCT02706951|164853177|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.51|-0.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment as the fixed factor, and baseline value and the stratification factor geographic region as the covariates.|Difference = Upadacitinib - Methotrexate|||-0.30|-0.51|<0.001
82637055|NCT00877929|164988486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1||||0.0001||95.0|-8.9|-5.4|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-5.4|-8.9|0.0001
82383718|NCT00630825|164478562|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383719|NCT00630825|164478562|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82637056|NCT00877929|164988487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.0001||95.0|-8.3|-4.9|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.9|-8.3|0.0001
82519076|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82637057|NCT00877929|164988488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||0.0001||95.0|-7.9|-4.3|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-4.3|-7.9|0.0001
82637058|NCT00877929|164988489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.0001||95.0|-6.6|-3.2|||ANCOVA|Included effects of treatment, week and treatment-by-week interaction with covariate of baseline blood pressure and baseline-week interaction.||||-3.2|-6.6|0.0001
82637059|NCT01140646|164988526|SUPERIORITY_OR_OTHER|||||||0.0903||||||One sided t-test with 0.05 error rate was employed.|t-test, 1 sided|||To determine whether any reduction in hot flash score is beyond what is expected with a placebo (20-25%). Reference: Sloan JA, et al. Methodologic lessons learned from hot flash studies. J Clin Oncol. Dec 1 2001;19(23):4280-4290.||||0.0903
82637060|NCT01140646|164988526|SUPERIORITY_OR_OTHER|||||||0.1553||||||One sided t-test with 0.05 error rate was employed.|t-test, 1 sided|||To determine whether any reduction in hot flash frequency is beyond what is expected with a placebo (20-25%). Reference: Sloan JA, et al. Methodologic lessons learned from hot flash studies. J Clin Oncol. Dec 1 2001;19(23):4280-4290.||||0.1553
82519077|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519078|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519079|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519080|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519081|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Day 3 values||||1.000
82519082|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 1 values||||1.000
82519083|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 2 values||||1.000
82519084|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 4 values||||1.000
82519085|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 8 values||||1.000
82519086|NCT03905655|164732680|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison of Week 12 values||||1.000
82519087|NCT03905655|164732681|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.006
82519088|NCT03905655|164732681|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.003
82519089|NCT03905655|164732681|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.004
82519090|NCT03905655|164732681|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.006
82519091|NCT03905655|164732681|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.002
82383720|NCT00630825|164478562|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82519092|NCT03905655|164732681|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.141
82519093|NCT03905655|164732681|SUPERIORITY|||||||0.081|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.081
82519094|NCT03905655|164732681|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.160
82519095|NCT03905655|164732681|SUPERIORITY|||||||0.184|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.184
82519096|NCT03905655|164732681|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.046
82519097|NCT03905655|164732681|SUPERIORITY|||||||0.379|||||||t-test, 2 sided|||Comparison of Week 1 values||||0.379
82519098|NCT03905655|164732681|SUPERIORITY|||||||0.308|||||||t-test, 2 sided|||Comparison of Week 2 values||||0.308
82519099|NCT03905655|164732681|SUPERIORITY|||||||0.794|||||||t-test, 2 sided|||Comparison of Week 4 values||||0.794
82519100|NCT03905655|164732681|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||Comparison of Week 8 values||||0.297
82519101|NCT03905655|164732681|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Comparison of Week 12 values||||0.007
82519102|NCT03905655|164732682|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
82519103|NCT03905655|164732682|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82519104|NCT03905655|164732682|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
82519105|NCT02566031|164732683|SUPERIORITY||Mean Difference (Net)|0.05||||0.0129|TWO_SIDED|95.0|0.011|0.093|||ANCOVA|||||0.093|0.011|0.0129
82519106|NCT02566031|164732684|SUPERIORITY||Mean Difference (Net)|0.06||||0.0058|TWO_SIDED|95.0|0.017|0.098|||ANCOVA|||-45 min||0.098|0.017|0.0058
82519107|NCT02566031|164732684|SUPERIORITY||Mean Difference (Net)|0.05||||0.0161|TWO_SIDED|95.0|0.009|0.091|||ANCOVA|||-15min||0.091|0.009|0.0161
82519108|NCT02566031|164732685|SUPERIORITY||Mean Difference (Net)|0.31||||0.0767|TWO_SIDED|95.0|-0.033|0.646|||ANCOVA|||||0.646|-0.033|0.0767
82637061|NCT03006276|164988531|SUPERIORITY||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.36|2.94|||Fisher Exact|||Last Observation Carried Forward (LOCF)||2.94|1.36|<0.001
82637062|NCT03006276|164988531|SUPERIORITY||Odds Ratio (OR)|1.97|||<|0.001|TWO_SIDED|95.0|1.34|2.89|||Fisher Exact|||||2.89|1.34|<0.001
82519109|NCT02566031|164732686|SUPERIORITY||Mean Difference (Net)|-0.81||||0.1008|TWO_SIDED|95.0|-1.77|0.16|||ANCOVA|||||0.16|-1.77|0.1008
82519110|NCT02479412|164732897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02691|STANDARD_ERROR_OF_MEAN|0.05697||0.6379|TWO_SIDED|95.0|-0.08626|0.1401|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||0.1401|-0.08626|0.6379
82519111|NCT02479412|164732897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07604|STANDARD_ERROR_OF_MEAN|0.05663||0.1827|TWO_SIDED|95.0|-0.03645|0.1885|||Mixed Models Analysis|||AZD7594 250 µg vs.PBO||0.1885|-0.03645|0.1827
82571796|NCT02706951|164853178|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|3.97|||<|0.001|TWO_SIDED|95.0|2.52|5.42||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||5.42|2.52|<0.001
82519112|NCT02479412|164732897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1478|STANDARD_ERROR_OF_MEAN|0.05679||0.0108|TWO_SIDED|95.0|0.03494|0.2606|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.2606|0.03494|0.0108
82571797|NCT02706951|164853178|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|5.87|||<|0.001|TWO_SIDED|95.0|4.42|7.32||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||7.32|4.42|<0.001
82571798|NCT02706951|164853179|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|12.8|26.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||26.8|12.8|<0.001
82571799|NCT02706951|164853179|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|Response Rate Difference|32.1|||<|0.001|TWO_SIDED|95.0|24.6|39.7||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||39.7|24.6|<0.001
82571800|NCT02706951|164853180|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-41.53||||0.001|TWO_SIDED|95.0|-66.56|-16.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-16.50|-66.56|0.001
82571801|NCT02706951|164853180|SUPERIORITY|The overall type I error prevalence of the primary and ranked key secondary endpoints for the two doses of upadacitinib were strongly controlled by means of a graphic multiple testing procedure.|LS Mean Difference|-49.31|||<|0.001|TWO_SIDED|95.0|-74.23|-24.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, treatment-by-visit interaction, and geographic region, and the baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-24.40|-74.23|<0.001
82637063|NCT03006276|164988532|SUPERIORITY||Odds Ratio (OR)|1.68||||0.007|TWO_SIDED|95.0|1.17|2.43|||Fisher Exact|||last observation carried forward (LOCF)||2.43|1.17|0.007
82637064|NCT03006276|164988532|SUPERIORITY||Odds Ratio (OR)|1.69||||0.007|TWO_SIDED|95.0|1.16|2.44|||Fisher Exact|||observed cases (OC)||2.44|1.16|0.007
82519113|NCT02479412|164732898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.857|STANDARD_ERROR_OF_MEAN|3.214||0.1342|TWO_SIDED|95.0|-11.24|1.528|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||1.528|-11.24|0.1342
82519114|NCT02479412|164732898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.41|STANDARD_ERROR_OF_MEAN|3.19||0.0016|TWO_SIDED|95.0|-16.75|-4.075|||Mixed Models Analysis|||AZD7594 250 µg vs. PBO||-4.075|-16.75|0.0016
82519115|NCT02479412|164732898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.75|STANDARD_ERROR_OF_MEAN|3.236|<|0.0001|TWO_SIDED|95.0|-21.18|-8.319|||Mixed Models Analysis|||AZD7594 800 µg vs. PBO||-8.319|-21.18|<0.0001
82519116|NCT02479412|164732899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|5.139||0.0084|TWO_SIDED|95.0|-24.06|-3.642|||Mixed Models Analysis|||AZD7594 58 µg vs. PBO||-3.642|-24.06|0.0084
82519117|NCT02479412|164732899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.26|STANDARD_ERROR_OF_MEAN|5.088||0.0062|TWO_SIDED|95.0|-24.37|-4.149|||Mixed Models Analysis|||AZD7594 250 µg vs. PBO||-4.149|-24.37|0.0062
82637065|NCT03245372|164988558|SUPERIORITY|||||||0.114|||||||Wilcoxon (Mann-Whitney)|||||||0.114
82637066|NCT03245372|164988559|SUPERIORITY|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||||||0.692
82637067|NCT03245372|164988560|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||0.082
82519118|NCT02479412|164732899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|5.137||0.0002|TWO_SIDED|95.0|-30.1|-9.689|||Mixed Models Analysis|||AZD7594 800 µg vs. PBO||-9.689|-30.10|0.0002
82637068|NCT03245372|164988561|SUPERIORITY|||||||0.443|||||||Wilcoxon (Mann-Whitney)|||||||0.443
82383721|NCT00630825|164478563|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383722|NCT00630825|164478563|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383723|NCT00630825|164478563|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82519119|NCT02479412|164732900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03051|STANDARD_ERROR_OF_MEAN|0.05856||0.6036|TWO_SIDED|95.0|-0.08579|0.1468|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.1468|-0.08579|0.6036
82519120|NCT02479412|164732900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01744|STANDARD_ERROR_OF_MEAN|0.05869||0.767|TWO_SIDED|95.0|-0.09912|0.134|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1340|-0.09912|0.7670
82637069|NCT03245372|164988562|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||||||0.668
82637070|NCT03245372|164988563|SUPERIORITY|||||||0.516|||||||Chi-squared|||||||0.516
82637071|NCT03245372|164988565|SUPERIORITY|||||||0.229|||||||Wilcoxon (Mann-Whitney)|||||||0.229
82637072|NCT03245372|164988566|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82637073|NCT02155725|164988567|SUPERIORITY||Odds Ratio (OR)|0.9889||||0.9563|TWO_SIDED|95.0|0.6633|1.4744|||Regression, Logistic|||||1.4744|0.6633|0.9563
82383724|NCT00630825|164478564|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82519121|NCT02479412|164732900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1561|STANDARD_ERROR_OF_MEAN|0.05874||0.0093|TWO_SIDED|95.0|0.03943|0.2728|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.2728|0.03943|0.0093
82519122|NCT02479412|164732901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03467|STANDARD_ERROR_OF_MEAN|0.05377||0.5207|TWO_SIDED|95.0|-0.1415|0.07213|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.07213|-0.1415|0.5207
82383725|NCT00630825|164478564|SUPERIORITY_OR_OTHER|||||||0.047||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.047
82383726|NCT00630825|164478564|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.025
82383727|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383728|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383729|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 4. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82571802|NCT02706951|164853181|SUPERIORITY||Response Rate Difference|26.7|||<|0.001|TWO_SIDED|95.0|18.5|34.8||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||34.8|18.5|<0.001
82519123|NCT02479412|164732901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02821|STANDARD_ERROR_OF_MEAN|0.05336||0.5983|TWO_SIDED|95.0|-0.07778|0.1342|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1342|-0.07778|0.5983
82519124|NCT02479412|164732901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06169|STANDARD_ERROR_OF_MEAN|0.05371||0.2538|TWO_SIDED|95.0|-0.04501|0.1684|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.1684|-0.04501|0.2538
82519125|NCT02479412|164732902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02262|STANDARD_ERROR_OF_MEAN|0.05743||0.6945|TWO_SIDED|95.0|-0.1367|0.09144|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.09144|-0.1367|0.6945
82519126|NCT02479412|164732902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.000314|STANDARD_ERROR_OF_MEAN|0.05755||0.9957|TWO_SIDED|95.0|-0.1146|0.114|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1140|-0.1146|0.9957
82519127|NCT02479412|164732902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06831|STANDARD_ERROR_OF_MEAN|0.05774||0.2398|TWO_SIDED|95.0|-0.04637|0.183|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||0.1830|-0.04637|0.2398
82519128|NCT02479412|164732903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.34|STANDARD_ERROR_OF_MEAN|5.877||0.0819|TWO_SIDED|95.0|-1.335|22.01|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||22.01|-1.335|0.0819
82383730|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383731|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383732|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 8. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383733|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383734|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383735|NCT00630825|164478565|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at Week 16. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383736|NCT00630825|164478566|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383737|NCT00630825|164478566|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383738|NCT00630825|164478566|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison of HOMA2-%B. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.004
82383739|NCT00630825|164478566|SUPERIORITY_OR_OTHER|||||||0.904||||||Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.904
82383740|NCT00630825|164478566|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANCOVA|Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.||||||0.138
82383741|NCT00630825|164478566|SUPERIORITY_OR_OTHER|||||||0.729||||||Treatment comparison of HOMA2-%S. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.729
82383742|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82442462|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.22||||0.227|TWO_SIDED|95.0|-39.15|6.72||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||6.72|-39.15|0.227
82442463|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.85||||0.853|TWO_SIDED|95.0|-17.9|21.61||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||21.61|-17.90|0.853
82637074|NCT02155725|164988568|SUPERIORITY||Odds Ratio (OR)|1.0064||||0.9786|TWO_SIDED|95.0|0.6321|1.6022|||Regression, Logistic|||Failure on individual component of the primary endpoint defined as administration of 2 units of RBCs.||1.6022|0.6321|0.9786
82637075|NCT02155725|164988569|SUPERIORITY||Odds Ratio (OR)|1.0169||||0.9474|TWO_SIDED|95.0|0.6177|1.6741|||Regression, Logistic|||Failure on individual component of the primary endpoint defined as a loss of at least 4 g/dL of Hb.||1.6741|0.6177|0.9474
82637076|NCT02612194|164988603|OTHER|Estimation only.|Overall Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.369|||||Confidence interval estimated using the Clopper Pearson method.|||0.369|0.000|
82637077|NCT02612194|164988604|OTHER|Estimation only|Median|3.1|||||TWO_SIDED|95.0|0.2|6.1|||||The Kaplan Meier method was used to estimate the median OS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median overall survival.|||6.1|0.2|
82442464|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-13.14||||0.327|TWO_SIDED|95.0|-35.67|9.39||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||9.39|-35.67|0.327
82519129|NCT02479412|164732903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.253|STANDARD_ERROR_OF_MEAN|5.881||0.3741|TWO_SIDED|95.0|-6.427|16.93|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||16.93|-6.427|0.3741
82519130|NCT02479412|164732903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.52|STANDARD_ERROR_OF_MEAN|5.926||0.0374|TWO_SIDED|95.0|0.7481|24.29|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||24.29|0.7481|0.0374
82519131|NCT02479412|164732904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.73|STANDARD_ERROR_OF_MEAN|5.384||0.0044|TWO_SIDED|95.0|5.039|26.43|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||26.43|5.039|0.0044
82519132|NCT02479412|164732904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.3|STANDARD_ERROR_OF_MEAN|5.419||0.0098|TWO_SIDED|95.0|3.534|25.06|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||25.06|3.534|0.0098
82519133|NCT02479412|164732904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.91|STANDARD_ERROR_OF_MEAN|5.459||0.0004|TWO_SIDED|95.0|9.068|30.75|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||30.75|9.068|0.0004
82519134|NCT02479412|164732905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3435|STANDARD_ERROR_OF_MEAN|0.189||0.0723|TWO_SIDED|95.0|-0.7189|0.03179|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.03179|-0.7189|0.0723
82383743|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82519135|NCT02479412|164732905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4852|STANDARD_ERROR_OF_MEAN|0.1903||0.0124|TWO_SIDED|95.0|-0.8631|-0.1073|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||-0.1073|-0.8631|0.0124
82519136|NCT02479412|164732905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8026|STANDARD_ERROR_OF_MEAN|0.1914|<|0.0001|TWO_SIDED|95.0|-1.183|-0.4224|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.4224|-1.183|<0.0001
82519137|NCT02479412|164732906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3071|STANDARD_ERROR_OF_MEAN|0.1051||0.0044|TWO_SIDED|95.0|-0.5159|-0.09836|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.09836|-0.5159|0.0044
82519138|NCT02479412|164732906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1824|STANDARD_ERROR_OF_MEAN|0.1059||0.0883|TWO_SIDED|95.0|-0.3927|0.02789|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.02789|-0.3927|0.0883
82519139|NCT02479412|164732906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4301|STANDARD_ERROR_OF_MEAN|0.1055|<|0.0001|TWO_SIDED|95.0|-0.6397|-0.2205|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.2205|-0.6397|<0.0001
82519140|NCT02479412|164732907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1651|STANDARD_ERROR_OF_MEAN|0.09139||0.0741|TWO_SIDED|95.0|-0.3466|0.01638|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||0.01638|-0.3466|0.0741
82519141|NCT02479412|164732907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09079|STANDARD_ERROR_OF_MEAN|0.09204||0.3265|TWO_SIDED|95.0|-0.2736|0.09201|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.09201|-0.2736|0.3265
82519142|NCT02479412|164732907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2532|STANDARD_ERROR_OF_MEAN|0.09176||0.007|TWO_SIDED|95.0|-0.4354|-0.07092|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.07092|-0.4354|0.0070
82519143|NCT02479412|164732908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4185|STANDARD_ERROR_OF_MEAN|0.1626||0.0116|TWO_SIDED|95.0|-0.7414|-0.09563|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.09563|-0.7414|0.0116
82519144|NCT02479412|164732908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1794|STANDARD_ERROR_OF_MEAN|0.1628||0.2732|TWO_SIDED|95.0|-0.5027|0.1438|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.1438|-0.5027|0.2732
82519145|NCT02479412|164732908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7661|STANDARD_ERROR_OF_MEAN|0.1636|<|0.0001|TWO_SIDED|95.0|-1.091|-0.4411|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.4411|-1.091|<0.0001
82519146|NCT02479412|164732909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1067|STANDARD_ERROR_OF_MEAN|0.04982||0.0349|TWO_SIDED|95.0|-0.2057|-0.007755|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||-0.007755|-0.2057|0.0349
82519147|NCT02479412|164732909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08205|STANDARD_ERROR_OF_MEAN|0.05015||0.1052|TWO_SIDED|95.0|-0.1817|0.01756|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||0.01756|-0.1817|0.1052
82519148|NCT02479412|164732909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2027|STANDARD_ERROR_OF_MEAN|0.05044||0.0001|TWO_SIDED|95.0|-0.3028|-0.1025|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||-0.1025|-0.3028|0.0001
82519149|NCT02479412|164732910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.673|STANDARD_ERROR_OF_MEAN|0.2946||0.0247|TWO_SIDED|95.0|0.08779|1.258|||Mixed Models Analysis|||AZD7594 58 μg vs. PBO||1.258|0.08779|0.0247
82519150|NCT02479412|164732910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4281|STANDARD_ERROR_OF_MEAN|0.2965||0.1521|TWO_SIDED|95.0|-0.1607|1.017|||Mixed Models Analysis|||AZD7594 250 μg vs. PBO||1.017|-0.1607|0.1521
82519151|NCT02479412|164732910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9415|STANDARD_ERROR_OF_MEAN|0.2987||0.0022|TWO_SIDED|95.0|0.3483|1.535|||Mixed Models Analysis|||AZD7594 800 μg vs. PBO||1.535|0.3483|0.0022
82519152|NCT02479412|164732914|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|272.2|||<|0.0001|TWO_SIDED|90.0|237.43|312.05|||ANOVA|||AZD7594 250 μg versus AZD7594 58 μg||312.05|237.43|<0.0001
82519153|NCT02479412|164732914|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|676.13|||<|0.0001|TWO_SIDED|90.0|580.91|786.95|||ANOVA|||AZD7594 800 μg versus AZD7594 58 μg||786.95|580.91|<0.0001
82519154|NCT02479412|164732915|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|337.82|||<|0.0001|TWO_SIDED|90.0|290.8|392.43|||ANOVA|||AZD7594 250 μg versus AZD7594 58 μg||392.43|290.80|<0.0001
82519155|NCT02479412|164732915|SUPERIORITY_OR_OTHER||Ratio Estimate (%)|964.62|||<|0.0001|TWO_SIDED|90.0|816.13|1140.13|||ANOVA|||AZD7594 800 μg versus AZD7594 58 μg||1140.13|816.13|<0.0001
82519156|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-3.0|2.2|||Mixed Models Analysis|||||2.2|-3.0|
82519157|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|-2.1|2.9|||Mixed Models Analysis|||||2.9|-2.1|
82519158|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|95.0|-1.4|5.7|||Mixed Models Analysis|||||5.7|-1.4|
82519159|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|95.0|-6.2|0.9|||Mixed Models Analysis|||||0.9|-6.2|
82519160|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.78|||TWO_SIDED|95.0|-1.3|5.8|||Mixed Models Analysis|||||5.8|-1.3|
82519161|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.89|||TWO_SIDED|95.0|-0.7|6.9|||Mixed Models Analysis|||||6.9|-0.7|
82519162|NCT00515502|164732924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|2.46|||TWO_SIDED|95.0|-0.1|9.7|||Mixed Models Analysis|||||9.7|-0.1|
82519163|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.844|||TWO_SIDED|95.0|-2.47|0.92|||Mixed Models Analysis|||||0.92|-2.47|
82519164|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.798|||TWO_SIDED|95.0|-0.57|2.64|||Mixed Models Analysis|||||2.64|-0.57|
82519165|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_ERROR_OF_MEAN|1.151|||TWO_SIDED|95.0|-0.35|4.26|||Mixed Models Analysis|||||4.26|-0.35|
82519166|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|1.193|||TWO_SIDED|95.0|-4.11|0.67|||Mixed Models Analysis|||||0.67|-4.11|
82519167|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-1.44|3.33|||Mixed Models Analysis|||||3.33|-1.44|
82519168|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|STANDARD_ERROR_OF_MEAN|1.257|||TWO_SIDED|95.0|0.24|5.28|||Mixed Models Analysis|||||5.28|0.24|
82571803|NCT02706951|164853181|SUPERIORITY||Response Rate Difference|36.8|||<|0.001|TWO_SIDED|95.0|28.6|45.0||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||45.0|28.6|<0.001
82571804|NCT02706951|164853182|SUPERIORITY||Response Rate Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.8|25.8||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||25.8|13.8|<0.001
82571805|NCT02706951|164853182|SUPERIORITY||Response Rate Difference|30.2|||<|0.001|TWO_SIDED|95.0|23.6|36.9||This comparison was not part of the pre-specified multiplicity testing sequence; the nominal p-value is reported.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor geographic region.|Response Rate Difference = Upadacitinib - Methotrexate|||36.9|23.6|<0.001
82637078|NCT02612194|164988605|OTHER|Estimation only|Median|1.5|||||TWO_SIDED|95.0|0.2|1.8|||||The Kaplan Meier method was used to estimate the median PFS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||1.8|0.2|
82519169|NCT00515502|164732925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|0.34|7.02|||Mixed Models Analysis|||||7.02|0.34|
82519170|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|95.0|-5.0|3.4|||Mixed Models Analysis|||||3.4|-5.0|
82519171|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-7.6|0.6|||Mixed Models Analysis|||||0.6|-7.6|
82571806|NCT04962698|164853199|SUPERIORITY||||||>|0.00238||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||>0.00238
82571807|NCT04962698|164853200|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was 0.05.|ANOVA|||||||<0.001
82571808|NCT04962698|164853201|SUPERIORITY|||||||0.028||||||The threshold for statistical significance was 0.05.|ANOVA|||||||0.028
82571809|NCT04962698|164853202|SUPERIORITY||||||<|0.00231||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||<0.00231
82519172|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.74|||TWO_SIDED|95.0|-2.2|8.7|||Mixed Models Analysis|||||8.7|-2.2|
82519173|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-4.7|7.2|||Mixed Models Analysis|||||7.2|-4.7|
82519174|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-7.7|3.6|||Mixed Models Analysis|||||3.6|-7.7|
82519175|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-11.2|1.6|||Mixed Models Analysis|||||1.6|-11.2|
82519176|NCT00515502|164732926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.9|10.0|||Mixed Models Analysis|||||10.0|-5.9|
82519177|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.902|||TWO_SIDED|95.0|-6.23|1.39|||Mixed Models Analysis|||||1.39|-6.23|
82571810|NCT04962698|164853203|SUPERIORITY||||||<|0.002||||||The threshold for statistical significance was 0.00238, which was adjusted from the original 0.05 as described below.|Wilcoxon (Mann-Whitney)|The alpha value for p-value comparison was adjusted for 21 pair-wise comparisons (0.05/21 = 0.00238) across seven tasks.||||||<0.0020
82571811|NCT00364377|164853212|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||Paired comparisons (within groups) to examine differences between the baseline study and after 8-weeks of treatment were made using Student's two-tailed t-test for paired samples. Between-group comparisons were made using Student's two-tailed t-test for unpaired samples. Given the previously observed variation in fasting glucose||||>0.05
82571812|NCT03672175|164853226|SUPERIORITY||Least Square (LS) Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.85||0.6638|TWO_SIDED|95.0|-2.0|1.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Mixed effect model for repeated measures (MMRM)||1.3|-2.0|0.6638
82571813|NCT03672175|164853226|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.89||0.1158|TWO_SIDED|95.0|-3.1|0.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||||0.3|-3.1|0.1158
82571814|NCT03672175|164853227|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.6905|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for the analysis. Treatment, BL CGI-S score, BL antidepressant use, assessment time point, and time point-by-treatment interaction were included in the model and were treated as fixed effects.|MMRM|||||0.2|-0.4|0.6905
82637079|NCT02539160|164988606|SUPERIORITY||Median Difference (Net)|6.4||||0.105|TWO_SIDED|95.0|-1.1|14.3|||t-test, 2 sided|||||14.3|-1.1|0.105
82442465|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-2.74||||0.94|TWO_SIDED|95.0|-23.91|18.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||18.43|-23.91|0.940
82571815|NCT03672175|164853227|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1082|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for the analysis. Treatment, BL CGI-S score, BL antidepressant use, assessment time point, and time point-by-treatment interaction were included in the model and were treated as fixed effects.|MMRM|||||0.1|-0.5|0.1082
82571816|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.65||0.5725|TWO_SIDED|95.0|-1.7|0.9||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 3||0.9|-1.7|0.5725
82571817|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.64||0.016|TWO_SIDED|95.0|-2.8|-0.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 3||-0.3|-2.8|0.0160
82571818|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.75||0.445|TWO_SIDED|95.0|-2.1|0.9||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 8||0.9|-2.1|0.4450
82637080|NCT02539160|164988606|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.112|TWO_SIDED|95.0|-1.5|13.7|||t-test, 2 sided|||||13.7|-1.5|0.112
82571819|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0081|TWO_SIDED|95.0|-3.6|-0.5||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 8||-0.5|-3.6|0.0081
82571820|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.95||0.8219|TWO_SIDED|95.0|-1.6|2.1||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 42||2.1|-1.6|0.8219
82571821|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.92||0.8166|TWO_SIDED|95.0|-2.0|1.6||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 42||1.6|-2.0|0.8166
82571822|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.9|TWO_SIDED|95.0|-2.3|2.0||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 182||2.0|-2.3|0.9000
82442466|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|15.33||||0.273|TWO_SIDED|95.0|-7.86|38.52||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||38.52|-7.86|0.273
82571823|NCT03672175|164853228|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.03||0.5004|TWO_SIDED|95.0|-2.7|1.3||MMRM was used for analysis with change from BL in HAM-D total score as dependent variable; treatment, BL HAM-D total score, antidepressant use, assessment time point, time point-by-treatment interaction as explanatory variables and fixed effects.|MMRM|||Day 182||1.3|-2.7|0.5004
82571824|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8903|TWO_SIDED|95.0|0.65|1.63||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15: Generalized estimating equation (GEE)||1.63|0.65|0.8903
82571825|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|1.43||||0.1207|TWO_SIDED|95.0|0.91|2.25||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||2.25|0.91|0.1207
82571826|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7897|TWO_SIDED|95.0|0.67|1.7||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.70|0.67|0.7897
82637081|NCT02028182|164988673|OTHER||Kappa statistic-Concordance 0.4 mg/cm2|75.0|||||TWO_SIDED|95.0|60.4|94.0||||||||94.0|60.4|
82637082|NCT02028182|164988673|OTHER||Kappa statistic: Concordance 0.20 mg/cm2|65.0|||||TWO_SIDED|95.0|55.6|90.4||||||||90.4|55.6|
82637083|NCT02028182|164988673|OTHER||Kappa statistic: Concordance0.10 mg/cm2|60.0|||||TWO_SIDED|95.0|53.3|88.4||||||||88.4|53.3|
82637084|NCT01519648|164988676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.872|STANDARD_ERROR_OF_MEAN|0.237||0.007|TWO_SIDED|95.0|1.178|2.977|||Chi-squared|||||2.977|1.178|0.007
82383744|NCT00630825|164478568|SUPERIORITY_OR_OTHER|||||||0.113||||||Treatment comparison at 4 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.113
82383745|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383746|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82383747|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 8 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82519178|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|1.834|||TWO_SIDED|95.0|-5.56|1.79|||Mixed Models Analysis|||||1.79|-5.56|
82519179|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|2.474|||TWO_SIDED|95.0|-3.82|6.07|||Mixed Models Analysis|||||6.07|-3.82|
82519180|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|2.697|||TWO_SIDED|95.0|-5.07|5.69|||Mixed Models Analysis|||||5.69|-5.07|
82519181|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|STANDARD_ERROR_OF_MEAN|2.562|||TWO_SIDED|95.0|-7.84|2.38|||Mixed Models Analysis|||||2.38|-7.84|
82519182|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|2.898|||TWO_SIDED|95.0|-7.97|3.59|||Mixed Models Analysis|||||3.59|-7.97|
82519183|NCT00515502|164732927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|3.618|||TWO_SIDED|95.0|-6.39|8.02|||Mixed Models Analysis|||||8.02|-6.39|
82519184|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-5.1|0.2|||Mixed Models Analysis|||||0.2|-5.1|
82519185|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|-4.6|0.4|||Mixed Models Analysis|||||0.4|-4.6|
82519186|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|0.0|6.6|||Mixed Models Analysis|||||6.6|-0.0|
82519187|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|95.0|-5.9|1.2|||Mixed Models Analysis|||||1.2|-5.9|
82519188|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|95.0|-3.5|3.3|||Mixed Models Analysis|||||3.3|-3.5|
82519189|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-3.5|4.1|||Mixed Models Analysis|||||4.1|-3.5|
82519190|NCT00515502|164732928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|1.0|10.4|||Mixed Models Analysis|||||10.4|1.0|
82519191|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|95.0|-5.08|-0.87|||Mixed Models Analysis|||||-0.87|-5.08|
82519192|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.006|||TWO_SIDED|95.0|-3.53|0.5|||Mixed Models Analysis|||||0.50|-3.53|
82519193|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|1.335|||TWO_SIDED|95.0|-0.46|4.88|||Mixed Models Analysis|||||4.88|-0.46|
82519194|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32|STANDARD_ERROR_OF_MEAN|1.409|||TWO_SIDED|95.0|-6.13|-0.5|||Mixed Models Analysis|||||-0.50|-6.13|
82519195|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|1.366|||TWO_SIDED|95.0|-2.38|3.07|||Mixed Models Analysis|||||3.07|-2.38|
82519196|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.514|||TWO_SIDED|95.0|-1.22|4.82|||Mixed Models Analysis|||||4.82|-1.22|
82519197|NCT00515502|164732929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.53|STANDARD_ERROR_OF_MEAN|1.867|||TWO_SIDED|95.0|1.81|9.25|||Mixed Models Analysis|||||9.25|1.81|
82519198|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|3.256|||TWO_SIDED|95.0|-9.82|3.21|||Mixed Models Analysis|||||3.21|-9.82|
82519199|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|3.193|||TWO_SIDED|95.0|-4.7|8.09|||Mixed Models Analysis|||||8.09|-4.70|
82519200|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|4.268|||TWO_SIDED|95.0|-10.06|6.98|||Mixed Models Analysis|||||6.98|-10.06|
82519201|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17|STANDARD_ERROR_OF_MEAN|4.347|||TWO_SIDED|95.0|-13.84|3.5|||Mixed Models Analysis|||||3.50|-13.84|
82637085|NCT00337935|164988683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0062|TWO_SIDED|95.0|0.2|0.9||a priori theshold for statistical significance was p=0.05|ANCOVA|Baseline Hemoglobin was used as a covariate.||||0.9|0.2|.0062
82571827|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|1.1||||0.6837|TWO_SIDED|95.0|0.69|1.76||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.76|0.69|0.6837
82571828|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6602|TWO_SIDED|95.0|0.51|1.53||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||1.53|0.51|0.6602
82571829|NCT03672175|164853229|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9268|TWO_SIDED|95.0|0.56|1.69||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||1.69|0.56|0.9268
82571830|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8245|TWO_SIDED|95.0|0.62|1.83||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.83|0.62|0.8245
82571831|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0756|TWO_SIDED|95.0|0.95|2.67||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||2.67|0.95|0.0756
82637086|NCT00337935|164988684|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori threshold for statistical significance p=0.05|Chi-squared|||||||<0.001
82637087|NCT00337935|164988685|SUPERIORITY_OR_OTHER||||||<|0.0001||||||A priori threshold for statistical significance p=0.05|Log Rank|||||||<0.0001
82571832|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5309|TWO_SIDED|95.0|0.7|2.01||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||2.01|0.70|0.5309
82571833|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9085|TWO_SIDED|95.0|0.56|1.66||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 42||1.66|0.56|0.9085
82571834|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|1.34||||0.3476|TWO_SIDED|95.0|0.73|2.44||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||2.44|0.73|0.3476
82571835|NCT03672175|164853230|SUPERIORITY||Odds Ratio (OR)|1.45||||0.206|TWO_SIDED|95.0|0.82|2.57||GEE for binary response model, with factors for treatment, BL HAM-D total score, stratification factor (anti-depressant use at BL), assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 182||2.57|0.82|0.2060
82571836|NCT03672175|164853231|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8303|TWO_SIDED|95.0|0.67|1.65||GEE for binary response model, with factors for treatment, CGI-S BL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||||1.65|0.67|0.8303
82383748|NCT00630825|164478568|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||<0.001
82571837|NCT03672175|164853231|SUPERIORITY||Odds Ratio (OR)|1.43||||0.1199|TWO_SIDED|95.0|0.91|2.24||GEE for binary response model, with factors for treatment, CGI-S BL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||||2.24|0.91|0.1199
82571838|NCT03672175|164853232|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.71||0.5021|TWO_SIDED|95.0|-1.9|0.9||MMRM with treatment, BL HAM-A total score, anti-depressant use at BL (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.9|-1.9|0.5021
82571839|NCT03672175|164853232|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.7||0.2868|TWO_SIDED|95.0|-2.1|0.6||MMRM with treatment, BL HAM-A total score, anti-depressant use at BL (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.6|-2.1|0.2868
82571840|NCT03672175|164853233|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.35||0.5987|TWO_SIDED|95.0|-3.4|1.9||MMRM with treatment, BL MADRS total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||1.9|-3.4|0.5987
82571841|NCT03672175|164853233|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.36||0.1443|TWO_SIDED|95.0|-4.7|0.7||MMRM with treatment, BL MADRS total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||||0.7|-4.7|0.1443
82571842|NCT03672175|164853234|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.87||0.8499|TWO_SIDED|95.0|-3.3|4.0||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.0|-3.3|0.8499
82571843|NCT03672175|164853234|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.88||0.6265|TWO_SIDED|95.0|-4.6|2.8||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.8|-4.6|0.6265
82637088|NCT00329433|164988686|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||Published data show that the incidence of PF4/heparin EIA antibodies is approximately 40% (range, 20% to 60%) following cardiac surgery. We estimated that antibody formation would occur in approximately 20% of patients following thoracic surgery. Sixty patients in each group would provide 80% power to detect a decrease in the incidence of positive PF4/heparin EIA tests from 20% to 4% at an alpha level of \<0.05.||||<0.05
82637089|NCT00329433|164988687|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82637090|NCT00329433|164988688|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82519202|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|4.264|||TWO_SIDED|95.0|-6.65|10.37|||Mixed Models Analysis|||||10.37|-6.65|
82519203|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|STANDARD_ERROR_OF_MEAN|4.622|||TWO_SIDED|95.0|-2.35|16.08|||Mixed Models Analysis|||||16.08|-2.35|
82519204|NCT00515502|164732930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.63|STANDARD_ERROR_OF_MEAN|5.634|||TWO_SIDED|95.0|-7.59|14.85|||Mixed Models Analysis|||||14.85|-7.59|
82571844|NCT03672175|164853234|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.97||0.7418|TWO_SIDED|95.0|-3.2|4.5||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.5|-3.2|0.7418
82637091|NCT01336647|164988689|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy endpoint was responder rate calculated based on the percentage of subjects who were lice free at all follow-up visits (Days 1, 7 and 14). Because the number of responders and non-responders in the family size\>= 5 household members was less than five in at least one of the treatment arms, (Table 14.2.1.5), Fisher's Exact test was used to compare treatment arms, instead of the CMH test.|||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|The assessment of statistical significance will be done using Hochberg's modified Bonferroni test.||Null hypothesis; 80% power and 0.025 two-sided level of significance for each pairwise active vs. vehicle comparison||||<0.001
82571845|NCT03672175|164853234|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.94||0.7837|TWO_SIDED|95.0|-4.3|3.3||MMRM with treatment, BL HAM-D core subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.3|-4.3|0.7837
82571846|NCT03672175|164853235|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.74||0.6848|TWO_SIDED|95.0|-4.1|2.7||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.7|-4.1|0.6848
82519205|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.298|STANDARD_ERROR_OF_MEAN|2.3297|||TWO_SIDED|95.0|-4.961|4.365|||Mixed Models Analysis|||||4.365|-4.961|
82519206|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.066|STANDARD_ERROR_OF_MEAN|2.2776|||TWO_SIDED|95.0|-3.495|5.627|||Mixed Models Analysis|||||5.627|-3.495|
82571847|NCT03672175|164853235|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.72||0.11|TWO_SIDED|95.0|-6.1|0.6||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.6|-6.1|0.1100
82571848|NCT03672175|164853235|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.86||0.509|TWO_SIDED|95.0|-2.4|4.9||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.9|-2.4|0.5090
82637092|NCT00953849|164988691|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
82383749|NCT00630825|164478568|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.004
82383750|NCT00630825|164478568|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 16 weeks. P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.001
82519207|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.062|STANDARD_ERROR_OF_MEAN|3.0952|||TWO_SIDED|95.0|-8.247|4.122|||Mixed Models Analysis|||||4.122|-8.247|
82519208|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.362|STANDARD_ERROR_OF_MEAN|3.1891|||TWO_SIDED|95.0|-6.003|6.726|||Mixed Models Analysis|||||6.726|-6.003|
82519209|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|3.1121|||TWO_SIDED|95.0|-6.873|5.554|||Mixed Models Analysis|||||5.554|-6.873|
82519210|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.704|STANDARD_ERROR_OF_MEAN|3.3916|||TWO_SIDED|95.0|-6.064|7.473|||Mixed Models Analysis|||||7.473|-6.064|
82519211|NCT00515502|164732931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.424|STANDARD_ERROR_OF_MEAN|4.2233|||TWO_SIDED|95.0|-10.84|5.993|||Mixed Models Analysis|||||5.993|-10.84|
82571849|NCT03672175|164853235|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.77||0.8948|TWO_SIDED|95.0|-3.2|3.7||MMRM with treatment, BL HAM-D anxiety subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.7|-3.2|0.8948
82571850|NCT03672175|164853236|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.25||0.9591|TWO_SIDED|95.0|-4.5|4.3||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.3|-4.5|0.9591
82571851|NCT03672175|164853236|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|2.28||0.2713|TWO_SIDED|95.0|-7.0|2.0||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||2.0|-7.0|0.2713
82637093|NCT00953849|164988692|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
82519212|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|2.542|||TWO_SIDED|95.0|-4.98|5.15|||Mixed Models Analysis|||||5.15|-4.98|
82519213|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|2.507|||TWO_SIDED|95.0|-3.65|6.34|||Mixed Models Analysis|||||6.34|-3.65|
82519214|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|3.182|||TWO_SIDED|95.0|-7.49|5.19|||Mixed Models Analysis|||||5.19|-7.49|
82519215|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|3.296|||TWO_SIDED|95.0|-6.89|6.24|||Mixed Models Analysis|||||6.24|-6.89|
82519216|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|3.279|||TWO_SIDED|95.0|-6.13|6.94|||Mixed Models Analysis|||||6.94|-6.13|
82519217|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|3.516|||TWO_SIDED|95.0|-5.34|8.67|||Mixed Models Analysis|||||8.67|-5.34|
82519218|NCT00515502|164732932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|4.087|||TWO_SIDED|95.0|-8.97|7.32|||Mixed Models Analysis|||||7.32|-8.97|
82519219|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.464|STANDARD_ERROR_OF_MEAN|1.9766|||TWO_SIDED|95.0|-2.492|5.419|||Mixed Models Analysis|||||5.419|-2.492|
82519220|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|STANDARD_ERROR_OF_MEAN|1.9457|||TWO_SIDED|95.0|-3.647|4.144|||Mixed Models Analysis|||||4.144|-3.647|
82519221|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.645|STANDARD_ERROR_OF_MEAN|2.5254|||TWO_SIDED|95.0|-7.687|2.396|||Mixed Models Analysis|||||2.396|-7.687|
82519222|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.585|STANDARD_ERROR_OF_MEAN|2.6352|||TWO_SIDED|95.0|-2.671|7.84|||Mixed Models Analysis|||||7.840|-2.671|
82519223|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.121|STANDARD_ERROR_OF_MEAN|2.5993|||TWO_SIDED|95.0|-6.308|4.067|||Mixed Models Analysis|||||4.067|-6.308|
82519224|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.336|STANDARD_ERROR_OF_MEAN|2.8164|||TWO_SIDED|95.0|-7.952|3.28|||Mixed Models Analysis|||||3.280|-7.952|
82519225|NCT00515502|164732933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|3.3802|||TWO_SIDED|95.0|-11.96|1.504|||Mixed Models Analysis|||||1.504|-11.96|
82519226|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|2.24|||TWO_SIDED|95.0|-9.7|-0.7|||Mixed Models Analysis|||||-0.7|-9.7|
82519227|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|2.15|||TWO_SIDED|95.0|-8.9|-0.3|||Mixed Models Analysis|||||-0.3|-8.9|
82519228|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|95.0|-13.5|-1.8|||Mixed Models Analysis|||||-1.8|-13.5|
82519229|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|3.21|||TWO_SIDED|95.0|-11.8|1.1|||Mixed Models Analysis|||||1.1|-11.8|
82383751|NCT00630825|164478569|SUPERIORITY_OR_OTHER|||||||0.009||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.009
82383752|NCT00630825|164478569|SUPERIORITY_OR_OTHER|||||||0.028||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.028
82383753|NCT00630825|164478569|SUPERIORITY_OR_OTHER|||||||0.047||||||P-values ≤0.05 were considered significant. No adjustment for multiple comparisons was performed.|ANCOVA|||||||0.047
82383754|NCT01011816|164478579|SUPERIORITY_OR_OTHER|||||||0.52|||||||Fisher Exact|||Null: No differenc between the percent success of Saline and BIOSTAT BIOLOGX||||0.52
82383755|NCT02211209|164478582|SUPERIORITY||Least Squares Mean Difference|-94.1|||<|0.0001|TWO_SIDED|95.0|-121.7|-66.6|||ANCOVA|||||-66.6|-121.7|< 0.0001
82383756|NCT02211209|164478584|SUPERIORITY||Least Squares Mean Difference|-1804.0|STANDARD_ERROR_OF_MEAN|251.0|<|0.0001|TWO_SIDED|95.0|-2306.0|-1302.0|||ANCOVA|||||-1302|-2306|< 0.0001
82383757|NCT02211209|164478585|SUPERIORITY||Odds Ratio (OR)|186.16||||0.0001|TWO_SIDED|95.0|12.86||NA indicates that the upper limit of 95% CI was not estimable. The upper limit of the odds ratio estimate from the logistic regression model was \>999.999, and it was reported as NA per statistical reporting convention.||Regression, Logistic||||||12.86|0.0001
82383758|NCT02211209|164478586|SUPERIORITY||Odds Ratio (OR)|99.69|||<|0.0001|TWO_SIDED|95.0|15.75|631.06|||Regression, Logistic|||||631.06|15.75|<0.0001
82571852|NCT03672175|164853236|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.43||0.8048|TWO_SIDED|95.0|-4.2|5.4||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||5.4|-4.2|0.8048
82637094|NCT00953849|164988693|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
82383759|NCT02211209|164478588|SUPERIORITY|||||||0.6131|||||||t-test, 2 sided|||||||0.6131
82571853|NCT03672175|164853236|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.35||0.7665|TWO_SIDED|95.0|-5.3|3.9||MMRM with treatment, BL HAM-D Bech-6 subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||3.9|-5.3|0.7665
82383760|NCT02211209|164478589|SUPERIORITY||Least Squares Mean Difference|138.0||||0.1206|TWO_SIDED|95.0|-36.0|312.0|||ANCOVA|||||312|-36|0.1206
82383761|NCT00427648|164478605|SUPERIORITY|||||||0.588|||||||Kruskal-Wallis|||null hypothesis - no difference in average number of voids between the 2 groups, power calculation estimated 40 participants needed per arm to show a 2 void difference between lidocaine and saline placebo.||||0.588
82383762|NCT00427648|164478606|SUPERIORITY|||||||0.617|||||||Kruskal-Wallis|||||||0.617
82383763|NCT00427648|164478607|SUPERIORITY|||||||0.441|||||||Kruskal-Wallis|||||||0.441
82383764|NCT00427648|164478608|SUPERIORITY|||||||0.189|||||||Kruskal-Wallis|||||||0.189
82383765|NCT00427648|164478609|SUPERIORITY|||||||0.342|||||||Kruskal-Wallis|||||||0.342
82383766|NCT00427648|164478610|SUPERIORITY|||||||0.802|||||||Kruskal-Wallis|||||||0.802
82383767|NCT00427648|164478611|SUPERIORITY|||||||0.366|||||||Kruskal-Wallis|||||||0.366
82383768|NCT02230904|164478613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.115|STANDARD_DEVIATION|1.635|||TWO_SIDED|||||||||The change in average adhesiveness score was average score for Treatment B minus average score for Treatment A.||||
82383769|NCT02230904|164478620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.442|STANDARD_DEVIATION|0.895|||TWO_SIDED|||||||||The change in average adhesiveness score was average score for Treatment B minus average score for Treatment A.||||
82383770|NCT01511978|164478624|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82383771|NCT01511978|164478625|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82383772|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||Adjusted GMT/GMT Ratio based on analysis of covariance (ANCOVA) model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.18|0.87|
82383773|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.96|||||TWO_SIDED|95.0|0.82|1.12|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.12|0.82|
82383774|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.94|||||TWO_SIDED|95.0|0.81|1.1|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H1N1 (California)||1.10|0.81|
82383775|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.94|||||TWO_SIDED|95.0|0.77|1.13|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.13|0.77|
82383776|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.32|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.32|0.91|
82571854|NCT03672175|164853237|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.91||0.8575|TWO_SIDED|95.0|-3.4|4.1||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||4.1|-3.4|0.8575
82637095|NCT00953849|164988694|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|A Student's t test was performed to determine significance of differences between each of two groups.||||||<0.05
82637096|NCT00965458|164988700|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline ln(AUC+1) as a covariate and change in ln(AUC+1) from baseline as the outcome variable.|ANCOVA|||Primary imputation method used for missing Month 12 AUC. Measuring range for C-peptide is 0.05-30 ng/mL.||||0.065
82519230|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-6.1|6.4|||Mixed Models Analysis|||||6.4|-6.1|
82637097|NCT00965458|164988701|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 52 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.019
82637098|NCT00965458|164988701|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 104 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.002
82519231|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-6.1|7.5|||Mixed Models Analysis|||||7.5|-6.1|
82637099|NCT00965458|164988702|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 52 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.065
82637100|NCT00965458|164988702|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline In(AUC+1) as a covariate and change in In(AUC+1) from baseline as the outcome|ANCOVA|||Primary imputation method used for missing Week 104 AUC. Measuring range for C-peptide is 0.05-30 ng/mL||||0.015
82637101|NCT00965458|164988703|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 52 mean insulin use comparison||||0.020
82637102|NCT00965458|164988703|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 104 mean insulin use comparison||||0.002
82519232|NCT00515502|164732934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.29|||TWO_SIDED|95.0|-10.9|6.2|||Mixed Models Analysis|||||6.2|-10.9|
82519233|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-3.6|0.0|||Mixed Models Analysis|||||0.0|-3.6|
82519234|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.0|1.4|||Mixed Models Analysis|||||1.4|-2.0|
82519235|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-3.9|0.8|||Mixed Models Analysis|||||0.8|-3.9|
82519236|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-3.6|1.6|||Mixed Models Analysis|||||1.6|-3.6|
82519237|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|95.0|-3.3|1.7|||Mixed Models Analysis|||||1.7|-3.3|
82519238|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|-2.0|3.4|||Mixed Models Analysis|||||3.4|-2.0|
82519239|NCT00515502|164732935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-4.1|2.9|||Mixed Models Analysis|||||2.9|-4.1|
82519240|NCT03317002|164732956|SUPERIORITY||Ratio|0.04|||<|0.001|ONE_SIDED|95.0||0.05|||Mixed Models Analysis|||||0.05||<0.001
82519241|NCT03317002|164732956|SUPERIORITY||Ratio|0.08||||0.001|ONE_SIDED|95.0||0.1|||Mixed Models Analysis|||||0.10||0.001
82519242|NCT03317002|164732957|SUPERIORITY||Ratio|0.04|||<|0.001|ONE_SIDED|95.0||0.05|||Mixed Models Analysis|||||0.05||<0.001
82519243|NCT03317002|164732957|SUPERIORITY||Ratio|0.09||||0.001|ONE_SIDED|95.0||0.12|||Mixed Models Analysis|||||0.12||0.001
82519244|NCT02890381|164733048|OTHER||% vaccine recipients with solicited AEs|64.0|||||TWO_SIDED|90.0|35.0|86.0||||||||86|35|
82519245|NCT02890381|164733048|OTHER||% placebo recipients with solicited AEs|100.0|||||TWO_SIDED|90.0|61.0|100.0||||||||100|61|
82519246|NCT02890381|164733049|OTHER||% vaccinees with unsolicited AEs|36.0|||||TWO_SIDED|90.0|14.0|65.0||||||||65|14|
82519247|NCT02890381|164733049|OTHER||% placebo with unsolicited AEs|50.0|||||TWO_SIDED|90.0|15.0|85.0||||||||85|15|
82519248|NCT02890381|164733054|SUPERIORITY|||||||0.64||||||Since the sample sizes are unequal, at the suggestion of the DSMB statistician, a 1-sided Fisher's exact test was used to test the hypothesis that the proportions of \>=4-fold rises were higher in the vaccinated group than in the placebo group.|Fisher Exact|||||||0.64
82519249|NCT02890381|164733055|SUPERIORITY|||||||0.73||||||The threshold for statistical significance is 0.05.|Log Rank|||||||0.73
82519250|NCT01581281|164733076|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2636|TWO_SIDED|98.3|0.34|1.48||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons, the Bonferroni corrected level of significance is 0.017 (= 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for amitriptyline relative to placebo. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.48|0.34|0.2636
82519251|NCT01581281|164733076|SUPERIORITY||Odds Ratio (OR)|0.81||||0.4821|TWO_SIDED|98.3|0.39|1.68||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons of interest, the Bonferroni corrected level of significance is 0.017 ( = 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for topiramate relative to placebo. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.68|0.39|0.4821
82519252|NCT01581281|164733076|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6107|TWO_SIDED|98.3|0.49|1.59||A Bonferroni approach was used to control the type I error rate. Because there were three comparisons of interest, the Bonferroni corrected level of significance is 0.017 ( = 0.05 / 3).|Regression, Logistic|||"Logistic regression models were used to estimate the odds of successful primary endpoint for topiramate relative to amitriptyline. The analyses followed the intention to treat principle, imputing an outcome of failure for any participant who withdrew early for any reason or did not provide week 24 headache diary data (endpoint data). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days)."||1.59|0.49|0.6107
82519253|NCT01581281|164733077|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.9137|TWO_SIDED|95.0|-6.64|5.95|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||5.95|-6.64|0.9137
82519254|NCT01581281|164733077|SUPERIORITY||Median Difference (Final Values)|-4.84||||0.1331|TWO_SIDED|95.0|-11.16|1.49|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.49|-11.16|0.1331
82519255|NCT01581281|164733077|SUPERIORITY||Mean Difference (Final Values)|4.49||||0.1011|TWO_SIDED|95.0|-0.88|9.87|||Regression, Linear|||The mean change from baseline in PedMIDAS score over time for the three groups was assessed using a linear regression model for each of the three pairwise comparisons (Amitriptyline relative to placebo, Topiramate relative to placebo, and Amitriptyline relative to Topiramate), adjusted for the baseline PedMIDAS score. The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||9.87|-0.88|0.1011
82383777|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.17|||||TWO_SIDED|95.0|0.97|1.41|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|A/H3N2 (Hong Kong)||1.41|0.97|
82383778|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.15|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.15|0.87|
82383779|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.09|||||TWO_SIDED|95.0|0.95|1.26|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.26|0.95|
82383780|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.26|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Brisbane||1.26|0.95|
82383781|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.09|0.80|
82383782|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.91|||||TWO_SIDED|95.0|0.78|1.07|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.07|0.78|
82571855|NCT03672175|164853237|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.94||0.1978|TWO_SIDED|95.0|-6.3|1.3||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||1.3|-6.3|0.1978
82383783|NCT03321968|164478631|SUPERIORITY||Adjusted GMT Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15|||||Adjusted GMT/GMT Ratio based on ANCOVA model with vaccine lot as main effect and the baseline titer (log-transformed) as covariate.|B/Phuket||1.15|0.84|
82519256|NCT01581281|164733078|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.3553|TWO_SIDED|98.3|-2.59|1.15||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.15|-2.59|0.3553
82571856|NCT03672175|164853237|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|2.08||0.9298|TWO_SIDED|95.0|-3.9|4.3||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||4.3|-3.9|0.9298
82637103|NCT00965458|164988704|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is from a poisson regression comparing the person-year adjusted event rates between the two treatment groups|Regression, Logistic|||Hypoglycemic Events Occurring from Baseline to Week 52||||<0.001
82383784|NCT01575834|164478665|SUPERIORITY||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.15|0.47||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.47|0.15|< 0.001
82383785|NCT01575834|164478666|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.39||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.39|0.15|< 0.001
82519257|NCT01581281|164733078|SUPERIORITY||Median Difference (Final Values)|-0.64||||0.4143|TWO_SIDED|98.3|-2.52|1.24||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.24|-2.52|0.4143
82383786|NCT01575834|164478667|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.008|TWO_SIDED|95.0|0.46|0.89||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.89|0.46|0.008
82519258|NCT01581281|164733078|SUPERIORITY||Median Difference (Final Values)|-0.08||||0.9038|TWO_SIDED|98.3|-1.68|1.52||Each comparison was tested using a Bonferroni corrected significance level of 0.017 (0.05/3).|Regression, Linear|||Another major secondary objective was to determine if the change in absolute headache days from baseline to week 24 differed between treatment groups. This objective was assessed using linear regression models, with three pairwise comparisons between treatment groups (Amitriptyline vs. Placebo, Topiramate vs. Placebo, and Amitriptyline vs. Topiramate). The models, and corresponding odds ratios, were adjusted for the two stratification variables (age and baseline number of headache days).||1.52|-1.68|0.9038
82519259|NCT01581281|164733079|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1557|TWO_SIDED|95.0|0.85|5.05|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||5.05|0.85|0.1557
82519260|NCT01581281|164733079|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0754|TWO_SIDED|95.0|0.95|5.62|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||5.62|0.95|0.0754
82519261|NCT01581281|164733079|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7611|TWO_SIDED|95.0|0.49|1.62|||Fisher Exact|||Tolerability was assessed by calculating the percent of subjects who completed the entire 24 week treatment period and the corresponding 95% confidence intervals for each treatment group. Concerns regarding tolerability would be raised if the upper bound of a confidence interval was less than 65% or if the percent of subjects who completed the entire 24 week treatment period in either of the active treatment groups was significantly less than the placebo group.||1.62|0.49|0.7611
82519262|NCT01581281|164733080|SUPERIORITY|||||||0.3038|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||0.3038
82519263|NCT01581281|164733080|SUPERIORITY|||||||1|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||1.000
82519264|NCT01581281|164733080|SUPERIORITY|||||||0.2139|||||||Fisher Exact|||The occurrence of treatment-related SAE's was assessed in two ways: 1) percentage of subjects who experience any treatment-related SAE in each of the three groups was compared using Fishers exact test; 2) rates of treatment-emergent SAS's across the three groups were compared using a Poisson regression model. However, due to the small number of SAEs that were deemed treatment-emergent (4 in AMI, 1 in TPM, 0 in PBO), the parameter estimates did not converge for the Poisson regression model.||||0.2139
82519265|NCT02010060|164733202|SUPERIORITY|||||||0.074|||||||ANCOVA|||||||0.074
82519266|NCT02010060|164733202|SUPERIORITY|||||||0.684|||||||ANCOVA|||Change in waist circumference between AERO and CON||||0.684
82519267|NCT02010060|164733202|SUPERIORITY|||||||0.18|||||||ANCOVA|||Comparison between the AERO group and the AERO-PA group||||0.180
82519268|NCT02010060|164733203|SUPERIORITY|||||||0.011|||||||ANCOVA|||Change in body fat between the AERO-PA group and the CON group||||0.011
82519269|NCT02010060|164733203|SUPERIORITY|||||||0.16|||||||ANCOVA|||||||0.16
82519270|NCT02010060|164733203|SUPERIORITY|||||||0.258|||||||ANCOVA|||Change in body fat between the AERO and AERO-PA group||||0.258
82519271|NCT02010060|164733204|SUPERIORITY|||||||0.104|||||||ANCOVA|||Comparison of body weight between the CON and AERO-PA groups||||0.104
82637104|NCT00965458|164988704|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is from a poisson regression comparing the person-year adjusted event rates between the two treatment groups|Regression, Logistic|||Hypoglycemic Events Occurring from Week 52 to Week 104||||<0.001
82637105|NCT00965458|164988705|SUPERIORITY_OR_OTHER|||||||0.746|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 52 mean HbA1C comparison||||0.746
82637106|NCT00965458|164988705|SUPERIORITY_OR_OTHER|||||||0.942|TWO_SIDED|||||P-value is for testing treatment effect using an analysis of covariance with baseline level as a covariate and change from baseline as the outcome variable|ANCOVA|||Week 104 mean HbA1C comparison||||0.942
82637107|NCT00692198|164988706|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.52|TWO_SIDED|95.0|0.79|1.12|||Log Rank|||||1.12|0.79|0.52
82637108|NCT00692198|164988707|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.53|TWO_SIDED|95.0|0.64|1.25|||Log Rank||Hazard ratio, LTOT vs No LTOT|||1.25|0.64|0.53
82637109|NCT00692198|164988708|SUPERIORITY_OR_OTHER||Rate ratio|1.01||||0.81|TWO_SIDED|95.0|0.91|1.13|||Fisher Exact||Rate ratio, LTOT vs No LTOT|||1.13|0.91|0.81
82637110|NCT00692198|164988710|SUPERIORITY_OR_OTHER||Rate ratio|1.08||||0.12|TWO_SIDED|95.0|0.98|1.19|||Fisher Exact||Rate ratio, LTOT vs No LTOT|||1.19|0.98|0.12
82383787|NCT01575834|164478668|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.096|TWO_SIDED|95.0|0.53|1.05||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.05|0.53|0.096
82519272|NCT02010060|164733204|SUPERIORITY|||||||0.578|||||||ANCOVA|||Change in body weight between the CON and AERO groups||||0.578
82519273|NCT02010060|164733204|SUPERIORITY|||||||0.3|||||||ANCOVA|||Change in body weight between the AERO and AERO-PA groups||||0.300
82519274|NCT02010060|164733205|SUPERIORITY|||||||0.002|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) between the AERO and AERO-PA groups||||0.002
82519275|NCT02010060|164733205|SUPERIORITY|||||||0.314|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) AERO and CON groups||||0.314
82519276|NCT02010060|164733205|SUPERIORITY|||||||0.041|||||||ANCOVA|||Change in cardiorespiratory fitness (L/min) between the AERO and AERO-PA groups||||0.041
82519277|NCT02010060|164733206|SUPERIORITY|||||||0.891|||||||ANCOVA|||Change in insulin sensitivity between the CON and AERO-PA groups||||0.891
82519278|NCT02010060|164733206|SUPERIORITY|||||||0.417|||||||ANCOVA|||Change in insulin sensitivity between the CON and AERO groups||||0.417
82519279|NCT02010060|164733206|SUPERIORITY|||||||0.484|||||||ANCOVA|||Change in insulin sensitivity between the AERO and AERO-PA groups||||0.484
82519280|NCT02010060|164733207|SUPERIORITY|||||||0.274|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between the CON and the AERO groups||||0.274
82519281|NCT02010060|164733207|SUPERIORITY|||||||0.461|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between the CON and AERO groups||||0.461
82519282|NCT02010060|164733207|SUPERIORITY|||||||0.739|||||||ANCOVA|||Change in Low density lipoprotein (LDL) between AERO and AERO-PA groups||||0.739
82519283|NCT02010060|164733208|SUPERIORITY|||||||0.837|||||||ANCOVA|||Change in high density lipoprotein (HDL) between the CON and AERO-PA group||||0.837
82519284|NCT02010060|164733208|SUPERIORITY|||||||0.895|||||||ANCOVA|||Change in high density lipoprotein (HDL) between the CON and AERO groups||||0.895
82637111|NCT00692198|164988711|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
82637112|NCT00692198|164988712|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
82637113|NCT00692198|164988713|SUPERIORITY_OR_OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
82637114|NCT00692198|164988714|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82637115|NCT00692198|164988715|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
82637116|NCT00692198|164988716|SUPERIORITY_OR_OTHER|||||||0.41|||||||t-test, 2 sided|||||||0.41
82637117|NCT00692198|164988717|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.09|||||TWO_SIDED|95.0|0.54|8.0|||||Relative risk, LTOT vs No LTOT|||8.00|0.54|
82637118|NCT00692198|164988718|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
82637119|NCT00692198|164988719|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
82519285|NCT02010060|164733208|SUPERIORITY|||||||0.744|||||||ANCOVA|||||||0.744
82519286|NCT02010060|164733209|SUPERIORITY|||||||0.067|||||||ANCOVA|||Change in total cholesterol (mg/dL)||||0.067
82519287|NCT02010060|164733209|SUPERIORITY|||||||0.254|||||||ANCOVA|||Change in total cholesterol (mg/dL) between the CON and AERO groups||||0.254
82519288|NCT02010060|164733209|SUPERIORITY|||||||0.501|||||||ANCOVA|||Change in total cholesterol (mg/dL) between AERO and AERO-PA groups||||0.501
82519289|NCT02010060|164733210|SUPERIORITY|||||||0.456|||||||ANCOVA|||Change in triglyceride level between the AERO-PA and CON groups||||0.456
82519290|NCT02010060|164733210|SUPERIORITY|||||||0.422|||||||ANCOVA|||Change in triglyceride level between the CON and AERO groups||||0.422
82519291|NCT02010060|164733210|SUPERIORITY|||||||0.136|||||||ANCOVA|||Change in triglyceride level between the AERO and AERO-PA groups||||0.136
82519292|NCT02010060|164733211|SUPERIORITY|||||||0.483|||||||ANCOVA|||Change in glucose level between the CON and AERO-PA groups||||0.483
82519293|NCT02010060|164733211|SUPERIORITY|||||||0.274|||||||ANCOVA|||Change in glucose between the CON and AERO groups||||0.274
82519294|NCT02010060|164733211|SUPERIORITY|||||||0.685|||||||ANCOVA|||Change in glucose level between the AERO and AERO-PA groups||||0.685
82519295|NCT02010060|164733212|SUPERIORITY|||||||0.489|||||||ANCOVA|||Change in systemic inflammation between CON and AERO-PA groups||||0.489
82519296|NCT02010060|164733212|SUPERIORITY|||||||0.652|||||||ANCOVA|||Change in systemic inflammation between the CON and AERO groups||||0.652
82519297|NCT02010060|164733212|SUPERIORITY|||||||0.822|||||||ANCOVA|||Change in systemic inflammation between the AERO and AERO-PA groups||||0.822
82519298|NCT02010060|164733213|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes in steps between the CON group and the AERO-PA group||||<0.001
82519299|NCT02010060|164733213|SUPERIORITY|||||||0.648|||||||ANCOVA|||Changes in steps between the CON and the AERO group||||0.648
82519300|NCT02010060|164733213|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes in steps between the AERO and AERO-PA groups||||<0.001
82519301|NCT02010060|164733214|SUPERIORITY|||||||0.226|||||||ANCOVA|||Change in kilocalories (dietary intake) between CON and AERO-PA group||||0.226
82519302|NCT02010060|164733214|SUPERIORITY|||||||0.215|||||||ANCOVA|||Change in caloric intake between the CON and the AERO groups||||0.215
82519303|NCT02010060|164733214|SUPERIORITY|||||||0.957|||||||ANCOVA|||Change in caloric intake (kilocalories) between the AERO and AERO-PA groups||||0.957
82519304|NCT02010060|164733215|SUPERIORITY|||||||0.337|||||||ANCOVA|||Change in insulin concentration between the CON and AERO-PA group||||0.337
82519305|NCT02010060|164733215|SUPERIORITY|||||||0.77|||||||ANCOVA|||Change in insulin level between the AERO and CON groups||||0.770
82637120|NCT01425268|164988732|NON_INFERIORITY|Assuming that the success rate for both expanders was 95%, at least 92 breasts implanted with a AeroForm Tissue Expander and 46 breasts implanted with a saline expander were needed to be 80% confident (i.e., have a statistical power of 80%) that the lower bound of the one-sided 95% Confidence Interval for the difference in the Success rates (πTreatment - πControl) was greater than or equal to -10%.|margin of non-inferiority|-7.3|||||ONE_SIDED|95.0|-7.3241||||||The Treatment Success Rate per breast is 96.1% (149/155) for AeroForm and 98.8% (82/83) for saline.The difference (AeroForm - saline) is -2.7% with a lower confidence limit of -7.3%, meeting the non-inferiority margin of \> -10%.|The study was powered to show that the Treatment Success rate for the AeroForm System (πTreatment) was not worse than the rate for the saline expander (πControl) by more than 10% (-0.10 \< πTreatment - πControl).|||-7.3241|
82637121|NCT01425268|164988733|SUPERIORITY||||||<|0.0001|||||||Kaplan-Meier Log Rank test|Subjects not completing tissue expansion are censored in the analysis||||||<0.0001
82383788|NCT01575834|164478669|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.057|TWO_SIDED|95.0|0.57|0.97||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.97|0.57|0.057
82383789|NCT01575834|164478670|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.52|0.87||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.87|0.52|0.096
82383790|NCT01575834|164478671|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.44|1.02||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.02|0.44|0.096
82383791|NCT01575834|164478672|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.096|TWO_SIDED|95.0|0.49|0.91||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab|||0.91|0.49|0.096
82383792|NCT01575834|164478673|SUPERIORITY||Odds Ratio (OR)|0.28||||0.096|TWO_SIDED|95.0|0.17|0.49||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.49|0.17|0.096
82383793|NCT01575834|164478674|SUPERIORITY||Odds Ratio (OR)|0.26||||0.096|TWO_SIDED|95.0|0.16|0.41||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test|Values \< 1 for odds ratio favor romosozumab.|||0.41|0.16|0.096
82383794|NCT01575834|164478675|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.18|TWO_SIDED|95.0|0.22|1.35||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.35|0.22|0.18
82519306|NCT02010060|164733215|SUPERIORITY|||||||0.515|||||||ANCOVA|||Change in insulin concentration between AERO and AERO-PA groups||||0.515
82519307|NCT00844857|164733235|SUPERIORITY_OR_OTHER|||||||0.003||||||The a priori threshold for statistical significance was 0.05. Mixed Model Repeated Measures Analysis (MMRM) terms included baseline, country, treatment, visit, and treatment \* visit interaction.|Mixed Models Analysis|||"Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.~A conservative estimate of effect size of 0.4 was used in the sample size estimation for this study. A randomized ratio of 2:1 provided a 90% power with an effect size of 0.4."||||0.003
82519308|NCT00844857|164733236|SUPERIORITY_OR_OTHER|||||||0.035||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.035
82519309|NCT00844857|164733237|SUPERIORITY_OR_OTHER|||||||0.003||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.003
82519310|NCT00844857|164733238|SUPERIORITY_OR_OTHER|||||||0.007||||||The a priori threshold for statistical significance was 0.05. Ordinal Logistic Regression Model terms include baseline CDRS-R, baseline YMRS, and treatment.|Ordinal Logistic Regression|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.007
82519311|NCT00844857|164733239|SUPERIORITY_OR_OTHER|||||||0.527||||||The a priori threshold for statistical significance was 0.05. MMRM terms included baseline, country, treatment, visit, and treatment\*visit interaction.|Mixed Models Analysis|||Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.||||0.527
82519312|NCT00844857|164733240|SUPERIORITY_OR_OTHER|||||||0.03||||||The a priori threshold for statistical significance was 0.05. MMRM terms included baseline, country, treatment, visit, and treatment\*visit interaction|Mixed Models Analysis|||Tested was the null hypothesis that there was no difference in mean changes from baseline to Week 8 between OFC and placebo.||||0.030
82637122|NCT01101321|164988734|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|96.14|104.96|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||104.96|96.14|
82519313|NCT00844857|164733241|SUPERIORITY_OR_OTHER|||||||0.002||||||The a priori threshold for statistical significance was 0.05. ANCOVA (analysis of covariance) Model terms included baseline, country, and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.002
82519314|NCT00844857|164733242|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
82519315|NCT00844857|164733243|SUPERIORITY_OR_OTHER|||||||0.309||||||P-value for Suicidal Ideation. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.309
82519316|NCT00844857|164733243|SUPERIORITY_OR_OTHER|||||||0.667||||||P-value for Suicidal Behavior. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.667
82519317|NCT00844857|164733243|SUPERIORITY_OR_OTHER|||||||0.309||||||P-value for Suicidal Ideation or Behavior. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||0.309
82519318|NCT00844857|164733244|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
82519319|NCT00844857|164733245|SUPERIORITY_OR_OTHER|||||||0.545||||||P-value for ADHDRS-IV-PI Total Score. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.545
82442467|NCT00996801|164593647|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.33||||0.973|TWO_SIDED|95.0|-19.23|19.9||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||19.90|-19.23|0.973
82519320|NCT00844857|164733246|SUPERIORITY_OR_OTHER|||||||0.066||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.066
82519321|NCT00844857|164733247|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
82637123|NCT01101321|164988735|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.5|||||TWO_SIDED|90.0|95.44|101.73|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.73|95.44|
82519322|NCT00844857|164733248|SUPERIORITY_OR_OTHER|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||Tested was the null hypothesis that there was no difference in proportions between OFC and placebo.||||1.00
82519323|NCT00844857|164733249|SUPERIORITY_OR_OTHER|||||||0.05||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline, country and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.050
82519324|NCT00844857|164733250|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
82571857|NCT03672175|164853237|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.03||0.5487|TWO_SIDED|95.0|-5.2|2.8||MMRM with treatment, BL HAM-D Maier subscale score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||2.8|-5.2|0.5487
82571858|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.627|TWO_SIDED|95.0|-0.2|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Depressed Mood||0.3|-0.2|0.6270
82571859|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5463|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Depressed Mood||0.2|-0.4|0.5463
82519325|NCT00844857|164733251|SUPERIORITY_OR_OTHER|||||||0.98||||||P-value for Fasting Glucose. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.980
82519326|NCT00844857|164733251|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for Fasting Cholesterol. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
82519327|NCT00844857|164733251|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for Fasting Triglycerides. The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
82519328|NCT00844857|164733252|SUPERIORITY_OR_OTHER|||||||0.005||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||0.005
82519329|NCT00844857|164733253|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
82571860|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.8716|TWO_SIDED|95.0|-0.3|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Depressed Mood||0.3|-0.3|0.8716
82571861|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4383|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Depressed Mood||0.2|-0.4|0.4383
82383795|NCT01575834|164478676|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.12|TWO_SIDED|95.0|0.24|1.04||A fixed-sequence testing procedure was used for multiplicity adjustment of the coprimary and a subset of secondary efficacy endpoints to maintain the overall significance level at 0.05.|Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||1.04|0.24|0.12
82519330|NCT00844857|164733254|SUPERIORITY_OR_OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05. ANCOVA Model terms included baseline and treatment.|ANCOVA|||Tested was the null hypothesis that there was no difference in mean changes from baseline to up to Week 8 between OFC and placebo.||||<0.001
82519331|NCT00570674|164733261|OTHER||||||<|0.01|||||||Sign test|||||||<0.01
82519332|NCT00570674|164733262|OTHER||||||<|0.01|||||||Sign test|||||||<0.01
82519333|NCT00570674|164733263|OTHER|||||||0.52|||||||Sign test|||||||0.52
82571862|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4794|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Feelings of Guilt||0.3|-0.1|0.4794
82519334|NCT00570674|164733264|OTHER|||||||0.39|||||||Sign test|||||||0.39
82519335|NCT03667053|164733266|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated inferentially using a pairwise two-sided log rank test stratified by injection site and age group.||||<0.001
82519336|NCT03667053|164733267|SUPERIORITY|||||||0.0073||||||Assessed at 30 minutes. Note that p-value was 0.0005 at 10 minutes and \<0.0001 at 15 and 20 minutes.|Cochran-Mantel-Haenszel|||The recovery rates of dasiglucagon and placebo were compared at each time point using a Cochran-Mantel-Haenszel test stratified by age group and injection site. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0073
82571863|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9717|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Feelings of Guilt||0.2|-0.2|0.9717
82571864|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3701|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Feelings of Guilt||0.3|-0.1|0.3701
82571865|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3972|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Feelings of Guilt||0.3|-0.1|0.3972
82519337|NCT03667053|164733268|SUPERIORITY||||||<|0.0001||||||The p-value was \<0.0001 at all time points (10, 15, 20 and 30 minutes)|ANOVA|||Change from baseline in plasma glucose at 30, 20, 15, and 10 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82519338|NCT01981564|164733335|SUPERIORITY|||||||0.06|||||||ANOVA|||ANOVA F=3.55, df=1, p=0.06||||0.06
82519339|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519340|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82571866|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.5761|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Suicide||0.1|-0.1|0.5761
82519341|NCT05585307|164733444|SUPERIORITY|||||||0.0013||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||0.0013
82519342|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519343|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519344|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519345|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82383796|NCT01575834|164478677|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.012|TWO_SIDED|95.0|0.4|0.9|||Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.90|0.40|0.012
82519346|NCT05585307|164733444|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519347|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519348|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519349|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519350|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519351|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519352|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82519353|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82442468|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.48||||0.01|TWO_SIDED|95.0|-2.66|-0.29||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.29|-2.66|0.010
82442469|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.14||||0.053|TWO_SIDED|95.0|-2.29|0.01||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.01|-2.29|0.053
82442470|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.15||||0.053|TWO_SIDED|95.0|-2.19|-0.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||-0.11|-2.19|0.053
82519354|NCT05585307|164733445|SUPERIORITY||||||<|0.0001||||||P-value was calculated from two-sided t-test.|t-test, 2 sided|||||||<0.0001
82637124|NCT01101321|164988736|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|98.5|||||TWO_SIDED|90.0|95.42|101.7|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||101.70|95.42|
82637125|NCT02615158|164988745|EQUIVALENCE|If the 95% confidence interval of the difference in the change over time does not include 0, it means that there is a significant difference in the change over time between the two groups.|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.555|TWO_SIDED|95.0|-0.17|0.31||The alpha for statistical significance is set at 0.05.|Mixed Models Analysis||This is to compare change in maternal lifestyle group to child safety group.|H0: There are no differences between the maternal lifestyle and child safety groups in the change in BMI z-score over time. Mixed models included the interaction between time and intervention, accounting for clustering of the repeated measures within each individual.||0.31|-0.17|0.555
82637126|NCT02615158|164988745|EQUIVALENCE|95% CI|Slope|0.16|STANDARD_ERROR_OF_MEAN|0.12||0.2|TWO_SIDED|95.0|-0.08|0.39||Two-side test|Mixed Models Analysis||This is to compare the Responsive Parenting to the safety intervention group.|||0.39|-0.08|0.200
82637127|NCT02615158|164988746|EQUIVALENCE|95% confidence interval (CI) was estimated. If the 95% CI does not include 0, it means there is significant difference in the change over time between the two groups.|Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.32||0.739|TWO_SIDED|95.0|-0.74|0.52||The alpha for statistical significance is set at 0.05|Mixed Models Analysis||This is to compare maternal lifestyle to child safety group.|H0: There is no difference between maternal lifestyle and child safety groups in the change of BMI over time.||0.52|-0.74|0.739
82637128|NCT02615158|164988746|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it means that there is a statistically significant difference in the change over time between the two groups.|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.32||0.904|TWO_SIDED|95.0|-0.66|0.59||The alpha for statistical significance was set at 0.05.|Mixed Models Analysis||This is to compare the responsive parenting group to the child safety group.|H0: There are no differences in the change over time between responsive parenting and child safety groups.||0.59|-0.66|0.904
82519355|NCT01869491|164733465|SUPERIORITY||Mean Difference (Final Values)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.31|-0.11|||Mixed Models Analysis|||||-0.11|-0.31|<0.0001
82637129|NCT02615158|164988747|EQUIVALENCE|The 95% confidence interval (CI) for the difference in the change over time was estimated. If it does not include 0, it indicates significant difference in the change over time.|Slope|3.31|STANDARD_ERROR_OF_MEAN|2.4||0.168|TWO_SIDED|95.0|-1.4|8.02||Alpha is set at 0.05.|Mixed Models Analysis|||H0 is that there is no difference between maternal lifestyle and child safety groups in the change of HEI 2015 score over time.||8.02|-1.4|0.168
82442471|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.58||||0.509|TWO_SIDED|95.0|-1.77|0.6||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.60|-1.77|0.509
82442472|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.25||||0.843|TWO_SIDED|95.0|-1.27|0.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.77|-1.27|0.843
82519356|NCT01869491|164733466|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0004|TWO_SIDED|95.0|-0.29|-0.08|||Mixed Models Analysis|||||-0.08|-0.29|0.0004
82519357|NCT01869491|164733467|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.0001|TWO_SIDED|95.0|-0.32|-0.1|||Mixed Models Analysis|||||-0.10|-0.32|0.0001
82519358|NCT01869491|164733468|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.0004|TWO_SIDED|95.0|-0.32|-0.09|||Mixed Models Analysis|||||-0.09|-0.32|0.0004
82637130|NCT02615158|164988747|EQUIVALENCE|95% CI was estimated. If it does not include 0, it indicates that there is a significant difference in the change between the two groups.|Slope|0.82|STANDARD_ERROR_OF_MEAN|2.39||0.733|TWO_SIDED|95.0|-3.88|5.52|||Mixed Models Analysis||This is to compare the responsive feeding group to child safety group.|H0 is that there is no difference between the responsive parenting and child safety groups in the change of HEI score over time||5.52|-3.88|0.733
82637131|NCT02615158|164988748|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is significant difference in the change over time between the two groups.|Slope|3.3|STANDARD_ERROR_OF_MEAN|2.49||0.186|TWO_SIDED|95.0|-1.6|8.2||Alpha is set at 0.05.|Mixed Models Analysis||This is to compare the maternal lifestyle group to the child safety group.|Null hypothesis is that there are no differences between the two groups regarding the change of HEI 2015 score over time.||8.2|-1.6|0.186
82637132|NCT02615158|164988748|EQUIVALENCE|95% CI for the difference in change over time was estimated. If it does not include 0, it indicates that there is significant difference between the two groups.|Slope|-0.03|STANDARD_ERROR_OF_MEAN|2.51||0.99|TWO_SIDED|95.0|-4.97|4.91||Alpha is set to 0.05.|Mixed Models Analysis||This is to compare the responsive parenting group to child safety group.|H0 is there is no difference in the change of maternal HEI score over time between the two groups.||4.91|-4.97|0.990
82571867|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.4379|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Suicide||0.1|-0.1|0.4379
82571868|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.6087|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Suicide||0.1|-0.1|0.6087
82571869|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9791|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Suicide||0.1|-0.1|0.9791
82571870|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2093|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early - Early Night||0.1|-0.3|0.2093
82571871|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5189|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early - Early Night||0.1|-0.3|0.5189
82637133|NCT02615158|164988749|EQUIVALENCE|A 95% CI was estimated. If it does not include 0, it indicates significant difference in change over time between the two groups.|Slope|23.67|STANDARD_ERROR_OF_MEAN|11.03||0.034|TWO_SIDED|95.0|1.88|45.46||Alpha is set at 0.05.|Mixed Models Analysis||This is for maternal lifestyle group compared to safety control group.|Null hypothesis is there were no differences in the change over time for toddler MVPA across the two groups.||45.46|1.88|0.034
82571872|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6617|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early - Early Night||0.2|-0.2|0.6617
82637134|NCT02615158|164988749|EQUIVALENCE|H0 is that there is no difference between the change of MVPA over time between the two groups.|Slope|13.52|STANDARD_ERROR_OF_MEAN|10.89||0.216|TWO_SIDED|95.0|-7.98|35.03|||Mixed Models Analysis||This is to compare the responsive parenting group to child safety group.|||35.03|-7.98|0.216
82571873|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2632|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early - Early Night||0.3|-0.1|0.2632
82571874|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.274|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Middle - Middle Night||0.1|-0.3|0.2740
82571875|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1185|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Middle - Middle Night||0.0|-0.3|0.1185
82637135|NCT02615158|164988750|EQUIVALENCE|The 95% CI for the difference in the change between the two groups was estimated. If it does not include 0, it indicates that there is a significant difference by group in the change.|Slope|10.97|STANDARD_ERROR_OF_MEAN|4.82||0.024|TWO_SIDED|95.0|1.46|20.48|||Mixed Models Analysis||This is to compare the maternal lifestyle group to the child safety group.|H0 is that there is no difference in the change of maternal MVPA over time between the two groups.||20.48|1.46|0.024
82442473|NCT00996801|164593648|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.26||||0.843|TWO_SIDED|95.0|-1.43|0.92||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.92|-1.43|0.843
82519359|NCT01869491|164733469|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82519360|NCT01869491|164733470|SUPERIORITY|||||||0.0433|||||||Wilcoxon (Mann-Whitney)|||||||0.0433
82519361|NCT01869491|164733471|SUPERIORITY|||||||0.0503|||||||Wilcoxon (Mann-Whitney)|||||||0.0503
82637136|NCT02615158|164988750|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.|Slope|0.98|STANDARD_ERROR_OF_MEAN|4.94||0.804|TWO_SIDED|95.0|-8.76|10.72|||Mixed Models Analysis||This is to compare responsive parenting group to child safety group.|H0 is that there is no significant difference in the change of maternal MVPA between the two groups.||10.72|-8.76|0.804
82637137|NCT02615158|164988751|EQUIVALENCE|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.|Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.056|TWO_SIDED|95.0|-0.78|0.06||Alpha is set at 0.05 for statistical significance.|Mixed Models Analysis||This is to compare maternal lifestyle group to the child safety group.|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.||0.06|-0.78|0.056
82637138|NCT02615158|164988751|EQUIVALENCE|Alpha is set at 0.05 to indicate statistical significance.|Slope|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.896|TWO_SIDED|95.0|-0.39|0.45|||Mixed Models Analysis||This is to compare responsive parenting group to child safety group.|The 95% CI was estimated. If it does not include 0, it indicates that there is a significant difference by group in the difference.||0.45|-0.39|0.896
82637139|NCT02257970|164988753|EQUIVALENCE|The likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||<|0.0001|||||||t-test, 2 sided|paired t-test||For the analysis, the 4-month post-minus-pre change in this score for ketoprofen was compared.||||<0.0001
82637140|NCT02257970|164988754|EQUIVALENCE|Pre-to-post comparison: the likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||=|0.6|||||||t-test, 2 sided|Paired t-test||||||=0.6
82637141|NCT02257970|164988754|EQUIVALENCE|Pre-to-Post comparison: The likelihood of rejecting the null hypothesis (equivalence between the two groups) was defined as P\<0.05|||||=|0.01|||||||t-test, 2 sided|paired t-test||||||=0.01
82637142|NCT01856920|164988782|EQUIVALENCE|Alpha= 0.05||||||0.376|||||||Rank-Sum|||||||0.3760
82637143|NCT04594213|164988790|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637144|NCT04594213|164988791|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637145|NCT04594213|164988792|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637146|NCT04594213|164988793|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637147|NCT04594213|164988794|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637148|NCT04594213|164988795|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637149|NCT04594213|164988796|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637150|NCT04594213|164988797|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637151|NCT04594213|164988798|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82383797|NCT01575834|164478678|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.002|TWO_SIDED|95.0|0.46|0.84|||Cox proportional hazards|Cox proportional hazards model adjusting for age and prevalent vertebral fracture stratification variables.|Hazard ratio \< 1 favors romosozumab.|||0.84|0.46|0.002
82383798|NCT01575834|164478679|SUPERIORITY||Odds Ratio (OR)|0.11||||0.011|TWO_SIDED|95.0|0.01|0.87|||Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.87|0.01|0.011
82383799|NCT01575834|164478680|SUPERIORITY||Odds Ratio (OR)|0.06|||<|0.001|TWO_SIDED|95.0|0.01|0.44|||Regression, Logistic|Based on logistic regression model adjusted for age and prevalent vertebral fracture stratification variables; p-value based on score test.|Values \< 1 for odds ratio favor romosozumab.|||0.44|0.01|< 0.001
82383800|NCT01575834|164478681|SUPERIORITY||LS Mean Difference|12.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|12.4|12.9|||ANCOVA|||The treatment comparison of BMD at the lumbar spine was analyzed using an analysis of covariance (ANCOVA) model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||12.9|12.4|< 0.001
82519362|NCT01362140|164733472|SUPERIORITY_OR_OTHER|||||||0.008|||||||Chi-squared|||"The primary hypothesis to be tested was that the percentage of participants with at least~1 RBC transfusion from week 5 to the EOTP was lower in the darbepoetin alfa group than in the placebo group. This hypothesis was confirmed if the incidence of RBC transfusion in the darbepoetin alfa group was lower and had a p-value \< 0.05 from a 2-sided Chi-square test."||||0.008
82637152|NCT04594213|164988799|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82637153|NCT04594213|164988800|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637154|NCT04594213|164988800|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82383801|NCT01575834|164478682|SUPERIORITY||LS Mean Difference|11.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|10.8|11.4|||ANCOVA|||The treatment comparison of BMD at the lumbar spine was analyzed using an analysis of covariance (ANCOVA) model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||11.4|10.8|< 0.001
82383802|NCT01575834|164478683|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|5.6|6.0|||ANCOVA|||The treatment comparison of BMD at the total hip was analyzed using an ANCOVA model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||6.0|5.6|< 0.001
82383803|NCT01575834|164478684|SUPERIORITY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|5.1|5.5|||ANCOVA|||The treatment comparison of BMD at the total hip was analyzed using an ANCOVA model which included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.5|5.1|< 0.001
82383804|NCT01575834|164478685|SUPERIORITY||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|4.9|5.4|||ANCOVA|||The treatment comparison of BMD at the femoral neck was analyzed using an ANCOVA model which included included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.4|4.9|< 0.001
82383805|NCT01575834|164478686|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|4.7|5.2|||ANCOVA|||The treatment comparison of BMD at the femoral neck was analyzed using an ANCOVA model which included included treatment, age and prevalent vertebral fracture stratification variables, and baseline value of the endpoint, machine type and machine type-by-baseline value interaction.||5.2|4.7|< 0.001
82383806|NCT00232739|164478693|SUPERIORITY_OR_OTHER||Primary analysis posterior probability|0.9926||||||||||The primary analysis of comparing Sirolimus stent with POBA using Bayesian regression model yields that Sirolimus is superior to POBA in reducing the BAR risk.|Bayesian regression model|Multi-level Bayesian regression model was used in the secondary analysis|Secondary analysis for comparing Sirolimus stent with BMS1 and BMS2 signified that Sirolimus stent is superior to POBA, BMS1 and BMS2 in reducing the BAR risk.|Historical control groups consist of propensity-scored matched cohorts (100 patients each, based on Reference Vessel Diameter, lesion length, diabetes, left anterior artery diseased vessel, and gender) of plain old balloon angioplasty (POBA), first generation (Palmaz-Schatz) bare metal stent (BMS1), and BX VELOCITY bare metal stent (BMS2). Study showed the risk of 6-month in-lesion binary angiographic restenosis (BAR) was much lower for the 2.25 Sirolimus stent compared with POBA, BMS1 or BMS2.||||
82383807|NCT02282813|164478734|SUPERIORITY_OR_OTHER|||||||0.1041|||||||Cochran-Mantel-Haenszel|||||||0.1041
82383808|NCT02282813|164478735|SUPERIORITY_OR_OTHER|||||||0.0503|||||||Cochran-Mantel-Haenszel|||||||.0503
82383809|NCT02282813|164478736|SUPERIORITY_OR_OTHER|||||||0.4817|||||||Cochran-Mantel-Haenszel|||||||0.4817
82383810|NCT02282813|164478737|SUPERIORITY_OR_OTHER|||||||0.8086|||||||Cochran-Mantel-Haenszel|||||||0.8086
82383811|NCT01514292|164478738|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Fisher Exact|||"Hence, the hypothesis is established as:~Ho: pi \< 71.5% Ha: pi \>71.5% Thus, the objective is to conclude that the proportion of G4 Sensor-YSI points in the present study meeting the 20 mg/dL/20% criterion is no worse than the existing FDA-approved SEVEN PLUS System. The null hypothesis will be rejected if pi observed in this study is greater than 71.5%, the G4 System performance is no worse than the historical performance of the existing FDA approved CGM system will be concluded."||||0.0001
82383812|NCT00463047|164478739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.18|0.29|||Mixed effects ANOVA|Crossover analysis||The statistical hypothesis to be tested was:HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID15 for double-blind episodes for which patients use FBT and oxycodone (OXY), respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.29|0.18|<0.0001
82383813|NCT00463047|164478740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.0081|TWO_SIDED|95.0|0.01|0.05||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID5 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.05|0.01|0.0081
82383814|NCT00463047|164478741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.05|0.13||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.13|0.05|<0.0001
82442474|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|86.33|||<|0.001|TWO_SIDED|95.0|64.87|108.29||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||108.29|64.87|<0.001
82637155|NCT04594213|164988801|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637156|NCT04594213|164988801|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637157|NCT04594213|164988802|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82637158|NCT04594213|164988803|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82637159|NCT04594213|164988803|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82442475|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|82.14|||<|0.001|TWO_SIDED|95.0|63.0|101.66||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||101.66|63.00|<0.001
82442476|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|107.26|||<|0.001|TWO_SIDED|95.0|82.03|133.23||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||133.23|82.03|<0.001
82519363|NCT01362140|164733473|SUPERIORITY_OR_OTHER|||||||0.017|||||||Cochran-Mantel-Haenszel|The overall 2-sided CMH test with IPSS score as stratification factor.||If the primary hypothesis was confirmed, the secondary hypothesis to be tested was that the percentage of participants achieving an IWG erythroid response during the 24-week double-blind treatment period was greater in the darbepoetin alfa group than in the placebo group. This hypothesis was confirmed if erythroid response was higher in the darbepoetin alfa group and the p-value was \< 0.05 from a 2-sided Cochran-Mantel-Haenszel test using the IPSS as a stratification factor.||||0.017
82519364|NCT02195986|164733494|EQUIVALENCE|Bioequivalence was established for the primary endpoint if the 90% confidence interval for the difference of responder rates (test - reference) from baseline to Day 8 for the primary endpoint is contained within \[-0.20, 0.20\], using the per-protocol population.|Difference|-0.0062|||||TWO_SIDED|90.0|-0.1209|0.1084||||||The compound hypothesis to test was: H0: PT -PR \< -.20 or PT -PR \> .20 versus HA : -.20 ≤ PT -PR ≤ .20 Where PT = cure rate of test treatment, and PR = cure rate of reference treatment.||0.1084|-0.1209|
82383815|NCT00463047|164478742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|0.3|0.45||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.45|0.30|<0.0001
82442477|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.87||||0.104|TWO_SIDED|95.0|-3.8|49.68||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||49.68|-3.80|0.104
82571876|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.945|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Middle - Middle Night||0.2|-0.2|0.9450
82637160|NCT03764813|164988806|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|||Group comparison is carried out among HbF values grouped according to the transfusion regimen (only cord blood transfusions, only adult transfusions, both cord and adult transfusions).||||<0.0001
82383816|NCT00463047|164478743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.2|0.35||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID45 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.35|0.20|<0.0001
82383817|NCT00463047|164478744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|0.08|0.25||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID60 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.25|0.08|<0.0001
82383818|NCT00463047|164478751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|0.39|0.58|||ANOVA|||||0.58|0.39|<0.0001
82383819|NCT00463047|164478752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|0.7|1.16|||ANOVA|||||1.16|0.70|<0.0001
82383820|NCT00463047|164478753|SUPERIORITY_OR_OTHER|||||||0.1966||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.1966
82442478|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|18.68||||0.123|TWO_SIDED|95.0|-5.11|42.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||42.56|-5.11|0.123
82442479|NCT00996801|164593649|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|43.8||||0.003|TWO_SIDED|95.0|12.85|75.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||75.06|12.85|0.003
82442480|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|187.31|||<|0.001|TWO_SIDED|95.0|154.44|221.25||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||221.25|154.44|<0.001
82637161|NCT03764813|164988807|SUPERIORITY||Median Difference (Final Values)|0.165|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82383821|NCT00463047|164478754|SUPERIORITY_OR_OTHER|||||||0.0275||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0275
82383822|NCT00463047|164478755|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0001
82383823|NCT00463047|164478756|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||<0.0001
82383824|NCT00463047|164478757|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0004
82383825|NCT00463047|164478758|SUPERIORITY_OR_OTHER|||||||0.0074||95.0|||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0074
82383826|NCT00463047|164478759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|0.55|0.83||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||||0.83|0.55|<0.0001
82442481|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|200.29|||<|0.001|TWO_SIDED|95.0|161.21|240.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||240.91|161.21|<0.001
82442482|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|224.3|||<|0.001|TWO_SIDED|95.0|180.19|270.39||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||270.39|180.19|<0.001
82442483|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|48.29||||0.034|TWO_SIDED|95.0|3.75|93.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||93.11|3.75|0.034
82637162|NCT03764813|164988808|SUPERIORITY||Median Difference (Final Values)|0.537|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82637163|NCT03764813|164988809|SUPERIORITY||||||<|0.0001|||||||Kruskal-Wallis|||Group comparison is carried out among HbF values grouped according to the transfusion regimen (only cord blood transfusions, only adult transfusions, both cord and adult transfusions).||||<0.0001
82637164|NCT02898662|164988817|OTHER|The null hypothesis was that during the 52-week double-blind treatment period, the time to LOAC in the AZD1419 arm was equal to the corresponding time to LOAC in the placebo arm.|Hazard Ratio (HR)|1.05||||0.5722|TWO_SIDED|95.0|0.59|1.87||1-sided p-value|Regression, Cox||Hazard ratio \< 1 favours AZD1419 over placebo.|Comparison between groups for time to LOAC. Cox regression model analysis with age and gender included as covariates.||1.87|0.59|0.5722
82637165|NCT02898662|164988818|OTHER||Odds Ratio (OR)|1.86||||0.2006|TWO_SIDED|95.0|0.72|4.79||2-sided p-value|Generalized estimating equation analysis|||Comparison between groups for participants experiencing LOAC. Odds ratio was estimated using a generalized linear model based on a generalized estimating equation approach fitting treatment, visit and age and gender as covariates.||4.79|0.72|0.2006
82637166|NCT02898662|164988819|OTHER||LS Mean difference|-0.02||||0.8166|TWO_SIDED|95.0|-0.22|0.17||2-sided p-value|Repeated measures analysis|||Comparison between groups for ACQ-5 score. Repeated measures analysis.||0.17|-0.22|0.8166
82637167|NCT02898662|164988820|OTHER||LS Mean difference|-0.03||||0.8412|TWO_SIDED|95.0|-0.32|0.26||2-sided p-value|Repeated measures analysis|||Comparison between groups for asthma daily diary score. Repeated measures analysis.||0.26|-0.32|0.8412
82637168|NCT02898662|164988821|OTHER|The null hypothesis was that the time to moderate or severe exacerbation was not different between AZD1419 and placebo.|Hazard Ratio (HR)|0.8||||0.5477|TWO_SIDED|95.0|0.38|1.67||2-sided p-value|Regression, Cox||Hazard ratio \< 1 favours AZD1419 over placebo.|Comparison between groups for time to moderate or severe asthma exacerbation. Cox regression model analysis with age and gender included as covariates.||1.67|0.38|0.5477
82637169|NCT02898662|164988821|OTHER||Odds Ratio (OR)|0.88||||0.7294|TWO_SIDED|95.0|0.41|1.86||2-sided p-value|Generalized estimating equation analysis|||Comparison between groups for participants with moderate or severe asthma exacerbation. Odds ratio was estimated using a generalized linear model based on a generalized estimating equation approach fitting treatment and visit as covariates.||1.86|0.41|0.7294
82637170|NCT02898662|164988823|OTHER||LS Mean difference|0.06||||0.3764|TWO_SIDED|95.0|-0.08|0.2||2-sided p-value|Repeated measures analysis|||Comparison between groups for pre-BD FEV1. Repeated measures analysis.||0.20|-0.08|0.3764
82637171|NCT02898662|164988823|OTHER||LS Mean difference|-0.03||||0.7013|TWO_SIDED|95.0|-0.17|0.11||2-sided p-value|Repeated measures analysis|||Comparison between groups for post-BD FEV1. Repeated measures analysis.||0.11|-0.17|0.7013
82637172|NCT02898662|164988824|OTHER||LS Mean difference|-0.32||||0.9686|TWO_SIDED|95.0|-16.54|15.9||2-sided p-value|Repeated measures analysis|||Comparison between groups for PEF. Repeated measures analysis.||15.90|-16.54|0.9686
82383827|NCT00463047|164478761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5054||||0.3022|TWO_SIDED|95.0|0.7|3.3|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||3.3|0.7|0.3022
82383828|NCT00463047|164478762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4042||||0.0268|TWO_SIDED|95.0|1.0|1.9|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|1.0|0.0268
82571877|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6343|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Middle - Middle Night||0.1|-0.2|0.6343
82637173|NCT02898662|164988825|OTHER||LS Mean difference|-2.02||||0.5403|TWO_SIDED|95.0|-8.55|4.52||2-sided p-value|Repeated measures analysis|||Comparison between groups for FeNO. Repeated measures analysis.||4.52|-8.55|0.5403
82637174|NCT03432819|164988834|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|9.24||||0.06|TWO_SIDED|95.0|-0.55|19.03|||Regression, Linear|||||19.03|-0.55|0.06
82637175|NCT03432819|164988835|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Final Values)|4.5||||0.02|TWO_SIDED|95.0|0.7|8.3|||Regression, Linear|||||8.30|0.70|0.02
82383829|NCT00463047|164478763|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4631||||0.0008|TWO_SIDED|95.0|1.2|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.2|0.0008
82383830|NCT00463047|164478764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3184||||0.0084|TWO_SIDED|95.0|1.1|1.6|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.1|0.0084
82383831|NCT00463047|164478765|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0788||||0.5283|TWO_SIDED|95.0|0.9|1.4|||Generalize estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.9|0.5283
82383832|NCT00463047|164478766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9491||||0.711|TWO_SIDED|95.0|0.7|1.3|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.3|0.7|0.7110
82383833|NCT00463047|164478767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5355||||0.3288|TWO_SIDED|95.0|0.2|1.9|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|0.2|0.3288
82383834|NCT00463047|164478768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1485||||0.5145|TWO_SIDED|95.0|0.8|1.7|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.7|0.8|0.5145
82383835|NCT00463047|164478769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4481||||0.0191|TWO_SIDED|95.0|1.1|2.0|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.0|1.1|0.0191
82383836|NCT00463047|164478770|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4396||||0.0006|TWO_SIDED|95.0|1.2|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.2|0.0006
82383837|NCT00463047|164478771|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3426||||0.0044|TWO_SIDED|95.0|1.1|1.6|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.1|0.0044
82519365|NCT02195986|164733495|SUPERIORITY|Superiority test of test product vs placebo|Difference|0.3766|||<|0.0001|TWO_SIDED|95.0|0.2743|0.479|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the primary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.4790|0.2743|<0.0001
82519366|NCT02195986|164733495|SUPERIORITY|Superiority test of reference product vs placebo|Difference|0.3542|||<|0.0001|TWO_SIDED|95.0|0.257|0.4514|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the primary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.4514|0.2570|<0.0001
82519367|NCT02195986|164733496|EQUIVALENCE|Bioequivalence was established for the secondary endpoint if the 90% confidence interval for the difference of responder rates (test - reference) from baseline to Day 8 for the secondary endpoint is contained within \[-0.20, 0.20\], using the per-protocol population.|Difference|0.05|||||TWO_SIDED|90.0|-0.0687|0.1686||||||||0.1686|-0.0687|
82519368|NCT02195986|164733497|SUPERIORITY|Superiority test of test product vs placebo|Difference|0.1387||||0.1092|TWO_SIDED|95.0|-0.028|0.3054|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the secondary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.3054|-0.0280|0.1092
82519369|NCT02195986|164733497|SUPERIORITY|Superiority test of reference product vs placebo|Difference|0.1196||||0.1805|TWO_SIDED|95.0|-0.0491|0.2883|||Chi-squared|||Both the test and reference products should both be statistically superior to placebo (p\<0.05, two-sided) using the Chi squared test with Yate's correction for the secondary endpoint responder rate, using the ITT study population and last observation carried forward. The compound hypothesis to test was: H0: PT - PP ≤ 0 versus HA: PT - PP \> 0; Where PT = cure rate of test treatment, and PP = cure rate of placebo.||0.2883|-0.0491|0.1805
82519370|NCT02415400|164733555|NON_INFERIORITY|Non-Inferiority (NI) margin = 1.2|||||<|0.0001|||||||1-sided p-value for NI test|||Separate hierarchical testing was performed for apixaban vs VKA: 1) Non-inferiority for the primary endpoint.||||<0.0001
82519371|NCT02415400|164733555|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82|||2-sided p-value for superiority test|||Separate hierarchical testing was performed for apixaban vs VKA: 2) Superiority for the primary endpoint||0.82|0.58|<0.0001
82519372|NCT02415400|164733556|SUPERIORITY||Hazard Ratio (HR)|1.88|||<|0.0001|TWO_SIDED|95.0|1.58|2.23|||2-sided p-value for superiority test|||Separate hierarchical testing was performed for aspirin vs placebo: 2) Superiority for the primary endpoint.||2.23|1.58|<0.0001
82519373|NCT02415400|164733557|SUPERIORITY||||||<|0.0001|||||||2-sided p-value for superiority test|||Separate hierarchical testing was performed for apixaban vs VKA: 2) Superiority for the primary endpoint.||||<0.0001
82519374|NCT02415400|164733558|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0033|TWO_SIDED|95.0|0.75|0.94|||2-sided p-value|||Separate hierarchical testing was performed for apixaban vs VKA: 3) Superiority for all-cause death and all-cause rehospitalization.||0.94|0.75|0.0033
82519375|NCT02415400|164733559|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.2219|TWO_SIDED|95.0|0.96|1.2|||2-sided p-value|||Separate hierarchical testing was performed for aspirin vs placebo: 3) Superiority for all-cause death and all-cause rehospitalization.||1.20|0.96|0.2219
82519376|NCT02415400|164733560|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.437|TWO_SIDED|95.0|0.75|1.13|||2-sided p-value|||Separate hierarchical testing was performed for apixaban vs VKA: 4) Superiority for all-cause death and ischemic events.||1.13|0.75|0.4370
82519377|NCT02415400|164733561|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1742|TWO_SIDED|95.0|0.7|1.07|||2-sided p-value|||Separate hierarchical testing was performed for aspirin vs placebo: 4) Superiority for all-cause death and ischemic events.||1.07|0.70|0.1742
82519378|NCT00395876|164733563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.6||||0.0002||95.0|18.4|54.8||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||54.8|18.4|0.0002
82519379|NCT00395876|164733564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4||||0.1385||95.0|-3.1|25.8||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||25.8|-3.1|0.1385
82519380|NCT00395876|164733565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.9||||0.0093||95.0|7.1|42.6||Stratified by baseline weight (\< 30 kg, ≥ 30 kg)|Cochran-Mantel-Haenszel|||||42.6|7.1|0.0093
82571878|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3169|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early Hours - Morning||0.1|-0.3|0.3169
82442484|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|61.27||||0.019|TWO_SIDED|95.0|8.8|114.22||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||114.22|8.80|0.019
82442485|NCT00996801|164593650|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|85.28||||0.002|TWO_SIDED|95.0|26.7|144.63||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||144.63|26.70|0.002
82442486|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|133.03|||<|0.001|TWO_SIDED|95.0|110.01|156.75||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||156.75|110.01|<0.001
82442487|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|133.03||||0.001|TWO_SIDED|95.0|110.01|156.75||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||156.75|110.01|0.001
82571879|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.0178|TWO_SIDED|95.0|-0.4|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insomnia Early Hours - Morning||0.0|-0.4|0.0178
82383838|NCT00463047|164478772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1448||||0.2184|TWO_SIDED|95.0|0.9|1.4|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.9|0.2184
82571880|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8504|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early Hours - Morning||0.2|-0.2|0.8504
82383839|NCT00463047|164478773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9249||||0.5808|TWO_SIDED|95.0|0.7|1.2|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.2|0.7|0.5808
82571881|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5647|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insomnia Early Hours - Morning||0.1|-0.2|0.5647
82383840|NCT00463047|164478774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8908|||<|0.0001|TWO_SIDED|95.0|1.7|2.2|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||2.2|1.7|<0.0001
82383841|NCT00463047|164478775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5841|||<|0.0001|TWO_SIDED|95.0|1.4|1.8|||Generalized estimating equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.8|1.4|<0.0001
82383842|NCT01611883|164478818|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Ezetimibe treatment group will be considered non-inferior to the placebo control group if the upper bound of the two-sided 95% confidence interval (CI) of the between-treatment difference (ezetimibe minus placebo) in means for change in HbA1c from baseline to the end of treatment does not exceed 0.5%.|Difference in Least-squares Means|0.08|||||TWO_SIDED|95.0|-0.07|0.23|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||0.23|-0.07|
82523239|NCT01939548|164741718|SUPERIORITY_OR_OTHER||LSM Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.441||0.3202|TWO_SIDED|80.0|-1.01|0.13||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Uncontrolled hostility/excitement symptom score comparison of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.13|-1.01|0.3202
82571882|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5914|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Work and Activities||0.2|-0.3|0.5914
82383843|NCT01611883|164478819|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|0.0|||||TWO_SIDED|95.0|-0.47|0.47|||Longitudinal analysis of covariance||ezetimibe minus placebo|||0.47|-0.47|
82383844|NCT01611883|164478820|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-4.8|||||TWO_SIDED|95.0|-12.1|2.5|||Longitudinal Analysis of Covariance||ezetimibe minus placebo|||2.5|-12.1|
82383845|NCT01611883|164478821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|||||||Fisher Exact|||Comparison of percentage difference between ezetimibe and placebo||||0.779
82383846|NCT01611883|164478822|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|||||||Fisher Exact|||Comparison of percentage difference between ezetimibe and placebo||||0.365
82383847|NCT01611883|164478823|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-21.05|||<|0.001|TWO_SIDED|95.0|-25.06|-17.03|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-17.03|-25.06|<0.001
82383848|NCT01611883|164478824|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-13.54|||<|0.001|TWO_SIDED|95.0|-16.66|-10.42|||Longitudinal analysis of covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-10.42|-16.66|<0.001
82383849|NCT01611883|164478825|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-11.36||||0.025|TWO_SIDED|95.0|-21.27|-1.44|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-1.44|-21.27|0.025
82383850|NCT01611883|164478826|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|2.45||||0.246|TWO_SIDED|95.0|-1.71|6.61|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||6.61|-1.71|0.246
82383851|NCT01611883|164478827|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-19.07|||<|0.001|TWO_SIDED|95.0|-22.71|-15.43|||Longitudinal Analysis of Covariance|"Treatment group, HbA1c level, insulin use, time, and time × treatment group interaction as factors, and baseline as covariate"|ezetimibe minus placebo|||-15.43|-22.71|<0.001
82519381|NCT02270450|164733574|SUPERIORITY||Mean Difference (Net)|2.87|STANDARD_ERROR_OF_MEAN|4.3||0.5|TWO_SIDED|||||A p-value less than 0.05 is considered statistically significant.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|"A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the number of good days between patients assigned to surgery and patients assigned to non-surgical management."||||0.50
82519382|NCT02270450|164733575|SUPERIORITY||Mean Difference (Net)|-1.09||||0.64|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the length of the initial hospital stay between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.64
82383852|NCT01622673|164478831|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.678|||||TWO_SIDED|90.0|0.531|0.866|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for TUMS® + raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.866|0.531|
82571883|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4603|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Work and Activities||0.2|-0.4|0.4603
82383853|NCT01622673|164478831|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% CI falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.373|||||TWO_SIDED|90.0|0.293|0.475|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is the geometric least squares mean C12hrs for MINTOX® + raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.475|0.293|
82383854|NCT01622673|164478832|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.437|||||TWO_SIDED|90.0|0.344|0.554|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for MINTOX® before raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.554|0.344|
82383855|NCT01622673|164478832|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.433|||||TWO_SIDED|90.0|0.341|0.55|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean C12hrs for MINTOX® after raltegravir / geometric least squares mean C12hrs for raltegravir alone|||0.550|0.341|
82442488|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|131.53|||<|0.001|TWO_SIDED|95.0|110.7|152.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||152.94|110.70|<0.001
82383856|NCT01622673|164478833|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.445|||||TWO_SIDED|90.0|0.35|0.565|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for TUMS® + raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.565|0.350|
82383857|NCT01622673|164478833|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.51|||||TWO_SIDED|90.0|0.402|0.646|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® + raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.646|0.402|
82519383|NCT02270450|164733576|SUPERIORITY||Odds Ratio (OR)|0.82||||0.6|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Logistic|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A parallel logistic regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares NG tube use vs no NG tube use between patients assigned to surgery and patients assigned to non-surgical management.||||0.60
82571884|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5637|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Work and Activities||0.2|-0.4|0.5637
82519384|NCT02270450|164733577|SUPERIORITY||Mean Difference (Net)|0.64||||0.47|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the number of days of NG tube use between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.47
82442489|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|169.8|||<|0.001|TWO_SIDED|95.0|141.59|199.11||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||199.11|141.59|<0.001
82571885|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4638|TWO_SIDED|95.0|-0.4|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Work and Activities||0.2|-0.4|0.4638
82442490|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|58.57|||<|0.001|TWO_SIDED|95.0|29.42|88.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||88.04|29.42|<0.001
82442491|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|57.07|||<|0.001|TWO_SIDED|95.0|30.76|83.64||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||83.64|30.76|<0.001
82519385|NCT02270450|164733578|SUPERIORITY||Mean Difference (Net)|-4.1||||0.001|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for nausea severity between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.001
82519386|NCT02270450|164733578|SUPERIORITY||Mean Difference (Net)|-1.63||||0.008|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for vomiting severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.008
82442492|NCT00996801|164593651|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|95.34|||<|0.001|TWO_SIDED|95.0|60.4|130.91||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||130.91|60.40|<0.001
82442493|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|53.86|||<|0.001|TWO_SIDED|95.0|39.31|68.6||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||68.60|39.31|<0.001
82442494|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|53.81|||<|0.001|TWO_SIDED|95.0|41.37|66.38||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||66.38|41.37|<0.001
82383858|NCT01622673|164478834|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.485|||||TWO_SIDED|90.0|0.351|0.669|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® before raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.669|0.351|
82571886|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.1846|TWO_SIDED|95.0|0.0|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Retardation||0.2|0.0|0.1846
82571887|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.4837|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Retardation||0.2|-0.1|0.4837
82571888|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.1178|TWO_SIDED|95.0|0.0|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Retardation||0.2|0.0|0.1178
82571889|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.7888|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Retardation||0.1|-0.1|0.7888
82383859|NCT01622673|164478834|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.696|||||TWO_SIDED|90.0|0.504|0.96|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean AUC0-12hrs for MINTOX® after raltegravir / geometric least squares mean AUC0-12hrs for raltegravir alone|||0.960|0.504|
82519387|NCT02270450|164733578|SUPERIORITY||Mean Difference (Net)|-1.31||||0.04|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for bloating severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.04
82519388|NCT02270450|164733578|SUPERIORITY||Mean Difference (Net)|-3.6||||0.01|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for pain severity between patients assigned to surgery and patients and patients assigned to non-surgical management. An interaction term between treatment and pathway was included.||||0.01
82519389|NCT02270450|164733578|SUPERIORITY||Mean Difference (Net)|-1.9||||0.007|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Linear|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A linear regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares the MDASI-GI Symptom Assessment score for constipation severity between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.007
82523240|NCT01939548|164741719|SUPERIORITY_OR_OTHER||LSM Difference|0.04|STANDARD_ERROR_OF_MEAN|0.119||0.7399|TWO_SIDED|80.0|-0.11|0.19||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.19|-0.11|0.7399
82519390|NCT02270450|164733579|SUPERIORITY||Odds Ratio (OR)|0.64||||0.52|TWO_SIDED|||||For all secondary analyses, p-values should be interpreted cautiously as no adjustments for multiple comparisons were made.|Regression, Logistic|Adjusted for treatment, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A parallel logistic regression model was applied to the combined data from the randomized and Patient Choice (non-randomized) pathways, using the intention to treat principle with a treatment indicator variable (surgical vs non-surgical management) based on assignment. The model compares ability to eat between patients assigned to surgery and patients and patients assigned to non-surgical management.||||0.52
82519391|NCT02270450|164733580|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.12|TWO_SIDED|95.0|0.45|1.09|||Regression, Cox|Adjusted for treatment, pathway, admitting attending physician specialty, Zubrod performance status, baseline albumin, and primary cancer site.|Comparing surgery to non-surgical management.|A Cox proportional hazards regression model stratified by pathway (randomized vs Patient Choice) was used to estimate the effect of treatment assignment (surgery vs non-surgical management) on overall survival.||1.09|0.45|0.12
82519392|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Mean change from baseline|-19.6|STANDARD_ERROR_OF_MEAN|5.6||0.0011|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for all patients||||0.0011
82383860|NCT01622673|164478835|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for TUMS® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.476|||||TWO_SIDED|90.0|0.362|0.627|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for TUMS® + raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.627|0.362|
82383861|NCT01622673|164478835|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% CI falls above 0.4 for the geometric least squares mean ratio for MINTOX® + raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.555|||||TWO_SIDED|95.0|0.423|0.729|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and treatment period and random effect for participant|The parameter estimated, geometric least squares mean ratio, is the geometric least squares mean Cmax for MINTOX® + raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.729|0.423|
82383862|NCT01622673|164478836|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® before raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.485|||||TWO_SIDED|90.0|0.332|0.709|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for MINTOX® before raltegravir / geometric least squares mean Cmax for raltegravir alone|||0.709|0.332|
82519393|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Mean change from baseline|-30.8|STANDARD_ERROR_OF_MEAN|6.2|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test the difference between baseline and end of treatment under hyperglycaemia condition for all patients||||<0.0001
82519394|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Change from baseline|-33.4|STANDARD_ERROR_OF_MEAN|6.2|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for hyperfilterers||||<0.0001
82519395|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Mean change from baseline|-44.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under hyperglycaemia condition for hyperfilterers||||<0.0001
82519396|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Mean change from baseline|9.0|STANDARD_ERROR_OF_MEAN|5.9||0.1524|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under euglycaemia condition for non-hyperfilterers||||0.1524
82519397|NCT01392560|164733590|SUPERIORITY_OR_OTHER||Mean change from baseline|-2.4|STANDARD_ERROR_OF_MEAN|7.7||0.7585|||||||Paired t-test||Estimated value = mean of end of treatment - baseline|Test of the difference between baseline and end of treatment under hyperglycaemia condition for non-filterers||||0.7585
82519398|NCT02081846|164733594|SUPERIORITY|||||||0.047|||||||Regression, Logistic|||||||0.047
82519399|NCT02081846|164733595|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
82519400|NCT02081846|164733596|SUPERIORITY|||||||0.82|||||||censored Poisson model|||||||0.82
82519401|NCT02081846|164733597|SUPERIORITY||||||<|0.01|||||||Poisson model|||||||<0.01
82519402|NCT02081846|164733598|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
82519403|NCT02081846|164733599|SUPERIORITY|||||||0.052|||||||Regression, Logistic|||||||0.052
82519404|NCT02081846|164733600|SUPERIORITY|||||||0.12|||||||Regression, Logistic|||||||0.12
82519405|NCT01808313|164733647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.59|||<|0.001|TWO_SIDED|95.0|42.53|64.66|||t-test, 2 sided|||||64.66|42.53|<0.001
82519406|NCT01808313|164733648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|64.36|||<|0.001|TWO_SIDED|95.0|48.72|80.0|||t-test, 2 sided|||||80.00|48.72|<0.001
82519407|NCT01808313|164733650|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-rank test|||Week 12||||<0.001
82519408|NCT01808313|164733650|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon signed-rank test|||Week 24||||0.003
82519409|NCT01808313|164733651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|||<|0.001|TWO_SIDED|95.0|0.366|0.519|||Wilcoxon signed-rank test||Week 12|||0.519|0.366|<0.001
82519410|NCT01808313|164733651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|||<|0.001|TWO_SIDED|95.0|0.303|0.453|||Wilcoxon signed-rank test||Week 24|||0.453|0.303|<0.001
82519411|NCT03301051|164733695|OTHER|Vaccine Efficacy (VE) of VLP vaccine versus placebo = (1 - attack rate in vaccinated participants \[ARV\]/attack rate in unvaccinated participants \[ARU\]) x 100%.|Vaccine Efficacy|34.9|||||TWO_SIDED|95.0|17.6|48.6|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% confidence interval (CI).|||48.6|17.6|
82519412|NCT03301051|164733696|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|38.6|||||TWO_SIDED|95.0|27.6|48.0|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.0|27.6|
82519413|NCT03301051|164733697|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|33.8|||||TWO_SIDED|95.0|14.9|48.5|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.5|14.9|
82519414|NCT03301051|164733698|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|37.6|||||TWO_SIDED|95.0|25.1|48.0|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||48.0|25.1|
82519415|NCT03301051|164733699|OTHER|VE of VLP vaccine versus placebo = (1 - ARV/ARU) x 100%.|Vaccine Efficacy|6.2|||||TWO_SIDED|95.0|0.8|11.3|||||The VE success criterion is defined as a \>40% lower limit of the two-sided 95% CI.|||11.3|0.8|
82442495|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|55.47|||<|0.001|TWO_SIDED|95.0|41.19|69.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||69.94|41.19|<0.001
82442496|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|20.53||||0.009|TWO_SIDED|95.0|5.96|35.03||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||35.03|5.96|0.009
82519416|NCT00622167|164733722|SUPERIORITY_OR_OTHER|||||||0||0.0|||||Not done|||Plaque characteristics including plaque cross-sectional diameter, area measurements, plaque volume, and plaque morphology would be compared between IBIVUS, DSCT and angiography.||||0
82519417|NCT02474927|164733775|OTHER|Descriptive (Pre-Post)||||||0.36|||||||Wilcoxon Signed Rank|||||||0.36
82519418|NCT02474927|164733776|OTHER|Descriptive (pre-post)||||||0.16|||||||Wilcoxon Signed Rank|||||||0.16
82519419|NCT00866840|164733786|OTHER|||||||||||||||||No objective responses were seen in the first phase and accrual was stopped.|No objective responses were seen in the first phase and accrual was stopped.|||
82519420|NCT02625623|164733811|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.8078|TWO_SIDED|95.0|0.88|1.41|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||1.41|0.88|0.8078
82519421|NCT02625623|164733812|SUPERIORITY||Hazard Ratio (HR)|1.73||||1|TWO_SIDED|95.0|1.36|2.21|||Log Rank|The treatment arms were compared using a stratified, 1-sided, log rank Test. The stratification factor was region (Asia versus non Asia).||||2.21|1.36|1.0000
82519422|NCT02625623|164733814|SUPERIORITY||Odds Ratio (OR)|0.709||||0.8764|||||||Cochran-Mantel-Haenszel|The treatment arms were compared by 1-sided CMH test. The stratification factor was region (Asia versus non Asia).||||||0.8764
82519423|NCT02352948|164733826|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.42|0.93|||||Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||0.93|0.42|
82442497|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Mean Squares|20.47||||0.009|TWO_SIDED|95.0|5.96|35.03||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||35.03|5.96|0.009
82442498|NCT00996801|164593652|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.13||||0.009|TWO_SIDED|95.0|4.47|39.89||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 12, at an alpha level of 0.05, two-sided.|Constrained Longitudinal Data Analysis|||||39.89|4.47|0.009
82519424|NCT02352948|164733826|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.109|TWO_SIDED|95.0|0.61|1.05|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||1.05|0.61|0.109
82519425|NCT02352948|164733827|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.49|1.04|||||Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||1.04|0.49|
82519426|NCT02352948|164733827|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.056|TWO_SIDED|95.0|0.59|1.01|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||1.01|0.59|0.056
82519427|NCT02352948|164733828|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.885|TWO_SIDED|95.0|0.74|1.3|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.30|0.74|0.885
82519428|NCT02352948|164733828|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.153|TWO_SIDED|95.0|0.56|1.11|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||1.11|0.56|0.153
82519429|NCT02352948|164733829|SUPERIORITY|||||||0.063||||||The z-test statistic is the ratio of log-transformed ratio of the cumulative hazards in the 2 treatment arms divided by square root of the variance.|z-test|The variance is estimated using the delta method and Greenwood's formula.||For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||||0.063
82519430|NCT02352948|164733830|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.282|TWO_SIDED|95.0|0.68|1.12|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.12|0.68|0.282
82519431|NCT02352948|164733830|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.011|TWO_SIDED|95.0|0.49|0.92|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|As part of the contribution of components analysis for sub-study B, durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||0.92|0.49|0.011
82519432|NCT02352948|164733831|OTHER|Sub-study A was not powered and thus no formal statistical comparisons were performed.|Odds Ratio (OR)|3.87|||||TWO_SIDED|95.0|1.61|10.1|||||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study A: durvalumab monotherapy treatment arm was compared with SoC.||10.10|1.61|
82571890|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9496|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Agitation||0.1|-0.1|0.9496
82571891|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0497|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Agitation||0.0|-0.3|0.0497
82519433|NCT02352948|164733831|SUPERIORITY||Odds Ratio (OR)|2.43||||0.037|TWO_SIDED|95.0|1.1|5.94|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||5.94|1.10|0.037
82519434|NCT02352948|164733831|SUPERIORITY||Odds Ratio (OR)|0.97||||0.923|TWO_SIDED|95.0|0.51|1.89|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with durvalumab monotherapy.||1.89|0.51|0.923
82519435|NCT02352948|164733831|SUPERIORITY||Odds Ratio (OR)|2.46||||0.109|TWO_SIDED|95.0|0.91|8.61|||Regression, Logistic||The analysis was performed using logistic regression adjusting for SoC therapy (gemcitabine/vinorelbine versus erlotinib) and histology (squamous versus all other histology types), with 95% CI calculated by profile likelihood.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with tremelimumab monotherapy.||8.61|0.91|0.109
82519436|NCT02352948|164733835|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.002|TWO_SIDED|95.0|0.49|0.85|||Log Rank|The P-value arises from a stratified log-rank test adjusting for SoC therapy and histology, with ties handled by the Breslow approach.|Hazard ratio and CI are estimated from a stratified Cox proportional hazards model with Breslow method to control for ties, stratification factors SoC therapy, and histology in strata statement, and CI is calculated using profile likelihood approach.|For sub-study B: durvalumab plus tremelimumab treatment arm was compared with SoC.||0.85|0.49|0.002
82571892|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.4189|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Agitation||0.1|-0.2|0.4189
82571893|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1342|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Agitation||0.0|-0.3|0.1342
82442499|NCT01688739|164593659|OTHER||Ratio of Geometric Means|1.1||||0.7595|TWO_SIDED|90.0|0.8|1.4|||ANCOVA||Migraine participants / Healthy Participants|||1.4|0.8|0.7595
82519437|NCT04370054|164733934|NON_INFERIORITY|A repeated measures negative binomial regression model was used to test non-inferiority with non-inferiority margin = 3 bleeds/year at the one-sided alpha level = 0.025.|Mean Difference (Final Values)|-3.49|||=|0.004|TWO_SIDED|95.0|-6.06|-0.91||One-sided p-value is reported.|Generalized linear model (GLM)||Difference in mean = Mean PF-07055480 Total ABR - Mean FVIII Prophylaxis Total ABR.|A repeated measures GLM was used with bleeds as dependent variable in negative binomial distribution, an interaction of duration by treatment, and 'participant' as random and treatment \& duration of follow-up as fixed effect.||-0.91|-6.06|=0.0040
82519438|NCT04370054|164733935|SUPERIORITY||||||=|0.0086||||||One-sided p-value is reported.|One-sided exact binomial proportion test|||||||=0.0086
82519439|NCT04370054|164733936|NON_INFERIORITY|A repeated measures negative binomial regression model was used to test non-inferiority with non-inferiority margin = 3 bleeds/year at the one-sided alpha level = 0.025.|Mean Difference (Final Values)|-4.01|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.45||One-sided p-value is reported.|Repeated measures GLM||Difference in mean = Mean PF-07055480 Total ABR - Mean FVIII Prophylaxis Total ABR.|A repeated measures GLM was used with bleeds as dependent variable in negative binomial distribution, an interaction of duration by treatment, and 'participant' as random and treatment \& duration of follow-up as fixed effect.||-2.45|-5.57|<0.0001
82519440|NCT04370054|164733937|SUPERIORITY||Mean Difference (Final Values)|-124.18|||<|0.0001|TWO_SIDED|95.0|-139.47|108.89||One-sided p-value is reported.|Paired t-test||Treatment Difference = (PF-07055480 AIR - FVIII Prophylaxis AIR).|||108.89|-139.47|<0.0001
82519441|NCT04370054|164733939|SUPERIORITY||Mean Difference (Final Values)|-4076.06|||<|0.0001|TWO_SIDED|95.0|-4728.3|-3423.8||One-sided p-value is reported.|Paired t-test||Treatment Difference (FVIII Consumption post-IP Infusion - FVIII Consumption during FVIII Prophylaxis).|||-3423.8|-4728.3|<0.0001
82442500|NCT01688739|164593661|OTHER||Ratio of Geometric Means|1.1||||0.5481|TWO_SIDED|90.0|0.9|1.4|||ANCOVA||Migraine participants / Healthy participants|||1.4|0.9|0.5481
82519442|NCT05054816|164734033|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections.||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
82519443|NCT05054816|164734034|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
82442501|NCT01688739|164593662|OTHER||Ratio of Geometric Means|1.1||||0.5506|TWO_SIDED|90.0|0.9|1.4|||ANCOVA||Migraine participants / Healthy participants|||1.4|0.9|0.5506
82519444|NCT05054816|164734035|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
82519445|NCT05054816|164734036|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between two conditions: investigative feature, comparative feature 1|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
82519446|NCT05054816|164734037|SUPERIORITY||||||<|0.05||||||The p-value was adjusted for multiple comparisons between three conditions: investigative feature, comparative feature 1, comparative feature 2|ANOVA|The data were protected against deviations from sphericity by modifying degrees of freedom using Greenhouse-Geisser corrections||Previous research with subjective ratings has repeatedly shown that data collected with 15-25 participants can yield significant results.||||<0.05
82519447|NCT01962493|164734038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.155||0.1313|TWO_SIDED|95.0|-0.51|0.1||Analysis based on square root transformation. Results back transformed for interpretation.|ANCOVA|Results were obtained from ANCOVA model with Site, Treatment, Treatment X Site, Smoking Status as fixed effects and baseline MLSI as a covariate.|Difference is first named treatment minus second named treatment. A negative difference favors the first named treatment|Null hypothesis stated that there was no difference between treatment groups||0.10|-0.51|0.1313
82519448|NCT04098939|164734078|EQUIVALENCE|Bland-Altman plots|Bland-Altman plots|0.39|||<|0.05|TWO_SIDED|95.0|0.26|1.04||Analysis of Bland-Altman plots|Bland-Altman plots|Analysis of Bland-Altman plots|||Analysis of Bland-Altman plots|1.04|0.26|<0.05
82519449|NCT02985866|164734082|SUPERIORITY|The first co-primary end point was superiority of CLC over SAP in terms of CGM-measured time below 70 mg/dL. The treatment groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect. Missing baseline data were handled by direct likelihood method. Model residuals were confirmed to be approximately normally distributed.|||||<|0.0001||||||To address the issue of multiple comparisons with 2 primary outcomes, the intervention was considered effective only if both co-primary outcomes were statistically significant at 5% level. P value for noninferiority NI (prespecified NI limit = 5%).|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Statistical analyses were performed on an intention-to-treat basis, and all participants with any amount of post randomization data were included in all analyses.||||<0.0001
82519450|NCT02985866|164734083|NON_INFERIORITY|The second co-primary end point was noninferiority in CGM-measured time above 180 mg/dL, with a noninferiority limit of 5%. The treatment groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect. Missing baseline data were handled by direct likelihood method. Model residuals were confirmed to be approximately normally distributed.|||||<|0.0001||||||To address the issue of multiple comparisons with 2 primary outcomes, the intervention was considered effective only if both co-primary outcomes were statistically significant at 5% level. P value for noninferiority NI (prespecified NI limit = 5%).|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Statistical analyses were performed on an intention-to-treat basis, and all participants with any amount of post randomization data were included in all analyses.||||<0.0001
82519451|NCT02985866|164734084|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82571894|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.9202|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Psychic||0.2|-0.3|0.9202
82383863|NCT01622673|164478836|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis will be supported if the lower limit of the 90% confidence interval (CI) falls above 0.4 for the geometric least squares mean ratio for MINTOX® after raltegravir versus raltegravir alone|Geometric Least Squares Mean Ratio|0.775|||||TWO_SIDED|90.0|0.53|1.132|||Mixed Models Analysis|Analysis incorporated fixed effect for treatment and random effect for participant|The parameter estimated, geometric least squares mean ratio, is geometric least squares mean Cmax for MINTOX® after raltegravir / geometric least squares mean Cmax for raltegravir alone|||1.132|0.530|
82519452|NCT02985866|164734085|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519453|NCT02985866|164734086|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519454|NCT02985866|164734087|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519455|NCT02985866|164734088|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519456|NCT02985866|164734089|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519457|NCT02985866|164734090|SUPERIORITY|Same as for primary outcome 1|||||<|0.05||||||All secondary analyses were corrected for multiple comparisons using the false discovery rate at a 10% level for statistical significance. All secondary P values reported are two-sided.|Mixed Models Analysis|The groups were compared using linear models while adjusting for age, corresponding baseline value, previous CGM use, and a random center effect.||Same as for the primary outcomes||||<0.05
82519458|NCT04386096|164734094|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82383864|NCT03123120|164478851|OTHER||Risk Difference (RD)|-0.232|||||TWO_SIDED|95.0|-0.568|0.118|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.118|-0.568|
82383865|NCT03123120|164478852|OTHER||Risk Difference (RD)|-0.054|||||TWO_SIDED|95.0|-0.404|0.21|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.210|-0.404|
82519459|NCT04386096|164734096|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Change in Adolescent Pre-Intention Factors||||0.30
82519460|NCT04386096|164734096|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Change in Parent Pre-Intention Factors||||0.71
82519461|NCT04386096|164734097|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Change in Adolescent Intention to take/give ADHD medicine regularly||||0.29
82519462|NCT04386096|164734097|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||Change in Parent Intention to take/give ADHD medicine regularly||||0.19
82519463|NCT04386096|164734098|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
82519464|NCT04386096|164734099|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.81
82519465|NCT04386096|164734101|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Change in Adolescent: Child Seek||||0.10
82637176|NCT03432819|164988836|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Final Values)|0.08||||0.39|TWO_SIDED|95.0|-0.1|0.26|||Regression, Linear|||||0.26|-0.10|0.39
82637177|NCT03432819|164988837|SUPERIORITY||Median Difference (Final Values)|-0.09||||0.54|TWO_SIDED|95.0|-0.37|0.2|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.20|-0.37|0.54
82637178|NCT03432819|164988838|SUPERIORITY||Median Difference (Final Values)|-0.02||||0.81|TWO_SIDED|95.0|-0.18|0.14|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.14|-0.18|0.81
82519466|NCT04386096|164734101|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Change in Adolescent: Child Express||||0.51
82519467|NCT04386096|164734101|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||Change in Adolescent: Parent Seek||||0.84
82519468|NCT04386096|164734101|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||Change in Adolescent: Parent Express||||0.93
82519469|NCT04386096|164734101|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Change in Adolescent: Joint/Options||||0.43
82519470|NCT04386096|164734101|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Change in Parent: Child Seek||||0.94
82519471|NCT04386096|164734101|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Change in Parent: Child Express||||0.79
82519472|NCT04386096|164734101|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Change in Parent: Parent Seek||||0.61
82519473|NCT04386096|164734101|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Change in Parent: Parent Express||||0.10
82519474|NCT04386096|164734101|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||Change in Parent: Joint/Options||||0.98
82519475|NCT04402866|164734103|OTHER||Common Odds Ratio|1.142||||0.6137|TWO_SIDED|95.0|0.706|1.846|||Van Elteren test||Common Odds Ratio (TD-0903 vs. placebo) and corresponding 95% Wald confidence interval (CI) were obtained from the proportional odds regression model of RFD adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.||1.846|0.706|0.6137
82519476|NCT04402866|164734104|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|LS mean difference|-0.51||||0.962|TWO_SIDED|95.0|-21.95|20.92|||Mixed model repeated measures model|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group||20.92|-21.95|0.962
82519477|NCT04402866|164734105|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.153||||0.5918|TWO_SIDED|95.0|0.692|1.922|||Van Elteren test||Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 7||1.922|0.692|0.5918
82383866|NCT03123120|164478853|OTHER||Risk Difference (RD)|-0.286|||||TWO_SIDED|95.0|-0.602|0.101|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.101|-0.602|
82383867|NCT03123120|164478854|OTHER||Risk Difference (RD)|0.143|||||TWO_SIDED|95.0|-0.197|0.399|||||Risk difference was calculated as the observed proportion of response from Spesolimab minus the one from Placebo. Newcombe method was used in the calculation of the 95% confidence interval around the risk difference.|||0.399|-0.197|
82519478|NCT04402866|164734105|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.105||||0.6978|TWO_SIDED|95.0|0.651|1.878|||Van Elteren test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 14|Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|1.878|0.651|0.6978
82519479|NCT04402866|164734105|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.295||||0.399|TWO_SIDED|95.0|0.702|2.388|||Van Elteren test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 21|Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|2.388|0.702|0.3990
82519480|NCT04402866|164734105|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Odds Ratio (OR)|1.18||||0.6445|TWO_SIDED|95.0|0.605|2.299|||Van Elteren test||Between-group comparisons analyzed using a proportional odds model adjusting for baseline age strata (≤ 60 years vs. \> 60 years).|Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group on Day 28||2.299|0.605|0.6445
82519481|NCT04402866|164734106|OTHER|Since this was a Phase 2 study, it was not powered for any of the secondary endpoints.|Risk Difference (RD)|5.06||||0.3005|TWO_SIDED|95.0|-4.5|14.63||The p-value was calculated using the Cochran-Mantel-Haenszel chi-square test stratified by baseline age group (≤ 60 years vs. \> 60 years)|Cochran-Mantel-Haenszel chi-square test|||Part 2: TD-0903 - Parallel-Group 3 mg versus Part 2: Matching Placebo - Parallel-Group||14.63|-4.50|0.3005
82519482|NCT04149405|164734114|OTHER||Mean Difference (Final Values)|0.01|||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||||||<0.01
82519483|NCT04149405|164734115|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82519484|NCT04149405|164734116|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82519485|NCT04149405|164734117|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82519486|NCT04818346|164734121|SUPERIORITY||Least squares mean difference|-21.41|STANDARD_ERROR_OF_MEAN|6.62||0.0015|TWO_SIDED|95.0|-34.49|-8.32|||Mixed Model Repeated Measures (MMRM)|||||-8.32|-34.49|0.0015
82637179|NCT03432819|164988839|SUPERIORITY||Median Difference (Final Values)|-0.18||||0.06|TWO_SIDED|95.0|-0.37|0.01|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.01|-0.37|0.06
82383868|NCT03135548|164478856|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.078|||||TWO_SIDED|95.0|-0.19|0.338|||Wilson/Newcombe|95% confidence intervals (CI) are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.338|-0.190|
82383869|NCT03135548|164478856|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.078|||||TWO_SIDED|95.0|-0.19|0.338|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.338|-0.190|
82383870|NCT03135548|164478858|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|-0.095|||||TWO_SIDED|95.0|-0.289|0.086|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.086|-0.289|
82519487|NCT04818346|164734121|SUPERIORITY||Least squares mean difference|-20.07|STANDARD_ERROR_OF_MEAN|6.86||0.004|TWO_SIDED|95.0|-33.63|-6.51|||MMRM|||||-6.51|-33.63|0.0040
82519488|NCT04818346|164734121|SUPERIORITY||Least squares mean difference|-18.02|STANDARD_ERROR_OF_MEAN|6.77||0.0086|TWO_SIDED|95.0|-31.4|-4.64|||MMRM|||||-4.64|-31.40|0.0086
82519489|NCT04818346|164734122|SUPERIORITY||Odds Ratio (OR)|4.3||||0.3574|TWO_SIDED|95.0|0.398|220.998|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||220.998|0.398|0.3574
82519490|NCT04818346|164734122|SUPERIORITY||Odds Ratio (OR)|5.5||||0.1992|TWO_SIDED|95.0|0.573|273.479|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||273.479|0.573|0.1992
82571895|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.026|TWO_SIDED|95.0|-0.5|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Psychic||0.0|-0.5|0.0260
82571896|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.937|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Psychic||0.2|-0.3|0.9370
82571897|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.844|TWO_SIDED|95.0|-0.3|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Psychic||0.2|-0.3|0.8440
82571898|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.09||0.448|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Somatic||0.3|-0.1|0.4480
82571899|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6345|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Anxiety Somatic||0.2|-0.1|0.6345
82571900|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4123|TWO_SIDED|95.0|-0.1|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Somatic||0.3|-0.1|0.4123
82571901|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7523|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Anxiety Somatic||0.2|-0.2|0.7523
82571902|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6505|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Somatic Symptoms Gastrointestinal||0.1|-0.2|0.6505
82571903|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3674|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Somatic Symptoms Gastrointestinal||0.1|-0.3|0.3674
82571904|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.836|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Somatic Symptoms Gastrointestinal||0.2|-0.2|0.8360
82383871|NCT03135548|164478858|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.115|||||TWO_SIDED|95.0|-0.116|0.348|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.|Unadjusted absolute risk difference versus placebo was calculated as the difference in the observed proportion of patients with ppPASI50 at Week 16 for each treatment scenario, for the FAS.|||0.348|-0.116|
82571905|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.687|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Somatic Symptoms Gastrointestinal||0.1|-0.2|0.6870
82571906|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1364|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: General Somatic Symptoms||0.0|-0.3|0.1364
82571907|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1578|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: General Somatic Symptoms||0.0|-0.3|0.1578
82571908|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9062|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: General Somatic Symptoms||0.2|-0.2|0.9062
82571909|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.8596|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: General Somatic Symptoms||0.2|-0.2|0.8596
82519491|NCT04818346|164734122|SUPERIORITY||Odds Ratio (OR)|2.1||||0.9913|TWO_SIDED|95.0|0.103|126.386|||Wald test||Logistic regression: (response at Week 24 = treatment + stratification factor \[T-BSA involvement 8%-20%/\>20%\]).|||126.386|0.103|0.9913
82519492|NCT04313881|164734158|SUPERIORITY||Odds Ratio (OR)|0.876||||0.5218|TWO_SIDED|95.0|0.585|1.312||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel|||||1.312|0.585|0.5218
82519493|NCT04313881|164734159|SUPERIORITY||Hazard Ratio (HR)|1.203||||0.1299|TWO_SIDED|95.0|0.947|1.528||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% confidence interval (CI) were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.528|0.947|0.1299
82519494|NCT04313881|164734161|SUPERIORITY||Odds Ratio (OR)|0.821||||0.2563|TWO_SIDED|95.0|0.584|1.155||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel|||||1.155|0.584|0.2563
82383872|NCT03135548|164478859|OTHER|No formal hypothesis testing was performed in this trial.|Mean Difference (Final Values)|7.24|||||TWO_SIDED|95.0|-20.01|34.48|||Student's t-distribution|CIs were based on Student's t-distribution.||||34.48|-20.01|
82519495|NCT04313881|164734163|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2191|TWO_SIDED|95.0|0.427|1.212||95% CI for transfusion independence rate was based on Clopper-Pearson exact method. 2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors.|Cochran-Mantel-Haenszel|||||1.212|0.427|0.2191
82519496|NCT04313881|164734164|SUPERIORITY||Hazard Ratio (HR)|0.979||||0.8788|TWO_SIDED|95.0|0.746|1.285||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.285|0.746|0.8788
82519497|NCT04313881|164734165|SUPERIORITY||Odds Ratio (OR)|0.441||||0.0375|TWO_SIDED|95.0|0.203|0.96||2-sided P-value, odds ratio and its 95% CI were based on unstratified Cochran-Mantel-Haenszel (CMH) method.|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||0.960|0.203|0.0375
82519498|NCT04313881|164734166|SUPERIORITY||Odds Ratio (OR)|0.947||||0.795|TWO_SIDED|95.0|0.629|1.426||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||1.426|0.629|0.7950
82519499|NCT04313881|164734167|SUPERIORITY||Hazard Ratio (HR)|0.837||||0.461|TWO_SIDED|95.0|0.522|1.343||2-sided P-value was based on stratified log-rank test, stratified by stratification factors.|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.343|0.522|0.4610
82519500|NCT04313881|164734168|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.872|TWO_SIDED|95.0|0.802|1.297||2-sided P-value was based on stratified log-rank test, stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Log Rank||Hazard ratio and its 95% CI were calculated using the Cox proportional hazards regression model, stratified by stratification factors.|||1.297|0.802|0.8720
82519501|NCT04313881|164734169|SUPERIORITY|2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors|Odds Ratio (OR)|0.605||||0.0048|TWO_SIDED|95.0|0.428|0.857||2-sided P-value, odds ratio and its 95% CI were based on Cochran-Mantel-Haenszel (CMH) method stratified by stratification factors (geographic region, cytogenetic risk status, and bone marrow blast percentage).|Cochran-Mantel-Haenszel||95% CI for response rate was based on Clopper-Pearson exact method.|||0.857|0.428|0.0048
82519502|NCT00688636|164734209|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Fisher Exact|||||||.0005
82519503|NCT01572727|164734214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.82|1.68||||||||1.68|0.82|
82519504|NCT04053764|164734222|SUPERIORITY||Odds Ratio (OR)|1.94|||||TWO_SIDED|95.0|0.53|7.14||||||||7.14|0.53|
82519505|NCT04053764|164734224|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.23|2.31||||||||2.31|0.23|
82519506|NCT04053764|164734225|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.29|3.02||||||PCR Improvement||3.02|0.29|
82519507|NCT04053764|164734225|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.18|3.2||||||Stable PCR||3.20|0.18|
82519508|NCT04053764|164734226|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-5.53|4.65||||||From baseline to 3 months||4.65|-5.53|
82519509|NCT04053764|164734226|SUPERIORITY||Mean Difference (Final Values)|4.69|STANDARD_ERROR_OF_MEAN|3.32|||TWO_SIDED|95.0|-2.02|11.4||||||From baseline to 6 months||11.40|-2.02|
82519510|NCT04053764|164734226|SUPERIORITY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-3.58|11.68||||||From baseline to 9 months||11.68|-3.58|
82519511|NCT04053764|164734226|SUPERIORITY||Mean Difference (Final Values)|5.19|STANDARD_ERROR_OF_MEAN|4.17|||TWO_SIDED|95.0|-3.28|13.67||||||From baseline to 12 months||13.67|-3.28|
82519512|NCT04053764|164734229|SUPERIORITY||Odds Ratio (OR)|0.32|||||TWO_SIDED|95.0|0.09|1.21||||||||1.21|0.09|
82383873|NCT03135548|164478859|OTHER|No formal hypothesis testing was performed in this trial.|Mean Difference (Final Values)|-5.82|||||TWO_SIDED|95.0|-28.35|16.7|||Student's t-distribution|CIs were based on Student's t-distribution.||||16.70|-28.35|
82383874|NCT03135548|164478860|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|-0.143|||||TWO_SIDED|95.0|-0.346|0.049|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.||||0.049|-0.346|
82519513|NCT01968213|164734255|SUPERIORITY||Cox Proportional Hazard|0.365|||<|0.0001|TWO_SIDED|95.0|0.295|0.451|||Regression, Cox||||Analysis is performed by randomization strata of HRD classification by CTA, best response, and penultimate platinum progression-free interval.|0.451|0.295|<0.0001
82383875|NCT03135548|164478860|OTHER|No formal hypothesis testing was performed in this trial.|Risk Difference (RD)|0.015|||||TWO_SIDED|95.0|-0.213|0.252|||Wilson/Newcombe|95% CIs are calculated using the method of Wilson/Newcombe.||||0.252|-0.213|
82519514|NCT01968213|164734256|SUPERIORITY||Cox Proportional Hazard|0.354|||<|0.0001|TWO_SIDED|95.0|0.278|0.45|||Regression, Cox||||Analysis is performed by randomization strata of HRD classification by CTA, best response, and penultimate platinum progression-free interval.|0.450|0.278|<0.0001
82383876|NCT01624740|164478904|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||ANOVA|Period effect p=0.11||||||0.74
82519515|NCT00936858|164734267|OTHER||6 month PFS probability|0.35|||||TWO_SIDED|||||||||We will declare the trial a success after observing 7 or more patients with PFS within 6 months. The study will have alpha = 0.092 and power =0.970, assuming a 6 month PFS probability of 0.12 for the null and a PFS probability of 0.35 as the alternative hypothesis.||||
82519516|NCT05525494|164734279|SUPERIORITY||Adjusted Risk Ratio|0.99|||||TWO_SIDED|95.0|0.98|1.01|||||Adjusted risk ratio. These results compare arms which received portal (any type) reminder/recall messages to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
82519517|NCT05525494|164734279|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||||Adjusted risk ratio. These results compare arms which received text (any type) reminder/recall messages to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
82519518|NCT05525494|164734279|SUPERIORITY||Adjusted Risk Ratio|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Adjusted risk ratio. These results compare arms which received pre-appointment reminder/recall messages (portal and text) to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.02|1.00|
82519519|NCT05525494|164734279|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Adjusted risk ratio. These results compare arms which received a tailored reminder/recall messages based on their responses to a pre-commitment questionnaire (any type) to the arm receiving no reminder/recall messages (control).|Comparing the risk of receiving an influenza vaccination||1.01|0.99|
82519520|NCT02512575|164734333|SUPERIORITY_OR_OTHER||Slope|0.847|STANDARD_ERROR_OF_MEAN|0.0238|||TWO_SIDED|90.0|0.807|0.887||||||||0.887|0.807|
82519521|NCT02512575|164734336|SUPERIORITY_OR_OTHER||Slope|0.93|STANDARD_ERROR_OF_MEAN|0.0364|||TWO_SIDED|90.0|0.869|0.991||||||||0.991|0.869|
82519522|NCT02512575|164734337|SUPERIORITY_OR_OTHER||Slope|0.917|STANDARD_ERROR_OF_MEAN|0.0364|||TWO_SIDED|90.0|0.856|0.978||||||||0.978|0.856|
82519523|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.03|||||TWO_SIDED|90.0|0.96|1.11||||||||1.11|0.960|
82519524|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.0|||||TWO_SIDED|90.0|0.929|1.08||||||||1.08|0.929|
82519525|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.06|||||TWO_SIDED|90.0|0.987|1.14||||||||1.14|0.987|
82519526|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.06|||||TWO_SIDED|95.0|0.983|1.13||||||||1.13|0.983|
82519527|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.07|||||TWO_SIDED|90.0|0.995|1.15||||||||1.15|0.995|
82519528|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.17|||||TWO_SIDED|90.0|1.09|1.25||||||||1.25|1.09|
82519529|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.15|||||TWO_SIDED|90.0|1.07|1.24||||||||1.24|1.07|
82519530|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.2|||||TWO_SIDED|90.0|1.11|1.29||||||||1.29|1.11|
82519531|NCT02512575|164734338|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.19|||||TWO_SIDED|90.0|1.11|1.27||||||||1.27|1.11|
82519532|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.05|||||TWO_SIDED|90.0|0.872|1.26||||||||1.26|0.872|
82519533|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.05|||||TWO_SIDED|90.0|0.874|1.26||||||||1.26|0.874|
82519534|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.907|||||TWO_SIDED|90.0|0.745|1.1||||||||1.10|0.745|
82519535|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.914|||||TWO_SIDED|90.0|0.762|1.1||||||||1.10|0.762|
82571910|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9488|TWO_SIDED|95.0|-0.2|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Genital Symptoms||0.2|-0.2|0.9488
82571911|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1514|TWO_SIDED|95.0|-0.3|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Genital Symptoms||0.0|-0.3|0.1514
82519536|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.876|||||TWO_SIDED|90.0|0.728|1.05||||||||1.05|0.728|
82519537|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.86|||||TWO_SIDED|90.0|0.716|1.03||||||||1.03|0.716|
82571912|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.5796|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Genital Symptoms||0.1|-0.2|0.5796
82519538|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.01|||||TWO_SIDED|90.0|0.842|1.21||||||||1.21|0.842|
82519539|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|1.02|||||TWO_SIDED|90.0|0.846|1.22||||||||1.22|0.846|
82383877|NCT01256164|164478916|NON_INFERIORITY_OR_EQUIVALENCE|With 90 subjects, randomized on a 2:1 ratio into the Fibrocaps plus gelatin sponge active arm or the gelatin sponge arm, and assuming a mean TTH of 3.5 minutes with a standard deviation of 2.5 minutes in the active arm and a mean TTH of 6 minutes in the control arm, this translates in a power of 99.4% at a two-sided significance level alpha of 5%, using a two-sample t-test.|||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82383878|NCT01256164|164478917|SUPERIORITY_OR_OTHER|||||||1||95.0|||||t-test, 2 sided|||||||1.00
82383879|NCT01256164|164478918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||Intent-to-treat analysis||||<0.001
82383880|NCT01256164|164478919|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||intent-to- treat analysis||||0.001
82383881|NCT01256164|164478920|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||intent-to-treat analysis||||0.003
82383882|NCT04659863|164478943|OTHER||Mean Difference (Net)|-33.25|||||TWO_SIDED|95.0|-59.17|-7.34||||||||-7.34|-59.17|
82383883|NCT04278417|164479018|NON_INFERIORITY|Non-inferiority of brolucizumab to PRP with respect to change from baseline in BCVA at Week 54, considering a non-inferiority margin of 4 ETDRS letters. Assuming that the BCVA changes follow a normal distribution with equal means between treatments, and a common standard deviation of 10 letters, for a one-sided alpha level of 0.025, with 300 subjects per arm there is \>99% power to reject the null hypothesis that brolucizumab 6 mg is inferior to PRP.|LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|1.03|<|0.001|TWO_SIDED|95.0|2.4|6.4|||ANCOVA|||1||6.4|2.4|<0.001
82383884|NCT04278417|164479018|SUPERIORITY||||||<|0.001|||||||ANCOVA|||2||||<0.001
82383885|NCT04278417|164479019|SUPERIORITY||Difference in % of Participants|39.4|||<|0.001|TWO_SIDED|95.0|32.0|46.8|||Cochran-Mantel-Haenszel|||||46.8|32.0|< 0.001
82383886|NCT04278417|164479021|SUPERIORITY||Difference in % of Participants|-41.1|||<|0.001|TWO_SIDED|95.0|-48.0|-34.2|||Cochran-Mantel-Haenszel|||||-34.2|-48.0|< 0.001
82383887|NCT04278417|164479024|SUPERIORITY||Difference in % of Participants|26.4|||<|0.001|TWO_SIDED|95.0|19.5|33.3|||Cochran-Mantel-Haenszel|||Week 54||33.3|19.5|<0.001
82383888|NCT06509438|164479033|OTHER|Compare 4 weeks after the last injection to baseline|Difference of medians|-0.45|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82383889|NCT06509438|164479033|OTHER|Compare 12 weeks after the last injection to baseline|Difference of medians|-0.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82383890|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|-7.9|||||TWO_SIDED|95.0|-36.3|14.6||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 1M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||14.6|-36.3|
82519540|NCT02512575|164734339|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.687|||||TWO_SIDED|90.0|0.572|0.825||||||||0.825|0.572|
82519541|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.982|||||TWO_SIDED|90.0|0.861|1.12||||||||1.12|0.861|
82519542|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.961||||||90.0|0.846|1.09||||||||1.09|0.846|
82519543|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.942|||||TWO_SIDED|90.0|0.829|1.07||||||||1.07|0.829|
82383891|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|6.4|||||TWO_SIDED|95.0|-17.8|25.7||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 5M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.7|-17.8|
82383892|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|2.5|||||TWO_SIDED|95.0|-22.6|22.5||||||VE-10PP-LD 3+0d vs Synflorix 3+0d - 8M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, eight months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||22.5|-22.6|
82383893|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|4.5|||||TWO_SIDED|95.0|-21.4|25.0||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 1M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.0|-21.4|
82383894|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|5.3|||||TWO_SIDED|95.0|-19.2|24.8||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 5M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||24.8|-19.2|
82383895|NCT01262872|164479063|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE|0.6|||||TWO_SIDED|95.0|-24.9|20.9||||||VE-10PP-HD 3+0d vs Synflorix 3+0d - 8M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, eight months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||20.9|-24.9|
82519544|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.861|||||TWO_SIDED|90.0|0.757|0.979||||||||0.979|0.757|
82519545|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.848|||||TWO_SIDED|90.0|0.745|0.964||||||||0.964|0.745|
82519546|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.927|||||TWO_SIDED|90.0|0.815|1.05||||||||1.05|0.815|
82383896|NCT01262872|164479064|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|6.6|||||TWO_SIDED|95.0|-18.2|26.2||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 1M post-Dose 2. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, one month (M) post-dose 2 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||26.2|-18.2|
82383897|NCT01262872|164479064|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|6.3|||||TWO_SIDED|95.0|-18.0|25.7||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 5M post-Dose 2. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, five months (M) post-dose 2 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||25.7|-18.0|
82383898|NCT01262872|164479064|NON_INFERIORITY_OR_EQUIVALENCE|Vaccine efficacy (VE) estimated as \[(1-Relative Risk (i.e. investigational vaccine over control vaccine))\*100\] with 95% CI was calculated. Denominator considered for deriving VE at a considered time point was the number of subjects with swabs cultured at this time point. Power using 2 independent proportions, 1:1 randomization ratio, 1-sided test to detect group difference, 1-sided alpha=2.5%.|VE (see above)|-3.5|||||TWO_SIDED|95.0|-29.3|17.2||||||VE-10PP-HD 2+1d vs Synflorix 2+1d - 3M post-Dose 3. The analysis aimed to compare occurrences in terms of percentage of subjects with positive nasopharyngeal sample out of the number of subjects with swabs cultured, between 2 groups, three months (M) post-dose 3 of pneumococcal vaccine administered (10PP vaccine or Synflorix™).||17.2|-29.3|
82499101|NCT05355805|164689209|SUPERIORITY||Risk Difference (RD)|4.19|STANDARD_ERROR_OF_MEAN|8.427||0.6192|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error was estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR75."||||0.6192
82519547|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.907|||||TWO_SIDED|90.0|0.798|1.03||||||||1.03|0.798|
82519548|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.893|||||TWO_SIDED|90.0|0.784|1.02||||||||1.02|0.784|
82519549|NCT02512575|164734340|SUPERIORITY_OR_OTHER||Ratio (Active Vs Placebo)|0.691||||||90.0|0.608|0.785||||||||0.785|0.608|
82519550|NCT04773587|164734368|SUPERIORITY||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|1.881|4.647|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Difference in vIGA-AD Success at Week 4||4.647|1.881|<0.0001
82383899|NCT00365794|164479154|OTHER|||||||0.77|||||||t-test, 2 sided|||Total body mass||||0.77
82383900|NCT00365794|164479154|OTHER|||||||0.003|||||||t-test, 2 sided|||Total fat mass||||0.003
82383901|NCT00365794|164479154|OTHER|||||||0.0007|||||||t-test, 2 sided|||Statistical analysis is for change in trunk fat mass after 20 weeks of testosterone gel.||||0.0007
82383902|NCT00365794|164479154|OTHER|||||||0.01|||||||t-test, 2 sided|||Statistical analysis is for change in extremity fat mass after 20 weeks of testosterone gel.||||0.01
82383903|NCT00365794|164479155|OTHER|||||||0.12||||||No adjustment in p for multiple comparisons.|t-test, 2 sided|||||||0.12
82383904|NCT00365794|164479156|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
82383905|NCT00365794|164479157|OTHER|||||||0.0002||||||No adjustment for multiple comparisons.|t-test, 2 sided|||||||0.0002
82383906|NCT00365794|164479158|OTHER|||||||0.04|||||||t-test, 2 sided|||Statistical analysis for change in whole body insulin sensitivity after treatment with testosterone gel for 20 weeks.||||0.04
82383907|NCT00365794|164479158|OTHER|||||||0.59|||||||t-test, 2 sided|||Statistical analysis for change in hepatic glucose output (measure of central insulin sensitivity) after treatment with testosterone gel for 20 weeks||||0.59
82383908|NCT00365794|164479158|OTHER|||||||0.03|||||||t-test, 2 sided|||Statistical analysis for change in rate of peripheral glucose disposal (test of peripheral insulin sensitivity) after treatment with testosterone gel for 20 weeks||||0.03
82442502|NCT04172467|164593665|OTHER|To estimate the relevance of guideline adherent treatment (GLAD) for the susceptibility to infection, full GLAD is taken as reference category.|Hazard Ratio (HR)|4.49|||<|0.001|TWO_SIDED|95.0|3.72|5.42||For effect estimation, hazard ratios are reported with 95% confidence interval. The significance level is set to two-sided ≤ 5% (p ≤ 0.05).|Regression, Cox|The Model developed by Anderson and Gill (1982) is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis.||For the analysis of susceptibility to infection, the time to next infection was examined using the Andersen-Gill model. This model is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis. The null hypothesis is that the GLAD-Score has no effect on susceptibility to infection.||5.42|3.72|<0.001
82519551|NCT04773587|164734369|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|1.64|4.359|||Cochran-Mantel-Haenszel|Stratified by pooled study site with multiple imputation of missing observations|Stratified by pooled study site with multiple imputation of missing observations|Difference in vIGA-AD Success at Week 4||4.359|1.640|<0.0001
82519552|NCT04773587|164734370|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0089|TWO_SIDED|95.0|1.186|3.319|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 4||3.319|1.186|0.0089
82519553|NCT04773587|164734371|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0016|TWO_SIDED|95.0|1.45|5.457|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 2||5.457|1.450|0.0016
82519554|NCT04773587|164734372|SUPERIORITY||Odds Ratio (OR)|3.81||||0.0159|TWO_SIDED|95.0|1.161|12.511|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|WI-NRS Success at Week 1||12.511|1.161|0.0159
82519555|NCT04773587|164734373|SUPERIORITY||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|95.0|2.102|4.795|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|EASI-75 at Week 4||4.795|2.102|<0.0001
82519556|NCT04773587|164734374|SUPERIORITY||Odds Ratio (OR)|2.56|||<|0.0001|TWO_SIDED|95.0|1.707|3.843|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study stie and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 4||3.843|1.707|<0.0001
82383909|NCT00365794|164479159|OTHER|||||||0.0006|||||||t-test, 2 sided|||Change in DEXA extremity (appendicular) lean tissue, a measure of extremity muscle mass after 20 weeks ot treatent with testosterone gel.||||0.0006
82383910|NCT00365794|164479160|OTHER|Test for fasting triglycerides||||||0.02|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel.||||0.02
82383911|NCT00365794|164479160|OTHER|Test for total cholesterol||||||0.004|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||0.004
82383912|NCT00365794|164479160|OTHER|Test for LDL cholesterol||||||0.02|||||||t-test, 2 sided|||nts A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||.02
82383913|NCT00365794|164479160|OTHER|Test for HDL cholesterol||||||0.004|||||||t-test, 2 sided|||A change in 20 plasma lipids (fasting triglycerides and lipid fractions) after 20 weeks of treatment with testosterone gel||||0.004
82383914|NCT00365794|164479161|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82383915|NCT00365794|164479162|OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
82383916|NCT00365794|164479163|OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
82519557|NCT04773587|164734375|SUPERIORITY||Odds Ratio (OR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.31|7.926|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Success at Week 2||7.926|2.310|<0.0001
82519558|NCT04773587|164734376|SUPERIORITY||Odds Ratio (OR)|25.41|||<|0.0001|TWO_SIDED|95.0|2.815|229.388|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Success at Week 1||229.388|2.815|<0.0001
82571913|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4739|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Genital Symptoms||0.1|-0.3|0.4739
82571914|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9439|TWO_SIDED|95.0|-0.1|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Hypochondriasis||0.1|-0.1|0.9439
82383917|NCT02554682|164479164|SUPERIORITY|||||||0.906|||||||Generalized Linear Model|||||||.906
82383918|NCT02554682|164479164|SUPERIORITY|||||||0.796|||||||Generalized Linear Model|||||||.796
82383919|NCT02554682|164479164|SUPERIORITY|||||||0.886|||||||Generalized Linear Model|||||||.886
82383920|NCT02554682|164479164|OTHER|||||||0.082|||||||Generalized Linear Model|||||||.082
82383921|NCT02554682|164479165|SUPERIORITY|||||||0.677|||||||Generalized Linear Model|||||||0.677
82383922|NCT02554682|164479165|SUPERIORITY|||||||0.02|||||||Generalized Linear Model|||||||0.020
82383923|NCT02554682|164479165|SUPERIORITY|||||||0.952|||||||Generalized Linear Model|||||||.952
82383924|NCT02554682|164479165|SUPERIORITY|||||||0.21|||||||Generalized Linear Model|||||||0.210
82383925|NCT02554682|164479166|SUPERIORITY|||||||0.505|||||||Generalized Linear Model|||||||0.505
82383926|NCT02554682|164479166|SUPERIORITY|||||||0.176|||||||Generalized Linear Model|||||||.176
82383927|NCT02554682|164479166|SUPERIORITY|||||||0.134|||||||Generalized Linear Model|||||||0.134
82383928|NCT02554682|164479166|SUPERIORITY|||||||0.029|||||||Generalized Linear Model|||||||0.029
82383929|NCT02554682|164479167|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||.037
82383930|NCT02554682|164479168|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
82383931|NCT02554682|164479169|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82383932|NCT02554682|164479170|SUPERIORITY|||||||0.571|||||||t-test, 2 sided|||||||.571
82383933|NCT02554682|164479171|SUPERIORITY|||||||0.394|||||||t-test, 2 sided|||||||.394
82383934|NCT02554682|164479172|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||.008
82383935|NCT02554682|164479173|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82383936|NCT02554682|164479174|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
82383937|NCT02554682|164479175|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||.159
82383938|NCT02554682|164479176|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||||||.112
82383939|NCT02554682|164479177|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||||||.165
82383940|NCT02554682|164479178|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
82383941|NCT03482635|164479200|OTHER||Risk Difference (RD)|0.042|||||TWO_SIDED|95.0|-0.105|0.202|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.202|-0.105|
82383942|NCT03482635|164479200|OTHER||Risk Difference (RD)|0.087|||||TWO_SIDED|95.0|-0.069|0.268|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.268|-0.069|
82571915|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.3891|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Hypochondriasis||0.1|-0.2|0.3891
82519559|NCT04773587|164734377|SUPERIORITY||Odds Ratio (OR)|3.62|||<|0.0001|TWO_SIDED|95.0|2.217|5.911|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 2||5.911|2.217|<0.0001
82383943|NCT03482635|164479200|OTHER||Risk Difference (RD)|0.071|||||TWO_SIDED|95.0|-0.081|0.226|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.226|-0.081|
82519560|NCT04773587|164734378|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0002|TWO_SIDED|95.0|1.705|7.007|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|Stratified by pooled study site and vIGA-AD randomization strata with multiple imputation of missing observations|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 1||7.007|1.705|0.0002
82519561|NCT03858803|164734381|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519562|NCT03858803|164734382|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519563|NCT03858803|164734383|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519564|NCT03858803|164734384|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519565|NCT03858803|164734385|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519566|NCT03858803|164734386|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82383944|NCT03482635|164479201|OTHER||Risk Difference (RD)|-0.051|||||TWO_SIDED|95.0|-0.276|0.176|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.176|-0.276|
82383945|NCT03482635|164479201|OTHER||Risk Difference (RD)|0.043|||||TWO_SIDED|95.0|-0.199|0.28|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.280|-0.199|
82383946|NCT03482635|164479201|OTHER||Risk Difference (RD)|0.033|||||TWO_SIDED|95.0|-0.204|0.252|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.252|-0.204|
82519567|NCT03858803|164734387|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82383947|NCT03482635|164479202|OTHER||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.072|0.258|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.258|-0.072|
82383948|NCT03482635|164479202|OTHER||Risk Difference (RD)|0.087|||||TWO_SIDED|95.0|-0.069|0.268|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.268|-0.069|
82519568|NCT03858803|164734388|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519569|NCT03858803|164734389|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519570|NCT03858803|164734390|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519571|NCT03858803|164734391|SUPERIORITY||||||<|0.05|||||||MANOVA|||||||<.05
82519572|NCT00435370|164734428|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||||||<0.05
82519573|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.1||||||95.0|-2.9|2.8||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||2.8|-2.9|
82519574|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|3.5||||||95.0|0.4|6.6||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.6|0.4|
82519575|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|7.2||||||95.0|4.6|9.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||9.7|4.6|
82519576|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|3.6||||||95.0|0.4|6.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.7|0.4|
82383949|NCT03482635|164479202|OTHER||Risk Difference (RD)|0.071|||||TWO_SIDED|95.0|-0.081|0.226|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\]. 95% CI for risk difference were calculated using the method of Newcombe.|||0.226|-0.081|
82383950|NCT03482635|164479203|OTHER||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.072|0.258|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.258|-0.072|
82383951|NCT03482635|164479203|OTHER||Risk Difference (RD)|0.043|||||TWO_SIDED|95.0|-0.104|0.21|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.210|-0.104|
82383952|NCT03482635|164479203|OTHER||Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|-0.11|0.177|||||Unadjusted absolute risk difference to placebo, \[Treatment - Placebo\].|||0.177|-0.110|
82519577|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|7.2||||||95.0|4.4|10.0||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||10.0|4.4|
82519578|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|3.7||||||95.0|0.6|6.7||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean Difference in injection pain on VAS after injection of different volumes was calculated as least square mean estimate of the mean difference in injection pain.||6.7|0.6|
82383953|NCT03482635|164479204|OTHER||Difference of adjusted means|-0.3|STANDARD_ERROR_OF_MEAN|10.7||0.9776|TWO_SIDED|95.0|-21.6|21.0|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements.||21.0|-21.6|0.9776
82383954|NCT03482635|164479204|OTHER||Difference of adjusted means|1.4|STANDARD_ERROR_OF_MEAN|10.6||0.894|TWO_SIDED|95.0|-19.6|22.4|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements.||22.4|-19.6|0.8940
82519579|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|0.4||||||95.0|-2.1|2.9||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean difference in injection pain on VAS after injection at different speeds was calculated as least square mean estimate of the mean difference in injection pain on a VAS after injection at different speeds.||2.9|-2.1|
82637180|NCT03432819|164988840|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.16|TWO_SIDED|95.0|-0.78|0.13|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.13|-0.78|0.16
82383955|NCT03482635|164479204|OTHER||Difference of adjusted means|1.0|STANDARD_ERROR_OF_MEAN|10.6||0.9241|TWO_SIDED|95.0|-20.0|22.1|||Mixed Models Analysis|||Restricted maximum likelihood (REML)-based repeated measures approach. The model included fixed, categorical effects of treatment, visit, and treatment by visit interaction, and stratification factors (prior biologic treatment failure and concomitant corticosteroid therapy at Visit 2/randomisation), as well as the continuous fixed covariates of baseline and baseline-by-visit interaction. An unstructured covariance structure was used to model the within-patient measurements||22.1|-20.0|0.9241
82383956|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82383957|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82383958|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2344|||||||ANOVA|||||||0.2344
82383959|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4737|||||||ANOVA|||||||0.4737
82383960|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82383961|NCT02712554|164479253|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82383962|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
82383963|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
82383964|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1267|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1267
82383965|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1767|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1767
82519580|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.4||||||95.0|-2.7|1.9||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. Mean difference in injection pain on VAS after injection at different speeds was calculated as least square mean estimate of the mean difference in injection pain on a VAS after injection at different speeds.||1.9|-2.7|
82519581|NCT01680328|164734472|SUPERIORITY_OR_OTHER||Least Squares Mean|9.0||||||95.0|6.7|11.3||||||Though the sample size was not based on any formal sample size or power calculations as no statistical tests were pre-specified to address the endpoints, a sample size of 80 completers was derived from a simulation study. The mean difference in injection pain on a VAS (mm) between the thighs and abdomen was calculated as the least square mean estimate of the mean difference in injection pain on a VAS (mm) between the thighs and abdomen.||11.3|6.7|
82519582|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||||95.0|0.5|1.4|||Odds ratio (OR)|||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.4|0.5|
82571916|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0308|TWO_SIDED|95.0|0.0|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Hypochondriasis||0.3|0.0|0.0308
82519583|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||||95.0|1.2|3.5||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||3.5|1.2|
82519584|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||||95.0|1.4|3.0||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||3.0|1.4|
82571917|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.062|TWO_SIDED|95.0|0.0|0.3||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Hypochondriasis||0.3|0.0|0.0620
82571918|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.7744|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Loss of Weight||0.1|-0.2|0.7744
82383966|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
82383967|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
82519585|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|1.4|4.8||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||4.8|1.4|
82571919|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9312|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Loss of Weight||0.2|-0.1|0.9312
82571920|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.3105|TWO_SIDED|95.0|-0.2|0.1||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Loss of Weight||0.1|-0.2|0.3105
82383968|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0119|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0119
82519586|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||||95.0|1.4|4.6||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||4.6|1.4|
82519587|NCT01680328|164734473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.7|1.5||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'larger volume versus smaller', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the larger volume - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.5|0.7|
82383969|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||0.0025
82519588|NCT01680328|164734474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||||95.0|0.7|1.8||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'higher speed versus lower', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the higher speed - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.8|0.7|
82383970|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1679
82383971|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0318|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0318
82383972|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||0.0002
82383973|NCT02712554|164479257|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||||||<.0001
82383974|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
82383975|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
82383976|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0858|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0858
82383977|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2877|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.2877
82383978|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
82571921|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.8406|TWO_SIDED|95.0|-0.1|0.2||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Loss of Weight||0.2|-0.1|0.8406
82383979|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
82383980|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0009
82383981|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||0.0001
82383982|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1130
82383983|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0575|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0575
82383984|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||<.0001
82383985|NCT02712554|164479258|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Placebo||||<.0001
82383986|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
82383987|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
82383988|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4025|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.4025
82383989|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3184|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.3184
82383990|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
82519589|NCT01680328|164734474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||||95.0|0.6|1.2||||||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', and 'higher speed versus lower', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain for the higher speed - i.e. a worse condition. The odd ratios for unacceptable injection pain are based on a statistical model for all acceptance pain data.||1.2|0.6|
82519590|NCT01680328|164734475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7||||||95.0|2.4|5.5|||Odds ratio (OR)|||Acceptance of pain was rated subjectively as yes or no by the subject after each injection. The odds are calculated as 'no versus yes', so that an odds ratio above 1 corresponds to a higher frequency of unacceptable pain in the thighs - i.e. a worse condition.||5.5|2.4|
82519591|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.6||||||95.0|-0.6|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.6|
82519592|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.4||||||95.0|-0.8|1.6||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.6|-0.8|
82519593|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.9||||||95.0|-0.4|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.1|-0.4|
82519594|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.8|1.7||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.7|-0.8|
82519595|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.8|1.7||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.7|-0.8|
82519596|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5||||||95.0|-0.7|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.7|
82519597|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.9||||||95.0|-0.3|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.1|-0.3|
82637181|NCT03432819|164988841|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.02|TWO_SIDED|95.0|-0.84|-0.09|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||-0.09|-0.84|0.02
82637182|NCT03432819|164988842|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.71|TWO_SIDED|95.0|-0.32|0.47|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.47|-0.32|0.71
82637183|NCT03432819|164988843|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.1|TWO_SIDED|95.0|-0.73|0.06|||Regression, Linear|||Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions where responses came from either follow-up, and MEMS adherence from 5, 6, or 7 month measurements. Predictors were an indicator for study arm, baseline value, follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual-level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.||0.06|-0.73|0.10
82383991|NCT02712554|164479259|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
82519598|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.8||||||95.0|-0.4|2.0||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.0|-0.4|
82519599|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.1||||||95.0|-0.1|2.3||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.3|-0.1|
82519600|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|2.3||||||95.0|1.0|3.5||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||3.5|1.0|
82571922|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.4834|TWO_SIDED|95.0|-0.1|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insight||0.0|-0.1|0.4834
82383992|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<.0001
82383993|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<.0001
82383994|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2628|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2628
82383995|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2262|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.2262
82637184|NCT01430559|164988868|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from analysis of covariance (ANCOVA, repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||||-0.43|-1.20|<0.0001
82519601|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.4||||||95.0|0.2|2.6||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||2.6|0.2|
82383996|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<.0001
82383997|NCT02712554|164479260|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<.0001
82383998|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<.0001
82519602|NCT01680328|164734476|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.6||||||95.0|-0.6|1.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the abdomen at different volume and speed combinations.||1.8|-0.6|
82637185|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.0103|TWO_SIDED|95.0|-0.65|-0.09||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 2)||-0.09|-0.65|0.0103
82383999|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<.0001
82384000|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1839|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1839
82519603|NCT01680328|164734477|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.3||||||95.0|-0.9|1.5||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||1.5|-0.9|
82519604|NCT01680328|164734477|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.8||||||95.0|-0.4|2.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.1|-0.4|
82519605|NCT01680328|164734477|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.6||||||95.0|0.3|2.8||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.8|0.3|
82519606|NCT01680328|164734477|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.9||||||95.0|3.7|6.1||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||6.1|3.7|
82519607|NCT01680328|164734477|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.7||||||95.0|0.5|2.9||||||Backflow (absorbed amount of liquid 2 minutes (±30 sec) after the injection with filter-paper rated according to the liquid scale) was analysed using a mixed ANOVA approach and calculated as the mean differences in backflow in the thigh at different volume and speed combinations.||2.9|0.5|
82519608|NCT00765193|164734484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.01||95.0|2.12|2.62|||Regression, Logistic|||The primary outcomes were the calculation of the absolute and relative risks of missing a skin cancer when TBSE is not performed, as well as the number of patients needed to examine by TBSE to find a skin cancer. The secondary outcome was to assess the magnitude of false-positive results obtained by TBSE||2.62|2.12|<0.01
82519609|NCT00710424|164734507|SUPERIORITY_OR_OTHER_LEGACY||estimated treatment effect|-0.12||||0.634|TWO_SIDED|95.0|-0.6|0.36|||ANCOVA||A negative difference in treatment effect indicates an improvement in pain in favour of Sativex.|The model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline value as a covariate and treatment group and centre group as main effect. The test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments.||0.36|-0.60|0.634
82519610|NCT00710424|164734508|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.37|STANDARD_ERROR_OF_MEAN|2.153||0.865|TWO_SIDED|95.0|-3.87|4.61|||ANCOVA|||The change from baseline in mean neuropathic pain scale scale score at the end of treatment was to be compared between treatment groups using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||4.61|-3.87|0.865
82519611|NCT00710424|164734509|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.45||||0.139|TWO_SIDED|95.0|-1.04|0.15|||ANCOVA|||The change from baseline in mean sleep quality numerical rating scale score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline mean usage as a covariate.||0.15|-1.04|0.139
82637186|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0295|TWO_SIDED|95.0|-0.67|-0.04||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 4)||-0.04|-0.67|0.0295
82637187|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.0041|TWO_SIDED|95.0|-0.87|-0.17||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 8)||-0.17|-0.87|0.0041
82519612|NCT00710424|164734510|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.301||||0.219|TWO_SIDED|95.0|0.855|1.981|||Regression, Logistic|||In the analysis of Subject Global Impression of Change, the two treatment groups were compared using ordinal logistic regression and the proportional odds model. The model incorporated centre group as a factor.||1.981|0.855|0.219
82384001|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1751|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1751
82384002|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<.0001
82571923|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.0961|TWO_SIDED|95.0|-0.1|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: Insight||0.0|-0.1|0.0961
82442503|NCT04172467|164593665|OTHER|To estimate the relevance of guideline adherent treatment (GLAD) for the susceptibility to infection, full GLAD is taken as reference category.|Hazard Ratio (HR)|2.52|||<|0.001|TWO_SIDED|95.0|1.98|3.21||For effect estimation, hazard ratios are reported with 95% confidence interval. The significance level is set to two-sided ≤ 5% (p ≤ 0.05).|Regression, Cox|The Model developed by Anderson and Gill (1982) is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis.||For the analysis of susceptibility to infection, the time to next infection was examined using the Andersen-Gill model. This model is an extension to the proportional hazard model (Cox model) for time to recurrent event analysis. The null hypothesis is that the GLAD-Score has no effect on susceptibility to infection.||3.21|1.98|<0.001
82442504|NCT03369431|164593666|SUPERIORITY|||||||0.784|||||||t-test, 2 sided|||"Null hypothesis is that there is no difference in the percentage change from baseline in the ATEC Total between Vivomixx and Placebo.~A sample size of 72 participants was needed to determine an effect size of 0.50 with 80% power, with a type 1 error of 5% using a two-sided test. This calculation is based on the assumed effect size of the primary outcome measure, the ATEC. The minimally clinically important difference based on the primary outcome measure with this instrument was 15 points."||||0.784
82519613|NCT00710424|164734511|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.05||||0.841|TWO_SIDED|95.0|-0.51|0.42|||ANCOVA|||The change from baseline in mean brief pain inventory (short form) composite score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline mean usage as a covariate.||0.42|-0.51|0.841
82519614|NCT00710424|164734512|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.523|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|||The change from baseline in weighted health state index score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre group as factors and baseline symptom score as a covariate.||0.03|-0.06|0.523
82519615|NCT00710424|164734513|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.17||||0.41|TWO_SIDED|95.0|-0.59|0.24|||ANCOVA|||The model used for the analysis of the end of study value was ANCOVA with baseline value as a covariate and treatment group and centre group as main effect. The test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments. A negative difference in adjusted means indicates an improvement in favour of Sativex.||0.24|-0.59|0.410
82519616|NCT00710424|164734516|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.857||||0.521|TWO_SIDED|95.0|0.537|1.37|||Regression, Logistic|||The numbers of responders were to be analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio.||1.370|0.537|0.521
82519617|NCT05183022|164734517|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
82519618|NCT00240487|164734526|NON_INFERIORITY_OR_EQUIVALENCE|The primary outcome variable is the mean PaO2/FiO2 in each group after 8 hours of study participation to determine whether timing of treatment with nitric oxide impacts outcome (immediate treatment versus delayed treatment).|||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Differences in mean PaO2/FiO2 ratios between the two groups will help to determine whether order of therapy (immediate treatment with nitric oxide versus delayed treatment with nitric oxide) impacts outcomes.||||>0.05
82519619|NCT01258608|164734529|OTHER||Hazard Ratio (HR)|1.192||||0.7382|ONE_SIDED|90.0||1.737||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and Eastern Cooperative Oncology Group (ECOG) performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.737||0.7382
82637188|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Pain subscale (Week 12)||-0.43|-1.20|<0.0001
82442505|NCT03369431|164593667|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Abdominal Pain between Vivomixx and Placebo.||||0.357
82519620|NCT01258608|164734530|OTHER||Hazard Ratio (HR)|0.922||||0.3156|ONE_SIDED|90.0||1.288||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and Eastern Cooperative Oncology Group (ECOG) performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.288||0.3156
82519621|NCT01258608|164734531|OTHER||Hazard Ratio (HR)|1.007||||0.6121|ONE_SIDED|90.0||1.346||P-value for comparison of treatment groups obtained from stratified log-rank test-stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.346||0.6121
82571924|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.829|TWO_SIDED|95.0|0.0|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insight||0.0|0.0|0.8290
82442506|NCT03369431|164593667|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Gaseousness between Vivomixx and Placebo.||||0.290
82571925|NCT03672175|164853238|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9546|TWO_SIDED|95.0|0.0|0.0||MMRM with treatment, each BL individual item HAM-D score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: Insight||0.0|0.0|0.9546
82384003|NCT02712554|164479261|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<.0001
82384004|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<.0001
82519622|NCT01258608|164734532|OTHER||Hazard Ratio (HR)|1.066||||0.6925|ONE_SIDED|90.0||1.43||P-value for comparison of treatment groups obtained from stratified log-rank test - stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing Mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.430||0.6925
82384005|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<.0001
82384006|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4013|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.4013
82384007|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0736|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0736
82384008|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<.0001
82571926|NCT03672175|164853239|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.78||0.1308|TWO_SIDED|95.0|-2.7|0.4||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.4|-2.7|0.1308
82519623|NCT01258608|164734533|OTHER||Hazard Ratio (HR)|0.909||||0.3088|ONE_SIDED|90.0||1.191||P-value for comparison of treatment groups obtained from stratified log-rank test - stratified by Barcelona Clinic Liver Cancer and ECOG performance status.|Stratified log-rank test||Hazard ratio comparing Mapatumumab to placebo obtained from Cox proportional hazards model with covariate adjustment for Barcelona Clinic Liver Cancer and ECOG performance status.|||1.191||0.3088
82519624|NCT01258608|164734534|OTHER||Response rate difference|5.4||||0.5458|TWO_SIDED|95.0|-16.8|26.6||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||26.6|-16.8|0.5458
82519625|NCT01258608|164734535|OTHER||Response rate difference|6.7||||0.3479|TWO_SIDED|95.0|-13.4|26.2||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||26.2|-13.4|0.3479
82519626|NCT01258608|164734536|OTHER||Disease control rate difference|-20.7||||0.0198|TWO_SIDED|95.0|-40.8|1.8||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||1.8|-40.8|0.0198
82519627|NCT01258608|164734537|OTHER||Disease control rate difference|-5.8||||0.6558|TWO_SIDED|95.0|-25.4|13.8||Nominal P-value for comparison of treatment groups obtained from Fisher's exact test.|Fisher Exact|||||13.8|-25.4|0.6558
82519628|NCT04250727|164734561|SUPERIORITY|||||||0.601|||||||Wilcoxon (Mann-Whitney)|||||||0.601
82519629|NCT02943408|164734567|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||.90
82519630|NCT02943408|164734568|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||||||.99
82519631|NCT02943408|164734569|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||.56
82637189|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.16||0.0369|TWO_SIDED|95.0|-0.64|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 2)||-0.02|-0.64|0.0369
82519632|NCT02943408|164734570|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||.85
82519633|NCT02943408|164734571|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||.43
82519634|NCT02943408|164734572|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||.82
82519635|NCT02943408|164734573|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||.50
82571927|NCT03672175|164853239|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.77||0.0096|TWO_SIDED|95.0|-3.5|-0.5||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||-0.5|-3.5|0.0096
82637190|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.2642|TWO_SIDED|95.0|-0.54|0.15||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 4)||0.15|-0.54|0.2642
82519636|NCT02943408|164734574|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||.56
82519637|NCT02943408|164734575|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||.92
82519638|NCT02943408|164734576|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|||||||.65
82519639|NCT02943408|164734577|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||.35
82519640|NCT01106833|164734579|SUPERIORITY|||||||0.63||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportion of participants with treatment success at 6 months is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.63
82519641|NCT01106833|164734579|SUPERIORITY|||||||0.44||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportion of participants with treatment success at 24 months is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.44
82519642|NCT01106833|164734580|SUPERIORITY|||||||0.205||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of overall survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.205
82519643|NCT01106833|164734581|SUPERIORITY|||||||0.141||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of progression-free survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.141
82519644|NCT01106833|164734582|SUPERIORITY|||||||0.775||||||Two-sided testing was performed using a significance level of 0.05|Log Rank|||The null hypothesis is that the rate of failure-free survival during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.775
82519645|NCT01106833|164734583|SUPERIORITY|||||||0.396||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without relapse was treated as a competing risk||The null hypothesis is that the rate of relapse during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.396
82519646|NCT01106833|164734584|SUPERIORITY|||||||0.219||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without initiation of secondary therapy is considered a competing risk for this endpoint||The null hypothesis is that the rate of initiation of secondary immunosuppressive therapy for chronic GVHD during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.219
82519647|NCT01106833|164734585|SUPERIORITY|||||||0.706||||||Two-sided testing was performed using a significance level of 0.05|Gray's test|Death without discontinuation of systemic immunosuppressive therapy is considered a competing risk for this endpoint||The null hypothesis is that the rate of discontinuation of systemic immunosuppressive therapy during the first two years post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.706
82519648|NCT01106833|164734586|SUPERIORITY|||||||0.127||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at baseline is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.127
82519649|NCT01106833|164734586|SUPERIORITY|||||||0.562||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.562
82519650|NCT01106833|164734586|SUPERIORITY|||||||0.129||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median prednisone dose at 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.129
82384009|NCT02712554|164479262|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<.0001
82384010|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<0.001
82519651|NCT01106833|164734587|SUPERIORITY|||||||0.586||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in prednisone dose from baseline to 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.586
82571928|NCT03672175|164853239|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.86||0.2674|TWO_SIDED|95.0|-0.7|2.7||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||2.7|-0.7|0.2674
82384011|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<0.001
82384012|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2223|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2223
82384013|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1638|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1638
82519652|NCT01106833|164734587|SUPERIORITY|||||||0.14||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in prednisone dose from baseline to 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.140
82637191|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.014|TWO_SIDED|95.0|-0.84|-0.1||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 8)||-0.10|-0.84|0.0140
82637192|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.2||0.0009|TWO_SIDED|95.0|-1.06|-0.28||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Stiffness subscale (Week 12)||-0.28|-1.06|0.0009
82637193|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0017|TWO_SIDED|95.0|-0.72|-0.17||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 2)||-0.17|-0.72|0.0017
82637194|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0328|TWO_SIDED|95.0|-0.66|-0.03||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 4)||-0.03|-0.66|0.0328
82637195|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.18||0.0043|TWO_SIDED|95.0|-0.86|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 8)||-0.16|-0.86|0.0043
82519653|NCT01106833|164734588|SUPERIORITY|||||||0.582||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at baseline is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.582
82637196|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.19|-0.43||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical function subscale (Week 12)||-0.43|-1.19|<0.0001
82637197|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.13||0.0051|TWO_SIDED|95.0|-0.65|-0.12||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 2)||-0.12|-0.65|0.0051
82637198|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0593|TWO_SIDED|95.0|-0.61|0.01||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 4)||0.01|-0.61|0.0593
82637199|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0046|TWO_SIDED|95.0|-0.84|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 8)||-0.16|-0.84|0.0046
82637200|NCT01430559|164988869|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.14|-0.39||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Average score (Week 12)||-0.39|-1.14|<0.0001
82637201|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.94|-0.3||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 2)||-0.30|-0.94|0.0002
82571929|NCT03672175|164853239|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.9771|TWO_SIDED|95.0|-1.7|1.7||MMRM with treatment, BL ISI total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42||1.7|-1.7|0.9771
82519654|NCT01106833|164734588|SUPERIORITY|||||||0.208||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.208
82519655|NCT01106833|164734588|SUPERIORITY|||||||0.431||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median serum creatinine level at 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.431
82519656|NCT01106833|164734589|SUPERIORITY|||||||0.147||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in serum creatinine level from baseline to 6 months post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.147
82519657|NCT01106833|164734589|SUPERIORITY|||||||0.863||||||Two-sided testing was performed using a significance level of 0.05|Kruskal-Wallis|||The null hypothesis is that the median change in serum creatinine level from baseline to 1 year post-randomization is equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.863
82519658|NCT01106833|164734590|SUPERIORITY|||||||0.62||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.620
82519659|NCT01106833|164734590|SUPERIORITY|||||||0.258||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.258
82519660|NCT01106833|164734590|SUPERIORITY|||||||0.036||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.036
82571930|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|4.42||0.611|TWO_SIDED|95.0|-10.9|6.4||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sSL||6.4|-10.9|0.6110
82519661|NCT01106833|164734590|SUPERIORITY|||||||0.369||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the patient-reported severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.369
82571931|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|4.19||0.0581|TWO_SIDED|95.0|-16.2|0.3||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sSL||0.3|-16.2|0.0581
82637202|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.0015|TWO_SIDED|95.0|-0.92|-0.22||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 4)||-0.22|-0.92|0.0015
82384014|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||0.0041
82384015|NCT02712554|164479263|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<0.001
82384016|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||0.0001
82637203|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19||0.0003|TWO_SIDED|95.0|-1.08|-0.32||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 8)||-0.32|-1.08|0.0003
82637204|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.34|-0.51||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Walking on flat surface (Week 12)||-0.51|-1.34|<0.0001
82384017|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
82637205|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.0363|TWO_SIDED|95.0|-0.67|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 2)||-0.02|-0.67|0.0363
82637206|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.0311|TWO_SIDED|95.0|-0.75|-0.04||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 4)||-0.04|-0.75|0.0311
82637207|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.0057|TWO_SIDED|95.0|-0.94|-0.16||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 8)||-0.16|-0.94|0.0057
82637208|NCT01430559|164988870|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.52|-0.64||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Going up or down stairs (Week 12)||-0.64|-1.52|<0.0001
82637209|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.2373|TWO_SIDED|95.0|0.79|2.55||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 2)||2.55|0.79|0.2373
82637210|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.2069|TWO_SIDED|95.0|0.84|2.26||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 4)||2.26|0.84|0.2069
82637211|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||0.068|TWO_SIDED|95.0|0.97|2.53||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 8)||2.53|0.97|0.0680
82637212|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.41||||0.0005|TWO_SIDED|95.0|1.47|3.94||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=30% reduction (Week 12)||3.94|1.47|0.0005
82637213|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.94||||0.1736|TWO_SIDED|95.0|0.75|5.01||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 2)||5.01|0.75|0.1736
82637214|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.1496|TWO_SIDED|95.0|0.82|3.59||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 4)||3.59|0.82|0.1496
82637215|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12||||0.0171|TWO_SIDED|95.0|1.14|3.93||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 8)||3.93|1.14|0.0171
82637216|NCT01430559|164988872|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.77||||0.0004|TWO_SIDED|95.0|1.57|4.89||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||\>=50% reduction (Week 12)||4.89|1.57|0.0004
82637217|NCT01430559|164988873|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.0027|TWO_SIDED|95.0|-0.31|-0.07||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 2||-0.07|-0.31|0.0027
82637218|NCT01430559|164988873|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0308|TWO_SIDED|95.0|-0.3|-0.01||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 4||-0.01|-0.30|0.0308
82637219|NCT01430559|164988873|SUPERIORITY_OR_OTHER_LEGACY|P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.31|-0.05|||ANCOVA|||Week 8||-0.05|-0.31|0.0060
82637220|NCT01430559|164988873|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.0076|TWO_SIDED|95.0|-0.34|-0.05||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 12||-0.05|-0.34|0.0076
82637221|NCT01430559|164988874|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.13||||0.2843|TWO_SIDED|95.0|0.53|8.5||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 2||8.50|0.53|0.2843
82637222|NCT01430559|164988874|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.05||||0.105|TWO_SIDED|95.0|0.86|4.87||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 4||4.87|0.86|0.1050
82519662|NCT01106833|164734591|SUPERIORITY|||||||0.45||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.450
82519663|NCT01106833|164734591|SUPERIORITY|||||||0.301||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.301
82519664|NCT01106833|164734591|SUPERIORITY|||||||0.75||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.750
82519665|NCT01106833|164734591|SUPERIORITY|||||||0.444||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the provider-reported severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.444
82637223|NCT01430559|164988874|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.7861|TWO_SIDED|95.0|0.4|3.32||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 8||3.32|0.40|0.7861
82637224|NCT01430559|164988874|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.1873|TWO_SIDED|95.0|0.77|3.78||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Week 12||3.78|0.77|0.1873
82637225|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|1.55||0.3738|TWO_SIDED|95.0|-1.67|4.42||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||General health||4.42|-1.67|0.3738
82637226|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.94|STANDARD_ERROR_OF_MEAN|1.96||0.0028|TWO_SIDED|95.0|2.07|9.8||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical functioning||9.80|2.07|0.0028
82637227|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.16|STANDARD_ERROR_OF_MEAN|2.14||0.0002|TWO_SIDED|95.0|3.95|12.38||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Role physical||12.38|3.95|0.0002
82637228|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|7.36|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED|95.0|4.1|10.63||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Bodily pain||10.63|4.10|<0.0001
82384018|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2706|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2706
82637229|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.05|STANDARD_ERROR_OF_MEAN|1.64||0.2124|TWO_SIDED|95.0|-1.18|5.27||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Vitality||5.27|-1.18|0.2124
82637230|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.96|STANDARD_ERROR_OF_MEAN|2.1||0.005|TWO_SIDED|95.0|1.82|10.1||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Social functioning||10.10|1.82|0.0050
82637231|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.87|STANDARD_ERROR_OF_MEAN|2.24||0.0093|TWO_SIDED|95.0|1.46|10.28||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Role emotional||10.28|1.46|0.0093
82637232|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|1.64||0.7274|TWO_SIDED|95.0|-2.66|3.81||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Mental health||3.81|-2.66|0.7274
82384019|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5507|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.5507
82519666|NCT01106833|164734592|SUPERIORITY|||||||0.238||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.238
82637233|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|0.88||0.2819|TWO_SIDED|95.0|-0.78|2.67||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Mental component aggregate||2.67|-0.78|0.2819
82519667|NCT01106833|164734592|SUPERIORITY|||||||0.546||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 6 months post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.546
82637234|NCT01430559|164988875|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.57|STANDARD_ERROR_OF_MEAN|0.66||0.0001|TWO_SIDED|95.0|1.27|3.86||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Physical component aggregate||3.86|1.27|0.0001
82384020|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||0.0047
82384021|NCT02712554|164479264|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82384022|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||ANOVA|||Emin: Treatment C (low-dose M366) - Placebo||||0.0001
82384023|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment D (high-dose M366) - Placebo||||<0.0001
82384024|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0014
82384025|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0080
82384026|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82384027|NCT02712554|164479265|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emin: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82384028|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||0.0024
82384029|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||0.0012
82384030|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0037
82384031|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0011
82384032|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82384033|NCT02712554|164479266|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82384034|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment C (low-dose M366) - Placebo||||<0.0001
82384035|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment D (high-dose M366) - Placebo||||<0.0001
82384036|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0630
82384037|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4436|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.4436
82384038|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82384039|NCT02712554|164479267|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Emax: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82384040|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<0.0001
82384041|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
82384042|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2335|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.2335
82384043|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1808|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.1808
82384044|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82384045|NCT02712554|164479268|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82384046|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment C (low-dose M366) - Placebo||||<0.0001
82384047|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Treatment D: M366 37.5 mg/1625 mg, Treatment E: Placebo||||<0.0001
82384048|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1268|||||||ANOVA|||MPC: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.1268
82384049|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANOVA|||MPC: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||0.0014
82384050|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82384051|NCT02712554|164479271|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||MPC: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82519668|NCT01106833|164734592|SUPERIORITY|||||||0.756||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 1 year post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.756
82637235|NCT01430559|164988876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.6||||0.0014|TWO_SIDED|95.0|1.45|4.66||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Mobility||4.66|1.45|0.0014
82519669|NCT01106833|164734592|SUPERIORITY|||||||0.554||||||Two-sided testing was performed using a significance level of 0.05|Fisher Exact|||The null hypothesis is that the proportions of patients in the NIH Consensus Criteria severity and vital status categories considered at 2 years post-randomization are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.554
82519670|NCT01106833|164734593|SUPERIORITY|||||||0.685||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.685
82519671|NCT01106833|164734593|SUPERIORITY|||||||0.105||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.105
82519672|NCT01106833|164734593|SUPERIORITY|||||||0.039||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.039
82519673|NCT01106833|164734593|SUPERIORITY|||||||0.278||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.278
82519674|NCT01106833|164734593|SUPERIORITY|||||||0.804||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean PCS scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.804
82519675|NCT01106833|164734594|SUPERIORITY|||||||0.631||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.631
82519676|NCT01106833|164734594|SUPERIORITY|||||||0.759||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.759
82519677|NCT01106833|164734594|SUPERIORITY|||||||0.391||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.391
82519678|NCT01106833|164734594|SUPERIORITY|||||||0.222||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.222
82519679|NCT01106833|164734594|SUPERIORITY|||||||0.527||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean MCS scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.527
82519680|NCT01106833|164734595|SUPERIORITY|||||||0.763||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at baseline are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.763
82519681|NCT01106833|164734595|SUPERIORITY|||||||0.133||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 2 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.133
82519682|NCT01106833|164734595|SUPERIORITY|||||||0.953||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 6 months are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.953
82384052|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment C (low-dose M366) - Placebo||||<0.0001
82384053|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment D (high-dose M366) - Placebo||||<0.0001
82384054|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Treatment C (low-dose M366)||||0.0120
82384055|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Treatment D (high-dose M366)||||<0.0001
82384056|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment A (low-dose CL-108) - Placebo||||<0.0001
82442507|NCT03369431|164593667|SUPERIORITY|||||||0.418|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Diarrhoea between Vivomixx and Placebo.||||0.418
82637236|NCT01430559|164988876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.108|TWO_SIDED|95.0|0.91|2.48||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Self-care||2.48|0.91|0.1080
82637237|NCT01430559|164988876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.06||||0.0119|TWO_SIDED|95.0|1.17|3.62||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Usual activities||3.62|1.17|0.0119
82637238|NCT01430559|164988876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.0887|TWO_SIDED|95.0|0.93|2.83||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Pain/discomfort||2.83|0.93|0.0887
82637239|NCT01430559|164988876|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.2466|TWO_SIDED|95.0|0.8|2.33||P-value and 95% confidence interval for odds ratio were calculated from logistic regression model (including baseline value and treatment group as factors) for binary data for comparison of meloxicam group versus placebo.|Regression, Logistic|||Anxiety/depression||2.33|0.80|0.2466
82637240|NCT01430559|164988877|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0367|TWO_SIDED|95.0|-0.58|-0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 2||-0.02|-0.58|0.0367
82637241|NCT01430559|164988877|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0652|TWO_SIDED|95.0|-0.65|0.02||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 4||0.02|-0.65|0.0652
82637242|NCT01430559|164988877|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.19||0.02|TWO_SIDED|95.0|-0.81|-0.07||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 8||-0.07|-0.81|0.0200
82637243|NCT01430559|164988877|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.0016|TWO_SIDED|95.0|-1.02|-0.24||P-value and 95% confidence interval for least squares mean difference were calculated from ANCOVA (repeated measures) model with baseline value and treatment group as fixed effects, and study site as a random effect.|ANCOVA|||Week 12||-0.24|-1.02|0.0016
82637244|NCT04047472|164988893|NON_INFERIORITY|Non-inferiority of brolucizumab to aflibercept with respect to change from baseline in BCVA, considering a margin of 4 letters.|LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.16||0.006|TWO_SIDED|90.0|-3.0|0.9|||ANOVA|||||0.9|-3.0|0.006
82637245|NCT04047472|164988894|NON_INFERIORITY|Non-inferiority of brolucizumab to aflibercept with respect to change from baseline in BCVA, considering a margin of 4 letters.|LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.11||0.009|TWO_SIDED|90.0|-3.2|0.5|||ANOVA|||||0.5|-3.2|0.009
82637246|NCT01288911|164988945|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.34|0.57|||Log Rank||Estimated by use of Cox proportional hazards model.|PFS based on ICR Enzalutamide Vs. Bicalutamide. The (unstratified) log-rank test with an overall significance level of 0.05 (two-sided) was used to compare the PFS of enzalutamide to bicalutamide. The (unstratified) Cox proportional hazards model was used to estimate the hazard ratio of enzalutamide to bicalutamide, calculate the corresponding two-sided 95% confidence intervals and test the hypothesis that the hazard ratio is equal to 1.||0.57|0.34|<0.0001
82637247|NCT01288911|164988946|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.33|0.55|||Log Rank||Estimated by use of Cox proportional hazards model.|PFS on based investigator assessment Enzalutamide Vs. Bicalutamide.||0.55|0.33|<0.0001
82637248|NCT01288911|164988947|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon rank sum test|||PSA Response Enzalutamide Vs. Bicalutamide.||||<0.0001
82442508|NCT03369431|164593667|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Constipation between Vivomixx and Placebo.||||0.734
82637249|NCT01288911|164988948|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon rank sum test|||Best PSA Response Enzalutamide Vs. Bicalutamide.||||<0.0001
82637250|NCT01288911|164988949|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.2|0.39|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to PSA progression Enzalutamide Vs. Bicalutamide.||0.39|0.20|<0.0001
82637251|NCT01288911|164988950|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.07|||<|0.0001|TWO_SIDED|95.0|3.18|8.09|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to PSA Enzalutamide Vs. Bicalutamide.||8.09|3.18|<0.0001
82519683|NCT01106833|164734595|SUPERIORITY|||||||0.398||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 1 year are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.398
82637252|NCT01288911|164988951|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|5.55|||<|0.0001|TWO_SIDED|95.0|3.96|7.79|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 30% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||7.79|3.96|<0.0001
82637253|NCT01288911|164988952|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|7.01|||<|0.0001|TWO_SIDED|95.0|4.83|10.16|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 50% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||10.16|4.83|<0.0001
82637254|NCT01288911|164988953|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|13.91|||<|0.0001|TWO_SIDED|95.0|7.23|26.79|||Log Rank||Estimated by use of Cox proportional hazards model.|Time to ≥ 90% PSA decline from baseline Enzalutamide Vs. Bicalutamide.||26.79|7.23|<0.0001
82637255|NCT01288911|164988954|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0002|TWO_SIDED|95.0|0.36|0.74|||Log Rank||Estimated by use of Cox proportional hazards model.|Radiographic PFS based on ICR Enzalutamide Vs. Bicalutamide.||0.74|0.36|0.0002
82637256|NCT00078715|164988964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.004|STANDARD_ERROR_OF_MEAN|1.141||0.527|TWO_SIDED|95.0|-4.26|2.251||The significance level reflects the direct comparison of drugs after factoring out baseline depression levels.|Mixed Models Analysis|A linear mixed model was used with factors for drug, time of evaluation, the drug by time interaction, and a baseline depression covariate.||The hypothesis was that yohimbine would provide lower levels of depression than placebo. Initial estimates of sample size assumed a minimum of 25 patients were required to detect differences in depression.||2.251|-4.260|.527
82637257|NCT01680835|164988968|OTHER|Freedom from primary safety composite event at 36 months compared to a performance goal of 35%|Kaplan Meier|0.771|||<|0.001|ONE_SIDED|97.5|0.678||||Log Rank||||||0.678|<0.001
82519684|NCT01106833|164734595|SUPERIORITY|||||||0.309||||||Two-sided testing was performed using a significance level of 0.05|t-test, 2 sided|Independent samples t-test||The null hypothesis is that the mean FACT-BMT scores at 2 years are equal for those receiving either Sirolimus, Calcineurin Inhibitor, and Prednisone or Sirolimus and Prednisone for treatment of chronic GVHD.||||0.309
82637258|NCT01680835|164988969|OTHER|No hypothesis Testing for this endpoint.|Kaplan Meier|1.0|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|||||||||Stent Fracture at 1 Year||||
82637259|NCT01680835|164988969|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.989|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|||||||||Stent Fracture at 2 Years||||
82637260|NCT01680835|164988969|OTHER|No hypothesis testing was done for this endpoint|Kaplan Meier|0.965|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|||||||||Stent Fracture at 3 Years||||
82637261|NCT01680835|164988970|OTHER|No hypothesis testing was done at this endpoint|Kaplan Meier|0.86|STANDARD_ERROR_OF_MEAN|0.034|||TWO_SIDED|||||||||Freedom from acute death, freedom from amputation and freedom from clinically-driven target lesion revascularization at 1 year||||
82637262|NCT01680835|164988970|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.782|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|||||||||Freedom from acute death, freedom from amputation and freedom from clinically-driven target lesion revascularization at 2 years||||
82384057|NCT02712554|164479272|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||TA\_AUE0-8hr: Treatment B (high-dose CL-108) - Placebo||||<0.0001
82519685|NCT03561090|164734679|SUPERIORITY||Least squares (LS) mean difference|0.055||||0.6346|TWO_SIDED|95.0|-0.172|0.281|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as least squares mean (LSM) change from baseline at Week 8; IW-3718 - placebo based on an mixed models repeated measures (MMRM) model with week (categorical), treatment group, week-by-treatment group, and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.281|-0.172|0.6346
82637263|NCT01680835|164988971|OTHER|No hypothesis testing was done for this endpoint.|Kaplan Meier|0.99|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|||||||||Estimate from freedom from major amputation through 3 years.||||
82637264|NCT01680835|164988972|OTHER||Kaplan Meier|0.781|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|||||||||Freedom from clinically-driven TLR through 3 Years||||
82637265|NCT01000311|164989000|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|83.0|||||TWO_SIDED|95.0|83.0|93.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% confidence intervals (CIs) for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 80% for the serogroup A.||93|83|
82637266|NCT01000311|164989000|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|90.0|||||TWO_SIDED|95.0|90.0|98.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup C.||98|90|
82637267|NCT01000311|164989000|SUPERIORITY_OR_OTHER||Lower limit of 95% confidence interval|93.0|||||TWO_SIDED|95.0|93.0|99.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup W.||99|93|
82637268|NCT01000311|164989000|SUPERIORITY_OR_OTHER||Lowe limit of 95% confidence interval|92.0|||||TWO_SIDED|95.0|92.0|99.0||||||The null hypothesis associated with the primary objective was that the immune response was considered sufficient if the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:8, at one month after 4th dose was greater than 85% for the serogroup Y.||99|92|
82637269|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to diphtheria toxin, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-2.9|2.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to diphtheria toxin, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||2.6|-2.9|
82571932|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|5.68||0.4493|TWO_SIDED|95.0|-15.5|6.9||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sSL||6.9|-15.5|0.4493
82384058|NCT01804946|164479306|NON_INFERIORITY_OR_EQUIVALENCE|The pre-determined margin of 20% of the control group effect was used.|Risk Difference (RD)|0.0||||0.05|ONE_SIDED|95.0||||One-sided, p-value was adjusted for multiple comparisons using the adaptive Holm method|Wald method of Z statistics calculation|Wald method of Z statistics computed a confidence interval of proportion difference.||PP set was analyzed||||0.05
82384059|NCT01804946|164479307|NON_INFERIORITY_OR_EQUIVALENCE|The pre-determined margin of 20% of the control group effect was used.|Risk Difference (RD)|0.0|||<|0.05|ONE_SIDED|95.0||||One-sided, p-value was adjusted for multiple comparisons using the adaptive Holm method|Wald method of Z statistics calculation|Wald method of Z statistics computed a confidence interval of proportion difference.||PP set was analyzed||||<0.05
82384060|NCT01804946|164479308|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant margin was assumed to be 0.2 of Oseltamivir effect|Mean Difference (Final Values)|0.0|||<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
82384061|NCT01804946|164479309|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant margin was assumed to be 0.2°C|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means.||PP set was analyzed||||<0.05
82384062|NCT01804946|164479310|NON_INFERIORITY_OR_EQUIVALENCE|The margin of no clinical importance was assumed to be 0.5 point or less to assess any symptom based on 4 point scale.|Mean Difference (Final Values)|0.0|||<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
82442509|NCT03369431|164593667|SUPERIORITY|||||||0.362|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Pain on Stooling between Vivomixx and Placebo.||||0.362
82571933|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|6.25||0.5587|TWO_SIDED|95.0|-16.0|8.6||MMRM with treatment, BL sSL score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sSL||8.6|-16.0|0.5587
82637270|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to tetanus toxin, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-3.3|3.9|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to tetanus toxin, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||3.9|-3.3|
82442510|NCT03369431|164593667|SUPERIORITY|||||||0.705|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in frequency of Difficulty Swallowing between Vivomixx and Placebo.||||0.705
82442511|NCT03369431|164593667|SUPERIORITY|||||||0.589|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in change from baseline in frequency of vomiting between Vivomixx and placebo||||0.589
82442512|NCT03369431|164593667|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon signed rank||Null hypothesis is that there is no difference in change from baseline in frequency of blood in stool between Vivomixx and placebo||||1.0
82519686|NCT03561090|164734680|SUPERIORITY||LS Mean Difference|0.035||||0.7101|TWO_SIDED|95.0|-0.151|0.221|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as LSM change from baseline at Week 8; IW-3718 - placebo based on an MMRM model with week (categorical), treatment group, week-by-treatment group, and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.221|-0.151|0.7101
82519687|NCT03561090|164734681|SUPERIORITY||Difference in percentage of responders|-5.5|||||TWO_SIDED|95.0|-14.7|3.7|||||95% confidence interval (CI) for Difference in Responder Rates is obtained using the Newcombe CI.|||3.7|-14.7|
82571934|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.06||0.5976|TWO_SIDED|95.0|-10.1|5.8||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sWASO||5.8|-10.1|0.5976
82571935|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|5.05||0.9421|TWO_SIDED|95.0|-9.6|10.3||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sWASO||10.3|-9.6|0.9421
82519688|NCT03561090|164734681|SUPERIORITY||Odds Ratio (OR)|0.81||||0.2531|TWO_SIDED|95.0|0.56|1.17|||Cochran-Mantel-Haenszel||Odds Ratio for Response (IW-3718 : placebo)|Treatment difference was calculated as the difference in the responder rates at Week 8; IW-3718 - placebo. The 95% CI for the difference in the responder rates was obtained using the Newcombe CI. P value was based on the odds ratio for the response rate (IW-3718:placebo) obtained from the CMH tests controlling for baseline esophagitis status and baseline heartburn severity level (\< 3 vs. ≥ 3).||1.17|0.56|0.2531
82519689|NCT03561090|164734682|SUPERIORITY||Proportion ratio|0.938||||0.7445|TWO_SIDED|95.0|0.636|1.382||Negative binomial model was used to deal with data overdispersion.|Negative binomial model||Proportion Ratio (1500 mg IW-3718 BID + PPI: Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||1.382|0.636|0.7445
82519690|NCT03561090|164734682|OTHER|Negative binomial model was used to deal with data overdispersion.|Difference in Proportion Ratio|-0.015|||||TWO_SIDED|95.0|-0.103|0.074|||||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI).|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||0.074|-0.103|
82519691|NCT01654549|164734707|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.94
82384063|NCT01804946|164479311|NON_INFERIORITY_OR_EQUIVALENCE|To compare the number of antipyretic intake the margin of no clinical importance was assumed to be 0.2|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.5|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Means were compared using the modified two-sample Student t-test including computation of a confidence interval for a difference between means||PP set was analyzed||||<0.05
82384064|NCT01804946|164479312|NON_INFERIORITY_OR_EQUIVALENCE|To compare the quality of life total score the margin of no clinical importance was assumed to be 0.2 of Oseltamivir group value|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|2.2|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|The changes of means (Day 7 vs Day 1) were compared using the modified two-sample Student t-test including computation of a confidence interval||PP set was analyzed||||<0.05
82519692|NCT01654549|164734707|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||||||0.78
82519693|NCT01654549|164734707|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Paired t-test|||||||<0.01
82519694|NCT01654549|164734707|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Paired t-test|||||||<0.01
82519695|NCT01654549|164734707|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
82519696|NCT01043432|164734714|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Regression, Linear|||Linear regressions were utilized to model the outcomes of interest as a function of SA, TBI group, and the interaction between the two groups.||||>.05
82384065|NCT01804946|164479313|NON_INFERIORITY_OR_EQUIVALENCE|To compare the patient subjective health status assessment the margin of no clinical importance was assumed to be 0.2 of Oseltamivir group value|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|18.2|<|0.05|ONE_SIDED|95.0||||To adjust for multiple comparisons, the adaptive Holm method was used as a way to control type 1 error|t-test, 1 sided|Changes of means (Day 7 vs Day 1) were compared using the modified two-sample Student t-test including computation of a confidence interval||PP set was analyzed||||<0.05
82637271|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis toxin (PT), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-4.0|||||TWO_SIDED|95.0|-12.1|4.3|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis toxin (PT), when DTaP vaccine is given, compared with MenACWY-CRM compared with when DTaP vaccine is given alone||4.3|-12.1|
82637272|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis (FHA antigen), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|4.0|||||TWO_SIDED|95.0|-5.1|13.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis FHA antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||13.6|-5.1|
82637273|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis pertactin antigen, when DTaP vaccine is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-8.8|9.1|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis pertactin antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP is given alone.||9.1|-8.8|
82637274|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pertussis FIM antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-2.0|||||TWO_SIDED|95.0|-10.6|6.8|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pertussis FIM antigen, when DTaP vaccine is given with MenACWY-CRM compared with when DTaP vaccine is given alone||6.8|-10.6|
82384066|NCT01804946|164479314|NON_INFERIORITY_OR_EQUIVALENCE|The clinically significant difference (margin) between two percentages was assumed to be 20% or more of the effect of Oseltamivir|Risk Difference (RD)|0.0|||<|0.05|ONE_SIDED|95.0|||||The Wald method of Z statistics calcul|The Wald method of Z statistics calculation was performed including computation a confidence interval for a difference between proportions||PP set was analyzed||||<0.05
82519697|NCT04307004|164734718|SUPERIORITY|The threshold for statistical significance was p = 0.05|Mean Difference (Final Values)|0.8|||<|0.0001|TWO_SIDED|95.0|0.5|1.1|||Paired T Test, 2-sided||Mean difference in systolic blood pressure = mean systolic blood pressure when attended - mean systolic blood pressure when not attended (i.e., unattended).|||1.1|0.5|< 0.0001
82519698|NCT04307004|164734718|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.0001|TWO_SIDED|95.0|0.3|0.7||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in diastolic blood pressure = mean diastolic blood pressure when attended - mean diastolic blood pressure when not attended (i.e., unattended)|||0.7|0.3|< 0.0001
82519699|NCT04307004|164734719|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.5||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in systolic blood pressure = mean systolic blood pressure on ambulatory blood pressure monitoring - mean systolic blood pressure on home blood pressure monitoring.|||-1.5|-3.0|< 0.0001
82519700|NCT04307004|164734719|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.4||The threshold for statistical significance was p = 0.05|Paired T Test, 2-sided||Mean difference in diastolic blood pressure = mean diastolic blood pressure on ambulatory blood pressure monitoring - mean diastolic blood pressure on home blood pressure monitoring.|||-1.4|-2.5|< 0.0001
82442513|NCT03369431|164593667|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon signed rank||Null hypothesis is that there is no difference in change from baseline in frequency of blood in vomit between Vivomixx and placebo||||1.0
82519701|NCT04307004|164734721|OTHER|Independent variable - Attended systolic blood pressure. Dependent variable - Left ventricular mass index.|beta coefficient|0.43|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.32|0.55|||Regression, Linear|||We determined the association between attended systolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with attended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.32|< 0.001
82519702|NCT04307004|164734721|OTHER|Independent variable - attended diastolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.24|0.6|||Regression, Linear|||We determined the association between attended diastolic blood pressure measurements and left ventricular mass index (LVMI). This analysis included 587 with attended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.60|0.24|< 0.001
82384067|NCT03830333|164479315|NON_INFERIORITY|Ceftolozane/tazobactam + metronidazole is concluded to be non-inferior to meropenem + placebo if the lower bound of the 95% CI for the treatment difference in percent response is above -12.5 percentage points.|Difference in percentages|2.1|||||TWO_SIDED|95.0|-4.7|8.8||||||Difference in percentage was based on Miettinen and Nurminen method with the Cochran-Mantel-Haenszel (CMH) weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||8.8|-4.7|
82384068|NCT03830333|164479316|OTHER||Difference in percentages|-4.4|||||TWO_SIDED|95.0|-12.6|3.7||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||3.7|-12.6|
82384069|NCT03830333|164479317|OTHER||Difference in percentages|1.4|||||TWO_SIDED|95.0|-3.8|6.7||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||6.7|-3.8|
82442514|NCT03369431|164593668|SUPERIORITY|||||||0.635|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline of ABC Irritability score between Vivomixx and Placebo||||0.635
82384070|NCT03830333|164479318|OTHER||Difference in percentages|-1.5|||||TWO_SIDED|95.0|-8.0|4.8||||||Difference in percentage was based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||4.8|-8.0|
82384071|NCT03830333|164479319|OTHER||Difference in percentages|1.2|||||TWO_SIDED|95.0|-9.2|10.4||||||Difference in percentage based on Miettinen and Nurminen method with the CMH weighting stratified by anatomic site of infection (bowel \[small or large\] versus other site of cIAI).||10.4|-9.2|
82384072|NCT03830333|164479320|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-1.0|||||TWO_SIDED|95.0|-11.9|8.7||||||Gram-negative aerobes comparison: Based on unstratified Miettinen and Nurminen method.||8.7|-11.9|
82384073|NCT03830333|164479320|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-1.2|||||TWO_SIDED|95.0|-12.5|8.5||||||All enterobacteriaceae comparison: Based on unstratified Miettinen and Nurminen method.||8.5|-12.5|
82519703|NCT04307004|164734721|OTHER|Independent variable - unattended systolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.44|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.33|0.56|||Regression, Linear|||We determined the association between unattended systolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with unattended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.56|0.33|< 0.001
82519704|NCT04307004|164734721|OTHER|Independent variable - unattended diastolic blood pressure. Dependent variable - left ventricular mass index.|beta coefficient|0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.19|0.55|||Regression, Linear|||We determined the association between unattended diastolic blood pressure and left ventricular mass index (LVMI). This analysis included 587 participants with unattended office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.19|< 0.001
82519705|NCT04307004|164734721|OTHER|Independent variable - awake systolic blood pressure on ABPM Dependent variable - left ventricular mass index.|beta coefficient|0.61|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.47|0.74|||Regression, Linear|||We determined the association between awake systolic blood pressure from ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 554 participants with out-of-office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.74|0.47|< 0.001
82519706|NCT04307004|164734721|OTHER|Independent variable - awake diastolic blood pressure on ABPM. Dependent variable - left ventricular mass index.|beta coefficient|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.25|0.66|||Regression, Linear|||We determined the association between awake diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 554 participants with out-of-office blood pressure measurements and valid LVMI measurements. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.66|0.25|< 0.001
82519707|NCT04307004|164734721|OTHER|Independent variable - asleep systolic blood pressure on HBPM. Dependent variable - left ventricular mass index.|beta coefficient|0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.19|0.44|||Regression, Linear|||We determined the association between asleep systolic blood pressure on home blood pressure monitoring (HBPM) and left ventricular mass index (LVMI). This analysis included 533 participants with HBPM data and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.44|0.19|< 0.001
82519708|NCT04307004|164734721|OTHER|Independent variable - asleep diastolic blood pressure on HBPM Dependent variable - left ventricular mass index|beta coefficient|0.23|STANDARD_ERROR_OF_MEAN|0.09||0.01|TWO_SIDED|95.0|0.05|0.4|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on home blood pressure monitoring (HBPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on HBPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.40|0.05|0.01
82571936|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|4.86||0.5581|TWO_SIDED|95.0|-6.7|12.4||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sWASO||12.4|-6.7|0.5581
82384074|NCT03830333|164479320|OTHER|Difference in percentage was based on unstratified Miettinen and Nurminen method. Confidence Interval is displayed only when there are at least 4 participants in at least one treatment group.|Difference in percentages|-8.2|||||TWO_SIDED|95.0|-42.2|20.0||||||Gram-positive aerobes comparison: Based on unstratified Miettinen and Nurminen method.||20.0|-42.2|
82384075|NCT03830333|164479321|OTHER||Difference in Percentages|-0.7|||||TWO_SIDED|95.0|-12.6|11.2||||||Difference in percentage was based on Miettinen \& Nurminen method.||11.2|-12.6|
82384076|NCT03830333|164479322|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-4.4|4.4||||||Difference in percentage was based on Miettinen \& Nurminen method.||4.4|-4.4|
82384077|NCT00722137|164479323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.5|0.79|||Log Rank|Based on Log rank test stratified with International Prognostic Index (IPI) risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.79|0.50|<0.001
82384078|NCT00722137|164479324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.74|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.74|0.45|<0.001
82442515|NCT03369431|164593668|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||The null hypothesis is that there is no difference in the change from baseline of ABC Lethargy/social withdrawal score between Vivomixx and Placebo.||||0.367
82571937|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|5.82||0.4997|TWO_SIDED|95.0|-7.5|15.4||MMRM with treatment, BL sWASO score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sWASO||15.4|-7.5|0.4997
82519709|NCT04307004|164734721|OTHER|Independent variable - asleep systolic blood pressure on ABPM. Dependent variable - left ventricular mass index.|beta coefficient|0.45|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.32|0.59|||Regression, Linear|||We determined the association between asleep systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on ABPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.59|0.32|< 0.001
82519710|NCT04307004|164734721|OTHER|Independent variable - asleep diastolic blood pressure on ABPM Dependent variable - left ventricular mass index.|beta coefficient|0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.16|0.55|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and left ventricular mass index (LVMI). This analysis included 533 participants with data on ABPM and valid LVMI. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.55|0.16|< 0.001
82637275|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to hepatitis B, when given concomitantly with MenACWY-CRM, was considered non-inferior to that of hepatitis B vaccine given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-5.2|4.5|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to hepatitis B antigen, when hepatitis B vaccine is given with MenACWY-CRM compared with when hepatitis B vaccine is given alone.||4.5|-5.2|
82637276|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to Hib vaccine, when given concomitantly with MenACWY-CRM, was considered non-inferior to that of Hib vaccine given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|5.0|||||TWO_SIDED|95.0|0.0|11.2|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to Hib antigen, when Hib vaccine is given with MenACWY-CRM compared with when Hib vaccine is given alone.||11.2|0|
82637277|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 1), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|1.0|||||TWO_SIDED|95.0|-3.1|5.4|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 1), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||5.4|-3.1|
82519711|NCT04307004|164734722|OTHER|Independent variable - attended systolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.17|TWO_SIDED|95.0|-0.47|0.08|||Regression, Linear|||We determined the association between attended systolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on attended office blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.08|-0.47|0.17
82571938|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|24.0|STANDARD_ERROR_OF_MEAN|10.5||0.0224|TWO_SIDED|95.0|3.4|44.7||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sTST||44.7|3.4|0.0224
82571939|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|17.4|STANDARD_ERROR_OF_MEAN|10.93||0.1117|TWO_SIDED|95.0|-4.1|38.9||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: sTST||38.9|-4.1|0.1117
82637278|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 2), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|1.0|||||TWO_SIDED|95.0|-1.4|3.0|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 2), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||3|-1.4|
82519712|NCT04307004|164734722|OTHER|Independent variable - attended diastolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.28|STANDARD_ERROR_OF_MEAN|0.22||0.2|TWO_SIDED|95.0|-0.7|0.15|||Regression, Linear|||We determined the association between attended diastolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on attended office blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.15|-0.70|0.20
82519713|NCT04307004|164734722|OTHER|Independent variable - unattended systolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.07|TWO_SIDED|95.0|-0.55|0.02|||Regression, Linear|||We determined the association between unattended systolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on unattended blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.02|-0.55|0.07
82637279|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to polio antigen (Type 3), when IPV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of IPV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -5%.|Group difference|-1.0|||||TWO_SIDED|95.0|-3.3|1.7|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to polio antigen (Type 3), when IPV routine is given with MenACWY-CRM, compared with when IPV is given alone||1.7|-3.3|
82637280|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 4 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|1.0|||||TWO_SIDED|95.0|-1.9|4.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 4 antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||4.6|-1.9|
82637281|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 6B antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-4.0|||||TWO_SIDED|95.0|-10.3|3.2|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 6B antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||3.2|-10.3|
82637282|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 9V antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-3.0|||||TWO_SIDED|95.0|-8.7|2.3|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 9V antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||2.3|-8.7|
82637283|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 14 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|0.0|||||TWO_SIDED|95.0|-2.8|3.0|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 14 antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||3.0|-2.8|
82637284|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 18C antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-3.0|||||TWO_SIDED|95.0|-7.3|1.6|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 18C antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||1.6|-7.3|
82384079|NCT00722137|164479326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||0.65|0.38|<0.001
82637285|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 19F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|3.0|||||TWO_SIDED|95.0|1.3|7.1|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 19F antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||7.1|1.3|
82519714|NCT04307004|164734722|OTHER|Independent variable - unattended diastolic blood pressure. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.09|TWO_SIDED|95.0|-0.8|0.06|||Regression, Linear|||We determined the association between unattended diastolic blood pressure and urinary albumin-to-creatinine ratio (UACR). This analysis included 555 participants with complete data on unattended diastolic blood pressure and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.06|-0.80|0.09
82519715|NCT04307004|164734722|OTHER|"Independent variable - awake systolic blood pressure on ambulatory blood pressure monitoring.~Dependent variable - urinary albumin-to-creatinine ratio."|beta coefficient|0.01|STANDARD_ERROR_OF_MEAN|0.15||0.94|TWO_SIDED|95.0|-0.29|0.31|||Regression, Linear|||We determined the association between awake systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 523 participants with complete data on ABPM and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.31|-0.29|0.94
82519716|NCT04307004|164734722|OTHER|"Independent variable - awake diastolic blood pressure on ambulatory blood pressure monitoring.~Dependent variable - urinary albumin-to-creatinine ratio."|beta coefficient|0.22|STANDARD_ERROR_OF_MEAN|0.22||0.31|TWO_SIDED|95.0|-0.21|0.66|||Regression, Linear|||We determined the association between awake diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 523 participants with complete data on ABPM and UACR. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.66|-0.21|0.31
82519717|NCT04307004|164734722|OTHER|Independent variable - asleep systolic blood pressure on HBPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.94|TWO_SIDED|95.0|-0.28|0.26|||Regression, Linear|||We determined the association between asleep systolic blood pressure on home blood pressure monitoring (HBPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete HBPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.26|-0.28|0.94
82519718|NCT04307004|164734722|OTHER|Independent variable - asleep diastolic blood pressure on HBPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.93|TWO_SIDED|95.0|-0.4|0.36|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on home blood pressure monitoring (HBPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete HBPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.36|-0.40|0.93
82519719|NCT04307004|164734722|OTHER|Independent variable - asleep systolic blood pressure on ABPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.15||0.54|TWO_SIDED|95.0|-0.21|0.4|||Regression, Linear|||We determined the association between asleep systolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete ABPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.40|-0.21|0.54
82519720|NCT04307004|164734722|OTHER|Independent variable - asleep diastolic blood pressure on ABPM. Dependent variable - urinary albumin-to-creatinine ratio.|beta coefficient|0.26|STANDARD_ERROR_OF_MEAN|0.21||0.23|TWO_SIDED|95.0|-0.16|0.68|||Regression, Linear|||We determined the association between asleep diastolic blood pressure on ambulatory blood pressure monitoring (ABPM) and urinary albumin-to-creatinine ratio (UACR). This analysis included 505 participants with complete ABPM and UACR data. This analysis combined across study arms as prespecified in the Study Protocol and Statistical Analysis Plan.||0.68|-0.16|0.23
82637286|NCT01000311|164989004|NON_INFERIORITY_OR_EQUIVALENCE|The immune seroresponse to pneumococcal PnC 23F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than or equal to -10%.|Group difference|-5.0|||||TWO_SIDED|95.0|-11.4|0.5|||Miettinen and Nurminen|||To demonstrate the non-inferiority of seroresponse to pneumococcal PnC 23F antigen, when PCV is given with MenACWY-CRM, compared with when PCV is given alone||0.5|-11.4|
82519721|NCT02395042|164734738|SUPERIORITY||Least Squares Mean Difference|-1.15||||0.142|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.142
82519722|NCT02395042|164734738|SUPERIORITY||Least Squares Mean Difference|-0.92||||0.319|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.319
82519723|NCT02395042|164734739|SUPERIORITY||Least Squares Mean Difference|-1.46||||0.024|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.024
82519724|NCT02395042|164734739|SUPERIORITY||Least Squares Mean Difference|-1.02||||0.137|||||||ANCOVA|ANCOVA model with baseline value as a covariate and treatment group and stratification (baseline bladder pain NRS: ≤ 5 or \> 5) as factors.||||||0.137
82519725|NCT01972841|164734753|SUPERIORITY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.12||0.072|TWO_SIDED|95.0|-0.49|-0.01||Nominal p-value|Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.49|0.072
82519726|NCT01972841|164734753|SUPERIORITY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.033|TWO_SIDED|95.0|-0.44|0.04||Nominal p-value|Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.04|-0.44|0.033
82519727|NCT01972841|164734753|SUPERIORITY||Least squares mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.001|TWO_SIDED|95.0|-0.58|-0.1|||Stratified rank ANCOVA||Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.10|-0.58|0.001
82519728|NCT01972841|164734753|SUPERIORITY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.052|TWO_SIDED|95.0|-0.47|0.01|||Stratified rank ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.47|0.052
82519729|NCT01972841|164734754|SUPERIORITY||Least squares mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED|95.0|-0.57|-0.01||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.57|0.040
82571940|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|14.1|STANDARD_ERROR_OF_MEAN|14.18||0.3208|TWO_SIDED|95.0|-13.8|42.0||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sTST||42.0|-13.8|0.3208
82571941|NCT03672175|164853240|SUPERIORITY||LS Mean Difference|10.3|STANDARD_ERROR_OF_MEAN|13.4||0.444|TWO_SIDED|95.0|-16.1|36.6||MMRM with treatment, BL sTST score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28: sTST||36.6|-16.1|0.4440
82571942|NCT03672175|164853241|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4737|TWO_SIDED|95.0|-0.3|0.1||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.1|-0.3|0.4737
82571943|NCT03672175|164853241|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0138|TWO_SIDED|95.0|-0.4|0.0||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15||0.0|-0.4|0.0138
82637287|NCT01000311|164989005|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis toxin (PT), when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.02|||||TWO_SIDED|95.0|0.81|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis toxin (PT), when DTaP is given with MenACWY-CRM compared with when DTap is given alone||1.28|0.81|
82384080|NCT00722137|164479327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||=|0.001|TWO_SIDED|95.0|0.38|0.65|||Log Rank|||||0.65|0.38|=0.001
82442516|NCT03369431|164593668|SUPERIORITY|||||||0.609|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||Null hypothesis is that there is no difference in the change from baseline in the ABC Stereotypic behaviour between Vivomixx and Placebo.||||0.609
82637288|NCT01000311|164989005|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis FHA antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.9|1.19|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis FHA antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.19|0.9|
82637289|NCT01000311|164989005|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis pertactin antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.84|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis pertactin antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.28|0.84|
82637290|NCT01000311|164989005|NON_INFERIORITY_OR_EQUIVALENCE|The immune response measured as GMC of antibodies to pertussis FIM antigen, when DTaP is given concomitantly with MenACWY-CRM, was considered non-inferior to that of DTaP given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Routine Vaccines group divided by GMC of Routine Vaccines group) was greater than 0.67.|GMCs ratio|1.09|||||TWO_SIDED|95.0|0.88|1.35|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pertussis FIM antigen, when DTaP is given with MenACWY-CRM compared with when DTaP is given alone||1.35|0.88|
82637291|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 4 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.98|||||TWO_SIDED|95.0|0.8|1.19|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 4 antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.19|0.8|
82637292|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 6B antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.76|||||TWO_SIDED|95.0|0.62|0.93|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 6B antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||0.93|0.62|
82637293|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 9V antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.87|||||TWO_SIDED|95.0|0.72|1.06|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 9V antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.06|0.72|
82637294|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 14 antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|1.04|||||TWO_SIDED|95.0|0.84|1.28|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 14 antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.28|0.84|
82637295|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 18C antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.99|||||TWO_SIDED|95.0|0.82|1.2|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 18C antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.2|0.82|
82384081|NCT00722137|164479328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.428||||0.275|TWO_SIDED|95.0|0.749|2.722|||Cochran-Mantel-Haenszel Chi-Square||Mantel-Haenszel estimate of the common odds ratio for stratified tables is used, with IPI risk and Stage of Disease as stratification factors. An odds ratio (OR) \> 1 indicates an advantage for VcR-CAP.|||2.722|0.749|0.275
82637296|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 19F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.89|||||TWO_SIDED|95.0|0.73|1.07|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 19F antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.07|0.73|
82442517|NCT03369431|164593668|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|Paired samples t-test||Null hypothesis is that there is no difference in the change from baseline of the ABC Hyperactivity/Noncompliance between Vivomixx and Placebo.||||0.805
82384082|NCT00722137|164479329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.688|||<|0.007|TWO_SIDED|95.0|1.148|2.481|||Cochran-Mantel-Haenszel Chi-Square||Mantel-Haenszel estimate of the common odds ratio for stratified tables is used, with IPI risk and Stage of Disease as stratification factors. An odds ratio (OR) \> 1 indicates an advantage for VcR-CAP.|||2.481|1.148|<0.007
82571944|NCT03672175|164853241|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.1098|TWO_SIDED|95.0|0.0|0.4||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28||0.4|0.0|0.1098
82637297|NCT01000311|164989006|NON_INFERIORITY_OR_EQUIVALENCE|The immune response as GMC of antibodies to pneumococcal PnC 23F antigen, when PCV is given concomitantly with MenACWY-CRM, was considered non-inferior to that of PCV given alone, if the lower limit of the two-sided 95% CI for the ratio of GMCs (GMC of MenACWY-CRM + Prevnar group divided by GMC of Prevnar group) was greater than 0.50.|GMCs ratio|0.84|||||TWO_SIDED|95.0|0.68|1.04|||ANOVA|||To demonstrate the non-inferiority of GMC of antibodies to pneumococcal PnC 23F antigen when PCV is given with MenACWY-CRM compared with when PCV is given alone||1.04|0.68|
82637298|NCT01468844|164989012|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|15.3|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82384083|NCT00722137|164479330|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.173|TWO_SIDED|95.0|0.59|1.1|||Log Rank|Based on Log rank test stratified with IPI risk and stage of disease.|Hazards ratio estimate is based on a Cox´s model stratified by IPI risk and stage of disease. A hazard ratio \< 1 indicates an advantage for VcR-CAP.|||1.10|0.59|0.173
82384084|NCT00985504|164479354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.612|TWO_SIDED|95.0|-1.87|1.1|||Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||1.10|-1.87|0.612
82384085|NCT00985504|164479355|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||This is the p-value for Cognition Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.504
82637299|NCT01468844|164989013|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637300|NCT01468844|164989014|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 24 compared to baseline is reported|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637301|NCT01468844|164989015|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 12 is reported.|Mean Difference (Net)|-5.0|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637302|NCT01468844|164989016|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 24 is reported.|Mean Difference (Net)|-8.2|STANDARD_DEVIATION|4.4|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637303|NCT01468844|164989017|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 3 compared to baseline is reported.|Mean Difference (Net)|-2.5|STANDARD_DEVIATION|1.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637304|NCT01468844|164989018|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|3.5|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637305|NCT01468844|164989019|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.2|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82519730|NCT01972841|164734754|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.006|TWO_SIDED|95.0|-0.67|-0.11||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.11|-0.67|0.006
82519731|NCT01972841|164734754|SUPERIORITY||Least squares mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.76|-0.21||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.76|0.001
82519732|NCT01972841|164734754|SUPERIORITY||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.84|-0.28||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.28|-0.84|<0.001
82523241|NCT01939548|164741719|SUPERIORITY_OR_OTHER||LSM Difference|0.13|STANDARD_ERROR_OF_MEAN|0.122||0.2747|TWO_SIDED|80.0|-0.02|0.29||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|Mixed Models Analysis||The estimation method used was restricted maximum likelihood.|Analysis of change at Week 12. Linear mixed-effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site; random effect: participant. Also included effects for treatment by time interaction and baseline value by treatment interaction and background antipsychotics.||0.29|-0.02|0.2747
82637306|NCT01468844|164989020|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-5.4|STANDARD_DEVIATION|2.8|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637307|NCT01468844|164989021|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-5.4|STANDARD_DEVIATION|3.8|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637308|NCT01468844|164989022|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|30.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637309|NCT01468844|164989023|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|39.3|STANDARD_DEVIATION|113.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637310|NCT01468844|164989024|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|313.2|STANDARD_DEVIATION|267.3|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82384086|NCT00985504|164479355|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||This is the p-value for the Behavior Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.665
82384087|NCT00985504|164479355|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||This is the p-value for Emotional Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.489
82384088|NCT00985504|164479355|SUPERIORITY_OR_OTHER|||||||0.945||95.0||||This is the p-value for Other Items Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.945
82384089|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||This is the p-value for the Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.157
82384090|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||This is the p-value for the Energy Level score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.119
82384091|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.184||95.0||||This is the p-value for the Motivation and Interest score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.184
82519733|NCT01972841|164734755|SUPERIORITY||Least squares mean difference|3.85|STANDARD_ERROR_OF_MEAN|3.13||0.219|TWO_SIDED|95.0|-2.29|10.0||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||10.00|-2.29|0.219
82519734|NCT01972841|164734755|SUPERIORITY||Least squares mean difference|8.75|STANDARD_ERROR_OF_MEAN|3.13||0.005|TWO_SIDED|95.0|2.61|14.89||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||14.89|2.61|0.005
82523242|NCT01939548|164741720|SUPERIORITY_OR_OTHER||LSM Difference|0.07|STANDARD_ERROR_OF_MEAN|0.188||0.7219|TWO_SIDED|80.0|-0.17|0.31||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|ANOVA|||Analysis of change at Week 12. Mixed effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site, visit and visit-by-treatment interaction; random effect: participant.||0.31|-0.17|0.7219
82637311|NCT01468844|164989025|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|428.5|STANDARD_DEVIATION|146.2|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637312|NCT01468844|164989026|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|119.0|STANDARD_DEVIATION|66.6|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637313|NCT01468844|164989027|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637314|NCT01468844|164989027|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|-1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637315|NCT01468844|164989027|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637316|NCT01468844|164989028|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82384092|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||This is the p-value for the Cognitive Functioning score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.226
82637317|NCT01468844|164989028|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637318|NCT01468844|164989028|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82637319|NCT03702166|164989035|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|Multiple t-tests with Bonferroni corrections for multiple comparisons||||||0.01
82637320|NCT03702166|164989037|SUPERIORITY|||||||0.038|||||||t-test, 1 sided|Multiple t-tests, with Bonferroni corrections for multiple comparisons,||||||0.038
82637321|NCT03702166|164989039|SUPERIORITY|||||||0.031||||||Multiple t-tests, with Bonferroni corrections for multiple comparisons|t-test, 1 sided|||||||0.031
82637322|NCT00689299|164989062|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||ANOVA with baseline score as covariate||||<0.05
82637323|NCT00434876|164989109|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Mixed Models Analysis|||||||0.49
82637324|NCT00434876|164989110|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|||||||0.04
82637325|NCT00434876|164989111|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||Mixed Models Analysis|||||||0.57
82523243|NCT01939548|164741720|SUPERIORITY_OR_OTHER||LSM Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.192||0.9315|TWO_SIDED|80.0|-0.26|0.23||Analysis was two-sided and performed at the 0.2 significance level. No multiple comparisons adjustment was made.|ANOVA|||Analysis of change at Week 12. Mixed effect repeated measures model used. Fixed effects: treatment, time (visit), baseline value, investigator site, visit and visit-by-treatment interaction; random effect: participant.||0.23|-0.26|0.9315
82637326|NCT00434876|164989112|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Mixed Models Analysis|||||||0.03
82523244|NCT00774579|164741739|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
82637327|NCT00758394|164989113|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two way Anova general linear model (subject and treatment as factors). Multiple comparison completed to determine differences between groups.|ANOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82523245|NCT00774579|164741740|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82637328|NCT03539900|164989119|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.44|||||||Mixed Models Analysis|Analyses were performed for all randomized participants. Models also considered weight status as a moderator or predictor.||||||.44
82637329|NCT03539900|164989120|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.04|||||||Mixed Models Analysis|Analyses were performed for all randomized participants. Models also considered weight status as a predictor or moderator.||||||.04
82637330|NCT03539900|164989121|SUPERIORITY|||||||0.98|||||||ANOVA|Analyses used all available data without imputation.||||||.98
82637331|NCT03539900|164989122|SUPERIORITY|||||||0.44|||||||ANOVA|Analyses used all available data without imputation.||||||.44
82637332|NCT03539900|164989123|SUPERIORITY|||||||0.99|||||||ANOVA|Analyses used all available data without imputation.||||||.99
82637333|NCT03539900|164989124|SUPERIORITY|||||||0.4|||||||ANOVA|Analyses used all available data without imputation.||||||.40
82384093|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||This is the p-value for the Weight Gain score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.059
82637334|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|90.0|-1.99|2.9||||||||2.90|-1.99|
82637335|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.73|2.24||||||||2.24|-2.73|
82637336|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-2.25|2.79||||||||2.79|-2.25|
82637337|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-1.94|3.09||||||||3.09|-1.94|
82637338|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.62|2.35||||||||2.35|-2.62|
82637339|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.6|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-0.88|4.11||||||||4.11|-0.88|
82637340|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 4 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|90.0|-1.63|3.85||||||||3.85|-1.63|
82637341|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 8 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.79|||TWO_SIDED|90.0|-3.13|2.79||||||||2.79|-3.13|
82637342|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 12 Hours Post-dose|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|90.0|-2.6|4.47||||||||4.47|-2.60|
82637343|NCT03808298|164989131|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|-2.03|2.98||||||||2.98|-2.03|
82384094|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||This is the p-value for the Sleep score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.466
82384095|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||This is the p-value for the Sexual Functioning score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.822
82384096|NCT00985504|164479356|SUPERIORITY_OR_OTHER|||||||0.599||95.0||||This is the p-value for the Affect score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.599
82637344|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 0.5 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|-0.19|2.64||||||||2.64|-0.19|
82637345|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 1 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|90.0|-0.12|2.33||||||||2.33|-0.12|
82637346|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 2.5 Hours Post-dose|LS Mean|2.0|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|0.4|3.67||||||||3.67|0.40|
82637347|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 4 Hours Post-dose|LS Mean|2.5|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|0.6|4.49||||||||4.49|0.60|
82637348|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 8 Hours Post-dose|LS Mean|2.5|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|90.0|0.09|4.94||||||||4.94|0.09|
82637349|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 12 Hours Post-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.84|||TWO_SIDED|90.0|-1.62|4.47||||||||4.47|-1.62|
82637350|NCT03808298|164989132|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 24 Hours Post-dose|LS Mean|1.6|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|-0.1|3.39||||||||3.39|-0.10|
82637351|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 0.5 Hours Post-dose|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|90.0|-0.6|2.2||||||||2.20|-0.60|
82637352|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 1 Hours Post-dose|LS Mean|1.3|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|0.13|2.55||||||||2.55|0.13|
82637353|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 2.5 Hours Post-dose|LS Mean|1.7|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|0.04|3.27||||||||3.27|0.04|
82637354|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 4 Hours Post-dose|LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-0.64|3.2||||||||3.20|-0.64|
82637355|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 8 Hours Post-dose|LS Mean|2.3|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-0.13|4.67||||||||4.67|-0.13|
82637356|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 12 Hours Post-dose|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.82|||TWO_SIDED|90.0|-2.31|3.7||||||||3.70|-2.31|
82637357|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 1 24 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.35|2.1||||||||2.10|-1.35|
82637358|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|90.0|-2.94|1.89||||||||1.89|-2.94|
82637359|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|-3.19|1.72||||||||1.72|-3.19|
82519735|NCT01972841|164734755|SUPERIORITY||Least squares mean difference|21.52|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|15.35|27.68||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||27.68|15.35|<0.001
82519736|NCT01972841|164734755|SUPERIORITY||Least squares mean difference|17.74|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|11.58|23.9||Nominal p-value|ANCOVA|No adjustment for multiplicity was needed for testing combination therapy vs. its 2 monotherapy components.|Adjustment for multiplicity across primary and the first secondary endpoint as well as across the 2 combination doses was made using a sequential Bonferroni-based testing procedure.|Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||23.90|11.58|<0.001
82637360|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.26|2.74||||||||2.74|-2.26|
82384097|NCT00985504|164479357|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||This is the p-value for the PGI-I.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.723
82384098|NCT00985504|164479358|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.410
82384099|NCT00985504|164479359|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||This is the p-value for the Total Score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.880
82384100|NCT00985504|164479359|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||This is the p-value for the Item 8 (Inability to Feel) score.|Mixed Models Analysis|"The Kenward-Roger approximation was used in the MMRM model."||||||0.224
82637361|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.02|2.96||||||||2.96|-2.02|
82384101|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|95.0||||This is the p-value for the Total Score.|ANCOVA|ANCOVA main effect F test||||||0.910
82637362|NCT03808298|164989133|EQUIVALENCE|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 1 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.49|||TWO_SIDED|90.0|-2.39|2.54||||||||2.54|-2.39|
82442518|NCT03369431|164593668|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank test used.||Null hypothesis is that there is no difference in the change from baseline of the ABC Inappropriate Speech between Vivomixx and Placebo.||||0.985
82442519|NCT03369431|164593669|SUPERIORITY|||||||0.661|||||||Wilcoxon (Mann-Whitney)|Related-samples Wilcoxon Signed Rank||||||0.661
82442520|NCT01694108|164593693|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann-Whitney-test comparing the decisional conflict scores of participating mothers vs. declining mothers.||||||<0.001
82442521|NCT02266875|164593752|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
82442522|NCT02266875|164593753|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82519737|NCT01972841|164734756|SUPERIORITY||Least squares mean difference|-4.63|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-6.98|-2.27|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-2.27|-6.98|<0.001
82637363|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.67|4.28||||||||4.28|-0.67|
82384102|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||This is the p-value for the Motivation/Interest/Enthusiasm Score.|ANCOVA|ANCOVA main effect F test||||||0.882
82384103|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||This is the p-value for the Wakefulness/Alertness Score.|ANCOVA|ANCOVA main effect F test||||||0.657
82384104|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||This is the p-value for the Energy Score.|ANCOVA|ANCOVA main effect F test||||||0.457
82384105|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||This is the p-value for the Ability to Focus/Sustain Attention Score.|ANCOVA|ANCOVA main effect F test||||||0.737
82384106|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.404||95.0||||This is the p-value for the Ability to Remember/Recall Information Score.|ANCOVA|ANCOVA main effect F test||||||0.404
82384107|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||This is the p-value for the Ability to Find Words Score.|ANCOVA|ANCOVA main effect F test||||||0.808
82384108|NCT00985504|164479360|SUPERIORITY_OR_OTHER|||||||0.431||95.0||||This is the p-value for the Sharpness/Mental Acuity Score.|ANCOVA|ANCOVA main effect F test||||||0.431
82571945|NCT03672175|164853241|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.6234|TWO_SIDED|95.0|-0.2|0.3||MMRM with treatment, BL sNAW score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 28||0.3|-0.2|0.6234
82571946|NCT03672175|164853242|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6741|TWO_SIDED|95.0|0.52|1.53||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.53|0.52|0.6741
82384109|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.821||95.0||||This is the p-value for the SDS Total Score.|ANCOVA|ANCOVA main effect F test||||||0.821
82384110|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||This is the p-value for the Item 1 (Work) Score.|ANCOVA|ANCOVA main effect F test||||||0.491
82384111|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.451||95.0||||This is the p-value for the Item 2 (Family) Score.|ANCOVA|ANCOVA main effect F test||||||0.451
82384112|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.443||95.0||||This is the p-value for the Item 3 (Social) Score.|ANCOVA|ANCOVA main effect F test||||||0.443
82384113|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.719||95.0||||This is the p-value for the Item 4 (Days Lost) Score.|ANCOVA|ANCOVA main effect F test||||||0.719
82384114|NCT00985504|164479361|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||This is the p-value for the Item 5 (Days Underproductive) Score.|ANCOVA|ANCOVA main effect F test||||||0.517
82384115|NCT00985504|164479362|SUPERIORITY_OR_OTHER|||||||0.776||95.0|||||Fisher Exact|||||||0.776
82384116|NCT00985504|164479363|SUPERIORITY_OR_OTHER|||||||0.691||95.0|||||Log Rank|||The log-rank test was conducted using Kaplan-Meier Product-Limit method.||||0.691
82384117|NCT00985504|164479364|SUPERIORITY_OR_OTHER|||||||0.724||95.0|||||Fisher Exact|||||||0.724
82384118|NCT01465412|164479367|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the least squares mean (LSM) Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.075|||||TWO_SIDED|90.0|0.695|1.662||||||The analysis was performed using an analysis of covariance (ANCOVA) model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, Body Mass Index (BMI) and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||1.662|0.695|
82384119|NCT01465412|164479367|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.598|||||TWO_SIDED|90.0|1.334|5.06||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||5.060|1.334|
82384120|NCT01465412|164479368|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.305|||||TWO_SIDED|90.0|0.84|2.027||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.027|0.840|
82442523|NCT02481713|164593789|NON_INFERIORITY|All analyses were two-tailed with alpha set at 0.05||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82571947|NCT03672175|164853242|SUPERIORITY||Odds Ratio (OR)|0.79||||0.3924|TWO_SIDED|95.0|0.46|1.36||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 15||1.36|0.46|0.3924
82637364|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 4 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-2.11|3.31||||||||3.31|-2.11|
82571948|NCT03672175|164853242|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7307|TWO_SIDED|95.0|0.51|1.6||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 28||1.60|0.51|0.7307
82637365|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 8 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|-2.38|3.47||||||||3.47|-2.38|
82384121|NCT01465412|164479368|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.434|||||TWO_SIDED|90.0|0.643|3.198||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||3.198|0.643|
82442524|NCT02481713|164593790|SUPERIORITY||Risk Ratio (RR)|1.46||||0.0001|TWO_SIDED|95.0|1.25|1.69|||Regression, zero-inflated Poisson|||||1.69|1.25|.0001
82571949|NCT03672175|164853242|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8358|TWO_SIDED|95.0|0.52|1.7||GEE for binary response model, with factors for treatment, BL sleep quality response, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|GEE|||Day 28||1.70|0.52|0.8358
82637366|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 12 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|2.11|||TWO_SIDED|90.0|-2.85|4.14||||||||4.14|-2.85|
82384122|NCT01465412|164479369|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.852|||||TWO_SIDED|90.0|0.81|4.234||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||4.234|0.810|
82384123|NCT01465412|164479369|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.392|||||TWO_SIDED|90.0|1.306|4.382||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||4.382|1.306|
82442525|NCT01304329|164593860|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.05|STANDARD_DEVIATION|5.4|||TWO_SIDED|90.0|98.9|105.29|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|Considered characteristic is empa plus simvastatin divided by empa alone||105.29|98.90|
82637367|NCT03808298|164989133|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at Day 14 24 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-2.36|2.6||||||||2.60|-2.36|
82637368|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 0.5 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-1.2|0.73||||||||0.73|-1.20|
82637369|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-1.08|0.96||||||||0.96|-1.08|
82519738|NCT01972841|164734756|SUPERIORITY||Least squares mean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-8.17|-3.44|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-3.44|-8.17|<0.001
82384124|NCT01465412|164479370|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.548|||||TWO_SIDED|90.0|0.918|2.61||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.610|0.918|
82384125|NCT01465412|164479370|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.407|||||TWO_SIDED|90.0|0.72|2.75||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||2.750|0.720|
82384126|NCT01465412|164479371|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.555|||||TWO_SIDED|90.0|0.617|3.917||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||3.917|0.617|
82384127|NCT01465412|164479371|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|4.806|||||TWO_SIDED|90.0|2.77|8.335||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||8.335|2.770|
82442526|NCT01304329|164593861|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.26|STANDARD_DEVIATION|40.4|||TWO_SIDED|90.0|80.06|128.07|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin~Considered characteristic is empa plus simvastatin divided by simvastatin alone"||128.07|80.06|
82442527|NCT01304329|164593861|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|104.87|STANDARD_DEVIATION|25.5|||TWO_SIDED|90.0|90.09|122.07|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin acid~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||122.07|90.09|
82571950|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.72||0.7375|TWO_SIDED|95.0|-1.6|1.2||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: PCS Score||1.2|-1.6|0.7375
82571951|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.74||0.5144|TWO_SIDED|95.0|-1.9|1.0||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: PCS Score||1.0|-1.9|0.5144
82384128|NCT01465412|164479372|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.269|||||TWO_SIDED|90.0|0.703|2.288||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.288|0.703|
82384129|NCT01465412|164479372|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.98|||||TWO_SIDED|90.0|1.316|2.977||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||2.977|1.316|
82571952|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79||0.8343|TWO_SIDED|95.0|-1.7|1.4||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: PCS Score||1.4|-1.7|0.8343
82519739|NCT01972841|164734756|SUPERIORITY||Least squares mean difference|-7.13|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-9.5|-4.76|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-4.76|-9.50|<0.001
82519740|NCT01972841|164734756|SUPERIORITY||Least squares mean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.46|-3.74|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-3.74|-8.46|<0.001
82519741|NCT01972841|164734757|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.14||0.077|TWO_SIDED|95.0|-0.03|0.52|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.52|-0.03|0.077
82519742|NCT01972841|164734757|SUPERIORITY||Least squares mean difference|0.27|STANDARD_ERROR_OF_MEAN|0.14||0.05|TWO_SIDED|95.0|0.0|0.55|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.55|0.00|0.050
82519743|NCT01972841|164734757|SUPERIORITY||Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.14||0.008|TWO_SIDED|95.0|0.1|0.65|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.65|0.10|0.008
82519744|NCT01972841|164734757|SUPERIORITY||Least squares mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.14||0.007|TWO_SIDED|95.0|0.1|0.65|||ANCOVA|No adjustment for multiplicity was made for this comparison.||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous overactive bladder medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.65|0.10|0.007
82571953|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.85||0.4569|TWO_SIDED|95.0|-1.0|2.3||MMRM with treatment, BL SF-36v2 physical component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: PCS Score||2.3|-1.0|0.4569
82571954|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.63||0.4663|TWO_SIDED|95.0|-2.0|4.4||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: MCS Score||4.4|-2.0|0.4663
82571955|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|1.68||0.1138|TWO_SIDED|95.0|-0.6|6.0||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 15: MCS Score||6.0|-0.6|0.1138
82571956|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.74||0.7901|TWO_SIDED|95.0|-3.0|3.9||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: MCS Score||3.9|-3.0|0.7901
82571957|NCT03672175|164853243|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.71||0.3955|TWO_SIDED|95.0|-1.9|4.8||MMRM with treatment, BL SF-36v2 mental component score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction as fixed effects were used for analysis.|MMRM|||Day 42: MCS Score||4.8|-1.9|0.3955
82637370|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 2.5 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.73|0.78||||||||0.78|-1.73|
82637371|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 4 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|90.0|-1.8|0.7||||||||0.70|-1.80|
82519745|NCT01972841|164734758|SUPERIORITY||Rate ratio|0.87|STANDARD_ERROR_OF_MEAN|0.09||0.135|TWO_SIDED|95.0|0.72|1.04|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.04|0.72|0.135
82519746|NCT01972841|164734758|SUPERIORITY||Rate ratio|0.9|STANDARD_ERROR_OF_MEAN|0.09||0.282|TWO_SIDED|95.0|0.75|1.09|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.09|0.75|0.282
82519747|NCT01972841|164734758|SUPERIORITY||Rate ratio|0.71|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.59|0.85|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||0.85|0.59|<0.001
82519748|NCT01972841|164734758|SUPERIORITY||Rate ratio|0.88|STANDARD_ERROR_OF_MEAN|0.1||0.172|TWO_SIDED|95.0|0.73|1.06|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, ≥65 years), geographic region and previous OAB medication (yes, no) as factors, log(number of incontinence episodes used divided by number of valid diary days) at baseline included as a covariate and number of valid diary days at EoT as the offset variable.||1.06|0.73|0.172
82519749|NCT01972841|164734759|SUPERIORITY||least squares mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.83||0.074|TWO_SIDED|95.0|-3.27|-0.01|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.offset variable.||-0.01|-3.27|0.074
82571958|NCT03672175|164853244|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.83||0.8821|TWO_SIDED|95.0|-1.8|1.5||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 15||1.5|-1.8|0.8821
82637372|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|-2.42|1.05||||||||1.05|-2.42|
82384130|NCT01465412|164479373|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.326|||||TWO_SIDED|90.0|0.749|2.348||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.348|0.749|
82519750|NCT01972841|164734759|SUPERIORITY||Least squares mean difference|-1.33|STANDARD_ERROR_OF_MEAN|0.83||0.025|TWO_SIDED|95.0|-2.96|0.3|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the solifenacin 5 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.30|-2.96|0.025
82384131|NCT01465412|164479373|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|4.041|||||TWO_SIDED|90.0|1.46|11.187||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||11.187|1.460|
82384132|NCT01465412|164479374|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|1.609|||||TWO_SIDED|90.0|1.007|2.572||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was excluded from Part 1 analysis.||2.572|1.007|
82519751|NCT01972841|164734759|SUPERIORITY||least square mean difference|-2.36|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-4.0|-0.73|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 25 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.73|-4.00|<0.001
82384133|NCT01465412|164479374|NON_INFERIORITY_OR_EQUIVALENCE|To be considered equivalent the LSM Ratio (HI/Healthy) is contained within the interval \[0.50, 2.00\].|LSM Ratio|2.231|||||TWO_SIDED|90.0|0.844|5.896||||||The analysis was performed using an ANCOVA model. Parameters were log-transformed (using the natural logarithm) prior to analysis. Study population (i.e., HI or Healthy) was included as a fixed effect with continuous covariates age, BMI and a categorical covariate, gender. Gender was included from Part 2 analysis.||5.896|0.844|
82384134|NCT04390113|164479375|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6253|TWO_SIDED|95.0|0.55|1.55|||Log Rank|||||1.55|0.55|0.6253
82384135|NCT03100903|164479421|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean ratio (%)|71.64|||||TWO_SIDED|90.0|60.57|84.73|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 23.7"|||84.73|60.57|
82442528|NCT01304329|164593862|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|109.49|STANDARD_DEVIATION|21.1|||TWO_SIDED|90.0|96.91|123.69|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|Considered characteristic is empa plus simvastatin divided by empa alone||123.69|96.91|
82384136|NCT03100903|164479422|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean (gMean) Ratio %|29.29|||||TWO_SIDED|90.0|24.27|35.35|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 26.6"|||35.35|24.27|
82384137|NCT03100903|164479423|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale, accounting for the treatment group as a source of variation. The effect 'treatment group' was considered as fixed.|Geometric Mean (gMean) Ratio %|70.22|||||TWO_SIDED|90.0|59.26|83.2|||||"gMean ratio = gMean of BI 655130 high dose SC/gMean of BI 655130 high dose IV.~Inter-individual geometric coefficient of variation (gCV) \[%\] = 23.9"|||83.20|59.26|
82519752|NCT01972841|164734759|SUPERIORITY||Least squares mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.84||0.024|TWO_SIDED|95.0|-3.23|0.05|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the mirabegron 50 mg monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.05|-3.23|0.024
82519753|NCT01972841|164734763|SUPERIORITY||Least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.29||0.52|TWO_SIDED|95.0|-0.39|0.76|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.76|-0.39|0.520
82519754|NCT01972841|164734763|SUPERIORITY||Least squares mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.29||0.413|TWO_SIDED|95.0|-0.82|0.34|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.34|-0.82|0.413
82519755|NCT01972841|164734763|SUPERIORITY||Least squares mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|-1.5|-0.34|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.34|-1.50|0.002
82519756|NCT01972841|164734763|SUPERIORITY||Least squares mean diffrence|-0.56|STANDARD_ERROR_OF_MEAN|0.3||0.06|TWO_SIDED|95.0|-1.13|0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||0.02|-1.13|0.060
82519757|NCT01972841|164734764|SUPERIORITY||Rate ratio|0.85|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|0.7|1.04|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.04|0.70|0.110
82519758|NCT01972841|164734764|SUPERIORITY||Rate ratio|0.9|STANDARD_ERROR_OF_MEAN|0.1||0.288|TWO_SIDED|95.0|0.73|1.1|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.10|0.73|0.288
82519759|NCT01972841|164734764|SUPERIORITY||Rate ratio|0.65|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.53|0.79|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||0.79|0.53|<0.001
82519760|NCT01972841|164734764|SUPERIORITY||Rate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.1||0.084|TWO_SIDED|95.0|0.68|1.02|||Negative binomial regression|||Rate ratio of number of urgency incontinence episodes during the 7-day diary bet. the given combination group \& the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65,≥ 65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of urgency incontinence episodes used divided by number of valid diary days) included as a covariate \& postbaseline number of valid diary days as offset variable.||1.02|0.68|0.084
82519761|NCT01972841|164734765|SUPERIORITY||Least squares mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.76||0.114|TWO_SIDED|95.0|-3.09|-0.13|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.13|-3.09|0.114
82637373|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 12 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-2.66|1.24||||||||1.24|-2.66|
82519762|NCT01972841|164734765|SUPERIORITY||Least squares mean difference|-1.62|STANDARD_ERROR_OF_MEAN|0.76||0.034|TWO_SIDED|95.0|-3.1|-0.13|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.13|-3.10|0.034
82519763|NCT01972841|164734765|SUPERIORITY||Least squares mean difference|-2.61|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|-4.09|-1.12|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-1.12|-4.09|<0.001
82519764|NCT01972841|164734765|SUPERIORITY||Least squares mean difference|-2.21|STANDARD_ERROR_OF_MEAN|0.76||0.012|TWO_SIDED|95.0|-3.7|-0.71|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.71|-3.70|0.012
82519765|NCT01972841|164734766|SUPERIORITY||Least squares mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.134|TWO_SIDED|95.0|-0.46|-0.02|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.46|0.134
82519766|NCT01972841|164734766|SUPERIORITY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.043|TWO_SIDED|95.0|-0.45|-0.02|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.45|0.043
82519767|NCT01972841|164734766|SUPERIORITY||Least squares mean diffeence|-0.37|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.59|-0.15|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.15|-0.59|<0.001
82519768|NCT01972841|164734766|SUPERIORITY||Standard Error of the Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.11||0.019|TWO_SIDED|5.0|-0.54|-0.1|||Stratified rank ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50mg ) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.10|-0.54|0.019
82519769|NCT01972841|164734767|SUPERIORITY||Least squares mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.074|TWO_SIDED|95.0|-0.69|0.03|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.03|-0.69|0.074
82519770|NCT01972841|164734767|SUPERIORITY||Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.014|TWO_SIDED|95.0|-0.82|-0.09|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.09|-0.82|0.014
82571959|NCT03672175|164853244|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.83||0.151|TWO_SIDED|95.0|-2.8|0.4||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 15||0.4|-2.8|0.1510
82571960|NCT03672175|164853244|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.84||0.2926|TWO_SIDED|95.0|-0.8|2.5||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 42||2.5|-0.8|0.2926
82571961|NCT03672175|164853244|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.83||0.4785|TWO_SIDED|95.0|-2.2|1.0||MMRM with treatment, BL PHQ-9 total score, anti-depressant use at BL, assessment time point, and time point-by-treatment interaction were used for analysis.|MMRM|||Day 42||1.0|-2.2|0.4785
82637374|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 24 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|90.0|-1.91|0.85||||||||0.85|-1.91|
82571962|NCT02586415|164853257|SUPERIORITY||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.63|4.7||Criteria to assess superiority was a two-sided P value of \<0.05. The study was terminated early because the pre-specified stopping boundary of P \<0.0025 was crossed at the first interim analysis (N=182)|Cochran-Mantel-Haenszel|||||4.70|1.63|<0.001
82571963|NCT05178979|164853268|SUPERIORITY||Wald Chi-Square|1.94||||0.38|TWO_SIDED|||||Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.38
82571964|NCT05178979|164853268|SUPERIORITY||unstandardized beta|0.93|STANDARD_ERROR_OF_MEAN|4.63||0.84|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points.||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.84
82571965|NCT05178979|164853268|SUPERIORITY||unstandardized beta|-2.62|STANDARD_ERROR_OF_MEAN|3.87||0.5|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|Models control for clinic, gender, lifetime experience of intimate partner violence (IPV) and are adjusted for multiple time points.||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.50
82571966|NCT05178979|164853269|SUPERIORITY||Wald Chi-square|2.0||||0.37|TWO_SIDED|||||Models control for clinic and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.37
82571967|NCT05178979|164853269|SUPERIORITY||unstandardized beta|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.18|TWO_SIDED|||||P-value is adjusted for clinic; this value is the 6-month follow-up|Regression, Linear|Model controls for clinic||Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.18
82571968|NCT05178979|164853269|SUPERIORITY||unstandardized beta|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.19|TWO_SIDED|||||P-value is adjusted for clinic; this value is the 12-month follow-up|Regression, Linear|Model controls for clinic|Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.||||0.19
82571969|NCT05178979|164853270|SUPERIORITY||Wald Chi-square|10.84||||0.004|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.004
82637375|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.75 Hours Pre-dose|LS Mean|-2.2|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-3.9|-0.48||||||||-0.48|-3.90|
82637376|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Pre-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-3.41|0.0||||||||0.00|-3.41|
82571970|NCT05178979|164853270|SUPERIORITY||unstandardized beta|0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||<0.001
82571971|NCT05178979|164853270|SUPERIORITY||unstandardized beta|-0.02|STANDARD_ERROR_OF_MEAN|0.09||0.86|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.86
82571972|NCT05178979|164853271|SUPERIORITY||Wald Chi-square|21.42|||<|0.001|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Logistic||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571973|NCT05178979|164853271|SUPERIORITY||unstandardized beta|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.81|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||update||||0.81
82571974|NCT05178979|164853271|SUPERIORITY||unstandardized beta|-0.22|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||update||||<0.001
82637377|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.25 Hours Pre-dose|LS Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|90.0|-3.21|0.36||||||||0.36|-3.21|
82637378|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Pre-dose|LS Mean|-1.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|-3.25|0.01||||||||0.01|-3.25|
82519771|NCT01972841|164734767|SUPERIORITY||Least squares mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.01|-0.28|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.28|-1.01|<0.001
82519772|NCT01972841|164734767|SUPERIORITY||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.24|0.51|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.51|-1.24|<0.001
82519773|NCT01972841|164734768|SUPERIORITY||Rate ratio|0.88|STANDARD_ERROR_OF_MEAN|0.05||0.006|TWO_SIDED|95.0|0.81|0.96|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.96|0.81|0.006
82571975|NCT05178979|164853272|SUPERIORITY||Wald Chi-square|150.43|||<|0.001|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571976|NCT05178979|164853272|SUPERIORITY||unstandardized beta|0.17|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up|Regression, Linear|||||||0.002
82571977|NCT05178979|164853272|SUPERIORITY||unstandardized beta|0.13|STANDARD_ERROR_OF_MEAN|0.06||0.03|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up|Regression, Linear|||||||0.03
82571978|NCT05178979|164853273|SUPERIORITY||Wald Chi-square|8.72||||0.01|TWO_SIDED|||||Models control for clinic, cadre, and gender and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.01
82571979|NCT05178979|164853273|SUPERIORITY||unstandardized beta|0.42|STANDARD_ERROR_OF_MEAN|0.29||0.15|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.15
82571980|NCT05178979|164853273|SUPERIORITY||unstandardized beta|0.32|STANDARD_ERROR_OF_MEAN|0.12||0.008|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, cadre, and gender and are adjusted for multiple time points.||||||0.008
82442529|NCT01304329|164593863|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|97.18|STANDARD_DEVIATION|41.7|||TWO_SIDED|90.0|76.3|123.77|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"Cmax of simvastatin.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||123.77|76.30|
82571981|NCT05178979|164853274|SUPERIORITY||Wald Chi-square|172.52|||<|0.001|TWO_SIDED|||||Models control for clinic and income and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571982|NCT05178979|164853274|SUPERIORITY||unstandardized beta|0.14|STANDARD_ERROR_OF_MEAN|0.34||0.68|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 6-month follow-up|Regression, Linear|Models control for clinic and income and are adjusted for multiple time points.||||||0.68
82637379|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 1 Hours Post-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-3.36|-0.01||||||||-0.01|-3.36|
82442530|NCT01304329|164593863|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|97.27|STANDARD_DEVIATION|22.7|||TWO_SIDED|90.0|84.9|111.44|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"Cmax of simvastatin acid.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||111.44|84.90|
82571983|NCT05178979|164853274|SUPERIORITY||unstandardized beta|-0.83|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic and income and are adjusted for multiple time points.||||||<0.001
82571984|NCT05178979|164853275|SUPERIORITY|Models control for clinic, income, years living with HIV and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Wald Chi-square|25.27|||<|0.001|TWO_SIDED||||||Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571985|NCT05178979|164853275|SUPERIORITY||unstandardized beta|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.1|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 6-month follow-up.|Regression, Linear|Models control for clinic, income, years living with HIV and are adjusted for multiple time points.||||||0.10
82571986|NCT05178979|164853275|SUPERIORITY||unstandardized beta|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.54|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is the 12-month follow-up.|Regression, Linear|Models control for clinic, income, years living with HIV and are adjusted for multiple time points||||||0.54
82637380|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 2.5 Hours Post-dose|LS Mean|-1.9|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-3.75|-0.14||||||||-0.14|-3.75|
82637381|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 4 Hours Post-dose|LS Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-3.06|0.29||||||||0.29|-3.06|
82384138|NCT04659993|164479424|SUPERIORITY|To test the change over the 8 weeks, a paired t-test (using the baseline and Visit 8 scores within the same patient) will be used; the expected difference in the CBI-B between the two scores would be no change. All statistical test used an alpha of 0.05.|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|7.8||0.8036|TWO_SIDED|95.0|-7.3|9.0||All statistical tests were performed with a significance level of 0.05.|t-test, 2 sided|||To test the change over the 8 weeks, a paired t-test (using the baseline and Visit 8 scores within the same patient) will be used; the expected difference in the CBI-B between the two scores would be no change. All statistical test used an alpha of 0.05.||9.0|-7.3|0.8036
82519774|NCT01972841|164734768|SUPERIORITY||Rate ratio|0.81|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|0.74|0.88|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.88|0.74|<0.001
82519775|NCT01972841|164734768|SUPERIORITY||Rate ratio|0.91|STANDARD_ERROR_OF_MEAN|0.05||0.049|TWO_SIDED|95.0|0.84|1.0|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.00|0.84|0.049
82384139|NCT04659993|164479425|SUPERIORITY|Paired t-test for Coronavirus Anxiety Scale. Statistical significance using alpha of 0.05.|Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.4||0.3632|TWO_SIDED|95.0|-0.6|0.3|||t-test, 2 sided|||||0.3|-0.6|0.3632
82384140|NCT04659993|164479426|SUPERIORITY|Paired t-test of Purpose in life test. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|9.7||0.7918|TWO_SIDED|95.0|-11.3|9.1|||t-test, 2 sided|||||9.1|-11.3|0.7918
82384141|NCT04659993|164479427|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Anxious preoccupation Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|5.3||0.7711|TWO_SIDED|95.0|-6.2|4.9|||t-test, 2 sided|||||4.9|-6.2|0.7711
82384142|NCT04659993|164479427|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Cognitive avoidance Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-5.3|STANDARD_DEVIATION|5.9||0.0772|TWO_SIDED|95.0|-11.5|0.8|||t-test, 2 sided|||||0.8|-11.5|0.0772
82384143|NCT04659993|164479427|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Fatalism Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|5.6||0.2452|TWO_SIDED|95.0|-2.9|8.9|||t-test, 2 sided|||||8.9|-2.9|0.2452
82384144|NCT04659993|164479427|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Fighting spirit Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|8.3||0.6099|TWO_SIDED|95.0|-10.5|6.8|||t-test, 2 sided|||||6.8|-10.5|0.6099
82384145|NCT04659993|164479427|SUPERIORITY|Paired t-test of The Mini-Mental Adjustment to Cancer Helplessness/hopelessness Subscale. Statistical significance determine with alpha of 0.05.|Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|3.5||0.0913|TWO_SIDED|95.0|-6.7|0.7|||t-test, 2 sided|||||0.7|-6.7|0.0913
82384146|NCT00915018|164479436|SUPERIORITY||Hazard Ratio (HR)|1.015||||0.8934|TWO_SIDED|95.0|0.813|1.269|||Log Rank|||||1.269|0.813|0.8934
82384147|NCT00915018|164479437|OTHER||Risk Difference (RD)|0.028||||0.5219|TWO_SIDED|95.0|-0.048|0.105|||Mantel Haenszel|||||0.105|-0.048|0.5219
82384148|NCT00915018|164479438|OTHER||Hazard Ratio (HR)|0.974||||0.8431|TWO_SIDED|95.0|0.752|1.262|||Log Rank|||||1.262|0.752|0.8431
82384149|NCT00915018|164479439|OTHER||Risk Difference (RD)|-0.032||||0.236|TWO_SIDED|95.0|-0.093|0.029|||Mantel Haenszel|||||0.029|-0.093|0.2360
82384150|NCT00915018|164479440|OTHER||Hazard Ratio (HR)|0.449||||0.0036|TWO_SIDED|95.0|0.259|0.78|||Log Rank|||||0.780|0.259|0.0036
82384151|NCT00457002|164479441|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.4364|TWO_SIDED|95.0|0.62|1.23|||Mantel Haenszel|||To conclude superiority of apixaban versus enoxaparin on the primary efficacy endpoint, the upper bound of the two-sided 95.004% confidence interval (CI) for the relative risk (pa/ pe) must be less than 1.||1.23|0.62|0.4364
82384152|NCT00457002|164479441|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.39|||||TWO_SIDED|95.0|-1.37|0.59||||||||0.59|-1.37|
82384153|NCT00457002|164479442|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.69|1.63||||||Formal testing of noninferiority for the key secondary efficacy endpoint was not performed since the superiority of the primary efficacy endpoint was not demonstrated.||1.63|0.69|
82384154|NCT00457002|164479442|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.61|0.81||||||||0.81|-0.61|
82519776|NCT01972841|164734768|SUPERIORITY||Rate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|0.79|0.94|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of nocturia episodes used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.94|0.79|0.001
82519777|NCT01972841|164734769|SUPERIORITY||Least squares mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.34||0.073|TWO_SIDED|95.0|-1.28|0.06|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.06|-1.28|0.073
82519778|NCT01972841|164734769|SUPERIORITY||Least squares mean difference|-1.16|STANDARD_ERROR_OF_MEAN|0.34||0.001|TWO_SIDED|95.0|-1.83|-0.48|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.48|-1.83|0.001
82384155|NCT00457002|164479443|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.7|1.71||||||||1.71|0.70|
82384156|NCT00457002|164479443|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.14|||||TWO_SIDED|95.0|-0.57|0.85||||||||0.85|-0.57|
82384157|NCT00457002|164479444|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.78|1.2||||||||1.20|0.78|
82384158|NCT00457002|164479444|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.24|||||TWO_SIDED|95.0|-1.65|1.17||||||||1.17|-1.65|
82384159|NCT00457002|164479445|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.79|1.22||||||||1.22|0.79|
82384160|NCT00457002|164479445|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.12|||||TWO_SIDED|95.0|-1.52|1.29||||||||1.29|-1.52|
82384161|NCT00457002|164479446|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.29||||||||1.29|0.65|
82637382|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 8 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|90.0|-3.08|1.01||||||||1.01|-3.08|
82519779|NCT01972841|164734769|SUPERIORITY||Least squares mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.34||0.14|TWO_SIDED|95.0|-1.18|0.17|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.17|-1.18|0.140
82637383|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 12 Hours Post-dose|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.03|0.76||||||||0.76|-3.03|
82519780|NCT01972841|164734769|SUPERIORITY||Least squares mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-1.88|-0.54|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.54|-1.88|<0.001
82519781|NCT01972841|164734770|SUPERIORITY||Least squares mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.065|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.19|0.065
82519782|NCT01972841|164734770|SUPERIORITY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.07|-0.26|0.001
82519783|NCT01972841|164734770|SUPERIORITY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1|TWO_SIDED|95.0|-0.18|0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.02|-0.18|0.100
82519784|NCT01972841|164734770|SUPERIORITY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.07|-0.26|0.001
82519785|NCT01972841|164734771|SUPERIORITY||Rate ratio|1.01|STANDARD_ERROR_OF_MEAN|0.12||0.938|TWO_SIDED|95.0|0.8|1.27|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.27|0.80|0.938
82519786|NCT01972841|164734771|SUPERIORITY||Rate ratio|1.0|STANDARD_ERROR_OF_MEAN|0.12||0.967|TWO_SIDED|95.0|0.79|1.25|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.25|0.79|0.967
82637384|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 24 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.13|||TWO_SIDED|90.0|-2.87|0.87||||||||0.87|-2.87|
82637385|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 0.5 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-0.89|1.07||||||||1.07|-0.89|
82637386|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 1 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-1.21|0.86||||||||0.86|-1.21|
82637387|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 2.5 Hours Post-dose|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|90.0|-1.71|0.83||||||||0.83|-1.71|
82637388|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 4 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-1.07|1.46||||||||1.46|-1.07|
82637389|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 8 Hours Post-dose|LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|-2.5|1.0||||||||1.00|-2.50|
82637390|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 12 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|-2.22|1.74||||||||1.74|-2.22|
82637391|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 1 24 Hours Post-dose|LS Mean|-2.2|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-3.63|-0.85||||||||-0.85|-3.63|
82384162|NCT00457002|164479446|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.26|||||TWO_SIDED|95.0|-1.23|0.71||||||||0.71|-1.23|
82637392|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.75 Hours Pre-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-2.42|1.03||||||||1.03|-2.42|
82637393|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline Day 14 HR (bpm) at 0.5 Hours Pre-dose|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-2.96|0.49||||||||0.49|-2.96|
82637394|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.25 Hours Pre-dose|LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-2.58|1.02||||||||1.02|-2.58|
82637395|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 0.5 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-2.34|0.95||||||||0.95|-2.34|
82637396|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 1 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.65|0.73||||||||0.73|-2.65|
82384163|NCT00457002|164479447|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.11|4.05||||||||4.05|0.11|
82384164|NCT00457002|164479447|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.16|0.1||||||||0.10|-0.16|
82637397|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 2.5 Hours Post-dose|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|-3.11|0.53||||||||0.53|-3.11|
82637398|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 4 Hours Post-dose|LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.73|0.66||||||||0.66|-2.73|
82637399|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-2.77|1.37||||||||1.37|-2.77|
82384165|NCT00457002|164479448|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.68|1.16||||||||1.16|0.68|
82384166|NCT00457002|164479448|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.38|||||TWO_SIDED|95.0|-1.25|0.48||||||||0.48|-1.25|
82384167|NCT00457002|164479449|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.26|0.96||||||||0.96|0.26|
82384168|NCT00457002|164479449|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-0.78|-0.03||||||||-0.03|-0.78|
82384169|NCT00457002|164479450|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.84|1.28||||||||1.28|0.84|
82384170|NCT00457002|164479450|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-1.18|1.73||||||||1.73|-1.18|
82384171|NCT00457002|164479451|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.32|2.43||||||||2.43|0.32|
82384172|NCT00457002|164479451|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.26|0.2||||||||0.20|-0.26|
82384173|NCT00457002|164479452|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.32|2.43||||||||2.43|0.32|
82384174|NCT00457002|164479452|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.26|0.2||||||||0.20|-0.26|
82384175|NCT00457002|164479453|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31|||||TWO_SIDED|95.0|0.11|0.83||||||||0.83|0.11|
82384176|NCT00457002|164479453|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.34|||||TWO_SIDED|95.0|-0.62|-0.07||||||||-0.07|-0.62|
82637400|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 12 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-2.5|1.33||||||||1.33|-2.50|
82637401|NCT03808298|164989134|OTHER|Placebo-corrected change-from-baseline HR (bpm) at Day 14 24 Hours Post-dose|LS Mean|-1.7|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.57|0.2||||||||0.20|-3.57|
82637402|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|90.0|-2.56|0.17||||||||0.17|-2.56|
82637403|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 1 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|90.0|-1.62|1.55||||||||1.55|-1.62|
82637404|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 2.5 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|90.0|-1.22|2.09||||||||2.09|-1.22|
82637405|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 4 Hours Post-dose|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|90.0|-2.04|1.33||||||||1.33|-2.04|
82637406|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 8 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-1.0|3.33||||||||3.33|-1.00|
82637407|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.56|||TWO_SIDED|90.0|-2.3|2.88||||||||2.88|-2.30|
82571987|NCT05178979|164853276|SUPERIORITY|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Wald Chi-square|36.04|||<|0.001|TWO_SIDED|||||Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571988|NCT05178979|164853276|SUPERIORITY||unstandardized beta|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.97|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.||||||0.97
82571989|NCT05178979|164853276|SUPERIORITY||unstandardized beta|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, AUDIT score and are adjusted for multiple time points.||||||<0.001
82571990|NCT05178979|164853277|SUPERIORITY||Wald Chi-square|9.46||||0.01|TWO_SIDED|||||Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.01
82571991|NCT05178979|164853277|SUPERIORITY||unstandardized beta|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.81|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points.||||||0.81
82384177|NCT00457002|164479454|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.65|1.37||||||||1.37|0.65|
82571992|NCT05178979|164853277|SUPERIORITY||unstandardized beta|-0.25|STANDARD_ERROR_OF_MEAN|0.13||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, AUDIT score and are adjusted for multiple time points.||||||0.04
82571993|NCT05178979|164853278|SUPERIORITY||Wald Chi-square|14.77|||<|0.001|TWO_SIDED|||||Models control for clinic, gender, years living with HIV and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||<0.001
82571994|NCT05178979|164853278|SUPERIORITY||unstandardized beta|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.45|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV and are adjusted for multiple time points.||||||0.45
82571995|NCT05178979|164853278|SUPERIORITY||unstandardized beta|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.02|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV and are adjusted for multiple time points.||||||0.02
82571996|NCT05178979|164853279|SUPERIORITY||Wald Chi-square|11.06||||0.004|TWO_SIDED|||||Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.004
82571997|NCT05178979|164853279|SUPERIORITY||unstandardized beta|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.35|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points.||||||0.35
82384178|NCT00457002|164479454|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14|||||TWO_SIDED|95.0|-1.04|0.76||||||||0.76|-1.04|
82384179|NCT00457002|164479455|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.29|-0.02||||||Note: Relative risk was not estimable (0.0); only risk difference could be estimated.||-0.02|-0.29|
82384180|NCT00457002|164479456|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||||TWO_SIDED|95.0|0.14|1.16||||||||1.16|0.14|
82384181|NCT00457002|164479456|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.22|||||TWO_SIDED|95.0|-0.47|0.03||||||||0.03|-0.47|
82384182|NCT00457002|164479457|SUPERIORITY_OR_OTHER||Adjusted Difference of event rates|0.29||||0.0437|TWO_SIDED|95.0|0.01|0.57||The Mantel-Haenszel test stratified by the stratification factors will be used at the one-sided alpha=0.025 level.|Mantel Haenszel|||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||0.57|0.01|0.0437
82571998|NCT05178979|164853279|SUPERIORITY||unstandardized beta|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, AUDIT score, food insecurity and are adjusted for multiple time points.||||||0.04
82571999|NCT05178979|164853280|SUPERIORITY||Wald Chi-square|2.84||||0.24|TWO_SIDED|||||Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points. Models run using generalized estimating equations (GEE) to account for dependence in repeated, clustered data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints|||||0.24
82572000|NCT05178979|164853280|SUPERIORITY||unstandardized beta|0.02|STANDARD_ERROR_OF_MEAN|0.17||0.92|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 6-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points.||||||0.92
82572001|NCT05178979|164853280|SUPERIORITY||unstandardized beta|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.21|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 12-month follow-up.|Regression, Linear|Models control for clinic, gender, years living with HIV, travel time to clinic and are adjusted for multiple time points.||||||0.21
82572002|NCT03124550|164853281|OTHER|||||||0.0008|||||||Multilevel Modeling|||Multilevel modeling with the LMER package in R was used to determine whether participants changed in weekly average steps over the 6-week intervention.||||.0008
82572003|NCT03124550|164853282|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Pre-test and post-test comparison||||.01
82572004|NCT03124550|164853283|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Pre-test and post-test comparison||||.94
82572005|NCT03124550|164853284|OTHER|||||||0.0007|||||||Multilevel Modeling|||Multilevel modeling with the LMER package in R was used to determine whether participants changed in weekly number of social contact over the 6-week intervention.||||.0007
82384183|NCT00457002|164479458|SUPERIORITY_OR_OTHER||Adjusted Difference of event rates|0.36|||||TWO_SIDED|95.0|-0.33|1.06||||||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||1.06|-0.33|
82519787|NCT01972841|164734771|SUPERIORITY||Standard Error of the Mean|0.73|STANDARD_ERROR_OF_MEAN|0.12||0.008|TWO_SIDED|95.0|0.58|0.92|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||0.92|0.58|0.008
82572006|NCT03269695|164853304|SUPERIORITY||Treatment difference|1.8||||1|TWO_SIDED|95.0|-41.0|47.2|||Chan and Zhang (1999)|||||47.2|-41.0|1.0000
82637408|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 24 Hours Post-dose|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|-3.0|0.81||||||||0.81|-3.00|
82384184|NCT00457002|164479459|SUPERIORITY_OR_OTHER||Adjustted difference of event rates|0.59|||||TWO_SIDED|95.0|-16.0|1.33||||||Adjusted difference of event rates takes the stratification factor into consideration: previous VTE (yes, no) and active or previous cancer (yes, no).||1.33|-016|
82384185|NCT00457002|164479460|SUPERIORITY_OR_OTHER||Adjusted Difference of Event Rates|0.87|||||TWO_SIDED|95.0|-0.4|2.14||||||||2.14|-0.40|
82572007|NCT03269695|164853305|SUPERIORITY||Treatment difference|0.0||||1|TWO_SIDED|95.0|-37.0|37.0|||Chan and Zhang (1999)|||||37.0|-37.0|1.0000
82637409|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-2.08|3.35||||||||3.35|-2.08|
82519788|NCT01972841|164734771|SUPERIORITY||Rate ratio|0.8|STANDARD_ERROR_OF_MEAN|0.12||0.069|TWO_SIDED|95.0|0.64|1.02|||Negative binomial regression|||Rate ratio of number of incontinence episodes during the 7-day diary between the given combination group and the given monotherapy group calculated from a negative binomial regression model incl. treatment group, sex, age group (\<65, \>=65 years), geographic region and previous OAB medication (yes, no) as factors, baseline log(number of pads used divided by number of valid diary days) included as a covariate and postbaseline number of valid diary days as offset variable.||1.02|0.64|0.069
82637410|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|90.0|-2.48|3.12||||||||3.12|-2.48|
82519789|NCT01972841|164734772|SUPERIORITY||Least squares mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.86||0.958|TWO_SIDED|95.0|-1.73|1.64|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||1.64|-1.73|0.958
82519790|NCT01972841|164734772|SUPERIORITY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.86||0.5|TWO_SIDED|95.0|-2.27|1.11|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||1.11|-2.27|0.500
82519791|NCT01972841|164734772|SUPERIORITY||Least squares mean difference|-1.91|STANDARD_ERROR_OF_MEAN|0.87||0.028|TWO_SIDED|95.0|-3.62|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-3.62|0.028
82519792|NCT01972841|164734772|SUPERIORITY||Least squares mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.88||0.108|TWO_SIDED|95.0|-3.13|0.31|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.31|-3.13|0.108
82519793|NCT01972841|164734773|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.993|TWO_SIDED|95.0|-0.25|0.25|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.25|-0.25|0.993
82519794|NCT01972841|164734773|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.65|TWO_SIDED|95.0|-0.3|0.19|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||0.19|-0.30|0.650
82519795|NCT01972841|164734773|SUPERIORITY||Least squares mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.13||0.035|TWO_SIDED|95.0|-0.52|-0.02|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.02|-0.52|0.035
82519796|NCT01972841|164734773|SUPERIORITY||Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.13||0.169|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate||0.08|-0.43|0.169
82519797|NCT01972841|164734774|SUPERIORITY||Odds Ratio (OR)|1.37||||0.003|TWO_SIDED|95.0|1.11|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.11|0.003
82519798|NCT01972841|164734774|SUPERIORITY||Odds Ratio (OR)|1.36||||0.004|TWO_SIDED|95.0|1.11|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.11|0.004
82519799|NCT01972841|164734774|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.29|1.95|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.95|1.29|<0.001
82519800|NCT01972841|164734774|SUPERIORITY||Odds Ratio (OR)|1.36||||0.004|TWO_SIDED|95.0|1.1|1.68|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline logarithm of mean number of incontinence episodes per 24 hours as a covariate.||1.68|1.10|0.004
82572008|NCT03269695|164853306|SUPERIORITY||Treatment difference|14.3||||0.47|TWO_SIDED|95.0|-23.8|57.9|||Chan and Zhang (1999)|||||57.9|-23.8|0.4700
82637411|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|90.0|-2.55|3.06||||||||3.06|-2.55|
82519801|NCT01972841|164734775|SUPERIORITY||Odds Ratio (OR)|1.23||||0.039|TWO_SIDED|95.0|1.01|1.5|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.50|1.01|0.039
82637412|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|-3.17|3.12||||||||3.12|-3.17|
82637413|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 1 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|90.0|-2.47|3.37||||||||3.37|-2.47|
82519802|NCT01972841|164734775|SUPERIORITY||Odds Ratio (OR)|1.3||||0.009|TWO_SIDED|95.0|1.07|1.59|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.59|1.07|0.009
82637414|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 2.5 Hours Post-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|90.0|-3.42|2.34||||||||2.34|-3.42|
82637415|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 4 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-3.54|2.12||||||||2.12|-3.54|
82637416|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 8 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|90.0|-3.31|1.88||||||||1.88|-3.31|
82637417|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 12 Hours Post-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|90.0|-1.21|4.09||||||||4.09|-1.21|
82637418|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 24 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.63|||TWO_SIDED|90.0|-2.9|2.49||||||||2.49|-2.90|
82637419|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-2.0|0.77||||||||0.77|-2.00|
82637420|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 1 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|90.0|-1.71|1.5||||||||1.50|-1.71|
82637421|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 2.5 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.02||||90.0|-1.64|1.73||||||||1.73|-1.64|
82637422|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 4 Hours Post-dose|LS Mean|-0.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-2.39|1.02||||||||1.02|-2.39|
82637423|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 8 Hours Post-dose|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|-1.26|3.13||||||||3.13|-1.26|
82637424|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 12 Hours Post-dose|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|1.59||||90.0|-3.92|1.35||||||||1.35|-3.92|
82637425|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 1 24 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.96|1.89||||||||1.89|-1.96|
82637426|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|1.4|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|90.0|-1.34|4.13||||||||4.13|-1.34|
82637427|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.61|4.05||||||||4.05|-1.61|
82637428|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.32|4.35||||||||4.35|-1.32|
82637429|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 0.5 Hours Post-dose|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|90.0|-3.38|2.97||||||||2.97|-3.38|
82637430|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 1 Hours Pre-dose|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|1.78||||90.0|-3.48|2.42||||||||2.42|-3.48|
82637431|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 2.5 Hours Post-dose|LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.76|||TWO_SIDED|90.0|-1.81|4.02||||||||4.02|-1.81|
82637432|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 4 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|90.0|-1.67|4.04||||||||4.04|-1.67|
82637433|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 8 Hours Post-dose|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|90.0|-1.95|3.29||||||||3.29|-1.95|
82637434|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 12 Hours Post-dose|LS Mean|3.3|STANDARD_ERROR_OF_MEAN|1.62|||TWO_SIDED|90.0|0.6|5.96||||||||5.96|0.60|
82637435|NCT03808298|164989135|OTHER|Placebo-corrected change-from-baseline PR (ms) at Day 14 24 Hours Post-dose|LS Mean|2.0|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-0.72|4.72||||||||4.72|-0.72|
82637436|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.29|0.07||||||||0.07|-0.29|
82637437|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 1 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.02|0.34||||||||0.34|-0.02|
82519803|NCT01972841|164734775|SUPERIORITY||Odds Ratio (OR)|1.45|||<|0.001|TWO_SIDED|95.0|1.19|1.77|||overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.77|1.19|<0.001
82384186|NCT00457002|164479461|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.74|1.61||||||||1.61|0.74|
82519804|NCT01972841|164734775|SUPERIORITY||Odds Ratio (OR)|1.5|||<|0.001|TWO_SIDED|95.0|1.23|1.84|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate||1.84|1.23|<0.001
82637438|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline (ms) at QRS Day 1 2.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.3|0.12||||||||0.12|-0.30|
82384187|NCT00457002|164479461|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-0.66|1.07||||||||1.07|-0.66|
82384188|NCT00457002|164479470|SUPERIORITY_OR_OTHER||Adjusted Event rate difference|0.0|||||TWO_SIDED|95.0|-0.3|0.29|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference in event rates in MI or stroke.||0.29|-0.30|
82384189|NCT00457002|164479470|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|0.09|||||TWO_SIDED|95.0|-0.11|0.3|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference of event rates for myocardial infarction.||0.30|-0.11|
82384190|NCT00457002|164479470|SUPERIORITY_OR_OTHER||Adjusted difference in event rates|-0.1|||||TWO_SIDED|95.0|-0.32|0.12||||||Adjusted difference in event rates for stroke.||0.12|-0.32|
82384191|NCT00457002|164479470|SUPERIORITY_OR_OTHER||Adjusted difference in event rates|0.09|||||TWO_SIDED|95.0|-0.09|0.28|||||stratification factor: previous VTE (yes, no), and active or previous cancer (yes, no).|Adjusted difference of event rates in thrombocytopenia.||0.28|-0.09|
82384192|NCT00833105|164479478|SUPERIORITY_OR_OTHER||||||<|0.025|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||<0.025
82637439|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 4 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.26|0.18||||||||0.18|-0.26|
82637440|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 8 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.57|0.38||||||||0.38|-0.57|
82519805|NCT01972841|164734776|SUPERIORITY||Odds Ratio (OR)|1.32||||0.011|TWO_SIDED|95.0|1.07|1.64|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.64|1.07|0.011
82519806|NCT01972841|164734776|SUPERIORITY||Odds Ratio (OR)|1.41||||0.002|TWO_SIDED|95.0|1.14|1.75|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.75|1.14|0.002
82519807|NCT01972841|164734776|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.32|2.06|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.06|1.32|<0.001
82519808|NCT01972841|164734776|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.33|2.07|||Overdispersed binomial regression|||Odds ratio from a overdispersed binomial regression model (Williams' method) including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.07|1.33|<0.001
82572009|NCT03269695|164853307|SUPERIORITY||Treatment difference|10.0||||0.5221|TWO_SIDED|95.0|-20.7|45.6|||Chan and Zhang (1999)|||||45.6|-20.7|0.5221
82519809|NCT01972841|164734777|SUPERIORITY||Least squares mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.11|-0.41|<0.001
82519810|NCT01972841|164734777|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.54|-0.25|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.25|-0.54|<0.001
82519811|NCT01972841|164734777|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.50|<0.001
82519812|NCT01972841|164734777|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.50|<0.001
82519813|NCT01972841|164734779|SUPERIORITY||Least squares mean difference|3.81|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|1.69|5.94|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.94|1.69|<0.001
82572010|NCT03269695|164853308|SUPERIORITY||Treatment difference|32.1||||0.3166|TWO_SIDED|95.0|-23.7|74.1|||Chan and Zhang (1999)|||||74.1|-23.7|0.3166
82572011|NCT03269695|164853309|SUPERIORITY||Treatment difference|20.0||||0.5234|TWO_SIDED|95.0|-22.9|58.5|||Chan and Zhang (1999)|||||58.5|-22.9|0.5234
82384193|NCT00833105|164479479|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.299
82384194|NCT00833105|164479480|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.459
82572012|NCT03269695|164853310|SUPERIORITY||Treatment difference|-25.0||||0.7393|TWO_SIDED|95.0|-69.6|29.1|||Chan and Zhang (1999)|||||29.1|-69.6|0.7393
82572013|NCT03269695|164853311|SUPERIORITY||Least squares mean difference|5.8||||0.2705|TWO_SIDED|95.0|-5.08|16.67|||ANCOVA|||||16.67|-5.08|0.2705
82572014|NCT03269695|164853312|SUPERIORITY||Treatment difference|48.2||||0.0732|TWO_SIDED|95.0|-4.4|84.7|||Chan and Zhang (1999)|||||84.7|-4.4|0.0732
82572015|NCT03269695|164853313|SUPERIORITY||Treatment difference|30.0||||0.2633|TWO_SIDED|95.0|-18.4|69.2|||Chan and Zhang (1999)|||||69.2|-18.4|0.2633
82572016|NCT03269695|164853314|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.15|6.54|||Generalized Linear Mixed Model|||At Week 2||6.54|0.15|1.0000
82384195|NCT00833105|164479481|SUPERIORITY_OR_OTHER|||||||0.343|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.343
82384196|NCT00833105|164479482|SUPERIORITY_OR_OTHER|||||||0.951|TWO_SIDED||||||Mixed Models Analysis|Random subject effects||||||0.951
82384197|NCT00833105|164479483|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.371
82384198|NCT00833105|164479484|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||Mixed Models Analysis|Random subject effect||||||0.164
82384199|NCT00833105|164479485|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon Signed-Rank|No multiple comparison procedure||Pre-training score is average of a total of 9 efforts, including 3 efforts from the first 3 days of training. Post-training score is average of a total of 9 efforts, including 3 efforts from the last 3 days of training.||||<0.01
82384200|NCT00833105|164479486|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||No multiple comparison procedure performed|Wilcoxon Signed Rank Test|||||||<0.05
82519814|NCT01972841|164734779|SUPERIORITY||Least squares mean difference|4.16|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|2.03|6.29|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.29|2.03|<0.001
82519815|NCT01972841|164734779|SUPERIORITY||Least squares mean difference|5.02|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|2.88|7.15|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.15|2.88|<0.001
82637441|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 12 Hours Post-dose|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-0.65|0.56||||||||0.56|-0.65|
82384201|NCT00833105|164479487|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||No multiple comparison procedure|Wilcoxon Signed Rank Test|||||||<0.0001
82384202|NCT00833105|164479488|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED|||||No multiple comparison adjustment.|Wilcoxon Signed Rank Test|||||||<0.005
82384203|NCT00833105|164479489|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple comparison adjustment.|Wilcoxon Signed Rank Test|||||||<0.001
82384204|NCT00833105|164479490|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple comparisons adjustment.|Wilcoxon Signed Rank Test|||||||<0.001
82384205|NCT02898597|164479491|SUPERIORITY||Odds Ratio (OR)|12.31|||<|0.05|TWO_SIDED|95.0|1.37|110.3|||Regression, Logistic|||||110.30|1.37|< 0.05
82384206|NCT02898597|164479491|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Fisher Exact test was performed, comparing the proportion of participants whose abstinence was verified with salivary cotinine test between the two arms, which was significant (p = 0.02).||||<0.05
82384207|NCT03656068|164479503|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|0.003||||0.0039|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.0039
82384208|NCT03656068|164479504|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|10.0||||0.0026|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.0026
82384209|NCT03656068|164479505|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|0.002||||0.5555|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.5555
82384210|NCT03656068|164479506|OTHER|Wilcoxon signed-rank test was used for statistical inference.|Median Difference (Net)|1.72||||0.3778|TWO_SIDED|||||p-value for testing median = 0|Sign test|||||||0.3778
82384211|NCT03656068|164479507|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-8.1||||0.4638|TWO_SIDED|95.0|-31.0|14.8||p-value for testing mean = 0|t-test, 2 sided|||||14.8|-31.0|0.4638
82637442|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 24 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.15||||90.0|-0.11|0.4||||||||0.40|-0.11|
82637443|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.34|0.74||||||||0.74|-0.34|
82442531|NCT01304329|164593864|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.52|STANDARD_DEVIATION|5.8|||TWO_SIDED|90.0|99.1|106.06|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|Considered characteristic is empa plus simvastatin divided by empa alone.||106.06|99.10|
82572017|NCT03269695|164853314|SUPERIORITY||Odds Ratio (OR)|1.5||||0.6691|TWO_SIDED|95.0|0.23|10.0|||Generalized Linear Mixed Model|||At Week 4||10.00|0.23|0.6691
82572018|NCT03269695|164853314|SUPERIORITY||Odds Ratio (OR)|0.62||||0.6248|TWO_SIDED|95.0|0.09|4.4|||Generalized Linear Mixed Model|||At Week 8||4.40|0.09|0.6248
82519816|NCT01972841|164734779|SUPERIORITY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.09||0.002|TWO_SIDED|95.0|1.17|5.43|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.43|1.17|0.002
82519817|NCT01972841|164734780|SUPERIORITY||Least squares mean difference|4.12|STANDARD_ERROR_OF_MEAN|1.29||0.001|TWO_SIDED|95.0|1.6|6.65|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.65|1.60|0.001
82519818|NCT01972841|164734780|SUPERIORITY||Lest squares mean difference|4.87|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|2.34|7.4|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.40|2.34|<0.001
82637444|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.17|0.91||||||||0.91|-0.17|
82637445|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.04|1.05||||||||1.05|-0.04|
82637446|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.26|0.82||||||||0.82|-0.26|
82519819|NCT01972841|164734780|SUPERIORITY||Least squares mean difference|6.09|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|3.55|8.63|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||8.63|3.55|<0.001
82519820|NCT01972841|164734780|SUPERIORITY||Least squares mean difference|3.8|STANDARD_ERROR_OF_MEAN|1.29||0.003|TWO_SIDED|95.0|1.27|6.33|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.33|1.27|0.003
82572019|NCT03269695|164853314|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9965|TWO_SIDED|95.0|0.12|8.3|||Generalized Linear Mixed Model|||At Week 12||8.30|0.12|0.9965
82572020|NCT01313624|164853333|SUPERIORITY_OR_OTHER||Difference in least squares mean|0.8||||0.68|TWO_SIDED|95.0|-3.1|4.7||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||4.7|-3.1|0.68
82637447|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 1 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|32.0|||TWO_SIDED|90.0|-0.18|0.9||||||||0.90|-0.18|
82637448|NCT03808298|164989136|OTHER||LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.08|1.0||||||Placebo-corrected change-from-baseline QRS (ms) at Day 14 2.5 Hours Post-dose||1.00|-0.08|
82637449|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 4 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.19|0.94||||||||0.94|-0.19|
82637450|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 8 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-0.33|1.1||||||||1.10|-0.33|
82637451|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|90.0|-0.5|1.06||||||||1.06|-0.50|
82637452|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.06|1.11||||||||1.11|-0.06|
82637453|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 0.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.25|0.11||||||||0.11|-0.25|
82637454|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 1 Hours Post-dose|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|0.0|0.36||||||||0.36|0.00|
82637455|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 2.5 Hours Post-dose|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.34|0.09||||||||0.09|-0.34|
82637456|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 4 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.1|0.34||||||||0.34|-0.10|
82384212|NCT03656068|164479508|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.65||||0.6532|TWO_SIDED|95.0|-9.26|5.97||p-value for testing mean = 0|t-test, 2 sided|||||5.97|-9.26|0.6532
82384213|NCT03656068|164479509|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.38||||0.7254|TWO_SIDED|95.0|-1.86|2.61||p-value for testing mean = 0|t-test, 2 sided|||||2.61|-1.86|0.7254
82384214|NCT03656068|164479510|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|8.77||||0.3772|TWO_SIDED|95.0|-11.7|29.25||p-value for testing mean = 0|t-test, 2 sided|||||29.25|-11.70|0.3772
82519821|NCT01972841|164734781|SUPERIORITY||Least squares mean difference|4.24|STANDARD_ERROR_OF_MEAN|1.22||0.001|TWO_SIDED|95.0|1.84|6.63|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.63|1.84|0.001
82572021|NCT01313624|164853334|SUPERIORITY_OR_OTHER||Difference in least squares mean|1.3||||0.56|TWO_SIDED|95.0|-3.0|5.6||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||5.6|-3.0|0.56
82637457|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 8 Hours Post-dose|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.4|0.57||||||||0.57|-0.40|
82637458|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-0.31|0.93||||||||0.93|-0.31|
82637459|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 1 24 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|0.07|0.58||||||||0.58|0.07|
82637460|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.75 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.19|0.9||||||||0.90|-0.19|
82637461|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Pre-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.11|0.98||||||||0.98|-0.11|
82637462|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.25 Hours Pre-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.06|1.05||||||||1.05|-0.06|
82384215|NCT03656068|164479511|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.12||||0.5799|TWO_SIDED|95.0|-0.56|0.33||p-value for testing mean = 0|t-test, 2 sided|||||0.33|-0.56|0.5799
82384216|NCT03656068|164479512|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.89||||0.7088|TWO_SIDED|95.0|-12.65|8.87||p-value for testing mean = 0|t-test, 2 sided|||||8.87|-12.65|0.7088
82384217|NCT03656068|164479513|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.35||||0.0609|TWO_SIDED|95.0|-0.72|0.02||p-value for testing mean = 0|t-test, 2 sided|||||0.02|-0.72|0.0609
82384218|NCT03656068|164479514|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-6.61||||0.1556|TWO_SIDED|95.0|-16.16|2.94||p-value for testing mean = 0|t-test, 2 sided|||||2.94|-16.16|0.1556
82384219|NCT03656068|164479515|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-14.6||||0.0709|TWO_SIDED|95.0|-30.6|1.4||p-value for testing mean = 0|t-test, 2 sided|||||1.4|-30.6|0.0709
82384220|NCT03656068|164479516|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-3.61||||0.1799|TWO_SIDED|95.0|-9.02|1.81||p-value for testing mean = 0|t-test, 2 sided|||||1.81|-9.02|0.1799
82384221|NCT03656068|164479517|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-6.8||||0.3306|TWO_SIDED|95.0|-21.2|7.6||p-value for testing mean = 0|t-test, 2 sided|||||7.6|-21.2|0.3306
82572022|NCT00239681|164853353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56|||<|0.0001||95.0|0.46|0.69|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.69|0.46|<0.0001
82637463|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 0.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.27|0.82||||||||0.82|-0.27|
82637464|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 1 Hours Post-dose|LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.14|0.94||||||||0.94|-0.14|
82637465|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 2.5 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-0.24|0.86||||||||0.86|-0.24|
82637466|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 4 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|0.07|1.2||||||||1.20|0.07|
82637467|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 8 Hours Post-dose|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-0.1|1.35||||||||1.35|-0.10|
82384222|NCT03656068|164479518|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-1.94||||0.4504|TWO_SIDED|95.0|-7.25|3.37||p-value for testing mean = 0|t-test, 2 sided|||||3.37|-7.25|0.4504
82384223|NCT03656068|164479519|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|33.8||||0.1349|TWO_SIDED|95.0|-11.5|79.0||p-value for testing mean = 0|t-test, 2 sided|||||79.0|-11.5|0.1349
82384224|NCT03656068|164479520|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|76.24||||0.0117|TWO_SIDED|95.0|19.04|133.43||p-value for testing mean = 0|t-test, 2 sided|||||133.43|19.04|0.0117
82384225|NCT03656068|164479521|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|31.3||||0.4281|TWO_SIDED|95.0|-50.3|112.9||p-value for testing mean = 0|t-test, 2 sided|||||112.9|-50.3|0.4281
82442532|NCT01304329|164593865|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.34|STANDARD_DEVIATION|41.7|||TWO_SIDED|90.0|80.39|130.29|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||130.29|80.39|
82519822|NCT01972841|164734781|SUPERIORITY||Least squares mean difference|4.82|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|2.42|7.22|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.22|2.42|<0.001
82384226|NCT03656068|164479522|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|117.37||||0.0407|TWO_SIDED|95.0|5.6|229.14||p-value for testing mean = 0|t-test, 2 sided|||||229.14|5.60|0.0407
82384227|NCT03656068|164479523|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|47.28||||0.7065|TWO_SIDED|95.0|-210.9|305.46||p-value for testing mean = 0|t-test, 2 sided|||||305.46|-210.90|0.7065
82384228|NCT03656068|164479524|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|43.11||||0.1693|TWO_SIDED|95.0|-19.95|106.17||p-value for testing mean = 0|t-test, 2 sided|||||106.17|-19.95|0.1693
82384229|NCT03656068|164479525|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-48.14||||0.7099|TWO_SIDED|95.0|-317.64|221.36||p-value for testing mean = 0|t-test, 2 sided|||||221.36|-317.64|0.7099
82384230|NCT03656068|164479526|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|30.03||||0.3597|TWO_SIDED|95.0|-37.48|97.55||p-value for testing mean = 0|t-test, 2 sided|||||97.55|-37.48|0.3597
82384231|NCT03656068|164479527|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|169.0||||0.9893|TWO_SIDED|95.0|-25908.2|26246.2||p-value for testing mean = 0|t-test, 2 sided|||||26246.2|-25908.2|0.9893
82384232|NCT03656068|164479528|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|13.82||||0.1454|TWO_SIDED|95.0|-5.21|32.85||p-value for testing mean = 0|t-test, 2 sided|||||32.85|-5.21|0.1454
82384233|NCT03656068|164479529|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3016.8||||0.8089|TWO_SIDED|95.0|-22996.2|29029.7||p-value for testing mean = 0|t-test, 2 sided|||||29029.7|-22996.2|0.8089
82384234|NCT03656068|164479530|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|12.78||||0.1365|TWO_SIDED|95.0|-4.5|30.06||p-value for testing mean = 0|t-test, 2 sided|||||30.06|-4.50|0.1365
82572023|NCT00239681|164853354|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||<|0.021||95.0|0.67|0.97|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.97|0.67|<0.021
82519823|NCT01972841|164734781|SUPERIORITY||Least squares mean difference|5.34|STANDARD_ERROR_OF_MEAN|1.23|<|0.001|TWO_SIDED|95.0|2.93|7.75|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.75|2.93|<0.001
82519824|NCT01972841|164734781|SUPERIORITY||Least squares mean difference|4.41|STANDARD_ERROR_OF_MEAN|1.22|<|0.001|TWO_SIDED|95.0|2.01|6.81|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.81|2.01|<0.001
82519825|NCT01972841|164734782|SUPERIORITY||Least squares mean difference|4.42|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|TWO_SIDED|95.0|1.98|6.85|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.85|1.98|<0.001
82519826|NCT01972841|164734782|SUPERIORITY||Least squares mean difference|4.42|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|TWO_SIDED|95.0|1.98|6.86|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||6.86|1.98|<0.001
82519827|NCT01972841|164734782|SUPERIORITY||Least squares mean difference|4.87|STANDARD_ERROR_OF_MEAN|1.25|<|0.001|TWO_SIDED|95.0|2.42|7.32|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||7.32|2.42|<0.001
82519828|NCT01972841|164734782|SUPERIORITY||Least squares mean difference|3.28|STANDARD_ERROR_OF_MEAN|1.24||0.008|TWO_SIDED|95.0|0.84|5.72|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||5.72|0.84|0.008
82519829|NCT01972841|164734783|SUPERIORITY||Least squares mean difference|2.27|STANDARD_ERROR_OF_MEAN|0.99||0.022|TWO_SIDED|95.0|0.33|4.21|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.21|0.33|0.022
82572024|NCT00239681|164853355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.172||95.0|0.65|1.08|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.08|0.65|<0.172
82519830|NCT01972841|164734783|SUPERIORITY||Least squares mean difference|2.25|STANDARD_ERROR_OF_MEAN|0.99||0.023|TWO_SIDED|95.0|0.31|4.19|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (solifenacin 5 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.19|0.31|0.023
82519831|NCT01972841|164734783|SUPERIORITY||Least squares mean difference|2.8|STANDARD_ERROR_OF_MEAN|0.99||0.005|TWO_SIDED|95.0|0.85|4.74|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 25 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 25 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||4.74|0.85|0.005
82572025|NCT00239681|164853356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27|||<|0.015||95.0|1.05|1.53|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.53|1.05|<0.015
82572026|NCT00239681|164853357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.018||95.0|0.35|0.91|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||0.91|0.35|0.018
82637468|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 12 Hours Post-dose|LS Mean|0.3|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.5|1.07||||||||1.07|-0.50|
82637469|NCT03808298|164989136|OTHER|Placebo-corrected change-from-baseline QRS (ms) at Day 14 24 Hours Post-dose|LS Mean|0.5|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-0.14|1.04||||||||1.04|-0.14|
82637470|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 0.5 Hours Post-dose|LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.71|||TWO_SIDED|90.0|-1.64|4.04||||||||4.04|-1.64|
82384235|NCT03656068|164479531|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|28.954||||0.1322|TWO_SIDED|95.0|-9.525|67.433||p-value for testing mean = 0|t-test, 2 sided|||||67.433|-9.525|0.1322
82572027|NCT00239681|164853358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.548||95.0|0.88|1.28|||Regression, Cox||The hazard ratio shows (Rosuvastatin hazard/Placebo hazard)|||1.28|0.88|0.548
82384236|NCT03656068|164479532|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|23.99||||0.1062|TWO_SIDED|95.0|-5.59|53.57|||t-test, 2 sided|p-value for testing mean = 0||||53.57|-5.59|0.1062
82384237|NCT03656068|164479533|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|28.311||||0.0831|TWO_SIDED|95.0|-4.151|60.774||p-value for testing mean = 0|t-test, 2 sided|||||60.774|-4.151|0.0831
82637471|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 1 Hours Post-dose|LS Mean|5.4|STANDARD_ERROR_OF_MEAN|1.93|||TWO_SIDED|90.0|2.22|8.63||||||||8.63|2.22|
82519832|NCT01972841|164734783|SUPERIORITY||Least squares mean difference|0.95|STANDARD_ERROR_OF_MEAN|0.99||0.337|TWO_SIDED|95.0|-0.99|2.89|||ANCOVA|||Difference of the adjusted mean calculated by subtracting the adjusted mean of the monotherapy group (mirabegron 50 mg) from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as fixed factors and baseline value as a covariate.||2.89|-0.99|0.337
82519833|NCT01972841|164734796|SUPERIORITY||Odds Ratio (OR)|1.31||||0.035|TWO_SIDED|95.0|1.02|1.69|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.69|1.02|0.035
82637472|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 2.5 Hours Post-dose|LS Mean|8.5|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|5.81|11.28||||||||11.28|5.81|
82637473|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 4 Hours Post-dose|LS Mean|8.6|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|90.0|5.86|11.34||||||||11.34|5.86|
82637474|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 8 Hours Post-dose|LS Mean|8.5|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|5.43|11.61||||||||11.61|5.43|
82637475|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 12 Hours Post-dose|LS Mean|6.9|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|90.0|3.76|10.0||||||||10.00|3.76|
82384238|NCT03656068|164479534|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|32.72||||0.0543|TWO_SIDED|95.0|-0.69|66.13||p-value for testing mean = 0|t-test, 2 sided|||||66.13|-0.69|0.0543
82519834|NCT01972841|164734796|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.09|1.81|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.81|1.09|0.009
82637476|NCT03808298|164989158|OTHER|Placebo-corrected change-from-baseline QTcF (ms) at 24 Hours Post-dose|LS Mean|6.1|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|3.58|8.62||||||||8.62|3.58|
82637477|NCT01801475|164989180|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||The nonlinear mixed-effects modeling software program NONMEM (version VII; Icon Development Solutions, Ellicott City, MD) was used to estimate the pharmacokinetic parameters. The first-order conditional estimation (FOCE) with η-ε interaction was used for the estimation process. Volume and clearance in this model is computed as a mean of the study population (pregnant and non-pregnant women) with a log-normal distribution in the population.||||<0.05
82637478|NCT01801475|164989181|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||The nonlinear mixed-effects modeling software program NONMEM (version VII; Icon Development Solutions, Ellicott City, MD) was used to estimate the pharmacokinetic parameters. The first-order conditional estimation (FOCE) with η-ε interaction was used for the estimation process. Volume and clearance in this model is computed as a mean of the study population (pregnant and non-pregnant women) with a log-normal distribution in the population.||||<0.05
82384239|NCT03656068|164479535|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.056||||0.6325|TWO_SIDED|95.0|-0.185|0.298||p-value for testing mean = 0|t-test, 2 sided|||||0.298|-0.185|0.6325
82519835|NCT01972841|164734796|SUPERIORITY||Odds Ratio (OR)|1.5||||0.002|TWO_SIDED|95.0|1.16|1.93|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.93|1.16|0.002
82384240|NCT03656068|164479536|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.46||||0.6925|TWO_SIDED|95.0|-1.94|2.87||p-value for testing mean = 0|t-test, 2 sided|||||2.87|-1.94|0.6925
82384241|NCT03656068|164479537|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.161||||0.2733|TWO_SIDED|95.0|-0.14|0.462|||t-test, 2 sided|||||0.462|-0.140|0.2733
82384242|NCT03656068|164479538|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|1.47||||0.3288|TWO_SIDED|95.0|-1.63|4.56||p-value for testing mean = 0|t-test, 2 sided|||||4.56|-1.63|0.3288
82384243|NCT03656068|164479539|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|5.649||||0.9271|TWO_SIDED|95.0|-121.923|133.22||p-value for testing mean = 0|t-test, 2 sided|||||133.220|-121.923|0.9271
82384244|NCT03656068|164479540|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.89||||0.9244|TWO_SIDED|95.0|-18.58|20.37||p-value for testing mean = 0|t-test, 2 sided|||||20.37|-18.58|0.9244
82384245|NCT03656068|164479541|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-30.244||||0.7288|TWO_SIDED|95.0|-211.93|151.441||p-value for testing mean = 0|t-test, 2 sided|||||151.441|-211.930|0.7288
82384246|NCT03656068|164479542|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.34||||0.7824|TWO_SIDED|95.0|-21.85|28.52||p-value for testing mean = 0|t-test, 2 sided|||||28.52|-21.85|0.7824
82519836|NCT01972841|164734796|SUPERIORITY||Odds Ratio (OR)|1.34||||0.023|TWO_SIDED|95.0|1.04|1.73|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.73|1.04|0.023
82519837|NCT01972841|164734797|SUPERIORITY||Odds Ratio (OR)|1.22||||0.224|TWO_SIDED|95.0|0.88|1.69|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.69|0.88|0.224
82519838|NCT01972841|164734797|SUPERIORITY||Odds Ratio (OR)|1.42||||0.037|TWO_SIDED|95.0|1.02|1.96|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.96|1.02|0.037
82384247|NCT03656068|164479543|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-47.629||||0.6448|TWO_SIDED|95.0|-260.433|165.176||p-value for testing mean = 0|t-test, 2 sided|||||165.176|-260.433|0.6448
82384248|NCT03656068|164479544|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.38||||0.9806|TWO_SIDED|95.0|-32.04|32.8||p-value for testing mean = 0|t-test, 2 sided|||||32.80|-32.04|0.9806
82519839|NCT01972841|164734797|SUPERIORITY||Odds Ratio (OR)|1.98|||<|0.001|TWO_SIDED|95.0|1.47|2.67|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.67|1.47|<0.001
82519840|NCT01972841|164734797|SUPERIORITY||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.21|2.26|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.26|1.21|0.002
82384249|NCT03656068|164479545|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-113.616||||0.3256|TWO_SIDED|95.0|-351.124|123.891||p-value for testing mean = 0|t-test, 2 sided|||||123.891|-351.124|0.3256
82384250|NCT03656068|164479546|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|8.78||||0.6582|TWO_SIDED|95.0|-32.52|50.09||p-value for testing mean = 0|t-test, 2 sided|||||50.09|-32.52|0.6582
82384251|NCT03656068|164479547|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2438||||0.5459|TWO_SIDED|95.0|-1.0847|0.5972||p-value for testing mean = 0|t-test, 2 sided|||||0.5972|-1.0847|0.5459
82384252|NCT03656068|164479548|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|23.91||||0.286|TWO_SIDED|95.0|-22.15|69.97|||t-test, 2 sided|||||69.97|-22.15|0.2860
82384253|NCT03656068|164479549|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2893||||0.4887|TWO_SIDED|95.0|-1.158|0.5794||p-value for testing mean = 0|t-test, 2 sided|||||0.5794|-1.1580|0.4887
82519841|NCT01972841|164734798|SUPERIORITY||Odds Ratio (OR)|1.29||||0.077|TWO_SIDED|95.0|0.97|1.72|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.72|0.97|0.077
82519842|NCT01972841|164734798|SUPERIORITY||Odds Ratio (OR)|1.15||||0.321|TWO_SIDED|95.0|0.87|1.53|||Logistic regression|||Odds ratio from a logistic regression model treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.53|0.87|0.321
82519843|NCT01972841|164734798|SUPERIORITY||Odds Ratio (OR)|1.92|||<|0.001|TWO_SIDED|95.0|1.46|2.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||2.53|1.46|<0.001
82384254|NCT03656068|164479550|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|30.27||||0.361|TWO_SIDED|95.0|-38.21|98.75||p-value for testing mean = 0|t-test, 2 sided|||||98.75|-38.21|0.3610
82384255|NCT03656068|164479551|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.63||||0.4945|TWO_SIDED|95.0|-2.51|1.26||p-value for testing mean = 0|t-test, 2 sided|||||1.26|-2.51|0.4945
82384256|NCT03656068|164479552|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.99||||0.8191|TWO_SIDED|95.0|-9.94|7.95||p-value for testing mean = 0|t-test, 2 sided|||||7.95|-9.94|0.8191
82384257|NCT03656068|164479553|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-3.22||||0.0243|TWO_SIDED|95.0|-5.96|-0.47||p-value for testing mean = 0|t-test, 2 sided|||||-0.47|-5.96|0.0243
82384258|NCT03656068|164479554|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-9.94||||0.0493|TWO_SIDED|95.0|-19.84|-0.04||p-value for testing mean = 0|t-test, 2 sided|||||-0.04|-19.84|0.0493
82384259|NCT03656068|164479555|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.6||||0.3066|TWO_SIDED|95.0|-0.59|1.79||p-value for testing mean = 0|t-test, 2 sided|||||1.79|-0.59|0.3066
82442533|NCT01304329|164593865|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|111.25|STANDARD_DEVIATION|24.8|||TWO_SIDED|90.0|95.93|129.02|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|"AUC of simvastatin acid.~Considered characteristic is empa plus simvastatin divided by simvastatin alone."||129.02|95.93|
82519844|NCT01972841|164734798|SUPERIORITY||Odds Ratio (OR)|1.16||||0.294|TWO_SIDED|95.0|0.88|1.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline OAB-q subscale as a covariate.||1.53|0.88|0.294
82519845|NCT01972841|164734799|SUPERIORITY||Odds Ratio (OR)|1.17||||0.251|TWO_SIDED|95.0|0.89|1.53|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.53|0.89|0.251
82637479|NCT00421928|164989182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.05||95.0|-1.04|-0.33|||ANCOVA|Analysis of covariance (ANCOVA) model was used with treatment and pooled analysis center as factors and baseline pain intensity score as a covariate.||The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 0.7 with an SD of 2.7, 314 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a treatment group for the study was 942.||-0.33|-1.04|<0.05
82384260|NCT03656068|164479556|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.4||||0.2671|TWO_SIDED|95.0|-2.82|9.63||p-value for testing mean = 0|t-test, 2 sided|||||9.63|-2.82|0.2671
82384261|NCT03656068|164479557|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.11||||0.8241|TWO_SIDED|95.0|-0.94|1.16||p-value for testing mean = 0|t-test, 2 sided|||||1.16|-0.94|0.8241
82384262|NCT03656068|164479558|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|1.1||||0.7587|TWO_SIDED|95.0|-6.37|8.57||p-value for testing mean = 0|t-test, 2 sided|||||8.57|-6.37|0.7587
82384263|NCT03656068|164479559|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.567||||0.3784|TWO_SIDED|95.0|-1.88|0.746||p-value for testing mean = 0|t-test, 2 sided|||||0.746|-1.880|0.3784
82384264|NCT03656068|164479560|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-4.64||||0.3526|TWO_SIDED|95.0|-14.8|5.53||p-value for testing mean = 0|t-test, 2 sided|||||5.53|-14.80|0.3526
82384265|NCT03656068|164479561|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.098||||0.9218|TWO_SIDED|95.0|-1.978|2.173||p-value for testing mean = 0|t-test, 2 sided|||||2.173|-1.978|0.9218
82384266|NCT03656068|164479562|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|0.15||||0.9833|TWO_SIDED|95.0|-14.71|15.01||p-value for testing mean = 0|t-test, 2 sided|||||15.01|-14.71|0.9833
82384267|NCT03656068|164479563|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|12.68||||0.3957|TWO_SIDED|95.0|-17.79|43.16||p-value for testing mean = 0|t-test, 2 sided|||||43.16|-17.79|0.3957
82384268|NCT03656068|164479564|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|3.81||||0.344|TWO_SIDED|95.0|-4.39|12.01||p-value for testing mean = 0|t-test, 2 sided|||||12.01|-4.39|0.3440
82384269|NCT03656068|164479565|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|15.22||||0.0607|TWO_SIDED|95.0|-0.77|31.21||p-value for testing mean = 0|t-test, 2 sided|||||31.21|-0.77|0.0607
82384270|NCT03656068|164479566|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|5.83||||0.0644|TWO_SIDED|95.0|-0.39|12.05||p-value for testing mean = 0|t-test, 2 sided|||||12.05|-0.39|0.0644
82384271|NCT03656068|164479567|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.3665||||0.0487|TWO_SIDED|95.0|-0.7306|-0.0023||p-value for testing mean = 0|t-test, 2 sided|||||-0.0023|-0.7306|0.0487
82384272|NCT03656068|164479568|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|16.64||||0.5919|TWO_SIDED|95.0|-47.25|80.54||p-value for testing mean = 0|t-test, 2 sided|||||80.54|-47.25|0.5919
82384273|NCT03656068|164479569|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.2679||||0.1272|TWO_SIDED|95.0|-0.634|0.0983||p-value for testing mean = 0|t-test, 2 sided|||||0.0983|-0.6340|0.1272
82519846|NCT01972841|164734799|SUPERIORITY||Odds Ratio (OR)|1.25||||0.107|TWO_SIDED|95.0|0.95|1.64|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.64|0.95|0.107
82519847|NCT01972841|164734799|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.07|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||2.07|1.23|<0.001
82519848|NCT01972841|164734799|SUPERIORITY||Odds Ratio (OR)|1.41||||0.012|TWO_SIDED|95.0|1.08|1.85|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.85|1.08|0.012
82384274|NCT03656068|164479570|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|15.02||||0.5881|TWO_SIDED|95.0|-47.55|77.59||p-value for testing mean = 0|t-test, 2 sided|||||77.59|-47.55|0.5881
82384275|NCT03656068|164479571|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.18||||0.1458|TWO_SIDED|95.0|-0.42|0.07|||t-test, 2 sided|||||0.07|-0.42|0.1458
82384276|NCT03656068|164479572|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-11.53||||0.1495|TWO_SIDED|95.0|-27.61|4.54||p-value for testing mean = 0|t-test, 2 sided|||||4.54|-27.61|0.1495
82519849|NCT01972841|164734800|SUPERIORITY||Odds Ratio (OR)|1.3||||0.044|TWO_SIDED|95.0|1.01|1.67|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.67|1.01|0.044
82519850|NCT01972841|164734800|SUPERIORITY||Odds Ratio (OR)|1.43||||0.006|TWO_SIDED|95.0|1.11|1.84|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.84|1.11|0.006
82519851|NCT01972841|164734800|SUPERIORITY||Odds Ratio (OR)|1.47||||0.004|TWO_SIDED|95.0|1.13|1.9|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.90|1.13|0.004
82637480|NCT00444028|164989194|OTHER|"The units on such analyses are generally those of slope (rise over run), with 1.000 being perfect. Although any positive slope might be considered clinically useful, a 90% CI within the criteria of 0.800-1.250 may be considered a delivery system which is as good as it gets."|Slope|0.909|||||TWO_SIDED|90.0|0.832|0.987||||||Dose proportionality by power analysis examines the linear regression of the log-AUC versus log-Dose on a by-patient basis across all doses administered. The slope and 90% confidence interval (CI) provide a clear, quantitative (best practices) assessment of the relationship of drug delivered to dose administered.||0.987|0.832|
82637481|NCT02022566|164989195|OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82637482|NCT02022566|164989196|OTHER|Described elsewhere|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82637483|NCT02138227|164989203|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82442534|NCT01643876|164593867|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.5|||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: in individuals with denture stomatitis, there are no difference in the extent of palatal inflammation before and 3 months after palatal brushing. Assuming that the minimal practically important pre/post difference in the mean change score is 20 percent and the standard deviation of the distribution of the change in score is 0.8, a sample size of 44 participants is required to ensure a power of 90 % of rejecting the null hypothesis if it is indeed false.||||<0.0001
82442535|NCT01643876|164593868|SUPERIORITY_OR_OTHER||Median Difference (Net)|-57.5|||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: in individuals with denture stomatitis, there are no difference in the number of Candida Colony-Forming Units (CFUs), before and 3 months after palatal brushing.||||<0.05
82442536|NCT02469714|164593869|SUPERIORITY||Mean Difference (Final Values)|0.66||||0.04|TWO_SIDED||||||ANCOVA|||Between group comparison of total scheduled appointments from 1-13 months||||.04
82442537|NCT02469714|164593869|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.008|TWO_SIDED||||||ANCOVA|||Between group comparison of total achieved appointments from 1-13 months||||.008
82442538|NCT02469714|164593870|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.135|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.135
82519852|NCT01972841|164734800|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.23|2.08|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.08|1.23|<0.001
82519853|NCT01972841|164734801|SUPERIORITY||Odds Ratio (OR)|1.47||||0.004|TWO_SIDED|95.0|1.13|1.92|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.92|1.13|0.004
82519854|NCT01972841|164734801|SUPERIORITY||Odds Ratio (OR)|1.62|||<|0.001|TWO_SIDED|95.0|1.24|2.11|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.11|1.24|<0.001
82519855|NCT01972841|164734801|SUPERIORITY||Odds Ratio (OR)|1.59||||0.001|TWO_SIDED|95.0|1.22|2.07|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.07|1.22|0.001
82637484|NCT02138227|164989204|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|F (2, 1574)||||||<0.01
82637485|NCT04120116|164989218|SUPERIORITY||Odds Ratio (OR)|0.3||||0.068|TWO_SIDED|95.0|0.11|1.08||P value for statistical significance is \<0.05|Mixed Models Analysis|||||1.08|0.11|0.068
82637486|NCT04120116|164989220|SUPERIORITY||Least squares mean difference|1.25|STANDARD_ERROR_OF_MEAN|2.611||0.634|TWO_SIDED|95.0|-3.945|6.439||P value for statistical significance is \<0.05|Mixed Models Analysis|||||6.439|-3.945|0.634
82519856|NCT01972841|164734801|SUPERIORITY||Odds Ratio (OR)|1.57||||0.001|TWO_SIDED|95.0|1.21|2.04|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.04|1.21|0.001
82384277|NCT03656068|164479573|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-0.12||||0.3174|TWO_SIDED|95.0|-0.4|0.15||p-value for testing mean = 0|t-test, 2 sided|||||0.15|-0.40|0.3174
82384278|NCT03656068|164479574|OTHER|Student's T-test was used for statistical inference.|Mean Difference (Net)|-8.02||||0.242|TWO_SIDED|95.0|-22.86|6.82||p-value for testing mean = 0|t-test, 2 sided|||||6.82|-22.86|0.2420
82384279|NCT05253573|164479609|SUPERIORITY||Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|1.21|2.83||||||The overall number of participants analyzed reflects the cancer survivors and/or independent caregivers. Participants are not represented separately (as cancer survivors or caregivers) for each Arm. This is because the originally proposed statistical data analysis plan did not aim to analyze the data by each group of caregivers versus cancer patients/survivors (because the statistical power would be very low for doing so||2.83|1.21|
82384280|NCT04229095|164479623|SUPERIORITY||Slope|-4.58|STANDARD_ERROR_OF_MEAN|1.82||0.007|ONE_SIDED|95.0||-1.01|||Mixed Models Analysis||The effect of the drug on lowering VAS was limited to individuals with impaired sleep at baseline (PSQI \> or = to 5).|Mixed effect model with directional hypothesis that drug reduces strength of craving (VAS). Principle predictors were drug condition, and baseline sleep disturbance (Pittsburgh Sleep Quality Index {PSQI} total score less than 5 or 5 and greater). Arms were combined for this analysis.||-1.01||.007
82384281|NCT04229095|164479625|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.54||0.0025|ONE_SIDED|95.0||-0.46|||Mixed Models Analysis|||Mixed effect model with directional hypothesis that drug reduces number of drinks per day. Principle predictors were drug condition and sex. Arms were combined for this analysis.||-0.46||.0025
82384282|NCT01609010|164479627|SUPERIORITY_OR_OTHER|||||||0.3023|||||||Log Rank|||||||0.3023
82384283|NCT01609010|164479628|SUPERIORITY_OR_OTHER|||||||0.3362|||||||Chi-squared|||Week 10, Cycle 1||||0.3362
82384284|NCT01609010|164479628|SUPERIORITY_OR_OTHER|||||||0.1157|||||||Chi-squared|||Week 16, Cycle 2||||0.1157
82384285|NCT01609010|164479629|SUPERIORITY_OR_OTHER|||||||0.854|||||||Chi-squared|||Week 10, Cycle 1||||0.8540
82384286|NCT01609010|164479629|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Chi-squared|||Week 16, Cycle 2||||0.0051
82519857|NCT01972841|164734802|SUPERIORITY||Odds Ratio (OR)|1.32||||0.065|TWO_SIDED|95.0|0.98|1.78|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||1.78|0.98|0.065
82637487|NCT05111548|164989244|SUPERIORITY|||||||0.923|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.923
82384287|NCT01609010|164479631|SUPERIORITY_OR_OTHER|||||||0.784|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR+CRu+PR||||0.7840
82384288|NCT01609010|164479631|SUPERIORITY_OR_OTHER|||||||0.4419|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR+CRu||||0.4419
82384289|NCT01609010|164479631|SUPERIORITY_OR_OTHER|||||||0.5942|||||||Log Rank|Stratification by previous treatment for lymphoma (yes or no).||CR only||||0.5942
82384290|NCT01609010|164479633|SUPERIORITY_OR_OTHER|||||||0.8946|||||||Log Rank|Stratified by previous treatment for lymphoma (yes or no).||||||0.8946
82384291|NCT01609010|164479635|SUPERIORITY_OR_OTHER|||||||0.4963|||||||Log Rank|Stratified by previous treatment for lymphoma (yes or no).||||||0.4963
82384292|NCT01543178|164479636|SUPERIORITY_OR_OTHER|||||||0.0232|TWO_SIDED|||||The a priori threshold for statistical significance was p \< 0.05.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel method was adjusted for analysis center and time to recurrence during Maintenance Phase 1.||A worst case analysis was performed, in which patients with \< 4 days of IBS symptom data in a given week were considered as non-responders for that week.||||0.0232
82384293|NCT02770170|164479637|OTHER|||||||0.7271||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod quadratic model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.7271
82384294|NCT02770170|164479637|OTHER|||||||0.6415||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod sigmoidal Emax model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.6415
82384295|NCT02770170|164479637|OTHER|||||||0.7367||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Emax model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.7367
82384296|NCT02770170|164479637|OTHER|||||||0.6624||||||An alpha of 0.20 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod exponential model fit|||Multiple comparison procedures and modelling (MCPmod) techniques for logistic regression was used.||||0.6624
82384297|NCT02770170|164479637|OTHER||Risk Difference (RD)|-10.0||||0.4645|TWO_SIDED|80.0|-27.292|7.288|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||7.288|-27.292|0.4645
82384298|NCT02770170|164479637|OTHER||Risk Difference (RD)|-3.38||||0.8084|TWO_SIDED|80.0|-21.204|14.451|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||14.451|-21.204|0.8084
82384299|NCT02770170|164479637|OTHER||Risk Difference (RD)|-3.77||||0.7398|TWO_SIDED|80.0|-18.364|10.832|||Regression, Logistic|include treatment and covariates, race (Asian or non-Asian), proteinuria at screening (\<3g/day or \>= 3g/day)|Confidence intervals calculated using delta method|||10.832|-18.364|0.7398
82384300|NCT02770170|164479638|OTHER||Risk Difference (RD)|-8.93||||0.5773|TWO_SIDED|80.0|-23.66|7.64|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||7.64|-23.66|0.5773
82384301|NCT02770170|164479638|OTHER||Risk Difference (RD)|12.5||||0.4013|TWO_SIDED|80.0|-4.59|29.03|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||29.03|-4.59|0.4013
82442539|NCT02469714|164593871|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.077|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.077
82637488|NCT05111548|164989245|SUPERIORITY|||||||0.11|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.110
82637489|NCT05111548|164989246|SUPERIORITY|||||||0.818|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.818
82637490|NCT05111548|164989247|SUPERIORITY|||||||0.13|||||||ANOVA|||Mixed ANOVA (within-subjects factor=time; between-subjects factor=group)||||0.130
82519858|NCT01972841|164734802|SUPERIORITY||Odds Ratio (OR)|1.68||||0.001|TWO_SIDED|95.0|1.24|2.27|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.27|1.24|0.001
82384302|NCT02770170|164479638|OTHER||Risk Difference (RD)|-2.5||||0.8965|TWO_SIDED|80.0|-15.98|11.1|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||11.10|-15.98|0.8965
82637491|NCT03330275|164989255|NON_INFERIORITY|A non-inferiority margin of -0.25 was used. Non-inferioirty was concluded if the lower limit of the 95% CI was above 0.25.|Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.0574|||TWO_SIDED|95.0|-0.045|0.183|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Mean difference was calculated as Test - Control 1|It was calculated that a total of 24 participants was required to show that the Test lens is non-inferior to the control 1 lens with 80% power. Sample size for this study was based on night driving only.||0.183|-0.045|
82637492|NCT03330275|164989256|NON_INFERIORITY|A non-inferiority margin of 0.1 logMAR was used. Non-inferiority was concluded if the upper limit was below 0.1.|Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.0076|||TWO_SIDED|95.0|-0.043|-0.012|||Linear Mixed Model|Kenward and Roger Method was used for the degrees of freedom.|Mean difference was calculated as Test - Control 1|||-0.012|-0.043|
82384303|NCT02770170|164479639|OTHER||Risk Difference (RD)|-19.64||||0.1476|TWO_SIDED|80.0|-35.38|-2.48|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-2.48|-35.38|0.1476
82384304|NCT02770170|164479639|OTHER||Risk Difference (RD)|12.5||||0.4013|TWO_SIDED|80.0|-4.2|26.86|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||26.86|-4.20|0.4013
82384305|NCT02770170|164479639|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|80.0|-13.63|13.63|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||13.63|-13.63|
82384306|NCT02770170|164479640|OTHER||Risk Difference (RD)|-26.67||||0.0512|TWO_SIDED|80.0|-41.52|-9.42|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-9.42|-41.52|0.0512
82384307|NCT02770170|164479640|OTHER||Risk Difference (RD)|5.0||||0.7597|TWO_SIDED|80.0|-12.1|20.74|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||20.74|-12.10|0.7597
82384308|NCT02770170|164479640|OTHER||Risk Difference (RD)|-5.0||||0.7505|TWO_SIDED|80.0|-18.74|9.02|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||9.02|-18.74|0.7505
82519859|NCT01972841|164734802|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.32|2.36|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.36|1.32|<0.001
82519860|NCT01972841|164734802|SUPERIORITY||Odds Ratio (OR)|1.51||||0.007|TWO_SIDED|95.0|1.12|2.04|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.04|1.12|0.007
82384309|NCT02770170|164479641|OTHER||Risk Difference (RD)|-21.43||||0.1269|TWO_SIDED|80.0|-36.03|-4.41|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||-4.41|-36.03|0.1269
82384310|NCT02770170|164479641|OTHER||Risk Difference (RD)|5.0||||0.7889|TWO_SIDED|80.0|-12.24|21.62|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||21.62|-12.24|0.7889
82384311|NCT02770170|164479641|OTHER||Risk Difference (RD)|-12.5||||0.2906|TWO_SIDED|80.0|-25.99|1.68|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||1.68|-25.99|0.2906
82384312|NCT02770170|164479642|OTHER||Risk Difference (RD)|-9.64||||0.5687|TWO_SIDED|80.0|-25.79|7.45|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||7.45|-25.79|0.5687
82384313|NCT02770170|164479642|OTHER||Risk Difference (RD)|2.5||||0.9217|TWO_SIDED|80.0|-14.67|19.17|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||19.17|-14.67|0.9217
82384314|NCT02770170|164479642|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|80.0|-14.03|14.03|||Barnard test of association||Unadjusted absolute risk difference; Confidence intervals calculated using Newcombe method|||14.03|-14.03|
82384315|NCT03581123|164479651|OTHER|Omnibus test for equality of means across the 4 treatment groups||||||0.16||||||Threshold for significance: 0.025 (0.05/2)|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline pain intensity||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.16
82384316|NCT03581123|164479651|OTHER|Estimation|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.0|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.0|-0.5|
82384317|NCT03581123|164479651|OTHER|Estimation|Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.3|-0.3|
82384318|NCT03581123|164479651|OTHER|Estimation|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.4|0.1|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline pain intensity.||0.1|-0.4|
82384319|NCT03581123|164479652|OTHER|Omnibus test for equality of means across the 4 treatment groups.||||||0.001||||||Threshold for significance: 0.025 (0.05/2)|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline disability||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.001
82384320|NCT03581123|164479652|OTHER|Estimation|Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-1.9|-0.5|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||-0.5|-1.9|
82519861|NCT01972841|164734803|SUPERIORITY||Odds Ratio (OR)|1.44||||0.007|TWO_SIDED|95.0|1.11|1.87|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||1.87|1.11|0.007
82384321|NCT03581123|164479652|OTHER|Estimation|Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.2|0.4|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||0.4|-1.2|
82384322|NCT03581123|164479652|OTHER|Estimation|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-1.9|-0.3|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline RMDQ.||-0.3|-1.9|
82384323|NCT03581123|164479653|OTHER|Omnibus test for equality of means across the 4 treatment groups.||||||0.006||||||Threshold for significance: 0.05|ANOVA|Adjusted for site, time period (pre-COVID, COVID, post-COVID), risk for chronicity (medium vs. high), and baseline LBP impact score.||The null hypothesis here is that the means are equal across the 4 treatment groups. A significant p value indicates rejection of the null.||||0.006
82384324|NCT03581123|164479653|OTHER|Estimation|Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-2.7|-0.6|||||SSM - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||-0.6|-2.7|
82384325|NCT03581123|164479653|OTHER|Estimation|Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.5|1.0|||||SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||1.0|-1.5|
82384326|NCT03581123|164479653|OTHER|Estimation|Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-2.5|0.0|||||SSM/SMT - MC|Adjusted for site, time period, risk of chronicity, and baseline LBP impact score.||-0.0|-2.5|
82384327|NCT03581123|164479655|OTHER|Estimation (percent difference)|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-11.0|-1.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-1|-11|
82384328|NCT03581123|164479655|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-7.0|5.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||5|-7|
82384329|NCT03581123|164479655|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-13.0|2.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||2|-13|
82384330|NCT03581123|164479656|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-23.0|-7.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-7|-23|
82384331|NCT03581123|164479656|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-11.0|||||TWO_SIDED|95.0|-20.0|2.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||2|-20|
82442540|NCT02469714|164593872|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.0005|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.0005
82442541|NCT02469714|164593873|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.06|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.060
82637493|NCT03330275|164989257|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|3.162|||||TWO_SIDED|95.0|0.442|22.604|||Generalized Estimating Equation||Odds ratio was calculated as Test over Control 1|||22.604|0.442|
82384332|NCT03581123|164479656|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-18.0|||||TWO_SIDED|95.0|-27.0|-9.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-9|-27|
82384333|NCT03581123|164479657|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-16.0|||||TWO_SIDED|95.0|-23.0|-10.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-10|-23|
82384334|NCT03581123|164479657|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-14.0|||||TWO_SIDED|95.0|-22.0|-7.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-7|-22|
82384335|NCT03581123|164479657|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-17.0|||||TWO_SIDED|95.0|-24.0|-9.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-9|-24|
82384336|NCT03581123|164479658|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-13.0|-3.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-3|-13|
82384337|NCT03581123|164479658|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||1|-12|
82384338|NCT03581123|164479658|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-1|-15|
82384339|NCT03581123|164479665|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-21.0|-4.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-4|-21|
82384340|NCT03581123|164479665|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
82384341|NCT03581123|164479665|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
82384342|NCT03581123|164479666|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-20.0|||||TWO_SIDED|95.0|-28.0|-12.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-12|-28|
82384343|NCT03581123|164479666|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-13.0|6.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||6|-13|
82384344|NCT03581123|164479666|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-16.0|||||TWO_SIDED|95.0|-26.0|-7.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-7|-26|
82384345|NCT03581123|164479667|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-1|-15|
82384346|NCT03581123|164479667|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
82442542|NCT02469714|164593874|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.073|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.073
82442543|NCT02469714|164593875|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.34|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.34
82442544|NCT02469714|164593876|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.21|TWO_SIDED||||||ANCOVA|||This statistical analysis applies from baseline to 12 month.||||.21
82442545|NCT00892606|164593877|SUPERIORITY|||||||0.0072|||||||ANOVA|||||||0.0072
82442546|NCT00892606|164593878|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
82442547|NCT00892606|164593879|SUPERIORITY|||||||0.0146|||||||ANOVA|||||||0.0146
82442548|NCT01735708|164593880|SUPERIORITY|ITT analysis using multiple imputation by chained equation with 50 fully populated data sets.|Mean Difference (Net)|-1.31|STANDARD_ERROR_OF_MEAN|0.493||0.008|TWO_SIDED|95.0|-2.28|-0.34||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|standard error of difference in means|||-0.34|-2.28|0.008
82384347|NCT03581123|164479667|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-22.0|-3.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||-3|-22|
82384348|NCT03581123|164479668|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-5.0|||||SSM - MC|Adjusted for site, time period, and risk of chronicity.||-5|-19|
82384349|NCT03581123|164479668|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-16.0|-1.0|||||SMT - MC|Adjusted for site, time period, and risk of chronicity.||-1|-16|
82519862|NCT01972841|164734803|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.17|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.17|1.28|<0.001
82519863|NCT01972841|164734803|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.34|2.3|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.30|1.34|<0.001
82519864|NCT01972841|164734803|SUPERIORITY||Odds Ratio (OR)|1.68|||<|0.001|TWO_SIDED|95.0|1.29|2.19|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors and baseline PPBC as a covariate.||2.19|1.29|<0.001
82519865|NCT01972841|164734804|SUPERIORITY||Odds Ratio (OR)|1.12||||0.381|TWO_SIDED|95.0|0.87|1.45|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||1.45|0.87|0.381
82519866|NCT01972841|164734804|SUPERIORITY||Odds Ratio (OR)|1.31||||0.04|TWO_SIDED|95.0|1.01|1.7|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||1.70|1.01|0.040
82519867|NCT01972841|164734804|SUPERIORITY||Odds Ratio (OR)|1.56||||0.001|TWO_SIDED|95.0|1.21|2.0|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.00|1.21|0.001
82519868|NCT01972841|164734804|SUPERIORITY||Odds Ratio (OR)|1.57||||0.001|TWO_SIDED|95.0|1.21|2.03|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.03|1.21|0.001
82519869|NCT01972841|164734805|SUPERIORITY||Odds Ratio (OR)|1.24||||0.095|TWO_SIDED|95.0|0.96|1.59|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.59|0.96|0.095
82637494|NCT03330275|164989258|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.82|1.16|||Generalized Linear Mixed Model||Odds ratio was calculated as Test over Control1|||1.16|0.82|
82384350|NCT03581123|164479668|OTHER|Estimation (percentage difference)|Risk Difference (RD)|-8.0|||||TWO_SIDED|95.0|-16.0|1.0|||||SSM/SMT - MC|Adjusted for site, time period, and risk of chronicity.||1|-16|
82519870|NCT01972841|164734805|SUPERIORITY||Odds Ratio (OR)|1.26||||0.073|TWO_SIDED|95.0|0.98|1.62|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.62|0.98|0.073
82637495|NCT03330275|164989259|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|5.29|||TWO_SIDED|95.0|7.1|28.5|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control 1|||28.5|7.1|
82384351|NCT00162981|164479688|SUPERIORITY_OR_OTHER||||||<|0.0182||95.0|||||1-sided Wilcoxon signed rank test|1-sided Wilcoxon signed rank test was used to assess the difference from baseline.||||||<0.0182
82384352|NCT00162981|164479688|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||1-sided Wilcoxon signed rank test was used to assess the difference from baseline.|1-sided Wilcoxon signed rank test|||||||0.0001
82384353|NCT00162981|164479691|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 50%, one-tailed significance at 0.05 and a power of 80% to detect a reduction of at least 25% (baseline to final in a within-subjects design), then approximately 27 subjects would have been required in each treatment arm. Assuming a 10% drop-out rate, then approximately 30 subjects per treatment were to be enrolled in the study.|||||<|0.0001||95.0|||||1-sided Wilcoxon Rank-Sum Test|1-sided Wilcoxon Rank-Sum Test was used to compare the high dose group to the low dose group.||||||<0.0001
82384354|NCT04195685|164479693|OTHER||Mean Difference (Final Values)|10.7|||<|0.0001|TWO_SIDED|95.0|7.0|14.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||14.4|7.0|<.0001
82384355|NCT04195685|164479694|OTHER||Mean Difference (Final Values)|9.5|||<|0.0001|TWO_SIDED|95.0|4.9|14.0|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||14.0|4.9|<.0001
82519871|NCT01972841|164734805|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.29|2.13|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.13|1.29|<0.001
82519872|NCT01972841|164734805|SUPERIORITY||Odds Ratio (OR)|1.27||||0.067|TWO_SIDED|95.0|0.98|1.63|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||1.63|0.98|0.067
82519873|NCT01972841|164734806|SUPERIORITY||Odds Ratio (OR)|1.18||||0.21|TWO_SIDED|95.0|0.91|1.52|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||1.52|0.91|0.210
82519874|NCT01972841|164734806|SUPERIORITY||Odds Ratio (OR)|1.46||||0.004|TWO_SIDED|95.0|1.13|1.89|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||1.89|1.13|0.004
82519875|NCT01972841|164734806|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.06|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||2.06|1.23|<0.001
82519876|NCT01972841|164734806|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.001|TWO_SIDED|95.0|1.23|2.05|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of lncontinence episodes per 24 hours and baseline PPBC as covariates.||2.05|1.23|<0.001
82519877|NCT01972841|164734807|SUPERIORITY||Odds Ratio (OR)|1.13||||0.335|TWO_SIDED|95.0|0.88|1.46|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||1.46|0.88|0.335
82637496|NCT03330275|164989260|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.33|1.74|||Generalized Linear Mixed Model||Odds Ratio was calculated as Test over Control 1|||1.74|0.33|
82637497|NCT03330275|164989261|EQUIVALENCE|Equivalence was concluded if 0 was contained in the 95% confidence interval.|Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|7.93|||TWO_SIDED|95.0|-11.4|20.7|||Linear Mixed Model|Kenward and Roger Method was used for denominator Degrees of Freedom.|Mean difference was calculated as Test - Control 1|||20.7|-11.4|
82519878|NCT01972841|164734807|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.09|1.81|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||1.81|1.09|0.009
82442549|NCT01735708|164593881|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.495||0.251|TWO_SIDED|95.0|-1.53|0.4||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.||||0.40|-1.53|0.251
82519879|NCT01972841|164734807|SUPERIORITY||Odds Ratio (OR)|1.56||||0.001|TWO_SIDED|95.0|1.21|2.02|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.02|1.21|0.001
82519880|NCT01972841|164734807|SUPERIORITY||Odds Ratio (OR)|1.71|||<|0.001|TWO_SIDED|95.0|1.33|2.21|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.21|1.33|<0.001
82384356|NCT04195685|164479695|OTHER||Mean Difference (Final Values)|10.3|||<|0.0001|TWO_SIDED|95.0|7.4|13.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||13.2|7.4|<.0001
82384357|NCT04195685|164479696|OTHER||Mean Difference (Final Values)|7.4|||<|0.0001|TWO_SIDED|95.0|4.2|10.6|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||10.6|4.2|<.0001
82384358|NCT04195685|164479697|OTHER||Mean Difference (Final Values)|-32.5||||0.0022|TWO_SIDED|95.0|-53.3|-11.7|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-11.7|-53.3|0.0022
82384359|NCT04195685|164479698|OTHER||Mean Difference (Final Values)|-32.2|||<|0.0001|TWO_SIDED|95.0|-45.0|-19.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-19.4|-45.0|<.0001
82442550|NCT01735708|164593882|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.75||0.844|TWO_SIDED|95.0|-1.32|1.61||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|Standard error of difference in means.|||1.61|-1.32|0.844
82637498|NCT02181634|164989271|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.099|TWO_SIDED|95.0|0.86|4.75|||Log Rank|||||4.75|0.86|0.099
82519881|NCT01972841|164734808|SUPERIORITY||Odds Ratio (OR)|1.11||||0.416|TWO_SIDED|95.0|0.86|1.43|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.43|0.86|0.416
82384360|NCT04195685|164479699|OTHER||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.1|-3.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-3.4|-11.1|0.0002
82384361|NCT04195685|164479700|OTHER||Mean Difference (Final Values)|-6.2|||<|0.0001|TWO_SIDED|95.0|-9.0|-3.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||-3.4|-9.0|<.0001
82384362|NCT04195685|164479701|OTHER||Mean Difference (Final Values)|-4.5||||0.0033|TWO_SIDED|95.0|-7.4|-1.5|||t-test, 2 sided|||||-1.5|-7.4|0.0033
82519882|NCT01972841|164734808|SUPERIORITY||Odds Ratio (OR)|1.23||||0.105|TWO_SIDED|95.0|0.96|1.59|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.59|0.96|0.105
82519883|NCT01972841|164734808|SUPERIORITY||Odds Ratio (OR)|1.66|||<|0.001|TWO_SIDED|95.0|1.28|2.16|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||2.16|1.28|<0.001
82519884|NCT01972841|164734808|SUPERIORITY||Odds Ratio (OR)|1.45||||0.005|TWO_SIDED|95.0|1.12|1.87|||Logistic regression|||Odds ratio from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), previous OAB medication (yes, no) and geographic region as factors, and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.87|1.12|0.005
82637499|NCT02181634|164989272|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.34|TWO_SIDED|95.0|0.64|3.71|||Log Rank|||||3.71|0.64|0.34
82637500|NCT02843282|164989288|SUPERIORITY||Mean Difference (Net)|0.69||||0.04|TWO_SIDED||||||Regression, Linear|||||||0.040
82384363|NCT04195685|164479702|OTHER||Mean Difference (Final Values)|10.0||||0.0005|TWO_SIDED|95.0|4.4|15.6|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||15.6|4.4|0.0005
82637501|NCT02843282|164989289|SUPERIORITY||Mean Difference (Net)|0.98||||0.004|TWO_SIDED||||||Regression, Linear|||||||0.004
82637502|NCT02843282|164989290|SUPERIORITY||Mean Difference (Net)|1.95|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82384364|NCT04195685|164479703|OTHER||Mean Difference (Final Values)|6.4|||<|0.0001|TWO_SIDED|95.0|3.5|9.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||9.2|3.5|<.0001
82442551|NCT01735708|164593883|SUPERIORITY|Intent to treat analysis using multiple imputation by chained equations with 50 fully populated data sets.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.836||0.545|TWO_SIDED|95.0|-2.18|1.15||A priori threshold for significance was two-tailed p = .05.|Mixed Models Analysis|Standard errors were based on robust Huber-White variance estimator.|Standard error of difference in means.|||1.15|-2.18|0.545
82519885|NCT04009291|164734841|SUPERIORITY||||||=|0.2635|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.2635
82519886|NCT04009291|164734841|SUPERIORITY||||||=|0.6999|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.6999
82519887|NCT04009291|164734841|SUPERIORITY||||||=|0.1394|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.1394
82519888|NCT04009291|164734842|SUPERIORITY||||||=|0.1281|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.1281
82637503|NCT02843282|164989291|SUPERIORITY||Mean Difference (Net)|0.52||||0.039|TWO_SIDED||||||Regression, Linear|||||||0.039
82384365|NCT04195685|164479704|OTHER||Mean Difference (Final Values)|14.2||||0.0001|TWO_SIDED|95.0|7.1|21.4|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||21.4|7.1|0.0001
82637504|NCT02843282|164989292|SUPERIORITY||Mean Difference (Net)|0.42||||0.092|TWO_SIDED||||||Regression, Linear|||||||0.092
82637505|NCT02843282|164989293|SUPERIORITY||Mean Difference (Net)|6.58||||0.052|TWO_SIDED||||||Regression, Linear|||||||0.052
82637506|NCT02843282|164989294|SUPERIORITY||Mean Difference (Net)|0.52||||0.121|TWO_SIDED||||||Regression, Linear|||||||0.121
82384366|NCT04195685|164479705|OTHER||Mean Difference (Final Values)|68.0|||<|0.0001|TWO_SIDED|95.0|36.9|99.2|||t-test, 2 sided|||The primary endpoint was evaluated by assessing the change in severity scores from baseline to the end of treatment, comparing the NFB and control groups. A two-sample t-test was used to test the mean change in severity scores between treatment arms. Statistical tests were two-sided with a 5% significance level (Type I error rate).||99.2|36.9|<.0001
82519889|NCT04009291|164734842|SUPERIORITY||||||>|0.9999|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||> 0.9999
82637507|NCT02843282|164989295|SUPERIORITY||Mean Difference (Net)|1.23||||0.019|TWO_SIDED||||||Regression, Linear|||||||0.019
82384367|NCT00300235|164479706|SUPERIORITY_OR_OTHER||proportion of subjects|35.2||||||95.0|32.5|37.9||||||This was a survey designed to estimate prevalence, no formal comparisons between age or genotype groups were performed.||37.9|32.5|
82384368|NCT03351608|164479720|SUPERIORITY||GM Ratio (SUG 2 mg / NEO + [GLY or ATR])|0.22|||<|0.0001|TWO_SIDED|95.0|0.16|0.32|||ANOVA|||||0.32|0.16|< 0.0001
82384369|NCT02877004|164479723|SUPERIORITY|||||||0.723|||||||ANCOVA|Data were analyzed using analysis of covariance with the baseline value included as the covariate.||||||0.723
82519890|NCT04009291|164734842|SUPERIORITY||||||=|0.0604|||||||t-test, 2 sided|||Fisher's exact test is used to compare differences in the proportion of subjects meeting the composite primary endpoint in the TransCon PTH versus pooled placebo group||||= 0.0604
82519891|NCT01270347|164734844|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the LS mean difference 95% CI for relative change from Baseline to Day 28 in FEV1 percent predicted was \> -4%.|LSMean difference|1.86||||0.1481|TWO_SIDED|95.0|-0.66|4.39|||ANCOVA||Estimates were determined from an analysis of covariance model with terms for treatment, region (US, non-US), and age (12 to 18 years, \> 18 years), and Baseline FEV1 (\< 55%, . 55%).|||4.39|-0.66|0.1481
82519892|NCT01270347|164734845|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in FEV1 percent predicted is \> -4%.|LSMean difference|4.968||||0.083|TWO_SIDED|95.0|-0.653|10.59|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), \& baseline as a covariate.|||10.590|-0.653|0.0830
82519893|NCT01270347|164734846|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in FEV1 percent predicted is \> -4%.|LSMean difference|1.57||||0.0945|TWO_SIDED|95.0|-0.272|3.411|||ANCOVA||Estimates are determined from a repeated measures model with terms for treatment, visit, the interaction between treatment group and visit, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline as a covariate.|||3.411|-0.272|0.0945
82637508|NCT02843282|164989296|SUPERIORITY||Mean Difference (Net)|0.37||||0.278|TWO_SIDED||||||Regression, Linear|||||||0.278
82637509|NCT02843282|164989297|SUPERIORITY||Mean Difference (Net)|7.0||||0.095|TWO_SIDED||||||Regression, Linear|||||||0.095
82637510|NCT02843282|164989298|OTHER||Mean Difference (Net)|0.15|||<|0.01|TWO_SIDED||||||Whole brain voxel-wise correlation analy|||||||< 0.01
82637511|NCT02843282|164989299|SUPERIORITY||Mean Difference (Net)|1.22||||0.001|TWO_SIDED||||||Regression, Linear|||||||0.001
82637512|NCT02843282|164989300|SUPERIORITY||Mean Difference (Net)|1.33||||0.007|TWO_SIDED||||||Regression, Linear|||||||0.007
82637513|NCT02087085|164989301|SUPERIORITY||Least Squares Mean Difference|-0.3589|STANDARD_ERROR_OF_MEAN|0.1804||0.047|TWO_SIDED|95.0|-0.7132|-0.0047||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||-0.0047|-0.7132|0.047
82637514|NCT02087085|164989302|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.4||0.39|TWO_SIDED|95.0|-3.9|1.5||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||1.5|-3.9|0.390
82384370|NCT02877004|164479724|SUPERIORITY|||||||0.368|||||||ANCOVA|Data were analyzed using analysis of covariance with the baseline value included as the covariate||||||.368
82637515|NCT02087085|164989303|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.4||0.301|TWO_SIDED|95.0|-4.2|1.3||MMRM model included treatment group, study region, analysis visit and treatment-by-visit interaction as factors and baseline value and baseline value-by-analysis visit interaction as covariates.|MMRM|||||1.3|-4.2|0.301
82637516|NCT02681094|164989305|SUPERIORITY||LS mean difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.55|-0.24|||Mixed Models Analysis|||||-0.24|-0.55|<0.0001
82637517|NCT02681094|164989305|SUPERIORITY||LS mean difference|-0.34|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.19|||Mixed Models Analysis|||||-0.19|-0.50|<0.0001
82637518|NCT02681094|164989306|SUPERIORITY||Risk Difference (RD)|19.8|||<|0.0001|TWO_SIDED|95.0|12.7|26.9|||Method of Zhang, Tsiatis, and Davidian|||||26.9|12.7|<0.0001
82384371|NCT02019264|164479739|NON_INFERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. MACE met non-inferiority when the one-sided upper bound of 97.5% confidence interval of the HR was less than 1.4 (the non-inferiority margin).|Hazard Ratio (HR)|1.005||||0.0001|TWO_SIDED|97.5|0.842|1.198|||Primary Analytic Method|||||1.198|0.842|0.0001
82519894|NCT01270347|164734849|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in Pseudomonas Aeruginosa Sputum Density is \> -4%|LSMean difference|0.44||||0.053|TWO_SIDED|95.0|-0.01|0.88|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline organism log density.|||0.88|-0.01|0.0530
82519895|NCT01270347|164734851|NON_INFERIORITY|Non-inferiority is demonstrated if the lower limit of the LS mean difference 95% CI for relative change from baseline to Day 28 in Respiratory Domain of the CFQ-R is \> -4%|LSMean difference|3.19||||0.0463|TWO_SIDED|95.0|0.05|6.32|||ANCOVA||Estimates are determined from an ANCOVA model with terms for treatment, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline value.|||6.32|0.05|0.0463
82519896|NCT03317977|164734864|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
82384372|NCT02019264|164479740|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.969||||0.5464|TWO_SIDED|95.0|0.873|1.074|||Primary Analytic Method|||||1.074|0.873|0.5464
82519897|NCT03998618|164734877|SUPERIORITY||partial correlation|0.12||||0.018|TWO_SIDED|95.0|-0.01|0.25||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 234. multiply imputed data were used in analyses.||||0.25|-0.01|.018
82519898|NCT03998618|164734878|SUPERIORITY||partial correlation|0.11||||0.037|TWO_SIDED|95.0|-0.02|0.24||P-value for study group x time interaction. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance = 0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.24|-0.02|.037
82519899|NCT03998618|164734879|SUPERIORITY||partial correlation|0.07||||0.355|TWO_SIDED|95.0|-0.06|0.2||P-value for study group x time interaction. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance = 0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.20|-0.06|.355
82637519|NCT02681094|164989306|SUPERIORITY||Risk Difference (RD)|11.7||||0.0018|TWO_SIDED|95.0|4.4|19.1|||Method of Zhang, Tsiatis, and Davidian|||||19.1|4.4|0.0018
82637520|NCT02681094|164989307|SUPERIORITY||LS mean difference|-7.58||||0.0135|TWO_SIDED|95.0|-13.59|-1.57|||Mixed Models Analysis|||||-1.57|-13.59|0.0135
82384373|NCT02019264|164479741|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment as covariate.|Hazard Ratio (HR)|0.807||||0.038|TWO_SIDED|95.0|0.659|0.988|||Primary Analytic Method|||||0.988|0.659|0.0380
82637521|NCT02681094|164989307|SUPERIORITY||LS mean difference|-14.88|||<|0.0001|TWO_SIDED|95.0|-20.85|-8.91|||Mixed Models Analysis|||||-8.91|-20.85|<0.0001
82384374|NCT02019264|164479742|NON_INFERIORITY|Myocardial Infarction: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% confidence interval refers to the upper limit of the displayed 2-sided 95% confidence interval.|Hazard Ratio (HR)|0.991||||0.0001|TWO_SIDED|97.5|0.824|1.191|||Primary Analytic Method|||||1.191|0.824|0.0001
82637522|NCT02681094|164989308|SUPERIORITY||LS mean difference|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.11|-1.09|||Mixed Models Analysis|||||-1.09|-2.11|<0.0001
82637523|NCT01270139|164989309|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||Null hypothesis - Nano group is superior to Ferro group and stenting control||||<0.05
82384375|NCT02019264|164479742|NON_INFERIORITY|Time to Stroke: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% CI refers to the upper limit of the displayed 2-sided 95% CI.|Hazard Ratio (HR)|0.856||||0.0005|TWO_SIDED|97.5|0.639|1.145|||Primary Analytic Method|||||1.145|0.639|0.0005
82384376|NCT02019264|164479742|NON_INFERIORITY|Cardiovascular Death: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates. 97.5% confidence interval refers to the upper limit of the displayed 2-sided 95% confidence interval.|Hazard Ratio (HR)|1.045||||0.0262|TWO_SIDED|97.5|0.778|1.404|||Primary Analytic Method|||||1.404|0.778|0.0262
82384377|NCT02019264|164479742|SUPERIORITY|Hospitalization for Unstable Angina: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.163||||0.3243|TWO_SIDED|95.0|0.861|1.571|||Primary Analytic Method|||||1.571|0.861|0.3243
82384378|NCT02019264|164479742|SUPERIORITY|Heart Failure: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.952||||0.6758|TWO_SIDED|95.0|0.757|1.197|||Primary Analytic Method|||||1.197|0.757|0.6758
82384379|NCT02019264|164479742|SUPERIORITY|Coronary Revascularization: Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.981||||0.7817|TWO_SIDED|95.0|0.856|1.125|||Primary Analytic Method|||||1.125|0.856|0.7817
82384380|NCT02019264|164479743|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.082||||0.4212|TWO_SIDED|95.0|0.893|1.31|||Primary Analytic Method|||||1.310|0.893|0.4212
82384381|NCT02019264|164479744|SUPERIORITY|Hazard ratio was based on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|1.124||||0.181|TWO_SIDED|95.0|0.947|1.333|||Primary Analytic Method|||||1.333|0.947|0.1810
82384382|NCT02019264|164479745|SUPERIORITY|Hazard ratio was based on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|0.773||||0.0116|TWO_SIDED|95.0|0.633|0.944|||Primary Analytic Method|||||0.944|0.633|0.0116
82384383|NCT02019264|164479746|SUPERIORITY||Least square (LS) Mean Difference (Net)|-0.39|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.35||P-value was based on analysis of covariance (ANCOVA) model with treatment and stratification variable (presence of established CV disease or CV risk factors without established CV disease) as factors, and baseline HbA1c, as a covariate.|ANCOVA|||||-0.35|-0.43|<0.0001
82384384|NCT02019264|164479747|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|0.869||||0.0054|TWO_SIDED|95.0|0.787|0.959|||Primary Analytic Method|||||0.959|0.787|0.0054
82384385|NCT02019264|164479748|SUPERIORITY|Hazard ratio on a Cox regression model including treatment as covariate.|Hazard Ratio (HR)|0.904||||0.3661|TWO_SIDED|95.0|0.727|1.125|||Primary Analytic Method|||||1.125|0.727|0.3661
82384386|NCT02019264|164479749|SUPERIORITY||Hazard Ratio (HR)|0.855||||0.0082|TWO_SIDED|95.0|0.762|0.96|||Primary Analytic Method|||||0.960|0.762|0.0082
82384387|NCT02019264|164479750|SUPERIORITY|Hazard ratio was based on Cox-regression model including treatment and CV strata as covariates.|Hazard Ratio (HR)|1.182||||0.0297|TWO_SIDED|95.0|1.017|1.375|||Primary Analytic Method|||||1.375|1.017|0.0297
82384388|NCT02019264|164479751|SUPERIORITY||Odds Ratio (OR)|1.21||||0.5015|TWO_SIDED|95.0|0.69|2.11||P-value was based on logistic regression including treatment as a factor and baseline body mass index (BMI) as a covariate.|Regression, Logistic|||||2.11|0.69|0.5015
82384389|NCT02019264|164479752|SUPERIORITY||Odds Ratio (OR)|1.31||||0.7249|TWO_SIDED|95.0|0.29|5.98||P-value was based on logistic regression including treatment as a factor and baseline BMI as a covariate.|Regression, Logistic|||||5.98|0.29|0.7249
82384390|NCT02019264|164479753|SUPERIORITY||Least square (LS) Mean Difference (Net)|-0.9036||||0.2976|TWO_SIDED|95.0|-1.2908|-0.5163||P value was based on a mixed-effects model (unstructured covariance matrix) with repeated measures with treatment, month and treatment by month interaction as factors and baseline pulmonary arterial systolic pressure and baseline BMI as covariates.|Mixed-effects model|||||-0.5163|-1.2908|0.2976
82384391|NCT00386360|164479911|SUPERIORITY_OR_OTHER||LS Mean Difference|0.231||||0.7096|TWO_SIDED|95.0|-0.995|1.458|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.458|-0.995|0.7096
82637524|NCT01270139|164989310|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
82384392|NCT00386360|164479912|SUPERIORITY_OR_OTHER||LS Mean Difference|0.543||||0.2973|TWO_SIDED|95.0|-0.485|1.571|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.571|-0.485|0.2973
82384393|NCT00386360|164479913|SUPERIORITY_OR_OTHER||LS Mean Difference|0.485||||0.1275|TWO_SIDED|95.0|-0.141|1.11|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.110|-0.141|0.1275
82384394|NCT00386360|164479914|SUPERIORITY_OR_OTHER||LS Mean Difference|0.664||||0.336|TWO_SIDED|95.0|-0.697|2.025|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.025|-0.697|0.3360
82384395|NCT00386360|164479915|SUPERIORITY_OR_OTHER||LS Mean Difference|0.334||||0.4565|TWO_SIDED|95.0|-0.551|1.219|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.219|-0.551|0.4565
82384396|NCT00386360|164479916|SUPERIORITY_OR_OTHER||LS Mean Difference|0.611||||0.0614|TWO_SIDED|95.0|-0.03|1.252|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.252|-0.030|0.0614
82384397|NCT00386360|164479917|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.9212|TWO_SIDED|95.0|-1.258|1.138|||ANOVA|LS means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||1.138|-1.258|0.9212
82384398|NCT00386360|164479918|SUPERIORITY_OR_OTHER||LS Mean Difference|3.27|||<|0.0001|TWO_SIDED|95.0|2.231|4.31|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||4.310|2.231|<0.0001
82384399|NCT00386360|164479919|SUPERIORITY_OR_OTHER||LS Mean Difference|1.444|||<|0.0001|TWO_SIDED|95.0|0.748|2.14|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.140|0.748|<0.0001
82384400|NCT00386360|164479920|SUPERIORITY_OR_OTHER||LS Mean Difference|1.408||||0.0036|TWO_SIDED|95.0|0.469|2.348|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.348|0.469|0.0036
82384401|NCT00386360|164479921|SUPERIORITY_OR_OTHER||LS Mean Difference|1.458||||0.0087|TWO_SIDED|95.0|0.375|2.541|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||2.541|0.375|0.0087
82384402|NCT00386360|164479922|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.54||||0.0002|TWO_SIDED|95.0|-59.957|-19.123|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||-19.123|-59.957|0.0002
82442552|NCT01689350|164593912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.01|TWO_SIDED|95.0|1.76|14.14|||Chi-squared|||Null hypothesis: there is no difference between the control group and experimental group in terms of frequency of leucopenia.(α=0.05） Chi-square test was applied to test the difference. The Chi-square value was 10.08 and the P-value was 0.0015, which indicated that the null hypothesis could be rejected.||14.14|1.76|<0.01
82442553|NCT01689350|164593913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.05|TWO_SIDED|95.0|1.01|7.13|||Chi-squared|||||7.13|1.01|<0.05
82519900|NCT03998618|164734880|SUPERIORITY||partial correlation|0.08||||0.167|TWO_SIDED|95.0|-0.04|0.21||P-value for study group x time interaction for physical quality of life. Probabilities for the secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.21|-0.04|.167
82442554|NCT00130923|164593931|SUPERIORITY||difference in treatment slopes|-0.043|STANDARD_ERROR_OF_MEAN|0.021||0.054|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment slopes in a mixed model and its standard error.|||||0.054
82519901|NCT03998618|164734880|SUPERIORITY||partial correlation|0.09||||0.105|TWO_SIDED|95.0|-0.03|0.22||P-value for study group x time interaction for social/family quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.22|-0.03|.105
82519902|NCT03998618|164734880|SUPERIORITY||partial correlation|0.09||||0.142|TWO_SIDED|95.0|-0.04|0.22||P-value for study group x time interaction for emotional quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.22|-0.04|.142
82519903|NCT03998618|164734880|SUPERIORITY||partial correlation|0.13||||0.006|TWO_SIDED|95.0|0.01|0.26||P-value for study group x time interaction for functional quality of life. Probabilities for the six secondary outcomes were Sidak adjusted for correlated multiple outcomes (adjusted probability for significance=0.0085).|Mixed Models Analysis|degrees of freedom = 234. Multiply imputed data were used.||||0.26|0.01|.006
82384403|NCT00386360|164479923|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.269|||<|0.0001|TWO_SIDED|95.0|-51.3|-29.238|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||-29.238|-51.300|<0.0001
82384404|NCT00386360|164479924|SUPERIORITY_OR_OTHER||LS Mean Difference|0.092||||0.1385|TWO_SIDED|95.0|-0.03|0.213|||ANOVA|LS Means are least squares (adjusted) means from ANOVA model with fixed effects for treatment and pooled center.||In Laib 1998, the mean and SD of the annual loss in distal radius BV/TV were reported to be 3.5% and 6.4%, respectively. Assuming the treatment difference and SD of the percent change in distal radius BV/TV for this study were the same, it required enrolling 52 patients for placebo and 104 for risedronate to ensure 80% power to achieve 0.05 level of significance. Sample size estimation based on 2-sided 2-sample t-test and assumed effective size of 0.54 and dropout rate of 20%.||0.213|-0.030|0.1385
82384405|NCT02220764|164479939|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||Null hypothesis: The chipping rates between tooth- and implant- supoorted FDPs are equally distributed.||||0.03
82384406|NCT05000164|164479941|SUPERIORITY||Least-square Mean|-0.12|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.17|-0.07|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.0 logMAR for distance.|Distance (4m)||-0.07|-0.17|
82519904|NCT01483924|164734886|SUPERIORITY_OR_OTHER|||||||0.9048|TWO_SIDED||||||ANOVA|||The difference in change in PASI score from baseline to Week 12 was compared all active treatment groups and the placebo group||||0.9048
82519905|NCT01483924|164734887|SUPERIORITY_OR_OTHER|||||||0.1975|TWO_SIDED||||||Cochran-Armitage trend test|||||||0.1975
82519906|NCT01483924|164734888|SUPERIORITY_OR_OTHER|||||||0.6349|TWO_SIDED||||||Kruskal-Wallis|||||||0.6349
82572028|NCT03121612|164853359|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.65||||||Threshold for superiority p\<0.05; primary outcome, so not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution non-normal, so non-parametric test (Wilcoxon) used."||||0.65
82572029|NCT03121612|164853359|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Planned sub-group analysis for infants born at 28-33 gestational weeks (n=41). No adjustment for multiple comparisons.||||0.64
82384407|NCT05000164|164479941|SUPERIORITY||Least-square Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|-0.06|0.04|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.17 logMAR for intermediate.|Intermediate (64cm)||0.04|-0.06|
82384408|NCT05000164|164479941|SUPERIORITY||Least-square Mean|0.09|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|0.04|0.15|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|The upper limit of each 95% confidence interval was compared to 0.17 logMAR for near.|Near (40cm)||0.15|0.04|
82442555|NCT00130923|164593932|SUPERIORITY||Difference in treatment means|-0.62|STANDARD_ERROR_OF_MEAN|0.29||0.035|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.035
82442556|NCT00130923|164593933|SUPERIORITY||difference in treatment means|0.056|STANDARD_ERROR_OF_MEAN|0.099||0.57|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.57
82519907|NCT01483924|164734889|SUPERIORITY_OR_OTHER|||||||0.6212|TWO_SIDED||||||Kruskal-Wallis|||||||0.6212
82519908|NCT02491671|164734965|SUPERIORITY||Risk Ratio (RR)|1.219||||0.171|TWO_SIDED|95.0|0.891|1.583|||Chi-squared|||||1.583|0.891|0.171
82519909|NCT02491671|164734966|SUPERIORITY||z|0.288|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Wilcoxon rank-sum (Mann-Whitney) test Unadjusted variance 274999.00 Adjustment for ties --21069.78 Adjusted variance 253929.22 z = 0.288; Prob \> \|z\| = 0.7735"|||||>0.05
82519910|NCT02491671|164734967|SUPERIORITY||Risk Ratio (RR)|1.351||||0.307|TWO_SIDED|95.0|0.657|1.879|||Chi-squared|||||1.879|0.657|0 .307
82572030|NCT03121612|164853359|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Planned sub-group analysis for infants born at 34-36 gestational weeks (n=10). No adjustment for multiple comparisons.||||1.0
82384409|NCT03020992|164479947|OTHER||Rate ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.116|0.281|||Poisson regression|||"The Poisson regression allowed for a comparison of event rates adjusting for differences in time between prestudy/on-study periods.~Event rates were based on a Poisson model with generalized estimating equations and a log-link, including an offset term for time interval length, and with period and disease duration of axSpA (\<2 years/≥2 years) as covariates. A repeated statement was included for participants and assumed an exchangeable correlation structure between prestudy and on-study flares."||0.281|0.116|<0.001
82384410|NCT01006122|164479979|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.747||0.418|TWO_SIDED|80.0|-0.81|1.12|||Mixed Models Analysis|||One sided p-value was based on linear mixed effects model with treatment and period as fixed effects, baseline MWT as a covariate and participant as random effect.||1.12|-0.81|0.418
82384411|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.457||0.054|TWO_SIDED|80.0|-1.32|-0.15|||Mixed Models Analysis|||Day 5 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.15|-1.32|0.054
82384412|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.453||0.247|TWO_SIDED|80.0|-0.89|0.27|||Mixed Models Analysis|||Day 10 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.27|-0.89|0.247
82384413|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.457||0.095|TWO_SIDED|80.0|-1.19|-0.01|||Mixed Models Analysis|||Day 15 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.01|-1.19|0.095
82384414|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|0.13|STANDARD_ERROR_OF_MEAN|0.487||0.604|TWO_SIDED|80.0|-0.5|0.75|||Mixed Models Analysis|||Day 20 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.75|-0.50|0.604
82384415|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.473||0.232|TWO_SIDED|80.0|-0.95|0.26|||Mixed Models Analysis|||Day 7 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.26|-0.95|0.232
82384416|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.473||0.093|TWO_SIDED|80.0|-1.23|-0.02|||Mixed Models Analysis|||Day 14 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||-0.02|-1.23|0.093
82384417|NCT01006122|164479980|SUPERIORITY_OR_OTHER||LS Means Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.498||0.274|TWO_SIDED|80.0|-0.94|0.34|||Mixed Models Analysis|||Day 21 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline total score as a covariate and participant as random effect.||0.34|-0.94|0.274
82384418|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.244||0.121|TWO_SIDED|80.0|-0.6|0.03|||Mixed Models Analysis|||Day 5 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.03|-0.60|0.121
82384419|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.243||0.394|TWO_SIDED|80.0|-0.38|0.25|||Mixed Models Analysis|||Day 10 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.25|-0.38|0.394
82384420|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.244||0.073|TWO_SIDED|80.0|-0.67|-0.04|||Mixed Models Analysis|||Day 15 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||-0.04|-0.67|0.073
82384421|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.495|TWO_SIDED|80.0|-0.34|0.33|||Mixed Models Analysis|||Day 20 (TP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.33|-0.34|0.495
82384422|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|0.14|STANDARD_ERROR_OF_MEAN|0.253||0.711|TWO_SIDED|80.0|-0.18|0.46|||Mixed Models Analysis|||Day 7 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.46|-0.18|0.711
82384423|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|0.18|STANDARD_ERROR_OF_MEAN|0.253||0.767|TWO_SIDED|80.0|-0.14|0.51|||Mixed Models Analysis|||Day 14 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.51|-0.14|0.767
82384424|NCT01006122|164479981|SUPERIORITY_OR_OTHER||LS Means Difference|0.14|STANDARD_ERROR_OF_MEAN|0.266||0.698|TWO_SIDED|80.0|-0.2|0.48|||Mixed Models Analysis|||Day 21 (SP), P-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects, baseline global score as a covariate and participant as random effect.||0.48|-0.20|0.698
82519911|NCT02251990|164734969|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p-value was based on a one-sided asymptotic test for a binomial proportion. A one-sided p-value \<0.0125 was considered supportive of a conclusion that the true SVR12 is \>73%.|one-sided asymptotic test|||A one-sided Wald test was used to test the null hypothesis, which was that the SVR12 rate for the ITG was ≤ the historical reference rate of 73%. The historical reference SVR rate for treatment-naive genotype 1 predominantly Asian participants treated with pegylated interferon/ribavirin was derived from 2 studies (PMCID: PMC417, PMCID: PMC3644280) after adjusting for an expected improved safety profile related to an interferon-free regimen.||||<0.001
82519912|NCT02251990|164734970|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.5|||||TWO_SIDED|95.0|-10.6|9.6||||||Estimates and 95% CIs were calculated for between-treatment differences (ITG minus DTG) in the percentage of participants with events using the Miettinen and Nurminen method.||9.6|-10.6|
82384425|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.142||0.127|TWO_SIDED|80.0|-0.34|0.02|||Mixed Models Analysis|||Day 5 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.02|-0.34|0.127
82384426|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.141||0.303|TWO_SIDED|80.0|-0.25|0.11|||Mixed Models Analysis|||Day 10 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.11|-0.25|0.303
82384427|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|0.09|STANDARD_ERROR_OF_MEAN|0.143||0.738|TWO_SIDED|80.0|-0.09|0.27|||Mixed Models Analysis|||Day 15 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.27|-0.09|0.738
82384428|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|0.16|STANDARD_ERROR_OF_MEAN|0.152||0.85|TWO_SIDED|80.0|-0.04|0.35|||Mixed Models Analysis|||Day 20 (TP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.35|-0.04|0.850
82384429|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|0.05|STANDARD_ERROR_OF_MEAN|0.148||0.631|TWO_SIDED|80.0|-0.14|0.24|||Mixed Models Analysis|||Day 7 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.24|-0.14|0.631
82384430|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.147||0.16|TWO_SIDED|80.0|-0.34|0.04|||Mixed Models Analysis|||Day 14 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.04|-0.34|0.160
82442557|NCT00130923|164593934|SUPERIORITY||difference in treatment means|2.65|STANDARD_ERROR_OF_MEAN|2.68||0.32|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient difference in treatment means in a mixed model and its standard error.|||||.32
82442558|NCT00130923|164593935|SUPERIORITY||difference in treatment means|0.93|STANDARD_ERROR_OF_MEAN|1.19||0.44|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.44
82442559|NCT00130923|164593936|SUPERIORITY|||||||0.003|||||||Chi-squared|Statistical test of hypothesis. Value of the Chi-squared statistic is 9.08||||||.003
82519913|NCT02251990|164734971|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.5|||||TWO_SIDED|95.0|-4.2|0.9||||||Estimates and 95% CIs were calculated for between-treatment differences (ITG minus DTG) in the percentage of participants with events using the Miettinen and Nurminen method.||0.9|-4.2|
82637525|NCT01270139|164989311|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||Null hypothesis - Nano group is superior to Ferro group and stenting control||||<0.05
82384431|NCT01006122|164479984|SUPERIORITY_OR_OTHER||LS Means Difference|0.02|STANDARD_ERROR_OF_MEAN|0.156||0.541|TWO_SIDED|80.0|-0.18|0.22|||Mixed Models Analysis|||Day 21 (SP), One-sided p-value was based on linear mixed effects model with treatment, period, time and treatment by time interaction as fixed effects and participant as random effect.||0.22|-0.18|0.541
82384432|NCT03493854|164479996|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8.|Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|1.14|1.31|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of pertuzumab (Arm B) relative to the pertuzumab IV dose (Arm A).|The null hypothesis was that the pertuzumab Arm A SC dose is inferior to the pertuzumab Arm B IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of pertuzumab relative to the IV dose is not greater than 0.8).||1.31|1.14|
82384433|NCT03493854|164479997|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8. Non-inferiority was tested in hierarchical order after the primary outcome measure, to adjust for multiple statistical testing and control the type I error at one sided 5% significance level.|Geometric Mean Ratio|1.33|||||TWO_SIDED|90.0|1.24|1.43|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of trastuzumab (Arm B) relative to the trastuzumab IV dose (Arm A).|The null hypothesis was that the trastuzumab Arm B SC dose is inferior to the Arm A trastuzumab IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of trastuzumab relative to the IV dose is not greater than 0.8).||1.43|1.24|
82384434|NCT03493854|164479998|OTHER|Descriptive analysis only. tpCR was analyzed outside of a hypothesis-testing framework and according to the methodology outlined in the outcome measure description.|Difference in tpCR Rate|0.15|||||TWO_SIDED|95.0|-8.67|8.97|||||Difference in tpCR rate was calculated as Arm B: PH FDC SC minus Arm A: P+H IV.|||8.97|-8.67|
82442560|NCT00554099|164593937|SUPERIORITY_OR_OTHER||Mean Difference vs. Placebo|-3.0|STANDARD_ERROR_OF_MEAN|1.69||0.3781|ONE_SIDED|90.0||-0.809|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||-0.809||0.3781
82442561|NCT00554099|164593937|SUPERIORITY_OR_OTHER||Mean Difference vs. Placebo|-1.4|STANDARD_ERROR_OF_MEAN|1.74||0.6285|ONE_SIDED|90.0||0.815|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||0.815||0.6285
82519914|NCT03265600|164734974|SUPERIORITY||Odds Ratio (OR)|2.91||||0.006|TWO_SIDED||||||Unadjusted bivariate logistic regression|||||||0.006
82519915|NCT03265600|164734975|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Cohen's d: -0.25||||||0.19
82384435|NCT03493854|164479999|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.2||||0.5216|TWO_SIDED|95.0|0.68|2.11|||Log Rank|||||2.11|0.68|0.5216
82519916|NCT03265600|164734976|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|Cohen's d: -0.36||||||0.12
82442562|NCT00554099|164593937|SUPERIORITY_OR_OTHER||Mean Difference vs. Asacol|1.6|STANDARD_ERROR_OF_MEAN|1.58||0.4365|ONE_SIDED|90.0||3.573|||ANCOVA|Fixed effects for treatment, number of diverticulitis attacks and baseline value as covariate.||It was assumed that the placebo treatment group and mesalamine treatment group would have an average composite score of 8.4 and 5.88 at Week 12, respectively. The common standard deviation was set to 4.5 based on the 2 standard deviation rule. Based on these assumptions, 60 patients per treatment group required to detect 30% treatment difference at 1-sided, 0.1 level of significance, with 80% power.||3.573||0.4365
82442563|NCT00554099|164593938|SUPERIORITY_OR_OTHER||Difference vs. Placebo|21.1|STANDARD_ERROR_OF_MEAN|12.53||0.0576|ONE_SIDED|90.0|5.1||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||5.1|0.0576
82384436|NCT03493854|164480000|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.15||||0.5992|TWO_SIDED|95.0|0.68|1.97|||Log Rank|||||1.97|0.68|0.5992
82384437|NCT03493854|164480001|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.2||||0.4844|TWO_SIDED|95.0|0.72|1.98|||Log Rank|||||1.98|0.72|0.4844
82384438|NCT03493854|164480002|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.16||||0.5474|TWO_SIDED|95.0|0.71|1.88|||Log Rank|||||1.88|0.71|0.5474
82384439|NCT03493854|164480003|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.17||||0.6291|TWO_SIDED|95.0|0.61|2.24|||Log Rank|||||2.24|0.61|0.6291
82384440|NCT03493854|164480004|OTHER|Descriptive analysis only|Hazard Ratio (HR)|1.26||||0.5609|TWO_SIDED|95.0|0.58|2.72|||Log Rank|||||2.72|0.58|0.5609
82384441|NCT04025879|164480038|SUPERIORITY||Cox Proportional Hazard|0.58||||0.00025|TWO_SIDED|95.0|0.43|0.78|||Log Rank||Stratified by randomization stratification factors: PD-L1 Status (\>=1% vs \<1%/not evaluable/indeterminate), disease stage (II vs III), histology (squamous vs non-squamous).|||0.78|0.43|0.00025
82384442|NCT04025879|164480040|SUPERIORITY||DIFFERENCE OF PCR|20.5|||||TWO_SIDED|95.0|14.3|26.6|||||Strata adjusted difference based on Cochran-Mantel-Haenszel (CMH) method of weighting.|||26.6|14.3|
82384443|NCT04025879|164480040|SUPERIORITY||Odds Ratio (OR)|6.64|||||TWO_SIDED|95.0|3.4|12.97|||||Strata adjusted odds ratio using Mantel-Haenszel method.|||12.97|3.40|
82384444|NCT04025879|164480041|SUPERIORITY||DIFFERENCE OF MPR|23.2|||||TWO_SIDED|95.0|15.8|30.6|||||Strata adjusted difference based on Cochran-Mantel-Haenszel (CMH) method of weighting.|||30.6|15.8|
82384445|NCT04025879|164480041|SUPERIORITY||Odds Ratio (OR)|4.01||||||95.0|2.48|6.49|||||Strata adjusted odds ratio using Mantel-Haenszel method.|||6.49|2.48|
82384446|NCT03859427|164480045|NON_INFERIORITY|The non-inferiority margin was 0.87 for the estimated ORR risk ratio.|Risk Ratio (RR)|0.954||||0.0666|TWO_SIDED|95.0|0.882|1.032||P-value (2.5% significance level) of the non-inferiority test via the synthesis approach (FDA, 2016) for non-inferiority comparison of ORR between treatment arms.|Synthesis approach||Risk ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.032|0.882|0.0666
82384447|NCT03859427|164480047|OTHER||Odds Ratio (OR)|1.049|||||TWO_SIDED|95.0|0.653|1.683|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.683|0.653|
82384448|NCT03859427|164480053|OTHER||Odds Ratio (OR)|1.235|||||TWO_SIDED|95.0|0.775|1.97|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.970|0.775|
82384449|NCT03859427|164480054|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.657|1.711|||||Odds ratio and 95% CIs were estimated by a stratified analysis using the Cochran-Mantel-Haenszel method.|||1.711|0.657|
82384450|NCT03859427|164480055|OTHER||Least Squares (LS) Mean Difference|2.53|||||TWO_SIDED|95.0|0.38|4.69|||||Analysis was based on repeated measures analysis of covariance (ANCOVA) model, including arm, baseline scale score, randomization stratification factors and visit as repeated measure.|||4.69|0.38|
82384451|NCT03859427|164480056|OTHER||LS Mean Difference|1.73|||||TWO_SIDED|95.0|-1.26|4.72|||||Analysis was based on ANCOVA model, including arm, baseline scale score, randomization stratification factors and visit as repeated measure.|||4.72|-1.26|
82384452|NCT03859427|164480057|OTHER||LS Mean difference|-0.26|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-2.54|2.03|||||Treatment difference at Cycle 5|||2.03|-2.54|
82384453|NCT03859427|164480057|OTHER||LS Mean difference|-0.48|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-3.24|2.28|||||Treatment difference at Cycle 12|||2.28|-3.24|
82384454|NCT03859427|164480057|OTHER||LS Mean difference|1.44|STANDARD_ERROR_OF_MEAN|1.59|||TWO_SIDED|95.0|-1.69|4.58|||||Treatment difference at safety follow-up|||4.58|-1.69|
82384455|NCT03175536|164480060|SUPERIORITY||Mean Difference (Net)|3.4||||0.05|TWO_SIDED|95.0|-5.2|12.1|||GEE models|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||12.1|-5.2|0.05
82384456|NCT03175536|164480061|SUPERIORITY||Mean Difference (Net)|1.3||||0.05|TWO_SIDED|95.0|-4.4|7.0|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||7.0|-4.4|0.05
82384457|NCT03175536|164480062|SUPERIORITY||Mean Difference (Net)|6.0||||0.05|TWO_SIDED|95.0|0.7|11.3|||GEE model|Binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes.|||11.3|0.7|0.05
82442564|NCT00554099|164593938|SUPERIORITY_OR_OTHER||Difference vs. Placebo|6.8|STANDARD_ERROR_OF_MEAN|13.27||0.3248|ONE_SIDED|90.0|-10.2||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-10.2|0.3248
82442565|NCT00554099|164593938|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-14.4|STANDARD_ERROR_OF_MEAN|12.87||0.8596|ONE_SIDED|90.0|-30.8||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-30.8|0.8596
82519917|NCT03265600|164734977|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|Cohen's d: -0.34||||||0.08
82519918|NCT03265600|164734978|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: 0.57||||||<0.001
82519919|NCT03265600|164734979|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|Cohen's d: 0.41||||||0.03
82384458|NCT03175536|164480063|SUPERIORITY||Mean Difference (Net)|0.16||||0.05|TWO_SIDED|95.0|-0.74|1.06|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes|||1.06|-0.74|0.05
82384459|NCT03175536|164480064|SUPERIORITY||Median Difference (Net)|-34.0||||0.05|TWO_SIDED|95.0|-47.0|-21.0|||GEE model|Negative binomial regression with GEE model; term of interest was interaction between study group and time period (baseline vs follow-up year).|Using terms from the regression model, we applied marginal effects methods to calculate mean adjusted baseline and follow-up PDC and absolute changes.|||-21|-47|0.05
82384460|NCT01938092|164480065|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
82384461|NCT01938092|164480066|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
82384462|NCT01938092|164480067|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82384463|NCT01367886|164480068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53|STANDARD_DEVIATION|4.88||0.19|||||||t-test, 2 sided|||||||0.19
82384464|NCT01367886|164480069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|STANDARD_DEVIATION|0.87||0.0021|||||||t-test, 2 sided|||||||0.0021
82442566|NCT00554099|164593939|SUPERIORITY_OR_OTHER||Difference vs. Placebo|16.7|STANDARD_ERROR_OF_MEAN|14.0||0.1266|ONE_SIDED|90.0|-1.3||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-1.3|0.1266
82637526|NCT01270139|164989312|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
82637527|NCT01270139|164989313|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|ONE_SIDED||||||Chi-squared|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
82637528|NCT01270139|164989314|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|ONE_SIDED||||||Chi-squared|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
82384465|NCT01367886|164480070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|1.02||0.18|||||||t-test, 2 sided|||||||0.18
82384466|NCT01367886|164480071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|STANDARD_DEVIATION|1.34||0.0025|||||||t-test, 2 sided|||||||0.0025
82384467|NCT03711786|164480072|SUPERIORITY||Odds Ratio (OR)|1.2||||0.836|TWO_SIDED|95.0|0.22|6.65|||Regression - GEE, logistic|From Wald z-statistic from generalized estimating equations (GEE) model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||6.65|0.22|0.836
82442567|NCT00554099|164593939|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-20.8|STANDARD_ERROR_OF_MEAN|14.13||0.9288|ONE_SIDED|90.0|-38.9||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-38.9|0.9288
82442568|NCT00554099|164593939|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-37.5|STANDARD_ERROR_OF_MEAN|12.98||0.9962|ONE_SIDED|90.0|-54.1||||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.|||||-54.1|0.9962
82442569|NCT00554099|164593940|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|-1.4|STANDARD_ERROR_OF_MEAN|2.784||0.3082|ONE_SIDED|90.0||2.196|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||2.196||0.3082
82442570|NCT00554099|164593940|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|0.083|STANDARD_ERROR_OF_MEAN|2.903||0.5113|ONE_SIDED|90.0||3.832|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||3.832||0.5113
82384468|NCT03711786|164480073|SUPERIORITY||Odds Ratio (OR)|0.86||||0.877|TWO_SIDED|95.0|0.12|6.14|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||6.14|0.12|0.877
82384469|NCT03711786|164480074|SUPERIORITY||Odds Ratio (OR)|18.36||||0.001|TWO_SIDED|95.0|3.23|104.23|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||104.23|3.23|0.001
82384470|NCT03711786|164480075|SUPERIORITY||Odds Ratio (OR)|2.15||||0.017|TWO_SIDED|95.0|1.15|4.01|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||4.01|1.15|0.017
82384471|NCT03711786|164480076|SUPERIORITY||Odds Ratio (OR)|0.9||||0.759|TWO_SIDED|95.0|0.45|1.8|||Regression - GEE, logistic|From Wald z-statistic from GEE model with bias-corrected standard error|Enhanced arm (index) compared to basic arm (referent). GEE model with bias-corrected standard errors.|||1.80|0.45|0.759
82384472|NCT01085630|164480109|SUPERIORITY|||||||0.2423|||||||Fisher Exact|||||||0.2423
82384473|NCT01237041|164480111|SUPERIORITY|Univariate ANOVA||||||0.016||||||A priori threshold p\<0.05|ANOVA|Comparison of 3 dose-finding groups. Post-hoc comparisons between groups also done.||ANOVA to compare AUC of GH among groups||||.016
82384474|NCT01237041|164480112|SUPERIORITY|ANOVA of the 3 dose-finding groups. Data transformed using log(10) for analysis||||||0.043||||||A priori threshold for significance p\<0.05|ANOVA|||Analysis of FFA Area Under Curve in dose-finding studies. Data were log-transformed before analysis.||||.043
82384475|NCT01237041|164480113|SUPERIORITY|||||||0.543|||||||ANOVA|||ANOVA, 3 dose-finding groups||||0.543
82442571|NCT00554099|164593940|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Mesalamine|1.483|STANDARD_ERROR_OF_MEAN|2.836||0.6988|ONE_SIDED|90.0||5.145|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||5.145||0.6988
82519920|NCT03265600|164734980|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|Cohen's d: 0.15||||||0.31
82519921|NCT03265600|164734981|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Cohen's d: 0.22||||||0.26
82519922|NCT03265600|164734982|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: -0.58||||||<0.001
82519923|NCT03265600|164734983|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Cohen's d: 0.75||||||<0.001
82572031|NCT03121612|164853360|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.8||||||Threshold for superiority p\<0.05; not adjusted for multiple comparisons|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation.||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution not normal by visual examination, so non-parametric test (Wilcoxon) used."||||0.80
82384476|NCT01237041|164480114|SUPERIORITY|||||||0.113|||||||ANOVA|||ANOVA, 2 groups, essentially an unpaired t-test.||||.113
82637529|NCT01270139|164989315|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
82384477|NCT02027545|164480139|SUPERIORITY|||||||0.491|||||||Regression, Logistic|||||||0.491
82384478|NCT02027545|164480140|SUPERIORITY|||||||0.049|||||||Regression, Logistic|||||||0.049
82384479|NCT02314260|164480142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.917|STANDARD_ERROR_OF_MEAN|0.0318||0|TWO_SIDED|95.0|0.854|0.979||Under the nonparametric assumption. P-value \<0.05, means statistical significance|t-test, 2 sided||The positive actual state is failed induction and performing Caesarean Section, So as the numbers approaches 1, induction fails. the Y-axis of the curve is sensitivity and the x- axis is (1-Specificity).|Null hypothesis: true area = 0.5 The positive actual state is failed induction, the true positive rate (Sensitivity) is plotted in function of the false positive rate (100-Specificity)||0.979|0.854|0.000
82442572|NCT00554099|164593941|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|-0.428|STANDARD_ERROR_OF_MEAN|3.067||0.4448|ONE_SIDED|90.0||3.541|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||3.541||0.4448
82572032|NCT03121612|164853361|SUPERIORITY|Power calculated based on 40 infants in each arm, permitting detection of a difference of 0.67 SD between the groups with power of 80% and alpha=0.05. Study recruitment was below anticipated (51/80) despite extending the planned period of recruitment.||||||0.86||||||Threshold for superiority p\<0.05; not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation.||"Analysis restricted to change at 6 hours, as least affected by missing data.~Distribution non-normal, so non-parametric test (Wilcoxon) used."||||0.86
82442573|NCT00554099|164593941|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Placebo|0.825|STANDARD_ERROR_OF_MEAN|3.151||0.6029|ONE_SIDED|90.0||4.903|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||4.903||0.6029
82519924|NCT00535730|164734984|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis of VZV antibody titers is 92%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval on the VZV antibody GMT ratio\[concomitant/nonconcomitant\] being \>0.67.||||||0.244||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the VZV antibody responses at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to that in subjects who receive ZOSTAVAX™ nonconcomitantly||||0.244
82519925|NCT00535730|164734986|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|t-test, 1 sided|The one-sided p-value for testing acceptability for GMFR is computed based on t-test. CI is computed based on the t distribution||The hypothesis was that ZOSTAVAX™ elicits an acceptable VZV antibody response when administered concomitantly with PNEUMOVAX™ 23.||||<0.001
82519926|NCT00535730|164734987|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||"The hypothesis was that the GMT of the PnPs antibody response to serotype 3 at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who~receive ZOSTAVAX™ nonconcomitantly."||||<0.001
82523552|NCT01301391|164742712|SUPERIORITY||Single proportion|0.54|||<|0.001|TWO_SIDED|95.0|0.33|0.74||A priori threshold for statistical significance = 0.05|Fisher Exact|||H0:p≤ 25% vs H1:p\> 25% with an interesting PFS-3 rate of 50% (median PFS of 3 months), alpha=0.05 and beta=0.10, 30 evaluable patients are required for a single stage trial. If at the end of the trial 12 or more out of 30 evaluable patients are alive and progression-free at 3 months since the treatment start date, the null hypothesis are rejected. A Fleming multiple-testing procedure is applied. If \>=4 successes out of the first 15 patients are observed, accrual will continue up to 30.||0.74|0.33|<0.001
82442574|NCT00554099|164593941|SUPERIORITY_OR_OTHER||LS Mean Difference vs. Mesalamine|1.253|STANDARD_ERROR_OF_MEAN|2.996||0.6615|ONE_SIDED|90.0||5.129|||ANOVA|Fixed effects for treatment and number of diverticulitis attacks.||||5.129||0.6615
82442575|NCT00554099|164593942|SUPERIORITY_OR_OTHER||Difference vs. Placebo|2.6|STANDARD_ERROR_OF_MEAN|4.2||0.7165|ONE_SIDED|90.0||7.9|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||7.9||0.7165
82442576|NCT00554099|164593942|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-2.4|STANDARD_ERROR_OF_MEAN|2.41||0.1708|ONE_SIDED|90.0||0.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||0.6||0.1708
82442577|NCT00554099|164593942|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-5.0|STANDARD_ERROR_OF_MEAN|3.45||0.1039|ONE_SIDED|90.0||-0.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||-0.6||0.1039
82523553|NCT02182973|164742740|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82442578|NCT00554099|164593943|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-7.5|STANDARD_ERROR_OF_MEAN|8.21||0.1907|ONE_SIDED|90.0||3.0|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||3.0||0.1907
82442579|NCT00554099|164593943|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-8.2|STANDARD_ERROR_OF_MEAN|8.4||0.173|ONE_SIDED|90.0||2.5|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||2.5||0.1730
82637530|NCT01270139|164989316|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nanogroup is superior to Ferro group and stenting control||||<0.05
82442580|NCT00554099|164593943|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|-0.7|STANDARD_ERROR_OF_MEAN|7.61||0.4613|ONE_SIDED|90.0||9.0|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||9.0||0.4613
82519927|NCT00535730|164734988|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 14 at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
82519928|NCT00535730|164734989|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 19A at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
82519929|NCT00535730|164734990|NON_INFERIORITY_OR_EQUIVALENCE|The power for the noninferiority hypothesis regarding PnPs antibody titer is \~99%. The noninferiority margin is the lower bound of the two-sided 95% confidence interval (CI) on the PnPs antibody GMT ratio \[concomitant/nonconcomitant\] being \>05.|||||<|0.001||95.0||||The threshold for statistical significance is 0.025. There is no adjustment for multiple comparisons.|longitudinal regression model|Week 4 postvac, estimated responses, GMT ratio, 95% CI, p-value based on a longitudinal regression model adjusting for prevac titers and age (years)||The hypothesis was that the GMT of the PnPs antibody responses to serotype 22F at 4 weeks postvaccination in subjects who receive ZOSTAVAX™ concomitantly with PNEUMOVAX™ 23 will be noninferior to those in subjects who receive ZOSTAVAX™ nonconcomitantly.||||<0.001
82519930|NCT00584727|164735011|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere by having more eyes see 20/20||||<0.0001
82519931|NCT00584727|164735012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7155|STANDARD_ERROR_OF_MEAN|0.1334||||95.0|0.3625|0.7155|||Mixed Models Analysis||Mean difference was senofilcon A toric minus etafilcon A sphere.|Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere.||0.7155|0.3625|
82519932|NCT00584727|164735013|SUPERIORITY_OR_OTHER|||||||0.2161||95.0|||||Chi-squared|||Aletrnative hypothesis was senofilcon A toric was superior to alphafilcon A toric by having more eyes within 5 degrees.||||0.2161
82519933|NCT00584727|164735014|SUPERIORITY_OR_OTHER|||||||0.1328||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to alphafilcon A toric by having more eyes within 5 degrees||||0.1328
82519934|NCT00584727|164735015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.489|STANDARD_ERROR_OF_MEAN|0.1393||||95.0|0.1529|0.489|||Mixed Models Analysis||Mean difference was senofilcon A toric minus alphafilcon A toric|Alternative hypothesis was senofilcon A toric was superior to alphafilcon A toric.||0.4890|0.1529|
82519935|NCT00584727|164735016|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||Alternative hypothesis was senofilcon A toric was superior to etafilcon A sphere.||||<0.0001
82519936|NCT03336619|164735036|SUPERIORITY|||||||0.3765|||||||Gehan-Wilcoxon|Analysis used a Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.3765
82519937|NCT03336619|164735037|SUPERIORITY|||||||0.6331|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.6331
82442581|NCT00554099|164593944|SUPERIORITY_OR_OTHER||Difference vs. Placebo|-2.9|STANDARD_ERROR_OF_MEAN|11.7||0.3983|ONE_SIDED|90.0||12.1|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||12.1||0.3983
82442582|NCT00554099|164593944|SUPERIORITY_OR_OTHER||Difference vs. Placebo|6.0|STANDARD_ERROR_OF_MEAN|12.66||0.6721|ONE_SIDED|90.0||22.2|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||22.2||0.6721
82442583|NCT00554099|164593944|SUPERIORITY_OR_OTHER||Difference vs. Mesalamine|8.9|STANDARD_ERROR_OF_MEAN|12.23||0.7703|ONE_SIDED|90.0||24.6|||Cochran-Mantel-Haenszel|Stratified by number of diverticulitis attacks.||||24.6||0.7703
82519938|NCT03336619|164735038|SUPERIORITY|||||||0.7382|||||||Fisher Exact|||||||0.7382
82519939|NCT03336619|164735039|SUPERIORITY|||||||0.3236|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset to enrollment and influenza vaccination status.||||||0.3236
82519940|NCT03336619|164735040|SUPERIORITY|||||||0.0483|||||||Gehan-Wilcoxon|Gehan-Wilcoxon test stratified by time from symptom onset at enrollment and influenza vaccination status.||||||0.0483
82523554|NCT02182973|164742741|SUPERIORITY|||||||0.875|||||||t-test, 2 sided|||||||0.875
82523555|NCT02182973|164742742|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||||||0.025
82523556|NCT01123382|164742753|SUPERIORITY_OR_OTHER|||||||0.04||||||Group X time interaction|Mixed Models Analysis|we included a random intercept for each individual participant. We used a first-order antedependent covariance structure.||To detect a minimum clinically important difference of 2 points2 on the BPI-SF3 with an anticipated standard deviation for each mean of 2.5, estimated from a prior study, with an alpha level of 0.05 and a power of 80%, for five waves of data, a sample size of 10 participants per group was necessary. With anticipated dropouts, a sample size of at least 12 participants per group was required.||||0.04
82519941|NCT00234065|164735066|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% CI limit for the HR of cilostazol to aspirin was 1.33 (4/3) or lower , cilostazol would be non-inferior to aspirin.|Hazard Ratio, log|0.743||||0.0357|TWO_SIDED|95.0|0.564|0.981||The log-rank test was used to verify the superiority of CLZ to ASA only if non-inferiority was verified. The adjusted significance level for the superiority test of the endpoint was set at 0.0471 (two-tailed) according to the O'Brien-Fleming method.|Log Rank|||Statistical Analysis 1 for Number of Patients With First Occurrence of Stroke||0.981|0.564|0.0357
82519942|NCT00234065|164735067|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.88||||0.4189|TWO_SIDED|95.0|0.645|1.2|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||1.200|0.645|0.4189
82519943|NCT00234065|164735068|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.4582|TWO_SIDED|95.0|0.675|1.194|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||1.194|0.675|0.4582
82519944|NCT00234065|164735069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.072||||0.86|TWO_SIDED|95.0|0.497|2.313|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||2.313|0.497|0.8600
82519945|NCT00234065|164735070|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.799||||0.0437|TWO_SIDED|95.0|0.643|0.994|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||0.994|0.643|0.0437
82519946|NCT00234065|164735071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.458||||0.0004|TWO_SIDED|95.0|0.296|0.711|||Log Rank|||Analyses were done using the full analysis set (FAS) of patients, as predetermined in the protocol. The full analysis set excluded patients who failed to satisfy inclusion criteria and those who violated exclusion criteria.||0.711|0.296|0.0004
82519947|NCT01986881|164735085|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|0.97|||<|0.001|TWO_SIDED|95.6|0.848|1.114||Model included treatment as an explanatory factor and cohort category as a stratification factor.|Cox Proportional Hazards Model|||||1.114|0.848|<0.001
82519948|NCT01986881|164735085|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|1.04||||0.002|TWO_SIDED|95.6|0.887|1.211|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.211|0.887|0.002
82519949|NCT01986881|164735085|NON_INFERIORITY|1-sided p-value and the non-inferiority margin is a hazard ratio of 1.3.|Hazard Ratio (HR)|0.91|||<|0.001|TWO_SIDED|95.6|0.773|1.065|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.065|0.773|<0.001
82519950|NCT01986881|164735087|SUPERIORITY||Difference in the Least Squares Means|-0.65|||<|0.001|TWO_SIDED|95.0|-0.78|-0.51||"Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, stratum, and the interaction of time by treatment. The stratum was (insulin alone or insulin+metformin) and Time was a categorical variable."|cLDA Model|||||-0.51|-0.78|<0.001
82637531|NCT01270139|164989317|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED||||||Chi-squared|||The null hypothesis is Nanogroup is superior to Ferro group and stenting control||||<0.05
82519951|NCT01986881|164735087|SUPERIORITY||Difference in the Least Squares Means|-0.58|||<|0.001|TWO_SIDED|95.0|-0.71|-0.44||"Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, stratum, and the interaction of time by treatment. The stratum was (insulin alone or insulin+metformin) and Time was a categorical variable."|Constrained longitudinal data analysis|||||-0.44|-0.71|<0.001
82519952|NCT01986881|164735089|SUPERIORITY||Difference in the Least Squares Means|-0.22||||0.247|TWO_SIDED|95.0|-0.6|0.16||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA Model|||||0.16|-0.60|0.247
82519953|NCT01986881|164735089|SUPERIORITY||Difference in the Least Squares Means|-0.35||||0.063|TWO_SIDED|95.0|-0.72|0.02||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA model|||||0.02|-0.72|0.063
82442584|NCT03840525|164593945|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics were conducted. No group comparisons were done due to the fact that this was a feasibility trial and not an efficacy trial. 80% was used as the benchmark for acceptability.|||
82519954|NCT01986881|164735091|SUPERIORITY||Difference in the Least Squares Means|-0.75|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA Model|||||-0.53|-0.98|<0.001
82637532|NCT01270139|164989318|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and stenting control||||<0.05
82519955|NCT01986881|164735091|SUPERIORITY||Difference in the Least Squares Means|-0.66|||<|0.001|TWO_SIDED|95.0|-0.89|-0.43||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR, and the interaction of time by treatment.|cLDA model|||||-0.43|-0.89|<0.001
82519956|NCT01986881|164735092|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.108|TWO_SIDED|95.8|0.75|1.034|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.034|0.750|0.108
82523557|NCT01123382|164742754|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED|||||group x time interaction 0.059|Mixed Models Analysis|||||||0.059
82637533|NCT01270139|164989319|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano groups is superior to Ferro group and Stenting control||||<0.05
82637534|NCT01270139|164989320|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano group is superior to Ferro group and Stenting control||||<0.05
82637535|NCT01270139|164989321|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size was not defined on the basis of an end-point hypothesis, therefore the present FIM study should be considered as hypothesis-generating.|||||<|0.05|TWO_SIDED|||||Overall comparison was assessed by applying the Friedman test, and pairwise comparisons between post-procedure and follow-up (nano vs ferro, nano vs stenting, and ferro vs stenting) were performed by ANOVA.|ANOVA|||The null hypothesis is Nano groups is superior to Ferro group and Stenting control||||<0.05
82637536|NCT01270139|164989322|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
82637537|NCT01270139|164989323|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
82637538|NCT01270139|164989324|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
82637539|NCT01270139|164989325|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|Kaplan-Meier|||Null hypothesis is Nano group is superior to Ferro group and stenting control.||||<0.05
82384480|NCT02314260|164480143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.806|STANDARD_ERROR_OF_MEAN|0.0578||0|TWO_SIDED|95.0|0.693|0.919||Under the nonparametric assumption P value \<0.05 is statistically significant|t-test, 2 sided||The positive actual state is failed induction and performing Caesarean Section, So as the numbers approaches 1, induction fails. the Y-axis of the curve is sensitivity and the x- axis is (1-specificity).|Null hypothesis: true area = 0.5 The positive actual state is failed induction, the true positive rate (Sensitivity) is plotted in function of the false positive rate (100-Specificity)||0.919|0.693|0.000
82519957|NCT01986881|164735092|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.15|TWO_SIDED|95.8|0.725|1.057|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.057|0.725|0.150
82523558|NCT01123382|164742755|SUPERIORITY_OR_OTHER|||||||0.543||||||group x time interaction 0.543|Mixed Models Analysis|||||||0.543
82384481|NCT02314260|164480144|SUPERIORITY_OR_OTHER||Slope|4.5|STANDARD_ERROR_OF_MEAN|0.0318||0|TWO_SIDED|95.0|0.0|10.0||P\<0.05 is significant|t-test, 2 sided||at a cutoff value of 4.5, the sensitivity for failure to labour induction is 0.83 (83%), with a specificity of 0.87(87%).|The smallest cutoff value is the minimum observed test value minus 1, and the largest cutoff value is the maximum observed test value plus 1. All the other cutoff values are the averages of two consecutive ordered observed test values.||10|0.00|0.000
82384482|NCT02314260|164480145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|0.0578||0|TWO_SIDED|95.0|0.0|10.0||P\<0.05 is significant|t-test, 2 sided||at a cutoff value of 5.5, the sensitivity for failure to labour induction is 0.83 (83%), with a specificity of 0.73 (73%).|The smallest cutoff value is the minimum observed test value minus 1, and the largest cutoff value is the maximum observed test value plus 1. All the other cutoff values are the averages of two consecutive ordered observed test values.||10|0.00|0.000
82519958|NCT01986881|164735092|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.188|TWO_SIDED|95.8|0.735|1.068|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.068|0.735|0.188
82519959|NCT01986881|164735093|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.385|TWO_SIDED|95.8|0.767|1.113|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.113|0.767|0.385
82519960|NCT01986881|164735093|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.417|TWO_SIDED|95.8|0.739|1.139|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.139|0.739|0.417
82523559|NCT01123382|164742756|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||group x time interaction 0.33|Mixed Models Analysis|||||||0.33
82384483|NCT00693498|164480153|OTHER||||||<|0.03||||||the reported value is for POD#1 assessment|Wald Wolfowitz|||||||<0.03
82384484|NCT00693498|164480153|OTHER|||||||0.29||||||for POD#2 assessment|Wald-Wolf|||||||0.29
82384485|NCT03150719|164480207|SUPERIORITY||Mean Difference|2.7|||||TWO_SIDED|95.0|1.0|4.4||||||||4.4|1.0|
82384486|NCT03150719|164480208|SUPERIORITY||Mean Difference|6.7|||||TWO_SIDED|95.0|2.5|10.9||||||||10.9|2.5|
82384487|NCT03150719|164480209|SUPERIORITY||Mean Difference|1.1|||||TWO_SIDED|95.0|-4.9|7.0||||||||7.0|-4.9|
82519961|NCT01986881|164735093|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.494|TWO_SIDED|95.8|0.75|1.154|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.154|0.750|0.494
82519962|NCT01986881|164735094|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.081|TWO_SIDED|95.8|0.63|1.036|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.036|0.630|0.081
82384488|NCT01790984|164480212|OTHER||General linear mixed model|2.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing differences between 2 Groups on 2 Diets (NAFLD, Control,high \& low sugar diets).|Details of our statistical approach are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TAG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
82384489|NCT01790984|164480213|OTHER||General linear mixed model|11.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size for NAFLD \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B and triacylglycerol production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level) produced sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
82384490|NCT01790984|164480214|OTHER||General linear mixed model|110.0|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
82386672|NCT00927862|164484101|NON_INFERIORITY_OR_EQUIVALENCE|Based on power calculations and feasibility, the minimum recruitment target for the randomized, PG-guided comparison was set at 500 patients. All qualifying parallel control patients were included, anticipated to number ≥1000. For hypothesis 1, the power to exclude inferiority of the modified PG arm vs standard PG arm at a margin (delta) of 5% with 250 patients per group at a 2-sided alpha \<0.05 is 87%, assuming a common standard deviation of 0.20.|Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|0.2|<|0.05|TWO_SIDED|95.0||||Comparisons between groups for primary endpoints were made using the unpaired T-test.|t-test, 2 sided|||Comparisons between groups for primary endpoints were made using the unpaired T-test. All consented, randomized patients who were successfully genotyped and received at least one dose of warfarin with at least one post-dose INR were included in efficacy analyses (modified intention to treat \[mITT\]).||||<0.05
82519963|NCT01986881|164735094|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.258|TWO_SIDED|95.8|0.638|1.137|||Cox Proportional Hazard Model|"Model included treatment as an explanatory factor and cohort category as a stratification factor.~Renal"||||1.137|0.638|0.258
82519964|NCT01986881|164735094|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.065|TWO_SIDED|95.8|0.568|1.028|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.028|0.568|0.065
82523560|NCT01123382|164742757|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||group x time 0.61|Mixed Models Analysis|||||||0.61
82384491|NCT01790984|164480215|OTHER||General linear mixed model|0.26|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical approach are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
82384492|NCT01790984|164480216|OTHER||General linear mixed model|10.0|||>|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables|Details of our statistical analyses are described below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||>0.05
82386673|NCT00820248|164484121|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.83|TWO_SIDED|95.0|0.6|1.5|||Regression, Cox||Hazard ratio of panitumumab vs cisplatin|The log rank test stratified by the stratification factors at randomization was used to compare the difference in PFS between two treatment arms.||1.50|0.60|0.83
82386674|NCT00820248|164484122|SUPERIORITY||Cox Proportional Hazard|0.89||||0.66|TWO_SIDED|95.0|0.54|1.48|||Log Rank||hazard ratio for panitumumab vs cisplatin|||1.48|0.54|0.66
82519965|NCT01986881|164735095|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.183|TWO_SIDED|95.0|0.823|1.038||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||1.038|0.823|0.183
82519966|NCT01986881|164735095|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.45|TWO_SIDED|95.0|0.831|1.086|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.086|0.831|0.450
82519967|NCT01986881|164735095|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.123|TWO_SIDED|95.0|0.785|1.029|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.029|0.785|0.123
82519968|NCT01986881|164735096|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.676|TWO_SIDED|95.0|0.861|1.259|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.259|0.861|0.676
82519969|NCT01986881|164735096|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.139|TWO_SIDED|95.0|0.949|1.451|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.451|0.949|0.139
82519970|NCT01986881|164735096|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.416|TWO_SIDED|95.0|0.727|1.141|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.141|0.727|0.416
82386675|NCT02237196|164484123|SUPERIORITY||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.5038||0.314|TWO_SIDED|95.0|-1.51|0.49|||Longitudinal repeated measures analysis|Model adjusts for Site, Baseline TNSS AUC, and Baseline Cat exposure (low vs high)||||0.49|-1.51|0.314
82386676|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|-0.226|||||TWO_SIDED|||||||||leftIFG (Change in Brain activity \[post minus pre\])||||
82386677|NCT04157296|164484132|SUPERIORITY||Median Difference (Final Values)|-0.309|||||TWO_SIDED|||||||||rightIFG (Change in Brain activity \[post minus pre\])||||
82386678|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|-0.179|||||TWO_SIDED|||||||||leftParietal (Change in Brain activity \[post minus pre\])||||
82519971|NCT01986881|164735097|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.663|TWO_SIDED|95.0|0.82|1.365||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|||1.365|0.820|0.663
82523561|NCT01123382|164742758|SUPERIORITY_OR_OTHER|||||||0.398||||||group x time interaction 0.398|Mixed Models Analysis|||||||0.398
82523562|NCT01123382|164742759|SUPERIORITY_OR_OTHER|||||||0.46||||||group x time interaction 0.46|Mixed Models Analysis|||||||0.46
82523563|NCT01123382|164742760|SUPERIORITY_OR_OTHER|||||||0.59||||||group x time interaction 0.59|Mixed Models Analysis|||||||0.59
82523564|NCT01123382|164742761|SUPERIORITY_OR_OTHER|||||||0.69||||||group x time interaction 0.69|Mixed Models Analysis|||||||0.69
82386679|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|0.324|||||TWO_SIDED|||||||||rightParietal (Change in Brain activity \[post minus pre\])||||
82386680|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|||||||||leftdACC (Change in Brain activity \[post minus pre\])||||
82386681|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|-0.067|||||TWO_SIDED|||||||||rightdACC (Change in Brain activity \[post minus pre\])||||
82523565|NCT02740049|164742762|SUPERIORITY|||||||0.0002||||||P value is the comparison between the IFN/TNF induction group versus the VR588 (10-7M) treatment group.|Wilcoxon (Mann-Whitney)|||Statistical differences is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or a Wilcoxon signed rank test as appropriate.||||0.0002
82386682|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|0.302|||||TWO_SIDED|||||||||leftInsula (Change in Brain activity \[post minus pre\])||||
82386683|NCT04157296|164484132|SUPERIORITY|rightInsula (Change in Brain activity \[post minus pre\])|Mean Difference (Final Values)|0.234|||||TWO_SIDED|||||||||rightInsula (Change in Brain activity \[post minus pre\])||||
82386684|NCT04157296|164484132|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|||||||||TCN (Change in Connectivity \[post minus pre\])||||
82386685|NCT04157296|164484133|SUPERIORITY|||||||0.241|||||||t-test, 1 sided|||||||0.241
82386686|NCT04157296|164484134|SUPERIORITY|||||||0.233|||||||t-test, 1 sided|||||||0.233
82386687|NCT04157296|164484135|SUPERIORITY|||||||0.042|||||||t-test, 1 sided|||||||0.042
82386688|NCT04157296|164484136|SUPERIORITY|||||||0.349|||||||t-test, 1 sided|||||||0.349
82386689|NCT00267969|164484138|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82386690|NCT00267969|164484138|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for the multiplicity for the primary endpoint analysis, the Holm's procedure was used at an overall significance level of 0.05|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05. Sample Size: With 750 patients (250 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab groups and placebo using a CMH test stratified by baseline weight \[\<=90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.001
82386691|NCT00267969|164484139|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel(CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82386692|NCT00267969|164484139|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
82386693|NCT00267969|164484140|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|Treatment and patient's baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||||||<0.001
82386694|NCT00267969|164484140|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first|ANOVA on van der Waerden normal scores|Treatment and patient's baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
82386695|NCT00267969|164484141|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82386696|NCT00267969|164484141|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||||||<0.001
82386697|NCT00267969|164484141|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||To control the overall multiplicity, the combined groups was tested first and each dose will then be tested; but the primary and the 1st 2 secondary endpoint analyses need to be significant before this endpoint can be tested|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[≤ 90kg vs \> 90 kg)\].||Null Hypothesis: No difference between combined maintenance group and the combined withdrawal group, ustekinumab 90 mg maintenance group and the withdrawal group, ustekinumab 45 mg maintenance group and the withdrawal group at an overall significance level of 0.05.||||0.001
82386698|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus their not being equal.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.51||0.6|TWO_SIDED|95.0|-0.73|1.25||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.25|-0.73|0.60
82519972|NCT01986881|164735097|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.415|TWO_SIDED|95.0|0.845|1.505||A two-sided p-value compared Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||Hazard ratio, confidence interval, and two-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that includes treatment as an explanatory factor and cohort category as a stratification factor.||1.505|0.845|0.415
82519973|NCT01986881|164735097|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.953|TWO_SIDED|95.0|0.736|1.334||A two-sided p-value compared Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||Hazard ratio, confidence interval, and two-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that includes treatment as an explanatory factor and cohort category as a stratification factor.||1.334|0.736|0.953
82519974|NCT01986881|164735098|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.006|TWO_SIDED|95.0|0.539|0.902||Hazard ratio, CI, and 2-sided p-value comparing All Ertugliflozin versus Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||0.902|0.539|0.006
82519975|NCT01986881|164735098|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.016|TWO_SIDED|95.0|0.502|0.932|||Cox Proportional Hazards Model|Hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.||||0.932|0.502|0.016
82519976|NCT01986881|164735098|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.028|TWO_SIDED|95.0|0.524|0.964|||Cox Proportional Hazards Model|Hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.||||0.964|0.524|0.028
82519977|NCT01986881|164735099|SUPERIORITY|Hazard ratio, CI, and 2-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor. The on-study approach included confirmed events that occurred between the randomization date and the on-study censor date.|Hazard Ratio (HR)|0.93||||0.34|TWO_SIDED|95.0|0.797|1.081||Hazard ratio, CI, and 2-sided p-value comparing Ertugliflozin vs Placebo, based on the stratified Cox proportional hazards model that included treatment as an explanatory factor and cohort category as a stratification factor.|Cox proportional hazards model|||||1.081|0.797|0.340
82572033|NCT03121612|164853365|SUPERIORITY|||||||1||||||Not adjusted for multiple comparisons.|Fisher Exact|No failures in older stratum, so stratification by gestational age-group not controlled for in analysis.||||||1.0
82572034|NCT03121612|164853366|SUPERIORITY|||||||0.33||||||Not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|Controlling for stratification by gestational group.||||||0.33
82572035|NCT03121612|164853367|SUPERIORITY|||||||0.31||||||Not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|Controlling for stratification by gestational age-group.||||||0.31
82519978|NCT01986881|164735099|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.463|TWO_SIDED|95.0|0.784|1.117|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.117|0.784|0.463
82572036|NCT03121612|164853368|SUPERIORITY|||||||0.81||||||Not adjusted for multiple comparisons.|van Elteren's extension to Wilcoxon|van Elteren's extension used to control for stratification by gestation||||||0.81
82572037|NCT03121612|164853369|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82572038|NCT03121612|164853375|SUPERIORITY|||||||1||||||No adjustment for multiple comparisons.|Fisher Exact|No failures in older stratum, so stratification by gestational age-group not controlled for in analysis.||||||1.0
82572039|NCT03121612|164853377|SUPERIORITY|||||||1|||||||Fisher Exact|No adjustment for multiple comparisons||||||1.0
82572040|NCT02654132|164853378|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0043|TWO_SIDED|95.0|0.32|0.82|||Log Rank|||||0.82|0.32|0.0043
82637540|NCT01270139|164989326|OTHER|The Kolmogorov-Smirnov test was used to prove Gaussian distribution allowing for calculation of the mean and standard deviation. Non-Gaussian samples are described by median and range. Discriminant variables are evaluated with the two-sided Fisher's exact test. Differences between three groups were analyzed by means of a repeated-measures oneway ANOVA followed by a Fisher's post hoc test. We used the Cox proportional hazards ratios (HR) and 95% CI for the end points.|||||<|0.05||||||"A p value was calculated for each comparison separately, and indicated as for all comparisons. In case if p value was \>0.05, it was mentioned with a separated info. The threshold for statistical significance was a p value below 0.05."|t-test, 2 sided|||Null hypothesis is ex-vivo arm with exposure of nanoparticles is superior to saline control.||||<0.05
82519979|NCT01986881|164735099|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.363|TWO_SIDED|95.0|0.771|1.1|||Cox Proportional Hazards Model|Model included treatment as an explanatory factor and cohort category as a stratification factor.||||1.100|0.771|0.363
82572041|NCT02654132|164853379|SUPERIORITY||Odds Ratio (OR)|4.62||||0.0002|TWO_SIDED|95.0|2.05|10.43|||Cochran-Mantel-Haenszel|||||10.43|2.05|0.0002
82572042|NCT02654132|164853380|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0217|TWO_SIDED|95.0|0.37|0.93|||Log Rank|||||0.93|0.37|0.0217
82572043|NCT03713320|164853381|SUPERIORITY|||||||0.9539|||||||Cochran-Mantel-Haenszel|||Comparison of the treatment groups is based on a Cochran-Mantel-Haenzel test controlling for the number of tumors at screening (at least one tumor at screening versus no tumors at screening) and number of prognostic factors (0-1 versus 2 prognostic factors). Prognostic factors include age at diagnosis \> 60 years and lactate dehydrogenase level \> upper limit of normal at diagnosis. Number of subjects achieving ORR4 and exact binomial (Clopper-Pearson) confidence intervals are presented.||||.9539
82572044|NCT03713320|164853382|SUPERIORITY|||||||0.011|||||||Regression, Cox|||Hazard ratio (cobomarsen/vorinostat) and p-value comparing the treatment groups is based on a Cox proportional hazards model. A hazard ratio \< 1 favors cobomarsen over vorinostat.||||0.011
82572045|NCT00909532|164853403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|8.6|12.6||The primary and key secondary endpoints were analyzed using Hochberg's step-up procedure: test 1, primary (α=0.05); test 2, CFQ-R resp domain (Wk24) and sweat chloride (Wk24)(α=0.05).|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation.||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit (Day 15, Week 8, Week 16, and Week 24) as fixed effects, and subject as a random effect, with adjustment for the continuous baseline values of age and percent predicted FEV1.||12.6|8.6|<0.0001
82572046|NCT00909532|164853404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|8.5|12.5||There was no adjustment for multiple comparisons.|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. No imputation of missing data was done.||Analysis of this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were obtained from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for the continuous baseline values of age and percent predicted forced expiratory volume in 1 second (FEV1),using unstructured covariance matrix.||12.5|8.5|<0.0001
82637541|NCT01072175|164989327|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.79|1.34|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for dabrafenib were calculated.|||1.34|0.79|
82637542|NCT01072175|164989327|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.78|1.25|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2285403 were calculated.|||1.25|0.78|
82637543|NCT01072175|164989327|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2298683 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.84|1.27|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2298683 were calculated.|||1.27|0.84|
82442585|NCT03840525|164593946|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics was conducted to determine acceptability for both the qigong and sham qigong group. No between group comparisons were conducted. A benchmark of 80% was used to determine acceptability.|||
82637544|NCT01072175|164989327|NON_INFERIORITY_OR_EQUIVALENCE|Cmax of GSK2167542 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.66|1.45|||||Geometric mean ratio (Day 15 Cmax/Day 1 Cmax) and 90% confidence interval for GSK2167542 were calculated.|||1.45|0.66|
82572047|NCT00909532|164853405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|4.7|11.4||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05).|Mixed Models Analysis|||Through Week 24: Analysis for the respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, domain score, and percent predicted FEV1, using unstructured covariance matrix.||11.4|4.7|<0.0001
82637545|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.85|1.19|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for dabrafenib were calculated.|||1.19|0.85|
82442586|NCT03840525|164593947|EQUIVALENCE|To estimate precision, 95%CI will be calculated using Wilson's score method, which uses asymptotic variance and is appropriate for small sample sizes100. The formula is as follows: (2np + z2 ± √(z2 + 4npq)) / 2(n+ z2). If the proportion of participants who rate the intervention as acceptable is 80% or greater, we will consider the intervention acceptable.|||||||||||||||||Descriptive statistics were conducted to determine acceptability. Benchmark for acceptability was set at 80% of participant attending at least 70% of the classes.|||
82637546|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-inf) of dabrafenib was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.82|1.08|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for dabrafenib were calculated.|||1.08|0.82|
82637547|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.84|1.25|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2285403 were calculated.|||1.25|0.84|
82637548|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-inf) of GSK2285403 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.81|1.03|||||Geometric mean ratio (Day 15 AUC(0-inf)/ Day 1 AUC(0-inf)) and 90% confidence interval for GSK2285403 were calculated.|||1.03|0.81|
82637549|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2298683 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.81|1.29|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2298683 were calculated.|||1.29|0.81|
82519980|NCT01986881|164735100|SUPERIORITY|Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study. The on-study approach includes confirmed events that occurred between the randomization date and the on-study censor date.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.898|1.131||||||||1.131|0.898|
82519981|NCT01986881|164735100|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.937|1.219||||||||1.219|0.937|
82519982|NCT01986881|164735100|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.828|1.085||||||||1.085|0.828|
82519983|NCT01986881|164735101|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.716|0.945||||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study. The on-study approach included confirmed events that occurred between randomization date and the on-study censor date.||0.945|0.716|
82519984|NCT01986881|164735101|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.673|0.935|||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study.|||0.935|0.673|
82519985|NCT01986881|164735101|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.725|1.001|||||Ertugliflozin vs Placebo, based on the Andersen-Gill model for the recurrent events at the end of study.|||1.001|0.725|
82519986|NCT01986881|164735102|SUPERIORITY||Difference in the Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.55|-0.46|||cLDA Model|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.46|-0.55|<0.001
82519987|NCT01986881|164735102|SUPERIORITY||Difference in the Least Squares Means|-0.48|||<|0.001|TWO_SIDED|95.0|-0.53|-0.44|||cLDA model|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.44|-0.53|<0.001
82519988|NCT01986881|164735103|SUPERIORITY||Difference in the Least Squares Means|-0.48|||<|0.001|TWO_SIDED|95.0|-0.54|-0.43|||Constrained Longitudinal Data Analysis|Model included fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.43|-0.54|<0.001
82519989|NCT01986881|164735103|SUPERIORITY||Difference in the Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.55|-0.45|||Constrained Longitudinal Data Analysis|Model included fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.45|-0.55|<0.001
82519990|NCT01986881|164735104|SUPERIORITY||Difference in the least squares means|-0.37|||<|0.001|TWO_SIDED|95.0|-0.45|-0.3||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis||Ertugliflozin vs. Placebo|||-0.30|-0.45|<0.001
82519991|NCT01986881|164735104|SUPERIORITY||Difference in Least Squares Means|-0.39|||<|0.001|TWO_SIDED|95.0|-0.46|-0.32||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|Ertugliflozin vs. Placebo.||||-0.32|-0.46|<0.001
82519992|NCT01986881|164735106|SUPERIORITY||Difference in the least squares means|-0.31||||0.001|TWO_SIDED|95.0|-0.41|-0.21||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-0.21|-0.41|0.001
82519993|NCT01986881|164735106|SUPERIORITY||Difference in the least squares means|-0.36|||<|0.001|TWO_SIDED|95.0|-0.46|-0.26||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA model|||||-0.26|-0.46|<0.001
82519994|NCT01986881|164735121|SUPERIORITY||Difference in the Least Squares Means|-17.56|||<|0.001|TWO_SIDED|95.0|-19.49|-15.63|||CLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-15.63|-19.49|<0.001
82519995|NCT01986881|164735121|SUPERIORITY||Difference in the Least Squares Means|-15.1|||<|0.001|TWO_SIDED|95.0|-17.03|-13.17|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-13.17|-17.03|<0.001
82519996|NCT01986881|164735128|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
82519997|NCT01986881|164735128|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
82519998|NCT01986881|164735129|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
82519999|NCT01986881|164735129|SUPERIORITY||||||<|0.001|||||||Log Rank|Log-Rank Test for the comparison to Placebo was based on all data (including for those participants who never had the event).||||||<0.001
82520000|NCT01986881|164735137|SUPERIORITY||Difference in the Least Squares Means|-2.78|||<|0.001|TWO_SIDED|95.0|-3.45|-2.1|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.10|-3.45|<0.001
82572048|NCT00909532|164853405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|5.3|11.9||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for the CFQ-R respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from MMRM with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age,sweat chloride, and percent predicted FEV1,using unstructured covariance matrix.||11.9|5.3|<0.0001
82637550|NCT01072175|164989328|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-t) of GSK2167542 was log e transformed and analyzed by a linear mixed effect model with fixed effect for treatment (dabrafenib alone and combined with trametinib) and participant as a random effect. Geometric mean ratio (Day 15/Day 1) and 90% confidence interval were provided.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.76|1.37|||||Geometric mean ratio (Day 15 AUC(0-t)/ Day 1 AUC(0-t)) and 90% confidence interval for GSK2167542 were calculated.|||1.37|0.76|
82637551|NCT01072175|164989335|SUPERIORITY_OR_OTHER||Unconditional exact method|-4.0|||||TWO_SIDED|95.0|-23.1|15.9||||||Difference in response rate Arm2 - Arm1||15.9|-23.1|
82637552|NCT01072175|164989335|SUPERIORITY_OR_OTHER||Unconditional exact method|22.0|||||TWO_SIDED|95.0|2.5|40.7||||||Difference in response rate Arm3 - Arm1||40.7|2.5|
82637553|NCT01072175|164989336|SUPERIORITY_OR_OTHER||Unconditional exact method|-6.0|||||TWO_SIDED|95.0|-24.9|14.1||||||Difference in response rate Arm2- Arm1||14.1|-24.9|
82637554|NCT01072175|164989336|SUPERIORITY_OR_OTHER||Unconditional exact method|15.0|||||TWO_SIDED|95.0|-4.9|33.7||||||Difference in response rate Arm3 - Arm1||33.7|-4.9|
82637555|NCT01072175|164989337|SUPERIORITY_OR_OTHER||Response rate|6.0|||||TWO_SIDED|95.0|5.1|26.8||||||||26.8|5.1|
82637556|NCT01072175|164989338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0048|TWO_SIDED|95.0|0.38|0.87|||Log Rank||HRs were estimated using the Pike estimator.|||0.87|0.38|0.0048
82637557|NCT01072175|164989338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Log Rank||HRs were estimated using the Pike estimator.|||0.68|0.29|<0.0001
82637558|NCT01072175|164989340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1667|TWO_SIDED|95.0|0.45|1.18|||Log Rank||HRs were estimated using the Pike estimator.|||1.18|0.45|0.1667
82637559|NCT01072175|164989340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0119|TWO_SIDED|95.0|0.32|0.9|||Log Rank||HRs were estimated using the Pike estimator.|||0.90|0.32|0.0119
82637560|NCT01072175|164989348|NON_INFERIORITY_OR_EQUIVALENCE|Following loge tranformation, Cmax of dabrafenib after repeat doses from the pooled data in Part B and D were analyzed by a linear model with the following fixed effects as categorical variables: Capsule type (Gelatin or HPMC), BRAF dose (75 or 150 mg BID), Capsule type by BRAF dose interaction, Day (Day 15 or 21), MEK dose (0, 1, 1.5 or 2 mg QD). Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|Geometric Mean Ratio|1.51|||||TWO_SIDED|90.0|1.1|2.08|||||Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|||2.08|1.10|
82637561|NCT01072175|164989350|NON_INFERIORITY_OR_EQUIVALENCE|Following loge transformation, AUC(0-tau) of dabrafenib was analyzed by a linear mixed effect model with dosing chort and day as fixed effects and subject as random effect. Based on the model, geometric mean ratio (Day 21 Dabrafenib 150 mg BID+Trametinib 2 mg QD/Day 21 Dabrafenib 150 mg BID alone) and the corresponding 90% confidence interval were provided.|Geometric Mean Ratio|1.23|||||TWO_SIDED|90.0|0.89|1.69|||||Geometric mean ratio (Day 21 Dabrafenib 150 mg BID+Trametinib 2 mg QD/Day 21 Dabrafenib 150 mg BID alone) and the corresponding 90% confidence interval were provided.|||1.69|0.89|
82637562|NCT01072175|164989350|NON_INFERIORITY_OR_EQUIVALENCE|Following loge tranformation, AUC(0-tau) of dabrafenib after repeat doses from the pooled data in Part B and D were analyzed by a linear model with the following fixed effects as categorical variables: Capsule type (Gelatin or HPMC), BRAF dose (75 or 150 mg BID), Capsule type by BRAF dose interaction, Day (Day 15 or 21), MEK dose (0, 1, 1.5, 2 or 2 mg QD). Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were then provided for BRAF dose level 150 mg BID.|Geometric Mean Ratio|1.1|||||TWO_SIDED|90.0|0.84|1.44|||||Geometric mean ratio (HPMC/Gelatin) and the corresponding 90% CI were provided for BRAF dose level 150 mg BID.|||1.44|0.84|
82637563|NCT01177943|164989427|NON_INFERIORITY_OR_EQUIVALENCE|80-125% was used for bioequivalence (BE) criteria in terms of geometric means.|Ratio of Geometric LS Mean values|0.945|||||TWO_SIDED|90.0|0.858|1.04|||ANOVA|||||1.04|0.858|
82637564|NCT01177943|164989428|NON_INFERIORITY_OR_EQUIVALENCE|80-125% was used for bioequivalence (BE) criteria in terms of the ratio of geometric means.|Ratio of AUC(0-tlast) values|1.03|||||TWO_SIDED|90.0|1.0|1.07|||ANOVA|||||1.07|1.00|
82637565|NCT05047601|164989470|SUPERIORITY||Risk Ratio (RR)|0.702||||0.1722|TWO_SIDED|95.0|0.422|1.167|||Generalized estimating equation (GEE)|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.167|0.422|0.1722
82637566|NCT05047601|164989470|SUPERIORITY||Risk Ratio (RR)|0.645||||0.1163|TWO_SIDED|95.0|0.373|1.115|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.115|0.373|0.1163
82637567|NCT05047601|164989472|SUPERIORITY||Risk Ratio (RR)|0.88||||0.6766|TWO_SIDED|95.0|0.484|1.602|||GEE|Model included the fixed effects of treatment, geographic regions. Compound symmetry variance-covariance structure.||||1.602|0.484|0.6766
82637568|NCT05047601|164989472|SUPERIORITY||Risk Ratio (RR)|0.809||||0.507|TWO_SIDED|95.0|0.433|1.512|||GEE|Model included the fixed effects of treatment, geographic regions. Compound symmetry variance-covariance structure.||||1.512|0.433|0.5070
82637569|NCT05047601|164989474|SUPERIORITY||Risk Ratio (RR)|0.672||||0.1869|TWO_SIDED|95.0|0.373|1.213|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.213|0.373|0.1869
82637570|NCT05047601|164989474|SUPERIORITY||Risk Ratio (RR)|0.633||||0.1221|TWO_SIDED|95.0|0.355|1.13|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.130|0.355|0.1221
82637571|NCT05047601|164989475|SUPERIORITY|||||||0.0368|||||||Log Rank|||||||0.0368
82637572|NCT05047601|164989475|SUPERIORITY|||||||0.0186|||||||Log Rank|||||||0.0186
82637573|NCT05047601|164989476|SUPERIORITY||Risk Ratio (RR)|0.75||||0.4126|TWO_SIDED|95.0|0.378|1.491|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.491|0.378|0.4126
82384493|NCT01790984|164480217|OTHER||General linear mixed model|0.28|||<|0.05|TWO_SIDED|||||Outcome measures were analysed as dependent variables in a general linear mixed model. All outcome variables in the model analysed were part of an priori hypothesis, and for this reason were not subject to adjustment for multiple comparisons.|Mixed Models Analysis|Mixed model analysis was appropriate for testing the impact of 'Diet' (high and low sugar) and Group (NAFLD and Control) status on outcome variables.|Details of our statistical analyses are given below.|The sample size of the NAFDL \& Control groups was based on primary outcome measures for a trace-labelling study of VLDL kinetics (VLDL1 apo B \& TAG production rates). From the literature there was an 80% probability that our study will detect a difference in the production rates of VLDL1 apo B of 30% (α=39%), and 26% for VLDL1-TG (α=33%). A paired comparison of two diets (5% level), gave sample sizes of n=15 for each group. Note: All reported P-values were calculated.|For outcome measures for which there were four samples from each participant (pre- and post-diets, for each period), the post-diet measurements were analysed as dependent variables in a general linear mixed model, with the following fixed categorical, non-random, explanatory effects: period, treatment (low and high sugar diet), period by treatment interaction (to detect carry-over effects), liver fat level (NAFLD and Control) and treatment by liver fat level interaction. The pre-diet measurements for each period, and bodyweights (pre- and post-diets) were included as covariates in the model, with participant as a model random effect. For outcome measures for which there were two samples for each participant (post-diets; end of each dietary intervention period only), each measurement for the combined groups (NAFLD and controls), for the 2-period cross-over, were analysed in a general linear mixed model with the same fixed categorical effects and bodyweights as covariates.|||<0.05
82442587|NCT04240093|164593960|SUPERIORITY|This is a pilot intervention trial and was not powered to detect statistical significance.|Beta coefficient|-0.46|STANDARD_ERROR_OF_MEAN|0.33||0.17|TWO_SIDED|95.0|-1.11|0.2||a priori alpha p\<0.05|Generalized estimating equations (GEE)|Generalized estimating equations (GEE) with a poisson distribution controlling for baseline values.||Hypothesis: The CoMBAT intervention arm would be superior to the Standard of Care control arm with regard to reductions in missed medication doses in the past 30 days at follow-up.||0.20|-1.11|0.17
82637574|NCT05047601|164989476|SUPERIORITY||Risk Ratio (RR)|1.244||||0.4273|TWO_SIDED|95.0|0.725|2.135|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||2.135|0.725|0.4273
82384494|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09||||0.4553|TWO_SIDED|95.0|-0.14|0.32|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.32|-0.14|0.4553
82384495|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07||||0.5689|TWO_SIDED|95.0|-0.16|0.3|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.30|-0.16|0.5689
82384496|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04||||0.7517|TWO_SIDED|95.0|-0.2|0.27|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.27|-0.20|0.7517
82637575|NCT05047601|164989477|SUPERIORITY||Risk Ratio (RR)|0.726||||0.1333|TWO_SIDED|95.0|0.478|1.103|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.103|0.478|0.1333
82384497|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02||||0.8549|TWO_SIDED|95.0|-0.21|0.25|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.25|-0.21|0.8549
82442588|NCT04240093|164593961|SUPERIORITY|This pilot feasibility and acceptability study was not powered to detect a statistically significant effect.|Beta coefficient|-0.18|STANDARD_ERROR_OF_MEAN|1.48||0.9|TWO_SIDED|95.0|-3.09|2.72||a priori alpha p\<0.05|Generalized estimating equation (GEE)|Generalized estimating equations (GEE) with a Poisson distribution controlling for baseline values.||Hypothesis: The CoMBAT intervention arm would be superior to the Standard of Care control arm with regard to reductions in missed medication-related visits in the past 30 days at follow-up.||2.72|-3.09|0.90
82637576|NCT05047601|164989477|SUPERIORITY||Risk Ratio (RR)|0.953||||0.8088|TWO_SIDED|95.0|0.645|1.408|||GEE|Model included the fixed effects of treatment, geographic regions and presence of risk factors. Compound symmetry variance-covariance structure.||||1.408|0.645|0.8088
82520001|NCT01986881|164735137|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-3.21|-1.86|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-3.21|<0.001
82384498|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05||||0.6685|TWO_SIDED|95.0|-0.18|0.29|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.29|-0.18|0.6685
82384499|NCT01691560|164480236|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03||||0.8031|TWO_SIDED|95.0|-0.26|0.2|||ANCOVA||Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.26|0.8031
82520002|NCT01986881|164735138|SUPERIORITY||Difference in the Least Squares Mean|-3.15|||<|0.001|TWO_SIDED|95.0|-3.85|-2.45|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.45|-3.85|<0.001
82520003|NCT01986881|164735138|SUPERIORITY||Difference in the Least Squares Means|-2.58|||<|0.001|TWO_SIDED|95.0|-3.28|-1.89|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.89|-3.28|<0.001
82520004|NCT01986881|164735139|SUPERIORITY||Difference in the Least Squares Means|-2.72|||<|0.001|TWO_SIDED|95.0|-3.57|-1.86|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-3.57|<0.001
82520005|NCT01986881|164735139|SUPERIORITY||Difference in the Least Squares Means|-2.7|||<|0.001|TWO_SIDED|95.0|-3.56|-1.85|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.85|-3.56|<0.001
82520006|NCT01986881|164735141|SUPERIORITY||Difference in the Least Squares Means|-2.6|||<|0.001|TWO_SIDED|95.0|-3.68|-1.52|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.52|-3.68|<0.001
82520007|NCT01986881|164735141|SUPERIORITY||Difference in the Least Squares Means|-2.79|||<|0.001|TWO_SIDED|95.0|-3.87|-1.71|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.71|-3.87|<0.001
82572049|NCT00909532|164853406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.9|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|-51.3|-44.5||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05); test 3 using Hochberg's on time to pulmonary exacerbation (Wk 48) and weight (Wk 48).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, sweat chloride, and percent predicted FEV1, using unstructured covariance matrix.||-44.5|-51.3|<0.0001
82572050|NCT00909532|164853406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|-51.5|-44.7||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for age, sweat chloride, and percent predicted FEV1, using unstructured covariance matrix.||-44.7|-51.5|<0.0001
82572051|NCT00909532|164853407|SUPERIORITY_OR_OTHER||Cox Proportional Hazard at Week 24|0.4||||0.0016|TWO_SIDED|95.0|0.23|0.71||There was no adjustment for multiple comparisons.|Regression, Cox|||Time to first pulmonary exacerbation through Week 24 was analyzed using Cox regression. The model included a covariate for treatment and adjustments for the age group and percent predicted forced expiratory volume in 1 second (FEV1) severity at baseline.||0.71|0.23|0.0016
82572052|NCT00909532|164853407|SUPERIORITY_OR_OTHER||Cox Proportional Hazard at 48 Weeks|0.46||||0.0012|TWO_SIDED|95.0|0.28|0.73||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05); test 3 using Hochberg's on time to pulmonary exacerbation (Wk 48) and weight (Wk 48).|Regression, Cox|||Time to first pulmonary exacerbation through Week 48 was analyzed using Cox regression. The model included a covariate for treatment and adjustments for the age group and percent predicted forced expiratory volume in 1 second (FEV1) severity at baseline.||0.73|0.28|0.0012
82637577|NCT05047601|164989485|SUPERIORITY||LS Mean Ratio|0.969||||0.7991|TWO_SIDED|95.0|0.758|1.238|||Negative binomial regression model|||||1.238|0.758|0.7991
82637578|NCT05047601|164989485|SUPERIORITY||LS Mean Ratio|0.847||||0.1985|TWO_SIDED|95.0|0.657|1.091|||Negative binomial regression model|||||1.091|0.657|0.1985
82637579|NCT03026556|164989486|OTHER||Hazard Ratio (HR)|0.766||||0.0844|TWO_SIDED|95.0|0.566|1.037|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.037|0.566|0.0844
82637580|NCT03026556|164989486|OTHER||Hazard Ratio (HR)|1.255||||0.4892|TWO_SIDED|95.0|0.659|2.39|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.390|0.659|0.4892
82520008|NCT01986881|164735144|SUPERIORITY||Difference in the Least Squares Means|-0.96|||<|0.001|TWO_SIDED|95.0|-1.37|-0.56|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.56|-1.37|<0.001
82520009|NCT01986881|164735144|SUPERIORITY||Difference in the Least Means Squares|-0.87|||<|0.001|TWO_SIDED|95.0|-1.28|-0.47|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.47|-1.28|<0.001
82520010|NCT01986881|164735145|SUPERIORITY||Difference in the Least Squares Means|-0.81|||<|0.001|TWO_SIDED|95.0|-1.22|-0.39|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.39|-1.22|<0.001
82520011|NCT01986881|164735145|SUPERIORITY||Difference in the Least Squares Means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.24|-0.41|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.41|-1.24|<0.001
82520012|NCT01986881|164735146|SUPERIORITY||Difference in the Least Squares Means|-0.67||||0.01|TWO_SIDED|95.0|-1.19|-0.16|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.16|-1.19|0.010
82520013|NCT01986881|164735146|SUPERIORITY||Difference in the Least Squares Means|-0.71||||0.006|TWO_SIDED|95.0|-1.22|-0.2|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-0.20|-1.22|0.006
82384500|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0467|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.0467
82384501|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1133|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test.|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.1133
82384502|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2579||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.2579
82442589|NCT04240093|164593962|SUPERIORITY|As a pilot feasibility and acceptability trial, this study was not powered to detect a statistically significant effect.|Beta coefficient|-4.71|STANDARD_ERROR_OF_MEAN|2.05||0.02|TWO_SIDED|95.0|-8.72|-0.7||A priori alpha p\<0.05|Generalized estimating equations (GEE)|Generalized estimating equation (GEE) modeling with a binomial distribution, controlling for baseline values.||Hypothesis: Fewer participants in the CoMBAT experimental arm will have a positive opioid toxicology screen at the 6-month follow-up compared to participants in the SOC control arm.||-0.70|-8.72|0.02
82637581|NCT03026556|164989487|OTHER||Hazard Ratio (HR)|0.82||||0.0182|TWO_SIDED|95.0|0.696|0.967|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.967|0.696|0.0182
82637582|NCT03026556|164989487|OTHER||Hazard Ratio (HR)|1.374||||0.0702|TWO_SIDED|95.0|0.974|1.939|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.939|0.974|0.0702
82384503|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.6149|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test.|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|0|0.6149
82384504|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3259|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.3259
82384505|NCT01691560|164480237|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5721|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|0|0.5721
82384506|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.36||||0.0292|TWO_SIDED|95.0|0.04|0.69|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.69|0.04|0.0292
82384507|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12||||0.4484|TWO_SIDED|95.0|-0.44|0.2|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.44|0.4484
82384508|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12||||0.4537|TWO_SIDED|95.0|-0.45|0.2|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.20|-0.45|0.4537
82384509|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49||||0.0037|TWO_SIDED|95.0|0.16|0.81|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.81|0.16|0.0037
82384510|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.48||||0.004|TWO_SIDED|95.0|0.16|0.81|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Treatment as fixed factor, baseline Schiff score as covariate. Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.81|0.16|0.0040
82384511|NCT01691560|164480238|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9974|TWO_SIDED|95.0|-0.32|0.32|||ANCOVA|From ANCOVA model with treatment and baseline included as covariate.|Difference is First named treatment minus Second named treatment that negative difference implies the mean of the second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.32|-0.32|0.9974
82384512|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8861|TWO_SIDED|95.0|-5.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|-5|0.8861
82384513|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0641|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.0641
82384514|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.1831||95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||5|0|0.1831
82637583|NCT03026556|164989488|OTHER||Hazard Ratio (HR)|0.923||||0.6307|TWO_SIDED|95.0|0.667|1.278|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.278|0.667|0.6307
82520014|NCT01986881|164735148|SUPERIORITY||Difference in the least squares means|-0.78||||0.024|TWO_SIDED|95.0|-1.46|-0.1||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.10|-1.46|0.024
82384515|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0871|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-10|0.0871
82384516|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.169|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-10|0.1690
82442590|NCT02839902|164593966|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-17.147||||0.0004|TWO_SIDED|95.0|-26.344|-7.95|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with cholesterol concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-7.950|-26.344|0.0004
82520015|NCT01986881|164735148|SUPERIORITY||Difference in the least squares means|-0.81||||0.02|TWO_SIDED|95.0|-1.48|-0.13||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.13|-1.48|0.020
82520016|NCT01986881|164735151|SUPERIORITY||Difference in the Least Squares Means|-1.92|||<|0.001|TWO_SIDED|95.0|-2.07|-1.77|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.77|-2.07|<0.001
82520017|NCT01986881|164735151|SUPERIORITY||Difference in the Least Squares Means|-1.63|||<|0.001|TWO_SIDED|95.0|-1.78|-1.47|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.47|-1.78|<0.001
82520018|NCT01986881|164735152|SUPERIORITY||Difference in the Least Squares Means|-2.45|||<|0.001|TWO_SIDED|95.0|-2.67|-2.24|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.24|-2.67|<0.001
82520019|NCT01986881|164735152|SUPERIORITY||Difference in the Least Squares Means|-2.07|||<|0.001|TWO_SIDED|95.0|-2.28|-1.86|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.86|-2.28|<0.001
82520020|NCT01986881|164735153|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-2.83|-2.22|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.22|-2.83|<0.001
82384517|NCT01691560|164480239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.3829|TWO_SIDED|95.0|-5.0|0.0|||Wilcoxon (Mann-Whitney)|Hodges-Lehmann Wilcoxon non-parametric test|Difference is First named treatment minus Second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0|-5|0.3829
82384518|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03||||0.9421|TWO_SIDED|95.0|-0.74|0.8|||ANCOVA|ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.80|-0.74|0.9421
82442591|NCT02839902|164593966|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-9.774||||0.1141|TWO_SIDED|95.0|-21.986|2.439|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with triglycerides concentration in sd LDL fraction at Week 8 using an ANCOVA model.||2.439|-21.986|0.1141
82384519|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15||||0.6918|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.60|-0.90|0.6918
82384520|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.13||||0.7421|TWO_SIDED|95.0|-0.63|0.88|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.88|-0.63|0.7421
82637584|NCT03026556|164989488|OTHER||Hazard Ratio (HR)|1.054||||0.8777|TWO_SIDED|95.0|0.54|2.055|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.055|0.540|0.8777
82637585|NCT03026556|164989489|OTHER||Hazard Ratio (HR)|0.223||||0.0023|TWO_SIDED|95.0|0.085|0.585|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.585|0.085|0.0023
82637586|NCT03026556|164989490|OTHER||Hazard Ratio (HR)|0.654||||0.0406|TWO_SIDED|95.0|0.435|0.982|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||0.982|0.435|0.0406
82637587|NCT03026556|164989490|OTHER||Hazard Ratio (HR)|1.11||||0.8124|TWO_SIDED|95.0|0.469|2.63|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.630|0.469|0.8124
82637588|NCT03026556|164989491|OTHER||Hazard Ratio (HR)|0.856||||0.0901|TWO_SIDED|95.0|0.716|1.025|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.025|0.716|0.0901
82637589|NCT03026556|164989491|OTHER||Hazard Ratio (HR)|1.431||||0.0616|TWO_SIDED|95.0|0.983|2.083|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.083|0.983|0.0616
82637590|NCT03026556|164989492|OTHER||Hazard Ratio (HR)|0.887||||0.2073|TWO_SIDED|95.0|0.736|1.069|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.069|0.736|0.2073
82520021|NCT01986881|164735153|SUPERIORITY||Difference in the Least Squares Means|-2.11|||<|0.001|TWO_SIDED|95.0|-2.39|-1.83|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.83|-2.39|<0.001
82520022|NCT01986881|164735155|SUPERIORITY||Difference in the Least Squares Means|-2.53|||<|0.001|TWO_SIDED|95.0|-2.97|-2.1|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-2.10|-2.97|<0.001
82520023|NCT01986881|164735155|SUPERIORITY||Difference in the Least Squares Means|-2.1|||<|0.001|TWO_SIDED|95.0|-2.52|-1.68|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||-1.68|-2.52|<0.001
82520024|NCT01986881|164735158|SUPERIORITY||Difference in the Lease Squares Means|-1.78|||||TWO_SIDED|95.0|-2.41|-1.15|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-1.15|-2.41|
82520025|NCT01986881|164735158|SUPERIORITY||Difference in the Least Squares Means|-1.19|||||TWO_SIDED|95.0|-1.82|-0.56|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-0.56|-1.82|
82572053|NCT00909532|164853408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|1.8|3.7|||Mixed Models Analysis|There was no adjustment for multiple comparisons.||At Week 24: Analysis for this variable was based on a linear mixed effects (LME) model with treatment as a fixed effect, and intercept, visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group and baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||3.7|1.8|<0.0001
82572054|NCT00909532|164853408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|0.7||0.0001|TWO_SIDED|95.0|1.3|4.1||Analyzed in sequence: test 1, primary (α=0.05); test 2, using Hochberg's step-up procedure on CFQ-R resp domain(Wk 24) and sweat chloride (Wk 24) (α=0.05).|Mixed Models Analysis|||At Week 48: Analysis for this variable was based on a linear mixed effects (LME) model with treatment as a fixed effect and visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group and baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||4.1|1.3|0.0001
82520026|NCT01986881|164735159|SUPERIORITY||Difference in the Lease Squares Means|-0.88|||||TWO_SIDED|95.0|-1.58|-0.18|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|-0.18|-1.58|
82520027|NCT01986881|164735159|SUPERIORITY||Difference in the Least Squares Means|-0.21|||||TWO_SIDED|95.0|-0.91|0.49|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|0.49|-0.91|
82520028|NCT01986881|164735160|SUPERIORITY||Difference in the least squares means|0.25|||||TWO_SIDED|95.0|-0.59|1.08|||||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|||1.08|-0.59|
82520029|NCT01986881|164735160|SUPERIORITY||Difference in the least squares means|1.12|||||TWO_SIDED|95.0|0.28|1.95|||||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|||1.95|0.28|
82520030|NCT01986881|164735162|SUPERIORITY||Difference in the Lease Squares Means|1.48|||||TWO_SIDED|95.0|0.31|2.66|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|2.66|0.31|
82572055|NCT01174264|164853411|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.75||||0.003|TWO_SIDED|90.0|1.3|2.34|||t-test, 2 sided|Performed on log-transformed data.||||2.34|1.30|0.003
82637591|NCT03026556|164989492|OTHER||Hazard Ratio (HR)|1.504||||0.0417|TWO_SIDED|95.0|1.015|2.228|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.228|1.015|0.0417
82637592|NCT03026556|164989494|OTHER||Hazard Ratio (HR)|0.709||||0.2663|TWO_SIDED|95.0|0.387|1.299|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.299|0.387|0.2663
82442592|NCT02839902|164593966|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-10.246||||0.0248|TWO_SIDED|95.0|-19.143|-1.349|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with free cholesterol concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-1.349|-19.143|0.0248
82520031|NCT01986881|164735162|SUPERIORITY||Difference in the Least Squares Means|1.66|||||TWO_SIDED|95.0|0.49|2.84|||||||Based on cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|2.84|0.49|
82520032|NCT01986881|164735186|SUPERIORITY||Difference in % vs Placebo|-0.9|||||TWO_SIDED|95.0|-2.8|0.9|||||||Miettinen \& Nurminen method|0.9|-2.8|
82520033|NCT01986881|164735186|SUPERIORITY||Difference in % vs Placebo|0.3|||||TWO_SIDED|95.0|-1.6|2.1|||||||Miettinen \& Nurminen method|2.1|-1.6|
82520034|NCT01986881|164735187|SUPERIORITY||Difference in % vs Placebo|1.3|||||TWO_SIDED|95.0|-5.8|8.4|||||||Miettinen \& Nurminen method|8.4|-5.8|
82520035|NCT01986881|164735187|SUPERIORITY||Difference in % vs Placebo|-1.9|||||TWO_SIDED|95.0|-9.2|5.4|||||||Miettinen \& Nurminen method|5.4|-9.2|
82520036|NCT01986881|164735188|SUPERIORITY||Difference in % vs Placebo|1.4|||||TWO_SIDED|95.0|-17.7|20.4|||||||Miettinen and Nurminen method|20.4|-17.7|
82520037|NCT01986881|164735188|SUPERIORITY||Difference in % vs Placebo|-19.9|||||TWO_SIDED|95.0|-37.5|-1.2|||||||Miettinen and Nurminen method|-1.2|-37.5|
82520038|NCT01986881|164735189|SUPERIORITY||Difference in % vs Placebo|7.9|||||TWO_SIDED|95.0|-5.1|20.5|||||||Based on Miettinen and Nurminen method|20.5|-5.1|
82520039|NCT01986881|164735189|SUPERIORITY||Difference in % vs Placebo|1.0|||||TWO_SIDED|95.0|-12.3|14.2|||||||Miettinen and Nurminen method|14.2|-12.3|
82572056|NCT01174264|164853411|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.08||||0.65|TWO_SIDED|90.0|0.81|1.44||Performed on log-transformed data.|t-test, 2 sided|||||1.44|0.81|0.65
82572057|NCT01174264|164853412|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.74||||0.008|TWO_SIDED|90.0|1.25|2.42|||t-test, 2 sided|Performed on log-transformed data.||||2.42|1.25|0.008
82520040|NCT01986881|164735191|SUPERIORITY||Difference in % vs Placebo|0.0|||||TWO_SIDED|95.0|-2.9|3.0|||||||Miettinen \& Nurminen method|3.0|-2.9|
82520041|NCT01986881|164735191|SUPERIORITY||Difference in % vs Placebo|-1.2|||||TWO_SIDED|95.0|-4.0|1.6|||||||Miettinen \& Nurminen method|1.6|-4.0|
82520042|NCT01986881|164735194|SUPERIORITY||Difference in the Least Squares Means|-25.4|||<|0.001|TWO_SIDED|95.0|-32.84|-17.96|||CLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-17.96|-32.84|<0.001
82520043|NCT01986881|164735194|SUPERIORITY||Difference in the Least Squares Means|-19.24|||<|0.001|TWO_SIDED|95.0|-26.8|-11.68|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-11.68|-26.80|<0.001
82520044|NCT01986881|164735195|SUPERIORITY||Difference in the Least Squares Means|-1.88|||<|0.001|TWO_SIDED|95.0|-2.37|-1.13|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-1.13|-2.37|<0.001
82520045|NCT01986881|164735195|SUPERIORITY||Difference in the Least Squares Means|-1.62|||<|0.001|TWO_SIDED|95.0|-2.12|-1.13|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin) and the interaction of time by treatment.||||-1.13|-2.12|<0.001
82520046|NCT01986881|164735196|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|2.49|||<|0.001|TWO_SIDED|95.0|1.61|3.83|||Regression, Logistic|Model fitted with fixed effects for treatment, stratum for insulin sub-study, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||3.83|1.61|<0.001
82520047|NCT01986881|164735196|SUPERIORITY||Adjusted Odds Ratio Relative to Placebo|2.6|||<|0.001|TWO_SIDED|95.0|1.64|4.12|||Regression, Logistic|Model fitted with fixed effects for treatment, stratum for insulin sub-study, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.12|1.64|<0.001
82520048|NCT01986881|164735197|SUPERIORITY||Difference in the Least Squares Means|-2.32||||0.025|TWO_SIDED|95.0|-4.35|-0.3|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||-0.30|-4.35|0.025
82637593|NCT03026556|164989494|OTHER||Hazard Ratio (HR)|0.864||||0.8112|TWO_SIDED|95.0|0.261|2.863|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.863|0.261|0.8112
82637594|NCT03026556|164989495|OTHER||Hazard Ratio (HR)|0.766||||0.1227|TWO_SIDED|95.0|0.546|1.075|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.075|0.546|0.1227
82520049|NCT01986881|164735197|SUPERIORITY||Difference in the Least Squares Means|-2.88||||0.006|TWO_SIDED|95.0|-4.94|-0.82|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||-0.82|-4.94|0.006
82520050|NCT01986881|164735198|SUPERIORITY||Difference in the Least Squares Means|-0.38||||0.533|TWO_SIDED|95.0|-1.56|0.81|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||0.81|-1.56|0.533
82520051|NCT01986881|164735198|SUPERIORITY||Difference in the Least Squares Means|-0.6||||0.326|TWO_SIDED|95.0|-1.81|0.6|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||0.60|-1.81|0.326
82520052|NCT01986881|164735201|SUPERIORITY||Difference in the Least Squares Means|-12.22||||0.105|TWO_SIDED|95.0|-27.03|2.06|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||2.06|-27.03|0.105
82572058|NCT01174264|164853412|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.12||||0.51|TWO_SIDED|90.0|0.84|1.49|||t-test, 2 sided|Performed on log-transformed data.||||1.49|0.84|0.51
82520053|NCT01986881|164735201|SUPERIORITY||Difference in the Least Squares Means|-13.53||||0.068|TWO_SIDED|95.0|-28.06|1.0|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||1.00|-28.06|0.068
82520054|NCT01986881|164735202|SUPERIORITY||Difference in the Least Squares Means|-0.52||||0.418|TWO_SIDED|95.0|-1.79|0.75|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||0.75|-1.79|0.418
82520055|NCT01986881|164735202|SUPERIORITY||Difference in the Least Squares Means|-1.07||||0.092|TWO_SIDED|95.0|-2.32|0.18|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||0.18|-2.32|0.092
82520056|NCT01986881|164735203|SUPERIORITY||Odds ratio relative to placebo|1.48||||0.46|TWO_SIDED|95.0|0.52|4.17|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.17|0.52|0.460
82520057|NCT01986881|164735203|SUPERIORITY||Odds ratio relative to placebo|1.62||||0.335|TWO_SIDED|95.0|0.61|4.35|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the Constrained Longitudinal Data Analysis (cLDA) model fitted with fixed effects as in the primary analysis.||4.35|0.61|0.335
82520058|NCT01986881|164735204|SUPERIORITY||Difference in the Least Squares Means|2.73||||0.255|TWO_SIDED|95.0|-2.0|7.45|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||7.45|-2.00|0.255
82520059|NCT01986881|164735204|SUPERIORITY||Difference in the Least Squares Means|2.81||||0.235|TWO_SIDED|95.0|-1.85|7.48|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||7.48|-1.85|0.235
82520060|NCT01986881|164735205|SUPERIORITY||Difference in the Least Squares Means|1.98||||0.178|TWO_SIDED|95.0|-0.91|4.86|||cLDA model|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||4.86|-0.91|0.178
82520061|NCT01986881|164735205|SUPERIORITY||Difference in the Least Squares Means|1.73||||0.23|TWO_SIDED|95.0|-1.11|4.58|||cLDA|Model with fixed effects for treatment, time, baseline eGFR, stratum (insulin alone or insulin + metformin), and the interaction of time by treatment.||||4.58|-1.11|0.230
82572059|NCT01174264|164853414|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.83
82442593|NCT02839902|164593966|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|-11.511||||0.0047|TWO_SIDED|95.0|-19.34|-3.682|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with phospholipid concentration in sd LDL fraction at Week 8 using an ANCOVA model.||-3.682|-19.340|0.0047
82442594|NCT02839902|164593967|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|9.499||||0.1826|TWO_SIDED|95.0|-4.623|23.622|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with TG to cholesterol ratio in sd LDL fraction at Week 8 using an ANCOVA model.||23.622|-4.623|0.1826
82572060|NCT01174264|164853414|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
82637595|NCT03026556|164989495|OTHER||Hazard Ratio (HR)|1.138||||0.7115|TWO_SIDED|95.0|0.573|2.26|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.260|0.573|0.7115
82637596|NCT03026556|164989496|OTHER||Hazard Ratio (HR)|0.923||||0.4727|TWO_SIDED|95.0|0.741|1.149|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.149|0.741|0.4727
82637597|NCT03026556|164989496|OTHER||Hazard Ratio (HR)|1.721||||0.0275|TWO_SIDED|95.0|1.062|2.79|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.790|1.062|0.0275
82637598|NCT03026556|164989497|OTHER||Hazard Ratio (HR)|1.346||||0.2309|TWO_SIDED|95.0|0.828|2.189|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||2.189|0.828|0.2309
82637599|NCT03026556|164989497|OTHER||Hazard Ratio (HR)|1.557||||0.3333|TWO_SIDED|95.0|0.635|3.821|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||3.821|0.635|0.3333
82637600|NCT03026556|164989498|OTHER||Hazard Ratio (HR)|1.008||||0.9359|TWO_SIDED|95.0|0.829|1.226|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.226|0.829|0.9359
82442595|NCT02839902|164593968|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|1.066||||0.004|TWO_SIDED|95.0|0.356|1.776|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by cholesterol using an ANCOVA model.||1.776|0.356|0.0040
82572061|NCT01174264|164853415|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82572062|NCT01174264|164853415|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82572063|NCT01174264|164853416|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.16||||0.17|TWO_SIDED|90.0|0.97|1.38|||t-test, 2 sided|Performed on log-transformed data.||||1.38|0.97|0.17
82637601|NCT03026556|164989498|OTHER||Hazard Ratio (HR)|1.024||||0.8947|TWO_SIDED|95.0|0.716|1.465|||Regression, Cox|||Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||1.465|0.716|0.8947
82637602|NCT01294319|164989499|SUPERIORITY|||||||0.4872|||||||Fisher Exact|||||||0.4872
82637603|NCT01294319|164989500|SUPERIORITY|||||||0.2786|||||||t-test, 2 sided|||||||0.2786
82637604|NCT02780869|164989505|NON_INFERIORITY|The primary endpoint was designed to establish comparable efficacy based upon a non-inferiority margin of 10% for the difference in the probability of TTH within 6 minutes comparing HEMOBLAST™ to G+T (HEMOBLAST™- G+T). Letting θ denote the true difference in the probability of hemostasis at 6 minutes between HEMOBLAST™ to G+T, the trial will test the null hypothesis H0: θ ≤ -0.10 vs. the alternative hypothesis HA : θ \> -0.10 using a one-sided level 0.025 test.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified adjustments for surgery type were made using the Cochran-Mantel-Haenszel weighting.||||||<0.0001
82637605|NCT02780869|164989505|SUPERIORITY|||||||0.0001||||||Adjustment for mulitple comparisons were made when assessing secondary endpoints using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05|Cochran-Mantel-Haenszel|||A secondary endpoint of superiority of HEMOBLAST relative to G+T for success at achieving hemostasis within 6 minutes was evaluated.||||0.0001
82637606|NCT02780869|164989506|SUPERIORITY||||||<|0.0001||||||Adjustment for mulitple comparisons were made when assessing secondary endpoints using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05|Regression, Linear|||The difference in mean preparation time was tested using a linear regression model with stratified adjustment for surgery type.||||<0.0001
82637607|NCT02780869|164989507|NON_INFERIORITY|The difference in the probability of hemostasis within 3 minutes was tested using a logistic regression model with stratified adjustment for surgery type.|||||<|0.0001||||||Adjustment for multiple comparisons when assessing secondary endpoints was performed using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05.|Regression, Logistic|||||||<0.0001
82637608|NCT02780869|164989507|SUPERIORITY|The difference in the probability of hemostasis within 3 minutes was tested using a logistic regression model with stratified adjustment for surgery type.||||||0.0001||||||Adjustment for multiple comparisons when assessing secondary endpoints was performed using a fixed sequence closed testing procedure to control the family-wise type I error rate at 0.05.|Regression, Logistic|||||||0.0001
82442596|NCT02839902|164593968|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|1.553||||0.4428|TWO_SIDED|95.0|-2.884|5.991|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by triglycerides using an ANCOVA model.||5.991|-2.884|0.4428
82572064|NCT01174264|164853417|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.13||||0.25|TWO_SIDED|90.0|0.95|1.35|||t-test, 2 sided|Performed on log-transformed data.||||1.35|0.95|0.25
82572065|NCT01174264|164853418|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.22||||0.096|TWO_SIDED|90.0|1.0|1.48||Performed on log-transformed data.|t-test, 2 sided|||||1.48|1.00|0.096
82572066|NCT01174264|164853419|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
82572067|NCT03559829|164853425|OTHER|||||||0.025|||||||paired t-test|||||||0.025
82572068|NCT03559829|164853426|OTHER|||||||0.01|||||||paired t-test|||||||0.01
82572069|NCT03559829|164853427|OTHER|||||||0.3|||||||paired t-test|||||||0.3
82572070|NCT03559829|164853428|OTHER|||||||0.098|||||||paired t-test|||||||0.098
82572071|NCT03559829|164853429|OTHER|||||||0.2|||||||paired t-test|||||||0.2
82572072|NCT03559829|164853430|OTHER|||||||0.07|||||||paired t-test|||||||0.07
82572073|NCT04469465|164853435|SUPERIORITY|||||||0.0007|||||||Re-randomization Test|||Interim Efficacy Analysis||||0.0007
82572074|NCT04469465|164853435|SUPERIORITY|||||||0.0007|||||||Re-randomization Test|||Full Analysis||||0.0007
82572075|NCT04469465|164853435|SUPERIORITY||LS Mean Difference|24.44|STANDARD_ERROR_OF_MEAN|3.751|<|0.0001|TWO_SIDED|95.0|16.9|31.99|||Mixed Models Analysis|||Interim Efficacy Analysis||31.99|16.90|<0.0001
82572076|NCT04469465|164853435|SUPERIORITY||Difference|23.46|STANDARD_ERROR_OF_MEAN|3.585|<|0.0001|TWO_SIDED|95.0|16.31|30.61|||Mixed Models Analysis|||Full Analysis||30.61|16.31|<0.0001
82572077|NCT01150045|164853454|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.12|TWO_SIDED|95.0|0.76|1.03|||Log Rank|||||1.03|0.76|0.12
82572078|NCT05146206|164853456|OTHER||||||<|0.001|||||||ANOVA|||||||<.001
82572079|NCT05146206|164853457|OTHER||||||<|0.001|||||||MANOVA|||||||<0.001
82572080|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.05||||0.8916|TWO_SIDED|95.0|-0.81|0.7|||ANCOVA|||||0.70|-0.81|0.8916
82572081|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.22||||0.5569|TWO_SIDED|95.0|-0.95|0.51|||ANCOVA|||||0.51|-0.95|0.5569
82572082|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.53||||0.1544|TWO_SIDED|95.0|-1.25|0.2|||ANCOVA|||||0.20|-1.25|0.1544
82572083|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.94||||0.0137|TWO_SIDED|95.0|-1.69|-0.19|||ANCOVA|||||-0.19|-1.69|0.0137
82572084|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.88||||0.0171|TWO_SIDED|95.0|-1.61|0.16|||ANCOVA|||||0.16|-1.61|0.0171
82637609|NCT01535638|164989529|SUPERIORITY_OR_OTHER||Ratio (%)|123.4|STANDARD_DEVIATION|17.1|||TWO_SIDED|90.0|108.0|141.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|Relative bioavailability comparison of Deleobuvir Trial Formulation II (reference) and Deleobuvir Final Formulation (test) in pairwise comparison. (reference : test)||141.1|108.0|
82637610|NCT01535638|164989529|SUPERIORITY_OR_OTHER||Ratio (%)|109.8|STANDARD_DEVIATION|28.8|||TWO_SIDED|90.0|88.6|136.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation modified (test) and Deleobuvir Final Formulation (reference) in pairwise comparison. (reference : test)||136.1|88.6|
82572085|NCT01496365|164853483|SUPERIORITY||Least square means|-1.01||||0.006|TWO_SIDED|95.0|-1.74|-0.29|||ANCOVA|||||-0.29|-1.74|0.0060
82572086|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.17||||0.7051|TWO_SIDED|95.0|-1.03|0.69|||ANCOVA|||||0.69|-1.03|0.7051
82572087|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.47||||0.2772|TWO_SIDED|95.0|-1.33|0.38|||ANCOVA|||||0.38|-1.33|0.2772
82572088|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.89||||0.0458|TWO_SIDED|95.0|-1.77|-0.02|||ANCOVA|||||-0.02|-1.77|0.0458
82572089|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.83||||0.0569|TWO_SIDED|95.0|-1.69|0.02|||ANCOVA|||||0.02|-1.69|0.0569
82572090|NCT01496365|164853483|SUPERIORITY||Least squares mean|-0.96||||0.0271|TWO_SIDED|95.0|-1.81|-0.11|||ANCOVA|||||-0.11|-1.81|0.0271
82572091|NCT01015677|164853496|SUPERIORITY_OR_OTHER||Differrence in the least squares means|-6.28||||0.488|TWO_SIDED|95.0|-24.2|11.64|||Longitudinal Data Analysis (LDA)|LDA model terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||11.64|-24.20|0.488
82572092|NCT01015677|164853496|SUPERIORITY_OR_OTHER||Difference in the least squares means|-17.45||||0.069|TWO_SIDED|95.0|-36.28|1.38|||Longitudinal Data Analysis|LDA model with terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||1.38|-36.28|0.069
82572093|NCT01015677|164853499|SUPERIORITY_OR_OTHER||Differrence in the least squares means|-6.05||||0.529|TWO_SIDED|95.0|-25.06|12.96|||Longitudinal Data Analysis (LDA)|LDA model includes terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||12.96|-25.06|0.529
82572094|NCT01015677|164853499|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.22||||0.264|TWO_SIDED|95.0|-31.03|8.59|||Longitudinal Data Analysis|LDA model includes terms for treatment, week (Weeks 1, 2 and 4), region, and interaction of treatment by week.||||8.59|-31.03|0.264
82572095|NCT01015677|164853500|SUPERIORITY_OR_OTHER||Difference in LS means|0.94||||0.827|TWO_SIDED|90.0|-6.19|8.07|||ANCOVA|Analysis of covariance (ANCOVA) with terms for treatment, region, stage of the trial, and baseline value as a covariate in PP population only.||||8.07|-6.19|0.827
82572096|NCT01015677|164853500|SUPERIORITY_OR_OTHER||Difference in the LS means|-14.52||||0.001|TWO_SIDED|90.0|-21.73|-7.32|||ANCOVA|ANCOVA with terms for treatment, region, stage of the trial, and baseline value as a covariate in PP population only.||||-7.32|-21.73|0.001
82572097|NCT02232399|164853501|OTHER|||||||0.45||||||To test whether there were any significant differences between the two treatment groups over time (group vs time interaction), a repeated measurement mixed-model approach was used. This assumed an unstructured covariance pattern.|Mixed Models Analysis|Unstructured covariance pattern was assumed.||To test whether there were any significant differences between the two treatment groups over time (group vs time interaction), a repeated measurement mixed-model approach was used. This assumed an unstructured covariance pattern.||||0.45
82572098|NCT02232399|164853502|OTHER|||||||0.7|||||||Regression, Logistic|||||||0.70
82572099|NCT03491215|164853504|OTHER|Comparison|GMR|0.801|||||TWO_SIDED|90.0|0.49|1.311||||||Group 3 vs Group 2||1.311|0.490|
82572100|NCT03491215|164853504|OTHER|Comparison|GMR|0.991|||||TWO_SIDED|90.0|0.532|1.846||||||Group 3 vs. Group 1||1.846|0.532|
82572101|NCT03491215|164853504|OTHER|Comparison|GMR|1.237|||||TWO_SIDED|90.0|0.639|2.394||||||Group 2 vs. Group 1||2.394|0.639|
82572102|NCT03491215|164853505|OTHER|Comparison|GMR|0.709|||||TWO_SIDED|90.0|0.425|1.184||||||Group 3 vs. Group 2||1.184|0.425|
82572103|NCT03491215|164853505|OTHER|Comparison|GMR|0.968|||||TWO_SIDED|90.0|0.506|1.851||||||Group 3 vs. Group 1||1.851|0.506|
82520062|NCT01986881|164735206|SUPERIORITY||Difference in the Least Squares Means|-31.37|||<|0.001|TWO_SIDED|95.0|-40.68|-22.07|||CLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-22.07|-40.68|<0.001
82384521|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18||||0.6433|TWO_SIDED|95.0|-0.58|0.94|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.94|-0.58|0.6433
82442597|NCT02839902|164593968|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|0.76||||0.057|TWO_SIDED|95.0|-0.024|1.544|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by free cholesterol using an ANCOVA model.||1.544|-0.024|0.0570
82442598|NCT02839902|164593968|OTHER|Least square (LS) mean difference|Least square (LS) mean difference|0.838||||0.036|TWO_SIDED|95.0|0.057|1.62|||ANCOVA||TAK-085 4 g - Control Group|The least square (LS) mean percentage change was compared between treatment groups with particle size (nm) of LDL at Week 8 monitored by phospholipid using an ANCOVA model.||1.620|0.057|0.0360
82520063|NCT01986881|164735206|SUPERIORITY||Difference in the Least Squares Means|-30.47|||<|0.001|TWO_SIDED|95.0|-40.23|-20.72|||cLDA|cLDA model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-20.72|-40.23|<0.001
82520064|NCT01986881|164735207|SUPERIORITY||Difference in the Least Squares Means|-1.94|||<|0.001|TWO_SIDED|95.0|-2.65|-1.24|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-1.24|-2.65|<0.001
82520065|NCT01986881|164735207|SUPERIORITY||Difference in the Least Squares Means|-1.57|||<|0.001|TWO_SIDED|95.0|-2.3|-0.84|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous), and the interaction of time by treatment.||||-0.84|-2.30|<0.001
82384522|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1||||0.801|TWO_SIDED|95.0|-0.86|0.67|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.67|-0.86|0.8010
82384523|NCT01691560|164480240|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.28||||0.4692|TWO_SIDED|95.0|-0.48|1.03|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.03|-0.48|0.4692
82572104|NCT03491215|164853505|OTHER|Comparison|GMR|1.365|||||TWO_SIDED|90.0|0.686|2.714||||||Group 2 vs. Group 1||2.714|0.686|
82572105|NCT03491215|164853507|OTHER|Comparison|GMR|0.759|||||TWO_SIDED|90.0|0.245|2.352||||||Group 3 vs. Group 2||2.352|0.245|
82442599|NCT00740714|164593986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|STANDARD_ERROR_OF_MEAN|0.85|>|0.025|TWO_SIDED|97.5|-1.33|2.51||The primary analysis compares each active treatment arm to the placebo arm. P-values for efficacy outcomes will be 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|||ANCOVA is used with the change in total UPDRS of Coenzyme Q10 1200 mg/day arm compared to placebo group.||2.51|-1.33|>0.025
82442600|NCT00740714|164593986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09|STANDARD_ERROR_OF_MEAN|0.86|>|0.025|TWO_SIDED|95.0|-0.85|3.03||The primary analysis compares each active treatment arm to the placebo arm. P-values for efficacy outcomes will be 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|||ANCOVA is used with the change in total UPDRS of Coenzyme Q10 2400 mg/day arm compared to placebo group.||3.03|-0.85|>0.025
82442601|NCT00740714|164593987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.84||0.7943|TWO_SIDED|97.5|-2.12|1.68||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Modified Schwab \& England will be analyzed using ANCOVA in the same way as for the primary outcome variable.||1.68|-2.12|0.7943
82442602|NCT00740714|164593987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.85||0.306||95.0|-2.79|1.04||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month on Modified Schwab \& England will be analyzed using ANCOVA in the same way as for the primary outcome variable.||1.04|-2.79|0.306
82520066|NCT01986881|164735208|SUPERIORITY||Adjusted odds ratio relative to placebo|4.1|||<|0.001|TWO_SIDED|95.0|2.0|8.42|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.||8.42|2.00|<0.001
82520067|NCT01986881|164735208|SUPERIORITY||Adjusted odds ratio relative to placebo|5.97|||<|0.001|TWO_SIDED|95.0|2.86|12.49|||Regression, Logistic|Model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR (continuous).||Missing data imputed using the cLDA model fitted with fixed effects as in the primary analysis.||12.49|2.86|<0.001
82520068|NCT01986881|164735209|SUPERIORITY||Difference in the Least Squares Means|-0.85||||0.597|TWO_SIDED|95.0|-4.0|2.3|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||2.30|-4.00|0.597
82520069|NCT01986881|164735209|SUPERIORITY||Difference in the Least Squares Means|-1.57||||0.351|TWO_SIDED|95.0|-4.87|1.73|||cLDA|The model had fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.73|-4.87|0.351
82520070|NCT01986881|164735210|SUPERIORITY||Difference in the Least Squares Means|-0.68||||0.49|TWO_SIDED|95.0|-2.6|1.25|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.25|-2.60|0.490
82520071|NCT01986881|164735210|SUPERIORITY||Difference in the Least Squares Means|-0.05||||0.958|TWO_SIDED|95.0|-2.07|1.96|||cLDA|Model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment.||||1.96|-2.07|0.958
82637611|NCT01535638|164989530|SUPERIORITY_OR_OTHER||Ratio (%)|122.5|STANDARD_DEVIATION|16.1|||TWO_SIDED|90.0|107.9|139.1|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation (test) and Deleobuvir Trial Formulation II (reference) in pairwise comparison. (test : reference)||139.1|107.9|
82442603|NCT00740714|164593988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06|<|0.1615|TWO_SIDED|97.5|-0.25|0.06||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Modified Rankin Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.06|-0.25|<0.1615
82442604|NCT00740714|164593988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.7627|TWO_SIDED|95.0|-0.17|0.13||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-Adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plats and ITT.||Change from Baseline Visit to 16-month visit on Modified Rankin will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.13|-0.17|0.7627
82520072|NCT04953390|164735232|OTHER|||||||0.004|||||||ANOVA|||||||0.004
82520073|NCT04953390|164735233|OTHER|||||||0.029|||||||ANOVA|||||||.029
82520074|NCT04953390|164735234|OTHER|||||||0.0002|||||||ANOVA|||||||0.0002
82520075|NCT04953390|164735235|OTHER|||||||0.14|||||||t-test, 2 sided|T-test done on DIR2 and DIR3 results only, as the conditions were equal for these two settings. DIR1 was tested in a different condition.||All three DIR settings were tested, but only the DIR2 and DIR3 were compared in t-test. This is because DIR1 mic setting was tested in a different condition (i.e. softer noise).||||.14
82520076|NCT04953390|164735238|OTHER|||||||0.0003|||||||ANOVA|||||||.0003
82520077|NCT00686166|164735245|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Exact binomal test|||||||0.18
82523566|NCT02740049|164742763|SUPERIORITY|||||||0.3994||||||P value is the comparison between the IFN/TNF induction group versus the VR588 (10-7M) treatment group|Wilcoxon (Mann-Whitney)|||Statistical differences is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or Wilcoxon signed rank test as appropriate.||||0.3994
82384524|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.31||||0.4797|TWO_SIDED|95.0|-0.55|1.16|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.16|-0.55|0.4797
82442605|NCT00740714|164593989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6383|STANDARD_ERROR_OF_MEAN|1.18||0.6383|TWO_SIDED|97.5|-2.1|3.21||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on PD Quality of Life Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||3.21|-2.10|0.6383
82442606|NCT00740714|164593989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|1.19||0.667|TWO_SIDED|95.0|-3.2|2.17||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on PD Quality of Life Scale will be analyzed using ANCOVA in the same way as for the primary outcome variable.||2.17|-3.20|0.667
82520078|NCT02314624|164735253|SUPERIORITY|||||||0.734||||||Analyses were performed on each subscale individually. This is the p-value for the Depression subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.734
82520079|NCT02314624|164735253|SUPERIORITY|||||||0.27||||||Analyses were performed on each subscale individually. This is the p-value for the Anxiety subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used a Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.27
82384525|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.54||||0.2023|TWO_SIDED|95.0|-1.37|0.29|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.29|-1.37|0.2023
82384526|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45||||0.2917|TWO_SIDED|95.0|-1.29|0.39|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.39|-1.29|0.2917
82572106|NCT03491215|164853507|OTHER|Comparison|GMR|0.516|||||TWO_SIDED|90.0|0.15|1.784||||||Group 3 vs. Group 1||1.784|0.150|
82572107|NCT03491215|164853507|OTHER|Comparison|GMR|0.681|||||TWO_SIDED|90.0|0.178|2.597||||||Group 2 vs. Group 1||2.597|0.178|
82384527|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.85||||0.0503|TWO_SIDED|95.0|0.0|1.69|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.69|0.00|0.0503
82384528|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.76||||0.0811|TWO_SIDED|95.0|-0.09|1.61|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||1.61|-0.09|0.0811
82523567|NCT02740049|164742764|SUPERIORITY|||||||0.0104||||||P value is the comparison between the IFN/TNF induction group versus VR588 (10-7M) treatment group.|Wilcoxon (Mann-Whitney)|||Statistical difference is determined using the Kruskal-Wallis test followed by Dunn's multiple comparison test or a Wilcoxon signed rank test as appropriate.||||0.0104
82520080|NCT02314624|164735253|SUPERIORITY|||||||0.75||||||Analyses were performed on each subscale individually. This is the p-value for the Stress subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used a Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.75
82384529|NCT01691560|164480241|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09||||0.8322|TWO_SIDED|95.0|-0.75|0.93|||ANCOVA|From ANCOVA with treatment and Schiff stratification as factors and baseline VRS as covariate.|Difference is first named treatment minus second named treatment that a negative difference implies the mean of second named treatment is larger than that of the first named treatment.|Null hypothesis considered change from baseline to be same for treatments in comparison.||0.93|-0.75|0.8322
82520081|NCT02314624|164735253|SUPERIORITY|||||||0.812||||||Analyses were performed on each subscale individually. This is the p-value for the Suicide subscale.|Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.812
82520082|NCT02314624|164735254|SUPERIORITY|||||||0.036|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.036
82520083|NCT02314624|164735255|SUPERIORITY|||||||0.664|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.664
82520084|NCT02314624|164735256|SUPERIORITY|||||||0.764|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.764
82523568|NCT02274857|164742765|SUPERIORITY|||||||0.2179|||||||Chi-squared|||||||0.2179
82384530|NCT00558467|164480283|SUPERIORITY_OR_OTHER||Least Squares mean difference|0.01||||0.996|TWO_SIDED|95.0|-4.95|4.97|||ANCOVA|||||4.97|-4.95|0.996
82384531|NCT00558467|164480284|SUPERIORITY_OR_OTHER||Least square means difference|-3.94|||||TWO_SIDED|95.0|-5.81|-2.08|||Repeated Measures|||||-2.08|-5.81|
82384532|NCT00558467|164480285|SUPERIORITY_OR_OTHER||Least square means difference|-5.3|||||TWO_SIDED|95.0|-7.21|-3.39|||Repeated measures|||||-3.39|-7.21|
82384533|NCT00558467|164480287|SUPERIORITY_OR_OTHER||Least square means difference|-5.97|||||TWO_SIDED|95.0|-7.88|-4.06|||Repeated measures|||||-4.06|-7.88|
82384534|NCT00558467|164480288|SUPERIORITY_OR_OTHER||Least Squares Mean differnce|-0.15||||0.978|TWO_SIDED|95.0|-11.05|10.75|||ANCOVA|||||10.75|-11.05|0.9780
82384535|NCT00558467|164480293|SUPERIORITY_OR_OTHER|||||||0.1052|||||||Cochran-Mantel-Haenszel|||||||0.1052
82384536|NCT00558467|164480294|SUPERIORITY_OR_OTHER|||||||0.2274|||||||Cochran-Mantel-Haenszel|||||||0.2274
82523569|NCT02274857|164742766|SUPERIORITY|||||||0.2782|||||||Chi-squared|||||||0.2782
82384537|NCT00558467|164480295|SUPERIORITY_OR_OTHER|||||||0.7691|||||||Cochran-Mantel-Haenszel|||||||0.7691
82384538|NCT00558467|164480296|SUPERIORITY_OR_OTHER|||||||0.0674|||||||Cochran-Mantel-Haenszel|||||||0.0674
82384539|NCT00558467|164480297|SUPERIORITY_OR_OTHER|||||||0.4944|||||||Cochran-Mantel-Haenszel|||||||0.4944
82384540|NCT00558467|164480298|SUPERIORITY_OR_OTHER|||||||0.162|||||||Cochran-Mantel-Haenszel|||||||0.162
82384541|NCT00558467|164480299|SUPERIORITY_OR_OTHER|||||||0.6375|||||||Cochran-Mantel-Haenszel|||||||0.6375
82384542|NCT00558467|164480300|SUPERIORITY_OR_OTHER|||||||0.6625|||||||Cochran-Mantel-Haenszel|||||||0.6625
82384543|NCT00558467|164480301|SUPERIORITY_OR_OTHER|||||||0.2664|||||||Cochran-Mantel-Haenszel|||||||0.2664
82384544|NCT00558467|164480302|SUPERIORITY_OR_OTHER|||||||0.7302|||||||Cochran-Mantel-Haenszel|||||||0.7302
82384545|NCT00558467|164480303|SUPERIORITY_OR_OTHER|||||||0.7723|||||||Cochran-Mantel-Haenszel|||||||0.7723
82384546|NCT00558467|164480304|SUPERIORITY_OR_OTHER|||||||0.4852|||||||Cochran-Mantel-Haenszel|||||||0.4852
82384547|NCT00558467|164480305|SUPERIORITY_OR_OTHER|||||||0.4607|||||||Cochran-Mantel-Haenszel|||||||0.4607
82384548|NCT00558467|164480306|SUPERIORITY_OR_OTHER|||||||0.7723|||||||Cochran-Mantel-Haenszel|||||||0.7723
82384549|NCT00558467|164480307|SUPERIORITY_OR_OTHER|||||||0.9389|||||||Cochran-Mantel-Haenszel|||||||0.9389
82384550|NCT00507455|164480309|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O for PdetQmax, then the treatment is non-inferior to the placebo in PdetQmax.|LS Mean Difference|-6.15|||||TWO_SIDED|95.0|-14.67|2.37|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||2.37|-14.67|
82523570|NCT02274857|164742767|SUPERIORITY|||||||0.7266|||||||Chi-squared|||||||0.7266
82523571|NCT02274857|164742768|SUPERIORITY|||||||0.3522|||||||Chi-squared|||||||0.3522
82523572|NCT03088267|164742778|SUPERIORITY||Mean Difference (Final Values)|-8.6||||0.0118|TWO_SIDED|95.0|-14.94|-2.17|||ANCOVA|||||-2.17|-14.94|0.0118
82520085|NCT02314624|164735257|SUPERIORITY|||||||0.44|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.440
82520086|NCT02314624|164735258|SUPERIORITY|||||||0.09|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.09
82523573|NCT03088267|164742779|SUPERIORITY||Mean Difference (Final Values)|18.8||||0.1128|TWO_SIDED|95.0|-4.94|42.5|||ANCOVA|||Comparison at 30 minutes post-dose||42.50|-4.94|0.1128
82572108|NCT03491215|164853515|SUPERIORITY||Odds Ratio (OR)|0.976|||||TWO_SIDED|95.0|0.858|1.109||||||||1.109|0.858|
82520087|NCT02314624|164735259|SUPERIORITY|||||||0.19|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.19
82520088|NCT02314624|164735260|SUPERIORITY|||||||0.15|||||||Chi-squared|GEE Type III chi squared distribution with 1 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.15
82384551|NCT00507455|164480309|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was less than 15 cmH2O for PdetQmax, then the treatment is non-inferior to the placebo in PdetQmax.|LS Mean Difference|-5.0|||||TWO_SIDED|95.0|-13.85|3.84|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||3.84|-13.85|
82384552|NCT00507455|164480311|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec for Qmax, then the treatment is non-inferior to the placebo in Qmax.|LS Mean Difference|1.67|||||TWO_SIDED|95.0|0.5|2.85|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||2.85|0.50|
82384553|NCT00507455|164480311|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 2-sided 95% confidence interval (CI) for the difference from placebo was greater than -3 mL/sec for Qmax, then the treatment is non-inferior to the placebo in Qmax.|LS Mean Difference|2.18|||||TWO_SIDED|95.0|0.98|3.37|||||Least squares (LS) means were analyzed using analysis of covariance (ANCOVA) with the site and treatment group as the factors and the baseline value as the covariate.|A hierarchical step-down procedure was used to control for multiplicity. The comparison between solifenacin 6 mg + tamsulosin 0.4 mg and placebo was conducted first. If non-inferiority was demonstrated, solifenacin 9 mg + tamsulosin 0.4 mg was then compared to placebo. If the first comparison did not demonstrate non-inferiority, no further testing was performed. This procedure maintained the overall type I error of 1-sided 2.5%.||3.37|0.98|
82384554|NCT03309943|164480327|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.019|||||||Mixed Models Analysis|Adjusted for FTCD. Carried out using SPSS Mixed Models with a repeated statement and compound symmetry covariance structure.||||||.019
82384555|NCT03309943|164480328|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.83|||||||Mixed Models Analysis|Adjusted for FTCD||||||.830
82520089|NCT02314624|164735261|SUPERIORITY||||||<|0.001|||||||Chi-squared|GEE Type III chi squared distribution with 1 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||<.001
82520090|NCT02314624|164735262|SUPERIORITY|||||||0.14|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.14
82523574|NCT03088267|164742779|SUPERIORITY||Mean Difference (Final Values)|60.3||||0.0003|TWO_SIDED|95.0|32.91|87.75|||ANCOVA|||Comparison at 3 hours postdose||87.75|32.91|0.0003
82572109|NCT03491215|164853515|SUPERIORITY||Odds Ratio (OR)|0.951|||||TWO_SIDED|95.0|0.735|1.232||||||||1.232|0.735|
82572110|NCT03491215|164853516|SUPERIORITY||Hazard Ratio (HR)|1.014|||||TWO_SIDED|95.0|0.921|1.115||||||||1.115|0.921|
82572111|NCT03491215|164853516|SUPERIORITY||Hazard Ratio (HR)|1.029|||||TWO_SIDED|95.0|0.841|1.258||||||||1.258|0.841|
82637612|NCT01535638|164989530|SUPERIORITY_OR_OTHER||Ratio (%)|107.6|STANDARD_DEVIATION|35.0|||TWO_SIDED|90.0|83.1|139.4|||||The estimate of the relative bioavailability (%) is adjusted for the period effects in the ANOVA. The standard deviation is actually the gCV. CIs are based on the residual error from ANOVA, considering only the data from the 2 compared treatments.|relative bioavailability comparison of Deleobuvir Final Formulation modified (test) and Deleobuvir Final Formulation (reference) in pairwise comparison. (test : reference)||139.4|83.1|
82637613|NCT00689728|164989558|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Fisher Exact|||||||0.178
82384556|NCT03309943|164480329|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.006|||||||Mixed Models Analysis|||||||.006
82572112|NCT03491215|164853517|SUPERIORITY||Hazard Ratio (HR)|1.063|||||TWO_SIDED|95.0|1.012|1.117||||||||1.117|1.012|
82572113|NCT03491215|164853517|SUPERIORITY||Hazard Ratio (HR)|1.132|||||TWO_SIDED|95.0|1.025|1.25||||||||1.25|1.025|
82637614|NCT00689728|164989558|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
82637615|NCT00689728|164989560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.873||||0.062||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 30 mg. vs. placebo in Physical Health Component scores.|ANCOVA|||||||0.062
82572114|NCT04599855|164853537|SUPERIORITY||least square (LS) means difference|-5.1|STANDARD_ERROR_OF_MEAN|1.42|<|0.001|TWO_SIDED|95.0|-7.91|-2.33|||Mixed model for repeated measures|||||-2.33|-7.91|<0.001
82572115|NCT04599855|164853537|SUPERIORITY||LS means difference|-6.8|STANDARD_ERROR_OF_MEAN|1.38|<|0.001|TWO_SIDED|95.0|-9.48|-4.07|||Mixed model for repeated measures|||||-4.07|-9.48|<0.001
82572116|NCT04599855|164853538|SUPERIORITY||LS means difference|-3.8|STANDARD_ERROR_OF_MEAN|1.29|=|0.004|TWO_SIDED|95.0|-6.29|-1.22|||Mixed model for repeated measures|||||-1.22|-6.29|=0.004
82572117|NCT04599855|164853538|SUPERIORITY||LS means difference|-3.4|STANDARD_ERROR_OF_MEAN|1.24|=|0.006|TWO_SIDED|95.0|-5.89|-1.0|||Mixed model for repeated measures|||||-1.00|-5.89|=0.006
82637616|NCT00689728|164989560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.427||||0.052||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 80 mg. vs. placebo in Physical Health Component scores.|ANCOVA|||||||0.052
82637617|NCT00689728|164989560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.655||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 30 mg. vs. placebo in Mental Health Component scores.|ANCOVA|||||||0.655
82637618|NCT00689728|164989560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.264||||0.173||95.0||||p-value represents change from baseline at 16 weeks for LY2127399 80 mg. vs. placebo in Mental Health Component scores.|ANCOVA|||||||0.173
82637619|NCT00689728|164989561|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||Fisher Exact|||||||0.281
82520091|NCT02314624|164735263|SUPERIORITY|||||||0.22|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.22
82572118|NCT04294667|164853539|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the Cochran-Mantel-Haenszel (CMH) risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|14.6||||0.011|TWO_SIDED|95.0|3.3|25.8|||Cochran-Mantel-Haenszel|||||25.8|3.3|0.0110
82572119|NCT04294667|164853540|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|7.9||||0.1776|TWO_SIDED|95.0|-3.6|19.4|||Cochran-Mantel-Haenszel|||||19.4|-3.6|0.1776
82637620|NCT00689728|164989561|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||Fisher Exact|||||||0.218
82637621|NCT00689728|164989562|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||||||0.500
82520092|NCT02314624|164735264|SUPERIORITY||||||<|0.001|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||<.001
82637622|NCT00689728|164989562|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||Fisher Exact|||||||0.444
82637623|NCT00689728|164989563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.337||95.0|||||ANCOVA|||||||0.337
82384557|NCT03309943|164480330|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.653|||||||Mixed Models Analysis|||||||.653
82384558|NCT03309943|164480331|SUPERIORITY|Mixed model analysis examining the effects of drug condition on response to smoking vs. non-smoking cues (collapsed across category - proximal, standard environment, personal environment). Data were analyzed using the underlying raw values versus collapsing them together.||||||0.012|||||||Mixed Models Analysis|Adjusted for FTCD||||||.012
82384559|NCT03309943|164480332|SUPERIORITY|Mixed model analysis examining the effects of drug condition on PPI indexes while viewing proximal smoking cues (which drove activation effects).||||||0.013|||||||Mixed Models Analysis|||||||.013
82384560|NCT03309943|164480333|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.024|||||||Repeated Measures ANCOVA|Adjusted for FTCD.||||||.024
82384561|NCT03309943|164480334|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.086|||||||Repeated Measures ANCOVA|Adjusted for FTCD score||||||.086
82384562|NCT03309943|164480335|SUPERIORITY|Repeated Measures ANCOVA analysis examining condition differences (adjusting for FTCD score)||||||0.14|||||||Repeated Measures ANCOVA|Adjusted for FTCD score||||||.140
82384563|NCT03309943|164480336|SUPERIORITY|Standard ANCOVA analysis examining condition differences (adjusting for baseline craving and FTCD score).||||||0.556|||||||ANCOVA|Adjusted for baseline craving and FTCD score||||||.556
82442607|NCT00740714|164593990|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49|STANDARD_ERROR_OF_MEAN|1.14||0.671|TWO_SIDED|97.5|-2.09|3.06||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Symbol Digit Modalities Test will be analyzed using ANCOVA in the same way as for the primary outcome variable.||3.06|-2.09|0.671
82442608|NCT00740714|164593990|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|1.16||0.671|TWO_SIDED|95.0|-3.34|1.87||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Symbol Digit Modalities Test will be analyzed using ANCOVA in the same way as for the primary outcome variable||1.87|-3.34|0.671
82384564|NCT03309943|164480337|SUPERIORITY|Standard ANCOVA analysis examining condition differences (adjusting for FTCD score).||||||0.463||||||Adjusted for FTCD score only.|ANCOVA|||||||.463
82384565|NCT04994691|164480376|SUPERIORITY||Risk Ratio (RR)|1.92||||0|TWO_SIDED|95.0|1.38|2.6|||Regression, Logistic||Standard Message vs. No Message|||2.60|1.38|0.000
82384566|NCT04994691|164480376|SUPERIORITY||Risk Ratio (RR)|1.52||||0.023|TWO_SIDED|95.0|1.06|2.13|||Regression, Logistic||Tailored Message vs. No Message|||2.13|1.06|0.023
82384567|NCT04994691|164480376|SUPERIORITY||Risk Ratio (RR)|1.26||||0.124|TWO_SIDED|95.0|0.94|1.66|||Regression, Logistic||Standard Message vs. Tailored Message|||1.66|0.94|0.124
82384568|NCT04994691|164480377|SUPERIORITY||Risk Ratio (RR)|1.97||||0.001|TWO_SIDED|95.0|1.32|2.84|||Regression, Logistic||Standard Message vs. No Message|||2.84|1.32|0.001
82384569|NCT04994691|164480377|SUPERIORITY||Risk Ratio (RR)|1.57||||0.04|TWO_SIDED|95.0|1.02|2.34|||Regression, Logistic||Tailored Message vs. No Message|||2.34|1.02|0.040
82384570|NCT04994691|164480377|SUPERIORITY||Risk Ratio (RR)|1.26||||0.202|TWO_SIDED|95.0|0.88|1.74|||Regression, Logistic||Standard Message vs. Tailored Message|||1.74|0.88|0.202
82384571|NCT01342770|164480413|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Signed Rank|||||||0.06
82384572|NCT03858998|164480428|SUPERIORITY||Risk Difference (RD)|0.004||||0.91|TWO_SIDED|95.0|-0.06|0.07|||Chi-squared||Direction = Linkage minus SOC|||0.07|-0.06|0.91
82384573|NCT04157348|164480470|SUPERIORITY||Difference in remission rates|0.0121||||0.8773|TWO_SIDED|95.0|-0.1411|0.1653|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||0.1653|-0.1411|0.8773
82442609|NCT00740714|164593991|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3445|TWO_SIDED|97.5|-0.04|0.13||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided, with a Bonferroni-adjusted significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assessed with scatter and residual plots and ITT.||Change from Baseline Visit to 16-month visit on Hoehn \& Yahr Score will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.13|-0.04|0.3445
82442610|NCT00740714|164593991|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.05||0.239||95.0|-0.04|0.14||The primary analysis compares each active treatment arm to the placebo arm. P-Values for efficacy outcomes are 2-sided. with a Bonferroni-adjustd significance level of .025 used to preserve the overall alpha level for the 2 comparisons at .05.|ANCOVA|COCF is used for missing data and those lost to follow up. Outliers and non-compliant patients are assess with scatter and residual plots and ITT.||Change from Baseline visit to 16-month visit on Hoehn \& Yahr will be analyzed using ANCOVA in the same way as for the primary outcome variable.||0.14|-0.04|.239
82523575|NCT05417620|164742780|OTHER||Incidence rate ratio|1.21||||0.707|TWO_SIDED|95.0|0.44|3.31||Threshold for significance: 0.05.|Regression, Poisson|||"This statistical analysis is done at the district level where counts of initiations in intervention districts are compared to standard of care districts. In the measure type we report rate = average counts of PrEP initiations per number of study months."||3.31|0.44|0.707
82637624|NCT00689728|164989563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.038||95.0|||||ANCOVA|||||||0.038
82637625|NCT00689728|164989564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.403||95.0|||||ANCOVA|||||||0.403
82637626|NCT00689728|164989564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.006||95.0|||||ANCOVA|||||||0.006
82637627|NCT00689728|164989565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2||||0.168||95.0|||||ANCOVA|||||||0.168
82637628|NCT00689728|164989565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3||||0.075||95.0|||||ANCOVA|||||||0.075
82637629|NCT00689728|164989566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3||||0.157||95.0|||||ANCOVA|||||||0.157
82637630|NCT00689728|164989566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.6||||0.025||95.0|||||ANCOVA|||||||0.025
82637631|NCT00689728|164989567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4||||0.11||95.0|||||ANCOVA|||||||0.110
82637632|NCT00689728|164989567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1||||0.147||95.0|||||ANCOVA|||||||0.147
82637633|NCT00689728|164989568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172||||0.969||95.0|||||ANCOVA|||||||0.969
82637634|NCT00689728|164989568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.452||95.0|||||ANCOVA|||||||0.452
82637635|NCT00689728|164989569|SUPERIORITY_OR_OTHER|||||||0.554||95.0|||||ANCOVA|||||||0.554
82637636|NCT00689728|164989569|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANCOVA|||||||0.920
82637637|NCT00689728|164989570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.912||||0.1||95.0|||||ANCOVA|||||||0.100
82637638|NCT00689728|164989570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.322||||0.005||95.0|||||ANCOVA|||||||0.005
82637639|NCT00689728|164989571|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||p-value represents comparison of LY2127399-30 mg dose versus placebo for the 3 levels of EULAR response (good response, moderate response, no response).|Fisher Exact|||||||0.022
82637640|NCT00689728|164989571|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value represents comparison of LY2127399-80 mg dose versus placebo for the 3 levels of EULAR response (good response, moderate response, no response).|Fisher Exact|||||||0.016
82637641|NCT00689728|164989572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.818||95.0|||||ANCOVA|||||||0.818
82637642|NCT00689728|164989572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7||||0.066||95.0|||||ANCOVA|||||||0.066
82637643|NCT00689728|164989573|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|||||||0.010
82637644|NCT00689728|164989573|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|||||||0.056
82637645|NCT00689728|164989574|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
82637646|NCT00689728|164989574|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||||||0.015
82384574|NCT04157348|164480471|SUPERIORITY||difference in remission rates|0.0544|||||TWO_SIDED|95.0|-0.0746|0.1834|||Regression, Logistic|marginal standardization method||||0.1834|-0.0746|
82637647|NCT00689728|164989575|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||p-value is for Immunoglobulin G change at week 16 (LOCF)|ANCOVA|||||||0.146
82637648|NCT00689728|164989575|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||p-value is for Immunoglobulin G change at week 16 (LOCF)|ANCOVA|||||||0.125
82637649|NCT00689728|164989575|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Immunoglobulin M change at week 16 (LOCF)|ANCOVA|||||||<0.001
82637650|NCT00689728|164989575|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Immunoglobulin M change at week 16 (LOCF)|ANCOVA|||||||0.005
82637651|NCT00689728|164989575|SUPERIORITY_OR_OTHER|||||||0.115||95.0||||p-value is for Immunoglobulin A change at week 16 (LOCF)|ANCOVA|||||||0.115
82637652|NCT00689728|164989575|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Immunoglobulin A change at week 16 (LOCF)|ANCOVA|||||||0.019
82637653|NCT00224952|164989588|OTHER|||||||0.004|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (4-Methylthio-2-hydroxyiminostilbene) as a function of age||||0.004
82637654|NCT00224952|164989588|OTHER|||||||0.032|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (4-Methylthio-2-hydroxyiminostilbene) as a function of age||||0.032
82637655|NCT00224952|164989588|OTHER|||||||0.018|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Fractional Recovery (MTHIS)) as a function of age||||0.018
82637656|NCT00224952|164989588|OTHER|||||||0.033|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery MTHIS)) as a function of age||||0.033
82637657|NCT00224952|164989588|OTHER|||||||0.0004|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (5-N-acetylcysteine-3-ene VPA isomers)) as a function of age||||0.0004
82637658|NCT00224952|164989588|OTHER|||||||0.0003|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (5-N-acetylcysteine-2-ene VPA) ) as a function of age||||0.0003
82637659|NCT00224952|164989588|OTHER||||||<|0.0001|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Total N-acetylcysteine conjugates) as a function of age||||<0.0001
82637660|NCT00224952|164989588|OTHER|||||||0.522|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery NAC-3-ene VPA isomers)) as a function of age||||0.522
82637661|NCT00224952|164989588|OTHER|||||||0.925|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery NAC-2-ene VPA) ) as a function of age||||0.925
82637662|NCT00224952|164989588|OTHER|||||||0.469|||||||Regression, Linear|||Least squares linear regression evaluating fractional analyte recovery (Log (Fractional Recovery Total NAC conjugates) as a function of age||||0.469
82637663|NCT02452320|164989628|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
82637664|NCT03382639|164989631|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.66||0.426|TWO_SIDED|95.0|-1.4|1.2|||Mixed Models Analysis|||||1.2|-1.4|0.426
82637665|NCT03382639|164989631|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.66||0.725|TWO_SIDED|95.0|-1.5|1.1|||Mixed Models Analysis|||||1.1|-1.5|0.725
82637666|NCT03382639|164989631|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.68||0.808|TWO_SIDED|95.0|-0.7|1.9|||Mixed Models Analysis|||||1.9|-0.7|0.808
82637667|NCT00148109|164989658|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||Estimate a 4 month progression-free survival rate for each group.||||<0.05
82384575|NCT04157348|164480472|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.72|2.4|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|main remission||2.40|0.72|
82384576|NCT04157348|164480472|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.55|2.29|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|supportive remission||2.29|0.55|
82384577|NCT04157348|164480473|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.74|2.44|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|sustained main remission||2.44|0.74|
82520093|NCT02314624|164735265|SUPERIORITY|||||||0.001|||||||Chi-squared|GEE Type III chi squared distribution with 3 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.001
82520094|NCT02314624|164735266|SUPERIORITY|||||||0.99|||||||Chi-squared|GEE Type III chi squared distribution with 2 degrees of freedom was used to examine between-condition change over time from baseline.||We used the Generalized Linear Model to examine the between-condition change over time on study outcomes. We computed the design effects due to this nested design to determine the extent to which the intraclass correlation due to clustering and size of the cluster affected the analyses. Design effects ranged up to 1.8. Because all were under 2.0, we did not adjust analyses to account for clustering effects.||||.99
82520095|NCT03912259|164735267|SUPERIORITY||Difference in Percentage|22.0|||<|0.0001|TWO_SIDED|95.0|11.37|32.65||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|P-value was derived by the Cochran-Mantel-Haenszel test stratified by baseline disease severity (IGA=3 vs. IGA=4).||||32.65|11.37|<.0001
82520096|NCT04162769|164735314|SUPERIORITY||Least square mean difference|-10.28|STANDARD_ERROR_OF_MEAN|6.605|=|0.1198|TWO_SIDED|95.0|-23.228|2.674|||ANCOVA|||Week 12||2.674|-23.228|=0.1198
82384578|NCT04157348|164480473|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.64|2.34|||Proportional Odds Model||The odds ratio (Benralizumab vs. Mepolizumab) and its 95% CI are estimated with a proportional odds model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region. A \>1 odds ratio means Benralizumab is favored.|sustained supportive remission||2.34|0.64|
82520097|NCT04162769|164735314|SUPERIORITY||Least square mean difference|-8.77|STANDARD_ERROR_OF_MEAN|6.515|=|0.1783|TWO_SIDED|95.0|-21.544|4.002|||ANCOVA|||Week 12||4.002|-21.544|=0.1783
82520098|NCT04162769|164735315|SUPERIORITY||Response Rate Difference|-0.2|STANDARD_ERROR_OF_MEAN|9.34|=|0.9826|TWO_SIDED|95.0|-18.52|18.11|||Cochran-Mantel-Haenszel|||Week 12||18.11|-18.52|=0.9826
82520099|NCT04162769|164735315|SUPERIORITY||Response Rate Difference|13.0|STANDARD_ERROR_OF_MEAN|9.78|=|0.1891|TWO_SIDED|95.0|-6.12|32.21|||Cochran-Mantel-Haenszel|||Week 12||32.21|-6.12|=0.1891
82520100|NCT04162769|164735316|SUPERIORITY||Response Rate Difference|2.2|STANDARD_ERROR_OF_MEAN|7.38|=|0.7694|TWO_SIDED|95.0|-12.29|16.64|||Cochran-Mantel-Haenszel|||Week 12||16.64|-12.29|=0.7694
82520101|NCT04162769|164735316|SUPERIORITY||Response Rate Difference|17.4|STANDARD_ERROR_OF_MEAN|8.47|=|0.045|TWO_SIDED|95.0|0.79|34.0|||Cochran-Mantel-Haenszel|||Week 12||34.00|0.79|=0.0450
82384579|NCT04157348|164480474|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.53|1.82|||Regression, Cox||The HR (Benralizumab vs. Mepolizumab) and 95% CI are estimated using a Cox regression model with Efron method to control for ties. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|relapse||1.82|0.53|
82384580|NCT04157348|164480475|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.56|1.9|||negative binomial model|marginal standardization method|The rate ratio (Benralizumab/Mepolizumab) and the corresponding 95% CI are calculated using a negative binomial model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|relapse||1.90|0.56|
82520102|NCT04162769|164735317|SUPERIORITY||Least square mean difference|-14.03|STANDARD_ERROR_OF_MEAN|7.295|=|0.0558|TWO_SIDED|95.0|-28.406|0.352|||Mixed Models Analysis|||Week 12||0.352|-28.406|=0.0558
82520103|NCT04162769|164735317|SUPERIORITY||Least square mean difference|-10.67|STANDARD_ERROR_OF_MEAN|7.134|=|0.1363|TWO_SIDED|95.0|-24.737|3.397|||Mixed Models Analysis|||Week 12||3.397|-24.737|=0.1363
82520104|NCT04162769|164735318|SUPERIORITY||Response Rate Difference|4.2|STANDARD_ERROR_OF_MEAN|11.33|=|0.7143|TWO_SIDED|95.0|-18.0|26.41|||Cochran-Mantel-Haenszel|||Week 12||26.41|-18.00|=0.7143
82520105|NCT04162769|164735318|SUPERIORITY||Response Rate Difference|5.1|STANDARD_ERROR_OF_MEAN|11.09|=|0.6488|TWO_SIDED|95.0|-16.62|26.87|||Cochran-Mantel-Haenszel|||Week 12||26.87|-16.62|=0.6488
82520106|NCT04162769|164735319|SUPERIORITY||Response Rate Difference|8.8|STANDARD_ERROR_OF_MEAN|10.22|=|0.3981|TWO_SIDED|95.0|-11.27|28.8|||Cochran-Mantel-Haenszel|||Week 12||28.80|-11.27|=0.3981
82520107|NCT04162769|164735319|SUPERIORITY||Response Rate Difference|15.2|STANDARD_ERROR_OF_MEAN|10.17|=|0.141|TWO_SIDED|95.0|-4.72|35.15|||Cochran-Mantel-Haenszel|||Week 12||35.15|-4.72|=0.1410
82520108|NCT04162769|164735320|SUPERIORITY||Response Rate Difference|8.4|STANDARD_ERROR_OF_MEAN|7.65|=|0.269|TWO_SIDED|95.0|-6.61|23.38|||Cochran-Mantel-Haenszel|||Week 12||23.38|-6.61|=0.2690
82520109|NCT04162769|164735320|SUPERIORITY||Response Rate Difference|4.3|STANDARD_ERROR_OF_MEAN|7.09|=|0.5428|TWO_SIDED|95.0|-9.56|18.25|||Cochran-Mantel-Haenszel|||Week 12||18.25|-9.56|=0.5428
82520110|NCT04162769|164735321|SUPERIORITY||Least square mean difference|-2.81|STANDARD_ERROR_OF_MEAN|7.721|=|0.7163|TWO_SIDED|95.0|-18.089|12.466|||Mixed Models Analysis|||Week 12||12.466|-18.089|=0.7163
82520111|NCT04162769|164735321|SUPERIORITY||Least square mean difference|-13.24|STANDARD_ERROR_OF_MEAN|7.602|=|0.084|TWO_SIDED|95.0|-28.284|1.805|||Mixed Models Analysis|||Week 12||1.805|-28.284|=0.0840
82520112|NCT00713648|164735331|SUPERIORITY_OR_OTHER||Mean (Lambda)|0.048||||||95.0|0.0094|0.2501|||Poisson model (log-link)|The estimated rate was adjusted for age and overdispersion which was estimated by Pearson's chi-square statistic divided by its degrees of freedom.|Mean (Lambda) refer to the estimate of the annualised bleeding rate|||0.2501|0.0094|
82384581|NCT04157348|164480477|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.75|2.54|||proportional odds model||The odds ratio (Benralizumab 30 mg vs. Mepolizumab 300 mg) and 95% CI are estimated using a proportional odds model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||2.54|0.75|
82384582|NCT04157348|164480478|SUPERIORITY||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|0.96|3.22|||proportional odds model||The odds ratio (Benralizumab 30 mg vs. Mepolizumab 300 mg) for higher % reduction and 95% CI are estimated using a proportional odds model. The covariates in the model include treatment arm, baseline dose of prednisone, baseline BVAS and region.|||3.22|0.96|
82520113|NCT00464815|164735339|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix Group minus Mencevax ACWY Group) in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|7.87|||||TWO_SIDED|95.0|1.63|14.87||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenA vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup A (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||14.87|1.63|
82572120|NCT04294667|164853541|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|10.8||||0.0518|TWO_SIDED|95.0|-0.1|21.7|||Cochran-Mantel-Haenszel|||||21.7|-0.1|0.0518
82384583|NCT04157348|164480479|SUPERIORITY||difference in proportions|0.1079|||||TWO_SIDED|95.0|-0.0225|0.2383|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|\>=50% reduction||0.2383|-0.0225|
82442611|NCT00740714|164593992|SUPERIORITY_OR_OTHER||Slope|0.536|STANDARD_ERROR_OF_MEAN|0.282||0.0577|TWO_SIDED|95.0|-0.018|1.091|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final visit to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for all treatment groups.||1.091|-0.018|0.0577
82384584|NCT04157348|164480479|SUPERIORITY||difference in proportions|0.1569|||||TWO_SIDED|95.0|0.0067|0.3017|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|100% reduction||0.3017|0.0067|
82442612|NCT00740714|164593992|SUPERIORITY_OR_OTHER||Slope|0.245|STANDARD_ERROR_OF_MEAN|0.451||0.5889|TWO_SIDED|95.0|-0.647|1.136|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the treatment group of Coenzyme Q10 2400 mg/day.||1.136|-0.647|0.5889
82520114|NCT00464815|164735339|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate Difference|0.67|||||TWO_SIDED|95.0|-1.65|4.18||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenC vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup C (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||4.18|-1.65|
82384585|NCT04157348|164480479|SUPERIORITY||difference in proportions|-0.0068|||||TWO_SIDED|95.0|-0.1555|0.1418|||Regression, Logistic|marginal standardization method|The difference of proportions (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|OCS dose \<=4 mg/day||0.1418|-0.1555|
82520115|NCT00464815|164735339|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|8.9|||||TWO_SIDED|95.0|4.78|14.14||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenW-135 vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup W-135 (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||14.14|4.78|
82520116|NCT00464815|164735339|NON_INFERIORITY|Criterion for non-inferiority: the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference \[Nimenrix Group minus Mencevax ACWY Group\] in the percentage of subjects with bactericidal vaccine response was greater than or equal to (≥) the pre-defined clinical limit of -10%.|Rate difference|15.22|||||TWO_SIDED|95.0|9.89|21.37||||||To demonstrate the non-inferiority of Nimenrix vaccine versus Mencevax ACWY vaccine in term of rSBA-MenY vaccine response, the standardized asymptotic 95% CI for the difference in rSBA vaccine response rate for the meningococcal serogroup Y (Nimenrix Group rate minus Mencevax ACWY Group rate) one month after vaccination was computed.||21.37|9.89|
82384586|NCT04157348|164480480|SUPERIORITY||difference in response rates|0.046|||||TWO_SIDED|95.0|-0.0422|0.1341|||Regression, Logistic|marginal standardization method|The difference of response rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|any clinical response-definition 1||0.1341|-0.0422|
82384587|NCT04157348|164480480|SUPERIORITY||difference in response rates|0.079|||||TWO_SIDED|95.0|-0.0732|0.2312|||Regression, Logistic|marginal standardization method|The difference of response rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|complete response-definition 1||0.2312|-0.0732|
82384588|NCT04157348|164480481|SUPERIORITY||difference in remission rates|0.0554|||||TWO_SIDED|95.0|-0.093|0.2037|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|main remission||0.2037|-0.0930|
82384589|NCT04157348|164480481|SUPERIORITY||difference in remission rates|0.0467|||||TWO_SIDED|95.0|-0.1021|0.1956|||Regression, Logistic|marginal standardization method|The difference of remission rates (Benralizumab - Mepolizumab) and 95% CI are estimated using marginal standardization method in a logistic regression model. The covariates include treatment arm, baseline dose of prednisone, baseline BVAS and region.|supportive remission||0.1956|-0.1021|
82442613|NCT00740714|164593992|SUPERIORITY_OR_OTHER||Slope|0.631|STANDARD_ERROR_OF_MEAN|0.608||0.3006|TWO_SIDED|95.0|-0.569|1.831|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the treatment group of Coenzyme Q10 1200 mg/day.||1.831|-0.569|0.3006
82637668|NCT01098266|164989661|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.58|TWO_SIDED|95.0|0.75|1.18||The log-rank test (unstratified) was used to compare the two treatment arms. In addition, a stratified version of the log-rank test was performed with the stratification factors used for randomization.|Log Rank|Cox regression analyses (unstratified and stratified) were performed to assess the influence of baseline covariates in an exploratory manner.||Study with one control per experimental patient, an accrual interval of 24 months, and an additional FU after the accrual interval of 12 months.If the true HR of experimental relative to control patients was 0.726, then 195 experimental patients and 195 control patients were required to be able to reject the null hypothesis that the experimental and control survival curves were equal with probability (power)0.80 Type I error probability associated with this test of this null hypothesis was 0.05||1.18|0.75|0.58
82637669|NCT01098266|164989662|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.65|TWO_SIDED|95.0|0.78|1.17|||Log Rank|Cox regression analyses (unstratified and stratified) was performed to assess the influence of baseline covariates in an exploratory manner.||The log-rank test (unstratified and stratified) was used at an alpha level of 5% to test for differences in PFS between the two treatment arms. Kaplan-Meier curves and estimates were provided.||1.17|0.78|0.65
82442614|NCT00740714|164593992|SUPERIORITY_OR_OTHER||Slope|2.126|STANDARD_ERROR_OF_MEAN|1.269||0.096|TWO_SIDED|95.0|-0.382|4.633|||ANOVA|The ANOVA is using UPDRS worsening as outcome, Change of CoQ10 level as predictor, adjusting for site and baseline UPDRS score.||The analysis will be using the actual change of plasma levels of CoQ10(from final to baseline) as predictors of UPDRS worsening. Correlation of UPDRS worsening with plasma levels of CoQ10 will be calculated for the placebo group.||4.633|-0.382|0.096
82384590|NCT00812981|164480537|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio of HI antibodies against the A/Indonesia/05/2005 strain between the two groups (1562902A CP Group over 1562902A NP Group), being below (\<) 2.0.|Adjusted GMT ratio|0.84|||||TWO_SIDED|95.0|0.71|0.99|||ANCOVA|||Difference in adjusted GMT ratio for HI antibodies: To demonstrate that the NP 1562902A vaccine was non-inferior to the CP 1562902A vaccine, with respect to HI antibody GMT against the A/Indonesia/05/2005 strain, 42 days following vaccination.||0.99|0.71|
82384591|NCT02677922|164480576|SUPERIORITY||Odds Ratio (OR)|4.86||||0.0003|TWO_SIDED|95.0|1.99|11.85|||Chi-squared|||||11.85|1.99|0.0003
82384592|NCT02677922|164480579|SUPERIORITY||Cox Proportional Hazard|0.59||||0.1083|TWO_SIDED|95.0|0.3|1.13|||Log Rank|||||1.13|0.30|0.1083
82520117|NCT00464815|164735340|NON_INFERIORITY|Criterion for non-inferiority: the upper limit (UL) of the 2-sided standardized asymptotic 95% CI for the ratio of the percentages of subjects with any Grade 3 general symptom was lower than or equal to (≤) the pre-defined clinical limit of 3.0.|Risk Ratio (RR)|4.02||||0.1456|TWO_SIDED|95.0|0.68|24.6|||Chi-squared|||To demonstrate the non-inferiority of Nimenrix™ vaccine versus Mencevax™ vaccine in terms of incidence of any Grade 3 general (solicited and unsolicited) symptom, the 2-sided standardised asymptotic 95% CI for the ratio between Nimenrix and Mencevax groups (Nimenrix over Mencevax) in the percentage of subjects with any grade 3 general symptom within 4 days after vaccination was computed for the safety analysis in study MenACWY-TT-036.||24.6|0.68|0.1456
82384593|NCT02677922|164480581|SUPERIORITY||Odds Ratio (OR)|8.65|||<|0.001|TWO_SIDED|95.0|2.74|27.31|||Chi-squared|||||27.31|2.74|<0.001
82384594|NCT02677922|164480582|SUPERIORITY||Odds Ratio (OR)|1.77||||0.1943|TWO_SIDED|95.0|0.74|4.2|||Chi-squared|||||4.20|0.74|0.1943
82384595|NCT02677922|164480585|SUPERIORITY||Cox Proportional Hazard|0.99||||0.972|TWO_SIDED|95.0|0.52|1.87|||Log Rank|Unstratified log-rank test|Cox proportional hazards regression model|||1.87|0.52|0.9720
82384596|NCT02677922|164480586|OTHER|Confidence interval of difference|Difference|2.6|||||TWO_SIDED|95.0|-17.3|22.5|||||The CI for the difference was derived using Greenwood's variance estimate.|||22.5|-17.3|
82520118|NCT02071173|164735380|SUPERIORITY|Single group test comparison to a performance goal of 87%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|98.5|||||ONE_SIDED|97.5|97.0|||||||Ho: The Implant through 6-month lead-related complication-free rate ≤ 87%, Ha: The Implant through 6-month lead-related complication-free rate \> 87%|||97.0|
82637670|NCT01098266|164989663|SUPERIORITY||Odds Ratio (OR)|1.13||||0.62|TWO_SIDED|95.0|0.76|1.68|||Fisher Exact||Logistic regression analyses were performed to assess the influence of baseline covariates in an exploratory manner|Difference in DCR between the two treatment arms were tested using a chi-squared test with 95% confidence intervals calculated in each treatment arm.||1.68|0.76|0.62
82384597|NCT03331796|164480611|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|3.1||0.63|TWO_SIDED|95.0|-4.8|7.9|||Regression, Linear|Adjusted for baseline||||7.9|-4.8|0.63
82384598|NCT03331796|164480611|SUPERIORITY||Mean Difference (Final Values)|6.9|STANDARD_ERROR_OF_MEAN|3.3||0.0476|TWO_SIDED|95.0|0.1|13.7|||Regression, Linear|||||13.7|0.1|0.0476
82384599|NCT03331796|164480612|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|4.1||0.45|TWO_SIDED|95.0|-11.4|5.2|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.2|-11.4|0.45
82384600|NCT03331796|164480612|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|4.4||0.21|TWO_SIDED|95.0|-3.3|14.8|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||14.8|-3.3|0.21
82384601|NCT03331796|164480613|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.38||0.29|TWO_SIDED|95.0|-0.36|1.19|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.19|-0.36|0.29
82384602|NCT03331796|164480613|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.4||0.51|TWO_SIDED|95.0|-0.55|1.08|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.08|-0.55|0.51
82384603|NCT03331796|164480614|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.33|TWO_SIDED|95.0|-1.0|3.0|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.0|-1.0|.33
82384604|NCT03331796|164480614|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.0||0.0038|TWO_SIDED|95.0|1.1|5.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.3|1.1|0.0038
82384605|NCT03331796|164480615|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.78||0.58|TWO_SIDED|95.0|-1.1|2.0|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.0|-1.1|0.58
82384606|NCT03331796|164480615|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.86||0.59|TWO_SIDED|95.0|-2.2|1.3|||Regression, Linear|Adjusted for baseline||||1.3|-2.2|0.59
82384607|NCT03331796|164480616|SUPERIORITY||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|5.2||0.3|TWO_SIDED|95.0|-5.2|16.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||16.1|-5.2|0.30
82384608|NCT03331796|164480616|SUPERIORITY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|4.9||0.34|TWO_SIDED|95.0|-14.9|5.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||5.3|-14.9|0.34
82384609|NCT03331796|164480617|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|10.6||0.996|TWO_SIDED|95.0|-22.0|22.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||22.1|-22.0|0.996
82384610|NCT03331796|164480617|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|10.8||0.87|TWO_SIDED|95.0|-20.6|24.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||24.3|-20.6|0.87
82384611|NCT03331796|164480618|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|1.06||0.97|TWO_SIDED|95.0|-2.14|2.22|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.22|-2.14|0.97
82384612|NCT03331796|164480618|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|1.11||0.91|TWO_SIDED|95.0|-2.15|2.41|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.41|-2.15|0.91
82384613|NCT03331796|164480619|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_DEVIATION|1.0||0.84|TWO_SIDED|95.0|-2.3|1.9|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.9|-2.3|0.84
82384614|NCT03331796|164480619|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|1.0||0.8|TWO_SIDED|95.0|-1.9|2.4|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.4|-1.9|0.80
82384615|NCT03331796|164480620|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|2.0||0.48|TWO_SIDED|95.0|-5.5|2.6|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.6|-5.5|0.48
82384616|NCT03331796|164480620|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|2.0||0.18|TWO_SIDED|95.0|-6.8|1.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.3|-6.8|0.18
82520119|NCT02071173|164735381|SUPERIORITY|Single group test comparison to a performance goal of 85%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|96.5|||||ONE_SIDED|95.0|93.8|||||||Ho: The Implant through 6-month lead-related complication-free rate ≤ 85%, Ha: The Implant through 6-month lead-related complication-free rate \> 85%|||93.8|
82384617|NCT03331796|164480621|SUPERIORITY||Median Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.5||0.075|TWO_SIDED|95.0|-5.7|0.3|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.3|-5.7|0.075
82384618|NCT03331796|164480621|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|1.6||0.195|TWO_SIDED|95.0|-5.4|1.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||1.1|-5.4|0.195
82384619|NCT03331796|164480622|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.28|TWO_SIDED|95.0|-1.0|3.4|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.4|-1.0|0.28
82520120|NCT02071173|164735382|SUPERIORITY|Single group test comparison to a performance goal of 75%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|94.0|||||ONE_SIDED|97.5|92.0|||||||Ho: Percentage of PCT less than or equal to 2.5V ≤ 75%, Ha: Percentage of PCT less than or equal to 2.5V \> 75%|||92.0|
82384620|NCT03331796|164480622|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.1||0.21|TWO_SIDED|95.0|-0.8|3.6|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||3.6|-0.8|0.21
82384621|NCT03331796|164480623|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.66|TWO_SIDED|95.0|-3.2|2.1|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||2.1|-3.2|0.66
82520121|NCT02071173|164735383|SUPERIORITY|Single group test comparison to a performance goal of 75%. Lower one-sided 97.5% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|91.1|||||ONE_SIDED|97.5|88.2|||||||Ho: Percentage of PCT less than or equal to 2.5V ≤ 75%, Ha: Percentage of PCT less than or equal to 2.5V \> 75%|||88.2|
82384622|NCT03331796|164480623|SUPERIORITY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.3||0.11|TWO_SIDED|95.0|-4.9|0.5|||Regression, Linear|||a priori threshold for statistical significance = .05||0.5|-4.9|0.11
82384623|NCT03331796|164480624|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.11||0.59|TWO_SIDED|95.0|-0.29|0.17|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.17|-0.29|0.59
82384624|NCT03331796|164480624|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.64|TWO_SIDED|95.0|-0.17|0.28|||Regression, Linear|Adjusted for baseline||a priori threshold for statistical significance = .05||0.28|-0.17|0.64
82520122|NCT02071173|164735384|SUPERIORITY|Single group test comparison to a performance goal of 93%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|98.2|||||ONE_SIDED|95.0|97.5|||||||Ho: The Implant through 3-month lead-related complication-free rate ≤ 93%, Ha: The Implant through 3-month lead-related complication-free rate \> 93%|||97.5|
82520123|NCT02071173|164735385|SUPERIORITY|Single group test comparison to a performance goal of 94%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit exceeded performance goal, null hypothesis was rejected.|Percent|99.3|||||ONE_SIDED|95.0|98.8|||||||Ho: The 3- through 24-month lead-related complication-free rate ≤ 94%, Ha: The 3- through 24-month lead-related complication-free rate \> 94%|||98.8|
82520124|NCT02071173|164735386|SUPERIORITY|Single group test comparison to a performance goal of 1.5 Volts. Upper one-sided 95% confidence limit was compared to the performance goal. If upper confidence limit was lower than the performance goal, null hypothesis was rejected.|Mean|0.56|||||ONE_SIDED|95.0||0.58||||||Ho: The 3-month mean PCT ≥ 1.5 Volts, Ha: The 3-month mean PCT \< 1.5 Volts||0.58||
82384625|NCT03331796|164480627|SUPERIORITY|||||||0.768||||||a priori threshold for statistical significance = .05|ANOVA|||||||0.768
82520125|NCT02071173|164735387|SUPERIORITY|Single group test comparison to a performance goal of 3 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|17.4|||||ONE_SIDED|95.0|16.7|||||||Ho: The 3-month mean sensed amplitude ≤ 3 mV, Ha: The 3-month mean sensed amplitude \> 3 mV|||16.7|
82384626|NCT02268916|164480668|SUPERIORITY|The study was powered based on a two-sample t-test of the primary outcomes, changes in physical activity or social participant over 6 months. Based on previous literature, in order to detect an effect size of 0.28 with at least 70% power, we aimed to recruit at least 35 participants in each treatment group.|Mean Difference (Final Values)|0.39|||=|0.18|TWO_SIDED|95.0|-0.18|0.97|||Mixed Models Analysis|The outcome was adjusted for time of visit, visit x intervention group, age, gender, body mass index, insulin, depression, and time-up-and-go score.||We hypothesized that at the end of 6 months, the intervention group will have increased physical activity as measured by CHAMPS compared to the control group.||0.97|-0.18|=0.18
82384627|NCT02268916|164480669|SUPERIORITY||Slope|-2.2||||0.19|TWO_SIDED|95.0|-5.45|1.06|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by satisfaction with participation in social roles.||1.06|-5.45|0.19
82384628|NCT02268916|164480669|SUPERIORITY||Slope|-1.02||||0.57|TWO_SIDED|95.0|-4.53|2.48|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by satisfaction with participation in discretionary social activities.||2.48|-4.53|0.57
82384629|NCT02268916|164480669|SUPERIORITY||Slope|-2.44||||0.12|TWO_SIDED|95.0|-5.52|0.63|||Mixed Models Analysis|||We hypothesized that at the end of 6 months, intervention group will have improved participation as measured by the survey on the ability to participate in social roles and activities.||0.63|-5.52|0.12
82384630|NCT02268916|164480670|SUPERIORITY||Slope|-1.99|||<|0.05|TWO_SIDED|95.0|-3.97|-0.02|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in timed up and go test.||-0.02|-3.97|<0.05
82384631|NCT02268916|164480671|SUPERIORITY||Slope|0.11||||0.02|TWO_SIDED|95.0|0.02|0.2|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in gait speed.||0.20|0.02|0.02
82520126|NCT02071173|164735388|SUPERIORITY|Single group test comparison to a performance goal of 3 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|16.1|||||ONE_SIDED|97.5|15.1|||||||Ho: The 3-month mean sensed amplitude ≤ 3 mV, Ha: The 3-month mean sensed amplitude \> 3 mV|||15.1|
82520127|NCT02071173|164735389|SUPERIORITY|Single group test comparison to a performance goal of 300 ohms. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|776.0|||||ONE_SIDED|97.5|753.0|||||||Ho: The 3-month mean pacing impedance ≤ 300 ohms, Ha: The 3-month mean pacing impedance \> 300 ohms|||753|
82384632|NCT02268916|164480672|SUPERIORITY||Slope|40.04||||0.02|TWO_SIDED|95.0|7.9|72.17|||Mixed Models Analysis|||We hypothesized that at 6-month follow-up, the intervention group will have better performance than the control group in six-minute walk test.||72.17|7.90|0.02
82384633|NCT04205643|164480673|SUPERIORITY||Difference estimated using CMH weights|21.1|||<|0.0001|TWO_SIDED|95.0|11.8|29.3||If the primary endpoint is significant, a fixed sequence procedure was employed to control the overall type I error rate of the key secondary endpoints.|Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.|The 95% stratified Newcombe CI with CMH weights|||29.3|11.8|<0.0001
82384634|NCT04830969|164480702|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.16
82384635|NCT04830969|164480703|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.08
82384636|NCT04830969|164480704|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.14
82384637|NCT04830969|164480704|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.8
82384638|NCT04830969|164480705|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||<0.01
82384639|NCT04830969|164480705|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.09
82384640|NCT04830969|164480706|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||< 0.01
82520128|NCT02071173|164735390|SUPERIORITY|Single group test comparison to a performance goal of 300 ohms. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|805.0|||||ONE_SIDED|97.5|763.0|||||||Ho: The 3-month mean pacing impedance ≤ 300 ohms, Ha: The 3-month mean pacing impedance \> 300 ohms|||763|
82442615|NCT00740714|164593993|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|STANDARD_ERROR_OF_MEAN|0.0199|<|0.05|TWO_SIDED|95.0|0.57|2.8|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||2.80|0.57|<0.05
82520129|NCT02071173|164735391|SUPERIORITY|Single group test comparison to a performance goal of 4.5 seconds. Upper one-sided 95% confidence limit was compared to the performance goal. If upper confidence limit was lower than the performance goal, null hypothesis was rejected.|Mean|3.14|||||ONE_SIDED|95.0||3.2||||||Ho: The mean detection time ≥ 4.5 seconds, Ha: The mean detection time \< 4.5 seconds||3.20||
82520130|NCT02071173|164735392|SUPERIORITY|Single group test comparison to a performance goal of 5 mV. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Mean|18.3|||||ONE_SIDED|95.0|6.2|||||||Ho: The 3-month mean sensed amplitude ≤ 5 mV, Ha: The 3-month mean sensed amplitude \> 5 mV|||6.2|
82520131|NCT02071173|164735393|OTHER|Two one-sided tests (TOST) were performed.|Mean|468.0|||||TWO_SIDED|90.0|463.0|472.0||||||Ho: Pacing impedance ≤ 300 Ω or pacing impedance ≥ 1200 Ω, Ha: 300 Ω \< Pacing impedance \< 1200 Ω||472|463|
82520132|NCT02071173|164735394|OTHER|Two one-sided tests (TOST) were performed.|Mean|702.0|||||TWO_SIDED|90.0|659.0|744.0||||||Ho: Pacing impedance ≤ 300 Ω or pacing impedance ≥ 1200 Ω, Ha: 300 Ω \< Pacing impedance \< 1200 Ω||744|659|
82520133|NCT02071173|164735395|SUPERIORITY|Single group test comparison to a performance goal of 93%. Lower one-sided 95% confidence limit was compared to the performance goal. If lower confidence limit was greater than the performance goal, null hypothesis was rejected.|Percent|99.5|||||ONE_SIDED|95.0|98.4|||||||Ho: Percent of successful conversion ≤ 93%, Ha: Percent of successful conversion \> 93%|||98.4|
82520134|NCT00386880|164735396|SUPERIORITY_OR_OTHER|||||||0.59||||||Fisher's exact test.|Fisher Exact|||During the acute migraine attack, 90% of allodynic subjects and 75% of subjects without allodynia had phonophobia.||||0.59
82520135|NCT05098054|164735398|OTHER||Geometric Least-squares mean(GLSM) Ratio|214.93|||||TWO_SIDED|90.0|103.47|446.45|||||"Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||446.45|103.47|
82442616|NCT00740714|164593994|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.62|3.57|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subject experiencing a particular adverse experience||3.57|0.62|<0.05
82520136|NCT05098054|164735398|OTHER||GLSM Ratio|145.42|||||TWO_SIDED|90.0|77.18|273.98|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||273.98|77.18|
82520137|NCT05098054|164735399|OTHER||GLSM Ratio|299.21|||||TWO_SIDED|90.0|111.75|801.17|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||801.17|111.75|
82572121|NCT04294667|164853542|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the CMH risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|11.5||||0.0257|TWO_SIDED|95.0|1.4|21.6|||Cochran-Mantel-Haenszel|||||21.6|1.4|0.0257
82572122|NCT04294667|164853543|SUPERIORITY|The difference in proportion responding between SOC+DZP 24mg/kg and SOC+PBO was estimated and tested using the Cochran-Mantel-Haenszel (CMH) risk difference estimate controlling for the randomization stratification factors, Pooled Region (North America vs Western Europe/Asia-Pacific vs Latin America/Eastern Europe), Screening disease activity (chronic active vs acute flaring) and Screening SLEDAI score (\<10 vs \>=10).|Difference in Proportions (%)|7.2||||0.1042|TWO_SIDED|95.0|-1.5|16.0|||Cochran-Mantel-Haenszel|||||16.0|-1.5|0.1042
82637671|NCT01098266|164989666|OTHER|Two-sided log-rank test was used to compare time to symptomatic progression between treatment arms. Median and 95% confidence limits for the time to symptomatic progression were estimated using Kaplan-Meier survival methodology. Estimates of the treatment effect were expressed as hazard ratio including 95% confidence intervals.|Hazard Ratio (HR)|0.92||||0.5806|TWO_SIDED|95.0|0.68|1.26|||Log Rank|||QoL assessment was performed by using a questionnaire according to LCSS, which consists of nine 100-mm visual analog scales, with scores reported from 0 to 100(the best score). The LCSS subscore is the average symptom burden index computed as the mean score for all 6 major symptoms. Symptomatic progression was defined as a worsening in the average symptom burden index by 25%.||1.26|0.68|0.5806
82520138|NCT05098054|164735399|OTHER||GLSM Ratio|130.25|||||TWO_SIDED|90.0|77.02|220.26|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||220.26|77.02|
82520139|NCT05098054|164735400|OTHER||GLSM Ratio|316.27|||||TWO_SIDED|90.0|117.68|849.97|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Moderate HI/Normal Hepatic Function (Matched to Moderate HI)"|||849.97|117.68|
82520140|NCT05098054|164735400|OTHER||GLSM Ratio|135.26|||||TWO_SIDED|90.0|91.22|200.57|||||"Geometric LSMs were calculated by exponentiating the LSMs from the mixed effects model.~Geometric LSM Ratio (GMR) = 100\*(Mild HI/Normal Hepatic Function (Matched to Mild HI)"|||200.57|91.22|
82520141|NCT01618162|164735402|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.02|||<|0.001|TWO_SIDED|95.0|-1.18|-0.87|||ANCOVA|||Superiority of IDegLira versus placebo therapy would be concluded if the 95% CI for the treatment differences for change in HbA1c lied entirely below 0%; implying that the two-sided p-value calculated by the ANCOVA model for testing the hypothesis of no difference between treatments was less than 5%.||-0.87|-1.18|< 0.001
82520142|NCT01426191|164735410|OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82520143|NCT01426191|164735411|OTHER|||||||0.01|||||||Fisher Exact|||||||0.01
82637672|NCT01733758|164989675|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.55|||||TWO_SIDED|95.0|-1.72|-1.39|||ANCOVA|||||-1.39|-1.72|
82637673|NCT01733758|164989675|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.35|||||TWO_SIDED|95.0|-1.51|-1.18|||ANCOVA|||||-1.18|-1.51|
82637674|NCT01733758|164989675|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The first test in a sequential testing procedure starting with albiglutide 50 mg versus placebo, and if significant at 0.05 level, followed by albiglutide 30 mg versus placebo.|t-test, 2 sided|The p-value is from a 2-sided t-test to test whether the difference of least squares (LS) means (albiglutide 50 mg - placebo) is equal to zero.||||||<0.0001
82520144|NCT04794803|164735412|SUPERIORITY||||||=|0.02164|||||||Log Rank|||||||= 0.02164
82520145|NCT04794803|164735412|SUPERIORITY||||||=|0.20043|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: Supplemental oxygen requirement based on PaO2/FiO2||||= 0.20043
82520146|NCT04794803|164735412|SUPERIORITY||||||=|0.30215|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first invasive mechanical ventilation||||= 0.30215
82520147|NCT04794803|164735412|SUPERIORITY|||||||0.5637|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first admission to ICU||||0.56370
82520148|NCT04794803|164735412|SUPERIORITY||||||=|0.00132|||||||Log Rank|||Sensitivity analysis of time to event for each single component of the primary endpoint: time to first use of a rescue medication for any reason||||= 0.00132
82520149|NCT04794803|164735413|SUPERIORITY|||||||0.731|||||||Fisher Exact|||comparison at week 1||||0.731
82520150|NCT04794803|164735413|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOT||||1.000
82520151|NCT04794803|164735413|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOS||||1.000
82520152|NCT04794803|164735414|SUPERIORITY|||||||0.353|||||||Fisher Exact|||at baseline||||0.353
82520153|NCT04794803|164735414|SUPERIORITY|||||||0.401|||||||Fisher Exact|||At Day 1||||0.401
82520154|NCT04794803|164735414|SUPERIORITY|||||||0.066|||||||Fisher Exact|||At Day 2||||0.066
82520155|NCT04794803|164735414|SUPERIORITY|||||||0.102|||||||Fisher Exact|||At week 1||||0.102
82520156|NCT04794803|164735414|SUPERIORITY|||||||0.314|||||||Fisher Exact|||at EOT||||0.314
82520157|NCT04794803|164735414|SUPERIORITY|||||||1|||||||Fisher Exact|||at EOS||||1.000
82384641|NCT04830969|164480706|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.03
82384642|NCT04830969|164480707|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||< 0.01
82384643|NCT04830969|164480707|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.09
82384644|NCT04830969|164480708|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Baseline to 3 months||||0.01
82384645|NCT04830969|164480708|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.86
82384646|NCT04830969|164480708|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||Baseline to 6 months||||0.047
82384647|NCT04830969|164480708|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.75
82384648|NCT04830969|164480709|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Baseline to 3 months||||0.44
82520158|NCT04794803|164735415|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||>0.999
82520159|NCT04794803|164735415|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||>0.999
82572123|NCT04294667|164853544|SUPERIORITY||Difference of Change(DZP+SOC vs PBO+SOC)|-1.8||||0.0001|TWO_SIDED|95.0|-2.7|-0.9|||MMRM|The Least Squares (LS) Mean, the difference (DZP+SOC versus PBO+SOC), and the 95% CIs was computed from the MMRM.||||-0.9|-2.7|0.0001
82572124|NCT04294667|164853549|SUPERIORITY|||||||0.0111|||||||Log Rank|||||||0.0111
82384649|NCT04830969|164480709|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.22
82384650|NCT04830969|164480709|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Baseline to 6 months||||0.29
82520160|NCT04794803|164735415|SUPERIORITY|||||||0.05||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.050
82572125|NCT04294667|164853550|SUPERIORITY|||||||0.0228|||||||Log Rank|||||||0.0228
82384651|NCT04830969|164480709|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.15
82384652|NCT04830969|164480710|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Baseline to 3 months||||<0.01
82384653|NCT04830969|164480710|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.31
82384654|NCT04830969|164480710|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline to 6 months||||0.08
82384655|NCT04830969|164480710|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.54
82384656|NCT04830969|164480711|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Baseline to 3 months||||0.01
82384657|NCT04830969|164480711|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.04
82384658|NCT04830969|164480711|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Baseline to 6 months||||0.03
82384659|NCT04830969|164480711|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.38
82384660|NCT04830969|164480712|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline to 3 months||||0.02
82384661|NCT04830969|164480712|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 3 months||||0.18
82384662|NCT04830969|164480712|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline to 6 months||||0.08
82384663|NCT04830969|164480712|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||Baseline to 6 months||||0.41
82384664|NCT04830969|164480713|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.27
82384665|NCT04830969|164480714|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.54
82384666|NCT04830969|164480715|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.12
82384667|NCT04830969|164480716|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
82384668|NCT04830969|164480716|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.07
82384669|NCT04830969|164480717|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82384670|NCT04830969|164480717|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.64
82384671|NCT04830969|164480718|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82384672|NCT04830969|164480718|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|used generalized linear models adjusted for baseline CRP||||||0.11
82384673|NCT04830969|164480719|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||at baseline||||0.7
82520161|NCT04794803|164735415|SUPERIORITY|||||||0.0227||||||p-values are referred to a two-sided Wilcoxon test for differences in the change of VAS scale.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.0227
82520162|NCT04794803|164735416|SUPERIORITY|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||At Day 1||||0.122
82520163|NCT04794803|164735416|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||At Day 2||||0.985
82520164|NCT04794803|164735416|SUPERIORITY|||||||0.857|||||||Wilcoxon (Mann-Whitney)|||at week 1||||0.857
82520165|NCT04794803|164735416|SUPERIORITY|||||||0.436|||||||Wilcoxon (Mann-Whitney)|||at EOT||||0.436
82520166|NCT04794803|164735416|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||At EOS||||0.350
82572126|NCT02165397|164853555|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.0001|TWO_SIDED|95.0|0.148|0.42||The treatment effect was tested with a stratified log rank test.|Log Rank||The hazard ratio and its 95% confidence interval were based on a Cox regression model stratified by the randomization stratification factors.|||0.420|0.148|< 0.0001
82572127|NCT02165397|164853556|SUPERIORITY||Rate Ratio|2.526|||<|0.0001|TWO_SIDED|95.0|1.753|3.639||Response rate was compared using Cochran-Mantel-Haenszel (CMH) chi-square test.|Cochran-Mantel-Haenszel|||||3.639|1.753|< 0.0001
82572128|NCT02165397|164853557|SUPERIORITY||Hazard Ratio (HR)|0.102|||<|0.0001|TWO_SIDED|95.0|0.049|0.212||P-value is from a stratified log-rank test.|Log Rank||Hazard ratio is estimated using a stratified Cox regression model.|||0.212|0.049|< 0.0001
82384674|NCT04830969|164480719|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||6 months||||0.29
82384675|NCT04830969|164480720|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82384676|NCT01422889|164480721|SUPERIORITY_OR_OTHER||percentage|2.2|||||TWO_SIDED|||||A p-value was not calculated for the ION Registry 12 month cardiac events. For the protocol specified primary endpoint analysis including data pooled from the PERSEUS SV, PERSEUS WH and TE Prove patient populations please see the citations.||||2.2% (23/1028) of ION Registry subjects experienced CD/MI related to the ION stent at 12 months||||
82384677|NCT01422889|164480722|SUPERIORITY_OR_OTHER||percentage|2.6|||||ONE_SIDED|||||A p-value was not calculated for the ION Registry 2 year cardiac events. For the protocol specified secondary endpoint analysis including data pooled from the PERSEUS SV, PERSEUS WH and TE Prove patient populations please see the citations.||||2.6% (27/1054) of ION Registry subjects experienced ARC ST Definite/Probable related to the ION stent at 2 years.||||
82384678|NCT02748356|164480729|OTHER|1 sample t-test|||||=|0.351|||||||t-test, 2 sided|This is a single group comparison||||||=0.351
82637675|NCT01733758|164989675|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The second test in a sequential testing procedure starting with albiglutide 50 mg versus placebo, and if significant at 0.05 level, followed by albiglutide 30 mg versus placebo.|t-test, 2 sided|The p-value is from a 2-sided t-test to test whether the difference of LS means (albiglutide 30 mg - placebo) is equal to zero.||||||<0.0001
82384679|NCT01408303|164480776|SUPERIORITY_OR_OTHER||LS mean difference relative to olive oil|-2.95|||<|0.05|||||||ANCOVA|p-value from ANCOVA with factors for treatment, statin use and potency, and baseline value as a covariate, and adjusted using Hommel's procedure.||||||<0.05
82384680|NCT01408303|164480776|SUPERIORITY_OR_OTHER||LS mean difference relative to olive oil|-6.0|||<|0.0001|||||||ANCOVA|p-value from ANCOVA with factors for treatment, statin use and potency, and baseline value as a covariate, and adjusted using Hommel's procedure.||||||<0.0001
82384681|NCT01205776|164480792|NON_INFERIORITY|p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 2% at the 0.05 level of significance.|Hazard Ratio (HR)|-3.1|||<|0.0001|TWO_SIDED|||||p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 2% at the 0.05 level of significance.|Com-Nougue|||||||<0.0001
82520167|NCT04794803|164735417|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.596|||||||Fisher Exact|||Day 1||||0.596
82520168|NCT04794803|164735417|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.667|||||||Fisher Exact|||Day 2||||0.667
82520169|NCT04794803|164735417|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.037|||||||Fisher Exact|||Week 1||||0.037
82520170|NCT04794803|164735417|SUPERIORITY|p-values are referred to a two-sided Fisher's Exact test for worsening||||||0.293||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOT||||0.293
82520171|NCT04794803|164735418|SUPERIORITY|||||||0.539||||||p-values are referred to a two-sided Fisher's Exact test for worsening and|Fisher Exact|||Day 1||||0.539
82520172|NCT04794803|164735418|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||Day 2||||1.000
82520173|NCT04794803|164735418|SUPERIORITY|||||||0.102||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||Week 1||||0.102
82520174|NCT04794803|164735418|SUPERIORITY|||||||0.119||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOT||||0.119
82520175|NCT04794803|164735418|SUPERIORITY|||||||0.515||||||p-values are referred to a two-sided Fisher's Exact test for worsening|Fisher Exact|||EOS||||0.515
82520176|NCT04794803|164735419|SUPERIORITY|||||||0.366||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||Week 1||||0.366
82520177|NCT04794803|164735419|SUPERIORITY|||||||0.489||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||EOT||||0.489
82572129|NCT02165397|164853558|SUPERIORITY||Rate Ratio|1.813|||<|0.0001|TWO_SIDED|95.0|1.357|2.421|||Chi-squared|||||2.421|1.357|< 0.0001
82520178|NCT04794803|164735419|SUPERIORITY|||||||0.486||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration.|Wilcoxon (Mann-Whitney)|||EOS||||0.486
82572130|NCT02165397|164853559|SUPERIORITY||Rate Ratio|1.238||||0.1059|TWO_SIDED|95.0|0.955|1.603||CMH chi squared test|Cochran-Mantel-Haenszel|||||1.603|0.955|0.1059
82572131|NCT02165397|164853560|SUPERIORITY||Hazard Ratio (HR)|0.808||||0.643|TWO_SIDED|95.0|0.328|1.99||P-value is from unstratified log rank test.|Log Rank||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|Data cutoff 18 December 2019||1.99|0.328|0.643
82520179|NCT04794803|164735420|SUPERIORITY|||||||0.79||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||Week 1||||0.790
82520180|NCT04794803|164735420|SUPERIORITY|||||||0.961||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||EOT||||0.961
82520181|NCT04794803|164735420|SUPERIORITY|||||||0.619||||||p-values are referred to a two-sided Wilcoxon test for cumulative quantity|Wilcoxon (Mann-Whitney)|||EOS||||0.619
82520182|NCT04794803|164735421|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Baseline||||1.000
82520183|NCT04794803|164735421|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Day 1||||1.000
82520184|NCT04794803|164735421|SUPERIORITY|||||||0.678||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Day 2||||0.678
82520185|NCT04794803|164735421|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Week 1||||1.000
82520186|NCT04794803|164735421|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOT||||1.000
82520187|NCT04794803|164735421|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOS||||1.000
82520188|NCT04794803|164735422|SUPERIORITY|||||||0.696||||||p-values are referred to a two-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||Week 1||||0.696
82520189|NCT04794803|164735422|SUPERIORITY||||||>|0.999||||||p-values are referred to a-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||EOT||||>0.999
82520190|NCT04794803|164735422|SUPERIORITY|||||||0.596||||||p-values are referred to a-sided Wilcoxon test for cumulative duration|Wilcoxon (Mann-Whitney)|||EOS||||0.596
82520191|NCT04794803|164735423|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||Baseline||||1.000
82520192|NCT04794803|164735423|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||Day 1||||1.000
82520193|NCT04794803|164735423|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||Day 2||||1.000
82520194|NCT04794803|164735423|SUPERIORITY|||||||1|||||||Fisher Exact|p-values are referred to a two-sided Fisher's Exact test for proportion||week 1||||1.000
82520195|NCT04794803|164735423|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Fisher's Exact test for proportion|Fisher Exact|||EOT||||1.000
82520196|NCT04794803|164735425|SUPERIORITY|||||||0.76||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||baseline||||0.760
82572132|NCT00424554|164853568|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
82520197|NCT04794803|164735425|SUPERIORITY|||||||0.394||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||Week 1||||0.394
82637676|NCT06104423|164989727|SUPERIORITY||Mean difference pre vs post treatment|-19.2|STANDARD_DEVIATION|8.62|<|0.001|TWO_SIDED|95.0|-26.0|-14.0|||paired t-test|||Primary endpoint, verified on the single cohort of patients who completed the monotherapy run-in period, is calculated as the mean difference in sitting systolic blood pressure between Visit 2 (Week 0, Baseline Visit of the combination therapy) and Visit 5 (Week 12, End of Study Visit). This is not a comparison of two different arms, but a comparison of two measurements taken from the same patient treated with combination therapy (single arm paired pre- vs. post-combination therapy comparison)||-14.0|-26.0|< 0.001
82637677|NCT02918968|164989728|SUPERIORITY|The significance level was 0.05 (two-sided).|Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.29|0.61||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank||Hazard ratio and P-value calculated using unstratified Cox proportional hazards model with treatment and disease stages (M0/N0, M0/N1, or M1) as covariate.|||0.61|0.29|<0.001
82384682|NCT01205776|164480804|NON_INFERIORITY|p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 8.4% at the 0.05 level of significance.|Hazard Ratio (HR)|4.0||||0.011|TWO_SIDED|||||p-value and 95% CI of the Difference derived from the Com-Nougue Approach of non-inferiority for two Kaplan-Meier Failure rates with a non-inferiority margin of 8.4% at the 0.05 level of significance.|Com-Nougue Approach|||||||0.011
82520198|NCT04794803|164735425|SUPERIORITY|||||||0.141||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||EOT||||0.141
82520199|NCT04794803|164735425|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test|Wilcoxon (Mann-Whitney)|||EOS||||>0.999
82520200|NCT04794803|164735426|SUPERIORITY|||||||0.5||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||baseline||||0.500
82520201|NCT04794803|164735426|SUPERIORITY|||||||0.112||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||week 1||||0.112
82520202|NCT04794803|164735426|SUPERIORITY|||||||0.277||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||EOT||||0.277
82384683|NCT04031846|164480882|OTHER|Difference in % and 95 % confidence interval (CI) are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|0.6|||=|0.824|TWO_SIDED|95.0|-5.0|6.3|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in % : Injection site erythema||6.3|-5.0|= 0.824
82384684|NCT04031846|164480882|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|2.8|||=|0.324|TWO_SIDED|95.0|-2.8|8.4|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site induration||8.4|-2.8|= 0.324
82384685|NCT04031846|164480882|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|11.3|||<|0.001|TWO_SIDED|95.0|5.8|16.6|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site pain||16.6|5.8|< 0.001
82572133|NCT00107978|164853632|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 10% was specified based on historical regulatory precedent.|Risk Difference (RD)|2.5||||||95.0|-2.9|7.9||p-values were not calculated in deference to confidence intervals.|2-sided 95% confidence interval|2-sided 95% confidence interval calculated on the difference in cure rates between treatment groups.||||7.9|-2.9|
82637678|NCT02918968|164989730|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|37.8|||<|0.001|TWO_SIDED|95.0|25.2|50.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate.|\>=50% reduction||50.4|25.2|<0.001
82384686|NCT04031846|164480882|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|4.1|||=|0.128|TWO_SIDED|95.0|-1.2|9.4|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Injection site swelling||9.4|-1.2|= 0.128
82384687|NCT04031846|164480883|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|0.4|||=|0.885|TWO_SIDED|95.0|-5.0|5.8|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Decreased appetite||5.8|-5.0|= 0.885
82384688|NCT04031846|164480883|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|5.4|||=|0.045|TWO_SIDED|95.0|0.1|10.7|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Irritability||10.7|0.1|= 0.045
82384689|NCT04031846|164480883|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|4.4|||=|0.131|TWO_SIDED|95.0|-1.3|10.0|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Somnolence||10.0|-1.3|= 0.131
82384690|NCT04031846|164480883|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|-0.1|||=|0.898|TWO_SIDED|95.0|-2.4|2.1|||Miettinen & Nurminen||V114 minus Prevenar 13™|Difference in %: Urticaria||2.1|-2.4|= 0.898
82384691|NCT04031846|164480884|OTHER|Difference in % and 95 % CI are calculated based on the Miettinen \& Nurminen method.|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-1.0|0.5|||||V114 minus Prevenar 13™|Difference in %||0.5|-1.0|
82384692|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.62|||<|0.001|TWO_SIDED|95.0|0.57|0.68||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 1 GMC Ratio: CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.68|0.57|< 0.001
82384693|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.28|||<|0.001|TWO_SIDED|95.0|1.17|1.39||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 3 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.39|1.17|< 0.001
82384694|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.68|0.82||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 4 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.82|0.68|< 0.001
82384695|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.59|0.7||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 5 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.70|0.59|< 0.001
82384696|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.61|0.76||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 6A GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.76|0.61|< 0.001
82442617|NCT00740714|164593995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.65|4.2|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||4.20|0.65|<0.05
82637679|NCT02918968|164989730|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|38.4|||<|0.001|TWO_SIDED|95.0|26.3|50.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate|≥ 90% reduction||50.4|26.3|<0.001
82637680|NCT02918968|164989731|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|40.7|||<|0.001|TWO_SIDED|95.0|28.3|53.1||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate.|≥ 50% reduction||53.1|28.3|<0.001
82637681|NCT02918968|164989731|SUPERIORITY|The significance level was 0.05 (two-sided).|Risk Difference (RD)|33.5|||<|0.001|TWO_SIDED|95.0|21.5|45.4||P-value is based on Cochran-Mantel-Haenszel mean score test stratified disease stages (M0/N0, M0/N1, or M1).|Mantel Haenszel|Mantel Haenszel common risk difference|Difference of response rate|≥90% reduction||45.4|21.5|<0.001
82384697|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.07||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 6B GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.07|0.85|< 0.001
82520203|NCT04794803|164735426|SUPERIORITY||||||>|0.999||||||p-values are referred to a two-sided Wilcoxon test.|Wilcoxon (Mann-Whitney)|||EOS||||>0.999
82520204|NCT04794803|164735427|SUPERIORITY|||||||0.2027||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.2027
82520205|NCT04794803|164735427|SUPERIORITY|||||||1||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||1.0000
82520206|NCT04794803|164735427|SUPERIORITY|||||||0.4469||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Week 1 vs baseline||||0.4469
82520207|NCT04794803|164735427|SUPERIORITY|||||||0.2466||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.2466
82520208|NCT04794803|164735427|SUPERIORITY|||||||0.1752||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.1752
82520209|NCT04794803|164735428|SUPERIORITY|||||||0.6441||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.6441
82520210|NCT04794803|164735428|SUPERIORITY|||||||0.3529||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.3529
82384698|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.72|0.85||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 7F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.85|0.72|< 0.001
82384699|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.72|||<|0.001|TWO_SIDED|95.0|0.66|0.78||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 9V GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.78|0.66|< 0.001
82384700|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.67|0.83||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 14 GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.83|0.67|< 0.001
82520211|NCT04794803|164735428|SUPERIORITY|||||||0.3581||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.3581
82520212|NCT04794803|164735428|SUPERIORITY|||||||0.1666||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.1666
82520213|NCT04794803|164735428|SUPERIORITY|||||||0.0851||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.0851
82384701|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.8|0.95||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 18C GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.95|0.80|< 0.001
82520214|NCT04794803|164735429|SUPERIORITY|||||||0.3359||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.3359
82520215|NCT04794803|164735429|SUPERIORITY|||||||0.3136||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.3136
82384702|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.91||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 19A GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.91|0.75|< 0.001
82520216|NCT04794803|164735429|SUPERIORITY|||||||0.0441||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.0441
82520217|NCT04794803|164735429|SUPERIORITY|||||||0.0965||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.0965
82520218|NCT04794803|164735429|SUPERIORITY|||||||0.0519||||||p-values are referred to a two-sided Wilcoxon test for differences in the change|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.0519
82520219|NCT04794803|164735430|SUPERIORITY|||||||0.47||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 1 vs baseline||||0.470
82520220|NCT04794803|164735430|SUPERIORITY|||||||0.425||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||Day 2 vs baseline||||0.425
82520221|NCT04794803|164735430|SUPERIORITY|||||||0.086||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||week 1 vs baseline||||0.086
82520222|NCT04794803|164735430|SUPERIORITY|||||||0.6||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOT vs baseline||||0.600
82520223|NCT04794803|164735430|SUPERIORITY|||||||0.717||||||p-values are referred to a two-sided Wilcoxon test for differences in the change.|Wilcoxon (Mann-Whitney)|||EOS vs baseline||||0.717
82520224|NCT00845663|164735469|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125 % bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|101.33||||||90.0|92.84|110.58|||ANOVA|ANOVA for log-transformed values with treatment as factor has been used as the basis for calculation of estimated value and confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||110.58|92.84|
82520225|NCT00845663|164735470|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125% bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|97.7||||||90.0|89.06|107.19|||ANOVA|ANOVA for log-transformed values with treatment as factor was taken as the basis for calculation of estimated value and confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||107.19|89.06|
82520226|NCT00845663|164735471|NON_INFERIORITY_OR_EQUIVALENCE|Use of the 80-125 % bioequivalence range. If 90% confidence interval for ratio of geometric LS Means (percent) is included within these limits, the devices are considered bioequivalent.|ratio of geometric LS Means (percent)|97.54||||||90.0|87.33|108.94|||ANOVA|ANOVA for log-transformed values with treatment as factor was taken as a basis for calculation of estimated value and the confidence interval.|Ratio is Auto-injection device/Pre-filled syringe|Bioequivalence testing by using the 90% Confidence Interval||108.94|87.33|
82520227|NCT03712891|164735518|OTHER|t-test||||||0.12|||||||t-test, 2 sided|||||||0.12
82520228|NCT02701985|164735519|OTHER||Difference in Response Rates|4.27||||0.7955|TWO_SIDED|95.0|-20.55|29.08|||Chi-square with Schouten Correction|||The proportion of patients who have ≥ 3 point reduction from baseline in ESSDAI score after 12 weeks of treatment was compared between the two treatment arms using a Pearson Chi-square test (two sided p-values, alpha 0.05). The difference in proportions and corresponding 95% confidence interval (CI) are provided. Patients with missing data at Week 12 will be treated as non-responders in the analysis.||29.08|-20.55|0.7955
82520229|NCT02701985|164735520|OTHER||Difference in Response Rates|1.14||||0.9877|TWO_SIDED|95.0|-23.92|26.19|||Chi-square with Schouten Correction|||The proportion of patients who have ≥ 1 point reduction from baseline in ESSPRI score after 12 weeks of treatment was compared between the two treatment arms using a Pearson Chi-square test (two sided p-values, alpha 0.05). The difference in proportions and corresponding 95% CI are provided. Patients with missing data at Week 12 will be treated as non-responders in the analysis.||26.19|-23.92|0.9877
82520230|NCT02701985|164735521|SUPERIORITY||Difference in Adjusted Means|-0.13||||0.8905|TWO_SIDED|95.0|-2.04|1.78|||Mixed Model for Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||1.78|-2.04|0.8905
82520231|NCT02701985|164735522|SUPERIORITY||Difference in Adjusted Means|-0.22||||0.6077|TWO_SIDED|95.0|-1.08|0.64|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||0.64|-1.08|0.6077
82520232|NCT02701985|164735523|SUPERIORITY||Difference in Adjusted Means|-2.06||||0.2846||95.0|-5.87|1.75|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable||1.75|-5.87|0.2846
82520233|NCT02701985|164735524|SUPERIORITY||Difference in Adjusted Means|-0.33||||0.8134||95.0|-2.43|3.08|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable||3.08|-2.43|0.8134
82637682|NCT02918968|164989732|SUPERIORITY|The significance level was 0.05 (two-sided).|||||<|0.001||||||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank|||||||<0.001
82384703|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.8|0.97||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 19F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.97|0.80|< 0.001
82384704|NCT04031846|164480885|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.79|0.97||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 23F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.97|0.79|< 0.001
82384705|NCT04031846|164480885|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC Ratio|71.79|||<|0.001|TWO_SIDED|95.0|65.16|79.1||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 22F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||79.10|65.16|< 0.001
82520234|NCT02701985|164735528|SUPERIORITY||Median Difference (Final Values)|0.87||||0.4266||95.0|-1.3|3.03|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||3.03|-1.30|0.4266
82637683|NCT02918968|164989733|SUPERIORITY|The significance level was 0.05 (two-sided).|||||<|0.001||||||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1).|Log Rank|||||||<0.001
82442618|NCT00740714|164593996|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|0.46|1.79|||ANCOVA||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.79|0.46|<0.05
82520235|NCT02701985|164735529|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6429||95.0|-0.21|0.34|||Mixed Model of Repeated Measures|||A Mixed Model for Repeated Measures (MMRM) approach incorporating all observed data up to 12 weeks of treatment was used. The MMRM included the absolute change from baseline as the dependent variable.||0.34|-0.21|0.6429
82520236|NCT02085408|164735563|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.94|1.3|||Regression, Cox||Hazard ratio : clofarabine/(daunorubicin \& cytarabine)|||1.30|0.94|
82442619|NCT00740714|164593997|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|STANDARD_ERROR_OF_MEAN|0.0199|<|0.05|TWO_SIDED|95.0|0.66|3.41|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||3.41|0.66|<0.05
82520237|NCT02085408|164735564|SUPERIORITY|||||||0.94|||||||Fisher Exact|||||||0.94
82523576|NCT04393441|164742791|NON_INFERIORITY|MMRM with fixed effects=treatment, visit, visit by treatment interaction,Baseline total staining stratum(TSS),and Baseline TSS by visit interaction.|Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.57||0.0475|TWO_SIDED|95.0|0.01|2.27|||MMRM|||Change from Baseline in Total Staining Score at Day 90: The null hypothesis was that 011516X tear formulation was to be considered noninferior to Systane Ultra MD if the upper limit of 2-sided confidence interval (CI) was less than 2.3 units.||2.27|0.01|0.0475
82442620|NCT00740714|164593998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.81|9.72|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9.72|0.81|<0.05
82523577|NCT04393441|164742792|OTHER|No formal hypothesis was planned. The p-value for treatment differences is reported for reference.|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|16.32||0.9001|TWO_SIDED|95.0|-30.03|34.14|||MMRM|MMRM with fixed effects=treatment, visit, visit by treatment interaction, Baseline TSS, and Baseline TSS by visit interaction.||||34.14|-30.03|0.9001
82523578|NCT02782169|164742793|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.32
82523579|NCT00724152|164742841|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Null hypothesis: The Cognitive Behavioral Therapy group would not demonstrate decreased distress at post-treatment as compared to the Tinnitus Education group on the primary outcome measure (THI) between pre-treatment and post-treatment.||||<0.05
82523580|NCT03266770|164742844|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.83|TWO_SIDED|95.0|-1.07|1.29|||t-test, 2 sided|||||1.29|-1.07|0.83
82523581|NCT02638948|164742888|SUPERIORITY||Estimate of Difference (%)|4.9||||0.5224|TWO_SIDED|95.0|-10.2|20.1||Threshold for significance = 0.05|Chi-squared|||||20.1|-10.2|0.5224
82523582|NCT02638948|164742888|SUPERIORITY||Estimate of Difference (%)|11.8||||0.136|TWO_SIDED|95.0|-3.6|27.2||Threshold for significance = 0.05|Chi-squared|||||27.2|-3.6|0.1360
82523583|NCT02638948|164742888|SUPERIORITY||Estimate of Difference (%)|0.1||||0.9922|TWO_SIDED|95.0|-20.5|20.7||Threshold for significance = 0.05|Chi-squared|||||20.7|-20.5|0.9922
82523584|NCT02638948|164742889|SUPERIORITY||Estimate of Difference (%)|0.1||||1|TWO_SIDED|95.0|-16.0|16.5||Threshold for significance = 0.05|Chi-squared|||||16.5|-16.0|1.0000
82523585|NCT02638948|164742889|SUPERIORITY||Estimate of Difference (%)|5.6||||0.2058|TWO_SIDED|95.0|-10.5|21.9||Threshold for significance = 0.05|Chi-squared|||||21.9|-10.5|0.2058
82523586|NCT02638948|164742889|SUPERIORITY||Estimate of Difference (%)|-0.2||||1|TWO_SIDED|95.0|-22.5|22.2||Threshold for significance = 0.05|Chi-squared|||||22.2|-22.5|1.0000
82523587|NCT05007392|164742908|SUPERIORITY||Difference of percentage|35.87|||<|0.001|TWO_SIDED|95.0|27.36|44.37|||Cochran-Mantel-Haenszel|P value based on a Cochran-Mantel-Haenszel test stratified by baseline SUA level and baseline body mass index (BMI) level.|The difference of percentage and stratified 95 percent (%) confidence interval (CI) was based on Mantel-Haenszel method.|||44.37|27.36|<0.001
82523588|NCT05007392|164742909|NON_INFERIORITY|The prespecified non-inferiority margin was -10% in the analysis.|Difference of percentage|5.24|||||TWO_SIDED|95.0|-3.69|14.17|||||The difference of percentage and stratified 95% CI was based on Mantel-Haenszel method.|||14.17|-3.69|
82523589|NCT01165775|164742954|SUPERIORITY_OR_OTHER|||||||0.2155|||||||Chi-squared|||||||0.2155
82523590|NCT03421808|164742966|SUPERIORITY|||||||0.6|||||||Chi-squared|||For categorical clinical remission data we performed a chi-square test on the IIT and completer sample using Graph-Pad Prism.||||0.6
82523591|NCT06916468|164742981|OTHER||Proportion|86.79|||<|0.001|TWO_SIDED||||||Binomial test|Comparing preference to 50/50 baseline||||||<0.001
82523592|NCT06916468|164742982|OTHER||Proportion|13.2|||<|0.001|TWO_SIDED||||||Proportion|Out of the 53 participants , what proportion preferred the device without the cotton dampener on majority of anatomical sites||||||<0.001
82523593|NCT04922554|164742995|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in response rates|14.15||||0.2182|TWO_SIDED|||||Nominal p-values are provided for descriptive purposes.|Chi-squared|Analysis stratified by prior NTM antibiotic treatment was not performed due to small sample size in one randomization stratification subgroup.||||||0.2182
82523594|NCT04922554|164742996|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Difference in response rates|22.15||||0.046|TWO_SIDED|||||Nominal p-values are provided for descriptive purposes.|Chi-squared|Analysis stratified by prior NTM antibiotic treatment was not performed due to small sample size in one randomization stratification subgroup.||||||0.0460
82520238|NCT02273141|164735607|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in success rate|8.22||||0.038|ONE_SIDED|97.5|-0.5|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, the primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate non-inferiority (NI) of NER1006 regimen to SP+MS (10% margin). Success rate was no. of patients with successful overall bowel cleansing as proportion of no. of patients in each group. Treatment effect was NER1006 success rate - SP+MS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-0.50|0.038
82520239|NCT02273141|164735608|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in excellent plus good rate|3.2||||0.027|ONE_SIDED|97.5|-5.56|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 regimen to SP+MS (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 success rate - SP+MS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-5.56|0.027
82520240|NCT02273141|164735609|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|2.42||||0.154|TWO_SIDED|95.0|-6.35|11.12||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.12|-6.35|0.154
82520241|NCT02273141|164735610|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.27||||0.212|TWO_SIDED|95.0|-5.56|11.91||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.91|-5.56|0.212
82520242|NCT02273141|164735611|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in PDR|4.43||||0.064|TWO_SIDED|95.0|-4.36|13.1||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||13.10|-4.36|0.064
82523420|NCT01422408|164742347|OTHER|Exact McNemar's test was used to test if the proportion of severe symptoms at baseline are equal to the proportion of severe symptoms at the end of the study.|Odds Ratio (OR)|0.0||||0.062|TWO_SIDED|95.0|0.0|1.09||Since there are two-co-primary endpoints, the significance level is 2.5%|McNemar|||"GEE (general estimating equations) methods were planned as a secondary analysis of the primary endpoints. Missing data for some of the weeks prevented these models from converging and we could not obtain valid results with these methods. Since this is a secondary analysis, we decided to compare symptom severity at baseline vs. week 4 (end of study). Symptoms are considered severe for scores 3 or 4 and not severe for scores 0, 1, 2"||1.09|0|0.062
82637684|NCT02918968|164989735|SUPERIORITY|The significance level was 0.05 (two-sided).|Hazard Ratio (HR)|0.87||||0.669|TWO_SIDED|95.0|0.45|1.67||P-value is based on a log-rank test stratified disease stages (M0/N0, M0/N1, or M1)|Log Rank||Hazard ratio and P-value calculated using unstratified Cox proportional hazards model with treatment and disease stages (M0/N0, M0/N1, or M1) as covariate.|||1.67|0.45|0.669
82384706|NCT04031846|164480885|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC Ratio|46.58|||<|0.001|TWO_SIDED|95.0|42.19|51.42||1-sided p-value|t-distribution||V114/Prevenar 13™|Serotype 33F GMC Ratio: CI and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||51.42|42.19|< 0.001
82384707|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-4.7|-1.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 1|95% CI is based on the Miettinen \& Nurminen method.|-1.3|-4.7|< 0.001
82384708|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|8.2|||<|0.001|TWO_SIDED|95.0|4.4|12.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 3|95% CI is based on the Miettinen \& Nurminen method.|12.2|4.4|< 0.001
82520243|NCT02273141|164735612|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of SP+MS using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in PDR|2.95||||0.278|TWO_SIDED|95.0|-5.96|11.51||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to SP+MS with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - SP+MS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||11.51|-5.96|0.278
82520244|NCT00529399|164735613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.98
82520245|NCT00529399|164735613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.51
82377540|NCT00486525|164462477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.062||0.2|TWO_SIDED|95.0|-0.2|-0.042|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.042|-0.2|0.2
82520246|NCT02486328|164735623|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82520247|NCT02486328|164735624|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82520248|NCT02486328|164735625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82520249|NCT02486328|164735626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82637685|NCT01589185|164989737|SUPERIORITY|||||||0.3962||||||\< 0.1 is considered borderline significant|Fisher Exact|||The number (%) of patients who died on or before end of study (EOS) was compared among all 5 groups. The mITT population was used.||||0.3962
82520250|NCT02486328|164735627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82520251|NCT02486328|164735628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82520252|NCT06242444|164735629|SUPERIORITY||Adjusted Mean Difference|8.35|STANDARD_ERROR_OF_MEAN|2.465||0.0012|TWO_SIDED|95.0|3.42|13.28|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Placebo Control Dentifrice.|||13.28|3.42|0.0012
82520253|NCT06242444|164735630|SUPERIORITY||Adjusted Mean Difference|37.33|STANDARD_ERROR_OF_MEAN|3.217|<|0.0001|TWO_SIDED|95.0|30.9|43.76|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Placebo Control Dentifrice.|||43.76|30.90|<.0001
82520254|NCT06242444|164735631|SUPERIORITY||Adjusted Mean Difference|3.95|STANDARD_ERROR_OF_MEAN|2.462||0.1138|TWO_SIDED|95.0|-0.97|8.87|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Reference Dentifrice.|||8.87|-0.97|0.1138
82520255|NCT06242444|164735633|SUPERIORITY||Adjusted Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|3.213||0.493|TWO_SIDED|95.0|-4.21|8.64|||Mixed Models Analysis||Adjusted mean difference was calculated as Test Dentifrice minus Reference Dentifrice.|||8.64|-4.21|0.4930
82637686|NCT04680273|164989761|OTHER||Geometric mean ratio|0.573|STANDARD_DEVIATION|1.11|||||||||||The geometric coefficient of variation (%) for the AUC(0-72) geometric mean ratio was 10.4%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-72) of GDC-9545 in plasma samples compared with the AUC(0-72) of total radioactivity in plasma samples.||||
82520256|NCT06242444|164735637|SUPERIORITY||Adjusted Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|2.462||0.0789|TWO_SIDED|95.0|-0.52|9.32|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||9.32|-0.52|0.0789
82520257|NCT06242444|164735637|SUPERIORITY||Adjusted Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.408||0.2178|TWO_SIDED|95.0|-1.82|7.81|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||7.81|-1.82|0.2178
82520258|NCT06242444|164735638|SUPERIORITY||Adjusted Mean Difference|35.12|STANDARD_ERROR_OF_MEAN|3.213|<|0.0001|TWO_SIDED|95.0|28.69|41.54|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||41.54|28.69|<.0001
82520259|NCT06242444|164735638|SUPERIORITY||Adjusted Mean Difference|27.18|STANDARD_ERROR_OF_MEAN|3.018|<|0.0001|TWO_SIDED|95.0|21.14|33.21|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||33.21|21.14|<.0001
82520260|NCT06242444|164735639|SUPERIORITY||Geometric Mean Ratio|1.73|||<|0.0001|TWO_SIDED|95.0|1.53|1.97|||Mixed Models Analysis|||At 4 hours of intra-oral exposure||1.97|1.53|<.0001
82520261|NCT06242444|164735639|SUPERIORITY||Geometric Mean Ratio|1.59|||<|0.0001|TWO_SIDED|95.0|1.42|1.78|||Mixed Models Analysis|||At 12 hours of intra-oral exposure||1.78|1.42|<.0001
82520262|NCT06242444|164735640|SUPERIORITY||Adjusted Mean Difference|0.307|STANDARD_ERROR_OF_MEAN|0.0277|<|0.0001|TWO_SIDED|95.0|0.252|0.362|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 4 hours of intra-oral exposure||0.362|0.252|<.0001
82520263|NCT06242444|164735640|SUPERIORITY||Adjusted Mean Difference|0.242|STANDARD_ERROR_OF_MEAN|0.0257|<|0.0001|TWO_SIDED|95.0|0.19|0.293|||Mixed Models Analysis||Adjusted mean difference was calculated as Reference Dentifrice minus Placebo Control Dentifrice.|At 12 hours of intra-oral exposure||0.293|0.190|<.0001
82520264|NCT02046980|164735643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39||||0.02839|TWO_SIDED|95.0|1.58|7.31|||Regression, Logistic|||||7.31|1.58|0.02839
82520265|NCT02046980|164735643|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67||||0.0366|TWO_SIDED|95.0|1.25|5.67|||Regression, Logistic|||||5.67|1.25|0.0366
82520266|NCT00567242|164735684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2801|STANDARD_ERROR_OF_MEAN|0.1077|<|0.05|ONE_SIDED|95.0||-0.0709|||t-test, 1 sided|||"H1: The Intention Group will show a significant rightward shift in lateral frontal laterality from pre-treatment to post-treatment.~H0: The Intention Group will show no shift in lateral frontal laterality from pre-treatment to post-treatment.~Since this is a repeated measures t test, the data are presented as the mean and standard deviation for for the post-treatment laterality index minus the pre-treatment laterality index."||-0.0709||<.05
82520267|NCT00567242|164735684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1832|STANDARD_ERROR_OF_MEAN|0.2768|<|0.05|ONE_SIDED|95.0||0.3546|||t-test, 1 sided|||"H1: The Control Group will show a significant rightward shift in lateral frontal lateral indices from pre-treatment to post-treatment.~H0: The Control group will show no shift in lateral frontal laterality indices from pre-treatment to post-treatment.~Since the analysis to test these hypotheses is a repeated-measures t-test, the mean and standard deviation are given for post-treatment laterality index minus pre-treatment laterality index."||0.3546||<.05
82520268|NCT00567242|164735685|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.88|<|0.05|ONE_SIDED|95.0|-1.81||||t-test, 1 sided|||"H1: The Intention Group would show more improvement across treatment than the Control Group.~H0: The Intention Group and the Control Group would not show any difference in improvement across treatment."|||-1.81|<.05
82520269|NCT00567242|164735686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|ONE_SIDED|95.0|0.26||||t-test, 1 sided|||"H1: The Intention Group would show more improvement across treatment than the Control Group.~H0: The Intention Group and the Control Group would not show any difference in improvement across treatment."|||0.26|<.05
82520270|NCT01316926|164735730|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.9204|||||TWO_SIDED|90.0|0.8556|0.99|||||Coefficient Variation (intra-individual). The ratio between the geometric means of the test and reference formulations was calculated.|||0.9900|0.8556|
82520271|NCT01316926|164735731|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.941|||||TWO_SIDED|90.0|0.846|1.0467|||||Coefficient Variation (intra-individual). The ratio between the geometric means of the test and reference formulations was calculated.|||1.0467|0.8460|
82520272|NCT01316926|164735732|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon manufacturing a site change.|Ratio T formulation/R formulation|0.9333|||||TWO_SIDED|90.0|0.8502|1.0246|||||Coefficient Variation (intra-individual). The ratios between the geometric means of the test and reference formulations was calculated.|||1.0246|0.8502|
82520273|NCT01329029|164735745|SUPERIORITY_OR_OTHER||Rate ratio|0.868|STANDARD_ERROR_OF_MEAN|0.0633||0.0529|TWO_SIDED|95.0|0.753|1.002||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|||1.002|0.753|0.0529
82384709|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.5|-0.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 4|95% CI is based on the Miettinen \& Nurminen method.|-0.1|-4.5|< 0.001
82384710|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.2|-0.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 5|95% CI is based on the Miettinen \& Nurminen method.|-0.2|-2.2|< 0.001
82384711|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.9|1.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 6A|95% CI is based on the Miettinen \& Nurminen method.|1.1|-1.9|< 0.001
82520274|NCT01329029|164735746|SUPERIORITY_OR_OTHER||LS Mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.0089|<|0.0001|TWO_SIDED|95.0|0.038|0.073|||ANCOVA|Analysis of Covariance (ANCOVA) including treatment by time interaction.||||0.073|0.038|<0.0001
82520275|NCT01329029|164735747|SUPERIORITY_OR_OTHER||Rate ratio|0.757|STANDARD_ERROR_OF_MEAN|0.0889||0.0175|TWO_SIDED|95.0|0.601|0.952|||Generalized Linear Regression|Analyzed using a negative binomial regression model excluding a correction for overdispersion.|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|||0.952|0.601|0.0175
82384712|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-3.5|-0.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 6B|95% CI is based on the Miettinen \& Nurminen method.|-0.1|-3.5|< 0.001
82384713|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.9|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 7F|95% CI is based on the Miettinen \& Nurminen method.|0.9|-0.9|< 0.001
82442621|NCT00740714|164593999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.31|1.52|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.52|0.31|<0.05
82520276|NCT01329029|164735748|SUPERIORITY_OR_OTHER||Rate ratio|0.914|STANDARD_ERROR_OF_MEAN|0.0771||0.2875|TWO_SIDED|95.0|0.775|1.078||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Moderate COPD Exacerbations||1.078|0.775|0.2875
82520277|NCT01329029|164735748|SUPERIORITY_OR_OTHER||Rate Ratio|0.794|STANDARD_ERROR_OF_MEAN|0.0654||0.005|TWO_SIDED|95.0|0.675|0.933||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Mild, Moderate or Severe COPD Exacerbations||0.933|0.675|0.0050
82637687|NCT04680273|164989761|OTHER||Geometric mean ratio|0.752|STANDARD_DEVIATION|1.036|||||||||||The geometric coefficient of variation (%) for the AUC(0-72) geometric mean ratio was 3.5%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-72) of total radioactivity (TR) in whole blood samples compared with the AUC(0-72) of TR in plasma samples.||||
82637688|NCT04680273|164989762|OTHER||Geometric mean ratio|0.625|STANDARD_DEVIATION|1.134|||||||||||The geometric coefficient of variation (%) for the AUC(0-t) geometric mean ratio was 12.7%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-t) of GDC-9545 in plasma samples compared with the AUC(0-t) of total radioactivity in plasma samples.||||
82637689|NCT04680273|164989762|OTHER||Geometric mean ratio|0.79|STANDARD_DEVIATION|1.171|||||||||||The geometric coefficient of variation (%) for the AUC(0-t) geometric mean ratio was 15.9%. The standard deviation (SD) reported is a geometric SD.|The geometric mean ratio was calculated for the AUC(0-t) of total radioactivity (TR) in whole blood samples compared with the AUC(0-t) of TR in plasma samples.||||
82637690|NCT01258803|164989791|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.094|0.154|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and Placebo MDI combined with or without spacer.~Analysis was performed using an analysis of covariance (ANCOVA) model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.154|0.094|<0.001
82637691|NCT01258803|164989792|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102|||<|0.001|TWO_SIDED|95.0|0.073|0.131|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI without spacer and Placebo MDI combined with or without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.131|0.073|<0.001
82384714|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-1.1|||<|0.001|TWO_SIDED|95.0|-2.4|-0.4||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 9V|95% CI is based on the Miettinen \& Nurminen method.|-0.4|-2.4|< 0.001
82520278|NCT01329029|164735748|SUPERIORITY_OR_OTHER||Rate ratio|0.854|STANDARD_ERROR_OF_MEAN|0.0605||0.0262|TWO_SIDED|95.0|0.744|0.982||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|COPD Exacerbations treated with Glucocorticosteroids and/or Antibiotics||0.982|0.744|0.0262
82637692|NCT01258803|164989793|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.022||||0.144|TWO_SIDED|95.0|-0.008|0.052|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and MF/F MDI without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.052|-0.008|0.144
82637693|NCT01258803|164989795|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.018||||0.229|TWO_SIDED|95.0|-0.012|0.048|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI with spacer and F DPI.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.048|-0.012|0.229
82637694|NCT01258803|164989796|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.004||||0.79|TWO_SIDED|95.0|-0.033|0.025|||ANCOVA|||"Pairwise Treatment Comparison of MF/F MDI without spacer and F DPI.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.025|-0.033|0.790
82637695|NCT01258803|164989797|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.106|||<|0.001|TWO_SIDED|95.0|0.077|0.135|||ANCOVA|||"Pairwise Treatment Comparison of F DPI and Placebo MDI combined with or without spacer.~Analysis was performed using an ANCOVA model extracting the effects due to treatment, sequence, subject (random effect nested within sequence), period, age groups (5 to 7 years and 8 to 11 years) and Baseline FEV1 as a covariate."||0.135|0.077|<0.001
82637696|NCT04652245|164989803|SUPERIORITY|||||||0.028|||||||ANCOVA|||||||0.028
82637697|NCT04652245|164989804|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
82637698|NCT00851721|164989813|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Two-sample, two-sided t-test|||H0: μ(on-demand) = μ(prophylaxis) Versus H1: μ(on-demand) ≠ μ(prophylaxis) (Where H0 implies no difference in mean bleeding episode rate between prophylaxis and on-demand treatment arms and H1 implies otherwise. This test was performed at a significance level of 5%, two-sided, two sample)||||0.0003
82637699|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|||||||Two-sample, two-sided t-test|||Spontaneous Bleeds||||0.0008
82637700|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0199|||||||Two-sample, two-sided t-test|||Traumatic Bleeds||||0.0199
82637701|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Two-sample, two-sided t-test|||Joint Bleeds||||0.0006
82637702|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0227|||||||Two-sample, two-sided t-test|||Non-Joint Bleeds||||0.0227
82637703|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||Two-sample, two-sided t-test|||Spontaneous Joint Bleeds||||0.0013
82637704|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Two-sample, two-sided t-test|||Spontaneous Non-Joint Bleeds||||0.0030
82637705|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0254|||||||Two-sample, two-sided t-test|||Traumatic Joint Bleeds||||0.0254
82520279|NCT01329029|164735748|SUPERIORITY_OR_OTHER||Rate ratio|0.837|STANDARD_ERROR_OF_MEAN|0.0528||0.0047|TWO_SIDED|95.0|0.739|0.947||Level of significance: 5% 2-sided|Generalized Linear Regression|Poisson regression model (estimates of exacerbation rates using time in trial as model offset).|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Moderate or Severe COPD Exacerbations and/or treated with Antibiotics||0.947|0.739|0.0047
82520280|NCT01329029|164735748|SUPERIORITY_OR_OTHER||Rate ratio|0.761|STANDARD_ERROR_OF_MEAN|0.0899||0.0209|TWO_SIDED|95.0|0.604|0.96||Level of significance: 5% 2-sided.|Generalized Linear Regression|Negative binomial regression model (estimates of exacerbation rates)|A rate ratio of \< 1 represents a favourable outcome for the test treatment.|Leading to Hospitalisation||0.960|0.604|0.0209
82520281|NCT01329029|164735750|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917|STANDARD_ERROR_OF_MEAN|0.0549||0.1461|TWO_SIDED|95.0|0.815|1.031||Level of significance: 5% 2-sided.|Cox proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.031|0.815|0.1461
82637706|NCT00851721|164989815|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9322|||||||Two-sample, two-sided t-test|||Traumatic Non-Joint Bleeds||||0.9322
82637707|NCT00851721|164989817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0271|||||||Two-sample, two-sided t-test|||||||0.0271
82637708|NCT00851721|164989824|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0067||95.0|||||Mann-Whitney tests (Wilcoxon-Rank Sum)|||||||0.0067
82637709|NCT03223649|164989866|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.035||0.005|TWO_SIDED|95.0|-0.17|-0.03||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||-.03|-.17|0.005
82637710|NCT03223649|164989867|SUPERIORITY||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.011||0.349|TWO_SIDED|95.0|-0.033|0.011||Unadjusted P-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||0.011|-.033|0.349
82637711|NCT03223649|164989868|SUPERIORITY||Mean Difference (Final Values)|-0.043|STANDARD_ERROR_OF_MEAN|0.021||0.045|TWO_SIDED|95.0|-0.084|-0.002||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||-.002|-.084|.045
82637712|NCT03223649|164989869|SUPERIORITY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.016||0.226|TWO_SIDED|95.0|-0.051|0.013||Unadjusted p-value|ANCOVA|Log-transformed value adjusted for: arcsine sqrt transformed % fat mass, pubertal stage (pre, early, or late), and basal analyte log transformed.||||0.013|-0.051|0.226
82637713|NCT03223649|164989870|SUPERIORITY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|0.545|<|0.001|TWO_SIDED|95.0|-6.884|-4.716|||t-test, 2 sided|||||-4.716|-6.884|<0.001
82637714|NCT03223649|164989871|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.116||0.39|TWO_SIDED|95.0|-0.33|0.13|||t-test, 2 sided|||||0.130|-0.330|0.39
82637715|NCT03223649|164989872|SUPERIORITY||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.046||0.648|TWO_SIDED|95.0|-0.071|0.114|||ANCOVA|Dependent variable in Kcal log transformed, comparison adjusted for: age(y), lean mass(kg), fat mass(kg)||||0.114|-0.071|0.648
82637716|NCT03223649|164989873|SUPERIORITY||Mean Difference (Final Values)|0.834|STANDARD_ERROR_OF_MEAN|1.354||0.539|TWO_SIDED|95.0|-1.857|3.525|||ANCOVA|Adjusted for age (years)||||3.525|-1.857|0.539
82520282|NCT01329029|164735751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|STANDARD_ERROR_OF_MEAN|0.0842||0.027|TWO_SIDED|95.0|0.641|0.974||Level of significance: 5% 2-sided|Wei-Lin-Weissfeld Method||A hazard ratio of \<1 represents a favourable outcome for the test treatment|||0.974|0.641|0.0270
82520283|NCT01329029|164735752|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.749|STANDARD_ERROR_OF_MEAN|0.1209||0.0731|TWO_SIDED|95.0|0.546|1.027||Level of significance: 5% 2-sided|Wei-Lin-Weissfeld Method||A hazard ratio of \<1 represents a favourable outcome for the test treatment.|||1.027|0.546|0.0731
82637717|NCT03223649|164989874|SUPERIORITY||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|1.766||0.55|TWO_SIDED|95.0|-4.57|2.45|||ANCOVA|Adjusted for age (years)||||2.45|-4.57|0.550
82637718|NCT03223649|164989875|SUPERIORITY||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.681||0.741|TWO_SIDED|95.0|-1.127|1.579|||ANCOVA|Adjusted for age (years)||||1.579|-1.127|0.741
82637719|NCT02347345|164989901|OTHER|Descriptive pilot study. Not relevant.||||||0.07|||||||Kruskal-Wallis|||||||0.07
82637720|NCT02735382|164989936|SUPERIORITY||Odds Ratio (OR)|4.663|||<|0.0001|TWO_SIDED|95.0|4.116|5.283|||Chi-squared, Corrected|||||5.283|4.116|<.0001
82637721|NCT02735382|164989937|SUPERIORITY||Odds Ratio (OR)|3.284|||<|0.0001|TWO_SIDED|95.0|2.672|4.035|||Chi-squared, Corrected|||||4.035|2.672|<.0001
82637722|NCT02735382|164989938|SUPERIORITY||Odds Ratio (OR)|0.885||||0.8438|TWO_SIDED|95.0|0.42|1.698|||Chi-squared, Corrected|||||1.698|0.420|.8438
82637723|NCT02735382|164989939|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.161||0.007|TWO_SIDED|95.0|0.123|0.757|||t-test, 2 sided|df=292||A change score from baseline to 6-months was computed and served as the data to be analyzed in the t-test of group differences.||0.757|0.123|.007
82384715|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.0|0.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 14|95% CI is based on the Miettinen \& Nurminen method.|0.5|-1.0|< 0.001
82384716|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.8|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 18C|95% CI is based on the Miettinen \& Nurminen method.|0.9|-1.8|< 0.001
82442622|NCT00740714|164594000|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.36|1.7|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.70|0.36|<0.05
82384717|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-2.2|-0.2||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 19A|95% CI is based on the Miettinen \& Nurminen method.|-0.2|-2.2|< 0.001
82520284|NCT01329029|164735753|SUPERIORITY_OR_OTHER||NNTB|9.0|||||TWO_SIDED|95.0|4.0|31.0||||||||31|4|
82520285|NCT01329029|164735756|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.092|STANDARD_ERROR_OF_MEAN|0.0159|<|0.0001|TWO_SIDED|95.0|0.061|0.124||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and restricted maximum likelihood (REML).||||0.124|0.061|<0.0001
82442623|NCT00740714|164594001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.69|8.58|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||8.58|0.69|<0.05
82637724|NCT05489146|164989952|SUPERIORITY|||||||0.046|||||||Mixed Models Analysis|||||||0.046
82637725|NCT05489146|164989953|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||0.003
82442624|NCT00740714|164594002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.31|1.62|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.62|0.31|<0.05
82520286|NCT01329029|164735757|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.025|STANDARD_ERROR_OF_MEAN|0.0062|<|0.0001|TWO_SIDED|95.0|0.013|0.038||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.038|0.013|<0.0001
82520287|NCT01329029|164735758|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.094|STANDARD_ERROR_OF_MEAN|0.0131|<|0.0001|TWO_SIDED|95.0|0.069|0.12||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.120|0.069|<0.0001
82520288|NCT01329029|164735760|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.283|STANDARD_ERROR_OF_MEAN|0.0941||0.0027|TWO_SIDED|95.0|-0.467|-0.098||Level of significance: 5% 2-sided.|Repeated measurement model|Compound symmetry covariance structure and REML.||||-0.098|-0.467|0.0027
82637726|NCT05489146|164989954|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82520289|NCT01329029|164735761|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0439||0.7392|TWO_SIDED|95.0|-0.101|0.071||Level of significance: 5% 2-sided.|Repeated measurement model|Compound symmetry covariance structure and REML.||||0.071|-0.101|0.7392
82637727|NCT05489146|164989955|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82637728|NCT05489146|164989956|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82637729|NCT05489146|164989957|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82637730|NCT05489146|164989958|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82637731|NCT05489146|164989959|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
82637732|NCT02260791|164990047|EQUIVALENCE|-12% to +15% equivalence margin using 90% CI around the difference in ACR20 response rate|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|90.0|-7.3|3.6||||||The difference and its 90% Confidence Interval (CI) for primary endpoint between FKB327 and Humira were estimated. If the 90% CI fell entirely between pre-specified equivalence margin (-12% to +15%), then FKB327 was considered equivalent to Humira.||3.6|-7.3|
82637733|NCT02260791|164990048|EQUIVALENCE|If the 2-sided 95% CI for the difference in DAS28-CRP at Week 24 between FKB327 and Humira fell entirely between -0.6 and +0.6 then FKB327 was considered equivalent to Humira.|Difference in least square mean|0.01|||||TWO_SIDED|95.0|-0.16|0.18||||||The secondary hypothesis involved equivalence of the difference between FKB327 and Humira in DAS28-CRP at Week 24. Based on the repeated measures analysis model, the difference and its 95% CI in the least-squares means (LSMs) for DAS28-CRP at Week 24 between FKB327 and Humira were estimated. If the 95% CI fell entirely between the pre-specified margin (+/- 0.6), then FKB327 was considered equivalent to Humira.||0.18|-0.16|
82637734|NCT02924129|164990063|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||Significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
82637735|NCT02924129|164990064|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|9.0|||<|0.001|TWO_SIDED|95.0|-2.4|20.4||significance threshold (α) of 0.05|t-test, 2 sided|||||20.4|-2.4|<0.001
82637736|NCT02924129|164990065|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|14.6|||<|0.001|TWO_SIDED|95.0|2.9|26.3||significance threshold (α) of 0.05|t-test, 2 sided|||||26.3|2.9|<0.001
82637737|NCT02924129|164990066|NON_INFERIORITY|non-inferiority margin (δ) of 10%||||||0.002||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||0.002
82637738|NCT02924129|164990067|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
82637739|NCT02924129|164990068|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
82637740|NCT02924129|164990069|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|10.7|||<|0.001|TWO_SIDED|95.0|-1.8|23.3||significance threshold (α) of 0.05|t-test, 2 sided|||||23.3|-1.8|<0.001
82637741|NCT02924129|164990070|NON_INFERIORITY|non-inferiority margin (δ) of 10%|Mean Difference (Final Values)|15.4|||<|0.001|TWO_SIDED|95.0|2.5|28.3||significance threshold (α) of 0.05|t-test, 2 sided|||||28.3|2.5|<0.001
82637742|NCT02924129|164990071|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001|||||||normal approximation to the binomial|||||||<0.001
82637743|NCT02924129|164990072|NON_INFERIORITY|non-inferiority margin (δ) of 10%|||||<|0.001||||||significance threshold (α) of 0.05|normal approximation to the binomial|||||||<0.001
82637744|NCT03137173|164990153|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% confidence interval (CI) of the between-group difference (ceftobiprole minus vancomycin+aztreonam) using a 10% non-inferiority margin in the ITT population. Difference was computed using the Cochran-Mantel-Haenszel (CMH) weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|3.3|||||TWO_SIDED|95.0|-1.2|7.8||||||||7.8|-1.2|
82637745|NCT03137173|164990154|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% CI of the between-group difference (ceftobiprole minus vancomycin+aztreonam) using a 10% non-inferiority margin in the ITT population. Difference was computed using the CMH weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-3.5|5.6||||||||5.6|-3.5|
82520290|NCT01329029|164735764|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.285|STANDARD_ERROR_OF_MEAN|0.2175||0.1909|TWO_SIDED|95.0|-0.711|0.142||Level of significance: 5% 2-sided.|Repeated measurement model|Unstructured covariance structure and REML.||||0.142|-0.711|0.1909
82520291|NCT01329029|164735766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.025|STANDARD_ERROR_OF_MEAN|0.3468||0.9414|TWO_SIDED|95.0|0.528|1.99||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.990|0.528|0.9414
82637746|NCT03137173|164990155|NON_INFERIORITY|Non-inferiority was assessed by the two-sided 95% CI of the between-group difference (ceftobiprole minus vancomycin plus aztreonam) using a 10% non-inferiority margin in the CE populations. Difference was computed using the CMH weights method, adjusted for geographical region and actual type of ABSSSI.|Risk Difference (RD)|2.7|||||TWO_SIDED|95.0|-0.3|5.6||||||||5.6|-0.3|
82637747|NCT00842829|164990161|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper limit of the 90% CI was \<8%.|Mean Difference (Net)|-6.3|||||ONE_SIDED|95.0||1.4|||||The upper bound of the 2-sided 90% confidence interval is equivalent to the upper bound of the 1-sided 95% confidence interval.|Treatment comparison difference (100 mcg - 200 mcg)||1.4||
82637748|NCT04047342|164990185|SUPERIORITY||Odds Ratio (OR)|0.97||||0.828|TWO_SIDED|95.0|0.72|1.3||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.30|0.72|.828
82637749|NCT05040295|164990229|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|102.5|||||TWO_SIDED|90.0|94.21|111.51|||||Reference = Treatment A Test = Treatment B Ratio=Test/Reference|AUCinf was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||111.51|94.21|
82520292|NCT01329029|164735767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078|STANDARD_ERROR_OF_MEAN|0.5765||0.8876|TWO_SIDED|95.0|0.378|3.075|||Cox-proportional hazards model|Level of significance: 5% 2-sided.|A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||3.075|0.378|0.8876
82384718|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 19F|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
82520293|NCT01329029|164735768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.529|STANDARD_ERROR_OF_MEAN|0.1463|<|0.0001|TWO_SIDED|95.0|1.268|1.845|||Cox-proportional hazards model|Level of significance: 5% 2-sided.|A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.845|1.268|<0.0001
82520294|NCT01329029|164735769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695|STANDARD_ERROR_OF_MEAN|0.2691||0.3477|TWO_SIDED|95.0|0.326|1.484||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||1.484|0.326|0.3477
82637750|NCT05040295|164990229|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|106.65|||||TWO_SIDED|90.0|100.07|113.66|||||Reference = Treatment A Test = Treatment C Ratio=Test/Reference|AUCinf was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||113.66|100.07|
82520295|NCT01329029|164735771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.083|STANDARD_ERROR_OF_MEAN|0.3832||0.8208|TWO_SIDED|95.0|0.542|2.167||Level of significance: 5% 2-sided.|Cox-proportional hazards model||A hazards ratio of \< 1 represents a lower hazard for the test treatment.|||2.167|0.542|0.8208
82520296|NCT01329029|164735773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977|STANDARD_ERROR_OF_MEAN|0.0865||0.7943|TWO_SIDED|95.0|0.821|1.162||Level of significance: 5% 2-sided.|Cox-proportional hazards model|||||1.162|0.821|0.7943
82520297|NCT00785291|164735812|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2||||0.054|TWO_SIDED|95.0|1.0|1.45||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative). P-values are for a test of inferiority 2-sided and are unadjusted for multiple comparisons.|Log Rank|||Stratified log-rank tests are used for the two primary comparisons of PFS within an experimental arm relative to PFS within the control arm. The family-wise error rate will be controlled at a one-sided 0.025 level. This is achieved in a 3-arm trial with a common control group by conducting the marginal log-rank tests with a one-sided α = 0.0135. Sample size calculations are based on having high power to detect a hazard ratio of 1.36, in the control arm as compared to the experimental arms.||1.45|1.00|0.054
82520298|NCT00785291|164735812|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.55|||<|0.0001|TWO_SIDED|95.0|1.28|1.87||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative). P-values are for a test of inferiority 2-sided and are unadjusted for multiple comparisons.|Log Rank|||Stratified log-rank tests are used for the two primary comparisons of PFS within an experimental arm relative to PFS within the control arm. The family-wise error rate will be controlled at a one-sided 0.025 level. This is achieved in a 3-arm trial with a common control group by conducting the marginal log-rank tests with a one-sided α = 0.0135. Sample size calculations are based on having high power to detect a hazard ratio of 1.36, in the control arm as compared to the experimental arms.||1.87|1.28|<0.0001
82520299|NCT00785291|164735816|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.2|TWO_SIDED|95.0|0.92|1.47||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative).|Log Rank|||||1.47|0.92|0.20
82520300|NCT00785291|164735816|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.28||||0.038|TWO_SIDED|95.0|1.01|1.61||Tests were stratified by prior taxane therapy (yes/no) and hormone receptor status (positive/negative).|Log Rank|||||1.61|1.01|0.038
82520301|NCT00886340|164735834|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||controlled for site, income, race/ethnicity|Mixed Models Analysis|||pilot test, used 20% of sample required for a full test of the hypothesis||||0.08
82520302|NCT03035292|164735839|SUPERIORITY||||||<|0.05||||||This value of \<0.05 is the calculated p value where the a priori threshold for statistical significance is considered to be p=0.05.|McNemar|||Sample size was based on a cataract prevalence of 20% in the enriched population and a predicted difference of 15% sensitivity and specificity between tests.||||<0.05
82520303|NCT03035292|164735841|SUPERIORITY||||||<|0.05||||||The calculated p value was \<0.05. A priori threshold for statistical significance is p=0.05|Fisher Exact|||Evidence of superiority of intervention 2 over intervention 1 requires a significant difference in specificity of the intervention 1 and 2 between ethnicity groups.||||<0.05
82520304|NCT03595579|164735851|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82520305|NCT03595579|164735852|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
82520306|NCT02216123|164735859|OTHER||Mean Difference (Final Values)|1.23|||||TWO_SIDED|95.0|-4.161|4.982|||||Confidence interval for the treatment difference was based on the Newcombe method. Percent treatment difference (TQ+CQ-PQ+CQ) has been presented.|||4.982|-4.161|
82520307|NCT02216123|164735861|OTHER||Hazard Ratio (HR)|0.984||||||95.0|0.577|1.678|||||Hazards ratio was estimated from Cox Proportional Hazards Model with treatment and region as covariates. A hazard ratio \<1 indicates a lower chance of relapse with TQ+CQ compared to PQ+CQ.|||1.678|0.577|
82520308|NCT02216123|164735862|OTHER||Hazard Ratio (HR)|0.815|||||TWO_SIDED|95.0|0.442|1.503|||||Hazard ratio was estimated from Cox Proportional Hazards Model with treatment and region as covariates. A hazard ratio\<1 indicates a lower chance of relapse with TQ+CQ compared to PQ+CQ.|||1.503|0.442|
82523246|NCT01499082|164741771|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.056|||TWO_SIDED|95.0|-0.112|0.107||||||Analysis was performed using an analysis of covariance (ANCOVA) model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the HbA1c baseline value as a covariate.||0.107|-0.112|
82384719|NCT04031846|164480886|NON_INFERIORITY|Non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-2.7|1.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 23F|95% CI is based on the Miettinen \& Nurminen method.|1.5|-2.7|< 0.001
82384720|NCT04031846|164480886|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage Difference|93.8|||<|0.001|TWO_SIDED|95.0|91.5|95.6||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 22F|95% CI is based on the Miettinen \& Nurminen method.|95.6|91.5|< 0.001
82384721|NCT04031846|164480886|SUPERIORITY|Superiority of V114 to Prevenar 13™ is based on the lower bound of the 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage Difference|94.9|||<|0.001|TWO_SIDED|95.0|92.7|96.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Serotype 33F|95% CI is based on the Miettinen \& Nurminen method.|96.5|92.7|< 0.001
82384722|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-1.7|0.4||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Diphtheria toxoid|95% CI is based on the Miettinen \& Nurminen method.|0.4|-1.7|< 0.001
82384723|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Tetanus toxoid|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
82384724|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.3|0.9||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis PT|95% CI is based on the Miettinen \& Nurminen method.|0.9|-1.3|< 0.001
82384725|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.0|0.5||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis FHA|95% CI is based on the Miettinen \& Nurminen method.|0.5|-1.0|< 0.001
82384726|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.3|0.3||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Pertussis PRN|95% CI is based on the Miettinen \& Nurminen method.|0.3|-1.3|< 0.001
82384727|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.3|2.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Hib PRP|95% CI is based on the Miettinen \& Nurminen method.|2.1|-1.3|< 0.001
82442625|NCT00740714|164594003|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|2.77|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|2.77|<0.05
82384728|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -10% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-2.0|0.0||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: HBsAg|95% CI is based on the Miettinen \& Nurminen method.|-0.0|-2.0|< 0.001
82384729|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.7||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 1|95% CI is based on the Miettinen \& Nurminen method.|0.7|-0.7|< 0.001
82384730|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.7||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 2|95% CI is based on the Miettinen \& Nurminen method.|0.7|-0.7|< 0.001
82520309|NCT02131272|164735892|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered fulfilled if the upper bound of the two-sided 95% confidence interval for the difference between detemir and NPH was below or equal to 0.4%. The sample size was set to ensure 80% power for the full analysis set (FAS). However, efficacy conclusions cannot be drawn from the analysis due to low number of subjects included in the trial.|Least squares mean difference|0.17||||0.3075|TWO_SIDED|95.0|-0.74|1.09||p value is reported for 1 sided test|Mixed Models Analysis|||HbA1c measurements were analysed with a mixed model for repeated measurements with an unstructured covariance matrix. The model included treatment, visit, age group, prior antidiabetic therapy and interaction between prior antidiabetic therapy and age group as fixed factors and the HbA1c baseline value as covariate. Interactions between visit and all factors and covariates were also included in the model.||1.09|-0.74|0.3075
82520310|NCT05159622|164735921|EQUIVALENCE|A net effect of 6 fluid oz/day (SD=1) was hypothesized among adult parents, assuming two sided alpha=0.05, power = 80%, and a minimum sample size of 60 adults.|Median Difference (Final Values)|3.2||||0.15|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05. P-value of the interaction between treatment group and change in beverage consumption (fl oz/day).|t-test, 2 sided|||||||0.15
82520311|NCT05159622|164735922|EQUIVALENCE|This was an exploratory outcome.|Median Difference (Final Values)|0.07||||0.98|TWO_SIDED||||||t-test, 2 sided|||||||0.98
82520312|NCT05159622|164735923|EQUIVALENCE|This was an exploratory outcome and therefore statistical power was not based on a hypothesis of this outcome.|Median Difference (Final Values)|0.64||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
82520313|NCT05159622|164735924|EQUIVALENCE|Exploratory outcome as for infants/toddlers based on parent-report|Median Difference (Final Values)|0.14||||0.92|TWO_SIDED||||||t-test, 2 sided|||||||0.92
82384731|NCT04031846|164480887|NON_INFERIORITY|Non-inferiority of Infanrix™ hexa administered concomitantly with V114 to Infanrix™ hexa administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the -5% specified non-inferiority margin (1-sided p-value \<0.025).|Percentage Difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.5|1.1||1-sided p-value|Miettinen & Nurminen||V114 minus Prevenar 13™|Percentage Difference: Poliovirus 3|95% CI is based on the Miettinen \& Nurminen method.|1.1|-0.5|< 0.001
82442626|NCT00740714|164594004|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.25|1.12|||Fisher Exact||Odds ration \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||1.12|0.25|<0.05
82520314|NCT05159622|164735925|EQUIVALENCE|Exploratory outcome|Median Difference (Final Values)|0.95||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82520315|NCT02163733|164735939|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|106.05|||||TWO_SIDED|90.0|94.82|118.6|||||Fed / Fasted ratio. Linear mixed-effects model with sequence, period, and treatment as fixed effects and subject nested within sequence as a random effect. Least squares geometric mean ratio (LSGMR) Fed = 7847, Fasted = 7399.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 6% change in exposure was also assumed.||118.60|94.82|
82520316|NCT02163733|164735940|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%|Geometric mean ratio|92.75|||||TWO_SIDED|90.0|81.4|105.68|||||Fed / Fasted ratio. Linear mixed-effects model with sequence, period, and treatment as fixed effects and subject nested within sequence as a random effect. LSGMR Fed = 208.0, Fasted = 224.3.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 6% change in exposure was also assumed.||105.68|81.40|
82520317|NCT02163733|164735948|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|81.15|||||TWO_SIDED|90.0|57.86|113.83|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 497.6, Fasted = 613.2.|AZ5104||113.83|57.86|
82520318|NCT02163733|164735948|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|88.21|||||TWO_SIDED|90.0|65.21|119.32|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 235.0, Fasted = 266.4.|AZ7550||119.32|65.21|
82637751|NCT05040295|164990230|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|101.12|||||TWO_SIDED|90.0|88.25|115.87|||||Reference = Treatment A Test = Treatment B Ratio=Test/Reference|Cmax was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||115.87|88.25|
82442627|NCT00740714|164594005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|0.64|8.01|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||8.01|0.64|<0.05
82384732|NCT04031846|164480888|NON_INFERIORITY|Non-inferiority of Rotarix™ administered concomitantly with V114 to Rotarix™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMT ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.8|1.16||1-sided p-value|t-distribution||V114/Prevenar 13™|GMT Ratio: CI, and p-value are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group||1.16|0.80|< 0.001
82384733|NCT04031846|164480889|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.73|0.88|||||V114 / Prevenar 13™|GMC Ratio Serotype 1: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.88|0.73|
82384734|NCT04031846|164480889|OTHER||GMC Ratio|1.85|||||TWO_SIDED|95.0|1.7|2.02|||||V114 / Prevenar 13™|GMC Ratio Serotype 3: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||2.02|1.70|
82384735|NCT04031846|164480889|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.19|||||V114 / Prevenar 13™|GMC Ratio Serotype 4: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.19|0.98|
82384736|NCT04031846|164480889|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.94|||||V114 / Prevenar 13™|GMC Ratio Serotype 5: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.94|0.74|
82384737|NCT04031846|164480889|OTHER||GMC Ratio|0.45|||||TWO_SIDED|95.0|0.4|0.52|||||V114 / Prevenar 13™|GMC Ratio Serotype 6A: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.52|0.40|
82384738|NCT04031846|164480889|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.0|1.41|||||V114 / Prevenar 13™|GMC Ratio Serotype 6B: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.41|1.00|
82384739|NCT04031846|164480889|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.76|0.91|||||V114 / Prevenar 13™|GMC Ratio Serotype 7F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.91|0.76|
82520319|NCT02163733|164735949|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|76.68|||||TWO_SIDED|90.0|55.31|106.32|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 9.163, Fasted = 11.95.|AZ5104||106.32|55.31|
82384740|NCT04031846|164480889|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.77|0.96|||||V114 / Prevenar 13™|GMC Ratio Serotype 9V: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.96|0.77|
82520320|NCT02163733|164735949|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|82.92|||||TWO_SIDED|90.0|60.99|112.74|||||Fed / Fasted ratio. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis. Linear mixed-effects model with treatment as fixed effect. LSGMR Fed = 4.236, Fasted = 5.109.|AZ7550||112.74|60.99|
82637752|NCT05040295|164990230|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Ratio of adjust geometric means|90.11|||||TWO_SIDED|90.0|78.49|103.44|||||Reference = Treatment A Test = Treatment C Ratio=Test/Reference|Cmax was analyzed using a mixed effects model with sequence and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model.||103.44|78.49|
82637753|NCT00346775|164990240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.517|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||||0.3|-0.6|0.517
82384741|NCT04031846|164480889|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.66|0.86|||||V114 / Prevenar 13™|GMC Ratio Serotype 14: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.86|0.66|
82384742|NCT04031846|164480889|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||V114 / Prevenar 13™|GMC Ratio Serotype 18C: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.95|0.77|
82384743|NCT04031846|164480889|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.7|0.87|||||V114 / Prevenar 13™|GMC Ratio Serotype 19A: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.87|0.70|
82384744|NCT04031846|164480889|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.7|0.85|||||V114 / Prevenar 13™|GMC Ratio Serotype 19F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||0.85|0.70|
82384745|NCT04031846|164480889|OTHER||GMC Ratio|1.22|||||TWO_SIDED|95.0|1.07|1.4|||||V114 / Prevenar 13™|GMC Ratio Serotype 23F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||1.40|1.07|
82384746|NCT04031846|164480889|OTHER||GMC Ratio|57.69|||||TWO_SIDED|95.0|51.2|65.0|||||V114 / Prevenar 13™|GMC Ratio Serotype 22F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||65.00|51.20|
82520321|NCT03148470|164735958|OTHER|||||||0.932||||||This p-value refers to the effect of stimulation (cTBS vs iTBS).|Mixed Models Analysis|||||||0.932
82520322|NCT03148470|164735959|OTHER|||||||0.642|||||||Mixed Models Analysis|||||||0.642
82520323|NCT02633800|164735990|OTHER|Both Log-rank test and Cox regression analysis did not adjust stratification factors.|Hazard Ratio (HR)|0.9291||||0.8342|TWO_SIDED|95.0|0.4856|1.7778||Unstratified Log-rank p-value|Log Rank|||Heregulin-high population - Patritumab vs Placebo||1.7778|0.4856|0.8342
82520324|NCT00000392|164735994|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||ANOVA|||||||0.18
82523247|NCT01499082|164741772|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.79||||0.0045|TWO_SIDED|95.0|0.67|0.93|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method with treatment as a factor and stratified on strata of screening HbA1c (\<8.0 and \>=8.0%).||0.93|0.67|0.0045
82523248|NCT01499082|164741773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.162||0.6909|TWO_SIDED|95.0|-0.383|0.254|||ANCOVA|||Change in pre-injection SMPG was analyzed using an ANCOVA model with treatment, strata of screening HbA1c (\<8.0 and \>=8.0%), and country as fixed effects and using the pre-injection SMPG baseline value as a covariate. A test for superiority of HOE901-U300 over Lantus was to be performed one-sided at level alpha = 0.025 if previous analysis for nocturnal hypoglycemia was significant.||0.254|-0.383|0.6909
82523249|NCT01499082|164741782|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|-0.189|0.298||||||Analysis was performed using Analysis of covariance (ANCOVA) model with treatment regimen and country as fixed effects and baseline HbA1c value as a covariate.||0.298|-0.189|
82523250|NCT01786967|164741783|SUPERIORITY|This was a pilot study to provide preliminary data to inform future sample size estimates for a larger more definitive trial|Risk Ratio (RR)|0.96||||1|TWO_SIDED|95.0|0.53|1.71|||Fisher Exact|||Null hypothesis was that there will be no difference in treatment benefit scale between the two groups||1.71|0.53|1.0
82523251|NCT01786967|164741784|SUPERIORITY||Risk Ratio (RR)|0.85||||1|TWO_SIDED|95.0|0.76|0.95|||Fisher Exact|||Null hypothesis was that there was no difference in the rate of moderate to severe adverse events.||.95|.76|1.0
82523252|NCT02963974|164741785|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed CNC Word scores from 3 months through 24 months to evaluate change over time with device use. Scores were converted to Rau prior to analysis.||||< 0.001
82523253|NCT02963974|164741785|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||Analyzed pre-op to 3 month post activation CNC Word scores to test superiority of cochlear implant use to pre-operative hearing aid use.||||< 0.001
82523254|NCT02963974|164741787|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05. This was a two-way repeated measures ANOVA.|ANOVA|||Analyzed BKB-SIN SNR-50 scores at 12 months post activation to evaluate the impact of device use (CI off vs on) and masker location (front, to the affected ear, or to the normal hearing ear) on hearing in noise.||||< 0.001
82523255|NCT02963974|164741788|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed BKB-SIN SNR-50 scores across all time points (6, 12, and 24 months post activation) to evaluate the impact of time, device use (CI off vs on), and masker location (front, to the affected ear, or to the normal hearing ear) on hearing in noise.||||< 0.001
82523256|NCT02963974|164741792|SUPERIORITY|||||||0.01911||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analyzed overall RMS error at 3, 9, 18, and 24 months post activation to evaluate the impact of device use (CI off vs on) and time on localization.||||0.01911
82523257|NCT02963974|164741793|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Speech subtest.||||< 0.001
82523258|NCT02963974|164741793|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Spatial subtest.||||0.001
82523259|NCT02963974|164741793|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores across time to investigate change in scores over time: Qualities subtest.||||< 0.001
82523260|NCT02963974|164741794|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores over time.||||< 0.001
82523261|NCT02963974|164741795|SUPERIORITY|||||||0.1009||||||The a priori threshold for statistical significance was p \< 0.05|Mixed Models Analysis|||Comparison of scores to evaluation change over time: General Fatigue Subtest||||0.1009
82523262|NCT02963974|164741795|SUPERIORITY|||||||0.109||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores to evaluation change over time: Sleep Fatigue Subtest||||0.109
82523263|NCT02963974|164741795|SUPERIORITY|||||||0.1733||||||The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|||Comparison of scores to evaluation change over time: Cognitive Fatigue Subtest||||0.1733
82523264|NCT05380947|164741802|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|135.2|||||TWO_SIDED|90.0|99.7|183.6|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 39.7%|||183.6|99.7|
82523265|NCT05380947|164741802|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|74.2|||||TWO_SIDED|90.0|67.6|81.6|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 9.8%|||81.6|67.6|
82523266|NCT05380947|164741802|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|97.1|||||TWO_SIDED|90.0|85.8|110.0|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual geometric coefficient of variation (gCV) = 13.8%|||110.0|85.8|
82384747|NCT04031846|164480889|OTHER||GMC Ratio|6.24|||||TWO_SIDED|95.0|5.46|7.14|||||V114 / Prevenar 13™|GMC Ratio Serotype 33F: CI are calculated using the t-distribution with the variance estimate from a serotype-specific linear model utilizing the natural log-transformed antibody concentrations as the response and a single term for vaccination group.||7.14|5.46|
82384748|NCT04031846|164480890|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-4.4|0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 1|95% CI are based on the Miettinen \& Nurminen method.|0.3|-4.4|
82384749|NCT04031846|164480890|OTHER||Percentage Difference|25.7|||||TWO_SIDED|95.0|21.1|30.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 3|95% CI are based on the Miettinen \& Nurminen method.|30.3|21.1|
82384750|NCT04031846|164480890|OTHER||Percentage Difference|-2.9|||||TWO_SIDED|95.0|-5.7|-0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 4|95% CI are based on the Miettinen \& Nurminen method.|-0.3|-5.7|
82384751|NCT04031846|164480890|OTHER||Percentage Difference|-3.9|||||TWO_SIDED|95.0|-8.1|0.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 5|95% CI are based on the Miettinen \& Nurminen method.|0.3|-8.1|
82637754|NCT03410693|164990244|SUPERIORITY||ORR difference (R-C)|-2.1|||=|0.6991|TWO_SIDED|95.0|-14.0|9.9|||Fisher Exact|||||9.9|-14.0|=0.6991
82637755|NCT03410693|164990244|SUPERIORITY||ORR difference (R - C)|-4.5|||=|0.7944|TWO_SIDED|95.0|-18.9|9.9|||Fisher Exact|||||9.9|-18.9|=0.7944
82637756|NCT03410693|164990245|SUPERIORITY||DCR difference (R-C)|-5.1|||=|0.7962|TWO_SIDED|95.0|-19.9|9.7|||Fisher Exact|||||9.7|-19.9|=0.7962
82637757|NCT03410693|164990245|SUPERIORITY||DCR difference (R-C)|-10.3|||=|0.9109|TWO_SIDED|95.0|-27.5|6.9|||Fisher Exact|||||6.9|-27.5|=0.9109
82637758|NCT03410693|164990246|SUPERIORITY||Hazard Ratio (HR)|1.226|||=|0.8672|TWO_SIDED|95.0|0.853|1.762|||Log Rank|||||1.762|0.853|= 0.8672
82384752|NCT04031846|164480890|OTHER||Percentage Difference|-19.4|||||TWO_SIDED|95.0|-23.9|-15.0|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 6A|95% CI are based on the Miettinen \& Nurminen method.|-15.0|-23.9|
82384753|NCT04031846|164480890|OTHER||Percentage Difference|4.6|||||TWO_SIDED|95.0|-1.5|10.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 6B|95% CI are based on the Miettinen \& Nurminen method.|10.7|-1.5|
82637759|NCT03410693|164990246|SUPERIORITY||Hazard Ratio (HR)|1.341||||0.9171|TWO_SIDED|95.0|0.88|2.043|||Log Rank|||||2.043|0.880|0.9171
82637760|NCT01789476|164990249|SUPERIORITY_OR_OTHER||||||<|0.05||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.05
82384754|NCT04031846|164480890|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-2.9|0.5|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 7F|95% CI are based on the Miettinen \& Nurminen method.|0.5|-2.9|
82384755|NCT04031846|164480890|OTHER||Percentage Difference|-6.7|||||TWO_SIDED|95.0|-10.1|-3.5|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 9V|95% CI are based on the Miettinen \& Nurminen method.|-3.5|-10.1|
82637761|NCT01789476|164990250|SUPERIORITY_OR_OTHER||||||<|0.03||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.03
82637762|NCT01789476|164990251|SUPERIORITY_OR_OTHER||||||<|0.03||||||One-sided ANOVA with Treatment Group as a Main Effect|ANOVA|||||||<0.03
82637763|NCT00665366|164990262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04||||0.058|TWO_SIDED|95.0|-4.14|0.07|||ANCOVA|||||0.07|-4.14|0.058
82637764|NCT00665366|164990263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.669|TWO_SIDED|95.0|-0.16|0.25|||ANOVA/ANCOVA||Week 3|||0.25|-0.16|0.669
82384756|NCT04031846|164480890|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.6|1.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 14|95% CI are based on the Miettinen \& Nurminen method.|1.7|-2.6|
82384757|NCT04031846|164480890|OTHER||Percentage Difference|-0.7|||||TWO_SIDED|95.0|-3.9|2.6|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 18C|95% CI are based on the Miettinen \& Nurminen method.|2.6|-3.9|
82384758|NCT04031846|164480890|OTHER||Percentage Difference|-1.2|||||TWO_SIDED|95.0|-3.5|1.0|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 19A|95% CI are based on the Miettinen \& Nurminen method.|1.0|-3.5|
82520325|NCT04124926|164736058|NON_INFERIORITY|The noninferiority of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in EE rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|8.3|||<|0.0001|TWO_SIDED|95.0|4.49|12.23||2-sided p-value.|Farrington and Manning test||The 2-sided 95% confidence interval (CI) of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||12.23|4.49|<0.0001
82637765|NCT00665366|164990263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.436|TWO_SIDED|95.0|-0.36|0.16|||ANOVA/ANCOVA||Week 6|||0.16|-0.36|0.436
82384759|NCT04031846|164480890|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.0|0.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 19F|95% CI are based on the Miettinen \& Nurminen method.|0.7|-2.0|
82384760|NCT04031846|164480890|OTHER||Percentage Difference|6.6|||||TWO_SIDED|95.0|1.3|11.9|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 23F|95% CI are based on the Miettinen \& Nurminen method.|11.9|1.3|
82384761|NCT04031846|164480890|OTHER||Percentage Difference|90.4|||||TWO_SIDED|95.0|87.4|92.7|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 22F|95% CI are based on the Miettinen \& Nurminen method.|92.7|87.4|
82384762|NCT04031846|164480890|OTHER||Percentage Difference|45.9|||||TWO_SIDED|95.0|41.3|50.3|||||V114 minus Prevenar 13™|Percentage Difference: Serotype 33F|95% CI are based on the Miettinen \& Nurminen method.|50.3|41.3|
82384763|NCT04031846|164480893|OTHER|Percentage difference and CI are based on the Miettinen \& Nurminen method.|Percentage Difference|15.8|||||TWO_SIDED|95.0|12.9|19.2|||||V114 minus Prevenar 13™|Percentage Difference: V114 Serotype 22F minus Prevenar 13™ Serotype 3||19.2|12.9|
82637766|NCT00665366|164990263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.053|TWO_SIDED|95.0|-0.56|0.0|||ANOVA/ANCOVA||Week 9|||0.00|-0.56|0.053
82637767|NCT00665366|164990263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.044|TWO_SIDED|95.0|-0.59|-0.01|||ANOVA/ANCOVA||Week 12|||-0.01|-0.59|0.044
82637768|NCT00665366|164990264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.24|TWO_SIDED|95.0|-0.22|0.06|||ANOVA/ANCOVA model||Week 3|||0.06|-0.22|0.240
82637769|NCT00665366|164990264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.843|TWO_SIDED|95.0|-0.15|0.19|||ANOVA/ANCOVA model||Week 6|||0.19|-0.15|0.843
82637770|NCT00665366|164990264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.117|TWO_SIDED|95.0|-0.04|0.35|||ANOVA/ANCOVA model||Week 9|||0.35|-0.04|0.117
82637771|NCT00665366|164990264|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.17||||0.109|TWO_SIDED|95.0|-0.04|0.38|||ANOVA/ANCOVA model|Week 12||||0.38|-0.04|0.109
82637772|NCT00665366|164990265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.567|TWO_SIDED|95.0|-0.37|0.2|||ANOVA/ANCOVA model|Week 12||||0.20|-0.37|0.567
82637773|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.566|TWO_SIDED|95.0|-1.66|3.03|||ANCOVA||Total score: Week 3|||3.03|-1.66|0.566
82384764|NCT04031846|164480893|OTHER|Percentage difference and CI are based on the Miettinen \& Nurminen method.|Percentage Difference|15.3|||||TWO_SIDED|95.0|12.2|18.7|||||V114 minus Prevenar 13™|Percentage Difference: V114 Serotype 33F minus Prevenar 13™ Serotype 3||18.7|12.2|
82637774|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66||||0.221||95.0|-1.0|4.32|||ANCOVA||Total score: Week 6|||4.32|-1.00|0.221
82637775|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||0.315|TWO_SIDED|95.0|-1.4|4.35|||ANCOVA||Total score: Week 9|||4.35|-1.40|0.315
82637776|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||0.212|TWO_SIDED|95.0|-1.08|4.84|||ANCOVA||Total score: Week 12|||4.84|-1.08|0.212
82637777|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.49|0.48|||ANCOVA||Autonomy score: Week 3|||0.48|-0.49|0.991
82637778|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.201|TWO_SIDED|95.0|-0.18|0.85|||ANCOVA||Autonomy score: Week 6|||0.85|-0.18|0.201
82637779|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.198|TWO_SIDED|95.0|-0.19|0.93|||ANCOVA||Autonomy score: Week 9|||0.93|-0.19|0.198
82637780|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.178|TWO_SIDED|95.0|-0.18|0.96|||ANCOVA||Autonomy score: Week 12|||0.96|-0.18|0.178
82637781|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.311|TWO_SIDED|95.0|-1.01|0.32|||ANCOVA||Occupational functioning score: Week 3|||0.32|-1.01|0.311
82637782|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.671|TWO_SIDED|95.0|-0.94|0.61|||ANCOVA||Occupational functioning score: Week 6|||0.61|-0.94|0.671
82637783|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.968|TWO_SIDED|95.0|-0.83|0.79|||ANCOVA||Occupational functioning score: Week 9|||0.79|-0.83|0.968
82637784|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.546|TWO_SIDED|95.0|-0.56|1.07|||ANCOVA||Occupational functioning score: Week 12|||1.07|-0.56|0.546
82637785|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.284|TWO_SIDED|95.0|-0.28|0.96|||ANCOVA||Cognitive functioning score: Week 3|||0.96|-0.28|0.284
82637786|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.063|TWO_SIDED|95.0|-0.04|1.35|||ANCOVA||Cognitive functioning score: Week 6|||1.35|-0.04|0.063
82637787|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.09|TWO_SIDED|95.0|-0.1|1.34|||ANCOVA||Cognitive functioning score: Week 9|||1.34|-0.10|0.090
82637788|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.072|TWO_SIDED|95.0|-0.06|1.42|||ANCOVA||Cognitive functioning score: Week 12|||1.42|-0.06|0.072
82637789|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.499|TWO_SIDED|95.0|-0.45|0.93|||ANCOVA||Interpersonal relationships score: Week 3|||0.93|-0.45|0.499
82637790|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.457|TWO_SIDED|95.0|-0.48|1.06|||ANCOVA||Interpersonal relationships score: Week 6|||1.06|-0.48|0.457
82637791|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.525||95.0|-0.56|1.1|||ANCOVA||Interpersonal relationships score: Week 9|||1.10|-0.56|0.525
82637792|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.544|TWO_SIDED|95.0|-0.58|1.09|||ANCOVA||Interpersonal relationships score: Week 12|||1.09|-0.58|0.544
82637793|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.149|TWO_SIDED|95.0|-0.08|0.52|||ANCOVA||Leisure time score: Week 3|||0.52|-0.08|0.149
82637794|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.264|TWO_SIDED|95.0|-0.15|0.54|||ANCOVA||Leisure time score: Week 6|||0.54|-0.15|0.264
82637795|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-0.35|0.35|||ANCOVA||Leisure time score: Week 9|||0.35|-0.35|0.988
82384765|NCT03782792|164480894|OTHER||Risk Difference (RD)|0.487||||0.0004|TWO_SIDED|95.0|0.215|0.672||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the primary endpoint on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.672|0.215|0.0004
82384766|NCT03782792|164480895|OTHER||Risk Difference (RD)|0.317||||0.0118|TWO_SIDED|95.0|0.022|0.527||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.527|0.022|0.0118
82384767|NCT03782792|164480896|OTHER||Risk Difference (RD)|0.346||||0.0081|TWO_SIDED|95.0|0.058|0.554||One-sided P Value.|Suissa-Shuster Z-pooled test||Risk difference=Response rate of spesolimab - response rate of placebo.|The Suissa-Shuster Z-pooled test was implemented to test the treatment effect on the RS (estimand EN) at a 1-sided, alpha level of 0.025. Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.554|0.058|0.0081
82637796|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.641|TWO_SIDED|95.0|-0.27|0.44|||ANCOVA||Leisure time score: Week 12|||0.44|-0.27|0.641
82637797|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.068|TWO_SIDED|95.0|-0.02|0.61|||ANCOVA||Financial issues score: Week 3|||0.61|-0.02|0.068
82637798|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.019|TWO_SIDED|95.0|0.07|0.74|||ANCOVA||Financial issues score: Week 6|||0.74|0.07|0.019
82384768|NCT03782792|164480897|OTHER|||||||0.0012||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0012
82384769|NCT03782792|164480898|OTHER|||||||0.0044||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0044
82384770|NCT03782792|164480899|OTHER|||||||0.0012||||||One-sided P Value.|Wilcoxon (Mann-Whitney)|||The effect of spesolimab was evaluated by a Wilcoxon rank test using the RS. Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 were assigned worst ranks for the testing. Missing data at Week 4 were imputed and handled via assessment of ranks.|The difference between treatments, based on the RS, using a modified Hodges-Lehmann (HL) estimate of the median difference and 95% Confidence Intervals could not be calculated due to lack of valid data.|||0.0012
82384771|NCT03782792|164480900|OTHER||Risk Difference (RD)|0.375|||||TWO_SIDED|95.0|0.058|0.581|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.581|0.058|
82384772|NCT03782792|164480901|OTHER||Risk Difference (RD)|0.403|||||TWO_SIDED|95.0|0.096|0.607|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.607|0.096|
82637799|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.136|TWO_SIDED|95.0|-0.08|0.6|||ANCOVA||Financial issues score: Week 9|||0.60|-0.08|0.136
82384773|NCT03782792|164480902|OTHER||Risk Difference (RD)|0.432|||||TWO_SIDED|95.0|0.096|0.636|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.636|0.096|
82384774|NCT03782792|164480904|OTHER||Risk Difference (RD)|0.151|||||TWO_SIDED|95.0|-0.138|0.401|||||Risk difference=Response rate of spesolimab - response rate of placebo.|Confidence intervals (95%) around the risk difference were produced using the Chan and Zhang method.||0.401|-0.138|
82384775|NCT03782792|164480905|OTHER||Median Difference (Final Values)|-16.88|||||TWO_SIDED|95.0|-67.32|12.76|||||Median difference was calculated by modified Hodges-Lehmann method.|Any assessments after death, the use of escape medication (before or after Day 8), open label spesolimab on Day 8, or rescue medication with spesolimab after Day 8 and assigned with the worst possible outcomes in rank analysis. Missing data at Week 4 were imputed and handled via assessment of ranks.||12.76|-67.32|
82384776|NCT04506463|164480922|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.850
82384777|NCT04506463|164480922|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||||||0.085
82384778|NCT04506463|164480922|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||||||0.850
82384779|NCT04506463|164480923|SUPERIORITY|||||||0.062|||||||Mixed Models Analysis|||||||0.062
82384780|NCT04506463|164480923|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82384781|NCT04506463|164480923|SUPERIORITY|||||||0.936|||||||Mixed Models Analysis|||||||0.936
82384782|NCT04506463|164480924|SUPERIORITY|||||||0.042|||||||Mixed Models Analysis|||||||0.042
82384783|NCT04506463|164480924|SUPERIORITY|||||||0.037|||||||Mixed Models Analysis|||||||0.037
82384784|NCT04506463|164480924|SUPERIORITY|||||||0.648|||||||Mixed Models Analysis|||||||0.648
82384785|NCT01436370|164480938|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain.||||0.145
82384786|NCT01436370|164480938|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain||||0.145
82384787|NCT01436370|164480938|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain.||||0.999
82384788|NCT01436370|164480946|SUPERIORITY_OR_OTHER|||||||0.182|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain||||0.182
82384789|NCT01436370|164480946|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain.||||0.500
82384790|NCT01436370|164480946|SUPERIORITY_OR_OTHER|||||||0.087|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain.||||0.087
82384791|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.234|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain at Day 7.||||0.234
82384792|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||This is the comparison for the B/Brisbane/60/2008 strain at Day 180.||||0.250
82384793|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.145|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 7.||||0.145
82384794|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 180.||||0.500
82384795|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 7.||||0.999
82637800|NCT00665366|164990266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.18||95.0|-0.11|0.57|||ANCOVA||Financial issues score: Week 12|||0.57|-0.11|0.18
82520326|NCT04124926|164736059|NON_INFERIORITY|The noninferiority of each dose group of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in maintenance of healing rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|8.7|||<|0.0001|TWO_SIDED|95.0|1.8|15.53||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE maintenance rates between each vonoprazan group and lansoprazole group was calculated via the Miettinen and Nurminen method.|||15.53|1.80|<0.0001
82637801|NCT00665366|164990267|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.466|TWO_SIDED|95.0|0.81|1.59|||Ration of response||Week 3|||1.59|0.81|0.466
82384796|NCT01436370|164480947|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 180.||||0.500
82384797|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.716|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 7.||||0.716
82384798|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 180.||||0.999
82384799|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.503|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 7.||||0.503
82523267|NCT05380947|164741803|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|139.3|||||TWO_SIDED|90.0|87.7|221.3|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 62.3%|||221.3|87.7|
82637802|NCT00665366|164990267|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.54|TWO_SIDED|95.0|0.86|1.32|||Risk ratio||Week 6|||1.32|0.86|0.540
82637803|NCT00665366|164990267|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.06|TWO_SIDED|95.0|0.99|1.38|||Risk ratio||Week 9|||1.38|0.99|0.060
82384800|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 180.||||0.475
82384801|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.182|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 7.||||0.182
82384802|NCT01436370|164480948|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 180.||||0.014
82384803|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.317|||||||McNemar|||This is the comparison for the B/Brisbane/60/2008 strain at Day 21.||||0.317
82384804|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.564|||||||McNemar|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 21.||||0.564
82384805|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.999|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.999
82637804|NCT00665366|164990267|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.289|TWO_SIDED|95.0|0.94|1.23|||Risk ratio|||||1.23|0.94|0.289
82572134|NCT04198948|164853642|EQUIVALENCE|Sample size calculation was performed using SAS Proc Power procedure for equivalence test in 2x2 crossover design. For an equivalence range of 80-125%, the within-subject coefficient of variation for the AUC values for gliclazide of 7.8% based on previous PK studies, and expected test/reference geometric mean ratios between 87-115%, 14 volunteers (7 individuals per sequence) are required to show the lack of interaction with 85% power.|Geometric least square mean ratio|1.13|||||TWO_SIDED|90.0|0.86|1.48|||||The TOST (two one-sided test) test of equivalence showed that the geometric mean ratio and 90% CI for gliclazide AUC(0-24) between omeprazole and placebo phase was 1.13 (0.86-1.48), with upper confidence limit above the usual 1.25 boundary.|The main evaluated outcome was systemic exposure to gliclazide, expressed as AUC(0-t). The geometric mean was calculated for gliclazide AUC(0-24). The ratio of the geometric means with 90% CIs was assessed by linear mixed models between the two treatment assignments: gliclazide and omeprazole co-administration to that of gliclazide and placebo. The obtained 90% CI was compared with the equivalence 0.8-1.25 range.||1.48|0.86|
82637805|NCT00665366|164990268|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.909|TWO_SIDED|95.0|0.75|1.39|||Risk ratio (RR)||Week 3|||1.39|0.75|0.909
82572135|NCT04198948|164853643|SUPERIORITY|||||||0.636|||||||t-test, 2 sided|||||||0.636
82572136|NCT04198948|164853644|SUPERIORITY|||||||0.055|||||||t-test, 2 sided|||||||0.055
82572137|NCT02312206|164853688|SUPERIORITY||Hazard Ratio (HR)|0.826||||0.3028|TWO_SIDED|95.0|0.5735|1.1889|||Log Rank|||||1.1889|0.5735|0.3028
82572138|NCT01006616|164853693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.031||||0.325|TWO_SIDED|95.0|-0.03|0.091|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and inhaled corticosteroid (ICS) use (yes/no)||||0.091|-0.030|0.325
82572139|NCT01006616|164853693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.029||||0.37|TWO_SIDED|95.0|-0.091|0.034|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and ICS use (yes/no)||||0.034|-0.091|0.370
82572140|NCT01006616|164853693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.037|TWO_SIDED|95.0|0.004|0.131|||Constrained Longitudinal Data Analysis|Model with treatment, time, treatment by time interaction, and baseline smoking status (yes/no) and ICS use (yes/no)||||0.131|0.004|0.037
82572141|NCT01006616|164853694|SUPERIORITY_OR_OTHER||Difference in percentages|2.6||||0.096|TWO_SIDED|95.0|-0.6|6.9|||Miettinen and Nurminen||Analysis of Week 26 data|||6.9|-0.6|0.096
82572142|NCT01006616|164853694|SUPERIORITY_OR_OTHER||Difference in percentages|12.2|||<|0.001|TWO_SIDED|95.0|7.4|18.4|||Miettinen and Nurminen||Analysis of Week 26 data|||18.4|7.4|<0.001
82572143|NCT01006616|164853694|SUPERIORITY_OR_OTHER||Difference in percentages|19.7|||<|0.001|TWO_SIDED|95.0|13.8|26.9|||Miettinen and Nurminen||Analysis of Week 26 data|||26.9|13.8|<0.001
82572144|NCT00736125|164853727|EQUIVALENCE|nonparametric data were analyzed using Mann Whitney U Tests|||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82572145|NCT00736125|164853728|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82572146|NCT04974723|164853729|NON_INFERIORITY|Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.81|1.1||||||||1.10|0.81|
82572147|NCT04974723|164853730|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.89|1.3||||||Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.||1.30|0.89|
82572148|NCT04974723|164853731|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.95|1.22||||||Cox proportional hazard model was used to calculate the hazard ratio with teriparatide as reference. Noninferiority of abaloparatide to teriparatide was to be concluded if the upper bound of the 2-sided 95% CI of the HR between abaloparatide versus teriparatide was \<1.3.||1.22|0.95|
82637806|NCT00665366|164990268|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.573|TWO_SIDED|95.0|0.86|1.3|||RR||Week 6|||1.30|0.86|0.573
82637807|NCT00665366|164990268|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.08|TWO_SIDED|95.0|0.98|1.36|||RR||Week 9|||1.36|0.98|0.080
82572149|NCT00992992|164853739|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|56.0|||||TWO_SIDED|95.0|37.0|75.0|||||The estimated value reflects the percentage of participants with unconfirmed complete response (CR).|||75|37|
82572150|NCT00992992|164853739|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|8.0|||||TWO_SIDED|95.0|0.0|19.0|||||The estimated value reflects the percentage of participants with unconfirmed complete response unconfirmed (CRu).|||19|0|
82572151|NCT00992992|164853739|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants|20.0|||||TWO_SIDED|95.0|4.0|36.0|||||The estimated value reflects the percentage of participants with unconfirmed partial response.|||36|4|
82637808|NCT00665366|164990268|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.211|TWO_SIDED|95.0|0.95|1.27|||RR||Week 12|||1.27|0.95|0.211
82637809|NCT00665366|164990269|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68|||||TWO_SIDED|95.0|0.07|1.29|||ANOVA/ANCOVA model||Week 6|||1.29|0.07|
82637810|NCT00665366|164990269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.031|TWO_SIDED|95.0|0.08|1.58|||ANOVA/ANCOVA model||Week 12|||1.58|0.08|0.031
82637811|NCT00665366|164990269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.104|TWO_SIDED|95.0|-0.13|1.34|||ANOVA/ANCOVA model||Week 12 (LOCF)|||1.34|-0.13|0.104
82637812|NCT00665366|164990270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.21|0.32|||ANCOVA||Week 3|||0.32|-0.21|
82637813|NCT00665366|164990270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.05|0.53|||ANCOVA||Week 6|||0.53|-0.05|
82637814|NCT00665366|164990270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.197|TWO_SIDED|95.0|-0.11|0.54|||ANCOVA||Week 12|||0.54|-0.11|0.197
82520327|NCT04124926|164736059|NON_INFERIORITY|The noninferiority of each dose group of vonoprazan to lansoprazole was evaluated with a Farrington and Manning test with a noninferiority margin of 10 percentage points for the difference in maintenance of healing rates between treatments (vonoprazan minus lansoprazole).|difference in percentage|7.2|||<|0.0001|TWO_SIDED|95.0|0.21|14.09||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE maintenance rates between each vonoprazan group and lansoprazole group was calculated via the Miettinen and Nurminen method.|||14.09|0.21|<0.0001
82520328|NCT04124926|164736059|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.||||||0.0136||||||2-sided p-value.|Farrington and Manning test|||||||0.0136
82520329|NCT04124926|164736059|SUPERIORITY|The superiority of the vonoprazan 10 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.||||||0.0436||||||2-sided p-value.|Farrington and Manning test|||||||0.0436
82520330|NCT04124926|164736060|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.7|||||TWO_SIDED|95.0|-1.6|7.03|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between vonoprazan 20 mg and lansoprazole 30 mg was calculated from Welch's t-test.|||7.03|-1.60|
82637815|NCT00665366|164990270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.111|TWO_SIDED|95.0|-0.07|0.63|||ANCOVA||Week 12 (LOCF)|||0.63|-0.07|0.111
82637816|NCT00665366|164990271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.983|TWO_SIDED|95.0|-0.63|0.64|||ANOVA/ANCOVA model||Week 12 LOCF|||0.64|-0.63|0.983
82637817|NCT00665366|164990272|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|0.57|3.71|||Risk Ratio|Weight gain||||3.71|0.57|
82384806|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.564|||||||McNemar|||This is the comparison for the B/Brisbane/60/2008 strain at Day 21.||||0.564
82384807|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.999|||||||McNemar|||This is the comparison for the A/Perth/16/2009 (A/H3N2) strain at Day 21.||||0.999
82520331|NCT04124926|164736061|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|17.6||||0.0008|TWO_SIDED|95.0|7.44|27.43||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||27.43|7.44|0.0008
82520332|NCT04124926|164736062|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|2.3||||0.4392|TWO_SIDED|95.0|-3.5|8.04||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in sustained resolution rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||8.04|-3.50|0.4392
82520333|NCT04124926|164736063|SUPERIORITY|Observed p-value and not a formal test per the preplanned fixed-sequence testing procedure. The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|19.6|||<|0.0001|TWO_SIDED|95.0|11.84|27.58||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||27.58|11.84|<0.0001
82520334|NCT04124926|164736064|SUPERIORITY|Observed p-value and not a formal test per the preplanned fixed-sequence testing procedure. The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|6.1||||0.0348|TWO_SIDED|95.0|0.53|11.6||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in EE healing rates between vonoprazan 20 mg and lansoprazole 30 mg was calculated via the Miettinen and Nurminen method.|||11.60|0.53|0.0348
82637818|NCT00665366|164990273|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.582||95.0|||||ANCOVA|||||||0.582
82384808|NCT01436370|164480950|SUPERIORITY_OR_OTHER|||||||0.655|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.655
82384809|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.18|||||||McNemar|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 21.||||0.180
82384810|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.763|||||||McNemar|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 21.||||0.763
82384811|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.096|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.096
82384812|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.157|||||||McNemar|||This is the comparison for the B/Wisconsin/1/2010 strain at Day 21||||0.157
82384813|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.705|||||||McNemar|||This is the comparison for the A/Victoria/361/2011 (A/H3N2) strain at Day 21.||||0.705
82637819|NCT03039686|164990545|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-2.17|1.27|||||Based on the MMRM using an unstructured covariance matrix -change = Baseline + Age Interactive response system (IXRS) Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||1.27|-2.17|
82637820|NCT03039686|164990545|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.1|2.26|||||Based on the MMRM using an unstructured covariance matrix -change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||2.26|-1.10|
82442628|NCT00740714|164594006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|STANDARD_ERROR_OF_MEAN|0.0198|<|0.05|TWO_SIDED|95.0|0.55|3.24|||Fisher Exact||Odds ratio of \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||3.24|0.55|<0.05
82442629|NCT00740714|164594007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0197|<|0.05|TWO_SIDED|95.0|0.48|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|0.48|<0.05
82520335|NCT04124926|164736065|SUPERIORITY|The superiority of the vonoprazan 20 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|15.7||||0.0196|TWO_SIDED|95.0|2.5|28.44||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in maintenance rates between each vonoprazan group and lansoprazole 15 mg group was calculated via the Miettinen and Nurminen method.|||28.44|2.50|0.0196
82520336|NCT04124926|164736065|SUPERIORITY|The superiority of the vonoprazan 10 mg group to lansoprazole group p-value was evaluated with a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|difference in percentage|13.3||||0.049|TWO_SIDED|95.0|0.02|26.14||2-sided p-value.|Farrington and Manning test||The 2-sided 95% CI of the difference in maintenance rates between each vonoprazan group and lansoprazole 15 mg group was calculated via the Miettinen and Nurminen method.|||26.14|0.02|0.0490
82442630|NCT00740714|164594008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9999.98|STANDARD_ERROR_OF_MEAN|0.0196|<|0.05|TWO_SIDED|95.0|2.51|9999.99|||Fisher Exact||Odds ratio \>1 indicates a higher frequency in active treatment group.|All adverse experiences were tabulated by treatment group, severity and perceived relationship to study medication. Fisher's exact test was used to compare active treatment arms to the placebo arm with regard to the proportion of subjects experiencing a particular adverse experience.||9999.99|2.51|<0.05
82442631|NCT03688555|164594009|SUPERIORITY||LS means difference|0.76|STANDARD_ERROR_OF_MEAN|0.301|=|0.062|TWO_SIDED|95.0|-0.06|1.59||All Nasal Polyp Score (NPS) values observed between baseline and Week 12 were included in the analysis. Changes from baseline to post-baseline visits in NPS were analyzed using a Mixed Model for Repeated Measurement (MMRM).|Mixed model for repeated measurements|||||1.59|-0.06|= 0.062
82520337|NCT04124926|164736066|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.0|||||TWO_SIDED|95.0|-2.63|6.72|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between each vonoprazan group and the lansoprazole group was calculated from Welch's t-test.|||6.72|-2.63|
82520338|NCT04124926|164736066|NON_INFERIORITY|If the lower bound of the CI was greater than -15%, noninferiority would be concluded.|difference in mean percentage|2.3|||||TWO_SIDED|95.0|-2.27|6.84|||||The 2-sided 95% CI of the difference in mean percentage of 24-hour heartburn-free days between each vonoprazan group and the lansoprazole group was calculated from Welch's t-test.|||6.84|-2.27|
82637821|NCT03039686|164990547|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.21|0.2|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.20|-0.21|
82637822|NCT03039686|164990547|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.12|0.27|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.27|-0.12|
82384814|NCT01436370|164480951|SUPERIORITY_OR_OTHER|||||||0.132|||||||McNemar|||This is the comparison for the A/California/7/2009 (A/H1N1) strain at Day 21.||||0.132
82384815|NCT01754129|164480955|OTHER||||||<|0.001||||||Missing values were replaced using the Last Observation Carried Forward (LOCF) technique for data of questionnaires. Missing data at Visit 3 was replaced with the (non-missing) data recorded at Visit 2.|Paired t-test|||Mean change from baseline to Visit 3||||<0.001
82442632|NCT03688555|164594010|SUPERIORITY||LS means difference|-3.98|STANDARD_ERROR_OF_MEAN|2.316|=|0.161|TWO_SIDED|95.0|-10.41|2.45|||ANCOVA|||||2.45|-10.41|= 0.161
82442633|NCT00394901|164594023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.262||95.0|-0.85|0.23|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.23|-0.85|0.262
82442634|NCT00394901|164594023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.002||95.0|-1.39|-0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.32|-1.39|0.002
82442635|NCT00394901|164594023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.019||95.0|-1.15|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.15|0.019
82442636|NCT00394901|164594024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.016||95.0|-1.16|-0.12|||ANCOVA|The model included treatment group modified based on the expected pregabalin exposure as a factor, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.12|-1.16|0.016
82442637|NCT00394901|164594024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.008||95.0|-1.14|-0.17|||ANCOVA|The model included treatment group modified based on the expected pregabalin exposure as a factor, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.14|0.008
82384816|NCT01754129|164480955|OTHER||||||<|0.001|||||||Paired t-test|||Change from baseline to Visit 2||||<0.001
82384817|NCT00651261|164480970|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.009|TWO_SIDED|95.0|0.63|0.96|||1-sided stratified log-rank|||||0.96|0.63|0.009
82384818|NCT00651261|164480971|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.0024|TWO_SIDED|95.0|0.66|0.93|||1-sided stratified log rank|||||0.93|0.66|0.0024
82520339|NCT02167074|164736073|OTHER|The chi-square test (with Yates' correction when appropriate) or the Fisher exact test was used to compare the two needle types|||||<|0.05|||||||Chi-squared|||||||<0.05
82520340|NCT02013622|164736078|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures (MMRM) method with model terms: baseline, visit, and baseline by visit interaction.||The null hypothesis of zero in mean change from Baseline in PANSS Total Score at Week 16 was tested at significance level of 0.05. Since this is an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
82520341|NCT02013622|164736079|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||<0.0001
82520342|NCT02013622|164736080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||<0.0001
82520343|NCT02013622|164736083|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0003
82520344|NCT02013622|164736084|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0002
82572152|NCT02250534|164853760|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
82520345|NCT02013622|164736085|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16||||0.0177
82520346|NCT02013622|164736086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 effectiveness||||<0.0001
82520347|NCT02013622|164736086|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 side effects||||0.0031
82520348|NCT02013622|164736086|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 convenience||||0.0005
82520349|NCT02013622|164736086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis at Week 16 in TSQM-14 global satisfaction||||<0.0001
82520350|NCT02013622|164736087|SUPERIORITY_OR_OTHER|||||||0.5133|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task p-inhibition failures (go cues)||||0.5133
82520351|NCT02013622|164736087|SUPERIORITY_OR_OTHER|||||||0.3774|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task p-inhibition failures (no-go cues)||||0.3774
82637823|NCT03039686|164990549|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.0|0.06|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.06|-0.00|
82637824|NCT03039686|164990549|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.0|0.06|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.06|-0.00|
82637825|NCT03039686|164990551|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.08|0.27|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.27|-0.08|
82520352|NCT02013622|164736088|SUPERIORITY_OR_OTHER|||||||0.8897|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task mean reaction time (go cues)||||0.8897
82520353|NCT02013622|164736088|SUPERIORITY_OR_OTHER|||||||0.3401|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in Go/No-go task mean reaction time (no-go cues)||||0.3401
82520354|NCT02013622|164736089|SUPERIORITY_OR_OTHER|||||||0.4265|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DDT||||0.4265
82520355|NCT02013622|164736090|SUPERIORITY_OR_OTHER|||||||0.2923|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DPDT for Delay Discounting Task k value||||0.2923
82520356|NCT02013622|164736090|SUPERIORITY_OR_OTHER|||||||0.9416|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DPDT for Probability Discounting Task h value||||0.9416
82520357|NCT02013622|164736091|SUPERIORITY_OR_OTHER|||||||0.1815|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in DRT||||0.1815
82520358|NCT02013622|164736092|SUPERIORITY_OR_OTHER|||||||0.6648|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in AUC for food||||0.6648
82520359|NCT02013622|164736092|SUPERIORITY_OR_OTHER|||||||0.9812|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16 in AUC for money||||0.9812
82520360|NCT02013622|164736094|SUPERIORITY_OR_OTHER|||||||0.0306|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 16||||0.0306
82520361|NCT02308748|164736135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8||||0.025|TWO_SIDED|95.0|-25.2|-14.3||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in QTc interval on the ECG measured in milliseconds when dofetilide is administered with mexiletine compared to when dofetilide is administered alone at evening dose on treatment day.||-14.3|-25.2|0.025
82520362|NCT02308748|164736135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.7||||0.025|TWO_SIDED|95.0|-25.2|-14.1||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in QTc interval on the ECG measured in milliseconds when dofetilide is administered with lidocaine compared to when dofetilide is administered alone at evening dose on treatment day.||-14.1|-25.2|0.025
82572153|NCT02250534|164853760|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.03 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 6.07 CPD between the 0.8 mg and 0.03 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-5.57|-9.51|<0.0001
82572154|NCT00458393|164853767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.577|STANDARD_ERROR_OF_MEAN|0.105||0.002|TWO_SIDED|95.0|0.404|0.824||secondary p-value given.|Log Rank|stratified by site|Efron correction for ties. Placebo is reference. Results typically quoted as efficacy = 100\*(1-HR)|Primary null hypothesis: Relative hazard of 0.7 or less. Secondary null hypothesis: Relative hazard of 1.0 or less.||.824|.404|0.002
82572155|NCT00458393|164853768|SUPERIORITY||Risk Ratio (RR)|1.33||||0.28|TWO_SIDED|95.0|0.79|2.25||p-value is not adjusted for multiple comparisons, a priori threshold for statistical significance was p \< 0.05|Fisher Exact||||Extensive analysis and methods published in https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3966916/|2.25|0.79|0.28
82572156|NCT00458393|164853769|SUPERIORITY||Risk Ratio (RR)|1.3||||0.54|TWO_SIDED|95.0|0.57|2.96|||Fisher Exact|||||2.96|.57|0.54
82384819|NCT00651261|164480973|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Fisher Exact|||||||0.15
82572157|NCT00458393|164853770|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.5|TWO_SIDED|95.0|0.65|1.23|||Log Rank|||||1.23|0.65|0.50
82637826|NCT03039686|164990551|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.17|0.18|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||0.18|-0.17|
82384820|NCT00651261|164480974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||1-sided stratified log rank|||||||0.0049
82384821|NCT01134107|164480980|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.36|||||TWO_SIDED|95.0|0.06|0.66|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline HbA1c|This was the primary gated analysis.||0.66|0.06|
82572158|NCT00458393|164853771|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.92|TWO_SIDED|95.0|0.79|1.23|||Log Rank|||||1.23|0.79|0.92
82520363|NCT02308748|164736135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.2||||0.025|TWO_SIDED|95.0|-28.0|-18.3||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in J-Tpeakc interval on the ECG measured in milliseconds when dofetilide is administered with mexiletine compared to when dofetilide is administered alone at evening dose on treatment day.||-18.3|-28.0|0.025
82384822|NCT01134107|164480981|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.18|||||TWO_SIDED|95.0|-0.1|0.47|||||Least Squares Mean Difference = Insulin Lispro 6 Day (Day 1-6) minus Insulin Aspart 6 Day (Day 1-6); adjusted for Treatment + Sequence + Period + Baseline HbA1c|||0.47|-0.10|
82520364|NCT02308748|164736135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.5||||0.025|TWO_SIDED|95.0|-25.5|-15.5||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||Change in J-Tpeakc interval on the ECG measured in milliseconds when dofetilide is administered with lidocaine compared to when dofetilide is administered alone at evening dose on treatment day.||-15.5|-25.5|0.025
82384823|NCT01134107|164480981|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.6 mmol/L was used.|Least Squares Mean Difference|0.42|||||TWO_SIDED|95.0|0.25|0.58|||||Least Squares Mean Difference = Insulin Lispro 6 Day (Day 6) minus Insulin Lispro 6 Day (Day 2); adjusted for DayGroup + Period + Baseline HbA1c|||0.58|0.25|
82572159|NCT00458393|164853772|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Null hypothesis of no difference||||1.00
82384824|NCT01134107|164480982|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.38|||||TWO_SIDED|95.0|-0.13|0.88|||||Daily Total Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.88|-0.13|
82520365|NCT02308748|164736136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.025|TWO_SIDED|95.0|-1.0|6.7||Adjustment for multiple comparisons was performed according to the Bonferroni method.|Mixed Models Analysis|||||6.7|-1|0.025
82572160|NCT00458393|164853772|SUPERIORITY|Desc|Risk Difference (RD)|0.0||||1|TWO_SIDED||||||Fisher Exact|||||||1.00
82520366|NCT01994954|164736137|SUPERIORITY||||||<|0.03||||||A two-sided P-value of 0.05 or less was interpreted as a statistically significant result.|t-test, 2 sided|||The trial was designed to have 97% power at a type I error rate of 5% to detect a 25% intervention effect with respect to the primary outcome. this was done using an independent sample t-test. P-value was calculated, and a p-value of 0.05 or less was interpreted as statistically significant result.||||<0.03
82384825|NCT01134107|164480982|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|||||TWO_SIDED|95.0|-0.26|0.31|||||Daily Basal Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.31|-0.26|
82384826|NCT01134107|164480982|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|||||TWO_SIDED|95.0|-0.15|0.6|||||Daily Bolus Insulin: Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Sequence + Period + Baseline Insulin Basal/Bolus/Total Dose|||0.60|-0.15|
82520367|NCT01994954|164736138|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Power calculations were based on the primary analysis (t-test comparing changes). A sample size of 130 would have given 80% power, with 0.05 two sided type 1 error rate, to detect a 20% absolute difference in emotional role limitation on the PedsQL v2.0, which we considered to be statistically significant.||||0.38
82520368|NCT00417079|164736183|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A 2-sided significance level of 0.0452 was used for the final analysis based on an interim analysis performed after 307 events with an adjusted significance level of 0.016 based on the O'Brien-Fleming type 1 error spending function.|Log Rank|Analysis was performed by using a log-rank comparisons stratified according to disease measurability and ECOG performance status (0-1 versus 2)||The study required an estimated sample size of 720 patients (360 per arm) in order to detect a 25% reduction in the hazard ratio for death in the cabazitaxel group relative to the mitoxantrone group with 90% power. The final analysis was planned for when 511 deaths had occurred.||||<0.0001
82520369|NCT00417079|164736184|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
82384827|NCT01134107|164480983|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16|||||TWO_SIDED|95.0|0.08|0.24|||||Least Squares Mean Difference = Insulin Lispro 6 Day minus Insulin Aspart 6 Day; adjusted for Treatment + Period + Sequence + Baseline HbA1c|||0.24|0.08|
82384828|NCT01134107|164480984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.39|1.63|||||Odds Ratio of HbA1c ≤6.5% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||1.63|0.39|
82520370|NCT00417079|164736185|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Chi-squared|||||||0.0005
82384829|NCT01134107|164480984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36|||||TWO_SIDED|95.0|0.2|0.63|||||Odds Ratio of HbA1c \<7% for Insulin Lispro 6 Day versus Insulin Aspart 6 Day.|||0.63|0.20|
82384830|NCT01134107|164480985|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for Total Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Total Dose.|Crossover Model|||||||0.595
82384831|NCT01134107|164480985|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||P-value for Basal Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Basal Dose.|Crossover Model|||||||0.506
82520371|NCT00417079|164736186|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61|||<|0.0001|TWO_SIDED|95.0|0.49|0.76|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||0.76|0.49|<0.0001
82572161|NCT00458393|164853773|SUPERIORITY||Mean Difference (Net)|-0.91||||0.001|TWO_SIDED|||||\< 0.05 for statistical significance. no adjustment for multiple comparisons|Mixed Models Analysis|||||||0.001
82384832|NCT01134107|164480985|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value for Bolus Insulin Dose computed using Crossover model: Variable = Treatment + Sequence + Period + Baseline Insulin Bolus Dose.|Crossover Model|||||||0.790
82384833|NCT01134107|164480987|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||negative binomial test|P-value computed using a negative binomial test including factors for treatment, period and sequence.||||||0.059
82384834|NCT01134107|164480988|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for overall pump complications associated with a premature reservoir change computed using Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used.|Gart's Test|||||||1.00
82442638|NCT00394901|164594025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.1160
82572162|NCT00458393|164853774|SUPERIORITY||Median Difference (Net)|-3.8||||0.009|TWO_SIDED|95.0|-6.6|-0.95|||median regression|||||-0.95|-6.6|0.009
82572163|NCT00458393|164853775|SUPERIORITY||Median Difference (Net)|0.0||||1|TWO_SIDED|95.0|-9.3|9.3|||median regression|||||9.3|-9.3|1.00
82384835|NCT01134107|164480988|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value for overall pump complications associated with a premature infusion set change computed using Gart's Test. Participants represented in both treatment groups and with non-missing incidence value in each treatment period are used.|Gart's Test|||||||0.472
82384836|NCT01134107|164480989|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||P-value for Premature Reservoir Change computed using negative binomial test including factors for treatment, period and sequence.|negative binomial test|||||||0.383
82384837|NCT01134107|164480989|SUPERIORITY_OR_OTHER|||||||0.499||95.0||||P-value for Premature Infusion Set Change computed using negative binomial test including factors for treatment, period and sequence.|negative binomial test|||||||0.499
82384838|NCT01134107|164480990|SUPERIORITY_OR_OTHER|||||||1||95.0||||The p-value is for the Documented Hypoglycemic Episodes category treatment arm comparison. The p-value for the All Reported Hypoglycemic Episodes category could not be generated using Gart's Test.|Gart's Test|Participants represented in both treatment groups, and with non-missing incidence value in each treatment period, were used for p-value calculation.||||||1.00
82384839|NCT01134107|164480991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Negative Binomial Test|P-value computed using a negative binomial test including factors for treatment, period and sequence.||||||<0.001
82384840|NCT01134107|164480992|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Crossover Model|P-value computed using crossover model. Response = treatment + sequence + period + baseline body weight||||||<0.001
82384841|NCT01134107|164480993|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||P-value for the Systolic Blood Pressure (SBP) computed using crossover model. Response = treatment + sequence + period + baseline systolic blood pressure.|Crossover Model|||||||0.147
82442639|NCT00394901|164594025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0015||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0015
82442640|NCT00394901|164594025|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0107||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Proportion of responders were used for the statistical analyses. Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0107
82442641|NCT00394901|164594026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51||||0.038||95.0|-0.99|-0.03|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.03|-0.99|0.038
82572164|NCT00458393|164853776|SUPERIORITY||Median Difference (Net)|-2.2||||0.19|TWO_SIDED|95.0|-5.5|1.1|||median regression|||||1.1|-5.5|0.19
82442642|NCT00394901|164594026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.002||95.0|-1.22|-0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.27|-1.22|0.002
82520372|NCT00417079|164736187|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.75||||0.001|TWO_SIDED|95.0|0.63|0.9|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||0.90|0.63|0.0010
82520373|NCT00417079|164736188|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Chi-squared|||||||0.0002
82520374|NCT00417079|164736189|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.5192|TWO_SIDED|95.0|0.69|1.19|||Log Rank|Log-rank comparisons stratified according to disease measurability and ECOG performance status.|Hazard ratio (HR) \< 1 favours the cabazitaxel group and \> 1 favours the mitoxantrone group.|||1.19|0.69|0.5192
82520375|NCT00417079|164736190|SUPERIORITY_OR_OTHER|||||||0.6286||95.0|||||Chi-squared|||||||0.6286
82520376|NCT01022762|164736191|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be shown if the upper limit of the 95% confidence interval was less than 0.4%. This corresponds to a one-sided test with a significance level of 2.5% of the hypothesis.|Mean Difference (Net)|0.014|STANDARD_ERROR_OF_MEAN|0.066||||95.0|-0.115|0.143||The p-value corresponds to one-sided hypotheses of superiority with a significance level of 2.5%.|ANCOVA|ANCOVA model was with treatment, centre as explanatory variables and baseline HbA1c value as covariate.|If non-inferiority of repaglinide alone was shown, a test for superiority would be performed based on FAS. Superiority of repaglinide alone over gliclazide alone would be claimed if the upper limit of the 95% CI for the difference was lower than 0%.|H0: Change from baseline in HbA1c of repaglinide therapy at 16 weeks of treatment - change from baseline in HbA1c of gliclazide therapy at 16 weeks of treatment \>= 0.4%. H1: Change from baseline in HbA1c of repaglinide therapy at 16 weeks of treatment - change from baseline in HbA1c of gliclazide therapy at 16 weeks of treatment \< 0.4%. Sample size was calculated to achieve a power of at least 85%, assuming an equal change in HbA1c and a common standard deviation of 1.2%.||0.143|-0.115|
82572165|NCT00458393|164853777|SUPERIORITY||Mean Difference (Net)|0.08||||0.56|TWO_SIDED|95.0|-0.18|0.33|||t-test, 2 sided|||||0.33|-.18|0.56
82572166|NCT00458393|164853778|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||Null hypothesis is the proportion of mutations is identical.|Detailed resistance data is found at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4176446/|||1.00
82572167|NCT00458393|164853779|SUPERIORITY||Mean Difference (Net)|-7.0||||0.32|TWO_SIDED|95.0|-69.0|54.0|||Mixed Models Analysis|||||54|-69|0.32
82572168|NCT00458393|164853780|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.005||||0.53|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||Null hypothesis is equal proportion of pills returned||0.01|-0.02|0.53
82572169|NCT00458393|164853781|SUPERIORITY||Mean Difference (Net)|0.25||||0.7|TWO_SIDED|95.0|-1.1|1.6|||t-test, 2 sided||||Detailed methods and results are available at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4110718/|1.6|-1.1|0.70
82384842|NCT01134107|164480993|SUPERIORITY_OR_OTHER|||||||0.894||95.0||||P-value for Diastolic Blood Pressure (DBP) computed using crossover model. Response = treatment + sequence + period + baseline diastolic blood pressure.|Crossover Model|||||||0.894
82637827|NCT03039686|164990553|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|-6.76|2.77|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||2.77|-6.76|
82637828|NCT03039686|164990553|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|-3.71|5.63|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||5.63|-3.71|
82377541|NCT00486525|164462477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.064||0.015|TWO_SIDED|95.0|-0.28|-0.031|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.031|-0.28|0.015
82377542|NCT00486525|164462477|SUPERIORITY_OR_OTHER||Slope|-0.022|STANDARD_ERROR_OF_MEAN|0.021||0.3|TWO_SIDED|95.0|-0.063|0.019|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (IL-6) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.019|-0.063|0.3
82377543|NCT00486525|164462477|SUPERIORITY_OR_OTHER||Slope|-0.056|STANDARD_ERROR_OF_MEAN|0.022||0.01|TWO_SIDED|95.0|-0.098|-0.013|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (IL-6) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.013|-0.098|0.01
82377544|NCT00486525|164462478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.33|TWO_SIDED|95.0|-0.31|0.11|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.11|-0.31|0.33
82384843|NCT00687271|164480994|OTHER||Difference in Percentage Change|-10.0|||||TWO_SIDED|95.0|-14.6|-5.5|||Longitudinal Data Analysis (LDA) model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-5.5|-14.6|
82384844|NCT00687271|164480994|OTHER||Difference in Percentage Change|-17.9|||||TWO_SIDED|95.0|-23.4|-12.5|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-12.5|-23.4|
82384845|NCT00687271|164480997|OTHER||Difference in Percentage Change|-8.6|||||TWO_SIDED|95.0|-12.7|-4.4|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-4.4|-12.7|
82384846|NCT00687271|164480997|OTHER||Diffence in Percentage Change|-13.9|||||TWO_SIDED|95.0|-18.9|-8.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-8.9|-18.9|
82442643|NCT00394901|164594026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.002||95.0|-1.19|-0.26|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.19|0.002
82442644|NCT00394901|164594027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.048||95.0|-0.97|0.0|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.00|-0.97|0.048
82520377|NCT01565707|164736202|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|12.1|STANDARD_ERROR_OF_MEAN|6.0||0.046|TWO_SIDED|95.0|0.2|24.0|||ANCOVA|From an ANCOVA (analysis of covariance) model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||"The following hypotheses were tested at the 2-sided significance level 0.05:~* H0: Change from baseline to EoT in mean MVV per micturition is the same for placebo and solifenacin succinate oral suspension~* H1: Change from baseline to EoT in mean MVV per micturition is not the same for placebo and solifenacin succinate oral suspension"||24.0|0.2|0.046
82520378|NCT01565707|164736202|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|15.7|||TWO_SIDED|95.0|-36.7|27.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||27.4|-36.7|
82637829|NCT03039686|164990556|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|11.5|||TWO_SIDED|95.0|-21.1|24.6|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||24.6|-21.1|
82637830|NCT03039686|164990556|SUPERIORITY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|11.3|||TWO_SIDED|95.0|-11.0|33.6|||||Based on the MMRM using an unstructured covariance matrix - change = Baseline + Age IXRS Stratum + Corticosteroid Regimen IXRS Stratum + Analysis Visit\*Treatment.|||33.6|-11.0|
82384847|NCT00687271|164480998|OTHER||Difference in Percentage Change|-7.7|||||TWO_SIDED|95.0|-11.5|-3.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-3.9|-11.5|
82384848|NCT00687271|164480998|OTHER||Difference in Percentage Change|-12.2|||||TWO_SIDED|95.0|-16.8|-7.6|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-7.6|-16.8|
82384849|NCT00687271|164480999|OTHER||Difference in Percentage Change|-7.4|||||TWO_SIDED|95.0|-10.8|-4.1|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-4.1|-10.8|
82384850|NCT00687271|164480999|OTHER||Difference in Percentage Change|-11.0|||||TWO_SIDED|95.0|-15.1|-7.0|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||-7.0|-15.1|
82384851|NCT00687271|164481000|OTHER||Dfferecne in Percentage Change|-2.4|||||TWO_SIDED|95.0|-6.6|1.8|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||1.8|-6.6|
82384852|NCT00687271|164481000|OTHER||Difference in Percentage Change|-0.7|||||TWO_SIDED|95.0|-5.8|4.4|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||4.4|-5.8|
82384853|NCT00687271|164481001|OTHER||Difference in Percentage Change|-1.0|||||TWO_SIDED|95.0|-7.7|5.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||5.9|-7.7|
82442645|NCT00394901|164594027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.99|||<|0.001||95.0|-1.47|-0.52|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.47|<0.001
82520379|NCT01565707|164736203|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|31.9|STANDARD_ERROR_OF_MEAN|13.9||0.024|TWO_SIDED|95.0|4.3|59.5|||ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||59.5|4.3|0.024
82384854|NCT00687271|164481001|OTHER||Difference in Percentage Change|5.5|||||TWO_SIDED|95.0|-4.6|16.9|||LDA model|LDA model includes factors for time, treatment, baseline triglyceride (TG) category, and time-by treatment interactions.||||16.9|-4.6|
82384855|NCT05483686|164481002|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||This analysis aims to detect a significant change (p = .05) in percentage of participants with HIV transmission risk between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.19
82384856|NCT05483686|164481003|SUPERIORITY||||||=|0.24|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in ART adherence between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||=.24
82442646|NCT00394901|164594027|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03|||<|0.001||95.0|-1.49|-0.56|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.49|<0.001
82442647|NCT00394901|164594028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.096||95.0|-0.89|0.07|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.07|-0.89|0.096
82520380|NCT01565707|164736203|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-17.3|STANDARD_ERROR_OF_MEAN|29.1|||TWO_SIDED|95.0|-76.5|41.9|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||41.9|-76.5|
82572170|NCT00458393|164853782|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|||||Not adjusted for multiple comparisons and the a priori threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
82384857|NCT05483686|164481004|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in condom use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.79
82384858|NCT05483686|164481005|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to ART use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.81
82384859|NCT05483686|164481006|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to PrEP use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.14
82384860|NCT05483686|164481007|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in barriers to condom use between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.81
82384861|NCT05483686|164481008|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in social support between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.30
82384862|NCT05483686|164481009|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||This analysis aims to detect a significant change (p = .05) in gender identity comfort between Shine Intervention participants and Control Videos participants from Baseline to Month 6.||||.94
82384863|NCT02727478|164481017|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||< 0.001
82384864|NCT02727478|164481018|SUPERIORITY||||||=|0.001|||||||ANOVA|||||||=0.001
82384865|NCT02727478|164481019|OTHER|||||||0.254|||||||Wilcoxon (Mann-Whitney)|||||||0.254
82384866|NCT02727478|164481020|SUPERIORITY||||||=|0.065|||||||Wilcoxon (Mann-Whitney)|||||||=0.065
82384867|NCT02727478|164481021|SUPERIORITY||||||=|0.301|||||||ANOVA|||||||=0.301
82384868|NCT02727478|164481022|SUPERIORITY||||||=|0.792|||||||ANOVA|||||||=0.792
82384869|NCT02727478|164481023|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82384870|NCT01017874|164481027|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.217|TWO_SIDED|95.0|0.63|1.13|||Wilcoxon (Mann-Whitney)|||||1.13|0.63|0.217
82637831|NCT00727246|164990576|OTHER|||||||0.85|TWO_SIDED|95.0|||||ANOVA|A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores between groups and CDP-Choline or placebo||A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores of individuals with a history of TBI as compared to healthy controls 6 weeks after treatment with CDP Choline (1000 mg CDP-Choline 2 x per day for 6 weeks) as compared to those treated with placebo. A mean index score created as a composite cognitive performance across domains (higher t-score = higher cognition). Purpose was to serve as a measure of overall cognitive functioning for data analysis.||||.85
82384871|NCT01017874|164481028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.788|TWO_SIDED|95.0|0.68|1.31|||Wilcoxon (Mann-Whitney)|||||1.31|0.68|0.788
82384872|NCT01017874|164481031|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.252|TWO_SIDED|95.0|0.63|1.14|||Wilcoxon (Mann-Whitney)|||||1.14|0.63|0.252
82384873|NCT01017874|164481032|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.952|TWO_SIDED|95.0|0.53|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.53|0.952
82384874|NCT02105987|164481205|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is -10%.|Mean Difference (Net)|-3.4|||||TWO_SIDED|95.0|-9.1|2.4|||Cochran-Mantel-Haenszel||Based on Cochran-Mantel Haenszel stratified analysis adjusting for the following Baseline stratification factor: Original ART third agent class (PI, NNRTI, or INI).|||2.4|-9.1|
82384875|NCT02105987|164481207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-2.0|1.4|||Cochran-Mantel-Haenszel||Based on Cochran-Mantel Haenszel stratified analysis adjusting for the following Baseline stratification factor: Original ART third agent class (PI, NNRTI, or INI).|||1.4|-2.0|
82384876|NCT02105987|164481212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.096|TWO_SIDED|95.0|-0.02|0.23|||ANCOVA||Statistical analysis of cholesterol is presented|||0.23|-0.02|0.096
82384877|NCT02105987|164481212|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.07||||0.167|TWO_SIDED|95.0|-0.03|0.18|||ANCOVA||Statistical analysis of LDL cholesterol is presented|||0.18|-0.03|0.167
82384878|NCT02105987|164481212|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.317|TWO_SIDED|95.0|-0.02|0.06|||ANCOVA||Statistical analysis of HDL cholesterol is presented|||0.06|-0.02|0.317
82384879|NCT02105987|164481212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.187|TWO_SIDED|95.0|-0.05|0.27|||ANCOVA||Statistical analysis of triglycerides is presented|||0.27|-0.05|0.187
82442648|NCT00394901|164594028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||<|0.001||95.0|-1.44|-0.48|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.48|-1.44|<0.001
82442649|NCT00394901|164594028|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.99|||<|0.001||95.0|-1.46|-0.52|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.46|<0.001
82384880|NCT02105987|164481213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.175|TWO_SIDED|95.0|-0.04|0.25|||ANCOVA||Statistical analysis of total cholesterol/HDL cholesterol ratio is presented|||0.25|-0.04|0.175
82384881|NCT02105987|164481214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4|||<|0.001|TWO_SIDED|95.0|1.3|3.5|||ANCOVA||Statistical analysis for total score is presented|||3.5|1.3|<0.001
82384882|NCT02105987|164481214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.002|TWO_SIDED|95.0|0.4|1.7|||ANCOVA||Statistical analysis for general satisfaction/clinical subscale score is presented|||1.7|0.4|0.002
82442650|NCT00394901|164594029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55||||0.505||95.0|-2.16|1.06|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.06|-2.16|0.505
82520381|NCT01565707|164736204|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.763|TWO_SIDED|95.0|-0.3|0.4||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.4|-0.3|0.763
82384883|NCT02105987|164481214|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|||<|0.001|TWO_SIDED|95.0|0.8|1.8|||ANCOVA||Statistical analysis for lifestyle/ease subscale is presented|||1.8|0.8|<0.001
82384884|NCT02105987|164481215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.51|||<|0.001|TWO_SIDED|95.0|4.86|8.16|||ANCOVA|||||8.16|4.86|<0.001
82384885|NCT02105987|164481216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.87|||<|0.001|TWO_SIDED|95.0|-8.64|-5.11|||ANCOVA|||||-5.11|-8.64|<0.001
82520382|NCT01565707|164736204|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.8|1.0|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.0|-0.8|
82637832|NCT00727246|164990577|OTHER|||||||0.329|TWO_SIDED|0.95|||||ANOVA|A repeated measures ANOVA was completed to evaluate differences in cognitive composite scores between groups and CDP-Choline or placebo||A repeated measure ANOVA was completed to evaluate potential differences in cognitive composite scores of individuals with a history of TBI as compared to healthy controls 6 weeks after treatment with CDP Choline (1000 mg CDP-Choline 2 x per day for 6 weeks) as compared to those treated with placebo.||||.329
82384886|NCT02105987|164481217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||<|0.001|TWO_SIDED|95.0|-0.17|-0.1|||ANCOVA|||||-0.10|-0.17|<0.001
82384887|NCT02105987|164481218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.375|TWO_SIDED|95.0|-0.31|0.12|||ANCOVA|||||0.12|-0.31|0.375
82384888|NCT02105987|164481219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.749|TWO_SIDED|95.0|-0.93|1.3|||ANCOVA|||||1.30|-0.93|0.749
82384889|NCT02105987|164481220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.82|0.9||Bone specific alkaline phosphatase|ANCOVA|||||0.90|0.82|<0.001
82637833|NCT03814499|164990578|OTHER||Coefficient|-2.3|||<|0.01|TWO_SIDED||||||Regression, Linear|||||||<0.01
82637834|NCT03814499|164990579|OTHER||Coefficient|-3.8|||<|0.01|TWO_SIDED||||||Regression, Linear|||||||<0.01
82384890|NCT02105987|164481220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91||||0.002|TWO_SIDED|95.0|0.85|0.96||Osteocalcin|ANCOVA|||||0.96|0.85|0.002
82384891|NCT02105987|164481220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|-0.09||||0.001|TWO_SIDED|95.0|-0.15|-0.04||Procollagen 1 n-terminal propeptide|ANCOVA|||||-0.04|-0.15|0.001
82384892|NCT02105987|164481220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91||||0.001|TWO_SIDED|95.0|0.86|0.96||Type I collagen c-telopeptides|ANCOVA|||||0.96|0.86|0.001
82637835|NCT03814499|164990580|OTHER||Coefficient|369.9||||0.3269|TWO_SIDED||||||Regression, Linear|||||||0.3269
82384893|NCT02105987|164481221|SUPERIORITY_OR_OTHER||Geometric Mean ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.57|0.72||Fatty acid binding protein 2|ANCOVA|||||0.72|0.57|<0.001
82384894|NCT02105987|164481221|SUPERIORITY_OR_OTHER||Geometric Mean ratio|1.08||||0.311|TWO_SIDED|95.0|0.93|1.24||Interleukin 6|ANCOVA|||||1.24|0.93|0.311
82384895|NCT02105987|164481221|SUPERIORITY_OR_OTHER||Geometric Mean ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.89|0.96||Soluble CD14|ANCOVA|||||0.96|0.89|<0.001
82384896|NCT02105987|164481221|SUPERIORITY_OR_OTHER||Geometric Mean ratio|1.01||||0.742|TWO_SIDED|95.0|0.95|1.08||Soluble vasc cell adhesion molecule 1|ANCOVA|||||1.08|0.95|0.742
82384897|NCT02105987|164481222|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0||||0.999|TWO_SIDED|95.0|0.84|1.19|||ANCOVA|||||1.19|0.84|0.999
82384898|NCT02105987|164481223|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0||||0.981|TWO_SIDED|95.0|0.91|1.1|||ANCOVA|||||1.10|0.91|0.981
82384899|NCT02105987|164481224|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97||||0.64|TWO_SIDED|95.0|0.85|1.11|||ANCOVA|||||1.11|0.85|0.640
82637836|NCT03814499|164990581|OTHER||Coefficient|365.4||||0.4265|TWO_SIDED||||||Regression, Linear|||||||0.4265
82520383|NCT01565707|164736205|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.402|TWO_SIDED|95.0|-0.5|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-0.5|0.402
82384900|NCT02105987|164481225|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97||||0.645|TWO_SIDED|95.0|0.87|1.09|||ANCOVA|||||1.09|0.87|0.645
82384901|NCT02105987|164481226|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01||||0.577|TWO_SIDED|95.0|0.97|1.06|||ANCOVA|||||1.06|0.97|0.577
82384902|NCT02105987|164481227|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01||||0.687|TWO_SIDED|95.0|0.98|1.03|||ANCOVA|||||1.03|0.98|0.687
82520384|NCT01565707|164736205|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.5|0.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.4|-1.5|
82520385|NCT01565707|164736206|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.63|TWO_SIDED|95.0|0.0|0.2||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.2|0.0|0.630
82520386|NCT01565707|164736206|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.2|0.2|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate..|||0.2|-0.2|
82520387|NCT01565707|164736207|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.563|TWO_SIDED|95.0|-1.0|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-1.0|0.563
82520388|NCT01565707|164736207|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.6|1.9|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.9|-1.6|
82637837|NCT03814499|164990582|OTHER||Coefficient|264.3||||0.4782|TWO_SIDED||||||Regression, Linear|||||||0.4782
82637838|NCT03814499|164990583|OTHER||Coefficient|730.2||||0.2716|TWO_SIDED||||||Regression, Linear|||||||0.2716
82520389|NCT01565707|164736208|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.77|TWO_SIDED|95.0|-0.9|0.3||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.3|-0.9|0.770
82572171|NCT00458393|164853783|SUPERIORITY||Median Difference (Final Values)|0.0||||0.76|TWO_SIDED|95.0|-0.42|0.42||Not adjusted for multiple comparisons, a priori threshold for statistical significance, p \< 0.05|Wilcoxon (Mann-Whitney)||||Full details available in the methods section of https://www.ncbi.nlm.nih.gov/pubmed/24367497|.42|-.42|0.76
82442651|NCT00394901|164594029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.86||||0.023||95.0|-3.46|-0.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-3.46|0.023
82637839|NCT03814499|164990584|OTHER||Coefficient|-0.6||||0.4178|TWO_SIDED||||||Regression, Linear|||||||0.4178
82520390|NCT01565707|164736208|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.4|1.3|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.3|-0.4|
82520391|NCT01565707|164736209|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.303|TWO_SIDED|95.0|-0.8|0.2||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|ANCOVA|||||0.2|-0.8|0.303
82572172|NCT00458393|164853784|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.008||||0.68|TWO_SIDED|95.0|-0.047|0.03|||Chi-squared|||Null is no difference between arms||0.030|-0.047|0.68
82637840|NCT03814499|164990585|OTHER||Coefficient|-1.5||||0.2677|TWO_SIDED||||||Regression, Linear|||||||0.2677
82637841|NCT03814499|164990586|OTHER||Coefficient|-467.0||||0.3364|TWO_SIDED||||||Regression, Linear|||||||0.3364
82637842|NCT03814499|164990587|OTHER||Coefficient|-908.0||||0.1124|TWO_SIDED||||||Regression, Linear|||||||0.1124
82637843|NCT03814499|164990588|OTHER||Coefficient|479.2||||0.2649|TWO_SIDED||||||Regression, Linear|||||||0.2649
82442652|NCT00394901|164594029|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.012||95.0|-3.56|-0.44|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.44|-3.56|0.012
82637844|NCT03814499|164990589|OTHER||Coefficient|1114.3||||0.216|TWO_SIDED||||||Regression, Linear|||||||0.216
82637845|NCT03814499|164990590|OTHER||Coefficient|0.1||||0.9032|TWO_SIDED||||||Regression, Linear|||||||0.9032
82637846|NCT03814499|164990591|OTHER||Coefficient|-0.4||||0.7889|TWO_SIDED||||||Regression, Linear|||||||0.7889
82637847|NCT03814499|164990592|OTHER||Coefficient|7.0||||0.0242|TWO_SIDED||||||Regression, Linear|||||||0.0242
82637848|NCT03814499|164990593|OTHER||Coefficient|1.5||||0.5092|TWO_SIDED||||||Regression, Linear|||||||0.5092
82637849|NCT03814499|164990594|OTHER||Coefficient|-47.1||||0.3634|TWO_SIDED||||||Regression, Linear|||||||0.3634
82637850|NCT03814499|164990595|OTHER||Coefficient|-204.7||||0.0677|TWO_SIDED||||||Regression, Linear|||||||0.0677
82520392|NCT01565707|164736209|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.9|1.1|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.1|-0.9|
82520393|NCT01565707|164736210|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.64|TWO_SIDED|95.0|-0.8|0.5|||ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.5|-0.8|0.640
82572173|NCT00458393|164853785|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13||||0.3|TWO_SIDED|95.0|0.89|1.43|||Log Rank|||Null hypothesis of no difference between the arms||1.43|0.89|0.30
82572174|NCT00458393|164853786|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.41|TWO_SIDED|95.0|0.8|1.7|||Log Rank||||Details in the manuscript https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3956614/|1.7|0.8|0.41
82520394|NCT01565707|164736210|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-0.9|1.4|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||1.4|-0.9|
82572175|NCT00458393|164853787|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.09|TWO_SIDED|95.0|0.34|1.09|||Log Rank|||||1.09|0.34|0.09
82637851|NCT03814499|164990596|OTHER||Coefficient|-235.8||||0.156|TWO_SIDED||||||Regression, Linear|||||||0.156
82637852|NCT03814499|164990597|OTHER||Coefficient|-102.0||||0.3148|TWO_SIDED||||||Regression, Linear|||||||0.3148
82572176|NCT03311269|164853814|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-6.2|-2.3||This p-value corresponds to the change from Baseline to Week 12 for both treatment groups (ClariVein RES 1% Injection and ClariVein RES 3% Injection) combined.|t-test, 2 sided|One-Sample||Continuous variables summarized using descriptive statistics, specifically the mean, median, standard deviation, minimum and maximum. Categorical variables summarized using frequencies and percentages. All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated. For efficacy analyses, missing post-treatment data will be imputed using last observation carried forward (LOCF). Missing safety data will not be imputed.||-2.3|-6.2|<0.001
82637853|NCT03814499|164990598|OTHER||Coefficient|-0.1||||0.9349|TWO_SIDED||||||Regression, Linear|||||||0.9349
82637854|NCT03814499|164990599|OTHER||Coefficient|-0.6||||0.7196|TWO_SIDED||||||Regression, Linear|||||||0.7196
82384903|NCT03926117|164481247|SUPERIORITY||Median Difference (Final Values)|-66.2|||<|0.0001|TWO_SIDED|95.0|-86.15|-49.12|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (greater than or equal to (\>=) 11 or less than (\<) 11 grams per deciliter (g/dL)) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-49.12|-86.15|<0.0001
82384904|NCT03926117|164481247|SUPERIORITY||Median Difference (Final Values)|-77.71|||<|0.0001|TWO_SIDED|95.0|-94.98|-62.97|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (\>= 11 or \< 11 g/dL) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-62.97|-94.98|<0.0001
82637855|NCT03814499|164990600|OTHER||Coefficient|4.7||||0.0542|TWO_SIDED||||||Regression, Linear|||||||0.0542
82637856|NCT03814499|164990601|OTHER||Coefficient|2.6||||0.4224|TWO_SIDED||||||Regression, Linear|||||||0.4224
82384905|NCT03926117|164481247|SUPERIORITY||Median Difference (Final Values)|-87.76|||<|0.0001|TWO_SIDED|95.0|-101.0|-70.54|||Hodges-Lehmann method|||Percent change from baseline is analyzed using nonparametric Hodges-Lehmann estimator. The nonparametric analysis accounts for covariates baseline hemoglobin (\>= 11 or \< 11 g/dL) and chronic kidney disease stage (3, 4 or 5) by aligning responses within each stratum defined by the covariates prior to analysis.||-70.54|-101.00|<0.0001
82637857|NCT03814499|164990602|OTHER||Coeffiient|-118.9||||0.1247|TWO_SIDED||||||Regression, Linear|||||||0.1247
82637858|NCT03814499|164990603|OTHER||Coefficient|-135.2||||0.1461|TWO_SIDED||||||Regression, Linear|||||||0.1461
82637859|NCT03814499|164990604|OTHER||Coefficient|-154.2||||0.0699|TWO_SIDED||||||Regression, Linear|||||||0.0699
82520395|NCT01565707|164736211|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.846|TWO_SIDED|95.0|-0.3|0.1||P-value is from a rank ANCOVA analysis stratified by geographic region.|ANCOVA|From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.||||0.1|-0.3|0.846
82520396|NCT01565707|164736211|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.0|0.5|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.5|-1.0|
82572177|NCT03311269|164853814|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-3.4||||0.011|TWO_SIDED|95.0|-5.8|-1.0||This p-value corresponds to the change from Baseline to Week 12 for the ClariVein RES 1% Injection treatment group.|t-test, 2 sided|One-Sample||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||-1.0|-5.8|0.011
82637860|NCT03814499|164990605|OTHER||Coefficient|-164.6||||0.0901|TWO_SIDED||||||Regression, Linear|||||||0.0901
82520397|NCT01565707|164736212|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.4|0.8|||||From an ANCOVA model including treatment, geographic region \& gender as fixed effects \& the baseline value as a covariate.|||0.8|-1.4|
82520398|NCT02959996|164736240|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82572178|NCT03311269|164853814|OTHER|The null hypothesis is that the mean change from baseline for the primary efficacy endpoint=0. The alternative hypothesis is that the mean change does not =0. The primary analysis will be a one-sample t-test for both treatment groups combined, to test the null hypothesis that the mean change from baseline equals 0. Primary analysis will be performed for each treatment group separately.|Mean Difference (Final Values)|-5.1||||0.01|TWO_SIDED|95.0|-8.7|-1.6||This p-value corresponds to the change from Baseline to Week 12 for the ClariVein RES 3% Injection treatment group.|t-test, 2 sided|One-Sample||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||-1.6|-8.7|0.010
82572179|NCT03311269|164853814|OTHER|An ANCOVA was performed to compare the change from baseline for ClariVein RES 1% Injection versus ClariVein RES 3% Injection with treatment as the class variable and with baseline score as the covariate|Least-Squares Mean Difference|-1.2||||0.531|TWO_SIDED|95.0|-3.7|1.3||This p-value corresponds to the difference between treatment groups (ClariVein RES 1% Injection versus ClariVein RES 3% Injection).|ANCOVA|||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.||1.3|-3.7|0.531
82572180|NCT03311269|164853815|OTHER||Descriptive (Percentage)|94.4|||||TWO_SIDED|95.0|72.7|99.9|||||The count of the combined treatment group for the elimination of saphenous vein reflux at Week 12 posttreatment is 17/18 (94.4%).|The secondary efficacy endpoint, the elimination of saphenous vein reflux at Week 12 posttreatment, will be summarized for both treatments combined using the count and percentage, together with a 95% Wilson (score) confidence interval for the proportion.||99.9|72.7|
82572181|NCT03311269|164853815|OTHER||Percentage Difference|11.1||||1|TWO_SIDED|95.0|-20.5|42.8||All statistical tests will be performed at the 0.05 significance level (p -value ≤ 0.050) unless otherwise indicated.|Chi-squared|||For elimination of saphenous vein reflux at Week 12 posttreatment, the treatment difference for ClariVein RES 1% Injection versus ClariVein RES 3% Injection for the proportion was assessed by a chi-square test together with a 95% Wilson (score) confidence interval for the treatment difference.||42.8|-20.5|1.000
82637861|NCT00351611|164990606|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI bound was less than 0.10 (10%).|Difference in percentage of participants|-1.7094|||||TWO_SIDED|95.0|-9.1751|5.9784||||||A 2-sided 95 percent (%) confidence interval (CI) on the difference in percentage of participants, between pregabalin and placebo was constructed using unconditional exact methods.||5.9784|-9.1751|
82520399|NCT02959996|164736241|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
82520400|NCT02959996|164736242|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82520401|NCT04951336|164736269|SUPERIORITY||ratio of frequencies|0.04||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82384906|NCT00086138|164481269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.52|1.97|||Chi-squared|||The statistical analyses compared data collected from the CGIC of participants who received sertraline who had a score equal to or better than the CGIC of participants who received the placebo intervention.||1.97|0.52|0.98
82384907|NCT00086138|164481270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.11|TWO_SIDED|95.0|0.84|5.04|||Chi-squared|||||5.04|0.84|0.11
82442653|NCT00394901|164594030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.349||95.0|-0.91|0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.32|-0.91|0.349
82520402|NCT04951336|164736270|SUPERIORITY||ratio of frequencies|0.06||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82520403|NCT04951336|164736271|SUPERIORITY||ratio of frequencies|0.7||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82520404|NCT04951336|164736272|SUPERIORITY||ratio of frequencies|1.68||||0.359|TWO_SIDED||||||Chi-squared, Corrected|||||||0.359
82637862|NCT00351611|164990607|NON_INFERIORITY|Non-inferiority with respect to mean deviation was demonstrated if the lower bound of the CI is greater than -2.0 decibels.|Difference in LS mean|-0.125||||0.4414|TWO_SIDED|95.0|-0.443|0.194|||ANCOVA|||Analysis of covariance (ANCOVA) with treatment and center in the model and the baseline mean deviation as the covariate was used to construct a 2-sided 95% CI on the difference in least squares (LS) mean between pregabalin and placebo.||0.194|-0.443|0.4414
82572182|NCT00511797|164853816|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.49|-0.34||Pre-defined sequential tests were applied to protect alpha inflation by multiplicity.|t-test, 1 sided|||Three null hypotheses were sequentially tested. H01: DRSP 3 mg \>= Placebo (Active is equal or less in decrease of score) vs H11: DRSP 3 mg \< Placebo (Active is greater in decrease of score), H02: DRSP 2 mg \>= Placebo vs H12: DRSP 2 mg \< Placebo, H03: DRSP 1 mg \>= Placebo vs H13: DRSP 1 mg \< Placebo.||-0.34|-1.49|<0.001
82572183|NCT00511797|164853816|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.277|<|0.001||95.0|-1.64|-0.55|||t-test, 1 sided|||Second null hypothesis was tested. H02: DRSP 2 mg \>= Placebo vs H12: DRSP 2 mg \< Placebo.||-0.55|-1.64|<0.001
82572184|NCT00511797|164853816|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.28|<|0.001||95.0|-2.0|-0.89|||t-test, 1 sided|||Third null hypotheses was tested. H03: DRSP 1 mg \>= Placebo vs H13: DRSP 1 mg \< Placebo.||-0.89|-2.00|<0.001
82572185|NCT00511797|164853817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-1.74|-0.46|||t-test, 1 sided|||Test results of 3 mg DRSP and placebo at Cycle 4 are shown. 2-sided 95% confidence intervals were calculated. To keep consistency with 2-sided 95% confidence intervals, 2.5% 1-sided significance levels were used for the statistical tests.||-0.46|-1.74|<0.001
82572186|NCT00511797|164853817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.306|<|0.001||95.0|-1.95|-0.73|||t-test, 1 sided|||||-0.73|-1.95|<0.001
82572187|NCT00511797|164853817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|0.317|<|0.001||95.0|-2.16|-0.9|||t-test, 1 sided|||||-0.90|-2.16|<0.001
82572188|NCT01121913|164853840|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|102.0|||||TWO_SIDED|90.0|91.8|114.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||114|91.8|
82572189|NCT01121913|164853840|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|105.0|||||TWO_SIDED|90.0|93.9|117.0|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||117|93.9|
82572190|NCT01121913|164853840|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|95.3|||||TWO_SIDED|90.0|85.5|106.0|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||106|85.5|
82572191|NCT01121913|164853840|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LS means) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-t) is between 80% and 125%.|Mean ratio|97.7|||||TWO_SIDED|90.0|87.7|109.0|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||109|87.7|
82572192|NCT01121913|164853841|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|102.0|||||TWO_SIDED|90.0|91.8|114.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||114|91.8|
82572193|NCT01121913|164853841|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|106.0|||||TWO_SIDED|90.0|95.1|118.0|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||118|95.1|
82572194|NCT01121913|164853841|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|94.9|||||TWO_SIDED|90.0|85.1|106.0|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||106|85.1|
82572195|NCT01121913|164853841|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|98.4|||||TWO_SIDED|90.0|88.3|110.0|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||110|88.3|
82572196|NCT01121913|164853842|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|73.3|||||TWO_SIDED|90.0|63.2|85.0|||||Trazodone Contramid® OAD (prototype 1)/Triticco®|||85|63.2|
82572197|NCT01121913|164853842|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|59.8|||||TWO_SIDED|90.0|51.5|69.4|||||Trazodone Contramid® OAD (prototype 1)/Desyrel®|||69.4|51.5|
82442654|NCT00394901|164594030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.024||95.0|-1.32|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.32|0.024
82637863|NCT00351611|164990608|OTHER||Difference in LS mean|-0.9||||0.1346|TWO_SIDED|95.0|-2.083|0.283|||ANCOVA|||ANCOVA with treatment and center in the model and the baseline visual acuity as the covariate was used to construct a 2-sided 95% confidence interval on the difference in LS mean between pregabalin and placebo.||0.283|-2.083|0.1346
82637864|NCT02046993|164990609|SUPERIORITY_OR_OTHER|||||||0.27|||||||Chi-squared|||comparison of the percentage of patients doing HBPM between intervention and control group at baseline||||0.27
82572198|NCT01121913|164853842|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|83.0|||||TWO_SIDED|90.0|71.5|96.4|||||Trazodone Contramid® OAD (prototype 2)/Triticco®|||96.4|71.5|
82637865|NCT02046993|164990609|SUPERIORITY_OR_OTHER|||||||0.02|||||||McNemar|||Comparison of percentage of subjects doing HBPM at 3rd month from baseline within intervention group||||.020
82637866|NCT02046993|164990609|SUPERIORITY_OR_OTHER|||||||0.06|||||||McNemar|||comparison in percentage of patients doing Home BP monitoring at 6th month from baseline within intervention group||||.060
82442655|NCT00394901|164594030|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.045||95.0|-1.21|-0.01|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.01|-1.21|0.045
82637867|NCT02046993|164990609|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||McNemar|||Change in the proportion of patients doing HBPM at 3 months from baseline within the control group||||.002
82637868|NCT02046993|164990609|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||McNemar|||Change in proportion of patients doing HBPM at 6 months from baseline within control group||||.009
82520405|NCT04951336|164736273|SUPERIORITY|age was included as a covariate||||||0.002||||||Differences were considered statistically significant for p-values \<0.05.|Mixed Models Analysis|F(2,150)=6.374. The analysis was repeated using log-transformed values and the resultant p value was also \< 0.05||"The LME analysis compared antibodies between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across four time points (days 3, 14, 28, and 6 months). At baseline, participants with detectable anti-CoV-2 antibodies were deemed previously exposed and those with no or very low anti-CoV-2 Abs previously unexposed. Accordingly, all longitudinal analyses excluded baseline antibody data."||||0.002
82523595|NCT04922554|164743005|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.8||||0.824|TWO_SIDED|95.0|-6.01|7.52||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||7.52|-6.01|0.8240
82520406|NCT04951336|164736274|SUPERIORITY|age was included as a covariate||||||0.002||||||p \< 0.05.|Mixed Models Analysis|F(2,157)=4.286. The analysis was repeated using log-transformed values and the resultant p value was also \< 0.05||"LME analysis compared antibodies between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across four time points (days 3, 14, 28, and 6 months). At baseline, participants with detectable anti-CoV-2 antibodies were deemed previously exposed and those with no or very low anti-CoV-2 Abs previously unexposed. Accordingly, all longitudinal analyses excluded baseline antibody data."||||0.002
82442656|NCT00394901|164594031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83||||0.441||95.0|-2.93|1.28|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.28|-2.93|0.441
82520407|NCT04951336|164736275|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|F(8,325)=1.898. Age was included as a covariate in this analysis.||LME analysis compared symptoms between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across 5 time points (days 1-5)||||0.060
82520408|NCT04951336|164736276|SUPERIORITY|LME analysis compared symptoms between two grouping factors, (1) Treatment Group (FoTv vs. Placebo) and (2) Exposure Stratum (previously exposed vs. unexposed), across 5 time points (days 1-5)||||||0.326|||||||Mixed Models Analysis|F(8,309)=1.156. Age was included as a covariate in this analysis.||||||0.326
82520409|NCT01466985|164736291|SUPERIORITY|Doravirine was declared superior to placebo when the upper bound of the 90% CI was \<-1.|Least squares (LS) mean difference|-1.37|||<|0.001||90.0|-1.6|-1.02|||ANCOVA|||||-1.02|-1.60|<0.001
82520410|NCT01466985|164736291|SUPERIORITY|Doravirine was declared superior to placebo when the upper bound of the 90% CI was \<-1.|LS mean difference|-1.26|||<|0.001|TWO_SIDED|90.0|-1.51|-1.02|||ANCOVA|||||-1.02|-1.51|<0.001
82520411|NCT05616962|164736296|SUPERIORITY|||||||0.473|||||||ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||0.473
82520412|NCT05616962|164736297|SUPERIORITY|||||||0.03199|||||||paired t-test|||||||0.03199
82520413|NCT05616962|164736298|SUPERIORITY|||||||0.408|||||||ANCOVA|ANCOVA with baseline value as covariate||||||0.408
82520414|NCT05616962|164736299|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520415|NCT05616962|164736300|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520416|NCT05616962|164736301|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520417|NCT05616962|164736302|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520418|NCT05616962|164736303|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520419|NCT05616962|164736304|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520420|NCT05616962|164736305|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520421|NCT05616962|164736306|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520422|NCT05616962|164736307|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520423|NCT05616962|164736308|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520424|NCT05616962|164736309|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520425|NCT05616962|164736310|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82520426|NCT05616962|164736311|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82637869|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.813|||||||t-test, 2 sided|||Comparison of baseline mean clinic systolic BP mCSBP readings between control and intervention||||0.813
82637870|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.865|||||||t-test, 2 sided|||Comparison of baseline mean clinic diastolic BP mCDBP readings between control and intervention||||0.865
82520427|NCT05616962|164736312|SUPERIORITY||||||<|0.001||||||"Reported p-value was calculated, did not attempt to indicate threshold for statistical significance. Significance was evaluated at \<0.05. P-values were reported to the thousandths place and those less than 0.001 were reported as \<0.001."|ANCOVA|Repeated measures ANCOVA with baseline value as covariate including the changes from Baseline to months 1, 2, and 3||||||<0.001
82637871|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.476|||||||t-test, 2 sided|||Comparison of difference of mean clinic systolic BP readings mCSBP between control and intervention at 3 months from baseline||||0.476
82520428|NCT05616962|164736314|SUPERIORITY|||||||0.00463|||||||paired t-test|||||||0.00463
82520429|NCT05616962|164736315|SUPERIORITY|||||||0.23077|||||||paired t-test|||||||0.23077
82520430|NCT05616962|164736316|SUPERIORITY|||||||0.00849|||||||paired t-test|||||||0.00849
82520431|NCT03073148|164736318|EQUIVALENCE|alpha = 0.05||||||0.3577|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.3577
82520432|NCT03073148|164736318|EQUIVALENCE|alpha = 0.05||||||0.9917|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.9917
82637872|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.14|||||||t-test, 2 sided|||Comparison of difference of mean clinic diastolic BP mCDBP readings between control and intervention at 3 months from baseline||||0.14
82384908|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.37|||=|0.002|TWO_SIDED|||||The above p value corresponds to the Mastoid Process left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mastoid Process left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.002
82520433|NCT03073148|164736319|EQUIVALENCE|alpha = 0.05||||||0.3239|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.3239
82637873|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.495|||||||t-test, 2 sided|||Comparison of difference of mean clinic systolic BP readings mCSBP between control and intervention at 6 months from baseline||||0.495
82637874|NCT02046993|164990610|SUPERIORITY_OR_OTHER|||||||0.967|||||||t-test, 2 sided|||Comparison of difference in mean clinic diastolic BP readings mCDBP between control and intervention at 6 months from baseline||||0.967
82637875|NCT02046993|164990611|SUPERIORITY_OR_OTHER|||||||0.819|||||||t-test, 2 sided|||Comparison of baselline SEMCD between telemonitoring group and enhanced usual care||||0.819
82637876|NCT02046993|164990611|SUPERIORITY_OR_OTHER|||||||0.512|||||||t-test, 2 sided|||Comparison of SEMCD at 3 months between telemonitoring group and enhanced usual care||||0.512
82520434|NCT03073148|164736319|EQUIVALENCE|alpha = 0.05||||||0.8343|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.8343
82520435|NCT03073148|164736320|EQUIVALENCE|alpha = 0.05||||||0.4134|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.4134
82520436|NCT03073148|164736320|EQUIVALENCE|alpha = 0.05||||||0.1192|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1192
82520437|NCT03073148|164736322|EQUIVALENCE|alpha = 0.05||||||0.1753||||||Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.|ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1753
82520438|NCT03073148|164736322|EQUIVALENCE|alpha = 0.05||||||0.1843|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1843
82520439|NCT03073148|164736323|EQUIVALENCE|alpha = 0.05||||||0.0765|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.0765
82520440|NCT03073148|164736323|EQUIVALENCE|alpha = 0.05||||||0.152|||||||ANOVA|Repeated measures ANOVA comparing baseline, 1 day after treatment, and final assessment.||||||0.1520
82520441|NCT00447057|164736326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.0047|TWO_SIDED|95.0|0.438|0.897|||Log Rank|Log-rank test with 1-sided alpha of 0.20||||0.897|0.438|0.0047
82572199|NCT01121913|164853842|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 75% and 133%.|Mean ratio|67.7|||||TWO_SIDED|90.0|58.4|78.5|||||Trazodone Contramid® OAD (prototype 2)/Desyrel®|||78.5|58.4|
82572200|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|3.6||||0.4671|TWO_SIDED|95.0|-6.58|13.78||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||13.78|-6.58|0.4671
82637877|NCT02046993|164990611|SUPERIORITY_OR_OTHER|||||||0.325|||||||t-test, 2 sided|||Comparison of SEMCD at 6 months between telemonitoring group and enhanced usual care group||||0.325
82637878|NCT02046993|164990612|SUPERIORITY_OR_OTHER|||||||0.532|||||||t-test, 2 sided|||comparison of baseline mHSBP in mmHg between Telemonitoring and Enhanced Usual Care groups||||0.532
82384909|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.28|||=|0.018|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mastoid Process right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.018
82520442|NCT00447057|164736327|SUPERIORITY_OR_OTHER|||||||0.3909|||||||Fisher Exact|||||||0.3909
82520443|NCT00447057|164736328|SUPERIORITY_OR_OTHER|||||||0.1808|||||||Fisher Exact|||||||0.1808
82520444|NCT00447057|164736329|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0034|TWO_SIDED|95.0|0.457|0.887||1-sided significance level of 0.20|Log Rank|||||0.887|0.457|0.0034
82520445|NCT00447057|164736330|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.019|TWO_SIDED|95.0|0.465|0.981||1-sided significance level of 0.20|Log Rank|||||0.981|0.465|0.0190
82520446|NCT05090709|164736337|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Stiffness values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520447|NCT05090709|164736337|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Stiffness values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520448|NCT05090709|164736342|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520449|NCT05090709|164736342|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520450|NCT05090709|164736347|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Sit-to-stand velocity values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520451|NCT05090709|164736347|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Sit-to-stand velocity values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520452|NCT05090709|164736352|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520453|NCT05090709|164736352|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520454|NCT05090709|164736354|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including both time points in the analysis.||||||< 0.05
82572201|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|10.11||||0.1808|TWO_SIDED|95.0|-5.14|25.36||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||25.36|-5.14|0.1808
82637879|NCT02046993|164990612|SUPERIORITY_OR_OTHER|||||||0.902|||||||t-test, 2 sided|||comparison of baseline mHDBP in mmHg between Telemonitoring and Enhanced Usual Care groups||||0.902
82637880|NCT02046993|164990613|SUPERIORITY_OR_OTHER|||||||0.138|||||||t-test, 2 sided|||comparison of mHSBP at 3 months between smartphone based telemonitoring group and control group on enhanced usual care||||0.138
82384910|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.32|||=|0.02|TWO_SIDED|||||The above p value corresponds to the Bladder 10 left (BL 10) algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Bladder 10 left (BL 10) algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.020
82384911|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.39|||=|0.025|TWO_SIDED|||||The above p value corresponds to the Bladder 10 right (BL 10) algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Bladder 10 right (BL 10) algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.025
82442657|NCT00394901|164594031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.55||||0.017||95.0|-4.64|-0.46|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-4.64|0.017
82520455|NCT05090709|164736354|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including both time points in the analysis.||||||> 0.05
82520456|NCT05090709|164736359|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Muscle tone values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520457|NCT05090709|164736359|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||Muscle tone values were analysed as a percentage change from baseline measurements to normalise group variances.||||> 0.05
82520458|NCT05090709|164736364|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82572202|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|4.63||||0.4171|TWO_SIDED|95.0|-7.08|16.33||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||16.33|-7.08|0.4171
82637881|NCT02046993|164990613|SUPERIORITY_OR_OTHER|||||||0.204|||||||t-test, 2 sided|||comparison of mHDBP in mmHg between Telemonitoring and Enhanced Usual Care groups at 3 months||||0.204
82572203|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|5.33||||0.3116|TWO_SIDED|95.0|-5.43|16.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||16.10|-5.43|0.3116
82637882|NCT02046993|164990614|SUPERIORITY_OR_OTHER|||||||0.199|||||||t-test, 2 sided|||comparison of mHSBP in mmHg between Telemonitoring groups and Enhanced Usual Care groups at 6 months||||0.199
82520459|NCT05090709|164736364|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520460|NCT05090709|164736369|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520461|NCT05090709|164736369|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520462|NCT05090709|164736374|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520463|NCT05090709|164736374|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520464|NCT05090709|164736379|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520465|NCT05090709|164736379|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520466|NCT05090709|164736384|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82572204|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|5.8||||0.2353|TWO_SIDED|95.0|-4.12|15.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||15.72|-4.12|0.2353
82637883|NCT02046993|164990614|SUPERIORITY_OR_OTHER|||||||0.204|||||||t-test, 2 sided|||comparison of mHDBP in mmHg at 6 months between Telemonitoring and Enhanced Usual Care groups||||0.204
82572205|NCT03845075|164853849|SUPERIORITY||LS Mean Difference|5.86||||0.3037|TWO_SIDED|95.0|-5.76|17.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||17.48|-5.76|0.3037
82572206|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|-1.31||||0.6543|TWO_SIDED|95.0|-7.33|4.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||4.72|-7.33|0.6543
82637884|NCT00598442|164990615|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% CI for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.101|||TWO_SIDED|97.5|-0.09|0.36|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.36|-0.09|
82572207|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|0.94||||0.7941|TWO_SIDED|95.0|-6.5|8.38||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||8.38|-6.50|0.7941
82384912|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.55|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Zygapophyseal Joint left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||<0.001
82520467|NCT05090709|164736384|SUPERIORITY||||||>|0.05||||||A priori threshold for statistical significance is 0.05.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||> 0.05
82520468|NCT05090709|164736389|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520469|NCT05090709|164736389|SUPERIORITY||||||<|0.05||||||Including partial eta squared large effect size.|ANOVA|Repeated measures ANOVA including all 5 time points in the analysis.||||||< 0.05
82520470|NCT03252587|164736392|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0006|TWO_SIDED|95.0|1.5|5.1|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||5.1|1.5|0.0006
82520471|NCT03252587|164736392|SUPERIORITY||Odds Ratio (OR)|1.9||||0.021|TWO_SIDED|95.0|1.0|3.4|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.4|1.0|0.0210
82520472|NCT03252587|164736392|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0781|TWO_SIDED|95.0|0.8|2.9|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||2.9|0.8|0.0781
82520473|NCT03252587|164736393|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0011|TWO_SIDED|95.0|1.4|4.8|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||4.8|1.4|0.0011
82520474|NCT03252587|164736393|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0434|TWO_SIDED|95.0|0.9|3.1|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.1|0.9|0.0434
82520475|NCT03252587|164736393|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0439|TWO_SIDED|95.0|0.9|3.1|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||3.1|0.9|0.0439
82520476|NCT03252587|164736394|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0012|TWO_SIDED|95.0|1.4|5.1|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||5.1|1.4|0.0012
82520477|NCT03252587|164736394|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0795|TWO_SIDED|95.0|0.8|3.0|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||3.0|0.8|0.0795
82637885|NCT00598442|164990615|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% CI for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|97.5|0.08|0.54|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.54|0.08|
82637886|NCT00598442|164990616|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.28|||||TWO_SIDED|95.0|1.04|5.01|||Cochran-Mantel-Haenszel|||||5.01|1.04|
82637887|NCT00598442|164990616|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.1|||||TWO_SIDED|95.0|0.94|4.69|||Cochran-Mantel-Haenszel|||||4.69|0.94|
82637888|NCT00598442|164990617|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.9|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.90|
82520478|NCT03252587|164736394|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0673|TWO_SIDED|95.0|0.9|3.2|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||3.2|0.9|0.0673
82520479|NCT03252587|164736395|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0002|TWO_SIDED|95.0|1.9|8.5|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||8.5|1.9|0.0002
82637889|NCT00598442|164990617|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.93|1.04|||Cochran-Mantel-Haenszel|||||1.04|0.93|
82637890|NCT03947333|164990648|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.221|TWO_SIDED||||||t-test, 1 sided|||||||0.221
82637891|NCT03947333|164990648|OTHER||fixed-effects estimate of intervention|0.846||||0.559|TWO_SIDED|95.0|-1.99|3.68|||Mixed Models Analysis|||Mixed effects model||3.68|-1.99|0.559
82637892|NCT03947333|164990649|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.532|TWO_SIDED||||||t-test, 1 sided|||||||0.532
82637893|NCT03947333|164990650|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.086|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.086
82520480|NCT03252587|164736395|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0371|TWO_SIDED|95.0|0.9|4.5|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||4.5|0.9|0.0371
82520481|NCT03252587|164736395|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0168|TWO_SIDED|95.0|1.1|5.1|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||5.1|1.1|0.0168
82520482|NCT03252587|164736396|SUPERIORITY||Odds Ratio (OR)|10.5||||0.0006|TWO_SIDED|95.0|2.5|43.0|||Regression, Logistic|1-sided||BMS-986165 3 mg vs Placebo||43.0|2.5|0.0006
82520483|NCT03252587|164736396|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0058|TWO_SIDED|95.0|1.5|22.0|||Regression, Logistic|1-sided||BMS-986165 6 mg vs Placebo||22.0|1.5|0.0058
82520484|NCT03252587|164736396|SUPERIORITY||Odds Ratio (OR)|8.2||||0.0009|TWO_SIDED|95.0|2.2|31.0|||Regression, Logistic|1-sided||BMS-986165 12 mg vs Placebo||31.0|2.2|0.0009
82520485|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.04||0.0131|TWO_SIDED|95.0|-4.4|-0.3|||Longitudinal Repeated Measures|||Tender BMS-986165 3 mg vs Placebo||-0.3|-4.4|0.0131
82637894|NCT03947333|164990650|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.562|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.562
82637895|NCT03947333|164990650|OTHER||fixed-effects estimate of intervention|0.348||||0.451|TWO_SIDED|95.0|-0.557|1.254|||Mixed Models Analysis|||Mixed Effects Model||1.254|-0.557|0.451
82637896|NCT03947333|164990651|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.27|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.270
82637897|NCT03947333|164990651|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.299|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.299
82637898|NCT03947333|164990651|OTHER||fixed-effects estimate of intervention|0.1||||0.917|TWO_SIDED|95.0|-1.786|1.986|||Mixed Models Analysis|||Mixed effects model||1.986|-1.786|0.917
82637899|NCT03947333|164990652|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.093|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.093
82384913|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.57|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Zygapophyseal Joint right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||<0.001
82384914|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.36|||=|0.139|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Upper Trapezius Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.139
82520486|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.4156|TWO_SIDED|95.0|-2.3|1.8|||Longitudinal Repeated Measures|||Tender BMS-986165 6 mg vs Placebo||1.8|-2.3|0.4156
82520487|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.09||0.0151|TWO_SIDED|95.0|-4.5|-0.2|||Longitudinal Repeated Measures|||Tender BMS-986165 12 mg vs Placebo||-0.2|-4.5|0.0151
82384915|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.3|||=|0.011|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Upper Trapezius Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.011
82384916|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.67|||=|0.01|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Levator Scapulae Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.010
82520488|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0029|TWO_SIDED|95.0|-2.2|-0.4|||Longitudinal Repeated Measures|||Swollen BMS-986165 3 mg vs Placebo||-0.4|-2.2|0.0029
82520489|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.46||0.0516|TWO_SIDED|95.0|-1.6|0.2|||Longitudinal Repeated Measures|||Swollen BMS-986165 6 mg vs Placebo||0.2|-1.6|0.0516
82520490|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.48||0.0298|TWO_SIDED|95.0|-1.8|0.0|||Longitudinal Repeated Measures|||Swollen BMS-986165 12 mg vs Placebo||0.0|-1.8|0.0298
82520491|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.0|-0.5|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 3 mg vs Placebo||-0.5|-2.0|0.0010
82520492|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.0343|TWO_SIDED|95.0|-1.5|0.1|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 6 mg vs Placebo||0.1|-1.5|0.0343
82520493|NCT03252587|164736397|SUPERIORITY||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.42||0.005|TWO_SIDED|95.0|-1.9|-0.3|||Longitudinal Repeated Measures|||Tender + Swollen BMS-986165 12 mg vs Placebo||-0.3|-1.9|0.0050
82520494|NCT00449176|164736422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001||95.0|-1.22|-0.47|||ANCOVA|||The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 0.7 with an SD of 2.7, 314 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a treatment group for the study was 942.||-0.47|-1.22|<0.001
82572208|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|-2.0||||0.5937|TWO_SIDED|95.0|-9.72|5.73||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||5.73|-9.72|0.5937
82520495|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -1.69 to 1.38. Range of z-scores at Year 1 follow-up: -1.28 to 1.36.||Repeated Measures ANOVA with overall neurocognitive performance at baseline and follow-up, computed as z-scored derived composite score of 14 individual neuropsychological measures assessing attention, processing speed, visuospatial skills, language, memory, executive function and motor skills, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.001
82442658|NCT00394901|164594031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.61||||0.012||95.0|-4.65|-0.56|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-4.65|0.012
82572209|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|2.56||||0.5423|TWO_SIDED|95.0|-6.11|11.23||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||11.23|-6.11|0.5423
82442659|NCT00394901|164594032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.23||||0.47||95.0|-8.28|3.83|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.83|-8.28|0.470
82637900|NCT03947333|164990652|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.034|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.034
82442660|NCT00394901|164594032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.04||||0.008||95.0|-14.0|-2.06|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.06|-14.0|0.008
82442661|NCT00394901|164594032|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.43||||0.013||95.0|-13.3|-1.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-1.59|-13.3|0.013
82520496|NCT00675766|164736429|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.96 to 1.89. Range of z-scores at Year 1 follow-up: -1.89 to 1.77.||Repeated Measures ANOVA with processing speed at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing speed of cognitive information processing, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||<0.005
82572210|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|1.2||||0.7226|TWO_SIDED|95.0|-5.77|8.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||8.16|-5.77|0.7226
82637901|NCT03947333|164990652|OTHER||fixed-effects estimate of intervention|0.242||||0.103|TWO_SIDED|95.0|-0.049|0.533|||Mixed Models Analysis|||Mixed Effects Model||0.533|-0.049|0.103
82637902|NCT03947333|164990653|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.116|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.116
82523596|NCT04922554|164743006|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|5.1||||0.2149|TWO_SIDED|95.0|-3.03|13.2||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||13.20|-3.03|0.2149
82637903|NCT03947333|164990653|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.009|TWO_SIDED||||||t-test, 1 sided|||||||0.009
82637904|NCT03947333|164990653|OTHER||fixed-effects estimate of intervention|0.183||||0.178|TWO_SIDED|95.0|-0.084|0.451|||Mixed Models Analysis|||Mixed Effects Model||0.451|-0.084|0.178
82637905|NCT03947333|164990654|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.188|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.188
82384917|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.62|||=|0.06|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Levator Scapulae Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.06
82523597|NCT04922554|164743007|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|8.3||||0.123|TWO_SIDED|95.0|-2.31|18.88||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||18.88|-2.31|0.1230
82523598|NCT04922554|164743008|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|5.5||||0.1168|TWO_SIDED|95.0|-1.41|12.43||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||12.43|-1.41|0.1168
82572211|NCT03845075|164853850|SUPERIORITY||LS Mean Difference|1.15||||0.7912|TWO_SIDED|95.0|-7.85|10.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||10.16|-7.85|0.7912
82572212|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|-1.35||||0.7023|TWO_SIDED|95.0|-8.67|5.97||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 4; Safety set; LOCF||5.97|-8.67|0.7023
82384918|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.51|||=|0.05|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Deltoid Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.050
82572213|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|-0.48||||0.9012|TWO_SIDED|95.0|-8.58|7.61||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 8; Safety set; LOCF||7.61|-8.58|0.9012
82572214|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|2.14||||0.6138|TWO_SIDED|95.0|-6.63|10.92||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 12; Safety set; LOCF||10.92|-6.63|0.6138
82572215|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|1.23||||0.7889|TWO_SIDED|95.0|-8.26|10.72||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 16; Safety set; LOCF||10.72|-8.26|0.7889
82637906|NCT03947333|164990654|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.749|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.749
82637907|NCT03947333|164990654|OTHER||fixed-effects estimate of intervention|0.031||||0.847|TWO_SIDED|95.0|-0.288|0.351|||Mixed Models Analysis|||Mixed Effects Model||0.351|-0.288|0.847
82384919|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.41|||=|0.068|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Deltoid Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.068
82384920|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.59|||=|0.049|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle left algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Tibialis Anterior Muscle left algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.049
82384921|NCT05870371|164481291|OTHER||Mean Difference (Net)|0.73|||=|0.004|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle right algometric site. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Tibialis Anterior Muscle right algometric site.|Null hypothesis: The application of ATM does not affect the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain (main hypothesis).||||=0.004
82384922|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.03|STANDARD_ERROR_OF_MEAN|0.03|=|0.297|TWO_SIDED|||||The above p value corresponds to the Mastoid Process left algometric site. The threshold for statistical significance was p \< 0.05. The above value correspond to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mastoid Process left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.297
82384923|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.004|STANDARD_ERROR_OF_MEAN|0.03|=|0.855|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05. The above value correspond to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mastoid Process right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.855
82384924|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.594|TWO_SIDED|||||The above p value corresponds to the Bladder 10 (BL 10) left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Bladder 10 (BL 10) left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.594
82520497|NCT00675766|164736429|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.30 to 2.44. Range of z-scores at Year 1 follow-up: -1.82 to 2.00.||Repeated Measures ANOVA with attention at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing attentional abilities, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||< 0.01
82637908|NCT03947333|164990655|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.182|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.182
82637909|NCT03947333|164990655|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.158|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.158
82637910|NCT03947333|164990655|OTHER||fixed-effects estimate of intervention|0.107||||0.612|TWO_SIDED|95.0|-0.305|0.519|||Mixed Models Analysis|||Mixed Effects Model||0.519|-0.305|0.612
82442662|NCT00394901|164594033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.178||95.0|-0.48|0.09|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.09|-0.48|0.178
82637911|NCT03947333|164990656|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.97|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.970
82637912|NCT03947333|164990656|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.786|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.786
82637913|NCT03947333|164990656|OTHER||fixed-effects estimate of intervention|-0.088||||0.67|TWO_SIDED|95.0|-0.493|0.317|||Mixed Models Analysis|||Mixed Effects Model||0.317|-0.493|0.670
82637914|NCT03947333|164990657|SUPERIORITY||Median Difference (Final Values)|0.0||||0.478|TWO_SIDED||||||t-test, 1 sided|||Change at 3 months||||0.478
82637915|NCT03947333|164990657|SUPERIORITY||Mean Difference (Net)|-0.2||||0.666|TWO_SIDED||||||t-test, 1 sided|||Change at 6 months||||0.666
82520498|NCT00675766|164736429|SUPERIORITY_OR_OTHER||||||<|0.07|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -1.76 to 0.95. Range of z-scores at Year 1 follow-up: -1.18 to 0.84.||Repeated Measures ANOVA with executive function at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing working memory, set shifting, mental flexibility and problem solving, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||<0.07
82520499|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.30 to 1.94. Range of z-scores at Year 1 follow-up: -1.83 to 2.11.||Repeated Measures ANOVA with language at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing verbal fluency and naming skills, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.09
82520500|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.00 to 1.68. Range of z-scores at Year 1 follow-up: -2.33 to 1.90.||Repeated Measures ANOVA with memory at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing verbal and nonverbal learning and memory, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||.72
82637916|NCT03947333|164990657|OTHER||fixed-effects estimate of intervention|-0.15||||0.601|TWO_SIDED|95.0|-0.713|0.413|||Mixed Models Analysis|||Mixed Effects Model||0.413|-0.713|0.601
82520501|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -2.04 to 2.51. Range of z-scores at Year 1 follow-up: -2.21 to 2.24.||Repeated Measures ANOVA with visuospatial skills at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing visuospatial and visuoconstructional abilities, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.65
82442663|NCT00394901|164594033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.003||95.0|-0.72|-0.15|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.15|-0.72|0.003
82520502|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Repeated Measures ANOVA|Range of z-scores at baseline: -4.04 to 1.33. Range of z-scores at Year 1 follow-up: -1.24 to 2.37.||Repeated Measures ANOVA with motor skills at baseline and follow-up, computed as z-scored derived composite score of multiple neuropsychological measures assessing fine motor speed and dexterity, across time as the within-group factor and HIV serostatus and age group as between-group factors.||||0.79
82442664|NCT00394901|164594033|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.03||95.0|-0.59|-0.03|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.03|-0.59|0.030
82442665|NCT00394901|164594034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76||||0.001||95.0|-1.23|-0.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.30|-1.23|0.001
82442666|NCT00394901|164594034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81||||0.001||95.0|-1.27|-0.34|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.34|-1.27|0.001
82520503|NCT00675766|164736429|SUPERIORITY_OR_OTHER|||||||0.044|ONE_SIDED||||||Fisher Exact|One-sided Fisher's exact test with 1 degree of freedom.||Fisher's exact test compared the frequency of older and younger HIV+ adults who converted from neurocognitively intact to neurocognitively impaired on memory over a one year time period. We hypothesized that the older group would exhibit a greater proportion of individuals who declined during this interim.||||.044
82520504|NCT01967732|164736441|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|77.43|||||TWO_SIDED|95.0|62.69|95.63|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||95.63|62.69|
82520505|NCT01967732|164736442|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|74.47|||||TWO_SIDED|95.0|61.52|90.14|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||90.14|61.52|
82520506|NCT01988779|164736445|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.505|||||||ANOVA|||||||0.505
82520507|NCT01988779|164736447|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.39|||||||ANOVA|||||||0.390
82520508|NCT01988779|164736448|NON_INFERIORITY|Assuming that the non-inferiority limit of topical therapy is 20% of that for oral therapy.||||||0.036|||||||ANOVA|||||||0.036
82520509|NCT00377403|164736450|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||The a priori threshold for statistical significnace was p less than or equal to 0.05|ANOVA|Adjusted for disease severity at baseline||We used analysis of variance, controlling for disease severity at baseline to test the null hypothesis that there was no difference between study groups at this point in time.||||0.83
82442667|NCT00394901|164594034|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||<|0.001||95.0|-1.4|-0.49|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.49|-1.40|<0.001
82442668|NCT00394901|164594035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9||||0.001||95.0|-14.2|-3.61|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-3.61|-14.2|0.001
82442669|NCT00394901|164594035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.24||||0.002||95.0|-13.5|-2.99|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.99|-13.5|0.002
82520510|NCT04403698|164736462|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||linear mixed models were used to compare bone turnover markers (CTX-I) between both treatment groups. These models were performed with an intention to treat approach, where drop-outs were considered as non-responders. The models accounted for repeated measures.||||<0.01
82520511|NCT04403698|164736463|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||linear mixed models were used to compare bone turnover markers (PINP) between both treatment groups. These models were performed with an intention to treat approach, where drop-outs were considered as non-responders. The models accounted for repeated measures.||||0.05
82520512|NCT04403698|164736464|SUPERIORITY|||||||0.042|||||||Fisher Exact|||A Fisher's exact test was used to assess differences in patient numbers exceeding reference ranges between both treatment groups at week 48||||0.042
82384925|NCT05870371|164481291|OTHER||Dependence coefficient (β)|0.002|STANDARD_ERROR_OF_MEAN|0.02|=|0.929|TWO_SIDED|||||The above p value corresponds to the Bladder 10 (BL 10) right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Bladder 10 (BL 10) right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.929
82384926|NCT05870371|164481291|OTHER||Dependence coefficient (β)|0.002|STANDARD_ERROR_OF_MEAN|0.05|=|0.725|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Zygapophyseal Joint left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.725
82384927|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.725|TWO_SIDED|||||The above p value corresponds to the Zygapophyseal Joint right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Zygapophyseal Joint right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.725
82384928|NCT05870371|164481291|OTHER||Dependence coefficient (β)|0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.398|TWO_SIDED|||||The above p value corresponds to the Upper Trapezius Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Upper Trapezius Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.398
82384929|NCT05870371|164481291|OTHER||Dependence coefficient (β)|0.04|STANDARD_ERROR_OF_MEAN|0.03|=|0.186|TWO_SIDED|||||The above p value corresponds to the Mastoid Process right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Upper Trapezius Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.186
82384930|NCT05870371|164481291|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.833|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Levator Scapulae Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.833
82442670|NCT00394901|164594035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.3|||<|0.001||95.0|-16.5|-6.22|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-6.22|-16.5|<0.001
82442671|NCT00394901|164594036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.29||||0.245||95.0|-2.95|11.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.54|-2.95|0.245
82520513|NCT04403698|164736465|SUPERIORITY|||||||0.042|||||||Fisher Exact|||A Fisher's exact test was used to assess differences in patient numbers exceeding reference ranges between both treatment groups.||||0.042
82520514|NCT01181050|164736477|SUPERIORITY_OR_OTHER||Treatment difference|-0.02||||0.9334||95.0|-0.54|0.5|||Mixed effect model repeated measures|||||0.50|-0.54|0.9334
82572216|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|0.3||||0.9536|TWO_SIDED|95.0|-10.34|10.94||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 20; Safety set; LOCF||10.94|-10.34|0.9536
82442672|NCT00394901|164594036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.95||||0.417||95.0|-4.2|10.11|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.11|-4.20|0.417
82520515|NCT01181050|164736478|SUPERIORITY_OR_OTHER||Treatment difference|0.06||||0.8293||95.0|-0.46|0.58|||Mixed effect model repeated measures|||||0.58|-0.46|0.8293
82520516|NCT01181050|164736479|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.8867||95.0|-0.65|0.56|||Mixed effect model repeated measures|||||0.56|-0.65|0.8867
82637917|NCT03947333|164990658|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.654|TWO_SIDED||||||t-test, 1 sided|||||||0.654
82637918|NCT03947333|164990659|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.485|TWO_SIDED||||||t-test, 1 sided|||||||0.485
82637919|NCT03947333|164990660|OTHER|||||||0.48|||||||McNemar|||||||0.480
82520517|NCT01018394|164736485|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.108|TWO_SIDED|95.0|0.7|5.1||A one tailed P of less than 0.2 was considered sufficient evidence to warrant a larger study.|Fisher Exact|1 tailed||The percentage of participants who reduced tobacco use by greater or equal to 50% from baseline was compared between groups using Fisher's exact test. A one tailed P of less than 0.2 was considered sufficient evidence to warrant a larger study.||5.1|0.7|0.108
82520518|NCT00683644|164736492|OTHER|The observed power in THQ for zinc is 0.16, and that for placebo is 0.06.|||||>|0.05||||||Threshold for significance is 0.05|Chi-squared|||||||>0.05
82520519|NCT00683644|164736493|OTHER|||||||0.89||||||Threshold for significance is 0.05|paired t test|||||||0.89
82572217|NCT03845075|164853851|SUPERIORITY||LS Mean Difference|2.7||||0.5551|TWO_SIDED|95.0|-6.72|12.12||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24; Safety set; LOCF||12.12|-6.72|0.5551
82520520|NCT00683644|164736493|OTHER|||||||0.36||||||Threshold for significance is 0.05|paired t test|||||||0.36
82572218|NCT03845075|164853855|SUPERIORITY||LS Mean Difference|-2.52||||0.7782|TWO_SIDED|95.0|-21.23|16.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24||16.20|-21.23|0.7782
82384931|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.469|TWO_SIDED|||||The above p value corresponds to the Levator Scapulae Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Levator Scapulae Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.469
82520521|NCT00683644|164736494|OTHER|||||||0.64||||||Threshold for significance is 0.05|paired t test|||||||0.64
82520522|NCT00683644|164736494|OTHER|||||||0.93||||||Threshold for significance is 0.05|paired t test|||||||0.93
82520523|NCT01302119|164736520|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82520524|NCT01302119|164736521|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82520525|NCT01302119|164736522|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82520526|NCT01302119|164736523|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82520527|NCT01662882|164736524|SUPERIORITY_OR_OTHER|||||||0.0253||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0253
82520528|NCT01662882|164736524|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0004
82520529|NCT01662882|164736524|SUPERIORITY_OR_OTHER|||||||0.4184||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.4184
82520530|NCT01662882|164736524|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups.||||0.0008
82520531|NCT01662882|164736525|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANOVA|||Analysis of variance P value testing for an overall difference in the mean cortical SUVR between the clinical diagnostic groups.||||0.0039
82520532|NCT01662882|164736525|SUPERIORITY_OR_OTHER|||||||0.0357||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0357
82520533|NCT01662882|164736525|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0010
82637920|NCT03947333|164990660|OTHER|||||||0.023|||||||McNemar|||||||0.023
82384932|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.399|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Deltoid Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.399
82384933|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|=|0.752|TWO_SIDED|||||The above p value corresponds to the Deltoid Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Deltoid Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.752
82520534|NCT01662882|164736525|SUPERIORITY_OR_OTHER|||||||0.2118||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.2118
82520535|NCT04891419|164736531|SUPERIORITY||Rate Difference|91.1|||<|0.0001|TWO_SIDED|95.0|83.7|95.9||P-value is based on the Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||95.9|83.7|<.0001
82520536|NCT04891419|164736532|SUPERIORITY||Control Difference|54.5|STANDARD_ERROR_OF_MEAN|2.69|<|0.0001|TWO_SIDED|95.0|49.2|59.9||P-value estimated using mixed effects model.|Mixed Models Analysis||95% CI estimated using mixed effects model.|||59.9|49.2|<.0001
82520537|NCT04891419|164736533|SUPERIORITY||Control Difference|42.8|STANDARD_ERROR_OF_MEAN|2.63|<|0.0001|TWO_SIDED|95.0|37.6|48.0||95% CI and p-value estimated using mixed effects model.|Mixed Models Analysis|||||48.0|37.6|<.0001
82520538|NCT04891419|164736534|SUPERIORITY||Rate Difference|93.1|||<|0.0001|TWO_SIDED|95.0|86.1|97.2||P-value is based on Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||97.2|86.1|<.0001
82520539|NCT04891419|164736535|SUPERIORITY||Rate Difference|92.1|||<|0.0001|TWO_SIDED|95.0|84.9|96.5||P-value is based on Fisher's Exact Test.|Fisher Exact||95% exact unconditional confidence interval for between-group difference in responder rate.|||96.5|84.9|<.0001
82637921|NCT03947333|164990661|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.542|TWO_SIDED||||||t-test, 1 sided|||||||0.542
82520540|NCT02235493|164736536|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED|||||The p-value is based on a nonparametric sign test to determine whether the median of change from Baseline in MPOMA-G score differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Videos were reviewed and scored by 3 independent raters who were masked to patient identifiers and the clinic visits and dates when the videos were recorded. Each rater scored the individual components required for the calculation of the total MPOMA-G score for each evaluable patient video. The median of the scores across the 3 raters was obtained for each individual component and summed to generate the median MPOMA-G score used in the analyses.||||0.0625
82520541|NCT02235493|164736537|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||The p-value is based on a nonparametric sign test to determine whether the median of change from Baseline in POMA-G score differs from 0. No multiple comparisons or multiplicity adjustments were conducted.|Sign test|||Videos were reviewed and scored by 3 independent raters who were masked to patient identifiers and the clinic visits and dates when the videos were recorded. Each rater scored the individual components required for the calculation of the total POMA-G score for each evaluable patient video. The median of the scores across the 3 raters was obtained for each individual component and summed to generate the median POMA-G score used in the analyses.||||0.1250
82520542|NCT01055769|164736538|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric Means Ratio|97.81|||||TWO_SIDED|90.0|93.11|102.75||||||Natural log transformed AUClast of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.75|93.11|
82523421|NCT01422408|164742348|OTHER|Two-sided test that the change is different from zero. Not tested against alternative treatment; single arm study.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The secondary endpoints (i.e., change in symptoms of vaginal itching from the baseline to 4 weeks, and change in vaginal index score from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-secondary endpoints.||||0.001
82520543|NCT01055769|164736539|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric Means Ratio|113.67|||||TWO_SIDED|90.0|105.26|122.75||||||Natural log transformed Cmax of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||122.75|105.26|
82520544|NCT01055769|164736540|NON_INFERIORITY_OR_EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Linezolid 600 mg oral suspension was the Test treatment, while linezolid 600 mg tablet was the Reference treatment.|Adjusted Geometric means ratio|97.65|||||TWO_SIDED|90.0|92.92|102.63||||||Natural log transformed AUCinf of linezolid was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.63|92.92|
82520545|NCT00827918|164736543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.859|TWO_SIDED|95.0|-7.0|5.8|||Difference in the Least Squares Mean|||||5.8|-7.0|0.8590
82520546|NCT00827918|164736543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.2534|TWO_SIDED|95.0|-11.7|3.1|||Difference in the Least Squares Mean|||||3.1|-11.7|0.2534
82520547|NCT00827918|164736546|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.4976|TWO_SIDED|95.0|0.62|2.64|||Generalized linear mixed analysis model|||||2.64|0.62|0.4976
82520548|NCT00827918|164736546|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0653|TWO_SIDED|95.0|0.95|5.09|||Generalized linear mixed analysis model|||||5.09|0.95|0.0653
82637922|NCT00399542|164990672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||||||No adjustment|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||70.6% improvement in response with lubiprostone at 90% statistical power||||0.023
82520549|NCT00827918|164736547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8199|TWO_SIDED|95.0|-0.4|0.3|||Constrained longitudinal data analysis|||||0.3|-0.4|0.8199
82520550|NCT00827918|164736547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9486|TWO_SIDED|95.0|-0.4|0.4|||Constrained longitudinal data analysis|||||0.4|-0.4|0.9486
82520551|NCT00827918|164736548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9937|TWO_SIDED|95.0|-2.0|2.0|||Constrained longitudinal data analysis|||||2.0|-2.0|0.9937
82520552|NCT00827918|164736548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.2406|TWO_SIDED|95.0|-3.6|0.9|||Constrained longitudinal data analysis|||||0.9|-3.6|0.2406
82384934|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.07|STANDARD_ERROR_OF_MEAN|0.02|=|0.002|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle left algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Tibialis Anterior Muscle left algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.002
82384935|NCT05870371|164481291|OTHER||Dependence coefficient (β)|-0.07|STANDARD_ERROR_OF_MEAN|0.02|=|0.003|TWO_SIDED|||||The above p value corresponds to the Tibialis Anterior Muscle right algometric site. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Tibialis Anterior Muscle right algometric site. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of applying ATM does not differ in reducing the pain sensitivity assessed by the Pain Pressure Threshold (PPT) measured with the pressure algometer (Commander Algometer) in patients with chronic neck pain from applying A-S (main hypothesis).||||=0.003
82384936|NCT05870371|164481292|OTHER||Mean Difference (Net)|5.41|||=|0.002|TWO_SIDED|||||The above p value corresponds to the Rotation maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rotation maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.002
82384937|NCT05870371|164481292|OTHER||Mean Difference (Net)|4.92|||=|0.046|TWO_SIDED|||||The above p value corresponds to the Rotation average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rotation average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.046
82384938|NCT05870371|164481292|OTHER||Mean Difference (Net)|3.81|||<|0.001|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Lateral Flexion maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384939|NCT05870371|164481292|OTHER||Mean Difference (Net)|3.57|||=|0.043|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Lateral Flexion average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.043
82572219|NCT03845075|164853855|SUPERIORITY||LS Mean Difference|-7.26||||0.313|TWO_SIDED|95.0|-22.09|7.56||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48||7.56|-22.09|0.3130
82384940|NCT05870371|164481292|OTHER||Mean Difference (Net)|4.52|||=|0.018|TWO_SIDED|||||The above p value corresponds to the Flexion maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Flexion maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.018
82384941|NCT05870371|164481292|OTHER||Mean Difference (Net)|4.45|||=|0.102|TWO_SIDED|||||The above p value corresponds to the Flexion average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Flexion average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.102
82384942|NCT05870371|164481292|OTHER||Mean Difference (Net)|5.85|||=|0.16|TWO_SIDED|||||The above p value corresponds to the Extension maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Extension maximum.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||=0.160
82384943|NCT05870371|164481292|OTHER||Mean Difference (Net)|5.48|||<|0.039|TWO_SIDED|||||The above p value corresponds to the Extension average. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Extension average.|Null hypothesis: The application of ATM does not affect the cervical range of motion (ROM) recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain (secondary hypothesis).||||<0.039
82442673|NCT00394901|164594036|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7||||0.007||95.0|2.67|16.74|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||16.74|2.67|0.007
82442674|NCT00394901|164594037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.76||95.0|-3.83|5.24|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.24|-3.83|0.760
82637923|NCT00399542|164990673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.391|||||||van Elteren nonparametric test|Adjusted for center||||||0.391
82442675|NCT00394901|164594037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.754||95.0|-3.75|5.18|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.18|-3.75|0.754
82442676|NCT00394901|164594037|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04||||0.641||95.0|-5.43|3.35|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.35|-5.43|0.641
82520553|NCT00827918|164736549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.5953|TWO_SIDED|95.0|-2.0|1.2|||Constrained longitudinal data analysis|||||1.2|-2.0|0.5953
82520554|NCT00827918|164736549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8567|TWO_SIDED|95.0|-2.0|1.6|||Constrained longitudinal data analysis|||||1.6|-2.0|0.8567
82572220|NCT03845075|164853855|SUPERIORITY||LS Mean Difference|-5.73||||0.4033|TWO_SIDED|95.0|-19.92|8.47||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48||8.47|-19.92|0.4033
82442677|NCT00394901|164594038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.955||95.0|-0.3|0.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.32|-0.30|0.955
82442678|NCT00394901|164594038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27||||0.084||95.0|-0.04|0.58|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.58|-0.04|0.084
82442679|NCT00394901|164594038|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.17||95.0|-0.09|0.52|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.52|-0.09|0.170
82442680|NCT00394901|164594039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.01||||0.296||95.0|-3.52|11.55|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.55|-3.52|0.296
82442681|NCT00394901|164594039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3||||0.007||95.0|2.87|17.73|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.73|2.87|0.007
82442682|NCT00394901|164594039|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0||||0.106||95.0|-1.29|13.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.30|-1.29|0.106
82442683|NCT00394901|164594040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.93||||0.191||95.0|-1.97|9.83|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.83|-1.97|0.191
82520555|NCT02979262|164736557|SUPERIORITY||||||>|0.1|||||||Repeated Measures GLM|Time 2 at 16 weeks||||||>.10
82520556|NCT02979262|164736558|SUPERIORITY||||||<|0.01|||||||GEE|||||||<.01
82520557|NCT02979262|164736559|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
82520558|NCT02979262|164736560|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
82520559|NCT02979262|164736561|SUPERIORITY||||||>|0.1|||||||GEE|||||||>.10
82520560|NCT02979262|164736562|SUPERIORITY||||||<|0.01|||||||GEE|||||||<.01
82520561|NCT00617344|164736573|OTHER|The associated 95% confidence intervals (CIs) for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-2.0|||||TWO_SIDED|95.0|-7.44|2.84||||||Dengue Virus Serotype 1: Pre-injection 1 (Day 0)||2.84|-7.44|
82520562|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-15.5|||||TWO_SIDED|95.0|-28.4|-2.0||||||Dengue Virus Serotype 1: 30 days post-injection 2||-2.00|-28.4|
82637924|NCT00399542|164990674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.151|||||||van Elteren nonparametric test|Adjusted for center||||||0.151
82520563|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-2.0|||||TWO_SIDED|95.0|-7.44|2.84||||||Dengue Virus Serotype 2: Pre-injection 1 (Day 0)||2.84|-7.44|
82520564|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-3.1|||||TWO_SIDED|95.0|-15.0|8.75||||||Dengue Virus Serotype 2: 30 days post-injection 2||8.75|-15.0|
82520565|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|1.0|||||TWO_SIDED|95.0|-9.09|11.1||||||Dengue Virus Serotype 3: Pre-injection 1 (Day 0)||11.1|-9.09|
82520566|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-5.7|||||TWO_SIDED|95.0|-15.6|3.81||||||Dengue Virus Serotype 3: 30 days post-injection 2||3.81|-15.6|
82520567|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|-4.0|||||TWO_SIDED|95.0|-10.9|2.49||||||Dengue Virus Serotype 4: Pre-injection 1 (Day 0)||2.49|-10.9|
82520568|NCT00617344|164736573|OTHER|The associated 95% CIs for the point estimates and the differences were calculated using normal approximation.|Difference in Percentage|31.4|||||TWO_SIDED|95.0|18.2|43.2||||||Dengue Virus Serotype 4: 30 days post-injection 2||43.2|18.2|
82637925|NCT00399542|164990675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.163|||||||van Elteren nonparametric test|Adjusted for center||||||0.163
82637926|NCT00399542|164990676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.185|||||||van Elteren nonparametric test|Adjusted for center||||||0.185
82637927|NCT00399542|164990677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Cochran-Mantel-Haenszel|||||||0.300
82520569|NCT00833638|164736580|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||P-value for day \<=4. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 2.5 mg and placebo as determined by the earliest day on which the cumulative percentage of subjects achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.086
82520570|NCT00833638|164736580|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for day \<=4. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.006
82520571|NCT00833638|164736580|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for day \<=3. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.019
82520572|NCT00833638|164736580|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for day \<=2. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|Model response = treatment + pooled site + severity of erectile dysfunction at baseline.||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.022
82520573|NCT00833638|164736580|SUPERIORITY_OR_OTHER|||||||0.573||95.0||||P-value for day \<=1. A fixed-sequence test was used within each dose group at each time point (days 4, 3, 2, 1) and adjusted for multiple dose-placebo comparisons using the Bonferroni method. Testing started on day 4 and stopped when p\>.025.|Regression, Logistic|||The null-hypothesis was tested that there is no statistically significant difference in the onset of efficacy between tadalafil 5 mg and placebo as determined by the earliest day on which the cumulative percentage of participants achieving at least 1 successful intercourse (within 4 days of starting treatment) is statistically significantly different between active drug and placebo.||||0.573
82520574|NCT00833638|164736581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.03|||<|0.001|TWO_SIDED|95.0|5.72|18.34||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction were included.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 1 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||18.34|5.72|<0.001
82572221|NCT03845075|164853856|SUPERIORITY||LS Mean Difference|-7.5||||0.0325|TWO_SIDED|95.0|-14.29|-0.71||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24||-0.71|-14.29|0.0325
82572222|NCT03845075|164853856|SUPERIORITY||LS Mean Difference|-0.32||||0.9394|TWO_SIDED|95.0|-9.04|8.4||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48||8.40|-9.04|0.9394
82520575|NCT00833638|164736581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.8|||<|0.001|TWO_SIDED|95.0|6.48|19.12||No adjustment for multiplicity.|ANCOVA|Terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction were included.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 1 exist between participants who received placebo and participants who received tadalafil 5 mg."||19.12|6.48|<0.001
82520576|NCT00833638|164736582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4|||<|0.001|TWO_SIDED|95.0|8.51|22.29||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 2 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||22.29|8.51|<0.001
82520577|NCT00833638|164736582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.41|||<|0.001|TWO_SIDED|95.0|13.5|27.31||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 2 exist between participants who received placebo and participants who received tadalafil 5 mg."||27.31|13.50|<0.001
82637928|NCT00399542|164990678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.303||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.303
82442684|NCT00394901|164594040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.21|||<|0.001||95.0|5.41|17.02|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.02|5.41|<0.001
82520578|NCT00833638|164736583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.27|||<|0.001|TWO_SIDED|95.0|6.83|21.71||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 3 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||21.71|6.83|<0.001
82520579|NCT00833638|164736583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.54|||<|0.001|TWO_SIDED|95.0|13.07|28.01||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 3 exist between participants who received placebo and participants who received tadalafil 5 mg."||28.01|13.07|<0.001
82520580|NCT00833638|164736584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.24|||<|0.001|TWO_SIDED|95.0|6.42|22.06||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 4 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||22.06|6.42|<0.001
82384944|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-5.0|STANDARD_ERROR_OF_MEAN|1.51|=|0.001|TWO_SIDED|||||The above p-value corresponds to the Rotation maximum. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rotation maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.001
82384945|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-5.0|STANDARD_ERROR_OF_MEAN|1.51|=|0.002|TWO_SIDED||||||Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rotation average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.002
82442685|NCT00394901|164594040|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.23|||<|0.001||95.0|8.5|19.95|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||19.95|8.50|<0.001
82520581|NCT00833638|164736584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.81|||<|0.001|TWO_SIDED|95.0|13.94|29.67||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 4 exist between participants who received placebo and participants who received tadalafil 5 mg."||29.67|13.94|<0.001
82520582|NCT00833638|164736585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.92|||<|0.001|TWO_SIDED|95.0|6.3|21.55||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 5 exist between participants who received placebo and participants who received tadalafil 2.5 mg."||21.55|6.30|<0.001
82520583|NCT00833638|164736585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.07|||<|0.001|TWO_SIDED|95.0|11.4|26.75||No adjustment for multiplicity.|ANCOVA|Included were terms for baseline value of the efficacy variable, treatment, site, and the baseline-by-treatment interaction.||"Tested was the null-hypothesis that no differences in the percentages of participants who answered yes to the sexual encounter profile diary question number 5 exist between participants who received placebo and participants who received tadalafil 5 mg."||26.75|11.40|<0.001
82520584|NCT00833638|164736586|SUPERIORITY_OR_OTHER|||||||0.301||95.0||||No adjustment for multiplicity.|Log Rank|||"Tested was the null-hypothesis that no differences in the time to onset of efficacy exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.301
82520585|NCT00833638|164736586|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||No adjustment for multiplicity.|Log Rank|||"Tested was the null-hypothesis that no differences in the time to onset of efficacy exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.046
82520586|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=14. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520587|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=13. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520588|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=12. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82384946|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-4.84|STANDARD_ERROR_OF_MEAN|1.6|=|0.048|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Lateral Flexion maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.048
82384947|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-2.0|STANDARD_ERROR_OF_MEAN|1.06|=|0.059|TWO_SIDED|||||The above p value corresponds to the Lateral Flexion average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Lateral Flexion average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.059
82384948|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-0.92|STANDARD_ERROR_OF_MEAN|1.62|=|0.57|TWO_SIDED|||||The above p value corresponds to the Flexion maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Flexion maximum. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.57
82442686|NCT00394901|164594041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.03||||0.061||95.0|-8.25|0.18|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.18|-8.25|0.061
82520589|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=11. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520590|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=10. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82637929|NCT00399542|164990679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.047
82384949|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-0.14|STANDARD_ERROR_OF_MEAN|1.65|=|0.931|TWO_SIDED|||||The above p value corresponds to the Flexion average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Flexion average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.931
82384950|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-1.17|STANDARD_ERROR_OF_MEAN|1.99|=|0.558|TWO_SIDED|||||The above p value corresponds to the Extension maximum. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Extension maximum . The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.558
82384951|NCT05870371|164481292|OTHER||Dependence coefficient (β)|-0.03|STANDARD_ERROR_OF_MEAN|1.96|=|0.989|TWO_SIDED|||||The above p value corresponds to the Extension average. The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Extension average. The above values correspond to the comparison which is between groups at baseline.|Null hypothesis: The effect of the application of ATM does not differ in the improvement of the cervical ROM recorded with the Moover three-dimensional (3D) Inertial Motion sensor in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.989
82384952|NCT05870371|164481293|OTHER||Mean Difference (Net)|1.37|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null hypothesis: The application of ATM does not affect the strength of deep neck flexor muscles as measured by the Chattanooga Stabilizer Pressure Biofeedback in patients with chronic pain in the cervical spine (secondary hypothesis).||||<0.001
82572223|NCT03845075|164853856|SUPERIORITY||LS Mean Difference|6.91||||0.0135|TWO_SIDED|95.0|1.65|12.18||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 28||12.18|1.65|0.0135
82572224|NCT03845075|164853857|SUPERIORITY||LS Mean Difference|-4.17||||0.1048|TWO_SIDED|95.0|-9.31|0.98||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed.||0.98|-9.31|0.1048
82572225|NCT03845075|164853857|SUPERIORITY||LS Mean Difference|-0.99||||0.7189|TWO_SIDED|95.0|-6.75|4.77||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT observed.||4.77|-6.75|0.7189
82384953|NCT05870371|164481293|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.01|=|0.437|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of applying ATM does not differ in improving the strength of deep neck flexor muscles measured by the Chattanooga Stabilizer Pressure Biofeedback in patients with chronic neck pain than applying A-S (secondary hypothesis).||||=0.437
82384954|NCT05870371|164481294|OTHER||Mean Difference (Net)|0.02|||=|0.919|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.919
82384955|NCT05870371|164481294|OTHER||Dependence coefficients (β)|-0.05|STANDARD_ERROR_OF_MEAN|0.02|=|0.01|TWO_SIDED|||||The above value corresponds to the comparison between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||The above value corresponds to the comparison between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.010
82384956|NCT05870371|164481295|OTHER||Mean Difference (Net)|0.09|||=|0.659|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.659
82384957|NCT05870371|164481295|OTHER||Dependence coefficient (β)|-0.04|STANDARD_ERROR_OF_MEAN|0.02|=|0.05|TWO_SIDED|||||The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.05
82637930|NCT00399542|164990680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.008
82637931|NCT00399542|164990681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.663|||||||van Elteren nonparametric test|Adjusted for center||||||0.663
82384958|NCT05870371|164481296|OTHER||Mean Difference (Net)|10.28|||=|0.09|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the respiratory function assessed by the portable spirometer (MIR Spirodoc) in patients with chronic neck pain (secondary hypothesis).||||=0.09
82384959|NCT05870371|164481296|OTHER||Dependence coefficient (β)|-0.06|STANDARD_ERROR_OF_MEAN|0.02|=|0.005|TWO_SIDED|||||The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of the respiratory function in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.005
82384960|NCT05870371|164481297|OTHER||Mean Difference (Net)|-7.87|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Total McGill Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Total McGill Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82442687|NCT00394901|164594041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.133||95.0|-7.37|0.98|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.98|-7.37|0.133
82520591|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=9. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520592|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=8. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
82637932|NCT00399542|164990682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.224|||||||van Elteren nonparametric test|Adjusted for center||||||0.224
82637933|NCT00399542|164990683|SUPERIORITY_OR_OTHER_LEGACY|||||||0.271|||||||van Elteren nonparametric test|Adjusted for center||||||0.271
82637934|NCT00399542|164990684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.945|||||||van Elteren nonparametric test|Adjusted for center||||||0.945
82384961|NCT05870371|164481297|OTHER||Mean Difference (Net)|-5.55|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Sensory Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Sensory Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384962|NCT05870371|164481297|OTHER||Mean Difference (Net)|-2.33|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Affective Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Affective Score.|Null Hypothesis: The application of ATM does not affect the pain in the cervical spine in terms of its intensity and quality, i.e., its sensory, emotional and behavioral dimensions using the McGill Pain Questionnaire-short form (SFMPQ) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82442688|NCT00394901|164594041|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.44||||0.24||95.0|-6.52|1.64|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.64|-6.52|0.240
82442689|NCT00394901|164594042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.68||||0.2842||95.0|0.34|1.37|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.37|0.34|0.2842
82523422|NCT01422408|164742349|OTHER|2.5% significance level to account for two co-primary endpoints.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||The secondary endpoints (i.e., change in symptoms of vaginal itching from the baseline to 4 weeks, and change in vaginal index score from the baseline to 4 weeks) will be analyzed using Wilcoxon signed rank test with 2.5% significance level to account for two co-secondary endpoints.||||0.002
82637935|NCT00399542|164990685|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352|||||||van Elteren nonparametric test|||||||0.352
82442690|NCT00394901|164594042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.89||||0.0577||95.0|0.98|3.66|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.66|0.98|0.0577
82442691|NCT00394901|164594042|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||0.1893||95.0|0.81|2.95|||Regression, Logistic|treatment, CLcr stratum, and the optimal sleep score at baseline as covariate||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.95|0.81|0.1893
82523423|NCT01422408|164742351|OTHER|||||||0.1029||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.1029
82523424|NCT01422408|164742352|OTHER|||||||0.2678||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2678
82520593|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for day \<=7. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.001
82637936|NCT00399542|164990686|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||van Elteren nonparametric test|Adjusted for center||||||0.180
82637937|NCT00399542|164990687|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275|||||||van Elteren nonparametric test|Adjusted for center||||||0.275
82637938|NCT00399542|164990688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.722|||||||van Elteren nonparametric test|Adjusted for center||||||0.722
82637939|NCT00399542|164990689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177|||||||van Elteren nonparametric test|Adjusted for center||||||0.177
82637940|NCT00399542|164990690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.082|||||||van Elteren nonparametric test|Adjusted for center||||||0.082
82637941|NCT00399542|164990691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||van Elteren nonparametric test|Adjusted for center||||||0.110
82637942|NCT00399542|164990692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146|||||||van Elteren nonparametric test|Adjusted for center||||||0.146
82637943|NCT00399542|164990693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||van Elteren nonparametric test|Adjusted for center||||||0.373
82637944|NCT00399542|164990694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|||||||van Elteren nonparametric test|Adjusted for center||||||0.339
82637945|NCT00399542|164990695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||Cochran-Mantel-Haenszel|||||||0.023
82637946|NCT00399542|164990696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||Cochran-Mantel-Haenszel|||||||0.073
82637947|NCT00399542|164990697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||ANCOVA|Adjusted for center||||||0.062
82520594|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=6. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
82520595|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=5. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
82637948|NCT00399542|164990698|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||van Elteren nonparametric test|||||||0.060
82637949|NCT00399542|164990699|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||van Elteren nonparametric test|||||||0.290
82637950|NCT00399542|164990700|SUPERIORITY_OR_OTHER_LEGACY|||||||0.495|||||||van Elteren nonparametric test|||||||0.495
82637951|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the LOCF dataset.|Mean Difference (Final Values)|5.83|STANDARD_ERROR_OF_MEAN|18.332||0.6241|TWO_SIDED|95.0|-31.05|42.71||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||42.71|-31.05|0.6241
82637952|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the LOCF dataset.|Mean Difference (Final Values)|11.87|STANDARD_ERROR_OF_MEAN|19.081||0.7315|TWO_SIDED|95.0|-26.52|50.26||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||50.26|-26.52|0.7315
82637953|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the OC dataset.|Mean Difference (Final Values)|5.76|STANDARD_ERROR_OF_MEAN|18.566||0.6212|TWO_SIDED|95.0|-31.65|43.18||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||43.18|-31.65|0.6212
82637954|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means using the OC dataset.|Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|20.662||0.5987|TWO_SIDED|95.0|-36.44|46.84||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||Comparison between Baseline value and Day 29 value.||46.84|-36.44|0.5987
82637955|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Median Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|18.114||0.482|TWO_SIDED|95.0|-37.28|35.64||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||LOCF Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||35.64|-37.28|0.4820
82637956|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|19.9|STANDARD_ERROR_OF_MEAN|18.496||0.8562|TWO_SIDED|95.0|-17.33|57.13||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||LOCF Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||57.13|-17.33|0.8562
82520596|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for day \<=4. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.002
82442692|NCT00394901|164594043|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0466
82520597|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for day \<=3. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.009
82520598|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for day \<=2. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.038
82442693|NCT00394901|164594043|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
82523599|NCT04922554|164743009|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|6.5||||0.0743|TWO_SIDED|95.0|-0.66|13.66||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||13.66|-0.66|0.0743
82442694|NCT00394901|164594043|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
82442695|NCT00394901|164594044|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.3440
82442696|NCT00394901|164594044|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
82523600|NCT04922554|164743010|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|7.1||||0.0899|TWO_SIDED|95.0|-1.13|15.23||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||15.23|-1.13|0.0899
82520599|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=14. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520600|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=13. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520601|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=12. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520602|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=11. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520603|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=10. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 2.5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520604|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=9. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520605|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=8. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520606|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=7. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520607|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=6. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520608|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=5. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520609|NCT00833638|164736587|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for day \<=4. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520610|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for day \<=3. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.003
82520611|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for day \<=2. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.008
82520612|NCT00833638|164736587|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-value for day \<=1. No adjustment for multiplicity.|Regression, Logistic|Response = Treatment + Pooled Site + Severity of ED at Baseline.||"Tested was the null-hypothesis that no differences in the precentage of successful intercourse attempts exists between participants who received placebo and participants who received tadalafil 5 mg, measured by a response of yes to the sexual encounter profile diary question number 3."||||0.246
82637957|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|18.3||0.488|TWO_SIDED|95.0|-37.46|36.35||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||OC Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||36.35|-37.46|0.4880
82520613|NCT00833638|164736588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.05|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received placebo in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving placebo) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520614|NCT00833638|164736589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.22|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received tadalafil 2.5 mg in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving tadalafil 2.5 mg) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82384963|NCT05870371|164481297|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.996|TWO_SIDED|||||The above p-value corresponds to the Total McGill score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.996
82520615|NCT00833638|164736590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the proportion of successful intercourse attempts exist in patients who received tadalfil 5 mg in the double-blind treatment period when comparing their proportion of succesful intercourse attempts between the double-blind treatment period (while receiving tadalafil 5 mg) and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82520616|NCT00833638|164736591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.11|||<|0.001||95.0|||||t-test, 2 sided||the estimated mean difference shows changes in the double-blind treatment phase minus changes in the open label treatment phase|"Tested was the null-hypothesis that no differences in the percentages of successful intercourse attempts exist in participants who received tadalafil 2.5 mg in the double-blind treatment period and did not respond to treatment when comparing their percentage of succesful intercourse attempts between the double-blind treatment period and the open-label treatment period (while receiving tadalafil 5 mg), measured by a response of yes to the sexual encounter profile diary question number 3."||||<0.001
82523601|NCT04922554|164743011|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|0.5||||0.9019|TWO_SIDED|95.0|-7.6|8.59||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||8.59|-7.60|0.9019
82523602|NCT04922554|164743012|OTHER|Endpoints are summarized using descriptive statistics. Inferential testing of pre-specified hypothesis was not completed.|Least square mean difference|13.7||||0.0015|TWO_SIDED|95.0|5.43|21.89||ANCOVA analyzed change from baseline using treatment, prior antibiotic use, and baseline score as factors. LS mean difference = Omadacycline minus Placebo.|ANCOVA|||||21.89|5.43|0.0015
82637958|NCT00612456|164990701|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|13.97|STANDARD_ERROR_OF_MEAN|20.008||0.7556|TWO_SIDED|95.0|-26.38|54.32||If the estimates of change from baseline in CRLT were negative, then the one-sided p-values were the two-sided t-test of each treatment arm from this analysis divided by 2. If the estimates of change from baseline in CRLT were positive, then the one|ANCOVA|||OC Data excluding potential one outlier participant. Comparison between Baseline value and Day 29 value.||54.32|-26.38|0.7556
82442697|NCT00394901|164594044|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||<0.001
82637959|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|1.29||0.0015|TWO_SIDED|95.0|1.74|6.91|||ANCOVA|||Comparison between Baseline value and Day 29 value.||6.91|1.74|0.0015
82637960|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|1.403||0.5921|TWO_SIDED|95.0|-2.05|3.57|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.57|-2.05|0.5921
82637961|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on efficacy population.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|1.988||0.9646|TWO_SIDED|95.0|-3.89|4.07|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.07|-3.89|0.9646
82637962|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|4.75||||0.0003|TWO_SIDED|95.0|2.32|7.19|||ANCOVA|||Comparison between Baseline value and Day 29 value.||7.19|2.32|0.0003
82637963|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.326||0.2208|TWO_SIDED|95.0|-1.02|4.3|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.30|-1.02|0.2208
82637964|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for RCA NONE field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|1.927||0.9847|TWO_SIDED|95.0|-3.9|3.83|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.83|-3.90|0.9847
82637965|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|1.376||0.0142|TWO_SIDED|95.0|0.75|6.31|||ANCOVA|||Comparison between Baseline value and Day 29 value.||6.31|0.75|0.0142
82637966|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|1.419||0.5547|TWO_SIDED|95.0|-2.02|3.71|||ANCOVA|||Comparison between Baseline value and Day 29 value.||3.71|-2.02|0.5547
82520617|NCT04184791|164736612|OTHER|A linear mixed-effects analysis of variance (LM-ANOVA) model was used to determine the effect of L-Dopa, frequency, the interaction of levodopa and frequency, and the interaction of frequency and contact pairs on gait parameters. The fixed effects were L-Dopa condition (ON vs. OFF), stimulation frequency (LFS;60 Hz vs. HFS;180 Hz), contact pairs \[1-(R)/1-(L); 2-(R)/2-(L); 3-(R)/3-(L); 4-(R)/4-(L)\], and assistive device (presence vs. absence) and the patient effect was considered random.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82520618|NCT02962908|164736636|OTHER|Inequality test.||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 and to 42.||||0.45
82520619|NCT02962908|164736636|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 and to 42.||||<0.001
82520620|NCT02962908|164736636|OTHER|inequality test||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 42.||||0.88
82520621|NCT02962908|164736636|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 42.||||<0.001
82520622|NCT02962908|164736636|OTHER|inequality test||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 42.||||0.21
82637967|NCT00612456|164990708|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means based on participants with a 'YES' for eligible field from DARC FA form in study eye at screening.|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|2.287||0.9114|TWO_SIDED|95.0|-4.37|4.88|||ANCOVA|||Comparison between Baseline value and Day 29 value.||4.88|-4.37|0.9114
82520623|NCT02962908|164736636|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 42.||||<0.001
82520624|NCT02962908|164736636|OTHER|inequality test||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 42.||||0.77
82520625|NCT02962908|164736636|OTHER|inequality test||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 42.||||0.004
82520626|NCT02962908|164736636|OTHER|inequality test||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 42.||||0.08
82520627|NCT02962908|164736636|OTHER|inequality test||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 42.||||0.38
82637968|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.383||0.0534|TWO_SIDED|95.0|-0.01|1.53|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.53|-0.01|0.0534
82637969|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|0.409||0.0508|TWO_SIDED|95.0|0.0|1.64|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.64|-0.00|0.0508
82637970|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.61||||0.3141|TWO_SIDED|95.0|-0.6|1.83|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Leakage Area of measurement.||1.83|-0.60|0.3141
82637971|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.395||0.6018|TWO_SIDED|95.0|-1.04|0.62|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||0.62|-1.04|0.6018
82384964|NCT05870371|164481297|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.968|TWO_SIDED|||||The above p-value corresponds to the Sensory Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.968
82384965|NCT05870371|164481297|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.854|TWO_SIDED|||||The above p-value corresponds to the Affective Score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models. The above p-value corresponds to the comparison which is between groups at baseline.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of pain in terms of its intensity and quality in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.854
82384966|NCT05870371|164481298|OTHER||Mean Difference (Net)|-2.59|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||||||<0.001
82384967|NCT05870371|164481298|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.952|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|||||=0.952
82384968|NCT05870371|164481299|OTHER||Mean Difference (Net)|-1.06|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.||||||<0.001
82520628|NCT02962908|164736636|OTHER|inequality test||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 42.||||0.49
82520629|NCT02962908|164736636|OTHER|inequality test||||||0.156|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 42.||||0.156
82572226|NCT03845075|164853857|SUPERIORITY||LS Mean Difference|3.09||||0.1053|TWO_SIDED|95.0|-0.73|6.91||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT observed.||6.91|-0.73|0.1053
82637972|NCT00612456|164990711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.476||0.0509|TWO_SIDED|95.0|0.0|2.0||Statistics has been presented for least square means.|ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||2.00|-0.00|0.0509
82384969|NCT05870371|164481299|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.989|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|||||=0.989
82384970|NCT05870371|164481300|OTHER||Mean Difference (Net)|-5.6|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the functionality recorded with the Neck Disability Index (NDI) in patients with chronic pain in the cervical spine (secondary hypothesis).||||<0.001
82384971|NCT05870371|164481300|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.973|TWO_SIDED|||||The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of functionality recorded with the Neck Disability Index (NDI) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.973
82384972|NCT05870371|164481301|OTHER||Mean Difference (Net)|-2.11|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Depression subscale of HADS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above value corresponds to the Depression subscale of HADS.|Null Hypothesis: The application of ATM does not affect the anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384973|NCT05870371|164481301|OTHER||Mean Difference (Net)|-2.05|||<|0.001|TWO_SIDED|||||The above value corresponds to the Anxiety subscale of HADS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above value corresponds to the Anxiety subscale of HADS.|Null Hypothesis: The application of ATM does not affect the anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82637973|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.566||0.3976|TWO_SIDED|95.0|-0.7|1.68|||ANCOVA|||Comparison between Baseline value and Day 29 value for FA Blood Area of measurement.||1.68|-0.70|0.3976
82442698|NCT00394901|164594045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.51||||0.057||95.0|-0.1|7.13|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.13|-0.10|0.057
82520630|NCT02962908|164736636|OTHER|inequality test||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL-2 from day 0 to day 42.||||0.125
82520631|NCT02962908|164736636|OTHER|inequality test||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82637974|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.385||0.241|TWO_SIDED|95.0|-0.32|1.23|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||1.23|-0.32|0.2410
82520632|NCT02962908|164736636|OTHER|inequality test||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 42.||||0.72
82520633|NCT02962908|164736636|OTHER|inequality test||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 42.||||0.34
82520634|NCT02962908|164736637|OTHER|inequality test||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 to day 180.||||0.62
82520635|NCT02962908|164736637|OTHER|inequality test||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IFN-gamma from day 0 to day 180.||||0.030
82520636|NCT02962908|164736637|OTHER|inequality test||||||0.87|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 180.||||0.87
82520637|NCT02962908|164736637|OTHER|inequality test||||||0.075|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for TNF-alpha from day 0 to day 180.||||0.075
82520638|NCT02962908|164736637|OTHER|inequality test||||||0.076|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 180.||||0.076
82520639|NCT02962908|164736637|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for IL-2 from day 0 to day 180.||||<0.001
82520640|NCT02962908|164736637|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 180.||||0.91
82520641|NCT02962908|164736637|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD4+ T cells positive for CD107a from day 0 to day 180.||||0.91
82520642|NCT02962908|164736637|OTHER|inequality test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 180.||||0.55
82520643|NCT02962908|164736637|OTHER|inequality test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IFN-gamma from day 0 to day 180.||||0.55
82520644|NCT02962908|164736637|OTHER|inequality||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 180.||||0.91
82520645|NCT02962908|164736637|OTHER|inequality test||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for TNF-alpha from day 0 to day 180.||||0.91
82520646|NCT02962908|164736637|OTHER|inequality test||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL2 from day 0 to day 180.||||0.21
82520647|NCT02962908|164736637|OTHER|inequality test||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for IL2 from day 0 to day 180.||||0.48
82520648|NCT02962908|164736637|OTHER|inequality test||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 180.||||0.62
82520649|NCT02962908|164736637|OTHER|inequality||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Comparison of the difference in median fold increase in number of CD8+ T cells positive for CD107a from day 0 to day 180.||||0.23
82520650|NCT02962908|164736638|OTHER|inequality test||||||0.8|||||||Chi-squared|||Comparison of CD4+ IFNgamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.80
82520651|NCT02962908|164736638|OTHER|inequality test|||||<|0.001|||||||Fisher Exact|||Comparison of CD4+ IFNgamma responders on day 42. Differences considered significant if p-value \<0.05.||||<0.001
82520652|NCT02962908|164736638|OTHER|inequality test||||||0.23|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.23
82520653|NCT02962908|164736638|OTHER|||||||0.056|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.056
82637975|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|0.412||0.0032|TWO_SIDED|95.0|0.44|2.09|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||2.09|0.44|0.0032
82442699|NCT00394901|164594045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.67||95.0|-2.78|4.32|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.32|-2.78|0.670
82520654|NCT02962908|164736638|OTHER|inequality test||||||0.74|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.74
82520655|NCT02962908|164736638|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 42. Differences considered significant if p-value \<0.05.||||<0.001
82520656|NCT02962908|164736638|OTHER|inequality test||||||0.34|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.34
82520657|NCT02962908|164736638|OTHER|inequality test||||||0.01|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.010
82520658|NCT02962908|164736638|OTHER|inequality test||||||0.096|||||||Chi-squared|||Comparison of CD4+ IFNgamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.096
82520659|NCT02962908|164736638|OTHER|inequality test||||||0.049|||||||Fisher Exact|||Comparison of CD4+ IFNgamma responders on day 180.Differences considered significant if p-value \<0.05.||||0.049
82520660|NCT02962908|164736638|OTHER|inequality test||||||0.91|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.91
82520661|NCT02962908|164736638|OTHER|||||||0.39|||||||Chi-squared|||Comparison of CD4+ TNF alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.39
82520662|NCT02962908|164736638|OTHER|inequality test||||||0.94|||||||Chi-squared|||Comparison of CD4+ IL-2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.94
82520663|NCT02962908|164736638|OTHER|inequality test|||||<|0.001|||||||Fisher Exact|||Comparison of CD4+ IL-2 responders on day 180. Differences considered significant if p-value \<0.05.||||<0.001
82520664|NCT02962908|164736638|OTHER|inequality test||||||0.044|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.044
82520665|NCT02962908|164736638|OTHER|inequality test||||||0.98|||||||Fisher Exact|||Comparison of CD4+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.98
82520666|NCT02962908|164736638|OTHER|inequality test||||||0.48|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.48
82520667|NCT02962908|164736638|OTHER|inequality test||||||0.28|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 42. Differences considered significant if p-value \<0.05.||||0.28
82520668|NCT02962908|164736638|OTHER|inequality test||||||0.7|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.70
82520669|NCT02962908|164736638|OTHER|inequality test||||||0.175|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 42. Differences considered significant if p-value \<0.05.||||0.175
82520670|NCT02962908|164736638|OTHER|inequality test||||||0.24|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.24
82520671|NCT02962908|164736638|OTHER|inequality test||||||0.8|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 42. Differences considered significant if p-value \<0.05.||||0.80
82520672|NCT02962908|164736638|OTHER|inequality test||||||0.023|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.023
82520673|NCT02962908|164736638|OTHER|inequality test||||||0.015|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 42. Differences considered significant if p-value \<0.05.||||0.015
82520674|NCT02962908|164736638|OTHER|inequality test||||||0.81|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.81
82520675|NCT02962908|164736638|OTHER|inequality test||||||0.34|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IFN-gamma responders on day 180. Differences considered significant if p-value \<0.05.||||0.34
82520676|NCT02962908|164736638|OTHER|inequality test||||||0.3|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.30
82520677|NCT02962908|164736638|OTHER|inequality test||||||0.105|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ TNF-alpha responders on day 180. Differences considered significant if p-value \<0.05.||||0.105
82520678|NCT02962908|164736638|OTHER|inequality test||||||0.38|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.38
82520679|NCT02962908|164736638|OTHER|inequality test||||||0.44|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ IL2 responders on day 180. Differences considered significant if p-value \<0.05.||||0.44
82520680|NCT02962908|164736638|OTHER|inequality test||||||0.58|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.58
82520681|NCT02962908|164736638|OTHER|inequality test||||||0.43|||||||Chi squared or Fisher's exact test|||Comparison of CD8+ CD107a responders on day 180. Differences considered significant if p-value \<0.05.||||0.43
82637976|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.581||0.3185|TWO_SIDED|95.0|-0.58|1.75|||ANCOVA|||Comparison between Baseline value and Day 29 value for Total Lesion size||1.75|-0.58|0.3185
82520682|NCT02962908|164736639|OTHER|inequality test||||||0.25|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 42||||0.25
82520683|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 42||||1.0
82384974|NCT05870371|164481301|OTHER||Dependence coefficient (β)|0.04|STANDARD_ERROR_OF_MEAN|0.04|=|0.305|TWO_SIDED|||||The above p-value corresponds to the Depression subscale of HADS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Depression subscale of HADS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.305
82384975|NCT05870371|164481301|OTHER||Dependence coefficient (β)|0.05|STANDARD_ERROR_OF_MEAN|0.03|=|0.137|TWO_SIDED|||||The above p-value corresponds to the Anxiety subscale of HADS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|Log transformation was used for the mixed linear models.|The above values correspond to the Anxiety subscale of HADS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the reduction of anxiety and depression captured by the Hospital Anxiety \& Depression Scale (HADS) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.137
82384976|NCT05870371|164481302|OTHER||Mean Difference (Net)|-3.82|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.||Null Hypothesis: The application of ATM does not affect the kinesiophobia as measured by the Tampa Scale Kinesiophobia (TSK\_GR) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384977|NCT05870371|164481302|OTHER||Dependence coefficient (β)|0.02|STANDARD_ERROR_OF_MEAN|0.01|=|0.151|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05. The above value corresponds to the comparison which is between groups at baseline.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing kinesiophobia measured by the Tampa Scale Kinesiophobia (TSK\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.151
82637977|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.377||0.1074|TWO_SIDED|95.0|-0.14|1.37|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.37|-0.14|0.1074
82384978|NCT05870371|164481302|OTHER||||||=|0.021||||||The threshold for statistical significance was p \< 0.05.|McNemar|||||||=0.021
82384979|NCT05870371|164481303|OTHER||Mean Difference (Net)|-4.24|||=|0.006|TWO_SIDED|||||The above p-value corresponds to the FABQ\_physical subscale. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the FABQ\_physical subscale.|Null Hypothesis: The application of ATM does not affect the perception of the fear and the effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.006
82384980|NCT05870371|164481303|OTHER||Mean Difference (Net)|-2.24|||=|0.001|TWO_SIDED|||||The above p-value corresponds to the FABQ\_work subscale. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the FABQ\_work subscale.|Null Hypothesis: The application of ATM does not affect the perception of the fear and the effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain (secondary hypothesis).||||=0.001
82384981|NCT05870371|164481303|OTHER||Dependence coefficient (β)|0.1|STANDARD_ERROR_OF_MEAN|0.07|=|0.197|TWO_SIDED|||||The above p-value corresponds to the FABQ\_work subscale. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the FABQ\_work subscale. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of perception of fear and effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.197
82442700|NCT00394901|164594045|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.04||||0.559||95.0|-2.45|4.53|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.53|-2.45|0.559
82520684|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL-2 at day 42||||1.00
82520685|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 42||||1.00
82520686|NCT02962908|164736639|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 42||||<0.001
82384982|NCT05870371|164481303|OTHER||Dependence coefficient (β)|0.07|STANDARD_ERROR_OF_MEAN|0.04|=|0.066|TWO_SIDED|||||The above p-value corresponds to the FABQ\_physical subscale. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the FABQ\_physical subscale. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of perception of fear and effort to avoid pain in relation to physical and work activities assessed by the Fear Avoidance Beliefs Questionnaire\_Greek version (FABQ\_GR) in patients with chronic neck pain from the application of A-S (secondary hypothesis).||||=0.066
82520687|NCT02962908|164736639|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 42||||<0.001
82520688|NCT02962908|164736639|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 42||||<0.001
82520689|NCT02962908|164736639|OTHER|inequality test||||||0.31|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 42||||0.31
82520690|NCT02962908|164736639|OTHER|inequality test||||||0.48|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 180||||0.48
82520691|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 180||||1.00
82572227|NCT03845075|164853858|SUPERIORITY||LS Mean Difference|-3.12||||0.0033|TWO_SIDED|95.0|-5.02|-1.21||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed||-1.21|-5.02|0.0033
82384983|NCT05870371|164481304|OTHER||Mean Difference (Net)|-7.07|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Total PCS score. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Total PCS score.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384984|NCT05870371|164481304|OTHER||Mean Difference (Net)|-2.02|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Rumination subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Rumination subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82520692|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 180||||1.00
82520693|NCT02962908|164736639|OTHER|inequality test||||||0.59|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 180||||0.59
82520694|NCT02962908|164736639|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IFN-gamma at day 180||||<0.001
82520695|NCT02962908|164736639|OTHER|inequality test||||||0.013|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing TNF-alpha at day 180||||0.013
82520696|NCT02962908|164736639|OTHER|inequality|||||<|0.001|||||||Chi-squared|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing IL2 at day 180||||<0.001
82520697|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD4+ T-cell producing CD107a at day 180||||1.00
82637978|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|0.402||0.0403|TWO_SIDED|95.0|0.04|1.65|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.65|0.04|0.0403
82442701|NCT00394901|164594046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.4||||0.004||95.0|3.01|15.78|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||15.78|3.01|0.004
82520698|NCT02962908|164736639|OTHER|inequality test||||||0.55|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 42||||0.55
82520699|NCT02962908|164736639|OTHER|inequality test||||||0.55|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 42||||0.55
82520700|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 42||||1.00
82520701|NCT02962908|164736639|OTHER|inequality test||||||0.29|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 180||||0.29
82520702|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 180||||1.00
82520703|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing IFN-gamma at day 180||||1.00
82520704|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing TNF-alpha at day 180||||1.00
82520705|NCT02962908|164736639|OTHER|inequality test||||||1|||||||Fisher Exact|||Comparison of responders determined by MIMOSA analysis of CD8+ T-cell producing CD107a at day 180||||1.00
82520706|NCT02962908|164736640|OTHER|inequality test||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 42. p\<0.05 considered statistically significant.||||0.59
82637979|NCT00612456|164990711|SUPERIORITY_OR_OTHER|Statistics has been presented for least square means.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.594||0.249|TWO_SIDED|95.0|-0.5|1.88|||ANCOVA|||Comparison between Baseline value and Day 29 value for CNV Size||1.88|-0.50|0.2490
82384985|NCT05870371|164481304|OTHER||Mean Difference (Net)|-1.66|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Magnification subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Magnification subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82637980|NCT04533204|164990729|SUPERIORITY||Mean Difference (Final Values)|18.47|||<|0.001|TWO_SIDED|95.0|12.28|24.67|||Mixed Models Analysis|||||24.67|12.28|<.001
82637981|NCT04533204|164990730|SUPERIORITY||Mean Difference (Final Values)|2.33||||0.004|TWO_SIDED|95.0|0.75|3.91||Performance on cued recall (error scores)|Mixed Models Analysis|||||3.91|.75|.004
82637982|NCT00660829|164990731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5633|STANDARD_DEVIATION|0.3345|<|0.001||95.0|-2.22|-0.91|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.91|-2.22|<0.001
82637983|NCT00660829|164990732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7444|STANDARD_ERROR_OF_MEAN|0.1677|<|0.001||95.0|-1.07|-0.42|||ANOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.42|-1.07|<0.001
82637984|NCT00660829|164990733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4403|STANDARD_DEVIATION|0.3406|<|0.001||95.0|-2.11|-0.77|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.77|-2.11|<0.001
82637985|NCT00660829|164990734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2907|STANDARD_DEVIATION|0.3204|<|0.001||95.0|-1.92|0.66|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline||0.66|-1.92|<0.001
82637986|NCT00660829|164990735|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|||Change from baseline||||0.001
82637987|NCT00280059|164990766|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin for the proportion of seizure free participants set at 10%; non-inferiority declared if the lower bound of the 95% confidence interval (CI) of the difference in seizure-free proportion between pregabalin and lamotrigine was no more than 10% in favor of lamotrigine, but 0 was contained within the lower bound of the CI. Interpretation of superiority required lower bound of CI did not contain 0 in favor of pregabalin.|Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.24|-0.09|||Gart and Nam: correction of skewness||95% confidence interval for the true difference in proportions, as well as a one-sided test at α=0.025; confidence interval adjusted for centers clustered within a geographical region, with upper and lower confidence limits.|Analysis of the binary response variable for 6 consecutive months seizure freedom analyzed by comparing the proportions of favorable responders between the two treatment groups after stratifying by clusters and correcting for skewness (Gart and Nam, 1990). Percentage can be obtained by multiplying proportion by 100.||-0.09|-0.24|
82384986|NCT05870371|164481304|OTHER||Mean Difference (Net)|-3.39|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Helplessness subscale of PCS. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Helplessness subscale of PCS.|Null Hypothesis: The application of ATM does not affect the degree of pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82637988|NCT00280059|164990767|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.74||||0.0034|TWO_SIDED|95.0|0.6|0.9||Nominal value for 2-sided test calculated using Cox proportional hazards model, adjusted for geographic regions.|Regression, Cox|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \> 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||0.90|0.60|0.0034
82637989|NCT00280059|164990768|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.06||||0.8047|TWO_SIDED|95.0|0.65|1.74||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.74|0.65|0.8047
82637990|NCT00280059|164990769|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19||||0.2537|TWO_SIDED|95.0|0.88|1.6||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.60|0.88|0.2537
82442702|NCT00394901|164594046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.67||||0.037||95.0|0.39|12.95|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.95|0.39|0.037
82637991|NCT00280059|164990770|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|6.52||||0.0025|TWO_SIDED|95.0|1.93|22.04||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||22.04|1.93|0.0025
82637992|NCT00280059|164990771|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.36||||0.0744|TWO_SIDED|95.0|0.97|1.91||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.91|0.97|0.0744
82637993|NCT00280059|164990772|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.47||||0.0003|TWO_SIDED|95.0|1.19|1.8||Nominal value for 2-sided test calculated using Cox proportional hazards model adjusted for geographical cluster.|Cox proportional hazards model|||Risk ratio=hazard ratio estimated from the Cox proportional hazards model for assessing a treatment difference, risk ratio \< 1 is in favor of pregabalin. The 95% confidence interval is for the true risk ratio.||1.80|1.19|0.0003
82637994|NCT00280059|164990782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.0025|TWO_SIDED|95.0|0.3|1.4|||ANCOVA|||Anxiety; model includes treatment and geographical cluster as fixed effects and respective baseline scores as a continuous covariate.||1.4|0.3|0.0025
82384987|NCT05870371|164481304|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.871|TWO_SIDED|||||The above p-value corresponds to the Total PCS score. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Total PCS score. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).|The above values correspond to the comparison which is between groups at baseline.|||=0.871
82637995|NCT00280059|164990782|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.0186|TWO_SIDED|95.0|0.1|1.1|||ANCOVA|||Depression; model includes treatment and geographical cluster as fixed effects and respective baseline scores as a continuous covariate.||1.1|0.1|0.0186
82637996|NCT00280059|164990783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.0683|TWO_SIDED|95.0|0.98|1.93|||Regression, Logistic|||Week 8: dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.93|0.98|0.0683
82520707|NCT02962908|164736640|OTHER|inequality test||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 42. p\<0.05 considered statistically significant.||||0.001
82520708|NCT02962908|164736640|OTHER|inequality test||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 180. p\<0.05 considered statistically significant.||||0.61
82520709|NCT02962908|164736640|OTHER|inequality test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of median fold-increase in IFN-gamma secretion as measured by ELISA on day 180. p\<0.05 considered statistically significant.||||<0.001
82572228|NCT03845075|164853858|SUPERIORITY||LS Mean Difference|0.58||||0.6663|TWO_SIDED|95.0|-2.24|3.41||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||3.41|-2.24|0.6663
82384988|NCT05870371|164481304|OTHER||Dependence coefficient (β)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|=|0.887|TWO_SIDED|||||The above p-value corresponds to the Rumination subscale of PCS. The above value correspond to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Rumination subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.887
82520710|NCT02962908|164736641|OTHER|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||"Comparison of number of responders on day 42. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 42."||||0.113
82520711|NCT02962908|164736641|OTHER||||||<|0.001|||||||Fisher Exact|||"Comparison of number of responders on day 42. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 42."||||<0.001
82520712|NCT02962908|164736641|OTHER|||||||0.399|||||||Chi-squared|||"Comparison of number of responders on day 180. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 180."||||0.399
82520713|NCT02962908|164736641|OTHER||||||<|0.001|||||||Fisher Exact|||"Comparison of number of responders on day 180. A subject was considered a responder if an increase of secreted IFNgamma of at least two fold was observed from day 0 to day 180."||||<0.001
82520714|NCT02962908|164736643|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 42 post-vaccination.||||<0.001
82384989|NCT05870371|164481304|OTHER||Dependence coefficient (β)|0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.879|TWO_SIDED|||||The above p-value corresponds to the Magnification subscale of PCS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Magnification subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.879
82384990|NCT05870371|164481304|OTHER||Dependence coefficient (β)|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.961|TWO_SIDED|||||The above p-value corresponds to the Helplessness subscale of PCS. The above value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Helplessness subscale of PCS. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ from the application of A-S in reducing pain catastrophizing recorded by the Pain Catastrophizing Scale (PCS) in patients with chronic neck pain (secondary hypothesis).||||=0.961
82384991|NCT05870371|164481305|OTHER||Mean Difference (Net)|4.99|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Physical Component Summary/PCS subscale of SF-12. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Physical Component Summary/PCS subscale of SF-12.|Null Hypothesis: The application of ATM does not affect the quality of life as measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384992|NCT05870371|164481305|OTHER||Mean Difference (Net)|8.33|||<|0.001|TWO_SIDED|||||The above p-value corresponds to the Mental Component Summary/MCS subscale of SF-12. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above value corresponds to the Mental Component Summary/MCS subscale of SF-12.|Null Hypothesis: The application of ATM does not affect the quality of life as measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic neck pain (secondary hypothesis).||||<0.001
82384993|NCT05870371|164481305|OTHER||Dependence coefficient (β)|-0.76|STANDARD_ERROR_OF_MEAN|1.32|=|0.564|TWO_SIDED|||||The above p-value corresponds to the Physical Component Summary/PCS of SF-12. The above p-value corresponds to the comparison which is between groups at baseline. The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Physical Component Summary/PCS subscale of SF-12. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of quality of life measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.564
82384994|NCT05870371|164481305|OTHER||Dependence coefficient (β)|-3.05|STANDARD_ERROR_OF_MEAN|1.34|=|0.023|TWO_SIDED|||||The above p-value corresponds to Mental Component Summary/MCS of SF-12. The above p-value corresponds to the comparison which is between groups at baseline.The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|The Log transformation was used for the mixed linear models.|The above values correspond to the Mental Component Summary/MCS of SF-12. The above values correspond to the comparison which is between groups at baseline.|Null Hypothesis: The effect of the application of ATM does not differ in the improvement of quality of life measured by the Short Form 12-item Health Survey (SF-12) in patients with chronic pain in the cervical spine from the application of A-S (secondary hypothesis).||||=0.023
82384995|NCT05870371|164481306|OTHER||||||=|0.014||||||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||=0.014
82384996|NCT05870371|164481306|OTHER||Median Difference (Net)|1.0|||||TWO_SIDED|||||||||||||
82384997|NCT05870371|164481306|OTHER||Median Difference (Net)|2.0|||||TWO_SIDED|||||||||||||
82384998|NCT04495751|164481322|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|90.0|-3.5|1.1||||||||1.1|-3.5|
82384999|NCT04495751|164481323|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||||0.1|-0.5|
82385000|NCT04495751|164481324|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.7|2.0||||||||2.0|-0.7|
82385001|NCT04495751|164481325|SUPERIORITY||Mean Difference (Final Values)|-973.5|||||TWO_SIDED|95.0|-3500.0|1553.0||||||||1553|-3500|
82385002|NCT04495751|164481326|SUPERIORITY||Mean Difference (Final Values)|20.7|||||TWO_SIDED|95.0|-32.4|73.8||||||||73.8|-32.4|
82385003|NCT04495751|164481327|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.2|3.2||||||||3.2|-2.2|
82385004|NCT04495751|164481328|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.7||||||Quality of Life - Self-rate health||0.7|-0.2|
82385005|NCT04495751|164481328|SUPERIORITY|Quality of life - Ability to carry out social activities and roles|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.3|0.6||||||||0.6|-0.3|
82385006|NCT04495751|164481328|SUPERIORITY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-2.7|4.5||||||Physical health (t score)||4.5|-2.7|
82385007|NCT04495751|164481328|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.4|2.5||||||Global Mental health (t score||2.5|-5.4|
82385008|NCT04495751|164481329|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-99.7|101.9||||||||101.9|-99.7|
82385009|NCT04495751|164481330|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
82385010|NCT02505217|164481351|SUPERIORITY|||||||0.007|||||||Regression, Cox|||||||0.007
82520715|NCT02962908|164736643|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 42.||||<0.001
82520716|NCT02962908|164736643|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 180.||||<0.001
82520717|NCT02962908|164736643|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of geometric mean IgG titers specific to FLU-v antigens on day 180.||||<0.001
82520718|NCT02962908|164736646|OTHER|||||||0.662|||||||Fisher Exact|||Differences in the infection rates against any of the strains tested between treatment group and corresponding placebo.||||0.662
82520719|NCT02962908|164736646|OTHER|||||||0.168|||||||Fisher Exact|||Differences in the infection rates against any of the strains tested between treatment group and corresponding placebo.||||0.168
82520720|NCT02962908|164736647|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)||||The study was not powered to detected statistical significant differences in this outcome.|||>0.05
82520721|NCT02962908|164736647|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)||||Study not powered to detect statistically significant differences|||>0.05
82572229|NCT03845075|164853858|SUPERIORITY||LS Mean Difference|3.59||||0.0058|TWO_SIDED|95.0|1.21|5.98||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||5.98|1.21|0.0058
82637997|NCT00280059|164990783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.5096|TWO_SIDED|95.0|0.78|1.66|||Regression, Logistic|||Week 32: dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.66|0.78|0.5096
82520722|NCT02962908|164736648|OTHER|||||||0.513|||||||Wilcoxon (Mann-Whitney)|||Comparison in the duration of symptoms between treatment group and corresponding placebo.||||0.513
82520723|NCT02962908|164736648|OTHER|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||Comparison of the duration of symptoms between treatment group and corresponding placebo.||||0.578
82520724|NCT02962908|164736648|OTHER|||||||0.513|||||||Wilcoxon (Mann-Whitney)|||Comparison of total symptom score between treatment group and corresponding placebo.||||0.513
82520725|NCT02962908|164736648|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Comparison of the total symptom score between treatment group and corresponding placebo.||||0.200
82520726|NCT02962908|164736648|OTHER|||||||0.658|||||||Wilcoxon (Mann-Whitney)|||Comparison of the symptom peak between treatment group and corresponding placebo.||||0.658
82637998|NCT00280059|164990783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.6804|TWO_SIDED|95.0|0.73|1.63|||Regression, Logistic|||Week 56 (termination): dichotomized sleep assessment analyzed using a logistic regression model for repeated measures with fixed effects for treatment, geographical region, the average hours per night of sleep at baseline as a continuous covariate, time, and treatment-by-time interaction. The within subject covariance structure assumes an auto-regressive of order one covariance structure.||1.63|0.73|0.6804
82637999|NCT02127931|164990816|OTHER|||||||0.005|||||||Correlation|||ADHD-I||||0.005
82638000|NCT02127931|164990816|OTHER|||||||0.023|||||||Correlation|||ADHD-C||||0.023
82385011|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.0415||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 0.5mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 2 and 3 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
82385012|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.1225||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 1.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 1 and 3 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
82385013|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.208||||0.3184|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model based on all 3 dosage data points, not just the 2.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 1 and 2 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~Emax model analysis is shown here."||||0.3184
82638001|NCT02127931|164990817|OTHER|||||||0.013|||||||Correlation|||||||0.013
82385014|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.0415||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 0.5mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 5 and 6 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
82386699|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus their not being equal.|Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|0.73||0.29|TWO_SIDED|95.0|-2.22|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.66|-2.22|0.29
82442703|NCT00394901|164594046|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.46||||0.643||95.0|-4.74|7.66|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.66|-4.74|0.643
82572230|NCT03845075|164853859|SUPERIORITY||LS Mean Difference|-3.02||||0.0713|TWO_SIDED|95.0|-6.34|0.3||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed||0.30|-6.34|0.0713
82572231|NCT03845075|164853859|SUPERIORITY||LS Mean Difference|-2.48||||0.1457|TWO_SIDED|95.0|-5.92|0.96||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||0.96|-5.92|0.1457
82572232|NCT03845075|164853859|SUPERIORITY||LS Mean Difference|0.85||||0.1837|TWO_SIDED|95.0|-0.45|2.15||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||2.15|-0.45|0.1837
82572233|NCT03845075|164853860|SUPERIORITY||LS Mean Difference|-0.05||||0.7926|TWO_SIDED|95.0|-0.42|0.33||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT LOCF||0.33|-0.42|0.7926
82572234|NCT03845075|164853860|SUPERIORITY||LS Mean Difference|-0.27||||0.2124|TWO_SIDED|95.0|-0.72|0.17||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 48; mITT LOCF||0.17|-0.72|0.2124
82572235|NCT03845075|164853860|SUPERIORITY||LS Mean Difference|-0.14||||0.6084|TWO_SIDED|95.0|-0.72|0.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Week 24 to Week 48; mITT LOCF||0.43|-0.72|0.6084
82572236|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|16.0||||0.0905|TWO_SIDED|95.0|-2.85|34.85||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to week 24; mITT observed. (Like to eat something fatty)||34.85|-2.85|0.0905
82572237|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|6.65||||0.6285|TWO_SIDED|95.0|-22.05|35.36||P-value from ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Like some meat/fish)||35.36|-22.05|0.6285
82572238|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-6.81||||0.5884|TWO_SIDED|95.0|-33.05|19.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Eat something salty).||19.43|-33.05|0.5884
82572239|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|2.98||||0.8533|TWO_SIDED|95.0|-30.73|36.68||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate.|Baseline to Week 24; mITT observed. (Eat something sweet).||36.68|-30.73|0.8533
82572240|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-17.33||||0.1529|TWO_SIDED|95.0|-41.87|7.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Like to eat something fatty).||7.20|-41.87|0.1529
82572241|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-11.75||||0.3399|TWO_SIDED|95.0|-37.15|13.65||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Like some meat/fish).||13.65|-37.15|0.3399
82572242|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-23.95||||0.0673|TWO_SIDED|95.0|-49.84|1.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Eat something salty).||1.93|-49.84|0.0673
82572243|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-22.6||||0.1657|TWO_SIDED|95.0|-55.65|10.46||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Eat something sweet).||10.46|-55.65|0.1657
82442704|NCT00394901|164594047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62||||0.811||95.0|-4.5|5.75|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.75|-4.50|0.811
82385015|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.1225||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 1.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 4 and 6 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
82520727|NCT02962908|164736648|OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Comparison of the symptom peak between treatment group and corresponding placebo.||||0.640
82520728|NCT02962908|164736648|OTHER|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||Comparison of the average symptom score between treatment group and corresponding placebo.||||0.127
82520729|NCT02962908|164736648|OTHER|||||||0.201|||||||Wilcoxon (Mann-Whitney)|||Comparison of the average symptom score between treatment group and corresponding placebo.||||0.201
82520730|NCT02962908|164736649|OTHER|inequality test||||||0.85|||||||Chi-squared|||comparison between groups on day 42||||0.85
82520731|NCT02962908|164736649|OTHER|inequality test||||||0.042|||||||Fisher Exact|||comparison between groups on day 42||||0.042
82520732|NCT02962908|164736649|OTHER|inequality test||||||0.69|||||||Fisher Exact|||comparison between groups on day 180||||0.69
82442705|NCT00394901|164594047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.07||||0.006||95.0|2.03|12.12|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.12|2.03|0.006
82520733|NCT02962908|164736649|OTHER|inequality test||||||0.198|||||||Fisher Exact|||comparison between groups on day 180||||0.198
82520734|NCT02962908|164736649|OTHER|inequality test||||||0.092|||||||Chi-squared|||comparison between groups on day 42||||0.092
82520735|NCT02962908|164736649|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||comparison of groups on day 42||||<0.001
82520736|NCT02962908|164736649|OTHER|inequality test||||||0.27|||||||Chi-squared|||comparison of groups on day 180||||0.27
82520737|NCT02962908|164736649|OTHER|inequality test|||||<|0.001|||||||Chi-squared|||comparisons between groups on day 180||||<0.001
82520738|NCT00126438|164736650|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.001|TWO_SIDED|95.0|0.18|0.73||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader A readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.73|0.18|0.001
82385016|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.208||||0.2265|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the sigEmax curve model based on data points for all 3 dosages, not just the 2.0mg/kg point presented here.|Mixed Models Analysis|See Statistical Analysis 4 and 5 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||"The purpose of this analysis is to determine whether a dose-response relationship exists, with multiple possible models (Emax and sigEmax) being tested. gMCP-Mod analysis (Generalized Multiple Comparisons and Modeling) was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression w/ stratification by sex and hematocrit (high/low HCT). 2) Multiple contrast test. 3) Find best-fit dose-response model.~sigEmax model analysis is shown here."||||0.2265
82385017|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.2671||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 0.5mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 8 and 9 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
82385018|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.6561||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 1.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 7 and 9 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
82442706|NCT00394901|164594047|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.03||||0.047||95.0|0.06|10.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.00|0.06|0.047
82442707|NCT00394901|164594048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3||||0.013||95.0|1.1|9.5|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.50|1.10|0.013
82520739|NCT00126438|164736650|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.001|TWO_SIDED|95.0|0.18|0.72||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader B readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.72|0.18|0.001
82523425|NCT01422408|164742353|OTHER|||||||0.2472||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.2472
82523426|NCT01422408|164742354|OTHER|||||||0.507||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.507
82638002|NCT00951912|164990841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7981|STANDARD_ERROR_OF_MEAN|2.422|<|0.05|TWO_SIDED|95.0|-6.6569|5.0607|||ANOVA|||"Null hypothesis: There are no difference in the difference of changes in plasma glucose.~Power calculation: The sample size of 55 subjects per group provided about 90% power to detect a significant change in the FG concentration of 8 mg/dL (7%) by using a general assumption of a 2-tailed a level of 0.05 and allowing for a 20% withdrawal rate."||5.0607|-6.6569|<0.05
82523427|NCT01422408|164742355|OTHER|||||||0.3676||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.3676
82385019|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.4668||||0.0764|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to the fit of the Emax curve model for high HCT based on all 3 dosage data points, not just the 2.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 7 and 8 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for only the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0764
82442708|NCT00394901|164594048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.82||||0.07||95.0|-0.31|7.96|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.96|-0.31|0.070
82520740|NCT00126438|164736650|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.001|TWO_SIDED|95.0|0.17|0.72||At 0.025 level of significance.|Cox Proportional Hazards Model|||"Analysis based on Reader C readings. Data analysis to assess the relative hazard of an adverse cardiac event was performed using a Cox proportional hazards model. Hazard (risk) of an event for a participant with low H/M at time t was expressed as Hl (t)/ Hh (t) = Ψ, where Hl (t) and Hh (t) denote the hazard of an event at time t for participants with low H/M and high H/M respectively."||0.72|0.17|0.001
82385020|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.2671||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 0.5mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 11 and 12 for the other two data points (1.0mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
82385021|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.6561||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 1.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 10 and 12 for the other two data points (0.5mg/kg and 2.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
82442709|NCT00394901|164594048|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.93||||0.058||95.0|-0.13|8.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.00|-0.13|0.058
82442710|NCT00394901|164594049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.43||||0.443||95.0|-3.79|8.65|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.65|-3.79|0.443
82520741|NCT01420848|164736651|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||It was used the Post Hoc and the statistical significance was p\<0.05.|ANOVA|||It was carried out the analysis of variance (ANOVA) among the groups at the 3rd (12 sessions) Hypothesis: there is at least one difference among the groups.||||0.006
82520742|NCT01420848|164736651|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||The statistical significance was p\<0.05.|ANOVA|||"It was verified the normality of data distribution and the homogeneity of variance.~It was carried out the analysis of variance (ANOVA) among the groups at the follow-up (after 15 days)."||||0.023
82520743|NCT01420848|164736652|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||After ANOVA it was performed Post Hoc Test and the statistical significance was p\<0.05.|ANOVA|||It was carried out the analysis of variance (ANOVA)of the medium difference among the groups in the 3rd (12 sessions) Hypothesis: there is at least one difference among the groups (State Anxiety)||||0.012
82520744|NCT01420848|164736652|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||After ANOVA, the Post Hoc Test was done and the statistical significance was p\<0.05.|ANOVA|||"It was carried out the analysis of variance (ANOVA) of the medium difference among the groups at the follow-up (after 15 days).~Hypothesis: there is at least one difference among the groups (State Anxiety)."||||0.005
82638003|NCT00951912|164990841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0842|STANDARD_ERROR_OF_MEAN|2.411|<|0.05|TWO_SIDED|95.0|-2.7486|8.9171|||ANOVA|||||8.9171|-2.7486|<0.05
82385022|NCT04681066|164481364|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the hazard ratio obtained at each individual dose.|Hazard Ratio, log|0.4668||||0.0574|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model for high HCT based on all 3 dosage data points, not just the 2.0mg/kg point shown here.|Mixed Models Analysis|See Statistical Analysis 10 and 11 for the other two data points (0.5mg/kg and 1.0mg/kg) that are part of this same curve and p-value analysis.||The purpose of this analysis is to determine whether a dose-response relationship exists for the subset of patients with high HCT. Multiple possible models (Emax and sigEmax) were tested. gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis was performed in 3 steps as described in the SAP: 1) Hazard ratio (each dose vs placebo) using stratified Cox regression, stratification by sex 2) Multiple contrast test 3) Find best-fit dose-response model. sigEmax model analysis is shown here.||||0.0574
82638004|NCT00951912|164990841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.8823|STANDARD_ERROR_OF_MEAN|2.399|<|0.05|TWO_SIDED|95.0|-1.9234|9.6881|||ANOVA|||||9.6881|-1.9234|<0.05
82442711|NCT00394901|164594049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.41||||0.018||95.0|1.28|13.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.54|1.28|0.018
82638005|NCT00951912|164990842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7696|STANDARD_ERROR_OF_MEAN|4.2|<|0.05|TWO_SIDED|95.0|-11.9308|8.3916|||ANOVA|||||8.3916|-11.9308|<0.05
82572244|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-30.18||||0.0108|TWO_SIDED|95.0|-52.31|-8.06||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Like to eat something fatty).||-8.06|-52.31|0.0108
82572245|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-14.79||||0.171|TWO_SIDED|95.0|-36.71|7.13||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Like some meat/fish).||7.13|-36.71|0.1710
82572246|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-19.86||||0.0083|TWO_SIDED|95.0|-33.8|-5.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Eat something salty).||-5.93|-33.80|0.0083
82385023|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.3604||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the placebo data point shown here.|Mixed Models Analysis|See Statistical Analysis 2, 3, \& 4 for the other data points (0.5mg/kg, 1.0mg/kg, and 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
82638006|NCT00951912|164990842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6929|STANDARD_ERROR_OF_MEAN|4.1818|<|0.05|TWO_SIDED|95.0|-9.4232|10.8091|||ANOVA|||||10.8091|-9.4232|<0.05
82638007|NCT00951912|164990842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4626|STANDARD_ERROR_OF_MEAN|4.1624|<|0.05|TWO_SIDED|95.0|-7.6067|12.5318|||ANOVA|||||12.5318|-7.6067|<0.05
82442712|NCT00394901|164594049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83||||0.549||95.0|-4.18|7.85|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.85|-4.18|0.549
82572247|NCT03845075|164853861|SUPERIORITY||LS Mean Difference|-22.98||||0.0631|TWO_SIDED|95.0|-47.39|1.43||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Eat something sweet).||1.43|-47.39|0.0631
82572248|NCT03845075|164853862|SUPERIORITY||LS Mean Difference|-2.56||||0.8082|TWO_SIDED|95.0|-24.65|19.53||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed.||19.53|-24.65|0.8082
82572249|NCT03845075|164853862|SUPERIORITY||LS Mean Difference|-1.42||||0.9034|TWO_SIDED|95.0|-25.94|23.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF.||23.10|-25.94|0.9034
82572250|NCT03845075|164853862|SUPERIORITY||LS Mean Difference|-7.0||||0.4658|TWO_SIDED|95.0|-26.93|12.93||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF.||12.93|-26.93|0.4658
82638008|NCT00951912|164990843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01174|STANDARD_ERROR_OF_MEAN|1.45967|<|0.05|TWO_SIDED|95.0|-3.5428|3.5194|||ANOVA|||||3.5194|-3.5428|<0.05
82638009|NCT00951912|164990843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.68659|STANDARD_ERROR_OF_MEAN|1.4532|<|0.05|TWO_SIDED|95.0|-6.202|0.8288|||ANOVA|||||0.8288|-6.2020|<0.05
82638010|NCT00951912|164990843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.67485|STANDARD_ERROR_OF_MEAN|1.44646|<|0.05|TWO_SIDED|95.0|-6.174|0.8243|||ANOVA|||||0.8243|-6.174|<0.05
82638011|NCT00951912|164990844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9661|STANDARD_ERROR_OF_MEAN|3.14977|<|0.05|TWO_SIDED|95.0|-10.5857|4.6535|||ANOVA|||||4.6535|-10.5857|<0.05
82442713|NCT00394901|164594050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.15||||0.075||95.0|-0.63|12.92|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.92|-0.63|0.075
82572251|NCT03845075|164853863|SUPERIORITY||LS Mean Difference|-5.68||||0.0537|TWO_SIDED|95.0|-11.46|0.1||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT LOCF.||0.10|-11.46|0.0537
82572252|NCT03845075|164853863|SUPERIORITY||LS Mean Difference|-2.69||||0.3772|TWO_SIDED|95.0|-8.98|3.61||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF.||3.61|-8.98|0.3772
82385024|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.5078||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 0.5mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 3, \& 4 for the other data points (placebo, 1.0mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
82385025|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.834||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 1.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 2, \& 4 for the other data points (placebo, 0.5mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
82520745|NCT01951625|164736683|OTHER||Log-Scale mean difference|-0.122|||=|0.1506|TWO_SIDED|90.0|-0.32|0.07|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups (BAY1021189 2.5mg, BAY1021189 2.5 to 5mg, BAY1021189 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test at the significance level of 5 percent (%). Results are reported including 90% confidence intervals (CI) for the difference of means. The difference between the pooled treatment group and the placebo group is difference of means on the log scale.||0.07|-0.32|= 0.1506
82572253|NCT03845075|164853863|SUPERIORITY||LS Mean Difference|3.03||||0.1171|TWO_SIDED|95.0|-0.85|6.91||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF.||6.91|-0.85|0.1171
82572254|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|-0.05||||0.8623|TWO_SIDED|95.0|-0.59|0.5||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in total cholesterol)||0.50|-0.59|0.8623
82385026|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.7657||||0.2379|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the Emax curve model based on all 4 dosage data points, not just the 2.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 1, 2, \& 3 for the other data points (placebo, 0.5mg/kg, \& 1.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.2379
82442714|NCT00394901|164594050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.41||||0.111||95.0|-1.25|12.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.08|-1.25|0.111
82638012|NCT00951912|164990844|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.9972|STANDARD_ERROR_OF_MEAN|3.13581|<|0.05|TWO_SIDED|95.0|-8.583|6.5886|||ANOVA|||||6.5886|-8.5830|<0.05
82638013|NCT00951912|164990844|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.9689|STANDARD_ERROR_OF_MEAN|3.12126|<|0.05|TWO_SIDED|95.0|-5.5817|9.5195|||ANOVA|||||9.5195|-5.5817|<0.05
82520746|NCT01951625|164736683|OTHER||Log-Scale mean difference|-0.2494|||=|0.0483|TWO_SIDED|90.0|-0.5|0.0|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0|-0.5|= 0.0483
82385027|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.3604||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the placebo data point shown here.|Mixed Models Analysis|See Statistical Analysis 6, 7, \& 8 for the other data points (0.5mg/kg, 1.0mg/kg, and 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
82385028|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-2.5078||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 0.5mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 7, \& 8 for the other data points (placebo, 1.0mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
82385029|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.834||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 1.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 6, \& 8 for the other data points (placebo, 0.5mg/kg, \& 2.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. SigEmax model analysis is shown here.||||0.0291
82385030|NCT04681066|164481365|OTHER|The null hypothesis of flat dose-response relationship as compared to placebo for the primary efficacy endpoint was tested against the alternative hypothesis of a non-constant dose-response curve using a multiple contrast test as described in the gMCP-Mod methodology. The contrast test statistic is a linear combination of the optimal contrast coefficients corresponding to the dose-response curve model (Emax or sigEmax) with the logit of rate of severe respiratory failure at each individual dose.|Odds Ratio, log|-4.7657||||0.0291|TWO_SIDED|||||p-value adjusted for multiple comparisons. Test is based on significance level of one-sided 15%.The p-value shown here relates to fit of the sigEmax curve model based on all 4 dosage data points, not just the 2.0mg/kg data point shown here.|Mixed Models Analysis|See Statistical Analysis 5, 6, \& 7 for the other data points (placebo, 0.5mg/kg, \& 1.0mg/kg) that are part of this same curve and p-value analysis.||Analysis to determine whether a dose-response relationship exists. Multiple possible models (Emax and sigEmax) were tested using gMCP-Mod (Generalized Multiple Comparisons \& Modeling) analysis, performed in 3 steps as described in the SAP: 1) Odds ratio between each dose using logistic regression, with treatment, sex, and risk for organ failure (high/low HCT) as covariates 2) Multiple contrast test 3) Find best-fit dose-response model. Emax model analysis is shown here.||||0.0291
82385031|NCT04681066|164481376|SUPERIORITY|||||||0.0372|||||||Finkelstein-Schoenfeld|||||||0.0372
82385032|NCT04681066|164481376|SUPERIORITY|||||||0.4918|||||||Finkelstein-Schoenfeld|||||||0.4918
82385033|NCT04681066|164481376|SUPERIORITY|||||||0.6224|||||||Finkelstein-Schoenfeld|||||||0.6224
82520747|NCT01951625|164736683|OTHER||Log-Scale mean difference|-0.0731|||=|0.3042|TWO_SIDED|90.0|-0.31|0.16|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0.16|-0.31|= 0.3042
82572255|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.03||||0.8327|TWO_SIDED|95.0|-0.25|0.3||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in HDL cholesterol)||0.30|-0.25|0.8327
82520748|NCT01951625|164736683|OTHER||Log-Scale mean difference|-0.0396|||=|0.3841|TWO_SIDED|90.0|-0.26|0.18|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only, since the primary analyses were not significant.||0.18|-0.26|= 0.3841
82572256|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|-0.06||||0.808|TWO_SIDED|95.0|-0.53|0.42||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in LDL cholesterol)||0.42|-0.53|0.8080
82385034|NCT00953654|164481384|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|The degrees of freedom were adjusted when the sphericity assumption was violated based on Mauchly's test.||Effects of RET and AET were compared to WL using a 3 condition by 3 time ANCOVA. An a priori statistical power analysis showed that a sample of 30 patients would provide a statistical power of .80 to detect a condition-by-time interaction for PSWQ scores assuming a two-tailed alpha value of 0.05, a correlation across repeated measures of 0.75 and a desire to detect a standardized effect size of 0.65.||||<0.05
82385035|NCT03517540|164481392|SUPERIORITY||Odds Ratio (OR)|0.8||||0.688|TWO_SIDED|95.0|0.25|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.25|0.688
82385036|NCT03517540|164481392|SUPERIORITY||Odds Ratio (OR)|1.01||||0.985|TWO_SIDED|95.0|0.51|1.99|||Cochran-Mantel-Haenszel|||||1.99|0.51|0.985
82385037|NCT03517540|164481392|SUPERIORITY||Odds Ratio (OR)|0.92||||0.87|TWO_SIDED|95.0|0.3|2.84|||Cochran-Mantel-Haenszel|||||2.84|0.3|0.870
82385038|NCT03517540|164481392|SUPERIORITY||Odds Ratio (OR)|1.21||||0.71|TWO_SIDED|95.0|0.41|3.61|||Cochran-Mantel-Haenszel|||||3.61|0.41|0.710
82385039|NCT03517540|164481393|SUPERIORITY||Odds Ratio (OR)|0.37||||0.136|TWO_SIDED|95.0|0.08|1.61|||Cochran-Mantel-Haenszel|||||1.61|0.08|0.136
82385040|NCT03517540|164481393|SUPERIORITY||Odds Ratio (OR)|0.83||||0.747|TWO_SIDED|95.0|0.24|2.9|||Cochran-Mantel-Haenszel|||||2.9|0.24|0.747
82385041|NCT03517540|164481393|SUPERIORITY||Odds Ratio (OR)|0.84||||0.784|TWO_SIDED|95.0|0.18|3.63|||Cochran-Mantel-Haenszel|||||3.63|0.18|0.784
82520749|NCT01951625|164736683|OTHER||Log-Scale mean difference|0.0151|||=|0.5444|TWO_SIDED|90.0|-0.21|0.24|||t-test, 1 sided|||In case of a significant result in the primary analysis of the primary endpoint, pairwise comparisons to Placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In case of non-significance of the primary analyses, these secondary analyses were specified as exploratory only.||0.24|-0.21|= 0.5444
82638014|NCT00951912|164990845|SUPERIORITY_OR_OTHER||Mean Rank|1.442|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82638015|NCT00951912|164990846|SUPERIORITY_OR_OTHER||Mean Ranks|1.895|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82385042|NCT03517540|164481393|SUPERIORITY||Odds Ratio (OR)|1.45||||0.521|TWO_SIDED|95.0|0.4|5.69|||Cochran-Mantel-Haenszel|||||5.69|0.4|0.521
82385043|NCT02640664|164481415|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|2.93|||TWO_SIDED|95.0|-1.1|10.5||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||10.5|-1.1|
82520750|NCT05540522|164736715|OTHER||RVE|34.5|||||TWO_SIDED|95.0|7.4|53.9||||||||53.9|7.4|
82638016|NCT00951912|164990847|SUPERIORITY_OR_OTHER||Mean Ranks|2.169|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82638017|NCT00951912|164990848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.437|STANDARD_ERROR_OF_MEAN|4.9113|<|0.05|TWO_SIDED|95.0|-8.444|15.318|||ANOVA|||||15.318|-8.444|<0.05
82385044|NCT02640664|164481415|SUPERIORITY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|2.96|||TWO_SIDED|95.0|-3.4|8.3||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||8.3|-3.4|
82385045|NCT02640664|164481415|SUPERIORITY||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|-3.3|7.8||primary endpoint in the extension study does not have p-values. It's a descriptive analysis.|ANOVA|||||7.8|-3.3|
82385046|NCT02640664|164481418|SUPERIORITY||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|4.42|||TWO_SIDED|95.0|-0.8|16.7||P value not applicable because it's a descriptive analysis.|ANOVA|||||16.7|-0.8|
82385047|NCT02640664|164481418|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|4.49|||TWO_SIDED|95.0|-7.3|10.5||P value not applicable because it's a descriptive analysis.|ANOVA|||||10.5|-7.3|
82385048|NCT02640664|164481418|SUPERIORITY||Mean Difference (Net)|6.4|STANDARD_ERROR_OF_MEAN|4.24|||TWO_SIDED|95.0|-2.0|14.8|||ANOVA|||||14.8|-2.0|
82385049|NCT05682729|164481501|SUPERIORITY||Partial Eta Squared|0.03||||0.41|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05. Wilks' Lambda F(3, 109) = .96, p = .41, ηp2 = .03.|ANCOVA|||We specifically compared the pre-to-post test change in accuracy on the FAM task across the four groups using a within-subjects ANCOVA and specifically a group by time (pre-to-post test) interaction. We controlled for age, gender, and children's executive function skills.||||.41
82520751|NCT05540522|164736716|OTHER||RVE|-5.8|||||TWO_SIDED|95.0|-47.2|23.8||||||||23.8|-47.2|
82520752|NCT05540522|164736737|OTHER||GMR|1.23|||||TWO_SIDED|95.0|1.1|1.38||||||A/H3N2||1.38|1.10|
82520753|NCT05540522|164736737|OTHER||GMR|1.24|||||TWO_SIDED|95.0|1.1|1.39||||||A/H1N1||1.39|1.10|
82385050|NCT05682729|164481501|SUPERIORITY||Partial Eta Squared|0.07||||0.004|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.004
82385051|NCT05682729|164481501|SUPERIORITY||Partial Eta Squared|0.04||||0.031|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.031
82385052|NCT05682729|164481501|SUPERIORITY||Partial Eta Squared|0.01||||0.463|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.463
82638018|NCT00951912|164990848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4809|STANDARD_ERROR_OF_MEAN|4.8896|<|0.05|TWO_SIDED|95.0|-8.3475|15.3092|||ANOVA|||||15.3092|-8.3475|<0.05
82385053|NCT05682729|164481501|SUPERIORITY||Partial Eta Squared|0.02||||0.186|TWO_SIDED||||||ANCOVA|||Following the omnibus test, we conducted planned comparisons to compare pre-to-post test change within our experimental and control groups to test for significant positive change from pre-to-post test.||||.186
82385054|NCT05682729|164481502|SUPERIORITY||Partial Eta Squared|0.02||||0.605|TWO_SIDED||||||ANCOVA|||||||.605
82385055|NCT05682729|164481503|SUPERIORITY||Partial Eta Squared|0.02||||0.618|TWO_SIDED||||||ANCOVA|||||||.618
82385056|NCT04850989|164481537|SUPERIORITY||Mean Difference (Net)|-5.14|STANDARD_DEVIATION|0.49|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
82385057|NCT04850989|164481538|SUPERIORITY||Mean Difference (Net)|-11.54|STANDARD_DEVIATION|-1.23|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
82385058|NCT04850989|164481539|SUPERIORITY||Mean Difference (Net)|-8.08|STANDARD_DEVIATION|1.91|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
82385059|NCT04850989|164481540|SUPERIORITY||Mean Difference (Net)|-8.08|STANDARD_DEVIATION|1.91|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
82385060|NCT04850989|164481541|SUPERIORITY||Mean Difference (Net)|-3.48|STANDARD_DEVIATION|0.28|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||> 0.05
82385061|NCT00433511|164481551|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.17|TWO_SIDED|95.0|0.71|1.06||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm C/Arm A|The primary objective of this trial was to determine whether the addition of bevacizumab improved IDFS. A two-step hierarchical approach was used. In the 1st step, Arm C was to be compared to Arm A. If Arm C significantly improved IDFS relative to Arm A, then in the 2nd step, a comparison of Arm B to Arm A was to be performed. If the treatment in both Arm C and Arm B significantly improved IDFS relative to Arm A, then a comparison of Arm C to Arm B was to be performed with respect to IDFS.||1.06|0.71|0.17
82638019|NCT00951912|164990848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0439|STANDARD_ERROR_OF_MEAN|4.8669|<|0.05|TWO_SIDED|95.0|-11.7296|11.8174|||ANOVA|||||11.8174|-11.7296|<0.05
82385062|NCT00433511|164481552|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.41|TWO_SIDED|95.0|0.68|1.17||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm C/Arm A|||1.17|0.68|0.41
82385063|NCT00433511|164481552|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.92|TWO_SIDED|95.0|0.77|1.33||Two-sided; based on stratified test using stratification factors at randomization.|Regression, Cox||Hazard ratio: Arm B/Arm A|||1.33|0.77|0.92
82385064|NCT00433511|164481552|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.36|TWO_SIDED|95.0|0.72|1.13||Two-sided; based on stratified test using stratification factors at randomization|Regression, Cox||Hazard ratio: Arm C/Arm B|||1.13|0.72|0.36
82385065|NCT02151851|164481565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.899|||<|0.001|TWO_SIDED|95.0|2.382|6.382||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||6.382|2.382|<0.001
82638020|NCT00951912|164990849|SUPERIORITY_OR_OTHER||Mean ranks|1.031|||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82638021|NCT00951912|164990850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8185|STANDARD_ERROR_OF_MEAN|3.2343|<|0.05|TWO_SIDED|95.0|-6.0057|9.6426|||ANOVA|||||9.6426|-6.0057|<0.05
82638022|NCT00951912|164990850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0276|STANDARD_ERROR_OF_MEAN|3.2199|<|0.05|TWO_SIDED|95.0|-6.7619|8.817|||ANOVA|||||8.8170|-6.7619|<0.05
82442715|NCT00394901|164594050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.02||||0.366||95.0|-3.55|9.6|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.60|-3.55|0.366
82442716|NCT00394901|164594051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.64||||0.039||95.0|0.29|11.0|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.00|0.29|0.039
82442717|NCT00394901|164594051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.42||||0.006||95.0|2.14|12.69|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.69|2.14|0.006
82442718|NCT00394901|164594051|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.15||||0.117||95.0|-1.05|9.34|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.34|-1.05|0.117
82520754|NCT05540522|164736737|OTHER||GMR|0.73|||||TWO_SIDED|95.0|0.67|0.8||||||B/Yamagata||0.80|0.67|
82520755|NCT05540522|164736737|OTHER||GMR|0.3|||||TWO_SIDED|95.0|0.26|0.35||||||B/Victoria||0.35|0.26|
82520756|NCT05540522|164736738|OTHER||GMR|1.65|||||TWO_SIDED|95.0|1.47|1.84||||||A/H3N2||1.84|1.47|
82520757|NCT05540522|164736738|OTHER||GMR|1.71|||||TWO_SIDED|95.0|1.51|1.92||||||A/H1N1||1.92|1.51|
82638023|NCT00951912|164990850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7909|STANDARD_ERROR_OF_MEAN|3.205|<|0.05|TWO_SIDED|95.0|-8.5442|6.9624|||ANOVA|||||6.9624|-8.5442|<0.05
82638024|NCT00951912|164990851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0122|STANDARD_ERROR_OF_MEAN|4.1686|<|0.05|TWO_SIDED|95.0|-8.0721|12.0964|||ANOVA|||||12.0964|-8.0721|<0.05
82638025|NCT00951912|164990851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7716|STANDARD_ERROR_OF_MEAN|4.1501|<|0.05|TWO_SIDED|95.0|-10.8111|9.2679|||ANOVA|||||9.2679|-10.8111|<0.05
82638026|NCT00951912|164990851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7837|STANDARD_ERROR_OF_MEAN|4.1309|<|0.05|TWO_SIDED|95.0|-12.7767|7.2092|||ANOVA|||||7.2092|-12.7767|<0.05
82442719|NCT00394901|164594052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.99||||0.154||95.0|-1.5|9.49|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05||9.49|-1.50|0.154
82442720|NCT00394901|164594052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.99||||0.012||95.0|1.58|12.4|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.40|1.58|0.012
82638027|NCT00951912|164990852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4437|STANDARD_ERROR_OF_MEAN|0.1001|<|0.05|TWO_SIDED|95.0|-0.6416|-0.2458|||ANOVA|||||-0.2458|-0.6416|<0.05
82638028|NCT00951912|164990852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1986|STANDARD_ERROR_OF_MEAN|0.09986|<|0.05|TWO_SIDED|95.0|-0.3956|-0.0016|||ANOVA|||||-0.0016|-0.3956|<0.05
82638029|NCT00951912|164990852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2451|STANDARD_ERROR_OF_MEAN|0.09648|<|0.05|TWO_SIDED|95.0|0.0544|0.4358|||ANOVA|||||0.4358|0.0544|<0.05
82442721|NCT00394901|164594052|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.76||||0.079||95.0|-0.56|10.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.08|-0.56|0.079
82442722|NCT00394901|164594053|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.6451||95.0|0.45|3.59|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.59|0.45|0.6451
82442723|NCT00394901|164594053|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.56||||0.0745||95.0|0.91|7.19|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.19|0.91|0.0745
82442724|NCT00394901|164594053|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.01||||0.1787||95.0|0.73|5.58|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.58|0.73|0.1787
82442725|NCT00394901|164594054|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.0732||95.0|0.93|5.52|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.52|0.93|0.0732
82520758|NCT05540522|164736738|OTHER||GMR|1.04|||||TWO_SIDED|95.0|0.95|1.14||||||B/Yamagata||1.14|0.95|
82520759|NCT05540522|164736738|OTHER||GMR|0.61|||||TWO_SIDED|95.0|0.54|0.69||||||B/Victoria||0.69|0.54|
82520760|NCT05540522|164736739|OTHER||Difference in percentage|11.4|||||TWO_SIDED|95.0|6.4|16.4||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||16.4|6.4|
82520761|NCT05540522|164736739|OTHER||Difference in percentage|13.6|||||TWO_SIDED|95.0|8.6|18.6||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||18.6|8.6|
82520762|NCT05540522|164736739|OTHER||Difference in percentage|-15.3|||||TWO_SIDED|95.0|-19.5|-11.2||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-11.2|-19.5|
82520763|NCT05540522|164736739|OTHER||Difference in percentage|-40.5|||||TWO_SIDED|95.0|-44.7|-36.1||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-36.1|-44.7|
82520764|NCT05540522|164736740|OTHER||Difference in percentage|21.6|||||TWO_SIDED|95.0|16.7|26.5||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||26.5|16.7|
82520765|NCT05540522|164736740|OTHER||Difference in percentage|25.7|||||TWO_SIDED|95.0|20.9|30.4||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||30.4|20.9|
82638030|NCT00951912|164990853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6353|STANDARD_ERROR_OF_MEAN|0.1146|<|0.05|TWO_SIDED|95.0|-0.8617|-0.4089|||ANOVA|||||-0.4089|-0.8617|<0.05
82638031|NCT00951912|164990853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0282|STANDARD_ERROR_OF_MEAN|0.1156||0.05|TWO_SIDED|95.0|-0.2003|0.2568|||ANOVA|||||0.2568|-0.2003|0.05
82385066|NCT02151851|164481566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.641|||<|0.001|TWO_SIDED|95.0|3.57|16.352||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||16.352|3.570|<0.001
82520766|NCT05540522|164736740|OTHER||Difference in percentage|-2.1|||||TWO_SIDED|95.0|-4.8|0.6||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||0.6|-4.8|
82385067|NCT02151851|164481567|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.248|||<|0.001|TWO_SIDED|95.0|2.209|23.786||Difference of CZP + MTX versus Placebo + MTX (and corresponding p-value) was estimated from a logistic regression model with factors for treatment and region.|Regression, Logistic|||||23.786|2.209|<0.001
82385068|NCT01540487|164481579|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.5|||||TWO_SIDED|90.0|94.7|104.5|||ANOVA|||||104.5|94.7|
82385069|NCT01540487|164481579|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.8|||||TWO_SIDED|90.0|95.1|106.8|||ANOVA|||||106.8|95.1|
82385070|NCT01540487|164481580|SUPERIORITY_OR_OTHER||adjusted gMean ratio|101.9|||||TWO_SIDED|90.0|95.4|109.0|||ANOVA|||||109.0|95.4|
82385071|NCT01540487|164481580|SUPERIORITY_OR_OTHER||adjusted gMean ratio|111.4|||||TWO_SIDED|90.0|100.4|123.5|||ANOVA|||||123.5|100.4|
82385072|NCT01540487|164481581|SUPERIORITY_OR_OTHER||adjusted gMean ratio|97.0|||||TWO_SIDED|90.0|90.6|103.8|||ANOVA|||||103.8|90.6|
82385073|NCT01540487|164481581|SUPERIORITY_OR_OTHER||adjusteg gMean ratio|103.0|||||TWO_SIDED|90.0|96.2|110.1|||ANOVA|||||110.1|96.2|
82385074|NCT01540487|164481582|SUPERIORITY_OR_OTHER||adjusted gMean ratio|94.6|||||TWO_SIDED|90.0|85.4|104.8|||ANOVA|||||104.8|85.4|
82385075|NCT01540487|164481582|SUPERIORITY_OR_OTHER||adjusted gMean ratio|102.5|||||TWO_SIDED|90.0|92.2|113.9|||ANOVA|||||113.9|92.2|
82385076|NCT01540487|164481583|SUPERIORITY_OR_OTHER||adjusted gMean ratio|110.1|||||TWO_SIDED|90.0|100.5|120.6|||ANOVA|||||120.6|100.5|
82385077|NCT01540487|164481583|SUPERIORITY_OR_OTHER||adjusted gMean ratio|89.3|||||TWO_SIDED|90.0|80.2|99.3|||ANOVA|||||99.3|80.2|
82385078|NCT01540487|164481584|SUPERIORITY_OR_OTHER||adjusted gMean ratio|98.0|||||TWO_SIDED|90.0|92.0|104.5|||ANOVA|||||104.5|92.0|
82385079|NCT01540487|164481584|SUPERIORITY_OR_OTHER||adjusted gMean ratio|102.8|||||TWO_SIDED|90.0|97.0|109.0|||ANOVA|||||109.0|97.0|
82385080|NCT01540487|164481585|SUPERIORITY_OR_OTHER||adjusted gMean ratio|99.5|||||TWO_SIDED|90.0|94.7|104.6|||ANOVA|||||104.6|94.7|
82385081|NCT01540487|164481585|SUPERIORITY_OR_OTHER||adjusted gMean ratio|100.8|||||TWO_SIDED|90.0|95.1|106.8|||ANOVA|||||106.8|95.1|
82385082|NCT03503370|164481597|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.39|1.8|||||Hazard ratio from Cox Proportional Hazard comparing the chlorhexidine group to the placebo group.|||1.80|0.39|
82385083|NCT03503370|164481598|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82385084|NCT03503370|164481599|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.34|1.77|||||Hazard ratio from Cox Proportional Hazard comparing the chlorhexidine group to the placebo group.|||1.77|0.34|
82385085|NCT03483961|164481600|SUPERIORITY|||||||0.0015||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 2 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.0015
82385086|NCT03483961|164481600|SUPERIORITY|||||||0.0761||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 3 vs. Group 1.||Groups 2-8 are compared to Group 1||||0.0761
82385087|NCT03483961|164481600|SUPERIORITY|||||||0.9317||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 4 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.9317
82385088|NCT03483961|164481600|SUPERIORITY||||||<|0.0001||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 5 vs. Group 1.||Groups 2-8 are compared to Group 1.||||<.0001
82385089|NCT03483961|164481600|SUPERIORITY|||||||0.0045||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 6 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.0045
82385090|NCT03483961|164481600|SUPERIORITY|||||||0.1437||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 7 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.1437
82385091|NCT03483961|164481600|SUPERIORITY|||||||0.3216||||||All tests were carried out at a 2-sided significance level of 0.05 and no adjustment for multiplicity was applied, since the goal was to rank different formulations rather than to establish inferential values.|ANOVA|ANOVA model including site and treatment group as fixed effects assuming normality of log titers. P-value is for Group 8 vs. Group 1.||Groups 2-8 are compared to Group 1.||||0.3216
82385092|NCT02640950|164481605|SUPERIORITY||||||<|0.001||||||Paired t test for pre and post treatment scores for all subjects|t-test, 2 sided|||Paired t-test of pre and post treatment scores on MADRS||||<0.001
82385093|NCT02640950|164481606|OTHER|Descriptive Frequencies Analysis|||||||||||||||||A frequencies analysis was conducted to determine the number of participants that were diagnosed with BP I and BP II as well as the number of participants that developed an onset of maniac symptoms during the 7 week treatment period.|||
82442726|NCT00394901|164594054|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.64||||0.0353||95.0|1.07|6.53|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.53|1.07|0.0353
82638032|NCT00951912|164990853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6635|STANDARD_ERROR_OF_MEAN|0.1121|<|0.05|TWO_SIDED|95.0|0.4419|0.8851|||ANOVA|||||0.8851|0.4419|<0.05
82442727|NCT00394901|164594054|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.5||||0.0393||95.0|1.05|5.96|||Regression, Logistic|treatment, CLcr stratum, and the presence of symptom at baseline as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.96|1.05|0.0393
82638033|NCT00951912|164990854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1557|STANDARD_ERROR_OF_MEAN|0.119|<|0.05||95.0|-0.3911|0.0796|||ANOVA|||||0.0796|-0.3911|<0.05
82385094|NCT00652626|164481620|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|98.4|||||TWO_SIDED|90.0|64.0|151.3|||||Ratio of geometric means is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% confidence interval (CI) of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||151.3|64.0|
82385095|NCT00652626|164481620|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|67.5|||||TWO_SIDED|90.0|44.7|101.8|||||Ratio of geometric means is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||101.8|44.7|
82520767|NCT05540522|164736740|OTHER||Difference in percentage|-22.6|||||TWO_SIDED|95.0|-26.7|-18.5||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-18.5|-26.7|
82520768|NCT05540522|164736741|OTHER||GMR|1.92|||||TWO_SIDED|95.0|1.78|2.07||||||A/H3N2||2.07|1.78|
82638034|NCT00951912|164990854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.606|STANDARD_ERROR_OF_MEAN|0.119||0.05|TWO_SIDED|95.0|-0.8414|-0.3707|||ANOVA|||||-0.3707|-0.8414|0.05
82385096|NCT00652626|164481620|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|82.7|||||TWO_SIDED|90.0|53.8|127.2|||||Ratio of geometric means is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-t, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||127.2|53.8|
82520769|NCT05540522|164736741|OTHER||GMR|1.68|||||TWO_SIDED|95.0|1.55|1.82||||||A/H1N1||1.82|1.55|
82520770|NCT05540522|164736741|OTHER||GMR|0.88|||||TWO_SIDED|95.0|0.82|0.94||||||B/Yamagata||0.94|0.82|
82385097|NCT00652626|164481621|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|97.4|||||TWO_SIDED|90.0|63.8|148.8|||||Ratio of geometric mean is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||148.8|63.8|
82520771|NCT05540522|164736741|OTHER||GMR|0.58|||||TWO_SIDED|95.0|0.53|0.63||||||B/Victoria||0.63|0.53|
82638035|NCT00951912|164990854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4503|STANDARD_ERROR_OF_MEAN|0.1163|<|0.05|TWO_SIDED|95.0|-0.6804|-0.2202|||ANOVA|||||-0.2202|-0.6804|<0.05
82638036|NCT00951912|164990855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|102.4|STANDARD_ERROR_OF_MEAN|83.4|<|0.05|TWO_SIDED|95.0|-99.3|304.1|||ANOVA|||||304.1|-99.3|<0.05
82520772|NCT05540522|164736742|OTHER||GMR|2.38|||||TWO_SIDED|95.0|2.23|2.54||||||A/H3N2||2.54|2.23|
82520773|NCT05540522|164736742|OTHER||GMR|2.37|||||TWO_SIDED|95.0|2.22|2.54||||||A/H1N1||2.54|2.22|
82520774|NCT05540522|164736742|OTHER||GMR|1.36|||||TWO_SIDED|95.0|1.29|1.43||||||B/Yamagata||1.43|1.29|
82520775|NCT05540522|164736742|OTHER||GMR|0.76|||||TWO_SIDED|95.0|0.71|0.81||||||B/Victoria||0.81|0.71|
82520776|NCT05540522|164736743|OTHER||Difference in Percentage|26.8|||||TWO_SIDED|95.0|23.7|29.9||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||29.9|23.7|
82520777|NCT05540522|164736743|OTHER||Difference in Percentage|26.9|||||TWO_SIDED|95.0|23.9|29.8||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||29.8|23.9|
82520778|NCT05540522|164736743|OTHER||Difference in Percentage|-3.6|||||TWO_SIDED|95.0|-6.6|-0.6||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-0.6|-6.6|
82520779|NCT05540522|164736743|OTHER||Difference in Percentage|-19.2|||||TWO_SIDED|95.0|-21.9|-16.6||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-16.6|-21.9|
82520780|NCT05540522|164736744|OTHER||Difference in Percentage|37.9|||||TWO_SIDED|95.0|35.2|40.5||||||A/H3N2: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||40.5|35.2|
82638037|NCT00951912|164990855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|82.6||0.05|TWO_SIDED|95.0|-203.7|196.1|||ANOVA|||||196.1|-203.7|0.05
82638038|NCT00951912|164990855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-106.2|STANDARD_ERROR_OF_MEAN|82.2|<|0.05|TWO_SIDED|95.0|-305.1|92.8|||ANOVA|||||92.8|-305.1|<0.05
82638039|NCT01377194|164990858|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.303||||0.0027|TWO_SIDED|95.0|-5.457|-1.148|||mixed-model for repeated measures|||||-1.148|-5.457|0.0027
82638040|NCT01377194|164990858|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.141||||0.0043|TWO_SIDED|95.0|-5.293|-0.988|||mixed-model for repeated measures|||||-0.988|-5.293|0.0043
82520781|NCT05540522|164736744|OTHER||Difference in Percentage|44.9|||||TWO_SIDED|95.0|42.4|47.4||||||A/H1N1: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||47.4|42.4|
82520782|NCT05540522|164736744|OTHER||Difference in Percentage|10.6|||||TWO_SIDED|95.0|8.5|12.8||||||B/Yamagata: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||12.8|8.5|
82572257|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.22||||0.5791|TWO_SIDED|95.0|-0.62|1.07|||ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 24; mITT observed. (Change in triglycerides)||1.07|-0.62|0.5791
82385098|NCT00652626|164481621|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|68.5|||||TWO_SIDED|90.0|45.7|102.7|||||Ratio of geometric mean is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||102.7|45.7|
82520783|NCT05540522|164736744|OTHER||Difference in Percentage|-13.8|||||TWO_SIDED|95.0|-16.3|-11.3||||||B/Victoria: 2-Sided CI, difference in percents (qIRV - Licensed QIV), expressed as a percentage.||-11.3|-16.3|
82520784|NCT00127608|164736785|NON_INFERIORITY|The mean viral load between samples stored in liquid and samples stored dry was compared.|Geometric Mean Ratio|0.33|||<|0.0001|||||||ANOVA|Tukey adjustments were made for all 2 by 2 comparisons.|The Geometric Mean Ratio of the viral load was calculated for dry over liquid storage condition.|||||<0.0001
82572258|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.03||||0.9337|TWO_SIDED|95.0|-0.71|0.77||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in cholesterol)||0.77|-0.71|0.9337
82638041|NCT01377194|164990859|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.827||||0.0459|TWO_SIDED|95.0|-3.62|-0.033|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.033|-3.620|0.0459
82638042|NCT01377194|164990859|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.72||||0.0028|TWO_SIDED|95.0|-4.494|-0.946|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.946|-4.494|0.0028
82638043|NCT01728454|164990860|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.0360
82520785|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Papule swab minus Vesicle fluid)|Mean Difference (Final Values)|-0.4451||||0.0038||95.0|-0.769|-0.1213|||ANOVA|Tukey adjustments were made for the comparison.||||-0.1213|-0.7690|0.0038
82520786|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Papule swab minus Vesicle swab)|Median Difference (Final Values)|-0.432||||0.006|TWO_SIDED|95.0|-0.7605|-0.1035|||ANOVA|Tukey adjustments were made for the comparison.||||-0.1035|-0.7605|0.0060
82572259|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.01||||0.9305|TWO_SIDED|95.0|-0.21|0.23||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in HDL cholesterol)||0.23|-0.21|0.9305
82385099|NCT00652626|164481621|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|83.2|||||TWO_SIDED|90.0|54.5|127.1|||||Ratio of geometric mean is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized AUC0-inf, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||127.1|54.5|
82442728|NCT00394901|164594055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.227||95.0|-0.78|0.18|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.18|-0.78|0.227
82638044|NCT01728454|164990860|SUPERIORITY|||||||0.1087|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1087
82638045|NCT01728454|164990860|SUPERIORITY|||||||0.2263|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.2263
82638046|NCT01728454|164990860|SUPERIORITY|||||||0.5375|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.5375
82638047|NCT01728454|164990861|SUPERIORITY|||||||0.1017|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1017
82638048|NCT01728454|164990861|SUPERIORITY|||||||0.1927|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.1927
82520787|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Difference in mean viral load (in log10) (Vesicle fluid minus Vesicle swab)|Mean Difference (Final Values)|0.00132||||0.9952|TWO_SIDED|95.0|-0.3171|0.3435|||ANOVA|Tukey adjustments were made for the comparison.||||0.3435|-0.3171|0.9952
82520788|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Papule swab over Vesicle fluid)|Geometric mean ratio|0.36|||||TWO_SIDED|95.0|0.17|0.76|||ANOVA|||Geometric mean ratio of viral load (Papule swab over Vesicle fluid)||0.76|0.17|
82572260|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.09||||0.691|TWO_SIDED|95.0|-0.4|0.59||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in LDL cholesterol)||0.59|-0.40|0.6910
82572261|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.35||||0.2688|TWO_SIDED|95.0|-0.3|1.01||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Baseline to Week 48; mITT LOCF. (Change in triglycerides)||1.01|-0.30|0.2688
82638049|NCT01728454|164990861|SUPERIORITY|||||||0.1017|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.1017
82520789|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Papule swab over Vesicle swab)|Geometric mean Ratio|0.37|||||TWO_SIDED|95.0|0.17|0.79|||ANOVA|||Geometric mean ratio of viral load (Papule swab over Vesicle swab)||0.79|0.17|
82520790|NCT00127608|164736786|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of viral load (Vesicle fluid over Vesicle swab)|Geometric mean Ratio|1.0|||||TWO_SIDED|95.0|0.48|2.21|||ANOVA|||Geometric mean ratio of viral load (Vesicle fluid over Vesicle swab)||2.21|0.48|
82520791|NCT05520138|164736787|SUPERIORITY|With a 2-sided Type I of 0.05 significance.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|1.04|1.16|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.16|1.04|
82520792|NCT05520138|164736788|SUPERIORITY|With a 2-sided Type I of 0.05 significance.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|1.06|1.27|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.27|1.06|
82520793|NCT05520138|164736789|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.99|1.1|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.10|0.99|
82520794|NCT05520138|164736790|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|1.06|1.22|||||A weighted Cox proportional hazard model with an independent variable for treatment group were fitted, using a robust variance estimator.|||1.22|1.06|
82638050|NCT01728454|164990861|SUPERIORITY|||||||0.1927|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.1927
82385100|NCT00652626|164481622|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|127.7|||||TWO_SIDED|90.0|66.3|245.7|||||Ratio of geometric means is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||245.7|66.3|
82385101|NCT00652626|164481622|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|84.7|||||TWO_SIDED|90.0|45.3|158.5|||||Ratio of geometric means is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||158.5|45.3|
82520795|NCT00506493|164736795|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportions|42.6|STANDARD_ERROR_OF_MEAN|6.3|<|0.01|ONE_SIDED|97.5|30.0|||The percent of patients off Class I and III AADs and successfully converted out of AF following treatment (ptest) will exceed the percent of patients off Class I and III AADs and convereted out of AF, as reported in literature (pcontrol=22.1%)|Fisher Exact|||"The specific test hypothesis is as follows:~H0: ptest ≤ 22.1% Ha: ptest \> 22.1%"|||30.0|<0.01
82520796|NCT00506493|164736796|SUPERIORITY_OR_OTHER_LEGACY||binomial proportions|6.7|||<|0.0001|ONE_SIDED|97.5||14.9|||Fisher Exact|||||14.9||<0.0001
82520797|NCT04171102|164736799|OTHER|||||||0.028||||||\<0.05|t-test, 2 sided|||||||0.028
82638051|NCT01728454|164990862|SUPERIORITY|||||||0.7508|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.7508
82638052|NCT01728454|164990862|SUPERIORITY|||||||0.5507|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle 1||||0.5507
82638053|NCT01728454|164990862|SUPERIORITY|||||||0.3993|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.3993
82442729|NCT00394901|164594055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86|||<|0.001||95.0|-1.34|-0.38|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.38|-1.34|<0.001
82638054|NCT01728454|164990862|SUPERIORITY|||||||0.5821|||||||Wilcoxon Rank- Sum Test|||Off-Drug Cycle 1||||0.5821
82520798|NCT01712009|164736807|SUPERIORITY_OR_OTHER||Difference|-6.3|||||TWO_SIDED|95.0|-16.7|4.1|||||Naproxen minus No Prophylaxis|||4.1|-16.7|
82520799|NCT01712009|164736807|SUPERIORITY_OR_OTHER||Difference|-4.1|||||TWO_SIDED|95.0|-14.5|6.3|||||Loratadine minus No Prophylaxis|||6.3|-14.5|
82520800|NCT01712009|164736807|SUPERIORITY_OR_OTHER||Difference|2.2|||||TWO_SIDED|95.0|-8.0|12.4|||||Loratadine minus Naproxen|||12.4|-8.0|
82520801|NCT01712009|164736808|SUPERIORITY_OR_OTHER||Difference|-4.2|||||TWO_SIDED|95.0|-14.4|6.0|||||Naproxen minus No Prophylaxis|Difference across all treatment cycles||6.0|-14.4|
82520802|NCT01712009|164736808|SUPERIORITY_OR_OTHER||Difference|-2.4|||||TWO_SIDED|95.0|-12.5|7.8|||||Loratadine minus No Prophylaxis|Difference across all treatment cyces||7.8|-12.5|
82520803|NCT01712009|164736808|SUPERIORITY_OR_OTHER||Difference|1.8|||||TWO_SIDED|95.0|-8.3|12.0|||||Loratadine minus Naproxen|Dfference across all treatment cycles||12.0|-8.3|
82520804|NCT01712009|164736809|SUPERIORITY_OR_OTHER||Difference|-1.7|||||TWO_SIDED|95.0|-6.5|3.2|||||Naproxen minus No Prophylaxis|Difference across all treatment cycles||3.2|-6.5|
82520805|NCT01712009|164736809|SUPERIORITY_OR_OTHER||Difference|-1.3|||||TWO_SIDED|95.0|-6.1|3.6|||||Loratadine minus No Prophylaxis|Difference across all cycles||3.6|-6.1|
82638055|NCT01728454|164990863|SUPERIORITY|||||||0.7507|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.7507
82638056|NCT01728454|164990863|SUPERIORITY|||||||0.8919|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.8919
82638057|NCT01728454|164990864|SUPERIORITY|||||||0.478|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.4780
82638058|NCT01728454|164990864|SUPERIORITY|||||||0.2354|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.2354
82638059|NCT01728454|164990865|SUPERIORITY|||||||0.114|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1140
82638060|NCT01728454|164990865|SUPERIORITY|||||||0.1636|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1636
82638061|NCT01728454|164990866|SUPERIORITY|||||||0.114|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1140
82638062|NCT01728454|164990866|SUPERIORITY|||||||0.0733|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.0733
82520806|NCT01712009|164736809|SUPERIORITY_OR_OTHER||Difference|0.4|||||TWO_SIDED|95.0|-4.1|4.9|||||Loratadine minus Naproxen|Difference across all cycles||4.9|-4.1|
82638063|NCT01728454|164990867|SUPERIORITY|||||||0.1253|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.1253
82638064|NCT01728454|164990867|SUPERIORITY|||||||0.3442|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.3442
82638065|NCT01728454|164990868|SUPERIORITY|||||||0.0303|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.0303
82638066|NCT01728454|164990868|SUPERIORITY|||||||0.2864|||||||Wilcoxon Rank- Sum Test|||On-Drug Cycle||||0.2864
82638067|NCT01728454|164990869|SUPERIORITY|||||||0.4365|||||||Wilcoxon Rank- Sum Test|||PTS: LOCF Cycle 1||||0.4365
82385102|NCT00652626|164481622|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|107.5|||||TWO_SIDED|90.0|55.9|207.0|||||Ratio of geometric means is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance models on the nature log-transformed dose-normalized Cmax, obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons||207.0|55.9|
82520807|NCT01712009|164736810|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0881|TWO_SIDED|95.0|-0.7|0.0|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.0|-0.7|0.0881
82638068|NCT01728454|164990869|SUPERIORITY|||||||0.1302|||||||Wilcoxon Rank- Sum Test|||PTS: LOCF Cycle 1||||0.1302
82638069|NCT01728454|164990869|SUPERIORITY|||||||0.3591|||||||Wilcoxon Rank- Sum Test|||PTS: ODI Cycle 1||||0.3591
82638070|NCT01728454|164990869|SUPERIORITY|||||||0.0872|||||||Wilcoxon Rank- Sum Test|||PTS: ODI Cycle 1||||0.0872
82638071|NCT01728454|164990869|SUPERIORITY|||||||0.4814|||||||Wilcoxon Rank- Sum Test|||IS: LOCF Cycle 1||||0.4814
82638072|NCT01728454|164990869|SUPERIORITY|||||||0.9162|||||||Wilcoxon Rank- Sum Test|||IS: LOCF Cycle 1||||0.9162
82385103|NCT00652626|164481625|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|101.1|||||TWO_SIDED|90.0|71.2|143.6|||||Ratio of geometric mean is calculated as Azacitidine 50 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||143.6|71.2|
82638073|NCT01728454|164990869|SUPERIORITY|||||||0.6607|||||||Wilcoxon Rank- Sum Test|||IS: ODI Cycle 1||||0.6607
82638074|NCT01728454|164990869|SUPERIORITY|||||||0.9527|||||||Wilcoxon Rank- Sum Test|||IS: ODI Cycle 1||||0.9527
82385104|NCT00652626|164481625|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|144.9|||||TWO_SIDED|90.0|103.6|202.7|||||Ratio of geometric mean is calculated as Azacitidine 75 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||202.7|103.6|
82520808|NCT01712009|164736810|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_DEVIATION|0.2||0.0443|TWO_SIDED|95.0|-0.7|0.0|||ANOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.0|-0.7|0.0443
82638075|NCT01728454|164990870|SUPERIORITY|||||||0.2812|||||||Wilcoxon Rank- Sum Test|||LOCF Cycle 1||||0.2812
82638076|NCT01728454|164990870|SUPERIORITY|||||||0.5858|||||||Wilcoxon Rank- Sum Test|||LOCF Cycle 1||||0.5858
82638077|NCT01728454|164990870|SUPERIORITY|||||||0.4116|||||||Wilcoxon Rank- Sum Test|||ODI Cycle 1||||0.4116
82638078|NCT01728454|164990870|SUPERIORITY|||||||0.4252|||||||Wilcoxon Rank- Sum Test|||ODI Cycle 1||||0.4252
82638079|NCT01728454|164990871|SUPERIORITY|||||||0.6131|||||||Wilcoxon Rank- Sum Test|||SAP: On-Drug Cycle 1||||0.6131
82638080|NCT01728454|164990871|SUPERIORITY|||||||0.7881|||||||Wilcoxon Rank- Sum Test|||SAP: On-Drug Cycle 1||||0.7881
82520809|NCT01712009|164736810|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.8007|TWO_SIDED|95.0|-0.4|0.3|||ANOVA||Loratadine minus Naproxen|Difference across all treatment cycles||0.3|-0.4|0.8007
82638081|NCT01728454|164990871|SUPERIORITY|||||||0.9376|||||||Wilcoxon Rank- Sum Test|||SAP: Off-Drug Cycle 1||||0.9376
82638082|NCT01728454|164990871|SUPERIORITY|||||||0.6552|||||||Wilcoxon Rank- Sum Test|||SAP: Off-Drug Cycle 1||||0.6552
82638083|NCT01728454|164990871|SUPERIORITY|||||||0.7143|||||||Wilcoxon Rank- Sum Test|||EP: On-Drug Cycle 1||||0.7143
82638084|NCT01728454|164990871|SUPERIORITY|||||||0.2985|||||||Wilcoxon Rank- Sum Test|||EP: On-Drug Cycle 1||||0.2985
82638085|NCT01728454|164990871|SUPERIORITY|||||||0.3162|||||||Wilcoxon Rank- Sum Test|||EP: Off-Drug Cycle 1||||0.3162
82638086|NCT01728454|164990871|SUPERIORITY|||||||0.7503|||||||Wilcoxon Rank- Sum Test|||EP: Off-Drug Cycle 1||||0.7503
82638087|NCT00387621|164990872|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|With Bonferroni correction for multiple comparisons||||||<0.05
82638088|NCT00387621|164990873|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||rank-sum test|Rank-sum test was used due to non-normality of data with Bonferroni correction for multiple comparisons||||||<0.05
82638089|NCT01190839|164990882|SUPERIORITY_OR_OTHER|||||||0.097||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||0.097
82638090|NCT01190839|164990883|SUPERIORITY_OR_OTHER||||||<|0.001||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||<0.001
82638091|NCT01190839|164990884|SUPERIORITY_OR_OTHER|||||||0.098||||||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by the number of risk factors for recurrence of active CD and baseline use of an immunomodulator.|Cochran-Mantel-Haenszel chi-square test|||||||0.098
82638092|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 3.||||=0.001
82638093|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 4.||||=0.001
82638094|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 5.||||=0.001
82638095|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 6.||||=0.001
82638096|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 7.||||=0.001
82520810|NCT01712009|164736811|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1466|TWO_SIDED|95.0|-1.1|0.2|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.2|-1.1|0.1466
82638097|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 8.||||=0.001
82638098|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 9.||||=0.001
82638099|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 10.||||=0.001
82520811|NCT01712009|164736811|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0411|TWO_SIDED|95.0|-1.3|0.0|||ANOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.0|-1.3|0.0411
82520812|NCT01712009|164736811|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5689|TWO_SIDED|95.0|-0.8|0.5|||ANOVA||Loratadine minus Naproxen|Difference across all treatment cycles||0.5|-0.8|0.5689
82638100|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 11.||||=0.001
82638101|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 12.||||=0.001
82638102|NCT01362062|164990913|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 13.||||=0.001
82638103|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 3.||||=0.003
82638104|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 4.||||=0.005
82638105|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 5.||||=0.002
82638106|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 6.||||=0.014
82638107|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 7.||||=0.001
82638108|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 8.||||=0.008
82638109|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 9.||||=0.014
82638110|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.009|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 10.||||=0.009
82638111|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 11.||||=0.001
82638112|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 12.||||=0.001
82638113|NCT01362062|164990914|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Paired t-test|||Statistical analysis for CFB at Visit 13.||||=0.001
82638114|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.002
82638115|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
82638116|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.002
82638117|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
82638118|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
82638119|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
82638120|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
82638121|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
82638122|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
82638123|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
82638124|NCT01362062|164990915|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
82638125|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.001
82638126|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
82638127|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.001
82638128|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
82638129|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
82638130|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
82638131|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
82638132|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
82638133|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
82638134|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
82638135|NCT01362062|164990916|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
82638136|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.001
82638137|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.001
82638138|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.001
82638139|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.001
82638140|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 7.||||=0.001
82638141|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.001
82638142|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.001
82638143|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.001
82638144|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.001
82638145|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.001
82638146|NCT01362062|164990917|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.001
82638147|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.064|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 3.||||=0.064
82638148|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.104|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 4.||||=0.104
82638149|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.052|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 5.||||=0.052
82638150|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.043|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 6.||||=0.043
82638151|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB of Visit 7.||||=0.015
82638152|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.023|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 8.||||=0.023
82638153|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.028|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 9.||||=0.028
82638154|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.048|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 10.||||=0.048
82638155|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.025|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 11.||||=0.025
82638156|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.023|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 12.||||=0.023
82638157|NCT01362062|164990918|SUPERIORITY_OR_OTHER||||||=|0.022|TWO_SIDED||||||Wilcoxon sign rank test|||Statistical analysis for CFB at Visit 13.||||=0.022
82520813|NCT01712009|164736812|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.0775||95.0|-3.0|0.2|||ANOVA||Naproxen minus No Prophylaxis|Difference across all treatment cycles||0.2|-3.0|0.0775
82520814|NCT01712009|164736812|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.0329|TWO_SIDED|95.0|-3.1|-0.1|||ANCOVA||Loratadine minus No Prophylaxis|Difference across all treatment cycles||-0.1|-3.1|0.0329
82520815|NCT01712009|164736812|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.7572|TWO_SIDED|95.0|-1.7|1.2|||ANOVA||Loratadine minus Naproxen|Difference across all treatment groups||1.2|-1.7|0.7572
82520816|NCT01751126|164736814|SUPERIORITY||LS Mean|0.76||||0.007|TWO_SIDED|95.0|0.26|1.27||ANCOVA with treatment as well as the baseline CFS and the exposure to Vernal keratoconjunctivitis (VKC) seasons (Hochberg procedure).|t-test, 2 sided|||||1.27|0.26|0.007
82520817|NCT01751126|164736814|SUPERIORITY||LS Mean|0.67||||0.01|TWO_SIDED|95.0|0.16|1.18|||ANCOVA|ANCOVA with treatment as well as the baseline CFS and the exposure to Vernal keratoconjunctivitis (VKC) seasons (Hochberg procedure).||||1.18|0.16|0.010
82638158|NCT02545504|164990921|SUPERIORITY||Cox Proportional Hazard|0.93||||0.5625|TWO_SIDED|95.0|0.74|1.18||The significance level at final analysis is 0.046 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Log Rank|p-value was stratified by Eastern Cooperative Oncology Group (ECOG) status, geographic region and primary tumor site.|Hazard ratio (HR) was stratified by ECOG status, geographic region and primary tumor site with treatment arm as the only covariate.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint.||1.18|0.74|0.5625
82638159|NCT02545504|164990922|SUPERIORITY||Cox Proportional Hazard|0.84||||0.1031|TWO_SIDED|95.0|0.67|1.04||The significance level at final analysis was 0.032 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Log Rank|p-value was stratified by ECOG status,geographic region and primary tumor site.|HR was stratified by ECOG status,geographic region;primary tumor site with treatment arm as a covariate.Stratum with \<6 participants or no informative event by combined treatment arms was pooled with smallest adjacent stratum for stratified analyses.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. PFS was tested only if OS was significant. The P-value is for display only.||1.04|0.67|0.1031
82520818|NCT00857207|164736848|SUPERIORITY||Mean Difference (Final Values)|-3.95|STANDARD_ERROR_OF_MEAN|1.14||0.0004|TWO_SIDED|95.0|||||Regression, Linear|dependent variable: post-treatment outcome; independent variables:pre-treatment measurement and group indicator.||Linear regression of change of cTOL time to first move in GMT versus BHW group||||0.0004
82520819|NCT00857207|164736848|SUPERIORITY||Mean Difference (Final Values)|-2.92|STANDARD_DEVIATION|3.55||0.012|TWO_SIDED|95.0|||||t-test, 2 sided|||total time will significantly improve 10 weeks from post||||0.012
82520820|NCT00857207|164736848|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.04||0.98|TWO_SIDED|95.0|||||t-test, 2 sided|||Time to first move will significantly increase at 10 weeks from baseline to indicate better planning||||0.98
82520821|NCT00857207|164736849|SUPERIORITY||Mean Difference (Final Values)|2.64|STANDARD_DEVIATION|6.42||0.15|TWO_SIDED|95.0|||||t-test, 2 sided|||paired T-test, Behavioral Regulation Index will improve at week 10 from baseline||||0.15
82520822|NCT00857207|164736849|SUPERIORITY||Mean Difference (Final Values)|2.79|STANDARD_DEVIATION|8.4||0.24|TWO_SIDED|95.0|||||t-test, 2 sided|||paired t-test of Metacognitive Index, MI will improve at 10 weeks compared to baseline.||||0.24
82520823|NCT00857207|164736850|SUPERIORITY||Median Difference (Final Values)|0.03|STANDARD_DEVIATION|0.09||0.3|TWO_SIDED|95.0|||||t-test, 2 sided|||optimal moves will significantly increase at 10 weeks from baseline||||0.30
82520824|NCT00428090|164736875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.074|TWO_SIDED|95.0|-3.8|0.2||Comparison between Placebo and RSG XR 2 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-3.8|0.074
82520825|NCT00428090|164736875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.338|TWO_SIDED|95.0|-3.0|1.0||Comparison between Placebo and RSG XR 8 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.0|-3.0|0.338
82520826|NCT00428090|164736875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.602|TWO_SIDED|95.0|-3.5|2.1||Comparison between Placebo and Donepezil 10mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.1|-3.5|0.602
82520827|NCT00428090|164736876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.131|TWO_SIDED|95.0|-2.7|0.4||Comparison between Placebo and RSG XR 2 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-2.7|0.131
82520828|NCT00428090|164736876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.315|TWO_SIDED|95.0|-2.4|0.8||Comparison between Placebo and RSG XR 8 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.8|-2.4|0.315
82520829|NCT00428090|164736876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.105|TWO_SIDED|95.0|-3.5|0.3||Comparison between Placebo and Donepezil 10 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-3.5|0.105
82520830|NCT00428090|164736877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.272|TWO_SIDED|95.0|-2.2|0.6||Comparison between Placebo and RSG XR 2 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-2.2|0.272
82442730|NCT00394901|164594055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|||<|0.001||95.0|-1.4|-0.46|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.40|<0.001
82520831|NCT00428090|164736877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.297|TWO_SIDED|95.0|-2.2|0.7||Comparison between Placebo and RSG XR 8 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.2|0.297
82572262|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.06||||0.8262|TWO_SIDED|95.0|-0.54|0.67||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in cholesterol)||0.67|-0.54|0.8262
82385105|NCT00652626|164481625|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|101.4|||||TWO_SIDED|90.0|71.4|143.9|||||Ratio of geometric mean is calculated as Azacitidine 100 mg/m\^2 / Azacitidine 25 mg/m\^2 and expressed as a percentage.|Geometric means, ratio and 90% CI of ratio of geometric means are from one way analysis of variance model on the nature log-transformed CL/F obtained on Day 1. Azacitidine 25 mg/m\^2 is the reference group for comparisons.||143.9|71.4|
82442731|NCT00394901|164594056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.577||95.0|-0.62|0.35|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.35|-0.62|0.577
82385106|NCT00652626|164481628|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|169.3|||||TWO_SIDED|90.0|109.2|262.5|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-t after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters"||262.5|109.2|
82520832|NCT00428090|164736877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.131|TWO_SIDED|95.0|-3.1|0.4||Comparison between Placebo and Donepezil 10 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix||||0.4|-3.1|0.131
82442732|NCT00394901|164594056|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.87|||<|0.001||95.0|-1.35|-0.39|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.39|-1.35|<0.001
82442733|NCT00394901|164594056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.002||95.0|-1.22|-0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.27|-1.22|0.002
82442734|NCT00394901|164594057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27||||0.275||95.0|-0.75|0.21|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.21|-0.75|0.275
82442735|NCT00394901|164594057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.98|||<|0.001||95.0|-1.46|-0.5|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.50|-1.46|<0.001
82442736|NCT00394901|164594057|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75||||0.002||95.0|-1.22|-0.28|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.22|0.002
82442737|NCT00394901|164594058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.334||95.0|-0.72|0.25|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.25|-0.72|0.334
82442738|NCT00394901|164594058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.001||95.0|-1.38|-0.42|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.42|-1.38|<0.001
82385107|NCT00652626|164481628|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|140.4|||||TWO_SIDED|90.0|90.6|217.7|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-t after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||217.7|90.6|
82572263|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|-0.02||||0.8293|TWO_SIDED|95.0|-0.2|0.17||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in HDL cholesterol)||0.17|-0.20|0.8293
82442739|NCT00394901|164594058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.006||95.0|-1.14|-0.19|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.19|-1.14|0.006
82442740|NCT00394901|164594059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15||||0.53||95.0|-0.64|0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.33|-0.64|0.530
82639836|NCT02163759|164994504|SUPERIORITY||Difference in Remission Rates|6.2||||0.09|TWO_SIDED|95.0|-3.33|12.3||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||12.30|-3.33|0.0900
82385108|NCT00652626|164481629|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|166.3|||||TWO_SIDED|90.0|108.6|254.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-inf after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||254.6|108.6|
82385109|NCT00652626|164481629|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|141.2|||||TWO_SIDED|90.0|92.2|216.2|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of AUC0-inf after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||216.2|92.2|
82385110|NCT00652626|164481630|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|141.7|||||TWO_SIDED|90.0|73.2|274.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of Cmax after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||274.6|73.2|
82385111|NCT00652626|164481630|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of Geometric Means|105.6|||||TWO_SIDED|90.0|54.5|204.6|||||Ratio of geometric mean is calculated as Severe RI/Normal RF and expressed as a percentage.|"Comparison of Cmax after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.~Geometric means, ratio and 90% CI of ratio of geometric means are from an analysis of variance model with renal function group (normal and severe), visit (Day 1 and Day 5), renal function group by visit interaction as fixed effect, and patient nested within renal function group as a random effect on the nature log-transformed pharmacokinetic parameters."||204.6|54.5|
82385112|NCT00652626|164481631|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.25||||0.1342|TWO_SIDED|90.0|0.0|0.52|||Wilcoxon (Mann-Whitney)||Median difference is Severe RI - Normal RF.|Comparison of Tmax after a single dose (Day 1) in participants with normal renal function and participants with severe renal impairment.||0.52|0|0.1342
82385113|NCT00652626|164481631|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.25||||0.1017|TWO_SIDED|90.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Median difference is Severe RI - Normal RF.|Comparison of Tmax after multiple doses (Day 5) in participants with normal renal function and participants with severe renal impairment.||0.50|0|0.1017
82385114|NCT04003636|164481636|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0034|TWO_SIDED|95.0|0.72|0.95|||Regression, Cox|One-sided p-value based on log-rank test stratified by geographic region, disease status, site of origin with small strata collapsed|HR=Arm A/Arm B|||0.95|0.72|0.0034
82442741|NCT00394901|164594059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82||||0.001||95.0|-1.3|-0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.30|0.001
82442742|NCT00394901|164594059|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58||||0.017||95.0|-1.05|-0.1|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-1.05|0.017
82442743|NCT00394901|164594060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.392||95.0|-0.7|0.27|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.27|-0.70|0.392
82442744|NCT00394901|164594060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||<|0.001||95.0|-1.35|-0.38|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.38|-1.35|<0.001
82520833|NCT00428090|164736878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.663|TWO_SIDED|95.0|-0.3|0.4||Comparison between Placebo and RSG XR 2 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-0.3|0.663
82520834|NCT00428090|164736878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.891|TWO_SIDED|95.0|-0.4|0.3||Comparison between Placebo and RSG XR 8 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.4|0.891
82520835|NCT00428090|164736878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.414|TWO_SIDED|95.0|-0.7|0.3||Comparison between Placebo and Donepezil 10 mg in APOE e4 neg cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|||0.3|-0.7|0.414
82638160|NCT02545504|164990923|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0493|TWO_SIDED|95.0|1.0|2.15||The significance level at final analysis was 0.032 (two-sided). Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|Cochran-Mantel-Haenszel|p-value was stratified by ECOG status, geographic region and primary tumor site.|OR was stratified by ECOG status, geographic region and primary tumor site. Stratum with \< 6 participants or no informative event by combined treatment arms was pooled with the smallest adjacent stratum for stratified analyses.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. ORR was tested only if OS and PFS were significant.The P-value is for display only.||2.15|1.00|0.0493
82520836|NCT00428090|164736879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.913|TWO_SIDED|95.0|-0.3|0.3||Comparison between Placebo and RSG XR 2 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix||||0.3|-0.3|0.913
82520837|NCT00428090|164736879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.276|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.276
82520838|NCT00428090|164736879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.025|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg in All except e4/e4's cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.025
82638161|NCT02545504|164990923|SUPERIORITY||ORR Difference|9.4|||||TWO_SIDED|95.0|0.1|18.8|||||The 2-sided 95% confidence interval (CI) of difference for ORR between the treatment and placebo is calculated based on stratum-adjusted Cochran-Mantel-Haenszel proportion.|The primary and secondary endpoints were tested sequentially in the following gate-keeping order: the primary OS endpoint, then the secondary PFS endpoint, and finally the secondary ORR endpoint. ORR was tested only if OS and PFS were significant.||18.8|0.1|
82385115|NCT04003636|164481637|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0225|TWO_SIDED|95.0|0.75|1.0|||Regression, Cox|One-sided p-value based on log-rank test stratified by geographic region, disease status, site of origin with small strata collapsed|HR=Arm A/Arm B|||1.00|0.75|0.0225
82385116|NCT04003636|164481638|SUPERIORITY||Difference in Percentages|0.2||||0.4735|TWO_SIDED|95.0|-5.2|5.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0|Miettinen & Nurminen||Difference=Arm A minus Arm B|||5.6|-5.2|0.4735
82385117|NCT02362672|164481642|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0019|TWO_SIDED||||||z-test|||NKTR-181 (Double-blind Treatment Phase), Placebo (Double-blind Treatment Phase)||||0.0019
82385118|NCT03126630|164481657|EQUIVALENCE|The null hypothesis that there are no differences between the classes in the population. The purpose of the test is to evaluate how likely the observed frequencies would be assuming the null hypothesis is true.||||||0.27541|||||||Chi-squared|||||||0.27541
82385119|NCT03126630|164481660|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.1936|TWO_SIDED|95.0|0.0||Not enough events||Log Rank||||||0.0|0.1936
82385120|NCT03126630|164481661|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.1952|TWO_SIDED|95.0|0.73|4.51|||Log Rank|||||4.51|0.73|0.1952
82385121|NCT06028438|164481666|SUPERIORITY||Least square mean difference|-0.06|||=|0.822|TWO_SIDED|95.0|-0.6|0.48|||ANCOVA|||||0.48|-0.60|=0.822
82385122|NCT01081769|164481725|SUPERIORITY_OR_OTHER|||||||0.0191|||||||Log Rank|||||||0.0191
82520839|NCT00428090|164736880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.939|TWO_SIDED|95.0|-0.2|0.3||Comparison between Placebo and RSG XR 2 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.2|0.939
82442745|NCT00394901|164594060|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58||||0.016||95.0|-1.06|-0.11|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.11|-1.06|0.016
82520840|NCT00428090|164736880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.307
82520841|NCT00428090|164736880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.009|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.009
82520842|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.116|TWO_SIDED|95.0|-2.0|0.2||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-2.0|0.116
82638162|NCT00950755|164990940|SUPERIORITY_OR_OTHER||percentage of participants|76.0|||||TWO_SIDED|95.0|62.0|89.0|||||The estimated value represents the percentage of participants with response.|||89|62|
82442746|NCT00394901|164594061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22||||0.364||95.0|-0.71|0.26|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.26|-0.71|0.364
82638163|NCT00950755|164990941|SUPERIORITY_OR_OTHER||percentage of participants|54.0|||||TWO_SIDED|95.0|38.0|69.0|||||The estimated value represents the percentage of participants with confirmed response.|||69|38|
82385123|NCT01081769|164481739|SUPERIORITY_OR_OTHER|||||||0.0323|||||||Fisher Exact|||||||0.0323
82385124|NCT00789373|164481765|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||6e-05|TWO_SIDED|95.0|0.49|0.79|||Log Rank|||900 patients were planned to be enrolled in order to randomize 558 pts to maintenance therapy. This trial was powered for the primary endpoint, PFS (90% power, assuming 238 events with 52% censoring and a PFS Hazard Ratio (HR)=0.65, alpha=0.05). This trial was also powered for a secondary endpoint, OS (93% power, assuming 390 events with 30% censoring and an OS HR=0.70). Alpha was controlled for both a preliminary analysis (alpha=0.0001) and final analysis of OS (alpha=0.0499).||0.79|0.49|0.00006
82442747|NCT00394901|164594061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||<|0.001||95.0|-1.39|-0.42|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.42|-1.39|<0.001
82520843|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.816|TWO_SIDED|95.0|-0.9|1.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-0.9|0.816
82520844|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.318|TWO_SIDED|95.0|-2.1|0.7||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.1|0.318
82520845|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.839|TWO_SIDED|95.0|-1.1|1.3||Comparison between Placebo and RSG XR 2 mg in at Week 16 Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.3|-1.1|0.839
82385125|NCT00789373|164481766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0002|TWO_SIDED|95.0|0.51|0.81|||Log Rank|||||0.81|0.51|0.0002
82385126|NCT00789373|164481767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0195|TWO_SIDED|95.0|0.64|0.96||The predefined alpha for the final analysis of OS is 0.0498 for the unadjusted log-rank test.|Log Rank||Unadjusted HR from Cox model with treatment as the only cofactor.|Type 1 (alpha) error was controlled for the analyses of both PFS and OS in order to maintain an overall two-sided alpha level of 0.05 using a statistical gatekeeping and alpha spending scheme. The unconditional statistical power of the final OS analysis was 93%.||0.96|0.64|0.0195
82385127|NCT03612596|164481796|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
82442748|NCT00394901|164594061|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52||||0.031||95.0|-1.0|-0.05|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-1.00|0.031
82520846|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.165|TWO_SIDED|95.0|-0.3|2.0||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.0|-0.3|0.165
82638164|NCT00950755|164990942|SUPERIORITY_OR_OTHER||percentage of participants|34.0|||||TWO_SIDED|95.0|20.0|49.0|||||The estimated value represents the percentage of participants with confirmed CR.|||49|20|
82385128|NCT03612596|164481797|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
82385129|NCT03612596|164481798|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
82385130|NCT03612596|164481799|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82385131|NCT03612596|164481800|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82385132|NCT03612596|164481801|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 1.26) rather than test efficacy.||||||0.53
82385133|NCT03612596|164481802|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 1.16) rather than test efficacy.||||||0.44
82385134|NCT03612596|164481803|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|Please note that this analysis was not powered and was used to characterize effect size (d = 0.67) rather than test efficacy.||||||0.93
82385135|NCT03612596|164481804|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
82385136|NCT03612596|164481805|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||0.16
82385137|NCT03612596|164481806|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82385138|NCT03612596|164481807|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82385139|NCT03612596|164481808|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82385140|NCT01050582|164481815|SUPERIORITY_OR_OTHER||Slope|0.447|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|0.22|0.674|||Regression, Linear|Covariates: weight (wt) divided expected wt for age and height (ht), age, use of concomitant medication with growth effects, preexposure ht z-score.|Slope associated with treatment dummy variable with 1 indicating risperidone and 0 indicating other atypical antipychotics.|Null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in current height z-score.||0.674|0.220|<0.001
82385141|NCT01050582|164481816|SUPERIORITY_OR_OTHER||Slope|-0.221|STANDARD_ERROR_OF_MEAN|0.25||0.378|TWO_SIDED|95.0|-0.711|0.269|||Regression, Linear|Covariates: Tanner stage and gender|Slope associated with treatment dummy variable with 1 indicating risperidone and 0 indicating other atypical antipsychotics.|The null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in age (years) at current Tanner stage.||0.269|-0.711|0.378
82442749|NCT00394901|164594062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.326||95.0|-0.73|0.24|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.24|-0.73|0.326
82638165|NCT00950755|164990943|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||||TWO_SIDED|95.0|26.0|57.0|||||The estimated value represents the percentage of participants with confirmed CR + CCR.|||57|26|
82638166|NCT00950755|164990944|SUPERIORITY_OR_OTHER||percentage of participants|10.0|||||TWO_SIDED|95.0|1.0|19.0|||||The estimated value represents the percentage of participants with confirmed PR.|||19|1|
82638167|NCT02549040|164990961|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.85|1.09||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.09|0.85|
82638168|NCT02549040|164990961|OTHER||Geometric mean ratio|1.13|||||TWO_SIDED|90.0|1.02|1.26||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.26|1.02|
82638169|NCT02549040|164990961|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.88|1.11||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.11|0.88|
82638170|NCT02549040|164990961|OTHER||Geometric mean ratio|0.89|||||TWO_SIDED|90.0|0.8|0.99||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.99|0.80|
82638171|NCT02549040|164990962|OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.79|0.98||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.98|0.79|
82638172|NCT02549040|164990962|OTHER||Geometric mean ratio|1.09|||||TWO_SIDED|90.0|0.98|1.21||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.21|0.98|
82638173|NCT02549040|164990962|OTHER||Geometric mean ratio|0.9|||||TWO_SIDED|90.0|0.81|1.0||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.00|0.81|
82638174|NCT02549040|164990962|OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.79|0.97||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.97|0.79|
82638175|NCT02549040|164990963|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|90.0|0.61|0.82||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.82|0.61|
82638176|NCT02549040|164990963|OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.75|1.01||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.01|0.75|
82638177|NCT02549040|164990963|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|90.0|0.6|0.81||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.81|0.60|
82638178|NCT02549040|164990963|OTHER||Geometric mean ratio|0.76|||||TWO_SIDED|90.0|0.66|0.86||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.86|0.66|
82638179|NCT02549040|164990964|OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|90.0|0.72|0.93||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.93|0.72|
82638180|NCT02549040|164990964|OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.94|1.18||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.18|0.94|
82638181|NCT02549040|164990964|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.96||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.96|0.76|
82638182|NCT02549040|164990964|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.74|0.94||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.94|0.74|
82638183|NCT02549040|164990967|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.75|0.94||||||Comparison of Treatment B: MK-1439 150 mg tablet (40% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.94|0.75|
82638184|NCT02549040|164990967|OTHER||Geometric mean ratio|1.06|||||TWO_SIDED|90.0|0.95|1.18||||||Comparison of Treatment C: MK-1439 150 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||1.18|0.95|
82638185|NCT02549040|164990967|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.76|0.95||||||Comparison of Treatment D: MK-1439 150 mg tablet (50% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.95|0.76|
82638186|NCT02549040|164990967|OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.77|0.96||||||Comparison of Treatment E: MK-1439 100 mg tablet (30% drug loaded granule) vs. Treatment A: MK-1439 100 mg film coated tablet||0.96|0.77|
82638187|NCT03159455|164991120|OTHER||Slope|2.2305|STANDARD_ERROR_OF_MEAN|0.2592|||TWO_SIDED|95.0|1.6955|2.7655|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for AUC0-24 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.7655|1.6955|
82638188|NCT03159455|164991121|OTHER||Slope|1.9007|STANDARD_ERROR_OF_MEAN|0.2382|||TWO_SIDED|95.0|1.4102|2.3912|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for Cmax was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.3912|1.4102|
82520847|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.073|TWO_SIDED|95.0|-3.4|0.2||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-3.4|0.073
82520848|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.272|TWO_SIDED|95.0|-2.2|0.6||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-2.2|0.272
82520849|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.297|TWO_SIDED|95.0|-2.2|0.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-2.2|0.297
82385142|NCT01050582|164481817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.865|||>|0.999||95.0|0.189|3.963|||Fisher Exact||Estimated OR is from a logistic regression model including factors for treatment arm, age, indication, and use of concomitant medication with growth effects.|Null hypothesis is that there is no difference between the risperidone and other atypical antipsychotics groups in frequency of retrospectively reported potentially prolactin-related adverse events||3.963|0.189|>0.999
82385143|NCT01019694|164481818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001||95.0|6.02|13.19|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||13.19|6.02|< 0.0001
82385144|NCT01019694|164481818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.0009||95.0|2.57|9.91|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||9.91|2.57|0.0009
82385145|NCT01019694|164481819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3||||0.0006||95.0|2.29|8.28|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||8.28|2.29|0.0006
82520850|NCT00428090|164736881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.131|TWO_SIDED|95.0|-3.1|0.4||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-3.1|0.131
82520851|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.133|TWO_SIDED|95.0|-0.3|0.0||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.3|0.133
82520852|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.2|0.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.2|0.958
82638189|NCT03159455|164991122|OTHER||Slope|3.244|STANDARD_ERROR_OF_MEAN|0.1771|||TWO_SIDED|95.0|2.8793|3.6087|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing on Day 28 (after multiple doses). Dose proportionality of tablets for AUC0-24,28 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|3.6087|2.8793|
82385146|NCT01019694|164481819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|||<|0.0001||95.0|4.41|10.39|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||10.39|4.41|< 0.0001
82520853|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.085|TWO_SIDED|95.0|-0.5|0.0||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.5|0.085
82638190|NCT03159455|164991123|OTHER||Slope|2.0711|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|1.7663|2.376|||||Dose proportionality was explored using the power model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing on Day 28 (after multiple doses). Dose proportionality of tablets for Cmax,28 was analysed in Japanese subjects.|Standard error of mean is standard error of slope.|2.3760|1.7663|
82385147|NCT01019694|164481820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||<|0.0001||95.0|4.71|11.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||11.09|4.71|< 0.0001
82638191|NCT02713490|164991132|SUPERIORITY||LSMD|-26.884||||0.0381|TWO_SIDED|95.0|-56.608|2.841|||ANOVA|||||2.841|-56.608|0.0381
82385148|NCT01019694|164481820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001||95.0|6.44|12.83|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||12.83|6.44|< 0.0001
82638192|NCT02713490|164991133|SUPERIORITY||LSM treatment ratio|0.203||||0.0029|TWO_SIDED|95.0|0.065|0.631|||ANOVA|||||0.631|0.065|0.0029
82638193|NCT02713490|164991134|SUPERIORITY||Treatment difference|0.098||||0.0088|TWO_SIDED|95.0|0.0284|0.1685|||Cochran-Mantel-Haenszel|||||0.1685|0.0284|0.0088
82638194|NCT02713490|164991135|SUPERIORITY|||||||0.023|||||||Log Rank|||Analysis applies to the overall distribution of time to first opioid rescue, estimated from Kaplan-Meier analysis.||||0.0230
82638195|NCT02713490|164991136|SUPERIORITY|||||||0.4285|||||||Kruskal-Wallis|||||||0.4285
82385149|NCT01019694|164481821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|||<|0.0001||95.0|5.94|12.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||12.37|5.94|< 0.0001
82385150|NCT01019694|164481821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|||<|0.0001||95.0|4.44|10.96|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||10.96|4.44|< 0.0001
82385151|NCT01019694|164481822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3|||<|0.0001||95.0|7.9|14.76|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||14.76|7.90|< 0.0001
82638196|NCT00994123|164991182|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.008|TWO_SIDED|95.0|0.16|0.76|||Log Rank|||||0.76|0.16|0.008
82638197|NCT00994123|164991182|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.15||||0.059|TWO_SIDED|95.0|0.97|4.76|||Log Rank|||||4.76|0.97|0.059
82638198|NCT03778021|164991183|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.093||0.017|TWO_SIDED|95.0|0.04|0.41||"Estimated differential change in score between intervention and comparison group from repeated measures linear mixed model.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured). alpha = 0.05."|Mixed Models Analysis|Repeated measures linear mixed model analysis. Student nested within school. Model fit time, intervention and time by intervention interaction.|Estimated differential change (intervention minus control) from repeated measures linear mixed model|"The unit of measure is score on a scale. The results show the least squares estimate of change in that score, from baseline to 8-month follow-up in each group from model.~Values from the 100 and 194 baseline respondents and from the 72 and 141 follow-up respondents of intervention and comparison groups respectively contributed to the repeated measures linear mixed model, where the units of analysis were participant-time. The nesting within schools was accounted for in the model."|"In the repeated measures linear mixed model, time was treated as a fixed effect. In the specification of the repeated measures linear mixed model, students were nested within schools.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured)."|0.41|0.04|0.017
82638199|NCT03778021|164991184|SUPERIORITY||Mean Difference (Net)|1.41||||0.18|TWO_SIDED|95.0|-0.66|3.49||"Estimated differential change in score between intervention and comparison group from repeated measures linear mixed model.~All the reported analyses conservatively specified covariance structure as general covariance (unstructured). alpha = 0.05"|Mixed Models Analysis|Repeated measures linear mixed model analysis. Student nested within school. Model fit time, intervention and time by intervention interaction.|Estimated differential change from baseline to follow-up from model (intervention minus control)|"Results present estimated change in score from baseline to 8-month follow-up in each group from model.~Values from the 100 and 194 baseline respondents and from the 72 and 141 follow-up respondents of intervention and comparison groups respectively contributed to the repeated measures linear mixed model, where the units of analysis were participant-time. The nesting within schools was accounted for in the model."|In the repeated measures linear mixed model, time was treated as a fixed effect. In the specification of the repeated measures linear mixed model, students were nested within schools|3.49|-0.66|0.18
82638200|NCT03778021|164991185|SUPERIORITY||Odds Ratio (OR)|1.29||||0.51|TWO_SIDED|95.0|0.6|2.81||"Repeated measures generalized linear mixed model with binomial distribution (variable was I know I can - yes versus no)."|Mixed Models Analysis|The odds of the odds ratio is reported as the intervention effect.|Odds ratio from estimated least squares from generalized mixed model with binomial distribution specified. Intervention odds of change compared to comparison group odds of change via odds ratio..|"Odds ratio of 8-month follow-up to baseline percent reporting  I know I can was estimated from repeated measures generalized linear mixed model with binomial distribution.~Values included from the 100 and 194 baseline respondents and from the 72 and 141 8-month follow-up respondents of intervention and comparison groups respectively. The person-timepoint is the unit of analysis."||2.81|0.60|0.51
82638201|NCT01545375|164991186|SUPERIORITY|The objective was to demonstrate that VE induced by GSK2189242A vaccine (three doses in the first year of life and a booster dose in the second year of life)in preventing clinical AOM diagnosed and verified against AAP criteria was greater than 0%, as compared to the control group. One-sided p-value for the Wald-Test obtained from the general Cox proportional hazard model was calculated.|Vaccine Efficacy|3.81||||0.3016|TWO_SIDED|95.0|-11.35|16.9||The primary objective was met if the one-sided p-value calculated for the null hypothesis H0=\[clinical AOM VE ≤ 0%\] was lower than defined 1-sided alpha level: (17.8%).|Regression, Cox|||VE-AOM against AAP criteria: Occurrence of AOM during efficacy follow-up period was compared between groups to estimate Vaccine Efficacy (VE) and its 95% confidence interval using the Anderson \& Gill model (generalization of Cox proportional hazard model) taking into account for recurrent events \[Kelly, 2000\]. VE= (1 - hazard ratio) x 100 Censoring occurred at the time of the last scheduled or medically attended visit.||16.90|-11.35|0.3016
82638202|NCT02687815|164991216|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.63|TWO_SIDED|95.0|0.69|1.85|||Regression, Cox|||||1.85|0.69|0.63
82638203|NCT02687815|164991217|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.46|TWO_SIDED|95.0|0.63|2.75|||Regression, Cox|||||2.75|0.63|0.46
82638204|NCT02687815|164991218|SUPERIORITY||Odds Ratio (OR)|0.99||||0.99|TWO_SIDED|95.0|0.66|1.52|||Regression, Logistic|||||1.52|0.66|0.99
82638205|NCT02687815|164991219|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.049|TWO_SIDED|95.0|0.001|8.8|||Regression, Linear|||||8.80|0.001|0.049
82638206|NCT02558634|164991226|SUPERIORITY||Median Difference (Final Values)|1.25||||0.025|TWO_SIDED|95.0|0.75|1.75||The level of significance was set at p=0.025 to allow a Bonferroni correction for these two tests (i.e. p=0.050 divided by two).|Wilcoxon (Mann-Whitney)|||||1.75|0.75|0.025
82385152|NCT01019694|164481822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|||<|0.0001||95.0|4.23|11.23|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||11.23|4.23|< 0.0001
82385153|NCT01019694|164481824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.1167||95.0|-0.05|0.42|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.42|-0.05|0.1167
82520854|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.102|TWO_SIDED|95.0|-0.4|0.0||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.0|-0.4|0.102
82638207|NCT00151775|164991237|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||0.0008
82638208|NCT00151775|164991237|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Weight adjusted dosage||||<0.0001
82385154|NCT01019694|164481824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0026||95.0|0.13|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.59|0.13|0.0026
82385155|NCT01019694|164481825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.2826||95.0|-0.11|0.38|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.38|-0.11|0.2826
82638209|NCT00151775|164991237|SUPERIORITY_OR_OTHER|||||||0.0032||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||0.0032
82638210|NCT00151775|164991237|SUPERIORITY_OR_OTHER|||||||0.0265||95.0|||||Regression, Linear|||Weight adjusted dosage||||0.0265
82638211|NCT00151775|164991237|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Non-weight adjusted dosage||||<0.0001
82638212|NCT00151775|164991237|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Regression, Linear|||Weight adjusted dosage||||<0.0001
82638213|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|0.69||||0.0008||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0008
82638214|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-0.057||||0.0026||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0026
82638215|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-0.85||||0.0032||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0032
82638216|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-0.58||||0.0125||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0125
82638217|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-0.75|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82638218|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-0.57|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (non-weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82638219|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-8.97|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82442750|NCT00394901|164594062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||<|0.001||95.0|-1.43|-0.46|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.43|<0.001
82442751|NCT00394901|164594062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.007||95.0|-1.13|-0.18|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.13|0.007
82442752|NCT00394901|164594063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.241||95.0|-0.78|0.2|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.20|-0.78|0.241
82385156|NCT01019694|164481825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0013||95.0|0.16|0.66|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.66|0.16|0.0013
82385157|NCT01019694|164481826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0023||95.0|0.13|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.59|0.13|0.0023
82385158|NCT01019694|164481826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.0001||95.0|0.25|0.71|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.71|0.25|< 0.0001
82520855|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.38|TWO_SIDED|95.0|-0.3|0.1||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.3|0.380
82520856|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.006|TWO_SIDED|95.0|-0.7|-0.1||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.7|0.006
82385159|NCT01019694|164481827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0006||95.0|0.18|0.65|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.65|0.18|0.0006
82385160|NCT01019694|164481827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.0004||95.0|0.2|0.68|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.68|0.20|0.0004
82385161|NCT01019694|164481828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.0673||95.0|-0.02|0.47|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.47|-0.02|0.0673
82385162|NCT01019694|164481828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.0245||95.0|0.04|0.54|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.54|0.04|0.0245
82385163|NCT01019694|164481830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.5695||95.0|-0.24|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.13|-0.24|0.5695
82638220|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-8.15|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82385164|NCT01019694|164481830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3093||95.0|-0.28|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.09|-0.28|0.3093
82385165|NCT01019694|164481831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3578||95.0|-0.31|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.11|-0.31|0.3578
82385166|NCT01019694|164481831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.7433||95.0|-0.18|0.25|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.25|-0.18|0.7433
82385167|NCT01019694|164481832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.524||95.0|-0.29|0.15|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.15|-0.29|0.524
82638221|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-7.17||||0.0265||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0265
82385168|NCT01019694|164481832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3171||95.0|-0.34|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.11|-0.34|0.3171
82385169|NCT01019694|164481833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.2499||95.0|-0.38|0.1|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.10|-0.38|0.2499
82385170|NCT01019694|164481833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.6144||95.0|-0.31|0.18|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.18|-0.31|0.6144
82385171|NCT01019694|164481834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.5142||95.0|-0.16|0.33|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.33|-0.16|0.5142
82385172|NCT01019694|164481834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.2691||95.0|-0.39|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.11|-0.39|0.2691
82385173|NCT01019694|164481836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.6236||95.0|-0.23|0.14|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.14|-0.23|0.6236
82385174|NCT01019694|164481836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3342||95.0|-0.28|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.09|-0.28|0.3342
82385175|NCT01019694|164481837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1884||95.0|-0.36|0.07|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.07|-0.36|0.1884
82385176|NCT01019694|164481837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.6978||95.0|-0.17|0.26|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.26|-0.17|0.6978
82385177|NCT01019694|164481838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4197||95.0|-0.32|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.13|-0.32|0.4197
82520857|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.939|TWO_SIDED|95.0|-0.2|0.3||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-0.2|0.939
82638222|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-6.85||||0.0084||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||0.0084
82385178|NCT01019694|164481838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3949||95.0|-0.33|0.13|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.13|-0.33|0.3949
82385179|NCT01019694|164481839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.299||95.0|-0.38|0.12|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.12|-0.38|0.299
82385180|NCT01019694|164481839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.1404||95.0|-0.44|0.06|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.06|-0.44|0.1404
82385181|NCT01019694|164481840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.463||95.0|-0.36|0.16|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.16|-0.36|0.463
82520858|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.307|TWO_SIDED|95.0|-0.4|0.1||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.4|0.307
82523428|NCT01422408|164742356|OTHER|||||||0.6023||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6023
82385182|NCT01019694|164481840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.3824||95.0|-0.15|0.38|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.38|-0.15|0.3824
82385183|NCT01019694|164481841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8282||95.0|-0.036|0.045|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.045|-0.036|0.8282
82385184|NCT01019694|164481841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.6587||95.0|-0.032|0.05|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.050|-0.032|0.6587
82385185|NCT01019694|164481842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1185||95.0|-0.009|0.081|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.081|-0.009|0.1185
82385186|NCT01019694|164481842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.2651||95.0|-0.02|0.072|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.072|-0.020|0.2651
82385187|NCT01019694|164481843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5852||95.0|-0.058|0.033|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.033|-0.058|0.5852
82385188|NCT01019694|164481843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7242||95.0|-0.054|0.038|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.038|-0.054|0.7242
82572264|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.11||||0.5486|TWO_SIDED|95.0|-0.27|0.49||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in LDL cholesterol)||0.49|-0.27|0.5486
82572265|NCT03845075|164853864|SUPERIORITY||LS Mean Difference|0.24||||0.3226|TWO_SIDED|95.0|-0.26|0.75||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Change in triglycerides)||0.75|-0.26|0.3226
82572266|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|0.59||||0.842|TWO_SIDED|95.0|-5.55|6.73||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Physical component score)||6.73|-5.55|0.8420
82572267|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|-1.74||||0.6693|TWO_SIDED|95.0|-10.15|6.67||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Mental component score)||6.67|-10.15|0.6693
82572268|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|-1.83||||0.5444|TWO_SIDED|95.0|-8.12|4.46||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; mITT LOCF. (Physical component score)||4.46|-8.12|0.5444
82572269|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|-1.85||||0.5595|TWO_SIDED|95.0|-8.47|4.76||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; mITT LOCF. (Mental component score)||4.76|-8.47|0.5595
82638223|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-8.36|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated systolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82572270|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|-2.07||||0.4331|TWO_SIDED|95.0|-7.54|3.41||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Physical component score)||3.41|-7.54|0.4331
82572271|NCT03845075|164853865|SUPERIORITY||LS Mean Difference|-1.44||||0.6427|TWO_SIDED|95.0|-7.9|5.03||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|Week 24 to week 48; mITT LOCF. (Mental component score)||5.03|-7.90|0.6427
82638224|NCT00151775|164991238|SUPERIORITY_OR_OTHER||Slope|-7.71|||<|0.0001||95.0|||||Regression, Linear|||A linear regression analysis of olmesartan dose (weight adjusted) on the change from baseline in seated diastolic blood pressure was carried out. The null hypothesis of zero-slope was tested.||||<0.0001
82638225|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.58||||0.0093|TWO_SIDED|95.0|-6.27|-0.89|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis of systolic blood pressure. Null hypothesis of no treatment difference was tested.||-0.89|-6.27|0.0093
82385189|NCT01019694|164481844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0328||95.0|0.005|0.11|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||||0.110|0.005|0.0328
82638226|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean difference|-3.49||||0.0052|TWO_SIDED|95.0|-5.92|-1.05|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis for diastolic blood pressure. The null hypothesis of no treatment difference was tested.||-1.05|-5.92|0.0052
82638227|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean difference|-2.57||||0.133|TWO_SIDED|95.0|-5.93|0.79|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis of systolic blood pressure. Null hypothesis of no treatment difference was tested.||0.79|-5.93|0.1330
82520859|NCT00428090|164736882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.009|TWO_SIDED|95.0|-0.8|-0.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-0.8|0.009
82638228|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean difference|-1.38||||0.3442|TWO_SIDED|95.0|-4.27|1.5|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||Analysis for diastolic blood pressure. The null hypothesis of no treatment difference was tested.||1.50|-4.27|0.3442
82385190|NCT01019694|164481844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8896||95.0|-0.058|0.05|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.050|-0.058|0.8896
82638229|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean difference|-3.16||||0.0029|TWO_SIDED|95.0|-5.24|-1.09|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated systolic blood pressure the null hypothesis of no treatment difference was tested||-1.09|-5.24|0.0029
82385191|NCT01019694|164481845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.402||95.0|-0.042|0.105|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.105|-0.042|0.402
82385192|NCT01019694|164481845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.659||95.0|-0.057|0.09|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.090|-0.057|0.659
82385193|NCT01019694|164481846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.0893||95.0|-0.01|0.139|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.139|-0.010|0.0893
82442753|NCT00394901|164594063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.001||95.0|-1.34|-0.37|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.37|-1.34|0.001
82442754|NCT00394901|164594063|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.01||95.0|-1.1|-0.15|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.15|-1.10|0.010
82638230|NCT00151775|164991239|SUPERIORITY_OR_OTHER||LS Mean difference|-2.8||||0.0032|TWO_SIDED|95.0|-4.65|-0.95|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated diastolic blood pressure the null hypothesis of no treatment difference was tested.||-0.95|-4.65|0.0032
82638231|NCT00151775|164991240|SUPERIORITY_OR_OTHER||LS Mean difference|-2.82||||0.2113|TWO_SIDED|95.0|-7.29|1.65|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated systolic blood pressure the null hypothesis of no treatment difference was tested.||1.65|-7.29|0.2113
82520860|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.957|TWO_SIDED|95.0|-1.6|1.5||Comparison between Placebo and RSG XR 2mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.5|-1.6|0.957
82520861|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.693|TWO_SIDED|95.0|-1.4|2.2||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.2|-1.4|0.693
82520862|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.798|TWO_SIDED|95.0|-2.2|1.7||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.7|-2.2|0.798
82520863|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-1.7|1.8||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.8|-1.7|0.958
82520864|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-2.1|2.1||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.1|-2.1|0.998
82638232|NCT00151775|164991240|SUPERIORITY_OR_OTHER||LS Mean difference|-2.92||||0.1496|TWO_SIDED|95.0|-6.92|1.09|||ANCOVA|The ANCOVA model used treatment and country as fixed effects and baseline as covariate.||For seated diastolic blood pressure the null hypothesis of no treatment difference was tested.||1.09|-6.92|0.1496
82385194|NCT01019694|164481846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.5424||95.0|-0.052|0.099|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.099|-0.052|0.5424
82385195|NCT01019694|164481847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6396||95.0|-0.104|0.064|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.064|-0.104|0.6396
82638233|NCT04516291|164991243|OTHER||Least Square (LS) Mean difference|-22.4|STANDARD_ERROR_OF_MEAN|4.93|<|0.001|TWO_SIDED|95.0|-32.1|-12.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-12.7|-32.1|<0.001
82638234|NCT04516291|164991243|OTHER||LS Mean difference|-22.0|STANDARD_ERROR_OF_MEAN|4.88|<|0.001|TWO_SIDED|95.0|-31.7|-12.4|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-12.4|-31.7|<0.001
82442755|NCT00394901|164594064|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27||||0.281||95.0|-0.76|0.22|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.22|-0.76|0.281
82572272|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|5.86||||0.3037|TWO_SIDED|95.0|-5.76|17.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in systolic blood pressure)||17.48|-5.76|0.3037
82385196|NCT01019694|164481847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6455||95.0|-0.106|0.066|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.066|-0.106|0.6455
82572273|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|1.15||||0.7912|TWO_SIDED|95.0|-7.85|10.16||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in diastolic blood pressure)||10.16|-7.85|0.7912
82572274|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|10.29||||0.1773|TWO_SIDED|95.0|-5.25|25.83||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in systolic blood pressure)||25.83|-5.25|0.1773
82572275|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|1.32||||0.798|TWO_SIDED|95.0|-9.55|12.2||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in diastolic blood pressure)||12.20|-9.55|0.7980
82572276|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|7.77||||0.158|TWO_SIDED|95.0|-3.4|18.94||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in systolic blood pressure)||18.94|-3.40|0.1580
82572277|NCT03845075|164853867|SUPERIORITY||LS Mean Difference|1.64||||0.7021|TWO_SIDED|95.0|-7.36|10.64||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in diastolic blood pressure)||10.64|-7.36|0.7021
82572278|NCT03845075|164853868|SUPERIORITY||LS Mean Difference|1.5||||0.8728|TWO_SIDED|95.0|-18.17|21.18||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Change in systolic blood pressure mean)||21.18|-18.17|0.8728
82572279|NCT03845075|164853868|SUPERIORITY||LS Mean Difference|2.46||||0.5714|TWO_SIDED|95.0|-6.61|11.54||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; mITT LOCF. (Change in diastolic blood pressure mean)||11.54|-6.61|0.5714
82638235|NCT04516291|164991243|OTHER||LS Mean difference|-24.1|STANDARD_ERROR_OF_MEAN|5.05|<|0.001|TWO_SIDED|95.0|-34.1|-14.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-14.2|-34.1|<0.001
82572280|NCT03845075|164853868|SUPERIORITY||LS Mean Difference|-10.15||||0.2322|TWO_SIDED|95.0|-27.51|7.22||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 12; mITT LOCF. (Change in systolic blood pressure mean)||7.22|-27.51|0.2322
82572281|NCT03845075|164853868|SUPERIORITY||LS Mean Difference|-3.46||||0.4321|TWO_SIDED|95.0|-12.61|5.68||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 12; mITT LOCF. (Change in diastolic blood pressure mean)||5.68|-12.61|0.4321
82638236|NCT04516291|164991243|OTHER||LS Mean difference|-27.7|STANDARD_ERROR_OF_MEAN|4.09|<|0.001|TWO_SIDED|95.0|-35.7|-19.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-19.6|-35.7|<0.001
82572282|NCT03845075|164853871|SUPERIORITY||LS Mean Difference|2.7||||0.5551|TWO_SIDED|95.0|-6.72|12.12||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 24; safety set LOCF. (Change in heart rate)||12.12|-6.72|0.5551
82638237|NCT04516291|164991243|OTHER||LS Mean difference|-26.6|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-34.5|-18.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-18.8|-34.5|<0.001
82385197|NCT01019694|164481848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.2596||95.0|-0.038|0.141|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.141|-0.038|0.2596
82385198|NCT01019694|164481848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.6659||95.0|-0.112|0.071|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.071|-0.112|0.6659
82638238|NCT04516291|164991243|OTHER||LS Mean difference|-24.7|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-32.5|-16.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-16.9|-32.5|<0.001
82385199|NCT01019694|164481850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.476||95.0|-0.4|0.19|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.19|-0.40|0.476
82385200|NCT01019694|164481850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.6976||95.0|-0.35|0.23|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.23|-0.35|0.6976
82385201|NCT01019694|164481851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9506||95.0|-0.4|0.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.37|-0.40|0.9506
82638239|NCT04516291|164991243|OTHER||LS Mean difference|-26.5|STANDARD_ERROR_OF_MEAN|4.51|<|0.001|TWO_SIDED|95.0|-35.4|-17.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-17.6|-35.4|<0.001
82638240|NCT04516291|164991245|OTHER||LS Mean difference|-44.0|STANDARD_ERROR_OF_MEAN|6.66|<|0.001|TWO_SIDED|95.0|-57.1|-30.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-30.8|-57.1|<0.001
82385202|NCT01019694|164481851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.2362||95.0|-0.15|0.62|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.62|-0.15|0.2362
82572283|NCT03845075|164853871|SUPERIORITY||LS Mean Difference|-2.13||||0.7256|TWO_SIDED|95.0|-14.88|10.63||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From baseline to week 48; safety set LOCF. (Change in heart rate)||10.63|-14.88|0.7256
82385203|NCT01019694|164481852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.5645||95.0|-0.3|0.54|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.54|-0.30|0.5645
82385204|NCT01019694|164481852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.0163||95.0|0.1|0.95|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.95|0.10|0.0163
82385205|NCT01019694|164481853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.4339||95.0|-0.6|0.26|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.26|-0.60|0.4339
82385206|NCT01019694|164481853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.4886||95.0|-0.28|0.59|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.59|-0.28|0.4886
82385207|NCT01019694|164481854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7637||95.0|-0.5|0.37|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Combivent Inhalation Aerosol||0.37|-0.50|0.7637
82385208|NCT01019694|164481854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.3755||95.0|-0.24|0.65|||Mixed Models Analysis|Adjusted for baseline and baseline-by-test-day interaction||Comparison of Combivent Respimat versus Atrovent + Albuterol Aerosols||0.65|-0.24|0.3755
82385209|NCT04244084|164481861|SUPERIORITY||Median Difference (Final Values)|-0.89||||0.0155|TWO_SIDED|95.0|-1.61|-0.17|||ANCOVA|Site used as covariate||Mean differences (MMH-407 vs. Placebo) were compared||-0.17|-1.61|0.0155
82385210|NCT04244084|164481862|SUPERIORITY|||||||0.1839|||||||Wilcoxon (Mann-Whitney)|||||||0.1839
82442756|NCT00394901|164594064|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82||||0.001||95.0|-1.3|-0.33|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.30|0.001
82638241|NCT04516291|164991245|OTHER||LS Mean difference|-43.8|STANDARD_ERROR_OF_MEAN|6.64|<|0.001|TWO_SIDED|95.0|-56.9|-30.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-30.7|-56.9|<0.001
82385211|NCT04244084|164481863|SUPERIORITY|||||||0.064||||||Day used as independent strata.|Cochran-Mantel-Haenszel|||||||0.0640
82385212|NCT04244084|164481864|SUPERIORITY|||||||0.1927|||||||Wilcoxon (Mann-Whitney)|||||||0.1927
82442757|NCT00394901|164594064|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62||||0.012||95.0|-1.09|-0.14|||repeated measures analysis|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.14|-1.09|0.012
82442758|NCT02256267|164594085|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.0771|||||TWO_SIDED|90.0|0.0671|0.0886||||||||0.0886|0.0671|
82442759|NCT02256267|164594086|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.0467|||||TWO_SIDED|90.0|0.0376|0.0581||||||||0.0581|0.0376|
82442760|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 3 months.||||0.0078
82520865|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.639||95.0|-1.7|2.8||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.8|-1.7|0.639
82520866|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.797|TWO_SIDED|95.0|-2.1|2.7||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.7|-2.1|0.797
82520867|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.942|TWO_SIDED|95.0|-2.9|2.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.7|-2.9|0.942
82520868|NCT00428090|164736883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.213|TWO_SIDED|95.0|-4.8|1.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-4.8|0.213
82520869|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.919|TWO_SIDED|95.0|-2.1|2.3||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.3|-2.1|0.919
82520870|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.649|TWO_SIDED|95.0|-1.5|2.4||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.4|-1.5|0.649
82385213|NCT04244084|164481865|SUPERIORITY|||||||0.0014||||||Day used as independent strata.|Cochran-Mantel-Haenszel|||||||0.0014
82385214|NCT04244084|164481866|SUPERIORITY|||||||0.2009|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 1 row."||||0.2009
82385215|NCT04244084|164481866|SUPERIORITY|||||||0.4717|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 2 row."||||0.4717
82385216|NCT04244084|164481866|SUPERIORITY|||||||0.5144|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to Day 3 row."||||0.5144
82385217|NCT04244084|164481867|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82385218|NCT04244084|164481869|SUPERIORITY|||||||0.5981|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 1 row."||||0.5981
82385219|NCT04244084|164481869|SUPERIORITY|||||||0.4913|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 2 row."||||0.4913
82385220|NCT04244084|164481869|SUPERIORITY|||||||0.6441|||||||Kruskal-Wallis|||"This analysis applies to Systolic blood pressure/Visit 3 row."||||0.6441
82385221|NCT04244084|164481869|SUPERIORITY|||||||0.8186|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 1 row."||||0.8186
82385222|NCT04244084|164481869|SUPERIORITY|||||||0.8931|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 2 row."||||0.8931
82385223|NCT04244084|164481869|SUPERIORITY|||||||0.5887|||||||Kruskal-Wallis|||"This analysis applies to Diastolic blood pressure/Visit 3 row."||||0.5887
82385224|NCT04244084|164481870|SUPERIORITY|||||||0.4426|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 1 row."||||0.4426
82385225|NCT04244084|164481870|SUPERIORITY|||||||0.5998|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 2 row."||||0.5998
82385226|NCT04244084|164481870|SUPERIORITY|||||||0.971|||||||Kruskal-Wallis|||"This analysis applies to Heart rate/Visit 3 row."||||0.9710
82638242|NCT04516291|164991245|OTHER||LS Mean difference|-41.3|STANDARD_ERROR_OF_MEAN|6.85|<|0.001|TWO_SIDED|95.0|-54.8|-27.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-27.8|-54.8|<0.001
82520871|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.279|TWO_SIDED|95.0|-1.1|3.6||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.1|0.279
82520872|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.498|TWO_SIDED|95.0|-1.8|3.6||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.8|0.498
82520873|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.489|TWO_SIDED|95.0|-1.7|3.6||Comparison between Placebo and RSG XR 8 mg in at Week 16 Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.6|-1.7|0.489
82520874|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.024|TWO_SIDED|95.0|0.5|7.0||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||7.0|0.5|0.024
82520875|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.385|TWO_SIDED|95.0|-1.6|4.2||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||4.2|-1.6|0.385
82520876|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.944|TWO_SIDED|95.0|-3.0|2.8||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.8|-3.0|0.944
82520877|NCT00428090|164736884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.078|TWO_SIDED|95.0|-0.4|7.5||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||7.5|-0.4|0.078
82520878|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.635|TWO_SIDED|95.0|-0.8|0.5||Comparison between Placebo and RSG XR 2 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-0.8|0.635
82520879|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.194|TWO_SIDED|95.0|-0.2|1.1||Comparison between Placebo and RSG XR 8 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-0.2|0.194
82520880|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.325|TWO_SIDED|95.0|-1.3|0.4||Comparison between Placebo and Donepezil 10 mg at Week 8 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-1.3|0.325
82520881|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.109|TWO_SIDED|95.0|-0.1|1.2||Comparison between Placebo and RSG XR 2 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-0.1|0.109
82638243|NCT04516291|164991245|OTHER||LS Mean difference|-50.5|STANDARD_ERROR_OF_MEAN|5.54|<|0.001|TWO_SIDED|95.0|-61.4|-39.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-39.6|-61.4|<0.001
82385227|NCT04244084|164481871|SUPERIORITY|||||||0.6197|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 1 row."||||0.6197
82385228|NCT04244084|164481871|SUPERIORITY|||||||0.7042|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 2 row."||||0.7042
82385229|NCT04244084|164481871|SUPERIORITY|||||||0.7693|||||||Kruskal-Wallis|||"This analysis applies to Breathing rate/Visit 3 row."||||0.7693
82385230|NCT04244084|164481872|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82385231|NCT01737710|164481874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.082|TWO_SIDED|95.0|0.92|3.55||Null hypothesis: no difference in the percent of participants that were seroprotected against influenza B at Day 28 between the two groups.|Fisher Exact|||||3.55|0.92|0.082
82385232|NCT01737710|164481875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.801|TWO_SIDED|95.0|0.26|2.56||Null hypothesis: no difference in the percent of participants that were seroprotected against influenza H1N1 at Day 28 between the two groups|Fisher Exact|||||2.56|0.26|0.801
82572284|NCT03845075|164853871|SUPERIORITY||LS Mean Difference|-3.29||||0.4822|TWO_SIDED|95.0|-13.05|6.48||P-value from an ANCOVA model with treatment as factor and baseline as covariate.|ANCOVA||(Tesofensine/Metoprolol -\> Tesofensine/Metoprolol) - (Placebo -\> Tesofensine/Metoprolol). Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment as factor and baseline as covariate|From week 24 to week 48; safety set LOCF. (Change in heart rate)||6.48|-13.05|0.4822
82572285|NCT02804399|164853907|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|14.74|||||TWO_SIDED|90.0|12.78|17.01||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||17.01|12.78|
82638244|NCT04516291|164991245|OTHER||LS Mean difference|-45.9|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-56.5|-35.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-35.2|-56.5|<0.001
82638245|NCT04516291|164991245|OTHER||LS Mean difference|-50.7|STANDARD_ERROR_OF_MEAN|5.35|<|0.001|TWO_SIDED|95.0|-61.2|-40.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-40.1|-61.2|<0.001
82572286|NCT02804399|164853908|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|23.88|||||TWO_SIDED|90.0|21.58|26.43||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||26.43|21.58|
82572287|NCT02804399|164853909|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|13.96|||||TWO_SIDED|90.0|12.09|16.12||||||Mixed model was fitted to obtain ratio of geometric means of Rifampin 600 mg QD + PF-06463922 100 mg SD (test) to PF-06463922 100 mg SD (reference) and the results are presented as percentage. 90% CI was calculated on ratio of geometric means.||16.12|12.09|
82385233|NCT01737710|164481876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.177|TWO_SIDED|95.0|0.75|5.71||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||5.71|0.75|0.177
82572288|NCT00087555|164853934|SUPERIORITY_OR_OTHER|||||||0.052||95.0|||||Chi-squared|||||||0.052
82572289|NCT00087555|164853934|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Chi-squared|||||||0.024
82572290|NCT00087555|164853934|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||||||0.035
82572291|NCT01795859|164853938|SUPERIORITY_OR_OTHER||LSMean Difference|-2.49|||<|0.0001|TWO_SIDED|95.0|-3.69|-1.29|||ANCOVA|||||-1.29|-3.69|<0.0001
82572292|NCT01795859|164853939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.1||||0.002|TWO_SIDED|95.0|12.4|49.8|||Difference of proportions|||||49.8|12.4|0.0020
82572293|NCT01795859|164853940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.9||||0.0022|TWO_SIDED|95.0|11.4|46.4|||Difference of proportions|||||46.4|11.4|0.0022
82572294|NCT01795859|164853941|SUPERIORITY_OR_OTHER||LSMean Difference|4.34||||0.0308|TWO_SIDED|95.0|0.41|8.27|||Mixed Models Analysis|||||8.27|0.41|0.0308
82572295|NCT01795859|164853942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.1415|TWO_SIDED|95.0|-0.3|2.3|||Mixed Models Analysis|||||2.3|-0.3|0.1415
82572296|NCT00727506|164853977|SUPERIORITY_OR_OTHER|||||||0.148||95.0||||P-value is from an approximate normal test for the 6 month time point.|z-test|||||||0.148
82572297|NCT00727506|164853977|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value is an approximate normal test for the six month time point.|z-test|||||||0.008
82572298|NCT00727506|164853979|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0000
82572299|NCT00727506|164853979|SUPERIORITY_OR_OTHER|||||||0.1954||95.0|||||Fisher Exact|||||||0.1954
82572300|NCT00727506|164853980|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.78||||0.032|TWO_SIDED|95.0|1.088|2.912|||Log Rank|||Hazard ratio was calculated from Cox proportional hazard model stratified by age class (\<=50 vs. \>50 years old) and baseline Karnofsky Performance Scale (KPS) score (70, 80 vs. 90, 100). P-value was two-sided from log-rank test stratified by the same variables.||2.912|1.088|0.0320
82572301|NCT00727506|164853980|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.392||||0.2044|TWO_SIDED|95.0|0.841|2.301|||Log Rank|||Hazard ratio was calculated from Cox proportional hazard model stratified by age class (\<=50 vs. \>50 years old) and baseline KPS score (70, 80 vs. 90, 100). P-value was two-sided from log-rank test stratified by the same variables.||2.301|0.841|0.2044
82572302|NCT01482429|164854007|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||binomial test|||||||0.03
82572303|NCT01482429|164854008|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82572304|NCT04887506|164854065|EQUIVALENCE|If the 90% confidence interval (CI) fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|||||||The 90% CIs for the geometric mean ratio (GMR) were not evaluable.|Primary analysis of equivalence of TAVT 45 and R AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10).||||
82572305|NCT04887506|164854066|EQUIVALENCE|If the 90% CI fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|0.975|||||TWO_SIDED|90.0|0.944|1.007||||||Supplementary analysis of equivalence of TAVT-45 and R-AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10) in the CS-ITT population.||1.007|0.944|
82572306|NCT04887506|164854067|EQUIVALENCE|If the 90% CI fell within the recommended 0.800-1.250 limits of equivalence when analyzed on a natural log scale, then treatments were therapeutically equivalent based on rounded-up average Days 9 and 10 testosterone levels.|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.978|1.002||||||Supplementary analysis of equivalence of TAVT-45 and R-AA based on average serum testosterone (ng/dL) (rounded up values of Days 9 and 10) in the mITT population.||1.002|0.978|
82572307|NCT04887506|164854068|EQUIVALENCE|Odds ratio generated using the Wald method.|Odds Ratio (OR)|1.69||||0.3408|TWO_SIDED|95.0|0.574|4.979|||Regression, Logistic|||||4.979|0.574|0.3408
82572308|NCT03506347|164854090|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
82572309|NCT03506347|164854091|SUPERIORITY|||||||0.009|||||||ANOVA|||||||0.009
82572310|NCT01024036|164854148|SUPERIORITY_OR_OTHER||difference in the response rate|34.0||||0.0012|TWO_SIDED|95.0|11.1|54.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factor: corticosteroid use||Null hypothesis: there is no difference in the durable tumor and symptomatic response rate between the 2 treatment arms||54.8|11.1|0.0012
82572311|NCT01024036|164854148|SUPERIORITY_OR_OTHER||difference in the response rate|34.0||||0.0004|TWO_SIDED|95.0|11.1|54.8|||Fisher Exact|Without adjusting for the stratification factor: corticosteroid use||Null hypothesis: there is no difference in the durable tumor and symptomatic response rate between the 2 treatment arms||54.8|11.1|0.0004
82572312|NCT01024036|164854150|SUPERIORITY_OR_OTHER||Difference in overall response rates|33.9||||0.0022|TWO_SIDED|95.0|11.1|54.8|||Cochran-Mantel-Haenszel|||||54.8|11.1|0.0022
82572313|NCT01024036|164854152|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.418||||0.0084|TWO_SIDED|95.0|0.214|0.815|||Log Rank||Hazard ratio and 95% CI from a Cox proportional hazards model|||0.815|0.214|0.0084
82572314|NCT01024036|164854153|SUPERIORITY_OR_OTHER||Difference of hemoglobin response rates|61.3||||0.0002|TWO_SIDED|95.0|28.3|85.1|||Cochran-Mantel-Haenszel||Difference in hemoglobin response rates is equal to hemoglobin response rate for siltuximab+best supportive care \[BSC\] arm minus hemoglobin response rate for Placebo+BSC arm.|||85.1|28.3|0.0002
82572315|NCT01024036|164854154|SUPERIORITY_OR_OTHER||Difference of hemoglobin response rates|41.9||||0.0195|TWO_SIDED|95.0|7.8|70.7|||Cochran-Mantel-Haenszel||Difference in hemoglobin response rates is equal to hemoglobin response rate for siltuximab+best supportive care \[BSC\] arm minus hemoglobin response rate for Placebo+BSC arm.|||70.7|7.8|0.0195
82572316|NCT03459612|164854160|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in Least Square (LS) means \< 4.4.|Difference in LS Means|0.98|||<|0.0001|TWO_SIDED|95.0|-0.43|2.39|||Mixed Models Analysis|||||2.39|-0.43|<0.0001
82385234|NCT01737710|164481877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.092|TWO_SIDED|95.0|0.96|1.61||Null hypothesis: the fold differences in geometric mean titers against influenza B are not different between the two groups.|ANCOVA|||||1.61|0.96|0.092
82442761|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 18 months.||||0.0078
82442762|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0313||95.0||||p-value is for skull, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the skull from baseline to 24 months.||||0.0313
82442763|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the skull from 3 months to 18 months.||||0.0078
82520882|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.032|TWO_SIDED|95.0|0.1|1.4||Comparison between Placebo and RSG XR 8 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.4|0.1|0.032
82520883|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.189|TWO_SIDED|95.0|-1.7|0.3||Comparison between Placebo and Donepezil 10 mg at Week 16 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-1.7|0.189
82385235|NCT01737710|164481878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.103|TWO_SIDED|95.0|0.32|1.11||Null hypothesis: the fold differences in geometric mean titers against influenza H1N1 are not different between the two groups.|ANCOVA|||||1.11|0.32|0.103
82385236|NCT01737710|164481879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.895|TWO_SIDED|95.0|0.6|1.8||Null hypothesis: the fold differences in geometric mean titers against influenza H3N2 are not different between the two groups.|ANCOVA|||||1.80|0.60|0.895
82385237|NCT01737710|164481880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03|||>|0.999|TWO_SIDED|95.0|0.54|1.97||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza B at Day 28 between the two groups.|Fisher Exact|||||1.97|0.54|>0.999
82385238|NCT01737710|164481881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.253|TWO_SIDED|95.0|0.09|1.63||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||1.63|0.09|0.253
82385239|NCT01737710|164481882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.218|TWO_SIDED|95.0|0.06|1.58||Null hypothesis: no difference in the percentage of participants that were seroprotected against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||1.58|0.06|0.218
82385240|NCT01737710|164481883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.14|TWO_SIDED|95.0|0.84|2.94||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza B at Day 28 between the two groups.|Fisher Exact|||||2.94|0.84|0.140
82385241|NCT01737710|164481884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.791|TWO_SIDED|95.0|0.24|2.65||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||2.65|0.24|0.791
82442764|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for skull, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the skull from 18 months to 24 months.||||0.0156
82442765|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for mandible, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 3 months.||||0.0156
82442766|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for mandible, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 18 months.||||0.0078
82442767|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.1563||95.0||||p-value is for mandible, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the mandible from baseline to 24 months.||||0.1563
82442768|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.4375||95.0||||p-value is for mandible, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the mandible from 3 months to 18 months.||||0.4375
82442769|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||p-value is for mandible, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the mandible from 18 months to 24 months.||||0.0781
82442770|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0371||95.0||||p-value is for spine, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 3 months.||||0.0371
82385242|NCT01737710|164481885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.833|TWO_SIDED|95.0|0.47|2.92||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H3N2 at Day 28 between the two groups.|Fisher Exact|||||2.92|0.47|0.833
82385243|NCT01737710|164481886|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.378|TWO_SIDED|95.0|0.4|1.38||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza B at Day 28 between the two groups.|Fisher Exact|||||1.38|0.40|0.378
82385244|NCT01737710|164481887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.783|TWO_SIDED|95.0|0.21|2.62||Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H1N1 at Day 28 between the two groups.|Fisher Exact|||||2.62|0.21|0.783
82385245|NCT01737710|164481888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.143|TWO_SIDED|95.0|0.13|1.39|||Fisher Exact|Null hypothesis: no difference in the percentage of participants that were seroconverted against influenza H3N2 at Day 28 between the two groups.||||1.39|0.13|0.143
82442771|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0137||95.0||||p-value is for spine, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 18 months.||||0.0137
82520884|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.288|TWO_SIDED|95.0|-1.1|0.3||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.3|-1.1|0.288
82385246|NCT03777436|164481909|SUPERIORITY||Adjusted difference|20.1||||0.0003|TWO_SIDED|95.0|9.2|30.9|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||30.9|9.2|0.0003
82520885|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.819|TWO_SIDED|95.0|-0.8|0.6||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.8|0.819
82520886|NCT00428090|164736885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.306|TWO_SIDED|95.0|-1.5|0.5||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-1.5|0.306
82520887|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.199|TWO_SIDED|95.0|-0.01|0.07||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.01|0.199
82520888|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.094|TWO_SIDED|95.0|-0.01|0.08||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.08|-0.01|0.094
82520889|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.187|TWO_SIDED|95.0|-0.02|0.09||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.09|-0.02|0.187
82520890|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.134|TWO_SIDED|95.0|-0.01|0.07||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.01|0.134
82520891|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.05|0.05||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.05|-0.05|0.958
82520892|NCT00428090|164736886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.374|TWO_SIDED|95.0|-0.03|0.07||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.07|-0.03|0.374
82520893|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.493|TWO_SIDED|95.0|-4.6|2.2||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.2|-4.6|0.493
82572317|NCT03459612|164854160|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|LS Means|1.76|||<|0.0001|TWO_SIDED|95.0|0.32|3.2|||Mixed Models Analysis|||||3.20|0.32|<0.0001
82442772|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0547||95.0||||p-value is for spine, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the spine from baseline to 24 months.||||0.0547
82442773|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0488||95.0||||p-value is for spine, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the spine from 3 months to 18 months.||||0.0488
82442774|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.3594||95.0||||p-value is for spine, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the spine from 18 months to 24 months.||||0.3594
82442775|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0488||95.0||||p-value is for pelvis, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 3 months.||||0.0488
82442776|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.1055||95.0||||p-value is for pelvis, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 18 months.||||0.1055
82442777|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.9102||95.0||||p-value is for pelvis, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the pelvis from baseline to 24 months.||||0.9102
82442778|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for pelvis, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the pelvis from 3 months to 18 months.||||0.1934
82442779|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||p-value is for pelvis, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the pelvis from 18 months to 24 months.||||0.1641
82442780|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0137||95.0||||p-value is for upper extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 3 months.||||0.0137
82442781|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for upper extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 18 months.||||0.0020
82442782|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for upper extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from baseline to 24 months.||||0.0039
82442783|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for upper extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from 3 months to 18 months.||||0.0273
82442784|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0547||95.0||||p-value is for upper extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the upper extremities from 18 months to 24 months.||||0.0547
82442785|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0195||95.0||||p-value is for lower extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 3 months.||||0.0195
82442786|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0059||95.0||||p-value is for lower extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 18 months.||||0.0059
82520894|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.883|TWO_SIDED|95.0|-3.2|3.7||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||3.7|-3.2|0.883
82520895|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.13|TWO_SIDED|95.0|-9.3|1.2||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.2|-9.3|0.130
82638246|NCT04516291|164991245|OTHER||LS Mean difference|-56.8|STANDARD_ERROR_OF_MEAN|6.14|<|0.001|TWO_SIDED|95.0|-68.9|-44.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||TG||-44.7|-68.9|<0.001
82638247|NCT04516291|164991245|OTHER||LS Mean difference|-15.1|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-23.7|-6.5|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-6.5|-23.7|<0.001
82638248|NCT04516291|164991245|OTHER||LS Mean difference|-10.6|STANDARD_ERROR_OF_MEAN|4.34||0.015|TWO_SIDED|95.0|-19.2|-2.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-2.1|-19.2|0.015
82442787|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.5703||95.0||||p-value is for lower extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from baseline to 24 months.||||0.5703
82442788|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for lower extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from 3 months to 18 months.||||0.1934
82442789|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for lower extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the lower extremities from 18 months to 24 months.||||0.0039
82442790|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for whole body, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the whole body from baseline to 3 months.||||0.0039
82442791|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.5703||95.0||||p-value is for whole body, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal plasma clearance of 99m Tc-MDP in the whole body from baseline to 24 months.||||0.5703
82442792|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for whole body, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal plasma clearance of 99m Tc-MDP in the whole body from 3 months to 18 months.||||0.0273
82520896|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.198|TWO_SIDED|95.0|-6.6|1.4||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.4|-6.6|0.198
82520897|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.441|TWO_SIDED|95.0|-5.9|2.6||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||2.6|-5.9|0.441
82385247|NCT03777436|164481910|SUPERIORITY||Adjusted difference|15.2||||0.0004|TWO_SIDED|95.0|6.9|23.6|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the CMH weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||23.6|6.9|0.0004
82385248|NCT03777436|164481911|SUPERIORITY||Adjusted difference|27.4|||<|0.0001|TWO_SIDED|95.0|15.4|39.3|||Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the strata with the CMH weights. 2-sided 95% CIs based on the stratified Newcombe method. Two-sided p-values were based on the CMH test.|||39.3|15.4|<0.0001
82385249|NCT03777436|164481912|SUPERIORITY||Least squares mean difference|-3.33|STANDARD_ERROR_OF_MEAN|0.942||0.0005|TWO_SIDED|95.0|-5.18|-1.47|||MMRM||Based on MMRM model.|||-1.47|-5.18|0.0005
82385250|NCT03777436|164481913|SUPERIORITY||Least squares mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0008|TWO_SIDED|95.0|-4.2|-1.1|||MMRM||Based on MMRM model.|||-1.1|-4.2|0.0008
82442793|NCT00259298|164594140|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value if for whole body, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal plasma clearance of 99m Tc-MDP in the whole body from 18 months to 24 months.||||0.0039
82385251|NCT03777436|164481914|SUPERIORITY||Difference|-15.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|-20.3|-10.0|||MMRM||Based on MMRM model.|||-10.0|-20.3|<0.0001
82385252|NCT00676364|164481916|NON_INFERIORITY_OR_EQUIVALENCE|We determined that we will need to enroll 43 children in each group, for a power of .80, alpha=0.05. We used a per protocol analysis.|Mean Difference (Final Values)|2.1||||0.71|||||||Chi-squared||To assess the association between pain and anxiety with intervention group while controlling for other factors, linear regression was used.|P-value determined from linear regression models that include age, gender, number of needle sticks in previous 2 years and nurse reported difficulty in performing venipuncture.||||0.71
82442794|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for whole skeleton, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 3 months.||||0.0098
82442795|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for whole skeleton, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 18 months.||||0.0039
82572318|NCT03459612|164854160|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|LS Means|4.98|||<|0.0001|TWO_SIDED|95.0|3.58|6.38|||Mixed Models Analysis|||||6.38|3.58|<0.0001
82385253|NCT02064816|164481993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|3.5||0.277763|TWO_SIDED|95.0|-0.46|1.56|||Mann-Whitney Non Parametric test|||||1.56|-0.46|0.277763
82442796|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for whole skeleton, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from baseline to 24 months.||||0.6523
82520898|NCT00428090|164736887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.898|TWO_SIDED|95.0|-5.8|5.1||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||5.1|-5.8|0.898
82638249|NCT04516291|164991245|OTHER||LS Mean difference|-11.5|STANDARD_ERROR_OF_MEAN|4.49||0.011|TWO_SIDED|95.0|-20.3|-2.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-2.7|-20.3|0.011
82638250|NCT04516291|164991245|OTHER||LS Mean difference|-12.5|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-19.7|-5.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-5.3|-19.7|<0.001
82638251|NCT04516291|164991245|OTHER||LS Mean difference|-12.6|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-19.5|-5.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-5.6|-19.5|<0.001
82385254|NCT02064816|164481994|SUPERIORITY_OR_OTHER||Least Square (LS) Mean difference|1.3492||||0.0083|TWO_SIDED|95.0|0.3495|2.3489|||linear mixed model for repeated measures|||Week 4||2.3489|0.3495|0.0083
82385255|NCT02064816|164481994|SUPERIORITY_OR_OTHER||LS Mean difference|1.3367||||0.0079|TWO_SIDED|95.0|0.3534|2.32|||linear mixed model for repeated measures|||Week 8||2.3200|0.3534|0.0079
82520899|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.027|TWO_SIDED|95.0|-2.1|-0.1||Comparison between Placebo and RSG XR 2 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||-0.1|-2.1|0.027
82638252|NCT04516291|164991245|OTHER||LS Mean difference|-6.0|STANDARD_ERROR_OF_MEAN|3.56||0.095|TWO_SIDED|95.0|-13.0|1.0|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||1.0|-13.0|0.095
82385256|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.4003||||0.4311|TWO_SIDED|95.0|-0.5992|1.3998|||linear mixed model for repeated measures|||ISRs subscale Week 4||1.3998|-0.5992|0.4311
82385257|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.08479||||0.8635|TWO_SIDED|95.0|-0.885|1.0546|||linear mixed model for repeated measures|||ISRs subscale Week 8||1.0546|-0.8850|0.8635
82442797|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||p-value is for whole skeleton, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from 3 months to 18 months.||||0.1641
82572319|NCT03459612|164854161|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-0.12|||<|0.0001|TWO_SIDED|95.0|-1.28|1.04|||Mixed Models Analysis|||||1.04|-1.28|<0.0001
82572320|NCT03459612|164854161|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-0.32|||<|0.0001|TWO_SIDED|95.0|-1.51|0.88|||Mixed Models Analysis|||||0.88|-1.51|<0.0001
82572321|NCT03459612|164854161|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|4.31|||<|0.0001|TWO_SIDED|95.0|3.17|5.45|||Mixed Models Analysis|||||5.45|3.17|<0.0001
82572322|NCT03459612|164854162|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Differnce in LS Means|-0.97|||<|0.0001|TWO_SIDED|95.0|-2.3|0.36|||Mixed Models Analysis|||||0.36|-2.30|<0.0001
82572323|NCT03459612|164854162|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|-1.04|||<|0.0001|TWO_SIDED|95.0|-2.4|0.32|||Mixed Models Analysis|||||0.32|-2.40|<0.0001
82572324|NCT03459612|164854162|NON_INFERIORITY|Non-inferiority p-value tests null hypothesis that difference in LS means ≥ 4.4 versus alternative hypothesis that difference in LS means \< 4.4.|Difference in LS Means|4.05|||<|0.0001|TWO_SIDED|95.0|2.73|5.38|||Mixed Models Analysis|||||5.38|2.73|<0.0001
82638253|NCT04516291|164991245|OTHER||LS Mean difference|-8.5|STANDARD_ERROR_OF_MEAN|4.01||0.036|TWO_SIDED|95.0|-16.4|-0.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||ApoB||-0.6|-16.4|0.036
82385258|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3245||||0.5099|TWO_SIDED|95.0|-1.2927|0.6437|||linear mixed model for repeated measures|||ISRs subscale Week 12||0.6437|-1.2927|0.5099
82385259|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.07079||||0.8574|TWO_SIDED|95.0|-0.8452|0.7036|||linear mixed model for repeated measures|||Global side-effect subscale: Week 4||0.7036|-0.8452|0.8574
82385260|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.1897||||0.6338|TWO_SIDED|95.0|-0.5926|0.972|||linear mixed model for repeated measures|||Global side-effect subscale: Week 8||0.9720|-0.5926|0.6338
82385261|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.4097||||0.3042|TWO_SIDED|95.0|-0.3734|1.1929|||linear mixed model for repeated measures|||Global side-effect subscale: Week 12||1.1929|-0.3734|0.3042
82442798|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for whole skeleton, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the whole skeleton from 18 months to 24 months.||||0.0078
82442799|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from baseline to 3 months.||||0.0078
82572325|NCT03459612|164854163|SUPERIORITY||Differences of Least Square Mean|0.28|||||TWO_SIDED|95.0|-0.15|0.7||||||||0.70|-0.15|
82572326|NCT03459612|164854163|SUPERIORITY||Difference of Least Square Means|0.66|||||TWO_SIDED|95.0|0.22|1.1||||||||1.10|0.22|
82572327|NCT03459612|164854163|SUPERIORITY||Difference of Least Square Means|0.81|||||TWO_SIDED|95.0|0.39|1.24||||||||1.24|0.39|
82572328|NCT03459612|164854164|SUPERIORITY||Difference of Least Square Means|0.48|||||TWO_SIDED|95.0|0.0|0.96||||||||0.96|0.00|
82572329|NCT03459612|164854164|SUPERIORITY||Differnce of Least Square Means|0.34|||||TWO_SIDED|95.0|-0.14|0.82||||||||0.82|-0.14|
82572330|NCT03459612|164854164|SUPERIORITY||Difference of Least Square Means|1.29|||||TWO_SIDED|95.0|0.81|1.78||||||||1.78|0.81|
82572331|NCT03459612|164854165|SUPERIORITY||Difference of Least Square Means|-0.58|||||TWO_SIDED|95.0|-1.1|-0.06||||||||-0.06|-1.10|
82572332|NCT03459612|164854165|SUPERIORITY||Difference of Least Square Means|-0.4|||||TWO_SIDED|95.0|-0.89|0.09||||||||0.09|-0.89|
82572333|NCT03459612|164854165|SUPERIORITY||Difference of Least Square Means|0.44|||||TWO_SIDED|95.0|-0.09|0.96||||||||0.96|-0.09|
82572334|NCT03459612|164854166|SUPERIORITY||Difference in Least Square Means|0.0|||||TWO_SIDED|95.0|-1.61|1.62||||||||1.62|-1.61|
82572335|NCT03459612|164854166|SUPERIORITY||Difference in Lease Square Means|-0.74|||||TWO_SIDED|95.0|-2.49|1.01||||||||1.01|-2.49|
82572336|NCT03459612|164854166|SUPERIORITY||Difference in Least Square Means|-0.72|||||TWO_SIDED|95.0|-2.32|0.89||||||||0.89|-2.32|
82572337|NCT03459612|164854167|SUPERIORITY||Difference of Least Square Means|-1.79|||||TWO_SIDED|95.0|-3.52|-0.06||||||||-0.06|-3.52|
82572338|NCT03459612|164854167|SUPERIORITY||Difference in Least Square Means|-0.29|||||TWO_SIDED|95.0|-2.0|1.42||||||||1.42|-2.00|
82572339|NCT03459612|164854167|SUPERIORITY||Difference in Least Square Means|-3.81|||||TWO_SIDED|95.0|-5.53|-2.08||||||||-2.08|-5.53|
82572340|NCT03459612|164854168|SUPERIORITY||Difference of Least Square Means|-0.28|||||TWO_SIDED|95.0|-1.71|1.15||||||||1.15|-1.71|
82572341|NCT03459612|164854168|SUPERIORITY||Difference of Least Square Means|-0.31|||||TWO_SIDED|95.0|-1.71|1.08||||||||1.08|-1.71|
82572342|NCT03459612|164854168|SUPERIORITY||Difference of Least Square Means|-2.7|||||TWO_SIDED|95.0|-4.13|-1.27||||||||-1.27|-4.13|
82572343|NCT03459612|164854169|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.3||0.6875|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.6875
82572344|NCT03459612|164854169|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.27||0.375|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.3750
82572345|NCT03459612|164854169|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|1.0||0.0115|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0115
82520900|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.278|TWO_SIDED|95.0|-1.6|0.5||Comparison between Placebo and RSG XR 8 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.5|-1.6|0.278
82572346|NCT03459612|164854170|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.42||0.1563|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.1563
82385262|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4083||||0.1038|TWO_SIDED|95.0|-0.9008|0.08419|||linear mixed model for repeated measures|||Benefits: Week 4||0.08419|-0.9008|0.1038
82385263|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.1358||||0.594|TWO_SIDED|95.0|-0.637|0.3653|||linear mixed model for repeated measures|||Benefits: Week 8||0.3653|-0.6370|0.5940
82572347|NCT03459612|164854170|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.44||0.5938|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.5938
82572348|NCT03459612|164854170|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|0.54||0.0938|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0938
82572349|NCT03459612|164854171|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.56||0.125|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.1250
82572350|NCT03459612|164854171|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.94||0.959|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.9590
82572351|NCT03459612|164854171|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_DEVIATION|1.76||0.0097|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0097
82572352|NCT02330276|164854217|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
82520901|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-1.2|1.1||Comparison between Placebo and Donepezil 10 mg at Week 12 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.1|-1.2|0.993
82520902|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.196|TWO_SIDED|95.0|-2.0|0.4||Comparison between Placebo and RSG XR 2 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.4|-2.0|0.196
82520903|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.353|TWO_SIDED|95.0|-1.9|0.7||Comparison between Placebo and RSG XR 8 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.7|-1.9|0.353
82520904|NCT00428090|164736889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.427|TWO_SIDED|95.0|-2.2|0.9||Comparison between Placebo and Donepezil 10 mg at Week 24 in Full population cohort|Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.9|-2.2|0.427
82520905|NCT00428090|164736890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.886|TWO_SIDED|95.0|-0.7|0.6|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.7|0.886
82520906|NCT00428090|164736890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.71|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.6|-0.8|0.710
82638254|NCT04516291|164991245|OTHER||LS Mean difference|-10.0|STANDARD_ERROR_OF_MEAN|6.55||0.129|TWO_SIDED|95.0|-22.9|2.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.9|-22.9|0.129
82520907|NCT00428090|164736890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.03|TWO_SIDED|95.0|0.1|1.8|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||1.8|0.1|0.030
82520908|NCT00428090|164736891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.139|TWO_SIDED|95.0|0.0|0.2|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.0|0.139
82442800|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from baseline to 18 months.||||0.0078
82442801|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||p-value is for skull, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal uptake of 99m Tc-MDP in the skull from baseline to 24 months.||||0.0781
82442802|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||p-value is for skull, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the skull from 3 months to 18 months.||||0.0078
82442803|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||p-value is for skull, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the skull from 18 months to 24 months.||||0.0156
82520909|NCT00428090|164736891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.846|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.1|-0.1|0.846
82520910|NCT00428090|164736891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.864|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of par. with evaluable data|||0.2|-0.1|0.864
82638255|NCT04516291|164991245|OTHER||LS Mean difference|-7.9|STANDARD_ERROR_OF_MEAN|6.65||0.238|TWO_SIDED|95.0|-21.0|5.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||5.2|-21.0|0.238
82385264|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.05809||||0.8217|TWO_SIDED|95.0|-0.5651|0.4489|||linear mixed model for repeated measures|||Benefits: Week 12||0.4489|-0.5651|0.8217
82385265|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.5909||||0.489|TWO_SIDED|95.0|-1.0873|2.269|||linear mixed model for repeated measures|||Description of pain: Week 4||2.2690|-1.0873|0.4890
82520911|NCT00440531|164736903|SUPERIORITY_OR_OTHER||single-group percentage|75.7||||||95.0|68.0|82.2||||||No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month post vaccination 3, among subjects who were seronegative at baseline.||82.20|68|
82638256|NCT04516291|164991245|OTHER||LS Mean difference|-11.4|STANDARD_ERROR_OF_MEAN|6.73||0.09|TWO_SIDED|95.0|-24.7|1.8|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||1.8|-24.7|0.090
82385266|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.7689||||0.3719|TWO_SIDED|95.0|-2.4607|0.9229|||linear mixed model for repeated measures|||Description of pain: Week 8||0.9229|-2.4607|0.3719
82385267|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.1422||||0.869|TWO_SIDED|95.0|-1.5521|1.8364|||linear mixed model for repeated measures|||Description of pain: Week 12||1.8364|-1.5521|0.8690
82385268|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.6544||||0.8328|TWO_SIDED|95.0|-5.4393|6.7482|||linear mixed model for repeated measures|||VAS: Week 4||6.7482|-5.4393|0.8328
82385269|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-2.2294||||0.4764|TWO_SIDED|95.0|-8.38|3.9212|||linear mixed model for repeated measures|||VAS: Week 8||3.9212|-8.3800|0.4764
82385270|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-5.4196||||0.0852|TWO_SIDED|95.0|-11.5939|0.7547|||linear mixed model for repeated measures|||VAS: Week 12||0.7547|-11.5939|0.0852
82442804|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0391||95.0||||p-value is for mandible, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 3 months.||||0.0391
82638257|NCT04516291|164991245|OTHER||LS Mean difference|-16.0|STANDARD_ERROR_OF_MEAN|5.44||0.004|TWO_SIDED|95.0|-26.7|-5.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||-5.3|-26.7|0.004
82385271|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|0.006873||||0.9639|TWO_SIDED|95.0|-0.2918|0.3055|||linear mixed model for repeated measures|||Rating of pain: Week 4||0.3055|-0.2918|0.9639
82385272|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.08689||||0.5715|TWO_SIDED|95.0|-0.3886|0.2148|||linear mixed model for repeated measures|||Rating of pain: Week 8||0.2148|-0.3886|0.5715
82385273|NCT02064816|164481995|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2224||||0.1502|TWO_SIDED|95.0|-0.5256|0.0809|||linear mixed model for repeated measures|||Rating of pain: Week 12||0.08090|-0.5256|0.1502
82385274|NCT01732458|164482049|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-16.5|||||TWO_SIDED|95.0|-34.0|2.0||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||2.0|-34.0|
82385275|NCT01732458|164482049|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-4.4|||||TWO_SIDED|95.0|-22.9|14.3||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||14.3|-22.9|
82520912|NCT00440531|164736903|SUPERIORITY_OR_OTHER||single-group percentage|68.0||||||95.0|59.8|75.5||||||No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month post vaccination 3, among subjects who were seronegative at baseline.||75.50|59.80|
82638258|NCT04516291|164991245|OTHER||LS Mean difference|-14.5|STANDARD_ERROR_OF_MEAN|5.38||0.008|TWO_SIDED|95.0|-25.1|-3.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||-3.9|-25.1|0.008
82385276|NCT01732458|164482049|SUPERIORITY_OR_OTHER||Difference in Percentage vs. Ondansetron|-12.4|||||TWO_SIDED|95.0|-30.3|6.3||||||The Miettinen and Nurminen method was used to provide 95% confidence intervals (CIs) for between-treatment differences in the percentage of participants with events.||6.3|-30.3|
82385277|NCT01197534|164482051|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22||Week 24|Mantel Haenszel|Treatment difference in proportion of responders using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.08|<0.001
82442805|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0313||95.0||||p-value is for mandible, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 18 months.||||0.0313
82520913|NCT00440531|164736904|SUPERIORITY_OR_OTHER||Single-Group Percentage|84.0||||||95.0|77.0|89.6||||||No hypothesis is being tested. The purpose of the secondary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) for ENGERIX-B™ at 1 month post vaccination 3, among subjects who were seronegative at baseline.||89.60|77|
82520914|NCT00677833|164736948|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95 percent (%) confidence interval (CI) for the difference in ACPR (PCR corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR (PCR-corrected) proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. The drug (AZ-CQ) was considered non-inferior with respect to this primary endpoint if the lower bound of this 95% CI was \>= -10% points.|ACPR percent difference|-9.1|||||TWO_SIDED|95.0|-16.02|-2.18|||Kaplan-Meier curves|||Null hypothesis: proportion of participants with ACPR (PCR-corrected) of Azithromycin/Chloroquine (AZ-CQ) at Day 28 is less than that of Artemether/Lumefantrine (AL); Alternative hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is greater than or equal (non-inferior) to that of AL by a non-inferiority margin of -0.1.||-2.18|-16.02|
82385278|NCT01197534|164482052|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.08|||<|0.001|TWO_SIDED|95.0|0.04|0.12|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|0.04|<0.001
82385279|NCT01197534|164482053|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.13|||<|0.001|TWO_SIDED|95.0|0.07|0.18|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.07|<0.001
82385280|NCT01197534|164482053|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.1|||<|0.001|TWO_SIDED|95.0|0.05|0.15|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.15|0.05|<0.001
82385281|NCT01197534|164482054|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.07|||<|0.001|TWO_SIDED|95.0|0.03|0.1|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.10|0.03|<0.001
82385282|NCT01197534|164482054|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.03||||0.033|TWO_SIDED|95.0|0.0|0.07|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|0.00|0.033
82385283|NCT01197534|164482055|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
82442806|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.2969||95.0||||p-value is for mandible, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from baseline to 24 months.||||0.2969
82385284|NCT01197534|164482055|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by background use of DMARD and pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
82442807|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.5625||95.0||||p-value is for mandible, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the mandible from 3 months to 18 months.||||0.5625
82442808|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0469||95.0||||p-value is for mandible, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the mandible from 18 months to 24 months.||||0.0469
82442809|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for spine, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from 3 months to 18 months.||||0.1934
82385285|NCT01197534|164482056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|3.42|14.8|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.80|3.42|<0.001
82442810|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.2324||95.0||||p-value is for spine, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from baseline to 3 months.||||0.2324
82442811|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0645||95.0||||p-value is for spine, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the spine from baseline to 18 months.||||0.0645
82572353|NCT02330276|164854218|OTHER|one way ANOVA between groups|Mean Difference (Final Values)|77.9|STANDARD_DEVIATION|11.9|<|0.05|TWO_SIDED|95.0|70.3|85.5||for change in heart rate at 24 hr post-dosing from baseline between the 3 doses|ANOVA|||Primary hypothesis: None of the doses of (+)-epicatechin will differ with regard to change from baseline in any of the major safety endpoints; heart rate, systolic and diastolic blood pressure.||85.5|70.3|<0.05
82442812|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for spine, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no change in skeletal uptake of 99m Tc-MDP in the spine from baseline to 24 months.||||0.0273
82572354|NCT02330276|164854219|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
82572355|NCT02330276|164854220|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
82520915|NCT00677833|164736949|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR (PCR-corrected) proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. The drug (AZ-CQ) was considered non-inferior with respect to this primary endpoint if the lower bound of this 95% CI was \>= -10% points.|ACPR percent difference|-6.08|||||TWO_SIDED|95.0|-12.1|-0.05|||Kaplan-Meier curves|||Null hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is less than that of AL; Alternative hypothesis: proportion of participants with ACPR (PCR-corrected) of AZ-CQ at Day 28 is greater than or equal (non-inferior) to that of AL by a non-inferiority margin of -0.1.||-0.05|-12.10|
82572356|NCT02330276|164854221|SUPERIORITY_OR_OTHER|||||||0.05||||||The reported P-Value was calculated|General linear mixed-effects models|||||||0.05
82572357|NCT02053610|164854243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.41|0.58|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.58|0.41|<0.0001
82385286|NCT01197534|164482056|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|1.88|8.65|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.65|1.88|<0.001
82442813|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.7344||95.0||||p-value is for spine, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the spine from 18 months to 24 months.||||0.7344
82520916|NCT00677833|164736950|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.04|||||TWO_SIDED|95.0|-9.93|-0.15|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 7.||-0.15|-9.93|
82520917|NCT00677833|164736950|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.74|||||TWO_SIDED|95.0|-12.15|-1.32|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||-1.32|-12.15|
82572358|NCT02053610|164854245|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.33|0.54|||Log Rank, Stratified|Stratified by Binet stage at Baseline.|Stratified by Binet stage at Baseline.|||0.54|0.33|<0.0001
82572359|NCT02053610|164854247|SUPERIORITY_OR_OTHER||Difference in Response Rates|13.22||||0.0001|TWO_SIDED|95.0|6.3|20.1|||Chi-squared|||Includes participants with EOTR: CR, CRi, PR or nPR.||20.1|6.3|0.0001
82572360|NCT02053610|164854248|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.92||||0.0002|TWO_SIDED|95.0|6.1|19.8|||Chi-squared|||Includes participants with best overall response: CR, CRi, PR or nPR.||19.8|6.1|0.0002
82520918|NCT00677833|164736950|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.78|||||TWO_SIDED|95.0|-12.82|-0.75|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-0.75|-12.82|
82520919|NCT00677833|164736950|SUPERIORITY_OR_OTHER||ACPR percent difference|-6.92|||||TWO_SIDED|95.0|-14.59|0.76|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||0.76|-14.59|
82638259|NCT04516291|164991245|OTHER||LS Mean difference|-7.9|STANDARD_ERROR_OF_MEAN|5.28||0.136|TWO_SIDED|95.0|-18.3|2.5|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.5|-18.3|0.136
82638260|NCT04516291|164991245|OTHER||LS Mean difference|-9.0|STANDARD_ERROR_OF_MEAN|6.01||0.138|TWO_SIDED|95.0|-20.8|2.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||LDL-C||2.9|-20.8|0.138
82638261|NCT04516291|164991247|OTHER||LS Mean difference|-69.9|STANDARD_ERROR_OF_MEAN|5.97|<|0.001|TWO_SIDED|95.0|-81.6|-58.1|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-58.1|-81.6|<0.001
82520920|NCT00677833|164736950|SUPERIORITY_OR_OTHER||ACPR percent difference|-8.63|||||TWO_SIDED|95.0|-17.08|-0.18|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||-0.18|-17.08|
82520921|NCT00677833|164736951|SUPERIORITY_OR_OTHER||ACPR percent difference|-3.63|||||TWO_SIDED|95.0|-8.4|1.14|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||1.14|-8.40|
82572361|NCT02053610|164854249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.43|0.61|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.61|0.43|<0.0001
82572362|NCT02053610|164854250|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.76||||0.0245|TWO_SIDED|95.0|0.6|0.97|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.97|0.60|0.0245
82572363|NCT02053610|164854251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.41|0.61|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.61|0.41|<0.0001
82572364|NCT02053610|164854253|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.73|0.46|<0.0001
82572365|NCT02641587|164854256|OTHER|"The analysis will test if the geometric LS mean level of MHBMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|85.01|||<|0.001|TWO_SIDED|95.0|82.06|87.47||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of MHBMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of MHBMA.||87.47|82.06|<0.001
82572366|NCT02641587|164854257|OTHER|"The analysis will test if the geometric LS mean level of 3-HPMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|40.2|||<|0.001|TWO_SIDED|95.0|30.25|48.73||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of 3-HPMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of 3-HPMA.||48.73|30.25|<0.001
82572367|NCT02641587|164854258|OTHER|"The analysis will test if the geometric LS mean level of S-PMA for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|83.9|||<|0.001|TWO_SIDED|95.0|81.61|85.9||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of S-PMA will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of S-PMA.||85.90|81.61|<0.001
82572368|NCT02641587|164854259|OTHER|"The analysis will test if the geometric LS mean level of COHb for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|55.74|||<|0.001|TWO_SIDED|95.0|49.03|61.56||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of COHb will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of COHb.||61.56|49.03|<0.001
82638262|NCT04516291|164991247|OTHER||LS Mean difference|-79.6|STANDARD_ERROR_OF_MEAN|6.03|<|0.001|TWO_SIDED|95.0|-91.5|-67.7|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-67.7|-91.5|<0.001
82638263|NCT04516291|164991247|OTHER||LS Mean difference|-77.1|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-89.4|-64.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-64.9|-89.4|<0.001
82638264|NCT04516291|164991247|OTHER||LS Mean difference|-86.3|STANDARD_ERROR_OF_MEAN|5.04|<|0.001|TWO_SIDED|95.0|-96.2|-76.3|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-76.3|-96.2|<0.001
82638265|NCT04516291|164991247|OTHER||LS Mean difference|-80.4|STANDARD_ERROR_OF_MEAN|4.82|<|0.001|TWO_SIDED|95.0|-89.9|-70.9|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-70.9|-89.9|<0.001
82638266|NCT04516291|164991247|OTHER||LS Mean difference|-92.2|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|TWO_SIDED|95.0|-101.9|-82.6|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-82.6|-101.9|<0.001
82638267|NCT04516291|164991247|OTHER||LS Mean difference|-95.2|STANDARD_ERROR_OF_MEAN|5.59|<|0.001|TWO_SIDED|95.0|-106.2|-84.2|||Mixed Models Analysis|MMRM with baseline value, treatment, visit, interaction term of treatment by visit as fixed effects and unstructured covariance structure was used.||||-84.2|-106.2|<0.001
82638268|NCT02145949|164991253|OTHER|||||||0.03|||||||ANCOVA|||||||.03
82638269|NCT02145949|164991254|OTHER|||||||0.01|||||||ANCOVA|||||||.01
82638270|NCT02145949|164991255|OTHER|||||||0.04|||||||ANCOVA|||||||.04
82638271|NCT02145949|164991256|OTHER|||||||0.01|||||||ANCOVA|||||||.01
82638272|NCT02145949|164991257|OTHER|||||||0.12|||||||ANCOVA|||||||.12
82638273|NCT02145949|164991258|OTHER|||||||0.03|||||||ANCOVA|||||||.03
82638274|NCT02145949|164991259|OTHER|||||||0.71|||||||ANCOVA|||||||.71
82638275|NCT02145949|164991260|OTHER|||||||0.76|||||||ANCOVA|||||||.76
82638276|NCT02145949|164991261|OTHER|||||||0.4|||||||ANCOVA|||||||.40
82638277|NCT02145949|164991262|OTHER|||||||0.97|||||||ANCOVA|||||||.97
82638278|NCT02145949|164991263|OTHER|||||||0.89|||||||ANCOVA|||||||.89
82638279|NCT02145949|164991264|OTHER|||||||0.48|||||||ANCOVA|||||||.48
82638280|NCT02145949|164991265|OTHER|||||||0.02|||||||ANCOVA|||||||.02
82638281|NCT02145949|164991266|OTHER|||||||0.29|||||||ANCOVA|||||||.29
82638282|NCT02145949|164991267|OTHER|||||||0.33|||||||ANCOVA|||||||.33
82385287|NCT01197534|164482057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.3|||<|0.001|TWO_SIDED|95.0|3.23|16.65|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||16.65|3.23|<0.001
82442814|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for pelvis, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 3 months.||||0.1934
82638283|NCT02145949|164991268|OTHER|||||||0.3|||||||ANCOVA|||||||.30
82638284|NCT02145949|164991269|OTHER|||||||0.98|||||||ANCOVA|||||||.98
82638285|NCT02145949|164991270|OTHER|||||||0.18|||||||ANCOVA|||||||.18
82638286|NCT02145949|164991271|OTHER|||||||0.52|||||||ANCOVA|||||||.52
82638287|NCT02145949|164991272|OTHER|||||||0.81|||||||ANCOVA|||||||.81
82638288|NCT04250558|164991274|OTHER|||||||0.05|||||||Regression, Logistic|||Kinetic parameters were assessed by Mann-Whitney U test in MATLAB Statistics and Machine Learning Toolbox. Receiver operating characteristic (ROC) analysis based on logistic regression was utilized, with one surgical condition versus the other two states as the binary dependent variable, and each perfusion-related kinetic parameter of Imax, IS and BF as the independent variable. Power analysis was performed to evaluate the statistical validity, using G\*Power software||||0.05
82638289|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638290|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638291|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638292|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638293|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638294|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638295|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638296|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638297|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638298|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638299|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638300|NCT03781167|164991398|SUPERIORITY|Week 26 vs Baseline|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638301|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638302|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638303|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638304|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638305|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638306|NCT03781167|164991398|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638307|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||>|0.999|||||||paired-sample t-test|||Week 1 vs Baseline||||>0.999
82638308|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.5095|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.5095
82638309|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.6962|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.6962
82638310|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0035|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0035
82385288|NCT01197534|164482057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.81|14.71|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.71|2.81|<0.001
82385289|NCT01197534|164482058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84|||<|0.001|TWO_SIDED|95.0|2.06|3.91||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No Response, moderate response and good response are included in the model, with treatment, background use of DMARD and pooled country as factors.|An odds ratio \> 1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.91|2.06|<0.001
82385290|NCT01197534|164482058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.77|3.37||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No Response, moderate response and good response are included in the model, with treatment, background use of DMARD and pooled country as factors.|An odds ratio \> 1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.37|1.77|<0.001
82442815|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.7695||95.0||||p-value is for pelvis, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 18 months.||||0.7695
82442816|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for pelvis, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from baseline to 24 months.||||0.6523
82442817|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.2324||95.0||||p-value is for pelvis, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the pelvis from 3 months to 18 months.||||0.2324
82442818|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.6523||95.0||||p-value is for pelvis, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the pelvis from 18 months to 24 months.||||0.6523
82638311|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0324|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0324
82638312|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638313|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0072|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0072
82385291|NCT01197534|164482059|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.73|3.46|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.46|1.73|<0.001
82442819|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for upper extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 3 months.||||0.0098
82442820|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for upper extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 18 months.||||0.0020
82442821|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0039||95.0||||p-value is for upper extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from baseline to 24 months.||||0.0039
82442822|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for upper extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the upper extremities from 3 months to 18 months.||||0.0273
82442823|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.3594||95.0||||p-value is for upper extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the upper extremities from 18 months to 24 months.||||0.3594
82442824|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0371||95.0||||p-value is for lower extremities, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 3 months.||||0.0371
82442825|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0098||95.0||||p-value is for lower extremities, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 18 months.||||0.0098
82442826|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.4609||95.0||||p-value is for lower extremities, baseline to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from baseline to 24 months.||||0.4609
82442827|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.1934||95.0||||p-value is for lower extremities, 3 months to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in skeletal uptake of 99m Tc-MDP in the lower extremities from 3 months to 18 months.||||0.1934
82442828|NCT00259298|164594141|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||p-value is for lower extremities, 18 months to 24 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no decrease in skeletal uptake of 99m Tc-MDP in the lower extremities from 18 months to 24 months.||||0.0273
82442829|NCT00259298|164594142|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for focal change, baseline to 3 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in focal skeletal uptake of 99m Tc-MDP from baseline to 3 months.||||1.0
82442830|NCT00259298|164594142|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for focal change, baseline to 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in focal skeletal uptake of 99m Tc-MDP from baseline to 18 months.||||1.0
82442831|NCT00259298|164594144|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for change at 18 months|Wilcoxon signed rank test|||Tested was the hypothesis that there would be no increase in whole skeletal plasma clearance of 99m Tc-MDP from baseline to 18 months.||||0.0020
82385292|NCT01197534|164482059|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.46|2.94|||Regression, Logistic|Odds ratio and 95% confidence intervals calculated using Logistic Regression with treatment, background use of DMARD and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.94|1.46|<0.001
82442832|NCT01969500|164594159|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|3.81||0.85|TWO_SIDED|95.0|-8.37|6.96|||Linear mixed effects model||Mean difference (Intervention Arm - TAU) in change from baseline to 12 weeks|||6.96|-8.37|.85
82638314|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0129|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0129
82638315|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82520922|NCT00677833|164736951|SUPERIORITY_OR_OTHER||ACPR percent difference|-3.87|||||TWO_SIDED|95.0|-10.79|3.04|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||3.04|-10.79|
82520923|NCT00677833|164736951|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.66|||||TWO_SIDED|95.0|-13.55|2.22|||Kaplan-Meier, curves|||A two-sided 95% CI for the difference in ACPR (PCR-corrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||2.22|-13.55|
82638316|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0119|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0119
82638317|NCT03781167|164991399|SUPERIORITY||||||=|0.22||||||A paired-sample t-test was performed to test the change from Baseline.|paired-sample t-test|||Week 26 vs Baseline||||=0.2200
82638318|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0063|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0063
82638319|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82442833|NCT01969500|164594160|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.67||0.44|TWO_SIDED|95.0|-4.66|2.06|||Linear mixed effects model||Mean difference (Intervention Arm - TAU) in change from baseline to 12 weeks|||2.06|-4.66|.44
82638320|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4331|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.4331
82442834|NCT01741532|164594163|SUPERIORITY|||||||0.0761|||||||Mixed Models Analysis|||||||0.0761
82638321|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0045|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.0045
82520924|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR percent difference|-5.04|||||TWO_SIDED|95.0|-9.93|-0.15|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 7.||-0.15|-9.93|
82520925|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR percent difference|-7.71|||||TWO_SIDED|95.0|-14.54|-0.88|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||-0.88|-14.54|
82638322|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0049|||||||Wilcoxon (Mann-Whitney)|||Week 52 vs Baseline||||=0.0049
82638323|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.6312|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.6312
82638324|NCT03781167|164991399|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1892|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.1892
82638325|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638326|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638327|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638328|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638329|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638330|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638331|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638332|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82520926|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR percent difference|-15.09|||||TWO_SIDED|95.0|-26.24|-3.94|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-3.94|-26.24|
82638333|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638334|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638335|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638336|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638337|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638338|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638339|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638340|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638341|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638342|NCT03781167|164991400|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638343|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638344|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638345|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638346|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638347|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638348|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638349|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638350|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638351|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82385293|NCT01197534|164482060|SUPERIORITY_OR_OTHER|||||||0.904||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Cochran-Mantel-Haenszel|Residuals from ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country and background use of DMARD.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country and background use of DMARD, including a term for the ranks of the baseline score as a covariate.||||0.904
82385294|NCT01197534|164482060|SUPERIORITY_OR_OTHER|||||||0.342||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Cochran-Mantel-Haenszel|Residuals from ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country and background use of DMARD.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country and background use of DMARD, including a term for the ranks of the baseline score as a covariate.||||0.342
82385295|NCT01197534|164482061|SUPERIORITY_OR_OTHER||Treatment difference|2.47|||<|0.001|TWO_SIDED|95.0|1.47|3.48||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.48|1.47|<0.001
82385296|NCT01197534|164482061|SUPERIORITY_OR_OTHER||Treatment difference|1.64||||0.001|TWO_SIDED|95.0|0.63|2.65||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.65|0.63|0.001
82442835|NCT01741532|164594164|SUPERIORITY|||||||0.7279|||||||Mixed Models Analysis|||||||0.7279
82385297|NCT01197534|164482062|SUPERIORITY_OR_OTHER||Treatment difference|2.09|||<|0.001|TWO_SIDED|95.0|0.97|3.2||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.20|0.97|<0.001
82385298|NCT01197534|164482062|SUPERIORITY_OR_OTHER||Treatment difference|1.96|||<|0.001|TWO_SIDED|95.0|0.83|3.08||Nominal p-value presented for treatment comparison. Outcome was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as continuous covariate and treatment, background use of DMARD and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of DMARD or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.08|0.83|<0.001
82385299|NCT02915705|164482104|SUPERIORITY||LS Mean Difference|1.14|||<|0.0001|TWO_SIDED|95.0|0.83|1.45|||ANCOVA|||Least squares (LS) mean, standard error (SE), confidence interval (CI), and 2-sided p value per ANCOVA model, which included RGI-C as the dependent variable, treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.||1.45|0.83|< 0.0001
82385300|NCT02915705|164482105|SUPERIORITY||Odds Ratio (OR)|39.1|||<|0.0001|TWO_SIDED|95.0|7.2|211.7||Odds ratio, CI, and 2-sided p-value were per logistic regression model, which included treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.|Regression, Logistic|||||211.7|7.2|< 0.0001
82385301|NCT02915705|164482106|SUPERIORITY||Odds Ratio (OR)|34.1||||0.0002|TWO_SIDED|95.0|5.6|206.3||Odds ratio, CI, and 2-sided p-value were per generalized linear mixed model, which includes treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS total score as a continuous covariate.|generalized linear mixed model|||||206.3|5.6|0.0002
82442836|NCT01741532|164594165|SUPERIORITY|||||||0.7228|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part I||||0.7228
82442837|NCT01741532|164594165|SUPERIORITY|||||||0.3677|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part II||||0.3677
82442838|NCT01741532|164594165|SUPERIORITY|||||||0.2182|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part III||||0.2182
82442839|NCT01741532|164594165|SUPERIORITY|||||||0.1749|||||||Mixed Models Analysis|||Comparison of treatment groups on change in score on UPDRS Part VI||||0.1749
82442840|NCT01741532|164594166|SUPERIORITY|||||||0.1524|||||||Mixed Models Analysis|||||||0.1524
82442841|NCT01741532|164594167|SUPERIORITY|||||||0.2026|||||||Mixed Models Analysis|||||||0.2026
82442842|NCT01741532|164594168|SUPERIORITY|||||||0.9759|||||||Mixed Models Analysis|||Patient self-report, total score||||0.9759
82442843|NCT01741532|164594168|SUPERIORITY|||||||0.5781|||||||Mixed Models Analysis|||Parent proxy-report, total score||||0.5781
82442844|NCT01741532|164594169|SUPERIORITY|||||||0.6323|||||||Mixed Models Analysis|||||||0.6323
82442845|NCT01741532|164594170|SUPERIORITY|||||||0|||||||Mixed Models Analysis|||||||0.0000
82442846|NCT00613080|164594178|SUPERIORITY_OR_OTHER||Proportion (reported as percentage)|51.0||||0.93|TWO_SIDED||||||Chi-squared|||This study was designed for a one-sided chi-square test to detect at least 12% reduction in the 40% rate of ≥ grade 2 treatment-related preoperative GI AEs from the conventional radiotherapy / capecitabine /oxaliplatin arm of study RTOG-0247 (NCT00081289) with 80% power and a one-sided type I error rate of 0.10.||||0.93
82442847|NCT02008357|164594189|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.26|TWO_SIDED|95.0|-0.816|0.22|||Natural Cubic Spline (NCS) method|||||0.220|-0.816|0.260
82638352|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82638353|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82520927|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR percent difference|-21.76|||||TWO_SIDED|95.0|-34.14|-9.39|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 28.||-9.39|-34.14|
82520928|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR percent difference|-18.24|||||TWO_SIDED|95.0|-31.05|-5.43|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||-5.43|-31.05|
82520929|NCT00677833|164736952|SUPERIORITY_OR_OTHER||ACPR Percent difference|-18.49|||||TWO_SIDED|95.0|-31.33|-5.65|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 42.||-5.65|-31.33|
82520930|NCT00677833|164736953|SUPERIORITY_OR_OTHER||ACPR percent difference|-4.67|||||TWO_SIDED|95.0|-10.6|1.25|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 14.||1.25|-10.60|
82520931|NCT00677833|164736953|SUPERIORITY_OR_OTHER||ACPR percent difference|-13.07|||||TWO_SIDED|95.0|-24.21|-1.92|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 21.||-1.92|-24.21|
82442848|NCT02008357|164594191|SUPERIORITY||LS Mean difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.28||0.1|TWO_SIDED|95.0|-0.089|1.02|||Natural Cubic Spline (NCS) method|||||1.020|-0.089|0.100
82520932|NCT00677833|164736953|SUPERIORITY_OR_OTHER||ACPR percent difference|-19.62|||||TWO_SIDED|95.0|-32.16|-7.08|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 28.||-7.08|-32.16|
82520933|NCT00677833|164736953|SUPERIORITY_OR_OTHER||ACPR percent difference|-16.38|||||TWO_SIDED|95.0|-29.42|-3.33|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)-(AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the greenwood formula. Estimates for Day 35.||-3.33|-29.42|
82520934|NCT00677833|164736953|SUPERIORITY_OR_OTHER||ACPR Percent difference|-16.94|||||TWO_SIDED|95.0|-30.04|-3.83|||Kaplan-Meier curves|||A two-sided 95% CI for the difference in ACPR (PCR-uncorrected) proportions \[(AZ-CQ)- (AL)\] using the normal approximation to the binomial with continuity correction was constructed based on the estimated ACPR proportions from the Kaplan-Meier curves and their standard errors estimated by the Greenwood formula. Estimates for Day 42.||-3.83|-30.04|
82638354|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82385302|NCT02915705|164482107|SUPERIORITY||difference in LS means|1.02|||<|0.0001|TWO_SIDED|95.0|0.72|1.33|||GEE model|||Per generalized estimating equation (GEE) model, which included RGI-C as the dependent variable, treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS score as a continuous covariate, with exchangeable covariate structure.||1.33|0.72|< 0.0001
82385303|NCT02915705|164482108|SUPERIORITY||LS Mean Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.74|-0.94||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included treatment group and baseline age stratification factor as independent variables and baseline RSS score as a continuous covariate.|ANCOVA|||||-0.94|-1.74|< 0.0001
82520935|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-5.89|||||TWO_SIDED|95.0|-11.02|-0.75|||large sample approximation to binomial|||Day 7||-0.75|-11.02|
82520936|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-7.55|||||TWO_SIDED|95.0|-13.14|-1.95|||large sample approximation to binomial|||Day 14||-1.95|-13.14|
82520937|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-7.6|||||TWO_SIDED|95.0|-13.61|-1.6|||large sample approximation to binomial|||Day 21||-1.60|-13.61|
82520938|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-9.26|||||TWO_SIDED|95.0|-15.64|-2.87|||Large sample approximation to binomial|||Day 28||-2.87|-15.64|
82520939|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-7.71|||||TWO_SIDED|95.0|-14.45|-0.97|||Large sample approximation to binomial|||Day 35||-0.97|-14.45|
82520940|NCT00677833|164736960|SUPERIORITY_OR_OTHER||percent difference|-8.52|||||TWO_SIDED|95.0|-15.43|-1.6|||Large sample approximation to binomial|||Day 42||-1.60|-15.43|
82520941|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-9.51|||||TWO_SIDED|95.0|-18.27|-0.74|||Large sample approximation to binomial|||Day 7||-0.74|-18.27|
82520942|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-10.39|||||TWO_SIDED|95.0|-19.23|-1.55|||Large sample approximation to binomial|||Day 14||-1.55|-19.23|
82520943|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-12.75|||||TWO_SIDED|95.0|-21.45|-4.04|||Large sample approximation to binomial|||Day 21||-4.04|-21.45|
82520944|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-11.11|||||TWO_SIDED|95.0|-19.62|-2.6|||Large sample approximation to binomial|||Day 28||-2.60|-19.62|
82520945|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-10.34|||||TWO_SIDED|95.0|-18.97|-1.71|||Large sample approximation to binomial|||Day 35||-1.71|-18.97|
82520946|NCT00677833|164736961|SUPERIORITY_OR_OTHER||percent difference|-11.21|||||TWO_SIDED|95.0|-20.14|-2.28|||Large sample approximation to binomial|||Day 42||-2.28|-20.14|
82520947|NCT00677833|164736962|SUPERIORITY_OR_OTHER|||||||0.2564|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||0.2564
82520948|NCT00677833|164736963|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||<0.0001
82520949|NCT00677833|164736966|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kaplan-Meier, log rank|||Time to event data was analyzed using the Kaplan-Meier curve.||||0.0006
82520950|NCT02184611|164736973|OTHER||Least square mean difference|0.154|||<|0.001|TWO_SIDED|95.0|0.113|0.194||Analysis was performed using a MMRM model with covariates of treatment, Baseline, smoking status, country, Day, Day by Baseline and Day by treatment interactions.|Mixed Models Repeated Measures (MMRM)|||UMEC versus Placebo.||0.194|0.113|<0.001
82520951|NCT02184611|164736974|OTHER||Least square Mean difference|0.9||||0.004|TWO_SIDED|95.0|0.3|1.5||Analysis performed using a MMRM model with covariates of treatment, BDI focal score, smoking status, country, Day, Day by BDI focal score and Day by treatment interactions.|MMRM|||UMEC versus Placebo.||1.5|0.3|0.004
82520952|NCT02184611|164736975|OTHER||Least square Mean difference|0.125|||<|0.001|TWO_SIDED|95.0|0.103|0.147||Analysis performed using an analysis of covariance (ANCOVA) model with covariates of treatment, baseline (mean of the two assessments made 30 min and 5 min pre-dose on Day 1), smoking status and country.|ANCOVA|||UMEC versus Placebo.||0.147|0.103|<0.001
82520953|NCT02184611|164736984|OTHER||Least sqaure mean difference|-4.39||||0.002|TWO_SIDED|95.0|-7.21|-1.58||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 28, UMEC Vs Placebo.||-1.58|-7.21|0.002
82520954|NCT02184611|164736984|OTHER||Least square mean difference|-4.59||||0.003|TWO_SIDED|95.0|-7.61|-1.57||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 84, UMEC Vs Placebo.||-1.57|-7.61|0.003
82638355|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0042|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0042
82638356|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638357|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82385304|NCT02915705|164482109|SUPERIORITY||difference in LS means|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.83||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction and baseline age stratification factor as factors, baseline RSS score as a continuous covariate.|GEE model|||||-0.83|-1.59|< 0.0001
82385305|NCT02915705|164482110|SUPERIORITY||LS Mean Difference|0.4||||0.0162|TWO_SIDED|95.0|0.07|0.72||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction, and baseline age stratification factor as factors; and baseline RSS score as a continuous covariate.|GEE model|||||0.72|0.07|0.0162
82442849|NCT02008357|164594193|SUPERIORITY||LS Mean difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.34||0.082|TWO_SIDED|95.0|-1.265|0.076|||Natural Cubic Spline (NCS) method|||||0.076|-1.265|0.082
82442850|NCT02008357|164594195|SUPERIORITY||LS Mean difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.0073|<|0.001|TWO_SIDED|95.0|-0.057|-0.028|||ANCOVA|||||-0.028|-0.057|<0.001
82442851|NCT02008357|164594196|SUPERIORITY||LS Mean difference (Final Values)|3.239|STANDARD_ERROR_OF_MEAN|32.8719||0.922|TWO_SIDED|95.0|-62.02|68.498|||ANCOVA|||Cerebrospinal fluid Tau Protein Immunoassay||68.498|-62.020|0.922
82385306|NCT02915705|164482111|SUPERIORITY||difference in LS means|0.97|||<|0.0001|TWO_SIDED|95.0|0.57|1.37||LS mean, SE, CI, and 2-sided p value per GEE model, which included treatment, visit, treatment by visit interaction, and baseline age stratification factor as factors; and baseline RSS score as a continuous covariate.|GEE model|||||1.37|0.57|< 0.0001
82442852|NCT02008357|164594196|SUPERIORITY||LS Mean difference (Final Values)|-0.965|STANDARD_ERROR_OF_MEAN|2.6535||0.717|TWO_SIDED|95.0|-6.241|4.311|||ANCOVA|||Cerebrospinal Fluid Phosphorylated Tau Protein Immunoassay||4.311|-6.241|0.717
82442853|NCT02008357|164594197|SUPERIORITY||LS Mean difference (Final Values)|12738.449|STANDARD_ERROR_OF_MEAN|998.7048|<|0.001|TWO_SIDED|95.0|10757.047|14719.851|||ANCOVA|||Cerebrospinal Fluid Amyloid Beta 1-40 Modified ELISA - INNOTEST||14719.851|10757.047|<0.001
82442854|NCT02008357|164594197|SUPERIORITY||LS Mean difference (Final Values)|996.411|STANDARD_ERROR_OF_MEAN|60.7404|<|0.001|TWO_SIDED|95.0|875.873|1116.948||p-value using ANCOVA model for endpoint measures: CHG = Baseline + APOE4 + AGE + Treatment.|ANCOVA|||Cerebrospinal Fluid Amyloid Beta 1-42 Mod Modified ELISA - INNOTEST||1116.948|875.873|<0.001
82442855|NCT02008357|164594198|SUPERIORITY||LS Mean difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.0388||0.161|TWO_SIDED|95.0|-0.131|0.022|||ANCOVA|||Total hippocampal volume||0.022|-0.131|0.161
82442856|NCT02008357|164594198|SUPERIORITY||LS Mean difference (Final Values)|0.351|STANDARD_ERROR_OF_MEAN|0.4513||0.437|TWO_SIDED|95.0|-0.535|1.236|||ANCOVA|||Total Lateral Ventricular Volume||1.236|-0.535|0.437
82442857|NCT00260065|164594237|SUPERIORITY_OR_OTHER||Percentage of Participants|33.0||||||95.0|24.2|43.5||||||||43.5|24.2|
82442858|NCT00260065|164594238|SUPERIORITY_OR_OTHER||Percentage of Participants|52.0||||||95.0|41.3|61.7||||||||61.7|41.3|
82520955|NCT02184611|164736984|OTHER||Least sqaure mean difference|-3.03||||0.058|TWO_SIDED|95.0|-6.15|0.1||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 168, UMEC Vs Placebo.||0.10|-6.15|0.058
82520956|NCT02184611|164736985|OTHER||Least sqaure mean difference|-1.49||||0.027|TWO_SIDED|95.0|-2.81|-0.17||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 28, UMEC Vs Placebo.||-0.17|-2.81|0.027
82520957|NCT02184611|164736985|OTHER||Least square mean difference|-2.1||||0.004|TWO_SIDED|95.0|-3.51|-0.68||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 84, UMEC Vs Placebo.||-0.68|-3.51|0.004
82520958|NCT02184611|164736985|OTHER||Least square mean difference|-0.68||||0.386|TWO_SIDED|95.0|-2.22|0.86||Analysis performed using a repeated measures model with covariates of treatment, Baseline (score prior to dosing on Day 1), smoking status, country, Day, Day by Baseline and Day by treatment interactions.|MMRM|||Day 128, UMEC Vs Placebo.||0.86|-2.22|0.386
82520959|NCT00160680|164736988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|||=|0.667|TWO_SIDED|95.0|-0.96|1.5|||ANCOVA|||||1.50|-0.96|=0.667
82520960|NCT04493216|164737002|OTHER||Differences in percentage of participant|-9.2|||||TWO_SIDED|95.0|-24.0|5.7|||||Differences in percentage of participant = Percentage of participant in GSK3640254 100 mg+ Placebo+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ABC/3TC or FTC/TAF|||5.7|-24.0|
82520961|NCT04493216|164737002|OTHER||Differences in percentage of participant|-1.0|||||TWO_SIDED|95.0|-13.5|11.6|||||Differences in percentage of participant = Percentage of participant in GSK3640254 150 mg+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ ABC/3TC or FTC/TAF|||11.6|-13.5|
82520962|NCT04493216|164737002|OTHER||Differences in percentage of participant|-15.5|||||TWO_SIDED|95.0|-31.2|0.3|||||Differences in percentage of participant = Percentage of participant in GSK3640254 200 mg+ Placebo+ ABC/3TC or FTC/TAF - Percentage of participant in DTG+ ABC/3TC or FTC/TAF|||0.3|-31.2|
82638358|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1135|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.1135
82638359|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0029|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0029
82520963|NCT00985725|164737024|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0||||0.0009|TWO_SIDED|95.0|-12.7|-3.3|||ANCOVA|||||-3.3|-12.7|0.0009
82520964|NCT00985725|164737025|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0465|TWO_SIDED|95.0|-3.7|0.0|||ANCOVA|||||0.0|-3.7|0.0465
82520965|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.1||||0.0181|TWO_SIDED|95.0|-9.4|-0.9|||ANCOVA|||Behavioral recognition index||-0.9|-9.4|0.0181
82520966|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2||||0.0204|TWO_SIDED|95.0|-7.7|-0.7|||ANCOVA|||Inhibit subscale||-0.7|-7.7|0.0204
82520967|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6||||0.009|TWO_SIDED|95.0|-9.8|-1.4|||ANCOVA|||Shift subscale||-1.4|-9.8|0.0090
82638360|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0026|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0026
82638361|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0034|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0034
82638362|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0103|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0103
82638363|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82385307|NCT02915705|164482112|SUPERIORITY||LS Mean Difference|0.12||||0.0408|TWO_SIDED|95.0|0.01|0.24|||GEE model|||LS mean, SE, CI, and 2-sided p value per GEE model, which included change from baseline for recumbent length/standing height Z score as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, age and baseline recumbent length/standing height Z score as continuous covariates, with exchangeable covariance structure.||0.24|0.01|0.0408
82385308|NCT02915705|164482113|SUPERIORITY||difference in LS means|0.14||||0.049|TWO_SIDED|95.0|0.0|0.29|||GEE model|||LS mean, SE, CI, and 2-sided p value per GEE model, which included change from baseline for recumbent length/standing height Z score as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, age and baseline recumbent length/standing height Z score as continuous covariates, with exchangeable covariance structure.||0.29|0.00|0.0490
82385309|NCT02915705|164482114|SUPERIORITY||difference in LS means|1.02||||0.0386|TWO_SIDED|95.0|0.06|1.99|||ANCOVA|||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included change from baseline for growth velocity Z score as the dependent variable, treatment group and baseline RSS total score stratification as factors, baseline Z score and age as continuous covariates.||1.99|0.06|0.0386
82385310|NCT02915705|164482115|SUPERIORITY||difference in LS means|1.12||||0.0047|TWO_SIDED|95.0|0.37|1.88|||ANCOVA|||LS mean, SE, CI, and 2-sided p value per ANCOVA model, which included change from baseline for growth velocity Z score as the dependent variable, treatment group and baseline RSS total score stratification as factors, baseline Z score and age as continuous covariates.||1.88|0.37|0.0047
82442859|NCT03523273|164594334|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82520968|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.0793|TWO_SIDED|95.0|-7.9|0.4|||ANCOVA|||Emotional control subscale||0.4|-7.9|0.0793
82385311|NCT02915705|164482116|SUPERIORITY||difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.81|1.27|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 1||1.27|0.81|< 0.0001
82385312|NCT02915705|164482116|SUPERIORITY||difference|1.03|||<|0.0001|TWO_SIDED|95.0|0.79|1.27|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||1.27|0.79|< 0.0001
82385313|NCT02915705|164482116|SUPERIORITY||difference|0.78|||<|0.0001|TWO_SIDED|95.0|0.58|0.97|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||0.97|0.58|< 0.0001
82385314|NCT02915705|164482116|SUPERIORITY||difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.44|0.81|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||0.81|0.44|< 0.0001
82385315|NCT02915705|164482116|SUPERIORITY||difference|0.51|||<|0.0001|TWO_SIDED|95.0|0.3|0.72|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||0.72|0.30|< 0.0001
82385316|NCT02915705|164482116|SUPERIORITY||difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.51|0.89|||GEE model|||Week 32||0.89|0.51|< 0.0001
82442860|NCT03523273|164594335|SUPERIORITY|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
82442861|NCT02590562|164594385|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||F test|||||||<0.0001
82442862|NCT02590562|164594386|SUPERIORITY_OR_OTHER|||||||0.0108|TWO_SIDED||||||F test|||||||0.0108
82442863|NCT00824005|164594392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.9||0.169|TWO_SIDED|95.0|-0.42|2.34||No adjustment for multiple comparisons|t-test, 2 sided|||Compare the change in the cell group to the change in the placebo group.||2.34|-0.42|0.169
82520969|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.1014|TWO_SIDED|95.0|-7.0|0.6|||ANCOVA|||Self-monitor subscale||0.6|-7.0|0.1014
82520970|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0||||0.0002|TWO_SIDED|95.0|-13.7|-4.3|||ANCOVA|||Metacognition index||-4.3|-13.7|0.0002
82442864|NCT00824005|164594393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|23.9||0.856|TWO_SIDED|95.0|-10.05|12.07|||t-test, 2 sided|||Change in the difference of end systolic volume over time.||12.07|-10.05|0.856
82638364|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0493|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0493
82638365|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3003|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.3003
82638366|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0354|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.0354
82638367|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2553|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.2553
82638368|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.864|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.8640
82638369|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4774|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.4774
82385317|NCT02915705|164482116|SUPERIORITY||difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.51|0.91|||GEE model||Difference (burosumab - Oral Phosphate/Active Vitamin D)|Week 40||0.91|0.51|< 0.0001
82385318|NCT02915705|164482116|SUPERIORITY||difference|0.61|||<|0.0001|TWO_SIDED|95.0|0.39|0.82|||GEE model|||Week 52||0.82|0.39|< 0.0001
82385319|NCT02915705|164482116|SUPERIORITY||difference|0.69|||<|0.0001|TWO_SIDED|95.0|0.49|0.9|||GEE model|||Week 64||0.90|0.49|< 0.0001
82442865|NCT00824005|164594394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|22.3||0.835|TWO_SIDED|95.0|-12.5|10.1||Is the change in percent reversible defect the same between the two groups|t-test, 2 sided|||Change in percent of the defect that is reversible||10.1|-12.5|0.835
82442866|NCT00824005|164594397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.471|TWO_SIDED|95.0|-0.3|0.14|||t-test, 2 sided|||Difference in the change between the two groups||0.14|-0.30|0.471
82442867|NCT00824005|164594398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25|STANDARD_DEVIATION|0.784||0.227|TWO_SIDED|95.0|-0.66|0.16|||t-test, 2 sided|||Change in average improvement in Canadian Class Score over time between the two groups.||0.16|-0.66|0.227
82442868|NCT00824005|164594399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.176|STANDARD_ERROR_OF_MEAN|0.845||0.361|TWO_SIDED|95.0|-0.56|0.21|||t-test, 2 sided|||Difference in the change in NYHA score between the two groups||0.21|-0.56|0.361
82442869|NCT00824005|164594400|SUPERIORITY_OR_OTHER||Difference in the proportion of particip|0.04|STANDARD_DEVIATION|0.045||0.28|TWO_SIDED|95.0|-0.01|0.09|||Chi-squared|||Difference in the change in anti-anginal meds across groups||0.09|-0.01|0.28
82442870|NCT00824005|164594401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|104.0|STANDARD_DEVIATION|409.0||0.302|TWO_SIDED|95.0|-95.0|303.0|||t-test, 2 sided|||Change in six minute walk distance||303|-95|0.302
82442871|NCT00824005|164594402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.7|STANDARD_DEVIATION|176.0||0.55|TWO_SIDED|95.0|-150.0|80.0|||t-test, 2 sided|||Difference in the change in BNP(reg) between cell and placebo group||80|-150|0.55
82442872|NCT00824005|164594403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.5|STANDARD_DEVIATION|31.2||0.198|TWO_SIDED|95.0|-5.03|23.93|||t-test, 2 sided|||Change in the difference of end diastolic volume between the two groups over time.||23.93|-5.03|0.198
82638370|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3865|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.3865
82638371|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.||||||0.1186|||||||paired-sample t-test|||Week 52 vs Baseline||||0.1186
82385320|NCT02915705|164482118|SUPERIORITY||difference in LS means|0.74|||<|0.0001|TWO_SIDED|95.0|0.58|0.91|||ANCOVA||Difference (KRN23 - Oral Phosphate/Active Vitamin D)|||0.91|0.58|< 0.0001
82385321|NCT02915705|164482121|SUPERIORITY||difference|48.27|||<|0.0001|TWO_SIDED|95.0|36.53|60.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 1||60.02|36.53|< 0.0001
82385322|NCT02915705|164482121|SUPERIORITY||difference|21.09|||<|0.0001|TWO_SIDED|95.0|12.01|30.16|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||30.16|12.01|< 0.0001
82385323|NCT02915705|164482121|SUPERIORITY||difference|15.75||||0.001|TWO_SIDED|95.0|6.35|25.15|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||25.15|6.35|0.0010
82385324|NCT02915705|164482121|SUPERIORITY||difference|12.97||||0.0078|TWO_SIDED|95.0|3.41|22.53|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||22.53|3.41|0.0078
82385325|NCT02915705|164482121|SUPERIORITY||difference|10.89||||0.0101|TWO_SIDED|95.0|2.59|19.19|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||19.19|2.59|0.0101
82385326|NCT02915705|164482121|SUPERIORITY||difference|6.23||||0.1165|TWO_SIDED|95.0|-1.55|14.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 32||14.02|-1.55|0.1165
82385327|NCT02915705|164482121|SUPERIORITY||difference|11.21||||0.0317|TWO_SIDED|95.0|0.98|21.44|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||21.44|0.98|0.0317
82638372|NCT03781167|164991401|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.083|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0830
82638373|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638374|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0041|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.0041
82638375|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638376|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638377|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638378|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82520971|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.6||||0.0002|TWO_SIDED|95.0|-12.9|-4.2|||ANCOVA|||Initiate subscale||-4.2|-12.9|0.0002
82520972|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.1||||0.0001|TWO_SIDED|95.0|-13.7|-4.5|||ANCOVA|||Working memory subscale||-4.5|-13.7|0.0001
82572369|NCT02641587|164854260|OTHER|"The analysis will test if the geometric LS mean level of Total NNAL for CHTP is lower than for CC. The following hypothesis will be evaluated:~H0: XCHTP - XCC ≤ 0.0~HA: XCHTP - XCC \> 0.0~where XCHTP and XCC are the geometric LS means of CHTP and CC, respectively. H0 is rejected with a type I error α = 2.5% (one-sided test)."|LS Mean Reduction|79.36|||<|0.001|TWO_SIDED|95.0|72.73|84.39||The primary endpoints will be tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|Generalized linear model||Least squares (LS) means and estimate of the difference, and 95% CI will be back-transformed for obtaining geometric LS means for each arm, the reduction (calculated as 100% - ratio of CHTP 1.2 : CC \[%\]), and their 95% CI.|Analysis will be conducted on the natural log scale. The Day 5 levels of Total NNAL will be analyzed by means of a generalized linear model using randomized arm as covariate adjusting for sex, average cigarette consumption over the previous 6 weeks prior to Admission (value at Admission for stratification), and log-transformed baseline value of Total NNAL.||84.39|72.73|<0.001
82572370|NCT01165177|164854261|OTHER|Criteria for the vaccine efficacy (VE) objective of herpes zoster subunit (HZ/su) vaccine against herpes zoster (HZ) disease, in the 50-59 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|96.6|||<|0.0001|TWO_SIDED|95.0|89.6|99.3||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A 50-59 YOA group and placebo 50-59 YOA group||99.3|89.6|<0.0001
82572371|NCT01165177|164854261|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the 60-69 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.4|||<|0.0001|TWO_SIDED|95.0|90.1|99.7||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A over 60-69 YOA group and placebo over 60-69 YOA group||99.7|90.1|<0.0001
82572372|NCT01165177|164854261|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the 70-79 YOA strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.9||||0.0001|TWO_SIDED|95.0|87.9|100.0||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A over 70 YOA group and placebo over 70 YOA group||100|87.9|0.0001
82638379|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82572373|NCT01165177|164854261|OTHER|Criteria for the VE objective of HZ/su vaccine against herpes zoster disease, in the overall age strata : The lower limit (LL) of the two-sided 95% confidence interval (CI) of VE had to be above 10%.|Vaccine efficacy|97.2|||<|0.0001|TWO_SIDED|95.0|93.7|99.0||Two sided exact P-value conditional to number of cases.|Poisson exact test|||Comparison of vaccine efficacy in prevention of HZ between GSK1437173A overall ages group and placebo overall ages group||99|93.7|<0.0001
82572374|NCT01165177|164854262|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the 50-59 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.0081|TWO_SIDED|95.0|40.9|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A 50-59 YOA group and placebo 50-59 YOA group||100|40.9|0.0081
82572375|NCT01165177|164854262|OTHER|Criteria for VE objective of HZ/su vaccine against PHN in the 60-69 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.5097|TWO_SIDED|95.0|-442.8|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A 60-69 YOA group and placebo 60-69 YOA group||100|-442.8|0.5097
82572376|NCT01165177|164854262|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the 70-79 YOA strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0||||0.0078|TWO_SIDED|95.0|41.4|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A over 70 YOA group and placebo over 70 YOA group||100|41.4|0.0078
82572377|NCT01165177|164854262|OTHER|Criteria for the VE objective of HZ/su vaccine against PHN in the overall ages strata: The lower limit of the 95% CI of VE had to be above 0%|Vaccine efficacy|100.0|||<|0.0001|TWO_SIDED|95.0|77.1|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between GSK1437173A overall ages group and placebo overall ages group||100|77.1|<0.0001
82572378|NCT01660256|164854286|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82572379|NCT01660256|164854287|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82638380|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638381|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82385328|NCT02915705|164482121|SUPERIORITY||difference|5.01||||0.3044|TWO_SIDED|95.0|-4.55|14.56|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||14.56|-4.55|0.3044
82385329|NCT02915705|164482121|SUPERIORITY||difference|8.7||||0.0145|TWO_SIDED|95.0|1.72|15.68|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D|Week 64||15.68|1.72|0.0145
82520973|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.5||||0.001|TWO_SIDED|95.0|-11.9|-3.1|||ANCOVA|||Plan/Organize subscale||-3.1|-11.9|0.0010
82520974|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0357|TWO_SIDED|95.0|-9.4|-0.3|||ANCOVA|||Task monitor subscale||-0.3|-9.4|0.0357
82520975|NCT00985725|164737026|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0||||0.0012|TWO_SIDED|95.0|-11.1|-2.8|||ANCOVA|||Organization of materials subscale||-2.8|-11.1|0.0012
82520976|NCT00985725|164737031|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.1731|TWO_SIDED|95.0|-10.9|2.0|||ANCOVA|||||2.0|-10.9|0.1731
82520977|NCT00993655|164737039|SUPERIORITY|||||||0.065|||||||Cochran-Mantel-Haenszel|adjusting for stratification factors at randomization||Assume that the 9-month PD rate in IV arm (Arm 1) will be 40% (based on experience with data from NCIC CTG OV.16 and that of NCRI UK). The target sample size of 200 will enable the detection of a 19% difference between Arms 1 and 3 in 9 month progression disease rate post randomization with 80% power at two-sided 0.05 level.||||0.065
82520978|NCT00993655|164737040|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.27|TWO_SIDED|95.0|0.85|1.75|||Log Rank|Adjusting for stratification factors at randomization||||1.75|0.85|0.27
82520979|NCT00993655|164737041|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.4|TWO_SIDED|95.0|0.74|2.13|||Log Rank|Adjusting for stratification factors at randomization||||2.13|0.74|0.40
82520980|NCT03318523|164737048|SUPERIORITY|Adjusted mean, difference with placebo, 95% confidence interval (CI), and p-value were based on a mixed model for repeated measures (MMRM) model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.3||||0.8976|TWO_SIDED|95.0|-4.888|4.287|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||4.287|-4.888|0.8976
82520981|NCT03318523|164737048|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.5||||0.796|TWO_SIDED|95.0|-3.31|4.312|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||4.312|-3.310|0.7960
82520982|NCT03318523|164737048|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.08||||0.9695|TWO_SIDED|95.0|-3.805|3.956|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 52||3.956|-3.805|0.9695
82385330|NCT02915705|164482123|SUPERIORITY||difference|1.65|||<|0.0001|TWO_SIDED|95.0|1.28|2.02|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 4||2.02|1.28|< 0.0001
82385331|NCT02915705|164482123|SUPERIORITY||difference|1.42|||<|0.0001|TWO_SIDED|95.0|1.19|1.64|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 8||1.64|1.19|< 0.0001
82385332|NCT02915705|164482123|SUPERIORITY||difference|1.16|||<|0.0001|TWO_SIDED|95.0|0.84|1.48|||GEE model|||Week 16||1.48|0.84|< 0.0001
82385333|NCT02915705|164482123|SUPERIORITY||difference|1.11|||<|0.0001|TWO_SIDED|95.0|0.8|1.41|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||1.41|0.80|< 0.0001
82385334|NCT02915705|164482123|SUPERIORITY||difference|1.24|||<|0.0001|TWO_SIDED|95.0|0.98|1.51|||GEE model|||Week 32||1.51|0.98|< 0.0001
82385335|NCT02915705|164482123|SUPERIORITY||difference|1.35|||<|0.0001|TWO_SIDED|95.0|1.1|1.6|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||1.60|1.10|< 0.0001
82385336|NCT02915705|164482123|SUPERIORITY||difference|1.26|||<|0.0001|TWO_SIDED|95.0|0.97|1.54|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||1.54|0.97|< 0.0001
82638382|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82638383|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82520983|NCT03318523|164737049|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.28||||0.9093|TWO_SIDED|95.0|-5.035|4.483|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||4.483|-5.035|0.9093
82520984|NCT03318523|164737049|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|1.55||||0.4327|TWO_SIDED|95.0|-2.336|5.44|||Mixed Model for Repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||5.440|-2.336|0.4327
82520985|NCT03318523|164737049|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.17||||0.933|TWO_SIDED|95.0|-4.051|3.719|||Mixed Model with repeated Measures|||Change From Baseline in MDS-UPDRS Total Score at Week 72||3.719|-4.051|0.9330
82520986|NCT03318523|164737051|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.41||||0.8828|TWO_SIDED|95.0|-5.013|5.825|||Mixed Model for Repeated Measures|||||5.825|-5.013|0.8828
82520987|NCT03318523|164737051|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.84||||0.7019|TWO_SIDED|95.0|-3.458|5.128|||Mixed Model for Repeated Measure|||||5.128|-3.458|0.7019
82520988|NCT03318523|164737051|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.99||||0.6519|TWO_SIDED|95.0|-3.323|5.301|||Mixed Model for Repeated Measures|||||5.301|-3.323|0.6519
82520989|NCT03318523|164737053|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.53||||0.4327|TWO_SIDED|95.0|-1.851|0.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||0.794|-1.851|0.4327
82520990|NCT03318523|164737053|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.13||||0.8155|TWO_SIDED|95.0|-0.965|1.225|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||1.225|-0.965|0.8155
82572380|NCT01646385|164854291|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.836||||0.084|TWO_SIDED|95.0|0.683|1.025|||Regression, Cox|||Cox proportional hazards model adjusted for age, baseline steroid, smoking history, previous cancer, and body mass index was used for analysis.||1.025|0.683|0.084
82572381|NCT01646385|164854292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.512||||0.035|TWO_SIDED|95.0|0.276|0.952|||Regression, Cox|||Cox proportional hazards model adjusted for age was used for analysis.||0.952|0.276|0.035
82572382|NCT01646385|164854293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.019||||0.855|TWO_SIDED|95.0|0.831|1.251|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, baseline DMARDs, methotrexate, disease activity score based on 28-joints count (DAS28), and smoking history was used for analysis.||1.251|0.831|0.855
82442873|NCT00824005|164594404|SUPERIORITY_OR_OTHER||Difference in the incidence rates|-0.047|STANDARD_ERROR_OF_MEAN|0.044||0.47|TWO_SIDED|95.0|-0.133|0.039|||t-test, 2 sided|||The difference in the incidence of major adverse cardiac events between the two groups over time. (Incidence rate)||0.039|-0.133|0.47
82572383|NCT01646385|164854294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.001|TWO_SIDED|95.0|0.564|0.87|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, methotrexate, and baseline health assessment questionnaire (HAQ) score was used for analysis.||0.870|0.564|0.001
82572384|NCT01646385|164854295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717||||0.024|TWO_SIDED|95.0|0.537|0.958|||Regression, Cox|||Cox proportional hazards model adjusted for age, gender, previous non-RA drugs, baseline steroid, methotrexate, baseline HAQ score, Charlson index, smoking history, and body mass index was used for analysis.||0.958|0.537|0.024
82638384|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82520991|NCT03318523|164737053|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.22||||0.7015|TWO_SIDED|95.0|-0.899|1.334|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 52||1.334|-0.899|0.7015
82520992|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-1.03||||0.1038|TWO_SIDED|95.0|-2.276|0.213|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||0.213|-2.276|0.1038
82520993|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.09||||0.8689|TWO_SIDED|95.0|-0.933|1.103|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||1.103|-0.933|0.8689
82523429|NCT01422408|164742357|OTHER|||||||0.6587||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6587
82572385|NCT01646385|164854298|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82638385|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82385337|NCT02915705|164482123|SUPERIORITY||difference|1.25|||<|0.0001|TWO_SIDED|95.0|0.96|1.54|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 64||1.54|0.96|< 0.0001
82385338|NCT02915705|164482125|SUPERIORITY||difference|-92.53|||<|0.0001|TWO_SIDED|95.0|-131.4|-53.66|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 16||-53.66|-131.40|< 0.0001
82385339|NCT02915705|164482125|SUPERIORITY||difference|-85.57|||<|0.0001|TWO_SIDED|95.0|-126.37|-44.76|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 24||-44.76|-126.37|< 0.0001
82520994|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.01||||0.982|TWO_SIDED|95.0|-1.026|1.003|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 72||1.003|-1.026|0.9820
82523268|NCT05380947|164741803|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|53.5|||||TWO_SIDED|90.0|40.5|70.8|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 31.0%|||70.8|40.5|
82638386|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638387|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638388|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638389|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638390|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638391|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638392|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638393|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638394|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82442874|NCT00824005|164594405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|8.4||0.7|TWO_SIDED|95.0|-4.78|3.36|||t-test, 2 sided|||Difference in the change between the two groups||3.36|-4.78|0.7
82638395|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638396|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638397|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638398|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638399|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638400|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0091|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0091
82638401|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638402|NCT03781167|164991402|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82442875|NCT02699450|164594416|SUPERIORITY||Difference in Least Squares Means|1.4||||0.37|TWO_SIDED|80.0|-0.6|3.4||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.4|-0.6|0.37
82442876|NCT02699450|164594416|SUPERIORITY||Difference in Least Squares Means|3.6||||0.03|TWO_SIDED|80.0|1.5|5.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||5.6|1.5|0.03
82442877|NCT02699450|164594417|SUPERIORITY||Difference in Least Squares Means|1.3||||0.63|TWO_SIDED|80.0|-2.3|5.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||5.0|-2.3|0.63
82520995|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.26||||0.693|TWO_SIDED|95.0|-1.563|1.04|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||1.040|-1.563|0.6930
82520996|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.03||||0.9606|TWO_SIDED|95.0|-1.053|1.001|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||1.001|-1.053|0.9606
82523430|NCT01422408|164742358|OTHER|||||||0.8772||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.8772
82572386|NCT01646385|164854299|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 1: analysis was performed with Analysis of Covariance (ANCOVA) using the General Linear Model (GLM) method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
82385340|NCT02915705|164482125|SUPERIORITY||difference|-95.95|||<|0.0001|TWO_SIDED|95.0|-136.05|-55.84|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 40||-55.84|-136.05|< 0.0001
82385341|NCT02915705|164482125|SUPERIORITY||difference|-111.28|||<|0.0001|TWO_SIDED|95.0|-152.08|-70.49|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 52||-70.49|-152.08|< 0.0001
82385342|NCT02915705|164482125|SUPERIORITY||difference|-146.56|||<|0.0001|TWO_SIDED|95.0|-191.61|-101.52|||GEE model||Difference (Burosumab - Oral Phosphate/Active Vitamin D)|Week 64||-101.52|-191.61|< 0.0001
82572387|NCT01646385|164854299|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 2: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
82638403|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4447|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.4447
82520997|NCT03318523|164737054|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.24||||0.6512|TWO_SIDED|95.0|-1.269|0.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart I Score at Week 96||0.794|-1.269|0.6512
82572388|NCT01646385|164854299|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 3: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
82638404|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3567|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.3567
82638405|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2315|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.2315
82638406|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0667|||||||paired-sample t-test|||Week 1 vs Baseline||||=0.0667
82638407|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638408|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638409|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638410|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2033|||||||paired-sample t-test|||Week 2 vs Baseline||||=0.2033
82638411|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638412|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0012|||||||paired-sample t-test|||Week 3 vs Baseline||||=0.0012
82638413|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0734|||||||paired-sample t-test|||Week 3 vs Baseline||||=0.0734
82638414|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82638415|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0304|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0304
82638416|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||>|0.999|||||||paired-sample t-test|||Week 4 vs Baseline||||>0.999
82638417|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0891|||||||paired-sample t-test|||Week 4 vs Baseline||||=0.0891
82638418|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0832|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0832
82638419|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4941|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.4941
82638420|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2764|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.2764
82638421|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3248|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.3248
82638422|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2535|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.2535
82638423|NCT03781167|164991403|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.9274|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.9274
82638424|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.3297|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.3297
82638425|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.9722|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.9722
82638426|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.4403|||||||paired-sample t-test|||Week 26 vs Baseline||||=0.4403
82638427|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1946|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.1946
82638428|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2077|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.2077
82638429|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0692|||||||paired-sample t-test|||Week 39 vs Baseline||||=0.0692
82638430|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.2276|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.2276
82638431|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.||||||0.3369|||||||paired-sample t-test|||Week 52 vs Baseline||||0.3369
82638432|NCT03781167|164991403|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.1218|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.1218
82638433|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82638434|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.002|||||||paired-sample t-test|||Day 2 vs Baseline||||=0.0020
82638435|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638436|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638437|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 1 vs Baseline||||<0.001
82638438|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Day 2 vs Baseline||||<0.001
82520998|NCT03318523|164737055|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.44||||0.5497|TWO_SIDED|95.0|-1.889|1.007|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.007|-1.889|0.5497
82520999|NCT03318523|164737055|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.0||||0.998|TWO_SIDED|95.0|-1.2|1.197|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.197|-1.200|0.9980
82521000|NCT03318523|164737055|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.15||||0.8069|TWO_SIDED|95.0|-1.374|1.07|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 52||1.070|-1.374|0.8069
82638439|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638440|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82521001|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.21||||0.7968|TWO_SIDED|95.0|-1.786|1.372|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.372|-1.786|0.7968
82521002|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.53||||0.4211|TWO_SIDED|95.0|-0.766|1.827|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.827|-0.766|0.4211
82521003|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.15||||0.8166|TWO_SIDED|95.0|-1.448|1.143|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 72||1.143|-1.448|0.8166
82521004|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.53||||0.5535|TWO_SIDED|95.0|-2.31|1.24|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.240|-2.310|0.5535
82385343|NCT02915705|164482128|SUPERIORITY||difference in LS means|-5.02||||0.0212|TWO_SIDED|95.0|-9.29|-0.75|||GEE model|||Pain Interference Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||-0.75|-9.29|0.0212
82572389|NCT01646385|164854299|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Change at Year 4: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.0001
82385344|NCT02915705|164482128|SUPERIORITY||difference in LS means|2.68||||0.1009|TWO_SIDED|95.0|-0.52|5.89|||GEE model|||Physical Function Mobility Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||5.89|-0.52|0.1009
82385345|NCT02915705|164482128|SUPERIORITY||difference in LS means|-3.25||||0.1676|TWO_SIDED|95.0|-7.86|1.37|||GEE model|||Fatigue Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||1.37|-7.86|0.1676
82385346|NCT02915705|164482129|SUPERIORITY||difference in LS means|-2.26||||0.3091|TWO_SIDED|95.0|-6.61|2.09|||GEE model|||Pain Interference Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||2.09|-6.61|0.3091
82521005|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.52||||0.4654|TWO_SIDED|95.0|-0.881|1.922|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.922|-0.881|0.4654
82521006|NCT03318523|164737056|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.36||||0.6184|TWO_SIDED|95.0|-1.051|1.763|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart II Score at Week 96||1.763|-1.051|0.6184
82521007|NCT03318523|164737057|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.59||||0.7274|TWO_SIDED|95.0|-2.742|3.925|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||3.925|-2.742|0.7274
82385347|NCT02915705|164482129|SUPERIORITY||difference in LS means|1.9||||0.3145|TWO_SIDED|95.0|-1.8|5.59|||GEE model|||Physical Function Mobility Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||5.59|-1.80|0.3145
82521008|NCT03318523|164737057|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.66||||0.6385|TWO_SIDED|95.0|-2.094|3.411|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||3.411|-2.094|0.6385
82572390|NCT01646385|164854299|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Change at Year 5: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline DAS28, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||0.01
82572391|NCT01646385|164854302|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82572392|NCT01646385|164854303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 1: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
82638441|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 2 vs Baseline||||<0.001
82638442|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82638443|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82638444|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 3 vs Baseline||||<0.001
82521009|NCT03318523|164737057|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, baseline MDS-UPDRS score, baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.1||||0.9467|TWO_SIDED|95.0|-2.718|2.91|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 52||2.910|-2.718|0.9467
82521010|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.85||||0.6112|TWO_SIDED|95.0|-2.423|4.114|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||4.114|-2.423|0.6112
82521011|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.86||||0.527|TWO_SIDED|95.0|-1.806|3.52|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||3.520|-1.806|0.5270
82521012|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.06||||0.9673|TWO_SIDED|95.0|-2.608|2.719|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 72||2.719|-2.608|0.9673
82521013|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.65||||0.7455|TWO_SIDED|95.0|-3.274|4.569|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||4.569|-3.274|0.7455
82521014|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|-0.1||||0.9506|TWO_SIDED|95.0|-3.192|2.997|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||2.997|-3.192|0.9506
82521015|NCT03318523|164737058|SUPERIORITY|Adjusted mean, difference with delayed start group, 95% CI, and p-value were based on an MMRM model, with change from baseline in MDS-UPDRS score as dependent variable and with fixed effects of treatment group, time, treatment group-by-time interaction, region, PD subtype, prior use of PD medication, corresponding baseline MDS-UPDRS score, corresponding baseline MDS-UPDRS by time interaction, baseline striatum SBR values and baseline striatum SBR value by time interaction.|Difference|0.69||||0.6643|TWO_SIDED|95.0|-2.422|3.794|||Mixed Model for Repeated Measures|||Change from Baseline in MDS-UPDRS Subpart III Score at Week 96||3.794|-2.422|0.6643
82521016|NCT03318523|164737059|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.005||||0.8274|TWO_SIDED|95.0|-0.0548|0.0438|||Mixed Model for Repeated Measures|||||0.0438|-0.0548|0.8274
82521017|NCT03318523|164737059|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.009||||0.6671|TWO_SIDED|95.0|-0.0504|0.0323|||Mixed Model for Repeated Measures|||||0.0323|-0.0504|0.6671
82521018|NCT03318523|164737059|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.033||||0.1313|TWO_SIDED|95.0|-0.0751|0.0098|||Mixed Model for Repeated Measures|||||0.0098|-0.0751|0.1313
82572393|NCT01646385|164854303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 2: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
82572394|NCT01646385|164854303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Change at Year 3: analysis was performed with ANCOVA using the GLM method applying age, gender, baseline HAQ, previous non-RA drugs, baseline steroid, and baseline methotrexate as covariates.||||<0.001
82572395|NCT02489734|164854306|SUPERIORITY||Relative risk (RR)|3.4||||0.003|TWO_SIDED|95.0|1.4|8.1|||Chi-squared|||||8.1|1.4|0.003
82572396|NCT01777334|164854307|SUPERIORITY_OR_OTHER||Least squares mean difference|0.112|||<|0.001|TWO_SIDED|95.0|0.081|0.144|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus TIO 18 µg.|||0.144|0.081|<0.001
82521019|NCT03318523|164737060|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.009||||0.7079|TWO_SIDED|95.0|-0.0562|0.0382|||Mixed Model for Repeated Measures|||||0.0382|-0.0562|0.7079
82385348|NCT02915705|164482129|SUPERIORITY||difference in LS means|-1.08||||0.681|TWO_SIDED|95.0|-6.21|4.06|||GEE model|||Fatigue Domain. 2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||4.06|-6.21|0.6810
82521020|NCT03318523|164737060|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|0.0||||0.9835|TWO_SIDED|95.0|-0.04|0.0392|||Mixed Model for Repeated Measures|||||0.0392|-0.0400|0.9835
82572397|NCT01841697|164854315|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 95% confidence interval for the mean difference between omarigilptin and sitagliptin is less than the non-inferiority margin, δ =0.3%, then omarigliptin will be declared non-inferior to sitagliptin in terms of A1C reduction at Week 24.|Difference in least squares mean|-0.03|||||TWO_SIDED|95.0|-0.15|0.08|||||Difference is omarigliptin minus sitagliptin.|Constrained longitudinal data analysis||0.08|-0.15|
82572398|NCT01841697|164854316|SUPERIORITY_OR_OTHER||Difference in percent|-4.3|||||TWO_SIDED|95.0|-11.8|3.2|||||Difference is omarigliptin minus sitagliptin.|||3.2|-11.8|
82572399|NCT01841697|164854317|SUPERIORITY_OR_OTHER||Difference in percent|-1.3|||||TWO_SIDED|95.0|-3.6|0.8|||||Difference is omarigliptin minus sitagliptin.|||0.8|-3.6|
82572400|NCT01841697|164854318|SUPERIORITY_OR_OTHER||Difference in least squares mean|-4.2||||0.089|TWO_SIDED|95.0|-9.0|0.6|||Constrained logitudinal data analysis|Terms for treatment, time, and the interaction of time by treatment, with the constraint that the mean baseline is the same for all treatment groups.|Difference is omarigliptin minus sitagliptin.|||0.6|-9.0|0.089
82572401|NCT01841697|164854319|SUPERIORITY_OR_OTHER||Between-group rate difference|2.0||||0.619|TWO_SIDED|95.0|-5.9|9.9|||Miettinen & Nurminen method|||Proportion (rate) for each group was estimated using standard multiple imputation techniques. Between-group difference in proportion is omarigliptin minus sitagliptin.||9.9|-5.9|0.619
82572402|NCT01841697|164854320|SUPERIORITY_OR_OTHER||Between-group rate difference|4.4||||0.212|TWO_SIDED|95.0|-2.5|11.4|||Miettinen & Nurminen method|||Proportion (rate) for each group was estimated using standard multiple imputation techniques. Between-group difference in proportion is omarigliptin minus sitagliptin.||11.4|-2.5|0.212
82638445|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638446|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638447|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 4 vs Baseline||||<0.001
82638448|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638449|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638450|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638451|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82385349|NCT02915705|164482130|SUPERIORITY||Difference in LS Means|0.01||||0.9862|TWO_SIDED|95.0|-0.79|0.8|||GEE model|||GEE model includes change from baseline for FPS-R as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, baseline FPS-R as a covariate, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.||0.80|-0.79|0.9862
82638452|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638453|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638454|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82521021|NCT03318523|164737060|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.027||||0.1869|TWO_SIDED|95.0|-0.0682|0.0134|||Mixed Model for Repeated Measures|||||0.0134|-0.0682|0.1869
82521022|NCT03318523|164737061|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.008||||0.7585|TWO_SIDED|95.0|-0.0625|0.0456|||Mixed Model for Repeated Measures|||||0.0456|-0.0625|0.7585
82521023|NCT03318523|164737061|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|0.006||||0.7808|TWO_SIDED|95.0|-0.0391|0.052|||Mixed Model for Repeated Measures|||||0.0520|-0.0391|0.7808
82521024|NCT03318523|164737061|SUPERIORITY|Adjusted mean, difference with placebo, 95% CI, and p-value were based on an MMRM model, with change from baseline in DaT/SPECT parameter as dependent variable and with fixed effects of treatment group, region, time, treatment group-by-time interaction, baseline MDS-UPDRS part I+II+III total score, baseline MDS-UPDRS part I+II+III total score by time interaction, baseline DaT/SPECT values and baseline DaT/SPECT by time interaction.|Difference|-0.022||||0.3532|TWO_SIDED|95.0|-0.0691|0.0248|||Mixed Model for Repeated Measures|||||0.0248|-0.0691|0.3532
82521025|NCT02858050|164737063|OTHER|||||||0.548306|||||||Chi-squared|||||||0.548306
82521026|NCT03232983|164737064|SUPERIORITY||Ratio of Geometric Least Squares Means|1.03|||||TWO_SIDED|90.0|0.992|1.07|||Mixed Models Analysis|||Geometric Least Squares Means (LSMeans) were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.07|0.992|
82521027|NCT03232983|164737064|SUPERIORITY||Ratio of Geometric Least Squares Means|1.0|||||TWO_SIDED|90.0|0.962|1.04|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.04|0.962|
82521028|NCT03232983|164737065|SUPERIORITY||Ratio of Geometric LSMeans|1.09|||||TWO_SIDED|90.0|1.0|1.2|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.20|1.00|
82521029|NCT03232983|164737065|SUPERIORITY||Ratio of Geometric LSMeans|1.14|||||TWO_SIDED|90.0|1.04|1.25|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.25|1.04|
82521030|NCT00863655|164737069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.35|0.54|||Log Rank|||||0.54|0.35|<0.0001
82572403|NCT05043883|164854400|SUPERIORITY|This clinical investigation is intended to demonstrate that the performance of the PVI Analyzer software is superior to clinically relevant performance level, and therefore the study is designed as a 1-sample superiority test of the sampled outcome specificity. The lower bound 95% CI (α=0.05) and at a statistical power of 95% (β=0.05).|Percentage (%)|87.0||||0.006|ONE_SIDED|95.0||||The success of the PVI Analyzer output was assumed to follow a binominal distribution with a given true proportion of 87.50%. It was tested whether the specificity was superior to the 80% limit.|Z-test|A one-tailed test with a significance level of 95% (α = 0.05) was applied.||Specificity is the ability to correctly detect true negative values of the ground-truth negative EGM classifications. The PVI Analyzer software classifies an EGM in positive (isolated) or negative (non-isolated), compared to the SOC outcomes. EGMs prior-isolation were labeled as ground-truth negative (non-isolated), EGMs after isolation as ground-truth positive (isolated). The null hypothesis is that specificity is lower or equal to the superiority limit 80%.||||0.006
82521031|NCT00483184|164737089|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||ANOVA|||Results were expressed as mean or number. Normal distributed data among the treatment groups were compared by One-way ANOVA test, non-normal distributed data were compared by Kruskal Wallis test, and then Bonferroni post-hoc test was used for multiple comparisons. Differences from baseline within treatment groups were evaluated by repeated measures ANOVA test for normal distributed data, Freidman test for non-normal distributed data.||||0.404
82521032|NCT01627327|164737108|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.022||||0.201|TWO_SIDED|95.0|-0.012|0.055|||ANCOVA|||||0.055|-0.012|0.201
82521033|NCT01515410|164737111|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.86||||0.0471||95.0|-13.62|-0.09||This p-value indicates statistical significance at the 0.05 level.|ANCOVA|No subjects early-terminated from the study.||"Percent OFF Time (%)"||-0.09|-13.62|0.0471
82521034|NCT00868439|164737118|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||< 0.001
82521035|NCT00868439|164737119|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.027|TWO_SIDED||||||Fisher Exact|||||||= 0.027
82521036|NCT00868439|164737120|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.101|TWO_SIDED||||||Fisher Exact|||||||= 0.101
82521037|NCT00868439|164737121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||Fisher Exact|||||||0.022
82521038|NCT00868439|164737122|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.136|TWO_SIDED||||||Fisher Exact|||||||= 0.136
82521039|NCT00868439|164737123|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.015|TWO_SIDED||||||Fisher Exact|||||||= 0.015
82521040|NCT00423176|164737124|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44||||||95.0|-1.14|0.25|||||For days 1-29|||0.25|-1.14|
82521041|NCT00423176|164737124|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.82||||||95.0|-1.65|0.0|||||For follow-up days 30-43|||0.00|-1.65|
82638455|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638456|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638457|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638458|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638459|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638460|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638461|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638462|NCT03781167|164991404|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638463|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638464|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638465|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638466|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638467|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638468|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638469|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638470|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638471|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638472|NCT03781167|164991405|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638473|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638474|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638475|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638476|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638477|NCT03781167|164991405|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638478|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638479|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638480|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638481|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638482|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638483|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638484|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638485|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638486|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638487|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638488|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638489|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638490|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638491|NCT03781167|164991406|OTHER|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638492|NCT03781167|164991406|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82638493|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0035|||||||paired-sample t-test|||Week 6 vs Baseline||||=0.0035
82521042|NCT00423176|164737125|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.8||||||95.0|-0.5|18.2|||||Change from baseline to endpoint|||18.2|-0.5|
82521043|NCT03871595|164737126|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|99.51|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|95.36|103.83|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||103.83|95.36|
82521044|NCT03871595|164737127|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|70.11|STANDARD_DEVIATION|16.8|||TWO_SIDED|90.0|62.67|78.44|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||78.44|62.67|
82521045|NCT03871595|164737128|OTHER|Relative bioavailability|Adjusted Geometric Mean Ratio T/R [%]|99.78|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|95.64|104.11|||||The Adjusted Geometric Mean is adjusted by treatment. The standard deviation is actually the intraindividual geometric Coefficient of Variation \[%\].|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'sequence' (fixed effect), 'subjects within sequences' (random effect), 'period' (fixed effect) and 'treatment' (fixed effect).||104.11|95.64|
82521046|NCT05072080|164737147|SUPERIORITY||Mean Difference (Final Values)|96.6|||<|0.0001|TWO_SIDED|95.0|95.0|97.5||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups. All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|Day 22||97.5|95.0|<0.0001
82521047|NCT05072080|164737149|SUPERIORITY||GMT Ratio|206.0|||<|0.0001|TWO_SIDED|95.0|183.0|232.0||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed.|ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo).|Day 22||232|183|<0.0001
82572404|NCT05043883|164854400|SUPERIORITY|This clinical investigation is intended to demonstrate that the performance of the PVI Analyzer software is superior to clinically relevant performance level, and therefore the study is designed as a 1-sample superiority test of the sampled outcome Sensitivity. The lower bound 95% CI (α=0.05) and at a statistical power of 95% (β=0.05).|Percentage|86.0||||0.004|ONE_SIDED|95.0||||The success of the PVI Analyzer output was assumed to follow a binominal distribution with a given true proportion of 87.50%. It was tested whether the sensitivity was superior to the 80% limit.|Z-test|A one-tailed test with a significance level of 95% (α = 0.05) was applied.||Sensitivity of the PVI analyzer is determined by the capability to detect true positive among all ground-truth positive EGM classifications.The PVI Analyzer software classifies an EGM in positive (isolated) or negative (non-isolated), compared to the SOC outcomes. EGMs prior-isolation were labeled as ground-truth negative (non-isolated), EGMs after isolation as ground-truth positive (isolated). The null hypothesis is that sensitivity is lower or equal to the superiority limit 80%.||||0.004
82572405|NCT05043883|164854401|OTHER|Descriptive|Percentage|0.99|STANDARD_DEVIATION|0.1|||TWO_SIDED|95.0|0.02|5.39|||||Only one AE was reported for one subject ( which was considered moderate in severity and not related to the device, but related to the SOC procedure.|A descriptive analysis was performed to evaluate the AEs and device deficiencies, estimating the percentages and 95% CI on each category.||5.39|0.02|
82638494|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638495|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 6 vs Baseline||||<0.001
82638496|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.0098|||||||paired-sample t-test|||Week 13 vs Baseline||||=0.0098
82521048|NCT05072080|164737151|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.98|||||TWO_SIDED|95.0|0.85|1.14|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.14|0.85|
82572406|NCT05043883|164854402|SUPERIORITY||Percentage (%)|94.0||||2e-05|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that specificity is below 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Radiofrequency procedure from EP procedure until study completion at discharge (an average of 24 hours), with a specificity superior to 80%. A superiority Z-test for Specificity was performed.||||0.00002
82638497|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638498|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 13 vs Baseline||||<0.001
82638499|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638500|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638501|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 26 vs Baseline||||<0.001
82638502|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82638503|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82521049|NCT05072080|164737151|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.84|1.12|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.12|0.84|
82521050|NCT05072080|164737151|EQUIVALENCE|Success criterion was pairwise GMT ratios (104:105, 105:106, 104:106) each with a two-sided 95% CI within \[0.667; 1.5\].|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.1|||||All 3 coprimary endpoints were required to be met for success, so no multiple comparisons were performed. GMT estimates and 95% CIs are derived from an ANOVA model that includes site and product lot as fixed effects assuming normality of log titers.|||1.10|0.82|
82572407|NCT05043883|164854402|SUPERIORITY||Percentage (%)|82.0||||0.32|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that sensitivity is below 80% and alternative hypothesis that sensitivity is at or above 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Radiofrequency procedure from EP procedure until study completion at discharge (an average of 24 hours), with sensitivity superior to 80%. A superiority Z-test for Sensitivity was performed.||||0.32
82572408|NCT05043883|164854402|SUPERIORITY||Percentage (%)|79.0||||0.66|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that specificity is below 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Cryo-balloon procedure from EP procedure until study completion at discharge (an average of 24 hours), with a specificity superior to 80%. A superiority Z-test for Specificity was performed.||||0.66
82572409|NCT05043883|164854402|SUPERIORITY||Percentage (%)|92.0||||0.0008|TWO_SIDED|||||Computed p values are the result of running a one sample z-test with a null hypothesis that sensitivity is below 80% and alternative hypothesis that sensitivity is at or above 80%.|Z-test|||Automated PVI Analyzer classification of PV isolation in SR by Cryo-balloon procedure from EP procedure until study completion at discharge (an average of 24 hours), with a sensitivity superior to 80%. A superiority Z-test for Sensitivity was performed.||||0.0008
82572410|NCT05043883|164854403|SUPERIORITY||Percentage (%)|96.0||||5e-06|TWO_SIDED|||||To compute the proportional agreement between two non-overlapping samples, a one-sample Z-test was performed with the alternative hypothesis that agreement was above 90%, which was considered sufficient for a real-time assessment.|Z-test|||This endpoint used the same EGMs extracted for the primary endpoint, including only EGMs from T Baseline and T Final measurements from patients in sinus rhythm.||||0.000005
82572411|NCT05043883|164854404|SUPERIORITY||Percentage (%)|54.0||||1|TWO_SIDED|||||The p values calculated are the result of running a one sample z-test with a null hypothesis that the specificity are below 80%.|Z-test|||The data analysis and processing were similar to those of the primary endpoint, but taking into consideration that subjects shall be in non-sinus rhythm during the duration of the EGM snippet. Apart from this, the processing was the same and the threshold was also defined as 50: values below 50 were classified as baseline, while values at or above 50 were considered as isolated veins.||||1
82572412|NCT05043883|164854404|SUPERIORITY||Percentage (%)|100.0||||0.0007|TWO_SIDED|||||The p values calculated are the result of running a one sample z-test with a null hypothesis that the sensitivity are below 80% and an alternative hypothesis that sensitivity is at or above 80%.|Z-test|||The data analysis and processing were similar to those of the primary endpoint, but taking into consideration that subjects shall be in non-sinus rhythm during the duration of the EGM snippet. Apart from this, the processing was the same and the threshold was also defined as 50: values below 50 were classified as baseline, while values at or above 50 were considered as isolated veins.||||0.0007
82572413|NCT05043883|164854405|SUPERIORITY||Percentage (%)|87.0||||0.04|TWO_SIDED||||||Z-test|The estimate was done using a one-sample Z-test with a null hypothesis that sensitivity is at or below 80% and a 95% significance level.||This secondary endpoint aimed to determine the sensitivity of the PVI Analyzer at the time of isolation, which requires the EGMs at the T PVI. A Z-test for sensitivity was performed to assess the sensitivity of the PVI Analyzer analysis to identify expert-defined isolation during the PVI ablation.||||0.04
82572414|NCT05043883|164854406|OTHER|||||||0.0002||||||McNemar test assumes as a null hypothesis that the two datasets cause the PVI Analyzer to have a similar proportion of errors.|McNemars test|A paired McNemars test with an alpha value of 0.05, was applied to analyze the differences in classification performance.||A paired McNemar's Chi-Square test was performed to analyze the differences in classification performances||||0.0002
82572415|NCT00537329|164854410|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|86.1||||||95.0|70.5|95.3||||||Sample size enrollment of 100 subjects was planned. Assuming an overall response rate of 75 percent (%), a 95% confidence interval (CI) for the percentage of subjects responding to treatment would have ranged from 66.3% to 83.7% allowing for 5% nonevaluability. This would have provided a level of precision considered acceptable for this Asian regional study.||95.3|70.5|
82572416|NCT00537329|164854411|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|89.2||||||95.0|74.6|97.0||||||EOIT||97.0|74.6|
82572417|NCT00537329|164854411|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|82.8||||||95.0|64.2|94.2||||||2 Wks post EOT||94.2|64.2|
82572418|NCT00537329|164854411|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|89.5||||||95.0|66.9|98.7||||||6 Wks post EOT||98.7|66.9|
82572419|NCT00537329|164854411|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|72.7||||||95.0|49.8|89.3||||||12 Wks post baseline||89.3|49.8|
82572420|NCT00537329|164854412|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.1||||||95.0|85.1|99.9||||||EOIT: success (cure/improvement)||99.9|85.1|
82572421|NCT00537329|164854412|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.1||||||95.0|80.3|99.3||||||EOT: success (cure/improvement)||99.3|80.3|
82572422|NCT00537329|164854412|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|92.9||||||95.0|76.5|99.1||||||2 Wks post EOT: success (cure/improvement)||99.1|76.5|
82572423|NCT00537329|164854412|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.4||||||95.0|72.7|99.9||||||6 Wks post EOT: success (cure/improvement)||99.9|72.7|
82638504|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 39 vs Baseline||||<0.001
82521051|NCT05072080|164737153|SUPERIORITY||Mean Difference (Final Values)|96.0|||<|0.0001|TWO_SIDED|95.0|94.3|96.8||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 15||96.8|94.3|<0.0001
82521052|NCT05072080|164737153|SUPERIORITY||Mean Difference (Final Values)|84.0|||<|0.0001|TWO_SIDED|95.0|81.7|85.6||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 183||85.6|81.7|<0.0001
82521053|NCT05072080|164737153|SUPERIORITY||Mean Difference (Final Values)|46.1|||<|0.0001|TWO_SIDED|95.0|43.8|48.1||Key secondary endpoints were tested hierarchically, such that each was only tested if all 3 coprimary endpoints and prior key secondary endpoints were met, so no multiple comparisons were performed.|Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|Day 8||48.1|43.8|<0.0001
82521054|NCT05072080|164737155|SUPERIORITY||GMT Ratio|13.0|||<|0.0001|TWO_SIDED|95.0|11.0|14.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 8||14|11|<0.0001
82521055|NCT05072080|164737155|SUPERIORITY||GMT Ratio|144.0|||<|0.0001|TWO_SIDED|95.0|128.0|162.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 15||162|128|<0.0001
82521056|NCT05072080|164737155|SUPERIORITY||GMT Ratio|41.0|||<|0.0001|TWO_SIDED|95.0|37.0|46.0|||ANOVA|ANOVA model includes site and treatment group as fixed effects, assuming normality of log titers. p-value tests equivalence of group GMTs on log scale|Ratio of GMTs is (PXVX0317:placebo)|Day 183||46|37|<0.0001
82521057|NCT05072080|164737157|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 8||||<0.0001
82521058|NCT05072080|164737157|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 15||||<0.0001
82572424|NCT00537329|164854412|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|85.0||||||95.0|62.1|96.8||||||12 Wks post baseline: success (cure/improvement)||96.8|62.1|
82572425|NCT00537329|164854413|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.3||||||95.0|85.8|99.9||||||EOIT: success (erad/presumed erad)||99.9|85.8|
82521059|NCT05072080|164737157|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 22||||<0.0001
82521060|NCT05072080|164737157|SUPERIORITY||||||<|0.0001||||||GMFI estimates and 95% CIs are based on t-statistics assuming a normal distribution of the log fold increase in titer. p-value tests equality of log fold increase in titer between groups.|t-test, 2 sided|||Day 183||||<0.0001
82521061|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|90.7|||<|0.0001|TWO_SIDED|95.0|88.7|91.9|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 8||91.9|88.7|<0.0001
82521062|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|98.7|||<|0.0001|TWO_SIDED|95.0|97.2|99.3||p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Chi-squared||Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 15||99.3|97.2|<0.0001
82521063|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|97.6|||<|0.0001|TWO_SIDED|95.0|95.8|98.5|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 22||98.5|95.8|<0.0001
82572426|NCT00537329|164854413|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|97.1||||||95.0|85.1|99.9||||||EOT: success (erad/presumed erad)||99.9|85.1|
82572427|NCT00537329|164854413|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|86.2||||||95.0|68.3|96.1||||||2 Wks post EOT: success (erad/presumed erad)||96.1|68.3|
82572428|NCT00537329|164854413|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|94.4||||||95.0|72.7|99.9||||||6 Wks post EOT: success (erad/presumed erad)||99.9|72.7|
82572429|NCT00537329|164854413|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|84.2||||||95.0|60.4|96.6||||||12 Wks post baseline: success (erad/presumed erad)||96.6|60.4|
82572430|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|50.0||||||95.0|1.3|98.7||||||Neutropenic status: ANC ≤ 500/cmm||98.7|1.3|
82572431|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|75.7||||||95.0|58.8|88.2||||||Neutropenic status: ANC \> 500/cmm||88.2|58.8|
82572432|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|71.4||||||95.0|41.9|91.6||||||Baseline pathogen: Candida albicans||91.6|41.9|
82572433|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|66.7||||||95.0|22.3|95.7||||||Baseline pathogen: Candida glabrata||95.7|22.3|
82572434|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|100.0||||||95.0|39.8|100.0||||||Baseline pathogen: Candida parapsilosis||100.0|39.8|
82572435|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|100.0||||||95.0|2.5|100.0||||||Baseline pathogen: Candida rugosa||100.0|2.5|
82638505|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||=|0.003|||||||paired-sample t-test|||Week 52 vs Baseline||||=0.0030
82638506|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82385350|NCT02915705|164482131|SUPERIORITY||difference in LS means|0.05||||0.8786|TWO_SIDED|95.0|-0.58|0.68|||GEE model|||GEE model includes change from baseline for FPS-R as the dependent variable, treatment group, visit, interaction between treatment group by visit and baseline RSS stratification as factors, baseline FPS-R as a covariate, with exchangeable covariance structure. The LS Mean, SE, 95% CI and 2-sided p-value are from the GEE model.||0.68|-0.58|0.8786
82521064|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|96.8|||<|0.0001|TWO_SIDED|95.0|94.8|97.9|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|SNA titers ≥15 at Day 183||97.9|94.8|<0.0001
82521065|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|64.8|||<|0.0001|TWO_SIDED|95.0|62.5|66.7|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 8||66.7|62.5|<0.0001
82521066|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|97.8|||<|0.0001|TWO_SIDED|95.0|96.3|98.4|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 15||98.4|96.3|<0.0001
82521067|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|97.2|||<|0.0001|TWO_SIDED|95.0|95.5|98.1|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 22||98.1|95.5|<0.0001
82521068|NCT05072080|164737159|SUPERIORITY||Mean Difference (Final Values)|91.4|||<|0.0001|TWO_SIDED|95.0|89.4|92.7|||Chi-squared|p-value is from a two-sided chi-square test of equality of seroresponse percentages between groups.|Seroresponse rate difference is (PXVX0317 minus placebo).|≥4-fold rise over baseline at Day 183||92.7|89.4|<0.0001
82521069|NCT05554237|164737168|OTHER||Ratio of adjusted geometric means|83.46|||||TWO_SIDED|90.0|74.67|93.29|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only)|||93.29|74.67|
82521070|NCT05554237|164737170|OTHER||Ratio of adjusted geometric means|89.7|||||TWO_SIDED|90.0|87.24|92.23|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only|||92.23|87.24|
82521071|NCT05554237|164737173|OTHER||Ratio of adjusted geometric means|89.91|||||TWO_SIDED|90.0|87.47|92.41|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (for CTB 800 mg + AVP 1350 mg versus CTB 800mg only|||92.41|87.47|
82521072|NCT05554237|164737193|OTHER||Ratio of adjusted geometric mean|104.47|||||TWO_SIDED|90.0|84.94|128.5|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||128.50|84.94|
82521073|NCT05554237|164737193|OTHER||Ratio of adjusted geometric mean|129.54|||||TWO_SIDED|90.0|119.37|140.58|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||140.58|119.37|
82521074|NCT05554237|164737193|OTHER||Ratio of adjusted geometric mean|101.46|||||TWO_SIDED|90.0|88.68|116.08|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||116.08|88.68|
82638507|NCT03781167|164991407|SUPERIORITY|A paired-sample t-test was performed to test the change from Baseline.|||||<|0.001|||||||paired-sample t-test|||Week 52 vs Baseline||||<0.001
82521075|NCT05554237|164737193|OTHER||Ratio of adjusted geometric means|86.99|||||TWO_SIDED|90.0|74.48|101.59|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted) for CTB 400 mg + AVP 1350 mg only|Trans-CTB Day 6 versus Day 7||101.59|74.48|
82521076|NCT05554237|164737195|OTHER||Ratio of adjusted geometric mean|102.21|||||TWO_SIDED|90.0|88.67|117.8|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||117.80|88.67|
82521077|NCT05554237|164737195|OTHER||Ratio of adjusted geometric mean|133.79|||||TWO_SIDED|90.0|119.84|149.36|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||149.36|119.84|
82521078|NCT05554237|164737195|OTHER||Ratio of adjusted geometric mean|99.93|||||TWO_SIDED|90.0|90.7|110.1|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|Cis-CTB Day 6 versus Day 7||110.10|90.70|
82521079|NCT05554237|164737195|OTHER||Ratio of adjusted geometric mean|89.17|||||TWO_SIDED|90.0|75.27|105.63|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted) for CTB 400 mg + AVP 1350 mg only|Trans-CTB Day 6 versus Day 7||105.63|75.27|
82521080|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|93.69|||||TWO_SIDED|90.0|78.37|112.02|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||112.02|78.37|
82521081|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|113.07|||||TWO_SIDED|90.0|88.31|144.76|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI-CTB Day 6 versus Day 7||144.76|88.31|
82521082|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|107.06||||||90.0|92.77|123.54|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||123.54|92.77|
82521083|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|80.68|||||TWO_SIDED|90.0|68.32|95.27|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||95.27|68.32|
82521084|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|89.92|||||TWO_SIDED|90.0|69.7|116.02|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||116.02|69.70|
82638508|NCT00679354|164991424|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.0||||1|TWO_SIDED||||||Spearman's Correlation|||||||1.000
82638509|NCT00679354|164991425|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.56||||0.057|TWO_SIDED||||||Spearman's Correlation|||||||0.057
82638510|NCT00679354|164991426|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.22||||0.495|TWO_SIDED||||||Spearman's Correlation|||||||0.495
82521085|NCT05554237|164737201|OTHER||Ratio of adjusted geometric mean|97.65|||||TWO_SIDED|90.0|84.08|113.41|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||113.41|84.08|
82521086|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|102.33|||||TWO_SIDED|90.0|90.37|115.87|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||115.87|90.37|
82521087|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|117.83|||||TWO_SIDED|90.0|100.61|138.0|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||138.00|100.61|
82521088|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|115.88|||||TWO_SIDED|90.0|104.12|128.98|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|AVI- Day 6 versus Day 7||128.98|104.12|
82521089|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|85.27|||||TWO_SIDED|90.0|70.37|103.32|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||103.32|70.37|
82521090|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|97.69|||||TWO_SIDED|90.0|78.83|121.06|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||121.06|78.83|
82521091|NCT05554237|164737202|OTHER||Ratio of adjusted geometric mean|102.85|||||TWO_SIDED|90.0|94.8|111.58|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (fed vs fasted)|HPA- Day 6 versus Day 7||111.58|94.80|
82521092|NCT05554237|164737217|OTHER||Ratio of adjusted geometric mean|105.47|||||TWO_SIDED|90.0|86.64|128.39|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||128.39|86.64|
82521093|NCT05554237|164737217|OTHER||Ratio of adjusted geometric mean|134.24||||||90.0|51.81|347.81|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||347.81|51.81|
82521094|NCT05554237|164737217|OTHER||Ratio of adjusted geometric mean|91.17||||||90.0|79.54|104.51|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||104.51|79.54|
82521095|NCT05554237|164737217|OTHER||Ratio of adjusted geometric mean|115.26|||||TWO_SIDED|90.0|71.46|185.9|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||185.90|71.46|
82638511|NCT00679354|164991427|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.48||||0.114|TWO_SIDED||||||Spearman's Correlation|||||||0.114
82638512|NCT00808665|164991456|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82521096|NCT05554237|164737219|OTHER||Ratio of adjusted geometric mean|114.83|||||TWO_SIDED|90.0|101.1|130.43|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||130.43|101.10|
82521097|NCT05554237|164737219|OTHER||Ratio of adjusted geometric mean|140.44|||||TWO_SIDED|90.0|104.17|189.34|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|AVI- Day 6 versus Day 7||189.34|104.17|
82521098|NCT05554237|164737219|OTHER||Ratio of adjusted geometric mean|101.46||||||90.0|90.79|113.39|||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||113.39|90.79|
82521099|NCT05554237|164737219|OTHER||Ratio of adjusted geometric means|123.2|||||TWO_SIDED|90.0|110.25|137.67|||||Model is a mixed effect model with treatment as a fixed effect and participant as a random effect (Japanese participants fed vs fasted and Chinese participants fed vs fasted)|HPA- Day 6 versus Day 7||137.67|110.25|
82521100|NCT01640808|164737233|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.351|TWO_SIDED|95.0|0.72|1.124||A two-sided significance level was set at 0.05. Adjustment of multiplicity considering interim analysis is conducted by the Lan DeMets' method of α consumption function.|Log Rank|||||1.124|0.720|0.351
82521101|NCT01640808|164737234|SUPERIORITY||Hazard Ratio (HR)|0.875||||0.222|TWO_SIDED|95.0|0.706|1.085||A two-sided significance level was set at 0.05.|Log Rank|||||1.085|0.706|0.222
82572436|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|72.2||||||95.0|46.5|90.3||||||Baseline pathogen: Candida tropicalis||90.3|46.5|
82521102|NCT01640808|164737235|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.279|TWO_SIDED|95.0|0.703|1.108||A two-sided significance level was set at 0.05.|Log Rank|||||1.108|0.703|0.279
82521103|NCT00989768|164737246|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_DEVIATION|0.36|<|0.0001||95.0|||||t-test, 2 sided|||In this study the null hypothesis was that BoNT-A1 had the same effect (halus)than the BoNT-A2.||||<0.0001
82521104|NCT00989768|164737247|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82572437|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|84.6||||||95.0|54.6|98.1||||||Previous surgery: Any surgery||98.1|54.6|
82572438|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|87.5||||||95.0|47.3|99.7||||||Previous surgery: Abdominal surgery||99.7|47.3|
82638513|NCT00920582|164991461|SUPERIORITY||Odds Ratio (OR)|1.348||||0.609|TWO_SIDED|95.0|0.431|4.219|||Mantel Haenszel|||||4.219|0.431|0.609
82638514|NCT00920582|164991461|SUPERIORITY||Odds Ratio (OR)|1.356||||0.601|TWO_SIDED|95.0|0.453|4.23|||Mantel Haenszel|||||4.230|0.453|0.601
82638515|NCT00920582|164991461|SUPERIORITY||Odds Ratio (OR)|1.624||||0.4|TWO_SIDED|95.0|0.521|5.066|||Mantel Haenszel|||||5.066|0.521|0.400
82638516|NCT00920582|164991463|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.365|TWO_SIDED|95.0|-0.086|0.031|||ANCOVA|||||0.031|-0.086|0.365
82638517|NCT00920582|164991463|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.842|TWO_SIDED|95.0|-0.078|0.064|||ANCOVA|||||0.064|-0.078|0.842
82638518|NCT00920582|164991463|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.565|TWO_SIDED|95.0|-0.089|0.171|||ANCOVA|||||0.171|-0.089|0.565
82521105|NCT00989768|164737248|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||||||0.61
82521106|NCT00989768|164737249|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
82521107|NCT02192502|164737250|NON_INFERIORITY|The non-inferiority delta of a ratio of geometric means is 1.15.|Geometric mean ratio|0.91||||0.15|TWO_SIDED|95.0|0.57|1.44|||generalized linear model|This analysis used linear mixed model with repeated measurements with an unstructured correlation structure.||Assuming that NGAL values follow a log normal distribution as in previous studies with a coefficient of variation of 25%, we need 52 patients per group to have 90% power at the 0.025 significance level to be able to claim non-inferiority of HES to albumin using a non-inferiority delta of a ratio of geometric means of 1.15. After Adjusting for the interim monitoring and five potential dropouts and five pilot patients (which were not included in the analyses), we planned to enroll 140 patients||1.44|0.57|0.15
82521108|NCT02192502|164737251|NON_INFERIORITY|the delta for non-inferiority is 1.15|Risk Ratio (RR)|2.78||||0.92|TWO_SIDED|95.0|0.64|12.1|||Chi-squared|||||12.1|0.64|0.92
82521109|NCT02192502|164737252|NON_INFERIORITY|the non-inferiority delta was 1.15|geometric mean ratio|0.45||||0.002|TWO_SIDED|5.0|0.21|0.95|||Regression, Linear|IL-18 was log-transformed||||0.95|0.21|0.002
82521110|NCT02192502|164737253|NON_INFERIORITY|the delta for non-inferiority is 1.15|geometric mean ratio|0.98||||0.31|TWO_SIDED|95.0|0.45|2.1|||Regression, Linear|IL-18 was log-transformed||||2.10|0.45|0.31
82521111|NCT02192502|164737254|NON_INFERIORITY|The non-inferiority delta was 1.15|Risk Ratio (RR)|0.8|||<|0.001|TWO_SIDED|95.0|0.61|1.03|||Chi-squared|||||1.03|0.61|<0.001
82521112|NCT01506193|164737290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for measles was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.04|||||TWO_SIDED|95.0|-1.82|2.78||||||"Immune response for anti-measles antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-measles seroconversion rates (SCRs) at Day 42 after dose 1."||2.78|-1.82|
82521113|NCT01506193|164737290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for mumps was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|1.29|||||TWO_SIDED|95.0|-3.04|6.67||||||"Immune response for anti-mumps antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-mumps seroconversion rates (SCRs) at Day 42 after dose 1."||6.67|-3.04|
82521114|NCT01506193|164737290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for rubella was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.23|2.29||||||"Immune response for anti-rubella antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-rubella seroconversion rates (SCRs) at Day 42 after dose 1."||2.29|-1.23|
82521115|NCT01506193|164737290|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroconversion rates for varicella was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.33|||||TWO_SIDED|95.0|-1.87|2.03||||||"Immune response for anti-varicella antibodies~Non-inferiority of Priorix-Tetra™ vaccine co-administered with Meningitec® conjugate vaccine compared to the first dose of Priorix-Tetra™ vaccine alone with respect to anti-varicella seroconversion rates (SCRs) at Day 42 after dose 1."||2.03|-1.87|
82521116|NCT01506193|164737291|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with respect to seroresponse for rSBA-MenC was concluded if the lower limit of the 95% CI around the difference in seroprotection rates between groups would be \[-10%\] or higher.|Difference in percentage|-1.02|||||TWO_SIDED|95.0|-3.39|2.24||||||"Immune response for rSBA-MenC antibodies~Non-inferiority of Meningitec® conjugate vaccine co-administered with Priorix-Tetra™ compared to Meningitec® conjugate vaccine alone with respect to rabbit complement serum bactericidal assay (rSBA-MenC) antibody seroprotection rates (SPRs) at Day 42 after vaccination."||2.24|-3.39|
82521117|NCT04575467|164737307|SUPERIORITY||Mean absolute fat thickness difference|-4.77|STANDARD_DEVIATION|2.29|<|0.01|TWO_SIDED|95.0|-7.17|-2.37|||Paired t-test|||||-2.37|-7.17|<0.01
82521118|NCT04575467|164737307|SUPERIORITY||Mean absolute fat thickness difference|-4.85|STANDARD_DEVIATION|2.02|<|0.01|TWO_SIDED|95.0|-6.97|-2.73|||Paired t-test|||||-2.73|-6.97|<0.01
82521119|NCT04575467|164737307|SUPERIORITY||Mean absolute fat thickness difference|-2.98|STANDARD_DEVIATION|2.83|<|0.05|TWO_SIDED|95.0|-5.95|-0.01|||Paired t-test|||||-0.01|-5.95|<0.05
82521120|NCT04575467|164737308|SUPERIORITY||Mean absolute fat volume difference|-114.4|STANDARD_DEVIATION|54.88|<|0.01|TWO_SIDED|95.0|-171.99|-56.81|||Paired t-test|||||-56.81|-171.99|<0.01
82521121|NCT04575467|164737308|SUPERIORITY||Mean absolute fat volume difference|-155.2|STANDARD_DEVIATION|64.7|<|0.01|TWO_SIDED|95.0|-223.1|-87.3|||Paired t-test|||||-87.30|-223.10|<0.01
82521122|NCT04575467|164737308|SUPERIORITY||Mean absolute fat volume difference|-119.17|STANDARD_DEVIATION|113.11|<|0.05|TWO_SIDED|95.0|-237.86|-0.47|||Paired t-test|||||-0.47|-237.86|<0.05
82521123|NCT00736645|164737348|OTHER|||||||0.5137|||||||Wilcoxon (Mann-Whitney)|||||||0.5137
82521124|NCT00736645|164737348|OTHER|||||||0.8994|||||||Wilcoxon (Mann-Whitney)|||||||0.8994
82521125|NCT00736645|164737348|OTHER|||||||0.3463|||||||Wilcoxon (Mann-Whitney)|||||||0.3463
82521126|NCT00736645|164737349|OTHER|||||||0.2609|||||||Wilcoxon (Mann-Whitney)|||||||0.2609
82521127|NCT00736645|164737349|OTHER|||||||0.7504|||||||Wilcoxon (Mann-Whitney)|||||||0.7504
82521128|NCT00736645|164737349|OTHER|||||||0.9727|||||||Wilcoxon (Mann-Whitney)|||||||0.9727
82521129|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.2968|TWO_SIDED|95.0|-0.18|0.59|||ANCOVA|||||0.59|-0.18|0.2968
82521130|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.186|TWO_SIDED|95.0|-0.64|0.12|||ANCOVA|||||0.12|-0.64|0.1860
82521131|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0027|TWO_SIDED|95.0|-1.03|-0.22|||ANCOVA|||||-0.22|-1.03|0.0027
82521132|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.2766|TWO_SIDED|95.0|-0.62|0.18|||ANCOVA|||||0.18|-0.62|0.2766
82521133|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0057|TWO_SIDED|95.0|-0.94|-0.16|||ANCOVA|||||-0.16|-0.94|0.0057
82521134|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0032|TWO_SIDED|95.0|-0.96|-0.19|||ANCOVA|||||-0.19|-0.96|0.0032
82521135|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0786|TWO_SIDED|95.0|-0.72|0.04|||ANCOVA|||||0.04|-0.72|0.0786
82521136|NCT00518115|164737367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0022|TWO_SIDED|95.0|-0.99|-0.22|||ANCOVA|||||-0.22|-0.99|0.0022
82521137|NCT04333420|164737399|SUPERIORITY||LS means difference|-16.4||||0.3677|TWO_SIDED|95.0|-53.2|20.3|||Linear repeated measures model|||||20.3|-53.2|0.3677
82638519|NCT00920582|164991468|SUPERIORITY||Odds Ratio (OR)|2.197||||0.142|TWO_SIDED|95.0|0.764|6.312|||Mantel Haenszel|||||6.312|0.764|0.142
82521138|NCT04333420|164737400|SUPERIORITY||Hazard Ratio (HR)|0.728||||0.0941|TWO_SIDED|95.0|0.502|1.056|||Regression, Cox|including stratification by site||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including stratification by site; 61 patients from sites with no events (no death) or from single patient sites with death factually make no contribution to the analysis outcome.||1.056|0.502|0.0941
82521139|NCT04333420|164737400|SUPERIORITY||Hazard Ratio (HR)|0.674||||0.0266|TWO_SIDED|95.0|0.476|0.955|||Regression, Cox|Without stratification by site||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) without stratification by site; Post-hoc analysis||0.955|0.476|0.0266
82521140|NCT04333420|164737400|SUPERIORITY||Hazard Ratio (HR)|0.648||||0.0181|TWO_SIDED|95.0|0.453|0.929|||Regression, Cox|Including random effect for site (frailty model)||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including random effect for site (frailty model); Post-hoc analysis||0.929|0.453|0.0181
82521141|NCT04333420|164737400|SUPERIORITY||Hazard Ratio (HR)|0.613||||0.0067|TWO_SIDED|95.0|0.43|0.873|||Regression, Cox|Including stratification by country||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death) including stratification by country; Post-hoc analysis||0.873|0.430|0.0067
82521142|NCT04333420|164737400|SUPERIORITY||Risk Difference (RD)|-11.0||||0.0293|TWO_SIDED|95.0|-20.8|-1.2|||Regression, Logistic|Multiple imputation of missing values|Risk difference and lower/upper limit of the Confidence Interval are given in percent|Sensitivity analysis; 369 patients were included in this analysis including the patient that was randomized in error and not treated. Missing values were imputed by multiple imputation.||-1.2|-20.8|0.0293
82521143|NCT04333420|164737400|SUPERIORITY|||||||0.0407|||||||Log Rank|||Post-hoc analysis||||0.0407
82521144|NCT04333420|164737401|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.6494|TWO_SIDED|95.0|0.103|4.135|||Regression, Cox|Covariate: Treatment (IFX-1 + BSC)||Cox proportional hazards regression model with outcome 28-day all-cause mortality (censored time to event variable with event = Death)||4.135|0.103|0.6494
82521145|NCT04333420|164737405|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0815|TWO_SIDED|95.0|0.519|1.039|||Regression, Cox|||Cox proportional hazards regression model with outcome 60-day all-cause mortality (censored time to event variable with event = Death); Covariate: Treatment (IFX-1 + SOC)||1.039|0.519|0.0815
82521146|NCT04333420|164737406|SUPERIORITY||Risk Difference (RD)|7.352||||0.1553|TWO_SIDED|95.0|-2.762|17.465|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients with an improvement in the 8-point ordinal scale; Risk difference and lower/upper limit of the CI are given in percent|At Day 15||17.465|-2.762|0.1553
82521147|NCT04333420|164737406|SUPERIORITY||Risk Difference (RD)|8.078||||0.1181|TWO_SIDED|95.0|-1.968|18.125|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients with an improvement in the 8-point ordinal scale; Risk difference and lower/upper limit of the CI are given in percent|At Day 28||18.125|-1.968|0.1181
82521148|NCT04333420|164737407|SUPERIORITY||Risk Difference (RD)|-2.081||||0.4105|TWO_SIDED|95.0|-6.949|2.787|||Regression, Logistic||Risk difference (IFX-1 - Placebo) of percentage of patients developing acute kidney failure; Risk difference and lower/upper limit of the CI are given in percent|||2.787|-6.949|0.4105
82521149|NCT04333420|164737408|SUPERIORITY||Hazard Ratio (HR)|0.539||||0.0422|TWO_SIDED|95.0|0.297|0.978||p-value refers to hazard ratio from cause-specific Cox proportional hazards model for first renal replacement therapy.|Regression, Cox|Covariate: Treatment (IFX-1 + SOC)||||0.978|0.297|0.0422
82521150|NCT00361140|164737427|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Chi-squared|||||||.007
82523269|NCT05380947|164741803|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|87.0|||||TWO_SIDED|90.0|66.8|113.2|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 30.5%|||113.2|66.8|
82638520|NCT00920582|164991468|SUPERIORITY||Odds Ratio (OR)|1.487||||0.46|TWO_SIDED|95.0|0.517|4.278|||Mantel Haenszel|||||4.278|0.517|0.460
82638521|NCT00920582|164991468|SUPERIORITY||Odds Ratio (OR)|1.954||||0.199|TWO_SIDED|95.0|0.69|5.532|||Mantel Haenszel|||||5.532|0.690|0.199
82638522|NCT05146999|164991474|SUPERIORITY||Treatment difference|83.8|||<|0.001|TWO_SIDED|95.0|72.81|94.87|||Cochran-Mantel-Haenszel|||||94.87|72.81|<0.001
82521151|NCT00361140|164737428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.27||||0.07|TWO_SIDED|95.0|0.92|42.48|||Gray|Gray RJ. A class of K-sample tests for comparing the cumulative incidence of a competing risk. Ann Stat. 1988;16:1141-1154.||Sample size: dependent on dose escalation. Once the maximum tolerated dose (MTD) is reached, a total of 30 patients will be accrued to that level. If maximally tolerated AUC is level 1, a total of 30 patients will be treated on this level using tacrolimus and methotrexate as GVHD prophylaxis. This will provide 95% confidence intervals for 100-day non-relapse mortality and non-fatal toxicities with ½ widths not exceeding 0.18. Hazard ratios were calculated per the method of Gray (reference given)||42.48|0.92|.07
82521152|NCT03563716|164737429|SUPERIORITY||Odds Ratio (OR)|2.57|||||TWO_SIDED|95.0|1.07|6.14|||||95% CI for odds ratio was constructed using the Wald method.|Stratified analysis based on PD-L1 immunohistochemistry (IHC) 22C3 pharmDx, tumor histology status, and tobacco history.||6.14|1.07|
82521153|NCT03563716|164737430|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.37|0.9|||||Hazard ratios were estimated by Cox regression.|Stratified analysis based on PD-L1 IHC 22C3 pharmDx, tumor histology status, and tobacco history.||0.90|0.37|
82572439|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|58.8||||||95.0|32.9|81.6||||||Elderly: Age ≥ 65 years||81.6|32.9|
82572440|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|54.5||||||95.0|23.4|83.3||||||Renal insufficiency (CCC \< 30 mL/min)||83.3|23.4|
82572441|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|81.0||||||95.0|58.1|94.6||||||Use of Central venous catheter = Yes||94.6|58.1|
82385351|NCT02915705|164482132|SUPERIORITY||difference in LS means|43.46||||0.0514|TWO_SIDED|95.0|-0.26|87.17|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||87.17|-0.26|0.0514
82385352|NCT02915705|164482133|SUPERIORITY||difference in LS means|45.55||||0.0399|TWO_SIDED|95.0|2.09|89.02|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||89.02|2.09|0.0399
82442878|NCT02699450|164594418|SUPERIORITY||Difference in Least Squares Means|2.3||||0.15|TWO_SIDED|80.0|0.2|4.3||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.3|0.2|0.15
82442879|NCT02699450|164594418|SUPERIORITY||Difference in Least Squares Means|2.9||||0.04|TWO_SIDED|80.0|1.1|4.7||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline BCVA.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.7|1.1|0.04
82521154|NCT04605978|164737437|SUPERIORITY||Mean Difference (Net)|2.44|||||TWO_SIDED|95.0|-0.61|5.49|||||Missing data and data post intercurrent event were imputed for the statistical analysis as specified in the statistical analysis plan.|||5.49|-0.61|
82521155|NCT01644734|164737466|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Null hypothesis: no change in the total CAT score between baseline and after 3 months.||||<0.001
82521156|NCT02157779|164737479|SUPERIORITY||Least Squares Mean Difference|-5.68||||0.017|TWO_SIDED|95.0|-10.32|-1.01||Threshold for statistical significance was 0.025.|ANCOVA|Method used: Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4wk, 8wk, end of treatment, 3 mo f/u, and/or 6 mo f/u) were used in the HLM analyses.||-1.01|-10.32|.017
82521157|NCT02157779|164737480|SUPERIORITY||Least Squares Mean Difference|-0.14||||0.19|TWO_SIDED|95.0|-0.33|0.06||The threshold for statistical significance was p=0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.||Population Description: All randomized participants with at least one post-baseline assessment (4wk, 8wk, end of treatment, 3 mo f/u, and/or 6 mo f/u) were used in the statistical analysis. Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|0.06|-0.33|0.19
82521158|NCT02157779|164737481|SUPERIORITY||Least Squares Mean Difference|-0.42||||0.011|TWO_SIDED|95.0|-0.75|-0.09||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score||Population Description: All randomized participants with at least one post-baseline assessment were used in the statistical analysis process.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|-0.09|-0.75|.011
82638523|NCT03319160|164991477|OTHER||Incidence per 100 patient-years|7.5|STANDARD_DEVIATION|2.74|||TWO_SIDED|95.0|6.3|8.7|||||"Poisson distribution assumed due to the infrequent nature of the events. Number of appropriate shock events: 19 (17 subjects had one appropriate shock event, one subject had two appropriate shock events).~Length of exposure: 253 patient-years."|||8.7|6.3|
82638524|NCT03319160|164991479|OTHER||Incidence per 100 patient-years|3.2|STANDARD_DEVIATION|1.78|||TWO_SIDED|95.0|1.9|4.4|||||||Poisson distribution assumed due to the infrequent nature of the events. Number of inappropriately shocked events: 8. Length of exposure: 253 patient-years.|4.4|1.9|
82638525|NCT01333501|164991502|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.86|STANDARD_ERROR_OF_MEAN|2.7||0.494|TWO_SIDED|95.0|-3.51|7.23|||ANCOVA|||||7.23|-3.51|0.4940
82521159|NCT02157779|164737482|SUPERIORITY||Least Squares Mean Difference|-0.26||||0.16|TWO_SIDED|95.0|-0.63|0.11||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (12 weeks (end of treatment, 3 month and/or 6 month follow-up) were included in the analyses.||0.11|-0.63|0.16
82521160|NCT02157779|164737483|SUPERIORITY||Least Squares Mean Difference|-11.65||||0.031|TWO_SIDED|95.0|-22.2|-1.09||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (12 weeks (end of treatment), 3 month and/or 6 month follow-up) were included in the statistical analyses.||-1.09|-22.20|.031
82638526|NCT01333501|164991503|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.97|STANDARD_ERROR_OF_MEAN|3.03||0.5183|TWO_SIDED|95.0|-4.06|7.99|||ANCOVA|||||7.99|-4.06|0.5183
82638527|NCT01333501|164991504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|1.05||0.1334|TWO_SIDED|95.0|-3.69|0.5|||ANCOVA|||||0.50|-3.69|0.1334
82638528|NCT01333501|164991505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.73|STANDARD_ERROR_OF_MEAN|2.29||0.4501|TWO_SIDED|95.0|-6.27|2.81|||ANCOVA|||||2.81|-6.27|0.4501
82638529|NCT01333501|164991506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|2.53||0.8561|TWO_SIDED|95.0|-4.57|5.49|||ANCOVA|||||5.49|-4.57|0.8561
82638530|NCT01333501|164991507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|2.53||0.8858|TWO_SIDED|95.0|-4.67|5.4|||ANCOVA|||||5.40|-4.67|0.8858
82638531|NCT01333501|164991508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.47||0.7119|TWO_SIDED|95.0|-0.76|1.11|||ANCOVA|||||1.11|-0.76|0.7119
82638532|NCT01333501|164991509|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.42||0.9496|TWO_SIDED|95.0|-0.86|0.81|||ANCOVA|||||0.81|-0.86|0.9496
82638533|NCT01333501|164991510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|1.18||0.8944|TWO_SIDED|95.0|-2.18|2.5|||ANCOVA|||||2.50|-2.18|0.8944
82638534|NCT01333501|164991511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.59||0.6757|TWO_SIDED|95.0|-1.42|0.92|||ANCOVA|||||0.92|-1.42|0.6757
82638535|NCT01333501|164991512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|2.34||0.3585|TWO_SIDED|95.0|-6.82|2.5|||ANCOVA|||||2.50|-6.82|0.3585
82638536|NCT01333501|164991513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.24|STANDARD_ERROR_OF_MEAN|3.69||0.161|TWO_SIDED|95.0|-12.62|2.14|||ANCOVA|||||2.14|-12.62|0.1610
82638537|NCT00796367|164991557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.71|STANDARD_ERROR_OF_MEAN|0.673|<|0.0001|TWO_SIDED|95.0|7.39|10.03||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||10.03|7.39|<0.0001
82638538|NCT00796367|164991557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.52|STANDARD_ERROR_OF_MEAN|0.799|<|0.0001|TWO_SIDED|95.0|5.95|9.09||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||9.09|5.95|<0.0001
82638539|NCT00796367|164991557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|0.76||0.1189|TWO_SIDED|95.0|-0.31|2.68||Intersection-union method applied in a step-down testing approach|ANCOVA|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||2.68|-0.31|0.1189
82638540|NCT00796367|164991558|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.4|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|6.24|14.16||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||14.16|6.24|<0.0001
82638541|NCT00796367|164991558|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.99|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|4.36|11.19||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||11.19|4.36|<0.0001
82638542|NCT00796367|164991558|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|STANDARD_ERROR_OF_MEAN|0.32||0.2169|TWO_SIDED|95.0|0.84|2.15|||Regression, Logistic|||No formal calculation of sample size was conducted due to being an extension study of OB-303 (NCT00553787)||2.15|0.84|0.2169
82638543|NCT00643851|164991565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.1243|<|0.0001|TWO_SIDED|95.0|-1.11|-0.62||Primary endpoint was tested at alpha=0.05; significance was claimed only if DAPA 5MG + MET was superior to both controls.|ANCOVA|||||-0.62|-1.11|<0.0001
82385353|NCT02915705|164482134|SUPERIORITY||difference in LS means|6.72||||0.0633|TWO_SIDED|95.0|-0.37|13.82|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||13.82|-0.37|0.0633
82572442|NCT00537329|164854420|SUPERIORITY_OR_OTHER||2-sided exact Clopper-Pearson (percent)|71.4||||||95.0|29.0|96.3||||||Receiving chemotherapy = Yes||96.3|29.0|
82638544|NCT00643851|164991565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1245|<|0.0001|TWO_SIDED|95.0|-0.94|-0.45||Primary endpoint was tested at alpha=0.05; significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.45|-0.94|<0.0001
82638545|NCT00643851|164991566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.1|STANDARD_ERROR_OF_MEAN|3.883|<|0.0001|TWO_SIDED|95.0|-26.7|-11.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-11.4|-26.7|<0.0001
82638546|NCT00643851|164991566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.5|STANDARD_ERROR_OF_MEAN|3.897|<|0.0001|TWO_SIDED|95.0|-35.1|-19.8||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-19.8|-35.1|<0.0001
82638547|NCT00643851|164991567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.9|STANDARD_ERROR_OF_MEAN|4.633|<|0.0001|TWO_SIDED|95.0|20.8|39.0||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|modified logistic regression|||||39.0|20.8|<0.0001
82638548|NCT00643851|164991567|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|4.947||0.0003|TWO_SIDED|95.0|8.1|27.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||27.4|8.1|0.0003
82638549|NCT00643851|164991568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|0.1938|<|0.0001|TWO_SIDED|95.0|-1.72|-0.96||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.96|-1.72|<0.0001
82385354|NCT02915705|164482135|SUPERIORITY||difference in LS means|7.27||||0.0496|TWO_SIDED|95.0|0.01|14.52|||GEE model|||2-sided p value per GEE model, which included change from baseline for the parameter as the dependent variable, treatment group, visit, interaction between treatment group by visit, baseline age and baseline RSS stratification as factors, baseline parameter measure as a covariate, with exchangeable covariance structure.||14.52|0.01|0.0496
82638550|NCT00643851|164991568|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|0.1912|<|0.0001|TWO_SIDED|95.0|-1.57|-0.82||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.82|-1.57|<0.0001
82385355|NCT06868654|164482136|OTHER||Hazard Ratio (HR)|0.24|||||TWO_SIDED|95.0|0.11|0.56|||||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||0.56|0.11|
82385356|NCT01022307|164482159|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis showed that the effect size was small, with a 50% chance of detecting a p \< 0.05 effect requiring 247 subjects.|||||<|0.04|TWO_SIDED||||||F-test|Greenhouse Geisser correction.||F-test evaluating effects of Group||||< 0.04
82385357|NCT03867201|164482168|SUPERIORITY||Mean Difference (Net)|-1.57|STANDARD_ERROR_OF_MEAN|0.64||0.015|TWO_SIDED|95.0|-2.83|-0.3|||Mixed Models Analysis|||||-0.30|-2.83|0.015
82385358|NCT05763875|164482174|SUPERIORITY||LS Mean Difference|-35.37|||<|0.0001|TWO_SIDED|95.0|-40.88|-29.86|||ANCOVA|||Treatment Policy Estimand||-29.86|-40.88|<0.0001
82385359|NCT05763875|164482174|SUPERIORITY||LS Mean Difference|-47.91|||<|0.0001|TWO_SIDED|95.0|-53.62|-42.2|||ANCOVA|||Treatment Policy Estimand||-42.20|-53.62|<0.0001
82385360|NCT05763875|164482174|SUPERIORITY||LS Mean Difference|-37.44|||<|0.0001|TWO_SIDED|95.0|-42.63|-32.26|||ANCOVA|||Monotherapy Estimand||-32.26|-42.63|<0.0001
82385361|NCT05763875|164482174|SUPERIORITY||LS Mean Difference|-50.9|||<|0.0001|TWO_SIDED|95.0|-56.51|-45.28|||ANCOVA|||Monotherapy Estimand||-45.28|-56.51|<0.0001
82385362|NCT05763875|164482175|SUPERIORITY||LS Mean Difference|-47.37|||<|0.0001|TWO_SIDED|95.0|-53.91|-40.72|||ANCOVA|||Treatment Policy Estimand||-40.72|-53.91|<0.0001
82385363|NCT05763875|164482175|SUPERIORITY||LS Mean Difference|-63.57|||<|0.0001|TWO_SIDED|95.0|-70.28|-56.87|||ANCOVA|||Treatment Policy Estimand||-56.87|-70.28|<0.0001
82385364|NCT05763875|164482175|SUPERIORITY||LS Mean Difference|-50.05|||<|0.0001|TWO_SIDED|95.0|-56.16|-43.94|||ANCOVA|||Monotherapy Estimand||-43.94|-56.16|<0.0001
82442880|NCT02699450|164594419|SUPERIORITY||Difference in Least Squares Means|0.8||||0.94|TWO_SIDED|80.0|-11.3|12.8||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||12.8|-11.3|0.94
82523431|NCT01422408|164742359|OTHER|||||||0.7395||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.7395
82523432|NCT01422408|164742360|OTHER|||||||0.9618||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.9618
82385365|NCT05763875|164482175|SUPERIORITY||LS Mean Difference|-67.51|||<|0.0001|TWO_SIDED|95.0|-74.09|-60.92|||ANCOVA|||Monotherapy Estimand||-60.92|-74.09|<0.0001
82523433|NCT01422408|164742361|OTHER|||||||0.5113||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.5113
82523434|NCT01422408|164742362|OTHER|||||||0.8833||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.8833
82523435|NCT01422408|164742363|OTHER|||||||0.7983||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.7983
82523436|NCT01422408|164742364|OTHER|||||||0.4937||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.4937
82523437|NCT01422408|164742365|OTHER|||||||0.9106||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.9106
82385366|NCT05763875|164482176|SUPERIORITY||LS Mean Difference|-73.16|||<|0.0001|TWO_SIDED|95.0|-81.76|-64.56|||ANCOVA|||Treatment Policy Estimand||-64.56|-81.76|<0.0001
82385367|NCT05763875|164482176|SUPERIORITY||LS Mean Difference|-74.94|||<|0.0001|TWO_SIDED|95.0|-84.51|-65.37|||ANCOVA|||Treatment Policy Estimand||-65.37|-84.51|<0.0001
82521161|NCT02157779|164737484|SUPERIORITY||Least Squares Mean Difference|1.56||||0.004|TWO_SIDED|95.0|0.51|2.6||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.||All randomized participants with at least one post-baseline assessment (week 12 (end of treatment), 3 month, and/or 6 month follow-up) were used in the statistical analysis.|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|2.60|0.51|0.004
82521162|NCT02157779|164737485|SUPERIORITY||Least Squares Mean Difference|-2.15||||0.416|TWO_SIDED|95.0|-7.37|3.07||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI|All randomized participants with at least one post-baseline assessment were used in the statistical analysis process.||3.07|-7.37|0.416
82521163|NCT02157779|164737486|SUPERIORITY||Least Squares Mean Difference|-13.72||||0.028|TWO_SIDED|95.0|-25.94|-1.5||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment were used in the analyses.||-1.50|-25.94|0.028
82521164|NCT02157779|164737487|SUPERIORITY|||||||0.13|||||||ANOVA|GLM Repeated Measures Analysis of Variance of means grouped by sessions 1-4, 5-8, and 9-12||All randomized participants with at least one DAR completed in each time frame (sessions 1-4, 5-8, and 9-12) were included in the analyses. The mean DAR scores for sessions 1-4, 5-8, and 9-12 were calculated and used as outcome variables in the GLM repeated measures ANOVA.||||0.13
82638551|NCT00643851|164991569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.3388||0.8769|TWO_SIDED|95.0|-0.72|0.61||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||0.61|-0.72|0.8769
82638552|NCT00643851|164991569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3399|<|0.0001|TWO_SIDED|95.0|-2.04|-0.71||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.71|-2.04|<0.0001
82385368|NCT05763875|164482176|SUPERIORITY||LS Mean Difference|-76.87|||<|0.0001|TWO_SIDED|95.0|-85.12|-68.62|||ANCOVA|||Monotherapy Estimand||-68.62|-85.12|<0.0001
82521165|NCT02157779|164737488|SUPERIORITY||Least Squares Mean Difference|-0.82||||0.03|TWO_SIDED|95.0|-1.578|-0.063||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (week 4, week 8, week 12 (end of treatment), 3 mo and/or 6 month follow-up) were included in the HLM analyses.||-0.063|-1.578|0.030
82523270|NCT05380947|164741804|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T1/R)|129.1|||||TWO_SIDED|90.0|96.2|173.4|||||Unit of adjusted geometric means ratio (T1/R) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) =36.6%|||173.4|96.2|
82385369|NCT05763875|164482176|SUPERIORITY||LS Mean Difference|-79.47|||<|0.0001|TWO_SIDED|95.0|-88.77|-70.17|||ANCOVA|||Monotherapy Estimand||-70.17|-88.77|<0.0001
82385370|NCT05763875|164482177|SUPERIORITY||LS Mean Difference|-30.48|||<|0.0001|TWO_SIDED|95.0|-34.98|-25.98|||ANCOVA|||Treatment Policy Estimand||-25.98|-34.98|<0.0001
82521166|NCT02157779|164737489|SUPERIORITY||Least Squares Mean Difference|-0.085||||0.021|TWO_SIDED|95.0|-0.158|-0.011||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||-0.011|-0.158|0.021
82521167|NCT02157779|164737490|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.246|TWO_SIDED|95.0|-0.283|0.073||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were used in the HLM analysis. Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data.||0.073|-0.283|0.246
82521168|NCT02157779|164737491|SUPERIORITY||Least Squares Mean Difference|-0.14||||0.036|TWO_SIDED|95.0|-0.27|-0.01||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment were used in the statistical analysis. Data were winsorized and log 10 transformed to counter high levels of skewness.||-0.01|-0.27|0.036
82521169|NCT02157779|164737492|SUPERIORITY||Least Squares Mean Difference|-0.026||||0.786|TWO_SIDED|95.0|-0.213|0.1614||Threshold for statistical significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||0.1614|-0.213|0.786
82638553|NCT00643851|164991570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.4191|||TWO_SIDED|95.0|-0.98|0.66||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||0.66|-0.98|
82638554|NCT00643851|164991570|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.4201|||TWO_SIDED|95.0|-2.4|-0.74||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. Significance was claimed only if DAPA 5MG + MET is superior to both controls.|ANCOVA|||||-0.74|-2.40|
82638555|NCT00465894|164991590|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||.45
82385371|NCT05763875|164482177|SUPERIORITY||LS Mean Difference|-42.32|||<|0.0001|TWO_SIDED|95.0|-47.83|-36.82|||ANCOVA|||Treatment Policy Estimand||-36.82|-47.83|<0.0001
82385372|NCT05763875|164482177|SUPERIORITY||LS Mean Difference|-31.98|||<|0.0001|TWO_SIDED|95.0|-36.07|-27.89|||ANCOVA|||Monotherapy Estimand||-27.89|-36.07|<0.0001
82638556|NCT01018680|164991672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||Using a 1:1 ratio of allocation to treatment, a 2-tailed 0.05 level of significance and 80% power, 253 participants per arm had been estimated to be adequate to assess an effect size of 0.25, based on a 2-sample Student's t-test. This derived estimate was increased slightly to 261 participants per arm to account for extremely early discontinuation that would have led to exclusion from the efficacy analysis in a small number of participants (approximately 3%).||||<0.001
82385373|NCT05763875|164482177|SUPERIORITY||LS Mean Difference|-44.86|||<|0.0001|TWO_SIDED|95.0|-50.28|-39.44|||ANCOVA|||Monotherapy Estimand||-39.44|-50.28|<0.0001
82385374|NCT05763875|164482178|SUPERIORITY||LS Mean Difference|-24.84|||<|0.0001|TWO_SIDED|95.0|-30.32|-19.36|||ANCOVA|||Treatment Policy Estimand||-19.36|-30.32|<0.0001
82385375|NCT05763875|164482178|SUPERIORITY||LS Mean Difference|-33.85|||<|0.0001|TWO_SIDED|95.0|-41.27|-26.44|||ANCOVA|||Treatment Policy Estimand||-26.44|-41.27|<0.0001
82385376|NCT05763875|164482178|SUPERIORITY||LS Mean Difference|-26.58|||<|0.0001|TWO_SIDED|95.0|-32.07|-21.09|||ANCOVA|||Monotherapy Estimand||-21.09|-32.07|<0.0001
82385377|NCT05763875|164482178|SUPERIORITY||LS Mean Difference|-36.06|||<|0.0001|TWO_SIDED|95.0|-43.46|-28.67|||ANCOVA|||Monotherapy Estimand||-28.67|-43.46|<0.0001
82385378|NCT05763875|164482179|SUPERIORITY||LS Mean Difference|-28.98|||<|0.0001|TWO_SIDED|95.0|-33.3|-24.65|||ANCOVA|||Treatment Policy Estimand||-24.65|-33.30|<0.0001
82572443|NCT03599622|164854421|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|4.3||||0.5812|TWO_SIDED|95.0|-11.0|19.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||19.5|-11.0|0.5812
82572444|NCT03599622|164854421|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.2||||0.5812|TWO_SIDED|95.0|0.6|2.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||2.5|0.6|0.5812
82385379|NCT05763875|164482179|SUPERIORITY||LS Mean Difference|-36.66|||<|0.0001|TWO_SIDED|95.0|-41.1|-32.22|||ANCOVA|||Treatment Policy Estimand||-32.22|-41.10|<0.0001
82572445|NCT03599622|164854421|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-6.3||||0.372|TWO_SIDED|95.0|-20.2|7.6||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||7.6|-20.2|0.3720
82572446|NCT03599622|164854421|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|0.7||||0.372|TWO_SIDED|95.0|0.3|1.5||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.5|0.3|0.3720
82572447|NCT03599622|164854422|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|15.0||||0.0198|TWO_SIDED|95.0|3.7|26.3||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||26.3|3.7|0.0198
82638557|NCT01018680|164991673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001||95.0||||First gated secondary outcome measure. Gatekeeper strategy (Westfall and Krishen 2001) controlled experiment-wise type I error for 2 secondary outcomes with sequential comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638558|NCT01018680|164991674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.84|||<|0.001||95.0||||WOMAC Physical Disability Score p-value. Second gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 2 secondary outcomes with sequential treatment comparisons until outcome failed significance (p\>0.05).|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638559|NCT01018680|164991674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.001||95.0||||This is the p-value for the WOMAC Pain Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82572448|NCT03599622|164854422|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|3.4||||0.0198|TWO_SIDED|95.0|1.2|9.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||9.8|1.2|0.0198
82572449|NCT03599622|164854422|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|8.2||||0.1584|TWO_SIDED|95.0|-2.6|19.0||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||19.0|-2.6|0.1584
82572450|NCT03599622|164854422|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|2.1||||0.1584|TWO_SIDED|95.0|0.7|6.1||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||6.1|0.7|0.1584
82572451|NCT03599622|164854423|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|7.7||||0.3464|TWO_SIDED|95.0|-8.2|23.6||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||23.6|-8.2|0.3464
82572452|NCT03599622|164854423|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.4||||0.3464|TWO_SIDED|95.0|0.7|2.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||2.8|0.7|0.3464
82385380|NCT05763875|164482179|SUPERIORITY||LS Mean Difference|-30.16|||<|0.0001|TWO_SIDED|95.0|-34.08|-26.23|||ANCOVA|||Monotherapy Estimand||-26.23|-34.08|<0.0001
82385381|NCT05763875|164482179|SUPERIORITY||LS Mean Difference|-38.78|||<|0.0001|TWO_SIDED|95.0|-43.12|-34.43|||ANCOVA|||Monotherapy Estimand||-34.43|-43.12|<0.0001
82385382|NCT05763875|164482180|SUPERIORITY||LS Mean Difference|-30.24|||<|0.0001|TWO_SIDED|95.0|-36.92|-23.57|||ANCOVA|||Treatment Policy Estimand||-23.57|-36.92|<0.0001
82385383|NCT05763875|164482180|SUPERIORITY||LS Mean Difference|-35.15|||<|0.0001|TWO_SIDED|95.0|-41.18|-29.12|||ANCOVA|||Treatment Policy Estimand||-29.12|-41.18|<0.0001
82638560|NCT01018680|164991674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.004||95.0||||This is the p-value for WOMAC Stiffness Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.004
82521170|NCT02157779|164737493|SUPERIORITY||Least Squares Mean Difference|-0.02||||0.744|TWO_SIDED|95.0|-0.18|0.13||Threshold for significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis.~Data were winsorized and log10 transformed to counter high levels of skewness. Full Information Maximum Likelihood was used to account for missing data."||0.13|-0.18|0.744
82521171|NCT02157779|164737494|SUPERIORITY||Least Squares Mean Difference|-1.85||||0.002|TWO_SIDED|95.0|-3.038|-0.663||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4 week, 8 week, 12 week, 3 month and/or 6 month follow-up) were included in the HLM analysis. Full Information Maximum Likelihood was used to account for missing data.||-0.663|-3.038|0.002
82385384|NCT05763875|164482180|SUPERIORITY||LS Mean Difference|-32.34|||<|0.0001|TWO_SIDED|95.0|-39.1|-25.59|||ANCOVA|||Monotherapy Estimand||-25.59|-39.10|<0.0001
82385385|NCT05763875|164482180|SUPERIORITY||LS Mean Difference|-37.38|||<|0.0001|TWO_SIDED|95.0|-43.44|-31.31|||ANCOVA|||Monotherapy Estimand||-31.31|-43.44|<0.0001
82385386|NCT05763875|164482181|SUPERIORITY||Ratio of Geometric Mean|0.757||||0.0002|TWO_SIDED|95.0|0.65|0.882|||ANCOVA|||Treatment Policy Estimand||0.882|0.650|0.0002
82385387|NCT05763875|164482181|SUPERIORITY||Ratio of Geometric Mean|0.748||||0.001|TWO_SIDED|95.0|0.622|0.898|||ANCOVA|||Treatment Policy Estimand||0.898|0.622|0.0010
82385388|NCT05763875|164482181|SUPERIORITY||Ratio of Geometric Mean|0.753|||<|0.0001|TWO_SIDED|95.0|0.652|0.871|||ANCOVA|||Monotherapy Estimand||0.871|0.652|<0.0001
82385389|NCT05763875|164482181|SUPERIORITY||Ratio of Geometric Mean|0.746||||0.0008|TWO_SIDED|95.0|0.622|0.893|||ANCOVA|||Monotherapy Estimand||0.893|0.622|0.0008
82385390|NCT02186873|164482193|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|47.1|||<|0.001|TWO_SIDED|95.0|35.18|58.99|||Cochran-Mantel-Haenszel|||||58.99|35.18|<0.001
82385391|NCT06047366|164482203|OTHER|||||||0.18||||||p \< 0.05 was used as the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.18
82385392|NCT06047366|164482204|OTHER|||||||0.09||||||p \< 0.05 was used as the threshold for statistical significance|Log Rank|||||||0.09
82521172|NCT02157779|164737495|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.186|TWO_SIDED|95.0|-2.518|0.524||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis. Full Information Maximum Likelihood was used to account for missing data.||0.524|-2.518|0.186
82521173|NCT02157779|164737496|SUPERIORITY||Least Squares Mean Difference|1.26||||0.164|TWO_SIDED|95.0|-0.56|3.09||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|"All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||3.09|-0.560|0.164
82521174|NCT02157779|164737497|SUPERIORITY||Least Squares Mean Difference|1.33||||0.1|TWO_SIDED|95.0|-0.26|2.92||Threshold for statistical significance was 0.025.|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, Controlling for Baseline Score|A positive difference means that the adjusted mean for CBI is numerically higher than that for SI.|"All randomized participants with at least one post-baseline assessment (4wk, 8wk, 12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||2.92|-0.26|0.100
82521175|NCT02157779|164737498|SUPERIORITY||Least Squares Mean Difference|-6.29||||0.06|TWO_SIDED|95.0|-12.85|0.27||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.||"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI, indicating less symptomatic distress.|0.27|-12.85|0.060
82638561|NCT01018680|164991675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.001||95.0||||This is the p-value for Night Pain Intensity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638562|NCT01018680|164991675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|||<|0.001||95.0||||This is the p-value for Worst Pain Intensity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638563|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||<|0.001||95.0||||This is the p-value for BPI-S for Worst Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638564|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001||95.0||||This is the p-value for BPI-S for Least Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638565|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001||95.0||||This is the p-value for BPI-S for Average Pain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82521176|NCT02157779|164737499|SUPERIORITY||Least Squares Mean Difference|-3.271||||0.023|TWO_SIDED|95.0|-6.083|-0.458||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||-0.458|-6.083|0.023
82521177|NCT02157779|164737500|SUPERIORITY||Least Squares Mean Difference|-1.28||||0.23|TWO_SIDED|95.0|-3.39|0.82||Threshold for significance was 0.025|ANCOVA|Hierarchical Linear Model (HLM) Repeated Measures Analysis of Covariance, controlling for baseline score.|A negative difference means that the adjusted mean for CBI is numerically lower than that for SI.|"All randomized participants with at least one post-baseline assessment (12 week (end of treatment), 3 mo and/or 6 mo follow-up) were included in the HLM analysis.~Full Information Maximum Likelihood was used to account for missing data."||0.82|-3.39|0.23
82521178|NCT02548455|164737504|EQUIVALENCE|Freedom from left ventricular lead-related complications through 3 months was estimated to be 96.0% with a 95% lower confidence bound of 92.6% based on the Promote Q IDE study (NCT00990665), and 98.3% with a 95% lower confidence bound of 97.7% based on data from the Quadripolar Post-Approval study (NCT01555619).|Kaplan-Meier Estimate|85.0||||0.05|TWO_SIDED||||||Log Rank|||"The hypothesis for the endpoint is:~H0: Freedom from LV lead-related complications through 3 months (91 days) ≤ 85% H1: Freedom from LV lead-related complications through 3 months (91 days) \> 85%~A total of 85 subjects were required to have at least 80% power to reject the null hypothesis at the 5% significance level at three months (91 days) post-implant or attempted implant. After accounting for 9% attrition, the required sample size was 94 subjects."||||0.05
82521179|NCT01992380|164737505|OTHER||ICC|0.971|||||TWO_SIDED|95.0|0.935|0.988|||||Assessed the agreement between the test and retest imaging of the combination VOI SUVr|Intraclass correlation coefficient \[ICC(2,1)\] analysis from Shrout and Fleiss||0.988|0.935|
82521180|NCT01992380|164737506|OTHER||ICC|0.968|||||TWO_SIDED|95.0|0.926|0.986|||||Assessed the agreement between the test and retest imaging of the combination VOI SUVr|Intraclass correlation coefficient \[ICC(2,1)\] analysis from Shrout and Fleiss||0.986|0.926|
82521181|NCT01175850|164737510|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Z-test|Z-test of two proportions was used to compare treatment groups for all randomized subjects.||||||<0.001
82521182|NCT01175850|164737511|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521183|NCT01175850|164737512|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521184|NCT01175850|164737513|SUPERIORITY_OR_OTHER|||||||0.926|TWO_SIDED||||||Chi-squared|||||||0.926
82521185|NCT01175850|164737514|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521186|NCT01175850|164737515|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521187|NCT01175850|164737516|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||Chi-squared|||||||0.859
82521188|NCT01175850|164737517|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
82521189|NCT01175850|164737518|SUPERIORITY_OR_OTHER|||||||0.096|TWO_SIDED||||||Chi-squared|||||||0.096
82521190|NCT01175850|164737519|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521191|NCT01175850|164737520|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED||||||Chi-squared|||||||0.121
82521192|NCT01175850|164737521|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
82521193|NCT01175850|164737522|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82521194|NCT01175850|164737523|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED||||||Chi-squared|||||||0.095
82521195|NCT01175850|164737524|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Chi-squared|||||||0.590
82521196|NCT01175850|164737525|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED||||||Chi-squared|||||||0.302
82521197|NCT01175850|164737526|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED||||||Chi-squared|||||||0.111
82521198|NCT01175850|164737527|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Chi-squared|||||||0.103
82521199|NCT01175850|164737528|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Chi-squared|||||||0.049
82521200|NCT01137474|164737539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|0.9251||0.001|TWO_SIDED|95.0|-4.87|-1.24||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. Data after rescue were not included in the analysis. With 253 patients per group, there is \>80% power to detect a difference of 3.5 mm Hg at alpha=0.05, assuming a common SD of 14 mm Hg.||-1.24|-4.87|0.0010
82521201|NCT01137474|164737540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.0673|<|0.0001|TWO_SIDED|95.0|-0.59|-0.33||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in the double-blind treatment period were included in the longitudinal repeated measures model||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. With 253 subjects per group, there is \>98% power to detect a difference of 0.4% at a=0.05, assuming a common SD of 1.1%.||-0.33|-0.59|<0.0001
82572453|NCT03599622|164854423|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-1.2||||0.8857|TWO_SIDED|95.0|-17.0|14.7||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||14.7|-17.0|0.8857
82572454|NCT03599622|164854423|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.0||||0.8857|TWO_SIDED|95.0|0.5|1.9||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.9|0.5|0.8857
82638566|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001||95.0||||This is the p-value for BPI-S for Pain Right Now. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82385393|NCT01234870|164482216|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The MR images resulting from two different image acquisition techniques, including Non-Corrected Breath-Hold Shallow-Breathing and Motion-Corrected, were assessed independently by two radiologists (average of 7 years of experience in reading cardiac MRI) using the American Heart Association modified 16 segment model and were evaluated using a four point Likert scale (1 = poor, 2 = fair, 3 = good, and 4 = excellent) for image quality||||<0.001
82385394|NCT00603902|164482257|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio, log|2.69|||<|0.0001|TWO_SIDED|95.0|2.31|3.13|||Regression, Logistic|Adjustments for baseline body weight.||||3.13|2.31|<0.0001
82385395|NCT00603902|164482258|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.44|-2.56|||ANCOVA|||||-2.56|-3.44|<0.0001
82385396|NCT00459290|164482264|SUPERIORITY_OR_OTHER|||||||0.7912|||||||Log Rank|||||||0.7912
82385397|NCT00459290|164482265|SUPERIORITY_OR_OTHER|||||||0.1545|||||||Log Rank|||||||0.1545
82385398|NCT00459290|164482266|SUPERIORITY_OR_OTHER|||||||0.0648|||||||Log Rank|||||||0.0648
82385399|NCT06152224|164482267|EQUIVALENCE|"Power analysis was determined based on a 4.3 point improvement on the Vaizey score in both groups.~With an allowable difference of 1 point between randomized groups, standard deviation = 3, margin = 4.3, power = 0.8, alpha = 0.05, attrition = 25 percent."|Mean Difference (Final Values)|-4.3|STANDARD_DEVIATION|3.0||0.918|TWO_SIDED|||||a priori threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.918
82385400|NCT06152224|164482272|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.801||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.801
82385401|NCT06152224|164482272|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.317||||||a priori threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline||||0.317
82385402|NCT06152224|164482273|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline Brink Score: Pressure||||<0.001
82385403|NCT06152224|164482273|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Pressure||||<0.001
82385404|NCT06152224|164482274|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Change from baseline in Brink Score: Vertical Displacement||||<0.001
82385405|NCT06152224|164482274|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Vertical Displacement||||<0.001
82385406|NCT06152224|164482275|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Duration Contraction||||<0.001
82385407|NCT06152224|164482275|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.|||||<|0.001||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||change from baseline in Brink Score: Duration Contraction||||<0.001
82385408|NCT06152224|164482285|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.035||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q1. The app was easy to use||||0.035
82385409|NCT06152224|164482285|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.063||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q2. It was easy for me to learn to use the app||||0.063
82385410|NCT06152224|164482285|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.587||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q11. I would use this app again||||0.587
82385411|NCT06152224|164482285|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.107||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q12. Overall, I am satisfied with this app||||0.107
82385412|NCT06152224|164482285|EQUIVALENCE|Power analysis was determined based on a 3 point improvement on the Vaizey score in both groups. With an allowable difference of 1 point between randomized groups, type I error level = 0.05, power = 0.8, and standard deviation of outcome of 4.||||||0.486||||||a prior threshold 0.05|t-test, 2 sided|continuous outcome||Q15. The app helped me manage my health effectively||||0.486
82385413|NCT02074358|164482286|SUPERIORITY_OR_OTHER||mixed effect model|425.3|||<|0.001|TWO_SIDED|95.0|219.8|630.7|||Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||630.7|219.8|<0.001
82385414|NCT02074358|164482286|SUPERIORITY_OR_OTHER||mixed effect model|90.6||||0.131|TWO_SIDED|95.0|-31.3|212.4||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for any secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||212.4|-31.3|0.131
82385415|NCT02074358|164482287|SUPERIORITY_OR_OTHER||mixed effect model|-0.21||||0.389|TWO_SIDED|95.0|-0.73|0.3||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for other secondary endpoints since a non-significant treatment difference was observed for this first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|TGA Lag Time. ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.30|-0.73|0.389
82521202|NCT01137474|164737541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.89|STANDARD_ERROR_OF_MEAN|1.0091||0.0043|TWO_SIDED|95.0|-4.88|-0.91||Endpoint tested following a sequential testing procedure at 2-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|ANCOVA|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 LOCF was calculated using an ANCOVA model with treatment group as an effect and baseline value and randomization strata as covariate. Data after rescue are excluded from blood pressure analyses.||-0.91|-4.88|0.0043
82521203|NCT01137474|164737542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.5811||0.0843|TWO_SIDED|95.0|-2.15|0.14||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test performed since previous tests were significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction. Data after rescue were not included in the analysis.||0.14|-2.15|0.0843
82521204|NCT01137474|164737543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.6866|||TWO_SIDED|95.0|-1.96|0.73||Endpoint tested following a sequential testing procedure at 2-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test not performed since previous tests were not significant.|ANCOVA|||Change from baseline to week 12 LOCF was calculated using an ANCOVA model with treatment group as an effect and baseline value and randomization strata as covariate. Data after rescue are excluded from blood pressure analyses.||0.73|-1.96|
82385416|NCT02074358|164482287|SUPERIORITY_OR_OTHER||mixed effect model|-0.16||||0.142|TWO_SIDED|95.0|-0.38|0.06||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Lag Time. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.06|-0.38|0.142
82385417|NCT02074358|164482287|SUPERIORITY_OR_OTHER||mixed effect model|1.35||||0.2|TWO_SIDED|95.0|-0.81|3.52||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|Time to Peak. ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||3.52|-0.81|0.200
82385418|NCT02074358|164482287|SUPERIORITY_OR_OTHER||mixed effect model|4.62|||<|0.001|TWO_SIDED|95.0|2.8|6.44||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Time to Peak. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||6.44|2.80|<0.001
82638567|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.001||95.0||||This is the p-value for BPI-I for General Activity. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82385419|NCT02074358|164482288|SUPERIORITY_OR_OTHER||mixed effect model|21.1||||0.014|TWO_SIDED|95.0|4.9|37.2||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||37.2|4.9|0.014
82385420|NCT02074358|164482288|SUPERIORITY_OR_OTHER||mixed effect model|-6.4||||0.076|TWO_SIDED|95.0|-13.5|0.8||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.8|-13.5|0.076
82638568|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|||<|0.001||95.0||||This is the p-value for BPI-I for Mood. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638569|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001||95.0||||This is the p-value for BPI-I for Walking Ability. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82521205|NCT01137474|164737544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.0717|||TWO_SIDED|95.0|-0.46|-0.18||Endpoint tested following a sequential testing procedure at two-sided alpha=0.05 to control the family-wise Type I error rate related to primary and secondary efficacy endpoints. Test not performed since previous tests were not significant.|Longitudinal repeated measures analysis|Only Week 12 data are presented; data from all weeks in double-blind period were included in the longitudinal repeated measures model.||Change from baseline to week 12 was calculated using a longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata and continuous fixed covariates of baseline value and baseline value by week interaction.||-0.18|-0.46|
82521206|NCT03901326|164737555|OTHER|||||||0.05|||||||Chi-squared|||Rate of ICA without obstructive CAD or intervention within 90 days||||0.05
82521207|NCT03901326|164737555|OTHER||||||<|0.001|||||||Chi-squared|||Rate of patients underwent revascularization||||<0.001
82521208|NCT03901326|164737556|OTHER||Hazard Ratio (HR)|0.88||||0.8|TWO_SIDED|95.0|0.59|1.3|||Regression, Cox|||||1.30|0.59|0.80
82521209|NCT03901326|164737557|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82521210|NCT03901326|164737558|OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
82572455|NCT03599622|164854424|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|8.1||||0.2841|TWO_SIDED|95.0|-6.7|22.9||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||22.9|-6.7|0.2841
82385421|NCT02074358|164482289|SUPERIORITY_OR_OTHER||mixed effect model|0.0||||0.996|TWO_SIDED|95.0|-5.6|5.6||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|The ETP change from pre-PCC baseline was analyzed using a mixed effect model that included treatment, sequence, and period as main effects. A hierarchical analysis was conducted with comparisons beginning with the primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||5.6|-5.6|0.996
82521211|NCT01814371|164737560|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.757|||||||Fisher Exact|||||||0.757
82521212|NCT01814371|164737561|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
82521213|NCT01814371|164737562|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.687|||||||Fisher Exact|||||||0.687
82521214|NCT01814371|164737563|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
82521215|NCT01814371|164737564|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.811|||||||Fisher Exact|||||||0.811
82521216|NCT01814371|164737565|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.004|||||||Fisher Exact|||||||0.004
82521217|NCT01814371|164737566|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.006|||||||Fisher Exact|||||||0.006
82521218|NCT01814371|164737567|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.05|||||||Fisher Exact|||||||0.050
82521219|NCT01814371|164737568|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.007|||||||Fisher Exact|||||||0.007
82521220|NCT01814371|164737569|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.005|||||||Fisher Exact|||||||0.005
82521221|NCT01814371|164737570|EQUIVALENCE|testing equivalence of individualized approach compared to household approach.||||||1|||||||Fisher Exact|||||||1.00
82521222|NCT01814371|164737571|EQUIVALENCE|testing equivalence of before and after decolonization protocol.||||||0.84|||||||Chi-squared|||||||0.84
82521223|NCT01814371|164737573|NON_INFERIORITY|testing non-inferiority of individualized approach compared to household approach.||||||0.381|||||||Fisher Exact|||||||0.381
82521224|NCT01814371|164737574|EQUIVALENCE|testing equivalence of individualized approach compared to household approach.||||||0.143|||||||Fisher Exact|||||||0.143
82572456|NCT03599622|164854424|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|1.5||||0.2841|TWO_SIDED|95.0|0.7|3.1||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||3.1|0.7|0.2841
82521225|NCT01692782|164737575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||||TWO_SIDED||||||Mixed Models Analysis|||The 4 mg and 8 mg SEP 225289 groups were compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||
82521226|NCT01692782|164737575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38||||0.076|TWO_SIDED||||||Mixed Models Analysis|P-values of SEP 225289 4 mg versus placebo at Week 4 was adjusted for multiple comparisons using the Hochberg procedure.||The 4 mg SEP 225289 group was compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||0.076
82521227|NCT01692782|164737575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.88||||0.019|TWO_SIDED|||||p-value of SEP 225289 8 mg versus placebo at Week 4 was adjusted for multiple comparisons using the Hochberg procedure.|Mixed Models Analysis|||The 8 mg SEP 225289 group was compared to placebo using a MMRM analysis. The MMRM model included treatment, visit (as a categorical variable), pooled center, baseline ADHD RS-IV with adult prompts score, and treatment-by-visit interaction. An unstructured covariance matrix was used for the within subject correlation.||||0.019
82521228|NCT02161133|164737581|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.62||0.712|TWO_SIDED||||||Mixed Models Analysis|||||||0.712
82521229|NCT02161133|164737582|SUPERIORITY||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|2.48||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
82521230|NCT02161133|164737583|SUPERIORITY||Mean Difference (Final Values)|12.23|STANDARD_ERROR_OF_MEAN|10.45||0.244|TWO_SIDED||||||Mixed Models Analysis|||||||0.244
82521231|NCT02161133|164737584|SUPERIORITY||Mean Difference (Final Values)|-3.71|STANDARD_ERROR_OF_MEAN|1.95||0.057|TWO_SIDED||||||Mixed Models Analysis|||||||0.057
82521232|NCT02161133|164737585|SUPERIORITY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.57||0.382|TWO_SIDED||||||Mixed Models Analysis|||||||0.382
82521233|NCT02161133|164737586|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.703|TWO_SIDED||||||Mixed Models Analysis|||||||0.703
82521234|NCT02161133|164737587|SUPERIORITY||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|1.36||0.168|TWO_SIDED||||||Mixed Models Analysis|||||||0.168
82638570|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||<|0.001||95.0||||This is the p-value for BPI-I for Normal Work. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82521235|NCT02161133|164737588|SUPERIORITY||Mean Difference (Final Values)|-7.28|STANDARD_ERROR_OF_MEAN|2.93||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
82521236|NCT03945188|164737596|SUPERIORITY||Risk Difference (RD)|19.75|||<|0.001|TWO_SIDED|95.0|12.88|26.63|||Cochran-Mantel-Haenszel|||||26.63|12.88|<0.001
82521237|NCT03945188|164737597|SUPERIORITY||Risk Difference (RD)|25.39|||<|0.001|TWO_SIDED|95.0|18.42|32.36|||Cochran-Mantel-Haenszel|||||32.36|18.42|<0.001
82521238|NCT03945188|164737598|SUPERIORITY||Risk Difference (RD)|21.18|||<|0.001|TWO_SIDED|95.0|13.03|29.32|||Cochran-Mantel-Haenszel|||||29.32|13.03|<0.001
82521239|NCT03945188|164737599|SUPERIORITY||Risk Difference (RD)|26.69|||<|0.001|TWO_SIDED|95.0|18.99|34.39|||Cochran-Mantel-Haenszel|||||34.39|18.99|<0.001
82521240|NCT03945188|164737600|SUPERIORITY||Risk Difference (RD)|24.55|||<|0.001|TWO_SIDED|95.0|15.46|33.63|||Cochran-Mantel-Haenszel|||||33.63|15.46|<0.001
82521241|NCT03945188|164737601|SUPERIORITY||Risk Difference (RD)|24.89|||<|0.001|TWO_SIDED|95.0|16.17|33.6|||Cochran-Mantel-Haenszel|||||33.60|16.17|<0.001
82521242|NCT03945188|164737602|SUPERIORITY||Risk Difference (RD)|16.88|||<|0.001|TWO_SIDED|95.0|10.78|22.98|||Cochran-Mantel-Haenszel|||||22.98|10.78|<0.001
82521243|NCT03945188|164737603|SUPERIORITY||Risk Difference (RD)|18.39|||<|0.001|TWO_SIDED|95.0|11.39|25.39|||Cochran-Mantel-Haenszel|||||25.39|11.39|<0.001
82521244|NCT03945188|164737604|SUPERIORITY||Risk Difference (RD)|25.39|||<|0.001|TWO_SIDED|95.0|18.42|32.36|||Cochran-Mantel-Haenszel|||||32.36|18.42|<0.001
82521245|NCT03945188|164737605|SUPERIORITY||Risk Difference (RD)|15.84|||<|0.001|TWO_SIDED|95.0|10.66|21.03|||Cochran-Mantel-Haenszel|||||21.03|10.66|<0.001
82521246|NCT03945188|164737606|SUPERIORITY||Risk Difference (RD)|28.27|||<|0.001|TWO_SIDED|95.0|18.51|38.02|||Cochran-Mantel-Haenszel|||||38.02|18.51|<0.001
82521247|NCT03945188|164737607|SUPERIORITY||Risk Difference (RD)|24.93|||<|0.001|TWO_SIDED|95.0|15.79|34.07|||Cochran-Mantel-Haenszel|||||34.07|15.79|<0.001
82521248|NCT03945188|164737608|SUPERIORITY||Risk Difference (RD)|26.16|||<|0.001|TWO_SIDED|95.0|17.48|34.84|||Cochran-Mantel-Haenszel|||||34.84|17.48|<0.001
82521249|NCT03945188|164737609|SUPERIORITY||Risk Difference (RD)|11.32|||<|0.001|TWO_SIDED|95.0|6.49|16.14|||Cochran-Mantel-Haenszel|||||16.14|6.49|<0.001
82521250|NCT03945188|164737610|SUPERIORITY||Risk Difference (RD)|10.23|||<|0.001|TWO_SIDED|95.0|4.73|15.73|||Cochran-Mantel-Haenszel|||||15.73|4.73|<0.001
82521251|NCT03945188|164737611|SUPERIORITY||Risk Difference (RD)|20.39|||<|0.001|TWO_SIDED|95.0|13.79|26.98|||Cochran-Mantel-Haenszel|||||26.98|13.79|<0.001
82521252|NCT03945188|164737612|SUPERIORITY||Risk Difference (RD)|9.16|||<|0.001|TWO_SIDED|95.0|4.93|13.38|||Cochran-Mantel-Haenszel|||||13.38|4.93|<0.001
82521253|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|6.49|||=|0.049|TWO_SIDED|95.0|0.02|12.95|||Cochran-Mantel-Haenszel|||Week 2||12.95|0.02|=0.049
82442881|NCT02699450|164594419|SUPERIORITY||Difference in Least Squares Means|7.3||||0.46|TWO_SIDED|80.0|-5.4|19.9||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||19.9|-5.4|0.46
82638571|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||<|0.001||95.0||||This is the p-value for BPI-I for Relations with Others. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638572|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001||95.0||||This is the p-value for BPI-I for Sleep. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638573|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||<|0.001||95.0||||This is the p-value for BPI-I for Enjoyment of Life. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638574|NCT01018680|164991676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.001||95.0||||This is the p-value for BPI-I for Mean Interference Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638575|NCT01018680|164991677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638576|NCT01018680|164991678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||<0.001
82638577|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.449||95.0||||This is the p-value for the BPOMS Total Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.449
82638578|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.265||95.0||||This is the p-value for the BPOMS Tension-Anxiety Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.265
82638579|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.18||95.0||||This is the p-value for the BPOMS Depression-Dejection Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.180
82638580|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.041||95.0||||This is the p-value for the BPOMS Anger-Hostility Score. 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.041
82638581|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.356||95.0||||This is the p-value for the BPOMS Vigor-Activity Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.356
82638582|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.862||95.0||||This is the p-value for the BPOMS Fatigue-Inertia Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.862
82638583|NCT01018680|164991679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.883||95.0||||This is the p-value for the BPOMS Confusion-Bewilderment Score. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.883
82638584|NCT01018680|164991680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.083||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Mixed Models Analysis|In Mixed Models Analysis, degrees of freedom were estimated using the Kenward-Rogers approximation.||||||0.083
82638585|NCT01018680|164991681|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
82521254|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|15.03|||<|0.001|TWO_SIDED|95.0|7.32|22.74|||Cochran-Mantel-Haenszel|||Week 4||22.74|7.32|<0.001
82521255|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|16.85|||<|0.001|TWO_SIDED|95.0|8.06|25.63|||Cochran-Mantel-Haenszel|||Week 8||25.63|8.06|<0.001
82521256|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|21.66|||<|0.001|TWO_SIDED|95.0|12.71|30.61|||Cochran-Mantel-Haenszel|||Week 16||30.61|12.71|<0.001
82638586|NCT01018680|164991682|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 30% Response (LOCF) based on 24-Hour Average Pain Ratings. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
82638587|NCT01018680|164991682|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 50% Response (LOCF) based on 24-Hour Average Pain Ratings. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||<0.001
82638588|NCT01018680|164991683|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 30% Response (LOCF) based on BPI Average Pain Ratings.|Fisher Exact|||||||<0.001
82638589|NCT01018680|164991683|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 50% Response (LOCF) based on BPI Average Pain Ratings.|Fisher Exact|||||||<0.001
82638590|NCT01018680|164991684|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.012
82638591|NCT01018680|164991685|SUPERIORITY_OR_OTHER|||||||0.724||95.0||||This is the p-value for PCS Weight Gain. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.724
82638592|NCT01018680|164991685|SUPERIORITY_OR_OTHER|||||||0.106||95.0||||This is the p-value for PCS Weight Loss. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.106
82521257|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|23.74|||<|0.001|TWO_SIDED|95.0|14.98|32.51|||Cochran-Mantel-Haenszel|||Week 20||32.51|14.98|<0.001
82521258|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|21.04|||<|0.001|TWO_SIDED|95.0|11.83|30.24|||Cochran-Mantel-Haenszel|||Week 24||30.24|11.83|<0.001
82521259|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|25.82|||<|0.001|TWO_SIDED|95.0|17.08|34.56|||Cochran-Mantel-Haenszel|||Week 32||34.56|17.08|<0.001
82521260|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|23.47|||<|0.001|TWO_SIDED|95.0|14.8|32.14|||Cochran-Mantel-Haenszel|||Week 40||32.14|14.80|<0.001
82638593|NCT01018680|164991686|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.031
82521261|NCT03945188|164737613|SUPERIORITY||Risk Difference (RD)|26.37|||<|0.001|TWO_SIDED|95.0|17.92|34.82|||Cochran-Mantel-Haenszel|||Week 48||34.82|17.92|<0.001
82638594|NCT01018680|164991687|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||This is the p-value for Diastolic Hypertension. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.063
82521262|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|3.59|||=|0.057|TWO_SIDED|95.0|-0.11|7.3|||Cochran-Mantel-Haenszel|||Week 2||7.30|-0.11|=0.057
82521263|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|6.88|||=|0.007|TWO_SIDED|95.0|1.86|11.9|||Cochran-Mantel-Haenszel|||Week 4||11.90|1.86|=0.007
82638595|NCT01018680|164991687|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||This is the p-value for Systolic Hypertension. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.018
82638596|NCT01018680|164991688|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Fisher Exact|||||||0.249
82385422|NCT02074358|164482289|SUPERIORITY_OR_OTHER||mixed effect model|-6.5|||<|0.001|TWO_SIDED|95.0|-9.5|-3.6||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-3.6|-9.5|<0.001
82442882|NCT02699450|164594420|SUPERIORITY||Difference in Percentage of Participants|6.4||||0.56|TWO_SIDED|80.0|-7.7|20.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||20.5|-7.7|0.56
82442883|NCT02699450|164594421|SUPERIORITY||Difference in Least Squares Means|6.6||||0.43|TWO_SIDED|80.0|-4.0|17.2||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||17.2|-4.0|0.43
82521264|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|10.14|||=|0.001|TWO_SIDED|95.0|4.09|16.2|||Cochran-Mantel-Haenszel|||Week 8||16.20|4.09|=0.001
82638597|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||This is the p-value for outpatient group visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.241
82521265|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|16.36|||<|0.001|TWO_SIDED|95.0|9.89|22.83|||Cochran-Mantel-Haenszel|||Week 12||22.83|9.89|<0.001
82521266|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|15.37|||<|0.001|TWO_SIDED|95.0|9.23|21.52|||Cochran-Mantel-Haenszel|||Week 16||21.52|9.23|<0.001
82521267|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|17.8|||<|0.001|TWO_SIDED|95.0|11.85|23.75|||Cochran-Mantel-Haenszel|||Week 20||23.75|11.85|<0.001
82521268|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|14.24|||<|0.001|TWO_SIDED|95.0|7.45|21.04|||Cochran-Mantel-Haenszel|||Week 24||21.04|7.45|<0.001
82638598|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||This is the p-value for outpatient individual visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.087
82521269|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|20.03|||<|0.001|TWO_SIDED|95.0|14.25|25.81|||Cochran-Mantel-Haenszel|||Week 32||25.81|14.25|<0.001
82521270|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|15.13|||<|0.001|TWO_SIDED|95.0|8.91|21.35|||Cochran-Mantel-Haenszel|||Week 40||21.35|8.91|<0.001
82521271|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|17.52|||<|0.001|TWO_SIDED|95.0|12.16|22.87|||Cochran-Mantel-Haenszel|||Week 48||22.87|12.16|<0.001
82521272|NCT03945188|164737614|SUPERIORITY||Risk Difference (RD)|19.86|||<|0.001|TWO_SIDED|95.0|13.75|25.98|||Cochran-Mantel-Haenszel|||Week 52||25.98|13.75|<0.001
82521273|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|4.83|||=|0.336|TWO_SIDED|95.0|-5.01|14.68|||Cochran-Mantel-Haenszel|||Week 2||14.68|-5.01|=0.336
82521274|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|17.11|||<|0.001|TWO_SIDED|95.0|7.06|27.15|||Cochran-Mantel-Haenszel|||Week 4||27.15|7.06|<0.001
82638599|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||This is the p-value for emergency room visits for non-psychiatric illness. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.414
82521275|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|20.17|||<|0.001|TWO_SIDED|95.0|10.15|30.19|||Cochran-Mantel-Haenszel|||Week 8||30.19|10.15|<0.001
82521276|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|23.44|||<|0.001|TWO_SIDED|95.0|13.45|33.43|||Cochran-Mantel-Haenszel|||Week 12||33.43|13.45|<0.001
82521277|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|25.25|||<|0.001|TWO_SIDED|95.0|15.67|34.83|||Cochran-Mantel-Haenszel|||Week 16||34.83|15.67|<0.001
82521278|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|29.2|||<|0.001|TWO_SIDED|95.0|19.77|38.64|||Cochran-Mantel-Haenszel|||Week 20||38.64|19.77|<0.001
82572457|NCT03599622|164854424|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Risk Difference (RD)|-4.2||||0.5417|TWO_SIDED|95.0|-17.6|9.2||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||9.2|-17.6|0.5417
82572458|NCT03599622|164854424|SUPERIORITY|Cochran-Mantel-Haenszel stratified by geographic region (US, Japan, Rest of World), prior exposure to tumor necrosis factor inhibitor (TNFi; Exposed/Naive), and concomitant corticosteroid use (Yes/No).|Odds Ratio (OR)|0.8||||0.5417|TWO_SIDED|95.0|0.3|1.8||Based on a 2-sided test at a significance level of 0.025.|Mantel Haenszel||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||1.8|0.3|0.5417
82638600|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||This is the p-value for outpatient visits to other physicians. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.332
82572459|NCT03599622|164854425|EQUIVALENCE|Mean Change From Baseline|Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-4.3|-1.8|||ANCOVA|||||-1.8|-4.3|
82572460|NCT03599622|164854425|SUPERIORITY|Adjusted means, 95% confidence intervals, and p-values are from an analysis of covariance model with factors for geographic region, prior exposure to tumor necrosis factor inhibitor, and concomitant corticosteroid use, and the baseline value as a covariate.|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.92||0.0428|TWO_SIDED|95.0|-3.7|-0.1||Based on a 2-sided test at a significance level of 0.025.|ANCOVA||3 mg BMS-986165 (numerator) vs Placebo (denominator)|||-0.1|-3.7|0.0428
82572461|NCT03599622|164854425|EQUIVALENCE|Mean Change from Baseline|Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-4.8|-2.0|||ANCOVA|||||-2.0|-4.8|
82572462|NCT03599622|164854425|SUPERIORITY|Adjusted means, 95% confidence intervals, and p-values are from an analysis of covariance model with factors for geographic region, prior exposure to tumor necrosis factor inhibitor, and concomitant corticosteroid use, and the baseline value as a covariate.|Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.95||0.0177|TWO_SIDED|95.0|-4.1|-0.4||Based on a 2-sided test at a significance level of 0.025.|ANCOVA||6 mg BMS-986165 (numerator) vs Placebo (denominator)|||-0.4|-4.1|0.0177
82572463|NCT03599622|164854425|EQUIVALENCE|Mean Change From Baseline|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.6|0.3||||||||0.3|-2.6|
82572464|NCT03599622|164854425|EQUIVALENCE|Mean Change from Baseline|Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-9.7|-2.3|||ANCOVA|||||-2.3|-9.7|
82572465|NCT00905359|164854448|NON_INFERIORITY_OR_EQUIVALENCE|t-test analysis performed using Multiple imputation and one-sided p-value testing non-inferiority of the percentage change from baseline at 10%. One-sided p-value is significant if \<0.025 or the upper limit of the CI is less than 10%.||||||0.172|||||||t-test, 1 sided|||||||0.172
82572466|NCT02138253|164854463|SUPERIORITY|For the primary efficacy analysis based on the Month 24 biopsy, subjects with a missing Month 24 biopsy had their Ishak fibrosis score imputed. Imputation of missing Ishak fibrosis scores was conducted using multiple imputation (MI). Results were imputed based on age, gender, baseline Ishak fibrosis score, and the Month 12 Ishak fibrosis score.|Risk Difference (RD)|2.9||||0.73|TWO_SIDED|95.0|-20.5|26.4||Stratified by baseline Ishak Fibrosis Score strata (F2, F3+F4+F5, and F6).|Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||26.4|-20.5|0.73
82638601|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.183||95.0||||This is the p-value for the average number of hours worked for pay per week. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.183
82638602|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.666||95.0||||This is the p-value for how long the participant has had this job. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.666
82638603|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||This is the p-value for the average number of hours of volunteer work per week. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.890
82521279|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|26.08|||<|0.001|TWO_SIDED|95.0|16.47|35.69|||Cochran-Mantel-Haenszel|||Week 24||35.69|16.47|<0.001
82521280|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|28.68|||<|0.001|TWO_SIDED|95.0|19.35|38.02|||Cochran-Mantel-Haenszel|||Week 32||38.02|19.35|<0.001
82521281|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|28.43|||<|0.001|TWO_SIDED|95.0|19.3|37.55|||Cochran-Mantel-Haenszel|||Week 40||37.55|19.30|<0.001
82521282|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|29.59|||<|0.001|TWO_SIDED|95.0|20.55|38.64|||Cochran-Mantel-Haenszel|||Week 48||38.64|20.55|<0.001
82521283|NCT03945188|164737615|SUPERIORITY||Risk Difference (RD)|26.43|||<|0.001|TWO_SIDED|95.0|17.18|35.68|||Cochran-Mantel-Haenszel|||Week 52||35.68|17.18|<0.001
82521284|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|5.93|||=|0.24|TWO_SIDED|95.0|-3.96|15.81|||Cochran-Mantel-Haenszel|||Week 2||15.81|-3.96|=0.240
82638604|NCT01018680|164991689|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||This is the p-value for psychiatric visits. A 0.05 level of significance was pre-specified for use in treatment group comparisons.|Likelihood Ratio Chi-squared|||||||0.413
82638605|NCT05056311|164991703|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
82638606|NCT05056311|164991704|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
82521285|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|95.0|7.48|27.53|||Cochran-Mantel-Haenszel|||Week 4||27.53|7.48|<0.001
82521286|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|20.93|||<|0.001|TWO_SIDED|95.0|10.92|30.94|||Cochran-Mantel-Haenszel|||Week 8||30.94|10.92|<0.001
82638607|NCT05056311|164991705|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.001
82442884|NCT02699450|164594421|SUPERIORITY||Difference in Least Squares Means|7.2||||0.34|TWO_SIDED|80.0|-2.6|17.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||17.0|-2.6|0.34
82521287|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|24.13|||<|0.001|TWO_SIDED|95.0|14.15|34.1|||Cochran-Mantel-Haenszel|||Week 12||34.10|14.15|<0.001
82521288|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|24.51|||<|0.001|TWO_SIDED|95.0|14.89|34.13|||Cochran-Mantel-Haenszel|||Week 16||34.13|14.89|<0.001
82521289|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|29.57|||<|0.001|TWO_SIDED|95.0|20.13|39.01|||Cochran-Mantel-Haenszel|||Week 20||39.01|20.13|<0.001
82521290|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|26.45|||<|0.001|TWO_SIDED|95.0|16.88|36.02|||Cochran-Mantel-Haenszel|||Week 24||36.02|16.88|<0.001
82521291|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|29.35|||<|0.001|TWO_SIDED|95.0|20.01|38.68|||Cochran-Mantel-Haenszel|||Week 32||38.68|20.01|<0.001
82521292|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|28.83|||<|0.001|TWO_SIDED|95.0|19.71|37.95|||Cochran-Mantel-Haenszel|||Week 40||37.95|19.71|<0.001
82521293|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|30.0|||<|0.001|TWO_SIDED|95.0|20.97|39.03|||Cochran-Mantel-Haenszel|||Week 48||39.03|20.97|<0.001
82638608|NCT05056311|164991707|SUPERIORITY|||||||0.0001||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||||||0.0001
82638609|NCT05056311|164991708|SUPERIORITY|||||||0.6374||||||The a priori threshold for statistical significance was \<0.05.|McNemar|||||||0.6374
82385423|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|-1.64|||<|0.001|TWO_SIDED|95.0|-2.16|-1.12||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|PT (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model that included treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.12|-2.16|<0.001
82385424|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|-1.47|||<|0.001|TWO_SIDED|95.0|-1.95|-0.99||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|PT (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.99|-1.95|<0.001
82521294|NCT03945188|164737616|SUPERIORITY||Risk Difference (RD)|26.84|||<|0.001|TWO_SIDED|95.0|17.6|36.07|||Cochran-Mantel-Haenszel|||Week 52||36.07|17.60|<0.001
82521295|NCT03945188|164737617|SUPERIORITY||Risk Difference (RD)|23.05|||<|0.001|TWO_SIDED|95.0|10.2|35.9|||Cochran-Mantel-Haenszel|||||35.90|10.20|<0.001
82638610|NCT03799198|164991722|SUPERIORITY||Treatment Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-5.51|-1.5|||ANCOVA|||Analysis of in-trial data with missing observations for body weight at month 12 imputed from the WMP arm based on a jump to reference multiple (x=100) imputation approach. Percent change in body weight from baseline to month 12 was calculated for each study participant within the FAS and analyzed using an analysis of covariance model with randomized treatment as a factor and baseline body weight (kg) as a covariate.||-1.50|-5.51|<0.001
82638611|NCT00960869|164991738|SUPERIORITY_OR_OTHER||proportions|2.7||||0.005|TWO_SIDED|95.0|1.1|5.5|||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.|The proportion is from the PA32540 treatment group.|The primary efficacy endpoint was the proportion of subjects with gastric ulcers throughout 6 months of treatment. The primary endpoint was analyzed with the CMH test stratified by NSAID use (COX-2/Other NSAID/No) at randomization. A sample size of 250 subjects/treatment would provide 86% power to detect the difference of 8% between EC aspirin 325 mg (13%) and PA32540 (5%) with a 2-sided significance of 5%; and, provides adequate power to test the key secondary endpoints in sequential order.||5.5|1.1|0.005
82638612|NCT00960869|164991739|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects developing gastric ulcers and/or duodenal ulcers at 6 months was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82638613|NCT00960869|164991740|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects with Treatment Success was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82638614|NCT00960869|164991741|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects discontinuing from the study due to NSAID-associated upper GI adverse events was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82638615|NCT00960869|164991742|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO and by baseline heartburn severity at randomization.||The proportion of subjects who had no heartburn at 6 months (regardless of the presence or absence of heartburn at baseline) was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82638616|NCT01714726|164991745|SUPERIORITY||Risk Difference (RD)|22.5|||=|0.01|TWO_SIDED|90.0|8.3|36.8|||Regression, Logistic|||||36.8|8.3|=0.01
82638617|NCT01153971|164991774|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82638618|NCT03628781|164991792|SUPERIORITY||Odds Ratio (OR)|0.384||||0.535|TWO_SIDED||||||Chi-squared|||||||.535
82638619|NCT03628781|164991793|SUPERIORITY||Slope|0.018|STANDARD_ERROR_OF_MEAN|0.081||0.829|TWO_SIDED||||||ANOVA|||||||.829
82638620|NCT03628781|164991794|SUPERIORITY||Slope|-0.105|STANDARD_ERROR_OF_MEAN|0.093||0.357|TWO_SIDED||||||ANOVA|||||||.357
82521296|NCT03945188|164737618|SUPERIORITY||Risk Difference (RD)|31.86|||<|0.001|TWO_SIDED|95.0|18.45|45.28|||Cochran-Mantel-Haenszel|||||45.28|18.45|<0.001
82638621|NCT03628781|164991795|SUPERIORITY||Slope|-0.035|STANDARD_ERROR_OF_MEAN|0.126||0.782|TWO_SIDED||||||ANOVA|||||||.782
82638622|NCT01798056|164991810|NON_INFERIORITY|Criteria used: The lower limit (LL) of the 95% confidence interval (CI) of the Geometric Mean (GM) ratio (GSK1437173A PreChemo group over Placebo PreChemo group) in anti-gE ELISA antibody concentrations is greater than 3.|Adjusted GMC ratio|23.2|||||TWO_SIDED|95.0|17.9|30.0||||Difference of means between vaccines and placebo were calculated together with 2-sided confidence intervals and back-transformed to the original units||The analysis evaluated the anti-gE humoral immune responses at Month 2, following a two-dose administration of the GSK1437173A vaccine, as compared to placebo in subjects with solid tumours receiving chemotherapy (PreChemo Groups only).||30|17.9|
82638623|NCT01238861|164991834|SUPERIORITY_OR_OTHER||Rate Ratio|1.09||||0.781|TWO_SIDED|80.0|0.74|1.59|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||1.59|0.74|0.781
82638624|NCT01238861|164991834|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.173|TWO_SIDED|80.0|0.42|0.97|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||0.97|0.42|0.173
82638625|NCT01238861|164991834|SUPERIORITY_OR_OTHER||Rate ratio|0.59||||0.096|TWO_SIDED|80.0|0.4|0.89|||Poisson Regression Method||The p-value was calculated by Poisson regression with over-dispersion adjustment factor. The correction for potential over dispersion was made by Pearson chi-square.|||0.89|0.40|0.096
82638626|NCT01238861|164991839|SUPERIORITY_OR_OTHER|||||||0.125|||||||ANCOVA|P-value was calculated by analysis of covariance (ANCOVA) with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.125
82521297|NCT04341116|164737624|SUPERIORITY||Median Difference (Final Values)|9.0|STANDARD_ERROR_OF_MEAN|8.5||0.28|TWO_SIDED|95.0|-6.5|27.0|||Fisher Exact|||||27|-6.5|.28
82638627|NCT01238861|164991839|SUPERIORITY_OR_OTHER|||||||0.074|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.074
82638628|NCT01238861|164991839|SUPERIORITY_OR_OTHER|||||||0.057|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.057
82638629|NCT01238861|164991839|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.010
82638630|NCT01238861|164991841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.131|TWO_SIDED|80.0|-0.336|-0.028|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.028|-0.336|0.131
82385425|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|-2.59|||<|0.001|TWO_SIDED|95.0|-3.3|-1.89||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|PT (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.89|-3.30|<0.001
82385426|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|-1.89|||<|0.001|TWO_SIDED|95.0|-2.59|-1.2||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|PT (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-1.20|-2.59|<0.001
82385427|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|8.47|||<|0.001|TWO_SIDED|95.0|6.29|10.66||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|aPTT. The ETP change from pre-PCC baseline was analyzed using a mixed effect model and included treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||10.66|6.29|<0.001
82385428|NCT02074358|164482290|SUPERIORITY_OR_OTHER||mixed effect model|2.3|||<|0.001|TWO_SIDED|95.0|1.28|3.32||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|aPTT. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||3.32|1.28|<0.001
82385429|NCT02074358|164482291|SUPERIORITY_OR_OTHER||mixed effect model|-0.198|||<|0.001|TWO_SIDED|95.0|-0.266|-0.13||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|INR (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.130|-0.266|<0.001
82385430|NCT02074358|164482291|SUPERIORITY_OR_OTHER||mixed effect model|-0.17|||<|0.001|TWO_SIDED|95.0|-0.229|-0.111||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|INR (Neoplastin CI+). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.111|-0.229|<0.001
82521298|NCT04109703|164737630|OTHER|The hypothesis is that the high level pulsed heat group will show statistically more pain relief than the low level steady heat group.|||||<|0.05|||||||Regression, Linear|Linear regression was used to compare differences in primary outcome between treatment and control groups adjusting for initial pain level.||Demographic and clinical characteristics were tabulated by randomization group. The primary outcome was change in pain score from baseline to 30 minutes after treatment ended. Linear regression was used to compare differences in primary outcome between treatment and control groups adjusting for initial pain level. Unadjusted comparisons are also presented. Change in pain scores at each other post baseline time point were similarly analyzed.||||<0.05
82521299|NCT01570829|164737632|SUPERIORITY|||||||0.0352|||||||Fisher Exact|||||||0.0352
82521300|NCT01570829|164737633|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82638631|NCT01238861|164991841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.173||||0.126|TWO_SIDED|80.0|-0.317|-0.028|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.028|-0.317|0.126
82638632|NCT01238861|164991841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.097|TWO_SIDED|80.0|-0.247|-0.032|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||-0.032|-0.247|0.097
82638633|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.642|TWO_SIDED|80.0|-0.654|0.306|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.306|-0.654|0.642
82638634|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111||||0.824|TWO_SIDED|80.0|-0.533|0.756|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.756|-0.533|0.824
82442885|NCT02699450|164594422|SUPERIORITY||Difference in Least Squares Means|9.5||||0.27|TWO_SIDED|80.0|-1.6|20.6||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||20.6|-1.6|0.27
82442886|NCT02699450|164594422|SUPERIORITY||Difference in Least Squares Means|6.8||||0.45|TWO_SIDED|80.0|-4.9|18.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||18.5|-4.9|0.45
82442887|NCT02699450|164594423|SUPERIORITY||Difference in Least Squares Means|-0.6||||0.96|TWO_SIDED|80.0|-16.8|15.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||15.5|-16.8|0.96
82442888|NCT02699450|164594424|SUPERIORITY||Difference in Least Squares Means|9.9||||0.19|TWO_SIDED|80.0|0.1|19.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||19.7|0.1|0.19
82521301|NCT01570829|164737634|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82521302|NCT01570829|164737635|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|Breslow-Day test p-value is 0.98||||||0.0001
82638635|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.91|TWO_SIDED|80.0|-0.297|0.355|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use without prophylactic at Week 51-52.||0.355|-0.297|0.910
82638636|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004||||0.992|TWO_SIDED|80.0|-0.602|0.593|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||0.593|-0.602|0.992
82638637|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337||||0.624|TWO_SIDED|80.0|-0.548|1.222|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||1.222|-0.548|0.624
82638638|NCT01238861|164991842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.645|TWO_SIDED|80.0|-0.267|0.567|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||Analysis reported for rescue medication use with prophylactic at Week 51-52.||0.567|-0.267|0.645
82638639|NCT01238861|164991843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157||||0.014|TWO_SIDED|80.0|0.076|0.237|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.237|0.076|0.014
82638640|NCT01238861|164991843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184||||0.004|TWO_SIDED|80.0|0.102|0.266|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.266|0.102|0.004
82638641|NCT01238861|164991843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091||||0.026|TWO_SIDED|80.0|0.039|0.143|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.143|0.039|0.026
82638642|NCT01238861|164991844|SUPERIORITY_OR_OTHER|||||||0.384|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.384
82638643|NCT01238861|164991844|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.092
82638644|NCT01238861|164991844|SUPERIORITY_OR_OTHER|||||||0.134|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.134
82638645|NCT01238861|164991844|SUPERIORITY_OR_OTHER|||||||0.129|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.129
82638646|NCT01238861|164991846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.404||||0.069|TWO_SIDED|80.0|0.121|0.687|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.687|0.121|0.069
82638647|NCT01238861|164991846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462||||0.049|TWO_SIDED|80.0|0.163|0.761|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.761|0.163|0.049
82638648|NCT01238861|164991846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.168|TWO_SIDED|80.0|0.017|0.459|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.459|0.017|0.168
82521303|NCT01570829|164737636|SUPERIORITY|||||||0.0004||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 8, 12, 16 and 20 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.0004
82521304|NCT01570829|164737637|SUPERIORITY|||||||0.0004||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 8, 12, 16 and 20 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.0004
82521305|NCT01570829|164737638|SUPERIORITY|||||||0.67||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with waist circumference data.||||0.67
82521306|NCT01570829|164737638|SUPERIORITY|||||||0.26||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with hip circumference data.||||0.26
82572467|NCT02138253|164854464|SUPERIORITY||Risk Difference (RD)|4.4||||0.658|TWO_SIDED|95.0|-20.0|28.9|||Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||28.9|-20.0|0.658
82638649|NCT01238861|164991847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.51|TWO_SIDED|80.0|-0.058|0.019|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.019|-0.058|0.510
82638650|NCT01238861|164991847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041||||0.113|TWO_SIDED|80.0|0.008|0.074|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.074|0.008|0.113
82521307|NCT01570829|164737639|SUPERIORITY|||||||0.4||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with Physical Health domain data.||||0.40
82521308|NCT01570829|164737639|SUPERIORITY|||||||0.34||||||"The p-value associated with treatment\*visit interaction of changes from baseline to Week 4, 12, and 24 endpoint between Dietressa and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to rows with Mental Health domain data.||||0.34
82521309|NCT01569438|164737695|OTHER||Mean Difference|-0.7||||0.0734|TWO_SIDED|90.0|-1.6|0.2||one-sided|Mixed Model with Repeated Measures|||MMRM approach was used to model the change from baseline as a function of treatment, week, treatment by week interaction, baseline score, and baseline score by week interaction.||0.2|-1.6|0.0734
82638651|NCT01238861|164991847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.599|TWO_SIDED|80.0|-0.016|0.038|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||0.038|-0.016|0.599
82385431|NCT02074358|164482291|SUPERIORITY_OR_OTHER||mixed effect model|-0.239|||<|0.001|TWO_SIDED|95.0|-0.305|-0.173||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|INR (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.173|-0.305|<0.001
82385432|NCT02074358|164482291|SUPERIORITY_OR_OTHER||mixed effect model|-0.176|||<|0.001|TWO_SIDED|95.0|-0.242|-0.11||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|INR (Recombiplastin 2G). ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||-0.110|-0.242|<0.001
82385433|NCT02074358|164482292|SUPERIORITY_OR_OTHER||mixed effect models|-0.239||||0.204|TWO_SIDED|95.0|-0.625|0.146||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the first secondary endpoint (TGA lag time).|Mixed Models Analysis||Treatment B versus Treatment A|Anti-Xa Activity. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.146|-0.625|0.204
82385434|NCT02074358|164482292|SUPERIORITY_OR_OTHER||mixed effect models|-0.17||||0.114|TWO_SIDED|95.0|-0.389|0.048||In the hierarchical analysis, no statistical inferences were drawn from the analysis results for this secondary endpoint since a non-significant treatment difference was observed for the primary endpoint.|Mixed Models Analysis||Treatment C versus Treatment A|Anti-Xa Activity. ETP change from pre-PCC baseline was analyzed using mixed effect model, including treatment, sequence, and period as main effects. Hierarchical analysis was conducted with comparisons beginning with primary endpoint and continuing through secondary endpoints (ETP; TGA lag time; TGA time to peak; TGA peak; TGA velocity index; PT; INR; aPTT; AXA). If resulting p-value was \< 0.05, then the next comparison of interest was made until p\>0.05 at which point, comparisons ended.||0.048|-0.389|0.114
82385435|NCT02074358|164482302|SUPERIORITY_OR_OTHER||mixed effect model|1.039|||||TWO_SIDED|90.0|0.972|1.111|||||Treatment B versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment B versus Treatment A, and Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.111|0.972|
82385436|NCT02074358|164482302|SUPERIORITY_OR_OTHER||mixed effect model|1.021|||||TWO_SIDED|90.0|0.938|1.112|||||Treatment C versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.112|0.938|
82385437|NCT02074358|164482304|SUPERIORITY_OR_OTHER||mixed effect model|1.019|||||TWO_SIDED|90.0|0.955|1.087|||||Treatment B versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment B versus Treatment A). No adjustment was made for multiplicity.||1.087|0.955|
82442889|NCT02699450|164594424|SUPERIORITY||Difference in Least Squares Means|4.2||||0.57|TWO_SIDED|80.0|-5.3|13.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||13.6|-5.3|0.57
82521310|NCT01569438|164737696|OTHER||Mean Difference|-1.0||||0.2726|TWO_SIDED|90.0|-3.9|1.8||one-sided|Mixed Model With Repeated Measures|||MMRM approach was used to model the change from baseline as a function of treatment, week, treatment by week interaction, baseline score, and baseline score by week interaction.||1.8|-3.9|0.2726
82521311|NCT01569438|164737697|OTHER||Mean Difference|-0.3||||0.3603|TWO_SIDED|90.0|-1.7|1.1||one-sided|ANCOVA|||The one-way ANCOVA model was used to calculate change from baseline as a function of treatment and baseline score.||1.1|-1.7|0.3603
82638652|NCT01238861|164991848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373||||0.871|TWO_SIDED|80.0|-3.333|2.586|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||2.586|-3.333|0.871
82521312|NCT01569438|164737698|OTHER||Mean Difference|-1.5||||0.1183|TWO_SIDED|90.0|-3.5|0.6||one-sided|ANCOVA|||The one-way ANCOVA model was used to calculate change from baseline as a function of treatment and baseline score.||0.6|-3.5|0.1183
82638653|NCT01238861|164991848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.857||||0.227|TWO_SIDED|80.0|-0.175|5.889|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||5.889|-0.175|0.227
82442890|NCT02699450|164594425|SUPERIORITY||Difference in Least Squares Means|-2.8||||0.64|TWO_SIDED|80.0|-10.5|4.9||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.9|-10.5|0.64
82385438|NCT02074358|164482304|SUPERIORITY_OR_OTHER||mixed effect model|1.018|||||TWO_SIDED|90.0|0.94|1.102|||||Treatment C versus Treatment A|Analysis used a linear mixed effect model including treatment, period, and sequence as fixed effects and within-participant measurements as repeated measures. Point estimates and 90% confidence intervals (CIs) for differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale between each PCC treatment and placebo (ie, Treatment C versus Treatment A). No adjustment was made for multiplicity.||1.102|0.940|
82385439|NCT03491462|164482342|SUPERIORITY|||||||0.6208|||||||Gehan's extended Wilcoxon's test|||||||0.6208
82385440|NCT02560922|164482371|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.128|TWO_SIDED|95.0|-1.45|0.18|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.18|-1.45|0.128
82385441|NCT02560922|164482371|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.068|TWO_SIDED|95.0|-1.73|0.06|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.06|-1.73|0.068
82385442|NCT02560922|164482372|SUPERIORITY||Mean Difference (Final Values)|-2.62||||0.129|TWO_SIDED|95.0|-6.01|0.77|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.77|-6.01|0.129
82385443|NCT02560922|164482372|SUPERIORITY||Mean Difference (Final Values)|-3.31||||0.084|TWO_SIDED|95.0|-7.07|0.44|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.44|-7.07|0.084
82638654|NCT01238861|164991848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.139||||0.503|TWO_SIDED|80.0|-1.041|3.319|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||3.319|-1.041|0.503
82385444|NCT02560922|164482373|SUPERIORITY||Mean Difference (Final Values)|-1.61||||0.209|TWO_SIDED|95.0|-4.14|0.91|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.91|-4.14|0.209
82385445|NCT02560922|164482373|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.128|TWO_SIDED|95.0|-5.03|0.63|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.63|-5.03|0.128
82385446|NCT02560922|164482374|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.222|TWO_SIDED|95.0|-2.18|0.51|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.51|-2.18|0.222
82385447|NCT02560922|164482374|SUPERIORITY||Mean Difference (Final Values)|-1.14||||0.128|TWO_SIDED|95.0|-2.6|0.33|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.33|-2.60|0.128
82521313|NCT00452387|164737705|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Fisher Exact|||The test of association of PSA and imaging response tests the null hypothesis that the proportion of cases exhibiting PSA response is the same for patients with and without a favorable imaging response. A 2x2 table was constructed based on the number of the patients in imaging response (favorable and unfavorable) and PSA response (\>50% reduction and \<=50% reduction). The Fisher's exact test was used to test this hypothesis.||||0.55
82385448|NCT02560922|164482375|SUPERIORITY||Mean Difference (Final Values)|1.71||||0.111|TWO_SIDED|95.0|-0.4|3.82|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||3.82|-0.40|0.111
82385449|NCT02560922|164482375|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.502|TWO_SIDED|95.0|-1.42|2.88|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||2.88|-1.42|0.502
82521314|NCT01693068|164737708|OTHER|A log-rank test stratified by baseline Eastern Cooperative Oncology Group performance status (ECOG PS) (using the interactive voice response system \[IVRS\] value) will tested the null hypothesis of no difference between the Pimasertib (first line) and the Dacarbazine treatment groups at the 5% level.|Hazard Ratio (HR)|0.59||||0.0022|TWO_SIDED|95.0|0.42|0.83|||Stratified Log Rank Test||The Hazard Ratio is obtained from the Cox Proportional Hazards model based on dacarbazine and pimasertib only stratified by baseline ECOG Performance Status.|||0.83|0.42|0.0022
82638655|NCT01238861|164991849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.907||||0.55|TWO_SIDED|80.0|-4.483|12.297|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||12.297|-4.483|0.550
82385450|NCT02560922|164482376|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.433|TWO_SIDED|95.0|-1.15|2.66|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||2.66|-1.15|0.433
82385451|NCT02560922|164482376|SUPERIORITY||Mean Difference (Final Values)|1.71||||0.12|TWO_SIDED|95.0|-0.45|3.86|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||3.86|-0.45|0.120
82385452|NCT02560922|164482377|SUPERIORITY||Mean Difference (Final Values)|15.31||||0.001|TWO_SIDED|95.0|9.09|21.53|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||21.53|9.09|0.001
82385453|NCT02560922|164482377|SUPERIORITY||Mean Difference (Final Values)|11.67|||<|0.001|TWO_SIDED|95.0|5.08|18.27|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||18.27|5.08|<0.001
82385454|NCT02560922|164482378|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.356|TWO_SIDED|95.0|-1.57|0.57|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||0.57|-1.57|0.356
82385455|NCT02560922|164482378|SUPERIORITY||Mean Difference (Final Values)|-1.02||||0.087|TWO_SIDED|95.0|-2.19|0.15|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||0.15|-2.19|0.087
82385456|NCT02560922|164482379|SUPERIORITY||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.61|1.41|||Mixed Models Analysis|||Test of between group difference in change from baseline to 3 months||1.41|0.61|<0.001
82521315|NCT00579280|164737719|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82521316|NCT00579280|164737720|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82638656|NCT01238861|164991849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.659||||0.215|TWO_SIDED|80.0|-0.262|15.579|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||15.579|-0.262|0.215
82385457|NCT02560922|164482379|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.002|TWO_SIDED|95.0|0.24|1.09|||Mixed Models Analysis|||Test of between group difference in change from baseline to 9 months||1.09|0.24|0.002
82385458|NCT02560922|164482380|SUPERIORITY||Mean Difference (Final Values)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.6|-0.95|||Mixed Models Analysis|||Test of between-group difference in self-reported change in symptoms (from baseline) at 3 months||-0.95|-1.60|<0.001
82385459|NCT02560922|164482380|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.001|TWO_SIDED|95.0|-1.24|-0.51|||Mixed Models Analysis|||Test of between-group difference in self-reported change in symptoms (from baseline) at 9 months||-0.51|-1.24|<0.001
82385460|NCT04468347|164482385|OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||<0.0001
82385461|NCT04468347|164482385|OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.038||0.0005|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||0.0005
82385462|NCT04468347|164482385|OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.033||0.2161|TWO_SIDED||||||ANOVA|The two-way ANOVA included cognitive and amyloid status, and their interaction as fixed effects.||||||0.2161
82521317|NCT00579280|164737721|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521318|NCT00579280|164737722|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<.05
82521319|NCT00579280|164737723|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521320|NCT00579280|164737724|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82638657|NCT01238861|164991849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54||||0.413|TWO_SIDED|80.0|-2.006|9.086|||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||9.086|-2.006|0.413
82638658|NCT01238861|164991850|SUPERIORITY_OR_OTHER|||||||0.896|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.896
82521321|NCT00579280|164737725|SUPERIORITY||||||<|0.05|||||||Chi-squared|Differences in response (70% or greater improvement) and remission (50% or greater improvement) rates between the groups.||||||<0.05
82385463|NCT04468347|164482386|OTHER|||||||0.1998|||||||Cochran-Mantel-Haenszel|||||||0.1998
82385464|NCT04468347|164482387|OTHER|||||||0.0646|||||||Cochran-Mantel-Haenszel|||||||0.0646
82385465|NCT02589639|164482416|SUPERIORITY|The superiority of empagliflozin 10 mg against placebo was tested for change from baseline in HbA1c after 16 weeks of treatment at the level of α=0.05 (2-sided)|Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.11|-0.73|||ANCOVA|Analysis of Covariance (ANCOVA) comparing the change from baseline in HbA1c after 16 weeks of treatment||"The statistical model was:~Change from baseline in HbA1c after 16 weeks = overall mean + baseline HbA1c + treatment + baseline renal function + type of insulin therapies + random error"|Adjusted Mean Difference calculated as (Empagliflozin 10 mg - Placebo)|-0.73|-1.11|<0.0001
82521322|NCT00579280|164737726|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521323|NCT00579280|164737727|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521324|NCT00579280|164737728|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521325|NCT00579280|164737729|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82521326|NCT00295022|164737730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12|||<|0.001|TWO_SIDED|95.0|-4.35|-1.88|||ANCOVA|||||-1.88|-4.35|<0.001
82521327|NCT00295022|164737730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||=|0.001|TWO_SIDED|95.0|-2.04|0.18|||ANCOVA|||||0.18|-2.04|=0.001
82521328|NCT00295022|164737730|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.19|||<|0.001|TWO_SIDED|95.0|-3.43|-0.95|||ANCOVA|||||-0.95|-3.43|<0.001
82385466|NCT02589639|164482416|SUPERIORITY|The superiority of empagliflozin 25 mg against placebo was tested for change from baseline in HbA1c after 16 weeks of treatment at the level of α=0.05 (2-sided)|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.18|-0.82|||ANCOVA|Analysis of Covariance (ANCOVA) comparing the change from baseline in HbA1c after 16 weeks of treatment|Adjusted Mean Difference calculated as (Empagliflozin 10 mg - Placebo)|The statistical model was: Change from baseline in HbA1c after 16 weeks = overall mean + baseline HbA1c + treatment + baseline renal function + type of insulin therapies + random error||-0.82|-1.18|<0.0001
82385467|NCT04873934|164482466|SUPERIORITY||LS mean difference|-46.9|||<|0.001|TWO_SIDED|97.5|-55.4|-38.5|||Mixed Models Analysis|||||-38.5|-55.4|< 0.001
82385468|NCT04873934|164482467|SUPERIORITY||Odds Ratio (OR)|5.42|||<|0.001|TWO_SIDED|97.5|3.29|8.91|||Regression, Logistic|||||8.91|3.29|< 0.001
82638659|NCT01238861|164991850|SUPERIORITY_OR_OTHER|||||||0.944|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.944
82385469|NCT04873934|164482468|SUPERIORITY||LS mean difference|-42.0|||<|0.001|TWO_SIDED|95.0|-47.3|-36.7|||Mixed Models Analysis|||Day 90||-36.7|-47.3|< 0.001
82521329|NCT01239030|164737761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046|||||||ANCOVA|||||||0.0046
82521330|NCT00977665|164737762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.603||||0.6984|TWO_SIDED|95.0|-3.677|2.47||A priori threshold for statistical significance is 0.05.|repeated measures model|Fixed effects: categorical week in trial by treatment interaction, center, and baseline UMSARS score.||||2.470|-3.677|0.6984
82521331|NCT00977665|164737771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.646|2.186||||||||2.186|0.646|
82521332|NCT01201057|164737785|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|||||||0.006
82638660|NCT01238861|164991850|SUPERIORITY_OR_OTHER|||||||0.667|||||||ANCOVA|P-value was calculated by ANCOVA with treatment, baseline inhaled steroid status and baseline observed value as covariates.||||||0.667
82521333|NCT01201057|164737786|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82638661|NCT04550234|164991884|OTHER||Geometric mean ratio|57.73|||||TWO_SIDED|90.0|47.07|70.81||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||70.81|47.07|
82385470|NCT04873934|164482468|SUPERIORITY||LS mean difference|-30.8|||<|0.001|TWO_SIDED|95.0|-37.4|-24.3|||Mixed Models Analysis|||Day 270||-24.3|-37.4|< 0.001
82385471|NCT04873934|164482468|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.5|-31.0|||Mixed Models Analysis|||Day 330||-31.0|-44.5|< 0.001
82385472|NCT04873934|164482469|SUPERIORITY||LS mean difference|-46.7|||<|0.001|TWO_SIDED|95.0|-52.7|-40.8|||ANCOVA|||||-40.8|-52.7|< 0.001
82385473|NCT04873934|164482470|SUPERIORITY||LS mean difference|-37.3|||<|0.001|TWO_SIDED|95.0|-42.4|-32.2|||ANCOVA|||||-32.2|-42.4|< 0.001
82385474|NCT04873934|164482471|SUPERIORITY||Odds Ratio (OR)|11.87|||<|0.001|TWO_SIDED|95.0|6.33|22.25|||Regression, Logistic|||||22.25|6.33|< 0.001
82385475|NCT04873934|164482472|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.001|TWO_SIDED|95.0|1.92|9.99|||Regression, Logistic|||Achieving LDL-C \< 100 mg/dL||9.99|1.92|< 0.001
82385476|NCT04873934|164482472|SUPERIORITY||Odds Ratio (OR)|8.24|||<|0.001|TWO_SIDED|95.0|4.97|13.65|||Regression, Logistic|||Achieving LDL-C \< 55 mg/dL||13.65|4.97|< 0.001
82385477|NCT04873934|164482473|SUPERIORITY||LS mean difference|-37.5|||<|0.001|TWO_SIDED|95.0|-44.8|-30.3|||Mixed Models Analysis|||Apolipoprotein B||-30.3|-44.8|< 0.001
82638662|NCT04550234|164991884|OTHER||Geometric mean ratio|145.55|||||TWO_SIDED|90.0|118.66|178.52||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||178.52|118.66|
82385478|NCT04873934|164482473|SUPERIORITY||LS mean difference|-6.4||||0.188|TWO_SIDED|95.0|-16.0|3.1|||Mixed Models Analysis|||VLDL Cholesterol||3.1|-16.0|0.188
82521334|NCT01201057|164737787|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||||||0.025
82385479|NCT04873934|164482473|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.0|-31.4|||Mixed Models Analysis|||Non-HDL Cholesterol||-31.4|-44.0|< 0.001
82385480|NCT04873934|164482473|SUPERIORITY||LS mean difference|-25.5|||<|0.001|TWO_SIDED|95.0|-30.2|-20.7|||Mixed Models Analysis|||Total Cholesterol||-20.7|-30.2|< 0.001
82385481|NCT04873934|164482473|SUPERIORITY||LS mean difference|-16.4||||0.145|TWO_SIDED|95.0|-38.4|5.7|||Mixed Models Analysis|||Lipoprotein(a)||5.7|-38.4|0.145
82385482|NCT04873934|164482473|SUPERIORITY||LS mean difference|3.5||||0.141|TWO_SIDED|95.0|-1.2|8.1|||Mixed Models Analysis|||HDL Cholesterol||8.1|-1.2|0.141
82385483|NCT04873934|164482473|SUPERIORITY||LS mean difference|-5.0||||0.339|TWO_SIDED|95.0|-15.2|5.3|||Mixed Models Analysis|||Triglycerides||5.3|-15.2|0.339
82521335|NCT03240692|164737808|OTHER|||||||0.036||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and frontal Default Mode Network (fDMN) functional connectivity||||0.036
82521336|NCT03240692|164737808|OTHER|||||||0.008||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and medial Default Mode Network (mDMN) functional connectivity||||0.008
82521337|NCT03240692|164737808|OTHER|||||||0.06||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and left Default Mode Network (lDMN) functional connectivity.||||0.06
82638663|NCT04550234|164991884|OTHER||Geometric mean ratio|52.07|||||TWO_SIDED|90.0|42.46|63.87||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||63.87|42.46|
82638664|NCT04550234|164991884|OTHER||Geometric mean ratio|101.16|||||TWO_SIDED|90.0|82.48|124.08||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||124.08|82.48|
82638665|NCT04550234|164991884|OTHER||Geometric mean ratio|73.34|||||TWO_SIDED|90.0|61.81|87.03||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||87.03|61.81|
82638666|NCT04550234|164991884|OTHER||Geometric mean ratio|66.33|||||TWO_SIDED|90.0|55.9|78.72||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||78.72|55.90|
82638667|NCT04550234|164991884|OTHER||Geometric mean ratio|106.58|||||TWO_SIDED|90.0|89.81|126.47||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||126.47|89.81|
82638668|NCT04550234|164991884|OTHER||Geometric mean ratio|86.86|||||TWO_SIDED|90.0|83.15|90.74||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||90.74|83.15|
82638669|NCT04550234|164991884|OTHER||Geometric mean ratio|92.3|||||TWO_SIDED|90.0|88.35|96.42||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||96.42|88.35|
82638670|NCT04550234|164991884|OTHER||Geometric mean ratio|89.54|||||TWO_SIDED|90.0|85.71|93.54||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.54|85.71|
82521338|NCT03240692|164737808|OTHER|||||||0.017||||||False Discovery Corrected (FDR) p value. A p-value of ≤ 0.05 was considered to be statistically significant.|t-test, 2 sided|||Analysis of subgenual Anterior Cingulate Cortex (sgACC) and right Default Mode Network (rDMN) functional connectivity.||||0.017
82521339|NCT02300220|164737810|SUPERIORITY||Cox Proportional Hazard|1.071||||0.764|TWO_SIDED|95.0|0.684|1.676|||Regression, Cox|||The primary endpoint was assessed using a Cox's proportional hazard model with pre-specified adjustment for patient's self-reported history of exacerbations over the previous year and with stratification for study centre. The onset of exacerbation will be monitored up to 90 days or at patient withdrawal.||1.676|0.684|0.764
82521340|NCT02300220|164737811|SUPERIORITY|||||||0.703|||||||Wilcoxon (Mann-Whitney)|||||||0.703
82521341|NCT02300220|164737813|SUPERIORITY|||||||0.239|||||||t-test, 2 sided|||||||0.239
82521342|NCT04322682|164737816|SUPERIORITY||Odds Ratio (OR)|0.79||||0.081|TWO_SIDED|95.1|0.61|1.03|||Chi-squared|||||1.03|0.61|0.081
82638671|NCT04550234|164991885|OTHER||Geometric mean ratio|102.49|||||TWO_SIDED|90.0|89.12|117.86||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||117.86|89.12|
82638672|NCT04550234|164991885|OTHER||Geometric mean ratio|144.61|||||TWO_SIDED|90.0|125.75|166.31||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||166.31|125.75|
82638673|NCT04550234|164991885|OTHER||Geometric mean ratio|76.72|||||TWO_SIDED|90.0|66.71|88.23||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.23|66.71|
82385484|NCT04873934|164482474|SUPERIORITY||LS mean difference|-28.4|||<|0.001|TWO_SIDED|95.0|-33.0|-23.9|||Mixed Models Analysis|||Apolipoprotein B||-23.9|-33.0|< 0.001
82385485|NCT04873934|164482474|SUPERIORITY||LS mean difference|-2.1||||0.078|TWO_SIDED|95.0|-4.5|0.2|||Mixed Models Analysis|||VLDL Cholesterol||0.2|-4.5|0.078
82521343|NCT04322682|164737817|SUPERIORITY||Odds Ratio (OR)|0.56||||0.291|TWO_SIDED|95.0|0.19|1.67|||Chi-squared|||||1.67|0.19|0.291
82521344|NCT04322682|164737818|SUPERIORITY||Odds Ratio (OR)|0.79||||0.077|TWO_SIDED|95.0|0.6|1.03|||Chi-squared|||||1.03|0.60|0.077
82521345|NCT04322682|164737819|SUPERIORITY||Odds Ratio (OR)|0.53||||0.08|TWO_SIDED|95.0|0.25|1.09|||Chi-squared|||||1.09|0.25|0.080
82521346|NCT04322682|164737820|SUPERIORITY||Odds Ratio (OR)|0.75||||0.042|TWO_SIDED|95.0|0.57|0.99||P-Value is for the comparison of the treatment group within patients with Covid-19 confirmed by PCR.|Regression, Logistic|Logistic-regression model including the treatment group, the PCR-confirmed Covid-19 subgroup factor (yes/no) and their interaction was performed.||||0.99|0.57|0.042
82521347|NCT02238379|164737824|SUPERIORITY_OR_OTHER|||||||0.003||||||Main Effect of Emotion|ANOVA|Spray (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) by Hemisphere (Left, Right) ANOVA||N170 Analysis||||.003
82638674|NCT04550234|164991885|OTHER||Geometric mean ratio|96.19|||||TWO_SIDED|90.0|83.64|110.62||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||110.62|83.64|
82638675|NCT04550234|164991885|OTHER||Geometric mean ratio|89.41|||||TWO_SIDED|90.0|83.86|95.34||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||95.34|83.86|
82638676|NCT04550234|164991885|OTHER||Geometric mean ratio|94.16|||||TWO_SIDED|90.0|88.31|100.4||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||100.40|88.31|
82638677|NCT04550234|164991885|OTHER||Geometric mean ratio|91.7|||||TWO_SIDED|90.0|86.37|97.36||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||97.36|86.37|
82638678|NCT04550234|164991885|OTHER||Geometric mean ratio|91.23|||||TWO_SIDED|90.0|88.01|94.56||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||94.56|88.01|
82385486|NCT04873934|164482474|SUPERIORITY||LS mean difference|-40.1|||<|0.001|TWO_SIDED|95.0|-47.5|-32.8|||Mixed Models Analysis|||Non-HDL Cholesterol||-32.8|-47.5|< 0.001
82521348|NCT02238379|164737824|SUPERIORITY_OR_OTHER|||||||0.034||||||Main Effect of Face Type|ANOVA|Spray (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) by Hemisphere (Left, Right) ANOVA||N170 Analysis||||.034
82521349|NCT02238379|164737824|SUPERIORITY_OR_OTHER|||||||0.03||||||Main Effect of Face Type|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||P300 Analysis||||.03
82521350|NCT02238379|164737824|SUPERIORITY_OR_OTHER|||||||0.03||||||Spray Type by Face Type Interaction|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||P300 Analysis||||.03
82521351|NCT02238379|164737824|SUPERIORITY_OR_OTHER||||||>|0.22||||||No Main Effects or Interactions|ANOVA|Spray Type (Oxytocin, Placebo) by Face Type (Infant, Adult) by Emotion (Distress, Neutral) ANOVA||LPP Analysis||||>.22
82521352|NCT02238379|164737825|SUPERIORITY_OR_OTHER||||||>|0.14||||||No Main Effects or Interactions|ANOVA|Spray Type (Oxytocin, Placebo) and Hemisphere (left, right) ANOVA||N170 Analysis||||>.14
82521353|NCT02238379|164737825|SUPERIORITY_OR_OTHER||||||>|0.17||||||No difference between Spray Types|t-test, 2 sided|Paired samples t-test comparing Spray Type (Oxytocin vs Placebo)||P300 Analysis||||>.17
82572468|NCT02138253|164854465|SUPERIORITY||Risk Difference (RD)|-7.9||||0.421|TWO_SIDED|95.0|-28.8|13.1|||Cochran-Mantel-Haenszel|||All screening and post-baseline biopsy data collected were used in the primary analysis, irrespective of the defined protocol visit window. Classification of the Ishak fibrosis score was summarized descriptively by treatment group at baseline, Month 12, and Month 24. Response at Months 12 and 24 were summarized descriptively by treatment group, along with exact (Clopper-Pearson) 95% confidence intervals (CIs). The risk difference between groups was also was provided with its 95% CI.||13.1|-28.8|0.421
82572469|NCT00243022|164854518|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||t-test, 2 sided|||||||0.9
82572470|NCT00243022|164854519|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||||||0.12
82572471|NCT00243022|164854520|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||||||0.8
82572472|NCT01390441|164854540|NON_INFERIORITY_OR_EQUIVALENCE|PK bioequivalence was assumed if the 90% confidence interval of the geometric mean ratio for the comparison fell within the range 0.80-1.25.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.87|1.16|||ANOVA|||Back-transformed least squares mean and confidence interval from fixed effects model performed on natural log-transformed values containing treatment as a fixed effect and gender as a covariate.||1.16|0.87|
82572473|NCT01390441|164854542|SUPERIORITY_OR_OTHER||Percent difference|-17.2|||||TWO_SIDED|95.0|-38.6|3.6|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part A: MK-8808 500 mg/m\^2 - Part A: MabThera 500 mg/m\^2) when \>=4 participants in an arm experienced an event.||3.6|-38.6|
82638679|NCT04550234|164991885|OTHER||Geometric mean ratio|99.95|||||TWO_SIDED|90.0|96.43|103.61||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||103.61|96.43|
82521354|NCT02238379|164737825|SUPERIORITY_OR_OTHER||||||>|0.27||||||No difference between Spray Types|t-test, 2 sided|Paired samples t-test comparing Spray Type (Oxytocin vs Placebo)||LPP Analysis||||>.27
82521355|NCT02238379|164737826|SUPERIORITY_OR_OTHER|||||||0.006||||||Main Effect of Emotion|ANOVA|Spray Type (Oxytocin, Placebo), Face Type (Infant, Adult), Emotion (Neutral, Distressed), and Hemisphere (left, right) ANOVA||Only relevant for N170||||.006
82572474|NCT01390441|164854542|SUPERIORITY_OR_OTHER||Percent difference|-17.5|||||TWO_SIDED|95.0|-44.4|10.9|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MK-8808 1000 mg - Part B: MabThera 1000 mg) when \>=4 participants in an arm experienced an event.||10.9|-44.4|
82572475|NCT01390441|164854542|SUPERIORITY_OR_OTHER||Percent difference|-5.6|||||TWO_SIDED|95.0|-34.9|24.6|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MK-8808 1000 mg - Part B: Rituxan® 1000 mg) when \>=4 participants in an arm experienced an event.||24.6|-34.9|
82572476|NCT01390441|164854542|SUPERIORITY_OR_OTHER||Percent differnce|12.0|||||TWO_SIDED|95.0|-15.6|38.9|||Miettinen-Nurminen|||The difference in percent AE incidence was determined for the treatment comparison (Part B: MabThera® 1000 mg - Part B: Rituxan® 1000 mg) when \>=4 participants in an arm experienced an event.||38.9|-15.6|
82638680|NCT04550234|164991885|OTHER||Geometric mean ratio|90.13|||||TWO_SIDED|90.0|86.95|93.42||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.42|86.95|
82385487|NCT04873934|164482474|SUPERIORITY||LS mean difference|-37.7|||<|0.001|TWO_SIDED|95.0|-45.3|-30.2|||Mixed Models Analysis|||Total Cholesterol||-30.2|-45.3|< 0.001
82385488|NCT04873934|164482474|SUPERIORITY||LS mean difference|1.9||||0.065|TWO_SIDED|95.0|-0.1|3.8|||Mixed Models Analysis|||HDL Cholesterol||3.8|-0.1|0.065
82385489|NCT04873934|164482474|SUPERIORITY||LS mean difference|-8.7||||0.222|TWO_SIDED|95.0|-22.8|5.3|||Mixed Models Analysis|||Triglycerides||5.3|-22.8|0.222
82521356|NCT02238379|164737826|SUPERIORITY_OR_OTHER|||||||0.01||||||Main Effect of Hemisphere|ANOVA|Spray Type (Oxytocin, Placebo), Face Type (Infant, Adult), Emotion (Neutral, Distressed), and Hemisphere (left, right) ANOVA||Only relevant for N170||||.01
82521357|NCT02238379|164737827|SUPERIORITY_OR_OTHER|||||||0.03||||||Main Effect of Spray|ANOVA|Spray (oxytocin, placebo) by Hemisphere (left, right) ANOVA||Only relevant for N170||||.03
82521358|NCT02238379|164737827|SUPERIORITY_OR_OTHER|||||||0.008||||||Main Effect of Hemisphere|ANOVA|Spray (oxytocin, placebo) by Hemisphere (left, right) ANOVA||Only relevant for N170||||.008
82521359|NCT02238379|164737828|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
82521360|NCT02238379|164737830|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
82521361|NCT02238379|164737831|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
82638681|NCT04550234|164991886|OTHER||Geometric mean ratio|102.91|||||TWO_SIDED|90.0|89.04|118.93||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||118.93|89.04|
82385490|NCT04873934|164482475|SUPERIORITY||LS mean difference|-14.0||||0.005|TWO_SIDED|95.0|-23.8|-4.2|||Mixed Models Analysis|||Lipoprotein(a)||-4.2|-23.8|0.005
82385491|NCT04873934|164482476|SUPERIORITY||Odds Ratio (OR)|0.43||||0.031|TWO_SIDED|95.0|0.2|0.93|||proportional odds model|||||0.93|0.20|0.031
82521362|NCT02238379|164737832|SUPERIORITY_OR_OTHER|||||||0.05|||||||correlation|||||||.05
82521363|NCT00605280|164737839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0047|TWO_SIDED|95.0|1.32|4.3||Adjusted for glycolated hemoglobin (HbA1c), systolic blood pressure (BP), diastolic BP, and baseline VA. Baseline values not carried forward for missing post-baseline data.|Cochran-Mantel-Haenszel|||||4.30|1.32|0.0047
82521364|NCT00605280|164737840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.1904|TWO_SIDED|95.0|0.85|2.53|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||2.53|0.85|0.1904
82521365|NCT00605280|164737841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.2466|TWO_SIDED|95.0|0.74|3.34|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||3.34|0.74|0.2466
82521366|NCT00605280|164737842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.1388|TWO_SIDED|95.0|0.86|3.26|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||3.26|0.86|0.1388
82521367|NCT00605280|164737843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0468|TWO_SIDED|95.0|0.07|0.99|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.99|0.07|0.0468
82521368|NCT00605280|164737844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.1124|TWO_SIDED|95.0|0.73|11.55|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||11.55|0.73|0.1124
82385492|NCT04873934|164482477|SUPERIORITY||LS mean difference|-0.039||||0.043|TWO_SIDED|95.0|-0.077|-0.001|||ANCOVA|||||-0.001|-0.077|0.043
82385493|NCT04873934|164482478|SUPERIORITY||Odds Ratio (OR)|0.76||||0.346|TWO_SIDED|95.0|0.43|1.35|||Regression, Logistic|||||1.35|0.43|0.346
82521369|NCT00605280|164737845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.1788|TWO_SIDED|95.0|0.16|1.42|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||1.42|0.16|0.1788
82521370|NCT00605280|164737846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.12||||0.0048|TWO_SIDED|95.0|1.45|18.06|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||18.06|1.45|0.0048
82521371|NCT00605280|164737847|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean|3.9||||0.004|TWO_SIDED|95.0|1.25|6.54|||ANCOVA|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||6.54|1.25|0.0040
82521372|NCT00605280|164737848|SUPERIORITY_OR_OTHER||LS Mean|4.57||||0.0011|TWO_SIDED|95.0|1.85|7.29|||ANCOVA|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post baseline data.||||7.29|1.85|0.0011
82521373|NCT00605280|164737849|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.0023|TWO_SIDED|95.0|0.24|0.74|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.74|0.24|0.0023
82521374|NCT00605280|164737850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.0008|TWO_SIDED|95.0|0.23|0.69|||Cochran-Mantel-Haenszel|Adjusted for HbA1c, systolic BP, diastolic BP, and baseline VA. Baseline values were not carried forward for any missing post-baseline data.||||0.69|0.23|0.0008
82521375|NCT01669122|164737904|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
82521376|NCT01669122|164737904|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
82521377|NCT01669122|164737904|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.94|||||TWO_SIDED|90.0|0.91|0.97||||||Null hypothesis considered no difference in the treatments being compared.||0.97|0.91|
82521378|NCT01669122|164737905|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.02||||||Null hypothesis considered no difference in the treatments being compared.||1.02|0.93|
82521379|NCT01669122|164737905|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.99|||||TWO_SIDED|90.0|0.94|1.03||||||Null hypothesis considered no difference in the treatments being compared.||1.03|0.94|
82521380|NCT01669122|164737905|NON_INFERIORITY_OR_EQUIVALENCE|Testing Bioequivalence|Treatment Ratio|0.92|||||TWO_SIDED|90.0|0.88|0.96||||||Null hypothesis considered no difference in the treatments being compared.||0.96|0.88|
82521381|NCT01669122|164737906|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
82521382|NCT01669122|164737906|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Null hypothesis considered no difference in the treatments being compared.||0.99|0.93|
82521383|NCT01669122|164737906|NON_INFERIORITY_OR_EQUIVALENCE|Testing bioequivalence|Treatment Ratio|0.93|||||TWO_SIDED|90.0|0.9|0.96||||||Null hypothesis considered no difference in the treatments being compared.||0.96|0.90|
82521384|NCT01669122|164737907|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.2208|TWO_SIDED|95.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.50|0.00|0.2208
82521385|NCT01669122|164737907|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.5695|TWO_SIDED|95.0|-0.25|0.25|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.25|-0.25|0.5695
82521386|NCT01669122|164737907|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0063|TWO_SIDED|95.0|0.0|0.5|||Wilcoxon (Mann-Whitney)||Based on Hodges Lehmann estimate|Null hypothesis considered no difference in the treatments being compared.||0.50|0.00|0.0063
82638682|NCT04550234|164991886|OTHER||Geometric mean ratio|146.57|||||TWO_SIDED|90.0|126.82|169.4||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||169.40|126.82|
82521387|NCT05338333|164737973|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.006|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens-by-visit interaction, period, sequence, and habitual lens stratum) and random (subject) effects. Difference = LID210464 minus AOHG MF.|||0.00||
82521388|NCT01194570|164738005|SUPERIORITY_OR_OTHER_LEGACY||Relative Reduction (%)|29.337||||0.0404|TWO_SIDED|95.0|-1.618|51.456||P-value from a ranked ANCOVA on Percent Change from BL adjusting for rank of BL 25-Foot Timed Walk (25-FTW), Geographical Region (US vs ROW) and Age (\<=45, \> 45 years); missing observations imputed with LOCF.|Ranked ANCOVA||Relative reduction was calculated as -Relative change = - (Ocrelizumab response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.|Estimates (back-transformed) based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix: log(Post-baseline(BL)/BL) = log(BL 25-FTW) + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + log (BL 25-FTW)\*Week. Relative reduction was calculated as -Relative change = -(OCR response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.||51.456|-1.618|0.0404
82521389|NCT01194570|164738006|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Geometric Means|0.9|||<|0.0001|TWO_SIDED|95.0|0.876|0.924||P-value is from ranked ANCOVA on Percent Change from BL adjusting for rank of BL T2 lesion volume, Geographical Region (US vs ROW) and Age (\<=45, \> 45 years); missing observations imputed with LOCF.|Ranked ANCOVA|||Estimates (back-transformed) are based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix: log(Post-BL/BL) = log(BL T2 lesion volume) + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + log (BL T2 lesion volume)\*Week.||0.924|0.876|< 0.0001
82521390|NCT01194570|164738007|SUPERIORITY_OR_OTHER_LEGACY||Relative Reduction (%)|17.475||||0.0206|TWO_SIDED|95.0|3.206|29.251|||MMRM||Relative reduction was calculated as -Relative change = - (Ocrelizumab response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using the Bootstrap method.|Estimates are from analysis based on MMRM using unstructured covariance matrix: Percentage Change = Brain Volume at Week 24 + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + Brain Volume at Week 24\*Week. Relative reduction was calculated as - Relative change = - (OCR response-Placebo response)/Placebo response\*100%. The 95% CI for relative reduction was obtained using Bootstrap method.||29.251|3.206|0.0206
82521391|NCT01194570|164738008|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.377|STANDARD_ERROR_OF_MEAN|0.725||0.6034|TWO_SIDED|95.0|-1.048|1.802|||MMRM||Difference in adjusted mean was calculated as Ocrelizumab SF-36 Physical Component Summary Score - Placebo SF-36 Physical Component Summary Score.|Estimates are from analysis based on MMRM using unstructured covariance matrix: Change = Baseline PCS Score + Geographical Region (US vs. ROW) + Age (\<=45, \> 45 years) + Week + Treatment + Treatment\*Week (repeated values over Week) + Baseline PCS Score\*Week.||1.802|-1.048|0.6034
82521392|NCT02673398|164738017|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.05|TWO_SIDED|95.0|-0.82|0.01|||t-test, 2 sided||Patients with higher risk scores were more likely to require a dose reduction. The lack of significance is most likely due to the small sample size.|Student's t-test was used to assess if geriatric risk score differed depending on whether or not a participant had a dose reduction (mean difference log2 risk = no dose modification - dose modification).||0.01|-0.82|0.05
82521393|NCT02673398|164738017|SUPERIORITY||Slope|-1.29|STANDARD_ERROR_OF_MEAN|1.44||0.39|TWO_SIDED||||||Regression, Linear|||Linear regression was used to assess whether log2 geriatric toxicity risk score was a risk factor for the number of course completed.||||0.39
82521394|NCT02673398|164738018|SUPERIORITY||Slope|-0.093|STANDARD_ERROR_OF_MEAN|0.0398||0.03|TWO_SIDED||||||Regression, Linear||The older the participant the lower the steady state value.|Least squares regression was used to assess the relationship between steady state neratinib concentration and age||||0.03
82521395|NCT02673398|164738018|SUPERIORITY||Slope|1.4|STANDARD_DEVIATION|2.39||0.57|TWO_SIDED||||||Regression, Linear||Geriatric risk score was not predictive of steady state concentration.|Least squares regression was used to determine if geriatric toxicity risk score at baseline was predictive of steady state neratinib concentration.||||0.57
82521396|NCT00833560|164738037|SUPERIORITY_OR_OTHER||Percentage of participants with response|85.4|||<|0.0001|TWO_SIDED|95.0|81.5|88.8|||Two - sided binomial test|||||88.8|81.5|<0.0001
82521397|NCT00833560|164738038|SUPERIORITY_OR_OTHER||Percentage of participants with response|87.7|||<|0.0001|TWO_SIDED|95.0|83.6|91.0|||Two-sided binomial test|||||91.0|83.6|<0.0001
82521398|NCT00414817|164738047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018||||0.002|TWO_SIDED|95.0|0.006|0.03|||Regression, Linear|2-tailed p-value based on linear regression adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline mMPR|Estimated adherence was approximately 2 percentage points higher for intervention group than for usual care group.|In all of our analyses we used duration of follow-up as a weighting variable to reflect the fact that our adherence measure becomes more accurate and reliable with longer follow-up. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above. Also, sensitivity analyses that included daily oral steroid users and those with fewer than 3 months of follow-up yielded similar results to those presented here.||.030|.006|.002
82638683|NCT04550234|164991886|OTHER||Geometric mean ratio|76.72|||||TWO_SIDED|90.0|66.38|88.67||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.67|66.38|
82521399|NCT00414817|164738048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.175|TWO_SIDED|95.0|-0.23|0.04|||Regression, Linear|2-tailed p-value adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline adherence.||In all of our analyses we used duration of follow-up as a weighting variable. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above.||0.04|-0.23|0.175
82521400|NCT00414817|164738049|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.852|TWO_SIDED|95.0|0.96|1.06||2-tailed p-value based on overdispersed Poisson regression adjusted for site, age, sex, co-morbid COPD, baseline use of short acting beta agonists, and baseline mMPR|overdispersed Poisson regression|||In all of our analyses we used duration of follow-up as a weighting variable. This weighting is reflected both in the formal statistical analyses and in the presentation of means and standard deviations given above.||1.06|0.96|0.852
82521401|NCT01316510|164738051|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||Primary outcome (percentage of bifidobacteria in the final stool specimen)||||<0.01
82521402|NCT01316510|164738052|SUPERIORITY_OR_OTHER|||||||0.44|||||||t-test, 2 sided|||Secondary outcome (length of hospital stay) for all 24 infants (this included two infants with intestinal atresia, both in the placebo group)||||0.44
82521403|NCT00184548|164738060|SUPERIORITY_OR_OTHER|||||||0.934||||||Two-sided significance level 5%|Regression, Logistic|||Test for Odds ratio=1, corresponding to a null hypothesis of no difference in mortality for patients who died between groups for Blunt Trauma. Odds-ratio is adjusted for baseline covariates: Age, Injury Severity Score (ISS), Glasgow Coma -Scale Score (GCS), International Normalized Ratio (INR) and acute lung injury (P/F \> 200). Missing covariates are imputed by the mean value.||||0.934
82521404|NCT00184548|164738060|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.589||95.0|0.64|2.17||Two-sided significance level 5%|Cox Proportional Hazards Model|||Treatment groups are compared using a Cox Proportional Hazards model with treatment as factor and adjusting for age, Injury Severity Score (ISS), Glasgow Coma -Scale Score(GCS), International Normalized Ratio (INR) and acute lung injury.||2.17|0.64|0.589
82521405|NCT00184548|164738062|SUPERIORITY_OR_OTHER||LS means|0.9||||0.308||95.0|-0.83|2.63|||ANCOVA|||Baseline covariates: Age, Injury Severity Score (ISS), Glasgow Coma -Scale Score (GCS), International Normalized Ratio (INR) and acute lung injury.||2.63|-0.83|0.308
82572477|NCT01390441|164854544|NON_INFERIORITY_OR_EQUIVALENCE|PK bioequivalence was assumed if the 90% confidence interval of the geometric mean ratio for the comparison fell within the range 0.80-1.25.|Geometric mean ratio|0.98|||||TWO_SIDED|90.0|0.87|1.1|||ANOVA|||Back-transformed least squares mean and confidence interval from fixed effects model performed on natural log-transformed values containing treatment as a fixed effect and gender as a covariate.||1.1|0.87|
82521406|NCT00184548|164738064|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift estimate|1.0||||0.038||95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|0.038
82521407|NCT00184548|164738065|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.175||||0.384||95.0|0.817|1.69|||Regression, Logistic|||||1.690|0.817|0.384
82521408|NCT00184548|164738066|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift estimate|2.0||||0.03||95.0|0.0|4.0|||Wilcoxon (Mann-Whitney)|||||4|0|0.030
82521409|NCT02623322|164738110|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3031|TWO_SIDED|80.0|-12.25|6.19|||Cochran-Mantel-Haenszel|||||6.19|-12.25|0.3031
82521410|NCT02623322|164738110|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3324|TWO_SIDED|80.0|-12.82|6.76|||Cochran-Mantel-Haenszel|||||6.76|-12.82|0.3324
82521411|NCT02623322|164738111|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3031|TWO_SIDED|80.0|-12.25|6.19|||Cochran-Mantel-Haenszel|||||6.19|-12.25|0.3031
82521412|NCT02623322|164738111|SUPERIORITY||Difference in event rates (Wald)|-3.03||||0.3324|TWO_SIDED|80.0|-12.82|6.76|||Cochran-Mantel-Haenszel|||||6.76|-12.82|0.3324
82521413|NCT02623322|164738115|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7858|TWO_SIDED|80.0|0.62|1.37|||Wilcoxon|||Total Symptom Score of \<=1||1.37|0.62|0.7858
82521414|NCT02623322|164738115|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.517|TWO_SIDED|80.0|0.59|1.36|||Wilcoxon|||Total Symptom Score of \<=1||1.36|0.59|0.5170
82521415|NCT02623322|164738115|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0312|TWO_SIDED|80.0|0.45|0.89|||Wilcoxon|||Total Symptom Score of \<=7||0.89|0.45|0.0312
82521416|NCT02623322|164738115|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2044|TWO_SIDED|80.0|0.53|1.04|||Wilcoxon|||Total Symptom Score of \<=7||1.04|0.53|0.2044
82521417|NCT03775200|164738122|OTHER|For this primary analysis, a sample size of 216 randomised participants (72:72:72) will provide 90% power at the alpha = 0.05 level to detect a 6-point difference in average MADRS total score between the optimal therapeutic dose of COMP360 and COMP360 1 mg, assuming the common standard deviation (SD) is 11.0.|Least Mean Square Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.86|<|0.05|TWO_SIDED|95.0|-10.2|-2.9|||Mixed Models Analysis|Hypothetical strategy estimand - missing not at random (MNAR) and missing at random (MAR) imputation for missing data.|LSM difference of COMP360 25 mg compared to COMP360 1 mg.|The primary analysis was the comparison between COMP360 (25 mg or 10 mg) versus COMP360 1 mg. The null hypothesis was that there was no difference in mean change from Baseline in MADRS total score at Week 3 for COMP360 25 mg or COMP360 10 mg versus COMP360 1 mg. The alternative hypothesis was that were was a difference in mean change from Baseline in MADRS total score at Week 3 for COMP360 25 mg or COMP360 10 mg versus COMP360 1 mg.||-2.9|-10.2|<0.05
82521418|NCT03775200|164738123|OTHER||Least Mean Square Difference|-5.6|STANDARD_ERROR_OF_MEAN|1.93|<|0.05|TWO_SIDED|95.0|-9.4|-1.8|||Mixed Models Analysis|Hypothetical strategy estimand - MNAR and MAR imputation for missing data.||Sensitivity analysis of the primary endpoint using the per-protocol analysis set.||-1.8|-9.4|<0.05
82521419|NCT01786512|164738143|OTHER||Treatment difference|0.0112|STANDARD_ERROR_OF_MEAN|0.0033||0.0007|TWO_SIDED|95.0|0.0047|0.0176|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.0176|0.0047|0.0007
82521420|NCT01786512|164738143|OTHER||Treatment difference|0.025|STANDARD_ERROR_OF_MEAN|0.0033|<|0.0001|TWO_SIDED|95.0|0.0184|0.0315|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.0315|0.0184|<0.0001
82521421|NCT01786512|164738144|OTHER||Treatment difference|4.58|STANDARD_ERROR_OF_MEAN|1.56||0.0036|TWO_SIDED|95.0|1.5|7.65|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||7.65|1.50|0.0036
82521422|NCT01786512|164738144|OTHER||Treatment difference|3.63|STANDARD_ERROR_OF_MEAN|1.57||0.0217|TWO_SIDED|95.0|0.53|6.72|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||6.72|0.53|0.0217
82521423|NCT01786512|164738145|OTHER||Treatment difference|-0.079|STANDARD_ERROR_OF_MEAN|0.058||0.1732|TWO_SIDED|95.0|-0.194|0.035|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.035|-0.194|0.1732
82521424|NCT01786512|164738145|OTHER||Treatment difference|-0.179|STANDARD_ERROR_OF_MEAN|0.059||0.0027|TWO_SIDED|95.0|-0.295|-0.062|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.062|-0.295|0.0027
82521425|NCT01786512|164738146|OTHER||Treatment difference|-0.067|STANDARD_ERROR_OF_MEAN|0.051||0.1899|TWO_SIDED|95.0|-0.166|0.033|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.033|-0.166|0.1899
82638684|NCT04550234|164991886|OTHER||Geometric mean ratio|95.37|||||TWO_SIDED|90.0|82.52|110.23||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||110.23|82.52|
82638685|NCT04550234|164991886|OTHER||Geometric mean ratio|82.6|||||TWO_SIDED|90.0|77.38|88.17||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||88.17|77.38|
82385494|NCT00708461|164482484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.1202||0.36|TWO_SIDED|95.0|-0.21|0.46||Adjusted for age, educational attainment, race/ethnicity, and smoking status as individual, fixed-effect covariates. 95% confidence intervals and p-values derived from t-statistics with 4 degrees of freedom, reflecting the group-randomized design.|ANCOVA|Adjusted for age, educational attainment, race/ethnicity, and smoking status as individual, fixed-effect covariates.||"The null hypothesis was no effect of the environmental intervention. The following power assumptions were made:~* Intraclass correlation (ICC) of 0.016, estimated from an earlier study~* Variance of 118 kg, estimated from an earlier study~* Cohort N=400~* 15% attrition (by turnover) Using the external control and a worksite correlation of 0.2 gives a detectable difference of about 1.5 kg or 3 lb, or an effect size of 0.14. The effect size using internal control is 0.20."||0.46|-0.21|0.36
82385495|NCT02907177|164482517|SUPERIORITY||Treatment effect (rate ratio)|1.27||||0.5252|TWO_SIDED|95.0|0.608|2.654|||Negative binomial regression||Rate ratio is ponesimod 20 mg / DMF versus placebo /DMF|||2.654|0.608|0.5252
82385496|NCT04586244|164482531|SUPERIORITY|||||||0.0925|||||||paired t-test|The paired t-test used n-1 degrees of freedom, where n is the number of evaluable paired samples.||||||0.0925
82385497|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-10.5|STANDARD_ERROR_OF_MEAN|8.5||0.2179|TWO_SIDED|95.0|-27.4|6.3|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||6.3|-27.4|0.2179
82385498|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-14.6|STANDARD_ERROR_OF_MEAN|8.5||0.0883|TWO_SIDED|95.0|-31.5|2.2|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||2.2|-31.5|0.0883
82521426|NCT01786512|164738146|OTHER||Treatment difference|-0.129|STANDARD_ERROR_OF_MEAN|0.052||0.0128|TWO_SIDED|95.0|-0.231|-0.028|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.028|-0.231|0.0128
82521427|NCT01786512|164738147|OTHER||Treatment difference|-1.34|STANDARD_ERROR_OF_MEAN|1.09||0.2177|TWO_SIDED|95.0|-3.47|0.79|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||0.79|-3.47|0.2177
82521428|NCT01786512|164738147|OTHER||Treatment difference|-2.97|STANDARD_ERROR_OF_MEAN|1.09||0.007|TWO_SIDED|95.0|-5.12|-0.81|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-0.81|-5.12|0.0070
82521429|NCT01786512|164738148|OTHER||Treatment difference|-822.0|STANDARD_ERROR_OF_MEAN|353.0||0.0205|TWO_SIDED|95.0|-1516.0|-127.0|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-127|-1516|0.0205
82521430|NCT01786512|164738148|OTHER||Treatment difference|-970.0|STANDARD_ERROR_OF_MEAN|357.0||0.0069|TWO_SIDED|95.0|-1672.0|-268.0|||Repeated Measures||Repeated measures model includes treatment group, stratification factor, scheduled visit, interaction of treatment with scheduled visit and the baseline value as covariates.|||-268|-1672|0.0069
82521431|NCT02450331|164738151|SUPERIORITY||Hazard Ratio (HR)|0.892||||0.2446|TWO_SIDED|95.0|0.735|1.081|||Log Rank|||||1.081|0.735|0.2446
82521432|NCT02450331|164738152|SUPERIORITY||Hazard Ratio (HR)|0.897||||0.3172|TWO_SIDED|95.0|0.726|1.109|||Log Rank|||Stratified analysis based on PDL1 status, tumor stage after resection, and nodal status.||1.109|0.726|0.3172
82638686|NCT04550234|164991886|OTHER||Geometric mean ratio|87.14|||||TWO_SIDED|90.0|81.63|93.01||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.01|81.63|
82638687|NCT04550234|164991886|OTHER||Geometric mean ratio|91.45|||||TWO_SIDED|90.0|85.67|97.61||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||97.61|85.67|
82385499|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-12.6|STANDARD_ERROR_OF_MEAN|8.5||0.1414|TWO_SIDED|95.0|-29.4|4.3|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||4.3|-29.4|0.1414
82385500|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.3|STANDARD_ERROR_OF_MEAN|7.0||0.4514|TWO_SIDED|95.0|-19.1|8.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||8.6|-19.1|0.4514
82521433|NCT02450331|164738153|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.836||||0.2235|TWO_SIDED|95.0|0.626|1.116|||Log Rank|||||1.116|0.626|0.2235
82521434|NCT02450331|164738154|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.918||||0.4291|TWO_SIDED|95.0|0.743|1.134|||Log Rank|||||1.134|0.743|0.4291
82521435|NCT02450331|164738155|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.879||||0.1994|TWO_SIDED|95.0|0.722|1.07|||Log Rank|||||1.070|0.722|0.1994
82572478|NCT01390441|164854548|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|The model included a term for treatment.||Estimated difference vs MabThera® at 6 weeks.||0.5|-0.9|
82638688|NCT04550234|164991886|OTHER||Geometric mean ratio|90.91|||||TWO_SIDED|90.0|87.98|93.94||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||93.94|87.98|
82521436|NCT03581981|164738161|SUPERIORITY|see statistical plan|Mean Difference (Final Values)|-3.6||||0.33|TWO_SIDED|95.0|-10.7|3.6|||Mixed Models Analysis|||||3.6|-10.7|0.33
82521437|NCT03581981|164738162|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.89|TWO_SIDED||||||Mixed Models Analysis|||||||0.89
82521438|NCT03581981|164738163|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.89|TWO_SIDED||||||Mixed Models Analysis|||||||0.89
82521439|NCT03581981|164738164|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.99|TWO_SIDED|95.0|-3.6|3.6|||Mixed Models Analysis|||||3.6|-3.6|0.99
82521440|NCT03581981|164738165|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.52|TWO_SIDED|95.0|-7.3|3.7|||Mixed Models Analysis|||||3.7|-7.3|0.52
82521441|NCT03581981|164738166|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5|TWO_SIDED|95.0|-1.4|2.9|||Mixed Models Analysis|||||2.9|-1.4|0.50
82521442|NCT03581981|164738167|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
82521443|NCT03581981|164738168|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
82521444|NCT03581981|164738169|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
82521445|NCT03581981|164738170|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
82521446|NCT03581981|164738171|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||0.41
82521447|NCT03581981|164738172|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.41|TWO_SIDED||||||Mixed Models Analysis|||||||0.41
82521448|NCT03384173|164738173|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82521449|NCT03384173|164738174|OTHER|Correlation, Pearson r|Pearson r correlation|0.16||||0.17|TWO_SIDED|95.0|-0.07|0.37|||Pearson r correlation|||||0.37|-0.07|0.17
82521450|NCT03384173|164738175|OTHER|Correlation, Pearson r|Pearson r correlation|0.12||||0.32|TWO_SIDED|95.0|-0.11|0.33|||Pearson r correlation|||||0.33|-0.11|0.32
82572479|NCT01390441|164854548|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|The model included a term for treatment.||Estimated difference vs MabThera® at 12 weeks.||1.2|-0.4|
82572480|NCT04706793|164854555|OTHER||Risk Difference (RD)|17.86|||||TWO_SIDED|95.0|-3.1|38.82||||||||38.82|-3.10|
82385501|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.212||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2120
82442891|NCT02699450|164594425|SUPERIORITY||Difference in Least Squares Means|-1.8||||0.78|TWO_SIDED|80.0|-9.8|6.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||6.2|-9.8|0.78
82442892|NCT02699450|164594426|SUPERIORITY||Difference in Least Squares Means|-2.3||||0.78|TWO_SIDED|80.0|-12.7|8.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||8.2|-12.7|0.78
82442893|NCT02699450|164594427|SUPERIORITY||Difference in Least Squares Means|-0.5||||0.93|TWO_SIDED|80.0|-7.7|6.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||6.7|-7.7|0.93
82442894|NCT02699450|164594427|SUPERIORITY||Difference in Least Squares Means|-2.0||||0.69|TWO_SIDED|80.0|-8.3|4.4||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction term.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||4.4|-8.3|0.69
82442895|NCT02699450|164594428|SUPERIORITY||Difference in Least Squares Means|-6.5||||0.69|TWO_SIDED|80.0|-27.8|14.7||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||14.7|-27.8|0.69
82442896|NCT02699450|164594428|SUPERIORITY||Difference in Least Squares Means|-22.8||||0.18|TWO_SIDED|80.0|-44.5|-1.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-1.2|-44.5|0.18
82442897|NCT02699450|164594429|SUPERIORITY||Difference in Least Squares Means|-49.2||||0.07|TWO_SIDED|80.0|-84.2|-14.2||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||-14.2|-84.2|0.07
82442898|NCT02699450|164594430|SUPERIORITY||Difference in Least Squares Means|-17.3||||0.28|TWO_SIDED|80.0|-38.0|3.4||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.4|-38.0|0.28
82521451|NCT03384173|164738177|OTHER|Mann Whitney U non parametric test|||||<|0.01||||||"A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.~A-priori threshold p\<0.05 for 'subgroup 30-39.99%' vs 'baseline value before caffeine dose'."|Wilcoxon (Mann-Whitney)|||Control group is Secondary analysis #4, baseline values before caffeine dose.||||<0.01
82572481|NCT04706793|164854556|OTHER||Risk Difference (RD)|28.57|||||TWO_SIDED|95.0|6.28|50.86||||||||50.86|6.28|
82521452|NCT03384173|164738178|OTHER|Mann Whitney U non parametric test|||||<|0.001||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Control group is secondary outcome #4, baseline values before caffeine dose||||<0.001
82521453|NCT03384173|164738179|OTHER|Mann-Whitney U non parametric t test|||||<|0.01||||||"A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.~A-priori threshold p\<0.05 for 'subgroup \>60% ' vs 'baseline value before caffeine dose'."|Wilcoxon (Mann-Whitney)|||Comparison group is Secondary outcome #4, baseline caffeine values by subgroup||||<0.01
82521454|NCT03384173|164738180|OTHER||||||<|0.0001||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Comparison group is secondary outcome #4, baseline values before caffeine dose||||<0.0001
82521455|NCT03384173|164738181|OTHER|Mann Whitney U non-parametric t-test|||||<|0.05||||||A-priori threshold p\<0.05 for 'subgroup 20-29.99%' vs 'baseline value before caffeine dose'.|Wilcoxon (Mann-Whitney)|||Comparison group is Secondary Outcome #4, baseline before dose of caffeine.||||<0.05
82521456|NCT02606903|164738195|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|110.19|STANDARD_DEVIATION|33.603|||TWO_SIDED|90.0|96.8|125.44|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and body mass index (BMI) group as fixed effects||125.44|96.80|
82521457|NCT02606903|164738196|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|100.14|STANDARD_DEVIATION|42.354|||TWO_SIDED|90.0|85.15|117.76|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and BMI group as fixed effects||117.76|85.15|
82521458|NCT02606903|164738197|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means (%)|100.22|STANDARD_DEVIATION|53.137|||TWO_SIDED|90.0|82.13|122.29|||ANOVA||Relative bioavailability was estimated by the ratio (AI/PFS) of the adjusted geometric means (gMean). Standard deviation is actually inter-individual geometric coefficient of variation (%).|Analysis of variance (ANOVA) model on the log scale was used including treatment and BMI group as fixed effects||122.29|82.13|
82638689|NCT04550234|164991886|OTHER||Geometric mean ratio|99.37|||||TWO_SIDED|90.0|96.17|102.68||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.68|96.17|
82572482|NCT04706793|164854557|OTHER||Risk Difference (RD)|32.14|||||TWO_SIDED|95.0|9.58|54.71||||||||54.71|9.58|
82638690|NCT04550234|164991886|OTHER||Geometric mean ratio|89.18|||||TWO_SIDED|90.0|86.3|92.15||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||92.15|86.30|
82521459|NCT02275065|164738201|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521460|NCT02275065|164738201|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521461|NCT02275065|164738201|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521462|NCT02275065|164738201|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521463|NCT02275065|164738204|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521464|NCT02275065|164738204|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521465|NCT02275065|164738204|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521466|NCT02275065|164738204|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521467|NCT02275065|164738205|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521468|NCT02275065|164738205|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521469|NCT02275065|164738205|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521470|NCT02275065|164738205|OTHER||||||<|0.001||||||Comparison was made using the t-test at a 2-sided 0.05 significance level.|t-test, 2 sided|||||||<0.001
82521471|NCT01311674|164738226|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82521472|NCT01311674|164738227|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82521473|NCT01311674|164738228|SUPERIORITY|||||||0.84|||||||Log Rank|||||||0.84
82521474|NCT01311674|164738229|SUPERIORITY|||||||0.24|||||||Log Rank|||||||0.24
82521475|NCT01311674|164738230|SUPERIORITY|||||||0.27|||||||Log Rank|||||||0.27
82521476|NCT03969719|164738243|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-12.44||||0.0696|TWO_SIDED|90.0|-22.37|-1.25|||ANCOVA|||||-1.25|-22.37|0.0696
82521477|NCT03969719|164738243|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-14.64||||0.0288|TWO_SIDED|90.0|-24.18|-3.89|||ANCOVA|||||-3.89|-24.18|0.0288
82521478|NCT03969719|164738244|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-0.08||||0.6336|TWO_SIDED|90.0|-0.36|0.2|||Mixed Models Analysis|||||0.20|-0.36|0.6336
82638691|NCT04550234|164991898|OTHER||Geometric mean ratio|108.25|||||TWO_SIDED|90.0|94.13|124.49||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||124.49|94.13|
82572483|NCT04706793|164854558|OTHER||Risk Difference (RD)|21.43|||||TWO_SIDED|95.0|-0.07|42.92||||||||42.92|-0.07|
82572484|NCT04706793|164854559|OTHER||Risk Difference (RD)|17.86|||||TWO_SIDED|95.0|-3.1|38.82||||||||38.82|-3.10|
82638692|NCT04550234|164991898|OTHER||Geometric mean ratio|96.57|||||TWO_SIDED|90.0|90.96|102.53||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.53|90.96|
82521479|NCT03969719|164738244|EQUIVALENCE|The comparisons of PF-06835919 to placebo was performed at a Type I error rate of 10%.|Mean Difference (Final Values)|-0.25||||0.1266|TWO_SIDED|90.0|-0.52|0.02|||Mixed Models Analysis|||||0.02|-0.52|0.1266
82521480|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.87|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.87
82572485|NCT04706793|164854560|OTHER||Risk Difference (RD)|7.14|||||TWO_SIDED|95.0|-2.4|16.68||||||||16.68|-2.40|
82572486|NCT00823836|164854574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of ropinirole PR/XR tablets to ropinirole IR tablets was assessed with a non-inferiority margin of 2.5.|Median Difference (Net)|0.34||||0.702|TWO_SIDED|95.0|-1.41|2.09||Analysis of covariance (ANCOVA) model: value of change from Week 0 at Week 24 = treatment group + Week 0 value|ANCOVA|||||2.09|-1.41|0.702
82572487|NCT02271230|164854654|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.78|1.11||||||||1.11|0.78|
82572488|NCT02271230|164854654|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.8|1.14||||||||1.14|0.80|
82638693|NCT04550234|164991898|OTHER||Geometric mean ratio|98.75|||||TWO_SIDED|90.0|95.27|102.36||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.36|95.27|
82521481|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.78|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.78
82638694|NCT04550234|164991899|OTHER||Geometric mean ratio|109.27|||||TWO_SIDED|90.0|94.55|126.29||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||126.29|94.55|
82521482|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.67|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.67
82521483|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.52|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.52
82572489|NCT02271230|164854655|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.81|1.09||||||||1.09|0.81|
82572490|NCT02271230|164854655|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|0.998||||||||0.998|0.74|
82572491|NCT01130168|164854656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||<|0.0005|TWO_SIDED|95.0|-15.3|-10.9|||ANOVA|||||-10.9|-15.3|<0.0005
82572492|NCT01130168|164854656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.016|TWO_SIDED|95.0|-4.9|-0.6|||ANOVA|||||-0.6|-4.9|0.016
82572493|NCT01130168|164854657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.407|TWO_SIDED|95.0|-1.7|4.3|||ANOVA|||||4.3|-1.7|0.407
82572494|NCT01130168|164854657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||<|0.0005|TWO_SIDED|95.0|-8.9|-2.9|||ANOVA|||||-2.9|-8.9|<0.0005
82572495|NCT01130168|164854658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.0005|TWO_SIDED|95.0|-21.2|-10.1|||ANOVA|||||-10.1|-21.2|<0.0005
82572496|NCT01130168|164854658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3||||0.001|TWO_SIDED|95.0|-17.4|-6.3|||ANOVA|||||-6.3|-17.4|0.001
82638695|NCT04550234|164991899|OTHER||Geometric mean ratio|96.47|||||TWO_SIDED|90.0|90.38|102.97||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||102.97|90.38|
82638696|NCT04550234|164991899|OTHER||Geometric mean ratio|97.48|||||TWO_SIDED|90.0|94.34|100.73||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||100.73|94.34|
82638697|NCT04550234|164991900|OTHER||Geometric mean ratio|131.28|||||TWO_SIDED|90.0|107.03|161.02||||||"Statistical Comparison of Verinurad~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||161.02|107.03|
82638698|NCT04550234|164991900|OTHER||Geometric mean ratio|96.39|||||TWO_SIDED|90.0|81.23|114.39||||||"Statistical Comparison of Allopurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||114.39|81.23|
82638699|NCT04550234|164991900|OTHER||Geometric mean ratio|95.15|||||TWO_SIDED|90.0|91.08|99.4||||||"Statistical Comparison of Oxypurinol~Analysis of variance (ANOVA) of log transformed PK parameter with treatment, sequence, period as fixed effects and subject nested within sequence as random effect"||99.40|91.08|
82572497|NCT01130168|164854659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.186|TWO_SIDED|95.0|-9.5|1.8|||ANOVA|||||1.8|-9.5|0.186
82572498|NCT01130168|164854659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1|||<|0.0005|TWO_SIDED|95.0|-21.7|-10.5|||ANOVA|||||-10.5|-21.7|<0.0005
82572499|NCT01130168|164854660|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-9.2|||<|0.0005|TWO_SIDED|95.0|-12.1|-6.4|||ANOVA|||||-6.4|-12.1|<0.0005
82572500|NCT01130168|164854660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.035|TWO_SIDED|95.0|-6.0|-0.3|||ANOVA|||||-0.3|-6.0|0.035
82638700|NCT01928758|164991901|OTHER||Mean Difference (Final Values)|-175.7|||<|0.0001|TWO_SIDED|95.0|-218.3|-133.1||Complete case analysis|Regression, Linear|Model was adjusted for baseline cotinine after smoking usual nicotine content cigarettes for 2-weeks.|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group.|||-133.1|-218.3|<0.0001
82638701|NCT01928758|164991902|OTHER||Mean Difference (Final Values)|0.69||||0.16|TWO_SIDED|95.0|-0.28|1.65||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group|||1.65|-0.28|0.16
82499102|NCT05355805|164689212|SUPERIORITY||Risk Difference (RD)|10.14|STANDARD_ERROR_OF_MEAN|7.229||0.1606|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR90."||||0.1606
82521484|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.39|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.39
82521485|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.06||0.26|TWO_SIDED|95.0|-0.05|0.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.18|-0.05|0.26
82521486|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.31|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.31
82521487|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.22|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.22
82521488|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.14|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.14
82521489|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.09|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.09
82521490|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.05|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.05
82638702|NCT01928758|164991903|OTHER||Mean Difference (Final Values)|0.38||||0.67|TWO_SIDED|95.0|-1.4|2.16||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group.|||2.16|-1.40|0.67
82521491|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.04|STANDARD_DEVIATION|0.07||0.03|TWO_SIDED|95.0|-0.2|0.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.09|-0.20|0.03
82521492|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.85|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.85
82521493|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.79|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.79
82521494|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.71|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.71
82521495|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.61|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.61
82521496|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.51|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.51
82521497|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.08|STANDARD_DEVIATION|0.08||0.41|TWO_SIDED|95.0|-0.06|0.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.23|-0.06|0.41
82521498|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.47|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.47
82572501|NCT01130168|164854661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.428|TWO_SIDED|95.0|-6.1|2.6|||ANOVA|||||2.6|-6.1|0.428
82572502|NCT01130168|164854661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||<|0.0005|TWO_SIDED|95.0|-13.1|-4.5|||ANOVA|||||-4.5|-13.1|<0.0005
82442899|NCT02699450|164594430|SUPERIORITY||Difference in Least Squares Means|-29.2||||0.05|TWO_SIDED|80.0|-47.8|-10.6||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline FCPT.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-10.6|-47.8|0.05
82442900|NCT02699450|164594431|SUPERIORITY||Difference in Least Squares Means|-12.4||||0.36|TWO_SIDED|80.0|-29.7|5.0||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||5.0|-29.7|0.36
82521499|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.36|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.36
82521500|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.26|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.26
82572503|NCT01130168|164854662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.0005|TWO_SIDED|95.0|-17.5|-10.0|||ANOVA|||||-10.0|-17.5|<0.0005
82385502|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1057||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1057
82385503|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.5241||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.5241
82442901|NCT02699450|164594431|SUPERIORITY||Difference in Least Squares Means|-21.1||||0.13|TWO_SIDED|80.0|-38.7|-3.5||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-3.5|-38.7|0.13
82442902|NCT02699450|164594432|SUPERIORITY||Difference in Least Squares Means|-38.6||||0.07|TWO_SIDED|80.0|-65.9|-11.3||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||-11.3|-65.9|0.07
82442903|NCT02699450|164594433|SUPERIORITY||Difference in Least Squares Means|-20.1||||0.12|TWO_SIDED|80.0|-36.4|-3.8||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-3.8|-36.4|0.12
82442904|NCT02699450|164594433|SUPERIORITY||Difference in Least Squares Means|-26.7||||0.02|TWO_SIDED|80.0|-41.3|-12.0||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Mixed Effects Model of Repeated Measures|Categorical covariates: treatment group, categorical visit, and visit by treatment group, stratification factors; continuous covariate: baseline CST.|The mean difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-12.0|-41.3|0.02
82521501|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.19|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.19
82521502|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.13|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.13
82521503|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.0|STANDARD_DEVIATION|0.07||0.09|TWO_SIDED|95.0|-0.16|0.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.14|-0.16|0.09
82521504|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.78|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.78
82521505|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.69|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.69
82521506|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.59|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.59
82521507|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.5|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.50
82521508|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.39|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.39
82521509|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.08||0.3|TWO_SIDED|95.0|-0.11|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.11|0.30
82521510|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.68|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.68
82521511|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.59|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.59
82638703|NCT01928758|164991904|OTHER||Mean Difference (Final Values)|-0.31||||0.65|TWO_SIDED|95.0|-1.68|1.05||Complete case analysis|Regression, Linear|Model was adjusted for baseline score after smoking usual nicotine content cigarettes for 2 weeks|The direction of comparison is reduced nicotine content vs. usual nicotine content cigarette treatment group|||1.05|-1.68|0.65
82638704|NCT03737812|164991938|OTHER|a statistical test was not performed|Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.485|10.259||||||Analyzed using a logistic regression model with corresponding baseline value as a covariate and treatment as a main effect. Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||10.259|0.485|
82638705|NCT03737812|164991938|OTHER|a statistical test was not performed|Odds Ratio (OR)|3.859|||||TWO_SIDED|95.0|0.899|16.561||||||Analyzed using a logistic regression model with corresponding baseline value as a covariate and treatment as a main effect. Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||16.561|0.899|
82521512|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.5|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.50
82521513|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.4|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.40
82521514|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.3|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.30
82521515|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.04|STANDARD_DEVIATION|0.08||0.22|TWO_SIDED|95.0|-0.14|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FEV1, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.20|-0.14|0.22
82638706|NCT04140942|164991949|SUPERIORITY|||||||0.15|||||||Chi-squared|||6-Month Employment||||.15
82521516|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.41|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.41
82638707|NCT04140942|164991949|SUPERIORITY|||||||0.001|||||||Regression, Logistic|||6-Month Employment||||.001
82521517|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.32|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.32
82521518|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.24|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.24
82521519|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.16|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.16
82521520|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.11|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.11
82521521|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.08||0.07|TWO_SIDED|95.0|-0.19|0.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 28. Data presented are for 95% equal-tailed credible intervals|||0.13|-0.19|0.07
82521522|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.41|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.41
82521523|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.32|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.32
82638708|NCT04140942|164991949|SUPERIORITY|||||||0.87|||||||Chi-squared|||12-Month Employment||||.87
82638709|NCT04140942|164991950|SUPERIORITY|||||||0.04|||||||ANCOVA|Repeated measures.||||||0.04
82521524|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.25|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.25
82521525|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.18|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.18
82521526|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.12|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.12
82521527|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.02|STANDARD_DEVIATION|0.09||0.07|TWO_SIDED|95.0|-0.2|0.15||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 56. Data presented are for 95% equal-tailed credible intervals|||0.15|-0.20|0.07
82521528|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.45|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.45
82521529|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.37|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.37
82521530|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.3|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.30
82521531|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.22|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.22
82521532|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.17|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.17
82638710|NCT04140942|164991951|SUPERIORITY|||||||0.056|||||||Chi-squared|||12-Month Recidivism Analysis||||.056
82638711|NCT04140942|164991951|SUPERIORITY|||||||0.18|||||||Chi-squared|||6-Month Recidivism Analysis||||.18
82638712|NCT01474291|164991969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.023|TWO_SIDED|95.0|1.06|2.3|||Wald Chi-square|Wald Chi-square Test for Type 3 generalized estimating equation (GEE) Analysis.||"Influence of baseline factor Patient's Age (\>=65) upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||2.30|1.06|0.0230
82638713|NCT01474291|164991969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.92|8.43|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor No methotrexate (MTX) sequences within the two last years upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||8.43|3.92|<0.0001
82638714|NCT01474291|164991969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.0212|TWO_SIDED|95.0|1.11|3.7|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor Past history of severe infectious disease upon physician's decision to initiate tocilizumab monotherapy (multivariate analysis)."||3.70|1.11|0.0212
82638715|NCT01474291|164991969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0076|TWO_SIDED|95.0|1.05|1.41|||Wald Chi-square|Wald Chi-square Test for Type 3 GEE Analysis.||"Influence of baseline factor Higher Disease Activity Score Based on 28-joint Count and Erythrocyte Sedimentation Rate (DAS28-ESR) (unit=1) on physician decision to initiate tocilizumab monotherapy; DAS28-ESR was calculated from the number of swollen joints and tender joints using 28-joint count, ESR (millimeters per hour \[mm/hour\]) and patient's global assessment of disease activity; scores range from 0 to 10; higher scores correspond to greater disease activity (multivariate analysis)."||1.41|1.05|0.0076
82638716|NCT03471507|164991991|OTHER|||||||0.46|||||||Regression, Linear|Adjusted for age and sex.||||||0.46
82638717|NCT01399619|164991995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-value corresponds to a two sided test against the historical rate of 40%.|normal approximation|||the SVR12 rate in total Faldaprevir group compared with the historical rate of 40%.||||<0.0001
82638718|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||0.343|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change light touch score (wk6-d0)||||0.343
82442905|NCT02699450|164594434|SUPERIORITY||Difference in Percentage of Participants|-4.08||||0.4948|TWO_SIDED|80.0|-7.7|-0.46||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-0.46|-7.70|0.4948
82442906|NCT02699450|164594434|SUPERIORITY||Difference in Percentage of Participants|-4.08||||0.496|TWO_SIDED|80.0|-7.7|-0.46||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||-0.46|-7.70|0.4960
82442907|NCT02699450|164594435|SUPERIORITY||Difference in Percentage of Participants|-2.8||||1|TWO_SIDED|80.0|-11.08|5.49||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||5.49|-11.08|1.0000
82442908|NCT02699450|164594436|SUPERIORITY||Difference in Percentage of Participants|-6.12||||0.5759|TWO_SIDED|80.0|-15.41|3.17||There was no formal correction for multiple comparisons. Test for Arm B vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm B minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||3.17|-15.41|0.5759
82442909|NCT02699450|164594436|SUPERIORITY||Difference in Percentage of Participants|3.15||||0.7437|TWO_SIDED|80.0|-5.02|11.33||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arms (Arms B and C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): Either of the faricimab treatment arms (Arm B or C) is different from the ranibizumab treatment arm (Arm A).||11.33|-5.02|0.7437
82442910|NCT02699450|164594437|SUPERIORITY||Difference in Percentage of Participants|2.02||||1|TWO_SIDED|80.0|-8.6|12.64||There was no formal correction for multiple comparisons. Test for Arm C vs. Arm A was carried out at one-sided 10% alpha.|Fisher Exact||The difference between arms was calculated as Arm C minus Arm A.|Null hypothesis (H0): There is no difference between either of the faricimab treatment arm (Arm C) and the active comparator ranibizumab treatment arm (Arm A). The alternative hypothesis (Ha): The faricimab treatment arms (Arm C) is different from the ranibizumab treatment arm (Arm A).||12.64|-8.60|1.0000
82638719|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change light touch score (m6-d0)||||0.69
82638720|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change pin-prick score (wk6-d0)||||1
82638721|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change pin-prick score (m6-d0)||||0.32
82638722|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change motor score (wk6-d0)||||1
82638723|NCT00750061|164992006|SUPERIORITY_OR_OTHER|||||||0.582|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change motor score (m6-d0)||||0.582
82638724|NCT00750061|164992007|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||FIM change (Wk6 - D0)||||0.257
82385504|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2773||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2773
82521533|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.01|STANDARD_DEVIATION|0.1||0.12|TWO_SIDED|95.0|-0.2|0.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 112. Data presented are for 95% equal-tailed credible intervals|||0.17|-0.20|0.12
82521534|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.72|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.72
82638725|NCT00750061|164992007|SUPERIORITY_OR_OTHER|||||||0.168|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||FIM change (M6 - D0)||||0.168
82638726|NCT00750061|164992007|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS change (Wk6 - D0)||||0.013
82638727|NCT00750061|164992007|SUPERIORITY_OR_OTHER|||||||0.137|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS change (M6 - D0)||||0.137
82638728|NCT00538434|164992027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-52.78|STANDARD_ERROR_OF_MEAN|11.4|<|0.0001|TWO_SIDED|95.0|-75.24|-30.32|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-30.32|-75.24|< 0.0001
82638729|NCT00538434|164992027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-73.03|STANDARD_ERROR_OF_MEAN|11.29|<|0.0001|TWO_SIDED|95.0|-95.28|-50.78|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-50.78|-95.28|< 0.0001
82638730|NCT00538434|164992027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-64.69|STANDARD_ERROR_OF_MEAN|11.28|<|0.0001|TWO_SIDED|95.0|-86.93|-42.45|||ANCOVA|adjustment for stratification factor and for variable at Baseline||||-42.45|-86.93|< 0.0001
82638731|NCT00538434|164992028|SUPERIORITY_OR_OTHER|||||||0.0313|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0313
82638732|NCT00538434|164992028|SUPERIORITY_OR_OTHER|||||||0.5793|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.5793
82638733|NCT00538434|164992028|SUPERIORITY_OR_OTHER|||||||0.4905|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4905
82638734|NCT00538434|164992029|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0062
82638735|NCT00538434|164992029|SUPERIORITY_OR_OTHER|||||||0.0943|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0943
82638736|NCT00538434|164992029|SUPERIORITY_OR_OTHER|||||||0.2955|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2955
82638737|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.75|STANDARD_ERROR_OF_MEAN|6.48||0.4644|TWO_SIDED|95.0|-17.53|8.03||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||8.03|-17.53|0.4644
82638738|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.47|STANDARD_ERROR_OF_MEAN|6.44||0.8196|TWO_SIDED|95.0|-14.17|11.23||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||11.23|-14.17|0.8196
82638739|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.36|STANDARD_ERROR_OF_MEAN|6.36||0.8306|TWO_SIDED|95.0|-11.19|13.91||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Physical Summary Score||13.91|-11.19|0.8306
82638740|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.38|STANDARD_ERROR_OF_MEAN|4.37||0.1459|TWO_SIDED|95.0|-15.01|2.24||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||2.24|-15.01|0.1459
82638741|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.41|STANDARD_ERROR_OF_MEAN|4.38||0.4375|TWO_SIDED|95.0|-12.05|5.23||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||5.23|-12.05|0.4375
82638742|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.43|STANDARD_ERROR_OF_MEAN|4.35||0.9217|TWO_SIDED|95.0|-9.0|8.15||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Psychosocial Summary Score||8.15|-9.00|0.9217
82638743|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.57|STANDARD_ERROR_OF_MEAN|7.82||0.8412|TWO_SIDED|95.0|-16.98|13.85||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||13.85|-16.98|0.8412
82638744|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.54|STANDARD_ERROR_OF_MEAN|7.81||0.4794|TWO_SIDED|95.0|-20.94|9.87||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||9.87|-20.94|0.4794
82385505|NCT04015518|164482572|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.3867||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.3867
82442911|NCT00700102|164594484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0062|TWO_SIDED|95.0|0.69|0.94|||Log Rank|||||0.94|0.69|0.0062
82572504|NCT01130168|164854662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.015|TWO_SIDED|95.0|-8.5|-1.0|||ANOVA|||||-1.0|-8.5|0.015
82442912|NCT00700102|164594485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.1713|TWO_SIDED|95.0|0.77|1.05|||Log Rank|||Kaplan Meier Estimate||1.05|0.77|0.1713
82442913|NCT00700102|164594487|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.59|0.78|||Log Rank|||||0.78|0.59|<.0001
82442914|NCT00700102|164594488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.3113|TWO_SIDED|95.0|-1.5|4.5|||Chi-squared|||||4.5|-1.5|0.3113
82442915|NCT00700102|164594488|SUPERIORITY_OR_OTHER|||||||0.4315|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4315
82572505|NCT01130168|164854663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.112|TWO_SIDED|95.0|-9.9|1.0|||ANOVA|||||1.0|-9.9|0.112
82572506|NCT01130168|164854663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|||<|0.0005|TWO_SIDED|95.0|-20.7|-9.8|||ANOVA|||||-9.8|-20.7|<0.0005
82521535|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.65|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.65
82521536|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.57|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.57
82521537|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.48|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.48
82521538|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.39|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.39
82521539|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.09||0.3|TWO_SIDED|95.0|-0.13|0.24||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 168. Data presented are for 95% equal-tailed credible intervals|||0.24|-0.13|0.30
82572507|NCT01130168|164854664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.0005|TWO_SIDED|95.0|-11.8|-6.2|||ANOVA|||||-6.2|-11.8|<0.0005
82638745|NCT00538434|164992030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.06|STANDARD_ERROR_OF_MEAN|7.66||0.8906|TWO_SIDED|95.0|-16.16|14.06||Analyzed using analysis of covariance with adjustment for stratification factor and for variable at baseline.|ANCOVA||Comparison of least square means provides the difference (of individual change scores) between each reslizumab dose group and placebo.|Global Health Score||14.06|-16.16|0.8906
82442916|NCT01811303|164594490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82521540|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.76|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.76
82521541|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.71|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.71
82521542|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.65|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.65
82521543|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.59|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.59
82521544|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.53|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.53
82521545|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.09|STANDARD_DEVIATION|0.12||0.46|TWO_SIDED|95.0|-0.15|0.32||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 280. Data presented are for 95% equal-tailed credible intervals|||0.32|-0.15|0.46
82521546|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.68|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.68
82572508|NCT01130168|164854664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.039|TWO_SIDED|95.0|-5.8|-0.2|||ANOVA|||||-0.2|-5.8|0.039
82572509|NCT01130168|164854665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.267|TWO_SIDED|95.0|-6.6|1.8|||ANOVA|||||1.8|-6.6|0.267
82572510|NCT01130168|164854665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0005|TWO_SIDED|95.0|-12.7|-4.3|||ANOVA|||||-4.3|-12.7|<0.0005
82442917|NCT01811303|164594490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.016||95.0|||||ANOVA|||||||<0.016
82521547|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.61|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.02 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.61
82572511|NCT02725528|164854666|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572512|NCT02725528|164854667|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572513|NCT02725528|164854668|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82638746|NCT00398476|164992092|OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||Analysis for overall product preference||||0.003
82638747|NCT00398476|164992092|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Scent/odor||||<0.001
82385506|NCT04015518|164482573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-6.1|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-19.3|7.1|||||Difference was calculated as Speso - placebo.|||7.1|-19.3|
82521548|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.55|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.04 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.55
82521549|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.46|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.06 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.46
82521550|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.4|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.08 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.40
82572514|NCT02725528|164854669|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572515|NCT02725528|164854670|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572516|NCT02725528|164854671|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82638748|NCT00398476|164992092|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Immediate taste||||<0.001
82638749|NCT00398476|164992092|OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|||Analysis for After-taste||||0.002
82638750|NCT00398476|164992092|OTHER|||||||0.037|||||||Cochran-Mantel-Haenszel|||Analysis for Less drip down throat||||0.037
82638751|NCT00398476|164992092|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Analysis for Less run out nose||||<0.001
82638752|NCT00398476|164992092|OTHER|||||||0.408|||||||Cochran-Mantel-Haenszel|||Analysis for More soothing||||0.408
82638753|NCT00398476|164992092|OTHER|||||||0.07|||||||Cochran-Mantel-Haenszel|||Analysis for Less irritating||||0.070
82638754|NCT00398476|164992092|OTHER|||||||0.587|||||||Cochran-Mantel-Haenszel|||Analysis for Urge to sneeze||||0.587
82638755|NCT00398476|164992093|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Final Values)|-2.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for IAQ items||||<0.001
82638756|NCT00398476|164992093|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Final Values)|-1.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for DAQ items||||<0.001
82638757|NCT00398476|164992094|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.255||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in IAQ||||0.255
82638758|NCT00398476|164992095|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.056||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for all DAQ items||||0.056
82638759|NCT00398476|164992096|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.845||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for IAQ Irtems||||0.845
82638760|NCT00398476|164992097|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.871||95.0|||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg for DAQ Items||||0.871
82638761|NCT00398476|164992098|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82638762|NCT00398476|164992099|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.592||95.0|||||Cochran-Mantel-Haenszel|||||||0.592
82638763|NCT00398476|164992100|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0|||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82638764|NCT00398476|164992101|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.434||95.0|||||Cochran-Mantel-Haenszel|||||||0.434
82638765|NCT00398476|164992102|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.797|||||||Cochran-Mantel-Haenszel|||This analysis is for IAQ||||0.797
82638766|NCT00398476|164992102|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.296|||||||Cochran-Mantel-Haenszel|||This analysis is for DAQ||||0.296
82638767|NCT00398476|164992103|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in IAQ||||<0.001
82638768|NCT00398476|164992103|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0|||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of FF 110 µg and FP 200 µg in DAQ||||<0.001
82638769|NCT00398476|164992104|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.968|||||||Cochran-Mantel-Haenszel|||This analysis is for IAQ||||0.968
82638770|NCT00398476|164992104|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Mean Difference (Net)|0.0||||0.797|||||||Cochran-Mantel-Haenszel|||This analysis is for DAQ||||0.797
82638771|NCT00398476|164992105|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.221|||||||Cochran-Mantel-Haenszel|||||||0.221
82638772|NCT00398476|164992106|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.205|||||||Cochran-Mantel-Haenszel|||||||0.205
82638773|NCT00398476|164992107|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP)|Median Difference (Net)|0.0||||0.108|||||||Cochran-Mantel-Haenszel|||||||0.108
82638774|NCT00398476|164992108|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.694|||||||Cochran-Mantel-Haenszel|||||||0.694
82385507|NCT04015518|164482573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.4|STANDARD_ERROR_OF_MEAN|6.8|||TWO_SIDED|95.0|-18.8|8.0|||||Difference was calculated as Speso - placebo.|||8.0|-18.8|
82521551|NCT02130193|164738273|SUPERIORITY_OR_OTHER||Posterior mean difference|0.05|STANDARD_DEVIATION|0.11||0.33|TWO_SIDED|95.0|-0.15|0.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is greater than 0.10 L is presented.|Bayesian analysis|P-value is actually a posterior probability.|FVC, Day 364. Data presented are for 95% equal-tailed credible intervals|||0.28|-0.15|0.33
82521552|NCT02130193|164738277|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.013|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.013
82638775|NCT00398476|164992109|EQUIVALENCE|Assuming that 65% of participants indicate an overall preference for FF over FP, then a sample size of 125 participants will provide 93% power to show that difference in proportions (i.e., 65% favoring FF vs 35% favoring FP).|Median Difference (Net)|0.0||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
82385508|NCT04015518|164482573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-3.5|STANDARD_ERROR_OF_MEAN|6.6|||TWO_SIDED|95.0|-16.6|9.7|||||Difference was calculated as Speso - placebo.|||9.7|-16.6|
82521553|NCT02130193|164738277|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.006|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.006
82521554|NCT02130193|164738277|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.003|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.003
82521555|NCT02130193|164738277|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977||0.001|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|0.001
82521556|NCT02130193|164738277|SUPERIORITY_OR_OTHER||Posterior mean difference|2.48|STANDARD_DEVIATION|0.977|<|0.001|TWO_SIDED|95.0|0.92|4.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||4.43|0.92|<0.001
82638776|NCT03289676|164992131|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
82442918|NCT02525939|164594492|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.12|TWO_SIDED|95.0|0.75|1.03||The estimated HR was presented with a 95% CI and a p-value. The primary analysis was conducted at the 0.05 significance level.|Stratified Cox proportional hazard model|||A stratified Cox proportional hazards model was used to analyze the primary endpoint. This model included treatment as a main effect, and region and acute coronary syndrome (ACS) index event type as stratification factors. The null and alternative hypotheses tested with the above Cox model were: H0: λ = 1 vs HA: λ ≠ 1, where λ is the, assumed constant, hazard ratio (HR) for the time to occurrence of the composite events of the primary endpoint for the dalcetrapib and placebo treated groups.||1.03|0.75|0.12
82442919|NCT02525939|164594493|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.95|TWO_SIDED|95.0|0.88|1.13|||Stratified Cox proportional hazard model|||Secondary endpoints were expressed as time to event and an analysis similar to that for the primary endpoint was conducted. In order to control the family-wise Type I error that results from the multiplicity of endpoints, the secondary endpoints were formally tested using the Hochberg's step-up procedure only if the primary analysis results in significant treatment effect at p\<0.05. Otherwise, statistical tests for the secondary endpoints were presented solely for illustrative purposes.||1.13|0.88|0.95
82442920|NCT02525939|164594494|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.27|TWO_SIDED|95.0|0.79|1.07|||Stratified Cox proportional hazard model|||Secondary endpoints were expressed as time to event and an analysis similar to that for the primary endpoint was conducted. In order to control the family-wise Type I error that results from the multiplicity of endpoints, the secondary endpoints were formally tested using the Hochberg's step-up procedure only if the primary analysis results in significant treatment effect at p\<0.05. Otherwise, statistical tests for the secondary endpoints were presented solely for illustrative purposes.||1.07|0.79|0.27
82442921|NCT01515475|164594518|OTHER||Risk Difference (RD)|3.0||||0.72|TWO_SIDED|95.0|-12.0|18.0|||Barnard's Exact Test|||||18|-12|0.72
82442922|NCT01515475|164594518|OTHER||Risk Difference (RD)|-13.0||||0.14|TWO_SIDED|95.0|-31.0|4.0|||Barnard's Exact Test|||||4|-31|0.14
82442923|NCT01515475|164594526|OTHER||Mean Difference (Final Values)|0.6||||0.002|TWO_SIDED|99.0|0.11|1.09||Results are considered statistically significant if p\<0.01.|ANCOVA|||"Analysis for the more hyperopic eye, Older Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||1.09|0.11|0.002
82442924|NCT01515475|164594526|OTHER||Mean Difference (Final Values)|0.58||||0.002|TWO_SIDED|99.0|0.1|1.06||Results are considered statistically significant if p\<0.01.|ANCOVA|||"Analysis for the less hyperopic eye, Older Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||1.06|0.10|0.002
82442925|NCT01515475|164594526|OTHER||Mean Difference (Final Values)|0.16||||0.53|TWO_SIDED|99.0|-0.51|0.84||Results are considered statistically significant if p≤0.01.|ANCOVA|||"Analysis for the more hyperopic eye, Younger Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||0.84|-0.51|0.53
82442926|NCT01515475|164594526|OTHER||Mean Difference (Final Values)|0.22||||0.38|TWO_SIDED|99.0|-0.43|0.86||Results are considered statistically significant if p≤0.01.|ANCOVA|||"Analysis for the less hyperopic eye, Younger Cohort:~An analysis of covariance model adjusting for refractive error at enrollment was used to compare mean change in refractive error between treatment groups."||0.86|-0.43|0.38
82442927|NCT01515475|164594527|OTHER||Mean Difference (Final Values)|-25.0||||0.013|TWO_SIDED|99.0|-49.0|1.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||"Analysis for the more hyperopic eye:~Barnard's exact test was used to compare proportions between treatment groups."||1|-49|0.013
82442928|NCT01515475|164594527|OTHER||Hazard Ratio, log|-18.0||||0.08|TWO_SIDED|99.0|-42.0|8.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||"Analysis for the less hyperopic eye:~Barnard's exact test was used to compare proportions between treatment groups."||8|-42|0.08
82442929|NCT01515475|164594528|OTHER||Mean Difference (Final Values)|0.01||||0.22|TWO_SIDED|99.0|-0.02|0.04|||ANCOVA|||"Test for Difference in Means in Better-Seeing Eye: Older Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.04|-0.02|0.22
82442930|NCT01515475|164594528|OTHER||Mean Difference (Final Values)|-0.02||||0.41|TWO_SIDED|99.0|-0.06|0.03|||ANCOVA|||"Test for Difference in Means in Worse-Seeing Eye: Older Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.03|-0.06|0.41
82442931|NCT01515475|164594528|OTHER||Mean Difference (Final Values)|-0.05||||0.02|TWO_SIDED|99.0|-0.12|0.01|||ANCOVA|||"Test for Difference in Means in Better-Seeing Eye: Younger Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.01|-0.12|0.02
82442932|NCT01515475|164594528|OTHER||Mean Difference (Final Values)|-0.07||||0.15|TWO_SIDED|99.0|-0.19|0.05|||ANCOVA|||"Test for Difference in Means in Worse-Seeing Eye: Younger Cohort~An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups. Results are considered statistically significant if p\<0.01."||0.05|-0.19|0.15
82442933|NCT01515475|164594529|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||13|-18|0.51
82442934|NCT01515475|164594529|OTHER||Mean Difference (Final Values)|-2.0||||0.79|TWO_SIDED|99.0|-18.0|14.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||14|-18|0.79
82442935|NCT01515475|164594530|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||13|-18|0.51
82442936|NCT01515475|164594530|OTHER||Mean Difference (Final Values)|-4.0||||0.68|TWO_SIDED|99.0|-24.0|16.0||Results are considered statistically significant if p≤0.01.|Barnard's Exact Test|||Barnard's exact test was used to compare proportions between treatment groups.||16|-24|0.68
82638777|NCT03289676|164992133|OTHER||Odds Ratio, log|1.12||||0.029|TWO_SIDED|95.0|1.0|1.24|||Regression, Logistic|||||1.24|1.00|0.029
82572517|NCT02725528|164854672|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572518|NCT02725528|164854673|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572519|NCT02725528|164854674|SUPERIORITY|||||||0.05|||||||ANCOVA|||Between groups analysis for PROMs, QALYs and ROM at 12-months were determined using one-way analysis of covariance (ANCOVA). Group was entered as the independent variable, the 12-month outcome of interest was entered as the dependent variable and the baseline value for the corresponding outcome measure was entered as the covariate. Statistical significance was considered at p \< .05; all analyses were performed using SPSS® version 26.0||||0.05
82572520|NCT02446613|164854694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.41|5.43|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.1071.|||5.43|-1.41|
82572521|NCT02446613|164854695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.98|3.75|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.2417.|||3.75|-1.98|
82638778|NCT04557189|164992156|SUPERIORITY||Adjusted Treatment Difference|0.241|||||TWO_SIDED|95.0|0.031|0.452|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.452|0.031|
82521557|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|1.29||0.6|TWO_SIDED|95.0|-2.81|2.17||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 1 month. Data presented are for 95% equal-tailed credible intervals|||2.17|-2.81|0.60
82572522|NCT02446613|164854696|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.4|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-1.08|1.87|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.2876.|||1.87|-1.08|
82572523|NCT02446613|164854697|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.9|STANDARD_DEVIATION|0.006|||TWO_SIDED|95.0|-1.86|5.34|||||The posterior probability statement value for change from baseline in post-challenge TNSS ≤0 was 0.1453.|||5.34|-1.86|
82572524|NCT02446613|164854698|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.6|STANDARD_DEVIATION|0.006|||TWO_SIDED|95.0|-10.7|19.71|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.2665.|||19.71|-10.70|
82572525|NCT02446613|164854699|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.3|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-14.97|24.38|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.3266|||24.38|-14.97|
82572526|NCT02446613|164854700|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.1|STANDARD_DEVIATION|0.008|||TWO_SIDED|95.0|-17.47|19.2|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.4528|||19.20|-17.47|
82572527|NCT02446613|164854701|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.6|STANDARD_DEVIATION|0.007|||TWO_SIDED|95.0|-13.69|28.04|||||The posterior probability statement value for percentage reduction in the reductions of PNIF ≤0 was 0.2525|||28.04|-13.69|
82572528|NCT03432390|164854703|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.0001
82572529|NCT00691678|164854763|SUPERIORITY||Mean Difference (Final Values)|-13.3||||0.004|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis measures whether there is a statistically significant change, at the 5% significance level, between the mean WOMAC score among study participants at baseline and at week 24.||||0.004
82572530|NCT01458522|164854792|OTHER|||||||0.512|||||||Poisson regression model|||||||0.512
82572531|NCT02166476|164854828|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Noninferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) for the treatment difference for overall success at EOIVT was \>-15%.|Treatment difference|4.5|||||TWO_SIDED|95.0|0.7|9.1|||||Treatment difference is the estimate of the difference in the overall success rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the m-MITT population||9.1|0.7|
82521558|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.58|STANDARD_DEVIATION|1.42||0.65|TWO_SIDED|95.0|-3.11|2.37||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 2 month. Data presented are for 95% equal-tailed credible intervals|||2.37|-3.11|0.65
82521559|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.46|STANDARD_DEVIATION|1.52||0.83|TWO_SIDED|95.0|-4.43|1.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 3 month. Data presented are for 95% equal-tailed credible intervals|||1.45|-4.43|0.83
82521560|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.2|STANDARD_DEVIATION|1.53||0.78|TWO_SIDED|95.0|-4.07|1.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 4 month. Data presented are for 95% equal-tailed credible intervals|||1.90|-4.07|0.78
82521561|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.96|STANDARD_DEVIATION|1.56||0.73|TWO_SIDED|95.0|-3.82|2.28||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 5 month. Data presented are for 95% equal-tailed credible intervals|||2.28|-3.82|0.73
82521562|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.93|STANDARD_DEVIATION|1.58||0.72|TWO_SIDED|95.0|-4.01|2.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 6 month. Data presented are for 95% equal-tailed credible intervals|||2.26|-4.01|0.72
82521563|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.0|STANDARD_DEVIATION|1.58||0.73|TWO_SIDED|95.0|-4.15|2.09||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.09|-4.15|0.73
82521564|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.48|STANDARD_DEVIATION|1.69||0.81|TWO_SIDED|95.0|-4.71|1.76||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.76|-4.71|0.81
82638779|NCT04557189|164992157|SUPERIORITY||Adjusted Treatment Difference|0.175|||||TWO_SIDED|95.0|-0.044|0.394|||||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on Cochran-Mantel-Haenszel (CMH) method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|0.394|-0.044|
82385509|NCT04015518|164482573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-9.4|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-20.3|1.4|||||Difference was calculated as Speso - placebo.|||1.4|-20.3|
82442937|NCT01515475|164594531|OTHER||Mean Difference (Final Values)|-0.04||||0.21|TWO_SIDED|99.0|-0.12|0.05||Results are considered statistically significant if p\<0.01|ANCOVA|||An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups.||0.05|-0.12|0.21
82521565|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.23|STANDARD_DEVIATION|1.75||0.76|TWO_SIDED|95.0|-4.66|2.22||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 9 month. Data presented are for 95% equal-tailed credible intervals|||2.22|-4.66|0.76
82521566|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.26|STANDARD_DEVIATION|1.74||0.91|TWO_SIDED|95.0|-5.66|0.99||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.99|-5.66|0.91
82521567|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.05|STANDARD_DEVIATION|1.73||0.71|TWO_SIDED|95.0|-4.73|2.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 11 month. Data presented are for 95% equal-tailed credible intervals|||2.13|-4.73|0.71
82521568|NCT02130193|164738278|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.35|STANDARD_DEVIATION|1.74||0.78|TWO_SIDED|95.0|-4.77|2.04||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS, 12 month. Data presented are for 95% equal-tailed credible intervals|||2.04|-4.77|0.78
82521569|NCT02130193|164738282|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.278|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.278
82521570|NCT02130193|164738282|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.138|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.138
82521571|NCT02130193|164738282|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.05|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.05
82521572|NCT02130193|164738282|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.011|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.011
82521573|NCT02130193|164738282|SUPERIORITY_OR_OTHER||Posterior mean difference|1.15|STANDARD_DEVIATION|0.242||0.002|TWO_SIDED|95.0|0.71|1.63||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.63|0.71|0.002
82521574|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.62|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.62
82521575|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.64|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.64
82521576|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.81|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.81
82638780|NCT04557189|164992158|SUPERIORITY||Adjusted Treatment Difference|-0.094|||||TWO_SIDED|95.0|-0.253|0.059|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.059|-0.253|
82521577|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.77|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.77
82521578|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.71|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.71
82521579|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.7|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.70
82521580|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.74|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.74
82521581|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.79|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.79
82521582|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.77|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.77
82521583|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.9|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.90
82521584|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.66|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.66
82521585|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.74|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.74
82521586|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.43|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.43
82521587|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.45|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.45
82521588|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.67|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.67
82521589|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.62|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.62
82521590|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.55|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.55
82521591|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.55|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.55
82572532|NCT02166476|164854829|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Meropenem-vaborbactam was claimed to be noninferior only if noninferiority was demonstrated for microbial eradication at TOC in the m-MITT Population.|Treatment difference|9.0|||||TWO_SIDED|95.0|-0.9|18.7|||||Treatment difference is the estimate of the difference in the Eradication rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the m-MITT population||18.7|-0.9|
82521592|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.59|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.59
82521593|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.65|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.65
82521594|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.63|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.63
82521595|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.81|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.81
82521596|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.52|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.52
82521597|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.6|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.60
82521598|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.24|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.24
82521599|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.28|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.28
82442938|NCT01515475|164594531|OTHER||Mean Difference (Final Values)|-0.03||||0.25|TWO_SIDED|99.0|-0.1|0.04||Results are considered statistically significant if p≤0.01.|ANCOVA|||An analysis of covariance model, adjusting for age at the 3-year visit and visual acuity at baseline, was used to compare mean visual acuity between treatment groups.||0.04|-0.10|0.25
82442939|NCT01515475|164594532|OTHER||Mean Difference (Final Values)|-2.0||||0.51|TWO_SIDED|99.0|-18.0|13.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups||13|-18|0.51
82442940|NCT01515475|164594532|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|99.0|-17.0|17.0||No p-value, because there was 0% difference||||Barnard's exact test used to compare proportions between treatment groups.||17|-17|
82442941|NCT01515475|164594533|OTHER||Mean Difference (Final Values)|0.02||||0.74|TWO_SIDED|99.0|-0.11|0.14||Results are considered statistically significant if p\<0.01.|ANCOVA|||An analysis of covariance model was used to compare mean change in stereoacuity between treatment groups. The analysis controlled for age at the 3-year visit, anisometropia at the most recent visit, and stereoacuity at enrollment.||0.14|-0.11|0.74
82442942|NCT01515475|164594533|OTHER||Mean Difference (Final Values)|-0.1||||0.15|TWO_SIDED|99.0|-0.4|0.1|||ANCOVA|||An analysis of covariance model was used to compare mean change in stereoacuity between treatment groups. The analysis controlled for age at the 3-year visit and anisometropia at the most recent visit.||0.1|-0.4|0.15
82442943|NCT01515475|164594534|OTHER||Mean Difference (Final Values)|5.0||||0.53|TWO_SIDED|99.0|-14.0|26.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups||26|-14|0.53
82442944|NCT01515475|164594534|OTHER||Mean Difference (Final Values)|-19.0||||0.02|TWO_SIDED|99.0|-40.0|2.0||Results are considered statistically significant if p\<0.01.|Barnard's Exact Test|||Barnard's exact test used to compare proportions between treatment groups.||2|-40|0.02
82442945|NCT01511809|164594547|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A lower limit of the 95% confidence interval of the difference between the two proportions of treatment failure (triple therapy-monotherapy) below the pre-specified margin of non-inferiority of -10% established inferiority. A sample size of 342 patients (171 per treatment arm) provided 80% power (one-sided, alpha 0.05) to establish non-inferiority of ATV/r monotherapy as compared to ATV/r triple therapy with an overall treatment failure (TF) rate of 15% at week 48.|difference between TF proportions|15.0|||||TWO_SIDED|||||||||"Here are reported the results of the 48-week interim analyses according to the intention-to-treat (ITT) principle. ITT=F (with re-intensification=failure) and the ITT=S (with re-intensification=success) treatment failure results are shown.~Based on the efficacy data review, in June 2013, an independent Data and Safety Monitoring Board (DSMB) recommended to stop further patients' enrolment and to follow-up the enrolled patients until 96 weeks, after having signed an updated informed consent."||||
82442946|NCT05260333|164594558|OTHER||correlation coefficient|0.81||||0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.0001
82442947|NCT02639338|164594572|SUPERIORITY|The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 83%.|||||<|0.001||||||The reported p-value was calculated. The statistical test was performed in SOF/VEL for 12 weeks at 0.05 significance level if and only if the statistical test performed in SOF/VEL/VOX for 8 weeks was significant at 0.05 significance level.|Binomial Test|||||||<0.001
82442948|NCT02639338|164594572|SUPERIORITY|The p-value is obtained from the 2-sided exact 1-sample binomial test for the superiority over the performance goal of 83%.|||||<|0.001||||||The reported p-value was calculated. The statistical test was performed in SOF/VEL for 12 weeks at 0.05 significance level if and only if the statistical test performed in SOF/VEL/VOX for 8 weeks was significant at 0.05 significance level.|2-sided exact 1-sample binomial test|||||||<0.001
82442949|NCT02360293|164594580|SUPERIORITY||Slope|1.88|STANDARD_ERROR_OF_MEAN|46.2|||TWO_SIDED|95.0|-119.0|122.7|||||Generated through ANCOVA predicting Active Minutes as a function of arm and f/u time, adjusted for Sex, Baseline PA Goal (AM), and type of Smart Phone. Represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|Estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA, adjusted for baseline AM goal, Type of Smart Phone, and Sex.||122.7|-119.0|
82442950|NCT02360293|164594581|SUPERIORITY||Slope|-5.02|STANDARD_ERROR_OF_MEAN|56.7|||TWO_SIDED|95.0|-15.85|5.81|||||Generated through ANCOVA predicting Weight as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||5.81|-15.85|
82521600|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.5|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.50
82521601|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.43|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.43
82521602|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.37|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.37
82638781|NCT04557189|164992159|SUPERIORITY||Adjusted Treatment Difference|-0.141|||||TWO_SIDED|95.0|-0.316|0.033|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.033|-0.316|
82572533|NCT02166476|164854830|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was a difference of 15%. Meropenem-vaborbactam was claimed to be noninferior only if noninferiority was demonstrated for microbial eradication at TOC in the ME Population.|Treatment Difference|5.9|||||TWO_SIDED|95.0|-4.2|16.0|||||Treatment difference is the estimate of the difference in the overall success rate between the two treatment arms. The difference estimates and the 95% CIs are obtained based on Miettinen and Nurminen method.|Treatment comparison of the ME population||16.0|-4.2|
82442951|NCT02360293|164594582|SUPERIORITY||Slope|-1.162|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.969|0.646|||||Generated through ANCOVA predicting PHQ-8 Score as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||0.646|-2.969|
82442952|NCT02360293|164594583|SUPERIORITY||Slope|-0.345|STANDARD_ERROR_OF_MEAN|0.267|||TWO_SIDED|95.0|-1.044|0.353|||||"Estimate generated through ANCOVA predicting Pain In Past Week as a function of the interaction of arm and follow-up time. Estimate represents the contrast between SS+Coaching, 12 mos. - Baseline vs. SS alone, 12 mos. - Baseline.."|The estimated marginal means/least squares means are derived from a linear mixed model/rmANOVA/rmANCOVA.||0.353|-1.044|
82442953|NCT02741570|164594610|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0469|TWO_SIDED|97.51|0.59|1.03|||Log Rank|stratified regular log-rank test||||1.03|0.59|0.0469
82442954|NCT02741570|164594611|SUPERIORITY||Cox Proportional Hazard|0.95||||0.4951|TWO_SIDED|97.9|0.8|1.13|||Log Rank|stratified regular log-rank test||||1.13|0.80|0.4951
82521603|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.38|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.38
82521604|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.43|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.43
82521605|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.51|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.51
82385510|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-4.1|STANDARD_ERROR_OF_MEAN|6.9||0.5595|TWO_SIDED|95.0|-17.7|9.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||9.6|-17.7|0.5595
82442955|NCT02741570|164594612|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|0.68|0.95||||||||0.95|0.68|
82442956|NCT02741570|164594613|SUPERIORITY||Cox Proportional Hazard|1.4|||||TWO_SIDED|95.0|1.19|1.63|||||All Randomized Participants|||1.63|1.19|
82442957|NCT02741570|164594613|SUPERIORITY||Cox Proportional Hazard|1.0|||||TWO_SIDED|95.0|0.77|1.3|||||All Randomized PD-L1 CPS \>= 20 Participants|||1.30|0.77|
82442958|NCT02741570|164594616|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
82442959|NCT02741570|164594617|SUPERIORITY||Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.82|1.08||||||||1.08|0.82|
82442960|NCT01498185|164594618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|18.5425|||TWO_SIDED|95.0|-40.85|35.86||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||35.86|-40.85|
82442961|NCT01498185|164594618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|16.7228|||TWO_SIDED|95.0|-35.36|33.82||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||33.82|-35.36|
82442962|NCT01498185|164594618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.88|STANDARD_ERROR_OF_MEAN|17.1548|||TWO_SIDED|95.0|-42.21|28.45||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||28.45|-42.21|
82442963|NCT01498185|164594618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|18.4617|||TWO_SIDED|95.0|-39.22|37.16||No formal statistical testing was performed to compare between treatment groups.|Descriptive statistics|||||37.16|-39.22|
82442964|NCT00946322|164594626|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.028
82442965|NCT00946322|164594627|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-tests were used. Due to variable skewness, variables were logarithm-transformed to improve their distributions.||||.022
82442966|NCT00946322|164594628|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.043
82442967|NCT00946322|164594629|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.482
82442968|NCT00946322|164594630|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.009
82442969|NCT00946322|164594631|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.001
82442970|NCT00946322|164594632|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.027
82442971|NCT00946322|164594633|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||t-test, 2 sided|||Paired sample t-test||||.177
82442972|NCT01075971|164594634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|||<|0.0001|TWO_SIDED|95.0|1.35|2.19||Analysis of variance with repeated measurements (daily scores from day 1 to day 5) for the whole set of patients was performed adjusted on the formulation (SL vs. FDT). Other independent factors were the subject and the day.|Analysis of variance|||||2.19|1.35|<0.0001
82638782|NCT04557189|164992160|SUPERIORITY||Adjusted Treatment Difference|0.191|||||TWO_SIDED|95.0|-0.029|0.41|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.410|-0.029|
82638783|NCT04557189|164992161|SUPERIORITY||Adjusted Treatment Difference|0.146|||||TWO_SIDED|95.0|-0.073|0.365|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.365|-0.073|
82638784|NCT04557189|164992162|SUPERIORITY||Adjusted Treatment Difference|-0.234|||||TWO_SIDED|95.0|-0.448|-0.019|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||-0.019|-0.448|
82638785|NCT04557189|164992163|SUPERIORITY||Hazard Ratio (HR)|0.393|||||TWO_SIDED|95.0|0.122|1.259|||||The hazard ratio is derived from a Cox proportional hazard model with treatment group and the number of Apfel risk factors (3 or 4) as independent variables.|||1.259|0.122|
82521606|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.5|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.50
82521607|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.7|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.70
82572534|NCT04367480|164854874|SUPERIORITY||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.81||0.199|TWO_SIDED|95.0|-0.56|2.67|||ANCOVA|||"Missing data were accounted for using multiple imputation (MI) with the fully conditional specification (FCS) method. 100 replicates were imputed.~ANCOVA analysis was applied within each replicate. SAS PROC MI and MIANALYZE were used to calculate the reported estimates. (N: Active TENS=71, Placebo TENS=70)"||2.67|-0.56|0.199
82572535|NCT04367480|164854875|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.36||0.302|TWO_SIDED|95.0|-0.34|1.08|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.08|-0.34|0.302
82385511|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|0.9|STANDARD_ERROR_OF_MEAN|6.9||0.8968|TWO_SIDED|95.0|-12.7|14.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||14.5|-12.7|0.8968
82442973|NCT02725593|164594647|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.45||0.101|TWO_SIDED|95.0|-1.65|0.15|||Mixed model repeated measures analysis|||||0.15|-1.65|0.101
82442974|NCT02725593|164594648|SUPERIORITY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.81||0.34|TWO_SIDED|95.0|-2.42|0.85|||Mixed model repeated measures analysis|||||0.85|-2.42|0.340
82442975|NCT02725593|164594649|SUPERIORITY||Mean Difference (Final Values)|-3.96||||0.655|TWO_SIDED|95.0|-20.11|9.62|||Fisher's exact test|||||9.62|-20.11|0.655
82521608|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.38|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.38
82521609|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.45|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -2 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.45
82638786|NCT04557189|164992164|SUPERIORITY||Difference in LSM Estimates|0.188|||||TWO_SIDED|95.0|-0.402|0.777||||||30 Minutes Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.777|-0.402|
82638787|NCT04557189|164992164|SUPERIORITY||Difference in LSM Estimates|0.401|||||TWO_SIDED|95.0|-0.258|1.059||||||1 Hour Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|1.059|-0.258|
82442976|NCT02725593|164594650|SUPERIORITY||Mean Difference (Final Values)|20.83||||0.056|TWO_SIDED|95.0|0.5|41.11|||Fisher's exact test|||||41.11|0.50|0.056
82521610|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.57|STANDARD_DEVIATION|2.04||0.11|TWO_SIDED|95.0|-4.55|3.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 1 month. Data presented are for 95% equal-tailed credible intervals|||3.23|-4.55|0.11
82521611|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.72|STANDARD_DEVIATION|2.21||0.15|TWO_SIDED|95.0|-5.03|3.6||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 2 month. Data presented are for 95% equal-tailed credible intervals|||3.60|-5.03|0.15
82521612|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.99|STANDARD_DEVIATION|2.29||0.32|TWO_SIDED|95.0|-6.6|2.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 3 month. Data presented are for 95% equal-tailed credible intervals|||2.27|-6.60|0.32
82521613|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.64|STANDARD_DEVIATION|2.31||0.28|TWO_SIDED|95.0|-5.92|3.07||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 4 month. Data presented are for 95% equal-tailed credible intervals|||3.07|-5.92|0.28
82442977|NCT01688921|164594651|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.88|1.12||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.12|0.88|
82442978|NCT01688921|164594652|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.96|1.21||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.21|0.96|
82442979|NCT01688921|164594653|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as the upper bound of the two-sided 95% CI of the GMT ratio (GMT with NS / GMT with PJ Stratis) for each antigen did not exceed 1.5 fold.|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.83|1.06||||||For a sample size of 550 per group each test has an individual power of \> 99% to rule out the 1.5-fold difference using a two-sided α = 0.05, assuming equal GMTs between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||1.06|0.83|
82521614|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.3|STANDARD_DEVIATION|2.4||0.23|TWO_SIDED|95.0|-5.7|3.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 5 month. Data presented are for 95% equal-tailed credible intervals|||3.55|-5.70|0.23
82521615|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.31|STANDARD_DEVIATION|2.42||0.24|TWO_SIDED|95.0|-6.46|3.05||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 6 month. Data presented are for 95% equal-tailed credible intervals|||3.05|-6.46|0.24
82521616|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.6|STANDARD_DEVIATION|2.45||0.29|TWO_SIDED|95.0|-6.75|2.9||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 7 month. Data presented are for 95% equal-tailed credible intervals|||2.90|-6.75|0.29
82521617|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.63||0.36|TWO_SIDED|95.0|-6.93|3.3||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 8 month. Data presented are for 95% equal-tailed credible intervals|||3.30|-6.93|0.36
82521618|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.92|STANDARD_DEVIATION|2.63||0.35|TWO_SIDED|95.0|-7.04|3.18||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 9 month. Data presented are for 95% equal-tailed credible intervals|||3.18|-7.04|0.35
82521619|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-3.44|STANDARD_DEVIATION|2.72||0.57|TWO_SIDED|95.0|-8.74|1.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 10 month. Data presented are for 95% equal-tailed credible intervals|||1.87|-8.74|0.57
82572536|NCT04367480|164854875|SUPERIORITY||Mean Difference (Final Values)|1.37|STANDARD_ERROR_OF_MEAN|0.85||0.112|TWO_SIDED|95.0|-0.33|3.08|||ANCOVA|||Subgroup analysis on participants who reported at least 4 out of 10 at baseline for Hot/Burning Pain. (N: Active TENS=22, Placebo TENS=22)||3.08|-0.33|0.112
82521620|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.16|STANDARD_DEVIATION|2.72||0.25|TWO_SIDED|95.0|-6.2|4.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 11 month. Data presented are for 95% equal-tailed credible intervals|||4.20|-6.20|0.25
82638788|NCT04557189|164992164|SUPERIORITY||Difference in LSM Estimates|0.265|||||TWO_SIDED|95.0|0.0|0.786||||||2 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.786|0|
82638789|NCT04557189|164992164|SUPERIORITY||Difference in LSM Estimates|0.097|||||TWO_SIDED|95.0|-0.093|0.286||||||6 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.286|-0.093|
82442980|NCT01688921|164594654|NON_INFERIORITY_OR_EQUIVALENCE|Seroconversion rate defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer. The non-inferiority margin was defined as the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (rate with NS - with PJ Stratis) for each vaccine strain did not exceed 10 percentage points.|Seroconversion Rate Difference|0.8|||||TWO_SIDED|95.0|-4.8|6.5||||||For a sample size of 550 per group each test has an individual power of \> 95% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||6.5|-4.8|
82442981|NCT01688921|164594655|NON_INFERIORITY_OR_EQUIVALENCE|Seroconversion rate defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer. The non-inferiority margin was defined as the upper bound of the two-sided 95% CI on the difference between the seroconversion rates(rate with NS - with PJ Stratis) for each vaccine strain did not exceed 10 percentage points|Seroconversion Rate Difference|1.3|||||TWO_SIDED|95.0|-4.5|7.1||||||For a sample size of 550 per group each test has an individual power of \> 95% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||7.1|-4.5|
82442982|NCT01688921|164594656|NON_INFERIORITY_OR_EQUIVALENCE|"Seroconversion rate was defined as the proportion of subjects with either a pre-vaccination titer of \<10 achieving a post-vaccination antibody of HI titer of ≥ 40 or with a pre-vaccination HI titer of ≥ 10 achieving a four-fold or greater increase in post-vaccination HI titer.~The upper-bound of the two-sided 95% CI on the difference in seroconversion rates for the A/H1N1, A/H3N2, and B strains did not exceed 10 percentage points (6.5, 7.1, and 5.9 respectively)."|Seroconversion Rate Difference|0.3|||||TWO_SIDED|95.0|-5.2|5.9||||||For a sample size of 550 per group each test has an individual power of \> 91% to rule out the 10 percentage points difference using a one-sided α = 0.025, assuming equal seroconversion rates between the two treatment groups. The overall power for the study to demonstrate the non-inferiority for the 6 co-primary endpoints is \> 80%, computed as product of 6 individual powers.||5.9|-5.2|
82442983|NCT01688921|164594657|NON_INFERIORITY_OR_EQUIVALENCE|Immediate adverse events were reported within 30 minutes of receiving the vaccination; therefore, they are all considered related to study treatment.|||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82442984|NCT01688921|164594658|NON_INFERIORITY_OR_EQUIVALENCE|The safety population included subjects who received the vaccination and for whom follow-up data were available for a specific safety analysis. Therefore, the denominators for different safety tables vary, depending on the availability of the data.|||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82442985|NCT02700165|164594683|OTHER||sucess proportion|78.6|||||TWO_SIDED|95.0|49.2|95.3|||||Independent physician reviewers correctly identified 13/14, 11/14 and 10/14, respectively for an overall percentage of correct identification of 34/42 or 81%. Two of three reviewers correctly identified 11/14 (78.6%) photos.|||95.3|49.2|
82442986|NCT01428336|164594687|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|0.06|||||TWO_SIDED|95.0|-0.2|0.6||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 1ug CST correlation with ITT||0.60|-0.20|
82521621|NCT02130193|164738283|SUPERIORITY_OR_OTHER||Posterior mean difference|-1.73|STANDARD_DEVIATION|2.7||0.32|TWO_SIDED|95.0|-6.91|3.45||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -3 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-PRO, 12 month. Data presented are for 95% equal-tailed credible intervals|||3.45|-6.91|0.32
82572537|NCT04367480|164854876|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.35||0.351|TWO_SIDED|95.0|-0.37|1.02|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.02|-0.37|0.351
82638790|NCT04557189|164992164|SUPERIORITY||Difference in LSM Estimates|-0.203|||||TWO_SIDED|95.0|-0.575|0.17||||||24 Hours Post Surgery|From MMRM analysis over all post-randomization timepoints, with the Peak VRS score as the outcome, treatment group, timepoint, number of Apfel risk factors and treatment-by-timepoint interaction as fixed effects and participant as random effect with unstructured covariance structure for observed data up to 24 hours post surgery.|0.170|-0.575|
82521622|NCT02130193|164738284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.477|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 1.0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.477
82521623|NCT02130193|164738284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.343|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.9 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.343
82521624|NCT02130193|164738284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.221|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.8 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.221
82572538|NCT04367480|164854876|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|0.78||0.128|TWO_SIDED|95.0|-0.36|2.79|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Sharp/Shooting Pain. (N: Active TENS=24, Placebo TENS=23)||2.79|-0.36|0.128
82572539|NCT04367480|164854877|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.38||0.166|TWO_SIDED|95.0|-0.22|1.27|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.27|-0.22|0.166
82572540|NCT04367480|164854877|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.39||0.492|TWO_SIDED|95.0|-0.51|1.05|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Numbness. (N: Active TENS=60, Placebo TENS=50)||1.05|-0.51|0.492
82638791|NCT04557189|164992165|SUPERIORITY||Adjusted Treatment Difference|0.146|||||TWO_SIDED|95.0|-0.073|0.365|||||Adjusted treatment difference between TAK-951, ondansetron, associated confidence intervals: based on CMH method, adjusting for number of Apfel risk factors (3/4), or exact unconditional confidence limits for treatment difference if numerator is ≤5.|||0.365|-0.073|
82638792|NCT02451137|164992232|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0308|TWO_SIDED|95.4|1.01|1.39||Threshold for significance at 0.046 level.|Regression, Logistic|||A logistic regression model was used with treatment arm as a fixed effect and adjusted for: randomization strata of HbA1c target (\<8%,\<7%), sulfonylurea (SU) use (yes/no), glucagon like peptide1-receptor agonists (GLP-1 RA) use (yes/no) and baseline HbA1c (as continuous).||1.39|1.01|0.0308
82521625|NCT02130193|164738284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.116|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.116
82572541|NCT04367480|164854878|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.38||0.622|TWO_SIDED|95.0|-0.56|0.94|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||0.94|-0.56|0.622
82572542|NCT04367480|164854878|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.43||0.587|TWO_SIDED|95.0|-0.61|1.08|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Tingling. (N: Active TENS=55, Placebo TENS=50)||1.08|-0.61|0.587
82572543|NCT04367480|164854879|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.34||0.058|TWO_SIDED|95.0|-0.02|1.31|||ANCOVA|||Analysis on the Study Completers (N: Active TENS=67, Placebo TENS=62)||1.31|-0.02|0.058
82572544|NCT04367480|164854879|SUPERIORITY||Mean Difference (Final Values)|1.35|STANDARD_ERROR_OF_MEAN|0.82||0.11|TWO_SIDED|95.0|-0.32|3.02|||ANCOVA|||Subgroup analysis was performed on participants who reported at least 4 out of 10 at baseline for Cramping. (N: Active TENS=18, Placebo TENS=18)||3.02|-0.32|0.110
82521626|NCT02130193|164738284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.052|TWO_SIDED|95.0|0.55|1.82||Posterior probability that the treatment ratio (DNX 75 mg/ placebo) is less than 0.6 is presented.|Bayesian analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||1.82|0.55|0.052
82521627|NCT02130193|164738285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.212|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 1.0 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.212
82521628|NCT02130193|164738285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.111|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.9 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.111
82572545|NCT03382561|164854880|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.17|TWO_SIDED|95.0|0.55|1.11|||Log Rank||Hazard ratio: Arm A (CEN)/Arm B (CE)|||1.11|0.55|0.17
82572546|NCT01076244|164854886|SUPERIORITY_OR_OTHER||change from baseline|13.43|STANDARD_DEVIATION|16.55|<|0.0001|TWO_SIDED|95.0|8.42|18.43|||t-test, 2 sided|||||18.43|8.42|<0.0001
82572547|NCT01076244|164854888|SUPERIORITY_OR_OTHER||change from baseline|2.17|STANDARD_DEVIATION|3.29|<|0.0001|TWO_SIDED|95.0|1.17|3.16|||t-test, 2 sided|||||3.16|1.17|<0.0001
82638793|NCT01008059|164992438|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82638794|NCT02660489|164992439|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82638795|NCT02660489|164992440|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82638796|NCT02660489|164992441|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
82385512|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-4.2|STANDARD_ERROR_OF_MEAN|6.9||0.5456|TWO_SIDED|95.0|-17.9|9.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||9.5|-17.9|0.5456
82385513|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-7.7|STANDARD_ERROR_OF_MEAN|5.7||0.1762|TWO_SIDED|95.0|-19.0|3.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||3.5|-19.0|0.1762
82385514|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1726||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1726
82385515|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2353||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2353
82385516|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1346||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1346
82385517|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.195||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1950
82442987|NCT01428336|164594687|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.07|||||TWO_SIDED|95.0|-0.69|-0.01||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 250ug CST correlation with ITT||-0.01|-0.69|
82442988|NCT01428336|164594687|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.06|||||TWO_SIDED|95.0|-0.65|0.04||||||Analysis comparing Peak 25ug CST correlation with ITT vs. 30-minute 250ug CST correlation with ITT||0.04|-0.65|
82572548|NCT04836559|164854890|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.3571|TWO_SIDED|95.0|0.41|1.38|||t-test, 1 sided|||||1.38|0.41|0.3571
82572549|NCT04836559|164854890|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.6306|TWO_SIDED|95.0|0.4|1.75|||t-test, 1 sided|||||1.75|0.40|0.6306
82572550|NCT00730015|164854912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.72|||<|0.0001|TWO_SIDED|95.0|3.41|17.47||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 145-μg dose and those taking placebo. The power, adjusted for multiplicity, was expected to be at least 90% based on study NCT00402337(MCP-103-201) data.||17.47|3.41|<0.0001
82638797|NCT02660489|164992442|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82572551|NCT00730015|164854912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.21|||<|0.0001|TWO_SIDED|95.0|3.14|16.59||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in the proportion of 12-week CSBM overall responders between patients taking the 290-μg dose and those taking placebo. The power, adjusted for multiplicity, was expected to be greater than 96% based on study NCT00402337(MCP-103-201) data.||16.59|3.14|<0.0001
82638798|NCT02660489|164992443|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82638799|NCT02660489|164992444|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82638800|NCT02660489|164992445|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82638801|NCT02660489|164992446|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
82521629|NCT02130193|164738285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.049|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.8 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.049
82521630|NCT02130193|164738285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.012|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.7 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.012
82572552|NCT01642147|164854924|SUPERIORITY_OR_OTHER|||||||0.554||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: Mean Blood Flow Velocity in Middle Cerebral Artery of the 2 groups are the same before anesthesia.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||0.554
82572553|NCT01642147|164854925|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: Mean Blood Flow Velocity in Middle Cerebral Artery of the 2 groups are the same at extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
82572554|NCT01642147|164854926|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 30min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
82521631|NCT02130193|164738285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.001|TWO_SIDED|95.0|0.73|2.11||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0.6 is presented.|Bayesian Cox analysis|P-value is actually a posterior probability.|Data presented are for 95% equal-tailed credible intervals|||2.11|0.73|0.001
82521632|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.64|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.64
82521633|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.75|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.75
82572555|NCT01642147|164854927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 60min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
82572556|NCT01642147|164854928|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 90min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
82521634|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.77|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.77
82521635|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.74|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.74
82521636|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.67|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.67
82521637|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.69|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.69
82521638|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.72|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.72
82521639|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.71|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.71
82521640|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.66|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.66
82521641|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.84|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.84
82521642|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.65|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.65
82521643|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.71|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.71
82521644|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.13|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.13
82521645|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.27|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.27
82521646|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.31|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.31
82638802|NCT04602078|164992494|SUPERIORITY|||||||0.444|||||||Log Rank|||Comparisong between subgroups: patients with PD-L1 postive versus patients with PD-L1 negative||||0.444
82521647|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.29|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.29
82521648|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.23|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.23
82521649|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.26|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.26
82638803|NCT04602078|164992495|SUPERIORITY|||||||0.414|||||||Chi-squared|||Comparisong between subgroups: patients with PD-L1 postive versus patients with PD-L1 negative||||0.414
82385518|NCT04015518|164482574|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.1681||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1681
82442989|NCT01428336|164594688|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|0.12|||||TWO_SIDED|95.0|-0.24|0.65||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 1ug CST correlation with ITT - free cortisol||0.65|-0.24|
82521650|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.28|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.28
82521651|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.29|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.29
82442990|NCT01428336|164594688|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.18|||||TWO_SIDED|95.0|-0.91|-0.15||||||Analysis comparing Peak 25ug CST correlation with ITT vs. Peak 250ug CST correlation with ITT - free cortisol||-0.15|-0.91|
82442991|NCT01428336|164594688|NON_INFERIORITY|A non-inferiority region of 0.15 for the difference in correlations is expected.|Difference in correlation|-0.19|||||TWO_SIDED|95.0|-0.94|-0.14||||||Analysis comparing Peak 25ug CST correlation with ITT vs. 30-minute 250ug CST correlation with ITT - free cortisol||-0.14|-0.94|
82442992|NCT04384107|164594690|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-1.1|||=|0.641|TWO_SIDED|95.0|-5.9|3.6|||Miettinen & Nurminen|||Injection site erythema||3.6|-5.9|= 0.641
82442993|NCT04384107|164594690|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.2|||=|0.937|TWO_SIDED|95.0|-6.1|5.6|||Miettinen & Nurminen|||Injection site induration||5.6|-6.1|= 0.937
82442994|NCT04384107|164594690|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|7.1|||=|0.036|TWO_SIDED|95.0|0.5|13.8|||Miettinen & Nurminen|||Injection site pain||13.8|0.5|= 0.036
82442995|NCT04384107|164594690|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-4.0|||=|0.208|TWO_SIDED|95.0|-10.2|2.2|||Miettinen & Nurminen|||Injection site swelling||2.2|-10.2|= 0.208
82442996|NCT04384107|164594691|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.4|||=|0.912|TWO_SIDED|95.0|-6.7|6.0|||Miettinen & Nurminen|||Decreased appetite||6.0|-6.7|= 0.912
82442997|NCT04384107|164594691|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|5.9|||=|0.108|TWO_SIDED|95.0|-1.3|13.0|||Miettinen & Nurminen|||Irritability||13.0|-1.3|= 0.108
82442998|NCT04384107|164594691|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.0|||=|0.792|TWO_SIDED|95.0|-6.4|8.4|||Miettinen & Nurminen|||Somnolence||8.4|-6.4|= 0.792
82442999|NCT04384107|164594691|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.3|||=|0.843|TWO_SIDED|95.0|-3.5|2.8|||Miettinen & Nurminen|||Urticaria||2.8|-3.5|= 0.843
82443000|NCT04384107|164594692|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.4|1.3||||||||1.3|-1.4|
82443001|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 1: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
82521652|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.23|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.23
82638804|NCT02706327|164992503|OTHER||||||<|0.001||||||A post-hoc test was used with Bonferroni correction and adjusted p-value was 0.016.|Kruskal-Wallis|Effect sizes (Cohen's d) were calculated for significant differences.||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not. A post-hoc test was used with Bonferroni correction.||||<0.001
82638805|NCT02706327|164992504|OTHER|||||||0.547|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.547
82638806|NCT02706327|164992505|OTHER|||||||0.895|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.895
82638807|NCT02706327|164992506|OTHER|||||||0.842|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.842
82638808|NCT02706327|164992507|OTHER|||||||0.848|||||||Kruskal-Wallis|||Normality of the distribution was investigated by skewness-kurtosis, histogram graphics, normality tests and plots before the statistical tests were performed. Group comparisons were tested with One-way analysis of variance when normality was achieved and Kruskal Wallis test when not.||||0.848
82638809|NCT02652793|164992514|SUPERIORITY|Single-arm pilot study to assess BMD improvement after switching therapy. Null hypothesis: no change in lumbar spine BMD at Week 48. Sample size of 45 planned to detect a 2% increase with 90% power (α=0.025). Final analysis included 30 participants.|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.03||0.0239|TWO_SIDED|95.0|0.001|0.019||Statistical test applied to lumbar spine BMD only. P-value reflects within-group change from baseline to Week 48.|Regression, Linear|Per-protocol analysis; missing data excluded|Represents mean change in lumbar spine BMD from baseline to Week 48.|Single-arm study; no comparator group||0.019|0.001|0.0239
82638810|NCT02652793|164992514|SUPERIORITY|Single-arm pilot study to assess BMD improvement after switching therapy. Null hypothesis: no change in left hip BMD at Week 48. Sample size of 45 planned to detect a 2% increase with 90% power (α=0.025). Final analysis included 30 participants.|Mean Difference (Final Values)|0.013|STANDARD_DEVIATION|0.03||0.0046|TWO_SIDED|95.0|0.004|0.023||Left hip|Regression, Linear|Statistical test applied to left hip BMD only. P-value reflects within-group change from baseline to Week 48.|Represents mean change in left hip BMD from baseline to Week 48|Single-arm study; no comparator group||0.023|0.004|0.0046
82638811|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638812|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638813|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638814|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638815|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638816|NCT06045026|164992551|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82638817|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638818|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638819|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638820|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638821|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638822|NCT06045026|164992552|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82638823|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638824|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638825|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638826|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82443002|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|2.3|||<|0.001|TWO_SIDED|95.0|1.0|4.5|||Miettinen and Nurminen|||Serotype 3: Participants With IgG ≥0.35 μg/mL||4.5|1.0|< 0.001
82638827|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82443003|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.1|||Miettinen and Nurminen|||Serotype 4: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|< 0.001
82443004|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.2|||<|0.001|TWO_SIDED|95.0|-3.0|-0.1|||Miettinen and Nurminen|||Serotype 5: Participants With IgG ≥0.35 μg/mL||-0.1|-3.0|< 0.001
82443005|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.9|||<|0.001|TWO_SIDED|95.0|-2.6|0.2|||Miettinen and Nurminen|||Serotype 6A: Participants With IgG ≥0.35 μg/mL||0.2|-2.6|< 0.001
82443006|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-3.9|||<|0.001|TWO_SIDED|95.0|-6.9|-1.3|||Miettinen and Nurminen|||Serotype 6B: Participants With IgG ≥0.35 μg/mL||-1.3|-6.9|< 0.001
82443007|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 7F: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
82443008|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 9V: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
82443009|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.9|1.1|||Miettinen and Nurminen|||Serotype 14: Participants With IgG ≥0.35 μg/mL||1.1|-1.9|< 0.001
82443010|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.2|||<|0.001|TWO_SIDED|95.0|-3.0|-0.1|||Miettinen and Nurminen|||Serotype 18C: Participants With IgG ≥0.35 μg/mL||-0.1|-3.0|< 0.001
82572557|NCT01642147|164854929|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni correction is used when P-value is significant|Wilcoxon (Mann-Whitney)|||"H0: mean blood flow velocity in middle cerebral artery of the 2 groups are the same 120min after extubation.~Power calculation: beta=0.2, alpha=0.05, two-tailed"||||<0.001
82572558|NCT02270671|164854946|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \>.05|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
82638828|NCT06045026|164992553|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82638829|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638830|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638831|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638832|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638833|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638834|NCT06045026|164992554|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82638835|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638836|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638837|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638838|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638839|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638840|NCT06045026|164992555|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82638841|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82443011|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-0.3|||<|0.001|TWO_SIDED|95.0|-1.7|0.8|||Miettinen and Nurminen|||Serotype 19A: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|< 0.001
82638842|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638843|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638844|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638845|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638846|NCT06045026|164992556|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82572559|NCT02270671|164854947|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: =.026|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
82638847|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 4||||<0.0001
82638848|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 8||||<0.0001
82638849|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 12||||<0.0001
82638850|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 16||||<0.0001
82638851|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 20||||<0.0001
82638852|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q1 (How intense are the sensations?): Change from Baseline at Week 24||||<0.0001
82638853|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 4||||<0.0001
82638854|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 8||||<0.0001
82638855|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 12||||<0.0001
82638856|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 16||||<0.0001
82638857|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 20||||<0.0001
82638858|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q2 (How bothered are you by any sensations?): Change from Baseline at Week 24||||<0.0001
82638859|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 4||||<0.0001
82521653|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.45|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.45
82521654|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.24|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.24
82521655|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.28|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.28
82521656|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.23|STANDARD_DEVIATION|0.72||0.26|TWO_SIDED|95.0|-1.53|1.25||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 1 month. Data presented are for 95% equal-tailed credible intervals|||1.25|-1.53|0.26
82521657|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.78||0.41|TWO_SIDED|95.0|-1.91|1.1||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 2 month. Data presented are for 95% equal-tailed credible intervals|||1.10|-1.91|0.41
82521658|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.6|STANDARD_DEVIATION|0.8||0.46|TWO_SIDED|95.0|-2.09|0.98||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.98|-2.09|0.46
82521659|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.55|STANDARD_DEVIATION|0.81||0.43|TWO_SIDED|95.0|-2.23|0.87||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.87|-2.23|0.43
82521660|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.83||0.36|TWO_SIDED|95.0|-1.88|1.27||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 5 month. Data presented are for 95% equal-tailed credible intervals|||1.27|-1.88|0.36
82521661|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.86||0.39|TWO_SIDED|95.0|-1.99|1.26||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 6 month. Data presented are for 95% equal-tailed credible intervals|||1.26|-1.99|0.39
82385519|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2812|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.5|-1.8|0.2812
82521662|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.85||0.42|TWO_SIDED|95.0|-2.1|1.08||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 7 month. Data presented are for 95% equal-tailed credible intervals|||1.08|-2.10|0.42
82521663|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.5|STANDARD_DEVIATION|0.87||0.42|TWO_SIDED|95.0|-2.11|1.14||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 8 month. Data presented are for 95% equal-tailed credible intervals|||1.14|-2.11|0.42
82521664|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.34|STANDARD_DEVIATION|0.88||0.35|TWO_SIDED|95.0|-2.14|1.23||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 9 month. Data presented are for 95% equal-tailed credible intervals|||1.23|-2.14|0.35
82572560|NCT02270671|164854948|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \>.05|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
82521665|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.89|STANDARD_DEVIATION|0.89||0.58|TWO_SIDED|95.0|-2.71|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-2.71|0.58
82521666|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.36|STANDARD_DEVIATION|0.91||0.36|TWO_SIDED|95.0|-2.15|1.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 11 month. Data presented are for 95% equal-tailed credible intervals|||1.41|-2.15|0.36
82521667|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.9||0.41|TWO_SIDED|95.0|-2.36|1.13||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-breath, 12 month. Data presented are for 95% equal-tailed credible intervals|||1.13|-2.36|0.41
82521668|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.66|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.66
82572561|NCT02270671|164854949|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: \<.0001|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
82638860|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 8||||<0.0001
82385520|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.3357|TWO_SIDED|95.0|-1.7|0.6|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.6|-1.7|0.3357
82521669|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.66|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.66
82521670|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.91|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.91
82638861|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 12||||<0.0001
82521671|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.79|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.79
82521672|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.84|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.84
82572562|NCT02270671|164854950|SUPERIORITY_OR_OTHER||||||>|0.05||||||Group x Time interaction p-value: \>.05; Gender p-value: =.007|ANOVA|2x2x3 repeated measures ANOVA. 2 between-subjects factors (Group; Gender) and 1 within-subject factor (Time). P value adjusted to p \< .025.||||||>.05
82638862|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 16||||<0.0001
82521673|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.81|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.81
82521674|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.76|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.76
82572563|NCT02007200|164854951|SUPERIORITY_OR_OTHER||||||<|0.005|||||||Linear Repeated Measures Model|||||||<0.005
82638863|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 20||||<0.0001
82638864|NCT06045026|164992557|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Q3 (How well can you tolerate sensations?): Change from Baseline at Week 24||||<0.0001
82638865|NCT06045026|164992558|SUPERIORITY|||||||0.01|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||0.0100
82385521|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.8|STANDARD_ERROR_OF_MEAN|0.6||0.1809|TWO_SIDED|95.0|-2.0|0.4|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.4|-2.0|0.1809
82443012|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.1|||Miettinen and Nurminen|||Serotype 19F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|< 0.001
82443013|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-1.8|||<|0.001|TWO_SIDED|95.0|-4.0|-0.2|||Miettinen and Nurminen|||Serotype 23F: Participants With IgG ≥0.35 μg/mL||-0.2|-4.0|< 0.001
82443014|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|2.0|||<|0.001|TWO_SIDED|95.0|0.4|4.3|||Miettinen and Nurminen|||Serotype 22F: Participants With IgG ≥0.35 μg/mL||4.3|0.4|<0.001
82443015|NCT04384107|164594693|NON_INFERIORITY|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI and p-value based on the method of Miettinen and Nurminen stratified by age category. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - PCV13) being \>-10 percentage points (1-sided p-value \<0.025).|Difference in Percent|-6.8|||=|0.048|TWO_SIDED|95.0|-10.6|-3.5|||Miettinen and Nurminen|||Serotype 33F: Participants With IgG ≥0.35 μg/mL||-3.5|-10.6|= 0.048
82443016|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.55|0.67|||Linear model|||Serotype 1: IgG GMC Ratio||0.67|0.55|< 0.001
82443017|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.85|||<|0.001|TWO_SIDED|95.0|1.67|2.05|||Linear model|||Serotype 3: IgG GMC Ratio||2.05|1.67|< 0.001
82443018|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.76|0.93|||Linear model|||Serotype 4: IgG GMC Ratio||0.93|0.76|< 0.001
82443019|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.69|0.87|||Linear model|||Serotype 5: IgG GMC Ratio||0.87|0.69|< 0.001
82443020|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.56|||=|0.019|TWO_SIDED|95.0|0.5|0.63|||Linear model|||Serotype 6A: IgG GMC Ratio||0.63|0.50|= 0.019
82443021|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.59|||=|0.015|TWO_SIDED|95.0|0.51|0.68|||Linear model|||Serotype 6B: IgG GMC Ratio||0.68|0.51|= 0.015
82638866|NCT06045026|164992558|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638867|NCT06045026|164992558|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82385522|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8322|TWO_SIDED|95.0|-1.1|0.9|||Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as Speso - placebo.|||0.9|-1.1|0.8322
82385523|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.4035||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.4035
82385524|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.2563||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2563
82521675|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.84|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.84
82521676|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.83|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.83
82638868|NCT06045026|164992558|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638869|NCT06045026|164992558|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638870|NCT06045026|164992558|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82521677|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.94|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.94
82638871|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82638872|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638873|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638874|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638875|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638876|NCT06045026|164992559|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82443022|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.75|0.94|||Linear model|||Serotype 7F: IgG GMC Ratio||0.94|0.75|< 0.001
82443023|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.78|0.97|||Linear model|||Serotype 9V: IgG GMC Ratio||0.97|0.78|< 0.001
82443024|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.66|0.85|||Linear model|||Serotype 14: IgG GMC Ratio||0.85|0.66|< 0.001
82521678|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.84|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.84
82638877|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 1||||<0.0001
82521679|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.81|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.81
82638878|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 2||||<0.0001
82638879|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 4||||<0.0001
82521680|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.01|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.01
82521681|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.02|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.02
82521682|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.15|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.15
82521683|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.05|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.05
82638880|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 8||||<0.0001
82638881|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12||||<0.0001
82638882|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 16||||<0.0001
82638883|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 20||||<0.0001
82638884|NCT06045026|164992561|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 24||||<0.0001
82521684|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.08|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.08
82521685|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.08|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.08
82572564|NCT01657799|164854962|SUPERIORITY|||||||0.933|||||||Log Rank|Log-rank test stratified by graded prognostic assessment (GPA) score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||The primary analysis used a Hochberg testing procedure to preserve the familywise error rate for multiple comparisons, where the larger P-value for the comparisons of veliparib 50 mg BID + WBRT with placebo BID + WBRT and veliparib 200 mg BID + WBRT with placebo BID + WBRT were compared to an α = 0.05. If statistically significant (P ≤ 0.05), both comparisons were considered significant. If the larger P-value was not statistically significant, the smaller P-value was compared to an α = 0.025.||||0.933
82572565|NCT01657799|164854962|SUPERIORITY|||||||0.909|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||The primary analysis used a Hochberg testing procedure to preserve the familywise error rate for multiple comparisons, where the larger P-value for the comparisons of veliparib 50 mg BID + WBRT with placebo BID + WBRT and veliparib 200 mg BID + WBRT with placebo BID + WBRT were compared to an α = 0.05. If statistically significant (P ≤ 0.05), both comparisons were considered significant. If the larger P-value was not statistically significant, the smaller P-value was compared to an α = 0.025.||||0.909
82572566|NCT01657799|164854962|SUPERIORITY||Hazard Ratio (HR)|0.985||||0.927|TWO_SIDED|95.0|0.716|1.355|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||||1.355|0.716|0.927
82521686|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.06|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.06
82521687|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.14|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.14
82572567|NCT01657799|164854962|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.906|TWO_SIDED|95.0|0.71|1.354|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening. Nominal P-values were reported.||||1.354|0.710|0.906
82521688|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.14|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.14
82521689|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.29|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.29
82521690|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.15|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.15
82521691|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.13|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -1 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.13
82521692|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.14|STANDARD_DEVIATION|0.35||0.06|TWO_SIDED|95.0|-0.84|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.84|0.06
82521693|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.17|STANDARD_DEVIATION|0.39||0.09|TWO_SIDED|95.0|-0.94|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-0.94|0.09
82521694|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.56|STANDARD_DEVIATION|0.43||0.37|TWO_SIDED|95.0|-1.46|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.46|0.37
82385525|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.681||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.6810
82521695|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.41||0.18|TWO_SIDED|95.0|-1.16|0.44||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.44|-1.16|0.18
82521696|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.4|STANDARD_DEVIATION|0.42||0.24|TWO_SIDED|95.0|-1.24|0.41||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.41|-1.24|0.24
82521697|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.44||0.24|TWO_SIDED|95.0|-1.23|0.47||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.47|-1.23|0.24
82521698|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.32|STANDARD_DEVIATION|0.44||0.19|TWO_SIDED|95.0|-1.14|0.56||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.56|-1.14|0.19
82521699|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.48|STANDARD_DEVIATION|0.48||0.32|TWO_SIDED|95.0|-1.43|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.43|0.32
82521700|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.46|STANDARD_DEVIATION|0.49||0.32|TWO_SIDED|95.0|-1.49|0.38||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.38|-1.49|0.32
82521701|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.73|STANDARD_DEVIATION|0.49||0.52|TWO_SIDED|95.0|-1.68|0.2||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.20|-1.68|0.52
82521702|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.49|STANDARD_DEVIATION|0.5||0.33|TWO_SIDED|95.0|-1.45|0.48||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.48|-1.45|0.33
82521703|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.43|STANDARD_DEVIATION|0.5||0.29|TWO_SIDED|95.0|-1.36|0.55||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-chest, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.55|-1.36|0.29
82521704|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.31||0.43|TWO_SIDED|95.0|-0.59|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.59|0.43
82572568|NCT01657799|164854963|SUPERIORITY|||||||0.535|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.535
82572569|NCT01657799|164854963|SUPERIORITY|||||||0.898|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.898
82385526|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.4665||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.4665
82385527|NCT04015518|164482575|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.||||||0.5565||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.5565
82385528|NCT04015518|164482576|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.042|||||TWO_SIDED|95.0|-0.17|0.281|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.281|-0.170|
82385529|NCT04015518|164482576|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.195|||||TWO_SIDED|95.0|-0.048|0.432|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.432|-0.048|
82385530|NCT04015518|164482576|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.27|||||TWO_SIDED|95.0|0.02|0.496|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.496|0.020|
82385531|NCT04015518|164482576|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.129|||||TWO_SIDED|95.0|-0.067|0.314|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.314|-0.067|
82443025|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.82|||Linear model|||Serotype 18C: IgG GMC Ratio||0.82|0.67|< 0.001
82521705|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.19|STANDARD_DEVIATION|0.35||0.29|TWO_SIDED|95.0|-0.53|0.85||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.85|-0.53|0.29
82572570|NCT01657799|164854964|SUPERIORITY|||||||0.314|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.314
82572571|NCT01657799|164854964|SUPERIORITY|||||||0.536|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.536
82572572|NCT01657799|164854964|SUPERIORITY||Hazard Ratio (HR)|1.301||||0.313|TWO_SIDED|95.0|0.78|2.168|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||2.168|0.780|0.313
82572573|NCT01657799|164854964|SUPERIORITY||Hazard Ratio (HR)|1.181||||0.534|TWO_SIDED|95.0|0.698|1.999|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||1.999|0.698|0.534
82521706|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.2|STANDARD_DEVIATION|0.38||0.7|TWO_SIDED|95.0|-0.94|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.94|0.70
82521707|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.21|STANDARD_DEVIATION|0.37||0.71|TWO_SIDED|95.0|-0.92|0.5||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.50|-0.92|0.71
82521708|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.11|STANDARD_DEVIATION|0.37||0.61|TWO_SIDED|95.0|-0.82|0.61||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.61|-0.82|0.61
82521709|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.02|STANDARD_DEVIATION|0.36||0.48|TWO_SIDED|95.0|-0.69|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.69|0.48
82521710|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.08|STANDARD_DEVIATION|0.36||0.58|TWO_SIDED|95.0|-0.79|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.79|0.58
82521711|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.4||0.83|TWO_SIDED|95.0|-1.12|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.12|0.83
82521712|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.26|STANDARD_DEVIATION|0.41||0.74|TWO_SIDED|95.0|-1.07|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-1.07|0.74
82521713|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.43||0.89|TWO_SIDED|95.0|-1.4|0.29||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.29|-1.40|0.89
82521714|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.1|STANDARD_DEVIATION|0.41||0.59|TWO_SIDED|95.0|-0.89|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.89|0.59
82521715|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.3|STANDARD_DEVIATION|0.42||0.77|TWO_SIDED|95.0|-1.12|0.54||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than 0 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.54|-1.12|0.77
82521716|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.06|STANDARD_DEVIATION|0.31||0.01|TWO_SIDED|95.0|-0.59|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 1 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.59|0.01
82521717|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.19|STANDARD_DEVIATION|0.35||0.01|TWO_SIDED|95.0|-0.53|0.85||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 2 month. Data presented are for 95% equal-tailed credible intervals|||0.85|-0.53|0.01
82521718|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.2|STANDARD_DEVIATION|0.38||0.09|TWO_SIDED|95.0|-0.94|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 3 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-0.94|0.09
82572574|NCT01657799|164854965|SUPERIORITY|||||||0.864|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.864
82443026|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.65|||<|0.001|TWO_SIDED|95.0|0.59|0.72|||Linear model|||Serotype 19A: IgG GMC Ratio||0.72|0.59|< 0.001
82443027|NCT04384107|164594694|NON_INFERIORITY|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors. A conclusion of non-inferiority of V114 to PCV13 is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/PCV13) being \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.69|0.82|||Linear model|||Serotype 19F: IgG GMC Ratio||0.82|0.69|< 0.001
82443028|NCT04384107|164594695|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|107.45|||||TWO_SIDED|95.0|96.18|120.03||||||Serotype 22F: IgG GMC Ratio||120.03|96.18|
82443029|NCT04384107|164594695|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|32.48|||||TWO_SIDED|95.0|27.72|38.05||||||Serotype 33F: IgG GMC Ratio||38.05|27.72|
82443030|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|-0.3|||||TWO_SIDED|95.0|-1.7|0.8||||||Serotype 1: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|
82443031|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|3.3|||||TWO_SIDED|95.0|1.8|5.8||||||Serotype 3: Participants With IgG ≥0.35 μg/mL||5.8|1.8|
82385532|NCT04015518|164482576|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0613||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0613
82572575|NCT01657799|164854965|SUPERIORITY|||||||0.301|||||||Log Rank|Log-rank test stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||||0.301
82572576|NCT01657799|164854965|SUPERIORITY||Hazard Ratio (HR)|1.047||||0.86|TWO_SIDED|95.0|0.626|1.754|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||1.754|0.626|0.860
82572577|NCT01657799|164854965|SUPERIORITY||Hazard Ratio (HR)|1.295||||0.289|TWO_SIDED|95.0|0.803|2.086|||Cox proportional hazard model|Cox proportional hazard model stratified by GPA score (≤ 2.5 or \> 2.5) at screening.||||2.086|0.803|0.289
82572578|NCT04182113|164854976|SUPERIORITY||Mean Difference (Net)|-0.042||||0.32|TWO_SIDED|95.0|-0.129|0.044||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test comparing Target vs. Foil activity following 1Hz rTMS to Target vs. Foil activity following 20 Hz rTMS stimulation.||0.044|-0.129|0.32
82572579|NCT04182113|164854976|SUPERIORITY||Mean Difference (Net)|0.043||||0.25|TWO_SIDED|95.0|-0.03|0.12||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test between Target vs. Foil activation following 1 Hz rTMS and Target vs. Foil activation following Sham stimulation..||0.12|-0.03|0.25
82443032|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|-0.3|||||TWO_SIDED|95.0|-1.7|0.8||||||Serotype 4: Participants With IgG ≥0.35 μg/mL||0.8|-1.7|
82572580|NCT04182113|164854976|SUPERIORITY||Mean Difference (Net)|0.078||||0.13|TWO_SIDED|95.0|-0.024|0.181||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test between Target vs. Foil activity following 20 Hz rTMS and Target vs. Foil activity following Sham stimulation.||0.181|-0.024|0.13
82638885|NCT01224171|164992567|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.0||||0.4332|TWO_SIDED|95.0|-4.5|10.5|||Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|Clinical remission was tested using the Cochran-Mantel-Haenszel (CMH) chi-square test at a 5% significance level with stratification according to concomitant use of oral corticosteroids and concomitant use of immunomodulators (6-mercaptopurine \[6-MP\], azathioprine, or methotrexate) for the TNFα antagonist failure subpopulation.||10.5|-4.5|0.4332
82443033|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 5: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82443034|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 6A: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82572581|NCT04182113|164854977|SUPERIORITY||Mean Difference (Net)|0.018||||0.038|TWO_SIDED|95.0|0.001|0.034||Not corrected for multiple comparisons.|t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 1Hz rTMS to precuneus connectivity following 20 Hz rTMS stimulation.||0.034|0.001|0.038
82385533|NCT04015518|164482576|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0628||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0628
82385534|NCT04015518|164482576|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.1449||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1449
82385535|NCT04015518|164482576|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.046||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0460
82385536|NCT04015518|164482576|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0677||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0677
82385537|NCT04015518|164482577|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.063|||||TWO_SIDED|95.0|-0.069|0.256|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.256|-0.069|
82385538|NCT04015518|164482577|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.188|||||TWO_SIDED|95.0|0.018|0.405|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.405|0.018|
82385539|NCT04015518|164482577|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.102|||||TWO_SIDED|95.0|-0.042|0.303|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.303|-0.042|
82521719|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.21|STANDARD_DEVIATION|0.37||0.09|TWO_SIDED|95.0|-0.92|0.5||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 4 month. Data presented are for 95% equal-tailed credible intervals|||0.50|-0.92|0.09
82521720|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.11|STANDARD_DEVIATION|0.37||0.05|TWO_SIDED|95.0|-0.82|0.61||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 5 month. Data presented are for 95% equal-tailed credible intervals|||0.61|-0.82|0.05
82572582|NCT04182113|164854977|SUPERIORITY||Mean Difference (Net)|0.009||||0.44|TWO_SIDED|95.0|-0.015|0.033|||t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 1Hz rTMS to precuneus connectivity following 20 Hz rTMS stimulation.||0.033|-0.015|0.44
82572583|NCT04182113|164854977|SUPERIORITY||Mean Difference (Net)|-0.012||||0.25|TWO_SIDED|95.0|-0.032|0.009|||t-test, 2 sided|||Paired t-test comparing precuneus connectivity following 20Hz rTMS to precuneus connectivity following sham stimulation.||0.009|-0.032|0.25
82638886|NCT03417245|164992576|SUPERIORITY||ABR ratio|0.101|||<|0.0001|TWO_SIDED|95.0|0.064|0.159||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression mode|||||0.159|0.064|<0.0001
82638887|NCT03417245|164992578|SUPERIORITY||ABR ratio|0.13|||<|0.0001|TWO_SIDED|95.0|0.09|0.188||P-value derived from NB regression model during TP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.188|0.090|<0.0001
82638888|NCT03417245|164992580|SUPERIORITY||ABR ratio|0.083|||<|0.0001|TWO_SIDED|95.0|0.049|0.141||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.141|0.049|<0.0001
82385540|NCT04015518|164482577|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.113|||||TWO_SIDED|95.0|-0.018|0.25|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.250|-0.018|
82443035|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 6B: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82443036|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 7F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82638889|NCT03417245|164992582|SUPERIORITY||ABR ratio|0.097|||<|0.0001|TWO_SIDED|95.0|0.059|0.161||P-value derived from NB regression model during EP, with treatment arm, number of bleeds in 6 months prior to study (\<=10, \>10) and hemophilia type (A vs B) as fixed effects. Significance threshold was at 0.05.|Negative binomial regression model|||||0.161|0.059|<0.0001
82443037|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 9V: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82443038|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 14: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82638890|NCT03417245|164992584|SUPERIORITY||Least Square (LS) Mean difference|-19.75|||<|0.0001|TWO_SIDED|95.0|-27.0|-12.5||Analysis of Covariance (ANCOVA) model included treatment arm, number of bleeds in 6 months prior to study (\<=10,\>10) and hemophilia type (A vs B) as fixed effects, Baseline score as covariate. Significance threshold was at 0.05.|ANCOVA|||||-12.50|-27.00|<0.0001
82443039|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 18C: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82443040|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 19A: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82443041|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Serotype 19F: Participants With IgG ≥0.35 μg/mL||1.1|-1.1|
82638891|NCT03417245|164992585|SUPERIORITY||LS Mean difference|-7.07|||=|0.0011|TWO_SIDED|95.0|-11.23|-2.9||ANCOVA model included treatment arm, number of bleeds in 6 months prior to study (\<=10,\>10) and hemophilia type (A vs B) as fixed effects, Baseline score as covariate. Significance threshold was at 0.05.|ANCOVA|||||-2.90|-11.23|=0.0011
82521721|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|0.02|STANDARD_DEVIATION|0.36||0.02|TWO_SIDED|95.0|-0.69|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 6 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.69|0.02
82521722|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.08|STANDARD_DEVIATION|0.36||0.04|TWO_SIDED|95.0|-0.79|0.62||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 7 month. Data presented are for 95% equal-tailed credible intervals|||0.62|-0.79|0.04
82521723|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.39|STANDARD_DEVIATION|0.4||0.22|TWO_SIDED|95.0|-1.12|0.43||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 8 month. Data presented are for 95% equal-tailed credible intervals|||0.43|-1.12|0.22
82521724|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.26|STANDARD_DEVIATION|0.41||0.14|TWO_SIDED|95.0|-1.07|0.52||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 9 month. Data presented are for 95% equal-tailed credible intervals|||0.52|-1.07|0.14
82521725|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.53|STANDARD_DEVIATION|0.43||0.36|TWO_SIDED|95.0|-1.4|0.29||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 10 month. Data presented are for 95% equal-tailed credible intervals|||0.29|-1.40|0.36
82521726|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.1|STANDARD_DEVIATION|0.41||0.07|TWO_SIDED|95.0|-0.89|0.69||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 11 month. Data presented are for 95% equal-tailed credible intervals|||0.69|-0.89|0.07
82638892|NCT01374516|164992642|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|60.8|||||TWO_SIDED|95.0|52.0|68.0||||||The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy (expressed in %). The CI was calculated using the exact method conditional on the total number of cases in both groups (exact method by Breslow \& Day). The vaccine efficacy of the CYD dengue vaccine was considered significant if the lower bound of its 95% CI was greater than 25%.||68.0|52.0|
82638893|NCT01374516|164992643|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|64.7|||||TWO_SIDED|95.0|58.7|69.8||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||69.8|58.7|
82443042|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|0.3|||||TWO_SIDED|95.0|-1.1|1.9||||||Serotype 23F: Participants With IgG ≥0.35 μg/mL||1.9|-1.1|
82521727|NCT02130193|164738288|SUPERIORITY_OR_OTHER||Posterior mean difference|-0.3|STANDARD_DEVIATION|0.42||0.17|TWO_SIDED|95.0|-1.12|0.54||Posterior probability that the treatment difference (DNX 75 mg-placebo) is less than -0.7 is presented.|Bayesian analysis|P-value is actually a posterior probability.|EXACT-RS-cough, 12 month. Data presented are for 95% equal-tailed credible intervals|||0.54|-1.12|0.17
82521728|NCT01212770|164738293|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|22.3|||<|0.0001|TWO_SIDED|95.0|13.0|31.6|||Cochran-Mantel-Haenszel|Adjusted for baseline disease modifying antirheumatic drug (DMARD) use and and ≥ 3% body surface area (BSA) psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|The percentage of participants with an ACR20 response was compared using a Cochran-Mantel- Haenszel (CMH) test. The Hochberg procedure was used to maintain the Type 1 error at the 0.05 significance level. The results were considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||31.6|13.0|<0.0001
82521729|NCT01212770|164738293|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.8||||0.0295|TWO_SIDED|95.0|1.1|18.6|||Cochran-Mantel-Haenszel|2-sided p-value based on the Cochran-Mantel-Haenszel test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||18.6|1.1|0.0295
82523271|NCT05380947|164741804|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T2/T1)|74.9|||||TWO_SIDED|90.0|68.6|81.7|||||Unit of adjusted geometric means ratio (T2/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 9.0%|||81.7|68.6|
82523438|NCT01422408|164742366|OTHER|||||||0.507||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.507
82572584|NCT04182113|164854978|SUPERIORITY||Mean Difference (Net)|2.7||||0.2|TWO_SIDED|95.0|-1.6|6.9||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 1Hz rTMS to accuracy following 20 Hz rTMS.||6.9|-1.6|0.20
82638894|NCT01374516|164992644|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|64.7|||||TWO_SIDED|95.0|58.7|69.9||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||69.9|58.7|
82638895|NCT01374516|164992645|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|61.9|||||TWO_SIDED|95.0|54.7|68.0||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||68.0|54.7|
82443043|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|94.8|||||TWO_SIDED|95.0|91.8|96.7||||||Serotype 22F: Participants With IgG ≥0.35 μg/mL||96.7|91.8|
82572585|NCT04182113|164854978|SUPERIORITY||Mean Difference (Net)|4.0||||0.17|TWO_SIDED|95.0|-1.9|9.9||Not corrected for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 1Hz rTMS to accuracy following sham rTMS.||9.9|-1.9|0.17
82638896|NCT04988035|164992685|SUPERIORITY||Odds Ratio (OR)|0.64||||0.09|TWO_SIDED|95.0|0.38|1.07|||Proportional odds model||Odds ratio greater than 1 favors Remdesivir plus Danicopan.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while those participants lost to follow-up after discharge to home are assigned a score of 2.||1.07|0.38|0.090
82521730|NCT01212770|164738294|SUPERIORITY||LS Mean Difference|-0.127||||0.0073|TWO_SIDED|95.0|-0.22|-0.034|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.034|-0.220|0.0073
82521731|NCT01212770|164738294|SUPERIORITY||LS Mean Difference|-0.066||||0.1619|TWO_SIDED|95.0|-0.158|0.027|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||0.027|-0.158|0.1619
82523439|NCT01422408|164742367|OTHER|||||||0.3676||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.3676
82521732|NCT01212770|164738295|SUPERIORITY||Adjusted Difference|15.5||||0.0007|TWO_SIDED|95.0|6.7|24.3||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||24.3|6.7|0.0007
82521733|NCT01212770|164738295|SUPERIORITY||Adjusted Difference|11.1||||0.011|TWO_SIDED|95.0|2.7|19.5||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||19.5|2.7|0.0110
82521734|NCT01212770|164738296|SUPERIORITY||LS Mean Difference|-0.139||||0.005|TWO_SIDED|95.0|-0.236|-0.042|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-0.042|-0.236|0.0050
82521735|NCT01212770|164738296|SUPERIORITY||LS Mean Difference|-0.084||||0.086|TWO_SIDED|95.0|-0.181|0.012|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||0.012|-0.181|0.0860
82521736|NCT01212770|164738297|SUPERIORITY||LS Mean Difference|2.32||||0.0053|TWO_SIDED|95.0|0.69|3.95|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||3.95|0.69|0.0053
82521737|NCT01212770|164738297|SUPERIORITY||LS mean Difference|1.15||||0.1658|TWO_SIDED|95.0|-0.48|2.77|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||2.77|-0.48|0.1658
82521738|NCT01212770|164738298|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|25.4|||<|0.0001|TWO_SIDED|95.0|15.5|35.3|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||35.3|15.5|<0.0001
82521739|NCT01212770|164738298|SUPERIORITY||Adjusted Difference|10.4||||0.0372|TWO_SIDED|95.0|0.8|20.0|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use and ≥ 3% BSA psoriasis involvement at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||20.0|0.8|0.0372
82521740|NCT01212770|164738299|SUPERIORITY||Adjusted Difference|14.6||||0.0062|TWO_SIDED|95.0|4.5|24.8|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||24.8|4.5|0.0062
82521741|NCT01212770|164738299|SUPERIORITY||Adjusted Difference|13.0||||0.0134|TWO_SIDED|95.0|3.0|23.1|||Cochran-Mantel-Haenszel|Two-sided p-value based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||23.1|3.0|0.0134
82638897|NCT04988035|164992686|SUPERIORITY||Odds Ratio (OR)|0.69||||0.358|TWO_SIDED|95.0|0.31|1.53|||Regression, Logistic|||Odds ratio, confidence interval, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline C-Reactive Protein (CRP).|Odds ratio greater than 1 favors Remdesivir plus Danicopan|1.53|0.31|0.358
82521742|NCT01212770|164738300|SUPERIORITY||LS Mean Difference|-7.8||||0.0021|TWO_SIDED|95.0|-12.8|-2.9|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-2.9|-12.8|0.0021
82521743|NCT01212770|164738300|SUPERIORITY||LS Mean Difference|-3.6||||0.1482|TWO_SIDED|95.0|-8.6|1.3|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||1.3|-8.6|0.1482
82521744|NCT01212770|164738301|SUPERIORITY||LS Mean Difference|-0.2||||0.5349|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.5|-1.0|0.5349
82385541|NCT04015518|164482577|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0536||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0536
82385542|NCT04015518|164482577|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0476||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0476
82521745|NCT01212770|164738301|SUPERIORITY||LS Mean Difference|0.1||||0.8231|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.9|-0.7|0.8231
82385543|NCT04015518|164482577|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.1076||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1076
82385544|NCT04015518|164482577|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0606||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0606
82385545|NCT04015518|164482577|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0824||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0824
82521746|NCT01212770|164738302|SUPERIORITY||LS Mean Difference|-0.8||||0.072|TWO_SIDED|95.0|-1.7|0.1|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.1|-1.7|0.0720
82638898|NCT04988035|164992687|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.014|TWO_SIDED|95.0|0.46|0.92|||Regression, Cox||HR greater than 1 favors Remdesivir plus Danicopan.|Hazard ratio, confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||0.92|0.46|0.014
82638899|NCT04988035|164992688|SUPERIORITY||Odds Ratio (OR)|0.7||||0.177|TWO_SIDED|95.0|0.42|1.17|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Danicopan.|Includes all ordinal score categories. OR of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for participants lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.17|0.42|0.177
82521747|NCT01212770|164738302|SUPERIORITY||LS Mean Difference|-0.4||||0.3641|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.5|-1.3|0.3641
82521748|NCT01212770|164738303|SUPERIORITY||LS Mean Difference|-4.94||||0.0001|TWO_SIDED|95.0|-7.34|-2.53|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-2.53|-7.34|0.0001
82385546|NCT04015518|164482578|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.211|||||TWO_SIDED|95.0|0.04|0.422|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.422|0.040|
82385547|NCT04015518|164482578|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.018|0.339|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.339|-0.018|
82385548|NCT04015518|164482578|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.125|||||TWO_SIDED|95.0|-0.022|0.328|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.328|-0.022|
82443044|NCT04384107|164594696|OTHER|The stratum-adjusted proportion difference using the Cochran-Mantel-Haenszel weight, and the corresponding 95% CI based on the method of Miettinen and Nurminen stratified by age category.|Difference in Percent|88.5|||||TWO_SIDED|95.0|84.5|91.6||||||Serotype 33F: Participants With IgG ≥0.35 μg/mL||91.6|84.5|
82521749|NCT01212770|164738303|SUPERIORITY||LS Mean Difference|-1.85||||0.1325|TWO_SIDED|95.0|-4.27|0.56|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.56|-4.27|0.1325
82521750|NCT01212770|164738304|SUPERIORITY||LS Mean Difference|-0.47||||0.0001|TWO_SIDED|95.0|-0.7|-0.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.24|-0.70|0.0001
82521751|NCT01212770|164738304|SUPERIORITY||LS Mean Difference|-0.27||||0.0237|TWO_SIDED|95.0|-0.5|-0.04|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.04|-0.50|0.0237
82443045|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.53|||||TWO_SIDED|95.0|0.47|0.59||||||Serotype 1: IgG GMC Ratio||0.59|0.47|
82443046|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|1.71|||||TWO_SIDED|95.0|1.53|1.9||||||Serotype 3: IgG GMC Ratio||1.90|1.53|
82521752|NCT01212770|164738305|SUPERIORITY||LS Mean Difference|2.54||||0.0049|TWO_SIDED|95.0|0.77|4.3|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||4.30|0.77|0.0049
82521753|NCT01212770|164738305|SUPERIORITY||LS Mean Difference|0.68||||0.4505|TWO_SIDED|95.0|-1.09|2.44|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||2.44|-1.09|0.4505
82521754|NCT01212770|164738306|SUPERIORITY||LS Mean Difference|2.34||||0.0043|TWO_SIDED|95.0|0.74|3.94|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||3.94|0.74|0.0043
82521755|NCT01212770|164738306|SUPERIORITY||LS Mean Difference|1.67||||0.0404|TWO_SIDED|95.0|0.07|3.27|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||3.27|0.07|0.0404
82521756|NCT01212770|164738307|SUPERIORITY||Adjusted Difference|21.2|||<|0.0001|TWO_SIDED|95.0|11.5|30.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use and and involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||30.9|11.5|< 0.0001
82521757|NCT01212770|164738307|SUPERIORITY||Adjusted Difference|8.7||||0.0661|TWO_SIDED|95.0|-0.5|18.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||18.0|-0.5|0.0661
82521758|NCT01212770|164738308|SUPERIORITY||Adjusted Difference|14.8||||0.0099|TWO_SIDED|95.0|3.8|25.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.7|3.8|0.0099
82521759|NCT01212770|164738308|SUPERIORITY||Adjusted Difference|10.8||||0.0515|TWO_SIDED|95.0|0.1|21.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across 2 strata of baseline DMARD use with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.4|0.1|0.0515
82521760|NCT01212770|164738309|SUPERIORITY||LS mean Difference|-6.6||||0.008|TWO_SIDED|95.0|-11.4|-1.7|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-1.7|-11.4|0.0080
82638900|NCT04988035|164992689|SUPERIORITY||Odds Ratio (OR)|0.81||||0.427|TWO_SIDED|95.0|0.48|1.36|||Proportional odds model|||Includes all ordinal score categories. OR of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for participants lost to follow-up before Day 29 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 29 after discharge are given a score of 2.|Odds ratio above 1 favors Remdesivir plus Danicopan.|1.36|0.48|0.427
82638901|NCT04988035|164992724|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.109|TWO_SIDED|95.0|0.56|1.06|||Regression, Cox||HR greater than 1 favors Remdesivir plus Danicopan.|||1.06|0.56|0.109
82521761|NCT01212770|164738309|SUPERIORITY||LS Mean Difference|-3.8||||0.1218|TWO_SIDED|95.0|-8.6|1.0|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||1.0|-8.6|0.1218
82521762|NCT01212770|164738310|SUPERIORITY||LS Mean Difference|-0.4||||0.2761|TWO_SIDED|95.0|-1.3|0.4|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.4|-1.3|0.2761
82521763|NCT01212770|164738310|SUPERIORITY||LS Mean Difference|-0.3||||0.5012|TWO_SIDED|95.0|-1.1|0.6|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.6|-1.1|0.5012
82521764|NCT01212770|164738311|SUPERIORITY||LS Mean Difference|-1.0||||0.0399|TWO_SIDED|95.0|-1.9|0.0|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.0|-1.9|0.0399
82521765|NCT01212770|164738311|SUPERIORITY||LS Mean Difference|-0.4||||0.4413|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||0.6|-1.3|0.4413
82521766|NCT01212770|164738312|SUPERIORITY||LS Mean Difference|-5.27|||<|0.0001|TWO_SIDED|95.0|-7.73|-2.82|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-2.82|-7.73|< 0.0001
82521767|NCT01212770|164738312|SUPERIORITY||LS Mean Difference|-2.65||||0.0349|TWO_SIDED|95.0|-5.11|-0.19|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.19|-5.11|0.0349
82521768|NCT01212770|164738313|SUPERIORITY||LS Mean Difference|-0.48||||0.0001|TWO_SIDED|95.0|-0.72|-0.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.24|-0.72|0.0001
82572586|NCT04182113|164854978|SUPERIORITY||Mean Difference (Net)|-1.3||||0.77|TWO_SIDED|95.0|-10.8|8.2||Not adjusted for multiple comparisons.|t-test, 2 sided|||Paired t-test of scene recognition performance accuracy following 20Hz rTMS to accuracy following 20 Hz rTMS.||8.2|-10.8|0.77
82572587|NCT00940875|164854980|SUPERIORITY_OR_OTHER||Difference in Response Rates|-3.3|||||TWO_SIDED|95.0|-17.5|10.9|||||The 95% CI for the difference of 2 rates was estimated using the Hauck-Anderson method.|||10.9|-17.5|
82572588|NCT00940875|164854981|SUPERIORITY_OR_OTHER|||||||0.4798|TWO_SIDED||||||Log Rank|||Difference between treatment groups in PFS||||0.4798
82572589|NCT00940875|164854981|SUPERIORITY_OR_OTHER||Hazard Ratio, log|1.3||||0.4805|TWO_SIDED|95.0|0.63|2.68|||Wald Test||The hazard ratio was estimated using the Cox regression model and stratified by Eastern Cooperative Oncology Group (ECOG) Performance Status (PS), disease stage, histology, and smoking status.|||2.68|0.63|0.4805
82572590|NCT00940875|164854982|SUPERIORITY_OR_OTHER||Difference in Response Rates|-11.54|||||TWO_SIDED|95.0|-40.3|17.2|||||The 95% CI for difference of 2 rates was determined using the Hauck-Anderson method.|Week 8||17.2|-40.3|
82572591|NCT00940875|164854982|SUPERIORITY_OR_OTHER||Difference in Response Rates|-13.46|||||TWO_SIDED|95.0|-36.0|9.0|||||The 95% CI for difference of 2 rates was determined using the Hauck-Anderson method.|Week 16||9.0|-36.0|
82521769|NCT01212770|164738313|SUPERIORITY||LS Mean Difference|-0.3||||0.0147|TWO_SIDED|95.0|-0.54|-0.06|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||-0.06|-0.54|0.0147
82521770|NCT01212770|164738314|SUPERIORITY||LS Mean Difference|2.44||||0.0078|TWO_SIDED|95.0|0.64|4.24|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||4.24|0.64|0.0078
82572592|NCT00940875|164854984|SUPERIORITY_OR_OTHER|||||||0.5393|TWO_SIDED||||||Log Rank|||Difference between treatment groups in OS||||0.5393
82572593|NCT00940875|164854984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.5399|TWO_SIDED|95.0|0.38|1.66|||Wald Test||The hazard ratio was estimated using the Cox regression model and stratified by ECOG PS, disease stage, histology, and smoking status.|||1.66|0.38|0.5399
82572594|NCT03603639|164854994|SUPERIORITY||LS Mean difference|1.38|||||TWO_SIDED|90.0|-0.72|3.48||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||3.48|-0.72|
82572595|NCT03603639|164854994|SUPERIORITY||LS Mean difference|1.07|||||TWO_SIDED|90.0|-0.49|2.63||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.63|-0.49|
82638902|NCT04988035|164992725|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.036|TWO_SIDED|95.0|0.51|0.98|||Regression, Cox||||HR greater than 1 favors Remdesivir plus Danicopan.|0.98|0.51|0.036
82443047|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05||||||Serotype 4: IgG GMC Ratio||1.05|0.80|
82572596|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|0.39|||||TWO_SIDED|90.0|-0.75|1.54||||||In eye closure condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||1.54|-0.75|
82572597|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|0.3|||||TWO_SIDED|90.0|-0.6|1.21||||||In eye closure condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||1.21|-0.60|
82572598|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|1.62|||||TWO_SIDED|90.0|-1.16|4.39||||||In eyes closed condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||4.39|-1.16|
82572599|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|1.05|||||TWO_SIDED|90.0|-0.89|2.98||||||In eyes closed condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.98|-0.89|
82572600|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|0.21|||||TWO_SIDED|90.0|-1.87|2.28||||||In eyes open condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||2.28|-1.87|
82572601|NCT03603639|164854995|SUPERIORITY||LS Mean Difference|1.27|||||TWO_SIDED|90.0|-0.57|3.11||||||In eyes open condition. The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (Predose) measurement as a covariate, and subject nested within sequence as a random effect.||3.11|-0.57|
82572602|NCT02402322|164855012|NON_INFERIORITY_OR_EQUIVALENCE|In the preliminary analysis, we studied the possible group differences in demographic data and pretreatment measures with chi-square tests and analysis of variance (ANOVA).||||||0.05|TWO_SIDED||||||ANOVA|||The participants' pre- and posttreatment scores were studied with repeated measures ANOVA. Within- and between-group effect sizes were calculated using the pooled standard deviation, Cohen's d.||||0.05
82572603|NCT02818998|164855021|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|0.01|||<|0.0001|TWO_SIDED|95.0|-1.46|1.47||Non-inferiority was demonstrated if the p-value (adjusted for multiplicity using the Hochberg procedure) was \< 0.025|ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||1.47|-1.46|<0.0001
82638903|NCT03602976|164992727|SUPERIORITY||Mean Difference (Final Values)|190.7||||0.059|TWO_SIDED||||||t-test, 2 sided|||For GGT||||0.059
82638904|NCT03602976|164992727|SUPERIORITY||Mean Difference (Final Values)|55.5||||0.23|TWO_SIDED||||||t-test, 2 sided|||For Alkaline Phosphatase||||0.23
82521771|NCT01212770|164738314|SUPERIORITY||LS Mean Difference|1.19||||0.1936|TWO_SIDED|95.0|-0.61|2.98|||ANCOVA|Based on an ANCOVA model with treatment group, baseline DMARD use and ≥ 3% BSA psoriasis involvement as factors and the baseline value as a covariate.||||2.98|-0.61|0.1936
82521772|NCT01212770|164738315|SUPERIORITY||Adjusted Difference|2.1||||0.7585|TWO_SIDED|95.0|-10.9|15.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use and involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||15.0|-10.9|0.7585
82572604|NCT02818998|164855021|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|0.95|||<|0.0001|TWO_SIDED|95.0|-0.52|2.42||Non-inferiority was demonstrated if the p-value (adjusted for multiplicity using the Hochberg procedure) was \< 0.025|ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||2.42|-0.52|<0.0001
82638905|NCT03602976|164992728|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
82385549|NCT04015518|164482578|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.144|||||TWO_SIDED|95.0|0.009|0.282|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.282|0.009|
82443048|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.67|||||TWO_SIDED|95.0|0.59|0.75||||||Serotype 5: IgG GMC Ratio||0.75|0.59|
82443049|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.64|||||TWO_SIDED|95.0|0.56|0.73||||||Serotype 6A: IgG GMC Ratio||0.73|0.56|
82638906|NCT03602976|164992729|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.73|TWO_SIDED||||||t-test, 2 sided|||||||0.73
82638907|NCT03602976|164992730|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.094|TWO_SIDED||||||t-test, 2 sided|||||||0.094
82638908|NCT03602976|164992731|SUPERIORITY||Mean Difference (Final Values)|21.0||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
82521773|NCT01212770|164738315|SUPERIORITY||Adjusted Difference|-3.9||||0.5808|TWO_SIDED|95.0|-17.4|9.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||9.7|-17.4|0.5808
82638909|NCT01830621|164992799|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.337|TWO_SIDED|95.0|0.88|1.46|||Log Rank|||||1.46|0.88|0.337
82521774|NCT01212770|164738316|SUPERIORITY||Adjusted Difference|12.0||||0.1303|TWO_SIDED|95.0|-3.1|27.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD useinvolvement of \>= 3% BSA with psoriasis at baseline..|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||27.0|-3.1|0.1303
82638910|NCT01830621|164992800|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.837|TWO_SIDED|95.0|0.76|1.26|||Log Rank|||||1.26|0.76|0.837
82638911|NCT01830621|164992801|SUPERIORITY||Odds Ratio (OR)|0.98||||0.955|TWO_SIDED|95.0|0.48|2.0|||Cochran-Mantel-Haenszel|||||2.00|0.48|0.955
82638912|NCT01830621|164992803|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82638913|NCT03301272|164992812|OTHER||Difference in differences|0.0||||0.5|TWO_SIDED|||||The threshold for statistical significance is 0.05|Regression, Linear|||||||0.5
82638914|NCT01598831|164992823|SUPERIORITY||Risk Difference (RD)|-2.55||||0.318|TWO_SIDED|95.0|-3.68|8.77||The threshold for statistical significance was a two sided 5%|Cochran-Mantel-Haenszel|CMH test controlled for the stratification factor.|Rates by Arm are 26.8% for ART-123 and 29.4% for Placebo||In a post hoc sensitivity analysis for the primary outcome that accounted for pooled site as a random effect, the adjusted 28-day all-cause mortality rate was 24.8%in the rhsTM group vs 27.5%in the placebo group (P = .31).|8.77|-3.68|0.318
82638915|NCT04604015|164992900|OTHER||absolute difference|41.0|||<|0.001|TWO_SIDED|95.0|32.9|50.2|||McNemar|||The study was powered based on the results of a meta-analysis reporting the pooled NeuralBot (TCD) sensitivity for Right to Left Shunt detection, and the pooled TTE sensitivity for Right to Left Shunt detection.||50.2|32.9|<0.001
82638916|NCT01883362|164992916|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.2655|TWO_SIDED|95.0|0.12|1.86|||Log Rank|||||1.86|0.12|0.2655
82638917|NCT01883362|164992917|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.4297|TWO_SIDED|95.0|0.17|2.14|||Log Rank|||||2.14|0.17|0.4297
82638918|NCT01883362|164992918|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.2424|TWO_SIDED|95.0|0.2|1.52|||Log Rank|||||1.52|0.20|0.2424
82638919|NCT01883362|164992919|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.4297|TWO_SIDED|95.0|0.17|2.14|||Log Rank|||||2.14|0.17|0.4297
82638920|NCT01883362|164992920|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.3418|TWO_SIDED|95.0|0.19|1.79|||Log Rank|||||1.79|0.19|0.3418
82638921|NCT01883362|164992921|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.4169|TWO_SIDED|95.0|0.09|2.74|||Log Rank|||||2.74|0.09|0.4169
82638922|NCT03747497|164992926|OTHER||Median Difference (Net)|-0.6|||||TWO_SIDED|95.0|-14.0|2.8||||||||2.8|-14.0|
82638923|NCT01441882|164992928|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.0106|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (lymph node size).||||0.0106
82638924|NCT01441882|164992928|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.1986|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (Absolute Lymphocyte Count (ALC)).||||0.19860
82443050|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.74|||||TWO_SIDED|95.0|0.65|0.84||||||Serotype 6B: IgG GMC Ratio||0.84|0.65|
82572605|NCT02818998|164855022|OTHER||Least Square mean difference|14.38||||0.0105|TWO_SIDED|95.0|3.39|25.37|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||25.37|3.39|0.0105
82638925|NCT01441882|164992928|NON_INFERIORITY|A non-parametric two-sided Mann-Whitney test was run assuming non-Gaussian distributions. Two-tailed with 95% confidence intervals.||||||0.5167|TWO_SIDED|95.0|||||t-test, 2 sided|Threshold for statistical significance is 0.05.||Percent change from baseline in responders compared to non-responders (spleen size).||||0.5167
82638926|NCT02748096|164992952|OTHER||||||<|0.05||||||A p value of less than 0.05 was considered statistically significant for all the radiographic parameters .|t-test, 2 sided|This test applies to comparison between the two treatment arms and assesses all the radiographic parameters||The sample size was calculated from a previous study that used similar radiological assessments to compare OUKAs performed using conventional instrumentation and computer navigation. In this study, the standard deviation of the tibia varus/valgus angle for the control group was 3.6°. Assuming a minimum clinically important difference of 3°, the SMD would be 0.8. Hence with a power of 0.8 and significance level of 0.05, a total sample size of 44 patients (22 in each group) was required.||||<0.05
82638927|NCT02748096|164992953|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82638928|NCT02748096|164992954|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82638929|NCT00656669|164992957|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||t-test, 2 sided|This is a paired t-test to compare baseline IFP to IFP after completion of sunitinib monotherapy||From Taghian et al., we used a mean IFP of 6.5 at baseline and a standard deviation of 6.1. We would like to detect a 50% reduction of IFP (to 3.25 mmHg) with sunitinib monotherapy, so the effect size would be 3.25/6.1=0.53. A two-sided paired t-test has 80% power to detect an effect size of .53 and level of significance .05 when the sample size is 30 patients.||||0.0001
82638930|NCT00656669|164992958|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7963||||||a priori threshold of \<0.05|t-test, 2 sided|This is a paired t-test to compare baseline IFP to IFP after completion of paxlitaxel+sunitinib treatment||||||0.7963
82521775|NCT01212770|164738316|SUPERIORITY||Adjusted Difference|7.5||||0.361|TWO_SIDED|95.0|-8.3|23.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||23.2|-8.3|0.3610
82443051|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.92||||||Serotype 7F: IgG GMC Ratio||0.92|0.71|
82572606|NCT02818998|164855022|OTHER||Least Square mean difference|21.22||||0.0023|TWO_SIDED|95.0|7.65|34.8|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||34.80|7.65|0.0023
82443052|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.73|0.94||||||Serotype 9V: IgG GMC Ratio||0.94|0.73|
82572607|NCT02818998|164855023|OTHER||Treatment Difference|0.68|||||TWO_SIDED|95.0|-3.14|4.49|||Cochran-Mantel-Haenszel|||≥ 15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||4.49|-3.14|
82443053|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||Serotype 14: IgG GMC Ratio||0.96|0.74|
82572608|NCT02818998|164855023|OTHER||Treatment Difference|2.66|||||TWO_SIDED|95.0|-3.4|8.73|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||8.73|-3.40|
82385550|NCT04015518|164482578|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0333||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0333
82572609|NCT02818998|164855023|OTHER||Treatment Difference|-0.66|||||TWO_SIDED|95.0|-1.94|0.63|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||0.63|-1.94|
82572610|NCT02818998|164855023|OTHER||Treatment Difference|-0.13|||||TWO_SIDED|95.0|-3.68|3.41|||Cochran-Mantel-Haenszel|||≥15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||3.41|-3.68|
82443054|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||Serotype 18C: IgG GMC Ratio||1.14|0.87|
82385551|NCT04015518|164482578|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0221||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regime"||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0221
82443055|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92||||||Serotype 19A: IgG GMC Ratio||0.92|0.73|
82443056|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.75|0.94||||||Serotype 19F: IgG GMC Ratio||0.94|0.75|
82443057|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.7||||||Serotype 23F: IgG GMC Ratio||0.70|0.52|
82443058|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|86.74|||||TWO_SIDED|95.0|77.61|96.95||||||Serotype 22F: IgG GMC Ratio||96.95|77.61|
82443059|NCT04384107|164594697|OTHER|Based on a linear model with natural log-transformed IgG concentrations as response variable, and vaccination group and age category as factors.|GMC Ratio|45.44|||||TWO_SIDED|95.0|40.07|51.54||||||Serotype 33F: IgG GMC Ratio||51.54|40.07|
82443060|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.66|||||TWO_SIDED|95.0|0.55|0.78||||||Serotype 1: OPA GMT Ratio||0.78|0.55|
82443061|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.23|1.59||||||Serotype 3: OPA GMT Ratio||1.59|1.23|
82443062|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1||||||Serotype 4: OPA GMT Ratio||1.10|0.85|
82638931|NCT02777554|164992971|EQUIVALENCE|Equivalent exposure of the QD formulation to the BID tablet was established if the 90% confidence intervals (CIs) of the geometric mean ratio for Day 7 AUC0-24 and Cmax were completely contained within the range of 80% to 125%.|Ratio (%) of Geometric Means|101.6|||||TWO_SIDED|90.0|95.1|108.5|||||Geometric mean ratio (Apremilast 75 mg XL QD / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To assess the exposure between the extended release apremilast formulation, and Reference IR (30 mg reference IR BID) tablet following multiple oral doses, an analysis of variance (ANOVA) model, with sequence, period, and treatment as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Day 7 Cmax.||108.5|95.1|
82443063|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.8|1.04||||||Serotype 5: OPA GMT Ratio||1.04|0.80|
82572611|NCT02818998|164855023|OTHER||Treatment Difference|1.72|||||TWO_SIDED|95.0|-4.1|7.54|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||7.54|-4.10|
82443064|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 6A: OPA GMT Ratio||0.89|0.65|
82572612|NCT02818998|164855023|OTHER||Treatment Difference|-0.68|||||TWO_SIDED|95.0|-2.0|0.65|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||0.65|-2.00|
82443065|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.69|0.95||||||Serotype 6B: OPA GMT Ratio||0.95|0.69|
82523440|NCT01422408|164742368|OTHER|||||||0.6023||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.6023
82443066|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.95||||||Serotype 7F: OPA GMT Ratio||0.95|0.70|
82443067|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 9V: OPA GMT Ratio||0.94|0.71|
82443068|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.97|1.38||||||Serotype 14: OPA GMT Ratio||1.38|0.97|
82638932|NCT02777554|164992972|EQUIVALENCE|Equivalent exposure of the QD formulation to the BID tablet was established if the 90% CIs of the geometric mean ratio for Day 7 AUC0-24 and Cmax were completely contained within the range of 80% to 125%.|Ratio (%) of Geometric Means|95.3|||||TWO_SIDED|90.0|88.9|102.2|||||Geometric mean ratio (Apremilast 75 mg XL QD / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To assess the exposure between the extended release apremilast formulation, and Reference IR (30 mg reference IR BID) tablet following multiple oral doses, an ANOVA model, with sequence, period, and treatment as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Day 7 AUC0-24.||102.2|88.9|
82572613|NCT02818998|164855024|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|-0.3|||<|0.0001|TWO_SIDED|95.0|-2.13|1.52|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||1.52|-2.13|<0.0001
82385552|NCT04015518|164482578|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0707||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0707
82521776|NCT01212770|164738317|SUPERIORITY||Adjusted Difference|22.5|||<|0.0001|TWO_SIDED|95.0|12.4|32.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||32.6|12.4|< 0.0001
82521777|NCT01212770|164738317|SUPERIORITY||Adjusted Difference|11.0||||0.0309|TWO_SIDED|95.0|1.2|20.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||20.9|1.2|0.0309
82638933|NCT02777554|164992973|OTHER||Ratio (%) of Geometric Means|103.9|||||TWO_SIDED|90.0|93.6|115.4|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||115.4|93.6|
82385553|NCT04015518|164482578|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0578||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0578
82443069|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.11||||||Serotype 18C: OPA GMT Ratio||1.11|0.90|
82385554|NCT04015518|164482578|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0771||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0771
82385555|NCT04015518|164482579|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.202|||||TWO_SIDED|95.0|-0.005|0.427|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.427|-0.005|
82385556|NCT04015518|164482579|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.17|||||TWO_SIDED|95.0|-0.032|0.401|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.401|-0.032|
82443070|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.68|||||TWO_SIDED|95.0|0.61|0.77||||||Serotype 19A: OPA GMT Ratio||0.77|0.61|
82443071|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.04||||||Serotype 19F: OPA GMT Ratio||1.04|0.84|
82521778|NCT01212770|164738318|SUPERIORITY||Adjusted Difference|3.8||||0.5731|TWO_SIDED|95.0|-9.1|16.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||16.7|-9.1|0.5731
82385557|NCT04015518|164482579|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.248|||||TWO_SIDED|95.0|0.032|0.471|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.471|0.032|
82385558|NCT04015518|164482579|OTHER|Logistic regression with fixed classification effects included treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.|Risk Difference (RD)|0.202|||||TWO_SIDED|95.0|0.024|0.367|||||Confidence intervals were calculated using the cumulative distribution function method of Reeve. Difference was calculated as Speso - placebo.|||0.367|0.024|
82385559|NCT04015518|164482579|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0158||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0158
82443072|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.63|||||TWO_SIDED|95.0|0.53|0.74||||||Serotype 23F: OPA GMT Ratio||0.74|0.53|
82443073|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|560.46|||||TWO_SIDED|95.0|474.05|662.63||||||Serotype 22F: OPA GMT Ratio||662.63|474.05|
82443074|NCT04384107|164594698|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|196.14|||||TWO_SIDED|95.0|141.85|271.21||||||Serotype 33F: OPA GMT Ratio||271.21|141.85|
82521779|NCT01212770|164738318|SUPERIORITY||Adjusted Difference|1.0||||0.8876|TWO_SIDED|95.0|-12.6|14.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||14.6|-12.6|0.8876
82521780|NCT01212770|164738319|SUPERIORITY||Adjusted Difference|12.2||||0.1172|TWO_SIDED|95.0|-2.5|26.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||26.9|-2.5|0.1172
82521781|NCT01212770|164738319|SUPERIORITY||Adjusted Difference|7.2||||0.3695|TWO_SIDED|95.0|-8.2|22.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||22.6|-8.2|0.3695
82521782|NCT01212770|164738320|SUPERIORITY||Adjusted Difference|22.5|||<|0.0001|TWO_SIDED|95.0|13.0|32.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||32.1|13.0|< 0.0001
82521783|NCT01212770|164738320|SUPERIORITY||Adjusted Difference|11.7||||0.0123|TWO_SIDED|95.0|2.7|20.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||20.7|2.7|0.0123
82385560|NCT04015518|164482579|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.012||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|"Assumed 70% of the maximum effect was achieved at the low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0120
82443075|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.53|||||TWO_SIDED|95.0|0.38|0.75||||||Serotype 1: OPA GMT Ratio||0.75|0.38|
82443076|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.28|2.03||||||Serotype 3: OPA GMT Ratio||2.03|1.28|
82443077|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.93||||||Serotype 4: OPA GMT Ratio||0.93|0.57|
82443078|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.13||||||Serotype 5: OPA GMT Ratio||1.13|0.66|
82443079|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.91||||||Serotype 6A: OPA GMT Ratio||0.91|0.57|
82443080|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.66|||||TWO_SIDED|95.0|0.52|0.83||||||Serotype 6B: OPA GMT Ratio||0.83|0.52|
82443081|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.68|1.07||||||Serotype 7F: OPA GMT Ratio||1.07|0.68|
82385561|NCT04015518|164482579|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0429||||||Adjusted for multiplicity.|MCP-Mod Exponential model fit|"Assumed 25% of the maximum effect was achieved at the medium-low dose regimen."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0429
82443082|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.65|||||TWO_SIDED|95.0|0.5|0.84||||||Serotype 9V: OPA GMT Ratio||0.84|0.50|
82443083|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.48|||||TWO_SIDED|95.0|1.16|1.9||||||Serotype 14: OPA GMT Ratio||1.90|1.16|
82521784|NCT01212770|164738321|SUPERIORITY||Adjusted Difference|6.8||||0.052|TWO_SIDED|95.0|0.0|13.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||13.5|0.0|0.0520
82385562|NCT04015518|164482579|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.0229||||||Adjusted for multiplicity.|MCP-Mod Logistic model fit|"Assumed 20% of maximum effect was achieved at the low dose, 95% of maximum effect was achieved at medium high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0229
82385563|NCT04015518|164482579|OTHER|Logistic regression estimates were used as input for the MCP-Mod, with fixed classification effects including treatment and region (Japan vs. Non-Japan). In case 0 event are observed a penalized regression based on the Firth's bias reduction method was used. The estimates from the logistic regression are on the logit scale, the difference in proportions were calculated as the difference between the predicted probabilities in the treatment groups on the original scale.||||||0.03||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|"Assumed 10% of the maximum effect was achieved at low dose, 80% of the maximum effect was achieved at the medium-high dose."||A flat vs. non-flat dose-response relationship across the 4 doses of Spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, Emax, exponential, logistic, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0300
82385564|NCT04015518|164482580|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-18.7|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-37.2|-0.2|||||Difference was calculated as Speso - placebo.|||-0.2|-37.2|
82385565|NCT04015518|164482580|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-19.3|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|95.0|-38.3|-0.2|||||Difference was calculated as Speso - placebo.|||-0.2|-38.3|
82443084|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.95|1.48||||||Serotype 18C: OPA GMT Ratio||1.48|0.95|
82443085|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.6|1.01||||||Serotype 19A: OPA GMT Ratio||1.01|0.60|
82443086|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|1.23|||||TWO_SIDED|95.0|1.0|1.52||||||Serotype 19F: OPA GMT Ratio||1.52|1.00|
82521785|NCT01212770|164738321|SUPERIORITY||Adjusted Difference|4.2||||0.2052|TWO_SIDED|95.0|-2.2|10.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||10.6|-2.2|0.2052
82385566|NCT04015518|164482580|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-26.6|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-45.5|-7.8|||||Difference was calculated as Speso - placebo.|||-7.8|-45.5|
82521786|NCT01212770|164738322|SUPERIORITY||Adjusted Difference|1.2||||0.5154|TWO_SIDED|95.0|-2.4|4.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||4.8|-2.4|0.5154
82521787|NCT01212770|164738322|SUPERIORITY||Adjusted Difference|2.3||||0.2527|TWO_SIDED|95.0|-1.5|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.2|-1.5|0.2527
82572614|NCT02818998|164855024|NON_INFERIORITY|Non-inferiority margin: 4 letters|Least Squares mean difference|1.39|||<|0.0001|TWO_SIDED|95.0|-0.4|3.19|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||3.19|-0.40|<0.0001
82572615|NCT02818998|164855025|OTHER||Least Square mean difference|16.14||||0.0416|TWO_SIDED|95.0|0.62|31.66|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||31.66|0.62|0.0416
82572616|NCT02818998|164855025|OTHER||Least Square mean difference|4.12||||0.5524|TWO_SIDED|95.0|-9.52|17.77|||ANCOVA|||Aflibercept 2 mg fixed was regarded as the reference arm||17.77|-9.52|0.5524
82385567|NCT04015518|164482580|OTHER|MMRM included 'baseline' as a continuous covariate, and 'visit', 'treatment', 'region' (stratification according to Japan vs. non-Japan), 'visit\*treatment' and 'visit\*baseline' interaction as fixed effects as well as the random 'subject' effect. Covariance structure= Unstructured.|Difference of adjusted means|-5.4|STANDARD_ERROR_OF_MEAN|7.9|||TWO_SIDED|95.0|-21.1|10.2|||||Difference was calculated as Speso - placebo.|||10.2|-21.1|
82443087|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|0.37|||||TWO_SIDED|95.0|0.28|0.49||||||Serotype 23F: OPA GMT Ratio||0.49|0.28|
82443088|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|155.88|||||TWO_SIDED|95.0|101.84|238.59||||||Serotype 22F: OPA GMT Ratio||238.59|101.84|
82443089|NCT04384107|164594699|OTHER|Based on a linear model with natural log-transformed OPA titers as response variable, and vaccination group and age category as factors.|GMT Ratio|16.81|||||TWO_SIDED|95.0|11.74|24.08||||||Serotype 33F: OPA GMT Ratio||24.08|11.74|
82443090|NCT00316524|164594709|NON_INFERIORITY|The non-inferiority margin to show that Group 4 (vaccinia experienced subjects receiving a single vaccination) is non-inferior to Group 1 (vaccinia naive subjects receiving 2 vaccinations) in terms of seroconversion rate 2 weeks after the last vaccination was predefined as -5% for the difference in seroconversion rates|Difference in seroconversion rates (%)|-3.4|||||ONE_SIDED|97.5|-7.36||||||||||-7.36|
82443091|NCT05714943|164594720|SUPERIORITY|||||||0.99|||||||Regression, Linear|||||||.99
82443092|NCT05714943|164594721|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
82443093|NCT05714943|164594722|SUPERIORITY|||||||0.09|||||||Regression, Linear|||||||.09
82572617|NCT02818998|164855026|OTHER||Treatment Difference|0.67|||||TWO_SIDED|95.0|-2.72|4.05|||Cochran-Mantel-Haenszel|||≥ 15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||4.05|-2.72|
82443094|NCT05714943|164594723|SUPERIORITY|||||||0.57|||||||Regression, Linear|||||||.57
82443095|NCT05714943|164594724|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||.32
82443096|NCT05714943|164594725|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
82443097|NCT05714943|164594726|SUPERIORITY|||||||0.97|||||||Regression, Linear|||||||.97
82443098|NCT05714943|164594727|SUPERIORITY|||||||0.21|||||||Regression, Linear|||||||.21
82443099|NCT05714943|164594728|SUPERIORITY|||||||0.27|||||||Regression, Linear|||||||.27
82443100|NCT05714943|164594729|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
82443101|NCT05714943|164594730|SUPERIORITY|||||||0.86|||||||Regression, Linear|||||||.86
82443102|NCT05714943|164594731|SUPERIORITY|||||||0.61|||||||Regression, Linear|||||||.61
82638934|NCT02777554|164992973|OTHER||Ratio (%) of Geometric Means|90.9|||||TWO_SIDED|90.0|81.6|101.3|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||101.3|81.6|
82572618|NCT02818998|164855026|OTHER||Treatment Difference|4.63|||||TWO_SIDED|95.0|-1.73|10.98|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||10.98|-1.73|
82638935|NCT02777554|164992973|OTHER||Ratio (%) of Geometric Means|115.0|||||TWO_SIDED|90.0|103.3|128.1|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||128.1|103.3|
82638936|NCT02777554|164992973|OTHER||Ratio (%) of Geometric Means|126.5|||||TWO_SIDED|90.0|113.7|140.8|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||140.8|113.7|
82638937|NCT02777554|164992974|OTHER||Ratio (%) of Geometric Means|92.9|||||TWO_SIDED|90.0|81.3|106.2|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||106.2|81.3|
82638938|NCT02777554|164992974|OTHER||Ratio (%) of Geometric Means|86.0|||||TWO_SIDED|90.0|74.9|98.7|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||98.7|74.9|
82638939|NCT02777554|164992974|OTHER||Ratio (%) of Geometric Means|97.3|||||TWO_SIDED|90.0|84.9|111.6|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||111.6|84.9|
82638940|NCT02777554|164992974|OTHER||Ratio (%) of Geometric Means|113.2|||||TWO_SIDED|90.0|98.8|129.7|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||129.7|98.8|
82638941|NCT02777554|164992975|OTHER||Ratio (%) of Geometric Means|92.6|||||TWO_SIDED|90.0|81.1|105.9|||||Geometric mean ratio (Apremilast 75 mg XL / Apremilast 30 mg IR BID) from an ANOVA model, expressed as a percentage.|To estimate the exposure of apremilast following single dose administration of extended release (QD) relative to the Reference IR (BID) tablet under fasted conditions, an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||105.9|81.1|
82385568|NCT00550745|164482581|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.26||||||95.0|0.91|1.73|||||Relative risk (ZOSTAVAX™/placebo) of proportion of subjects reporting ≥ 1 serious AE through 42 Days postvaccination and 95% Confidence Interval were based on Miettinen and Nurminen \[Comparative analysis of two rates. Stat Med 1985;4:213-26\] method.|||1.73|0.91|
82638942|NCT02777554|164992975|OTHER||Ratio (%) of Geometric Means|86.1|||||TWO_SIDED|90.0|75.0|98.8|||||Geometric mean ratio (Apremilast 75 mg XL (Fasted) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||98.8|75.0|
82638943|NCT02777554|164992975|OTHER||Ratio (%) of Geometric Means|97.5|||||TWO_SIDED|90.0|85.0|111.8|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Standard Meal)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||111.8|85.0|
82521788|NCT01212770|164738323|SUPERIORITY||Adjusted Difference|8.3||||0.018|TWO_SIDED|95.0|1.6|15.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||15.1|1.6|0.0180
82572619|NCT02818998|164855026|OTHER||Treatment Difference|0.66|||||TWO_SIDED|95.0|-1.56|2.87|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||2.87|-1.56|
82443103|NCT05714943|164594732|SUPERIORITY|||||||0.02|||||||Regression, Linear|||||||.02
82443104|NCT05714943|164594733|SUPERIORITY|||||||0.08|||||||Regression, Linear|||||||.08
82385569|NCT00550745|164482582|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||||95.0|0.98|1.32|||||Relative risk (ZOSTAVAX™/placebo) of proportion of subjects reporting ≥ 1 serious AE through 6 months postvaccination and 95% Confidence Interval were based on Miettinen and Nurminen \[Comparative analysis of two rates. Stat Med 1985;4:213-26\] method.|||1.32|0.98|
82521789|NCT01212770|164738323|SUPERIORITY||Adjusted Difference|5.8||||0.0807|TWO_SIDED|95.0|-0.6|12.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||12.3|-0.6|0.0807
82385570|NCT00764660|164482584|SUPERIORITY_OR_OTHER||Difference in LS Means|2.4||||0.41|TWO_SIDED|95.0|-3.4|8.2|||Repeated Measures Model||Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.|||8.2|-3.4|0.41
82385571|NCT00764660|164482585|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-1.9||||0.3|TWO_SIDED|95.0|-5.5|1.7|||Repeated Measures Model||Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.|||1.7|-5.5|0.30
82385572|NCT00764660|164482586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.52|TWO_SIDED|95.0|0.57|1.33|||Chi-squared|Zero Inflated Negative Binomial (ZINB) Distribution with terms for treatment and region||||1.33|0.57|0.52
82385573|NCT00764660|164482587|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.81|TWO_SIDED|95.0|0.71|1.31|||Chi-squared|ZINB Distribution with terms for treatment and region||||1.31|0.71|0.81
82385574|NCT00764660|164482588|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.26|TWO_SIDED|95.0|0.81|2.12||Model with factors treatment and pooled centers as stratum.|Kaplan-Meier|||||2.12|0.81|0.26
82385575|NCT00764660|164482589|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1||||0.59|TWO_SIDED|95.0|-9.9|5.7|||Repeated Measures Model|Repeated Measures Model with factors for treatment, pooled centers, assessment and assessment by treatment interaction.||||5.7|-9.9|0.59
82572620|NCT02818998|164855026|OTHER||Treatment Difference|1.9|||||TWO_SIDED|95.0|-1.89|5.69|||Cochran-Mantel-Haenszel|||≥15 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||5.69|-1.89|
82521790|NCT01212770|164738324|SUPERIORITY||Adjusted Difference|1.8||||0.423|TWO_SIDED|95.0|-2.6|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.2|-2.6|0.4230
82572621|NCT02818998|164855026|OTHER||Treatment Difference|7.54|||||TWO_SIDED|95.0|0.81|14.28|||Cochran-Mantel-Haenszel|||≥10 letter gain: Aflibercept 2 mg fixed was regarded as the reference arm||14.28|0.81|
82385576|NCT00764660|164482590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.34|TWO_SIDED|95.0|0.65|3.43|||Regression, Logistic|An Odds Ratio (SCH 900435/Placebo) \>1 means SCH 900435 has a higher probability of achieving complete abstinence.||||3.43|0.65|0.34
82385577|NCT00764660|164482593|SUPERIORITY_OR_OTHER||Difference in LS Means|2.88||||0.54|TWO_SIDED|95.0|-6.3|12.06|||Contrained Longitudinal Data Analysis||Constrained Longitudinal Data Analysis (cLDA) Model with terms for treatment, pooled centers, assessment by treatment interaction.|||12.06|-6.30|0.54
82385578|NCT00764660|164482594|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.1||||0.51|TWO_SIDED|95.0|-12.35|6.15|||cLDA Model||cLDA Model with terms for treatment, pooled centers, assessment by treatment interaction.|||6.15|-12.35|0.51
82385579|NCT00764660|164482595|SUPERIORITY_OR_OTHER||Difference in LS Means|-9.17||||0.05|TWO_SIDED|95.0|-18.27|-0.07|||cLDA Model||cLDA Model with terms for treatment, pooled centers, assessment by treatment interaction.|||-0.07|-18.27|0.05
82385580|NCT04818034|164482598|OTHER|paired t-test|paired t-test|0.965|STANDARD_DEVIATION|37.0||0.965|ONE_SIDED|96.0|||||paired t-test|||||||0.965
82385581|NCT00734162|164482599|SUPERIORITY_OR_OTHER||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant.|Cochran-Mantel-Haenszel|||Analysis is the difference between treatment groups in the proportion of participants who met the outcome measure criterion, controlling for randomization age group.||||< 0.001
82385582|NCT00300885|164482636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.915||95.0|0.94|1.41||According to protocol specified O'Brien-Fleming type alpha spending function and 384 deaths at interim analysis (IA), one-sided alpha value for IA was 0.0046.|Log Rank||Two treatment groups compared using one-sided log-rank test (Sorafenib+C/P over Placebo+C/P) with overall alpha of 0.025 stratified by same stratification factors as randomization|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 30% improvement in median OS (i.e. HR of 0.76923, Sorafenib+C/P over Placebo+C/P -Null: theta\>=1, Alternative: theta\<=0.76923). With overall one-sided alpha of 0.025, 90% power and randomization of 1:1, one formal interim analysis and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of 614 events (deaths) were required.||1.41|0.94|0.915
82385583|NCT00300885|164482637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.433||95.0|0.84|1.16|||Log Rank|||Two treatment groups compared using one-sided log-rank test (Sorafenib+C/P over Placebo+C/P) with alpha of 0.025 stratified by same stratification factors at randomization||1.16|0.84|0.433
82521791|NCT01212770|164738324|SUPERIORITY||Adjusted Difference|0.6||||0.787|TWO_SIDED|95.0|-3.5|4.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||4.6|-3.5|0.7870
82521792|NCT01212770|164738325|SUPERIORITY||Adjusted Difference|-4.1||||0.4707|TWO_SIDED|95.0|-14.8|6.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||6.5|-14.8|0.4707
82521793|NCT01212770|164738325|SUPERIORITY||Adjusted Difference|-5.4||||0.3547|TWO_SIDED|95.0|-16.6|5.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||5.7|-16.6|0.3547
82572622|NCT02818998|164855026|OTHER||Treatment Difference|0.63|||||TWO_SIDED|95.0|-1.61|2.88|||Cochran-Mantel-Haenszel|||≥30 letter loss: Aflibercept 2 mg fixed was regarded as the reference arm||2.88|-1.61|
82443105|NCT05714943|164594734|SUPERIORITY|||||||0.08|||||||Regression, Linear|||||||.08
82443106|NCT05714943|164594735|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||.06
82443107|NCT05714943|164594736|SUPERIORITY|||||||0|||||||Regression, Linear|||||||.00
82385584|NCT00300885|164482638|SUPERIORITY_OR_OTHER||difference in response rate (CR+PR rate)|-3.65||||0.1015||95.0|-9.18|1.89||no adjustments|Cochran-Mantel-Haenszel||difference in response rates (Complete Response (CR) + Partial Response (PR)) = Placebo+C/P - Sorafenib+C/P|Objective response rate (ie. CR+PR rate) was compared between treatment arms using Cochran-Mantel-Haenszel test with one-side alpha 0.025 adjusting for same stratification factors as randomization||1.89|-9.18|0.1015
82443108|NCT05714943|164594737|SUPERIORITY|||||||0.88|||||||Regression, Linear|||||||.88
82443109|NCT05714943|164594738|SUPERIORITY|||||||0.94|||||||Regression, Linear|||||||.94
82443110|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|-0.1||||0.4321|TWO_SIDED|95.0|-0.35|0.15|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference was First named treatment-second named treatment that a negative difference implied the mean of the second named treatment was larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.15|-0.35|0.4321
82443111|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|-0.48||||0.0002|TWO_SIDED|95.0|-0.73|-0.23|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.23|-0.73|0.0002
82521794|NCT01212770|164738326|SUPERIORITY||Adjusted Difference|6.6||||0.4175|TWO_SIDED|95.0|-8.6|21.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.8|-8.6|0.4175
82638944|NCT02777554|164992975|OTHER||Ratio (%) of Geometric Means|113.2|||||TWO_SIDED|90.0|98.8|129.7|||||Geometric mean ratio (Apremilast 75 mg XL (High Fat) / Apremilast 75 mg XL (Fasted)) from an ANOVA model, expressed as a percentage.|To estimate the effect of food on the PK of a single oral dose of extended release apremilast (QD), an ANOVA model with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||129.7|98.8|
82638945|NCT00066573|164992977|SUPERIORITY|To detect a hazard ratio (HR) of 0.80 between exemestane and anastrozole (ie, an improvement in 5-year EFS from 87.5% to 89.9%, with a two-sided 5% level test and 80% power, 6,840 patients and 630 events were needed for final analysis.|Hazard Ratio (HR)|1.02||||0.85|TWO_SIDED|95.0|0.87|1.18|||Log Rank|||||1.18|0.87|0.85
82443112|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|-0.49||||0.0002|TWO_SIDED|95.0|-0.74|-0.24|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.24|-0.74|0.0002
82443113|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|0.38||||0.0028|TWO_SIDED|95.0|0.13|0.63|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.63|0.13|0.0028
82443114|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|0.39||||0.0022|TWO_SIDED|95.0|0.14|0.63|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline waas the same for both treatments in all pairwise comparisons||0.63|0.14|0.0022
82443115|NCT01831817|164594751|SUPERIORITY_OR_OTHER||Mean change difference|-0.01||||0.9606|TWO_SIDED|95.0|-0.25|0.24|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.24|-0.25|0.9606
82443116|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|0.04||||0.803|TWO_SIDED|95.0|-0.3|0.38|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.38|-0.30|0.8030
82443117|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.48|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.48|-1.16|<0.0001
82443118|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.53|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is First named treatment - second named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||-0.53|-1.20|<0.0001
82638946|NCT00066573|164992978|SUPERIORITY|No power calculation for secondary analysis|Hazard Ratio (HR)|0.93||||0.46|TWO_SIDED|95.0|0.77|1.13|||Log Rank|||||1.13|0.77|0.46
82638947|NCT01966458|164993009|NON_INFERIORITY|A non-inferiority margin of 6% was pre-specified.|Risk Difference (RD)|2.6||||0.1444|TWO_SIDED|90.0|-5.5|10.7|||Farrington-Manning asymptotic test||Difference = HeartWare® VAS incidence rate - Control incidence rate Two-sided 90% exact binomial confident interval is used.|The primary endpoint is a non-inferiority test comparing HeartWare® VAS to Control.||10.7|-5.5|0.1444
82443119|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|0.86|||<|0.0001|TWO_SIDED|95.0|0.53|1.19|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||1.19|0.53|<0.0001
82443120|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.23|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the second named treatment is larger than that of the first named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||1.23|0.58|<0.0001
82443121|NCT01831817|164594752|SUPERIORITY_OR_OTHER||Mean change difference|-0.04||||0.7872|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA||Treatment as fixed factor and baseline Schiff score as covariate. Difference is Second named treatment - first named treatment that a negative difference implies the mean of the first named treatment is larger than that of the second named treatment|Principal null hypothesis to be tested was- H0: The change from baseline was the same for both treatments in all pairwise comparisons||0.28|-0.37|0.7872
82521795|NCT01212770|164738326|SUPERIORITY||Adjusted Difference|6.4||||0.437|TWO_SIDED|95.0|-9.1|21.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||21.8|-9.1|0.4370
82521796|NCT01212770|164738327|SUPERIORITY||Adjusted Difference|-0.4||||0.9463|TWO_SIDED|195.0|-12.1|11.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||11.3|-12.1|0.9463
82521797|NCT01212770|164738327|SUPERIORITY||Adjusted Difference|-7.7||||0.2032|TWO_SIDED|95.0|-19.3|3.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||3.8|-19.3|0.2032
82638948|NCT01966458|164993010|SUPERIORITY||Percent of Participants|19.2||||0.7363|TWO_SIDED|90.0|15.6|23.3|||Exact Binomial Test||Two-sided exact binomial confidence interval used|The first secondary endpoint is the percent of participants with stroke/TIA at 12 months on the originally implanted device. It will be compared to 17.7%, which is the lower bound of a pre-defined margin of superiority based on the Endurance clinical trial.||23.3|15.6|0.7363
82385585|NCT02582242|164482645|OTHER||Treatment difference at week 24|-0.09||||0.2601|TWO_SIDED|95.0|-0.23|0.06|||Mixed model for repeated measurements||Treatment difference at week 24: BIAsp 30 (TID) - BIAsp 30 (BID). Number of subjects contributed to the statistical analysis: N=217 for BIAsp 30 (TID) and N=213 for BIAsp 30 (BID).|The analysis was based on a mixed-effect model for repeated measures including changes from baseline in HbA1c at visit 6, 10, 14, 18, 22 and 26 (in week 4, 8, 12, 16, 20 and 24, respectively). The model included treatment, strata and region as fixed factors, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.06|-0.23|0.2601
82385586|NCT02453334|164482668|OTHER||Odds Ratio (OR)|0.51||||0.0143|TWO_SIDED|95.0|0.3|0.87|||Cochran-Mantel-Haenszel|||||0.87|0.30|0.0143
82385587|NCT02453334|164482668|OTHER||Percentage difference|-15.6|||||TWO_SIDED|95.0|-28.01|-3.1||||||||-3.10|-28.01|
82385588|NCT02453334|164482670|OTHER||Odds Ratio (OR)|2.04||||0.0097|TWO_SIDED|95.0|1.19|3.5|||Cochran-Mantel-Haenszel|||||3.50|1.19|0.0097
82385589|NCT02453334|164482670|OTHER||Percentage difference|16.4|||||TWO_SIDED|95.0|4.19|28.51||||||Percentage difference||28.51|4.19|
82385590|NCT02453334|164482671|OTHER||Percentage difference|-2.7|||||TWO_SIDED|95.0|-12.85|7.45||||||||7.45|-12.85|
82443122|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.9642|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.9642
82572623|NCT04593823|164855035|SUPERIORITY||Win Ratio|1.11|||||TWO_SIDED|95.0|0.48|2.5|||||A win ratio parameter signifies the percentage of wins that a treatment group has achieved when compared against a comparator.|||2.50|0.48|
82385591|NCT02453334|164482671|OTHER||Odds Ratio (OR)|0.83||||0.5758|TWO_SIDED|95.0|0.43|1.6|||Cochran-Mantel-Haenszel|||Placebo group was used as the denominator for odds ratio calculation.||1.60|0.43|0.5758
82385592|NCT02453334|164482672|OTHER||Odds Ratio (OR)|1.4||||0.2772|TWO_SIDED|95.0|0.76|2.56||Placebo group was used as the denominator for odds ratio calculation|Cochran-Mantel-Haenszel|||||2.56|0.76|0.2772
82385593|NCT02453334|164482672|OTHER||Percentage difference|5.7|||||TWO_SIDED|95.0|-5.01|16.43||||||||16.43|-5.01|
82385594|NCT02453334|164482673|OTHER|||||||0.0011|||||||Log Rank|P-value was estimated using logrank test stratified by country||||||0.0011
82385595|NCT02453334|164482674|OTHER||Percentage difference|0.7|||||TWO_SIDED|95.0|-7.6|9.08||||||||9.08|-7.60|
82385596|NCT02453334|164482674|OTHER||Odds Ratio (OR)|1.05||||0.8924|TWO_SIDED|95.0|0.49|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.49|0.8924
82385597|NCT02453334|164482675|OTHER||Percentage difference|-9.8|||||TWO_SIDED|95.0|-20.41|0.77||||||||0.77|-20.41|
82385598|NCT02453334|164482675|OTHER||Odds Ratio (OR)|0.55||||0.074|TWO_SIDED|95.0|0.28|1.06|||Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation.||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country. Placebo group was used as the denominator for odds ratio calculation.||1.06|0.28|0.0740
82385599|NCT02453334|164482676|OTHER||Percentage difference|-12.1|||||TWO_SIDED|95.0|-23.31|-0.91||||||||-0.91|-23.31|
82443123|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.0016|TWO_SIDED|95.0|0.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|0.00|0.0016
82443124|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.01|TWO_SIDED|95.0|0.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|0.00|0.0100
82385600|NCT02453334|164482676|OTHER||Odds Ratio (OR)|0.51||||0.0446|TWO_SIDED|95.0|0.26|0.99||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation||||0.99|0.26|0.0446
82385601|NCT02453334|164482677|OTHER||Percentage difference|-19.8|||||TWO_SIDED|95.0|-30.9|-8.69||||||||-8.69|-30.90|
82385602|NCT02453334|164482677|OTHER||Odds Ratio (OR)|0.3||||0.001|TWO_SIDED|95.0|0.14|0.63||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel|Placebo group was used as the denominator for odds ratio calculation.||||0.63|0.14|0.0010
82385603|NCT02453334|164482678|OTHER||Percentage difference|-21.4|||||TWO_SIDED|95.0|-33.22|-9.51||||||||-9.51|-33.22|
82385604|NCT02453334|164482678|OTHER||Odds Ratio (OR)|0.29||||0.0009|TWO_SIDED|95.0|0.13|0.61||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||0.61|0.13|0.0009
82385605|NCT02453334|164482679|OTHER||Percentage difference|-16.0|||||TWO_SIDED|95.0|-27.73|-4.26||||||||-4.26|-27.73|
82385606|NCT02453334|164482679|OTHER||Odds Ratio (OR)|0.34||||0.0093|TWO_SIDED|95.0|0.14|0.79||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||0.79|0.14|0.0093
82385607|NCT02453334|164482680|OTHER||Percentage difference|-4.4|||||TWO_SIDED|95.0|-15.37|6.57||||||||6.57|-15.37|
82385608|NCT02453334|164482680|OTHER||Odds Ratio (OR)|0.7||||0.4786|TWO_SIDED|95.0|0.26|1.89||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||1.89|0.26|0.4786
82385609|NCT02453334|164482681|OTHER||Percentage difference|-7.4|||||TWO_SIDED|95.0|-19.25|4.55||||||||4.55|-19.25|
82385610|NCT02453334|164482681|OTHER||Odds Ratio (OR)|0.54||||0.2084|TWO_SIDED|95.0|0.2|1.43||The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Cochran-Mantel-Haenszel||Placebo group was used as the denominator for odds ratio calculation.|||1.43|0.20|0.2084
82385611|NCT02453334|164482682|OTHER||Percentage difference|3.1|||||TWO_SIDED|95.0|-9.33|15.54||||||||15.54|-9.33|
82385612|NCT02453334|164482682|OTHER||Odds Ratio (OR)|1.25||||0.6508|TWO_SIDED|95.0|0.48|3.24|||Cochran-Mantel-Haenszel|The odds ratio (95% \[CI) and P-value of treatment effect is based on Cochran-Mantel-Haenszel (CMH) chi-squared test adjusting for country.|Placebo group was used as the denominator for odds ratio calculation.|||3.24|0.48|0.6508
82385613|NCT02453334|164482684|OTHER|||||||0.0063||||||P-value was estimated using logrank test stratified by pooled sites.|Log Rank|||||||0.0063
82385614|NCT01369030|164482731|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5|STANDARD_DEVIATION|6.3||0|||||||Wilcoxon signed-rank test|||||||0.000
82638949|NCT01966458|164993011|NON_INFERIORITY|The non-inferiority margin on the difference in success proportions is 15%.|Difference in Percentages|-9.2|||<|0.0001|TWO_SIDED|90.0|-17.2|-1.1|||Farrington-Manning asymptotic test||Difference = Control success rate - HeartWare® VAS success rate Two-sided 90% exact binomial confidence interval is used|||-1.1|-17.2|<0.0001
82385615|NCT00302848|164482766|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations for VTE risk showed that 50,000 patients should be sufficient to exclude a twofold risk.|Hazard Ratio (HR)|1.0|||<|0.05||95.0|0.6|1.8|||Regression, Cox|||Null hypothesis: HR ≥ 2 (VTE of DRSP vs. LNG)||1.8|0.6|<0.05
82385616|NCT02573181|164482844|OTHER|Difference in percentage with AEs|Difference|4.2|||||TWO_SIDED|95.0|-7.4|15.8|||||Difference and 95% CI calculated based on Miettinen \& Nurminen method.|||15.8|-7.4|
82385617|NCT02573181|164482846|OTHER|Difference in % with fatigue|Fatigue difference|-0.9|||||TWO_SIDED|95.0|-10.7|8.8|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||8.8|-10.7|
82385618|NCT02573181|164482846|OTHER|Difference in % with arthralgia|Arthralgia difference|-3.2|||||TWO_SIDED|95.0|-10.2|3.4|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||3.4|-10.2|
82385619|NCT02573181|164482846|OTHER|Difference in % with myalgia|Myalgia difference|4.6|||||TWO_SIDED|95.0|-3.9|13.3|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||13.3|-3.9|
82385620|NCT02573181|164482846|OTHER|Difference in % with headache|Headache difference|-2.5|||||TWO_SIDED|95.0|-11.4|6.4|||||Difference and 95% CI calculated based on the Miettinen \& Nurminen method.|||6.4|-11.4|
82385621|NCT03412734|164482853|OTHER||Odds Ratio (OR)|10.6|||<|0.001|TWO_SIDED|95.0|3.02|37.34||p-value is adjusted for baseline BV (Bacterial Vaginosis)|Regression, Logistic|||We hypothesized that chlorhexidine would have a lower bacterial count compared to iodine. Our sample size was calculated to be 71 patients per arm to detect a 22% difference in cultures defined as contaminated at 90 minutes from surgical preparation.||37.34|3.02|<0.001
82385622|NCT00885664|164482860|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
82385623|NCT00885664|164482861|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82385624|NCT00885664|164482862|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82385625|NCT00885664|164482863|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
82385626|NCT00885664|164482864|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
82385627|NCT00885664|164482865|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82521798|NCT01212770|164738328|SUPERIORITY||Adjusted Difference|9.8||||0.2321|TWO_SIDED|95.0|-5.8|25.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.4|-5.8|0.2321
82521799|NCT01212770|164738328|SUPERIORITY||Adjusted Difference|9.6||||0.252|TWO_SIDED|95.0|-6.2|25.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use involvement of \>= 3% BSA with psoriasis at baseline.|Adjusted difference is the weighted average of the treatment differences across 4 strata of baseline DMARD use by ≥ 3% BSA psoriasis involvement at baseline with the CMH weights. The 95% CI is based on a normal approximation to the weighted average.|||25.3|-6.2|0.2520
82521800|NCT05725317|164738352|NON_INFERIORITY|Noninferiority in distance visual acuity was declared if the upper confidence limit was less than 0.05.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens-by-visit interaction and sequence) and random (subject) effects. Difference = LID220365 minus LID006961. Sign is retained with the rounded value.|||0.00||
82521801|NCT00829387|164738359|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.39||||0.47|TWO_SIDED|95.0|-1.47|0.69|||Linear mixed model|||||0.69|-1.47|0.47
82521802|NCT00829387|164738360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.4|TWO_SIDED|95.0|-1.15|0.47|||linear mixed model|||baseline to 36 weeks post-baseline||0.47|-1.15|0.40
82521803|NCT00829387|164738361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.31|TWO_SIDED|95.0|-7.02|2.32|||Linear mixed model|||baseline to 12 weeks post-baseline||2.32|-7.02|0.31
82521804|NCT00829387|164738362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-1.03|1.06|||linear mixed model|||baseline to 12 weeks comparison||1.06|-1.03|0.98
82521805|NCT00829387|164738363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.03|TWO_SIDED|95.0|-1.76|-0.07|||linear mixed model|||baseline to 36 weeks post-baseline||-0.07|-1.76|0.03
82521806|NCT00829387|164738364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.16||||0.15|TWO_SIDED|95.0|-9.86|1.55|||linear mixed model|||baseline to 36 weeks post-baseline||1.55|-9.86|0.15
82521807|NCT00707031|164738390|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 95% confidence interval of the difference between lixisenatide and exenatide on mITT population was \<=0.4%.|Least squares (LS) mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|95.0|0.033|0.297||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), BMI (\<30, \>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate.||||To detect that upper confidence limit of 2-sided 95% confidence interval for least square (LS) mean difference between the 2 arms do not exceed 0.4% HbA1c, 300 patients per group would provide 96% power assuming a standard deviation of 1.3 and true difference in HbA1c between the 2 arms as 0.||0.297|0.033|
82521808|NCT00541450|164738426|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.002
82638950|NCT01966458|164993011|SUPERIORITY|||||||0.0354|||||||Chi-squared|||||||0.0354
82385628|NCT00885664|164482866|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82385629|NCT00885664|164482867|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82385630|NCT00885664|164482868|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82385631|NCT00885664|164482869|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82385632|NCT00885664|164482870|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82521809|NCT00541450|164738427|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.001
82521810|NCT00541450|164738428|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.16||||||95.0|-0.37|0.05|||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||0.05|-0.37|
82521811|NCT00541450|164738430|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANCOVA|For Least Squares Mean, the ANCOVA model included a term for treatment and the baseline value as a covariate.||||||0.030
82521812|NCT02459574|164738447|SUPERIORITY||Hazard Ratio (HR)|0.156|||<|0.0001|TWO_SIDED|95.0|0.097|0.25||Bonferonni corrected alpha of 0.05/2 = 0.025|Log Rank||95% Wald Confidence Limits Point estimate relates to AVATAR-AF in relation to Anti-Arrhythmic Therapy|Primary Analysis - AVATAR-AF vs Anti-Arrhythmic Therapy||0.250|0.097|<0.0001
82521813|NCT02459574|164738447|SUPERIORITY||Hazard Ratio (HR)|1.173||||0.6061|TWO_SIDED|95.0|0.639|2.154||Bonferonni corrected alpha 0.05/2 = 0.025|Log Rank||95% Wald Confidence Limits Point estimate relates to AVATAR-AF in relation to Conventional Ablation|Secondary analysis of Primary Outcome measure - AVATAR-AF vs Conventional Ablation||2.154|0.639|0.6061
82572624|NCT04593823|164855036|SUPERIORITY||Mean Difference (Final Values)|2.9|||>|0.999|TWO_SIDED|95.0|-17.0|15.9|||Chi-squared|||||15.9|-17.0|>0.999
82638951|NCT01458535|164993012|SUPERIORITY_OR_OTHER|||||||0.157|||||||Cochran-Mantel-Haenszel|||||||0.157
82638952|NCT01458535|164993012|SUPERIORITY_OR_OTHER|||||||0.999|||||||Cochran-Mantel-Haenszel|||||||0.999
82385633|NCT00921557|164482878|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of percent change from baseline to week 24||||<0.001
82385634|NCT00921557|164482878|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||Comparison of percent change from baseline to week 48||||<0.001
82385635|NCT00921557|164482879|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||||||Not adjusted for multiple comparisons|Fisher Exact|||Comparison of percentage of participants experiencing primary safety outcome||||>0.99
82385636|NCT00942890|164482939|SUPERIORITY_OR_OTHER||Slope|0.9|STANDARD_ERROR_OF_MEAN|0.24|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82385637|NCT00942890|164482945|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Linear|||||||<0.05
82385638|NCT00911612|164482947|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Not adjusted since only one comparison was made.|ANCOVA|||An analysis of covariance was used to compare drug with placebo adjusting for baseline geometric center at 24 hours , BMI, and 7 alpha CHO.||||0.22
82385639|NCT00911612|164482948|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||An analysis of covariance was used to compare drug with placebo adjusting for BMI and 7 alpha HCO.||||0.02
82385640|NCT01814696|164482977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.605||||||a prior threshold p\<0.05|Fisher Exact|||||||0.605
82385641|NCT01814696|164482978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.604|TWO_SIDED||||||Fisher Exact|||Heart failure related ED visits||||0.604
82385642|NCT01814696|164482978|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||Non-heart failure related ED visits||||1.000
82385643|NCT01814696|164482978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677|TWO_SIDED||||||Fisher Exact|||All cause ED visits||||0.677
82385644|NCT01814696|164482979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.341|TWO_SIDED||||||Fisher Exact|||||||0.341
82385645|NCT01814696|164482979|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042|TWO_SIDED||||||Fisher Exact|||||||0.042
82385646|NCT01814696|164482980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.497|TWO_SIDED||||||Wilcoxon rank-sum test|||All cause||||0.497
82443125|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.002|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|0.00|0.0020
82443126|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.0122|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|0.00|0.0122
82521814|NCT00251745|164738451|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82638953|NCT01458535|164993012|SUPERIORITY_OR_OTHER|||||||0.045|||||||Cochran-Mantel-Haenszel|||||||0.045
82638954|NCT01342445|164993097|SUPERIORITY_OR_OTHER_LEGACY||Partial eta squared|0.34|||<|0.001||||||we adjusted p values to control for the false discovery rate using procedures described by Benjamini and Hochberg (1995). Thus, an alpha value of .021 was used as significance threshold.|ANOVA|"F(4, 84) = 10.9~This was a one-way ANOVA with repeated measures across dosage conditions (no drug baseline, placebo, 30-mg, 50-mg, 70-mg LDX)."||This was a within-subject crossover design with all participants going through a no-drug baseline followed by placebo and three dosages of LDX, with the latter four conditions in a randomly assigned, counterbalanced order. The comparison condition was the placebo condition.||||<0.001
82385647|NCT01814696|164482980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|TWO_SIDED||||||Wilcoxon rank-sum test|||Heart failure related||||0.413
82572625|NCT04593823|164855037|SUPERIORITY||Median Difference (Final Values)|-8.8||||0.459|TWO_SIDED|95.0|-36.4|13.6|||Chi-squared|||||13.6|-36.4|0.459
82385648|NCT01814696|164482980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.944|TWO_SIDED||||||Wilcoxon rank-sum test|||Non-heart failure ED visits||||0.944
82385649|NCT01814696|164482981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|TWO_SIDED||||||Wilcoxon rank-sum test|||All cause||||0.057
82385650|NCT01814696|164482981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|TWO_SIDED||||||Wilcoxon rank-sum test|||Heart failure related||||0.236
82385651|NCT01814696|164482981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|TWO_SIDED||||||Wilcoxon rank-sum test|||Non heart failure related||||0.236
82385652|NCT01814696|164482982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Wilcoxon rank-sum test|||All cause||||0.034
82385653|NCT01814696|164482982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196|||||||Wilcoxon rank-sum test|||Heart failure related||||0.196
82385654|NCT01814696|164482982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|TWO_SIDED||||||Wilcoxon rank-sum test|||Non heart failure related||||0.210
82385655|NCT01814696|164482983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
82385656|NCT01322490|164482986|SUPERIORITY|One-sided p-value is from a stratified log-rank test for PROSTVAC-V/F-TRICOM + GM-CSF placebo vs. Placebo Control with Treatment Arm included in model. Stratification is by randomization strata.||||||0.4742||||||The overall type-one error probability for the entire trial was designed as a one-sided P=0.025. There were two main overall comparisons, which necessitated a type-one error probability to 0.0125 for each comparison using a Bonferroni correction.|Log Rank|The primary analysis method was a stratified log-rank test, and was performed using the ITT Set analyzing data according to the randomized arm.||||||0.4742
82385657|NCT01322490|164482986|SUPERIORITY|One-sided p-value is from a stratified log-rank test for PROSTVAC-V/F-TRICOM + GM-CSF vs. Placebo Control with Treatment Arm included in model. Stratification is by randomization strata.||||||0.5885||||||The overall type-one error probability for the entire trial was designed as a one-sided P=0.025. There were two main overall comparisons, which necessitated a type-one error probability to 0.0125 for each comparison using a Bonferroni correction.|Log Rank|The primary analysis method was a stratified log-rank test, and was performed using the ITT Set analyzing data according to the randomized arm.||||||0.5885
82385658|NCT01322490|164482987|SUPERIORITY|Odds Ratio and Wald 95% CI estimates are for odds of alive without event for PROSTVAC-V/F-TRICOM + GM-CSF placebo vs. Placebo Control and are from a logistic regression model with Treatment Arm included in model stratified by randomization strata.|Odds Ratio (OR)|0.9588|||||TWO_SIDED|95.0|0.7144|1.2867|||||The Alive Without Event endpoint was analyzed using stratified logistic regression. The 95% CI on the odds ratio estimate was computed as the measure of the magnitude of effect.|||1.2867|0.7144|
82385659|NCT01322490|164482987|SUPERIORITY|Odds Ratio and Wald 95% CI estimates are for odds of alive without event for PROSTVAC-V/F-TRICOM + GM-CSF vs. Placebo Control and are from a logistic regression model with Treatment Arm included in model stratified by randomization strata.|Odds Ratio (OR)|0.8941|||||TWO_SIDED|95.0|0.6647|1.2026|||||The Alive Without Event endpoint was analyzed using stratified logistic regression. The 95% CI on the odds ratio estimate was computed as the measure of the magnitude of effect.|||1.2026|0.6647|
82385660|NCT04922255|164483005|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82385661|NCT04922255|164483006|SUPERIORITY|||||||0.5|||||||Kruskal-Wallis|||||||0.50
82385662|NCT04922255|164483007|SUPERIORITY|||||||0.3|||||||ANOVA|||||||0.30
82385663|NCT04922255|164483008|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.70
82385664|NCT04922255|164483009|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82443127|NCT01831817|164594753|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.7138|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.7138
82443128|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.9834|TWO_SIDED|95.0|-5.0|5.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||5.00|-5.00|0.9834
82443129|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|5.0||||0.0001|TWO_SIDED|95.0|0.0|15.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||15.00|0.00|0.0001
82443130|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|2.5||||0.0003|TWO_SIDED|95.0|0.0|15.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||15.00|0.00|0.0003
82385665|NCT00460811|164483048|SUPERIORITY_OR_OTHER|||||||0.0002|||||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0002
82385666|NCT00460811|164483048|SUPERIORITY_OR_OTHER|||||||0.0036||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0036
82385667|NCT00460811|164483048|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||<0.0001
82385668|NCT00460811|164483048|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||For each of the 4 active linaclotide groups, the null hypothesis was that there was no difference between placebo and the dose group in the change from baseline in the weekly normalized CSBM Rate. An observed cases (OC) approach to missing post-baseline data was applied: any missing data were not imputed.||||0.0008
82385669|NCT02099110|164483080|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.46|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||Constrained longitudinal data analysis (cLDA) model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.30|-0.63|<0.001
82385670|NCT02099110|164483080|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.43|||<|0.001|TWO_SIDED|95.0|-0.6|-0.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.27|-0.60|<0.001
82385671|NCT02099110|164483080|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.44|||<|0.001|TWO_SIDED|95.0|-0.61|-0.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.27|-0.61|<0.001
82385672|NCT02099110|164483080|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.30|-0.63|<0.001
82385673|NCT02099110|164483081|SUPERIORITY_OR_OTHER||Difference in % vs Ertugliflozin 5 mg|-3.2|||||TWO_SIDED|95.0|-11.7|5.5|||||Based on Miettinen \& Nurminen method.|||5.5|-11.7|
82385674|NCT02099110|164483081|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 15 mg|-1.9|||||TWO_SIDED|95.0|-10.6|6.8|||||Based on Miettinen \& Nurminen method.|||6.8|-10.6|
82385675|NCT02099110|164483081|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|1.4|||||TWO_SIDED|95.0|-7.4|10.1|||||Based on Miettinen \& Nurminen method.|||10.1|-7.4|
82385676|NCT02099110|164483081|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|-1.8|||||TWO_SIDED|95.0|-10.5|7.0|||||Based on Miettinen \& Nurminen method.|||7.0|-10.5|
82385677|NCT02099110|164483082|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 5 mg|0.1|||||TWO_SIDED|95.0|-3.3|3.6|||||Based on Miettinen \& Nurminen method.|||3.6|-3.3|
82385678|NCT02099110|164483082|SUPERIORITY_OR_OTHER||Difference in % vs. Ertugliflozin 15 mg|0.5|||||TWO_SIDED|95.0|-3.0|4.0|||||Based on Miettinen \& Nurminen method.|||4.0|-3.0|
82385679|NCT02099110|164483082|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|0.5|||||TWO_SIDED|95.0|-2.9|3.9|||||Based on Miettinen \& Nurminen method.|||3.9|-2.9|
82385680|NCT02099110|164483082|SUPERIORITY_OR_OTHER||Difference in % vs. Sitagliptin 100 mg|0.9|||||TWO_SIDED|95.0|-2.5|4.4|||||Based on Miettinen \& Nurminen method.|||4.4|-2.5|
82385681|NCT02099110|164483083|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.85|||<|0.001|TWO_SIDED|95.0|-2.48|-1.22||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-1.22|-2.48|<0.001
82385682|NCT02099110|164483083|SUPERIORITY_OR_OTHER||Difference in the least squares means|-2.27|||<|0.001|TWO_SIDED|95.0|-2.9|-1.64||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained logitudinal data analysis|||||-1.64|-2.90|<0.001
82385683|NCT02099110|164483084|SUPERIORITY_OR_OTHER||Difference in the least squares means|-8.23||||0.004|TWO_SIDED|95.0|-13.82|-2.65||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-2.65|-13.82|0.004
82385684|NCT02099110|164483084|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.79|||<|0.001|TWO_SIDED|95.0|-17.35|-6.23||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-6.23|-17.35|<0.001
82385685|NCT02099110|164483084|SUPERIORITY_OR_OTHER||Difference in the least squares means|-18.4|||<|0.001|TWO_SIDED|95.0|-24.03|-12.77||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-12.77|-24.03|<0.001
82443131|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|-5.0|||<|0.0001|TWO_SIDED|95.0|-10.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|-10.00|<0.0001
82443132|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|-5.0||||0.0002|TWO_SIDED|95.0|-10.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the second named treatment|||0.00|-10.00|0.0002
82443133|NCT01831817|164594754|SUPERIORITY_OR_OTHER||Hodges-Lehmann shift|0.0||||0.2894|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehmann Wilcoxon non-parametric||Positive values favour the first named treatment|||0.00|0.00|0.2894
82443134|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|-0.24||||0.5555|TWO_SIDED|95.0|-1.03|0.56|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.56|-1.03|0.5555
82443135|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|-0.06||||0.8769|TWO_SIDED|95.0|-0.86|0.73|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.73|-0.86|0.8769
82572626|NCT04593823|164855039|SUPERIORITY||Least Squares Mean Difference|8.887||||0.547|TWO_SIDED|95.0|-20.01|37.784|||ANOVA|Repeated measures analysis||||37.784|-20.010|0.547
82385686|NCT02099110|164483084|SUPERIORITY_OR_OTHER||Difference in the least squares means|-23.14|||<|0.001|TWO_SIDED|95.0|-28.76|-17.53||cLDA model including fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|cLDA|||||-17.53|-28.76|<0.001
82385687|NCT02099110|164483085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14|||<|0.001|TWO_SIDED|95.0|2.68|6.4||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||6.40|2.68|<0.001
82385688|NCT02099110|164483085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53|||<|0.001|TWO_SIDED|95.0|1.68|3.83||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||3.83|1.68|<0.001
82385689|NCT02099110|164483085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.92|4.54||Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.|Regression, Logistic|||||4.54|1.92|<0.001
82385690|NCT02099110|164483085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56|||<|0.001|TWO_SIDED|95.0|1.69|3.89|||Regression, Logistic|Adjusted Odds Ratio using a logistic regression model fitted with fixed effects for treatment, covariates for baseline A1C and baseline eGFR.||||3.89|1.69|<0.001
82385691|NCT02099110|164483086|SUPERIORITY_OR_OTHER||Difference in the least squares means|7.61||||0.155|TWO_SIDED|95.0|-2.9|18.13||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||18.13|-2.90|0.155
82385692|NCT02099110|164483086|SUPERIORITY_OR_OTHER||Difference in the least squares means|-4.87||||0.369|TWO_SIDED|95.0|-15.54|5.8||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||5.80|-15.54|0.369
82385693|NCT02099110|164483086|SUPERIORITY_OR_OTHER||Difference in the least squares means|1.81||||0.734|TWO_SIDED|95.0|-8.66|12.27||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||12.27|-8.66|0.734
82385694|NCT02099110|164483086|SUPERIORITY_OR_OTHER||Difference in the least squares means|-9.59||||0.075|TWO_SIDED|95.0|-20.17|0.98||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Difference in the least squares means|||||0.98|-20.17|0.075
82385695|NCT02099110|164483087|SUPERIORITY_OR_OTHER||Difference in the least squares means|-2.76||||0.005|TWO_SIDED|95.0|-4.69|-0.83||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-0.83|-4.69|0.005
82385696|NCT02099110|164483087|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.01||||0.002|TWO_SIDED|95.0|-4.94|-1.09||cLDA model with fixed effects for treatment, time, baseline eGFR (continuous) and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||-1.09|-4.94|0.002
82385697|NCT01757184|164483095|SUPERIORITY|||||||0.0271|||||||Fisher Exact|Fisher's exact test at α=0.05.||A sample size of 50 randomized participants (approximately 25 participants per treatment group) provided 97% power to detect a statistically significant difference between sebelipase alfa and placebo, using Fisher's exact test at α=0.05.||||0.0271
82443136|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|-0.76||||0.0562|TWO_SIDED|95.0|-1.55|0.02|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.02|-1.55|0.0562
82443137|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|-0.18||||0.6562|TWO_SIDED|95.0|-0.95|0.6|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.60|-0.95|0.6562
82443138|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|0.53||||0.1788|TWO_SIDED|95.0|-0.24|1.3|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||1.30|-0.24|0.1788
82443139|NCT01831817|164594755|SUPERIORITY_OR_OTHER||Mean change difference|-0.7||||0.0734|TWO_SIDED|95.0|-1.47|0.07|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.07|-1.47|0.0734
82443140|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change difference|0.19||||0.6727|TWO_SIDED|95.0|-0.71|1.1|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||1.10|-0.71|0.6727
82443141|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change difference|-1.24||||0.0072|TWO_SIDED|95.0|-2.14|-0.34|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||-0.34|-2.14|0.0072
82572627|NCT04593823|164855040|SUPERIORITY|||||||0.336|||||||Wilcoxon (Mann-Whitney)|||||||0.336
82385698|NCT01757184|164483096|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82385699|NCT01757184|164483097|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82385700|NCT01757184|164483098|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||||||0.0003
82385701|NCT01757184|164483099|SUPERIORITY|||||||0.0375|||||||Wilcoxon (Mann-Whitney)|||||||0.0375
82385702|NCT01757184|164483100|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82385703|NCT01757184|164483101|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82385704|NCT01757184|164483102|SUPERIORITY|||||||0.4216|||||||Fisher Exact|||||||0.4216
82385705|NCT01757184|164483103|SUPERIORITY|||||||0.0068|||||||Wilcoxon (Mann-Whitney)|||||||0.0068
82385706|NCT03515811|164483106|OTHER||Percentage and confidence interval|10.6|||||TWO_SIDED|95.0|5.0|19.2|||||95% CI: 5.0%-19.2%|||19.2|5.0|
82385707|NCT03515811|164483106|OTHER||Percentage and confidence interval|0.0|||||TWO_SIDED|95.0|0.0|7.0|||||95% CI: 0.0%-7.0%|||7.0|0.0|
82385708|NCT03515811|164483107|OTHER||Percentage and confidence interval|6.6|||||TWO_SIDED|95.0|3.1|12.2|||||95% CI: 3.1%-12.2%|||12.2|3.1|
82385709|NCT02977572|164483118|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Based upon previous results, the investigators considered that the need for an intubation could be reduced by 15% \[19% in the CPAP group (control) vs. 4% in the NIV group (study)\]. The estimated sample size was 55 participants in each group (confidence interval \[1-α\] = 90% and power \[1-β\] = 85%).||||1.000
82385710|NCT01014169|164483150|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13|||||TWO_SIDED|95.0|0.95|1.34||||||||1.34|0.95|
82385711|NCT01014169|164483151|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.99|1.25||||||||1.25|0.99|
82385712|NCT01014169|164483152|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||||95.0|1.0|1.25||||||||1.25|1.00|
82385713|NCT03868930|164483207|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
82385714|NCT03868930|164483207|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
82385715|NCT03868930|164483207|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
82443142|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change difference|-1.27||||0.0056|TWO_SIDED|95.0|-2.16|-0.38|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||-0.38|-2.16|0.0056
82521815|NCT00251745|164738451|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82443143|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change diference|1.43||||0.0016|TWO_SIDED|95.0|0.56|2.31|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||2.31|0.56|0.0016
82443144|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change difference|1.46||||0.0011|TWO_SIDED|95.0|0.59|2.33|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||2.33|0.59|0.0011
82443145|NCT01831817|164594756|SUPERIORITY_OR_OTHER||Mean change difference|-0.03||||0.9413|TWO_SIDED|95.0|-0.9|0.84|||ANCOVA||Treatment as fixed factor. Baseline Schiff strata and VRS as covariates. Difference is 1st named treatment - 2nd named treatment that a negative difference implies the mean of the 2nd named treatment is larger than that of the 1st named treatment|||0.84|-0.90|0.9413
82521816|NCT00251745|164738451|SUPERIORITY_OR_OTHER|||||||0.15505||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.15505
82385716|NCT03868930|164483207|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on reintegration (measured by the Military to Civilian Questionnaire).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
82385717|NCT03868930|164483208|SUPERIORITY|||||||0.0044||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0044
82385718|NCT03868930|164483208|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||<.0001
82385719|NCT03868930|164483208|SUPERIORITY|||||||0.0162||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0162
82385720|NCT03868930|164483208|SUPERIORITY|||||||0.0009||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3).|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on readjustment (measured by the Post Deployment Readjustment Inventory).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups~Statistical analysis reported on the total score only."||||0.0009
82385721|NCT03868930|164483209|SUPERIORITY|||||||0.014||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0140
82385722|NCT03868930|164483209|SUPERIORITY|||||||0.1548||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.1548
82385723|NCT03868930|164483209|SUPERIORITY|||||||0.0302||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Post-Treatment (T2) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0302
82385724|NCT03868930|164483209|SUPERIORITY|||||||0.0158||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0158
82385725|NCT03868930|164483209|SUPERIORITY|||||||0.0034||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0034
82385726|NCT03868930|164483209|SUPERIORITY|||||||0.8776||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Post-Treatment (T2) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.8776
82385727|NCT03868930|164483209|SUPERIORITY|||||||0.0002||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0002
82385728|NCT03868930|164483209|SUPERIORITY|||||||0.0198||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0198
82385729|NCT03868930|164483209|SUPERIORITY|||||||0.0013||||||P-value indicates significance of T-test (α=0.05) for the STEP-Home group from Baseline (T1) to Follow-Up (T3) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.0013
82385730|NCT03868930|164483209|SUPERIORITY||||||<|0.0001||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy Group from Baseline (T1) to Follow-Up (T3) Trait Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||<.0001
82385731|NCT03868930|164483209|SUPERIORITY|||||||0.0345||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3) State Anger.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||.0345
82521817|NCT00251745|164738453|SUPERIORITY_OR_OTHER|||||||1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.00001
82638955|NCT01342445|164993098|SUPERIORITY_OR_OTHER_LEGACY||partial eta squared|0.28|||<|0.001||||||we adjusted p values to control for the false discovery rate using procedures described by Benjamini and Hochberg (1995). Thus, an alpha value of .021 was used as significance threshold.|ANOVA|"F(4, 84) = 8.14~This was a one-way ANOVA with repeated measures across dosage conditions (no drug baseline, placebo, 30-mg, 50-mg, 70-mg LDX)."||This was a within-subject crossover design with all participants going through a no-drug baseline followed by placebo and three dosages of LDX, with the latter four conditions in a randomly assigned, counterbalanced order. The comparison condition was the placebo condition.||||<.001
82385732|NCT03868930|164483209|SUPERIORITY|||||||0.5918||||||P-value indicates significance of T-test (α=0.05) for the Present Centered Group Therapy group from Baseline (T1) to Follow-Up (T3) Anger Expression Index.|t-test, 2 sided|||"Hypothesis 1: Participants randomized into the STEP-Home Intervention will show improvement on anger as measured by the State-Trait Anger Expression Inventory (STAXI).~Hypothesis 2: Treatment effects will be maintained at follow-up for both groups"||||0.5918
82385733|NCT01262287|164483228|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
82385734|NCT01262287|164483229|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
82385735|NCT01262287|164483229|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.9
82385736|NCT00638404|164483244|OTHER|correlation of anxiety, anticipated pain medication use and anticipated pain to 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|anxiety to evoked pain is 0.24 (P\<.001); anticipated pain to evoked pain is 0.33 (P\<.001); anticipated pain medication to evoked pain is 0.33(P\<.001).||||||<.001
82385737|NCT00638404|164483244|OTHER|correlation of anxiety to evoked pain at 24 hour|||||<|0.001|||||||Spearman Correlation|||||||<.001
82638956|NCT00933543|164993121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.43||||0.0703|TWO_SIDED|95.0|0.65|63.18||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||63.18|0.65|0.0703
82385738|NCT00638404|164483244|OTHER|correlation of anticipated pain medication 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|||||||<.001
82385739|NCT00638404|164483244|OTHER|correlation of anticipated pain to 24 hour evoked pain measured|||||<|0.001|||||||Spearman Correlation|||||||<.001
82385740|NCT00638404|164483245|OTHER||||||<|0.001|||||||Spearman Correlation|||preoperative questionnaire evaluating anticipated amount of pain medication potentially needed postoperatively; 0= none at all up to 100=as much as possible||||<.001
82385741|NCT00638404|164483246|OTHER||||||<|0.001|||||||Spearman Correlation|||||||<.001
82385742|NCT00638404|164483247|OTHER|Correlation of|||||<|0.001|||||||Spearman Correlation|||||||<.001
82385743|NCT02282631|164483271|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|"U=390.5 Z=-2.3 p=0.02~The mean and SD values are provided for descriptive purposes only."||||||0.02
82385744|NCT02282631|164483272|SUPERIORITY_OR_OTHER|||||||0.02||||||"U=665.5 Z=-2.3 p=0.02~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.02
82385745|NCT02282631|164483273|SUPERIORITY_OR_OTHER|||||||0.02||||||"U=596.5 Z=-2.4 p=0.02~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.02
82385746|NCT02282631|164483274|SUPERIORITY_OR_OTHER|||||||0.01||||||"U=955.0 Z=-2.5 p=0.01~The mean and SD values are provided for descriptive purposes only."|Wilcoxon (Mann-Whitney)|||||||0.01
82385747|NCT01515865|164483295|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8||||0.3145|TWO_SIDED|95.0|-37.6|9.8|||Fisher Exact|||||9.8|-37.6|0.3145
82385748|NCT02801617|164483313|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 2 mmHg analysis by protocol||||||0.861|||||||t-test, 2 sided|||||||0.861
82385749|NCT02801617|164483313|NON_INFERIORITY|it will be considered not inferior if they keep the TIOP with differences of no more than 2 mmHg||||||0.89|||||||t-test, 2 sided|||||||0.890
82385750|NCT02801617|164483314|NON_INFERIORITY|intention-to-treat analysis (ITT)||||||0.329|||||||Chi-squared|||||||0.329
82385751|NCT02801617|164483315|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.388|||||||Chi-squared, Corrected|||||||0.388
82385752|NCT02801617|164483316|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.125|||||||Chi-squared, Corrected|||||||0.125
82385753|NCT02801617|164483317|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.434|||||||Chi-squared, Corrected|||||||0.434
82385754|NCT02801617|164483318|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0|||||||Chi-squared, Corrected|||||||0
82443146|NCT03159104|164594759|SUPERIORITY||Median Difference (Final Values)|5.0||||0.0113|TWO_SIDED|95.0|1.0|9.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|The difference between final and initial total scholastic skill score was calculated for each participant. Wilcoxon test was used for comparison of these differences because data distribution differs from normal.||9|1|0.0113
82443147|NCT03159104|164594760|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0608|TWO_SIDED|95.0|0.0|5.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||5|0|0.0608
82443148|NCT03159104|164594761|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0824|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||0|0|0.0824
82443149|NCT03159104|164594762|SUPERIORITY||Median Difference (Final Values)|0.0||||0.2391|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator was used for the difference between median change of total scholastic skill score in each comparison group.|||1|0|0.2391
82385755|NCT02801617|164483319|NON_INFERIORITY|it will be considered not inferior if they keep the percentage of ocular burning with differences of no more than 20%||||||0.039|||||||Chi-squared|||||||0.039
82385756|NCT02110758|164483320|OTHER|||||||0.025|||||||Regression, Logistic|||To estimate exposure to the intervention on the Access composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.025
82385757|NCT02110758|164483320|OTHER|||||||0.69|||||||Regression, Logistic|||To estimate exposure to the intervention on the Affective Communication composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||0.69
82443150|NCT03159104|164594763|SUPERIORITY|||||||0.0033|||||||Fisher Exact|||||||0.0033
82443151|NCT03159104|164594764|SUPERIORITY|||||||0.0012|||||||Wilcoxon (Mann-Whitney)|||||||0.0012
82443152|NCT00958217|164594765|SUPERIORITY_OR_OTHER||2nd order effects of time (2 slope|33.0|||<|0.05|TWO_SIDED|95.0||||P-values based on likelihood ratio tests for the significance of the first and second order trajectory parameters. Primary tests compared curvilinear trajectories of the two treatment groups.|Linear Mixed Effects Models||We gauged sampling error with 95% confidence bands.|Data analyses included comparison of mean scores and linear mixed effects models used to ascertain trajectories for depression symptoms.||||<.05
82443153|NCT00958217|164594766|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|57.0|||<|0.05|TWO_SIDED|95.0|||||Linear Mixed Effects Models||We gauged sampling error with 95% confidence bands.|||||<.05
82385758|NCT02110758|164483320|OTHER|||||||0.013|||||||Regression, Logistic|||To estimate exposure to the intervention on the Shared Decision-Making composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.013
82385759|NCT02110758|164483320|OTHER|||||||0.85|||||||Regression, Logistic|||To estimate exposure to the intervention on the Patient Self-Management composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||0.85
82385760|NCT02110758|164483320|OTHER|||||||0.013|||||||Regression, Logistic|||To estimate exposure to the intervention on the Exchanging Information composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.013
82521818|NCT00251745|164738453|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82521819|NCT00251745|164738453|SUPERIORITY_OR_OTHER|||||||0.3874||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.38740
82521820|NCT00636649|164738457|SUPERIORITY_OR_OTHER|||||||0.993|||||||ANCOVA|||CISS-TASK||||0.993
82521821|NCT00636649|164738457|SUPERIORITY_OR_OTHER|||||||0.185|||||||ANCOVA|||CISS-EMOT||||0.185
82521822|NCT00636649|164738457|SUPERIORITY_OR_OTHER|||||||0.196|||||||ANCOVA|||CISS-DIS||||0.196
82521823|NCT00636649|164738457|SUPERIORITY_OR_OTHER|||||||0.759|||||||ANCOVA|||CISS-AVD||||0.759
82521824|NCT00636649|164738457|SUPERIORITY_OR_OTHER|||||||0.396|||||||ANCOVA|||CISS-SOC||||0.396
82521825|NCT00636649|164738458|SUPERIORITY_OR_OTHER|||||||0.579|||||||ANCOVA|||||||0.579
82521826|NCT00636649|164738459|SUPERIORITY_OR_OTHER|||||||0.225|||||||ANCOVA|||TFEQ-RES||||0.225
82521827|NCT00636649|164738459|SUPERIORITY_OR_OTHER|||||||0.498|||||||ANCOVA|||TFEQ-DIS||||0.498
82521828|NCT00636649|164738459|SUPERIORITY_OR_OTHER|||||||0.724|||||||ANCOVA|||TFEQ-HUN||||0.724
82521829|NCT04508699|164738467|OTHER|||||||0.36|||||||t-test, 1 sided|||||||0.36
82521830|NCT04508699|164738468|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
82521831|NCT04508699|164738469|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
82521832|NCT04508699|164738470|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
82521833|NCT04508699|164738471|OTHER||||||<|0.05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|ANOVA|||||||<0.05
82521834|NCT04508699|164738472|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
82521835|NCT04508699|164738473|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
82521836|NCT04508699|164738474|OTHER||||||<|1e-05||||||reported p-value was calculated, is not indicating the threshold for statistical significance.|t-test, 1 sided|||||||<0.00001
82521837|NCT03355326|164738475|SUPERIORITY|||||||0.971|||||||Wilcoxon (Mann-Whitney)|||||||0.971
82521838|NCT03355326|164738476|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.900
82385761|NCT02110758|164483320|OTHER|||||||0.053|||||||Regression, Logistic|||To estimate exposure to the intervention on the Overall Rating of Treatment Team composite score, we used a difference-in-differences model with fixed effects for practices. The dependent variable was the composite score. The intervention effects were represented by the coefficient estimates for survey time period (pre or post) interacted with status (pilot or comparison).||||.053
82521839|NCT03355326|164738477|SUPERIORITY|||||||0.648|||||||Wilcoxon (Mann-Whitney)|||||||0.648
82521840|NCT03355326|164738478|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||||||0.967
82521841|NCT03355326|164738479|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82521842|NCT03355326|164738480|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82521843|NCT03355326|164738481|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82521844|NCT00876915|164738483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695||||0.4795|TWO_SIDED|95.0|0.235|1.89|||stratified Cox|||||1.890|0.235|0.4795
82521845|NCT00876915|164738484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.019||||0.0252|TWO_SIDED|95.0|1.236|131.632|||stratified Cox|||||131.632|1.236|0.0252
82385762|NCT02110758|164483322|OTHER|||||||0.2|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Hospitalizations, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Hospitalizations. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.2
82521846|NCT01111123|164738491|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||CI of 95%|Log Rank|||Probabilities of PGA not worsening were estimated using the Kaplan-Meier product limit method with a comparison between treatment group survival curves evaluated by the log-rank test statistic. The Cox proportional hazards model was used to estimate the hazard ratio for worsening of PGA (equivalent to a relative risk adjusted for follow-up time) and a corresponding 95-percent confidence interval.||||<0.05
82521847|NCT01111123|164738492|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Secondary outcomes, including subject self-assessment and signs of psoriasis ratings, were analyzed as continuous dependent variables in these statistical models. Mixed modeling analysis of covariance (ANCOVA) was used to compare the relationships between psoriasis symptoms over time in the placebo and steroid treatment groups||||<0.05
82521848|NCT04128293|164738513|OTHER||Ratio of Geometric Least Square Mean|0.877|||||TWO_SIDED|90.0|0.7585|1.0152|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of AUC(0-infinity).|||1.0152|0.7585|
82521849|NCT04128293|164738515|OTHER||Ratio of Geometric Least Square Mean|0.892|||||TWO_SIDED|90.0|0.7778|1.0239|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of AUC(0-t).|||1.0239|0.7778|
82521850|NCT04128293|164738517|OTHER||Ratio of Geometric Least Square Mean|0.946|||||TWO_SIDED|90.0|0.8594|1.0404|||||Relative bioavailability between treatment A and B assessed using analysis of variance with treatment, period, and sequence as fixed effects, participant as a random effect was performed on the natural log-transformed parameter of Cmax.|||1.0404|0.8594|
82521851|NCT04128293|164738520|OTHER||Median Difference (Final Values)|0.533||||0.4252|TWO_SIDED|90.0|-1.0|2.0||The p-value was assessed based on the Wilcoxon signed-rank test.|Wilcoxon signed-rank test||The median difference and the 90 percent (%) confidence interval of the median difference was estimated from Hodges-Lehmann estimate.|||2.0000|-1.0000|0.4252
82521852|NCT04128293|164738520|OTHER||Median Difference (Final Values)|1.0||||0.3125|TWO_SIDED|90.0|-0.75|5.25||The p-value was assessed based on the Wilcoxon rank sum test.|Wilcoxon rank sum test||The median difference and the 90% confidence interval of the median difference were estimated from Hodges-Lehmann estimate.|||5.2500|-0.7500|0.3125
82521853|NCT03014674|164738587|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% confidence interval (CI) for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for Cmax.|Ratio|1.04|||||TWO_SIDED|90.0|0.98|1.11|||||Ratio (autoinjector/lyophilized drug) for Cmax has been presented|||1.11|0.98|
82521854|NCT03014674|164738587|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for Cmax.|Ratio|1.06|||||TWO_SIDED|90.0|0.99|1.12|||||Ratio (safety syringe/lyophilized drug) for Cmax has been presented|||1.12|0.99|
82521855|NCT03014674|164738588|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-t)|Ratio|1.08|||||TWO_SIDED|90.0|1.01|1.15|||||Ratio (autoinjector/lyophilized drug) for AUC(0-t) has been presented|||1.15|1.01|
82521856|NCT03014674|164738588|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-t).|Ratio|1.04|||||TWO_SIDED|90.0|0.97|1.12|||||Ratio (safety syringe/lyophilized drug) for AUC(0-t) has been presented|||1.12|0.97|
82521857|NCT03014674|164738588|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-inf).|Ratio|1.07|||||TWO_SIDED|90.0|1.0|1.13|||||Ratio (autoinjector/lyophilized drug) for AUC(0-inf) has been presented|||1.13|1.00|
82521858|NCT03014674|164738588|EQUIVALENCE|Interpretation of the comparability of the autoinjector and safety syringe with the reconstituted lyophilized drug product was guided by a two-sided 90% CI for the ratio of the geometric mean of test treatment to reference treatment in the range (0.80, 1.25) for AUC (0-inf).|Ratio|1.02|||||TWO_SIDED|90.0|0.95|1.09|||||Ratio (safety syringe/lyophilized drug) for AUC(0-inf) has been presented|||1.09|0.95|
82521859|NCT00514943|164738613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||0.7606|TWO_SIDED|95.0|-11.188|8.202||P-value obtained from fitting an ANCOVA model including treatment, stratification factor prior chemotherapy for recurrent/metastatic disease and the baseline sum of longest distance of target lesions.|ANCOVA|Receipt of prior chemotherapy for recurrent/metastatic disease and the baseline sum of longest distance for target lesions are covariates|Mean difference calculated is actually the adjusted mean difference.|||8.202|-11.188|0.7606
82521860|NCT00514943|164738626|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.764|TWO_SIDED|95.0|0.64|1.387|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.387|0.640|0.764
82521861|NCT00514943|164738627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725||||0.219|TWO_SIDED|95.0|0.434|1.212|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.212|0.434|0.219
82521862|NCT00514943|164738628|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.067||||0.758|TWO_SIDED|95.0|0.708|1.608|||Regression, Cox||Hazard ratio, 95% CI and p-value are calculated from the Cox proportional hazards model stratified by the number of prior chemotherapies for R/M setting (0 or \>=1)|||1.608|0.708|0.758
82521863|NCT03382782|164738689|SUPERIORITY||Mean Difference (Net)|0.36||||0.025|TWO_SIDED||||||ANOVA|degrees of freedom = (3, 172)||||||.025
82521864|NCT03382782|164738690|SUPERIORITY||Mean Difference (Net)|0.243||||0.784|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.784
82521865|NCT03382782|164738690|SUPERIORITY||Mean Difference (Net)|0.058||||0.81|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.810
82521866|NCT03382782|164738691|SUPERIORITY||Mean Difference (Net)|1.77||||0.174|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.174
82521867|NCT03382782|164738691|SUPERIORITY||Mean Difference (Net)|1.15||||0.286|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.286
82521868|NCT03382782|164738692|SUPERIORITY||Mean Difference (Net)|1.36||||0.261|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.261
82521869|NCT03382782|164738692|SUPERIORITY||Mean Difference (Net)|0.012||||0.912|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.912
82521870|NCT03382782|164738694|SUPERIORITY||Mean Difference (Net)|1.74||||0.11|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 172||||||0.11
82521871|NCT03382782|164738695|SUPERIORITY||Mean Difference (Net)|1.18||||0.09|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 156||Mean systolic blood pressure||||0.09
82521872|NCT03382782|164738695|SUPERIORITY||Mean Difference (Net)|0.63||||0.05|TWO_SIDED||||||ANOVA|degrees of freedom = 3, 156||Mean diastolic blood pressure||||0.05
82521873|NCT03382782|164738697|SUPERIORITY|Intention-to-treat analyses. General Health subscale.|Mean Difference (Net)|2.14||||0.121|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||||||0.121
82521874|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|1.71||||0.193|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses. General Health subscale.||||0.193
82521875|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|0.181||||0.835|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses. Bodily Pain subscale.||||0.835
82521876|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|0.43||||0.513|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Bodily Pain subscale.||||0.513
82638957|NCT00933543|164993123|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.92||||0.2969|TWO_SIDED|95.0|-11.35|3.5||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model, including center and baseline lesion count as a covariates||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||3.50|-11.35|0.2969
82638958|NCT00933543|164993124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.8913|TWO_SIDED|95.0|-9.09|10.43||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model, including center and baseline lesion count as a covariates||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||10.43|-9.09|0.8913
82521877|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|2.37||||0.097|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses, Physical Functioning subscale.||||0.097
82521878|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|0.04||||0.184|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Physical Functioning subscale.||||0.184
82521879|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|1.06||||0.347|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intention-to-treat analyses. Emotional Well-Being subscale.||||0.347
82521880|NCT03382782|164738697|SUPERIORITY||Mean Difference (Net)|0.361||||0.549|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses, Emotional Well-Being subscale.||||0.549
82521881|NCT03382782|164738698|SUPERIORITY||Mean Difference (Net)|0.157||||0.855|TWO_SIDED||||||ANOVA|Degrees of freedom = 2,182||Intention-to-treat analyses||||.855
82521882|NCT03382782|164738698|SUPERIORITY||Mean Difference (Net)|0.011||||0.915|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.915
82521883|NCT03382782|164738700|SUPERIORITY||Mean Difference (Net)|0.68||||0.508|TWO_SIDED||||||ANOVA|degrees of freedom = 2, 182||Intent-to-treat analyses||||0.508
82521884|NCT03382782|164738700|SUPERIORITY||Mean Difference (Net)|1.67||||0.198|TWO_SIDED||||||ANOVA|degrees of freedom = 1, 118||As-treated analyses||||0.198
82521885|NCT03813238|164738711|SUPERIORITY||LS mean difference|-1.2||||0.335|TWO_SIDED|95.0|-3.49|1.19|||Mixed Models Analysis|||The LS mean of the change in MDCRS part II total score from baseline to Week 15 was compared (TEV-50717 arm versus placebo) using a 1-sided test for superiority at a nominal significance level of α=0.025.||1.19|-3.49|0.335
82638959|NCT04837807|164993154|SUPERIORITY||Mean Difference (Final Values)|22.4|STANDARD_DEVIATION|12.8|<|0.05|TWO_SIDED||||||ANOVA|This was a cross-over study, so there is really 30 subjects per group that was analyzed.||"Each participant in the study was asked to complete the IDEEL work at their baseline, week 1 and week 2 visits. The IDEEL work is graded on a scale to 100 with higher numbers being deemed as better scores thus representing more comfort than previous weeks."||||<0.05
82521886|NCT02080871|164738740|OTHER|This was a single-arm study designed to compare the primary outcome result to a performance goal based on published literature. The null hypothesis was the probability of a subject experiencing a Major Adverse Event (MAE) with use of study device is at least 17%. The alternate hypothesis was the probability of a subject experiencing a Major Adverse Event (MAE) with use of the study device is less than 17%.|||||<|0.001|||||||one-sided binomial exact test|||The sample size obtains over 90% power to statistically show the probability that a subject will experience an MAE with use of the study device is less than 17% when 12% or less of the subjects are lost to follow up prior to 9 months.||||<0.001
82521887|NCT00420199|164738827|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-0.5|||||TWO_SIDED|95.0|-1.77|0.76|||ANCOVA|||Comparison in the change from baseline of erosion score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||0.76|-1.77|
82521888|NCT00420199|164738828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.103||95.0|||||ANCOVA|||Comparison in change from baseline of wrist synovitis using OMERACT 6 rheumatoid arthritis magnetic resonance imaging score method between abatacept and placebo at Day 113 based on a nonparametric analysis of covariance model. Baseline and changes from baseline of the total wrist synovitis scores were ranked, and the model included the rank score for change from baseline as the dependent variable with treatment group as a main effect and the rank score for baseline as an additional covariate.||||0.103
82521889|NCT00420199|164738830|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-3.48|||||TWO_SIDED|95.0|-6.0|-0.96|||ANCOVA|||Comparison in the change from baseline of Edema/Osteitis score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||-0.96|-6.00|
82521890|NCT00420199|164738833|SUPERIORITY_OR_OTHER||Adjusted Mean Difference from Placebo|-4.71|||||TWO_SIDED|95.0|-8.0|-1.42|||ANCOVA|||Comparison in the change from baseline of RAMRIS score using the OMERACT 6 RA MRI score method between Abatacept and Placebo at Day 113 was based on a non-parametric analysis of covariance model (ANCOVA). Change from BL = Post-BL measurement-BL value. Adjustment was based on ANCOVA model with treatment as a factor and BL value a covariate.||-1.42|-8.00|
82572628|NCT02635386|164855085|SUPERIORITY||||||<|0.02|||||||ANOVA|nested repeated measure||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.02
82572629|NCT02635386|164855086|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82385763|NCT02110758|164483322|OTHER|||||||0.62|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Emergency Department (ED) Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month ED Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.62
82385764|NCT02110758|164483322|OTHER|||||||0.68|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Primary Care Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Primary Care Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.68
82572630|NCT02635386|164855087|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82521891|NCT00420199|164738847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69||||0.078||95.0|||||ANCOVA|||Comparison in change from baseline of wrist synovitis using OMERACT 6 rheumatoid arthritis magnetic resonance imaging (MRI) score method between ABA and PLA at Day 113 based on a parametric analysis of covariance model (ANCOVA). The model included the score change from baseline as the dependent variable, treatment group as a main effect and baseline score as an additional covariate.||||0.078
82521892|NCT02249819|164738859|EQUIVALENCE|Statistical analysis for mean change from baseline in naming accuracy in the anodal vs. sham tDCS conditions Null hypothesis is that there was no difference in mean change of naming accuracy between anodal and sham tDCS conditions. A significance level of 0.05 was used (two-sided).||||||0.694||||||The wilcoxon sign-ranked test was performed for this crossover design study in which subjects underwent measures across 2 study conditions (paired samples: mean change in anodal vs. sham condition). A significance level of 0.05 was used (two-sided).|wilcoxon sign-ranked test|Western Aphasia Battery used as a screening tool on admission only, to characterize level of severity. It was NOT an outcome measure.||||||0.694
82521893|NCT00558428|164738873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001||95.0|-4.9|-2.38|||ANCOVA|Adjusted for baseline and country effect||||-2.38|-4.90|<0.0001
82521894|NCT00558428|164738873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.92|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001||95.0|-6.18|-3.66|||ANCOVA|Adjusted for baseline and country effect||||-3.66|-6.18|<0.0001
82572631|NCT02635386|164855088|SUPERIORITY||||||<|0.0001|||||||ANOVA|one way with Bonferroni contrast||One way ANOVA with Bonferroni test to compare differences between groups if significant||||<0.0001
82385765|NCT02110758|164483322|OTHER|||||||0.03|||||||Regression, Logistic|||To estimate exposure to the intervention on Per Member Per Month Specialist Visits, we used a difference-in-differences model with fixed effects for practices. The dependent variable was Per Member Per Month Specialist Visits. The intervention effects were represented by the coefficient estimates for utilization time period (baseline or follow-up) interacted with status (pilot or comparison).||||0.03
82385766|NCT01605552|164483327|SUPERIORITY|||||||0.21|||||||ANCOVA||||Cohen's d = 0.61|||.21
82385767|NCT01605552|164483328|SUPERIORITY|||||||0.019|||||||ANCOVA||||Cohen's d = 1.33|||.019
82385768|NCT01605552|164483329|SUPERIORITY|||||||0.09|||||||ANCOVA||||Cohen's d = 0.78|||.09
82385769|NCT01605552|164483330|SUPERIORITY|||||||0.43|||||||ANCOVA||||Cohen's d = 0.43|||.43
82385770|NCT00648115|164483331|SUPERIORITY_OR_OTHER||Pearson chi square|7.3|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82385771|NCT04632069|164483336|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|0.4||0.009|TWO_SIDED||||||Regression, Linear|repeated measures linear regression: time periods: -14 to Day 0, Day 1-18(independent variable); daily po volumes (Dependent Variable)||Daily change in po feeding volumes expressed as po ml/kg/d \[reported as the mean daily change from Day 1 to 18 during NAC/NAC+taVNS minus baseline mean daily change Day -14 to day 0 (before treatment)\] Null hypothesis: there will be no significant difference in daily change in po feeding volume (ml/kg/d) from baseline to during treatment Power analysis: Estimated +0.2 ml/kg/d before taVNS, and +3ml/kg/d during the 18days of NAC+taVNS treatment, requiring 10 infants with power of 80%, a=0.05.||||0.009
82385772|NCT04632069|164483337|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|0.08||0.01|TWO_SIDED||||||t-test, 2 sided|paired t-test|mean difference between \[GSH\] Day 4 of NAC and \[GSH\] at baseline|\[GSH\] at baseline compared with \[GSH\] at day 4 of NAC- by paired t-test in which each participant's \[GSH\] is compared at 2 time points Null hypothesis: the \[GSH\] in the basal ganglia will be no different after Day 4 of NAC than \[GSH\] at baseline Power calculation:With 80% power, alpha of 0.05, we would need 7 patients to show a significant change in basal ganglia \[GSH\] of 0.14 +/- 0.13mM from baseline to Day 4 of NAC (paired t-test).||||0.01
82385773|NCT03660189|164483400|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
82385774|NCT03660189|164483400|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
82385775|NCT03660189|164483402|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82385776|NCT03660189|164483405|SUPERIORITY|||||||0.91|||||||Fisher Exact|||||||0.91
82385777|NCT03660189|164483406|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
82385778|NCT03660189|164483410|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82385779|NCT03660189|164483411|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82521895|NCT00558428|164738873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-2.66|-0.14|||ANCOVA|Adjusted for baseline and country effect||||-0.14|-2.66|
82521896|NCT00558428|164738873|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-3.93|-1.43|||ANCOVA|Adjusted for baseline and country effect||||-1.43|-3.93|
82521897|NCT05224050|164738893|OTHER|A paired-samples t-test was conducted to examine differences in the DASS-21 total score from baseline to 2-weeks post-quit.|Mean Difference (Final Values)|-2.04|STANDARD_DEVIATION|10.54||0.4|TWO_SIDED|95.0|-6.98|2.89||The threshold for statistical significance was p\<0.05|t-test, 2 sided||Mean difference represents the difference of the mean for the DASS-21 total scores at Baseline and at 2-weeks post-quit. The reported estimated value is based on data from the n=20 who attended their 2-weeks post-quit session|||2.89|-6.98|0.40
82638960|NCT04837807|164993156|SUPERIORITY|OSDI scores were obtained across all three visits, baseline, week 1 and week 2. Lower OSDI scores indicate better eye health.|Mean Difference (Final Values)|10.5|STANDARD_DEVIATION|7.3|<|0.05|TWO_SIDED||||||ANOVA|This was a cross-over study, so there is really 30 subjects per group that was analyzed.||||||<0.05
82638961|NCT00370994|164993214|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Comparisons were made between groups and within the group between baseline and different time points.|Repeated measures ANOVA.|||||||<0.001
82385780|NCT01342523|164483422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.825|TWO_SIDED|95.0|0.88|1.17||P-value is not adjusted for multiple comparisons.|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving CIS vs No CIS. We hypothesized that CIS would result in significantly higher abstinence rates compared to No CIS.||1.17|0.88|.825
82443154|NCT00958217|164594767|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|0.43|||<|0.05|TWO_SIDED|95.0|||||Linear Mixed Effects Model|A logit link was used in this model.|We gauged sampling error with 95% confidence bands.|Analysis of substance use was conducted using trajectories modeled as a dichotomous outcome using logit links to predict the probability of substance use (any alcohol or drug use) on a particular day.||||<.05
82638962|NCT00370994|164993215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||There were significant differences in Oswestry Disability Index between both groups|Repeated measures of ANOVA|||||||0.001
82638963|NCT04246593|164993216|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites. In order to further explore the intervention effect, we fit GLMMs that adjust for (1) baseline dietary intake and (2) race and baseline income.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.52||0.84|TWO_SIDED|||||P-value calculated for the mean difference between the user and non-user groups.|GLMM|||||||0.84
82638964|NCT04246593|164993217|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Median Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|1.15||0.61|TWO_SIDED|||||P-value calculated for the mean difference between change in BMI for intervention and control groups.|GLMM|||||||0.61
82521898|NCT05224050|164738893|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total scores from 2-weeks post-quit to 1-month post-quit.|Mean Difference (Final Values)|-2.43|STANDARD_DEVIATION|9.15||0.26|TWO_SIDED|95.0|-6.84|1.98||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at 2-weeks post-quit and 1-month post-quit. The reported estimated value is based on data from the n=19 participants who attended their 1-month post-quit session.|||1.98|-6.84|0.26
82521899|NCT05224050|164738893|OTHER|A paired-samples t-test was conducted to examine the difference in the DASS-21 total scores from 1-month post-quit to 3-month follow up.|Mean Difference (Final Values)|-2.75|STANDARD_DEVIATION|6.49||0.11|TWO_SIDED|95.0|-6.21|0.71||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the difference of mean DASS-21 total scores at 1-month post-quit and 3-month follow up. The reported estimated value is based on data from the n=16 participants who attended their 3-month follow up session.|||0.71|-6.21|0.11
82572632|NCT02635386|164855089|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82385781|NCT01342523|164483422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.028|TWO_SIDED|95.0|1.02|1.36||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving NRT vs No NRT. We hypothesized that NRT would result in significantly higher abstinence rates compared to No NRT.||1.36|1.02|.028
82385782|NCT01342523|164483422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.755|TWO_SIDED|95.0|0.85|1.13||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving Email Messaging vs No Email Messaging. We hypothesized that Email Messaging would result in significantly higher abstinence rates compared to No Email Messaging.||1.13|0.85|.755
82521900|NCT05224050|164738896|OTHER|A paired-samples t-test was conducted to compare changes in cigarettes smoked per day from Baseline to Quit Day.|Mean Difference (Final Values)|13.7|STANDARD_DEVIATION|8.63|<|0.001|TWO_SIDED|95.0|9.88|17.53||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from Baseline to Quit Date. The reported estimated value is based on data from the n=22 participants who attended their Quit Date session.|||17.53|9.88|<0.001
82521901|NCT05224050|164738896|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from Quit Date to 2-weeks Post-Quit.|Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|2.02||0.8|TWO_SIDED|95.0|-0.83|1.06||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from Quit Date to 2-weeks Post-Quit. The reported estimated value is based on data from the n=20 participants who attended their 2-weeks post-quit session.|||1.06|-0.83|0.80
82521902|NCT05224050|164738896|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from 2-weeks post-quit to 1=month post-quit.|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.97||0.97|TWO_SIDED|95.0|-1.41|1.45||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from 2-weeks post-quit to 1-month post-quit. The reported estimated value is based on data from the n=19 participants who attended their 1-month post-quit session.|||1.45|-1.41|0.97
82521903|NCT05224050|164738896|OTHER|A paired-samples t-test was used to evaluate smoking reduction in participants from 1-month post-quit to 3-month follow-up.|Mean Difference (Final Values)|-2.17|STANDARD_DEVIATION|3.75||0.04|TWO_SIDED|95.0|-4.17|-0.17||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean difference represents the average difference in cigarettes smoked per day from 1-month post-quit to 3-month follow-up. The reported estimated value is based on data from the n=16 participants who attended their 3-month follow-up session.|||-0.17|-4.17|0.04
82638965|NCT04246593|164993218|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-28.02|STANDARD_ERROR_OF_MEAN|43.31||0.53|TWO_SIDED|||||P-value calculated for the mean difference in change scores between the intervention and control groups.|GLMM|||||||0.53
82385783|NCT01342523|164483422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.057|TWO_SIDED|95.0|0.996|1.33||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving the Full SmokeFree.gov Website vs the Lite SmokeFree.gov Website . We hypothesized that the Full SmokeFree.gov Website would result in significantly higher abstinence rates compared to the LiteSmokeFree.gov Website .||1.33|0.996|.057
82521904|NCT02436330|164738897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0615||||0.0967|TWO_SIDED|95.0|-0.1344|0.0115||We checked the distribution of bmiz changes between baseline and 6 months, and there is one subject from control group had bigger changes than others. After excluding this subject, the results are still similar with previous.|t-test, 2 sided|||||0.0115|-0.1344|0.0967
82521905|NCT02436330|164738898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0775||||0.0335|TWO_SIDED|95.0|-0.1485|-0.00652|||t-test, 2 sided|||||-0.00652|-0.1485|0.0335
82521906|NCT02436330|164738899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.991|TWO_SIDED|95.0|-5.2|5.1|||t-test, 2 sided|||||5.1|-5.2|0.991
82521907|NCT02436330|164738900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.851|TWO_SIDED|95.0|-9.0|11.0|||t-test, 2 sided|||||11|-9|0.851
82521908|NCT02436330|164738901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.501|TWO_SIDED|95.0|-11.7|5.8|||t-test, 2 sided|||||5.8|-11.7|0.501
82521909|NCT02436330|164738902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2971||||0.035|TWO_SIDED|95.0|0.0224|0.5718|||t-test, 2 sided|||||0.5718|0.0224|0.035
82521910|NCT02436330|164738903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9464||||0.2207|TWO_SIDED|95.0|-2.4954|0.6025|||t-test, 2 sided|||||0.6025|-2.4954|0.2207
82521911|NCT02436330|164738904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0491||||0.4164|TWO_SIDED|95.0|-3.6407|1.5425|||t-test, 2 sided|||||1.5425|-3.6407|0.4164
82521912|NCT02436330|164738905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2433.7||||0.812|TWO_SIDED|95.0|-18579.7|23447.2|||t-test, 2 sided|||||23447.2|-18579.7|0.812
82521913|NCT02436330|164738906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2837||||0.3326|TWO_SIDED|95.0|-0.3037|0.8711|||t-test, 2 sided|||||0.8711|-0.3037|0.3326
82521914|NCT02436330|164738907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2995||||0.1856|TWO_SIDED|95.0|-0.2051|0.8041|||t-test, 2 sided|||||0.8041|-0.2051|0.1856
82521915|NCT02436330|164738908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-247.9||||0.0849|TWO_SIDED|95.0|-531.7|35.8686|||t-test, 2 sided|||||35.8686|-531.7|0.0849
82521916|NCT02436330|164738909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.2048||||0.176|TWO_SIDED|95.0|-10.3835|1.974|||t-test, 2 sided|||||1.9740|-10.3835|0.176
82521917|NCT02436330|164738910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.2151||||0.0247|TWO_SIDED|95.0|0.973|13.457|||t-test, 2 sided|||||13.457|0.973|0.0247
82521918|NCT02436330|164738911|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8169||||0.2764|TWO_SIDED|95.0|-2.4147|0.7808|||t-test, 2 sided|||||0.7808|-2.4147|0.2764
82521919|NCT02436330|164738912|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7958||||0.0008|TWO_SIDED|95.0|-1.235|-0.3566|||t-test, 2 sided|||||-0.3566|-1.2350|0.0008
82521920|NCT02436330|164738913|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7024||||0.6974|TWO_SIDED|95.0|-2.9377|4.3425|||t-test, 2 sided|||||4.3425|-2.9377|0.6974
82521921|NCT02436330|164738915|SUPERIORITY_OR_OTHER|||||||0.2122|TWO_SIDED||||||t-test, 2 sided|||||||0.2122
82521922|NCT02436330|164738916|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.61||||0.1265|TWO_SIDED|95.0|-1.15|8.33|||t-test, 2 sided|||||8.33|-1.15|0.1265
82521923|NCT02436330|164738917|SUPERIORITY_OR_OTHER|||||||0.3671|TWO_SIDED||||||t-test, 2 sided|||||||0.3671
82521924|NCT02436330|164738918|SUPERIORITY_OR_OTHER|||||||0.4892|TWO_SIDED||||||t-test, 2 sided|||||||0.4892
82521925|NCT00338884|164738919|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|35.3|||||TWO_SIDED|95.0|26.7|44.8|||||ORR=proportion of subjects with confirmed CR or PR, relative to total subjects who received at least 1 dose of study medication, had a baseline disease assessment, and had the correct histological cancer type.|||44.8|26.7|
82521926|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.5581|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5581
82521927|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.7635|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.7635
82521928|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.8366|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.8366
82385784|NCT01342523|164483422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.555||95.0|0.83|1.11||P-value is not adjusted for multiple comparisons|Regression, Logistic|The logistic regression model included all 5 treatment main effects and the 10 two-way interactions as well as gender, race, and age as covariates.||Null hypothesis: No difference in 3-month abstinence rates for participants receiving the Full Cessation Booklet vs the Brief Cessation Booklet We hypothesized that the Full Cessation Booklet would result in significantly higher abstinence rates compared to the Brief Cessation Booklet.||1.11|0.83|.555
82385785|NCT01303172|164483448|OTHER||Cox Proportional Hazard|0.54||||0.011|TWO_SIDED|95.0|0.33|0.87|||Log Rank|||The difference between the two treatment groups was tested with a two-sided log-rank test and a Cox regression model was used to estimate the hazard ratio (HR) and its 95% CI and associated p-value.||0.87|0.33|0.011
82385786|NCT00994461|164483451|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Cochran-Mantel-Haenszel (CMH) test stratified by H. pylori status was employed for the comparison of celecoxib and loxoprofen with placebo. The multiplicity of test was not adjusted because these comparisons were for the secondary objective.|Cochran-Mantel-Haenszel|CMH test stratified by H. pylori status was employed. Continuous correction was used.||Hypothesis testing was conducted with significant p-value level of under 0.05.||||<0.0001
82385787|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||A priori threshold p \< 0.05|Repeated Measures ANOVA|||||||<0.00005
82385788|NCT02811965|164483466|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
82385789|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385790|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385791|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385792|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385793|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385794|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385795|NCT02811965|164483466|SUPERIORITY|||||||0.01||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.01
82385796|NCT02811965|164483466|SUPERIORITY|||||||0.0002||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0002
82385797|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385798|NCT02811965|164483466|SUPERIORITY||||||<|5e-05|||||||t-test, 2 sided|||||||<0.00005
82385799|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385800|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385801|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385802|NCT02811965|164483466|SUPERIORITY|||||||0.24||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.24
82385803|NCT02811965|164483466|SUPERIORITY|||||||0.14||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.14
82385804|NCT02811965|164483466|SUPERIORITY|||||||0.0093||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0093
82385805|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385806|NCT02811965|164483466|SUPERIORITY|||||||0.14||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.14
82385807|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385808|NCT02811965|164483466|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385809|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||A priori threshold p\<0.05.|Repeated Measures ANOVA|||||||<0.00005
82385810|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385811|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385812|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385813|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385814|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385815|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385816|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385817|NCT02811965|164483467|SUPERIORITY|||||||0.0011||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.0011
82385818|NCT02811965|164483467|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
82385819|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82521929|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.0278
82521930|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.1988|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.1988
82521931|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.2898|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.2898
82385820|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385821|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385822|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385823|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385824|NCT02811965|164483467|SUPERIORITY|||||||0.53||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.53
82521932|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.3567|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.3567
82521933|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.4547|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.4547
82521934|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.2809|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.2809
82521935|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.3259|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.3259
82521936|NCT00338884|164738925|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2702
82521937|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.7154|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7154
82385825|NCT02811965|164483467|SUPERIORITY|||||||0.092||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.092
82385826|NCT02811965|164483467|SUPERIORITY|||||||0.0044|||||||t-test, 2 sided|||||||0.0044
82521938|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.6263|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6263
82385827|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385828|NCT02811965|164483467|SUPERIORITY|||||||0.084||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.084
82385829|NCT02811965|164483467|SUPERIORITY||||||<|5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||<0.00005
82385830|NCT02811965|164483467|SUPERIORITY|||||||5e-05||||||P-value adjusted with Holm-Bonferroni Correction for multiple comparison. A priori threshold p\<0.05.|t-test, 2 sided|||||||0.00005
82521939|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.9608|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9608
82521940|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0300
82385831|NCT03627546|164483476|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
82385832|NCT03627546|164483477|SUPERIORITY|||||||0.0007|||||||Chi-squared|||||||0.0007
82385833|NCT00615550|164483482|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55||||0.02|TWO_SIDED|95.0|0.33|0.92|||Cochran-Mantel-Haenszel|||||0.92|0.33|0.020
82385834|NCT00615550|164483483|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Cochran-Mantel-Haenszel|||Statistical analysis presented for composite score data.||||0.048
82385835|NCT00615550|164483483|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.39||||0.026|TWO_SIDED|95.0|0.17|0.92|||Cochran-Mantel-Haenszel|||Statistical analysis presented for RDS data.||0.92|0.17|0.026
82521941|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.0927|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0927
82385836|NCT00615550|164483484|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5||||0.036|TWO_SIDED|95.0|0.25|0.97|||Cochran-Mantel-Haenszel|||Statistical analysis presented for births \<=27 6/7 weeks data.||0.97|0.25|0.036
82385837|NCT00615550|164483484|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.016|TWO_SIDED|95.0|0.42|0.92|||Cochran-Mantel-Haenszel|||Statistical analysis presented for \<= 34 6/7 weeks data.||0.92|0.42|0.016
82385838|NCT00615550|164483484|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.16|||Cochran-Mantel-Haenszel|||Statistical analysis presented for \<36 weeks data.||1.16|0.68|0.376
82385839|NCT00615550|164483485|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57||||0.431|TWO_SIDED|95.0|0.14|2.35|||Cochran-Mantel-Haenszel|||||2.35|0.14|0.431
82385840|NCT00615550|164483486|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.47||||0.01|TWO_SIDED|95.0|0.26|0.85|||Cochran-Mantel-Haenszel|||Statistical analysis for birth weight \< 1500 grams data.||0.85|0.26|0.01
82521942|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.2873|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2873
82521943|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.3018|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3018
82385841|NCT00615550|164483486|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.213|TWO_SIDED|95.0|0.62|1.11|||Cochran-Mantel-Haenszel|||Statistical analysis for birth weight \< 2500 grams data.||1.11|0.62|0.213
82521944|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.4161|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4161
82385842|NCT01537042|164483487|SUPERIORITY_OR_OTHER||Treatment Ratio|0.44||||0.0232|TWO_SIDED|95.0|0.22|0.88|||ANCOVA|An analysis of covariance (ANCOVA) was performed for the log-transformed PLMI ratio with treatment and region as factors and Baseline as a covariate.||||0.88|0.22|0.0232
82521945|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.3069|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3069
82521946|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2920
82521947|NCT00338884|164738926|SUPERIORITY_OR_OTHER|||||||0.2409|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2409
82521948|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5784
82521949|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.6251|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.6251
82521950|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.1639|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.1639
82521951|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.2782|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.2782
82385843|NCT01779440|164483515|SUPERIORITY|||||||0.65||||||The P-Value of 0.65 was calculated from the difference between groups for the above outcome variable.|Chi-squared|||||||0.65
82521952|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.8627|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.8627
82385844|NCT01329380|164483543|OTHER|||||||0.0328|||||||Mann-Whitney U-test|||Age||||0.0328
82521953|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.4620
82638966|NCT04246593|164993219|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|1.65||0.75|TWO_SIDED|||||The p-value applies to the mean difference in mean self-efficacy change scores between the intervention and control groups.|GLMM|||||||0.75
82385845|NCT01329380|164483543|OTHER|||||||0.7128|||||||Fisher Exact|||Sex||||0.7128
82385846|NCT01329380|164483543|OTHER|||||||0.0465|||||||Mann-Whitney U-test|||Body mass index||||0.0465
82385847|NCT01329380|164483543|OTHER|||||||0.8872|||||||Mann-Whitney U-test|||Duration of illness||||0.8872
82385848|NCT01329380|164483543|OTHER|||||||0.0388|||||||Fisher Exact|||Smoking history||||0.0388
82385849|NCT01329380|164483543|OTHER|||||||0.4855|||||||Fisher Exact|||Complications||||0.4855
82521954|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.7575|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.7575
82521955|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.3566|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.3566
82521956|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.2809|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.2809
82521957|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.8758|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.8758
82385850|NCT01329380|164483543|OTHER|||||||0.663|||||||Fisher Exact|||Complications - Liver disorder||||0.6630
82385851|NCT01329380|164483543|OTHER|||||||0.2067|||||||Fisher Exact|||Complications - Renal disorder||||0.2067
82385852|NCT01329380|164483543|OTHER|||||||0.8749|||||||Fisher Exact|||Complications - Cardiovascular disorder||||0.8749
82385853|NCT01329380|164483543|OTHER|||||||0.482|||||||Fisher Exact|||Complications - Blood disorder||||0.4820
82521958|NCT00338884|164738928|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2702
82521959|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.7267|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7267
82521960|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.8555|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8555
82521961|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.2259|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2259
82521962|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.2074|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2074
82521963|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.4779|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4779
82385854|NCT01329380|164483543|OTHER|||||||0.6355|||||||Fisher Exact|||Complications - Respiratory disorder||||0.6355
82385855|NCT01329380|164483543|OTHER|||||||0.8193|||||||Fisher Exact|||Complications - Diabetes mellitus||||0.8193
82385856|NCT01329380|164483543|OTHER|||||||0.5723|||||||Fisher Exact|||Complications - Uveitis||||0.5723
82385857|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Complications - Inflammatory bowel disease||||1.0000
82385858|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Complications - Psoriasis||||1.0000
82385859|NCT01329380|164483543|OTHER|||||||0.0144|||||||Fisher Exact|||Past Illnesses||||0.0144
82385860|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Allergy history||||1.0000
82385861|NCT01329380|164483543|OTHER|||||||0.3928|||||||Fisher Exact|||Adalimumab self-injection status||||0.3928
82385862|NCT01329380|164483543|OTHER|||||||0.2735|||||||Fisher Exact|||Prior medications - NSAIDs||||0.2735
82521964|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.3628|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3628
82385863|NCT01329380|164483543|OTHER|||||||0.8875|||||||Fisher Exact|||Prior medications - Biological products||||0.8875
82385864|NCT01329380|164483543|OTHER|||||||0.254|||||||Fisher Exact|||Prior medications - Adrenal corticosteroids||||0.2540
82385865|NCT01329380|164483543|OTHER|||||||0.0226|||||||Fisher Exact|||Concomitant drugs||||0.0226
82385866|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Concomitant drug: NSAIDs||||1.0000
82385867|NCT01329380|164483543|OTHER|||||||0.2481|||||||Fisher Exact|||Concomitant drugs - DMARDs||||0.2481
82385868|NCT01329380|164483543|OTHER|||||||0.1558|||||||Fisher Exact|||Concomitant drugs - Methotrexate||||0.1558
82385869|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Concomitant drugs - salazosulfapyridine||||1.0000
82385870|NCT01329380|164483543|OTHER|||||||0.0094|||||||Fisher Exact|||Concomitant drugs - Adrenal corticosteroids||||0.0094
82385871|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||Concomitant therapy||||1.0000
82521965|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.546|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5460
82385872|NCT01329380|164483543|OTHER|||||||0.8836|||||||Fisher Exact|||Human leukocyte antigen B27 (HLA-B27) test result||||0.8836
82385873|NCT01329380|164483543|OTHER|||||||1|||||||Fisher Exact|||BASDAI at start of treatment||||1.0000
82385874|NCT02748213|164483560|SUPERIORITY_OR_OTHER||Difference in Response Rates|2.2||||0.717|TWO_SIDED|95.0|-10.17|14.56|||Chi-squared||The approximate 95% CI for the difference in response (CR or PR) rates was determined using the Hauck-Anderson correction.|||14.56|-10.17|0.717
82521966|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.3637|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3637
82521967|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.2229|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2229
82638967|NCT04246593|164993220|OTHER|We used generalized linear mixed model (GLMM) with random intercept to control for clustering within sites.|Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|1.13||0.63|TWO_SIDED|||||P-value applies to the mean difference in mean total barriers score change between the intervention and control groups.|GLMM|||||||0.63
82385875|NCT02748213|164483562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0449|TWO_SIDED|95.0|0.53|0.99|||Log Rank||Hazard Ratio (HR) calculated using Herceptin + Taxotere arm as reference.|||0.99|0.53|0.0449
82385876|NCT02748213|164483564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.4758|TWO_SIDED|95.0|0.56|1.32|||Log Rank||HR calculated using Herceptin + Taxotere arm as reference.|||1.32|0.56|0.4758
82521968|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.9759|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9759
82521969|NCT00338884|164738929|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2179
82521970|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR Versus PD)||||0.5784
82521971|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.9625|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.9625
82521972|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.8519|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.8519
82521973|NCT00338884|164738931|SUPERIORITY_OR_OTHER||Wilcoxon Rank Sum Test|||||0.0513|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.0513
82443155|NCT00958217|164594767|SUPERIORITY_OR_OTHER||Second order effect of time (2 slopes)|0.26|||<|0.05|TWO_SIDED||||||Linear Mixed Effects Model|A logit link was used in this model|We gauged sampling error with 95% confidence bands.|Second statistical analysis evaluates trajectories of heavy drinking (\<5 drinks on a given day) Analysis of heavy drinking was conducted using trajectories modeled as a dichotomous outcome using logit links to predict the probability of heavy drinking (5 or more drinks) on a particular day.||||<.05
82521974|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.4051|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.4051
82521975|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.2548|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.2548
82521976|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.5091|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.5091
82521977|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.3133|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.3133
82521978|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.9278|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.9278
82521979|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.407|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.4070
82521980|NCT00338884|164738931|SUPERIORITY_OR_OTHER|||||||0.2703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.2703
82521981|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.7267|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 1 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.7267
82521982|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.8286|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8286
82521983|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.6867|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6867
82521984|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.0450
82385877|NCT00961350|164483572|SUPERIORITY_OR_OTHER||Proportions|3.8||||0.02||95.0|1.8|6.8|||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.|The proportion is from the PA32540 treatment group.|The primary efficacy endpoint was the proportion of subjects with gastric ulcers throughout 6 months of treatment. The primary endpoint was analyzed with the CMH test stratified by NSAID use (COX-2/Other NSAID/No) at randomization. A sample size of 250 subjects/treatment would provide 86% power to detect the difference of 8% between EC aspirin 325 mg (13%) and PA32540 (5%) with a 2-sided significance of 5%; and, provides adequate power to test the key secondary endpoints in sequential order.||6.8|1.8|0.020
82385878|NCT00961350|164483573|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects developing gastric ulcers and/or duodenal ulcers at 6 months was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||0.002
82385879|NCT00961350|164483574|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects with Treatment Success was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82385880|NCT00961350|164483575|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||The cumulative proportion of subjects discontinuing from the study due to NSAID-associated upper GI adverse events was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||0.002
82521985|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1740
82385881|NCT00961350|164483576|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO and by baseline heartburn severity at randomization.||The proportion of subjects who had no heartburn at 6 months (regardless of the presence or absence of heartburn at baseline) was analyzed using the CMH test stratified by NSAID use=COX-2, other NSAID, or NSAID use=NO at randomization.||||<0.001
82385882|NCT00468481|164483649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|384.7|||<|0.0001||95.0|282.42|486.98|||ANCOVA|Analysis of Covariance (ANCOVA) with treatment as factor and Baseline (RBC folate) as covariate|Difference = DRSP/EE/MTHF - YAZ|The null hypothesis was that the difference between DRSP/EE/MTHF and Yaz treatment groups in the RBC folate levels at week 24 was 0.||486.98|282.42|<0.0001
82385883|NCT00468481|164483650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.87|||<|0.0001||95.0|14.04|23.7|||ANCOVA|Analysis of Covariance (ANCOVA) with treatment as factor and Baseline (plasma folate) as covariate|Difference =DRSP/EE/MTHF - YAZ|The null hypothesis was that the difference between DRSP/EE/MTHF and Yaz treatment groups in the plasma folate levels at week 24 was 0.||23.70|14.04|<0.0001
82385884|NCT01637922|164483731|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|118.12|STANDARD_DEVIATION|15.4||0.1638|TWO_SIDED|90.0|107.06|130.32||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||130.32|107.06|0.1638
82521986|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.2703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2703
82521987|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.3659|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3659
82521988|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.3391|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3391
82638968|NCT01049360|164993261|SUPERIORITY_OR_OTHER||Least square mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.156|0.245||Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate|Mixed Models Analysis|||||0.245|0.156|<0.0001
82638969|NCT01049360|164993261|SUPERIORITY_OR_OTHER||Least square mean difference|0.202|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.158|0.245|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.245|0.158|<0.0001
82385885|NCT01637922|164483732|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|114.08|STANDARD_DEVIATION|13.2||0.0391|TWO_SIDED|90.0|104.812|124.164||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||124.164|104.812|0.0391
82385886|NCT01637922|164483733|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.79|STANDARD_DEVIATION|18.7||0.0603|TWO_SIDED|90.0|99.243|125.922||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. Methadone(MTD) alone on Day 1||125.922|99.243|0.0603
82385887|NCT01637922|164483734|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|117.65|STANDARD_DEVIATION|15.0||0.1424|TWO_SIDED|90.0|106.89|129.5||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||129.50|106.89|0.1424
82385888|NCT01637922|164483735|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.46|STANDARD_DEVIATION|16.3||0.0367|TWO_SIDED|90.0|100.42|123.715||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||123.715|100.420|0.0367
82385889|NCT01637922|164483736|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|111.52|STANDARD_DEVIATION|17.7||0.0488|TWO_SIDED|90.0|99.577|124.888||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|S-Methadone(MTD) + Faldaprevir(FDV) on Day 9 vs. S-Methadone(MTD) alone on Day 1||124.888|99.577|0.0488
82385890|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.01098|||||TWO_SIDED|95.0|-0.189801|0.16864||||||Pearson correlation of trough concentrations of R-methadone and OOWS||0.168640|-0.189801|
82385891|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.10188|||||TWO_SIDED|95.0|-0.287471|0.092062||||||Pearson correlation of change from baseline for trough concentrations of R-methadone and OOWS||0.092062|-0.287471|
82385892|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.03198|||||TWO_SIDED|95.0|-0.209893|0.148238||||||Pearson correlation of trough concentrations of S-methadone and OOWS||0.148238|-0.209893|
82521989|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.98|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9800
82385893|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.0026|||||TWO_SIDED|95.0|-0.189172|0.194156||||||Pearson correlation of change from baseline for trough concentrations of S-methadone and OOWS||0.194156|-0.189172|
82385894|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.03364|||||TWO_SIDED|95.0|-0.214505|0.149733||||||Pearson correlation of trough concentrations of Buprenorphine and OOWS||0.149733|-0.214505|
82385895|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.14703|||||TWO_SIDED|95.0|-0.404929|0.135425||||||Pearson correlation of change from baseline for trough concentrations of Buprenorphine and OOWS||0.135425|-0.404929|
82385896|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.05431|||||TWO_SIDED|95.0|-0.240578|0.136305||||||Pearson correlation of trough concentrations of norbuprenorphine and OOWS||0.136305|-0.240578|
82385897|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.09727|||||TWO_SIDED|95.0|-0.344024|0.163687||||||Pearson correlation of change from baseline for trough concentrations of norbuprenorphine and OOWS||0.163687|-0.344024|
82385898|NCT01637922|164483737|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.36105|||||||||||||Confidence interval is not provided due to sparse data. There was only 1 patient for this analysis.|Pearson correlation of trough concentrations of naloxone and OOWS||||
82385899|NCT01637922|164483738|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|108.71|STANDARD_DEVIATION|36.1||0.1642|TWO_SIDED|90.0|85.14|138.8||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||138.80|85.14|0.1642
82385900|NCT01637922|164483739|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|92.43|STANDARD_DEVIATION|33.7||0.142|TWO_SIDED|90.0|73.48|116.27||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||116.27|73.48|0.1420
82521990|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.335|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3350
82521991|NCT00338884|164738932|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2179
82521992|NCT00338884|164738935|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR Versus PD||||0.0680
82521993|NCT00338884|164738936|SUPERIORITY_OR_OTHER|||||||0.1159|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR or (SD \> = 12 Weeks) Versus PD||||0.1159
82521994|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.8519|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.8519
82521995|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.5879|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.5879
82521996|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.4757|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.4757
82521997|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.1933|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.1933
82521998|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.4187|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.4187
82521999|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.3795|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.3795
82522000|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||1.0000
82522001|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.6333|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.6333
82522002|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.8679|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.8679
82522003|NCT00338884|164738938|SUPERIORITY_OR_OTHER|||||||0.592|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.5920
82522004|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.6939|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6939
82522005|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.5871|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5871
82522006|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.4572|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4572
82522007|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1120
82522008|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.4896|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4896
82522009|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.2369|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.2369
82522010|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.6709|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6709
82522011|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.6382|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6382
82522012|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.8481|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8481
82522013|NCT00338884|164738939|SUPERIORITY_OR_OTHER|||||||0.3731|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3731
82522014|NCT00338884|164738941|SUPERIORITY_OR_OTHER|||||||0.0292|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR Versus PD||||0.0292
82522015|NCT00338884|164738942|SUPERIORITY_OR_OTHER|||||||0.1087|TWO_SIDED||||||Wilcoxon Rank Sum Test|||CR or PR or (SD \> = 12 Weeks) Versus PD||||0.1087
82522016|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.3386|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR Versus PD)||||0.3386
82522017|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.1949|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR Versus PD)||||0.1949
82522018|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.7037|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR Versus PD)||||0.7037
82522019|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.5748|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR Versus PD)||||0.5748
82522020|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR Versus PD)||||0.7470
82522021|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.4703|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR Versus PD)||||0.4703
82522022|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.8162|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR Versus PD)||||0.8162
82522023|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.5465|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR Versus PD)||||0.5465
82522024|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.3495|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR Versus PD)||||0.3495
82522025|NCT00338884|164738944|SUPERIORITY_OR_OTHER|||||||0.6397|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR Versus PD)||||0.6397
82522026|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.4632|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 3 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4632
82522027|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.1701|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 5 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.1701
82522028|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.8204|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 7 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8204
82522029|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.5162|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 9 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.5162
82522030|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.9437|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 13 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9437
82522031|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.4013|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 17 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.4013
82522032|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.9595|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 21 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.9595
82522033|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.6249|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 25 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.6249
82522034|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.3731|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 29 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.3731
82522035|NCT00338884|164738945|SUPERIORITY_OR_OTHER|||||||0.8263|TWO_SIDED||||||Wilcoxon Rank Sum Test|||Day 1, Week 33 (CR or PR or \[SD \> = 12 Weeks\] Versus PD)||||0.8263
82522036|NCT04322604|164738979|SUPERIORITY||Percent Difference from Placebo|80.1|||<|0.0001|TWO_SIDED|95.0|70.1|87.9|||Fisher Exact|||||87.9|70.1|<0.0001
82522037|NCT04322604|164738980|SUPERIORITY||LSM Difference from Placebo|1.5||||0.3427|TWO_SIDED|95.0|-1.6|4.7|||ANCOVA|||||4.7|-1.6|0.3427
82522038|NCT04322604|164738981|SUPERIORITY||LSM Difference from Placebo|-41.2|||<|0.0001|TWO_SIDED|95.0|-48.1|-34.2|||ANCOVA|||||-34.2|-48.1|<0.0001
82522039|NCT04322604|164738982|SUPERIORITY||Percent Difference from Placebo|81.3|||<|0.0001|TWO_SIDED|95.0|71.7|88.8|||Fisher Exact|||||88.8|71.7|<0.0001
82522040|NCT04322604|164738983|SUPERIORITY||Percent Difference from Placebo|39.5|||<|0.0001|TWO_SIDED|95.0|25.4|52.2|||Fisher Exact|||||52.2|25.4|<0.0001
82522041|NCT04322604|164738984|SUPERIORITY||Percent Difference from Placebo|7.0||||0.3549|TWO_SIDED|95.0|-7.4|21.6|||Fisher Exact|||||21.6|-7.4|0.3549
82522042|NCT04322604|164738985|SUPERIORITY||Percent Difference from Placebo|8.3||||0.2262|TWO_SIDED|95.0|-6.3|22.7|||Fisher Exact|||||22.7|-6.3|0.2262
82522043|NCT04322604|164738986|SUPERIORITY||LSM Difference from Placebo|5.0||||0.3812|TWO_SIDED|95.0|-6.1|16.0|||Mixed Models Analysis|||Week 24 Percent Change from Baseline||16.0|-6.1|0.3812
82572633|NCT02635386|164855090|SUPERIORITY||||||<|0.05|||||||ANOVA|Nested repeated measure design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.05
82522044|NCT05711641|164739009|OTHER|VAS was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|Generalized Estimating Equations|||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|VAS was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
82522045|NCT05711641|164739010|OTHER|Tinnitus loudness was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).||||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|Tinnitus loudness was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
82522046|NCT05711641|164739011|OTHER|MML was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).||||||||||||||||"The alternative hypothesis of this study is that 10% lidocaine, applied topically to the external auditory canal (EAC), acts on tinnitus intensity differently than placebo, while the null hypothesis is that there is no difference between the action of lidocaine and placebo on tinnitus intensity.~The analyses were performed using the IBM-SPSS for Windows software version 22.0 and tabulated using the Microsoft-Excel 2010 software, and the tests were performed with a significance level of 5%."|MML was described with the use of summary measures, and the variations between the applied substances were compared with the use of Generalized Estimating Equations (GEE) with normal marginal distribution and identity binding function, assuming an interchangeable correlation matrix between the substances (McCullagh; Nelder, 1989).|||
82522047|NCT01371851|164739083|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0529||||0.05|TWO_SIDED||||||Regression, Logistic|||The analysis was applied to urine data obtained at all time points during weeks 1-8.||||0.05
82522048|NCT00450411|164739084|OTHER|||||||||||||||||It was projected that ≤10% of patients would experience late treatment-related GI/GU AEs under the protocol treatment (alternative hypothesis). A rate of ≥20% was considered unacceptable (null hypothesis). With a one-sided significance level of 0.05, it was estimated that 87 analyzable patients were required to detect the above-mentioned effect size with an 85% statistical power using Fleming's multiple testing procedure with two interim analyses and one final analysis.|Stopping Rules for a Late GI/GU Adverse Event: For 44 patients, if ≤2 then reject H0, if ≥8 then reject HA; for 73 patients, if ≤7 then reject H0, if ≥10 then reject HA; for 87 patients, if ≤10 then reject H0, if ≥11 then reject HA.|||
82522049|NCT00818753|164739092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.08|12.76||p-values were not presented as the study was exploratory and not powered to to detect a difference in the treatments|Cochran-Mantel-Haenszel|||Dabigatran 110mg BID vs Heparin||12.76|0.08|
82522050|NCT00818753|164739092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||||95.0|0.13|16.82||p-values were not presented as the study was exploratory and not powered to to detect a difference in the treatments|Cochran-Mantel-Haenszel|||Dabigatran 150mg BID vs Heparin||16.82|0.13|
82522051|NCT00605293|164739152|SUPERIORITY_OR_OTHER|||||||0.4778|||||||Fisher Exact|||||||0.4778
82522052|NCT01624948|164739218|SUPERIORITY_OR_OTHER|||||||0.53|||||||Fisher Exact|||||||0.53
82522053|NCT01624948|164739220|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Difference in p70S6 kinase phosphorylation as measured by mean fluorescence intensity (MFI) between those patients who reached the primary endpoint and those who did not||||0.67
82522054|NCT01624948|164739221|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82522055|NCT01624948|164739223|SUPERIORITY_OR_OTHER|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
82522056|NCT00831779|164739230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.97|STANDARD_ERROR_OF_MEAN|7.4685||0.0059|TWO_SIDED|95.0|5.75|36.1||Primary endpoint was tested at alpha=0.05|ANOVA|||||36.10|5.75|0.0059
82443156|NCT01999218|164594787|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the two-sided 95% confidence interval (CI) for the mean difference is less than 0.3%.|Difference in the Least Squares Means|0.1|||||TWO_SIDED|95.0|-0.02|0.22|||||Constrained Longitudinal Data Analysis (cLDA) model with fixed effects for treatment, time, prior antihyperglycemic medication (monotherapy or dual therapy), baseline eGFR (continuous) and the interaction of time by treatment.|||0.22|-0.02|
82443157|NCT01999218|164594787|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the two-sided 95% confidence interval (CI) for the mean difference is less than 0.3%.|Difference in the Least Squares means|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||"Based on cLDA model with fixed effects for treatment, time, prior antihyperglycemic medication (monotherapy or dual therapy), baseline eGFR (continuous) and the interaction of time by treatment.~Time was treated as a categorical variable."|||0.30|0.06|
82638970|NCT01049360|164993262|SUPERIORITY_OR_OTHER||Least square mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.083|0.181|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.181|0.083|<0.0001
82638971|NCT01049360|164993262|SUPERIORITY_OR_OTHER||Least squares mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.088|0.185|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.185|0.088|<0.0001
82638972|NCT01049360|164993263|SUPERIORITY_OR_OTHER||Least squares mean difference|0.281|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.23|0.333|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.333|0.230|<0.0001
82638973|NCT01049360|164993263|SUPERIORITY_OR_OTHER||Least squares mean difference|0.275|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.224|0.325|||Mixed Models Analysis|Treatment and period were fixed effects, subjects was random effect, and baseline values at each period were a covariate||||0.325|0.224|<0.0001
82443158|NCT01999218|164594788|OTHER|Based on Miettinen \& Nurminen method|Difference in % vs. Glimepiride|1.6|||||TWO_SIDED|95.0|-4.5|7.7||||||||7.7|-4.5|
82638974|NCT04278846|164993265|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||||||.87
82638975|NCT04278846|164993266|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|||||||.49
82638976|NCT04278846|164993267|SUPERIORITY|||||||0.57|||||||Kruskal-Wallis|||||||.57
82638977|NCT04278846|164993268|SUPERIORITY|||||||0.3|||||||Kruskal-Wallis|||||||.3
82638978|NCT04278846|164993269|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||.99
82638979|NCT04278846|164993270|SUPERIORITY|||||||0.33|||||||Kruskal-Wallis|||||||.33
82638980|NCT04278846|164993271|SUPERIORITY|||||||0.26|||||||Kruskal-Wallis|||||||.26
82638981|NCT04278846|164993272|SUPERIORITY|||||||0.79|||||||Kruskal-Wallis|||||||.79
82638982|NCT04278846|164993273|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||||||.62
82638983|NCT04278846|164993274|SUPERIORITY|||||||0.94|||||||Kruskal-Wallis|||||||.94
82638984|NCT04278846|164993275|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||||||.95
82638985|NCT04278846|164993276|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||||||.54
82638986|NCT04278846|164993277|SUPERIORITY|||||||0.95|||||||Kruskal-Wallis|||||||.95
82638987|NCT04278846|164993278|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||||||.96
82385901|NCT01637922|164483740|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|108.36|STANDARD_DEVIATION|38.1||0.1915|TWO_SIDED|90.0|81.611|143.883||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|BUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. BUPRENORPHINE(BUP) alone on Day 1||143.883|81.611|0.1915
82443159|NCT01999218|164594788|OTHER|Based on Miettinen \& Nurminen method|Difference in % vs. Glimepiride|0.5|||||TWO_SIDED|95.0|-5.6|6.5||||||||6.5|-5.6|
82522057|NCT00831779|164739231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.13|STANDARD_ERROR_OF_MEAN|14.4984||0.0598|TWO_SIDED|95.0|-1.22|57.48||Secondary endpoint was tested following a sequential testing procedure at alpha=0.05|ANOVA|||||57.48|-1.22|0.0598
82443160|NCT01999218|164594789|OTHER||Difference in % vs. Glimepiride|3.0|||||TWO_SIDED|95.0|-0.3|6.4||||||||6.4|-0.3|
82522058|NCT02219048|164739234|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0719|STANDARD_ERROR_OF_MEAN|0.0909|||TWO_SIDED|90.0|-0.2243|0.0805|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 1||0.0805|-0.2243|
82443161|NCT01999218|164594789|OTHER||Difference in % vs. Glimepiride|1.5|||||TWO_SIDED|95.0|-1.7|4.7||||||||4.7|-1.7|
82385902|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.04783|||||TWO_SIDED|95.0|-0.13275|0.224946||||||Pearson correlation of trough concentrations of R-methadone and SOWS||0.224946|-0.132750|
82385903|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.39865|||||TWO_SIDED|95.0|-0.547072|-0.222288||||||Pearson correlation of change from baseline for trough concentrations of R-methadone and SOWS||-0.222288|-0.547072|
82385904|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.11175|||||TWO_SIDED|95.0|-0.069336|0.284848||||||Pearson correlation of trough concentrations of S-methadone and SOWS||0.284848|-0.069336|
82385905|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.16815|||||TWO_SIDED|95.0|-0.34787|0.025107||||||Pearson correlation of change from baseline for trough concentrations of S-methadone and SOWS||0.025107|-0.347870|
82443162|NCT01999218|164594790|OTHER||Difference in % vs. Glimepiride|-14.0|||<|0.001|TWO_SIDED|95.0|-18.4|-9.8|||Based on Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method|-9.8|-18.4|<0.001
82443163|NCT01999218|164594790|OTHER||Difference in % vs. Glimepiride|-16.1|||<|0.001|TWO_SIDED|95.0|-20.3|-12.2|||Based on Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method|-12.2|-20.3|<0.001
82443164|NCT01999218|164594791|OTHER||Difference in LSM vs. Glimepiride|-4.29|||<|0.001|TWO_SIDED|95.0|-4.77|-3.8|||Constrained Longitudinal Data analysis||LSM=Least Squares Means||Constrained Longitudinal Data analysis with fixed effects for treatment, time, interaction of time by treatment, prior antihyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.80|-4.77|<0.001
82522059|NCT02219048|164739234|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.092|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|90.0|-0.2362|0.0523|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 2||0.0523|-0.2362|
82522060|NCT02219048|164739234|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1131|STANDARD_ERROR_OF_MEAN|0.0837|||TWO_SIDED|90.0|-0.2536|0.0274|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 3||0.0274|-0.2536|
82522061|NCT02219048|164739234|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.058|STANDARD_ERROR_OF_MEAN|0.0829|||TWO_SIDED|90.0|-0.1971|0.0812|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline at Week 4||0.0812|-0.1971|
82522062|NCT02219048|164739234|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.0837|STANDARD_ERROR_OF_MEAN|0.0742|||TWO_SIDED|90.0|-0.2081|0.0406|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline Over Week 1 to 4||0.0406|-0.2081|
82522063|NCT02219048|164739237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|90.0|-0.285|0.106|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Change From Baseline Averaged Over Week 1 to 4||0.106|-0.285|
82522064|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.017|STANDARD_ERROR_OF_MEAN|10.003|||TWO_SIDED|90.0|-10.76|22.794|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 1||22.794|-10.760|
82638988|NCT04278846|164993280|SUPERIORITY|||||||0.088|||||||Kruskal-Wallis|||||||.088
82385906|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.0126|||||TWO_SIDED|95.0|-0.17016|0.194417||||||Pearson correlation of trough concentrations of Buprenorphine and SOWS||0.194417|-0.170160|
82522065|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.591|STANDARD_ERROR_OF_MEAN|12.228|||TWO_SIDED|90.0|-13.926|27.108|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 2||27.108|-13.926|
82522066|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.954|STANDARD_ERROR_OF_MEAN|11.673|||TWO_SIDED|90.0|-18.644|20.552|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 3||20.552|-18.644|
82522067|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.368|STANDARD_ERROR_OF_MEAN|12.92|||TWO_SIDED|90.0|-26.069|17.333|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB at Week 4||17.333|-26.069|
82638989|NCT04278846|164993281|SUPERIORITY|||||||0.42|||||||Kruskal-Wallis|||||||.42
82638990|NCT04278846|164993282|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||.88
82638991|NCT04278846|164993284|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||||||.12
82385907|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.02352|||||TWO_SIDED|95.0|-0.253932|0.29696||||||Pearson correlation of change from baseline for trough concentrations of Buprenorphine and SOWS||0.296960|-0.253932|
82522068|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.299|STANDARD_ERROR_OF_MEAN|10.503|||TWO_SIDED|90.0|-15.323|19.92|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Morning PEF: CFB Averaged Over 4 Weeks||19.920|-15.323|
82522069|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.135|STANDARD_ERROR_OF_MEAN|10.961|||TWO_SIDED|90.0|-17.248|19.519|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 1||19.519|-17.248|
82522070|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.834|STANDARD_ERROR_OF_MEAN|9.956|||TWO_SIDED|90.0|-13.871|19.54|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 2||19.540|-13.871|
82522071|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.374|STANDARD_ERROR_OF_MEAN|11.652|||TWO_SIDED|90.0|-27.933|11.185|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 3||11.185|-27.933|
82522072|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.445|STANDARD_ERROR_OF_MEAN|13.573|||TWO_SIDED|90.0|-23.245|22.356|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB at Week 4||22.356|-23.245|
82385908|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|-0.05787|||||TWO_SIDED|95.0|-0.24392|0.132819||||||Pearson correlation of trough concentrations of norbuprenorphine and SOWS||0.132819|-0.243920|
82443165|NCT01999218|164594791|OTHER||Difference in the LSM vs. Glimepiride|-3.87|||<|0.001|TWO_SIDED|95.0|-4.36|-3.38|||Constrained Longitudinal Data Analysis||||Constrained Longitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior antihyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.38|-4.36|<0.001
82385909|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.04052|||||TWO_SIDED|95.0|-0.218159|0.293233||||||Pearson correlation of change from baseline for trough concentrations of norbuprenorphine and SOWS||0.293233|-0.218159|
82385910|NCT01637922|164483741|SUPERIORITY_OR_OTHER||Pearson Correlation Coefficient|0.92231|||||||||||||Confidence interval is not provided due to sparse data. There was only 1 patient for this analysis.|Pearson correlation of trough concentrations of naloxone and SOWS||||
82522073|NCT02219048|164739239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.212|STANDARD_ERROR_OF_MEAN|10.317|||TWO_SIDED|90.0|-18.52|16.096|||Longitudinal Analysis of Covariance|LANCOVA model contained fixed factors of treatment, week, treatment/baseline by week interaction, baseline value, and unstructured covariance matrix.||Evening PEF: CFB Averaged Over 4 Weeks||16.096|-18.520|
82522074|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.641|||<|0.001|TWO_SIDED|95.0|1.247|2.159|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=12.514||Age of mother bearing, \<=30 years vs \>30 years||2.159|1.247|<0.001
82522075|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.793||||0.06|TWO_SIDED|95.0|0.622|1.01|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.529||Household register, local vs nonlocal||1.010|0.622|0.060
82638992|NCT04278846|164993285|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
82638993|NCT04278846|164993286|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||.76
82385911|NCT01637922|164483742|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|138.0|STANDARD_DEVIATION|50.7||0.6889|TWO_SIDED|90.0|97.2|195.92||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||195.92|97.20|0.6889
82385912|NCT01637922|164483743|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|132.86|STANDARD_DEVIATION|51.1||0.6188|TWO_SIDED|90.0|93.32|189.16||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||189.16|93.32|0.6188
82385913|NCT01637922|164483744|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|112.03|STANDARD_DEVIATION|52.5||0.3152|TWO_SIDED|90.0|74.85|167.67||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NORBUPRENORPHINE(BUP) + Faldaprevir(FDV) on Day 9 vs. NORBUPRENORPHINE(BUP) alone on Day 1||167.67|74.85|0.3152
82385914|NCT01637922|164483745|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|98.94|STANDARD_DEVIATION|19.6||0.0107|TWO_SIDED|90.0|85.81|114.076||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NALOXONE(BUP) + Faldaprevir(FDV) on Day 9 vs. NALOXONE(BUP) alone on Day 1||114.076|85.810|0.0107
82385915|NCT01637922|164483746|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric mean ratio (%)|94.33|STANDARD_DEVIATION|27.6||0.0738|TWO_SIDED|90.0|78.017|114.054||p-value for ratio outside interval 80% to 125%|ANOVA|Log transformed endpoints were analyzed using an ANOVA model, including treatment as a fixed effect and subject as a random effect.|The standard deviation is actually the intra-individual geometric coefficient of variation|NALOXONE(BUP) + Faldaprevir(FDV) on Day 9 vs. NALOXONE(BUP) alone on Day 1||114.054|78.017|0.0738
82385916|NCT02498444|164483753|OTHER||Risk Ratio (RR)|1.29||||0.03|TWO_SIDED|95.0|1.02|1.64|||Poisson regression|Poisson regression model demonstrating associations between treatment groups and outcomes (chest tube duration in days and length of stay in days)||||1.64|1.02|0.03
82385917|NCT02498444|164483754|OTHER||Risk Ratio (RR)|1.23||||0.0498|TWO_SIDED|95.0|1.0|1.51||Poisson regression model demonstrating associations between treatment groups and outcomes (chest tube duration in days and length of stay in days)|Poisson regression|||||1.51|1.00|0.0498
82385918|NCT02498444|164483755|OTHER|||||||0.05|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.05
82385919|NCT02498444|164483755|OTHER||||||<|0.01|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||<0.01
82385920|NCT02498444|164483755|OTHER|||||||0.14|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.14
82385921|NCT02498444|164483756|OTHER|||||||0.23|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.23
82385922|NCT02498444|164483756|OTHER|||||||0.27|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||0.27
82385923|NCT02498444|164483756|OTHER|||||||0.65|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.65
82385924|NCT02498444|164483757|OTHER|||||||0.37|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 0||||0.37
82385925|NCT02498444|164483757|OTHER||||||<|0.01|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 12||||<0.01
82522076|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.369||||0.006|TWO_SIDED|95.0|1.672|32.479|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=7.524||Mother's education level, illiteracy vs postgraduate or above||32.479|1.672|0.006
82522077|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.443||||0.102|TWO_SIDED|95.0|1.001|11.843|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=2.671||Mother's education level, elementary school vs postgraduate or above||11.843|1.001|0.102
82638994|NCT04278846|164993287|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||.88
82638995|NCT04278846|164993288|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||.37
82522078|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.064||||0.159|TWO_SIDED|95.0|0.933|10.067|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.984||Mother's education level, junior middle school vs postgraduate or above||10.067|0.933|0.159
82522079|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.321||||0.662|TWO_SIDED|95.0|0.71|7.589|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.191||Mother's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||7.589|0.710|0.662
82638996|NCT00635362|164993300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|TWO_SIDED||||||Fisher Exact|||||||0.35
82638997|NCT00635362|164993301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||Fisher Exact|||||||0.04
82385926|NCT02498444|164483757|OTHER|||||||0.3|||||||Unadjusted repeated measure analysis|||Between-group comparison at postoperative hour 24||||0.30
82522080|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.306|||<|0.001|TWO_SIDED|95.0|0.399|4.277|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=13.525||Mother's education level, college/university vs postgraduate or above||4.277|0.399|<0.001
82522081|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.217||||0.043|TWO_SIDED|95.0|0.719|6.831|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.095||Family monthly income per capita, \<=600 RMB vs \>=10000 RMB||6.831|0.719|0.043
82638998|NCT00635362|164993302|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|0.0|||||Fisher Exact|||||||1.000
82638999|NCT00635362|164993303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED|0.0|||||Fisher Exact|||||||0.37
82639000|NCT00635362|164993304|SUPERIORITY_OR_OTHER_LEGACY|||||||1||0.0|||||Fisher Exact|||||||1.00
82639001|NCT00736840|164993328|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Provided above|Sensitivity|0.74|STANDARD_ERROR_OF_MEAN|0.0363||0.0924|TWO_SIDED|95.0|0.6607|0.8809|||Exact binomial test|||The null hypothesis was sensitivity lower than 0.8. We assumed a sensitivity of 0.89 and required a power of 90% to test the hypothesis at a 5% level of significance, and calculated that 173 cirrhotic and 241 non-cirrhotic subjects were needed (for a one-sample binomial test of outcome versus constant).||0.8809|0.6607|0.0924
82639002|NCT00736840|164993329|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample size was calculated to enable the testing of both study hypotheses (together) with at least 80% power. Our best estimate of sensitivity of the HIS diagnosis in the population, was 0.9 and its specificity 0.79. Requiring a power of 90% for each of the hypotheses and a 5% level of significance, to test the null hypotheses 173 cirrhotic and 241 non-cirrhotic subjects were needed.Therefore a total of at least 414 subjects were required.|AUC ROC|0.785|STANDARD_ERROR_OF_MEAN|0.0485|<|0.0001|TWO_SIDED|95.0|0.737|0.834|||Regression, Logistic|||||0.834|0.737|<0.0001
82443166|NCT01999218|164594792|OTHER||Difference in the LSM vs. Glimepiride|-4.77|||<|0.001|TWO_SIDED|95.0|-6.29|-3.25|||Constrained Logitudinal Data Analysis||||Constrained Logitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior anthyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-3.25|-6.29|<0.001
82443167|NCT01999218|164594792|OTHER||Difference in the LSM vs. Glimepiride|-3.2|||<|0.001|TWO_SIDED|0.001|-4.73|-1.67|||Constrained Logitudinal Data Analysis||||Constrained Logitudinal Data Analysis with fixed effects for treatment, time, interaction of time by treatment, prior anthyperglycemic medication (monotherapy or dual therapy), and baseline eGFR (continuous).|-1.67|-4.73|<0.001
82443168|NCT03780959|164594796|SUPERIORITY|||||||0.003|||||||Mantel Haenszel|Stratified by study center and the number of active joints at randomization||||||0.0030
82443169|NCT03780959|164594797|SUPERIORITY|||||||0.0001|||||||Log Rank|||||||0.0001
82639003|NCT01728194|164993346|OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||< 0.025
82639004|NCT01728194|164993347|OTHER||||||<|0.025|||||||Mixed Models Analysis|||||||<0.025
82572634|NCT02635386|164855091|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82639005|NCT02309372|164993353|SUPERIORITY||Mean Difference (Net)|-0.76||||0.32|TWO_SIDED|95.0|-2.28|0.77|||t-test, 2 sided|||||0.77|-2.28|0.32
82385927|NCT01270464|164483770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.0507||0.0018|TWO_SIDED|95.0|0.06|0.259||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||The primary variable was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.259|0.060|0.0018
82572635|NCT02635386|164855092|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82385928|NCT01270464|164483770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.0508||0.0237|TWO_SIDED|95.0|0.016|0.215||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||The primary variable was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.215|0.016|0.0237
82572636|NCT02635386|164855093|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82572637|NCT02635386|164855094|SUPERIORITY||||||<|0.01|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.01
82522082|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.089||||0.01|TWO_SIDED|95.0|0.739|5.906|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=6.549||Family monthly income per capita, 600 to 1999 RMB vs \>=10000 RMB||5.906|0.739|0.010
82522083|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.983||||0.021|TWO_SIDED|95.0|0.704|5.583|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=5.313||Family monthly income per capita, 2000 to 4999 RMB vs \>=10000 RMB||5.583|0.704|0.021
82522084|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.364|TWO_SIDED|95.0|0.344|3.267|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.824||Family monthly income per capita, 5000 to 7999 RMB vs \>=10000 RMB||3.267|0.344|0.364
82522085|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.175|TWO_SIDED|95.0|0.1|3.347|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.838||||3.347|0.100|0.175
82522086|NCT00952367|164739255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.516|||<|0.001|TWO_SIDED|95.0|0.4|0.666|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=25.960||Whether have brothers or sisters, no vs yes||0.666|0.400|<0.001
82522087|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.255||||0.057|TWO_SIDED|95.0|0.062|1.044|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.610||Birth information, preterm birth vs full-term birth||1.044|0.062|0.057
82522088|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.666||||0.04|TWO_SIDED|95.0|0.451|0.981|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.228||Household register, local vs nonlocal||0.981|0.451|0.040
82522089|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.182||||0.044|TWO_SIDED|95.0|0.758|1.844|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.074||Feeding manners within 6 months, pure breast feeding vs pure formula milk feeding||1.844|0.758|0.044
82385929|NCT01270464|164483771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.0543||0.0174|TWO_SIDED|95.0|0.023|0.237||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.237|0.023|0.0174
82385930|NCT01270464|164483771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.0543||0.3731|TWO_SIDED|95.0|-0.058|0.155||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.155|-0.058|0.3731
82385931|NCT01270464|164483772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.1212||0.0552|TWO_SIDED|95.0|-0.005|0.472||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.472|-0.005|0.0552
82385932|NCT01270464|164483772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.1215||0.802|TWO_SIDED|95.0|-0.209|0.27||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.270|-0.209|0.8020
82522090|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.707||||0.038|TWO_SIDED|95.0|0.42|1.191|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=4.316||Feeding manners within 6 months, mixed feeding vs pure formula milk feeding||1.191|0.420|0.038
82522091|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|92.229||||0.006|TWO_SIDED|95.0|3.993|2130.5|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=7.438||Father's education level, illiteracy vs postgraduate or above||2130.500|3.993|0.006
82522092|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.671||||0.778|TWO_SIDED|95.0|0.537|40.608|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.079||Father's education level, elementary school vs postgraduate or above||40.608|0.537|0.778
82522093|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.83||||0.756|TWO_SIDED|95.0|0.649|35.956|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.096||Father's education level, junior high school vs postgraduate or above||35.956|0.649|0.756
82522094|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.513||||0.179|TWO_SIDED|95.0|0.474|26.03|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.807||Father's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||26.030|0.474|0.179
82639006|NCT00976521|164993365|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Wilcoxon (Mann-Whitney)|||The primary endpoint of infarct size at 30 days measured by cardiac MRI, was summarized using the median, IQR, minimum and maximum values, in each infusion group, comparing the pooled active infusion arm to the pooled control non-infusion arm with the Wilcoxon rank sum test in the ITT analysis set. Data was only analyzed in subjects completing the cardiac MRI study and for whom the imaging data was received and deemed analyzable by the core laboratory.||||0.034
82385933|NCT01270464|164483774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.359|STANDARD_ERROR_OF_MEAN|0.111||0.0014|TWO_SIDED|95.0|-0.577|-0.14||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.140|-0.577|0.0014
82385934|NCT01270464|164483774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.238|STANDARD_ERROR_OF_MEAN|0.1108||0.0329|TWO_SIDED|95.0|-0.456|-0.019||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.019|-0.456|0.0329
82385935|NCT01270464|164483775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.359|STANDARD_ERROR_OF_MEAN|0.1582||0.0241|TWO_SIDED|95.0|0.047|0.67||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.670|0.047|0.0241
82522095|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.029||||0.077|TWO_SIDED|95.0|0.412|22.292|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.131||Father's education level, college/university vs postgraduate or above||22.292|0.412|0.077
82522096|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.984||||0.056|TWO_SIDED|95.0|0.968|1.0|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.648||Living space per capita, continuous variables||1.000|0.968|0.056
82522097|NCT00952367|164739256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.729||||0.064|TWO_SIDED|95.0|0.522|1.018|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=3.432||Vaccination history of Hib, no vs yes||1.018|0.522|0.064
82385936|NCT01270464|164483775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.1591||0.0822|TWO_SIDED|95.0|-0.036|0.591||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.591|-0.036|0.0822
82385937|NCT01270464|164483776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.0193||0.016|TWO_SIDED|95.0|0.009|0.085||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.085|0.009|0.0160
82385938|NCT01270464|164483776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.0193||0.0094|TWO_SIDED|95.0|0.012|0.089||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||0.089|0.012|0.0094
82385939|NCT01270464|164483777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.624|STANDARD_ERROR_OF_MEAN|0.2551||0.0151|TWO_SIDED|95.0|-1.126|-0.121||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.121|-1.126|0.0151
82385940|NCT01270464|164483777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.648|STANDARD_ERROR_OF_MEAN|0.2559||0.0119|TWO_SIDED|95.0|-1.152|-0.144||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.144|-1.152|0.0119
82385941|NCT01270464|164483778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.494|STANDARD_ERROR_OF_MEAN|0.0242||0|TWO_SIDED|95.0|-0.542|-0.447||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Regression, Logistic|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.447|-0.542|0.0000
82522098|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.438||||0.019|TWO_SIDED|95.0|0.221|0.871|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=5.538||Birth information, preterm birth vs full-term birth||0.871|0.221|0.019
82385942|NCT01270464|164483778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.323|STANDARD_ERROR_OF_MEAN|0.0243||0|TWO_SIDED|95.0|-0.37|-0.275||The overall treatment effect for each reslizumab dose was compared to placebo using a 2-sided t-test at the a priori significance level of 0.05.|Mixed Models Analysis|||As with the primary outcome, this respiratory test outcome was analyzed using a mixed-effect model for repeated measures (MMRM) with fixed effects (treatment, stratification factors, sex, visit, interaction of treatment and visit), covariates (height, baseline value), and patient as the random effect for the repeated measurements.||-0.275|-0.370|0.0000
82385943|NCT05656534|164483803|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.31||0.19|TWO_SIDED|95.0|-0.2|1.1|||ANOVA|||||1.10|-0.20|.19
82385944|NCT05656534|164483804|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.33||0.03|TWO_SIDED|95.0|0.07|1.38|||ANOVA|||We conducted a repeated measures analysis of variable with session (pre-treatment vs. post-treatment) as a within-subjects variable and treatment arm as a between-subjects variable. Standardized residual scores reflecting startle reactivity to unpredictable threat (\> no-threat) was the dependent variable.||1.38|0.07|0.03
82385945|NCT05656534|164483805|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
82385946|NCT05656534|164483806|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.28|<|0.05|TWO_SIDED|95.0|-0.01|1.2|||ANOVA|Repeated measures ANOVA modeling session (pre. vs. post) by treatment arm||A session (pre vs. post) by treatment arm (suvorexant vs. placebo) repeated measures analysis of variance (ANOVA) was performed. The effect of session was then probed within each treatment arm.||1.20|-0.01|<.05
82385947|NCT01164579|164483821|SUPERIORITY_OR_OTHER||Difference in least squares (LS) Mean|-0.63|STANDARD_ERROR_OF_MEAN|0.57||0.2696|TWO_SIDED|90.0|-1.58|0.31||2-sided p-value; alpha equals (=) 0.10|mixed model repeated measures analysis|||||0.31|-1.58|0.2696
82385948|NCT01164579|164483821|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.52|STANDARD_ERROR_OF_MEAN|0.57||0.3561|TWO_SIDED|90.0|-1.46|0.41||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||||0.41|-1.46|0.3561
82385949|NCT01164579|164483822|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.55|STANDARD_ERROR_OF_MEAN|0.59||0.0089|TWO_SIDED|90.0|-2.52|-0.58||2-sided p-value; alpha= 0.10|mixed model repeated measures analysis|||||-0.58|-2.52|0.0089
82385950|NCT01164579|164483822|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.74|STANDARD_ERROR_OF_MEAN|0.59||0.0038|TWO_SIDED|90.0|-2.72|-0.76||2-sided p-value; alpha= 0.10|mixed model repeated measures analysis|||||-0.76|-2.72|0.0038
82385951|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.57||0.6576|TWO_SIDED|90.0|-1.19|0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.69|-1.19|0.6576
82443170|NCT03131596|164594809|SUPERIORITY|||||||0.012||||||The p-value is not adjusted and a p-value of \< 0.05 is considered statistically significant.|Chi-squared|||200 patients were eligible and randomised in a 1:1 fashion. 9 patients did not complete the full protocol, resulting in 94 cases in the balloon group and 97 cases in the control group included in the final analysis. Intention-to-treat analysis was conducted.The null hypothesis is the percentage of the patients with reformed uterine adhesion in balloon group will less than the percentage of the patients with reformed uterine adhesion in control group. A Chi-squared analysis was used.||||0.012
82522099|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.546|||<|0.001|TWO_SIDED|95.0|0.423|0.703|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=21.938||Household register, local vs nonlocal||0.703|0.423|<0.001
82522100|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.137||||0.559|TWO_SIDED|95.0|0.473|9.652|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.341||Mother's education level, illiteracy vs graduate or above||9.652|0.473|0.559
82522101|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.793||||0.626|TWO_SIDED|95.0|0.596|5.394|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=0.238||Mother's education level, elementary school vs graduate or above||5.394|0.596|0.626
82522102|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.972||||0.193|TWO_SIDED|95.0|0.699|5.562|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.691||Mother's education level, junior middle school vs graduate or above||5.562|0.699|0.193
82522103|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.907||||0.298|TWO_SIDED|95.0|0.679|5.353|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=1.081||Mother's education level, senior high school/vocational high school/technical secondary school vs postgraduate or above||5.353|0.679|0.298
82522104|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.233||||0.122|TWO_SIDED|95.0|0.439|3.464|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=2.395||Mother's education level, college/university vs postgraduate or above||3.464|0.439|0.122
82522105|NCT00952367|164739257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.666||||0.001|TWO_SIDED|95.0|0.52|0.855|||Chi-squared|Degrees of freedom=1, Wald Chi-Square=10.233||Whether have brothers or sisters, no vs yes||0.855|0.520|0.001
82572638|NCT02635386|164855095|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
82522106|NCT00781391|164739263|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|97.5|0.632|0.985||Two stratification factor covariates: 1) CHADS2 score 2) dose-adjustment factor. If upper limit of CI of HR was below 1.38, then non-inferiority to warfarin was established for group.|Cox proportional hazards model|||The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.||.985|.632|<.0001
82522107|NCT00781391|164739263|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary|Hazard Ratio (HR)|1.07||||0.0055|TWO_SIDED|97.5|0.874|1.314||Two stratification factor covariates: 1) CHADS2 score 2) dose-adjustment factor. If upper limit of CI of HR was below 1.38, then non-inferiority to warfarin was established for group.|Cox proportional hazards model|||The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.||1.314|.874|.0055
82522108|NCT00781391|164739264|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group.|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|97.5|0.719|1.029|||Cox proportional hazards model|||Non-inferiority or equivalence analysis; Non-inferiority analysis. The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.029|.719|<.0001
82572639|NCT02635386|164855096|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82443171|NCT03131596|164594810|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82522109|NCT00781391|164739264|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group.|Hazard Ratio (HR)|1.13||||0.0074|TWO_SIDED|97.5|0.955|1.336|||Cox proportional hazards model|||Non-inferiority or equivalence analysis; Non-inferiority analysis. The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.336|.955|.0074
82522110|NCT00781391|164739265|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|97.5|0.634|0.989|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||.989|.634|<.0001
82522111|NCT00781391|164739265|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy endpoint, time to the first occurrence of stroke/SEE, was first compared concurrently between each of the 2 edoxaban groups and warfarin group using the mITT Analysis Set in the on-treatment period for non-inferiority. In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.|Hazard Ratio (HR)|1.08||||0.0064|TWO_SIDED|97.5|0.878|1.32|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on treatment and overall study period, although mITT on-treatment was considered primary.||1.32|.878|.0064
82522112|NCT00781391|164739266|NON_INFERIORITY_OR_EQUIVALENCE|"In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.~If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group."|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|97.5|0.72|1.032|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on-treatment and overall study period, although mITT on-treatment was considered primary.||1.032|.720|<.0001
82572640|NCT02635386|164855097|SUPERIORITY||||||<|0.02|||||||ANOVA|nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.02
82572641|NCT02635386|164855098|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
82522113|NCT00781391|164739266|NON_INFERIORITY_OR_EQUIVALENCE|"In order to control the study-wise type-I error rate of two-sided α=0.05 for non-inferiority, each of these 2 comparisons were performed at the statistical significance level of two-sided α=0.025, respectively.~If the upper limit of this CI of the hazard ratio was below 1.38, then non-inferiority to warfarin was considered established for the edoxaban treatment group."|Hazard Ratio (HR)|1.13||||0.0084|TWO_SIDED|97.5|0.958|1.34|||Cox proportional hazards model|||The non-inferiority analysis included the mITT and PP analysis sets for both the on-treatment and overall study period, although mITT on-treatment was considered primary.||1.34|.958|.0084
82522114|NCT00781391|164739267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.081|TWO_SIDED|99.0|0.709|1.068|||Log Rank|||The superiority analysis included the ITT analysis set||1.068|.709|.081
82522115|NCT00781391|164739268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0053|TWO_SIDED|95.0|0.786|0.959|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.959|.786|.0053
82572642|NCT02635386|164855099|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82522116|NCT00781391|164739269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0109|TWO_SIDED|95.0|0.806|0.972|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.972|.806|.0109
82385952|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.17|STANDARD_ERROR_OF_MEAN|0.55||0.7565|TWO_SIDED|90.0|-1.09|0.74||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.74|-1.09|0.7565
82443172|NCT03131596|164594811|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82522117|NCT00781391|164739270|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0168|TWO_SIDED|95.0|0.823|0.981|||Log Rank|||the time to first event was estimated by a KM estimate and was compared between the edoxaban 60 mg group and the warfarin group using a log-rank test at a pairwise comparison significance level of α=0.01.||.981|.823|.0168
82572643|NCT02635386|164855100|SUPERIORITY||||||<|0.04|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.04
82522118|NCT00781391|164739271|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.0009|TWO_SIDED|95.0|0.707|0.914|||Regression, Cox|||All Major Adjudicated Bleeding Events, Safety Analysis Set On-treatment period||.914|.707|.0009
82385953|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.94|STANDARD_ERROR_OF_MEAN|0.58||0.1038|TWO_SIDED|90.0|-1.89|0.01||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.01|-1.89|0.1038
82522119|NCT00781391|164739271|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.47|||<|0.0001|TWO_SIDED|95.0|0.406|0.548|||Regression, Cox|||"All Major Adjudicated Bleeding Events, Safety Analysis Set On-treatment period.~The HR, two-sided CI, and p-value for pairwise comparisons versus Warfarin are based on the Cox regression model with counting process approach for on-treatment including treatment and the two stratification factors as covariates: the dichotomized CHADS2 score and the dichotomized dose-adjustment factor"||.548|.406|<.0001
82522120|NCT00781391|164739271|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||<|0.0001|TWO_SIDED|95.0|0.8|0.918|||Regression, Cox|||Major or Clinically Relevant Non-Major, high dose vs. warfarin||.918|.800|<.0001
82572644|NCT02635386|164855101|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||>0.05
82443173|NCT03131596|164594812|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82522121|NCT00781391|164739271|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.575|0.666|||Regression, Cox|||Major or Clinically Relevant Non-Major, low dose vs. warfarin||.666|.575|<.0001
82572645|NCT02635386|164855102|SUPERIORITY||||||<|0.04|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.04
82639007|NCT00976521|164993366|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||The primary endpoint of infarct size at 30 days measured by cardiac MRI, was summarized using the median, IQR, minimum and maximum values, in each infusion group, comparing the pooled active infusion arm to the pooled control non-infusion arm with the Wilcoxon rank sum test in the ITT analysis set. Data was only analyzed in subjects completing the cardiac MRI study and for whom the imaging data was received and deemed analyzable by the core laboratory.||||0.51
82385954|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.59||0.0868|TWO_SIDED|90.0|-1.98|-0.04||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.04|-1.98|0.0868
82522122|NCT00995501|164739272|SUPERIORITY||Odds Ratio (OR)|0.96||||0.86|TWO_SIDED|99.6|0.45|2.0|||Regression, Logistic|||Compare 4 arms with intensive glucose control vs. 4 arms with conventional glucose control||2|0.45|0.86
82522123|NCT00995501|164739272|SUPERIORITY||Odds Ratio (OR)|0.96||||0.87|TWO_SIDED|99.6|0.45|2.0|||Regression, Logistic|||Compare 4 arms with Dexamethasone vs. 4 arms with Placebo||2|0.45|0.87
82385955|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.6|STANDARD_ERROR_OF_MEAN|0.62||0.0103|TWO_SIDED|90.0|-2.62|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.58|-2.62|0.0103
82385956|NCT01164579|164483823|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.49|STANDARD_ERROR_OF_MEAN|0.63||0.435|TWO_SIDED|90.0|-1.53|0.55||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.55|-1.53|0.4350
82385957|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.58||0.489|TWO_SIDED|90.0|-1.36|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.56|-1.36|0.4890
82522124|NCT00995501|164739272|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9|TWO_SIDED|99.6|0.49|2.2|||Regression, Logistic|||Compare 4 arms with light anesthesia vs. 4 arms with deep anesthesia||2.2|0.49|0.90
82443174|NCT03654885|164594813|NON_INFERIORITY|By assuming the margin of non-inferiority at 24%, the null hypothesis for this non-inferiority testing was to be set up as XEN implanted group (P1)-Trabeculectomy group (P2) ≤-0.24 versus the alternative hypothesis as P1-P2 \>-0.24. Equivalently, non-inferiority of P1 to P2 was to be declared if the lower limit of the 2-sided confidence interval (CI) of the difference of the above endpoint between the two treatment groups computed using normal approximation was found to be greater than -24%.|Percentage Difference|-6.1||||0.487|TWO_SIDED|95.0|-22.9|10.8|||Chi-squared|||||10.8|-22.9|0.487
82522125|NCT00995501|164739273|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8|TWO_SIDED|99.6|0.37|2.3|||Regression, Logistic|||Compare 4 arms with intensive glucose control vs. 4 arms with conventional glucose control||2.3|0.37|0.8
82522126|NCT00995501|164739273|SUPERIORITY||Odds Ratio (OR)|1.1||||0.84|TWO_SIDED|99.6|0.43|2.7|||Regression, Logistic|||Compare 4 arms with Dexamethasone vs. 4 arms with Placebo||2.7|0.43|0.84
82522127|NCT00995501|164739273|SUPERIORITY||Odds Ratio (OR)|1.1||||0.87|TWO_SIDED|99.6|0.42|2.7|||Regression, Logistic|||||2.7|0.42|0.87
82522128|NCT04575051|164739287|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.58|TWO_SIDED|95.0|-1.1|1.96|||Mixed Models Analysis||Difference in the adjusted means for the Consult model and HearCARE model.|The null hypothesis is that the HearCARE intervention does not improve satisfaction with social participation.||1.96|-1.10|0.58
82522129|NCT04575051|164739288|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.95|TWO_SIDED|95.0|-1.13|1.1|||Mixed Models Analysis||The estimated parameter represents the difference between the adjusted means for the Consult and HearCARE models.|The null hypothesis is that the HearCARE intervention does not improve hearing related quality of life.||1.10|-1.13|0.95
82522130|NCT04575051|164739289|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.96|TWO_SIDED|95.0|-1.2|1.14|||Mixed Models Analysis||Estimated Value represents the difference in the means for the Consult and HearCARE models.|||1.14|-1.20|0.96
82522131|NCT04575051|164739290|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.13|TWO_SIDED|95.0|-0.07|0.48|||Mixed Models Analysis||The Estimated Value is the difference between the means of the Consult and HearCARE models.|||0.48|-0.07|0.13
82522132|NCT03492281|164739291|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.8|-0.2||Hypothesis testing was performed for vibegron minus placebo.|Mixed Model for Repeated Measures (MMRM)|||||-0.2|-0.8|<0.001
82522133|NCT03492281|164739291|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16|=|0.0988|TWO_SIDED|95.0|-0.6|0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||0.1|-0.6|=0.0988
82522134|NCT03492281|164739292|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.3||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.3|-0.9|<0.0001
82522135|NCT03492281|164739292|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15|=|0.0123|TWO_SIDED|95.0|-0.7|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.7|=0.0123
82522136|NCT03492281|164739293|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22|=|0.002|TWO_SIDED|95.0|-1.1|-0.2||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.2|-1.1|=0.0020
82522137|NCT03492281|164739293|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23|=|0.0648|TWO_SIDED|95.0|-0.9|0.0||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||0.0|-0.9|=0.0648
82522138|NCT03492281|164739294|SUPERIORITY||Difference in percentage|16.5|||<|0.0001|TWO_SIDED|95.0|9.7|23.4|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||23.4|9.7|<0.0001
82522139|NCT03492281|164739294|SUPERIORITY||Difference in percentage|9.4|||=|0.012|TWO_SIDED|95.0|2.1|16.7|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||16.7|2.1|=0.0120
82522140|NCT03492281|164739295|SUPERIORITY||Difference in percentage|6.3|||=|0.036|TWO_SIDED|95.0|0.4|12.1|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||12.1|0.4|=0.0360
82572646|NCT02635386|164855103|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.0001
82522141|NCT03492281|164739295|SUPERIORITY||Difference in percentage|1.9|||=|0.5447|TWO_SIDED|95.0|-4.1|7.8|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||7.8|-4.1|=0.5447
82522142|NCT03492281|164739296|SUPERIORITY||Difference in percentage|6.8|||=|0.0235|TWO_SIDED|95.0|0.9|12.7|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex and OAB type (wet/dry), with weights proposed by Greenland and Robins.||||12.7|0.9|=0.0235
82522143|NCT03492281|164739296|SUPERIORITY||Difference in percentage|3.7|||=|0.24|TWO_SIDED|95.0|-2.5|10.0|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex and OAB type (wet/dry), with weights proposed by Greenland and Robins.||||10.0|-2.5|=0.2400
82522144|NCT03492281|164739297|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.4|-1.0|<0.0001
82522145|NCT03492281|164739297|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17|=|0.0074|TWO_SIDED|95.0|-0.8|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.8|=0.0074
82522146|NCT03492281|164739298|SUPERIORITY||Least Squares Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|1.24|=|0.0039|TWO_SIDED|95.0|1.2|6.0||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||6.0|1.2|=0.0039
82522147|NCT03492281|164739298|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.32|=|0.021|TWO_SIDED|95.0|0.5|5.7||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||5.7|0.5|=0.0210
82522148|NCT03492281|164739299|SUPERIORITY||Least Squares Mean Difference|21.2|STANDARD_ERROR_OF_MEAN|3.52|<|0.0001|TWO_SIDED|95.0|14.3|28.1||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||28.1|14.3|<0.0001
82522149|NCT03492281|164739299|SUPERIORITY||Least Squares Mean Difference|13.3|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|5.9|20.7||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||20.7|5.9|<0.001
82522150|NCT03492281|164739300|SUPERIORITY||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|1.7|5.8||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||5.8|1.7|<0.001
82522151|NCT03492281|164739300|SUPERIORITY||Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|1.13|=|0.0114|TWO_SIDED|95.0|0.6|5.1|||MMRM|||||5.1|0.6|=0.0114
82522152|NCT03492281|164739301|SUPERIORITY||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-9.2|-4.6||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-4.6|-9.2|<0.0001
82522153|NCT03492281|164739301|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.25|<|0.001|TWO_SIDED|95.0|-7.1|-2.2||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-2.2|-7.1|<0.001
82522154|NCT03492281|164739302|SUPERIORITY||Difference in percentage|12.4|||<|0.0001|TWO_SIDED|95.0|6.7|18.1||CMH=Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel|The CMH risk difference estimate was stratified by OAB type (wet/dry) and sex (female/male), with weights proposed by Greenland and Robins.||||18.1|6.7|<0.0001
82522155|NCT03492281|164739302|SUPERIORITY||Difference in percentage|6.9|||=|0.0236|TWO_SIDED|95.0|0.9|12.8|||Cochran-Mantel-Haenszel|The CMH risk difference estimate was stratified by OAB type (wet/dry) and sex (female/male), with weights proposed by Greenland and Robins.||||12.8|0.9|=0.0236
82522156|NCT03492281|164739303|SUPERIORITY||Difference in percentage|11.7|||<|0.001|TWO_SIDED|95.0|4.7|18.6|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||18.6|4.7|<0.001
82522157|NCT03492281|164739303|SUPERIORITY||Difference in percentage|11.5|||=|0.0022|TWO_SIDED|95.0|4.2|18.9|||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel risk difference estimate was stratified by sex (female/male), with weights proposed by Greenland and Robins.||||18.9|4.2|=0.0022
82522158|NCT03492281|164739304|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.1|-0.3|<0.0001
82522159|NCT03492281|164739304|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05|=|0.0055|TWO_SIDED|95.0|-0.2|0.0||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||0.0|-0.2|=0.0055
82522160|NCT03492281|164739305|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.4|-0.2||Hypothesis testing was performed for vibegron minus placebo.|MMRM|||||-0.2|-0.4|<0.0001
82572647|NCT02635386|164855104|SUPERIORITY||||||<|0.05|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.05
82572648|NCT02635386|164855105|SUPERIORITY||||||<|0.001|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.001
82522161|NCT03492281|164739305|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.3|-0.1||Comparisons between tolterodine ER and placebo are considered descriptive.|MMRM|||||-0.1|-0.3|<0.001
82522162|NCT03624504|164739306|OTHER|Assume expected performance to be 94%. The Objective Performance Criterion (OPC) is set at 83% (same performance threshold in FDA approved global study). Assumes 0.05 significance level, 2-sided, 80% power and 10% study attrition.|Kaplan-Meier survival probability (%)|97.6||||0.0021|TWO_SIDED|95.0|90.6|99.4||The threshold for significance was 0.05.|z test, 1-sided||The major complication free rate (i.e. survival probability) was estimated using the Kaplan-Meier method.|"Null hypothesis: Major complication free rate at 6 months post-implant is less than or equal to 83%~Alternative hypothesis: Major complication free rate at 6 months post-implant is greater than 83%."||99.4|90.6|0.0021
82522163|NCT04496219|164739329|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||This p value relates to instillation adherence||||0.97
82522164|NCT04496219|164739329|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||This p value relates to missed visits.||||0.17
82522165|NCT04496219|164739330|SUPERIORITY|||||||0.5638|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Constipation Symptoms.||||0.5638
82572649|NCT02635386|164855106|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
82522166|NCT04496219|164739330|SUPERIORITY|||||||0.1753|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Diarrhea Symptoms.||||0.1753
82522167|NCT04496219|164739330|SUPERIORITY|||||||0.2062|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Urinary Symptoms.||||0.2062
82443175|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-5.81|STANDARD_ERROR_OF_MEAN|1.155|<|0.001|TWO_SIDED|95.0|-8.074|-3.538||Mixed Model for Repeated Measures (MMRM) model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Day 1||-3.538|-8.074|<0.001
82572650|NCT02635386|164855107|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated Measure general linear model (SS/Drug treatments by visits) including arm of drug treatment as between subjects effect and visit (baseline and post 22-24 weeks treatment) as within subject effect||||<0.035
82522168|NCT04496219|164739331|SUPERIORITY|||||||0.8092|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Global Health.||||0.8092
82522169|NCT04496219|164739331|SUPERIORITY|||||||0.5492|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Physical Function.||||0.5492
82522170|NCT04496219|164739331|SUPERIORITY|||||||0.6464|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Emotional Function.||||0.6464
82522171|NCT04496219|164739331|SUPERIORITY|||||||0.586|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Social Function.||||0.586
82522172|NCT04496219|164739331|SUPERIORITY|||||||0.8999|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Fatigue Symptoms.||||0.8999
82522173|NCT04496219|164739331|SUPERIORITY|||||||0.2007|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Pain Symptoms.||||0.2007
82522174|NCT04496219|164739331|SUPERIORITY|||||||0.9921|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Malaise Symptoms.||||0.9921
82522175|NCT04496219|164739331|SUPERIORITY|||||||0.5723|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Role Function.||||0.5723
82522176|NCT04496219|164739331|SUPERIORITY|||||||0.812|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Cognitive Function.||||0.812
82522177|NCT04496219|164739331|SUPERIORITY|||||||0.96|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Nausea Symptoms.||||0.96
82522178|NCT04496219|164739331|SUPERIORITY|||||||0.1062|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Dyspnoea Symptoms.||||0.1062
82522179|NCT04496219|164739331|SUPERIORITY|||||||0.3259|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Insomnia Symptoms.||||0.3259
82522180|NCT04496219|164739331|SUPERIORITY|||||||0.9664|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Appetite Loss Symptoms.||||0.9664
82522181|NCT04496219|164739331|SUPERIORITY|||||||0.4564|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Finances.||||0.4564
82522182|NCT04496219|164739331|SUPERIORITY|||||||0.1036|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Intravesical Symptoms.||||0.1036
82522183|NCT04496219|164739331|SUPERIORITY|||||||0.1789|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Worries.||||0.1789
82522184|NCT04496219|164739331|SUPERIORITY|||||||0.5186|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Bloating Symptoms.||||0.5186
82522185|NCT04496219|164739331|SUPERIORITY|||||||0.0757|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Sexual Function.||||0.0757
82385958|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|0.08|STANDARD_ERROR_OF_MEAN|0.57||0.8817|TWO_SIDED|90.0|-0.85|1.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||1.02|-0.85|0.8817
82385959|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.24|STANDARD_ERROR_OF_MEAN|0.59||0.0351|TWO_SIDED|90.0|-2.21|-0.27||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.27|-2.21|0.0351
82385960|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.32|STANDARD_ERROR_OF_MEAN|0.58||0.0231|TWO_SIDED|90.0|-2.28|-0.37||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.37|-2.28|0.0231
82522186|NCT04496219|164739331|SUPERIORITY|||||||0.1174|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Male Sex Problems.||||0.1174
82522187|NCT04496219|164739331|SUPERIORITY|||||||0.3129|||||||Chi-squared|||For the patient survey, the two arms will be compared using chi-squared. This analysis is for Intimacy.||||0.3129
82522188|NCT00951483|164739333|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-2.65||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that C-reactive protein (CRP) is no different between the experimental and healthy control cohorts at 12 weeks.||||.001
82385961|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1|STANDARD_ERROR_OF_MEAN|0.62||0.0008|TWO_SIDED|90.0|-3.13|-1.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-1.08|-3.13|0.0008
82522189|NCT00951483|164739334|SUPERIORITY_OR_OTHER||z-score|-4.544|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAM-D-7 score and end of treatment (i.e., 12 week) HAM-D-7 score.||||<.001
82522190|NCT00951483|164739335|SUPERIORITY_OR_OTHER||z-score|-4.627|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAMD-17 score and end of treatment (i.e., 12 week) HAMD-17 score.||||<.001
82522191|NCT00951483|164739336|SUPERIORITY_OR_OTHER||z-score|-4.624|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAMD-21 score and end of treatment (i.e., 12 week) HAMD-21 score.||||<.001
82522192|NCT00951483|164739337|SUPERIORITY_OR_OTHER||z-score|-4.51|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline HAM-A score and end of treatment (i.e., 12 week) HAM-A score.||||<.001
82385962|NCT01164579|164483824|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.29|STANDARD_ERROR_OF_MEAN|0.63||0.0003|TWO_SIDED|90.0|-3.32|-1.25||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-1.25|-3.32|0.0003
82385963|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.35||0.2689|TWO_SIDED|90.0|-0.96|0.19||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.19|-0.96|0.2689
82385964|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9935|TWO_SIDED|90.0|-0.58|0.57||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||0.57|-0.58|0.9935
82522193|NCT00951483|164739338|SUPERIORITY_OR_OTHER||z-score|-4.435|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline BDI score and end of treatment (i.e., 12 week) BDI score.||||<.001
82443176|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-0.22|STANDARD_ERROR_OF_MEAN|1.163||0.851|TWO_SIDED|95.0|-2.503|2.066||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Week 1||2.066|-2.503|0.851
82522194|NCT00951483|164739339|SUPERIORITY_OR_OTHER||z-score|-3.911|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no difference between the intervention cohort's baseline PSS-14 score and end of treatment (i.e., 12 week) PSS-14 score.||||<.001
82522195|NCT03565887|164739340|SUPERIORITY|The primary efficacy endpoints were tested sequentially. The Day 1 Hour 6 time point was tested first and if P\<0.05, the Day 14 Hour 2 time point was tested at a significance level of 0.05. If the Day 1 Hour 6 endpoint is statistically significant (at the 0.05 level) but Day 14 Hour 2 was not statistically significant (at the 0.05 level), the study will still be considered positive.|||||<|0.0001||||||If both primary endpoints (LPFT) are significant at 0.05 significance level, then the secondary efficacy endpoints (MRD) were also tested sequentially. Testing stopped if a P≥ 0.05 for a comparison.|ANCOVA|2 sided t-test with treatment as fixed factor and baseline as covariate.||A two group t-test with a 0.05 two-sided significance level had 90% power to detect a difference in LPFT means of 3.50 assuming that the common standard deviation was 6.0, when the sample sizes in the 2 groups were 94 and 47, respectively (a total sample size of 141).||||<0.0001
82639008|NCT01731600|164993368|OTHER||Incidence rate|0.0|||||ONE_SIDED|97.5||0.067|||||The incidence of inhibitory antibodies was calculated as number of patients with inhibitors during the main phase of the trial divided by number of patients in the main phase of the trial.|A one-sided, upper 97.5% confidence limit was provided based on an exact calculation in the binomial distribution.||0.067||
82639009|NCT00129220|164993395|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.62|||<|0.001|TWO_SIDED|95.0|-8.87|-2.37|||ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-2.37|-8.87|<0.001
82639010|NCT00129220|164993396|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78||||0.774|TWO_SIDED|95.0|-6.15|4.59|||ANCOVA||Least Squares Mean Difference = Olazapine minus Haloperidol.|||4.59|-6.15|0.774
82639011|NCT00129220|164993397|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|21.0||||0.064|TWO_SIDED|95.0|1.6|40.4|||Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||40.4|1.6|0.064
82639012|NCT00129220|164993398|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47||||0.171|TWO_SIDED|95.0|-1.15|0.21|||ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||0.21|-1.15|0.171
82639013|NCT00129220|164993399|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.51||||0.006|TWO_SIDED|95.0|-0.87|-0.15||P-value for 3-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-0.15|-0.87|0.006
82639014|NCT00129220|164993399|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.13||||0.722|TWO_SIDED|95.0|-0.82|0.57||P-value for 6-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||0.57|-0.82|0.722
82639015|NCT00129220|164993400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7||||0.333|TWO_SIDED|95.0|-6.7|20.1||P-value for 3-Week Response Rate.|Cochran-Mantel-Haenszel|||||20.1|-6.7|0.333
82639016|NCT00129220|164993400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.908|TWO_SIDED|95.0|-21.0|18.4||P-value for 6-Week Response Rate.|Cochran-Mantel-Haenszel|||||18.4|-21.0|0.908
82639017|NCT00129220|164993401|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.9||||0.384|TWO_SIDED|95.0|-7.3|19.2||P-value for 3-Week Remission Rate.|Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Placebo.|||19.2|-7.3|0.384
82639018|NCT00129220|164993401|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3||||0.982|TWO_SIDED|95.0|-21.3|21.8||P-value is for 6-Week Remission Rate|Cochran-Mantel-Haenszel||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||21.8|-21.3|0.982
82639019|NCT00129220|164993402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.698|TWO_SIDED|95.0|-3.2|4.9||P-value for 3-Week Symptomatic Depression Rate.|Cochran-Mantel-Haenszel|||||4.9|-3.2|0.698
82443177|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.03|STANDARD_ERROR_OF_MEAN|1.162||0.081|TWO_SIDED|95.0|-0.253|4.309||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Week 2||4.309|-0.253|0.081
82639020|NCT00129220|164993402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.1||||0.014|TWO_SIDED|95.0|-31.7|3.4||P-value for 6-Week Symptomatic Depression Rate.|Cochran-Mantel-Haenszel|||||3.4|-31.7|0.014
82639021|NCT00129220|164993403|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.48||||0.019|TWO_SIDED|95.0|-2.71|-0.25||P-value for 3-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Placebo.|||-0.25|-2.71|0.019
82639022|NCT00129220|164993403|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16||||0.855|TWO_SIDED|95.0|-1.95|1.62||P-value for 6-Week Change.|ANCOVA||Least Squares Mean Difference = Olanzapine minus Haloperidol.|||1.62|-1.95|0.855
82639023|NCT00129220|164993404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6||||0.136|TWO_SIDED|95.0|-14.9|5.7||P-value for 6-Week Syndromic Depression Rate.|Cochran-Mantel-Haenszel|||||5.7|-14.9|0.136
82522196|NCT03565887|164739341|SUPERIORITY|If both primary endpoints (LPFT) are significant at 0.05 significance level, then the secondary efficacy endpoints (MRD) were also tested sequentially. Testing stopped if a P≥ 0.05 for a comparison.|||||<|0.0151|||||||ANCOVA|||A two group t-test with a 0.05 two-sided significance level had 90% power to detect a difference in LPFT means of 3.50 assuming that the common standard deviation was 6.0, when the sample sizes in the 2 groups were 94 and 47, respectively (a total sample size of 141).||||<0.0151
82639024|NCT00129220|164993405|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Maximum Change from Baseline.|Wilcoxon Rank Sum|||||||0.003
82639025|NCT02322866|164993418|SUPERIORITY||Least Squares Mean Difference|-4.4|||<|0.0001|TWO_SIDED|95.0|-5.8|-2.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|||-2.9|-5.8|< 0.0001
82639026|NCT02322866|164993419|SUPERIORITY||Treatment Rate Difference|7.3||||0.0038|TWO_SIDED|95.0|2.53|12.07||P-values were based on the test of general association between the response and treatment group using Cochran-Mantel-Haenszel test with pooled site as stratification factor.|Cochran-Mantel-Haenszel||sarecycline - placebo|||12.07|2.53|0.0038
82522197|NCT03364751|164739342|OTHER||LS Mean Difference|0.068||||0.297|TWO_SIDED|95.0|-0.06|0.196|||Mixed Models Analysis|||Month 6: Difference between Cigarette and IQOS||0.196|-0.060|0.297
82522198|NCT03364751|164739342|OTHER||LS Mean Difference|-0.064||||0.55|TWO_SIDED|95.0|-0.273|0.146|||Mixed Models Analysis|||Month 6: Difference between Cigarette and Dual Use||0.146|-0.273|0.550
82522199|NCT03364751|164739343|OTHER||LS Mean Difference|0.043||||0.502|TWO_SIDED|95.0|-0.084|0.171|||Mixed Models Analysis|||Month 3: Difference between Cigarette and IQOS||0.171|-0.084|0.502
82522200|NCT03364751|164739343|OTHER||LS Mean Difference|-0.02||||0.851|TWO_SIDED|95.0|-0.229|0.189|||Mixed Models Analysis|||Month 3: Difference between Cigarette and Dual Use||0.189|-0.229|0.851
82522201|NCT03364751|164739344|OTHER||LS Mean Difference|0.07||||0.376|TWO_SIDED|95.0|-0.085|0.224|||Mixed Models Analysis|||Month 3: Difference between Cigarette and IQOS||0.224|-0.085|0.376
82522202|NCT03364751|164739344|OTHER||LS Mean Difference|0.025||||0.848|TWO_SIDED|95.0|-0.229|0.279|||Mixed Models Analysis|||Month 3: Difference between Cigarette and DualUse||0.279|-0.229|0.848
82522203|NCT03364751|164739344|OTHER||LS Mean Difference|0.092||||0.246|TWO_SIDED|95.0|-0.064|0.247|||Mixed Models Analysis|||Month 6: Difference between Cigarette and IQOS||0.247|-0.064|0.246
82522204|NCT03364751|164739344|OTHER||LS Mean Difference|-0.105||||0.417|TWO_SIDED|95.0|-0.359|0.15|||Mixed Models Analysis|||Month 6: Difference between Cigarette and Dual Use||0.150|-0.359|0.417
82385965|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.35||0.1086|TWO_SIDED|90.0|-1.15|0.01||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.01|-1.15|0.1086
82523441|NCT01422408|164742369|OTHER|||||||0.08531||||||No adjustment for multiple comparison. Significance level of 0.05. Since this endpoint is of an exploratory nature and the significance is well above the threshold, not much more consideration was given to the issue of multiple comparisons|ANOVA|Kruskal-Wallis ANOVA rather than ANOVA since normal distribution of residuals may be suspect.||In order to compare the response between groups, Kruskal-Wallis ANOVA was used.||||0.08531
82639027|NCT02322866|164993420|SUPERIORITY||Least Squares Mean Difference|-14.4|||<|0.0001|TWO_SIDED|95.0|-19.4|-9.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||-9.5|-19.4|< 0.0001
82385966|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.08|STANDARD_ERROR_OF_MEAN|0.35||0.8092|TWO_SIDED|90.0|-0.66|0.49||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.49|-0.66|0.8092
82385967|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.35||0.0463|TWO_SIDED|90.0|-1.29|-0.12||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.12|-1.29|0.0463
82385968|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.35||0.0624|TWO_SIDED|90.0|-1.25|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.25|0.0624
82385969|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.29|STANDARD_ERROR_OF_MEAN|0.37||0.0005|TWO_SIDED|90.0|-1.9|-0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.69|-1.90|0.0005
82443178|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.21|STANDARD_ERROR_OF_MEAN|1.157||0.056|TWO_SIDED|95.0|-0.059|4.484||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 1||4.484|-0.059|0.056
82639028|NCT02322866|164993421|SUPERIORITY||Least Squares Mean Difference|-12.6|||<|0.0001|TWO_SIDED|95.0|-17.3|-7.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||-7.9|-17.3|< 0.0001
82639029|NCT02322866|164993422|SUPERIORITY||Least Squares Mean Difference|-11.8|||<|0.0001|TWO_SIDED|95.0|-16.1|-7.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||-7.5|-16.1|< 0.0001
82639030|NCT02322866|164993423|SUPERIORITY||Least Squares Mean Difference|-9.4|||<|0.0001|TWO_SIDED|95.0|-13.5|-5.3||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||-5.3|-13.5|< 0.0001
82385970|NCT01164579|164483825|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.26|STANDARD_ERROR_OF_MEAN|0.37||0.0008|TWO_SIDED|90.0|-1.87|-0.65||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.65|-1.87|0.0008
82385971|NCT01164579|164483826|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5019|TWO_SIDED|90.0|-1.68|0.71||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.71|-1.68|0.5019
82385972|NCT01164579|164483826|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.73||0.1462|TWO_SIDED|90.0|-2.28|0.14||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.14|-2.28|0.1462
82385973|NCT01164579|164483826|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.74||0.49|TWO_SIDED|90.0|-1.74|0.72||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.72|-1.74|0.4900
82385974|NCT01164579|164483826|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.51|STANDARD_ERROR_OF_MEAN|0.75||0.0459|TWO_SIDED|90.0|-2.76|-0.27|||mixed model repeated measures analysis|||Month 12||-0.27|-2.76|0.0459
82385975|NCT01164579|164483827|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5019|TWO_SIDED|90.0|-1.68|0.71||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.71|-1.68|0.5019
82385976|NCT01164579|164483827|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.07|STANDARD_ERROR_OF_MEAN|0.73||0.1462|TWO_SIDED|90.0|-2.28|0.14||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.14|-2.28|0.1462
82385977|NCT01164579|164483827|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.74||0.49|TWO_SIDED|90.0|-1.74|0.72||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.72|-1.74|0.4900
82385978|NCT01164579|164483827|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.51|STANDARD_ERROR_OF_MEAN|0.75||0.0459|TWO_SIDED|90.0|-2.76|-0.27||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.27|-2.76|0.0459
82385979|NCT01164579|164483828|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.5||0.8959|TWO_SIDED|90.0|-0.89|0.76||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.76|-0.89|0.8959
82385980|NCT01164579|164483828|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.5||0.4193|TWO_SIDED|90.0|-1.25|0.43||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.43|-1.25|0.4193
82385981|NCT01164579|164483828|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.51||0.5764|TWO_SIDED|90.0|-1.13|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.56|-1.13|0.5764
82385982|NCT01164579|164483828|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1101|TWO_SIDED|90.0|-1.69|0.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.02|-1.69|0.1101
82385983|NCT01164579|164483829|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.5||0.8959|TWO_SIDED|90.0|-0.89|0.76||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.76|-0.89|0.8959
82385984|NCT01164579|164483829|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.41|STANDARD_ERROR_OF_MEAN|0.5||0.4193|TWO_SIDED|90.0|-1.25|0.43||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.43|-1.25|0.4193
82385985|NCT01164579|164483829|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.29|STANDARD_ERROR_OF_MEAN|0.51||0.5764|TWO_SIDED|90.0|-1.13|0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.56|-1.13|0.5764
82639031|NCT02322866|164993424|SUPERIORITY||Least Squares Mean Difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.2|-2.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-2.5|-5.2|< 0.0001
82639032|NCT02322866|164993425|SUPERIORITY||Least Squares Mean Difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-2.4|-5.0|< 0.0001
82639033|NCT02322866|164993426|SUPERIORITY||Least Squares Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.1|-1.7||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||-1.7|-4.1|< 0.0001
82639034|NCT00463385|164993432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||Fisher Exact|||||||0.092
82639035|NCT00463385|164993432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048||95.0|||||Fisher Exact|||||||0.048
82639036|NCT00463385|164993432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758||95.0|||||Fisher Exact|||||||0.758
82639037|NCT00798161|164993442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.79|-0.36||hierarchical testing, no adjustment of p-values|ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.36|-0.79|<0.0001
82639038|NCT00798161|164993442|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.73|-0.3||hierarchical testing, no adjustment of p-values|ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.30|-0.73|<0.0001
82639039|NCT00798161|164993442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.99|-0.55||hierarchical testing, no adjustment of p-values|ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.55|-0.99|<0.0001
82639040|NCT00798161|164993442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.36|-0.92||hierarchical testing, no adjustment of p-values|ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.92|-1.36|<0.0001
82639041|NCT00798161|164993443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.56|-0.26|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.26|-0.56|<0.0001
82639042|NCT00798161|164993443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.53|-0.23|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.23|-0.53|<0.0001
82639043|NCT00798161|164993443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.65|-0.35|||ANCOVA|||Linagliptin 5mg vs Linagliptin 2.5mg with metformin 500mg||-0.35|-0.65|<0.0001
82639044|NCT00798161|164993443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.79|-0.48|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.48|-0.79|<0.0001
82639045|NCT00798161|164993444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.72|-0.31|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.31|-0.72|<0.0001
82639046|NCT00798161|164993444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.63|-0.22|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.22|-0.63|<0.0001
82639047|NCT00798161|164993444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.92|-0.51|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.51|-0.92|<0.0001
82639048|NCT00798161|164993444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.16|-0.75|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.75|-1.16|<0.0001
82639049|NCT00798161|164993445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.73|-0.29|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.29|-0.73|<0.0001
82639050|NCT00798161|164993445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.69|-0.26|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.26|-0.69|<0.0001
82639051|NCT00798161|164993445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.94|-0.49|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-0.49|-0.94|<0.0001
82639052|NCT00798161|164993445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-1.3|-0.86|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-0.86|-1.30|<0.0001
82639053|NCT00798161|164993446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|STANDARD_ERROR_OF_MEAN|5.0||0.0005||95.0|-27.2|-7.6|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-7.6|-27.2|0.0005
82639054|NCT00798161|164993446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|STANDARD_ERROR_OF_MEAN|5.0||0.0006||95.0|-27.1|-7.3|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-7.3|-27.1|0.0006
82639055|NCT00798161|164993446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.6|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001||95.0|-34.4|-14.8|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-14.8|-34.4|<0.0001
82639056|NCT00798161|164993446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001||95.0|-50.6|-31.0|||ANCOVA|||Linagliptin 5mg vs. linagliptin 2.5mg with metformin 1000mg||-31.0|-50.6|<0.0001
82639057|NCT00798161|164993447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|4.1||0.0003||95.0|-22.9|-6.8|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-6.8|-22.9|0.0003
82639058|NCT00798161|164993447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-24.9|-8.8|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.8|-24.9|<0.0001
82639059|NCT00798161|164993447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-29.5|-13.4|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-13.4|-29.5|<0.0001
82522205|NCT02413580|164739364|OTHER|The hypothesis test is to test the null hypothesis: H0: μd = 0 versus alternative hypothesis Ha: μd ≠ 0 where μd is the mean change from Baseline to Day 14. The Shapiro-Wilk test is used to test the normality. If the assumptions for parametric test are met, a paired t-test (comparison between the pre- and post-treatment) is used to test for the treatment effect. Otherwise, a non-parametric test (Wilcoxon signed rank test) is used.|Mean Difference (Final Values)|-6.4|||<|0.001|TWO_SIDED|95.0|-7.957|-4.787|||Paired t-test|||||-4.787|-7.957|<0.001
82639060|NCT00798161|164993447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001||95.0|-33.6|-17.6|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-17.6|-33.6|<0.0001
82639061|NCT00798161|164993448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-26.7|-9.1|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-9.1|-26.7|<0.0001
82522206|NCT01215292|164739401|NON_INFERIORITY_OR_EQUIVALENCE|80% power to detect 20% difference in ITT|||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
82639062|NCT00798161|164993448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|4.5||0.0002||95.0|-25.6|-7.9|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-7.9|-25.6|0.0002
82443179|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|4.74|STANDARD_ERROR_OF_MEAN|1.181|<|0.001|TWO_SIDED|95.0|2.416|7.054||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 3||7.054|2.416|<0.001
82639063|NCT00798161|164993448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.9|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-36.7|-19.1|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-19.1|-36.7|<0.0001
82639064|NCT00798161|164993448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001||95.0|-46.4|-28.8|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-28.8|-46.4|<0.0001
82639065|NCT00798161|164993449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|STANDARD_ERROR_OF_MEAN|4.7||0.0024||95.0|-23.7|-5.1|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-5.1|-23.7|0.0024
82639066|NCT00798161|164993449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.0|STANDARD_ERROR_OF_MEAN|4.8||0.0002||95.0|-27.4|-8.7|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.7|-27.4|0.0002
82639067|NCT00798161|164993449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.8|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001||95.0|-37.1|-18.5|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-18.5|-37.1|<0.0001
82639068|NCT00798161|164993449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.5|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001||95.0|-50.8|-32.2|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-32.2|-50.8|<0.0001
82522207|NCT01215292|164739402|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
82522208|NCT01215292|164739403|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.05
82639069|NCT00798161|164993450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001||95.0|-30.4|-11.4|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||-11.4|-30.4|<0.0001
82639070|NCT00798161|164993450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|4.9||0.0003||95.0|-27.4|-8.3|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||-8.3|-27.4|0.0003
82639071|NCT00798161|164993450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|-35.0|-15.9|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-15.9|-35.0|<0.0001
82639072|NCT00798161|164993450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.0|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|-48.5|-29.4|||ANCOVA|||Linagliptin 5 mg vs. Linagliptin 2.5 mg with Metformin 1000 mg||-29.4|-48.5|<0.0001
82639073|NCT00798161|164993451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.372||||0.0062||95.0|1.278|4.402|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||4.402|1.278|0.0062
82639074|NCT00798161|164993451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.163|||<|0.0001||95.0|2.343|7.397|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||7.397|2.343|<0.0001
82639075|NCT00798161|164993451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.854|||<|0.0001||95.0|2.363|9.973|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||9.973|2.363|<0.0001
82639076|NCT00798161|164993451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.094|||<|0.0001||95.0|8.238|35.471|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||35.471|8.238|<0.0001
82639077|NCT00798161|164993453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.465||||0.0102||95.0|1.342|8.943|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||8.943|1.342|0.0102
82639078|NCT00798161|164993453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.521||||0.0004||95.0|1.747|7.094|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||7.094|1.747|0.0004
82639079|NCT00798161|164993453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.521||||0.0053||95.0|1.564|13.069|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||13.069|1.564|0.0053
82639080|NCT00798161|164993453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.947|||<|0.0001||95.0|4.314|33.08|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||33.080|4.314|<0.0001
82639081|NCT00798161|164993455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.181|||<|0.0001||95.0|1.903|5.316|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||5.316|1.903|<0.0001
82639082|NCT00798161|164993455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.382||||0.0027||95.0|1.352|4.196|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||4.196|1.352|0.0027
82639083|NCT00798161|164993455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.622|||<|0.0001||95.0|2.153|6.093|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||6.093|2.153|<0.0001
82639084|NCT00798161|164993455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.529|||<|0.0001||95.0|3.724|11.445|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication.||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||11.445|3.724|<0.0001
82639085|NCT00798161|164993456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|22.7||0.8893||95.0|-48.5|42.2|||ANCOVA|||Metformin 500mg vs. Linagliptin 2.5mg with Metformin 500mg||42.2|-48.5|0.8893
82639086|NCT00798161|164993456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.0|STANDARD_ERROR_OF_MEAN|22.1||0.3234||95.0|-66.2|22.2|||ANCOVA|||Metformin 1000mg vs. Linagliptin 2.5mg with Metformin 1000mg||22.2|-66.2|0.3234
82639087|NCT00798161|164993456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.8|STANDARD_ERROR_OF_MEAN|23.8||0.0373||95.0|-98.5|-3.1|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 500mg||-3.1|-98.5|0.0373
82639088|NCT00798161|164993456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-73.9|STANDARD_ERROR_OF_MEAN|22.7||0.0018||95.0|-119.3|-28.6|||ANCOVA|||Linagliptin 5mg vs. Linagliptin 2.5mg with Metformin 1000mg||-28.6|-119.3|0.0018
82639089|NCT00798161|164993459|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.326||||0.0445|TWO_SIDED|95.0|0.109|0.973|||Regression, Logistic|||||0.973|0.109|0.0445
82639090|NCT00798161|164993459|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.274||||0.0151|TWO_SIDED|95.0|0.096|0.779|||Regression, Logistic|||||0.779|0.096|0.0151
82639091|NCT00798161|164993459|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.049|TWO_SIDED|95.0|0.177|0.996|||Regression, Logistic|||||0.996|0.177|0.0490
82639092|NCT00798161|164993459|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.598||||0.2617|TWO_SIDED|95.0|0.244|1.467|||Regression, Logistic|||||1.467|0.244|0.2617
82639093|NCT04579666|164993476|SUPERIORITY||Difference in LS Mean|-3.0||||0.7205|TWO_SIDED|95.0|-19.5|13.5|||ANCOVA|||Analysis of covariance (ANCOVA) was used to analyze the ranks of the CAFS score with treatment as a fixed effect, adjusted for baseline ALSFRS-R total score, time from symptom onset, baseline Log neurofilament light chain (NfL), and the randomization stratification factors (location of first muscle weakness and use of riluzole and edaravone).||13.5|-19.5|0.7205
82639094|NCT04579666|164993481|SUPERIORITY||Difference in LS Mean|-0.7||||0.6447|TWO_SIDED|95.0|-3.5|2.2|||MMRM|||The mixed-effect model for repeated measures (MMRM) included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors location of first muscle weakness and use of riluzole and/or edaravone).||2.2|-3.5|0.6447
82639095|NCT04579666|164993482|SUPERIORITY||Difference in LS Mean|-6.6||||0.0949|TWO_SIDED|95.0|-14.3|1.2|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||1.2|-14.3|0.0949
82522209|NCT02363946|164739407|OTHER||alpha estimate|9.557|STANDARD_ERROR_OF_MEAN|0.037|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte AD00370||||
82443180|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|3.01|STANDARD_ERROR_OF_MEAN|1.197||0.012|TWO_SIDED|95.0|0.657|5.358||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 6||5.358|0.657|0.012
82522210|NCT02363946|164739407|OTHER||beta estimate|1.173|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|1.128|1.218|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte AD00370|R-square (r\^2)=0.98|1.218|1.128|
82522211|NCT02363946|164739407|OTHER||alpha estimate|9.824|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte ARC-MLP||||
82522212|NCT02363946|164739407|OTHER||beta estimate|1.103|STANDARD_ERROR_OF_MEAN|0.029|||TWO_SIDED|95.0|1.054|1.153|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter Cmax for Analyte ARC-MLP|R-square (r\^2)=0.98|1.153|1.054|
82522213|NCT02363946|164739409|OTHER||alpha estimate|11.274|STANDARD_ERROR_OF_MEAN|0.057|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte AD00370||||
82522214|NCT02363946|164739409|OTHER||beta estimate|1.181|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|1.112|1.249|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte AD00370|R-square (r\^2)=0.96|1.249|1.112|
82522215|NCT02363946|164739409|OTHER||alpha estimate|12.133|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte ARC-MLP||||
82522216|NCT02363946|164739409|OTHER||beta estimate|1.147|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|1.08|1.215|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUC0-24 for Analyte ARC-MLP|R-square (r\^2)=0.96|1.215|1.080|
82522217|NCT02363946|164739410|OTHER||alpha estimate|11.286|STANDARD_ERROR_OF_MEAN|0.058|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte AD00370||||
82522218|NCT02363946|164739410|OTHER||beta estimate|1.179|STANDARD_ERROR_OF_MEAN|0.041|||TWO_SIDED|95.0|1.11|1.249|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte AD00370|R-square (r\^2)=0.96|1.249|1.110|
82522219|NCT02363946|164739410|OTHER||alpha estimate|12.347|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED||||||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte ARC-MLP||||
82522220|NCT02363946|164739410|OTHER||beta estimate|1.163|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED|95.0|1.081|1.245|||||Estimation of model: Parameter = alpha \* Dose\^beta. Determined from linear regression model: Log(Parameter) = log(Dose)|Dose-Proportionality of Pharmacokinetic Parameter AUCinf for Analyte ARC-MLP|R-square (r\^2)=0.95|1.245|1.081|
82522221|NCT01292239|164739419|SUPERIORITY_OR_OTHER||(see comment)|27.5|||<|0.0001|TWO_SIDED|95.0|14.38|40.56||The p-value was based on the asymptomatic distribution of the generalized Cochran-Mantel-Haenszel (CMH) statistic controlling for stratification factors.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for stratification factors (age and IL28B genotype).|The parameter estimated was the difference of stratum adjusted proportion between groups.|||40.56|14.38|<0.0001
82522222|NCT01292239|164739420|SUPERIORITY_OR_OTHER||(see comment)|32.6|||<|0.0001|TWO_SIDED|95.0|19.75|45.4||The p-value was based on the asymptomatic distribution of the generalized Cochran-Mantel-Haenszel (CMH) statistic controlling for stratification factors.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for stratification factors (age and IL28B genotype).|The parameter estimated was the difference of stratum adjusted proportion between groups.|||45.40|19.75|<0.0001
82522223|NCT00765388|164739430|SUPERIORITY_OR_OTHER|||||||0.96|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference in the multinomial distributions defined by products||||||0.96
82522224|NCT00765388|164739432|SUPERIORITY_OR_OTHER|||||||0.92|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference in the multinomial distributions defined by products||||||0.92
82639096|NCT04579666|164993483|SUPERIORITY||Difference in LS Mean|-0.19||||0.0935|TWO_SIDED|95.0|-0.42|0.03|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||0.03|-0.42|0.0935
82639097|NCT04579666|164993485|SUPERIORITY||Difference in LS Mean|6.5||||0.0069|TWO_SIDED|95.0|1.8|11.1|||MMRM|||The MMRM included fixed categorical effects for treatment, week, and the week-by-treatment interaction, as well as the continuous, fixed covariate of the baseline value of the endpoint, and the week-by-baseline interaction, baseline log NfL, time from symptoms onset to the first dose of study drug, and randomization stratification factors (location of first muscle weakness and use of riluzole and/or edaravone).||11.1|1.8|0.0069
82522225|NCT00765388|164739434|SUPERIORITY_OR_OTHER|||||||0.4||0.0|||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.40
82522226|NCT00765388|164739435|SUPERIORITY_OR_OTHER|||||||0.64|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.64
82385986|NCT01164579|164483829|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1101|TWO_SIDED|90.0|-1.69|0.02||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.02|-1.69|0.1101
82639098|NCT01982942|164993492|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||The null hypothesis states that the BPF rates of change in the treatment and placebo groups are equal, which can be evaluated based on as assessment of parameter estimates from a linear mixed model (LMM).||||0.04
82639099|NCT00401726|164993562|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.25||||0.218|||||||Chi-squared|||||||0.218
82385987|NCT01164579|164483830|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.35||0.2351|TWO_SIDED|90.0|-1.0|0.16||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.16|-1.00|0.2351
82385988|NCT01164579|164483830|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0631|TWO_SIDED|90.0|-1.27|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.27|0.0631
82385989|NCT01164579|164483830|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.23|STANDARD_ERROR_OF_MEAN|0.36||0.5369|TWO_SIDED|90.0|-0.83|0.38||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.38|-0.83|0.5369
82385990|NCT01164579|164483830|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.062|TWO_SIDED|90.0|-1.31|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.08|-1.31|0.0620
82385991|NCT01164579|164483831|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.35||0.2351|TWO_SIDED|90.0|-1.0|0.16||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||0.16|-1.00|0.2351
82522227|NCT00765388|164739436|SUPERIORITY_OR_OTHER|||||||0.55|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.55
82522228|NCT00765388|164739437|SUPERIORITY_OR_OTHER|||||||0.48|||||||Regression, Logistic|An ordinal logistic regression model. The null hypothesis tested is that there is no difference inthe multinomial distributions defined by products||||||0.48
82522229|NCT03923933|164739444|SUPERIORITY||||||<|0.001|||||||ANOVA|anova repeated measures||||||<0.001
82522230|NCT03923933|164739445|SUPERIORITY|||||||0.006|||||||ANOVA|Repeated Measures||||||0.006
82522231|NCT03923933|164739446|SUPERIORITY|||||||0.371|||||||ANOVA|||||||0.371
82522232|NCT03923933|164739447|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82522233|NCT03923933|164739449|SUPERIORITY|||||||0.028|||||||ANOVA|||||||0.028
82385992|NCT01164579|164483831|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0631|TWO_SIDED|90.0|-1.27|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.08|-1.27|0.0631
82385993|NCT01164579|164483831|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.23|STANDARD_ERROR_OF_MEAN|0.36||0.5369|TWO_SIDED|90.0|-0.83|0.38||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||0.38|-0.83|0.5369
82385994|NCT01164579|164483831|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.69|STANDARD_ERROR_OF_MEAN|0.37||0.062|TWO_SIDED|90.0|-1.31|-0.08||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.08|-1.31|0.0620
82385995|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.12|STANDARD_ERROR_OF_MEAN|11.24||0.243|TWO_SIDED|90.0|-5.36|31.62|||Normal approximation to the binomial|||Month 1||31.62|-5.36|0.2430
82385996|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 1||45.90|8.91|0.0147
82522234|NCT03923933|164739450|SUPERIORITY|||||||0.018|||||||ANOVA|||||||0.018
82522235|NCT03015402|164739455|SUPERIORITY|Pre-randomization characteristics of 2 groups will be presented using the median (IQR) or frequency tables at each study sequence. The difference of mPAP during submax exercise compared between placebo and nitrite at 10 weeks (i.e. week 10 RHC of placebo vs week 10 RHC of nitrite) using parametric PK-cross analysis (i.e. ANOVA to determine the sequence, period, carryover, \& treatment effects). Post-exercise values before \& after crossover will be compared between 2 groups using similar approach.||||||0.2|||||||ANOVA|||||||0.20
82522236|NCT01995461|164739490|SUPERIORITY_OR_OTHER|||||||0.0252|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.0252
82522237|NCT01995461|164739491|SUPERIORITY_OR_OTHER|||||||0.0154|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.0154
82522238|NCT01995461|164739492|SUPERIORITY_OR_OTHER|||||||0.1349|TWO_SIDED||||||t-test, 2 sided|paired t-test||||||0.1349
82522239|NCT00540124|164739494|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.073
82522240|NCT00540124|164739494|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.186
82522241|NCT00540124|164739495|SUPERIORITY_OR_OTHER|||||||0.155||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.155
82639100|NCT00401726|164993563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.76||95.0|-0.92|1.25|||ANCOVA|||||1.25|-0.92|0.76
82639101|NCT00401726|164993564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.148||95.0|-0.41|0.06|||ANCOVA|||||0.06|-0.41|0.148
82522242|NCT00540124|164739495|SUPERIORITY_OR_OTHER|||||||0.155||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.155
82522243|NCT00540124|164739495|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.108
82522244|NCT00540124|164739495|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.112
82522245|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.137||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.137
82639102|NCT00401726|164993565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.829||95.0|-1.09|0.87|||ANCOVA|||||0.87|-1.09|0.829
82522246|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.009
82522247|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.118
82385997|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.03|STANDARD_ERROR_OF_MEAN|11.25||0.0127|TWO_SIDED|90.0|9.51|46.54|||Normal approximation to the binomial|||Month 2||46.54|9.51|0.0127
82522248|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.018
82522249|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.207||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.207
82522250|NCT00540124|164739496|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.581
82522251|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.306
82522252|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.762||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.762
82522253|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.203||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.203
82522254|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.464
82522255|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.169
82522256|NCT00540124|164739497|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.243
82639103|NCT00401726|164993566|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.57||||0.728|||||||Chi-squared|||||||0.728
82639104|NCT00401726|164993567|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.805||95.0|-2.24|1.74|||ANCOVA|||||1.74|-2.24|0.805
82639105|NCT00401726|164993568|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.123||95.0|-2.27|0.27|||ANCOVA|||||0.27|-2.27|0.123
82639106|NCT00401726|164993569|SUPERIORITY_OR_OTHER|||||||0.961|||||||Cochran-Mantel-Haenszel|p-value based on comparison of mean score differences||CGI-I raw scores (range 1-7) analyzed by generalized Cochran-Mantel-Haenszel (CMH) test, stratified by study center using the ridit scoring option.||||0.961
82639107|NCT02067728|164993571|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||Chi-squared|||||||0.0029
82385998|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.57|STANDARD_ERROR_OF_MEAN|11.45||0.0724|TWO_SIDED|90.0|1.73|39.41|||Normal approximation to the binomial|||Month 2||39.41|1.73|0.0724
82385999|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.49|STANDARD_ERROR_OF_MEAN|10.85||0.0086|TWO_SIDED|90.0|10.63|46.35|||Normal approximation to the binomial|||Month 3||46.35|10.63|0.0086
82386000|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.46|STANDARD_ERROR_OF_MEAN|11.55||0.2808|TWO_SIDED|90.0|-6.54|31.47|||Normal approximation to the binomial|||Month 3||31.47|-6.54|0.2808
82386001|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55|||Normal approximation to the binomial|||Month 9||46.55|9.81|0.0115
82386002|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.09|STANDARD_ERROR_OF_MEAN|11.56||0.1921|TWO_SIDED|90.0|-3.94|34.12|||Normal approximation to the binomial|||Month 9||34.12|-3.94|0.1921
82386003|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55|||Normal approximation to the binomial|||Month 12||46.55|9.81|0.0115
82443181|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|3.53|STANDARD_ERROR_OF_MEAN|1.197||0.003|TWO_SIDED|95.0|1.182|5.883||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 9||5.883|1.182|0.003
82522257|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.206
82443182|NCT03654885|164594815|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|2.77|STANDARD_ERROR_OF_MEAN|1.229||0.024|TWO_SIDED|95.0|0.358|5.183||MMRM model with treatment and time as the factors, treatment by time interaction and Baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change From Baseline in Mean IOP Over Time: Month 12||5.183|0.358|0.024
82522258|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value for 4 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.457
82522259|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.892||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.892
82639108|NCT02067728|164993572|SUPERIORITY_OR_OTHER|||||||0.3875|TWO_SIDED||||||t-test, 2 sided|||||||0.3875
82639109|NCT02067728|164993573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_DEVIATION|0.42|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82639110|NCT02067728|164993574|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82639111|NCT02067728|164993575|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||||||1.000
82639112|NCT02067728|164993576|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.3|||<|0.0001|TWO_SIDED|95.0|2.2|4.9|||Chi-squared|||||4.9|2.2|<0.0001
82639113|NCT02067728|164993577|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.9|||<|0.0001|TWO_SIDED|95.0|2.0|4.5|||Chi-squared|||||4.5|2.0|<0.0001
82639114|NCT02067728|164993580|SUPERIORITY_OR_OTHER|||||||0.4835|TWO_SIDED||||||t-test, 2 sided|||||||0.4835
82639115|NCT02067728|164993581|SUPERIORITY_OR_OTHER|||||||0.588|TWO_SIDED||||||t-test, 2 sided|||||||0.5880
82639116|NCT00694070|164993582|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 80%, with n=51, critical number is 38. With this critical value and sample size, the power to reject Ho is approximately 87.43%."||||||0.0421|||||||Exact binomial test|||||||0.0421
82639117|NCT00694070|164993583|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 95%, with n=51, critical number is 47. With this critical value and sample size, the power to reject Ho is approximately 88.96%."||||||0.0309|||||||Exact binomial test|||||||0.0309
82522260|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.593||95.0||||P-value for 8 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.593
82522261|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.887||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.887
82522262|NCT00540124|164739498|SUPERIORITY_OR_OTHER|||||||0.762||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from ANCOVA with effects for treatment, prior alpha blocker use (yes/no), time (visit), baseline value, and time\*treatment interaction. Model used an unstructured covariance.|ANCOVA|||||||0.762
82639118|NCT00694070|164993584|NON_INFERIORITY_OR_EQUIVALENCE|"The null and alternative hypotheses for these tests will have the form:~Ho: Pr{Success} \< Po vs. Ha: Pr{Success} ≥ Po. Critical values for numbers of successes were computed to give approximately a 90% chance of rejecting Ho in favor of the alternative (non-inferiority) if the true probability of success is at least Po. For Po = 90%, with n=51, critical number is 43. With this critical value and sample size, the power to reject Ho is approximately 93.57%."||||||0.0309|||||||Exact binomial test|||||||0.0309
82639119|NCT00830310|164993632|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||<0.001
82639120|NCT00830310|164993633|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.002
82639121|NCT00830310|164993634|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.001
82639122|NCT00830310|164993635|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.001
82639123|NCT00830310|164993636|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.001
82639124|NCT00830310|164993637|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.011
82443183|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.505|TWO_SIDED|95.0|-0.36|0.18||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Day 1||0.18|-0.36|0.505
82522263|NCT00540124|164739499|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.691
82522264|NCT00540124|164739499|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.415
82639125|NCT00830310|164993638|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||0.038
82639126|NCT00830310|164993639|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Sign test|||The null hypothesis is that the median difference between 3 months and baseline equals zero.||||0.002
82639127|NCT00830310|164993640|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis is that the mean difference between 3 months and baseline equals zero.||||<0.001
82522265|NCT00540124|164739500|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.176
82522266|NCT00540124|164739500|SUPERIORITY_OR_OTHER|||||||0.921||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.921
82522267|NCT00540124|164739501|SUPERIORITY_OR_OTHER|||||||0.429||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.429
82522268|NCT00540124|164739501|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||P-value based on Cochran-Mantel-Haenszel Test with modified ridit scores controlling for alpha block use (yes/no) and lower urinary tract symptom severity as stratification factors.|Cochran-Mantel-Haenszel|||||||0.304
82522269|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||P-value for 12 Week Change Waking Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.254
82522270|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.359||95.0||||P-value for 12 Week Change Waking Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.359
82522271|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value for 12 Week Change Sleeping Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.098
82522272|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||P-value for 12 Week Change Sleeping Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.632
82639128|NCT01050998|164993641|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.578|TWO_SIDED|95.0|-11.5|22.0|||Fisher Exact||95 percent (%) unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||22.0|-11.5|0.578
82639129|NCT01050998|164993641|SUPERIORITY_OR_OTHER||Percent difference|30.7|||<|0.001|TWO_SIDED|95.0|13.4|46.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||46.3|13.4|<0.001
82639130|NCT01050998|164993641|SUPERIORITY_OR_OTHER||Percent difference|15.3||||0.099|TWO_SIDED|95.0|-1.6|32.2|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||32.2|-1.6|0.099
82522273|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||P-value for 12 Week Change Total Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.102
82639131|NCT01050998|164993641|SUPERIORITY_OR_OTHER||Percent difference|35.5|||<|0.001|TWO_SIDED|95.0|17.8|50.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||50.6|17.8|<0.001
82639132|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.543|TWO_SIDED|95.0|-11.9|25.4|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||25.4|-11.9|0.543
82639133|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|26.3||||0.011|TWO_SIDED|95.0|7.2|43.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||43.6|7.2|0.011
82639134|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|16.6||||0.108|TWO_SIDED|95.0|-2.5|35.5|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||35.5|-2.5|0.108
82639135|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|32.0||||0.001|TWO_SIDED|95.0|12.5|49.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||49.0|12.5|0.001
82639136|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-33.7|35.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||35.7|-33.7|1.000
82639137|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|51.5||||0.028|TWO_SIDED|95.0|8.2|77.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||77.0|8.2|0.028
82639138|NCT01050998|164993642|SUPERIORITY_OR_OTHER||Percent difference|9.8||||0.661|TWO_SIDED|95.0|-24.3|46.9|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||46.9|-24.3|0.661
82639139|NCT01050998|164993643|SUPERIORITY_OR_OTHER||Percent difference|13.0||||0.152|TWO_SIDED|95.0|-4.2|30.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||30.3|-4.2|0.152
82639140|NCT01050998|164993643|SUPERIORITY_OR_OTHER||Percent difference|24.3||||0.008|TWO_SIDED|95.0|7.0|40.3|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||40.3|7.0|0.008
82522274|NCT00540124|164739502|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value for 12 Week Change Total Voids. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.348
82639141|NCT01050998|164993643|SUPERIORITY_OR_OTHER||Percent difference|21.4||||0.02|TWO_SIDED|95.0|3.9|37.8|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||37.8|3.9|0.020
82639142|NCT01050998|164993643|SUPERIORITY_OR_OTHER||Percent difference|29.0||||0.002|TWO_SIDED|95.0|11.3|45.0|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|p-value was calculated using a two-tailed Fisher's exact test.||45.0|11.3|0.002
82522275|NCT00540124|164739503|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.208
82386004|NCT01164579|164483832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.86|STANDARD_ERROR_OF_MEAN|11.5||0.1203|TWO_SIDED|90.0|-1.05|36.79|||Normal approximation to the binomial|||Month 12||36.79|-1.05|0.1203
82386005|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.15|STANDARD_ERROR_OF_MEAN|7.58||0.0078|TWO_SIDED|90.0|7.68|32.62|||Normal approximation to the binomial|||Month 1||32.62|7.68|0.0078
82386006|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.15|STANDARD_ERROR_OF_MEAN|7.58||0.0078|TWO_SIDED|90.0|7.68|32.62|||Normal approximation to the binomial|||Month 1||32.62|7.68|0.0078
82522276|NCT00540124|164739503|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.985
82639143|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|9.9||||0.328|TWO_SIDED|95.0|-9.3|29.4|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||29.4|-9.3|0.328
82639144|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|17.2||||0.084|TWO_SIDED|95.0|-2.0|35.6|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||35.6|-2.0|0.084
82639145|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|20.2||||0.049|TWO_SIDED|95.0|0.7|38.2|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||38.2|0.7|0.049
82386007|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.49|STANDARD_ERROR_OF_MEAN|10.37||0.0044|TWO_SIDED|90.0|12.43|46.56|||Normal approximation to the binomial|||Month 2||46.56|12.43|0.0044
82639146|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|22.8||||0.03|TWO_SIDED|95.0|3.2|40.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|European region: p-value was calculated using a two-tailed Fisher's exact test.||40.7|3.2|0.030
82639147|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|26.8||||0.188|TWO_SIDED|95.0|-9.3|60.7|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||60.7|-9.3|0.188
82386008|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.11|STANDARD_ERROR_OF_MEAN|9.92||0.0845|TWO_SIDED|90.0|0.79|33.43|||Normal approximation to the binomial|||Month 2||33.43|0.79|0.0845
82386009|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.24|STANDARD_ERROR_OF_MEAN|11.0||0.0275|TWO_SIDED|90.0|6.14|42.35|||Normal approximation to the binomial|||Month 3||42.35|6.14|0.0275
82639148|NCT01050998|164993644|SUPERIORITY_OR_OTHER||Percent difference|57.4||||0.01|TWO_SIDED|95.0|15.2|81.8|||Fisher Exact||95% unconditional exact confidence interval calculated using the method of Agresti and Min, 2001.|Japanese region: p-value was calculated using a two-tailed Fisher's exact test.||81.8|15.2|0.010
82639149|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.205||0.137|TWO_SIDED|95.0|-0.71|0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.10|-0.71|0.137
82639150|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.202||0.001|TWO_SIDED|95.0|-1.07|-0.27|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.27|-1.07|0.001
82639151|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.201||0.08|TWO_SIDED|95.0|-0.75|0.04|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.04|-0.75|0.080
82639152|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.204|<|0.001|TWO_SIDED|95.0|-1.14|-0.33|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.33|-1.14|<0.001
82639153|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.212||0.107|TWO_SIDED|95.0|-0.76|0.08|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.08|-0.76|0.107
82639154|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.17|-0.35|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.35|-1.17|<0.001
82639155|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.209||0.046|TWO_SIDED|95.0|-0.83|-0.01|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.01|-0.83|0.046
82639156|NCT01050998|164993665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.212|<|0.001|TWO_SIDED|95.0|-1.22|-0.38|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.38|-1.22|<0.001
82639157|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.086|TWO_SIDED|95.0|-0.85|0.06|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.06|-0.85|0.086
82639158|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.225||0.016|TWO_SIDED|95.0|-0.99|-0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.10|-0.99|0.016
82639159|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.225||0.059|TWO_SIDED|95.0|-0.87|0.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.02|-0.87|0.059
82639160|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.227||0.002|TWO_SIDED|95.0|-1.14|-0.25|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.25|-1.14|0.002
82639161|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.241||0.107|TWO_SIDED|95.0|-0.87|0.09|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.09|-0.87|0.107
82639162|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.236||0.007|TWO_SIDED|95.0|-1.11|-0.18|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.18|-1.11|0.007
82639163|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.236||0.084|TWO_SIDED|95.0|-0.88|0.06|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.06|-0.88|0.084
82522277|NCT00540124|164739504|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||P-value for 12 Week Change Terminal Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.385
82639164|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.238||0.002|TWO_SIDED|95.0|-1.2|-0.26|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|European region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.26|-1.20|0.002
82639165|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.447||0.785|TWO_SIDED|95.0|-0.78|1.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||1.02|-0.78|0.785
82386010|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.67|STANDARD_ERROR_OF_MEAN|10.91||0.0186|TWO_SIDED|90.0|7.71|43.63|||Normal approximation to the binomial|||Month 3||43.63|7.71|0.0186
82386011|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.52|STANDARD_ERROR_OF_MEAN|10.75||0.0009|TWO_SIDED|90.0|17.82|53.22|||Normal approximation to the binomial|||Month 6||53.22|17.82|0.0009
82386012|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.6|STANDARD_ERROR_OF_MEAN|10.72||0.0169|TWO_SIDED|90.0|7.95|43.24|||Normal approximation to the binomial|||Month 6||43.24|7.95|0.0169
82639166|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|0.465||0.014|TWO_SIDED|95.0|-2.13|-0.26|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||-0.26|-2.13|0.014
82522278|NCT00540124|164739504|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for 12 Week Change Terminal Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.595
82386013|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 9||45.90|8.91|0.0147
82522279|NCT00540124|164739504|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||P-value for 12 Week Change Post Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.704
82522280|NCT00540124|164739504|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-value for 12 Week Change Post Micturation Dribble. Change=Endpoint minus baseline. P-values for pairwise comparison of change difference based on Wilcoxon Rank Sum test.|Wilcoxon Rank Sum|||||||0.439
82639167|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.448||0.931|TWO_SIDED|95.0|-0.94|0.86|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.86|-0.94|0.931
82522281|NCT00540124|164739505|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for 12 Week Change Qmax. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.838
82522282|NCT00540124|164739505|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||P-value for 12 Week Change Qmax. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.831
82522283|NCT00540124|164739505|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||P-value for 12 Week Change Qmean. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.696
82639168|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.465||0.07|TWO_SIDED|95.0|-1.8|0.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (CRP) at Day 85.||0.07|-1.80|0.070
82639169|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.449||0.854|TWO_SIDED|95.0|-0.99|0.82|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.82|-0.99|0.854
82639170|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.468||0.011|TWO_SIDED|95.0|-2.19|-0.31|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.31|-2.19|0.011
82522284|NCT00540124|164739505|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||P-value for 12 Week Change Qmean. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.257
82522285|NCT00540124|164739506|SUPERIORITY_OR_OTHER|||||||0.709||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.709
82522286|NCT00540124|164739506|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value for 12 Week Change. Change=Endpoint minus baseline. P-values are from an ANCOVA with effects for treatment, prior alpha blocker use (yes/no), and baseline value, and were not adjusted for multiple comparisons.|ANCOVA|||||||0.494
82523272|NCT05380947|164741804|OTHER|The statistical model was an analysis of variance (ANOVA) model on the logarithmic scale including effects for sequence, subjects nested within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted geometric means ratio (T3/T1)|96.9|||||TWO_SIDED|90.0|85.3|110.2|||||Unit of adjusted geometric means ratio (T3/T1) is %. Unit of 90% Confidence Interval is %. Intra-individual coefficient of variation (gCV) = 14.2%|||110.2|85.3|
82523273|NCT00251862|164741827|SUPERIORITY_OR_OTHER||Absolute Difference|8.3||||0.046|TWO_SIDED|95.0|-2.2|14.2|||Chi-squared|||Sample size and power considerations focused on a two-group comparison of the DA alone versus control study arms for the primary outcome of colorectal cancer (CRC) screening test completion at 12 months. Based on crude estimates of baseline test completion rates, we calculated that a target sample of 275 subjects per arm provided greater than 80% power of detecting a 54% vs. 40% difference at the P\<0.05 level.||14.2|-2.2|0.046
82523274|NCT00251862|164741827|SUPERIORITY_OR_OTHER||Absolute Difference|6.0||||0.153|TWO_SIDED|95.0|0.2|16.5|||Chi-squared|||||16.5|0.2|0.153
82523275|NCT00251862|164741828|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons: DA+YDR vs. Control, P\<0.001; DA alone vs. Control, P\<0.001|ANCOVA|||The three study groups were compared on cumulative pre-test and post-test knowledge through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
82523276|NCT00251862|164741829|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The three study groups were compared through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
82523277|NCT00251862|164741830|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The three study groups were compared through separate one-factor analysis of covariance (ANCOVA); followed pairwise comparisons using Bonferroni's adjusted multiple comparison procedure.||||<0.001
82523278|NCT02453685|164741836|SUPERIORITY_OR_OTHER||Treatment difference at week 32|0.18||||0.0435|TWO_SIDED|95.0|0.01|0.36|||Mixed Models Analysis||"'Treatment difference' refers to BIAsp 30 minus Basal-bolus"|Analysis was performed using mixed model repeated measurements including treatment, region, and strata as fixed effects, HbA1c at baseline as covariate, interactions between all fixed effects and visit and using an unstructured residual covariance matrix.||0.36|0.01|0.0435
82523279|NCT00416182|164741846|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0||||P-value of \< 0.05 is considered significant|t-test, 2 sided|||||||0.2
82523280|NCT00416182|164741847|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|95.0||||P-value of \< 0.05 is considered significant.|t-test, 2 sided|||||||0.048
82523281|NCT00416182|164741848|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0||||P-value \< 0.05 is considered significant|t-test, 2 sided|||||||0.003
82523282|NCT00416182|164741849|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||P \<0.05 is considered significant|t-test, 2 sided|||||||0.4
82523283|NCT00803452|164741852|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
82523284|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
82523285|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
82523286|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Total cost comparison.||||< 0.001
82386014|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.71|STANDARD_ERROR_OF_MEAN|11.18||0.1882|TWO_SIDED|90.0|-3.68|33.11|||Normal approximation to the binomial|||Month 9||33.11|-3.68|0.1882
82443184|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.949|TWO_SIDED|95.0|-0.28|0.26||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Week 1||0.26|-0.28|0.949
82443185|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.581|TWO_SIDED|95.0|-0.19|0.34||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Week 2||0.34|-0.19|0.581
82443186|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.302|TWO_SIDED|95.0|-0.13|0.41||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 1||0.41|-0.13|0.302
82443187|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.4|STANDARD_ERROR_OF_MEAN|0.14||0.005|TWO_SIDED|95.0|0.12|0.66||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 3||0.66|0.12|0.005
82443188|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.026|TWO_SIDED|95.0|0.04|0.59||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 6||0.59|0.04|0.026
82443189|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.4|STANDARD_ERROR_OF_MEAN|0.14||0.01|TWO_SIDED|95.0|0.09|0.64||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 9||0.64|0.09|0.010
82443190|NCT03654885|164594817|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.052|TWO_SIDED|95.0|0.0|0.54||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis.|Mixed Model for Repeated Measures|||Change from Baseline in Mean Number of Topical IOP-Lowering Medications Over Time: Month 12||0.54|0.00|0.052
82522287|NCT01163097|164739512|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence of the treatments was assessed using the 90% confidence interval (CI) of the geometric mean ratio for Ki67. The lower bound of the CI needed to be greater than 0.70 and the upper bound needed to be below 1.43 for the treatments to be considered equivalent.|Geometric mean ratio|0.863|||||TWO_SIDED|90.0|0.759|0.982|||ANCOVA|ANCOVA was used to estimate the treatment effect and the Schuirmann's two one-sided test was used to test for statistical equivalence.||H0: mean ratio\<0.7 or mean ratio\>1.43; H1: 0.7\< mean ratio \<1.43 Sample size calculation assumed change in Ki67 expression following palifermin administration would not be affected by co-administration of heparin. With n=26 (13 + 13), an approx. 80% probability that the 90% CI of the ratio of geometric means of Ki67 for palifermin when co-administered with heparin compared to palifermin alone would fall in the interval (0.7, 1.43). This assumed a Coefficient of Variation (CV) for Ki67 of 31%.||0.982|0.759|
82522288|NCT01163097|164739514|SUPERIORITY_OR_OTHER||Geometric mean|0.737|||||TWO_SIDED|95.0|0.614|0.885|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 20% increase (or 17% reduction) when Treatment A was compared to Treatment B; assuming that the coefficient of variation of amylase would be 14% (as observed in other study)||0.885|0.614|
82639171|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.448||0.271|TWO_SIDED|95.0|-1.4|0.4|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||0.40|-1.40|0.271
82386015|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.41|STANDARD_ERROR_OF_MEAN|11.24||0.0147|TWO_SIDED|90.0|8.91|45.9|||Normal approximation to the binomial|||Month 12||45.90|8.91|0.0147
82386016|NCT01164579|164483833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.71|STANDARD_ERROR_OF_MEAN|11.18||0.1882|TWO_SIDED|90.0|-3.68|33.11|||Normal approximation to the binomial|||Month 12||33.11|-3.68|0.1882
82386017|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.57|STANDARD_ERROR_OF_MEAN|4.73||0.07|TWO_SIDED|90.0|0.78|16.35|||Normal approximation to the binomial|||Month 1||16.35|0.78|0.0700
82522289|NCT01163097|164739515|SUPERIORITY_OR_OTHER||Geometric mean|0.373|||||TWO_SIDED|95.0|0.216|0.645|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 70% increase (or 41% reduction) when Treatment A was compared to Treatment B; assuming that the coefficient of variation of lipase would be 49% (as observed in other study)||0.645|0.216|
82386018|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|2.81||0.3102|TWO_SIDED|90.0|-1.77|7.48|||Normal approximation to the binomial|||Month 1||7.48|-1.77|0.3102
82386019|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.02|STANDARD_ERROR_OF_MEAN|8.68||0.0027|TWO_SIDED|90.0|11.73|40.3|||Normal approximation to the binomial|||Month 2||40.30|11.73|0.0027
82522290|NCT01163097|164739516|SUPERIORITY_OR_OTHER||Geometric mean|0.972|||||TWO_SIDED|95.0|0.768|1.231|||ANCOVA|ANCOVA (with dependent variable:natural log of the ratio to baseline, independent variable:treatment, covariate:natural log of the baseline value)||80% power achieved for detecting a 140% increase with 13 and 6 subjects (respectively) when Treatment B was compared to Treatment C; assuming that the coefficient of variation of the protein/creatinine ratio would be 67% (Ginsberg et al 1983)||1.231|0.768|
82572651|NCT03042299|164855108|EQUIVALENCE|The difference in the least square (LS) means between formulations (TAK-536 pediatric formulation \[granules\]-TAK-536 commercial formulation \[tablet\]) and the two-sided 90 percent (%) confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The ANOVA model included log-transformed (natural log) PK parameters AUC 48 as dependent variable, and formulation, group, and period as independent variables.|Point estimate|-0.0731|||||TWO_SIDED|90.0|-0.1088|-0.0373||||||||-0.0373|-0.1088|
82639172|NCT01050998|164993666|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.465||0.031|TWO_SIDED|95.0|-1.97|-0.1|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Japanese region: Analysis reported for change from baseline in DAS28 (ESR) at Day 85.||-0.10|-1.97|0.031
82639173|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|7.0||||0.238|TWO_SIDED|95.0|-3.3|20.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||20.5|-3.3|0.238
82386020|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.81|STANDARD_ERROR_OF_MEAN|7.86||0.0324|TWO_SIDED|90.0|3.88|29.75|||Normal approximation to the binomial|||Month 2||29.75|3.88|0.0324
82386021|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|8.97||0.0969|TWO_SIDED|90.0|0.13|29.67|||Normal approximation to the binomial|||Month 3||29.67|0.13|0.0969
82443191|NCT03654885|164594818|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|1.229||0.024|TWO_SIDED|95.0|0.358|5.183||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||5.183|0.358|0.024
82443192|NCT03654885|164594819|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14||0.052|TWO_SIDED|95.0|0.0|0.54||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||0.54|0.00|0.052
82386022|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.96|STANDARD_ERROR_OF_MEAN|9.04||0.0606|TWO_SIDED|90.0|2.09|31.84|||Normal approximation to the binomial|||Month 3||31.84|2.09|0.0606
82522291|NCT01163097|164739517|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82522292|NCT01163097|164739518|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82639174|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|14.8||||0.017|TWO_SIDED|95.0|2.8|29.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||29.7|2.8|0.017
82386023|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.66|STANDARD_ERROR_OF_MEAN|10.49||0.2276|TWO_SIDED|90.0|-4.6|29.93|||Normal approximation to the binomial|||Month 6||29.93|-4.60|0.2276
82386024|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.93|STANDARD_ERROR_OF_MEAN|10.23||0.3827|TWO_SIDED|90.0|-7.9|25.76|||Normal approximation to the binomial|||Month 6||25.76|-7.90|0.3827
82522293|NCT01163097|164739519|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82522294|NCT01163097|164739520|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82522295|NCT01163097|164739521|SUPERIORITY_OR_OTHER|||||||0.4123||90.0|||||ANOVA|||||||0.4123
82522296|NCT01163097|164739522|SUPERIORITY_OR_OTHER|||||||0.9944||90.0|||||ANOVA|||||||0.9944
82522297|NCT01163097|164739523|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82386025|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|10.15||0.2177|TWO_SIDED|90.0|-4.18|29.2|||Normal approximation to the binomial|||Month 9||29.20|-4.18|0.2177
82386026|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|STANDARD_ERROR_OF_MEAN|10.15||0.1558|TWO_SIDED|90.0|-2.29|31.12|||Normal approximation to the binomial|||Month 9||31.12|-2.29|0.1558
82386027|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|9.8||0.8997|TWO_SIDED|90.0|-14.89|17.36|||Normal approximation to the binomial|||Month 12||17.36|-14.89|0.8997
82386028|NCT01164579|164483834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.71|STANDARD_ERROR_OF_MEAN|10.36||0.2587|TWO_SIDED|90.0|-5.34|28.76|||Normal approximation to the binomial|||Month 12||28.76|-5.34|0.2587
82386029|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|90.0|-0.56|0.13||||||Baseline||0.13|-0.56|
82522298|NCT01163097|164739524|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0|||||ANOVA|||||||<0.0001
82443193|NCT03654885|164594820|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.79|STANDARD_ERROR_OF_MEAN|2.214||0.421|TWO_SIDED|95.0|-2.579|6.151||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed model repeated measures|||||6.151|-2.579|0.421
82639175|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|11.1||||0.09|TWO_SIDED|95.0|0.0|25.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||25.4|0.0|0.090
82522299|NCT02510144|164739538|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Negative cultures were compared on the treated side vs the non-treated side||||0.68
82386030|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|90.0|-0.19|0.43||||||Baseline||0.43|-0.19|
82386031|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|90.0|-1.38|-0.5||||||Month 1||-0.50|-1.38|
82386032|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|90.0|-1.01|-0.22||||||Month 1||-0.22|-1.01|
82386033|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|90.0|-1.73|-0.7||||||Month 2||-0.70|-1.73|
82386034|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|90.0|-1.2|-0.18||||||Month 2||-0.18|-1.20|
82386035|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||||TWO_SIDED|90.0|-1.33|-0.29||||||Month 3||-0.29|-1.33|
82386036|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|90.0|-0.94|0.12||||||Month 3||0.12|-0.94|
82386037|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|90.0|-1.75|-0.61||||||Month 6||-0.61|-1.75|
82386038|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|90.0|-1.73|-0.63||||||Month 6||-0.63|-1.73|
82386039|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|90.0|-1.81|-0.61||||||Month 9||-0.61|-1.81|
82386040|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||||TWO_SIDED|90.0|-1.33|-0.13||||||Month 9||-0.13|-1.33|
82386041|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|90.0|-1.69|-0.51||||||Month 12||-0.51|-1.69|
82386042|NCT01164579|164483835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|90.0|-1.51|-0.29||||||Month 12||-0.29|-1.51|
82386043|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.88|STANDARD_ERROR_OF_MEAN|0.26||0.001|TWO_SIDED|90.0|-1.31|-0.45||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.45|-1.31|0.0010
82386044|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.26||0.0102|TWO_SIDED|90.0|-1.1|-0.24||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.24|-1.10|0.0102
82386045|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.08|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|90.0|-1.52|-0.64||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.64|-1.52|<0.0001
82386046|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.27||0.0175|TWO_SIDED|90.0|-1.08|-0.2||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.20|-1.08|0.0175
82522300|NCT02510144|164739538|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Negative cultures were compared on the treated side versus the non-treated side||||<0.01
82386047|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.68|STANDARD_ERROR_OF_MEAN|0.27||0.0125|TWO_SIDED|90.0|-1.13|-0.23||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.23|-1.13|0.0125
82386048|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.1457|TWO_SIDED|90.0|-0.84|0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||0.05|-0.84|0.1457
82386049|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.28||0.0003|TWO_SIDED|90.0|-1.48|-0.57||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.57|-1.48|0.0003
82522301|NCT04557930|164739568|SUPERIORITY||Odds Ratio (OR)|0.96||||0.41|TWO_SIDED|95.0|0.88|1.06|||Mixed Models Analysis|||We tested the association between exposure to the intervention and the incidence of ACP billing in the pre- and post-intervention periods using a mixed effects logistic regression model, adjusting for time, patient and hospital covariates.||1.06|0.88|0.41
82522302|NCT04557930|164739568|SUPERIORITY|Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Odds Ratio (OR)|1.03||||0.74|TWO_SIDED|95.0|0.89|1.19|||Mixed Models Analysis|Overall effect allowing effect heterogeneity across steps \<0.001 Interaction effect \<0.001|Step 1 cohort|||1.19|0.89|0.74
82522303|NCT04557930|164739568|SUPERIORITY||Odds Ratio (OR)|1.15||||0.09|TWO_SIDED|95.0|0.98|1.36|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 2 cohort|1.36|0.98|0.09
82639176|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|15.8||||0.015|TWO_SIDED|95.0|2.9|31.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (CRP): p-value was calculated using a two-tailed Fisher's exact test.||31.0|2.9|0.015
82386050|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.03|STANDARD_ERROR_OF_MEAN|0.28||0.0002|TWO_SIDED|90.0|-1.49|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.58|-1.49|0.0002
82386051|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|90.0|-1.63|-0.69||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.69|-1.63|<0.0001
82386052|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.28||0.0196|TWO_SIDED|90.0|-1.14|-0.2||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.20|-1.14|0.0196
82386053|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.3||0.0007|TWO_SIDED|90.0|-1.5|-0.52||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.52|-1.50|0.0007
82386054|NCT01164579|164483836|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.3||0.0049|TWO_SIDED|90.0|-1.32|-0.35||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.35|-1.32|0.0049
82386055|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|90.0|-0.53|0.15||||||Baseline||0.15|-0.53|
82639177|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|3.0||||0.412|TWO_SIDED|95.0|-4.2|14.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||14.0|-4.2|0.412
82639178|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.237|TWO_SIDED|95.0|-2.9|16.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||16.4|-2.9|0.237
82386056|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|90.0|-0.24|0.36||||||Baseline||0.36|-0.24|
82386057|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|90.0|-1.4|-0.42||||||Month 1||-0.42|-1.40|
82386058|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|90.0|-1.01|-0.14||||||Month 1||-0.14|-1.01|
82386059|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|90.0|-1.82|-0.73||||||Month 2||-0.73|-1.82|
82386060|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|90.0|-1.25|-0.13||||||Month 2||-0.13|-1.25|
82386061|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|90.0|-1.55|-0.38||||||Month 3||-0.38|-1.55|
82386062|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|90.0|-1.12|0.11||||||Month 3||0.11|-1.12|
82386063|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|||||TWO_SIDED|90.0|-2.13|-0.72||||||Month 6||-0.72|-2.13|
82639179|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|5.1||||0.231|TWO_SIDED|95.0|-2.8|16.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||16.8|-2.8|0.231
82522304|NCT04557930|164739568|SUPERIORITY||Odds Ratio (OR)|1.13||||0.11|TWO_SIDED|95.0|0.97|1.33|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 3 cohort|1.33|0.97|0.11
82522305|NCT04557930|164739568|SUPERIORITY||Odds Ratio (OR)|0.66|||<|0.001|TWO_SIDED|95.0|0.57|0.76|||Mixed Models Analysis||Step 4 cohort|Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.||0.76|0.57|<0.001
82522306|NCT04557930|164739568|SUPERIORITY||Odds Ratio (OR)|0.95||||0.49|TWO_SIDED|95.0|0.89|1.19|||Mixed Models Analysis|||Sensitivity analysis of the association between the intervention and ACP billing, adjusted for time, patient characteristics, hospital characteristics, and the interaction between step of the trial and the intervention.|Step 5 cohort|1.19|0.89|0.49
82639180|NCT01050998|164993667|SUPERIORITY_OR_OTHER||Percent difference|3.1||||0.406|TWO_SIDED|95.0|-4.1|14.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|DAS28 (ESR): p-value was calculated using a two-tailed Fisher's exact test.||14.4|-4.1|0.406
82639181|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|8.7||||0.182|TWO_SIDED|95.0|-2.7|24.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||24.4|-2.7|0.182
82522307|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Burden was tested with the Wilcoxon signed-rank test.||||0.0007
82522308|NCT00205348|164739574|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Physical was tested with the Wilcoxon signed-rank test.||||<0.0001
82522309|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Mental was tested with the Wilcoxon signed-rank test.||||0.0002
82522310|NCT00205348|164739574|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Fear was tested with the Wilcoxon signed-rank test.||||<0.0001
82522311|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0973|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Eating Desire was tested with the Wilcoxon signed-rank test.||||0.0973
82639182|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|10.4||||0.11|TWO_SIDED|95.0|-1.2|25.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||25.5|-1.2|0.110
82639183|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|11.3||||0.104|TWO_SIDED|95.0|-0.6|26.9|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||26.9|-0.6|0.104
82639184|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|16.4||||0.016|TWO_SIDED|95.0|3.5|32.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||32.7|3.5|0.016
82386064|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||||TWO_SIDED|90.0|-1.91|-0.57||||||Month 6||-0.57|-1.91|
82386065|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-1.84|-0.39||||||Month 9||-0.39|-1.84|
82386066|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|90.0|-1.3|0.13||||||Month 9||0.13|-1.30|
82639185|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.115|TWO_SIDED|95.0|-1.0|19.3|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||19.3|-1.0|0.115
82522312|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.1772|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Eating Duration was tested with the Wilcoxon signed-rank test.||||0.1772
82522313|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Food Selection was tested with the Wilcoxon signed-rank test.||||0.0062
82639186|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|8.4||||0.052|TWO_SIDED|95.0|0.6|21.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||21.6|0.6|0.052
82522314|NCT00205348|164739574|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Sleep was tested with the Wilcoxon signed-rank test.||||<0.0001
82443194|NCT03654885|164594821|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.25||0.18|TWO_SIDED|95.0|-0.16|0.84||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables was used for analysis.|Mixed Model for Repeated Measures|||||0.84|-0.16|0.180
82522315|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Fatigue was tested with the Wilcoxon signed-rank test.||||0.0002
82639187|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
82639188|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|38.2||||0.059|TWO_SIDED|95.0|1.6|71.2|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||71.2|1.6|0.059
82639189|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|10.5||||0.591|TWO_SIDED|95.0|-18.2|46.2|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||46.2|-18.2|0.591
82639190|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|13.2||||0.57|TWO_SIDED|95.0|-16.6|51.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[CRP\]): p-value was calculated using a two-tailed Fisher's exact test.||51.4|-16.6|0.570
82639191|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
82639192|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||1|TWO_SIDED|95.0|-37.5|22.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||22.6|-37.5|1.000
82639193|NCT01050998|164993668|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region (DAS28 \[ESR\]): p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
82639194|NCT01050998|164993669|SUPERIORITY_OR_OTHER||Percent difference|||||0.604|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||0.604
82639195|NCT01050998|164993669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||<0.001
82639196|NCT01050998|164993669|SUPERIORITY_OR_OTHER|||||||0.145|||||||Log Rank|||Analysis reported for DAS28 (CRP) response.||||0.145
82639197|NCT01050998|164993669|SUPERIORITY_OR_OTHER|||||||0.282|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||0.282
82639198|NCT01050998|164993669|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||<0.001
82639199|NCT01050998|164993669|SUPERIORITY_OR_OTHER|||||||0.047|||||||Log Rank|||Analysis reported for DAS28 (ESR) response.||||0.047
82639200|NCT01050998|164993670|SUPERIORITY_OR_OTHER||Percent difference|||||0.237|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.237
82639201|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.005|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.005
82639202|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.134|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||0.134
82639203|NCT01050998|164993670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||European region: Analysis reported for DAS28 (CRP) response.||||<0.001
82639204|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.265|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.265
82639205|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.013|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.013
82639206|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.952|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.952
82639207|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.004|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (CRP) response.||||0.004
82639208|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.246|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||0.246
82639209|NCT01050998|164993670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||<0.001
82639210|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.126|||||||Log Rank|||European region: Analysis reported for DAS28 (ESR) response.||||0.126
82639211|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.831|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.831
82639212|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.005|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.005
82639213|NCT01050998|164993670|SUPERIORITY_OR_OTHER|||||||0.125|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||0.125
82639214|NCT01050998|164993670|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||Japanese region: Analysis reported for DAS28 (ESR) response.||||<0.001
82639215|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.15||||0.486|TWO_SIDED|95.0|0.78|1.69|||Exponential,Weibull and Log normal model||Ratio greater than (\>) 1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||1.69|0.78|0.486
82639216|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.54||||0.015|TWO_SIDED|95.0|1.09|2.18|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.18|1.09|0.015
82639217|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.65||||0.006|TWO_SIDED|95.0|1.15|2.36|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.36|1.15|0.006
82639218|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|2.09|||<|0.001|TWO_SIDED|95.0|1.49|2.93|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (ESR) response.||2.93|1.49|<0.001
82522316|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.2125|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Social was tested with the Wilcoxon signed-rank test.||||0.2125
82522317|NCT00205348|164739574|SUPERIORITY_OR_OTHER|||||||0.0332|||||||Wilcoxon (Mann-Whitney)|||The statistical significance of the difference between pre-and post-operative scores for Communication was tested with the Wilcoxon signed-rank test.||||0.0332
82522318|NCT00374322|164739575|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.286|TWO_SIDED|95.0|0.77|1.08||The p-value was calculated from a stratified log-rank test, stratifying for hormone receptor status, time since initial diagnosis, and lymph node involvement.|Log Rank||Estimate of the treatment hazard ratio (HR) was calcuated using the pike estimator.|||1.08|0.77|0.286
82522319|NCT01297959|164739596|SUPERIORITY|||||||0.39|||||||Regression, Logistic|p-value was based on a logistic regression (Chi-square test) model with treatment group as a factor, adjusting for the stratification factors.||||||0.39
82522320|NCT01297959|164739597|SUPERIORITY|||||||0.34|||||||Regression, Logistic|p-value was based on a logistic regression (Chi-square test) model with treatment group as a factor, adjusting for the stratification factors.||||||0.34
82522321|NCT02048072|164739632|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
82522322|NCT01112579|164739633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.3|TWO_SIDED|95.0|-2.0|14.9|||ANCOVA|||||14.9|-2.0|0.3
82522323|NCT01112579|164739634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.1||||0.79|TWO_SIDED|95.0|-845.8|633.6|||ANCOVA|||||633.6|-845.8|0.79
82522324|NCT01112579|164739635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.93|TWO_SIDED|95.0|-1.6|3.2|||ANCOVA|||||3.2|-1.6|0.93
82522325|NCT01321554|164739637|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.21|||||TWO_SIDED|99.0|0.14|0.31||||||||0.31|0.14|
82522326|NCT02178059|164739656|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 34 healthy volunteers will be entered into the study in order to complete 30 evaluable volunteers. Based on the study SD-001-0268, a residual intra-individual standard deviation of 0.300/sqrt(2) = 0.212 can be expected on the natural log scale. With 30 completed volunteers there will be a 93% chance that the upper limits of two-sided 90% CI for Cmax and AUC ratios are \<1.25 provided that the true mean ratios are \<1.05.|Ratio of geometric means (%)|88.2|||||TWO_SIDED|90.0|81.03|96.02|||||Comparison of Bricanyl Turbuhaler M3 (test) to Bricanyl Turbuhaler M2 (reference)|No increase in the exposure of plasma terbutaline after administration of Bricanyl Turbuhaler M3 will be concluded if the upper bound of the 90% CIs for the ratios of AUC and Cmax are both below 1.25||96.02|81.03|
82522327|NCT02178059|164739657|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8052|TWO_SIDED|90.0|-0.17|0.17|||Wilcoxon signed rank test|||||0.17|-0.17|0.8052
82522328|NCT02178059|164739661|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 34 healthy volunteers will be entered into the study in order to complete 30 evaluable volunteers. Based on the study SD-001-0268, a residual intra-individual standard deviation of 0.300/sqrt(2) = 0.212 can be expected on the natural log scale. With 30 completed volunteers there will be a 93% chance that the upper limits of two-sided 90% CI for Cmax and AUC ratios are \<1.25 provided that the true mean ratios are \<1.05.|Ratio of geometric means (%)|91.44|||||TWO_SIDED|90.0|84.82|98.58|||||Comparison of Bricanyl Turbuhaler M3 (test) to Bricanyl Turbuhaler M2 (reference)|No increase in the exposure of plasma terbutaline after administration of Bricanyl Turbuhaler M3 will be concluded if the upper bound of the 90% CIs for the ratios of AUC and Cmax are both below 1.25||98.58|84.82|
82522329|NCT04149925|164739662|SUPERIORITY|||||||0.01||||||Significant when p\<0.05|t-test, 2 sided|||||||0.01
82522330|NCT02586025|164739668|SUPERIORITY||Difference in response rates|17.45||||0.0014|TWO_SIDED|95.0|6.89|28.01||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||28.01|6.89|0.0014
82522331|NCT02586025|164739669|SUPERIORITY||Difference in response rates|18.36||||0.0008|TWO_SIDED|95.0|7.89|28.83||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||28.83|7.89|0.0008
82522332|NCT02586025|164739670|SUPERIORITY||Difference in response rates|18.37||||0.001|TWO_SIDED|95.0|7.6|29.15||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||29.15|7.60|0.0010
82639219|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|0.97||||0.906|TWO_SIDED|95.0|0.61|1.55|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||1.55|0.61|0.906
82639220|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.89|||<|0.001|TWO_SIDED|95.0|1.31|2.71|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||2.71|1.31|<0.001
82639221|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.26||||0.272|TWO_SIDED|95.0|0.83|1.91|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||1.91|0.83|0.272
82639222|NCT01050998|164993671|SUPERIORITY_OR_OTHER||Ratio of expected duration of response|1.91|||<|0.001|TWO_SIDED|95.0|1.34|2.72|||Exponential,Weibull and Log normal model||Ratio \>1 favored mavrilimumab.|Analysis reported for DAS28 (CRP) response.||2.72|1.34|<0.001
82639223|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|4.7||||0.589|TWO_SIDED|95.0|-12.1|22.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||22.0|-12.1|0.589
82639224|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|20.2||||0.032||95.0|2.8|36.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||36.7|2.8|0.032
82639225|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|0.5||||1|TWO_SIDED|95.0|-16.0|18.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||18.0|-16.0|1.000
82386067|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-1.84|-0.39||||||Month 12||-0.39|-1.84|
82386068|NCT01164579|164483837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|90.0|-1.43|0.11||||||Month 12||0.11|-1.43|
82639226|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|33.3|||<|0.001|TWO_SIDED|95.0|15.6|48.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR20: p-value was calculated using a two-tailed Fisher's exact test.||48.6|15.6|<0.001
82639227|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|8.9||||0.212|TWO_SIDED|95.0|-3.5|23.6|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||23.6|-3.5|0.212
82639228|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|18.7||||0.011|TWO_SIDED|95.0|4.8|34.0|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||34.0|4.8|0.011
82639229|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|4.7||||0.446|TWO_SIDED|95.0|-7.0|19.1|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||19.1|-7.0|0.446
82386069|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.84|STANDARD_ERROR_OF_MEAN|0.29||0.0046|TWO_SIDED|90.0|-1.32|-0.35||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.35|-1.32|0.0046
82386070|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.29||0.0303|TWO_SIDED|90.0|-1.11|-0.15||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 1||-0.15|-1.11|0.0303
82386071|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.18|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|90.0|-1.69|-0.68||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.68|-1.69|0.0001
82386072|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.3||0.0255|TWO_SIDED|90.0|-1.17|-0.18||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 2||-0.18|-1.17|0.0255
82386073|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.3||0.0035|TWO_SIDED|90.0|-1.39|-0.39||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.39|-1.39|0.0035
82386074|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.3||0.0683|TWO_SIDED|90.0|-1.05|-0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 3||-0.05|-1.05|0.0683
82386075|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.29|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|90.0|-1.81|-0.78||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.78|-1.81|<0.0001
82386076|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.08|STANDARD_ERROR_OF_MEAN|0.31||0.0006|TWO_SIDED|90.0|-1.59|-0.56||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 6||-0.56|-1.59|0.0006
82386077|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.15|STANDARD_ERROR_OF_MEAN|0.32||0.0004|TWO_SIDED|90.0|-1.67|-0.62||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.62|-1.67|0.0004
82386078|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.58|STANDARD_ERROR_OF_MEAN|0.32||0.0706|TWO_SIDED|90.0|-1.1|-0.05||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 9||-0.05|-1.10|0.0706
82386079|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.13|STANDARD_ERROR_OF_MEAN|0.33||0.0008|TWO_SIDED|90.0|-1.67|-0.58||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.58|-1.67|0.0008
82386080|NCT01164579|164483838|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.66|STANDARD_ERROR_OF_MEAN|0.33||0.0466|TWO_SIDED|90.0|-1.21|-0.12||2-sided p-value; alpha=0.10|mixed model repeated measures analysis|||Month 12||-0.12|-1.21|0.0466
82386081|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.51|STANDARD_ERROR_OF_MEAN|11.04||0.0032|TWO_SIDED|90.0|14.34|50.68||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||50.68|14.34|0.0032
82386082|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.18|STANDARD_ERROR_OF_MEAN|11.16||0.0115|TWO_SIDED|90.0|9.81|46.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||46.55|9.81|0.0115
82572652|NCT03042299|164855109|EQUIVALENCE|The difference in the LS means between formulations (TAK-536 pediatric formulation \[granules\]-TAK-536 commercial formulation \[tablet\]) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and formulation, group, and period as independent variables.|Point estimate|-0.0909|||||TWO_SIDED|90.0|-0.1573|-0.0244||||||||-0.0244|-0.1573|
82386083|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.41|STANDARD_ERROR_OF_MEAN|9.48||0.0002|TWO_SIDED|90.0|18.81|50.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||50.02|18.81|0.0002
82386084|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.79|STANDARD_ERROR_OF_MEAN|10.48||0.0231|TWO_SIDED|90.0|6.55|41.03||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||41.03|6.55|0.0231
82386085|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.41|STANDARD_ERROR_OF_MEAN|9.48||0.0002|TWO_SIDED|90.0|18.81|50.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||50.02|18.81|0.0002
82522333|NCT02586025|164739671|SUPERIORITY||Difference in response rates|18.83||||0.0006|TWO_SIDED|95.0|8.14|29.51||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm. Approximate 95% CI for difference of two rates using Hauck-Anderson method.|||29.51|8.14|0.0006
82386086|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.02|STANDARD_ERROR_OF_MEAN|10.69||0.0493|TWO_SIDED|90.0|3.43|38.61||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||38.61|3.43|0.0493
82386087|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.18|STANDARD_ERROR_OF_MEAN|9.88||0.0005|TWO_SIDED|90.0|17.92|50.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||50.43|17.92|0.0005
82443195|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.7||||0.064|TWO_SIDED|95.0|-33.0|2.3|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤18 mmHg||2.3|-33.0|0.064
82522334|NCT02586025|164739673|SUPERIORITY||Difference in response rates|10.4||||0.0125|TWO_SIDED|95.0|1.12|19.69||Two-sided significance level of 5%|Cochran-Mantel-Haenszel|Stratified by disease category (early-stage and locally advanced) and hormone-receptor status (positive for ER and/or PgR or negative for both)|Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm|||19.69|1.12|0.0125
82522335|NCT02586025|164739674|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.014|TWO_SIDED|95.0|0.32|0.89|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for EFS Event in the Pertuzumab arm vs. Placebo arm||0.89|0.32|0.0140
82522336|NCT02586025|164739674|SUPERIORITY||Difference in EFS Event-Free Rates|-8.16||||0.0062|TWO_SIDED|95.0|-14.0|-2.32|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 1 year||-2.32|-14.00|0.0062
82522337|NCT02586025|164739674|SUPERIORITY||Difference in EFS Event-Free Rates|-9.17||||0.0429|TWO_SIDED|95.0|-18.05|-0.29|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 3 years||-0.29|-18.05|0.0429
82522338|NCT02586025|164739674|SUPERIORITY||Difference in EFS Event-Free Rates|-11.1||||0.0274|TWO_SIDED|95.0|-20.95|-1.24|||Z-test||The difference in EFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in EFS Event-Free Rates at 5 Years||-1.24|-20.95|0.0274
82522339|NCT02586025|164739675|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.014|TWO_SIDED|95.0|0.3|0.88|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for DFS Event in the Pertuzumab arm vs. Placebo arm||0.88|0.30|0.0140
82639230|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|22.1||||0.003|TWO_SIDED|95.0|7.6|37.8|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR50: p-value was calculated using a two-tailed Fisher's exact test.||37.8|7.6|0.003
82639231|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-8.9|9.7|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||9.7|-8.9|1.000
82639232|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|4.8||||0.317|TWO_SIDED|95.0|-4.1|17.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||17.5|-4.1|0.317
82639233|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|0.8||||1|TWO_SIDED|95.0|-7.2|12.1|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||12.1|-7.2|1.000
82639234|NCT01050998|164993672|SUPERIORITY_OR_OTHER||Percent difference|9.5||||0.106|TWO_SIDED|95.0|-0.5|23.5|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|ACR70: p-value was calculated using a two-tailed Fisher's exact test.||23.5|-0.5|0.106
82639235|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|1.0||||1|TWO_SIDED|95.0|-17.7|20.4|||Fisher Exact||95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||20.4|-17.7|1.000
82639236|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|16.1||||0.12|TWO_SIDED|95.0|-3.1|34.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||34.4|-3.1|0.120
82639237|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|1.0||||1|TWO_SIDED|95.0|-17.7|20.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||20.4|-17.7|1.000
82443196|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.3||||0.078|TWO_SIDED|95.0|-32.7|2.5|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤17 mmHg||2.5|-32.7|0.078
82572653|NCT02706847|164855119|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|36.2|||<|0.001|TWO_SIDED|95.0|26.2|46.2||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||46.2|26.2|<0.001
82572654|NCT02706847|164855119|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.0|||<|0.001|TWO_SIDED|95.0|17.8|38.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||38.1|17.8|<0.001
82572655|NCT02706847|164855120|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|29.1|||<|0.001|TWO_SIDED|95.0|19.9|38.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||38.3|19.9|<0.001
82639238|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|29.2||||0.005|TWO_SIDED|95.0|9.7|46.1|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||46.1|9.7|0.005
82639239|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|20.9||||0.382|TWO_SIDED|95.0|-16.4|55.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||55.9|-16.4|0.382
82639240|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|39.0||||0.087|TWO_SIDED|95.0|-2.7|69.6|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||69.6|-2.7|0.087
82639241|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|-1.3||||1|TWO_SIDED|95.0|-33.7|35.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||35.7|-33.7|1.000
82639242|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|51.5||||0.028|TWO_SIDED|95.0|8.2|77.0|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR20 - p-value was calculated using a two-tailed Fisher's exact test.||77.0|8.2|0.028
82639243|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|11.1||||0.175|TWO_SIDED|95.0|-2.9|27.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||27.9|-2.9|0.175
82443197|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.4||||0.051|TWO_SIDED|95.0|-34.7|0.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤16 mmHg||0.4|-34.7|0.051
82443198|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-16.9||||0.064|TWO_SIDED|95.0|-34.1|1.0|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤15 mmHg||1.0|-34.1|0.064
82443199|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-13.1||||0.2|TWO_SIDED|95.0|-30.5|4.8|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤14 mm Hg||4.8|-30.5|0.200
82572656|NCT02706847|164855120|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.2|||<|0.001|TWO_SIDED|95.0|19.0|37.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||37.4|19.0|<0.001
82639244|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|17.3||||0.026|TWO_SIDED|95.0|2.4|34.1|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||34.1|2.4|0.026
82639245|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|8.5||||0.271|TWO_SIDED|95.0|-5.1|24.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||24.9|-5.1|0.271
82639246|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|18.8||||0.021|TWO_SIDED|95.0|3.4|36.0|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||36.0|3.4|0.021
82639247|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|-0.7||||1|TWO_SIDED|95.0|-27.0|34.8|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||34.8|-27.0|1.000
82443200|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.0||||0.042|TWO_SIDED|95.0|-37.1|-2.0|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤13 mm Hg||-2.0|-37.1|0.042
82443201|NCT03654885|164594822|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.7||||0.18|TWO_SIDED|95.0|-30.1|5.2|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12: IOP Value of ≤12 mm Hg||5.2|-30.1|0.180
82443202|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-3.6||||0.712|TWO_SIDED|95.0|-21.3|14.2|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥25% IOP Reduction||14.2|-21.3|0.712
82443203|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.9||||0.201|TWO_SIDED|95.0|-30.3|5.0|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥30% IOP Reduction||5.0|-30.3|0.201
82443204|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.3||||0.03|TWO_SIDED|95.0|-37.3|-2.3|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥35% IOP Reduction||-2.3|-37.3|0.030
82522340|NCT02586025|164739675|SUPERIORITY||Difference in DFS Event-Free Rates|-5.47||||0.0592|TWO_SIDED|95.0|-11.15|0.21|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 1 year||0.21|-11.15|0.0592
82522341|NCT02586025|164739675|SUPERIORITY||Difference in DFS Event-Free Rates|-9.0||||0.0426|TWO_SIDED|95.0|-17.69|-0.3|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 3 years||-0.30|-17.69|0.0426
82522342|NCT02586025|164739675|SUPERIORITY||Difference in DFS Event-Free Rates|-10.97||||0.0276|TWO_SIDED|95.0|-20.73|-1.21|||Z-test||The difference in DFS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in DFS Event-Free Rates at 5 years||-1.21|-20.73|0.0276
82639248|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|25.7||||0.283|TWO_SIDED|95.0|-8.8|63.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||63.2|-8.8|0.283
82639249|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
82639250|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|38.2||||0.059|TWO_SIDED|95.0|1.6|71.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR50 - p-value was calculated using a two-tailed Fisher's exact test.||71.2|1.6|0.059
82639251|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|1.1||||1|TWO_SIDED|95.0|-7.0|14.2|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||14.2|-7.0|1.000
82639252|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|5.8||||0.242|TWO_SIDED|95.0|-3.7|19.4|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||19.4|-3.7|0.242
82443205|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-18.8||||0.043|TWO_SIDED|95.0|-36.0|-0.8|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥40% IOP Reduction||-0.8|-36.0|0.043
82522343|NCT02586025|164739676|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.1181|TWO_SIDED|95.0|0.23|1.19|||Stratified log-rank|Two-sided log-rank test used, stratified by disease category (early-stage/locally advanced) \& hormone-receptor status (ER+ \&/or PgR+ or ER- \& PgR-)|The hazard ratio was calculated by stratified Cox proportional hazards model.|Hazard Ratio for OS Event in the Pertuzumab arm vs. Placebo arm||1.19|0.23|0.1181
82639253|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|3.7||||0.41|TWO_SIDED|95.0|-5.1|16.9|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||16.9|-5.1|0.410
82639254|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|13.9||||0.03|TWO_SIDED|95.0|2.7|29.5|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|European region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||29.5|2.7|0.030
82639255|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||0.529|TWO_SIDED|95.0|-35.0|22.7|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||22.7|-35.0|0.529
82386088|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.72|STANDARD_ERROR_OF_MEAN|10.73||0.027|TWO_SIDED|90.0|6.07|41.37||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||41.37|6.07|0.0270
82386089|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.46|STANDARD_ERROR_OF_MEAN|10.73||0.0018|TWO_SIDED|90.0|15.8|51.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||51.12|15.80|0.0018
82386090|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.49|STANDARD_ERROR_OF_MEAN|11.22||0.0363|TWO_SIDED|90.0|5.02|41.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||41.96|5.02|0.0363
82386091|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.4|STANDARD_ERROR_OF_MEAN|10.48||0.0005|TWO_SIDED|90.0|19.16|53.64||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||53.64|19.16|0.0005
82522344|NCT02586025|164739676|SUPERIORITY||Difference in OS Event-Free Rates|0.46||||0.3162|TWO_SIDED|95.0|-0.44|1.36|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 1 year||1.36|-0.44|0.3162
82522345|NCT02586025|164739676|SUPERIORITY||Difference in OS Event-Free Rates|-6.02||||0.0529|TWO_SIDED|95.0|-12.11|0.08|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 3 years||0.08|-12.11|0.0529
82386092|NCT01164579|164483839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.27|STANDARD_ERROR_OF_MEAN|11.08||0.0177|TWO_SIDED|90.0|8.04|44.5||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||44.50|8.04|0.0177
82386093|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.52|STANDARD_ERROR_OF_MEAN|9.66||0.0197|TWO_SIDED|90.0|6.62|38.42||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||38.42|6.62|0.0197
82386094|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|STANDARD_ERROR_OF_MEAN|8.16||0.4379|TWO_SIDED|90.0|-7.09|19.76||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||19.76|-7.09|0.4379
82386095|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.37|STANDARD_ERROR_OF_MEAN|10.92||0.0093|TWO_SIDED|90.0|10.4|46.34||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||46.34|10.40|0.0093
82443206|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.9||||0.048|TWO_SIDED|95.0|-35.1|0.0|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥45% IOP Reduction||0.0|-35.1|0.048
82522346|NCT02586025|164739676|SUPERIORITY||Difference in OS Event-Free Rates|-3.89||||0.2616|TWO_SIDED|95.0|-10.69|2.9|||Z-test||The difference in OS event-free rates was calculated as the Placebo arm minus the Pertuzumab arm.|Difference in OS Event-Free Rates at 5 years||2.90|-10.69|0.2616
82522347|NCT02586025|164739682|OTHER||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-1.62|0.93|||||Pertuzumab, Trastuzumab, Docetaxel arm minus Placebo, Trastuzumab, Docetaxel arm|||0.93|-1.62|
82522348|NCT05072457|164739795|OTHER||||||<|0.05|||||||ANOVA|||"MANOVA analysis with independent variable being the intervention condition (type of microphone used) and dependent variable being the performance on lateralization task.~Null hypothesis: There will be no statistically significant difference in lateralization test scores between the Roger On and the Roger Select in the experimental group."||||<.05
82522349|NCT05072457|164739796|OTHER||||||>|0.05|||||||ANOVA|||Independent variable: intervention condition (type of microphone used), Dependent variable: performance on spatial hearing task. Null hypothesis: There will be no statistically significant difference in spatial hearing test scores between the Roger On and the Roger Select in the experimental group.||||>.05
82522350|NCT00772590|164739808|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||||||<0.01
82386096|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.48|STANDARD_ERROR_OF_MEAN|10.48||0.1669|TWO_SIDED|90.0|-2.75|31.73||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||31.73|-2.75|0.1669
82386097|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.37|STANDARD_ERROR_OF_MEAN|10.92||0.0093|TWO_SIDED|90.0|10.4|46.34||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||46.34|10.40|0.0093
82386098|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.04|STANDARD_ERROR_OF_MEAN|10.64||0.0596|TWO_SIDED|90.0|2.53|37.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||37.55|2.53|0.0596
82443207|NCT03654885|164594823|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-21.1||||0.015|TWO_SIDED|95.0|-38.1|-3.2|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12: ≥50% IOP Reduction||-3.2|-38.1|0.015
82443208|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-11.7||||0.252|TWO_SIDED|95.0|-29.0|6.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤18 mm Hg||6.3|-29.0|0.252
82522351|NCT02570126|164739809|NON_INFERIORITY|Criterion for the Varilrix HSA-free vaccine as compared to Varilrix™ vaccine, the upper limit (UL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (VAR\_HSA\_F minus VAR) in incidence of fever \> 39.0°C (\> 102.2°F) within 0-14 days after Dose 1 was to be equal to or below 5%|Difference in percentage between groups|-1.29|||||TWO_SIDED|95.0|-3.72|1.08|||||Power obtained using PASS 2005 (Likelihood Score \[Miettinen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=2.5%|Non-inferiority of Varilrix HSA-free vaccine to Varilrix™ vaccine in terms of percentage of subjects reporting fever \> 39.0°C (\> 102.2°F) within 15-days (Days 0-14) after Dose 1 (VAR\_HSA\_F Group minus VAR Group)||1.08|-3.72|
82522352|NCT04683926|164739825|OTHER||AUC(0-36) Estimate (β1)|1.0227|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
82522353|NCT04683926|164739825|OTHER||AUC(inf) Estimate (β1)|1.0223|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
82522354|NCT04683926|164739825|EQUIVALENCE|Absent food effect will be established if the 90% CI for the ratio of population geometric means between fed and fasted 30 mg doses, based on log-transformed data, is contained in the equivalence limits of 0.80-1.25 for AUC0-inf and Cmax.|AUC(0-inf) fed/fasted ratio|1.09|||||TWO_SIDED|90.0|1.05|1.12||||||Analysis of food effect on desmetramadol in the evaluable population using natural logarithm-transformed PK exposure parameters of desmetramadol enantiomers following administration of 30 mg desmetramadol in the fed and fasted states.||1.12|1.05|
82522355|NCT04683926|164739826|OTHER||Cmax Estimate (β1)|0.9899|||||TWO_SIDED|||||||||Analysis of dose proportionality following 10, 20 and 30 mg fasted using a mixed-effects model based on a power function: ln(dependent variable) = β1×ln(Dose) + ln(β0) + ε. Random slope and intercept. 90% CI of β1 acceptance range of 0.8-1.25 modified to account for ratio of dose levels in this study as follows: \[1+ln(0.8)/ln(3), 1+ln(1.25)/ln(3)\], giving acceptance range of \[0.7969, 1.2031\]. If the 90% CI of β1 is within \[0.7969, 1.2031\], dose-proportionality is proven for the PK parameter.||||
82523287|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Inpatient cost comparison||||< 0.001
82523288|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Inpatient cost comparison.||||< 0.001
82523289|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.||||||0.126|||||||Bang and Tsiatis|||Inpatient cost comparison||||0.126
82523290|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
82386099|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.73|STANDARD_ERROR_OF_MEAN|11.07||0.0017|TWO_SIDED|90.0|16.51|52.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||52.96|16.51|0.0017
82522356|NCT04683926|164739826|EQUIVALENCE|Absent food effect will be established if the 90% CI for the ratio of population geometric means between fed and fasted 30 mg doses, based on log-transformed data, is contained in the equivalence limits of 0.80-1.25 for AUC0-inf and Cmax.|Cmax 90% fed/fasted ratio|1.18|||||TWO_SIDED|90.0|1.08|1.28||||||Analysis of food effect on desmetramadol in the evaluable population using natural logarithm-transformed PK exposure parameters of desmetramadol enantiomers following administration of 30 mg desmetramadol in the fed and fasted states.||1.28|1.08|
82522357|NCT00716092|164739847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001||95.0|-28.0|-11.9||There was no adjustment for multiple primary endpoints, however a hierarchy approach to control for the Type-I error was used. If the endpoint WMG was not successful, any analysis of the GLP-1 (AUEC 0-24h) was to be considered descriptive.|ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-11.9|-28.0|<0.0001
82523291|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
82386100|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.52|STANDARD_ERROR_OF_MEAN|11.04||0.0097|TWO_SIDED|90.0|10.36|46.69||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||46.69|10.36|0.0097
82386101|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.97|STANDARD_ERROR_OF_MEAN|11.11||0.0016|TWO_SIDED|90.0|16.68|53.26||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||53.26|16.68|0.0016
82386102|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.6|STANDARD_ERROR_OF_MEAN|11.13||0.0102|TWO_SIDED|90.0|10.28|46.91||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||46.91|10.28|0.0102
82386103|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.73|STANDARD_ERROR_OF_MEAN|11.07||0.0017|TWO_SIDED|90.0|16.51|52.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||52.96|16.51|0.0017
82386104|NCT01164579|164483840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.97|STANDARD_ERROR_OF_MEAN|11.07||0.0381|TWO_SIDED|90.0|4.74|41.19||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||41.19|4.74|0.0381
82386105|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.77|STANDARD_ERROR_OF_MEAN|7.67||0.0959|TWO_SIDED|90.0|0.15|25.4||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||25.40|0.15|0.0959
82386106|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|5.4||0.9544|TWO_SIDED|90.0|-8.58|9.19||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||9.19|-8.58|0.9544
82572657|NCT02706847|164855121|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.57|-1.01||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.01|-1.57|<0.001
82386107|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.18|STANDARD_ERROR_OF_MEAN|9.34||0.0036|TWO_SIDED|90.0|11.81|42.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.55|11.81|0.0036
82386108|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.55|STANDARD_ERROR_OF_MEAN|7.66||0.264|TWO_SIDED|90.0|-4.04|21.16||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||21.16|-4.04|0.2640
82386109|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||34.95|2.72|0.0544
82386110|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|8.92||0.329|TWO_SIDED|90.0|-5.96|23.38||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||23.38|-5.96|0.3290
82386111|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.84|STANDARD_ERROR_OF_MEAN|10.48||0.0032|TWO_SIDED|90.0|13.59|48.09||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||48.09|13.59|0.0032
82386112|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.11|STANDARD_ERROR_OF_MEAN|9.92||0.0845|TWO_SIDED|90.0|0.79|33.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||33.43|0.79|0.0845
82386113|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.08|STANDARD_ERROR_OF_MEAN|10.72||0.0037|TWO_SIDED|90.0|13.44|48.72||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||48.72|13.44|0.0037
82386114|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.96|STANDARD_ERROR_OF_MEAN|10.36||0.054|TWO_SIDED|90.0|2.91|37.02||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||37.02|2.91|0.0540
82386115|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.54|STANDARD_ERROR_OF_MEAN|10.24||0.001|TWO_SIDED|90.0|16.7|50.39||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||50.39|16.70|0.0010
82386116|NCT01164579|164483841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.81|STANDARD_ERROR_OF_MEAN|9.66||0.0401|TWO_SIDED|90.0|3.92|35.71||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||35.71|3.92|0.0401
82386117|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.91|STANDARD_ERROR_OF_MEAN|10.99||0.0005|TWO_SIDED|90.0|19.83|55.99||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||55.99|19.83|0.0005
82386118|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.12|STANDARD_ERROR_OF_MEAN|11.09||0.0028|TWO_SIDED|90.0|14.87|51.38||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||51.38|14.87|0.0028
82386119|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.83|STANDARD_ERROR_OF_MEAN|10.1||0.0105|TWO_SIDED|90.0|9.21|42.45||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.45|9.21|0.0105
82386120|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|STANDARD_ERROR_OF_MEAN|11.13||0.37|TWO_SIDED|90.0|-8.33|28.3||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||28.30|-8.33|0.3700
82386121|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.82|STANDARD_ERROR_OF_MEAN|9.54|<|0.0001|TWO_SIDED|90.0|24.11|55.53||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||55.53|24.11|<0.0001
82386122|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.09|STANDARD_ERROR_OF_MEAN|11.24||0.1076|TWO_SIDED|90.0|-0.4|36.59||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||36.59|-0.40|0.1076
82639256|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|0.7||||1|TWO_SIDED|95.0|-26.7|39.5|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||39.5|-26.7|1.000
82386123|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.94|STANDARD_ERROR_OF_MEAN|10.21||0.0008|TWO_SIDED|90.0|17.13|50.75||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||50.75|17.13|0.0008
82386124|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.42|STANDARD_ERROR_OF_MEAN|10.74||0.0139|TWO_SIDED|90.0|8.74|44.1||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||44.10|8.74|0.0139
82522358|NCT00716092|164739848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.1|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001||95.0|12.4|23.9||There was no adjustment for multiple primary endpoints, however a hierarchy approach to control for the Type-I error was used. If the endpoint WMG was not successful, any analysis of the GLP-1 (AUEC 0-24h) will be considered descriptive.|ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||23.9|12.4|<0.0001
82386125|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.4|STANDARD_ERROR_OF_MEAN|10.48||0.0005|TWO_SIDED|90.0|19.16|53.64||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||53.64|19.16|0.0005
82522359|NCT00716092|164739849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|4.8||0.0283||95.0|-20.4|-1.2|||ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-1.2|-20.4|0.0283
82522360|NCT00716092|164739850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.5|STANDARD_ERROR_OF_MEAN|20.3|<|0.0001||95.0|-147.0|-66.0|||ANCOVA|The primary analyses are based upon a model containing only BI1356 and Placebo. Sitagliptin values come from a different model containing all 3 groups||BI1356 minus Placebo||-66.0|-147.0|<0.0001
82523292|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Outpatient cost comparison.||||< 0.001
82523293|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
82522361|NCT00716092|164739851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|3.9||0.1274||95.0|-1.7|13.8|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||13.8|-1.7|0.1274
82522362|NCT00716092|164739852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|2.7||0.313||95.0|-2.7|8.2|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||8.2|-2.7|0.3130
82386126|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.27|STANDARD_ERROR_OF_MEAN|11.08||0.0177|TWO_SIDED|90.0|8.04|44.5|||Normal approximation to the binomial|||Month 9||44.50|8.04|0.0177
82386127|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.46|STANDARD_ERROR_OF_MEAN|10.73||0.0018|TWO_SIDED|90.0|15.8|51.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||51.12|15.80|0.0018
82386128|NCT01164579|164483842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.49|STANDARD_ERROR_OF_MEAN|11.22||0.0363|TWO_SIDED|90.0|5.02|41.96||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||41.96|5.02|0.0363
82386129|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.88|STANDARD_ERROR_OF_MEAN|7.42||0.016|TWO_SIDED|90.0|5.66|30.1||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||30.10|5.66|0.0160
82386130|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|STANDARD_ERROR_OF_MEAN|5.43||0.2798|TWO_SIDED|90.0|-3.06|14.8||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||14.80|-3.06|0.2798
82386131|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.18|STANDARD_ERROR_OF_MEAN|9.34||0.0036|TWO_SIDED|90.0|11.81|42.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||42.55|11.81|0.0036
82386132|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.78|STANDARD_ERROR_OF_MEAN|7.3||0.4287|TWO_SIDED|90.0|-6.23|17.79||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||17.79|-6.23|0.4287
82386133|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||34.95|2.72|0.0544
82386134|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.04|STANDARD_ERROR_OF_MEAN|9.51||0.0732|TWO_SIDED|90.0|1.39|32.69||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||32.69|1.39|0.0732
82386135|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.25|STANDARD_ERROR_OF_MEAN|10.61||0.036|TWO_SIDED|90.0|4.79|39.72||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||39.72|4.79|0.0360
82386136|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.85|STANDARD_ERROR_OF_MEAN|9.85||0.3688|TWO_SIDED|90.0|-7.35|25.07||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||25.07|-7.35|0.3688
82386137|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.19|STANDARD_ERROR_OF_MEAN|10.67||0.0182|TWO_SIDED|90.0|7.63|42.76||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||42.76|7.63|0.0182
82386138|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|STANDARD_ERROR_OF_MEAN|10.15||0.1558|TWO_SIDED|90.0|-2.29|31.12||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||31.12|-2.29|0.1558
82386139|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.78|STANDARD_ERROR_OF_MEAN|10.49||0.0012|TWO_SIDED|90.0|16.51|51.05||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||51.05|16.51|0.0012
82386140|NCT01164579|164483843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.33|STANDARD_ERROR_OF_MEAN|9.78||0.1426|TWO_SIDED|90.0|-1.74|30.42||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||30.42|-1.74|0.1426
82386141|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.88|STANDARD_ERROR_OF_MEAN|4.03||0.1449|TWO_SIDED|90.0|-0.75|12.52||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||12.52|-0.75|0.1449
82386142|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|2.81||0.3102|TWO_SIDED|90.0|-1.77|7.48||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 1||7.48|-1.77|0.3102
82386143|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.94|STANDARD_ERROR_OF_MEAN|7.06||0.0342|TWO_SIDED|90.0|3.32|26.55||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||26.55|3.32|0.0342
82522363|NCT00716092|164739853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|4.3||0.2281||95.0|-3.3|13.8|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||13.8|-3.3|0.2281
82522364|NCT00716092|164739854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|STANDARD_ERROR_OF_MEAN|18.6||0.223||95.0|-14.0|59.5|||ANCOVA|These measured values and statistical analysis come from a mixed model containing all three treatment groups, and adjusted as already described.||BI 1356 minus Sitagliptin. This analysis comparing BI1356 to Sitagliptin was conducted as an exploratory analysis at the time of analysing the study data. The study was not powered for such a comparison.||59.5|-14.0|0.2230
82522365|NCT00677235|164739864|SUPERIORITY_OR_OTHER|||||||0.449|||||||Fisher Exact|||||||0.449
82522366|NCT05120115|164739878|EQUIVALENCE|Examined differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|ANOVA|||||||0.05
82522367|NCT05120115|164739879|EQUIVALENCE|Differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|Mixed Models Analysis|||||||0.05
82522368|NCT05120115|164739880|EQUIVALENCE|Differences between conditions||||||0.05||||||Used Tukey Honestly Significant Difference post-hoc test|Mixed Models Analysis|||||||0.05
82522369|NCT01113502|164739881|OTHER||Maximum Tolerated Dose (mg)|300.0|||||TWO_SIDED|||||||||||||
82523294|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
82523295|NCT04295005|164741891|OTHER|Group differences in the costs incurred after treatment initiation were evaluated based on an incremental cost approach using the Bang and Tsiatis estimator with possibly censored data.|||||<|0.001|||||||Bang and Tsiatis|||Medication cost comparison.||||< 0.001
82386144|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|4.65||0.54|TWO_SIDED|90.0|-4.8|10.51||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 2||10.51|-4.80|0.5400
82386145|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.01|STANDARD_ERROR_OF_MEAN|9.19||0.2759|TWO_SIDED|90.0|-5.1|25.13||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||25.13|-5.10|0.2759
82386146|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|STANDARD_ERROR_OF_MEAN|6.25||0.0859|TWO_SIDED|90.0|-21.02|-0.45||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 3||-0.45|-21.02|0.0859
82386147|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.89|STANDARD_ERROR_OF_MEAN|9.62||0.0985|TWO_SIDED|90.0|0.06|31.73||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||31.73|0.06|0.0985
82523296|NCT00608582|164741894|SUPERIORITY_OR_OTHER||||||<|0.028||||||p\<0.05 considered significant|ANOVA|Post-hoc paired t-tests were performed.||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 Mo. Post rTMS treatment) and Group (Real vs. Sham).||||<0.028
82523297|NCT00608582|164741894|SUPERIORITY_OR_OTHER||||||<|0.05||||||p\<.05 considered significant; Pairwise comparisons not adjusted for multiple comparisons|t-test, 2 sided|||Paired, t-tests were performed if the ANOVA yields a significant interaction (p\<0.05, two-sided) for Baseline vs. 2 months after last rTMS treatment.||||<0.05
82443209|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-11.5||||0.258|TWO_SIDED|95.0|-28.9|6.5|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤17 mmHg||6.5|-28.9|0.258
82443210|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-13.6||||0.139|TWO_SIDED|95.0|-30.9|4.4|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤16 mm Hg||4.4|-30.9|0.139
82443211|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-14.7||||0.136|TWO_SIDED|95.0|-32.0|3.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤15 mm Hg||3.3|-32.0|0.136
82522370|NCT01970982|164739888|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.09|||<|0.001|TWO_SIDED|95.0|18.41|28.95||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||28.95|18.41|<0.001
82523298|NCT00608582|164741894|SUPERIORITY_OR_OTHER||||||<|0.237||||||p\<0.05 considered significant. Pairwise comparisons were not corrected for multiple comparisons.|t-test, 2 sided|||Paired, t-tests were performed if the ANOVA yields a significant interaction (p\<0.05, two-sided) for Baseline vs. 2 Mo. after last Sham rTMS treatment.||||<0.237
82523299|NCT00608582|164741895|SUPERIORITY_OR_OTHER|||||||0.414||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||0.414
82639257|NCT01050998|164993673|SUPERIORITY_OR_OTHER||Percent difference|-11.8||||1|TWO_SIDED|95.0|-37.5|22.6|||Fisher Exact|p-value was calculated using a two-tailed Fisher's exact test.|95% unconditional exact CI was calculated using the method of Agresti and Min, 2001.|Japanese region: ACR70 - p-value was calculated using a two-tailed Fisher's exact test.||22.6|-37.5|1.000
82639258|NCT01050998|164993675|SUPERIORITY_OR_OTHER||Adjusted Mean difference|14.05|STANDARD_ERROR_OF_MEAN|7.162||0.051|TWO_SIDED|95.0|-0.05|28.15|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||28.15|-0.05|0.051
82639259|NCT01050998|164993675|SUPERIORITY_OR_OTHER||Adjusted Mean difference|21.23|STANDARD_ERROR_OF_MEAN|7.028||0.003|TWO_SIDED|95.0|7.39|35.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||35.07|7.39|0.003
82639260|NCT01050998|164993675|SUPERIORITY_OR_OTHER||Adjusted Mean difference|7.09|STANDARD_ERROR_OF_MEAN|7.136||0.322|TWO_SIDED|95.0|-6.96|21.14|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||21.14|-6.96|0.322
82639261|NCT01050998|164993675|SUPERIORITY_OR_OTHER||Adjusted Mean difference|32.03|STANDARD_ERROR_OF_MEAN|7.085|<|0.001|TWO_SIDED|95.0|18.08|45.98|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||45.98|18.08|<0.001
82639262|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted Mean difference|14.49|STANDARD_ERROR_OF_MEAN|7.981||0.071|TWO_SIDED|95.0|-1.24|30.22|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||30.22|-1.24|0.071
82639263|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|19.43|STANDARD_ERROR_OF_MEAN|7.798||0.013|TWO_SIDED|95.0|4.06|34.8|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||34.80|4.06|0.013
82639264|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.84|STANDARD_ERROR_OF_MEAN|7.873||0.32|TWO_SIDED|95.0|-7.68|23.36|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||23.36|-7.68|0.320
82639265|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|31.37|STANDARD_ERROR_OF_MEAN|7.873|<|0.001|TWO_SIDED|95.0|15.85|46.89|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for European region.||46.89|15.85|<0.001
82639266|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|12.11|STANDARD_ERROR_OF_MEAN|17.089||0.483|TWO_SIDED|95.0|-22.41|46.64|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||46.64|-22.41|0.483
82639267|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|31.24|STANDARD_ERROR_OF_MEAN|17.089||0.075|TWO_SIDED|95.0|-3.28|65.77|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||65.77|-3.28|0.075
82386148|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|8.05||0.9628|TWO_SIDED|90.0|-12.86|13.61||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 6||13.61|-12.86|0.9628
82522371|NCT01970982|164739889|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|52.86|||<|0.001|TWO_SIDED|95.0|45.67|61.17||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||61.17|45.67|<0.001
82639268|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.22|STANDARD_ERROR_OF_MEAN|17.872||0.815|TWO_SIDED|95.0|-31.89|40.32|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||40.32|-31.89|0.815
82639269|NCT01050998|164993676|SUPERIORITY_OR_OTHER||Adjusted mean difference|36.11|STANDARD_ERROR_OF_MEAN|17.089||0.041|TWO_SIDED|95.0|1.58|70.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|Analysis reported for Japanese region.||70.63|1.58|0.041
82639270|NCT00620191|164993709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.7|STANDARD_DEVIATION|1.92||0.05|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.05
82639271|NCT00620191|164993709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.1|STANDARD_DEVIATION|1.36||0.05|TWO_SIDED||||||ANCOVA|adjusted for baseline ADAS-Cog value|The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.05
82639272|NCT00620191|164993710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.98|STANDARD_DEVIATION|1.01||0.06|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.06
82639273|NCT00620191|164993710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|0.91||0.34|TWO_SIDED||||||ANCOVA|adjusted for baseline ADAS-Cog score.|The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.34
82639274|NCT00620191|164993711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|2.14||0.36|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.36
82639275|NCT00620191|164993712|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.09|STANDARD_DEVIATION|4.73||0.34|TWO_SIDED||||||t-test, 2 sided||The difference is the value for the metformin arm minus the value for the placebo arm.|||||0.34
82639276|NCT00234533|164993713|OTHER|An one-way Analysis of Covariance (ANOVA) was used to calculate the between patient variation and within patient variation and then the ICC and its confidence limitations.|ICC|0.9|||||TWO_SIDED|95.0|0.88|0.92|||||An ICC ≥ 0.8 was considered satisfactory and indicative that a single sample would be representative of the overall IGF-I status.|An Intra-class Correlation Coefficient (ICC) for the evening series (defined as 12:00 to 24:00) was determined for the overall ITT population to confirm whether only one measurement would be sufficient to accurately represent the IGF-I measurement over Weeks 21, 22 and 23. The ICC expresses the relative magnitude of the 2 components of the total variability, i.e. the biological variability and random error, in a series of measurements on different patients.||0.92|0.88|
82639277|NCT00234533|164993713|OTHER|An one-way ANOVA was used to calculate the between patient variation and within patient variation and then the ICC and its confidence limitations.|ICC|0.92|||||TWO_SIDED|95.0|0.9|0.93|||||An ICC ≥ 0.8 was considered satisfactory and indicative that a single sample would be representative of the overall IGF-I status.|An ICC for the morning series (defined as 06:00 to 12:00) was determined for the overall ITT population to confirm whether only one measurement would be sufficient to accurately represent the IGF-I measurement over Weeks 21, 22 and 23. The ICC expresses the relative magnitude of the 2 components of the total variability, i.e. the biological variability and random error, in a series of measurements on different patients.||0.93|0.90|
82639278|NCT00234533|164993714|OTHER||Fisher's F statistic (F) value|1.79|||||TWO_SIDED|||||||||Analysis of the weekly timing effect (Week 21 versus Week 22 versus Week 23) on the IGF-I value as measured by capillary blood spot method.|For the effect of the weekly timing on the IGF-I levels; F value = 1.79 and the significance probability value, PR\>F = 0.1678.|||
82639279|NCT00234533|164993714|OTHER||F value|1.06|||||TWO_SIDED|||||||||Analysis of the daily timing effect (morning versus evening) on the IGF-I value as measured by capillary blood spot method.|For the effect of the daily timing on the IGF-I levels; F value = 1.06 and the significance probability value, PR\>F = 0.3035|||
82639280|NCT00234533|164993715|OTHER||F value|83.97|||||TWO_SIDED|||||||||Analysis of the effect of the patient's sex (male versus female) on the IGF-I value as measured by capillary blood spot method.|For the effect of the patient's sex on the IGF-I levels; F value = 83.97 and the significance probability value, PR\>F = \<0.0001.|||
82639281|NCT00234533|164993715|OTHER||F value|68.35|||||TWO_SIDED|||||||||Analysis of the effect of the patient's pubertal status (pubertal versus prepubertal) on the IGF-I value as measured by capillary blood spot method.|For the effect of the patient's pubertal status on the IGF-I levels; F value = 68.35 and the significance probability value, PR\>F = \<0.0001.|||
82386149|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.07|STANDARD_ERROR_OF_MEAN|10.19||0.0612|TWO_SIDED|90.0|2.31|35.84||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||35.84|2.31|0.0612
82523300|NCT00608582|164741895|SUPERIORITY_OR_OTHER||||||<|0.822||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||<0.822
82639282|NCT00234533|164993716|OTHER||F value|10.73|||||TWO_SIDED|||||||||Analysis of the disease condition (GHD versus TS) on the IGF-I value as measured by capillary blood spot method.|For the effect of the disease condition on the IGF-I levels; F value = 10.73 and the significance probability value, PR\>F = 0.0012.|||
82639283|NCT00234533|164993716|OTHER||F value|2.2|||||TWO_SIDED|||||||||Analysis of the country cluster on the IGF-I value as measured by capillary blood spot method.|For the effect of the country cluster on the IGF-I levels; F value = 2.20 and the significance probability value, PR\>F = 0.0701.|||
82639284|NCT00234533|164993717|OTHER||F value|3.65|||||TWO_SIDED|||||||||Analysis of the time of the year on the IGF-I value as measured by capillary blood spot method.|For the effect of the time of the year on the IGF-I levels; F value = 3.65 and the significance probability value, PR\>F = 0.0139.|||
82639285|NCT00234533|164993717|OTHER||F value|7.38|||||TWO_SIDED|||||||||Analysis of the effect of the calculated age at enrolment on the IGF-I value as measured by capillary blood spot method.|For the effect of the calculated age at enrolment on the IGF-I levels; F value = 7.38 and the significance probability value, PR\>F = 0.0073.|||
82639286|NCT00234533|164993717|OTHER||F value|3.86|||||TWO_SIDED|||||||||Analysis of the effect of the disease condition on the IGF-I value as measured by capillary blood spot method.|For the effect of the disease condition on the IGF-I levels; F value = 3.86 and the significance probability value, PR\>F = 0.0511|||
82639287|NCT00234533|164993718|OTHER||Mean difference|-164.79|STANDARD_ERROR_OF_MEAN|159.28|||TWO_SIDED|95.0|-483.35|-153.77||||||The Bland and Altman method was used to compare the results of each of the three simultaneous random capillary and serum measurements were compared. The difference between the capillary blood spot method and the serum IGF-I measurements is presented||-153.77|-483.35|
82523301|NCT00608582|164741895|SUPERIORITY_OR_OTHER||||||<|0.835||||||p\<0.05 considered significant|ANOVA|||A repeated measures ANOVA is performed with a significance level of p\<0.05 (two-sided). Factors: Time (Baseline vs. 2 months after last rTMS treatment) and Group (Real vs. Sham).||||<0.835
82639288|NCT00570492|164993745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-0.48|-0.06|||||An analysis of covariance (ANCOVA) was performed to estimate the mean treatment difference in growth velocity over the treatment period, adjusting for baseline growth velocity, age, gender, and country.|||-0.06|-0.48|
82639289|NCT04419558|164993774|OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.077||0.6579|TWO_SIDED|95.0|-0.12|0.19|||Mixed Models Analysis|||||0.19|-0.12|0.6579
82639290|NCT00908375|164993781|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was determined based on the primary outcome variable, the VAS pain score at three weeks. Based on the results of the study of Siddall et al., group sample sizes of 19 and 19 achieve 82% power to detect a difference of 2.00 between the null hypothesis that both group means are 6.50 and the alternative hypothesis that the mean of pregabalin group is 4.50 with estimated group standard deviations of 2.10 and 2.10 and with a significance level of 0.05 using a two-sided two-sample t-test.|Median Difference (Final Values)|-2.0||||0.279|TWO_SIDED|99.0|-6.0|3.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple application of the test to the same data set using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||3|-6|0.279
82639291|NCT00908375|164993782|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.282|TWO_SIDED|99.0|-2.0|1.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple applications of the test to the same data using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||1.0|-2.0|0.282
82639292|NCT00908375|164993783|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-16.0||||0.139|TWO_SIDED|99.0|-42.0|16.0||The criterion for rejection of the null hypothesis (P \< 0.05) was adjusted for multiple applications of the test to the same data using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|||||16|-42|0.139
82639293|NCT00674440|164993828|OTHER||Sensitivity|93.0|||||TWO_SIDED|95.0|80.9|98.5||||||||98.5|80.9|
82639294|NCT00674440|164993828|OTHER||Specifity|88.5|||||TWO_SIDED|95.0|76.6|95.6||||||||95.6|76.6|
82639295|NCT03457701|164993830|SUPERIORITY||Adjusted mean difference.|0.02||||0.9971|TWO_SIDED|95.0|-10.13|10.16|||Mixed Models Analysis||Analysis was based on a mixed effects model fitted with fixed effect terms for treatment, period, and iron isotope type and a random participant effect.|The null hypotheses is defined as the difference in fractional iron absorption between treatment arms (Daprodustat - rhEPO \[i.e., epoetin alfa or darbepoetin alfa\]) is equal to zero.||10.16|-10.13|0.9971
82639296|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.2|||<|0.0001|TWO_SIDED|95.0|15.9|37.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.0|15.9|<.0001
82639297|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|25.3|||<|0.0001|TWO_SIDED|95.0|17.1|37.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.3|17.1|<.0001
82523302|NCT01787097|164741921|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82523303|NCT02597907|164741944|OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
82639298|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.4|||<|0.0001|TWO_SIDED|95.0|14.9|33.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||33.7|14.9|<.0001
82639299|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.5|||<|0.0001|TWO_SIDED|95.0|10.8|25.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.3|10.8|<.0001
82639300|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|147.0||||0.1148|TWO_SIDED|95.0|93.7|230.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||230|93.7|0.1148
82386150|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|8.36||0.7807|TWO_SIDED|90.0|-16.08|11.43||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 9||11.43|-16.08|0.7807
82522372|NCT01970982|164739890|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|15.68|||<|0.001|TWO_SIDED|95.0|13.09|18.78||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||18.78|13.09|<0.001
82639301|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|153.0||||0.044|TWO_SIDED|95.0|101.0|233.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||233|101|0.0440
82639302|NCT05664672|164993865|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|136.0||||0.2422|TWO_SIDED|95.0|87.8|210.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||210|87.8|0.2422
82386151|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.83|STANDARD_ERROR_OF_MEAN|9.79||0.0544|TWO_SIDED|90.0|2.72|34.95||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||34.95|2.72|0.0544
82522373|NCT01970982|164739891|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|47.1|||<|0.001|TWO_SIDED|95.0|44.3|50.08||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||50.08|44.30|<0.001
82522374|NCT01984684|164739922|NON_INFERIORITY|A 2-sided 95% confidence interval (CI) for noninferiority testing was computed based on the difference in responder rates for vancomycin + aztreonam and delafloxacin at the primary endpoint. If the upper limit (UL) of the CI was less than 0.10, delafloxacin would be considered noninferior to vancomycin + aztreonam.|Difference in Responder Rates|3.1|||||TWO_SIDED|95.0|-2.0|8.3||||||||8.3|-2.0|
82522375|NCT01984684|164739923|NON_INFERIORITY|Analysis of the investigator's assessment of response of signs and symptoms of infection (cure only) was performed using the Miettinen-Nurminen method without stratification for the ITT analysis set.|Difference in Cure Rates|-2.0|||||TWO_SIDED|95.0|-8.6|4.6||||||||4.6|-8.6|
82522376|NCT01984684|164739924|NON_INFERIORITY|Analysis of the investigator's assessment of response (cure only) at the Late Follow-up Visit was assessed using the Miettinen-Nurminen method without stratification.|Difference in Cure Rates|-3.1|||||TWO_SIDED|95.0|-9.3|3.1||||||||3.1|-9.3|
82522377|NCT00420992|164739936|SUPERIORITY_OR_OTHER|||||||0.0445||95.0||||Threshold for statistical significance: P=0.05. No adjustment for multiple comparisons necessary.|ANCOVA|Model included treatment as factor and baseline pain score as covariate.||Null hypothesis: mean change from baseline is the same for ALO-01 and placebo.||||0.0445
82522378|NCT03786952|164739951|SUPERIORITY|||||||0.453|||||||ANOVA|||||||0.453
82522379|NCT03786952|164739952|SUPERIORITY|||||||0.931|||||||ANOVA|||||||0.931
82522380|NCT03786952|164739953|SUPERIORITY|||||||0.923|||||||ANOVA|||||||0.923
82386152|NCT01164579|164483844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.93|STANDARD_ERROR_OF_MEAN|8.66||0.4937|TWO_SIDED|90.0|-8.32|20.18||2-sided p-value; alpha=0.10|Normal approximation to the binomial|||Month 12||20.18|-8.32|0.4937
82522381|NCT03786952|164739954|SUPERIORITY|||||||0.399|||||||ANOVA|||||||0.399
82522382|NCT03786952|164739955|SUPERIORITY|||||||0.872|||||||ANOVA|||||||0.872
82522383|NCT03786952|164739956|SUPERIORITY|||||||0.998|||||||ANOVA|||||||0.998
82522384|NCT03786952|164739957|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
82522385|NCT03786952|164739958|SUPERIORITY|||||||0.992|||||||ANOVA|||||||0.992
82522386|NCT03786952|164739959|SUPERIORITY|||||||0.519|||||||ANOVA|||||||0.519
82522387|NCT03786952|164739960|SUPERIORITY|||||||0.007|||||||ANOVA|||||||0.007
82522388|NCT03786952|164739961|SUPERIORITY|||||||0.457|||||||ANOVA|||||||0.457
82522389|NCT03786952|164739962|SUPERIORITY|||||||0.415|||||||ANOVA|||||||0.415
82522390|NCT03786952|164739963|SUPERIORITY|||||||0.923|||||||ANOVA|||||||0.923
82522391|NCT03786952|164739964|SUPERIORITY|||||||0.981|||||||ANOVA|||||||0.981
82522392|NCT03786952|164739965|SUPERIORITY|||||||0.627|||||||ANOVA|||||||0.627
82522393|NCT03786952|164739966|SUPERIORITY|||||||0.901|||||||ANOVA|||||||0.901
82522394|NCT03786952|164739967|SUPERIORITY|||||||0.166|||||||ANOVA|||||||0.166
82522395|NCT03786952|164739968|SUPERIORITY|||||||0.252|||||||ANOVA|||||||0.252
82522396|NCT03923959|164739969|SUPERIORITY||Odds Ratio (OR)|1.013|STANDARD_ERROR_OF_MEAN|0.307||0.966|TWO_SIDED|95.0|0.5597|1.834|||Regression, Logistic||||A two-sample proportion test was also completed; the test utilized an α \< 0.049 to account for the O'Brien-Fleming adjustment. The p-value for the two-sample proportion test was 0.966.|1.834|0.5597|0.966
82522397|NCT03923959|164739970|SUPERIORITY|||||||0.183||||||a priori threshold for statistical significance was the standard α = 0.05.|Chi-squared|||||||0.183
82523304|NCT00944658|164741967|SUPERIORITY|||||||0.139|||||||ANCOVA|||||||0.139
82522398|NCT03923959|164739971|SUPERIORITY|||||||0.729||||||a priori threshold for statistical significance was the standard α = 0.05.|Chi-squared|||||||0.729
82522399|NCT03923959|164739972|SUPERIORITY|||||||0.655||||||a priori threshold for statistical significance was the standard α = 0.05|Chi-squared|||||||0.655
82522400|NCT03923959|164739973|SUPERIORITY|||||||0.7832||||||a priori threshold for statistical significance was the standard α = 0.05.|t-test, 2 sided|||||||0.7832
82522401|NCT03574597|164740001|SUPERIORITY||Hazard Ratio (HR)|0.8|||<|0.0001|TWO_SIDED|95.0|0.72|0.89|||Regression, Cox|||Data from the in-trial period. The outcome measure was analysed using a Cox proportional hazards model with treatment as categorical fixed factor. Participants without events of interest were censored at the end of their in-trial period.||0.89|0.72|< 0.0001
82522402|NCT00762450|164740033|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|paired t-tests||The null hypothesis states that there is no difference between groups.||||0.05
82443212|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.%.|Percentage Difference|-10.8||||0.274|TWO_SIDED|95.0|-28.2|7.1|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤14 mm Hg||7.1|-28.2|0.274
82522403|NCT00689221|164740034|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.021||||0.8623|TWO_SIDED|95.0|0.808|1.291||P-value is not adjusted for multiple testing.|Log Rank|||||1.291|0.808|0.8623
82522404|NCT01812655|164740049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.7||||0.029|TWO_SIDED|95.0|2.4|45.0|||Regression, Linear||Mean difference = PD group - VR group|||45.0|2.4|0.029
82522405|NCT01812655|164740049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.32|TWO_SIDED|95.0|-9.5|28.9|||Regression, Linear||Mean difference = VR group - SC group|||28.9|-9.5|0.32
82522406|NCT01812655|164740050|SUPERIORITY_OR_OTHER||Semipartial correlation|0.223||||0.26||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and STAIC State Anxiety measured at Baseline for all participants|||||.26
82522407|NCT01812655|164740050|SUPERIORITY_OR_OTHER||Semipartial correlation|0.119||||0.59||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and STAIC Trait Anxiety measured at Baseline for all participants|||||.59
82522408|NCT01812655|164740050|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.059||||0.6||95.0|||||Semipartial correlation||Semipartial correlation between desire for distraction and Procedural Pain (Outcome Measure #1) for all participants|||||.60
82572658|NCT02706847|164855121|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.28|||<|0.001|TWO_SIDED|95.0|-1.56|-0.99||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.99|-1.56|<0.001
82522409|NCT01812655|164740051|SUPERIORITY_OR_OTHER||semipartial correlation|-0.276||||0.15||95.0|||||Semipartial Correlation||Semipartial correlation between Engagement with Distraction and STAIC State Anxiety measured at Baseline for all participants|||||0.15
82522410|NCT01812655|164740051|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.347||||0.18||95.0|||||Semipartial correlation||Semipartial correlation between Engagement with Distraction and STAIC Trait Anxiety measured at Baseline for all participants|||||0.18
82522411|NCT01812655|164740051|SUPERIORITY_OR_OTHER||Semipartial correlation|0.21||||0.054||95.0|||||Semipartial correlation||Semipartial correlation between Engagement with Distraction and Procedural Pain (Outcome Measure #1) for all participants|||||0.054
82522412|NCT01812655|164740051|SUPERIORITY_OR_OTHER||Semipartial Correlation|-0.102||||0.61||95.0|||||Semipartial Correlation||Semipartial correlation between Belief in Distraction's Efficacy and STAIC State Anxiety measured at Baseline for all participants|||||0.61
82522413|NCT01812655|164740051|SUPERIORITY_OR_OTHER||Semipartial Correlation|-0.622||||0.007||95.0|||||Semipartial Correlation||Semipartial correlation between Belief in Distraction's Efficacy and STAIC Trait Anxiety measured at Baseline for all participants|||||0.007
82522414|NCT01812655|164740051|SUPERIORITY_OR_OTHER||Semipartial correlation|-0.217||||0.045||95.0|||||Semipartial correlation||Semipartial correlation between Belief in Distraction's Efficacy and Procedural Pain (Outcome Measure #1) for all participants|||||0.045
82522415|NCT00419263|164740064|SUPERIORITY_OR_OTHER|||||||0.377|TWO_SIDED||||||Regression, Cox|P-value is based on the treatment parameter from the Cox Regression Model including treatment, current smoking behavior, and geographic region.||||||0.377
82522416|NCT00419263|164740065|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||P-value is based on the log-rank statistic controlling for current smoking behavior and geographic region.|Log Rank|||||||0.007
82522417|NCT00419263|164740066|SUPERIORITY_OR_OTHER|||||||0.537|TWO_SIDED|||||P-value is based on the log-rank statistic controlling for current smoking behavior and geographic region.|Log Rank|||||||0.537
82522418|NCT00419263|164740067|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.002
82522419|NCT00419263|164740068|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||< 0.001
82522420|NCT00419263|164740069|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.409
82522421|NCT00419263|164740070|SUPERIORITY_OR_OTHER|||||||0.327|TWO_SIDED|||||The differences between the treatment groups were evaluated using a Wilcoxon Rank Sum Test controlling for current smoking behavior.|Wilcoxon (Mann-Whitney)|||||||0.327
82522422|NCT02342886|164740071|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% confidence interval (CI) for the difference between the percentage of patients who are classified as having an unfavourable status on the intervention (6 months moxifloxacin + 200 mg PA-824 + pyrazinamide) and the control regimen (2 months HRZE/ 4 months HR). The intervention was considered to be non-inferior to the control arm if the upper bound 95% CI was \< 12%.|Treatment difference: unfavourable rate|9.88|||||TWO_SIDED|95.0|-4.13|23.89|||||(DS-TB: 6 Months Moxifloxacin + PA-824 (200 mg) + Pyrazinamide) - (DS-TB: 2 Months HRZE/ 4 Months HR).|||23.89|-4.13|
82522423|NCT02342886|164740072|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavourable status on the intervention (6 months moxifloxacin + 200 mg PA-824 + pyrazinamide) and the control regimen (2 months HRZE/ 4 months HR). The intervention was considered to be non-inferior to the control arm if the upper bound 95% CI was \< 12%.|Treatment difference: unfavourable rate|6.62|||||TWO_SIDED|95.0|-2.15|15.4|||||(DS-TB: 6 Months Moxifloxacin + PA-824 (200 mg) + Pyrazinamide) - (DS-TB: 2 Months HRZE/ 4 Months HR).|||15.40|-2.15|
82522424|NCT00538590|164740079|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.95
82522425|NCT00538590|164740081|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||1.00
82522426|NCT00538590|164740082|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.40
82522427|NCT00538590|164740083|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANOVA|||Null hypothesis: post-operative intraocular pressure change in ologen group is equal to that in Mitomycin-C group.||||0.91
82522428|NCT00567190|164740084|SUPERIORITY||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75||Tested at two-sided 5% significance level|Log Rank (stratified)|Stratified by prior treatment status and region|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|The null hypothesis (H0) was that the survival distributions of PFS in the two treatments arms (pertuzumab vs. placebo) are the same. The alternative hypothesis (H1) was that the survival distribution of PFS in the experimental arm (pertuzumab) and control arm (placebo) are different.||0.75|0.51|<0.0001
82523305|NCT00944658|164741968|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.58
82523306|NCT00944658|164741969|SUPERIORITY|||||||0.108|||||||ANCOVA|Rank Ancova||||||0.108
82523307|NCT00838682|164741996|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82443213|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-17.7||||0.065|TWO_SIDED|95.0|-35.0|0.3|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤13 mm Hg||0.3|-35.0|0.065
82522429|NCT00567190|164740084|SUPERIORITY||Cox Proportional Hazard|0.63|||<|0.0001|TWO_SIDED|95.0|0.52|0.76||Tested at two-sided 5% significance level|Log Rank (unstratified)|Unstratified|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|The null hypothesis (H0) was that the survival distributions of PFS in the two treatments arms (pertuzumab vs. placebo) are the same. The alternative hypothesis (H1) was that the survival distribution of PFS in the experimental arm (pertuzumab) and control arm (placebo) are different.||0.76|0.52|<0.0001
82522430|NCT00567190|164740085|SUPERIORITY|Exploratory|Cox Proportional Hazard|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.82||Exploratory|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|End-of-Study OS Analysis: This end-of-study OS analysis is considered exploratory only as the confirmatory OS analysis for statistical interpretation had previously occurred at the second interim OS analysis.||0.82|0.58|<0.0001
82522431|NCT00567190|164740085|SUPERIORITY|Exploratory|Cox Proportional Hazard|0.68||||0.0002|TWO_SIDED|95.0|0.56|0.84||Exploratory|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|Event-Driven Final OS Analysis: This final OS analysis was event-driven and planned to take place after a total of 385 deaths had occurred. It is considered exploratory only as the confirmatory OS analysis for statistical interpretation had previously occurred at the second interim OS analysis.||0.84|0.56|0.0002
82522432|NCT00567190|164740085|SUPERIORITY||Cox Proportional Hazard|0.66||||0.0008|TWO_SIDED|95.0|0.52|0.84||The threshold for statistical significance was HR≤0.739, p≤0.0138.|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio (HR) is comparing Pertuzumab arm with Placebo arm.|Second Interim OS Analysis: For this second interim OS analysis, the pre-defined O'Brien-Fleming stopping boundary for the Lan-DeMets α-spending function was: HR≤0.739, p≤0.0138.||0.84|0.52|0.0008
82522433|NCT00567190|164740085|SUPERIORITY||Cox Proportional Hazard|0.64||||0.005|TWO_SIDED|95.0|0.47|0.88||The threshold for statistical significance was HR≤0.603, p≤0.0012.|Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio (HR) is comparing pertuzumab with placebo arms.|First Interim OS Analysis: For this first interim OS analysis, the pre-defined O'Brien-Fleming stopping boundary for the Lan-DeMets α-spending function was: HR≤0.603, p≤0.0012.||0.88|0.47|0.0050
82523308|NCT00838682|164741997|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82523309|NCT00838682|164741998|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82443214|NCT03654885|164594824|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.7||||0.18|TWO_SIDED|95.0|-30.1|5.2|||Fisher Exact|||Percentage of Participants Achieving at Least a 20% IOP Reductions and Specific IOP Targets on Same or Lower Number of Topical IOP-Lowering Medications at Month 12- IOP Target ≤12 mmHg||5.2|-30.1|0.180
82522434|NCT00567190|164740086|SUPERIORITY||Cox Proportional Hazard|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.81|||Log Rank (stratified)|Stratified by prior treatment status and region.|Hazard ratio is comparing Pertuzumab arm with Placebo arm.|PFS by Investigator - Stratified||0.81|0.59|<0.0001
82443215|NCT03654885|164594827|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|1.8||||1|TWO_SIDED|95.0|-41.6|44.1|||Fisher Exact|||||44.1|-41.6|1.000
82443216|NCT03654885|164594828|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-32.1||||0.215|TWO_SIDED|95.0|-66.8|10.0|||Fisher Exact|||||10.0|-66.8|0.215
82523310|NCT00838682|164741999|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82523311|NCT00838682|164742000|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82639303|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|49.9||||0.0994|TWO_SIDED|95.0|22.7|110.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||110|22.7|0.0994
82639304|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|65.8||||0.4162|TWO_SIDED|95.0|32.0|135.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||135|32.0|0.4162
82443217|NCT03654885|164594830|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-14.9||||0.144|TWO_SIDED|95.0|-32.2|3.1|||Fisher Exact|||||3.1|-32.2|0.144
82443218|NCT03654885|164594831|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-10.6||||0.254|TWO_SIDED|95.0|-28.0|7.3|||Fisher Exact|||||7.3|-28.0|0.254
82523312|NCT00838682|164742001|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82386153|NCT06110494|164483857|OTHER|Pairwise comparisons were done using Mann-Whitney U test of log10 transformed CFU reduction data to compare the antimicrobial effectiveness.||||||0.05||||||Pairwise comparisons were done using Mann-Whitney U test of log 10 transformed data to compare the antimicrobial effectiveness of Fer/H2O2 in comparison with the negative (saline) and positive (NaOCl) controls with P values set at \< 0.05|Wilcoxon (Mann-Whitney)|||The sample size estimate was calculated in Pass Software 2021, using a test that compares the ratio of two means from independent samples using data that has been log-normalized. An alpha of 0.05 and power of 80% was assumed, with means and standard deviations pulled from previous studies that employed similar methodology. This produced a required sample size of 16 for each group. Pairwise comparisons were done using Mann-Whitney U test to compare the antimicrobial effectiveness.||||0.05
82386154|NCT01073605|164483864|SUPERIORITY_OR_OTHER|||||||0.02922|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.02922
82386155|NCT01073605|164483864|SUPERIORITY_OR_OTHER|||||||0.74299|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.74299
82386156|NCT01073605|164483864|SUPERIORITY_OR_OTHER|||||||0.00467|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.00467
82443219|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-7.4||||0.563|TWO_SIDED|95.0|-28.6|14.2|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤18 mm Hg||14.2|-28.6|0.563
82572659|NCT02706847|164855122|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.34|-0.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.10|-0.34|<0.001
82572660|NCT02706847|164855122|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.25|||<|0.001|TWO_SIDED|95.0|-0.38|-0.13||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use (stratum 1 vs stratum 2) and baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.13|-0.38|<0.001
82639305|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||1|TWO_SIDED|95.0|47.5|215.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||215|47.5|1.0000
82386157|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.00125|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.00125
82386158|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.25995|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.25995
82386159|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||8e-05|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||1 year||||0.00008
82386160|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.03273|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.03273
82386161|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.68581|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.68581
82386162|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||2 years||||0.00530
82386163|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.57556|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.57556
82572661|NCT02706847|164855123|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean DIfference|3.44|||<|0.001|TWO_SIDED|95.0|1.72|5.15||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.15|1.72|<0.001
82386164|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.63956|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.63956
82443220|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-12.5||||0.188|TWO_SIDED|95.0|-33.5|9.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤17 mm Hg||9.1|-33.5|0.188
82639306|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2.23|||<|0.0001|TWO_SIDED|95.0|1.01|4.94|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||4.94|1.01|<.0001
82639307|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2230.0|||<|0.0001|TWO_SIDED|95.0|965.0|5160.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||5160|965|<.0001
82522435|NCT00567190|164740087|SUPERIORITY||Difference in Objective Response Rates|10.83||||0.0011|TWO_SIDED|95.0|4.2|17.5|||Mantel Haenszel|Stratified by prior treatment status and region.|Difference in the objective response rates between arms is calculated as Pertuzumab arm minus Placebo arm. The 95% CI was calculated using the Hauck-Anderson method.|Difference in Objective Response (CR + PR) Between Arms||17.5|4.2|0.0011
82522436|NCT00567190|164740087|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED|95.0|1.26|2.54||||||Odds Ratio for Objective Response (CR + PR)||2.54|1.26|
82522437|NCT00567190|164740088|SUPERIORITY||Cox Proportional Hazard|0.66|||||TWO_SIDED|95.0|0.51|0.85||||||||0.85|0.51|
82522438|NCT00567190|164740089|SUPERIORITY||Cox Proportional Hazard|0.97||||0.7161|TWO_SIDED|95.0|0.81|1.16||Stratified by prior treatment status and region.|Log Rank (stratified)||Hazard ratio is comparing Pertuzumab arm with Placebo arm.|||1.16|0.81|0.7161
82377545|NCT00486525|164462478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.037|TWO_SIDED|95.0|-0.44|-0.014|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.014|-0.44|0.037
82386165|NCT01073605|164483866|SUPERIORITY_OR_OTHER|||||||0.16421|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.16421
82522439|NCT00567190|164740098|OTHER|||||||0.7174|||||||Wilcoxon Rank Sum Test|||Wilcoxon Test of Maximum Decrease in LVEF From BL||||0.7174
82522440|NCT00182754|164740103|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
82522441|NCT02085252|164740122|SUPERIORITY_OR_OTHER|||||||0.0318||||||A 2-sided significance level of 5% was used. There was no adjustment for multiple comparisons.|Chi-squared|||The null hypothesis was that there was no difference between the two treatment strategies.||||0.0318
82522442|NCT00981084|164740130|SUPERIORITY_OR_OTHER||||||=|0.19||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the RVLT learning, yeilding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .19
82522443|NCT00981084|164740130|SUPERIORITY_OR_OTHER||||||=|0.0005||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the RVLT delay, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .0005
82522444|NCT00981084|164740130|SUPERIORITY_OR_OTHER||||||=|0.21||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the BVMT learning, yeilding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .21
82386166|NCT01073605|164483870|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.0001
82522445|NCT00981084|164740130|SUPERIORITY_OR_OTHER||||||=|0.1||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the BVMT delay, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||= .10
82522446|NCT00981084|164740131|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||t-test, 2 sided|||We used a crossover design to exame whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the CPT, yielding a difference score. we conducted an independent samples t test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.33
82522447|NCT00981084|164740132|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||t-test, 2 sided|||We used a crossover design to examine whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the Stroop, yielding a difference score. We conducted an independent samples t-test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.37
82572662|NCT02706847|164855123|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.63|||<|0.001|TWO_SIDED|95.0|2.89|6.36||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.36|2.89|<0.001
82572663|NCT02706847|164855124|SUPERIORITY||Response Rate Difference|22.3|||<|0.001|TWO_SIDED|95.0|13.6|31.1||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||31.1|13.6|<0.001
82386167|NCT01073605|164483870|SUPERIORITY_OR_OTHER|||||||0.58324|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||0.58324
82386168|NCT01073605|164483870|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values for the 3 treatment comparisons should be interpreted in line with the Bonferroni stepwise (Holm) testing procedure, to maintain the Type 1 error at p=0.05.|Wilcoxon (Mann-Whitney)|||3 years||||<0.0001
82386169|NCT01073605|164483875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.0681|TWO_SIDED|95.0|-0.05|1.39||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||1.39|-0.05|0.0681
82386170|NCT01073605|164483875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.8971|TWO_SIDED|95.0|-0.65|0.74||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||0.74|-0.65|0.8971
82386171|NCT01073605|164483875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.0583|TWO_SIDED|95.0|-1.27|0.02||There is no adjustment for multiplicity of treatment comparisons.|ANCOVA|The Analysis of Covariance took into account the patient covariates age and gender.||||0.02|-1.27|0.0583
82386172|NCT03018080|164483877|OTHER|Estimation only.|Rate|0.238|||||TWO_SIDED|95.0|0.082|0.472|||||Confidence interval estimated using the Clopper Pearson method.|The reported grade 3/4 toxicity rate with weekly paclitaxel was 0.35. If it became evident that the grade 3/4 treatment-related toxicity rate on either arm convincingly exceeded 0.35, the study arm would have been halted. Convincing evidence of exceeding 0.35 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.50 or higher.||0.472|0.082|
82386173|NCT03018080|164483877|OTHER|Estimation only.|Rate|0.316|||||TWO_SIDED|95.0|0.126|0.566|||||Confidence interval estimated using the Clopper Pearson method.|The reported grade 3/4 toxicity rate with weekly paclitaxel was 0.35. If it became evident that the grade 3/4 treatment-related toxicity rate on either arm convincingly exceeded 0.35, the study arm would have been halted. Convincing evidence of exceeding 0.35 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.50 or higher.||0.566|0.126|
82386174|NCT03018080|164483878|OTHER|Estimation only|Rate|0.191|||||TWO_SIDED|95.0|0.055|0.419|||||Confidence interval estimated using the Clopper Pearson method.|||0.419|0.055|
82386175|NCT03018080|164483878|OTHER|Estimation only.|Rate|0.421|||||TWO_SIDED|95.0|0.203|0.665|||||Confidence interval estimated using the Clopper Pearson method|||0.665|0.203|
82522448|NCT00981084|164740133|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||t-test, 2 sided|||We used a crossover design to examine whether a single dose of armodafinil would improve cognition in MS. For hypothesis testing analyses, we used a statistical approach that accounts for period (session) effects. We subtracted session 2 performance from session 1 performance on the Word Generation, yielding a difference score. We conducted an independent samples t-test with treatment order as the independent variable (A/P vs. P/A) and the difference score as the dependent variable.||||.53
82386176|NCT03018080|164483879|OTHER|Estimation only|Median|4.1|||||TWO_SIDED|95.0|1.4|6.9|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||6.9|1.4|
82386177|NCT03018080|164483879|OTHER|Estimation only|Median|3.9|||||TWO_SIDED|95.0|1.4|6.8|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||6.8|1.4|
82386178|NCT03018080|164483880|OTHER|Estimation only|Median|27.6|||||TWO_SIDED|95.0|9.7||Upper limit of the confidence interval is not reached due to censoring rate||||The Kaplan Meier method was used to estimate median OS (in months). The Greenwood method was used to estimate confidence limits of median overall survival.||||9.7|
82386179|NCT03018080|164483880|OTHER|Estimation only|Median|9.0|||||TWO_SIDED|95.0|6.8|14.0|||||The Kaplan Meier method was used to estimate median OS (in months). The Greenwood method was used to estimate confidence limits of median overall survival.|||14.0|6.8|
82386180|NCT03018080|164483881|OTHER|Estimation only.|Rate|0.667|||||TWO_SIDED|95.0|0.43|0.854|||||Confidence interval estimated using the Clopper Pearson method|||0.854|0.430|
82386181|NCT03018080|164483881|OTHER|Estimation only|Rate|0.632|||||TWO_SIDED|95.0|0.384|0.837|||||Confidence interval estimated using the Clopper Pearson method|||0.837|0.384|
82386182|NCT03018080|164483882|OTHER|Estimation only|Median|7.3|||||TWO_SIDED|95.0|5.6|8.3|||||"The Kaplan Meier method was used to estimate median duration of response (in months).~The Greenwood method was used to estimate confidence limits of median duration of response."|||8.3|5.6|
82386183|NCT03018080|164483882|OTHER|Estimation only|Median|4.0|||||TWO_SIDED|95.0|2.6|8.3|||||"The Kaplan Meier method was used to estimate median duration of response (in months).~The Greenwood method was used to estimate confidence limits of median duration of response."|||8.3|2.6|
82443221|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-15.9||||0.118|TWO_SIDED|95.0|-36.7|5.6|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤16 mmHg||5.6|-36.7|0.118
82522449|NCT00902694|164740134|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.6|-0.4||||||6 month intervention versus control||-0.4|-2.6|
82522450|NCT00902694|164740134|SUPERIORITY||Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-5.1|-1.2||||||18 month intervention versus control||-1.2|-5.1|
82386184|NCT03421210|164483888|OTHER|||||||0.001|||||||t-test, 1 sided|||Differences in brain activation in response to personal smoking versus standard smoking cues were examined.||||0.001
82386185|NCT03935425|164483901|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82386186|NCT00402688|164483918|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is a risk difference of 0.2.|Risk Difference (RD)|0.063||||||95.0|-0.089|0.215|||||Difference in success rates (levofloxacin 500mg for 4 weeks minus levofloxacin 750mg for 2 weeks ).|||0.215|-0.089|
82386187|NCT00402688|164483918|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is a risk difference of 0.2.|Risk Difference (RD)|0.045||||||95.0|-0.106|0.195|||||Difference in success rates (levofloxacin 500mg for 4 weeks minus levofloxacin 750mg for 3 weeks).|||0.195|-0.106|
82522451|NCT00902694|164740136|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-3.6|-0.4||||||6 month intervention versus control||-0.4|-3.6|
82386188|NCT03980145|164483924|SUPERIORITY|||||||0.405||||||Statistical significance set at .05|ANOVA|||Null hypothesis is no difference between the two groups||||.405
82386189|NCT03980145|164483924|SUPERIORITY|||||||0.133|||||||ANOVA|||Null hypothesis is no difference between pretest and posttest||||.133
82386190|NCT03980145|164483924|SUPERIORITY|||||||0.05|||||||ANOVA|||Evaluated the difference between the pretest and posttest within the conventional physical therapy group||||.050
82386191|NCT03980145|164483924|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.017|TWO_SIDED|95.0|0.015|0.124||p value was adjusted for multiple comparisons using a Bonferroni correction|ANOVA|||Evaluating the impact of whether comfortable walking speed for both groups combined resulted in a significant improvement in walking speed||.124|.015|.017
82386192|NCT03980145|164483925|SUPERIORITY|||||||0.369|||||||ANOVA|||Comparison of the impact between the two arms looking an improved walking endurance||||.369
82386193|NCT03980145|164483925|SUPERIORITY|||||||0.71|||||||ANOVA|||Evaluation of impact of end-effector robotic training alone||||.710
82386194|NCT03980145|164483925|SUPERIORITY|||||||0.682|||||||ANOVA|||Evaluating the impact of conventional therapy on walking endurance Null hypothesis is no difference between pretest and posttest||||.682
82386195|NCT03980145|164483925|SUPERIORITY|||||||0.568||||||p value adjusted for multiple comparisons - Bonferroni|ANOVA|||Evaluating the impact of whether both groups combined resulted in a significant change in walking distance||||.568
82386196|NCT03980145|164483926|SUPERIORITY|||||||0.594||||||Outcome specific to the physical domain|ANOVA|||Evaluation of the physical domain||||.594
82386197|NCT03980145|164483926|SUPERIORITY|||||||0.061|||||||ANOVA|||Pretest- Posttest End Effector Robotic Training Comparison for the Physical Domain||||.061
82386198|NCT03980145|164483926|SUPERIORITY|||||||0.812|||||||ANOVA|||Pretest posttest comparison of conventional training group for physical domain||||.812
82443222|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-19.5||||0.085|TWO_SIDED|95.0|-40.2|2.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤15 mm Hg||2.1|-40.2|0.085
82386199|NCT03980145|164483926|SUPERIORITY|||||||0.235|||||||ANOVA|||Combined conventional and end-effector training for outcomes in the physical domain||||.235
82386200|NCT03980145|164483926|SUPERIORITY|||||||0.465|||||||ANOVA|||Between group assessment of changes in the MFIS Cognitive domain||||.465
82386201|NCT03980145|164483926|SUPERIORITY|||||||0.165|||||||ANOVA|||Within group differences for the End Effector Robotic Training Group for the Cognitive Domain||||.165
82386202|NCT03980145|164483926|SUPERIORITY|||||||0.682|||||||ANOVA|||Within group assessment for the conventional group within the cognitive domain of the MFIS||||.682
82386203|NCT03980145|164483926|SUPERIORITY||Mean Difference (Final Values)|5.39||||0.017|TWO_SIDED|95.0|1.12|9.67||p value adjusted using a Bonferroni correction|ANOVA|||Combined group outcomes comparing pretest to posttest for the cognitive domain||9.67|1.12|.017
82386204|NCT03980145|164483926|SUPERIORITY|||||||0.052|||||||ANOVA|||Between group comparison for the MFIS Psychological Subscale||||.052
82386205|NCT03980145|164483926|SUPERIORITY|||||||0.483|||||||ANOVA|||Within group comparison for the end-effector robotic training group for the MFIS Psychological subscale||||.483
82386206|NCT03980145|164483926|SUPERIORITY|||||||0.056|||||||ANOVA|||Within group assessment for the conventional physical therapy group for the MFIS Psychological subscale||||.056
82386207|NCT03980145|164483926|SUPERIORITY||Mean Difference (Final Values)|1.313||||0.048|TWO_SIDED|95.0|0.016|2.619||p value is adjusted for multiple comparisons using a Bonferroni correction|ANOVA|||Change in MFIS for all subjects from pre to posttest for the psychological subscale||2.619|.016|.048
82386208|NCT03980145|164483926|SUPERIORITY|||||||0.01|||||||ANOVA|||Between group assessment of differences in total score||||.010
82386209|NCT03980145|164483926|SUPERIORITY|||||||0.089|||||||ANOVA|||Within assessment of change in total fatigue score||||.089
82386210|NCT03980145|164483926|SUPERIORITY|||||||0.5|||||||ANOVA|||Within group assessment of change in total score||||.50
82386211|NCT03980145|164483926|SUPERIORITY||Mean Difference (Final Values)|9.464||||0.1|TWO_SIDED|95.0|2.678|16.251|||ANOVA|||Combined assessment of all subject improvement in total MFIS score||16.251|2.678|0.10
82386212|NCT03980145|164483927|SUPERIORITY|||||||0.071|||||||ANOVA|||Null hypothesis set for no difference between groups Assessment of between group differences for the physical subscale||||.071
82386213|NCT03980145|164483927|SUPERIORITY||Mean Difference (Final Values)|14.84||||0.005|TWO_SIDED|95.0|6.02|23.66|||ANOVA|||With group assessment of change on the physical subscale of the MSIS||23.66|6.02|.005
82386214|NCT03980145|164483927|SUPERIORITY||Mean Difference (Final Values)|13.57||||0.001|TWO_SIDED|95.0|8.3|18.85|||ANOVA|||With group assessment of change on the physical subscale of the MSIS||18.85|8.30|.001
82386215|NCT03980145|164483927|SUPERIORITY||Mean Difference (Final Values)|14.21||||2.6e-05|TWO_SIDED|95.0|9.367|19.04||p value adjusted for multiple comparisons using Bonferroni|ANOVA|||Combined group assessment of change on the physical subscale of the MSIS||19.04|9.367|.000026
82386216|NCT03980145|164483927|SUPERIORITY|||||||0.084||||||Pretest measures were statistically different between the two groups|ANOVA|||Between group comparison for the psychological subscale for the MSIS||||.084
82386217|NCT03980145|164483927|SUPERIORITY|||||||0.412|||||||ANOVA|||Within group comparison for the psychological subscale for the MSIS||||.412
82386218|NCT03980145|164483927|SUPERIORITY||Mean Difference (Final Values)|22.22||||0.00018|TWO_SIDED|95.0|15.59|28.85|||ANOVA|||Within group comparison for the psychological subscale for the MSIS||28.85|15.59|.00018
82386219|NCT03980145|164483927|SUPERIORITY||Mean Difference (Final Values)|13.19||||0.00049|TWO_SIDED|95.0|7.013|19.38|||ANOVA|||Combined group comparison for the psychological subscale for the MSIS||19.38|7.013|.00049
82386220|NCT03980145|164483928|SUPERIORITY|||||||0.352|||||||ANOVA|||Null hypothesis is no difference between the two groups||||.352
82386221|NCT03980145|164483928|SUPERIORITY|||||||0.079|||||||ANOVA|||Within group assessment||||.079
82386222|NCT03980145|164483928|SUPERIORITY|||||||0.393|||||||ANOVA|||Within group assessment||||.393
82386223|NCT03980145|164483928|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.048|TWO_SIDED|95.0|0.001|0.116|||ANOVA|Adjusted for multiple mean comparisons||Evaluating the impact of whether fast walking speed for both groups combined resulted in a significant improvement in walking speed||.116|.001|.048
82522452|NCT00902694|164740136|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-4.1|0.3||||||18 month intervention versus control||0.3|-4.1|
82639308|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|2940.0|||<|0.0001|TWO_SIDED|95.0|1350.0|6400.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||6400|1350|<.0001
82386224|NCT03980145|164483929|SUPERIORITY|||||||0.117|||||||ANOVA|||Between group assessment for the HADS Anxiety Subscale||||.117
82386225|NCT03980145|164483929|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.041|TWO_SIDED|95.0|0.093|3.407|||ANOVA|||Within group assessment for HADS Anxiety Subscale||3.407|.093|.041
82386226|NCT03980145|164483929|SUPERIORITY|||||||0.15|||||||ANOVA|||Within group assessment for HADS Anxiety Subscale||||.150
82522453|NCT00902694|164740137|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-3.2|2.4||||||6 month systolic intervention versus control||2.4|-3.2|
82522454|NCT00902694|164740137|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.6|2.1||||||6 month diastolic intervention versus control||2.1|-1.6|
82386227|NCT03980145|164483929|SUPERIORITY||Mean Difference (Final Values)|1.518||||0.012|TWO_SIDED|95.0|0.39|2.646||p value adjusted for multiple comparisons|ANOVA|||Combined group assessment of HADS Anxiety Subscale||2.646|.390|.012
82386228|NCT03980145|164483930|SUPERIORITY|||||||0.239|||||||ANOVA|||||||.239
82386229|NCT03980145|164483930|SUPERIORITY|||||||0.667|||||||ANOVA|||Comparison between groups for differences in sensory pain score||||.667
82386230|NCT03980145|164483930|SUPERIORITY|||||||0.77|||||||ANOVA|||Between group differences in affective pain||||.770
82386231|NCT03980145|164483931|SUPERIORITY|||||||0.136|||||||ANOVA|||Between group assessment of LLFDI Disability Frequency||||.136
82386232|NCT03980145|164483931|SUPERIORITY|||||||0.833|||||||ANOVA|||Combined group assessment of improvement in LLFDI Disability Frequency||||.833
82386233|NCT03980145|164483931|SUPERIORITY||Mean Difference (Final Values)|6.996||||0.044|TWO_SIDED|95.0|0.212|13.781|||ANOVA|||Between Group Assessment of improvement in LLFDI Disability Limitations||13.781|.212|.044
82386234|NCT03980145|164483931|SUPERIORITY|||||||0.212|||||||ANOVA|||Combined group assessment of improvement in LLFDI Disability Limitations||||.212
82386235|NCT03980145|164483932|SUPERIORITY|||||||0.338|||||||ANOVA|||Between group comparison for the LLDFI Function||||.338
82386236|NCT03980145|164483932|SUPERIORITY||Mean Difference (Final Values)|7.508||||0.007|TWO_SIDED|95.0|2.73|12.28|||ANOVA|||Within group assessment of LLFDI Function||12.28|2.73|.007
82386237|NCT03980145|164483932|SUPERIORITY|||||||0.067|||||||ANOVA|||Within group assessment for changes in LLFDI Function||||.067
82522455|NCT00902694|164740137|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-1.6|4.8||||||18 month systolic intervention versus control||4.8|-1.6|
82522456|NCT00902694|164740137|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-0.9|3.4||||||18 month diastolic intervention versus control||3.4|-0.9|
82443223|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-21.3||||0.059|TWO_SIDED|95.0|-42.0|0.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤14 mm Hg||0.4|-42.0|0.059
82639309|NCT05664672|164993866|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4530.0|||<|0.0001|TWO_SIDED|95.0|2020.0|10200.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||10200|2020|<.0001
82386238|NCT03980145|164483932|SUPERIORITY||Mean Difference (Final Values)|5.99||||0.001|TWO_SIDED|95.0|2.9|9.08||p value adjusted for multiple comparisons|ANOVA|||Combined group improvement in LLFDI Function||9.08|2.90|.001
82386239|NCT03852264|164483970|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|2.61|||||TWO_SIDED|90.0|-1.29|6.38|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||6.38|-1.29|
82386240|NCT03852264|164483970|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|1.62|||||TWO_SIDED|90.0|-2.18|5.45|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||5.45|-2.18|
82443224|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-23.5||||0.045|TWO_SIDED|95.0|-43.9|-1.4|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤13 mm Hg||-1.4|-43.9|0.045
82386241|NCT03852264|164483970|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-1.0|||||TWO_SIDED|90.0|-4.93|2.83|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||2.83|-4.93|
82386242|NCT03852264|164483971|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|0.3482|||||TWO_SIDED|90.0|-0.476|1.211|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||1.211|-0.476|
82386243|NCT03852264|164483971|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-0.0635|||||TWO_SIDED|90.0|-0.931|0.803|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||0.803|-0.931|
82386244|NCT03852264|164483971|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-0.422|||||TWO_SIDED|90.0|-1.319|0.445|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||0.445|-1.319|
82386245|NCT03852264|164483972|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|0.468|||||TWO_SIDED|90.0|-101.0|99.5|||||Contrast reflecting Pet Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||99.5|-101|
82443225|NCT03654885|164594832|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-20.8||||0.076|TWO_SIDED|95.0|-41.3|1.1|||Fisher Exact|||Percentage of Participants Achieving Specific IOP Targets at Month 12 in Medication-free Eye- IOP Target ≤12 mm Hg||1.1|-41.3|0.076
82443226|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-9.6||||0.464|TWO_SIDED|95.0|-31.0|12.1|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥ 25% IOP Reduction||12.1|-31.0|0.464
82443227|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-19.8||||0.069|TWO_SIDED|95.0|-40.6|2.1|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥30% IOP Reduction||2.1|-40.6|0.069
82522457|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-2.9|||||TWO_SIDED|95.0|-9.9|4.1||||||6 month total chol intervention versus control||4.1|-9.9|
82522458|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-5.2|||||TWO_SIDED|95.0|-14.9|4.4||||||18 month total chol intervention versus control||4.4|-14.9|
82522459|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-7.5|5.1||||||6 month LDL chol intervention versus control||5.1|-7.5|
82522460|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-4.6|||||TWO_SIDED|95.0|-13.1|3.9||||||18 month LDL chol intervention versus control||3.9|-13.1|
82522461|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.9|1.7||||||6 month HDL chol intervention versus control||1.7|-2.9|
82522462|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-1.8|3.1||||||18 month HDL intervention versus control||3.1|-1.8|
82522463|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-5.5|||||TWO_SIDED|95.0|-23.5|12.4||||||6 month TRIG intervention versus control||12.4|-23.5|
82386246|NCT03852264|164483972|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-115.0|||||TWO_SIDED|90.0|-225.0|-15.5|||||Contrast reflecting Unfamiliar Dog Interaction - Toys Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||-15.5|-225|
82386247|NCT03852264|164483972|OTHER|90% credible interval for contrast between conditions|Mean Difference (Net)|-115.48|||||TWO_SIDED|90.0|-223.0|-16.2|||||Contrast reflecting Unfamiliar Dog Interaction - Pet Dog Interaction|Bayesian multilevel model of area under the curve with respect to initial value (AUCi) as a function of experimental condition.||-16.2|-223|
82522464|NCT00902694|164740138|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-27.0|23.9||||||18 month TRIG intervention versus control||23.9|-27.0|
82522465|NCT04154787|164740154|SUPERIORITY|Comparison of adjusted geometric mean ratios on Day 169|Adjusted geometric mean ratio|1.37||||0.267|TWO_SIDED|95.0|0.9|2.08||Calculated at one-sided 10% level from a lower-tailed test|Mixed Models Analysis|||||2.08|0.90|0.2670
82522466|NCT04154787|164740157|SUPERIORITY||Adjusted geometric mean ratios|0.81||||0.4598|TWO_SIDED|95.0|0.47|1.42||Calculated from a two-sided test at the 0.05 significance level|Mixed Model for Repeated Measures||Comparison of adjusted geometric mean ratios: Test vs Ref.|Day 15||1.42|0.47|0.4598
82522467|NCT04154787|164740157|SUPERIORITY||Geometric mean ratios|1.3||||0.4528|TWO_SIDED|95.0|0.65|2.61||Calculated from a two-sided test at the 0.05 significance level|Mixed Model for Repeated Measures||Comparison of adjusted geometric mean ratios: Test vs Ref.|Day 169||2.61|0.65|0.4528
82522468|NCT03053050|164740165|SUPERIORITY||Percentage Difference|-2.1||||0.4941|TWO_SIDED|95.0|-8.3|4.0||Difference between SEL 18 mg and Placebo, 95% confidence interval (CI) and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and Enhanced Liver Fibrosis (ELF) test score as stratification factors.|Mantel Haenszel|||||4.0|-8.3|0.4941
82522469|NCT03053050|164740165|SUPERIORITY||Percentage Difference|-0.3||||0.9321|TWO_SIDED|95.0|-6.6|6.0||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||6.0|-6.6|0.9321
82522470|NCT03053050|164740167|SUPERIORITY||Percentage Difference|-4.0||||0.2593|TWO_SIDED|95.0|-10.8|2.9||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||2.9|-10.8|0.2593
82522471|NCT03053050|164740167|SUPERIORITY||Percentage Difference|-0.9||||0.808|TWO_SIDED|95.0|-7.9|6.1||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||6.1|-7.9|0.8080
82639310|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.69|||<|0.0001|TWO_SIDED|95.0|3.29|9.87|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||9.87|3.29|<.0001
82522472|NCT03053050|164740169|SUPERIORITY||Percentage Difference|-2.0||||0.5636|TWO_SIDED|95.0|-8.7|4.8||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||4.8|-8.7|0.5636
82522473|NCT03053050|164740169|SUPERIORITY||Percentage Difference|-1.9||||0.5915|TWO_SIDED|95.0|-8.6|4.9||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||4.9|-8.6|0.5915
82639311|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|8.08|||<|0.0001|TWO_SIDED|95.0|4.88|13.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||13.4|4.88|<.0001
82386248|NCT04481789|164483974|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Rosuvastatin + Edaravone / Rosuvastatin Alone).|LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.97|1.08||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.08|0.97|
82522474|NCT03053050|164740171|SUPERIORITY||Percentage Difference|-3.2||||0.2455|TWO_SIDED|95.0|-8.5|2.2||Difference between SEL 18 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||2.2|-8.5|0.2455
82522475|NCT03053050|164740171|SUPERIORITY||Percentage Difference|-4.0||||0.1371|TWO_SIDED|95.0|-9.3|1.3||Difference between SEL 6 mg and Placebo, 95% CI and p-value were obtained by stratum-adjusted Mantel-Haenszel method with baseline diabetes mellitus status and ELF test score as stratification factors.|Mantel Haenszel|||||1.3|-9.3|0.1371
82522476|NCT03896009|164740196|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82522477|NCT03896009|164740197|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82522478|NCT00437645|164740198|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis for non-inferiority of valsartan/amlodipine 160/5 mg to amlodipine 10 mg alone with a non-inferiority margin of 3 mm Hg|Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-3.0|-0.44|||ANCOVA|||||-0.44|-3.00|
82522479|NCT00175825|164740214|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|9.8|||=|0.24|TWO_SIDED|95.0|-7.2|24.0|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||24.0|-7.2|=0.240
82386249|NCT04481789|164483974|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Sildenafil + Edaravone / Sildenafil Alone).|LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.88|0.99||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||0.99|0.88|
82443228|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-26.6||||0.023|TWO_SIDED|95.0|-46.9|-4.7|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥35% IOP Reduction||-4.7|-46.9|0.023
82522480|NCT00175825|164740214|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|14.9|||=|0.062|TWO_SIDED|95.0|-0.8|28.2|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||28.2|-0.8|=0.062
82522481|NCT00175825|164740214|SUPERIORITY_OR_OTHER||Percent reduction over Placebo|22.1|||=|0.004|TWO_SIDED|95.0|7.6|34.3|||ANCOVA|||ANCOVA with baseline seizure frequency per week and each of the stratification factors as independent variables.||34.3|7.6|=0.004
82522482|NCT03675451|164740220|OTHER|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Proportion of Participants|0.95|||||TWO_SIDED|95.0|0.74|0.99|||||Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.||0.99|0.74|
82522483|NCT03675451|164740221|OTHER|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Proportion of Participants|1.0|||||TWO_SIDED|95.0|0.66|1.0|||||Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.|Clopper-Pearson (Exact) 95% confidence interval to assess precision of finding.||1.00|0.66|
82639312|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.58|||<|0.0001|TWO_SIDED|95.0|3.88|11.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||11.2|3.88|<.0001
82639313|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.03|||<|0.0001|TWO_SIDED|95.0|3.46|10.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||10.5|3.46|<.0001
82522484|NCT04098406|164740233|SUPERIORITY||Mean Difference (Final Values)|7.7||||0.4304|TWO_SIDED|95.0|-11.9|27.3|||MMRM|||||27.3|-11.9|0.4304
82522485|NCT04098406|164740234|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.6519|TWO_SIDED|95.0|-12.4|19.7|||MMRM|||||19.7|-12.4|0.6519
82522486|NCT04098406|164740235|SUPERIORITY||Mean Difference (Final Values)|18.8||||0.6158|TWO_SIDED|95.0|-56.4|94.0|||MMRM|||||94.0|-56.4|0.6158
82522487|NCT04098406|164740240|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.4249|TWO_SIDED|95.0|-1.6|3.6|||MMRM|||||3.6|-1.6|0.4249
82522488|NCT04098406|164740241|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.0350
82522489|NCT04098406|164740243|SUPERIORITY||Mean Difference (Final Values)|9.1||||0.2237|TWO_SIDED|95.0|-5.8|23.9|||ANCOVA|||||23.9|-5.8|0.2237
82522490|NCT04098406|164740244|SUPERIORITY||Hazard Ratio (HR)|0.29||||0.0125|TWO_SIDED|95.0|0.103|0.815|||Log Rank|||||0.815|0.103|0.0125
82522491|NCT04098406|164740246|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.0177|TWO_SIDED|95.0|0.2|1.6|||MMRM|||||1.6|0.2|0.0177
82443229|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-23.7||||0.046|TWO_SIDED|95.0|-43.9|-1.6|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥40% IOP Reduction||-1.6|-43.9|0.046
82443230|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-27.6||||0.014|TWO_SIDED|95.0|-47.6|-5.9|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥45% IOP Reduction||-5.9|-47.6|0.014
82443231|NCT03654885|164594833|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Percentage Difference|-30.9||||0.006|TWO_SIDED|95.0|-50.8|-9.5|||Fisher Exact|||Percentage of Participants Achieving Specific Percentage IOP Lower Targets From Baseline at Month 12 With Medication-free Eyes: ≥50% IOP Reduction||-9.5|-50.8|0.006
82443232|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.35||0.004|TWO_SIDED|95.0|0.33|1.72|||Mixed Model for Repeated Measures|MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses: Day 1||1.72|0.33|0.004
82443233|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.36||0.001|TWO_SIDED|95.0|0.47|1.88||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Week 1||1.88|0.47|0.001
82522492|NCT04186780|164740312|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters were normalized to logarithmic scale."|Mean Difference (Net)|2.5||||0.59|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group and intervention group in total cholesterol.|||||0.59
82522493|NCT04186780|164740313|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical and oxidative stress parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters and oxidative stress were normalized to logarithmic scale."|Mean Difference (Net)|0.4||||0.8284|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group and intervention group.|||||0.8284
82522494|NCT04186780|164740314|SUPERIORITY||Median Difference (Net)|0.1||||0.0058|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between T0 and T66 in the placebo group compared to the intervention group.|||||0.0058
82522495|NCT04186780|164740315|SUPERIORITY||Median Difference (Net)|0.8||||0.0384|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Reduced difference in TBARS in the placebo group compared to the intervention group at T66.|||||0.0384
82572664|NCT02706847|164855124|SUPERIORITY||Response Rate Difference|23.9|||<|0.001|TWO_SIDED|95.0|15.1|32.7||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||32.7|15.1|<0.001
82572665|NCT02706847|164855125|SUPERIORITY||Response Rate Difference|5.1||||0.11|TWO_SIDED|95.0|-1.1|11.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||11.2|-1.1|0.110
82572666|NCT02706847|164855125|SUPERIORITY||Response Rate Difference|16.5|||<|0.001|TWO_SIDED|95.0|9.1|23.9||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||23.9|9.1|<0.001
82639314|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|94.4||||0.9972|TWO_SIDED|95.0|52.7|169.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||169|52.7|0.9972
82443234|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.36||0.162|TWO_SIDED|95.0|-0.2|1.2||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Week 2||1.20|-0.20|0.162
82443235|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.36||0.185|TWO_SIDED|95.0|-0.23|1.19||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 1||1.19|-0.23|0.185
82443236|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.36||0.846|TWO_SIDED|95.0|-0.64|0.79||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 3||0.79|-0.64|0.846
82522496|NCT04186780|164740316|SUPERIORITY|"The differences between Shiitake and placebo groups were analyzed by the Chi-square test, Exact of Fisher test and Student's t-test.~Descriptions of all biochemical and oxidative stress parameters were expressed as mean ± standard deviation. To investigate the differences in biochemical parameters between the groups, Analysis of Variance (ANOVA) with repeated measurements was applied. All results of biochemical parameters and oxidative stress were normalized to logarithmic scale."|Mean Difference (Net)|47.0||||0.0352|TWO_SIDED|95.0||||P \< 0.05 was accepted as statistically significant.|ANOVA||Difference between placebo group and intervention group of T66.|||||0.0352
82522497|NCT02066402|164740327|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance. Predefined margin for non-inferiority is -10%.|Difference of responder rate|-4.6||||0.2027|TWO_SIDED|95.0|-11.2|2.2|||Fisher Exact|||||2.2|-11.2|0.2027
82522498|NCT02066402|164740328|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.2|||||TWO_SIDED|95.0|-8.3|3.8||||||||3.8|-8.3|
82522499|NCT02066402|164740329|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.1|||||TWO_SIDED|95.0|-7.4|3.2||||||||3.2|-7.4|
82522500|NCT02066402|164740330|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-2.2|||||TWO_SIDED|95.0|-8.6|4.1||||||||4.1|-8.6|
82522501|NCT02066402|164740331|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority (NI) hypothesis test is a 1-sided hypothesis test performed at the 2.5% level of significance.|Difference of responder rate|-3.1|||||TWO_SIDED|95.0|-8.4|2.0||||||||2.0|-8.4|
82522502|NCT00152464|164740338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.002|||=|0.991|TWO_SIDED|95.0|0.75|1.338|||Regression, Cox|||||1.338|0.750|=0.991
82522503|NCT00917579|164740381|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell within (80%, 125%).|ratio of adjusted geometric means|95.34||||||90.0|91.33|99.52|||ANOVA|Values were back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. AUClast + (Clast\*/kel), where Clast\* was the predicted plasma concentration at the last quantifiable time point estimated from the log-linear regression analysis.|Natural log transformed AUCinf was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Adjusted mean difference (Test-Ref) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||99.52|91.33|
82522504|NCT00917579|164740382|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both the AUCinf and Cmax fell within (80%, 125%). AUCinf method of determination includes AUC last calculated value.|ratio of adjusted geometric means|95.79||||||90.0|91.07|100.76|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Log-linear trapezoidal method.|Natural log transformed AUClast was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence interval was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||100.76|91.07|
82522505|NCT00917579|164740383|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell within (80%, 125%).|ratio of adjusted geometric means|91.41||||||90.0|83.39|100.2|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals were obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||100.20|83.39|
82522506|NCT04020341|164740409|NON_INFERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for non-inferiority is if the Z-statistic for non-inferiority is greater than the Z-statistic boundary (2.065).|Adjusted Difference in Percent|4.3|||||TWO_SIDED|95.0|-3.6|12.1|||||||Observed Z statistic value for Noninferiority was 3.5554.|12.1|-3.6|
82522507|NCT04020341|164740409|SUPERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for superiority is if the one-sided p-value is less than the 0.019 p-value boundary.|Adjusted difference of Percent|4.3||||0.1445|TWO_SIDED|95.0|-3.6|12.1|||1-sided p-value for Test of Superiority|||||12.1|-3.6|0.1445
82522508|NCT00162370|164740446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||Regression, Cox|||The null hypothesis evaluated is that the scores are not associated with outcome. Of the two measures, wall motion index is considered to be the primary endpoint measure. The cardiac event rate will be summarized by categorical levels of wall motion index score and the difference in wall motion index score.||||0.014
82522509|NCT00162370|164740447|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Regression, Cox|||||||<0.0001
82522510|NCT03905330|164740479|SUPERIORITY||Least-Square mean|-1.089|STANDARD_ERROR_OF_MEAN|0.3691|=|0.0063|TWO_SIDED|95.0|-1.845|-0.334|||Mixed Models Analysis|||The difference between maralixibat and placebo treatment groups in the mean change in the average ItchRO(Obs) severity score between baseline and Weeks 15-26||-0.334|-1.845|= 0.0063
82522511|NCT03905330|164740480|SUPERIORITY||Least-Square mean|-186.723|STANDARD_ERROR_OF_MEAN|51.9501|=|0.0013|TWO_SIDED|95.0|-293.454|-79.992|||Mixed Models Analysis|||||-79.992|-293.454|= 0.0013
82522512|NCT03905330|164740481|SUPERIORITY||Least-Square mean|-1.2|STANDARD_ERROR_OF_MEAN|0.263|<|0.0001|TWO_SIDED|95.0|-1.727|-0.674|||Mixed Models Analysis|||||-0.674|-1.727|< 0.0001
82522513|NCT03905330|164740482|SUPERIORITY||Least-Square mean|-160.403|STANDARD_ERROR_OF_MEAN|30.1827|<|0.0001|TWO_SIDED|95.0|-220.836|-99.97|||Mixed Models Analysis|||||-99.970|-220.836|< 0.0001
82522514|NCT03905330|164740483|OTHER||||||=|0.0736|||||||Bernard's exact test|||||||= 0.0736
82522515|NCT03905330|164740484|SUPERIORITY||||||=|0.041|||||||Bernard's exact test|||||||= 0.0410
82522516|NCT03905330|164740485|SUPERIORITY||||||=|0.0023|||||||Bernard's exact test|||||||= 0.0023
82522517|NCT03905330|164740486|SUPERIORITY||||||=|0.0004|||||||Bernard's exact test|||||||= 0.0004
82522518|NCT04085328|164740558|NON_INFERIORITY|Predefined margin of 0.05 for noninferiority|Difference in proportion|-0.0154|||||ONE_SIDED|95.0||-0.0015|||Generalized linear model|Proportion of events was analyzed using a generalized linear model, with a logit link function, accounting for within-subject correlation.|Difference in proportion = LID015385 minus Biofinity.|||-0.0015||
82522519|NCT01596582|164740559|SUPERIORITY|||||||0.4|||||||Chi-squared|||||||0.40
82522520|NCT01596582|164740560|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82522521|NCT01596582|164740561|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82522522|NCT01596582|164740562|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82522523|NCT01596582|164740563|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82522524|NCT01596582|164740564|SUPERIORITY||||||>|0.05||||||The p-value for each comparison was non-significanct.|Wilcoxon (Mann-Whitney)|||||||>0.05
82522525|NCT01596582|164740565|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82522526|NCT01596582|164740566|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82522527|NCT01596582|164740567|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82522528|NCT01596582|164740568|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
82522529|NCT00101933|164740593|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||Since a treatment-by-visit interaction remains in the final model, the results were analyzed by visit. The results shown are for the last month in the blinded phase (month 3-4).|Generalized Estimating Equations|This analysis is adjusted for significant baseline covariates.||The numbers presented are the percentage reduction in the number of seizures in each group. A negative percentage change indicates a seizure reduction.||||0.0017
82443237|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.36||0.965|TWO_SIDED|95.0|-0.73|0.7||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 6||0.70|-0.73|0.965
82443238|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.37||0.096|TWO_SIDED|95.0|-0.11|1.33||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 9||1.33|-0.11|0.096
82443239|NCT03654885|164594840|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.37||0.063|TWO_SIDED|95.0|-0.04|1.43||MMRM model with treatment and time as the factors, treatment by time interaction and baseline as the covariate variables were used for analysis|Mixed Model for Repeated Measures|||Mean Change From Baseline in Best Corrected Visual Acuity (BCVA) With Current Glasses:Month 12||1.43|-0.04|0.063
82443240|NCT03654885|164594841|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.027||0.048|TWO_SIDED|95.0|-0.105|0.0|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 1||0.000|-0.105|0.048
82443241|NCT03654885|164594841|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.027||0.742|TWO_SIDED|95.0|-0.062|0.045|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 3||0.045|-0.062|0.742
82443242|NCT03654885|164594841|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.027||0.925|TWO_SIDED|95.0|-0.056|0.051|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 6||0.051|-0.056|0.925
82443243|NCT03654885|164594841|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.028||0.021|TWO_SIDED|95.0|-0.118|-0.01|||Mixed Model for Repeated Measures|||Mean Change From Baseline in Manifest Refraction - Mean Visual Acuity Using Snellen in LogMAR Scale: Month 12||-0.010|-0.118|0.021
82443244|NCT03654885|164594844|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.562|STANDARD_ERROR_OF_MEAN|0.3231||0.087|TWO_SIDED|95.0|-1.2082|0.0851|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Week 1||0.0851|-1.2082|0.087
82443245|NCT03654885|164594844|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.3355||0.682|TWO_SIDED|95.0|-0.809|0.5324|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Month 1||0.5324|-0.8090|0.682
82443246|NCT03654885|164594844|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.452|STANDARD_ERROR_OF_MEAN|0.3484||0.199|TWO_SIDED|95.0|-1.1483|0.2434|||Mixed Model for Repeated Measures|||Mean Change from Baseline in Surgically Induced Astigmatism - Topography at Selected Sites at Month 12||0.2434|-1.1483|0.199
82443247|NCT03654885|164594845|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.001|STANDARD_ERROR_OF_MEAN|0.2026||0.997|TWO_SIDED|95.0|-0.4103|0.4086|||Mixed Model for Repeated Measures|||Mean Change in Optical Biometry - Anterior Chamber Depth at Day 1||0.4086|-0.4103|0.997
82443248|NCT03654885|164594845|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.222|STANDARD_ERROR_OF_MEAN|0.2124||0.302|TWO_SIDED|95.0|-0.2068|0.6506|||Mixed Model for Repeated Measures|||Mean Change in Optical Biometry - Anterior Chamber Depth at Week 2||0.6506|-0.2068|0.302
82443249|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.343|STANDARD_ERROR_OF_MEAN|0.3336||0.309|TWO_SIDED|95.0|-0.3289|1.0154|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K1 at Day 1||1.0154|-0.3289|0.309
82443250|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|0.261|STANDARD_ERROR_OF_MEAN|0.3278||0.43|TWO_SIDED|95.0|-0.3993|0.922|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K1 at Week 2||0.9220|-0.3993|0.430
82443251|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.409|STANDARD_ERROR_OF_MEAN|0.4457||0.363|TWO_SIDED|95.0|-1.3071|0.4882|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K2 at Day 1||0.4882|-1.3071|0.363
82443252|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.488|STANDARD_ERROR_OF_MEAN|0.4383||0.272|TWO_SIDED|95.0|-1.3709|0.3954|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - K2 at Week 2||0.3954|-1.3709|0.272
82443253|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.765|STANDARD_ERROR_OF_MEAN|0.4502||0.096|TWO_SIDED|95.0|-1.6722|0.142|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - Delta D at Day 1||0.1420|-1.6722|0.096
82522530|NCT00101933|164740595|SUPERIORITY_OR_OTHER||Rate per 1000 years of stimulation|4.9|||||TWO_SIDED|95.0|0.6|17.79|||No statistical test||The rate is calculated per 1000 subject years of follow-up based on 406 subject years of stimulation. The confidence interval is the 95% Poisson confidence interval. Per protocol, only definite and probable SUDEP were included in the calculation.|||17.79|0.60|
82522531|NCT00101933|164740596|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Fisher Exact|||Fisher's Exact test. The numbers presented in this analysis are the number of subjects who were responders based on a responder definition including all subjects with 50% or greater improvement in total seizure count.||||0.830
82522532|NCT00101933|164740597|SUPERIORITY_OR_OTHER|||||||0.105||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.105
82522533|NCT00101933|164740598|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.498
82443254|NCT03654885|164594846|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.576|STANDARD_ERROR_OF_MEAN|0.4411||0.198|TWO_SIDED|95.0|-1.4655|0.3129|||Mixed Model for Repeated Measures|||Mean Change in from Baseline Optical Biometry - Delta D at Week 2||0.3129|-1.4655|0.198
82522534|NCT00101933|164740599|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82522535|NCT00101933|164740600|SUPERIORITY_OR_OTHER|||||||0.0387||95.0||||Since a visit-by-treatment interaction did not remain in the final model, the results shown are for the entire blinded phase.|Generalized Estimating Equations|This analysis is adjusted for significant baseline covariates.||The numbers presented are the percentage reduction in the number of seizures in each group. A negative percentage change indicates a seizure reduction.||||0.0387
82522536|NCT00101933|164740601|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||Numbers provided indicate the percentage change from baseline in seizure frequency of each participant's most severe seizures. Negative values indicate improvement from baseline.||||0.047
82522537|NCT00810264|164740604|NON_INFERIORITY|The primary safety endpoint 1 hypothesis was evaluated by performing an exact, non-inferiority test comparing a binomial proportion (overall SAEFR at 5 years) to 92.5%, with a non-inferiority delta of 5%.|||||<|0.0001|||||||Binomial Proportion|||||||<0.0001
82522538|NCT01563536|164740626|SUPERIORITY_OR_OTHER||Mean Difference (Maximal Decrease)|-1.5||||0.035|TWO_SIDED|95.0|-2.81|-0.13||Pre-specified 2-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with the baseline log10 HCV RNA values as a covariate and with an effect for treatment arm.||||-0.13|-2.81|0.035
82522539|NCT00313820|164740673|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.578||95.0|-0.7|0.4|||ANCOVA|ANCOVA with treatment and country as factors and baseline pain score as covariate.||Modelled Results: Endpoint Mean Pain Score Pregabalin vs Placebo||0.4|-0.7|0.578
82572667|NCT02706847|164855126|SUPERIORITY||Response Rate Difference|16.8|||<|0.001|TWO_SIDED|95.0|8.5|25.1||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||25.1|8.5|<0.001
82522540|NCT00313820|164740673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294||95.0||||Interaction p-value based on adding interaction term to the main model.|ANCOVA|||Modelled Results: Treatment by country interaction||||0.294
82522541|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.161||95.0|-0.8|0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 1 Modelled Results||0.1|-0.8|0.161
82522542|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.062||95.0|-1.0|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 2 Modelled Results||0.0|-1.0|0.062
82572668|NCT02706847|164855126|SUPERIORITY||Response Rate Difference|14.2|||<|0.001|TWO_SIDED|95.0|6.1|22.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use (stratum 1 vs stratum 2).|Response Rate Difference = Upadacitinib - Placebo|||22.3|6.1|<0.001
82639315|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|134.0||||0.4655|TWO_SIDED|95.0|77.9|230.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||230|77.9|0.4655
82639316|NCT05664672|164993867|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|109.0||||0.9851|TWO_SIDED|95.0|62.1|192.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||192|62.1|0.9851
82639317|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.7|||<|0.0001|TWO_SIDED|95.0|9.72|19.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||19.2|9.72|<.0001
82639318|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.6|||<|0.0001|TWO_SIDED|95.0|12.1|22.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.6|12.1|<.0001
82386250|NCT04481789|164483974|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Furosemide + Edaravone / Furosemide Alone).|LS Mean Ratio|1.03|||||TWO_SIDED|90.0|0.98|1.09||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.09|0.98|
82386251|NCT04481789|164483975|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Rosuvastatin + Edaravone / Rosuvastatin).|LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.91|1.06||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.06|0.91|
82386252|NCT04481789|164483975|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Sildenafil + Edaravone / Sildenafil Alone).|LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.8|1.1||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.10|0.80|
82443255|NCT03654885|164594857|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-3.031|STANDARD_ERROR_OF_MEAN|4.3331||0.485|TWO_SIDED|95.0|-11.5597|5.4973|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Local Eye Symptoms Score||5.4973|-11.5597|0.485
82522543|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.024||95.0|-1.1|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 3 Modelled Results||-0.1|-1.1|0.024
82639319|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.4|||<|0.0001|TWO_SIDED|95.0|9.68|18.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.6|9.68|<.0001
82386253|NCT04481789|164483975|OTHER|Estimates of least squares mean difference of log-transformed PK parameters between treatments were obtained with their 2-sided 90%CIs for the difference. These estimates and limits were then back-transformed to obtain ratios of least squares geometric means. If the 90%CIs lay entirely within the limits of 0.80 to 1.25, this would provide evidence of no effect of edaravone on the PK of rosuvastatin, sildenafil, and furosemide (LS Mean Ratio: Furosemide + Edaravone / Furosemide Alone).|LS Mean Ratio|1.08|||||TWO_SIDED|90.0|0.96|1.23||||||PK parameters of rosuvastatin, sildenafil, and furosemide alone and in the presence of edaravone were analyzed for the assessments of effect on PK of rosuvastatin, sildenafil, and furosemide by edaravone.||1.23|0.96|
82386254|NCT04481789|164483990|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 1 Hour After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.842|||||TWO_SIDED|90.0|0.697|1.017||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.017|0.697|
82386255|NCT04481789|164483990|OTHER|Estimated difference in least squares means and corresponding 90% CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 4 Hours After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.737|||||TWO_SIDED|90.0|0.61|0.891||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.891|0.610|
82386256|NCT04481789|164483991|OTHER|Estimated difference in least squares means and corresponding 90% CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 1 Hour After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.657|||||TWO_SIDED|90.0|0.379|1.137||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.137|0.379|
82386257|NCT04481789|164483991|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of 4 Hours After a High-fat Meal condition to the fasted state.|LS Mean Ratio|0.522|||||TWO_SIDED|90.0|0.301|0.903||||||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.903|0.301|
82386258|NCT01385137|164484022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.58|TWO_SIDED|95.0|-0.79|0.44|||Regression, Linear|||||0.44|-0.79|0.58
82386259|NCT01385137|164484024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.42|TWO_SIDED|95.0|-7.3|3.04|||Regression, Linear|||||3.04|-7.30|0.42
82386260|NCT01385137|164484025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.77|TWO_SIDED|95.0|-4.17|5.6|||Regression, Linear|||||5.60|-4.17|0.77
82386261|NCT01385137|164484026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||0.21|TWO_SIDED|95.0|-1.16|5.44|||Regression, Linear|||||5.44|-1.16|0.21
82386262|NCT02837731|164484027|SUPERIORITY||Mean Difference (Final Values)|-1.37||||0.021|TWO_SIDED|95.0|-2.53|0.21|||t-test, 2 sided|||||0.21|-2.53|0.021
82386263|NCT02837731|164484028|OTHER||Mean Difference (Final Values)|-0.124||||0.042|TWO_SIDED|95.0|-0.27|-0.01|||Fisher Exact||Converted Estimated Value of -12.4% to decimal value of -0.124.|||-0.01|-0.27|0.042
82386264|NCT02837731|164484029|OTHER||Mean Difference (Final Values)|-0.1642||||0.044|TWO_SIDED|95.0|-0.33|0.0|||Chi-squared||Converted Estimated Value of -16.42% to decimal value of -0.1642.|||0|-0.33|0.044
82386265|NCT02837731|164484030|OTHER||Mean Difference (Final Values)|-2.91||||0.113|TWO_SIDED|95.0|-6.67|0.85|||Fisher Exact|||||0.85|-6.67|0.113
82386266|NCT02837731|164484031|OTHER||Mean Difference (Final Values)|-72.43|||||TWO_SIDED|95.0|-154.08|9.22|||Wilcoxon (Mann-Whitney)|||||9.22|-154.08|
82386267|NCT02837731|164484032|OTHER||Mean Difference (Final Values)|-14.91||||0.426|TWO_SIDED|95.0|-52.5|22.68|||Wilcoxon (Mann-Whitney)|||||22.68|-52.50|0.426
82443256|NCT03654885|164594857|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-10.507|STANDARD_ERROR_OF_MEAN|4.5666||0.022|TWO_SIDED|95.0|-19.5|-1.5144|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Vision Function Problem Score||-1.5144|-19.5000|0.022
82443257|NCT03654885|164594857|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-7.528|STANDARD_ERROR_OF_MEAN|4.0382||0.064|TWO_SIDED|95.0|-15.4841|0.4275|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Total Bothersome Score||0.4275|-15.4841|0.064
82443258|NCT03654885|164594857|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42||0.278|TWO_SIDED|95.0|-1.28|0.37|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Local Eye Symptoms Frequency Score||0.37|-1.28|0.278
82443259|NCT03654885|164594857|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.63||0.007|TWO_SIDED|95.0|-2.96|-0.47|||Mixed Model for Repeated Measures|||PRO: Change From Baseline in Symptom and Health Problem Checklist (SHPC-18)- Vision Function Problem Frequency Score||-0.47|-2.96|0.007
82443260|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.534|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Not at all||||0.534
82443261|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.263|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Somewhat||||0.263
82443262|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||1|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Moderately so||||1.000
82443263|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.018|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Mostly||||0.018
82443264|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.35|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Completely||||0.350
82639320|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|15.7|||<|0.0001|TWO_SIDED|95.0|11.2|22.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.2|11.2|<.0001
82639321|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.8||||0.7167|TWO_SIDED|95.0|60.6|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|60.6|0.7167
82639322|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|105.0||||0.9864|TWO_SIDED|95.0|75.3|147.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||147|75.3|0.9864
82639323|NCT05664672|164993868|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|85.1||||0.5911|TWO_SIDED|95.0|60.1|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|60.1|0.5911
82639324|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|29.6|||<|0.0001|TWO_SIDED|95.0|21.8|40.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||40.0|21.8|<.0001
82443265|NCT03654885|164594858|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.||||||0.264|||||||Fisher Exact|||PRO: Percentage of Participants With Post-Surgical Resumption of Activities and Daily Routine- Missing||||0.264
82443266|NCT03654885|164594859|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-8.303|STANDARD_ERROR_OF_MEAN|16.1445||0.61|TWO_SIDED|95.0|-40.8681|24.2624|||Mixed Model for Repeated Measures|||PRO: Percent Change From Baseline in Work Productivity and Activity Impairment- Percent Overall Work Impairment Due to Health||24.2624|-40.8681|0.610
82443267|NCT03654885|164594860|OTHER|No formal hypothesis was planned. P-value for treatment differences was provided for reference.|Least Square Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|8.33||0.097|TWO_SIDED|95.0|-30.32|2.52|||Mixed Model for Repeated Measures|||PRO: Percent Change From Baseline in Work Productivity and Activity Impairment-Percent Activity Impairment Due to Health||2.52|-30.32|0.097
82386268|NCT02837731|164484033|OTHER||Mean Difference (Final Values)|0.09||||0.453|TWO_SIDED|95.0|-0.34|0.52|||ANCOVA|||||0.52|-0.34|0.453
82386269|NCT03850483|164484055|SUPERIORITY||Least square (LS) mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.1641|TWO_SIDED|90.0|-1.71|0.43||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.43|-1.71|0.1641
82443268|NCT02753127|164594863|SUPERIORITY||Hazard Ratio (HR)|0.976||||0.3629|TWO_SIDED|95.0|0.854|1.117||1-sided|Log Rank|Based on stratified log-rank test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment.|"Based on Cox Proportional hazards model stratified by actual stratification factors including Time to progression on 1st line therapy, RAS mutation, and Bev as part of study treatment.~A HR \<1 indicates a lower risk with Arm 1 compared with Arm 2."|General population||1.117|0.854|0.3629
82639325|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.3|||<|0.0001|TWO_SIDED|95.0|21.5|37.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||37.4|21.5|<.0001
82639326|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|33.1|||<|0.0001|TWO_SIDED|95.0|24.8|44.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||44.2|24.8|<.0001
82639327|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|37.5|||<|0.0001|TWO_SIDED|95.0|27.7|50.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||50.9|27.7|<.0001
82639328|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|78.8||||0.195|TWO_SIDED|95.0|57.3|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|57.3|0.1950
82639329|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|75.5||||0.0699|TWO_SIDED|95.0|56.1|102.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||102|56.1|0.0699
82639330|NCT05664672|164993869|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.3||||0.7041|TWO_SIDED|95.0|64.7|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|64.7|0.7041
82639331|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.3|||<|0.0001|TWO_SIDED|95.0|9.57|18.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.4|9.57|<.0001
82639332|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.3|||<|0.0001|TWO_SIDED|95.0|9.84|17.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||17.9|9.84|<.0001
82639333|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|13.6|||<|0.0001|TWO_SIDED|95.0|9.93|18.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||18.6|9.93|<.0001
82386270|NCT03850483|164484055|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.65||0.61|TWO_SIDED|90.0|-0.89|1.26||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||1.26|-0.89|0.6100
82386271|NCT03850483|164484055|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.1686|TWO_SIDED|90.0|-1.7|0.45||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.45|-1.70|0.1686
82386272|NCT03850483|164484055|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.64||0.1051|TWO_SIDED|90.0|-1.87|0.25||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.25|-1.87|0.1051
82639334|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|9.28|||<|0.0001|TWO_SIDED|95.0|6.67|12.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||12.9|6.67|<.0001
82386273|NCT03850483|164484055|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.68||0.3583|TWO_SIDED|90.0|-1.37|0.88||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.88|-1.37|0.3583
82386274|NCT03850483|164484055|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.1131|TWO_SIDED|90.0|-1.88|0.29||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.29|-1.88|0.1131
82386275|NCT03850483|164484055|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.64||0.1812|TWO_SIDED|90.0|-1.64|0.47||Multiplicity adjustment comparing 6 different treatment arms was performed only for the primary endpoint using Hochberg step-up procedure to maintain overall familywise error rate at 5% level.|ANCOVA|||||0.47|-1.64|0.1812
82443269|NCT02753127|164594863|SUPERIORITY||Hazard Ratio (HR)|0.969||||0.3782|TWO_SIDED|95.0|0.797|1.179||1-sided|Log Rank|Based on unstratified log-rank test. P-value is nominal p value without multiplicity adjustment.|Hazard Ratio is for Napabucasin + FOLFIRI ± bev vs FOLFIRI ± bev. Based on unstratified Cox proportional hazards model. A hazard ratio \<1 indicates a lower risk with Napabucasin+ FOLFIRI ± bev compared with FOLFIRI ± bev.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||1.179|0.797|0.3782
82386276|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|3.4||||0.3747|TWO_SIDED|90.0|-10.6|17.9|||Chan and Zhang method|||||17.9|-10.6|0.3747
82522544|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.026||95.0|-1.1|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 6 Modelled Results||-0.1|-1.1|0.026
82386277|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|8.5||||0.243|TWO_SIDED|90.0|-6.6|25.9|||Chan and Zhang method|||||25.9|-6.6|0.2430
82386278|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|3.4||||0.3747|TWO_SIDED|90.0|-10.6|17.9|||Chan and Zhang method|||||17.9|-10.6|0.3747
82443270|NCT02753127|164594864|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7307|TWO_SIDED|95.0|0.917|1.18||1-sided|Log Rank|"Based on stratified log rank test stratified by actual stratification factors~. P-value is nominal p-value without multiplicity adjustment."|"Based on Cox Proportional hazards model stratified by actual stratification~. A HR \<1 indicates a lower risk with Arm 1 compared with Arm 2."|General population||1.180|0.917|0.7307
82522545|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.105||95.0|-0.9|0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 9 Modelled Results||0.1|-0.9|0.105
82522546|NCT00313820|164740674|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.592||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 12 Modelled Results||0.4|-0.6|0.592
82386279|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|14.5||||0.0665|TWO_SIDED|0.0665|-1.3|31.5|||Chan and Zhang method|||||31.5|-1.3|0.0665
82386280|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|6.1||||0.3423|TWO_SIDED|90.0|-12.1|25.5|||Chan and Zhang method|||||25.5|-12.1|0.3423
82386281|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|12.9||||0.1271|TWO_SIDED|90.0|-4.7|30.9|||Chan and Zhang method|||||30.9|-4.7|0.1271
82386282|NCT03850483|164484056|SUPERIORITY||Risk Difference (RD)|3.2||||0.401|TWO_SIDED|90.0|-13.2|21.1|||Chan and Zhang method|||||21.1|-13.2|0.4010
82386283|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4225|TWO_SIDED|90.0|-11.2|10.4|||Chan and Zhang method|||Week 1||10.4|-11.2|0.4225
82386284|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 1||5.0|-14.0|0.7483
82386285|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 1||4.8|-14.0|0.7539
82386286|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 1||4.8|-14.0|0.7539
82386287|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-6.4|8.9|||Chan and Zhang method|||Week 1||8.9|-6.4|0.5000
82386288|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|2.9||||0.2125|TWO_SIDED|90.0|-3.4|13.2|||Chan and Zhang method|||Week 1||13.2|-3.4|0.2125
82386289|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|2.7||||0.2267|TWO_SIDED|90.0|-3.5|12.2|||Chan and Zhang method|||Week 1||12.2|-3.5|0.2267
82386290|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7592|TWO_SIDED|90.0|-14.0|4.6|||Chan and Zhang method|||Week 2||4.6|-14.0|0.7592
82443271|NCT02753127|164594864|SUPERIORITY||Hazard Ratio (HR)|1.064||||0.7434|TWO_SIDED|95.0|0.883|1.283||1-sided|Log Rank|Based on unstratified log-rank test. P-value is nominal p-value without multiplicity adjustment.|Hazard ratio is for Napabucasin + FOLFIRI ± bev vs FOLFIRI ± bev. Based on unstratified Cox Proportional hazards model. A hazard ratio \<1 indicates a lower risk with Napabucasin + FOLFIRI ± bev compared with FOLFIRI ± bev.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||1.283|0.883|0.7434
82386291|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7299|TWO_SIDED|90.0|-14.0|5.5|||Chan and Zhang method|||Week 2||5.5|-14.0|0.7299
82386292|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-0.3||||0.4463|TWO_SIDED|90.0|-11.3|9.4|||Chan and Zhang method|||Week 2||9.4|-11.3|0.4463
82386293|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7539|TWO_SIDED|90.0|-14.0|4.8|||Chan and Zhang method|||Week 2||4.8|-14.0|0.7539
82386294|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.2||||0.7009|TWO_SIDED|90.0|-10.1|5.9|||Chan and Zhang method|||Week 2||5.9|-10.1|0.7009
82386295|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|4.0||||0.2507|TWO_SIDED|90.0|-4.5|15.6|||Chan and Zhang method|||Week 2||15.6|-4.5|0.2507
82386296|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|3.5||||0.2993|TWO_SIDED|90.0|-4.8|14.3|||Chan and Zhang method|||Week 2||14.3|-4.8|0.2993
82386297|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7363|TWO_SIDED|90.0|-14.0|5.5|||Chan and Zhang method|||Week 4||5.5|-14.0|0.7363
82386298|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.4||||0.5369|TWO_SIDED|90.0|-10.5|12.3|||Chan and Zhang method|||Week 4||12.3|-10.5|0.5369
82386299|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 4||5.0|-14.0|0.7483
82386300|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.7483|TWO_SIDED|90.0|-14.0|5.0|||Chan and Zhang method|||Week 4||5.0|-14.0|0.7483
82386301|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.2||||0.599|TWO_SIDED|90.0|-13.7|11.6|||Chan and Zhang method|||Week 4||11.6|-13.7|0.5990
82386302|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-5.9||||0.7926|TWO_SIDED|90.0|-16.4|4.9|||Chan and Zhang method|||Week 4||4.9|-16.4|0.7926
82386303|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|3.2||||0.3402|TWO_SIDED|90.0|-9.0|17.6|||Chan and Zhang method|||Week 4||17.6|-9.0|0.3402
82386304|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.2||||0.7364|TWO_SIDED|90.0|-14.4|5.7|||Chan and Zhang method|||Week 6||5.7|-14.4|0.7364
82386305|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|4.2||||0.3009|TWO_SIDED|90.0|-7.4|17.7|||Chan and Zhang method|||Week 6||17.7|-7.4|0.3009
82386306|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|3.2||||0.34|TWO_SIDED|90.0|-8.1|15.9|||Chan and Zhang method|||Week 6||15.9|-8.1|0.3400
82443272|NCT02753127|164594865|SUPERIORITY||rate difference|0.1||||0.4797|TWO_SIDED|95.0|-4.9|5.2||1-sided|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment .|Treatment difference and 95% CI is based on Harmonic Means method adjusting stratification factor|General population||5.2|-4.9|0.4797
82443273|NCT02753127|164594865|SUPERIORITY||rate difference|-3.1||||0.783|TWO_SIDED|95.0|-11.0|4.7||1-sided|Z test|Based on one-sided Z test. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on normal approximation method.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||4.7|-11.0|0.783
82443274|NCT02753127|164594866|SUPERIORITY||rate difference|-0.9||||0.6776|TWO_SIDED|95.0|-4.8|3.0||1-sided|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by actual stratification factors. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on Harmonic Means method adjusting stratification factor|General population||3.0|-4.8|0.6776
82443275|NCT02753127|164594866|SUPERIORITY||rate difference|-2.0||||0.7513|TWO_SIDED|95.0|-7.7|3.7||1-sided|Z test|Based on one-sided Z test. P-value is nominal p-value without multiplicity adjustment.|Treatment difference and 95% CI is based on normal approximation method.|activated signal transducers and activators of transcription 3 (pSTAT3)-positive (pSTAT3(+)) Subpopulation patients||3.7|-7.7|0.7513
82443276|NCT00733135|164594888|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||GEE|||||||<0.05
82443277|NCT03458702|164594907|EQUIVALENCE|It would be expected at baseline that there were no differences between groups.|||||>|0.05|||||||t-test, 2 sided|||||||>.05
82443278|NCT03458702|164594907|SUPERIORITY||||||<|0.001|||||||ANOVA|||ANOVA for TIME||||<0.001
82443279|NCT03458702|164594908|EQUIVALENCE|It would be expected at baseline there would be no difference between groups.|||||>|0.05|||||||ANOVA|||||||>.05
82639335|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|143.0||||0.0404|TWO_SIDED|95.0|101.0|202.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||202|101|0.0404
82443280|NCT03458702|164594908|SUPERIORITY||||||<|0.001|||||||ANOVA|||ANOVA: Condition x Time Interaction||||<0.001
82443281|NCT03458702|164594908|SUPERIORITY|||||||0.005|||||||ANOVA|||ANOVA: TIME||||0.005
82443282|NCT03458702|164594909|EQUIVALENCE|It would be hypothesized that there would not be a difference at baseline.|||||>|0.05|||||||ANOVA|||||||> .05
82443283|NCT03458702|164594909|SUPERIORITY|||||||0.042|||||||ANOVA|||ANOVA: CONDITION X TIME INTERACTION||||0.042
82443284|NCT03458702|164594909|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||ANOVA: TIME||||<0.001
82443285|NCT03458702|164594910|EQUIVALENCE|A difference at baseline was not expected.|||||>|0.05|||||||ANOVA|||||||>.05
82443286|NCT03458702|164594910|SUPERIORITY|||||||0.016|||||||ANOVA|||ANOVA: TIME||||0.016
82443287|NCT03458702|164594911|EQUIVALENCE|no difference is expected at baseline|||||>|0.05|||||||ANOVA|||||||>.05
82443288|NCT03458702|164594911|SUPERIORITY|||||||0.026|||||||ANOVA|||ANOVA:TIME||||0.026
82443289|NCT03458702|164594912|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|||||||<.05
82443290|NCT00168103|164594917|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.525||||0.0025|TWO_SIDED|95.0|-2.217|-0.033||1-sided P-value. The a priori threshold was 0.024 (overall Type 1 error 0.025 adjusted for alpha spending for an interim analysis).|Wilcoxon (Mann-Whitney)|1-sided|The median difference was estimated by the Hodges-Lehmann estimate.|||-0.033|-2.217|0.0025
82443291|NCT00168103|164594918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1088||||0.0014|TWO_SIDED|80.0|0.0392|0.3023||1-sided P-value. The a priori threshold for significance was 0.1 (trend).|Fisher Exact|1-sided|The Odds Ratio was calculated as C1-INH 20 U/kg bw (numerator) versus Placebo (denominator).|Worsened intensity was evaluated between 2 and 4 hours after start of study treatment relative to baseline for at least 1 of the HAE symptoms present at baseline.||0.3023|0.0392|0.0014
82443292|NCT00168103|164594919|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.292||||0.0237|TWO_SIDED|80.0|-5.15|-1.05||1-sided, exploratory test.|Wilcoxon (Mann-Whitney)|1-sided|The median difference was estimated by the Hodge-Lehmann estimate.|This was an exploratory analysis.||-1.050|-5.150|0.0237
82443293|NCT00168103|164594920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1714|||||TWO_SIDED|95.0|0.0642|0.4575|||||The Odds Ratio was calculated as C1-INH 20 U/kg bw (numerator) versus Placebo (denominator).|This was an exploratory analysis.||0.4575|0.0642|
82443294|NCT00168103|164594921|SUPERIORITY_OR_OTHER|||||||0.0329|TWO_SIDED|80.0||||1-sided P-value. The a priori threshold for significance was 0.1 (trend).|Wilcoxon (Mann-Whitney)|1-sided||||||0.0329
82443295|NCT04375397|164595008|SUPERIORITY||Adjusted risk difference (%)|5.8|||=|0.599|TWO_SIDED|80.0|-9.2|20.4|||Miettinen-Nurminen method||Ibrutinib 420 mg + SOC - Placebo + SOC Miettinen-Nurminen (MN) CI for the adjusted risk difference across strata|The difference in response rates between the experimental arm and the control arm were analyzed using the Miettinen-Nurminen (MN) method, adjusting for the stratification factor of prescription for remdesivir. The MN test p-value for testing the rate difference = 0 at two-sided alpha = 0.2.||20.4|-9.2|=0.599
82443296|NCT04375397|164595008|SUPERIORITY||Adjusted risk difference (%)|5.8|||=|0.599|TWO_SIDED|95.0|-18.1|28.7|||Miettinen-Nurminen method||Ibrutinib 420 mg + SOC - Placebo + SOC Miettinen-Nurminen (MN) CI for the adjusted risk difference across strata|The difference in response rates between the experimental arm and the control arm were analyzed using the Miettinen-Nurminen (MN) method, adjusting for the stratification factor of prescription for remdesivir. The MN test p-value for testing the rate difference = 0 at twosided alpha = 0.2.||28.7|-18.1|=0.599
82639336|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|143.0||||0.0243|TWO_SIDED|95.0|104.0|198.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||198|104|0.0243
82639337|NCT05664672|164993870|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|146.0||||0.0215|TWO_SIDED|95.0|105.0|205.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||205|105|0.0215
82639338|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.37|||<|0.0001|TWO_SIDED|95.0|3.69|7.8|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.80|3.69|<.0001
82639339|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.65|||<|0.0001|TWO_SIDED|95.0|4.01|7.96|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.96|4.01|<.0001
82639340|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|5.61|||<|0.0001|TWO_SIDED|95.0|3.92|8.03|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.03|3.92|<.0001
82639341|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.09|||<|0.0001|TWO_SIDED|95.0|4.17|8.89|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.89|4.17|<.0001
82639342|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.1||||0.8335|TWO_SIDED|95.0|59.4|131.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||131|59.4|0.8335
82639343|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|92.9||||0.9622|TWO_SIDED|95.0|64.2|134.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||134|64.2|0.9622
82639344|NCT05664672|164993871|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|92.1||||0.9531|TWO_SIDED|95.0|62.8|135.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||135|62.8|0.9531
82639345|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.0|||<|0.0001|TWO_SIDED|95.0|14.4|22.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.3|14.4|<.0001
82639346|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.0|||<|0.0001|TWO_SIDED|95.0|14.8|22.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.1|14.8|<.0001
82639347|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|15.8|||<|0.0001|TWO_SIDED|95.0|12.8|19.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||19.4|12.8|<.0001
82639348|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.2|||<|0.0001|TWO_SIDED|95.0|14.6|22.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||22.7|14.6|<.0001
82522547|NCT00313820|164740675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.087||95.0||||Cochran-Mantel-Haenszel (CMH) test comparing pregabalin to placebo adjusted for country under the null hypothesis of no treatment difference.|Cochran-Mantel-Haenszel|||30% Responders||||0.087
82522548|NCT00313820|164740676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622||95.0||||Cochran-Mantel-Haenszel (CMH) test comparing pregabalin to placebo adjusted for country under the null hypothesis of no treatment difference.|Cochran-Mantel-Haenszel|||50% Responders||||0.622
82639349|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.4||||0.9993|TWO_SIDED|95.0|78.2|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|78.2|0.9993
82386307|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|7.1||||0.1631|TWO_SIDED|90.0|-4.8|21.1|||Chan and Zhang method|||Week 6||21.1|-4.8|0.1631
82386308|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6214|TWO_SIDED|90.0|-17.8|13.0|||Chan and Zhang method|||Week 6||13.0|-17.8|0.6214
82386309|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6214|TWO_SIDED|90.0|-17.8|13.0|||Chan and Zhang method|||Week 6||13.0|-17.8|0.6214
82386310|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.5||||0.6413|TWO_SIDED|90.0|-17.9|11.7|||Chan and Zhang method|||Week 6||11.7|-17.9|0.6413
82386311|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-13.1|13.1|||Chan and Zhang method|||Week 8||13.1|-13.1|0.5000
82386312|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.7||||0.5134|TWO_SIDED|90.0|-12.6|15.2|||Chan and Zhang method|||Week 8||15.2|-12.6|0.5134
82386313|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4468|TWO_SIDED|90.0|-13.4|12.5|||Chan and Zhang method|||Week 8||12.5|-13.4|0.4468
82386314|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|7.6||||0.2778|TWO_SIDED|90.0|-6.8|23.9|||Chan and Zhang method|||Week 8||23.9|-6.8|0.2778
82386315|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|2.1||||0.4571|TWO_SIDED|90.0|-14.5|21.0|||Chan and Zhang method|||Week 8||21.0|-14.5|0.4571
82386316|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4741|TWO_SIDED|90.0|-15.3|16.7|||Chan and Zhang method|||Week 8||16.7|-15.3|0.4741
82386317|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.4||||0.5153|TWO_SIDED|90.0|-14.8|16.7|||Chan and Zhang method|||Week 8||16.7|-14.8|0.5153
82386318|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-7.0||||0.8287|TWO_SIDED|90.0|-21.1|5.3|||Chan and Zhang method|||Week 10||5.3|-21.1|0.8287
82386319|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.3||||0.5675|TWO_SIDED|90.0|-17.8|14.2|||Chan and Zhang method|||Week 10||14.2|-17.8|0.5675
82386320|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|6.9||||0.2648|TWO_SIDED|90.0|-9.8|23.2|||Chan and Zhang method|||Week 10||23.2|-9.8|0.2648
82386321|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|3.9||||0.3792|TWO_SIDED|90.0|-11.8|20.8|||Chan and Zhang method|||Week 10||20.8|-11.8|0.3792
82639350|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.9||||0.9998|TWO_SIDED|95.0|79.7|123.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||123|79.7|0.9998
82386322|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|2.7||||0.4438|TWO_SIDED|90.0|-16.3|23.1|||Chan and Zhang method|||Week 10||23.1|-16.3|0.4438
82386323|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-7.5||||0.7014|TWO_SIDED|90.0|-23.3|9.4|||Chan and Zhang method|||Week 10||9.4|-23.3|0.7014
82386324|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.8||||0.5841|TWO_SIDED|90.0|-19.7|15.0|||Chan and Zhang method|||Week 10||15.0|-19.7|0.5841
82386325|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-15.3|15.3|||Chan and Zhang method|||Week 12||15.3|-15.3|0.5000
82386326|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5834|TWO_SIDED|90.0|-17.5|12.3|||Chan and Zhang method|||Week 12||12.3|-17.5|0.5834
82386327|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|10.3||||0.1534|TWO_SIDED|90.0|-6.4|27.2|||Chan and Zhang method|||Week 12||27.2|-6.4|0.1534
82386328|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|7.5||||0.272|TWO_SIDED|90.0|-8.8|24.9|||Chan and Zhang method|||Week 12||24.9|-8.8|0.2720
82386329|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-8.1||||0.6815|TWO_SIDED|90.0|-25.1|10.4|||Chan and Zhang method|||Week 12||10.4|-25.1|0.6815
82386330|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|3.5||||0.39|TWO_SIDED|90.0|-14.4|22.0|||Chan and Zhang method|||Week 12||22.0|-14.4|0.3900
82386331|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5865|TWO_SIDED|90.0|-20.0|15.9|||Chan and Zhang method|||Week 12||15.9|-20.0|0.5865
82386332|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|4.2||||0.3087|TWO_SIDED|90.0|-8.2|18.9|||Chan and Zhang method|||Week 14||18.9|-8.2|0.3087
82386333|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|5.2||||0.3137|TWO_SIDED|90.0|-8.2|20.9|||Chan and Zhang method|||Week 14||20.9|-8.2|0.3137
82386334|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|18.0||||0.0245|TWO_SIDED|90.0|2.7|34.8|||Chan and Zhang method|||Week 14||34.8|2.7|0.0245
82386335|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|10.8||||0.1119|TWO_SIDED|90.0|-3.0|26.0|||Chan and Zhang method|||Week 14||26.0|-3.0|0.1119
82386336|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|2.7||||0.414|TWO_SIDED|90.0|-13.2|20.4|||Chan and Zhang method|||Week 14||20.4|-13.2|0.4140
82386337|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|9.7||||0.2356|TWO_SIDED|90.0|-7.2|28.5|||Chan and Zhang method|||Week 14||28.5|-7.2|0.2356
82522549|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.027||95.0|-1.0|-0.1||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 1; Modelled Results||-0.1|-1.0|0.027
82522550|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.038||95.0|-1.0|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 2; Modelled Results||-0.0|-1.0|0.038
82522551|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.004||95.0|-1.2|-0.2||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 3; Modelled Results||-0.2|-1.2|0.004
82386338|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|4.5||||0.3638|TWO_SIDED|90.0|-11.5|21.5|||Chan and Zhang method|||Week 14||21.5|-11.5|0.3638
82522552|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.005||95.0|-1.1|-0.2||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 6; Modelled Results||-0.2|-1.1|0.005
82522553|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.078||95.0|-0.9|0.0||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 9; Modelled Results||0.0|-0.9|0.078
82522554|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.663||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Week 12; Modelled Results||0.4|-0.6|0.663
82386339|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|7.7||||0.1613|TWO_SIDED|90.0|-5.2|22.9|||Chan and Zhang method|||Week 16||22.9|-5.2|0.1613
82386340|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|13.9||||0.0557|TWO_SIDED|90.0|-0.5|31.4|||Chan and Zhang method|||Week 16||31.4|-0.5|0.0557
82386341|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|21.6||||0.0114|TWO_SIDED|90.0|5.6|38.3|||Chan and Zhang method|||Week 16||38.3|5.6|0.0114
82386342|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|11.9||||0.0753|TWO_SIDED|90.0|-1.8|28.1|||Chan and Zhang method|||Week 16||28.1|-1.8|0.0753
82522555|NCT00313820|164740677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.627||95.0|-0.6|0.4||Estimated from a repeated measures linear mixed model with treatment, week, country and treatment by week interaction as factors and baseline value as a covariate. A compound symmetry covariance structure is specified.|Mixed Models Analysis|||Endpoint \[Week 12 or ET\]; Modelled Results||0.4|-0.6|0.627
82522556|NCT00313820|164740678|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|3.05||0.741||95.0|-7.0|5.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline value as a covariate|ANCOVA|||Modelled Results||5.0|-7.0|0.741
82522557|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.216||95.0|-1.0|0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Burning Pain Week 12 \[LOCF\]; Modelled Results||0.2|-1.0|0.216
82522558|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.76||95.0|-0.4|0.6||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Pressing Pain Week 12 \[LOCF\]; Modelled Results||0.6|-0.4|0.760
82522559|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.36||95.0|-0.7|0.3||Estimated from ANCOVA (general linear model) general linear model with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Paroxysmal Pain Week 12 \[LOCF\]; Modelled Results||0.3|-0.7|0.360
82522560|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.239||95.0|-0.8|0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Evoked Pain Week 12 \[LOCF\]; Modelled Results||0.2|-0.8|0.239
82386343|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.1||||0.5635|TWO_SIDED|90.0|-20.1|15.2|||Chan and Zhang method|||Week 16||15.2|-20.1|0.5635
82386344|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-3.6||||0.6201|TWO_SIDED|90.0|-20.3|14.5|||Chan and Zhang method|||Week 16||14.5|-20.3|0.6201
82386345|NCT03850483|164484057|SUPERIORITY||Risk Difference (RD)|-0.7||||0.4792|TWO_SIDED|90.0|-17.6|17.0|||Chan and Zhang method|||Week 16||17.0|-17.6|0.4792
82386346|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.8038|TWO_SIDED|90.0|-0.25|0.79|||MMRM|||Week 1: Mixed-effect model with repeated measures (MMRM) analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.79|-0.25|0.8038
82443297|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|1.17|||=|0.886|TWO_SIDED|95.0|0.13|10.44|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -3~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||10.44|0.13|=0.886
82386347|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.8267|TWO_SIDED|90.0|-0.22|0.81|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.81|-0.22|0.8267
82386348|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.6039|TWO_SIDED|90.0|-0.43|0.6|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.60|-0.43|0.6039
82386349|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.6339|TWO_SIDED|90.0|-0.41|0.62|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.62|-0.41|0.6339
82386350|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.2666|TWO_SIDED|90.0|-0.68|0.31|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.31|-0.68|0.2666
82386351|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.2257|TWO_SIDED|90.0|-0.7|0.26|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.26|-0.70|0.2257
82386352|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.1306|TWO_SIDED|90.0|-0.81|0.15|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-0.81|0.1306
82386353|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.37||0.9704|TWO_SIDED|90.0|0.09|1.31|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.31|0.09|0.9704
82443298|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|0.64|||=|0.705|TWO_SIDED|95.0|0.06|6.43|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -2~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||6.43|0.06|=0.705
82443299|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|0.0|||=|0.996|TWO_SIDED|95.0|0.0||The upper limit of this 95% CI is infinite.||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = -1~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"|||0.00|=0.996
82443300|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 0~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
82443301|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 1~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
82443302|NCT04375397|164595009|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.969|TWO_SIDED|95.0|0.04|32.18|||Multinomial Logistic Regression|||"Change in ordinal score from baseline to day 14 = 3~To evaluate the odds of clinical status improvement as determined by the WHO-8 ordinal scale, a multinomial logistic regression model was used.~Pairwise Comparison in Reference to the Group with Change = -4"||32.18|0.04|=0.969
82443303|NCT04375397|164595010|SUPERIORITY||Difference in Medians|-1.5|||=|0.801|TWO_SIDED||||||Van Elteren's test||Ibrutinib 420 mg + SOC - Placebo + SOC|Median days spent on supplemental oxygen was compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.801
82443304|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|80.0|-6.7|7.3|||Miettinen-Nurminen|||"At Day 7-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||7.3|-6.7|=1.000
82386354|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.38||0.889|TWO_SIDED|90.0|-0.16|1.09|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.09|-0.16|0.8890
82386355|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.4506|TWO_SIDED|90.0|-0.66|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.66|0.4506
82386356|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.584|TWO_SIDED|90.0|-0.53|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.69|-0.53|0.5840
82386357|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.0769|TWO_SIDED|90.0|-1.17|0.08|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.08|-1.17|0.0769
82386358|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.38||0.0242|TWO_SIDED|90.0|-1.39|-0.13|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.13|-1.39|0.0242
82522561|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.118||95.0|-1.0|0.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||P/D Week 12 \[LOCF\]; Modelled Results||0.1|-1.0|0.118
82522562|NCT00313820|164740679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|1.87||0.138||95.0|-6.5|0.9||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Total Score Week 12 \[LOCF\]; Modelled Results||0.9|-6.5|0.138
82639351|NCT05664672|164993872|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.4||||0.3019|TWO_SIDED|95.0|69.1|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|69.1|0.3019
82386359|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.38||0.0127|TWO_SIDED|90.0|-1.49|-0.23|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.23|-1.49|0.0127
82386360|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.44||0.6693|TWO_SIDED|90.0|-0.54|0.93|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.93|-0.54|0.6693
82386361|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6742|TWO_SIDED|90.0|-0.55|0.96|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.96|-0.55|0.6742
82386362|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.44||0.4486|TWO_SIDED|90.0|-0.79|0.67|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-0.79|0.4486
82443305|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|95.0|-14.4|15.5|||Miettinen-Nurminen|||"At Day 7-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||15.5|-14.4|=1.000
82386363|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3219|TWO_SIDED|90.0|-0.93|0.53|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-0.93|0.3219
82386364|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.55||0.0096|TWO_SIDED|90.0|-2.21|-0.39|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.39|-2.21|0.0096
82386365|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.54||0.0862|TWO_SIDED|90.0|-1.64|0.15|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-1.64|0.0862
82386366|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54||0.0111|TWO_SIDED|90.0|-2.15|-0.36|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.36|-2.15|0.0111
82386367|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.6107|TWO_SIDED|90.0|-0.68|0.97|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.97|-0.68|0.6107
82443306|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|80.0|-6.7|7.3|||Miettinen-Nurminen|||"At Day 14-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||7.3|-6.7|=1.000
82522563|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|2.79||0.086||95.0|-10.3|0.7||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep disturbance; Modelled Results||0.7|-10.3|0.086
82522564|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.7|STANDARD_ERROR_OF_MEAN|3.72||0.039||95.0|0.4|15.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Snoring score; Modelled Results||15.1|0.4|0.039
82522565|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|2.71||0.169||95.0|-9.1|1.6||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Awaken SOB or headache; Modelled Results||1.6|-9.1|0.169
82522566|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.17||0.03||95.0|0.0|0.7||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep quantity; Modelled Results||0.7|0.0|0.030
82522567|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|3.44||0.013||95.0|1.8|15.4||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Sleep adequacy; Modelled Results||15.4|1.8|0.013
82639352|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.3|||<|0.0001|TWO_SIDED|95.0|13.2|25.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.3|13.2|<.0001
82639353|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|23.7|||<|0.0001|TWO_SIDED|95.0|17.6|31.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||31.9|17.6|<.0001
82639354|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|19.3|||<|0.0001|TWO_SIDED|95.0|14.2|26.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||26.4|14.2|<.0001
82639355|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|24.0|||<|0.0001|TWO_SIDED|95.0|17.3|33.3|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||33.3|17.3|<.0001
82639356|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|76.1||||0.153|TWO_SIDED|95.0|54.0|107.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||107|54.0|0.1530
82639357|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.6||||0.9999|TWO_SIDED|95.0|71.7|136.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||136|71.7|0.9999
82639358|NCT05664672|164993873|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|80.5||||0.3025|TWO_SIDED|95.0|57.8|112.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||112|57.8|0.3025
82386368|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.51||0.724|TWO_SIDED|90.0|-0.54|1.15|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.15|-0.54|0.7240
82639359|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|22.7|||<|0.0001|TWO_SIDED|95.0|17.0|30.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||30.4|17.0|<.0001
82386369|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.43|TWO_SIDED|90.0|-0.91|0.74|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.74|-0.91|0.4300
82386370|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.0501|TWO_SIDED|90.0|-1.66|0.0|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.00|-1.66|0.0501
82522568|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.51||0.399||95.0|-2.8|7.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Somnolence; Modelled Results||7.1|-2.8|0.399
82522569|NCT00313820|164740680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.13||0.049||95.0|-8.4|0.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and the baseline assessment as a covariate.|ANCOVA|||Overall sleep problems index; Modelled Results||-0.0|-8.4|0.049
82522570|NCT00313820|164740681|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5|STANDARD_ERROR_OF_MEAN|0.5||0.201||95.0|0.8|2.9||Estimated from a logistic regression model with treatment and the baseline assessment as factors.|Regression, Logistic||Standard error of the mean = standard error of the odds ratio.|Modelled Results||2.9|0.8|0.201
82522571|NCT00313820|164740682|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.015||95.0|-1.8|-0.2||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Week 12 \[LOCF\] Anxiety score; Modelled Results||-0.2|-1.8|0.015
82522572|NCT00313820|164740682|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.41||0.6||95.0|-0.6|1.0||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Week 12 \[LOCF\] Depression score; Modelled Results||1.0|-0.6|0.600
82522573|NCT00313820|164740683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.566||95.0|-0.1|0.1||Estimated from ANCOVA (general linear model) with treatment and country as factors and baseline score as a covariate.|ANCOVA|||Modelled Results||0.1|-0.1|0.566
82639360|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.1|||<|0.0001|TWO_SIDED|95.0|21.6|36.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||36.6|21.6|<.0001
82522574|NCT00313820|164740684|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.47||0.22||95.0|-1.8|7.9||Estimated from ANCOVA (general linear model) with treatment and coutntry as factors and baseline score as a covariate.|ANCOVA|||Modelled Results||7.9|-1.8|0.220
82522575|NCT00313820|164740685|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.144||95.0|-0.5|0.1||Estimated from ANCOVA (general linear model) with treament and country as factors.|ANCOVA|||Modelled Results||0.1|-0.5|0.144
82522576|NCT00313820|164740686|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.049||95.0|-0.6|0.0||Estimated from ANCOVA (general linear model) with treatment and country as factors.|ANCOVA|||Modelled Results||-0.0|-0.6|0.049
82522577|NCT02291679|164740720|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.76|5.2||P-value is obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for baseline SBM stratum and geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% confidence interval (CI) for the odds ratio are obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|||5.20|1.76|< 0.0001
82522578|NCT02291679|164740721|SUPERIORITY||LS Mean Difference|0.841|||<|0.0001|TWO_SIDED|95.0|0.505|1.176||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a least squares (LS) mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||1.176|0.505|< 0.0001
82522579|NCT02291679|164740722|SUPERIORITY||LS Mean Difference|1.037|||<|0.0001|TWO_SIDED|95.0|0.636|1.438||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||1.438|0.636|< 0.0001
82522580|NCT02291679|164740723|SUPERIORITY||LS Mean Difference|0.628|||<|0.0001|TWO_SIDED|95.0|0.45|0.806||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||0.806|0.450|< 0.0001
82522581|NCT02291679|164740724|SUPERIORITY||LS Mean Difference|-0.329|||<|0.0001|TWO_SIDED|95.0|-0.449|-0.21||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||-0.210|-0.449|< 0.0001
82522582|NCT02291679|164740725|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0008|TWO_SIDED|95.0|1.47|4.87||P-value is obtained from the CMH tests controlling for geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region.|||4.87|1.47|0.0008
82522583|NCT02291679|164740726|SUPERIORITY||Odds Ratio (OR)|2.58|||<|0.0001|TWO_SIDED|95.0|1.58|4.2||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||4.20|1.58|< 0.0001
82522584|NCT02291679|164740727|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0002|TWO_SIDED|95.0|1.42|3.26||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||3.26|1.42|0.0002
82386371|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.58||0.0157|TWO_SIDED|90.0|-2.23|-0.3|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.30|-2.23|0.0157
82522585|NCT02291679|164740728|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0342|TWO_SIDED|95.0|1.03|2.17||P-value is obtained from the CMH tests controlling for geographic region and baseline stratum.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for geographic region and baseline stratum.|||2.17|1.03|0.0342
82522586|NCT02291679|164740729|SUPERIORITY||LS Mean Difference|-0.319||||0.0063|TWO_SIDED|95.0|-0.548|-0.09||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||-0.090|-0.548|0.0063
82522587|NCT02291679|164740730|SUPERIORITY||LS Mean Difference|-0.178||||0.1028|TWO_SIDED|95.0|-0.391|0.036||P-value is based on a pairwise comparison versus placebo in an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|ANCOVA||Linaclotide - Placebo. Estimate and 95% CI are based on a LS mean difference from an ANCOVA model with treatment group, baseline SBM stratum, and geographic region as factors and baseline value as covariate.|||0.036|-0.391|0.1028
82522588|NCT02291679|164740731|SUPERIORITY||Odds Ratio (OR)|2.78||||0.0001|TWO_SIDED|95.0|1.61|4.8||P-value is obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|Cochran-Mantel-Haenszel||Placebo as reference. Odds ratio and 95% CI for the odds ratio are obtained from the CMH tests controlling for baseline SBM stratum and geographic region.|||4.80|1.61|0.0001
82522589|NCT02276222|164740741|SUPERIORITY||Least Squares Mean (SE)|0.0084|STANDARD_ERROR_OF_MEAN|0.01012||0.4041|TWO_SIDED|95.0|-0.0114|0.0283|||ANCOVA|||||0.0283|-0.0114|0.4041
82386372|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.57||0.0645|TWO_SIDED|90.0|-1.83|0.07|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.83|0.0645
82639361|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|27.5|||<|0.0001|TWO_SIDED|95.0|20.8|36.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||36.2|20.8|<.0001
82522590|NCT02170025|164740742|OTHER||Bayesian analysis|-1.3|||||TWO_SIDED|90.0|-8.7|6.0||||||Treatment effect describes the difference in outcomes between 0.5 mg riociguat and placebo on Day 14. This was an exploratory analysis. For sample size determination a probabilistic assessment on predicted point estimates and width of credible intervals was performed.||6.0|-8.7|
82522591|NCT02170025|164740742|OTHER||Bayesian analysis|-5.0|||||TWO_SIDED|90.0|-12.4|2.4||||||Treatment effect describes the difference in outcomes between 1.0 mg riociguat and placebo on Day 28. This was an exploratory analysis. For sample size determination a probabilistic assessment on predicted point estimates and width of credible intervals was performed.||2.4|-12.4|
82522592|NCT00415610|164740746|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The repeated measure analysis of the hourly average SBP was calculated with and without adjusting for baseline NIHSS and age.|repeated measure|Adjusted for initial deficit severity of using baseline NIHSS instead of GCS to better discriminate among patients with GCS score \> 8.||The hourly average (of maximum and minimum) SBP measurements were graphed with box-and-whiskers plot. In addition, a repeated measures analysis of the 25 average SBP (baseline and subsequent 24 hourly measures) was conducted with a mixed effects model (assuming autoregressive covariance structure in SAS version 9.1 PROC MIXED) to determine statistically the effect of treatment intensity (tier) on the average SBP over the 24 hrs with and without adjustment for baseline NIHSS score and age.||||< 0.01
82522593|NCT00415610|164740747|SUPERIORITY_OR_OTHER||||||<|0.5|TWO_SIDED|||||Observed average SBP change at 2 hrs after treatment initiation between subjects who did or did not have neurologic deterioration within 24 hrs.|Wilcoxon rank sum test|Mean decrease measured for subjects with neurological deterioration and subjects without neurological deterioration.||Done as a surrogate to evaluate the relationship between early SBP reduction and safety events.||||< .5
82522594|NCT05131165|164740763|SUPERIORITY|||||||0.056||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.056
82522595|NCT05131165|164740763|SUPERIORITY|||||||0.062||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.062
82522596|NCT05131165|164740764|SUPERIORITY|||||||0.364||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.364
82522597|NCT05131165|164740764|SUPERIORITY|||||||0.409||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.409
82522598|NCT05131165|164740765|SUPERIORITY|||||||0.158||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.158
82522599|NCT05131165|164740765|SUPERIORITY|||||||0.017||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.017
82522600|NCT05131165|164740766|SUPERIORITY|||||||0.654||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.654
82639362|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|28.7|||<|0.0001|TWO_SIDED|95.0|21.4|38.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||38.4|21.4|<.0001
82639363|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|79.4||||0.1843|TWO_SIDED|95.0|58.6|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|58.6|0.1843
82639364|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|98.1||||0.9994|TWO_SIDED|95.0|73.9|130.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||130|73.9|0.9994
82639365|NCT05664672|164993874|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|95.9||||0.9891|TWO_SIDED|95.0|71.4|129.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||129|71.4|0.9891
82639366|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|37.3|||<|0.0001|TWO_SIDED|95.0|30.4|45.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||45.7|30.4|<.0001
82639367|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|44.0|||<|0.0001|TWO_SIDED|95.0|36.5|53.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||53.1|36.5|<.0001
82639368|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|41.8|||<|0.0001|TWO_SIDED|95.0|34.4|50.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||50.9|34.4|<.0001
82639369|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|42.9|||<|0.0001|TWO_SIDED|95.0|34.9|52.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||52.7|34.9|<.0001
82639370|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|86.9||||0.3027|TWO_SIDED|95.0|70.0|108.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||108|70.0|0.3027
82639371|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|103.0||||0.9926|TWO_SIDED|95.0|83.9|125.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||125|83.9|0.9926
82639372|NCT05664672|164993875|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|97.5||||0.9938|TWO_SIDED|95.0|79.1|120.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||120|79.1|0.9938
82572669|NCT01427738|164855158|SUPERIORITY_OR_OTHER||Difference in proportion with clinical e|0.044|||||TWO_SIDED|95.1|-0.077|0.166||||||Repeated confidence intervals (RCIs) were used to control type I error.A interim analysis was conducted by a 99.7% CI. The final analyses use a 95.1% CI, based on the Lan-DeMets error-spending function corresponding to the O'Brien-Fleming boundary.76% of 100 participant in arm GV had cure or improvement of OC after 14 days of treatment, and 71.6% of 102 in arm nystatin had cure or improvement of OC. Difference in clinical efficacy rates between GV and nystatin 95.1% CI is 0.044 (-0.077, 0.166).||0.166|-0.077|
82639373|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|46.3|||<|0.0001|TWO_SIDED|95.0|39.5|54.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||54.4|39.5|<.0001
82386373|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.57||0.0621|TWO_SIDED|90.0|-1.84|0.06|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.06|-1.84|0.0621
82386374|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.55||0.2959|TWO_SIDED|90.0|-1.21|0.62|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.62|-1.21|0.2959
82386375|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.57||0.9043|TWO_SIDED|90.0|-0.19|1.69|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.69|-0.19|0.9043
82522601|NCT05131165|164740766|SUPERIORITY|||||||0.035||||||A priori threshold for statistical significance (alpha) = 0.05|ANCOVA|||The analyses utilized control as the reference group, and thus, the values reported include control mean and standard error as the reference value (derived from an ordinary least squared regression without controls). The results for the intervention groups are derived from the multiple regression model that controlled for other participant characteristics, including demographics, intrinsic motivation and habit strength at baseline.||||0.035
82522602|NCT05131165|164740768|SUPERIORITY|||||||0.5468|||||||t-test, 2 sided|||The analyses compared the change in viral suppression status of the participants from baseline to month 9. For each participant, we derived the change in viral suppression status by subtracting two binary variables - one indicating whether the participant was virally suppressed at baseline (based on their chart records from around 3 months prior to baseline) and the other indicating whether the participant was virally suppressed at around month 9 of the study.||||0.5468
82522603|NCT05131165|164740768|SUPERIORITY|||||||0.5255|||||||t-test, 2 sided|||The analyses compared the change in viral suppression status of the participants from baseline to month 9. For each participant, we derived the change in viral suppression status by subtracting two binary variables - one indicating whether the participant was virally suppressed at baseline (based on their chart records from around 3 months prior to baseline) and the other indicating whether the participant was virally suppressed at around month 9 of the study.||||0.5255
82522604|NCT01490502|164740776|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
82522605|NCT01490502|164740776|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.57|TWO_SIDED|95.0|0.67|2.05|||Regression, Cox|||||2.05|0.67|0.57
82522606|NCT01490502|164740777|OTHER|||||||0.07|||||||Andersen Gill model for recurrent events|||||||0.07
82386376|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.55||0.2014|TWO_SIDED|90.0|-1.38|0.45|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.45|-1.38|0.2014
82386377|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.56||0.0948|TWO_SIDED|90.0|-1.66|0.19|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.19|-1.66|0.0948
82522607|NCT01490502|164740778|SUPERIORITY||Rate Ratio|1.8||||0.07|TWO_SIDED|95.0|0.94|3.45|||Negative Binomial Model|||||3.45|0.94|0.07
82522608|NCT01490502|164740779|SUPERIORITY||Rate Ratio|1.47||||0.14|TWO_SIDED|95.0|0.88|2.46|||Negative Binomial Model|||||2.46|0.88|0.14
82522609|NCT01490502|164740780|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
82386378|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.65||0.0416|TWO_SIDED|90.0|-2.21|-0.06|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.06|-2.21|0.0416
82386379|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.64||0.0454|TWO_SIDED|90.0|-2.14|-0.03|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.03|-2.14|0.0454
82522610|NCT01490502|164740781|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||The average rate of change in MSFC Z-score over time was analyzed using a linear mixed-effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in the MSFC Z-score between treatment arms.||||0.20
82522611|NCT01490502|164740782|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Rate of change in 2.5% low-contrast acuity was analyzed using a linear mixed effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in low-contrast acuity between treatment arms.||||0.67
82522612|NCT01490502|164740783|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||Rate of change in quality of life was analyzed using a linear mixed effects model with unstructured covariance structure and random intercepts. The p-value is a test of whether there is a difference in the rate of change in health-related quality of life between treatment arms.||||0.21
82522613|NCT01490502|164740784|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82522614|NCT01490502|164740785|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82522615|NCT02563002|164740825|OTHER||Hazard Ratio (HR)|0.59||||0.0001|TWO_SIDED|95.0|0.45|0.79|||Log Rank|One-sided p-value based on log rank test|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||0.79|0.45|0.0001
82522616|NCT02563002|164740826|OTHER||Hazard Ratio (HR)|0.74||||0.0359|TWO_SIDED|95.0|0.53|1.03|||Log Rank|One-sided p-value based on log rank test|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.03|0.53|0.0359
82522617|NCT02563002|164740827|OTHER||Difference in percentage|12.0||||0.0159|TWO_SIDED|95.0|1.0|22.6||One-sided p-value based on Miettinen \& Nurminen method.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method.|||22.6|1.0|0.0159
82522618|NCT04493931|164740872|OTHER||Ratio of Geometric LS Mean|0.944|||||TWO_SIDED|90.0|0.753|1.184||||||||1.184|0.753|
82522619|NCT04493931|164740873|OTHER||Median Difference (Final Values)|-0.25|||||TWO_SIDED|90.0|-0.75|0.742|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.742|-0.750|
82522620|NCT04493931|164740874|OTHER||Ratio of Geometric LS Mean|1.094|||||TWO_SIDED|90.0|0.959|1.249||||||||1.249|0.959|
82386380|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.64||0.0256|TWO_SIDED|90.0|-2.31|-0.2|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.20|-2.31|0.0256
82386381|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.2326|TWO_SIDED|90.0|-1.36|0.53|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-1.36|0.2326
82386382|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.59||0.5141|TWO_SIDED|90.0|-0.95|0.99|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.99|-0.95|0.5141
82443307|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|0.0|||=|1|TWO_SIDED|95.0|-14.4|15.5|||Miettinen-Nurminen|||"At Day 14-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||15.5|-14.4|=1.000
82443308|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|80.0|-1.7|14.8|||Miettinen-Nurminen|||"At Day 21-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||14.8|-1.7|=0.267
82443309|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|95.0|-9.6|22.8|||Miettinen-Nurminen|||"At Day 21-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||22.8|-9.6|=0.267
82443310|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|80.0|-1.7|14.8|||Miettinen-Nurminen|||"At Day 28-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||14.8|-1.7|=0.267
82386383|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.1124|TWO_SIDED|90.0|-1.64|0.25|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.25|-1.64|0.1124
82386384|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.0983|TWO_SIDED|90.0|-1.7|0.21|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.21|-1.70|0.0983
82522621|NCT04493931|164740875|OTHER||Ratio of Geometric LS Mean|1.157|||||TWO_SIDED|90.0|1.059|1.265||||||||1.265|1.059|
82522622|NCT04493931|164740876|OTHER||Ratio of Geometric LS Mean|1.158|||||TWO_SIDED|90.0|1.062|1.264||||||||1.264|1.062|
82386385|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.72||0.0412|TWO_SIDED|90.0|-2.46|-0.07|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.07|-2.46|0.0412
82443311|NCT04375397|164595011|SUPERIORITY||Mortality rate difference|4.8|||=|0.267|TWO_SIDED|95.0|-9.6|22.8|||Miettinen-Nurminen|||"At Day 28-- Ibrutinib 420 mg + SOC - Placebo + SOC~The Miettinen-Nurminen (MN) test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2 and associated confidence intervals are reported."||22.8|-9.6|=0.267
82443312|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|80.0|-24.8|3.3|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 7~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||3.3|-24.8|=0.314
82443313|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|95.0|-32.8|12.0|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 7~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||12.0|-32.8|=0.314
82443314|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|80.0|-24.8|3.3|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 14~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||3.3|-24.8|=0.314
82522623|NCT04493931|164740877|OTHER||Ratio of Geometric LS Mean|0.73|||||TWO_SIDED|90.0|0.635|0.84||||||||0.840|0.635|
82522624|NCT04493931|164740878|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
82522625|NCT04493931|164740879|OTHER||Median Difference (Final Values)|-0.467|||||TWO_SIDED|90.0|-1.0|0.492|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate|||0.492|-1.000|
82522626|NCT04493931|164740880|OTHER||Ratio of Geometric LS Mean|0.476|||||TWO_SIDED|90.0|0.433|0.525||||||||0.525|0.433|
82522627|NCT04493931|164740881|OTHER||Ratio of Geometric LS Mean|0.478|||||TWO_SIDED|90.0|0.435|0.526||||||||0.526|0.435|
82522628|NCT04493931|164740882|OTHER||Ratio of Geometric LS mean|1.533|||||TWO_SIDED|90.0|1.274|1.845||||||||1.845|1.274|
82639374|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|55.6|||<|0.0001|TWO_SIDED|95.0|48.0|64.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||64.4|48.0|<.0001
82639375|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|52.7|||<|0.0001|TWO_SIDED|95.0|45.2|61.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||61.5|45.2|<.0001
82639376|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|54.9|||<|0.0001|TWO_SIDED|95.0|46.7|64.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||64.5|46.7|<.0001
82639377|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|84.4||||0.0504|TWO_SIDED|95.0|71.2|100.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||100|71.2|0.0504
82639378|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|101.0||||0.9988|TWO_SIDED|95.0|86.4|119.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||119|86.4|0.9988
82639379|NCT05664672|164993876|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|96.0||||0.9238|TWO_SIDED|95.0|81.4|113.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||113|81.4|0.9238
82639380|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|3.71|||<|0.0001|TWO_SIDED|95.0|1.88|7.31|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.31|1.88|<.0001
82386386|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.71||0.034|TWO_SIDED|90.0|-2.47|-0.13|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.13|-2.47|0.0340
82639381|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4.25|||<|0.0001|TWO_SIDED|95.0|2.28|7.93|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||7.93|2.28|<.0001
82443315|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-10.7|||=|0.314|TWO_SIDED|95.0|-32.8|12.0|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 14~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||12.0|-32.8|=0.314
82443316|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|80.0|-20.4|9.2|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 21~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||9.2|-20.4|=0.599
82443317|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|95.0|-28.7|18.1|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 21~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||18.1|-28.7|=0.599
82443318|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|80.0|-20.4|9.2|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 28~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||9.2|-20.4|=0.599
82443319|NCT04375397|164595012|SUPERIORITY||Adjusted risk difference (%)|-5.8|||=|0.599|TWO_SIDED|95.0|-28.7|18.1|||Miettinen-Nurminen|||"Failure/Mortality Rate Difference Compared to Placebo + SOC at Day 28~The difference in response rates between the experimental arm and the control arm was analyzed using the Miettinen-Nurminen (MN) method adjusting for the stratification factor of prescription for remdesivir. MN test p-value for testing the rate difference = 0 adjusting for the stratification factor of prescription for remdesivir using Cochran-Mantel-Haenszel weights at two-sided alpha of 0.2."||18.1|-28.7|=0.599
82443320|NCT04375397|164595013|SUPERIORITY||||||=|0.851|||||||Log Rank|||For the analysis of mechanical ventilation-free survival, the distribution of time to event was estimated by treatment group using Kaplan-Meier methodology and compared between the experimental arm and the control arm using the log-rank test stratified by prescription for remdesivir.||||=0.851
82443321|NCT04375397|164595014|SUPERIORITY||Difference in Medians|0.0|||=|0.745|TWO_SIDED||||||Van Elteren's test||Ibrutinib 420 mg + SOC - Placebo + SOC|Median days spent on mechanical ventilation were compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.745
82443322|NCT04375397|164595015|SUPERIORITY||Difference in Medians|-0.5|||=|0.977|TWO_SIDED||||||Van Elteren's test]||Ibrutinib 420 mg + SOC - Placebo + SOC|Median duration of hospitalization was compared between treatment groups using Van Elteren's test with the stratification factor of prescription for remdesivir.||||=0.977
82522629|NCT04493931|164740883|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
82443323|NCT04375397|164595016|SUPERIORITY||||||=|0.969|||||||Log Rank|||For the analysis of time to discharge from hospital, the distribution of time to event was estimated by treatment group using Kaplan-Meier methodology and compared between the experimental arm and the control arm using the log-rank test stratified by prescription for remdesivir.||||=0.969
82443324|NCT00086502|164595020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.73|<|0.001||95.0|-0.85|-0.54||"Model terms: treatment; baseline; prior antihyperglycemic~agent (AHA) therapy \[not on AHA, monotherapy with oral AHA, peroxisome proliferator-activated receptor (PPAR)-based combination therapy\]"|ANCOVA|||||-0.54|-0.85|<0.001
82522630|NCT04493931|164740884|OTHER||Median Difference (Final Values)|-0.5|||||TWO_SIDED|90.0|-1.0|-0.233|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||-0.233|-1.000|
82522631|NCT04493931|164740885|OTHER||Ratio of Geometric LS mean|1.217|||||TWO_SIDED|90.0|1.085|1.363||||||||1.363|1.085|
82522632|NCT04493931|164740886|OTHER||Ratio of Geometric LS mean|1.121|||||TWO_SIDED|90.0|0.983|1.278||||||||1.278|0.983|
82639382|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|4.24|||<|0.0001|TWO_SIDED|95.0|2.2|8.14|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||8.14|2.20|<.0001
82522633|NCT04493931|164740887|OTHER||Ratio of Geometric LS mean|1.242|||||TWO_SIDED|90.0|1.046|1.475||||||||1.475|1.046|
82522634|NCT04493931|164740888|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|0.000|
82522635|NCT04493931|164740889|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.25|0.8|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.800|-0.250|
82522636|NCT04493931|164740890|OTHER||Ratio of Geometric LS mean|1.923|||||TWO_SIDED|90.0|1.622|2.278||||||||2.278|1.622|
82522637|NCT04493931|164740891|OTHER||Ratio of Geometric LS mean|1.902|||||TWO_SIDED|90.0|1.619|2.234||||||||2.234|1.619|
82522638|NCT04493931|164740915|OTHER||Ratio of geometric LS mean|1.051|||||TWO_SIDED|90.0|0.824|1.34||||||||1.340|0.824|
82522639|NCT04493931|164740916|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.25|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.250|0.000|
82522640|NCT04493931|164740917|OTHER||Median Difference (Final Values)|0.5|||||TWO_SIDED|90.0|-0.5|1.25|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||1.250|-0.500|
82522641|NCT04493931|164740918|OTHER||Ratio of geometric LS mean|1.094|||||TWO_SIDED|90.0|0.987|1.212||||||||1.212|0.987|
82522642|NCT04493931|164740919|OTHER||Ratio of geometric LS mean|1.095|||||TWO_SIDED|90.0|0.991|1.209||||||||1.209|0.991|
82522643|NCT04493931|164740922|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.25|0.0|||||The median difference and the 90% CI of the median difference were from Hodges-Lehmann estimate.|||0.000|-0.250|
82572670|NCT01214421|164855201|SUPERIORITY||Ratio of geometric means (final values)|0.99||||0.358|TWO_SIDED|95.0|0.96|1.02|||Mixed Models Analysis||||Derived from the least squares (LS) mean difference between the treatment groups at each visit using MMRM model with factors of treatment, visit, region, baseline, baseline hypertensive status, baseline renal volume status, baseline creatinine clearance status, interaction of treatment and visit, and interaction of baseline and visit.|1.02|0.96|0.358
82522644|NCT04493931|164740925|OTHER||Ratio of geometric LS mean|1.214|||||TWO_SIDED|90.0|1.0|1.473||||||||1.473|1.000|
82522645|NCT04493931|164740926|OTHER||Ratio of geometric LS mean|1.097|||||TWO_SIDED|90.0|0.948|1.27||||||||1.270|0.948|
82522646|NCT04493931|164740927|OTHER||Ratio of geometric LS mean|1.071|||||TWO_SIDED|90.0|0.939|1.221||||||||1.221|0.939|
82522647|NCT04493931|164740928|OTHER||Ratio of geometric LS mean|1.096|||||TWO_SIDED|90.0|0.93|1.292||||||||1.292|0.930|
82522648|NCT04493931|164740942|OTHER||Ratio of geometric LS mean|0.499|||||TWO_SIDED|90.0|0.441|0.565||||||||0.565|0.441|
82522649|NCT04493931|164740943|OTHER||Ratio of geometric LS mean|0.439|||||TWO_SIDED|90.0|0.37|0.521||||||||0.521|0.370|
82572671|NCT01214421|164855202|SUPERIORITY||LS mean difference (final values)|3.15||||0.0003|TWO_SIDED|95.0|1.462|4.836|||Mixed Models Analysis||||Derived from MMRM analysis with fixed factors of treatment, visit, treatment visit interaction, hypertensive status, renal volume status and creatinine clearance status at baseline, region, baseline value, and baseline visit interaction as covariates, and with a heterogeneous toeplitz variance covariance matrix.|4.836|1.462|0.0003
82572672|NCT01214421|164855203|NON_INFERIORITY|The non-inferiority for early-treatment and delayed-treatment groups.|Ratio of geometric means (final values)|1.011||||0.0462|TWO_SIDED|95.0|1.0|1.023|||Mixed Models Analysis||||Derived from testing interaction of time and treatment using linear mixed model in which intercept and time are treated as random effects.|1.023|1.000|0.0462
82522650|NCT04493931|164740944|OTHER||Ratio of geometric LS mean|0.438|||||TWO_SIDED|90.0|0.372|0.516||||||||0.516|0.372|
82522651|NCT04493931|164740945|OTHER||Ratio of geometric LS mean|1.036|||||TWO_SIDED|90.0|0.95|1.129||||||||1.129|0.950|
82522652|NCT04493931|164740969|OTHER||Ratio of Geometric LS mean|1.755|||||TWO_SIDED|90.0|1.304|2.363||||||||2.363|1.304|
82522653|NCT04493931|164740970|OTHER||Ratio of Geometric LS mean|0.833|||||TWO_SIDED|90.0|0.769|0.902||||||||0.902|0.769|
82522654|NCT04493931|164740971|OTHER||Ratio of Geometric LS mean|0.745|||||TWO_SIDED|90.0|0.653|0.85||||||||0.850|0.653|
82522655|NCT04493931|164740972|OTHER||Ratio of Geometric LS mean|0.892|||||TWO_SIDED|90.0|0.782|1.018||||||||1.018|0.782|
82522656|NCT04493931|164740973|OTHER||Ratio of Geometric LS mean|1.157|||||TWO_SIDED|90.0|0.876|1.528||||||||1.528|0.876|
82522657|NCT04493931|164740974|OTHER||Ratio of Geometric LS mean|1.142|||||TWO_SIDED|90.0|1.016|1.283||||||||1.283|1.016|
82522658|NCT04493931|164740975|OTHER||Ratio of Geometric LS mean|0.603|||||TWO_SIDED|90.0|0.521|0.699||||||||0.699|0.521|
82522659|NCT04493931|164740976|OTHER||Ratio of Geometric LS mean|0.526|||||TWO_SIDED|90.0|0.448|0.618||||||||0.618|0.448|
82522660|NCT00430248|164741031|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of febuxostat 40 mg to allopurinol was declared if the value of the lower bound of the 95% confidence interval for the difference was greater than -10%.|Difference in percentage|3.1||||||95.0|-1.9|8.1||||||The primary comparison was between febuxostat 40 mg and allopurinol treatment groups.||8.1|-1.9|
82522661|NCT00430248|164741031|SUPERIORITY_OR_OTHER|||||||0.233||95.0||||The test for superiority was performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||||0.233
82522662|NCT00430248|164741031|SUPERIORITY_OR_OTHER||Difference in percentage|24.9|||<|0.001||95.0|20.1|29.8||Comparisons between treatment groups were performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||29.8|20.1|<0.001
82639383|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|6.4|||<|0.0001|TWO_SIDED|95.0|3.22|12.7|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||12.7|3.22|<.0001
82522663|NCT00430248|164741031|SUPERIORITY_OR_OTHER||Difference in percentage|21.9|||<|0.001||95.0|17.0|26.8||Comparisons between treatment groups were performed using Fisher's exact test (two-tailed 0.05 significance level).|Fisher Exact|||||26.8|17.0|<0.001
82522664|NCT00430248|164741032|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.021
82522665|NCT00430248|164741032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522666|NCT00430248|164741032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522667|NCT00430248|164741033|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.031
82522668|NCT00430248|164741033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522669|NCT00430248|164741033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522670|NCT00430248|164741034|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.578
82522671|NCT00430248|164741034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522672|NCT00430248|164741034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522673|NCT00430248|164741035|SUPERIORITY_OR_OTHER|||||||0.426||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.426
82522674|NCT00430248|164741035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522675|NCT00430248|164741035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522676|NCT00430248|164741036|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.050
82522677|NCT00430248|164741036|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522678|NCT00430248|164741036|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82639384|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|57.9||||0.184|TWO_SIDED|95.0|28.3|119.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||119|28.3|0.1840
82522679|NCT00430248|164741037|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.428
82522680|NCT00430248|164741037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522681|NCT00430248|164741037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522682|NCT00430248|164741038|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.041
82522683|NCT00430248|164741038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522684|NCT00430248|164741038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522685|NCT00430248|164741039|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.083
82522686|NCT00430248|164741039|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522687|NCT00430248|164741039|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522688|NCT00430248|164741040|SUPERIORITY_OR_OTHER|||||||0.421||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.421
82522689|NCT00430248|164741040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522690|NCT00430248|164741040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522691|NCT00430248|164741041|SUPERIORITY_OR_OTHER|||||||0.52||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.520
82522692|NCT00430248|164741041|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522693|NCT00430248|164741041|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522694|NCT00430248|164741042|SUPERIORITY_OR_OTHER|||||||0.195||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.195
82522695|NCT00430248|164741042|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522696|NCT00430248|164741042|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522697|NCT00430248|164741043|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||0.196
82522698|NCT00430248|164741043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522699|NCT00430248|164741043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The a priori threshold for statistical significance was 0.05 (two-tailed).|Fisher Exact|||||||<0.001
82522700|NCT00430248|164741044|SUPERIORITY_OR_OTHER|||||||0.079||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.079
82522701|NCT00430248|164741044|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522702|NCT00430248|164741044|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522703|NCT00430248|164741045|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.685
82572673|NCT01214421|164855204|NON_INFERIORITY|The non-inferiority for early-treatment and delayed-treatment groups.|Ratio of geometric means (final values)|-0.113||||0.7259|TWO_SIDED|95.0|-0.746|0.52|||Mixed Models Analysis||||Derived from testing interaction of time and treatment using linear mixed model in which intercept and time are treated as random effects.|0.520|-0.746|0.7259
82572674|NCT01214421|164855205|SUPERIORITY||Ratio of geometric means (final values)|0.992||||0.108|TWO_SIDED|95.0|0.982|1.002|||Mixed Models Analysis||||Derived from linear mixed model with terms of participant, treatment, time, interaction of treatment and time, interaction of participant and time, and baseline for intra-participant comparison between 251 and 271. Time and intercept are treated as random effects.|1.002|0.982|0.1080
82572675|NCT01214421|164855206|SUPERIORITY||Ratio of geometric means (final values)|0.361||||0.2265|TWO_SIDED|95.0|-0.224|0.946|||Mixed Models Analysis||||Derived from linear mixed model with terms of participant, treatment, time, interaction of treatment and time, interaction of participant and time, and baseline for intra-participant comparison between 251 and 271. Time and intercept are treated as random effects.|0.946|-0.224|0.2265
82386387|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.71||0.0379|TWO_SIDED|90.0|-2.44|-0.09|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.09|-2.44|0.0379
82386388|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.68||0.1291|TWO_SIDED|90.0|-1.91|0.36|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.36|-1.91|0.1291
82386389|NCT03850483|164484058|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.5776|TWO_SIDED|90.0|-1.03|1.3|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.30|-1.03|0.5776
82522704|NCT00430248|164741045|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522705|NCT00430248|164741045|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522706|NCT00430248|164741046|SUPERIORITY_OR_OTHER|||||||0.153||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.153
82522707|NCT00430248|164741046|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82572676|NCT01963169|164855215|SUPERIORITY||Effect size|0.54|||<|0.001|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for Knowledge outcome using the revised Osteoporosis Knowledge Test.|At 8 week, both intervention groups received the same Bone Power Program intervention. Thus, the analysis for the 8-week outcomes was completed as a two-armed RCT.||||< 0.001
82572677|NCT01963169|164855215|SUPERIORITY||Effect size|0.33|||<|0.001|TWO_SIDED|||||\<0.05 (threshold)|Mixed Models Analysis||The above values are for the exercise behavior variable assessed by the 9-item Self-Efficacy for Exercise scale.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||<0.001
82572678|NCT01963169|164855215|SUPERIORITY||Effect size|0.2||||0.009|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for calcium outcome expectation..|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.009
82522708|NCT00430248|164741046|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522709|NCT00430248|164741047|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||0.050
82522710|NCT00430248|164741047|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522711|NCT00430248|164741047|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from contrast within the framework of the ANOVA with significance at the 0.05 level.|ANOVA|||||||<0.001
82522712|NCT03466086|164741069|SUPERIORITY|This was a pilot study and the sample size was not based on any empirical power calculation.|Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|1.238|||TWO_SIDED|95.0|-2.35|2.59||Superiority will be declared if the lower bound of the 2-sided 95% credible interval of the difference between Test and Control is greater than 0.|Multivariate Bayesian Model|The correlation between measurements across periods were modeled using unstructured variance-covariance matrix.|Mean Difference was calculated as Test minus Control.|||2.59|-2.35|
82522713|NCT03466086|164741070|SUPERIORITY|Superiority will be declared if the lower bound of the 2-sided 95% credible interval of the difference between Test and Control is less than 0.|Mean Difference (Final Values)|1.49|STANDARD_DEVIATION|0.951|||TWO_SIDED|95.0|-0.4|3.37|||Multivariate Bayesian Analysis|The correlation between measurements across periods were modeled using unstructured variance-covariance matrix.||This was a pilot study and the sample size was not based on any empirical power calculation.|Mean difference was calculated as Test - Control|3.37|-0.40|
82522714|NCT04570436|164741091|SUPERIORITY||Mean Difference (Final Values)|30.9|STANDARD_ERROR_OF_MEAN|2.85|<|0.0001|ONE_SIDED|95.0|26.2||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of diazepam, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 = 15"|||26.2|<0.0001
82522715|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|2.84||0.3581|ONE_SIDED|95.0||14.7|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||14.7||0.3581
82522716|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|9.5|STANDARD_ERROR_OF_MEAN|2.85||0.3051|ONE_SIDED|95.0||14.3|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||14.3||0.3051
82522717|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|2.83||0.2179|ONE_SIDED|95.0||13.5|||Mixed Models Analysis|||"The primary analysis evaluated whether gabapentin (T) produced mean responses that show abuse potential similar to placebo.~H0: μT - μP ≥ δ3 versus Ha: μT - μP \< δ3 where δ3 =11"||13.5||0.2179
82522718|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|ONE_SIDED|95.0|16.3||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||16.3|<0.0001
82522719|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|21.4|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|ONE_SIDED|95.0|16.7||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||16.7|<0.0001
82572679|NCT01963169|164855215|SUPERIORITY||Effect Size|0.18||||0.002|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for exercise self-efficacy.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.002
82522720|NCT04570436|164741091|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|22.1|STANDARD_ERROR_OF_MEAN|2.85|<|0.0001|ONE_SIDED|95.0|17.4||||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether gabapentin (T) produced mean responses that show less abuse potential than diazepam (C) were:~H0: μC - μT ≤ δ2 versus Ha: μC - μT \> δ2 where δ2 =0"|||17.4|<0.0001
82522721|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|325.8|STANDARD_ERROR_OF_MEAN|113.38||0.0023|ONE_SIDED|90.0|138.2||||Mixed Models Analysis||||||138.2|0.0023
82522722|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|140.5|STANDARD_ERROR_OF_MEAN|113.01||0.2157|TWO_SIDED|90.0|-82.7|363.7|||Mixed Models Analysis|||||363.7|-82.7|0.2157
82572680|NCT01963169|164855215|SUPERIORITY||Effect size|0.14||||0.032|TWO_SIDED|||||\<0.05 (Threshold)|Mixed Models Analysis||The above values are for exercise outcome expectation.|At 8 weeks both intervention groups received the same BonePower intervention. Thus the analysis of 8-week outcome was completed as 2-armed RCT.||||0.032
82386390|NCT03850483|164484058|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.69||0.1044|TWO_SIDED|90.0|-2.0|0.27|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.27|-2.00|0.1044
82522723|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|155.4|STANDARD_ERROR_OF_MEAN|113.25||0.172|TWO_SIDED|90.0|-68.3|379.1|||Mixed Models Analysis|||||379.1|-68.3|0.1720
82522724|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|212.2|STANDARD_ERROR_OF_MEAN|113.01||0.0622|TWO_SIDED|90.0|-11.0|435.5|||Mixed Models Analysis|||||435.5|-11.0|0.0622
82522725|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|-185.0|STANDARD_ERROR_OF_MEAN|113.04||0.1031|TWO_SIDED|90.0|-409.0|37.94|||Mixed Models Analysis|||||37.94|-409|0.1031
82522726|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|-170.0|STANDARD_ERROR_OF_MEAN|112.97||0.1334|TWO_SIDED|90.0|-394.0|52.71|||Mixed Models Analysis|||||52.71|-394|0.1334
82522727|NCT04570436|164741093|OTHER||Mean Difference (Final Values)|-114.0|STANDARD_ERROR_OF_MEAN|113.59||0.3189|TWO_SIDED|90.0|-338.0|110.8|||Mixed Models Analysis|||||110.8|-338|0.3189
82522728|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|55.77|STANDARD_ERROR_OF_MEAN|5.362|<|0.0001|ONE_SIDED|90.0|46.89||||Mixed Models Analysis||||||46.89|<0.0001
82522729|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|17.18|STANDARD_ERROR_OF_MEAN|5.348||0.0016|TWO_SIDED|90.0|6.61|27.74|||Mixed Models Analysis|||||27.74|6.61|0.0016
82386391|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69||0.0608|TWO_SIDED|90.0|-2.23|0.07|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-2.23|0.0608
82386392|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.8||0.0309|TWO_SIDED|90.0|-2.84|-0.18|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.18|-2.84|0.0309
82386393|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.78||0.0242|TWO_SIDED|90.0|-2.85|-0.26|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.26|-2.85|0.0242
82386394|NCT03850483|164484058|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.78||0.0394|TWO_SIDED|90.0|-2.69|-0.09|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.09|-2.69|0.0394
82386395|NCT03850483|164484060|SUPERIORITY||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|5.09||0.6917|TWO_SIDED|90.0|-5.86|10.97|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||10.97|-5.86|0.6917
82522730|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|21.38|STANDARD_ERROR_OF_MEAN|5.36||0.0001|TWO_SIDED|90.0|10.79|31.96|||Mixed Models Analysis|||||31.96|10.79|0.0001
82522731|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|5.352|<|0.0001|TWO_SIDED|90.0|11.92|33.07|||Mixed Models Analysis|||||33.07|11.92|<0.0001
82522732|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|-38.6|STANDARD_ERROR_OF_MEAN|5.312|<|0.0001|TWO_SIDED|90.0|-49.1|-28.1|||Mixed Models Analysis|||||-28.1|-49.1|<0.0001
82386396|NCT03850483|164484060|SUPERIORITY||LS mean difference|7.3|STANDARD_ERROR_OF_MEAN|5.07||0.9241|TWO_SIDED|90.0|-1.09|15.69|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||15.69|-1.09|0.9241
82386397|NCT03850483|164484060|SUPERIORITY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|5.03||0.8443|TWO_SIDED|90.0|-3.21|13.42|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||13.42|-3.21|0.8443
82386398|NCT03850483|164484060|SUPERIORITY||LS mean difference|2.5|STANDARD_ERROR_OF_MEAN|5.04||0.6911|TWO_SIDED|90.0|-5.82|10.86|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||10.86|-5.82|0.6911
82522733|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|-34.4|STANDARD_ERROR_OF_MEAN|5.308|<|0.0001|TWO_SIDED|90.0|-44.9|-23.9|||Mixed Models Analysis|||||-23.9|-44.9|<0.0001
82386399|NCT03850483|164484060|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|4.79||0.3676|TWO_SIDED|90.0|-9.56|6.31|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||6.31|-9.56|0.3676
82386400|NCT03850483|164484060|SUPERIORITY||LS mean difference|-6.3|STANDARD_ERROR_OF_MEAN|4.72||0.0915|TWO_SIDED|90.0|-14.13|1.5|||MMRM|||Week 1: Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.50|-14.13|0.0915
82386401|NCT03850483|164484060|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|4.72||0.097|TWO_SIDED|90.0|-13.96|1.65|||MMRM|||Week 1: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.65|-13.96|0.0970
82386402|NCT03850483|164484060|SUPERIORITY||LS mean difference|9.2|STANDARD_ERROR_OF_MEAN|5.91||0.9389|TWO_SIDED|90.0|-0.59|18.97|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||18.97|-0.59|0.9389
82386403|NCT03850483|164484060|SUPERIORITY||LS mean difference|9.0|STANDARD_ERROR_OF_MEAN|6.07||0.9295|TWO_SIDED|90.0|-1.06|19.02|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors||19.02|-1.06|0.9295
82386404|NCT03850483|164484060|SUPERIORITY||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|5.92||0.7308|TWO_SIDED|90.0|-6.15|13.45|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||13.45|-6.15|0.7308
82522734|NCT04570436|164741094|OTHER||Mean Difference (Final Values)|-33.3|STANDARD_ERROR_OF_MEAN|5.337|<|0.0001|TWO_SIDED|90.0|-43.8|-22.7|||Mixed Models Analysis|||||-22.7|-43.8|<0.0001
82522735|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|234.9|STANDARD_ERROR_OF_MEAN|38.174|<|0.0001|ONE_SIDED|90.0|171.7||||Mixed Models Analysis||||||171.7|<0.0001
82522736|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|66.3|STANDARD_ERROR_OF_MEAN|38.048||0.0834|TWO_SIDED|90.0|-8.86|141.5|||Mixed Models Analysis|||||141.5|-8.86|0.0834
82522737|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|99.06|STANDARD_ERROR_OF_MEAN|38.128||0.0103|TWO_SIDED|90.0|23.75|174.4|||Mixed Models Analysis|||||174.4|23.75|0.0103
82522738|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|97.2|STANDARD_ERROR_OF_MEAN|38.048||0.0116|TWO_SIDED|90.0|22.05|172.4|||Mixed Models Analysis|||||172.4|22.05|0.0116
82522739|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|-169.0|STANDARD_ERROR_OF_MEAN|38.06|<|0.0001|TWO_SIDED|90.0|-244.0|-93.4|||Mixed Models Analysis|||||-93.4|-244|<0.0001
82522740|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|-136.0|STANDARD_ERROR_OF_MEAN|38.036||0.0005|TWO_SIDED|90.0|-211.0|-60.7|||Mixed Models Analysis|||||-60.7|-211|0.0005
82522741|NCT04570436|164741096|OTHER||Mean Difference (Final Values)|-138.0|STANDARD_ERROR_OF_MEAN|38.243||0.0004|TWO_SIDED|90.0|-213.0|-62.2|||Mixed Models Analysis|||||-62.2|-213|0.0004
82386405|NCT03850483|164484060|SUPERIORITY||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|5.94||0.6199|TWO_SIDED|90.0|-8.01|11.64|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||11.64|-8.01|0.6199
82386406|NCT03850483|164484060|SUPERIORITY||LS mean difference|-9.0|STANDARD_ERROR_OF_MEAN|6.09||0.0699|TWO_SIDED|90.0|-19.13|1.04|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.04|-19.13|0.0699
82386407|NCT03850483|164484060|SUPERIORITY||LS mean difference|-11.6|STANDARD_ERROR_OF_MEAN|6.14||0.03|TWO_SIDED|90.0|-21.79|-1.48|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.48|-21.79|0.0300
82386408|NCT03850483|164484060|SUPERIORITY||LS mean difference|-13.1|STANDARD_ERROR_OF_MEAN|6.09||0.0168|TWO_SIDED|90.0|-23.15|-2.98|||MMRM|||Week 2: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.98|-23.15|0.0168
82386409|NCT03850483|164484060|SUPERIORITY||LS mean difference|3.6|STANDARD_ERROR_OF_MEAN|6.61||0.7083|TWO_SIDED|90.0|-7.3|14.57|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.57|-7.30|0.7083
82386410|NCT03850483|164484060|SUPERIORITY||LS mean difference|8.5|STANDARD_ERROR_OF_MEAN|6.77||0.8955|TWO_SIDED|90.0|-2.66|19.75|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.75|-2.66|0.8955
82386411|NCT03850483|164484060|SUPERIORITY||LS mean difference|6.5|STANDARD_ERROR_OF_MEAN|6.56||0.8386|TWO_SIDED|90.0|-4.35|17.37|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||17.37|-4.35|0.8386
82386412|NCT03850483|164484060|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|6.58||0.4371|TWO_SIDED|90.0|-11.93|9.84|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||9.84|-11.93|0.4371
82386413|NCT03850483|164484060|SUPERIORITY||LS mean difference|-20.7|STANDARD_ERROR_OF_MEAN|8.91||0.0108|TWO_SIDED|90.0|-35.42|-5.92|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-5.92|-35.42|0.0108
82386414|NCT03850483|164484060|SUPERIORITY||LS mean difference|-10.9|STANDARD_ERROR_OF_MEAN|8.75||0.1066|TWO_SIDED|90.0|-25.43|3.55|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||3.55|-25.43|0.1066
82386415|NCT03850483|164484060|SUPERIORITY||LS mean difference|-16.0|STANDARD_ERROR_OF_MEAN|8.76||0.0344|TWO_SIDED|90.0|-30.54|-1.55|||MMRM|||Week 4: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.55|-30.54|0.0344
82386416|NCT03850483|164484060|SUPERIORITY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|8.29||0.6594|TWO_SIDED|90.0|-10.3|17.13|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||17.13|-10.30|0.6594
82386417|NCT03850483|164484060|SUPERIORITY||LS mean difference|5.3|STANDARD_ERROR_OF_MEAN|8.52||0.7307|TWO_SIDED|90.0|-8.85|19.36|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.36|-8.85|0.7307
82443325|NCT00086502|164595021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7|STANDARD_DEVIATION|30.9|<|0.001||95.0|-24.3|-11.0||Model terms: treatment; baseline; prior antihyperglycemic agent (AHA) therapy \[not on AHA, monotherapy with oral AHA, peroxisome proliferator-activated receptor (PPAR)-based combination therapy\]|ANCOVA|||||-11.0|-24.3|<0.001
82443326|NCT05545644|164595026|SUPERIORITY||Hedges g|0.48|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
82443327|NCT05545644|164595027|SUPERIORITY||Hedges g|0.37|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
82443328|NCT05545644|164595028|SUPERIORITY||Hedges g|0.04|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
82443329|NCT05545644|164595028|SUPERIORITY|Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).|Mean Difference (Final Values)|0.19|||||TWO_SIDED||||||||||Hedges g = .04; SE = .42|||
82443330|NCT05545644|164595029|SUPERIORITY||Hedges g|0.44|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|||||Given the small sample size, we relied more heavily on effect size calculations (Hedges g adjusted for small sample bias).||||||||
82443331|NCT00610441|164595030|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6996||||0.0147|TWO_SIDED|97.5|-10.911|-0.4881||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|Mixed Model for Repeated Measurements||Mixed Model for Repeated Measurements (MMRM) with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline AISRS score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||-0.4881|-10.911|0.0147
82386418|NCT03850483|164484060|SUPERIORITY||LS mean difference|1.9|STANDARD_ERROR_OF_MEAN|8.28||0.5914|TWO_SIDED|90.0|-11.78|15.61|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||15.61|-11.78|0.5914
82522742|NCT01274182|164741149|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.106|||||TWO_SIDED|90.0|1.01|1.21|||||GP2013 arm is the numerator and MabThera arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.210|1.010|
82639385|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|66.4||||0.3552|TWO_SIDED|95.0|34.0|130.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||130|34.0|0.3552
82386419|NCT03850483|164484060|SUPERIORITY||LS mean difference|-12.3|STANDARD_ERROR_OF_MEAN|8.34||0.0709|TWO_SIDED|90.0|-26.13|1.49|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.49|-26.13|0.0709
82386420|NCT03850483|164484060|SUPERIORITY||LS mean difference|-18.8|STANDARD_ERROR_OF_MEAN|9.53||0.0253|TWO_SIDED|90.0|-34.55|-3.01|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-3.01|-34.55|0.0253
82386421|NCT03850483|164484060|SUPERIORITY||LS mean difference|-13.4|STANDARD_ERROR_OF_MEAN|9.38||0.078|TWO_SIDED|90.0|-28.89|2.15|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||2.15|-28.89|0.0780
82386422|NCT03850483|164484060|SUPERIORITY||LS mean difference|-9.7|STANDARD_ERROR_OF_MEAN|9.36||0.1516|TWO_SIDED|90.0|-25.17|5.83|||MMRM|||Week 6: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||5.83|-25.17|0.1516
82386423|NCT03850483|164484060|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|9.14||0.4861|TWO_SIDED|90.0|-15.45|14.81|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.81|-15.45|0.4861
82443332|NCT00610441|164595030|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9926||||0.591|TWO_SIDED|97.5|-3.2961|5.2814||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline AISRS score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||5.2814|-3.2961|0.5910
82443333|NCT00610441|164595031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.8506|||||TWO_SIDED|95.0|1.799|26.0878|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||26.0878|1.7990|
82443334|NCT00610441|164595031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9461|||||TWO_SIDED|95.0|0.3119|2.8701|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||2.8701|0.3119|
82386424|NCT03850483|164484060|SUPERIORITY||LS mean difference|11.0|STANDARD_ERROR_OF_MEAN|9.38||0.8795|TWO_SIDED|90.0|-4.48|26.55|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||26.55|-4.48|0.8795
82443335|NCT00610441|164595032|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.2468|||||TWO_SIDED|95.0|0.6712|58.1395|||||Since no participants in the Placebo group achieved a 50% reduction, the comparison was done using a Cochran-Mantel-Haenszel method and 0.5 was added to both groups.|||58.1395|0.6712|
82443336|NCT00610441|164595032|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1453|||||TWO_SIDED|95.0|0.0152|1.388|||||Logistic regression with fixed effects for treatment and period, and baseline AISRS score as covariate.|||1.3880|0.0152|
82386425|NCT03850483|164484060|SUPERIORITY||LS mean difference|-5.1|STANDARD_ERROR_OF_MEAN|9.11||0.2867|TWO_SIDED|90.0|-20.22|9.94|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||9.94|-20.22|0.2867
82443337|NCT00610441|164595035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2074|||||TWO_SIDED|95.0|0.5654|2.5785|||||Proportional odds model with fixed effects for treatment and period.|||2.5785|0.5654|
82443338|NCT00610441|164595035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8548|||||TWO_SIDED|95.0|0.6951|4.9494|||||Proportional odds model with fixed effects for treatment and period.|||4.9494|0.6951|
82443339|NCT00610441|164595036|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3149|||||TWO_SIDED|95.0|0.5402|3.2008|||||Proportional odds model with fixed effects for treatment and period.|||3.2008|0.5402|
82443340|NCT00610441|164595036|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3982|||||TWO_SIDED|95.0|0.524|3.7309|||||Proportional odds model with fixed effects for treatment and period.|||3.7309|0.5240|
82443341|NCT00610441|164595037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3163||||0.6155|TWO_SIDED|97.5|-1.8138|1.1812||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline ESS score as covariate. For statistical analyses, the average score from Days 14 and 21 was used.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.1812|-1.8138|0.6155
82443342|NCT00610441|164595037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2934||||0.133|TWO_SIDED|97.5|-0.7449|3.3317||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline ESS score as covariate. For statistical analyses, the average score from Days 14 and 21 was used.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||3.3317|-0.7449|0.1330
82522743|NCT01274182|164741149|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.012|||||TWO_SIDED|90.0|0.925|1.108|||||GP2013 arm is the numerator and Rituxan arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.108|0.925|
82386426|NCT03850483|164484060|SUPERIORITY||LS mean difference|-10.6|STANDARD_ERROR_OF_MEAN|9.23||0.1267|TWO_SIDED|90.0|-25.86|4.69|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||4.69|-25.86|0.1267
82522744|NCT01274182|164741149|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.093|||||TWO_SIDED|90.0|0.989|1.208|||||Rituxan arm is the numerator and MabThera arm is the denominator|PK bioequivalence is defined as AUC(0-inf) of the drugs being comparable, i.e. the two-sided 90% CI for the ratio of the geometric means (GP2013/MabThera) is within the predefined bioequivalence limits of 0.8 to 1.25.||1.208|0.989|
82522745|NCT01274182|164741150|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.076|||||TWO_SIDED|90.0|0.979|1.184|||||GP2013 arm is the numerator and Rituxan arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25.||1.184|0.979|
82522746|NCT01274182|164741150|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.131|||||TWO_SIDED|90.0|1.027|1.244|||||GP2013 arm is the numerator and MabThera arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25||1.244|1.027|
82386427|NCT03850483|164484060|SUPERIORITY||LS mean difference|-17.1|STANDARD_ERROR_OF_MEAN|10.49||0.0526|TWO_SIDED|90.0|-34.48|0.26|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.26|-34.48|0.0526
82522747|NCT01274182|164741150|EQUIVALENCE|The PK parameters were transformed prior to analysis using a logarithmic transformation. An analysis of variance (ANOVA) was used to analyze the transformed data including treatment group only as a factor in the model. The confidence interval for the difference between the two products on the transformed scale was obtained from the ANOVA model, which was then be back-transformed (exp base e) to obtain the confidence interval for the ratio on the original scale.|Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.946|1.167|||||Rituxan arm is the numerator and MabThera arm is the denominator|To conclude bioequivalence the 90% CI must be entirely within the standard equivalence limits of 0.8-1.25.||1.167|0.946|
82522748|NCT01274182|164741151|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|0.989|||||TWO_SIDED|95.0|0.974|1.004|||||GP2013 arm is the numerator and Rituxan arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalencelimits of 0.8-1.25||1.004|0.974|
82522749|NCT01274182|164741151|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|1.021|||||TWO_SIDED|95.0|1.003|1.04|||||GP2013 arm is the numerator and MabThera arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalencelimits of 0.8-1.25||1.040|1.003|
82572681|NCT03912532|164855218|OTHER|The Multiple Comparison Procedure-Modelling (MCP-Mod) is a 2-stage procedure in which dose-response models are selected at the design stage. These candidate models are used for both dose-response testing (MCP step) and estimation (Mod step). The dose-response testing is performed using a multiple comparison method to account for the multiplicity issue associated with the multiple candidate models. Missing responses were imputed using multiple imputation under the assumption of missing at random.||||||0.5534|||||||Multiple comparison procedure step|||||||0.5534
82572682|NCT00575042|164855266|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Sample size calculation estimated that with 20 patients, and assuming a 10% drop-out rate, the study would have 80% power to detect a response rate in 35% or more of the study patients. A two-sided p value\<0.05 was considered statistically significant.||||<0.0001
82572683|NCT00158197|164855276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98|||<|0.01|TWO_SIDED||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
82377546|NCT00486525|164462478|SUPERIORITY_OR_OTHER||Slope|-0.034|STANDARD_ERROR_OF_MEAN|0.0235||0.33|TWO_SIDED|95.0|-0.1|0.035|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (IL-1b) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.035|-0.10|0.33
82443343|NCT00610441|164595038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5501||||0.3907|TWO_SIDED|97.5|-0.9427|2.0429||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline PSQI score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||2.0429|-0.9427|0.3907
82443344|NCT00610441|164595038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0065||||0.9872|TWO_SIDED|97.5|-0.9486|0.9357||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline PSQI score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||0.9357|-0.9486|0.9872
82443345|NCT00610441|164595039|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1543||||0.7828|TWO_SIDED|97.5|-1.4898|1.1811||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline QIDS-C score as covariate. Scores from Days 14 and 21 were averaged for statistical analyses.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.1811|-1.4898|0.7828
82443346|NCT00610441|164595039|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4222||||0.2883|TWO_SIDED|97.5|-0.5187|1.363||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline QIDS-C score as covariate. Scores from Days 14 and 21 were averaged for statistical analyses.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||1.3630|-0.5187|0.2883
82443347|NCT00610441|164595040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9685||||0.6532|TWO_SIDED|97.5|-5.9599|4.0229|||MMRM|To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline TASS score as covariate.|The treatment difference between 100 mg MK-8777 fixed dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||4.0229|-5.9599|0.6532
82443348|NCT00610441|164595040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1022||||0.5247|TWO_SIDED|97.5|-2.8951|5.0996||To correct for multiplicity, p-values (2-sided) should be compared with the 2.5% level of significance.|MMRM||MMRM with fixed effects for treatment, period, visit, center and treatment by visit interaction, and random effect for participant, and baseline TASS score as covariate.|The treatment difference between 100-300 mg MK-8777 rising dose and Placebo was estimated for the average effect (average change from baseline) of the 2nd and 3rd week of each period (Day 14 and Day 21).||5.0996|-2.8951|0.5247
82639386|NCT05664672|164993877|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|66.2||||0.381|TWO_SIDED|95.0|33.0|133.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||133|33.0|0.3810
82639387|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|16.8|||<|0.0001|TWO_SIDED|95.0|13.0|21.8|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||21.8|13.0|<.0001
82639388|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|20.5|||<|0.0001|TWO_SIDED|95.0|16.2|25.9|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||25.9|16.2|<.0001
82639389|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|18.2|||<|0.0001|TWO_SIDED|95.0|14.3|23.4|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||23.4|14.3|<.0001
82386428|NCT03850483|164484060|SUPERIORITY||LS mean difference|-14.3|STANDARD_ERROR_OF_MEAN|10.25||0.0827|TWO_SIDED|90.0|-31.26|2.68|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||2.68|-31.26|0.0827
82386429|NCT03850483|164484060|SUPERIORITY||LS mean difference|-16.1|STANDARD_ERROR_OF_MEAN|10.26||0.0592|TWO_SIDED|90.0|-33.12|0.86|||MMRM|||Week 8: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.86|-33.12|0.0592
82443349|NCT01842581|164595055|NON_INFERIORITY|Threshold for significance=upper bound of the 2-sided 95% confidence interval (CI) for hazard ratio less than (\<) 1.56.|Hazard Ratio (HR)|1.959||||0.0359|TWO_SIDED|95.0|1.045|3.672|||Score statistics|||Hazard ratio estimate (hazard of breakthrough HE for rifaximin compared to rifaximin + lactulose) obtained from Cox proportional hazards model with effect for treatment, stratified by analysis region.||3.672|1.045|0.0359
82522750|NCT01274182|164741151|EQUIVALENCE|Ratio of geometric means and 95% confidence interval were estimated by an analysis of variance (ANOVA) on log-transformed PD parameter with treatment as the factor. Results were then back-transformed to the original scale.|Geometric mean ratio|1.033|||||TWO_SIDED|95.0|1.016|1.05|||||Rituxan arm is the numerator and MabThera arm is the denominator|To conclude equivalence the 95% CI must be entirely within the standard equivalence limits of 0.8-1.25||1.050|1.016|
82522751|NCT01274182|164741152|NON_INFERIORITY|"The non-inferiority margin is further justified by the EULAR criteria which define no response as change from baseline being \< 0.6.~LS means, standard errors and 95% CI were estimated by a repeated measures mixed model with treatment, time and treatment\*time interaction term as categorical variables and baseline DAS28 as a continuous variable.~A negative change from baseline represents an improvement in assessment of rheumatoid arthritis."|LS Mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|95.0|-0.397|0.24|||||The direction of comparison is LS mean of GP2013 - LS mean of Rituxan|To conclude non-inferiority the upper 95% CI should be less than or equal to 0.6. This margin was statistically justified by the results of the REFLEX (Randomized Evaluation of Long-Term Efficacy of Rituximab in RA) trial (Cohen et al 2006) providing a 95% CI for the mean difference between rituximab/MTX and MTX alone of (-1.74;-1.25). The margin of 0.6 was determined by retaining more than 50% of the reference treatment effect which was considered clinically acceptable.||0.240|-0.397|
82522752|NCT01274182|164741152|NON_INFERIORITY|"The non-inferiority margin is further justified by the EULAR criteria which define no response as change from baseline being \< 0.6. LS means, standard errors and 95% CI were estimated by a repeated measures mixed model with treatment, time and treatment\*time interaction term as categorical variables and baseline DAS28 as a continuous variable.~A negative change from baseline represents an improvement in assessment of rheumatoid arthritis."|LS Mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.201|||TWO_SIDED|95.0|-0.328|0.462|||||The direction of comparison is LS mean of GP2013 Part I - LS mean of MabThera|To conclude non-inferiority the upper 95% CI should be less than or equal to 0.6. This margin was statistically justified by the results of the REFLEX (Randomized Evaluation of Long-Term Efficacy of Rituximab in RA) trial (Cohen et al 2006) providing a 95% CI for the mean difference between rituximab/MTX and MTX alone of (-1.74;-1.25). The margin of 0.6 was determined by retaining more than 50% of the reference treatment effect which was considered clinically acceptable.||0.462|-0.328|
82522753|NCT01274182|164741153|NON_INFERIORITY|The predefined noninferiority margin of 0.15 for ACR20 is based on the historical placebo-controlled phase III study to evaluate the response rate benefit of adding rituximab to the conventional small molecule-based treatment of patients with RA (Cohen et al. 2006).|Response rate difference (%)|9.77|STANDARD_ERROR_OF_MEAN|6.79|||TWO_SIDED|95.0|-3.54|23.08|||||The direction of comparison is response rate of GP2013 - response rate of Rituxan|To conclude non-inferiority the lower 95% CI should be greater than -15.0%.||23.08|-3.54|
82639390|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|17.8|||<|0.0001|TWO_SIDED|95.0|13.7|23.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||23.1|13.7|<.0001
82639391|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|94.5||||0.9589|TWO_SIDED|95.0|72.0|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|72.0|0.9589
82639392|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|115.0||||0.4442|TWO_SIDED|95.0|89.3|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|89.3|0.4442
82639393|NCT05664672|164993878|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|103.0||||0.9975|TWO_SIDED|95.0|78.8|133.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||133|78.8|0.9975
82639394|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|36.5|||<|0.0001|TWO_SIDED|95.0|23.9|55.6|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||55.6|23.9|<.0001
82639395|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|39.9|||<|0.0001|TWO_SIDED|95.0|27.1|59.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||59.0|27.1|<.0001
82522754|NCT01274182|164741153|NON_INFERIORITY|The predefined noninferiority margin of 0.15 for ACR20 is based on the historical placebo-controlled phase III study to evaluate the response rate benefit of adding rituximab to the conventional small molecule-based treatment of patients with RA (Cohen et al. 2006).|Response rate difference (%)|-0.57|STANDARD_ERROR_OF_MEAN|7.23|||TWO_SIDED|95.0|-14.74|13.6|||||The direction of comparison is response rate of GP2013 Part I - response rate of MabThera|To conclude non-inferiority the lower 95% CI should be greater than -15.0%.||13.60|-14.74|
82522755|NCT02954354|164741209|SUPERIORITY||Difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-35.8|-17.8||Adjusted p-value, two-sided significance level of 0.05|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||The primary analysis of time to alleviation of symptoms was a comparison of baloxavir with placebo in all participants in the intention-to-treat infection population. Statistical tests were performed at the 0.05 significance level.||-17.8|-35.8|<0.0001
82522756|NCT02954354|164741209|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||<0.0001
82572684|NCT00158197|164855276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.01|||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
82639396|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|30.2|||<|0.0001|TWO_SIDED|95.0|20.1|45.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||45.5|20.1|<.0001
82377547|NCT00486525|164462478|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.036||0.03|TWO_SIDED|95.0|-0.15|-0.0074|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (IL-1b) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.0074|-0.15|0.03
82522757|NCT02954354|164741210|SUPERIORITY||Difference|-0.3||||0.756|TWO_SIDED|95.0|-6.6|6.6||Adjusted p-value, two-sided significance level of 0.05|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||A secondary analysis of time to alleviation of symptoms, consisting of a comparison between the 20 to 64 years of age stratum of the baloxavir group and the oseltamivir group, was conducted if statistical significance was observed in the primary analysis in order to maintain the overall Type I error.||6.6|-6.6|0.7560
82522758|NCT02954354|164741210|SUPERIORITY|||||||0.3761||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.3761
82572685|NCT00158197|164855276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||<|0.01|||||||Generalized estimating equations||Value represents the odds of submitting a methamphetamine negative urine sample in the treatment group (1 of 3) compared to the standard care group.|||||<0.01
82572686|NCT00158197|164855277|SUPERIORITY_OR_OTHER|||||||0.02||||||Yes, the a priori plan to handle post hoc multiple comparisons was to use the method of Bonferroni adjustment. Thus, the new alpha level for these comparisons was \<0.0125.|ANOVA|||||||0.02
82386430|NCT03850483|164484060|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|9.03||0.4657|TWO_SIDED|90.0|-15.72|14.16|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||14.16|-15.72|0.4657
82522759|NCT02954354|164741211|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82522760|NCT02954354|164741211|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82522761|NCT02954354|164741211|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||<0.0001
82572687|NCT00158197|164855277|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82386431|NCT03850483|164484060|SUPERIORITY||LS mean difference|3.9|STANDARD_ERROR_OF_MEAN|9.3||0.6612|TWO_SIDED|90.0|-11.52|19.26|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.26|-11.52|0.6612
82386432|NCT03850483|164484060|SUPERIORITY||LS mean difference|-8.5|STANDARD_ERROR_OF_MEAN|9.03||0.1749|TWO_SIDED|90.0|-23.42|6.48|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||6.48|-23.42|0.1749
82386433|NCT03850483|164484060|SUPERIORITY||LS mean difference|-9.3|STANDARD_ERROR_OF_MEAN|9.12||0.1548|TWO_SIDED|90.0|-24.39|5.8|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||5.80|-24.39|0.1548
82386434|NCT03850483|164484060|SUPERIORITY||LS mean difference|-21.0|STANDARD_ERROR_OF_MEAN|11.89||0.04|TWO_SIDED|90.0|-40.67|-1.28|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.28|-40.67|0.0400
82386435|NCT03850483|164484060|SUPERIORITY||LS mean difference|-22.6|STANDARD_ERROR_OF_MEAN|11.6||0.0267|TWO_SIDED|90.0|-41.82|-3.39|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-3.39|-41.82|0.0267
82386436|NCT03850483|164484060|SUPERIORITY||LS mean difference|-22.2|STANDARD_ERROR_OF_MEAN|11.63||0.0295|TWO_SIDED|90.0|-41.42|-2.89|||MMRM|||Week 10: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.89|-41.42|0.0295
82386437|NCT03850483|164484060|SUPERIORITY||LS mean difference|-9.1|STANDARD_ERROR_OF_MEAN|10.38||0.1903|TWO_SIDED|90.0|-26.3|8.05|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||8.05|-26.30|0.1903
82522762|NCT02954354|164741211|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||<0.0001
82522763|NCT02954354|164741211|SUPERIORITY|||||||0.4767||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.4767
82386438|NCT03850483|164484060|SUPERIORITY||LS mean difference|1.4|STANDARD_ERROR_OF_MEAN|10.65||0.553|TWO_SIDED|90.0|-16.21|19.06|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||19.06|-16.21|0.5530
82522764|NCT02954354|164741211|SUPERIORITY|||||||0.3353||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.3353
82522765|NCT02954354|164741212|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82572688|NCT00158197|164855277|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82572689|NCT00158197|164855277|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
82572690|NCT00158197|164855278|SUPERIORITY_OR_OTHER|||||||0.78|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.78
82572691|NCT00158197|164855278|SUPERIORITY_OR_OTHER|||||||0.68|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.68
82572692|NCT00158197|164855278|SUPERIORITY_OR_OTHER|||||||0.2|||||||Generalized estimating equations|||We used GEE to investigate change in methamphetamine abstinence (i.e., provision of a negative methamphetamine UA) during the follow-up period.||||0.20
82386439|NCT03850483|164484060|SUPERIORITY||LS mean difference|-13.8|STANDARD_ERROR_OF_MEAN|10.37||0.0933|TWO_SIDED|90.0|-30.92|3.4|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||3.40|-30.92|0.0933
82386440|NCT03850483|164484060|SUPERIORITY||LS mean difference|-19.0|STANDARD_ERROR_OF_MEAN|10.49||0.036|TWO_SIDED|90.0|-36.37|-1.65|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-1.65|-36.37|0.0360
82386441|NCT03850483|164484060|SUPERIORITY||LS mean difference|-24.5|STANDARD_ERROR_OF_MEAN|13.46||0.0354|TWO_SIDED|90.0|-46.85|-2.23|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.23|-46.85|0.0354
82443350|NCT01842581|164595056|SUPERIORITY|2-sided test at a significance level of 0.05.|Hazard Ratio (HR)|1.739||||0.0985|TWO_SIDED|95.0|0.894|3.382||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by analysis region. Hazard ratio estimate (hazard of breakthrough HE for rifaximin compared to rifaximin + lactulose) obtained from Cox proportional hazards model with effect for treatment, stratified by analysis region.||3.382|0.894|0.0985
82386442|NCT03850483|164484060|SUPERIORITY||LS mean difference|-26.1|STANDARD_ERROR_OF_MEAN|13.07||0.0239|TWO_SIDED|90.0|-47.77|-4.46|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-4.46|-47.77|0.0239
82386443|NCT03850483|164484060|SUPERIORITY||LS mean difference|-24.1|STANDARD_ERROR_OF_MEAN|13.11||0.0342|TWO_SIDED|90.0|-45.84|-2.38|||MMRM|||Week 12: MMRM analysis contains treatment, visit, and treatment by visit interaction as fixed factors; and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-2.38|-45.84|0.0342
82443351|NCT02068118|164595092|SUPERIORITY||rate ratio|0.97|||=|0.8|TWO_SIDED|95.0|0.77|1.23|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||1.23|0.77|=0.80
82386444|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.3279|TWO_SIDED|90.0|-0.91|0.52|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-0.91|0.3279
82386445|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3566|TWO_SIDED|90.0|-0.88|0.56|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.88|0.3566
82443352|NCT02068118|164595093|SUPERIORITY||rate ratio|0.82|||=|0.18|TWO_SIDED|95.0|0.62|1.1|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||1.10|0.62|=0.18
82522766|NCT02954354|164741212|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82386446|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.45||0.1165|TWO_SIDED|90.0|-1.29|0.21|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.29|0.1165
82522767|NCT02954354|164741212|SUPERIORITY|||||||0.0852||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.0852
82572693|NCT01536587|164855280|SUPERIORITY_OR_OTHER|||||||0.5062||95.0|||||paired t-Test, 2-sided|||||||0.5062
82386447|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3633|TWO_SIDED|90.0|-0.85|0.55|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.55|-0.85|0.3633
82386448|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.42||0.3766|TWO_SIDED|90.0|-0.83|0.56|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.83|0.3766
82386449|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.1179|TWO_SIDED|90.0|-1.22|0.2|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.20|-1.22|0.1179
82386450|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.44||0.8647|TWO_SIDED|90.0|-0.24|1.2|||MMRM|||Baseline: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.20|-0.24|0.8647
82443353|NCT02068118|164595094|SUPERIORITY||rate ratio|0.6|||=|0.02|TWO_SIDED|95.0|0.39|0.92|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths that occurred during hospitalization with an overnight stay were counted as two events."||0.92|0.39|=0.02
82443354|NCT02068118|164595095|SUPERIORITY||||||=|0.68|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.68
82443355|NCT02068118|164595097|SUPERIORITY||||||=|0.85|||||||Log Rank|||Time to death from any cause compared using the log-rank test||||=0.85
82443356|NCT02068118|164595098|SUPERIORITY||rate ratio|0.97|||=|0.77|TWO_SIDED|95.0|0.78|1.21|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).||1.21|0.78|=0.77
82522768|NCT02954354|164741212|SUPERIORITY|||||||0.0063||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0063
82572694|NCT02666664|164855327|SUPERIORITY||Difference in LS mean|-18.1|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-20.0|-16.1|||ANCOVA|||||-16.1|-20|<0.001
82572695|NCT02666664|164855329|SUPERIORITY||Difference in LS mean|-16.1|STANDARD_ERROR_OF_MEAN|1.07|<|0.001|TWO_SIDED|95.0|-18.2|-14.0|||ANCOVA|||||-14|-18.2|<0.001
82386451|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.3294|TWO_SIDED|90.0|-0.9|0.52|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-0.90|0.3294
82522769|NCT02954354|164741212|SUPERIORITY|||||||0.6187||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.6187
82522770|NCT02954354|164741212|SUPERIORITY|||||||0.8637||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|||Day 9||||0.8637
82572696|NCT02666664|164855330|SUPERIORITY||Difference in LS mean|-13.3|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-15.1|-11.6|||ANCOVA|||||-11.6|-15.1|<0.001
82572697|NCT02666664|164855331|SUPERIORITY||Difference in LS mean|-11.1|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-12.5|-9.8|||ANCOVA|||||-9.8|-12.5|<0.001
82639397|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|48.9||||0.0002|TWO_SIDED|95.0|31.9|75.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||75.0|31.9|0.0002
82386452|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.44||0.1231|TWO_SIDED|90.0|-1.23|0.21|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.23|0.1231
82522771|NCT02954354|164741213|SUPERIORITY|||||||0.6145||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||0.6145
82522772|NCT02954354|164741213|SUPERIORITY|||||||0.2505||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||0.2505
82572698|NCT02666664|164855332|SUPERIORITY||Difference in LS mean|-11.9|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-13.6|-10.2|||ANCOVA|||||-10.2|-13.6|<0.001
82572699|NCT02666664|164855333|SUPERIORITY||Location shift|-21.5|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-26.96|-16.0|||Wilcoxon (Mann-Whitney)|||||-16|-26.96|<0.001
82572700|NCT02666664|164855334|SUPERIORITY||Difference in LS mean|-13.6|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-15.8|-11.3|||ANCOVA|||||-11.3|-15.8|<0.001
82522773|NCT02954354|164741213|SUPERIORITY|||||||0.419||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.4190
82522774|NCT02954354|164741213|SUPERIORITY|||||||0.0095||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0095
82572701|NCT02666664|164855343|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82522775|NCT02954354|164741213|SUPERIORITY|||||||0.7393||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.7393
82522776|NCT02954354|164741213|SUPERIORITY|||||||0.0049||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.0049
82522777|NCT02954354|164741214|SUPERIORITY|||||||0.2266||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||0.2266
82522778|NCT02954354|164741214|SUPERIORITY|||||||0.1379||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||0.1379
82522779|NCT02954354|164741214|SUPERIORITY|||||||0.5479||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.5479
82522780|NCT02954354|164741214|SUPERIORITY|||||||0.0241||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0241
82522781|NCT02954354|164741214|SUPERIORITY|||||||0.0898||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.0898
82522782|NCT02954354|164741214|SUPERIORITY|||||||0.2548||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.2548
82522783|NCT02954354|164741215|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82572702|NCT02783573|164855364|SUPERIORITY||LS Mean Difference (Final Values)|2.51|STANDARD_ERROR_OF_MEAN|1.64||0.129|TWO_SIDED|95.0|-0.752|5.776|||Mixed Models Analysis|||||5.776|-0.752|0.129
82522784|NCT02954354|164741215|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82522785|NCT02954354|164741215|SUPERIORITY|||||||0.0008||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.0008
82522786|NCT02954354|164741215|SUPERIORITY|||||||0.0132||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0132
82522787|NCT02954354|164741215|SUPERIORITY|||||||0.9307||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.9307
82522788|NCT02954354|164741215|SUPERIORITY|||||||0.1677||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.1677
82522789|NCT02954354|164741216|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82522790|NCT02954354|164741216|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82522791|NCT02954354|164741216|SUPERIORITY|||||||0.801||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.8010
82572703|NCT02783573|164855364|SUPERIORITY||LS Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.76||0.903|TWO_SIDED|95.0|-3.725|3.296|||Mixed Models Analysis|||||3.296|-3.725|0.903
82522792|NCT02954354|164741216|SUPERIORITY|||||||0.9451||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.9451
82522793|NCT02954354|164741216|SUPERIORITY|||||||0.2256||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.2256
82522794|NCT02954354|164741216|SUPERIORITY|||||||0.3332||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.3332
82522795|NCT02954354|164741217|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82522796|NCT02954354|164741217|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82522797|NCT02954354|164741217|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||<0.0001
82522798|NCT02954354|164741217|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||<0.0001
82522799|NCT02954354|164741217|SUPERIORITY|||||||0.001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.0010
82522800|NCT02954354|164741217|SUPERIORITY|||||||0.0002||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.0002
82572704|NCT02783573|164855365|SUPERIORITY||LS Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|1.78||0.1|TWO_SIDED|95.0|-6.488|0.58|||Mixed Models Analysis|||||0.580|-6.488|0.100
82639398|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|74.5||||0.2938|TWO_SIDED|95.0|47.6|117.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||117|47.6|0.2938
82522801|NCT02954354|164741218|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 2||||<0.0001
82522802|NCT02954354|164741218|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 3||||<0.0001
82386453|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.0878|TWO_SIDED|90.0|-1.37|0.13|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.13|-1.37|0.0878
82386454|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.1225|TWO_SIDED|90.0|-1.2|0.21|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.21|-1.20|0.1225
82386455|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3663|TWO_SIDED|90.0|-0.85|0.56|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.56|-0.85|0.3663
82386456|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.43||0.0929|TWO_SIDED|90.0|-1.27|0.14|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.14|-1.27|0.0929
82522803|NCT02954354|164741218|SUPERIORITY|||||||0.4148||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 4||||0.4148
82522804|NCT02954354|164741218|SUPERIORITY|||||||0.0338||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 5||||0.0338
82522805|NCT02954354|164741218|SUPERIORITY|||||||0.9619||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 6||||0.9619
82572705|NCT02783573|164855365|SUPERIORITY||LS Mean Difference (Final Values)|-3.18|STANDARD_ERROR_OF_MEAN|1.86||0.092|TWO_SIDED|95.0|-6.876|0.525|||Mixed Models Analysis|||||0.525|-6.876|0.092
82639399|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|81.6||||0.5552|TWO_SIDED|95.0|53.7|124.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||124|53.7|0.5552
82386457|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.3111|TWO_SIDED|90.0|-0.95|0.51|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.51|-0.95|0.3111
82386458|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.4745|TWO_SIDED|90.0|-0.74|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.69|-0.74|0.4745
82639400|NCT05664672|164993879|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|61.7||||0.0254|TWO_SIDED|95.0|39.9|95.5|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||95.5|39.9|0.0254
82386459|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.2409|TWO_SIDED|90.0|-1.03|0.42|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.42|-1.03|0.2409
82386460|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.2018|TWO_SIDED|90.0|-1.13|0.37|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.37|-1.13|0.2018
82443357|NCT02068118|164595099|SUPERIORITY||rate ratio|0.97|||=|0.83|TWO_SIDED|95.0|0.74|1.27|||negative binomial regression|||"Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up).~Deaths from cardiovascular cause that occurred during a hospitalization for cardiovascular cause with an overnight stay were counted as two events."||1.27|0.74|=0.83
82386461|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43||0.3925|TWO_SIDED|90.0|-0.83|0.59|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.59|-0.83|0.3925
82522806|NCT02954354|164741218|SUPERIORITY|||||||0.8491||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Day 9||||0.8491
82386462|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.42||0.5348|TWO_SIDED|90.0|-0.66|0.73|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.73|-0.66|0.5348
82443358|NCT02068118|164595100|SUPERIORITY||rate ratio|0.84|||=|0.28|TWO_SIDED|95.0|0.62|1.15|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||1.15|0.62|=0.28
82522807|NCT02954354|164741219|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
82522808|NCT02954354|164741220|SUPERIORITY|||||||0.0313||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.0313
82522809|NCT02954354|164741221|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
82386463|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.43||0.0739|TWO_SIDED|90.0|-1.33|0.09|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.09|-1.33|0.0739
82386464|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.44||0.4014|TWO_SIDED|90.0|-0.84|0.62|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.62|-0.84|0.4014
82386465|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6588|TWO_SIDED|90.0|-0.56|0.93|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.93|-0.56|0.6588
82386466|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.2997|TWO_SIDED|90.0|-1.0|0.52|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.52|-1.00|0.2997
82522810|NCT02954354|164741222|SUPERIORITY|||||||0.2424||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.2424
82572706|NCT02783573|164855366|SUPERIORITY||LS Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.14||0.285|TWO_SIDED|95.0|-1.045|3.499|||Mixed Models Analysis|||||3.499|-1.045|0.285
82522811|NCT02954354|164741223|SUPERIORITY||Difference|-72.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-48.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-48.0|-72.0|<0.0001
82572707|NCT02783573|164855366|SUPERIORITY||LS Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|1.19||0.661|TWO_SIDED|95.0|-2.889|1.843|||Mixed Models Analysis|||||1.843|-2.889|0.661
82377548|NCT00486525|164462479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.2||0.058|TWO_SIDED|95.0|-8.5|0.15|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.15|-8.5|0.058
82377549|NCT00486525|164462479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|2.2||0.002|TWO_SIDED|95.0|-11.4|-2.7|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-2.7|-11.4|0.002
82377550|NCT00486525|164462479|SUPERIORITY_OR_OTHER||Slope|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.019|TWO_SIDED|95.0|-3.1|-0.28|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of MFSI-SF Fatigue for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-0.28|-3.1|0.019
82386467|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2518|TWO_SIDED|90.0|-1.08|0.46|||MMRM|||Week 4:MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.46|-1.08|0.2518
82386468|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.2634|TWO_SIDED|90.0|-1.0|0.45|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.45|-1.00|0.2634
82386469|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.1999|TWO_SIDED|90.0|-1.11|0.36|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.36|-1.11|0.1999
82386470|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.44||0.1847|TWO_SIDED|90.0|-1.13|0.33|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.33|-1.13|0.1847
82522812|NCT02954354|164741224|SUPERIORITY||Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-72.0|-24.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-24.0|-72.0|<0.0001
82522813|NCT02954354|164741225|SUPERIORITY||Difference|-24.0||||0.002|TWO_SIDED|95.0|-120.0|0.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||0.0|-120.0|0.0020
82386471|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.4569|TWO_SIDED|90.0|-0.81|0.71|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.71|-0.81|0.4569
82386472|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.45||0.8536|TWO_SIDED|90.0|-0.27|1.22|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.22|-0.27|0.8536
82386473|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.4812|TWO_SIDED|90.0|-0.79|0.74|||MMRM|||Week 6:MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.74|-0.79|0.4812
82386474|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.2276|TWO_SIDED|90.0|-1.13|0.42|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.42|-1.13|0.2276
82522814|NCT02954354|164741226|SUPERIORITY||Difference|-24.0||||0.0102|TWO_SIDED|95.0|-48.0|24.0||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||24.0|-48.0|0.0102
82522815|NCT02954354|164741227|SUPERIORITY|||||||0.5973||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.5973
82522816|NCT02954354|164741227|SUPERIORITY|||||||0.001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.0010
82572708|NCT02783573|164855367|SUPERIORITY||LS Mean Difference (Final Values)|-4.77|STANDARD_ERROR_OF_MEAN|2.69||0.079|TWO_SIDED|95.0|-10.103|0.56|||Mixed Models Analysis|||||0.56|-10.103|0.079
82522817|NCT02954354|164741227|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||<0.0001
82386475|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.0895|TWO_SIDED|90.0|-1.34|0.14|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.14|-1.34|0.0895
82522818|NCT02954354|164741227|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||<0.0001
82386476|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.47||0.0411|TWO_SIDED|90.0|-1.58|-0.04|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.04|-1.58|0.0411
82386477|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.47||0.0928|TWO_SIDED|90.0|-1.4|0.15|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.15|-1.40|0.0928
82386478|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.49||0.0799|TWO_SIDED|90.0|-1.48|0.12|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.12|-1.48|0.0799
82386479|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.46||0.7872|TWO_SIDED|90.0|-0.39|1.11|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||1.11|-0.39|0.7872
82386480|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.6294|TWO_SIDED|90.0|-0.61|0.92|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.92|-0.61|0.6294
82386481|NCT03850483|164484062|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.48||0.5174|TWO_SIDED|90.0|-0.76|0.8|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.80|-0.76|0.5174
82443359|NCT02068118|164595101|SUPERIORITY||rate ratio|0.71|||=|0.078|TWO_SIDED|95.0|0.48|1.04|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||1.04|0.48|=0.078
82443360|NCT02068118|164595102|SUPERIORITY||rate ratio|0.5|||=|0.023|TWO_SIDED|95.0|0.28|0.91|||negative binomial regression|||Number of events compared using a negative binomial regression model with log link for the expected rate of events (i.e., number of events divided by the effective duration of follow-up)||0.91|0.28|=0.023
82443361|NCT02068118|164595103|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.044|TWO_SIDED|95.0|0.62|0.99|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.99|0.62|=0.044
82443362|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|1.06|||=|0.17|TWO_SIDED|95.0|-2.48|4.61||Study group effect over time|Mixed Models Analysis|||ANCOVA Physical Functioning score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with physical functioning score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.61|-2.48|=0.17
82443363|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|1.8|||=|0.23|TWO_SIDED|95.0|-2.61|6.21||Study group effect over time|Mixed Models Analysis|||ANCOVA Role Physical score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with role physical score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||6.21|-2.61|=0.23
82443364|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|4.46|||=|0.5|TWO_SIDED|95.0|0.59|8.33||Study group effect over time|Mixed Models Analysis|||ANCOVA Bodily Pain score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with bodily pain score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||8.33|0.59|=0.50
82522819|NCT02954354|164741227|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||<0.0001
82639401|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|52.1|||<|0.0001|TWO_SIDED|95.0|40.4|67.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||67.1|40.4|<.0001
82386482|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.3136|TWO_SIDED|90.0|-0.98|0.53|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.53|-0.98|0.3136
82522820|NCT02954354|164741227|SUPERIORITY|||||||0.0115||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.0115
82386483|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.102|TWO_SIDED|90.0|-1.42|0.18|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.18|-1.42|0.1020
82386484|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.1923|TWO_SIDED|90.0|-1.2|0.37|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.37|-1.20|0.1923
82443365|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|2.52|||=|0.19|TWO_SIDED|95.0|-0.07|5.12||Study group effect over time|Mixed Models Analysis|||ANCOVA General Health score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with general health score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||5.12|-0.07|=0.19
82443366|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|2.38|||=|0.034|TWO_SIDED|95.0|-0.09|4.85||Study group effect over time|Mixed Models Analysis|||ANCOVA Vitality score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with vitality score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.85|-0.09|=0.034
82522821|NCT02954354|164741227|SUPERIORITY|||||||0.1298||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.1298
82386485|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.0997|TWO_SIDED|90.0|-1.44|0.18|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.18|-1.44|0.0997
82386486|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2497|TWO_SIDED|90.0|-1.08|0.45|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.45|-1.08|0.2497
82386487|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.2568|TWO_SIDED|90.0|-1.08|0.47|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.47|-1.08|0.2568
82386488|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.48||0.373|TWO_SIDED|90.0|-0.95|0.64|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.64|-0.95|0.3730
82386489|NCT03850483|164484062|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.46||0.0137|TWO_SIDED|90.0|-1.76|-0.26|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.26|-1.76|0.0137
82386490|NCT03850483|164484062|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.49||0.0055|TWO_SIDED|90.0|-2.06|-0.44|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.44|-2.06|0.0055
82386491|NCT03850483|164484062|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.48||0.0069|TWO_SIDED|90.0|-1.99|-0.4|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.40|-1.99|0.0069
82386492|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.1648|TWO_SIDED|90.0|-1.34|0.34|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.34|-1.34|0.1648
82522822|NCT02954354|164741227|SUPERIORITY|||||||0.117||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.1170
82522823|NCT02954354|164741227|SUPERIORITY|||||||0.0757||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.0757
82522824|NCT02954354|164741227|SUPERIORITY|||||||0.9453||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.9453
82386493|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.2931|TWO_SIDED|90.0|-1.02|0.51|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.51|-1.02|0.2931
82386494|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.47||0.3047|TWO_SIDED|90.0|-1.01|0.53|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.53|-1.01|0.3047
82386495|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.48||0.1924|TWO_SIDED|90.0|-1.22|0.38|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.38|-1.22|0.1924
82386496|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.46||0.0465|TWO_SIDED|90.0|-1.52|-0.02|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.02|-1.52|0.0465
82386497|NCT03850483|164484062|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.49||0.0048|TWO_SIDED|90.0|-2.08|-0.47|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.47|-2.08|0.0048
82522825|NCT02954354|164741227|SUPERIORITY|||||||0.8657||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.8657
82572709|NCT02783573|164855367|SUPERIORITY||LS Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|2.82||0.486|TWO_SIDED|95.0|-7.573|3.62|||Mixed Models Analysis|||||3.62|-7.573|0.486
82522826|NCT02954354|164741228|SUPERIORITY|||||||0.0458||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.0458
82522827|NCT02954354|164741228|SUPERIORITY|||||||0.7565||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.7565
82522828|NCT02954354|164741228|SUPERIORITY|||||||0.3297||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||0.3297
82522829|NCT02954354|164741228|SUPERIORITY|||||||0.4442||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||0.4442
82522830|NCT02954354|164741228|SUPERIORITY|||||||0.6029||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||0.6029
82522831|NCT02954354|164741228|SUPERIORITY|||||||0.9881||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.9881
82522832|NCT02954354|164741228|SUPERIORITY|||||||0.9257||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.9257
82522833|NCT02954354|164741228|SUPERIORITY|||||||0.5317||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.5317
82522834|NCT02954354|164741228|SUPERIORITY|||||||0.2144||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.2144
82386498|NCT03850483|164484062|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.48||0.0186|TWO_SIDED|90.0|-1.78|-0.21|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||-0.21|-1.78|0.0186
82522835|NCT02954354|164741228|SUPERIORITY|||||||0.0413||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.0413
82522836|NCT02954354|164741228|SUPERIORITY|||||||0.0409||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.0409
82522837|NCT02954354|164741229|SUPERIORITY||Difference|-19.8|||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
82522838|NCT02954354|164741230|SUPERIORITY||Difference|-0.7||||0.4194||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.4194
82522839|NCT02954354|164741231|SUPERIORITY|The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Difference|-23.1|||<|0.0001|||||||Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||<0.0001
82522840|NCT02954354|164741232|SUPERIORITY||Difference|1.3||||0.4856||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.4856
82522841|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7173|TWO_SIDED|95.0|-0.5|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||12 hours||0.7|-0.5|0.7173
82522842|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.3||0.0009|TWO_SIDED|95.0|-1.7|-0.4||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||24 hours||-0.4|-1.7|0.0009
82522843|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.4|-1.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||36 hours||-1.1|-2.4|<0.0001
82522844|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.4|-1.2||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||48 hours||-1.2|-2.4|<0.0001
82522845|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.0|-0.9||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||72 hours||-0.9|-2.0|<0.0001
82522846|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|95.0|-1.5|-0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||96 hours||-0.5|-1.5|0.0001
82522847|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1979|TWO_SIDED|95.0|-0.8|0.2||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||120 hours||0.2|-0.8|0.1979
82522848|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1079|TWO_SIDED|95.0|-0.8|0.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||144 hours||0.1|-0.8|0.1079
82522849|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5805|TWO_SIDED|95.0|-0.6|0.3||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||168 hours||0.3|-0.6|0.5805
82522850|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.8057|TWO_SIDED|95.0|-0.4|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||192 hours||0.5|-0.4|0.8057
82522851|NCT02954354|164741233|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9525|TWO_SIDED|95.0|-0.6|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||216 hours||0.6|-0.6|0.9525
82522852|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4091|TWO_SIDED|95.0|-0.3|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||12 hours||0.8|-0.3|0.4091
82522853|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3073|TWO_SIDED|95.0|-0.3|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||24 hours||0.8|-0.3|0.3073
82522854|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3465|TWO_SIDED|95.0|-0.8|0.3||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||36 hours||0.3|-0.8|0.3465
82522855|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4285|TWO_SIDED|95.0|-0.3|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||48 hours||0.7|-0.3|0.4285
82522856|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6703|TWO_SIDED|95.0|-0.4|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||72 hours||0.6|-0.4|0.6703
82522857|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7187|TWO_SIDED|95.0|-0.3|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||96 hours||0.5|-0.3|0.7187
82522858|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.135|TWO_SIDED|95.0|-0.1|0.7||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||120 hours||0.7|-0.1|0.1350
82572710|NCT02783573|164855368|SUPERIORITY||LS Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.57||0.663|TWO_SIDED|95.0|-0.89|1.391|||Mixed Models Analysis|||||1.391|-0.890|0.663
82386499|NCT03850483|164484062|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.51||0.0675|TWO_SIDED|90.0|-1.61|0.08|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Compound symmetry covariance matrix was used for model errors.||0.08|-1.61|0.0675
82443367|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|4.03|||=|0.025|TWO_SIDED|95.0|0.6|7.47||Study group effect over time|Mixed Models Analysis|||ANCOVA Social Functioning score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with social functioning score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||7.47|0.60|=0.025
82443368|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|1.01|||=|0.9|TWO_SIDED|95.0|-2.79|4.81||Study group effect over time|Mixed Models Analysis|||ANCOVA Role Emotional score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with role emotional score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.81|-2.79|=0.90
82443369|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|2.26|||=|0.19|TWO_SIDED|95.0|0.16|4.37||Study group effect over time|Mixed Models Analysis|||ANCOVA Mental Health score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with mental health score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||4.37|0.16|=0.19
82522859|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7046|TWO_SIDED|95.0|-0.3|0.5||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||144 hours||0.5|-0.3|0.7046
82522860|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2765|TWO_SIDED|95.0|-0.2|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||168 hours||0.6|-0.2|0.2765
82522861|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0274|TWO_SIDED|95.0|0.0|0.8||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||192 hours||0.8|0.0|0.0274
82522862|NCT02954354|164741234|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6001|TWO_SIDED|95.0|-0.3|0.6||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) with baseline composite symptom score baseline (≤ 11 or ≥ 12)and region (Japan/Asia, Rest of the world) as covariates.||216 hours||0.6|-0.3|0.6001
82522863|NCT02954354|164741235|SUPERIORITY||Difference|-17.5|||<|0.0001|TWO_SIDED|95.0|-21.1|-11.9||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||-11.9|-21.1|<0.0001
82386500|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.33||0.3232|TWO_SIDED|90.0|-0.69|0.39|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.39|-0.69|0.3232
82522864|NCT02954354|164741236|SUPERIORITY|||||||0.9225||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||||||0.9225
82522865|NCT02954354|164741237|SUPERIORITY|||||||0.7866||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.7866
82522866|NCT02954354|164741237|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||<0.0001
82522867|NCT02954354|164741237|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||<0.0001
82572711|NCT02783573|164855368|SUPERIORITY||LS Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.6||0.717|TWO_SIDED|95.0|-1.423|0.983|||Mixed Models Analysis|||||0.983|-1.423|0.717
82443370|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|0.9|||=|0.26|TWO_SIDED|95.0|-0.48|2.28||Study group effect over time|Mixed Models Analysis|||ANCOVA Physical Component Summary (PCS) score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with PCS score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||2.28|-0.48|=0.26
82443371|NCT02068118|164595104|SUPERIORITY||Adjusted Means Difference|1.2|||=|0.17|TWO_SIDED|95.0|0.08|2.31||Study group effect over time|Mixed Models Analysis|||ANCOVA Mental Component Summary (MCS) score: Parametric analysis of covariance mixed model on repeated measurements (Baseline, 12 and 18 months) with MCS score assessed at baseline as covariate, study group and visit as fixed factors, interaction between study group and visit, interaction between study group and score assessed at baseline and patient as random factor||2.31|0.08|=0.17
82522868|NCT02954354|164741237|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||48 hours||||<0.0001
82522869|NCT02954354|164741237|SUPERIORITY||||||<|0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||<0.0001
82522870|NCT02954354|164741237|SUPERIORITY|||||||0.7044||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||96 hours||||0.7044
82522871|NCT02954354|164741237|SUPERIORITY|||||||0.8512||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.8512
82522872|NCT02954354|164741237|SUPERIORITY|||||||0.8783||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||144 hours||||0.8783
82443372|NCT02068118|164595109|SUPERIORITY||||||=|0.03|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.03
82522873|NCT02954354|164741237|SUPERIORITY|||||||0.8291||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.8291
82522874|NCT02954354|164741237|SUPERIORITY|||||||0.8644||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.8644
82522875|NCT02954354|164741237|SUPERIORITY|||||||0.9312||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.9312
82522876|NCT02954354|164741238|SUPERIORITY|||||||0.2953||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||12 hours||||0.2953
82522877|NCT02954354|164741238|SUPERIORITY|||||||0.5414||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||24 hours||||0.5414
82572712|NCT02783573|164855370|SUPERIORITY||LS Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|2.34||0.899|TWO_SIDED|95.0|-4.297|4.889|||Mixed Models Analysis|||||4.889|-4.297|0.899
82522878|NCT02954354|164741238|SUPERIORITY|||||||0.2079||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||36 hours||||0.2079
82522879|NCT02954354|164741238|SUPERIORITY|||||||0.7771||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||48 hours||||0.7771
82443373|NCT02068118|164595110|SUPERIORITY||||||=|0.15|||||||Log Rank|||Time to first event compared using the log-rank test||||=0.15
82443374|NCT02068118|164595111|SUPERIORITY||Hazard Ratio (HR)|0.71|||=|0.02|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.95|0.53|=0.02
82443375|NCT02068118|164595112|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.043|TWO_SIDED|95.0|0.39|0.98|||Regression, Cox|||Time to first unplanned hospital readmission for heart failure compared using multivariable Cox regression model||0.98|0.39|=0.043
82522880|NCT02954354|164741238|SUPERIORITY|||||||0.0215||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||72 hours||||0.0215
82522881|NCT02954354|164741238|SUPERIORITY|||||||0.8033||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||96 hours||||0.8033
82572713|NCT02783573|164855370|SUPERIORITY||LS Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|2.16||0.164|TWO_SIDED|95.0|-7.267|1.238|||Mixed Models Analysis|||||1.238|-7.267|0.164
82572714|NCT02783573|164855371|SUPERIORITY||LS Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.82||0.126|TWO_SIDED|95.0|-2.891|0.362|||Mixed Models Analysis|||||0.362|-2.891|0.126
82572715|NCT02783573|164855371|SUPERIORITY||LS Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.86||0.862|TWO_SIDED|95.0|-1.867|1.566|||Mixed Models Analysis|||||1.566|-1.867|0.862
82522882|NCT02954354|164741238|SUPERIORITY|||||||0.4157||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||120 hours||||0.4157
82522883|NCT02954354|164741238|SUPERIORITY|||||||0.5908||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world)||144 hours||||0.5908
82443376|NCT00334282|164595113|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46||||1e-07||95.0|0.34|0.62||stratified log-rank test|Log Rank||The estimated value is the hazard ratio comparing pazopanib to placebo.|||0.62|0.34|.0000001
82443377|NCT01996592|164595144|OTHER||||||<|0.01||||||p-value was calculated|ANOVA|||"PROMIS -perceived stress scale was utilized (a validated test). Scoring ranges from 0-40, with the following ranges indicative of low, moderate, or high perceived stress:~0-13=low stress 14-26=moderate stress 27-40=high perceived stress"||||<0.01
82443378|NCT01996592|164595145|OTHER||||||<|0.01||||||p-value was calculated|ANOVA|||||||<0.01
82443379|NCT00870194|164595146|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority Margin of 0.4%||||||0.012||95.0|||||Mixed Model Repeated Measures|||||||.012
82443380|NCT00870194|164595146|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 0.4%|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.12||0.012|TWO_SIDED|95.0|0.07|0.53|||Mixed Model Repeated Measures||Standard Error of the Least Square Mean|Power calculation: 80% assuming 200 patients (100 in each arm), no true difference and 1.0% standard deviation.||0.53|0.07|.012
82443381|NCT00870194|164595147|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Fisher's Exact Test|||||||.038
82522884|NCT02954354|164741238|SUPERIORITY|||||||0.2975||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||168 hours||||0.2975
82639402|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|49.3|||<|0.0001|TWO_SIDED|95.0|39.0|62.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||62.2|39.0|<.0001
82443382|NCT00870194|164595148|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Fisher's Exact Test|||||||.027
82443383|NCT00870194|164595149|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher's Exact Test|||||||.480
82522885|NCT02954354|164741238|SUPERIORITY|||||||0.8644||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||192 hours||||0.8644
82522886|NCT02954354|164741238|SUPERIORITY|||||||0.5573||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.m|Mantel Haenszel|Mantel-Haenszel test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||216 hours||||0.5573
82377551|NCT00486525|164462479|SUPERIORITY_OR_OTHER||Slope|-2.8|STANDARD_ERROR_OF_MEAN|0.71||0.0001|TWO_SIDED|95.0|-4.2|-1.4|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of MFSI-SF fatigue for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||-1.4|-4.2|0.0001
82443384|NCT00870194|164595150|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||||||.038
82443385|NCT00870194|164595151|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Mixed Model Repeated Measures|||||||.266
82522887|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.2557|TWO_SIDED|95.0|-0.24|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||12 hours||0.06|-0.24|0.2557
82522888|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.46|-0.22||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||24 hours||-0.22|-0.46|<0.0001
82443386|NCT00870194|164595152|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Mixed Model Repeated Measures|||||||.095
82443387|NCT00870194|164595153|SUPERIORITY_OR_OTHER|||||||0.567||95.0|||||Mixed Model Repeated Measures|||||||.567
82443388|NCT00870194|164595154|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||Mixed Model Repeated Measures|||||||.207
82443389|NCT00870194|164595155|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||||||.055
82443390|NCT00870194|164595156|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||ANCOVA|||||||.269
82443391|NCT00870194|164595157|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||ANCOVA|||||||.622
82443392|NCT00870194|164595158|SUPERIORITY_OR_OTHER|||||||0.888||95.0|||||ANCOVA|||||||.888
82443393|NCT00870194|164595159|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Fisher's Exact Test|||||||.287
82443394|NCT00870194|164595160|SUPERIORITY_OR_OTHER|||||||0.498||95.0|||||Fisher's Exact Test|||||||.498
82443395|NCT00870194|164595161|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Fisher's Exact Test|||||||.247
82443396|NCT00870194|164595162|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher's Exact Test|||||||1.00
82443397|NCT00707746|164595163|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|t-test, 2 sided|||It was estimated that the standard deviation of the percent change in LDL-C was 20%. A sample size of 30 patients was planned for this study: 20 patients in the mipomersen group and 10 patients in the placebo group. A 2-sided t-test with an alpha level of 0.05 was expected to provide ≥90% power to detect a 30% difference in LDL-C percent reduction between the 2 groups (35% reduction for the mipomersen group and 5% reduction for the placebo group).||||<0.001
82386501|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.33||0.0736|TWO_SIDED|90.0|-1.03|0.07|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.03|0.0736
82386502|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.0743|TWO_SIDED|90.0|-1.07|0.07|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.07|0.0743
82386503|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.32||0.0641|TWO_SIDED|90.0|-1.03|0.04|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.04|-1.03|0.0641
82639403|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|40.8|||<|0.0001|TWO_SIDED|95.0|32.0|52.1|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||52.1|32.0|<.0001
82386504|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.3887|TWO_SIDED|90.0|-0.71|0.5|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.50|-0.71|0.3887
82386505|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.37||0.0767|TWO_SIDED|90.0|-1.15|0.08|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.08|-1.15|0.0767
82386506|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.38||0.2529|TWO_SIDED|90.0|-0.89|0.38|||MMRM|||Week 1: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.38|-0.89|0.2529
82386507|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.5304|TWO_SIDED|90.0|-0.61|0.67|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-0.61|0.5304
82386508|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.292|TWO_SIDED|90.0|-0.87|0.43|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.43|-0.87|0.2920
82386509|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41||0.2593|TWO_SIDED|90.0|-0.7|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.70|0.2593
82386510|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.38||0.431|TWO_SIDED|90.0|-0.7|0.57|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-0.70|0.4310
82386511|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.5477|TWO_SIDED|90.0|-0.59|0.69|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.69|-0.59|0.5477
82386512|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.0696|TWO_SIDED|90.0|-1.24|0.07|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.07|-1.24|0.0696
82386513|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41||0.3583|TWO_SIDED|90.0|-0.82|0.53|||MMRM|||Week 2: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-0.82|0.3583
82386514|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.47||0.6826|TWO_SIDED|90.0|-0.56|1.01|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.01|-0.56|0.6826
82386515|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.48||0.457|TWO_SIDED|90.0|-0.84|0.74|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.74|-0.84|0.4570
82386516|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.3265|TWO_SIDED|90.0|-1.03|0.59|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.59|-1.03|0.3265
82386517|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.3039|TWO_SIDED|90.0|-1.0|0.53|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.53|-1.00|0.3039
82386518|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.2086|TWO_SIDED|90.0|-1.23|0.42|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.42|-1.23|0.2086
82386519|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.2172|TWO_SIDED|90.0|-1.22|0.44|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.44|-1.22|0.2172
82522889|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.52|-0.29||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||36 hours||-0.29|-0.52|<0.0001
82386520|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.52||0.2855|TWO_SIDED|90.0|-1.16|0.57|||MMRM|||Week 4: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.57|-1.16|0.2855
82386521|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.8372|TWO_SIDED|90.0|-0.34|1.36|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.36|-0.34|0.8372
82386522|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.52||0.4792|TWO_SIDED|90.0|-0.89|0.84|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.84|-0.89|0.4792
82386523|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.3331|TWO_SIDED|90.0|-1.12|0.65|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.65|-1.12|0.3331
82639404|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|45.9|||<|0.0001|TWO_SIDED|95.0|35.7|59.2|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||59.2|35.7|<.0001
82386524|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.108|TWO_SIDED|90.0|-1.47|0.21|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.21|-1.47|0.1080
82386525|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.48||0.0455|TWO_SIDED|90.0|-1.61|-0.02|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.02|-1.61|0.0455
82386526|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.48||0.0761|TWO_SIDED|90.0|-1.49|0.1|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.10|-1.49|0.0761
82386527|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0273|TWO_SIDED|90.0|-1.8|-0.14|||MMRM|||Week 6: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.14|-1.80|0.0273
82386528|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.54||0.7214|TWO_SIDED|90.0|-0.57|1.2|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.20|-0.57|0.7214
82386529|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.55||0.6132|TWO_SIDED|90.0|-0.75|1.06|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.06|-0.75|0.6132
82522890|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.48|-0.27||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||48 hours||-0.27|-0.48|<0.0001
82572716|NCT02783573|164855372|SUPERIORITY||LS Mean Difference (Final Values)|-37.55|STANDARD_ERROR_OF_MEAN|37.49||0.343|TWO_SIDED|95.0|-122.35|47.26|||ANCOVA|||||47.26|-122.35|0.343
82386530|NCT03850483|164484064|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.5704|TWO_SIDED|90.0|-0.83|1.02|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||1.02|-0.83|0.5704
82386531|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.3449|TWO_SIDED|90.0|-1.1|0.67|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.67|-1.10|0.3449
82386532|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.58||0.0493|TWO_SIDED|90.0|-1.94|0.0|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.00|-1.94|0.0493
82386533|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.57||0.149|TWO_SIDED|90.0|-1.55|0.35|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.35|-1.55|0.1490
82386534|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.054|TWO_SIDED|90.0|-1.96|0.02|||MMRM|||Week 8: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.02|-1.96|0.0540
82386535|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.61||0.3119|TWO_SIDED|90.0|-1.32|0.71|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.71|-1.32|0.3119
82572717|NCT02783573|164855372|SUPERIORITY||LS Mean Difference (Final Values)|-40.72|STANDARD_ERROR_OF_MEAN|35.12||0.276|TWO_SIDED|95.0|-120.17|38.73|||ANCOVA|||||38.73|-120.17|0.276
82639405|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|113.0||||0.5817|TWO_SIDED|95.0|86.8|148.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||148|86.8|0.5817
82386536|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.3947|TWO_SIDED|90.0|-1.2|0.86|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.86|-1.20|0.3947
82386537|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.64||0.4205|TWO_SIDED|90.0|-1.18|0.93|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.93|-1.18|0.4205
82386538|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.0472|TWO_SIDED|90.0|-2.02|-0.02|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.02|-2.02|0.0472
82386539|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.59||0.0044|TWO_SIDED|90.0|-2.55|-0.6|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.60|-2.55|0.0044
82386540|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.0098|TWO_SIDED|90.0|-2.32|-0.41|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.41|-2.32|0.0098
82386541|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61||0.1285|TWO_SIDED|90.0|-1.71|0.32|||MMRM|||Week 10: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.32|-1.71|0.1285
82386542|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.6||0.3243|TWO_SIDED|90.0|-1.27|0.72|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.72|-1.27|0.3243
82386543|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.61||0.3795|TWO_SIDED|90.0|-1.2|0.82|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.82|-1.20|0.3795
82386544|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.62||0.307|TWO_SIDED|90.0|-1.35|0.72|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.72|-1.35|0.3070
82386545|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.59||0.1014|TWO_SIDED|90.0|-1.74|0.22|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.22|-1.74|0.1014
82386546|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.62||0.0033|TWO_SIDED|90.0|-2.75|-0.69|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.69|-2.75|0.0033
82386547|NCT03850483|164484064|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.028|TWO_SIDED|90.0|-2.18|-0.17|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||-0.17|-2.18|0.0280
82522891|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.31|-0.13||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||72 hours||-0.13|-0.31|<0.0001
82522892|NCT02954354|164741239|SUPERIORITY||LS Mean Dfference|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.4484|TWO_SIDED|95.0|-0.13|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||96 hours||0.06|-0.13|0.4484
82522893|NCT02954354|164741239|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.5963|TWO_SIDED|95.0|-0.07|0.11||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||0.11|-0.07|0.5963
82522894|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.07||0.0937|TWO_SIDED|95.0|-0.02|0.24||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||12 hours||0.24|-0.02|0.0937
82522895|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3343|TWO_SIDED|95.0|-0.05|0.16||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||24 hours||0.16|-0.05|0.3343
82522896|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9258|TWO_SIDED|95.0|-0.09|0.1||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||36 hours||0.10|-0.09|0.9258
82386548|NCT03850483|164484064|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.64||0.0781|TWO_SIDED|90.0|-1.98|0.15|||MMRM|||Week 12: MMRM analysis contained treatment, visit, and treatment by visit interaction as fixed factors, and baseline value as a covariate. Unstructured covariance matrix was used for model errors.||0.15|-1.98|0.0781
82386549|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 1||9.1|-9.4|0.4216
82386550|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 1||9.1|-9.4|0.4216
82443398|NCT00707746|164595166|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon signed rank sum|||||||<0.001
82443399|NCT00707746|164595168|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82443400|NCT00707746|164595170|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82443401|NCT00707746|164595172|SUPERIORITY_OR_OTHER|||||||0.005||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.005
82443402|NCT00707746|164595174|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
82639406|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|107.0||||0.8852|TWO_SIDED|95.0|83.7|138.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||138|83.7|0.8852
82443403|NCT00707746|164595176|SUPERIORITY_OR_OTHER|||||||0.006||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.006
82443404|NCT00707746|164595178|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
82386551|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7362|TWO_SIDED|90.0|-12.5|5.0|||Chan and Zhang method|||Week 1||5.0|-12.5|0.7362
82386552|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 1||4.7|-12.5|0.7417
82443405|NCT00707746|164595180|SUPERIORITY_OR_OTHER|||||||0.784||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.784
82443406|NCT00707746|164595182|SUPERIORITY_OR_OTHER|||||||0.079||||||Statistical significance was concluded if p ≤0.05. No further adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.079
82443407|NCT02818114|164595185|OTHER|Assessment of number of PE sessions attended, review of direction of change in PTSD Checklist scores||||||||||||||||This is a single-arm feasibility study. With N=8, formal hypothesis testing is not possible. We were assessing the extent to which veterans would be willing to engage in the intervention, and if the direction of change in symptoms is still in the expected direction when peer support services are added. Outcomes are reported more qualitatively.|As a feasibility trial, tests of statistical significance are not appropriate.|||
82443408|NCT04557787|164595210|SUPERIORITY||Mean Difference (Final Values)|28.4||||0.001|TWO_SIDED|95.0|12.2|44.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||44.6|12.2|0.001
82572718|NCT02783573|164855373|SUPERIORITY||LS Mean Difference (Final Values)|-61.94|STANDARD_ERROR_OF_MEAN|31.3||0.079|TWO_SIDED|95.0|-132.75|8.87|||ANCOVA|||||8.87|-132.75|0.079
82386553|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-5.9|8.0|||Chan and Zhang method|||Week 1||8.0|-5.9|0.5000
82386554|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.7||||0.0714|TWO_SIDED|90.0|-0.8|16.9|||Chan and Zhang method|||Week 1||16.9|-0.8|0.0714
82386555|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.3||||0.0813|TWO_SIDED|90.0|-1.1|15.7|||Chan and Zhang method|||Week 1||15.7|-1.1|0.0813
82386556|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 2||4.7|-12.5|0.7417
82386557|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.8||||0.7417|TWO_SIDED|90.0|-12.5|4.7|||Chan and Zhang method|||Week 2||4.7|-12.5|0.7417
82386558|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-9.6|9.6|||Chan and Zhang method|||Week 2||9.6|-9.6|0.5000
82386559|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.1||||0.4216|TWO_SIDED|90.0|-9.4|9.1|||Chan and Zhang method|||Week 2||9.1|-9.4|0.4216
82386560|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.0||||0.6894|TWO_SIDED|90.0|-9.4|5.9|||Chan and Zhang method|||Week 2||5.9|-9.4|0.6894
82386561|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|3.7||||0.2518|TWO_SIDED|90.0|-4.2|14.3|||Chan and Zhang method|||Week 2||14.3|-4.2|0.2518
82386562|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|8.5||||0.0565|TWO_SIDED|90.0|-0.3|20.3|||Chan and Zhang method|||Week 2||20.3|-0.3|0.0565
82386563|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4446|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.4446
82386564|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-5.6||||0.9001|TWO_SIDED|90.0|-16.5|1.9|||Chan and Zhang method|||Week 4||1.9|-16.5|0.9001
82386565|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.5000
82443409|NCT04557787|164595210|SUPERIORITY||Mean Difference (Final Values)|28.2||||0.001|TWO_SIDED|95.0|12.0|44.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||44.4|12.0|0.001
82443410|NCT04557787|164595210|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.983|TWO_SIDED|95.0|-16.0|16.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||16.3|-16.0|0.983
82443411|NCT04557787|164595211|SUPERIORITY||Mean Difference (Final Values)|33.2|||<|0.001|TWO_SIDED|95.0|17.0|49.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||49.4|17.0|<0.001
82443412|NCT04557787|164595211|SUPERIORITY||Mean Difference (Final Values)|29.7|||<|0.001|TWO_SIDED|95.0|13.5|46.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||46.0|13.5|<0.001
82443413|NCT04557787|164595211|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.667|TWO_SIDED|95.0|-12.6|19.7||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||19.7|-12.6|0.667
82443414|NCT04557787|164595212|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.503|TWO_SIDED|95.0|-14.2|7.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||7.0|-14.2|0.503
82443415|NCT04557787|164595212|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.916|TWO_SIDED|95.0|-10.1|11.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||11.2|-10.1|0.916
82572719|NCT02783573|164855373|SUPERIORITY||LS Mean Difference (Final Values)|-34.15|STANDARD_ERROR_OF_MEAN|31.27||0.303|TWO_SIDED|95.0|-104.88|36.59|||ANCOVA|||||36.59|-104.88|0.303
82377552|NCT00486525|164462480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|2.5||0.01|TWO_SIDED|95.0|1.4|11.4|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||11.4|1.4|0.01
82443416|NCT04557787|164595212|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.438|TWO_SIDED|95.0|-14.8|6.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied||6.5|-14.8|0.438
82443417|NCT04557787|164595213|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.955|TWO_SIDED|95.0|-10.3|10.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||10.9|-10.3|0.955
82572720|NCT02783573|164855374|SUPERIORITY||LS Mean Difference (Final Values)|16.32|STANDARD_ERROR_OF_MEAN|14.29||0.283|TWO_SIDED|95.0|-16.015|48.659|||ANCOVA|||||48.659|-16.015|0.283
82386566|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4446|TWO_SIDED|90.0|-11.0|11.0|||Chan and Zhang method|||Week 4||11.0|-11.0|0.4446
82386567|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.2||||0.5054|TWO_SIDED|90.0|-10.5|12.5|||Chan and Zhang method|||Week 4||12.5|-10.5|0.5054
82386568|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|3.3||||0.3401|TWO_SIDED|90.0|-8.2|16.9|||Chan and Zhang method|||Week 4||16.9|-8.2|0.3401
82386569|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|12.9||||0.0489|TWO_SIDED|90.0|0.1|27.5|||Chan and Zhang method|||Week 4||27.5|0.1|0.0489
82443418|NCT04557787|164595213|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.118|TWO_SIDED|95.0|-19.2|2.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||2.2|-19.2|0.118
82443419|NCT04557787|164595213|SUPERIORITY||Mean Difference (Final Values)|8.8||||0.104|TWO_SIDED|95.0|-1.8|19.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||19.5|-1.8|0.104
82443420|NCT04557787|164595214|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.352|TWO_SIDED|95.0|-0.22|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-0.22|0.352
82443421|NCT04557787|164595214|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.98|TWO_SIDED|95.0|-0.41|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-0.41|0.980
82443422|NCT04557787|164595214|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.339|TWO_SIDED|95.0|-0.21|0.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.60|-0.21|0.339
82522897|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6574|TWO_SIDED|95.0|-0.1|0.06||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||48 hours||0.06|-0.10|0.6574
82386570|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.9||||0.6349|TWO_SIDED|90.0|-14.8|8.4|||Chan and Zhang method|||Week 6||8.4|-14.8|0.6349
82386571|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-5.6||||0.8253|TWO_SIDED|90.0|-17.2|4.4|||Chan and Zhang method|||Week 6||4.4|-17.2|0.8253
82386572|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-12.5|12.5|||Chan and Zhang method|||Week 6||12.5|-12.5|0.5000
82386573|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.2||||0.2709|TWO_SIDED|90.0|-8.3|19.1|||Chan and Zhang method|||Week 6||19.1|-8.3|0.2709
82386574|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.2||||0.5054|TWO_SIDED|90.0|-10.5|12.5|||Chan and Zhang method|||Week 6||12.5|-10.5|0.5054
82443423|NCT04557787|164595215|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.62|0.42||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.42|-0.62|0.700
82522898|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.852|TWO_SIDED|95.0|-0.09|0.07||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||72 hours||0.07|-0.09|0.8520
82522899|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.4532|TWO_SIDED|95.0|-0.05|0.11||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||96 hours||0.11|-0.05|0.4532
82386575|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.4||||0.6319|TWO_SIDED|90.0|-12.9|9.3|||Chan and Zhang method|||Week 6||9.3|-12.9|0.6319
82386576|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.0||||0.3199|TWO_SIDED|90.0|-6.4|18.1|||Chan and Zhang method|||Week 6||18.1|-6.4|0.3199
82386577|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-5.7||||0.7306|TWO_SIDED|90.0|-19.1|6.1|||Chan and Zhang method|||Week 8||6.1|-19.1|0.7306
82386578|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-5.7||||0.7306|TWO_SIDED|90.0|-19.1|6.1|||Chan and Zhang method|||Week 8||6.1|-19.1|0.7306
82386579|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-8.3||||0.8808|TWO_SIDED|90.0|-20.6|2.7|||Chan and Zhang method|||Week 8||2.7|-20.6|0.8808
82386580|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.3||||0.4644|TWO_SIDED|90.0|-13.7|13.7|||Chan and Zhang method|||Week 8||13.7|-13.7|0.4644
82386581|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|7.8||||0.1534|TWO_SIDED|90.0|-3.4|20.9|||Chan and Zhang method|||Week 8||20.9|-3.4|0.1534
82386582|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.4||||0.4867|TWO_SIDED|90.0|-10.0|11.4|||Chan and Zhang method|||Week 8||11.4|-10.0|0.4867
82386583|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|12.3||||0.0435|TWO_SIDED|90.0|0.4|25.9|||Chan and Zhang method|||Week 8||25.9|0.4|0.0435
82443424|NCT04557787|164595215|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.227|TWO_SIDED|95.0|-0.2|0.84||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.84|-0.20|0.227
82386584|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-2.9||||0.6349|TWO_SIDED|90.0|-14.8|8.4|||Chan and Zhang method|||Week 10||8.4|-14.8|0.6349
82386585|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-0.2||||0.4565|TWO_SIDED|90.0|-12.6|12.5|||Chan and Zhang method|||Week 10||12.5|-12.6|0.4565
82386586|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.0||||0.5|TWO_SIDED|90.0|-12.5|12.5|||Chan and Zhang method|||Week 10||12.5|-12.5|0.5000
82386587|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|7.9||||0.1765|TWO_SIDED|90.0|-5.7|21.8|||Chan and Zhang method|||Week 10||21.8|-5.7|0.1765
82386588|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|0.3||||0.5013|TWO_SIDED|90.0|-14.0|15.2|||Chan and Zhang method|||Week 10||15.2|-14.0|0.5013
82522900|NCT02954354|164741240|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.157|TWO_SIDED|95.0|-0.02|0.13||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score and region (Japan/Asia, Rest of the world) and body temperature at baseline as covariates.||120 hours||0.13|-0.02|0.1570
82639407|NCT05664672|164993880|SUPERIORITY||Ratio of geometric LS means (Test/Ref)|88.9||||0.607|TWO_SIDED|95.0|68.7|115.0|||ANCOVA|Least square means (LSM) calculated from mixed model to control for variables were used for analysis instead of the observed means reported on table.|Geometric LSM calculated by transforming the natural-log LS means back to the linear scale. Ratio of geometric LSM expressed as percentage. In statistical model, group \& gender included as fixed effects; baseline value included as covariate.|||115|68.7|0.6070
82386589|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-7.8||||0.7969|TWO_SIDED|90.0|-20.7|5.9|||Chan and Zhang method|||Week 10||5.9|-20.7|0.7969
82386590|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|-3.2||||0.6424|TWO_SIDED|90.0|-16.4|10.6|||Chan and Zhang method|||Week 10||10.6|-16.4|0.6424
82386591|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|10.7||||0.062|TWO_SIDED|90.0|-0.7|23.6|||Chan and Zhang method|||Week 14||23.6|-0.7|0.0620
82572721|NCT02783573|164855374|SUPERIORITY||LS Mean Difference (Final Values)|-13.05|STANDARD_ERROR_OF_MEAN|13.21||0.349|TWO_SIDED|95.0|-42.929|16.82|||ANCOVA|||||16.820|-42.929|0.349
82386592|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|2.8||||0.3402|TWO_SIDED|90.0|-7.0|13.4|||Chan and Zhang method|||Week 14||13.4|-7.0|0.3402
82386593|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.8||||0.1743|TWO_SIDED|90.0|-4.5|17.6|||Chan and Zhang method|||Week 14||17.6|-4.5|0.1743
82386594|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|10.7||||0.062|TWO_SIDED|90.0|-0.7|23.6|||Chan and Zhang method|||Week 14||23.6|-0.7|0.0620
82386595|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|2.6||||0.3534|TWO_SIDED|90.0|-7.8|15.4|||Chan and Zhang method|||Week 14||15.4|-7.8|0.3534
82386596|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.5||||0.2508|TWO_SIDED|90.0|-5.5|18.8|||Chan and Zhang method|||Week 14||18.8|-5.5|0.2508
82386597|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|1.9||||0.4238|TWO_SIDED|90.0|-8.2|13.6|||Chan and Zhang method|||Week 14||13.6|-8.2|0.4238
82386598|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|5.9||||0.2696|TWO_SIDED|90.0|-6.2|19.3|||Chan and Zhang method|||Week 16||19.3|-6.2|0.2696
82386599|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|3.0||||0.3648|TWO_SIDED|90.0|-8.6|15.3|||Chan and Zhang method|||Week 16||15.3|-8.6|0.3648
82386600|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|8.7||||0.1267|TWO_SIDED|90.0|-3.8|22.2|||Chan and Zhang method|||Week 16||22.2|-3.8|0.1267
82386601|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|10.7||||0.0832|TWO_SIDED|90.0|-2.5|24.4|||Chan and Zhang method|||Week 16||24.4|-2.5|0.0832
82386602|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|6.5||||0.2099|TWO_SIDED|90.0|-5.7|21.3|||Chan and Zhang method|||Week 16||21.3|-5.7|0.2099
82386603|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|3.6||||0.3474|TWO_SIDED|90.0|-8.0|17.4|||Chan and Zhang method|||Week 16||17.4|-8.0|0.3474
82386604|NCT03850483|164484068|SUPERIORITY||Risk Difference (RD)|8.1||||0.2124|TWO_SIDED|90.0|-4.0|21.6|||Chan and Zhang method|||Week 16||21.6|-4.0|0.2124
82386605|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|13.7||||0.0544|TWO_SIDED|90.0|-0.3|27.9|||Chan and Zhang method|||Week 1||27.9|-0.3|0.0544
82386606|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|6.1||||0.2697|TWO_SIDED|90.0|-6.3|19.6|||Chan and Zhang method|||Week 1||19.6|-6.3|0.2697
82386607|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|16.5||||0.0286|TWO_SIDED|90.0|2.0|31.0|||Chan and Zhang method|||Week 1||31.0|2.0|0.0286
82386608|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|7.8||||0.1512|TWO_SIDED|90.0|-4.7|20.8|||Chan and Zhang method|||Week 1||20.8|-4.7|0.1512
82386609|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|-7.7||||0.79|TWO_SIDED|90.0|-21.9|7.4|||Chan and Zhang method|||Week 1||7.4|-21.9|0.7900
82386610|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|7.3||||0.3137|TWO_SIDED|90.0|-8.5|24.0|||Chan and Zhang method|||Week 1||24.0|-8.5|0.3137
82386611|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|5.0||||0.3789|TWO_SIDED|90.0|-10.9|22.6|||Chan and Zhang method|||Week 1||22.6|-10.9|0.3789
82386612|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|13.7||||0.0636|TWO_SIDED|90.0|-1.0|28.5|||Chan and Zhang method|||Week 2||28.5|-1.0|0.0636
82386613|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|9.6||||0.1435|TWO_SIDED|90.0|-4.9|24.5|||Chan and Zhang method|||Week 2||24.5|-4.9|0.1435
82386614|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|25.7||||0.0058|TWO_SIDED|90.0|8.9|42.4|||Chan and Zhang method|||Week 2||42.4|8.9|0.0058
82386615|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|22.9||||0.0112|TWO_SIDED|90.0|6.5|38.9|||Chan and Zhang method|||Week 2||38.9|6.5|0.0112
82522901|NCT02954354|164741241|SUPERIORITY||Difference|-23.1||||0.0001||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Cough||||0.0001
82572722|NCT02783573|164855375|SUPERIORITY||LS Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|2.23||0.494|TWO_SIDED|95.0|-3.457|6.64|||ANCOVA|||||6.640|-3.457|0.494
82572723|NCT02783573|164855375|SUPERIORITY||LS Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|2.04||0.323|TWO_SIDED|95.0|-6.743|2.481|||ANCOVA|||||2.481|-6.743|0.323
82386616|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|4.9||||0.3349|TWO_SIDED|90.0|-10.8|21.3|||Chan and Zhang method|||Week 2||21.3|-10.8|0.3349
82386617|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|10.6||||0.2065|TWO_SIDED|90.0|-6.1|27.7|||Chan and Zhang method|||Week 2||27.7|-6.1|0.2065
82386618|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|11.4||||0.1871|TWO_SIDED|90.0|-5.6|29.1|||Chan and Zhang method|||Week 2||29.1|-5.6|0.1871
82386619|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|13.4||||0.1245|TWO_SIDED|90.0|-4.9|31.4|||Chan and Zhang method|||Week 4||31.4|-4.9|0.1245
82386620|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|14.0||||0.128|TWO_SIDED|90.0|-4.7|33.7|||Chan and Zhang method|||Week 4||33.7|-4.7|0.1280
82443425|NCT04557787|164595215|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.112|TWO_SIDED|95.0|-0.94|0.1||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.10|-0.94|0.112
82443426|NCT04557787|164595216|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.013|TWO_SIDED|95.0|0.22|1.17||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.17|0.22|0.013
82443427|NCT04557787|164595216|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.065|TWO_SIDED|95.0|-0.05|1.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.51|-0.05|0.065
82443428|NCT04557787|164595216|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.497|TWO_SIDED|95.0|-0.51|1.04||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.04|-0.51|0.497
82443429|NCT04557787|164595217|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.027|TWO_SIDED|95.0|0.06|0.88||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.88|0.06|0.027
82522902|NCT02954354|164741241|SUPERIORITY||Difference|-9.0||||0.0298||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Sore throat||||0.0298
82443430|NCT04557787|164595217|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.005|TWO_SIDED|95.0|0.19|1.02||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.02|0.19|0.005
82386621|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|32.9||||0.003|TWO_SIDED|90.0|12.4|50.5|||Chan and Zhang method|||Week 4||50.5|12.4|0.0030
82386622|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|22.6||||0.0235|TWO_SIDED|90.0|3.1|40.6|||Chan and Zhang method|||Week 4||40.6|3.1|0.0235
82386623|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|4.9||||0.3728|TWO_SIDED|90.0|-13.6|24.1|||Chan and Zhang method|||Week 4||24.1|-13.6|0.3728
82386624|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|25.5||||0.0153|TWO_SIDED|90.0|4.0|43.6|||Chan and Zhang method|||Week 4||43.6|4.0|0.0153
82386625|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|9.4||||0.2543|TWO_SIDED|90.0|-8.8|27.8|||Chan and Zhang method|||Week 4||27.8|-8.8|0.2543
82386626|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|7.9||||0.2785|TWO_SIDED|90.0|-10.2|26.4|||Chan and Zhang method|||Week 6||26.4|-10.2|0.2785
82386627|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|13.3||||0.1434|TWO_SIDED|90.0|-7.4|33.7|||Chan and Zhang method|||Week 6||33.7|-7.4|0.1434
82386628|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|36.1||||0.0015|TWO_SIDED|90.0|12.8|54.1|||Chan and Zhang method|||Week 6||54.1|12.8|0.0015
82386629|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|24.1||||0.0242|TWO_SIDED|90.0|3.4|43.9|||Chan and Zhang method|||Week 6||43.9|3.4|0.0242
82386630|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|35.1||||0.0037|TWO_SIDED|90.0|10.0|54.1|||Chan and Zhang method|||Week 6||54.1|10.0|0.0037
82386631|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|16.6||||0.1037|TWO_SIDED|90.0|-4.9|36.7|||Chan and Zhang method|||Week 6||36.7|-4.9|0.1037
82386632|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|1.8||||0.4607|TWO_SIDED|90.0|-17.7|22.5|||Chan and Zhang method|||Week 6||22.5|-17.7|0.4607
82386633|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|12.2||||0.1725|TWO_SIDED|90.0|-8.0|31.9|||Chan and Zhang method|||Week 8||31.9|-8.0|0.1725
82386634|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|22.8||||0.0451|TWO_SIDED|90.0|0.2|43.6|||Chan and Zhang method|||Week 8||43.6|0.2|0.0451
82386635|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|44.4||||0.0003|TWO_SIDED|90.0|21.3|62.9|||Chan and Zhang method|||Week 8||62.9|21.3|0.0003
82386636|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|26.7||||0.0239|TWO_SIDED|90.0|3.8|47.6|||Chan and Zhang method|||Week 8||47.6|3.8|0.0239
82386637|NCT03850483|164484069|SUPERIORITY||Risk Difference (RD)|20.8||||0.0643|TWO_SIDED|90.0|-2.1|41.2|||Chan and Zhang method|||Week 8||41.2|-2.1|0.0643
82522903|NCT02954354|164741241|SUPERIORITY||Difference|-11.8||||0.0297||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Generalized Wilcoxon test stratified by composite symptom scores at baseline (≤ 11 or ≥ 12) and region (Japan/Asia or Rest of the world).||Headache||||0.0297
82572724|NCT02783573|164855376|SUPERIORITY||LS Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|13.76||0.873|TWO_SIDED|95.0|-26.569|31.017|||ANCOVA|||||31.017|-26.569|0.873
82386700|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.72||0.73|TWO_SIDED|95.0|-1.67|1.16||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.16|-1.67|0.73
82386701|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|1.04||0.77|TWO_SIDED|95.0|-2.34|1.74||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.74|-2.34|0.77
82386702|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|1.1||0.51|TWO_SIDED|95.0|-1.43|2.88||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||2.88|-1.43|0.51
82386703|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.02||0.05|TWO_SIDED|95.0|0.02|4.01||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||4.01|0.02|0.05
82386704|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.91|STANDARD_ERROR_OF_MEAN|1.49||0.54|TWO_SIDED|95.0|-3.84|2.02||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.02|-3.84|0.54
82386705|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|1.61||0.21|TWO_SIDED|95.0|-1.13|5.17||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||5.17|-1.13|0.21
82386706|NCT04075682|164484142|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.07|STANDARD_ERROR_OF_MEAN|1.48||0.47|TWO_SIDED|95.0|-3.97|1.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.83|-3.97|0.47
82425535|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.140
82386707|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.49||0.57|TWO_SIDED|95.0|-0.68|1.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.24|-0.68|0.57
82386708|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.25|STANDARD_ERROR_OF_MEAN|0.71||0.08|TWO_SIDED|95.0|-2.63|0.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.14|-2.63|0.08
82386709|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.39|TWO_SIDED|95.0|-1.97|0.77||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment, comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||0.77|-1.97|0.39
82425536|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.188||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.188
82647752|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.527|TWO_SIDED|95.0|-0.59|0.3||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.30|-0.59|0.527
82425537|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.239||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.239
82639837|NCT02163759|164994504|SUPERIORITY||Difference in Remission Rates|-3.6||||0.3217|TWO_SIDED|95.0|-11.07|3.78||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||3.78|-11.07|0.3217
82425538|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.297
82425539|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.383||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.383
82443449|NCT00897390|164595321|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.992|||||TWO_SIDED|90.0|0.962|1.022||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.022|0.962|
82576999|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.191||0.9681|TWO_SIDED|95.0|-0.39|0.37|||MMRM|||Depressed Mood, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.39|0.9681
82425540|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.919||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.919
82425541|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82535208|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.31||||0.003|TWO_SIDED|95.0|1.79|15.73||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (reduction\>=0.7%)||15.73|1.79|0.003
82535209|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.264|TWO_SIDED|95.0|0.63|5.49||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (reduction\>=0.7%)||5.49|0.63|0.264
82647753|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.48|-0.57||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.57|-1.48|<0.001
82386710|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|1.0||0.61|TWO_SIDED|95.0|-1.45|2.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.47|-1.45|0.61
82386711|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|1.07||0.9|TWO_SIDED|95.0|-2.23|1.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.97|-2.23|0.90
82386712|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|2.05|STANDARD_ERROR_OF_MEAN|0.98||0.04|TWO_SIDED|95.0|0.13|3.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.97|0.13|0.04
82386713|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|1.43||0.64|TWO_SIDED|95.0|-2.14|3.48||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.48|-2.14|0.64
82425542|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.537||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.537
82647754|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.16|-1.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.25|-2.16|<0.001
82647755|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.23||0.574|TWO_SIDED|95.0|-0.58|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|-0.58|0.574
82572790|NCT00267098|164855663|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.729||||0.999|TWO_SIDED|95.0|0.592|0.889||BLOCK HF is a Bayesian study;a p-value was not used. Instead, a posterior probability,representing the probability that patients with BiV pacing have lower risk of events than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time until death, a HF urgent care event or visit in which the LVESVI endpoint was met. Data beyond missed LVESVI measurements were excluded. A 95% credible interval was used instead of a 95% confidence interval.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality, a heart failure urgent care visit, or significant increase in LVESVI as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a lower rate of this composite endpoint than patients with right ventricular pacing.||0.889|0.592|0.9990
82572791|NCT00267098|164855664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.843||||0.865|TWO_SIDED|95.0|0.632|1.142||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, posterior probabilities, representing the probability that subjects with biventricular pacing have better outcomes, were calculated. A probability ≥ 0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio for death can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality as corresponding patients who receive right ventricular pacing.||1.142|0.632|0.865
82572792|NCT00267098|164855665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.781||||0.9785|TWO_SIDED|95.0|0.615|0.991||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of mortality or heart failure(HF)-related hospitalization as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of death or first HF hospitalization than patients with right ventricular pacing.||0.991|0.615|0.9785
82572793|NCT00267098|164855666|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.695||||0.9886|TWO_SIDED|95.0|0.558|0.866||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time from randomization to death or a visit in which LVESVI endpoint was met. Data beyond missed LVESVI measurements were excluded. A 95% credible interval was used instead of a 95% confidence interval.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or II who receive biventricular pacing have the same rate of mortality or significant increase in LVESVI as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a lower rate of death or significant increase in LVESVI than patients with right ventricular pacing."||0.866|0.558|0.9886
82577000|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.185||0.6337|TWO_SIDED|95.0|-0.28|0.46|||MMRM|||Depressed Mood, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.28|0.6337
82425543|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.697||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.697
82425544|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.203||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.203
82425545|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.003
82425546|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425547|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425548|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425549|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82386714|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|1.56||0.92|TWO_SIDED|95.0|-2.91|3.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.20|-2.91|0.92
82386715|NCT04075682|164484143|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-2.25|STANDARD_ERROR_OF_MEAN|1.41||0.11|TWO_SIDED|95.0|-5.02|0.52||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||0.52|-5.02|0.11
82386716|NCT04075682|164484144|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.59||0.57|TWO_SIDED|95.0|-1.48|0.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.82|-1.48|0.57
82386717|NCT04075682|164484144|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|1.14||0.39|TWO_SIDED|95.0|-3.22|1.27||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial warnings (averaged over insert) vs no pictorial warnings (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.27|-3.22|0.39
82386718|NCT04075682|164484144|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|1.63||0.92|TWO_SIDED|95.0|-3.35|3.04||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.04|-3.35|0.92
82386719|NCT04075682|164484145|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.48||0.4|TWO_SIDED|95.0|-1.33|0.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.53|-1.33|0.40
82386720|NCT04075682|164484145|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.94||0.99|TWO_SIDED|95.0|-1.83|1.86||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial health warning labels (HWLs) (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.86|-1.83|0.99
82647756|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.26|-0.36||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.36|-1.26|<0.001
82639838|NCT02163759|164994505|SUPERIORITY||Difference in Adjusted Means|1.3||||0.7919|TWO_SIDED|95.0|-8.3|10.8||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||10.8|-8.3|0.7919
82639839|NCT02163759|164994505|SUPERIORITY||Difference in Adjusted Means|-0.8||||0.8327|TWO_SIDED|95.0|-8.7|7.0||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||7.0|-8.7|0.8327
82639840|NCT02883400|164994511|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82639841|NCT00333437|164994512|SUPERIORITY_OR_OTHER||Change from Baseline|0.1786|STANDARD_DEVIATION|0.1613||0.026|TWO_SIDED|95.0|0.0294|0.3277||Not adjusted|t-test, 2 sided|||H(0): post-pre FVC (liters) = 0||0.3277|0.0294|0.026
82639842|NCT00333437|164994513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|8.1035||0.3652|TWO_SIDED|95.0|-10.49|4.4945||significant p\<0.05|t-test, 2 sided|||H(0): Post-pre neutrophil count = 0||4.4945|-10.49|0.3652
82639843|NCT00333437|164994513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.286|STANDARD_DEVIATION|16.358||0.3485|TWO_SIDED|95.0|-21.41|8.8426||significant p\<0.05|t-test, 2 sided|||H(0): post-pre eosinophil count = 0||8.8426|-21.41|0.3485
82425550|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82639844|NCT00333437|164994515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|264.26|STANDARD_DEVIATION|194.66||0.0115|TWO_SIDED|95.0|84.256|444.32||Significant p\<0.05|t-test, 2 sided|Not adjusted||H(0): post-pre walk distance = 0||444.32|84.256|0.0115
82639845|NCT00333437|164994516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8643|STANDARD_DEVIATION|1.5013||0.0167|TWO_SIDED|95.0|0.4758|3.2527||significant p\<0.05|t-test, 2 sided|||H(0): Post-pre DLCO = 0||3.2527|0.4758|0.0167
82639846|NCT00451191|164994586|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Simon's optimal two-stage design|||Simon's optimal two-stage design was applied to determine whether there was sufficient activity at either of the two dose levels to warrant further investigation. Each patient was considered either a successful or failed response. The response rate or proportion of patients treated successfully was examined in two stages. At both stages, the two dose levels were compared to pre-determined critical cut-off values. Sample size was based on significance level α=0.05 and power 90%.||||<0.05
82639847|NCT01241591|164994604|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 5 mg to etanercept was concluded if the 95% lower confidence intervals (LCIs) of the difference for PGA and Psoriasis Area and Severity Index 75 (PASI75) responses at Week 12 were greater than -15%, and CP-690,550 10 mg was superior to placebo for PGA response and PASI75 at Week 12.|Mean Difference|-19.16|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-26.55|-11.76||||||Difference from Etanercept (Active-Etanercept)||-11.76|-26.55|
82639848|NCT01241591|164994604|SUPERIORITY_OR_OTHER||Mean Difference|32.16|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|23.51|40.81||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 5 mg to placebo was concluded if the lower bounds of the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 5 mg was concluded to be non-inferior to etanercept.||40.81|23.51|
82425551|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82639849|NCT01241591|164994604|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 10 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%.|Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|3.64|||TWO_SIDED|95.0|-5.22|9.05||||||Difference from Etanercept (Active-Etanercept)||9.05|-5.22|
82639850|NCT01241591|164994604|SUPERIORITY_OR_OTHER||Mean Difference|53.23|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|44.81|61.65||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 10 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 10 mg was concluded to be non-inferior to etanercept.||61.65|44.81|
82639851|NCT01241591|164994605|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 5 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%, and CP-690,550 10 mg was superior to placebo for PGA and PASI75 response at Week 12.|Mean Difference|-19.29|STANDARD_ERROR_OF_MEAN|3.81|||TWO_SIDED|95.0|-26.75|-11.83||||||Difference from Etanercept (Active-Etanercept)||-11.83|-26.75|
82386721|NCT04075682|164484145|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.85|STANDARD_ERROR_OF_MEAN|1.34||0.17|TWO_SIDED|95.0|-0.78|4.48||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||4.48|-0.78|0.17
82386722|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.58||0.45|TWO_SIDED|95.0|-0.69|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.57|-0.69|0.45
82386723|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.58||0.41|TWO_SIDED|95.0|-1.61|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.66|-1.61|0.41
82386724|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.44|STANDARD_ERROR_OF_MEAN|0.84||0.08|TWO_SIDED|95.0|-3.08|0.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.20|-3.08|0.08
82386725|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.82||0.52|TWO_SIDED|95.0|-2.14|1.09||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.09|-2.14|0.52
82386726|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|1.11||0.75|TWO_SIDED|95.0|-1.82|2.51||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||2.51|-1.82|0.75
82425552|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425553|NCT00402987|164560338|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425554|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82535210|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.48|TWO_SIDED|95.0|0.46|5.28||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7 mmol/L)||5.28|0.46|0.480
82535211|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87||||0.011|TWO_SIDED|95.0|1.44|16.46||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7 mmol/L)||16.46|1.44|0.011
82535212|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.087|TWO_SIDED|95.0|0.85|9.96||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7 mmol/L)||9.96|0.85|0.087
82639852|NCT01241591|164994605|SUPERIORITY_OR_OTHER||Mean Difference|33.91|STANDARD_ERROR_OF_MEAN|3.49|||TWO_SIDED|95.0|27.06|40.76||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 5 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 5 mg was concluded to be non-inferior to etanercept.||40.76|27.06|
82386727|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|1.57||0.64|TWO_SIDED|95.0|-3.82|2.33||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.33|-3.82|0.64
82386728|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.18||0.91|TWO_SIDED|95.0|-2.17|2.45||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.45|-2.17|0.91
82386729|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|1.25||0.5|TWO_SIDED|95.0|-3.29|1.6||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.60|-3.29|0.50
82386730|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|3.14|STANDARD_ERROR_OF_MEAN|1.16||0.007|TWO_SIDED|95.0|0.86|5.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||5.41|0.86|0.007
82386731|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.09|STANDARD_ERROR_OF_MEAN|1.69||0.52|TWO_SIDED|95.0|-2.22|4.4||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||4.40|-2.22|0.52
82386732|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.82||0.86|TWO_SIDED|95.0|-3.89|3.23||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.23|-3.89|0.86
82386733|NCT04075682|164484146|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|1.68||0.61|TWO_SIDED|95.0|-4.15|2.43||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.43|-4.15|0.61
82386734|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.26|STANDARD_ERROR_OF_MEAN|0.28||0.29|TWO_SIDED|95.0|0.82|1.96||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.96|0.82|0.29
82425555|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82425556|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.046
82386735|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.27||0.43|TWO_SIDED|95.0|0.77|1.85||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.85|0.77|0.43
82386736|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.18|STANDARD_ERROR_OF_MEAN|0.37||0.6|TWO_SIDED|95.0|0.63|2.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||2.20|0.63|0.60
82386737|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.25|STANDARD_ERROR_OF_MEAN|0.4||0.48|TWO_SIDED|95.0|0.67|2.33||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||2.33|0.67|0.48
82386738|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.36||0.62|TWO_SIDED|95.0|0.34|1.91||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.91|0.34|0.62
82386739|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.04|STANDARD_ERROR_OF_MEAN|1.93||0.079|TWO_SIDED|95.0|0.88|10.52||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||10.52|0.88|0.079
82386740|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.95||0.1|TWO_SIDED|95.0|0.87|5.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||5.12|0.87|0.10
82425557|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.046
82523850|NCT01345630|164743398|NON_INFERIORITY_OR_EQUIVALENCE|For the analysis of the primary endpoint conducted at Week 48, the alternative hypothesis was to test for non-inferiority of MVC+DRV/r to FTC/TDF+DRV/r with a non-inferiority margin of -10%.|Mean Difference (Final Values)|-9.54|||||TWO_SIDED|95.0|-14.83|-4.24||||||The difference in the percentages between the maraviroc and the emtricitabine/tenofovir treatment arms and the 2-sided 95% confidence interval for the difference was provided using the stratum-adjusted Mantel-Haenszel (MH) method over the two assays and the screening plasma HIV-1 RNA levels (\>=100,000 copies/mL or \<100,000 copies/mL). The sample size was chosen to yield a power of ≥90%. The 95% CIs and mean difference (final values) are presented as percentages above.||-4.24|-14.83|
82577001|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.238||0.469|TWO_SIDED|95.0|-0.64|0.3|||MMRM|||Depressed Mood, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.64|0.4690
82443450|NCT00897390|164595322|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|1.077|||||TWO_SIDED|90.0|0.978|1.185||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.185|0.978|
82443451|NCT00897390|164595322|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.987|||||TWO_SIDED|90.0|0.9|1.083||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.083|0.900|
82443452|NCT00897390|164595325|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.974|||||TWO_SIDED|90.0|0.921|1.03||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.030|0.921|
82443453|NCT00897390|164595325|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.966||||||90.0|0.915|1.02||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.020|0.915|
82443454|NCT00897390|164595326|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.962||||||90.0|0.906|1.02||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.020|0.906|
82443455|NCT00897390|164595326|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.974||||||90.0|0.92|1.032||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.032|0.920|
82448789|NCT01345669|164604858|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.446||||0.0523|TWO_SIDED|95.0|0.996|2.098|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Pain HN35 (Q1-Q4 from QLQ-HN35).||2.098|0.996|0.0523
82425558|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.111
82425559|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.226
82535213|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.082|TWO_SIDED|95.0|0.87|9.78||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7 mmol/L)||9.78|0.87|0.082
82425560|NCT00402987|164560339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.537||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.537
82523851|NCT01345630|164743406|SUPERIORITY_OR_OTHER||Treatment difference|-0.075|STANDARD_ERROR_OF_MEAN|0.0303|||TWO_SIDED|95.0|-0.1343|-0.0157||||||The difference in proportions of patients with plasma HIV-1 RNA \<50 copies/mL at Week 48 between the \[MVC+DRV/r\] and the \[FTC/TDF+DRV/r\] treatment arms, with two-sided 95% confidence interval, is shown for those patients who were R5 by genotype (including all who were originally randomized to ESTA and were R5 by genotype upon retesting), via the maximum likelihood (ML) method.||-0.0157|-0.1343|
82523852|NCT01345630|164743411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.975|TWO_SIDED|95.0|-24.4|23.6|||ANCOVA|||Results were from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||23.6|-24.4|0.9750
82523853|NCT01345630|164743412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.5|||ANCOVA|||Results were from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||-1.5|-3.1|<0.0001
82523854|NCT01345630|164743413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|127.7|||<|0.0001|TWO_SIDED|95.0|76.5|178.8|||ANCOVA|||Results were from ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||178.8|76.5|<0.0001
82523855|NCT01345630|164743414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|||<|0.0001|TWO_SIDED|95.0|1.1|3.1|||ANCOVA|||Results were from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||3.1|1.1|<0.0001
82523856|NCT01345630|164743415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.07|||ANCOVA|||Results are from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: Treatment group, Screening plasma HIV RNA concentration, Screening Tropism Assay, Baseline value of the response variable.||-0.07|-0.15|<0.0001
82386741|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.38|STANDARD_ERROR_OF_MEAN|0.68||0.52|TWO_SIDED|95.0|0.52|3.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||3.61|0.52|0.52
82425561|NCT00402987|164560340|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.64||||0.01||95.0|1.3|5.5||Treatment as a factor|Regression, Logistic|||||5.5|1.3|0.010
82523857|NCT01345630|164743416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|75.861||||0.8379|TWO_SIDED|95.0|-658.181|809.903|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||809.903|-658.181|0.8379
82523858|NCT01345630|164743417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.3376|TWO_SIDED|95.0|-0.033|0.094|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.094|-0.033|0.3376
82523859|NCT01345630|164743418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014||||0.0043|TWO_SIDED|95.0|0.004|0.023|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.023|0.004|0.0043
82523860|NCT01345630|164743419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.2273|TWO_SIDED|95.0|-0.005|0.022|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.022|-0.005|0.2273
82523861|NCT01345630|164743420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.4188|TWO_SIDED|95.0|-0.007|0.018|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.018|-0.007|0.4188
82523862|NCT01345630|164743421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.1722|TWO_SIDED|95.0|-5.17|0.94|||ANCOVA|||Results are from ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, and Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||0.94|-5.17|0.1722
82523863|NCT01345630|164743422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-126.78||||0.0071|TWO_SIDED|95.0|-218.34|-35.23|||ANCOVA|||Results are from an ANCOVA model with change from Baseline as the response variable and the following fixed effect model terms: treatment group, age, race, Screening BMI, Baseline value of the response variable. Treatment differences are estimated using LS means with factor levels weighted according to overall analysis population proportions.||-35.23|-218.34|0.0071
82523864|NCT03810534|164743423|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|3.24||0.62|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.62
82386742|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.32|STANDARD_ERROR_OF_MEAN|0.59||0.54|TWO_SIDED|95.0|0.55|3.17||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.17|0.55|0.54
82386743|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.88|STANDARD_ERROR_OF_MEAN|1.21||0.33|TWO_SIDED|95.0|0.53|6.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||6.61|0.53|0.33
82386744|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.53|STANDARD_ERROR_OF_MEAN|1.08||0.55|TWO_SIDED|95.0|0.38|6.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||6.11|0.38|0.55
82386745|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.61|STANDARD_ERROR_OF_MEAN|0.39||0.44|TWO_SIDED|95.0|0.18|2.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.14|0.18|0.44
82386746|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.29|STANDARD_ERROR_OF_MEAN|0.28||0.251|TWO_SIDED|95.0|0.84|1.98||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation models for pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.98|0.84|0.2510
82386747|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.27|STANDARD_ERROR_OF_MEAN|0.28||0.2822|TWO_SIDED|95.0|0.82|1.95||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.95|0.82|0.2822
82425562|NCT00402987|164560340|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.07||||0.003||95.0|1.5|6.4||Treatment as a factor|Regression, Logistic|||||6.4|1.5|0.003
82425563|NCT00402987|164560340|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.634||95.0|0.6|2.2||Treatment as a factor|Regression, Logistic|||||2.2|0.6|0.634
82425564|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.63||||0.202||95.0|0.8|3.5||Treatment as a factor|Regression, Logistic|||||3.5|0.8|0.202
82425565|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.077||95.0|0.9|5.1||Treatment as a factor|Regression, Logistic|||||5.1|0.9|0.077
82523865|NCT03810534|164743424|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|1.44||0.31|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.31
82523866|NCT03810534|164743425|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.33||0.93|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.93
82535214|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0||||0.024|TWO_SIDED|95.0|1.2|13.27||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7 mmol/L)||13.27|1.20|0.024
82386748|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.34|STANDARD_ERROR_OF_MEAN|0.42||0.3558|TWO_SIDED|95.0|0.72|2.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for multiple imputation models for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||2.47|0.72|0.3558
82386749|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.36|STANDARD_ERROR_OF_MEAN|0.43||0.3291|TWO_SIDED|95.0|0.73|2.51||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||2.51|0.73|0.3291
82386750|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.39||0.7818|TWO_SIDED|95.0|0.38|2.09||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||2.09|0.38|0.7818
82386751|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.87|STANDARD_ERROR_OF_MEAN|1.79||0.0912|TWO_SIDED|95.0|0.84|9.73||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||9.73|0.84|0.0912
82386752|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.94|STANDARD_ERROR_OF_MEAN|0.87||0.1361|TWO_SIDED|95.0|0.81|4.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||4.66|0.81|0.1361
82386753|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.58||0.72|TWO_SIDED|95.0|0.46|3.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||3.07|0.46|0.7200
82386754|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.48|STANDARD_ERROR_OF_MEAN|0.66||0.3737|TWO_SIDED|95.0|0.62|3.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.53|0.62|0.3737
82425566|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.95||||0.134||95.0|0.8|4.7||Treatment as a factor|Regression, Logistic|||||4.7|0.8|0.134
82425567|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.84||||0.671||95.0|0.4|1.9||Treatment as a factor|Regression, Logistic|||||1.9|0.4|0.671
82425568|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||0.484||95.0|0.3|1.7||Treatment as a factor|Regression, Logistic|||||1.7|0.3|0.484
82386755|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.58|STANDARD_ERROR_OF_MEAN|1.63||0.1345|TWO_SIDED|95.0|0.75|8.9||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||8.90|0.75|0.1345
82425569|NCT00402987|164560341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.814||95.0|0.4|2.8||Treatment as a factor|Regression, Logistic|||||2.8|0.4|0.814
82425570|NCT00402987|164560342|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
82425571|NCT00402987|164560342|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
82386756|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.96|STANDARD_ERROR_OF_MEAN|1.36||0.3318|TWO_SIDED|95.0|0.5|7.67||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||7.67|0.50|0.3318
82386757|NCT04075682|164484147|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.49||0.7017|TWO_SIDED|95.0|0.23|2.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.70|0.23|0.7017
82386758|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.47|STANDARD_ERROR_OF_MEAN|0.7||0.001|TWO_SIDED|95.0|1.42|4.31||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||4.31|1.42|0.001
82386759|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.89|STANDARD_ERROR_OF_MEAN|0.54||0.025|TWO_SIDED|95.0|1.09|3.3||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||3.30|1.09|0.025
82386760|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.37|STANDARD_ERROR_OF_MEAN|0.56||0.44|TWO_SIDED|95.0|0.62|3.06||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||3.06|0.62|0.44
82386761|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.8|STANDARD_ERROR_OF_MEAN|0.73||0.15|TWO_SIDED|95.0|0.81|3.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||3.97|0.81|0.15
82386762|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.19|STANDARD_ERROR_OF_MEAN|0.67||0.76|TWO_SIDED|95.0|0.39|3.58||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||3.58|0.39|0.76
82425572|NCT00402987|164560342|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to perceptible pain relief|Log Rank|||For subjects who did not experience perceptible pain relief within 2 hours post-first dose, the time to perceptible pain relief was censored at 2 hours||||<0.05
82425573|NCT00402987|164560343|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to meaningful pain relief|Log Rank|||For subjects who did not experience meaningful pain relief within 2 hours post-first dose, the time to meaningful pain relief was censored at 2 hours.||||<0.05
82386763|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.63||0.77|TWO_SIDED|95.0|0.16|3.8||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.80|0.16|0.77
82386764|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.18|STANDARD_ERROR_OF_MEAN|1.23||0.17|TWO_SIDED|95.0|0.72|6.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||6.61|0.72|0.17
82386765|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.46|STANDARD_ERROR_OF_MEAN|0.29||0.22|TWO_SIDED|95.0|0.14|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.57|0.14|0.22
82386766|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.45|STANDARD_ERROR_OF_MEAN|1.94||0.02|TWO_SIDED|95.0|1.15|10.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||10.37|1.15|0.02
82386767|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|5.45|STANDARD_ERROR_OF_MEAN|4.4||0.04|TWO_SIDED|95.0|1.12|26.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||26.53|1.12|0.04
82523867|NCT03810534|164743426|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.34||0.6|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.60
82523868|NCT03810534|164743427|SUPERIORITY||Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|3.49||0.53|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.53
82523869|NCT03810534|164743428|SUPERIORITY||Mean Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|3.57||0.83|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.83
82386768|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.53||0.56|TWO_SIDED|95.0|0.1|3.47||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.47|0.10|0.56
82523870|NCT03810534|164743429|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|2.05||0.75|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.75
82523871|NCT03810534|164743430|SUPERIORITY||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|2.07||0.5|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.50
82523872|NCT03810534|164743431|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.5||0.48|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.48
82523873|NCT03810534|164743432|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.52||0.22|TWO_SIDED||||||Mixed Models Analysis||The final estimated mean difference is based on a linear mixed model that adjusts for time and is not equal to the difference in the unadjusted, observed means.|||||.22
82386769|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.55|STANDARD_ERROR_OF_MEAN|0.44||0.46|TWO_SIDED|95.0|0.11|2.68||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.68|0.11|0.46
82523874|NCT03810534|164743433|SUPERIORITY||Mean ratio|0.96|STANDARD_ERROR_OF_MEAN|0.25||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||.88
82523875|NCT03810534|164743434|SUPERIORITY||Mean ratio|0.72|STANDARD_ERROR_OF_MEAN|0.18||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||.23
82523876|NCT03092375|164743438|OTHER|Study is not intended to be powered|Mean Difference (Final Values)|-0.76|||||TWO_SIDED|95.0|-9.48|5.12|||||Excludes re-infection and death|The difference in the percentage of subjects with on-treatment virologic failure (Defined as increase of \>1 log10 IU/mL above nadir during treatment, or HCV RNA \>= 15 IU/mL at end of treatment with at least 6 weeks of treatment between Arms A and B are summarized with two-sided 95% Wilson score intervals.||5.12|-9.48|
82386770|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.58|STANDARD_ERROR_OF_MEAN|0.66||0.0002|TWO_SIDED|95.0|1.56|4.27||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||4.27|1.56|0.0002
82386771|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.89|STANDARD_ERROR_OF_MEAN|0.48||0.0135|TWO_SIDED|95.0|1.14|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||3.12|1.14|0.0135
82386772|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.51|STANDARD_ERROR_OF_MEAN|0.56||0.2619|TWO_SIDED|95.0|0.73|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||3.12|0.73|0.2619
82386773|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.07|STANDARD_ERROR_OF_MEAN|0.76||0.0474|TWO_SIDED|95.0|1.01|4.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||4.24|1.01|0.0474
82386774|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.13|STANDARD_ERROR_OF_MEAN|0.58||0.8094|TWO_SIDED|95.0|0.42|3.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||3.07|0.42|0.8094
82386775|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.83|STANDARD_ERROR_OF_MEAN|0.6||0.7978|TWO_SIDED|95.0|0.2|3.44||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.44|0.20|0.7978
82425574|NCT00402987|164560343|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to meaningful pain relief|Log Rank|||For subjects who did not experience meaningful pain relief within 2 hours post-first dose, the time to meaningful pain relief was censored at 2 hours||||<0.05
82425575|NCT00402987|164560344|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to onset of analgesia|Log Rank|||For subjects who did not experience onset of analgesia within 2 hours post-first dose, the time to onset of analgesia was censored at 2 hours||||<0.05
82425576|NCT00402987|164560344|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||p-value for distribution of time to onset of analgesia|Log Rank|||For subjects who did not experience onset of analgesia within 2 hours post-first dose, the time to onset of analgesia was censored at 2 hours||||<0.05
82386776|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.29|STANDARD_ERROR_OF_MEAN|1.15||0.1016|TWO_SIDED|95.0|0.85|6.15||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||6.15|0.85|0.1016
82425577|NCT00402987|164560345|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
82425578|NCT00402987|164560345|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall test of Celecoxib 100mg (pooled) versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
82443456|NCT00897390|164595327|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.937|||||TWO_SIDED|90.0|0.864|1.016||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.016|0.864|
82443457|NCT00897390|164595327|NON_INFERIORITY_OR_EQUIVALENCE|Point estimates and 90% confidence intervals were calculated for the Arm B to Arm A and Arm D to Arm C ratios of geometric means for Cmax, AUC(INF) and AUC(0-T) of saxagliptin and metformin, respectively. Potency-corrected results were also provided. Bioequivalence will be concluded if the 90% confidence intervals for the test-to-reference ratios of geometric means are entirely contained within 80% to 125% for both Cmax and AUC(INF). No adjustments were made for multiplicity.|adjusted geometric mean|0.964|||||TWO_SIDED|90.0|0.891|1.042||||||To demonstrate the bioequivalence of formulation (FDC tablet versus co-administration of separate saxagliptin tablet and metformin IR tablet) in the fasted and fed state, linear mixed model analyses were performed on log(Cmax), log\[AUC(INF)\] and log\[AUC(0-T)\] of saxagliptin and metformin, respectively. The factors in the model were sequence, period and treatment as fixed effects and subject within sequence as a random effect.||1.042|0.891|
82443458|NCT02262078|164595393|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82443459|NCT04332614|164595394|SUPERIORITY||Odds Ratio (OR)|0.8791371||||0.0248|TWO_SIDED|95.0|0.7856042|0.9838058||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9838058|0.7856042|0.0248
82443460|NCT04332614|164595394|SUPERIORITY||Odds Ratio (OR)|0.5980109|||<|0.0001|TWO_SIDED|95.0|0.5159511|0.6931219||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.6931219|0.5159511|<0.0001
82443461|NCT04332614|164595394|SUPERIORITY||Odds Ratio (OR)|0.8380003||||0.0133|TWO_SIDED|95.0|0.7285712|0.9638653||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9638653|0.7285712|0.0133
82443462|NCT04332614|164595395|SUPERIORITY||Odds Ratio (OR)|0.3700794|||<|0.0001|TWO_SIDED|95.0|0.2870513|0.4771231||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4771231|0.2870513|<0.0001
82443463|NCT04332614|164595395|SUPERIORITY||Odds Ratio (OR)|0.285144|||<|0.0001|TWO_SIDED|95.0|0.1881589|0.4321194||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4321194|0.1881589|<0.0001
82443464|NCT04332614|164595395|SUPERIORITY||Odds Ratio (OR)|0.5565905||||0.0003|TWO_SIDED|95.0|0.4059477|0.7631354||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.7631354|0.4059477|0.0003
82443465|NCT04332614|164595396|SUPERIORITY||Odds Ratio (OR)|0.72429741||||0.103|TWO_SIDED|95.0|0.49167734|1.0669736||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.0669736|0.49167734|0.103
82443466|NCT04332614|164595396|SUPERIORITY||Odds Ratio (OR)|0.63578603||||0.12|TWO_SIDED|95.0|0.35943749|1.1246013||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.1246013|0.35943749|0.120
82443467|NCT04332614|164595396|SUPERIORITY||Odds Ratio (OR)|1.06482385||||0.789|TWO_SIDED|95.0|0.67282661|1.6852036||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.6852036|0.67282661|0.789
82443468|NCT04332614|164595397|SUPERIORITY||Odds Ratio (OR)|0.8837908||||0.0286|TWO_SIDED|95.0|0.7912382|0.9871694||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.9871694|0.7912382|0.0286
82443469|NCT04332614|164595397|SUPERIORITY||Odds Ratio (OR)|0.6000149|||<|0.0001|TWO_SIDED|95.0|0.5193168|0.6932528||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.6932528|0.5193168|<0.0001
82443470|NCT04332614|164595397|SUPERIORITY||Odds Ratio (OR)|0.8225743||||0.0055|TWO_SIDED|95.0|0.7167043|0.9440832|||Regression, Logistic|||||0.9440832|0.7167043|0.0055
82443471|NCT04332614|164595398|SUPERIORITY||Odds Ratio (OR)|0.3948795|||<|0.0001|TWO_SIDED|95.0|0.310437|0.5022914||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.5022914|0.3104370|<0.0001
82443472|NCT04332614|164595398|SUPERIORITY||Odds Ratio (OR)|0.2790595|||<|0.0001|TWO_SIDED|95.0|0.1875017|0.4153254||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.4153254|0.1875017|<0.0001
82523877|NCT03092375|164743439|OTHER|The difference in the percentage of subjects with post-treatment relapse between Arms A and B are summarized with two-sided 95% Wilson score intervals.|Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-10.49|5.49||||||||5.49|-10.49|
82523878|NCT03092375|164743440|OTHER|Difference in percentage of subjects with on-treatment virologic failure between Arms C and D will be summarized with two-sided 95% Wilson score intervals|Mean Difference (Final Values)|9.52|||||TWO_SIDED|95.0|-3.03|22.08||||||||22.08|-3.03|
82523879|NCT03092375|164743441|OTHER||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-13.85|10.22||||||Excludes re-infection and death||10.22|-13.85|
82523880|NCT03092375|164743442|OTHER|Study was not powered to compare efficacy|Logistic Regression Contrast Estimate|-0.812||||0.161|TWO_SIDED|95.0|-1.947|0.323|||Chi-squared|Logistic regression contrast estimates with Wald confidence intervals and Chi-square p values|Comparison of Arm Pair A/C versus B/D overall on mITT population|||0.323|-1.947|0.161
82523881|NCT03092375|164743442|OTHER|Study is not powered to compare efficacy of 12 wks vs 16 weeks of treatment|Logistic regression contrast estimate|0.89||||0.89|TWO_SIDED|95.0|-1.239|1.076|||Chi-squared|Logistic regression contrast estimates with Wald confidence intervals and Chi-square p values|Difference in proportion of SVR12 rates for 12 vs 16 weeks on mITT Comparing Cirrhotic subjects versus non-cirrhotic subjects.|||1.076|-1.239|0.890
82523882|NCT03092375|164743442|OTHER|Study is not powered|Logistic regression contrast estimate|0.977||||0.265|TWO_SIDED|95.0|-0.74|2.694|||Chi-squared|||Comparison of 12 weeks vs 16 weeks in Genotype 1b vs non-1b||2.694|-0.740|0.265
82523883|NCT00949715|164743443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.2352|TWO_SIDED|95.0|-2.7|10.8|||t-test, 2 sided|||HO: Pacing at selective RV sites (mid-septum or apex) has no different impact on the change in LVEF after 24 months follow-up. With 12% SD and 80 subjects in groups will have 90% power to detect an absolute difference in LVEF of 6.2% at 24 months follow-up at an alpha level of 0.05.||10.8|-2.7|0.2352
82523884|NCT00949715|164743444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.7405|TWO_SIDED|95.0|-7.6|5.5|||t-test, 2 sided|||Ho: Packing at selective RV sites (mid-Septum or apex) has no different impact on LVEF change from 2 weeks to 24 months.||5.5|-7.6|0.7405
82425579|NCT00402987|164560345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.889||95.0||||Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg (pooled) that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.889
82523885|NCT00949715|164743445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.3||||0.1051|TWO_SIDED|95.0|-25.1|2.4|||t-test, 2 sided|||Ho: Pacing at selective sites (RVS or RVA) has no different impact on LV end systolic volume||2.4|-25.1|0.1051
82523886|NCT00949715|164743446|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.9||||0.9835||95.0||||Adjusting for age and gender|Wilcoxon (Mann-Whitney)|Rank Sum||Ho: The AT/AF burden in the RVS group is the same as the RVA group.||||0.9835
82523887|NCT00861614|164743447|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0127|TWO_SIDED|95.0|0.71|0.96|||Log Rank||Ipilimumab over placebo|||0.96|0.71|0.0127
82523888|NCT00861614|164743449|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.61|0.82|||||Ipilimumab over placebo|||0.82|0.61|
82523889|NCT00861614|164743451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.02|4.0|||||Ipilimumab over placebo|||4.00|0.02|
82523890|NCT01493687|164743480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82523891|NCT01493687|164743481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.13|||<|0.001|TWO_SIDED|95.0|-10.12|-6.13|||ANCOVA|||||-6.13|-10.12|<0.001
82523892|NCT01493687|164743482|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82523893|NCT05067439|164743483|OTHER||Ratio of Adjusted Geometric Means|288.81|||||TWO_SIDED|90.0|240.56|346.73||||||Omeprazole 10 mg was Reference and abrocitinib 200 mg + omeprazole 10 mg was Test. Natural log-transformed AUCinf was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||346.73|240.56|
82523894|NCT05067439|164743484|OTHER||Ratio of Adjusted Geometric Means|139.59|||||TWO_SIDED|90.0|121.98|159.74||||||Caffeine 100 mg was Reference and abrocitinib 200 mg + caffeine 100 mg was Test. Natural log-transformed AUCinfCR was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||159.74|121.98|
82523895|NCT05067439|164743485|OTHER||Ratio of Adjusted Geometric Means|110.1|||||TWO_SIDED|90.0|103.45|117.17||||||Efavirenz 50 mg was Reference and abrocitinib 200 mg + efavirenz 50 mg was Test. Natural log-transformed AUClastCR was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect and estimates of the adjusted mean differences (Test-Reference) and 90% CIs were obtained. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI.||117.17|103.45|
82523896|NCT02323646|164743499|SUPERIORITY|||||||0.0019|||||||Fisher Exact|||||||0.0019
82523897|NCT02323646|164743499|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
82523898|NCT02323646|164743500|SUPERIORITY|||||||0.0237|||||||Fisher Exact|||||||0.0237
82523899|NCT02323646|164743500|SUPERIORITY|||||||0.0272|||||||Fisher Exact|||||||0.0272
82523900|NCT02323646|164743501|SUPERIORITY|||||||0.0145|||||||Wilcoxon Rank-Sum Test.|||Percentage change in the last value on drug Course 1.||||0.0145
82523901|NCT02323646|164743501|SUPERIORITY|||||||0.0662|||||||Wilcoxon Rank-Sum Test.|||Percentage change in the last value on drug Course 1.||||0.0662
82523902|NCT02323646|164743501|SUPERIORITY|||||||0.0061|||||||Wilcoxon Rank-Sum Test|||Percentage change in the last value on drug Course 2.||||0.0061
82523903|NCT02323646|164743501|SUPERIORITY|||||||0.0296|||||||Wilcoxon Rank-Sum Test|||Percentage change in the last value on drug Course 2.||||0.0296
82523904|NCT02323646|164743502|SUPERIORITY|||||||0.2642|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.2642
82523905|NCT02323646|164743502|SUPERIORITY|||||||0.4383|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.4383
82523906|NCT02323646|164743502|SUPERIORITY|||||||0.5333|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5333
82386777|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.25||0.157|TWO_SIDED|95.0|0.15|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.36|0.15|0.1570
82572794|NCT00267098|164855667|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.9904|TWO_SIDED|95.0|0.522|0.947||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|Because BLOCK HF was a Bayesian study, a 95% credible interval was used in lieu of a 95% confidence interval. This interval reflects the set of values the Hazard Ratio can take with 95% posterior probability.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of first heart failure(HF)-related hospitalization as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of first HF hospitalization than patients with right ventricular pacing.||0.947|0.522|0.9904
82523907|NCT02323646|164743502|SUPERIORITY|||||||0.8791|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8791
82523908|NCT02323646|164743502|SUPERIORITY|||||||0.3666|||||||Wilcoxon Rank-Sum Test|||Percentage Change: Course 2, Week 24 Follow-up||||0.3666
82577002|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.232||0.9905|TWO_SIDED|95.0|-0.46|0.46|||MMRM|||Depressed Mood, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.46|0.9905
82425580|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||<0.001
82523909|NCT02323646|164743502|SUPERIORITY|||||||0.345|||||||Wilcoxon Rank-Sum Test|||Percentage Change: Course 2, Week 24 Follow-up||||0.3450
82523910|NCT02323646|164743503|SUPERIORITY|||||||0.0473|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0473
82523911|NCT02323646|164743503|SUPERIORITY|||||||0.0191|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0191
82523912|NCT02323646|164743503|SUPERIORITY|||||||0.0749|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0749
82523913|NCT02323646|164743503|SUPERIORITY|||||||0.0233|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0233
82523914|NCT02323646|164743503|SUPERIORITY|||||||0.7569|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7569
82523915|NCT02323646|164743503|SUPERIORITY|||||||0.5399|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.5399
82523916|NCT02323646|164743504|SUPERIORITY|||||||0.1683|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1683
82523917|NCT02323646|164743504|SUPERIORITY|||||||0.256|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.2560
82523918|NCT02323646|164743504|SUPERIORITY|||||||0.4997|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.4997
82523919|NCT02323646|164743504|SUPERIORITY|||||||0.1334|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.1334
82523920|NCT02323646|164743504|SUPERIORITY|||||||0.0323|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.0323
82523921|NCT02323646|164743504|SUPERIORITY|||||||0.3847|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3847
82523922|NCT02323646|164743505|SUPERIORITY|||||||0.6356|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.6356
82523923|NCT02323646|164743505|SUPERIORITY|||||||0.9539|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.9539
82523924|NCT02323646|164743505|SUPERIORITY|||||||0.5219|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5219
82386778|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|3.02|STANDARD_ERROR_OF_MEAN|1.53||0.0297|TWO_SIDED|95.0|1.11|8.18||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||8.18|1.11|0.0297
82386779|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|5.28|STANDARD_ERROR_OF_MEAN|3.81||0.0213|TWO_SIDED|95.0|1.28|21.73||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||21.73|1.28|0.0213
82386780|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.96|STANDARD_ERROR_OF_MEAN|0.78||0.9648|TWO_SIDED|95.0|0.2|4.74||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||4.74|0.20|0.9648
82386781|NCT04075682|164484148|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.72|STANDARD_ERROR_OF_MEAN|0.53||0.6512|TWO_SIDED|95.0||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||||0.6512
82386782|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.55|STANDARD_ERROR_OF_MEAN|0.66||0.41|TWO_SIDED|95.0|-0.75|1.85||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.85|-0.75|0.41
82425581|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 100mg/Placebo versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.002
82425582|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||Analysis at 12 hours Overall test of Celecoxib 100mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor).|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.015
82523925|NCT02323646|164743505|SUPERIORITY|||||||0.2678|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.2678
82523926|NCT02323646|164743505|SUPERIORITY|||||||0.3086|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3086
82523927|NCT02323646|164743505|SUPERIORITY|||||||0.3847|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.3847
82523928|NCT02323646|164743506|SUPERIORITY|||||||0.8393|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8393
82523929|NCT02323646|164743506|SUPERIORITY|||||||0.1361|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1361
82523930|NCT02323646|164743506|SUPERIORITY|||||||0.0382|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0382
82523931|NCT02323646|164743506|SUPERIORITY|||||||0.6273|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.6273
82523932|NCT02323646|164743506|SUPERIORITY|||||||0.8237|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.8237
82425583|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.411
82523933|NCT02323646|164743506|SUPERIORITY|||||||0.137|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.1370
82523934|NCT02323646|164743507|SUPERIORITY|||||||0.7949|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.7949
82523935|NCT02323646|164743507|SUPERIORITY|||||||0.1928|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1928
82523936|NCT02323646|164743507|SUPERIORITY|||||||1|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||1.0000
82523937|NCT02323646|164743507|SUPERIORITY|||||||0.392|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.3920
82523938|NCT02323646|164743507|SUPERIORITY|||||||0.541|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.5410
82523939|NCT02323646|164743507|SUPERIORITY|||||||0.4602|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.4602
82425584|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.930
82523940|NCT02323646|164743508|SUPERIORITY|||||||0.9536|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.9536
82523941|NCT02323646|164743508|SUPERIORITY|||||||0.1355|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1355
82523942|NCT02323646|164743508|SUPERIORITY|||||||0.9396|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.9396
82523943|NCT02323646|164743508|SUPERIORITY|||||||0.9102|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.9102
82523944|NCT02323646|164743508|SUPERIORITY|||||||0.6266|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.6266
82523945|NCT02323646|164743508|SUPERIORITY|||||||0.9302|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.9302
82523946|NCT02323646|164743509|SUPERIORITY|||||||0.817|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8170
82523947|NCT02323646|164743509|SUPERIORITY|||||||0.8177|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.8177
82523948|NCT02323646|164743509|SUPERIORITY|||||||0.3167|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.3167
82523949|NCT02323646|164743509|SUPERIORITY|||||||0.5503|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.5503
82523950|NCT02323646|164743509|SUPERIORITY|||||||0.6929|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.6929
82523951|NCT02323646|164743509|SUPERIORITY|||||||0.726|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7260
82523952|NCT02323646|164743510|SUPERIORITY|||||||0.3896|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.3896
82523953|NCT02323646|164743510|SUPERIORITY|||||||0.1358|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1358
82523954|NCT02323646|164743510|SUPERIORITY|||||||0.7903|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.7903
82523955|NCT02323646|164743510|SUPERIORITY|||||||0.8206|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8206
82523956|NCT02323646|164743510|SUPERIORITY|||||||0.7891|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.7891
82523957|NCT02323646|164743510|SUPERIORITY|||||||0.401|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2, Week 24 Follow-up Visit||||0.4010
82523958|NCT02323646|164743511|SUPERIORITY|||||||0.0294|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.0294
82523959|NCT02323646|164743511|SUPERIORITY|||||||0.1934|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 1||||0.1934
82523960|NCT02323646|164743511|SUPERIORITY|||||||0.0442|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.0442
82523961|NCT02323646|164743511|SUPERIORITY|||||||0.8314|||||||Wilcoxon Rank-Sum Test|||Percentage Change from BL: Course 2||||0.8314
82523962|NCT04791761|164743522|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Null hypothesis: No difference in average pain scores before medication between opioid and non-opioid groups.||||0.8
82523963|NCT04791761|164743522|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference in average pain scores after medication between opioid and non-opioid groups.||||0.7
82523964|NCT04791761|164743523|SUPERIORITY|||||||0.2|||||||Fisher Exact|||Null hypothesis: There will be no difference in the proportion of patients visiting the emergency department or urgent care post-operatively between opioid and non-opioid groups.||||0.2
82523965|NCT00180479|164743548|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculation for endpoint of in-segment LL at 240 days is based on these assumptions: one-tailed non-inferiority= (δ)=0.025, Power=99%, Randomization ratio 2:1, True mean in-seg. LL is assumed to be 0.24 mm in both arms.|||||<|0.0001|||||||t-test, 1 sided|||Primary endpoint analyzed for intent-to-treat \& per-treatment evaluable pop. Hypothesis test based on per-subject analysis of intent-to-treat pop. using analysis lesion. The null hypothesis evaluated using non-inferiority test with asymptotic test statistic.||||<0.0001
82523966|NCT00180479|164743549|NON_INFERIORITY_OR_EQUIVALENCE|Study had 89% statistical power based on major secondary endpoint to prove non-inferiority of XIENCE® V to TAXUS®, non-inferiority delta=5.5%, true TVF rate 9.4% in both arms with overall 5% alpha (one-sided), assuming 1% subject dropout rate.|||||<|0.0001|||||||t-test, 1 sided|||Null hypothesis was evaluated using a non-inferiority Z statistic. Non-inferiority was defined as a one-sided alpha of 0.05 and a difference in TVF rate of no more than 5.5%.||||<0.0001
82535215|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.85||||0.012|TWO_SIDED|95.0|1.41|16.66||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7 mmol/L)||16.66|1.41|0.012
82535216|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.27|TWO_SIDED|95.0|0.62|5.54||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7.8 mmol/L)||5.54|0.62|0.270
82639853|NCT01241591|164994605|NON_INFERIORITY_OR_EQUIVALENCE|The a priori threshold for non-inferiority was -15% and a step-down approach was used to adjust for multiple comparisons. Non-inferiority of CP-690,550 10 mg to etanercept was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than -15%.|Mean Difference|4.83|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-2.57|12.23||||||Difference from Etanercept (Active-Etanercept)||12.23|-2.57|
82639854|NCT01241591|164994605|SUPERIORITY_OR_OTHER||Mean Difference|58.03|STANDARD_ERROR_OF_MEAN|3.46|||TWO_SIDED|95.0|51.25|64.81||||||Difference from Placebo (Active-Placebo); the a priori threshold for superiority was 0 and a step-down approach was used to adjust for multiple comparisons. Superiority of CP-690,550 10 mg to placebo was concluded if the 95% LCIs of the difference for PGA and PASI75 responses at Week 12 were greater than 0, and non-inferiority of CP-690,550 10 mg was concluded to be non-inferior to etanercept.||64.81|51.25|
82639855|NCT01945034|164994650|SUPERIORITY_OR_OTHER||LS Mean Difference|23.0||||0.19|TWO_SIDED|95.0|-11.49|57.56||p-value \<=0.05 for treatment effects|ANOVA|||The analysis of variance (ANOVA) model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||57.56|-11.49|0.190
82639856|NCT01945034|164994650|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.633|TWO_SIDED|95.0|-24.2|39.7||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||39.70|-24.20|0.633
82639857|NCT01945034|164994650|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3||||0.436|TWO_SIDED|95.0|-53.87|23.3||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity on weight bearing terms.||23.30|-53.87|0.436
82639858|NCT01945034|164994651|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|4.8||||0.426|TWO_SIDED|95.0|-6.98|16.49||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating (BLPSR), pooled site blocks, and baseline pain intensity on weight bearing (BLPIWB) terms. 95% CI not includes 0 for treatment effect. Upper limit of 95% CI\< 0 for Ibuprofen treatment significantly better than combined Placebo. Comparison: tested at the 0.05 level of significance (2-sided). A comparison was eligible for being declared significant only if preceding comparison was significant.||16.49|-6.98|0.426
82443473|NCT04332614|164595398|SUPERIORITY||Odds Ratio (OR)|0.6097538||||0.0011|TWO_SIDED|95.0|0.4528751|0.8209762||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||0.8209762|0.4528751|0.0011
82639859|NCT01945034|164994651|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.85|TWO_SIDED|95.0|-11.9|9.82||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, BLPSR, pooled site blocks, and BLPIWB terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo. Comparison: tested at the 0.05 level of significance (2-sided). A comparison was eligible for being declared significant only if preceding comparison was significant.||9.82|-11.90|0.850
82639860|NCT01945034|164994651|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8||||0.385|TWO_SIDED|95.0|-18.91|7.32||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, BLPSR, pooled site blocks, and BLPIWB terms. A comparison was eligible for being declared significant only if preceding comparison was significant.||7.32|-18.91|0.385
82523967|NCT02459262|164743604|OTHER|ANOVA repeated measures: In-transformed antibody concentrations as dependent variable; dose level, time, presence of adjuvant and dose\*time interaction as fixed effects; subjects as random effects||||||0.0193||||||Adjuvant effect at Day 85, the primary immunological endpoint|ANOVA|Adjuvant effect, with higher antibody concentration values after all dose levels of vaccine was significant at all time points (D29, D43, D57, Day 85)||The objectives for Part A were to evaluate the effect of adjuvant and to inform the selection of dose levels for Part B. The study was not powered for inter-group comparisons.||||0.0193
82523968|NCT02459262|164743605|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82523969|NCT02459262|164743606|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82523970|NCT00834106|164743608|SUPERIORITY_OR_OTHER||Vaccine efficacy|76.0|||||TWO_SIDED|95.0|43.7|91.1|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||91.1|43.7|
82523971|NCT00834106|164743609|SUPERIORITY_OR_OTHER||Vaccine efficacy|82.3|||||TWO_SIDED|95.0|38.3|96.7|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||96.7|38.3|
82386783|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.67|STANDARD_ERROR_OF_MEAN|0.96||0.08|TWO_SIDED|95.0|-3.55|0.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.21|-3.55|0.08
82523972|NCT00834106|164743610|SUPERIORITY_OR_OTHER||Vaccine efficacy|100.0||||0.0072|TWO_SIDED|95.0|32.3|100.0|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\]. The pre-specified success criterion was that the lower bound of the 95% confidence interval for vaccine efficacy excludes 0%.|||100|32.3|0.0072
82523973|NCT00834106|164743616|SUPERIORITY_OR_OTHER||Vaccine efficacy|91.8|||||TWO_SIDED|95.0|79.8|97.4|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\].|||97.4|79.8|
82523974|NCT00834106|164743617|SUPERIORITY_OR_OTHER||Vaccine efficacy|93.2|||||TWO_SIDED|95.0|72.9|99.2|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V501 / incidence rate with placebo)\].|||99.2|72.9|
82523975|NCT00715429|164743659|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27||||||Daily cramp rate at baseline\& on treatment, were calculated as % of each subjects total # of cramps, for comparison among subjects. Change in % cramp rates from baseline to treatment was computed for each subject in vit D and placebo groups.|t-test, 2 sided|T test was used to compare the change in % cramp rate from baseline to treatment for each subject in each treatment group.||||||0.27
82523976|NCT01895972|164743707|OTHER||||||<|0.001||||||The reduction from baseline in IOP was significant at all post-baseline assessment time points through Week 52.|t-test, 2 sided|||comparison vs. baseline||||<0.001
82523977|NCT00386022|164743720|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the LH response to GnRH as a function of dose in young or old postmenopausal women|||||<|0.001||||||LH % change with dose|Repeated measures ANCOVA|||||||<0.001
82523978|NCT00386022|164743720|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the LH response to GnRH between younger and older postmenopausal women|||||<|0.03||||||LH % change with age|Repeated measures ANCOVA|||null hypothesis: there will be no difference in the LH and FSH responses to graded doses of GnRH between younger and older postmenopausal women||||<0.03
82523979|NCT00386022|164743720|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the FSH response to GnRH as a function of dose in younger or older postmenopausal women|||||<|0.001||||||FSH % change with dose|Repeated measures ANCOVA|||||||<0.001
82523980|NCT00386022|164743720|EQUIVALENCE|null hypothesis will be accepted if there is no difference in the FSH response to GnRH between young and old postmenopausal women|||||<|0.005||||||FSH % change with age|Repeated measures ANCOVA|||||||<0.005
82523981|NCT00386022|164743721|EQUIVALENCE|null hypothesis will be accepted if there is no effect of estrogen on the LH response to GnRH in younger and older postmenopausal women|||||<|0.01||||||LH amplitude response with estrogen|Repeated measured ANCOVA|||||||<0.01
82523982|NCT00386022|164743721|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of estrogen on the FSH response to GnRH in younger and older postmenopausal women|||||<|0.0001||||||FSH amplitude response with estrogen|Repeated measures ANCOVA|||||||<0.0001
82523983|NCT00386022|164743721|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of age on the effect of estrogen on the FSH response to GnRH|||||<|0.02||||||FSH amplitude response to estrogen with age|Repeated measures ANCOVA|||||||<0.02
82523984|NCT00386022|164743721|EQUIVALENCE|The null hypothesis will be accepted if there is no effect of age on the effect of estrogen on the LH response to GnRH|||||=|0.4||||||LH amplitude response to estrogen with age|Repeated measures ANCOVA|||||||=0.4
82523985|NCT03371082|164743722|EQUIVALENCE|The limits of the lower and upper equivalence margin were -11.3 and 11.3, respectively.|Risk Difference (RD)|0.6|STANDARD_ERROR_OF_MEAN|3.63|||TWO_SIDED|90.0|-5.4|6.5|||||The asymptotic standard error was planned and is reported above.|This is a two-arm study.||6.5|-5.4|
82523986|NCT03933826|164743752|SUPERIORITY||Average treatment estimate (ATE)|0.9|||<|0.05|TWO_SIDED|95.0|-0.6|2.4||We tested the hypothesis that the average treatment effect (ATE) is different from zero. This was the only hypothesis test in our primary manuscript, and so no adjustment for multiple comparisons is necessary.|TMLE|TMLE stands for targeted maximum likelihood estimation|The causal mean difference in outcomes if all patients had been treated with radical cystectomy versus with bladder-sparing therapy. A positive value indicates greater physical functioning associated with radical cystectomy.|||2.4|-0.6|<0.05
82523987|NCT03933826|164743755|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|1.2|||||TWO_SIDED|95.0|-0.5|2.9|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater urinary health associated with radical cystectomy.|||2.9|-0.5|
82523988|NCT03933826|164743758|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of average treatment effect (ATE).|TMLE|-11.9|||||TWO_SIDED|95.0|-14.7|-9.0|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater sexual health associated with radical cystectomy.|||-9.0|-14.7|
82523989|NCT03933826|164743761|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-1.4|||||TWO_SIDED|95.0|-2.5|-0.3|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates worse bowel health associated with radical cystectomy.|||-0.3|-2.5|
82523990|NCT03933826|164743764|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|1.4|||||TWO_SIDED|95.0|0.2|2.6|||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater financial health associated with radical cystectomy.|||2.6|0.2|
82523991|NCT03933826|164743767|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-2.4|||||TWO_SIDED|95.0|-3.1|-1.6|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates lower anxiety associated with radical cystectomy.|-1.6|-3.1|
82523992|NCT03933826|164743770|SUPERIORITY|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|-1.0|||||TWO_SIDED|95.0|-1.8|-0.3|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A negative value indicates less depression associated with radical cystectomy.|-0.3|-1.8|
82523993|NCT03933826|164743773|OTHER|We did not conduct a hypothesis test for this outcome. We presented an estimate of the average treatment effect (ATE).|TMLE|0.03|||||TWO_SIDED|95.0|0.01|0.04|||||||The ATE is interpreted as the causal mean difference in outcomes if all patients had been treated with RC versus having been treated with BST. A positive value indicates greater quality of life associated with radical cystectomy.|0.04|0.01|
82523994|NCT03933826|164743776|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.33|1.59|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \> 1 implies that participants who choose RC have a greater chance of surviving without recurrence than those who choose BST.|||1.59|1.33|
82523995|NCT03933826|164743779|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.94|1.03|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving without metastasis than those who choose BST.|||1.03|0.94|
82577003|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.3984|TWO_SIDED|95.0|-0.68|0.27|||MMRM|||Depressed Mood, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.68|0.3984
82639861|NCT01945034|164994652|SUPERIORITY_OR_OTHER||LS Mean Difference|10.0||||0.072|TWO_SIDED|95.0|-0.92|20.91||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||20.91|-0.92|0.072
82443474|NCT04332614|164595399|SUPERIORITY||Odds Ratio (OR)|1.0049587||||0.976|TWO_SIDED|95.0|0.72693253|1.3893201||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.3893201|0.72693253|0.976
82523996|NCT03933826|164743782|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.73|0.88|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving without cancer progression than those who choose BST.|||0.88|0.73|
82523997|NCT03933826|164743785|OTHER|We did not conduct a hypothesis test for this outcome.|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.96|1.01|||||Inverse probability weighted risk ratios calculated using quasi-Poisson regression. A weighted risk ratio \< 1 implies that participants who choose RC have a lower chance of surviving cancer than those who choose BST.|||1.01|0.96|
82426845|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8553|TWO_SIDED|95.0|0.6|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.6|0.8553
82426846|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56||||0.0003|TWO_SIDED|95.0|1.5|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||8.7|1.5|0.0003
82426847|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|1.6|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.6|1.6|<0.0001
82523998|NCT03933826|164743788|SUPERIORITY|Inverse probability weighted risk ratios calculated using quasi-Poisson regression|Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.38|2.08|||||A weighted risk ratio \< 1 implies that participants who choose radical cystectomy have a lower chance of surviving than those who choose bladder-sparing therapy.|||2.08|0.38|
82523999|NCT04506775|164743791|NON_INFERIORITY|As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \<5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively.|Mean Error|0.9|||||TWO_SIDED|||||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \<5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively.||||||||
82524000|NCT04506775|164743792|NON_INFERIORITY|As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|Mean Error|0.19|||||TWO_SIDED|||||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively||As per the FDA standard ANSI/AAMI SP10:2008 or the newly adopted ISO 81060-3:2022 standard, the mean error should be \< 5mmHg or \<6mmHg and the standard deviation should be \<8mmHg or \<10mmHg respectively|||
82524001|NCT01648348|164743798|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.57|TWO_SIDED|95.0|0.73|1.77|||Log Rank|||||1.77|0.73|0.57
82524002|NCT01648348|164743799|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82524003|NCT01648348|164743800|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.82|TWO_SIDED|95.0|0.66|1.69|||Log Rank|||||1.69|0.66|0.82
82524004|NCT01648348|164743802|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
82524005|NCT01648348|164743803|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Future uncertainty symptom scale/item t-test, 2-sided, unpooled.||||0.55
82425585|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.438||95.0||||"Analysis at 12 hours~Overall test of Celecoxib 100mg/Placebo versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.438
82524006|NCT01648348|164743803|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Visual disorder symptom scale/item t-test, 2-sided, unpooled.||||0.16
82524007|NCT01648348|164743803|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Motor dysfunction symptom scale/item t-test, 2-sided, unpooled.||||0.99
82524008|NCT01648348|164743803|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Communication deficit symptom scale/item t-test, 2-sided, unpooled.||||0.75
82524009|NCT01648348|164743803|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Headaches symptom scale/item t-test, 2-sided, unpooled.||||0.17
82524010|NCT01648348|164743803|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Seizures symptom scale/item t-test, 2-sided, unpooled.||||0.90
82524011|NCT01648348|164743803|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Drowsiness symptom scale/item t-test, 2-sided, unpooled.||||0.82
82524012|NCT01648348|164743803|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Itchy skin symptom scale/item t-test, 2-sided, unpooled.||||0.15
82425586|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.002
82524013|NCT01648348|164743803|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Hair loss symptom scale/item t-test, 2-sided, unpooled.||||0.77
82524014|NCT01648348|164743803|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Weakness of legs symptom scale/item t-test, 2-sided, unpooled.||||0.10
82524015|NCT01648348|164743803|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||Bladder control symptom scale/item t-test, 2-sided, unpooled.||||0.65
82524016|NCT01648348|164743804|SUPERIORITY|||||||0.83|||||||proportion test|||||||0.83
82524017|NCT03063294|164743808|SUPERIORITY||Difference in Difference|0.02|||||TWO_SIDED|95.0|-0.47|0.5|||||"The difference in difference equals the follow-up minus baseline change in Hassles scale results for the toolkit plus coaching clinics, minus the follow-up minus baseline change in the Hassles scale results for the toolkit only clinics."|"Zero-inflated negative binomial regression was used to obtain predicted mean Hassles scale scores for the toolkit only clinics and toolkit plus coaching clinics at baseline and follow-up, adjusting for study design and characteristics of survey respondents. The difference-in-difference was then computed as described below, under method of estimation. Bootstrap resampling was used to calculate the 95% confidence intervals around the predicted means and the difference-in-difference."||0.50|-0.47|
82524018|NCT01338025|164743838|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||||||0.03
82524019|NCT03017079|164743843|NON_INFERIORITY|a:0.05;β：0.01 P=.046||||||0.05|||||||t-test, 2 sided|||P=.046||||0.05
82524020|NCT03017079|164743844|NON_INFERIORITY|a 0.05|Odds Ratio (OR)|0.05||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82524021|NCT03017079|164743845|SUPERIORITY|||||||0.05|||||||Chi-squared, Corrected|||||||0.05
82524022|NCT03017079|164743847|NON_INFERIORITY|According to the rule of a=0.05, P\<0.05 means that the hypothesis was true|||||<|0.05|||||||Chi-squared, Corrected|||||||<0.05
82524023|NCT01984697|164743865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the Geometric Mean Titer (GMT) ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.15|||<|0.001|TWO_SIDED|95.0|1.83|2.53|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.53|1.83|<0.001
82524024|NCT01984697|164743865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.02|||<|0.001|TWO_SIDED|95.0|1.73|2.36|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.36|1.73|<0.001
82524025|NCT01984697|164743865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.47|||<|0.001|TWO_SIDED|95.0|2.93|4.11|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.11|2.93|<0.001
82386784|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.95||0.55|TWO_SIDED|95.0|-2.42|1.29||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.29|-2.42|0.55
82386785|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|1.36||0.38|TWO_SIDED|95.0|-1.47|3.86||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||3.86|-1.47|0.38
82386786|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|1.44||0.71|TWO_SIDED|95.0|-3.35|2.28||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||2.28|-3.35|0.71
82386787|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|3.21|STANDARD_ERROR_OF_MEAN|1.34||0.02|TWO_SIDED|95.0|0.59|5.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||5.83|0.59|0.02
82386788|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|1.94||0.98|TWO_SIDED|95.0|-3.85|3.76||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||3.76|-3.85|0.98
82386789|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-2.13|STANDARD_ERROR_OF_MEAN|2.08||0.31|TWO_SIDED|95.0|-6.2|1.95||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.95|-6.2|0.31
82425587|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/Placebo versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.013
82425588|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/50mg versus Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.015
82577004|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.234||0.7042|TWO_SIDED|95.0|-0.37|0.55|||MMRM|||Depressed Mood, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.55|-0.37|0.7042
82386790|NCT04075682|164484149|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.93||0.68|TWO_SIDED|95.0|-4.58|2.97||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.97|-4.58|0.68
82386791|NCT04075682|164484150|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.3||0.45|TWO_SIDED|95.0|-0.81|0.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.36|-0.81|0.45
82386792|NCT04075682|164484150|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.25||0.5767|TWO_SIDED|95.0|-0.64|0.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.70|-0.64|0.5767
82386793|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.34||0.36|TWO_SIDED|95.0|-0.98|0.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.36|-0.98|0.36
82386794|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.67||0.63|TWO_SIDED|95.0|-1.64|0.99||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||0.99|-1.64|0.63
82386795|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.95||0.79|TWO_SIDED|95.0|-1.62|2.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.12|-1.62|0.79
82386796|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.31||0.4491|TWO_SIDED|95.0|-0.84|0.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|These results from the multiple imputation model are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.37|-0.84|0.4491
82639862|NCT01945034|164994652|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.296|TWO_SIDED|95.0|-15.4|4.7||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.70|-15.40|0.296
82639863|NCT01945034|164994652|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3||||0.014|TWO_SIDED|95.0|-27.53|-3.16||p-value \<=0.05 for treatment effects|ANOVA|||The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site blocks, and baseline pain intensity at rest terms.||-3.16|-27.53|0.014
82639864|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.305|TWO_SIDED|95.0|-0.1|0.3||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo||0.30|-0.10|0.305
82639865|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.261|TWO_SIDED|95.0|-0.08|0.29||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.29|-0.08|0.261
82639866|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.996|TWO_SIDED|95.0|-0.22|0.22||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms.||0.22|-0.22|0.996
82639867|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.21|TWO_SIDED|95.0|-0.08|0.36||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.36|-0.08|0.210
82386797|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.8713|TWO_SIDED|95.0|-1.26|1.06||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||1.06|-1.26|0.8713
82639868|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.556|TWO_SIDED|95.0|-0.14|0.27||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.27|-0.14|0.556
82639869|NCT01945034|164994653|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.534|TWO_SIDED|95.0|-0.33|0.17||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant global assessment terms.||0.17|-0.33|0.534
82639870|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.354|TWO_SIDED|95.0|-0.27|0.1||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.10|-0.27|0.354
82425589|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.748||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.748
82639871|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.237|TWO_SIDED|95.0|-0.28|0.07||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.07|-0.28|0.237
82639872|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.871|TWO_SIDED|95.0|-0.23|0.19||p-value \<=0.05 for treatment effects|ANOVA|||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms.||0.19|-0.23|0.871
82639873|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.05|TWO_SIDED|95.0|-0.43|0.0||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-0.00|-0.43|0.050
82639874|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.64|TWO_SIDED|95.0|-0.25|0.15||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.15|-0.25|0.640
82639875|NCT01945034|164994654|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.18|TWO_SIDED|95.0|-0.08|0.41||p-value \<=0.05 for treatment effects|ANOVA|||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline physician global assessment terms.||0.41|-0.08|0.180
82386798|NCT04075682|164484151|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.85||0.99|TWO_SIDED|95.0|-1.66|1.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||1.66|-1.66|0.99
82386799|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.69|STANDARD_ERROR_OF_MEAN|0.34||0.04|TWO_SIDED|95.0|0.02|1.37||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.37|0.02|0.04
82386800|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-1.85|0.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.11|-1.85|0.08
82386801|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.23|STANDARD_ERROR_OF_MEAN|0.49||0.65|TWO_SIDED|95.0|-0.74|1.19||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.19|-0.74|0.65
82386802|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|0.71||0.3|TWO_SIDED|95.0|-0.66|2.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.11|-0.66|0.30
82386803|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.75||0.78|TWO_SIDED|95.0|-1.68|1.26||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.26|-1.68|0.78
82425590|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 50mg/50mg versus Celecoxib 100mg/Placebo that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.958
82425591|NCT00402987|164560346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.747||95.0||||"Analysis at 24 hours~Overall test of Celecoxib 100mg/Placebo versus Celecoxib 100mg/50mg that takes into account the ordered data (categories: excellent, good, fair, poor)."|Mantel Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.747
82425592|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.999
82425593|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.609
82425594|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.076
82386804|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|0.69||0.03|TWO_SIDED|95.0|0.12|2.83||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||2.83|0.12|0.03
82386805|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|1.01||0.95|TWO_SIDED|95.0|-1.92|2.04||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.04|-1.92|0.95
82386806|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.09||0.48|TWO_SIDED|95.0|-2.91|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.36|-2.91|0.48
82386807|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.0||0.37|TWO_SIDED|95.0|-2.86|1.07||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.07|-2.86|0.37
82386808|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.73|STANDARD_ERROR_OF_MEAN|0.31||0.0192|TWO_SIDED|95.0|0.12|1.34||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.34|0.12|0.0192
82386809|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|0.45||0.186|TWO_SIDED|95.0|-1.48|0.29||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.29|-1.48|0.1860
82425595|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
82425596|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82577005|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.247||0.4941|TWO_SIDED|95.0|-0.66|0.32|||MMRM|||Depressed Mood, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.66|0.4941
82639876|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.771|TWO_SIDED|95.0|-0.38|0.51|||ANOVA|||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.51|-0.38|0.771
82386810|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.44||0.3863|TWO_SIDED|95.0|-0.49|1.26||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.26|-0.49|0.3863
82524026|NCT01984697|164743866|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.8|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.8|<0.001
82386811|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.64||0.571|TWO_SIDED|95.0|-0.89|1.61||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.61|-0.89|0.5710
82425597|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524027|NCT01984697|164743866|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.0|<0.001
82386812|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.73|STANDARD_ERROR_OF_MEAN|0.68||0.2797|TWO_SIDED|95.0|-2.06|0.6||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||0.60|-2.06|0.2797
82386813|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.33|STANDARD_ERROR_OF_MEAN|0.62||0.0312|TWO_SIDED|95.0|0.12|2.55||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||2.55|0.12|0.0312
82386814|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.91||0.5086|TWO_SIDED|95.0|-1.19|2.39||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.39|-1.19|0.5086
82386815|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.98||0.9474|TWO_SIDED|95.0|-1.86|1.99||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.99|-1.86|0.9474
82386816|NCT04075682|164484152|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.9||0.5018|TWO_SIDED|95.0|-2.36|1.16||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.16|-2.36|0.5018
82425598|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524028|NCT01984697|164743866|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
82524029|NCT01984697|164743867|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.39|||<|0.001|TWO_SIDED|95.0|2.03|2.82|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.82|2.03|<0.001
82524030|NCT01984697|164743867|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.45|||<|0.001|TWO_SIDED|95.0|2.09|2.88|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.88|2.09|<0.001
82425599|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Continuous data were analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524031|NCT01984697|164743867|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|5.07|||<|0.001|TWO_SIDED|95.0|4.32|5.94|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.94|4.32|<0.001
82386817|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.39||0.25|TWO_SIDED|95.0|-0.31|1.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.21|-0.31|0.25
82386818|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.56||0.34|TWO_SIDED|95.0|-1.63|0.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.57|-1.63|0.34
82386819|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.56||0.76|TWO_SIDED|95.0|-1.26|0.92||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||0.92|-1.26|0.76
82386820|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.78||0.15|TWO_SIDED|95.0|-0.42|2.63||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||2.63|-0.42|0.15
82386821|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|95.0|-1.66|1.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.66|-1.66|1.00
82443475|NCT04332614|164595399|SUPERIORITY||Odds Ratio (OR)|0.7576895||||0.246|TWO_SIDED|95.0|0.4741259|1.2108458||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.2108458|0.47412590|0.246
82524032|NCT01984697|164743868|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.54|||<|0.001|TWO_SIDED|95.0|2.14|3.0|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.00|2.14|<0.001
82524033|NCT01984697|164743868|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.69|||<|0.001|TWO_SIDED|95.0|2.29|3.15|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.15|2.29|<0.001
82535217|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.18||||0.043|TWO_SIDED|95.0|1.04|9.72||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7.8 mmol/L)||9.72|1.04|0.043
82386822|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.78||0.01|TWO_SIDED|95.0|0.38|3.43||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.43|0.38|0.01
82386823|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|1.11||0.58|TWO_SIDED|95.0|-1.56|2.8||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.80|-1.56|0.58
82386824|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|1.23||0.39|TWO_SIDED|95.0|-3.47|1.35||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.35|-3.47|0.39
82386825|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|1.12||0.45|TWO_SIDED|95.0|-3.05|1.35||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.35|-3.05|0.45
82386826|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.54|STANDARD_ERROR_OF_MEAN|0.34||0.1147|TWO_SIDED|95.0|-0.13|1.21||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.21|-0.13|0.1147
82386827|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.44|STANDARD_ERROR_OF_MEAN|0.49||0.3721|TWO_SIDED|95.0|-1.41|0.53||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||0.53|-1.41|0.3721
82524034|NCT01984697|164743868|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|4.54|||<|0.001|TWO_SIDED|95.0|3.84|5.37|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.37|3.84|<0.001
82425600|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425601|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524035|NCT01984697|164743869|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.46|||<|0.001|TWO_SIDED|95.0|2.05|2.96|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.96|2.05|<0.001
82535218|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.169|TWO_SIDED|95.0|0.72|6.53||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7.8 mmol/L)||6.53|0.72|0.169
82572795|NCT00267098|164855668|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|-1.8||||0.637||||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Difference in Average Ranks|The subjects' individual rates of days hospitalized for HF were ranked, with lower ranks corresponding to fewer days hospitalized for HF.|The posterior probability that the BiV - RV difference in average ranks was below 0 (denoting that the BiV arm had lower ranks than the RV arm, on average) was calculated.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same rate of days hospitalized for heart failure per year as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a lower rate of days hospitalized for HF than patients with right ventricular pacing.||||0.637
82639877|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.022|TWO_SIDED|95.0|-0.88|-0.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-0.07|-0.88|0.022
82572796|NCT00267098|164855669|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.012||||0.591|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes at 6 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 6 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 6 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.591
82572797|NCT00267098|164855669|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.126||||0.986|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 12 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 12 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.986
82572798|NCT00267098|164855669|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.039||||0.726|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 18 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 18 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.726
82639878|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.032|TWO_SIDED|95.0|-1.03|-0.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.05|-1.03|0.032
82443476|NCT04332614|164595399|SUPERIORITY||Odds Ratio (OR)|1.1728665||||0.428|TWO_SIDED|95.0|0.79090107|1.7393021||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model.|Regression, Logistic|||||1.7393021|0.79090107|0.428
82524036|NCT01984697|164743869|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.44|||<|0.001|TWO_SIDED|95.0|2.04|2.92|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.92|2.04|<0.001
82386828|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.49||0.8827|TWO_SIDED|95.0|-0.89|1.03||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.03|-0.89|0.8827
82425602|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524037|NCT01984697|164743869|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.69|||<|0.001|TWO_SIDED|95.0|3.06|4.45|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.45|3.06|<0.001
82535219|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12||||0.042|TWO_SIDED|95.0|1.04|9.36||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7.8 mmol/L)||9.36|1.04|0.042
82425603|NCT00402987|164560347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82425604|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.003
82524038|NCT01984697|164743870|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.51|||<|0.001|TWO_SIDED|95.0|2.1|3.0|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.00|2.10|<0.001
82524039|NCT01984697|164743870|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.62|||<|0.001|TWO_SIDED|95.0|2.2|3.12|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.12|2.20|<0.001
82639879|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.72|TWO_SIDED|95.0|-0.38|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.55|-0.38|0.720
82639880|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.194|TWO_SIDED|95.0|-0.71|0.15|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.15|-0.71|0.194
82639881|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.163|TWO_SIDED|95.0|-0.89|0.15|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 1 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.15|-0.89|0.163
82639882|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.644|TWO_SIDED|95.0|-0.4|0.64|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.64|-0.40|0.644
82639883|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.129|TWO_SIDED|95.0|-0.85|0.11|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.11|-0.85|0.129
82639884|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.096|TWO_SIDED|95.0|-1.07|0.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.09|-1.07|0.096
82639885|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.905|TWO_SIDED|95.0|-0.5|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.57|-0.50|0.905
82639886|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.279|TWO_SIDED|95.0|-0.77|0.22|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.77|0.279
82639887|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.315|TWO_SIDED|95.0|-0.9|0.29|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 2 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.29|-0.90|0.315
82524040|NCT01984697|164743870|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.7|||<|0.001|TWO_SIDED|95.0|3.08|4.45|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||4.45|3.08|<0.001
82524041|NCT01984697|164743871|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.96|||<|0.001|TWO_SIDED|95.0|2.5|3.5|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.50|2.50|<0.001
82639888|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.203|TWO_SIDED|95.0|-0.19|0.91|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.91|-0.19|0.203
82639889|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.207|TWO_SIDED|95.0|-0.83|0.18|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.18|-0.83|0.207
82639890|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.03|TWO_SIDED|95.0|-1.3|-0.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.07|-1.30|0.030
82425605|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
82639891|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.372|TWO_SIDED|95.0|-0.32|0.84|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.84|-0.32|0.372
82639892|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.532|TWO_SIDED|95.0|-0.7|0.36|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.36|-0.70|0.532
82639893|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.189|TWO_SIDED|95.0|-1.08|0.21|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 3 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.21|-1.08|0.189
82639894|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.264|TWO_SIDED|95.0|-0.24|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.24|0.264
82639895|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.81|0.22|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1:The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.81|0.260
82639896|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.054|TWO_SIDED|95.0|-1.23|0.01|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.01|-1.23|0.054
82639897|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.456|TWO_SIDED|95.0|-0.37|0.81|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.81|-0.37|0.456
82425606|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.043
82425607|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.032
82639898|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.639|TWO_SIDED|95.0|-0.42|0.68|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.68|-0.42|0.639
82639899|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.78|TWO_SIDED|95.0|-0.75|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 4 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.57|-0.75|0.780
82425608|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.029
82425609|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.066||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.066
82425610|NCT00402987|164560348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.482||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.482
82524042|NCT01984697|164743871|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.99|||<|0.001|TWO_SIDED|95.0|2.55|3.5|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.50|2.55|<0.001
82524043|NCT01984697|164743871|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|6.31|||<|0.001|TWO_SIDED|95.0|5.36|7.43|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||7.43|5.36|<0.001
82524044|NCT01984697|164743872|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|1.67|||<|0.001|TWO_SIDED|95.0|1.38|2.03|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.03|1.38|<0.001
82524045|NCT01984697|164743872|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.65|||<|0.001|TWO_SIDED|95.0|1.37|1.99|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||1.99|1.37|<0.001
82524046|NCT01984697|164743872|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.96|||<|0.001|TWO_SIDED|95.0|1.61|2.37|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.37|1.61|<0.001
82524047|NCT01984697|164743873|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.36|1.87|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||1.87|1.36|<0.001
82524048|NCT01984697|164743873|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.51|2.05|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||2.05|1.51|<0.001
82524049|NCT01984697|164743873|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|3.08|||<|0.001|TWO_SIDED|95.0|2.64|3.61|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.61|2.64|<0.001
82524050|NCT01984697|164743874|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT ratio|2.55|||<|0.001|TWO_SIDED|95.0|2.15|3.01|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.01|2.15|<0.001
82524051|NCT01984697|164743874|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|2.7|||<|0.001|TWO_SIDED|95.0|2.3|3.16|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||3.16|2.30|<0.001
82524052|NCT01984697|164743874|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the GMT ratio for Girls and Boys 9 to 14 Years / Young Women 16 to 26 years is \>0.67.|GMT Ratio|4.98|||<|0.001|TWO_SIDED|95.0|4.23|5.86|||ANOVA|One-sided non-inferiority test at alpha=0.025 level||||5.86|4.23|<0.001
82524053|NCT01984697|164743875|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
82524054|NCT01984697|164743875|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.0|<0.001
82524055|NCT01984697|164743875|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.3|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.3|-1.1|<0.001
82524056|NCT01984697|164743876|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
82425611|NCT00402987|164560349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|||<|0.001||95.0|0.8|1.9||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.9|0.8|<0.001
82425612|NCT00402987|164560349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.002||95.0|0.4|1.5||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|0.4|0.002
82535220|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69||||0.02|TWO_SIDED|95.0|1.23|11.06||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7.8 mmol/L)||11.06|1.23|0.020
82425613|NCT00402987|164560349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.186||95.0|-1.0|0.2||Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||0.2|-1.0|0.186
82524057|NCT01984697|164743876|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
82524058|NCT01984697|164743876|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.2|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.2|-1.0|<0.001
82524059|NCT01984697|164743877|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
82524060|NCT01984697|164743877|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
82524061|NCT01984697|164743877|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.5|||<|0.001|TWO_SIDED|95.0|0.1|3.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||3.8|0.1|<0.001
82524062|NCT01984697|164743878|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.8|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.8|-1.7|<0.001
82524063|NCT01984697|164743878|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82524064|NCT01984697|164743878|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82524065|NCT01984697|164743879|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.7|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.7|-1.7|<0.001
82524066|NCT01984697|164743879|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.0|<0.001
82524067|NCT01984697|164743879|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.0|-1.1|<0.001
82524068|NCT01984697|164743880|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.4|||<|0.001|TWO_SIDED|95.0|-0.7|4.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.0|-0.7|<0.001
82524069|NCT01984697|164743880|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|1.4|||<|0.001|TWO_SIDED|95.0|-0.7|4.0|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.0|-0.7|<0.001
82524070|NCT01984697|164743880|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|2.1|||<|0.001|TWO_SIDED|95.0|0.7|4.6|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||4.6|0.7|<0.001
82524071|NCT01984697|164743881|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.0|||<|0.001|TWO_SIDED|95.0|-1.7|1.7|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||1.7|-1.7|<0.001
82524072|NCT01984697|164743881|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82524073|NCT01984697|164743881|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82524074|NCT01984697|164743882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82535221|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.211|TWO_SIDED|95.0|0.67|6.24||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7.8 mmol/L)||6.24|0.67|0.211
82524075|NCT01984697|164743882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.0|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.0|<0.001
82639900|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.071|TWO_SIDED|95.0|-0.04|1.07|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.07|-0.04|0.071
82639901|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.468|TWO_SIDED|95.0|-0.7|0.32|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.32|-0.70|0.468
82386829|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.54|STANDARD_ERROR_OF_MEAN|0.68||0.4335|TWO_SIDED|95.0|-0.8|1.87||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.87|-0.80|0.4335
82524076|NCT01984697|164743882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the 95% confidence interval of the seroconversion percentage difference for Girls and Boys 9 to 14 Years - Young Women 16 to 26 years is \> -5.|Seroconversion percentage difference|0.4|||<|0.001|TWO_SIDED|95.0|-1.1|2.1|||Miettinen and Nurminen|One-sided non-inferiority test at alpha=0.025 level||||2.1|-1.1|<0.001
82425614|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.961
82524077|NCT02276066|164743942|OTHER|We performed a delta analysis, by graphing the difference between the two measurements, we wanted to visually assess the degree of agreement or discrepancy between the two methods. We were looking to evaluate the consistency, accuracy, or bias between different measurement techniques.|||||<|0.05|||||||Delta analysis|||||||<0.05
82535222|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.179|TWO_SIDED|95.0|0.61|13.75||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (reduction \>=1.7 mmol/L)||13.75|0.61|0.179
82535223|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.93||||0.03|TWO_SIDED|95.0|1.17|20.87||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction \>=1.7 mmol/L)||20.87|1.17|0.030
82425615|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.985||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.985
82535224|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99||||0.142|TWO_SIDED|95.0|0.69|12.86||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (reduction \>=1.7 mmol/L)||12.86|0.69|0.142
82386830|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|0.74||0.4063|TWO_SIDED|95.0|-2.07|0.84||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||0.84|-2.07|0.4063
82524078|NCT05050578|164743948|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, sequence) and random (subject) effects. Difference = LID18869 minus AOHG. Sign is retained with the rounded value.|||0.00||
82535225|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.21||||0.012|TWO_SIDED|95.0|1.49|25.83||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (reduction \>=1.7 mmol/L)||25.83|1.49|0.012
82639902|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.027|TWO_SIDED|95.0|-1.33|-0.08|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.08|-1.33|0.027
82639903|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.107|TWO_SIDED|95.0|-0.11|1.09|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.11|0.107
82535226|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.01|||<|0.001|TWO_SIDED|95.0|3.14|54.0||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (reduction \>=1.7 mmol/L)||54.00|3.14|<0.001
82425616|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.975||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.975
82524079|NCT03386032|164743951|SUPERIORITY||||||<|0.05|||||||ANCOVA|Model adjusted means.||Change from baseline in variables were analyzed separately using a mixed model for repeated measures with Subject nested within treatment (random effect), and Treatment, Week, Treatment-by-Week, Age \& Baseline (fixed effects). Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left missing.||||<0.05
82425617|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.532
82535227|NCT00495469|164768484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.6||||0.01|TWO_SIDED|95.0|1.56|27.99||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (reduction \>=1.7 mmol/L)||27.99|1.56|0.010
82425618|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.690
82386831|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|0.68||0.0132|TWO_SIDED|95.0|0.35|3.03||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||3.03|0.35|0.0132
82524080|NCT03386032|164743952|SUPERIORITY||||||<|0.05|||||||ANCOVA|Model adjusted means. Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left miss||"Change from baseline in variables were analyzed separately using a mixed model for repeated measures with Subject nested within treatment (random effect), and Treatment, Week, Treatment-by-Week, Age \& Baseline (fixed effects). Last Observation was Carried Forward (LOCF) for drops. Sporadic missing data were left missing.~Significance level: 0.05 (2-sided)"||||<0.05
82639904|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.947|TWO_SIDED|95.0|-0.57|0.53|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.53|-0.57|0.947
82386832|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|0.83|STANDARD_ERROR_OF_MEAN|0.98||0.3949|TWO_SIDED|95.0|-1.08|2.75||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||2.75|-1.08|0.3949
82524081|NCT04082442|164743960|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||.0001
82524082|NCT04082442|164743961|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||.34
82639905|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.134|TWO_SIDED|95.0|-1.18|0.16|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 5 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.16|-1.18|0.134
82524083|NCT01783418|164743972|SUPERIORITY_OR_OTHER|||||||0.613|TWO_SIDED||||||ANOVA|||Baseline and Post-intervention (8 weeks)||||0.613
82524084|NCT01783418|164743973|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.957
82443477|NCT04332614|164595400|SUPERIORITY||Odds Ratio (OR)|0.9980487||||1|TWO_SIDED|95.0|0.8680298|1.147543||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.147543|0.8680298|1
82443478|NCT04332614|164595400|SUPERIORITY||Odds Ratio (OR)|0.8953032||||0.276|TWO_SIDED|95.0|0.7771682|1.031395||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.031395|0.7771682|0.276
82443479|NCT04332614|164595400|SUPERIORITY||Odds Ratio (OR)|0.8970536||||0.289|TWO_SIDED|95.0|0.7785981|1.033531||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.033531|0.7785981|0.289
82443480|NCT04332614|164595401|SUPERIORITY||Odds Ratio (OR)|0.9313889||||0.94591|TWO_SIDED|95.0|0.6003591|1.444944||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.444944|0.6003591|0.94591
82524085|NCT01783418|164743974|SUPERIORITY_OR_OTHER|||||||0.256|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||.256
82386833|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|1.08||0.7145|TWO_SIDED|95.0|-2.5|1.72||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.72|-2.50|0.7145
82443481|NCT04332614|164595401|SUPERIORITY||Odds Ratio (OR)|1.8998642||||0.0041|TWO_SIDED|95.0|1.2809137|2.817898||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.817898|1.2809137|0.0041
82524086|NCT01783418|164743975|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.97
82524087|NCT01783418|164743976|SUPERIORITY_OR_OTHER|||||||0.241|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention||||0.241
82524088|NCT01783418|164743977|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.358
82443482|NCT04332614|164595401|SUPERIORITY||Odds Ratio (OR)|2.0398184||||0.0015|TWO_SIDED|95.0|1.3648075|3.048678||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||3.048678|1.3648075|0.0015
82443483|NCT04332614|164595402|SUPERIORITY||Odds Ratio (OR)|1.180837||||0.829|TWO_SIDED|95.0|0.6750639|2.065546||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.065546|0.6750639|0.829
82443484|NCT04332614|164595402|SUPERIORITY||Odds Ratio (OR)|1.432003||||0.404|TWO_SIDED|95.0|0.8279689|2.476702||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.476702|0.8279689|0.404
82443485|NCT04332614|164595402|SUPERIORITY||Odds Ratio (OR)|1.212702||||0.753|TWO_SIDED|95.0|0.7161724|2.05348||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.053480|0.7161724|0.753
82524089|NCT01783418|164743978|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANOVA|||Baseline, Post-intervention (8 weeks)||||0.95
82524090|NCT00089141|164743979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.22||95.0|0.7|3.7||P values are 2 sided and are based on likelihood ratio statistics.|Regression, Cox|Analysis for all endpoints was stratified by number of affected organs and type of conditioning regimen.|For all analyses, MMF arm in numerator, and placebo arm in denominator. Hazard ratio estimate includes 3 efficacy success events that occurred after two years in the placebo arm.|||3.7|0.7|.22
82524091|NCT00089141|164743980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||0.03||95.0|1.1|2.6|||Regression, Cox|Statistical analysis did not count treatment continuing beyond 2 years as efficacy failure (n = 2 in each arm).||||2.6|1.1|.03
82524092|NCT00089141|164743981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.55||95.0|0.7|2.1|||Regression, Cox|||||2.1|0.7|.55
82524093|NCT00089141|164743982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.61||||0.48||95.0|0.4|6.0|||Regression, Cox|||||6.0|0.4|.48
82524094|NCT00089141|164743983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.17||95.0|0.8|3.9|||Regression, Cox|adjusted for risk category||||3.9|0.8|.17
82425619|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.820
82639906|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.017|TWO_SIDED|95.0|0.12|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.12|0.017
82425620|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.180
82524095|NCT00089141|164743984|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.62||||0.41||95.0|0.5|5.0|||Regression, Cox|||||5.0|0.5|.41
82386834|NCT04075682|164484153|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.98||0.6081|TWO_SIDED|95.0||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||||0.6081
82425621|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.344
82524096|NCT00089141|164743985|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.69||||0.14||95.0|0.9|3.2|||Regression, Cox|||||3.2|0.9|.14
82425622|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.693
82524097|NCT00089141|164743986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.99||||0.1||95.0|0.9|4.3|||Regression, Cox|||||4.3|0.9|.10
82524098|NCT00089141|164743987|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.34||95.0|0.08|2.1|||Regression, Cox|||||2.1|.08|.34
82425623|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.039
82524099|NCT00089141|164743988|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.28||95.0|0.7|3.2|||Regression, Cox|||||3.2|0.7|.28
82524100|NCT00508261|164743989|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.64|||||TWO_SIDED|95.0|-0.33|4.71||||||Demonstration of the non-inferiority of Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup A, at month 1.||4.71|-0.33|
82524101|NCT00508261|164743989|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|2.73|||||TWO_SIDED|95.0|0.73|6.24||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup C, at month 1.||6.24|0.73|
82524102|NCT00508261|164743989|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.61|||||TWO_SIDED|95.0|-0.36|4.64||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup W-135, at month 1.||4.64|-0.36|
82386835|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.46||0.58|TWO_SIDED|95.0|-1.15|0.64||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.64|-1.15|0.58
82386836|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.9||0.82|TWO_SIDED|95.0|-1.98|1.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.57|-1.98|0.82
82524103|NCT00508261|164743989|NON_INFERIORITY|Criterion for non-inferiority: The lower limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the group difference in the percentages of subjects with serum bactericidal antibodies using baby rabbit complement (rSBA) titer ≥1:8 is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|2.7|||||TWO_SIDED|95.0|0.71|6.18||||||Demonstration of the non-inferiority of the Nimenrix vaccine co-administered with combined Infanrix-hexa vaccine given alone in terms of bactericidal antibodies to Neisseria meningitidis serogroup Y, at month 1.||6.18|0.71|
82386837|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|1.31||0.2|TWO_SIDED|95.0|-0.9|4.24||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||4.24|-0.90|0.20
82386838|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.36||0.88|TWO_SIDED|95.0|-0.77|0.66||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation analysis are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.66|-0.77|0.8800
82425624|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.154
82425625|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.521||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.521
82425626|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
82524104|NCT00508261|164743990|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-PT (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.97|||||TWO_SIDED|95.0|0.83|1.12||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to pertussis toxoid (PT), at month 1.||1.12|0.83|
82524105|NCT00508261|164743990|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-FHA (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.98|||||TWO_SIDED|95.0|0.85|1.13||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to filamentous haemagglutinin (FHA), at month 1.||1.13|0.85|
82425627|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.070
82425628|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.344
82524106|NCT00508261|164743990|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided 95% CI on the GMC ratio for anti-PRN (ELISA) is greater than or equal to a pre-defined clinical limit of delta = 0.67.|Adjusted GMC ratios|0.92|||||TWO_SIDED|95.0|0.78|1.1||||||Demonstration of non-inferiority of combined Infanrix-hexa vaccine co-administered with Nimenrix vaccine to Infanrix-hexa vaccine given alone in terms of geometric mean concentrations (GMCs) of antibodies to pertactin (PRN), at month 1.||1.1|0.78|
82524107|NCT00508261|164743991|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided standardized asymptotic 95% CI for the group difference in the percentages of subjects with anti-HBs antibody concentrations ≥10 mIU/ml is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.22|||||TWO_SIDED|95.0|-1.47|4.6||||||||4.6|-1.47|
82524108|NCT00508261|164743992|NON_INFERIORITY|Criterion for non-inferiority (1 month after the first study vaccination): The lower limit of the two-sided standardized asymptotic 95% CI for the group difference in the percentage of subjects with anti-PRP concentrations (ELISA) ≥1.0 μg/mL is greater than or equal to the pre-defined clinical limit of -10%.|Difference in percentages|1.19|||||TWO_SIDED|95.0|-1.45|4.5||||||||4.5|-1.45|
82524109|NCT05168579|164744027|SUPERIORITY||Odds Ratio (OR)|13.8|||<|0.001|TWO_SIDED|95.0|2.76|69.6|||Mixed Models Analysis|||||69.6|2.76|<0.001
82535228|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.318|TWO_SIDED|95.0|-0.19|0.59||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.59|-0.19|0.318
82386839|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.72||0.8864|TWO_SIDED|95.0|-1.3|1.5||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.50|-1.30|0.8864
82386840|NCT04075682|164484154|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|1.12|STANDARD_ERROR_OF_MEAN|1.02||0.2748|TWO_SIDED|95.0|-0.89|3.12||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordered logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||3.12|-0.89|0.2748
82386841|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.5||0.83|TWO_SIDED|95.0|0.45|2.7||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be lower in the insert groups than in the no insert groups.||2.70|0.45|0.83
82386842|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.86|STANDARD_ERROR_OF_MEAN|1.34||0.03|TWO_SIDED|95.0|1.14|7.18||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||7.18|1.14|0.03
82386843|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.27||0.18|TWO_SIDED|95.0|0.15|1.44||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be lower in the insert and pictorial warning group than in the pictorial warning only group.||1.44|0.15|0.18
82386844|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.3||0.99|TWO_SIDED|95.0|0.08|12.57||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be lower for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||12.57|0.08|0.99
82386845|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.52||0.86|TWO_SIDED|95.0|0.29|2.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.||These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||2.82|0.29|0.86
82524110|NCT00840801|164744029|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A stratified score test was used to test the non-inferiority with a margin of -10% at 2.5% type I error (one-sided).|||||<|0.001|||||||Stratified score test|||Non-inferiority Test on Seropositive Response Rate||||<0.001
82425629|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82639907|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.715|TWO_SIDED|95.0|-0.6|0.41|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.41|-0.60|0.715
82386846|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.43||0.8045|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be lower in the insert groups than in the no insert groups.||||0.8045
82425630|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
82425631|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.249||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.249
82425632|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524111|NCT01242748|164744044|NON_INFERIORITY_OR_EQUIVALENCE|Degarelix was considered to be non-inferior to goserelin with regard to the hazard ratio of PSA PFS failure rates as the upper limit of the two-sided 95% CI of the adjusted hazard ratio was less than the non-inferiority margin of 1.33.|Hazard Ratio (HR)|0.774||||0.1589|TWO_SIDED|95.0|0.542|1.106|||Cox proportional hazard model|||The hazard ratio of PSA PFS failure rates was estimated using the Cox proportional hazard model with time to PSA PFS failure as dependent and treatment as independent variables and adjusted for baseline PSA category, prostate cancer stage, weight and geographical region. Degarelix was to be considered non-inferior to goserelin if the upper limit of the two-sided 95% confidence interval (CI) of the adjusted hazard ratio was less than or equal to the non-inferiority margin of 1.33.||1.106|0.542|0.1589
82524112|NCT01242748|164744045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.783||||0.1244|TWO_SIDED|95.0|0.574|1.07|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.070|0.574|0.1244
82524113|NCT01242748|164744046|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856|||||TWO_SIDED|95.0|0.58|1.263||||||The hazard ratio was estimated using the Cox proportional hazard model.||1.263|0.580|
82524114|NCT01242748|164744047|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.511||||0.0005|TWO_SIDED|95.0|1.739|7.09|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||7.090|1.739|0.0005
82524115|NCT01242748|164744048|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739||||0.143|TWO_SIDED|95.0|0.493|1.108|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.108|0.493|0.143
82524116|NCT01242748|164744049|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.595||||0.2212|TWO_SIDED|95.0|0.259|1.368|||Cox proportional hazard model|||The hazard ratio was estimated using the Cox proportional hazard model.||1.368|0.259|0.2212
82524117|NCT00335452|164744052|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|6.1||||0.3037|TWO_SIDED|95.0|-5.8|16.6||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||16.6|-5.8|0.3037
82524118|NCT00335452|164744053|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||The a priori threshold for statistical significance is ≤0.05.|Regression, Logistic|logistic regression model including terms for ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI).||||||0.012
82524119|NCT00335452|164744054|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|3.1||||0.6047|TWO_SIDED|95.0|-9.2|14.0||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by clopidogrel treatment regimen (300/75/75 mg or 600/150/75 mg) log-rank test.|The relative risk reduction (ASA high dose versus ASA low dose) is estimated using stratified Cox proportional hazards model controlling for Clopidogrel treatment regimen.|||14.0|-9.2|0.6047
82524120|NCT00335452|164744055|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|-6.5||||0.4579|TWO_SIDED|95.0|-26.0|9.9||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for qualifying condition.|||9.9|-26.0|0.4579
82524121|NCT00335452|164744055|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|17.6||||0.0262|TWO_SIDED|95.0|2.2|30.5||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for qualifying condition.|||30.5|2.2|0.0262
82524122|NCT00335452|164744055|SUPERIORITY_OR_OTHER|||||||0.0355||95.0||||The a priori threshold for statistical significance is ≤0.05.|Chi-squared|Interaction chi-squared test of the Cox proportional hazards model.||||||0.0355
82524123|NCT00335452|164744056|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|14.7||||0.0332|TWO_SIDED|95.0|1.2|26.3||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) Log-rank test. No adjustment was made.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||26.3|1.2|0.0332
82524124|NCT00335452|164744057|SUPERIORITY_OR_OTHER|||||||0.945||95.0||||The a priori threshold for statistical significance is ≤0.05.|Regression, Logistic|Logistic regression model including a term for Clopidogrel treatment regimen (300/75/75 mg or 600/150/75 mg).||||||0.945
82524125|NCT00335452|164744058|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|32.6||||0.0004|TWO_SIDED|95.0|16.2|45.8||The a priori threshold for statistical significance is ≤0.05.|Log Rank|Two-sided stratified by ASA dose level (low or high) and qualifying condition (UA/NSTEMI or STEMI) log-rank test.|The relative risk reduction (high dose treatment regimen (600/150/75 mg) versus standard treatment regimen (300/75/75 mg)) is estimated using a stratified Cox proportional hazards model controlling for ASA dose level and qualifying condition.|||45.8|16.2|0.0004
82425633|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
82524126|NCT02943941|164744059|OTHER|||||||0.429|||||||ANOVA|||||||0.429
82524127|NCT02943941|164744060|OTHER|||||||0.059||||||Pressure during coughing versus normal breathing initially measured at baseline.|ANOVA|||||||0.059
82386847|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|2.53|STANDARD_ERROR_OF_MEAN|1.01||0.0205|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||||0.0205
82386848|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|0.53|STANDARD_ERROR_OF_MEAN|0.26||0.1918|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results from the multiple imputation model are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be lower in the insert and pictorial warning group than in the pictorial warning only group.||||0.1918
82386849|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|1.12||0.99|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be lower for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4).||||0.99
82386850|NCT04075682|164484155|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Odds Ratio (OR)|1.56|STANDARD_ERROR_OF_MEAN|1.54||0.6873|TWO_SIDED|||||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083.|Mixed Models Analysis|We estimated mixed-effects logistic regression models that accounted for repeated measures at the individual level.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are from the multiple imputation model for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||||0.6873
82386851|NCT04075682|164484156|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.39||0.37|TWO_SIDED|95.0|-1.12|0.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Mixed Models Analysis|We estimated mixed-effects ordinal regression models that accounted for repeated measures at both the day- and individual-levels.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||0.41|-1.12|0.37
82386852|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.05||0.92|TWO_SIDED|95.0|0.9|1.1||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H1 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received inserts (insert only AND insert + pictorial warnings) with the groups that did not (pictorial warning only AND control). We expected that the outcome would be higher in the insert groups than in the no insert groups.||1.10|0.90|0.92
82639908|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.015|TWO_SIDED|95.0|-1.39|-0.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.15|-1.39|0.015
82425634|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.205
82425635|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82639909|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.027|TWO_SIDED|95.0|0.07|1.23|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.07|0.027
82639910|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.66|TWO_SIDED|95.0|-0.42|0.65|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.65|-0.42|0.660
82386853|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.0|STANDARD_ERROR_OF_MEAN|0.05||0.95|TWO_SIDED|95.0|0.9|1.11||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H2 assessment (see Statistical Analysis Plan, Model 1), comparing groups that received pictorial warnings (pictorial warning only AND insert + pictorial warnings) with the groups that did not (insert only AND control). We expected that the outcome would be higher in the pictorial warning groups than in the no pictorial warning groups.||1.11|0.90|0.95
82425636|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
82425637|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.186||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.186
82524128|NCT02943941|164744061|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82639911|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.107|TWO_SIDED|95.0|-1.18|0.11|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing 6 hour Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.11|-1.18|0.107
82639912|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.02|TWO_SIDED|95.0|0.1|1.13|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|0.10|0.020
82639913|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.749|TWO_SIDED|95.0|-0.55|0.4|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.40|-0.55|0.749
82639914|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.019|TWO_SIDED|95.0|-1.27|-0.12|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.12|-1.27|0.019
82639915|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.163|TWO_SIDED|95.0|-0.16|0.96|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.96|-0.16|0.163
82639916|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.727|TWO_SIDED|95.0|-0.43|0.61|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.61|-0.43|0.727
82639917|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.336|TWO_SIDED|95.0|-0.94|0.32|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 1(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.32|-0.94|0.336
82524129|NCT02736825|164744062|NON_INFERIORITY|Non-inferiority margin of 15% between two independent percentages using the z-test with unpooled variance||||||0.367|||||||Z-test|||||||0.3670
82386854|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.08||0.85|TWO_SIDED|95.0|0.85|1.14||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H3 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received inserts only. We expected that this outcome would be higher in the insert and pictorial warning group than in the insert only group.||1.14|0.85|0.85
82425638|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425639|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524130|NCT02940574|164744085|OTHER|Linear mixed-effect analyses, exploring whether a single-dose of OT could reduce amygdala connectivity, revealed a tentative effect of 'treatment' (F(1,36)=2.00; p=.08 (one-sided))|||||<|0.08||||||Linear mixed-effect analyses, exploring whether a single-dose of OT could reduce amygdala connectivity, revealed a tentative effect of 'treatment' (F(1,36)=2.00; p=.08 (one-sided))|Mixed Models Analysis|(F(1,36)=2.00; p=.08 (one-sided))||||||<0.08
82524131|NCT04810221|164744107|OTHER|Paired T-test 0|Mean Difference (Final Values)|0.18||||0.31|TWO_SIDED|95.0|-0.17|0.54|||Paired T-test 0||||Additional statistical analysis were: Bland Altman plot and linear regression analysis.|0.54|-0.17|0.31
82639918|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.174|TWO_SIDED|95.0|-0.16|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.16|0.174
82639919|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.277|TWO_SIDED|95.0|-0.73|0.21|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.21|-0.73|0.277
82639920|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.035|TWO_SIDED|95.0|-1.19|-0.04|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.04|-1.19|0.035
82639921|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.858|TWO_SIDED|95.0|-0.5|0.6|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.60|-0.50|0.858
82639922|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.724|TWO_SIDED|95.0|-0.6|0.42|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.42|-0.60|0.724
82639923|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.651|TWO_SIDED|95.0|-0.76|0.48|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.48|-0.76|0.651
82639924|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.059|TWO_SIDED|95.0|-0.02|1.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.05|-0.02|0.059
82639925|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.766|TWO_SIDED|95.0|-0.57|0.42|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.42|-0.57|0.766
82639926|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.053|TWO_SIDED|95.0|-1.19|0.01|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.01|-1.19|0.053
82639927|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.212|TWO_SIDED|95.0|-0.21|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.21|0.212
82639928|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.911|TWO_SIDED|95.0|-0.49|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.55|-0.49|0.911
82524132|NCT04810221|164744108|OTHER|Paired T test 0|Mean Difference (Final Values)|0.25||||0.32|TWO_SIDED|95.0|-0.24|0.75|||Paired T test 0||||Additional statistical analysis were: Bland Altman plot and linear regression analysis.|0.75|-0.24|0.32
82524133|NCT00105235|164744121|SUPERIORITY_OR_OTHER||Proportion|0.22|||||TWO_SIDED|95.0|0.086|0.423|||Exact Binomial Confidence Interval|||||.423|.086|
82524134|NCT00105235|164744122|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.3|||Exact Binomial Confidence Interval|||||0.3|0|
82524135|NCT00105235|164744124|SUPERIORITY_OR_OTHER||Proportion|0.2|||||TWO_SIDED|95.0|0.04|0.3|||Exact Binomial Confidence Interval|||||0.3|0.04|
82524136|NCT00105235|164744125|SUPERIORITY_OR_OTHER||Proportion|0.1|||||TWO_SIDED|95.0|0.01|0.2|||Exact Binomial Confidence Interval|||||0.2|0.01|
82639929|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.305|TWO_SIDED|95.0|-0.96|0.3|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.30|-0.96|0.305
82639930|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.075|TWO_SIDED|95.0|-0.05|1.02|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.05|0.075
82639931|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.684|TWO_SIDED|95.0|-0.39|0.6|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.60|-0.39|0.684
82639932|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.208|TWO_SIDED|95.0|-0.98|0.21|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.21|-0.98|0.208
82386855|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.07||0.75|TWO_SIDED|95.0|0.84|1.13||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the pre-specified H4 assessment (see Statistical Analysis Plan, Model 1), comparing the group that received inserts and pictorial warnings with the group that received pictorial warnings only. We expected that this outcome would be higher in the insert and pictorial warning group than in the pictorial warning only group.||1.13|0.84|0.75
82639933|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.304|TWO_SIDED|95.0|-0.27|0.85|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.85|-0.27|0.304
82639934|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.356|TWO_SIDED|95.0|-0.27|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.76|-0.27|0.356
82639935|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.876|TWO_SIDED|95.0|-0.67|0.58|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 2(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.58|-0.67|0.876
82639936|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.02|TWO_SIDED|95.0|0.1|1.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.15|0.10|0.020
82639937|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.94|TWO_SIDED|95.0|-0.5|0.47|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.47|-0.50|0.940
82639938|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.032|TWO_SIDED|95.0|-1.23|-0.06|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.06|-1.23|0.032
82639939|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.206|TWO_SIDED|95.0|-0.21|0.95|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.95|-0.21|0.206
82639940|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.31|TWO_SIDED|95.0|-0.26|0.81|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.81|-0.26|0.310
82639941|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.771|TWO_SIDED|95.0|-0.74|0.55|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.55|-0.74|0.771
82639942|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean difference|0.7||||0.016|TWO_SIDED|95.0|0.13|1.24|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.24|0.13|0.016
82639943|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.905|TWO_SIDED|95.0|-0.48|0.54|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.54|-0.48|0.905
82639944|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.039|TWO_SIDED|95.0|-1.28|-0.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.03|-1.28|0.039
82647757|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.6|-0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.67|-1.60|<0.001
82639945|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.276|TWO_SIDED|95.0|-0.27|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.27|0.276
82386856|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.97|STANDARD_ERROR_OF_MEAN|0.11||0.78|TWO_SIDED|95.0|0.78|1.2||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5a assessment, which evaluates moderation of the pre-specified H2 assessment. We expected that the effect of pictorial HWLs (averaged over insert) vs no pictorial HWLs (averaged over insert) on the outcome would be stronger for higher vs lower self-efficacy (see Statistical Analysis Plan, Model 4)||1.20|0.78|0.78
82386857|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.31|STANDARD_ERROR_OF_MEAN|0.22||0.11|TWO_SIDED|95.0|0.94|1.82||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H5b assessment, which evaluates whether moderation of pictorial warnings effects would vary by whether the pictorial warnings included inserts or not. We expected that moderation effects of baseline self-efficacy would be larger for pictorial warnings only (vs control) than for pictorial warnings AND inserts (vs control) (see Statistical Analysis Plan, Model 4).||1.82|0.94|0.11
82386858|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.11||0.93|TWO_SIDED|95.0|0.8|1.22||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower education (see Statistical Analysis Plan, Model 5).||1.22|0.80|0.93
82386859|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.11||0.86|TWO_SIDED|95.0|0.78|1.23||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with higher than lower literacy (see Statistical Analysis Plan, Model 5).||1.23|0.78|0.86
82386860|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.11||0.94|TWO_SIDED|95.0|0.81|1.22||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6a assessment, which evaluates moderation of the pre-specified H1 assessment. We expected that the effect of inserts (averaged over pictorial warnings) compared to no inserts (averaged over pictorial warnings) on the outcome would be stronger for those with lower than higher delayed discounting (see Statistical Analysis Plan, Model 5).||1.22|0.81|0.94
82386861|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.21||0.13|TWO_SIDED|95.0|0.93|1.78||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline education would be stronger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.78|0.93|0.13
82425640|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.179||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.179
82639946|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.343|TWO_SIDED|95.0|-0.29|0.82|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.82|-0.29|0.343
82443486|NCT04332614|164595403|SUPERIORITY||Odds Ratio (OR)|0.9747188||||0.9284|TWO_SIDED|95.0|0.8501783|1.1175028||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.1175028|0.8501783|0.9284
82443487|NCT04332614|164595403|SUPERIORITY||Odds Ratio (OR)|0.8518974||||0.0612|TWO_SIDED|95.0|0.741461|0.9787827||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||0.9787827|0.7414610|0.0612
82443488|NCT04332614|164595403|SUPERIORITY||Odds Ratio (OR)|0.873993||||0.1407|TWO_SIDED|95.0|0.7602296|1.0047804||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.0047804|0.7602296|0.1407
82443489|NCT04332614|164595404|SUPERIORITY||Odds Ratio (OR)|0.9089673||||0.8848|TWO_SIDED|95.0|0.6109603|1.352333||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.352333|0.6109603|0.8848
82443490|NCT04332614|164595404|SUPERIORITY||Odds Ratio (OR)|1.6914929||||0.0127|TWO_SIDED|95.0|1.1762411|2.43245||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.432450|1.1762411|0.0127
82443491|NCT04332614|164595404|SUPERIORITY||Odds Ratio (OR)|1.8608951||||0.0033|TWO_SIDED|95.0|1.2800275|2.705356||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||2.705356|1.2800275|0.0033
82443492|NCT04332614|164595405|SUPERIORITY||Odds Ratio (OR)|0.8619131||||0.759|TWO_SIDED|95.0|0.5709078|1.301251||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.301251|0.5709078|0.759
82524137|NCT02347657|164744130|SUPERIORITY||Least Squares (LS) Mean Difference|4.0|||<|0.0001|TWO_SIDED|95.0|3.1|4.8|||Mixed model for repeated measures (MMRM)|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||4.8|3.1|<0.0001
82443493|NCT04332614|164595405|SUPERIORITY||Odds Ratio (OR)|1.0950508||||0.897|TWO_SIDED|95.0|0.7331329|1.635633||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.635633|0.7331329|0.897
82443494|NCT04332614|164595405|SUPERIORITY||Odds Ratio (OR)|1.2704886||||0.498|TWO_SIDED|95.0|0.8377249|1.926816||We used an a priori threshold of p \< .05. All 3 comparisons run within same logistic regression model, correcting for the 3 pairwise comparisons using Tukey's Contrasts.|Regression, Logistic|||||1.926816|0.8377249|0.498
82524138|NCT02347657|164744131|SUPERIORITY||LS mean difference|6.8|||<|0.0001|TWO_SIDED|95.0|5.3|8.3|||MMRM|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||8.3|5.3|<0.0001
82639947|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.849|TWO_SIDED|95.0|-0.73|0.6|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(AM + 2 hours): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.60|-0.73|0.849
82443495|NCT04271475|164595431|SUPERIORITY||Least square mean|-16.1|STANDARD_ERROR_OF_MEAN|8.2||0.974|TWO_SIDED|95.0|-32.34|0.16|||MMRM||Least square mean and SE of the mean was estimated by mixed model repeated measurements method.|||0.16|-32.34|0.974
82443496|NCT02936284|164595464|SUPERIORITY||Mean Difference (Net)|0.196||||0.016|TWO_SIDED||||||Mixed Models Analysis|mixed effect regression model including covariates: child sex, child birth weight, breastfeeding duration, percent class attendance and covid grouping|difference between music and play group change|||||0.016
82443497|NCT02936284|164595465|SUPERIORITY||Mean Difference (Net)|29.9||||0.7|TWO_SIDED||||||Mixed Models Analysis||music group vs. play group baseline to 24 months|mixed effect regression analysis, unstructured covariance, no covariates. Reporting group x time interaction||||0.70
82443498|NCT02936284|164595466|SUPERIORITY||Mean Difference (Net)|0.073||||0.54|TWO_SIDED||||||Mixed Models Analysis||increase in weight for length z-score for music group|mixed-effect regression analysis with covariates: child sex, birth weight, breastfeeding duration, percent class attendance and covid categories||||0.540
82443499|NCT01114360|164595484|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||ANOVA|Two-way repeated measures mixed model ANOVA.||The null hypothesis is that there is no interaction between the order of randomization and primary outcomes.||||0.075
82443500|NCT01114360|164595484|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||ANOVA|||||||0.75
82443501|NCT01114360|164595485|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||||||0.79
82443502|NCT01114360|164595486|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||||||0.21
82443503|NCT01114360|164595487|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||ANOVA|||||||0.64
82443504|NCT01114360|164595488|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||ANOVA|||||||0.89
82443505|NCT01114360|164595489|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||||||0.97
82443506|NCT01114360|164595490|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82443507|NCT01114360|164595491|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||ANOVA|||The null hypothesis is that there is no interaction between the order of randomization and primary outcomes.||||0.75
82443508|NCT01114360|164595492|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Friedman|||||||0.71
82443509|NCT01114360|164595493|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Friedman|||||||0.38
82443510|NCT01114360|164595494|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Friedman|||||||0.11
82443511|NCT01114360|164595495|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANOVA|||||||0.96
82443512|NCT01114360|164595496|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
82443513|NCT01114360|164595497|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||ANOVA|||||||0.52
82524139|NCT02347657|164744132|SUPERIORITY||Event Rate Ratio|0.65||||0.0054|TWO_SIDED|95.0|0.48|0.88|||Negative Binomial Regression|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||0.88|0.48|0.0054
82386862|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.18||0.96|TWO_SIDED|95.0|0.7|1.41||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline literacy would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.41|0.70|0.96
82386863|NCT04075682|164484157|OTHER|We conducted a two-sided test for mean (group 1) = mean (group 2) versus means not being equal.|Rate ratio|0.99|STANDARD_ERROR_OF_MEAN|0.16||0.95|TWO_SIDED|95.0|0.72|1.36||The reported p-value is not adjusted. The a priori threshold for statistical significance uses a Bonferroni-adjusted critical value of p\<0.05/6=0.0083|Negative binomial regression|We estimated negative binomial regression models, as there is a single measure for each person and so there are no repeated measures.|To evaluate the study hypothesis, a Wald test was used for the associated regression parameter.|These results are for the intended (but not correctly pre-specified) H6b assessment, which evaluated whether the moderation of insert effects would vary by whether the inserts included pictorial warnings or not. We expected that moderation by baseline delay discounting would be larger for insert only (vs control) than for inserts AND pictorial warnings (vs control) (see Statistical Analysis Plan, Model 5).||1.36|0.72|0.95
82386864|NCT00862823|164484171|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined so there was an 80% chance that a 90% pairwise interval for 2 equivalent formulations would satifsy the FDA criteria for AUC and Cmax of log (0.8), log (1.2).|Geometric Mean Ratio|0.97|||<|0.05||90.0||||Bioequivalent measurew were log-transformed|log transformation|||||||<0.05
82386865|NCT01309360|164484186|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
82386866|NCT01309360|164484186|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
82386867|NCT01309360|164484186|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
82386868|NCT01309360|164484187|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Kruskal-Wallis|||||||0
82386869|NCT01309360|164484188|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||Fisher Exact|||||||0.059
82386870|NCT01309360|164484188|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82524140|NCT02347657|164744133|SUPERIORITY||LS mean difference|0.06||||0.4127|TWO_SIDED|95.0|-0.08|0.19|||MMRM|||Testing was performed according to the hierarchical testing procedure to control the overall type I error for tested at α = 0.05.||0.19|-0.08|0.4127
82386871|NCT01309360|164484188|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
82386872|NCT01309360|164484189|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Fisher Exact|||||||0.675
82524141|NCT02416492|164744152|SUPERIORITY||Least Square (LS) Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|2.9||0.0401|TWO_SIDED|95.0||||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||||0.0401
82535229|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.131|TWO_SIDED|95.0|-0.73|0.1||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.10|-0.73|0.131
82386873|NCT01309360|164484189|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||Fisher Exact|||||||0.087
82386874|NCT01309360|164484189|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||Fisher Exact|||||||0.348
82386875|NCT01309360|164484190|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.247
82386876|NCT01309360|164484190|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82386877|NCT01309360|164484190|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82386878|NCT01309360|164484191|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
82386879|NCT01309360|164484191|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Fisher Exact|||||||0.116
82386880|NCT01309360|164484191|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1
82386881|NCT02901067|164484193|SUPERIORITY|This is a secondary outcome thus no power analysis was done.|||||>|0.05|||||||Fisher Exact|||We hypothesized that the experimental group would present less fibrinolysis shutdown than the control group in all times measured.||||>0.05
82386882|NCT02901067|164484198|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82386883|NCT02901067|164484201|SUPERIORITY|||||||0.1|||||||Fisher Exact|||We hypothesized that the experimental group would have less pulmonary embolism events than the control group.||||0.10
82386884|NCT02901067|164484202|SUPERIORITY|||||||0.046|||||||Fisher Exact|||We hypothesized that the experimental group would have a lower incidence of venous thromboembolism (VTE) than the control group.||||0.046
82386885|NCT01562782|164484203|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups in the primary outcome- the mean fold change in plasma VLDL triglyceride palmitate, 0-4 hours. A power calculation was based on data obtained in 15 overweight subjects. Assuming a mean absolute difference of 2.7 in South Asians and 1.0 in Caucasians and a standard deviation of 2.0 for both, group sample sizes of 16 and 16 were expected to achieve 80% power to detect a difference of 1.7 using a 2-sided Mann-Whitney test.|Mean Difference (Final Values)|0.61||||0.05|TWO_SIDED||||||Mixed Models Analysis|||The equivalence test was used to compare the fold change in plasma VLDL triglyceride palmitate in Caucasians and South Asians.||||0.05
82386886|NCT01562782|164484204|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||The equivalence test was used to compare 1) the fold change in triglycerides in South Asians and Caucasians and 2) the fold change in VLDL triglycerides in South Asians and Caucasians.||||<0.05
82386887|NCT01562782|164484205|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||The equivalence test is used to compare levels after the sugar beverage of 1) glucose at 1 hour 2) lactate at 1 hour 3) NEFA at 2 hours in South Asians vs Caucasians.||||<0.05
82386888|NCT01562782|164484206|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386889|NCT01562782|164484207|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386890|NCT01562782|164484208|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||Pearson or Spearman's rank test|||The equivalence test was used to analyze the relationship between the primary outcome, fold change in VLDL TG palmitate, and the listed levels of biomarkers of carbohydrate and fat metabolism. The correlation analysis was performed on data from each study group separately.||||<0.05
82386891|NCT01562782|164484209|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386892|NCT01562782|164484210|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386893|NCT01562782|164484211|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386894|NCT01562782|164484212|EQUIVALENCE|A P value \<0.05 was used to determine no equivalence between groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82386895|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 1 GMC Ratio|0.31||||0.0025|TWO_SIDED|90.0|0.17|0.57|||t-test, 2 sided|||||0.57|0.17|0.0025
82386896|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 5 GMC Ratio|0.74||||0.454|TWO_SIDED|90.0|0.38|1.45|||t-test, 2 sided|||||1.45|0.38|0.4540
82386897|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6A GMC Ratio|4.69||||0.0003|TWO_SIDED|90.0|2.46|8.94|||t-test, 2 sided|||||8.94|2.46|0.0003
82386898|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6B GMC Ratio|2.22||||0.046|TWO_SIDED|90.0|1.16|4.24|||t-test, 2 sided|||||4.24|1.16|0.0460
82386899|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 7F GMC Ratio|0.76||||0.3365|TWO_SIDED|90.0|0.47|1.22|||t-test, 2 sided|||||1.22|0.47|0.3365
82386900|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 9V GMC Ratio|0.56||||0.0313|TWO_SIDED|90.0|0.37|0.87|||t-test, 2 sided|||||0.87|0.37|0.0313
82386901|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 14 GMC Ratio|1.08||||0.806|TWO_SIDED|90.0|0.65|1.79|||t-test, 2 sided|||||1.79|0.65|0.8060
82524142|NCT02416492|164744153|SUPERIORITY||Least Square (LS) Mean Difference|-0.7||||0.1655|TWO_SIDED|95.0|-1.7|0.3||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||0.3|-1.7|0.1655
82386902|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19A GMC Ratio|1.74||||0.2044|TWO_SIDED|90.0|0.84|3.58|||t-test, 2 sided|||||3.58|0.84|0.2044
82386903|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19F GMC Ratio|1.67||||0.149|TWO_SIDED|90.0|0.93|3.02|||t-test, 2 sided|||||3.02|0.93|0.1490
82386904|NCT02308540|164484234|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 23F GMC Ratio|1.13||||0.7565|TWO_SIDED|90.0|0.59|2.15|||t-test, 2 sided|||||2.15|0.59|0.7565
82535230|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.452|TWO_SIDED|95.0|-0.54|0.24||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.24|-0.54|0.452
82524143|NCT02416492|164744154|SUPERIORITY||Least Square (LS) Mean Difference|2.7||||0.3398|TWO_SIDED|95.0|-2.9|8.3|||Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||8.3|-2.9|0.3398
82425641|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425642|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82535231|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.845|TWO_SIDED|95.0|-0.44|0.36||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.36|-0.44|0.845
82386905|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 1 GMC Ratio|0.75||||0.2653|TWO_SIDED|90.0|0.54|1.31|||Two-tailed from z-test|||||1.31|0.54|0.2653
82386906|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 5 GMC Ratio|0.69||||0.2059|TWO_SIDED|90.0|0.45|1.2|||Two-tailed from z-test|||||1.20|0.45|0.2059
82572799|NCT00267098|164855669|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.035||||0.701|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 24 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 24 month changes in NYHA classification were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in NYHA classification from randomization to 24 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.701
82386907|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 6A GMC Ratio|0.84||||0.5664|TWO_SIDED|90.0|0.55|1.54|||Two-tailed from z-test|||||1.54|0.55|0.5664
82386908|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 6B GMC Ratio|0.82||||0.4456|TWO_SIDED|90.0|0.57|1.31|||Two-tailed from z-test|||||1.31|0.57|0.4456
82386909|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 7F GMC Ratio|0.74||||0.2189|TWO_SIDED|90.0|0.52|1.14|||Two-tailed from z-test|||||1.14|0.52|0.2189
82386910|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 9V GMC Ratio|0.6||||0.097|TWO_SIDED|90.0|0.38|1.03|||Two-tailed from z-test|||||1.03|0.38|0.0970
82386911|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 14 GMC Ratio|1.76||||0.0713|TWO_SIDED|90.0|1.02|2.79|||Two-tailed from z-test|||||2.79|1.02|0.0713
82386912|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 19A GMC Ratio|0.71||||0.3443|TWO_SIDED|90.0|0.42|1.35|||Two-tailed from z-test|||||1.35|0.42|0.3443
82386913|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 19F GMC Ratio|0.76||||0.3278|TWO_SIDED|90.0|0.48|1.23|||Two-tailed from z-test|||||1.23|0.48|0.3278
82524144|NCT02416492|164744155|SUPERIORITY||Least Square (LS) Mean Difference|-2.6||||0.8974|TWO_SIDED|95.0|-42.2|37.1||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|||Adjusted LS mean and treatment group difference in change from baseline at Week 24 were modeled using an MMRM including the following variables: treatment, visit, treatment by visit interaction, baseline FMMS score, baseline FMMS score by visit interaction, GOS-E score at screening, and GOS-E score at screening by visit interaction.||37.1|-42.2|0.8974
82386914|NCT02308540|164484235|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates. Due to distributional characteristics, confidence intervals around GMCs and treatment-group ratio are estimated using bootstrap resampling (10,000 bootstrap samples).|Pn IgG type 23F GMC Ratio|0.65||||0.2039|TWO_SIDED|90.0|0.4|1.16|||Two-tailed from z-test|||||1.16|0.40|0.2039
82524145|NCT02416492|164744156|SUPERIORITY||Least Square (LS) Mean Difference|-0.49||||0.8534|TWO_SIDED|95.0|-5.77|4.8||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Change from Baseline in NeuroQOL Upper Extremity Function T Score at Week 24||4.80|-5.77|0.8534
82572800|NCT00267098|164855670|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.002||||0.534|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes at 6 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 6 month change in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in HF stage from randomization to 6 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.534
82639948|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.009|TWO_SIDED|95.0|0.19|1.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.29|0.19|0.009
82386915|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 1 GMC Ratio|0.89||||0.255|TWO_SIDED|90.0|0.74|1.06|||t-test, 2 sided|||||1.06|0.74|0.2550
82386916|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 5 GMC Ratio|1.2||||0.0865|TWO_SIDED|90.0|1.01|1.43|||t-test, 2 sided|||||1.43|1.01|0.0865
82386917|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6A GMC Ratio|0.56||||0.0006|TWO_SIDED|90.0|0.43|0.74|||t-test, 2 sided|||||0.74|0.43|0.0006
82524146|NCT02416492|164744156|SUPERIORITY||Least Square (LS) Mean Difference|0.41||||0.8443|TWO_SIDED|95.0|-3.78|4.6||MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, baseline endpoints \& GOS-E scores, baseline endpoints \& GOS-E by visit interaction, treatment-by-visit interaction||Change from Baseline in NeuroQOL Lower Extremity Function T Score at Week 24||4.60|-3.78|0.8443
82386918|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 6B GMC Ratio|0.43|||<|0.0001|TWO_SIDED|90.0|0.33|0.57|||t-test, 2 sided|||||0.57|0.33|<0.0001
82386919|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 7F GMC Ratio|0.56|||<|0.0001|TWO_SIDED|90.0|0.47|0.68|||t-test, 2 sided|||||0.68|0.47|<0.0001
82639949|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.763|TWO_SIDED|95.0|-0.58|0.43|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.43|-0.58|0.763
82639950|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.01|TWO_SIDED|95.0|-1.43|-0.2|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.20|-1.43|0.010
82386920|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 9V GMC Ratio|0.49|||<|0.0001|TWO_SIDED|90.0|0.41|0.59|||t-test, 2 sided|||||0.59|0.41|<0.0001
82386921|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 14 GMC Ratio|1.11||||0.5234|TWO_SIDED|90.0|0.85|1.45|||t-test, 2 sided|||||1.45|0.85|0.5234
82386922|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19A GMC Ratio|0.29|||<|0.0001|TWO_SIDED|90.0|0.22|0.36|||t-test, 2 sided|||||0.36|0.22|<0.0001
82386923|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 19F GMC Ratio|0.72||||0.004|TWO_SIDED|90.0|0.6|0.87|||t-test, 2 sided|||||0.87|0.60|0.0040
82386924|NCT02308540|164484236|OTHER|GMC will be summarized by treatment group with corresponding two-sided 90% CIs based on the t-distribution to provide population estimates.|Pn IgG type 23F GMC Ratio|0.58||||0.0001|TWO_SIDED|90.0|0.46|0.73|||t-test, 2 sided|||||0.73|0.46|0.0001
82386925|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 1|-1.0|||||TWO_SIDED|90.0|-5.13|2.66||||||||2.66|-5.13|
82524147|NCT02093663|164744158|OTHER||Odds Ratio (OR)|3.21||||0.039|TWO_SIDED|95.0|1.04|9.88|||Uncorrected Chi-squared Test|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (last observation carried forward \[LOCF\] and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||9.88|1.04|0.039
82386926|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 5|3.0|||||TWO_SIDED|90.0|-1.1|7.95||||||||7.95|-1.10|
82386927|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 6A|-12.0|||||TWO_SIDED|90.0|-20.94|-2.97||||||||-2.97|-20.94|
82425643|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.259
82386928|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 6B|-7.9|||||TWO_SIDED|90.0|-15.0|-1.01||||||||-1.01|-15.0|
82386929|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 7F|-3.0|||||TWO_SIDED|90.0|-7.95|1.1||||||||1.10|-7.95|
82386930|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 9V|-3.0|||||TWO_SIDED|90.0|-9.17|2.9||||||||2.90|-9.17|
82386931|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 14|1.0|||||TWO_SIDED|90.0|-4.0|6.27||||||||6.27|-4.00|
82386932|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 19A|-5.9|||||TWO_SIDED|90.0|-12.38|0.17||||||||0.17|-12.38|
82386933|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 19F|0.0|||||TWO_SIDED|90.0|-4.22|4.33||||||||4.33|-4.22|
82386934|NCT02308540|164484238|OTHER|Treatment group differences were estimated by the difference in proportion of seroresponders, with 2-sided exact 90% CIs around the difference calculated using the unconditional exact method of Newcombe. Although inference regarding seroresponse was not of primary concern in this study, a 2-sided 90% CI that excluded 0 was indicative of statistically significant difference at p ≤ 0.10 not corrected for multiplicity analysis.|Absolute Difference for Type 23F|-6.0|||||TWO_SIDED|90.0|-12.77|0.4||||||||0.40|-12.77|
82386935|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 1|9.1|||||TWO_SIDED|90.0|-15.55|36.11||||||||36.11|-15.55|
82386936|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 5|0.0|||||TWO_SIDED|90.0|-18.56|18.56||||||||18.56|-18.56|
82386937|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 6B|5.0|||||TWO_SIDED|90.0|-12.35|22.97||||||||22.97|-12.35|
82386938|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 14|5.3|||||TWO_SIDED|90.0|-12.15|24.01||||||||24.01|-12.15|
82443514|NCT03859739|164595500|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.79|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 2.44 %.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
82524148|NCT02093663|164744159|OTHER||Odds Ratio (OR)|0.99||||0.981|TWO_SIDED|95.0|0.42|2.34||P-value were based on a Cochran-Mantel-Haenszel test stratified by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-value s were presented as descriptive statistics.||2.34|0.42|0.981
82535232|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.393|TWO_SIDED|95.0|-0.58|0.23||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.23|-0.58|0.393
82524149|NCT02093663|164744160|OTHER||Difference in proportions|50.0||||0.4|TWO_SIDED|95.0|-19.3|100.0||P-value was calculated based on Fisher's exact test.|Fisher Exact|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||100.0|-19.3|0.400
82524150|NCT02093663|164744161|OTHER||Difference in proportions|50.0||||0.333|TWO_SIDED|95.0|-19.3|100.0||P-value was based on a Fisher's exact test.|Fisher Exact|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate.||100.0|-19.3|0.333
82524151|NCT02093663|164744162|OTHER||Difference in Least squares Mean|-5.4||||0.168|TWO_SIDED|95.0|-13.1|2.4||P-value is based on an analysis of covariance (ANCOVA) including treatment arm as a factor and baseline DUCS score as a covariate.|ANCOVA|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||2.4|-13.1|0.168
82524152|NCT02093663|164744163|OTHER||Difference in proportions|24.5||||0.131|TWO_SIDED|95.0|-1.6|50.6||P-value was based on a continuity-corrected chi-squared test. PUCAI Score was compared between treatment arms using a continuity corrected chi-squared test. Expected cell counts are very low (\< 5), then Fisher's Exact Test is alternative method.|Chi-squared, Corrected|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||50.6|-1.6|0.131
82524153|NCT02093663|164744164|OTHER||Difference in Proportions Percentage|-6.5||||0.539|TWO_SIDED|95.0|-25.3|12.3||P-value is based on a CMH test adjusted by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||12.3|-25.3|0.539
82524154|NCT02093663|164744165|OTHER||Difference in proportions|-16.2||||0.129|TWO_SIDED|95.0|-36.0|3.6||P-value was based on a Cochran-Mantel-Haenszel (CMH) test adjusted by prior response status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||3.6|-36.0|0.129
82524155|NCT02093663|164744166|OTHER||Difference in Least squares Mean|3.0||||0.182|TWO_SIDED|95.0|-1.4|7.4||P-value was based on an analysis of covariance (ANCOVA) including treatment arm and with prior response status.|ANCOVA|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||7.4|-1.4|0.182
82524156|NCT02093663|164744167|OTHER||Difference in proportions|-9.0||||0.194|TWO_SIDED|95.0|-29.1|11.0||P-value was based on a CMH test adjusted by prior response status. Participants with remission (PUCAI \<10) at double-blind maintenance phase at Week 26 was compared between treatment arms using a CMH test stratifying by Week 8 responder status.|Cochran-Mantel-Haenszel|||This study is not powered to detect differences between treatment groups and other sensitivity analysis (LOCF and complete case) intended to examine the robustness of the treatment estimate. This was an estimation study, and p-values were presented as descriptive statistics.||11.0|-29.1|0.194
82524157|NCT00508404|164744168|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|1.02|4.45|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||4.45|1.02|
82524158|NCT00508404|164744169|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86|||||TWO_SIDED|95.0|0.88|3.93|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||3.93|0.88|
82524159|NCT00508404|164744170|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.3|3.89|||||The odds ratio is defined as the odds of having an objective response in the KRAS Wild-type group relative to the odds in the KRAS Mutant group.|||3.89|0.30|
82386939|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 19A|-5.9|||||TWO_SIDED|90.0|-26.41|11.01||||||||11.01|-26.41|
82386940|NCT02308540|164484240|OTHER|Exact confidence intervals around treatment group differences are calculated based on Newcombe score. Calculation of difference and confidence interval around the difference is not possible when all subjects in both groups are responders|Absolute difference for MOPA type 19F|5.0|||||TWO_SIDED|90.0|-11.64|22.97||||||||22.97|-11.64|
82386941|NCT00863343|164484260|SUPERIORITY_OR_OTHER||Sensitivity|0.82|||||TWO_SIDED|95.0|0.59|0.94|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.94|0.59|
82386942|NCT00863343|164484260|SUPERIORITY_OR_OTHER||Specificity|0.987|||||TWO_SIDED|95.0|0.97|0.99|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.99|0.97|
82524160|NCT00508404|164744171|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.283|||||TWO_SIDED|95.0|0.13|0.614|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.614|0.130|
82386943|NCT00863343|164484261|SUPERIORITY_OR_OTHER||Sensitivity|0.81|||||TWO_SIDED|95.0|0.63|0.92|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.92|0.63|
82386944|NCT00863343|164484261|SUPERIORITY_OR_OTHER||Specificity|0.997|||||TWO_SIDED|95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
82386945|NCT00863343|164484262|SUPERIORITY_OR_OTHER||Sensitivity|0.88|||||TWO_SIDED|95.0|0.7|0.96|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.96|0.70|
82443515|NCT03859739|164595500|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.97|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 7.60%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
82524161|NCT00508404|164744172|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.642|||||TWO_SIDED|95.0|0.99|2.721|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||2.721|0.990|
82524162|NCT00508404|164744173|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.464|||||TWO_SIDED|95.0|0.306|0.703|||||Hazard ratio presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.703|0.306|
82386946|NCT00863343|164484262|SUPERIORITY_OR_OTHER||Specificity|0.997||||||95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
82386947|NCT00863343|164484263|SUPERIORITY_OR_OTHER||Sensitivity|0.79|||||TWO_SIDED|95.0|0.6|0.9|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||0.90|0.60|
82386948|NCT00863343|164484263|SUPERIORITY_OR_OTHER||Specificity|0.997|||||TWO_SIDED|95.0|0.98|1.0|||Wilson score method||Parameter dispersion type is not applicable. Sensitivity is the proportion of the actual positives that are correctly identified as such by the MSD test.|||1.0|0.98|
82524163|NCT00508404|164744174|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.395|||||TWO_SIDED|95.0|0.252|0.618|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||0.618|0.252|
82524164|NCT00508404|164744175|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.756|||||TWO_SIDED|95.0|0.4|1.43|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||1.430|0.400|
82386949|NCT02049814|164484264|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of 95% CI of Least Square Mean (LS mean) of HbA1C Changes was less than 0.4%, it was considered that the non-inferiority was established.||||||0.0001|||||||Paired t-test|||||||0.0001
82386950|NCT02307279|164484287|SUPERIORITY||Mean Difference (Net)|-2.07|STANDARD_ERROR_OF_MEAN|0.59||0.0007|TWO_SIDED|95.0|-3.24|-0.9|||ANCOVA|Adjusted for stratification factors, and baseline weight|Difference in adjusted mean taken for comparability between the two groups (treatment - placebo)|Simple Superiority, H0: μ (Placebo) -μ (Gelesis100) = 0||-0.90|-3.24|0.0007
82386951|NCT02307279|164484287|SUPERIORITY|||||||0.1193|||||||ANCOVA|Adjusted for stratification factors, and baseline weight||Super-Superiority (\>3% difference), H0: μ(Placebo)-μ(Gelesis100) \< 3%||||0.1193
82386952|NCT02307279|164484288|SUPERIORITY|The performance goal for body weight responders was set at 35%.|||||<|0.0001|||||||Binomial Proportion Test|||H0: π (Gelesis100)\< 0.35||||<0.0001
82386953|NCT02307279|164484288|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0008|TWO_SIDED|95.0|1.34|3.01|||Regression, Logistic|Adjusted for stratification factors and baseline weight||"OR-trt refers to the odds ratio of being a body weight responder for Gelesis100 vs. Placebo.~H0: OR-trt= 1."||3.01|1.34|0.0008
82386954|NCT02484456|164484297|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.79||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
82524165|NCT00508404|164744176|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.503|1.002|||||Hazard ratio is presented as Wild-type KRAS:Mutant KRAS. A value \< 1.0 indicates a lower average event rate and longer time to event for Wild-type KRAS relative to Mutant KRAS.|||1.002|0.503|
82448790|NCT01345669|164604858|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.818||||0.257|TWO_SIDED|95.0|0.577|1.158|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Global health status/QoL(Q29-Q30 from QLQ-C30).||1.158|0.577|0.2570
82524166|NCT00508404|164744178|SUPERIORITY_OR_OTHER_LEGACY||Difference in rates|8.34|||||TWO_SIDED|95.0|-4.01|19.08||||||||19.08|-4.01|
82386955|NCT02484456|164484298|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.72||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
82386956|NCT02484456|164484299|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.89||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
82386957|NCT02484456|164484300|SUPERIORITY||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.06||0.25|TWO_SIDED||||||Mixed Models Analysis|||||||0.25
82386958|NCT02484456|164484301|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.27||0.51|TWO_SIDED||||||Mixed Models Analysis|||||||0.51
82386959|NCT02484456|164484302|SUPERIORITY||Mean Difference (Final Values)|-1.83|STANDARD_ERROR_OF_MEAN|1.58||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
82386960|NCT02484456|164484303|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.02||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
82524167|NCT03662074|164744179|OTHER||||||||||||||||||The pre-specified analysis plan as per the protocol is to proceed to the second stage of recruitment for additional participants if the response proportion exceeds the historical control of 10%.|||
82386961|NCT02484456|164484304|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|1.34||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
82535233|NCT00495469|164768485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.072|TWO_SIDED|95.0|-0.76|0.03||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.03|-0.76|0.072
82386962|NCT02484456|164484305|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.2||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
82386963|NCT02484456|164484306|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.51||0.51|TWO_SIDED||||||Mixed Models Analysis|||||||0.51
82386964|NCT02484456|164484307|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.76||0.37|TWO_SIDED||||||Mixed Models Analysis|||||||0.37
82386965|NCT02484456|164484308|SUPERIORITY||Mean Difference (Final Values)|-2.02|STANDARD_ERROR_OF_MEAN|1.89||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.29
82386966|NCT02484456|164484309|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.92||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
82386967|NCT02484456|164484310|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.98||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
82386968|NCT02484456|164484311|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.1||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.88
82386969|NCT02484456|164484312|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.91||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82386970|NCT02484456|164484313|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|1.3||0.38|TWO_SIDED||||||Mixed Models Analysis|||||||0.38
82386971|NCT02484456|164484314|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|1.26||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
82386972|NCT02484456|164484315|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.98||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
82386973|NCT02484456|164484316|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.23||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
82386974|NCT02484456|164484317|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|1.39||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.81
82524168|NCT01197508|164744194|SUPERIORITY_OR_OTHER||LS mean|1.1|STANDARD_ERROR_OF_MEAN|0.84||1|TWO_SIDED|95.0|-0.53|2.79||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.79|-0.53|1.000
82524169|NCT01197508|164744194|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|95.0|-1.22|2.13|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.13|-1.22|1.000
82524170|NCT01197508|164744194|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|0.88||1|TWO_SIDED|95.0|-1.21|2.22|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-1.21|1.000
82524171|NCT01197508|164744195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.17||0.144|TWO_SIDED|95.0|0.45|1.12|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.12|0.45|0.144
82524172|NCT01197508|164744195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.17||0.203|TWO_SIDED|95.0|0.47|1.17|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.17|0.47|0.203
82524173|NCT01197508|164744195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.12||0.005|TWO_SIDED|95.0|0.32|0.82|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.82|0.32|0.005
82448791|NCT01345669|164604859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.295||||0.0591|TWO_SIDED|95.0|0.986|1.7||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For swallowing scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||1.700|0.986|0.0591
82524174|NCT01197508|164744196|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.22||0.636|TWO_SIDED|95.0|0.54|1.45|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.45|0.54|0.636
82524175|NCT01197508|164744196|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|STANDARD_ERROR_OF_MEAN|0.19||0.215|TWO_SIDED|95.0|0.44|1.2|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.20|0.44|0.215
82524176|NCT01197508|164744196|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|STANDARD_ERROR_OF_MEAN|0.15||0.034|TWO_SIDED|95.0|0.35|0.96|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.96|0.35|0.034
82524177|NCT01197508|164744197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.37||0.711|TWO_SIDED|95.0|0.36|1.99|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.99|0.36|0.711
82524178|NCT01197508|164744197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.34||0.594|TWO_SIDED|95.0|0.34|1.85|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.85|0.34|0.594
82524179|NCT01197508|164744197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|STANDARD_ERROR_OF_MEAN|0.49||0.749|TWO_SIDED|95.0|0.5|2.65|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.65|0.50|0.749
82524180|NCT01197508|164744198|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.16||0.037|TWO_SIDED|95.0|0.28|0.96|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.96|0.28|0.037
82524181|NCT01197508|164744198|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.21||0.222|TWO_SIDED|95.0|0.38|1.25|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.25|0.38|0.222
82524182|NCT01197508|164744198|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52|STANDARD_ERROR_OF_MEAN|0.17||0.042|TWO_SIDED|95.0|0.28|0.98|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||0.98|0.28|0.042
82524183|NCT01197508|164744199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.41||0.913|TWO_SIDED|95.0|0.48|2.27|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.27|0.48|0.913
82524184|NCT01197508|164744199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.37||0.841|TWO_SIDED|95.0|0.42|2.01|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.01|0.42|0.841
82524185|NCT01197508|164744199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61|STANDARD_ERROR_OF_MEAN|0.26||0.239|TWO_SIDED|95.0|0.26|1.39|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.39|0.26|0.239
82386975|NCT02484456|164484318|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.31||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
82386976|NCT02484456|164484319|SUPERIORITY||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|1.89||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.35
82386977|NCT02484456|164484320|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|1.63||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
82386978|NCT01430403|164484359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|0.331||0.03|TWO_SIDED|95.0|0.25|0.92|||Odds Ratio|Adjusted for Site, dosing group and treatment step|Placebo serves as the reference group. Values \< 1 represent more exacerbations in the placebo arm.|Null hypothesis is that there is no difference between the arms. Power calculation is described in detail in the study protocol.||0.92|0.25|0.03
82535234|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.767|TWO_SIDED|95.0|-0.4|0.3||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.30|-0.40|0.767
82425644|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82535235|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.604|TWO_SIDED|95.0|-0.46|0.27||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.27|-0.46|0.604
82535236|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.483|TWO_SIDED|95.0|-0.23|0.48||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.48|-0.23|0.483
82443516|NCT03859739|164595500|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.58|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 74.99%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
82443517|NCT03859739|164595500|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.78|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8558 and placebo ≤ -1.4 copies/mL was 87.41%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK-8558 and placebo is ≥ 1.4 log10 copies/mL.||||
82443518|NCT03859739|164595508|OTHER||Standard Error (SE)|0.146|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 0.25%.|The posterior probability (PP) that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
82443519|NCT03859739|164595508|OTHER||SE|0.146|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 65.41%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
82443520|NCT03859739|164595508|OTHER||SE|0.133|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 99.99%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
82443521|NCT03859739|164595508|OTHER||SE|0.163|||||||||||||PP that the true C168hr in plasma MK-8558 is ≥ 9.0 μM was 99.98%.|The PP that the true GM C168hr is ≥ 9.0 μM was calculated using a non-informative (Jeffrey's) prior under an assumption of normality of log C168hr.||||
82443522|NCT05268744|164595541|SUPERIORITY|Since all outcomes were normally distributed, one-sided paired t-test was used to compare mean pre- and post-treatment scores to see whether post-treatment scores of ABI-S and SRS had improved compared to pre-treatment scores|||||<|0.05|||||||t-test, 1 sided|||Null hypothesis was no improvement in mean ABI-S and SRS scores at the end of the study, compared to baseline||||<0.05
82524186|NCT01197508|164744200|SUPERIORITY_OR_OTHER||LS mean|1.1|STANDARD_ERROR_OF_MEAN|0.705||0.12|TWO_SIDED|95.0|-0.288|2.481|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.481|-0.288|0.120
82443523|NCT01318070|164595551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.179|||||TWO_SIDED|95.0|-0.224|-0.135||||||||-0.135|-0.224|
82443524|NCT01318070|164595551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.225|-0.135||||||||-0.135|-0.225|
82443525|NCT01318070|164595552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.363|||||TWO_SIDED|95.0|-0.434|-0.292||||||||-0.292|-0.434|
82443526|NCT01318070|164595552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.359|||||TWO_SIDED|95.0|-0.432|-0.287||||||||-0.287|-0.432|
82443527|NCT01318070|164595553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.588|||||TWO_SIDED|95.0|-0.692|-0.484||||||||-0.484|-0.692|
82443528|NCT01318070|164595553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.635|||||TWO_SIDED|95.0|-0.743|-0.526||||||||-0.526|-0.743|
82443529|NCT01318070|164595554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83|||||TWO_SIDED|95.0|-13.2|-4.47||||||||-4.47|-13.20|
82524187|NCT01197508|164744200|SUPERIORITY_OR_OTHER||LS mean|0.95|STANDARD_ERROR_OF_MEAN|0.715||0.184|TWO_SIDED|95.0|-0.452|2.354|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.354|-0.452|0.184
82524188|NCT01197508|164744200|SUPERIORITY_OR_OTHER||LS mean|2.09|STANDARD_ERROR_OF_MEAN|0.711||0.003|TWO_SIDED|95.0|0.692|3.484|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||3.484|0.692|0.003
82443530|NCT01318070|164595554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.06|||||TWO_SIDED|95.0|-17.86|-8.26||||||||-8.26|-17.86|
82443531|NCT01318070|164595555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.24|||||TWO_SIDED|95.0|-16.22|-6.25||||||||-6.25|-16.22|
82443532|NCT01318070|164595555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.82|||||TWO_SIDED|95.0|-20.0|-9.63||||||||-9.63|-20.00|
82443533|NCT01318070|164595556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.88|||||TWO_SIDED|95.0|-18.09|-7.68||||||||-7.68|-18.09|
82443534|NCT01318070|164595556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.08|||||TWO_SIDED|95.0|-22.64|-11.53||||||||-11.53|-22.64|
82443535|NCT01318070|164595557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.46|||||TWO_SIDED|95.0|-18.51|-6.4||||||||-6.40|-18.51|
82443536|NCT01318070|164595557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.49|||||TWO_SIDED|95.0|-22.78|-10.19||||||||-10.19|-22.78|
82443537|NCT01318070|164595558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.31|||||TWO_SIDED|95.0|-21.51|-3.1||||||||-3.10|-21.51|
82443538|NCT01318070|164595558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.19|||||TWO_SIDED|95.0|-30.43|-11.95||||||||-11.95|-30.43|
82443539|NCT01318070|164595559|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.717|||||TWO_SIDED|95.0|-0.848|-0.586||||||||-0.586|-0.848|
82443540|NCT01318070|164595559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.773|||||TWO_SIDED|95.0|-0.913|-0.634||||||||-0.634|-0.913|
82443541|NCT00140842|164595561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.0|STANDARD_DEVIATION|16.0|<|0.05||95.0|||||t-test, 2 sided|||The null hypothesis was that there is no difference between the groups for peak growth hormone on the growth hormone stimulation test.||||<0.05
82443542|NCT00140842|164595562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|23.7|STANDARD_DEVIATION|12.0|<|0.05||95.0|||||t-test, 2 sided|||The null hypothesis is that there is no difference between the groups for visceral adipose tissue||||<0.05
82535237|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.956|TWO_SIDED|95.0|-0.35|0.37||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.37|-0.35|0.956
82386979|NCT01430403|164484360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|STANDARD_ERROR_OF_MEAN|0.41||0.45|TWO_SIDED|95.0|0.33|1.64|||Odds Ratio|Adjusted for Site, dosing group and treatment step|ICS Boost serves as the reference group. Values \< 1 represent more exacerbations in the ICS arm.|Null hypothesis is that there is no difference between the arms. Power calculation is described in detail in the study protocol.||1.64|0.33|0.45
82386980|NCT01430403|164484361|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.01|TWO_SIDED|95.0|2.38|5.22|||Chi-squared||Adjusted for site|||5.22|2.38|<0.01
82386981|NCT01430403|164484362|SUPERIORITY_OR_OTHER||Linear Regression|0.004||||0.94|TWO_SIDED|95.0|-0.1|0.11|||F-Test|||||0.11|-0.10|0.94
82386982|NCT01430403|164484362|SUPERIORITY_OR_OTHER||Linear Regression|-0.13||||0.33|TWO_SIDED|95.0|-0.4|0.13|||F-Test|||||0.13|-0.40|0.33
82386983|NCT01430403|164484363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.552|TWO_SIDED|95.0|0.87|1.31|||Chi-squared|||||1.31|0.87|0.552
82386984|NCT01430403|164484363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.37|TWO_SIDED|95.0|0.87|1.44|||Chi-squared|||||1.44|0.87|0.37
82386985|NCT01430403|164484364|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.3||0.09|TWO_SIDED|95.0|-1.11|0.07|||Regression, Linear|Adjustments for randomization CASI, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||0.07|-1.11|0.09
82386986|NCT01430403|164484365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.3||0.39|TWO_SIDED|95.0|-0.86|0.34|||Regression, Linear|Adjustments for randomization CASI, site and dosing group||||0.34|-0.86|0.39
82524189|NCT01197508|164744201|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.12||0.131||95.0|-0.05|0.42|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.42|-0.05|0.131
82386987|NCT01430403|164484366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|1.58||0.84|TWO_SIDED|95.0|-3.42|2.78|||Regression, Linear|Adjustments for randomization FEV1 % predicted, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||2.78|-3.42|0.84
82386988|NCT01430403|164484367|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|1.59||0.14|TWO_SIDED|95.0|-0.76|5.51|||Regression, Linear|Adjustments for randomization FEV1 % predicted, site and dosing group.||||5.51|-0.76|0.14
82386989|NCT01430403|164484368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.89||0.78|TWO_SIDED|95.0|-1.49|1.99|||Regression, Linear|Adjustments for randomization FEV1:FVCx100, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.99|-1.49|0.78
82386990|NCT01430403|164484369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|0.89||0.2|TWO_SIDED|95.0|-0.61|2.91|||Regression, Linear|Adjustments for randomization FEV1:FVCx100, site and dosing group.||||2.91|-0.61|0.20
82386991|NCT01430403|164484370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.4||0.006|TWO_SIDED|95.0|0.32|1.9|||Regression, Linear|Adjustments for randomization ACT, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.90|0.32|0.006
82386992|NCT01430403|164484371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.41||0.89|TWO_SIDED|95.0|-0.76|0.86|||Regression, Linear|Adjustments for randomization ACT, site and dosing group.||||0.86|-0.76|0.89
82386993|NCT01430403|164484372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|0.36||0.05|TWO_SIDED|95.0|0.0|1.41|||Regression, Linear|Adjustments for randomization C-ACT, site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.41|0.00|0.05
82386994|NCT01430403|164484373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|0.37||0.12|TWO_SIDED|95.0|-0.15|1.3|||Regression, Linear|Adjustments for randomization C-ACT, site and dosing group||||1.30|-0.15|0.12
82639951|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.105|TWO_SIDED|95.0|-0.1|1.09|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.10|0.105
82639952|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.533|TWO_SIDED|95.0|-0.38|0.73|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.38|0.533
82639953|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.348|TWO_SIDED|95.0|-0.99|0.35|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.35|-0.99|0.348
82639954|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.016|TWO_SIDED|95.0|0.13|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.13|0.016
82639955|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.483|TWO_SIDED|95.0|-0.69|0.33|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.33|-0.69|0.483
82639956|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.006|TWO_SIDED|95.0|-1.47|-0.25|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.25|-1.47|0.006
82639957|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.177|TWO_SIDED|95.0|-0.19|1.0|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.00|-0.19|0.177
82639958|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.586|TWO_SIDED|95.0|-0.4|0.7|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.70|-0.40|0.586
82639959|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.448|TWO_SIDED|95.0|-0.92|0.41|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 3(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.41|-0.92|0.448
82443543|NCT01443130|164595608|SUPERIORITY_OR_OTHER|||||||0.2441||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025|Fisher Exact|||The null hypothesis is the incidence of placental malaria infection based on histology is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2441
82639960|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.043|TWO_SIDED|95.0|0.02|1.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|0.02|0.043
82639961|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.688|TWO_SIDED|95.0|-0.59|0.39|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.39|-0.59|0.688
82639962|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.032|TWO_SIDED|95.0|-1.25|-0.06|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.06|-1.25|0.032
82386995|NCT01430403|164484374|SUPERIORITY_OR_OTHER||Rate Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.68||0.63|TWO_SIDED|95.0|0.19|0.72|||Negative Binomial Generalized Estimating|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||0.72|0.19|0.63
82386996|NCT01430403|164484375|SUPERIORITY_OR_OTHER||Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.63||0.99|TWO_SIDED|95.0|0.29|3.46|||Negative Binomial Generalized Estimating|Adjustments for site and dosing group||||3.46|0.29|0.99
82443544|NCT01443130|164595608|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025|Fisher Exact|||The null hypothesis is the incidence of placental malaria infection based on histology is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.000
82386997|NCT01430403|164484376|SUPERIORITY_OR_OTHER||Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.32||0.31|TWO_SIDED|95.0|0.39|1.35|||Negative Binomial Generalized Estimating|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||1.35|0.39|0.31
82386998|NCT01430403|164484377|SUPERIORITY_OR_OTHER||Ratio|0.48|STANDARD_ERROR_OF_MEAN|0.39||0.06|TWO_SIDED|95.0|0.23|1.02|||Negative Binomial Generalized Estimating|Adjustments for site and dosing group||||1.02|0.23|0.06
82524190|NCT01197508|164744201|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.551|TWO_SIDED|95.0|-0.17|0.31|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.31|-0.17|0.551
82524191|NCT01197508|164744201|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.645|TWO_SIDED|95.0|-0.19|0.3|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.30|-0.19|0.645
82524192|NCT01197508|164744202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.046|TWO_SIDED|95.0|0.38|0.99|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||0.99|0.38|0.046
82524193|NCT01197508|164744202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.051|TWO_SIDED|95.0|0.38|1.0|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.00|0.38|0.051
82524194|NCT01197508|164744202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.15||0.04|TWO_SIDED|95.0|0.37|0.98|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||0.98|0.37|0.040
82524195|NCT01197508|164744203|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.66||0.273|TWO_SIDED|95.0|-0.58|2.03|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.03|-0.58|0.273
82524196|NCT01197508|164744203|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.67||0.315|TWO_SIDED|95.0|-0.65|2.0|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.00|-0.65|0.315
82524197|NCT01197508|164744203|SUPERIORITY_OR_OTHER||LS mean|1.2|STANDARD_ERROR_OF_MEAN|0.67||0.078|TWO_SIDED|95.0|-0.13|2.51|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||2.51|-0.13|0.078
82524198|NCT01197508|164744204|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.47||0.59|TWO_SIDED|95.0|-0.68|1.19|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.19|-0.68|0.590
82524199|NCT01197508|164744204|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.48||0.679|TWO_SIDED|95.0|-0.74|1.14|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.14|-0.74|0.679
82524200|NCT01197508|164744204|SUPERIORITY_OR_OTHER||LS mean|0.6|STANDARD_ERROR_OF_MEAN|0.48||0.215|TWO_SIDED|95.0|-0.35|1.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.53|-0.35|0.215
82524201|NCT01197508|164744205|SUPERIORITY_OR_OTHER||LS mean|1.2|STANDARD_ERROR_OF_MEAN|0.61||0.052|TWO_SIDED|95.0|-0.01|2.38|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.38|-0.01|0.052
82524202|NCT01197508|164744205|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.874|TWO_SIDED|95.0|-1.11|1.3|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.30|-1.11|0.874
82524203|NCT01197508|164744205|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.099|TWO_SIDED|95.0|-0.19|2.24|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.24|-0.19|0.099
82524204|NCT01197508|164744206|SUPERIORITY_OR_OTHER||LS mean|0.6|STANDARD_ERROR_OF_MEAN|0.69||0.394|TWO_SIDED|95.0|-0.77|1.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.95|-0.77|0.394
82524205|NCT01197508|164744206|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.712|TWO_SIDED|95.0|-1.11|1.63|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.63|-1.11|0.712
82535238|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.185|TWO_SIDED|95.0|-0.12|0.6||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.60|-0.12|0.185
82535239|NCT00495469|164768486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.863|TWO_SIDED|95.0|-0.32|0.39||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.39|-0.32|0.863
82577006|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.24||0.4572|TWO_SIDED|95.0|-0.3|0.65|||MMRM|||Depressed Mood, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.65|-0.30|0.4572
82386999|NCT01430403|164484378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|1.48||0.9|TWO_SIDED|95.0|-3.08|2.72|||Regression, Linear|Adjustments for site, dosing group and treatment group step (2-4 as one step and 5 separately)||||2.72|-3.08|0.90
82387000|NCT01430403|164484379|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.52||0.86|TWO_SIDED|95.0|-3.26|2.71|||Regression, Linear|Adjustments for site and dosing group.||||2.71|-3.26|0.86
82639963|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.179|TWO_SIDED|95.0|-0.19|0.99|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.99|-0.19|0.179
82387001|NCT00943150|164484381|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
82387002|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANOVA|||CD3+ at 0 weeks||||0.33
82387003|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||CD3+ at 3 weeks||||0.02
82387004|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||ANOVA|||CD3+ at 6 weeks||||0.71
82387005|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||CD68+ at 0 weeks||||0.67
82524206|NCT01197508|164744206|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.71||0.167|TWO_SIDED|95.0|-0.41|2.38|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.38|-0.41|0.167
82524207|NCT01197508|164744207|SUPERIORITY_OR_OTHER||LS mean|1.5|STANDARD_ERROR_OF_MEAN|0.75||0.046|TWO_SIDED|95.0|0.02|2.95|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||2.95|0.02|0.046
82524208|NCT01197508|164744207|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.75||0.681|TWO_SIDED|95.0|-1.17|1.79|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.79|-1.17|0.681
82577007|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.236||0.9866|TWO_SIDED|95.0|-0.47|0.46|||MMRM|||Depressed Mood, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.47|0.9866
82524209|NCT01197508|164744207|SUPERIORITY_OR_OTHER||LS mean|1.3|STANDARD_ERROR_OF_MEAN|0.77||0.087|TWO_SIDED|95.0|-0.19|2.84|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.84|-0.19|0.087
82387006|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||CD68+ at 3 weeks||||0.01
82387007|NCT00943150|164484382|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||ANOVA|||CD68+ at 6 weeks||||0.48
82387008|NCT00943150|164484383|SUPERIORITY_OR_OTHER|||||||0.1128||95.0|||||Exact Wilcoxon rank-sum test|||||||0.1128
82387009|NCT00943150|164484384|SUPERIORITY_OR_OTHER|||||||0.0898||95.0|||||Exact Wilcoxon test|||||||0.0898
82387010|NCT00943150|164484385|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||Exact Wilcoxon test|||Intraoperative narcotic use comparison||||0.0760
82387011|NCT00943150|164484385|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Exact Wilcoxon test|||Postoperative narcotic use comparison||||0.5900
82524210|NCT01197508|164744208|SUPERIORITY_OR_OTHER||LS mean|0.98|STANDARD_ERROR_OF_MEAN|0.736||1|TWO_SIDED|95.0|-0.464|2.427||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.427|-0.464|1.000
82387012|NCT00943150|164484386|SUPERIORITY_OR_OTHER|||||||0.4589||95.0|||||Exact Wilcoxon test|||||||0.4589
82535240|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.348|TWO_SIDED|95.0|-0.46|0.16||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.16|-0.46|0.348
82387013|NCT00943150|164484387|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Exact Wilcoxon test|||||||0.999
82387014|NCT00943150|164484388|SUPERIORITY_OR_OTHER|||||||0.0412||95.0|||||Exact Wilcoxon test|||||||0.0412
82387015|NCT00554515|164484416|SUPERIORITY|Comparison against historical control ORR of 14%.||||||0.042|||||||exact binomial test|||||||0.042
82387016|NCT00554515|164484417|SUPERIORITY|||||||0.39|||||||Fisher Exact|||Objective response rates were compared between ISM good and poor risk subgroups. ISM good risk ORR reported under primary endpoint.||||0.39
82443545|NCT01443130|164595609|SUPERIORITY_OR_OTHER|||||||0.4941||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria by placental impression smear is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4941
82443546|NCT01443130|164595609|SUPERIORITY_OR_OTHER|||||||0.499||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria by placental impression smear is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4990
82443547|NCT01443130|164595610|SUPERIORITY_OR_OTHER|||||||0.3089||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal anemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.3089
82443548|NCT01443130|164595610|SUPERIORITY_OR_OTHER|||||||0.6973||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal anemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.6973
82443549|NCT01443130|164595611|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal severe anemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||1.00
82443550|NCT01443130|164595611|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of maternal severe anemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.00
82443551|NCT01443130|164595612|SUPERIORITY_OR_OTHER|||||||0.4979||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of stillbirth is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4979
82639964|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.609|TWO_SIDED|95.0|-0.4|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.69|-0.40|0.609
82443552|NCT01443130|164595612|SUPERIORITY_OR_OTHER|||||||0.1166||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of stillbirth is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1166
82577008|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.229||0.749|TWO_SIDED|95.0|-0.53|0.38|||MMRM|||Depressed Mood, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|-0.53|0.7490
82443553|NCT01443130|164595613|SUPERIORITY_OR_OTHER|||||||0.6237||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of miscarriage is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.6237
82443554|NCT01443130|164595613|SUPERIORITY_OR_OTHER|||||||1||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of miscarriage is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||1.000
82443555|NCT01443130|164595614|SUPERIORITY_OR_OTHER|||||||0.5187||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of preterm delivery is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.5187
82443556|NCT01443130|164595614|SUPERIORITY_OR_OTHER|||||||0.2163||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of preterm delivery is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.2163
82443557|NCT01443130|164595615|SUPERIORITY_OR_OTHER|||||||0.5959||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infant mortality within 14 weeks of delivery is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.5959
82443558|NCT01443130|164595615|SUPERIORITY_OR_OTHER|||||||0.8127||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infant mortality within 14 weeks of delivery is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.8127
82443559|NCT01443130|164595616|SUPERIORITY_OR_OTHER|||||||0.2566||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of low birth weight is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2566
82443560|NCT01443130|164595616|SUPERIORITY_OR_OTHER|||||||0.7839||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of low birth weight is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.7839
82387017|NCT00554515|164484418|SUPERIORITY|||||||0.0014|||||||exact binomial test|||Test against the historical ORR was conducted in the overall study population as secondary analyses.||||0.0014
82387018|NCT00554515|164484421|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Objective response rates were compared between MSKCC subgroups.||||.89
82387019|NCT00554515|164484423|SUPERIORITY|||||||0.33|||||||Fisher Exact|||Objective response rates were compared between tumor type subgroups||||.33
82387020|NCT00554515|164484424|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Objective response rates were compared between clear cell histology subgroups||||.89
82387021|NCT00554515|164484425|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Objective response rates were compared between CA-9 score subgroups||||.19
82387022|NCT00554515|164484426|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Objective response rates were compared between PD-L1 tumor subgroups||||0.01
82387023|NCT00554515|164484427|SUPERIORITY|||||||0.08|||||||Fisher Exact|||Objective response rates were compared between B7-H3 tumor subgroups||||.08
82387024|NCT00554515|164484428|SUPERIORITY|||||||0.28|||||||Fisher Exact|||Objective response rates were compared between CA-9 SNP subgroups||||.28
82387025|NCT02477332|164484430|SUPERIORITY||Estimated target dose|32.5|||<|0.05|TWO_SIDED|60.0|27.5|42.5|||Regression, Logistic|Target dose was based on this estimated dose response. The 60% CI included the 20 - 80th percentile of target dose estimated in the bootstrap samples.|Min dose with effect size \>15%|||42.5|27.5|<.05
82387026|NCT01075256|164484514|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.1||||0.3628|TWO_SIDED|95.0|-6.7|2.46||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no diference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||2.46|-6.70|0.3628
82387027|NCT01075256|164484514|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2||||0.9361|TWO_SIDED|95.0|-4.45|4.83||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||4.83|-4.45|0.9361
82387028|NCT01075256|164484514|SUPERIORITY_OR_OTHER||Adjusted Mean difference|2.3||||0.3257|TWO_SIDED|95.0|-2.31|6.92||No adustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.92|-2.31|0.3257
82387029|NCT01075256|164484515|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0||||0.6674|TWO_SIDED|95.0|-5.73|3.68||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||3.68|-5.73|0.6674
82443561|NCT01443130|164595617|SUPERIORITY_OR_OTHER|||||||0.2553||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of intrauterine growth restriction is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.2553
82443562|NCT01443130|164595617|SUPERIORITY_OR_OTHER|||||||0.4354||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of intrauterine growth restriction is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4354
82387030|NCT01075256|164484515|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9888|TWO_SIDED|95.0|-4.74|4.81||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is the high concentration minus placebo such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||4.81|-4.74|0.9888
82387031|NCT01075256|164484515|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1||||0.6599|TWO_SIDED|95.0|-3.69|5.81||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||5.81|-3.69|0.6599
82387032|NCT01075256|164484516|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1||||0.9759|TWO_SIDED|95.0|-6.34|6.54||No adjustments for multiple comparisons|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.54|-6.34|0.9759
82387033|NCT01075256|164484516|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5||||0.8903|TWO_SIDED|95.0|-6.97|6.06||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.06|-6.97|0.8903
82387034|NCT01075256|164484516|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6||||0.8662|TWO_SIDED|95.0|-7.04|5.93||No adjustments for multiple comparisons|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.||5.93|-7.04|0.8662
82639965|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.435|TWO_SIDED|95.0|-0.92|0.4|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.40|-0.92|0.435
82387035|NCT01075256|164484517|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6||||0.8419|TWO_SIDED|95.0|-6.93|5.66||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||5.66|-6.93|0.8419
82387036|NCT01075256|164484517|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3||||0.9147|TWO_SIDED|95.0|-6.03|6.72||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.72|-6.03|0.9147
82387037|NCT01075256|164484517|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0||||0.76|TWO_SIDED|95.0|-5.36|7.33||No adjustments for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||7.33|-5.36|0.7600
82387038|NCT01075256|164484518|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.5||||0.9124|TWO_SIDED|95.0|-8.28|9.24||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.24|-8.28|0.9124
82387039|NCT01075256|164484518|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5||||0.9083|TWO_SIDED|95.0|-9.13|8.14||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level||8.14|-9.13|0.9083
82443563|NCT01443130|164595618|SUPERIORITY_OR_OTHER|||||||0.369||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of active placental malaria infection is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.3690
82443564|NCT01443130|164595618|SUPERIORITY_OR_OTHER|||||||0.4947||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of active placental malaria infection is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4947
82387040|NCT01075256|164484518|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0||||0.8231|TWO_SIDED|95.0|-9.73|7.77||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||7.77|-9.73|0.8231
82387041|NCT01075256|164484519|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.4||||0.5946|TWO_SIDED|95.0|-9.32|16.09||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||16.09|-9.32|0.5946
82443565|NCT01443130|164595619|SUPERIORITY_OR_OTHER|||||||0.063||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria infection (all species) measured by positive parasitemia is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.0630
82387042|NCT01075256|164484519|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9944|TWO_SIDED|95.0|-12.51|12.6||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||12.60|-12.51|0.9944
82387043|NCT01075256|164484519|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.3||||0.5998|TWO_SIDED|95.0|-16.06|9.38||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.38|-16.06|0.5998
82387044|NCT01075256|164484520|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2||||0.7952|TWO_SIDED|95.0|-10.51|8.09||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.09|-10.51|0.7952
82535241|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.952|TWO_SIDED|95.0|-0.33|0.31||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.31|-0.33|0.952
82639966|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.023|TWO_SIDED|95.0|0.1|1.26|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.26|0.10|0.023
82639967|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.987|TWO_SIDED|95.0|-0.54|0.53|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.53|-0.54|0.987
82639968|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.04|TWO_SIDED|95.0|-1.33|-0.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.03|-1.33|0.040
82639969|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.319|TWO_SIDED|95.0|-0.31|0.94|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.31|0.319
82639970|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.712|TWO_SIDED|95.0|-0.47|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.69|-0.47|0.712
82639971|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.557|TWO_SIDED|95.0|-0.91|0.49|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.49|-0.91|0.557
82387045|NCT01075256|164484520|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4||||0.601|TWO_SIDED|95.0|-11.56|6.76||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|The null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||6.76|-11.56|0.6010
82639972|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.015|TWO_SIDED|95.0|0.14|1.28|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.28|0.14|0.015
82425645|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82639973|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.326|TWO_SIDED|95.0|-0.26|0.79|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.79|-0.26|0.326
82639974|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.167|TWO_SIDED|95.0|-1.08|0.19|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.19|-1.08|0.167
82639975|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.35|TWO_SIDED|95.0|-0.33|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.33|0.350
82639976|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.235|TWO_SIDED|95.0|-0.23|0.93|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-0.23|0.235
82639977|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.881|TWO_SIDED|95.0|-0.65|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 4(PM):The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.76|-0.65|0.881
82639978|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.036|TWO_SIDED|95.0|0.04|1.16|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.16|0.04|0.036
82639979|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.656|TWO_SIDED|95.0|-0.4|0.63|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.63|-0.40|0.656
82639980|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.13|TWO_SIDED|95.0|-1.11|0.14|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.14|-1.11|0.130
82639981|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.304|TWO_SIDED|95.0|-0.3|0.95|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.95|-0.30|0.304
82639982|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.491|TWO_SIDED|95.0|-0.37|0.78|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.78|-0.37|0.491
82639983|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.726|TWO_SIDED|95.0|-0.82|0.57|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.57|-0.82|0.726
82639984|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.029|TWO_SIDED|95.0|0.07|1.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.23|0.07|0.029
82639985|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.585|TWO_SIDED|95.0|-0.39|0.68|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.68|-0.39|0.585
82639986|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.131|TWO_SIDED|95.0|-1.15|0.15|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.15|-1.15|0.131
82639987|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.215|TWO_SIDED|95.0|-0.24|1.04|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.04|-0.24|0.215
82639988|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.244|TWO_SIDED|95.0|-0.24|0.94|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.24|0.244
82443566|NCT01443130|164595619|SUPERIORITY_OR_OTHER|||||||0.4184||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of malaria infection (all species) measured by positive parasitemia is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.4184
82524211|NCT01197508|164744208|SUPERIORITY_OR_OTHER||LS mean|0.72|STANDARD_ERROR_OF_MEAN|0.746||1|TWO_SIDED|95.0|-0.74|2.188||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.188|-0.740|1.000
82524212|NCT01197508|164744208|SUPERIORITY_OR_OTHER||LS mean|0.85|STANDARD_ERROR_OF_MEAN|0.762||1|TWO_SIDED|95.0|-0.649|2.346||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.346|-0.649|1.000
82535242|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.523|TWO_SIDED|95.0|-0.21|0.42||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.42|-0.21|0.523
82639989|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.885|TWO_SIDED|95.0|-0.76|0.66|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.66|-0.76|0.885
82639990|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.067|TWO_SIDED|95.0|-0.04|1.13|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|-0.04|0.067
82639991|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.5|TWO_SIDED|95.0|-0.35|0.73|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.35|0.500
82639992|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.276|TWO_SIDED|95.0|-1.02|0.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.29|-1.02|0.276
82639993|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.413|TWO_SIDED|95.0|-0.38|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.38|0.413
82639994|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.448|TWO_SIDED|95.0|-0.37|0.83|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.83|-0.37|0.448
82639995|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.917|TWO_SIDED|95.0|-0.76|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 5(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.69|-0.76|0.917
82639996|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.132|TWO_SIDED|95.0|-0.13|1.03|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.03|-0.13|0.132
82639997|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.505|TWO_SIDED|95.0|-0.35|0.72|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.72|-0.35|0.505
82639998|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.422|TWO_SIDED|95.0|-0.92|0.38|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.38|-0.92|0.422
82425646|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.393||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.393
82639999|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.747|TWO_SIDED|95.0|-0.54|0.76|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.76|-0.54|0.747
82640000|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.386|TWO_SIDED|95.0|-0.34|0.87|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.34|0.386
82535243|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.889|TWO_SIDED|95.0|-0.34|0.29||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.29|-0.34|0.889
82640001|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.668|TWO_SIDED|95.0|-0.57|0.89|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.89|-0.57|0.668
82640002|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.099|TWO_SIDED|95.0|-0.09|1.08|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.08|-0.09|0.099
82640003|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.365|TWO_SIDED|95.0|-0.29|0.79|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.79|-0.29|0.365
82640004|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.463|TWO_SIDED|95.0|-0.9|0.41|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.41|-0.90|0.463
82524213|NCT01197508|164744209|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.914|TWO_SIDED|95.0|-0.54|0.61|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.61|-0.54|0.914
82387046|NCT01075256|164484520|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2||||0.7976|TWO_SIDED|95.0|-10.48|8.1||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.10|-10.48|0.7976
82640005|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.845|TWO_SIDED|95.0|-0.6|0.73|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.73|-0.60|0.845
82387047|NCT01075256|164484521|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.7||||0.906|TWO_SIDED|95.0|-10.38|11.68||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||11.68|-10.38|0.9060
82387048|NCT01075256|164484521|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.7||||0.7575|TWO_SIDED|95.0|-12.63|9.25||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||9.25|-12.63|0.7575
82387049|NCT01075256|164484521|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.3||||0.6727|TWO_SIDED|95.0|-13.42|8.73||No adjustment was made for multiple comparisons.|ANCOVA|ANCOVA model adjusted for baseline, treatment and number of sensitive teeth and years of sensitivity|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments in comparison. Statistical tests were 2-sided at 5% significance level.||8.73|-13.42|0.6727
82387050|NCT02115581|164484527|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.267
82387051|NCT02115581|164484528|SUPERIORITY_OR_OTHER|||||||0.011|||||||Fisher Exact|||||||0.011
82387052|NCT02593097|164484537|SUPERIORITY|||||||0.83|||||||Hills-Armitage|||||||0.83
82387053|NCT02593097|164484538|SUPERIORITY|||||||0.16|||||||McNemar|||||||0.16
82387054|NCT00665431|164484554|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority margin (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.94|3.34|||ANCOVA|||||3.34|-5.94|
82387055|NCT00665431|164484555|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-2.11|||||TWO_SIDED|95.0|-6.82|2.6|||ANCOVA|||||2.60|-6.82|
82443567|NCT01443130|164595620|SUPERIORITY_OR_OTHER|||||||0.0268||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Cox proportional hazards|||The null hypothesis is the incidence of clinical malaria (all species) is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.0268
82535244|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.124|TWO_SIDED|95.0|-0.07|0.56||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.56|-0.07|0.124
82387056|NCT00665431|164484556|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|3.45|||||TWO_SIDED|95.0|-1.41|8.31|||ANCOVA|||||8.31|-1.41|
82387057|NCT01578239|164484627|SUPERIORITY||Hazard Ratio (HR)|0.177|||<|0.0001|TWO_SIDED|95.0|0.108|0.289||Derived from a two-sided test between the two groups|Log Rank||Hazard ratio is expressed as Lu-DOTA-Tyr-Octreotate / Octreotide LAR and estimated from the corresponding Cox model.|||0.289|0.108|<0.0001
82387058|NCT01578239|164484628|SUPERIORITY|||||||0.0141|||||||Fisher Exact|||||||0.0141
82387059|NCT01578239|164484629|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3039|TWO_SIDED|95.0|0.6|1.17|||Log Rank|||||1.17|0.60|0.3039
82387060|NCT01578239|164484630|SUPERIORITY||Cox Proportional Hazard|0.84||||0.3039|TWO_SIDED|95.0|0.6|1.17|||Log Rank||Hazard Ratio of Lu-DOTA-Tyr-Octreotate vs. Octreotide LAR|||1.17|0.60|0.3039
82387061|NCT01578239|164484631|SUPERIORITY||Hazard Ratio (HR)|0.137|||<|0.0001|TWO_SIDED|95.0|0.077|0.242|||Log Rank|||||0.242|0.077|<0.0001
82524214|NCT01197508|164744209|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.446|TWO_SIDED|95.0|-0.36|0.81|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.81|-0.36|0.446
82524215|NCT01197508|164744209|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.656|TWO_SIDED|95.0|-0.47|0.75|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.75|-0.47|0.656
82524216|NCT01197508|164744210|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.248|TWO_SIDED|95.0|-0.21|0.82|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.82|-0.21|0.248
82524217|NCT01197508|164744210|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.498|TWO_SIDED|95.0|-0.34|0.7|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.70|-0.34|0.498
82524218|NCT01197508|164744210|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.441|TWO_SIDED|95.0|-0.32|0.74|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.74|-0.32|0.441
82524219|NCT01197508|164744211|SUPERIORITY_OR_OTHER||LS mean|0.4|STANDARD_ERROR_OF_MEAN|0.26||0.174|TWO_SIDED|95.0|-0.16|0.87|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.87|-0.16|0.174
82524220|NCT01197508|164744211|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.402|TWO_SIDED|95.0|-0.3|0.74|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.74|-0.30|0.402
82524221|NCT01197508|164744211|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.197|TWO_SIDED|95.0|-0.18|0.88|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.88|-0.18|0.197
82577009|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.247||0.0235|TWO_SIDED|95.0|-1.06|-0.08|||MMRM|||Depressed Mood, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-1.06|0.0235
82387062|NCT02347813|164484636|OTHER||Mean Difference (Final Values)|0.5||||0.75|TWO_SIDED|95.0|||||ANOVA|||||||0.750
82524222|NCT01197508|164744212|SUPERIORITY_OR_OTHER||LS mean|-1.47|STANDARD_ERROR_OF_MEAN|1.643||0.371|TWO_SIDED|95.0|-4.697|1.756|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.756|-4.697|0.371
82524223|NCT01197508|164744212|SUPERIORITY_OR_OTHER||LS mean|-1.32|STANDARD_ERROR_OF_MEAN|1.672||0.432|TWO_SIDED|95.0|-4.597|1.967|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.967|-4.597|0.432
82524224|NCT01197508|164744212|SUPERIORITY_OR_OTHER||LS mean|-2.71|STANDARD_ERROR_OF_MEAN|1.672||0.105|TWO_SIDED|95.0|-5.992|0.573|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.573|-5.992|0.105
82524225|NCT01197508|164744213|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.312|TWO_SIDED|95.0|-0.29|0.09|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.09|-0.29|0.312
82524226|NCT01197508|164744213|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.885|TWO_SIDED|95.0|-0.18|0.21|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.21|-0.18|0.885
82524227|NCT01197508|164744213|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.067|TWO_SIDED|95.0|-0.37|0.01|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.01|-0.37|0.067
82524228|NCT01197508|164744214|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.152|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.05|-0.33|0.152
82524229|NCT01197508|164744214|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.078|TWO_SIDED|95.0|-0.37|0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.02|-0.37|0.078
82387063|NCT01294241|164484644|SUPERIORITY_OR_OTHER||||||=|0.008||||||Post-hoc superiority analysis: Wounds that were either evaluated controversially (n=2) or as being equal (n=2) were excluded from the analysis of the primary efficacy variable.|Two-sided exact binomial test|||The intra-individual difference in reepithelialization of wound (halves) was tested using a two-sided exact binomial test. The test was performed at a significance level of 5% for the null-hypothesis of no difference δ = 0 against the hypotheses δ ≠ 0: H0: δ = 0 H1: δ ≠ 0||||=0.008
82387064|NCT01294241|164484645|SUPERIORITY_OR_OTHER||||||=|0.21||||||Post-hoc superiority analysis|Wilcoxon (Mann-Whitney)|||The intra-individual difference in median percentage of wound epithelialization was tested using a two-sided Wilcoxon test.||||=0.21
82387065|NCT01294241|164484646|SUPERIORITY_OR_OTHER|||||||0.33||||||Post-hoc superiority analysis|Wilcoxon (Mann-Whitney)|||The intra-individual difference in median percentage of wound epithelialization was tested using a two-sided Wilcoxon test.||||0.33
82387066|NCT02644668|164484647|SUPERIORITY||Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.9086|TWO_SIDED|95.0|-0.13|0.11|||Mixed Models Analysis|||||0.11|-0.13|0.9086
82387067|NCT02644668|164484647|SUPERIORITY||Least squares mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.065||0.4361|TWO_SIDED|95.0|-0.18|0.08|||Mixed Models Analysis|||||0.08|-0.18|0.4361
82640006|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.199|TWO_SIDED|95.0|-0.21|1.02|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.21|0.199
82387068|NCT02644668|164484648|SUPERIORITY||Least squares mean difference|-2.94|STANDARD_ERROR_OF_MEAN|4.749||0.5382|TWO_SIDED|95.0|-12.43|6.55|||Mixed Models Analysis|||||6.55|-12.43|0.5382
82387069|NCT02644668|164484648|SUPERIORITY||Least squares mean difference|0.99|STANDARD_ERROR_OF_MEAN|5.099||0.8464|TWO_SIDED|95.0|-9.19|11.18|||Mixed Models Analysis|||||11.18|-9.19|0.8464
82387070|NCT02644668|164484649|SUPERIORITY||Least squares mean difference|11.69|STANDARD_ERROR_OF_MEAN|5.506||0.0378|TWO_SIDED|95.0|0.68|22.7|||Mixed Models Analysis|||||22.70|0.68|0.0378
82387071|NCT02644668|164484649|SUPERIORITY||Least squares mean difference|13.15|STANDARD_ERROR_OF_MEAN|5.913||0.0298|TWO_SIDED|95.0|1.33|24.97|||Mixed Models Analysis|||||24.97|1.33|0.0298
82387072|NCT02644668|164484650|SUPERIORITY||Least squares mean difference|-4.59|STANDARD_ERROR_OF_MEAN|7.56||0.5461|TWO_SIDED|95.0|-19.69|10.52|||Mixed Models Analysis|||||10.52|-19.69|0.5461
82387073|NCT02644668|164484650|SUPERIORITY||Least squares mean difference|-15.23|STANDARD_ERROR_OF_MEAN|8.175||0.0672|TWO_SIDED|95.0|-31.56|1.11|||Mixed Models Analysis|||||1.11|-31.56|0.0672
82387074|NCT02644668|164484651|SUPERIORITY||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.928||0.6849|TWO_SIDED|95.0|-2.23|1.48|||Mixed Models Analysis|||||1.48|-2.23|0.6849
82387075|NCT02644668|164484651|SUPERIORITY||Least squares mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.98||0.3091|TWO_SIDED|95.0|-2.96|0.95|||Mixed Models Analysis|||||0.95|-2.96|0.3091
82387076|NCT02644668|164484652|SUPERIORITY||Least squares mean difference|0.61|STANDARD_ERROR_OF_MEAN|0.571||0.2878|TWO_SIDED|95.0|-0.53|1.75|||Mixed Models Analysis|||||1.75|-0.53|0.2878
82387077|NCT02644668|164484652|SUPERIORITY||Least squares mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.616||0.8512|TWO_SIDED|95.0|-1.34|1.11|||Mixed Models Analysis|||||1.11|-1.34|0.8512
82443568|NCT01443130|164595620|SUPERIORITY_OR_OTHER|||||||0.1646||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Cox proportional hazards|||The null hypothesis is the incidence of clinical malaria (all species) is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1646
82443569|NCT01443130|164595621|SUPERIORITY_OR_OTHER|||||||0.4501||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infection in the fetal circulation is identical between subjects receiving maternal chloroquine prophylaxis vs. maternal SP IPT.||||0.4501
82443570|NCT01443130|164595621|SUPERIORITY_OR_OTHER|||||||0.1758||||||A Bonferroni correction was used due to multiple comparisons. Comparisons are statistically significant if the two-sided p-value is ≤ 0.05/2=0.025.|Fisher Exact|||The null hypothesis is the incidence of infection in the fetal circulation is identical between subjects receiving maternal chloroquine IPT vs. maternal SP IPT.||||0.1758
82443571|NCT00364533|164595637|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|91.4|||<|0.001||95.0|49.77|133.07|||ANCOVA|||The study was terminated and did not reach the planned sample size.||133.07|49.77|<0.001
82443572|NCT00364533|164595637|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|81.5|||<|0.001||95.0|38.66|124.29|||ANCOVA|||The study was terminated and did not reach the planned sample size.||124.29|38.66|<0.001
82443573|NCT00364533|164595637|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|81.5|||<|0.001||95.0|39.21|123.8|||ANCOVA|||The study was terminated and did not reach the planned sample size.||123.80|39.21|<0.001
82524230|NCT01197508|164744214|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.41|-0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||-0.02|-0.41|0.033
82524231|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|-0.011|STANDARD_ERROR_OF_MEAN|0.0181||0.543|TWO_SIDED|95.0|-0.0465|0.0245||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0245|-0.0465|0.543
82443574|NCT00364533|164595637|SUPERIORITY_OR_OTHER||LS mean difference of SPID48|82.4|||<|0.001||95.0|38.96|125.88|||ANCOVA|||The study was terminated and did not reach the planned sample size.||125.88|38.96|<0.001
82443575|NCT03461406|164595646|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 4 Minutes (Parenchymous)||1.09|0.92|< 0.001
82443576|NCT03461406|164595646|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8|Relative risk|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.16|||Cochran-Mantel-Haenszel|||Hemostasis by 4 Minutes (Soft Tissue)||1.16|0.91|< 0.001
82443577|NCT03461406|164595647|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 7 Minutes (Parenchymous)||1.09|0.92|< 0.001
82443578|NCT03461406|164595647|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% confidence interval (CI) exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 7 Minutes (Soft tissue)||1.09|0.92|< 0.001
82443579|NCT03461406|164595648|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8.|Relative risk|0.98|||<|0.001|TWO_SIDED|95.0|0.94|1.02|||Cochran-Mantel-Haenszel|||Hemostasis by 10 Minutes (Parenchymous)||1.02|0.94|< 0.001
82443580|NCT03461406|164595648|NON_INFERIORITY|The non-inferiority was deemed to have been demonstrated if the lower limit of the 95% CI exceeds 0.8.|Relative risk|1.0|||<|0.001|TWO_SIDED|95.0|0.92|1.09|||Cochran-Mantel-Haenszel|||Hemostasis by 10 Minutes (Soft tissue)||1.09|0.92|< 0.001
82443581|NCT01291836|164595657|SUPERIORITY_OR_OTHER_LEGACY||Area under Receiver-Operator Curve (ROC)|0.658|||||TWO_SIDED|95.0|0.586|0.73||||||Null Hypothesis: ROC AUC of 0.58; using a one-sided z-test at a significance level of 0.025. Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|0.73|0.586|
82443582|NCT01291836|164595658|SUPERIORITY_OR_OTHER_LEGACY||ROC AUC|0.65|||||TWO_SIDED|95.0|0.598|0.702||||||Null Hypothesis: AUC ≤0.55, using a one-sided z-test at a significance level of 0.025. Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|Efficacy determined by the evaluation of the area under the Receiver Operator Curve (ROC) generated from the study primary endpoint data. The units on both axes of the ROC curve are dimensionless proportions from 0 to 1.|0.702|0.598|
82524232|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.0183||0.998|TWO_SIDED|95.0|-0.036|0.0361||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0361|-0.0360|0.998
82524233|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|-0.006|STANDARD_ERROR_OF_MEAN|0.0188||0.743|TWO_SIDED|95.0|-0.0432|0.0308||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0308|-0.0432|0.743
82387078|NCT02644668|164484653|SUPERIORITY||Least squares mean difference|-0.78|STANDARD_ERROR_OF_MEAN|2.528||0.7612|TWO_SIDED|95.0|-6.08|4.52|||Mixed Models Analysis|||||4.52|-6.08|0.7612
82387079|NCT02644668|164484653|SUPERIORITY||Least squares mean difference|-3.1|STANDARD_ERROR_OF_MEAN|3.231||0.3502|TWO_SIDED|95.0|-9.91|3.7|||Mixed Models Analysis|||||3.70|-9.91|0.3502
82387080|NCT02644668|164484654|SUPERIORITY||Least squares mean difference|7.72|STANDARD_ERROR_OF_MEAN|10.484||0.4684|TWO_SIDED|95.0|-13.86|29.3|||Mixed Models Analysis|||||29.30|-13.86|0.4684
82387081|NCT02644668|164484654|SUPERIORITY||Least squares mean difference|24.89|STANDARD_ERROR_OF_MEAN|12.55||0.0584|TWO_SIDED|95.0|-0.95|50.74|||Mixed Models Analysis|||||50.74|-0.95|0.0584
82387082|NCT02644668|164484655|SUPERIORITY||Odds Ratio (OR)|0.43||||0.1686|TWO_SIDED|95.0|0.13|1.43|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||1.43|0.13|0.1686
82443583|NCT00966719|164595672|OTHER||Risk Ratio (RR)|0.84||||0.4|TWO_SIDED|95.0|0.56|1.24|||Fisher Exact|||||1.24|0.56|0.40
82443584|NCT00966719|164595673|OTHER||Risk Ratio (RR)|1.15||||1|TWO_SIDED|95.0|0.44|3.02|||Fisher Exact|||||3.02|0.44|1
82443585|NCT00966719|164595674|OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.91|1.1|||Fisher Exact|||||1.10|0.91|1
82535245|NCT00495469|164768487|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.581|TWO_SIDED|95.0|-0.22|0.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.40|-0.22|0.581
82443586|NCT00966719|164595675|OTHER||Risk Ratio (RR)|1.03||||0.78|TWO_SIDED|95.0|0.85|1.26|||Fisher Exact|||||1.26|0.85|0.78
82387083|NCT02644668|164484655|SUPERIORITY||Odds Ratio (OR)|0.67||||0.5259|TWO_SIDED|95.0|0.2|2.3|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||2.30|0.20|0.5259
82524234|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|-2.3|STANDARD_ERROR_OF_MEAN|1.95||0.244|TWO_SIDED|95.0|-6.1|1.56||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.56|-6.10|0.244
82387084|NCT02644668|164484656|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7655|TWO_SIDED|95.0|0.34|4.4|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||4.40|0.34|0.7655
82387085|NCT02644668|164484656|SUPERIORITY||Odds Ratio (OR)|1.61||||0.492|TWO_SIDED|95.0|0.41|6.25|||Regression, Logistic|||Odds ratio of active vs placebo comparison of the patients' global assessment of better than pre-dose vs same or worse than pre-dose||6.25|0.41|0.4920
82387086|NCT01057810|164484743|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.3667|TWO_SIDED|95.87|0.88|1.39|||Log Rank||Hazard ratio = ipilimumab over placebo|||1.39|0.88|0.3667
82387087|NCT01057810|164484744|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.55|0.8|||||HR = ipilimumab over placebo|||0.80|0.55|
82524235|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|-1.7|STANDARD_ERROR_OF_MEAN|1.98||0.389|TWO_SIDED|95.0|-5.59|2.18||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.18|-5.59|0.389
82387088|NCT01057810|164484745|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.87|0.52|0.83|||||HR = Ipilimumab over placebo|||0.83|0.52|
82387089|NCT01057810|164484746|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.87|0.71|1.35|||||HR = Ipilimumab over placebo|||1.35|0.71|
82387090|NCT02088905|164484750|SUPERIORITY|||||||0.08||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of ECBI Problem Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.080
82387091|NCT02088905|164484750|SUPERIORITY|||||||0.026||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of ECBI Intensity Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.026
82443587|NCT00966719|164595676|OTHER||Risk Ratio (RR)|2.94||||0.32|TWO_SIDED|95.0|0.32|27.3|||Fisher Exact|||||27.30|0.32|0.32
82387092|NCT02088905|164484750|OTHER|Type III Tests of Fixed Effects|||||<|0.001||||||Mixed Model Analysis - Significance of Timepoint within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||<.001
82387093|NCT02088905|164484750|OTHER|Type III Tests of Fixed Effects||||||0.182||||||Mixed Model Analysis - Significance of Treatment Assignment within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||.182
82387094|NCT02088905|164484750|OTHER|Type III Tests of Fixed Effects||||||0.015||||||Mixed Model Analysis - Significance of Treatment Assignment and Timepoint Interaction Term within the model in determining the effectiveness of assigned treatment.|Mixed Models Analysis|||Mixed Model Analysis of ECBI Intensity Scores, with variables of Timepoint, Treatment Assignment, and Timepoint\*Treatment Assignment interaction. Random intercept used.||||.015
82387095|NCT02088905|164484751|SUPERIORITY|||||||0.203||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of PSI Parental Distress between Week 18 scores, 1 sided test for Treatment Group Superiority||||.203
82387096|NCT02088905|164484751|SUPERIORITY|||||||0.17||||||No adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||Comparison of PSI Parent-Child Dysfunctional Interaction between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.17
82387097|NCT02088905|164484751|SUPERIORITY|||||||0.308||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of PSI Difficult Child between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.308
82387098|NCT02088905|164484751|SUPERIORITY|||||||0.413||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of PSI Total Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.413
82387099|NCT02088905|164484753|SUPERIORITY|||||||0.271||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Total Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||0.271
82387100|NCT02088905|164484753|SUPERIORITY|||||||0.434||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Awareness Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.434
82387101|NCT02088905|164484753|SUPERIORITY|||||||0.298||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Cognition Scores between Week 18 scores, 1 sided test for Treatment Group Superiority||||.298
82387102|NCT02088905|164484753|SUPERIORITY|||||||0.294||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Communication Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.294
82387103|NCT02088905|164484753|SUPERIORITY|||||||0.441||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Motivation between Week 18 scores, 1 sided test for Treatment Group Superiority||||.441
82387104|NCT02088905|164484753|SUPERIORITY|||||||0.204||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of SRS Restricted and Repetitive Behavior Score between Week 18 scores, 1 sided test for Treatment Group Superiority||||.204
82387105|NCT02088905|164484755|SUPERIORITY||||||<|0.001||||||No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Comparison of DPICS Negative Skills between Week 18 scores, 1 sided test for Treatment Group Superiority||||<.001
82387106|NCT02088905|164484755|SUPERIORITY||||||<|0.001||||||No adjustment for multiple comparisons.|t-test, 1 sided|||Comparison of DPICS Positive Skills between Week 18 scores, 1 sided test for Treatment Group Superiority. Data transformed using a square root transformation.||||<.001
82443588|NCT00966719|164595677|OTHER||Risk Ratio (RR)|1.5||||0.09|TWO_SIDED|95.0|0.95|2.38|||Fisher Exact|||||2.38|0.95|0.09
82443589|NCT00966719|164595678|OTHER||Risk Ratio (RR)|1.03||||0.77|TWO_SIDED|95.0|0.83|1.27|||Fisher Exact|||||1.27|0.83|0.77
82524236|NCT01197508|164744215|SUPERIORITY_OR_OTHER||LS mean|-2.8|STANDARD_ERROR_OF_MEAN|2.02||0.165|TWO_SIDED|95.0|-6.79|1.16||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.16|-6.79|0.165
82387107|NCT01421225|164484776|EQUIVALENCE|The null hypothesis was that the number of hours would be the same (no effect of control).|Mean Difference (Final Values)|2.2||||0.12|TWO_SIDED|||||Statistical analysis was performed using a paired t-test.|t-test, 2 sided|||We tested the number of nighttime (10 PM - 8 AM) hours glucose was in the target range (110-200 mg/dL) on each of the two nights for which the patient was followed (one night under Standard Insulin Pump Therapy; one night under Closed-loop Insulin Therapy)||||0.12
82387108|NCT02649439|164484780|SUPERIORITY|||||||0.4852|||||||Wilcoxon signed rank test|||||||0.4852
82387109|NCT02649439|164484781|SUPERIORITY|||||||0.3269|||||||Wilcoxon signed rank test|||||||0.3269
82387110|NCT02649439|164484784|SUPERIORITY|||||||0.0255||||||The reported p-value is representative of the PBMCs in monocyte nonclassical between responders and non-responders.|Mann Whitney Test|||||||0.0255
82387111|NCT02649439|164484784|OTHER|||||||0.0021||||||The reported p-value is representative of the PBMCs in monocyte nonclassical PD-L1+ between responders and non-responders.|Mann Whitney Test|||||||0.0021
82387112|NCT02649439|164484784|SUPERIORITY|||||||0.0486||||||The reported p-value is representative of the PBMCs in monocyte PD-1+ between responders and non-responders.|Mann Whitney Test|||||||0.0486
82387113|NCT02649439|164484785|SUPERIORITY|||||||0.7317||||||The reported p-value is representative of the PBMCs in CD4 between responders and non-responders.|Mann Whitney Test|||||||0.7317
82387114|NCT02649439|164484785|SUPERIORITY|||||||0.7545||||||The reported p-value is representative of the PBMCs in CD8 between responders and non-responders.|Mann Whitney Test|||||||0.7545
82387115|NCT02649439|164484785|SUPERIORITY|||||||0.531||||||The reported p-value is representative of the PBMCs in Treg between responders and non-responders.|Mann Whitney Test|||||||0.5310
82387116|NCT02649439|164484785|SUPERIORITY|||||||0.8451||||||The reported p-value is representative of the PBMCs in NK between responders and non-responders.|Mann Whitney Test|||||||0.8451
82524237|NCT03286751|164744216|SUPERIORITY||Ratio of Geometric LSMeans|1.01||||0.5495|TWO_SIDED|95.0|0.974|1.05|||Mixed Models Analysis|||||1.05|0.974|0.5495
82387117|NCT02649439|164484785|SUPERIORITY|||||||0.9377||||||The reported p-value is representative of the PBMCs in MDSC between responders and non-responders.|Mann Whitney Test|||||||0.9377
82387118|NCT02649439|164484786|SUPERIORITY|||||||0.2012||||||The reported p-value is representative of the % of CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.2012
82387119|NCT02649439|164484786|SUPERIORITY|||||||0.4891||||||The reported p-value is representative of the % of CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.4891
82387120|NCT02649439|164484786|SUPERIORITY|||||||0.4609||||||The reported p-value is representative of the % of Tregs in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.4609
82387121|NCT02649439|164484786|SUPERIORITY|||||||0.0012||||||The reported p-value is representative of the % of NK in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.0012
82524238|NCT03286751|164744216|SUPERIORITY||Ratio of Geometric LSMeans|1.02||||0.2236|TWO_SIDED|95.0|0.986|1.06|||Mixed Models Analysis|||||1.06|0.986|0.2236
82524239|NCT03286751|164744216|SUPERIORITY||Ratio of Geometric LSMeans|1.03||||0.0727|TWO_SIDED|95.0|0.997|1.07|||Mixed Models Analysis|||||1.07|0.997|0.0727
82387122|NCT02649439|164484786|SUPERIORITY|||||||0.0825||||||The reported p-value is representative of the % of MDSC in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.0825
82387123|NCT02649439|164484786|SUPERIORITY|||||||0.5988||||||The reported p-value is representative of the % of naïve CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.5988
82387124|NCT02649439|164484786|SUPERIORITY|||||||0.592|||||||Wilcoxon signed rank test|The reported p-value is representative of the % of naïve CD8 in PBMCs at Day 1 and Day 29.||||||0.5920
82387125|NCT02649439|164484786|SUPERIORITY|||||||0.6221||||||The reported p-value is representative of the % of CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.6221
82387126|NCT02649439|164484786|SUPERIORITY|||||||0.7334||||||The reported p-value is representative of the % of CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7334
82387127|NCT02649439|164484786|OTHER|||||||0.791||||||The reported p-value is representative of the % of Tregs in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7910
82387128|NCT02649439|164484786|SUPERIORITY|||||||0.5186||||||The reported p-value is representative of the % of NK in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.5186
82387129|NCT02649439|164484786|SUPERIORITY|The reported p-value is representative of the % of MDSC in PBMCs at Day 1 and Day 29.||||||0.5186|||||||Wilcoxon signed rank test|||||||0.5186
82387130|NCT02649439|164484786|SUPERIORITY|||||||0.9097||||||The reported p-value is representative of the % of naïve CD4 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.9097
82524240|NCT03286751|164744217|SUPERIORITY||Ratio of Geometric LSMeans|0.97||||0.5749|TWO_SIDED|95.0|0.87|1.08|||Mixed Models Analysis|||||1.08|0.87|0.5749
82387131|NCT02649439|164484786|SUPERIORITY|||||||0.7334||||||The reported p-value is representative of the % of naïve CD8 in PBMCs at Day 1 and Day 29.|Wilcoxon signed rank test|||||||0.7334
82425647|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425648|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425649|NCT00402987|164560350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.512
82425650|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387132|NCT00945035|164484787|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study Primary Hypothesis: The plasma etoricoxib AUC(0-∞) and Cmax values following a single-dose administration of the 120 mg etoricoxib (30%) URC formulation will be bioequivalent to the plasma AUC(0-∞) and Cmax of 120 mg etoricoxib (20%) in the FMI formulation following single-dose administration (geometric mean ratio \[GMR\] no less than 0.8 and no greater than 1.25).|Least-Squares Mean Ratio|1.02||||||90.0|0.97|1.07||||||Least-Squares Mean Ratio (B/A); A=FMI Formulation (20%), Final Market Image; B=URC Formulation (30%), Unmilled Roller Compaction||1.07|0.97|
82387133|NCT00945035|164484788|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Study Primary Hypothesis: The plasma etoricoxib AUC(0-∞) and Cmax values following a single-dose administration of the 120 mg etoricoxib (30%) URC formulation will be bioequivalent to the plasma AUC(0-∞) and Cmax of 120 mg etoricoxib (20%) in the FMI formulation following single-dose administration (geometric mean ratio \[GMR\] no less than 0.8 and no greater than 1.25).|Least-Squares Mean Ratio|1.03||||||90.0|0.95|1.11||||||Least-Squares Mean Ratio (B/A); A=FMI Formulation (20%), Final Market Image; B=URC Formulation (30%), Unmilled Roller Compaction||1.11|0.95|
82387134|NCT00497289|164484831|SUPERIORITY|||||||0.3654|||||||Wilcoxon (Mann-Whitney)|||||||0.3654
82387135|NCT00497289|164484832|SUPERIORITY|||||||0.0264|||||||Wilcoxon (Mann-Whitney)|||||||0.0264
82524241|NCT03286751|164744217|SUPERIORITY||Ratio of Geometric LSMeans|0.92||||0.1578|TWO_SIDED|95.0|0.83|1.03|||Mixed Models Analysis|||||1.03|0.83|0.1578
82524242|NCT03286751|164744217|SUPERIORITY||Ratio of Geometric LSMeans|0.92||||0.1351|TWO_SIDED|95.0|0.83|1.03|||Mixed Models Analysis|||||1.03|0.83|0.1351
82387136|NCT04606394|164484833|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.33|TWO_SIDED||||||Chi-squared|||Data outcome reported was the number and percentage of subject test days with DPI Failure in subjects in suboptimal PIF (\<60 L/min) versus normal PIF subjects. Statistical analysis performed was a comparison between rates of DPI Failure in the 2 groups.||||0.33
82387137|NCT04606394|164484834|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.04|TWO_SIDED||||||Chi-squared|||Data outcome reported was the number and percentage of subject test days with DPI Failure in subjects in suboptimal PIF (\<60 L/min) versus normal PIF subjects. Statistical analysis performed was a comparison between rates of DPI Failure in the 2 groups.||||0.04
82387138|NCT00955955|164484841|SUPERIORITY_OR_OTHER||Mean Score Reduction|-5.6|STANDARD_DEVIATION|5.7||0.05||95.0|||||SPCD|Sequential Parallel Comparison Design (SPCD)|These results reflect the mean score reduction for the pooled Deplin sample.|Hypothesis 1: There will be a statistically significant difference between the two groups in the degree of improvement, as measured by the change in the 17-item Hamilton Depression Rating Scale (HAM-D-17) score from baseline to endpoint, using the sequential parallel comparison design \[51\]; with a greater degree of reduction in HAM-D-17 scores in the 6(S)-5-MTHF 15 mg qd group than in the placebo group, with the change on placebo being estimated from Trials 1 and 2.||||.05
82443590|NCT00966719|164595679|OTHER||Risk Ratio (RR)|1.36||||0.6|TWO_SIDED|95.0|0.58|3.15|||Fisher Exact|||||3.15|0.58|0.6
82443591|NCT02945553|164595680|OTHER|Mixed model analysis of variance|Mean Difference (Final Values)|1596.0|STANDARD_DEVIATION|202.0|<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82443592|NCT02945553|164595685|OTHER||Mean Difference (Net)|30.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82524243|NCT00677352|164744315|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sertraline was concluded to be non-inferior to paroxetine when the upper limit of the CI fell below the non-inferiority margin of 4.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.5|1.6|||ANCOVA|||The two-sided 95% confidence interval (CI) of the intergroup difference (sertraline group - paroxetine group) of the mean reduction in the PAS total score at each dose during the treatment phase was calculated using an analysis of covariance (ANCOVA) model with treatment group as a factor and baseline PAS total score as a covariate.||1.6|-2.5|
82524244|NCT00677352|164744321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05 (two-sided).|Fisher Exact|||||||0.0062
82535246|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.518|TWO_SIDED|95.0|-0.05|0.1||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.10|-0.05|0.518
82387139|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|Geometric Mean Titer (GMT) Ratio|0.69|||||TWO_SIDED|95.0|0.46|1.04|||||Analysis of variance (ANOVA) model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.04|0.46|
82387140|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.6|1.38|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.38|0.60|
82387141|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.63|||||TWO_SIDED|95.0|0.41|0.96|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||0.96|0.41|
82535247|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.352|TWO_SIDED|95.0|-0.04|0.11||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.11|-0.04|0.352
82387142|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.98|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.71|0.98|
82425651|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82535248|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.026|TWO_SIDED|95.0|0.01|0.16||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.16|0.01|0.026
82425652|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.026
82425653|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.463
82577010|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.239||0.9286|TWO_SIDED|95.0|-0.5|0.45|||MMRM|||Depressed Mood, Change Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.50|0.9286
82387143|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.67|||||TWO_SIDED|95.0|0.51|0.88|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||0.88|0.51|
82387144|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.15|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.15|0.65|
82387145|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.27|||||TWO_SIDED|95.0|0.91|1.78|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.78|0.91|
82387146|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.68|1.33|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.33|0.68|
82387147|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.87|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.71|0.87|
82387148|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.82|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||0.82|0.46|
82387149|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.62|||||TWO_SIDED|95.0|1.22|2.17|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||2.17|1.22|
82387150|NCT03423173|164484856|EQUIVALENCE|Equivalence between immune responses of 2 trial groups was established if the 95% CI of the corresponding geometric mean ratio was within pre-specified equivalence margins of 0.5 and 2.0.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.75|1.35|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.35|0.75|
82443593|NCT01710527|164595702|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed Cmax fell within the acceptance range of 80 to 125%.|Ratio (%)|96.85||||0.3125|TWO_SIDED|90.0|91.86|102.11|||ANOVA||Analysis was performed on log transformed geometric least square means.|||102.11|91.86|0.3125
82443594|NCT01710527|164595703|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed AUC0-t fell within the acceptance range of 80 to 125%.|Ratio (%)|102.52||||0.2701|TWO_SIDED|90.0|98.74|106.45|||ANOVA|||Comparison of Treatment T-Metformin 500 mg and Treatment R- Glucophage 500 mg for AUC0-t||106.45|98.74|0.2701
82443595|NCT01710527|164595703|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Treatment T-Metformin 500 mg with Treatment R- Glucophage 500 mg was concluded if the 90% confidence intervals for the ratio of log transformed AUC0-infinity fell within the acceptance range of 80 to 125%.|Ratio (%)|102.44||||0.2702|TWO_SIDED|90.0|98.78|106.23|||ANOVA||Analysis was performed on log transformed geometric least square means.|Comparison of Treatment T-Metformin 500 mg and Treatment R- Glucophage 500 mg for AUC0-infinity.||106.23|98.78|0.2702
82443596|NCT02827500|164595738|SUPERIORITY||Odds Ratio, log|5.19||||0.002|TWO_SIDED|95.0|1.88|14.33|||Regression, Logistic|||||14.33|1.88|0.002
82640007|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.375|TWO_SIDED|95.0|-0.41|1.08|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.08|-0.41|0.375
82387151|NCT03423173|164484857|OTHER||Seropositivity Rates Difference|0.6|||||TWO_SIDED|95.0|-4.99|6.06|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||6.06|-4.99|
82387152|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-1.65|||||TWO_SIDED|95.0|-6.9|3.19|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||3.19|-6.90|
82387153|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-2.25|||||TWO_SIDED|95.0|-7.45|2.69|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 120||2.69|-7.45|
82443597|NCT02827500|164595739|SUPERIORITY|||||||0.011|||||||Regression, Linear|||||||0.011
82387154|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|7.87|||||TWO_SIDED|95.0|0.64|15.3|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||15.30|0.64|
82387155|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|1.5|||||TWO_SIDED|95.0|-4.67|7.65|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||7.65|-4.67|
82387156|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-6.37|||||TWO_SIDED|95.0|-14.0|1.04|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-1 at Day 270||1.04|-14.00|
82387157|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|0.72|||||TWO_SIDED|95.0|-3.87|5.29|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||5.29|-3.87|
82387158|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-0.83|||||TWO_SIDED|95.0|-5.24|3.17|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||3.17|-5.24|
82387159|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-1.55|||||TWO_SIDED|95.0|-6.05|2.58|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 120||2.58|-6.05|
82577011|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.251||0.0544|TWO_SIDED|95.0|-0.99|0.01|||MMRM|||Depressed Mood, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.99|0.0544
82387160|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|2.42|||||TWO_SIDED|95.0|-2.12|7.44|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||7.44|-2.12|
82387161|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|0.83|||||TWO_SIDED|95.0|-3.41|5.24|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||5.24|-3.41|
82387162|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-1.59|||||TWO_SIDED|95.0|-6.67|3.17|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-2 at Day 270||3.17|-6.67|
82387163|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|2.93|||||TWO_SIDED|95.0|-3.07|9.06|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||9.06|-3.07|
82387164|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-0.81|||||TWO_SIDED|95.0|-6.17|4.44|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||4.44|-6.17|
82387165|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-3.73|||||TWO_SIDED|95.0|-9.74|2.03|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 120||2.03|-9.74|
82387166|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|6.79|||||TWO_SIDED|95.0|-1.03|14.56|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||14.56|-1.03|
82387167|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|3.0|||||TWO_SIDED|95.0|-4.28|10.23|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||10.23|-4.28|
82387168|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-3.79|||||TWO_SIDED|95.0|-11.97|4.39|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-3 at Day 270||4.39|-11.97|
82387169|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-2.5|||||TWO_SIDED|95.0|-7.68|1.55|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||1.55|-7.68|
82387170|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|0.04|||||TWO_SIDED|95.0|-5.47|5.62|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||5.62|-5.47|
82387171|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|2.54|||||TWO_SIDED|95.0|-1.52|7.81|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 120||7.81|-1.52|
82387172|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|-1.52|||||TWO_SIDED|95.0|-9.14|5.69|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||5.69|-9.14|
82387173|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|1.13|||||TWO_SIDED|95.0|-6.9|8.95|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||8.95|-6.90|
82387174|NCT03423173|164484857|OTHER||Seropositivity Rate Difference|2.64|||||TWO_SIDED|95.0|-4.68|10.18|||||95% CI for the differences in seropositivity rates between TDV lots were calculated using the Newcombe and Wilson method.|DENV-4 at Day 270||10.18|-4.68|
82387175|NCT03423173|164484858|OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.56|1.42|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.42|0.56|
82387176|NCT03423173|164484858|OTHER||GMT Ratio|0.81|||||TWO_SIDED|95.0|0.51|1.28|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.28|0.51|
82387177|NCT03423173|164484858|OTHER||GMT Ratio|0.73|||||TWO_SIDED|95.0|0.46|1.16|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-1||1.16|0.46|
82387178|NCT03423173|164484858|OTHER||GMT Ratio|1.37|||||TWO_SIDED|95.0|1.02|1.86|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.86|1.02|
82387179|NCT03423173|164484858|OTHER||GMT Ratio|0.65|||||TWO_SIDED|95.0|0.48|0.87|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||0.87|0.48|
82387180|NCT03423173|164484858|OTHER||GMT ratio|0.89|||||TWO_SIDED|95.0|0.66|1.21|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-2||1.21|0.66|
82387181|NCT03423173|164484858|OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.0|1.94|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.94|1.00|
82387182|NCT03423173|164484858|OTHER||GMT Ratio|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.21|0.64|
82387183|NCT03423173|164484858|OTHER||GMT Ratio|1.23|||||TWO_SIDED|95.0|0.88|1.71|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-3||1.71|0.88|
82387184|NCT03423173|164484858|OTHER||GMT Ratio|0.83|||||TWO_SIDED|95.0|0.58|1.18|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.18|0.58|
82387185|NCT03423173|164484858|OTHER||GMT Ratio|1.51|||||TWO_SIDED|95.0|1.07|2.14|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||2.14|1.07|
82387186|NCT03423173|164484858|OTHER||GMT Ratio|1.25|||||TWO_SIDED|95.0|0.88|1.78|||||ANOVA model was used for analysis, including natural logarithms of titers as a response variable and trial group as a factor.|DENV-4||1.78|0.88|
82387187|NCT02411396|164484876|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Mean Difference (Final Values)|124.6|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|118.3|130.9||||||This analysis is to compare outcome measure between ED or IC visits by using time varying propensity score method developed by our group to adjust imbalance of covariates between the two arms. Each patient can have multiple visits to the facility of choice.||130.9|118.3|
82387188|NCT02411396|164484877|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Odds Ratio (OR)|5.14|||||TWO_SIDED|95.0|4.13|6.41|||||VOC in patients with SCD whom went to EDs represents the numerator, VOC in patients with SCD whom went to ICs represents the denominator for Odds Ratio.|||6.41|4.13|
82387189|NCT02411396|164484878|OTHER|In order to eliminate bias from the naïve estimation on the treatment effects due to the confounders, time varying propensity score model was developed. This balanced the covariates between the two arms at each single acute visit of each patient. A sub classification on the propensity scores was used to estimate the potential outcome for each arm and the average treatment effects (ATE). Bootstrapping was employed to estimate the standard error of ATE.|Odds Ratio (OR)|2.24|||||TWO_SIDED|95.0|1.84|2.72|||||VOC in patients with SCD whom went to ICs represents the numerator, VOC in patients with SCD whom went to EDs represents the denominator for Odds Ratio.|||2.72|1.84|
82387190|NCT01631149|164484881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_DEVIATION|0.4|<|0.001|||||||t-test, 2 sided|||"The individual scores obtained during surgery were averaged.~The average values were compared using a t-test between treatments."||||<0.001
82387191|NCT02016105|164484888|EQUIVALENCE|Adjusted response rates were estimated using a logistic regression model including treatment, body weight strata, region and prior systemic therapy. The 95% CI for the rate difference was derived based on the normal approximation and standard error computed using the delta method.To conclude equivalent efficacy, the 95% CI had to be entirely within the interval \[-18%, 18%\].|Risk Difference (RD)|1.8|STANDARD_ERROR_OF_MEAN|4.75|||TWO_SIDED|95.0|-7.46|11.15||||||||11.15|-7.46|
82425654|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.131
82425655|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.053
82425656|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425657|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425658|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.020
82425659|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.484
82425660|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.197
82425661|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.086
82425662|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387192|NCT02016105|164484889|EQUIVALENCE|"LS means, SE and 95% CI were estimated by a Mixed Model Repeated Measures (MMRM) model with treatment, visit, treatment-by-visit interaction, body weight strata, region and prior systemic therapy, as fixed factors and baseline PASI score as covariate.~Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2017 and Humira treatment was contained within the interval \[-15%; 15%\]."|LS means difference|0.8|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-3.15|4.84||||||||4.84|-3.15|
82387193|NCT02016105|164484890|EQUIVALENCE|LSM, SE and 95% CI were estimated using an ANCOVA model with treatment, body weight strata, region and prior systemic therapy as fixed effects and baseline PASI score as covariate. Therapeutic equivalence in terms of the % change from baseline in PASI score was to be determined if the 95% CI for the difference between GP2017 and Humira was contained within the interval \[-15%; 15%\].|LS means difference|1.2|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-2.78|5.08||||||||5.08|-2.78|
82387194|NCT01908829|164484904|SUPERIORITY||Least Squares (LS) Means|-0.26|STANDARD_ERROR_OF_MEAN|0.11|=|0.001|TWO_SIDED|95.0|-0.47|-0.05||P values for pairwise comparisons were from the stratified rank ANCOVA model. P \< 0.05 indicated superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% Confidence Intervals (CIs) are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.05|-0.47|=0.001
82387195|NCT01908829|164484905|SUPERIORITY||LS Means|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.14||P values for pairwise comparisons are from the stratified rank ANCOVA model. P \< 0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 4 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.14|-0.52|<0.001
82425663|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425664|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
82425665|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.561
82425666|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.252||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.252
82524245|NCT01972529|164744330|SUPERIORITY||Difference of proportion vs placebo|42.6|||<|0.0001|TWO_SIDED|95.0|27.2|58.1|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion versus (vs) placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||58.1|27.2|<0.0001
82577012|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.244||0.2903|TWO_SIDED|95.0|-0.74|0.22|||MMRM|||Depressed Mood, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.74|0.2903
82387196|NCT01908829|164484905|SUPERIORITY||LS Means|-0.39|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.18||P values for pairwise comparisons are from the stratified rank ANCOVA model. P \< 0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 8 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.18|-0.60|<0.001
82387197|NCT01908829|164484905|SUPERIORITY||LS Means|-0.25|STANDARD_ERROR_OF_MEAN|0.11|=|0.001|TWO_SIDED|95.0|-0.46|-0.03||P-values for pairwise comparisons are from the stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 12 differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group based on ANCOVA model. Means (LS means) and 95% CIs are from an ANCOVA model with sex, age group (\< 65, ≥ 65 years), geographic region, and 4-week incontinence episode reduction group as fixed factors and mean number of incontinence episodes per 24 hours at baseline as a covariate.||-0.03|-0.46|=0.001
82387198|NCT01908829|164484906|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.1|=|0.01|TWO_SIDED|95.0|-0.47|-0.06||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.06|-0.47|=0.010
82387199|NCT01908829|164484906|SUPERIORITY||LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.65|-0.19||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.19|-0.65|<0.001
82387200|NCT01908829|164484906|SUPERIORITY||LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.23||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.23|-0.70|<0.001
82387201|NCT01908829|164484906|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.67|-0.22||P-values for pairwise comparisons are from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.22|-0.67|<0.001
82387202|NCT01908829|164484907|SUPERIORITY||Rate Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.05|=|0.005|TWO_SIDED|95.0|0.79|0.96||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 4 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.96|0.79|=0.005
82387203|NCT01908829|164484907|SUPERIORITY||Rate Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.66|0.86||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 8 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.86|0.66|<0.001
82425667|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.136
82387204|NCT01908829|164484907|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.021|TWO_SIDED|95.0|0.7|0.97||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during Week 12 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.97|0.70|=0.021
82425668|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425669|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387205|NCT01908829|164484907|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.014|TWO_SIDED|95.0|0.71|0.96||p\<0.05 indicates superiority in favor of treatment group with lowest rate of incontinence episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, \& p-value for number of incontinence episodes (IEs) during EoT 3-day diary between combination \& solifenacin treatment was calculated from Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week IE reduction group as factors, log of (number of IEs/valid diary days) at baseline as covariate \& log of number of valid diary days as the offset variable.||0.96|0.71|=0.014
82425670|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
82640008|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.028|TWO_SIDED|95.0|0.07|1.27|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.27|0.07|0.028
82640009|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.188|TWO_SIDED|95.0|-0.18|0.92|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.92|-0.18|0.188
82640010|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.375|TWO_SIDED|95.0|-0.97|0.37|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.37|-0.97|0.375
82640011|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.552|TWO_SIDED|95.0|-0.47|0.89|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.89|-0.47|0.552
82640012|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.126|TWO_SIDED|95.0|-0.14|1.12|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.12|-0.14|0.126
82640013|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.46|TWO_SIDED|95.0|-0.47|1.05|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 6(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.05|-0.47|0.460
82640014|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.095|TWO_SIDED|95.0|-0.09|1.09|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.09|-0.09|0.095
82640015|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.146|TWO_SIDED|95.0|-0.14|0.94|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.94|-0.14|0.146
82640016|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.769|TWO_SIDED|95.0|-0.75|0.56|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.56|-0.75|0.769
82640017|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.405|TWO_SIDED|95.0|-0.39|0.96|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.96|-0.39|0.405
82640018|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.073|TWO_SIDED|95.0|-0.05|1.2|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.20|-0.05|0.073
82640019|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.458|TWO_SIDED|95.0|-0.47|1.04|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(AM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||1.04|-0.47|0.458
82640020|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.009|TWO_SIDED|95.0|0.2|1.39|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.39|0.20|0.009
82640021|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.209|TWO_SIDED|95.0|-0.2|0.9|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.90|-0.20|0.209
82640022|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.193|TWO_SIDED|95.0|-1.11|0.22|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.22|-1.11|0.193
82387206|NCT01908829|164484908|SUPERIORITY||LS Means|3.86|STANDARD_ERROR_OF_MEAN|2.19|<|0.078|TWO_SIDED|95.0|-0.43|8.16||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||8.16|-0.43|<0.078
82387207|NCT01908829|164484908|SUPERIORITY||LS Means|11.19|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|5.98|16.4||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||16.40|5.98|<0.001
82425671|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.653||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.653
82425672|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.287||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.287
82524246|NCT01972529|164744330|SUPERIORITY||Difference of proportion vs placebo|49.9|||<|0.0001|TWO_SIDED|95.0|31.6|68.2|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups.||68.2|31.6|<0.0001
82640023|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.149|TWO_SIDED|95.0|-0.18|1.18|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.18|-0.18|0.149
82387208|NCT01908829|164484908|SUPERIORITY||LS Means|12.38|STANDARD_ERROR_OF_MEAN|2.92|<|0.001|TWO_SIDED|95.0|6.65|18.12||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||18.12|6.65|<0.001
82443598|NCT02827500|164595740|SUPERIORITY|||||||0.011|||||||Regression, Linear|||The null hypothesis tested was that there is no difference in change in heart rate between the treatment arms.||||0.011
82524247|NCT01972529|164744331|SUPERIORITY||Difference of proportion vs placebo|64.7|||<|0.0001|TWO_SIDED|95.0|53.6|75.8|||Cochran-Mantel-Haenszel|P-value is stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||75.8|53.6|<0.0001
82640024|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.186|TWO_SIDED|95.0|-0.21|1.06|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.06|-0.21|0.186
82640025|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.845|TWO_SIDED|95.0|-0.84|0.69|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7 Mid-day: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.69|-0.84|0.845
82640026|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.067|TWO_SIDED|95.0|-0.04|1.14|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.14|-0.04|0.067
82640027|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.242|TWO_SIDED|95.0|-0.22|0.87|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.87|-0.22|0.242
82640028|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.498|TWO_SIDED|95.0|-0.88|0.43|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||0.43|-0.88|0.498
82640029|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.33|TWO_SIDED|95.0|-0.34|1.02|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.02|-0.34|0.330
82640030|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.124|TWO_SIDED|95.0|-0.14|1.13|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||1.13|-0.14|0.124
82640031|NCT01945034|164994655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.687|TWO_SIDED|95.0|-0.61|0.92|||ANOVA|p-value \<=0.05 for treatment effects||Upon Weight Bearing Day 7(PM): The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||0.92|-0.61|0.687
82640032|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.166|TWO_SIDED|95.0|-0.85|4.95|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.95|-0.85|0.166
82640033|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7||||0.199|TWO_SIDED|95.0|-4.42|0.93|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.93|-4.42|0.199
82524248|NCT01972529|164744331|SUPERIORITY||Difference of percentage vs placebo|67.5|||<|0.0001|TWO_SIDED|95.0|51.6|83.4|||Cochran-Mantel-Haenszel|P-value is stratified by the risk of bleeding associated with the elective procedure within each baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||83.4|51.6|<0.0001
82640034|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8||||0.022|TWO_SIDED|95.0|-7.04|-0.56|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-0.56|-7.04|0.022
82640035|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.26|TWO_SIDED|95.0|-1.3|4.79|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||4.79|-1.30|0.260
82640036|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.729|TWO_SIDED|95.0|-3.31|2.32|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||2.32|-3.31|0.729
82640037|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2||||0.196|TWO_SIDED|95.0|-5.64|1.16|||ANOVA|||Weight Bearing over 6 Hours on Day 1: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||1.16|-5.64|0.196
82640038|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|24.9||||0.03|TWO_SIDED|95.0|2.49|47.28|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||47.28|2.49|0.030
82640039|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.2||||0.018|TWO_SIDED|95.0|-55.24|-5.23|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||-5.23|-55.24|0.018
82640040|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.611|TWO_SIDED|95.0|-25.98|15.29|||ANOVA|p-value \<=0.05 for treatment effects||At Rest over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||15.29|-25.98|0.611
82640041|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|13.8||||0.251|TWO_SIDED|95.0|-9.8|37.36|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||37.36|-9.80|0.251
82640042|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|4.4||||0.689|TWO_SIDED|95.0|-17.37|26.26|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||26.26|-17.37|0.689
82640043|NCT01945034|164994656|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.3||||0.486|TWO_SIDED|95.0|-35.69|17.01|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing over 2 Hours on Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||17.01|-35.69|0.486
82640044|NCT01945034|164994657|SUPERIORITY_OR_OTHER||LS Mean Difference|38.5||||0.021|TWO_SIDED|95.0|5.9|71.18|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||71.18|5.90|0.021
82640045|NCT01945034|164994657|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9||||0.603|TWO_SIDED|95.0|-38.02|22.12|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||22.12|-38.02|0.603
82640046|NCT01945034|164994657|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.5||||0.013|TWO_SIDED|95.0|-82.93|-10.05|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 3 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||-10.05|-82.93|0.013
82640047|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|87.7||||0.021|TWO_SIDED|95.0|13.48|161.85|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||161.85|13.48|0.021
82640048|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|11.8||||0.735|TWO_SIDED|95.0|-56.59|80.11|||ANOVA|p-value \<=0.05 for treatment effects||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||80.11|-56.59|0.735
82640049|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.9||||0.072|TWO_SIDED|95.0|-158.73|6.93|||ANOVA|||At Rest Over 7 days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity at rest terms.||6.93|-158.73|0.072
82640050|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|46.0||||0.261|TWO_SIDED|95.0|-34.43|126.52|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||126.52|-34.43|0.261
82524249|NCT01972529|164744332|SUPERIORITY||Difference in change of platelet count|27.5|||<|0.0001|TWO_SIDED|95.0|22.5|32.5|||Wilcoxon (Mann-Whitney)|P-value is based on Wilcoxon rank sum test for each avatrombopag treatment group vs placebo within each baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||32.5|22.5|<0.0001
82425673|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.191||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.191
82524250|NCT01972529|164744332|SUPERIORITY||Difference in change of platelet count|33.0|||<|0.0001|TWO_SIDED|95.0|25.5|41.5|||Wilcoxon (Mann-Whitney)|P-value is based on Wilcoxon rank sum test for each avatrombopag treatment group vs placebo within each baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||41.5|25.5|<0.0001
82387209|NCT01908829|164484908|SUPERIORITY||LS Means|11.52|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|6.06|16.99||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||16.99|6.06|<0.001
82387210|NCT01908829|164484909|SUPERIORITY||LS Means|-0.44|STANDARD_ERROR_OF_MEAN|0.15|=|0.003|TWO_SIDED|95.0|-0.73|-0.16||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.16|-0.73|=0.003
82425674|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82640051|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|37.3||||0.325|TWO_SIDED|95.0|-37.13|111.8|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||111.80|-37.13|0.325
82524251|NCT02277990|164744353|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0406|TWO_SIDED|95.12|0.36|0.98||The 0.05 critical value for assessing the primary endpoint was adjusted to 0.0488, to account for a planned interim analysis.|Regression, Cox|The Cox regression was stratified according to device type (pacemaker or CRT-P vs. ICD or CRT-D).||||0.98|0.36|0.0406
82524252|NCT02277990|164744354|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0248|TWO_SIDED|95.12|0.47|0.96|||Regression, Cox|||||0.96|0.47|0.0248
82524253|NCT02277990|164744355|NON_INFERIORITY|The non-inferiority test was performed on the as-treated cohort, per the statistical analysis plan. The non-inferiority margin for the hazard ratio was 1.33 (i.e., the hazard ratio for complications in the envelope group vs. the control group must be significantly lower than 1.33).|Hazard Ratio (HR)|0.93|||<|0.01|TWO_SIDED|95.12|0.77|1.12|||Regression, Cox|||||1.12|0.77|<0.01
82524254|NCT02277990|164744356|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0402|TWO_SIDED|95.12|0.4|0.98|||Regression, Cox|||||0.98|0.40|0.0402
82524255|NCT06060457|164744442|OTHER||Geometric Mean Ratio (GMR)|0.625|||||TWO_SIDED|95.0|0.57|0.686||||||RSV-A: Arm 1 versus Arm 2||0.686|0.570|
82524256|NCT06060457|164744442|OTHER||GMR|0.638|||||TWO_SIDED|95.0|0.584|0.697||||||RSV-B: Arm 1 versus Arm 2||0.697|0.584|
82640052|NCT01945034|164994658|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.7||||0.849|TWO_SIDED|95.0|-98.64|81.22|||ANOVA|p-value \<=0.05 for treatment effects||Weight Bearing Over 7 Days: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline pain intensity on weight bearing terms.||81.22|-98.64|0.849
82524257|NCT01542957|164744453|SUPERIORITY_OR_OTHER||Slope|-0.96|STANDARD_ERROR_OF_MEAN|0.69||0.6|TWO_SIDED|95.0|-3.35|1.43|||Mixed Models Analysis|||||1.43|-3.35|0.60
82524258|NCT01542957|164744454|SUPERIORITY_OR_OTHER||Slope|1.27|STANDARD_ERROR_OF_MEAN|0.53||0.21|TWO_SIDED|95.0|-0.71|3.25|||Mixed Models Analysis|||||3.25|-0.71|0.21
82524259|NCT01542957|164744455|SUPERIORITY_OR_OTHER||Slope|-0.01||||0.84|TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|||||0.12|-0.14|0.84
82524260|NCT03525548|164744477|SUPERIORITY||Least squares (LS) mean difference|10.0|||<|0.0001|TWO_SIDED|95.0|7.4|12.6|||Mixed-effects model for repeated measure|||||12.6|7.4|<0.0001
82524261|NCT03525548|164744478|SUPERIORITY||LS mean difference|-45.1|||<|0.0001|TWO_SIDED|95.0|-50.1|-40.1|||Mixed-effects model for repeated measure|||||-40.1|-50.1|<0.0001
82524262|NCT03525548|164744479|SUPERIORITY||LS mean difference|17.4|||<|0.0001|TWO_SIDED|95.0|11.8|23.0|||Mixed-effects model for repeated measure|||||23.0|11.8|<0.0001
82524263|NCT00106184|164744497|SUPERIORITY_OR_OTHER||||||=|0.74|TWO_SIDED||||||Log Rank|No confidence intervals as no parameters were estimated.||Proportional hazards model||||=0.74
82524264|NCT00106184|164744498|SUPERIORITY_OR_OTHER||||||>|0.9|TWO_SIDED|95.0|||||Chi-squared|Difference in baseline muscle enzymes therefore tested the difference in the proportions adjusting for the baseline values.||||||>0.90
82524265|NCT00106184|164744499|SUPERIORITY_OR_OTHER||||||>|0.9|||||||Log Rank|||||||>0.90
82524266|NCT02313909|164744501|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.51884|TWO_SIDED|95.0|0.87|1.33|||Log Rank|||Statistical analysis: Stroke + Systemic embolism: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.33|0.87|0.51884
82524267|NCT02313909|164744502|SUPERIORITY||Hazard Ratio (HR)|2.72||||2e-05|TWO_SIDED|95.0|1.68|4.39|||Log Rank|||Statistical analysis: ISTH major bleeding events: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.39|1.68|0.00002
82535249|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.069|TWO_SIDED|95.0|-0.01|0.14||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.14|-0.01|0.069
82535250|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.154|TWO_SIDED|95.0|-0.02|0.13||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.13|-0.02|0.154
82535251|NCT00495469|164768488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.005|TWO_SIDED|95.0|0.03|0.18||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.18|0.03|0.005
82524268|NCT02313909|164744503|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.56922|TWO_SIDED|95.0|0.87|1.29|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Confidence intervals were calculated, if at least 1 event in each treatment arm existed. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.29|0.87|0.56922
82524269|NCT02313909|164744504|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.22078|TWO_SIDED|95.0|0.87|1.81|||Log Rank|||Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Confidence intervals were calculated, if at least 1 event in each treatment arm existed. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.81|0.87|0.22078
82524270|NCT02313909|164744505|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4797|TWO_SIDED|95.0|0.87|1.34|||Log Rank|||Statistical analysis 1: Stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.34|0.87|0.47970
82387211|NCT01908829|164484910|SUPERIORITY||LS Means|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.54|-0.17||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.17|-0.54|<0.001
82425675|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524271|NCT02313909|164744505|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.78738|TWO_SIDED|95.0|0.83|1.29|||Log Rank|||Statistical analysis 2: Ischemic stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.29|0.83|0.78738
82535252|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.143|TWO_SIDED|95.0|-0.58|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-0.58|0.143
82425676|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.018
82443599|NCT02827500|164595741|SUPERIORITY|||||||0.054||||||The apriori threshold for statistical significance is alpha=0.05.|Chi-squared, Corrected|The p-value is obtained using the F-test (combination of Chi-Squared tests) due to multiple imputation.||The null hypothesis tested was that there is no difference between the treatment arms in the proportion of patients with heart rate \< 70 BPM.||||0.054
82524272|NCT02313909|164744505|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.14822|TWO_SIDED|95.0|0.88|2.28|||Log Rank|||Statistical analysis 3: Disabling stroke: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.28|0.88|0.14822
82524273|NCT02313909|164744505|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.14051|TWO_SIDED|95.0|0.87|2.52|||Log Rank|||Statistical analysis 4:CV death: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.52|0.87|0.14051
82524274|NCT02313909|164744505|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.34284|TWO_SIDED|95.0|0.39|1.38|||Log Rank|||Statistical analysis 5: Myocardial infarction: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||1.38|0.39|0.34284
82647758|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.1|-1.17||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.17|-2.10|<0.001
82524275|NCT02313909|164744506|SUPERIORITY||Hazard Ratio (HR)|2.34||||0.00443|TWO_SIDED|95.0|1.28|4.29|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.29|1.28|0.00443
82524276|NCT02313909|164744507|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.00451|TWO_SIDED|95.0|1.13|2.0|||Log Rank|||Statistical analysis: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||2.00|1.13|0.00451
82524277|NCT02313909|164744508|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.04409|TWO_SIDED|95.0|1.0|4.02|||Log Rank|||Statistical analysis 1: Risk reduction was estimated with the stratified Cox proportional hazards model. Hazard ratios (95% confidence interval) as compared to acetylsalicylic acid arm were reported. Rivaroxaban treatment was compared with the Acetylsalicylic acid control group using a stratified log-rank test. P-values (two-sided) as compared to acetylsalicylic acid arm were based on the log-rank test.||4.02|1.00|0.04409
82524278|NCT00643123|164744511|OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|2.3||0.45|TWO_SIDED||||||t-test, 2 sided|||||||.45
82524279|NCT02623855|164744532|SUPERIORITY|Our hypothesis was that park prescriptions with group visits would have a superior result than park prescriptions alone.||||||0.6099|||||||t-test, 2 sided|||The study is powered for our primary outcome, caregiver stress as measured by the 10-item perceived stress s score (PSS10). Normative data from population samples show a mean PSS10 score of 13.2 points with a standard deviation of 6.35 points and a within-subject correlation coefficient of 0.77 over 2 weeks.We powered the study to detect a three point difference in the change of the PSS10. This effect size is consistent with other estimates of a clinically significant change.||||0.6099
82524280|NCT02623855|164744534|SUPERIORITY|||||||0.0085|||||||t-test, 2 sided|||||||0.0085
82524281|NCT02623855|164744536|SUPERIORITY|||||||0.1749|||||||t-test, 2 sided|||||||0.1749
82524282|NCT02634788|164744546|OTHER||LS Mean Difference|81.93|STANDARD_ERROR_OF_MEAN|14.283|<|0.0001|TWO_SIDED|95.0|53.82|110.04|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||110.04|53.82|<0.0001
82524283|NCT02634788|164744546|OTHER||LS Mean Difference|36.18|STANDARD_ERROR_OF_MEAN|14.099||0.0108|TWO_SIDED|95.0|8.43|63.93|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||63.93|8.43|0.0108
82524284|NCT02634788|164744546|OTHER||LS Mean Difference|35.46|STANDARD_ERROR_OF_MEAN|14.02||0.012|TWO_SIDED|95.0|7.86|63.05|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||63.05|7.86|0.0120
82524285|NCT01069354|164744595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.41|||<|0.0001|TWO_SIDED|||||Paired t-test|t-test, 2 sided|||||||<0.0001
82524286|NCT01069354|164744596|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Binomial proportion, two-sided Fisher's exact test|Fisher Exact|||91 (90.1%) of 101 subjects had a ≥ 2.0 cm lower VAS Score in treatment versus control NLF at Time 0||||<0.0001
82524287|NCT01069354|164744597|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
82524288|NCT01069354|164744598|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
82524289|NCT01069354|164744599|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
82524290|NCT01069354|164744600|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Paired t-test|t-test, 2 sided|||||||<0.0001
82524291|NCT01069354|164744601|SUPERIORITY_OR_OTHER|||||||0.5663||||||Paired t-test|t-test, 2 sided|||||||0.5663
82524292|NCT01069354|164744602|SUPERIORITY_OR_OTHER|||||||0.3197||||||Paired t-test|t-test, 2 sided|||||||0.3197
82524293|NCT00166296|164744605|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.441|TWO_SIDED|95.0|0.075|2.141|||Fisher Exact|||||2.141|0.075|0.441
82524294|NCT00166296|164744606|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
82387212|NCT01908829|164484910|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.25||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 8 djusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.25|-0.65|<0.001
82443600|NCT02827500|164595742|SUPERIORITY|||||||0.717|||||||Regression, Linear|||||||0.717
82443601|NCT02827500|164595743|SUPERIORITY|||||||0.784|||||||Regression, Linear|||||||0.784
82524295|NCT00166296|164744607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.443||95.0|||||ANOVA|||||||0.443
82524296|NCT00166296|164744608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0|||||ANOVA|||||||0.930
82524297|NCT03477279|164744609|SUPERIORITY||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-5.6|7.3|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||7.3|-5.6|
82524298|NCT03477279|164744610|SUPERIORITY||Risk Difference (RD)|6.6|||||TWO_SIDED|95.0|-0.8|14.0|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||14.0|-0.8|
82387213|NCT01908829|164484910|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.11|=|0.004|TWO_SIDED|95.0|-0.47|-0.05||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.05|-0.47|=0.004
82524299|NCT03477279|164744611|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|-1.7|21.7|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||21.7|-1.7|
82524300|NCT03477279|164744612|SUPERIORITY||Risk Difference (RD)|16.6|||||TWO_SIDED|95.0|0.9|32.3|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||32.3|0.9|
82524301|NCT03477279|164744613|SUPERIORITY||Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-1.6|31.8||||||||31.8|-1.6|
82524302|NCT03477279|164744614|SUPERIORITY||Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-13.2|8.5|||||Male Partners of Women in Couple - Male Partners of Women in Individual|||8.5|-13.2|
82524303|NCT03477279|164744615|SUPERIORITY||Risk Difference (RD)|-4.5|||||TWO_SIDED|95.0|-10.0|10.7|||||Couple (HIV+ Women) - Individual (HIV+ Women)|||10.7|-10.0|
82640053|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.042|TWO_SIDED|95.0|0.0|0.49|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.49|0.0|0.042
82640054|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.114|TWO_SIDED|95.0|-0.04|0.4|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.40|-0.04|0.114
82524304|NCT03477279|164744616|OTHER||Odds Ratio (OR)|4.9|||||TWO_SIDED|95.0|1.7|13.9||||||||13.9|1.7|
82443602|NCT03343080|164595745|SUPERIORITY|||||||0.776|||||||Wilcoxon (Mann-Whitney)|||||||0.776
82524305|NCT03138733|164744639|NON_INFERIORITY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two sided 95% CI for the difference in response rates in the mITT population was greater than -15%, the non-inferiority of ceftobiprole to daptomycin therapy was to be concluded.|Adjusted proportion difference|2.0|||||TWO_SIDED|95.0|-7.1|11.1||||||The observed difference in percentage of responders at PTE (ceftobiprole group minus the daptomycin group) were determined and a two-sided 95% confidence interval (CI) for the observed difference was computed, with adjustment for actual stratum (dialysis status and prior antibacterial treatment use). Cochran-Mantel-Haenszel (CMH) weights were used for the stratum weight in the calculation of the CI||11.1|-7.1|
82524306|NCT03138733|164744640|OTHER||Adjusted proportion difference|0.6|||||TWO_SIDED|95.0|-8.3|9.5|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||9.5|-8.3|
82524307|NCT03138733|164744641|OTHER||Adjusted proportion difference|5.1|||||TWO_SIDED|95.0|-2.9|13.0|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||13|-2.9|
82524308|NCT03138733|164744642|OTHER||Adjusted proportion difference|-0.5|||||TWO_SIDED|95.0|-6.2|5.2|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||5.2|-6.2|
82524309|NCT03138733|164744643|OTHER||Adjusted proportion difference|0.1|||||TWO_SIDED|95.0|-4.6|4.8|||||The two-sided 95% CI was computed using Cochran-Mantel-Haenszel (CMH) weights method adjusted for actual stratum (dialysis status and prior antibacterial treatment use)|||4.8|-4.6|
82524310|NCT05614089|164744676|SUPERIORITY|||||||0.43||||||Since this is one of two coprimary outcomes (this outcome and % time-in-range), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in serious hypoglycemia at baseline||6-month (primary)||||0.43
82524311|NCT05614089|164744676|SUPERIORITY|||||||0.008||||||Since this is one of two coprimary outcomes (this outcome and % time-in-range), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in serious hypoglycemia at baseline||12-month||||0.008
82535253|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.495|TWO_SIDED|95.0|-0.46|0.22||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.22|-0.46|0.495
82640055|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.598|TWO_SIDED|95.0|-0.34|0.2|||ANOVA|p-value \<=0.05 for treatment effects||Day 3: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms.||0.20|-0.34|0.598
82387214|NCT01908829|164484910|SUPERIORITY||LS Means|-0.27|STANDARD_ERROR_OF_MEAN|0.1|=|0.003|TWO_SIDED|95.0|-0.47|-0.07||P-values for pairwise comparisons were from stratified rank ANCOVA model. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|stratified rank ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.07|-0.47|=0.003
82387215|NCT01908829|164484911|SUPERIORITY||Rate Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.05|=|0.003|TWO_SIDED|95.0|0.76|0.94||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 4 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.94|0.76|=0.003
82425677|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.741
82425678|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.326
82425679|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.256||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.256
82443603|NCT03343080|164595746|SUPERIORITY|||||||0.296|||||||t-test, 2 sided|||4 hours post-extubation||||0.296
82387216|NCT01908829|164484911|SUPERIORITY||Rate Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.63|0.86||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 8 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.86|0.63|<0.001
82524312|NCT05614089|164744677|SUPERIORITY|||||||0.71||||||Since this is one of two coprimary outcomes (this outcome and % time in serious hypoglycemia), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % TIR at baseline||6-month (primary)||||0.71
82524313|NCT05614089|164744677|SUPERIORITY|||||||0.64||||||Since this is one of two coprimary outcomes (this outcome and % time in serious hypoglycemia), a win (p\<0.025 for benefit) on either outcome will be considered to be a positive trial.|Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % TIR at baseline||12-month||||0.64
82524314|NCT05614089|164744678|SUPERIORITY|||||||0.54|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in hypoglycemia at baseline||6-month||||0.54
82425680|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524315|NCT05614089|164744678|SUPERIORITY|||||||0.07|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time in hypoglycemia at baseline||12-month||||0.07
82524316|NCT05614089|164744679|SUPERIORITY|||||||0.58|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time above range at baseline||6-month||||0.58
82524317|NCT05614089|164744679|SUPERIORITY|||||||0.21|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and % time above range at baseline||12-month||||0.21
82524318|NCT05614089|164744680|SUPERIORITY|||||||0.7|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and number of nocturnal events at baseline||6-month||||0.70
82387217|NCT01908829|164484911|SUPERIORITY||Rate Ratio|0.83|STANDARD_ERROR_OF_MEAN|0.09|=|0.038|TWO_SIDED|95.0|0.69|0.99||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, and p-value for number of UI episodes during Week 12 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.99|0.69|=0.038
82387218|NCT01908829|164484911|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.09|=|0.022|TWO_SIDED|95.0|0.69|0.97||p\<0.05 indicates superiority in favor of treatment group with lowest rate of UI episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, and p-value for number of UI episodes during EoT 3-day diary between combination and solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of UI episodes/number of valid diary days) at baseline as covariate and log of number of valid diary as the offset variable.||0.97|0.69|=0.022
82387219|NCT01908829|164484912|SUPERIORITY||LS Means|-0.45|STANDARD_ERROR_OF_MEAN|0.13|=|0.001|TWO_SIDED|95.0|-0.72|-0.19||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.19|-0.72|=0.001
82387220|NCT01908829|164484912|SUPERIORITY||LS Means|-0.64|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.93|-0.35||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.35|-0.93|<0.001
82387221|NCT01908829|164484912|SUPERIORITY||LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.15|=|0.001|TWO_SIDED|95.0|-0.82|-0.22||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.22|-0.82|=0.001
82387222|NCT01908829|164484912|SUPERIORITY||LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.83|-0.25||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.25|-0.83|<0.001
82387223|NCT01908829|164484913|SUPERIORITY||LS Means|-0.26|STANDARD_ERROR_OF_MEAN|0.1|=|0.008|TWO_SIDED|95.0|-0.46|-0.07||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.07|-0.46|=0.008
82387224|NCT01908829|164484913|SUPERIORITY||LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|-0.55|-0.13||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.13|-0.55|=0.002
82387225|NCT01908829|164484913|SUPERIORITY||LS Means|-0.28|STANDARD_ERROR_OF_MEAN|0.1|=|0.006|TWO_SIDED|95.0|-0.47|-0.08||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.08|-0.47|=0.006
82425681|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82425682|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.016
82524319|NCT05614089|164744680|SUPERIORITY|||||||0.02|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and number of nocturnal events at baseline||12-month||||0.02
82524320|NCT05614089|164744681|SUPERIORITY|||||||0.81|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and HbA1c at baseline||6-month||||0.81
82524321|NCT05614089|164744681|SUPERIORITY|||||||0.29|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and HbA1c at baseline||12-month||||0.29
82524322|NCT05614089|164744682|SUPERIORITY|||||||0.98|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 6-month||||0.98
82524323|NCT05614089|164744682|SUPERIORITY|||||||0.61|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 12-month||||0.61
82425683|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.808||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.808
82524324|NCT05614089|164744683|SUPERIORITY|||||||0.83|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 6-month||||0.83
82387226|NCT01908829|164484913|SUPERIORITY||LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.1|=|0.002|TWO_SIDED|95.0|-0.51|-0.12||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group \& geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.12|-0.51|=0.002
82387227|NCT01908829|164484914|SUPERIORITY||Rate Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.06|=|0.545|TWO_SIDED|95.0|0.87|1.08||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.08|0.87|=0.545
82387228|NCT01908829|164484914|SUPERIORITY||Rate Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.08|=|0.01|TWO_SIDED|95.0|0.7|0.95||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.95|0.70|=0.010
82425684|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.394||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.394
82524325|NCT05614089|164744683|SUPERIORITY|||||||0.09|||||||Negative Binomial Regression|Negative binomial regression model adjusted for age at screening and study site||Through 12-month||||0.09
82524326|NCT05614089|164744684|SUPERIORITY|||||||0.95|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Symptoms score at baseline||6-month||||0.95
82524327|NCT05614089|164744684|SUPERIORITY|||||||0.73|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Symptoms score at baseline||12-month||||0.73
82524328|NCT05614089|164744685|SUPERIORITY|||||||0.81|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Management score at baseline||6-month||||0.81
82524329|NCT05614089|164744685|SUPERIORITY|||||||0.44|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and PedsQL 3.2 DM Diabetes Management score at baseline||12-month||||0.44
82524330|NCT05614089|164744686|SUPERIORITY|||||||0.04|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and ITSQ at baseline||6-month||||0.04
82524331|NCT05614089|164744686|SUPERIORITY|||||||0.1|||||||Regression, Linear|Multivariable generalized linear regression model adjusted for age at screening, study site, and ITSQ at baseline||12-month||||0.10
82524332|NCT02521285|164744716|SUPERIORITY|||||||0.343|||||||t-test, 2 sided|||||||0.343
82524333|NCT02521285|164744716|SUPERIORITY|||||||0.149|||||||t-test, 2 sided|||||||0.149
82524334|NCT02521285|164744717|SUPERIORITY|||||||0.878|||||||t-test, 2 sided|||||||0.878
82387229|NCT01908829|164484914|SUPERIORITY||Rate Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.09|=|0.007|TWO_SIDED|95.0|0.67|0.94||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.94|0.67|=0.007
82425685|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.343
82425686|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82524335|NCT02521285|164744718|SUPERIORITY|||||||0.382|||||||t-test, 2 sided|||||||0.382
82524336|NCT02521285|164744718|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82524337|NCT02521285|164744719|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82524338|NCT02521285|164744719|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82524339|NCT02521285|164744720|SUPERIORITY|||||||0.234|||||||t-test, 2 sided|||||||0.234
82524340|NCT02521285|164744720|SUPERIORITY|||||||0.442|||||||t-test, 2 sided|||||||0.442
82524341|NCT02521285|164744721|SUPERIORITY|||||||0.645|||||||t-test, 2 sided|||||||0.645
82524342|NCT02521285|164744721|SUPERIORITY|||||||0.878|||||||t-test, 2 sided|||||||0.878
82524343|NCT02521285|164744729|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
82443604|NCT01636713|164595755|SUPERIORITY_OR_OTHER||Least squares mean difference|0.151|||<|0.001|TWO_SIDED|95.0|0.11|0.191|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.191|0.110|<0.001
82443605|NCT01636713|164595755|SUPERIORITY_OR_OTHER||Least squares mean difference|0.216|||<|0.001|TWO_SIDED|95.0|0.175|0.257|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference= UMEC/VI 125/25 µg minus Placebo.|||0.257|0.175|<0.001
82443606|NCT03689244|164595758|SUPERIORITY||Ratio of Geometric LS mean|0.95||||0.412|TWO_SIDED|95.0|0.84|1.07|||ANCOVA|||Ratio of Geometric mean of Selexipag to Placebo was reported.||1.07|0.84|0.412
82524344|NCT02521285|164744730|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||Difference between arms||||0.397
82524345|NCT02521285|164744730|SUPERIORITY|||||||0.983|||||||t-test, 2 sided|||Difference in arms.||||0.983
82524346|NCT02521285|164744731|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
82524347|NCT02521285|164744731|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||||||0.203
82524348|NCT02521285|164744732|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
82524349|NCT02521285|164744732|SUPERIORITY|||||||0.343|||||||t-test, 2 sided|||||||0.343
82524350|NCT02521285|164744733|SUPERIORITY|||||||0.281|||||||t-test, 2 sided|||||||0.281
82524351|NCT02521285|164744733|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
82524352|NCT02521285|164744734|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
82524353|NCT02521285|164744734|SUPERIORITY|||||||0.195|||||||t-test, 2 sided|||||||0.195
82425687|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.029
82524354|NCT02521285|164744735|SUPERIORITY|||||||0.755|||||||t-test, 2 sided|||||||0.755
82376707|NCT03301623|164459609|SUPERIORITY||Odds Ratio (OR)|1.63||||0.01|TWO_SIDED|95.0|1.13|2.36|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in reducing opioid prescriptions of more than 90 morphine milligrams equivalent (MME) over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the PCP level."||2.36|1.13|.010
82376708|NCT03301623|164459610|SUPERIORITY||Odds Ratio (OR)|0.76||||0.51|TWO_SIDED|95.0|0.34|1.71|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|Question: Which communication strategy used during the clinical encounter is more effective in reducing co-prescription of opioids and benzodiazepines over time for patients with chronic pain who were taking opioids at baseline?||1.71|.34|.510
82425688|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.023
82524355|NCT02521285|164744735|SUPERIORITY|||||||0.432|||||||t-test, 2 sided|||||||0.432
82524356|NCT02521285|164744736|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
82387230|NCT01908829|164484914|SUPERIORITY||Rate Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.08|=|0.003|TWO_SIDED|95.0|0.66|0.92||p\<0.05 indicates superiority in favor of treatment group with lowest rate of pads used.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, and p-value for number of pads used during the 3-day diary between combination \& solifenacin treatment was calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region and 4-week incontinence episode reduction group as factors, log of (number of pads used/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||0.92|0.66|=0.003
82425689|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.892||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.892
82524357|NCT02521285|164744736|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
82524358|NCT02521285|164744737|SUPERIORITY|||||||0.105|||||||t-test, 2 sided|||||||0.105
82524359|NCT02521285|164744737|SUPERIORITY|||||||0.161|||||||t-test, 2 sided|||||||0.161
82640056|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.24|0.19|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.19|-0.24|0.833
82387231|NCT01908829|164484915|SUPERIORITY||LS Means|-0.01|STANDARD_ERROR_OF_MEAN|0.05|=|0.836|TWO_SIDED|95.0|-0.1|0.08||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.08|-0.10|=0.836
82387232|NCT01908829|164484915|SUPERIORITY||LS Means|-0.02|STANDARD_ERROR_OF_MEAN|0.05|=|0.617|TWO_SIDED|95.0|-0.12|0.07||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.07|-0.12|=0.617
82524360|NCT02521285|164744740|SUPERIORITY|||||||0.518|||||||t-test, 2 sided|||||||0.518
82524361|NCT02521285|164744741|SUPERIORITY|||||||0.876|||||||t-test, 2 sided|||||||0.876
82524362|NCT02521285|164744741|SUPERIORITY|||||||0.505|||||||t-test, 2 sided|||||||0.505
82524363|NCT02521285|164744742|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
82524364|NCT02521285|164744742|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
82524365|NCT02521285|164744743|SUPERIORITY|||||||0.105|||||||t-test, 2 sided|||||||0.105
82524366|NCT02521285|164744743|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82524367|NCT05701995|164744756|SUPERIORITY||Odds Ratio (OR)|7.7||||0.0001|TWO_SIDED|95.0|2.5|23.6|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set||23.6|2.5|0.0001
82524368|NCT05701995|164744756|SUPERIORITY||Odds Ratio (OR)|8.5||||0.0003|TWO_SIDED|95.0|2.4|30.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||30.4|2.4|0.0003
82425690|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.952||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.952
82425691|NCT00402987|164560351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.948
82524369|NCT05701995|164744757|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0107|TWO_SIDED|95.0|1.2|4.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set||4.4|1.2|0.0107
82524370|NCT05701995|164744757|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0175|TWO_SIDED|95.0|1.2|4.7|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||4.7|1.2|0.0175
82524371|NCT05701995|164744758|SUPERIORITY||Adjusted Mean Difference|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.2|||Covariance model|||Full Analysis Set||-1.2|-2.9|<0.0001
82524372|NCT05701995|164744758|SUPERIORITY||Adjusted Mean Difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.3|||Covariance model|||Full Analysis Set Sub-population||-1.3|-3.0|<0.0001
82387233|NCT01908829|164484915|SUPERIORITY||LS Means|-0.07|STANDARD_ERROR_OF_MEAN|0.05|=|0.134|TWO_SIDED|95.0|-0.17|0.02||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.02|-0.17|=0.134
82387234|NCT01908829|164484915|SUPERIORITY||LS Means|-0.06|STANDARD_ERROR_OF_MEAN|0.05|=|0.174|TWO_SIDED|95.0|-0.16|0.03||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicates superiority in favor of treatment group with the largest improvement.|ANCOVA|||EOT adjusted change from baseline values as well as 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.03|-0.16|=0.174
82640057|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.853|TWO_SIDED|95.0|-0.18|0.22|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms. Upper limit of 95% CI \< 0 for Ibuprofen treatment significantly better than combined Placebo.||0.22|-0.18|0.853
82425692|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.775
82387235|NCT01908829|164484916|SUPERIORITY||Rate Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.04|=|0.993|TWO_SIDED|95.0|0.93|1.08||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 4 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.08|0.93|=0.993
82387236|NCT01908829|164484916|SUPERIORITY||Rate Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.04|=|0.736|TWO_SIDED|95.0|0.9|1.07||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 8 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.07|0.90|=0.736
82387237|NCT01908829|164484916|SUPERIORITY||Rate Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.05|=|0.121|TWO_SIDED|95.0|0.85|1.02||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||Week 12 rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.02|0.85|=0.121
82387238|NCT01908829|164484916|SUPERIORITY||Rate Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.04|=|0.172|TWO_SIDED|95.0|0.86|1.03||p\<0.05 indicates superiority in favor of treatment group with lowest rate of nocturia episodes.|Mixed Effects Poisson|||EoT rate ratio, 95% CIs, \& p-value for number of nocturia episodes during 3-day diary between combination \& solifenacin treatment calculated from a Mixed Effects Poisson (negative binomial) regression model including treatment group, sex, age group (\<65, \>=65 years), geographic region \& 4-week incontinence episode reduction group as factors, log of (number of nocturia episodes/number of valid diary days) at baseline as covariate and log of number of valid diary days as the offset variable.||1.03|0.86|=0.172
82387239|NCT01908829|164484922|SUPERIORITY||LS Means|-2.89|STANDARD_ERROR_OF_MEAN|0.91|=|0.002|TWO_SIDED|95.0|-4.68|-1.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-1.10|-4.68|=0.002
82524373|NCT05701995|164744759|SUPERIORITY||Odds Ratio (OR)|5.9||||0.0004|TWO_SIDED|95.0|2.0|17.4|||Stratified Cochran-Mantel-Haenszel (CMH)|||Full Analysis Set Sub-population||17.4|2.0|0.0004
82640058|NCT01945034|164994659|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.733|TWO_SIDED|95.0|-0.2|0.29|||ANOVA|p-value \<=0.05 for treatment effects||Day 10: The ANOVA model was used which contains treatment, baseline categorical pain severity rating, pooled site block, and baseline participant assessment of Normal Function/Activity terms.||0.29|-0.20|0.733
82387240|NCT01908829|164484922|SUPERIORITY||LS Means|-4.5|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|-6.4|-2.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-2.60|-6.40|<0.001
82387241|NCT01908829|164484922|SUPERIORITY||LS Means|-5.59|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-7.56|-3.62||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-3.62|-7.56|<0.001
82387242|NCT01908829|164484922|SUPERIORITY||LS Means|-4.96|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|-6.88|-3.04||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-3.04|-6.88|<0.001
82387243|NCT01908829|164484923|SUPERIORITY||LS Means|1.92|STANDARD_ERROR_OF_MEAN|0.83|=|0.021|TWO_SIDED|95.0|0.29|3.55||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.55|0.29|=0.021
82535254|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.261|TWO_SIDED|95.0|-0.52|0.14||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.14|-0.52|0.261
82535255|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.446|TWO_SIDED|95.0|-0.46|0.2||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.20|-0.46|0.446
82640059|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.016|TWO_SIDED|95.0|1.07|1.97|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the Proportional Hazards (PH) model with treatment, BLPSR, and pooled site blocks.||1.97|1.07|0.016
82387244|NCT01908829|164484923|SUPERIORITY||LS Means|2.31|STANDARD_ERROR_OF_MEAN|0.89|=|0.01|TWO_SIDED|95.0|0.56|4.06||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.06|0.56|=0.010
82535256|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.783|TWO_SIDED|95.0|-0.29|0.38||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.38|-0.29|0.783
82535257|NCT00495469|164768489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.454|TWO_SIDED|95.0|-0.46|0.21||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.21|-0.46|0.454
82535258|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.363|TWO_SIDED|95.0|-0.59|0.22||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.22|-0.59|0.363
82387245|NCT01908829|164484923|SUPERIORITY||LS Means|3.49|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|1.65|5.33||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.33|1.65|<0.001
82524374|NCT00406133|164744766|SUPERIORITY_OR_OTHER|||||||0.29||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value is for age 8-14 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||The study was to test whether the use of CGM will lower A1c at 26 weeks. The estimated sample size was 110 for each age group, which will provide 90% power to detect a difference between treatment groups in each of the age groups assuming a population difference of 0.5%, a two-tailed test with type I error rate of 5%, standard deviation of the 6 month HbA1c values of 0.9, correlation between baseline and 26-week values of 0.58.||||0.29
82524375|NCT00406133|164744766|SUPERIORITY_OR_OTHER|||||||0.52||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value for age 15-24 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||||||0.52
82524376|NCT00406133|164744766|SUPERIORITY_OR_OTHER||||||<|0.001||||||"A P value of 0.0167 was considered the significance level for the primary analysis in each age group to maintain an overall type I error rate of 0.05.~P value is for age \>=25 group."|ANCOVA|Performed in each age group and adjusted for the baseline A1c and clinical center.||||||<0.001
82524377|NCT00406133|164744767|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value was for the comparison of RT-CGM group and Control group.|ANCOVA|Based on the ranks of the 26wk values using VDW scores, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||A sample size of 120 subjects was planned to have 90% power to detect a difference in this outcome between treatment groups, assuming a population difference of 29 min/day, standard deviation of the 26-week values of 59 min/day, correlation between baseline and 26-week values of 0.66, an α=0.05, and no more than 15% losses to follow-up.||||0.16
82524378|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||0.74||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the 8-14 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.74
82387246|NCT01908829|164484923|SUPERIORITY||LS Means|3.15|STANDARD_ERROR_OF_MEAN|0.92|=|0.001|TWO_SIDED|95.0|1.35|4.95||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.95|1.35|=0.001
82524379|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the 15-24 year age group.|Fisher Exact|||||||0.48
82524380|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||1||||||P-value is for N(%) of subjects with \>=1 severe hypo event in the \>=25 year age group.|Fisher Exact|||||||1.0
82524381|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the 8-14 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.74
82535259|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.111|TWO_SIDED|95.0|-0.76|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-0.76|0.111
82524382|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the 15-24 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||0.48
82387247|NCT01908829|164484924|SUPERIORITY||LS Means|2.9|STANDARD_ERROR_OF_MEAN|0.96|=|0.003|TWO_SIDED|95.0|1.02|4.78||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.78|1.02|=0.003
82535260|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.08|TWO_SIDED|95.0|-0.77|0.04||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.04|-0.77|0.080
82387248|NCT01908829|164484924|SUPERIORITY||LS Means|3.35|STANDARD_ERROR_OF_MEAN|1.05|=|0.001|TWO_SIDED|95.0|1.29|5.4||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.40|1.29|=0.001
82387249|NCT01908829|164484924|SUPERIORITY||LS Means|4.71|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|2.55|6.87||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||6.87|2.55|<0.001
82425693|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.094||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.094
82640060|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.022|TWO_SIDED|95.0|0.53|0.95|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.95|0.53|0.022
82387250|NCT01908829|164484924|SUPERIORITY||LS Means|4.29|STANDARD_ERROR_OF_MEAN|1.07|<|0.001|TWO_SIDED|95.0|2.2|6.39||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||6.39|2.20|<0.001
82387251|NCT01908829|164484925|SUPERIORITY||LS Means|1.94|STANDARD_ERROR_OF_MEAN|0.96|=|0.044|TWO_SIDED|95.0|0.05|3.83||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.83|0.05|=0.044
82387252|NCT01908829|164484925|SUPERIORITY||LS Means|2.5|STANDARD_ERROR_OF_MEAN|1.0|=|0.012|TWO_SIDED|95.0|0.55|4.46||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.46|0.55|=0.012
82524383|NCT00406133|164744768|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0||||P-value is for N(%) of subjects with \>=1 severe hypo event with seizure or comma in the \>=25 year age group.|Fisher Exact|||The proportions of patients experiencing one or more severe hypoglycemic events in each treatment group were compared using Fisher's exact test. Incidences of hypoglycemic events were compared and confidence intervals for the treatment group difference calculated using permutation tests. Similar analyses were performed for the subset of hypoglycemic events associated with seizure or coma.||||1.0
82535261|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.267|TWO_SIDED|95.0|-0.64|0.18||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.18|-0.64|0.267
82535262|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.549|TWO_SIDED|95.0|-0.54|0.29||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.29|-0.54|0.549
82387253|NCT01908829|164484925|SUPERIORITY||LS Means|3.61|STANDARD_ERROR_OF_MEAN|1.05|=|0.001|TWO_SIDED|95.0|1.54|5.67||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.67|1.54|=0.001
82443607|NCT01541917|164595762|SUPERIORITY_OR_OTHER||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.06|-0.02|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since group procedures were initiated.|Multilevel growth model evaluating average change over time (regardless of group) on the outcome variable||-.02|-.06|<.001
82387254|NCT01908829|164484925|SUPERIORITY||LS Means|3.28|STANDARD_ERROR_OF_MEAN|1.03|=|0.001|TWO_SIDED|95.0|1.27|5.29||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||5.29|1.27|=0.001
82387255|NCT01908829|164484926|SUPERIORITY||LS Means|0.54|STANDARD_ERROR_OF_MEAN|0.96|=|0.575|TWO_SIDED|95.0|-1.35|2.43||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||2.43|-1.35|=0.575
82387256|NCT01908829|164484926|SUPERIORITY||LS Means|1.61|STANDARD_ERROR_OF_MEAN|1.0|=|0.109|TWO_SIDED|95.0|-0.36|3.58||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.58|-0.36|=0.109
82387257|NCT01908829|164484926|SUPERIORITY||LS Means|2.26|STANDARD_ERROR_OF_MEAN|1.05|=|0.032|TWO_SIDED|95.0|0.2|4.32||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.32|0.20|=0.032
82387258|NCT01908829|164484926|SUPERIORITY||LS Means|1.86|STANDARD_ERROR_OF_MEAN|1.02|=|0.069|TWO_SIDED|95.0|-0.15|3.87||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.87|-0.15|=0.069
82535263|NCT00495469|164768490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.056|TWO_SIDED|95.0|-0.81|0.01||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.01|-0.81|0.056
82387259|NCT01908829|164484927|SUPERIORITY||LS Means|1.73|STANDARD_ERROR_OF_MEAN|0.83|=|0.037|TWO_SIDED|95.0|0.1|3.36||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||3.36|0.10|=0.037
82425694|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.114||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.114
82425695|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82448792|NCT01345669|164604859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.456||||0.0049|TWO_SIDED|95.0|1.113|1.905||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For pain HN35 scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||1.905|1.113|0.0049
82535264|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.396|TWO_SIDED|95.0|-1.65|0.66||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.66|-1.65|0.396
82387260|NCT01908829|164484927|SUPERIORITY||LS Means|1.09|STANDARD_ERROR_OF_MEAN|0.85|=|0.199|TWO_SIDED|95.0|-0.57|2.76||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||2.76|-0.57|=0.199
82387261|NCT01908829|164484927|SUPERIORITY||LS Means|2.62|STANDARD_ERROR_OF_MEAN|0.87|=|0.003|TWO_SIDED|95.0|0.92|4.31||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.31|0.92|=0.003
82387262|NCT01908829|164484927|SUPERIORITY||LS Means|2.48|STANDARD_ERROR_OF_MEAN|0.85|=|0.004|TWO_SIDED|95.0|0.81|4.15||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as 95% CIs \& p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors \& baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||4.15|0.81|=0.004
82535265|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51||||0.013|TWO_SIDED|95.0|-2.7|-0.33||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.33|-2.70|0.013
82425696|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425697|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387263|NCT01908829|164484928|SUPERIORITY||LS Means|0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.2|0.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.6|0.2|<0.001
82425698|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524384|NCT00406133|164744769|SUPERIORITY_OR_OTHER|||||||0.53||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.53
82524385|NCT00406133|164744769|SUPERIORITY_OR_OTHER|||||||0.79||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.79
82524386|NCT00406133|164744769|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|||||||<0.001
82524387|NCT00406133|164744770|SUPERIORITY_OR_OTHER|||||||0.58||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.58
82524388|NCT00406133|164744770|SUPERIORITY_OR_OTHER|||||||0.85||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.85
82524389|NCT00406133|164744770|SUPERIORITY_OR_OTHER|||||||0.002||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.002
82524390|NCT00406133|164744771|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.18
82640061|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.34|0.69|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to First Perceptible Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.69|0.34|< 0.001
82524391|NCT00406133|164744771|SUPERIORITY_OR_OTHER|||||||0.44||||||P-value for the comparison of treatment groups at 26wks adjusting for the baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.44
82387264|NCT01908829|164484928|SUPERIORITY||LS Means|0.3|STANDARD_ERROR_OF_MEAN|0.1|=|0.019|TWO_SIDED|95.0|0.0|0.5||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.5|0.0|=0.019
82524392|NCT00406133|164744771|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||<0.001
82387265|NCT01908829|164484928|SUPERIORITY||LS Means|0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|0.3|0.7||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.7|0.3|<0.001
82535266|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.44||||0.017|TWO_SIDED|95.0|-2.61|-0.26||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.26|-2.61|0.017
82535267|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.45||||0.015|TWO_SIDED|95.0|-2.61|-0.28||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||-0.28|-2.61|0.015
82535268|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.069|TWO_SIDED|95.0|-2.26|0.08||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||0.08|-2.26|0.069
82425699|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387266|NCT01908829|164484928|SUPERIORITY||LS Means|0.4|STANDARD_ERROR_OF_MEAN|0.1|=|0.001|TWO_SIDED|95.0|0.2|0.6||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as the 95% CIs and p-value were generated from an ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Differences of adjusted means were calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||0.6|0.2|=0.001
82387267|NCT01908829|164484929|SUPERIORITY||LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 4 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
82425700|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524393|NCT00406133|164744772|SUPERIORITY_OR_OTHER|||||||0.29||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.29
82524394|NCT00406133|164744772|SUPERIORITY_OR_OTHER|||||||0.79||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.79
82524395|NCT00406133|164744772|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.41
82524396|NCT00406133|164744773|SUPERIORITY_OR_OTHER|||||||0.5||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Continuous glucose monitoring data in both groups following the 26-week visit (blinded use in the control group and unblinded use in the continuous glucose monitoring group) were used to estimate the amount of time per day the glucose level was hypoglycemic (\<=70 mg/dL and \<=50 mg/dL), hyperglycemic (\>180 mg/dL and \>250 mg/dL), and in the target range (71 to 180 mg/dL).||||0.50
82524397|NCT00406133|164744773|SUPERIORITY_OR_OTHER|||||||0.99||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.99
82524398|NCT00406133|164744773|SUPERIORITY_OR_OTHER|||||||0.1||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.10
82524399|NCT00406133|164744774|SUPERIORITY_OR_OTHER|||||||0.66||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 8-14 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||Glucose variability was assessed by computing the absolute rate of change.||||0.66
82524400|NCT00406133|164744774|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for 15-24 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.48
82425701|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524401|NCT00406133|164744774|SUPERIORITY_OR_OTHER|||||||0.07||||||P-value for the comparison of treatment groups at 26wks adjusting for baseline for \>=25 years age group.|ANCOVA|Adjusted for the corresponding baseline value, baseline glycated hemoglobin level, clinical center, and type of continuous glucose monitor.||||||0.07
82524402|NCT00406133|164744775|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|Adjusted for baseline A1c and clinical center.||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center).||||<0.001
82524403|NCT00406133|164744776|SUPERIORITY_OR_OTHER||||||<|0.001||||||Based on the ranks of the 26wk values using VDW scores, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.|ANCOVA|Adjusted for baseline value, clinical center and type of continuous glucose monitor.||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||<0.001
82524404|NCT00406133|164744777|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.03
82524405|NCT00406133|164744778|SUPERIORITY_OR_OTHER|||||||0.04||||||P-value for the 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.04
82425702|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425703|NCT00402987|164560352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82640062|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79|||<|0.001|TWO_SIDED|95.0|1.27|2.51|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||2.51|1.27|< 0.001
82387268|NCT01908829|164484929|SUPERIORITY||LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 8 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
82387269|NCT01908829|164484929|SUPERIORITY||LS Means|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.2||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||Week 12 adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.2|-0.4|<0.001
82448793|NCT01345669|164604859|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.604||||0.0002|TWO_SIDED|95.0|1.238|2.079||P-value from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||For global health status/QoL scale; Hazard ratio from Cox proportional hazard model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||2.079|1.238|0.0002
82524406|NCT00406133|164744778|SUPERIORITY_OR_OTHER|||||||0.46||||||P-value for the 15-24 year age group|Regression, Logistic|||||||0.46
82640063|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.009|TWO_SIDED|95.0|0.41|0.88|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.88|0.41|0.009
82387270|NCT01908829|164484929|SUPERIORITY||LS Means|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.4|-0.1||P-values for pairwise comparisons were from the ANCOVA model described above. p\<0.05 indicated superiority in favor of treatment group with the largest improvement.|ANCOVA|||EoT adjusted change from baseline values as well as the 95% CIs and p-value were generated from ANCOVA model with treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence reduction group and geographic region as fixed factors and baseline value as a covariate. Difference of adjusted mean was calculated by subtracting adjusted mean of solifenacin monotherapy groups from adjusted mean of combination group.||-0.1|-0.4|<0.001
82387271|NCT01908829|164484931|SUPERIORITY||Odds Ratio (OR)|1.48|||<|0.001|TWO_SIDED|95.0|1.19|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.19|<0.001
82387272|NCT01908829|164484931|SUPERIORITY||Odds Ratio (OR)|1.57|||<|0.001|TWO_SIDED|95.0|1.25|1.98||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.98|1.25|<0.001
82443608|NCT01541917|164595762|SUPERIORITY_OR_OTHER||Slope|-0.014|STANDARD_ERROR_OF_MEAN|0.021||0.51|TWO_SIDED|95.0|-0.055|0.027|||Multilevel growth model||The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.027|-.055|.51
82524407|NCT00406133|164744778|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value for the \>=25 year age group|Regression, Logistic|||||||0.003
82524408|NCT00406133|164744779|SUPERIORITY_OR_OTHER|||||||0.24||||||P-value for 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.24
82524409|NCT00406133|164744779|SUPERIORITY_OR_OTHER|||||||0.98||||||P-value for the 15-24 year old age group|Regression, Logistic|||||||0.98
82524410|NCT00406133|164744779|SUPERIORITY_OR_OTHER|||||||0.48||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||0.48
82387273|NCT01908829|164484931|SUPERIORITY||Odds Ratio (OR)|1.54|||=|0.001|TWO_SIDED|95.0|1.21|1.95||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.95|1.21|=0.001
82640064|NCT01945034|164994661|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.22|0.52|||Proportional Hazards Model|p-value \<=0.05 for treatment effects||Time to Meaningful Relief: Hazard Ratio and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, BLPSR, and pooled site blocks.||0.52|0.22|< 0.001
82425704|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82640065|NCT01945034|164994663|SUPERIORITY_OR_OTHER|||||||0.479|||||||Cochran-Mantel-Haenszel|p-values from the Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for BLPSR and site block.||||||0.479
82387274|NCT01908829|164484931|SUPERIORITY||Odds Ratio (OR)|1.51|||<|0.001|TWO_SIDED|95.0|1.2|1.9||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.90|1.20|<0.001
82425705|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
82443609|NCT01541917|164595763|SUPERIORITY_OR_OTHER||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|0.27|0.46|||Multilevel growth model|Adjusted for baseline values.|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||.46|.27|<.001
82535269|NCT00495469|164768491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03||||0.086|TWO_SIDED|95.0|-0.15|2.2||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change = Baseline + Treatment||||2.20|-0.15|0.086
82387275|NCT01908829|164484932|SUPERIORITY||Odds Ratio (OR)|1.24|||=|0.119|TWO_SIDED|95.0|0.95|1.63||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.63|0.95|=0.119
82387276|NCT01908829|164484932|SUPERIORITY||Odds Ratio (OR)|1.56|||<|0.001|TWO_SIDED|95.0|1.23|1.98||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.98|1.23|<0.001
82425706|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.007
82387277|NCT01908829|164484932|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.002|TWO_SIDED|95.0|1.14|1.82||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.82|1.14|=0.002
82640066|NCT01945034|164994663|SUPERIORITY_OR_OTHER|||||||0.279|||||||Cochran-Mantel-Haenszel|p-values from the CMH test with modified ridit scores, controlling for BLPSR and site block.||||||0.279
82640067|NCT01945034|164994663|SUPERIORITY_OR_OTHER|||||||0.129|||||||Cochran-Mantel-Haenszel|p-values from the CMH test with modified ridit scores, controlling for BLPSR and site block.||||||0.129
82640068|NCT02389621|164994669|SUPERIORITY||Difference|36.7|||<|0.0001|TWO_SIDED|95.0|24.9|48.5||Statistical tests were performed at a 2-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Adjusted using the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||48.5|24.9|<0.0001
82387278|NCT01908829|164484932|SUPERIORITY||Odds Ratio (OR)|1.47|||=|0.001|TWO_SIDED|95.0|1.17|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.17|=0.001
82387279|NCT01908829|164484933|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.305|TWO_SIDED|95.0|0.88|1.5||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.50|0.88|=0.305
82387280|NCT01908829|164484933|SUPERIORITY||Odds Ratio (OR)|1.37|||=|0.014|TWO_SIDED|95.0|1.06|1.76||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.76|1.06|=0.014
82387281|NCT01908829|164484933|SUPERIORITY||Odds Ratio (OR)|1.37|||=|0.012|TWO_SIDED|95.0|1.07|1.76||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.76|1.07|=0.012
82425707|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.015
82524411|NCT00406133|164744780|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value representative of 13 and 26 weeks combined|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.005
82387282|NCT01908829|164484933|SUPERIORITY||Odds Ratio (OR)|1.29|||=|0.036|TWO_SIDED|95.0|1.02|1.64||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.64|1.02|=0.036
82387283|NCT01908829|164484934|SUPERIORITY||Odds Ratio (OR)|1.49|||=|0.001|TWO_SIDED|95.0|1.18|1.88||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.88|1.18|=0.001
82387284|NCT01908829|164484934|SUPERIORITY||Odds Ratio (OR)|1.69|||<|0.001|TWO_SIDED|95.0|1.31|2.18||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.18|1.31|<0.001
82524412|NCT00406133|164744781|SUPERIORITY_OR_OTHER|||||||0.05||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Percentages of values less than or greater than a given threshold were converted to minutes per day by multiplying by 1,440. A nonparametric approach was followed using an ANCOVA based on ranks of the 26 week values, adjusted for the baseline value, clinical center, and type of continuous glucose monitor.||||0.05
82524413|NCT00406133|164744782|SUPERIORITY_OR_OTHER|||||||0.39||||||P-value representative of 13 and 26 weeks combined.|ANCOVA|||Glucose variability was assessed by computing the absolute rate of change.||||0.39
82524414|NCT00406133|164744783|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Nominal p-value not adjusted for multiple comparisons|ANCOVA|||||||0.04
82524415|NCT00406133|164744784|SUPERIORITY_OR_OTHER||Ratio of treatment differences|408148.0|||||TWO_SIDED|95.0|-176644.0|3475108.0||||||"ICER = Incremental Cost Effectiveness Ratio is defined as the mean difference in costs between the treatment groups divided by the mean difference in QALY (quality-adjusted life-year) between the treatment groups:~(mean cost\[CGM\] - mean cost \[control\]) / (mean QALY\[CGM\] - mean QALY\[SMBG\]).~Units are dollars per QALY."||3475108|-176644|
82535270|NCT03815916|164768514|SUPERIORITY||Mean Difference (Final Values)|0.3865||||0.1077|TWO_SIDED||||||t-test, 2 sided|||The primary efficacy endpoint is the mean change in the average NAD+/NADH brain ratio from baseline to Week 12 using a partial volume coil 31P-MRS data on the Per Protocol Treatment Population. A paired t-test will be used to analyze the mean change from baseline.||||0.1077
82387285|NCT01908829|164484934|SUPERIORITY||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.47|2.61||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.61|1.47|<0.001
82425708|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.033
82640069|NCT02389621|164994670|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|Difference|34.8|||<|0.0001|TWO_SIDED|95.0|22.8|46.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||46.8|22.8|<0.0001
82387286|NCT01908829|164484934|SUPERIORITY||Odds Ratio (OR)|1.75|||<|0.001|TWO_SIDED|95.0|1.34|2.3||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.30|1.34|<0.001
82387287|NCT01908829|164484935|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.003|TWO_SIDED|95.0|1.14|1.82||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.82|1.14|=0.003
82387288|NCT01908829|164484935|SUPERIORITY||Odds Ratio (OR)|1.51|||=|0.001|TWO_SIDED|95.0|1.18|1.93||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.93|1.18|=0.001
82387289|NCT01908829|164484935|SUPERIORITY||Odds Ratio (OR)|1.64|||<|0.001|TWO_SIDED|95.0|1.27|2.13||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.13|1.27|<0.001
82387290|NCT01908829|164484935|SUPERIORITY||Odds Ratio (OR)|1.5|||=|0.001|TWO_SIDED|95.0|1.17|1.91||p\<0.05 indicates superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.91|1.17|=0.001
82387291|NCT01908829|164484936|SUPERIORITY||Odds Ratio (OR)|1.42|||=|0.003|TWO_SIDED|95.0|1.13|1.79||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.79|1.13|=0.003
82387292|NCT01908829|164484936|SUPERIORITY||Odds Ratio (OR)|1.44|||=|0.004|TWO_SIDED|95.0|1.12|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.12|=0.004
82387293|NCT01908829|164484936|SUPERIORITY||Odds Ratio (OR)|1.5|||=|0.003|TWO_SIDED|95.0|1.15|1.96||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.96|1.15|=0.003
82387294|NCT01908829|164484936|SUPERIORITY||Odds Ratio (OR)|1.43|||=|0.006|TWO_SIDED|95.0|1.11|1.84||p\<0.05 indicated superiority in favor of treatment group with highest response.|Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.84|1.11|=0.006
82387295|NCT01908829|164484937|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.065|TWO_SIDED|95.0|0.99|1.66|||Regression, Logistic|||Week 4 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.66|0.99|=0.065
82387296|NCT01908829|164484937|SUPERIORITY||Odds Ratio (OR)|1.41|||=|0.004|TWO_SIDED|95.0|1.11|1.79|||Regression, Logistic|||Week 8 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.79|1.11|=0.004
82387297|NCT01908829|164484937|SUPERIORITY||Odds Ratio (OR)|1.64|||<|0.001|TWO_SIDED|95.0|1.3|2.07|||Regression, Logistic|||Week 12 odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||2.07|1.30|<0.001
82387298|NCT01908829|164484937|SUPERIORITY||Odds Ratio (OR)|1.55|||<|0.001|TWO_SIDED|95.0|1.24|1.94|||Regression, Logistic|||EoT odds ratios, 95% Two sided CIs for Odds ratios and p-values were from a logistic regression model including treatment group, sex, age group (\<65, \>=65 years), 4-week incontinence episode reduction group, geographic region as factors and baseline value as covariate.||1.94|1.24|<0.001
82387299|NCT04513080|164484966|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
82387300|NCT04513080|164484966|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
82524416|NCT00406133|164744785|SUPERIORITY_OR_OTHER|||||||0.009||||||P-value for the 8-14 year old age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.009
82387301|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.53|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
82387302|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
82387303|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.44|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
82387304|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
82387305|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from baseline to week 6||||
82387306|NCT04513080|164484967|SUPERIORITY||Mean Difference (Final Values)|0.68|||||TWO_SIDED|||||||||Mean difference comparing difference in average scores from week 6 to week 12||||
82387307|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||||0.93|0.67|
82387308|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||||1.12|0.81|
82387309|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
82387310|NCT02477826|164484976|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
82387311|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.59|0.93||||||||0.93|0.59|
82387312|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.52|0.72||||||||0.72|0.52|
82387313|NCT02477826|164484976|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.49|0.89||||||||0.89|0.49|
82524417|NCT00406133|164744785|SUPERIORITY_OR_OTHER|||||||0.57||||||P-value for 15-24 year old age group|Regression, Logistic|||||||0.57
82524418|NCT00406133|164744785|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||<0.001
82524419|NCT00406133|164744786|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value for 8-14 year age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.18
82524420|NCT00406133|164744786|SUPERIORITY_OR_OTHER|||||||0.84||||||P-value for 15-24 year old age group.|Regression, Logistic|||||||0.84
82387314|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.67|0.91||||||||0.91|0.67|
82577013|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.244||0.0044|TWO_SIDED|95.0|-1.19|-0.23|||MMRM|||Depressed Mood, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-1.19|0.0044
82387315|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.78|1.05||||||||1.05|0.78|
82387316|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|1.01||||||||1.01|0.74|
82387317|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.51|0.79||||||||0.79|0.51|
82647759|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.24||0.055|TWO_SIDED|95.0|-0.92|0.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.01|-0.92|0.055
82387318|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.63|0.96||||||||0.96|0.63|
82387319|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.64|0.87||||||||0.87|0.64|
82387320|NCT02477826|164484977|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.64|1.14||||||||1.14|0.64|
82387321|NCT00828568|164484980|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence limit around the difference in proportion of patients considered a Treatment Success between test and reference products was calculated using Blackwelder's method with Yate's continuity correction. If the 90% confidence interval for the test to reference ratio for the primary endpoint was within -0.20 to +0.20, then the test product would have been declared therapeutically equivalent to the reference product.|Mean Difference (Final Values)|4.85||||||90.0|-5.37|15.08||||||||15.08|-5.37|
82387322|NCT00828568|164484982|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82524421|NCT00406133|164744786|SUPERIORITY_OR_OTHER|||||||0.02||||||P-value for \>=25 year old age group.|Regression, Logistic|||||||0.02
82387323|NCT00828568|164484982|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<.0001
82387324|NCT00403481|164484983|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|One-sample t-test|||||||<0.0001
82524422|NCT00406133|164744787|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value for 8-14 year age group|Regression, Logistic|||Within each age group, in addition to the primary ANCOVA analysis, pre-specified 26-week binary glycated hemoglobin outcomes (relative decrease by \>=10%, 26-week level \<7.0%, absolute decrease by \>=0.5%, relative increase by \>=10%, absolute increase by \>=0.5%) were evaluated in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.01
82387325|NCT00403481|164484984|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 for both daytime and nighttime. No multiplicity adjustments.|one-sample t-test|||||||<0.0001
82387326|NCT00403481|164484985|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||||||<0.0001
82524423|NCT00406133|164744787|SUPERIORITY_OR_OTHER|||||||0.8||||||P-value for 14-24 year age group|Regression, Logistic|||||||0.80
82647760|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.42|-0.49||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.49|-1.42|<0.001
82387327|NCT00403481|164484986|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||||||0.0001
82387328|NCT00403481|164484988|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|||||||<0.0001
82387329|NCT00403481|164484989|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 applies to both the daytime and nighttime analyses|one-sample t-test|||||||<0.0001
82387330|NCT00403481|164484990|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||one-sample t-test|||||||<0.0001
82387331|NCT00403481|164484991|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<0.0001 applies to both 4 hour and 6 hour analyses|one-sample t-test|||||||<0.0001
82425709|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.036
82425710|NCT00402987|164560353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.500
82387332|NCT03139578|164485000|NON_INFERIORITY|Non-inferiority margin of 0.625 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of 0.625, then non-inferiority of Test relative to Control was concluded.|Cumulative Odds Ratio|1.18|||||TWO_SIDED|95.0|0.46|3.06|||Generalized linear mixed model|Simulation-based adjustment was utilized to address the multiple comparisons of different base curves.|Cumulative odds ratio was calculated as Test over Control.|||3.06|0.46|
82387333|NCT03139578|164485000|NON_INFERIORITY|Non-inferiority margin of 0.625 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of 0.625, then non-inferiority of Test relative to Control was concluded.|Cumulative Odds Ratio|0.93|||||TWO_SIDED|95.0|0.34|2.52|||Generalized linear mixed model|Simulation-based adjustment was utilized to address the multiple comparisons of different base curves.|Cumulative odds ratio was calculated as Test over Control.|||2.52|0.34|
82387334|NCT03139578|164485001|EQUIVALENCE|Equivalence margin of 70% was used for no difference in lens power requirement.|Proportion (%)|93.8|||||TWO_SIDED|97.5|81.1|98.1|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||98.1|81.1|
82387335|NCT03139578|164485001|EQUIVALENCE|Equivalence margin of 70% was used for no difference in lens power requirement.|Proportion (%)|83.3|||||TWO_SIDED|97.5|68.3|92.1|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||92.1|68.3|
82387336|NCT03139578|164485001|EQUIVALENCE|Equivalence margin of 80% was used for the lens power requirement difference within ±0.25 D.|Proportion (%)|100.0|||||TWO_SIDED|97.5|90.5|100.0|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||100|90.5|
82524424|NCT00406133|164744787|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value for \>=25 year age group|Regression, Logistic|||||||0.005
82387337|NCT03139578|164485001|EQUIVALENCE|Equivalence margin of 80% was used for the lens power requirement difference within ±0.25 D.|Proportion (%)|100.0|||||TWO_SIDED|97.5|90.5|100.0|||Wilson Method||Lens power requirement difference was calculated as Test minus Control. Then the proportion of eyes with similar lens power requirements (no difference or difference within ±0.25D) was calculated.|||100.0|90.5|
82524425|NCT00406133|164744788|SUPERIORITY_OR_OTHER|||||||0.02||||||P-value for the 8-14 year age group|Regression, Logistic|||A post-hoc defined binary outcome of 26-week glycated hemoglobin \<7.0% with no severe hypoglycemic events was analyzed in logistic regression models, adjusted for baseline glycated hemoglobin level and clinical center.||||0.02
82524426|NCT00406133|164744788|SUPERIORITY_OR_OTHER|||||||0.67||||||P-value for the 15-24 year old age group|Regression, Logistic|||||||0.67
82387338|NCT03139578|164485002|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.7|-0.3|
82524427|NCT00406133|164744788|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value for the \>=25 year old age group|Regression, Logistic|||||||0.006
82572801|NCT00267098|164855670|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.026||||0.825|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 12 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 12 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values reflect better outcomes over time in the BiV arm than the RV arm.|Subjects' change in HF stage from randomization to 12 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.825
82640070|NCT02389621|164994671|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|Difference|52.5|||<|0.0001|TWO_SIDED|95.0|42.0|62.9|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of platelet count at randomization and the planned primary invasive procedure.||||62.9|42.0|<0.0001
82572802|NCT00267098|164855670|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|0.01||||0.651|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 18 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 18 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values denote that the BiV arm had better outcomes over time than the RV arm.|Subjects' changes in HF stage from randomization to 18 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.651
82572803|NCT00267098|164855670|SUPERIORITY_OR_OTHER||BiV - RV Difference in Average Rank|-0.006||||0.425|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; thus p-values were not used. Instead, a posterior probability,representing the probability that subjects with biventricular pacing have better outcomes at 24 months, was calculated. A probability ≥0.95 was significant.|Posterior Distribution for Average Rank|Subjects' Randomization - 24 month changes in HF Stage were ranked. The BiV - RV difference in average rank was analyzed.|Positive values denote better outcomes over time in the BiV arm than the RV arm.|Subjects' changes in HF stage from randomization to 24 months were determined. The null hypothesis was that the average change among patients with biventricular pacing is equal to that of patients with right ventricular pacing.||||0.425
82572804|NCT00267098|164855674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.9976|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 6 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 6 months than patients with right ventricular pacing."||||0.9976
82572805|NCT00267098|164855675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.9641|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 12 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 12 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 12 months than patients with right ventricular pacing."||||0.9641
82572806|NCT00267098|164855676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.8416|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The parameter of interest was the BiV - RV difference in mean QOL change from randomization to 18 months.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 18 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 18 months than patients with right ventricular pacing."||||0.8416
82640071|NCT02389621|164994672|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.||||||0.0002|||||||van Elteren test|van Elteren test stratified by platelet transfusion during the study.||||||0.0002
82577014|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.238||0.1339|TWO_SIDED|95.0|-0.83|0.11|||MMRM|||Depressed Mood, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.83|0.1339
82640072|NCT02389621|164994673|SUPERIORITY|A gatekeeping procedure was employed for sequentially testing the prespecified important secondary endpoints, identified as the most clinically relevant endpoints. If the primary endpoint was statistically significant, the secondary endpoints were tested at the 0.05 level (2-sided) in sequence.|||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
82640073|NCT02222246|164994701|NON_INFERIORITY|Change in pain scores from arrival to discharge||||||0.0311|||||||Mixed Models Analysis|Analysis for pain change was conducted using Hierarchical Linear Mixed Effects Model (HLM), adjusting for nested patient and site effects (N=126)||||||0.0311
82387339|NCT03139578|164485002|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.5|
82387340|NCT03139578|164485003|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.3|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.3|-0.4|
82387341|NCT03139578|164485003|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.2|
82387342|NCT03139578|164485004|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.4|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.4|-0.1|
82443610|NCT01541917|164595763|SUPERIORITY_OR_OTHER||Slope|0.053|STANDARD_ERROR_OF_MEAN|0.101||0.59|TWO_SIDED|95.0|-0.144|0.252|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.252|-.144|.59
82387343|NCT03139578|164485004|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.3|-0.2|
82524428|NCT00406133|164744789|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||<0.001
82524429|NCT00406133|164744790|SUPERIORITY_OR_OTHER|||||||0.002|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||0.002
82425711|NCT00402987|164560354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.2|||<|0.001||95.0|8.5|23.8||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||23.8|8.5|<0.001
82524430|NCT00406133|164744791|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Other preplanned secondary outcomes included change in A1c from baseline to 26 weeks in an ANCOVA model (adjusted for baseline A1c and clinical center) and 26-week binary A1c outcomes (decrease and increase in A1C from baseline by \>=0.3% and 26-week value \<7.0%) evaluated similarly using logistic regression models.||||<0.001
82443611|NCT01541917|164595764|SUPERIORITY_OR_OTHER||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.1|0.14|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started|Multilevel growth model evaluating average change over time on the outcome variable||.14|.10|<.001
82640074|NCT02222246|164994702|NON_INFERIORITY|Trajectory of pain across time (arrival to discharge)||||||0.0049||||||p-value for the protocol by time interaction|Mixed Models Analysis|||The trajectory of change in pain score was evaluated every 30 minutes over 120 hours (2 hours) rather than 6 hours because of expected missing data after 120 minutes due to discharge from the ED.||||0.0049
82524431|NCT03937219|164744830|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0131|TWO_SIDED|95.0|0.57|0.94|||Log Rank|||||0.94|0.57|0.0131
82524432|NCT01800968|164744843|SUPERIORITY_OR_OTHER|||||||0.3087|||||||Rank score|||||||0.3087
82524433|NCT01800968|164744844|SUPERIORITY_OR_OTHER|||||||0.1549|||||||Regression, Linear|||||||0.1549
82524434|NCT01800968|164744845|SUPERIORITY_OR_OTHER|||||||0.1932|||||||Regression, Linear|||||||0.1932
82572807|NCT00267098|164855677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.727|TWO_SIDED|95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that patients with BiV pacing have better outcomes than those with RV pacing, was calculated. A probability ≥0.95 was significant.|Posterior Probability of Mean QOL Change|The posterior distribution for the BiV - RV difference in mean QOL score improvement from randomization to 24 months was determined.||"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in QOL score from randomization to 24 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a greater reduction (and thus improvement) in QOL score at 24 months than patients with right ventricular pacing."||||0.7270
82640075|NCT02222246|164994702|NON_INFERIORITY|Emergency Department Arrival||||||0.9393|||||||t-test, 2 sided|||||||0.9393
82524435|NCT01800968|164744846|SUPERIORITY_OR_OTHER|||||||0.9535|||||||Regression, Linear|||||||0.9535
82524436|NCT01800968|164744847|SUPERIORITY_OR_OTHER|||||||0.8548|||||||Regression, Linear|||||||0.8548
82524437|NCT01800968|164744848|SUPERIORITY_OR_OTHER|||||||0.4266|||||||Regression, Linear|||||||0.4266
82572808|NCT00267098|164855678|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.334|||||TWO_SIDED|95.0|1.886|4.815||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 6 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 6 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 6 months than patients with right ventricular pacing."||4.815|1.886|
82572809|NCT00267098|164855679|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.232|||||TWO_SIDED|95.0|1.618|4.839||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 12 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 12 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 12 months than patients with right ventricular pacing.||4.839|1.618|
82572810|NCT00267098|164855680|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|2.24|||||TWO_SIDED|95.0|0.419|4.066||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF at 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 18 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 18 months than patients with right ventricular pacing.||4.066|0.419|
82572811|NCT00267098|164855681|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|3.623|||||TWO_SIDED|95.0|1.623|5.604||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead, a posterior distribution representing the set of possible values for the BiV - RV difference in improvement in LVEF through 24 months was used|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEF change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEF from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEF from randomization to 24 months than patients with right ventricular pacing.||5.604|1.623|
82577015|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.234||0.0149|TWO_SIDED|95.0|-1.04|-0.11|||MMRM|||Depressed Mood, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-1.04|0.0149
82640076|NCT02222246|164994702|NON_INFERIORITY|Post-placement 30 minutes||||||0.7259|||||||t-test, 2 sided|||||||0.7259
82640077|NCT02222246|164994702|NON_INFERIORITY|Post-placement 60 minutes||||||0.53|||||||t-test, 2 sided|||||||0.5300
82640078|NCT02222246|164994702|NON_INFERIORITY|Post-placement 90 minutes||||||0.3678|||||||t-test, 2 sided|||||||0.3678
82640079|NCT02222246|164994702|NON_INFERIORITY|Post-placement 120 minutes||||||0.2457|||||||t-test, 2 sided|||||||0.2457
82640080|NCT02222246|164994702|NON_INFERIORITY|Emergency Department Discharge||||||0.0007|||||||t-test, 2 sided|||||||0.0007
82524438|NCT01800968|164744849|SUPERIORITY_OR_OTHER|||||||0.1705|||||||Regression, Linear|||||||0.1705
82524439|NCT01800968|164744850|SUPERIORITY_OR_OTHER|||||||0.1309|||||||Regression, Linear|||||||0.1309
82524440|NCT01800968|164744851|SUPERIORITY_OR_OTHER|||||||0.792|||||||Regression, Linear|||||||0.7920
82524441|NCT01800968|164744852|SUPERIORITY_OR_OTHER|||||||0.7026|||||||Regression, Linear|||||||0.7026
82524442|NCT01800968|164744853|SUPERIORITY_OR_OTHER|||||||0.2662|||||||Regression, Linear|||||||0.2662
82387344|NCT03139578|164485005|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.5|-0.5|
82640081|NCT02222246|164994703|NON_INFERIORITY|Incidence of nausea during Emergency Department Visit - YES||||||0.0001|||||||Chi-squared|||||||0.0001
82640082|NCT02222246|164994704|NON_INFERIORITY|Incidence of vomiting (YES) during Emergency Department visit||||||0.6625|||||||Chi-squared|||||||0.6625
82387345|NCT03139578|164485005|NON_INFERIORITY|Non-inferiority margin of -1 was used. If the lower limit of 95% confidence interval was greater than a non-inferiority margin of -1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.6|0.4|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.4|-0.6|
82524443|NCT01800968|164744854|SUPERIORITY_OR_OTHER|||||||0.6395|||||||Regression, Linear|||||||0.6395
82524444|NCT01800968|164744855|SUPERIORITY_OR_OTHER|||||||0.8218|||||||Regression, Linear|||||||0.8218
82524445|NCT01800968|164744856|SUPERIORITY_OR_OTHER|||||||0.1124|||||||Regression, Linear|||||||0.1124
82387346|NCT03139578|164485006|NON_INFERIORITY|Non-inferiority margin of 0.1 was used. If the upper limit of 95% confidence interval was lower than a non-inferiority margin of 0.1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|0.002|||||TWO_SIDED|95.0|-0.009|0.012|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.012|-0.009|
82524446|NCT01800968|164744857|SUPERIORITY_OR_OTHER|||||||0.8088|||||||Regression, Linear|||||||0.8088
82524447|NCT01800968|164744858|SUPERIORITY_OR_OTHER|||||||0.7764|||||||Log Rank|||||||0.7764
82524448|NCT01800968|164744859|SUPERIORITY_OR_OTHER|||||||0.1701|||||||Log Rank|||||||0.1701
82524449|NCT01800968|164744860|SUPERIORITY_OR_OTHER|||||||0.6532|||||||Regression, Linear|||||||0.6532
82524450|NCT01800968|164744861|SUPERIORITY_OR_OTHER|||||||0.2033|||||||Rank score|||||||0.2033
82387347|NCT03139578|164485006|NON_INFERIORITY|Non-inferiority margin of 0.1 was used. If the upper limit of 95% confidence interval was lower than a non-inferiority margin of 0.1, then non-inferiority of Test relative to Control was concluded.|Least square mean difference|-0.001|||||TWO_SIDED|95.0|-0.012|0.009|||Linear mixed model|Simulation-based adjustment was used to address the multiple comparisons.||||0.009|-0.012|
82387348|NCT03793842|164485007|EQUIVALENCE|Equivalence margin 1 J/min||||||0.002|||||||t-test, 2 sided|||||||.002
82640083|NCT02222246|164994705|NON_INFERIORITY|Decrease in systolic BP (\>= 20% of baseline)||||||0.4473|||||||Chi-squared|||||||0.4473
82387349|NCT03793842|164485008|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
82387350|NCT03793842|164485009|EQUIVALENCE|Equivalence margin 1 cm H20|Mean Difference (Net)|0.05||||0.006|TWO_SIDED||||||t-test, 2 sided|||||||0.006
82387351|NCT03793842|164485010|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82387352|NCT03793842|164485011|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82640084|NCT02222246|164994706|NON_INFERIORITY|Decrease in diastolic blood pressure (\>= 20% baseline)||||||0.5372|||||||Chi-squared|||||||0.5372
82387353|NCT02547220|164485037|SUPERIORITY||Difference in percentage|2.6||||0.6857|TWO_SIDED|95.0|-29.4|34.5|||Fisher Exact||Difference in percentage was calculated by the difference in percentage of new or worsening TG at 6 months between CINRYZE and placebo|||34.5|-29.4|0.6857
82577016|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3213|TWO_SIDED|95.0|-0.68|0.22|||MMRM|||Depressed Mood, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.68|0.3213
82387354|NCT02703467|164485068|SUPERIORITY||||||>|0.05||||||calculated|t-test, 2 sided|||||||>0.05
82387355|NCT01921101|164485098|SUPERIORITY_OR_OTHER|||||||0.29|||||||Chi-squared|||||||0.29
82640085|NCT02222246|164994707|NON_INFERIORITY|Incidence of oxygen desaturation (\<95%) YES during Emergency Department visit||||||0.2891|||||||Chi-squared|||||||0.2891
82387356|NCT00150488|164485105|OTHER|Compared to baseline|||||<|0.001|||||||Chi-squared|||||||<0.001
82387357|NCT03291431|164485108|OTHER|Chi-Square comparison of frequencies|Pearson Chi-Square|0.17||||0.99|TWO_SIDED|||||A p-value of \<0.05 is considered statistically significant.|Chi-squared|||||||0.99
82387358|NCT03291431|164485109|OTHER||Slope|-0.2||||0.68|TWO_SIDED|95.0||||p \< .05 considered statistically significant.|Mixed Models Analysis||Rate of change compared between groups using linear mixed modeling.|Linear mixed modeling||||0.68
82387359|NCT03291431|164485110|OTHER|||||||0.34||||||p-value \< .05 considered statistically significant.|Mixed Models Analysis|||||||0.34
82387360|NCT03291431|164485111|OTHER|Linear mixed modeling|Slope|-1.99||||0.7|TWO_SIDED|||||p \< .05 considered statistically significant.|Mixed Models Analysis||Rate of change compared between groups using linear mixed modeling.|||||0.70
82640086|NCT02222246|164994709|NON_INFERIORITY|Incidence of sedation during Emergency Department visit.||||||0.3915|||||||Chi-squared|||||||0.3915
82387361|NCT03291431|164485112|OTHER||Slope|0.3||||0.11|TWO_SIDED|||||p \< .05 considered statistically significant.|Mixed Models Analysis|||Linear mixed modeling||||0.11
82387362|NCT01068730|164485186|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|102.58|||||TWO_SIDED|95.0|99.07|106.23|||||Ratio=Treatment B/Treatment A. Geometric least squares (LS) means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||106.23|99.07|
82640087|NCT02222246|164994710|NON_INFERIORITY|Incidence of the need for supplemental oxygen during Emergency Department visit||||||0.0726|||||||Chi-squared|||||||0.0726
82640088|NCT02544607|164994737|OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
82640089|NCT02544607|164994738|OTHER|||||||0.048|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.048
82640090|NCT02544607|164994739|OTHER|||||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.003
82640091|NCT02544607|164994740|OTHER|||||||0.0499|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.0499
82425712|NCT00402987|164560354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.2||||0.009||95.0|2.6|17.9||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||17.9|2.6|0.009
82640092|NCT02544607|164994741|OTHER|||||||0.038|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.038
82640093|NCT04311411|164994794|SUPERIORITY||Median Difference (Final Values)|-534.11|||<|0.0001|TWO_SIDED|95.0|-668.2|-400.02|||ANCOVA|||||-400.02|-668.20|<.0001
82640094|NCT04311411|164994795|SUPERIORITY||Median Difference (Final Values)|0.0439||||0.5437|TWO_SIDED|95.0|-0.0994|0.1871|||Mixed Models Analysis|||Insula||0.1871|-0.0994|0.5437
82640095|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.1806|TWO_SIDED|95.0|-0.0441|0.2301|||Mixed Models Analysis|||Insula||0.2301|-0.0441|0.1806
82640096|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0491||||0.472|TWO_SIDED|95.0|-0.1846|0.0863|||Mixed Models Analysis|||Insula||0.0863|-0.1846|0.4720
82640097|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0011||||0.9842|TWO_SIDED|95.0|-0.1079|0.1058|||Mixed Models Analysis|||Medial frontal gyrus||0.1058|-0.1079|0.9842
82640098|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.0077||||0.8822|TWO_SIDED|95.0|-0.0949|0.1102|||Mixed Models Analysis|||Medial frontal gyrus||0.1102|-0.0949|0.8822
82640099|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0087||||0.8657|TWO_SIDED|95.0|-0.1111|0.0937|||Mixed Models Analysis|||Medial frontal gyrus||0.0937|-0.1111|0.8657
82640100|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.0043||||0.9599|TWO_SIDED|95.0|-0.165|0.1736|||Mixed Models Analysis|||Superior temporal gyrus||0.1736|-0.1650|0.9599
82640101|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.0489||||0.549|TWO_SIDED|95.0|-0.1129|0.2107|||Mixed Models Analysis|||Superior temporal gyrus||0.2107|-0.1129|0.5490
82640102|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0446||||0.5854|TWO_SIDED|95.0|-0.2068|0.1176|||Mixed Models Analysis|||Superior temporal gyrus||0.1176|-0.2068|0.5854
82640103|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0192||||0.7203|TWO_SIDED|95.0|-0.1259|0.0874|||Mixed Models Analysis|||Precentral gyrus||0.0874|-0.1259|0.7203
82640104|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.0404||||0.433|TWO_SIDED|95.0|-0.0617|0.1425|||Mixed Models Analysis|||Precentral gyrus||0.1425|-0.0617|0.4330
82640105|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0596||||0.2488|TWO_SIDED|95.0|-0.1619|0.0426|||Mixed Models Analysis|||Precentral gyrus||0.0426|-0.1619|0.2488
82640106|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.007||||0.8886|TWO_SIDED|95.0|-0.1059|0.0919|||Mixed Models Analysis|||Cingulate gyrus||0.0919|-0.1059|0.8886
82640107|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|0.0684||||0.1563|TWO_SIDED|95.0|-0.0267|0.1635|||Mixed Models Analysis|||Cingulate gyrus||0.1635|-0.0267|0.1563
82640108|NCT04311411|164994795|SUPERIORITY||Mean Difference (Final Values)|-0.0754||||0.1182|TWO_SIDED|95.0|-0.1704|0.0196|||Mixed Models Analysis|||Cingulate gyrus||0.0196|-0.1704|0.1182
82640109|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|20.57|||<|0.0001|TWO_SIDED|95.0|12.11|29.02|||Mixed Models Analysis|||Fasting (Pre-lunch)||29.02|12.11|<.0001
82640110|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|6.63||||0.1097|TWO_SIDED|95.0|-1.53|14.79||Fasting|Mixed Models Analysis|||Fasting (Pre-lunch)||14.79|-1.53|0.1097
82640111|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|13.94||||0.0015|TWO_SIDED|95.0|5.49|22.38|||Mixed Models Analysis|||Fasting (Pre-lunch)||22.38|5.49|0.0015
82640112|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|2.25||||0.4469|TWO_SIDED|95.0|-3.6|8.09|||Mixed Models Analysis|||Postprandial (Post-lunch)||8.09|-3.60|0.4469
82640113|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.8227|TWO_SIDED|95.0|-5.02|6.31|||Mixed Models Analysis|||Postprandial (Post-lunch)||6.31|-5.02|0.8227
82640114|NCT04311411|164994796|SUPERIORITY||Mean Difference (Final Values)|1.61||||0.5861|TWO_SIDED|95.0|-4.23|7.45|||Mixed Models Analysis|||Postprandial (Post-lunch)||7.45|-4.23|0.5861
82640115|NCT01151085|164994839|SUPERIORITY_OR_OTHER||||||=|0.03|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the Frequency of Treatment Related Adverse Events."||||=0.030
82640116|NCT01151085|164994840|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Severity of infections. The null hypothesis is there is no difference among mild, moderate and severe in the Frequency of Treatment Related Adverse Events."||||<0.001
82640117|NCT01151085|164994841|SUPERIORITY_OR_OTHER||||||=|0.017|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past History. The null hypothesis is there is no difference between with and without Past History in the Frequency of Treatment Related Adverse Events."||||=0.017
82425713|NCT00402987|164560354|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9||||0.127||95.0|-13.5|1.7||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.7|-13.5|0.127
82425714|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.480
82425715|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.780
82425716|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.667||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.667
82640118|NCT01151085|164994842|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Statistical Analysis for Risk Factors for the Proportion of Responders to Voriconazole treatment -Severity of infections.||||<0.001
82524451|NCT02220894|164744964|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.0|0.58|0.86||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||0.86|0.58|0.0003
82524452|NCT02220894|164744965|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0012|TWO_SIDED|95.0|0.65|0.91||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||0.91|0.65|0.0012
82524453|NCT02220894|164744966|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0013|TWO_SIDED|95.0|0.71|0.93||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||0.93|0.71|0.0013
82640119|NCT00489411|164994843|SUPERIORITY_OR_OTHER||Mean Difference|0.73||||0.003|TWO_SIDED|95.0|0.26|1.2|||Wilcoxon (Mann-Whitney)|||||1.20|0.26|0.003
82387363|NCT01068730|164485186|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|99.67|||||TWO_SIDED|95.0|96.16|103.31|||||Ratio=Treatment D/Treatment C. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||103.31|96.16|
82640120|NCT00489411|164994844|SUPERIORITY_OR_OTHER||Mean Difference|4.4|||||TWO_SIDED|95.0|0.93|7.88||||||||7.88|0.93|
82640121|NCT00489411|164994845|SUPERIORITY_OR_OTHER||Mean Difference|1.58||||0.03|TWO_SIDED|95.0|0.15|3.0|||Wilcoxon (Mann-Whitney)|||||3.00|0.15|0.03
82387364|NCT01068730|164485186|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7062.8||||||||||||||Geometric least squares means for Treatment A||||
82387365|NCT01068730|164485186|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7245.2||||||||||||||Geometric least squares means for Treatment B||||
82524454|NCT02220894|164744967|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.026|TWO_SIDED|95.0|0.69|1.0||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. non-squamous).|||1.00|0.69|0.0260
82572812|NCT00267098|164855682|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.204|||||TWO_SIDED|95.0|-10.12|-4.214||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 6 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 6 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 6 months than patients with right ventricular pacing."||-4.214|-10.12|
82572813|NCT00267098|164855683|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.255|||||TWO_SIDED|95.0|-10.59|-3.829||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 12 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 12 months than patients with right ventricular pacing.||-3.829|-10.590|
82572814|NCT00267098|164855684|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.242|||||TWO_SIDED|95.0|-11.86|-4.574||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 18 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 18 months than patients with right ventricular pacing.||-4.574|-11.860|
82572815|NCT00267098|164855685|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-7.268|||||TWO_SIDED|95.0|-11.69|-2.846||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESVI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESVI change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESVI from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVESVI from randomization to 24 months than patients with right ventricular pacing.||-2.846|-11.690|
82572816|NCT00267098|164855686|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-5.858|||||TWO_SIDED|95.0|-9.085|-2.562||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 6 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 6 months than patients with right ventricular pacing.||-2.562|-9.085|
82640122|NCT00489411|164994846|SUPERIORITY_OR_OTHER||Mean difference|1.01|||||TWO_SIDED|95.0|0.36|1.65||||||||1.65|0.36|
82387366|NCT01068730|164485186|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11680.0||||||||||||||Geometric least squares means for Treatment C||||
82387367|NCT01068730|164485186|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)]|11641.0||||||95.0||||||||Geometric least squares means for Treatment D||||
82387368|NCT01068730|164485187|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|101.12|||||TWO_SIDED|95.0|96.36|106.11|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||106.11|96.36|
82524455|NCT02220894|164744968|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2134|TWO_SIDED|95.0|0.8|1.1||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||1.10|0.80|0.2134
82524456|NCT02220894|164744969|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7964|TWO_SIDED|95.0|0.93|1.19||One-sided p-value based on stratified log-rank test|Log Rank||Hazard ratio based on Cox regression model with treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||1.19|0.93|0.7964
82524457|NCT02220894|164744970|SUPERIORITY||Difference in Percentage (DP)|7.0||||0.0353|TWO_SIDED|95.0|-0.6|14.6||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous).|||14.6|-0.6|0.0353
82387369|NCT01068730|164485187|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) and (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf.|Ratio (%) of Geometric LS Means|98.65|||||TWO_SIDED|95.0|93.94|103.59|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the 500-mg or 1000-mg Glucophage tablets manufactured by BMS and 500-mg or 1000-mg Diabex tablets manufactured in Australia by Alphapharm, then 20 subjects would have provided 99% power to conclude BE with respect to Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would have provided 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||103.59|93.94|
82387370|NCT01068730|164485187|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1013.6||||||||||||||Geometric least squares means for Treatment A||||
82387371|NCT01068730|164485187|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1024.9||||||||||||||Geometric least squares means for Treatment B||||
82524458|NCT02220894|164744971|SUPERIORITY||Difference in Percentage (DP)|4.6||||0.0744|TWO_SIDED|95.0|-1.7|10.9||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||10.9|-1.7|0.0744
82524459|NCT02220894|164744972|SUPERIORITY||Difference in Percentage (DP)|0.6||||0.406|TWO_SIDED|95.0|-4.2|5.4||One-sided p-value for testing. H0: difference in percentages=0 vs. H1: difference in percentages \>0|Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%) and histology (squamous vs. non-squamous).|||5.4|-4.2|0.4060
82524460|NCT04058353|164745059|SUPERIORITY||Least Squares (LS) Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.2|4.7|||Mixed-effects model for repeated measure|||||4.7|2.2|<0.0001
82640123|NCT03841331|164994849|SUPERIORITY||Treatment Effect|-1.4||||0.5861|TWO_SIDED|95.0|-13.9|11.1|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used|At Week 10||11.1|-13.9|0.5861
82524461|NCT04058353|164745060|SUPERIORITY||LS Mean Difference|-23.1|||<|0.0001|TWO_SIDED|95.0|-26.1|-20.1|||Mixed-effects model for repeated measure|||||-20.1|-26.1|<0.0001
82524462|NCT04058353|164745062|SUPERIORITY||LS Mean Difference|8.7|||<|0.0001|TWO_SIDED|95.0|5.3|12.1|||Mixed-effects model for repeated measure|||||12.1|5.3|<0.0001
82524463|NCT02901626|164745064|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.83|1.2||||||||1.20|0.83|
82387372|NCT01068730|164485187|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1643.8||||||||||||||Geometric least squares means for Treatment C||||
82387373|NCT01068730|164485187|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1621.6||||||||||||||Geometric least squares means for Treatment D||||
82387374|NCT01068730|164485197|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|103.19|||||TWO_SIDED|95.0|99.75|106.75|||||Ratio=Treatment B/Treatment A. Geometric LS means values are presented in other statistical analysis entries.|||106.75|99.75|
82387375|NCT01068730|164485197|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|99.44|||||TWO_SIDED|95.0|96.08|102.92|||||Ratio=Treatment D/Treatment C. Geometric LS means values are presented in other statistical analysis entries.|||102.92|96.08|
82387376|NCT01068730|164485197|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|6907.1||||||||||||||Geometric least squares means for Treatment A||||
82524464|NCT02901626|164745065|SUPERIORITY||Median Difference (Net)|2.0|||||TWO_SIDED|95.0|-4.0|8.0||||||||8|-4|
82524465|NCT02901626|164745066|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.06|0.8||||||||0.80|-1.06|
82524466|NCT02901626|164745067|SUPERIORITY||Risk Ratio (RR)|1.26|||||TWO_SIDED|95.0|0.92|1.71||||||||1.71|0.92|
82524467|NCT02901626|164745068|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.93|1.55||||||||1.55|0.93|
82524468|NCT02901626|164745069|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.93|1.45||||||||1.45|0.93|
82524469|NCT02901626|164745070|SUPERIORITY||Risk Ratio (RR)|1.3|||||TWO_SIDED|95.0|0.92|1.82||||||||1.82|0.92|
82524470|NCT02901626|164745071|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.79|1.19||||||||1.19|0.79|
82524471|NCT02901626|164745072|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.61|2.39||||||||2.39|0.61|
82524472|NCT02901626|164745073|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.79|1.31||||||||1.31|0.79|
82524473|NCT02901626|164745074|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.55|2.04||||||||2.04|0.55|
82524474|NCT02901626|164745075|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
82524475|NCT02901626|164745076|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.95|1.94||||||||1.94|0.95|
82524476|NCT02901626|164745077|SUPERIORITY||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.0|2.11||||||||2.11|1.00|
82524477|NCT02901626|164745078|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||||1.18|0.88|
82577017|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.246||0.0703|TWO_SIDED|95.0|-0.94|0.04|||MMRM|||Depressed Mood, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.94|0.0703
82387377|NCT01068730|164485197|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|7127.4||||||95.0||||||||Geometric least squares means for Treatment B||||
82524478|NCT02901626|164745079|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|-12.0|12.0||||||||12|-12|
82524479|NCT02901626|164745080|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
82524480|NCT02901626|164745081|SUPERIORITY||Median Difference (Net)|1.0|||||TWO_SIDED|95.0|-12.0|14.0||||||||14|-12|
82524481|NCT02901626|164745082|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.06|15.7||||||||15.7|0.06|
82640124|NCT03841331|164994850|SUPERIORITY||Treatment Effect|-0.7||||0.5651|TWO_SIDED|95.0|-10.1|8.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 2||8.7|-10.1|0.5651
82524482|NCT02901626|164745083|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.25|2.65||||||||2.65|0.25|
82524483|NCT02901626|164745084|SUPERIORITY||Risk Ratio (RR)|0.56|||||TWO_SIDED|95.0|0.17|1.9||||||||1.90|0.17|
82524484|NCT02901626|164745085|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.68|1.96||||||||1.96|0.68|
82524485|NCT02901626|164745086|SUPERIORITY||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.71|1.27||||||||1.27|0.71|
82524486|NCT02901626|164745087|SUPERIORITY||Risk Ratio (RR)|0.72|||||TWO_SIDED|95.0|0.37|1.41||||||||1.41|0.37|
82524487|NCT02901626|164745088|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.39|3.37||||||||3.37|0.39|
82524488|NCT02901626|164745089|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.78|1.29||||||||1.29|0.78|
82524489|NCT02901626|164745090|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.58|1.1||||||||1.10|0.58|
82524490|NCT02901626|164745091|SUPERIORITY||Risk Ratio (RR)|2.45|||||TWO_SIDED|95.0|0.48|12.57||||||||12.57|0.48|
82640125|NCT03841331|164994850|SUPERIORITY||Treatment Effect|-4.1||||0.7769|TWO_SIDED|95.0|-14.8|6.7|||Cochran-Mantel-Haenszel|||At Week 4|95% Wald confidence intervals for the treatment difference was used.|6.7|-14.8|0.7769
82387378|NCT01068730|164485197|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11391.0||||||||||||||Geometric least squares means for Treatment C||||
82387379|NCT01068730|164485197|SUPERIORITY_OR_OTHER||[Geometric Least Squares Mean (ng*hr/mL)|11327.0||||||||||||||Geometric least squares means for Treatment D||||
82387380|NCT01113385|164485198|SUPERIORITY_OR_OTHER|||||||0.009||||||p value reflects the difference in mean FSPF pre vs post galactose treatment.|t-test, 2 sided|||||||0.009
82524491|NCT02901626|164745092|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.27|1.58||||||||1.58|0.27|
82524492|NCT02901626|164745093|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.47|0.97||||||||0.97|0.47|
82524493|NCT02901626|164745094|SUPERIORITY||Risk Ratio (RR)|0.49|||||TWO_SIDED|95.0|0.09|2.66||||||||2.66|0.09|
82524494|NCT02901626|164745095|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.81|1.37||||||||1.37|0.81|
82524495|NCT02901626|164745096|SUPERIORITY||Median Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
82524496|NCT02901626|164745097|SUPERIORITY||Median Difference (Net)|10.0|||||TWO_SIDED|95.0|-16.0|36.0||||||||36|-16|
82524497|NCT05674890|164745157|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-0.29|STANDARD_DEVIATION|2.49||0.297|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||0.297
82524498|NCT05674890|164745158|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-2.11|STANDARD_DEVIATION|2.81|<|0.001|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||<0.001
82524499|NCT05674890|164745159|EQUIVALENCE|"Any deviation greater that +/- 0.60 (Effect size/Stdev OR 0.15/0.25=0.60) between device means was considered non-equivalent."|Mean Difference (Net)|-48.75|STANDARD_DEVIATION|56.48|<|0.001|TWO_SIDED||||||t-test, 2 sided|||Prior to patient enrollment, a power calculation was conducted to assess the ability of our analyses to reliably detect differences between the HFA and SSVR. With a sample size of 80, assumed effect size of 0.15, standard deviation of 0.25, intraclass correlation coefficient of 0.50, and significance level of 0.05, our analysis reaches a power of 0.87.||||<0.001
82524500|NCT00246337|164745177|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis. Overall power =85%||||0.015
82524501|NCT00246337|164745178|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
82524502|NCT00246337|164745179|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
82524503|NCT00246337|164745180|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||0.05 is the pre-specified significance level.|generalized linear model|The p-value is based on the average response of the MK0974 200mg, 400mg, and 600mg groups vs. placebo.||Only the MK0974 300mg, 400mg, and 600mg groups are included in the comparison with placebo based on the protocol-specified test statistics selection and the fact that all lower doses were discontinued after the interim analysis.||||<0.001
82524504|NCT01226511|164745188|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.03|-1.27|||Mixed Models Analysis|||||-1.27|-4.03|<0.001
82524505|NCT01446666|164745216|SUPERIORITY||||||<|0.01|||||||McNemar|||The HCC detection rate was defined as the number of patients with HCC detected by a given modality divided by the total number of patients with HCC detected by all modalities and by follow-up dynamic CT scan. The HCC detection rates from ultrasonography and MRI were compared.||||<0.01
82524506|NCT01446666|164745217|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
82524507|NCT01446666|164745218|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
82524508|NCT01446666|164745219|SUPERIORITY|||||||0.004|||||||McNemar|||||||0.004
82524509|NCT01591382|164745223|SUPERIORITY_OR_OTHER|||||||0.0241||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.0241
82524510|NCT01591382|164745224|SUPERIORITY_OR_OTHER|||||||0.4102||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.4102
82524511|NCT01591382|164745225|SUPERIORITY_OR_OTHER|||||||0.1085||||||A P-value of \<0.05 was indicative of statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.1085
82524512|NCT01591382|164745226|SUPERIORITY_OR_OTHER|||||||0.748|||||||Wilcoxon (Mann-Whitney)|||||||0.7480
82524513|NCT02231177|164745236|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12|STANDARD_DEVIATION|32.15|||TWO_SIDED|90.0|0.99|1.27|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.27|0.99|
82524514|NCT02231177|164745237|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11|STANDARD_DEVIATION|27.17|||TWO_SIDED|90.0|1.01|1.22|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.22|1.01|
82524515|NCT02231177|164745238|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.98|STANDARD_DEVIATION|20.43|||TWO_SIDED|90.0|0.91|1.06|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg: Tiotropium 5 µg). No formal testing.||1.06|0.91|
82524516|NCT02231177|164745239|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.05|STANDARD_DEVIATION|19.85|||TWO_SIDED|90.0|0.98|1.13|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg: Olodaterol 10 µg). No formal testing.||1.13|0.98|
82524517|NCT02231177|164745240|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|STANDARD_DEVIATION|19.81|||TWO_SIDED|90.0|0.83|0.98|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg: Tiotropium 5 µg). No formal testing.||0.98|0.83|
82524518|NCT02231177|164745241|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.96|STANDARD_DEVIATION|29.92|||TWO_SIDED|90.0|0.87|1.07|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg : Tiotropium 5 µg). No formal testing.||1.07|0.87|
82524519|NCT02231177|164745242|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.02|STANDARD_DEVIATION|21.33|||TWO_SIDED|90.0|0.93|1.12|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg : Olodaterol 10 µg). No formal testing.||1.12|0.93|
82524520|NCT02231177|164745243|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.91|STANDARD_DEVIATION|22.61|||TWO_SIDED|90.0|0.84|1.0|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg : Tiotropium 5 µg). No formal testing.||1.00|0.84|
82640126|NCT03841331|164994850|SUPERIORITY||Treatment Effect|2.8||||0.3285|TWO_SIDED|95.0|-9.1|14.8|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 6||14.8|-9.1|0.3285
82524521|NCT02231177|164745244|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.32|STANDARD_DEVIATION|96.12|||TWO_SIDED|90.0|0.98|1.77|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Olodaterol (Tiotropium+Olodaterol 5/10 μg; Olodaterol 10 µg). No formal testing.||1.77|0.98|
82387381|NCT04081610|164485225|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. through the incidence of AD.|Median Difference (Final Values)|0.05||||0.409|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.409
82387382|NCT04081610|164485226|NON_INFERIORITY|Compare the tolerability of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit-dose manufactured by Sophia Laboratories S.A. of C.V. using the ICO score.||||||0.442|||||||Wilcoxon (Mann-Whitney)|||||||0.442
82387383|NCT04081610|164485226|EQUIVALENCE|F=2.606, 15.926||||||0.009|||||||Wilcoxon (Mann-Whitney)|||Final vs initial Eye Comfort Index||||0.009
82387384|NCT04081610|164485226|EQUIVALENCE|F=3.051, 19.336||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Final vs initial Eye Comfort Index||||0.002
82387385|NCT04081610|164485227|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. through changes in BCVA.||||||0.904|||||||Wilcoxon (Mann-Whitney)|||||||0.904
82524522|NCT02231177|164745245|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99|STANDARD_DEVIATION|72.08|||TWO_SIDED|90.0|0.79|1.24|||ANOVA|ANOVA on the logarithmic scale with fixed effect for treatment, period, sequence, centre and random effect for subject within sequence and centre.|The standard deviation is actually the geometric intra-individual coefficient of variation.|Comparison of Tiotropium (Tiotropium+Olodaterol 5/10 μg; Tiotropium 5 µg). No formal testing.||1.24|0.79|
82387386|NCT04081610|164485227|EQUIVALENCE|F=-1.414, 1.061||||||0.157|||||||Sign test|||Final vs initial VA||||0.157
82387387|NCT04081610|164485227|EQUIVALENCE|||||||1|||||||Sign test|||Final vs initial VA||||1.000
82387388|NCT04081610|164485228|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes in corneal and conjunctival staining with fluorescein.||||||1|||||||Fisher Exact|||||||1.000
82524523|NCT00409682|164745261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.29||||0.075|TWO_SIDED|95.0|-3.14|23.71||There is no adjustment for multiple comparison on the primary outcome measure.|Cochran-Mantel-Haenszel||Difference is between adalimumab High-dose and adalimumab Low-dose group.|The point estimates for the number of subjects who achieved PCDAI clinical remission in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The P value is from the CMH test adjusted for infliximab use and response status at Week 4. The primary analysis was performed for the intent-to-treat (ITT) using the non-responder (NRI) imputation method.||23.71|-3.14|0.075
82524524|NCT00409682|164745262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.18||||0.1|TWO_SIDED|95.0|-2.62|22.97||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population.|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical remission in each treatment group and the difference in number between the groups were provided. The P value and 95% CIs for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||22.97|-2.62|0.100
82387389|NCT04081610|164485228|EQUIVALENCE|Chi-squared (2)= 6.400||||||0.041|||||||Chi-squared|||Final vs initial fluorescein staining||||0.041
82387390|NCT04081610|164485228|EQUIVALENCE|Chi-squared (2)=0.814||||||0.665|||||||Chi-squared|||||||0.665
82376709|NCT03301623|164459611|SUPERIORITY||Odds Ratio (OR)|1.34||||0.26|TWO_SIDED|95.0|0.76|2.34|||Regression, Logistic|We employed robust standard errors clustered at the participant level. Time was controlled for using a fixed effect.|The interaction term describes the effect of PEAT in the post period.|PHQ-9 was categorized by assigning scores of 0, 1, 2, and 3 to the response categories (not at all: several days, more than half the days, nearly every day, respectively) and then summing. Scores of 5, 10, 15, and 20 represent cutpoints for mild, moderate, moderately severe and severe depression, respectively. The analysis was conducted as a multilevel ordered logistic regression.||2.34|.76|.260
82376710|NCT00708227|164459797|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
82387391|NCT04081610|164485229|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes of corneal and conjunctival staining with lysamine green.||||||0.713|||||||Fisher Exact|||||||0.713
82387392|NCT04081610|164485229|EQUIVALENCE|Chi-squared (3)=14.345||||||0.002|||||||Chi-squared|||Final vs initial lissamine green staining||||0.002
82524525|NCT00409682|164745263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.72||||0.073|TWO_SIDED|95.0|-3.45|24.89||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical response in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||24.89|-3.45|0.073
82524526|NCT00409682|164745264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.51||||0.038|TWO_SIDED|95.0|-0.01|27.04||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population|Cochran-Mantel-Haenszel||A significance test for any individual major secondary efficacy endpoint in the hierarchy was to be inferential only if the hypothesis tests of all preceding major secondary efficacy endpoints were statistically significant at 0.050.|The point estimates for the number of subjects who achieved PCDAI clinical response in each treatment group and the difference in number between the groups were provided. The P value and 95% confidence intervals (CIs) for the difference were provided. The analysis was performed for the intent-to-treat (ITT) population using the non-responder imputation (NRI) method.||27.04|-0.01|0.038
82640127|NCT03841331|164994850|SUPERIORITY||Treatment Effect|-2.3||||0.6525|TWO_SIDED|95.0|-14.4|9.8|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 8||9.8|-14.4|0.6525
82640128|NCT03841331|164994851|SUPERIORITY||Treatment effect|0.0||||0.4952|TWO_SIDED|95.0|-5.6|5.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 2||5.7|-5.6|0.4952
82376711|NCT00708227|164459798|SUPERIORITY|||||||0.15|||||||ANOVA|||||||0.15
82387393|NCT04081610|164485229|EQUIVALENCE|Chi-squared (2)=0.506||||||0.777|||||||Chi-squared|||Final vs initial lissamine green staining||||0.777
82387394|NCT04081610|164485230|NON_INFERIORITY|Compare the safety of the Lagricel® Ofteno multi-dose formulation against Lagricel® Ofteno unit doses manufactured by Sophia Laboratories S.A. of C.V. by changes in conjunctival hyperemia.||||||1|||||||Chi-squared, Corrected|||||||1.000
82387395|NCT04081610|164485230|EQUIVALENCE|F=4.167, 1||||||0.031|||||||Fisher Exact|||Final vs initial conjunctival hyperemia||||0.031
82387396|NCT04081610|164485230|EQUIVALENCE|No significant change was observed.||||||1|||||||Chi-squared, Corrected|||Final vs initial conjunctival hyperemia||||1.000
82425717|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.153
82640129|NCT03841331|164994851|SUPERIORITY||Treatment effect|5.2||||0.0891|TWO_SIDED|95.0|-2.3|12.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 4||12.7|-2.3|0.0891
82376712|NCT00708227|164459799|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
82376713|NCT04007991|164459803|SUPERIORITY||Difference in Least Square Mean|-3.44|STANDARD_ERROR_OF_MEAN|1.351|=|0.011|TWO_SIDED|95.0|-6.09|-0.79||Change from baseline in YGTSS score as a continuous variable was based on mixed model for repeated measures (MMRM) analysis of covariance (ANCOVA) model with an unstructured covariance matrix.|ANCOVA|||||-0.79|-6.09|=0.011
82376714|NCT04324073|164459833|SUPERIORITY||Median posterior absolute risk differenc|0.2|||||TWO_SIDED|90.0|-11.7|12.2||Posterior probability|Bayesian analysis|Adjusted for age and centre|% Confidence Interval is % Credibility interval here|||12.2|-11.7|
82376715|NCT04324073|164459834|SUPERIORITY||Median posterior Hazard Ratio|1.1|||||TWO_SIDED|90.0|0.69|1.74||Posterior probability|Bayesian analysis|HR adjusted for age and centre|% Confidence interval is % Credible interval here|||1.74|0.69|
82572817|NCT00267098|164855687|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-5.807|||||TWO_SIDED|95.0|-9.467|-2.038||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 12 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 12 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 12 months than patients with right ventricular pacing."||-2.038|-9.467|
82387397|NCT01028014|164485241|SUPERIORITY_OR_OTHER||||||>|0.05||||||P values comparing differences across groups, as well as within group changes, were all \>0.05.P-values were not adjusted for multiple testing; p\<0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||Using difference in EMG amplitude as primary outcome, assuming standard deviation of 6, we had greater than 80% power to detect a 10-microvolt change in urethral muscle activity with sample size of 9 participants per group. Due to non-normality and small sample sizes, non-parametric tests were used and data presented as median (IQR). Kruskal-Wallis p-values are reported to compare median scores across groups. Wilcoxon sign-test p-values are reported to evaluate 2-week change within groups.||||>0.05
82572818|NCT00267098|164855688|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.844|||||TWO_SIDED|95.0|-12.91|-4.681||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 18 months.|"The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 18 months as corresponding patients who receive right ventricular pacing.~This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 18 months than patients with right ventricular pacing."||-4.681|-12.910|
82572819|NCT00267098|164855689|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-6.615|||||TWO_SIDED|95.0|-11.37|-1.736||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDVI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDVI change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDVI from randomization to 24 months as corresponding patients who receive right ventricular pacing. This was tested against the hypothesis that patients with biventricular pacing have a different change in LVEDVI from randomization to 24 months than patients with right ventricular pacing.||-1.736|-11.370|
82572820|NCT00267098|164855690|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-3.894|||||TWO_SIDED|95.0|-12.13|3.953||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||3.953|-12.130|
82572821|NCT00267098|164855691|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-10.16|||||TWO_SIDED|95.0|-19.33|-0.857||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||-0.857|-19.330|
82572822|NCT00267098|164855692|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-8.316|||||TWO_SIDED|95.0|-18.19|1.623||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||1.623|-18.190|
82640130|NCT03841331|164994851|SUPERIORITY||Treatment effect|-4.2||||0.8447|TWO_SIDED|95.0|-12.1|3.7|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 6||3.7|-12.1|0.8447
82387398|NCT01028014|164485242|SUPERIORITY_OR_OTHER||||||>|0.05||||||P values comparing differences across groups, as well as within group changes, were all \>0.05.P-values were not adjusted for multiple testing; p\<0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||Using difference in EMG amplitude as primary outcome, assuming standard deviation of 6, we had greater than 80% power to detect a 10-microvolt change in urethral muscle activity with sample size of 9 participants per group. Due to non-normality and small sample sizes, non-parametric tests were used and data presented as median (IQR). Kruskal-Wallis p-values are reported to compare median scores across groups. Wilcoxon sign-test p-values are reported to evaluate 2-week change within groups.||||>0.05
82387399|NCT01339923|164485257|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority.|Vaccine group difference|-1.0|||||TWO_SIDED|95.0|-6.4|3.9|||Miettinen and Nurminen method|||Non-inferiority of MenC-CRM was determined following co-administration of MenC-CRM and rMenB+OMV NZ vs MenC-CRM control group at 1 month after 2nd vaccination for serogroup C.||3.9|-6.4|
82577018|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.8152|TWO_SIDED|95.0|-0.53|0.42|||MMRM|||Depressed Mood, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.53|0.8152
82640131|NCT03841331|164994851|SUPERIORITY||Treatment effect|1.0||||0.4174|TWO_SIDED|95.0|-7.5|9.4|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 8||9.4|-7.5|0.4174
82387400|NCT01339923|164485257|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-5.2|7.6|||Miettinen and Nurminen method|||Non-inferiority of MenC-CRM was determined following co-administration of MenC-CRM and rMenB+OMV NZ vs MenC-CRM control group at 1 month after booster vaccination for serogroup C.||7.6|-5.2|
82524527|NCT00409682|164745265|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|2.903||0.161|TWO_SIDED|95.0|-9.86|1.66||The hierarchical stepwise closed testing procedure was implemented to control the overall significance level at 0.05 in the ITT population.|ANCOVA||Difference is between adalimumab High-dose and adalimumab Low-dose groups. Baseline means include subjects who had both Baseline and post-Baseline measurements.|"Analyzed as change from Baseline to Week 26, and compared between the two treatment groups. The estimated treatment mean difference, P values, and 95% CI for the treatment difference were provided. Analysis was conducted in the ITT population for OC.~The P value is from the ANCOVA model with treatment as a factor, adjusted for the baseline value, and the strata (response status at Week 4 and prior infliximab experience)."||1.66|-9.86|0.161
82524528|NCT00409682|164745266|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|2.941||0.735|TWO_SIDED|95.0|-6.88|4.88|||ANCOVA||Difference is between adalimumab High-dose and adalimumab Low-dose groups. Baseline means include subjects who had both Baseline and post-Baseline measurements.|Analyzed as change from Baseline to Week 52, and compared between the two treatment groups. The estimated treatment mean difference, P values, and 95% confidence interval (CI) for the treatment difference were provided. Analysis was conducted in the ITT population for OC.||4.88|-6.88|0.735
82376716|NCT04324073|164459835|SUPERIORITY||Median posterior absolute risk differenc|-7.3|||||TWO_SIDED|90.0|-22.5|8.7||Posterior probability|Bayesian analysis|Adjusted on age and centre|% Confidence Interval is %Credible Interval here. Results are presented as the proportion not improved, so that an effective treatment would be associated with a decrease in proportion.|||8.7|-22.5|
82443612|NCT01541917|164595764|SUPERIORITY_OR_OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.63|TWO_SIDED|95.0|-0.05|0.03|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.03|-.05|.63
82640132|NCT03841331|164994851|SUPERIORITY||Treatment effect|2.7||||0.2756|TWO_SIDED|95.0|-5.8|11.2|||Cochran-Mantel-Haenszel||95% Wald confidence intervals for the treatment difference was used.|At Week 10||11.2|-5.8|0.2756
82640133|NCT03841331|164994852|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4409|TWO_SIDED|95.0|-0.49|0.57|||ANOVA|||At Week 2||0.57|-0.49|0.4409
82640134|NCT03841331|164994852|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.5496|TWO_SIDED|95.0|-0.65|0.57||At week 4|ANOVA|||At Week 4||0.57|-0.65|0.5496
82640135|NCT03841331|164994852|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.6311|TWO_SIDED|95.0|-0.78|0.55|||ANOVA|||At Week 6||0.55|-0.78|0.6311
82640136|NCT03841331|164994852|SUPERIORITY||Mean Difference (Final Values)|0.4738||||0.02|TWO_SIDED|95.0|-0.65|0.69|||ANOVA|||At Week 8||0.69|-0.65|0.02
82640137|NCT03841331|164994852|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.3948|TWO_SIDED|95.0|-0.6|0.78|||ANOVA|||At Week 10||0.78|-0.60|0.3948
82640138|NCT03841331|164994854|SUPERIORITY||Mean Difference (Final Values)|2.44||||0.244|TWO_SIDED|95.0|-4.98|9.87|||ANOVA|||At Week 2||9.87|-4.98|0.2440
82640139|NCT03841331|164994854|SUPERIORITY||Mean Difference (Final Values)|-1.27||||0.6349|TWO_SIDED|95.0|-9.2|6.65|||ANOVA|||At Week 4||6.65|-9.20|0.6349
82640140|NCT03841331|164994854|SUPERIORITY||Mean Difference (Final Values)|0.3407||||1.91|TWO_SIDED|95.0|-6.4|10.23|||ANOVA|||At Week 6||10.23|-6.40|1.91
82640141|NCT03841331|164994854|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.496|TWO_SIDED|95.0|-8.52|8.97|||ANOVA|||At Week 10||8.97|-8.52|0.4960
82640142|NCT04640168|164994859|SUPERIORITY|||||||0.909|||||||Chi-squared|||||||0.909
82640143|NCT04640168|164994876|SUPERIORITY||Risk Difference (RD)|7.7|||||TWO_SIDED|95.0|1.8|13.4||||||||13.4|1.8|
82640144|NCT04640168|164994877|SUPERIORITY||Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-4.3|5.5||||||||5.5|-4.3|
82640145|NCT04640168|164994895|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.27||||||||1.27|0.80|
82640146|NCT04640168|164994896|SUPERIORITY||Risk Difference (RD)|-0.03|||||TWO_SIDED|95.0|-0.09|0.02||||||||0.02|-0.09|
82640147|NCT04640168|164994897|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.94|1.23||||||||1.23|0.94|
82640148|NCT04640168|164994898|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.94|1.23||||||||1.23|0.94|
82640149|NCT04640168|164994899|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
82640150|NCT03557775|164994943|SUPERIORITY|||||||0.041||||||Result for time by group interaction (threshold for statistical significance set at 0.05).|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.041
82640151|NCT03557775|164994944|SUPERIORITY|||||||0.887||||||Result for time by group interaction. Statistical threshold set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.887
82640152|NCT03557775|164994945|SUPERIORITY|||||||0.733||||||Result for time by group interaction effect. Threshold for statistical significance was set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.733
82640153|NCT03557775|164994946|SUPERIORITY|||||||0.702||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.702
82640154|NCT03557775|164994947|SUPERIORITY|||||||0.198||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.198
82640155|NCT03557775|164994948|SUPERIORITY|||||||0.388||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.388
82640156|NCT03557775|164994949|SUPERIORITY|||||||0.296||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.296
82640157|NCT03557775|164994950|SUPERIORITY|||||||0.04||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.040
82640158|NCT03557775|164994951|SUPERIORITY|||||||0.887||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.887
82640159|NCT03557775|164994952|SUPERIORITY|||||||0.663||||||Result for time by group interaction effect. Threshold for statistical significance was set 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.663
82640160|NCT03557775|164994953|SUPERIORITY|||||||0.026||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.026
82640161|NCT03557775|164994954|SUPERIORITY|||||||0.721||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.721
82640162|NCT03557775|164994955|SUPERIORITY|||||||0.408||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.408
82640163|NCT03557775|164994956|SUPERIORITY|||||||0.638||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.638
82640164|NCT03557775|164994957|SUPERIORITY|||||||0.715||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.715
82524529|NCT00252538|164745300|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||All statistics employed Statistical Package for Social Science (SPSS) 17.0. Analysis of variances were used to compare viral responses in genotypes of interest, employing Scheffe's post-hoc analyses. Repeated-measure mixed-effect analyses were used to compare changes in subjective symptoms over time, including age, gender, and self identified race as covariates. Kaplan-Meier survival analyses examining time until MDD development were compared using theMantel-Cox log rank test.||||>0.05
82640165|NCT03557775|164994958|SUPERIORITY|||||||0.708||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.708
82524530|NCT04710927|164745304|OTHER||Odds Ratio (OR)|0.7|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82524531|NCT04710927|164745304|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82524532|NCT00118716|164745307|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|STANDARD_ERROR_OF_MEAN|1.29||0.021|TWO_SIDED|95.0|0.5|5.6||LS Mean Difference, SE, CI, and p-value were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diff was calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for maximal percent change in FEV1 following exercise challenge at Week 4.||5.6|0.5|0.021
82387401|NCT00637000|164485273|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|The statistical method used was a group by time repeated measures model with a first-order autoregressive covariance structure||To test the primary study hypothesis that neither soluble film formulation would precipitate an opioid withdrawal syndrome, peak COWS score in the 23.5 hour period after the initial soluble film administration were compared to pre-administration baseline COWS scores (30 minutes prior to soluble film administration) using a group by time repeated measures model with a first-order autoregressive covariance structure.||||<0.0001
82524533|NCT00118716|164745308|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|0.24|0.58||LS Mean Diff, SE, CI, and p-value were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diff was calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for post-dose FEV1 AUC Day 1.||0.58|0.24|<0.001
82524534|NCT00118716|164745309|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.1|STANDARD_ERROR_OF_MEAN|4.83||0.097|TWO_SIDED|95.0|-1.5|17.6||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diffs were calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID for AM PEF||17.6|-1.5|0.097
82524535|NCT00118716|164745310|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|4.3||0.396|TWO_SIDED|95.0|-4.8|12.1||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA||LS Mean Diffs were calculated as FSC 100/50mcg BID-FP 100mcg BID.|FSC 100/50mcg BID versus FP 100mcg BID PM PEF.||12.1|-4.8|0.396
82443613|NCT01541917|164595765|SUPERIORITY_OR_OTHER||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.02|TWO_SIDED|95.0|-0.18|-0.01|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||-.01|-.18|.02
82524536|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.129||0.168|TWO_SIDED|95.0|-0.08|0.43||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Week 2||0.43|-0.08|0.168
82524537|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.147||0.465|TWO_SIDED|95.0|-0.18|0.4||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Week 4.||0.40|-0.18|0.465
82640166|NCT03557775|164994959|SUPERIORITY|||||||0.988||||||Result for time by group interaction effect. Threshold for statistical significance set at 0.05.|ANOVA|||Null hypothesis: there will be no significant time by group interaction effect for this variable.||||0.988
82640167|NCT03948646|164994961|OTHER||Odds Ratio (OR)|2.0||||0.0029|TWO_SIDED|95.0|1.27|3.15|||Regression, Logistic|||||3.15|1.27|0.0029
82443614|NCT01541917|164595765|SUPERIORITY_OR_OTHER||Slope|-0.009|STANDARD_ERROR_OF_MEAN|0.084||0.91|TWO_SIDED|95.0|-0.174|0.155|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.155|-.174|.91
82524538|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.133||0.222|TWO_SIDED|95.0|-0.1|0.42||LS Mean Diff, SE, CI, and p-values are from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for activity limitation at Endpoint.||0.42|-0.10|0.222
82524539|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.096||0.294|TWO_SIDED|95.0|-0.29|0.09||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Week 2.||0.09|-0.29|0.294
82524540|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.111||0.828|TWO_SIDED|95.0|-0.24|0.19||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Week 4.||0.19|-0.24|0.828
82577019|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.301||0.0805|TWO_SIDED|95.0|-1.13|0.07|||MMRM|||Depressed Mood, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-1.13|0.0805
82387402|NCT00637000|164485274|SUPERIORITY_OR_OTHER|||||||0|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.000
82387403|NCT00637000|164485275|SUPERIORITY_OR_OTHER|||||||0.035||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.035
82443615|NCT01541917|164595766|SUPERIORITY_OR_OTHER||Slope|0.0316|STANDARD_ERROR_OF_MEAN|0.004|<|0.001|TWO_SIDED|95.0|0.02|0.04|||Multilevel growth model|Adjusted for baseline values.|The parameter represents the average monthly change on the outcome variable since before group procedures were started|Multilevel growth model evaluating average change over time on the outcome variable||.04|.02|<.001
82443616|NCT01541917|164595766|SUPERIORITY_OR_OTHER||Slope|-0.004|STANDARD_ERROR_OF_MEAN|0.008||0.67|TWO_SIDED|95.0|-0.02|0.013|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.013|-.02|.67
82640168|NCT03948646|164994962|OTHER||Mean Difference (Net)|-21.77|STANDARD_ERROR_OF_MEAN|9.994||0.0296|TWO_SIDED|95.0|-41.37|-2.16|||ANCOVA|||||-2.16|-41.37|0.0296
82640169|NCT00276458|164994964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|2.7|<|0.001||95.0|-25.2|-14.5|||ANCOVA|Model terms: treatment and baseline LDL-C value|(Atorva + EZ minus Atorva)|||-14.5|-25.2|<0.001
82640170|NCT00276458|164994965|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|2.1||0.273||95.0|-1.9|6.6|||ANCOVA|Model terms: treatment and baseline HDL-C value|(Atorva + EZ minus Atorva)|||6.6|-1.9|0.273
82387404|NCT00637000|164485276|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387405|NCT00637000|164485277|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387406|NCT00637000|164485278|SUPERIORITY_OR_OTHER|||||||0.006||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.006
82387407|NCT00637000|164485279|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387408|NCT00637000|164485280|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387409|NCT00637000|164485281|SUPERIORITY_OR_OTHER|||||||0.762||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.762
82524541|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.103||0.903|TWO_SIDED|95.0|-0.19|0.22||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for emotional function at Endpoint.||0.22|-0.19|0.903
82524542|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.112||0.464|TWO_SIDED|95.0|-0.3|0.14|||ANCOVA|LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Week 2.||0.14|-0.30|0.464
82443617|NCT01541917|164595767|SUPERIORITY_OR_OTHER||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.58|TWO_SIDED|95.0|-0.01|0.01|||Multilevel growth model|Adjusted for baseline values|The parameter represents the average monthly change on the outcome variable since before group procedures were started.|Multilevel growth model evaluating average change over time on the outcome variable||.01|-.01|.58
82524543|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.124||0.551|TWO_SIDED|95.0|-0.32|0.17||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Week 4.||0.17|-0.32|0.551
82640171|NCT00276458|164994966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0|-21.2|-11.7|||ANCOVA|Model terms: treatment and baseline non-HDL-C value|(Atorva + EZ minus Atorva)|||-11.7|-21.2|<0.001
82524544|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.123||0.633|TWO_SIDED|95.0|-0.3|0.18||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for symptoms at Endpoint.||0.18|-0.30|0.633
82524545|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.094||0.7|TWO_SIDED|95.0|-0.22|0.15||LS Mean Diff, SE, CI, and p-values are from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Week 2.||0.15|-0.22|0.700
82640172|NCT00276458|164994967|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-15.8|-8.6|||ANCOVA|Model terms: treatment and baseline Total-C value|(Atorva + EZ minus Atorva)|||-8.6|-15.8|<0.001
82524546|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.109||0.86|TWO_SIDED|95.0|-0.23|0.2||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Week 4.||0.20|-0.23|0.860
82443618|NCT01541917|164595767|SUPERIORITY_OR_OTHER||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.007||0.49|TWO_SIDED|95.0|-0.009|0.018|||Multilevel growth model|Adjusted for baseline values on the outcome variable|The estimated parameter value represents the difference in the monthly change (since baseline) in the outcome variable attributed to being in the treatment group (web-based coping skills training) versus the control group (online disease education).|Multilevel linear growth modeling was used for analyses, with the time variable coded as months since randomization. All models included an adjustment for baseline group differences on the outcome variable.||.018|-.009|.49
82647761|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.75|-0.79||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.79|-1.75|<0.001
82524547|NCT00118716|164745313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.103||0.919|TWO_SIDED|95.0|-0.19|0.21||LS Mean Diff, SE, CI, and p-values were from an ANCOVA model with terms for treatment, investigator, age stratum, and baseline value.|ANCOVA|||FSC 100/50mcg BID versus FP 100mcg BID for overall score at Endpoint.||0.21|-0.19|0.919
82387410|NCT00637000|164485282|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387411|NCT00637000|164485283|SUPERIORITY_OR_OTHER|||||||0.349||||||The p-value is not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.349
82524548|NCT00855062|164745314|SUPERIORITY_OR_OTHER||Slope|-0.026|STANDARD_ERROR_OF_MEAN|0.248||0.37|TWO_SIDED|95.0|-0.512|0.46||The p-value was not adjusted for multiple comparisons.|Regression, Linear|||"The null hypothesis was that the 24-week changes of U NP Sum between the minocycline and placebo groups are the same.~The sample size calculation showed that 100 (50 participants in each group) were required to detect the clinically meaningful difference of 0.5 with 85% power, 0.05 Type I error, two-sample and two-sided test."||0.460|-0.512|0.370
82387412|NCT00637000|164485284|SUPERIORITY_OR_OTHER|||||||0.028||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.028
82387413|NCT00637000|164485285|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387414|NCT00637000|164485286|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387415|NCT00637000|164485287|SUPERIORITY_OR_OTHER|||||||0.117||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.117
82387416|NCT00637000|164485288|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||<0.0001
82387417|NCT00637000|164485289|SUPERIORITY_OR_OTHER|||||||0.238||||||The p-value was not adjusted for multiple comparisons.|Repeated measures model|Group by time repeated measures model with a first-order autoregressive covariance structure.||||||0.238
82387418|NCT02549287|164485302|SUPERIORITY||Odds Ratio, log|0.55||||0.12|TWO_SIDED|95.0|-0.11|1.2||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.20|-0.11|0.12
82387419|NCT02549287|164485303|SUPERIORITY||Odds Ratio, log|0.41||||0.14|TWO_SIDED|95.0|-0.2|1.03||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.03|-0.20|0.14
82387420|NCT02549287|164485304|SUPERIORITY||Odds Ratio, log|0.44||||0.2|TWO_SIDED|95.0|-0.2|1.07||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.07|-0.20|0.20
82524549|NCT00855062|164745316|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.053||||0.613|TWO_SIDED|95.0|0.043|0.062||The p-value is not adjusted for multiple comparisons.|Fisher Exact|||"The null hypothesis is that the percentage of participants feeling better in the minocycline group after 24 week treatment is the same as the one in the placebo group."||0.062|0.043|0.613
82524550|NCT00855062|164745317|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||The p-value is not adjusted for multiple comparisons.|Log Rank|||The null hypothesis is that the survival curve for the first Grade ≥ 2 toxicity and/or sign and symptoms in the minocycline group is the same as the one in the placebo group.||||0.661
82524551|NCT00855062|164745318|SUPERIORITY_OR_OTHER|||||||0.941||95.0||||The p-value is not adjusted for multiple comparisons.|Log Rank|||The null hypothesis is that the 48-week survival curve for the first Grade ≥ 2 toxicity and/or sign and symptoms in the minocycline group is the same as the one in the placebo group.||||0.941
82524552|NCT00855062|164745319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.11|STANDARD_ERROR_OF_MEAN|17.63||0.647|TWO_SIDED|95.0|-27.23|43.45||The p-value is not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CD4 counts.||The null hypothesis is that the mean 24-week change of CD4 cell counts in the minocycline group is the same as the one in the placebo group.||43.45|-27.23|0.647
82524553|NCT00855062|164745320|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.77|STANDARD_ERROR_OF_MEAN|32.51||0.813|TWO_SIDED|95.0|-59.07|74.6||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CD4 counts.||The null hypothesis is that the mean 48-week change in CD4 cell counts in the minocycline group is the same as the one in the placebo group.||74.60|-59.07|0.813
82524554|NCT00855062|164745321|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|STANDARD_ERROR_OF_MEAN|0.82||0.764||95.0|0.26|6.34||The p-value is not adjusted for multiple comparisons.|Regression, Logistic|"The model was not adjusted for any covariate (due to small number of being better in both groups."||"The null hypothesis is that the percentage of being better at week 24 compared to baseline in the minocycline group is the same as the one in the placebo group."||6.34|0.26|0.764
82524555|NCT00855062|164745322|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||The p-value is not adjusted for multiple comparisons.|Kruskal-Wallis|The chi-square score was 0.024 and the degree of freedom was 1.||The null hypothesis is that the median log10-transformed HIV RNA viral loads in the minocycline group is the same as the one in the placebo group.||||0.766
82524556|NCT00855062|164745323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|1.79||0.915|TWO_SIDED|95.0|-3.4|3.78||The p-value is not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the baseline CES-D and MSK scores.||The null hypothesis is that the mean 24-week change of CES-D score in the minocycline group is the same as the one in the placebo group.||3.78|-3.40|0.915
82524557|NCT00530062|164745326|OTHER||Difference in adjusted mean|0.946||||0.5595|TWO_SIDED|95.0|-2.293|4.185||Threshold for significance at 0.05 level.|ANCOVA|||The analysis was performed using the mixed-effect analysis of variance with fixed effects of center, sequence, treatment group and period, and random effect of the participant within sequence.||4.185|-2.293|0.5595
82524558|NCT01376323|164745345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.13|0.6||||||||0.60|-0.13|
82524559|NCT01376323|164745345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.37|0.35||||||||0.35|-0.37|
82524560|NCT01376323|164745345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.49|0.23||||||||0.23|-0.49|
82524561|NCT01376323|164745345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.66|0.06||||||||0.06|-0.66|
82524562|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.551|||||TWO_SIDED|95.0|-1.645|0.543|||||Comparison for glucose.|||0.543|-1.645|
82524563|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.382|||||TWO_SIDED|95.0|-1.472|0.708|||||Comparison for glucose.|||0.708|-1.472|
82524564|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|||||TWO_SIDED|95.0|-1.696|0.516|||||Comparison for glucose.|||0.516|-1.696|
82524565|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.595|||||TWO_SIDED|95.0|-1.669|0.48|||||Comparison for glucose.|||0.480|-1.669|
82524566|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.036|||||TWO_SIDED|95.0|-0.042|0.113|||||Comparison for NEFA.|||0.113|-0.042|
82577020|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.291||0.6964|TWO_SIDED|95.0|-0.69|0.46|||MMRM|||Depressed Mood, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.69|0.6964
82387421|NCT02549287|164485305|SUPERIORITY||Odds Ratio, log|-0.07||||0.77|TWO_SIDED|95.0|-0.58|0.43||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.43|-0.58|0.77
82524567|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|||||TWO_SIDED|95.0|-0.073|0.081|||||Comparison for NEFA.|||0.081|-0.073|
82524568|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|||||TWO_SIDED|95.0|-0.058|0.099|||||Comparison for NEFA.|||0.099|-0.058|
82524569|NCT01376323|164745346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083|||||TWO_SIDED|95.0|-0.16|-0.007|||||Comparison for NEFA.|||-0.007|-0.160|
82524570|NCT01376323|164745348|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.79|0.94||||||||0.94|-0.79|
82387422|NCT02549287|164485306|SUPERIORITY||Odds Ratio, log|0.35||||0.29|TWO_SIDED|95.0|-0.27|0.97|||Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.97|-0.27|0.29
82524571|NCT01376323|164745348|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.9|0.82||||||||0.82|-0.90|
82524572|NCT01376323|164745348|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.9|0.85||||||||0.85|-0.90|
82524573|NCT01376323|164745348|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-1.27|0.42||||||||0.42|-1.27|
82524574|NCT01376323|164745349|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.27|||||TWO_SIDED|95.0|-48.62|53.16||||||||53.16|-48.62|
82524575|NCT01376323|164745349|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.67|||||TWO_SIDED|95.0|-58.04|42.7||||||||42.70|-58.04|
82524576|NCT01376323|164745349|SUPERIORITY_OR_OTHER||Median Difference (Net)|24.08|||||TWO_SIDED|95.0|-27.75|75.92||||||||75.92|-27.75|
82524577|NCT01376323|164745349|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.09|||||TWO_SIDED|95.0|-52.72|48.53||||||||48.53|-52.72|
82524578|NCT01376323|164745351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.58|||||TWO_SIDED|95.0|-19.36|16.2||||||||16.20|-19.36|
82524579|NCT01376323|164745351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.1|||||TWO_SIDED|95.0|-33.0|2.81||||||||2.81|-33.00|
82524580|NCT01376323|164745351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.09|||||TWO_SIDED|95.0|-32.41|4.23||||||||4.23|-32.41|
82524581|NCT01376323|164745351|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.12|||||TWO_SIDED|95.0|-36.55|-1.68||||||||-1.68|-36.55|
82572823|NCT00267098|164855693|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-11.08|||||TWO_SIDED|95.0|-21.11|-0.956||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LV Mass through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LV Mass change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in LV Mass through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in LV Mass through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||-0.956|-21.110|
82640173|NCT00276458|164994968|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.9||||0.159||95.0|-17.7|-0.4||ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value|Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline triglycerides value.|"The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.~(Atorva + EZ minus Atorva)"|||-0.4|-17.7|0.159
82640174|NCT00276458|164994969|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.1|<|0.001||95.0|-17.8|-9.6|||ANCOVA|Model terms: treatment and baseline Apo B value|(Atorva + EZ minus Atorva)|||-9.6|-17.8|<0.001
82640175|NCT00276458|164994970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.6||0.681||95.0|-3.9|2.6|||ANCOVA|Model terms: treatment and baseline Apo A-I value|(Atorva + EZ minus Atorva)|||2.6|-3.9|0.681
82640176|NCT00276458|164994971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.2|<|0.001||95.0|-17.5|-8.7|||ANCOVA|Model terms: treatment and baseline Total-C:HDL-C value|(Atorva + EZ minus Atorva)|||-8.7|-17.5|<0.001
82640177|NCT00276458|164994972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.001||95.0|-26.5|-15.3|||ANCOVA|Model terms: treatment and baseline LDL-C:HDL-C value|(Atorva + EZ minus Atorva)|||-15.3|-26.5|<0.001
82640178|NCT00276458|164994973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0|-17.9|-8.3|||ANCOVA|Model terms: treatment and baseline Apo B:Apo A-I value|(Atorva + EZ minus Atorva)|||-8.3|-17.9|<0.001
82640179|NCT00276458|164994974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|3.0|<|0.001||95.0|-23.2|-11.4|||ANCOVA|Model terms: treatment and baseline non-HDL-C:HDL-C value|(Atorva + EZ minus Atorva)|||-11.4|-23.2|<0.001
82572824|NCT00267098|164855694|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.126|||||TWO_SIDED|95.0|-0.235|-0.014||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 6 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 6 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.014|-0.235|
82577021|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.304||0.2998|TWO_SIDED|95.0|-0.92|0.29|||MMRM|||Depressed Mood, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.92|0.2998
82640180|NCT00276458|164994975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.841||95.0|-23.8|28.8|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, and the interaction of time by treatment|"Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means.~(Atorva + EZ minus Atorva)"|||28.8|-23.8|0.841
82640181|NCT00276458|164994976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.3||||0.839||95.0|-26.1|8.3|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment and baseline CRP value|"The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic.~(Atorva + EZ minus Atorva)"|||8.3|-26.1|0.839
82640182|NCT00276458|164994977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.6|||<|0.001||95.0|3.8|19.47|||Regression, Logistic|Model terms: treatment and baseline LDL-C value|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva + EZ versus Atorva.|||19.47|3.80|<0.001
82640183|NCT01683565|164995003|OTHER|Analyses compared the change in Pervasive Developmental Disorders Screening Test-II scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.67||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The sample size was determined based on the goal of confirming trial feasibility and estimating effect sizes for a full-scale trial, not for a definitive test of efficacy. The enrollment goal was 40, which would have provided an indication of an expected effect size for a larger full-scale trial (e.g., 53% power to detect a 2-point decrease (approximately 0.7-SD based on a prior study) in Pervasive Developmental Disorders Screening Test-II score). Funding limitations capped enrollment at 31.||||0.67
82524582|NCT04681729|164745353|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9492|TWO_SIDED|95.0|0.41|2.56||Cochran-Mantel-Haenszel test was performed on the association between the ice cube provocation test result and intervention group, stratified by region and background H1-antihistamine regular/daily use (Yes or No). Threshold of significance at 0.01.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the family-wise type-I error. Testing was then performed sequentially in order the endpoints were reported and continued when primary endpoint was statistically significant at two-sided 0.01.||2.56|0.41|0.9492
82387423|NCT02549287|164485307|SUPERIORITY||Odds Ratio, log|0.49||||0.15|TWO_SIDED|95.0|-0.08|1.06||Other \[Marginal Model (e.g., GEE)\]|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||1.06|-0.08|0.15
82577022|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.291||0.3448|TWO_SIDED|95.0|-0.85|0.3|||MMRM|||Depressed Mood, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.85|0.3448
82387424|NCT02549287|164485308|SUPERIORITY||Odds Ratio, log|-0.11||||0.61|TWO_SIDED|95.0|-0.73|0.52||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.52|-0.73|0.61
82524583|NCT02436811|164745370|SUPERIORITY_OR_OTHER||||||<|0.001||||||A stepwise forward selection model was used. All independent variables with P\<0.20 in the univariate analysis were selected and those which were significant (P\<0.05) were kept in the final model. The level of significance was 5%.|Regression, Poisson|||Univariate and multivariate Poisson regressions with robust variance were obtained to estimate the rate ratios (RR) and their respective 95% confidence intervals. Two Poisson regression models were generated, using the knowledge score 15 minutes after the intervention (post-test) and 4 weeks after the interventions (follow-up test) as dependent variables.||||<0.001
82572825|NCT00267098|164855695|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.162|||||TWO_SIDED|95.0|-0.287|-0.035||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 12 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 12 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.035|-0.287|
82572826|NCT00267098|164855696|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.163|||||TWO_SIDED|95.0|-0.293|-0.03||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 18 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 18 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.030|-0.293|
82572827|NCT00267098|164855697|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.245|||||TWO_SIDED|95.0|-0.39|-0.097||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVEDD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVEDD change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVEDD from randomization to 24 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVEDD from randomization to 24 months than patients with RV pacing. Negative values reflect reductions in LVEDD.||-0.097|-0.390|
82572828|NCT00267098|164855698|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.066|||||TWO_SIDED|95.0|-0.185|0.055||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 6 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 6 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 6 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.055|-0.185|
82572829|NCT00267098|164855699|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.104|||||TWO_SIDED|95.0|-0.236|0.029||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 12 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 12 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 12 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.029|-0.236|
82577023|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.248||0.0089|TWO_SIDED|95.0|-1.15|-0.17|||MMRM|||Depressed Mood, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-1.15|0.0089
82647762|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.47|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.95|-0.99||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.99|-1.95|<0.001
82387425|NCT02549287|164485309|SUPERIORITY||Odds Ratio, log|-0.22||||0.47|TWO_SIDED|95.0|-0.76|0.32||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.32|-0.76|0.47
82387426|NCT02549287|164485310|SUPERIORITY||Slope|-0.75||||0.65|TWO_SIDED|95.0|-3.7|2.2||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||2.20|-3.70|0.65
82387427|NCT02549287|164485311|SUPERIORITY||Odds Ratio, log|0.05||||0.64|TWO_SIDED|95.0|-0.59|0.69||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.69|-0.59|0.64
82387428|NCT02549287|164485312|SUPERIORITY||Odds Ratio, log|-0.25||||0.44|TWO_SIDED|95.0|-0.79|0.29||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.29|-0.79|0.44
82387429|NCT02549287|164485313|SUPERIORITY||Odds Ratio, log|0.25||||0.47|TWO_SIDED|95.0|-0.39|0.89||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||0.89|-0.39|0.47
82387430|NCT02549287|164485314|SUPERIORITY||Slope|-0.18||||0.63|TWO_SIDED|95.0|-3.57|3.22||Group by time interaction effect reported here.|Marginal Model (e.g., GEE)|||Intent-to-treat (ITT) framework (multiple imputation used), Multilevel model applied.||3.22|-3.57|0.63
82387431|NCT00520533|164485318|SUPERIORITY|||||||0.194|||||||t-test, 2 sided|||Comparison of Biological T1/2 at Week 1 and Week 5.||||0.194
82387432|NCT00520533|164485319|SUPERIORITY|||||||0.172|||||||t-test, 2 sided|||Comparison of Effective T1/2 at Week 1 and Week 5.||||0.172
82425718|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.479||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.479
82647763|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.24||0.006|TWO_SIDED|95.0|-1.15|-0.19||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.19|-1.15|0.006
82376717|NCT04324073|164459836|SUPERIORITY||Median posterior Hazard Ratio|1.05|||||TWO_SIDED|90.0|0.55|2.07||Posterior probability|Bayesian analysis||% Confidence Interval is % Credible Interval here|||2.07|0.55|
82376718|NCT04324073|164459837|SUPERIORITY|Day 14|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.23|2.03|||Regression, Cox|adjusted for age and sex||||2.03|0.23|
82376719|NCT04324073|164459837|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.27|1.59|||Regression, Cox|||Day 28||1.59|0.27|
82376720|NCT04324073|164459837|SUPERIORITY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.31|1.58|||Regression, Cox|||Day 90||1.58|0.31|
82376721|NCT04324073|164459837|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.4|2.25|||Regression, Cox|||Day 14||2.25|0.40|
82376722|NCT04324073|164459837|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.4|1.96|||Regression, Cox|||Day 28||1.96|0.40|
82376723|NCT04324073|164459837|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.35|1.58|||Regression, Cox|||Day 90||1.58|0.35|
82376724|NCT04324073|164459838|SUPERIORITY||Median posterior OR|1.11|||||TWO_SIDED|95.0|0.53|2.34|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 4||2.34|0.53|
82387433|NCT01377922|164485328|OTHER|Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline QMG score as fixed effects and patient as a random effect. The model assumed time effect to be random between patients.||||||0.0452|||||||Mixed Models Analysis|Pairwise contrast at Day 14 from MMRM model.||||||0.0452
82387434|NCT01377922|164485329|OTHER|||||||0.0028||||||Pairwise contrast at Day 14 from MMRM model.|Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline SGI score as fixed effects and patient as a random effect. The model assumed time effect to be random between patients||||0.0028
82640184|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.22||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||The reported p-value is for the comparison of the change in Competence scores between groups (LCPUFA vs. Placebo).||||0.22
82387435|NCT01377922|164485330|OTHER|||||||0.6274|||||||Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction, and double-blind baseline T25FW walking speed as fixed effects and patient as a random effect. The model assumed time effect to be random between patients.||||0.6274
82387436|NCT01377922|164485331|OTHER|||||||0.0267|||||||Mixed Models Analysis|||Estimated via a MMRM with change from baseline (Day 1, Part 2), Day 8, and Day 14 as the dependent variable and terms for treatment, time (Day 8, Day 14), treatment-by-time interaction as fixed effects and patient as a random effect. The model assumed time effect to be random between patients||||0.0267
82387437|NCT01218087|164485332|NON_INFERIORITY_OR_EQUIVALENCE|Following the first interim analysis of the first 40 infants, the sample size calculation was revised. A revised sample size of 62 infants (31 per treatment arm) was based on an observed reduction of 41% to 11% in the experimental group with a goal p value of 0.01.||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
82640185|NCT01683565|164995004|OTHER|Analyses compared the change in the BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes||||||0.92||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||The reported p-value is for the comparison of the change in Problem scores between groups (LCPUFA vs. Placebo).||||0.92
82376725|NCT04324073|164459838|SUPERIORITY||Median posterior OR|1.02|||||TWO_SIDED|95.0|0.49|2.08|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 7||2.08|0.49|
82376726|NCT04324073|164459838|SUPERIORITY||Median posterior OR|0.79|||||TWO_SIDED|95.0|0.42|1.47|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 14||1.47|0.42|
82376727|NCT04324073|164459838|SUPERIORITY||Median posterior OR|0.88|||||TWO_SIDED|95.0|0.38|2.02|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 4||2.02|0.38|
82376728|NCT04324073|164459838|SUPERIORITY||Median posterior OR|1.07|||||TWO_SIDED|95.0|0.47|2.4|||Proportionnal odds model|Bayesian analysis. Adjusted for age and centre.|% Confidence Interval is % Credible Interval here|Day 14||2.40|0.47|
82376729|NCT04324073|164459838|SUPERIORITY||Median posterior OR|1.13|||||TWO_SIDED|95.0|0.5|2.57|||Proportionnal odds model|Bayesian analysis. Adjusted for age and sex|% Confidence Interval is % Credible Interval here|Day 90||2.57|0.50|
82387438|NCT02157376|164485336|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the two-sided 95% confidence interval for the difference is larger than -0.05, the non-inferiority claim will be met.|Risk Difference (RD)|1.9||||0.393|TWO_SIDED|95.0|-2.8|6.5|||Pearson's Chi-square||The difference in treatment group percentages is given by Cimetidine minus Esomeprazole.|Assuming a bleeding percent of 6.3% for the active comparator, a risk reduction of 3.7% for esomeprazole, and a 5% non-inferiority margin, 150 patients per treatment arm will provide 94% power to demonstrate non-inferiority. The null hypothesis is that the bleeding rate for iv esomeprazole 40 mg bid exceeds the rate for iv cimetidine by an amount at least as large as 5%.||6.5|-2.8|0.393
82387439|NCT00529373|164485351|OTHER||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.4|0.53|||Generalized linear model|||Odanacatib 50 mg OW vs Placebo. Generalized linear model for binary data with cloglog link and terms for time interval, treatment, stratum, and geographic region. cloglog link = complementary log log transformation of probability of an event up to the time-point.||0.53|0.40|<0.001
82640186|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.88|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Dysregulation scores between groups (LCPUFA vs. Placebo).||||0.88
82376730|NCT04324073|164459839|SUPERIORITY||Median Difference (Net)|-1.5|||||TWO_SIDED|95.0|-6.1|3.9||||adjusted on age and centre||||3.9|-6.1|
82376731|NCT04324073|164459840|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.72|1.57|||Fine-Gray model|adjusted for age and centre||Day 28||1.57|0.72|
82376732|NCT04324073|164459840|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.74|2.25|||Fine-Gray model|Adjusted for age and centre||Day 90||2.25|0.74|
82376733|NCT04324073|164459840|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.59|2.44|||Fine-Gray model|adjusted for age and centre||Day 28||2.44|0.59|
82387440|NCT00529373|164485352|OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.71|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.71|0.39|<0.001
82387441|NCT00529373|164485353|OTHER||Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.68|0.87|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.87|0.68|<0.001
82387442|NCT00529373|164485354|OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.42|0.55|||Generalized linear model|||Odanacatib 50 mg OW vs Placebo. Generalized linear model for binary data with cloglog link and terms for time interval, treatment, stratum, and geographic region. cloglog link = complementary log log transformation of probability of an event up to the time-point.||0.55|0.42|<0.001
82387443|NCT00529373|164485355|OTHER||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.4|0.67|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.67|0.40|<0.001
82640187|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.23|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Externalizing scores between groups (LCPUFA vs. Placebo).||||0.23
82640188|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.91|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Internalizing scores between groups (LCPUFA vs. Placebo).||||0.91
82640189|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.03|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Austism Spectrum Disorder scores between groups (LCPUFA vs. Placebo).||||0.03
82640190|NCT01683565|164995004|OTHER|Analyses compared the change in BITSEA outcome scores between groups, controlling for baseline scores, using mixed effects regression. This method leverages maximum likelihood to account for missing data. Treatment-by-time interaction terms were included as fixed effects and served as estimates of treatment effect; no participant characteristics were included as covariates in the models. Group mean differences divided by the standard deviation were also calculated as effect sizes.||||||0.07|||||||Mixed Models Analysis|||The reported p-value is for the comparison of the change in Red Flag scores between groups (LCPUFA vs. Placebo).||||0.07
82640191|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.31||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (10:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.31
82640192|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.47||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (12:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.47
82640193|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.38||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (14:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.38
82640194|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (16:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
82640195|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.16||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (16:1n-7 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.16
82640196|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:0 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
82640197|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.02||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:1n-9 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.02
82387444|NCT00529373|164485356|OTHER||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.66|0.83|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.83|0.66|<0.001
82640198|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.21||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:2n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.21
82640199|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.34||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:3n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.34
82387445|NCT00529373|164485357|OTHER|Miettinen \& Nurminen|Difference in rates|0.88|||||TWO_SIDED|95.0|-2.3|4.07||||||||4.07|-2.3|
82387446|NCT00529373|164485358|OTHER|Miettinen \& Nurminen|Difference in rates|0.11|||||TWO_SIDED|95.0|-0.16|0.37||||||||0.37|-0.16|
82387447|NCT00529373|164485362|OTHER||Difference in Least Squares Means|8.92|||<|0.001|TWO_SIDED|95.0|3.9|13.93|||Longitudinal model|||Odanacatib 50 mg vs Placebo||13.93|3.9|<0.001
82387448|NCT00529373|164485363|OTHER||Difference in Least Squares Means|26.45|||<|0.001|TWO_SIDED|95.0|16.49|36.4|||Longitudinal model|||Odanacatib 50 mg vs Placebo||36.40|16.49|<0.001
82640200|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.24||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:3n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.24
82640201|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.5||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (18:4n-3 nmol/mL ) between groups (LCPUFA vs. Placebo).||||0.50
82640202|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.07||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:3n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.07
82640203|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:4n-6 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.10
82640204|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.001||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (20:5n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.001
82640205|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.71||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (22:5n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.71
82640206|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.001||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (22:6n-3 nmol/mL) between groups (LCPUFA vs. Placebo).||||0.001
82640207|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (Total Omega-6) between groups (LCPUFA vs. Placebo).||||0.10
82640208|NCT01683565|164995005|OTHER|Differences in mean changes in erythrocyte fatty acid composition were examined using t-tests.||||||0.1||||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|||The reported p-value is for the comparison of the change in erythrocyte fatty acid composition (total omega-3) between groups (LCPUFA vs. Placebo).||||0.10
82640209|NCT04957979|164995023|SUPERIORITY||Mean Difference (Net)|-1.6||||0.19|TWO_SIDED|95.0|-4.1|0.1||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Negative value represents smaller change in Medical/Social clinics as compared to Medical/Nursing.|Null hypothesis: Average change in composite care quality outcome is not different between patients receiving care in Medical/Nursing Model clinics and those receiving care in Medical/Social Model clinics.||0.1|-4.1|0.19
82640210|NCT04957979|164995023|SUPERIORITY||Mean Difference (Net)|-3.3||||0.005|TWO_SIDED|95.0|-5.6|-1.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Negative value represents smaller change in Medical/Social clinics as compared to Medical/Nursing.|Null hypothesis: Average change in composite care quality outcome is not different between patients receiving care in Medical/Nursing Model clinics and those receiving care in Medical/Social Model clinics.||-1.0|-5.6|0.005
82640211|NCT04957979|164995024|SUPERIORITY||Incidence Rate Ratio|1.28||||0.02|TWO_SIDED|95.0|1.04|1.58||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.58|1.04|0.02
82376734|NCT04324073|164459840|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.74|1.55|||Fine-Gray model|Adjusted for age and centre||Day 90||1.55|0.74|
82640212|NCT04957979|164995024|SUPERIORITY||Incidence Rate Ratio|1.09||||0.45|TWO_SIDED|95.0|0.868|1.38||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.38|0.868|0.45
82640213|NCT04957979|164995025|SUPERIORITY||Incidence Rate Ratio|1.35||||0.01|TWO_SIDED|95.0|1.08|1.69||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.69|1.08|0.01
82376735|NCT04324073|164459841|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.81|1.75|||Fine-Gray model|Adjusted on age and centre||Day 28||1.75|0.81|
82376736|NCT04324073|164459841|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.8|1.67|||Fine-Gray model|Adjusted on age and centre||Day 90||1.67|0.80|
82647764|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.34|-0.39||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.39|-1.34|<0.001
82376737|NCT04324073|164459841|SUPERIORITY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.55|2.66|||Fine-Gray model|Adjusted on age and centre||Day 28||2.66|0.55|
82376738|NCT04324073|164459841|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.71|2.37|||Fine-Gray model|Adjusted on age and centre||Day 90||2.37|0.71|
82376739|NCT04324073|164459842|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.42|1.44|||Fine-Gray model|Adjusted for age and centre||Day 28||1.44|0.42|
82376740|NCT04324073|164459842|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.49|1.47|||Fine-Gray model|adjusted for age and centre||Day 90||1.47|0.49|
82524584|NCT03595332|164745371|EQUIVALENCE|The analysis tests whether for both groups combined, the baseline to 10-week follow-up BMI percentile scores are significantly different from zero.|Mean Difference (Final Values)|1.137|STANDARD_ERROR_OF_MEAN|0.9846||0.248|TWO_SIDED|95.0|-0.793|3.067||This test compares baseline to 10-week post-test for both groups combined, to test the null hypothesis that the BMI Percentile score would not be different from zero. A p-value of 0.05 was used as a priori threshold for statistical significance.|Regression, Linear|Linear regression with Generalized Estimating Equations to account for nested data structure of 222 children nested within 150 families and 4 schools.||||3.067|-0.793|0.248
82387449|NCT00529373|164485364|OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.14|0.09||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.09|-0.14|
82387450|NCT00529373|164485364|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.12|0.12||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.12|-0.12|
82387451|NCT00529373|164485364|OTHER||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.17|0.09||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.09|-0.17|
82640214|NCT04957979|164995025|SUPERIORITY||Incidence Rate Ratio|1.33||||0.08|TWO_SIDED|95.0|0.969|1.81||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher rates post-care coordination in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Poisson link function. Pre-care coordination measures were included as an independent variable when modeling post-measures to capture change related to care coordination initiation.||1.81|0.969|0.08
82387452|NCT00529373|164485364|OTHER||Mean Difference (Final Values)|-0.21|||||TWO_SIDED|95.0|-0.5|0.08||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.08|-0.50|
82387453|NCT00529373|164485365|OTHER||Difference in Least Squares Means|0.11|||||TWO_SIDED|95.0|-0.16|0.38||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.38|-0.16|
82443619|NCT01739803|164595768|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||To control for experiment-wise Type I error rate in this analysis, a comparison-wise alpha of 0.01 was used.|Mixed Models Analysis|||We projected mean composite adherence rate for all participants to be approximately 80% ± 15. We anticipated at least 10% increase in intervention group adherence at end of intervention. To have 80% power to detect expected difference of 10% at the 2-tailed 5% significance level, sample size needed to be at least 36 RTRs per group. We took a conservative approach, in combination with anticipated attrition over the course of study, and increased enrollment.||||<0.05
82524585|NCT03595332|164745372|EQUIVALENCE|Analysis tested whether BMI Percentile score change among overweight participants (BMI equal or greater than 85th percentile at baseline) significantly changed from baseline to follow-up (was significantly different from zero). This was a subset analysis among the highest risk participants in the study.|Mean Difference (Final Values)|-3.173|STANDARD_ERROR_OF_MEAN|1.34||0.018|TWO_SIDED|95.0|-5.806|-0.541||The p-value threshold was 0.05 for all comparisons.|Regression, Linear|Linear regression with Generalized Estimating Equations to account for nested data structure of children within schools and families.|A negative parameter suggests a decreased BMI Percentile.|||-0.541|-5.806|0.018
82640215|NCT04957979|164995026|SUPERIORITY||Odds Ratio (OR)|0.64||||0.0001|TWO_SIDED|95.0|0.51|0.81||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||0.81|0.51|0.0001
82640216|NCT04957979|164995026|SUPERIORITY||Odds Ratio (OR)|1.2||||0.32|TWO_SIDED|95.0|0.84|1.72||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.72|0.84|0.32
82376741|NCT05833139|164459844|OTHER||Geometric mean ratio (T/R) [%]|141.2|||||TWO_SIDED|90.0|126.3|157.7|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 18.0|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. AUC0-∞ was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||157.7|126.3|
82376742|NCT05833139|164459845|OTHER||Geometric mean ratio (T/R) [%]|126.9|||||TWO_SIDED|90.0|106.6|151.0|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 28.7|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. Cmax was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||151.0|106.6|
82376743|NCT05833139|164459846|OTHER||Geometric mean ratio (T/R) [%]|142.8|||||TWO_SIDED|90.0|126.0|161.9|||ANOVA||Intra-individual geometric coefficient of variation (gCV%) = 20.4|"The statistical model used was an analysis of variance (ANOVA) on the logarithmic scale. AUC0-tz was log transformed (natural logarithm) prior to fitting the ANOVA model, considering the effect 'participant' as random and treatment as fixed."||161.9|126.0|
82443620|NCT01739803|164595769|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82640217|NCT04957979|164995027|SUPERIORITY||Odds Ratio (OR)|0.85||||0.14|TWO_SIDED|95.0|0.69|1.05||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.05|0.69|0.14
82376744|NCT02260570|164459857|SUPERIORITY||F value|24.1|||<|0.0001|TWO_SIDED|||||This p-value is adjusted for multiple comparisons.|ANOVA|F(1,1,60) = 24.1, p \< 0.0001, adjusted r\^2 = 0.275||||||<0.0001
82387454|NCT00529373|164485365|OTHER||Difference in Least Squares Means|0.14|||||TWO_SIDED|95.0|-0.15|0.44||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.44|-0.15|
82376745|NCT02260570|164459858|SUPERIORITY||F value|6.23||||0.0184|TWO_SIDED|||||This p-value is adjusted for multiple comparisons.|ANOVA|F(1,30) = 6.23, p = 0.0184, adjusted r\^2 = 0.144||||||0.0184
82376746|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|1.76|1.88||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.88|1.76|<.0001
82647765|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.045|TWO_SIDED|95.0|-0.32|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.00|-0.32|0.045
82640218|NCT04957979|164995027|SUPERIORITY||Odds Ratio (OR)|0.74||||0.12|TWO_SIDED|95.0|0.51|1.08||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Adjusted for patient demographics, comorbidities, clinic characteristics, and includes random effect for clustering within clinic.|Values \> 1.0 represents higher likelihood of positive rating in Medical/Social clinics as compared to Medical/Nursing.|Generalized Linear Mixed Models with Binomial link function.||1.08|0.51|0.12
82443621|NCT01739803|164595770|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.05||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
82443622|NCT02011490|164595771|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|5.42|||||TWO_SIDED|90.0|4.12|7.11|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an analysis of variance (ANOVA) linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||7.11|4.12|
82640219|NCT04957979|164995028|SUPERIORITY||Odds Ratio (OR)|1.086||||0.914|TWO_SIDED|95.0|0.243|4.861||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||4.861|0.243|0.914
82387455|NCT00529373|164485365|OTHER||Difference in Least Squares Means|0.19|||||TWO_SIDED|95.0|-0.15|0.54||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.54|-0.15|
82387456|NCT00529373|164485365|OTHER||Difference in Least Squares Means|0.19|||||TWO_SIDED|95.0|-0.24|0.62||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.62|-0.24|
82387457|NCT00529373|164485366|OTHER||Difference in Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.08|0.15||||||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.15|-0.08|
82640220|NCT04957979|164995028|SUPERIORITY||Odds Ratio (OR)|1.009||||0.987|TWO_SIDED|95.0|0.327|3.114||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||3.114|0.327|0.987
82387458|NCT00529373|164485366|OTHER||Difference in Least Squares Means|0.08|||||TWO_SIDED|95.0|-0.06|0.21||||||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.21|-0.06|
82387459|NCT00529373|164485366|OTHER||Difference in Least Squares Means|0.03|||||TWO_SIDED|95.0|-0.12|0.17||||||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.17|-0.12|
82387460|NCT00529373|164485366|OTHER||Difference in Least Squares Means|0.09|||||TWO_SIDED|95.0|-0.09|0.28||||||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum (sarcopenia, non-sarcopenia), time and interaction between treatment and time as fixed effects (LS means weighted for stratum size).||0.28|-0.09|
82387461|NCT00529373|164485367|OTHER|Miettinen \& Nurminen|Difference in rates|1.52|||||TWO_SIDED|95.0|-1.8|4.84||||||||4.84|-1.8|
82524586|NCT03595332|164745373|EQUIVALENCE|Analysis tested the difference in BMI percentile between baseline and 1-year follow-up among participants in the immediate intervention group to test the null hypothesis that no change occurred.|Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|1.676||0.829|TWO_SIDED|95.0|-2.922|3.648||A prior threshold for statistical significance was 0.05. No adjustment for multiple comparisons was made.|Regression, Linear|Analysis included Generalized Estimating Equations with linear response variable, accounting for nested data structure.||||3.648|-2.922|0.829
82640221|NCT04957979|164995029|SUPERIORITY||Odds Ratio (OR)|1.257||||0.204|TWO_SIDED|95.0|0.883|1.79||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.79|0.883|0.204
82640222|NCT04957979|164995029|SUPERIORITY||Odds Ratio (OR)|0.399||||0.04|TWO_SIDED|95.0|0.166|0.958|||Mixed Models Analysis|||||0.958|0.166|0.04
82640223|NCT04957979|164995030|SUPERIORITY||Odds Ratio (OR)|1.257||||0.302|TWO_SIDED|95.0|0.814|1.939||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.939|0.814|0.302
82640224|NCT04957979|164995030|SUPERIORITY||Odds Ratio (OR)|0.84||||0.192|TWO_SIDED|95.0|0.647|1.092||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.092|0.647|0.192
82640225|NCT04957979|164995031|SUPERIORITY||Odds Ratio (OR)|0.438||||0.318|TWO_SIDED|95.0|0.086|2.22||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||2.22|0.086|0.318
82647766|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED|95.0|-0.33|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.33|0.030
82387462|NCT00529373|164485368|OTHER|Miettinen \& Nurminen|Difference in rates|0.27|||||TWO_SIDED|95.0|-0.04|0.58||||||||0.58|-0.04|
82387463|NCT00529373|164485369|OTHER||Hazard Ratio (HR)|0.28|||<|0.001|TWO_SIDED|95.0|0.19|0.4|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.40|0.19|<0.001
82387464|NCT00529373|164485370|OTHER||Difference in Least Squares Means|0.01||||0.041|TWO_SIDED|95.0|0.0|0.03|||Mixed Models Analysis|||Odanacatib 50 mg OW versus Placebo. The mixed model contained fixed effects for treatment, region, stratum, treatment-year interaction and random effect intercept and slope (year) and unstructured covariance matrix.||0.03|0.00|0.041
82387465|NCT00529373|164485371|OTHER||Odds Ratio (OR)|0.89||||0.014|TWO_SIDED|95.0|0.81|0.98|||Logistic model|||Odanacatib 50 mg OW versus Placebo. Treatment comparison for height loss at any time during the treatment period. The logistic model contained terms for treatment, geographic region and stratum.||0.98|0.81|0.014
82387466|NCT00529373|164485372|OTHER||Difference in Least Squares Means|1.32|||<|0.001|TWO_SIDED|95.0|0.9|1.75|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.75|0.90|<0.001
82387467|NCT00529373|164485372|OTHER||Difference in Least Squares Means|2.49|||<|0.001|TWO_SIDED|95.0|2.37|2.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.61|2.37|<0.001
82387468|NCT00529373|164485372|OTHER||Difference in Least Squares Means|4.47|||<|0.001|TWO_SIDED|95.0|4.31|4.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.62|4.31|<0.001
82640226|NCT04957979|164995031|SUPERIORITY||Odds Ratio (OR)|1.793||||0.421|TWO_SIDED|95.0|0.433|7.426||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||7.426|0.433|0.421
82640227|NCT04957979|164995032|SUPERIORITY||Odds Ratio (OR)|0.906||||0.632|TWO_SIDED|95.0|0.606|1.356||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.356|0.606|0.632
82640228|NCT04957979|164995032|SUPERIORITY||Odds Ratio (OR)|0.845||||0.492|TWO_SIDED|95.0|0.523|1.366||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.366|0.523|0.492
82640229|NCT04957979|164995033|SUPERIORITY||Odds Ratio (OR)|0.856||||0.405|TWO_SIDED|95.0|0.594|1.234||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.234|0.594|0.405
82640230|NCT04957979|164995033|SUPERIORITY||Odds Ratio (OR)|0.559||||0.004|TWO_SIDED|95.0|0.374|0.834|||Mixed Models Analysis|||||0.834|0.374|0.004
82640231|NCT04957979|164995034|SUPERIORITY||Odds Ratio (OR)|0.151||||0.071|TWO_SIDED|95.0|0.02|1.173||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.173|0.02|0.071
82640232|NCT04957979|164995034|SUPERIORITY||Mean Difference (Net)|0.023||||0.003|TWO_SIDED|95.0|0.002|0.268||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||0.268|0.002|0.003
82387469|NCT00529373|164485372|OTHER||Difference in Least Squares Means|6.44|||<|0.001|TWO_SIDED|95.0|6.25|6.64|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.64|6.25|<0.001
82387470|NCT00529373|164485372|OTHER||Difference in Least Squares Means|8.62|||<|0.001|TWO_SIDED|95.0|8.11|9.12|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.12|8.11|<0.001
82640233|NCT04957979|164995035|SUPERIORITY||Odds Ratio (OR)|0.884||||0.557|TWO_SIDED|95.0|0.587|1.333||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.333|0.587|0.557
82640234|NCT04957979|164995035|SUPERIORITY||Mean Difference (Net)|0.624||||0.069|TWO_SIDED|95.0|0.376|1.037||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.037|0.376|0.069
82387471|NCT00529373|164485372|OTHER||Difference in Least Squares Means|9.49|||<|0.001|TWO_SIDED|95.0|8.7|10.29|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.29|8.70|<0.001
82387472|NCT00529373|164485373|OTHER||Difference in Least Squares Means|2.96|||<|0.001|TWO_SIDED|95.0|2.47|3.46|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.46|2.47|<0.001
82524587|NCT03595332|164745374|EQUIVALENCE|Analysis test whether for both groups combined, Baseline to 10-week change in reported intention of physical activity was significantly different from zero.|Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.128||0.026|TWO_SIDED|95.0|0.034|0.534||A priori threshold for statistical significance is 0.05. No adjustments for multiple comparisons were made.|Regression, Linear|Linear regression models with Generalized Estimating Equations to account for nested data were made.|A positive parameter would suggest an increase in intentions to be physically active.|||0.534|0.034|0.026
82524588|NCT02227875|164745375|NON_INFERIORITY|Mixed-Effect Model for Repeated Measures|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.098|0.218||||||||0.218|-0.098|
82524589|NCT02657317|164745400|SUPERIORITY||Mean Difference (Final Values)|-9.1||||0.001|TWO_SIDED|95.0|-14.4|-3.7|||GLMM|||To detect a medium effect (d = 0.50) at 2-sided α = 0.05, 50 participants were needed in each study arm (total N = 100). We anticipated 30% attrition in each arm. Data for the primary aim were analyzed using generalized linear mixed models adjusting for baseline levels of prognostic variable and using random intercepts at the level of participants. The primary analysis was based on intent-to-treat.||-3.7|-14.4|.001
82524590|NCT02856113|164745401|SUPERIORITY||Least Square (LS) Mean Difference|0.102|STANDARD_DEVIATION|0.3677|=|0.782|TWO_SIDED|95.0|-0.627|0.831||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|||0.831|-0.627|=0.782
82524591|NCT02856113|164745402|SUPERIORITY||LS Mean Difference|-0.046|STANDARD_DEVIATION|0.2635|=|0.863|TWO_SIDED|95.0|-0.567|0.476||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 12||0.476|-0.567|=0.863
82387473|NCT00529373|164485373|OTHER||Difference in Least Squares Means|4.07|||<|0.001|TWO_SIDED|95.0|3.93|4.22|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.22|3.93|<0.001
82387474|NCT00529373|164485373|OTHER||Difference in Least Squares Means|6.05|||<|0.001|TWO_SIDED|95.0|5.87|6.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.23|5.87|<0.001
82524592|NCT02856113|164745402|SUPERIORITY||LS Mean Difference|0.004|STANDARD_DEVIATION|0.3123|=|0.99|TWO_SIDED|95.0|-0.614|0.622||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 18||0.622|-0.614|=0.990
82387475|NCT00529373|164485373|OTHER||Difference in Least Squares Means|7.84|||<|0.001|TWO_SIDED|95.0|7.62|8.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.06|7.62|<0.001
82387476|NCT00529373|164485373|OTHER||Difference in Least Squares Means|9.72|||<|0.001|TWO_SIDED|95.0|9.16|10.27|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.27|9.16|<0.001
82387477|NCT00529373|164485373|OTHER||Difference in Least Squares Means|11.23|||<|0.001|TWO_SIDED|95.0|10.23|12.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||12.23|10.23|<0.001
82387478|NCT00529373|164485374|OTHER||Difference in Least Squares Means|1.49|||<|0.001|TWO_SIDED|95.0|0.95|2.03|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.03|0.95|<0.001
82387479|NCT00529373|164485374|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|2.05|2.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.37|2.05|<0.001
82387480|NCT00529373|164485374|OTHER||Difference in Least Squares Means|4.38|||<|0.001|TWO_SIDED|95.0|4.19|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|4.19|<0.001
82425719|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.469||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.469
82425720|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.062
82425721|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.284
82425722|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.421||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.421
82425723|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
82425724|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.171
82425725|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.354||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.354
82425726|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82640235|NCT04957979|164995036|SUPERIORITY||Odds Ratio (OR)|0.539||||0.256|TWO_SIDED|95.0|0.185|1.565||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.565|0.185|0.256
82443623|NCT02011490|164595771|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|2.42|||||TWO_SIDED|90.0|1.84|3.17|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||3.17|1.84|
82647767|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|0.02|0.34||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.34|0.02|0.027
82387481|NCT00529373|164485374|OTHER||Difference in Least Squares Means|6.46|||<|0.001|TWO_SIDED|95.0|6.24|6.68|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.68|6.24|<0.001
82524593|NCT02856113|164745402|SUPERIORITY||LS Mean Difference|-0.412|STANDARD_DEVIATION|0.3664|=|0.264|TWO_SIDED|95.0|-1.139|0.316||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 39||0.316|-1.139|=0.264
82524594|NCT02856113|164745402|SUPERIORITY||LS Mean Difference|-0.483|STANDARD_DEVIATION|0.4165|=|0.25|TWO_SIDED|95.0|-1.314|0.348||P-values was assessed at 0.05 significance level using MMRM.|MMRM||MMRM:Treatment,scheduled visit,antidiabetic therapy,visit-by-treatment interaction-categorical effects;Baseline HbA1c,visit-by-baseline HbA1c interaction-continuous covariates;unstructured covariance matrix for correlation of repeated measurements.|Change From Baseline at Week 52||0.348|-1.314|=0.250
82535271|NCT00562965|164768557|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19||||0.0358|TWO_SIDED|95.0|0.04|1.02|||Cox proportional hazard regression model|A 2-sided 5% significance level on a stratified Cox proportional hazard regression model was used.|In this regression model, treatment arm was the covariate and the strata (number of prior regimens, investigator's choice of therapy and geographical region) over which participants were stratified prior to randomization were the variables.|To detect a hazard ratio of 0.77 with 85% power using a 2-sided log-rank test at the 5% significance level, it was planned that approximately 978 participants were needed to be randomized but due to premature termination only 29 participants were randomized.||1.02|0.04|0.0358
82577024|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.244||0.0772|TWO_SIDED|95.0|-0.92|0.05|||MMRM|||Depressed Mood, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.92|0.0772
82443624|NCT02011490|164595772|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|5.49|||||TWO_SIDED|90.0|4.18|7.22|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||7.22|4.18|
82443625|NCT02011490|164595772|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|2.42|||||TWO_SIDED|90.0|1.84|3.18|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||3.18|1.84|
82443626|NCT02011490|164595773|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|90.0|0.73|1.21|||||Difference in least squares means of log-transformed data (severe renal impaired - healthy) was back transformed to geometric least squares mean ratio (severe renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||1.21|0.73|
82443627|NCT02011490|164595773|SUPERIORITY_OR_OTHER||Geometric least squares mean ratio|0.92|||||TWO_SIDED|90.0|0.72|1.18|||||Difference in least squares means of log-transformed data (moderate renal impaired - healthy) was back transformed to geometric least squares mean ratio (moderate renal impaired/healthy)|Log-transformed plasma values were modeled using an ANOVA linear fixed-effect model with population (severe insufficiency, moderate insufficiency, and healthy control) as a fixed effect||1.18|0.72|
82443628|NCT02789410|164595896|SUPERIORITY|||||||0.132|||||||Wilcoxon (Mann-Whitney)|||||||0.132
82443629|NCT02789410|164595897|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.590
82443630|NCT02789410|164595898|SUPERIORITY|||||||0.971|||||||Wilcoxon (Mann-Whitney)|||||||0.971
82647768|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.04|TWO_SIDED|95.0|0.01|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|0.01|0.040
82443631|NCT01751776|164595899|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.0506|STANDARD_ERROR_OF_MEAN|0.4242|||TWO_SIDED|95.0|1.1843|2.9168|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for Cmax was explored after the first adminstration of BI 65564 on Day 1.||2.9168|1.1843|
82443632|NCT01751776|164595899|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.4227|STANDARD_ERROR_OF_MEAN|0.1644|||TWO_SIDED|95.0|1.0869|1.7584|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for Cmax was explored after the last (fourth) adminstration of BI 65564 on Day 22.||1.7584|1.0869|
82443633|NCT01751776|164595900|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.0091|STANDARD_ERROR_OF_MEAN|0.1706|||TWO_SIDED|95.0|1.6607|2.3575|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for AUC 0-infinity was explored after the last adminstration of BI 65564 on Day 22.||2.3575|1.6607|
82443634|NCT01751776|164595901|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.4225|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|95.0|1.0876|1.7574|||||Dose proportionality was explored using a regression model. Based on the estimate for the slope parameter, a 2-sided 95% CI was computed. Perfect dose proportionality would correspond to a slope of 1. PK endpoints on the log-transformed scale.|Dose proportionality for AUCtau was explored after the last administration of BI 65564 on Day 22.||1.7574|1.0876|
82443635|NCT01751776|164595903|OTHER||Mean Difference (Net)|22.7|||||||||||||Mean Difference in percentage|Observed difference of ACR20 response for BI 120mg - Placebo||||
82443636|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Mean Difference (Net)|33.0|||||||||||||Mean Difference in percentage|Expected difference of ACR20 response for BI 120mg - Placebo||||
82443637|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|99.9||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 0%||||
82443638|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|99.7||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 5%||||
82443639|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|98.7||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 10%||||
82535272|NCT00562965|164768558|SUPERIORITY_OR_OTHER|||||||0.0801|TWO_SIDED||||||Fisher Exact|||||||0.0801
82640236|NCT04957979|164995036|SUPERIORITY||Odds Ratio (OR)|1.117||||0.866|TWO_SIDED|95.0|0.308|4.047||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||4.047|0.308|0.866
82640237|NCT04957979|164995037|SUPERIORITY||Odds Ratio (OR)|0.797||||0.641|TWO_SIDED|95.0|0.307|2.069||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||2.069|0.307|0.641
82640238|NCT04957979|164995037|SUPERIORITY||Odds Ratio (OR)|0.569||||0.32|TWO_SIDED|95.0|0.187|1.729||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Mixed Models Analysis|Binomial link function. Estimation parameter is the interaction between Time (post vs pre) and Care Model (Medical/Social vs Medical Nursing).|Values \> 1.0 represents larger improvement pre to post-care coordination in likelihood of specific care quality outcome for patients in Medical/Social clinics as compared to those in Medical/Nursing.|||1.729|0.187|0.32
82640239|NCT04957979|164995038|SUPERIORITY||Risk Difference (RD)|9.3|||<|0.001|TWO_SIDED|95.0|5.6|13.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||13|5.6|<.001
82640240|NCT04957979|164995038|SUPERIORITY||Risk Difference (RD)|11.0||||0.002|TWO_SIDED|95.0|4.2|18.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher proportion of responders in Medical/Nursing clinics as compared to Medical/Social.|||18|4.2|0.002
82640241|NCT04957979|164995039|SUPERIORITY||Risk Difference (RD)|6.0||||0.023|TWO_SIDED|95.0|0.86|11.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||11.0|0.86|0.023
82640242|NCT04957979|164995039|SUPERIORITY||Risk Difference (RD)|-3.7||||0.5|TWO_SIDED|95.0|-14.0|7.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher proportion of responders in Medical/Nursing clinics as compared to Medical/Social.|||7.0|-14.0|0.5
82640243|NCT04957979|164995040|SUPERIORITY||Mean Difference (Net)|0.13|||<|0.001|TWO_SIDED|95.0|0.06|0.19||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Positive values reflect higher/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||0.19|0.06|<0.001
82640244|NCT04957979|164995040|SUPERIORITY||Mean Difference (Net)|0.19|||<|0.001|TWO_SIDED|95.0|0.06|0.32||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Positive values reflect higher/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||0.32|0.06|<0.001
82640245|NCT04957979|164995041|SUPERIORITY||Mean Difference (Net)|-0.11|||<|0.001|TWO_SIDED|95.0|-0.16|-0.06|||t-test, 2 sided|No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.06|-0.16|<0.001
82535273|NCT00562965|164768559|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.1727|TWO_SIDED|95.0|0.05|1.81|||Cox proportional hazard regression model|Stratified Cox proportional hazard regression model was utilized.|In this regression model, treatment arm was the covariate and the strata (number of prior regimens, investigator's choice of therapy and geographical region) over which participants were stratified prior to randomization were the variables.|||1.81|0.05|0.1727
82640246|NCT04957979|164995041|SUPERIORITY||Mean Difference (Net)|-0.11||||0.006|TWO_SIDED|95.0|-0.2|-0.03|||t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.03|-0.2|0.006
82640247|NCT04957979|164995042|SUPERIORITY||Risk Difference (RD)|-2.4||||0.059|TWO_SIDED|95.0|-4.9|0.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared|||||0.00|-4.9|0.059
82640248|NCT04957979|164995042|SUPERIORITY||Risk Difference (RD)|-5.7||||0.014|TWO_SIDED|95.0|-10.0|-1.3||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-1.3|-10.0|0.014
82640249|NCT04957979|164995043|SUPERIORITY||Risk Difference (RD)|11.0|||<|0.001|TWO_SIDED|95.0|6.8|15.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared|||||15.0|6.8|<0.001
82640250|NCT04957979|164995043|SUPERIORITY||Risk Difference (RD)|12.0||||0.001|TWO_SIDED|95.0|4.7|20.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||20.0|4.7|0.001
82640251|NCT04957979|164995044|SUPERIORITY||Mean Difference (Net)|-7.6|||<|0.001|TWO_SIDED|95.0|-10.0|-5.0||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-5|-10|<.001
82640252|NCT04957979|164995044|SUPERIORITY||Mean Difference (Net)|-6.0||||0.007|TWO_SIDED|95.0|-10.0|-2.0|||t-test, 2 sided||Negative values reflect lower/better scores of responders in Medical/Nursing clinics as compared to Medical/Social.|||-2|-10|0.007
82640253|NCT04957979|164995045|SUPERIORITY||Risk Difference (RD)|-2.5||||0.046|TWO_SIDED|95.0|-4.8|-0.14||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.14|-4.8|0.046
82640254|NCT04957979|164995045|SUPERIORITY||Risk Difference (RD)|-4.5||||0.033|TWO_SIDED|95.0|-8.4|-0.52||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-0.52|-8.4|0.033
82387482|NCT00529373|164485374|OTHER||Difference in Least Squares Means|8.42|||<|0.001|TWO_SIDED|95.0|7.82|9.02|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.02|7.82|<0.001
82535274|NCT02531438|164768565|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-1.6|||||TWO_SIDED|95.0|-7.1|3.8|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||3.8|-7.1|
82535275|NCT02531438|164768566|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-2.4|7.4|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||7.4|-2.4|
82387483|NCT00529373|164485374|OTHER||Difference in Least Squares Means|8.53|||<|0.001|TWO_SIDED|95.0|7.54|9.53|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.53|7.54|<0.001
82577025|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.191||0.6809|TWO_SIDED|95.0|-0.46|0.3|||MMRM|||Feelings of Guilt, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.46|0.6809
82387484|NCT00529373|164485375|OTHER||Difference in Least Squares Means|1.74|||<|0.001|TWO_SIDED|95.0|1.03|2.46|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.46|1.03|<0.001
82387485|NCT00529373|164485375|OTHER||Difference in Least Squares Means|3.5|||<|0.001|TWO_SIDED|95.0|3.31|3.7|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.70|3.31|<0.001
82387486|NCT00529373|164485375|OTHER||Difference in Least Squares Means|6.41|||<|0.001|TWO_SIDED|95.0|6.17|6.65|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 24||6.65|6.17|<0.001
82387487|NCT00529373|164485375|OTHER||Difference in Least Squares Means|9.27|||<|0.001|TWO_SIDED|95.0|8.98|9.57|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 36||9.57|8.98|<0.001
82387488|NCT00529373|164485375|OTHER||Difference in Least Squares Means|12.44|||<|0.001|TWO_SIDED|95.0|11.66|13.22|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 48||13.22|11.66|<0.001
82387489|NCT00529373|164485375|OTHER||Difference in Least Squares Means|13.81|||<|0.001|TWO_SIDED|95.0|12.58|15.04|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 60||15.04|12.58|<0.001
82387490|NCT00529373|164485376|OTHER||Difference in Least Squares Means|1.11|||<|0.001|TWO_SIDED|95.0|0.67|1.55|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.55|0.67|<0.001
82387491|NCT00529373|164485376|OTHER||Difference in Least Squares Means|1.35|||<|0.001|TWO_SIDED|95.0|0.85|1.84|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.84|0.85|<0.001
82387492|NCT00529373|164485376|OTHER||Difference in Least Squares Means|1.93|||<|0.001|TWO_SIDED|95.0|1.38|2.47|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.47|1.38|<0.001
82387493|NCT00529373|164485376|OTHER||Difference in Least Squares Means|2.2||||0.001|TWO_SIDED|95.0|0.89|3.51|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.51|0.89|0.001
82640255|NCT04957979|164995046|SUPERIORITY||Risk Difference (RD)|-10.0|||<|0.001|TWO_SIDED|95.0|-13.0|-6.8||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-6.8|-13.0|<0.001
82387494|NCT00529373|164485376|OTHER||Difference in Least Squares Means|3.5||||0.001|TWO_SIDED|95.0|1.46|5.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||5.54|1.46|0.001
82387495|NCT00529373|164485377|OTHER||Difference in Least Squares Means|5.79|||<|0.001|TWO_SIDED|95.0|5.37|6.2|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.2|5.37|<0.001
82535276|NCT02531438|164768567|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-1.7|6.8|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus moxifloxacin.|||6.8|-1.7|
82577026|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.185||0.7297|TWO_SIDED|95.0|-0.3|0.43|||MMRM|||Feelings of Guilt, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.30|0.7297
82640256|NCT04957979|164995046|SUPERIORITY||Risk Difference (RD)|-11.0|||<|0.001|TWO_SIDED|95.0|-17.0|-5.6||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-5.6|-17.0|<0.001
82535277|NCT01813422|164768583|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-1.007|STANDARD_ERROR_OF_MEAN|0.187|<|0.0001|TWO_SIDED|95.0|-1.375|-0.64|||ANCOVA|ANCOVA model included terms for the treatment group, the geographic region stratification factor, and baseline PAV.|Treatment difference uses placebo as the reference.|||-0.640|-1.375|< 0.0001
82535278|NCT01813422|164768584|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-4.889|STANDARD_ERROR_OF_MEAN|1.201|<|0.0001|TWO_SIDED|95.0|-7.247|-2.531|||ANCOVA|ANCOVA model included terms for the treatment group, the geographic region stratification factor, and baseline TAV.|Treatment difference uses placebo as the reference.|||-2.531|-7.247|< 0.0001
82535279|NCT01813422|164768585|SUPERIORITY_OR_OTHER||Treatment Difference|17.0|||<|0.0001|TWO_SIDED|95.0|10.3|23.5|||Cochran-Mantel-Haenszel|Based on CMH test stratified by geographic region.|Treatment difference uses placebo as the reference.|||23.5|10.3|< 0.0001
82535280|NCT01813422|164768586|SUPERIORITY_OR_OTHER||Treatment Difference|12.5||||0.0002|TWO_SIDED|95.0|5.8|19.1|||Cochran-Mantel-Haenszel|Based on CMH test stratified by geographic region.|Treatment difference uses placebo as the reference.|||19.1|5.8|0.0002
82535281|NCT00083174|164768593|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35||||0.002|TWO_SIDED|95.0|0.18|0.7|||Log Rank|||The null hypothesis was no difference between two groups. The sample size estimate was based on an assumption of annual invasive breast cancer rate of 0.60% in the placebo group and 0.21% in exemestane group, a relative reduction of 65% with exemestane. To detect this with a two-sided 5% level and 90% power, a total of 38 cases of invasive breast cancer were required, projected to occur when 4560 women were randomly assigned in a 3-year period and then followed for an additional 1.2 years.||0.70|0.18|0.002
82535282|NCT00083174|164768594|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.004|TWO_SIDED|95.0|0.27|0.79|||Log Rank|||||0.79|0.27|0.004
82535283|NCT00083174|164768595|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.36||||0.07|TWO_SIDED|95.0|0.11|1.12|||Log Rank|||||1.12|0.11|0.07
82535284|NCT00410384|164768628|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.0167|TWO_SIDED|95.0|1.08|2.19||For the primary analysis of the primary efficacy endpoint, a step-down sequential testing procedure was used to control the type 1 error.|Regression, Logistic|Adjusted for baseline stratification factors (SELENA SLEDAI Score: ≤9 vs ≥10; proteinuria: \<2g vs ≥2g per 24hr; Race: African/indig-American vs Other)||||2.19|1.08|0.0167
82535285|NCT00410384|164768628|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0889|TWO_SIDED|95.0|0.95|1.94||After superiority of 10 mg/kg vs placebo was established, the 1 mg/kg group was tested vs placebo (2-sided alpha=0.05)|Regression, Logistic|Adjusted for baseline stratification factors.||||1.94|0.95|0.0889
82535286|NCT00410384|164768629|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.1323|TWO_SIDED|95.0|0.92|1.87|||Regression, Logistic|Analysis was adjusted for baseline stratification factors.||||1.87|0.92|0.1323
82535287|NCT00410384|164768629|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.105|TWO_SIDED|95.0|0.94|1.91|||Regression, Logistic||Analysis was adjusted for baseline stratification factors.|||1.91|0.94|0.1050
82535288|NCT00410384|164768630|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.0063|TWO_SIDED|95.0|1.15|2.32|||Regression, Logistic|Adjusted for baseline stratification factors.||||2.32|1.15|0.0063
82535289|NCT00410384|164768630|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.074|TWO_SIDED|95.0|0.97|1.96|||Regression, Logistic|Adjusted for baseline stratification factors.||||1.96|0.97|0.0740
82535290|NCT00410384|164768631|SUPERIORITY_OR_OTHER|||||||0.7962|||||||ANCOVA|Adjusted for baseline PGA and baseline stratification factors.||||||0.7962
82535291|NCT00410384|164768631|SUPERIORITY_OR_OTHER|||||||0.9703|||||||ANCOVA|Adjusted for baseline PGA and baseline stratification factors.||||||0.9703
82535292|NCT00410384|164768632|SUPERIORITY_OR_OTHER|||||||0.6583|||||||ANCOVA|Analysis adjusted for baseline PCS and baseline stratification factors.||||||0.6583
82535293|NCT00410384|164768632|SUPERIORITY_OR_OTHER|||||||0.3762|||||||ANCOVA|Analysis adjusted for baseline PCS and baseline stratification factors.||||||0.3762
82535294|NCT00410384|164768633|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.4253|TWO_SIDED|95.0|0.65|2.74|||Regression, Logistic|Analysis was adjusted for baseline prednisone dose and baseline stratification factors.||||2.74|0.65|0.4253
82535295|NCT00410384|164768633|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.2081|TWO_SIDED|95.0|0.78|3.13|||Regression, Logistic|Analysis was adjusted for baseline prednisone dose and baseline stratification factors.||||3.13|0.78|0.2081
82535296|NCT01253200|164768635|NON_INFERIORITY_OR_EQUIVALENCE|The Primary Safety Endpoint was evaluated using a one-sided, non-inferiority test for two binomial proportions at an alpha-level of 0.05. A 95% confidence interval based upon a score test of the difference of proportion of subjects in the Investigational and Control Groups free from a procedure-related complication seven days post-procedure was constructed. The upper bound of the confidence interval was compared to 10%.|Risk Difference (RD)|4.6|||||ONE_SIDED|95.0||9.78||||||Note that analysis of the primary outcome was conducted for Randomized subjects only as prespecified in the study protocol. This is consistent analysis publicly available in the Summary of Safety and Effectiveness Data (SSED).||9.78||
82535297|NCT02049437|164768639|SUPERIORITY||Risk Ratio (RR)|4.43||||0.07|TWO_SIDED|95.0|0.9|21.83|||Mixed Models Analysis|||||21.83|0.90|0.07
82443640|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|96.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 15%||||
82443641|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|90.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 20%||||
82443642|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|79.0||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 25%||||
82443643|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|62.5||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 30%||||
82443644|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|42.9||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 35%||||
82443645|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|24.5||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 40%||||
82443646|NCT01751776|164595903|OTHER|Evaluation of the difference in ACR20 response rates using a Bayesian approach. Results based on 1000000 simulations of the posterior distribution; for the treatment group a non-informative beta (0,0) prior was used; for the placebo group, an informative beta (5.5, 16.5) prior was used; prior to any imputation, assessments up to the End of Trial (EoT) visit were mapped to an on-treatment visit window (Visit 4/Week 2 - Visit 14 (EoT)/Week 12) relative to the day of the first dose.|Probability in percentage|11.1||||||||||||||Probability that difference of ACR20 response for BI 120mg - Placebo is larger than 45%||||
82443647|NCT01751776|164595904|SUPERIORITY_OR_OTHER_LEGACY||Risk difference, unadjusted|18.2||||0.0754|TWO_SIDED|95.0|-6.6|38.6|||One-sided exact test (see description)|One-sided exact test for superiority testing|The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||38.6|-6.6|0.0754
82443648|NCT01751776|164595904|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|20.0|||||TWO_SIDED|95.0|-4.6|39.0|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-Tumour Necrosis Factor (TNF)|adjusted||39.0|-4.6|
82524595|NCT03494166|164745413|SUPERIORITY|Key parameter was the coefficient for the trial arm variable in the mixed model, reflecting average difference of group means over time (weeks 1-13).|Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|1.32||0.31|TWO_SIDED|95.0|-3.9|1.25||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was set at .05.|Mixed Models Analysis|Linear mixed effects models were used for 13 repeated measures of symptom severity index, adjusting for baseline value.|The mean of the group that started with SMSH alone minus the mean of the group that started with SMSH+TIPC (average over time).|"The null hypothesis was that the means in two arms were equal, the alternative hypothesis was that the means were not equal.~We planned to randomize 224 survivors in approximately 3:1 ratio in the first randomization; power was 0.92 to detect the adjusted d=0.54 in the comparison of the SMSH and SMSH+TIPC in the first randomization. The planned number of 224 was exceeded because more survivors than planned were determined to have high need for symptom management."||1.25|-3.90|.31
82535298|NCT02049437|164768640|SUPERIORITY||Mean Difference (Final Values)|-2036.8|||<|0.001|TWO_SIDED|95.0|-3490.32|-900.62|||Wilcoxon (Mann-Whitney)|||||-900.62|-3490.32|<0.001
82535299|NCT02049437|164768641|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.77|TWO_SIDED|95.0|-0.79|0.65|||Wilcoxon (Mann-Whitney)|||||0.65|-0.79|0.77
82535300|NCT00783718|164768642|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.7|||<|0.0001|TWO_SIDED|95.0|11.6|31.7|||Cochran-Mantel-Haenszel|||The primary comparison of the Induction Phase was tested using the Cochran-Mantel-Haenszel (CMH) chi-square test at a 5% significance level, with stratification according to the stratification factors (concomitant use of oral corticosteroids and previous exposure to tumor necrosis factor alpha (TNFα) antagonists or concomitant immunomodulator \[6-mercaptopurine or azathioprine\] use).||31.7|11.6|< 0.0001
82640257|NCT04957979|164995047|SUPERIORITY||Risk Difference (RD)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.0|-4.1||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-4.1|-10.0|<0.001
82577027|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.226||0.0626|TWO_SIDED|95.0|-0.87|0.02|||MMRM|||Feelings of Guilt, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.87|0.0626
82524596|NCT03494166|164745414|SUPERIORITY|The key parameter was the coefficient for the variable reflecting trial arm from the second randomization in the mixed model. This parameter reflected average difference between means of two groups over time (weeks 5-13).|Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|3.35||0.52|TWO_SIDED|95.0|-8.91|4.55||The p-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Linear mixed effects models were used for 9 repeated measures of symptom severity index (weeks 5-13), adjusting for baseline value.|The mean of the group that continued with SMSH alone minus the mean of the group that had TIPC added to the SMSH after week 4.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The required sample size was 60 per group for .80 power or greater in two-tailed tests at the 0.05 level of significance using the effect size of Cohen's d=0.54 (adjusted for baseline and repeated measures). The actual sample size was smaller (61 total) due to the higher than planned rate of response to the SMSH alone by week 4.||4.55|-8.91|.52
82524597|NCT03494166|164745415|SUPERIORITY|Key parameter was the coefficient for the trial arm from the first randomization variable in the linear regression model.|Median Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.12||0.71|TWO_SIDED|95.0|-2.63|1.81||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear||The mean of group that started with SMSH alone minus the mean of the group that started with SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.81|-2.63|.71
82524598|NCT03494166|164745416|SUPERIORITY|The key parameter was the coefficient for the trial arm from the second randomization variable in linear regression model.|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|2.91||0.79|TWO_SIDED|95.0|-6.53|5.01||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear|The model included the adjustment for baseline value of the outcome.|The mean of the group that continued with SMSH alone minus the mean of the group that had TIPC added to the SMSH after week 4.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||5.01|-6.53|.79
82524599|NCT00855595|164745444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0903|||||||ANCOVA|||||||0.0903
82524600|NCT02755597|164745571|SUPERIORITY||Hazard Ratio (HR)|0.656|||=|0.012|TWO_SIDED|95.0|0.471|0.913|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.913|0.471|=0.012
82524601|NCT02755597|164745572|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||<0.001
82524602|NCT02755597|164745574|SUPERIORITY||Hazard Ratio (HR)|0.508|||<|0.001|TWO_SIDED|95.0|0.343|0.753|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.753|0.343|<0.001
82524603|NCT02755597|164745579|SUPERIORITY||Hazard Ratio (HR)|1.191|||=|0.385|TWO_SIDED|95.0|0.802|1.77|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||1.770|0.802|=0.385
82524604|NCT02755597|164745580|SUPERIORITY||Hazard Ratio (HR)|0.571|||=|0.001|TWO_SIDED|95.0|0.405|0.805|||Log Rank||Hazard ratio was estimated by Cox proportional hazards model|Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||0.805|0.405|=0.001
82524605|NCT02755597|164745581|SUPERIORITY||||||=|0.019|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||=0.019
82524606|NCT02755597|164745582|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Stratified Analysis; Stratification factors: Prior exposure to proteasome inhibitors (naïve versus sensitive), and number of prior lines of therapy (1 versus 2 or 3)||||<0.001
82524607|NCT02618616|164745620|OTHER||least square difference|8.7||||0.8495|ONE_SIDED|90.0|8.4|||The 1-sided p-value tests if the ZPL-389 Least square (LS) mean is \< the placebo LS mean.|ANCOVA|||ANCOVA of PASI at Week 12|||8.4|0.8495
82524608|NCT02618616|164745621|OTHER||Odds Ratio (OR)|0.562||||0.9058|TWO_SIDED|90.0|0.27|1.16|||Regression, Logistic|||Logistic Regression PASI-50||1.16|0.27|0.9058
82524609|NCT02618616|164745621|OTHER||Odds Ratio (OR)|0.946||||0.5422|TWO_SIDED|90.0|0.4|2.25|||Regression, Logistic|||Logistic Regression PASI-75||2.25|0.4|0.5422
82524610|NCT01951638|164745630|OTHER||Log-Scale mean difference|0.137|||=|0.8991|TWO_SIDED|90.0|-0.04|0.31|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups BAY1021189 (2.5mg, 2.5 to 5mg, 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test. The Hochberg procedure was used to test the two primary end points at study-wise significance level of 5%. Results are reported including 90% confidence intervals (CI) for the difference of means. The difference between the comparison groups is difference of means on the log scale.||0.31|-0.04|= 0.8991
82524611|NCT01951638|164745630|OTHER||Log-Scale mean difference|0.076|||=|0.7194|TWO_SIDED|95.0|-0.18|0.33|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.33|-0.18|= 0.7194
82640258|NCT04957979|164995047|SUPERIORITY||Risk Difference (RD)|-8.2||||0.002|TWO_SIDED|95.0|-13.0|-3.2||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social|||-3.2|-13.0|0.002
82387496|NCT00529373|164485377|OTHER||Difference in Least Squares Means|4.02|||<|0.001|TWO_SIDED|95.0|3.67|4.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.37|3.67|<0.001
82387497|NCT00529373|164485377|OTHER||Difference in Least Squares Means|7.62|||<|0.001|TWO_SIDED|95.0|7.11|8.13|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.13|7.11|<0.001
82387498|NCT00529373|164485377|OTHER||Difference in Least Squares Means|9.51|||<|0.001|TWO_SIDED|95.0|7.96|11.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.06|7.96|<0.001
82387499|NCT00529373|164485378|OTHER||Difference in Least Squares Means|2.4|||<|0.001|TWO_SIDED|95.0|2.11|2.68|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.68|2.11|<0.001
82387500|NCT00529373|164485378|OTHER||Difference in Least Squares Means|4.21|||<|0.001|TWO_SIDED|95.0|3.84|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|3.84|<0.001
82387501|NCT00529373|164485378|OTHER||Difference in Least Squares Means|5.86|||<|0.001|TWO_SIDED|95.0|5.41|6.3|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.30|5.41|<0.001
82387502|NCT00529373|164485378|OTHER||Difference in Least Squares Means|8.54|||<|0.001|TWO_SIDED|95.0|7.0|10.09|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.09|7.00|<0.001
82387503|NCT00529373|164485379|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|1.83|2.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.59|1.83|<0.001
82387504|NCT00529373|164485379|OTHER||Difference in Least Squares Means|4.33|||<|0.001|TWO_SIDED|95.0|3.87|4.78|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.78|3.87|<0.001
82387505|NCT00529373|164485379|OTHER||Difference in Least Squares Means|6.09|||<|0.001|TWO_SIDED|95.0|5.56|6.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.62|5.56|<0.001
82387506|NCT00529373|164485379|OTHER||Difference in Least Squares Means|9.08|||<|0.001|TWO_SIDED|95.0|6.97|11.19|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.19|6.97|<0.001
82387507|NCT00529373|164485380|OTHER||Difference in Least Squares Means|3.44|||<|0.001|TWO_SIDED|95.0|2.98|3.9|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 12||3.90|2.98|<0.001
82387508|NCT00529373|164485380|OTHER||Difference in Least Squares Means|6.03|||<|0.001|TWO_SIDED|95.0|5.47|6.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.59|5.47|<0.001
82524612|NCT01951638|164745630|OTHER||Log-Scale mean difference|0.156|||=|0.8653|TWO_SIDED|95.0|-0.12|0.43|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.43|-0.12|= 0.8653
82387509|NCT00529373|164485380|OTHER||Difference in Least Squares Means|8.49|||<|0.001|TWO_SIDED|95.0|7.81|9.16|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.16|7.81|<0.001
82387510|NCT00529373|164485380|OTHER||Difference in Least Squares Means|11.76|||<|0.001|TWO_SIDED|95.0|9.15|14.36|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||14.36|9.15|<0.001
82387511|NCT00529373|164485381|OTHER||Difference in Least Squares Means|1.08||||0.083|TWO_SIDED|95.0|-0.14|2.31|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.31|-0.14|0.083
82387512|NCT00529373|164485381|OTHER||Difference in Least Squares Means|1.05||||0.129|TWO_SIDED|95.0|-0.31|2.4|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.40|-0.31|0.129
82387513|NCT00529373|164485381|OTHER||Difference in Least Squares Means|1.21||||0.104|TWO_SIDED|95.0|-0.25|2.67|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.67|-0.25|0.104
82387514|NCT00529373|164485381|OTHER||Difference in Least Squares Means|1.55||||0.617|TWO_SIDED|95.0|-4.92|8.02|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.02|-4.92|0.617
82387515|NCT00529373|164485382|OTHER||Difference in Least Squares Means|-58.99|||<|0.001|TWO_SIDED|95.0|-64.68|-53.3|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6.||-53.30|-64.68|<0.001
82387516|NCT00529373|164485382|OTHER||Difference in Least Squares Means|-60.01|||<|0.001|TWO_SIDED|95.0|-66.4|-53.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12.||-53.61|-66.40|<0.001
82387517|NCT00529373|164485382|OTHER||Difference in Least Squares Means|-46.7|||<|0.001|TWO_SIDED|95.0|-53.23|-40.17|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24.||-40.17|-53.23|<0.001
82387518|NCT00529373|164485382|OTHER||Difference in Least Squares Means|-44.67||||0.05|TWO_SIDED|95.0|-52.62|-36.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36.||-36.72|-52.62|0.050
82387519|NCT00529373|164485382|OTHER||Difference in Least Squares Means|-18.73||||0.05|TWO_SIDED|95.0|-37.44|-0.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48.||-0.01|-37.44|0.050
82387520|NCT00529373|164485383|OTHER||Difference in Least Squares Means|-51.7|||<|0.001|TWO_SIDED|95.0|-56.11|-47.28|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6.||-47.28|-56.11|<0.001
82524613|NCT01951638|164745630|OTHER||Log-Scale mean difference|0.171|||=|0.9041|TWO_SIDED|95.0|-0.09|0.43|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.43|-0.09|= 0.9041
82524614|NCT01951638|164745630|OTHER||Log-Scale mean difference|0.052|||=|0.6572|TWO_SIDED|95.0|-0.2|0.3|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||0.3|-0.2|= 0.6572
82524615|NCT01951638|164745631|OTHER||Mean Difference (Net)|1.629|||=|0.8156|TWO_SIDED|90.0|-1.36|4.62|||t-test, 1 sided|||For the primary analysis, the three highest active treatment groups (BAY1021189 2.5mg, BAY1021189 2.5 to 5mg, BAY1021189 2.5 to 10mg) were pooled and compared to the assigned placebo treatment group with a one-sided two-sample t-test. The Hochberg procedure was used to test the two primary end points at study-wise significance level of 5%. Results are reported including 90% confidence intervals (CI) for the difference of means.||4.62|-1.36|= 0.8156
82524616|NCT01951638|164745631|OTHER||Mean Difference (Net)|1.707|||=|0.7945|TWO_SIDED|95.0|-2.39|5.8|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||5.8|-2.39|= 0.7945
82387521|NCT00529373|164485383|OTHER||Difference in Least Squares Means|-53.59|||<|0.001|TWO_SIDED|95.0|-58.39|-48.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12.||-48.79|-58.39|<0.001
82387522|NCT00529373|164485383|OTHER||Difference in Least Squares Means|-56.68|||<|0.001|TWO_SIDED|95.0|-62.52|-50.84|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24.||-50.84|-62.52|<0.001
82387523|NCT00529373|164485383|OTHER||Difference in Least Squares Means|-59.14|||<|0.001|TWO_SIDED|95.0|-66.04|-52.23|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36.||-52.23|-66.04|<0.001
82387524|NCT00529373|164485383|OTHER||Difference in Least Squares Means|-44.54|||<|0.001|TWO_SIDED|95.0|-61.72|-27.36|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48.||-27.36|-61.72|<0.001
82387525|NCT00529373|164485384|OTHER||Mean Difference (Final Values)|-14.13|||<|0.001|TWO_SIDED|95.0|-17.0|-11.27|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-11.27|-17.00|<0.001
82387526|NCT00529373|164485384|OTHER||Mean Difference (Final Values)|-12.01|||<|0.001|TWO_SIDED|95.0|-15.22|-8.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-8.79|-15.22|<0.001
82387527|NCT00529373|164485384|OTHER||Mean Difference (Final Values)|-9.29|||<|0.001|TWO_SIDED|95.0|-13.45|-5.13|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-5.13|-13.45|<0.001
82387528|NCT00529373|164485384|OTHER||Mean Difference (Final Values)|-7.64|||<|0.001|TWO_SIDED|95.0|-11.87|-3.41|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-3.41|-11.87|<0.001
82387529|NCT00529373|164485384|OTHER||Mean Difference (Final Values)|-0.77||||0.896|TWO_SIDED|95.0|-12.34|10.79|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||10.79|-12.34|0.896
82572830|NCT00267098|164855700|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.204|0.087||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 18 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 18 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 18 months than patients with RV pacing. Negative values reflect reductions in LVESD.||0.087|-0.204|
82572831|NCT00267098|164855701|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.18|||||TWO_SIDED|95.0|-0.339|-0.018||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in LVESD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean LVESD change through 24 months.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, and NYHA classifications of I, II, or III who receive biventricular pacing have the same average change in LVESD from randomization to 24 months as similar patients who receive right ventricular pacing. This was tested against the hypothesis that patients with BiV pacing have a different change in LVESD from randomization to 24 months than patients with RV pacing. Negative values reflect reductions in LVESD.||-0.018|-0.339|
82572832|NCT00267098|164855702|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.683|||||TWO_SIDED|95.0|-2.828|1.506||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||1.506|-2.828|
82572833|NCT00267098|164855703|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.564|||||TWO_SIDED|95.0|-2.843|1.773||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||1.773|-2.843|
82572834|NCT00267098|164855704|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.016|||||TWO_SIDED|95.0|-2.379|2.425||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||2.425|-2.379|
82524617|NCT01951638|164745631|OTHER||Mean Difference (Net)|2.109|||=|0.7917|TWO_SIDED|95.0|-3.01|7.23|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||7.23|-3.01|= 0.7917
82524618|NCT01951638|164745631|OTHER||Mean Difference (Net)|1.219|||=|0.7241|TWO_SIDED|95.0|-2.82|5.26|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||5.26|-2.82|= 0.7241
82524619|NCT01951638|164745631|OTHER||Mean Difference (Net)|1.198|||=|0.7546|TWO_SIDED|95.0|-2.23|4.63|||t-test, 1 sided|||Pairwise comparisons to placebo were performed in a hierarchical manner (from BAY1021189 from 2.5 to 10mg dose arm to BAY1021189 1.25mg dose arm). In accordance with the specification in the protocol these secondary analyses are considered exploratory only, since the primary analyses were not significant.||4.63|-2.23|= 0.7546
82572835|NCT00267098|164855705|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.653|||||TWO_SIDED|95.0|-3.337|2.046||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in MR through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean MR change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Mitral Regurgitation (MR) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Mitral Regurgitation through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||2.046|-3.337|
82640259|NCT04957979|164995048|SUPERIORITY||Risk Difference (RD)|-3.4||||0.002|TWO_SIDED|95.0|-5.5|-1.4||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||-1.4|-5.5|0.002
82640260|NCT04957979|164995048|SUPERIORITY||Risk Difference (RD)|-2.4||||0.3|TWO_SIDED|95.0|-6.1|1.4||No adjustments for multiple comparisons. Two-sided alpha of 0.05 specified a-priori|Chi-squared||Positive values reflect higher percentage of responders in Medical/Nursing clinics as compared to Medical/Social.|||1.4|-6.1|0.3
82387530|NCT00529373|164485385|OTHER||Mean Difference (Final Values)|-29.43|||<|0.001|TWO_SIDED|95.0|-33.47|-25.39|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-25.39|-33.47|<0.001
82387531|NCT00529373|164485385|OTHER||Mean Difference (Final Values)|-25.94|||<|0.001|TWO_SIDED|95.0|-30.54|-21.34|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 12. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-21.34|-30.54|<0.001
82387532|NCT00529373|164485385|OTHER||Mean Difference (Final Values)|-16.26|||<|0.001|TWO_SIDED|95.0|-21.41|-11.12|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 24. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-11.12|-21.41|<0.001
82387533|NCT00529373|164485385|OTHER||Mean Difference (Final Values)|-12.11|||<|0.001|TWO_SIDED|95.0|-18.03|-6.19|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 36. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||-6.19|-18.03|<0.001
82387534|NCT00529373|164485385|OTHER||Mean Difference (Final Values)|-3.34||||0.61|TWO_SIDED|95.0|-16.12|9.45|||Longitudinal|||Odanacatib 50 mg OW - Placebo at Month 48. Longitudinal model includes terms for treatment, stratum, region and interaction between treatment and time as fixed effects (LS Means weighted for region and stratum size).||9.45|-16.12|0.610
82387535|NCT00529373|164485386|OTHER||Hazard Ratio (HR)|1.12||||0.182|TWO_SIDED|95.0|0.95|1.34|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.34|0.95|0.182
82387536|NCT00529373|164485387|OTHER||Hazard Ratio (HR)|1.18||||0.235|TWO_SIDED|95.0|0.9|1.55|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.55|0.9|0.235
82387537|NCT00529373|164485388|OTHER||Hazard Ratio (HR)|1.12||||0.127|TWO_SIDED|95.0|0.97|1.29|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.29|0.97|0.127
82387538|NCT00529373|164485389|OTHER||Hazard Ratio (HR)|1.06||||0.857|TWO_SIDED|95.0|0.59|1.89|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.89|0.59|0.857
82387539|NCT00529373|164485390|OTHER||Hazard Ratio (HR)|1.1||||0.606|TWO_SIDED|95.0|0.76|1.59|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.59|0.76|0.606
82387540|NCT00529373|164485391|OTHER||Hazard Ratio (HR)|1.25||||0.074|TWO_SIDED|95.0|0.98|1.6|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.6|0.98|0.074
82524620|NCT03183388|164745681|OTHER|Mixed model with time (baseline and endpoint) as within-subjects factor; compare Least Square (LS) estimate of endpoint minus baseline to zero. The best-fitting model was chosen based on information criteria.|Endpoint minus Baseline|-3.04|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-4.14|-1.93|||t-test, 2 sided|||||-1.93|-4.14|0.0001
82524621|NCT03183388|164745682|OTHER|Mixed model with time (baseline and midpoint) as within-subjects factor; compare LS estimate of midpoint minus baseline to zero.|Midpoint minus Baseline|-1.37|STANDARD_ERROR_OF_MEAN|2.51||0.6|TWO_SIDED|95.0|-6.97|4.23|||t-test, 2 sided|||||4.23|-6.97|0.60
82524622|NCT03183388|164745683|OTHER|Mixed model with time (baseline and endpoint) as within-subjects factor; compare LS estimate of endpoint minus baseline to zero.|Endpoint minus Baseline|0.11|STANDARD_ERROR_OF_MEAN|0.016||0.0001|TWO_SIDED|95.0|0.074|0.146|||t-test, 2 sided|||||0.146|0.074|0.0001
82577028|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5196|TWO_SIDED|95.0|-0.58|0.29|||MMRM|||Feelings of Guilt, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.58|0.5196
82640261|NCT04410991|164995083|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|0.996||||0.9758|TWO_SIDED|95.0|0.754|1.315||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Analysis was performed using negative binomial model with number of adjudicated relapses onset between randomization date and EOS date as the response variable, treatment group, Gadolinium (Gd)-enhancing T1 lesions at baseline (presence, absence), expanded disability status scale (EDSS) strata (\<4, \>=4) and geographic region (United States \[US\], non-US) as covariates, and log transformed observation duration as the offset variable.||1.315|0.754|0.9758
82640262|NCT04410991|164995084|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.582||||0.0114|TWO_SIDED|95.0|0.38|0.891||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||0.891|0.380|0.0114
82640263|NCT04410991|164995085|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.641||||0.0181|TWO_SIDED|95.0|0.444|0.925||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||0.925|0.444|0.0181
82640264|NCT04410991|164995086|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.165||||0.2362|TWO_SIDED|95.0|0.905|1.502|||Chi-squared|||Analysis was performed using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, baseline T2-hyperintense lesion count, EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed observation duration as the offset variable.||1.502|0.905|0.2362
82387541|NCT00529373|164485392|OTHER||Hazard Ratio (HR)|1.12||||0.127|TWO_SIDED|95.0|0.97|1.29|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.29|0.97|0.127
82524623|NCT03183388|164745684|OTHER|Mixed model with time (baseline and midpoint) as within-subjects factor; compare LS estimate of midpoint minus baseline to zero.|Midpoint minus Baseline|0.031|STANDARD_ERROR_OF_MEAN|0.055||0.58|TWO_SIDED|95.0|-0.095|0.157|||t-test, 2 sided|||||0.157|-0.095|0.58
82387542|NCT00529373|164485393|OTHER||Hazard Ratio (HR)|1.16||||0.277|TWO_SIDED|95.0|0.89|1.52|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.52|0.89|0.277
82524624|NCT00847405|164745719|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.64||||||90.0|95.93|111.97|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111.97|95.93|
82524625|NCT00847405|164745720|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.81||||||90.0|97.95|107.91|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.91|97.95|
82524626|NCT00847405|164745721|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.25||||||90.0|98.35|108.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.41|98.35|
82524627|NCT00514683|164745749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.052||0.853|TWO_SIDED|95.0|-0.086|0.118||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.118|-0.086|0.8530
82524628|NCT00514683|164745749|SUPERIORITY_OR_OTHER|||||||0.7558||||||The p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.7558
82524629|NCT00514683|164745749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.792|TWO_SIDED|95.0|-0.119|0.08||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.080|-0.119|0.7920
82524630|NCT00514683|164745749|SUPERIORITY_OR_OTHER|||||||0.6991||||||The p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.6991
82387543|NCT00529373|164485394|OTHER||Hazard Ratio (HR)|0.82||||0.256|TWO_SIDED|95.0|0.58|1.15|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.15|0.58|0.256
82640265|NCT04410991|164995087|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|2.118|||<|0.0001|TWO_SIDED|95.0|1.502|2.987|||Chi-squared|||Analysis was performed using negative binomial model with the number of new Gd-enhancing T1-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed number of MRI scans as the offset variable.||2.987|1.502|<0.0001
82387544|NCT00529373|164485395|OTHER||Hazard Ratio (HR)|0.86||||0.794|TWO_SIDED|95.0|0.29|2.57|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.57|0.29|0.794
82640266|NCT04410991|164995088|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Least square (LS) mean difference|-0.053||||0.31|TWO_SIDED|95.0|-0.156|0.05|||MMRM|||Covariates in the mixed-effect model with repeated measures (MMRM) were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||0.050|-0.156|0.3100
82640267|NCT04410991|164995089|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|-0.612||||0.5235|TWO_SIDED|95.0|-2.493|1.269|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||1.269|-2.493|0.5235
82640268|NCT04410991|164995090|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|1.652||||0.0079|TWO_SIDED|95.0|1.145|2.383||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||2.383|1.145|0.0079
82524631|NCT00514683|164745749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.051||0.853|TWO_SIDED|95.0|-0.071|0.128||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.128|-0.071|0.8530
82640269|NCT04410991|164995091|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|0.044||||0.4266|TWO_SIDED|95.0|-0.065|0.153|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.153|-0.065|0.4266
82640270|NCT01195662|164995104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28|STANDARD_ERROR_OF_MEAN|1.1485||0.0002|TWO_SIDED|95.0|-6.54|-2.02||Endpoint was tested at alpha=0.05. Hierarchical closed testing procedure used.|Longitudinal repeated measures|Data from all weeks during the double-blind treatment period were included.||Longitudinal repeated measures analysis using 'direct likelihood', with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata, as well as continuous fixed covariates of baseline SBP value and baseline SBP value-by-week interaction. Unstructured matrix for within-subject error variance-covariance used. 80% power to detect a difference of 4 mmHg in mean change from baseline, 75% power to meet both co-primary endpoints with overall Type I error.||-2.02|-6.54|0.0002
82387545|NCT00529373|164485396|OTHER||Hazard Ratio (HR)|1.32||||0.034|TWO_SIDED|95.0|1.02|1.7|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.7|1.02|0.034
82387546|NCT00529373|164485397|OTHER||Hazard Ratio (HR)|1.91||||0.081|TWO_SIDED|95.0|0.93|3.97|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||3.97|0.93|0.081
82387547|NCT00529373|164485398|OTHER||Difference in Least Squares Means|1.47|||<|0.001|TWO_SIDED|95.0|0.92|2.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.01|0.92|<0.001
82524632|NCT00514683|164745749|SUPERIORITY_OR_OTHER|||||||0.5736||||||Additionally the p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.5736
82647769|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.66|-0.35||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.35|-0.66|<0.001
82387548|NCT00529373|164485398|OTHER||Difference in Least Squares Means|2.21|||<|0.001|TWO_SIDED|95.0|2.05|2.37|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.37|2.05|<0.001
82387549|NCT00529373|164485398|OTHER||Difference in Least Squares Means|4.39|||<|0.001|TWO_SIDED|95.0|4.2|4.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.57|4.20|<0.001
82387550|NCT00529373|164485398|OTHER||Difference in Least Squares Means|6.5|||<|0.001|TWO_SIDED|95.0|6.28|6.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.72|6.28|<0.001
82387551|NCT00529373|164485398|OTHER||Difference in Least Squares Means|8.29|||<|0.001|TWO_SIDED|95.0|8.02|8.57|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.57|8.02|<0.001
82387552|NCT00529373|164485398|OTHER||Difference in Least Squares Means|10.05|||<|0.001|TWO_SIDED|95.0|9.72|10.38|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.38|9.72|<0.001
82387553|NCT00529373|164485399|OTHER||Difference in Least Squares Means|1.1|||<|0.001|TWO_SIDED|95.0|0.66|1.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.54|0.66|<0.001
82443649|NCT01751776|164595905|SUPERIORITY_OR_OTHER_LEGACY||risk difference, unadjusted|4.5||||0.3938|TWO_SIDED|95.0|-18.4|22.3|||one-sided exact test (see description)|one-sided exact test for superiority testing.|The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||22.3|-18.4|0.3938
82443650|NCT01751776|164595905|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|4.0|||||TWO_SIDED|95.0|-18.9|21.1|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-TNF history|adjusted||21.1|-18.9|
82387554|NCT00529373|164485399|OTHER||Difference in Least Squares Means|1.36|||<|0.001|TWO_SIDED|95.0|0.87|1.85|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.85|0.87|<0.001
82387555|NCT00529373|164485399|OTHER||Difference in Least Squares Means|1.96|||<|0.001|TWO_SIDED|95.0|1.42|2.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.50|1.42|<0.001
82387556|NCT00529373|164485399|OTHER||Difference in Least Squares Means|2.18|||<|0.001|TWO_SIDED|95.0|1.4|2.96|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.96|1.40|<0.001
82387557|NCT00529373|164485399|OTHER||Difference in Least Squares Means|2.33||||0.001|TWO_SIDED|95.0|1.54|3.11|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.11|1.54|0.001
82387558|NCT00529373|164485400|OTHER||Hazard Ratio (HR)|0.33|||<|0.001|TWO_SIDED|95.0|0.24|0.45|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. the Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.45|0.24|<0.001
82443651|NCT01751776|164595908|SUPERIORITY_OR_OTHER_LEGACY||Risk difference|6.8|||||TWO_SIDED|95.0|-17.6|32.7|||||The exact 95% confidence interval was calculated by Clopper and Pearson.|unadjusted||32.7|-17.6|
82443652|NCT01751776|164595908|SUPERIORITY_OR_OTHER_LEGACY||risk difference, adjusted|8.9|||||TWO_SIDED|95.0|-15.9|34.2|||||The 95 % confidence interval was determined by root method to determine the cumulative distribution function. Adjusted for treatment, region and anti-TNF history|adjusted||34.2|-15.9|
82443653|NCT01751776|164595909|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean|-0.14|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|95.0|-0.67|0.39|||||difference calculated as BI 655064 120mg minus placebo. The ANCOVA model was used. In this model the mean was adjusted for region, anti-TNF history and baseline DAS28-CRP.|difference calculated as BI 655064 120mg minus placebo.||0.39|-0.67|
82443654|NCT01122108|164595917|SUPERIORITY_OR_OTHER||||||<|0.05||||||If a sequence was not found to be statistically significant, then that term was removed from final model. Normality of residuals was investigated for each outcome variable using the Shapiro-Wilk test.|repeated measures analysis of variance|Sensitivity analyses were run to evaluate possible product by sequence interactions||"The BASA scale was previously developed to effectively compare differing Bile acid sequestrant forumulations. The BASA scale should differentiate subject acceptability of Colesevelam HCl 3.75 vs Cholestyramine 12g based upon the sum of ratings for taste, texture, appearance and mixability.~If normality hypothesis was rejected, then further inspection of the distribution utilizing normal quantile-quantile and kernel density plots was employed."||||<0.05
82443655|NCT01307462|164595957|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based physical functioning score||||.81
82443656|NCT01307462|164595957|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based role-physical score||||.18
82443657|NCT01307462|164595957|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based bodily pain score||||.48
82443658|NCT01307462|164595957|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based general health score||||.26
82443659|NCT01307462|164595957|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based vitality score||||.23
82524633|NCT00514683|164745749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.053||0.0639|TWO_SIDED|95.0|0.027|0.235||The p-value presented is computed in the course of the closing testing procedure.|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.235|0.027|0.0639
82524634|NCT00514683|164745749|SUPERIORITY_OR_OTHER|||||||0.0136||||||Additionally the p-value from the hierarchical testing procedure was calculated as a sensitivity analysis|Mixed Models Analysis|MMRM with fixed terms for treatment\*time, gender\*height, gender\*age and random terms for patient effect, patient\*time.||||||0.0136
82577029|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.234||0.0772|TWO_SIDED|95.0|-0.88|0.05|||MMRM|||Feelings of Guilt, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.88|0.0772
82443660|NCT01307462|164595957|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based social functioning score||||.36
82443661|NCT01307462|164595957|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based role-emotional score||||.41
82443662|NCT01307462|164595957|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||SF-36 norm-based mental health score||||.80
82443663|NCT01307462|164595957|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||SF-36 standardized physical component score||||.80
82443664|NCT01307462|164595957|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||SF-36 standardized mental component score||||.23
82443665|NCT01307462|164595958|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||FACT physical well-being||||0.28
82443666|NCT01307462|164595958|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||FACT social/family well-being||||0.1
82524635|NCT00514683|164745750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.43|STANDARD_ERROR_OF_MEAN|1.312||0.2774|TWO_SIDED|95.0|-1.15|4.01|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.01|-1.15|0.2774
82524636|NCT00514683|164745750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|1.312||0.4014|TWO_SIDED|95.0|-1.48|3.68|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.68|-1.48|0.4014
82443667|NCT01307462|164595958|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||FACT emotional well-being||||0.63
82443668|NCT01307462|164595958|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||FACT functional well-being||||0.78
82443669|NCT01307462|164595958|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||FACT BMT subscale||||.84
82443670|NCT01307462|164595958|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||FACT trial outcome index||||.37
82443671|NCT01307462|164595958|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||FACT-G||||.71
82443672|NCT01307462|164595958|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||FACT-BMT total||||.54
82443673|NCT01307462|164595959|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||HAP maximum activity score - highest item still doing||||.37
82443674|NCT01307462|164595959|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||HAP adjusted activity score - MAS minus stopped||||.39
82443675|NCT01307462|164595959|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Modified HAP adjusted activity score||||.39
82443676|NCT01307462|164595960|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Lee symptom skin scale||||.11
82443677|NCT01307462|164595960|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Lee symptom energy scale||||.007
82443678|NCT01307462|164595960|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Lee symptom lung scale||||.20
82443679|NCT01307462|164595960|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Lee symptom eye scale||||.002
82443680|NCT01307462|164595960|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Lee symptom nutrition scale||||.52
82524637|NCT00514683|164745750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|1.324||0.0314|TWO_SIDED|95.0|0.26|5.46|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.46|0.26|0.0314
82524638|NCT00514683|164745750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|1.319||0.0002|TWO_SIDED|95.0|2.37|7.56|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.56|2.37|0.0002
82524639|NCT00514683|164745751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.046||0.3644|TWO_SIDED|95.0|-0.05|0.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.13|-0.05|0.3644
82524640|NCT00514683|164745751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.046||0.4525|TWO_SIDED|95.0|-0.06|0.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.13|-0.06|0.4525
82524641|NCT00514683|164745751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.046||0.0471|TWO_SIDED|95.0|0.0|0.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.18|0.00|0.0471
82524642|NCT00514683|164745751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.046||0.0004|TWO_SIDED|95.0|0.08|0.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.26|0.08|0.0004
82524643|NCT00514683|164745752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|1.702||0.592|TWO_SIDED|95.0|-2.43|4.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.26|-2.43|0.5920
82524644|NCT00514683|164745752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.702||0.6155|TWO_SIDED|95.0|-2.49|4.2|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.20|-2.49|0.6155
82577030|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.228||0.661|TWO_SIDED|95.0|-0.55|0.35|||MMRM|||Feelings of Guilt, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.55|0.6610
82647770|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.72|-0.41||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.41|-0.72|<0.001
82387559|NCT00529373|164485401|OTHER||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.6|0.75|||Regression, Cox|||Odanacatib 50 mg OW vs Placebo. The Cox proportional hazards model included terms for treatment, stratum and geographic region.||0.75|0.60|<0.001
82524645|NCT00514683|164745752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.81|STANDARD_ERROR_OF_MEAN|1.716||0.0271|TWO_SIDED|95.0|0.43|7.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.18|0.43|0.0271
82524646|NCT00514683|164745752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.47|STANDARD_ERROR_OF_MEAN|1.71||0.0015|TWO_SIDED|95.0|2.11|8.83|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||8.83|2.11|0.0015
82524647|NCT00514683|164745753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|1.692||0.5601|TWO_SIDED|95.0|-2.34|4.31||ANCOVA with fixed terms for treatment, baseline, region.|ANCOVA||Mean difference to placebo is calculated. Negative change indicates worsening.|||4.31|-2.34|0.5601
82524648|NCT00514683|164745753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.694||0.6366|TWO_SIDED|95.0|-2.53|4.13|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.13|-2.53|0.6366
82524649|NCT00514683|164745753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|STANDARD_ERROR_OF_MEAN|1.702||0.0246|TWO_SIDED|95.0|0.49|7.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||7.18|0.49|0.0246
82524650|NCT00514683|164745753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.44|STANDARD_ERROR_OF_MEAN|1.7||0.0015|TWO_SIDED|95.0|2.1|8.78|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||8.78|2.10|0.0015
82524651|NCT00514683|164745754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.911||||0.7543|TWO_SIDED|95.0|0.506|1.637|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.637|0.506|0.7543
82524652|NCT00514683|164745754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.6704|TWO_SIDED|95.0|0.631|2.045|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.045|0.631|0.6704
82524653|NCT00514683|164745754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.657||||0.1649|TWO_SIDED|95.0|0.363|1.189|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.189|0.363|0.1649
82524654|NCT00514683|164745754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.415||||0.0041|TWO_SIDED|95.0|0.227|0.757|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||0.757|0.227|0.0041
82387560|NCT00529373|164485402|OTHER||Difference in Least Squares Means|1.34|||<|0.001|TWO_SIDED|95.0|0.94|1.74|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||1.74|0.94|<0.001
82524655|NCT00514683|164745755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.278||||0.5882|TWO_SIDED|95.0|0.526|3.102|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||3.102|0.526|0.5882
82387561|NCT00529373|164485402|OTHER||Difference in Least Squares Means|2.5|||<|0.001|TWO_SIDED|95.0|2.38|2.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.62|2.38|<0.001
82443681|NCT01307462|164595960|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Lee symptom psychological scale||||.22
82443682|NCT01307462|164595960|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Lee symptom mouth scale||||.002
82524656|NCT00514683|164745755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.0653|TWO_SIDED|95.0|0.078|1.081|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.081|0.078|0.0653
82572836|NCT00267098|164855706|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.08|||||TWO_SIDED|95.0|-0.031|0.195||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||0.195|-0.031|
82572837|NCT00267098|164855707|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.086|||||TWO_SIDED|95.0|-0.022|0.198||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||0.198|-0.022|
82647771|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.041|TWO_SIDED|95.0|-0.32|-0.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.01|-0.32|0.041
82387562|NCT00529373|164485402|OTHER||Difference in Least Squares Means|4.47|||<|0.001|TWO_SIDED|95.0|4.31|4.62|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.62|4.31|<0.001
82387563|NCT00529373|164485402|OTHER||Difference in Least Squares Means|6.46|||<|0.001|TWO_SIDED|95.0|6.26|6.65|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.65|6.26|<0.001
82443683|NCT01307462|164595960|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Lee symptom overall summary scale||||<0.001
82443684|NCT03875664|164595974|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82443685|NCT05065190|164595981|OTHER||Adjusted difference|106.57|STANDARD_ERROR_OF_MEAN|76.84|||TWO_SIDED|95.0|-47.13|260.28|||||Adjusted difference between treatment groups was based on a random slope and intercept model with fixed effects for treatment, HRCT pattern, and baseline FVC \[mL\], and including treatment-by-time and baseline-by-time interactions.|||260.28|-47.13|
82524657|NCT00514683|164745755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.0847|TWO_SIDED|95.0|0.106|1.154|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.154|0.106|0.0847
82387564|NCT00529373|164485402|OTHER||Difference in Least Squares Means|8.48|||<|0.001|TWO_SIDED|95.0|8.24|8.73|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||8.73|8.24|<0.001
82443686|NCT03323736|164595994|SUPERIORITY|The Procedural Success endpoint would be successfully met if the lower bound of the 95% Credible Interval (lower limit 0.80) exceeded the 68% success rate performance goal.|Credible Interval|0.86|||||TWO_SIDED|95.0|0.8|0.91||||||Procedural success rate was compared to the performance goal of 68% using a Bayesian Hierarchical model.||0.91|0.80|
82524658|NCT00514683|164745755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732||||0.5383|TWO_SIDED|95.0|0.271|1.977|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.977|0.271|0.5383
82387565|NCT00529373|164485402|OTHER||Difference in Least Squares Means|10.29|||<|0.001|TWO_SIDED|95.0|9.99|10.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||10.59|9.99|<0.001
82387566|NCT00529373|164485403|OTHER||Difference in Least Squares Means|1.74|||<|0.001|TWO_SIDED|95.0|1.06|2.42|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||2.42|1.06|<0.001
82387567|NCT00529373|164485403|OTHER||Difference in Least Squares Means|3.5|||<|0.001|TWO_SIDED|95.0|3.31|3.7|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.70|3.31|<0.001
82524659|NCT00514683|164745756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.483||0.3658|TWO_SIDED|95.0|-0.51|1.39|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.39|-0.51|0.3658
82524660|NCT00514683|164745756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.478||0.4956|TWO_SIDED|95.0|-0.61|1.27|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.27|-0.61|0.4956
82524661|NCT00514683|164745756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.482||0.0051|TWO_SIDED|95.0|0.41|2.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.31|0.41|0.0051
82387568|NCT00529373|164485403|OTHER||Difference in Least Squares Means|6.41|||<|0.001|TWO_SIDED|95.0|6.16|6.65|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 24||6.65|6.16|<0.001
82387569|NCT00529373|164485403|OTHER||Difference in Least Squares Means|9.25|||<|0.001|TWO_SIDED|95.0|8.95|9.54|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.54|8.95|<0.001
82443687|NCT03323736|164595994|SUPERIORITY|The Procedural Success endpoint would be successfully met if the lower bound of the 95% Credible Interval (lower limit 0.82) exceeded the 68% success rate performance goal.|Credible Interval|0.89|||||TWO_SIDED|95.0|0.82|0.93||||||Procedural success rate was compared to the performance goal of 68% using a Bayesian Hierarchical model.||0.93|0.82|
82524662|NCT00514683|164745756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.483||0.0211|TWO_SIDED|95.0|0.17|2.07|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.07|0.17|0.0211
82577031|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.239||0.4007|TWO_SIDED|95.0|-0.67|0.27|||MMRM|||Feelings of Guilt, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.67|0.4007
82387570|NCT00529373|164485403|OTHER||Difference in Least Squares Means|12.14|||<|0.001|TWO_SIDED|95.0|11.76|12.51|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||12.51|11.76|<0.001
82524663|NCT00514683|164745757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.428||||0.1021|TWO_SIDED|95.0|0.155|1.184|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.184|0.155|0.1021
82640271|NCT01195662|164995105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.0773|<|0.0001|TWO_SIDED|95.0|-0.76|-0.46|||Longitudinal repeated measures|Endpoint was tested at alpha=0.05. Hierarchical closed testing procedure was used.||A longitudinal repeated measures analysis used, with fixed categorical effects of treatment, week, treatment-by-week interaction, and randomization strata, continuous fixed covariates of baseline HbA1c value and baseline HbA1c value-by-week interaction. Only data up to Week 12 included. All data used in the model even if participants discontinued prior to Week 12. A heirarchical closed testing procedure (sequential) was used and testing performed since first primary endpoint was significant.||-0.46|-0.76|<0.0001
82640272|NCT01195662|164995106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.45|STANDARD_ERROR_OF_MEAN|1.368||0.0012|TWO_SIDED|95.0|-7.14|-1.76||Endpoint tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||ANCOVA model with treatment group as an effect and baseline value and randomization strata as a covariate was used. By applying sequential testing procedure, the testing was performed since the prior endpoint was significant.||-1.76|-7.14|0.0012
82640273|NCT01195662|164995107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.69||0.1619|TWO_SIDED|95.0|-2.32|0.39||Endpoint tested following a sequential testing procedure at alpha=0.05.|Longitudinal repeated measures|||Longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by week interaction, and randomization strata and continuous fixed covariates of baseline seated diastolic BP value and baseline seated diastolic BP value by week interaction.||0.39|-2.32|0.1619
82640274|NCT01195662|164995108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|0.8635|||TWO_SIDED|95.0|-3.68|-0.29|||ANCOVA|||ANCOVA model with treatment group as an effect and baseline value and randomization strata as a covariate. A hierarchical closed testing procedure was implemented to control the family-wise type I error rate related to the co-primary and secondary endpoints at the 2-sided 0.05 level. Statistical testing of this endpoint was not performed since the prior secondary endpoint was not statistically significant.||-0.29|-3.68|
82640275|NCT01195662|164995109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.0858|||TWO_SIDED|95.0|-0.57|-0.23|||lLongitudinal repeated measures|||Longitudinal repeated measures analysis using direct likelihood with fixed categorical effects of treatment, week, treatment-by week interaction, and randomization strata and continuous fixed covariates of baseline serum uric acid value and baseline seated serum uric acid value by week interaction. By applying sequential testing procedure at alpha=0.05, no testing was performed since the prior secondary endpoint was not significant.||-0.23|-0.57|
82640276|NCT05966129|164995141|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.7957|TWO_SIDED|95.0|-18.3|23.8|||t-test, 2 sided||||Confidence Interval Width = 42.1|23.8|-18.3|0.7957
82640277|NCT05966129|164995142|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8255|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided||||Confidence Interval Width = 0.9|0.5|-0.4|0.8255
82640278|NCT05966129|164995143|SUPERIORITY|||||||0.9054|||||||Wilcoxon (Mann-Whitney)|||||||0.9054
82640279|NCT05966129|164995144|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.248|TWO_SIDED|95.0|-1.9|0.5|||t-test, 2 sided||||Confidence Interval Width = 2.4|0.5|-1.9|0.248
82640280|NCT05966129|164995145|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.6012|TWO_SIDED|95.0|-2.7|4.7|||t-test, 2 sided||||Confidence Interval Width = 7.4|4.7|-2.7|0.6012
82425727|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.090
82524664|NCT00514683|164745757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.682||||0.4318|TWO_SIDED|95.0|0.262|1.773|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.773|0.262|0.4318
82640281|NCT05966129|164995146|SUPERIORITY|||||||0.7528|||||||Chi-squared|||||||0.7528
82640282|NCT05966129|164995147|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82640283|NCT01298323|164995148|SUPERIORITY_OR_OTHER_LEGACY||t-Statistic|1.29||||0.199|TWO_SIDED|95.0|-3.44|16.37||Statistical significance threshold at this analysis was 10%|t-test, 2 sided|||||16.37|-3.44|0.199
82640284|NCT00863265|164995149|EQUIVALENCE||Mean Difference (Final Values)|289.0||||0.01|TWO_SIDED||||||ANOVA||The estimation parameter is the difference between the placebo group and the ezetimibe group.|Phytosterol Diet compared to Ezetimibe||||0.01
82640285|NCT00863265|164995149|EQUIVALENCE|The hypothesis is that groups are equal.|Mean Difference (Final Values)|457.0|||<|0.01|TWO_SIDED||||||ANOVA|||Placebo vs. Ezetimibe Plus Phytosterols||||<0.01
82640286|NCT00863265|164995149|EQUIVALENCE|The hypothesis is that groups are equal|Mean Difference (Final Values)|168.0|||<|0.01|TWO_SIDED||||||ANOVA|||Ezetimibe vs. Ezetimibe Plus Phytosterols||||<0.01
82640287|NCT00863265|164995150|EQUIVALENCE|Not applicable in this study.|Mean Difference (Final Values)|22.8|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal||||<0.01
82640288|NCT00863265|164995150|EQUIVALENCE||Mean Difference (Final Values)|36.4|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||Placebo vs. Ezetimibe Plus Phytosterols||||<0.01
82387571|NCT00529373|164485403|OTHER||Difference in Least Squares Means|14.56|||<|0.001|TWO_SIDED|95.0|14.11|15.01|||Longitudinal model|Includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size)||Odanacatib 50 mg OW - Placebo at Month 60. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||15.01|14.11|<0.001
82387572|NCT00529373|164485404|OTHER||Difference in Least Squares Means|2.9|||<|0.001|TWO_SIDED|95.0|2.4|3.39|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 6. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||3.39|2.40|<0.001
82387573|NCT00529373|164485404|OTHER||Difference in Least Squares Means|4.01|||<|0.001|TWO_SIDED|95.0|3.87|4.15|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 12. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||4.15|3.87|<0.001
82387574|NCT00529373|164485404|OTHER||Difference in Least Squares Means|5.93|||<|0.001|TWO_SIDED|95.0|5.75|6.11|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 24. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||6.11|5.75|<0.001
82387575|NCT00529373|164485404|OTHER||Difference in Least Squares Means|7.7|||<|0.001|TWO_SIDED|95.0|7.48|7.91|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 36. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||7.91|7.48|<0.001
82387576|NCT00529373|164485404|OTHER||Difference in Least Squares Means|9.34|||<|0.001|TWO_SIDED|95.0|9.08|9.61|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||9.61|9.08|<0.001
82640289|NCT00863265|164995150|EQUIVALENCE||Mean Difference (Final Values)|13.6|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal.||||<0.01
82387577|NCT00529373|164485404|OTHER||Difference in Least Squares Means|10.87|||<|0.001|TWO_SIDED|95.0|10.55|11.19|||Longitudinal model|||Odanacatib 50 mg OW - Placebo at Month 48. The longitudinal model includes terms for treatment, stratum, region \& interaction between treatment \& time as fixed effects (LS means weighted for region \& stratum size).||11.19|10.55|<0.001
82387578|NCT00529373|164485413|OTHER||Difference in Least Squares Means|2.76|||<|0.001|TWO_SIDED|95.0|1.43|4.1|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.10|1.43|<0.001
82387579|NCT00529373|164485414|OTHER||Difference in Least Squares Means|5.55|||<|0.001|TWO_SIDED|95.0|4.06|7.05|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||7.05|4.06|<0.001
82387580|NCT00529373|164485415|OTHER||Difference in Least Squares Means|2.79||||0.005|TWO_SIDED|95.0|0.86|4.72|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.72|0.86|0.005
82387581|NCT00529373|164485416|OTHER||Difference in Least Squares Means|3.63|||<|0.001|TWO_SIDED|95.0|2.35|4.9|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||4.90|2.35|<0.001
82443688|NCT03323736|164595995|SUPERIORITY|Comparison of mean tube placement FPS-R score to a performance goal of 4.2.||||||0.0072||||||Mean FPS-R score hypothesized to be less than (superior to) a performance goal of 4.2, at a significance level of 0.025 (p\<0.025).|t-test, 1 sided|||||||0.0072
82640290|NCT00863265|164995151|EQUIVALENCE||Mean Difference (Final Values)|21.0|||<|0.01|TWO_SIDED||||||ANOVA|||The hypothesis is that groups are equal.||||<0.01
82524665|NCT00514683|164745757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.412||||0.0934|TWO_SIDED|95.0|0.146|1.161|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.161|0.146|0.0934
82387582|NCT00529373|164485417|OTHER||Difference in Least Squares Means|5.65|||<|0.001|TWO_SIDED|95.0|3.79|7.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||7.50|3.79|<0.001
82524666|NCT00514683|164745757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.313||||0.0317|TWO_SIDED|95.0|0.108|0.903|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||0.903|0.108|0.0317
82524667|NCT00514683|164745758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|2.33||0.6443|TWO_SIDED|95.0|-5.66|3.51|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.51|-5.66|0.6443
82577032|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|0.232||0.2292|TWO_SIDED|95.0|-0.18|0.74|||MMRM|||Feelings of Guilt, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.74|-0.18|0.2292
82387583|NCT00529373|164485418|OTHER||Difference in Least Squares Means|-62.25|||<|0.001|TWO_SIDED|95.0|-79.99|-44.5|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-44.50|-79.99|<0.001
82387584|NCT00529373|164485419|OTHER||Difference in Least Squares Means|-26.7||||0.001|TWO_SIDED|95.0|-42.56|-10.83|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-10.83|-42.56|0.001
82387585|NCT00529373|164485420|OTHER||Difference in Least Squares Means|1.67||||0.016|TWO_SIDED|95.0|0.32|3.01|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||3.01|0.32|0.016
82387586|NCT00529373|164485421|OTHER||Difference in Least Squares Means|-25.02|||<|0.001|TWO_SIDED|95.0|-35.92|-14.12|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-14.12|-35.92|<0.001
82387587|NCT00529373|164485422|OTHER||Difference in Least Squares Means|-64.43|||<|0.001|TWO_SIDED|95.0|-87.8|-41.07|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||-41.07|-87.80|<0.001
82387588|NCT00529373|164485423|OTHER||Difference in Least Squares Means|8.53|||<|0.001|TWO_SIDED|95.0|5.79|11.28|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||11.28|5.79|<0.001
82443689|NCT03323736|164595996|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>80%, at alpha = 0.025.|mid-P method for single proportion|||Tube Patency endpoint would be successfully met if the percentage of subjects with patent tubes was greater than (superior to) 80% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
82387589|NCT00529373|164485424|OTHER||Difference in Least Squares Means|11.08|||<|0.001|TWO_SIDED|95.0|8.41|13.74|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||13.74|8.41|<0.001
82443690|NCT03323736|164595997|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>88%, at alpha = 0.025.|mid-P method for single proportion|||Tube Retention endpoint would be successfully met if the percentage of subjects with retained tubes was greater than (superior to) 88% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
82524668|NCT00514683|164745758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|2.28||0.5656|TWO_SIDED|95.0|-5.8|3.18|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||3.18|-5.80|0.5656
82387590|NCT00529373|164485425|OTHER||Difference in Least Squares Means|10.41|||<|0.001|TWO_SIDED|95.0|8.05|12.78|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||12.78|8.05|<0.001
82387591|NCT00529373|164485426|OTHER||Difference in Least Squares Means|9.98|||<|0.001|TWO_SIDED|95.0|6.91|13.06|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||13.06|6.91|<0.001
82387592|NCT00529373|164485427|OTHER||Difference in Least Squares Means|14.94|||<|0.001|TWO_SIDED|95.0|11.29|18.59|||Longitudinal model|||Odanacatib 50 mg OW - Placebo||18.59|11.29|<0.001
82387593|NCT00529373|164485428|OTHER||Hazard Ratio (HR)|0.79||||0.366|TWO_SIDED|95.0|0.47|1.33|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.33|0.47|0.366
82387594|NCT00529373|164485429|OTHER||Hazard Ratio (HR)|1.13||||0.246|TWO_SIDED|95.0|0.92|1.4|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.4|0.92|0.246
82387595|NCT00529373|164485430|OTHER||Hazard Ratio (HR)|0.8||||0.638|TWO_SIDED|95.0|0.32|2.03|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.03|0.32|0.638
82387596|NCT00529373|164485431|OTHER||Hazard Ratio (HR)|1.17||||0.029|TWO_SIDED|95.0|1.02|1.36|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.36|1.02|0.029
82387597|NCT00529373|164485432|OTHER||Hazard Ratio (HR)|1.05||||0.341|TWO_SIDED|95.0|0.95|1.17|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.17|0.95|0.341
82387598|NCT00529373|164485433|OTHER||Hazard Ratio (HR)|1.23||||0.198|TWO_SIDED|95.0|0.9|1.68|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.68|0.9|0.198
82387599|NCT00529373|164485434|OTHER||Hazard Ratio (HR)|0.94||||0.798|TWO_SIDED|95.0|0.7|1.26|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.26|0.7|0.798
82387600|NCT00529373|164485435|OTHER||Hazard Ratio (HR)|1.37||||0.005|TWO_SIDED|95.0|1.1|1.71|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.71|1.1|0.005
82443691|NCT03323736|164595998|SUPERIORITY||||||<|0.0001||||||Pre-specified threshold for superiority was \>85%, at alpha = 0.025.|mid-P method for single proportion|||The Anesthesia Effectiveness endpoint would be successfully met if the percentage of subjects with successful anesthesia was greater than (superior to) 85% (by subject), at a significance level of 0.025 (p\<0.025).||||<0.0001
82387601|NCT00529373|164485436|OTHER||Hazard Ratio (HR)|1.22||||0.059|TWO_SIDED|95.0|0.99|1.5|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.5|0.99|0.059
82387602|NCT00529373|164485437|OTHER||Hazard Ratio (HR)|1.61||||0.114|TWO_SIDED|95.0|0.89|2.9|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||2.9|0.89|0.114
82387603|NCT00529373|164485438|OTHER||Hazard Ratio (HR)|1.14||||0.159|TWO_SIDED|95.0|0.99|1.31|||Regression, Cox|No adjustments for multiplicity were applied; p-value is unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.31|0.99|0.159
82387604|NCT00529373|164485439|OTHER||Hazard Ratio (HR)|1.17||||0.178|TWO_SIDED|95.0|0.93|1.46|||Regression, Cox|No adjustments for multiplicity were applied; all p-values reported were unadjusted and therefore considered nominal.||Odanacatib 50 mg OW - Placebo||1.46|0.93|0.178
82387605|NCT00529373|164485440|OTHER|Miettinen \& Nurminen|Difference in rates|0.04|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
82387606|NCT00529373|164485441|OTHER|Miettinen \& Nurminen|Difference in rates|0.02|||||TWO_SIDED|95.0|0.01|0.05||||||||0.05|0.01|
82387607|NCT00529373|164485442|OTHER|Miettinen \& Nurminen|Difference in rates|0.06|||||TWO_SIDED|95.0|0.03|0.11||||||||0.11|0.03|
82387608|NCT00529373|164485443|OTHER|Miettinen \& Nurminen|Difference in rates|0.03|||||TWO_SIDED|95.0|0.02|0.06||||||||0.06|0.02|
82577033|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.234||0.054|TWO_SIDED|95.0|-0.92|0.01|||MMRM|||Feelings of Guilt, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.92|0.0540
82387609|NCT03771560|164485485|OTHER||Mean Difference (Final Values)|-2.4||||0.56|TWO_SIDED|95.0|-11.3|6.4|||Paired Sample t-test|||The parent-reported change in mean ABC total score from baseline to week 12.||6.4|-11.3|0.56
82387610|NCT03771560|164485486|OTHER||Mean Difference (Final Values)|1.2||||0.68|TWO_SIDED|95.0|-5.2|7.6|||Paired Sample t-test|||The teacher-reported change in mean ABC total score from baseline to week 12.||7.6|-5.2|0.68
82387611|NCT03771560|164485487|OTHER||Mean Difference (Final Values)|-7.8||||0.095|TWO_SIDED|95.0|-17.3|1.6|||Paired Sample t-test|||The parent-reported change in mean SRS total score from baseline to week 12.||1.6|-17.3|0.095
82387612|NCT03771560|164485488|OTHER||Median Difference (Final Values)|-0.5||||0.95|TWO_SIDED|95.0|-7.0|13.5|||Wilcoxon (Mann-Whitney)|||The teacher-reported change in mean SRS total score from baseline to week 12.||13.5|-7.0|0.95
82443692|NCT05160766|164596003|OTHER||Difference of means in percent|12.557|STANDARD_ERROR_OF_MEAN|5.661||0.03143|TWO_SIDED|95.0|1.168|23.946|||ANCOVA|||The statistical analysis reflects Part A of the study.||23.946|1.168|0.03143
82443693|NCT05160766|164596003|OTHER||Difference of means in percent|4.331|STANDARD_ERROR_OF_MEAN|1.671||0.0101|TWO_SIDED|95.0|1.04|7.621|||ANCOVA|||This statistical analysis reflects Part B of the study.||7.621|1.04|0.0101
82387613|NCT03771560|164485489|OTHER||Mean Difference (Final Values)|-0.8||||0.69|TWO_SIDED|95.0|-5.2|3.5|||Paired Sample t-test|||The parent-reported change in mean PedsQL total score from baseline to week 12.||3.5|-5.2|0.69
82524669|NCT00514683|164745758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|2.24||0.9181|TWO_SIDED|95.0|-4.18|4.64|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.64|-4.18|0.9181
82524670|NCT00514683|164745758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|2.387||0.697|TWO_SIDED|95.0|-3.77|5.63|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.63|-3.77|0.6970
82524671|NCT00514683|164745759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|2.49||0.9811|TWO_SIDED|95.0|-4.84|4.96|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||4.96|-4.84|0.9811
82524672|NCT00514683|164745759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|2.412||0.6772|TWO_SIDED|95.0|-3.74|5.75|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.75|-3.74|0.6772
82524673|NCT00514683|164745759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|2.379||0.8631|TWO_SIDED|95.0|-4.27|5.09|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||5.09|-4.27|0.8631
82572838|NCT00267098|164855708|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.081|||||TWO_SIDED|95.0|-0.218|0.058||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||0.058|-0.218|
82577034|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.227||0.959|TWO_SIDED|95.0|-0.44|0.46|||MMRM|||Feelings of Guilt, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.44|0.9590
82443694|NCT05160766|164596004|OTHER||Difference of means in percent|12.168|STANDARD_ERROR_OF_MEAN|5.88||0.04405|TWO_SIDED|95.0|0.338|23.998|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|23.998|0.338|0.04405
82443695|NCT05160766|164596004|OTHER||Difference of means in percent|14.212|STANDARD_ERROR_OF_MEAN|5.767||0.01744|TWO_SIDED|95.0|2.61|25.814|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.351 (beta)."|25.814|2.61|0.01744
82443696|NCT05160766|164596004|OTHER||Difference of means in percent|14.239|STANDARD_ERROR_OF_MEAN|5.932||0.02039|TWO_SIDED|95.0|2.305|26.173|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.1 (gamma)."|26.173|2.305|0.02039
82443697|NCT05160766|164596004|OTHER||Difference of means in percent|9.331|STANDARD_ERROR_OF_MEAN|4.636||0.04989|TWO_SIDED|95.0|0.005|18.656|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.1 (omicron)."|18.656|0.005|0.04989
82524674|NCT00514683|164745759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|STANDARD_ERROR_OF_MEAN|2.523||0.5942|TWO_SIDED|95.0|-3.62|6.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||6.31|-3.62|0.5942
82524675|NCT00514683|164745760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.715||0.2716|TWO_SIDED|95.0|-0.62|2.19|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||2.19|-0.62|0.2716
82524676|NCT00514683|164745760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.696||0.7871|TWO_SIDED|95.0|-1.18|1.56|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.56|-1.18|0.7871
82640291|NCT00863265|164995151|EQUIVALENCE||Mean Difference (Final Values)|28.0|||<|0.01|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that all groups are equal||||<0.01
82524677|NCT00514683|164745760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.685||0.8721|TWO_SIDED|95.0|-1.46|1.24|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.24|-1.46|0.8721
82524678|NCT00514683|164745760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.734||0.8523|TWO_SIDED|95.0|-1.58|1.31|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||1.31|-1.58|0.8523
82524679|NCT00514683|164745761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.093||||0.7997|TWO_SIDED|95.0|0.549|2.175|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.175|0.549|0.7997
82387614|NCT01031680|164485499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.0473|<|0.0001|TWO_SIDED|95.0|-0.56|-0.37||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group and stratum as effects and baseline value as covariate for each endpoint|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.37|-0.56|<0.0001
82387615|NCT01031680|164485500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.9|||<|0.0001|TWO_SIDED|95.0|7.0|12.9||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Cochran-Mantel-Haenszel|with age-by-insulin use-by-time from most recent qualifying CV event as stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||12.9|7.0|<0.0001
82387616|NCT01031680|164485501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.7898||0.0126|TWO_SIDED|95.0|-3.52|-0.42||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.42|-3.52|0.0126
82425728|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.262
82425729|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82524680|NCT00514683|164745761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.916||||0.7989|TWO_SIDED|95.0|0.467|1.797|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.797|0.467|0.7989
82524681|NCT00514683|164745761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4596|TWO_SIDED|95.0|0.403|1.508|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.508|0.403|0.4596
82524682|NCT00514683|164745761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.665||||0.2548|TWO_SIDED|95.0|0.33|1.341|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.341|0.330|0.2548
82524683|NCT00514683|164745762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.051||||0.8887|TWO_SIDED|95.0|0.521|2.122|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.122|0.521|0.8887
82524684|NCT00514683|164745762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.216||||0.5758|TWO_SIDED|95.0|0.613|2.41|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.410|0.613|0.5758
82524685|NCT00514683|164745762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.993||||0.9829|TWO_SIDED|95.0|0.506|1.949|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.949|0.506|0.9829
82387617|NCT01031680|164485502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.27|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001||95.0|-2.64|-1.89||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.89|-2.64|<0.0001
82387618|NCT01031680|164485503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.8203||0.0174|TWO_SIDED|95.0|-3.56|-0.34||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.34|-3.56|0.0174
82524686|NCT00514683|164745762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.972||||0.9375|TWO_SIDED|95.0|0.476|1.985|||Regression, Logistic|Logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.985|0.476|0.9375
82524687|NCT00514683|164745763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.1456||0.4998|TWO_SIDED|95.0|-0.188|0.385|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.385|-0.188|0.4998
82524688|NCT00514683|164745763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.155|STANDARD_ERROR_OF_MEAN|0.1399||0.2679|TWO_SIDED|95.0|-0.43|0.12|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.120|-0.430|0.2679
82640292|NCT00863265|164995151|EQUIVALENCE||Mean Difference (Final Values)|7.0|||<|0.05|TWO_SIDED|||||Adjusted for multiple comparisons.|ANOVA|||The hypothesis is that groups are equal.||||<0.05
82524689|NCT00514683|164745763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5678|TWO_SIDED|95.0|-0.355|0.195|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.195|-0.355|0.5678
82524690|NCT00514683|164745763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.1448||0.4053|TWO_SIDED|95.0|-0.406|0.164|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.164|-0.406|0.4053
82524691|NCT00514683|164745764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.892||||0.7307|TWO_SIDED|95.0|0.465|1.71|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.710|0.465|0.7307
82524692|NCT00514683|164745764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.317||||0.3869|TWO_SIDED|95.0|0.706|2.458|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||2.458|0.706|0.3869
82640293|NCT00594568|164995229|SUPERIORITY_OR_OTHER|||||||0.134||95.0|||||Mixed Models Analysis|||||||0.134
82387619|NCT01031680|164485504|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|2.126|<|0.0001|TWO_SIDED|95.0|8.3|16.6||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum (gender)||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||16.6|8.3|<0.0001
82387620|NCT02702388|164485516|NON_INFERIORITY|Odds ratio of ORR as of Week 24 response (18 mg vs 24 mg) along with its 95% confidence interval (CI) using the Cochran-Mantel-Haenszel (CMH) method, stratified by the randomization stratification factors. The test was performed per the 95% CI using the noninferiority margin of 0.4. Noninferiority will be declared if the lower limit of the 95% CI for the odds ratio is greater than 0.4.|Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.26|0.96||||||||0.96|0.26|
82387621|NCT02729051|164485549|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the (FF/UMEC/VI versus FF/VI+UMEC) treatment difference is above -50 milliliter (mL) then FF/UMEC/VI was to be considered non-inferior to FF/VI+UMEC.|Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.0161|||TWO_SIDED|95.0|-0.013|0.05|||||MMRM method included covariates of Baseline FEV1, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by Baseline interaction.|||0.050|-0.013|
82387622|NCT02729051|164485550|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.71|1.2|||||Analysis included covariates of treatment group, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), geographical region, visit, Baseline, Baseline by visit and treatment by visit interactions.|||1.20|0.71|
82387623|NCT02729051|164485551|OTHER||Least Square Mean Difference|-0.906|STANDARD_ERROR_OF_MEAN|0.8327|||TWO_SIDED|95.0|-2.54|0.728|||||Analysis performed using a repeated measures model with covariates of Baseline SGRQ, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by Baseline.|||0.728|-2.540|
82640294|NCT00594568|164995229|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Mixed Models Analysis|||||||0.045
82640295|NCT00594568|164995229|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Mixed Models Analysis|||||||0.610
82387624|NCT02729051|164485552|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.25|||||Include covariates of treatment group, stratum (number of long-acting bronchodilators/ day during the run-in: 0/1 or 2), geographical region, visit, Baseline dyspnea index (BDI) focal score, BDI focal score/ visit and treatment/ visit interactions.|||1.25|0.72|
82387625|NCT02729051|164485553|OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.1773|||TWO_SIDED|95.0|-0.211|0.485|||||Analysis included covariates of BDI focal score, stratum (number of long-acting bronchodilators per day during the run-in: 0/1 or 2), visit, geographical region, treatment, visit by treatment and visit by BDI Focal score interactions.|||0.485|-0.211|
82387626|NCT02729051|164485554|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.68|1.12|||||Analysis was performed using a Cox proportional hazards model.|||1.12|0.68|
82387627|NCT00596817|164485555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01||||0.0035|TWO_SIDED|95.0|1.26|3.21|||Cox-model|Cox-model using an exact method to handle ties||||3.21|1.26|0.0035
82387628|NCT00596817|164485556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.001|TWO_SIDED|95.0|1.35|3.23||A nominal p-value is provided.|Cox-Model|||||3.23|1.35|0.0010
82387629|NCT00596817|164485557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|0.66||0.002|TWO_SIDED|95.0|-3.36|-0.77||A nominal p-value is provided.|ANCOVA|||||-0.77|-3.36|0.0020
82387630|NCT00596817|164485558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|0.55||0.0171|TWO_SIDED|95.0|-2.39|-0.24||A nominal p-value is provided.|ANCOVA|||||-0.24|-2.39|0.0171
82387631|NCT00596817|164485559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.6||0.0612|TWO_SIDED|95.0|-2.3|0.05||A nominal p-value is provided.|ANCOVA|||||0.05|-2.30|0.0612
82387632|NCT00596817|164485560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.57|-0.18||A nominal p-value is provided.|ANCOVA|||||-0.18|-0.57|0.0002
82387633|NCT00596817|164485561|SUPERIORITY_OR_OTHER||Difference|6.35||||0.025|TWO_SIDED|95.0|1.13|11.56||A nominal p-value is provided.|Fisher Exact|||||11.56|1.13|0.025
82387634|NCT00596817|164485562|SUPERIORITY_OR_OTHER||Difference|12.13||||0.002|TWO_SIDED|95.0|4.73|19.52||A nominal p-value is provided.|Fisher Exact|||||19.52|4.73|0.002
82387635|NCT00596817|164485563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.73||0.3642|TWO_SIDED|95.0|-2.12|0.78||A nominal p-value is provided.|ANCOVA|||||0.78|-2.12|0.3642
82387636|NCT05088603|164485635|SUPERIORITY|||||||0.106|||||||Fisher Exact|||||||0.106
82387637|NCT05088603|164485636|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82387638|NCT05088603|164485637|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82387639|NCT05088603|164485639|SUPERIORITY|||||||0.529|||||||Fisher Exact|||||||0.529
82387640|NCT05088603|164485640|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82387641|NCT05088603|164485641|SUPERIORITY|||||||0.502|||||||Fisher Exact|||||||0.502
82387642|NCT05088603|164485642|SUPERIORITY|||||||0.431|||||||Fisher Exact|||||||0.431
82387643|NCT05088603|164485643|SUPERIORITY|||||||0.434|||||||Fisher Exact|||||||0.434
82387644|NCT05088603|164485644|SUPERIORITY|||||||0.159|||||||Fisher Exact|||||||0.159
82387645|NCT05088603|164485645|SUPERIORITY|||||||0.051|||||||Fisher Exact|||||||0.051
82387646|NCT03233529|164485651|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-3.1|-1.7|||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.7|-3.1|<0.0001
82387647|NCT03233529|164485652|SUPERIORITY||Least Squares Mean Difference|-0.9906|STANDARD_ERROR_OF_MEAN|0.48404||0.042|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0420
82387648|NCT03233529|164485653|SUPERIORITY||Least Squares Mean Difference|-0.5446|STANDARD_ERROR_OF_MEAN|0.37855||0.1519|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.1519
82387649|NCT03233529|164485654|SUPERIORITY||Least Squares Mean Difference|-1.1273|STANDARD_ERROR_OF_MEAN|0.32552||0.0007|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0007
82524693|NCT00514683|164745764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.931||||0.8237|TWO_SIDED|95.0|0.498|1.741|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||1.741|0.498|0.8237
82524694|NCT00514683|164745764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.676||||0.1177|TWO_SIDED|95.0|0.878|3.202|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo.|||3.202|0.878|0.1177
82577035|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.218||0.1048|TWO_SIDED|95.0|-0.79|0.08|||MMRM|||Feelings of Guilt, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.79|0.1048
82387650|NCT03233529|164485655|SUPERIORITY||Least Squares Mean Difference|-0.7612|STANDARD_ERROR_OF_MEAN|0.44266||0.0871|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0871
82387651|NCT03233529|164485656|SUPERIORITY||Least Squares Mean Difference|-1.3641|STANDARD_ERROR_OF_MEAN|0.48603||0.0055|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0055
82387652|NCT03233529|164485657|SUPERIORITY||Least Squares Mean Difference|-1.1246|STANDARD_ERROR_OF_MEAN|0.49359||0.0238|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0238
82387653|NCT03233529|164485658|SUPERIORITY||Least Squares Mean Difference|-1.9913|STANDARD_ERROR_OF_MEAN|0.68659||0.0042|||||||Mixed Models Analysis|||Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||||0.0042
82387654|NCT03233529|164485665|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.7|-1.4|||Mixed Models Analysis|||Crisaborole 2% was superior to vehicle if p-value was \<0.05.||-1.4|-2.7|< 0.0001
82387655|NCT03233529|164485666|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.3|-0.6|||Mixed Models Analysis||Comparison at Day 8|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-1.3|< 0.0001
82387656|NCT03233529|164485666|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8|||Mixed Models Analysis||Comparison at Day 15|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-1.4|< 0.0001
82387657|NCT03233529|164485667|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.36||0.0188|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis||Comparison at Day 2|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.1|-1.6|0.0188
82387658|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.36||0.0014|TWO_SIDED|95.0|-1.9|-0.4|||Mixed Models Analysis||Comparison at Day 3|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.4|-1.9|0.0014
82524695|NCT00514683|164745765|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-11.24|STANDARD_ERROR_OF_MEAN|17.089||0.5111|TWO_SIDED|95.0|-44.86|22.37|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||22.37|-44.86|0.5111
82524696|NCT00514683|164745765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.17|STANDARD_ERROR_OF_MEAN|16.234||0.4176|TWO_SIDED|95.0|-45.11|18.76|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||18.76|-45.11|0.4176
82387659|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.36||0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis||Comparison at Day 4|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-2.0|0.0003
82387660|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.2|-0.8|||Mixed Models Analysis||Comparison at Day 5|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-2.2|< 0.0001
82387661|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.36||0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis||Comparison at Day 6|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.6|-2.0|0.0003
82387662|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.3|-0.8|||Mixed Models Analysis||Comparison at Day 7|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.8|-2.3|< 0.0001
82387663|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.5|-1.1|||Mixed Models Analysis||Comparison at Day 8|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.1|-2.5|< 0.0001
82387664|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.6|-1.2|||Mixed Models Analysis||Comparison at Day 9|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.6|< 0.0001
82387665|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.7|-1.3|||Mixed Models Analysis||Comparison at Day 10|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.3|-2.7|< 0.0001
82387666|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis||Comparison at Day 11|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-0.9|-2.3|< 0.0001
82387667|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.9|-1.5|||Mixed Models Analysis||Comparison at Day 12|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.5|-2.9|< 0.0001
82387668|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.6|-1.2|||Mixed Models Analysis||Comparison at Day 13|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.6|< 0.0001
82387669|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.4|-1.0|||Mixed Models Analysis||Comparison at Day 14|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.0|-2.4|< 0.0001
82387670|NCT03233529|164485667|SUPERIORITY||Least-Square Mean of Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.7|-1.2|||Mixed Models Analysis||Comparison at Day 15|Crisaborole ointment 2% was superior to vehicle if p-value was \<0.05.||-1.2|-2.7|< 0.0001
82387671|NCT00594100|164485679|SUPERIORITY_OR_OTHER||Binomial Proportion|0.054|STANDARD_ERROR_OF_MEAN|0.016||0.002|TWO_SIDED|95.0|0.027|0.095|||One-Sample Binomial|Significance test was based on a one-sample binomial test|95% Confidence Interval is exact binomial using Clopper-Pearson method. Standard Error is from Normal approximation.|The EMPiRE Study tested the null hypothesis that the true MAE rate was greater than or equal to an Objective Performance Criterion (OPC) of 11.83% versus the alternative hypothesis that the true MAE rate was less than the OPC. The sample size was calculated based on 80% power and a Type I error rate of 0.025. The OPC was calculated from results of published carotid artery stenting studies that utilized distal embolic protection systems.||0.095|0.027|0.002
82387672|NCT00083759|164485754|SUPERIORITY_OR_OTHER|||||||0.089||95.0|||||Cochran-Mantel-Haenszel|||||||0.089
82387673|NCT00083759|164485755|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Cochran-Mantel-Haenszel|||||||0.171
82387674|NCT00083759|164485756|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||Cochran-Mantel-Haenszel|||||||0.526
82387675|NCT00379080|164485803|OTHER|||||||0.04|||||||Regression, Cox|||VEGFR2||||0.04
82387676|NCT00379080|164485803|OTHER|||||||0.04|||||||Regression, Cox|||PIGF||||0.04
82387677|NCT00379080|164485803|OTHER|||||||0.02|||||||Regression, Cox|||CAIX||||0.02
82387678|NCT00379080|164485803|OTHER|||||||0.05|||||||Regression, Cox|||sFLT\_1||||0.05
82387679|NCT00379080|164485803|OTHER|||||||0.01|||||||Regression, Cox|||sFLT\_1||||0.01
82387680|NCT00379080|164485803|OTHER|||||||0.05|||||||Regression, Cox|||VEGFR2||||0.05
82387681|NCT01222520|164485804|SUPERIORITY_OR_OTHER||Least square mean difference|9.14|||<|0.0001||95.0|7.09|11.18|||ANCOVA|||||11.18|7.09|<0.0001
82524697|NCT00514683|164745765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|16.506||0.9454|TWO_SIDED|95.0|-33.6|31.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||31.34|-33.60|0.9454
82524698|NCT00514683|164745765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.32|STANDARD_ERROR_OF_MEAN|16.98||0.7101|TWO_SIDED|95.0|-27.08|39.72|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||39.72|-27.08|0.7101
82577036|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8979|TWO_SIDED|95.0|-0.44|0.39|||MMRM|||Feelings of Guilt, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.44|0.8979
82640296|NCT00594568|164995230|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Mixed Models Analysis|||||||0.296
82387682|NCT01222520|164485805|SUPERIORITY_OR_OTHER||Least square mean difference|14.88|||<|0.0001||95.0|11.82|17.94|||ANCOVA|||||17.94|11.82|<0.0001
82387683|NCT01222520|164485806|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82387684|NCT01222520|164485807|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82387685|NCT01222520|164485808|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82387686|NCT01222520|164485809|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82387687|NCT01222520|164485810|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82387688|NCT01089608|164485837|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.01||||0.072|TWO_SIDED|95.0|-16.3|0.28|||Mixed Models Analysis|||||0.28|-16.30|0.072
82387689|NCT02920008|164485838|SUPERIORITY||||||=|0.3287|||||||Stratified log-rank|||||||= 0.3287
82387690|NCT00839527|164485863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.68|||ANCOVA|||||-0.68|-1.07|<0.0001
82387691|NCT00839527|164485863|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a one-sided t-test testing at the 0.025 level of significance whether or not the difference of least square means (albiglutide - pioglitazone) is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Mean Difference (Net)|0.25||||0.2685|TWO_SIDED|95.0|0.1|0.4|||t-test, 1 sided|||||0.40|0.10|0.2685
82387692|NCT02751450|164485872|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.882|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response and treatment as a factor and baseline Schiff as a covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||-0.882|-1.150|<0.0001
82387693|NCT01598090|164485877|NON_INFERIORITY|Non-inferiority of Lambda/RBV/TVR to Alfa/RBV/TVR was not established because the lower limit of the 95% CI was less than the predefined non-inferiority margin of -12%. As a result, key secondary endpoints were not tested hierarchically to compare treatment groups.||||||0.0855||||||Non-inferiority testing is based on lower limit of confidence interval.|Mantel Haenszel|||||||0.0855
82425730|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.044
82640297|NCT00594568|164995230|SUPERIORITY_OR_OTHER|||||||0.172||95.0|||||Mixed Models Analysis|||||||0.172
82640298|NCT00594568|164995230|SUPERIORITY_OR_OTHER|||||||0.746||95.0|||||Mixed Models Analysis|||||||0.746
82387694|NCT03307252|164485956|OTHER||Adjusted geometric mean (gMean) ratio|100.7|STANDARD_ERROR_OF_MEAN|17.9|||TWO_SIDED|90.0|88.84|114.15|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|114.15|88.84|
82640299|NCT00594568|164995231|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||Mixed Models Analysis|||||||0.166
82387695|NCT03307252|164485956|OTHER||Adjusted gMean ratio|93.76|STANDARD_ERROR_OF_MEAN|12.1|||TWO_SIDED|90.0|86.12|102.06|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|102.06|86.12|
82387696|NCT03307252|164485956|OTHER||Adjusted gMean Ratio|82.97|STANDARD_ERROR_OF_MEAN|10.7|||TWO_SIDED|90.0|76.96|89.46|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|89.46|76.96|
82387697|NCT03307252|164485956|OTHER||Adjusted gMean Ratio|113.4|STANDARD_ERROR_OF_MEAN|21.5|||TWO_SIDED|90.0|97.62|131.72|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|131.72|97.62|
82387698|NCT03307252|164485957|OTHER||Adjusted geometric mean (gMean) ratio|131.41|STANDARD_ERROR_OF_MEAN|17.9|||TWO_SIDED|90.0|115.93|148.97|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|148.97|115.93|
82387699|NCT03307252|164485957|OTHER||Adjusted gMean ratio|119.78|STANDARD_ERROR_OF_MEAN|12.1|||TWO_SIDED|90.0|110.03|130.39|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|130.39|110.03|
82387700|NCT03307252|164485957|OTHER||Adjusted gMean Ratio|108.55|STANDARD_ERROR_OF_MEAN|10.7|||TWO_SIDED|90.0|100.68|117.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|117.03|100.68|
82387701|NCT03307252|164485957|OTHER||Adjusted gMean Ratio|348.06|STANDARD_ERROR_OF_MEAN|21.5|||TWO_SIDED|90.0|299.64|404.31|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|404.31|299.64|
82387702|NCT03307252|164485958|OTHER||Adjusted geometric mean (gMean) ratio|125.61|STANDARD_ERROR_OF_MEAN|13.2|||TWO_SIDED|90.0|113.99|138.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|138.43|113.99|
82443698|NCT05160766|164596004|OTHER||Difference of means in percent|10.312|STANDARD_ERROR_OF_MEAN|4.373||0.02259|TWO_SIDED|95.0|1.514|19.111|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4 (omicron)."|19.111|1.514|0.02259
82640300|NCT00594568|164995231|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82572839|NCT00267098|164855709|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.047|||||TWO_SIDED|95.0|-0.095|0.192||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in CI through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean CI change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in Cardiac Index (CI) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in Cardiac Index through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||0.192|-0.095|
82387703|NCT03307252|164485958|OTHER||Adjusted gMean ratio|101.21|STANDARD_ERROR_OF_MEAN|9.2|||TWO_SIDED|90.0|94.59|108.3|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|108.30|94.59|
82640301|NCT00594568|164995231|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Mixed Models Analysis|||||||0.014
82640302|NCT00594568|164995232|SUPERIORITY_OR_OTHER|||||||0.935||95.0|||||Mixed Models Analysis|||||||0.935
82640303|NCT00594568|164995232|SUPERIORITY_OR_OTHER|||||||0.068||95.0|||||Mixed Models Analysis|||||||0.068
82640304|NCT00594568|164995232|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Mixed Models Analysis|||||||0.070
82640305|NCT00594568|164995233|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||||||0.002
82387704|NCT03307252|164485958|OTHER||Adjusted gMean Ratio|130.94|STANDARD_ERROR_OF_MEAN|13.6|||TWO_SIDED|90.0|119.82|143.1|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|143.10|119.82|
82387705|NCT03307252|164485958|OTHER||Adjusted gMean Ratio|107.42|STANDARD_ERROR_OF_MEAN|12.9|||TWO_SIDED|90.0|97.57|118.27|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|118.27|97.57|
82387706|NCT03307252|164485959|OTHER||Adjusted geometric mean (gMean) ratio|106.78|STANDARD_ERROR_OF_MEAN|15.5|||TWO_SIDED|90.0|96.51|118.15|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|118.15|96.51|
82387707|NCT03307252|164485959|OTHER||Adjusted gMean ratio|271.63|STANDARD_ERROR_OF_MEAN|15.9|||TWO_SIDED|90.0|246.74|299.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|299.03|246.74|
82387708|NCT03307252|164485959|OTHER||Adjusted gMean Ratio|100.8|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|90.0|94.62|107.39|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|107.39|94.62|
82524699|NCT00514683|164745766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.2271||0.809|TWO_SIDED|95.0|-0.392|0.502|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.502|-0.392|0.8090
82524700|NCT00514683|164745766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182|STANDARD_ERROR_OF_MEAN|0.2158||0.3995|TWO_SIDED|95.0|-0.606|0.242|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.242|-0.606|0.3995
82524701|NCT00514683|164745766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.2193||0.8822|TWO_SIDED|95.0|-0.399|0.464|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.464|-0.399|0.8822
82640306|NCT00594568|164995233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82640307|NCT00594568|164995233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82640308|NCT00594568|164995234|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||||||0.038
82387709|NCT03307252|164485959|OTHER||Adjusted gMean Ratio|223.24|STANDARD_ERROR_OF_MEAN|13.9|||TWO_SIDED|90.0|203.79|244.55|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|244.55|203.79|
82387710|NCT03307252|164485960|OTHER||Adjusted geometric mean (gMean) ratio|121.64|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|100.43|147.33|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|147.33|100.43|
82425731|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.194||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.194
82425732|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524702|NCT00514683|164745766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.2257||0.5338|TWO_SIDED|95.0|-0.584|0.303|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.303|-0.584|0.5338
82524703|NCT00514683|164745767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.3272||0.7329|TWO_SIDED|95.0|-0.532|0.755|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.755|-0.532|0.7329
82640309|NCT00594568|164995234|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||ANCOVA|||||||0.147
82640310|NCT00594568|164995234|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||||||0.604
82640311|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.143
82640312|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.464
82640313|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||This is the p-value for the Left Hippocampal Volume|ANCOVA|||||||0.025
82640314|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.347||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.347
82387711|NCT03307252|164485960|OTHER||Adjusted gMean ratio|95.18|STANDARD_ERROR_OF_MEAN|19.6|||TWO_SIDED|90.0|83.03|109.11|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|109.11|83.03|
82387712|NCT03307252|164485960|OTHER||Adjusted gMean Ratio|80.19|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|73.01|88.08|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|88.08|73.01|
82387713|NCT03307252|164485960|OTHER||Adjusted gMean Ratio|115.39|STANDARD_ERROR_OF_MEAN|30.1|||TWO_SIDED|90.0|93.8|141.94|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|141.94|93.80|
82387714|NCT03307252|164485961|OTHER||Adjusted geometric mean (gMean) ratio|218.26|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|180.19|264.36|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|264.36|180.19|
82387715|NCT03307252|164485961|OTHER||Adjusted gMean ratio|135.07|STANDARD_ERROR_OF_MEAN|19.6|||TWO_SIDED|90.0|117.83|154.84|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|154.84|117.83|
82387716|NCT03307252|164485961|OTHER||Adjusted gMean Ratio|112.31|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|102.26|123.35|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|123.35|102.26|
82387717|NCT03307252|164485961|OTHER||Adjusted gMean Ratio|1125.1|STANDARD_ERROR_OF_MEAN|30.1|||TWO_SIDED|90.0|914.63|1384.0|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|1384.00|914.63|
82387718|NCT03307252|164485962|OTHER||Adjusted geometric mean (gMean) ratio|218.26|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|180.19|264.36|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|264.36|180.19|
82387719|NCT03307252|164485962|OTHER||Adjusted gMean ratio|104.78|STANDARD_ERROR_OF_MEAN|21.0|||TWO_SIDED|90.0|89.97|122.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|122.03|89.97|
82425733|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.020
82425734|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.148
82572840|NCT00267098|164855710|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|29.3|||||TWO_SIDED|95.0|10.04|48.64||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value. A positive value reflected reduction in IVMD.||48.640|10.040|
82640315|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.820
82640316|NCT00594568|164995235|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||This is the p-value for the Right Hippocampal Volume|ANCOVA|||||||0.243
82640317|NCT00594568|164995236|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||ANCOVA|||||||0.784
82640318|NCT00594568|164995236|SUPERIORITY_OR_OTHER|||||||0.931||95.0|||||ANCOVA|||||||0.931
82387720|NCT03307252|164485962|OTHER||Adjusted gMean Ratio|122.65|STANDARD_ERROR_OF_MEAN|20.1|||TWO_SIDED|90.0|107.68|139.69|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|139.69|107.68|
82572841|NCT00267098|164855711|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|21.83|||||TWO_SIDED|95.0|2.841|40.87||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value. A positive value reflected reduction in IVMD.||40.870|2.841|
82572842|NCT00267098|164855712|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|26.53|||||TWO_SIDED|95.0|6.247|47.19||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value. A positive value reflected reduction in IVMD.||47.190|6.247|
82572843|NCT00267098|164855713|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|23.32|||||TWO_SIDED|95.0|1.999|44.53||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in IVMD through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean IVMD change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in IVMD through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in IVMD through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value. A positive value reflected reduction in IVMD.||44.530|1.999|
82572844|NCT00267098|164855714|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.047|||||TWO_SIDED|95.0|-0.18|0.089||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 6 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 6 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 6 months with BiV pacing than RV pacing. Change was calculated as 6 month value - randomization visit value.||0.089|-0.180|
82572845|NCT00267098|164855715|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|-0.117|||||TWO_SIDED|95.0|-0.287|0.058||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 12 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 12 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 12 months with BiV pacing than RV pacing. Change was calculated as 12 month value - randomization visit value.||0.058|-0.287|
82572846|NCT00267098|164855716|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.041|||||TWO_SIDED|95.0|-0.136|0.22||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 18 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 18 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 18 months with BiV pacing than RV pacing. Change was calculated as 18 month value - randomization visit value.||0.220|-0.136|
82640319|NCT00594568|164995236|SUPERIORITY_OR_OTHER|||||||0.718||95.0|||||ANCOVA|||||||0.718
82640320|NCT00594568|164995237|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||ANCOVA|||||||0.634
82640321|NCT00594568|164995237|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||ANCOVA|||||||0.901
82640322|NCT00594568|164995237|SUPERIORITY_OR_OTHER|||||||0.659||95.0|||||ANCOVA|||||||0.659
82640323|NCT00594568|164995240|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Mixed Models Analysis|||||||0.062
82387721|NCT03307252|164485962|OTHER||Adjusted gMean Ratio|116.88|STANDARD_ERROR_OF_MEAN|14.4|||TWO_SIDED|90.0|105.07|130.03|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|130.03|105.07|
82387722|NCT03307252|164485963|OTHER||Adjusted geometric mean (gMean) ratio|87.07|STANDARD_ERROR_OF_MEAN|20.9|||TWO_SIDED|90.0|76.08|99.64|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Digoxin, Analysis of variance (ANOVA) model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|99.64|76.08|
82443699|NCT05160766|164596004|OTHER||Difference of means in percent|11.601|STANDARD_ERROR_OF_MEAN|4.634||0.01583|TWO_SIDED|95.0|2.279|20.924|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|20.924|2.279|0.01583
82640324|NCT00594568|164995240|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Mixed Models Analysis|||||||0.022
82640325|NCT00594568|164995240|SUPERIORITY_OR_OTHER|||||||0.669||95.0|||||Mixed Models Analysis|||||||0.669
82640326|NCT00594568|164995241|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||Mixed Models Analysis|||||||0.071
82387723|NCT03307252|164485963|OTHER||Adjusted gMean ratio|122.94|STANDARD_ERROR_OF_MEAN|18.0|||TWO_SIDED|90.0|110.25|137.09|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|137.09|110.25|
82387724|NCT03307252|164485963|OTHER||Adjusted gMean Ratio|101.35|STANDARD_ERROR_OF_MEAN|12.0|||TWO_SIDED|90.0|93.65|109.7|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|109.70|93.65|
82387725|NCT03307252|164485963|OTHER||Adjusted gMean Ratio|428.23|STANDARD_ERROR_OF_MEAN|26.8|||TWO_SIDED|90.0|359.78|509.7|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|509.70|359.78|
82387726|NCT03307252|164485964|OTHER||Adjusted gMean ratio|92.24|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|90.0|85.28|99.76|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|99.76|85.28|
82387727|NCT03307252|164485964|OTHER||Adjusted gMean Ratio|83.99|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|78.32|90.08|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|90.08|78.32|
82387728|NCT03307252|164485964|OTHER||Adjusted gMean Ratio|124.06|STANDARD_ERROR_OF_MEAN|23.9|||TWO_SIDED|90.0|105.11|146.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T1 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|146.43|105.11|
82387729|NCT03307252|164485965|OTHER||Adjusted gMean Ratio|112.73|STANDARD_ERROR_OF_MEAN|11.2|||TWO_SIDED|90.0|104.23|121.92|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|121.92|104.23|
82387730|NCT03307252|164485965|OTHER||Adjusted gMean Ratio|108.56|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|101.22|116.43|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|116.43|101.22|
82387731|NCT03307252|164485965|OTHER||Adjusted gMean Ratio|340.67|STANDARD_ERROR_OF_MEAN|23.9|||TWO_SIDED|90.0|288.63|402.1|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T2 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|402.10|288.63|
82387732|NCT03307252|164485966|OTHER||Adjusted gMean ratio|100.78|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|90.0|93.59|108.51|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|108.51|93.59|
82387733|NCT03307252|164485966|OTHER||Adjusted gMean Ratio|131.37|STANDARD_ERROR_OF_MEAN|13.4|||TWO_SIDED|90.0|120.37|143.37|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|143.37|120.37|
82387734|NCT03307252|164485966|OTHER||Adjusted gMean Ratio|106.55|STANDARD_ERROR_OF_MEAN|12.8|||TWO_SIDED|90.0|96.87|117.19|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T3 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|117.19|96.87|
82387735|NCT03307252|164485967|OTHER||Adjusted gMean ratio|260.11|STANDARD_ERROR_OF_MEAN|14.7|||TWO_SIDED|90.0|237.96|284.32|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Furosemide, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|284.32|237.96|
82640327|NCT00594568|164995241|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Mixed Models Analysis|||||||0.018
82640328|NCT00594568|164995241|SUPERIORITY_OR_OTHER|||||||0.571||95.0|||||Mixed Models Analysis|||||||0.571
82640329|NCT00594568|164995242|SUPERIORITY_OR_OTHER|||||||0.518||95.0|||||Mixed Models Analysis|||||||0.518
82640330|NCT00594568|164995242|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Mixed Models Analysis|||||||0.013
82640331|NCT00594568|164995242|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Mixed Models Analysis|||||||0.072
82640332|NCT00594568|164995243|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Mixed Models Analysis|||||||0.069
82640333|NCT00594568|164995243|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|||||||0.002
82640334|NCT00594568|164995243|SUPERIORITY_OR_OTHER|||||||0.198||95.0|||||Mixed Models Analysis|||||||0.198
82640335|NCT00594568|164995244|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Mixed Models Analysis|||||||0.127
82640336|NCT00594568|164995244|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Mixed Models Analysis|||||||0.016
82640337|NCT00594568|164995244|SUPERIORITY_OR_OTHER|||||||0.381||95.0|||||Mixed Models Analysis|||||||0.381
82640338|NCT00594568|164995245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82640339|NCT00594568|164995245|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|||||||0.005
82640340|NCT00594568|164995245|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Mixed Models Analysis|||||||0.141
82640341|NCT00594568|164995246|SUPERIORITY_OR_OTHER|||||||0.337||95.0|||||ANCOVA|||||||0.337
82640342|NCT00594568|164995246|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANCOVA|||||||0.018
82640343|NCT00594568|164995246|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||ANCOVA|||||||0.157
82640344|NCT00594568|164995247|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Mixed Models Analysis|||||||0.186
82640345|NCT00594568|164995247|SUPERIORITY_OR_OTHER|||||||0.149||95.0|||||Mixed Models Analysis|||||||0.149
82640346|NCT00594568|164995247|SUPERIORITY_OR_OTHER|||||||0.889||95.0|||||Mixed Models Analysis|||||||0.889
82640347|NCT00594568|164995248|SUPERIORITY_OR_OTHER|||||||0.202||95.0|||||Mixed Models Analysis|||||||0.202
82640348|NCT00594568|164995248|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Mixed Models Analysis|||||||0.075
82640349|NCT00594568|164995248|SUPERIORITY_OR_OTHER|||||||0.616||95.0|||||Mixed Models Analysis|||||||0.616
82640350|NCT01422876|164995259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.75|-0.41|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.41|-0.75|<0.0001
82640351|NCT01422876|164995259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.67|-0.32|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.32|-0.67|<0.0001
82640352|NCT01422876|164995259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.59|-0.25|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.25|-0.59|<0.0001
82640353|NCT01422876|164995259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.21|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0038), geographical region (p\<0.0001), treatment (p\<0.0001) as fixed effect(s).||-0.21|-0.56|<0.0001
82640354|NCT01422876|164995260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.43|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-23.37|-9.48|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-9.48|-23.37|<0.0001
82640355|NCT01422876|164995260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.2|STANDARD_ERROR_OF_MEAN|3.62|<|0.0001|TWO_SIDED|95.0|-29.3|-15.1|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-15.10|-29.30|<0.0001
82640356|NCT01422876|164995260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.34|STANDARD_ERROR_OF_MEAN|3.55||0.0015|TWO_SIDED|95.0|-18.31|-4.37|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-4.37|-18.31|0.0015
82640357|NCT01422876|164995260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.12|STANDARD_ERROR_OF_MEAN|3.61|<|0.0001|TWO_SIDED|95.0|-26.21|-12.03|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.6082) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0104), treatment (p\<0.0001) as fixed effect(s).||-12.03|-26.21|<0.0001
82640358|NCT01422876|164995261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.31|STANDARD_ERROR_OF_MEAN|3.78||0.1605|TWO_SIDED|95.0|-12.74|2.11|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||2.11|-12.74|0.1605
82640359|NCT01422876|164995261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.82|STANDARD_ERROR_OF_MEAN|3.78||0.1246|TWO_SIDED|95.0|-13.25|1.61|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||1.61|-13.25|0.1246
82640360|NCT01422876|164995261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.63|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-31.06|-16.21|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||-16.21|-31.06|<0.0001
82640361|NCT01422876|164995261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.29|STANDARD_ERROR_OF_MEAN|3.77|<|0.0001|TWO_SIDED|95.0|-29.71|-14.88|||ANCOVA|||Model for Week 24 includes baseline fasting plasma glucose (p\<0.0001), baseline HbA1c (p=0.4591) as linear covariate(s) and baseline eGFR (MDRD) (p=0.7413), geographical region (p=0.1504), treatment (p\<0.0001) as fixed effect(s).||-14.88|-29.71|<0.0001
82524704|NCT00514683|164745767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.3109||0.8009|TWO_SIDED|95.0|-0.69|0.533|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.533|-0.690|0.8009
82640362|NCT01422876|164995262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.43||0.6604|TWO_SIDED|95.0|-0.65|1.03||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||1.03|-0.65|0.6604
82640363|NCT01422876|164995262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.15|-1.44|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||-1.44|-3.15|<0.0001
82640364|NCT01422876|164995262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.43||0.8757|TWO_SIDED|95.0|-0.91|0.77||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||0.77|-0.91|0.8757
82640365|NCT01422876|164995262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.91|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.77|-1.05|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.1610) as linear covariate(s) and baseline eGFR (MDRD) (p=0.3685), geographical region (p=0.0162), treatment (p\<0.0001) as fixed effect(s).||-1.05|-2.77|<0.0001
82640366|NCT01422876|164995263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.1785|TWO_SIDED|95.0|-0.33|0.06|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||0.06|-0.33|0.1785
82640367|NCT01422876|164995263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.21|-0.61|<0.0001
82640368|NCT01422876|164995263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.22|||Cochran-Mantel-Haenszel|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.22|-0.61|<0.0001
82640369|NCT01422876|164995263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.76|-0.37|||ANCOVA|||Model for Week 24 includes baseline HbA1c (p\<0.0001) as linear covariate(s) and baseline eGFR (MDRD) (p=0.8627), geographical region (p=0.0008), treatment (p\<0.0001) as fixed effect(s).||-0.37|-0.76|<0.0001
82387736|NCT03307252|164485967|OTHER||Adjusted gMean Ratio|101.21|STANDARD_ERROR_OF_MEAN|9.4|||TWO_SIDED|90.0|95.15|107.66|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Metformin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|107.66|95.15|
82387737|NCT03307252|164485967|OTHER||Adjusted gMean Ratio|215.28|STANDARD_ERROR_OF_MEAN|13.1|||TWO_SIDED|90.0|197.53|234.63|||ANOVA||Standard Error of the mean is actually intra individual geometric coefficient of variation (gCV). Adjusted gMean ratio is given for T4 vs. R1.||Rosuvastatin, ANOVA model on the logarithmic scale includes effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|234.63|197.53|
82524705|NCT00514683|164745767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3159||0.6358|TWO_SIDED|95.0|-0.771|0.472|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.472|-0.771|0.6358
82640370|NCT01422876|164995264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.51||0.801|TWO_SIDED|95.0|-0.88|1.14||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||1.14|-0.88|0.8010
82640371|NCT01422876|164995264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_ERROR_OF_MEAN|0.51||0.3616|TWO_SIDED|95.0|-1.48|0.54||Not an alpha protected test.|ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||0.54|-1.48|0.3616
82640372|NCT01422876|164995264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.51||0.0178|TWO_SIDED|95.0|-2.23|-0.21|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||-0.21|-2.23|0.0178
82640373|NCT01422876|164995264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.51||0.0001|TWO_SIDED|95.0|-2.97|-0.95|||ANCOVA|||Model for Week 24 includes baseline weight (p\<0.0001), baseline HbA1c (p=0.0023) as linear covariate(s) and baseline eGFR (MDRD) (p=0.0316), geographical region (p=0.0134), treatment (p=0.0031) as fixed effect(s).||-0.95|-2.97|0.0001
82640374|NCT01422876|164995265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.191|||<|0.0001|TWO_SIDED|95.0|2.319|7.573|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||7.573|2.319|<0.0001
82640375|NCT01422876|164995265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|||<|0.0001|TWO_SIDED|95.0|2.474|8.184|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||8.184|2.474|<0.0001
82640376|NCT01422876|164995265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.495|||<|0.0001|TWO_SIDED|95.0|1.92|6.363|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||6.363|1.920|<0.0001
82387738|NCT03482453|164485972|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least square means (LS means) for the log-transformed parameters were exponentiated to obtain the point estimates and 90 percent (%) Confidence Intervals (CIs) of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.881|||||TWO_SIDED|90.0|0.7108|1.0921||||||||1.0921|0.7108|
82387739|NCT03482453|164485972|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9637|||||TWO_SIDED|90.0|0.8361|1.1107||||||||1.1107|0.8361|
82387740|NCT03482453|164485973|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9317|||||TWO_SIDED|90.0|0.8458|1.0263||||||||1.0263|0.8458|
82387741|NCT03482453|164485978|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|1.0153|||||TWO_SIDED|90.0|0.8977|1.1483||||||||1.1483|0.8977|
82425735|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425736|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
82443700|NCT05160766|164596004|OTHER||Difference of means in percent|11.863|STANDARD_ERROR_OF_MEAN|4.323||0.00856|TWO_SIDED|95.0|3.166|20.56|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.5 (omicron)."|20.56|3.166|0.00856
82640377|NCT01422876|164995265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.795||||0.0005|TWO_SIDED|95.0|1.562|5.001|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.001|1.562|0.0005
82640378|NCT01422876|164995266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.893||||0.0224|TWO_SIDED|95.0|1.095|3.274|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||3.274|1.095|0.0224
82443701|NCT05160766|164596004|OTHER||Difference of means in percent|6.83|STANDARD_ERROR_OF_MEAN|2.244||0.00258|TWO_SIDED|95.0|2.41|11.249|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|11.249|2.41|0.00258
82524706|NCT00514683|164745767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.333|STANDARD_ERROR_OF_MEAN|0.3252||0.3064|TWO_SIDED|95.0|-0.973|0.307|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.307|-0.973|0.3064
82524707|NCT00514683|164745768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||0.9646|TWO_SIDED|95.0|0.54|1.906|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||1.906|0.540|0.9646
82524708|NCT00514683|164745768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.994||||0.985|TWO_SIDED|95.0|0.536|1.844|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||1.844|0.536|0.9850
82524709|NCT00514683|164745768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.7136|TWO_SIDED|95.0|0.604|2.089|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||2.089|0.604|0.7136
82524710|NCT00514683|164745768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.551||||0.1705|TWO_SIDED|95.0|0.828|2.906|||Regression, Logistic|An ordinal logistic regression model with fixed terms for treatment, baseline of corresponding continuous value, region.|Odds ratio lower than 1 favours the treatment group over placebo. Negative change indicates worsening.|||2.906|0.828|0.1705
82524711|NCT00514683|164745769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.68||0.0479|TWO_SIDED|95.0|-2.69|-0.01|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.01|-2.69|0.0479
82524712|NCT00514683|164745769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.68||0.0685|TWO_SIDED|95.0|-2.58|0.09|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||0.09|-2.58|0.0685
82524713|NCT00514683|164745769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.684||0.0099|TWO_SIDED|95.0|-3.12|-0.43|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.43|-3.12|0.0099
82524714|NCT00514683|164745769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.683||0.0152|TWO_SIDED|95.0|-3.01|-0.32|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated.|||-0.32|-3.01|0.0152
82524715|NCT00514683|164745770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|2.253||0.725|TWO_SIDED|95.0|-5.22|3.64|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||3.64|-5.22|0.7250
82524716|NCT00514683|164745770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.28|STANDARD_ERROR_OF_MEAN|2.213||0.1389|TWO_SIDED|95.0|-7.63|1.07|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.07|-7.63|0.1389
82524717|NCT00514683|164745770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.98|STANDARD_ERROR_OF_MEAN|2.221||0.0741|TWO_SIDED|95.0|-8.35|0.39|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.39|-8.35|0.0741
82524718|NCT00514683|164745770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.12|STANDARD_ERROR_OF_MEAN|2.262||0.0071|TWO_SIDED|95.0|-10.57|-1.67|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-1.67|-10.57|0.0071
82524719|NCT00514683|164745771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.06|STANDARD_ERROR_OF_MEAN|3.183||0.337|TWO_SIDED|95.0|-9.32|3.2|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||3.20|-9.32|0.3370
82524720|NCT00514683|164745771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.34|STANDARD_ERROR_OF_MEAN|3.126||0.1659|TWO_SIDED|95.0|-10.49|1.81|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.81|-10.49|0.1659
82640379|NCT01422876|164995266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.961||||0.0001|TWO_SIDED|95.0|1.697|5.169|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.169|1.697|0.0001
82524721|NCT00514683|164745771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.12|STANDARD_ERROR_OF_MEAN|3.138||0.1897|TWO_SIDED|95.0|-10.29|2.05|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||2.05|-10.29|0.1897
82524722|NCT00514683|164745771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|3.184||0.0028|TWO_SIDED|95.0|-15.86|-3.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-3.34|-15.86|0.0028
82524723|NCT00514683|164745772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.586||0.8458|TWO_SIDED|95.0|-5.59|4.58|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||4.58|-5.59|0.8458
82524724|NCT00514683|164745772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|2.54||0.3286|TWO_SIDED|95.0|-7.48|2.51|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||2.51|-7.48|0.3286
82524725|NCT00514683|164745772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|2.548||0.1799|TWO_SIDED|95.0|-8.43|1.59|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||1.59|-8.43|0.1799
82524726|NCT00514683|164745772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.35|STANDARD_ERROR_OF_MEAN|2.597||0.0948|TWO_SIDED|95.0|-9.46|0.76|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.76|-9.46|0.0948
82524727|NCT00514683|164745773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|2.484||0.9708|TWO_SIDED|95.0|-4.98|4.79|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||4.79|-4.98|0.9708
82572847|NCT00267098|164855717|SUPERIORITY_OR_OTHER||Posterior BiV - RV Mean Difference|0.11|||||TWO_SIDED|95.0|-0.085|0.311||BLOCK HF is a Bayesian study; a p-value was not used since it is a non-Bayesian statistical tool. Instead,a posterior distribution representing the set of possible values for the BiV - RV difference in change in E/A through 24 months was used.|Bayesian Credible Interval||Because Bayesian analyses were employed, a 95% two-sided credible interval was used instead of a confidence interval. This reflects the 2.5th and 97.5th percentile of possible values for the BiV-RV difference in mean E/A change through 24 months.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar changes in E:A ratio (E/A) through 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients have different changes in E:A ratio through 24 months with BiV pacing than RV pacing. Change was calculated as 24 month value - randomization visit value.||0.311|-0.085|
82640380|NCT01422876|164995266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.065|||<|0.0001|TWO_SIDED|95.0|1.768|5.314|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||5.314|1.768|<0.0001
82640381|NCT01422876|164995266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.303|||<|0.0001|TWO_SIDED|95.0|2.462|7.522|||Regression, Logistic|||Logistic regression includes treatment, baseline eGFR (MDRD), geographical region and baseline HbA1c.||7.522|2.462|<0.0001
82640382|NCT01366846|164995299|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-negative stratum.||||<0.001
82572848|NCT00267098|164855718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1841||||0.9985||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 6 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9985
82572849|NCT00267098|164855719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2503||||0.9999||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 12 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9999
82577037|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.219||0.0819|TWO_SIDED|95.0|-0.82|0.05|||MMRM|||Feelings of Guilt, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.82|0.0819
82640383|NCT01366846|164995299|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-positive stratum.||||0.004
82640384|NCT01366846|164995300|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of participants with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Consumption Group across both the SPT-negative and SPT-positive strata.||||<0.001
82640385|NCT01366846|164995301|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-negative stratum.||||<0.001
82640386|NCT01366846|164995301|SUPERIORITY_OR_OTHER|||||||0.027|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group within the SPT-positive stratum.||||0.027
82425737|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.127||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.127
82524728|NCT00514683|164745773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|2.44||0.1069|TWO_SIDED|95.0|-8.74|0.85|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.85|-8.74|0.1069
82524729|NCT00514683|164745773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.49|STANDARD_ERROR_OF_MEAN|2.453||0.0682|TWO_SIDED|95.0|-9.31|0.34|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.34|-9.31|0.0682
82524730|NCT00514683|164745773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.16|STANDARD_ERROR_OF_MEAN|2.494||0.0043|TWO_SIDED|95.0|-12.06|-2.26|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||-2.26|-12.06|0.0043
82524731|NCT00514683|164745774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.2698|TWO_SIDED|95.0|0.72|3.31|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||3.31|0.72|0.2698
82524732|NCT00514683|164745774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.0891|TWO_SIDED|95.0|0.9|4.01|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||4.01|0.90|0.0891
82387742|NCT03482453|164485978|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9506|||||TWO_SIDED|90.0|0.874|1.0339||||||||1.0339|0.8740|
82425738|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82572850|NCT00267098|164855720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1978||||0.9978||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 18 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9978
82524733|NCT00514683|164745774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.0069|TWO_SIDED|95.0|1.29|5.66|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||5.66|1.29|0.0069
82524734|NCT00514683|164745774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0341|TWO_SIDED|95.0|1.05|4.61|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel test to adjust for region effect.|In case of missing data, patient has been set to non-responder. Odds ratio lower than 1 favours the treatment group over placebo.|||4.61|1.05|0.0341
82524735|NCT00514683|164745775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.1015||0.8288|TWO_SIDED|95.0|-0.178|0.222|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.222|-0.178|0.8288
82524736|NCT00514683|164745775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.0974||0.1506|TWO_SIDED|95.0|-0.051|0.332|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.332|-0.051|0.1506
82524737|NCT00514683|164745775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.0977||0.1059|TWO_SIDED|95.0|-0.034|0.351|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.351|-0.034|0.1059
82524738|NCT00514683|164745775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.358|STANDARD_ERROR_OF_MEAN|0.1008||0.0004|TWO_SIDED|95.0|0.16|0.556|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.556|0.160|0.0004
82387743|NCT03482453|164485979|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The LS means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs of the geometric LS mean ratio on the original scale.|Geometric LS Mean Ratio|0.9603|||||TWO_SIDED|90.0|0.8861|1.0408||||||||1.0408|0.8861|
82387744|NCT01052480|164486002|SUPERIORITY_OR_OTHER|||||||0.069|||||||Log Rank|||||||0.069
82387745|NCT02887183|164486047|OTHER||Least Squared Geometric Mean Ratio|0.632|||<|0.0001|TWO_SIDED|95.0|0.5865|0.681|||ANCOVA|||||0.6810|0.5865|<.0001
82640387|NCT01366846|164995302|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison of the percentage of subjects with peanut allergy in the Continued Peanut Avoidance Group to that of the Peanut Avoidance After Peanut Consumption Group across both the SPT-negative and SPT-positive strata.||||<0.001
82387746|NCT02887183|164486048|OTHER||Least Squared Mean|-7.57|||<|0.0001|TWO_SIDED|95.0|-7.98|-7.15|||ANCOVA|||LAVi||-7.15|-7.98|<.0001
82387747|NCT02887183|164486048|OTHER||Least Squared Mean|-12.25|||<|0.0001|TWO_SIDED|95.0|-12.92|-11.58|||ANCOVA|||LVEDVi||-11.58|-12.92|<.0001
82387748|NCT02887183|164486048|OTHER||Least Squared Mean|-15.29|||<|0.0001|TWO_SIDED|95.0|-16.03|-14.55|||ANCOVA|||LVESVi||-14.55|-16.03|<.0001
82387749|NCT02887183|164486049|OTHER||Least Squared Mean|9.37|||<|0.001|TWO_SIDED|95.0|8.84|9.9|||ANCOVA|||||9.90|8.84|<.001
82640388|NCT01366846|164995303|SUPERIORITY_OR_OTHER|||||||0.25|||||||Exact McNemar|||Comparison of the percentage of subjects with peanut allergy in the Peanut Avoidance After Peanut Consumption Group at month 60 to that of the Peanut Avoidance After Peanut Consumption Group at month 72 across both the SPT-negative and SPT-positive strata.||||0.250
82387750|NCT02887183|164486050|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||LVESVi, LVEDVi, LAVi. LVEF||||<.0001
82387751|NCT02887183|164486051|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||LVESVi, LVEDVi, LAVi. LVEF||||<.0001
82387752|NCT02887183|164486052|OTHER|Pearson's Correlation|||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||<.0001
82387753|NCT02887183|164486052|OTHER|Pearson's Correlation||||||0.0003|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0003
82387754|NCT02887183|164486052|OTHER|Pearson's Correlation||||||0.0956|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0956
82387755|NCT02887183|164486053|OTHER|Pearson's Correlation||||||0.006|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.0060
82640389|NCT01366846|164995304|SUPERIORITY_OR_OTHER|||||||0.25|||||||Exact McNemar|||Comparison of the percentage of subjects with peanut allergy in the Peanut Avoidance After Peanut Consumption Group at month 60 to that of the Peanut Avoidance After Peanut Consumption Group at month 72 across both the SPT-negative and SPT-positive strata.||||0.250
82640390|NCT05299359|164995307|NON_INFERIORITY|If the lower limit of the 95% CI is \>= 0.67, then the immune response to a single heterologous booster vaccination of TAK-019 is considered to be non-inferior of that to the primary series of TAK-019.|LS Mean Difference|1.18|||||TWO_SIDED|95.0|0.95|1.47||||||GMT ratio was calculated GMT of TAK-019-3001 on Day 15 divided by GMT of TAK-019-1501 study on Day 36.||1.47|0.95|
82640391|NCT03413618|164995452|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82640392|NCT03413618|164995453|SUPERIORITY|||||||0.049|||||||Log Rank|||||||0.049
82640393|NCT03413618|164995455|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82640394|NCT03413618|164995456|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82640395|NCT03413618|164995458|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
82640396|NCT03413618|164995459|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82640397|NCT00423137|164995463|OTHER||Difference of least square means|-1.385|STANDARD_ERROR_OF_MEAN|2.181||0.5305|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.||||||0.5305
82640398|NCT00423137|164995464|OTHER||Difference of least square means|-0.049|STANDARD_ERROR_OF_MEAN|0.033||0.1498|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.1498
82640399|NCT00423137|164995467|OTHER||Difference of least square means|0.335|STANDARD_ERROR_OF_MEAN|0.434||0.4472|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.4472
82640400|NCT00423137|164995468|OTHER||Difference of least square means|-0.141|STANDARD_ERROR_OF_MEAN|0.342||0.6829|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.6829
82640401|NCT00423137|164995469|OTHER||Difference of least square means|0.571|STANDARD_ERROR_OF_MEAN|0.391||0.1565|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.1565
82640402|NCT00423137|164995470|OTHER||Difference of least square means|1.081|STANDARD_ERROR_OF_MEAN|1.185||0.3709|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.3709
82640403|NCT00423137|164995471|OTHER||Difference of least square means|-52.083|STANDARD_ERROR_OF_MEAN|16.48||0.0044|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0044
82640404|NCT00423137|164995472|OTHER||Difference of least square means|-67.012|STANDARD_ERROR_OF_MEAN|21.29||0.0056|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0056
82640405|NCT00423137|164995473|OTHER||Difference of least square means|-62.571|STANDARD_ERROR_OF_MEAN|18.42||0.0025|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0025
82640406|NCT00423137|164995474|OTHER||Difference of least square means|-40.067|STANDARD_ERROR_OF_MEAN|18.8||0.0439|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0439
82640407|NCT00423137|164995475|OTHER||Difference of least square means|-57.46|STANDARD_ERROR_OF_MEAN|21.3||0.0129|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0129
82640408|NCT00423137|164995476|OTHER||Difference of least square means|-55.332|STANDARD_ERROR_OF_MEAN|17.11||0.0037|||||||ANCOVA|The adjusted least squares mean is estimated based on the one way ANOVA model with Treatment.|Difference to Placebo \[Treatment-Placebo\]|||||0.0037
82640409|NCT00423137|164995477|OTHER||Difference of least square means|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.9076|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.9076
82640410|NCT00423137|164995478|OTHER||Difference of least square means|-13453.0|STANDARD_ERROR_OF_MEAN|16118.0||0.4121|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.4121
82640411|NCT00423137|164995479|OTHER||Difference of least square means|-78.619|STANDARD_ERROR_OF_MEAN|298.91||0.7948|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.7948
82640412|NCT00423137|164995480|OTHER||Difference of least square means|0.195|STANDARD_ERROR_OF_MEAN|0.101||0.064|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.0640
82640413|NCT00423137|164995481|OTHER||Difference of least square means|0.007|STANDARD_ERROR_OF_MEAN|0.004||0.0587|||||||ANCOVA|The adjusted least squares mean is estimated based on the ANCOVA model with treatment, centre, and baseline.|Difference to Placebo \[Treatment-Placebo\]|||||0.0587
82640414|NCT03246152|164995484|OTHER||||||>|0.05|||||||Pearson's correlation coefficient|||Correlation between change in BCVA and the pre treatment, post treatment, and change in vascular density following 3-6 injections was performed.||||>0.05
82640415|NCT04196023|164995510|SUPERIORITY|||||||0.2||||||p-value was calculated using GLM. Statistical significance was determined using an alpha level of 0.05.|general linear model|adjusted for age, sex, education and baseline overall MoCA score||||||0.20
82640416|NCT04196023|164995511|SUPERIORITY|||||||0.9||||||p-value was calculated using GLM model. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.90
82640417|NCT04196023|164995512|SUPERIORITY|||||||0.01||||||p-value was calculated using GLM model. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.01
82640418|NCT04196023|164995513|SUPERIORITY|||||||0.05||||||p-value was calculated using GLM model and false discovery rate (FDR)-adjustment. Statistical significance was determined using an alpha level of 0.05.|general linear model|GLM model additionally adjusting for age, sex, education and baseline level.||||||0.05
82577038|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.213||0.1099|TWO_SIDED|95.0|-0.77|0.08|||MMRM|||Feelings of Guilt, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.77|0.1099
82387756|NCT02887183|164486053|OTHER|Pearson's Correlation||||||0.0012|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0012
82640419|NCT00750373|164995644|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1|||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||We estimated that a sample size of 74 patients would provide 80% power to detect a significant difference with respect to the primary end point at the 2-sided significance level of 0.05, assuming that the in-hospital event rate would be 23% in the conventional treatment group and 3% in the early surgery group.||||<0.05
82387757|NCT02887183|164486053|OTHER|Pearson's Correlation||||||0.0181|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0181
82387758|NCT02887183|164486054|OTHER|Pearson's Correlation||||||0.2498|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.2498
82387759|NCT02887183|164486054|OTHER|Pearson's Correlation||||||0.0495|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0495
82387760|NCT02887183|164486054|OTHER|Pearson's Correlation||||||0.2685|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.2685
82640420|NCT00634933|164995683|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test (CMH), stratified by prior anti-tumor necrosis factor (anti-TNF) use and geographic region, was used.||||0.061
82387761|NCT02887183|164486055|OTHER|Pearson's Correlation||||||0.0029|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects with new onset HF and/or RAAS naïve||||0.0029
82387762|NCT02887183|164486055|OTHER|Pearson's Correlation||||||0.0011|TWO_SIDED|95.0|||||t-test, 2 sided|||"Subjects with HFrEF and low NT-proBNP"||||0.0011
82387763|NCT02887183|164486055|OTHER|Pearson's Correlation||||||0.0012|TWO_SIDED|95.0|||||t-test, 2 sided|||Subjects not receiving target dose||||0.0012
82387764|NCT02887183|164486056|OTHER||Least Squared Mean|9.32|||<|0.0001|TWO_SIDED|95.0|7.94|10.69|||ANCOVA|||||10.69|7.94|<.0001
82425739|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82524739|NCT00514683|164745776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.068||0.7789|TWO_SIDED|95.0|-0.153|0.115|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.115|-0.153|0.7789
82425740|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.122
82524740|NCT00514683|164745776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.0652||0.3149|TWO_SIDED|95.0|-0.063|0.194|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.194|-0.063|0.3149
82524741|NCT00514683|164745776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.0654||0.7062|TWO_SIDED|95.0|-0.104|0.153|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.153|-0.104|0.7062
82524742|NCT00514683|164745776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.0675||0.0703|TWO_SIDED|95.0|-0.01|0.255|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Positive change indicates worsening.|||0.255|-0.010|0.0703
82524743|NCT00514683|164745777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.0884||0.4792|TWO_SIDED|95.0|-0.111|0.236|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.236|-0.111|0.4792
82524744|NCT00514683|164745777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.0839||0.2221|TWO_SIDED|95.0|-0.062|0.268|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.268|-0.062|0.2221
82524745|NCT00514683|164745777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.0843||0.151|TWO_SIDED|95.0|-0.044|0.287|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.287|-0.044|0.1510
82572851|NCT00267098|164855721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2069||||0.9983||95.0||||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, was calculated. A probability ≥ 0.95 was significant.|Posterior probability of mean difference|The posterior probability that the mean difference is greater than 0 was calculated.|This was a one-sided analysis of the BiV arm - RV arm difference in Mean Clinical Composite Scores. Values above 0 suggested better outcomes in the Biventricular arm.|The null hypothesis is that patients with AV block, NYHA I-III, and LVEF of at most 50% who receive RV pacing have similar Clinical Composite Scores after 24 months compared to similar patients who receive BiV pacing. This was tested against the alternative hypothesis that patients had better scores with BiV pacing than RV pacing. The analysis assigned numerical values (Improved=3, Unchanged=2, Worsened=1) and compared the average score between randomization arms using a one-sided analysis.||||0.9983
82572852|NCT00267098|164855723|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.189|TWO_SIDED|95.0|0.78|2.01||BLOCK HF is a Bayesian study; a p-value was not used. Instead, a posterior probability, representing the probability that subjects with biventricular pacing have better outcomes, were calculated. A probability ≥ 0.95 was significant.|Posterior Distribution for HR|The posterior distribution is the set of values the BiV to RV hazard ratio can take, and its likelihood of taking such values.|The hazard ratio corresponds to the time from randomization to first ventricular arrhythmia occurring post-randomization for each subject. Ventricular arrhythmias occurring prior to randomization were excluded. A 95% credible interval was used.|The null hypothesis is that patients with AV block, ejection fractions of at most 50%, NYHA classifications of I-III, and indicated for defibrillation therapy who receive biventricular (BiV) pacing have the same rate of experiencing their first ventricular arrhythmia as corresponding patients who receive right ventricular pacing. This was tested against the one-side hypothesis that patients with BiV pacing have a lower risk of ventricular arrhythmias than subjects with right ventricular pacing.||2.01|0.78|0.189
82572853|NCT04211389|164855732|SUPERIORITY||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.17|13.7||Stratification by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|IGA Success at Week 8 Odds Ratio||13.70|3.17|<0.0001
82572854|NCT04211389|164855733|SUPERIORITY||Hazard Ratio (HR)|4.207|||<|0.0001|TWO_SIDED|95.0|3.029|5.844|||Log Rank|Unstratified log-rank test|HR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization.|Time to Achieve PASI-50||5.844|3.029|<0.0001
82572855|NCT04211389|164855734|SUPERIORITY||Odds Ratio (OR)|10.42|||<|0.0001|TWO_SIDED|95.0|4.49|24.19|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-75 at Week 8 Odds Ratio||24.19|4.49|<0.0001
82572856|NCT04211389|164855735|SUPERIORITY||Odds Ratio (OR)|8.51||||0.0002|TWO_SIDED|95.0|2.45|28.86|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-90 at Week 8 Odds Ratio||28.86|2.45|0.0002
82640421|NCT00634933|164995683|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.120
82524746|NCT00514683|164745777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337|STANDARD_ERROR_OF_MEAN|0.0874||0.0001|TWO_SIDED|95.0|0.165|0.509|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.509|0.165|0.0001
82524747|NCT00514683|164745778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.0609||0.1129|TWO_SIDED|95.0|-0.023|0.217|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.217|-0.023|0.1129
82387765|NCT00789698|164486062|NON_INFERIORITY_OR_EQUIVALENCE|This is a non-inferiority analysis. Lurasidone will be declared as effective as quetiapine XR in preventing relapse if the upper bound of a 2-sided 95% confidence limit for the hazard ration of lurasidone vs. quetiapine is no greater than an equivalence hazard ratio margin of 1.93.|Hazard Ratio (HR)|0.728|||||TWO_SIDED|95.0|0.41|1.295||There is no hypothesis tested. Since this was a non-inferiority study, the upper bound of the 95% CI for the hazard ratio was compared to the pre-specified margin of 1.93 to demonstrate the non-inferiority of lurasidone compared to Quetiapine XR.|COX Proportional Hazards Model|||Comparison of time to relapse of psychotic symptoms between LUR-LUR and QXR-QXR as analyzed using the Cox proportional-hazards model.||1.295|0.410|
82387766|NCT00251303|164486098|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||Chi-squared|||||||0.959
82387767|NCT02986282|164486100|OTHER||Median Difference (Final Values)|-0.0600326|||<|0.05|TWO_SIDED|95.0|-0.0799661|-0.0449876|||Wilcoxon (Mann-Whitney)|||It was calculated that the study sample size of 79 subjects would be needed to detect a difference of 0.1 in the ABI measured in sinus rhythm and during atrial fibrillation, with a two-tailed α of 0.05 and a (1-β) of 0.90. Our initial estimate of sample size of 115 patients incorporated an assumption of dropout. Intra-observer variability was calculated using intra-class correlation coefficient.||-0.0449876|-0.0799661|<0.05
82387768|NCT02986282|164486101|OTHER||Median Difference (Final Values)|-0.0249837|||<|0.05|TWO_SIDED|95.0|-0.039992|-0.0100226|||Wilcoxon (Mann-Whitney)|||||-0.0100226|-0.039992|<0.05
82387769|NCT03467217|164486104|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.95|TWO_SIDED|95.0|-30.6|32.7|||ANCOVA|Adjusted for baseline value of ALT.||||32.7|-30.6|.95
82387770|NCT03467217|164486105|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.56|TWO_SIDED|95.0|-11.0|6.0|||ANCOVA|Adjusted for baseline value of GGT.||||6.0|-11.0|0.56
82387771|NCT03467217|164486106|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.53|TWO_SIDED|95.0|-10.3|19.8|||ANCOVA|Adjusted for the baseline AST value.||||19.8|-10.3|0.53
82387772|NCT03467217|164486107|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.57|TWO_SIDED|95.0|-20.8|37.5|||ANCOVA|Adjusted for the baseline ALT value.||||37.5|-20.8|0.57
82387773|NCT03467217|164486108|SUPERIORITY|Adjusted for the baseline ALT value.|Mean Difference (Final Values)|11.6||||0.25|TWO_SIDED|95.0|9.7|36.7|||ANCOVA|||||36.7|9.7|0.25
82387774|NCT03467217|164486109|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.05|TWO_SIDED|95.0|0.0|6.8|||ANCOVA|Adjusted for the baseline HOMA-IR value.||||6.8|0.0|0.05
82387775|NCT03467217|164486110|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.64|TWO_SIDED|95.0|-1.5|2.5|||ANCOVA|Adjusted for the baseline weight value.||||2.5|-1.5|0.64
82387776|NCT03467217|164486111|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.98|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|Adjusted for the baseline BMI value.||||0.6|-0.6|0.98
82387777|NCT03467217|164486112|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.1|TWO_SIDED|95.0|-0.5|5.3|||ANCOVA|Adjusted for the baseline waist circumference value.||||5.3|-0.5|0.10
82387778|NCT03467217|164486113|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.08|TWO_SIDED|95.0|0.0|0.05|||ANCOVA|Adjusted for the baseline waist-to-hip ratio.||||0.05|0.00|0.08
82387779|NCT03467217|164486114|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.29|TWO_SIDED|95.0|-2.8|9.0|||ANCOVA|Adjusted for the baseline PedsQOL Physical Health score.||||9.0|-2.8|0.29
82387780|NCT03467217|164486115|SUPERIORITY|||||||0.17|||||||Exact conditional binomial test|||||||0.17
82387781|NCT03467217|164486116|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.64|TWO_SIDED|95.0|-13.9|8.7|||ANCOVA|Adjusted for baseline total cholesterol value.||||8.7|-13.9|0.64
82387782|NCT03467217|164486117|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.67|TWO_SIDED|95.0|-25.6|39.7|||ANCOVA|Adjusted for baseline triglyceride value.||||39.7|-25.6|0.67
82387783|NCT03467217|164486118|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.45|TWO_SIDED|95.0|-3.4|1.5|||ANCOVA|Adjusted for baseline HDL cholesterol value.||||1.5|-3.4|0.45
82387784|NCT03467217|164486119|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.93|TWO_SIDED|95.0|-10.3|9.4|||ANCOVA|Adjusted for baseline LDL cholesterol value.||||9.4|-10.3|0.93
82387785|NCT03467217|164486120|SUPERIORITY||Median Difference (Final Values)|2.9||||0.29|TWO_SIDED|95.0|-2.5|20.1|||ANCOVA|Adjusted for baseline PedsQOL Psychosocial Health score.||||20.1|-2.5|0.29
82387786|NCT03806933|164486143|OTHER||Hazard Ratio (HR)|1.03|||=|0.881|TWO_SIDED|95.0|0.7|1.51||P-values were based on Wald Chi-Square tests for hazard ratios.|Wald Chi-square test||Hazard ratio (HR) was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||1.51|0.7|= 0.881
82387787|NCT03806933|164486143|OTHER||Hazard Ratio (HR)|0.72|||=|0.089|TWO_SIDED|95.0|0.49|1.05||P-values were based on Wald Chi-Square tests for hazard ratios.|Wald Chi-square test||HR was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||1.05|0.49|= 0.089
82640422|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.570
82640423|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.200
82640424|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.616
82640425|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.671
82640426|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.108
82640427|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.174
82640428|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.010
82640429|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.029
82640430|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.006
82640431|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.021
82640432|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.062
82640433|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.049
82387788|NCT03806933|164486143|OTHER||Hazard Ratio (HR)|0.56||||0.0035|TWO_SIDED|95.0|0.38|0.83|||Wald Chi-square test|P-values were based on Wald Chi-Square tests for hazard ratios.|HR was estimated using a Cox proportional hazards regression model. 95% CIs were calculated based on individual Wald tests.|||0.83|0.38|0.0035
82640434|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.030
82640435|NCT00634933|164995684|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.005
82640436|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.014
82640437|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.025
82640438|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.794|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.794
82640439|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.966|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.966
82640440|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.770
82640441|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.456|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.456
82640442|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.880
82640443|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.814
82640444|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.042
82640445|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.035
82640446|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.086
82640447|NCT00634933|164995685|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.082
82640448|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.325
82640449|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.338|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.338
82640450|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.983|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.983
82640451|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.296
82640452|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.575|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.575
82640453|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||1.000
82640454|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.573
82640455|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.563|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.563
82387789|NCT01177293|164486167|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric means ratio|89.78|||||TWO_SIDED|90.0|82.74|97.43||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1155 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||97.43|82.74|
82640456|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.768
82387790|NCT01177293|164486168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric mean ratio|99.73|||||TWO_SIDED|90.0|85.1|116.87||||||||116.87|85.10|
82387791|NCT01177293|164486169|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted geometric means ratio|86.67|||||TWO_SIDED|90.0|79.57|94.42||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1278 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||94.42|79.57|
82443702|NCT05160766|164596004|OTHER||Difference of means in percent|6.048|STANDARD_ERROR_OF_MEAN|2.244||0.00748|TWO_SIDED|95.0|1.63|10.466|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.351 (beta)."|10.466|1.63|0.00748
82572857|NCT04211389|164855736|SUPERIORITY||Odds Ratio (OR)|11.18||||0.0004|TWO_SIDED|95.0|2.33|53.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Success at Week 8 Odds Ratio||53.68|2.33|0.0004
82387792|NCT02162719|164486186|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.6||||0.0372|TWO_SIDED|90.0|0.4|0.91||Stratification variables were adjuvant/neoadjuvant treatment including treatment with or without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||0.91|0.40|0.0372
82387793|NCT02162719|164486187|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.59||||0.1753|TWO_SIDED|90.0|0.3|1.16||Stratification variables were adjuvant/neoadjuvant treatment including treatment with or without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.16|0.30|0.1753
82387794|NCT02162719|164486188|SUPERIORITY||Hazard Ratio (Unstratified Analysis)|0.76||||0.3636|TWO_SIDED|90.0|0.46|1.27|||Log Rank|||||1.27|0.46|0.3636
82387795|NCT02162719|164486189|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.8||||0.3607|TWO_SIDED|95.0|0.5|1.28||Stratification variables were adjuvant/neoadjuvant treatment including treatment with/without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.28|0.50|0.3607
82387796|NCT02162719|164486190|SUPERIORITY||Hazard Ratio (Stratified Analysis)|0.73||||0.4422|TWO_SIDED|95.0|0.32|1.65||Stratification variables were adjuvant/neoadjuvant treatment including treatment with/without radiation, disease-free interval from last dose (\<=12 vs \>12 months vs. no prior chemotherapy), PTEN status of tumor (H-score 0, vs. 1 to 150, vs. \>150).|Log Rank|||||1.65|0.32|0.4422
82387797|NCT02162719|164486191|SUPERIORITY||Hazard Ratio (Unstratified Analysis)|1.13||||0.7599|TWO_SIDED|95.0|0.52|2.47|||Log Rank|||||2.47|0.52|0.7599
82387798|NCT02230696|164486210|EQUIVALENCE|provides 85% power of success|Equivalence ratio|94.19|||||TWO_SIDED|90.0|84.77|104.52|||Trial and Error approach|||||104.52|84.77|
82387799|NCT02230696|164486211|EQUIVALENCE|provides 85% power of success|Equivalence ratio|94.68|||||TWO_SIDED|90.0|84.86|105.54|||Trial and Error approach|||||105.54|84.86|
82387800|NCT00394836|164486230|SUPERIORITY_OR_OTHER||percentage of responders|13.0|||||TWO_SIDED|95.0|4.0|31.0|||||Response rate is calculated as the number of responses divided by the number of participants treated \* 100.|||31|4|
82387801|NCT00394836|164486230|SUPERIORITY_OR_OTHER||percentage of responders|10.0|||||TWO_SIDED|95.0|5.0|19.0||||||||19|5|
82387802|NCT00748189|164486248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.45|0.72|||Log Rank||Hazard ratios are obtained using the Pike estimator.|||0.72|0.45|<0.001
82387803|NCT00748189|164486251|OTHER||Hazard Ratio (HR)|0.88||||0.363|TWO_SIDED|95.0|0.65|1.17|||Log Rank||hazard ratios are obtained using the Pike estimator. A hazard ratio \<1 indicates a lower risk with O+CHL treatment compared with chlorambucil|||1.17|0.65|0.363
82572858|NCT04211389|164855737|SUPERIORITY||Odds Ratio (OR)|15.27||||0.0002|TWO_SIDED|95.0|3.1|75.35|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA with multiple imputation of missing data.|I-IGA Clear at Week 8 Odds Ratio||75.35|3.10|0.0002
82387804|NCT00748189|164486264|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil Cmax values with ofatumumab in current study and without ofatumumab in prior study|Ratio of Cmax/Dose|0.71|||||TWO_SIDED|90.0|0.53|0.94|||||Ratio of Cmax/Dose is the ratio of dose-normalized chlorambucil Cmax values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||0.94|0.53|
82387805|NCT00748189|164486264|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized PAAM Cmax values with ofatumumab in current study and without ofatumumab in prior study|Ratio of Cmax/Dose|0.79|||||TWO_SIDED|90.0|0.63|0.99|||||Ratio of Cmax/Dose is the ratio of dose-normalized PAAM Cmax values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||0.99|0.63|
82387806|NCT00748189|164486265|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil AUC(0-6) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-6)/Dose|1.04|||||TWO_SIDED|90.0|0.77|1.4|||||Ratio of AUC(0-6)/Dose is the ratio of dose-normalized chlorambucil AUC(0-6) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.40|0.77|
82387807|NCT00748189|164486265|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized chlorambucil AUC(0-inf) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-inf)/Dose|1.11|||||TWO_SIDED|90.0|0.82|1.5|||||Ratio of AUC(0-inf)/Dose is the ratio of dose-normalized chlorambucil AUC(0-inf) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.50|0.82|
82387808|NCT00748189|164486265|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of dose-normalized PAAM AUC(0-6) values with ofatumumab in current study and without ofatumumab in prior study|Ratio of AUC(0-6)/Dose|0.89|||||TWO_SIDED|90.0|0.72|1.1|||||Ratio of AUC(0-6)/Dose is the ratio of dose-normalized PAAM AUC(0-6) values when given with ofatumumab in the current study and without ofatumumab in the prior study (LEUA1001).|||1.10|0.72|
82387809|NCT05406479|164486297|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|-0.193|||||TWO_SIDED|95.0|-5.146|4.76||||||Adults||4.76|-5.146|
82387810|NCT05406479|164486297|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|10.556|||||TWO_SIDED|95.0|0.926|20.185||||||Adolescents (13-17)||20.185|0.926|
82425741|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82640457|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.977
82640458|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.249|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.249
82640459|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.268
82640460|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.089
82640461|NCT00634933|164995686|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.079
82640462|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.106
82387811|NCT05406479|164486297|NON_INFERIORITY|For the hypothesis testing of non-inferiority the confidence interval should be compared to the non-inferiority margin. More specifically, non-inferiority is established if the upper limit of a one-sided 95% confidence interval around the difference in means QTc 24 hours after treatment administration (BE-PEP - SDR-PEP) is below the non-inferiority limit of +10 ms. A two-sample t-test was used to compare the two groups, but the p-value returned should not be used to conclude non-inferiority.|Mean Difference (Final Values)|2.076|||||TWO_SIDED|95.0|-3.374|7.525||||||Children (5-12)||7.525|-3.374|
82387812|NCT02028767|164486299|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.57|STANDARD_ERROR_OF_MEAN|1.024||0|TWO_SIDED|90.0|94.662|102.639||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.639|94.662|0.0000
82640463|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.322|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.322
82640464|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4 Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.059
82640465|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.250
82640466|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.255|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.255
82640467|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.105|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.105
82640468|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.001
82640469|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.019
82640470|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.011
82640471|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.113
82640472|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.002
82640473|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.006
82640474|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.034
82640475|NCT00634933|164995701|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 24: Good response- A 2-sided CMH test, stratified by prior anti-TNF use and geographic region, was used.||||0.003
82640476|NCT01694849|164995713|SUPERIORITY||Odds Ratio (OR)|1.092||||0.8539|TWO_SIDED|95.0|0.427|2.795||To deal with multiplicity of comparisons, a step-down approach was adopted to control the type I error to 0.05. The contrast GFT120 mg versus placebo was examined first. If not significant the GFT 80mg versus placebo contrast was not examined.|Regression, Logistic|Baseline NAS, Log transformed baseline aspartate aminotransferase and baseline plasminogen activator inhibitor 1 values|Standard error of the estimate|H\_01: OR\_80 less than or equal to 1 versus H\_11 : OR\_80 greater than 1 H\_02: OR\_120 less than or equal to 1 versus H\_12 : OR\_120 greater than 1||2.795|0.427|0.8539
82524748|NCT00514683|164745778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.0584||0.1498|TWO_SIDED|95.0|-0.031|0.199|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.199|-0.031|0.1498
82443703|NCT05160766|164596004|OTHER||Difference of means in percent|7.302|STANDARD_ERROR_OF_MEAN|2.782||0.00922|TWO_SIDED|95.0|1.821|12.782|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.1 (gamma)."|12.782|1.821|0.00922
82524749|NCT00514683|164745778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.0585||0.0632|TWO_SIDED|95.0|-0.006|0.224|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.224|-0.006|0.0632
82524750|NCT00514683|164745778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.0604||0.0009|TWO_SIDED|95.0|0.083|0.32|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.320|0.083|0.0009
82524751|NCT00514683|164745779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.0676||0.6306|TWO_SIDED|95.0|-0.165|0.1|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.100|-0.165|0.6306
82387813|NCT02028767|164486299|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.71|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.783|102.796||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.796|94.783|<0.0001
82425742|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387814|NCT02028767|164486300|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.93|STANDARD_ERROR_OF_MEAN|1.019||0|TWO_SIDED|90.0|95.856|102.107||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.107|95.856|0.0000
82387815|NCT02028767|164486300|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.96|STANDARD_ERROR_OF_MEAN|1.019|<|0.0001|TWO_SIDED|90.0|95.877|102.15||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.150|95.877|<0.0001
82387816|NCT02028767|164486301|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.28|STANDARD_ERROR_OF_MEAN|1.023||0|TWO_SIDED|90.0|94.549|102.156||The p-value relates to the null hypothesis of non-equivalence.|ANOVA||"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, period and treatment as fixed effects; subjects within sequences as random effect"|||102.156|94.549|0.0000
82387817|NCT02028767|164486301|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence test|Geometric mean ratio|98.35|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|94.603|102.252|||ANOVA|The p-value relates to the null hypothesis of non-equivalence.|"The geometric mean ratio is the exponential of the estimated mean difference on the log-scale between 'FDC' and 'Separate tablets'.~ANOVA on the log-scale: sequence, subjects within sequences, period and treatment as fixed effects"|Analysis with fixed effects for all terms||102.252|94.603|<0.0001
82640477|NCT01694849|164995713|SUPERIORITY||Odds Ratio (OR)|0.897||||0.816|TWO_SIDED|95.0|0.361|2.232||To deal with multiplicity of comparisons, a step-down approach was adopted to control the type I error to 0.05. The contrast GFT120 mg versus placebo was examined first. If not significant the GFT 80mg versus placebo contrast was not examined.|Regression, Logistic|Baseline NAS, Log transformed baseline aspartate aminotransferase and baseline plasminogen activator inhibitor 1 values|Standard error of the estimate|H\_01: OR\_80 less than or equal to 1 versus H\_11 : OR\_80 greater than 1 H\_02: OR\_120 less than or equal to 1 versus H\_12 : OR\_120 greater than 1||2.232|0.361|0.8160
82640478|NCT01694849|164995714|SUPERIORITY||difference in least square mean change|-0.27||||0.225|TWO_SIDED|95.0|-0.75|0.2|||Mixed Models Analysis|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the least squares mean|"H0: difference in least squares (LS) mean change from baseline equal to 0 H1: difference in LS mean change from baseline not equal to 0~Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4"||0.2|-0.75|0.225
82640479|NCT01694849|164995714|SUPERIORITY||Difference in least square mean change|-0.28||||0.254|TWO_SIDED|95.0|-0.76|0.2|||Mixed Models Analysis|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the least squares mean|"H0: difference in least squares (LS) mean change from baseline equal to 0 H1: difference in LS mean change from baseline not equal to 0~Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4"||0.2|-0.76|0.254
82387818|NCT04932655|164486322|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|103.22|||||TWO_SIDED|90.0|96.88|109.98||||||||109.98|96.88|
82387819|NCT04932655|164486322|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|109.64|||||TWO_SIDED|90.0|102.9|116.82||||||||116.82|102.9|
82443704|NCT05160766|164596004|OTHER||Difference of means in percent|4.791|STANDARD_ERROR_OF_MEAN|2.646||0.07136|TWO_SIDED|95.0|-0.419|10.001|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.1 (omicron)."|10.001|-0.419|0.07136
82640480|NCT01694849|164995715|SUPERIORITY||Odds Ratio (OR)|1.073||||0.8586|TWO_SIDED|95.0|0.493|2.339|||Regression, Logistic|Baseline Non-Alcoholic Fatty Liver Disease Activity Score.|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.339|0.493|0.8586
82640481|NCT01694849|164995715|SUPERIORITY||Odds Ratio (OR)|1.601||||0.2265|TWO_SIDED|95.0|0.747|3.432|||Regression, Logistic|Baseline Non-Alcoholic Fatty Liver Disease Activity Score|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||3.432|0.747|0.2265
82387820|NCT04932655|164486322|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|102.9|||||TWO_SIDED|90.0|96.57|109.64||||||||109.64|96.57|
82640482|NCT01694849|164995716|SUPERIORITY||Odds Ratio (OR)|0.723||||0.5231|TWO_SIDED|95.0|0.267|1.958|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.958|0.267|0.5231
82640483|NCT01694849|164995716|SUPERIORITY||Odds Ratio (OR)|1.102||||0.8459|TWO_SIDED|95.0|0.415|2.924|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.924|0.415|0.8459
82387821|NCT04932655|164486323|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.47|||||TWO_SIDED|90.0|96.33|100.65||||||||100.65|96.33|
82387822|NCT04932655|164486323|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.88|||||TWO_SIDED|90.0|96.74|101.07||||||||101.07|96.74|
82387823|NCT04932655|164486323|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|100.32|||||TWO_SIDED|90.0|98.15|102.54||||||||102.54|98.15|
82387824|NCT04932655|164486324|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|98.5|||||TWO_SIDED|90.0|96.33|100.71||||||||100.71|96.33|
82387825|NCT04932655|164486324|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|99.03|||||TWO_SIDED|90.0|96.85|101.26||||||||101.26|96.85|
82387826|NCT04932655|164486324|EQUIVALENCE|Two one-sided t test procedure used to compare test versus reference. Equivalence demonstrated if 90% CI within 80% to 125%.|Test/Reference Ratio of Geometric Means|100.25|||||TWO_SIDED|90.0|98.05|102.5||||||||102.50|98.05|
82387827|NCT03567005|164486328|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.05. With a sample size of 36 (18 per sequence group), there was approximately 80% power to reject the null hypothesis of inferiority in distance visual acuity with assumed standard deviation of 0.098 for paired difference (one-sided alpha=0.05).|Least Squares Mean (LSM) Difference|0.0|STANDARD_ERROR_OF_MEAN|0.008|||ONE_SIDED|95.0||0.02||||||||0.02||
82387828|NCT03567005|164486329|NON_INFERIORITY|The pre-specified non-inferiority margin is 1.0. With a sample size of 48 (24 per sequence group), there was approximately 80% power to reject the null hypothesis of inferiority in subjective overall vision with assumed standard deviation of 2.29 for paired differences (one-sided alpha=0.05).|LSM Difference|0.0|STANDARD_ERROR_OF_MEAN|0.15|||ONE_SIDED|95.0|-0.3||||||||||-0.3|
82387829|NCT05338502|164486332|SUPERIORITY||Geometric Least Squares Mean (LSM) Ratio|0.9|||||TWO_SIDED|90.0|0.797|1.02|||ANOVA|||Fasted State||1.02|0.797|
82443705|NCT05160766|164596004|OTHER||Difference of means in percent|3.965|STANDARD_ERROR_OF_MEAN|2.196||0.07218|TWO_SIDED|95.0|-0.36|8.29|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4 (omicron)."|8.29|-0.36|0.07218
82524752|NCT00514683|164745779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.021|STANDARD_ERROR_OF_MEAN|0.065||0.7426|TWO_SIDED|95.0|-0.149|0.106|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.106|-0.149|0.7426
82387830|NCT05338502|164486332|SUPERIORITY||Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.876|1.12|||ANOVA|||Fed state||1.12|0.876|
82387831|NCT05338502|164486333|SUPERIORITY||Geometric LS Mean Ratio|0.932|||||TWO_SIDED|90.0|0.829|1.05|||ANOVA|||Fasted state||1.05|0.829|
82524753|NCT00514683|164745779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.0651||0.9209|TWO_SIDED|95.0|-0.134|0.121|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.121|-0.134|0.9209
82387832|NCT05338502|164486333|SUPERIORITY||Geometric LS Mean Ratio|1.0|||||TWO_SIDED|90.0|0.888|1.13|||ANOVA|||Fed State||1.13|0.888|
82387833|NCT05338502|164486335|SUPERIORITY||Geometric LS Mean Ratio|0.818|||||TWO_SIDED|90.0|0.68|0.985|||ANOVA|||Fasted State||0.985|0.680|
82387834|NCT05338502|164486335|SUPERIORITY||Geometric LS Mean Ratio|0.782|||||TWO_SIDED|90.0|0.645|0.949|||ANOVA|||Fed state||0.949|0.645|
82387835|NCT02111577|164486356|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and Eastern Cooperative Oncology Group (ECOG) score (0, 1 vs 2)|Hazard Ratio (HR)|1.042||||0.596|TWO_SIDED|95.0|0.895|1.213|||Log Rank|||Stratified||1.213|0.895|0.596
82572859|NCT04211389|164855738|SUPERIORITY|WI-NRS Success at Week 2 Odds Ratio|Odds Ratio (OR)|2.56||||0.0026|TWO_SIDED|95.0|1.43|4.58|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||4.58|1.43|0.0026
82387836|NCT02111577|164486356|SUPERIORITY||Hazard Ratio (HR)|1.036||||0.648|TWO_SIDED|95.0|0.891|1.204|||Log Rank|||Unstratified||1.204|0.891|0.648
82387837|NCT02111577|164486357|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.908||||0.335|TWO_SIDED|95.0|0.746|1.105|||Log Rank|||Stratified||1.105|0.746|0.335
82387838|NCT02111577|164486357|SUPERIORITY||Hazard Ratio (HR)|0.879||||0.192|TWO_SIDED|95.0|0.725|1.067|||Log Rank|||Unstratified||1.067|0.725|0.192
82387839|NCT02111577|164486358|SUPERIORITY|Stratified by region (US vs other), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.312||||0.071|TWO_SIDED|95.0|0.976|1.762|||Log Rank|||Stratified||1.762|0.976|0.071
82387840|NCT02111577|164486358|SUPERIORITY||Hazard Ratio (HR)|1.283||||0.09|TWO_SIDED|95.0|0.961|1.712|||Log Rank|||Unstratified||1.712|0.961|0.09
82387841|NCT02111577|164486359|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.461||||0.049|TWO_SIDED|95.0|1.0|2.134|||Log Rank|||Stratified||2.134|1|0.049
82387842|NCT02111577|164486359|SUPERIORITY||Hazard Ratio (HR)|1.436||||0.053|TWO_SIDED|95.0|0.993|2.077|||Log Rank|||Unstratified||2.077|0.993|0.053
82387843|NCT02111577|164486360|SUPERIORITY|Stratified by region (US vs other) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.938||||0.501|TWO_SIDED|95.0|0.779|1.13|||Log Rank|||Stratified||1.13|0.779|0.501
82387844|NCT02111577|164486360|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.512|TWO_SIDED|95.0|0.781|1.131|||Log Rank|||Unstratified||1.131|0.781|0.512
82387845|NCT02111577|164486361|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.99||||0.886|TWO_SIDED|95.0|0.863|1.136|||Log Rank|||Stratified||1.136|0.863|0.886
82387846|NCT02111577|164486361|SUPERIORITY||Hazard Ratio (HR)|1.001||||0.992|TWO_SIDED|95.0|0.875|1.145|||Log Rank|||Unstratified||1.145|0.875|0.992
82387847|NCT02111577|164486362|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.001||||0.994|TWO_SIDED|95.0|0.847|1.184|||Log Rank|||Stratified||1.184|0.847|0.994
82387848|NCT02111577|164486362|SUPERIORITY||Hazard Ratio (HR)|1.002||||0.982|TWO_SIDED|95.0|0.851|1.18|||Log Rank|||Unstratified||1.18|0.851|0.982
82387849|NCT02111577|164486363|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.077||||0.392|TWO_SIDED|95.0|0.909|1.277|||Log Rank|||Stratified||1.277|0.909|0.392
82640484|NCT01694849|164995717|SUPERIORITY||Odds Ratio (OR)|0.638||||0.5229|TWO_SIDED|95.0|0.161|2.529|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.529|0.161|0.5229
82387850|NCT02111577|164486363|SUPERIORITY||Hazard Ratio (HR)|1.068||||0.439|TWO_SIDED|95.0|0.905|1.262|||Log Rank|||Unstratified||1.262|0.905|0.439
82387851|NCT02111577|164486364|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|1.03||||0.754|TWO_SIDED|95.0|0.857|1.238|||Log Rank|||Stratified||1.238|0.857|0.754
82387852|NCT02111577|164486364|SUPERIORITY||Hazard Ratio (HR)|1.009||||0.924|TWO_SIDED|95.0|0.844|1.207|||Log Rank|||Unstratified||1.207|0.844|0.924
82387853|NCT02111577|164486365|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.918||||0.732|TWO_SIDED|95.0|0.563|1.497|||Log Rank|||Stratified||1.497|0.563|0.732
82387854|NCT02111577|164486365|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.713|TWO_SIDED|95.0|0.561|1.485|||Log Rank|||Unstratified||1.485|0.561|0.713
82387855|NCT02111577|164486366|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.891||||0.694|TWO_SIDED|95.0|0.5|1.587|||Log Rank|||Stratified||1.587|0.5|0.694
82387856|NCT02111577|164486366|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.661|TWO_SIDED|95.0|0.496|1.562|||Log Rank|||Unstratified||1.562|0.496|0.661
82387857|NCT02111577|164486367|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.895||||0.111|TWO_SIDED|95.0|0.781|1.027|||Log Rank|||Stratified||1.027|0.781|0.111
82387858|NCT02111577|164486367|SUPERIORITY||Hazard Ratio (HR)|0.913||||0.184|TWO_SIDED|95.0|0.798|1.044|||Log Rank|||Unstratified||1.044|0.798|0.184
82387859|NCT02111577|164486368|SUPERIORITY|Stratified by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Hazard Ratio (HR)|0.939||||0.46|TWO_SIDED|95.0|0.795|1.11|||Log Rank|||Stratified||1.11|0.795|0.46
82387860|NCT02111577|164486368|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.534|TWO_SIDED|95.0|0.807|1.118|||Log Rank|||Unstratified||1.118|0.807|0.534
82387861|NCT02111577|164486369|SUPERIORITY|Adjusted by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Risk Ratio (RR)|0.845||||0.485|TWO_SIDED|95.0|0.528|1.355|||Log binomial model|||Stratified||1.355|0.528|0.485
82387862|NCT02111577|164486370|SUPERIORITY|Adjusted by region (US vs other), prior abiraterone (Yes vs No), prior enzalutamide (Yes vs No) and ECOG score (0, 1 vs 2)|Risk Ratio (RR)|0.92||||0.768|TWO_SIDED|95.0|0.529|1.601|||Log binomial model|||Stratified||1.601|0.529|0.768
82387863|NCT04431908|164486476|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Specificity|89.35|||||TWO_SIDED|||||||||||||
82387864|NCT04431908|164486476|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Sensitivity|42.55|||||TWO_SIDED|||||||||||||
82425743|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.164||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.164
82425744|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis at 5 hours Pairwise comparison. No adjustment made for multiplicity.|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82387865|NCT04431908|164486476|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Accuracy|87.24|||||TWO_SIDED|||||||||||||
82387866|NCT04431908|164486478|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Specificity|88.73|||||TWO_SIDED|||||||||||||
82387867|NCT04431908|164486478|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Sensitivity|33.33|||||TWO_SIDED|||||||||||||
82387868|NCT04431908|164486478|OTHER|Sensitivity, specificity and accuracy was measured utilizing the true and false positives, as well as the true and false negatives. For a subject to have a true positive, the subject must have had a positive PCR test for COVID-19 as well as scored 0, 1 or 2 correct answers on the smell test. For a subject to have a true negative, the subject must have had a negative PCR test for COVID-19 as well as scored 3, 4 or 5 correct answers on the smell test.|Accuracy|88.13|||||TWO_SIDED|||||||||||||
82387869|NCT01704651|164486485|SUPERIORITY_OR_OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
82387870|NCT01704651|164486486|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82387871|NCT00778869|164486487|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student t-test|||||||<0.05
82425745|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82524754|NCT00514683|164745779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.0671||0.7701|TWO_SIDED|95.0|-0.112|0.152|||ANCOVA|ANCOVA with fixed terms for treatment, baseline, region.|Mean difference to placebo is calculated. Negative change indicates worsening.|||0.152|-0.112|0.7701
82524755|NCT00514683|164745780|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.6671|TWO_SIDED|95.0|0.36|1.93||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.93|0.36|0.6671
82387872|NCT00305084|164486522|OTHER||MDT|1.6|||||TWO_SIDED|||||||||All data regarding safety were registered and analyzed by descriptive analyses. Summary table were generated to document the safety|at least 3 patients per cohort had to be enrolled with expansion to 6 in presence of Dose Limiting Toxicity(DLT) (stop escalation if 2 or more DLTs at the same dose level). With a projection to achieve the highest level of NGR-hTNF, without significative toxicity (1.6 μg/m2) a planned sample of 20-25 patients was expected. DLTs were defined as: any severe toxicity clearly related to the administration of NGR-hTNF. The patient was defined assessable, according to the standard analysis, if he/she received at least one infusion of the investigational product. Maximal Tollerated Dose (MTD) was defined as the dose which produces DLTs in 2 or more patients out of 6 and will be recommended for phase II trials.|||
82387873|NCT00926848|164486541|SUPERIORITY||Mean Difference (Final Values)|4.0|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82387874|NCT00926848|164486542|SUPERIORITY||Mean Difference (Final Values)|6.6|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82640485|NCT01694849|164995717|SUPERIORITY||Odds Ratio (OR)|1.433||||0.5646|TWO_SIDED|95.0|0.421|4.875|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||4.875|.421|0.5646
82387875|NCT00926848|164486543|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82387876|NCT00926848|164486544|SUPERIORITY||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82387877|NCT00926848|164486545|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82387878|NCT00926848|164486546|SUPERIORITY||Mean Difference (Final Values)|0.8|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82425746|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.244
82387879|NCT00570063|164486569|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-1.61|STANDARD_ERROR_OF_MEAN|8.94||0.86|TWO_SIDED|90.0|-16.49|13.27|||Mixed Models Analysis|||P-value and 90 percent confidence interval (CI) were obtained from mixed effects repeated measures analysis using covariance structures spatial power covariance structure (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||13.27|-16.49|0.86
82387880|NCT00570063|164486570|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|2.69||0.65|TWO_SIDED|90.0|-5.71|3.24|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.24|-5.71|0.65
82387881|NCT00570063|164486571|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|2.61||0.93|TWO_SIDED|90.0|-4.59|4.1|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.10|-4.59|0.93
82387882|NCT00570063|164486572|SUPERIORITY_OR_OTHER||LS mean difference|0.74|STANDARD_ERROR_OF_MEAN|4.18||0.86|TWO_SIDED|90.0|-6.21|7.69|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||7.69|-6.21|0.86
82387883|NCT00570063|164486573|SUPERIORITY_OR_OTHER||LS mean difference|-2.57|STANDARD_ERROR_OF_MEAN|3.22||0.43|TWO_SIDED|90.0|-7.92|2.79|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||2.79|-7.92|0.43
82387884|NCT00570063|164486574|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.68||0.91|TWO_SIDED|90.0|-4.76|4.16|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.16|-4.76|0.91
82387885|NCT00570063|164486575|SUPERIORITY_OR_OTHER||LS mean difference|0.63|STANDARD_ERROR_OF_MEAN|2.29||0.78|TWO_SIDED|90.0|-3.17|4.43|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||4.43|-3.17|0.78
82387886|NCT00570063|164486576|SUPERIORITY_OR_OTHER||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|1.35||0.92|TWO_SIDED|90.0|-2.11|2.39|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||2.39|-2.11|0.92
82387887|NCT00570063|164486577|SUPERIORITY_OR_OTHER||LS mean difference|0.84|STANDARD_ERROR_OF_MEAN|1.62||0.6|TWO_SIDED|90.0|-1.85|3.54|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.54|-1.85|0.60
82524756|NCT00514683|164745780|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8||||0.5926|TWO_SIDED|95.0|0.34|1.84||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.84|0.34|0.5926
82387888|NCT00570063|164486578|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|1.86||0.81|TWO_SIDED|90.0|-2.65|3.53|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||3.53|-2.65|0.81
82387889|NCT00570063|164486579|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.48||0.93|TWO_SIDED|90.0|-0.84|0.76|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.||0.76|-0.84|0.93
82524757|NCT00514683|164745780|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.1381|TWO_SIDED|95.0|0.18|1.27||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||1.27|0.18|0.1381
82387890|NCT00570063|164486580|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.68||0.99|TWO_SIDED|90.0|-1.13|1.14|||Mixed Models Analysis|||P-value and 90 percent CI were obtained from mixed effects repeated measures analysis using covariance structures (SP\[POW\]) with participant as random effect, treatment, visit, and visit-by-treatment interaction as fixed effects.||1.14|-1.13|0.99
82387891|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.158|STANDARD_DEVIATION|0.844|||TWO_SIDED|90.0|-1.546|1.231||||||Change at Day 21: Cried||1.231|-1.546|
82387892|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.444|STANDARD_DEVIATION|1.078|||TWO_SIDED|90.0|-1.329|2.218||||||Change at Day 21: Felt blue or depressed||2.218|-1.329|
82387893|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.544|STANDARD_DEVIATION|4.32|||TWO_SIDED|90.0|-5.561|8.649||||||Change at Day 21: Irritability||8.649|-5.561|
82387894|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.573|STANDARD_DEVIATION|2.955|||TWO_SIDED|90.0|-4.287|5.433||||||Change at Day 21: Manifest psychosis||5.433|-4.287|
82387895|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.556|STANDARD_DEVIATION|2.096|||TWO_SIDED|90.0|-2.892|4.003||||||Change at Day 21: Personal neatness||4.003|-2.892|
82387896|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.327|STANDARD_DEVIATION|0.532|||TWO_SIDED|90.0|-1.202|0.547||||||Change at Day 21: Refused to speak||0.547|-1.202|
82387897|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.632|STANDARD_DEVIATION|2.749|||TWO_SIDED|90.0|-5.152|3.889||||||Change at Day 21: Retardation||3.889|-5.152|
82443706|NCT05160766|164596004|OTHER||Difference of means in percent|4.82|STANDARD_ERROR_OF_MEAN|2.202||0.02949|TWO_SIDED|95.0|0.484|9.155|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|9.155|0.484|0.02949
82443707|NCT05160766|164596004|OTHER||Difference of means in percent|3.926|STANDARD_ERROR_OF_MEAN|2.263||0.08403|TWO_SIDED|95.0|-0.531|8.382|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.5 (omicron)."|8.382|-0.531|0.08403
82443708|NCT05160766|164596007|OTHER||Difference of means in percent|8.835|STANDARD_ERROR_OF_MEAN|11.03||0.42797|TWO_SIDED|95.0|-13.475|31.145|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|31.145|-13.475|0.42797
82640486|NCT01694849|164995718|SUPERIORITY||Odds Ratio (OR)|0.382||||0.1983|TWO_SIDED|95.0|0.088|1.656|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.656|0.088|0.1983
82387898|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_DEVIATION|0.572|||TWO_SIDED|90.0|-1.11|0.771||||||Change at Day 21: Said he/she was no good||0.771|-1.110|
82443709|NCT05160766|164596007|OTHER||Difference of means in percent|3.54|STANDARD_ERROR_OF_MEAN|10.575||0.73961|TWO_SIDED|95.0|-17.85|24.929|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.351 (beta)."|24.929|-17.85|0.73961
82387899|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.561|STANDARD_DEVIATION|2.63|||TWO_SIDED|90.0|-4.887|3.764||||||Change at Day 21: Social competence||3.764|-4.887|
82387900|NCT00570063|164486581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62|STANDARD_DEVIATION|4.447|||TWO_SIDED|90.0|-7.934|6.694||||||Change at Day 21: Social interest||6.694|-7.934|
82387901|NCT00570063|164486582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.712|STANDARD_DEVIATION|12.24|||TWO_SIDED|90.0|-14.42|25.845||||||||25.845|-14.42|
82387902|NCT00570063|164486592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.849|STANDARD_DEVIATION|4.23|||TWO_SIDED|90.0|-7.807|6.109||||||||6.109|-7.807|
82387903|NCT00570063|164486593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.195|STANDARD_DEVIATION|9.307|||TWO_SIDED|90.0|-19.5|11.114||||||||11.114|-19.50|
82387904|NCT00570063|164486594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.273|STANDARD_DEVIATION|3.488|||TWO_SIDED|90.0|-6.01|5.465||||||Change at Day 21: Parkinsonism||5.465|-6.010|
82387905|NCT00570063|164486594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.182|STANDARD_DEVIATION|3.008|||TWO_SIDED|90.0|-5.13|4.766||||||Change at Day 21: Dyskinesia||4.766|-5.130|
82387906|NCT00570063|164486594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.932|STANDARD_DEVIATION|1.425|||TWO_SIDED|90.0|-3.275|1.411||||||Change at Day 21: Dystonia||1.411|-3.275|
82387907|NCT00570063|164486594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.705|STANDARD_DEVIATION|1.652|||TWO_SIDED|90.0|-2.013|3.422||||||Change at Day 21: Akathisia||3.422|-2.013|
82387908|NCT00570063|164486595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.291|STANDARD_DEVIATION|1.203|||TWO_SIDED|90.0|-2.27|1.688||||||Change at Day 4||1.688|-2.270|
82387909|NCT00570063|164486595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.327|STANDARD_DEVIATION|1.349|||TWO_SIDED|90.0|-1.892|2.547||||||Change at Day 7||2.547|-1.892|
82387910|NCT00570063|164486595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.436|STANDARD_DEVIATION|1.448|||TWO_SIDED|90.0|-1.946|2.817||||||Change at Day 14||2.817|-1.946|
82387911|NCT00570063|164486595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.133|||TWO_SIDED|90.0|-1.763|1.963||||||Change at Day 21||1.963|-1.763|
82387912|NCT01554527|164486599|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.07
82387913|NCT01554527|164486600|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.34
82387914|NCT01554527|164486601|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.93
82387915|NCT01554527|164486602|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.5
82387916|NCT01554527|164486603|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Intent to treat for controls vs. treatment (adherent/non-adherent)||||0.25
82387917|NCT01483027|164486627|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0013|TWO_SIDED|95.0|0.54|0.88|||Log Rank|||Analysis performed using a log-rank test||0.88|0.54|0.0013
82387918|NCT01483027|164486628|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.77|||Log Rank|||Analysis performed using a log-rank test.||0.77|0.46|<0.0001
82387919|NCT00869622|164486631|SUPERIORITY_OR_OTHER|||||||0.0229|TWO_SIDED||||||Fisher Exact|||||||0.0229
82443710|NCT05160766|164596007|OTHER||Difference of means in percent|8.086|STANDARD_ERROR_OF_MEAN|10.683||0.4537|TWO_SIDED|95.0|-13.524|29.695|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.1 (gamma)."|29.695|-13.524|0.45370
82640487|NCT01694849|164995718|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.288|3.466|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||3.466|0.288|1.0000
82640488|NCT01694849|164995719|SUPERIORITY||Odds Ratio (OR)|0.653||||0.3543|TWO_SIDED|95.0|0.265|1.609|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||1.609|0.265|0.3543
82640489|NCT01694849|164995719|SUPERIORITY||Odds Ratio (OR)|1.27||||0.578|TWO_SIDED|95.0|0.547|2.953|||Regression, Logistic|Baseline value of the analyzed parameter|Standard error of the estimate|Population with baseline Non-Alcoholic Fatty Liver Disease Activity Score greater than or equal to 4||2.953|0.547|0.5780
82640490|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|1.24||||0.711|TWO_SIDED|95.0|-5.33|7.81|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in aspartate transaminase (U/L)||7.81|-5.33|0.711
82640491|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-0.94||||0.78|TWO_SIDED|95.0|-7.58|5.7|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in aspartate transaminase (U/L)||5.7|-7.58|0.78
82640492|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-6.13||||0.221|TWO_SIDED|95.0|-15.97|3.71|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in alanine aminotransferase (U/L)||3.71|-15.97|0.221
82387920|NCT01314872|164486632|SUPERIORITY_OR_OTHER||Difference in least squares (LS) means|-0.46||||0.056|TWO_SIDED|95.0|-0.92|0.01|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||0.01|-0.92|0.056
82640493|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-9.45||||0.062|TWO_SIDED|95.0|-19.4|0.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in alanine aminotransferase (U/L)||0.49|-19.4|0.062
82640494|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-23.02|||<|0.001|TWO_SIDED|95.0|-27.16|-18.88|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Alkaline phosphatases (U/L)||-18.88|-27.16|<0.001
82640495|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-23.85|||<|0.001|TWO_SIDED|95.0|-28.04|2.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Alkaline phosphatases (U/L)||2.12|-28.04|<0.001
82640496|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-31.41|||<|0.001|TWO_SIDED|95.0|-43.78|-19.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Gamma-glutamyl transferase (U/L)||-19.05|-43.78|<0.001
82640497|NCT01694849|164995720|SUPERIORITY||Difference in least square mean change|-29.31|||<|0.001|TWO_SIDED|95.0|-41.84|-16.77|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Change in Gamma-glutamyl transferase (U/L)||-16.77|-41.84|<0.001
82640498|NCT01694849|164995721|SUPERIORITY||Difference in least square mean change|0.14|||<|0.001|TWO_SIDED|95.0|0.06|0.21|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.21|0.06|<0.001
82640499|NCT01694849|164995721|SUPERIORITY||Difference in least square mean change|0.19|||<|0.001|TWO_SIDED|95.0|0.11|0.26|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.26|0.11|<0.001
82640500|NCT01694849|164995722|SUPERIORITY||Difference in least square mean change|141.78||||0.095|TWO_SIDED|95.0|-24.99|308.55|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||308.55|-24.99|0.095
82640501|NCT01694849|164995722|SUPERIORITY||Difference in least square mean change|-70.57||||0.412|TWO_SIDED|95.0|-239.85|98.71||Baseline parameter value and presence of diabetes as random factors|Mixed Models Analysis||Standard error of the least square mean|||98.71|-239.85|0.412
82387921|NCT01314872|164486632|SUPERIORITY_OR_OTHER||Difference in LS means|-0.45||||0.064|TWO_SIDED|95.0|-0.93|0.03|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||0.03|-0.93|0.064
82387922|NCT01314872|164486632|SUPERIORITY_OR_OTHER||Difference in LS means|-0.64||||0.007|TWO_SIDED|95.0|-1.11|-0.18|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.18|-1.11|0.007
82640502|NCT01694849|164995723|SUPERIORITY||Difference in least square mean change|32.39||||0.592|TWO_SIDED|95.0|-86.63|151.42|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||151.42|-86.63|0.592
82387923|NCT01314872|164486632|SUPERIORITY_OR_OTHER||Difference in LS means|-0.91|||<|0.001|TWO_SIDED|95.0|-1.37|-0.44|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.44|-1.37|< 0.001
82387924|NCT01314872|164486632|SUPERIORITY_OR_OTHER||Difference in LS means|-0.54||||0.026|TWO_SIDED|95.0|-1.02|-0.07|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, part and interaction of time by treatment.||||-0.07|-1.02|0.026
82387925|NCT01314872|164486637|SUPERIORITY_OR_OTHER||Difference in LS means|-0.28||||0.167|TWO_SIDED|95.0|-0.68|0.12|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.12|-0.68|0.167
82387926|NCT01314872|164486637|SUPERIORITY_OR_OTHER||Difference in LS means|-0.57||||0.005|TWO_SIDED|95.0|-0.97|-0.17|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.17|-0.97|0.005
82387927|NCT01314872|164486637|SUPERIORITY_OR_OTHER||Difference in LS means|-0.72|||<|0.001|TWO_SIDED|95.0|-1.11|-0.33|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.33|-1.11|< 0.001
82387928|NCT01314872|164486637|SUPERIORITY_OR_OTHER||Difference in LS means|-0.71|||<|0.001|TWO_SIDED|95.0|-1.1|-0.32|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.32|-1.10|< 0.001
82387929|NCT01314872|164486637|SUPERIORITY_OR_OTHER||Difference in LS means|-0.46||||0.03|TWO_SIDED|95.0|-0.87|-0.04|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.04|-0.87|0.030
82387930|NCT01314872|164486638|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.18||||0.401|TWO_SIDED|95.0|-0.61|0.25|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.25|-0.61|0.401
82387931|NCT01314872|164486638|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.48||||0.029|TWO_SIDED|95.0|-0.91|-0.05|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.05|-0.91|0.029
82387932|NCT01314872|164486638|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.005|TWO_SIDED|95.0|-1.02|-0.18|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.18|-1.02|0.005
82387933|NCT01314872|164486638|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.58||||0.007|TWO_SIDED|95.0|-1.01|-0.16|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.16|-1.01|0.007
82387934|NCT01314872|164486638|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.34||||0.14|TWO_SIDED|95.0|-0.78|0.11|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.11|-0.78|0.140
82387935|NCT01314872|164486639|SUPERIORITY_OR_OTHER||Difference in LS means|-0.18||||0.598|TWO_SIDED|95.0|-0.84|0.49|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.49|-0.84|0.598
82387936|NCT01314872|164486639|SUPERIORITY_OR_OTHER||Difference in LS means|-0.67||||0.052|TWO_SIDED|95.0|-1.35|0.01|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||0.01|-1.35|0.052
82387937|NCT01314872|164486639|SUPERIORITY_OR_OTHER||Difference in LS means|-0.76||||0.024|TWO_SIDED|95.0|-1.43|-0.1|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.10|-1.43|0.024
82387938|NCT01314872|164486639|SUPERIORITY_OR_OTHER||Difference in LS means|-1.24|||<|0.001|TWO_SIDED|95.0|-1.9|-0.58|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.58|-1.90|< 0.001
82387939|NCT01314872|164486639|SUPERIORITY_OR_OTHER||Difference in LS means|-0.94||||0.007|TWO_SIDED|95.0|-1.62|-0.26|||Constrained Longitudinal Data Analysis|Constrained longitudinal data analysis model includes terms for time, region, and interaction of time by treatment.||||-0.26|-1.62|0.007
82387940|NCT01314872|164486640|SUPERIORITY_OR_OTHER||Difference in LS means|-0.49|||||TWO_SIDED|95.0|-1.0|0.03||||||||0.03|-1.00|
82387941|NCT01314872|164486640|SUPERIORITY_OR_OTHER||Difference in LS means|-1.1|||||TWO_SIDED|95.0|-1.62|-0.58||||||||-0.58|-1.62|
82387942|NCT01314872|164486641|SUPERIORITY_OR_OTHER||Difference in LS means|-0.29|||||TWO_SIDED|95.0|-0.71|0.13||||||||0.13|-0.71|
82387943|NCT01314872|164486641|SUPERIORITY_OR_OTHER||Difference in LS means|-0.21|||||TWO_SIDED|95.0|-0.64|0.21||||||||0.21|-0.64|
82387944|NCT01314872|164486642|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.56|0.43||||||||0.43|-0.56|
82387945|NCT01314872|164486642|SUPERIORITY_OR_OTHER||Difference in LS means|0.02|||||TWO_SIDED|95.0|-0.48|0.51||||||||0.51|-0.48|
82387946|NCT01314872|164486643|SUPERIORITY_OR_OTHER||Difference in LS means|-0.76|||||TWO_SIDED|95.0|-1.45|-0.08||||||||-0.08|-1.45|
82387947|NCT01314872|164486643|SUPERIORITY_OR_OTHER||Difference in LS means|-1.24|||||TWO_SIDED|95.0|-1.93|-0.56||||||||-0.56|-1.93|
82387948|NCT01399047|164486644|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.105||||0.21|TWO_SIDED|95.0|-0.033|0.243|||Prescott's test||Mycophenolate was tolerated in 17/19 subjects (89.5%, 95% CI: 66.9% - 98.7%), while placebo was tolerated in 19/19 subjects (100%, 95% CI: 82.4% - 100%). The difference in tolerability rates was 10.5% (95% CI: -3.3% - 24.3%, p=0.21).|The primary outcome variable was tolerability, defined as the proportion of subjects able to complete 8 weeks on the assigned treatment. Tolerability was compared among the treatment groups using Prescott's test. A 95% confidence interval was computed for the tolerability of mycophenolate, placebo, and their difference.||0.243|-0.033|0.21
82387949|NCT01399047|164486645|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69||||0.72|TWO_SIDED|95.0|-4.67|3.28|||Prescott's test|||||3.28|-4.67|0.72
82387950|NCT01399047|164486646|SUPERIORITY|||||||0.78|||||||Prescott's test|||||||0.78
82387951|NCT01399047|164486647|SUPERIORITY|||||||0.98|||||||Prescott's test|||||||0.98
82387952|NCT01399047|164486648|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82572860|NCT04211389|164855738|SUPERIORITY|WI-NRS Success at Week 4 Odds Ratio|Odds Ratio (OR)|4.93|||<|0.0001|TWO_SIDED|95.0|2.65|9.18|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||9.18|2.65|<0.0001
82640503|NCT01694849|164995723|SUPERIORITY||Difference in least square mean change|31.35||||0.61|TWO_SIDED|95.0|-89.42|152.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||152.12|-89.42|0.61
82640504|NCT01694849|164995724|SUPERIORITY||Difference in least square mean change|1.67||||0.459|TWO_SIDED|95.0|-2.77|6.11|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||6.11|-2.77|0.459
82640505|NCT01694849|164995724|SUPERIORITY||Difference in least square mean change|-0.67||||0.764|TWO_SIDED|95.0|-5.06|3.72|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.72|-5.06|0.764
82387953|NCT02046005|164486654|SUPERIORITY||Risk Ratio (RR)|1.23||||0.043|TWO_SIDED|95.0|1.01|1.51||We compared the PRE-RA group (PRE-RA arm and PRE-RA Plus arm combined) to the Comparison arm for the primary composite outcome at the 3 primary post-intervention time points using generalized estimating equations (GEE).|generalized estimating equations||PRE-RA group (combined PRE-RA arm and PRE-RA Plus arm) compared to Comparison arm (reference)|"In the primary analysis, we combined the PRE-RA and PRE-RA Plus arms into a single PRE-RA group and compared it to the Comparison arm (aka General Rheumatoid Arthritis Education)"||1.51|1.01|0.043
82387954|NCT01729338|164486665|SUPERIORITY_OR_OTHER|||||||0.45||||||Compared baseline to 3 months|paired t-test|||||||0.45
82387955|NCT01729338|164486665|SUPERIORITY_OR_OTHER|||||||0.19|||||||paired t-test|compares baseline to month 5||||||0.19
82387956|NCT01729338|164486666|SUPERIORITY_OR_OTHER|||||||0.1||||||baseline, 3 month|paired t-test|||||||0.1
82387957|NCT01729338|164486666|SUPERIORITY_OR_OTHER|||||||0.09|||||||paired t-test|baseline, month 5||||||0.09
82387958|NCT04532619|164486672|SUPERIORITY||Slope|0.5||||0.014|TWO_SIDED|95.0|0.1|0.89||Computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.89|0.10|0.014
82387959|NCT04532619|164486673|SUPERIORITY||Slope|-0.05||||0.8|TWO_SIDED|95.0|-0.41|0.32||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.32|-0.41|0.80
82387960|NCT04532619|164486674|SUPERIORITY||Slope|-0.29||||0.009|TWO_SIDED|95.0|-0.51|-0.07||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||-0.07|-0.51|0.009
82425747|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425748|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82572861|NCT04211389|164855738|SUPERIORITY|WI-NRS Success at Week 8 Odds Ratio|Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.07|6.23|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common OR stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|||6.23|2.07|<0.0001
82387961|NCT04532619|164486675|SUPERIORITY||Slope|0.17||||0.118|TWO_SIDED|95.0|-0.04|0.38||calculated p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.38|-0.04|0.118
82387962|NCT04532619|164486676|SUPERIORITY||Odds Ratio, log|-0.9|STANDARD_ERROR_OF_MEAN|0.77||0.24|TWO_SIDED|||||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology. A logistic link function was used for this binary outcome.||||.24
82387963|NCT04532619|164486677|SUPERIORITY||Slope|-1.33||||0.43|TWO_SIDED|95.0|-4.64|1.98||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||1.98|-4.64|0.43
82387964|NCT04532619|164486678|SUPERIORITY||Slope|-2.06||||0.07|TWO_SIDED|95.0|-4.27|0.15||computed p-value|Mixed Models Analysis|||We used a multilevel models to produce regression estimates. We used multiple imputation. Intervention enrollment was coded as 1 and enrollment in the control arm was coded as 0. We accounted for baseline values and psychopathology.||0.15|-4.27|0.07
82387965|NCT00769067|164486693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.657||||0.012|TWO_SIDED|95.0|0.472|0.914||2-Sided.|Log Rank|Adjusted for the stratification factors: EGFR status, KRAS status and baseline ECOG performance status.|The estimated HR was for the Dacomitinib arm versus the Erlotinib arm.|"Total 128 events (progression/death) provided 80% power to detect a hazard ratio (HR) of 1.45 (Erlotinib versus Dacomitinib arm) with 1-sided alpha=0.10.This represented a 45% improvement in true median PFS.~HR and 95% confidence interval estimated from stratified Cox Regression;2-sided p-value was based on stratified log-rank test with epidermal growth factor receptor (EGFR) status, Kirsten Rat Sarcoma status (KRAS), baseline Eastern Cooperative Oncology Group (ECOG) as stratification factors"||0.914|0.472|0.012
82387966|NCT00769067|164486694|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||2-Sided.|Chi-squared|Unadjusted.||||||0.011
82387967|NCT00769067|164486697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.822||||0.252|TWO_SIDED|95.0|0.587|1.151||2-Sided.|Log Rank|Adjusted by stratification factors: EGFR status, KRAS status and baseline ECOG performance status.|The estimated HR was for the Dacomitinib arm versus the Erlotinib arm.|HR and its 95% confidence interval were estimated from stratified Cox Regression and 2-sided p-value was based on the stratified log-rank test with EGFR status, KRAS status and baseline ECOG as stratification factors.||1.151|0.587|0.252
82524758|NCT00514683|164745780|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.16||||0.015|TWO_SIDED|95.0|0.03|0.7||Based on the statistic of ln(risk ratio) having a normal distribution N\[0,\[ (1/number with at least one exacerbation in Nintedanib group) + (1//number with at least one exacerbation in placebo) \] \]|Negative binomial model|Default log link function and adjusted for an off-set variable (logarithm of the follow-up time), for gender, height, age and region as fixed effects.|Risk ratio lower than 1 favours the treatment group over placebo.|||0.70|0.03|0.0150
82387968|NCT01058993|164486700|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|Student t-test-comparison means of normal subjects \& controls.||||||<0.05
82387969|NCT01058993|164486700|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Ratio paired t-test|Ratio paired t-test for comparison of baselines and responses for each category of leukocytes||The patients' leukocyte counts before and after plerixafor were compared.||||<0.05
82387970|NCT03214380|164486741|NON_INFERIORITY|Non-inferiority Margin = 0.4 for HbA1c|Least Square Mean Difference (LSMean)|0.06|||||TWO_SIDED|95.0|-0.05|0.16||||||||0.16|-0.05|
82572862|NCT04211389|164855739|SUPERIORITY||Mean Difference (Final Values)|-26.0|||<|0.0001|TWO_SIDED|95.0|-31.9|-20.0|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|LS Mean Difference at Week 4||-20.0|-31.9|<0.0001
82640506|NCT01694849|164995725|SUPERIORITY||Difference in least square mean change|-12.92||||0.466|TWO_SIDED|95.0|-47.79|21.95|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||21.95|-47.79|0.466
82387971|NCT03214380|164486742|SUPERIORITY||Mean Difference (Net)|-11.8|||<|0.001|TWO_SIDED|95.0|-18.1|-5.5|||ANCOVA|||||-5.5|-18.1|<0.001
82387972|NCT03214380|164486743|SUPERIORITY||Mean Difference (Net)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.3|-9.5|||ANCOVA|||||-9.5|-25.3|<0.001
82387973|NCT03692325|164486765|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82387974|NCT04481191|164486772|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-4.0|0.9||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use Group % - Staggered-use Group %||0.9|-4.0|< 0.001
82387975|NCT04481191|164486772|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-4.3|1.5||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use Group % - Staggered-use Group %||1.5|-4.3|< 0.001
82425749|NCT00402987|164560355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.336||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.336
82524759|NCT00514683|164745781|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.8282|TWO_SIDED|95.0|0.347|2.336|||Negative binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||2.336|0.347|0.8282
82425750|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82572863|NCT04211389|164855739|SUPERIORITY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-33.2|-19.7|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|LS Mean Difference at Week 8||-19.7|-33.2|<0.0001
82443711|NCT05160766|164596007|OTHER||Difference of means in percent|1.636|STANDARD_ERROR_OF_MEAN|10.187||0.87323|TWO_SIDED|95.0|-18.969|22.241|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.1 (omicron)."|22.241|-18.969|0.87323
82443712|NCT05160766|164596007|OTHER||Difference of means in percent|0.81|STANDARD_ERROR_OF_MEAN|9.848||0.93489|TWO_SIDED|95.0|-19.109|20.728|||ANCOVA|||This statistical analysis relfects Part A of the study.|"The above provided values refer to the variant BA.4 (omicron)."|20.728|-19.109|0.93489
82640507|NCT01694849|164995725|SUPERIORITY||Difference in least square mean change|-5.82||||0.745|TWO_SIDED|95.0|-41.07|29.42|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||29.42|-41.07|0.745
82640508|NCT01694849|164995726|SUPERIORITY||Difference in least square mean change|-26.57||||0.018|TWO_SIDED|95.0|-48.59|-4.54|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG19||-4.54|-48.59|0.018
82640509|NCT01694849|164995726|SUPERIORITY||Difference in least square mean change|-40.39|||<|0.001|TWO_SIDED|95.0|-62.61|-18.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG19||-18.17|-62.61|<0.001
82640510|NCT01694849|164995726|SUPERIORITY||Difference in least square mean change|190.07||||0.101|TWO_SIDED|95.0|-37.38|417.52|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG21||417.52|-37.38|0.101
82640511|NCT01694849|164995726|SUPERIORITY||Difference in least square mean change|228.33||||0.052|TWO_SIDED|95.0|-2.16|458.82|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|FG21||458.82|-2.16|0.052
82640512|NCT01694849|164995727|SUPERIORITY||Difference in least square mean change|-0.14||||0.002|TWO_SIDED|95.0|-0.29|-0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.01|-0.29|0.002
82640513|NCT01694849|164995727|SUPERIORITY||Difference in least square mean change|-0.24|||<|0.001|TWO_SIDED|95.0|-0.34|-0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.15|-0.34|<0.001
82640514|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|-16.54||||0.203|TWO_SIDED|95.0|-42.07|8.98|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Hyaluronic acid||8.98|-42.07|0.203
82640515|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|-6.79||||0.603|TWO_SIDED|95.0|-32.49|18.9|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||18.9|-32.49|0.603
82443713|NCT05160766|164596007|OTHER||Difference of means in percent|3.511|STANDARD_ERROR_OF_MEAN|10.845||0.74784|TWO_SIDED|95.0|-18.425|25.448|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|25.448|-18.425|0.74784
82640516|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|-0.73||||0.235|TWO_SIDED|95.0|-1.95|0.48|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|PIIINP||0.48|-1.95|0.235
82640517|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|-0.81||||0.193|TWO_SIDED|95.0|-2.04|0.41|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|PIIINP||0.41|-2.04|0.193
82640518|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|6.21||||0.348|TWO_SIDED|95.0|-6.81|19.22|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|TIMP-1||19.22|-6.81|0.348
82640519|NCT01694849|164995728|SUPERIORITY||Difference in least square mean change|-14.66||||0.029|TWO_SIDED|95.0|-27.81|1.51|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|TIMP-1||1.51|-27.81|0.029
82640520|NCT01694849|164995729|SUPERIORITY||Difference in least square mean change|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.02|-0.07|<0.001
82640521|NCT01694849|164995729|SUPERIORITY||Difference in least square mean change|-0.05|||<|0.001|TWO_SIDED|95.0|-0.08|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.02|-0.08|<0.001
82640522|NCT01694849|164995730|SUPERIORITY||Difference in least square mean change|-0.11|||<|0.001|TWO_SIDED|95.0|-0.15|-0.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.07|-0.15|<0.001
82640523|NCT01694849|164995730|SUPERIORITY||Difference in least square mean change|-0.11|||<|0.001|TWO_SIDED|95.0|-0.15|-0.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.07|-0.15|<0.001
82640524|NCT01694849|164995731|SUPERIORITY||Difference in least square mean change|0.06||||0.471|TWO_SIDED|95.0|-0.11|0.23|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.23|-0.11|0.471
82387976|NCT04481191|164486772|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in percentages (Concomitant-use Group - Staggered-use Group) being \> -10 percentage points (one-sided p-value \< 0.025).|Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|-1.6|3.0||One-sided p-value|Unstratified Miettinen & Nurminen method|||Difference indicates Concomitant-use % - Staggered-use %||3.0|-1.6|< 0.001
82387977|NCT01665157|164486780|SUPERIORITY_OR_OTHER|||||||0.435||||||Not significant|ANOVA|||||||0.435
82387978|NCT01665157|164486781|SUPERIORITY_OR_OTHER|||||||0.046|||||||Chi-squared|||||||0.046
82387979|NCT01665157|164486781|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||"Null hypothesis: Low-residue diet package and 2L PEG vs. Self-controlled diet and 2L PEG provides same preparation quality."||||0.024
82387980|NCT01665157|164486781|SUPERIORITY_OR_OTHER|||||||0.041|||||||Chi-squared|||||||0.041
82524760|NCT00514683|164745781|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.5326|TWO_SIDED|95.0|0.278|1.938|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||1.938|0.278|0.5326
82387981|NCT01665157|164486784|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<0.01
82387982|NCT01665157|164486785|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
82387983|NCT01665157|164486786|SUPERIORITY_OR_OTHER|||||||0.025|||||||Chi-squared|||||||0.025
82387984|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.13|1.37||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the health messages would not elicit different levels of perceived message effectiveness compared to the neutral messages.||1.37|1.13|<0.001
82524761|NCT00514683|164745781|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.1944|TWO_SIDED|95.0|0.167|1.438|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||1.438|0.167|0.1944
82387985|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.03|1.26||The p-value was not adjusted for multiple comparisons. The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the environment messages would not elicit different perceived message effectiveness than the control messages.||1.26|1.03|<.001
82387986|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|1.17|1.41||The p-value was not adjusted for multiple comparisons. The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|||The null hypothesis was that the health and environment messages would not elicit different perceived message effectiveness than the control messages.||1.41|1.17|<0.001
82387987|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.062||0.1892|TWO_SIDED|95.0|-0.018|0.223||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||.223|-0.018|.1892
82387988|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.62||0.47|TWO_SIDED|95.0|-0.17|0.08||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||.08|-.17|.47
82387989|NCT06175026|164486821|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.062||0.051|TWO_SIDED|95.0|-0.27|-0.03||This p-value was adjusted for multiple comparisons (considering 3 tests among intervention arms) using the Bonferroni Holm method.|Mixed Models Analysis|||||-.03|-.27|.051
82425751|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425752|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.090
82425753|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.518||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.518
82425754|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.038
82387990|NCT02225860|164486825|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||"The analysis of the primary and secondary outcome was based on an intention to treat principle. Copeptin was measured in each subject at baseline and week 2 and the change from baseline to end point (delta) was calculated for all subjects. The delta copeptin between subjects in the intervention and control arms was compared with a two sample t test for independent groups. One sample t-tests of the delta were used to examine whether there was any change over time for each group separately."||||<0.01
82572864|NCT00763451|164855800|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED|95.0|-0.583|-0.232||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|Threshold for significance at 0,05 level||"To detect a difference of 0.5% (or 0.4%) in absolute change from baseline in HbA1c at Week 24 between 1 lixisenatide arm and placebo (combined), 150 patients per group would provide a power of 91% (or 75%) assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.~Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%) and screening BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.232|-0.583|<0.0001
82572865|NCT00763451|164855800|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.67|-0.317||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|Threshold for significance at 0,05 level||"To detect a difference of 0.5% (or 0.4%) in absolute change from baseline in HbA1c at Week 24 between 1 lixisenatide arm and placebo (combined), 150 patients per group would provide a power of 91% (or 75%) assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.~Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%) and screening BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.317|-0.670|<0.0001
82387991|NCT02225860|164486826|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||"The analysis of the primary and secondary outcome was based on an intention to treat principle. Copeptin was measured in each subject at baseline and week 2 and the change from baseline to end point (delta) was calculated for all subjects. The delta copeptin between subjects in the intervention and control arms was compared with a two sample t test for independent groups. One sample t-tests of the delta were used to examine whether there was any change over time for each group separately."||||<0.01
82387992|NCT01250873|164486830|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.17|||||TWO_SIDED|90.0|1.06|1.3|||ANOVA|||||1.30|1.06|
82572866|NCT02357264|164855818|OTHER|||||||0.162|||||||Fisher Exact|||||||.162
82572867|NCT05594589|164855819|SUPERIORITY||Least Squares Geometric Mean(LSGM) Ratio|0.377||||0.0133|TWO_SIDED|95.0|0.175|0.81|||ANCOVA|P-value was based on analysis of covariance (ANCOVA) model with log transformation of baseline LPS and treatment arms as fixed effects.|LSGM ratio was calculated as Lemborexant 5 mg/Placebo.|||0.810|0.175|0.0133
82572868|NCT05594589|164855820|SUPERIORITY||LSGM Ratio|0.48||||0.0619|TWO_SIDED|95.0|0.222|1.038|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSGM ratio was calculated as Lemborexant 10 mg/Placebo.|||1.038|0.222|0.0619
82387993|NCT01250873|164486831|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.14|||||TWO_SIDED|90.0|1.01|1.28|||ANOVA|||||1.28|1.01|
82572869|NCT05594589|164855821|SUPERIORITY||Least Square Mean (LSM) Difference|7.38||||0.0689|TWO_SIDED|95.0|-0.59|15.35|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSM difference was calculated as Lemborexant 5 mg - Placebo.|||15.35|-0.59|0.0689
82572870|NCT05594589|164855822|SUPERIORITY||LSM Difference|8.16||||0.0439|TWO_SIDED|95.0|0.23|16.09|||ANCOVA|P-value was based on ANCOVA model with log transformation of baseline LPS and treatment arms as fixed effects.|LSM difference was calculated as Lemborexant 10 mg - Placebo.|||16.09|0.23|0.0439
82572871|NCT01062971|164855836|NON_INFERIORITY|Noninferiority was determined if the treatments did not show differences greater than 20%||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82572872|NCT01062971|164855837|NON_INFERIORITY|Noninferiority was determined if the treatments did not show differences greater than 20%.|||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82387994|NCT01250873|164486832|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8281|TWO_SIDED|90.0|-0.5|1.0|||Wilcoxon (Mann-Whitney)|||||1.00|-0.50|0.8281
82387995|NCT01250873|164486833|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.27|||||TWO_SIDED|90.0|1.17|1.39|||ANOVA|||||1.39|1.17|
82572873|NCT01182207|164855855|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.74|||||TWO_SIDED|90.0|86.82|107.79|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.79|86.82|
82640525|NCT01694849|164995731|SUPERIORITY||Difference in least square mean change|-0.25||||0.005|TWO_SIDED|95.0|-0.42|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.08|-0.42|0.005
82387996|NCT01250873|164486834|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.22|||||TWO_SIDED|90.0|1.1|1.36|||ANOVA|||||1.36|1.10|
82387997|NCT01250873|164486835|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.3125|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|0.00|0.3125
82387998|NCT02278939|164486837|SUPERIORITY|||||||0.003||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for unequal group sample sizes|ANOVA|||Hypothesis: the intervention group will have a significantly greater reduction in weight (kg) compared to the control from baseline to 3-months||||0.003
82387999|NCT02278939|164486838|SUPERIORITY|||||||0.001||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for unequal group sample sizes|ANOVA|||Hypothesis: the intervention group will have a statistically greater reduction in percent weight compared to the control from baseline to 3-months||||.001
82388000|NCT02278939|164486839|SUPERIORITY|||||||0.002||||||This was an intention to treat analysis using the Tukey-Kramer adjustment to account for differences in group sample sizes|ANOVA|||Hypothesis: the intervention group will have a statistically greater reduction in BMI compared to the control from baseline to 3 months||||.002
82388001|NCT00930774|164486857|SUPERIORITY_OR_OTHER|||||||0.527|||||||ANOVA|df = 3,83; F=0.748||||||0.527
82388002|NCT00930774|164486858|SUPERIORITY_OR_OTHER|||||||0.835|||||||ANOVA|df = 3,83; F=0.286||||||0.835
82388003|NCT00930774|164486859|SUPERIORITY_OR_OTHER|||||||0.983|||||||ANOVA|df = 3,83; F=0.054||||||0.983
82388004|NCT00930774|164486860|SUPERIORITY_OR_OTHER|||||||0.554||||||df = 3,83; F=0.701|ANOVA|||||||0.554
82388005|NCT00930774|164486861|SUPERIORITY_OR_OTHER|||||||0.757||||||df = 3,83; F=0.395|ANOVA|||||||0.757
82388006|NCT00930774|164486862|SUPERIORITY_OR_OTHER|||||||0.302|||||||ANOVA|df = 3,83; F=1.236||||||0.302
82388007|NCT00930774|164486863|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|df = 3,83. F=6.343||||||0.001
82388008|NCT00930774|164486863|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82388009|NCT00930774|164486864|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANOVA|df = 3,83; F=3.797||||||0.013
82388010|NCT00930774|164486864|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82388011|NCT02217410|164486871|OTHER||Mean Difference (Final Values)|0.095||||0.8976|TWO_SIDED|95.0|-0.067|0.263|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 3|||0.263|-0.067|0.8976
82388012|NCT02217410|164486871|OTHER||Mean Difference (Final Values)|0.093||||0.8836|TWO_SIDED|95.0|-0.084|0.271|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 6|||0.271|-0.084|0.8836
82388013|NCT02217410|164486871|OTHER||Mean Difference (Final Values)|0.093||||0.8822|TWO_SIDED|95.0|-0.085|0.272|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 9|||0.272|-0.085|0.8822
82388014|NCT02217410|164486871|OTHER||Mean Difference (Final Values)|0.093||||0.8821|TWO_SIDED|95.0|-0.087|0.273|||Bayesian posterior probability|Posterior probability that the composite efficacy failure difference between CFZ533 and Tac is \< 20%.|Month 12|||0.273|-0.087|0.8821
82388015|NCT03521115|164486883|SUPERIORITY||Odds Ratio (OR)|0.4|||<|0.01|TWO_SIDED||||||Regression, Logistic|b=-.91, controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
82388016|NCT03521115|164486883|SUPERIORITY||Odds Ratio (OR)|0.58|||<|0.1|TWO_SIDED||||||Regression, Logistic||Controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.10
82388017|NCT03521115|164486883|SUPERIORITY||Chi-Square|5.129||||0.077|TWO_SIDED||||||Chi-squared|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||.077
82425755|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.019
82425756|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82388018|NCT03521115|164486884|SUPERIORITY||b|-0.47|||<|0.001|TWO_SIDED||||||Regression, Linear|Controled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.001
82388019|NCT03521115|164486884|SUPERIORITY||b|-0.97|||<|0.01|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
82388020|NCT03521115|164486884|SUPERIORITY||F|0.85|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
82388021|NCT03521115|164486885|SUPERIORITY||b|-0.22|||<|0.1|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.10
82388022|NCT03521115|164486885|SUPERIORITY||b|-0.24|||<|0.05|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
82388023|NCT03521115|164486885|SUPERIORITY||F|0.43|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
82524762|NCT00514683|164745781|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22||||0.0324|TWO_SIDED|95.0|0.056|0.882|||Negative Binomial model||Risk ratio is actually Rate Ratio. Rate ratio is calculated based on Negative binomial model with default log link function and adjusted for an off-set variable and age, height, gender, region (all effects fixed).|||0.882|0.056|0.0324
82443714|NCT05160766|164596007|OTHER||Difference of means in percent|2.088|STANDARD_ERROR_OF_MEAN|10.409||0.84202|TWO_SIDED|95.0|-18.966|23.143|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.5 (omicron)."|23.143|-18.966|0.84202
82443715|NCT05160766|164596007|OTHER||Difference of means in percent|5.807|STANDARD_ERROR_OF_MEAN|4.068||0.15477|TWO_SIDED|95.0|-2.207|13.821|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.1.7 (alpha)."|13.821|-2.207|0.15477
82524763|NCT00514683|164745782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.5206|TWO_SIDED|95.0|0.326|1.765|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.765|0.326|0.5206
82443716|NCT05160766|164596007|OTHER||Difference of means in percent|3.52|STANDARD_ERROR_OF_MEAN|3.984||0.37773|TWO_SIDED|95.0|-4.327|11.368|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.351 (beta)."|11.368|-4.327|0.37773
82388024|NCT03521115|164486886|SUPERIORITY||b|-0.16|||<|0.1|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<.10
82388025|NCT03521115|164486886|SUPERIORITY||b|-0.26|||<|0.05|TWO_SIDED||||||Regression, Linear|Controlled for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.||12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
82388026|NCT03521115|164486886|SUPERIORITY||F|1.55|||>|0.1|TWO_SIDED||||||ANOVA|||18 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. All controls were assigned 0 dosage.||||>0.10
82388027|NCT03521115|164486887|SUPERIORITY||b|-0.35|||<|0.05|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|6 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
82388028|NCT03521115|164486887|SUPERIORITY||b|-0.02|||>|0.1|TWO_SIDED||||||Regression, Linear||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|12 month follow-up. Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing only the communication, and 2 for completing the alcohol component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
82425757|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425758|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.081||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.081
82640526|NCT01694849|164995732|SUPERIORITY||Difference in least square mean change|-0.07||||0.457|TWO_SIDED|95.0|-0.27|0.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.12|-0.27|0.457
82425759|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.552
82640527|NCT01694849|164995732|SUPERIORITY||Difference in least square mean|-0.08||||0.428|TWO_SIDED|95.0|-0.28|0.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.12|-0.28|0.428
82425760|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.050
82640528|NCT01694849|164995733|SUPERIORITY||Difference in least square mean change|-9.22|||<|0.001|TWO_SIDED|95.0|-13.19|-5.24|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-5.24|-13.19|<0.001
82640529|NCT01694849|164995733|SUPERIORITY||Difference in least square mean change|-9.08|||<|0.001|TWO_SIDED|95.0|-13.12|-5.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-5.04|-13.12|<0.001
82640530|NCT01694849|164995734|SUPERIORITY||Difference in least square mean change|0.02||||0.531|TWO_SIDED|95.0|-0.05|0.09|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.09|-0.05|0.531
82640531|NCT01694849|164995734|SUPERIORITY||Difference in least square mean change|-0.02||||0.638|TWO_SIDED|95.0|-0.08|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.08|0.638
82640532|NCT01694849|164995735|SUPERIORITY||Difference in least square mean change|-0.14||||0.831|TWO_SIDED|95.0|-1.39|1.12|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Total bilirubin||1.12|-1.39|0.831
82640533|NCT01694849|164995735|SUPERIORITY||Difference in least square mean change|0.2||||0.754|TWO_SIDED|95.0|-1.07|1.47|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Total bilirubin||1.47|-1.07|0.754
82640534|NCT01694849|164995735|SUPERIORITY||Difference in least square mean change|-0.03||||0.848|TWO_SIDED|95.0|-0.36|0.3|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Conjugated Bilirubin||0.3|-0.36|0.848
82640535|NCT01694849|164995735|SUPERIORITY||Difference in least square mean change|0.11||||0.511|TWO_SIDED|95.0|-0.22|0.45|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Conjugated Bilirubin||0.45|-0.22|0.511
82640536|NCT01694849|164995736|SUPERIORITY||Difference in least square mean change|-2.83||||0.075|TWO_SIDED|95.0|-5.95|0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.29|-5.95|0.075
82640537|NCT01694849|164995736|SUPERIORITY||Difference in least square mean change|-1.11||||0.491|TWO_SIDED|95.0|-4.29|2.07|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||2.07|-4.29|0.491
82640538|NCT01694849|164995737|SUPERIORITY||Difference in least square mean change|-0.03||||0.393|TWO_SIDED|95.0|-0.1|0.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.04|-0.1|0.393
82640539|NCT01694849|164995737|SUPERIORITY||Difference in least square mean change|-0.04||||0.289|TWO_SIDED|95.0|-0.11|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|-0.11|0.289
82640540|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.47|||<|0.001|TWO_SIDED|95.0|-0.73|-0.21|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Triglycerides||-0.21|-0.73|<0.001
82640541|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.55|||<|0.001|TWO_SIDED|95.0|-0.81|-0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Triglycerides||-0.29|-0.81|<0.001
82640542|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.35||||0.001|TWO_SIDED|95.0|-0.56|-0.14|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Cholesterol||-0.14|-0.56|0.001
82640543|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.43|||<|0.001|TWO_SIDED|95.0|-0.64|-0.23|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Cholesterol||-0.23|-0.64|<0.001
82640544|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.46|||<|0.001|TWO_SIDED|95.0|-0.67|-0.24|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Non-high Density Lipoproteins Cholesterol||-0.24|-0.67|<0.001
82640545|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.32|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Non-high Density Lipoproteins Cholesterol||-0.32|-0.75|<0.001
82640546|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|0.09||||0.005|TWO_SIDED|95.0|0.03|0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|High Density Lipoproteins Cholesterol||0.15|0.03|0.005
82640547|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|0.11|||<|0.001|TWO_SIDED|95.0|0.05|0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|High Density Lipoproteins Cholesterol||0.17|0.05|<0.001
82640548|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.18|||<|0.001|TWO_SIDED|95.0|-0.26|-0.11|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Very Low Density Lipoproteins Cholesterol||-0.11|-0.26|<0.001
82640549|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.17|||<|0.001|TWO_SIDED|95.0|-0.25|-0.09|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Very Low Density Lipoproteins Cholesterol||-0.09|-0.25|<0.001
82443717|NCT05160766|164596007|OTHER||Difference of means in percent|4.413|STANDARD_ERROR_OF_MEAN|4.18||0.29212|TWO_SIDED|95.0|-3.821|12.647|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.1 (gamma)."|12.647|-3.821|0.29212
82443718|NCT05160766|164596007|OTHER||Difference of means in percent|5.961|STANDARD_ERROR_OF_MEAN|4.04||0.1414|TWO_SIDED|95.0|-1.998|13.919|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.1 (omicron)."|13.919|-1.998|0.14140
82640550|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.2||||0.031|TWO_SIDED|95.0|-0.38|-0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Low Density Lipoproteins Cholesterol||-0.02|-0.38|0.031
82443719|NCT05160766|164596007|OTHER||Difference of means in percent|2.199|STANDARD_ERROR_OF_MEAN|3.875||0.5709|TWO_SIDED|95.0|-5.434|9.832|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4 (omicron)."|9.832|-5.434|0.57090
82572874|NCT01182207|164855856|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.16|||||TWO_SIDED|90.0|101.1|105.27|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.27|101.10|
82443720|NCT05160766|164596007|OTHER||Difference of means in percent|6.528|STANDARD_ERROR_OF_MEAN|4.071||0.11012|TWO_SIDED|95.0|-1.491|14.548|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.4.6 (omicron)."|14.548|-1.491|0.11012
82572875|NCT01182207|164855857|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.72|||||TWO_SIDED|90.0|100.67|104.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.80|100.67|
82572876|NCT01182207|164855858|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.6|||||TWO_SIDED|90.0|89.45|106.5|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106.50|89.45|
82572877|NCT01182207|164855859|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.88|||||TWO_SIDED|90.0|95.62|102.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.25|95.62|
82572878|NCT01182207|164855860|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.2|||||TWO_SIDED|90.0|95.36|101.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.12|95.36|
82572879|NCT03522389|164855920|SUPERIORITY|||||||0.003|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.003
82572880|NCT03522389|164855920|SUPERIORITY||||||<|0.001|||||||ANOVA|||1-month follow up - Baseline (T3-T1)||||<0.001
82572881|NCT03522389|164855920|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82572882|NCT03522389|164855920|SUPERIORITY|||||||0.006|||||||ANOVA|||Within group comparison||||0.006
82572883|NCT03522389|164855920|SUPERIORITY|||||||0.793|||||||ANOVA|||Within group comparison||||0.793
82572884|NCT03522389|164855921|SUPERIORITY||||||<|0.001|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||<0.001
82572885|NCT03522389|164855921|SUPERIORITY|||||||0.039|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.039
82572886|NCT03522389|164855921|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82572887|NCT03522389|164855921|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
82572888|NCT03522389|164855921|SUPERIORITY|||||||0.117|||||||ANOVA|||Within group comparison||||0.117
82572889|NCT03522389|164855922|SUPERIORITY|||||||0.924|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.924
82572890|NCT03522389|164855922|SUPERIORITY|||||||0.855|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.855
82572891|NCT03522389|164855922|SUPERIORITY|||||||0.937|||||||ANOVA|||Within group comparison||||0.937
82572892|NCT03522389|164855922|SUPERIORITY|||||||0.97|||||||ANOVA|||Within group comparison||||0.970
82572893|NCT03522389|164855922|SUPERIORITY|||||||0.242|||||||ANOVA|||Within group comparison||||0.242
82572894|NCT03522389|164855923|SUPERIORITY|||||||0.161|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.161
82572895|NCT03522389|164855923|SUPERIORITY|||||||0.161|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.161
82572896|NCT03522389|164855923|SUPERIORITY|||||||0.076|||||||ANOVA|||Within group comparison||||0.076
82572897|NCT03522389|164855923|SUPERIORITY|||||||0.211|||||||ANOVA|||Within group comparison||||0.211
82572898|NCT03522389|164855923|SUPERIORITY|||||||0.573|||||||ANOVA|||Within group comparison||||0.573
82572899|NCT03522389|164855924|SUPERIORITY|||||||0.445|||||||ANOVA|||After 4 weeks of training - Baseline (T2-T1)||||0.445
82572900|NCT03522389|164855924|SUPERIORITY|||||||0.046|||||||ANOVA|||1-month follow-up - Baseline (T3-T1)||||0.046
82572901|NCT03522389|164855924|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within group comparison||||<0.001
82425761|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.027
82572902|NCT03522389|164855924|SUPERIORITY|||||||0.028|||||||ANOVA|||Within group comparison||||0.028
82572903|NCT03522389|164855924|SUPERIORITY|||||||0.002|||||||ANOVA|||Within group comparison||||0.002
82572904|NCT04750577|164855925|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0245|||||||MCP-Mod exponential model fit|Model assumption: 20% of the maximum effect is achieved at 3 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0245
82572905|NCT04750577|164855925|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0294|||||||MCP-Mod linear model fit|Model assumption: No assumption was needed.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0294
82524764|NCT00514683|164745782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841||||0.6862|TWO_SIDED|95.0|0.362|1.952|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.952|0.362|0.6862
82640551|NCT01694849|164995738|SUPERIORITY||Difference in least square mean change|-0.24||||0.009|TWO_SIDED|95.0|-0.42|-0.06|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Low Density Lipoproteins Cholesterol||-0.06|-0.42|0.009
82640552|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|5.73||||0.038|TWO_SIDED|95.0|0.31|11.14|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo A1||11.14|0.31|0.038
82640553|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|7.07||||0.012|TWO_SIDED|95.0|1.59|12.55|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo A1||12.55|1.59|0.012
82640554|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-12.41|||<|0.001|TWO_SIDED|95.0|-17.56|-7.25|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo B||-7.25|-17.56|<0.001
82640555|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-9.61|||<|0.001|TWO_SIDED|95.0|-14.81|-4.41|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo B||-4.41|-14.81|<0.001
82640556|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|3.55|||<|0.001|TWO_SIDED|95.0|2.14|4.96|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo AII||4.96|2.14|<0.001
82640557|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|6.1|||<|0.001|TWO_SIDED|95.0|4.67|7.53|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo AII||7.53|4.67|<0.001
82640558|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-2.27|||<|0.001|TWO_SIDED|95.0|-3.29|-1.25|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII||-1.25|-3.29|<0.001
82640559|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.5||||0.004|TWO_SIDED|95.0|-2.52|-0.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII||-0.49|-2.52|0.004
82388029|NCT03521115|164486888|SUPERIORITY||b|0.299|||<|0.01|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.01
82524765|NCT00514683|164745782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.517||||0.1891|TWO_SIDED|95.0|0.193|1.384|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.384|0.193|0.1891
82640560|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.78|||<|0.001|TWO_SIDED|95.0|-2.63|-0.92|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/B||-0.92|-2.63|<0.001
82640561|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.15||||0.009|TWO_SIDED|95.0|-2.0|-0.29|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/B||-0.29|-2|0.009
82640562|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-0.46||||0.002|TWO_SIDED|95.0|-0.75|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/nonB||-0.17|-0.75|0.002
82640563|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-0.39||||0.008|TWO_SIDED|95.0|-0.68|-0.1|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo CIII/nonB||-0.1|-0.68|0.008
82640564|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-2.35||||0.069|TWO_SIDED|95.0|-4.89|0.19|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Small dense Low Density Lipoproteins||0.19|-4.89|0.069
82640565|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-3.39||||0.01|TWO_SIDED|95.0|-5.95|-0.84|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Small dense Low Density Lipoproteins||-0.84|-5.95|0.01
82524766|NCT00514683|164745782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.158||||0.0161|TWO_SIDED|95.0|0.035|0.711|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||0.711|0.035|0.0161
82640566|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|0.84||||0.549|TWO_SIDED|95.0|-1.93|3.61|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Lp(a)||3.61|-1.93|0.549
82524767|NCT00514683|164745783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.173||||0.7449|TWO_SIDED|95.0|0.448|3.072|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||3.072|0.448|0.7449
82640567|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|0.49||||0.728|TWO_SIDED|95.0|-2.28|3.26|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Lp(a)||3.26|-2.28|0.728
82388030|NCT03521115|164486889|SUPERIORITY||b|0.268|||<|0.03|TWO_SIDED||||||generalized estimating equations|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<.03
82388031|NCT03521115|164486890|SUPERIORITY||b|0.075|||>|0.1|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
82388032|NCT03521115|164486891|SUPERIORITY||b|0.051|||>|0.1|TWO_SIDED||||||generalized estimating equations||controlling for condition (experimental vs. control) , IMR, baseline measure of outcome variable, teen gender, age, \& race.|Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
82524768|NCT00514683|164745783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.316||||0.0925|TWO_SIDED|95.0|0.083|1.209|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.209|0.083|0.0925
82640568|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.38|||<|0.001|TWO_SIDED|95.0|-2.14|-0.61|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E||-0.61|-2.14|<0.001
82388033|NCT03521115|164486892|SUPERIORITY||b|0.72|||<|0.05|TWO_SIDED||||||generalized estimating equations|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||<0.05
82388034|NCT03521115|164486893|SUPERIORITY||||||>|0.1|||||||Chi-squared|||Among those assigned to intervention, dosage was assigned as 0 for no exposure, 1 for completing some of the program, and 2 for completing the relationship component. A probit analysis predicting completion was conducted from baseline measures and an instrumental variable, inverse Mills' ratio (IMR) representing the underlying selection processes was included as a covariate accounting for factors related to program completion. All controls were assigned 0 dosage.||||>0.10
82388035|NCT04590586|164486897|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6672|TWO_SIDED|95.0|0.59|2.35|||Stratified log-rank test|Stratified by baseline score of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), and geographic region.|Hazard ratio (Lanadelumab vs. placebo) from a Cox regression model including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||2.35|0.59|0.6672
82388036|NCT04590586|164486898|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8779|TWO_SIDED|95.0|0.77|1.24|||Stratified log-rank test|Stratified by baseline score of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), and geographic region.|Hazard ratio (apremilast vs. placebo) from a Cox regression model including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.24|0.77|0.8779
82388037|NCT04590586|164486910|OTHER||Risk Difference (RD)|-4.0||||0.3773|TWO_SIDED|95.0|-12.9|4.9|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||4.9|-12.9|0.3773
82388038|NCT04590586|164486910|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.52|1.28|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.28|0.52|
82524769|NCT00514683|164745783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19||||0.0379|TWO_SIDED|95.0|0.04|0.911|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||0.911|0.040|0.0379
82524770|NCT00514683|164745783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.225||||0.06|TWO_SIDED|95.0|0.048|1.065|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.065|0.048|0.0600
82524771|NCT00514683|164745784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.055||||0.7883|TWO_SIDED|95.0|0.713|1.563|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.563|0.713|0.7883
82524772|NCT00514683|164745784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958||||0.8293|TWO_SIDED|95.0|0.646|1.419|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.419|0.646|0.8293
82524773|NCT00514683|164745784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.805||||0.303|TWO_SIDED|95.0|0.534|1.216|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.216|0.534|0.3030
82524774|NCT00514683|164745784|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.6505|TWO_SIDED|95.0|0.605|1.369|||Regression, Cox|Cox regression model with fixed terms for treatment, gender, age, height, region.|Hazard ratio lower than 1 favours the treatment group over placebo.|||1.369|0.605|0.6505
82640569|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.12||||0.004|TWO_SIDED|95.0|-1.89|-0.36|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E||-0.36|-1.89|0.004
82640570|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.18|||<|0.001|TWO_SIDED|95.0|-1.82|-0.53|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E/B||-0.53|-1.82|<0.001
82640571|NCT01694849|164995739|SUPERIORITY||Difference in least square mean change|-1.08||||0.001|TWO_SIDED|95.0|-1.72|-0.43|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Apo E/B||-0.43|-1.72|0.001
82640572|NCT01694849|164995740|SUPERIORITY||Difference in least square mean change|-2.8||||0.066|TWO_SIDED|95.0|-5.79|0.18|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Least square mean changes from baseline|||0.18|-5.79|0.066
82640573|NCT01694849|164995740|SUPERIORITY||Difference in least square mean change|0.77||||0.615|TWO_SIDED|95.0|-2.24|3.77|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.77|-2.24|0.615
82640574|NCT01694849|164995741|SUPERIORITY||Difference in least square mean change|-17.4||||0.307|TWO_SIDED|95.0|-50.88|16.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||16.08|-50.88|0.307
82640575|NCT01694849|164995741|SUPERIORITY||Difference in least square mean change|-21.41||||0.213|TWO_SIDED|95.0|-55.17|12.34|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||12.34|-55.17|0.213
82640576|NCT01694849|164995742|SUPERIORITY||Difference in least square mean change|-0.23||||0.003|TWO_SIDED|95.0|-0.37|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.08|-0.37|0.003
82443721|NCT05160766|164596007|OTHER||Difference of means in percent|4.239|STANDARD_ERROR_OF_MEAN|4.06||0.29755|TWO_SIDED|95.0|-3.759|12.237|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.5 (omicron)."|12.237|-3.759|0.29755
82640577|NCT01694849|164995742|SUPERIORITY||Difference in least square mean change|-0.14||||0.068|TWO_SIDED|95.0|-0.29|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.29|0.068
82640578|NCT01694849|164995743|SUPERIORITY||Difference in least square mean change|-0.8||||0.448|TWO_SIDED|95.0|-2.86|1.27|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.27|-2.86|0.448
82640579|NCT01694849|164995743|SUPERIORITY||Difference in least square mean change|-1.17||||0.267|TWO_SIDED|95.0|-3.25|0.9|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.9|-3.25|0.267
82640580|NCT01694849|164995744|SUPERIORITY||Difference in least square mean change|-0.05||||0.095|TWO_SIDED|95.0|-0.11|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.11|0.095
82640581|NCT01694849|164995744|SUPERIORITY||Difference in least square mean change|-0.07||||0.022|TWO_SIDED|95.0|-0.13|-0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-0.01|-0.13|0.022
82640582|NCT01694849|164995745|SUPERIORITY||Difference in least square mean change|-0.46||||0.077|TWO_SIDED|95.0|-0.96|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.96|0.077
82640583|NCT01694849|164995745|SUPERIORITY||Difference in least square mean change|-0.36||||0.172|TWO_SIDED|95.0|-0.87|0.16|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.16|-0.87|0.172
82640584|NCT01694849|164995746|SUPERIORITY||Difference in least square mean change|-0.04||||0.732|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.17|-0.24|0.732
82388039|NCT04590586|164486911|OTHER||Risk Difference (RD)|-2.9||||0.4846|TWO_SIDED|95.0|-11.2|5.3|||Regression, Logistic||Risk difference is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||5.3|-11.2|0.4846
82388040|NCT04590586|164486911|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.51|1.37|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.37|0.51|
82388041|NCT04590586|164486912|OTHER||Risk Difference (RD)|0.2||||0.9665|TWO_SIDED|95.0|-7.3|7.6|||Regression, Logistic||Risk difference is from a logistic regression including baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||7.6|-7.3|0.9665
82443722|NCT05160766|164596012|OTHER||Difference of means in percent|9.64|STANDARD_ERROR_OF_MEAN|11.191||0.39426|TWO_SIDED|95.0|-12.995|32.275|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant P.2 (gamma)."|32.275|-12.995|0.39426
82388042|NCT04590586|164486912|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.59|1.74|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.74|0.59|
82388043|NCT04590586|164486913|OTHER||Odds Ratio (OR)|1.02||||0.9119|TWO_SIDED|95.0|0.71|1.46|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 8||1.46|0.71|0.9119
82388044|NCT04590586|164486913|OTHER||Odds Ratio (OR)|1.09||||0.6475|TWO_SIDED|95.0|0.75|1.58|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 15||1.58|0.75|0.6475
82640585|NCT01694849|164995746|SUPERIORITY||Difference in least square mean change|-0.2||||0.062|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.4|0.062
82388045|NCT04590586|164486913|OTHER||Odds Ratio (OR)|0.98||||0.9071|TWO_SIDED|95.0|0.64|1.48|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|Day 29||1.48|0.64|0.9071
82388046|NCT04590586|164486914|OTHER||Odds Ratio (OR)|1.15||||0.4507|TWO_SIDED|95.0|0.8|1.66|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.66|0.80|0.4507
82640586|NCT01694849|164995747|SUPERIORITY||Difference in least square mean change|3.66||||0.4|TWO_SIDED|95.0|-4.89|12.2|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||12.2|-4.89|0.4
82388047|NCT04590586|164486915|OTHER||Odds Ratio (OR)|0.99||||0.9741|TWO_SIDED|95.0|0.64|1.53|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.53|0.64|0.9741
82640587|NCT01694849|164995747|SUPERIORITY||Difference in least square mean change|-16.22|||<|0.001|TWO_SIDED|95.0|-24.99|-7.44|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||-7.44|-24.99|<0.001
82640588|NCT01694849|164995748|SUPERIORITY||Difference in least square mean change|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Fibrinogen||-0.17|-0.54|<0.001
82388048|NCT04590586|164486916|OTHER||Odds Ratio (OR)|1.04||||0.8754|TWO_SIDED|95.0|0.64|1.7|||Proportional odds model||Odds ratio (Apremilast vs. Placebo) from a proportional odds model including the baseline clinical severity of 2 on the 8-point ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), region, and treatment arm as factors.|||1.70|0.64|0.8754
82640589|NCT01694849|164995748|SUPERIORITY||Difference in least square mean change|-0.27||||0.005|TWO_SIDED|95.0|-0.46|-0.08|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors||Fibrinogen|Standard error of the least square mean|-0.08|-0.46|0.005
82640590|NCT01694849|164995748|SUPERIORITY||Difference in least square mean change|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Haptoglobin||-0.15|-0.35|<0.001
82640591|NCT01694849|164995748|SUPERIORITY||Difference in least square mean change|-0.27|||<|0.001|TWO_SIDED|95.0|-0.37|-0.17|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Haptoglobin||-0.17|-0.37|<0.001
82640592|NCT01694849|164995749|SUPERIORITY||Difference in least square mean change|0.57||||0.742|TWO_SIDED|95.0|-2.9|4.06|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Tumour Necrosis Factor alpha||4.06|-2.9|0.742
82640593|NCT01694849|164995749|SUPERIORITY||Difference in least square mean change|2.9||||0.107|TWO_SIDED|95.0|-0.63|6.43|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Tumour Necrosis Factor alpha||6.43|-0.63|0.107
82640594|NCT01694849|164995749|SUPERIORITY||Difference in least square mean change|0.5||||0.362|TWO_SIDED|95.0|-0.58|1.59|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Interleukine 6||1.59|-0.58|0.362
82640595|NCT01694849|164995749|SUPERIORITY||Difference in least square mean change|0.07||||0.894|TWO_SIDED|95.0|-1.03|1.18|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|Interleukine 6||1.18|-1.03|0.894
82640596|NCT01694849|164995750|SUPERIORITY||Difference in least square mean change|-0.76||||0.229|TWO_SIDED|95.0|-2.0|0.48|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.48|-2|0.229
82640597|NCT01694849|164995750|SUPERIORITY||Difference in least square mean change|-0.45||||0.463|TWO_SIDED|95.0|-1.67|0.76|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.76|-1.67|0.463
82640598|NCT01694849|164995751|SUPERIORITY||Difference in least square mean change|-0.21||||0.065|TWO_SIDED|95.0|-0.42|0.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.01|-0.42|0.065
82640599|NCT01694849|164995751|SUPERIORITY||Difference in least square mean change|-0.19||||0.098|TWO_SIDED|95.0|-0.41|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|-0.41|0.098
82640600|NCT01694849|164995752|SUPERIORITY||Difference in least square mean change|0.7||||0.553|TWO_SIDED|95.0|-1.61|3.01|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.01|-1.61|0.553
82640601|NCT01694849|164995752|SUPERIORITY||Difference in least square mean change|4.31|||<|0.001|TWO_SIDED|95.0|1.97|6.64|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||6.64|1.97|<0.001
82640602|NCT01694849|164995753|SUPERIORITY||Difference in least square mean change|0.04||||0.861|TWO_SIDED|95.0|-0.37|0.44|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.44|-0.37|0.861
82640603|NCT01694849|164995753|SUPERIORITY||Difference in least square mean change|-0.4||||0.052|TWO_SIDED|95.0|-0.81|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|-0.81|0.052
82640604|NCT01694849|164995754|SUPERIORITY||Difference in least square mean change|0.01||||0.473|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.02|-0.01|0.473
82640605|NCT01694849|164995754|SUPERIORITY||Difference in least square mean change|0.01||||0.124|TWO_SIDED|95.0|0.0|0.03|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.03|0|0.124
82640606|NCT01694849|164995755|SUPERIORITY||Difference in least square mean change|0.81|||<|0.001|TWO_SIDED|95.0|0.47|1.15|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.15|0.47|<0.001
82640607|NCT01694849|164995755|SUPERIORITY||Difference in least square mean change|0.85|||<|0.001|TWO_SIDED|95.0|0.5|1.19|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.19|0.5|<0.001
82640608|NCT01694849|164995756|SUPERIORITY||Difference in least square mean change|0.0||||0.842|TWO_SIDED|95.0|-0.04|0.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.04|-0.04|0.842
82640609|NCT01694849|164995756|SUPERIORITY||Difference in least square mean change|0.01||||0.589|TWO_SIDED|95.0|-0.03|0.05|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0.05|-0.03|0.589
82640610|NCT01694849|164995757|SUPERIORITY||Difference in least square mean change|48.93||||0.325|TWO_SIDED|95.0|-8.73|146.6|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||146.6|-8.73|0.325
82640611|NCT01694849|164995757|SUPERIORITY||Difference in least square mean change|93.21||||0.066|TWO_SIDED|95.0|-6.06|192.49|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||192.49|-6.06|0.066
82640612|NCT01694849|164995758|SUPERIORITY||Difference in least square mean change|2.41|||<|0.001|TWO_SIDED|95.0|1.1|3.72|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||3.72|1.1|<0.001
82443723|NCT05160766|164596012|OTHER||Difference of means in percent|8.764|STANDARD_ERROR_OF_MEAN|10.765||0.42055|TWO_SIDED|95.0|-13.011|30.539|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617."|30.539|-13.011|0.42055
82640613|NCT01694849|164995758|SUPERIORITY||Difference in least square mean change|1.59||||0.019|TWO_SIDED|95.0|0.26|2.91|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||2.91|0.26|0.019
82640614|NCT01694849|164995759|SUPERIORITY||Difference in least square mean change|0.0||||0.447|TWO_SIDED|95.0|0.0|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|0|0.447
82443724|NCT05160766|164596012|OTHER||Difference of means in percent|8.472|STANDARD_ERROR_OF_MEAN|10.953||0.44391|TWO_SIDED|95.0|-13.683|30.627|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617.1 (kappa)."|30.627|-13.683|0.44391
82443725|NCT05160766|164596012|OTHER||Difference of means in percent|8.483|STANDARD_ERROR_OF_MEAN|10.82||0.43775|TWO_SIDED|95.0|-13.402|30.368|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant AY.3 (delta)."|30.368|-13.402|0.43775
82640615|NCT01694849|164995759|SUPERIORITY||Difference in least square mean change|0.0||||0.758|TWO_SIDED|95.0|0.0|0.0|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||0|0|0.758
82640616|NCT01694849|164995760|SUPERIORITY||Difference in least square mean change|-0.04||||0.942|TWO_SIDED|95.0|-1.12|1.04|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.04|-1.12|0.942
82388049|NCT04590586|164486917|OTHER||Risk Difference (RD)|0.2||||0.9695|TWO_SIDED|95.0|-8.7|9.1|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 8||9.1|-8.7|0.9695
82388050|NCT04590586|164486917|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.64|1.59|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 8||1.59|0.64|
82388051|NCT04590586|164486917|OTHER||Risk Difference (RD)|-2.4||||0.6236|TWO_SIDED|95.0|-11.9|7.1|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 15||7.1|-11.9|0.6236
82388052|NCT04590586|164486917|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.59|1.37|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 15||1.37|0.59|
82388053|NCT04590586|164486917|OTHER||Risk Difference (RD)|-6.2||||0.1664|TWO_SIDED|95.0|-14.9|2.5|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 29||2.5|-14.9|0.1664
82388054|NCT04590586|164486917|OTHER||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.45|1.15|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|Analysis of clinical recovery on Day 29||1.15|0.45|
82388055|NCT04590586|164486918|OTHER||Risk Difference (RD)|-0.5||||0.9043|TWO_SIDED|95.0|-9.3|8.3|||Regression, Logistic||Risk difference is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||8.3|-9.3|0.9043
82388056|NCT04590586|164486918|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.62|1.54|||||Odds ratio (apremilast vs. placebo) is from a logistic regression including the baseline clinical severity of 2 on the ordinal scale for clinical severity (yes/no), remdesivir use at baseline (yes/no), geographic region, and treatment arm as factors.|||1.54|0.62|
82577039|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.215||0.0373|TWO_SIDED|95.0|-0.88|-0.03|||MMRM|||Feelings of Guilt, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.88|0.0373
82640617|NCT01694849|164995760|SUPERIORITY||Difference in least square mean change|0.57||||0.304|TWO_SIDED|95.0|-0.52|1.66|||Mixed Models Analysis|Baseline parameter value and presence of diabetes as random factors|Standard error of the least square mean|||1.66|-0.52|0.304
82388057|NCT03063086|164486930|SUPERIORITY||Mean Difference (Final Values)|0.172|||<|0.0001|TWO_SIDED|95.0|0.137|0.208|||Mixed Models Analysis|||||0.208|0.137|<0.0001
82388058|NCT03063086|164486930|SUPERIORITY||Median Difference (Final Values)|0.159|||<|0.0001|TWO_SIDED|95.0|0.123|0.195|||Mixed Models Analysis|||||0.195|0.123|<0.0001
82388059|NCT03063086|164486935|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.0001|TWO_SIDED|95.0|0.086|0.161|||Mixed Models Analysis|||||0.161|0.086|<0.0001
82388060|NCT05481125|164486936|NON_INFERIORITY|Non-inferiority margin = 0.1 logMAR|Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.0125|||ONE_SIDED|95.0||-0.024||Since a non-inferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the non-inferiority margin.|||Mean difference (Clareon/Clareon Toric minus Eyhance/Eyhance Toric). Upper Confidence Limit is presented.|||-0.024||
82388061|NCT01290679|164486952|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|32.2|||<|0.001|TWO_SIDED|95.0|23.3|41.2|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR12 between the treatment groups.||41.2|23.3|<0.001
82388062|NCT01290679|164486953|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|29.3|||<|0.001|TWO_SIDED|95.0|20.2|38.5|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVRW72 between the treatment groups.||38.5|20.2|<0.001
82388063|NCT01290679|164486954|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|31.5|||<|0.001|TWO_SIDED|95.0|22.5|40.5|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR24 between the treatment groups.||40.5|22.5|<0.001
82388064|NCT01290679|164486955|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|32.3|||<|0.001|TWO_SIDED|95.0|23.5|41.0|||Cochran-Mantel-Haenszel|||The null hypothesis is there is no difference in proportions of SVR4 between the treatment groups.||41.0|23.5|<0.001
82388065|NCT01290679|164486982|SUPERIORITY_OR_OTHER||Mean differences|-16.776|STANDARD_ERROR_OF_MEAN|6.3081||0.008|TWO_SIDED|95.0|-29.1502|-4.4025|||Piecewise Linear Model|||Fatigue Severity Score AUC60||-4.4025|-29.1502|0.008
82388066|NCT01290679|164486982|SUPERIORITY_OR_OTHER||Mean differences|-18.837|STANDARD_ERROR_OF_MEAN|7.4715||0.012|TWO_SIDED|95.0|-33.4933|-4.1801|||Piecewise Linear Model|||Fatigue Severity Score AUC72||-4.1801|-33.4933|0.012
82388067|NCT01290679|164486983|SUPERIORITY_OR_OTHER||Mean differences|-282.16|STANDARD_ERROR_OF_MEAN|105.4927||0.008|TWO_SIDED|95.0|-489.1252|-75.1949|||Piecewise Linear Model|||Impairment in Work Productivity AUC60||-75.1949|-489.1252|0.008
82388068|NCT01290679|164486983|SUPERIORITY_OR_OTHER||Mean differences|-324.363|STANDARD_ERROR_OF_MEAN|124.026||0.009|TWO_SIDED|95.0|-567.708|-81.0182|||Piecewise Linear Model|||Impairment in Work Productivity AUC72||-81.0182|-567.7080|0.009
82388069|NCT01290679|164486984|SUPERIORITY_OR_OTHER||Mean Differences|-282.436|STANDARD_ERROR_OF_MEAN|104.9894||0.007|TWO_SIDED|95.0|-488.415|-76.4566|||Piecewise linear model|||Impairment in Daily Activities AUC60||-76.4566|-488.4150|0.007
82388070|NCT01290679|164486984|SUPERIORITY_OR_OTHER||Mean differences|-329.204|STANDARD_ERROR_OF_MEAN|123.408||0.008|TWO_SIDED|95.0|-571.3389|-87.0695|||Piecewise Linear Model|||Impairment in Daily Activities AUC72||-87.0695|-571.3389|0.008
82388071|NCT01290679|164486985|SUPERIORITY_OR_OTHER||Mean differences|-186.852|STANDARD_ERROR_OF_MEAN|121.4741||0.125|TWO_SIDED|95.0|-425.4109|51.7059|||Piecewise linear model|||Time Missed from Work AUC60||51.7059|-425.4109|0.125
82388072|NCT01290679|164486985|SUPERIORITY_OR_OTHER||Mean differences|-188.202|STANDARD_ERROR_OF_MEAN|141.1702||0.183|TWO_SIDED|95.0|-465.507|89.104|||Piecewise linear model|||Time Missed from Work AUC72||89.1040|-465.5070|0.183
82388073|NCT04791319|164486995|SUPERIORITY||MH weights|7.1||||0.489|TWO_SIDED|95.0|-12.1|26.2||Threshold for significance at 0.05 level.|Chi-squared|||||26.2|-12.1|0.489
82388074|NCT04791319|164486995|SUPERIORITY||MH Weights|7.1||||0.448|TWO_SIDED|95.0|-9.4|23.7|||Chi-squared|||||23.7|-9.4|0.448
82388075|NCT04791319|164486995|SUPERIORITY||MH Weights|42.0||||0.001|TWO_SIDED|95.0|22.9|61.1|||Chi-squared|||||61.1|22.9|0.001
82388076|NCT00791661|164487004|SUPERIORITY_OR_OTHER||Geometric mean ratio (fed/fasted)|0.92||||||95.0|||||Mixed-effect model|Based on mixed effect model with panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.||||||
82388077|NCT00791661|164487006|SUPERIORITY_OR_OTHER||Geometric mean ratio (fed/fasted)|0.81||||||95.0|||||Mixed-effect model|Based on mixed effect model with panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.||||||
82388078|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-8.1||||0.368|TWO_SIDED|90.0|-23.0|6.8||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 15 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||6.8|-23.0|0.368
82388079|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-16.6||||0.079|TWO_SIDED|90.0|-32.2|-1.1||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 30 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-1.1|-32.2|0.079
82388080|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-25.7||||0.007|TWO_SIDED|90.0|-40.9|-10.5||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 45 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-10.5|-40.9|0.007
82388081|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Diffrence in least squares mean|-36.3|||<|0.001|TWO_SIDED|90.0|-52.0|-20.5||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 60 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-20.5|-52.0|<.001
82388082|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-19.7||||0.147|TWO_SIDED|90.0|-42.2|2.7|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 60 mg fed minus LS mean for placebo fed.|||2.7|-42.2|0.147
82388083|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|12.3||||0.114|TWO_SIDED|90.0|-0.5|25.2|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|Difference in least squares mean (LS mean) was calculated as LS mean for MK-1006 60 mg minus LS mean for MK-1006 60 mg fed.|||25.2|-0.5|0.114
82388084|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-28.9||||0.026|TWO_SIDED|90.0|-49.9|-7.9|||Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for placebo fed minus LS mean for placebo.|||-7.9|-49.9|0.026
82388085|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-57.6|||<|0.001|TWO_SIDED|90.0|-73.3|-41.9||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 80 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-41.9|-73.3|<.001
82388086|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-15.3||||0.099|TWO_SIDED|90.0|-30.5|-0.1||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 100 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-0.1|-30.5|0.099
82425762|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425763|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425764|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.071
82388087|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-43.9|||<|0.001|TWO_SIDED|90.0|-60.8|-27.0||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 140 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-27.0|-60.8|<.001
82388088|NCT00791661|164487010|SUPERIORITY_OR_OTHER||Difference in least squares mean|-59.4|||<|0.001|TWO_SIDED|90.0|-75.1|-43.7||A step down procedure starting with the highest tolerated dose was implemented.|Mixed Models Analysis|Based on mixed effect model with glucose baseline, panel and treatment-within-panel as fixed effects and participant-within panel as a random effect.|The calculation used to determine the difference in least squares mean (LS mean) was LS mean for MK-1006 170 mg minus LS mean for placebo.|At one or more well tolerated single doses of MK-1006, the 24-hour weighted mean glucose concentration is expected to be at least 25 mg/dL lower than placebo.||-43.7|-75.1|<.001
82388089|NCT03605862|164487011|SUPERIORITY|||||||0.4009|||||||Gehan-Wilcoxon|Analysis was stratified by time from onset of symptoms, pre-enrollment symptom relief medication use, and presence of underlying lung conditions||||||0.4009
82388090|NCT03605862|164487012|SUPERIORITY|||||||0.1923|||||||Gehan-Wilcoxon|Analysis was stratified by time from onset of symptoms, pre-enrollment symptom relief medication use, and presence of underlying lung conditions||||||0.1923
82388091|NCT03605862|164487013|SUPERIORITY|||||||0.2057|||||||Fisher Exact|||||||0.2057
82388092|NCT03605862|164487014|SUPERIORITY|||||||0.0712|||||||Gehan-Wilcoxon|Analysis stratified by time from symptom onset at Baseline, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0712
82388093|NCT03605862|164487015|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison for study day 2||||1.0000
82388094|NCT03605862|164487015|SUPERIORITY|||||||0.9142|||||||Fisher Exact|||Comparison for study day 3||||0.9142
82572906|NCT04750577|164855925|OTHER|A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||||0.0468||||||MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.|MCP-Mod quadratic model fit|Model assumption: 50 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||||||0.0468
82572907|NCT04750577|164855925|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0586|||||||MCP-Mod Emax model fit|Model assumption: 80% of the maximum effect is achieved at 6 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0586
82388095|NCT03605862|164487015|SUPERIORITY|||||||0.0132|||||||Fisher Exact|||Comparison for study day 7||||0.0132
82388096|NCT03605862|164487016|SUPERIORITY|||||||0.1239|||||||t-test, 2 sided|||Comparison for day 2||||0.1239
82388097|NCT03605862|164487016|SUPERIORITY|||||||0.1022|||||||t-test, 2 sided|||Comparison for day 3||||0.1022
82640618|NCT05510297|164995779|SUPERIORITY||Median Difference (Net)|7.0||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
82388098|NCT03605862|164487016|SUPERIORITY|||||||0.46213|||||||t-test, 2 sided|||Comparison for day 7||||0.46213
82388099|NCT03605862|164487019|SUPERIORITY|||||||0.014|||||||Gehan-Wilcoxon|Analysis stratified by time from symptom onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0140
82388100|NCT03605862|164487020|SUPERIORITY|||||||0.0112|||||||Gehan-Wilcoxon|Analysis stratified by time from onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||0.0112
82443726|NCT05160766|164596012|OTHER||Difference of means in percent|6.19|STANDARD_ERROR_OF_MEAN|9.892||0.53511|TWO_SIDED|95.0|-13.819|26.2|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant AY.4.2 (delta)."|26.2|-13.819|0.53511
82388101|NCT03605862|164487021|SUPERIORITY||||||<|0.0001|||||||Gehan-Wilcoxon|Analysis stratified by time from onset at first dose, pre-enrollment symptom relief medication use, and presence of underlying lung condition||||||<0.0001
82388102|NCT00937040|164487022|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline AISRS total score. Change from baseline to endpoint uses the latest non-missing score after baseline for each subject.|ANCOVA|P-value for Change from baseline at endpoint. Each outcome involved with gate-keeping will be numbered with a Gate-Keeper-Sequence-Number from 01-16.||Gate-Keeper-Sequence#01. The primary efficacy was tested at the 0.05 level of significance. To control the overall Type I error at 0.05, the secondary efficacy endpoints were tested in a fixed sequence if the preceding null hypothesis was rejected. No further hypotheses could be tested when the preceding null hypothesis was not rejected. All nominal p-values were presented even though the formal testing procedure stopped at the primary endpoint. No unqualified statements can be made.||||<0.001
82388103|NCT00937040|164487023|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#02.||||0.206
82388104|NCT00937040|164487024|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#03.||||0.348
82388105|NCT00937040|164487025|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#04.||||0.324
82524775|NCT01564368|164745788|SUPERIORITY||area under the curve (AUC)|0.53||||0.484|ONE_SIDED|95.0||0.61||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC1 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.61||0.484
82577040|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.209||0.0577|TWO_SIDED|95.0|-0.81|0.01|||MMRM|||Feelings of Guilt, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.81|0.0577
82388106|NCT00937040|164487026|SUPERIORITY_OR_OTHER|||||||0.631||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score. Endpoint for extended day sites is the 4 hour timepoint and for other sites is the last non-missing value after baseline.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#05.||||0.631
82388107|NCT00937040|164487027|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#06.||||<0.001
82388108|NCT00937040|164487028|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#07.||||<0.001
82388109|NCT00937040|164487029|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#08.||||0.008
82388110|NCT00937040|164487030|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#09.||||0.372
82388111|NCT00937040|164487031|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using the Cochran-Mantel-Haenszel (CMH) row mean scores controlling for center.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#10.||||<0.001
82388112|NCT00937040|164487032|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value was determined using CMH general association controlling for pooled center.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#11.||||0.008
82388113|NCT00937040|164487033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#12.||||<0.001
82443727|NCT05160766|164596012|OTHER||Difference of means in percent|4.552|STANDARD_ERROR_OF_MEAN|10.801||0.67576|TWO_SIDED|95.0|-17.295|26.399|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.617.3."|26.399|-17.295|0.67576
82443728|NCT05160766|164596012|OTHER||Difference of means in percent|8.438|STANDARD_ERROR_OF_MEAN|11.168||0.45443|TWO_SIDED|95.0|-14.15|31.027|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant B.1.526.1 (iota)."|31.027|-14.15|0.45443
82388114|NCT00937040|164487034|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#13.||||0.003
82388115|NCT00937040|164487035|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#14.||||0.016
82388116|NCT00937040|164487036|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#15.||||0.092
82388117|NCT00937040|164487037|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||P-value was determined by using the Cochran-Mantel-Haenszel (CMH) row mean scores controlling for center. Missing/unknown responses are not included in the p-value.|Cochran-Mantel-Haenszel|P-value for Change from baseline at endpoint.||Gate-Keeper-Sequence-Number#16.||||0.284
82388118|NCT00937040|164487038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||<0.001
82388119|NCT00937040|164487039|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||0.319
82388120|NCT00937040|164487040|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value was determined by using an ANCOVA model with factors treatment and pooled study center, and covariate baseline score.|ANCOVA|||P-value for Change from baseline at endpoint||||0.007
82425765|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.609
82425766|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.065||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.065
82425767|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.042
82425768|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425769|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425770|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.070
82640619|NCT05510297|164995780|SUPERIORITY||Mean Difference (Final Values)|2653.16|STANDARD_DEVIATION|5110.86||0.074|TWO_SIDED|95.0|-297.76522|5604.07522||a priori threshold for statistical significance=0.05 for 2-sided t-test; no adjustments for multiple comparisons made; data were checked for normality using the Shapiro-Wilk test where p\>0.05 was interpreted as likely normal distribution.|t-test, 2 sided|||||5604.07522|-297.76522|0.074
82443729|NCT05160766|164596012|OTHER||Difference of means in percent|8.901|STANDARD_ERROR_OF_MEAN|10.218||0.38904|TWO_SIDED|95.0|-11.768|29.569|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2+L452M (omicron)."|29.569|-11.768|0.38904
82640620|NCT05510297|164995781|SUPERIORITY|a priori threshold for statistical significance=0.05 for 2-sided t-test; no adjustments for multiple comparisons made;|Mean Difference (Net)|4.44067|STANDARD_DEVIATION|41.59009||0.685|TWO_SIDED|95.0|-18.59116|27.47249|||t-test, 2 sided|||||27.47249|-18.59116|0.685
82640621|NCT05510297|164995782|SUPERIORITY||Mean Difference (Net)|-0.51267|STANDARD_DEVIATION|1.44656||0.191|TWO_SIDED|95.0|-1.31374|0.28841|||t-test, 2 sided|||||0.28841|-1.31374|0.191
82640622|NCT05510297|164995783|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_DEVIATION|1.35026||0.218|TWO_SIDED|95.0|-1.19775|0.29775|||t-test, 2 sided|||||0.29775|-1.19775|0.218
82640623|NCT05510297|164995784|SUPERIORITY||Mean Difference (Net)|-0.924|STANDARD_DEVIATION|2.19396||0.125|TWO_SIDED|95.0|-2.13898|0.29098|||t-test, 2 sided|||||0.29098|-2.13898|0.125
82640624|NCT05510297|164995785|SUPERIORITY||Mean Difference (Net)|0.00133|STANDARD_DEVIATION|0.10148||0.96|TWO_SIDED|95.0|-0.05486|0.5753|||t-test, 2 sided|||||0.5753|-0.05486|0.960
82640625|NCT05510297|164995789|SUPERIORITY||Mean Difference (Net)|-0.622|STANDARD_DEVIATION|1.6553||0.168|TWO_SIDED|95.0|-1.53867|0.29467|||t-test, 2 sided|||||0.29467|-1.53867|0.168
82640626|NCT04409262|164995790|SUPERIORITY||Hazard Ratio (HR)|0.965||||0.7414|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7414
82640627|NCT04409262|164995791|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8993|TWO_SIDED|95.0|0.72|1.34|||Log Rank|||||1.34|0.72|0.8993
82640628|NCT04409262|164995792|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7648|TWO_SIDED|95.0|0.77|1.44|||Regression, Logistic|||||1.44|0.77|0.7648
82640629|NCT04409262|164995793|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.7867|TWO_SIDED|95.0|0.65|1.39|||Log Rank|||||1.39|0.65|0.7867
82388121|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|3.998|||||TWO_SIDED|95.0|2.659|6.009||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.009|2.659|
82388122|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.222|||||TWO_SIDED|95.0|0.813|1.838||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.838|0.813|
82443730|NCT05160766|164596012|OTHER||Difference of means in percent|7.302|STANDARD_ERROR_OF_MEAN|10.11||0.47466|TWO_SIDED|95.0|-13.147|27.751|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2+L452R (omicron)."|27.751|-13.147|0.47466
82640630|NCT04409262|164995794|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.4602|TWO_SIDED|95.0|0.63|1.23|||Log Rank|||||1.23|0.63|0.4602
82640631|NCT04409262|164995795|SUPERIORITY||Hazard Ratio (HR)|0.982||||0.8664|TWO_SIDED|95.0|0.8|1.21|||Log Rank|||||1.21|0.80|0.8664
82640632|NCT04409262|164995796|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9569|TWO_SIDED|95.0|0.75|1.35|||Regression, Logistic|||||1.35|0.75|0.9569
82640633|NCT04409262|164995797|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6331|TWO_SIDED|95.0|0.78|1.52|||Regression, Logistic|||||1.52|0.78|0.6331
82640634|NCT04409262|164995798|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9622|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|||||1.40|0.70|0.9622
82640635|NCT04409262|164995799|SUPERIORITY||Odds Ratio (OR)|1.14||||0.485|TWO_SIDED|95.0|0.79|1.64|||Regression, Logistic|||||1.64|0.79|0.4850
82640636|NCT04409262|164995800|SUPERIORITY||Weighted % difference|-2.2||||0.5915|TWO_SIDED|95.0|-10.2|5.9|||Cochran-Mantel-Haenszel|||Day 28||5.9|-10.2|0.5915
82640637|NCT04409262|164995800|SUPERIORITY||Weighted % difference|-2.5||||0.5494|TWO_SIDED|95.0|-10.5|5.6|||Cochran-Mantel-Haenszel|||Day 60||5.6|-10.5|0.5494
82640638|NCT04409262|164995801|SUPERIORITY||Weighted % difference|-14.1||||0.259|TWO_SIDED|95.0|-37.4|9.2|||Cochran-Mantel-Haenszel|||Day 28||9.2|-37.4|0.2590
82640639|NCT04409262|164995801|SUPERIORITY||Weighted % difference|-14.6||||0.229|TWO_SIDED|95.0|-37.0|7.8|||Cochran-Mantel-Haenszel|||Day 60||7.8|-37.0|0.2290
82640640|NCT04409262|164995802|SUPERIORITY||Mean Difference (Final Values)|3.1125||||0.2434|TWO_SIDED|95.0|-2.16|8.38|||Regression, Linear|||||8.38|-2.16|0.2434
82640641|NCT04409262|164995803|SUPERIORITY||Weighted % difference|0.6||||0.8222|TWO_SIDED|95.0|-4.4|5.6|||Cochran-Mantel-Haenszel|||Day 14||5.6|-4.4|0.8222
82640642|NCT04409262|164995803|SUPERIORITY||Weighted % difference|-1.3||||0.6944|TWO_SIDED|95.0|-7.8|5.2|||Cochran-Mantel-Haenszel|||Day 28||5.2|-7.8|0.6944
82640643|NCT04409262|164995803|SUPERIORITY||Weighted % difference|-3.0||||0.3919|TWO_SIDED|95.0|-10.1|4.0|||Cochran-Mantel-Haenszel|||Day 60||4.0|-10.1|0.3919
82640644|NCT04409262|164995804|SUPERIORITY||Hazard Ratio (HR)|0.957||||0.6778|TWO_SIDED|95.0|0.78|1.18|||Log Rank|||||1.18|0.78|0.6778
82640645|NCT04409262|164995805|SUPERIORITY||Weighted % difference|-0.9||||0.7692|TWO_SIDED|95.0|-8.7|6.8|||Cochran-Mantel-Haenszel|||||6.8|-8.7|0.7692
82640646|NCT04409262|164995806|SUPERIORITY||Weighted % difference|-0.3||||0.9334|TWO_SIDED|95.0|-7.8|7.2|||Cochran-Mantel-Haenszel|||||7.2|-7.8|0.9334
82640647|NCT03677440|164995837|SUPERIORITY|||||||0.34|||||||ANOVA|||This involves a repeated-measures ANOVA testing a condition (i.e., treadmill walking exercise training vs. stretching-and-toning exercise training)-by-time (i.e., baseline, follow-up) interaction on Symbol Digit Modalities Test scores.||||.34
82443731|NCT05160766|164596012|OTHER||Difference of means in percent|2.878|STANDARD_ERROR_OF_MEAN|9.824||0.7711|TWO_SIDED|95.0|-16.993|22.749|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.12.1 (omicron)."|22.749|-16.993|0.77110
82443732|NCT05160766|164596012|OTHER||Difference of means in percent|1.753||||0.86646|TWO_SIDED|95.0|-19.195|22.701|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.75 (omicron)."|22.701|-19.195|0.86646
82443733|NCT05160766|164596012|OTHER||Difference of means in percent|5.42|STANDARD_ERROR_OF_MEAN|9.705||0.57972|TWO_SIDED|95.0|-14.21|25.049|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.2.75.2 (omicron)."|25.049|-14.21|0.57972
82443734|NCT05160766|164596012|OTHER||Difference of means in percent|1.17|STANDARD_ERROR_OF_MEAN|9.408||0.90166|TWO_SIDED|95.0|-17.859|20.199|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BA.3 (omicron)."|20.199|-17.859|0.90166
82443735|NCT05160766|164596012|OTHER||Difference of means in percent|1.018|STANDARD_ERROR_OF_MEAN|10.44||0.92279|TWO_SIDED|95.0|-20.099|22.136|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BF.7 (omicron)."|22.136|-20.099|0.92279
82443736|NCT05160766|164596012|OTHER||Difference of means in percent|3.532|STANDARD_ERROR_OF_MEAN|9.496||0.71191|TWO_SIDED|95.0|-15.675|22.74|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BQ.1 (omicron)."|22.74|-15.675|0.71191
82443737|NCT05160766|164596012|OTHER||Difference of means in percent|2.995|STANDARD_ERROR_OF_MEAN|8.755||0.73415|TWO_SIDED|95.0|-14.714|20.703|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant BQ.1.1 (omicron)."|20.703|-14.714|0.73415
82443738|NCT05160766|164596012|OTHER||Difference of means in percent|7.157|STANDARD_ERROR_OF_MEAN|9.548||0.45798|TWO_SIDED|95.0|-12.155|26.469|||ANCOVA|||This statistical analysis reflects Part A of the study.|"The above provided values refer to the variant XBB.1 (omicron)."|26.469|-12.155|0.45798
82443739|NCT05160766|164596012|OTHER||Difference of means in percent|4.819|STANDARD_ERROR_OF_MEAN|4.055||0.23582|TWO_SIDED|95.0|-3.169|12.808|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant P.2 (gamma)."|12.808|-3.169|0.23582
82443740|NCT05160766|164596012|OTHER||Difference of means in percent|5.312|STANDARD_ERROR_OF_MEAN|4.074||0.19354|TWO_SIDED|95.0|-2.713|13.337|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617."|13.337|-2.713|0.19354
82443741|NCT05160766|164596012|OTHER||Difference of means in percent|5.714|STANDARD_ERROR_OF_MEAN|4.155||0.17033|TWO_SIDED|95.0|-2.471|13.899|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617.1 (kappa)."|13.899|-2.471|0.17033
82443742|NCT05160766|164596012|OTHER||Difference of means in percent|5.934|STANDARD_ERROR_OF_MEAN|3.997||0.13895|TWO_SIDED|95.0|-1.94|13.808|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant AY.3 (delta)."|13.808|-1.94|0.13895
82572908|NCT04750577|164855925|OTHER|MMRM estimates were used as input for the MCP-Mod. including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit as well as random effects of patient.||||||0.0659|||||||MCP-Mod Sigmoid emax model fit|Model assumption: 30 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 685509 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, quadratic, Emax and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.050). The total daily dose was considered for MCP-Mod analysis (placebo, active BI 685509 3 mg, 6 mg, and 9 mg).||||0.0659
82443743|NCT05160766|164596012|OTHER||Difference of means in percent|4.222|STANDARD_ERROR_OF_MEAN|3.812||0.26924|TWO_SIDED|95.0|-3.288|11.732|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant AY.4.2 (delta)."|11.732|-3.288|0.26924
82640648|NCT03677440|164995838|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||||||.01
82443744|NCT05160766|164596012|OTHER||Difference of means in percent|5.49|STANDARD_ERROR_OF_MEAN|3.996||0.1708|TWO_SIDED|95.0|-2.382|13.362|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.617.3."|13.362|-2.382|0.17080
82443745|NCT05160766|164596012|OTHER||Difference of means in percent|5.567|STANDARD_ERROR_OF_MEAN|4.188||0.18502|TWO_SIDED|95.0|-2.683|13.818|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant B.1.526.1 (iota)."|13.818|-2.683|0.18502
82443746|NCT05160766|164596012|OTHER||Difference of means in percent|3.438|STANDARD_ERROR_OF_MEAN|3.938||0.38344|TWO_SIDED|95.0|-4.318|11.195|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2+L452M (omicron)."|11.195|-4.318|0.38344
82443747|NCT05160766|164596012|OTHER||Difference of means in percent|3.279|STANDARD_ERROR_OF_MEAN|3.982||0.411|TWO_SIDED|95.0|-4.565|11.124|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2+L452R (omicron)."|11.124|-4.565|0.41100
82640649|NCT03677440|164995839|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||.02
82388123|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.661|||||TWO_SIDED|95.0|0.44|0.994||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.994|0.440|
82640650|NCT03677440|164995840|SUPERIORITY|||||||0.63|||||||ANOVA|||||||.63
82640651|NCT03677440|164995841|SUPERIORITY||Partial eta-squared|0.067||||0.2|TWO_SIDED||||||ANOVA|||||||.20
82640652|NCT03677440|164995842|SUPERIORITY|||||||0.96|||||||ANOVA|||||||.96
82640653|NCT03677440|164995843|SUPERIORITY|||||||0.55|||||||ANOVA|||||||.55
82388124|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|2.178|||||TWO_SIDED|95.0|1.449|3.276||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.276|1.449|
82388125|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.017|||||TWO_SIDED|95.0|0.676|1.528||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.528|0.676|
82572909|NCT04750577|164855925|OTHER||Mean Difference (Net)|-0.103||||0.3224|TWO_SIDED|95.0|-0.309|0.102|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 1 mg BI 685509 TID- Least Squares Mean ofPlacebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.102|-0.309|0.3224
82425771|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.689||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.689
82425772|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.075||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Continuous data were analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.075
82425773|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.059
82425774|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82572910|NCT04750577|164855925|OTHER||Mean Difference (Net)|-0.063||||0.5616|TWO_SIDED|95.0|-0.275|0.15|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 2 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.150|-0.275|0.5616
82572911|NCT04750577|164855925|OTHER||Mean Difference (Net)|-0.251||||0.0183|TWO_SIDED|95.0|-0.459|-0.043|||Mixed-effect Model Repeat Measurement||"Least Squares Mean of 3 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.043|-0.459|0.0183
82572912|NCT04750577|164855926|OTHER||Mean Difference (Net)|-0.211||||0.0396|TWO_SIDED|0.95|-0.413|-0.01|||Mixed Models Analysis||"Least Squares Mean of 1 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.010|-0.413|0.0396
82572913|NCT04750577|164855926|OTHER||Mean Difference (Net)|-0.12||||0.2568|TWO_SIDED|0.95|-0.327|0.088|||Mixed Models Analysis||"Least Squares Mean of 2 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||0.088|-0.327|0.2568
82572914|NCT04750577|164855926|OTHER||Mean Difference (Net)|-0.357||||0.0006|TWO_SIDED|0.95|-0.56|-0.154|||Mixed Models Analysis||"Least Squares Mean of 3 mg BI 685509 TID- Least Squares Mean of Placebo"|Least Square Means difference and 95% confidence interval were estimated by restricted maximum likelihood based Mixed-effect Model for Repeated Measures ((REML)-based MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12 and Week 20) as well as random effects of patient.||-0.154|-0.560|0.0006
82572915|NCT04750577|164855927|OTHER||Odds Ratio (OR)|2.25||||0.0519|TWO_SIDED|95.0|0.99|5.1|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||5.10|0.99|0.0519
82443748|NCT05160766|164596012|OTHER||Difference of means in percent|2.67|STANDARD_ERROR_OF_MEAN|4.014||0.5066|TWO_SIDED|95.0|-5.237|10.577|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.12.1 (omicron)."|10.577|-5.237|0.50660
82572916|NCT04750577|164855927|OTHER||Odds Ratio (OR)|1.43||||0.4159|TWO_SIDED|95.0|0.61|3.36|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||3.36|0.61|0.4159
82572917|NCT04750577|164855927|OTHER||Odds Ratio (OR)|2.9||||0.0106|TWO_SIDED|95.0|1.28|6.55|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||6.55|1.28|0.0106
82572918|NCT04750577|164855928|OTHER||Odds Ratio (OR)|2.79||||0.0176|TWO_SIDED|95.0|1.2|6.53|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||6.53|1.20|0.0176
82572919|NCT04750577|164855928|OTHER||Odds Ratio (OR)|1.32||||0.5467|TWO_SIDED|95.0|0.53|3.29|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||3.29|0.53|0.5467
82572920|NCT04750577|164855928|OTHER||Odds Ratio (OR)|4.46||||0.0005|TWO_SIDED|95.0|1.91|10.39|||Regression, Logistic||Odds Ratio was calculated as BI 685509/ Placebo.|Treatment, sodium-Glucose co-Transporter-2 Inhibitor (SGLT2i) use at baseline, and type of diabetes were used as covariates in the logistic regression model.||10.39|1.91|0.0005
82572921|NCT02647645|164855945|SUPERIORITY|Power calculation was based on similar studies of cognitive training with transcranial direct current stimulation (tDCS).||||||0.02||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = 1.78).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Analysis results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, cluster of differentiation (CD4) cell count, and log viral load as covariates.||||0.02
82640654|NCT03677440|164995844|SUPERIORITY||Partial eta-squared|0.087||||0.14|TWO_SIDED||||||ANOVA|||||||.14
82640655|NCT03677440|164995845|SUPERIORITY|||||||0.69|||||||ANOVA|||||||.69
82443749|NCT05160766|164596012|OTHER||Difference of means in percent|4.535|STANDARD_ERROR_OF_MEAN|4.242||0.28604|TWO_SIDED|95.0|-3.82|12.891|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.75 (omicron)."|12.891|-3.82|0.28604
82524776|NCT01564368|164745788|SUPERIORITY||area under the curve|0.6||||0.017|ONE_SIDED|95.0||0.68||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC2 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.68||0.017
82640656|NCT03677440|164995846|SUPERIORITY||Partial eta-squared|0.048||||0.28|TWO_SIDED||||||ANOVA|||||||.28
82443750|NCT05160766|164596012|OTHER||Difference of means in percent|6.259|STANDARD_ERROR_OF_MEAN|3.98||0.11715|TWO_SIDED|95.0|-1.582|14.1|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.2.75.2 (omicron)."|14.1|-1.582|0.11715
82640657|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|5.96|||<|0.001|TWO_SIDED|95.0|4.0|9.18||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||9.18|4.00|<.001
82443751|NCT05160766|164596012|OTHER||Difference of means in percent|3.818|STANDARD_ERROR_OF_MEAN|3.957||0.33567|TWO_SIDED|95.0|-3.978|11.613|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BA.3 (omicron)."|11.613|-3.978|0.33567
82640658|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|5.02|||<|0.001|TWO_SIDED|95.0|3.36|7.76||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||7.76|3.36|<.001
82388126|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.673|||||TWO_SIDED|95.0|0.448|1.012||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.012|0.448|
82388127|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.742|||||TWO_SIDED|95.0|1.156|2.626||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.626|1.156|
82425775|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425776|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.069
82425777|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.762||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.762
82572922|NCT02647645|164855946|SUPERIORITY|Power calculation was based on similar studies of cognitive training with transcranial direct current stimulation (tDCS).||||||0.34||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = .71).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, CD4 count, and log viral load as covariates.||||0.34
82388128|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.306|||||TWO_SIDED|95.0|0.204|0.458||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.458|0.204|
82443752|NCT05160766|164596012|OTHER||Difference of means in percent|5.775|STANDARD_ERROR_OF_MEAN|4.022||0.15232|TWO_SIDED|95.0|-2.147|13.697|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BF.7 (omicron)."|13.697|-2.147|0.15232
82572923|NCT02647645|164855947|SUPERIORITY|Power calculation was based on the investigators' estimate of the impact of cognitive training with transcranial direct current stimulation (tDCS) on subjective cognitive problems, as similar studies were not available to develop effect size estimates.||||||0.33||||||Probability associated with the test of the interaction between participants' performance and session number in repeated measures analysis of covariance. In light of small sample size, estimated effect size was also calculated (d = .63).|ANCOVA|Test was adjusted for age, gender, race, education, CD4 count, and log viral load.||Results are overall estimated marginal means from repeated measures analysis of covariance with treatment group as a fixed factor and age, gender, race, education, CD4 count, and log viral load as covariates.||||0.33
82535301|NCT00783718|164768643|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.1|||<|0.0001|TWO_SIDED|95.0|14.9|37.2||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both P-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the P-values for the 2 dose comparisons was \> 0.05, the other P-value was to be tested at the 0.025 level and declared significant only if the P-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||37.2|14.9|< 0.0001
82425778|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.089
82425779|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.083||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.083
82425780|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82388129|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.165|||||TWO_SIDED|95.0|0.11|0.248||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.248|0.110|
82572924|NCT02037256|164855949|OTHER||percentage|0.24|||||TWO_SIDED|95.0|0.07|0.5||||||Median time to engraftment||0.50|0.07|
82572925|NCT04599907|164855959|SUPERIORITY||||||<|0.05|||||||Cochran-Mantel-Haenszel|||||||<0.05
82572926|NCT04599907|164855960|SUPERIORITY||Mean Difference (Final Values)|-0.91|||<|0.05|TWO_SIDED|95.0|-1.42|-0.04|||Mixed Models Analysis|||"This is the data for the Level of Botherstatistical analysis"||-0.040|-1.42|<0.05
82572927|NCT04599907|164855960|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.05|TWO_SIDED|95.0|-1.35|-0.4|||Mixed Models Analysis|||"This is the data for the Level of Impact on Daily Activities Statistical Analysis"||-0.40|-1.35|<0.05
82572928|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS X axis||||0.098
82572929|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.389|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS Y axis||||0.389
82572930|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||ANS Z axis||||0.780
82572931|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point X axis||||0.054
82572932|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point Y axis||||0.323
82572933|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||A point X axis||||0.371
82572934|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level X axis||||0.011
82572935|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.426|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level Y axis||||0.426
82572936|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.621|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||UI level Z axis||||0.621
82572937|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.275|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale X axis||||0.275
82572938|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.361|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale Y axis||||0.361
82572939|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||pronasale Z axis||||0.284
82572940|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale X axis||||0.119
82572941|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale Y axis||||0.019
82572942|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||subnasale Z axis||||0.034
82572943|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious X axis||||0.422
82572944|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.177|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious Y axis||||0.177
82572945|NCT01473745|164855994|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||labiale superious Z axis||||0.133
82572946|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Intercanthal distance||||0.218
82572947|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.336|TWO_SIDED||||||t-test, 2 sided|P- value \< 0.05 was set as statistical significance.||nasal height||||0.336
82572948|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||t-test, 2 sided|P- value \< 0.05 was set as statistical significance||||||0.192
82572949|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.135|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||nasal tip protrusion||||0.135
82425781|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425782|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.064
82572950|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||nasal width||||0.277
82572951|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.505|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.505
82572952|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.299
82572953|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.738
82572954|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.008
82572955|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.116|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneious height of upper lip||||0.116
82572956|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.528|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.528
82388130|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.545|||||TWO_SIDED|95.0|0.363|0.818||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.818|0.363|
82388131|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.254|||||TWO_SIDED|95.0|0.17|0.381||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.381|0.170|
82572957|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.123
82443753|NCT05160766|164596012|OTHER||Difference of means in percent|4.808|STANDARD_ERROR_OF_MEAN|3.845||0.21234|TWO_SIDED|95.0|-2.766|12.383|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BQ.1 (omicron)."|12.383|-2.766|0.21234
82443754|NCT05160766|164596012|OTHER||Difference of means in percent|4.58|STANDARD_ERROR_OF_MEAN|3.78||0.22687|TWO_SIDED|95.0|-2.866|12.026|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant BQ.1.1 (omicron)."|12.026|-2.866|0.22687
82572958|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.250
82572959|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.706
82572960|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.804|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||intercanthal distance||||0.804
82572961|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.114|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal height||||0.114
82572962|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.457|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Nasal length||||0.457
82572963|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.565|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||Nasal tip protrusion||||0.565
82572964|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.781|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal width||||0.781
82572965|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.164
82572966|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.554
82572967|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.508|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.508
82572968|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.358
82572969|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneous height of upper lip||||0.049
82388132|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.168|||||TWO_SIDED|95.0|0.112|0.252||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.252|0.112|
82388133|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.436|||||TWO_SIDED|95.0|0.29|0.655||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.655|0.290|
82388134|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.541|||||TWO_SIDED|95.0|0.361|0.811||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.811|0.361|
82388135|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.783|||||TWO_SIDED|95.0|1.188|2.676||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.676|1.188|
82388136|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.832|||||TWO_SIDED|95.0|0.555|1.246||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.246|0.555|
82388137|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.551|||||TWO_SIDED|95.0|0.367|0.826||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.826|0.367|
82388138|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.426|||||TWO_SIDED|95.0|0.95|2.14||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.140|0.950|
82388139|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|3.295|||||TWO_SIDED|95.0|2.196|4.944||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.944|2.196|
82425783|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.841||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.841
82425784|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.110
82425785|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.119
82425786|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82388140|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.538|||||TWO_SIDED|95.0|1.026|2.303||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.303|1.026|
82425787|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.015
82572970|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.057
82388141|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.018|||||TWO_SIDED|95.0|0.679|1.526||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.526|0.679|
82572971|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.062
82572972|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.029
82572973|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.011
82388142|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|2.635|||||TWO_SIDED|95.0|1.754|3.959||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.959|1.754|
82425788|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.087||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.087
82572974|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.211|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||intercanthal distance||||0.211
82388143|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.467|||||TWO_SIDED|95.0|0.311|0.7||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.7|0.311|
82388144|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.309|||||TWO_SIDED|95.0|0.206|0.463||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.463|0.206|
82425789|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.826||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.826
82572975|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal height||||0.102
82572976|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.136|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal length||||0.136
82524777|NCT01564368|164745788|SUPERIORITY||area under the curve|0.61||||0.013|ONE_SIDED|95.0||0.69||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) is considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in Apparent Diffusion Coefficients (ADC3 - ADC0)/ADC0 (Test: %change in ADC; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.69||0.013
82572977|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal tip protrusion||||0.113
82572978|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||nasal width||||0.115
82572979|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.535|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||alar base width||||0.535
82388145|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.8|||||TWO_SIDED|95.0|0.532|1.203||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||1.203|0.532|
82524778|NCT01564368|164745789|SUPERIORITY||area under the curve|0.68|||<|0.001|ONE_SIDED|95.0||0.75||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV1 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.75||<0.001
82524779|NCT01564368|164745789|SUPERIORITY||area under the curve|0.63|||<|0.001|ONE_SIDED|95.0||0.71||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV2 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.71||<0.001
82535302|NCT00783718|164768643|SUPERIORITY_OR_OTHER||Risk Difference (RD)|29.1|||<|0.0001|TWO_SIDED|95.0|17.9|40.4||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both P-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the P-values for the 2 dose comparisons was \> 0.05, the other P-value was to be tested at the 0.025 level and declared significant only if the P-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||40.4|17.9|< 0.0001
82425790|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.345||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.345
82425791|NCT00402987|164560356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.530
82572980|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||R nostril show vertical dimension||||0.850
82572981|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.891|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||L nostril show vertical dimension||||0.891
82388146|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|0.662|||||TWO_SIDED|95.0|0.442|0.992||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.992|0.442|
82388147|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 22|1.714|||||TWO_SIDED|95.0|1.142|2.572||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.572|1.142|
82388148|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.|Geometric mean ratio at day 22|2.589|||||TWO_SIDED|95.0|1.723|3.889||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.889|1.723|
82524780|NCT01564368|164745789|SUPERIORITY||area under the curve|0.68|||<|0.001|ONE_SIDED|95.0||0.75||Bonferroni's correction was used for multiple comparisons adjustment, where p\<0.003 (0.05/15) was considered statistically significant.|Z-test|The empirical AUC was tested by using variance derived from the method of DeLong|Receiver operating characteristic curve and AUC were estimated empirically, and its 95% CI was constructed using variance derived from DeLong's method|Receiver Operating Characteristic curves and the corresponding Area Under the Curve (AUC), were estimated for the change in functional tumor volumes (FTV3 - FTV0)/FTV0 (Test: %change in FTV; Reference: pCR) detect a difference of 0.15 between the AUC under H0: AUC=0.5 and an AUC under the alternative hypothesis of 0.65. It was assumed that the number of pCR non-responders would be approximately 2.7 times greater than the number of complete responders||0.75||<0.001
82572982|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.262|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||columellar length||||0.262
82572983|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.344|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||cutaneous height of upper lip||||0.344
82388149|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|4.975|||||TWO_SIDED|95.0|3.757|6.589||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.589|3.757|
82425792|NCT00402987|164560357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.73||||0.149||95.0|0.8|3.7|||Regression, Logistic|Treatment as a factor||||3.7|0.8|0.149
82388150|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.168|||||TWO_SIDED|95.0|0.881|1.547||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.547|0.881|
82388151|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.88|||||TWO_SIDED|95.0|0.665|1.166||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.166|0.665|
82388152|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.219|||||TWO_SIDED|95.0|2.43|4.264||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.264|2.430|
82425793|NCT00402987|164560357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.95||||0.076||95.0|0.9|4.1|||Regression, Logistic|Treatment as a factor||||4.1|0.9|0.076
82425794|NCT00402987|164560357|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.733||95.0|0.6|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.6|0.733
82425795|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.03||95.0|1.1|5.0|||Regression, Logistic|Treatment as a factor||||5.0|1.1|0.030
82425796|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.064||95.0|1.0|5.7|||Regression, Logistic|Treatment as a factor||||5.7|1.0|0.064
82572984|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||overall upper lip height||||0.057
82572985|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.995|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||vermillion height of upper lip||||0.995
82388153|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.07|||||TWO_SIDED|95.0|0.808|1.417||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.417|0.808|
82425797|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83||||0.201||95.0|0.7|4.6|||Regression, Logistic|Treatment as a factor||||4.6|0.7|0.201
82425798|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.575||95.0|0.5|3.0|||Regression, Logistic|Treatment as a factor||||3.0|0.5|0.575
82524781|NCT01564368|164745790|EQUIVALENCE|no equivalence margin was used.||||||0.032|||||||z-test|||AUC (optimized) = AUC (ΔADC)||||0.032
82425799|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1||95.0|0.4|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.4|1.000
82425800|NCT00402987|164560358|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.624||95.0|0.5|3.3|||Regression, Logistic|Treatment as a factor||||3.3|0.5|0.624
82524782|NCT02228967|164745810|OTHER||||||=|0.274||||||A priori threshold for statistical significance was 0.05|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.274
82524783|NCT02228967|164745811|OTHER||||||=|0.083|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.083
82572986|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||lower prolabial width||||0.440
82388154|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.72|||||TWO_SIDED|95.0|0.544|0.954||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.954|0.544|
82388155|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.509|||||TWO_SIDED|95.0|1.891|3.33||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.330|1.891|
82572987|NCT01473745|164855995|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||t-test, 2 sided|P-value \< 0.05 was set as statistical significance(\*).||upper lip protrusion||||0.078
82572988|NCT01473745|164855996|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED|||||intergroup difference of conventional group|t-test, 2 sided|P value \< 0.05 was set as statistical significance.||||||0.104
82572989|NCT01473745|164855996|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||Intergroup difference of modified group|t-test, 2 sided|P value \<0.05 was set as statistical significance.||||||0.043
82572990|NCT01473745|164855996|SUPERIORITY_OR_OTHER|||||||0.888|TWO_SIDED||||||t-test, 2 sided|P value \< 0.05 was set as statistical significance.||||||0.888
82388156|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.235|||||TWO_SIDED|95.0|0.178|0.31||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.310|0.178|
82572991|NCT02366143|164856022|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.74|||Log Rank|||ITT-WT population||0.74|0.52|<0.0001
82572992|NCT02366143|164856022|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.68|||Log Rank|||Teff-high WT Population||0.68|0.38|<0.0001
82572993|NCT02366143|164856023|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.78||||0.0164|TWO_SIDED|95.0|0.64|0.96|||Log Rank|||||0.96|0.64|0.0164
82572994|NCT02366143|164856024|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.842||||0.0528|TWO_SIDED|95.0|0.707|1.002|||Log Rank|||||1.002|0.707|0.0528
82572995|NCT02366143|164856025|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Log Rank|||ITT-WT population||0.85|0.59|0.0002
82388157|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.177|||||TWO_SIDED|95.0|0.134|0.234||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.234|0.134|
82388158|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.647|||||TWO_SIDED|95.0|0.489|0.856||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.856|0.489|
82388159|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.215|||||TWO_SIDED|95.0|0.163|0.284||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.284|0.163|
82572996|NCT02366143|164856025|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.564||||0.0001|TWO_SIDED|95.0|0.418|0.76|||Log Rank|||Teff-high WT Population||0.760|0.418|0.0001
82524784|NCT02228967|164745812|OTHER||||||=|0.028|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.028
82425801|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.28|||<|0.001||95.0|0.7|1.9||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.9|0.7|<0.001
82524785|NCT02228967|164745813|OTHER||||||=|0.708|||||||Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.708
82524786|NCT02228967|164745814|OTHER||||||=|0.197||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tets (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.197
82524787|NCT02228967|164745815|OTHER||||||=|0.023||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||=0.023
82443755|NCT05160766|164596012|OTHER||Difference of means in percent|3.498|STANDARD_ERROR_OF_MEAN|4.047||0.38832|TWO_SIDED|95.0|-4.475|11.47|||ANCOVA|||This statistical analysis reflects Part B of the study.|"The above provided values refer to the variant XBB.1 (omicron)."|11.47|-4.475|0.38832
82572997|NCT02366143|164856026|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.492|||<|0.0001|TWO_SIDED|95.0|0.374|0.649|||Log Rank|||Teff-high Population||0.649|0.374|<.0001
82572998|NCT02366143|164856026|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.517|0.72|||Log Rank|||ITT Population||0.720|0.517|<.0001
82572999|NCT02366143|164856028|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.471|||<|0.0001|TWO_SIDED|95.0|0.352|0.647|||Log Rank|||TC2/3 or IC2/3 Subgroup||0.647|0.352|<.0001
82573000|NCT02366143|164856028|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.486|||<|0.0001|TWO_SIDED|95.0|0.386|0.639|||Log Rank|||TC1/2/3 or IC1/2/3 Subgroup||0.639|0.386|<.0001
82573001|NCT02366143|164856029|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.824||||0.2765|TWO_SIDED|95.0|0.58|1.169|||Log Rank|||TC2/3 or IC2/3, WT ITT||1.169|0.580|0.2765
82573002|NCT02366143|164856029|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.771||||0.0829|TWO_SIDED|95.0|0.575|1.035|||Log Rank|||TC1/2/3 or IC1/2/3, WT ITT||1.035|0.575|0.0829
82573003|NCT02366143|164856030|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.709||||0.0073|TWO_SIDED|95.0|0.551|0.913|||Log Rank|||TC1/2/3 or IC1/2/3 ITT-WT||0.913|0.551|0.0073
82573004|NCT02366143|164856030|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.662||||0.0097|TWO_SIDED|95.0|0.484|0.907|||Log Rank|||TC2/3 or IC2/3 Population||0.907|0.484|0.0097
82573005|NCT02366143|164856031|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.831||||0.2843|TWO_SIDED|95.0|0.592|1.167|||Log Rank|||Teff high-WT||1.167|0.592|0.2843
82573006|NCT02366143|164856031|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.802||||0.1861|TWO_SIDED|95.0|0.579|1.113|||Log Rank|||Teff high||1.113|0.579|0.1861
82573007|NCT02366143|164856031|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.764||||0.006|TWO_SIDED|95.0|0.63|0.926|||Log Rank|||ITT||0.926|0.630|0.0060
82573008|NCT02366143|164856032|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.786||||0.0894|TWO_SIDED|95.0|0.595|1.038|||Log Rank|||Teff high-WT||1.038|0.595|0.0894
82573009|NCT02366143|164856032|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.815||||0.1276|TWO_SIDED|95.0|0.626|1.061|||Log Rank|||Teff high||1.061|0.626|0.1276
82573010|NCT02366143|164856032|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.861||||0.0681|TWO_SIDED|95.0|0.733|1.011|||Log Rank|||ITT||1.011|0.733|0.0681
82573011|NCT02366143|164856033|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.901||||0.4599|TWO_SIDED|95.0|0.683|1.188|||Log Rank|||Teff high-WT ITT||1.188|0.683|0.4599
82443756|NCT04692077|164596068|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Reported Grade 2 and Above AEs|99.7|51.8|
82443757|NCT04692077|164596069|OTHER||Exact CI for Proportions|11.1|||||TWO_SIDED|95.0|0.3|48.3|||||||Exact 95% Confidence Interval for Proportion for Participants who Discontinued Early due to Intolerability of Injection or Burden of Study Procedures|48.3|0.3|
82443758|NCT04692077|164596070|OTHER||Exact CI for Proportions|66.7|||||TWO_SIDED|95.0|22.3|95.7|||||||Exact 95% confidence interval for proportion for Participants who received at least one injection and preferred injectable PrEP at end of step 2.|95.7|22.3|
82573012|NCT02366143|164856034|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.523|||<|0.0001|TWO_SIDED|95.0|0.406|0.675|||Log Rank|||ITT-WT||0.675|0.406|<.0001
82573013|NCT02366143|164856034|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.283|0.624|||Log Rank|||Teff-high WT||0.624|0.283|<.0001
82573014|NCT02366143|164856036|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|6.68||||0.0697|TWO_SIDED|95.0|-0.54|13.9|||Z-test|||1-Year ITT-WT Population||13.90|-0.54|0.0697
82573015|NCT02366143|164856036|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.71||||0.0347|TWO_SIDED|95.0|0.7|18.73|||Z-test|||2-Year ITT-WT Population||18.73|0.70|0.0347
82573016|NCT02366143|164856036|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.89||||0.089|TWO_SIDED|95.0|-1.51|21.29|||Z-test|||1-Year Teff-high WT Population||21.29|-1.51|0.0890
82573017|NCT02366143|164856036|OTHER|Stratified Analysis|Difference in Event Free Rate|10.34||||0.1336|TWO_SIDED|95.0|-3.17|23.84|||Z-test|||2-Year Teff-high WT Population||23.84|-3.17|0.1336
82573018|NCT02366143|164856037|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|4.18||||0.2624|TWO_SIDED|95.0|-3.13|11.48|||Z-test|||1-Year ITT-WT Population||11.48|-3.13|0.2624
82573019|NCT02366143|164856037|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|9.67||||0.0088|TWO_SIDED|95.0|2.43|16.9|||Z-test|||2-Year ITT-WT Population||16.90|2.43|0.0088
82573020|NCT02366143|164856037|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|10.56||||0.0649|TWO_SIDED|95.0|-0.65|21.77|||Z-test|||1-Year Teff-high WT Population||21.77|-0.65|0.0649
82573021|NCT02366143|164856037|SUPERIORITY|Stratified Analysis|Difference in Event Free Rate|7.27||||0.212|TWO_SIDED|95.0|-4.15|18.69|||Z-test|||2-Year Teff-high WT Population||18.69|-4.15|0.2120
82573022|NCT02366143|164856038|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.909||||0.6899|TWO_SIDED|95.0|0.571|1.45|||Log Rank|||Teff-high WT Population||1.450|0.571|0.6899
82573023|NCT02366143|164856038|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.671||||0.1043|TWO_SIDED|95.0|0.413|1.089|||Log Rank|||Teff-high WT Population||1.089|0.413|0.1043
82573024|NCT02366143|164856038|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.232||||0.173||95.0|0.912|1.665|||Log Rank|||ITT WT||1.665|0.912|0.1730
82573025|NCT02366143|164856038|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.084||||0.6145|TWO_SIDED|95.0|0.792|1.483|||Log Rank|||ITT WT||1.483|0.792|0.6145
82573026|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.041||||0.8816|TWO_SIDED|95.0|0.614|1.763|||Log Rank|||Cough for Teff-high WT ITT population||1.763|0.614|0.8816
82388160|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.145||||||95.0|0.109|0.191||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.191|0.109|
82388161|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.504|||||TWO_SIDED|95.0|0.381|0.668||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.668|0.381|
82388162|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.754|||||TWO_SIDED|95.0|0.57|0.997||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.997|0.570|
82388163|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.756|||||TWO_SIDED|95.0|2.083|3.647||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.647|2.083|
82425802|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88||||0.003||95.0|0.3|1.5||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|0.3|0.003
82425803|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.177||95.0|-1.0|0.2||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||0.2|-1.0|0.177
82443759|NCT04692077|164596074|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||The Exact 95% Confidence Interval for Proportion for Number of Participants with Grade 2 or above AEs during Injection Phase.|99.7|51.8|
82388164|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.916|||||TWO_SIDED|95.0|0.694|1.211||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.211|0.694|
82388165|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.616|||||TWO_SIDED|95.0|0.466|1.815||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.815|0.466|
82388166|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.149|||||TWO_SIDED|95.0|1.624|2.843||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.843|1.624|
82388167|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.656|||||TWO_SIDED|95.0|2.764|4.836||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.836|2.764|
82388168|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|1.216|||||TWO_SIDED|95.0|0.92|1.606||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.606|0.920|
82388169|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.818|||||TWO_SIDED|95.0|0.619|1.081||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.081|0.619|
82388170|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.85|||||TWO_SIDED|95.0|2.152|3.773||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.773|2.152|
82388171|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.332|||||TWO_SIDED|95.0|0.251|0.44||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.440|0.251|
82425804|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.25|||<|0.001||95.0|3.0|7.5||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||7.5|3.0|<0.001
82573027|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.741||||0.2995|TWO_SIDED|95.0|0.419|1.309|||Log Rank|||Cough for Teff-high WT ITT Population||1.309|0.419|0.2995
82388172|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.224|||||TWO_SIDED|95.0|0.169|0.296||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.296|0.169|
82524788|NCT02228967|164745816|OTHER||||||<|0.001||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparisons tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare mean differences at follow-up.||||<0.001
82524789|NCT02228967|164745817|OTHER||||||=|0.348||||||A priori threshold for statistical significance was 0.05.|Repeated Measures--General Linear Model|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||=0.348
82388173|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.78|||||TWO_SIDED|95.0|0.588|1.003||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.003|0.588|
82425805|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.54|||<|0.001||95.0|2.3|6.8||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||6.8|2.3|<0.001
82524790|NCT02228967|164745818|OTHER||Mean Difference (Final Values)|0.345|STANDARD_ERROR_OF_MEAN|0.203||0.091|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.091
82524791|NCT02228967|164745819|OTHER||Mean Difference (Net)|0.393|STANDARD_ERROR_OF_MEAN|0.362||0.278|TWO_SIDED|||||A priori alpha set at 0.05|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||.278
82573028|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.936||||0.7578|TWO_SIDED|95.0|0.616|1.422|||Log Rank|||Dyspnea in Teff-high WT Population||1.422|0.616|0.7578
82573029|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.041||||0.847|TWO_SIDED|95.0|0.694|1.56|||Log Rank|||Dyspnea in Teff-high WT Population||1.560|0.694|0.8470
82388174|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.673|||||TWO_SIDED|95.0|0.509|0.889||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.889|0.509|
82443760|NCT04692077|164596075|OTHER||Exact CI for Proportions|88.9|||||TWO_SIDED|95.0|51.8|99.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Completed All Scheduled Injections among those who received at least one Injection|99.7|51.8|
82443761|NCT05149313|164596079|SUPERIORITY||Difference in percentages|27.88|||<|0.0001|TWO_SIDED|95.0|15.63|40.14|||Cochran-Mantel-Haenszel|||||40.14|15.63|<0.0001
82443762|NCT05149313|164596080|SUPERIORITY||Difference in percentages|17.8||||0.0052|TWO_SIDED|95.0|7.03|28.57|||Cochran-Mantel-Haenszel|||||28.57|7.03|0.0052
82573030|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.659||||0.1289|TWO_SIDED|95.0|0.383|1.133|||Log Rank|||Pain in Chest in Teff-high WT Population||1.133|0.383|0.1289
82573031|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.729||||0.2381|TWO_SIDED|95.0|0.43|1.235|||Log Rank|||Pain in Chest in Teff-high WT Population||1.235|0.430|0.2381
82573032|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.09||||0.7163|TWO_SIDED|95.0|0.685|1.732|||Log Rank|||Arm and/or Shoulder Pain in Teff-high WT||1.732|0.685|0.7163
82573033|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.693||||0.1502|TWO_SIDED|95.0|0.42|1.145|||Log Rank|||Arm and/or Shoulder Pain in Teff-high WT||1.145|0.420|0.1502
82388175|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|2.345|||||TWO_SIDED|95.0|1.772|3.102||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.102|1.772|
82388176|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|3.485|||||TWO_SIDED|95.0|2.633|4.614||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.614|2.633|
82388177|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.624|||||TWO_SIDED|95.0|1.817|3.789||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.789|1.817|
82425806|NCT00402987|164560359|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.531||95.0|-3.0|1.5||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||1.5|-3.0|0.531
82573034|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.01||||0.9568|TWO_SIDED|95.0|0.713|1.43|||Log Rank|||Cough in ITT-WT Population||1.430|0.713|0.9568
82573035|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.891||||0.5377|TWO_SIDED|95.0|0.619|1.284|||Log Rank|||Cough in ITT-WT Population||1.284|0.619|0.5377
82573036|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.893||||0.4012|TWO_SIDED|95.0|0.685|1.163|||Log Rank|||Dyspnea in ITT-WT Population||1.163|0.685|0.4012
82573037|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.05||||0.7149|TWO_SIDED|95.0|0.809|1.363|||Log Rank|||Dyspnea in ITT-WT Population||1.363|0.809|0.7149
82573038|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.057||||0.7126|TWO_SIDED|95.0|0.786|1.422|||Log Rank|||Arm and/or Shoulder Pain in ITT-WT||1.422|0.786|0.7126
82443763|NCT05149313|164596081|SUPERIORITY||Difference in percentages|18.15||||0.0114|TWO_SIDED|95.0|5.47|30.83|||Cochran-Mantel-Haenszel|||||30.83|5.47|0.0114
82443764|NCT06504524|164596134|OTHER||Hazard Ratio (HR)|1.128|||=|0.615|TWO_SIDED|95.0|0.705|1.804|||Regression, Cox||IPTW hazard ratio (HR) were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.804|0.705|=0.615
82573039|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.921||||0.6053|TWO_SIDED|95.0|0.675|1.258|||Log Rank|||Arm and/or Shoulder Pain in ITT-WT||1.258|0.675|0.6053
82573040|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.829||||0.3134|TWO_SIDED|95.0|0.576|1.194|||Log Rank|||Pain in Chest in ITT-WT Population||1.194|0.576|0.3134
82573041|NCT02366143|164856039|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.91||||0.6115|TWO_SIDED|95.0|0.633|1.309|||Log Rank|||Pain in Chest in ITT-WT Population||1.309|0.633|0.6115
82573042|NCT01234883|164856078|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82573043|NCT01013961|164856081|SUPERIORITY_OR_OTHER_LEGACY|||||||0.722|TWO_SIDED||||||Fisher Exact|||||||0.722
82573044|NCT01013961|164856082|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
82573045|NCT04560374|164856114|EQUIVALENCE|Power analysis was performed after the completion of the study. 98% power was obtained.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82573046|NCT03721172|164856124|SUPERIORITY||Adjusted difference|17.5|||<|0.0001|TWO_SIDED|95.0|12.2|22.8|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||22.8|12.2|<0.0001
82573047|NCT03721172|164856125|SUPERIORITY||Adjusted difference|25.6|||<|0.0001|TWO_SIDED|95.0|19.1|32.1|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||32.1|19.1|<0.0001
82573048|NCT03721172|164856126|SUPERIORITY||Least squares mean difference|-3.38|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-4.04|-2.73|||Mixed-effect model for repeated measures|||||-2.73|-4.04|<0.0001
82573049|NCT03721172|164856127|SUPERIORITY||Least squares mean difference|-2.93|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.47|-2.39|||Mixed-effect model for repeated measures|||||-2.39|-3.47|<0.0001
82573050|NCT03721172|164856128|SUPERIORITY||Adjusted difference|38.0|||<|0.0001|TWO_SIDED|95.0|29.7|46.3|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||46.3|29.7|<0.0001
82573051|NCT03721172|164856129|SUPERIORITY||Adjusted difference|24.7|||<|0.0001|TWO_SIDED|95.0|16.5|32.8|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||32.8|16.5|<0.0001
82573052|NCT03721172|164856130|SUPERIORITY||Adjusted difference|27.4|||<|0.0001|TWO_SIDED|95.0|18.6|36.3|||Cochran-Mantel-Haenszel|Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|2-sided 95% CIs based on the stratified Newcombe method. Stratification were based on baseline sPGA (2 \[mild\] vs 3 \[moderate\]).|||36.3|18.6|<0.0001
82573053|NCT03721172|164856131|SUPERIORITY||Least squares mean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.7|-2.1|||Mixed-effect model for repeated measures|||||-2.1|-3.7|<0.0001
82573054|NCT00632021|164856142|EQUIVALENCE|In the primary analysis we compared the number of clinically important medication errors by treatment group using unadjusted negative binomial regression.|Incidence Rate Ratio (IRR)|0.92|||||TWO_SIDED|95.0|0.77|1.09||||||||1.09|0.77|
82573055|NCT00632021|164856143|EQUIVALENCE|The association between intervention and time to first unplanned health care event (hospital readmission) was examined using multivariable Cox proportional hazards regression models.|Cox Proportional Hazard|0.94|||||TWO_SIDED|95.0|0.63|1.28||||||||1.28|0.63|
82573056|NCT01586975|164856151|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED|||||p-value is not adjusted, and no a priori threshold was used|Kruskal-Wallis|||Kruskal-Wallis non-parametric ANOVA test||||0.0742
82573057|NCT01653210|164856152|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||||||0.023
82573058|NCT00745498|164856190|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||With study power of 80%, a significance level of 0.05, and the assumption that IVB injection will decrease postoperative VH incidence from 35% to 10%, a sample size of 40 patients for each group was calculated.||||<0.05
82573059|NCT03178045|164856202|OTHER|Multivariable Logistic Regression|Estimated Increase|0.23|||||TWO_SIDED|95.0|-3.1|3.6||||||||3.6|-3.1|
82573060|NCT03178045|164856203|OTHER|Multivariable logistic regression|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.69|1.31||||||||1.31|0.69|
82573061|NCT03178045|164856204|OTHER|Longitudinal mixed effects regression|Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.6|1.32||||||||1.32|0.60|
82573062|NCT03636373|164856212|NON_INFERIORITY|On a 10 point Likert Pain Scale, non-inferiority margin for the difference is 1.04. Using a Student t-test, there was 80% power for the difference in pain levels to exceed -1.04.||||||1|||||||t-test, 1 sided|||Mean Outcome measure Etanercept arm { ( 8 + 0 + 7)/3 = 5} Triamcinolone Arm { (3+0) /2 = 1.5 }||||1.00
82573063|NCT03636373|164856213|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.00
82573064|NCT03636373|164856214|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82573065|NCT03636373|164856215|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82573066|NCT03636373|164856216|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82573067|NCT03636373|164856217|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82388178|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.096|||||TWO_SIDED|95.0|0.76|1.58||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.580|0.760|
82573068|NCT01575873|164856264|NON_INFERIORITY|Non-inferiority was shown if the lower bound of the two-sided 95% CI for the difference between the least-squares means (denosumab minus risedronate) was higher than the prespecified non-inferiority margin of -1.1 percentage points for the glucocorticoid-initiating subpopulation.|LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.0|3.9||One-sided p-value based on the prespecified noninferiority margin for lumbar spine of -1.1%.|ANCOVA||Least Squares (LS) Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within the glucocorticoid-continuing and glucocorticoid-initiating subpopulations. A fixed-sequence testing procedure was used to control the experiment-wise type 1 error rate at a two-sided 5% significance level within each subpopulation.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD, sex, machine type, and baseline BMD-by-machine type interaction."||3.9|2.0|< 0.001
82573069|NCT01575873|164856264|NON_INFERIORITY|Non-inferiority was shown if the lower bound of the two-sided 95% CI for the difference between the least-squares means (denosumab minus risedronate) was higher than the prespecified non-inferiority margin of -0.7 percentage points for the glucocorticoid-continuing subpopulation.|LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.4|3.0||One-sided p-value based on the prespecified noninferiority margins for lumbar spine of -0.7%.|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.0|1.4|< 0.001
82573070|NCT01575873|164856265|SUPERIORITY||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.0|3.9||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||3.9|2.0|< 0.001
82573071|NCT01575873|164856265|SUPERIORITY||LS Mean Difference|2.2|||<|0.001|TWO_SIDED|95.0|1.4|3.0||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.0|1.4|< 0.001
82573072|NCT01575873|164856266|SUPERIORITY||LS Mean Difference|1.5|||<|0.001|TWO_SIDED|95.0|0.8|2.1||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||2.1|0.8|< 0.001
82524792|NCT02228967|164745820|OTHER||Mean Difference (Net)|3.163|STANDARD_ERROR_OF_MEAN|1.44||0.029|TWO_SIDED|||||A priori alpha set at 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.029
82388179|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.888|||||TWO_SIDED|95.0|0.615|1.282||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.282|0.615|
82388180|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.12|||||TWO_SIDED|95.0|1.473|3.052||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.052|1.473|
82426848|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.5025|TWO_SIDED|95.0|0.6|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||2.0|0.6|0.5025
82524793|NCT02228967|164745821|OTHER||Mean Difference (Net)|-0.015||||0.897|TWO_SIDED|||||A priori alpha set at 0.05.|Repeated Measures GLM|||Data were analyzed using a GLM repeated measures approach. A priori means comparison tests (usual care vs. SBIRT intervention) with Bonferroni corrections were used to compare means differences at follow-up.||||0.897
82573073|NCT01575873|164856266|SUPERIORITY||LS Mean Difference|1.5|||<|0.001|TWO_SIDED|95.0|1.0|2.1||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||2.1|1.0|< 0.001
82573074|NCT01575873|164856267|SUPERIORITY||LS Mean Difference|4.5|||<|0.001|TWO_SIDED|95.0|3.2|5.8||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||5.8|3.2|< 0.001
82573075|NCT01575873|164856267|SUPERIORITY||LS Mean Difference|3.2|||<|0.001|TWO_SIDED|95.0|2.0|4.3||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||4.3|2.0|< 0.001
82388181|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.876|||||TWO_SIDED|95.0|0.61|1.26||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.260|0.610|
82388182|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67|Geometric mean ratio at day 202|0.898|||||TWO_SIDED|95.0|0.622|1.298||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.298|0.622|
82388183|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.451|||||TWO_SIDED|95.0|1.0|2.105||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.105|1.000|
82388184|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.418|||||TWO_SIDED|95.0|0.289|0.603||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.603|0.289|
82388185|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.338|||||TWO_SIDED|95.0|0.235|0.487||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.487|0.235|
82388186|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.808|||||TWO_SIDED|95.0|0.561|1.165||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.165|0.561|
82524794|NCT02228967|164745822|OTHER|||||||0.15|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.15
82524795|NCT02228967|164745823|OTHER|||||||0.2||||||A priori alpha set at 0.05.|Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.20
82524796|NCT02228967|164745824|OTHER|||||||0.38||||||A priori alpha set at 0.05.|Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.38
82524797|NCT02228967|164745825|OTHER|A priori alpha set at 0.05||||||0.48|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.48
82524798|NCT02228967|164745826|OTHER|A priori alpha set at 0.05.||||||0.09|||||||Linear mixed effects|||Linear mixed-effects models were used to analyze 5 pooled datasets derived from multiple imputation for intent to treat analyses.||||0.09
82388187|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.334|||||TWO_SIDED|95.0|0.233|0.479||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.479|0.233|
82524799|NCT02228967|164745827|OTHER|||||||0.08|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.08
82524800|NCT02228967|164745828|OTHER|||||||0.11|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.11
82524801|NCT02228967|164745829|OTHER|||||||0.84|||||||Linear mixed effects|||A priori alpha set at 0.05||||0.84
82524802|NCT00520975|164745830|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.24|TWO_SIDED|95.0|0.43|1.23|||Regression, Cox|||||1.23|0.43|0.24
82524803|NCT00520975|164745831|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.75|TWO_SIDED|95.0|0.61|1.97|||Regression, Cox|||||1.97|0.61|0.75
82388188|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.342|||||TWO_SIDED|95.0|0.237|0.494||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.494|0.237|
82388189|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.553|||||TWO_SIDED|95.0|0.382|0.801||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.801|0.382|
82425807|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.07|||<|0.001||95.0|4.4|13.7||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||13.7|4.4|<0.001
82425808|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.46|||<|0.001||95.0|4.7|16.2||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||16.2|4.7|<0.001
82573076|NCT01575873|164856268|SUPERIORITY||LS Mean Difference|3.1|||<|0.001|TWO_SIDED|95.0|2.2|3.9||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-initiating subpopulation was analyzed using an ANCOVA model adjusting for treatment, baseline BMD value, sex, machine type, and baseline BMD value-by-machine type interaction."||3.9|2.2|< 0.001
82573077|NCT01575873|164856268|SUPERIORITY||LS Mean Difference|2.5|||<|0.001|TWO_SIDED|95.0|1.7|3.2||2-sided p-value corresponding to the 2-sided 95% confidence interval|ANCOVA||LS Mean Difference = Denosumab - Risedronate|"Analyses of the primary and secondary endpoints were performed independently within each subpopulation using a fixed-sequence testing procedure to control the experiment-wise type 1 error rate at a two-sided 5% significance level.~The glucocorticoid-continuing subpopulation was analyzed using an ANCOVA model adjusted for treatment, baseline BMD, sex, machine type, baseline BMD-by-machine type interaction, and duration of prior glucocorticoid use (\< 12 months vs ≥ 12 months)."||3.2|1.7|< 0.001
82388190|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.811|||||TWO_SIDED|95.0|0.562|1.169||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.169|0.562|
82388191|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.935|||||TWO_SIDED|95.0|1.347|2.78||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.780|1.347|
82425809|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96||||0.041||95.0|0.2|11.7||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.7|0.2|0.041
82573078|NCT04069585|164856275|NON_INFERIORITY|To achieve non-inferiority, the observed p-value must be \<= 0.5 taking into account of the non-inferiority margin (i.e., 10mm difference in Pain VAS between the two treatment groups).|||||<|0.0002||||||One-sided paired t-test|t-test, 1 sided|||||||<0.0002
82573079|NCT00356811|164856285|SUPERIORITY_OR_OTHER||percentage of participants|50.9|||||TWO_SIDED|95.0|37.3|64.4|||||The estimated value represents the percentage of participants with a confirmed CR or PR.|||64.4|37.3|
82388192|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.8|||||TWO_SIDED|95.0|0.558|1.147||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.147|0.558|
82388193|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.82|||||TWO_SIDED|95.0|0.568|1.184||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.184|0.568|
82388194|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.324|||||TWO_SIDED|95.0|0.915|1.917||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.917|0.915|
82388195|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|2.388|||||TWO_SIDED|95.0|1.658|3.438||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.438|1.658|
82388196|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.987|||||TWO_SIDED|95.0|0.688|1.416||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.416|0.688|
82388197|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.012|||||TWO_SIDED|95.0|0.701|1.46||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.460|0.701|
82524804|NCT04998604|164745841|SUPERIORITY|At each post-baseline visit, each of the imputed complete data was analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|Least squares (LS) mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.182|<|0.001|TWO_SIDED|95.0|-1.96|-1.25||The threshold for statistical significance was 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control the type-I error and handle multiple secondary endpoint analysis. Testing was performed sequentially in order the endpoints were reported and continued when primary endpoint was statistically significant at 2-sided 0.05.||-1.25|-1.96|<0.001
82573080|NCT02242643|164856336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|Seroconversion rate (SCR) Difference (%)|-6.32|||||TWO_SIDED|95.0|-10.34|-2.27|||||For A/California/7/2009 (H1N1) vaccine strain.|||-2.27|-10.34|
82388198|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.634|||||TWO_SIDED|95.0|1.128|2.366||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.366|1.128|
82388199|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.413|||||TWO_SIDED|95.0|0.288|0.592||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.592|0.288|
82388200|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.424|||||TWO_SIDED|95.0|0.294|0.61||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.610|0.294|
82388201|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|0.684|||||TWO_SIDED|95.0|0.473|0.99||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.990|0.473|
82388202|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.025|||||TWO_SIDED|95.0|0.714|1.473||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.473|0.714|
82426849|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.62||||0.0001|TWO_SIDED|95.0|1.6|8.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||8.1|1.6|0.0001
82573081|NCT02242643|164856336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-6.74|||||TWO_SIDED|95.0|-10.68|-2.8|||||For A/Texas/50/2012 (H3N2) vaccine strain|||-2.80|-10.68|
82640659|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|3.3|||<|0.001|TWO_SIDED|95.0|2.17|5.17||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who previously enrolled in the program).||5.17|2.17|<.001
82443765|NCT06504524|164596135|OTHER||Hazard Ratio (HR)|1.18|||=|0.4429|TWO_SIDED|95.0|0.85|1.64|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.64|0.85|=0.4429
82443766|NCT06504524|164596136|OTHER||Hazard Ratio (HR)|0.66|||=|0.12|TWO_SIDED|95.0|0.39|1.115|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.115|0.390|=0.120
82524805|NCT04998604|164745842|SUPERIORITY|At each post-baseline visit, each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|8.0|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|6.3|9.7||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.7|6.3|<0.001
82524806|NCT04998604|164745843|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-1.01|-0.61||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.61|-1.01|<0.001
82573082|NCT02242643|164856336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-16.38|||||TWO_SIDED|95.0|-20.68|-12.02|||||For B/Massachusetts/2/2012 (Yamagata) vaccine strain|||-12.02|-20.68|
82388203|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.656|||||TWO_SIDED|95.0|1.15|2.385||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.385|1.150|
82443767|NCT06504524|164596137|OTHER||Hazard Ratio (HR)|0.52|||=|0.0011|TWO_SIDED|95.0|0.38|0.71|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.71|0.38|=0.0011
82443768|NCT06504524|164596138|OTHER||Hazard Ratio (HR)|0.759|||=|0.503|TWO_SIDED|95.0|0.337|1.71|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.710|0.337|=0.503
82443769|NCT06504524|164596139|OTHER||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.26|0.57|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.57|0.26|<0.0001
82573083|NCT02242643|164856336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% CI for the difference in SCR (Fluzone® Quadrivalent Group minus FluLaval™ Quadrivalent Group) did not exceed 10% for each of the four strains.|SCR Difference (%)|-11.75|||||TWO_SIDED|95.0|-15.28|-8.21|||||For B/Brisbane/60/2008 (Victoria) vaccine strain.|||-8.21|-15.28|
82573084|NCT02242643|164856337|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.95|0.77|
82388204|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 202|1.615|||||TWO_SIDED|95.0|1.115|2.339||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.339|1.115|
82573085|NCT02242643|164856337|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.94|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.94|0.77|
82425810|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39||||0.633||95.0|-7.1|4.3||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||4.3|-7.1|0.633
82425811|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.11||||0.284||95.0|-2.6|8.8||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||8.8|-2.6|0.284
82388205|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.906|||||TWO_SIDED|95.0|1.177|3.087||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.087|1.177|
82388206|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.945|||||TWO_SIDED|95.0|0.583|1.533||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.533|0.583|
82388207|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.763|||||TWO_SIDED|95.0|0.468|1.245||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.245|0.468|
82388208|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.818|||||TWO_SIDED|95.0|1.119|2.956||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.956|1.119|
82388209|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.917|||||TWO_SIDED|95.0|0.568|1.481||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.481|0.568|
82388210|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.855|||||TWO_SIDED|95.0|0.524|1.396||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.396|0.524|
82388211|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.203|||||TWO_SIDED|95.0|0.745|1.943||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.943|0.745|
82388212|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.496|||||TWO_SIDED|95.0|0.31|0.794||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.794|0.310|
82388213|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.4|||||TWO_SIDED|95.0|0.25|0.641||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.641|0.250|
82524807|NCT04998604|164745844|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.082|<|0.001|TWO_SIDED|95.0|-0.74|-0.42||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.42|-0.74|<0.001
82524808|NCT04998604|164745845|SUPERIORITY|Each of the imputed complete data was analyzed by fitting an ANCOVA model with the corresponding baseline value, study treatment (dupilumab, omalizumab), prior surgery (yes, no), ICS doses (low, medium/high), presence of AERD (yes, no), region (EE, ROW) as covariates.|LS mean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-2.15|-1.33||The threshold for statistical significance was 0.05 level.|ANCOVA|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.33|-2.15|<0.001
82524809|NCT05383417|164745860|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||||||0.03
82388214|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.954|||||TWO_SIDED|95.0|0.596|1.528||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.528|0.596|
82388215|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.481|||||TWO_SIDED|95.0|0.306|0.758||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.758|0.306|
82388216|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.449|||||TWO_SIDED|95.0|0.279|0.722||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.722|0.279|
82388217|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.631|||||TWO_SIDED|95.0|0.398|1.002||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.002|0.398|
82388218|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.807|||||TWO_SIDED|95.0|0.5|1.304||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.304|0.500|
82388219|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.924|||||TWO_SIDED|95.0|1.193|3.102||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.102|1.193|
82388220|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.97|||||TWO_SIDED|95.0|0.611|1.541||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.541|0.611|
82388221|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.905|||||TWO_SIDED|95.0|0.561|1.46||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.460|0.561|
82426850|NCT01448616|164561930|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.86||||0.086|TWO_SIDED|95.0|0.71|1.01||ITT|Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.01|0.71|0.086
82524810|NCT05383417|164745861|SUPERIORITY|||||||0.18|||||||t-test, 1 sided|||||||0.18
82640660|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|3.28||||0.038|TWO_SIDED|95.0|1.16|11.71||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||11.71|1.16|.038
82426851|NCT01448616|164561930|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.94||||0.54|TWO_SIDED|95.0|0.75|1.16||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)|Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.16|0.75|0.54
82524811|NCT05383417|164745862|SUPERIORITY|||||||0.007|||||||t-test, 1 sided|Day 2||||||0.007
82524812|NCT05383417|164745862|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 7||||||0.04
82524813|NCT05383417|164745863|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|Day 1||||||0.03
82524814|NCT05383417|164745863|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 7||||||0.04
82524815|NCT05383417|164745864|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|Day 1||||||0.04
82524816|NCT05383417|164745865|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|Day2||||||0.02
82524817|NCT05383417|164745866|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82524818|NCT05383417|164745867|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
82388222|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.273|||||TWO_SIDED|95.0|0.798|2.03||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.030|0.798|
82388223|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|2.383|||||TWO_SIDED|95.0|1.474|3.851||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.851|1.474|
82388224|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.202|||||TWO_SIDED|95.0|0.754|1.915||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.915|0.754|
82388225|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.12|||||TWO_SIDED|95.0|0.689|1.821||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.821|0.689|
82388226|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.576|||||TWO_SIDED|95.0|0.987|2.516||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.516|0.987|
82388227|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.504|||||TWO_SIDED|95.0|0.316|0.805||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.805|0.316|
82524819|NCT05383417|164745868|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82524820|NCT05383417|164745869|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82388228|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.47|||||TWO_SIDED|95.0|0.293|0.754||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.754|0.293|
82388229|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.662|||||TWO_SIDED|95.0|0.414|1.056||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.056|0.414|
82426852|NCT01448616|164561930|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.9||||0.47|TWO_SIDED|95.0|0.67|1.22|||Poisson GLME|||For intent to treat analysis, difference between lead-in and treatment phase (within arm comparison)||1.22|0.67|0.47
82426853|NCT01448616|164561931|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|-0.16||||0.18|TWO_SIDED|95.0|-0.4|0.07|||Linear Mixed Effects Model|||Intent to treat analysis||0.07|-0.40|0.18
82426854|NCT01448616|164561931|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|-0.5||||0.008|TWO_SIDED|95.0|-0.86|-0.13|||Linear Mixed Effects Model|||Intent to treat analysis||-0.13|-0.86|0.008
82524821|NCT05383417|164745870|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82524822|NCT05383417|164745871|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82524823|NCT02466646|164745872|OTHER||Mean Difference (Net)|0.3|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p=0.05|Kruskal-Wallis|||||||<0.01
82524824|NCT02466646|164745873|OTHER||Mean Difference (Net)|2.0|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was P=0.05|Kruskal-Wallis|||||||>0.05
82524825|NCT02466646|164745874|OTHER|||||||0.229||||||Threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.229
82524826|NCT02466646|164745875|OTHER|||||||0.28||||||Threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.280
82524827|NCT02466646|164745876|OTHER|||||||0.712|||||||Kruskal-Wallis|Threshold for statistical significance is p=0.05.||||||0.712
82524828|NCT02466646|164745877|OTHER|||||||0.674||||||The threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.674
82524829|NCT02466646|164745878|OTHER||Mean Difference (Net)|30.0||||0.006|TWO_SIDED|||||The threshold for statistical significance was p=0.05|Kruskal-Wallis|||||||0.006
82388230|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|0.932|||||TWO_SIDED|95.0|0.583|1.492||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.492|0.583|
82388231|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.312|||||TWO_SIDED|95.0|0.831|2.071||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.071|0.831|
82388232|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric mean ratio at day 387|1.407|||||TWO_SIDED|95.0|0.88|2.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||2.249|0.880|
82524830|NCT02466646|164745879|OTHER||Mean Difference (Net)|0.5||||0.373|TWO_SIDED||||||Kruskal-Wallis|||||||0.373
82388233|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|5.428|||||TWO_SIDED|95.0|4.0|7.365||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||7.365|4|
82524831|NCT02466646|164745880|OTHER||Mean Difference (Net)|0.6||||0.528|TWO_SIDED||||||Kruskal-Wallis|||||||0.528
82524832|NCT02466646|164745881|OTHER||Mean Difference (Net)|1.0||||0.208|TWO_SIDED||||||Kruskal-Wallis|||||||0.208
82524833|NCT02466646|164745882|OTHER|||||||0.051|||||||Kruskal-Wallis|||||||0.051
82524834|NCT02466646|164745883|OTHER|||||||0.647||||||The threshold for statistical significance is p=0.05.|Kruskal-Wallis|||||||0.647
82524835|NCT03261271|164745893|SUPERIORITY|||||||0.6489||||||P value less than 0.05 was considered statistically significant.|Mixed Models Analysis|||||||0.6489
82388234|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|1.091|||||TWO_SIDED|95.0|0.804|1.481||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.481|0.804|
82388235|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.759|||||TWO_SIDED|95.0|0.559|1.031||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.031|0.559|
82388236|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.499|||||TWO_SIDED|95.0|2.577|4.751||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.751|2.577|
82388237|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.982|||||TWO_SIDED|95.0|0.722|1.334||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.334|0.722|
82388238|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.699|||||TWO_SIDED|95.0|0.513|0.95||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.95|0.513|
82388239|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.513|||||TWO_SIDED|95.0|1.846|3.421||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.421|1.846|
82388240|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.201|||||TWO_SIDED|95.0|0.149|0.272||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.272|0.149|
82524836|NCT03261271|164745894|SUPERIORITY|||||||0.0323|||||||Mixed Models Analysis|||||||0.0323
82524837|NCT03261271|164745895|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82524838|NCT03261271|164745896|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82425812|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5||||0.18||95.0|-2.1|11.1||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.1|-2.1|0.180
82524839|NCT03261271|164745897|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||Difference between groups from Baseline to Study End.||||0.09
82524840|NCT03261271|164745897|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Difference between groups from baseline to pre-surgery.||||0.04
82425813|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.57||||0.009||95.0|3.4|23.7||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||23.7|3.4|0.009
82426855|NCT01448616|164561931|SUPERIORITY_OR_OTHER_LEGACY||Change in log copies|0.16||||0.45|TWO_SIDED|95.0|-0.27|0.6|||Linear Mixed Effects Model|||Intent to treat analysis||0.60|-0.27|0.45
82524841|NCT04067401|164745939|SUPERIORITY||Effect size|-0.13||||0.062|TWO_SIDED|95.0|-0.29|0.01|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.01|-.29|.062
82524842|NCT04067401|164745940|SUPERIORITY||Effect size|-0.23||||0.001|TWO_SIDED|95.0|-0.39|-0.09|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.09|-.39|.001
82524843|NCT04067401|164745941|SUPERIORITY||Effect size|-0.16||||0.027|TWO_SIDED|95.0|-0.34|-0.02|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.02|-.34|.027
82524844|NCT04067401|164745942|SUPERIORITY||Effect size|-0.24||||0.002|TWO_SIDED|95.0|-0.41|-0.08|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.08|-.41|.002
82640661|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|2.01||||0.256|TWO_SIDED|95.0|0.63|7.54||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||7.54|0.63|.256
82426856|NCT01448616|164561932|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.9|TWO_SIDED|95.0|0.7|1.37|||Poisson GLME|||Intent to treat analysis||1.37|0.70|0.90
82426857|NCT01448616|164561932|SUPERIORITY||Risk Ratio (RR)|0.8||||0.25|TWO_SIDED|95.0|0.54|1.18|||Poisson GLM|||Intent to treat||1.18|0.54|0.25
82426858|NCT01448616|164561932|SUPERIORITY||Risk Ratio (RR)|0.95||||0.82|TWO_SIDED|95.0|0.57|1.57|||Poisson GLM|||||1.57|0.57|0.82
82640662|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|1.5||||0.531|TWO_SIDED|95.0|0.43|5.89||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the three email conditions as dummy variables with no email as the reference group (among employees who never enrolled in the program).||5.89|0.43|.531
82388241|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.14|||||TWO_SIDED|95.0|0.103|0.189||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.189|0.103|
82425814|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.15||||0.026||95.0|1.7|26.6||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||26.6|1.7|0.026
82425815|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.39||||0.138||95.0|-3.0|21.8||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||21.8|-3.0|0.138
82425816|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.926||95.0|-13.0|11.8||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||11.8|-13.0|0.926
82425817|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.18||||0.507||95.0|-8.2|16.6||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||16.6|-8.2|0.507
82425818|NCT00402987|164560360|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.77||||0.513||95.0|-9.6|19.1||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||19.1|-9.6|0.513
82573086|NCT02242643|164856337|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.65|||||TWO_SIDED|95.0|0.59|0.71|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.71|0.59|
82388242|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.645|||||TWO_SIDED|95.0|0.476|0.873||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.873|0.476|
82573087|NCT02242643|164856337|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: The upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio (Fluzone® Quadrivalent Group/FluLaval™ Quadrivalent Group) did not exceed 1.5 for each of the four strains.|Adjusted GMT Ratio|0.62|||||TWO_SIDED|95.0|0.56|0.69|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|||0.69|0.56|
82573088|NCT05093504|164856361|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82573089|NCT02272244|164856370|SUPERIORITY||Odds Ratio (OR)|4.83|||<|0.001|TWO_SIDED|95.0|3.08|7.58|||Regression, Logistic|Model adjusted for age, sex, practice, baseline preferred test and baseline overall decision stage||||7.58|3.08|<0.001
82573090|NCT02272244|164856371|SUPERIORITY||Odds Ratio (OR)|4.91|||<|0.001|TWO_SIDED|95.0|2.55|9.47|||Regression, Logistic|Model compares Forward Change to No Change or Backwards Change and is adjusted for all baseline covariates.||||9.47|2.55|<0.001
82573091|NCT02272244|164856372|SUPERIORITY||||||<|0.001|||||||Regression, Multinomial|Model compared rates of SBT, CX and none; model is adjusted for age, sex, practice, baseline preferred test and baseline overall decision stage|||Reference for the outcome is No Screening; reference for the study group is the Standard Intervention group.|||<0.001
82573092|NCT02272244|164856372|SUPERIORITY||Odds Ratio (OR)|4.2||||0.001|TWO_SIDED|95.0|2.63|6.7|||Odds Ratio (OR)|Stool Blood Test vs None||||6.70|2.63|0.001
82573093|NCT02272244|164856372|SUPERIORITY|Colonscopy vs None|Odds Ratio (OR)|8.79||||0.001|TWO_SIDED|95.0|4.13|18.74|||Odds Ratio (OR)|||||18.74|4.13|0.001
82425819|NCT00402987|164560361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.93||||0.023||95.0|1.2|7.4|||Regression, Logistic|Treatment as a factor||||7.4|1.2|0.023
82573094|NCT02272244|164856373|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.862|TWO_SIDED|95.0|-0.15|0.13|||Regression, Linear|Model of difference in Preventive Health Model (PHM) total score adjusts for all baseline covariates.|Model compares DSNI to SI.|||0.13|-0.15|0.862
82573095|NCT02272244|164856373|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.88|TWO_SIDED|95.0|-0.47|0.55|||Regression, Linear|Model of knowledge test score adjusts for all baseline covariates|Model compares DSNI to SI.|||.55|-.47|0.880
82573096|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|4.96|||TWO_SIDED|95.0|-7.3|12.4|||Linear Mixed Model||Difference was calculated as Test - Placebo|5-Mintues Post Treatment||12.4|-7.3|
82573097|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-9.6|11.5|||Linear Mixed Model||Difference was calculated as Test - Placebo|10-Minutes Post Treatment||11.5|-9.6|
82573098|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-8.2|9.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|5-Minutes Post Treatment||9.8|-8.2|
82425820|NCT00402987|164560361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.13||||0.015||95.0|1.2|7.9|||Regression, Logistic|Treatment as a factor||||7.9|1.2|0.015
82573099|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-6.5|12.2|||Linear Mixed Model||Difference was calculated as Test - Placebo.|10-Mintues Post Treatment||12.2|-6.5|
82573100|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|4.37|||TWO_SIDED|95.0|-5.7|11.7|||Linear Mixed Model||Difference was calculated as Test - Placebo.|5-Mintues Post Treatment||11.7|-5.7|
82573101|NCT03733899|164856407|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-sqaure Mean Difference|7.7|STANDARD_ERROR_OF_MEAN|4.54|||TWO_SIDED|95.0|-1.4|16.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|10-Mintues Post Treatment||16.8|-1.4|
82573102|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|6.22|||TWO_SIDED|95.0|-10.3|14.4|||Linear Mixed Model||Difference was calculated as Test - Placebo|5-Mintues Post Treatment||14.4|-10.3|
82573103|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-12.1|12.9|||Linear Mixed Model||Difference was calculated as Test - Placebo|10-Minutes Post Treatment||12.9|-12.1|
82388243|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.181|||||TWO_SIDED|95.0|0.134|0.245||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.245|0.134|
82388244|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.129|||||TWO_SIDED|95.0|0.095|0.174||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.174|0.095|
82388245|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67|Geometric Mean Ratio at day 29|0.463|||||TWO_SIDED|95.0|0.341|0.628||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.628|0.341|
82388246|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.696|||||TWO_SIDED|95.0|0.514|0.943||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||0.943|0.514|
82388247|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.207|||||TWO_SIDED|95.0|2.368|4.343||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||4.343|2.368|
82388248|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.9|||||TWO_SIDED|95.0|0.665|1.218||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.218|0.665|
82388249|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.64|||||TWO_SIDED|95.0|0.472|0.868||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.868|0.472|
82388250|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.303|||||TWO_SIDED|95.0|1.7|3.121||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.121|1.7|
82425821|NCT00402987|164560361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.854||95.0|0.5|2.2|||Regression, Logistic|Treatment as a factor||||2.2|0.5|0.854
82425822|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.46||||0.013||95.0|1.3|9.2|||Regression, Logistic|Treatment as a factor||||9.2|1.3|0.013
82573104|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-11.4|12.1|||Linear Mixed Model||difference was calculated as Test - Placebo.|5-Minutes Post Treatment||12.1|-11.4|
82573105|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-9.2|14.0|||Linear Mixed Model||Difference was calculated as Test - Placebo.|10-Mintues Post Treatment||14.0|-9.2|
82573106|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-square Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-8.5|14.3|||Linear Mixed Model||Difference was calculated as Test - Placebo.|5-Mintues Post Treatment||14.3|-8.5|
82573107|NCT03733899|164856408|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least-sqaure Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.67|||TWO_SIDED|95.0|-3.7|18.8|||Linear Mixed Model||difference was calculated as Test - Placebo.|10-Mintues Post Treatment||18.8|-3.7|
82573108|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|4.61|||TWO_SIDED|95.0|-13.2|5.1|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|5.1|-13.2|
82573109|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|4.85|||TWO_SIDED|95.0|-13.9|5.3|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|5.3|-13.9|
82573110|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|4.04|||TWO_SIDED|95.0|-24.4|-8.3|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|-8.3|-24.4|
82573111|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|4.14|||TWO_SIDED|95.0|-17.8|-1.4|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|-1.4|-17.8|
82573112|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|4.15|||TWO_SIDED|95.0|-20.6|-4.1|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean difference was calculated as (5-min Post-Treatment MINUS Immediate Post-insertion).|-4.1|-20.6|
82573113|NCT03733899|164856409|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0 for at least one of the three ocular regions (upper lid margin, lower lid margin, or cornea).|Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|4.25|||TWO_SIDED|95.0|-16.7|0.2|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean difference was calculated as (10-min Post-Treatment MINUS Immediate Post-insertion).|0.2|-16.7|
82443770|NCT06504524|164596140|OTHER||Hazard Ratio (HR)|0.918|||=|0.706|TWO_SIDED|95.0|0.587|1.436|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||1.436|0.587|=0.706
82573114|NCT03733899|164856410|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|5.07|||TWO_SIDED|95.0|-8.7|11.6|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin|11.6|-8.7|
82573115|NCT03733899|164856410|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|95.0|-1.0|18.0|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin|18.0|-1.0|
82573116|NCT03733899|164856410|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-3.5|17.0|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin|17.0|-3.5|
82573117|NCT03733899|164856410|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Mean Difference (Final Values)|11.2|STANDARD_ERROR_OF_MEAN|4.82|||TWO_SIDED|95.0|1.6|20.8|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin|20.8|1.6|
82573118|NCT03733899|164856411|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|6.12|||TWO_SIDED|95.0|-11.4|12.9|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin: 10-mintues post treatment - Pre Treatment.|12.9|-11.4|
82573119|NCT03733899|164856411|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|6.1|||TWO_SIDED|95.0|-4.9|19.9|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Lower Lid Margin: 5-mintues post treatment - Pre Treatment.|19.9|-4.9|
82573120|NCT03733899|164856411|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|6.19|||TWO_SIDED|95.0|-9.3|15.2|||Mixed Models Analysis|||10-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin: 10-mintues post treatment - Pre Treatment.|15.2|-9.3|
82573121|NCT03733899|164856411|SUPERIORITY|Subjective comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|6.17|||TWO_SIDED|95.0|-4.9|19.6|||Mixed Models Analysis|||5-Minutes Post Treatment|Mean Difference was cacluated as Corneal - Upper Lid Margin: 5-mintues post treatment - Pre Treatment.|19.6|-4.9|
82573122|NCT03733899|164856412|SUPERIORITY|Superiority was concluded if the lower limit of 95% confidence interval was greater than 0.|Mean Difference (Final Values)|-12.4|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-20.9|-3.9|||Mixed Models Analysis||||mean difference was calculated as postremoval minus pre-insertion with Test and corneal region.|-3.9|-20.9|
82573123|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.99|||||TWO_SIDED|95.0|0.65|1.52||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.52|0.65|
82573124|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|2.11|||||TWO_SIDED|95.0|1.5|2.98||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.98|1.5|
82573125|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 1|0.68|||||TWO_SIDED|95.0|0.43|1.06||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||1.06|0.43|
82573126|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.87|0.58|
82388251|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|4.608|||||TWO_SIDED|95.0|3.398|6.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||6.249|3.398|
82573127|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.0|||||TWO_SIDED|95.0|0.92|1.08||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.08|0.92|
82425823|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.03||||0.003||95.0|1.7|14.5|||Regression, Logistic|Treatment as a factor||||14.5|1.7|0.003
82425824|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.99||||0.057||95.0|1.0|9.2|||Regression, Logistic|Treatment as a factor||||9.2|1.0|0.057
82573128|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|0.78|||||TWO_SIDED|95.0|0.6|1.01||||||Non-inferiority of immune responses of a TIVc-High Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||1.01|0.6|
82573129|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.27|||||TWO_SIDED|95.0|0.83|1.96||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.96|0.83|
82573130|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|1.6|||||TWO_SIDED|95.0|1.13|2.28||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.28|1.13|
82573131|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.52|||||TWO_SIDED|95.0|0.33|0.81||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||0.81|0.33|
82573132|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.64|||||TWO_SIDED|95.0|0.52|0.78||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.78|0.52|
82573133|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 1|0.96|||||TWO_SIDED|95.0|0.89|1.04||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.04|0.89|
82573134|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.64|||||TWO_SIDED|95.0|0.49|0.84||||||Non-inferiority of immune responses of a TIVc-Full Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||0.84|0.49|
82573135|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|1.02|||||TWO_SIDED|95.0|0.66|1.58||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 1||1.58|0.66|
82573136|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|1.62|||||TWO_SIDED|95.0|1.14|2.3||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H1N1 at Day 50||2.3|1.14|
82573137|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.74|||||TWO_SIDED|95.0|0.47|1.17||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 1||1.17|0.47|
82573138|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group ratios at Day 50|0.46|||||TWO_SIDED|95.0|0.38|0.57||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain A/H3N2 at Day 50||0.57|0.38|
82573139|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 1|0.94|||||TWO_SIDED|95.0|0.87|1.02||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 1||1.02|0.87|
82573140|NCT02035696|164856413|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI of the vaccine group GMT ratio ≥ 0.67|Vaccine Group Ratios at Day 50|0.57|||||TWO_SIDED|95.0|0.44|0.75||||||Non-inferiority of immune responses of a TIVc- Half Dose to TIVe, assessed in terms of vaccine group GMT ratios against influenza strain B at Day 50||0.75|0.44|
82573141|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|10.0|||||TWO_SIDED|95.0|0.0|18.9||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||18.9|0|
82573142|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|2.0|||||TWO_SIDED|95.0|-4.0|8.0||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||8|-4|
82573143|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group differences|-11.0|||||TWO_SIDED|95.0|-21.1|-1.5||||||Non-inferiority of immune responses of TIVc-High Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-1.5|-21.1|
82573144|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|7.0|||||TWO_SIDED|95.0|-2.5|16.8||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||16.8|-2.5|
82573145|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group differences|-3.0|||||TWO_SIDED|95.0|-9.5|4.1||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||4.1|-9.5|
82573146|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-11.0|||||TWO_SIDED|95.0|-20.5|-1.0||||||Non-inferiority of immune responses of TIVc-Full Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-1|-20.5|
82573147|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|6.0|||||TWO_SIDED|95.0|-4.2|15.4||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H1N1||15.4|-4.2|
82573148|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-6.0|||||TWO_SIDED|95.0|-13.4|1.3||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain A/H3N2||1.3|-13.4|
82573149|NCT02035696|164856414|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the Lower limit of the 2-sided 95% CI on the difference between seroconversion rates ≥ -10%|Vaccine Group Differences|-18.0|||||TWO_SIDED|95.0|-27.8|-7.2||||||Non-inferiority of immune responses of TIVc- Half Dose to TIVe, assessed in terms of Vaccine Group Differences with seroconversion against influenza strain B||-7.2|-27.8|
82573150|NCT02035696|164856415|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
82443771|NCT06504524|164596141|OTHER||Hazard Ratio (HR)|0.68|||=|0.0182|TWO_SIDED|95.0|0.52|0.88|||Regression, Cox||IPTW HR were estimated using weighted Cox proportional hazard models and confidence intervals were estimated using robust error variances. Stabilized IPT weights truncated at the 99.5th percentile were used.|||0.88|0.52|=0.0182
82443772|NCT01804582|164596147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Mixed Models Analysis|||An intent to treat analysis was conducted using a linear mixed model to determine if there was any significant difference in change from baseline to 3 months based on time and condition. Data for all participants was included at baseline and 3 months.||||.15
82443773|NCT01804582|164596148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.53|TWO_SIDED||||||Mixed Models Analysis||Cohen's d was calculated to measure the estimation parameter.|||||.53
82443774|NCT01804582|164596149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||.80
82524845|NCT04067401|164745943|SUPERIORITY||Effect size|0.01||||0.821|TWO_SIDED|95.0|-0.12|0.11|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.11|-.12|.821
82524846|NCT04067401|164745944|SUPERIORITY||Effect size|-0.14||||0.024|TWO_SIDED|95.0|-0.31|-0.02|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||-.02|-.31|.024
82524847|NCT04067401|164745945|SUPERIORITY||Effect size|0.18||||0.012|TWO_SIDED|95.0|0.04|0.29|||Mixed Models Analysis|Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component||||.29|.04|.012
82524848|NCT04067401|164745946|SUPERIORITY||Effect size|0.21||||0.01|TWO_SIDED|95.0|0.05|0.35||Model adjusts for class (random effect) and sex, age, race/ethnicity, and Air Force component|Mixed Models Analysis|||||.35|.05|.010
82524849|NCT01889186|164745948|SUPERIORITY||||||<|0.001|||||||Clopper-Pearson exact method|||The ORR for ABT-199 was tested to reject the null hypothesis of ORR = 40%. If the null hypothesis is rejected and the ORR is higher than 40%, then ABT-199 has been shown to have an ORR significantly higher than 40%.The p-value is from the exact binomial distribution comparing ABT-199 ORR to the 40% historical control rate.||||<0.001
82573151|NCT02035696|164856415|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
82443775|NCT01804582|164596150|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|||||||Mixed Models Analysis|||||||.33
82443776|NCT01804582|164596151|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Wald Chi-Squared|||||||.21
82443777|NCT01804582|164596152|SUPERIORITY_OR_OTHER_LEGACY||Phi|0.19||||0.005|TWO_SIDED||||||Chi-squared|Chi Squared (1, N = 229) = 7.99.||The total n=229 included those on medication at 90 days (119 never filled the prescription or changed to a different med)||||.005
82524850|NCT02110901|164745961|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.254|TWO_SIDED|95.0|0.61|1.14|||Log Rank|||||1.14|0.61|0.254
82524851|NCT02110901|164745962|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.048|TWO_SIDED|95.0|0.43|1.0|||Log Rank|||||1.00|0.43|0.048
82524852|NCT02110901|164745963|SUPERIORITY|||||||0.109|||||||Chi-squared|||||||0.109
82524853|NCT02110901|164745964|SUPERIORITY|||||||0.035|||||||Chi-squared|||||||0.035
82443778|NCT00159913|164596161|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.71|STANDARD_ERROR_OF_MEAN|3.98||0.056||95.0|-0.19|15.6||No adjustments for multiple comparisons have been made.|ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||15.60|-0.19|0.056
82443779|NCT00159913|164596161|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.81|STANDARD_ERROR_OF_MEAN|5.0||||95.0|-6.11|13.73|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||13.73|-6.11|
82443780|NCT00159913|164596161|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.33|STANDARD_ERROR_OF_MEAN|4.84||||95.0|1.72|20.94|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||20.94|1.72|
82443781|NCT00159913|164596161|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.98|STANDARD_ERROR_OF_MEAN|4.85||||95.0|-1.64|17.6|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates.||||17.60|-1.64|
82524854|NCT01058304|164745967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67||||0.1024|TWO_SIDED|95.0|-5.87|0.538|||Mixed Models Analysis|||"The analysis compares study Arm 1 and Arm 2 at 24-week follow-up, with 12-week data also included in the response trajectory.~The hypothesis being tested is that group-based PT (Arm 1) will result in a significantly greater improvement WOMAC scores compared to individual PT (Arm 2)"||0.538|-5.87|0.1024
82524855|NCT01058304|164745967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.444|TWO_SIDED|95.0|-4.64|2.04|||Mixed Models Analysis|||The hypothesis being tested is that the group-based PT program (Arm 1) will result in greater improvements in WOMAC scores at 24-week follow-up (12 weeks after the end of the group program) when compared to usual PT care (Arm 2).||2.04|-4.64|0.444
82524856|NCT01058304|164745968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.113||||0.527|TWO_SIDED|95.0|-0.463|0.238|||Mixed Models Analysis|||The analysis compares Arms 1 and 2 at 12-week follow-up. The hypothesis being tested is that the group-based PT program (Arm 1) will result in a significantly greater improvement in SPPB scores compared with the individual PT program (Arm 2).||0.238|-0.463|0.527
82524857|NCT02496767|164745969|SUPERIORITY||Least squares mean difference|1.707|STANDARD_ERROR_OF_MEAN|1.9365||0.3782|TWO_SIDED|95.0|-2.089|5.503|||Repeated-measures mixed model|||||5.503|-2.089|0.3782
82524858|NCT02496767|164745969|SUPERIORITY||Least squares mean difference|0.612|STANDARD_ERROR_OF_MEAN|2.0245||0.7625|TWO_SIDED|95.0|-3.359|4.583|||Repeated-measures mixed model|||||4.583|-3.359|0.7625
82524859|NCT02496767|164745969|SUPERIORITY||Least squares mean difference|0.428|STANDARD_ERROR_OF_MEAN|2.1081||0.8394|TWO_SIDED|95.0|-3.711|4.566|||Repeated-measures mixed model|||||4.566|-3.711|0.8394
82524860|NCT02496767|164745970|SUPERIORITY||Least squares mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.41||0.4521|TWO_SIDED|95.0|-0.5|1.12|||Repeated-measures mixed model|||||1.12|-0.50|0.4521
82524861|NCT02496767|164745970|SUPERIORITY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.426||0.712|TWO_SIDED|95.0|-1.0|0.68|||Repeated-measures mixed model|||||0.68|-1.00|0.7120
82524862|NCT02496767|164745970|SUPERIORITY||Least squares mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.439||0.451|TWO_SIDED|95.0|-1.19|0.53|||Repeated-measures mixed model|||||0.53|-1.19|0.4510
82524863|NCT02496767|164745971|SUPERIORITY||Mean Difference (Final Values)|-0.0011||||0.9505|TWO_SIDED|95.0|-0.0374|0.0351|||Repeated-measures mixed model|||||0.0351|-0.0374|0.9505
82524864|NCT02496767|164745971|SUPERIORITY||Mean Difference (Final Values)|0.0066||||0.7336|TWO_SIDED|95.0|-0.0317|0.045|||Repeated-measures mixed model|||||0.0450|-0.0317|0.7336
82524865|NCT02496767|164745971|SUPERIORITY||Mean Difference (Final Values)|0.0088||||0.6593|TWO_SIDED|95.0|-0.0303|0.0479|||Repeated-measures mixed model|||||0.0479|-0.0303|0.6593
82524866|NCT02496767|164745972|SUPERIORITY||Hazard Ratio (HR)|0.818||||0.2369|TWO_SIDED|95.0|0.587|1.141|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.141|0.587|0.2369
82524867|NCT02496767|164745972|SUPERIORITY||Hazard Ratio (HR)|0.988||||0.942|TWO_SIDED|95.0|0.711|1.372|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.372|0.711|0.9420
82573152|NCT02035696|164856415|SUPERIORITY_OR_OTHER||Desirability Index Score|0.0|||||TWO_SIDED||||||||Desirability Score: If this difference is negative, then it is defined as non-desirable (D equal to 0), while if the difference is positive, then D will equal to the relative reduction calculated in the following way: D = (TIVe - TIVc Dose )/TIVe.|||||
82573153|NCT01867047|164856443|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Statistical analysis for intraoperative mild hypotension||||0.140
82573154|NCT01867047|164856443|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Statistical analysis for postoperative mild hypotension||||1.000
82524868|NCT02496767|164745972|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.6853|TWO_SIDED|95.0|0.668|1.304|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.304|0.668|0.6853
82524869|NCT02496767|164745973|SUPERIORITY||Hazard Ratio (HR)|1.066||||0.7667|TWO_SIDED|95.0|0.698|1.627|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.627|0.698|0.7667
82524870|NCT02496767|164745973|SUPERIORITY||Hazard Ratio (HR)|0.904||||0.6619|TWO_SIDED|95.0|0.577|1.419|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.419|0.577|0.6619
82524871|NCT02496767|164745973|SUPERIORITY||Hazard Ratio (HR)|0.882||||0.5856|TWO_SIDED|95.0|0.561|1.386|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.386|0.561|0.5856
82524872|NCT02496767|164745974|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.103||0.9991|TWO_SIDED|95.0|-2.17|2.17|||Repeated-measures mixed model|||||2.17|-2.17|0.9991
82524873|NCT02496767|164745974|SUPERIORITY||Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|1.138||0.4808|TWO_SIDED|95.0|-3.04|1.43|||Repeated-measures mixed model|||||1.43|-3.04|0.4808
82524874|NCT02496767|164745974|SUPERIORITY||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.165||0.6082|TWO_SIDED|95.0|-2.89|1.69|||Repeated-measures mixed model|||||1.69|-2.89|0.6082
82524875|NCT02496767|164745975|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.2602|TWO_SIDED|95.0|0.5|1.206|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.206|0.500|0.2602
82524876|NCT02496767|164745975|SUPERIORITY||Hazard Ratio (HR)|1.094||||0.6748|TWO_SIDED|95.0|0.72|1.662|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.662|0.720|0.6748
82524877|NCT02496767|164745975|SUPERIORITY||Hazard Ratio (HR)|0.938||||0.7694|TWO_SIDED|95.0|0.609|1.443|||Regression, Cox||Hazard ratio for tirasemtiv vs placebo|||1.443|0.609|0.7694
82524878|NCT04252742|164746026|SUPERIORITY||LSM difference|-7.95|||<|0.001|TWO_SIDED|95.0|-11.45|-4.46||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-4.46|-11.45|< 0.001
82524879|NCT04252742|164746027|SUPERIORITY||LSM difference|-7.36|||<|0.001|TWO_SIDED|95.0|-10.8|-3.92||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-3.92|-10.80|< 0.001
82524880|NCT04252742|164746028|SUPERIORITY||LSM difference|-7.1|||<|0.001|TWO_SIDED|95.0|-10.34|-3.87||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.87|-10.34|< 0.001
82524881|NCT04252742|164746029|SUPERIORITY||LSM difference|-7.05|||<|0.001|TWO_SIDED|95.0|-10.76|-3.34||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.34|-10.76|< 0.001
82524882|NCT04252742|164746030|SUPERIORITY||LSM difference|-6.82|||<|0.001|TWO_SIDED|95.0|-10.37|-3.27||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-3.27|-10.37|< 0.001
82524883|NCT04252742|164746031|SUPERIORITY||LSM difference|-1.07||||0.013|TWO_SIDED|95.0|-1.92|-0.22||Nominal p-value is presented without multiplicity adjustment.|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates.|Erenumab 140 mg SC Q4W - Placebo|||-0.22|-1.92|0.013
82573155|NCT01867047|164856445|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||Analysis for number of participants given vasopressors intraoperatively||||0.102
82573156|NCT01867047|164856448|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.700
82573157|NCT01867047|164856449|SUPERIORITY|||||||0.702|||||||t-test, 2 sided|||||||0.702
82573158|NCT00379769|164856541|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.2 for the upper limit of the 95 percent confidence interval in time to event analysis comparing RSG to MET/SU stratified by background medication|Hazard Ratio (HR)|0.99||||||95.0|0.85|1.16||||||||1.16|0.85|
82573159|NCT00379769|164856565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||||95.0|0.68|1.08||||||||1.08|0.68|
82573160|NCT00379769|164856566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.78|1.17||||||||1.17|0.78|
82573161|NCT00379769|164856567|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||||95.0|0.79|1.18||||||||1.18|0.79|
82573162|NCT00379769|164856568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.68|1.21||||||||1.21|0.68|
82573163|NCT00379769|164856569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.68|1.21||||||||1.21|0.68|
82573164|NCT00379769|164856570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||||95.0|0.8|1.59||||||||1.59|0.80|
82524884|NCT04252742|164746032|SUPERIORITY||LSM difference|-0.48||||0.011|TWO_SIDED|95.0|-0.85|-0.11||Nominal p-value is presented without multiplicity adjustment|Mixed Models Analysis|Treatment, visit, treatment-by-visit interaction, and baseline value as covariates|Erenumab 140 mg SC Q4W - Placebo|||-0.11|-0.85|0.011
82524885|NCT00394355|164746113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.261|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way analysis of variance (ANOVA) model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.261
82524886|NCT00394355|164746113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.644|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.644
82524887|NCT00394355|164746114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.359
82524888|NCT00394355|164746114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.390
82524889|NCT00394355|164746115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.169
82524890|NCT00394355|164746115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.526|||||||ANOVA|||"Least squares mean percent changes were obtained from the two-way ANOVA model with treatment and BMD scan center effects. Results shown use percent change as a response.~Pooled Standard deviation from the ANOVA model with treatment effects."||||0.526
82524891|NCT00394355|164746116|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||Least square means and Pstd (pooled standard deviations) are obtained from the ANOVA model with treatment effects.||||<0.001
82524892|NCT00394355|164746116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||Least square means and Pstd (pooled standard deviations) are obtained from the ANOVA model with treatment effects.||||0.023
82573165|NCT00379769|164856571|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||||95.0|0.82|1.62||||||||1.62|0.82|
82524893|NCT00985010|164746131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|5.0||0.05|||||||Chi-squared||The difference is between the percentage of deaths (males versus females) after six months in the patients with hepatic encephalophathy.|Clinical evolution was reported as percentage (still alive or death after six months of follow up).||||0.05
82524894|NCT00985010|164746132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.05|STANDARD_DEVIATION|10.72||0.05||95.0|||||Wilcoxon (Mann-Whitney)||The difference is between manganese levels of women minus manganese levels of men.|Laboratory results were expressed in means and standard deviations. Between group comparisons (female versus male values) were made with the Mann-Whitney U test using the Statistical Package for Social Sciences (SPSS) program version 10 (SPSS Inc., North Carolina, USA).||||0.05
82524895|NCT00511875|164746133|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
82524896|NCT00511875|164746134|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Foveal Sensitivity||||.33
82524897|NCT00511875|164746134|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Mean field sensitivity||||.16
82425825|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.758||95.0|0.5|2.9|||Regression, Logistic|Treatment as a factor||||2.9|0.5|0.758
82524898|NCT00511875|164746135|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Foveal Sensitivity||||.02
82524899|NCT00511875|164746135|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||mean FDP sensitivity||||.3
82524900|NCT00511875|164746136|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||.98
82524901|NCT00511875|164746137|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||.46
82524902|NCT00511875|164746138|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||.81
82524903|NCT00511875|164746139|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||.88
82524904|NCT00511875|164746140|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||.75
82524905|NCT00511875|164746141|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||.62
82524906|NCT01349920|164746152|SUPERIORITY_OR_OTHER|||||||0.071|||||||Multiple Linear Regression|||Week 6||||0.071
82524907|NCT01349920|164746152|SUPERIORITY_OR_OTHER|||||||0.381|||||||Multiple Linear Regression|||Week 22||||0.381
82524908|NCT05361655|164746155|OTHER||Hazard Ratio (HR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.65|0.87|||Cox proportional hazard model|||||0.87|0.65|<0.0001
82524909|NCT05361655|164746156|OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.62|0.76|||Cox proportional hazards model|||||0.76|0.62|<0.0001
82524910|NCT05361655|164746158|OTHER||||||<|0.0001|||||||score test|||||||<0.0001
82524911|NCT05361655|164746161|OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.6|0.72|||Cox proportional hazard model|||||0.72|0.60|<0.0001
82524912|NCT05361655|164746162|OTHER||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.51|0.62|||Cox proportional hazard model|||||0.62|0.51|<0.0001
82524913|NCT05361655|164746163|OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86|||Cox proportional hazard model|||||0.86|0.69|<0.0001
82524914|NCT05361655|164746164|OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.7|||Cox proportional hazards model|||||0.70|0.54|<0.0001
82524915|NCT00685945|164746216|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||The effect of bradykinin on net t-PA release was determined using general linear model-repeated measures ANOVA in which the between-subject variable was gender, and the within-subjects variables were drug (control, +L-NMMA, +L-NMMA plus isosorbide, or +L-NMMA plus sildenafil) and dose of bradykinin.||||0.04
82524916|NCT00685945|164746217|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Repeated measures ANOVA||||||<0.001
82524917|NCT00201864|164746247|SUPERIORITY_OR_OTHER|||||||0.9102|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9102
82524918|NCT00071721|164746249|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.958||||0.88||95.0|||||Cox Proportional Hazards|||||||0.88
82573166|NCT00379769|164856572|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||||95.0|0.54|1.14||||||||1.14|0.54|
82573167|NCT00379769|164856573|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||||95.0|0.57|1.18||||||||1.18|0.57|
82573168|NCT01641653|164856601|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This is a pilot study no power calculation was performed. The Wilcoxon rank-sum test was used to assess differences in max intraop glucose between placebo and midazolam groups.||||0.87
82573169|NCT01641653|164856602|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||percent change in glucose levels from preoperative level to maximum perioperative measurement level||||0.56
82425826|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.69||||0.381||95.0|0.3|1.6|||Regression, Logistic|Treatment as a factor||||1.6|0.3|0.381
82425827|NCT00402987|164560362|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.68||||0.313||95.0|0.6|4.6|||Regression, Logistic|Treatment as a factor||||4.6|0.6|0.313
82425828|NCT00402987|164560363|SUPERIORITY_OR_OTHER_LEGACY||NNT at 6 hours|8.2||||||95.0|4.5|46.4||||||NNT is the inverse of the absolute risk reduction at 6 hours||46.4|4.5|
82425829|NCT00402987|164560363|SUPERIORITY_OR_OTHER_LEGACY||NNT at 6 hours|7.5||||||95.0|4.3|32.0||||||NNT is the inverse of the absolute risk reduction at 6 hours||32.0|4.3|
82425830|NCT00402987|164560364|SUPERIORITY_OR_OTHER_LEGACY||NNT at 12 hours|7.5||||||95.0|4.3|28.7||||||NNT is the inverse of the absolute risk reduction at 12 hours||28.7|4.3|
82425831|NCT00402987|164560364|SUPERIORITY_OR_OTHER_LEGACY||NNT at 12 hours|5.0||||||95.0|3.0|16.7||||||NNT is the inverse of the absolute risk reduction at 12 hours||16.7|3.0|
82425832|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.77|||<|0.001||95.0|1.9|7.6||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||7.6|1.9|<0.001
82425833|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.72||||0.005||95.0|1.3|5.5||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.5|1.3|0.005
82425834|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.72||||0.286||95.0|0.4|1.3||Analysis for 2 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||1.3|0.4|0.286
82425835|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.37||||0.001||95.0|1.6|7.1||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||7.1|1.6|0.001
82425836|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.05||||0.004||95.0|1.4|6.5||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||6.5|1.4|0.004
82425837|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9||||0.752||95.0|0.5|1.7||Analysis for 6 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||1.7|0.5|0.752
82425838|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.57|||<|0.001||95.0|1.9|10.7||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||10.7|1.9|<0.001
82425839|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.68||||0.003||95.0|1.6|8.7||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||8.7|1.6|0.003
82425840|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81||||0.511||95.0|0.4|1.5||Analysis for 2 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||1.5|0.4|0.511
82425841|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.05||||0.009||95.0|1.3|7.0||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||7.0|1.3|0.009
82425842|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||0.014||95.0|1.2|6.7||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.7|1.2|0.014
82425843|NCT00402987|164560365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.94||||0.863||95.0|0.5|1.9||Analysis for 6 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||1.9|0.5|0.863
82425844|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.92||||0.004||95.0|1.4|6.1||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||6.1|1.4|0.004
82425845|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37||||0.052||95.0|1.0|5.7||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.7|1.0|0.052
82425846|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.13||||0.095||95.0|0.9|5.1||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||5.1|0.9|0.095
82425847|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.431||95.0|0.6|3.0||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||3.0|0.6|0.431
82425848|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.602||95.0|0.6|2.7||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||2.7|0.6|0.602
82425849|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.814||95.0|0.4|2.8||12 hours \>=35% gone|Regression, Logistic|Treatment as a factor||||2.8|0.4|0.814
82425850|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||0.014||95.0|1.2|6.7||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.7|1.2|0.014
82425851|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.23||||0.016||95.0|1.2|8.4||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||8.4|1.2|0.016
82425852|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.54||||0.063||95.0|0.9|6.8||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||6.8|0.9|0.063
82425853|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.775||95.0|0.5|2.7||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||2.7|0.5|0.775
82425854|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.779||95.0|0.4|2.0||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||2.0|0.4|0.779
82425855|NCT00402987|164560366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.624||95.0|0.5|3.3||12 hours \>=50% gone|Regression, Logistic|Treatment as a factor||||3.3|0.5|0.624
82425856|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.001
82425857|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.012
82425858|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.453||95.0||||Analysis for meaningful Relief at 2 hours|Regression, Logistic|Treatment as a factor||||||0.453
82425859|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||<0.001
82425860|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
82573170|NCT01641653|164856603|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|||||Chi-square with continuity correction|Chi-squared, Corrected|||||||0.12
82573171|NCT02825251|164856604|NON_INFERIORITY|Non-inferiority of faster aspart was considered confirmed if the upper limit of the two-sided 95 % CI for the true treatment-difference D (faster aspart minus NovoRapid®) was below 0.4 %.|Treatment difference|0.09|||||TWO_SIDED|95.0|0.01|0.17|||ANOVA|||Change from baseline in HbA1c was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model included treatment, strata (use of own continuous glucose monitoring), previous insulin use, and region as factors, and baseline HbA1c as a covariate.||0.17|0.01|
82573172|NCT00349466|164856695|SUPERIORITY|||||||0.027|||||||ANCOVA|||||||0.027
82573173|NCT00349466|164856696|SUPERIORITY|||||||0.083|||||||ANCOVA|||||||0.083
82573174|NCT00349466|164856697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|TWO_SIDED|95.0|||||Fisher Exact|||||||0.028
82573175|NCT00349466|164856698|SUPERIORITY|||||||0.655|||||||Fisher Exact|||||||0.655
82388252|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|1.293|||||TWO_SIDED|95.0|0.954|1.753||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.753|0.954|
82388253|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.92|||||TWO_SIDED|95.0|0.677|1.249||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||1.249|0.677|
82388254|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.31|||||TWO_SIDED|95.0|2.436|4.496||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.496|2.436|
82388255|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.281|||||TWO_SIDED|95.0|0.207|0.38||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.38|0.207|
82388256|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.2|||||TWO_SIDED|95.0|0.147|0.271||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.271|0.147|
82425861|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.814||95.0||||Analysis for meaningful Relief at 6 hours|Regression, Logistic|Treatment as a factor||||||0.814
82425862|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.024
82573176|NCT00349466|164856699|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.387
82573177|NCT00349466|164856700|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
82573178|NCT00349466|164856701|SUPERIORITY|||||||0.807|||||||ANCOVA|||||||.807
82573179|NCT02104505|164856720|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|0.18||0.04|TWO_SIDED||||||Mixed Models Analysis||Comparison of change in sputum %PMNs during active treatment vs placebo (crossover design).|||||0.04
82573180|NCT02104505|164856721|SUPERIORITY||Mean Difference (Net)|0.64|STANDARD_ERROR_OF_MEAN|0.22||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82573181|NCT02104505|164856722|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.33||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.6
82573182|NCT02104505|164856723|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.33||0.34|TWO_SIDED||||||Mixed Models Analysis|||||||0.34
82573183|NCT01730950|164856743|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.46|TWO_SIDED|95.0|0.7|1.38|||Log Rank|Two-side significance level = 0.05|Reference level = Bevacizumab|Null hypothesis: median survival time for both arms is 9 months; alternative hypothesis: participants receiving radiation therapy plus bevacizumab will have an improvement in median survival time to 13 months. One hundred and sixty eligible participants provides 80% power to detect a 31% reduction in the hazard ratio to 0.69 at a one-sided significance level of 0.10. Analysis was planned to occur when 135 deaths were reported, expected to occur 16 to 21 months after trial closure.||1.38|0.70|0.46
82573184|NCT01730950|164856744|SUPERIORITY|||||||0.18|||||||Chi-squared|Two-sided significance level = 0.05||||||0.18
82573185|NCT01730950|164856745|SUPERIORITY|||||||0.001|||||||Chi-squared|Two-sided significance level = 0.05||||||0.001
82573186|NCT01730950|164856746|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.05|TWO_SIDED|95.0|0.53|1.0|||Log Rank|Two-sided significance level = 0.05|Reference level = Bevacizumab|||1.00|0.53|0.05
82640663|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|1.19||||0.202|TWO_SIDED|95.0|0.91|1.54||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled in the program).||1.54|0.91|.202
82524919|NCT00803101|164746299|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 80 participants."|Difference in effective hemostasis (%)|14.3|||||TWO_SIDED|95.0|2.8|25.8||No P-value is provided as non-inferiority was assessed via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.|95% confidence interval|The Newcombe-Wilson score method was used to estimate the 95% CI for the difference (Beriplex-plasma) in the % participants with effective hemostasis||The analysis of hemostatic efficacy was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.||25.8|2.8|
82524920|NCT00803101|164746300|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 80 participants."|Difference in effective hemostasis (%)|45.3|||||TWO_SIDED|95.0|31.9|56.4||No P-value is provided as non-inferiority was assessed via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.|Newcombe-Wilson score method|The Newcombe-Wilson score method was used to estimate the 95% CI for the difference (Beriplex-plasma) in the % pts with rapid decrease of the INR.||The analysis of rapid decrease of the INR was via calculation of the 95% CI for the difference (Beriplex minus plasma) in the percentage of participants with INR ≤ 1.3 at 30 minutes after the end of infusion.||56.4|31.9|
82524921|NCT01782742|164746306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.22|TWO_SIDED|95.0|-0.13|0.03|||t-test, 2 sided|||||0.03|-0.13|0.22
82524922|NCT01782742|164746307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.57|TWO_SIDED|95.0|-4.428|2.428|||t-test, 2 sided|||||2.428|-4.428|0.57
82524923|NCT01782742|164746308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.625||||0.83|TWO_SIDED|95.0|-5.029|6.279|||t-test, 2 sided|||||6.279|-5.029|0.83
82524924|NCT01782742|164746309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.000|0.000|
82524925|NCT01782742|164746310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.375||||0.94|TWO_SIDED|95.0|-9.674|8.924|||t-test, 2 sided|||||8.924|-9.674|0.94
82573187|NCT00667459|164856752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority margin is 0.1.|Risk Difference (RD)|0.032||||0.995|TWO_SIDED|95.0|-0.07|0.134||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null noninferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.134|-0.070|0.995
82573188|NCT00667459|164856752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.736||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated. If the posterior probability is at least 0.95, a claim of superiority can be made.||||0.736
82640664|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|0.66||||0.005|TWO_SIDED|95.0|0.49|0.88||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled in the program).||0.88|0.49|.005
82524926|NCT01782742|164746311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.563||||0.18|TWO_SIDED|95.0|-1.975|11.1|||t-test, 2 sided|||||11.100|-1.975|0.18
82524927|NCT01782742|164746319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.46|TWO_SIDED|95.0|-0.01|0.021|||t-test, 2 sided|||||0.021|-0.010|0.46
82524928|NCT01782742|164746320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided|||||0.040|-0.020|0.53
82524929|NCT02790073|164746324|OTHER|Within group comparison vs baseline|||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
82524930|NCT02790073|164746325|OTHER|Within group comparison vs baseline||||||0.015|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.015
82524931|NCT02790073|164746326|OTHER|Within group comparison vs baseline||||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.003
82524932|NCT04770753|164746342|SUPERIORITY||Percentage difference|40.9|||<|0.0001|TWO_SIDED|95.0|32.0|49.8|||Cochran-Mantel-Haenszel|||The estimated adjusted difference in response rate, 95% CI, and p-value are based on Mantel-Haenszel stratum weighted method adjusting for the randomization stratification factors.||49.8|32.0|<0.0001
82524933|NCT04770753|164746343|SUPERIORITY||Difference in Lean Square (LS) Mean|3.4||||0.0026|TWO_SIDED|95.0|1.21|5.59|||ANCOVA|||The estimates, 95% CIs, and 2-sided p-value are based on an analysis of covariance (ANCOVA) model which includes average change from baseline in FACIT-Fatigue subscale score from Week 12 through Week 24 as the dependent variable, treatment group as the independent variable, and baseline and the randomization stratification factors as covariates.||5.59|1.21|0.0026
82573189|NCT00667459|164856753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.048||||1|TWO_SIDED|95.0|-0.02|0.118||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the success rates of NDI in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null noninferiority hypothesis will be rejected, and non-inferiority of the investigational group will be claimed for this endpoint."||0.118|-0.020|1.0
82573190|NCT00667459|164856753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.912||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.912
82573191|NCT00667459|164856754|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.099||||1|TWO_SIDED|95.0|0.038|0.161||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.161|0.038|1.0
82573192|NCT00667459|164856754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.999
82573193|NCT00667459|164856755|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.034||||0.992|TWO_SIDED|95.0|-0.085|0.021||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.021|-0.085|0.992
82573194|NCT00667459|164856755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.097||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.097
82573195|NCT00667459|164856756|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.01||||1|TWO_SIDED|95.0|-0.043|0.023||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.023|-0.043|1.0
82640665|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|0.75||||0.276|TWO_SIDED|95.0|0.69|4.16||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled in the program).||4.16|0.69|.276
82640666|NCT03965754|164995877|SUPERIORITY||Odds Ratio (OR)|0.75||||0.592|TWO_SIDED|95.0|0.25|2.16||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled in the program).||2.16|0.25|.592
82573196|NCT00667459|164856756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.273
82640667|NCT03965754|164995878|SUPERIORITY|We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled).|Odds Ratio (OR)|1.31||||0.02|TWO_SIDED|95.0|1.04|1.65||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.65|1.04|.020
82388257|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.718|||||TWO_SIDED|95.0|0.529|0.975||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.975|0.529|
82388258|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|0.712|||||TWO_SIDED|95.0|0.524|0.966||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||0.966|0.524|
82388259|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|2.56|||||TWO_SIDED|95.0|1.886|3.474||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other.||3.474|1.886|
82388260|NCT00972816|164487076|NON_INFERIORITY_OR_EQUIVALENCE|For pairwise vaccine group compared, least squares GMT and associated 2-sided 95% CI, median, minimum, and maximum HI titer values were determined. The two-sided 95% CIs was calculated and assessed against a non-inferiority margin of 0.5. Subsequently the same non-inferiority hypothesis was tested using a non-inferiority margin of 0.67.|Geometric Mean Ratio at day 29|3.597|||||TWO_SIDED|95.0|2.646|4.89||||||A difference was assumed to be statistically significant if the 2-sided 95% CI around the ratio of GMTs did not contain 1, in which case one group is either statistically significantly superior or statistically inferior to the other||4.89|2.646|
82388261|NCT03625466|164487089|SUPERIORITY||Mean Difference|-1.5|||||TWO_SIDED|95.0|-5.5|2.6||||||||2.6|-5.5|
82388262|NCT03200704|164487099|NON_INFERIORITY|90% power, 2.5% one-sided significance level,5% non-inferiority margin|||||<|0.0001|||||||Regression, Logistic|||"Hypothesis:~H0: QT ≤ QC - 0.05 H1: QT \> QC - 0.05"||||<0.0001
82388263|NCT01683266|164487160|NON_INFERIORITY_OR_EQUIVALENCE|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.098|0.185||||||Analysis was performed using mixed model for repeated measurements (MMRM) with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline HbA1c and baseline HbA1c-by-visit interaction as continuous fixed covariates.||0.185|-0.098|
82388264|NCT01683266|164487163|SUPERIORITY_OR_OTHER||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.322|||TWO_SIDED|95.0|-0.982|0.287||||||Change in pre-injection SMPG was analyzed using MMRM model with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; pre-injection SMPG value and pre-injection SMPG value-by-visit interaction as continuous fixed covariates.||0.287|-0.982|
82388265|NCT00626821|164487197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.813|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|95.0|1.553|2.073|||Mixed Models Analysis|||||2.073|1.553|<0.0001
82388266|NCT01062113|164487199|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|38.2|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|95.0|20.3|56.1||The difference in the efficacy rates was tested using normal distribution at a significance level of 2-sided 5%. 2-sided 95% confidence interval (CI) for the difference in the efficacy rates was calculated using normal approximation.|asymptotic z-test|||||56.1|20.3|<0.0001
82388267|NCT01062113|164487201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
82388268|NCT01062113|164487202|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82388269|NCT03655470|164487216|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.07||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||.30
82388270|NCT01893281|164487224|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82388271|NCT00910208|164487242|SUPERIORITY|||||||0.82|||||||ANOVA|||||||0.82
82388272|NCT00910208|164487243|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
82388273|NCT00910208|164487244|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
82388274|NCT00910208|164487245|SUPERIORITY|||||||0.033|||||||Chi-squared|||||||0.033
82388275|NCT00910208|164487246|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82388276|NCT00910208|164487247|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82388277|NCT02397122|164487353|SUPERIORITY|||||||0.259|||||||Mann-Whitney|||Baseline||||0.259
82388278|NCT02397122|164487353|SUPERIORITY|||||||0.097|||||||Mann-Whitney|||6 weeks||||0.097
82524934|NCT04770753|164746344|SUPERIORITY||Difference in LS Mean|9.63|||<|0.0001|TWO_SIDED|95.0|7.8|11.46|||ANCOVA|||The estimates, 95% CIs, and 2-sided p-value are based on an ANCOVA model which includes average change from baseline in Hb concentrations from Week 12 through Week 24 as the dependent variable, treatment group as the independent variable, and baseline Hb concentration and the randomization stratification factors as covariates.||11.46|7.80|<0.0001
82524935|NCT02305381|164746366|SUPERIORITY_OR_OTHER||Treatment difference|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.01|-1.5|||Mixed Models Analysis||Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Hierarchical testing was performed as per sequence listed below:Change in HbA1c: semaglutide 1.0 mg vs placebo. Change in HbA1c: semaglutide 0.5 mg vs placebo. Change in body weight: semaglutide 1.0 mg vs placebo. Change in body weight: semaglutide 0.5 mg vs placebo. Analysis was performed using MMRM with treatment, country and stratification variable (HbA1c at screening \[≤8.0% or \>8.0%\] crossed with use of metformin \[yes or no\]; 2 by 2 levels) as fixed factors and baseline value as covariate||-1.50|-2.01|< 0.0001
82524936|NCT02305381|164746366|SUPERIORITY_OR_OTHER||Treatment difference|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.1|||Mixed Models Analysis||Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Hierarchical testing was performed as per sequence listed below:Change in HbA1c: semaglutide 1.0 mg vs placebo. Change in HbA1c: semaglutide 0.5 mg vs placebo. Change in body weight: semaglutide 1.0 mg vs placebo. Change in body weight: semaglutide 0.5 mg vs placebo. Analysis was performed using MMRM with treatment, country and stratification variable (HbA1c at screening \[≤8.0% or \>8.0%\] crossed with use of metformin \[yes or no\]; 2 by 2 levels) as fixed factors and baseline value as covariate||-1.10|-1.61|< 0.0001
82524937|NCT01181726|164746376|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.66|||||TWO_SIDED|90.0|94.22|116.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||116.25|94.22|
82524938|NCT01181726|164746377|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.4|||||TWO_SIDED|90.0|93.91|101.02|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.02|93.91|
82573197|NCT00667459|164856757|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.019||||1|TWO_SIDED|95.0|-0.018|0.058||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.058|-0.018|1.0
82524939|NCT01181726|164746378|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.6|||||TWO_SIDED|90.0|94.05|101.3|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.30|94.05|
82524940|NCT01181726|164746379|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.35|||||TWO_SIDED|90.0|92.21|107.06|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||107.06|92.21|
82524941|NCT01181726|164746380|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.21|||||TWO_SIDED|90.0|91.21|99.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.39|91.21|
82524942|NCT01181726|164746381|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.25|||||TWO_SIDED|90.0|91.18|99.51|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||99.51|91.18|
82524943|NCT01181726|164746382|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.33|||||TWO_SIDED|90.0|92.21|107.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.00|92.21|
82524944|NCT01181726|164746383|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.19|||||TWO_SIDED|90.0|91.18|99.38|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.38|91.18|
82524945|NCT01181726|164746384|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.23|||||TWO_SIDED|90.0|91.17|99.47|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.47|91.17|
82573198|NCT00667459|164856757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.845||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.845
82577041|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2023|TWO_SIDED|95.0|-0.69|0.15|||MMRM|||Feelings of Guilt, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.69|0.2023
82640668|NCT03965754|164995878|SUPERIORITY||Odds Ratio (OR)|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.75||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who previously enrolled).||0.75|0.44|<.001
82524946|NCT01181726|164746385|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.92|||||TWO_SIDED|90.0|93.44|102.61|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.61|93.44|
82524947|NCT01181726|164746386|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.77|||||TWO_SIDED|90.0|93.92|101.78|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.78|93.92|
82388279|NCT02397122|164487353|SUPERIORITY|||||||0.07||||||\<0.05|Mann-Whitney U|||6 months||||0.070
82388280|NCT02397122|164487354|SUPERIORITY|||||||0.067|||||||Mann-Whitney|||Baseline||||0.067
82388281|NCT02397122|164487354|SUPERIORITY|||||||0.13|||||||Mann-Whitney|||6 weeks||||0.130
82388282|NCT02397122|164487354|SUPERIORITY|||||||0.128||||||\<0.05|Mann-Whitney U|||6 months||||0.128
82388283|NCT02397122|164487355|SUPERIORITY|||||||0.298|||||||Mann-Whitney|||Baseline||||0.298
82388284|NCT02397122|164487355|SUPERIORITY|||||||0.152|||||||Mann-Whitney|||6 weeks||||0.152
82388285|NCT02397122|164487355|SUPERIORITY|||||||0.317||||||\<0.05|Mann-Whitney U|||6 months||||0.317
82388286|NCT02397122|164487356|SUPERIORITY|||||||0.136|||||||Mann-Whitney|||Baseline||||0.136
82388287|NCT02397122|164487356|SUPERIORITY|||||||0.041|||||||Mann-Whitney|||6 weeks||||0.041
82388288|NCT02397122|164487356|SUPERIORITY|||||||0.064||||||\<0.05|Mann-Whitney U|||6 months||||0.064
82388289|NCT02397122|164487357|SUPERIORITY|||||||0.245|||||||Mann-Whitney|||Baseline||||0.245
82388290|NCT02397122|164487357|SUPERIORITY|||||||0.099|||||||Mann-Whitney|||6 weeks||||0.099
82388291|NCT02397122|164487357|SUPERIORITY|||||||0.077|||||||Mann-Whitney U|||||||0.077
82640669|NCT03965754|164995878|SUPERIORITY||Odds Ratio (OR)|0.75||||0.359|TWO_SIDED|95.0|0.41|1.38||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled).||1.38|0.41|.359
82388292|NCT02397122|164487358|SUPERIORITY|||||||0.946|||||||Mann-Whitney|||Baseline||||0.946
82388293|NCT02397122|164487358|SUPERIORITY|||||||0.001|||||||Mann-Whitney|||6 weeks||||0.001
82388294|NCT02397122|164487358|SUPERIORITY|||||||0.001||||||\<0.05|Mann-Whitney U|||6 months||||0.001
82388295|NCT02438826|164487364|SUPERIORITY||LSMean Difference|-0.8||||0.334|TWO_SIDED|95.0|-2.77|1.17||Cui, Hung, Wang (CHW) procedure applied|Mixed Models Analysis|||||1.17|-2.77|0.334
82388296|NCT02438826|164487365|SUPERIORITY||Odds Ratio (OR)|1.297||||0.17|TWO_SIDED|95.0|0.83|2.028||Cui, Hung, Wang (CHW) procedure applied|Mixed Models Analysis|||||2.028|0.830|0.170
82388297|NCT02438826|164487366|SUPERIORITY|||||||0.946||||||Chui, Hung, Wang (CHW) procedure applied)|Mixed Models Analysis|||||||0.946
82388298|NCT02438826|164487367|SUPERIORITY||Odds Ratio (OR)|1.51||||0.057|TWO_SIDED|95.0|0.987|2.309|||Mixed Models Analysis|||||2.309|0.987|0.057
82388299|NCT02438826|164487368|SUPERIORITY||Odds Ratio (OR)|1.141||||0.713|TWO_SIDED|95.0|0.563|2.314|||Mixed Models Analysis|||||2.314|0.563|0.713
82388300|NCT02438826|164487369|SUPERIORITY||Odds Ratio (OR)|1.008||||0.979|TWO_SIDED|95.0|0.548|1.856|||Mixed Models Analysis|||||1.856|0.548|0.979
82388301|NCT02438826|164487370|SUPERIORITY||Odds Ratio (OR)|0.788||||0.437|TWO_SIDED|95.0|0.431|1.44|||Mixed Models Analysis|||||1.440|0.431|0.437
82640670|NCT03965754|164995878|SUPERIORITY|We conducted a logistic regression with the two experimental conditions as dummy variables with the standard email as the reference group (among employees who never enrolled).|Odds Ratio (OR)|1.72||||0.035|TWO_SIDED|95.0|1.05|2.9|||Regression, Logistic|We used an a priori threshold of p \< .05.||||2.90|1.05|.035
82388302|NCT02805179|164487378|SUPERIORITY|Compared to historical controls||||||0.03|||||||1-sided binomial test|||||||0.03
82388303|NCT01582178|164487413|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Fisher Exact|||||||0.89
82388304|NCT00586820|164487452|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
82388305|NCT00586820|164487453|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||Change between the groups from immediate pre-PCI and 8 hours post PCI.||||0.019
82388306|NCT00586820|164487453|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Change between the groups from immediate pre-PCI and 16 hours post-PCI.||||0.007
82388307|NCT03010800|164487454|SUPERIORITY|||||||0.0469||||||One subject experienced incontinence with the Yoni.Fit in place (#8) (9.2 g Pad Wt. Without and 17.3 g Pad Wt. With). This was attributed to incorrect Yoni.Fit sizing. This subject was not included in the p-value calculation.|Wilcoxon (Mann-Whitney)|||"Null hypothesis is that the pad weights With Yoni.Fit and Without Yoni.Fit are equivalent.~A one-sided Wilcoxson paired T-test of the group means will be performed. If the p-value is significant, the null hypothesis will be rejected."||||0.0469
82388308|NCT04463251|164487455|OTHER||Least square means ratio|0.58|||||TWO_SIDED|95.0|0.37|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.37|
82388309|NCT04463251|164487455|OTHER||Least square means ratio|0.58|||||TWO_SIDED|95.0|0.37|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.37|
82388310|NCT04463251|164487456|OTHER||Least square means ratio|0.54|||||TWO_SIDED|95.0|0.34|0.87|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.87|0.34|
82388311|NCT04463251|164487456|OTHER||Least square means ratio|0.6|||||TWO_SIDED|95.0|0.37|0.95|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.95|0.37|
82573199|NCT00667459|164856758|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.047||||0.936|TWO_SIDED|95.0|-0.113|0.021||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.021|-0.113|0.936
82573200|NCT00667459|164856759|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.105||||1|TWO_SIDED|95.0|0.02|0.19||The posterior probably of non-inferiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.|The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.190|0.020|1.0
82573201|NCT00667459|164856759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992||95.0||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|The propensity score method was used to adjust possible effects on outcomes caused by differences in baseline characteristic due to non-randomization.||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||0.992
82573202|NCT00667459|164856761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the operative time in two treatment groups was assessed.||||0.013
82573203|NCT00667459|164856762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.769||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the blood loss in two treatment groups was assessed.||||0.769
82573204|NCT00667459|164856763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||||||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian logistic model|||Superiority comparison of the hospital stay in two treatment groups was assessed.||||0.273
82573205|NCT03616964|164856770|SUPERIORITY||Odds Ratio (OR)|1.07||||0.711|TWO_SIDED|95.0|0.75|1.53|||Regression, Logistic|||||1.53|0.75|0.711
82573206|NCT03616964|164856771|SUPERIORITY||Odds Ratio (OR)|1.05||||0.789|TWO_SIDED|95.0|0.73|1.5|||Regression, Logistic|||||1.50|0.73|0.789
82573207|NCT03616964|164856772|SUPERIORITY||Odds Ratio (OR)|1.1||||0.673|TWO_SIDED|95.0|0.72|1.68|||Regression, Logistic|||||1.68|0.72|0.673
82573208|NCT03616964|164856772|SUPERIORITY||Odds Ratio (OR)|1.15||||0.528|TWO_SIDED|95.0|0.75|1.75|||Regression, Logistic|||||1.75|0.75|0.528
82640671|NCT00437294|164995881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||||||The 1-sided significance level was 0.20.|Log Rank|||||||0.237
82573209|NCT03616964|164856774|SUPERIORITY||Odds Ratio (OR)|0.91||||0.761|TWO_SIDED|95.0|0.51|1.64|||Regression, Logistic|||||1.64|0.51|0.761
82640672|NCT00437294|164995886|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||1-sided significance level was 0.20.|Fisher Exact|||||||1.00
82640673|NCT00437294|164995887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.812|||||||Log Rank|||||||0.812
82640674|NCT00437294|164995888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||Log Rank|||||||0.181
82640675|NCT02277665|164995896|SUPERIORITY|Chi-square|Odds Ratio (OR)|0.56|||=|0.33|TWO_SIDED|95.0|0.17|1.82|||Chi-squared|||||1.82|.17|= 0.33
82640676|NCT02277665|164995897|OTHER||Odds Ratio (OR)|0.32||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
82640677|NCT02277665|164995898|OTHER||Odds Ratio (OR)|0.45|||=|0.16|TWO_SIDED|95.0|0.15|1.35|||Chi-squared|||||1.35|0.15|= 0.16
82640678|NCT02277665|164995899|SUPERIORITY||Means Ratio|0.97||||0.87|TWO_SIDED|95.0|0.66|1.42|||Chi-squared|||||1.42|0.66|0.87
82443782|NCT00159913|164596162|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.2||0.172||95.0|-7.5|1.3|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||1.3|-7.5|0.172
82443783|NCT00159913|164596162|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|3.1||||95.0|-4.5|7.6|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||7.6|-4.5|
82443784|NCT00159913|164596162|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|2.7||||95.0|-8.9|1.9|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||1.9|-8.9|
82443785|NCT00159913|164596162|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-12.4|-2.1|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met with main analysis: alternative=excluding outliers||||-2.1|-12.4|
82524948|NCT01181726|164746387|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.71|||||TWO_SIDED|90.0|94.42|105.3|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||105.30|94.42|
82524949|NCT01181726|164746388|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.19|||||TWO_SIDED|90.0|94.71|103.87|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.87|94.71|
82524950|NCT01181726|164746389|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.83|||||TWO_SIDED|90.0|94.55|101.21|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.21|94.55|
82573210|NCT03616964|164856774|SUPERIORITY||Odds Ratio (OR)|1.17||||0.611|TWO_SIDED|95.0|0.65|2.1|||Regression, Logistic|||||2.10|0.65|0.611
82573211|NCT03616964|164856775|SUPERIORITY||LS Mean difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.2||0.698|TWO_SIDED|95.0|-0.47|0.32|||Mixed Models Analysis|||||0.32|-0.47|0.698
82573212|NCT03616964|164856775|SUPERIORITY||LS Mean difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.744|TWO_SIDED|95.0|-0.46|0.33|||Mixed Models Analysis|||||0.33|-0.46|0.744
82573213|NCT03616964|164856776|SUPERIORITY||LS Mean difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.84||0.665|TWO_SIDED|95.0|-2.0|1.28|||Mixed Models Analysis|||||1.28|-2.00|0.665
82640679|NCT02277665|164995900|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82524951|NCT01181726|164746390|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.01|||||TWO_SIDED|90.0|94.54|101.6|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.60|94.54|
82524952|NCT01181726|164746391|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.87|||||TWO_SIDED|90.0|93.22|102.74|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.74|93.22|
82524953|NCT01181726|164746392|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.96|||||TWO_SIDED|90.0|93.66|102.46|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.46|93.66|
82524954|NCT01181726|164746393|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.01|||||TWO_SIDED|90.0|94.17|104.11|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.11|94.17|
82524955|NCT01181726|164746394|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.13|||||TWO_SIDED|90.0|94.39|104.1|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.10|94.39|
82524956|NCT01181726|164746395|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.72|||||TWO_SIDED|90.0|94.03|101.56|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.56|94.03|
82524957|NCT01181726|164746396|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.99|||||TWO_SIDED|90.0|94.11|102.02|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.02|94.11|
82573214|NCT03616964|164856776|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.84||0.723|TWO_SIDED|95.0|-1.95|1.35|||Mixed Models Analysis|||||1.35|-1.95|0.723
82640680|NCT02277665|164995901|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82573215|NCT03616964|164856777|SUPERIORITY||Odds Ratio (OR)|0.69||||0.372|TWO_SIDED|95.0|0.31|1.55|||Regression, Logistic|||||1.55|0.31|0.372
82388312|NCT04463251|164487457|OTHER||Least square means ratio|0.56|||||TWO_SIDED|95.0|0.34|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation"|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.34|
82388313|NCT04463251|164487457|OTHER||Least square means ratio|0.61|||||TWO_SIDED|95.0|0.38|0.98|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.98|0.38|
82388314|NCT04463251|164487458|OTHER||Least square means ratio|0.56|||||TWO_SIDED|95.0|0.34|0.91|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation"|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.91|0.34|
82388315|NCT04463251|164487458|OTHER||Least square means ratio|0.61|||||TWO_SIDED|95.0|0.38|0.98|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~* Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is equal to 1.~* Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-14) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-14) in the placebo group is different from 1."||0.98|0.38|
82388316|NCT04463251|164487459|OTHER||Least square means ratio|0.52|||||TWO_SIDED|95.0|0.34|0.81||||||"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."|"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|0.81|0.34|
82388317|NCT04463251|164487459|OTHER||Least square means ratio|0.48|||||TWO_SIDED|95.0|0.31|0.74|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.74|0.31|
82388318|NCT04463251|164487460|OTHER||Least square means ratio|0.47|||||TWO_SIDED|95.0|0.29|0.75|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 80 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.75|0.29|
82388319|NCT04463251|164487460|OTHER||Least square means ratio|0.47|||||TWO_SIDED|95.0|0.3|0.75|||||"Least square means ratio with two-sided Dunnett's adjusted 95% CI for RPH-104 160 mg / Placebo.~Ratio was calculated instead of difference because log data transformation."|"The following (two-sided) hypotheses were tested:~Null hypothesis H0: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is equal to 1.~Alternative hypothesis H1: the ratio of the geometric mean of hsCRP-AUC(days 1-28) in RPH-104 group to the geometric mean of hsCRP-AUC(days 1-28) in the placebo group is different from 1."||0.75|0.30|
82573216|NCT03616964|164856777|SUPERIORITY||Odds Ratio (OR)|0.78||||0.555|TWO_SIDED|95.0|0.34|1.78|||Regression, Logistic|||||1.78|0.34|0.555
82573217|NCT03616964|164856778|SUPERIORITY||LS Mean difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.422||0.251|TWO_SIDED|95.0|-1.31|0.34|||Mixed Models Analysis|||||0.34|-1.31|0.251
82425863|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.022
82425864|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.966||95.0||||Analysis for Much Improvement at 2 hours|Regression, Logistic|Treatment as a factor||||||0.966
82425865|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
82573218|NCT03616964|164856778|SUPERIORITY||LS Mean difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.425||0.333|TWO_SIDED|95.0|-1.74|-0.07|||Mixed Models Analysis|||||-0.07|-1.74|0.333
82573219|NCT03616964|164856779|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.282||0.284|TWO_SIDED|95.0|-0.86|0.25|||Mixed Models Analysis|||||0.25|-0.86|0.284
82573220|NCT03616964|164856779|SUPERIORITY||LS Mean difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.284||0.069|TWO_SIDED|95.0|-1.08|0.04|||Mixed Models Analysis|||||0.04|-1.08|0.069
82573221|NCT01385748|164856788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.165|TWO_SIDED|95.0|0.387|1.186|||Log Rank|The log rank test at 5% significance level was used.||||1.186|0.387|0.165
82573222|NCT01385748|164856788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.817||||0.421|TWO_SIDED|95.0|0.495|1.35|||Log Rank|The log rank test at 5% significance level was used.||||1.35|0.495|0.421
82425866|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.001
82524958|NCT02696564|164746398|SUPERIORITY|We will estimate a 95% confidence interval for the losartan vs placebo mean difference, using the regression estimate and the t-distribution; we will reject the null that losartan is equivalent to placebo if the 95% interval excludes 0.0.||||||0.133|||||||Mixed Models Analysis|P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.||||||0.133
82524959|NCT02696564|164746399|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.762||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.762
82524960|NCT02696564|164746400|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.834||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.834
82524961|NCT02696564|164746401|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.783||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.783
82524962|NCT02696564|164746402|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.053||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.053
82573223|NCT01385748|164856788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.754||||0.211|TWO_SIDED|95.0|0.484|1.175|||Log Rank|The log rank test at 5% significance level was used.||||1.175|0.484|0.211
82573224|NCT01385748|164856791|SUPERIORITY_OR_OTHER|||||||0.807||||||Significance threshold = 5%|Wilcoxon (Mann-Whitney)|||||||0.807
82573225|NCT01385748|164856791|SUPERIORITY_OR_OTHER|||||||0.971||||||Significance threshold = 5%|Wilcoxon (Mann-Whitney)|||||||0.971
82573226|NCT01385748|164856793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.698||||0.199|TWO_SIDED|95.0|0.398|1.223||Significance threshold = 5%|Log Rank|||||1.223|0.398|0.199
82388320|NCT03689374|164487573|NON_INFERIORITY|The responses were analyzed using an ANCOVA with treatment as fixed factor and baseline value as a covariate. Before analysis, missing data were multiple imputed using observed data from participants within the same group defined by randomized treatment, using a regression model including randomized treatment group and data from baseline and all previous visits as covariates. The prespecified non inferiority margin was 0.3%-point.|Treatment difference|-0.29|||<|0.0001|TWO_SIDED|95.0|-0.38|-0.2|||t-distributed test|The non-inferiority p-value was calculated as two times the one-sided p-value from a t-distributed test.||||-0.20|-0.38|<0.0001
82388321|NCT01905553|164487619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.718|||||TWO_SIDED|90.0|0.67|0.77||||||||0.770|0.670|
82388322|NCT01905553|164487620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.718|||||TWO_SIDED|90.0|0.67|0.769||||||||0.769|0.670|
82425867|NCT00402987|164560367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.798||95.0||||Analysis for Much Improvement at 6 hours|Regression, Logistic|Treatment as a factor||||||0.798
82524963|NCT02696564|164746403|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.016||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.016
82524964|NCT02696564|164746404|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.065||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.065
82524965|NCT02696564|164746405|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.293||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.293
82573227|NCT01385748|164856793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.817||||0.424|TWO_SIDED|95.0|0.493|1.353|||Log Rank|Significance threshold = 5%||||1.353|0.493|0.424
82524966|NCT02696564|164746406|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.356||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.356
82524967|NCT02696564|164746407|SUPERIORITY|Statistical differences were inferred if the 95% confidence intervals (CI) did not include zero.||||||0.009||||||P-value based on generalized linear mixed models with covariates for site, baseline value, and for treatment group.|Mixed Models Analysis|||||||0.009
82524968|NCT02696564|164746408|SUPERIORITY||Relative rate (losartan to placebo)|0.8||||0.892|TWO_SIDED|95.0|0.03|18.77|||Negative binomial model|||P-value for rate of mild exacerbations between treatment groups (measured in events per 100 person-years).||18.77|0.03|0.892
82573228|NCT01385748|164856793|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.235|TWO_SIDED|95.0|0.489|1.193|||Log Rank|Significance threshold = 5%||||1.193|0.489|0.235
82573229|NCT01385748|164856794|SUPERIORITY_OR_OTHER|||||||0.176|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.176
82573230|NCT01385748|164856794|SUPERIORITY_OR_OTHER|||||||0.61|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.61
82573231|NCT01385748|164856794|SUPERIORITY_OR_OTHER|||||||0.295|||||||Kruskal-Wallis|Significance threshold = 5%||||||0.295
82573232|NCT01385748|164856795|SUPERIORITY_OR_OTHER|||||||0.063||||||Significance threshold = 5%|Chi-squared|||||||0.063
82573233|NCT01385748|164856795|SUPERIORITY_OR_OTHER|||||||0.169|||||||Chi-squared|||||||0.169
82573234|NCT01385748|164856795|SUPERIORITY_OR_OTHER|||||||0.064|||||||Chi-squared|Significance threshold = 5%||||||0.064
82573235|NCT01385748|164856796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.824||||0.388|TWO_SIDED|95.0|0.484|1.401|||Log Rank|Significance threshold = 5%||||1.401|0.484|0.388
82573236|NCT01385748|164856796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601||||0.054|TWO_SIDED|95.0|0.357|1.012|||Log Rank|Significance threshold = 5%||||1.012|0.357|0.054
82573237|NCT01385748|164856796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.102|TWO_SIDED|95.0|0.444|1.078|||Log Rank|Significance threshold = 5%||||1.078|0.444|0.102
82573238|NCT00581893|164856806|SUPERIORITY|||||||0.5|||||||McNemar|||||||0.50
82573239|NCT00656201|164856808|NON_INFERIORITY_OR_EQUIVALENCE|This was an equivalence comparison. The study was designed to detect a 14% pregnancy difference between the arms with 80% power and one interim analysis using O'Brien-Fleming parameters and an experiment-wise alpha level of 5%.|Odds Ratio (OR)|1.2|||<|0.05|TWO_SIDED|95.0|0.8|1.8|||Wilcoxon (Mann-Whitney)||Crinone is the numerator and IM Progesterone is the denominator.|||1.8|0.8|<0.05
82388323|NCT01905553|164487621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The magnitude effect of food on the pharmacokinetic parameters was evaluated by calculating the point estimate and 90% CIs between Treatment A (test treatment, fed) and Treatment B (reference treatment, fasted).|Ratio of Geometric LS Means|0.449|||||TWO_SIDED|90.0|0.38|0.53||||||||0.530|0.380|
82388324|NCT01560234|164487649|SUPERIORITY_OR_OTHER||Slope|0.81|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|0.63|1.0|||Regression, Linear||AUC (nmol\*h/L) 5 to 30 μg|||1.00|0.63|
82388325|NCT01560234|164487650|SUPERIORITY_OR_OTHER||Slope|0.84|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|0.65|1.04|||Regression, Linear||AUC(0-t) (nmol\*h/L) 5 to 30 μg|||1.04|0.65|
82388326|NCT01560234|164487651|SUPERIORITY_OR_OTHER||Slope|0.95|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|90.0|0.87|1.04|||Regression, Linear||Cmax (nmol/L) 0.5 to 30 μg|||1.04|0.87|
82388327|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|99.75|||||TWO_SIDED|95.0|65.76|151.32|||ANCOVA||Cohort 1/0.15 ug vs Placebo|24 hour Plasma||151.32|65.76|
82388328|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|92.99|||||TWO_SIDED|95.0|61.21|141.27|||ANCOVA||Cohort 2/1.5ug vs Placebo|24 hour Plasma||141.27|61.21|
82388329|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|145.83|||||TWO_SIDED|95.0|96.11|221.28|||ANCOVA||Cohort 4/5 ug vs Placebo|24 hour Plasma||221.28|96.11|
82388330|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|106.23|||||TWO_SIDED|95.0|66.42|169.93|||ANCOVA||Cohort 3/1.5 ug vs Placebo|24 hour Plasma||169.93|66.42|
82388331|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|223.76||||||95.0|144.98|345.35|||ANCOVA||Cohort 5/15 μg vs Placebo|24 hour plasma||345.35|144.98|
82388332|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|228.23|||||TWO_SIDED|95.0|150.36|346.41|||ANCOVA||Cohort 7/15 μg vs Placebo|24 hour plasma||346.41|150.36|
82388333|NCT01560234|164487652|SUPERIORITY_OR_OTHER||Percentage of Placebo|684.03|||||TWO_SIDED|95.0|495.31|944.65|||ANCOVA||Cohort 6 and 8/30 μg vs Placebo|24 hour plasma||944.65|495.31|
82388334|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|95.81|||||TWO_SIDED|95.0|72.7|126.28|||ANCOVA||Cohort 1/0.15 ug vs Placebo|48 hour plasma||126.28|72.70|
82388335|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|91.72|||||TWO_SIDED|95.0|69.53|121.0|||ANCOVA||Cohort 2/0.5 ug vs Placebo|48 hour plasma||121.00|69.53|
82388336|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|112.34|||||TWO_SIDED|95.0|82.3|153.35|||ANCOVA||Cohort 3/1.5 ug vs Placebo|48 hour Plasma||153.35|82.30|
82388337|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|120.0|||||TWO_SIDED|95.0|91.04|158.18|||ANCOVA||Cohort 4/5 ug vs Placebo|48 hour plasma||158.18|91.04|
82388338|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|102.67|||||TWO_SIDED|95.0|77.02|136.87|||ANCOVA||Cohort 5/15 ug vs Placebo|48 hour placebo||136.87|77.02|
82388339|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|146.86|||||TWO_SIDED|95.0|111.39|193.62|||ANCOVA||Cohort 7/15 ug vs Placebo|48 hour plasma||193.62|111.39|
82388340|NCT01560234|164487653|SUPERIORITY_OR_OTHER||Percentage of Placebo|240.04|||||TWO_SIDED|95.0|193.82|297.28|||ANCOVA||Cohort 6 and 8/30 ug|48 hour plasma||297.28|193.82|
82573240|NCT00159263|164856815|OTHER|Friedman ANOVA followed Dunn's pairwise comparisons||||||0.04|||||||ANOVA|||||||0.04
82388341|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|114.87|||||TWO_SIDED|95.0|34.83|378.78|||ANCOVA||Cohort 1/0.15 ug vs Placebo|24 hour Sputum||378.78|34.83|
82388342|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|81.89|||||TWO_SIDED|95.0|24.96|268.7|||ANCOVA||Cohort 2/0.5 ug vs Placebo|24 hour Sputum||268.70|24.96|
82388343|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|81.55|||||TWO_SIDED|95.0|20.63|322.42|||ANCOVA||Cohort 3/1.5 ug vs Placebo|24 hour Sputum||322.42|20.63|
82388344|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|304.37|||||TWO_SIDED|95.0|76.61|1209.33|||ANCOVA||Cohort 4/5 ug vs Placebo|24 hour Sputum||1209.33|76.61|
82388345|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|193.8|||||TWO_SIDED|95.0|59.01|636.49|||ANCOVA||Cohort 5/15 μg vs Placebo|24 hour Sputum||636.49|59.01|
82388346|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|467.96|||||TWO_SIDED|95.0|142.77|1533.92|||ANCOVA||Cohort 7/15 μg vs Placebo|24 hour Sputum||1533.92|142.77|
82388347|NCT01560234|164487655|SUPERIORITY_OR_OTHER||Comparison of Placebo|1087.35|||||TWO_SIDED|95.0|317.19|3727.57|||ANCOVA||Cohort 6 and 8/30 μg vs Placebo|24 hour Sputum||3727.57|317.19|
82388348|NCT02780713|164487664|SUPERIORITY||Percentage|17.02|||||TWO_SIDED|95.0|11.79|24.58||||||||24.58|11.79|
82388349|NCT02780713|164487664|SUPERIORITY||Percentage|36.28|||||TWO_SIDED|95.0|23.84|55.2||||||||55.20|23.84|
82388350|NCT02780713|164487664|SUPERIORITY||Percentage|24.1|||||TWO_SIDED|95.0|16.84|34.48||||||||34.48|16.84|
82388351|NCT02780713|164487665|SUPERIORITY||Percentage|31.75|||||TWO_SIDED|95.0|25.77|39.12||||||||39.12|25.77|
82388352|NCT02780713|164487665|SUPERIORITY||Percentage|54.17|||||TWO_SIDED|95.0|42.16|69.6||||||||69.60|42.16|
82388353|NCT02780713|164487665|SUPERIORITY||Pecentage|41.23|||||TWO_SIDED|95.0|34.79|48.86||||||||48.86|34.79|
82388354|NCT01931475|164487683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||||-0.2|-0.80|
82388355|NCT01931475|164487684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.54|-0.19||||||||-0.19|-0.54|
82388356|NCT01931475|164487685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49|||||TWO_SIDED|95.0|-5.62|-1.35|||||Total Score|||-1.35|-5.62|
82388357|NCT01931475|164487685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||||TWO_SIDED|95.0|-1.21|-0.21|||||Pain|||-0.21|-1.21|
82388358|NCT01931475|164487685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36|||||TWO_SIDED|95.0|-3.95|-0.78|||||Physical Function|||-0.78|-3.95|
82388359|NCT01931475|164487685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.62|-0.16|||||Stiffness|||-0.16|-0.62|
82388360|NCT01931475|164487686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.41|-0.15||||||||-0.15|-0.41|
82388361|NCT01931475|164487687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||||TWO_SIDED|95.0|-1.07|-0.34|||||BPI Severity of Worst Pain|||-0.34|-1.07|
82573241|NCT00159263|164856816|OTHER|Friedman Anova||||||0.01|||||||ANOVA|||||||0.01
82573242|NCT00159263|164856817|OTHER|Friedman Anova||||||0.04|||||||ANOVA|||||||0.04
82388362|NCT01931475|164487687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.6|0.03|||||BPI Severity of Least Pain|||0.03|-0.60|
82388363|NCT01931475|164487687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.82|-0.11|||||BPI Severity of Right Now Pain|||-0.11|-0.82|
82388364|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-0.53|-0.02|||||BPI Interference Average Score|||-0.02|-0.53|
82573243|NCT01434680|164856818|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval for each of the two coprimary comparisons, MenC-CRM LIQ and MenC-CRM EMV would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|0.82|||<|0.05|TWO_SIDED|95.0|0.67|1.0|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10 transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing MenC-CRM LIQ to MenC-CRM EMV at 28 days after a single vaccination were both within the equivalence interval (0.5, 2.0).||1.00|0.67|<0.05
82573244|NCT01434680|164856818|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval for each of the two coprimary comparisons,MenC-CRM ROS and MenC-CRM EMV would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|1.14|||<|0.05|TWO_SIDED|95.0|0.92|1.41|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10-transformed titers and both the limits of 95% CIs||The study would be considered a success if the two-sided 95% confidence intervals (CIs) for the hSBA GMT ratios comparing MenC-CRM ROS to MenC-CRM EMV at 28 days after a single vaccination were both within the equivalence interval (0.5, 2.0).||1.41|0.92|<0.05
82573245|NCT01434680|164856819|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two-sided 95% CI for the ratio of the hSBA GMTs at 28 days following vaccination was within this equivalence interval, the two vaccine groups would be declared equivalent with respect to the immune response to the vaccines.|hSBA GMT ratios|0.72|||<|0.05|TWO_SIDED|95.0|0.58|0.89|||ANOVA|95% CIs for the GMTs ratios was obtained by exponentiating difference of least square means of log10-transformed titers and both the limits of 95% CIs||The secondary objective was to be assessed only if both primary objectives were met. Because of this, no adjustment for multiplicity was required. MenC-CRM liquid would be declared equivalent to MenC-CRM ROS if the two-sided 95% CI for the ratio of the hSBA GMTs at approximately 28 days following vaccination was within the equivalence interval (0.5, 2.0).||0.89|0.58|<0.05
82573246|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.2|STANDARD_DEVIATION|3.4||||95.0|17.2|17.3||||||IOP 1 year (n=11602)||17.3|17.2|
82573247|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|2.9||||95.0|16.8|17.0||||||IOP 1 year (n=4450)||17.0|16.8|
82573248|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.3|STANDARD_DEVIATION|2.2||||95.0|17.1|17.5||||||IOP 1 year (n=357)||17.5|17.1|
82573249|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|3.2||||95.0|16.4|17.3||||||IOP 1 year (n=220)||17.3|16.4|
82573250|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.6|STANDARD_DEVIATION|4.1||||95.0|17.5|17.8||||||IOP 1 year (n=3277)||17.8|17.5|
82573251|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.0|STANDARD_DEVIATION|3.4||||95.0|17.0|17.1||||||IOP 2 years (n=8051)||17.1|17.0|
82573252|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.8|STANDARD_DEVIATION|2.9||||95.0|16.7|16.9||||||IOP 2 years (n=2808)||16.9|16.7|
82573253|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.2|STANDARD_DEVIATION|1.8||||95.0|17.0|17.5||||||IOP 2 years (n=175)||17.5|17.0|
82388365|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||||TWO_SIDED|95.0|-0.94|-0.19|||||General activity|||-0.19|-0.94|
82388366|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.74|-0.05|||||Mood|||-0.05|-0.74|
82388367|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.82|-0.11|||||Walking ability|||-0.11|-0.82|
82573254|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.6|STANDARD_DEVIATION|2.8||||95.0|15.9|17.2||||||IOP 2 years (n=83)||17.2|15.9|
82573255|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.1|STANDARD_DEVIATION|3.7||||95.0|16.9|17.2||||||IOP 2 years (n=2002)||17.2|16.9|
82573256|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.0|STANDARD_DEVIATION|3.4||||95.0|16.9|17.1||||||IOP 3 years (n=5469)||17.1|16.9|
82573257|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.8|STANDARD_DEVIATION|3.2||||95.0|16.7|17.0||||||IOP 3 years (n=1932)||17.0|16.7|
82573258|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|17.5|STANDARD_DEVIATION|2.5||||95.0|16.9|18.1||||||IOP 3 years (n=64)||18.1|16.9|
82573259|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.5|STANDARD_DEVIATION|2.8||||95.0|15.7|17.4||||||IOP 3 years (n=44)||17.4|15.7|
82573260|NCT01012245|164856821|SUPERIORITY_OR_OTHER_LEGACY||Mean value|16.9|STANDARD_DEVIATION|3.6||||95.0|16.7|17.1||||||IOP 3 years (n=1251)||17.1|16.7|
82573261|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.46|STANDARD_DEVIATION|0.25||||95.0|0.46|0.47||||||Vertical C/D ratio 1 year (n=11966)||0.47|0.46|
82573262|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.44|STANDARD_DEVIATION|0.24||||95.0|0.43|0.44||||||Vertical C/D ratio 1 year (n=4944)||0.44|0.43|
82573263|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.39|STANDARD_DEVIATION|0.19||||95.0|0.35|0.43||||||Vertical C/D ratio 1 year (n=88)||0.43|0.35|
82573264|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.24||||95.0|0.47|0.53||||||Vertical C/D ratio 1 year (n=241)||0.53|0.47|
82573265|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.52||||||Vertical C/D ratio 1 year (n=2949)||0.52|0.50|
82573266|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.46|STANDARD_DEVIATION|0.25||||95.0|0.46|0.47||||||Vertical C/D ratio 2 years (n=8783)||0.47|0.46|
82573267|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.43|STANDARD_DEVIATION|0.23||||95.0|0.42|0.44||||||Vertical C/D ratio 2 years (n=3396)||0.44|0.42|
82573268|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.39|STANDARD_DEVIATION|0.16||||95.0|0.33|0.45||||||Vertical C/D ratio 2 years (n=31)||0.45|0.33|
82573269|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.24||||95.0|0.44|0.54||||||Vertical C/D ratio 2 years (n=95)||0.54|0.44|
82573270|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.53||||||Vertical C/D ratio 2 years (n=1934)||0.53|0.50|
82573271|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.24||||95.0|0.44|0.45||||||Vertical C/D ratio 3 years (n=6344)||0.45|0.44|
82573272|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.42|STANDARD_DEVIATION|0.22||||95.0|0.41|0.43||||||Vertical C/D ratio 3 years (n=2372)||0.43|0.41|
82573273|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.33|STANDARD_DEVIATION|0.14||||95.0|0.27|0.39||||||Vertical C/D ratio 3 years (n=25)||0.39|0.27|
82573274|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.47|STANDARD_DEVIATION|0.18||||95.0|0.41|0.53||||||Vertical C/D ratio 3 years (n=36)||0.53|0.41|
82573275|NCT01012245|164856823|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.26||||95.0|0.48|0.51||||||Vertical C/D ratio 3 years (n=1283)||0.51|0.48|
82573276|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.25||||95.0|0.45|0.46||||||Horizontal C/D ratio 1 year (n=11433)||0.46|0.45|
82573277|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.42|STANDARD_DEVIATION|0.23||||95.0|0.42|0.43||||||Horizontal C/D ratio 1 year (n=4810)||0.43|0.42|
82573278|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.37|STANDARD_DEVIATION|0.19||||95.0|0.33|0.42||||||Horizontal C/D ratio 1 year (n=87)||0.42|0.33|
82573279|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.25||||95.0|0.47|0.53||||||Horizontal C/D ratio 1 year (n=232)||0.53|0.47|
82573280|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.5|0.52||||||Horizontal C/D ratio 1 year (n=2703)||0.52|0.50|
82573281|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.45|STANDARD_DEVIATION|0.25||||95.0|0.44|0.45||||||Horizontal C/D ratio 2 years (n=8427)||0.45|0.44|
82573282|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.41|STANDARD_DEVIATION|0.23||||95.0|0.4|0.42||||||Horizontal C/D ratio 2 years (n=3276)||0.42|0.40|
82388368|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-0.68|0.06|||||Normal work (includes both work outside the home and housework)|||0.06|-0.68|
82388369|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.34|0.21|||||Relations with other people|||0.21|-0.34|
82573283|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.38|STANDARD_DEVIATION|0.19||||95.0|0.31|0.45||||||Horizontal C/D ratio 2 years (n=31)||0.45|0.31|
82573284|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.5|STANDARD_DEVIATION|0.25||||95.0|0.45|0.56||||||Horizontal C/D ratio 2 years (n=92)||0.56|0.45|
82573285|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.51|STANDARD_DEVIATION|0.27||||95.0|0.49|0.52||||||Horizontal C/D ratio 2 years (n=1812)||0.52|0.49|
82573286|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.43|STANDARD_DEVIATION|0.24||||95.0|0.43|0.44||||||Horizontal C/D ratio 3 years (n=6102)||0.44|0.43|
82573287|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.4|STANDARD_DEVIATION|0.22||||95.0|0.39|0.41||||||Horizontal C/D ratio 3 years (n=2289)||0.41|0.39|
82388370|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.57|0.14|||||Sleep|||0.14|-0.57|
82388371|NCT01931475|164487688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.4|0.27|||||Enjoyment of life|||0.27|-0.40|
82425868|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||<0.001
82573288|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.31|STANDARD_DEVIATION|0.15||||95.0|0.25|0.38||||||Horizontal C/D ratio 3 years (n=25)||0.38|0.25|
82573289|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.49|STANDARD_DEVIATION|0.21||||95.0|0.42|0.57||||||Horizontal C/D ratio 3 years (n=35)||0.57|0.42|
82573290|NCT01012245|164856824|SUPERIORITY_OR_OTHER_LEGACY||Mean value|0.48|STANDARD_DEVIATION|0.26||||95.0|0.47|0.5||||||Horizontal C/D ratio 3 years (n=1204)||0.50|0.47|
82573291|NCT01515943|164856850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.56|TWO_SIDED|97.5|-19.0|11.0||Linear contrasts performed with a type I error rate of 2.5% based on a Bonferroni adjustment (overall type I error rate of 5% for 2 pairwise treatment group comparisons).|Biniomial regression|Adjusted for baseline covariates of CISS score, mean NPC break and mean PFV blur. Linear contrasts performed with Bonferroni adjustment (alpha=0.025)|Negative values for the treatment group difference favor the HB-PU group. Results of the treatment group comparison are adjusted for baseline covariates of CISS, mean NPC break and mean PFV blur.|The primary outcome was success at 12 weeks. The sample size was computed to have 90% power to detect a treatment group difference between the HB-C versus HB-PU groups, assuming true population success percentages of 30% and 15% for the HB-C and HB-PU groups, respectively, with a type I error rate of 2.5%. The treatment group comparison was adjusted for baseline covariates of CISS score (\<28 points vs ≥28 points), mean NPC break (\<10 cm vs ≥10 cm) and mean PFV blur (≥15 pd vs \<15 pd).||11|-19|0.56
82573292|NCT01515943|164856851|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.52|TWO_SIDED|97.5|-12.0|22.0||Linear contrasts performed with a type I error rate of 2.5% based on a Bonferroni adjustment (overall type I error rate of 5% for 2 pairwise treatment group comparisons).|Binomial regression|Adjusted for baseline covariates of CISS score, mean NPC break and mean PFV blur. Linear contrasts performed with Bonferroni adjustment (alpha=0.025)|Positive values for the treatment group difference favor the HB-C group. Results of the treatment group comparison are adjusted for baseline covariates of CISS, mean NPC break and mean PFV blur.|The primary outcome was success at 12 weeks. The sample size was computed to have 90% power to detect a treatment group difference between the HB-C versus HB-P groups, assuming true population success percentages of 30% and 10% for the HB-C and HB-PU groups, respectively, with a type I error rate of 2.5%. The treatment group comparison was adjusted for baseline covariates of CISS score (\<28 points vs ≥28 points), mean NPC break (\<10 cm vs ≥10 cm) and mean PFV blur (≥15 pd vs \<15 pd).||22|-12|0.52
82573293|NCT01515943|164856857|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.0|||<|0.01|TWO_SIDED|95.0|-27.0|17.0|||Bernard's exact test|A p-value was not reported in the manuscript results, but has been included here, reported directly from the analysis.||For the HB-C group, the association between completion of the computer vergence/accommodative therapy (CVAT) program (defined as achieving at least 15 stars for the jump vergence exercise) and overall success at 12 weeks was evaluated using Bernard's exact test.||17|-27|<0.01
82640681|NCT01969201|164995906|NON_INFERIORITY|The non-inferiority was evaluated by calculating the 95% CI for the differences in pregnancy rates between the two treatment groups. If the lower bound of the 95% CI of the difference between the two proportions was greater than -0.10 (i.e. 10%), then Fostimon was to be considered not inferior to the control treatment.|Mean Difference (Final Values)|-2.73||||0.49|TWO_SIDED|95.0|-9.88|4.42|||Fisher Exact|||||4.42|-9.88|0.49
82388372|NCT01931475|164487690|SUPERIORITY_OR_OTHER||Total Effect|97.49||||0.002|TWO_SIDED||||||Regression, Linear|||Path analysis for the direct analgesic effect was used to test the null hypothesis that the change in BPI average pain severity depends on the improvement of HADS-D or HADS-A, versus the alternative that the improvement in BPI average pain severity is due to a direct analgesic effect of the treatment and not dependent upon the improvement in depression and anxiety symptoms.||||0.002
82640682|NCT01969201|164995907|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82388373|NCT00425061|164487696|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-5.2||||0.612|TWO_SIDED|95.0|-25.6|15.2|||ANCOVA|||Day 112: Analysis of co-variance (ANCOVA) model was used with baseline as a covariate, long-acting beta-agonist (LABA) use (Inhaled Corticosteroid \[ICS\] only or ICS plus LABA) and treatment as two factors.||15.2|-25.6|0.612
82640683|NCT01969201|164995908|OTHER|||||||0.02|||||||ANOVA|||||||0.02
82640684|NCT01969201|164995909|OTHER|||||||0.32|||||||ANOVA|||||||0.32
82640685|NCT01969201|164995910|OTHER|||||||0.89|||||||ANOVA|||||||0.89
82640686|NCT01969201|164995911|OTHER|||||||0.5|||||||Fisher Exact|||||||0.5
82640687|NCT01969201|164995912|OTHER|||||||0.53|||||||Fisher Exact|||||||0.53
82640688|NCT01969201|164995913|OTHER|||||||0.07|||||||Fisher Exact|||||||0.07
82640689|NCT00518531|164995914|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.5||||0.0259|TWO_SIDED|95.0|1.3|19.7||All statistical hypothesis tests were conducted at the 0.05 significance level. No adjustment was employed for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture|Positive values for absolute risk reduction favor denosumab.|||19.7|1.3|0.0259
82640690|NCT00518531|164995915|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|30.9|||<|0.0001|TWO_SIDED|95.0|20.6|41.3||All statistical hypothesis tests were conducted at the 0.05 significance level. No adjustment was employed for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture|Positive values for absolute risk reduction favor denosumab.|||41.3|20.6|<0.0001
82640691|NCT00518531|164995916|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.0||||0.0138|TWO_SIDED|95.0|2.2|19.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||19.7|2.2|0.0138
82388374|NCT00425061|164487698|SUPERIORITY_OR_OTHER||LS mean Difference|0.0||||0.482|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 8: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.482
82388375|NCT00425061|164487698|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.492|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 28: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.492
82388376|NCT00425061|164487698|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.323|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 56: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.323
82640692|NCT00518531|164995917|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.7|||<|0.0001|TWO_SIDED|95.0|17.6|37.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||37.7|17.6|<0.0001
82640693|NCT00518531|164995918|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8||||0.0291|TWO_SIDED|95.0|1.1|18.5|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||18.5|1.1|0.0291
82640694|NCT00518531|164995919|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.4|||<|0.0001|TWO_SIDED|95.0|18.1|36.7|||Cochran-Mantel-Haenszel|Stratified by center and prior osteoporotic fracture.|Positive values for absolute risk reduction favor denosumab.|||36.7|18.1|<0.0001
82388377|NCT00425061|164487698|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.226|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 84: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.226
82388378|NCT00425061|164487698|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.256|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Day 112: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.2|0.256
82640695|NCT04621227|164995934|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|202.94|||||TWO_SIDED|90.0|167.14|246.41|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 120mg BID + rosuvastatin 10mg \[Period 4\] vs Rosuvastatin 10mg \[Period 1\])||246.41|167.14|
82640696|NCT04621227|164995934|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|283.73|||||TWO_SIDED|90.0|233.68|344.51|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 200mg BID + rosuvastatin 10mg \[Period 7\] vs Rosuvastatin 10mg \[Period 1\])||344.51|233.68|
82640697|NCT04621227|164995935|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|50.57|||||TWO_SIDED|90.0|42.27|60.5|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 120mg BID + midazolam 2mg \[Period 5\] vs Midazolam 2mg \[Period 2\])||60.50|42.27|
82640698|NCT04621227|164995935|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Adjusted Geometric Mean Ratio (%)|50.56|||||TWO_SIDED|90.0|42.06|60.78|||Mixed Models Analysis|||Comparison for AUClast (PF-06882961 200mg BID + midazolam 2mg \[Period 8\] vs Midazolam 2mg \[Period 2\])||60.78|42.06|
82640699|NCT01728376|164995948|SUPERIORITY_OR_OTHER||Difference (%)|-2.5|||||TWO_SIDED|95.0|-30.3|25.3|||||Daptomycin minus Comparator 95% Confidence Interval (CI) by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||25.3|-30.3|
82640700|NCT01728376|164995948|SUPERIORITY_OR_OTHER||Difference (%)|16.3|||||TWO_SIDED|95.0|-13.0|45.7|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||45.7|-13.0|
82640701|NCT01728376|164995948|SUPERIORITY_OR_OTHER||Difference (%)|25.7|||||TWO_SIDED|95.0|-21.0|72.4|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in satisfactory response between treatment groups. Satisfactory response = cured + improved||72.4|-21.0|
82573294|NCT05224843|164856870|OTHER||Percentage of enrolled from eligible|82.5|||||TWO_SIDED|95.0|73.7|88.8||||||||88.8|73.7|
82573295|NCT05224843|164856871|OTHER||Percentage of enrolled from eligible|100.0|||||TWO_SIDED|95.0|95.4|100.0||||||||100|95.4|
82573296|NCT05224843|164856873|OTHER||Percentage screened positive for EM|7.5|||||TWO_SIDED|95.0|3.5|15.4||||||||15.4|3.5|
82573297|NCT05224843|164856875|OTHER||Percentage who changed after BNI|25.0|||||TWO_SIDED|95.0|4.6|69.9||||||||69.9|4.6|
82388379|NCT00425061|164487699|SUPERIORITY_OR_OTHER||LS mean difference|1.8||||0.09|TWO_SIDED|95.0|-0.3|3.9|||ANCOVA|||Day 28: ANCOVA model was based on the log 2 transformed methacholine challenge test values with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||3.9|-0.3|0.090
82388380|NCT00425061|164487699|SUPERIORITY_OR_OTHER||LS mean difference|2.1||||0.144|TWO_SIDED|95.0|-0.8|5.0|||ANCOVA|||Day 112: ANCOVA model was based on the log 2 transformed methacholine challenge test values with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||5.0|-0.8|0.144
82388381|NCT00425061|164487701|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.354|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||Day 8: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.1|-0.4|0.354
82388382|NCT00425061|164487701|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.9|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Day 28: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.4|-0.4|0.900
82388383|NCT00425061|164487701|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.921|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Day 56: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.4|-0.4|0.921
82388384|NCT00425061|164487701|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.388|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Day 84: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.6|-0.2|0.388
82388385|NCT00425061|164487701|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.249|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Day 112: ANCOVA model was used with baseline as a covariate, LABA use (ICS only or ICS plus LABA) and treatment as two factors.||0.7|-0.2|0.249
82388386|NCT00425061|164487702|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||Chi-squared|||||||0.267
82388387|NCT00425061|164487703|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Chi-squared|||||||0.029
82388388|NCT03436693|164487726|OTHER|Point Estimate|Difference(Multiple imputation method)|11.3|||||TWO_SIDED|95.0|1.2|21.5||||||||21.5|1.2|
82388389|NCT03436693|164487727|OTHER|Point Estimate|Difference(Multiple imputation method)|3.8|||||TWO_SIDED|95.0|-4.1|11.7||||||||11.7|-4.1|
82388390|NCT03436693|164487728|SUPERIORITY||Difference of LSMean|1.09||||0.351|TWO_SIDED|95.0|-1.21|3.4|||Mixed Models Analysis|||||3.40|-1.21|0.351
82388391|NCT03436693|164487729|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.293|TWO_SIDED|95.0|0.23|1.55|||Regression, Cox|||||1.55|0.23|0.293
82388392|NCT03436693|164487730|SUPERIORITY||Ratio of Geometric LSMean|0.52|||<|0.001|TWO_SIDED|95.0|0.418|0.646|||Mixed Models Analysis|||||0.646|0.418|<0.001
82388393|NCT01680861|164487731|SUPERIORITY_OR_OTHER|||||||0.32|||||||Log Rank|||||||0.32
82388394|NCT01680861|164487732|SUPERIORITY_OR_OTHER|||||||0.99|||||||Log Rank|||||||0.99
82573298|NCT05224843|164856876|OTHER||Percentage reported APS from EM positive|20.0|||||TWO_SIDED|95.0|3.6|62.4||||||||62.4|3.6|
82388395|NCT01680861|164487733|SUPERIORITY_OR_OTHER|||||||1|||||||Log Rank|||||||1.0
82388396|NCT01680861|164487734|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82388397|NCT01680861|164487735|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
82388398|NCT01680861|164487736|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82388399|NCT04967885|164487754|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82388400|NCT01011465|164487756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.03||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.03
82388401|NCT01011465|164487756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.89||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.89
82388402|NCT01011465|164487756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.52||95.0|||||t-test, 2 sided|||The null hypothesis is that both groups will have similar rise in SBP in response to stress.||||0.52
82388403|NCT01011465|164487757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.43||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.43
82388404|NCT01011465|164487757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.08||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.08
82388405|NCT01011465|164487757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.25||95.0|||||ANOVA|||The null hypothesis states that both groups will have similar PANAS negative affect score change in response to stress.||||0.25
82425869|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||<0.001
82425870|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.008
82425871|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.709||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.709
82573299|NCT01952847|164856895|OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82573300|NCT01952847|164856896|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82573301|NCT01952847|164856899|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82573302|NCT01952847|164856900|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
82573303|NCT01952847|164856901|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
82573304|NCT01952847|164856902|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82573305|NCT01952847|164856903|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82573306|NCT01952847|164856904|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82573307|NCT01952847|164856905|SUPERIORITY|||||||0.57|||||||Log Rank|||||||0.57
82573308|NCT01952847|164856909|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
82573309|NCT01952847|164856910|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82388406|NCT01011465|164487758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.83||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.83
82388407|NCT01011465|164487758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.56||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.56
82388408|NCT01011465|164487758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.95||95.0|||||t-test, 2 sided|||The null hypothesis states that both groups had similar threat/challenge scores during the speech task.||||0.95
82388409|NCT01471340|164487780|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The projected sample size provided 90% power at a 2.5% alpha level (one-sided) to determine non-inferiority of MF/F and MF. For analysis of the first SAO in participants, MF/F MDI BID was considered non-inferior to MF MDI BID if the upper bound for the 95% confidence interval (CI) of the hazard ratio (HR) of MF/F MDI BID versus MF MDI BID was lower than 2.0 (noninferiority margin).|Hazard Ratio (HR)|1.22||||0.411|TWO_SIDED|95.0|0.76|1.94|||Cox proportional-hazard model||The HR and 95% CI were based on the Cox proportional-hazard model with covariates of treatment (MF/F or MF) and ICS dose level (200 or 400 mcg).|Pertains only to the First SAO; pooled MF/F treatments and pooled MF treatments||1.94|0.76|0.411
82524969|NCT02696564|164746408|SUPERIORITY||Relative rate (losartan to placebo)|0.91||||0.946|TWO_SIDED|95.0|0.05|14.97|||Negative binomial model|||P-value for rate of moderate exacerbations between treatment groups (measured in events per 100 person-years).||14.97|0.05|0.946
82524970|NCT02696564|164746408|SUPERIORITY||Relative rate (losartan to placebo)|0.36||||0.487|TWO_SIDED|95.0|0.02|6.51|||Negative binomial model|||P-value for rate of severe exacerbations between treatment groups (measured in events per 100 person-years).||6.51|0.02|0.487
82524971|NCT01257880|164746431|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test was used to test the null hypothesis that basilar artery vasomotor reactivity was equivalent between the two groups.||||0.39
82524972|NCT04711603|164746450|SUPERIORITY||Placebo difference|-0.97|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.52|-0.42|||MMRM|||||-0.42|-1.52|<0.001
82524973|NCT05805657|164746451|SUPERIORITY||Time by treatment interaction coeff.|-7.16|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Immediate TranS-C (Standard/Adapted combined) versus UC-DT on change in sleep disturbance from pre to post.||||<0.001
82524974|NCT05805657|164746451|SUPERIORITY||Time by treatment interaction coeff.|2.22||||0.52|TWO_SIDED|||||Standard TranS-C versus Adapted TranS-C on change in sleep disturbance from pre to post.|Intent-to-treat, multilevel modeling|||||||0.52
82524975|NCT05805657|164746451|SUPERIORITY||Coefficient|-10.89||||0.02|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep disturbance.||||0.02
82524976|NCT05805657|164746451|SUPERIORITY||Coefficient|-6.26||||0.04|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep disturbance.||||0.04
82573310|NCT05878873|164856983|OTHER||Mean Difference (Net)|-0.078|STANDARD_ERROR_OF_MEAN|0.027||0.007|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44.|This estimate calculation is TENS ON - TENS OFF.|Statistical analysis comparing cortical activation between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.007
82425872|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.331||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.331
82524977|NCT05805657|164746451|SUPERIORITY||Coefficient|-10.37||||0.001|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep disturbance.||||0.001
82524978|NCT05805657|164746453|SUPERIORITY||Time by treatment interaction coeff.|-6.44||||0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in sleep- related impairment from pre to post.||||0.001
82524979|NCT05805657|164746453|SUPERIORITY||Time by treatment interaction coeff.|1.36||||0.72|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in sleep-related impairment from pre to post.||||0.72
82524980|NCT05805657|164746453|SUPERIORITY||Coefficient|-3.9||||0.3|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep-related impairment.||||0.30
82524981|NCT05805657|164746453|SUPERIORITY||Coefficient|0.79||||0.78|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep-related impairment.||||0.78
82524982|NCT05805657|164746453|SUPERIORITY||Coefficient|-4.45||||0.15|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep-related impairment.||||0.15
82524983|NCT05805657|164746454|SUPERIORITY||Time by treatment interaction coeff.|0.55||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in Composite Sleep Health Score from pre to post.||||0.09
82524984|NCT05805657|164746454|SUPERIORITY||Time by treatment interaction coeff.|1.05||||0.11|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in sleep health from pre to post.||||0.11
82524985|NCT05805657|164746454|SUPERIORITY||Coefficient|0.45||||0.59|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting sleep health.||||0.59
82524986|NCT05805657|164746454|SUPERIORITY||Coefficient|0.72||||0.14|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting sleep health.||||0.14
82524987|NCT05805657|164746454|SUPERIORITY||Coefficient|0.89||||0.06|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting sleep health.||||0.06
82524988|NCT05805657|164746455|SUPERIORITY||Time by treatment interaction coeff.|-4.33||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in functional impairment from pre to post.||||0.002
82524989|NCT05805657|164746455|SUPERIORITY||Coefficient of indirect effect|-2.2||||0.002|TWO_SIDED|95.0|-3.57|-0.83|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.83|-3.57|0.002
82573311|NCT05878873|164856983|OTHER||Mean Difference (Net)|-0.089|STANDARD_ERROR_OF_MEAN|0.032||0.008|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF.|Statistical analysis comparing cortical activation between TENS ON and TENS OFF conditions in healthy controls.||||0.008
82388410|NCT01471340|164487781|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.021|TWO_SIDED|95.0|0.8|0.98|||Cox proportional-hazard model|Superiority of MF/F MDI BID vs MF MDI BID was determined if the HR was less than 1 and achieved statistical significance (one-sided p-value \< 0.025).|The HR and 95% CI were based on the Cox proportional-hazard model with covariates of treatment (MF/F or MF) and ICS dose level (200 or 400 mcg).|Pertains only to the First SAEX; pooled MF/F treatments and pooled MF treatments||0.98|0.80|0.021
82388411|NCT00526669|164487783|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Biomarker: TS|Wilcoxon signed rank test|||||||0.10
82388412|NCT00526669|164487783|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||Biomarker: DPD|Wilcoxon signed rank test|||||||0.097
82388413|NCT00526669|164487783|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Biomarker: EGFR/HER1|Wilcoxon signed rank test|||||||0.10
82524990|NCT05805657|164746455|SUPERIORITY||Coefficient of indirect effect|-2.76||||0.001|TWO_SIDED|95.0|-4.44|-1.08|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep-related impairment (PROMIS-SRI). The parameter of interest was the indirect effect at post||-1.08|-4.44|0.001
82388414|NCT00526669|164487783|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Biomarker: HER2|Wilcoxon signed rank test|||||||0.26
82388415|NCT00526669|164487783|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||Biomarker: HER3|Wilcoxon signed rank test|||||||0.38
82388416|NCT00526669|164487784|SUPERIORITY_OR_OTHER||percentage of participants|17.9|||||TWO_SIDED|95.0|9.6|29.2|||||The estimated value represents the percentage of participants with complete response or partial response.|||29.2|9.6|
82388417|NCT00526669|164487785|SUPERIORITY_OR_OTHER||percentage of participants|29.0|||||TWO_SIDED|95.0|17.9|40.3|||||The estimated value reflects the percentage of participants who achieved progression-free survival.|||40.3|17.9|
82388418|NCT04501640|164487836|OTHER||Geomteric Least Squares (LS) Mean Ratio|57.06|||||TWO_SIDED|90.0|46.21|70.47|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an analysis of variance (ANOVA) performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||70.47|46.21|
82425873|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.246||95.0||||Analysis for Meaningful Relief|Regression, Logistic|Treatment as a factor||||||0.246
82425874|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.001
82524991|NCT05805657|164746455|SUPERIORITY||Time by treatment interaction coeff.|0.84||||0.78|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in functional impairment from pre to post.||||0.78
82524992|NCT05805657|164746455|SUPERIORITY||Coefficient|-1.41||||0.49|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting functional impairment.||||0.49
82524993|NCT05805657|164746455|SUPERIORITY||Coefficient|-1.62||||0.27|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting functional impairment.||||0.27
82524994|NCT05805657|164746455|SUPERIORITY||Coefficient|-2.07||||0.09|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting functional impairment.||||0.09
82524995|NCT05805657|164746456|SUPERIORITY||Time by treatment interaction coeff.|-4.25||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in psychiatric symptoms from pre to post.||||0.002
82524996|NCT05805657|164746456|SUPERIORITY||Coefficient of indirect effect|-1.95||||0.02|TWO_SIDED|95.0|-3.54|-0.36|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.36|-3.54|0.02
82524997|NCT05805657|164746456|SUPERIORITY||Coefficient of indirect effect|-1.62||||0.01|TWO_SIDED|95.0|-2.87|-0.38|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep-related impairment (PROMIS-SRI) at post. The parameter of interest was the indirect effect.||-0.38|-2.87|0.01
82524998|NCT05805657|164746456|SUPERIORITY||Time by treatment interaction coeff.|1.79||||0.56|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Standard TranS-C versus Adapted TranS-C on change in psychiatric symptoms from pre to post.||||0.56
82524999|NCT05805657|164746456|SUPERIORITY||Coefficient|-3.46||||0.34|TWO_SIDED||||||Regression, Linear|||Acceptability of intervention measure (AIM) predicting psychiatric symptoms.||||0.34
82525000|NCT05805657|164746456|SUPERIORITY||Coefficient|-5.54||||0.01|TWO_SIDED||||||Regression, Linear|||Appropriateness of intervention measure (IAM) predicting psychiatric symptoms.||||0.01
82525001|NCT05805657|164746456|SUPERIORITY||Coefficient|-5.65||||0.01|TWO_SIDED||||||Regression, Linear|||Feasibility of intervention measure (FIM) predicting psychiatric symptoms.||||0.01
82525002|NCT00696384|164746519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|||<|0.001|TWO_SIDED|95.0|-9.78|-5.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Includes participants with both a double-blind baseline and postbaseline value.|ANCOVA|||||-5.78|-9.78|<0.001
82525003|NCT00696384|164746520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-15.47|-9.29||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Includes participants with both a double-blind baseline and postbaseline value.|ANCOVA|||||-9.29|-15.47|<0.001
82525004|NCT01678131|164746525|SUPERIORITY_OR_OTHER_LEGACY||Posterior Percentage Probability|100.0||||||||||||||The posterior percentage probability of the true success rate of the FNA procedure for the 3 combined treatment groups (n=29) was determined by a Bayesian calculation, using a Jeffrey's prior distribution (i.e. Beta \[0.5,0.5\]) on the true success rate. Neither P-values, nor confidence intervals are estimated in this analysis. The primary hypothesis was met if the posterior percentage probability was \> 80% that the true success rate is at least 60%.||||
82525005|NCT00558064|164746537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|3.98|6.23|||Mixed Models Analysis||Difference calculated as telmisartan 40 mg plus amlodipine 5 mg fixed-dose combination minus amlodipine 5 mg monotherapy|||6.23|3.98|<0.0001
82525006|NCT00811382|164746636|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82573312|NCT05878873|164856984|OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.0141||0.014|TWO_SIDED|||||This value was adjusted using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|This estimate calculation is TENS ON - TENS OFF at Visit 2.|Statistical analysis comparing savings between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.014
82573313|NCT05878873|164856984|OTHER||Mean Difference (Net)|-0.0058|STANDARD_ERROR_OF_MEAN|0.167||0.878|TWO_SIDED|||||This value was corrected with false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF at Visit 2|Statistical analysis comparing savings between TENS ON and TENS OFF conditions in healthy controls.||||0.878
82573314|NCT05878873|164856985|OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.018||0.898|TWO_SIDED|||||This value was corrected using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF|Statistical analysis comparing rate of adaptation between TENS ON and TENS OFF conditions in people with multiple sclerosis.||||0.898
82573315|NCT05878873|164856985|OTHER||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.698|TWO_SIDED|||||This value was corrected using false discovery rate.|Mixed Models Analysis|Degrees of freedom = 44|The estimate calculation is TENS ON - TENS OFF|Statistical analysis comparing rate of adaptation between TENS ON and TENS OFF conditions in healthy controls.||||0.698
82573316|NCT02980523|164856986|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.002|||||||Chi-squared|||||||0.002
82573317|NCT02980523|164856987|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.372|||||||Chi-squared, Corrected|||||||0.372
82573318|NCT02980523|164856988|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.341|||||||Chi-squared, Corrected|||||||0.341
82573319|NCT02980523|164856989|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.001|||||||Chi-squared, Corrected|||||||0.001
82573320|NCT02980523|164856990|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.003|||||||Chi-squared, Corrected|||||||0.003
82573321|NCT02980523|164856991|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.216|||||||Chi-squared, Corrected|||||||0.216
82573322|NCT02980523|164856992|NON_INFERIORITY|The aim of this study was to find the ideal dose of treatment for bacterial eradication and non-inferiority with the comparative groups.||||||0.829|||||||Chi-squared, Corrected|||||||0.829
82573323|NCT02552147|164857002|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||.44
82573324|NCT02552147|164857003|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.38
82573325|NCT02552147|164857007|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.13
82573326|NCT02552147|164857008|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.13
82573327|NCT02552147|164857009|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.50
82388419|NCT04501640|164487836|OTHER||Geometric LSMean Ratio|61.42|||||TWO_SIDED|90.0|52.06|72.47|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||72.47|52.06|
82388420|NCT04501640|164487837|OTHER||Geomteric LSMean Ratio|53.31|||||TWO_SIDED|90.0|43.02|66.05|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||66.05|43.02|
82573328|NCT02552147|164857010|SUPERIORITY|||||||1||||||P value was calculated to \>0.99 and thus rounded to 1.0.|Wilcoxon (Mann-Whitney)|Two-tailed||||||1.0
82573329|NCT02552147|164857011|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Two-tailed||||||0.25
82573330|NCT02552147|164857012|SUPERIORITY|||||||0.69|||||||Binomial test|||||||0.69
82573331|NCT00443209|164857037|SUPERIORITY_OR_OTHER||Treatment Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-10.4|-2.6|||Miettenen and Nurminen method||Treatment Difference was compared using the Miettinen and Nurminen (MN) method.|||-2.6|-10.4|<0.001
82573332|NCT00443209|164857038|SUPERIORITY_OR_OTHER||Treatment Difference|-5.2|||||TWO_SIDED|95.0|-11.7|1.4|||||Treatment Difference was compared using the MN method.|||1.4|-11.7|
82573333|NCT00443209|164857039|SUPERIORITY_OR_OTHER||Treatment Difference|0.3|||||TWO_SIDED|95.0|-2.0|2.0|||||Treatment Difference was compared using the MN method.|||2.0|-2.0|
82573334|NCT00443209|164857041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|95.0|0.45|0.75|||||Based on mixed logistic regression model with a fixed effect term for treatment, baseline pain severity and a random effect term for participant, with the random effect following a normal distribution. An odds ratio \>1 is in favor of telcagepant.|||0.75|0.45|
82573335|NCT00513747|164857044|SUPERIORITY|||||||0.1521|||||||Log Rank|||||||0.1521
82573336|NCT00513747|164857045|SUPERIORITY|||||||0.0097|||||||Log Rank|||||||0.0097
82573337|NCT00513747|164857046|SUPERIORITY|||||||0.4645|||||||Log Rank|||||||0.4645
82573338|NCT00825305|164857050|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 14 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean|-0.2|||||TWO_SIDED|95.0|-0.81|0.4|||ANOVA||Ratio of log2 mean (Zagreb/Essen) on day 14|||0.4|-0.81|
82573339|NCT00825305|164857051|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 7 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean (day7)|-0.21|||||TWO_SIDED|95.0|-0.77|0.35|||ANOVA||Ratio of log2 means (Zagreb/Essen) on day 7|||0.35|-0.77|
82573340|NCT00825305|164857051|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis states that the Zagreb schedule is inferior to the Essen schedule in terms of day 42 antibody titers assuming no difference between the two schedules and the equivalence limit of 1.5 titer levels (log2).|ratio of log2 mean (day 42)|-0.07|||||TWO_SIDED|95.0|-0.72|0.58|||ANOVA||Ratio of log2 mean (Zagreb/(Essen) on day 42|||0.58|-0.72|
82573341|NCT03617289|164857059|SUPERIORITY|||||||0.771||||||Threshold for statistical significance set at p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.771
82573342|NCT03617289|164857060|SUPERIORITY||||||<|0.046||||||Threshold for statistical significance was set at p\<0.05|Chi-squared|||||||<0.046
82573343|NCT01827046|164857079|SUPERIORITY||Risk Difference (RD)|2.0||||0.73|TWO_SIDED|95.0|-6.8|10.7|||Chi-squared|||||10.7|-6.8|0.73
82573344|NCT01827046|164857079|SUPERIORITY||Risk Difference (RD)|4.0||||0.33|TWO_SIDED|95.0|-4.0|12.0|||Multivariate logit model|||Adjusted for age, GCS, stability ICH volume, stability IVH volume, ICH deep location||12|-4|0.33
82573345|NCT01827046|164857080|SUPERIORITY||Risk Difference (RD)|0.03||||0.55|TWO_SIDED|95.0|-0.06|0.11|||Chi-squared|||||0.11|-0.06|0.55
82573346|NCT01827046|164857080|SUPERIORITY||Risk Difference (RD)|1.26||||0.27|TWO_SIDED|95.0|0.82|1.97|||Multivariate logit model|Adjusted for age, GCS, stability ICH volume, stability IVH volume and ICH deep location||||1.97|0.82|0.27
82388421|NCT04501640|164487837|OTHER||Geomteric LSMean Ratio|59.14|||||TWO_SIDED|90.0|49.48|70.7|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||70.70|49.48|
82388422|NCT04501640|164487838|OTHER||Geometric LSMean Ratio|38.93|||||TWO_SIDED|90.0|26.78|56.59|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||56.59|26.78|
82388423|NCT04501640|164487838|OTHER||Geometric LSMean Ratio|47.9|||||TWO_SIDED|90.0|31.76|72.24|||||Ratios and confidence intervals are transformed back to raw scale \& values are expressed as percentages.|Assessment based on an ANOVA performed on natural log-transformed parameters with food condition and period as a fixed effects and participant as a random effect.||72.24|31.76|
82388424|NCT01981954|164487840|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 MCC Analysis||||<0.001
82388425|NCT01981954|164487842|OTHER|||||||0.003||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline=0.|t-test, 2 sided|||Week 24 Analysis||||0.003
82388426|NCT01981954|164487843|OTHER|||||||0.744||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.744
82388427|NCT01981954|164487844|OTHER|||||||0.352||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.352
82388428|NCT01981954|164487845|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||<0.001
82388429|NCT01981954|164487846|OTHER|||||||0.177||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.177
82388430|NCT01981954|164487847|OTHER|||||||0.025||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analyis||||0.025
82388431|NCT01981954|164487848|OTHER|||||||0.05||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.050
82388432|NCT01981954|164487849|OTHER|||||||0.567||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.567
82573347|NCT01827046|164857081|SUPERIORITY|||||||0.08|TWO_SIDED|95.0|||||Log Rank|||||||0.08
82388433|NCT01981954|164487850|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
82388434|NCT01981954|164487851|OTHER||||||<|0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||<0.001
82388435|NCT01981954|164487852|OTHER|||||||0.004||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.004
82388436|NCT01981954|164487853|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
82388437|NCT01981954|164487854|OTHER|||||||0.001||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.001
82388438|NCT01981954|164487871|OTHER|||||||0.688||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.688
82388439|NCT01981954|164487872|OTHER|||||||0.61||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.610
82388440|NCT01981954|164487873|OTHER|||||||0.562||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.562
82388441|NCT01981954|164487874|OTHER|||||||0.657||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.657
82573348|NCT01827046|164857081|SUPERIORITY||Cox Proportional Hazard|0.67||||0.037|TWO_SIDED|95.0|0.45|0.98|||Adjusted Cox proportional Hazard|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location, diabetes, cardiovascular disease and race.||||0.98|0.45|0.037
82573349|NCT01827046|164857082|SUPERIORITY||Odds Ratio (OR)|0.7|||<|0.001|TWO_SIDED|95.0|0.62|0.8|||Logit model|||||0.80|0.62|<0.001
82573350|NCT01827046|164857082|SUPERIORITY||Odds Ratio (OR)|0.68|||<|0.001|TWO_SIDED|95.0|0.59|0.78|||Multivariate logit model|Adjusted for age, GCS, stability IVH volume, and ICH deep location||||0.78|0.59|<0.001
82573351|NCT01827046|164857083|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82573352|NCT01827046|164857084|SUPERIORITY||Risk Difference (RD)|0.04||||0.34|TWO_SIDED|95.0|-0.04|0.11|||Chi-squared|||||0.11|-0.04|0.34
82573353|NCT01827046|164857085|SUPERIORITY||Risk Difference (RD)|-0.01||||0.76|TWO_SIDED|95.0|-0.1|0.07|||Chi-squared|||||0.07|-0.10|0.76
82573354|NCT01827046|164857085|SUPERIORITY||Odds Ratio (OR)|1.25||||0.31|TWO_SIDED|95.0|0.81|1.94|||Multivariate logit model|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location||||1.94|0.81|0.31
82573355|NCT01827046|164857086|SUPERIORITY||Risk Difference (RD)|0.01||||0.79|TWO_SIDED|95.0|-0.07|0.09|||Chi-squared|||||0.09|-0.07|0.79
82573356|NCT01827046|164857086|SUPERIORITY||Odds Ratio (OR)|1.24||||0.35|TWO_SIDED|95.0|0.79|1.97|||Multivariate logit model|Adjusted for age, GCS, Stability ICH volume, Stability IVH volume, ICH deep location||||1.97|0.79|0.35
82573357|NCT01827046|164857087|SUPERIORITY|||||||0.46|||||||Median test|||||||0.46
82573358|NCT01827046|164857088|SUPERIORITY|||||||0.75|||||||Median test|||||||0.75
82573359|NCT01827046|164857089|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
82573360|NCT01827046|164857090|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
82388442|NCT01981954|164487875|OTHER|||||||0.631||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.631
82388443|NCT01981954|164487876|OTHER|||||||0.41||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.410
82388444|NCT01981954|164487877|OTHER|||||||0.94||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.940
82525007|NCT07069764|164746640|OTHER|"This study was not designed as a non-inferiority or equivalence trial. It was powered (80% power, α = 0.05) to detect clinically significant differences in pain reduction between 635 nm and 980 nm diode lasers, based on prior LLLT studies in TMD. Sample size was calculated before recruitment."|Effect size (Kendall's W and r)|0.75||||0.05|TWO_SIDED|95.0|0.68|0.79||P-values were adjusted using Bonferroni correction for multiple comparisons. The a priori threshold for statistical significance was set at p \< 0.05.|Friedman test, Mann-Whitney U test|Non-parametric tests were used due to non-normal data distribution (Shapiro-Wilk test). Effect size measures were also reported.||"The study was designed to compare the effects of 635 nm and 980 nm low-level laser therapy on pain and jaw function. Statistical analysis methods are described below."|"Shapiro-Wilk test was used to assess normality. Non-parametric tests were applied. Friedman test for within-group comparisons, followed by Bonferroni-adjusted post hoc tests. Mann-Whitney U test for between-group comparisons. Effect sizes were calculated using Kendall's W (within groups) and r (between groups)."|0.79|0.68|0.05
82573361|NCT01827046|164857091|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
82573362|NCT01827046|164857092|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82573363|NCT01827046|164857093|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
82573364|NCT01827046|164857094|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82573365|NCT01827046|164857095|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82573366|NCT02353871|164857101|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
82573367|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 8 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82388445|NCT01981954|164487878|OTHER|||||||1||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||1.000
82388446|NCT01981954|164487879|OTHER|||||||0.575||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|t-test, 2 sided|||Week 24 Analysis||||0.575
82388447|NCT01981954|164487880|OTHER|||||||0.031||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.031
82573368|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 15 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82573369|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 57 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82573370|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 85 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82573371|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 113 - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82573372|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 148 - BTX-A-HAC NG solution (50 U) versus placebo||||0.0035
82573373|NCT02353871|164857102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0441||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA at Day 183 (End of Study) - BTX-A-HAC NG solution (50 U) versus placebo||||0.0441
82388448|NCT01981954|164487881|OTHER|||||||0.721||||||From a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|t-test, 2 sided|||Week 24 Analysis||||0.721
82388449|NCT02218736|164487919|SUPERIORITY|||||||0.0095|||||||t-test, 1 sided|||||||0.0095
82388450|NCT02218736|164487920|SUPERIORITY|||||||0.0345|||||||t-test, 1 sided|||||||0.0345
82388451|NCT02218736|164487921|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||||||0.430
82388452|NCT03702010|164487934|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||Baseline VAS||||0.112
82388453|NCT03702010|164487934|SUPERIORITY|||||||0.323|||||||t-test, 2 sided|||After first stimulation VAS||||0.323
82388454|NCT03702010|164487934|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||After second stimulation||||0.760
82388455|NCT03702010|164487934|SUPERIORITY|||||||0.624|||||||t-test, 2 sided|||End of Follow-up||||0.624
82388456|NCT03702010|164487935|SUPERIORITY|||||||0.589|||||||t-test, 2 sided|||After first stimulation||||0.589
82388457|NCT03702010|164487935|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||After second stimulation||||0.704
82388458|NCT03702010|164487935|SUPERIORITY|||||||0.908|||||||t-test, 2 sided|||End of Follow-up||||0.908
82388459|NCT03702010|164487936|SUPERIORITY|||||||0.231|||||||t-test, 2 sided|||Baseline||||0.231
82388460|NCT03702010|164487936|SUPERIORITY|||||||0.663|||||||t-test, 2 sided|||After first stimulation||||0.663
82388461|NCT03702010|164487936|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||After second stimulation||||0.998
82388462|NCT03702010|164487936|SUPERIORITY|||||||0.713|||||||t-test, 2 sided|||End of Follow-up||||0.713
82388463|NCT01080118|164487938|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.05||||0.001|TWO_SIDED|99.0|0.05|0.05|||t-test, 2 sided|||||.05|.05|.001
82388464|NCT01080118|164487938|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence||||||0.001||95.0|||||t-test, 2 sided|||||||.001
82388465|NCT02295020|164487940|SUPERIORITY_OR_OTHER|||||||0.181|||||||t-test, 2 sided|||||||0.181
82388466|NCT02295020|164487941|SUPERIORITY_OR_OTHER|||||||0.232|||||||t-test, 2 sided|||||||0.232
82640702|NCT01728376|164995949|SUPERIORITY_OR_OTHER||Difference (%)|5.0|||||TWO_SIDED|95.0|-29.8|39.8|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||39.8|-29.8|
82388467|NCT02295020|164487942|SUPERIORITY_OR_OTHER|||||||0.311|||||||t-test, 2 sided|||||||0.311
82388468|NCT02295020|164487944|SUPERIORITY_OR_OTHER|||||||0.449|||||||t-test, 2 sided|||||||0.449
82388469|NCT02295020|164487945|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.860
82388470|NCT02295020|164487946|SUPERIORITY_OR_OTHER|||||||0.735|||||||Wilcoxon (Mann-Whitney)|||||||0.735
82388471|NCT02295020|164487947|SUPERIORITY_OR_OTHER|||||||0.479|||||||Wilcoxon (Mann-Whitney)|||||||0.479
82388472|NCT02295020|164487948|SUPERIORITY_OR_OTHER|||||||0.323|||||||Wilcoxon (Mann-Whitney)|||||||0.323
82388473|NCT02295020|164487949|SUPERIORITY_OR_OTHER|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
82388474|NCT00422695|164487955|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82388475|NCT00422695|164487955|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82388476|NCT03628339|164487956|OTHER||% Ratio of Geometric Least square Mean|101.4|||||TWO_SIDED|90.0|89.35|115.06||||||||115.06|89.35|
82388477|NCT03628339|164487957|OTHER||% Ratio of Geometric Least square Mean|101.16|||||TWO_SIDED|90.0|89.24|114.66||||||||114.66|89.24|
82388478|NCT03628339|164487958|OTHER||% Ratio of Geometric Least square Mean|103.62|||||TWO_SIDED|90.0|86.91|123.56||||||||123.56|86.91|
82388479|NCT00355147|164487969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.69|TWO_SIDED||||||Mixed Models Analysis|Adjusted for site, strata, baseline score, randomized group, month and the group by month interaction|This score represents change from baseline to six months across the groups.|This is an analysis of the outcome, Stroke Specific Quality of Life Overall Total Score.||||0.69
82388480|NCT00355147|164487969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|0.23||0.05|TWO_SIDED|||||Adjusted for site, strata, baseline value, treatment group, month of assessment, treatment group x month, random subject effect|Mixed Models Analysis||This score represents change from baseline to three months across groups.|This is an analysis of the Perceived Energy Domain within the Stroke Specific Quality of Life Measure||||0.05
82388481|NCT00355147|164487970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.66|TWO_SIDED||||||Mixed Models Analysis|Adjusted by site, strata, baseline score, treatment group, month and group by month interaction|The score is the change from baseline to six months between groups.|||||0.66
82388482|NCT00355147|164487971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.74||||0.06|TWO_SIDED|95.0|0.88|51.31|||Regression, Logistic|||||51.31|0.88|0.06
82388483|NCT00355147|164487971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45||||0.036|TWO_SIDED|95.0|1.08|10.96|||Regression, Logistic|||Within group Intervention Pre Post Comparison Compliance with Diabetes Medication||10.96|1.08|0.036
82388484|NCT00355147|164487971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.407|TWO_SIDED|95.0|0.1|2.7|||Regression, Logistic|||Within Group attention control group intervention pre post comparison compliance with Diabetes Medication||2.70|0.10|0.407
82388485|NCT00355147|164487972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.05|TWO_SIDED|95.0|0.54|4.48|||Regression, Logistic|||Between Group Intervention Pre Post Comparison Compliance with Statin Medication||4.48|0.54|0.05
82388486|NCT00355147|164487972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.98||||0.0001|TWO_SIDED|95.0|2.81|12.76|||Regression, Logistic|||Within Group Intervention Pre Post Comparison Compliance with Statin Medication||12.76|2.81|0.0001
82388487|NCT00355147|164487972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83||||0.0004|TWO_SIDED|95.0|1.83|8.01|||Regression, Logistic|||Within Group Attention Control Pre Post Comparison Compliance with Statin Medication.||8.01|1.83|0.0004
82388488|NCT00355147|164487973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.096|TWO_SIDED|95.0|0.86|6.4|||Regression, Logistic|||Between Group Intervention Pre Post Comparison Compliance with Hypertension Medication||6.40|0.86|0.096
82388489|NCT00355147|164487973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.68||||0.0004|TWO_SIDED|95.0|1.81|7.48|||Regression, Logistic|||Within Group Intervention Pre Post Comparison Compliance with Hypertension Medication||7.48|1.81|0.0004
82388490|NCT00355147|164487973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.21|TWO_SIDED|95.0|0.77|3.21|||Regression, Logistic|||Within Group Attention Group Pre Post Comparison Compliance with Hypertension Medication.||3.21|0.77|0.21
82388491|NCT01146379|164487980|SUPERIORITY_OR_OTHER|||||||0.01||||||a prior threshold for statistical significance = 0.05. P value was not corrected for multiple comparisons|Mixed Models Analysis|||The primary analysis used hierarchical linear modeling to examine the rate of change in ARAT over time. The null hypothesis was that all groups would change at a similar rate.||||.01
82388492|NCT01146379|164487980|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||This analysis then asked which groups were different from the Low Movement Dose group||||.036
82388493|NCT01146379|164487980|SUPERIORITY_OR_OTHER|||||||0.679|||||||t-test, 2 sided|||This analysis asked if the Low Movement Dose group was different from the High Movement Dose group||||0.679
82425875|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||<0.001
82573374|NCT02353871|164857103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2422||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 57 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.2422
82573375|NCT02353871|164857103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0917||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 85 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.0917
82573376|NCT02353871|164857103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7064||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 113 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7064
82573377|NCT02353871|164857103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 148 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7010
82573378|NCT02353871|164857103|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7894||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of the proportion of responders on Day 29 who remained responders at Day 183 - BTX-A-HAC NG solution (50 U) versus Placebo||||0.7894
82573379|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
82573380|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
82573381|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
82573382|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
82573383|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||<0.0001
82573384|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
82573385|NCT02353871|164857104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0015||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (at rest)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.0015
82573386|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
82388494|NCT01146379|164487980|SUPERIORITY_OR_OTHER|||||||0.209|||||||t-test, 2 sided|||This analysis tested if the Low Movement Dose group was different from the Individual Maximum High Movement Dose group||||0.209
82388495|NCT05831644|164487993|SUPERIORITY||Mean Difference (Final Values)|-0.124||||0.1925|TWO_SIDED|90.0|-0.285|0.037|||ANOVA|||The primary endpoint (RHI score) was compared between treatments using an analysis of variance model (ANOVA) with treatment and period as fixed effects and subjects as random effect.||0.037|-0.285|0.1925
82573387|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
82573388|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
82573389|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
82640703|NCT01728376|164995949|SUPERIORITY_OR_OTHER||Difference (%)|37.9|||||TWO_SIDED|95.0|0.7|75.1|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||75.1|0.7|
82388496|NCT05831644|164487994|SUPERIORITY||Mean Difference (Final Values)|-4.94||||0.1941|TWO_SIDED|90.0|-11.392|1.513|||ANOVA|||The secondary pharmacodynamic endpoint (AI) was analysed using a similar ANOVA model as for the primary endpoint.||1.513|-11.392|0.1941
82388497|NCT04740827|164488035|SUPERIORITY||Least Squares Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.426|<|0.0001|TWO_SIDED|95.0|-3.27|-1.59|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-1.59|-3.27|<0.0001
82388498|NCT04740827|164488036|SUPERIORITY||Least Squares Mean Difference|-2.35|STANDARD_ERROR_OF_MEAN|0.425|<|0.0001|TWO_SIDED|95.0|-3.19|-1.52|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-1.52|-3.19|<0.0001
82388499|NCT04740827|164488037|SUPERIORITY||Odds Ratio (OR)|5.15|||<|0.0001|TWO_SIDED|95.0|3.02|8.79|||Regression, Logistic||Odds ratio and p-value are based on logistic regression with treatment group, region, baseline monthly migraine days, and number of classes of failed prior prophylactic treatments (2 and \>2) as explanatory variables.|||8.79|3.02|<0.0001
82388500|NCT04740827|164488038|SUPERIORITY||Odds Ratio (OR)|4.82|||<|0.0001|TWO_SIDED|95.0|2.85|8.14|||Regression, Logistic||Odds ratio and p-value are based on logistic regression with treatment group, region, baseline monthly migraine days, and number of classes of failed prior prophylactic treatments (2 and \>2) as explanatory variables.|||8.14|2.85|<0.0001
82388501|NCT04740827|164488039|SUPERIORITY||Least Squares Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.15|-1.42|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.42|-3.15|<0.0001
82388502|NCT04740827|164488040|SUPERIORITY||Least Squares Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|-3.05|-1.32|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.32|-3.05|<0.0001
82388503|NCT04740827|164488041|SUPERIORITY||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.43|-1.93|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.93|-3.43|<0.0001
82388504|NCT04740827|164488042|SUPERIORITY||Least Squares Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-3.36|-1.86|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-1.86|-3.36|<0.0001
82388505|NCT04740827|164488043|SUPERIORITY||Least Squares Mean Difference|17.67|STANDARD_ERROR_OF_MEAN|2.348|<|0.0001|TWO_SIDED|95.0|13.05|22.3|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||22.30|13.05|<0.0001
82388506|NCT04740827|164488044|SUPERIORITY||Least Squares Mean Difference|17.88|STANDARD_ERROR_OF_MEAN|2.308|<|0.0001|TWO_SIDED|95.0|13.34|22.42|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||22.42|13.34|<0.0001
82388507|NCT04740827|164488045|SUPERIORITY||Least Squares Mean Difference|-4.71|STANDARD_ERROR_OF_MEAN|0.844|<|0.0001|TWO_SIDED|95.0|-6.37|-3.05|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-3.05|-6.37|<0.0001
82388508|NCT04740827|164488046|SUPERIORITY||Least Squares Mean Difference|-4.39|STANDARD_ERROR_OF_MEAN|0.786|<|0.0001|TWO_SIDED|95.0|-5.94|-2.85|||MMRM||MMRM=baseline as covariate, treatment group, visit, region, number of classes of failed prior treatments, number of migraine days during baseline period as fixed factors; treatment group and baseline-by-visit with an unstructured covariance matrix.|||-2.85|-5.94|<0.0001
82388509|NCT04740827|164488047|SUPERIORITY||Least Squares Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|0.912|<|0.0001|TWO_SIDED|95.0|-8.22|-4.63|||MMRM||MMRM=baseline monthly migraine days as covariate, treatment group, visit, region and number of classes of failed prior treatments as fixed factors; treatment group and baseline-by-visit as interaction terms, with an unstructured covariance matrix.|||-4.63|-8.22|<0.0001
82388510|NCT01082211|164488056|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||Chi-squared|||Assuming a 3-year rate of 25% using a chi-squared test, a sample size of 55 patients will ensure at least 90% probability of detecting a reduction in the 3-year ipsilateral in-breast recurrence rate from 25% to 9%, with a significance level of 0.05 (1-sided). In-breast recurrence will be estimated using the cumulative incidence method.||||0.0002
82573390|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||0.0008
82388511|NCT01082211|164488064|OTHER||Effect size|0.1|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Functional status||||
82640704|NCT01728376|164995949|SUPERIORITY_OR_OTHER||Difference (%)|-10.0||||||95.0|-60.3|40.3|||||Daptomycin minus Comparator 95% CI by Wilson score method|Difference in success response between treatment arms||40.3|-60.3|
82388512|NCT01082211|164488064|OTHER||Effect size|0.14|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Cosmetic||||
82388513|NCT01082211|164488064|OTHER||Effect size|0.34|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Breast-specific pain||||
82388514|NCT01082211|164488065|OTHER||Effect size|0.04|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Functional status||||
82388515|NCT01082211|164488065|OTHER||Effect size|0.32|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Cosmetic||||
82573391|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0065||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||0.0065
82573392|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0643||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||0.0643
82573393|NCT02353871|164857105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of ILA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.3670
82388516|NCT01082211|164488065|OTHER||Effect size|0.28|||||TWO_SIDED||||||||Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7|Breast-specific pain||||
82388517|NCT01082211|164488067|OTHER|||||||0.054|||||||Spearman rank-order correlation test|||||||0.054
82388518|NCT01082211|164488067|OTHER|||||||0.044|||||||Spearman rank-order correlation test|||||||0.044
82388519|NCT01082211|164488067|OTHER|||||||0.087|||||||Spearman rank-order correlation test|||||||0.087
82388520|NCT00504725|164488091|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||We will use two way ANOVA (looking for effects due to drug and time) with a p value of 0.05 indicative of statistical significance.|ANOVA|||IL-6||||0.39
82388521|NCT00504725|164488091|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||IL-8||||0.18
82388522|NCT00504725|164488091|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||IL-10||||0.14
82388523|NCT00504725|164488092|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||||||0.37
82525008|NCT00856167|164746647|SUPERIORITY||Regression coefficient|-0.6||||0.02|TWO_SIDED|||||Regression coefficient of TCM indicator variable, with change in CFP as the outcome, and controlling for start of treatment values: CFP, depression, gender, age, site|Regression, Linear|||Participants were allocated to one of the two treatments in order to balance baseline CFP, a depression score, age, gender, and site (Tucson or Portland).|"Since some participants could appear in both the 1st and 2nd period, the regression included random effects to account for correlation between measures on the same person.~In the 1st period, participants could either be allocated to TCM or SC, or if their pain scores were below 5, simply assigned to continuing self-care. Comparisons from this period were only between the allocated TCM and SC groups. In the 2nd period, those allocated or assigned to SC in the 1st period could be allocated to TCM or SC, or again assigned to continuing SC if their pain scores were too low. Comparisons from this period were only between the allocated TCM and SC groups."|||0.020
82525009|NCT01529008|164746650|SUPERIORITY||Proportion treatment responder Differenc|-0.08||||0.539|TWO_SIDED|95.0|-0.35|0.18|||Fisher Exact||"Percentage of treatment responders in PREOB® group is 60.9% ((14/23)\*100), compared with 69.2% ((18/26)\*100) in Placebo.~Difference in percentage is -8.3 Difference in treatment responders proportion: PREOB® (0.609) - Placebo (0.692) = -0.08"|||0.18|-0.35|0.539
82388524|NCT00504725|164488093|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||Baseline Pain Level Score|Fisher Exact|||||||0.44
82525010|NCT00332332|164746651|SUPERIORITY_OR_OTHER||Percentage of participants|73.5||||||95.0|67.2|79.1||||||||79.1|67.2|
82525011|NCT03091673|164746656|OTHER||||||<|0.001||||||P-value was computed using a t-test to determine if change in plasma glucose from baseline to 30 minutes was zero.|t-test, 2 sided|||||||<0.001
82525012|NCT04425902|164746667|OTHER||Ratio of geometric least square mean|1.11|||||TWO_SIDED|90.0|0.94|1.32|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.32|0.94|
82525013|NCT04425902|164746668|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.95|1.32|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.32|0.95|
82525014|NCT04425902|164746669|OTHER||Ratio of geometric least square mean|0.95|||||TWO_SIDED|90.0|0.83|1.08|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.08|0.83|
82525015|NCT04425902|164746672|OTHER||Ratio of geometric least square mean|1.23|||||TWO_SIDED|90.0|0.71|2.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||2.14|0.71|
82525016|NCT04425902|164746673|OTHER||Ratio of geometric least square mean|1.23|||||TWO_SIDED|90.0|0.71|2.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||2.14|0.71|
82525017|NCT04425902|164746674|OTHER||Ratio of geometric least square mean|1.11|||||TWO_SIDED|90.0|0.72|1.69|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.69|0.72|
82525018|NCT04425902|164746677|OTHER||Ratio of geometric least square mean|1.08|||||TWO_SIDED|90.0|0.97|1.2|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.20|0.97|
82525019|NCT04425902|164746678|OTHER||Ratio of geometric least square mean|1.09|||||TWO_SIDED|90.0|0.98|1.21|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.21|0.98|
82525020|NCT04425902|164746679|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.92|1.17|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.17|0.92|
82573394|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
82573395|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
82640705|NCT03681769|164995980|EQUIVALENCE|Non-equivalence determined by p\<.05.||||||0.83||||||No site X time interaction (F12,270 = 0.614, p = 0.830).|Mixed Models Analysis|||||||.83
82640706|NCT03681769|164995981|OTHER|||||||0.53|||||||t-test, 2 sided|||||||.53
82640707|NCT04888377|164995999|NON_INFERIORITY|The primary hypothesis of non-inferiority was tested by calculating the mean difference between treatment arms and its associated 90% confidence interval for the primary outcome. If the lower bound of the 90% confidence interval was greater than -4, then LDA was assumed to be non-inferior to placebo. If non-inferiority were assumed, a one-sided t-test would test the benefit of LDA compared to placebo. All models controlled for site as the original randomization stratification factor.|Mean Difference (Final Values)|-0.8||||0.25|TWO_SIDED|95.0|-2.2|0.6||For each outcome, the adjusted mean difference between treatment groups and the associated 95% confidence interval based on an ANCOVA model is presented.|ANCOVA||Mean difference is Aspirin-Placebo.|Assuming a non-inferiority margin of 4 points in the BSID-III cognitive score as clinically significant, and a true effect of LDA of not more than a 1 point decrease, a total sample size of 620 was determined to provide 80% power for a one-sided test for non-inferiority with a type I error of 5%. To test this secondary hypothesis, the sample size also provided over 90% power, at a two-sided type I error of 5%, to detect a difference of 4 points between LDA and placebo based on a two-sided test.||0.6|-2.2|0.25
82640708|NCT03478982|164996031|SUPERIORITY||Difference in percentage|23.3|||=|0.0392|TWO_SIDED|95.0|1.8|44.8|||Chi-squared|||||44.8|1.8|=0.0392
82640709|NCT03478982|164996031|SUPERIORITY||Difference in percentage|23.3|||=|0.0392|TWO_SIDED|95.0|1.8|44.8|||Chi-squared|||||44.8|1.8|=0.0392
82640710|NCT01005810|164996035|SUPERIORITY||Odds Ratio (OR)|2.35||||0.029|TWO_SIDED|95.0|1.05|5.24|||Regression, Logistic|||||5.24|1.05|0.029
82640711|NCT04359758|164996036|SUPERIORITY|||||||0.14|||||||Chi-squared|||The study was powered assuming 10% genetic testing uptake UC compared to 35% in ST. assuming these uptake rates and a two-tailed alpha of 0.05, a sample size of n=50 per arm would yield greater than 80% power.||||0.14
82388525|NCT00504725|164488093|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||4 Hour Pain Level Score|Fisher Exact|||||||0.20
82388526|NCT00504725|164488093|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||24 Hour Pain Level Score|Fisher Exact|||||||0.37
82388527|NCT00504725|164488093|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||Pain Level Score at Discharge|Fisher Exact|||||||0.15
82388528|NCT01435018|164488100|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in ET+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically relevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-30.3|||||TWO_SIDED|95.0|-52.3|-8.3|||||Confidence interval (CI) estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights. CI stratified by country was not performed due to small number of observations.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 PFS rate with 95% two-sided confidence interval.||-8.3|-52.3|
82640712|NCT04359758|164996036|SUPERIORITY||Odds Ratio (OR)|2.57||||0.039|TWO_SIDED|95.0|1.05|6.29|||Regression, Logistic|||Because education and marital status have been associated with genetic testing participation in prior research, we conducted a follow-up analysis in which we adjusted for education and marital status.||6.29|1.05|0.039
82640713|NCT04359758|164996037|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|101 degrees of freedom.||||||0.13
82425876|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.219
82640714|NCT04359758|164996038|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|df=102||||||0.78
82640715|NCT04359758|164996039|SUPERIORITY|||||||0.97|||||||ANCOVA|df = 1, 101||Analysis of PROMIS anxiety||||0.97
82640716|NCT04359758|164996039|SUPERIORITY|||||||0.34|||||||ANCOVA|df = 1, 101||Analysis of PROMIS Depression||||0.34
82640717|NCT04753606|164996040|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
82640718|NCT04753606|164996040|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
82640719|NCT04753606|164996041|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
82640720|NCT04753606|164996041|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
82525021|NCT04425902|164746682|OTHER||Ratio of geometric least square mean|1.02|||||TWO_SIDED|90.0|0.88|1.18|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.18|0.88|
82525022|NCT04425902|164746683|OTHER||Ratio of geometric least square mean|1.03|||||TWO_SIDED|90.0|0.89|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.89|
82525023|NCT04425902|164746684|OTHER||Ratio of geometric least square mean|1.05|||||TWO_SIDED|90.0|0.93|1.18|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.18|0.93|
82388529|NCT01435018|164488101|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in BV+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically irrelevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-19.8|||||TWO_SIDED|95.0|-32.3|-7.4|||||Confidence interval estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 PFS rate with 95% two-sided confidence interval.||-7.4|-32.3|
82388530|NCT01435018|164488101|NON_INFERIORITY|"Non-inferiority is defined as demonstrating that the 48-week PFS rate in BV+ART is within 15 percent of PTX+ART. The selection of the 15 percent non-inferiority margin was a combination of clinical judgment and statistical reasoning. A poll of the sites was conducted to derive the maximum treatment difference that is considered clinically irrelevant (i.e. largest acceptable difference in order to gain the advantages (e.g. cost) of the experimental chemotherapy)."|Cumulative rate difference|-20.1|||||TWO_SIDED|95.0|-32.2|-7.9|||||Confidence interval estimation was stratified by country using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative PFS rate with 95% two-sided confidence interval.||-7.9|-32.2|
82388531|NCT01435018|164488102|OTHER||Cumulative rate difference|14.7|||||TWO_SIDED|95.0|-1.9|31.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of death with 95% two-sided confidence interval.||31.4|-1.9|
82525024|NCT04425902|164746687|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.72|1.75|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.75|0.72|
82525025|NCT04425902|164746688|OTHER||Ratio of geometric least square mean|0.97|||||TWO_SIDED|90.0|0.54|1.73|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.73|0.54|
82525026|NCT04425902|164746689|OTHER||Ratio of geometric least square mean|1.14|||||TWO_SIDED|90.0|0.73|1.78|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.78|0.73|
82525027|NCT04425902|164746692|OTHER||Ratio of geometric least square mean|0.94|||||TWO_SIDED|90.0|0.8|1.11|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.11|0.80|
82525028|NCT04425902|164746693|OTHER||Ratio of geometric least square mean|0.93|||||TWO_SIDED|90.0|0.79|1.1|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.10|0.79|
82573396|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
82525029|NCT04425902|164746694|OTHER||Ratio of geometric least square mean|0.9|||||TWO_SIDED|90.0|0.73|1.12|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.12|0.73|
82525030|NCT04425902|164746697|OTHER||Ratio of geometric least square mean|1.07|||||TWO_SIDED|90.0|0.94|1.22|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.22|0.94|
82573397|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
82573398|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - Dysport 50 U versus Placebo at Day 85||||<0.0001
82573399|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
82573400|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||0.0011
82573401|NCT02353871|164857106|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0036||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of SSA - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||0.0036
82525031|NCT04425902|164746698|OTHER||Ratio of geometric least square mean|1.05|||||TWO_SIDED|90.0|0.92|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.92|
82525032|NCT04425902|164746699|OTHER||Ratio of geometric least square mean|1.25|||||TWO_SIDED|90.0|0.96|1.63|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.63|0.96|
82525033|NCT04425902|164746702|OTHER||Ratio of geometric least square mean|0.73|||||TWO_SIDED|90.0|0.52|1.03|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.03|0.52|
82525034|NCT04425902|164746703|OTHER||Ratio of geometric least square mean|0.61|||||TWO_SIDED|90.0|0.45|0.82|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||0.82|0.45|
82525035|NCT04425902|164746704|OTHER||Ratio of geometric least square mean|0.78|||||TWO_SIDED|90.0|0.54|1.14|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.14|0.54|
82525036|NCT04425902|164746810|OTHER||Ratio of geometric least square mean|0.92|||||TWO_SIDED|90.0|0.49|1.71|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.71|0.49|
82525037|NCT04425902|164746811|OTHER||Ratio of geometric least square mean|0.93|||||TWO_SIDED|90.0|0.74|1.16|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.16|0.74|
82525038|NCT04425902|164746812|OTHER||Ratio of geometric least square mean|0.86|||||TWO_SIDED|90.0|0.43|1.72|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.72|0.43|
82525039|NCT04425902|164746815|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.75|1.29|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.29|0.75|
82525040|NCT04425902|164746816|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.75|1.29|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.29|0.75|
82525041|NCT04425902|164746817|OTHER||Ratio of geometric least square mean|0.94|||||TWO_SIDED|90.0|0.73|1.22|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.22|0.73|
82525042|NCT04425902|164746820|OTHER||Ratio of geometric least square mean|1.1|||||TWO_SIDED|90.0|0.93|1.3|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.30|0.93|
82525043|NCT04425902|164746821|OTHER||Ratio of geometric least square mean|0.99|||||TWO_SIDED|90.0|0.83|1.19|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.19|0.83|
82525044|NCT04425902|164746822|OTHER||Ratio of geometric least square mean|1.12|||||TWO_SIDED|90.0|0.88|1.44|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.44|0.88|
82525045|NCT04425902|164746825|OTHER||Ratio of geometric least square mean|0.9|||||TWO_SIDED|90.0|0.75|1.09|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.09|0.75|
82640721|NCT04753606|164996042|SUPERIORITY||Least Squares (LS) Means|-32.96|STANDARD_ERROR_OF_MEAN|4.943|<|0.0001|TWO_SIDED|95.0|-44.03|-21.9|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.90|-44.03|<.0001
82425877|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.095||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.095
82525046|NCT04425902|164746826|OTHER||Ratio of geometric least square mean|0.91|||||TWO_SIDED|90.0|0.76|1.09|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.09|0.76|
82525047|NCT04425902|164746827|OTHER||Ratio of geometric least square mean|0.85|||||TWO_SIDED|90.0|0.65|1.1|||||A mixed-effect model with treatment as a fixed effect and measurements within participant as repeated measures was performed on the natural ln-transformed parameter.|||1.10|0.65|
82525048|NCT01544998|164746854|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||0.26
82525049|NCT01544998|164746855|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||0.90
82525050|NCT01544998|164746856|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||0.003
82525051|NCT01544998|164746857|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||0.14
82525052|NCT01544998|164746858|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This was a within PSD reporting group comparison; between PSD and PDD groups were not compared.||||<0.001
82525053|NCT01544998|164746859|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This was a within PDD reporting group comparison; between PSD and PDD groups were not compared.||||<0.001
82525054|NCT02487498|164746865|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit (LL) of the 97.5% one -sided confidence interval (CI) \> -20 mL|Mean Difference (Net)|-0.0182|STANDARD_ERROR_OF_MEAN|0.00813||0.415|TWO_SIDED|95.0|-0.0342|-0.0023|||Linear Mixed Model|||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||-0.0023|-0.0342|0.415
82388532|NCT01435018|164488103|OTHER||Cumulative rate difference|8.4|||||TWO_SIDED|95.0|-0.4|17.2|||||Confidence interval estimation was stratified by screening CD4 count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of death with 95% two-sided confidence interval.||17.2|-0.4|
82388533|NCT01435018|164488105|OTHER||Cumulative rate difference|16.3|||||TWO_SIDED|95.0|3.7|28.8||||||Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of IERC-confirmed KS progression with 95% two-sided confidence interval.|Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|28.8|3.7|
82425878|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.463
82425879|NCT00402987|164560368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0||||Analysis for Much Improvement|Regression, Logistic|Treatment as a factor||||||0.038
82525055|NCT02487498|164746866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0182|STANDARD_ERROR_OF_MEAN|0.00813|||TWO_SIDED|95.0|-0.0342|-0.0023||||||||-0.0023|-0.0342|
82525056|NCT02487498|164746867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0091|STANDARD_ERROR_OF_MEAN|0.01132|||TWO_SIDED|95.0|-0.0313|0.0131||||||||0.0131|-0.0313|
82525057|NCT02487498|164746868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0086|STANDARD_ERROR_OF_MEAN|0.00874|||TWO_SIDED|95.0|-0.0086|0.0258||||||||0.0258|-0.0086|
82525058|NCT00676130|164746876|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.7|||<|0.05||95.0|-9.3|15.0|||Chi-squared|||The study was powered to detect a difference in cure rate of 98% in the intervention group vs. 85% in the control group, with 2-sided alpha 0.05. This would yield a number needed to treat of 7.7 for intervention vs. control, and required 144 subjects to achieve 80% power. No data were analyzed until study completion.||15|-9.3|<0.05
82525059|NCT00676130|164746877|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||<|0.05|TWO_SIDED|95.0|-6.5|6.3|||Chi-squared|||We assessed the rate of progression to abscess in the two groups.||6.3|-6.5|<0.05
82525060|NCT00331344|164746885|OTHER||Dose Level VIa|1.0|||||TWO_SIDED||||||||Dose level VIa (mitoxantrone hydrochloride 12 mg/m2 IV over 30 minutes, ixabepilone 30mg/m2 IV over 3 hours on day 1, pegfilgrastim 6mg SC on day 2, oral prednisone twice daily on days 1-21) was determined to be MTD, based on 1 event of DLT at VIa.|Cohorts of 3 patients will be enrolled at each dose level; if 1 dose limiting toxicity (DLT) is observed then the cohort will be expanded to 6 patients. If a second DLT is observed, the previous dose level will be considered the MTD. If all observed DLT are due to neuropathy (specific to ixabepilone), then we would consider the previous dose level of Ixabepilone the MTD for that drug, and escalate mitoxantrone hydrochloride as described above to a maximum dose of 12 mg/m\^2.||||
82525061|NCT01373931|164746890|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.976|||||TWO_SIDED|90.0|0.907|1.05|||Mixed Models Analysis|Ratio of Geometric LS mean is for ethinyl estradiol.||||1.05|0.907|
82388534|NCT01435018|164488106|OTHER||Cumulative rate difference|-15.0|||||TWO_SIDED|95.0|-34.4|4.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of AIDS-defining events with 95% two-sided confidence interval.||4.3|-34.4|
82388535|NCT01435018|164488107|OTHER||Cumulative rate difference|-3.3|||||TWO_SIDED|95.0|-13.3|6.6|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of AIDS-defining events with 95% two-sided confidence interval.||6.6|-13.3|
82388536|NCT01435018|164488108|OTHER||Cumulative rate difference|4.3|||||TWO_SIDED|95.0|-1.9|10.6|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of HIV-1 RNA virologic failure with 95% two-sided confidence interval.||10.6|-1.9|
82388537|NCT01435018|164488109|OTHER||Cumulative rate difference|5.5|||||TWO_SIDED|95.0|-0.1|11.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of HIV-1 RNA virologic failure with 95% two-sided confidence interval.||11.0|-0.1|
82388538|NCT01435018|164488112|OTHER||Cumulative rate difference|19.4|||||TWO_SIDED|95.0|-4.1|43.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, or AIDS defining event.||43.0|-4.1|
82388539|NCT01435018|164488113|OTHER||Cumulative rate difference|14.4|||||TWO_SIDED|95.0|1.8|27.0|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, or AIDS defining event.||27.0|1.8|
82388540|NCT01435018|164488114|OTHER||Cumulative rate difference|24.2|||||TWO_SIDED|95.0|0.9|47.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, or virologic failure.||47.4|0.9|
82525062|NCT01373931|164746890|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.914|||||TWO_SIDED|90.0|0.842|0.991|||Mixed Models Analysis|Ratio of Geometric LS mean is for norelgestromin.||||0.991|0.842|
82388541|NCT01435018|164488115|OTHER||Cumulative rate difference|18.8|||||TWO_SIDED|95.0|6.3|31.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, or virologic failure.||31.3|6.3|
82388542|NCT01435018|164488116|OTHER||Cumulative rate difference|24.2|||||TWO_SIDED|95.0|0.9|47.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, virologic failure, or KS-IRIS.||47.4|0.9|
82388543|NCT01435018|164488117|OTHER||Cumulative rate difference|17.7|||||TWO_SIDED|95.0|6.2|29.3|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of KS progression, death, AIDS defining event, virologic failure, or KS-IRIS.||29.3|6.2|
82525063|NCT01373931|164746891|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.25|||||TWO_SIDED|90.0|-0.73|0.51|||Wilcoxon Signed Rank Test|Median difference is for ethinyl estradiol.||||0.51|-0.73|
82525064|NCT01373931|164746891|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon Signed Rank Test|Median difference is for norelgestromin.||||0.50|-0.50|
82525065|NCT01373931|164746892|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.07||||||90.0|1.0|1.15|||Mixed Models Analysis|Ratio of Geometric LS mean is for ethinyl estradiol.||||1.15|1.00|
82525066|NCT01373931|164746892|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.0||||||90.0|0.944|1.07|||Mixed Models Analysis|Ratio of Geometric LS mean is for norelgestromin.||||1.07|0.944|
82525067|NCT01342458|164746909|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Mixed Models Analysis|||Sample size was calculated based on pain WOMAC score and was accomplished using a moderate effect size (f=0.30). Standard deviation estimates were taken from our previous study. A sample size of 56 patients was needed to provide 80% power for detecting a moderate effect difference between the highest and lowest group pain means, with an alpha level of 0.05, a statistical design of F test of repeated measures (between and within effects), and assuming a 10% loss to follow-up.||||0.006
82525068|NCT01342458|164746909|SUPERIORITY_OR_OTHER||Effect Size|1.46|||<|0.001|TWO_SIDED||||||post hoc newman keuls|||From baseline to 3rd month.||||<0.001
82525069|NCT01342458|164746909|SUPERIORITY_OR_OTHER||Effect size|1.94|||<|0.001|TWO_SIDED||||||post hoc Newman Keuls|||From baseline to 6th month.||||<0.001
82525070|NCT01342458|164746909|SUPERIORITY_OR_OTHER||Effect size|0.82||||0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||0.001
82525071|NCT01342458|164746909|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525072|NCT01342458|164746910|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.015
82525073|NCT01342458|164746910|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525074|NCT01342458|164746910|SUPERIORITY_OR_OTHER||Effect size|0.7|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525075|NCT01342458|164746910|SUPERIORITY_OR_OTHER||Effect size|0.25|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525076|NCT01342458|164746910|SUPERIORITY_OR_OTHER||Effect size|0.16|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525077|NCT01342458|164746911|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||<0.001
82525078|NCT01342458|164746911|SUPERIORITY_OR_OTHER||Effect size|1.28|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525079|NCT01342458|164746911|SUPERIORITY_OR_OTHER||Effect size|1.58|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525080|NCT01342458|164746911|SUPERIORITY_OR_OTHER||Effect size|0.68|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82573402|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 8||||<0.0001
82573403|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 15||||<0.0001
82525081|NCT01342458|164746911|SUPERIORITY_OR_OTHER||Effect size|0.42|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525082|NCT01342458|164746912|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||<0.001
82525083|NCT01342458|164746912|SUPERIORITY_OR_OTHER||Effect size|1.45|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525084|NCT01342458|164746912|SUPERIORITY_OR_OTHER||Effect size|1.69||||0.019|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||0.019
82525085|NCT01342458|164746912|SUPERIORITY_OR_OTHER||Effect size|0.66|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525086|NCT01342458|164746912|SUPERIORITY_OR_OTHER||Effect size|0.44|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525087|NCT01342458|164746913|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.019
82525088|NCT01342458|164746913|SUPERIORITY_OR_OTHER||Effect size|1.07|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525089|NCT01342458|164746913|SUPERIORITY_OR_OTHER||Effect size|1.31|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525090|NCT01342458|164746913|SUPERIORITY_OR_OTHER||Effect size|0.71|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 3rd month.||||<0.001
82525091|NCT01342458|164746913|SUPERIORITY_OR_OTHER||Effect size|0.45|||<|0.001|TWO_SIDED||||||post hoc Newman-Keuls|||From baseline to 6th month.||||<0.001
82525092|NCT01342458|164746914|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.425
82525093|NCT01342458|164746915|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||Mixed Models Analysis|||We used a casewise two-way ANOVA for repeated measures (two independent groups and three repeated measures/assessments), followed by a post hoc Newman-Keuls test to verify the interaction effect of group vs. time between T0 (baseline), T3 (3th month) and T6 (6th month).||||0.443
82525094|NCT01342458|164746916|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Difference in paracetamol intake at 6-month.||||<0.001
82525095|NCT01264380|164746924|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|4.64|||||TWO_SIDED|90.0|2.83|7.6||||||The point estimate and 90 percent (%) confidence interval (CI) of vemurafenib plasma AUC geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||7.60|2.83|
82525096|NCT01264380|164746925|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|5.05|||||TWO_SIDED|90.0|2.99|8.55||||||The point estimate and 90% CI of vemurafenib plasma AUC geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||8.55|2.99|
82525097|NCT01264380|164746926|SUPERIORITY_OR_OTHER||Ratio of Geometric Mean|2.45|||||TWO_SIDED|90.0|1.81|3.32||||||The point estimate and 90% CI of vemurafenib plasma Cmax geometric means ratios of the Fed to Fasted conditions following an oral administration of a single dose of 960 mg vemurafenib were analyzed.||3.32|1.81|
82525098|NCT01147822|164746933|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0184|||||TWO_SIDED|95.0|0.7658|1.3542|||||The HR was estimated by the Cox regression model using treatment stratification factors as covariates. The HR was adjusted for Karnofsky Performance Scale scores, prior nephrectomy, and Baseline levels of lactate dehydrogenase.|||1.3542|0.7658|
82573404|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 29||||<0.0001
82640722|NCT04753606|164996042|SUPERIORITY||Least Squares (LS) Means|-39.18|STANDARD_ERROR_OF_MEAN|4.927|<|0.0001|TWO_SIDED|95.0|-50.21|-28.15|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.15|-50.21|<.0001
82425880|NCT00402987|164560369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||0.001
82425881|NCT00402987|164560369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0|||||Regression, Logistic|Treatment as a factor||||||0.008
82425882|NCT00402987|164560369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.557||95.0|||||Regression, Logistic|Treatment as a factor||||||0.557
82425883|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||<0.001
82425884|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.002
82425885|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.036
82425886|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.339
82425887|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||1.000
82425888|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.401||95.0||||Analysis at 12 hours|Regression, Logistic|Treatment as a factor||||||0.401
82425889|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.003
82425890|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.002
82425891|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.223
82425892|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.198
82425893|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.604||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.604
82525099|NCT01147822|164746934|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.604|TWO_SIDED|95.0|0.808|1.441|||Log Rank||Hazard ratios were estimated using the Pike estimator. A hazard ratio \<1 indicates a lower risk with this treatment compared with Sunitinib.|||1.441|0.808|0.604
82573405|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 57||||<0.0001
82573406|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 85||||<0.0001
82573407|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 113||||<0.0001
82573408|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 148||||<0.0001
82573409|NCT02353871|164857107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical tests were two-sided with a type I error rate at 5%.|Regression, Logistic|Multivariate model, controlling for centre and stratification factors (i.e. gender and baseline ILA (maximum frown)) as fixed effects.||Comparison of subject's level of satisfaction - BTX-A-HAC NG solution (50 U) versus Placebo at Day 183||||<0.0001
82573410|NCT02353871|164857108|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Comparison of time to onset of treatment response - BTX-A-HAC NG solution (50 U) versus Placebo||||<0.0001
82388544|NCT01435018|164488118|OTHER||Cumulative rate difference|37.5|||||TWO_SIDED|95.0|13.6|61.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of change in KS treatment.||61.4|13.6|
82573411|NCT02353871|164857108|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|6.561|||<|0.0001|TWO_SIDED||||||Cox proportional hazard model|Centre, gender and ILA baseline severity score used as covariates.||Comparison of time to onset of treatment response - BTX-A-HAC NG solution (50 U) versus placebo||||<0.0001
82640723|NCT04753606|164996043|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
82640724|NCT04753606|164996043|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
82640725|NCT04753606|164996044|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
82640726|NCT04753606|164996044|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
82640727|NCT04753606|164996045|SUPERIORITY||Least Squares (LS) Means|-28.94|STANDARD_ERROR_OF_MEAN|4.643|<|0.0001|TWO_SIDED|95.0|-38.14|-19.74|||ANCOVA|||||-19.74|-38.14|<.0001
82640728|NCT04753606|164996045|SUPERIORITY||Least Squares (LS) Means|-40.07|STANDARD_ERROR_OF_MEAN|4.591|<|0.0001|TWO_SIDED|95.0|-49.16|-30.97|||ANCOVA|||||-30.97|-49.16|<.0001
82640729|NCT04753606|164996046|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
82388545|NCT01435018|164488119|OTHER||Cumulative rate difference|11.1|||||TWO_SIDED|95.0|-0.4|22.7|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the week 48 cumulative rate of change in KS treatment.||22.7|-0.4|
82388546|NCT01435018|164488120|OTHER||Cumulative rate difference|14.7|||||TWO_SIDED|95.0|-1.9|31.4|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (ET+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the cumulative rate of death with 95% two-sided confidence interval.||31.4|-1.9|
82443786|NCT00159913|164596163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.0||0.041||95.0|-8.0|-0.2|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||-0.2|-8.0|0.041
82640730|NCT04753606|164996046|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
82640731|NCT04753606|164996047|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
82640732|NCT04753606|164996047|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
82640733|NCT04753606|164996048|SUPERIORITY||Least Squares (LS) Means|-18.26|STANDARD_ERROR_OF_MEAN|3.657|<|0.0001|TWO_SIDED|95.0|-25.51|-11.02|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-11.02|-25.51|<.0001
82640734|NCT04753606|164996048|SUPERIORITY||Least Squares (LS) Means|-23.99|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-31.22|-16.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-16.76|-31.22|<.0001
82640735|NCT04753606|164996049|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
82640736|NCT04753606|164996049|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
82640737|NCT04753606|164996050|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
82388547|NCT01435018|164488121|OTHER||Cumulative rate difference|8.4|||||TWO_SIDED|95.0|-0.4|17.2|||||Confidence interval estimation was stratified by screening CD4 lymphocyte count using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (BV+ART - PTX+ART) in the stratified Kaplan-Meier estimate for the cumulative rate of death with 95% two-sided confidence interval.||17.2|-0.4|
82388548|NCT01435018|164488122|OTHER||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|1.1|3.4|||||Hazard ratio for ET+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||3.4|1.1|
82388549|NCT01435018|164488123|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|1.1|2.2|||||Hazard ratio for BV+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||2.2|1.1|
82573412|NCT02554383|164857118|SUPERIORITY|||||||0.02||||||The interactions (1) between treatment \& pathogens and (2) between treatment \& colored nasal discharge are tested simultaneously.|Mixed Models Analysis|The p value is adjusted for PRSS score at enrollment, diary day, study site, treatment, pathogens, colored nasal discharge \& interaction (2).||Null hypothesis: The effect of treatment with antibiotics does not differ in the subgroups of children defined, respectively, by the presence and by the absence of pathogens in the nasopharynx at enrollment, i.e., there is no significant interaction between treatment and pathogens in the nasopharynx.||||0.02
82573413|NCT02554383|164857118|SUPERIORITY||Difference of least-squares means|-1.95|||||TWO_SIDED|95.0|-2.4|-1.51|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the presence of one or more pathogens in the nasopharynx at enrollment.||-1.51|-2.40|
82573414|NCT02554383|164857118|SUPERIORITY||Difference of least-squares means|-0.88|||||TWO_SIDED|95.0|-1.63|-0.12|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the absence of one or more pathogens in the nasopharynx at enrollment.||-0.12|-1.63|
82573415|NCT02554383|164857119|SUPERIORITY|||||||0.37||||||The interactions (1) between treatment \& pathogens and (2) between treatment \& colored nasal discharge are tested simultaneously.|Mixed Models Analysis|The p value is adjusted for PRSS score at enrollment, diary day, study site, treatment, pathogens, colored nasal discharge \& interaction (1).||Null hypothesis: The effect of treatment with antibiotics does not differ in the subgroups of children defined, respectively, by the presence and by the absence of colored nasal discharge at enrollment, i.e., there is no significant interaction between treatment and colored nasal discharge.||||0.37
82573416|NCT02554383|164857119|SUPERIORITY||Difference of least-squares means|-1.62|||||TWO_SIDED|95.0|-2.09|-1.16|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the presence of colored nasal discharge at enrollment.||-1.16|-2.09|
82573417|NCT02554383|164857119|SUPERIORITY||Difference of least-squares means|-1.7|||||TWO_SIDED|95.0|-2.38|-1.03|||||The Amoxicillin-clavulanate group represents the first number in the subtraction and the Placebo group represents the second. The estimates are adjusted for PRSS score at enrollment, diary day and study site.|Null hypothesis: There is no difference between the treatment groups in the subgroup of children defined by the absence of colored nasal discharge at enrollment.||-1.03|-2.38|
82573418|NCT02554383|164857120|SUPERIORITY|||||||0.003|||||||Log-binomial regression|The p-value is adjusted for study site and and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children experiencing treatment failure.||||0.003
82573419|NCT02554383|164857121|SUPERIORITY|||||||0.007|||||||Fisher Exact|||Null hypothesis: There is no difference between the treatment groups in the proportion of children developing AOM over the first 10 days of follow-up.||||.007
82573420|NCT02554383|164857122|SUPERIORITY||||||<|0.001|||||||Log-binomial regression|The p-value is adjusted for study site and and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children receiving a systemic antibiotic over the first 10 days of follow-up.||||<0.001
82388550|NCT01435018|164488124|OTHER||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.1|0.7|||||Odds ratio for ET+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count.|||0.7|0.1|
82388551|NCT01435018|164488125|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Odds ratio for BV+ART relative to PTX+ART adjusted for screening CD4 lymphocyte count and country.|||1.3|0.5|
82388552|NCT00653133|164488154|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Null hypothesis: There is no difference in reported complications associated with the placement of continuous peripheral nerve block catheters between ultrasound imaging guided placement and nerve stimulator guided placement.||||<0.05
82388553|NCT05225298|164488155|OTHER|||||||0.9||||||A p-value of \< 0.05 would be considered statistically significant|log binomial model|||||||0.90
82573421|NCT02554383|164857123|SUPERIORITY|||||||0.004|||||||Log-binomial regression|The p-value is adjusted for study site and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children for whom diarrhea or generalized rash was reported.||||0.004
82573422|NCT02554383|164857124|SUPERIORITY|||||||0.75|||||||Log-binomial regression|The p-value is adjusted for presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children compliant with study product.||||0.75
82573423|NCT02554383|164857125|SUPERIORITY|||||||0.63|||||||Log-binomial regression|The p-value is adjusted for study site and presence of colored nasal discharge.||Null hypothesis: There is no difference between the treatment groups in the proportion of children with a nonsusceptible pathogen at the follow-up visit.||||0.63
82573424|NCT01536197|164857130|SUPERIORITY_OR_OTHER|||||||0.19|||||||ANOVA|Two-way ANOVAs with group (gastric bypass and lap banding) as the between-subjects factor and time (before after surgery).||||||0.19
82573425|NCT00715117|164857132|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
82573426|NCT00715117|164857132|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82573427|NCT00715117|164857133|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Bowel symptoms||||>0.05
82573428|NCT00715117|164857133|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||Social well-being||||0.035
82573429|NCT00715117|164857133|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Emotional well-being||||>0.05
82388554|NCT05225298|164488156|OTHER|||||||0.94||||||A p-value of \< 0.05 would be considered statistically significant|log binomial model|||||||0.94
82573430|NCT00715117|164857133|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED|95.0||||Systemic symptoms|t-test, 2 sided|||||||0.035
82573431|NCT00715117|164857133|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Body Image||||>0.05
82573432|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Sleep disturbance||||1.0
82573433|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||0.45|||||||Fisher Exact|||Unusual dreams||||0.45
82573434|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Twitching||||1.0
82573435|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Headaches||||1.0
82535303|NCT00783718|164768644|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.5||||0.0009|TWO_SIDED|95.0|4.7|18.3||P-value is based on the CMH chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); and 2) previous exposure to TNFα antagonists or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially (closed sequential method). The first secondary endpoint was to be tested only if the primary comparison was significant and the second key secondary endpoint was to be tested only if the first secondary endpoint was significant for vedolizumab.||18.3|4.7|0.0009
82573436|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Decreased appetite||||1.0
82573437|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Nausea||||1.0
82573438|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Hair loss||||1.0
82573439|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Fatigue||||1.0
82573440|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Flushed ears||||1.0
82388555|NCT05225298|164488157|OTHER|||||||0.053|||||||log binomial model|||||||0.053
82425894|NCT00402987|164560370|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||95.0||||Analysis at 24 hours|Regression, Logistic|Treatment as a factor||||||0.117
82573441|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Papules, rash||||1.0
82573442|NCT00715117|164857134|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Double vision||||1.0
82573443|NCT01999777|164857140|SUPERIORITY|||||||0.1972|||||||Wald asymptotic|P-value based on a standard Wald asymptotic test for equality without a continuity correction.||Assumptions included that the proportion of seizures occurring within 6 hours after placebo administration was \~65% and a relative reduction of 50% would result in a reduction of ≥ 32.5 percentage points. Based on a 2-sided 95% confidence interval (CI) for the differences in proportions, a sample size of 62 analyzable subjects was chosen to detect a 0.35 difference between group. Sample size estimations were based on nQuery Version 7.0 using the table for CIs for differences in 2 proportions.||||0.1972
82573444|NCT01999777|164857141|SUPERIORITY|||||||0.1388|||||||Log Rank|||||||0.1388
82573445|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|9.0||||0.049367|TWO_SIDED|||||Alternative hypothesis: can be changed of speech, language, communication skills for Cord Blood versus Placebo groups in 2-month Threshold \<0.05|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.049367
82573446|NCT03786744|164857158|SUPERIORITY||Median Difference (Net)|9.0||||0.004072|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 2-month of Health/Physical Development/Behaviour for Cord Blood versus Control groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0 and MS Office Excel 2007. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile.||||0.004072
82573447|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|9.0||||0.017258|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 12-month of Health/Physical Development/Behaviour for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0 and MS Office Excel 2007. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile.||||0.017258
82640738|NCT04753606|164996050|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
82573448|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|10.0||||0.03121|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 1-month of total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.031210
82573449|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|24.0||||0.00194|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 2-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.001940
82640739|NCT04753606|164996051|SUPERIORITY||Least Squares (LS) Means|-30.54|STANDARD_ERROR_OF_MEAN|4.503|<|0.0001|TWO_SIDED|95.0|-39.46|-21.62|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-21.62|-39.46|<.0001
82573450|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|15.0||||0.03121|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 6-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.031210
82573451|NCT03786744|164857158|SUPERIORITY||Mean Difference (Net)|16.0||||0.01133|TWO_SIDED|||||"Alternative hypothesis: can be changed average of 12-month of Total score for Cord Blood versus Placebo groups.~Threshold \<0.05"|Wilcoxon (Mann-Whitney)|||The study results were statistically processed using parametric and non-parametric methods using STATA version 9.0, Statistica for Windows version 6.0. Changes from the beginning of therapy and after 1, 2, 6, 12 months were compared using the Wilcoxon criterion, data between the main group and the control group were compared using non-parametric method, Mann-Whitney test was used (data are presented in Me - median format with an indication of 25% and 75% quartile||||0.011330
82573452|NCT01527162|164857162|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82573453|NCT01527162|164857163|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||= 0.14
82573454|NCT01527162|164857164|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon Sign Rank TEst||||>.54
82573455|NCT01527162|164857164|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||= 0.20
82577042|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.204||0.4444|TWO_SIDED|95.0|-0.56|0.25|||MMRM|||Feelings of Guilt, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.56|0.4444
82577043|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.3645|TWO_SIDED|95.0|-0.64|0.24|||MMRM|||Feelings of Guilt, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.64|0.3645
82577044|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.214||0.4035|TWO_SIDED|95.0|-0.6|0.24|||MMRM|||Feelings of Guilt, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.60|0.4035
82577045|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.232||0.4877|TWO_SIDED|95.0|-0.62|0.3|||MMRM|||Feelings of Guilt, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.62|0.4877
82577046|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.226||0.3134|TWO_SIDED|95.0|-0.68|0.22|||MMRM|||Feelings of Guilt, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.68|0.3134
82640740|NCT04753606|164996051|SUPERIORITY||Least Squares (LS) Means|-36.03|STANDARD_ERROR_OF_MEAN|4.488|<|0.0001|TWO_SIDED|95.0|-44.92|-27.14|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.14|-44.92|<.0001
82640741|NCT04753606|164996052|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
82640742|NCT04753606|164996052|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
82525100|NCT00261495|164746947|NON_INFERIORITY_OR_EQUIVALENCE|Tested using 95% confidence interval approach. The non-inferiority margin was 1.|Mean Difference (Net)|0.29||||0.011||95.0|-0.27|0.84||Statistical significance level was 0.05. Two-sided 95% CI of the treatment difference based on LS means \& error terms obtained from ANCOVA (covariate: baseline; factors: country, previous pain treatment, underlying disease, and treatment).|ANCOVA|If the right side of CI\<1 then the null hypothesis was rejected in favour of the alternative, and non-inferiority of OROS hydromorphone was concluded.|LS mean difference has been presented, which was calculated as hydromorphone minus oxycodone.|"Null hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was less than or equal to 1.~Alternative hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was greater than 1.~Sample size needed to detect a clinically significant difference of 1 was 151 per treatment arm (standard deviation = 2.4, significance level 0.025 one-sided, based on 90% power)."||0.84|-0.27|0.011
82525101|NCT00261495|164746948|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.706||95.0|-0.32|0.47||A two-sided significance level of 0.05 was used. A closed hierarchical testing procedure was used to control the overall Type I error. Procedure was stopped here, subsequent tests were exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.47|-0.32|0.706
82525102|NCT00261495|164746949|NON_INFERIORITY_OR_EQUIVALENCE|Tested using 95% confidence interval approach. The non-inferiority margin was 1.|Mean Difference (Net)|-0.12|||<|0.001||95.0|-0.53|0.29||Statistical significance level was 0.05. Two-sided 95% CI of the treatment difference based on LS means \& error terms obtained from ANCOVA (covariate: baseline; factors: country, previous pain treatment, underlying disease, and treatment).|ANCOVA|If the right side of CI\<1 then the null hypothesis was rejected in favour of the alternative, and non-inferiority of OROS hydromorphone was concluded.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was less than or equal to 1.~Alternative hypothesis: Difference in change from baseline with OROS hydromorphone compared with SR oxycodone was greater than 1.~Sample size needed to detect a clinically significant difference of 1 was 151 per treatment arm (standard deviation = 2.4, significance level 0.025 one-sided, based on 90% power)."||0.29|-0.53|<0.001
82525103|NCT00261495|164746950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.87||||0.065||95.0|-5.94|0.19||A two-sided significance level of 0.05 was used. A closed hierarchical testing procedure was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.19|-5.94|0.065
82525104|NCT00261495|164746951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.348||95.0|-0.62|0.22||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference was calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.22|-0.62|0.348
82573456|NCT01245140|164857174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5731||||0.9705|TWO_SIDED|95.0|-30.9738|32.12|||ANCOVA|||||32.1200|-30.9738|0.9705
82573457|NCT01245140|164857175|SUPERIORITY_OR_OTHER|||||||0.4564||95.0||||PPPASI 50 response|Fisher Exact|||||||0.4564
82573458|NCT01245140|164857175|SUPERIORITY_OR_OTHER|||||||0.6595||95.0||||PPPASI 75 response|Fisher Exact|||||||0.6595
82573459|NCT01245140|164857177|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||Change in Total Pustule Count: BL to Last Visit|Wilcoxon test: Exact Test|||||||0.51
82573460|NCT01245140|164857178|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||Relative change in mPASI score: BL to Last Visit|Wilcoxon test: Exact Test|||||||0.12
82573461|NCT01245140|164857179|SUPERIORITY_OR_OTHER||Least squared estimation|49.4927||||0.2358|TWO_SIDED|95.0|-49.083|148.07|||ANCOVA|||||148.07|-49.0830|0.2358
82573462|NCT01245140|164857180|SUPERIORITY_OR_OTHER|||||||0.1667||95.0||||mPASI 50 response|Fisher Exact|||||||0.1667
82573463|NCT01245140|164857180|SUPERIORITY_OR_OTHER|||||||0.1667||95.0||||mPASI 75 response|Fisher Exact|||||||0.1667
82573464|NCT01375751|164857230|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.82|STANDARD_ERROR_OF_MEAN|3.92|<|0.001|TWO_SIDED|95.0|-51.56|-36.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference.|The null hypothesis was that there was no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo.||-36.09|-51.56|<0.001
82573465|NCT01375751|164857230|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.36|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-64.06|-48.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo.||-48.67|-64.06|<0.001
82573466|NCT01375751|164857231|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-79.6|-51.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-51.4|-79.6|<0.001
82573467|NCT01375751|164857231|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-84.7|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-98.8|-70.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-70.7|-98.8|<0.001
82640743|NCT04753606|164996053|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
82573468|NCT01375751|164857232|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.79|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-49.32|-34.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-34.26|-49.32|<0.001
82573469|NCT01375751|164857232|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.46|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-60.95|-45.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-45.97|-60.95|<0.001
82573470|NCT01375751|164857233|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.75|STANDARD_ERROR_OF_MEAN|3.55|<|0.001|TWO_SIDED|95.0|-41.77|-27.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-27.74|-41.77|<0.001
82573471|NCT01375751|164857233|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.2|STANDARD_ERROR_OF_MEAN|3.53|<|0.001|TWO_SIDED|95.0|-53.18|-39.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-39.23|-53.18|<0.001
82573472|NCT01375751|164857234|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.66|STANDARD_ERROR_OF_MEAN|3.72|<|0.001|TWO_SIDED|95.0|-44.01|-29.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placbo is the reference|||-29.32|-44.01|<0.001
82573473|NCT01375751|164857234|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.01|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-52.32|-37.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-37.70|-52.32|<0.001
82573474|NCT01375751|164857235|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.92|STANDARD_ERROR_OF_MEAN|3.45|<|0.001|TWO_SIDED|95.0|-40.72|-27.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-27.11|-40.72|<0.001
82573475|NCT01375751|164857235|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.64|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|-51.41|-37.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|ANCOVA model includes treatment group and LDL-C level and baseline ezetimibe use as covariates.|Placebo is the reference|||-37.86|-51.41|<0.001
82573476|NCT00559377|164857247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.42|TWO_SIDED||||||Regression, Cox|||This outcome is for comparing FMISO Hypoxic Volume to overall survival||||.42
82573477|NCT00559377|164857247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.87|TWO_SIDED||||||Regression, Cox|||This outcome is for comparing FMISO T:Bmax to overall survival||||.87
82573478|NCT00559377|164857248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.58|TWO_SIDED||||||Regression, Cox|||This outcome is for comparison of FMISO Hypoxic Volume to disease-free survival||||.58
82388556|NCT02223650|164488163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.01|TWO_SIDED|95.0|-1.42|-0.07||P-value is calculated for one-sided hypothesis test.|ANCOVA|Comparison of mean 8-wk distance control using ANCOVA adjusted for baseline distance control pre-study spectacle wear, and pre-study IXT treatment|Difference in mean distance control (overminus - observation) and 95% CI from ANCOVA model adjusting for baseline control, pre-study spectacle wear, and pre-study treatment for IXT. + difference suggests observation group worse than overminus group|||-0.07|-1.42|0.01
82388557|NCT02223650|164488164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.14|TWO_SIDED|95.0|-0.68|0.19||P-value is calculated for one-sided hypothesis test.|ANCOVA|Comparison of mean 8-wk near control using ANCOVA adjusted for baseline near control pre-study spectacle wear, and pre-study IXT treatment.|Comparison of mean 8-wk distance control using ANCOVA adjusted for baseline near control pre-study spectacle wear, and pre-study IXT treatment.|||0.19|-0.68|0.14
82388558|NCT02223650|164488167|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0||||0.07|TWO_SIDED|95.0|-6.0|45.0||The p-value was not adjusted for multiple comparisons.|Chi-squared|||||45|-6|0.07
82388559|NCT02223650|164488175|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.001||||0.54|TWO_SIDED|95.0|-23.0|24.0||The p-value was not adjusted for multiple comparisons.|Chi-squared|||||24|-23|0.54
82573479|NCT00559377|164857248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED||||||Regression, Cox|||This outcome is for comarison of FMISO T:Bmax to progression-free survival||||.98
82573480|NCT00559377|164857249|SUPERIORITY_OR_OTHER||Spearman Correlation|0.004|||<|0.05|TWO_SIDED||||||Spearman Correlation|||The correlation between IHC values and FMISO uptake were analyzed using Spearman correlation where p values less than 0.05 were considered significant.||||<0.05
82640744|NCT04753606|164996053|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
82388560|NCT01767506|164488177|SUPERIORITY||Odds Ratio (OR)|2.6|||>|0.05|TWO_SIDED|95.0|0.56|11.9|||Regression, Logistic||||The null hypothesis was that we could further decrease infection to 1% or less in more of the communities in the surveillance intervention arm, compared to control communities.|11.9|0.56|>0.05
82388561|NCT01767506|164488178|SUPERIORITY||Mean Difference (Final Values)|3.9||||1|TWO_SIDED||||||Fisher Exact|||||||1
82525105|NCT00261495|164746952|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.616||95.0|-0.54|0.32||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Procedure has been stopped, test is exploratory in nature.|ANCOVA|Superiority of OROS hydromorphone compared to SR oxycodone was evaluated.|Mean difference was calculated: hydromorphone minus oxycodone|"Null hypothesis: Difference in change from baseline between hydromorphone and oxycodone was equal to zero.~Alternative hypothesis: Difference in change from baseline between hydromorphone and oxycodone was not equal to zero."||0.32|-0.54|0.616
82388562|NCT01608087|164488201|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|96.58|||||TWO_SIDED|93.93|88.54|105.35|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|105.35|88.54|
82388563|NCT01608087|164488201|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.68|||||TWO_SIDED|93.93|83.5|100.65|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.65|83.50|
82388564|NCT01608087|164488201|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|94.92|||||TWO_SIDED|93.93|87.14|103.4|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|103.40|87.14|
82388565|NCT01608087|164488202|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|98.96|||||TWO_SIDED|90.0|90.97|107.64|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|107.64|90.97|
82388566|NCT01608087|164488202|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.67|||||TWO_SIDED|90.0|84.02|100.01|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.01|84.02|
82425895|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||0.001
82425896|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Logistic|Treatment as a factor||||||<0.001
82425897|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||Regression, Logistic|Treatment as a factor||||||0.025
82425898|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||95.0|||||Regression, Logistic|Treatment as a factor||||||0.539
82425899|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0|||||Regression, Logistic|Treatment as a factor||||||0.329
82525106|NCT00261495|164746953|SUPERIORITY_OR_OTHER|||||||0.249||||||A two-sided significance level of 0.05 was used. A closed hierarchical testing approach was used to control the overall Type I error. Hierarchical testing procedure has been stopped, test is exploratory in nature.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-squared statistic stratified for country was used.||"Null hypothesis: There is no association between study medication and dose escalation.~Alternative hypothesis: There is an association between study medication and dose escalation."||||0.249
82525107|NCT00261495|164746954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.05||95.0|0.0|0.84||0.05 two-sided testing, exploratory comparison|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.84|-0.00|0.050
82525108|NCT00261495|164746955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.105||95.0|-0.06|0.67||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.67|-0.06|0.105
82525109|NCT00261495|164746956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.058||95.0|-0.01|0.79||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.79|-0.01|0.058
82525110|NCT00261495|164746957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.21||95.0|-0.13|0.59||0.05 two-sided test|ANCOVA||Mean difference calculated: hdromorphone minus oxycodone|Exploratory comparison||0.59|-0.13|0.210
82525111|NCT00261495|164746958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.941||95.0|-4.87|4.52||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.52|-4.87|0.941
82525112|NCT00261495|164746959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31||||0.073||95.0|-0.03|0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.65|-0.03|0.073
82525113|NCT00261495|164746960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.431||95.0|-0.52|0.22||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.22|-0.52|0.431
82525114|NCT00261495|164746961|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.835||95.0|-0.4|0.33||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.33|-0.40|0.835
82525115|NCT00261495|164746962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.837||95.0|-5.36|4.35||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.35|-5.36|0.837
82525116|NCT00261495|164746963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.832||95.0|-0.38|0.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.31|-0.38|0.832
82525117|NCT00261495|164746964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.143||95.0|-0.1|0.71||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.71|-0.10|0.143
82525118|NCT00261495|164746965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.345||95.0|-0.23|0.64||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.64|-0.23|0.345
82573481|NCT02229227|164857262|NON_INFERIORITY|If the upper bound of the confidence interval is less than or equal to 0.3%, non-inferiority will be concluded.|Mean Difference (Net)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.05|0.17||Non-inferiority p-value. P-value from testing the null hypothesis that the difference in change from baseline least squares means (albiglutide-insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance.|t-test, 2 sided||Least Square mean of albiglutide + insulin glargine from insulin lispro + insulin glargine has been presented.|||0.17|-0.05|<0.0001
82573482|NCT02229227|164857264|OTHER||Odds Ratio (OR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.31|0.6||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for Baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||0.60|0.31|<0.0001
82573483|NCT02229227|164857265|SUPERIORITY||Mean Difference (Net)|-4.37|||<|0.0001|TWO_SIDED|95.0|-4.93|-3.82|||t-test, 2 sided||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-3.82|-4.93|<0.0001
82640745|NCT04753606|164996054|SUPERIORITY||Least Squares (LS) Means|129.27|STANDARD_ERROR_OF_MEAN|9.337|<|0.0001|TWO_SIDED|95.0|110.78|147.77|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||147.77|110.78|<.0001
82573484|NCT02229227|164857266|OTHER||Mean Difference (Net)|-1.21|||||TWO_SIDED|95.0|-1.43|-1.0|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 4 has been presented.|Week 4||-1.00|-1.43|
82573485|NCT02229227|164857266|OTHER||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-2.05|-1.55|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 5 has been presented.|Week 5||-1.55|-2.05|
82573486|NCT02229227|164857266|OTHER||Mean Difference (Net)|-3.17|||||TWO_SIDED|95.0|-3.51|-2.82|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 10 has been presented.|Week 10||-2.82|-3.51|
82573487|NCT02229227|164857266|OTHER||Mean Difference (Net)|-4.01|||||TWO_SIDED|95.0|-4.48|-3.54|||||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 18 has been presented.|Week 18||-3.54|-4.48|
82573488|NCT02229227|164857266|OTHER||Mean Difference (Net)|-4.37|||<|0.0001|TWO_SIDED|95.0|-4.93|-3.82|||t-test, 2 sided||Least Square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) at Week 26 has been presented.|Week 26||-3.82|-4.93|<0.0001
82573489|NCT02229227|164857267|SUPERIORITY||Mean Difference (Final Values)|-60.83|||<|0.0001|TWO_SIDED|95.0|-66.57|-55.1|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-55.10|-66.57|<0.0001
82388567|NCT01608087|164488202|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|92.63|||||TWO_SIDED|90.0|85.18|100.74|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|100.74|85.18|
82573490|NCT02229227|164857268|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|-0.12|||<|0.0001|TWO_SIDED|95.0|-0.18|-0.07|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-0.07|-0.18|<0.0001
82388568|NCT01608087|164488203|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|101.53|||||TWO_SIDED|90.0|92.74|111.14|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R1) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|111.14|92.74|
82573491|NCT02229227|164857268|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|-0.09|||<|0.0001|TWO_SIDED|95.0|-0.15|-0.02|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||-0.02|-0.15|<0.0001
82573492|NCT02229227|164857268|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.08|||<|0.0001|TWO_SIDED|95.0|-0.01|0.17|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||0.17|-0.01|<0.0001
82573493|NCT02229227|164857268|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.11|||<|0.0001|TWO_SIDED|95.0|0.01|0.21|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||0.21|0.01|<0.0001
82443787|NCT00159913|164596163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.7||||95.0|-5.9|4.7|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||4.7|-5.9|
82573494|NCT02229227|164857268|NON_INFERIORITY|Difference in change from Baseline least squares means (albiglutide - insulin lispro) is greater than 0.30% based on one-sided t-test with 0.025 level of significance|Mean Difference (Net)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.05|0.17|||t-test, 1 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||0.17|-0.05|<0.0001
82573495|NCT02229227|164857269|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0004|TWO_SIDED|95.0|-0.86|-0.25|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||-0.25|-0.86|0.0004
82573496|NCT02229227|164857270|OTHER||Mean Difference (Net)|-0.54|||||TWO_SIDED|95.0|-0.84|-0.24|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-0.24|-0.84|
82525119|NCT00261495|164746966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.552||95.0|-0.33|0.61||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.61|-0.33|0.552
82388569|NCT01608087|164488203|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|93.25|||||TWO_SIDED|90.0|87.12|99.81|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(T/R2) \* 100||Least squares estimates of log-transformed PK endpoint for T and R1 were back transformed to original scale to get adjusted point estimator and interval estimates for the ratio of the geometric means for treatments.|99.81|87.12|
82388570|NCT01608087|164488203|EQUIVALENCE|Commonly applied acceptance range for bioequivalence/biosimilarity is 80% to 125%.|gMean ratio|91.85|||||TWO_SIDED|90.0|83.91|100.54|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects'treatment' and 'weight'.|(R1/R2) \* 100||Least square estimates of log-transformed PK endpoint for R1 and R2 were back transformed to original scale to get adjusted point estimator and interval estimates for the inter-subject ratio of the geometric means for treatments.|100.54|83.91|
82573497|NCT02229227|164857270|OTHER||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.51|0.13|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||0.13|-0.51|
82573498|NCT02229227|164857270|OTHER||Mean Difference (Net)|-0.53|||||TWO_SIDED|95.0|-0.85|-0.22|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-0.22|-0.85|
82388571|NCT04984278|164488266|SUPERIORITY||Combined least mean square difference|-0.29|STANDARD_ERROR_OF_MEAN|0.092|=|0.0048|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|||||-0.10|-0.48|=0.0048
82573499|NCT02229227|164857270|SUPERIORITY||Mean Difference (Net)|-0.55||||0.0004|TWO_SIDED|95.0|-0.86|-0.25|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||-0.25|-0.86|0.0004
82573500|NCT02229227|164857271|OTHER||Odds Ratio (OR)|0.96||||0.7026|TWO_SIDED|95.0|0.71|1.31||Non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for Baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||1.31|0.71|0.7026
82573501|NCT02229227|164857272|OTHER||Odds Ratio (OR)|1.17||||0.2883|TWO_SIDED|95.0|0.84|1.64||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4|Week 4||1.64|0.84|0.2883
82388572|NCT03535194|164488280|SUPERIORITY||Risk Difference (RD)|73.5|||<|0.001|TWO_SIDED|95.0|68.2|78.7|||Cochran-Mantel-Haenszel|||||78.7|68.2|<0.001
82573502|NCT02229227|164857272|OTHER||Odds Ratio (OR)|0.82||||0.3034|TWO_SIDED|95.0|0.59|1.15||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||1.15|0.59|0.3034
82573503|NCT02229227|164857272|OTHER||Odds Ratio (OR)|0.71||||0.0151|TWO_SIDED|95.0|0.52|0.98||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||0.98|0.52|0.0151
82573504|NCT02229227|164857272|OTHER||Odds Ratio (OR)|0.75||||0.0518|TWO_SIDED|95.0|0.54|1.03||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||1.03|0.54|0.0518
82573505|NCT02229227|164857272|OTHER||Odds Ratio (OR)|0.96||||0.7026|TWO_SIDED|95.0|0.71|1.31||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||1.31|0.71|0.7026
82388573|NCT03535194|164488281|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|62.7|73.3|||Cochran-Mantel-Haenszel|||||73.3|62.7|<0.001
82525120|NCT00261495|164746967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.042||95.0|0.02|0.93||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.93|0.02|0.042
82573506|NCT02229227|164857273|OTHER||Odds Ratio (OR)|0.85||||0.2298|TWO_SIDED|95.0|0.63|1.17||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||1.17|0.63|0.2298
82573507|NCT02229227|164857274|OTHER||Odds Ratio (OR)|1.32||||0.2143|TWO_SIDED|95.0|0.78|2.23||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||2.23|0.78|0.2143
82573508|NCT02229227|164857274|OTHER||Odds Ratio (OR)|1.24||||0.4703|TWO_SIDED|95.0|0.8|1.91||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 5.|Week 5||1.91|0.80|0.4703
82388574|NCT03535194|164488282|SUPERIORITY||Risk Difference (RD)|81.6|||<|0.001|TWO_SIDED|95.0|76.1|87.0|||Cochran-Mantel-Haenszel|||||87.0|76.1|<0.001
82388575|NCT03535194|164488283|SUPERIORITY||Risk Difference (RD)|51.7|||<|0.001|TWO_SIDED|95.0|47.6|55.8|||Cochran-Mantel-Haenszel|||||55.8|47.6|<0.001
82525121|NCT00261495|164746968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.171||95.0|-0.14|0.81||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.81|-0.14|0.171
82525122|NCT00261495|164746969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.475||95.0|-0.31|0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.65|-0.31|0.475
82573509|NCT02229227|164857274|OTHER||Odds Ratio (OR)|0.81||||0.2139|TWO_SIDED|95.0|0.58|1.14||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||1.14|0.58|0.2139
82388576|NCT03535194|164488284|SUPERIORITY||Risk Difference (RD)|23.2|||<|0.001|TWO_SIDED|95.0|19.3|27.1|||Cochran-Mantel-Haenszel|||||27.1|19.3|<0.001
82388577|NCT03535194|164488285|SUPERIORITY||Risk Difference (RD)|53.5|||<|0.001|TWO_SIDED|95.0|47.7|59.3|||Cochran-Mantel-Haenszel|||||59.3|47.7|<0.001
82525123|NCT00261495|164746970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.359||95.0|-0.26|0.72||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.72|-0.26|0.359
82525124|NCT00261495|164746971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.611||95.0|-0.52|0.3||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.30|-0.52|0.611
82525125|NCT00261495|164746972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.526||95.0|-0.6|0.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.31|-0.60|0.526
82525126|NCT00261495|164746973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.769||95.0|-0.49|0.36||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.36|-0.49|0.769
82525127|NCT00261495|164746974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.843||95.0|-0.4|0.49||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.49|-0.40|0.843
82525128|NCT00261495|164746975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.977||95.0|-0.45|0.44||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.44|-0.45|0.977
82573510|NCT02229227|164857274|OTHER||Odds Ratio (OR)|0.81||||0.079|TWO_SIDED|95.0|0.59|1.11||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||1.11|0.59|0.0790
82525129|NCT00261495|164746976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.977||95.0|-0.47|0.49||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.49|-0.47|0.977
82525130|NCT00261495|164746977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.902||95.0|-0.51|0.45||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.45|-0.51|0.902
82525131|NCT00261495|164746979|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.36||||0.169||95.0|-5.74|1.02||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.02|-5.74|0.169
82525132|NCT00261495|164746980|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.245||95.0|-5.09|1.31||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.31|-5.09|0.245
82525133|NCT00261495|164746981|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.64||||0.071||95.0|-5.51|0.23||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.23|-5.51|0.071
82525134|NCT00261495|164746982|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.03||||0.297||95.0|-5.85|1.8||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.80|-5.85|0.297
82640746|NCT04753606|164996054|SUPERIORITY||Least Squares (LS) Means|164.33|STANDARD_ERROR_OF_MEAN|9.306|<|0.0001|TWO_SIDED|95.0|145.9|182.76|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||182.76|145.90|<.0001
82388578|NCT03535194|164488286|SUPERIORITY||LSMean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|-7.01|-2.88|||Mixed Models Analysis|||||-2.88|-7.01|<0.001
82388579|NCT03535194|164488287|SUPERIORITY||LSMean Difference|-15.15|STANDARD_ERROR_OF_MEAN|0.692|<|0.001|TWO_SIDED|95.0|-16.51|-13.8|||Mixed Models Analysis|||||-13.80|-16.51|<0.001
82388580|NCT03535194|164488288|SUPERIORITY||LSMean Difference|-9.59|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-12.63|-6.55|||Mixed Models Analysis|||||-6.55|-12.63|<0.001
82525135|NCT00261495|164746983|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.41||||0.205||95.0|-1.32|6.14||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||6.14|-1.32|0.205
82525136|NCT00261495|164746984|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.35||||0.107||95.0|-7.43|0.73||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.73|-7.43|0.107
82525137|NCT00261495|164746985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.475||95.0|-2.8|6.0||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||6.00|-2.80|0.475
82525138|NCT00261495|164746986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.16||||0.02||95.0|-7.67|-0.65||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||-0.65|-7.67|0.020
82525139|NCT00261495|164746987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.88||95.0|-0.3|0.26||0.05 two-sided test|ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.26|-0.30|0.880
82525140|NCT00261495|164746988|SUPERIORITY_OR_OTHER|||||||0.32|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.320
82525141|NCT00261495|164746993|SUPERIORITY_OR_OTHER|||||||0.575|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.575
82525142|NCT00261495|164746994|SUPERIORITY_OR_OTHER|||||||0.807|||||||Cochran-Mantel-Haenszel|||Exploratory comparison||||0.807
82525143|NCT00261495|164746995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.61||||0.118||95.0|-5.88|0.67|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.67|-5.88|0.118
82525144|NCT00261495|164746996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.956||95.0|-3.08|2.91|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.91|-3.08|0.956
82525145|NCT00261495|164746997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.299||95.0|-0.08|0.26|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.26|-0.08|0.299
82525146|NCT00261495|164746998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.471||95.0|-4.2|1.95|||ANCOVA||Mean difference calculated: hydromorphone minus oxymorphone|Exploratory comparison||1.95|-4.20|0.471
82525147|NCT00261495|164746999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.84||||0.025||95.0|0.48|7.19|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.19|0.48|0.025
82573511|NCT02229227|164857274|OTHER||Odds Ratio (OR)|0.85||||0.2298|TWO_SIDED|95.0|0.63|1.17||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||1.17|0.63|0.2298
82573512|NCT02229227|164857275|OTHER||Odds Ratio (OR)|1.08||||0.8292|TWO_SIDED|95.0|0.24|4.77||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||4.77|0.24|0.8292
82573513|NCT02229227|164857277|OTHER||Mean Difference (Final Values)|-56.38|||||TWO_SIDED|95.0|-59.19|-53.57|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-53.57|-59.19|
82573514|NCT02229227|164857277|OTHER||Mean Difference (Final Values)|-63.7|||||TWO_SIDED|95.0|-67.78|-59.62|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||-59.62|-67.78|
82388581|NCT03535194|164488289|SUPERIORITY||LSMean Difference|3.46|STANDARD_ERROR_OF_MEAN|0.642|<|0.001|TWO_SIDED|95.0|2.2|4.72|||ANCOVA|||||4.72|2.20|<0.001
82388582|NCT03535194|164488290|SUPERIORITY||LSMean Difference|3.96|STANDARD_ERROR_OF_MEAN|0.711|<|0.001|TWO_SIDED|95.0|2.56|5.35|||ANCOVA|||||5.35|2.56|<0.001
82388583|NCT03535194|164488291|SUPERIORITY||Risk Difference (RD)|65.0|||<|0.001|TWO_SIDED|95.0|59.3|70.8|||Cochran-Mantel-Haenszel|||||70.8|59.3|<0.001
82388584|NCT03535194|164488293|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.255||0.826|TWO_SIDED|95.0|-4.96|3.96|||ANCOVA|||||3.96|-4.96|0.826
82573515|NCT02229227|164857277|OTHER||Mean Difference (Final Values)|-62.0|||||TWO_SIDED|95.0|-67.29|-56.7|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-56.70|-67.29|
82573516|NCT02229227|164857278|SUPERIORITY||Mean Difference (Final Values)|-0.97|||||TWO_SIDED|95.0|-2.25|0.3|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||0.30|-2.25|
82388585|NCT03535194|164488295|NON_INFERIORITY|10% non-inferiority margin was used.|Risk Difference (RD)|3.3|||<|0.0001|TWO_SIDED|95.0|-1.4|7.9|||Cochran-Mantel-Haenszel|||||7.9|-1.4|<0.0001
82388586|NCT03535194|164488296|NON_INFERIORITY|10% non-inferiority margin was used.|Risk Difference (RD)|1.6|||<|0.0001|TWO_SIDED|95.0|-3.4|6.6|||Cochran-Mantel-Haenszel|||||6.6|-3.4|<0.0001
82388587|NCT02821338|164488300|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference ratio|0.9863|||||TWO_SIDED|90.0|0.9598|1.0134||||||90% confidence interval of the geometric mean ratio of test/reference||1.0134|0.9598|
82388588|NCT02821338|164488301|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference Ratio|0.9785|||||TWO_SIDED|90.0|0.9484|1.0095||||||||1.0095|0.9484|
82388589|NCT02821338|164488302|EQUIVALENCE|90% confidence interval falls within 80.00-125.00%|Test/Reference Ratio|1.047|||||TWO_SIDED|90.0|1.0079|1.0877||||||||1.0877|1.0079|
82388590|NCT00090220|164488323|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|88.7||||||95.0|78.1|94.8|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||94.8|78.1|
82388591|NCT00090220|164488349|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|94.8||||||95.0|79.9|99.4|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||99.4|79.9|
82525148|NCT00261495|164747000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.556||95.0|-5.61|10.42|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||10.42|-5.61|0.556
82525149|NCT00261495|164747001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.12||||0.551||95.0|-9.11|4.88|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||4.88|-9.11|0.551
82388592|NCT00090220|164488357|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|84.7||||||95.0|67.5|93.7|||||Confidence Interval based on binomial tail probabilities and not from a dispersion parameter.|||93.7|67.5|
82388593|NCT00823043|164488372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<.001
82388594|NCT00823043|164488373|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||||||0.024
82388595|NCT00823043|164488374|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||t-test, 2 sided|||||||0.75
82388596|NCT00823043|164488375|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 2 sided|||||||0.69
82388597|NCT03557931|164488451|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.02||0.858|TWO_SIDED|90.0|-1.51|1.88|||MMRM Method|||Mixed model repeated measures (MMRM) analysis model is performed with change from baseline (least square (LS) Mean estimate for observed value from separate model using observed values) at week 12 as response; treatment, site (pooled where necessary), visit, treatment\*visit, and visit\*baseline as fixed effects, and baseline as a covariate.|Cohen's d Effect Size was defined as: (t-value for the least squares mean pairwise difference of ASP4345 50 mg vs placebo) \* sqrt(1/n\[PLACEBO\] + 1/n\[ASP4345\]). The Cohen's d Effect Size value for ASP4345 50 mg vs placebo is 0.035.|1.88|-1.51|0.858
82425900|NCT00402987|164560373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0|||||Regression, Logistic|Treatment as a factor||||||0.171
82425901|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Regression, Logistic|Treatment as a factor||||||0.007
82525150|NCT00261495|164747002|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.98||||0.207||95.0|-7.63|1.66|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.66|-7.63|0.207
82525151|NCT00261495|164747003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.46||||0.123||95.0|-5.6|0.68|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.68|-5.60|0.123
82525152|NCT00261495|164747004|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.602||95.0|-4.27|2.48|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.48|-4.27|0.602
82388598|NCT03557931|164488451|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-1.93|1.36|||0.775|||MMRM analysis model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at week 12 as response; treatment, site (pooled where necessary), visit, treatment\*visit, and visit\*baseline as fixed effects, and baseline as a covariate.|Cohen's d Effect Size was defined as: (t-value for the least squares mean pairwise difference of ASP4345 150 mg vs placebo) \* sqrt(1/n\[PLACEBO\] + 1/n\[ASP4345\]). The Cohen's d Effect Size value for ASP4345 150 mg vs placebo is - 0.053.|1.36|-1.93|
82388599|NCT03557931|164488457|SUPERIORITY||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|1.6||0.639|TWO_SIDED|90.0|-1.9|3.41|||ANCOVA|||Analysis of covariance (ANCOVA) model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at the Week 12 timepoint as response, treatment and site (pooled where necessary) and baseline as a covariate.||3.41|-1.90|0.639
82388600|NCT03557931|164488457|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|1.54||0.721|TWO_SIDED|90.0|-3.11|2.01|||ANCOVA|||ANCOVA model is performed with change from baseline (LS Mean estimate for observed value from separate model using observed values) at the Week 12 timepoint as response, treatment and site (pooled where necessary) and baseline as a covariate.||2.01|-3.11|0.721
82388601|NCT00737204|164488461|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.001
82388602|NCT00737204|164488462|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||ANCOVA|||Repeated measure analysis||||.01
82388603|NCT00737204|164488463|SUPERIORITY_OR_OTHER||||||>=|0.805||95.0|||||Paired t-tests|||Null hypothesis: CD4 levels for both the Armodafinil and Placebo groups will not change significantly between baseline and week 4.||||>=.805
82388604|NCT03315286|164488465|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82573517|NCT02229227|164857278|OTHER||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.64|2.33|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||2.33|-1.64|
82388605|NCT03315286|164488466|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82388606|NCT03315286|164488467|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Baseline results are reported here.||||0.6
82388607|NCT03315286|164488467|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||6 month data is reported here||||0.3
82388608|NCT03315286|164488468|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Baseline data is reported here.||||0.2
82388609|NCT03315286|164488468|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||6 month data is reported here||||0.4
82388610|NCT03315286|164488469|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||baseline data is reported here||||0.07
82388611|NCT03315286|164488469|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||6 month data is reported here||||0.0002
82388612|NCT02989649|164488571|OTHER||Least Square Mean (LSM)|-1.25|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-1.44|-1.05|||Regression, Linear||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-1.05|-1.44|<0.001
82388613|NCT02989649|164488572|OTHER|||||||0.423|||||||Regression, Linear|||Statistical analysis for subgroup: Prior therapy of diabetes mellitus, Ever used or Never used||||0.423
82388614|NCT02989649|164488572|OTHER|||||||0.747|||||||Regression, Linear|||Statistical analysis for subgroup: Sex, Male or Female||||0.747
82573518|NCT02229227|164857278|OTHER||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-2.21|2.69|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||2.69|-2.21|
82573519|NCT02229227|164857278|OTHER||Mean Difference (Final Values)|0.39||||0.7699|TWO_SIDED|95.0|-2.25|3.04|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|Week 26||3.04|-2.25|0.7699
82573520|NCT02229227|164857279|OTHER||Mean Difference (Final Values)|-56.05|||||TWO_SIDED|95.0|-58.17|-53.94|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 4.|Week 4||-53.94|-58.17|
82388615|NCT02989649|164488572|OTHER||||||<|0.001|||||||Regression, Linear|||Statistical analysis for subgroup: Age, \<45 or \>=45 to \<65 years or \>=65 years||||<0.001
82388616|NCT02989649|164488572|OTHER|||||||0.99|||||||Regression, Linear|||Statistical analysis for subgroup: Cardiovascular risk group, Yes or No||||0.990
82388617|NCT02989649|164488572|OTHER|||||||0.841|||||||Regression, Linear|||Statistical analysis for subgroup: Therapy type, Monotherapy or Combined therapy||||0.841
82388618|NCT02989649|164488572|OTHER|||||||0.847|||||||Regression, Linear|||Statistical analysis for subgroup: Baseline BMI, \<25 or 25 to \<30 or \>=30 kg/m\^2||||0.847
82388619|NCT02989649|164488572|OTHER||||||<|0.001|||||||Regression, Linear|||Statistical analysis for subgroup: Initial glycemic control, \<7% or \>=7%||||<0.001
82388620|NCT02989649|164488575|OTHER||Least Square Mean (LSM)|-0.95|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-1.29|-0.62|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 3||-0.62|-1.29|
82388621|NCT02989649|164488575|OTHER||Least Square Mean (LSM)|-0.87|STANDARD_ERROR_OF_MEAN|0.245|||TWO_SIDED|95.0|-1.36|-0.39|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-0.39|-1.36|
82425902|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0|||||Regression, Logistic|Treatment as a factor||||||0.244
82425903|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0|||||Regression, Logistic|Treatment as a factor||||||0.096
82425904|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.579||95.0|||||Regression, Logistic|Treatment as a factor||||||0.579
82425905|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||95.0|||||Regression, Logistic|Treatment as a factor||||||0.277
82425906|NCT00402987|164560374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.649||95.0|||||Regression, Logistic|Treatment as a factor||||||0.649
82573521|NCT02229227|164857279|OTHER||Mean Difference (Final Values)|-64.76|||||TWO_SIDED|95.0|-67.68|-61.85|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 10.|Week 10||-61.85|-67.68|
82640747|NCT04436497|164996055|SUPERIORITY||Disease Rate Ratio|1.08|STANDARD_DEVIATION|0.11|||TWO_SIDED|95.0|0.874|1.307||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. zilucoplan slowed progression) was 0.2418. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by zilucoplan relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.307|0.874|
82640748|NCT04436497|164996057|SUPERIORITY||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|1.819||0.5495|TWO_SIDED|95.0|-4.66|2.48|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Zilucoplan 24-week change from baseline relative to placebo 24-week change from baseline.|||2.48|-4.66|0.5495
82388622|NCT02989649|164488576|OTHER||Least Square Mean (LSM)|-0.95|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|-1.18|-0.72|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 3||-0.72|-1.18|
82388623|NCT02989649|164488576|OTHER||Least Square Mean|-1.25|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|95.0|-1.44|-1.05|||||The LSM and CI are from Mixed effect Model Repeat Measurement (MMRM) model, that used visit as a predictor and baseline value as a covariate. For change from baseline, covariance structure=Unstructured.|Statistical analysis for data at Baseline compared to the data at Month 6||-1.05|-1.44|
82425907|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4|||<|0.001||95.0|7.5|23.2||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||23.2|7.5|<0.001
82425908|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.4||||0.003||95.0|4.9|24.0||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||24.0|4.9|0.003
82425909|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.2||||0.096||95.0|-1.5|17.8||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||17.8|-1.5|0.096
82425910|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.2||||0.141||95.0|-2.4|16.8||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||16.8|-2.4|0.141
82425911|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.849||95.0|-8.6|10.5||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||10.5|-8.6|0.849
82525153|NCT00261495|164747005|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65||||0.647||95.0|-2.14|3.44|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||3.44|-2.14|0.647
82573522|NCT02229227|164857279|OTHER||Mean Difference (Final Values)|-62.92|||||TWO_SIDED|95.0|-66.69|-59.15|||||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 18.|Week 18||-59.15|-66.69|
82525154|NCT00261495|164747006|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.627||95.0|-0.17|0.1|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||0.10|-0.17|0.627
82525155|NCT00261495|164747007|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.414||95.0|-4.45|1.84|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||1.84|-4.45|0.414
82425912|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.3||||0.266||95.0|-4.8|17.4||Analysis of Effectiveness|Generalized linear model|Treatment as a fixed effect||||17.4|-4.8|0.266
82425913|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.141||95.0|-5.4|0.8||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||0.8|-5.4|0.141
82425914|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.312||95.0|-5.7|1.8||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||1.8|-5.7|0.312
82388624|NCT03514485|164488602|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.34|0.25||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.25|-0.34|
82388625|NCT03514485|164488602|SUPERIORITY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.34|0.18||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.18|-0.34|
82388626|NCT03514485|164488602|SUPERIORITY||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-0.48|0.04||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.04|-0.48|
82388627|NCT03514485|164488602|SUPERIORITY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.44|0.9||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.9|-0.44|
82388628|NCT03514485|164488602|SUPERIORITY||Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.36|0.09||||||Linear mixed effects models were then used to make the comparisons of all combinations of primary care and school-based interventions with respect to Asthma Control. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the COVID-19 pandemic.||0.09|-0.36|
82525156|NCT00261495|164747008|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.05||||0.01||95.0|0.94|7.16|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.16|0.94|0.010
82388629|NCT03514485|164488603|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.39|0.55||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.55|-0.39|
82388630|NCT03514485|164488603|SUPERIORITY||Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|0.04|0.88||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.88|0.04|
82388631|NCT03514485|164488603|SUPERIORITY||Mean Difference (Net)|-0.65|||||TWO_SIDED|95.0|-1.06|-0.23||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.23|-1.06|
82388632|NCT03514485|164488603|SUPERIORITY||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-1.39|-0.67||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.67|-1.39|
82388633|NCT03514485|164488603|SUPERIORITY||Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.95|-0.18||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Daytime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.18|-0.95|
82425915|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.724||95.0|-4.5|3.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.1|-4.5|0.724
82573523|NCT02229227|164857279|SUPERIORITY||Mean Difference (Final Values)|-61.83|||<|0.0001|TWO_SIDED|95.0|-65.85|-57.81|||t-test, 2 sided||Least square mean difference (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented for Week 26.|week 26||-57.81|-65.85|<0.0001
82573524|NCT02229227|164857281|OTHER||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.52|4.86||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||4.86|2.52|<0.0001
82426859|NCT01448616|164561933|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.74||||0.01|TWO_SIDED|95.0|0.59|0.92|||Poisson GLME|||Intent to Treat||0.92|0.59|0.010
82525157|NCT00261495|164747009|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.955||95.0|-7.2|7.62|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.62|-7.20|0.955
82525158|NCT00261495|164747010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.31||||0.669||95.0|-4.72|7.34|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||7.34|-4.72|0.669
82388634|NCT03514485|164488604|SUPERIORITY||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.53|0.28||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.28|-0.53|
82388635|NCT03514485|164488604|SUPERIORITY||Median Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.45|0.26||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.26|-0.45|
82388636|NCT03514485|164488604|SUPERIORITY||Mean Difference (Net)|-0.25|||||TWO_SIDED|95.0|-0.6|0.1||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.10|-0.60|
82388637|NCT03514485|164488604|SUPERIORITY||Median Difference (Net)|-0.28|||||TWO_SIDED|95.0|-0.57|0.01||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.01|-0.57|
82388638|NCT03514485|164488604|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.72|-0.04||||||Mixed-effects generalized linear model with binomial family (n=14) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to Nighttime Symptoms. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.04|-0.72|
82388639|NCT03514485|164488605|SUPERIORITY||Mean Difference (Net)|2.38|||||TWO_SIDED|95.0|0.58|4.19||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||4.19|0.58|
82388640|NCT03514485|164488605|SUPERIORITY||Mean Difference (Net)|4.49|||||TWO_SIDED|95.0|2.54|6.43||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||6.43|2.54|
82388641|NCT03514485|164488605|SUPERIORITY||Mean Difference (Net)|-0.97|||||TWO_SIDED|95.0|-2.78|0.84||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.84|-2.78|
82525159|NCT00261495|164747011|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.17||||0.595||95.0|-3.15|5.49|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||5.49|-3.15|0.595
82525160|NCT00261495|164747012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94||||0.543||95.0|-3.98|2.1|||ANCOVA||Mean difference calculated: hydromorphone minus oxycodone|Exploratory comparison||2.10|-3.98|0.543
82573525|NCT02229227|164857282|OTHER||Odds Ratio (OR)|2.36|||<|0.0001|TWO_SIDED|95.0|1.54|3.6||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||3.60|1.54|<0.0001
82573526|NCT02229227|164857283|OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.21|6.48||Analysis was performed using non-parametric Cochran-Mantel-Haenszel (CMH) test after adjusting for baseline HbA1c category, age category, region and current use of metformin.|Cochran-Mantel-Haenszel||Odds ratio (albiglutide + insulin glargine minus insulin lispro + insulin glargine) has been presented.|||6.48|2.21|<0.0001
82388642|NCT03514485|164488605|SUPERIORITY||Mean Difference (Net)|-3.07|||||TWO_SIDED|95.0|-5.03|-1.12||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-1.12|-5.03|
82573527|NCT01453023|164857321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||||TWO_SIDED|95.0|-8.8|0.4|||||Day 1 HR. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||0.4|-8.8|
82388643|NCT03514485|164488605|SUPERIORITY||Mean Difference (Net)|1.41|||||TWO_SIDED|95.0|-0.48|3.31||||||Mixed-effects generalized linear model with binomial family (n=number of school-days \[varies per child\]) was used to make the comparisons of all combinations of primary care and school-based interventions with respect to school absences. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||3.31|-0.48|
82426860|NCT01448616|164561933|SUPERIORITY||Risk Ratio (RR)|1.3||||0.09|TWO_SIDED|95.0|0.9|1.76|||Poisson GLM|||||1.76|0.9|0.09
82525161|NCT03474107|164747026|SUPERIORITY||Stratified Hazard Ratio|0.702||||0.00142|TWO_SIDED|95.0|0.556|0.886||Stratification factors were ECOG PS, geographic region and liver metastasis. P-value was based on log-rank test. P-value of overall survival is ≤ the predetermined 1-sided significance level of 0.00679 based on the number of observed deaths.|Stratified Log rank||Cox proportional hazards model with treatment, ECOG PS, geographic region and liver metastasis as the explanatory variables.|||0.886|0.556|0.00142
82573528|NCT01453023|164857321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-1.1|8.5|||||Day 14 HR. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||8.5|-1.1|
82388644|NCT03514485|164488606|SUPERIORITY||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.19|0.54||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.54|-0.19|
82388645|NCT03514485|164488606|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.28|0.35||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.35|-0.28|
82388646|NCT03514485|164488606|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.68|-0.01||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||-0.01|-0.68|
82388647|NCT03514485|164488606|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.48|0.08||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.08|-0.48|
82388648|NCT03514485|164488606|SUPERIORITY||Mean Difference (Net)|-0.17|||||TWO_SIDED|95.0|-0.48|0.14||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of ED visits. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.14|-0.48|
82388649|NCT03514485|164488607|SUPERIORITY||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.11|0.29||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.29|-0.11|
82388650|NCT03514485|164488607|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-0.03|0.34||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.34|-0.03|
82388651|NCT03514485|164488607|SUPERIORITY||Mean Difference (Net)|-0.001|||||TWO_SIDED|95.0|-0.19|0.18||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.18|-0.19|
82388652|NCT03514485|164488607|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.23|0.09||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.09|-0.23|
82388653|NCT03514485|164488607|SUPERIORITY||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.09|0.26||||||Mixed-effects negative binomial models were used to make the comparisons of all combinations of primary care and school-based interventions with respect to number of hospitalizations. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.26|-0.09|
82525162|NCT03474107|164747027|SUPERIORITY||Stratified Hazard Ratio|0.615|||<|1e-05|TWO_SIDED|95.0|0.505|0.748||Stratification factors were ECOG PS, geographic region and liver metastasis. P-value was based on log-rank test. P value of PFS is ≤ the predetermined 1-sided significance level of 0.02189 based on the number of observed PFS events.|Stratified Log Rank||Cox proportional hazards model with treatment, ECOG PS, geographic region and liver metastasis as the explanatory variables.|||0.748|0.505|<0.00001
82388654|NCT03514485|164488608|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|0.0|0.65||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.65|0.00|
82525163|NCT03474107|164747028|SUPERIORITY||||||<|0.001||||||"Stratification factors were ECOG PS, Region and Liver Metastasis."|Stratified Cochran-Mantel-Haenszel|||||||<0.001
82525164|NCT03474107|164747029|SUPERIORITY||||||<|0.001||||||Stratification factors were ECOG PS, Region and Liver Metastasis.|Stratified Cochran-Mantel-Haenszel|||||||<0.001
82525165|NCT01932697|164747040|SUPERIORITY|||||||0.01|||||||Paired t-test|||||||.01
82525166|NCT01932697|164747041|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
82525167|NCT01932697|164747042|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
82525168|NCT01932697|164747043|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||<0.001
82525169|NCT01337986|164747071|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|||||||Mixed Models Analysis|||Per protocol Analysis||||0.84
82525170|NCT01337986|164747071|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Mixed Models Analysis|||Change in EDTRS between Visits 2 and 3.||||.29
82443788|NCT00159913|164596163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-9.3|0.3|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||0.3|-9.3|
82443789|NCT00159913|164596163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|2.3||||95.0|-11.7|-2.7|||ANCOVA|Covariates:etiology, wt grp, capability performing exercise test. Normality assumptions not met w/ main analysis: alternative=natural log transformed||||-2.7|-11.7|
82443790|NCT00159913|164596164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|2.36||0.795||95.0|-4.07|5.3|||ANCOVA|The model included the covariates etiology and weight group||||5.30|-4.07|0.795
82443791|NCT00159913|164596164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.62|STANDARD_ERROR_OF_MEAN|2.99||||95.0|-3.31|8.54|||ANCOVA|The model included the covariates etiology and weight group||||8.54|-3.31|
82443792|NCT00159913|164596164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|2.92||||95.0|-7.09|4.5|||ANCOVA|The model included the covariates etiology and weight group||||4.50|-7.09|
82443793|NCT00159913|164596164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|2.9||||95.0|-5.24|6.28|||ANCOVA|The model included the covariates etiology and weight group||||6.28|-5.24|
82525171|NCT01337986|164747073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.01||0.64|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null hypothesis: there will be no difference in the change relevant to baseline (visit 1) in EDTRS 5% contrast sensitivity with dalfampridine vs placebo.||||.64
82525172|NCT01337986|164747073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Mixed Models Analysis|||Null hypothesis for period effect: there will be no difference in the change relevant to baseline (visit 1) in EDTRS 5% contrast sensitivity for those who started on dalfampridine and crossed over to placebo, compared to those who started on placebo and crossed over to dalfampridine.||||0.11
82525173|NCT01337986|164747074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Regression, Logistic|||||||0.93
82573529|NCT01453023|164857322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-4.4|6.7|||||Day 1 QTcF. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||6.7|-4.4|
82640749|NCT04436497|164996058|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|3.409||0.7602|TWO_SIDED|95.0|-7.73|5.65|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Zilucoplan 24-week change from baseline relative to placebo 24-week change from baseline.|||5.65|-7.73|0.7602
82573530|NCT01453023|164857322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-6.0|5.5|||||Day 14 QTcF. The estimated value represents the treatment difference: FF/VI 100/25 µg minus FF 100 µg.|||5.5|-6.0|
82573531|NCT03178344|164857340|EQUIVALENCE|ANOVA||||||0.7||||||P value threshold is 0.05|ANOVA|||||||0.70
82640750|NCT04436497|164996059|SUPERIORITY|||||||0.6891|||||||Log Rank|||||||0.6891
82388655|NCT03514485|164488608|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-0.12|0.45||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.45|-0.12|
82388656|NCT03514485|164488608|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.4|0.18||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.18|-0.40|
82388657|NCT03514485|164488608|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.2|0.29||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.29|-0.20|
82388658|NCT03514485|164488608|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.08|0.5||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL emotional functioning domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.50|-0.08|
82388659|NCT03514485|164488609|SUPERIORITY||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.19|0.69||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.69|-0.19|
82388660|NCT03514485|164488609|SUPERIORITY||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.14|0.63||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.63|-0.14|
82640751|NCT02276274|164996070|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0592|0.0264|||||Analysis of variance (ANOVA) was performed on log-transformed values of AUC (0-72) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0264|-0.0592|
82640752|NCT02276274|164996071|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0592|0.0264|||||ANOVA was performed on log-transformed values of AUC (0-tlqc) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0264|-0.0592|
82388661|NCT03514485|164488609|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.49|0.3||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.30|-0.49|
82425916|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.398||95.0|-5.4|2.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||2.1|-5.4|0.398
82425917|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.846||95.0|-4.1|3.4||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.4|-4.1|0.846
82425918|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.572||95.0|-5.6|3.1||Analysis of Side Effects|Generalized linear model|Treatment as a fixed effect||||3.1|-5.6|0.572
82425919|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.014||95.0|1.2|10.4||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||10.4|1.2|0.014
82425920|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.573||95.0|-4.0|7.2||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||7.2|-4.0|0.573
82425921|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.482||95.0|-7.7|3.6||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||3.6|-7.7|0.482
82425922|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.007||95.0|2.2|13.5||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||13.5|2.2|0.007
82425923|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.2||||0.143||95.0|-1.4|9.8||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||9.8|-1.4|0.143
82425924|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.6||||0.273||95.0|-2.9|10.2||Analysis of Convenience|Generalized linear model|Treatment as a fixed effect||||10.2|-2.9|0.273
82425925|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0||||0.003||95.0|4.4|21.6||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||21.6|4.4|0.003
82425926|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.7||||0.029||95.0|1.2|22.2||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||22.2|1.2|0.029
82425927|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.2||||0.251||95.0|-4.4|16.8||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||16.8|-4.4|0.251
82425928|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8||||0.204||95.0|-3.7|17.4||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||17.4|-3.7|0.204
82425929|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.808||95.0|-9.2|11.8||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||11.8|-9.2|0.808
82388662|NCT03514485|164488609|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.43|0.24||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.24|-0.43|
82388663|NCT03514485|164488609|SUPERIORITY||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.24|0.54||||||Mixed-effects linear models with random intercepts for school and child were used to make the comparisons of all combinations of primary care and school-based interventions with respect to QOL activity limitations domain. Contrasts across time and levels of the intervention were obtained by subtraction. Models were not adjusted for timing of intervention delivery during the Coronavirus (COVID-19) pandemic.||0.54|-0.24|
82388664|NCT03075891|164488614|SUPERIORITY|||||||0.032|||||||Cochran-Mantel-Haenszel|||||||0.032
82388665|NCT02004886|164488639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.9|||<|0.001|TWO_SIDED|95.0|-38.4|-13.3|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-13.3|-38.4|<0.001
82388666|NCT02004886|164488639|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-53.6|||<|0.001|TWO_SIDED|95.0|-66.1|-41.1|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-41.1|-66.1|<0.001
82388667|NCT02004886|164488639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0|||<|0.001|TWO_SIDED|95.0|-38.4|-13.6|||ANCOVA|Terms for treatment, prior AHA therapy status, and baseline 24-hour WMG value as a covariate.||||-13.6|-38.4|<0.001
82388668|NCT02004886|164488642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3||||0.04|TWO_SIDED|95.0|-35.7|-0.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-0.9|-35.7|0.04
82388669|NCT02004886|164488642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.6|||<|0.001|TWO_SIDED|95.0|-60.9|-26.3|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-26.3|-60.9|<0.001
82388670|NCT02004886|164488642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.32|TWO_SIDED|95.0|-25.7|8.5|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||8.5|-25.7|0.320
82388671|NCT02004886|164488644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.751|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||||0.9|-0.7|0.751
82388672|NCT02004886|164488644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.581|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|||||0.6|-1.0|0.581
82388673|NCT02004886|164488644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.918|TWO_SIDED|95.0|-0.8|0.8|||ANCOVA|||||0.8|-0.8|0.918
82443794|NCT00159913|164596165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.24|STANDARD_ERROR_OF_MEAN|6.2||0.139||95.0|-3.05|21.54|||ANCOVA|The model included the covariates etiology and weight group||||21.54|-3.05|0.139
82388674|NCT02004886|164488646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.253|TWO_SIDED|95.0|-21.1|5.6|||ANCOVA|||||5.6|-21.1|0.253
82388675|NCT02004886|164488646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5||||0.07|TWO_SIDED|95.0|-26.0|1.0|||ANCOVA|||||1.0|-26.0|0.070
82388676|NCT02004886|164488646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.1|||<|0.001|TWO_SIDED|95.0|-39.5|-12.8|||ANCOVA|||||-12.8|-39.5|<0.001
82388677|NCT02004886|164488647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-89.9||||0.002|TWO_SIDED|95.0|-145.6|-34.0|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-34.0|-145.6|0.002
82388678|NCT02004886|164488647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-191.1|||<|0.001|TWO_SIDED|95.0|-246.4|-135.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-135.9|-246.4|<0.001
82388679|NCT02004886|164488647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-97.7||||0.001|TWO_SIDED|95.0|-152.4|-42.9|||ANCOVA|Relevant baseline efficacy measurements were the covariates.||||-42.9|-152.4|0.001
82388680|NCT02004886|164488648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.408|TWO_SIDED|95.0|-1.5|3.7|||ANCOVA|||||3.7|-1.5|0.408
82525174|NCT01337986|164747075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||Regression, Logistic|||||||.34
82388681|NCT02004886|164488648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.741|TWO_SIDED|95.0|-3.1|2.2|||ANCOVA|||||2.2|-3.1|0.741
82388682|NCT02004886|164488648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.906|TWO_SIDED|95.0|-2.8|2.5|||ANCOVA|||||2.5|-2.8|0.906
82388683|NCT02004886|164488649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.857|TWO_SIDED|95.0|-30.4|25.3|||ANCOVA|||||25.3|-30.4|0.857
82388684|NCT02004886|164488649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.906|TWO_SIDED|95.0|-30.3|26.9|||ANCOVA|||||26.9|-30.3|0.906
82640753|NCT02276274|164996072|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1182|||||TWO_SIDED|90.0|-0.0405|0.2769|||||ANOVA was performed on log-transformed values of Cmax with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.2769|-0.0405|
82388685|NCT02004886|164488649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.63|TWO_SIDED|95.0|-34.0|20.8|||ANCOVA|||||20.8|-34.0|0.630
82388686|NCT01876784|164488652|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.08|TWO_SIDED|95.0|0.55|1.03||Threshold for significance at 0.05 level.|Log Rank||Vandetanib 300 mg vs Placebo|A multiple testing procedure (MTP) with an alpha-exhaustive recycling strategy was employed to provide adequate control of type I error.||1.03|0.55|0.080
82388687|NCT00474201|164488667|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|Students paired, two-tailed T-test||"Null hypothesis: lopinavir-ritonavir does not alter gemfibrozil pharmacokinetics.~A sample size of 13 healthy subjects yielded 81% power to detect a clinically relevant change of 30% in gemfibrozil AUC with concomitant lopinavir-ritonavir (alpha = 0.05; beta = 0.2). Gemfibrozil pharmacokinetic parameters derived pre- and post lopinavir-ritonavir exposure (Days 1 and 14, respectively) were compared using a paired Students t test."||||<0.0001
82388688|NCT01500187|164488668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.636|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at baseline||||0.636
82388689|NCT01500187|164488668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at three months||||0.001
82388690|NCT01500187|164488668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.423|||||||ANOVA|||Null Hypothesis: there is no intergroup difference (α=0.05) in DIAGNOdent reading at six months||||0.423
82388691|NCT02784613|164488680|SUPERIORITY|||||||0.05||||||Differences in pre- and post-treatment scores were compared using Wilcoxon signed-rank test for non-parametric matched pairs. All tests of significance were 2-tailed. All analyses were performed in Stata®, version 13.|t-test, 2 sided|||||||0.05
82425930|NCT00402987|164560375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.5||||0.371||95.0|-6.6|17.7||Analysis of Global Satisfaction|Generalized linear model|Treatment as a fixed effect||||17.7|-6.6|0.371
82425931|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||<0.001
82425932|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.002
82425933|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.235||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.235
82425934|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.012
82640754|NCT02276274|164996074|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0139|||||TWO_SIDED|90.0|-0.0598|0.032|||||ANOVA was performed on log-transformed values of AUC (0-inf) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0320|-0.0598|
82388692|NCT01551264|164488683|OTHER|P-value by chi-square comparing the Kaplan-Meier recurrence-free survival probability at 1.2 years post treatment with robust estimate of standard error due to the a priori assumption that data from bilateral limbs are correlated.||||||0.03|||||||Chi-squared|||||||0.03
82388693|NCT00688662|164488747|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.6||||0.01|TWO_SIDED|95.0|-28.0|-3.3||The primary analysis was conducted using a logistic regression model with treatment group as the factor of interest and clinical center and PSH status as covariates. A Wald test using a two-tailed significance level of 0.0499 was conducted.|Regression, Logistic|Adjusted and unadjusted risk differences with two-sided 95% confidence intervals are reported in the manuscript.|The unadjusted risk difference and confidence interval was -14.3% (-27.3%, -1.2%).|The trial was designed to test for an overall absolute difference of at least 30% in the primary outcome ('success') in patients treated with sphincterotomy compared to those treated with sham. Using a 2:1 allocation, an assumed 10% non-adherence rate, and one interim analysis for efficacy using O'Brien and Fleming boundaries and futility using conditional power, the study required 214 patients to be randomized to ensure greater than 90% likelihood of identifying this difference.||-3.3|-28.0|0.01
82388694|NCT00688662|164488748|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.0|||||TWO_SIDED|95.0|-24.1|5.9||A confidence interval approach was used for examining this outcome.||||Only patients with abnormal manometry were included in this subgroup analysis.||5.9|-24.1|
82388695|NCT03425396|164488796|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.5|||||TWO_SIDED|95.0|-16.8|9.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.6|-16.8|
82388696|NCT03425396|164488796|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.0|||||TWO_SIDED|95.0|-27.4|1.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.2|-27.4|
82388697|NCT03425396|164488796|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.6|||||TWO_SIDED|95.0|-19.6|7.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.4|-19.6|
82443795|NCT00159913|164596165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.34|STANDARD_ERROR_OF_MEAN|7.84||||95.0|-5.21|25.9|||ANCOVA|The model included the covariates etiology and weight group||||25.90|-5.21|
82443796|NCT00159913|164596165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.43|STANDARD_ERROR_OF_MEAN|7.67||||95.0|-3.78|26.64|||ANCOVA|The model included the covariates etiology and weight group||||26.64|-3.78|
82525175|NCT01337986|164747077|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.04|TWO_SIDED|95.0|1.02|2.1||Probability of being in the lowest quartile for Visual Field Index deficits.|Regression, Logistic||Odds Ratio for Visual Field Index|||2.10|1.02|0.04
82525176|NCT01337986|164747078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|||||||Regression, Logistic|||||||0.94
82525177|NCT01337986|164747079|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82525178|NCT01337986|164747080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72|||||||Regression, Linear|||||||0.72
82525179|NCT00141739|164747085|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||0.001
82525180|NCT02798211|164747091|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0011|TWO_SIDED|95.0|1.65|7.45|||Regression, Logistic|Statistical analysis (logistic regression) of ACR20 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||7.45|1.65|0.0011
82525181|NCT02798211|164747091|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0961|TWO_SIDED|95.0|0.89|4.15|||Regression, Logistic|Statistical analysis (logistic regression) of ACR20 response in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, 16 weeks||4.15|0.89|0.0961
82525182|NCT02798211|164747092|SUPERIORITY||Odds Ratio (OR)|0.6||||0.333|TWO_SIDED|95.0|0.22|1.68|||Regression, Logistic|Statistical analysis (logistic regression) of presence of dactylitis by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, 16 weeks||1.68|0.22|0.3330
82573532|NCT03178344|164857341|EQUIVALENCE|ANOVA||||||0.71||||||P value threshold is 0.05.|ANOVA|||||||0.71
82525183|NCT02798211|164747092|SUPERIORITY||Odds Ratio (OR)|0.4||||0.0841|TWO_SIDED|95.0|0.14|1.13|||Regression, Logistic|Statistical analysis (logistic regression) of presence of dactylitis in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, 16 weeks||1.13|0.14|0.0841
82525184|NCT02798211|164747093|SUPERIORITY||Odds Ratio (OR)|0.52||||0.1618|TWO_SIDED|95.0|0.21|1.3|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||1.30|0.21|0.1618
82525185|NCT02798211|164747093|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0898|TWO_SIDED|95.0|0.19|1.13|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||1.13|0.19|0.0898
82525186|NCT02798211|164747094|SUPERIORITY||Odds Ratio (OR)|0.27||||0.0125|TWO_SIDED|95.0|0.09|0.75|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (LEI) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||0.75|0.09|0.0125
82525187|NCT02798211|164747094|SUPERIORITY||Odds Ratio (OR)|0.25||||0.0086|TWO_SIDED|95.0|0.09|0.7|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||0.70|0.09|0.0086
82525188|NCT02798211|164747095|SUPERIORITY||Odds Ratio (OR)|0.35||||0.0338|TWO_SIDED|95.0|0.13|0.92|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC and LEI) in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, 16 weeks||0.92|0.13|0.0338
82525189|NCT02798211|164747095|SUPERIORITY||Odds Ratio (OR)|0.36||||0.0359|TWO_SIDED|95.0|0.14|0.93|||Regression, Logistic|Statistical analysis (logistic regression) of presence of enthesitis (SPARCC and LEI) in treatment period 1 (non-responder imputation)||secukinumab 150mg s.c. injection, 16 weeks||0.93|0.14|0.0359
82525190|NCT02798211|164747096|SUPERIORITY||Odds Ratio, log|6.3||||0.0038|TWO_SIDED|95.0|1.81|21.88|||Regression, Logistic|Statistical analysis (logistic regression) of ACR50 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, week 16||21.88|1.81|0.0038
82525191|NCT02798211|164747096|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0149|TWO_SIDED|95.0|1.36|16.77|||Regression, Logistic|Statistical analysis (logistic regression) of ACR50 response by visit in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.77|1.36|0.0149
82525192|NCT02798211|164747097|SUPERIORITY||Odds Ratio, log|10.5||||0.0243|TWO_SIDED|95.0|1.36|81.3|||Regression, Logistic|Statistical analysis (logistic regression) of ACR70 response in treatment period 1 (non-responder imputation)||secukinumab 300mg s.c. injection, week 16||81.30|1.36|0.0243
82525193|NCT02798211|164747097|SUPERIORITY||Odds Ratio (OR)|5.42||||0.112|TWO_SIDED|95.0|0.67|43.64|||Regression, Logistic|Statistical analysis (logistic regression) of ACR70 response by visit in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||43.64|0.67|0.1120
82573533|NCT00420784|164857374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.23|||<|0.001|TWO_SIDED|95.0|4.14|16.36|||Regression, Logistic|||||16.36|4.14|<0.001
82525194|NCT02798211|164747098|SUPERIORITY||Odds Ratio, log|9.49|||<|0.0001|TWO_SIDED|95.0|3.73|24.16|||Regression, Logistic|Statistical analysis (logistic regression) of PASI75 response by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||24.16|3.73|<0.0001
82525195|NCT02798211|164747098|SUPERIORITY||Odds Ratio (OR)|6.38||||0.0001|TWO_SIDED|95.0|2.51|16.24|||Regression, Logistic|Statistical analysis (logistic regression) of PASI75 response by visit - in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.24|2.51|0.0001
82573534|NCT00420784|164857374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.52|||<|0.001|TWO_SIDED|95.0|4.72|19.2|||Regression, Logistic|||||19.20|4.72|<0.001
82573535|NCT00420784|164857374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31||||0.024|TWO_SIDED|95.0|1.12|4.75|||Regression, Logistic|||||4.75|1.12|0.024
82573536|NCT00420784|164857376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.64|||<|0.001|TWO_SIDED|95.0|3.41|12.96|||Regression, Logistic|||||12.96|3.41|<0.001
82573537|NCT00420784|164857376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.72|||<|0.001|TWO_SIDED|95.0|2.91|11.27|||Regression, Logistic|||||11.27|2.91|<0.001
82573538|NCT00420784|164857376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.067|TWO_SIDED|95.0|0.95|4.0|||Regression, Logistic|||||4.00|0.95|0.067
82573539|NCT00820664|164857421|SUPERIORITY_OR_OTHER||Least Squares Mean|0.49|||<|0.001||95.0|0.31|1.0||1-sided, alpha=0.05|ANOVA|A one-way ANOVA model with term treatment was fit to the square root transformed response.||||1.00|0.31|<0.001
82388698|NCT03425396|164488796|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
82388699|NCT03425396|164488797|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-1.6|||||TWO_SIDED|95.0|-14.3|11.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||11.2|-14.3|
82388700|NCT03425396|164488797|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.7|||||TWO_SIDED|95.0|-16.8|9.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.0|-16.8|
82388701|NCT03425396|164488797|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|0.0|||||TWO_SIDED|95.0|-12.3|12.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.3|-12.3|
82388702|NCT03425396|164488797|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
82425935|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.438||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.438
82573540|NCT00820664|164857421|SUPERIORITY_OR_OTHER||Least Squares Mean|0.19||||0.032||95.0|0.02|1.0||1-sided, alpha=0.05|ANOVA|A one-way ANOVA model with term treatment was fit to the square root transformed response.||||1.00|0.02|0.032
82573541|NCT01667549|164857423|OTHER|Repeated Measures ANOVA were done with type of cereal as within-subjects and experimental group as grouping factors. When significant, planned comparisons were carried out. ANOVAs with a priori contrasts specified determined whether 1-month exposure differed from the no-exposure control (timing hypothesis). ANOVAs with a priori contrasts specified determined whether 1-month differed from 3-months exposure and whether these groups differed from no-exposure control (duration hypothesis).||||||0.02||||||Bonferroni adjustment was made and only planned pairwise comparisons with calculated p values of 0.02 or lower significant.|planned comparison|Bonferroni adjustment was calculated and only planned pair-wise comparisons with calculated p value 0.02 or lower were considered significant.||Separate analyses of variance with a priori contrasts specified were conducted: 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||0.02
82573542|NCT01667549|164857424|OTHER||||||<|0.02|||||||ANOVA|||Repeated measures ANOVAs were conducted on maternal gLMS ratings with type of juice and time as the within-subject factors and experimental group as the grouping factor||||<0.02
82388703|NCT03425396|164488798|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.0|||||TWO_SIDED|95.0|-22.5|16.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||16.8|-22.5|
82388704|NCT03425396|164488798|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-4.7|||||TWO_SIDED|95.0|-23.3|14.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.2|-23.3|
82388705|NCT03425396|164488798|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|5.7|||||TWO_SIDED|95.0|-13.0|22.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||22.6|-13.0|
82388706|NCT03425396|164488798|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||28.9|-40.4|
82388707|NCT03425396|164488799|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|1.7|||||TWO_SIDED|95.0|-10.0|13.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.4|-10.0|
82525196|NCT02798211|164747099|SUPERIORITY||Odds Ratio, log|9.86|||<|0.0001|TWO_SIDED|95.0|3.19|30.45|||Regression, Logistic|Statistical analysis (logistic regression) of PASI90 response in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||30.45|3.19|<.0001
82577047|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.24||0.0922|TWO_SIDED|95.0|-0.89|0.07|||MMRM|||Feelings of Guilt, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.89|0.0922
82388708|NCT03425396|164488799|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|-2.9|||||TWO_SIDED|95.0|-16.2|9.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||9.7|-16.2|
82388709|NCT03425396|164488799|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment Difference|7.7|||||TWO_SIDED|95.0|-0.3|18.5|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||18.5|-0.3|
82388710|NCT03425396|164488799|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatm,ent difference|7.7|||||TWO_SIDED|95.0|-34.9|20.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.6|-34.9|
82388711|NCT03425396|164488800|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|0.0|||||TWO_SIDED|95.0|-12.6|12.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.6|-12.6|
82525197|NCT02798211|164747099|SUPERIORITY||Odds Ratio (OR)|5.21||||0.0043|TWO_SIDED|95.0|1.68|16.21|||Regression, Logistic|Statistical analysis (logistic regression) of PASI90 response in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||16.21|1.68|0.0043
82525198|NCT02798211|164747100|SUPERIORITY||Odds Ratio, log|14.38||||0.0107|TWO_SIDED|95.0|1.86|111.53|||Regression, Logistic|Statistical analysis (logistic regression) of PASI100 response by visit in treatment period 1 (non-responder imputation)||secukinumab 300 mg s.c. injection, week 16||111.53|1.86|0.0107
82525199|NCT02798211|164747100|SUPERIORITY||Odds Ratio (OR)|9.82||||0.0307|TWO_SIDED|95.0|1.24|77.9|||Regression, Logistic|Statistical analysis (logistic regression) of PAS100 response by in treatment period 1 (non-responder imputation)||secukinumab 150 mg s.c. injection, week 16||77.90|1.24|0.0307
82525200|NCT02798211|164747101|SUPERIORITY||LS Mean of Treatment Difference|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.45|-0.65|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in DAS28-CRP score in treatment period 1 (LOCF)||secukinumab 300mg s.c. injection, 16 weeks|"Standard Error of Treatment Difference~0.203"|-0.65|-1.45|<.0001
82525201|NCT02798211|164747101|SUPERIORITY||LS Means of Treatment Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.24|-0.43|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in DAS28-CRP score in treatment period 1 (LOCF)||secukinumab 150 mg s.c. injection|"LS Mean of Treatment Difference~0.207"|-0.43|-1.24|<.0001
82525202|NCT02798211|164747102|SUPERIORITY||LS Mean of Treatment Difference|-0.21||||0.0107|TWO_SIDED|95.0|-0.37|-0.05|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in HAQ-DI score by in treatment period 1 (LOCF)||secukinumab 300mg s.c. injection|"Standard Error of Treatment Difference~0.081"|-0.05|-0.37|0.0107
82525203|NCT02798211|164747102|SUPERIORITY|secukinumab 150 mg s.c. injection|LS Mean Treatment Difference|-0.13||||0.1109|TWO_SIDED|95.0|-0.3|0.03|||ANCOVA|Statistical analysis (ANCOVA) of change from baseline in HAQ-DI score by visit - in treatment period 1 (LOCF)|||"Standard Error of Treatment Difference~-0.083"|0.03|-0.30|0.1109
82525204|NCT01498822|164747115|NON_INFERIORITY_OR_EQUIVALENCE|The primary analysis of this study aimed to demonstrate that LEV was noninferior to OXC with respect to the treatment failure rate in the Per Protocol Set. The noninferiority margin was 15 %.|Absolut difference|-10.7|||||TWO_SIDED|95.0|-20.2|-1.2|||Wald methodology||"Absolute difference in treatment failure rates of LEV versus OXC is defined as Treatment Failure Rate LEV minus Treatment Failure Rate OXC."|||-1.2|-20.2|
82577048|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.23||0.0761|TWO_SIDED|95.0|-0.87|0.04|||MMRM|||Feelings of Guilt, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.87|0.0761
82525205|NCT01148862|164747129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.2||||0.006|||||||ANCOVA|||||||0.006
82525206|NCT01148862|164747130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.015||95.0|||||ANCOVA|||||||0.015
82525207|NCT03815019|164747131|SUPERIORITY||Odds Ratio, log|7.2218|STANDARD_ERROR_OF_MEAN|13083.0|||TWO_SIDED||||||||Participants in the megestrol group who successfully transitioned to oral feeding.|Analysis conducted using Generalized Linear Mixed Models with a logit link within SAS Proc GLIMMIX to model the binary outcome of transitioned to oral feeding (y/n) defined as at least 90 percent of calories consumed orally. Fixed effects (dummy variables) will be entered for each site as described by McNeish and Stapleton (2016) to account for the clustering of the participants within sites. This will result in essentially, a logistic regression model with appropriate standard errors.||||
82525208|NCT03815019|164747131|SUPERIORITY||Odds Ratio, log|9.1544|STANDARD_ERROR_OF_MEAN|13083.0|||TWO_SIDED||||||||Participants in the placebo group who successfully transitioned to oral feeding.|Analysis conducted using Generalized Linear Mixed Models with a logit link within SAS Proc GLIMMIX to model the binary outcome of transitioned to oral feeding (y/n) defined as at least 90 percent of calories consumed orally. Fixed effects (dummy variables) will be entered for each site as described by McNeish and Stapleton (2016) to account for the clustering of the participants within sites. This will result in essentially, a logistic regression model with appropriate standard errors.||||
82426861|NCT01448616|164561933|SUPERIORITY||Risk Ratio (RR)|0.9||||0.47|TWO_SIDED|95.0|0.67|1.22|||Poisson GLM|||Intent to treat analysis||1.22|0.67|0.47
82525209|NCT03815019|164747133|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED||||||||Pr(\>F) = 0.7846, Nested model using site as a predictor|||||
82525210|NCT03815019|164747134|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED||||||||Pr(\>F) = 0.7025, Nested model using site as a predictor|||||
82525211|NCT03815019|164747135|SUPERIORITY||Mean Difference (Final Values)|0.18|||||TWO_SIDED||||||||Pr(\>F) = 0.6764, Nested model using site as a predictor|||||
82577049|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.217||0.3275|TWO_SIDED|95.0|-0.64|0.22|||MMRM|||Feelings of Guilt, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.64|0.3275
82640755|NCT02276274|164996089|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.014|||||TWO_SIDED|90.0|-0.0918|0.0638|||||ANOVA was performed on log-transformed values of AUC (0-48) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0638|-0.0918|
82388712|NCT03425396|164488800|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.7|||||TWO_SIDED|95.0|-16.3|10.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||10.2|-16.3|
82388713|NCT03425396|164488800|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|6.0|||||TWO_SIDED|95.0|-4.5|17.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||17.7|-4.5|
82388714|NCT03425396|164488800|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|8.2|||||TWO_SIDED|95.0|-35.3|20.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.7|-35.3|
82388715|NCT03425396|164488801|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%|Treatment difference|-6.0|||||TWO_SIDED|95.0|-27.3|13.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.3|-27.3|
82388716|NCT03425396|164488801|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-10.6|||||TWO_SIDED|95.0|-29.2|8.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||8.6|-29.2|
82425936|NCT00402987|164560376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.067||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.067
82577050|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.213||0.3041|TWO_SIDED|95.0|-0.64|0.2|||MMRM|||Feelings of Guilt, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.64|0.3041
82640756|NCT02276274|164996090|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0164|||||TWO_SIDED|90.0|-0.0934|0.0605|||||ANOVA was performed on log-transformed values of AUC (0-tlqc) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0605|-0.0934|
82388717|NCT03425396|164488801|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment Difference|1.3|||||TWO_SIDED|95.0|-19.0|19.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||19.2|-19.0|
82426862|NCT02347605|164561945|SUPERIORITY|||||||0.25||||||Adjusted for treatment order, session, room sequence|Mixed Models Analysis|||||||0.25
82525212|NCT03815019|164747136|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED||||||||Pr(\>F) = 0.7649, Nested model using site as a predictor|||||
82525213|NCT03815019|164747137|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED||||||||Pr(\>F) = 0.9487, Nested model using site as a predictor|||||
82525214|NCT03815019|164747138|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED||||||||Pr(\>F) = 0.7669, Nested model using site as a predictor|||||
82525215|NCT03815019|164747139|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED||||||||Pr(\>F) = 0.5883, Nested model using site as a predictor|||||
82525216|NCT03815019|164747140|SUPERIORITY||Mean Difference (Final Values)|0.52|||||TWO_SIDED||||||||Pr(\>F) = 0.4749, Nested model using site as a predictor|||||
82525217|NCT03815019|164747141|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED||||||||Pr(\>F) = 0.8781, Nested model using site as a predictor|||||
82573543|NCT01667549|164857425|OTHER|Repeated Measures ANOVA were done with type of cereal as within-subjects and experimental group as grouping factors. When significant, planned comparisons were carried out. ANOVAs with a priori contrasts specified determined whether 1-month exposure differed from the no-exposure control (timing hypothesis). ANOVAs with a priori contrasts specified determined whether 1-month differed from 3-months exposure and whether these groups differed from no-exposure control (duration hypothesis).|||||<|0.02||||||Because three comparisons were made for each outcome measure, a Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.|planned comparison|a Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.||Separate analyses of variance with a priori contrasts specified were conducted: 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||<0.02
82573544|NCT01667549|164857426|OTHER||||||<|0.02||||||Because three comparisons were made for each outcome measure, a Bonferroni adjustment was calculated and only planned comparison with P\<0.02 were considered significant.|planned comparison|A Bonferroni adjustment was calculated and only planned comparison with P's\<0.02 were considered significant.||Separate analyses of variance with a priori contrasts specified 1) to determine whether the 1-month exposure groups (1M0.5, 1M1.5, and 1M2.5) differed from the no-exposure control group to test the hypothesis that the timing of exposure affected acceptance; and 2) to determine whether 1 month of exposure differed from 3 months (1M0.5, 3M0.5 groups) and whether these groups differed from the no-exposure control group (duration hypothesis).||||<0.02
82573545|NCT01667549|164857427|OTHER||||||<|0.05|||||||ANOVA|||General linear models were conducted on WLZ scores with time as the within-subjects factor and Group as the between-subjects factor to determine there were differences in growth of the infants over time. This was not done to test hypothesis but to monitor growth of infants during course of trial.||||<0.05
82388718|NCT03425396|164488801|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||28.9|-40.4|
82573546|NCT01407276|164857428|SUPERIORITY_OR_OTHER||GMR|0.94|||||TWO_SIDED|90.0|0.8|1.11|||Geometric mean ratio (GMR)|GMR of Panel A:Panel B||||1.11|0.80|
82525218|NCT04270747|164747168|OTHER|A pre-specified similarity margin of (-3, 3) ETDRS letters was used to demonstrate clinical similarity for the mean change from Baseline in BCVA at Week 8.|Difference between means|0.1|||||TWO_SIDED|90.0|-1.1|1.3|||||Estimated using analysis of covariance (ANCOVA) model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||1.3|-1.1|
82525219|NCT04270747|164747169|OTHER||Risk Difference (RD)|-2.1|||||TWO_SIDED|90.0|-5.2|2.2|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who maintained vision at Week 52.||2.2|-5.2|
82525220|NCT04270747|164747169|OTHER||Risk Difference (RD)|-1.7|||||TWO_SIDED|90.0|-6.2|2.8|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who maintained vision at Week 52.||2.8|-6.2|
82525221|NCT04270747|164747170|OTHER||Difference between means|-0.1|||||TWO_SIDED|90.0|-1.3|1.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 4.||1.2|-1.3|
82525222|NCT04270747|164747170|OTHER||Difference between means|-0.8|||||TWO_SIDED|90.0|-2.3|0.7|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||0.7|-2.3|
82525223|NCT04270747|164747170|OTHER||Difference between means|-0.3|||||TWO_SIDED|90.0|-1.9|1.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 16.||1.2|-1.9|
82525224|NCT04270747|164747170|OTHER||Difference between means|0.4|||||TWO_SIDED|90.0|-1.3|2.1|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 24.||2.1|-1.3|
82525225|NCT04270747|164747170|OTHER||Difference between means|-1.3|||||TWO_SIDED|90.0|-3.1|0.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 32.||0.5|-3.1|
82525226|NCT04270747|164747170|OTHER||Difference between means|-0.5|||||TWO_SIDED|90.0|-2.3|1.4|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 40.||1.4|-2.3|
82525227|NCT04270747|164747170|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-3.2|0.8|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 48.||0.8|-3.2|
82573547|NCT01407276|164857428|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.34|||||TWO_SIDED|90.0|1.12|1.61|||GMR of Panel C:Panel D|||||1.61|1.12|
82573548|NCT01407276|164857428|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.56|||||TWO_SIDED|90.0|1.32|1.85|||GMR of Panel E:Panel F|||||1.85|1.32|
82573549|NCT01407276|164857428|SUPERIORITY_OR_OTHER||GMR or Panel G:Panel H|1.89|||||TWO_SIDED|90.0|1.4|2.55|||GMR of Panel G:Panel H|||||2.55|1.40|
82573550|NCT01407276|164857428|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.97|||||TWO_SIDED|90.0|1.46|2.66|||GMR of Panel G:Panel H|||||2.66|1.46|
82573551|NCT01407276|164857429|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.94|||||TWO_SIDED|90.0|0.79|1.12|||GMR of Panel A:Panel B|||||1.12|0.79|
82573552|NCT01407276|164857429|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.13|||||TWO_SIDED|90.0|0.91|1.41|||GMR of Panel C:Panel D|||||1.41|0.91|
82573553|NCT01407276|164857429|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.9|||||TWO_SIDED|90.0|0.66|1.23|||GMR of Panel E:Panel F|||||1.23|0.66|
82388719|NCT03425396|164488802|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.3|||||TWO_SIDED|95.0|-18.6|7.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.8|-18.6|
82388720|NCT03425396|164488802|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-14.8|||||TWO_SIDED|95.0|-29.6|-0.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-0.6|-29.6|
82573554|NCT01407276|164857429|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.74|||||TWO_SIDED|90.0|0.57|0.96|||GMR of Panel E:Panel F|||||0.96|0.57|
82573555|NCT01407276|164857429|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.73|||||TWO_SIDED|90.0|0.56|0.95|||GMR of Panel E:Panel F|||||0.95|0.56|
82573556|NCT01407276|164857430|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.92|||||TWO_SIDED|90.0|0.81|1.05|||GMR of Panel A:Panel B|||||1.05|0.81|
82573557|NCT01407276|164857430|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.33||||||90.0|1.07|1.65|||GMR of Panel C:Panel D|||||1.65|1.07|
82573558|NCT01407276|164857430|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.37|||||TWO_SIDED|90.0|1.13|1.65|||GMR of Panel E:Panel F|||||1.65|1.13|
82573559|NCT01407276|164857430|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.38|||||TWO_SIDED|90.0|1.06|1.79|||GMR of Panel G:Panel H|||||1.79|1.06|
82640757|NCT02276274|164996092|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1518|||||TWO_SIDED|90.0|-0.2356|-0.068|||||ANOVA was performed on log-transformed values of Cmax with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||-0.0680|-0.2356|
82640758|NCT02276274|164996094|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.0179|||||TWO_SIDED|90.0|-0.095|0.0591|||||ANOVA was performed on log-transformed values of AUC (0-inf) with regimen, treatment group (treatment sequence), and treatment period as fixed effects.|||0.0591|-0.0950|
82388721|NCT03425396|164488802|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.3|||||TWO_SIDED|95.0|-23.2|4.4|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||4.4|-23.2|
82443797|NCT00159913|164596165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|7.62||||95.0|-9.16|21.08|||ANCOVA|The model included the covariates etiology and weight group||||21.08|-9.16|
82573560|NCT01407276|164857430|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.3|||||TWO_SIDED|90.0|1.0|1.68|||GMR of Panel G:Panel H|||||1.68|1.00|
82573561|NCT01407276|164857431|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.92|||||TWO_SIDED|90.0|0.75|1.12|||GMR of Panel A:Panel B|||||1.12|0.75|
82640759|NCT02279888|164996140|OTHER|the lower limit of the two-sided 95% confidence interval on the freedom from DSRC rate at 24 months is greater than 80%|Kaplan Meier|0.05|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82573562|NCT01407276|164857431|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|1.45|||||TWO_SIDED|90.0|1.19|1.76|||GMR of Panel C:Panel D|||||1.76|1.19|
82573563|NCT01407276|164857431|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|1.83|||||TWO_SIDED|90.0|1.49|2.24|||GMR of Panel E:Panel F|||||2.24|1.49|
82573564|NCT01407276|164857431|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.9|||||TWO_SIDED|90.0|1.41|2.54|||GMR of Panel G:Panel H|||||2.54|1.41|
82573565|NCT01407276|164857431|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|1.88|||||TWO_SIDED|90.0|1.4|2.52|||GMR of Panel G:Panel H|||||2.52|1.40|
82573566|NCT01407276|164857432|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|1.11|||||TWO_SIDED|90.0|0.87|1.42|||GMR of Panel A:Panel B|||||1.42|0.87|
82573567|NCT01407276|164857432|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.75|||||TWO_SIDED|90.0|0.53|1.07|||GMR of Panel C:Panel D|||||1.07|0.53|
82573568|NCT01407276|164857432|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.68|||||TWO_SIDED|90.0|0.51|0.92|||GMR of Panel E:Panel F|||||0.92|0.51|
82573569|NCT01407276|164857432|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.7|||||TWO_SIDED|90.0|0.5|0.98|||GMR of Panel G:Panel H|||||0.98|0.50|
82573570|NCT01407276|164857432|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.8|||||TWO_SIDED|90.0|0.57|1.12|||GMR of Panel G:Panel H|||||1.12|0.57|
82573571|NCT01407276|164857433|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|1.06|||||TWO_SIDED|90.0|0.9|1.25|||GMR of Panel A:Panel B|||||1.25|0.90|
82573572|NCT01407276|164857433|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.75|||||TWO_SIDED|90.0|0.62|0.89|||GMR of Panel C:Panel D|||||0.89|0.62|
82573573|NCT01407276|164857433|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.64|||||TWO_SIDED|90.0|0.54|0.76|||GMR of Panel E:Panel F|||||0.76|0.54|
82573574|NCT01407276|164857433|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.53|||||TWO_SIDED|90.0|0.39|0.71|||GMR of Panel G:Panel H|||||0.71|0.39|
82573575|NCT01407276|164857433|SUPERIORITY_OR_OTHER||GMR of Panel G:Panel H|0.51|||||TWO_SIDED|90.0|0.38|0.68|||GMR of Panel G:Panel H|||||0.68|0.38|
82573576|NCT01407276|164857434|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.93|||||TWO_SIDED|90.0|0.74|1.18|||GMR of Panel A:Panel B|||||1.18|0.74|
82573577|NCT01407276|164857434|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.73|||||TWO_SIDED|90.0|0.55|0.96|||GMR of Panel C:Panel D|||||0.96|0.55|
82573578|NCT01407276|164857434|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.42|||||TWO_SIDED|90.0|0.33|0.54|||GMR of Panel E:Panel F|||||0.54|0.33|
82573579|NCT01407276|164857435|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.86|||||TWO_SIDED|90.0|0.69|1.07|||GMR of Panel A:Panel B|||||1.07|0.69|
82640760|NCT02279888|164996142|OTHER||Hazard Ratio (HR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.39|0.47|||Andersen-Gill||This analysis applies to Primary Outcome: HFH Rate|||0.47|0.39|<0.0001
82640761|NCT02279888|164996144|OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.52|0.62|||Andersen-Gill|||||0.62|0.52|<0.0001
82388722|NCT03425396|164488802|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.2|||||TWO_SIDED|95.0|-44.1|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-44.1|
82388723|NCT03425396|164488803|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-0.3|||||TWO_SIDED|95.0|-13.1|12.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||12.7|-13.1|
82388724|NCT03425396|164488803|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.8|||||TWO_SIDED|95.0|-20.7|7.8|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||7.8|-20.7|
82388725|NCT03425396|164488803|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-1.1|||||TWO_SIDED|95.0|-15.1|11.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||11.6|-15.1|
82388726|NCT03425396|164488803|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|8.2|||||TWO_SIDED|95.0|-35.3|20.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||20.7|-35.3|
82388727|NCT03425396|164488804|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-6.0|||||TWO_SIDED|95.0|-27.3|13.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||13.3|-27.3|
82388728|NCT03425396|164488804|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.5|||||TWO_SIDED|95.0|-32.4|5.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||5.9|-32.4|
82525228|NCT04270747|164747170|OTHER||Difference between means|-1.5|||||TWO_SIDED|2.0|-3.4|0.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 52.||0.5|-3.4|
82525229|NCT04270747|164747170|OTHER||Difference between means|-1.5|||||TWO_SIDED|90.0|-3.0|0.0|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 4.||0.0|-3.0|
82573580|NCT01407276|164857435|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.9|||||TWO_SIDED|90.0|0.7|1.15|||GMR of Panel C:Panel D|||||1.15|0.70|
82573581|NCT01407276|164857435|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.5|||||TWO_SIDED|90.0|0.37|0.67|||GMR of Panel E:Panel F|||||0.67|0.37|
82573582|NCT01407276|164857436|SUPERIORITY_OR_OTHER||GMR of Panel A:Panel B|0.86|||||TWO_SIDED|90.0|0.69|1.07|||GMR of Panel A:Panel B|||||1.07|0.69|
82525230|NCT04270747|164747170|OTHER||Difference between means|-1.9|||||TWO_SIDED|90.0|-3.6|-0.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 8.||-0.2|-3.6|
82525231|NCT04270747|164747170|OTHER||Difference between means|-0.3|||||TWO_SIDED|90.0|-2.1|1.5|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 16.||1.5|-2.1|
82573583|NCT01407276|164857436|SUPERIORITY_OR_OTHER||GMR of Panel C:Panel D|0.9|||||TWO_SIDED|90.0|0.7|1.15|||GMR of Panel C:Panel D|||||1.15|0.70|
82573584|NCT01407276|164857436|SUPERIORITY_OR_OTHER||GMR of Panel E:Panel F|0.5|||||TWO_SIDED|90.0|0.37|0.67|||GMR of Panel E:Panel F|||||0.67|0.37|
82573585|NCT02037776|164857445|SUPERIORITY|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups in Rikkunshito Placebo and Rikkunshito, based on the count of participants categorized in 1 (Significantly improved) through 7 (Much worse), using the Wilcoxon (Mann-Whitney).||||0.038
82573586|NCT02037776|164857446|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in all symptoms of modified FSSG||||0.027
82573587|NCT02037776|164857446|SUPERIORITY|||||||0.089|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in GERD symptoms of modified FSSG||||0.089
82573588|NCT02037776|164857446|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in dyspeptic symptoms of modified FSSG||||0.148
82573589|NCT02037776|164857447|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in total score of PAGI-SYM||||0.051
82388729|NCT03425396|164488804|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-3.0|||||TWO_SIDED|95.0|-25.7|15.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||15.6|-25.7|
82388730|NCT03425396|164488804|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|10.0|||||TWO_SIDED|95.0|-40.4|28.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated|||28.9|-40.4|
82388731|NCT03425396|164488805|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-21.3|||||TWO_SIDED|95.0|-44.1|-1.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-1.0|-44.1|
82388732|NCT03425396|164488805|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.9|||||TWO_SIDED|95.0|-32.2|4.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||4.9|-32.2|
82388733|NCT03425396|164488805|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-19.4|||||TWO_SIDED|95.0|-43.1|1.1|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.1|-43.1|
82425937|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.128
82573590|NCT02037776|164857447|SUPERIORITY|||||||0.947|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Heartburn/Regurgitation of PAGI-SYM||||0.947
82573591|NCT02037776|164857447|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Nausea/Vomiting of PAGI-SYM||||0.157
82525232|NCT04270747|164747170|OTHER||Difference between means|0.0|||||TWO_SIDED|90.0|-1.9|2.0|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 24.||2.0|-1.9|
82525233|NCT04270747|164747170|OTHER||Difference between means|-1.9|||||TWO_SIDED|90.0|-4.0|0.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 32.||0.2|-4.0|
82525234|NCT04270747|164747170|OTHER||Difference between means|0.0|||||TWO_SIDED|90.0|-2.2|2.2|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 40.||2.2|-2.2|
82573592|NCT02037776|164857447|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Postprandial Fullness/Early satiety of PAGI-SYM||||0.004
82573593|NCT02037776|164857447|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Bloating of PAGI-SYM||||0.011
82573594|NCT02037776|164857447|SUPERIORITY|||||||0.245|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Upper Abdominal Pain of PAGI-SYM||||0.245
82573595|NCT02037776|164857447|SUPERIORITY|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in Lower Abdominal Pain of PAGI-SYM||||0.387
82443798|NCT00159913|164596166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.1||0.172||95.0|-7.1|1.3|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.3|-7.1|0.172
82525235|NCT04270747|164747170|OTHER||Difference between means|-0.6|||||TWO_SIDED|90.0|-2.9|1.7|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 48.||1.7|-2.9|
82525236|NCT04270747|164747170|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-3.5|1.1|||||Estimated using ANCOVA model adjusted for the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA as covariates.|Difference in mean change from Baseline at Week 52.||1.1|-3.5|
82573596|NCT02037776|164857448|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||||||0.034
82525237|NCT04270747|164747171|OTHER||Risk Difference (RD)|-3.4|||||TWO_SIDED|90.0|-9.8|3.1|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 10 letters of vision at Week 8.||3.1|-9.8|
82573597|NCT02037776|164857449|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in PCS of SF-8||||0.270
82573598|NCT02037776|164857449|SUPERIORITY|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in MCS of SF-8||||0.342
82573599|NCT02037776|164857450|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in overall point score of HAD||||0.036
82573600|NCT02037776|164857450|SUPERIORITY|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in depression point score of HAD||||0.084
82573601|NCT02037776|164857450|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline in anxiety point score of HAD||||0.022
82443799|NCT00159913|164596166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.9||||95.0|-5.5|5.9|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||5.9|-5.5|
82443800|NCT00159913|164596166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|2.6||||95.0|-8.5|1.7|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.7|-8.5|
82443801|NCT00159913|164596166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.4||||95.0|-10.3|-0.7|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||-0.7|-10.3|
82525238|NCT04270747|164747172|OTHER||Risk Difference (RD)|-5.3|||||TWO_SIDED|90.0|-13.6|2.5|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 15 letters of vision at Week 52.||2.5|-13.6|
82525239|NCT04270747|164747172|OTHER||Risk Difference (RD)|-5.2|||||TWO_SIDED|90.0|-14.4|4.2|||||Estimated using the stratified Newcombe confidence limits (with Mantel-Haenszel weights) adjusting for stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters).|Risk difference in percentage of participants who gained at least 15 letters of vision at Week 52.||4.2|-14.4|
82443802|NCT00159913|164596167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.3||0.015||95.0|0.14|1.34|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.34|0.14|0.015
82525240|NCT04270747|164747173|OTHER||Difference between means|-0.048|||||TWO_SIDED|90.0|-0.734|0.638|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||0.638|-0.734|
82525241|NCT04270747|164747173|OTHER||Difference between means|0.431|||||TWO_SIDED|90.0|-0.367|1.229|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||1.229|-0.367|
82525242|NCT04270747|164747173|OTHER||Difference between means|0.197|||||TWO_SIDED|90.0|-0.625|1.019|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||1.019|-0.625|
82525243|NCT04270747|164747173|OTHER||Difference between means|0.156|||||TWO_SIDED|2.0|-0.561|0.872|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||0.872|-0.561|
82525244|NCT04270747|164747173|OTHER||Difference between means|0.105|||||TWO_SIDED|90.0|-0.682|0.891|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||0.891|-0.682|
82525245|NCT04270747|164747173|OTHER||Difference between means|0.245|||||TWO_SIDED|90.0|-0.667|1.158|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||1.158|-0.667|
82525246|NCT04270747|164747173|OTHER||Difference between means|-0.116|||||TWO_SIDED|90.0|-1.065|0.834|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||0.834|-1.065|
82525247|NCT04270747|164747173|OTHER||Difference between means|0.647|||||TWO_SIDED|90.0|-0.186|1.479|||||Estimated using ANCOVA model with treatment, Baseline CNV measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||1.479|-0.186|
82525248|NCT04270747|164747174|OTHER||Difference between means|6.2|||||TWO_SIDED|90.0|-5.6|17.9|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 4.||17.9|-5.6|
82525249|NCT04270747|164747174|OTHER||Difference between means|1.3|||||TWO_SIDED|90.0|-11.0|13.5|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||13.5|-11.0|
82525250|NCT04270747|164747174|OTHER||Difference between means|1.9|||||TWO_SIDED|90.0|-12.9|16.6|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||16.6|-12.9|
82525251|NCT04270747|164747174|OTHER||Difference between means|0.1|||||TWO_SIDED|90.0|-14.1|14.4|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||14.4|-14.1|
82525252|NCT04270747|164747174|OTHER||Difference between means|-1.2|||||TWO_SIDED|90.0|-15.3|12.9|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 32.||12.9|-15.3|
82525253|NCT04270747|164747174|OTHER||Difference between means|0.2|||||TWO_SIDED|90.0|-13.7|14.1|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 40.||14.1|-13.7|
82525254|NCT04270747|164747174|OTHER||Difference between means|7.0|||||TWO_SIDED|90.0|-7.4|21.4|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 48.||21.4|-7.4|
82525255|NCT04270747|164747174|OTHER||Difference between means|1.6|||||TWO_SIDED|2.0|-9.3|12.5|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||12.5|-9.3|
82525256|NCT04270747|164747174|OTHER||Difference between means|6.3|||||TWO_SIDED|90.0|-7.4|20.0|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 4.||20.0|-7.4|
82525257|NCT04270747|164747174|OTHER||Difference between means|-5.1|||||TWO_SIDED|90.0|-19.3|9.1|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 8.||9.1|-19.3|
82573602|NCT02165826|164857451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.017|TWO_SIDED|95.0|0.47|0.93||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||0.93|0.47|0.017
82573603|NCT02165826|164857451|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.68|||||TWO_SIDED|95.0|0.51|0.92|||||Cox proportional hazards model with study treatment and country as class effects, and baseline FEV1 as a continuous variable.|Analyses were performed using a hierarchical testing procedure.||0.92|0.51|
82573604|NCT02165826|164857451|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.114|TWO_SIDED|95.0|0.55|1.07||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||1.07|0.55|0.114
82573605|NCT02165826|164857451|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.77|||||TWO_SIDED|95.0|0.58|1.02|||||Cox proportional hazards model with study treatment and country as class effects, and baseline FEV1 as a continuous variable.|Analyses were performed using a hierarchical testing procedure.||1.02|0.58|
82573606|NCT02165826|164857452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.001|TWO_SIDED|95.0|0.47|0.83||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||0.83|0.47|0.001
82388734|NCT03425396|164488805|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|6.7|||||TWO_SIDED|95.0|-43.8|23.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||23.2|-43.8|
82388735|NCT03425396|164488806|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-14.7|||||TWO_SIDED|95.0|-37.2|3.1|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||3.1|-37.2|
82388736|NCT03425396|164488806|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-15.9|||||TWO_SIDED|95.0|-34.3|1.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||1.2|-34.3|
82388737|NCT03425396|164488806|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-23.8|||||TWO_SIDED|95.0|-46.9|-4.3|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||-4.3|-46.9|
82388738|NCT03425396|164488806|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|3.4|||||TWO_SIDED|95.0|-48.5|19.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||19.7|-48.5|
82525258|NCT04270747|164747174|OTHER||Difference between means|-3.8|||||TWO_SIDED|90.0|-20.9|13.3|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 16.||13.3|-20.9|
82573607|NCT02165826|164857452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.091|TWO_SIDED|95.0|0.59|1.04||Study treatment, country and baseline forced expiratory volume in the first second (FEV1) as explanatory variables.|Regression, Logistic|||Analyses were performed using a hierarchical testing procedure.||1.04|0.59|0.091
82573608|NCT00250432|164857501|NON_INFERIORITY_OR_EQUIVALENCE|Safety with caspofungin 150 mg daily will be non-inferior to that of caspofungin 70/50 mg. Non-inferiority was defined as upper limit of the 2-sided, 95% confidence interval for the difference (150-mg group - 70/50-mg group) must be less than 0.15 (15 percentage points).|Rate Difference|1.1|STANDARD_ERROR_OF_MEAN|5.6||||95.0|-4.1|6.8|||||The confidence interval computation was based on the method by Miettinen and Nurminen.|A significant drug-related adverse event was defined as either a drug-related serious adverse event or a drug-related adverse event leading to discontinuation of caspofungin therapy. Comparison between the 2 caspofungin groups was based on upper bound of the 95% confidence interval for the difference.||6.8|-4.1|
82388739|NCT03425396|164488807|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-20.7|||||TWO_SIDED|95.0|-45.1|6.0|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||6.0|-45.1|
82388740|NCT03425396|164488807|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-17.8|||||TWO_SIDED|95.0|-40.2|5.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||5.9|-40.2|
82388741|NCT03425396|164488807|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-11.4|||||TWO_SIDED|95.0|-36.8|14.7|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.7|-36.8|
82388742|NCT03425396|164488807|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|3.3|||||TWO_SIDED|95.0|-47.0|33.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||33.2|-47.0|
82388743|NCT03425396|164488808|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-13.6|||||TWO_SIDED|95.0|-40.4|13.2|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||13.2|-40.4|
82388744|NCT03425396|164488808|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.6|||||TWO_SIDED|95.0|-32.7|14.6|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.6|-32.7|
82388745|NCT03425396|164488808|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-11.9|||||TWO_SIDED|95.0|-38.2|14.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||14.9|-38.2|
82388746|NCT03425396|164488808|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|1.4|||||TWO_SIDED|95.0|-50.3|30.9|||||Point estimate and exact 95% confidence intervals for difference from nitrofurantoin (omadacycline minus nitrofurantoin) in clinical success rate was estimated.|||30.9|-50.3|
82388747|NCT01106677|164488829|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and placebo of 0.5% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.05, it was estimated that 86 subjects per group would provide 90% power to demonstrate superiority of canagliflozin over placebo.|Least-Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.758|-0.481|||ANCOVA|||||-0.481|-0.758|<0.001
82388748|NCT01106677|164488829|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and placebo of 0.5% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.05, it was estimated that 86 subjects per group would provide 90% power to demonstrate superiority of canagliflozin over placebo.|Least-Squares Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.914|-0.636|||ANCOVA|||||-0.636|-0.914|<0.001
82388749|NCT01106677|164488829|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|95.0|-0.795|-0.516||No formal statistical comparison was conducted.|ANCOVA|||||-0.516|-0.795|
82388750|NCT01106677|164488830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29|||<|0.001|TWO_SIDED|95.0|1.5|3.5|||Regression, Logistic|||||3.50|1.50|<0.001
82388751|NCT01106677|164488830|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.39|||<|0.001|TWO_SIDED|95.0|2.85|6.77|||Regression, Logistic|||||6.77|2.85|<0.001
82388752|NCT01106677|164488831|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-29.8|STANDARD_ERROR_OF_MEAN|3.044|<|0.001|TWO_SIDED|95.0|-35.76|-23.81|||ANCOVA|||||-23.81|-35.76|<0.001
82388753|NCT01106677|164488831|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-40.3|STANDARD_ERROR_OF_MEAN|3.055|<|0.001|TWO_SIDED|95.0|-46.25|-34.26|||ANCOVA|||||-34.26|-46.25|<0.001
82388754|NCT01106677|164488831|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-28.7|-16.69||No formal statistical comparison was conducted.|ANCOVA|||||-16.69|-28.70|
82388755|NCT01106677|164488832|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-38.1|STANDARD_ERROR_OF_MEAN|5.601|<|0.001|TWO_SIDED|95.0|-49.14|-27.16|||ANCOVA|||||-27.16|-49.14|<0.001
82388756|NCT01106677|164488832|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|5.635|<|0.001|TWO_SIDED|95.0|-58.4|-36.29|||ANCOVA|||||-36.29|-58.40|<0.001
82443803|NCT00159913|164596167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.41||||95.0|-0.1|1.52|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.52|-0.10|
82388757|NCT01106677|164488832|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-39.6|STANDARD_ERROR_OF_MEAN|5.608|||TWO_SIDED|95.0|-50.56|-28.55||No formal statistical comparison was conducted.|ANCOVA|||||-28.55|-50.56|
82388758|NCT01106677|164488833|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.1|-1.9|||ANCOVA|||||-1.9|-3.1|<0.001
82388759|NCT01106677|164488833|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.5|-2.3|||ANCOVA|||||-2.3|-3.5|<0.001
82388760|NCT01106677|164488833|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.6|0.6||No formal statistical comparison was conducted.|ANCOVA|||||0.6|-0.6|
82388761|NCT01106677|164488834|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.36|STANDARD_ERROR_OF_MEAN|0.979|<|0.001|TWO_SIDED|95.0|-7.28|-3.439|||ANCOVA|||||-3.439|-7.280|<0.001
82388762|NCT01106677|164488834|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-6.58|STANDARD_ERROR_OF_MEAN|0.981|<|0.001|TWO_SIDED|95.0|-8.504|-4.653|||ANCOVA|||||-4.653|-8.504|<0.001
82388763|NCT01106677|164488834|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.34|STANDARD_ERROR_OF_MEAN|0.984|||TWO_SIDED|95.0|-5.273|-1.413||No formal statistical comparison was conducted.|ANCOVA|||||-1.413|-5.273|
82388764|NCT01106677|164488835|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|4.2||0.702||95.0|-9.9|6.7|||ANCOVA|||||6.7|-9.9|0.702
82388765|NCT01106677|164488835|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|4.3||0.274|TWO_SIDED|95.0|-13.0|3.7|||ANCOVA|||||3.7|-13.0|0.274
82388766|NCT01106677|164488835|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-10.6|6.1||No formal statistical comparison was conducted.|ANCOVA|||||6.1|-10.6|
82388767|NCT01106677|164488836|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|3.6|9.7|||ANCOVA|||||9.7|3.6|<0.001
82388768|NCT01106677|164488836|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|8.5|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|5.4|11.5|||ANCOVA|||||11.5|5.4|<0.001
82388769|NCT01106677|164488836|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|95.0|-1.7|4.4||No formal statistical comparison was conducted.|ANCOVA|||||4.4|-1.7|
82388770|NCT01106677|164488837|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a discontinuation rate of 35% at Week 52, with a 2:2:2:1 treatment assignment ratio for canagliflozin 100 mg, canagliflozin 300 mg, sitagliptin 100 mg, or placebo, it was estimated that 360 subjects would need to be randomly assigned to each of the 3 active treatment groups and approximately 180 subjects to the placebo group to demonstrate non-inferiority with a non-inferiority margin of 0.3%.|Least-Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.061|||TWO_SIDED|95.0|-0.119|0.122|||ANCOVA|||||0.122|-0.119|
82425938|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.123||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.123
82425939|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.266||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.266
82388771|NCT01106677|164488837|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a discontinuation rate of 35% at Week 52, with a 2:2:2:1 treatment assignment ratio for canagliflozin 100 mg, canagliflozin 300 mg, sitagliptin 100 mg, or placebo, it was estimated that 360 subjects would need to be randomly assigned to each of the 3 active treatment groups and approximately 180 subjects to the placebo group to demonstrate non-inferiority with a non-inferiority margin of 0.3%.|Least-Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.062|||TWO_SIDED|95.0|-0.273|-0.031|||ANCOVA|||||-0.031|-0.273|
82640762|NCT05261126|164996249|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-41.2|||<|0.001|TWO_SIDED|95.0|-47.8|-34.7|||cLDA||MK-0616 6 mg minus Placebo|||-34.7|-47.8|<0.001
82388772|NCT01106677|164488838|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-8.55|STANDARD_ERROR_OF_MEAN|2.394|<|0.001|TWO_SIDED|95.0|-13.25|-3.857|||ANCOVA|||||-3.857|-13.25|<0.001
82388773|NCT01106677|164488838|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-17.5|STANDARD_ERROR_OF_MEAN|2.404|<|0.001|TWO_SIDED|95.0|-22.24|-12.81|||ANCOVA|||||-12.81|-22.24|<0.001
82443804|NCT00159913|164596167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.37||||95.0|-0.12|1.35|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.35|-0.12|
82573609|NCT00250432|164857502|SUPERIORITY_OR_OTHER||Rate Difference|6.3|STANDARD_ERROR_OF_MEAN|12.1||||95.0|-5.9|18.4|||||The 95% confidence interval on the difference will be based on the method of Miettinen and Nurminen.|There was no formal hypothesis testing for efficacy in this study. The main efficacy analysis was the number (percentage) of patients with a favorable overall response at the end of caspofungin study therapy, together with the within treatment 95% exact binomial confidence intervals, and the estimated treatment difference, and its 95% confidence interval.||18.4|-5.9|
82573610|NCT01056263|164857503|SUPERIORITY_OR_OTHER||Five year survival probability|20.6|||||TWO_SIDED|95.0|10.94|32.38||||||Five year survival probability was the probability of survival at 5 year after the date of the start of the study treatment based on the Kaplan-Meier estimate.||32.38|10.94|
82573611|NCT00658606|164857505|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.032
82388774|NCT01106677|164488839|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.0|-1.8|||ANCOVA|||||-1.8|-3.0|<0.001
82388775|NCT01106677|164488839|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.4|-2.3|||ANCOVA|||||-2.3|-3.4|<0.001
82388776|NCT01106677|164488840|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.87|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|-4.464|-1.276|||ANCOVA|||||-1.276|-4.464|<0.001
82388777|NCT01106677|164488840|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.99|STANDARD_ERROR_OF_MEAN|0.815|<|0.001|TWO_SIDED|95.0|-5.589|-2.389|||ANCOVA|||||-2.389|-5.589|<0.001
82388778|NCT01106677|164488841|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|3.2||0.466|TWO_SIDED|95.0|-3.9|8.5|||ANCOVA|||||8.5|-3.9|0.466
82388779|NCT01106677|164488841|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.2||0.323|TWO_SIDED|95.0|-3.1|9.4|||ANCOVA|||||9.4|-3.1|0.323
82388780|NCT01106677|164488842|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.5|8.0|||ANCOVA|||||8.0|2.5|<0.001
82388781|NCT01106677|164488842|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|4.5|10.1|||ANCOVA|||||10.1|4.5|<0.001
82388782|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.01|||||||t-test, 2 sided|||Asiatic acid||||0.01
82388783|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Caffeic acid||||0.23
82388784|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.001||||||Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Dihydrocaffeic acid||||0.001
82388785|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||Dihydroferulic acid||||0.05
82388786|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.07|||||||t-test, 2 sided|||Ferulic acid||||0.07
82388787|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.09|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.09
82388788|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.003|||||||t-test, 2 sided|||Isoferulic acid||||0.003
82388789|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 2 sided|||Madecassic acid||||0.10
82573612|NCT00658606|164857506|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||No adjustments were made to multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.037
82573613|NCT00658606|164857507|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||No adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to 'Change from Baseline'||||0.001
82573614|NCT00658606|164857508|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Results were adjusted for use of concomitant psoriasis treatment.|ANOVA|||Statistical Analysis applies to 'Change from Baseline'||||0.382
82573615|NCT00658606|164857509|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'Clear or Almost Clear = Yes'||||0.052
82573616|NCT00658606|164857510|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'Clear or Almost Clear = Yes'||||0.026
82573617|NCT00658606|164857511|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||No adjustments were made for multiple comparisons.|Fisher Exact|||Statistical Analysis applies to 'PASI 90 = Yes'||||0.147
82573618|NCT00658606|164857512|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.566
82525259|NCT04270747|164747174|OTHER||Difference between means|-6.0|||||TWO_SIDED|90.0|-22.6|10.6|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 24.||10.6|-22.6|
82525260|NCT04270747|164747174|OTHER||Difference between means|-7.0|||||TWO_SIDED|90.0|-23.3|9.3|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 32.||9.3|-23.3|
82573619|NCT00658606|164857513|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.001
82573620|NCT00658606|164857514|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||No adjustments were made for multiple comparisons.|Log Rank|||||||0.007
82388790|NCT03937908|164488843|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.11|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.11
82388791|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.82|||||||t-test, 2 sided|||Asiatic acid||||0.82
82388792|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Caffeic acid||||0.40
82388793|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.2|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.20
82388794|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.48|||||||t-test, 2 sided|||Dihydroferulic acid||||0.48
82388795|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.2|||||||t-test, 2 sided|||Ferulic acid||||0.20
82388796|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.32|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.32
82388797|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.35|||||||t-test, 2 sided|||Isoferulic acid||||0.35
82525261|NCT04270747|164747174|OTHER||Difference between means|-6.5|||||TWO_SIDED|90.0|-22.8|9.8|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 40.||9.8|-22.8|
82525262|NCT04270747|164747174|OTHER||Difference between means|-0.5|||||TWO_SIDED|90.0|-17.3|16.2|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 48.||16.2|-17.3|
82525263|NCT04270747|164747174|OTHER||Difference between means|2.3|||||TWO_SIDED|90.0|-10.5|15.0|||||Estimated using ANCOVA model with treatment, Baseline CST measurement and the stratification factors geographic region (East Asia, Europe, North America) and Baseline BCVA (BCVA \< 64 letters, BCVA ≥ 64 letters) as covariates.|Difference in mean change from Baseline at Week 52.||15.0|-10.5|
82388798|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.52|||||||t-test, 2 sided|||Madecassic acid||||0.52
82388799|NCT03937908|164488844|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.13|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.13
82388800|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.34|||||||t-test, 2 sided|||Asiatic acid||||0.34
82388801|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.08|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.08
82388802|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Dihydroferulic acid||||0.23
82525264|NCT00755040|164747234|SUPERIORITY||Odds Ratio (OR)|1.11|||>|0.99|TWO_SIDED|95.0|||||Fisher Exact|||||||>0.99
82573621|NCT00658606|164857515|SUPERIORITY_OR_OTHER|||||||0.539||95.0||||Results were adjusted for use of concomitant psoriasis treatment.|ANOVA|||Statistical Analysis applies to 'Change from Baseline'||||0.539
82573622|NCT06314438|164857529|EQUIVALENCE|paired samples t test with significance set at 0.05 p value||||||0.34|||||||t-test, 2 sided|||||||0.34
82388803|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.14|||||||t-test, 2 sided|||Ferulic acid||||0.14
82388804|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.28|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.28
82573623|NCT06314438|164857530|EQUIVALENCE|paired samples t test with significance level at 0.05||||||0.05|||||||t-test, 2 sided|||||||0.05
82573624|NCT06314438|164857531|EQUIVALENCE|paired samples t test with significance set at 0.05 p value|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82388805|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.17|||||||t-test, 2 sided|||Isoferulic acid||||0.17
82388806|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.98|||||||t-test, 2 sided|||Madecassic acid||||0.98
82425940|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.849||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.849
82573625|NCT01310699|164857538|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
82573626|NCT01310699|164857539|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
82525265|NCT02612064|164747247|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.18||||0.1575|TWO_SIDED|95.0|-0.442|0.072|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response, treatment as a factor and baseline Schiff sensitivity as a covariate.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||0.072|-0.442|0.1575
82525266|NCT00079001|164747250|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority and futility analysis were conducted for time to first SRE. Lan-Demets analog of the Emerson-Fleming sequential boundary was used to maintain overall significance level of α = .05 while conducting interim analyses on time to first SRE.|Hazard Ratio (HR)|0.97||||0.385|TWO_SIDED|95.0|0.0|1.174||Because of early termination, conditional power was performed under the alternative hypothesis. This is the probability that zoledronic acid is superior to placebo, given time to first SRE data at interim analysis under alternative hypothesis.|Log Rank||Patients randomly assigned to zoledronic acid were compared with patients assigned to placebo|The null hypothesis was that the hazard ratio is greater than or equal to 1.0 versus the alternative hypothesis that the hazard ratio is less than 0.77. With a target of 470 SREs, log-rank statistic had 88% power to detect a 23% decrease in hazard of SRE (equivalent to an increase in median time to SRE from 30 months to 39 months), assuming a one-sided type I error rate of .05.||1.174|0|0.385
82525267|NCT00079001|164747251|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.29|TWO_SIDED|95.0|0.7|1.12|||Log Rank|Adjusted for stratification factors: performance status, prior SRE, and serum alkaline phosphatase.|Zoledronic acid versus placebo group|||1.12|0.70|0.29
82525268|NCT00079001|164747252|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.22|TWO_SIDED|95.0|0.74|1.07|||Log Rank|Adjusted for stratification factors: performance status, prior SRE, and serum alkaline phosphatase.|Zoledronic acid versus placebo group|||1.07|0.74|0.22
82573627|NCT02201901|164857543|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL 12 weeks (Group 1) over prespecified rate of 1% .||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
82573628|NCT02201901|164857543|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL+RBV 12 weeks (Group 2) over prespecified rate of 1%.||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
82573629|NCT02201901|164857543|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Binomial test|P-value is from the 2-sided exact 1-sample binomial test for the superiority of SOF/VEL 24 weeks (Group 3) over prespecified rate of 1%.||A sample size of 75 participants per treatment group would provide over 99% power to detect 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.0167.||||<0.001
82573630|NCT02559310|164857565|NON_INFERIORITY|Non-inferiority Margin = 12.5%.|Treatment Difference (Lef - Mox)|-2.9|||||TWO_SIDED|95.0|-8.5|2.8|||||Difference in percentage of Responders for ECR (Lefamulin - Moxifloxacin). CI computed using continuity-corrected Z-statistic.|||2.8|-8.5|
82573631|NCT02559310|164857566|NON_INFERIORITY|Non-inferiority Margin = 10%.|Treatment Difference (Lef - Mox)|-2.6|||||TWO_SIDED|95.0|-8.9|3.9|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.9|-8.9|
82525269|NCT03764072|164747255|SUPERIORITY|||||||0.2107||||||Dose response Model - Linear|Multiple Comparison Procedure-Modelling|||||||0.2107
82525270|NCT03764072|164747255|SUPERIORITY|||||||0.0766||||||Dose response Model - Emax|Multiple Comparison Procedure-Modelling|||||||0.0766
82525271|NCT03764072|164747255|SUPERIORITY|||||||0.0989||||||Dose response Model - Logistic|Multiple Comparison Procedure-Modelling|||||||0.0989
82525272|NCT03764072|164747255|SUPERIORITY|||||||0.0927||||||Dose-response Model - Sigmoid Emax|Multiple Comparison Procedure-Modelling|||||||0.0927
82525273|NCT03764072|164747257|SUPERIORITY|||||||0.3162|||||||Cochran-Mantel-Haenszel|||||||0.3162
82525274|NCT03764072|164747257|SUPERIORITY|||||||0.4613|||||||Cochran-Mantel-Haenszel|||||||0.4613
82525275|NCT03764072|164747257|SUPERIORITY|||||||0.4095|||||||Cochran-Mantel-Haenszel|||||||0.4095
82525276|NCT03764072|164747257|SUPERIORITY|||||||0.157|||||||Cochran-Mantel-Haenszel|||||||0.1570
82525277|NCT03764072|164747257|SUPERIORITY|||||||0.9843|||||||Cochran-Mantel-Haenszel|||||||0.9843
82525278|NCT03764072|164747258|SUPERIORITY|||||||0.8714|||||||Cochran-Mantel-Haenszel|||||||0.8714
82525279|NCT03764072|164747258|SUPERIORITY|||||||0.5815|||||||Cochran-Mantel-Haenszel|||||||0.5815
82525280|NCT03764072|164747258|SUPERIORITY|||||||0.4308|||||||Cochran-Mantel-Haenszel|||||||0.4308
82525281|NCT03764072|164747258|SUPERIORITY|||||||0.4434|||||||Cochran-Mantel-Haenszel|||||||0.4434
82573632|NCT02559310|164857566|NON_INFERIORITY|Non-Inferiority Margin = 10%|Treatment Difference (Lef - Mox)|-2.6|||||TWO_SIDED|95.0|-9.2|4.1|||||Difference in percentage of Success for IACR at test of cure visit. CI computed using continuity-corrected Z-statistic.|||4.1|-9.2|
82573633|NCT02559310|164857567|NON_INFERIORITY|Non-Inferiority Margin = 10%.|Treatment Difference|-2.5|||||TWO_SIDED|95.0|-8.4|3.4|||||Difference in percentage of success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.4|-8.4|
82525282|NCT03764072|164747258|SUPERIORITY|||||||0.855|||||||Cochran-Mantel-Haenszel|||||||0.8550
82525283|NCT03764072|164747259|SUPERIORITY|||||||0.687|||||||Cochran-Mantel-Haenszel|||||||0.6870
82525284|NCT03764072|164747259|SUPERIORITY|||||||0.1515|||||||Cochran-Mantel-Haenszel|||||||0.1515
82525285|NCT03764072|164747259|SUPERIORITY|||||||0.603|||||||Cochran-Mantel-Haenszel|||||||0.6030
82525286|NCT03764072|164747259|SUPERIORITY|||||||0.1361|||||||Cochran-Mantel-Haenszel|||||||0.1361
82525287|NCT03764072|164747259|SUPERIORITY|||||||0.564|||||||Cochran-Mantel-Haenszel|||||||0.5640
82573634|NCT02559310|164857567|NON_INFERIORITY|Non-Inferiority Margin = 10%|Treatment Difference (Lef - Mox)|-2.5|||||TWO_SIDED|95.0|-8.7|3.7|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed using continuity-corrected Z-statistic|||3.7|-8.7|
82388807|NCT03937908|164488845|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.16|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.16
82525288|NCT03764072|164747260|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.5405|TWO_SIDED|95.0|0.6|2.67|||Regression, Cox|||||2.67|0.60|0.5405
82525289|NCT03764072|164747260|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9011|TWO_SIDED|95.0|0.49|2.27|||Regression, Cox|||||2.27|0.49|0.9011
82525290|NCT03764072|164747260|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9127|TWO_SIDED|95.0|0.48|2.26|||Regression, Cox|||||2.26|0.48|0.9127
82525291|NCT03764072|164747260|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.5619|TWO_SIDED|95.0|0.6|2.56|||Regression, Cox|||||2.56|0.60|0.5619
82525292|NCT03764072|164747260|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.709|TWO_SIDED|95.0|0.5|2.79|||Regression, Cox|||||2.79|0.50|0.7090
82426863|NCT02347605|164561946|SUPERIORITY|||||||0.18||||||Adjusted for treatment order, session, room sequence|Mixed Models Analysis|||||||0.18
82525293|NCT03764072|164747261|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.5141|TWO_SIDED|95.0|0.61|2.72|||Regression, Cox|||||2.72|0.61|0.5141
82525294|NCT03764072|164747261|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9614|TWO_SIDED|95.0|0.45|2.12|||Regression, Cox|||||2.12|0.45|0.9614
82525295|NCT03764072|164747261|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9756|TWO_SIDED|95.0|0.46|2.14|||Regression, Cox|||||2.14|0.46|0.9756
82525296|NCT03764072|164747261|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.5582|TWO_SIDED|95.0|0.6|2.57|||Regression, Cox|||||2.57|0.60|0.5582
82525297|NCT03764072|164747261|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.7543|TWO_SIDED|95.0|0.49|2.71|||Regression, Cox|||||2.71|0.49|0.7543
82525298|NCT01392300|164747305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.001
82525299|NCT01392300|164747306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.11||0.003|TWO_SIDED|95.0|0.1|0.5|||ANCOVA|||||0.5|0.1|0.003
82525300|NCT01392300|164747307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.28|||<|0.001|TWO_SIDED|95.0|2.43|7.52|||Regression, Logistic|||||7.52|2.43|<0.001
82525301|NCT01392300|164747308|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.001|TWO_SIDED|95.0|1.56|4.63|||Regression, Logistic|||||4.63|1.56|<0.001
82525302|NCT01392300|164747309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.004|TWO_SIDED|95.0|1.33|4.61|||Regression, Logistic|||||4.61|1.33|0.004
82525303|NCT01392300|164747310|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.13|||<|0.001|TWO_SIDED|95.0|1.76|5.57|||Regression, Logistic|||||5.57|1.76|<0.001
82525304|NCT01392300|164747311|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.021|TWO_SIDED|95.0|1.1|3.34|||Regression, Logistic|||||3.34|1.10|0.021
82525305|NCT01392300|164747312|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58||||0.006|TWO_SIDED|95.0|1.32|5.05|||Regression, Logistic|||||5.05|1.32|0.006
82525306|NCT01392300|164747313|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|2.06|6.72|||Regression, Logistic|||||6.72|2.06|<0.001
82525307|NCT01392300|164747314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.002|TWO_SIDED|95.0|1.4|4.46|||Regression, Logistic|||||4.46|1.40|0.002
82525308|NCT01392300|164747315|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.102|TWO_SIDED|95.0|0.9|3.22|||Regression, Logistic|||||3.22|0.90|0.102
82525309|NCT01392300|164747316|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.67|5.23|||Regression, Logistic|||||5.23|1.67|<0.001
82525310|NCT01392300|164747317|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46||||0.002|TWO_SIDED|95.0|1.37|4.41|||Regression, Logistic|||||4.41|1.37|0.002
82525311|NCT01392300|164747318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.069|TWO_SIDED|95.0|0.95|3.69|||Regression, Logistic|||||3.69|0.95|0.069
82573635|NCT02633397|164857568|SUPERIORITY|||||||0.19|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.19
82388808|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.04|||||||t-test, 2 sided|||Asiatic acid||||0.04
82525312|NCT01392300|164747319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.034|TWO_SIDED|95.0|1.05|4.0|||Regression, Logistic|||||4.00|1.05|0.034
82525313|NCT01392300|164747320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.169|TWO_SIDED|95.0|0.82|3.16|||Regression, Logistic|||||3.16|0.82|0.169
82525314|NCT01392300|164747321|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.92|TWO_SIDED|95.0|0.49|2.18|||Regression, Logistic|||||2.18|0.49|0.920
82573636|NCT02633397|164857569|SUPERIORITY|||||||0.42|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.42
82573637|NCT02633397|164857570|SUPERIORITY|||||||0.52|||||||Regression, Logistic|||P- Value was the exact logistic regression adjusted for clinical site.||||0.52
82573638|NCT02633397|164857572|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.69|TWO_SIDED|90.0|-0.7|0.42|||ANCOVA|||ANCOVA model adjusted for clinic site||0.42|-0.70|0.69
82573639|NCT02633397|164857573|SUPERIORITY||Mean Difference (Final Values)|-39.51||||0.4|TWO_SIDED|90.0|-117.05|38.02|||ANCOVA|||ANCOVA model adjusted for clinic site||38.02|-117.05|0.40
82573640|NCT02633397|164857574|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.23|TWO_SIDED|90.0|-0.11|0.73|||Regression, Linear|||Linear regression model adjusted for clinic site||0.73|-0.11|0.23
82573641|NCT02633397|164857575|SUPERIORITY||Mean Difference (Final Values)|-0.08||||-0.8|TWO_SIDED|90.0|-0.62|0.46|||ANCOVA|||ANCOVA model adjusted for clinic site||0.46|-0.62|-0.80
82573642|NCT02633397|164857576|SUPERIORITY||Mean Difference (Final Values)|-6.96|||<|0.001|TWO_SIDED|90.0|-10.22|-3.69|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in MAP as a function of time, the interaction between time and study arm, and clinic site.||-3.69|-10.22|<0.001
82573643|NCT02633397|164857577|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.15|TWO_SIDED|90.0|-0.31|0.02|||ANCOVA|||ANCOVA model adjusted for clinic site||0.02|-0.31|0.15
82573644|NCT02633397|164857578|SUPERIORITY||Mean Difference (Final Values)|-6.7||||0.003|TWO_SIDED|90.0|-10.28|-3.12|||ANCOVA|||ANCOVA model adjusted for clinic site||-3.12|-10.28|0.003
82573645|NCT02633397|164857579|SUPERIORITY||Mean Difference (Final Values)|3.52|||<|0.001|TWO_SIDED|90.0|2.0|5.04|||ANCOVA|||ANCOVA model adjusted for clinic site||5.04|2.00|<0.001
82573646|NCT02633397|164857580|SUPERIORITY||Mean Difference (Final Values)|286.56||||0.51|TWO_SIDED|90.0|-429.86|1002.99|||Regression, Linear|||Linear regression model adjusted for clinic site||1002.99|-429.86|0.51
82573647|NCT02633397|164857581|SUPERIORITY||Mean Difference (Final Values)|-82.18||||0.14|TWO_SIDED|90.0|-173.69|9.32|||Regression, Linear|||Linear regression model adjusted for clinic site||9.32|-173.69|0.14
82388809|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.01|||||||t-test, 2 sided|||Caffeic acid||||0.01
82425941|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.828||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.828
82525315|NCT01392300|164747322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|1.83|6.91|||Regression, Logistic|||||6.91|1.83|<0.001
82525316|NCT01392300|164747323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.41||||0.007|TWO_SIDED|95.0|1.28|4.56|||Regression, Logistic|||||4.56|1.28|0.007
82525317|NCT01392300|164747324|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26||||0.018|TWO_SIDED|95.0|1.15|4.41|||Regression, Logistic|||||4.41|1.15|0.018
82525318|NCT01392300|164747325|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
82573648|NCT02633397|164857582|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare microalbuminuria frequency as a function of time and the interaction between time and study arm.||||0.78
82573649|NCT02633397|164857583|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare macroalbuminuria frequency as a function of time and the interaction between time and study arm.||||0.30
82573650|NCT02633397|164857584|SUPERIORITY||Mean Difference (Final Values)|-4.91||||0.06|TWO_SIDED|90.0|-9.21|-0.62|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in GFR as a function of time, the interaction between time and study arm, and clinic site.||-0.62|-9.21|0.06
82388810|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.06|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.06
82388811|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.08|||||||t-test, 2 sided|||Dihydroferulic acid||||0.08
82388812|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.56|||||||t-test, 2 sided|||Dicaffeoylquinic acids||||0.56
82388813|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.21|||||||t-test, 2 sided|||Ferulic acid||||0.21
82388814|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.05
82388815|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.05|||||||t-test, 2 sided|||Isoferulic acid||||0.05
82388816|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.23|||||||t-test, 2 sided|||Madecassic acid||||0.23
82388817|NCT03937908|164488846|EQUIVALENCE|Two-sided paired t-tests were used to compare pharmacokinetic and clearance parameters between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.16|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.16
82388818|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.7|||||||t-test, 2 sided|||Asiatic acid||||0.7
82388819|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.09|||||||t-test, 2 sided|||Madecassic acid||||0.09
82388820|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Asiaticoside||||0.4
82388821|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.6|||||||t-test, 2 sided|||Madecassoside||||0.6
82388822|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Monocaffeoylquinic acids||||0.4
82388823|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 2 sided|||Dicaffeoylquinic acids||||0.1
82388824|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.9|||||||t-test, 2 sided|||3-(3-hydroxyphenyl)propionic acid||||0.9
82388825|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.03|||||||t-test, 2 sided|||Caffeic acid||||0.03
82388826|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.9|||||||t-test, 2 sided|||Ferulic acid||||0.9
82388827|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.6|||||||t-test, 2 sided|||Isoferulic acid||||0.6
82388828|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.4|||||||t-test, 2 sided|||Dihydroferulic acid||||0.4
82388829|NCT03937908|164488847|EQUIVALENCE|Two-sided paired t-tests were used to compare the ng/mL between the 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.8|||||||t-test, 2 sided|||Dihydrocaffeic acid||||0.8
82388830|NCT03937908|164488848|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 1 sided|||1 hour||||0.1
82388831|NCT03937908|164488848|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.1|||||||t-test, 1 sided|||2 hours||||0.1
82388832|NCT03937908|164488848|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.3|||||||t-test, 1 sided|||3 hours||||0.3
82525319|NCT01392300|164747326|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.011|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.011
82525320|NCT01392300|164747327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.032
82525321|NCT01392300|164747328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|<0.001
82525322|NCT01392300|164747329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|<0.001
82573651|NCT02633397|164857585|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept was used to compare CKD stage frequency as a function of time and the interaction between time and study arm.||||0.56
82573652|NCT02633397|164857586|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.15|TWO_SIDED|90.0|-0.52|0.03|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in hemoglobin as a function of time, the interaction between time and study arm, and clinic site.||0.03|-0.52|0.15
82525323|NCT01392300|164747330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.029|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.029
82525324|NCT01392300|164747331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
82525325|NCT01392300|164747332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.019|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.019
82525326|NCT01392300|164747333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.137|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.137
82525327|NCT01392300|164747334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.013|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.013
82525328|NCT01392300|164747335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.131|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.131
82525329|NCT01392300|164747336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.714|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.714
82525330|NCT01392300|164747337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|||||-0.2|-0.5|<0.001
82525331|NCT01392300|164747338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.008
82525332|NCT01392300|164747339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.062|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.062
82525333|NCT01392300|164747340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.006
82525334|NCT01392300|164747341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.076
82388833|NCT03937908|164488848|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.5|||||||t-test, 1 sided|||4 hours||||0.5
82388834|NCT03937908|164488848|EQUIVALENCE|Two-sided paired t-tests were used to compare fold induction between 2g and 4g doses. A p-value of less than 0.05 was considered statistically significant.||||||0.5|||||||t-test, 1 sided|||6 hours||||0.5
82388835|NCT03875092|164488849|OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.24|0.52|||||Based on unstratified Cox regression model with treatment as a covariate, due to small sample size.|||0.52|0.24|
82388836|NCT03875092|164488850|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.28|0.7|||||Based on unstratified Cox regression model with treatment as a covariate, due to small sample size.|||0.70|0.28|
82388837|NCT03875092|164488851|OTHER||Difference in Percentage|36.7|||||TWO_SIDED|95.0|19.9|51.6|||||Based on unstratified Miettinen \& Nurminen method, due to small sample size.|||51.6|19.9|
82388838|NCT02163226|164488865|OTHER|2 sided p value||||||0.03|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 2 weeks||||.03
82388839|NCT02163226|164488865|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 1 month||||.19
82388840|NCT02163226|164488865|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 3 months||||.04
82388841|NCT02163226|164488865|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 6 months||||.89
82388842|NCT02163226|164488865|SUPERIORITY|||||||0.07|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 9 months||||.07
82573653|NCT02633397|164857587|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.05|TWO_SIDED|90.0|0.22|2.72|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in reticulocyte count as a function of time, the interaction between time and study arm, and clinic site.||2.72|0.22|0.05
82573654|NCT02633397|164857588|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.75|TWO_SIDED|90.0|-0.93|0.63|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in WBC count as a function of time, the interaction between time and study arm, and clinic site.||0.63|-0.93|0.75
82388843|NCT02163226|164488865|OTHER|2 sided p value||||||0.03|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 2 weeks||||.03
82388844|NCT02163226|164488865|OTHER|2 sided p value||||||0.19|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 1 month||||.19
82388845|NCT02163226|164488865|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 3 months||||.04
82573655|NCT02633397|164857589|SUPERIORITY||Mean Difference (Final Values)|-29.28||||0.17|TWO_SIDED|90.0|-64.63|6.08|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in WBC count as a function of time, the interaction between time and study arm, and clinic site.||6.08|-64.63|0.17
82388846|NCT02163226|164488865|OTHER|2 sided p value||||||0.89|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 6 months||||.89
82388847|NCT02163226|164488865|OTHER|2 sided p value||||||0.07|||||||Fisher Exact|||Pain Response Rates (CR+PR) at 9 months||||.07
82388848|NCT02163226|164488866|OTHER|2 sided p value||||||0.01|||||||Fisher Exact|||Pain response Rates (CR+PR) at 2 weeks||||.01
82388849|NCT02163226|164488866|OTHER|2 sided p value||||||0.15|||||||Fisher Exact|||Pain response Rates (CR+PR) at 1 month||||.15
82388850|NCT02163226|164488866|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 3 months||||.04
82388851|NCT02163226|164488866|OTHER|2 sided p valued||||||0.78|||||||Fisher Exact|||Pain response Rates (CR+PR) at 6 months||||.78
82388852|NCT02163226|164488866|OTHER|2 sided p valued||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 9 months||||.04
82388853|NCT02163226|164488866|OTHER|2 sided p valued||||||0.01|||||||Fisher Exact|||Pain response Rates (CR+PR) at 2 weeks||||.01
82388854|NCT02163226|164488866|OTHER|2 sided p value||||||0.15|||||||Fisher Exact|||Pain response Rates (CR+PR) at 1 month||||.15
82388855|NCT02163226|164488866|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 3 months||||.04
82388856|NCT02163226|164488866|OTHER|2 sided p value||||||0.78|||||||Fisher Exact|||Pain response Rates (CR+PR) at 6 months||||.78
82388857|NCT02163226|164488866|OTHER|2 sided p value||||||0.04|||||||Fisher Exact|||Pain response Rates (CR+PR) at 9 months||||.04
82388858|NCT01585324|164488868|SUPERIORITY_OR_OTHER|||||||0.8333|TWO_SIDED||||||ANCOVA|The analysis of covariance (ANCOVA) test for the efficacy of SVR achievement (Yes/No), treatment adjustment and baseline hemoglobin value was used.||||||0.8333
82388859|NCT01585324|164488870|SUPERIORITY_OR_OTHER|||||||0.0867|TWO_SIDED||||||Fisher Exact|||||||0.0867
82388860|NCT01585324|164488872|SUPERIORITY_OR_OTHER|||||||0.6492|TWO_SIDED||||||ANCOVA|||||||0.6492
82388861|NCT01585324|164488874|SUPERIORITY_OR_OTHER|||||||0.0333|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0333
82388862|NCT00908791|164488979|SUPERIORITY_OR_OTHER|||||||0.003|||||||McNemar|exact McNemar test for paired binary data.||||||0.003
82388863|NCT00908791|164488980|SUPERIORITY_OR_OTHER|||||||0.41|||||||McNemar|||||||0.41
82388864|NCT00908791|164488981|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0|||||bowker's test of symmetry|||||||0.48
82388865|NCT00908791|164488982|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|95.0|||||Sign test|||The Sign-Rank test for paired data.||||0.029
82388866|NCT00908791|164488983|SUPERIORITY_OR_OTHER|||||||0.62|||||||t-test, 2 sided|||||||0.62
82388867|NCT00908791|164488984|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Other|||||||>0.05
82388868|NCT00908791|164488985|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Other|||||||>0.05
82388869|NCT02461524|164488987|OTHER||Percentage|2.9|||<|0.001|ONE_SIDED|97.5||8.7|||Exact binomial test|||"The primary safety endpoint was tested against a predetermined safety Performance Goal (PG) using the following statistical hypotheses:~H0: p ≥ 20% vs. H1: p \< 20% where p is the proportion of subjects experiencing a Major Adverse Event (MAE) within 30 days of the index procedure in the target population of subjects treated with the Endurant Evo Abdominal Aortic Aneurysm (AAA) Stent graft system and 20% is the safety PG."||8.7||<0.001
82425942|NCT00402987|164560377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Based on life-table extension of Mantel-Haenszel method.~p-value for general association"|Mantel Haenszel|||||||0.741
82573656|NCT02633397|164857590|SUPERIORITY||Mean Difference (Final Values)|-1.64||||0.07|TWO_SIDED|90.0|-3.13|-0.15|||Regression, Linear|||Linear regression model adjusted for clinic site||-0.15|-3.13|0.07
82525335|NCT01392300|164747342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.416|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.416
82425943|NCT01668004|164560392|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|||Treatment comparison of uveitis occurrence rate assessed 1 year before initial anti-TNF/GLM treatment and 1 year after start of GLM treatment. Number of subjects included in analysis: N=93.||||1.0000
82525336|NCT01392300|164747343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|<0.001
82525337|NCT01392300|164747344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.175|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.175
82573657|NCT03494985|164857596|OTHER||Least square mean difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.4|0.9||p-value was adjusted using Dunnett's method for multiple comparisons|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||0.9|0.4|<0.0001
82573658|NCT03494985|164857596|OTHER||LS mean difference|0.9|||<|0.0001|TWO_SIDED|95.0|0.6|1.2||p-value was adjusted using Dunnett's method for multiple comparisons|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||1.2|0.6|<0.0001
82525338|NCT01392300|164747345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.14|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.140
82525339|NCT01392300|164747346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.4|-0.1|||ANCOVA|||||-0.1|-0.4|0.007
82573659|NCT03494985|164857596|OTHER||LS mean difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.3|0.9||p-value was adjusted using Dunnett's method for multiple comparisons.|ANOVA|ANOVA model with factors for treatment, study site and DMI stratification (mild, moderate, severe).|First named treatment minus second named treatment such that a positive value favours the first named treatment.|||0.9|0.3|<0.0001
82388870|NCT02461524|164488988|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Percentage|100.0||||0.001|ONE_SIDED|95.0|95.8||||Based on exact binomial distribution|||"The primary effectiveness endpoint was tested against a predetermined effectiveness PG using following statistical hypotheses:~H0: q ≤ 80% vs. H1: q \> 80% where q is the proportion of subjects who have a successful aneurysm treatment in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 80% is the effectiveness PG."|||95.8|0.001
82573660|NCT03036124|164857604|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.0001||95.0|0.65|0.85|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.85|0.65|<0.0001
82573661|NCT03036124|164857605|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.0001||95.0|0.65|0.85|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.85|0.65|<0.0001
82388871|NCT04304235|164489020|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|||||||||||||
82388872|NCT00712881|164489042|OTHER|||||||0.154||||||Threshold for significance at 0.05 level.|2-sided, binomial proportions|||||||0.154
82388873|NCT03834974|164489088|SUPERIORITY||||||<|0.0286|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in change in intent to tan outdoors 10 or more times in the next year.||||<0.0286
82388874|NCT03834974|164489088|SUPERIORITY|||||||0.0937|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in change in in intent to tan later in life.||||0.0937
82573662|NCT03036124|164857606|SUPERIORITY||Rate Ratio (RR)|0.75||||0.0002||95.0|0.65|0.88|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization and including the history of hospitalizations due to Heart failure as a factor.||||0.88|0.65|0.0002
82525340|NCT01392300|164747347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.018|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.018
82525341|NCT01392300|164747348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.105|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.105
82525342|NCT01392300|164747349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.016|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.016
82525343|NCT01392300|164747350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.014|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.014
82525344|NCT01392300|164747351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.22|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.220
82525345|NCT01392300|164747352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.429|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.429
82388875|NCT03834974|164489092|SUPERIORITY||||||<|0.0002|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There would be no difference in tanning outside at follow-up||||<0.0002
82388876|NCT04259424|164489117|OTHER|||||||0.15|||||||t-test, 2 sided|||||||.15
82525346|NCT01392300|164747353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.884|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.884
82573663|NCT03036124|164857607|SUPERIORITY||Win Ratio (WR)|1.18|||<|0.0001||95.0|1.11|1.26||The p-value is obtained from a rank ANCOVA adjusted for baseline KCCQ score and stratified by T2DM status at randomization.|Win Ratio|Stratified by Type 2 Diabetes status at randomization and including baseline score as a covariate.|The composite of change from baseline in total symptom score at 8 months, or death before 8 months.|||1.26|1.11|<0.0001
82573664|NCT03036124|164857608|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.1681||95.0|0.44|1.16|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization and including baseline eGFR as a covariate.||||1.16|0.44|0.1681
82573665|NCT03036124|164857609|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0217||95.0|0.71|0.97|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||||0.97|0.71|0.0217
82525347|NCT01392300|164747354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.844|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.844
82525348|NCT05056870|164747360|SUPERIORITY|Superiority was declared if the upper limit of the 95% confidence interval of was below 0.00 logMAR.|Mean Difference|-0.097|STANDARD_ERROR_OF_MEAN|0.008|||TWO_SIDED|95.0|-0.113|-0.081|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-0.081|-0.113|
82525349|NCT05056870|164747361|SUPERIORITY|Superiority was declared if the lower limit of the 95% confidence interval of was above 0.|Mean Difference|28.0|STANDARD_ERROR_OF_MEAN|2.69|||TWO_SIDED|95.0|22.6|33.3|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||33.3|22.6|
82525350|NCT05056870|164747362|NON_INFERIORITY|Non-Inferiority was declared if the upper limit of the 95% confidence interval of was below 0.05 logMAR.|Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.0061|||TWO_SIDED|95.0|-0.032|-0.008|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as Test - Control|||-0.008|-0.032|
82525351|NCT05056870|164747363|SUPERIORITY|Superiority was declared if the lower limit of the 95% confidence interval of was above 1.|Mean Ratio|2.98|||||TWO_SIDED|95.0|1.73|5.11|||Generalized Linear Mixed Model||Mean Ratio was calculated as Test over Control|||5.11|1.73|
82388877|NCT04016779|164489145|SUPERIORITY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.28||0.004|TWO_SIDED|95.0|-6.2|-1.2|||Mixed Model for Repeated Measures|||||-1.2|-6.2|0.0040
82388878|NCT04016779|164489146|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0023|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Model for Repeated Measures|||||-0.2|-0.7|0.0023
82388879|NCT04016779|164489147|SUPERIORITY||Difference in percentage of responders|5.6||||0.303|TWO_SIDED|95.0|-5.0|16.1|||Pearson's chi-squared test|||||16.1|-5.0|0.3030
82388880|NCT04016779|164489148|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0076|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Model for Repeated Measures|||||-0.1|-0.6|0.0076
82525352|NCT01892345|164747385|OTHER|Treatment Effect|Hazard Ratio (HR)|0.058|||<|0.0001|TWO_SIDED|95.0|0.017|0.197|||Stratified Log-Rank Test||HR based on a stratified Cox proportional hazards model. Confidence interval = Wald confidence interval. HR for eculizumab compared with placebo represented a 94.2% reduction in the risk of relapse, 95% Wald confidence interval (80.3%, 98.3%).|||0.197|0.017|<0.0001
82525353|NCT04026165|164747397|SUPERIORITY||Difference in Adjusted Mean|1.2|STANDARD_ERROR_OF_MEAN|0.82||0.1439|TWO_SIDED|95.0|-0.41|2.81|||Random Slope Model|||Estimates were from a random slope model with change in eGFRcr from treatment-specific Baselines at Weeks 4, 8, 12, 24, 36, 48, 60, 72, and 84 as outcome, including terms for treatment-specific Baseline eGFRcr, pre-run-in urine albumin to creatinine ratio (UACR) category (\< 1500 mg/g vs. \>= 1500 mg/g), concomitant use of sodium-glucose co-transporter-2 (SGLT-2) inhibitors at Randomization, treatment group, week, and treatment-by-week interaction, where week has a random effect.||2.81|-0.41|0.1439
82525354|NCT04026165|164747398|SUPERIORITY||Difference in Percentage|0.1||||0.8353|TWO_SIDED|95.0|-10.9|11.4||p-value was based on Cochran-Mantel-Haenszel test stratified by Randomization stratification factors. Randomization stratification factors= pre-run-in eGFRcr stratum, pre-run-in UACR category and concomitant use of SGLT-2 inhibitors at Randomization.|Cochran-Mantel-Haenszel||95% exact CI based on the Santner-Snell method was presented for the difference in proportions between SEL and placebo arms.|||11.4|-10.9|0.8353
82525355|NCT04026165|164747399|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.201|TWO_SIDED|95.0|0.81|2.72|||Stratified Log-Rank|P-value was calculated using a stratified log-rank test, stratified by randomization stratification factors.|Hazard ratio and 95% CI were estimated using a stratified Cox proportional hazard model, stratified by randomization stratification factors and were reported only for outcomes with more than 10 events, and have at least 1 event in each treatment arm.|||2.72|0.81|0.2010
82573666|NCT03670277|164857611|OTHER|Statistically significance of difference. Statistical difference will be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|-0.013|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.081|0.056|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|This was a pilot study for assessing the investigational test articles. As such, the sample size was not determined based on any power analysis with regard to the primary endpoint.||0.056|-0.081|
82525356|NCT04026165|164747401|SUPERIORITY||Difference in Adjusted Mean|0.44|STANDARD_ERROR_OF_MEAN|0.72||0.5399|TWO_SIDED|95.0|-0.97|1.86|||Random Slope Model|||Estimates were from a random slope model with change in eGFRcys from pre-run-in Baseline at Weeks 4, 8, 12, 24, 36, 48, 60, 72, and 84 as outcome, including terms for pre-run-in Baseline eGFRcys, pre-run-in UACR category (\< 1500 mg/g vs. \>= 1500 mg/g), concomitant use of SGLT-2 inhibitors at Randomization, treatment group, week, and treatment-by-week interaction, where week has a random effect.||1.86|-0.97|0.5399
82525357|NCT01059630|164747403|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.4|0.7|||Log Rank|||||0.70|0.40|<0.0001
82525358|NCT01059630|164747405|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.45|0.73|||Log Rank|||||0.73|0.45|<0.0001
82525359|NCT01059630|164747406|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|0.98||||0.9298|TWO_SIDED|95.0|0.58|1.65|||Cochran-Mantel-Haenszel|||||1.65|0.58|0.9298
82525360|NCT01059630|164747407|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|-0.9||||0.7857|TWO_SIDED|95.0|-8.44|6.64|||Cochran-Mantel-Haenszel|||||6.64|-8.44|0.7857
82573667|NCT03670277|164857612|OTHER|Statistically significance of difference. Statistical difference will be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|0.031|STANDARD_ERROR_OF_MEAN|0.035|||TWO_SIDED|95.0|-0.037|0.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|This was a pilot study for assessing the investigational test articles. As such, the sample size was not determined based on any power analysis with regard to the primary endpoint.||0.100|-0.037|
82573668|NCT03670277|164857613|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|3.403|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|2.557|4.248|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|At -30°||4.248|2.557|
82525361|NCT01059630|164747412|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|2.24||||0.8347|TWO_SIDED|95.0|-7.2|11.69|||Cochran-Mantel-Haenszel|||||11.69|-7.20|0.8347
82525362|NCT01059630|164747413|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rate|8.55||||0.0466|TWO_SIDED|95.0|-0.22|17.32|||Cochran-Mantel-Haenszel|||||17.32|-0.22|0.0466
82573669|NCT03670277|164857613|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|2.431|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|1.585|3.277|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|At +30°||3.277|1.585|
82573670|NCT03670277|164857614|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|3.039|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|95.0|1.854|4.225|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test - Control|At -30°||4.225|1.854|
82443805|NCT00159913|164596167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.35||||95.0|0.21|1.58|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.58|0.21|
82525363|NCT01059630|164747414|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.31|0.61||||||||0.61|0.31|
82525364|NCT01059630|164747415|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.39|0.67||||||||0.67|0.39|
82525365|NCT01059630|164747416|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.13|||||TWO_SIDED|95.0|0.04|0.45||||||||0.45|0.04|
82525366|NCT01059630|164747417|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.29|0.81||||||||0.81|0.29|
82525367|NCT01059630|164747418|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.0001|TWO_SIDED|95.0|0.44|0.74|||Log Rank|||||0.74|0.44|0.0001
82525368|NCT01059630|164747420|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.081|TWO_SIDED|95.0|0.57|1.03|||Log Rank|||||1.03|0.57|0.0810
82525369|NCT03170375|164747435|SUPERIORITY|||||||0.28|||||||Regression, Linear|adjusted for baseline carotid-femoral pulse wave velocity||||||0.28
82525370|NCT03170375|164747436|SUPERIORITY|||||||0.6|||||||Regression, Linear|adjusted for baseline left ventricular mass index||||||0.60
82525371|NCT03170375|164747437|SUPERIORITY|||||||0.27|||||||Regression, Linear|adjusted for baseline global left ventricular longitudinal strain||||||0.27
82525372|NCT03170375|164747438|SUPERIORITY|||||||0.03|||||||Regression, Linear|adjusted for baseline carotid-femoral pulse wave velocity||||||0.03
82525373|NCT03170375|164747442|SUPERIORITY|||||||0.47|||||||generalized estimating equations|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.47
82525374|NCT03170375|164747443|SUPERIORITY|||||||0.28|||||||generalized estimating equation|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.28
82525375|NCT03170375|164747444|SUPERIORITY|||||||0.43|||||||generalized estimating equations|Model includes time (baseline, phase 2 month 1, phase 2 month 6), randomization assignment, and time x randomization assignment||||||0.43
82525376|NCT03170375|164747445|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
82525377|NCT03170375|164747446|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
82525378|NCT01287611|164747497|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Group sample sizes of 51 in study group and 65 in control group achieve 98% power to detect a difference between the group proportions of -0.3300. The proportion in study group is assumed to be 0.4800 under the null hypothesis and 0.1500 under the alternative hypothesis. The proportion in control group is 0.4800. The test statistic used is the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.0500.||||||0.0001|||||||Chi-squared|||||||0.0001
82525379|NCT01287611|164747498|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Group sample sizes of 51 in study group and 65 in control group achieve 98% power to detect a difference between the group proportions of -0.3300. The proportion in study group is assumed to be 0.4800 under the null hypothesis and 0.1500 under the alternative hypothesis. The proportion in control group is 0.4800. The test statistic used is the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.0500.||||||0.001|||||||t-test, 2 sided|||||||0.001
82525380|NCT03299686|164747505|SUPERIORITY||Mean Difference (Net)|0.027|STANDARD_DEVIATION|0.043||0.7374|TWO_SIDED|80.0|-0.029|0.082||Probability CJM112 better than placebo|Bayesian linear repeated measures model||||Lower limit and upper limit represents the Credibility Interval from the Bayesian analysis.|0.082|-0.029|0.7374
82525381|NCT03299686|164747506|SUPERIORITY||Mean Difference (Net)|0.913|STANDARD_ERROR_OF_MEAN|1.434||0.263|TWO_SIDED|80.0|-0.939|2.766||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||2.766|-0.939|0.263
82525382|NCT03299686|164747507|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.061|TWO_SIDED|80.0|-0.41|-0.04||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||-0.04|-0.41|0.061
82525383|NCT03299686|164747508|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.13||0.04|TWO_SIDED|80.0|-0.4|-0.06||1-sided p-value; p-value smaller than 0.1 is considered as statistically significant|Mixed Models Analysis|||||-0.06|-0.40|0.040
82525384|NCT02709005|164747511|SUPERIORITY||Risk Difference (RD)|-0.08||||0.42|TWO_SIDED|95.0|-0.26|0.08||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Clinical Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with clinical cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction. The statistical informational goal for the study of 90 participants eligible in the modified Intent-to-Treat (mITT) efficacy population was an ad-hoc sample size determined by logistical considerations, as there was insufficient pilot data upon which to base more formal sample size calculations.||0.08|-0.26|0.420
82525385|NCT02709005|164747512|SUPERIORITY||Risk Difference (RD)|0.14||||0.2|TWO_SIDED|95.0|-0.06|0.33||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants Experiencing Solicited Events between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with solicited urogenital AEs between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.33|-0.06|0.200
82573671|NCT03670277|164857614|OTHER|Statistically significance of difference. Statistical difference would be concluded if the lower limit was greater than 0 or the upper limit was less than 0.|Least Square Mean Difference|1.414|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|95.0|0.228|2.599|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test - Control|At +30°||2.599|0.228|
82525386|NCT02709005|164747513|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|||||No SAEs were reported; therefore the Fisher's Exact Test was not performed.||||The null hypothesis was that there was no difference in participants with related SAEs between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||||
82525387|NCT02709005|164747514|SUPERIORITY||Risk Difference (RD)|0.0|||>|0.999|TWO_SIDED|95.0|-0.13|0.08||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Therapeutic Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with therapeutic cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.08|-0.13|>0.999
82525388|NCT02709005|164747515|SUPERIORITY||Risk Difference (RD)|-0.09||||0.035|TWO_SIDED|95.0|-0.24|-0.01||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Therapeutic Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with therapeutic cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||-0.01|-0.24|0.035
82525389|NCT02709005|164747520|SUPERIORITY||Risk Difference (RD)|0.0|||>|0.999|TWO_SIDED|95.0|-0.18|0.14||The test was conducted using a Fisher's exact test at the 5% two-sided level of significance level without adjustment for multiplicity.|Fisher Exact||Difference in Proportion of Participants with Clinical Cure between 5% Monolaurin Vaginal Gel and Placebo Gel|The null hypothesis was that there was no difference in participants with clinical cure between study arms, with a two-sided alternative considering the possibility of a difference in either direction.||0.14|-0.18|>0.999
82525390|NCT03532308|164747526|SUPERIORITY|||||||0.76||||||This is for the effect of treatment with time, risk stratification and treatment\*time interaction in the model.|Mixed Models Analysis|||||||0.76
82525391|NCT03720938|164747532|SUPERIORITY|A sample size of 26 children per group was needed with the assumption of Cohen's d = 0.8, the alpha error of 0.05 and a power of 80%.||||||0.001||||||The outcomes of weight was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the weight at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.001
82525392|NCT03720938|164747532|OTHER|||||||0.0002535||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.0002535
82525393|NCT03720938|164747532|SUPERIORITY|||||||0.000397||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight.||||0.000397
82573672|NCT02660112|164857615|SUPERIORITY|||||||0.336|||||||Wilcoxon (Mann-Whitney)|||||||0.336
82573673|NCT00078377|164857659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.0024||95.0|1.02|4.61|||ANCOVA|The corresponding baseline value as a covariate.||Statistical data is for the Armodafinil Combined treatment (250 mg/day and 150 mg/day groups) compared to the placebo treatment group||4.61|1.02|0.0024
82573674|NCT00078377|164857660|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82525394|NCT03720938|164747533|SUPERIORITY|||||||0.005||||||The outcome of weight z score was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the weight at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable weight z scores.||||0.005
82525395|NCT03720938|164747533|SUPERIORITY|||||||0.002||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable weight z score.||||0.002
82525396|NCT03720938|164747533|SUPERIORITY|||||||0.00386||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality. Adjusted by Satterthwaite's degrees of freedom correction method for cluster effect, and small sample sizes in addition to baseline value and age.||||0.00386
82525397|NCT03720938|164747534|SUPERIORITY|||||||0||||||The outcomes of weight was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the body mass index at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.000
82525398|NCT03720938|164747534|SUPERIORITY|||||||3.06e-06||||||"Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.~Adjusted for cluster effect, and small sample sizes, baseline value and age."|Linear mixed effects model|Satterthwaite's correction method for denominator degrees of freedom.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.00000306
82388881|NCT04016779|164489149|SUPERIORITY||Difference in percentage of responders|10.7||||0.0744|TWO_SIDED|95.0|-1.0|22.1|||Pearson's chi-squared test|||||22.1|-1.0|0.0744
82388882|NCT04016779|164489150|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.43||0.9205|TWO_SIDED|95.0|-0.9|0.8|||Mixed Model for Repeated Measures|||||0.8|-0.9|0.9205
82525399|NCT03720938|164747534|SUPERIORITY|||||||3.67e-06||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index.||||0.00000367
82525400|NCT03720938|164747535|SUPERIORITY|||||||0||||||The outcome of body mass index z score was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the body mass index z score at baseline and confounding variable age.|ANCOVA|||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index z score.||||0.000
82640763|NCT05261126|164996249|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-55.7|||<|0.001|TWO_SIDED|95.0|-62.3|-49.1|||cLDA||MK-0616 12 mg minus Placebo|||-49.1|-62.3|<0.001
82388883|NCT04016779|164489151|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.77||0.0015|TWO_SIDED|95.0|-4.0|-0.9|||Mixed Model for Repeated Measures|||||-0.9|-4.0|0.0015
82525401|NCT03720938|164747535|SUPERIORITY|||||||0.0001402||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body mass index z score.||||0.0001402
82525402|NCT03720938|164747535|SUPERIORITY|||||||0.000235||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable body index z score.||||0.000235
82525403|NCT03720938|164747536|SUPERIORITY|||||||0.259||||||The outcomes of fat ratio was tested for any difference between groups by covariate analysis (ANCOVA) adjusted for the fat ratio at baseline and confounding variable age.|ANCOVA|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.259
82525404|NCT03720938|164747536|SUPERIORITY|||||||0.22||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.220
82388884|NCT04016779|164489152|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.66||0.038|TWO_SIDED|95.0|-2.7|-0.1|||Mixed Model for Repeated Measures|||||-0.1|-2.7|0.0380
82388885|NCT04016779|164489153|SUPERIORITY||Difference in percentage of responders|12.4||||0.0395|TWO_SIDED|95.0|0.6|23.8|||Pearson's chi-squared test|||||23.8|0.6|0.0395
82388886|NCT04016779|164489154|SUPERIORITY||Difference in percentage of responders|6.4||||0.2736|TWO_SIDED|95.0|-5.0|17.5|||Pearson's chi-squared test|||||17.5|-5.0|0.2736
82388887|NCT04016779|164489155|SUPERIORITY||Least Square Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.22||0.0468|TWO_SIDED|95.0|-4.8|0.0|||ANCOVA|||||0.0|-4.8|0.0468
82525405|NCT03720938|164747536|SUPERIORITY|||||||0.250006||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable fat ratio.||||0.250006
82525406|NCT03720938|164747537|SUPERIORITY|||||||0||||||The outcome of visual reaction time was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the weight at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time.||||0.000
82525407|NCT03720938|164747537|SUPERIORITY|Adjusted for the weight at baseline and confounding variable age.||||||1.196e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||The outcome of visual reaction time was tested for any difference between groups by linear mixed-effects model analysis.||||0.00001196
82525408|NCT03720938|164747537|SUPERIORITY||||||‬|2.82e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time.||||0.0000282‬
82573675|NCT04546217|164857661|SUPERIORITY|Since this is a descriptive analysis, no power calculation was conducted.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82388888|NCT04016779|164489156|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.04||0.4462|TWO_SIDED|95.0|-2.8|1.3|||ANCOVA|||||1.3|-2.8|0.4462
82525409|NCT03720938|164747538|SUPERIORITY|||||||0||||||The outcome of visual reaction time of non-dominant hand was tested for any difference between groups.|ANCOVA|Adjusted for the visual reaction time of non-dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||0.000
82388889|NCT04016779|164489157|SUPERIORITY||Least Square Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.29||0.01|TWO_SIDED|95.0|-5.9|-0.8|||ANCOVA|||||-0.8|-5.9|0.0100
82525410|NCT03720938|164747538|SUPERIORITY|||||||9e-08||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||0.00000009
82525411|NCT03720938|164747538|SUPERIORITY|||||||55||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable visual reaction time of non-dominant hand.||||000000055
82525412|NCT03720938|164747539|SUPERIORITY|||||||0||||||The outcomes of auditory reaction time of dominant hand was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the auditory reaction time of dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.000
82573676|NCT04546217|164857662|OTHER|Since this is a descriptive analysis, no power calculation was conducted.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82573677|NCT04546217|164857663|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.||||||||||||||||Considering the small sample size, a descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits.|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82640764|NCT05261126|164996249|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-59.1|||<|0.001|TWO_SIDED|95.0|-65.7|-52.5|||cLDA||MK-0616 18 mg minus Placebo|||-52.5|-65.7|<0.001
82525413|NCT03720938|164747539|SUPERIORITY|||||||1.633e-05||||||The outcomes of auditory reaction time of dominant hand was tested for any difference between groups by linear mixed-effects analysis.|Linear mixed-effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.00001633
82525414|NCT03720938|164747539|SUPERIORITY|||||||3.67e-05||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of dominant hand.||||0.0000367
82525415|NCT03720938|164747540|SUPERIORITY|||||||0.008||||||The outcomes of auditory reaction time of non-dominant hand was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for the auditory reaction time of non-dominant hand at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.008
82573678|NCT04546217|164857664|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82573679|NCT04546217|164857665|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82388890|NCT04016779|164489158|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.16||0.2186|TWO_SIDED|95.0|-3.7|0.9|||ANCOVA|||||0.9|-3.7|0.2186
82525416|NCT03720938|164747540|SUPERIORITY|||||||0.006||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.006
82525417|NCT03720938|164747540|SUPERIORITY|||||||0.006602||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable auditory reaction time of non-dominant hand.||||0.006602
82388891|NCT04016779|164489159|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.1||0.0344|TWO_SIDED|95.0|-4.5|-0.2|||ANCOVA|||||-0.2|-4.5|0.0344
82388892|NCT04016779|164489160|SUPERIORITY||Least Square Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.99||0.368|TWO_SIDED|95.0|-1.1|2.8|||ANCOVA|||||2.8|-1.1|0.3680
82388893|NCT04016779|164489161|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.6361|TWO_SIDED|95.0|-2.7|1.6|||ANCOVA|||||1.6|-2.7|0.6361
82388894|NCT04016779|164489162|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.2||0.1708|TWO_SIDED|95.0|-4.0|0.7|||ANCOVA|||||0.7|-4.0|0.1708
82388895|NCT04016779|164489163|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.3||0.0094|TWO_SIDED|95.0|-6.0|-0.8|||ANCOVA|||||-0.8|-6.0|0.0094
82573680|NCT04546217|164857666|OTHER|A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessments visits. Changes in scores post-treatment vs. pre-treatment, and 3 and 6-month follow up vs. post-treatment were calculated.|||||||||||||||||A descriptive analysis of means and standard deviations was conducted comparing scores obtained on pre-, post-treatment, at the 3- and 6-month follow up assessment visits. Changes in the scores obtained on all time points compared to pre-treatment were also identified.|||
82388896|NCT04016779|164489164|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.34||0.0104|TWO_SIDED|95.0|-6.1|-0.8|||ANCOVA|||||-0.8|-6.1|0.0104
82388897|NCT04016779|164489165|SUPERIORITY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.13||0.0178|TWO_SIDED|95.0|-4.9|-0.5|||ANCOVA|||||-0.5|-4.9|0.0178
82388898|NCT04016779|164489166|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|1.34||0.0187|TWO_SIDED|95.0|-5.8|-0.5|||ANCOVA|||||-0.5|-5.8|0.0187
82388899|NCT00281632|164489168|SUPERIORITY_OR_OTHER||Reponse rate|31.0||||||95.0|16.3|48.1|||||50% Response Rate (Normalized and Non-Normalized)|||48.1|16.3|
82388900|NCT00281632|164489172|SUPERIORITY_OR_OTHER||Response rate|17.6||||||95.0|3.8|43.4|||||Response rate (CR+PR)|||43.4|3.8|
82388901|NCT00281632|164489172|SUPERIORITY_OR_OTHER||Response rate|21.1||||||95.0|6.1|45.6|||||Response rate (CR+PR)|||45.6|6.1|
82388902|NCT00281632|164489172|SUPERIORITY_OR_OTHER||Response rate|19.4||||||95.0|8.2|36.0|||||Response rate (CR+PR)|||36.0|8.2|
82388903|NCT01369108|164489189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||ANOVA|||null hypothesis no difference in anatomic form||||0.8
82388904|NCT01369108|164489189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||ANOVA|||null hypothesis no difference in margin adaptation||||0.89
82388905|NCT01369108|164489189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||ANOVA|||null hypothesis no difference in margin discoloration||||0.79
82388906|NCT01369108|164489189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||ANOVA|||null hypothesis no difference in surface integrity||||0.18
82388907|NCT01369108|164489189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||ANOVA|||null hypothesis no difference in secondary caries||||0.66
82388908|NCT01369108|164489190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522|||||||ANOVA|||null hypothesis no difference in sensitivity to cold||||0.522
82573681|NCT03121820|164857668|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric mean ratios were fully contained within the predefined equivalence limits of 80.00 % to 125.00 %|Test/Ref Geometric mean ratio x 100|93.8||||0.05|TWO_SIDED|90.0|88.25|99.77|||Test/Ref Geometric mean ratio x 100|Bioequivalence is established when 90% Confidence Interval falls within 80.00 % -125.00 %.||Memantinol 20 mg Tablets Versus Akatinol Memantine® 20 mg||99.77|88.25|0.05
82388909|NCT01369108|164489190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.449|||||||Chi-squared|||null hypothesis no difference in biting pressure||||.449
82443806|NCT00159913|164596168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.64||0.44||95.0|-1.77|0.77|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||0.77|-1.77|0.440
82640765|NCT05261126|164996249|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-60.9|||<|0.001|TWO_SIDED|95.0|-67.6|-54.3|||cLDA||MK-0616 30 mg minus Placebo|||-54.3|-67.6|<0.001
82388910|NCT05239494|164489215|SUPERIORITY||Median Difference (Final Values)|0.001|||<|0.001|TWO_SIDED||||||Shapiro-Wilks|||This study used a ±50 VAS scale, with values in the positive and negative range indicating that the contact lenses were comfortable or uncomfortable, respectively. A score of zero on this scale indicated neutral CL comfort.||||<0.001
82388911|NCT01167881|164489253|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.46|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|97.5|-4.87|-4.05||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline weight, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-4.05|-4.87|<0.0001
82388912|NCT01167881|164489254|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested through a two-sided 97.5% confidence interval for the treatment effect of empagliflozin minus the effect of glimepiride in change from baseline in HbA1c. The null-hypothesis of material inferiority of empagliflozin was rejected if the confidence interval is entirely below the non-inferiority margin 0.3%.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|97.5|-0.2|-0.01|||ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-0.01|-0.20|<0.0001
82640766|NCT05261126|164996250|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|0.2|||||TWO_SIDED|95.0|-15.5|15.8|||||MK-0616 6 mg minus Placebo|||15.8|-15.5|
82573682|NCT03121820|164857669|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric mean ratios were fully contained within the predefined equivalence limits of 80.00 % to 125.00 %|Test/Ref Geometric mean ratio x 100|92.3||||0.05|TWO_SIDED|90.0|86.37|98.55|||Test/Ref Geometric mean ratio x 100|Bioequivalence is established when 90% Confidence Interval falls within 80.00 % -125.00 %.||Memantinol 20 mg Tablets Versus Akatinol Memantine® 20 mg||98.55|86.37|0.05
82573683|NCT04292470|164857672|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
82573684|NCT04292470|164857673|SUPERIORITY|||||||0.09|||||||ANOVA|||For statistical testing, we used a general linear model of change in GERD symptoms from baseline to 8 weeks adjusted for the natural log of the index value (of the ratio of the change in skin conductance between patient and physician at baseline) and randomization assignment.||||0.09
82573685|NCT02330094|164857685|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82573686|NCT02330094|164857686|SUPERIORITY|||||||0.79|||||||ANOVA|||||||0.79
82525418|NCT03720938|164747541|SUPERIORITY|||||||0.615648||||||The outcome of self-perception for sports competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for sports competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of sports competence.||||0.615648
82525419|NCT03720938|164747541|SUPERIORITY|||||||0.608||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.||||0.608
82525420|NCT03720938|164747541|SUPERIORITY|||||||0.60938||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of sports competence.||||0.60938
82525421|NCT03720938|164747542|SUPERIORITY|||||||0.094||||||The outcome of self-perception for physical condition competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for physical condition competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of physical condition competence.||||0.094
82525422|NCT03720938|164747542|SUPERIORITY|||||||0.085||||||The outcome of self-perception for physical condition competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of physical condition competence.||||0.085
82573687|NCT02330094|164857687|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
82573688|NCT00340704|164857743|SUPERIORITY_OR_OTHER||Slope|1.0039|STANDARD_ERROR_OF_MEAN|0.1725||||95.0|0.6499|1.3579|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality for Cmax,ss was explored based on the regression model.||1.3579|0.6499|
82573689|NCT00340704|164857747|SUPERIORITY_OR_OTHER||Slope|0.98|STANDARD_ERROR_OF_MEAN|0.1884||||95.0|0.5934|1.3666|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of the slope.|Dose proportionality for AUCτ,ss was explored based on the regression model.||1.3666|0.5934|
82573690|NCT00121667|164857755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.92|-0.53||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.53|-0.92|<.0001
82573691|NCT00121667|164857755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-1.02|-0.63||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.63|-1.02|<.0001
82573692|NCT00121667|164857755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.52||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-0.52|-0.91|<.0001
82573693|NCT00121667|164857756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.55|STANDARD_ERROR_OF_MEAN|3.56|<|0.0001|TWO_SIDED|95.0|-22.55|-8.55||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-8.55|-22.55|<.0001
82525423|NCT03720938|164747542|SUPERIORITY|||||||0.08818||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.||||0.08818
82525424|NCT03720938|164747543|SUPERIORITY|||||||0.058102||||||The outcome of self-perception for strength competence was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for strength competence at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.058102
82640767|NCT05261126|164996250|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-4.5|||||TWO_SIDED|95.0|-20.0|11.2|||||MK-0616 12 mg vs Placebo|||11.2|-20.0|
82388913|NCT01167881|164489254|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.0153|TWO_SIDED|97.5|-0.2|-0.01||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-0.01|-0.20|0.0153
82388914|NCT01167881|164489255|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.102|||<|0.0001|TWO_SIDED|97.5|0.06|0.173||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for baseline HbA1c (\<8.5 / \>=8.5).||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||0.173|0.060|<0.0001
82425944|NCT01668004|164560393|SUPERIORITY_OR_OTHER||Treatment Ratio|4.5|||<|0.0001|TWO_SIDED|95.0|3.86|5.25|||Generalized estimating equation|||Treatment difference (expressed as ratio) in uveitis incidence rate assessed 1 year before initial anti-TNF/GLM treatment and 1 year after start of GLM treatment. Number of subjects included in analysis: N=92.||5.25|3.86|<0.0001
82525425|NCT03720938|164747543|SUPERIORITY|||||||0.051||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.051
82525426|NCT03720938|164747543|SUPERIORITY|||||||0.0534||||||The outcome of self-perception for strength competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of strength competence.||||0.0534
82525427|NCT03720938|164747544|SUPERIORITY|||||||0.638505||||||The outcome of self-perception for body attractiveness was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for body attractiveness at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.638505
82525428|NCT03720938|164747544|SUPERIORITY|||||||0.632||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted for cluster effect in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.632
82573694|NCT00121667|164857756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.28|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-30.29|-16.27||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-16.27|-30.29|<.0001
82425945|NCT05528770|164560397|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|8.98||0.4291|TWO_SIDED|95.0|-3.8|8.3|||t-test, 2 sided|||||8.3|-3.8|0.4291
82425946|NCT01463527|164560450|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||||TWO_SIDED|95.0|0.17|0.57||||||Odds of intervention in capnography open group as compared to capnography blind group after adjusting of age and length of sedation.||0.57|0.17|
82425947|NCT01463527|164560451|SUPERIORITY|||||||0.3|||||||GEE (Generalized Estimating Equation)|||||||0.30
82425948|NCT02921256|164560522|SUPERIORITY|||||||0.69|||||||Regression, Linear|||||||0.69
82425949|NCT02921256|164560522|SUPERIORITY|||||||0.26|||||||Regression, Linear|||||||0.26
82425950|NCT01728246|164560538|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82425951|NCT01728246|164560539|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82425952|NCT01728246|164560541|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82426864|NCT04211363|164561963|SUPERIORITY||Odds Ratio (OR)|20.69|||<|0.0001|TWO_SIDED|95.0|7.58|56.48|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data..|IGA Success Odds Ratio||56.48|7.58|<0.0001
82525429|NCT03720938|164747544|SUPERIORITY|||||||0.6328||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of body attractiveness.||||0.63280
82525430|NCT03720938|164747545|SUPERIORITY|||||||0.007061||||||The outcome of self-perception of global physical self-worth was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for global physical self-worth at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.007061
82426135|NCT00854360|164561110|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.187|TWO_SIDED|95.0|-0.99|0.19||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.19|-0.99|0.187
82525431|NCT03720938|164747545|SUPERIORITY|||||||0.005||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.005
82525432|NCT03720938|164747545|SUPERIORITY|||||||0.00603||||||Linear mixed-effects model fit by maximum likelihood since restricted maximum likelihood assumes a strong normality.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global physical self-worth.||||0.00603
82525433|NCT03720938|164747546|SUPERIORITY|||||||0.002879||||||The outcome of self-perception for global self-worth was tested for any difference between groups by covariate analysis.|ANCOVA|Adjusted for self-perception for global self-worth at baseline and confounding variable age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.002879
82525434|NCT03720938|164747546|SUPERIORITY|||||||0.002||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.002
82640768|NCT05261126|164996250|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-0.6|||||TWO_SIDED|95.0|-16.3|15.1|||||MK-0616 18 mg vs Placebo|||15.1|-16.3|
82640769|NCT05261126|164996250|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|-1.9|||||TWO_SIDED|95.0|-17.5|13.8|||||MK-0616 30 mg minus Placebo|||13.8|-17.5|
82388915|NCT01167881|164489256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|97.5|-7.0|-4.2||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline SBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-4.2|-7.0|<0.0001
82388916|NCT01167881|164489257|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|97.5|-3.5|-1.8||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline DBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for main analysis (104 weeks):~1. Non-inferiority in HbA1c change from baseline at 104 weeks,~2. Superiority in body weight change from baseline at 104 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 104 weeks,~4. Superiority in HbA1c change from baseline at 104 weeks,~5. Superiority in systolic blood pressure change from baseline at 104 weeks,~6. Superiority in diastolic blood pressure change from baseline at 104 weeks."||-1.8|-3.5|<0.0001
82525435|NCT03720938|164747546|SUPERIORITY|||||||0.00238||||||The outcome of self-perception for sports competence was tested for any difference between groups by linear mixed-effects model analysis.|Linear mixed-effects model|Adjusted by Satterthwaite's degrees of freedom method for cluster effect, and small sample sizes in addition to baseline value and age.||Null hypothesis was the absence of difference between the two groups for the dependent variable self-perception of global self-worth.||||0.00238
82525436|NCT03720938|164747547|SUPERIORITY|||||||0.194||||||Tested the significance of gender between genders|Wilcoxon (Mann-Whitney)|||"Enjoyment scale of physical activity sports in intervention group between male and female genders"||||0.194
82525437|NCT03720938|164747548|SUPERIORITY|||||||0.809|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the Active video game group for the variable of enjoyment from sports category.||||0.809
82525438|NCT03720938|164747549|SUPERIORITY|||||||0.843|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from balance category.||||0.843
82525439|NCT03720938|164747550|SUPERIORITY|||||||0.247|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from aerobic category.||||0.247
82525440|NCT03720938|164747551|SUPERIORITY|||||||0.543|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis was the absence of difference between the two genders in the active video game group for the variable of enjoyment from training category.||||0.543
82640770|NCT05261126|164996252|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-32.8|||<|0.001|TWO_SIDED|95.0|-38.6|-26.9|||cLDA||MK-0616 6 mg minus Placebo|||-26.9|-38.6|<0.001
82640771|NCT05261126|164996252|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-45.8|||<|0.001|TWO_SIDED|95.0|-51.7|-39.9|||cLDA||MK-0616 12 mg minus Placebo|||-39.9|-51.7|<0.001
82640772|NCT05261126|164996252|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-48.7|||<|0.001|TWO_SIDED|95.0|-54.6|-42.8|||cLDA||MK-0616 18 mg minus Placebo|||-42.8|-54.6|<0.001
82640773|NCT05261126|164996252|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Square Means|-51.8|||<|0.001|TWO_SIDED|95.0|-57.7|-45.9|||cLDA||MK-0616 30 mg minus Placebo|||-45.9|-57.7|<0.001
82640774|NCT05261126|164996253|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-35.9|||<|0.001|TWO_SIDED|95.0|-42.4|-29.4|||cLDA||MK-0616 6 mg minus Placebo|||-29.4|-42.4|<0.001
82525441|NCT00499863|164747552|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||The null hypothesis was that there is no difference between MTS and placebo.||||< 0.001
82525442|NCT00499863|164747553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82640775|NCT05261126|164996253|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-50.5|||<|0.001|TWO_SIDED|95.0|-57.0|-44.0|||cLDA||MK-0616 12 mg minus Placebo|||-44.0|-57.0|<0.001
82640776|NCT05261126|164996253|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-53.2|||<|0.001|TWO_SIDED|95.0|-59.7|-46.7|||cLDA||MK-0616 18 mg minus Placebo|||-46.7|-59.7|<0.001
82525443|NCT00499863|164747554|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82525444|NCT00499863|164747555|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82525445|NCT00499863|164747556|SUPERIORITY_OR_OTHER|||||||0.288||95.0|||||ANCOVA|||||||0.288
82525446|NCT00691132|164747565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.023|TWO_SIDED|95.0|-13.8|-1.2|||Mixed Models Analysis|||% difference between Placebo and PEITC periods in the ratio of \[pyridine-D4\]Hydroxy acid : \[pyridine-D4\] total NNAL||-1.2|-13.8|0.023
82388917|NCT01167881|164489258|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested through a two-sided 97.5% confidence interval for the treatment effect of empagliflozin minus the effect of glimepiride in change from baseline in HbA1c. The null-hypothesis of material inferiority of empagliflozin was rejected if the confidence interval is entirely below the non-inferiority margin 0.3%.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|97.5|-0.16|0.02|||ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline HbA1c as linear covariate.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||0.02|-0.16|<0.0001
82426136|NCT01170663|164561135|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.807||||0.0169|TWO_SIDED|95.0|0.678|0.962|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.962|0.678|0.0169
82525447|NCT00691132|164747566|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANOVA|||Total ITC||||0.005
82525448|NCT00691132|164747568|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||ANOVA|||Total ITC||||0.017
82525449|NCT00691132|164747569|SUPERIORITY_OR_OTHER|||||||0.039|||||||Mixed Models Analysis|||||||0.039
82525450|NCT00691132|164747569|SUPERIORITY_OR_OTHER|||||||0.623|||||||Mixed Models Analysis|||||||0.623
82525451|NCT00691132|164747569|SUPERIORITY_OR_OTHER|||||||0.045|||||||Mixed Models Analysis|||||||0.045
82525452|NCT00860067|164747571|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose A/H1N1 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H1N1 post-dose GMT ratio: (FluMist B/Yamagata A/H1N1 + FluMist B/Victoria A/H1N1) divided by Q/LAIV A/H1N1.|Ratio of geometric mean|1.09|||||TWO_SIDED|95.0|1.01|1.18|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||A/H1N1: Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of A/H1N1 GMTs for the specified comparison. Geometric mean titers for the A/H1N1 influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.18|1.01|
82573695|NCT00121667|164857756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.74|STANDARD_ERROR_OF_MEAN|3.6|<|0.0001|TWO_SIDED|95.0|-28.81|-14.68||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF) .Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-14.68|-28.81|<.0001
82426137|NCT01170663|164561136|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.635|||<|0.0001|TWO_SIDED|95.0|0.536|0.752|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.752|0.536|<0.0001
82426138|NCT01170663|164561137|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.596|||<|0.0001|TWO_SIDED|95.0|0.494|0.72|||Stratified Log Rank Test|Adjusted for stratification factors: geographic region, time-to-progression from start of first-line therapy and disease measurability.||||0.720|0.494|<0.0001
82426139|NCT01170663|164561139|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.14||||0.0001|TWO_SIDED|95.0|1.45|3.16|||Cochran-Mantel-Haenszel|Adjusted for stratification factors: geographic region, time-to-progression from the start of first-line therapy and disease measurability.||||3.16|1.45|0.0001
82426140|NCT01170663|164561147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3973||||||Analysis of covariance (ANCOVA) included treatment group, randomization stratification factors and baseline value of Global Health Status scale.|ANCOVA|||||||0.3973
82426141|NCT03229538|164561154|OTHER||Adjusted Odds Ratio|0.86||||0.14|TWO_SIDED|95.0|0.71|1.05|||Regression, Logistic|||||1.05|0.71|0.14
82426142|NCT03229538|164561154|OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-2.6|0.9|||||Difference = Methylprednisolone - Placebo|Rank = 97||0.9|-2.6|
82426143|NCT03229538|164561154|OTHER||Percent Difference|-1.5|||||TWO_SIDED|95.0|-3.5|0.5|||||Difference = Methylprednisolone - Placebo|Rank \> or = 96||0.5|-3.5|
82426144|NCT03229538|164561154|OTHER||Percent Difference|-2.2|||||TWO_SIDED|95.0|-4.4|0.1|||||Difference = Methylprednisolone - Placebo|Rank \> or = 95||0.1|-4.4|
82388918|NCT01167881|164489259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|97.5|-5.16|-4.46||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline weight, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-4.46|-5.16|<0.0001
82388919|NCT01167881|164489260|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.077|||<|0.0001|TWO_SIDED|97.5|0.04|0.148||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for baseline HbA1c (\<8.5 / \>=8.5).||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||0.148|0.040|<0.0001
82388920|NCT01167881|164489261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|97.5|-7.3|-4.4||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline SBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-4.4|-7.3|<0.0001
82388921|NCT01167881|164489262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|97.5|-3.7|-2.0||The superiority tests performed at 104 weeks and the superiority tests performed at 52 weeks both used a nominal significance level of 2.5% to maintain the overall significance level of 5%.|ANCOVA|ANCOVA with treatment, geographical region, renal function at baseline as fixed effects and baseline DBP, baseline HbA1c as linear covariates.||"Testing Hierarchy for first interim analysis (52 weeks):~1. Non-inferiority in HbA1c change from baseline at 52 weeks,~2. Superiority in body weight change from baseline at 52 weeks,~3. Superiority in occurrence of confirmed hypoglycaemic adverse events at 52 weeks,~4. Superiority in systolic blood pressure change from baseline at 52 weeks,~5. Superiority in diastolic blood pressure change from baseline at 52 weeks."||-2.0|-3.7|<0.0001
82388922|NCT00556933|164489304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED||||||Chi-squared|||||||0.0004
82443807|NCT00159913|164596168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.88||||95.0|-1.91|1.57|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.57|-1.91|
82525453|NCT00860067|164747571|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose A/H3N2 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H3N2 post-dose GMT ratio: (FluMist B/Yamagata A/H3N2 + FluMist B/Victoria A/H3N2) divided by Q/LAIV A/H3N2.|Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.96|1.14|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||A/H3N2: Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of A/H3N2 GMTs for the specified comparison. Geometric mean titers for the A/H3N2 influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.14|0.96|
82525454|NCT00860067|164747571|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose B/Yamagata GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Yamagata post-dose GMT ratio: (FluMist B/Yamagata) divided by (Q/LAIV B/Yamagata).|Ratio of geometric mean|1.1|||||TWO_SIDED|95.0|0.97|1.25|||Bootstrapping|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of B/Yamagata GMTs for the specified comparison. Geometric mean titers for the B/Yamagata influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.25|0.97|
82525455|NCT00860067|164747571|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV was to be declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for post dose B/Victoria GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Victoria post-dose GMT ratio: (FluMist B/Victoria) divided by (Q/LAIV B/Victoria).|Ratio of geometric means|0.92|||||TWO_SIDED|95.0|0.82|1.03|||Bootstrapping|Confidence intervals were calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CI for the ratio of B/Victoria GMTs for the specified comparison. Geometric mean titers for the B/Victoria influenza antibody measurements were calculated as: GMT = antilog\^e (mean \[log\^e x\]) where x was the assay result and e was the natural logarithm.||1.03|0.82|
82525456|NCT01060553|164747601|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||for mcs||||.15
82525457|NCT01060553|164747601|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||t-test, 2 sided|||for pcs||||.28
82525458|NCT01060553|164747602|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||for sleep duration||||.34
82573696|NCT00121667|164857757|SUPERIORITY_OR_OTHER||Difference in Proportions|20.5|||<|0.0001|TWO_SIDED|95.0|10.6|30.5||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||30.5|10.6|<.0001
82525459|NCT01060553|164747602|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||for sleep disturbance||||.001
82525460|NCT01060553|164747602|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||for sleep latency||||.015
82525461|NCT01462162|164747610|SUPERIORITY_OR_OTHER|||||||0.006|||||||Regression, Linear|||change in fatigue score versus change in DAS-28 score||||0.006
82525462|NCT01462162|164747610|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in sleepiness score||||0.000
82525463|NCT01462162|164747610|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in depression score||||0.000
82525464|NCT01462162|164747611|SUPERIORITY_OR_OTHER|||||||0.023|||||||Regression, Linear|||change in fatigue score versus change in DAS-28 score||||0.023
82525465|NCT01462162|164747611|SUPERIORITY_OR_OTHER|||||||0.007|||||||Regression, Linear|||change in fatigue score versus change in sleepiness score||||0.007
82525466|NCT01462162|164747611|SUPERIORITY_OR_OTHER|||||||0|||||||Regression, Linear|||change in fatigue score versus change in depression score||||0.000
82525467|NCT01462162|164747612|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline versus Week 12||||<0.001
82525468|NCT01462162|164747612|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline versus Week 24||||<0.001
82525469|NCT01462162|164747613|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525470|NCT01462162|164747613|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525471|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.003|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in DAS-28 at Week 12||||0.003
82525472|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.006|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in DAS-28 at Week 24||||0.006
82525473|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.791|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in serum hemoglobin Week 12||||0.791
82525474|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.847|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in serum hemoglobin Week 24||||0.847
82525475|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.182|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in swollen joint count Week 12||||0.182
82525476|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.022|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in swollen joint count Week 24||||0.022
82525477|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.163|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in morning stiffness Week 12||||0.163
82525478|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.115|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in morning stiffness Week 24||||0.115
82525479|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.037|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in degree of pain Week 12||||0.037
82525480|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.044|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in degree of pain Week 24||||0.044
82525481|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.003|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in sleepiness at Week 12||||0.003
82525482|NCT01462162|164747614|SUPERIORITY_OR_OTHER|||||||0.001|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in sleepiness at Week 24||||0.001
82525483|NCT01462162|164747614|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|||change in fatigue score at Week 12 versus change in depression Week 12||||<0.001
82525484|NCT01462162|164747614|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|||change in fatigue score at Week 24 versus change in depression at Week 24||||<0.001
82525485|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.678|||||||Regression, Linear|||change in hemoglobin levels versus change in swollen joint count (Week 12)||||0.678
82525486|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.348|||||||Regression, Linear|||change in hemoglobin levels versus change in swollen joint count (Week 24)||||0.348
82525487|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.679|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 12)||||0.679
82525488|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.556|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 24)||||0.556
82573697|NCT00121667|164857757|SUPERIORITY_OR_OTHER||Difference in Proportions|27.0|||<|0.0001|TWO_SIDED|95.0|17.0|36.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||36.7|17.0|<.0001
82573698|NCT00121667|164857757|SUPERIORITY_OR_OTHER||Difference in Proportions|27.9|||<|0.0001|TWO_SIDED|95.0|17.7|37.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||37.7|17.7|<.0001
82443808|NCT00159913|164596168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.78||||95.0|-1.73|1.36|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||1.36|-1.73|
82443809|NCT00159913|164596168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.75||||95.0|-2.61|0.33|||ANCOVA|The model included the covariates etiology, weight group and capability of performing the exercise test||||0.33|-2.61|
82525489|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.692|||||||Regression, Linear|||change in haemoglobin levels versus change in degree of pain (Week 12)||||0.692
82525490|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.771|||||||Regression, Linear|||change in haemoglobin levels versus change in degree of pain (Week 24)||||0.771
82525491|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.878|||||||Regression, Linear|||change in haemoglobin levels versus change in sleepiness (Week 12)||||0.878
82525492|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.139|||||||Regression, Linear|||change in haemoglobin levels versus change in sleepiness (Week 24)||||0.139
82525493|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.249|||||||Regression, Linear|||change in haemoglobin levels versus change in depression score (Week 12)||||0.249
82525494|NCT01462162|164747615|SUPERIORITY_OR_OTHER|||||||0.61|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 24)||||0.610
82525495|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.257|||||||Regression, Linear|||change in haemoglobin levels versus change in swollen joint count (Week 12)||||0.257
82525496|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.487|||||||Regression, Linear|||change in haemoglobin levels versus change in swollen joint count (Week 24)||||0.487
82525497|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.644|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 12)||||0.644
82525498|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.498|||||||Regression, Linear|||change in hemoglobin levels versus change in morning stiffness (Week 24)||||0.498
82388923|NCT00556933|164489305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|TWO_SIDED||||||General Linear Model|||||||0.45
82640777|NCT05261126|164996253|SUPERIORITY|One-sided p-value and difference in least squares means based on a cLDA model including terms for treatment, time, baseline statin intensity, baseline renal function, and the interaction of treatment by time.|Difference in Least Squares Means|-55.8|||<|0.001|TWO_SIDED|95.0|-62.3|-49.3|||cLDA||MK-0616 30 mg minus Placebo|||-49.3|-62.3|<0.001
82388924|NCT00556933|164489306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|TWO_SIDED||||||Fisher Exact|||||||0.53
82388925|NCT00556933|164489307|SUPERIORITY_OR_OTHER_LEGACY|||||||0.463|TWO_SIDED||||||Fisher Exact|||||||0.463
82388926|NCT00556933|164489308|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||Kaplan-Meier|||||||0.67
82388927|NCT00556933|164489309|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|TWO_SIDED||||||Fisher Exact|||||||0.193
82388928|NCT00556933|164489310|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|TWO_SIDED||||||Fisher Exact|||||||0.422
82573699|NCT00121667|164857758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5599.0|STANDARD_ERROR_OF_MEAN|1168.2|<|0.0001|TWO_SIDED|95.0|-7894.0|-3305.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-3305|-7894|<.0001
82525499|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.65|||||||Regression, Linear|||change in hemoglobin levels versus change in degree of pain (Week 12)||||0.650
82525500|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.75|||||||Regression, Cox|||change in hemoglobin levels versus change in degree of pain (Week 24)||||0.750
82525501|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.936|||||||Regression, Linear|||change in hemoglobin levels versus change in sleepiness (Week 12)||||0.936
82525502|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.075|||||||Regression, Linear|||change in hemoglobin levels versus change in sleepiness (Week 24)||||0.075
82525503|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.098|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 12)||||0.098
82525504|NCT01462162|164747616|SUPERIORITY_OR_OTHER|||||||0.09|||||||Regression, Linear|||change in hemoglobin levels versus change in depression score (Week 24)||||0.090
82525505|NCT01462162|164747617|SUPERIORITY_OR_OTHER|||||||0.077|||||||Multiple Regression|||change in hemoglobin levels versus change in swollen joint count (Week 12)||||0.077
82525506|NCT01462162|164747617|SUPERIORITY_OR_OTHER|||||||0.961|||||||Multiple Regression|||change in hemoglobin levels versus change in swollen joint count (Week 24)||||0.961
82525507|NCT01462162|164747618|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525508|NCT01462162|164747618|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82573700|NCT00121667|164857758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6294.0|STANDARD_ERROR_OF_MEAN|1176.8|<|0.0001|TWO_SIDED|95.0|-8606.0|-3983.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-3983|-8606|<.0001
82525509|NCT01462162|164747619|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82573701|NCT00121667|164857758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4845.0|STANDARD_ERROR_OF_MEAN|1175.1|<|0.0001|TWO_SIDED|95.0|-7153.0|-2537.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment|||-2537|-7153|<.0001
82577051|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.146||0.045|TWO_SIDED|95.0|-0.59|-0.01|||MMRM|||Suicide, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.59|0.0450
82577052|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.143||0.5351|TWO_SIDED|95.0|-0.19|0.37|||MMRM|||Suicide, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.19|0.5351
82388929|NCT00556933|164489311|SUPERIORITY_OR_OTHER_LEGACY|||||||0.871|TWO_SIDED||||||Fisher Exact|||||||0.871
82388930|NCT00556933|164489312|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|TWO_SIDED||||||Kruskal-Wallis|||||||0.068
82388931|NCT00556933|164489313|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
82388932|NCT00556933|164489314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|TWO_SIDED||||||Fisher Exact|||||||0.21
82388933|NCT00556933|164489315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Kruskal-Wallis|||||||0.40
82525510|NCT01462162|164747619|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525511|NCT01462162|164747620|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525512|NCT01462162|164747620|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525513|NCT01462162|164747621|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525514|NCT01462162|164747621|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525515|NCT01462162|164747622|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525516|NCT01462162|164747622|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525517|NCT01462162|164747623|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525518|NCT01462162|164747623|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525519|NCT01462162|164747624|SUPERIORITY_OR_OTHER|||||||0.172|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||0.172
82525520|NCT01462162|164747624|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Logistic|||Baseline for Week 24 versus Week 24||||<0.05
82525521|NCT01462162|164747625|SUPERIORITY_OR_OTHER|||||||0.162|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||0.162
82525522|NCT01462162|164747625|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 24||||<0.001
82525523|NCT01462162|164747626|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525524|NCT01462162|164747626|SUPERIORITY_OR_OTHER||||||<|0.005|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.005
82525525|NCT01462162|164747627|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525526|NCT01462162|164747627|SUPERIORITY_OR_OTHER||||||<|0.005|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.005
82388934|NCT03386994|164489360|OTHER|||||||0.0002|||||||ANOVA|Total annual IPF-related costs||||||0.0002
82388935|NCT03386994|164489360|OTHER|||||||0.0007|||||||ANOVA|Annual direct health IPF-related costs||||||0.0007
82388936|NCT03386994|164489360|OTHER||||||<|0.0001|||||||ANOVA|Annual direct non-health IPF-related costs||||||<0.0001
82388937|NCT03386994|164489360|OTHER|||||||0.6839|||||||ANOVA|Annual indirect IPF-related costs||||||0.6839
82388938|NCT03386994|164489361|OTHER|||||||0.002|||||||Kruskal-Wallis|Timepoint: T0||||||0.0020
82388939|NCT03386994|164489361|OTHER|||||||0.1385|||||||Kruskal-Wallis|Timepoint: T6||||||0.1385
82388940|NCT03386994|164489361|OTHER|||||||0.0233|||||||Kruskal-Wallis|Timepoint: T12||||||0.0233
82388941|NCT03386994|164489362|OTHER|||||||0.156||||||Timepoint: T0|Kruskal-Wallis|||||||0.1560
82388942|NCT03386994|164489362|OTHER|||||||0.3144||||||Timepoint: T6|Kruskal-Wallis|||||||0.3144
82388943|NCT03386994|164489362|OTHER|||||||0.2019||||||Timepoint: T12|Kruskal-Wallis|||||||0.2019
82525527|NCT01462162|164747628|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 12 versus Week 12||||<0.001
82525528|NCT01462162|164747628|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Baseline for Week 24 versus Week 24||||<0.001
82525529|NCT04037436|164747670|OTHER|GEE|GEE|1.65||||0.05|TWO_SIDED|95.0|-4.44|7.73|||GEE|To model the interaction between exposure to the MoveStrong program and site on secondary outcomes we applied a generalized estimating equation (GEE).||To model the interaction between exposure to the MoveStrong program and site on secondary outcomes we applied a generalized estimating equation (GEE).||7.73|-4.44|0.05
82525530|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0066||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0066
82525531|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0005
82525532|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||<0.0001
82525533|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.93|||||TWO_SIDED|95.0|-5.555|-2.305|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-2.305|-5.555|
82525534|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.47|||||TWO_SIDED|95.0|-5.104|-1.837|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-1.837|-5.104|
82525535|NCT01674621|164747689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.856|||||TWO_SIDED|95.0|-4.519|-1.193|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-1.193|-4.519|
82525536|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0547||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0547
82525537|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0056
82388944|NCT03386994|164489363|OTHER|||||||0.0075||||||Timepoint: T0|Kruskal-Wallis|||||||0.0075
82577053|NCT02942004|164864076|SUPERIORITY||LS men difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0525|TWO_SIDED|95.0|-0.56|0.0|||MMRM|||Suicide, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.56|0.0525
82388945|NCT03386994|164489363|OTHER|||||||0.0361||||||Timepoint: T6|Kruskal-Wallis|||||||0.0361
82388946|NCT03386994|164489363|OTHER|||||||0.4794||||||Timepoint: T12|Kruskal-Wallis|||||||0.4794
82388947|NCT03386994|164489364|OTHER|||||||0.0333|||||||Fisher Exact|||||||0.0333
82388948|NCT03386994|164489366|OTHER|||||||0.4711|||||||ANOVA|Total annual IPF-related costs||||||0.4711
82388949|NCT03386994|164489366|OTHER|||||||0.4095|||||||ANOVA|Annual direct health IPF-related costs||||||0.4095
82388950|NCT03386994|164489366|OTHER|||||||0.0435|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.0435
82388951|NCT03386994|164489366|OTHER|||||||0.5479|||||||ANOVA|Annual indirect IPF-related costs||||||0.5479
82388952|NCT03386994|164489368|OTHER|||||||0.7486|||||||ANOVA|Total annual IPF-related costs||||||0.7486
82388953|NCT03386994|164489368|OTHER|||||||0.7652|||||||ANOVA|Annual direct health IPF-related costs||||||0.7652
82525538|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.0018
82525539|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.768|||||TWO_SIDED|95.0|-2.864|-0.672|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-0.672|-2.864|
82525540|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.42|||||TWO_SIDED|95.0|-2.522|-0.318|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-0.318|-2.522|
82525541|NCT01674621|164747690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.247|||||TWO_SIDED|95.0|-2.368|-0.126|||||Mean difference of percent change of BMD from baseline to end-of-treatment between treatment groups (transdermal and SC injection).|||-0.126|-2.368|
82525542|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9493||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.9493
82525543|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9806||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.9806
82525544|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5191||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BMD from baseline to end-of treatment to each transdermal dose group versus placebo.||||||0.5191
82525545|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.564|||||TWO_SIDED|95.0|-2.168|1.04|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||1.040|-2.168|
82573702|NCT05186311|164857779|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit (CAL).||||||||||||||||One hundred (100) participants (with paired numerical data) per each analyte provide \> 90% power to ensure that mean biases and confidence intervals are within the clinical acceptance limit (CAL), at medically relevant points, assuming no true bias between the tube types, residual standard deviation (SD) or coefficient of variation (CV) = CAL and collected data cover medically relevant points.|"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573703|NCT05186311|164857780|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82577054|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.139||0.7932|TWO_SIDED|95.0|-0.24|0.31|||MMRM|||Suicide, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.24|0.7932
82640778|NCT05261126|164996254|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|69.2|||<|0.001|TWO_SIDED|95.0|56.2|79.0|||Miettinen & Nurminen||MK-0616 6 mg minus Placebo|||79.0|56.2|<0.001
82388954|NCT03386994|164489368|OTHER|||||||0.0037|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.0037
82388955|NCT03386994|164489368|OTHER|||||||0.6119|||||||ANOVA|Annual indirect IPF-related costs||||||0.6119
82388956|NCT03386994|164489369|OTHER|||||||0.1581|||||||ANOVA|Total annual IPF-related costs||||||0.1581
82388957|NCT03386994|164489369|OTHER|||||||0.1581|||||||ANOVA|Annual direct health IPF-related costs||||||0.1581
82388958|NCT03386994|164489369|OTHER|||||||0.7165|||||||ANOVA|Annual direct non-health IPF-related costs||||||0.7165
82388959|NCT03386994|164489369|OTHER|||||||1|||||||ANOVA|Annual indirect IPF-related costs||||||1.0000
82388960|NCT03386994|164489370|OTHER|||||||0.0733|||||||Kruskal-Wallis|||||||0.0733
82388961|NCT03386994|164489372|OTHER|||||||0.0207|||||||Kruskal-Wallis|||||||0.0207
82388962|NCT03386994|164489373|OTHER|||||||0.0942|||||||Kruskal-Wallis|||||||0.0942
82388963|NCT03386994|164489374|OTHER|||||||0.0747|||||||Kruskal-Wallis|||||||0.0747
82388964|NCT03386994|164489376|OTHER|||||||0.1282|||||||Kruskal-Wallis|||||||0.1282
82388965|NCT03386994|164489377|OTHER|||||||0.7471|||||||Kruskal-Wallis|||||||0.7471
82525546|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.483|||||TWO_SIDED|95.0|-2.115|1.15|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||1.150|-2.115|
82525547|NCT01674621|164747691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.517|||||TWO_SIDED|95.0|-1.106|2.139|||||Mean difference of percent change off BMD from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||2.139|-1.106|
82525548|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2549||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.2549
82525549|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9115||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.9115
82640779|NCT05261126|164996254|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|75.2|||<|0.001|TWO_SIDED|95.0|62.9|84.0|||Miettinen & Nurminen method||MK-0616 12 mg minus Placebo|||84.0|62.9|<0.001
82388966|NCT03854370|164489421|SUPERIORITY|||||||0.23|||||||Chi-squared|||Comparison of all four groups prior to surgical scrub.||||0.23
82388967|NCT03854370|164489421|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||0.31
82388968|NCT03854370|164489421|SUPERIORITY|||||||0.35|||||||Fisher Exact|||Comparison of Chlorhexidine versus iodine post surgical scrub||||.35
82388969|NCT03854370|164489421|SUPERIORITY|||||||0.61|||||||Fisher Exact|||Comparison of chloroxynel versus iodine post surgical scrub||||.61
82525550|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY|||||||0.239||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of BSAP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.2390
82525551|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.146|||||TWO_SIDED|95.0|-40.501|-3.79|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-3.790|-40.501|
82577055|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.128||0.13|TWO_SIDED|95.0|-0.45|0.06|||MMRM|||Suicide, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.45|0.1300
82525552|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.086|||||TWO_SIDED|95.0|-30.543|6.372|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||6.372|-30.543|
82388970|NCT03854370|164489422|SUPERIORITY|||||||0.59|||||||Chi-squared|||comparison of all four groups prior to surgical scrub||||.59
82640780|NCT05261126|164996254|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|79.2|||<|0.001|TWO_SIDED|95.0|67.1|87.1|||Miettinen & Nurminen method||MK-0616 18 mg minus Placebo|||87.1|67.1|<0.001
82388971|NCT03854370|164489422|SUPERIORITY|||||||0.05|||||||Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||.05
82388972|NCT03854370|164489422|SUPERIORITY|||||||0.13|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine post surgical scrub||||.13
82388973|NCT03854370|164489422|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post surgical scrub||||0.99
82388974|NCT03854370|164489423|SUPERIORITY|||||||0.45|||||||Chi-squared|||Comparison of all four groups prior to surgical scrub||||0.45
82388975|NCT03854370|164489423|SUPERIORITY|||||||0.99||||||all groups were negative for cultures|Fisher Exact|||Comparison of baby shampoo versus iodine post surgical scrub||||0.99
82388976|NCT03854370|164489423|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chlorhexidine versus iodine at post surgical scrub||||0.99
82388977|NCT03854370|164489423|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chloroxynel versus iodine at post surgical scrub||||0.99
82388978|NCT03854370|164489424|SUPERIORITY|||||||0.61|||||||Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.61
82388979|NCT03854370|164489424|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine at post procedure||||0.99
82388980|NCT03854370|164489424|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.99
82388981|NCT03854370|164489425|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.32
82388982|NCT03854370|164489425|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of chlorhexidine versus iodine at post procedure||||0.99
82388983|NCT03854370|164489425|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.50
82388984|NCT03854370|164489426|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of baby shampoo versus iodine at post procedure||||0.99
82388985|NCT03854370|164489426|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||comparison of chlorhexidine versus iodine at post procedure||||0.99
82443810|NCT00159913|164596169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|1.93||0.75||95.0|-4.45|3.21|||ANCOVA|The covariates included in the model were baseline scale, etiology, weight and capability of performing the exercise test.||||3.21|-4.45|0.750
82388986|NCT03854370|164489426|SUPERIORITY|||||||0.99||||||All groups had negative cultures|Fisher Exact|||Comparison of chloroxynel versus iodine at post procedure||||0.99
82640781|NCT05261126|164996254|SUPERIORITY|One-sided p-value and difference in percentage based on Miettinen \& Nurminen method, with sample size weighting, stratified by background statin intensity.|Difference in Percentage|79.5|||<|0.001|TWO_SIDED|95.0|67.9|87.4|||Miettinen & Nurminen method||MK-0616 30 mg minus Placebo|||87.4|67.9|<0.001
82388987|NCT02579343|164489450|SUPERIORITY|||||||0.05||||||P-value above was calculated. Does not reference threshold for clinical significance.|Repeated Measures Analysis of Variance|||||||.05
82388988|NCT02579343|164489451|SUPERIORITY|||||||0.05|||||||Repeated Measures Analysis of Variance|||||||.05
82388989|NCT00722566|164489469|NON_INFERIORITY_OR_EQUIVALENCE|Assuming ORRs are 35.5% for both SC and IV, one-sided alpha level of 0.025, and approximately 80% power, approximately 216 subjects (144 SC:72 IV) are needed to show non-inferiority of SC to IV VELCADE.|ORR_SQ - 0.6 ORR_IV|16.8||||0.00201|TWO_SIDED|95.0|6.1|27.1|||Farrrington and Manning|CONOR P. FARRINGTON AND GODFREY MANNING STATISTICS IN MEDICINE, VOL. 9, 1447-1454(1990).||In this trial, non-inferiority is defined as retaining 60% of the IV (active control) treatment effect as measured by ORR. The non-inferiority hypothesis can be stated as: H0: ORRSC - 0.60 ORRIV \<0 vs. H1: ORRSC - 0.60 ORRIV ≥0 (non-inferiority).||27.1|6.1|0.00201
82388990|NCT00401544|164489471|SUPERIORITY_OR_OTHER||Percentage of participants|71.0||||||95.0|63.0|80.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||80|63|
82388991|NCT00401544|164489471|SUPERIORITY_OR_OTHER||Percentage of participants|63.0||||||95.0|54.0|72.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||72|54|
82388992|NCT00401544|164489472|SUPERIORITY_OR_OTHER||Percentage of participants|73.0||||||95.0|64.0|81.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||81|64|
82388993|NCT00401544|164489472|SUPERIORITY_OR_OTHER||Percentage of participants|62.0||||||95.0|54.0|71.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||71|54|
82388994|NCT00401544|164489477|SUPERIORITY_OR_OTHER||Percentage of participants|36.0||||||95.0|27.0|44.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||44|27|
82388995|NCT00401544|164489477|SUPERIORITY_OR_OTHER||Percentage of participants|38.0||||||95.0|29.0|47.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||47|29|
82388996|NCT00401544|164489478|SUPERIORITY_OR_OTHER||Percentage of participants|35.0||||||95.0|27.0|44.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||44|27|
82388997|NCT00401544|164489478|SUPERIORITY_OR_OTHER||Percentage of participants|39.0||||||95.0|30.0|47.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||47|30|
82388998|NCT00401544|164489479|SUPERIORITY_OR_OTHER||Percentage of participants|26.0||||||95.0|15.0|38.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||38|15|
82388999|NCT00401544|164489479|SUPERIORITY_OR_OTHER||Percentage of participants|31.0||||||95.0|19.0|42.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||42|19|
82389000|NCT00401544|164489479|SUPERIORITY_OR_OTHER||Percentage of participants|28.0||||||95.0|17.0|40.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||40|17|
82389001|NCT00401544|164489479|SUPERIORITY_OR_OTHER||Percentage of participants|25.0||||||95.0|14.0|36.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||36|14|
82389002|NCT00401544|164489480|SUPERIORITY_OR_OTHER||Percentage of participants|68.0||||||95.0|59.0|76.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||76|59|
82389003|NCT00401544|164489480|SUPERIORITY_OR_OTHER||Percentage of participants|59.0||||||95.0|50.0|68.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||68|50|
82389004|NCT00401544|164489481|SUPERIORITY_OR_OTHER||Percentage of participants|53.0||||||95.0|44.0|62.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||62|44|
82389005|NCT00401544|164489481|SUPERIORITY_OR_OTHER||Percentage of participants|74.0||||||95.0|66.0|82.0|||||Binomial proportion with confidence limit calculation using the normal approximation, and converted to percentages.|||82|66|
82389006|NCT02651155|164489510|SUPERIORITY_OR_OTHER||Median Values of CI|1.0||||0.003|TWO_SIDED|95.0|0.1|1.0|||Van Elteren Test|SBM was analyzed using Van Elteren Test stratified by center. Centers with less participants were pooled based on geographical proximity.|CI was estimated by inverting the hypothesis test.|||1.0|0.1|0.003
82389007|NCT00537316|164489516|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||Chi-squared|||||||0.032
82389008|NCT05875025|164489529|OTHER||Adjusted mean difference|1.36||||0.442|TWO_SIDED|95.0|-2.28|4.99|||ANCOVA|Analysis of covariance (ANCOVA) model, included treatment, subject, and period as fixed effects; PPR2 at baseline as a covariate.||||4.99|-2.28|0.442
82389009|NCT05875025|164489530|OTHER||Adjusted mean difference|0.7||||0.553|TWO_SIDED|95.0|-1.73|3.12|||ANCOVA|Analysis of covariance (ANCOVA) model, included treatment, subject, and period as fixed effects; PPR4 at baseline as a covariate.||||3.12|-1.73|0.553
82389010|NCT01098500|164489532|SUPERIORITY_OR_OTHER||Prevalence percentage|2.2|||||TWO_SIDED|95.0|0.9|3.5|||||Prevalence percentage is the number of patients with an ALT \>=3 times ULN divided by all patients that were tested at baseline (30 days prior to initiation of TKI drug).|||3.5|0.9|
82389011|NCT01098500|164489533|SUPERIORITY_OR_OTHER||Incidence Rate (IR)|6.2|||||TWO_SIDED|95.0|3.3|9.0|||||Incidence rate (IR) is the number of patients with an ALT \>=3 times ULN after initiation of TKI divided by person time contributed by all patients with normal ALT (\<1 times ULN) at baseline. IR expressed per 100 person years.|||9.0|3.3|
82389012|NCT01098500|164489534|SUPERIORITY_OR_OTHER||Prevalence percentage|0.4|||||TWO_SIDED|95.0|0.1|1.4|||||Prevalence percentage is the number of patients with Hy's Law divided by all patients that were tested at baseline (30 days prior to initiation of TKI drug).|||1.4|0.1|
82640782|NCT03901274|164996255|SUPERIORITY||Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-0.74|0.42|||||Parameter estimated with full information maximum likelihood|Intent-to-treat on three month outcomes with intake (i.e. Pretest covariate)||0.42|-0.74|
82389013|NCT01098500|164489535|SUPERIORITY_OR_OTHER||Incidence Rate (IR)|0.4|||||TWO_SIDED|95.0|0.0|2.0|||||Incidence rate (IR) is the number of patients with Hy's Law after initiation of TKI divided by person time contributed by all patients with normal ALT, AST, ALP, and BIL (\< 1 times ULN) at baseline. IR is expressed per 100 person years.|||2.0|0.0|
82443811|NCT00159913|164596169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|2.57||||95.0|-4.21|5.95|||ANCOVA|||||5.95|-4.21|
82389014|NCT03452488|164489544|SUPERIORITY|||||||0.2437|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic.||||0.2437
82443812|NCT00159913|164596169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|2.49||||95.0|-4.68|5.15|||ANCOVA|||||5.15|-4.68|
82443813|NCT00159913|164596169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.96|STANDARD_ERROR_OF_MEAN|2.23||||95.0|-7.37|1.45|||ANCOVA|||||1.45|-7.37|
82389015|NCT03452488|164489544|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic||||0.2000
82389016|NCT03452488|164489544|SUPERIORITY|||||||0.324|TWO_SIDED|95.0|||||Adjusted Bayesian Imputation|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on adjusted Bayesian Imputation||||0.3240
82389017|NCT03452488|164489544|SUPERIORITY|Gait Speed Based on Adjusted Bayesian Imputation||||||0.5123|||||||Adjusted Bayesian Imputation|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on adjusted Bayesian Imputation||||0.5123
82389018|NCT03452488|164489544|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on MI and Adjusted Bayesian Imputation||||0.6920
82389019|NCT03452488|164489544|SUPERIORITY|||||||0.085|TWO_SIDED|95.0|||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic based on MI and Adjusted Bayesian Imputation||||0.0850
82389020|NCT03452488|164489545|SUPERIORITY|||||||0.9408|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-score based on Mixed Model Analysis||||0.9408
82389021|NCT03452488|164489545|SUPERIORITY|||||||0.9485|TWO_SIDED|95.0|||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-score based on Mixed Model Analysis||||0.9485
82389022|NCT03452488|164489545|SUPERIORITY|||||||0.9848|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-Score Based on Adjusted Bayesian Imputation||||0.9848
82389023|NCT03452488|164489545|SUPERIORITY|||||||0.5017|||||||Mixed Models Analysis|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Physical Function Domain (PF-10) Sub-Score Based on Adjusted Bayesian Imputation||||0.5017
82389024|NCT03452488|164489546|SUPERIORITY|||||||0.52|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (dominant hand)||||0.5200
82389025|NCT03452488|164489546|SUPERIORITY|||||||0.3577|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (dominant hand)||||0.3577
82389026|NCT03452488|164489546|SUPERIORITY|||||||0.9237|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test at Month 6 Based on Multiple Imputation (dominant hand)||||0.9237
82389027|NCT03452488|164489546|SUPERIORITY|||||||0.7629|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test at Month 6 Based on Multiple Imputation (dominant hand)||||0.7629
82389028|NCT03452488|164489546|SUPERIORITY|||||||0.5695|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Change from Baseline in Handgrip Strength Test (left hand)||||0.5695
82389029|NCT03452488|164489546|SUPERIORITY|||||||0.3523|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Left hand)||||0.3523
82389030|NCT03452488|164489546|SUPERIORITY|||||||0.5652|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Right hand)||||0.5652
82389031|NCT03452488|164489546|SUPERIORITY|||||||0.2472|||||||ANCOVA|||Analysis of data collected from baseline to 6 months, or baseline to 9 months due to pandemic in Handgrip Strength Test (Right hand)||||0.2472
82389032|NCT03452488|164489547|SUPERIORITY|||||||0.9859||||||Statistical Analysis of Change from Baseline in ALM|ANCOVA|||||||0.9859
82389033|NCT03452488|164489547|SUPERIORITY|||||||0.404|||||||ANCOVA|||Statistical Analysis of Change from Baseline in ALM||||0.4040
82389034|NCT03452488|164489548|SUPERIORITY|||||||0.1219|||||||Regression, Logistic|||||||0.1219
82389035|NCT03452488|164489548|SUPERIORITY|||||||0.052|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.0520
82389036|NCT03452488|164489549|SUPERIORITY|||||||0.8917|||||||ANCOVA|||||||0.8917
82389037|NCT03452488|164489549|SUPERIORITY||Mean Difference (Final Values)|-4.999|STANDARD_ERROR_OF_MEAN|10.2172||0.6317|TWO_SIDED|95.0|-26.777|16.778|||ANCOVA|||||16.778|-26.777|0.6317
82389038|NCT03452488|164489550|SUPERIORITY|||||||0.3762|||||||Mixed Models Analysis|||||||0.3762
82389039|NCT03452488|164489550|SUPERIORITY|||||||0.0543|||||||Mixed Models Analysis|||||||0.0543
82389040|NCT03452488|164489551|SUPERIORITY|||||||0.8824|||||||ANCOVA|||||||0.8824
82389041|NCT03452488|164489551|SUPERIORITY|||||||0.1578|||||||ANCOVA|||||||0.1578
82389042|NCT03452488|164489552|SUPERIORITY|||||||0.0511|||||||ANCOVA|||||||0.0511
82389043|NCT03452488|164489552|SUPERIORITY|||||||0.2771|||||||ANCOVA|||||||0.2771
82389044|NCT03452488|164489553|SUPERIORITY|||||||0.8084|||||||Mixed Models Analysis|||||||0.8084
82389045|NCT03452488|164489553|SUPERIORITY|||||||0.7266|||||||Mixed Models Analysis|||||||0.7266
82389046|NCT03452488|164489554|SUPERIORITY|||||||0.2312|||||||Mixed Models Analysis|||||||0.2312
82389047|NCT03452488|164489554|SUPERIORITY|||||||0.2701|||||||Mixed Models Analysis|||||||0.2701
82389048|NCT03452488|164489555|SUPERIORITY|||||||0.8934|||||||ANCOVA|||||||0.8934
82389049|NCT03452488|164489555|SUPERIORITY|||||||0.3526|||||||ANCOVA|||||||0.3526
82389050|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-3.6||||||95.0|-7.3|-0.1||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.1|-7.3|
82389051|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-5.5||||||95.0|-10.9|-0.1||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.1|-10.9|
82640783|NCT03901274|164996255|SUPERIORITY||Slope|-0.65|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-1.2|-0.09|||||Parameter estimated with full information maximum likelihood|Intent-to-treat on six month outcomes with intake (i.e. Pretest covariate)||-0.09|-1.20|
82573704|NCT05186311|164857781|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573705|NCT05186311|164857782|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82577056|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.125||0.1631|TWO_SIDED|95.0|-0.07|0.42|||MMRM|||Suicide, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.07|0.1631
82389052|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-7.9||||||95.0|-12.4|-4.0||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-4.0|-12.4|
82389053|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.7|3.5||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.5|-2.7|
82443814|NCT00159913|164596170|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|1.51||0.784||95.0|-3.41|2.58|||ANCOVA|The covariates included in the model were baseline scale, etiology, weight and capability of performing the exercise test.||||2.58|-3.41|0.784
82443815|NCT00159913|164596170|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.97||||95.0|-3.49|4.3|||ANCOVA|||||4.30|-3.49|
82443816|NCT00159913|164596170|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|1.96||||95.0|-5.99|1.77|||ANCOVA|||||1.77|-5.99|
82389054|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.6||||||95.0|-4.7|1.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-4.7|
82389055|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.4|3.4||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.4|-2.4|
82389056|NCT00373958|164489589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-3.6||||||95.0|-8.5|1.2||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-8.5|
82389057|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.68||||||95.0|0.57|0.8||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.80|0.57|
82389058|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.74||||||95.0|0.61|0.89||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||0.89|0.61|
82389059|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.62|0.85||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||0.85|0.62|
82389060|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.6|0.86||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||0.86|0.60|
82389061|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.68||||||95.0|0.57|0.81||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||0.81|0.57|
82389062|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|1.18||||||95.0|0.98|1.41||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||1.41|0.98|
82389063|NCT00373958|164489590|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.65||||||95.0|0.54|0.78||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||0.78|0.54|
82389064|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|0.1||||||95.0|-2.9|3.1||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15μg/mL threshold was calculated.||3.1|-2.9|
82389065|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.6||||||95.0|-8.3|7.0||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||7.0|-8.3|
82389066|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.4||||||95.0|-4.3|3.5||||||For diphtheria toxoid the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||3.5|-4.3|
82443817|NCT00159913|164596170|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|1.77||||95.0|-3.06|3.97|||ANCOVA|||||3.97|-3.06|
82389067|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|1.7||||||95.0|-2.1|5.6||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 40.5 EU/mL threshold was calculated.||5.6|-2.1|
82389068|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-0.9||||||95.0|-5.2|3.4||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 16.5 EU/mL threshold was calculated.||3.4|-5.2|
82389069|NCT00373958|164489591|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) was \> -10%.|Difference|-2.1||||||95.0|-6.4|2.0||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 26 EU/mL threshold was calculated.||2.0|-6.4|
82389070|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15μg/mL threshold was calculated.||1.7|-1.6|
82389071|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.6||||||95.0|-7.1|3.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0μg/mL threshold was calculated.||3.8|-7.1|
82389072|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|-0.8||||||95.0|-4.5|2.9||||||For Measles the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.10 I.V. threshold was calculated.||2.9|-4.5|
82389073|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|3.6||||||95.0|-4.7|11.9||||||For Mumps the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.10 I.V. threshold was calculated.||11.9|-4.7|
82426145|NCT03229538|164561154|OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-4.3|2.7|||||Difference = Methylprednisolone - Placebo|Rank \> or = 94||2.7|-4.3|
82426146|NCT03229538|164561154|OTHER||Percent Difference|-3.8|||||TWO_SIDED|95.0|-7.8|0.2|||||Difference = Methylprednisolone - Placebo|Rank \> or = 93||0.2|-7.8|
82426147|NCT03229538|164561154|OTHER||Percent Difference|-3.4|||||TWO_SIDED|95.0|-7.8|0.9|||||Difference = Methylprednisolone - Placebo|Rank \> or = 92||0.9|-7.8|
82426148|NCT03229538|164561154|OTHER||Percent Difference|-3.1|||||TWO_SIDED|95.0|-7.5|1.3|||||Difference = Methylprednisolone - Placebo|Rank \> or = 91||1.3|-7.5|
82443818|NCT00159913|164596171|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83||||0.184||95.0|0.75|4.45|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||4.45|0.75|0.184
82443819|NCT00159913|164596171|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.6||||0.409||95.0|0.18|2.01|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||2.01|0.18|0.409
82443820|NCT00159913|164596171|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.146||95.0|0.75|6.69|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||6.69|0.75|0.146
82443821|NCT00159913|164596171|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.52||||0.006||95.0|1.56|13.1|||Regression, Logistic|Proportional odds method. Model covariates were baseline WHO functional class, etiology, weight group and capability of performing the exercise test.||||13.10|1.56|0.006
82443822|NCT00159913|164596172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.89|STANDARD_ERROR_OF_MEAN|4.35||0.179||95.0|-2.74|14.53|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||14.53|-2.74|0.179
82443823|NCT00159913|164596172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|5.35||||95.0|-9.49|11.77|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||11.77|-9.49|
82443824|NCT00159913|164596172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|5.36||||95.0|0.66|21.96|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||21.96|0.66|
82443825|NCT00159913|164596172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.24|STANDARD_ERROR_OF_MEAN|5.16||||95.0|-5.02|15.5|||ANCOVA|Analyses performed using analysis of covariance with etiology, weight and baseline peak VO2 as the covariates||||15.50|-5.02|
82443826|NCT00385723|164596173|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED|95.0|-0.19|-0.028||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on change from baseline to 4 months||-0.028|-0.19|0.03
82443827|NCT00385723|164596173|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.004|TWO_SIDED|95.0|-0.22|-0.052||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||-0.052|-0.22|0.004
82443828|NCT00385723|164596174|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.41|STANDARD_ERROR_OF_MEAN|0.1||0.0003|TWO_SIDED|95.0|-0.62|-0.21||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on change from baseline to 4 months.||-0.21|-0.62|0.0003
82443829|NCT00385723|164596174|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.43|STANDARD_ERROR_OF_MEAN|0.11||0.0002|TWO_SIDED|95.0|-0.64|-0.22||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||-0.22|-0.64|0.0002
82573706|NCT05186311|164857783|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82389074|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -5%.|Difference|1.2||||||95.0|-4.4|6.9||||||For Rubella the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥15 IU/mL threshold was calculated.||6.9|-4.4|
82389075|NCT00373958|164489592|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|4.8||||||95.0|-3.4|13.0||||||For Varicella the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1.09 I.V. threshold was calculated.||13.0|-3.4|
82389076|NCT00373958|164489593|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.75|1.17||||||For Haemophilus influenzae type b (PRP) the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.75|
82389077|NCT00373958|164489594|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.96|||||TWO_SIDED|95.0|0.85|1.08||||||For Measles the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.85|
82389078|NCT00373958|164489594|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||For Mumps the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.87|
82389079|NCT00373958|164489594|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01|||||TWO_SIDED|95.0|0.92|1.1||||||For Varicella the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.92|
82389080|NCT00373958|164489595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78|||||TWO_SIDED|95.0|0.62|1.0||||||For Rubella the GMC ratio (13vPnC/7vPnC) was calculated||1.00|0.62|
82389081|NCT01777568|164489600|SUPERIORITY||Risk Ratio (RR)|0.99||||0.85|TWO_SIDED|95.0|0.85|1.14|||GEE model||Relative Risk: 80% (numerator) vs. 30% (denominator)|||1.14|0.85|0.85
82389082|NCT01777568|164489601|SUPERIORITY||Risk Ratio (RR)|0.8||||0.047|TWO_SIDED|95.0|0.66|1.01|||Chi-squared|||||1.01|0.66|0.047
82389083|NCT00282113|164489629|SUPERIORITY_OR_OTHER||||||>|0.5||95.0|||||Mixed-effects regression|||||||>0.5
82389084|NCT00282113|164489630|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82389085|NCT00282113|164489631|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82389086|NCT03382834|164489633|SUPERIORITY|||||||0.68|||||||t-test, 1 sided|The hypothesis was that tamoxifen would enhance the HIV transcription effect of vorinostat (i.e., log10 change would be greater in Arm A than Arm B)||||||0.68
82577057|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.129||0.8215|TWO_SIDED|95.0|-0.23|0.29|||MMRM|||Suicide, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.23|0.8215
82389087|NCT03382834|164489635|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
82389088|NCT02949843|164489659|OTHER|||||||0.6|||||||Fisher Exact|||Null Hypothesis is that each arm has equal rates of smoking history.||||0.6
82389089|NCT02120833|164489660|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389090|NCT02120833|164489660|SUPERIORITY_OR_OTHER|||||||0.436|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.4360
82389091|NCT02120833|164489660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.62||0.051|TWO_SIDED|95.0|-2.51|0.01||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.01|-2.51|0.0510
82389092|NCT02120833|164489661|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0004
82389093|NCT02120833|164489661|SUPERIORITY_OR_OTHER|||||||0.0213|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0213
82443830|NCT00385723|164596175|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.8|TWO_SIDED|95.0|-0.64|0.18||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||1.25 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||0.18|-0.64|0.80
82389094|NCT02120833|164489661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.22||0.7698|TWO_SIDED|95.0|-0.5|0.37|||ANCOVA|The significance threshold level was 0.05 (two-sided).||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.37|-0.50|0.7698
82389095|NCT02120833|164489662|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0003
82389096|NCT02120833|164489662|SUPERIORITY_OR_OTHER|||||||0.6063|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6063
82389097|NCT02120833|164489662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.43||0.3686|TWO_SIDED|95.0|-1.27|0.48||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.48|-1.27|0.3686
82389098|NCT02120833|164489663|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389099|NCT02120833|164489663|SUPERIORITY_OR_OTHER|||||||0.6118|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6118
82389100|NCT02120833|164489663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.56||0.1485|TWO_SIDED|95.0|-1.98|0.31||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.31|-1.98|0.1485
82389101|NCT02120833|164489664|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389102|NCT02120833|164489664|SUPERIORITY_OR_OTHER|||||||0.2447|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.2447
82389103|NCT02120833|164489664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.67||0.0216|TWO_SIDED|95.0|-2.95|-0.25||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.25|-2.95|0.0216
82443831|NCT00385723|164596175|SUPERIORITY_OR_OTHER||Difference in change from baseline|-0.2|STANDARD_ERROR_OF_MEAN|0.21||1|TWO_SIDED|95.0|-0.61|0.21||Bonferroni-adjusted to account for multiple testing.|Mixed Models Analysis||2.5 g/d minus placebo|Comparison was made on the change from baseline to 4 months.||0.21|-0.61|1.0
82389104|NCT02120833|164489665|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389105|NCT02120833|164489665|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0476
82389106|NCT02120833|164489665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.78||0.2349|TWO_SIDED|95.0|-2.52|0.64||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.64|-2.52|0.2349
82647772|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.38|-0.06||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.06|-0.38|0.006
82389107|NCT02120833|164489666|SUPERIORITY_OR_OTHER|||||||0.7842|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.7842
82389108|NCT02120833|164489666|SUPERIORITY_OR_OTHER|||||||0.6083|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.6083
82389109|NCT02120833|164489666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.3599|TWO_SIDED|95.0|-0.08|0.22||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.22|-0.08|0.3599
82389110|NCT02120833|164489667|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0001
82389111|NCT02120833|164489667|SUPERIORITY_OR_OTHER|||||||0.0317|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0317
82389112|NCT02120833|164489667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.19||0.8037|TWO_SIDED|95.0|-0.42|0.33||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.33|-0.42|0.8037
82389113|NCT02120833|164489668|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389114|NCT02120833|164489668|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0244
82389115|NCT02120833|164489668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.21||0.09|TWO_SIDED|95.0|-0.8|0.06||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.06|-0.80|0.0900
82389116|NCT02120833|164489669|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389117|NCT02120833|164489669|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0065
82389118|NCT02120833|164489669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1561|TWO_SIDED|95.0|-0.97|0.16||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.16|-0.97|0.1561
82389119|NCT02120833|164489670|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389120|NCT02120833|164489670|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0049
82389121|NCT02120833|164489670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.59|STANDARD_ERROR_OF_MEAN|4.71||0.2409|TWO_SIDED|95.0|-3.88|15.07||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||15.07|-3.88|0.2409
82389122|NCT02120833|164489671|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389123|NCT02120833|164489671|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.2386
82389124|NCT02120833|164489671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3|STANDARD_ERROR_OF_MEAN|3.98||0.0241|TWO_SIDED|95.0|1.28|17.32||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||17.32|1.28|0.0241
82389125|NCT02120833|164489672|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389126|NCT02120833|164489672|SUPERIORITY_OR_OTHER|||||||0.0696|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0696
82389127|NCT02120833|164489672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_ERROR_OF_MEAN|4.23||0.0394|TWO_SIDED|95.0|0.46|17.52||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||17.52|0.46|0.0394
82389128|NCT02120833|164489673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82640784|NCT03671746|164996281|SUPERIORITY||Median Difference (Final Values)|1.5|STANDARD_DEVIATION|1.5|=|0.275|TWO_SIDED||||||ANOVA|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed using Length of Stay (LOS) as this was the primary outcome. Using a significance level of 0.05 and assumed standard deviation of 1.5 days, a sample size of 42 patients/group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was planned for 56 patients/group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||=0.275
82389129|NCT02120833|164489673|SUPERIORITY_OR_OTHER|||||||0.0772|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0772
82573707|NCT05186311|164857784|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573708|NCT05186311|164857785|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573709|NCT05186311|164857786|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82647773|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.27||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.27|-0.60|<0.001
82426149|NCT03229538|164561155|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone.|Adjusted Odds Ratio|0.74||||0.428|TWO_SIDED|95.0|0.34|1.57|||Regression, Logistic|||||1.57|0.34|0.428
82640785|NCT03671746|164996282|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed using LOS as this was the primary outcome. Using a significance level of 0.05 and an assumed standard deviation of 1.5 days, a sample size of 42 patients/group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients/group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||<0.05
82389130|NCT02120833|164489673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48|STANDARD_ERROR_OF_MEAN|3.54||0.0213|TWO_SIDED|95.0|1.33|15.63||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||15.63|1.33|0.0213
82389131|NCT02120833|164489674|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82573710|NCT05186311|164857787|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573711|NCT05186311|164857788|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82577058|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.126||0.038|TWO_SIDED|95.0|0.01|0.51|||MMRM|||Suicide, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.51|0.01|0.0380
82389132|NCT02120833|164489674|SUPERIORITY_OR_OTHER|||||||0.0172|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0172
82389133|NCT02120833|164489674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.56|STANDARD_ERROR_OF_MEAN|3.48||0.1968|TWO_SIDED|95.0|-2.46|11.58||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||11.58|-2.46|0.1968
82389134|NCT02120833|164489675|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||<0.0001
82389135|NCT02120833|164489675|SUPERIORITY_OR_OTHER|||||||0.0712|TWO_SIDED|||||The significance level threshold level was 0.05 (two-sided).|One-sample t-test|Adjusted by study site.||The null hypothesis was no difference versus baseline. The alternative hypothesis was a difference versus baseline.||||0.0712
82389136|NCT02120833|164489675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.43|STANDARD_ERROR_OF_MEAN|3.34||0.0313|TWO_SIDED|95.0|0.7|14.15||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and study site as factors, baseline score as covariate.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||14.15|0.70|0.0313
82389137|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern. Statistically, the test of prolongation is equivalent to a non-inferiority test versus placebo by crossover design, with an non-inferiority margin of 10 ms.|Least-Squares Mean Double Delta Value|-0.99|||||ONE_SIDED|95.0||0.635||||||"Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 0.5 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).~Power Calculation:~Enrollment of 72 subjects would provide at least 84% power to conclude a negative effect, given that up to 16 subjects may withdraw early prior to beginning to replace subjects (at least 56 subjects evaluable), and assuming a standard deviation of ΔΔQTcF of 7 msec and an underlying effect of 5 msec."||0.635||
82389138|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.59|||||ONE_SIDED|95.0||2.2||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 1 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.200||
82389139|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.17|||||ONE_SIDED|95.0||1.795||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 2 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.795||
82389140|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.42|||||ONE_SIDED|95.0||3.044||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 3 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.044||
82389141|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.17|||||ONE_SIDED|95.0||2.792||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 4 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.792||
82389142|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.45|||||ONE_SIDED|95.0||2.074||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 6 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.074||
82389143|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.83|||||ONE_SIDED|95.0||0.79||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 8 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||0.790||
82389144|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|0.03|||||ONE_SIDED|95.0||1.65||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 12 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.650||
82389145|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.53|||||ONE_SIDED|95.0||1.131||||||Null Hypothesis: Zoliflodacin administered at a 2 g dose causes a prolongation of the QTcF interval 24 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.131||
82426150|NCT03229538|164561156|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone.|Adjusted Odds Ratio|0.83||||0.228|TWO_SIDED|95.0|0.61|1.13|||Regression, Logistic|||||1.13|0.61|0.228
82389146|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.17|||||ONE_SIDED|95.0||2.815||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 0.5 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||2.815||
82389147|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.36|||||ONE_SIDED|95.0||3.997||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 1 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.997||
82389148|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.18|||||ONE_SIDED|95.0||3.812||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 2 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.812||
82573712|NCT05186311|164857789|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82573713|NCT05186311|164857790|EQUIVALENCE|The estimated regression equation was then used to estimate the bias (with two one-sided 95% confidence intervals, referred to as 95% limits in the text) between the evaluation tube and the comparator tube at all prespecified medical decision levels. The biases and 95% limit were compared to the clinical acceptance limit|||||||||||||||||"No p-value were established. Rather a bias between tube types at pre-determined medical decision points were estimated with 95% intervals. The mean biases and 95% limit were compared to the CAL. For equivalence testing the initial alpha level is set at 10%. This corresponds to obtaining 90% confidence intervals (associated with 95% two 1-sided confidence limits). Since the clinical equivalence includes two comparisons, the actual alpha used for each comparison was set to 5%, using a Bonferroni correction. No other adjustment for multiplicity will be made on any other comparisons.~Note that for the confidence intervals (CI) calculated for the intercept and slope of the regression parameters, no multiplicity adjustments on the a level are performed (alpha = 0.05)."|||
82389149|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|2.59|||||ONE_SIDED|95.0||4.228||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 3 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||4.228||
82389150|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|3.04|||||ONE_SIDED|95.0||4.674||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 4 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||4.674||
82573714|NCT01607879|164857823|SUPERIORITY|||||||0.1497|||||||t-test, 1 sided|||||||0.1497
82389151|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.63|||||ONE_SIDED|95.0||3.259||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 6 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.259||
82389152|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|-0.07|||||ONE_SIDED|95.0||1.566||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 8 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||1.566||
82389153|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.82|||||ONE_SIDED|95.0||3.459||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 12 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.459||
82389154|NCT03613649|164489735|NON_INFERIORITY|Per ICH E14, an increase in the QTcF interval of 5 ms, as evidenced by the upper bound of a 95% one-sided confidence interval above 0.10, is the threshold for regulatory concern.|Least-Squares Mean Double Delta Value|1.72|||||ONE_SIDED|95.0||3.415||||||Null Hypothesis: Zoliflodacin administered at a 4 g dose causes a prolongation of the QTcF interval 24 h post-dose that exceeds the criteria in the ICH Guidance E14 (5 ms).||3.415||
82389155|NCT03613649|164489740|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.19|||||ONE_SIDED|98.75|8.257|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 1 h after dose.|||8.257|
82525553|NCT01674621|164747692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.828|||||TWO_SIDED|95.0|-41.614|-4.041|||||Mean difference of percent change from baseline to end-of-treatment between active treatment groups (transdermal and SC injection).|||-4.041|-41.614|
82525554|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1632||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.1632
82525555|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9834||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.9834
82389156|NCT03613649|164489740|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.79|||||ONE_SIDED|98.75|8.86|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 2 h after dose.|||8.860|
82389157|NCT03613649|164489740|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.62|||||ONE_SIDED|98.75|8.683|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 3 h after dose.|||8.683|
82573715|NCT01607879|164857824|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82573716|NCT01607879|164857825|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
82389158|NCT03613649|164489740|NON_INFERIORITY|"According to ICH E14, the positive control should have an effect on the mean QT/QTc interval of about 5 ms. Comparison of the lower bound of the confidence interval to 5 ms for a 400 mg dose of moxifloxacin is standard practice for demonstrating assay sensitivity in thorough QT studies."|Least-Squares Mean Double Delta Value|10.63|||||ONE_SIDED|98.75|8.698|||||||Null Hypothesis: The trial does not have the sensitivity to detect an effect on QTcF of regulatory concern, as produced by 400 mg moxifloxacin 4 h after dose.|||8.698|
82426151|NCT03229538|164561157|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Percent Difference|-1.8|||||TWO_SIDED|95.0|-4.0|0.4||||||||0.4|-4.0|
82573717|NCT01607879|164857826|SUPERIORITY|||||||0.925|||||||Wilcoxon (Mann-Whitney)|||||||0.925
82573718|NCT01607879|164857827|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82573719|NCT00607672|164857916|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Mixed Models Analysis|||||||0.28
82573720|NCT00607672|164857917|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Mixed Models Analysis|||||||0.84
82573721|NCT00607672|164857918|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Kruskal-Wallis|||||||0.67
82573722|NCT00607672|164857919|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||||||0.73
82573723|NCT00607672|164857920|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||For plasma transfusion comparison. Ramipril and Candesartan versus placebo|Chi-squared|||||||0.04
82573724|NCT00607672|164857921|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||Comparison for norepinephrine use|Chi-squared|||||||0.27
82573725|NCT00607672|164857922|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Chi-squared|||||||0.62
82573726|NCT00607672|164857923|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Chi-squared|||||||0.51
82573727|NCT00607672|164857924|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Chi-squared|||||||0.87
82573728|NCT00607672|164857925|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Kruskal-Wallis|||||||0.04
82443832|NCT00689793|164596178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|2.5||0.69|TWO_SIDED|95.0|0.0|10.0||Significant level of treatment effect was set at p\<0.05|Regression, Linear|Level of fatigue at four weeks:dependant variable. Group allocation and level of fatigue at baseline: independant variables.||The null hypothesis was that there was no difference in fatigue VAS scores between the treatment and placebo groups at 4 weeks||10|0|0.69
82443833|NCT00689793|164596179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|6.5|<|0.05||95.0|0.0|10.0|||Regression, Linear|Hemoglobin value at four weeks : dependant variable. Group allocation and hemoglobin value at baseline : independant variables.||||10|0|<0.05
82443834|NCT00689793|164596180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|8.0|<|0.05|TWO_SIDED|95.0|0.0|30.0|||Regression, Linear|Ferritin level at 4 weeks : dependant variable. Group allocation and ferritin level at baseline: independant variables.||||30|0|<0.05
82443835|NCT00689793|164596181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|3.0||0.05|TWO_SIDED|95.0|0.0|6.0|||Regression, Linear|Aerobic capacity at 4 weeks : dependant variables. Group allocation and aerobic capacity at baseline : independant variable.||||6|0|0.05
82443836|NCT01189292|164596189|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.0||||0.001|TWO_SIDED|95.0|12.0|42.0|||Chi-squared|||null hypothesis: Incidence of PONV is the same in both treatment arms||42|12|0.001
82443837|NCT01189292|164596190|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.0||||0.006|TWO_SIDED|95.0|7.0|40.0|||Chi-squared|||per protocol analysis||40|7|0.006
82443838|NCT01189292|164596193|SUPERIORITY_OR_OTHER|||||||0.674|TWO_SIDED||||||Mixed Models Analysis|mixed model over the mean ranks at all time points measured (4, 8, 16, 24, 32, 48 hours)||||||0.674
82443839|NCT01189292|164596194|SUPERIORITY_OR_OTHER|||||||0.835|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.835
82443840|NCT02573246|164596207|SUPERIORITY|Aimed to recruit 20 participants in each condition to align with other neurostimulation studies where 6-20 adults per condition were sufficient to demonstrate proof-of-concept for novel treatments (Bentwich et al., 2011; Cunningham et al., 2015).|Mean Difference (Net)|-0.323|STANDARD_ERROR_OF_MEAN|0.131||0.019|TWO_SIDED|95.0|-0.59|-0.056||A priori threshold for significance was .05.|Mixed Models Analysis||The results presented are between the active right and sham conditions.|A mixed models analysis of variance (MMANOVA) examining regulation duration during each regulation period was conducted using treatment condition (active right, active left, sham), experimental condition (regulation1, regulation2, regulation3), and baseline as predictors.||-.056|-.590|0.019
82443841|NCT02573246|164596207|SUPERIORITY||Mean Difference (Net)|0.237|STANDARD_ERROR_OF_MEAN|0.133||0.08|TWO_SIDED|95.0|-0.034|0.508|||Mixed Models Analysis|||A mixed models analysis of variance (MMANOVA) examining regulation duration during each regulation period was conducted using treatment condition (active right, active left, sham), experimental condition (regulation1, regulation2, regulation3), and baseline as predictors.||.508|-.034|.08
82443842|NCT02573246|164596207|SUPERIORITY||Mean Difference (Net)|-0.227|STANDARD_ERROR_OF_MEAN|0.103||0.033|TWO_SIDED|95.0|-0.434|-0.02||A priori threshold for significance was set to .05.|Mixed Models Analysis|we controlled for baseline and for the distance between the brain and the scalp||Regulation duration was transformed using a logarithmic transformation to achieve normality||-.020|-.434|.033
82443843|NCT02573246|164596208|SUPERIORITY||Mean Difference (Net)|-0.124|STANDARD_ERROR_OF_MEAN|0.184||0.51|TWO_SIDED|95.0|-0.504|0.256||A priori set threshold for statistical significance was 0.05|ANOVA|||A univariate general linear model was employed to test of regulation duration, transformed for normality.||.256|-0.504|.51
82443844|NCT02573246|164596208|SUPERIORITY||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.18||0.97|TWO_SIDED|95.0|-0.364|0.378|||ANOVA|||||.378|-.364|.97
82389159|NCT00750139|164489773|SUPERIORITY_OR_OTHER|||||||0.01||||||The first primary efficacy analyses will use the Cochran-Mantel-Haenszel (CMH) test after stratification by pooled clinical site. The test will be conducted with the FAS at a one-sided level of significance of α = 0.025.|Cochran-Mantel-Haenszel|||"The first primary efficacy hypotheses tests are:~H01: p1 ≤ p01 vs. H1: p1 \> p01 where p01 and p1 denote the proportions of complete cure in the placebo 2wks and NAFT-500 groups, respectively."||||0.010
82389160|NCT00750139|164489773|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The second primary efficacy analyses will use the Cochran-Mantel-Haenszel (CMH) test after stratification by pooled clinical site. The test will be conducted with the FAS at a one-sided level of significance of α = 0.025|Cochran-Mantel-Haenszel|||"The second primary efficacy hypotheses tests are:~H02: p2 ≤ P02 vs. H2: P2 \> p02 where p02 and p2 are denote proportions of complete cure in the placebo 4wks and Naftin 1% groups, respectively"||||0.001
82443845|NCT02573246|164596208|SUPERIORITY||Mean Difference (Net)|0.147993|STANDARD_ERROR_OF_MEAN|0.167031||0.39|TWO_SIDED|95.0|-0.215936|0.511921||A priori set significance threshold was 0.05|t-test, 2 sided|||A t test of the variable 'time it took to return to HR baseline', transformed for normality was used to examine between condition differences at the 1 month follow up.||0.511921|-0.215936|0.39
82525556|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2179||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PICP from baseline to end-of-treatment (EOT) to each transdermal dose group versus placebo.||||||0.2179
82573729|NCT00607672|164857926|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Mixed Models Analysis|||||||0.69
82573730|NCT00607672|164857927|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|||||||0.97
82389161|NCT00977314|164489779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|1.0|<|0.001|||||||t-test, 2 sided|||The endpoint was the calculated difference between the HINT result for the unaided condition prior to the 30-day trial period (Day 1) and the HINT result using the SoundBite (aided) at the end of the 30-day trial period (Day 30).||||<0.001
82389162|NCT00877487|164489799|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.23|||<|0.0001|TWO_SIDED|95.0|-19.1|-11.4|||ANCOVA|||||-11.4|-19.1|<0.0001
82389163|NCT00877487|164489800|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82389164|NCT00877487|164489801|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82389165|NCT01516008|164489802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|76.35|||<|0.001|TWO_SIDED|95.0|51.0|101.7||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|||101.7|51.0|<0.001
82389166|NCT01516008|164489802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|90.6|||<|0.001|TWO_SIDED|95.0|65.1|116.1||P-value is adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|||116.1|65.1|<0.001
82389167|NCT01516008|164489803|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|Log Rank|Stratified by center||||||<0.001
82389168|NCT01516008|164489803|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|Log Rank|Stratified by center||||||<0.001
82389169|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||12 hours||||<0.001
82389170|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||12 hours||||<0.001
82389171|NCT01516008|164489804|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||24 hours||||0.001
82389172|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||24 hours||||<0.001
82389173|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||48 hours||||<0.001
82573731|NCT00607672|164857928|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Mixed Models Analysis|||||||0.46
82573732|NCT04937920|164857937|OTHER||Mean Paired Change from Baseline|-29620.0||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 5 between DBI-002 probiotic gel (active) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||0.2
82573733|NCT04937920|164857937|OTHER||Mean Paired Change from Baseline|127195.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 14 between DBI-002 probiotic gel (active) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||1.0
82573734|NCT04937920|164857937|OTHER||Mean Paired Change from Baseline|-41659.0||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 5 between aqueous gel (control) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||0.6
82573735|NCT04937920|164857937|OTHER||Mean Paired Change from Baseline|-483.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The analysis compared the differences at Day 14 between aqueous gel (control) and vehicle gel (active Cohort 4 only) in abundance of Malassezia based on molecular diagnostic qPCR using a 2-sided Wilcoxon sign rank test, alpha = 0.05, with a null hypothesis of median difference equal to zero.||||1.0
82640786|NCT03671746|164996283|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|The VAS model was adjusted for baseline levels as a covariate, which differed significantly between groups.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).||||<0.05
82389174|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||48 hours||||<0.001
82389175|NCT01516008|164489804|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||72 hours||||0.001
82389176|NCT01516008|164489804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Between-group comparison of cumulative distributions of percent reduction||72 hours||||<0.001
82389177|NCT01516008|164489805|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||0.001
82389178|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
82389179|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
82389180|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
82389181|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
82389182|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
82389183|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
82443846|NCT02573246|164596209|SUPERIORITY|HF-HRV was transformed using the function lg10\*(HF-HRV\*1000000) in order to be normally distributed.|Mean Difference (Net)|0.16|STANDARD_DEVIATION|0.51||0.022|TWO_SIDED|95.0|0.044|0.267||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||In the original study (CR+active left rTMS vs CR+ active right rTMS vs CR+sham rTMS), mixed-effects hierarchical linear models (MMANOVA) with analytically determined covariance structures were used to analyze the repeated measures data. We hypothesized that active neurostimulation would increase HF-HRV during regulation.||.267|.044|.022
82389184|NCT01516008|164489805|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
82389185|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
82389186|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||12 hours||||<0.001
82389187|NCT01516008|164489806|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||0.021
82389188|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||24 hours||||<0.001
82389189|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
82389190|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||48 hours||||<0.001
82389191|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
82389192|NCT01516008|164489806|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||72 hours||||<0.001
82389193|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.52|||<|0.001|TWO_SIDED|95.0|11.1|22.0|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID12 in tapentadol IR group minus SPID12 in placebo group.|12 hours||22.0|11.1|<0.001
82389194|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.11|||<|0.001|TWO_SIDED|95.0|13.6|24.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID12 in tapentadol IR group minus SPID12 in placebo group.|12 hours||24.6|13.6|<0.001
82389195|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.71|||<|0.001|TWO_SIDED|95.0|23.2|46.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID24 in tapentadol IR group minus SPID24 in placebo group.|24 hours||46.2|23.2|<0.001
82389196|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.04|||<|0.001|TWO_SIDED|95.0|31.5|54.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID24 in tapentadol IR group minus SPID24 in placebo group.|24 hours||54.6|31.5|<0.001
82389197|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.32|||<|0.001|TWO_SIDED|95.0|81.8|162.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID72 in tapentadol IR group minus SPID72 in placebo group.|72 hours||162.9|81.8|<0.001
82389198|NCT01516008|164489807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|138.57|||<|0.001||95.0|97.8|179.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID72 in tapentadol IR group minus SPID72 in placebo group.|72 hours||179.4|97.8|<0.001
82389199|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.15|||<|0.001|TWO_SIDED|95.0|5.0|9.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR12 in tapentadol IR group minus TOTPAR12 in placebo group|12 hours||9.3|5.0|<0.001
82389200|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.13|||<|0.001|TWO_SIDED|95.0|4.9|9.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR12 in tapentadol IR group minus TOTPAR12 in placebo group|12 hours||9.3|4.9|<0.001
82389201|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.21|||<|0.001|TWO_SIDED|95.0|10.6|19.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR24 in tapentadol IR group minus TOTPAR24 in placebo group|24 hours||19.8|10.6|<0.001
82389202|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.54|||<|0.001|TWO_SIDED|95.0|10.9|20.2|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR24 in tapentadol IR group minus TOTPAR24 in placebo group|24 hours||20.2|10.9|<0.001
82389203|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.76|||<|0.001|TWO_SIDED|95.0|24.3|45.3|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR48 in tapentadol IR group minus TOTPAR48 in placebo group|48 hours||45.3|24.3|<0.001
82389204|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.6|||<|0.001|TWO_SIDED|95.0|23.0|44.2|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR48 in tapentadol IR group minus TOTPAR48 in placebo group|48 hours||44.2|23.0|<0.001
82389205|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|56.59|||<|0.001|TWO_SIDED|95.0|39.4|73.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR72 in tapentadol IR group minus TOTPAR72 in placebo group|72 hours||73.8|39.4|<0.001
82389206|NCT01516008|164489808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|53.48|||<|0.001|TWO_SIDED|95.0|36.2|70.8|||ANCOVA|ANCOVA including treatment group and center as factors and baseline pain intenstidy as covariate|Difference is TOTPAR72 in tapentadol IR group minus TOTPAR72 in placebo group|72 hours||70.8|36.2|<0.001
82389207|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.66|||<|0.001|TWO_SIDED|95.0|16.4|30.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID12 in the tapentadol IR group minus SPRID12 in the placebo group|12 hours||30.9|16.4|<0.001
82389208|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.24|||<|0.001|TWO_SIDED|95.0|18.9|33.6|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID12 in the tapentadol IR group minus SPRID12 in the placebo group|12 hours||33.6|18.9|<0.001
82443847|NCT02573246|164596209|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.052||0.0499|TWO_SIDED|95.0|0.000037|0.213074|||Mixed Models Analysis|||MMANOVA||0.213074|0.000037|0.0499
82389209|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.93|||<|0.001|TWO_SIDED|95.0|34.4|65.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID24 in the tapentadol IR group minus SPRID24 in the placebo group|24 hours||65.4|34.4|<0.001
82389210|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|58.58|||<|0.001|TWO_SIDED|95.0|43.0|74.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID24 in the tapentadol IR group minus SPRID24 in the placebo group|24 hours||74.2|43.0|<0.001
82389211|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|111.12|||<|0.001||95.0|76.3|145.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID48 in the tapentadol IR group minus SPRID48 in the placebo group|48 hours||145.9|76.3|<0.001
82389212|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|124.21|||<|0.001|TWO_SIDED|95.0|89.2|159.2|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID48 in the tapentadol IR group minus SPRID48 in the placebo group|48 hours||159.2|89.2|<0.001
82389213|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|178.91|||<|0.001|TWO_SIDED|95.0|122.4|235.4|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID72 in the tapentadol IR group minus SPRID72 in the placebo group|72 hours||235.4|122.4|<0.001
82525557|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.541|||||TWO_SIDED|95.0|-48.557|-6.525|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-6.525|-48.557|
82647774|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.62|-0.29||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.29|-0.62|<0.001
82525558|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.702|||||TWO_SIDED|95.0|-39.835|2.43|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||2.430|-39.835|
82389214|NCT01516008|164489809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|192.05|||<|0.001|TWO_SIDED|95.0|135.2|248.9|||ANCOVA|ANCOVA with treatment group and center as factors and baseline pain intensity as covariate|Difference is SPRID72 in the tapentadol IR group minus SPRID72 in the placebo group|72 hours||248.9|135.2|<0.001
82389215|NCT01516008|164489810|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||||||<0.001
82448794|NCT01345669|164604860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.08||0.2232|TWO_SIDED|95.0|-0.81|3.45|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (swallowing scale) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||3.45|-0.81|0.2232
82389216|NCT01516008|164489810|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Controlling for center||||||<0.001
82389217|NCT01217476|164489811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.4039|TWO_SIDED|95.0|0.66|2.8|||Regression, Logistic|||||2.80|0.66|0.4039
82389218|NCT01217476|164489812|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.52|1.56|||Regression, Logistic|||||1.56|0.52|
82389219|NCT00986921|164489823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87||||0.05|TWO_SIDED|95.0|0.0|3.0|||t-test, 1 sided|Data was not distributed normally. After log transformation, the log values were distributed normally.||||3|0|0.05
82389220|NCT00986921|164489824|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|95.0||||A threshold value of p of 0.05 was considered significant.|Chi-squared|||The null hypothesis was that the groups would vary, with a p values of less than 0.05.||||0.49
82389221|NCT00986921|164489825|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
82389222|NCT04445714|164489831|SUPERIORITY||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.34|-1.03|||Paired t-test test|||Change from baseline||-1.03|-1.34|<.0001
82573736|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|1.1||||0.9998|TWO_SIDED|95.0|0.2|4.9|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||4.9|0.2|0.9998
82573737|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|1.5||||0.9345|TWO_SIDED|95.0|0.3|7.5|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||7.5|0.3|0.9345
82647775|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.011|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-0.38|0.011
82389223|NCT04445714|164489832|SUPERIORITY||Mean Difference (Final Values)|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.51|||Paired t-test test|||Change from baseline||-1.51|-2.66|<.0001
82389224|NCT04445714|164489833|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.8416|TWO_SIDED|95.0|-2.34|1.91|||Paired t-test test|||Change from baseline||1.91|-2.34|0.8416
82389225|NCT04445714|164489834|SUPERIORITY||Mean Difference (Final Values)|-24.4|||<|0.0001|TWO_SIDED|95.0|-33.4|-15.4|||Paired t-test test|||Change from baseline||-15.4|-33.4|<.0001
82389226|NCT02805660|164489836|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.537|||||||Exact Test|||||||0.537
82389227|NCT02805660|164489836|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.|||||>|0.999|||||||Exact Test|||||||>0.999
82389228|NCT02805660|164489836|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.283|||||||Exact Test|||||||0.283
82389229|NCT02805660|164489836|SUPERIORITY|An exact test for single proportion was performed to test null hypothesis (H0): ORR \<= 5% against alternative hypothesis (H1): ORR \> 5% for Cohorts 1, 3, and 4 and to test H0: ORR \<= 27% against H1: ORR \> 27% for Cohort 2.||||||0.025|||||||Exact Test|||||||0.025
82389230|NCT02778074|164489847|SUPERIORITY||Mean Difference (Final Values)|-2.34|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82426152|NCT03229538|164561158|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Adjusted Odds Ratio|0.79||||0.309|TWO_SIDED|95.0|0.5|1.25|||Regression, Logistic|||||1.25|0.50|0.309
82525559|NCT01674621|164747693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.914|||||TWO_SIDED|95.0|-48.424|-5.405|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-5.405|-48.424|
82525560|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||1.0000
82525561|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||0.1200
82647776|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.08||0.006|TWO_SIDED|95.0|-0.4|-0.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.07|-0.40|0.006
82389231|NCT02060058|164489854|OTHER|The evaluation of SVR rate was based on full-analysis-set (FAS) and modified intention-to-treat population (mITT). FAS population included subjects receiving ≥ 1 dose of any antiviral agents (boceprevir and/or PEG-IFN, and/or RBV). MITT population included subjects receiving ≥ 1 dose of boceprevir.||||||0.01|||||||Chi-squared|||||||0.01
82389232|NCT03963232|164489857|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.32|-1.32|||Mixed Models Analysis|||||-1.32|-2.32|<.0001
82389233|NCT03963232|164489858|SUPERIORITY||Odds Ratio (OR)|2.674|||<|0.0001|TWO_SIDED|95.0|2.01|3.557|||GLIMMIX|||30% responder||3.557|2.010|<.0001
82389234|NCT03963232|164489858|SUPERIORITY||Odds Ratio (OR)|2.481|||<|0.0001|TWO_SIDED|95.0|1.869|3.293|||GLIMMIX|||50% responder||3.293|1.869|<.0001
82525562|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9998||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of serum osteocalcin from baseline to EOT to each transdermal dose group versus placebo.||||||0.9998
82389235|NCT03963232|164489858|SUPERIORITY||Odds Ratio (OR)|2.824|||<|0.0001|TWO_SIDED|95.0|2.007|3.972|||GLIMMIX|||75% responder||3.972|2.007|<.0001
82525563|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-73.906|||||TWO_SIDED|95.0|-96.926|-50.886|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-50.886|-96.926|
82525564|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-62.872|||||TWO_SIDED|95.0|-86.019|-39.725|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-39.725|-86.019|
82525565|NCT01674621|164747694|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-73.367|||||TWO_SIDED|95.0|-96.927|-49.807|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-49.807|-96.927|
82525566|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8569||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.8569
82525567|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6091||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.6091
82389236|NCT03963232|164489858|SUPERIORITY||Odds Ratio (OR)|3.309|||<|0.0001|TWO_SIDED|95.0|1.989|5.504|||GLIMMIX|||100% responder||5.504|1.989|<.0001
82389237|NCT03963232|164489859|SUPERIORITY||LS Mean Difference|7.07|STANDARD_DEVIATION|0.95|<|0.0001|TWO_SIDED|95.0|5.2|8.95|||Mixed Models Analysis|||||8.95|5.20|<.0001
82389238|NCT03963232|164489860|SUPERIORITY||LS Mean Difference|-1.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.25|-1.31|||Mixed Models Analysis|||||-1.31|-2.25|<.0001
82389239|NCT03963232|164489861|SUPERIORITY||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.35|-1.29|||Mixed Models Analysis|||||-1.29|-2.35|<.0001
82389240|NCT03963232|164489862|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.92|4.81|||Regression, Logistic|||||4.81|1.92|<.0001
82389241|NCT03963232|164489863|SUPERIORITY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.15|-0.62|||Mixed Models Analysis|||||-0.62|-1.15|<.0001
82389242|NCT03963232|164489864|SUPERIORITY||LS Mean Difference|-18.88|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001|TWO_SIDED|95.0|-23.21|-14.56|||Mixed Models Analysis|||||-14.56|-23.21|<.0001
82573738|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|0.5||||0.5836|TWO_SIDED|95.0|0.1|2.1|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||2.1|0.1|0.5836
82389243|NCT03963232|164489865|SUPERIORITY||LS Mean Difference|-19.24|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED|95.0|-23.73|-14.75|||Mixed Models Analysis|||||-14.75|-23.73|<.0001
82573739|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|2.4||||0.4844|TWO_SIDED|95.0|0.5|10.6|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||10.6|0.5|0.4844
82647777|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.26||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.26|-0.60|<0.001
82525568|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9999||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of PINP from baseline to EOT to each transdermal dose group versus placebo.||||||0.9999
82525569|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-110.398|||||TWO_SIDED|95.0|-156.966|-63.831|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-63.831|-156.966|
82389244|NCT03963232|164489866|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.22|-0.1|||Mixed Models Analysis|||||-0.10|-0.22|<.0001
82389245|NCT03963232|164489867|SUPERIORITY||LS Mean Difference|-0.224|STANDARD_ERROR_OF_MEAN|0.1021||0.0284|TWO_SIDED|95.0|-0.43|-0.02|||ANCOVA|||||-0.02|-0.43|0.0284
82389246|NCT03963232|164489868|SUPERIORITY||LS Mean Difference|-12.429|STANDARD_ERROR_OF_MEAN|3.2484||0.0001|TWO_SIDED|95.0|-18.81|-6.05|||ANCOVA|||||-6.05|-18.81|0.0001
82389247|NCT01672710|164489886|SUPERIORITY||Mean Difference (Net)|6.9|||<|0.05|TWO_SIDED|95.0|-0.3|14.2|||ANCOVA|||||14.2|-0.3|<0.05
82389248|NCT02122887|164489893|OTHER|χ² (1) =4.57, Cramer's V=.24|||||<|0.05|||||||Chi-squared|||we hypothesised that following intervention, those undergoing intervention will be more likely to see justice on both sides, compared to control group||||<0.05
82389249|NCT02122887|164489894|EQUIVALENCE|we compared participants levels of tension (in their interaction with an outgroup member in trail 2) in an interaction test between perspective-taking levels and group|Mean Difference (Final Values)|0.65|||>|0.05|TWO_SIDED|95.0|||||ANOVA|df=1||||||>0.05
82389250|NCT02122887|164489895|EQUIVALENCE|we compared participants levels of empathy (in their interaction with an outgroup member in trail 2) in an interaction test between perspective-taking levels and group|Mean Difference (Final Values)|0.04|||>|0.05|TWO_SIDED|95.0|||||ANOVA|||||||>0.05
82389251|NCT03634033|164489902|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on adoption and sustainability using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|10.89|STANDARD_DEVIATION|18.17||0.22|TWO_SIDED|95.0|-7.27|29.05||A priori threshold for statistical significance was .05|t-test, 2 sided|16 degrees of freedom for the t-test comparing two independent groups, n=9 each.||Given 18 sites (9 in each arm) available in Michigan, in the comparison of site-level outcome of adoption and sustainability, the detectable effect size with power of 0.80 in two-sided tests at .05 level of significance was d=1.41.||29.05|-7.27|0.22
82426153|NCT03229538|164561159|SUPERIORITY|It was estimated that 1200 patients (600 per trial group) would provide the trial with more than 90% power to detect superiority of methylprednisolone over placebo.|Adjusted Odds Ratio|0.91||||0.723|TWO_SIDED|95.0|0.52|1.57|||Regression, Logistic|||||1.57|0.52|0.723
82426154|NCT03229538|164561161|SUPERIORITY||Adjusted Odds Ratio|0.86||||0.256|TWO_SIDED|95.0|0.67|1.11|||Regression, Logistic|||||1.11|0.67|0.256
82426155|NCT02735200|164561167|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.9|TWO_SIDED|||||the p value correspond to the pretreatment time frame.|t-test, 2 sided|||||||0.9
82426156|NCT02735200|164561167|SUPERIORITY||Mean Difference (Final Values)|26.66|||<|0.001|TWO_SIDED|||||p value corresponds to the post treatment time frame.|t-test, 2 sided|||||||<0.001
82389252|NCT03634033|164489903|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries ADLs at exit using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.23||0.73|TWO_SIDED|95.0|-0.16|0.73||A priori threshold for statistical significance was .05; no adjustments for multiple comparisons|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering via a random effect of site.|IF minus IF+EF|Adjusted means at month 9 were calculated adjusting for baseline value of the outcome and nesting of participants within sites.||0.73|-0.16|0.73
82389253|NCT03634033|164489904|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries IADLs using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.15|TWO_SIDED|95.0|-0.11|0.72||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering.|IF minus IF+EF|Post-intervention means were compared adjusting for baseline values and nesting of participants within sites.||0.72|-0.11|0.15
82389254|NCT03634033|164489905|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries pain at exit using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.16||0.61|TWO_SIDED|95.0|-0.23|0.39||Threshold for statistical significance was.05; no adjustments for multiple comparisons|Mixed Models Analysis|F-test was used built into mixed models that adjusted for clustering.|IF minus IF+EF|||0.39|-0.23|0.61
82389255|NCT03634033|164489906|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries depression (baseline to exit) using an evidence-based intervention (CAPABLE).|LS Means|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.04|TWO_SIDED|95.0|0.01|0.24|||F-test|F-test was used (related to the t-test arithmetically), built into mixed models that adjusted for clustering.||||0.24|0.01|0.04
82389256|NCT03634033|164489907|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries fall rates at exit after an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|1.16|STANDARD_ERROR_OF_MEAN|0.01||0.18|TWO_SIDED|95.0|0.93|1.45|||Mixed Models Analysis|||||1.45|0.93|0.18
82389257|NCT03634033|164489907|SUPERIORITY||Odds Ratio (OR)|1.16||||0.18|TWO_SIDED|95.0|0.93|1.45||Threshold for statistical significance was .05; no adjustment for multiple comparisons.|Mixed Models Analysis||Odds ratio for IF versus IF+EF|Occurrence of falls was analyzed with adjustment for baseline and nesting of participants within sites.||1.45|0.93|.18
82389258|NCT03634033|164489908|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) on beneficiaries ED Visits at exit after an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.01||0.86|TWO_SIDED|95.0|0.79|1.22||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|Mixed Models Analysis|Adjustment for baseline and nesting of participants within sites.||||1.22|0.79|0.86
82389259|NCT03634033|164489909|SUPERIORITY|Examination of intensity of facilitation (IF vs IF+EF) needed on beneficiaries hospitalizations (baseline to exit) using an evidence-based intervention (CAPABLE).|Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|1.01||0.95|TWO_SIDED|95.0|0.72|1.42|||F-test|F-test was used (related to the t-test arithmetically), built into mixed models that adjusted for clustering.||||1.42|0.72|0.95
82389260|NCT03634033|164489910|SUPERIORITY|Examination of clinician attitude on facilitation (IF vs IF+EF) at exit when using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|2.55||0.05|TWO_SIDED|95.0|0.09|10.14|||Mixed Models Analysis|||Mixed modeling was used to account for nesting of clinicians within sites.||10.14|0.09|0.05
82389261|NCT03634033|164489911|OTHER|Examination of clinician self-efficacy on facilitation (IF vs IF+EF) (baseline to exit) when using an evidence-based intervention (CAPABLE).|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.36||0.54|TWO_SIDED|95.0|-0.51|0.97||Threshold for statistical significance was .05 with no adjustments for multiple testing.|Mixed Models Analysis|Nesting of clinicians within site was adjusted for as a random effect.||||0.97|-0.51|0.54
82389262|NCT03634033|164489914|SUPERIORITY|Pre-/post-intervention comparison.|Mean Difference (Net)|-2.69|STANDARD_ERROR_OF_MEAN|1.63|<|0.01|TWO_SIDED|95.0|-3.96|-1.42|||t-test, 2 sided||Pre minus post|Pain||-1.42|-3.96|<.01
82525570|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-96.115|||||TWO_SIDED|95.0|-142.94|-49.29|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-49.290|-142.940|
82389263|NCT03634033|164489914|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|1.9||0.58|TWO_SIDED|95.0|-2.8|4.91||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided|||ADL||4.91|-2.80|.58
82389264|NCT03634033|164489914|SUPERIORITY||Mean Difference (Net)|1.05|STANDARD_ERROR_OF_MEAN|1.29||0.44|TWO_SIDED|95.0|-2.8|4.91||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided|||IADL||4.91|-2.80|.44
82525571|NCT01674621|164747695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-104.418|||||TWO_SIDED|95.0|-152.079|-56.758|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-56.758|-152.079|
82389265|NCT03634033|164489914|SUPERIORITY||Mean Difference (Net)|1.46|STANDARD_ERROR_OF_MEAN|1.63||0.38|TWO_SIDED|95.0|-1.85|4.77||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided||Pre minus post|Depression||4.77|-1.85|.38
82389266|NCT03634033|164489915|SUPERIORITY|Self-efficacy|Mean Difference (Net)|-0.81|STANDARD_DEVIATION|0.11|<|0.01|TWO_SIDED|95.0|-1.02|-0.6||Threshold for statistical significance was .05 with no adjustments for multiple comparisons.|t-test, 2 sided||Pre minus post|Self-efficacy change baseline (month-0) to exit (month-4).||-0.60|-1.02|<0.01
82389267|NCT03634033|164489916|OTHER|Score on scale.|Mean|8.09|STANDARD_DEVIATION|1.6|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<.01
82389268|NCT03634033|164489916|OTHER||Mean|7.55|STANDARD_DEVIATION|2.06|<|0.01|TWO_SIDED||||||t-test, 2 sided|||Satisfaction with format||||<.01
82389269|NCT03634033|164489916|OTHER||Mean|8.35|STANDARD_DEVIATION|1.5|<|0.01|TWO_SIDED||||||Difference from zero|||Satisfaction with newness of content for caregiver||||<.01
82389270|NCT03634033|164489916|OTHER||Mean|7.85|STANDARD_DEVIATION|1.92|<|0.01|TWO_SIDED||||||Difference from zero|||Satisfaction with newness of content for clinician||||<.01
82525572|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3483||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.3483
82640787|NCT03671746|164996284|SUPERIORITY||||||=|0.564|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.564
82647778|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.14||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-0.14|-0.48|<0.001
82525573|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6839||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.6839
82525574|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1067||||||Threshold for significance at 0.05 level.|Dunnett's test|P-value from Dunnett's test comparing percent change of CTXI from baseline to end-of-treatment to each transdermal dose group versus placebo.||||||0.1067
82389271|NCT03634033|164489916|OTHER||Mean|7.85|STANDARD_DEVIATION|1.92|<|0.01|TWO_SIDED||||||Difference from zero|||Intent to use new information||||<.01
82525575|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-43.721|||||TWO_SIDED|95.0|-75.748|-11.694|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-11.694|-75.748|
82525576|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.461|||||TWO_SIDED|95.0|-71.665|-7.257|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-7.257|-71.665|
82647779|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.42|-0.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.09|-0.42|0.003
82647780|NCT00830063|165011046|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.105|TWO_SIDED|95.0|-0.3|0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.03|-0.30|0.105
82443848|NCT02573246|164596209|SUPERIORITY|Aimed to recruit 20 participants in each condition to align with other neurostimulation studies where 6-20 adults per condition were sufficient to demonstrate proof-of-concept for novel treatments (Bentwich et al., 2011; Cunningham et al., 2015).|Mean Difference (Net)|0.172|STANDARD_DEVIATION|0.38|<|1e-06|TWO_SIDED|95.0|0.129|0.215||Significance threshold was set at p = 0.05.|Mixed Models Analysis||The MMANOVA analysis used an unstructured covariance structure.|In the supplemental study (CR+active left rTMS with functional targeting vs CR+sham rTMS), mixed-effects hierarchical linear models (MMANOVA) with analytically determined covariance structures were used to analyze the repeated measures data. We hypothesized that active neurostimulation would increase HF-HRV during regulation when compared with sham.||.215|.129|<.000001
82443849|NCT02573246|164596210|SUPERIORITY||Mean Difference (Net)|0.111|STANDARD_ERROR_OF_MEAN|0.091544||0.236|TWO_SIDED|95.0|-0.078086|0.300661||A priori threshold was set to 0.05.|ANCOVA|Brain to skull difference and intake difference in dlPFC activation between regulation and feeling negative were included as confounds.|Parameter estimate is the value of the difference between active stimulation and sham stimulation.|Difference between treatment conditions in dlPFC activation change between feeling negative emotions and downregulation of negative affect a week after intervention, when controlling for baseline activation difference||0.300661|-0.078086|.236
82443850|NCT02573246|164596210|SUPERIORITY||Mean Difference (Net)|0.359024|STANDARD_ERROR_OF_MEAN|0.144067||0.020347|TWO_SIDED|95.0|0.061|0.657049||Threshold was set at 0.05 a priori|ANCOVA|Brain to skull difference and intake difference in vlpfc activation between regulation and feeling negative were included as confounds.||Expected significantly higher activation following active intervention in the vlPFC when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted using FSL featquery. A univariate general linear model excluding one outlier from the active condition was conducted for this outcome measure.||0.657049|0.061000|0.020347
82443851|NCT02573246|164596210|SUPERIORITY||Mean Difference (Net)|0.221683|STANDARD_ERROR_OF_MEAN|0.461481||0.635|TWO_SIDED|95.0|-0.732963|1.17633||A priori threshold was set to .05|ANCOVA|Brain to skull difference and intake difference in vmpfc activation between regulation and feeling negative were included as confounds.||Expected significantly higher activation following active intervention in the vmPFC when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted with FSL featquery.||1.176330|-0.732963|0.635
82525577|NCT01674621|164747696|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.334|||||TWO_SIDED|95.0|-82.113|-16.555|||||Mean difference of percent change from baseline to end of treatment between the active treatment groups (transdermal and SC injection).|||-16.555|-82.113|
82573740|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|1.4||||0.9725|TWO_SIDED|95.0|0.3|6.8|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||6.8|0.3|0.9725
82573741|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|0.4||||0.4715|TWO_SIDED|95.0|0.1|1.9|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||1.9|0.1|0.4715
82573742|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|2.2||||0.5969|TWO_SIDED|95.0|0.5|9.6|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||9.6|0.5|0.5969
82573743|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|0.3||||0.2043|TWO_SIDED|95.0|0.1|1.4|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||1.4|0.1|0.2043
82389272|NCT06366087|164489917|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.7|||||TWO_SIDED|90.0|0.67|0.724|||Mixed Models Analysis||Bioequivalence will be considered met if the 90% CI of the ratio for AUCinf lies within 80.00 to 125.00%.|||0.724|0.670|
82389273|NCT06366087|164489918|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.67|||||TWO_SIDED|90.0|0.64|0.697|||Mixed Models Analysis||Bioequivalence will be considered met if the 90% CI of the ratio for AUCt lies within 80.00 to 125.00%.|||0.697|0.640|
82573744|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|1.5||||0.9388|TWO_SIDED|95.0|0.3|7.4|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||7.4|0.3|0.9388
82573745|NCT03635086|164857943|OTHER||Geometric Mean Ratio Estimate|5.2||||0.0251|TWO_SIDED|95.0|1.2|23.1|||Tukey-Kramer|||GMT ratios were estimated by applying an analysis of variance (ANOVA) including the factor treatment group. This was done using log10 transformed data and taking the anti-log of the resulting point estimates for the least squares means, least squares means differences and the corresponding 2-sided 95% confidence intervals (CI). P-values were also provided to compare GMTs between treatment groups adjusted for multiple comparisons according to Tukey-Kramer.||23.1|1.2|0.0251
82573746|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups|Geometric Mean Ratio Estimate|0.6||||0.5263|TWO_SIDED|95.0|0.2|1.6|||ANOVA|||Day 0||1.6|0.2|0.5263
82389274|NCT06366087|164489919|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.11|||||TWO_SIDED|90.0|0.088|0.136|||Mixed Models Analysis|||||0.136|0.088|
82389275|NCT06366087|164489920|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.15|||||TWO_SIDED|90.0|0.12|0.189|||Mixed Models Analysis|||||0.189|0.120|
82525578|NCT00532155|164747799|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.8985|TWO_SIDED|95.0|0.868|1.174|||Stratified log-rank test|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.||||1.174|0.868|0.8985
82389276|NCT06366087|164489921|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.26|||||TWO_SIDED|90.0|0.217|0.309|||Mixed Models Analysis|||||0.309|0.217|
82389277|NCT06366087|164489922|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.36|||||TWO_SIDED|90.0|0.318|0.416|||Mixed Models Analysis|||||0.416|0.318|
82389278|NCT06366087|164489923|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.44|||||TWO_SIDED|90.0|0.396|0.492|||Mixed Models Analysis|||||0.492|0.396|
82389279|NCT06366087|164489924|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.57|||||TWO_SIDED|90.0|0.532|0.608|||Mixed Models Analysis|||||0.608|0.532|
82389280|NCT06366087|164489925|OTHER|Estimation only. Estimates are back-transformed and based on a random effects linear model with log10 numeric response variable, adjusting for study route received, dosing sequence, and period, with a random effect for subject nested within dosing sequence.|Ratio of geometric least-square means|0.57|||||TWO_SIDED|90.0|0.524|0.62|||Mixed Models Analysis|||||0.620|0.524|
82389281|NCT01669174|164489966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|106.1|||<|0.001|TWO_SIDED|90.0|104.64|107.58|||ANCOVA|||Week 4||107.58|104.64|<0.001
82573747|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
82573748|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
82573749|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
82389282|NCT01669174|164489966|SUPERIORITY_OR_OTHER||Median Difference (Net)|107.75|||<|0.001|TWO_SIDED|90.0|106.18|109.35|||ANCOVA|||Week 8||109.35|106.18|<0.001
82573750|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.7||||0.55|TWO_SIDED|95.0|0.6|4.7|||ANOVA|||Day 0||4.7|0.6|0.5500
82573751|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.7||||0.5263|TWO_SIDED|95.0|0.6|4.6|||ANOVA|||Day 0||4.6|0.6|0.5263
82573752|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.5263|TWO_SIDED|95.0|0.6|4.6|||ANOVA|||Day 0||4.6|0.6|0.5263
82573753|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
82389283|NCT01669174|164489966|SUPERIORITY_OR_OTHER||Median Difference (Net)|108.63|||<|0.001|TWO_SIDED|90.0|106.31|111.0|||ANCOVA|||Week 16||111.00|106.31|<0.001
82389284|NCT01669174|164489966|SUPERIORITY_OR_OTHER||Median Difference (Net)|106.63|||<|0.001|TWO_SIDED|90.0|104.39|108.93|||ANCOVA|||Week 24||108.93|104.39|<0.001
82389285|NCT01953601|164489971|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.1||||0.6734|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-0.3|0.6734
82426157|NCT01164007|164561184|SUPERIORITY_OR_OTHER|||||||0.071|||||||One-sample exact binomial test|||The observed percentage of participants with CR or PR was compared with the expected proportion under the null hypothesis (0.10) and analyzed for statistical significance using a one-sample exact binomial test.||||0.071
82389286|NCT01953601|164489971|SUPERIORITY||Difference in Least Squares Means (LSM)|0.4||||0.0141|TWO_SIDED|97.51|0.0|0.8|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.8|0.0|0.0141
82389287|NCT01953601|164489973|OTHER||Difference in % vs Placebo|4.32|||||TWO_SIDED|95.0|0.4|8.31|||||Difference in % = Arm A - Arm C|||8.31|0.40|
82389288|NCT01953601|164489973|OTHER||Difference in % vs Placebo|5.17|||||TWO_SIDED|95.0|1.33|9.09|||||Difference in % = Arm B - Arm C|||9.09|1.33|
82389289|NCT01953601|164489974|OTHER||Difference in % vs Placebo|2.08|||||TWO_SIDED|95.0|-0.84|5.1|||||Difference in % = Arm A - Arm C|||5.10|-0.84|
82389290|NCT01953601|164489974|OTHER||Difference in % vs Placebo|5.58|||||TWO_SIDED|95.0|2.35|8.99|||||Difference in % = Arm B - Arm C|||8.99|2.35|
82389291|NCT01953601|164489975|OTHER||Difference in % vs Placebo|-6.79|||||TWO_SIDED|95.0|-16.16|2.68|||||Difference in % = Arm A - Arm C|||2.68|-16.16|
82389292|NCT01953601|164489975|OTHER||Difference in % vs Placebo|-10.68|||||TWO_SIDED|95.0|-20.16|-1.04|||||Difference in % = Arm B - Arm C|||-1.04|-20.16|
82389293|NCT01953601|164489976|OTHER||Difference in % vs Placebo|-2.42|||||TWO_SIDED|95.0|-6.03|0.61|||||Difference in % = Arm A - Arm C|||0.61|-6.03|
82389294|NCT01953601|164489976|OTHER||Difference in % vs Placebo|-2.38|||||TWO_SIDED|95.0|-6.01|0.71|||||Difference in % = Arm B - Arm C|||0.71|-6.01|
82389295|NCT01953601|164489977|SUPERIORITY||Hazard Ratio (HR)|1.301||||0.0222|TWO_SIDED|97.51|1.005|1.684|||Regression, Cox||HR = Arm A / Arm C||Based on Cox regression model with Efron's method of tie handling with treatment, background AD treatment (use, no use), sex, APOE4 status (carrier, non-carrier) and baseline use of Vitamin E as categorical covariates and age and baseline MMSE value as continuous covariates.|1.684|1.005|0.0222
82389296|NCT01953601|164489977|SUPERIORITY||Hazard Ratio (HR)|1.382||||0.005|TWO_SIDED|97.51|1.067|1.79|||Regression, Cox||HR = Arm B / Arm C||Based on Cox regression model with Efron's method of tie handling with treatment, background AD treatment (use, no use), sex, APOE4 status (carrier, non-carrier) and baseline use of Vitamin E as categorical covariates and age and baseline MMSE value as continuous covariates.|1.790|1.067|0.0050
82389297|NCT01953601|164489978|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.9109|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-0.3|0.9109
82525579|NCT00532155|164747800|SUPERIORITY_OR_OTHER_LEGACY||Stratified Hazard ratio|0.819||||0.0035|TWO_SIDED|95.0|0.716|0.937|||Stratified Log-Rank test|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.|||0.937|0.716|0.0035
82389298|NCT01953601|164489978|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.3||||0.0824|TWO_SIDED|97.51|-0.1|0.7|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.7|-0.1|0.0824
82389299|NCT01953601|164489979|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.951|TWO_SIDED|97.51|-0.2|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-0.2|0.9510
82389300|NCT01953601|164489979|SUPERIORITY||Difference in Least Squares Mean (LSM)|0.0||||0.9392|TWO_SIDED|97.51|-0.2|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-0.2|0.9392
82389301|NCT01953601|164489980|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.4||||0.1133|TWO_SIDED|97.51|-1.0|0.2|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.2|-1.0|0.1133
82389302|NCT01953601|164489980|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.6||||0.031|TWO_SIDED|97.51|-1.2|0.0|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.0|-1.2|0.0310
82525580|NCT02134925|164747810|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
82389303|NCT01953601|164489981|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.05|||<|0.0001|TWO_SIDED|97.51|-0.06|-0.04|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.04|-0.06|<0.0001
82525581|NCT02134925|164747815|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82426158|NCT00744861|164561202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9905|||||||Cochran-Mantel-Haenszel|site stratified||||||0.9905
82525582|NCT01064297|164747825|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.2||||||95.0|1.6|3.1|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||3.1|1.6|
82389304|NCT01953601|164489981|SUPERIORITY||Difference in Least Squares Mean (LSM)|-0.06|||<|0.0001|TWO_SIDED|97.51|-0.07|-0.05|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.05|-0.07|<0.0001
82389305|NCT01953601|164489982|SUPERIORITY||Difference in Least Squares Mean (LSM)|-1.0||||0.096|TWO_SIDED|97.51|-2.4|0.4|||Longitudinal ANCOVA||Difference in LSM = Arm A - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|0.4|-2.4|0.0960
82389306|NCT01953601|164489982|SUPERIORITY||Difference in Least Squares Mean (LSM)|-1.7||||0.011|TWO_SIDED|97.51|-3.2|-0.2|||Longitudinal ANCOVA||Difference in LSM = Arm B - Arm C||Analysis model includes categorical factors of geographic region, time, treatment, gender, APOE genotype, baseline use of Vitamin E, baseline use of AChEI, and the interaction of time by treatment, with baseline value, the interaction of baseline value and time, the baseline value of MMSE and the baseline value of age included as continuous covariates.|-0.2|-3.2|0.0110
82389307|NCT01246349|164489984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.616|STANDARD_ERROR_OF_MEAN|7.373||0.24|TWO_SIDED|95.0|-5.871|23.103|||Regression, Linear|||Published results comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the absolute attributable effect of intervention (i.e., the difference in self-efficacy \[WEL\] change between the treatment and control groups from baseline to a 6 month follow-up).||23.103|-5.871|0.24
82389308|NCT01246349|164489985|SUPERIORITY_OR_OTHER|||||||0.56|||||||Regression, Linear|||Results published comprise baseline and follow-up BMI z-score means and standard deviations for both the MI and control groups (reported above), as well as the attributable effect of intervention (i.e., the difference in BMI change between the treatment and control groups from baseline to a 6-month follow-up)||||0.56
82389309|NCT01246349|164489986|SUPERIORITY_OR_OTHER|||||||0.09|||||||Regression, Linear|||Results published comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the attributable effect of intervention (i.e., the difference in waist circumference change between the treatment and control groups from baseline to a 6-month follow-up).||||0.09
82389310|NCT01246349|164489988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|1.265||0.88|TWO_SIDED|95.0|-2.301|2.668|||Regression, Linear|||"Based on previous research , baseline CDSS means were expected between 5 - 6.5 with a SD of 3 - 4. It was hypothesized that an attributable effect of 1.5 would be detected.~Published results comprise baseline and follow-up means and standard deviations for both the MI and control group (reported above), as well as the absolute attributable effect of intervention (i.e., the difference in self-efficacy \[CDSS\] change between the treatment and control groups from baseline to a 6 month follow-up)."||2.668|-2.301|0.88
82389311|NCT02991729|164489989|NON_INFERIORITY|The non-inferiority limit was 1 point on the questionnaire scale.||||||0.929||||||a priori threshold for statistical significance was p\<0.05.|Wilcoxon rank-sum|||||||0.929
82389312|NCT02991729|164489990|SUPERIORITY|||||||0.369|||||||Wilcoxon rank-sum|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict in the routine care group (after counseling only) to the experimental group following decision aid completion but prior to genetic counseling (first row, second column in above table).||||0.369
82389313|NCT02991729|164489990|SUPERIORITY|||||||0.003|||||||Wilcoxon rank-sum|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict in the routine care group (after counseling only) to the experimental group following decision aid completion and genetic counseling (second row, second column in above table).||||0.003
82573754|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.8|||ANOVA|||Day 0||2.8|0.4|1.0000
82573755|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.4|2.7|||ANOVA|||Day 0||2.7|0.4|1.0000
82573756|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.5321|TWO_SIDED|95.0|0.2|1.7|||ANOVA|||Day 28||1.7|0.2|0.5321
82389314|NCT02991729|164489990|SUPERIORITY|||||||0.003|||||||Wilcoxon signed-rank|||Decisional conflict was measured in 2 separate time points in the experimental group - both prior to and following genetic counseling. This analysis compares decisional conflict pre-genetic counseling/post-decision aid to post-genetic counseling.||||0.003
82389315|NCT05537441|164489993|SUPERIORITY||Percent Difference|0.64||||0.216|TWO_SIDED||||||2 proportion Z-test|||||||0.216
82389316|NCT05537441|164489994|SUPERIORITY||Percent Difference|-0.61||||0.34|TWO_SIDED||||||2 proportion Z-test|||Previously vaccinated||||0.34
82389317|NCT05537441|164489994|SUPERIORITY||Percent Difference|-0.45||||0.247|TWO_SIDED||||||2 proportion Z-test|||Previously unvaccinated||||0.247
82389318|NCT00614523|164490009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.13|TWO_SIDED|95.0|0.66|1.05|||Anderson-Gill model|Anderson-Gill model using the model-based variance estimate and stratified by the randomization stratification factors|Romiplostim /Placebo|||1.05|0.66|0.13
82389319|NCT00614523|164490010|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.766|||<|0.001|TWO_SIDED|95.0|0.66|0.88|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates.|Romiplostim /Placebo|||0.88|0.66|<0.001
82389320|NCT00614523|164490011|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.922||||0.026|TWO_SIDED|95.0|0.86|0.99|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates.|Romiplostim /Placebo|||0.99|0.86|0.026
82389321|NCT00614523|164490012|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.739|||<|0.001|TWO_SIDED|95.0|0.68|0.8|||Poisson Regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||0.8|0.68|<0.001
82389322|NCT00614523|164490013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.6|||<|0.001|TWO_SIDED|95.0|4.7|51.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for stratification factors.|Romiplostim /Placebo|||51.8|4.7|<0.001
82573757|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9983|TWO_SIDED|95.0|0.3|3.9|||ANOVA|||Day 28||3.9|0.3|0.9983
82573758|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8234|TWO_SIDED|95.0|0.2|2.1|||ANOVA|||Day 28||2.1|0.2|0.8234
82389323|NCT00614523|164490014|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.402||||0.032|TWO_SIDED|95.0|1.03|1.91|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||1.91|1.03|0.032
82389324|NCT00614523|164490018|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.639|||<|0.001|TWO_SIDED|95.0|0.57|0.71|||Poisson regression model|Poisson regression model with treatment and stratification factors as covariates|Romiplostim /Placebo|||0.71|0.57|<0.001
82389325|NCT03962790|164490019|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the credible interval (CrI) of the mean difference between Test and Control was greater than -5.|Posterior Mean Difference|0.09|STANDARD_DEVIATION|2.281|||TWO_SIDED|95.0|-4.37|4.65|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||4.65|-4.37|
82389326|NCT03962790|164490020|NON_INFERIORITY|Non-inferiority is established if the lower limit of the 95% credible interval is above -5 points in CLUE Scale.|Posterior Mean Difference|-1.02|STANDARD_DEVIATION|1.565|||TWO_SIDED|95.0|-4.07|2.06|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||2.06|-4.07|
82525583|NCT01064297|164747825|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|4.2||||||95.0|1.4|11.0|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||11.0|1.4|
82525584|NCT01064297|164747825|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.4||||||95.0|1.7|3.3|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||3.3|1.7|
82525585|NCT01064297|164747826|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|10.7||||||95.0|6.4|17.0||||||||17.0|6.4|
82389327|NCT03962790|164490021|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the CrI of the mean difference between Test and Control was less than 0.05.|Posterior Mean Difference|-0.001|STANDARD_DEVIATION|0.0054|||TWO_SIDED|95.0|-0.012|0.01|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.010|-0.012|
82389328|NCT03962790|164490021|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the CrI of the mean difference between Test and Control was less than 0.05.|Posterior Mean Difference|-0.002|STANDARD_DEVIATION|0.0057|||TWO_SIDED|95.0|-0.014|0.009|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.009|-0.014|
82389329|NCT03962790|164490022|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the CrI of the mean difference between Test and Control was greater than -1.|Posterior Mean Difference|0.02|STANDARD_DEVIATION|0.168|||TWO_SIDED|95.0|-0.32|0.34|||||Posterior mean difference was calculated as Test - Control|Bayesian repeated measurement random-effects model was used to compare between Test and Control lenses.||0.34|-0.32|
82389330|NCT02877095|164490023|OTHER|||||||||||||||||All subjects on study received active drug.|Total count of events is provided.|||
82389331|NCT01489254|164490143|NON_INFERIORITY_OR_EQUIVALENCE|To conclude study sensitivity the combined active treatment groups Glatiramer 20 mg and Copaxone 20 mg needed to be superior to placebo.|Ratio (or Ratio of estimated means)|0.488|||||TWO_SIDED|95.0|0.365|0.651|||||Ratio of combined Glatiramer 20 mg + Copaxone 20 mg to placebo and 95% confidence interval.|Estimates represent the mean total lesions during months 7 through 9 and were estimated from the fitted random effect generalized linear model (longitudinal model) with a negative binomial distribution and logaritmic link function. To assess study sensitivity, data of the active treatment groups and placebo were included in the model, resulting in the ratios and 95% CIs for the combined Glatiramer 20 mg and Copaxone 20 mg treatment group and the individual treatments over placebo.||0.651|0.365|
82525586|NCT01064297|164747826|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|9.3||||||95.0|5.5|15.2|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||15.2|5.5|
82525587|NCT01064297|164747827|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.8||||||95.0|1.5|5.0||||||||5.0|1.5|
82389332|NCT01489254|164490143|NON_INFERIORITY_OR_EQUIVALENCE|To conclude equivalence between Glatiramer 20 mg and Copaxone 20 mg, efficacy in the combined active treatment groups needed to be superior to placebo (confirming study sensitivity) and the 2-sided 95% CI for the estimated ratio of Glatiramer 20 mg to Copaxone 20 mg needed to be fully enclosed in the prespecified equivalence margin (0.727 - 1.375).|Ratio (or Ratio of estimated means)|1.095|||||TWO_SIDED|95.0|0.883|1.36|||||Ratio of Glatiramer 20 mg to Copaxone 20 mg and 95% confidence interval.|Estimates represent the mean total lesions during months 7 through 9 and were estimated from the fitted random effect generalized linear model (longitudinal model) with a negative binomial distribution and logaritmic link function including Glatiramer 20 mg and Copaxone 20 mg treatment groups to assess study equivalence.||1.360|0.883|
82389333|NCT00844480|164490147|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.03
82389334|NCT03421145|164490163|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82573759|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9882|TWO_SIDED|95.0|0.2|2.7|||ANOVA|||Day 28||2.7|0.2|0.9882
82573760|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.2||||0.3778|TWO_SIDED|95.0|0.6|7.6|||ANOVA|||Day 28||7.6|0.6|0.3778
82573761|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9878|TWO_SIDED|95.0|0.4|4.1|||ANOVA|||Day 28||4.1|0.4|0.9878
82389335|NCT03421145|164490164|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82389336|NCT03421145|164490165|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82389337|NCT03421145|164490166|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82389338|NCT03421145|164490167|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82389339|NCT01820572|164490169|SUPERIORITY|difference between belatacept and CNI|Difference in proportions|0.9|||||TWO_SIDED|95.0|-8.6|10.4||||||||10.4|-8.6|
82389340|NCT01820572|164490170|SUPERIORITY|difference between belatacept and CNI|Difference in Proportions|-0.4|||||TWO_SIDED|95.0|-9.9|9.0||||||||9.0|-9.9|
82389341|NCT00288600|164490187|SUPERIORITY_OR_OTHER|||||||0.765|TWO_SIDED||||||Chi-squared, Corrected|||Need of Exchange transfusion following the AAP criteria||||0.765
82389342|NCT03600194|164490188|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|Design\*Therapy interaction term||||||.019
82389343|NCT02235077|164490194|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5688|TWO_SIDED|95.0|-0.11|0.2|||Regression, Linear|||||0.20|-0.11|0.5688
82389344|NCT02235077|164490195|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.4155|TWO_SIDED|95.0|-0.35|0.86|||Regression, Linear|||||0.86|-0.35|0.4155
82389345|NCT02235077|164490196|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3039|TWO_SIDED|95.0|0.83|1.81|||Chi-squared|||||1.81|0.83|0.3039
82389346|NCT02235077|164490197|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.7673|TWO_SIDED|95.0|-0.09|0.07|||Regression, Linear|||||0.07|-0.09|0.7673
82389347|NCT02235077|164490198|SUPERIORITY||Mean Difference (Final Values)|319.2||||0.5734|TWO_SIDED|95.0|-797.4|1435.8|||Regression, Linear|||||1435.8|-797.4|0.5734
82389348|NCT02235077|164490199|SUPERIORITY||Mean Difference (Final Values)|-1.02||||0.3528|TWO_SIDED|95.0|-3.05|1.01|||Regression, Linear|||||1.01|-3.05|0.3528
82573762|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.8213|TWO_SIDED|95.0|0.5|5.3|||ANOVA|||Day 28||5.3|0.5|0.8213
82573763|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.6716|TWO_SIDED|95.0|0.2|1.9|||ANOVA|||Day 28||1.9|0.2|0.6716
82573764|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.938|TWO_SIDED|95.0|0.2|2.5|||ANOVA|||Day 28||2.5|0.2|0.9380
82573765|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9777|TWO_SIDED|95.0|0.4|4.3|||ANOVA|||Day 28||4.3|0.4|0.9777
82443852|NCT02573246|164596210|SUPERIORITY||Mean Difference (Net)|0.179412|STANDARD_ERROR_OF_MEAN|0.178029||0.324|TWO_SIDED|95.0|-0.188868|0.547692||a priori set threshold was 0.05|ANCOVA|Brain to skull difference and intake difference in amygdala activation between regulation and feeling negative were included as confounds.||Expected significantly lower activation following active intervention in the amygdala when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. ROI data was extracted with featquery (FSL).||0.547692|-0.188868|.324
82443853|NCT02573246|164596210|SUPERIORITY||Mean Difference (Net)|0.021231|STANDARD_ERROR_OF_MEAN|0.071185||0.76819|TWO_SIDED|95.0|-0.126027|0.168489||A priori set threshold was 0.05|ANCOVA|Brain to skull difference and intake difference in insula activation between regulation and feeling negative were included as confounds.||Expected significantly lower activation following active intervention in the insula when compared to sham when engaging in downregulation versus passive experience of negative emotions induced with autobiographical stressors. FSL featquery tool was used to extract ROI (region of interest) data.||0.168489|-0.126027|0.768190
82573766|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9997|TWO_SIDED|95.0|0.3|4.7|||ANOVA|||Day 56||4.7|0.3|0.9997
82573767|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9287|TWO_SIDED|95.0|0.3|7.2|||ANOVA|||Day 56||7.2|0.3|0.9287
82389349|NCT02235077|164490200|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.0846|TWO_SIDED|95.0|-0.02|0.25|||Regression, Linear|||||0.25|-0.02|0.0846
82389350|NCT02235077|164490201|SUPERIORITY||Mean Difference (Final Values)|-12.17||||0.0842|TWO_SIDED|95.0|-25.98|1.65|||Regression, Linear|||||1.65|-25.98|0.0842
82389351|NCT02235077|164490202|SUPERIORITY||Odds Ratio (OR)|1.11||||0.7628|TWO_SIDED|95.0|0.56|2.23|||Regression, Logistic|||||2.23|0.56|0.7628
82389352|NCT02235077|164490203|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.6102|TWO_SIDED|95.0|-5.02|2.95|||Regression, Linear|||||2.95|-5.02|0.6102
82389353|NCT02235077|164490204|SUPERIORITY||Odds Ratio (OR)|0.76||||0.5818|TWO_SIDED|95.0|0.29|1.99|||Regression, Logistic|||||1.99|0.29|0.5818
82389354|NCT03852628|164490205|SUPERIORITY||Odds Ratio (OR)|0.17||||0.08|TWO_SIDED|95.0|0.02|1.22|||Mixed Models Analysis|Modeled the probability of having a reduction in AUD||The Placebo arm served as the reference group.||1.22|0.02|0.08
82389355|NCT03852628|164490206|SUPERIORITY||Odds Ratio (OR)|0.76||||0.69|TWO_SIDED|95.0|0.2|2.97|||Mixed Models Analysis|Modeled the probability of reduction in PTSD symptom.||The placebo arm served as the reference group.||2.97|0.20|0.690
82389356|NCT03852628|164490207|SUPERIORITY||Odds Ratio (OR)|0.63||||0.52|TWO_SIDED|95.0|0.15|2.66|||Mixed Models Analysis|Modeled the probability of have both a reduction in PTSD and AUD||The Placebo arm served as the reference group.||2.66|0.15|0.52
82389357|NCT04257032|164490212|OTHER||Ratio of geometric means (T/R) %|105.37|||||TWO_SIDED|90.0|97.94|113.35|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 9.9|Relative bioavailability||113.35|97.94|
82389358|NCT04257032|164490213|OTHER||Ratio of geometric means (T/R) %|114.5|||||TWO_SIDED|90.0|104.22|125.81|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 14.0|Relative bioavailability||125.81|104.22|
82389359|NCT04257032|164490214|OTHER||Ratio of geometric means (T/R) %|108.18|||||TWO_SIDED|90.0|100.26|116.73|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 11.3|Relative bioavailability||116.73|100.26|
82573768|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.5598|TWO_SIDED|95.0|0.1|2.0|||ANOVA|||Day 56||2.0|0.1|0.5598
82573769|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|3.0||||0.2117|TWO_SIDED|95.0|0.7|13.1|||ANOVA|||Day 56||13.1|0.7|0.2117
82573770|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9699|TWO_SIDED|95.0|0.3|6.6|||ANOVA|||Day 56||6.6|0.3|0.9699
82443854|NCT02573246|164596211|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.455||0.69|TWO_SIDED|95.0|-0.553|1.293||a priori threshold for significance was 0.05|ANOVA|||Likert-type questions about acceptability were rated on a scale from 0 (not at all) to 9 (extremely) and then averaged to create a mean for acceptability. This average score was normally distributed and therefore was entered into a univariate general linear model where acceptability was entered as a dependent variable and condition as a fixed factor.||1.293|-0.553|0.69
82573771|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.4||||0.446|TWO_SIDED|95.0|0.1|1.8|||ANOVA|||Day 56||1.8|0.1|0.4460
82389360|NCT04257032|164490215|OTHER||Ratio of geometric means (T/R) %|108.89|||||TWO_SIDED|90.0|99.84|118.76|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 12.9|Relative bioavailability||118.76|99.84|
82389361|NCT04257032|164490216|OTHER||Ratio of geometric means (T/R) %|104.52|||||TWO_SIDED|90.0|97.34|112.23|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 10.6|Relative bioavailability||112.23|97.34|
82389362|NCT04257032|164490217|OTHER||Ratio of geometric means (T/R) %|108.42|||||TWO_SIDED|90.0|100.37|117.12|||ANOVA|ANOVA model on the logarithmic scale, considering the effects 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random.|Intra-individual coefficient of variation (gCV %) = 11.5|Relative bioavailability||117.12|100.37|
82389363|NCT00746564|164490260|SUPERIORITY_OR_OTHER||percentage of recordings|100.0|||||TWO_SIDED|95.0|100.0|100.0||||||"The sensitivity was calculated for each recording and for each subject as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|100|
82389364|NCT00746564|164490261|SUPERIORITY_OR_OTHER||percentage of clinical recordings|98.1|||||TWO_SIDED|95.0|95.7|100.0||||||"The sensitivity was calculated for each recording during the treadmill test and for each subject as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|95.7|
82389365|NCT00746564|164490262|SUPERIORITY_OR_OTHER||percentage of recordings|98.0|||||TWO_SIDED|95.0|95.5|100.0||||||"The sensitivity was calculated for each recording and for each subject during the hand to hand and hand to shoulder maneuvers as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recordings/Total amount of time (sec) R waves were recorded on surface ECG"||100|95.5|
82389366|NCT00746564|164490263|SUPERIORITY_OR_OTHER||percentage of recordings|98.9|||||TWO_SIDED|95.0|96.7|100.0||||||"The positive predictive value (PPV) was calculated for each recording and for each subject during the in-clinic recording at rest as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||100|96.7|
82389367|NCT00746564|164490264|SUPERIORITY_OR_OTHER||percentage of recording|77.1|||||TWO_SIDED|95.0|65.9|88.4||||||"The positive predictive value (PPV) was calculated for each recording and for each subject for the in-clinic recording during the treadmill exercise as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||88.4|65.9|
82443855|NCT02573246|164596211|SUPERIORITY||Mean Difference (Net)|0.27|STANDARD_ERROR_OF_MEAN|0.43||0.53|TWO_SIDED|95.0|-0.592|1.139|||ANOVA|||||1.139|-.592|.53
82573772|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.8||||0.292|TWO_SIDED|95.0|0.6|11.9|||ANOVA|||Day 56||11.9|0.6|0.2920
82389368|NCT00746564|164490265|SUPERIORITY_OR_OTHER||Percentage of recordings|85.0|||||TWO_SIDED|95.0|78.3|91.7||||||"The positive predictive value (PPV) was calculated for each recording and for each subject during Hand to Hand and Hand to Shoulder Maneuvers as follows:~Amount of time (sec) R waves recorded on surface ECG were detected on in-clinic recording / Total amount of time (sec) R waves were recorded by device during in-clinic recording"||91.7|78.3|
82389369|NCT00746564|164490266|SUPERIORITY_OR_OTHER||percentage of interpretable recording|99.2|||||TWO_SIDED|95.0|98.5|100.0||||||"The proportion of recording time during which the device recording was interpretable was calculated for each weekly Patient Activator recording and for each subject as follows:~Duration (sec) of interpretable recording / Total duration of recording time (sec)"||100|98.5|
82389370|NCT00746564|164490267|SUPERIORITY_OR_OTHER||percentage of interpretable recording|92.3|||||TWO_SIDED|95.0|91.9|92.6||||||"The proportion of recording time during which the device recording was interpretable for each automatically triggered/symptom driven recording and for each subject was calculated as follows:~Duration of interpretable recording / Total duration of recording time"||92.6|91.9|
82389371|NCT00746564|164490268|SUPERIORITY_OR_OTHER||percentage of inappropriate recordings|86.2|||||TWO_SIDED|95.0|79.4|91.0||||||||91.0|79.4|
82525588|NCT01064297|164747827|SUPERIORITY_OR_OTHER||Wilson Score with Continuity Correction|2.8||||||95.0|1.6|4.9|||||The percentage of infants with MBDs was calculated as: the number of outcomes with MBDs divided by (the number of outcomes with MBDs + the number of live births without defects).|||4.9|1.6|
82525589|NCT01091948|164747831|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Regression, Cox|Intubations accomplished with another device due to difficulty with assigned device and those took \>180 s were considered as failed intubations.||||||0.19
82525590|NCT01091948|164747832|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.89||||0.58|TWO_SIDED|95.0|0.58|1.35|||ANCOVA||The mean intubation difficulty score was tested after logarithmic transformation, and then back transformed for the estimated treatment effect.|||1.35|0.58|0.58
82389372|NCT00746564|164490269|SUPERIORITY_OR_OTHER||percentage of inappropriate recordings|63.2|||||TWO_SIDED|95.0|48.1|76.2||||||||76.2|48.1|
82389373|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.9788||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Computer Usage||||0.9788
82525591|NCT01091948|164747833|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.15|TWO_SIDED|95.0|0.95|1.33|||Cochran-Mantel-Haenszel|||||1.33|0.95|0.15
82525592|NCT01091948|164747834|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.67||||0.57|TWO_SIDED|95.0|0.28|10.2|||Cochran-Mantel-Haenszel|||||10.2|0.28|0.57
82525593|NCT01091948|164747835|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01||||0.79|TWO_SIDED|95.0|0.93|1.09|||Cochran-Mantel-Haenszel|||||1.09|0.93|0.79
82389374|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.6571||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Reading||||0.6571
82389375|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.471||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Leisure Activities||||0.4710
82389376|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.736||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Social Activities||||0.7360
82443856|NCT02573246|164596211|SUPERIORITY||Mean Difference (Net)|-0.66|STANDARD_ERROR_OF_MEAN|0.45||0.15|TWO_SIDED|95.0|-1.59|0.27||a priory threshold for significance was .05|t-test, 2 sided|||we compared differences in acceptability between conditions using an independent samples t-test (acceptability was normally distributed)||0.27|-1.59|0.15
82525594|NCT01091948|164747836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.82|TWO_SIDED|95.0|0.45|2.76|||Regression, Logistic|proportional odds logistic regression model||||2.76|0.45|0.82
82525595|NCT00316173|164747874|SUPERIORITY_OR_OTHER||Percentage of participants with CR+PR|30.9||||||95.0|18.7|43.1||||||||43.1|18.7|
82525596|NCT03152084|164747882|OTHER|Within-group change|Least square mean|-5.21||||0.4462|TWO_SIDED|95.0|-19.542|9.12||Start of treatment vs baseline|Mixed Models Analysis|||||9.120|-19.542|0.4462
82525597|NCT03152084|164747883|OTHER|Within-group change|Least square mean|3.69||||0.7842|TWO_SIDED|95.0|-24.817|32.195||End of treatment vs baseline|Mixed Models Analysis|||||32.195|-24.817|0.7842
82573773|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.184|TWO_SIDED|95.0|0.1|1.4|||ANOVA|||Day 56||1.4|0.1|0.1840
82525598|NCT03152084|164747883|OTHER|Within-group change|Least square mean|-16.72||||0.0581|TWO_SIDED|95.0|-34.109|0.664||Follow-up vs End of treatment|Regression, Linear|||||0.664|-34.109|0.0581
82525599|NCT03152084|164747884|OTHER|Within-group change|Least square mean|344.85|||<|0.0001|TWO_SIDED|95.0|272.785|416.905||Start of treatment vs baseline|Mixed Models Analysis|||||416.905|272.785|<0.0001
82525600|NCT03152084|164747885|OTHER|Within-group change|Least square mean|311.3|||<|0.0001|TWO_SIDED|95.0|224.528|398.064||End of treatment vs baseline|Mixed Models Analysis|||||398.064|224.528|<0.0001
82525601|NCT03152084|164747886|OTHER|Within-group change|Least square mean|-203.07|||<|0.0001|TWO_SIDED|95.0|-235.983|-170.162||Follow-up vs end of treatment|Regression, Linear|||||-170.162|-235.983|<0.0001
82525602|NCT03152084|164747887|OTHER|Within-group change|Least square mean|-5.2658||||0.0047|TWO_SIDED|95.0|-8.5459|-1.9856||Start of treatment vs baseline|Mixed Models Analysis|||||-1.9856|-8.5459|0.0047
82573774|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7229|TWO_SIDED|95.0|0.4|9.2|||ANOVA|||Day 56||9.2|0.4|0.7229
82525603|NCT03152084|164747888|OTHER|Within-group change|Least square mean|-7.0987||||0.0003|TWO_SIDED|95.0|-10.0379|-4.1595||End of treatment vs baseline|Mixed Models Analysis|||||-4.1595|-10.0379|0.0003
82525604|NCT03152084|164747889|OTHER|Within-group change|Least square mean|0.7287||||0.5592|TWO_SIDED|95.0|-1.9894|3.4468||Follow-up vs end of treatment|Regression, Linear|||||3.4468|-1.9894|0.5592
82525605|NCT03152084|164747890|OTHER|Within-group change|Least square mean|0.0315||||0.9288|TWO_SIDED|95.0|-0.7274|0.7904||Start of treatment vs baseline|Mixed Models Analysis|||||0.7904|-0.7274|0.9288
82525606|NCT03152084|164747891|OTHER|Within-group change|Least square mean|-0.4318||||0.1659|TWO_SIDED|95.0|-1.0761|0.2125||End of treatment vs baseline|Mixed Models Analysis|||||0.2125|-1.0761|0.1659
82525607|NCT03152084|164747892|OTHER|Within-group change|Least square mean|0.4755||||0.019|TWO_SIDED|95.0|0.0963|0.8548||Follow-up vs end of treatment|Regression, Linear|||||0.8548|0.0963|0.0190
82525608|NCT03152084|164747893|OTHER|Within-group change|Least square mean|-0.6713||||0.0157|TWO_SIDED|95.0|-1.1914|-0.1511||Start of treatment vs baseline|Mixed Models Analysis|||||-0.1511|-1.1914|0.0157
82525609|NCT03152084|164747894|OTHER|Within-group change|Least square mean|-0.0324||||0.87|TWO_SIDED|95.0|-0.4631|0.3984||End of treatment vs baseline|Mixed Models Analysis|||||0.3984|-0.4631|0.8700
82525610|NCT03152084|164747895|OTHER|Within-group change|Least square mean|0.1718||||0.2446|TWO_SIDED|95.0|-0.1358|0.4795||Follow-up vs end of treatment|Regression, Linear|||||0.4795|-0.1358|0.2446
82525611|NCT03152084|164747896|OTHER|Within-group change|Least square mean|-2.1||||0.0023|TWO_SIDED|95.0|-3.299|-0.902||Start of treatment vs baseline|Mixed Models Analysis|||||-0.902|-3.299|0.0023
82525612|NCT03152084|164747896|OTHER|Within-group change|Least square mean|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.929|-1.256||End of treatment vs baseline|Mixed Models Analysis|||||-1.256|-1.929|<0.0001
82389377|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4999||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Driving||||0.4999
82389378|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1159||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Outdoor Activities||||0.1159
82389379|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4567||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Frequency of Outdoor Activities||||0.4567
82573775|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|6.6||||0.0052|TWO_SIDED|95.0|1.5|28.6|||ANOVA|||Day 56||28.6|1.5|0.0052
82573776|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9777|TWO_SIDED|95.0|0.2|3.0|||ANOVA|||Day 182||3.0|0.2|0.9777
82573777|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9812|TWO_SIDED|95.0|0.3|5.3|||ANOVA|||Day 182||5.3|0.3|0.9812
82573778|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9979|TWO_SIDED|95.0|0.3|4.5|||ANOVA|||Day 182||4.5|0.3|0.9979
82573779|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.588|TWO_SIDED|95.0|0.5|7.9|||ANOVA|||Day 182||7.9|0.5|0.5880
82573780|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7973|TWO_SIDED|95.0|0.4|7.0|||ANOVA|||Day 182||7.0|0.4|0.7973
82573781|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.8992|TWO_SIDED|95.0|0.4|6.0|||ANOVA|||Day 182||6.0|0.4|0.8992
82389380|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3439||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Time Spent to Take Care of Eyes||||0.3439
82573782|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.7||||0.2602|TWO_SIDED|95.0|0.7|10.4|||ANOVA|||Day 182||10.4|0.7|0.2602
82573783|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.9||||0.9991|TWO_SIDED|95.0|0.2|3.6|||ANOVA|||Day 182||3.6|0.2|0.9991
82573784|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9028|TWO_SIDED|95.0|0.4|6.2|||ANOVA|||Day 182||6.2|0.4|0.9028
82573785|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7761|TWO_SIDED|95.0|0.4|6.8|||ANOVA|||Day 182||6.8|0.4|0.7761
82573786|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.7833|TWO_SIDED|95.0|0.2|2.1|||ANOVA|||Day 365||2.1|0.2|0.7833
82573787|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9915|TWO_SIDED|95.0|0.2|2.9|||ANOVA|||Day 365||2.9|0.2|0.9915
82573788|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.9||||0.998|TWO_SIDED|95.0|0.3|3.0|||ANOVA|||Day 365||3.0|0.3|0.9980
82573789|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.909|TWO_SIDED|95.0|0.4|4.9|||ANOVA|||Day 365||4.9|0.4|0.9090
82426865|NCT04211363|164561964|SUPERIORITY||Hazard Ratio (HR)|3.867|||<|0.0001|TWO_SIDED|95.0|2.795|5.351|||Log Rank|Unstratified log-rank test|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization.|Time to PASI-50||5.351|2.795|<0.0001
82573790|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9651|TWO_SIDED|95.0|0.4|4.7|||ANOVA|||Day 365||4.7|0.4|0.9651
82573791|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9112|TWO_SIDED|95.0|0.4|4.7|||ANOVA|||Day 365||4.7|0.4|0.9112
82573792|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.4||||0.257|TWO_SIDED|95.0|0.7|7.8|||ANOVA|||Day 365||7.8|0.7|0.2570
82573793|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9999|TWO_SIDED|95.0|0.3|3.8|||ANOVA|||Day 365||3.8|0.3|0.9999
82573794|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.8||||0.6953|TWO_SIDED|95.0|0.5|6.2|||ANOVA|||Day 365||6.2|0.5|0.6953
82647781|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.045|TWO_SIDED|95.0|-0.32|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.00|-0.32|0.045
82573795|NCT03635086|164857946|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.7523|TWO_SIDED|95.0|0.5|5.4|||ANOVA|||Day 365||5.4|0.5|0.7523
82573796|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups|Geometric Mean Ratio Estimate|0.5||||0.5263|TWO_SIDED|95.0|0.1|1.7|||ANOVA|||Day 0||1.7|0.1|0.5263
82573797|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
82389381|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3331||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Bothered With Amount of Time Taking Care of Eyes||||0.3331
82389382|NCT03226769|164490273|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4774||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Bothered by Appearance||||0.4774
82640788|NCT03671746|164996285|SUPERIORITY||||||=|0.118|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.118
82647782|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED|95.0|-0.33|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.33|0.030
82389383|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.5457||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Red Eyes||||0.5457
82389384|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.9786||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Blurred Vision||||0.9786
82389385|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3894||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Dry Eyes||||0.3894
82389386|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.0591||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Itchy Eyes||||0.0591
82647783|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|0.02|0.34||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.34|0.02|0.027
82389387|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1818||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Burning Eyes||||0.1818
82525613|NCT03152084|164747896|OTHER|Within-group change|Least square mean|3.88||||0.0002|TWO_SIDED|95.0|2.215|5.553||Follow-up vs end of treatment|Regression, Linear|||||5.553|2.215|0.0002
82525614|NCT05559866|164747905|OTHER|Variance|Mean Difference (Final Values)|0.53|||<|0.01|TWO_SIDED|95.0|0.31|0.74|||t-test, 2 sided|||Scores from the proximal stomach, mid-stomach and distal stomach in the control and treatment groups were analyzed to determine if there was a significant difference between the mean difference in durability scores for the control and treatment groups.||.74|.31|<0.01
82389388|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.4284||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Gritty Eyes||||0.4284
82647784|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.04|TWO_SIDED|95.0|0.01|0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.32|0.01|0.040
82525615|NCT05559866|164747906|OTHER|Variance|Mean Difference (Final Values)|19.125|STANDARD_ERROR_OF_MEAN|0.0000013||1|TWO_SIDED|95.0|19.125|19.125|||ANCOVA|||||19.125|19.125|1.00
82525616|NCT05559866|164747907|OTHER|Variance||||||0.757||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.757
82389389|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1051||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Painful Eyes||||0.1051
82389390|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.7998||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Watery Eyes||||0.7998
82389391|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.1229||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Swollen Eyelids||||0.1229
82389392|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.3907||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Red Eyelids||||0.3907
82389393|NCT03226769|164490274|OTHER|The null hypothesis is that there is no difference between the two devices, TrueTear™ and Thermalon.||||||0.0336||||||Statistically significant (p \< 0.05) and trending significant (p \< 0.10) for within-group or between-group changes from baseline at Day 30. Between-group P-value was calculated using Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||Crusty Eyelids||||0.0336
82389394|NCT02396420|164490307|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389395|NCT02396420|164490308|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82525617|NCT05559866|164747908|OTHER|Variance||||||0.271||||||Alpha = 0.05|ANCOVA|1 degree of freedom||||||0.271
82525618|NCT05559866|164747909|OTHER|Variance||||||0.29||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.29
82525619|NCT05559866|164747910|OTHER|Variance||||||0.72||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.72
82389396|NCT02396420|164490309|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389397|NCT02396420|164490310|OTHER|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.||||||||||||||||Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|||
82389398|NCT02396420|164490311|OTHER|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.||||||||||||||||Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|Statistical analysis was not performed as this data was not available for any subjects in the analysis population.|||
82389399|NCT02396420|164490312|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389400|NCT02396420|164490313|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389401|NCT02396420|164490314|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389402|NCT02396420|164490315|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389403|NCT02396420|164490316|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389404|NCT02396420|164490317|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389405|NCT02396420|164490318|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389406|NCT02396420|164490319|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389407|NCT02396420|164490320|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82525620|NCT05559866|164747911|OTHER|Variance||||||0.41||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.41
82525621|NCT05559866|164747912|OTHER|Variance||||||0.53||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.53
82525622|NCT05559866|164747913|OTHER|Variance||||||0.91||||||alpha = 0.05|ANCOVA|1 degree of freedom||||||0.91
82525623|NCT05559866|164747914|OTHER|||||||0.307|||||||Chi-squared|Chi-Square: 1.043478||||||0.307
82525624|NCT05559866|164747915|OTHER|Association|||||||||||||||||Unable to perform Chi-Square test as data in both categorical sets was identical - there is no variation to test.|||
82525625|NCT00939731|164747942|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|92.61|||||TWO_SIDED|90.0|84.84|101.09||||||Natural log transformed AUClast of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||101.09|84.84|
82525626|NCT00939731|164747945|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|92.43|||||TWO_SIDED|90.0|84.86|100.68||||||Natural log transformed AUC (0-∞) of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||100.68|84.86|
82647785|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.64|-0.32||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.32|-0.64|<0.001
82389408|NCT02396420|164490321|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389409|NCT02396420|164490322|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389410|NCT02396420|164490323|OTHER||||||||||||||||||Statistical analysis was not performed as the sample size is insufficient to have confidence that the results would be meaningful for the overall target population.|||
82389411|NCT01273623|164490327|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82426159|NCT02493764|164561203|NON_INFERIORITY|Non-inferiority was declared when the upper bound of the 2-sided 95% confidence interval (CI) for the difference in mortality (IMI/REL minus PIP/TAZ) was \< 10 percentage points.|Adjusted difference in ACM|-5.3|||<|0.001|TWO_SIDED|95.0|-11.9|1.2|||t-test, 1 sided|A one-sided alpha level of 0.025 was used to declare significance.|Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||1.2|-11.9|<0.001
82426160|NCT02493764|164561204|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 2-sided 95% CI for the difference in FCR (IMI/REL minus PIP/TAZ) was \> 12.5 percentage points.|Adjusted difference in FCR|5.0|||<|0.001|TWO_SIDED|95.0|-3.2|13.2|||t-test, 1 sided|A one-sided alpha level of 0.025 was used to declare significance.|Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in FCR||13.2|-3.2|<0.001
82426161|NCT02493764|164561205|OTHER|Difference in % with AE vs PIP/TAZ|Difference in % with AE|-1.7|||||TWO_SIDED|95.0|-7.7|4.3||||||||4.3|-7.7|
82426162|NCT02493764|164561206|OTHER|Difference in % discontinuing vs PIP/TAZ|Difference in % discontinuing|-2.5|||||TWO_SIDED|95.0|-7.1|1.8||||||||1.8|-7.1|
82426163|NCT02493764|164561207|OTHER||Adjusted difference in ACM|-3.5|||||TWO_SIDED|95.0|-10.9|3.6|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||3.6|-10.9|
82426164|NCT02493764|164561208|NON_INFERIORITY|Non-inferiority was declared when the upper bound of the 2-sided 95% CI for the difference in mortality (IMI/REL minus PIP/TAZ) was ≥ 10 percentage points.|Adjusted difference in ACM|-4.6|||||TWO_SIDED|95.0|-11.0|1.7|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||1.7|-11.0|
82426165|NCT02493764|164561209|OTHER|Adjusted difference in ACM|Adjusted difference in ACM|-3.1|||||TWO_SIDED|95.0|-10.2|3.8|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in all-cause mortality||3.8|-10.2|
82426166|NCT02493764|164561210|OTHER|Difference in FCR|Adjusted difference in FCR|-1.7|||||TWO_SIDED|95.0|-11.3|7.8|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.8|-11.3|
82426167|NCT02493764|164561211|OTHER|Difference in FCR|Adjusted difference in FCR|-2.2|||||TWO_SIDED|95.0|-9.8|5.5|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||5.5|-9.8|
82426168|NCT02493764|164561212|OTHER|Difference in favorable clinical response|Adjusted difference in FCR|6.6|||||TWO_SIDED|95.0|-4.6|18.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||18.4|-4.6|
82426169|NCT02493764|164561213|OTHER|Difference in FCR|Adjusted difference in FCR|-0.4|||||TWO_SIDED|95.0|-8.1|7.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.4|-8.1|
82426170|NCT02493764|164561214|OTHER|Difference in FCR|Adjusted difference in FCR|-3.4|||||TWO_SIDED|95.0|-14.3|7.5|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.5|-14.3|
82426171|NCT02493764|164561215|OTHER|Difference in FCR|Adjusted difference in FCR|-3.7|||||TWO_SIDED|95.0|-13.6|6.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||6.4|-13.6|
82426172|NCT02493764|164561216|OTHER|Difference in FCR|Adjusted difference in FCR|3.5|||||TWO_SIDED|95.0|-4.6|11.6|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||11.6|-4.6|
82426173|NCT02493764|164561217|OTHER|Difference in FCR|Adjusted difference in FCR|0.5|||||TWO_SIDED|95.0|-6.3|7.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||7.4|-6.3|
82426174|NCT02493764|164561218|OTHER|Difference in FCR|Adjusted difference in FCR|3.4|||||TWO_SIDED|95.0|-7.1|14.2|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||14.2|-7.1|
82426175|NCT02493764|164561219|OTHER|Difference in FCR|Adjusted difference in FCR|4.4|||||TWO_SIDED|95.0|-3.1|12.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||12.0|-3.1|
82426176|NCT02493764|164561220|OTHER|Difference in FCR|Adjusted difference in FCR|1.1|||||TWO_SIDED|95.0|-7.2|9.4|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable clinical response||9.4|-7.2|
82426177|NCT02493764|164561221|OTHER|Difference in FMR|Adjusted difference in FMR|9.7|||||TWO_SIDED|95.0|1.6|17.9|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||17.9|1.6|
82426178|NCT02493764|164561222|OTHER|Difference in FMR|Adjusted difference in FMR|6.2|||||TWO_SIDED|95.0|-2.7|15.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||15.0|-2.7|
82426179|NCT02493764|164561223|OTHER|Difference in FMR|Adjusted difference in FMR|2.5|||||TWO_SIDED|95.0|-5.5|11.0|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||11.0|-5.5|
82389412|NCT00519428|164490343|SUPERIORITY|Hypothesis: Dual Treatment (escitalopram + bupropion) will result in greater improvement over 12 weeks than either monotherapy (i.e., two analyses: 1) dual treatment will outperform escitalopram monotherapy; 2) dual treatment will outperform bupropion monotherapy).|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|4.0||0.05|TWO_SIDED|||||"Each individual test will require the calculated p to be \< .0916 to declare that comparison to be significant. Since the hypothesis requires both comparisons to be significant, this produces an over-all alpha of .05."|Cochran-Mantel-Haenszel|||Hypothesis: Dual Treatment (escitalopram + bupropion) will result in greater improvement over 12 weeks than either monotherapy (i.e., two analyses: 1) dual treatment will outperform escitalopram monotherapy; 2) dual treatment will outperform bupropion monotherapy). Therefore each analysis will be done twice and it will be required that both analyses be significant to declare the over-all study significant.||||.05
82389413|NCT00519428|164490345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|8.0||0.0916|TWO_SIDED|95.0||||escitalopram + bupropion vs. escitalopram: F(1,159) = 1.93, ns escitalopram + bupropion vs. bupropion: F (1,157) = 1.99, ns|ANCOVA|adjusting for baseline score and country||To test the hypothesis that escitalopram + bupropion would have superior efficacy relative to each monotherapy, the group receiving both medications was separately compared to each monotherapy group, covarying for baseline score and country||||.0916
82389414|NCT03395184|164490352|OTHER||Percentage risk difference|14.3||||0.0119|TWO_SIDED|90.0|4.0|24.5|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum (min) risk weight method (Mehrotra-Railkar 2000)|||24.5|4.0|0.0119
82389415|NCT03395184|164490352|OTHER||Percentage risk difference|21.4||||0.0012|TWO_SIDED|90.0|10.0|32.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||32.9|10.0|0.0012
82389416|NCT03395184|164490366|OTHER||Percentage risk difference|13.3||||0.039|TWO_SIDED|90.0|1.0|25.7|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||25.7|1.0|0.0390
82389417|NCT03395184|164490366|OTHER||Percentage risk difference|29.7||||0.0001|TWO_SIDED|90.0|17.2|42.2|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||42.2|17.2|0.0001
82389418|NCT03395184|164490367|OTHER||LS mean difference|-3.0||||0.0007|TWO_SIDED|90.0|-4.55|-1.48|||ANCOVA|The ANCOVA model included treatment and baseline disease activity/extent as factors, and baseline SES-CD score as a covariate.||||-1.48|-4.55|0.0007
82389419|NCT03395184|164490367|OTHER||LS mean difference|-4.9|||<|0.0001|TWO_SIDED|90.0|-6.62|-3.26|||ANCOVA|The ANCOVA model included treatment and baseline disease activity/extent as factors, and baseline SES-CD score as a covariate.||||-3.26|-6.62|<.0001
82389420|NCT03395184|164490368|OTHER||Percentage risk difference|13.9||||0.0279|TWO_SIDED|90.0|2.1|25.6|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using using minimum risk weight method (Mehrotra-Railkar, 2000).|||25.6|2.1|0.0279
82389421|NCT03395184|164490368|OTHER||Percentage risk difference|31.5|||<|0.0001|TWO_SIDED|90.0|19.1|43.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||43.9|19.1|<.0001
82389422|NCT03395184|164490369|OTHER||Percentage risk difference|2.5||||0.2922|TWO_SIDED|90.0|-4.3|9.3|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||9.3|-4.3|0.2922
82389423|NCT03395184|164490369|OTHER||Percentage risk difference|7.4||||0.0449|TWO_SIDED|90.0|-0.4|15.2|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||15.2|-0.4|0.0449
82389424|NCT03395184|164490370|OTHER||Percentage risk difference|5.8||||0.0998|TWO_SIDED|90.0|-1.6|13.3|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||13.3|-1.6|0.0998
82573798|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
82389425|NCT03395184|164490370|OTHER||Percentage risk difference|11.8||||0.0111|TWO_SIDED|90.0|2.8|20.9|||Min risk weight method(Mehrotra-Railkar)||90% CI was calculated using minimum risk weight method (Mehrotra-Railkar, 2000).|||20.9|2.8|0.0111
82389426|NCT01817582|164490373|OTHER||Least square (LS) mean difference|0.3||||0.6199|TWO_SIDED|95.0|-0.7|1.3||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||1.3|-0.7|0.6199
82389427|NCT01817582|164490373|OTHER||LS mean difference|0.1||||0.807|TWO_SIDED|95.0|-0.9|1.2||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||1.2|-0.9|0.8070
82389428|NCT01817582|164490373|OTHER||LS mean difference|-0.1||||0.8068|TWO_SIDED|95.0|-1.1|0.9||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||0.9|-1.1|0.8068
82389429|NCT01817582|164490374|OTHER||LS mean difference|-4.4||||0.2296|TWO_SIDED|95.0|-11.6|2.8||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||2.8|-11.6|0.2296
82389430|NCT01817582|164490374|OTHER||LS mean difference|-4.9||||0.189|TWO_SIDED|95.0|-12.3|2.5||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||2.5|-12.3|0.1890
82389431|NCT01817582|164490374|OTHER||LS mean difference|-0.5||||0.8836|TWO_SIDED|95.0|-7.7|6.7||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM method.||6.7|-7.7|0.8836
82389432|NCT03053063|164490392|SUPERIORITY||Percentage Difference|1.9||||0.5572|TWO_SIDED|95.0|-4.4|8.2||Difference between SEL 18 mg vs Placebo, 95% confidence interval (CI) and p-value were obtained by stratified Mantel-Haenszel method adjusting for baseline (BL) diabetes mellitus status and BL Enhanced Liver Fibrosis (ELF) score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||8.2|-4.4|0.5572
82389433|NCT03053063|164490392|SUPERIORITY||Percentage Difference|0.3||||0.9272|TWO_SIDED|95.0|-6.0|6.5||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||6.5|-6.0|0.9272
82389434|NCT03053063|164490395|SUPERIORITY||Percentage Difference|3.8||||0.285|TWO_SIDED|95.0|-3.1|10.6||Difference between SEL 18 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||10.6|-3.1|0.2850
82389435|NCT03053063|164490395|SUPERIORITY||Percentage Difference|1.5||||0.6731|TWO_SIDED|95.0|-5.3|8.2||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||8.2|-5.3|0.6731
82389436|NCT03053063|164490397|SUPERIORITY||Percentage Difference|-1.7||||0.365|TWO_SIDED|95.0|-5.5|2.0||Difference between SEL 18 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||2.0|-5.5|0.3650
82525627|NCT00939731|164747946|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|98.91|||||TWO_SIDED|90.0|90.18|108.48||||||Natural log transformed Cmax of PF-02341066 was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CI for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||108.48|90.18|
82389437|NCT03053063|164490397|SUPERIORITY||Percentage Difference|-0.4||||0.8557|TWO_SIDED|95.0|-4.3|3.6||Difference between SEL 6 mg vs Placebo, 95% CI and p-value were obtained by stratified Mantel-Haenszel method adjusting for BL diabetes mellitus status and BL ELF score (\<11.27 vs ≥11.27).|Mantel Haenszel|||||3.6|-4.3|0.8557
82525628|NCT00755222|164747981|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
82525629|NCT00755222|164747982|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||ANOVA|||||||0.046
82525630|NCT00755222|164747983|SUPERIORITY_OR_OTHER|||||||0.164|||||||ANOVA|||||||0.164
82525631|NCT00755222|164747984|SUPERIORITY_OR_OTHER|||||||0.442|||||||ANOVA|||||||0.442
82525632|NCT00755222|164747985|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA|||||||0.095
82525633|NCT02243202|164747986|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.8|||Mixed Model for Repeated Measures|||||-1.8|-5.3|<0.001
82525634|NCT02243202|164747986|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.142|TWO_SIDED|95.0|-3.1|0.4|||Mixed Model for Repeated Measures|||||0.4|-3.1|0.142
82525635|NCT02243202|164747986|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-8.6|-5.2|||Mixed Model for Repeated Measures|||||-5.2|-8.6|<0.001
82525636|NCT02243202|164747987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.15||||0.002|TWO_SIDED|95.0|1.7|10.14|||Generalized linear Mixed Model|||||10.14|1.70|0.002
82525637|NCT02243202|164747987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.825|TWO_SIDED|95.0|0.41|3.06|||Generalized linear Mixed Model|||||3.06|0.41|0.825
82525638|NCT02243202|164747987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.2|||<|0.001|TWO_SIDED|95.0|4.15|25.05|||Generalized linear Mixed Model|||||25.05|4.15|<0.001
82389438|NCT04223635|164490399|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Interval (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|92.6|||||TWO_SIDED|90.0|54.38|157.69|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||157.69|54.38|
82389439|NCT04223635|164490401|OTHER|Least squares means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric Least Square Mean|147.17|||||TWO_SIDED|90.0|95.39|227.07|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||227.07|95.39|
82426180|NCT02493764|164561224|OTHER|Difference in FMR|Adjusted difference in FMR|4.7|||||TWO_SIDED|95.0|-4.0|14.1|||||Adjusted difference and 95% CI are based on the Miettinen \& Nurminen method.|Adjusted difference in favorable microbiological response||14.1|-4.0|
82525639|NCT02243202|164747988|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.8||0.456|TWO_SIDED|95.0|-2.1|4.8|||Mixed Model for Repeated Measures|||||4.8|-2.1|0.456
82525640|NCT02243202|164747988|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.8||0.827|TWO_SIDED|95.0|-3.9|3.1|||Mixed Model for Repeated Measures|||||3.1|-3.9|0.827
82525641|NCT02243202|164747988|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.7||0.015|TWO_SIDED|95.0|-7.7|-0.8|||Mixed Model for Repeated Measures|||||-0.8|-7.7|0.015
82525642|NCT02243202|164747989|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.7|||Mixed Model for Repeated Measures|||||-1.7|-5.3|<0.001
82525643|NCT02243202|164747989|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.153|TWO_SIDED|95.0|-3.1|0.5|||Mixed Model for Repeated Measures|||||0.5|-3.1|0.153
82525644|NCT02243202|164747989|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-8.5|-4.9|||Mixed Model for Repeated Measures|||||-4.9|-8.5|<0.001
82525645|NCT04382924|164747993|SUPERIORITY||Odds Ratio, log|0.0001|||<|0.025|TWO_SIDED||||||Chi-squared|||||||<0.025
82525646|NCT02173054|164748013|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to compare number of participants who had erythema among 3 groups.|Kruskal-Wallis|||||||0.001
82525647|NCT02173054|164748013|SUPERIORITY_OR_OTHER|||||||0.016||||||This statistical analysis was used to compare number of participants who had dryness among 3 groups|Kruskal-Wallis|||||||0.016
82525648|NCT02173054|164748013|SUPERIORITY_OR_OTHER|||||||0.025||||||This statistical analysis was used to compare number of participants who had scaling among 3 groups.|Kruskal-Wallis|||||||0.025
82525649|NCT02173054|164748013|SUPERIORITY_OR_OTHER|||||||0.571||||||This statistical analysis was used to compare number of participants who had stinging among 3 groups.|Kruskal-Wallis|||||||0.571
82525650|NCT02173054|164748013|SUPERIORITY_OR_OTHER|||||||0.449||||||This statistical analysis was used to compare number of participants who had pruritus among 3 groups.|Kruskal-Wallis|||||||0.449
82525651|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.059||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week|wilcoxan signed ranks test|||||||0.059
82525652|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.697||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week|wilcoxan signed ranks test|||||||0.697
82389440|NCT04223635|164490402|OTHER|Least squares means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric Least Square Mean|142.87|||||TWO_SIDED|90.0|91.21|223.79|||||For the comparison, moderate HI represents the numerator and normal HF represents the denominator.|||223.79|91.21|
82525653|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.028||||||This statistical analysis was used to evaluate the change in total lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.028
82525654|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.001
82573799|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
82573800|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|2.0||||0.55|TWO_SIDED|95.0|0.6|7.0|||ANOVA|||Day 0||7.0|0.6|0.5500
82647786|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.74|-0.42||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.42|-0.74|<0.001
82573801|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|2.0||||0.5263|TWO_SIDED|95.0|0.6|6.7|||ANOVA|||Day 0||6.7|0.6|0.5263
82426181|NCT01561976|164561225|OTHER||Ratio|108.94||||0.1413|TWO_SIDED|95.0|101.01|117.5|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||117.50|101.01|0.1413
82525655|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.755||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.755
82525656|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.003||||||This statistical analysis was used to evaluate the change in inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.003
82525657|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.205||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.205
82573802|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.5263|TWO_SIDED|95.0|0.6|6.7|||ANOVA|||Day 0||6.7|0.6|0.5263
82573803|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
82389441|NCT00356135|164490426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.91|||<|0.0001||95.0|-19.1|-8.73|||ANOVA|Treatment and study sites are fixed effects and MPA right before the randomization treatment period is a covariate in the model.|Mean Difference is for Prasugrel 10/10 mg arm minus Clopidogrel 75/75 mg arm.|||-8.73|-19.10|<0.0001
82389442|NCT00356135|164490426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.98|||<|0.0001||95.0|-19.26|-8.71|||ANCOVA|||||-8.71|-19.26|<0.0001
82389443|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.4||||0.4055|TWO_SIDED|95.0|-8.22|3.35||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.35|-8.22|0.4055
82443857|NCT02573246|164596212|SUPERIORITY||Mean Difference (Net)|0.295|STANDARD_ERROR_OF_MEAN|0.304||0.551|TWO_SIDED|95.0|-0.322|0.912||a priori threshold was set to 0.05|ANOVA|||We compared differences between conditions in the perceived feasibility of the procedures. Feasibility average was normally distributed and therefore a general linear model, univariate was employed to test between condition effects.||0.912|-0.322|0.551
82443858|NCT02573246|164596212|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.281||0.995|TWO_SIDED|95.0|-0.567|0.571|||ANOVA|||||.571|-.567|.995
82443859|NCT02573246|164596212|SUPERIORITY||Mean Difference (Net)|-0.09957|STANDARD_ERROR_OF_MEAN|0.371||0.791|TWO_SIDED|95.0|-0.8672|0.6681||A priori threshold for statistical significance was set to 0.05|t-test, 2 sided|df = 23||We examined differences in feasibility between the active and sham condition in the sub-study where fMRI targeting was utilized. Average feasibility was normally distributed and therefore an independent samples t-test was used to test this outcome.||0.6681|-0.8672|0.791
82443860|NCT02573246|164596213|SUPERIORITY||Mean Difference (Net)|6.04|STANDARD_ERROR_OF_MEAN|8.048||0.61|TWO_SIDED|95.0|-9.522964|21.60462||A priori threshold was set to 0.05|Mixed Models Analysis|||To test the long-term effects of the intervention, a MMANOVA model was conducted examining between-condition differences at the 1-week and 1-month follow-up in the OQ-45. Baseline was co-varied.||21.604620|-9.522964|0.61
82443861|NCT02573246|164596213|SUPERIORITY||Mean Difference (Net)|-0.906|STANDARD_ERROR_OF_MEAN|7.37||0.9|TWO_SIDED|95.0|-15.83|14.02||a priori threshold was set to .05|Mixed Models Analysis|||||14.02|-15.83|.90
82525658|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.576||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.576
82525659|NCT02173054|164748014|SUPERIORITY_OR_OTHER|||||||0.16||||||This statistical analysis was used to evaluate the change in non inflammatory lesion counts at baseline and 8th week.|wilcoxan signed ranks test|||||||0.160
82647787|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.094|TWO_SIDED|95.0|-0.3|0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.02|-0.30|0.094
82389444|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-29.3|-17.51||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-17.51|-29.30|<0.0001
82389445|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.2||||0.068|TWO_SIDED|95.0|-8.82|0.32||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||0.32|-8.82|0.0680
82443862|NCT02573246|164596213|SUPERIORITY||Mean Difference (Net)|10.46|STANDARD_ERROR_OF_MEAN|7.93||0.2|TWO_SIDED|95.0|-5.971581|26.892619||threshold was set to 0.05 a priori|Mixed Models Analysis||HLM models used a compound symmetry covariance structure.|||26.892619|-5.971581|.20
82443863|NCT02573246|164596214|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.258||0.034|TWO_SIDED|95.0|-1.062356|-0.043203||A priori threshold was set to .05 for significance.|Mixed Models Analysis|Subjective Units of Distress (SUDS) right before the intervention were co-varied as baseline.|Results reported are for active left vs. sham comparison.|Hypothesized that active neurostimulation would lead to lower daily distress than sham stimulation. We used a hierarchical linear model (HLM) for this analysis with an identity covariance structure (random intercept and random slope).||-0.043203|-1.062356|.034
82443864|NCT02573246|164596214|SUPERIORITY||Mean Difference (Net)|0.631|STANDARD_ERROR_OF_MEAN|0.404||0.133|TWO_SIDED|95.0|-0.208|1.47||A priori set threshold was .05|Mixed Models Analysis|||Hypothesized that active neurostimulation will lead to less daily distress than sham neurostimulation during the ambulatory data collection. An HLM analysis was conducted using an unstructured covariance structure and reported distress right before the intervention as baseline.||1.47|-.208|.133
82443865|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-1.300772|STANDARD_ERROR_OF_MEAN|2.670936||0.629061|TWO_SIDED|95.0|-6.708548|4.107||A priori threshold was set to .05|Mixed Models Analysis|Intake values for the dependent measures were covaried. The time by condition interaction term was included.||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to less functional impairment than sham neurostimulation.||4.107|-6.708548|0.629061
82443866|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-0.977394|STANDARD_ERROR_OF_MEAN|2.605189||0.71|TWO_SIDED|95.0|-6.255223|4.300434|||Mixed Models Analysis|||We expected lower functional impairment in the active right versus the sham condition.||4.300434|-6.255223|0.71
82525660|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.078||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel group|Paired t-test|||||||0.078
82525661|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.167||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel with placebo moisturizer group|Paired t-test|||||||0.167
82443867|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-3.292137|STANDARD_ERROR_OF_MEAN|3.314194||0.331|TWO_SIDED|95.0|-10.157811|3.573537||A priori set threshold was .05|Mixed Models Analysis|Baseline WSAS was covaried|The analysis compared sham versus active stimulation.|Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology in the substudy also. We expected active neurostimulation to lead to less impairment than sham neurostimulation.||3.573537|-10.157811|0.331
82647788|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.4|-0.08||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.08|-0.40|0.003
82389446|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-29.0|||<|0.0001|TWO_SIDED|95.0|-33.2|-23.94||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|Comparison of MPA to 20 uM ADP at 24 hours||-23.94|-33.20|<0.0001
82389447|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.96|-9.65||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-9.65|-19.96|<0.0001
82389448|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.87|-9.32||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-9.32|-19.87|<0.0001
82389449|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.3|-9.22||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-9.22|-20.30|<0.0001
82389450|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.59|-9.22||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-9.22|-20.59|<0.0001
82389451|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4||||0.5501|TWO_SIDED|95.0|-5.85|3.14||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.14|-5.85|0.5501
82389452|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-17.0|||<|0.0001|TWO_SIDED|95.0|-21.55|-12.37||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-12.37|-21.55|<0.0001
82389453|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.1||||0.0752|TWO_SIDED|95.0|-8.58|0.42||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||0.42|-8.58|0.0752
82389454|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.0|||<|0.0001|TWO_SIDED|95.0|-24.81|-15.64||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-15.64|-24.81|<0.0001
82647789|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.23||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.23|-0.57|<0.001
82389455|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|||<|0.0001|TWO_SIDED|95.0|-17.21|-7.5||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.50|-17.21|<0.0001
82525662|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.134||||||This statistical analysis was used to evaluate the change in skin sebum content at baseline and 8th week of the Adapalene gel with Eucerin group|Paired t-test|||||||0.134
82389456|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.79|-5.79||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-5.79|-15.79|<0.0001
82389457|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-17.41|-7.72||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.72|-17.41|<0.0001
82389458|NCT00356135|164490427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|||<|0.0001|TWO_SIDED|95.0|-16.8|-6.82||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.82|-16.80|<0.0001
82389459|NCT00356135|164490428|SUPERIORITY_OR_OTHER|||||||0.1824|||||||t-test, 2 sided|||The mean of MPA 20 uM ADP at the end of Clopidogrel open label of patients on chronic clopidogrel at the time of qualifying events was compared to the mean MPA of patients not using clopidogrel at this time.||||0.1824
82389460|NCT00356135|164490428|SUPERIORITY_OR_OTHER|||||||0.1101|||||||F-test|||The variance of MPA 20 uM ADP at the end of Clopidogrel open label of patients on chronic clopidogrel at the time of qualifying events was compared to the variance of MPA for patients not using clopidogrel at this time.||||0.1101
82389461|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.1||||0.3466|TWO_SIDED|95.0|-9.5|3.37||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||3.37|-9.50|0.3466
82389462|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-27.0|||<|0.0001|TWO_SIDED|95.0|-33.4|-20.33||P-value for 2 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-20.33|-33.40|<0.0001
82389463|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.3||||0.0127|TWO_SIDED|95.0|-13.04|-1.6||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-1.60|-13.04|0.0127
82389464|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-34.0|||<|0.0001|TWO_SIDED|95.0|-39.99|-28.42||P-value for 24 Hour (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-28.42|-39.99|<0.0001
82525663|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.978||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel group|Paired t-test|||||||0.978
82389465|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-18.0|||<|0.0001|TWO_SIDED|95.0|-25.58|-11.09||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-11.09|-25.58|<0.0001
82389466|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.0|||<|0.0001|TWO_SIDED|95.0|-27.09|-12.26||P-value for 1 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-12.26|-27.09|<0.0001
82525664|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.273||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel with placebo moisturizer group|Paired t-test|||||||0.273
82525665|NCT02173054|164748015|SUPERIORITY_OR_OTHER|||||||0.735||||||This statistical analysis was used to evaluate the change in skin hydration at baseline and 8th week of the Adapalene gel with Eucerin group.|Paired t-test|||||||0.735
82525666|NCT02173054|164748016|SUPERIORITY_OR_OTHER|||||||0.0002||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel group.|Paired t-test|||||||0.0002
82573804|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.5|||ANOVA|||Day 0||3.5|0.3|1.0000
82389467|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-28.42|-14.77||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-14.77|-28.42|<0.0001
82389468|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-23.0|||<|0.0001|TWO_SIDED|95.0|-29.61|-15.63||P-value for 2 Week (20 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-15.63|-29.61|<0.0001
82389469|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.6||||0.4954|TWO_SIDED|95.0|-3.11|6.38||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||6.38|-3.11|0.4954
82426182|NCT01561976|164561225|OTHER||Ratio|107.24||||0.1413|TWO_SIDED|95.0|99.37|115.73|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||115.73|99.37|0.1413
82426183|NCT01561976|164561226|OTHER||Ratio|116.5||||0.0171|TWO_SIDED|95.0|106.91|126.95|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||126.95|106.91|0.0171
82525667|NCT02173054|164748016|SUPERIORITY_OR_OTHER|||||||0.007||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel with placebo moisturizer group.|Paired t-test|||||||0.007
82525668|NCT02173054|164748016|SUPERIORITY_OR_OTHER|||||||0.123||||||This statistical analysis was used to evaluate the change in TEWL at baseline and 8th week of the Adapalene gel with Eucerin group.|Paired t-test|||||||0.123
82525669|NCT02173054|164748017|SUPERIORITY_OR_OTHER|||||||0.005||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.005
82573805|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.3|3.4|||ANOVA|||Day 0||3.4|0.3|1.0000
82389470|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.92|-6.24||P-value for 2 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.24|-15.92|<0.0001
82389471|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.3||||0.1971|TWO_SIDED|95.0|-8.31|1.74||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||1.74|-8.31|0.1971
82389472|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.0|||<|0.0001|TWO_SIDED|95.0|-20.98|-10.75||P-value for 24 Hour (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-10.75|-20.98|<0.0001
82389473|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-18.81|-7.32||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-7.32|-18.81|<0.0001
82389474|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0||||0.0001|TWO_SIDED|95.0|-17.91|-6.09||P-value for 1 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-6.09|-17.91|0.0001
82389475|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.0|||<|0.0001|TWO_SIDED|95.0|-15.64|-6.32||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 10/10 mg minus Clopidogrel 75/75 mg.|||-6.32|-15.64|<0.0001
82389476|NCT00356135|164490429|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.67|-5.09||P-value for 2 Week (5 uM ADP). Mixed model with actual value at each timepoint as dependent variable, baseline value as covariate, treatment, catagorical timepoint, and time by treatment interaction as fixed effects, and subject as random effect.|Repeated Measures Analysis||Least Squares Mean Difference = Prasugrel 60/10 mg minus Clopidogrel 75/75 mg.|||-5.09|-14.67|<0.0001
82389477|NCT00356135|164490430|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0005
82525670|NCT02173054|164748017|SUPERIORITY_OR_OTHER|||||||0.606||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.606
82389478|NCT00356135|164490430|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||<0.0001
82389479|NCT00356135|164490430|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0150
82389480|NCT00356135|164490430|SUPERIORITY_OR_OTHER|||||||0.0152||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0152
82389481|NCT00356135|164490430|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||P-value for MPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0153
82573806|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.7708|TWO_SIDED|95.0|0.1|2.4|||ANOVA|||Day 28||2.4|0.1|0.7708
82389482|NCT00356135|164490430|SUPERIORITY_OR_OTHER|||||||0.0018||95.0||||P-value for RPA (20 uM ADP) at 1 week.|Pearson Correlation Coefficient|||||||0.0018
82389483|NCT05270395|164490444|SUPERIORITY||Odds Ratio (OR)|8.02||||0.02|TWO_SIDED|95.0|1.38|46.69|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||46.69|1.38|0.02
82389484|NCT05270395|164490445|SUPERIORITY||Odds Ratio (OR)|1.35||||0.63|TWO_SIDED|95.0|0.4|4.56|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||4.56|0.40|0.63
82389485|NCT05270395|164490446|SUPERIORITY||Odds Ratio (OR)|0.29||||0.13|TWO_SIDED|95.0|0.06|1.46|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||1.46|0.06|0.13
82525671|NCT02173054|164748017|SUPERIORITY_OR_OTHER|||||||0.001||||||This statistical analysis was used to evaluate the change in ASI score at baseline and 8th week.|wilcoxan signed ranks test|||||||0.001
82525672|NCT01114204|164748018|NON_INFERIORITY|The 95% confidence interval (CI) was calculated using the large sample assumption. The pre-defined non-inferiority margin for testing the difference between treatment groups was -15%.|Treatment Difference|2.58||||0.2833|TWO_SIDED|95.0|-3.89|9.06|||Cochran-Mantel-Haenszel|The p-value is the result of the Cochran-Mantel-Haenszel test, adjusted for Baseline hemoglobin level and underlying condition.|The treatment difference (ferumoxytol - iron sucrose) was expressed as a percentage.|"Participants who achieved a ≥2.0 g/dL increase in hemoglobin from Baseline up to Week 5 were analyzed. Statistical comparison was performed for data up to Week 5 only.~Baseline was defined as the Day 1 value (prior to injection of study drug). The screening or most recent value prior to Day 1 was used for any participant with missing Day 1 information."||9.06|-3.89|0.2833
82389486|NCT05270395|164490447|SUPERIORITY||Odds Ratio (OR)|0.54||||0.4|TWO_SIDED|95.0|0.13|2.24|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||2.24|0.13|0.40
82525673|NCT00991341|164748027|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.44|TWO_SIDED|95.0|-0.6|0.26|||ANCOVA|The treatment groups were compared with respect to the change in MODS, adjusting for baseline MODS.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline MODS, the difference in the means was -0.17, positive values are in favor of longer storage duration.|||0.26|-0.60|0.44
82525674|NCT00991341|164748028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.5|TWO_SIDED|95.0|0.48|1.43|||Regression, Cox|The treatment groups were compared with respect to all-cause mortality, adjusting for baseline MODS.|The longer storage duration arm is the reference category.|||1.43|0.48|0.50
82525675|NCT00991341|164748029|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2|TWO_SIDED|95.0|-0.82|0.17|||ANCOVA|The treatment groups were compared with respect to 28-day change in MODS, adjusting for baseline MODS.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline MODS, the difference in the means was -0.32; positive values are in favor of longer storage duration.|||0.17|-0.82|0.20
82525676|NCT00991341|164748030|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.018||||0.5|TWO_SIDED|95.0|-0.033|0.069|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.069|-0.033|0.50
82525677|NCT00991341|164748031|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.027||||0.4|TWO_SIDED|95.0|-0.09|0.035|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.035|-0.090|0.40
82525678|NCT00991341|164748032|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.018||||0.41|TWO_SIDED|95.0|-0.059|0.023|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.023|-0.059|0.41
82525679|NCT00991341|164748033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.75|TWO_SIDED|95.0|-0.62|0.37|||Kruskal-Wallis|||||0.37|-0.62|0.75
82573807|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.2||||0.9966|TWO_SIDED|95.0|0.3|5.4|||ANOVA|||Day 28||5.4|0.3|0.9966
82389487|NCT05270395|164490448|SUPERIORITY||Odds Ratio (OR)|2.22||||0.29|TWO_SIDED|95.0|0.51|9.62|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||9.62|0.51|0.29
82389488|NCT05270395|164490449|SUPERIORITY||Odds Ratio (OR)|3.55||||0.07|TWO_SIDED|95.0|0.88|14.32|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||14.32|0.88|0.07
82525680|NCT00991341|164748034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.62|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|The treatment arms were compared with respect to the change in creatinine, adjusting for the baseline creatinine value.|The longer storage red blood cell units arm is the reference category. After adjusting for baseline creatinine, the difference in the means was -0.02, positive values are in favor of longer storage duration.|||0.05|-0.08|0.62
82573808|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.9503|TWO_SIDED|95.0|0.2|3.0|||ANOVA|||Day 28||3.0|0.2|0.9503
82573809|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.7||||0.9791|TWO_SIDED|95.0|0.2|3.2|||ANOVA|||Day 28||3.2|0.2|0.9791
82573810|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.2||||0.5739|TWO_SIDED|95.0|0.5|9.8|||ANOVA|||Day 28||9.8|0.5|0.5739
82647790|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.68|-0.35||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.35|-0.68|<0.001
82647791|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.35|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.35|0.032
82573811|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9918|TWO_SIDED|95.0|0.3|5.4|||ANOVA|||Day 28||5.4|0.3|0.9918
82573812|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.4||||0.9748|TWO_SIDED|95.0|0.3|5.9|||ANOVA|||Day 28||5.9|0.3|0.9748
82573813|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.827|TWO_SIDED|95.0|0.1|2.6|||ANOVA|||Day 28||2.6|0.1|0.8270
82573814|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.893|TWO_SIDED|95.0|0.1|2.8|||ANOVA|||Day 28||2.8|0.1|0.8930
82389489|NCT05270395|164490450|SUPERIORITY||Odds Ratio (OR)|3.93||||0.09|TWO_SIDED|95.0|0.82|18.89|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||18.89|0.82|0.09
82389490|NCT05270395|164490451|SUPERIORITY||Odds Ratio (OR)|1.73||||0.42|TWO_SIDED|95.0|0.46|6.43|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||6.43|0.46|0.42
82389491|NCT05270395|164490452|SUPERIORITY||Odds Ratio (OR)|2.86||||0.08|TWO_SIDED|95.0|0.87|9.42|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||9.42|0.87|0.08
82389492|NCT05270395|164490453|SUPERIORITY||Odds Ratio (OR)|8.29||||0.004|TWO_SIDED|95.0|1.99|34.49|||Regression, Logistic|||We conducted logistic regression to predict knowledge of palliative care (as measured by ten items in the Health Information National Trends Survey Palliative Care Knowledge and Perceptions Questionnaire) in the mPal intervention arm and in the standard of care arm at 1-month post-intervention, adjusting for baseline value of each item, age, and sex.||34.49|1.99|0.004
82389493|NCT05129293|164490456|SUPERIORITY|||||||0.229|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.229
82389494|NCT05129293|164490457|SUPERIORITY|||||||0.04|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.040
82389495|NCT05129293|164490458|SUPERIORITY|||||||0.266|||||||ANCOVA|Adjusted for disease duration, SymptoMScreen depression and anxiety scores, and Test of Everyday Cognition baseline performance||||||0.266
82389496|NCT00784550|164490494|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82389497|NCT00784550|164490495|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82389498|NCT00784550|164490496|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
82389499|NCT00784550|164490497|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82389500|NCT00784550|164490498|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82389501|NCT00784550|164490499|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Mastery domain|ANCOVA|||||||0.069
82389502|NCT00784550|164490499|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||Fatigue domain|ANCOVA|||||||0.470
82389503|NCT00784550|164490499|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||Emotional function domain|ANCOVA|||||||0.394
82389504|NCT00784550|164490499|SUPERIORITY_OR_OTHER|||||||0.879||95.0|||||ANCOVA|Dyspnea domain||||||0.879
82389505|NCT00860249|164490500|SUPERIORITY_OR_OTHER||||||<|0.017||95.0||||We used the Bonferroni calculation to adjust for the planned multiple comparisons among the three groups.|Chi-squared|||Please note that no analyses were performed as the trial was stopped due to low enrollment.||||<0.017
82389506|NCT00860249|164490501|SUPERIORITY_OR_OTHER||||||<|0.017||95.0||||We intended to use a Bonferroni calculation to adjust for multiple comparisons among study arms.|Chi-squared|||Please note that no analyses were performed as the trial was stopped due to low enrollment.||||<0.017
82389507|NCT01953874|164490511|OTHER|The primary analysis was based on the Wilcoxon-Mann-Whitney test and therefore the power calculation was approximated using the approach of Tang.||||||0.916|||||||Wilcoxon (Mann-Whitney)|||The primary endpoint was a composite measure of global rank order response based on survival time, freedom from CV hospitalization, and improvement in functional capacity measured by percent change in 6MWD from baseline to 6 months. The plan was to randomize up to 215 subjects. However, due to safety issues observed in SERVE-HF, randomization was stopped at 126 subjects.||||0.916
82389508|NCT00174967|164490539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389509|NCT00174967|164490539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389510|NCT00174967|164490539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389511|NCT00174967|164490540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389512|NCT00174967|164490540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389513|NCT00174967|164490540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389514|NCT00174967|164490541|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389515|NCT00174967|164490541|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389516|NCT00174967|164490541|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389517|NCT00174967|164490542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389518|NCT00174967|164490542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389519|NCT00174967|164490542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using Fisher's exact test. Adjustment for multiple comparisons was made using Hochberg's procedure.|Fisher Exact|||||||<0.001
82389520|NCT00174967|164490543|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389521|NCT00174967|164490543|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389522|NCT00174967|164490543|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389523|NCT00174967|164490544|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389524|NCT00174967|164490544|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389525|NCT00174967|164490544|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389526|NCT00174967|164490545|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82443868|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|0.284589|STANDARD_ERROR_OF_MEAN|0.276698||0.31|TWO_SIDED|95.0|-0.27603|0.845209||A priori set threshold for significance was 0.05|Mixed Models Analysis|baseline was covaried||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to more use of cognitive restructuring than sham neurostimulation.||0.845209|-0.276030|0.31
82573815|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.1||||0.9999|TWO_SIDED|95.0|0.3|4.7|||ANOVA|||Day 28||4.7|0.3|0.9999
82647792|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.46|-0.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.13|-0.46|<0.001
82389527|NCT00174967|164490545|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389528|NCT00174967|164490545|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389529|NCT00174967|164490546|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389530|NCT00174967|164490546|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389531|NCT00174967|164490546|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389532|NCT00174967|164490547|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389533|NCT00174967|164490547|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389534|NCT00174967|164490547|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389535|NCT00174967|164490548|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82573816|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.9105|TWO_SIDED|95.0|0.1|3.2|||ANOVA|||Day 56||3.2|0.1|0.9105
82389536|NCT00174967|164490548|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389537|NCT00174967|164490548|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparisons between placebo and each of the febuxostat treatment groups were performed using a t-test. Adjustment for multiple comparisons was made using Hochberg's procedure.|t-test, 2 sided|||||||<0.001
82389538|NCT00601172|164490576|SUPERIORITY_OR_OTHER||difference in percentage of participants|1.0||||0.7273|TWO_SIDED|95.0|-4.6|6.6||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||6.6|-4.6|0.7273
82389539|NCT00601172|164490577|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.0||||0.4771|TWO_SIDED|95.0|-1.8|3.8||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||3.8|-1.8|0.4771
82389540|NCT00601172|164490578|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.0||||0.7273|TWO_SIDED|95.0|-4.6|6.6|||Pooled Z test|p-value based on normal approximation to the binomial using a pooled Z test.|The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg||6.6|-4.6|0.7273
82389541|NCT00601172|164490579|SUPERIORITY_OR_OTHER||Treatment difference (%)|6.0||||0.0317|TWO_SIDED|95.0|0.5|11.5||p-value based on normal approximation to the binomial using a pooled Z test.|Pooled Z test|||Placebo vs Casopitant 90 mg||11.5|0.5|0.0317
82389542|NCT00601172|164490580|SUPERIORITY_OR_OTHER|||||||0.056|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (0-120 hours)||||0.0560
82389543|NCT00601172|164490580|SUPERIORITY_OR_OTHER|||||||0.0443|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (0-24 hours)||||0.0443
82389544|NCT00601172|164490580|SUPERIORITY_OR_OTHER|||||||0.1709|||||||Wilcoxon-rank sum test|||Placebo vs Casopitant 90 mg (24-120 hours)||||0.1709
82389545|NCT00601172|164490581|SUPERIORITY_OR_OTHER||Treatment difference (%)|-1.8||||0.3986|TWO_SIDED|95.0|-5.9|2.3|||Chi-squared|||Placebo vs Casopitant 90 mg (0-120 hours)||2.3|-5.9|0.3986
82389546|NCT00601172|164490581|SUPERIORITY_OR_OTHER||Treatment difference (%)|-0.9||||0.3545|TWO_SIDED|95.0|-2.7|1.0|||Chi-squared|||Placebo vs Casopitant 90 mg (0-24 hours)||1.0|-2.7|0.3545
82389547|NCT00601172|164490581|SUPERIORITY_OR_OTHER||Treatment difference (%)|-1.8||||0.3986|TWO_SIDED|95.0|-5.9|2.3|||Chi-squared|||Placebo vs Casopitant 90 mg (24-120 hours)||2.3|-5.9|0.3986
82389548|NCT00601172|164490582|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.6795|TWO_SIDED|95.0|-5.4|3.5|||Chi-squared|||Placebo vs Casopitant 90 mg (0-120 hours)||3.5|-5.4|0.6795
82389549|NCT00601172|164490582|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.4507|TWO_SIDED|95.0|-3.1|1.4|||Chi-squared|||Placebo vs Casopitant 90 mg (0-24 hours)||1.4|-3.1|0.4507
82389550|NCT00601172|164490582|SUPERIORITY_OR_OTHER||Treament Difference (%)|-0.9||||0.6795|TWO_SIDED|95.0|-5.4|3.5|||Chi-squared|||Placebo vs Casopitant 90 mg (24-120 hours)||3.5|-5.4|0.6795
82389551|NCT00601172|164490583|SUPERIORITY_OR_OTHER||Difference in percentage of participants|2.1||||0.4846|TWO_SIDED|95.0|-3.8|8.0|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||8.0|-3.8|0.4846
82573817|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 56||5.5|0.2|1.0000
82389552|NCT00601172|164490583|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.8||||0.6101|TWO_SIDED|95.0|-2.3|3.9|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||3.9|-2.3|0.6101
82389553|NCT00601172|164490583|SUPERIORITY_OR_OTHER||Percentage of participants|2.1||||0.4846|TWO_SIDED|95.0|-3.8|8.0|||Chi-squared||Difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||8.0|-3.8|0.4846
82389554|NCT00601172|164490584|SUPERIORITY_OR_OTHER||Difference in percentage of participants|3.8||||0.1356|TWO_SIDED|95.0|-1.2|8.9|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||8.9|-1.2|0.1356
82389555|NCT00601172|164490584|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.1||||0.028|TWO_SIDED|95.0|0.9|15.4|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||15.4|0.9|0.0280
82389556|NCT00601172|164490584|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.1||||0.028|TWO_SIDED|95.0|0.9|15.4|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||15.4|0.9|0.0280
82389557|NCT00601172|164490585|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.7799|TWO_SIDED|95.0|-7.3|5.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||5.5|-7.3|0.7799
82389558|NCT00601172|164490585|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.5||||0.7883|TWO_SIDED|95.0|-3.2|4.2|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||4.2|-3.2|0.7883
82389559|NCT00601172|164490585|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.7799|TWO_SIDED|95.0|-7.3|5.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||5.5|-7.3|0.7799
82389560|NCT00601172|164490586|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-7.3||||0.0507|TWO_SIDED|95.0|-15.0|0.0|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-120 hours)||0.0|-15|0.0507
82389561|NCT00601172|164490586|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-4.7||||0.08|TWO_SIDED|95.0|-9.9|0.5|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (0-24 hours)||0.5|-9.9|0.0800
82389562|NCT00601172|164490586|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-7.3||||0.0507|TWO_SIDED|95.0|-15.0|0.0|||Chi-squared||The parameter estimated was difference in percentage of participants with response.|Placebo vs Casopitant 90 mg (24-120 hours)||0.0|-15|0.0507
82573818|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.3047|TWO_SIDED|95.0|0.1|1.7|||ANOVA|||Day 56||1.7|0.1|0.3047
82389563|NCT00601172|164490587|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-2.6|||||TWO_SIDED|97.5|-9.9|4.7|||||The parameter estimated was difference in percentage of participants with response.|Nausea Impact: Placebo vs. Casopitant 90 mg; Cycle 1 (0-120 hours)||4.7|-9.9|
82389564|NCT00601172|164490587|SUPERIORITY_OR_OTHER||Difference in percentage of participants|0.7||||||97.5|-5.2|6.6|||||The parameter estimated was difference in percentage of participants with response.|Vomiting Impact: Placebo vs. Casopitant 90 mg; Cycle 1 (0-120 hours)||6.6|-5.2|
82389565|NCT00601172|164490588|SUPERIORITY_OR_OTHER|||||||0.1572|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (0-120 hours) in Cycle 1||||0.1572
82389566|NCT00601172|164490588|SUPERIORITY_OR_OTHER|||||||0.2908|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (0-24 hours) in Cycle 1||||0.2908
82389567|NCT00601172|164490588|SUPERIORITY_OR_OTHER|||||||0.1572|||||||Chi-squared|||Placebo vs. Casopitant 90 mg: (24-120 hours) in Cycle 1||||0.1572
82389568|NCT01154296|164490620|SUPERIORITY_OR_OTHER||adjusted risk ratio (aRR)|1.12|||||TWO_SIDED|95.0|0.94|1.33||In the statistical tests of all hypotheses and calculation of the presented risk ratios, we used multiple imputations of data sets with all 5012 cases. The aRRs reported are based on the multiply imputed data. Counts are based on the observed data.|Mantel Haenszel|||A total of 2039/2505 participants randomized to the counseling group and 2032/2507 to the information-only group had complete follow-up STI data. Cumulative STI incidence was 250/2039 (12.3%) in the counseling group and 226/2032 (11.1%) in the information-only group (aRR, 1.12; 95%CI, 0.94-1.33).||1.33|0.94|
82389569|NCT01154296|164490621|SUPERIORITY_OR_OTHER||Incidence rate ratio (IRR)|0.99|||||TWO_SIDED|95.0|0.9|1.09|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.09|0.90|
82389570|NCT01154296|164490622|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.98|||||TWO_SIDED|95.0|0.86|1.13|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.13|0.86|
82389571|NCT01154296|164490623|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.88|||||TWO_SIDED|95.0|0.82|0.94|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||0.94|0.82|
82389572|NCT01154296|164490624|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.97|||||TWO_SIDED|95.0|0.9|1.05|||||In the statistical tests of all hypotheses and calculation of the presented IRR, we used multiple imputations of data sets with all 5012 cases. The adjusted IRRs reported are based on multiply imputed data. Counts are based on the observed data.|Analyses of sexual risk behaviors used zero-inflated negative binomial regressions (ZINB) including treatment group, baseline level of the risk behavior, site, and randomization stratum. (ZINB regression was used instead of ANCOVA because the outcome variable had an excessive number of zeroes and over dispersion.) Adjusted incidence rate ratios (IRR) from the models are presented.||1.05|0.90|
82573819|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment.|Geometric Mean Ratio Estimate|5.5||||0.0423|TWO_SIDED|95.0|1.0|29.2|||ANOVA|||Day 56||29.2|1.0|0.0423
82573820|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.9213|TWO_SIDED|95.0|0.3|9.1|||ANOVA|||Day 56||9.1|0.3|0.9213
82573821|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.8092|TWO_SIDED|95.0|0.1|2.8|||ANOVA|||Day 56||2.8|0.1|0.8092
82647793|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.54|-0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.21|-0.54|<0.001
82647794|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.52|-0.19||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.19|-0.52|<0.001
82389573|NCT01154296|164490625|SUPERIORITY_OR_OTHER||Adjusted Risk Ratio (aRR)|1.14||||||95.0|0.89|1.46||In the statistical tests of all hypotheses and calculation of the presented risk ratios, we used multiple imputations of data sets with all 5012 cases. The aRRs reported are based on the multiply imputed data. Counts are based on the observed data.|Mantel Haenszel|||||1.46|0.89|
82389574|NCT00765895|164490631|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||Mantel Haenszel|Stratified by clinic||||||0.86
82426184|NCT01561976|164561226|OTHER||Ratio|107.24||||0.0171|TWO_SIDED|95.0|98.35|116.94|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||116.94|98.35|0.0171
82573822|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|9.1||||0.004|TWO_SIDED|95.0|1.7|48.5|||ANOVA|||Day 56||48.5|1.7|0.0040
82573823|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.3||||0.3347|TWO_SIDED|95.0|0.1|1.8|||ANOVA|||Day 56||1.8|0.1|0.3347
82389575|NCT00970632|164490643|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.1||||0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tadalafil and placebo treatment groups was for the primary comparison and assessed for significance at a level of 0.05.|ANCOVA|||||||0.001
82389576|NCT00970632|164490643|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.023||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin and placebo treatment groups was secondary in nature and assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.023
82389577|NCT00970632|164490644|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.2|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||<0.001
82389578|NCT00970632|164490644|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.3|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
82389579|NCT00970632|164490645|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.055||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.055
82389580|NCT00970632|164490645|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.055||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.055
82389581|NCT00970632|164490646|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
82389582|NCT00970632|164490646|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.0||||0.026||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.026
82389583|NCT00970632|164490647|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.08||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.080
82640789|NCT03671746|164996286|SUPERIORITY|||||||0.215|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||0.215
82389584|NCT00970632|164490647|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2||||0.118||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.118
82389585|NCT00970632|164490648|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.3||||0.022||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.022
82389586|NCT00970632|164490648|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.1||||0.546||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.546
82525681|NCT00991341|164748035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.93||||0.35|TWO_SIDED|95.0|-2.11|5.98||The treatment arms were compared with respect to the change in troponin-I, adjusting for the baseline troponin-I value.|ANCOVA||The longer storage red blood cell units arm is the reference category. After adjusting for baseline troponin-I, the change in troponin-I values was 1.9 ng/mL higher in the shorter storage red blood cell units arm.|Troponin-I values recorded as 'too low to detect' were recoded as 0 since the median value of the minimum quantitative troponin-I value obtained among all participating sites was 0.01.||5.98|-2.11|0.35
82525682|NCT00991341|164748036|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Kruskal-Wallis|||||||0.10
82525683|NCT00991341|164748037|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65|||<|0.01|TWO_SIDED|95.0|-0.89|-0.41|||ANCOVA||The longer storage red blood cell units arm is the reference category. After adjusting for baseline bilirubin, the change in bilirubin values was 0.65 mg/dL lower in the shorter storage red blood cell units arm.|||-0.41|-0.89|<0.01
82525684|NCT00991341|164748039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.11|TWO_SIDED|95.0|0.98|1.25||The treatment groups were compared with respect to days to first post-operative bowel movement, adjusting for baseline MODS.|Regression, Cox||The longer storage duration arm is reference category.|||1.25|0.98|0.11
82573824|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|5.6||||0.0488|TWO_SIDED|95.0|1.0|30.7|||ANOVA|||Day 56||30.7|1.0|0.0488
82389587|NCT00970632|164490649|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.003||||||The p-value associated with LS Mean difference of changes from baseline to Week 1 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||0.003
82389588|NCT00970632|164490649|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.5||||0.005||||||The p-value associated with LS Mean difference of changes from baseline to Week 1 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.005
82389589|NCT00970632|164490650|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||<0.001
82389590|NCT00970632|164490650|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.9|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 4 between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||<0.001
82389591|NCT00970632|164490651|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.8||||0.003||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil and placebo treatment groups was assessed for significance at a level of 0.05.|ANCOVA|||||||0.003
82389592|NCT00970632|164490651|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.6||||0.026||95.0||||The p-value associated with LS Mean difference of changes from baseline to Week 12 endpoint between tamsulosin and placebo treatment groups was assessed for significance at a level of 0.05 with no adjustments for multiplicity.|ANCOVA|||||||0.026
82389593|NCT00970632|164490652|SUPERIORITY_OR_OTHER|||||||0.001||||||The p-value associated with difference between tadalafil versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.001
82389594|NCT00970632|164490652|SUPERIORITY_OR_OTHER|||||||0.114||95.0||||The p-value associated with difference between tamsulosin versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.114
82389595|NCT00970632|164490653|SUPERIORITY_OR_OTHER|||||||0.004||||||The p-value associated with difference between tadalafil versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and a stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.004
82389596|NCT00970632|164490653|SUPERIORITY_OR_OTHER|||||||0.452||||||The p-value associated with difference between tamsulosin versus placebo treatment groups within the 7 response categories was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Cochran-Mantel-Haenszel|Analysis used data only from these treatment arms and stratification of baseline LUTS severity (moderate \[total IPSS \<20\]; severe \[total IPSS ≥20\]).||||||0.452
82389597|NCT00970632|164490654|SUPERIORITY_OR_OTHER||Median of Treatment Group Differences|-4.4||||0.005||||||The p-value associated with the testing for differences in medians between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|Van Elteren Tests|P-values testing for differences of medians between placebo and active treatment were based on the Van Elteren test, stratifying by region.||||||0.005
82389598|NCT00970632|164490654|SUPERIORITY_OR_OTHER||Median of Treatment Group Differences|-2.2||||0.457||||||The p-value associated with the testing for differences in medians between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 without adjustments for multiplicity.|Van Elteren Tests|P-values testing for differences of medians between placebo and active treatment were based on the Van Elteren test, stratifying by region.||||||0.457
82389599|NCT00970632|164490655|SUPERIORITY_OR_OTHER||Difference in LS Means|4.0|||<|0.001||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANCOVA|||||||<0.001
82443869|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|10.129377|STANDARD_ERROR_OF_MEAN|9.150339||0.275257|TWO_SIDED|95.0|-8.394724|28.653479|||Mixed Models Analysis|||We hypothesized that active right neurostimulation would yield lower emotional dysregulation after the intervention when compared to sham neurostimulation.||28.653479|-8.394724|0.275257
82647795|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-0.38|0.012
82389600|NCT00970632|164490655|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.4||||0.699||||||The p-value associated with LS Mean difference of changes from baseline to Week 12 between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANCOVA|||||||0.699
82389601|NCT00970632|164490656|SUPERIORITY_OR_OTHER|||||||0.009||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) using rank transformed data.||||||0.009
82389602|NCT00970632|164490656|SUPERIORITY_OR_OTHER|||||||0.014||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|ANOVA using rank transformed data.||||||0.014
82525685|NCT00991341|164748040|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.22|TWO_SIDED|95.0|0.96|1.22|||Regression, Cox|The treatment groups were compared with respect to days to first post-operative solid food, adjusting for baseline MODS.|The longer storage duration arm is reference category.|||1.22|0.96|0.22
82389603|NCT00970632|164490659|SUPERIORITY_OR_OTHER|||||||0.303||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tadalafil versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|Analysis of variance (ANOVA) using rank transformed data.||||||0.303
82573825|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|17.4||||0.0001|TWO_SIDED|95.0|3.3|92.2|||ANOVA|||Day 56||92.2|3.3|0.0001
82573826|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8831|TWO_SIDED|95.0|0.1|3.0|||ANOVA|||Day 182||3.0|0.1|0.8831
82573827|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.2|||ANOVA|||Day 182||5.2|0.2|1.0000
82573828|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.8916|TWO_SIDED|95.0|0.1|3.1|||ANOVA|||Day 182||3.1|0.1|0.8916
82573829|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.9||||0.794|TWO_SIDED|95.0|0.4|9.9|||ANOVA|||Day 182||9.9|0.4|0.7940
82389604|NCT00970632|164490659|SUPERIORITY_OR_OTHER|||||||0.146||||||The p-value associated with median difference of changes from baseline to Week 12 endpoint between tamsulosin versus placebo treatment groups was assessed for significance at a level of 0.05 with no adjustment for multiplicity.|ANOVA|ANOVA using rank transformed data.||||||0.146
82647796|NCT00830063|165011047|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.36|-0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.03|-0.36|0.021
82389605|NCT03320850|164490663|SUPERIORITY||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.635||0.0845|TWO_SIDED|95.0|-0.15|2.35|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.35|-0.15|0.0845
82389606|NCT03320850|164490663|SUPERIORITY||Least Squares Mean Difference|1.83|STANDARD_ERROR_OF_MEAN|0.633||0.0041|TWO_SIDED|95.0|0.59|3.08|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||3.08|0.59|0.0041
82389607|NCT03320850|164490663|SUPERIORITY||Least Squares Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|0.632||0.06|TWO_SIDED|95.0|-0.05|2.44|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.44|-0.05|0.0600
82389608|NCT03320850|164490663|SUPERIORITY||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|0.631||0.1702|TWO_SIDED|95.0|-0.37|2.11|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|The null hypothesis is that there is no difference between each (BOTOX® and Hydrogel admixture group) and (placebo and Hydrogel admixture) in the mean change from Baseline in daily average number of UIEs at Week 12.||2.11|-0.37|0.1702
82389609|NCT03320850|164490665|SUPERIORITY||Least Square Mean|0.73|STANDARD_ERROR_OF_MEAN|0.617||0.2361|TWO_SIDED|95.0|-0.48|1.95|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.95|-0.48|0.2361
82389610|NCT03320850|164490665|SUPERIORITY||Least Square Mean|0.78|STANDARD_ERROR_OF_MEAN|0.608||0.1985|TWO_SIDED|95.0|-0.41|1.98|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.98|-0.41|0.1985
82389611|NCT03320850|164490665|SUPERIORITY||Least Square Mean|0.64|STANDARD_ERROR_OF_MEAN|0.607||0.2923|TWO_SIDED|95.0|-0.56|1.84|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.84|-0.56|0.2923
82389612|NCT03320850|164490665|SUPERIORITY||Least Square Mean|0.54|STANDARD_ERROR_OF_MEAN|0.609||0.3769|TWO_SIDED|95.0|-0.66|1.74|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||1.74|-0.66|0.3769
82389613|NCT03320850|164490666|SUPERIORITY||Least Square Mean|-7.05|STANDARD_ERROR_OF_MEAN|13.107||0.5911|TWO_SIDED|95.0|-32.87|18.77|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||18.77|-32.87|0.5911
82389614|NCT03320850|164490666|SUPERIORITY||Least Square Mean|-8.0|STANDARD_ERROR_OF_MEAN|12.956||0.5375|TWO_SIDED|95.0|-33.52|17.52|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||17.52|-33.52|0.5375
82426185|NCT01561976|164561227|OTHER||Ratio|116.87||||0.0169|TWO_SIDED|95.0|107.07|127.57|||ANOVA||Ratio= METLEAD ForteSR-Fed/METLEAD ForteSR-Fasting|||127.57|107.07|0.0169
82525686|NCT00991341|164748041|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.71|TWO_SIDED|95.0|-0.59|1.0|||Kruskal-Wallis||The longer storage duration arm is reference category.|||1.00|-0.59|0.71
82525687|NCT00991341|164748042|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.015||||0.53|TWO_SIDED|95.0|-0.057|0.027|||Fisher Exact||The difference in proportions between the two treatment arms was computed as the proportion of subjects with the event in the shorter storage duration arm minus the proportion of subjects with the event in the longer storage duration arm.|||0.027|-0.057|0.53
82525688|NCT02401464|164748043|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|Least Squares (LS) mean difference (ln)|0.963|||||TWO_SIDED|90.0|0.927|1.001||||||Based on the analysis of variance (ANOVA) in which the natural logarithms of AUC(0-48) of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% confidence intervals (CIs) for the differences between the formulations and between the periods.||1.001|0.927|
82389615|NCT03320850|164490666|SUPERIORITY||Least Square Mean|-1.33|STANDARD_ERROR_OF_MEAN|12.764||0.9173|TWO_SIDED|95.0|-26.47|23.81|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||23.81|-26.47|0.9173
82389616|NCT03320850|164490666|SUPERIORITY||Least Square Mean|9.33|STANDARD_ERROR_OF_MEAN|12.981||0.473|TWO_SIDED|95.0|-16.24|34.9|||ANCOVA||Least square estimates and contrast t-test were used to compare specified treatment groups and were based on ANCOVA model with Baseline value as covariate and treatment group, sex (male, female) as factors.|||34.90|-16.24|0.4730
82389617|NCT03192995|164490667|SUPERIORITY|||||||0.91|||||||Fisher Exact|||||||0.91
82389618|NCT03192995|164490668|SUPERIORITY|||||||0.53|||||||Fisher Exact|||||||0.53
82525689|NCT02401464|164748044|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1)90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.906|||||TWO_SIDED|90.0|0.88|0.933||||||Based on the ANOVA in which the natural logarithms of Cmax of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||0.933|0.880|
82573830|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.6||||0.9169|TWO_SIDED|95.0|0.3|8.9|||ANOVA|||Day 182||8.9|0.3|0.9169
82573831|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.0||||1|TWO_SIDED|95.0|0.2|5.2|||ANOVA|||Day 182||5.2|0.2|1.0000
82573832|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|3.3||||0.2563|TWO_SIDED|95.0|0.6|17.1|||ANOVA|||Day 182||17.1|0.6|0.2563
82573833|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.9237|TWO_SIDED|95.0|0.1|3.3|||ANOVA|||Day 182||3.3|0.1|0.9237
82573834|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7708|TWO_SIDED|95.0|0.4|10.8|||ANOVA|||Day 182||10.8|0.4|0.7708
82573835|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|3.3||||0.2661|TWO_SIDED|95.0|0.6|16.9|||ANOVA|||Day 182||16.9|0.6|0.2661
82647797|NCT00661674|165011104|SUPERIORITY_OR_OTHER|||||||0.0001||||||p-value represents comparison between OOWS scores at T=180 and the baseline measurements at T=-30.|Friedman Test|||"Null Hypothesis: There will be no difference in OOWS scores when comparing treatment groups (Palonosetron \& Palonosetron + Hydroxyzine) with placebo.~Analysis of the data obtained in our prior study indicated that analysis of 10 individuals would provide 90% power to detect a treatment effect. Therefore, we examined the effect of three different pretreatments on naloxone-induced opiate withdrawal signs in 10 healthy individuals."||||0.0001
82389619|NCT03192995|164490669|SUPERIORITY|||||||0.32|||||||Fisher Exact|||||||.32
82389620|NCT03192995|164490670|SUPERIORITY|||||||0.541|||||||Fisher Exact|||||||.541
82389621|NCT03192995|164490671|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.24|3.82||||||||3.82|0.24|
82389622|NCT01286168|164490682|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.02
82573836|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.5||||0.7614|TWO_SIDED|95.0|0.1|2.6|||ANOVA|||Day 365||2.6|0.1|0.7614
82573837|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9905|TWO_SIDED|95.0|0.1|4.3|||ANOVA|||Day 365||4.3|0.1|0.9905
82389623|NCT01286168|164490683|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.03
82389624|NCT01286168|164490684|SUPERIORITY_OR_OTHER|||||||0.003|||||||McNemar|||Antisepsis and Control sides were compared.||||0.003
82389625|NCT01286168|164490685|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.13
82389626|NCT01286168|164490686|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||McNemar|||Antisepsis and Control sides were compared.||||0.45
82389627|NCT01286168|164490687|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. Unadjusted p-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient.||||0.02
82389628|NCT01286168|164490687|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. P-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient. P-value was adjusted for side- and drain-specific variables: indication (cancer or prophylaxis), operation (mastectomy only, mastectomy+SLNB, mastectomy +ALND), and drain duration.||||0.02
82426186|NCT01561976|164561227|OTHER||Ratio|107.38||||0.0169|TWO_SIDED|95.0|98.3|117.29|||ANOVA||Ratio= METLEAD G2 Forte/METLEAD ForteSR-Fasting|||117.29|98.30|0.0169
82426187|NCT01977222|164561240|OTHER|||||||0.1673|||||||t-test, 2 sided|||||||0.1673
82573838|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.6||||0.933|TWO_SIDED|95.0|0.1|3.3|||ANOVA|||Day 365||3.3|0.1|0.9330
82573839|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9945|TWO_SIDED|95.0|0.2|6.7|||ANOVA|||Day 365||6.7|0.2|0.9945
82573840|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.5||||0.9599|TWO_SIDED|95.0|0.3|8.4|||ANOVA|||Day 365||8.4|0.3|0.9599
82573841|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.3||||0.9942|TWO_SIDED|95.0|0.2|6.4|||ANOVA|||Day 365||6.4|0.2|0.9942
82535304|NCT00783718|164768645|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.1||||0.0012||95.0|6.4|25.9||P-value is based on the CMH chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); and 2) previous exposure to TNFα antagonists or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially (closed sequential method). The first secondary endpoint was to be tested only if the primary comparison was significant and the second key secondary endpoint was to be tested only if the first secondary endpoint was significant for vedolizumab.||25.9|6.4|0.0012
82426188|NCT01977222|164561241|OTHER|||||||0.5745|||||||t-test, 2 sided|||||||0.5745
82426189|NCT01977222|164561242|OTHER|||||||0.511|||||||t-test, 2 sided|||||||.511
82640790|NCT03671746|164996287|SUPERIORITY||||||=|0.043|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.043
82647798|NCT00661674|165011105|SUPERIORITY_OR_OTHER|||||||0.2244||||||p-value represents comparison between SOWS scores at T=180 and the baseline measurements at T=-30.|Friedman Test|||"Null Hypothesis: There will be no difference in SOWS scores when comparing the 2 treatment groups (Palonosetron \& Palonosetron + Hydroxyzine) with placebo.~Analysis of the data obtained in our prior study indicated that analysis of 10 individuals would provide 90% power to detect a treatment effect. Therefore, we examined the effect of three different pretreatments on naloxone-induced opiate withdrawal signs in 10 healthy individuals."||||0.2244
82647799|NCT01872689|165011111|SUPERIORITY||Median Difference (Final Values)|0.98111|STANDARD_ERROR_OF_MEAN|1.31064||0.4555|TWO_SIDED|95.0|-1.61|3.57|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||3.57|-1.61|0.4555
82573842|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.5||||0.4932|TWO_SIDED|95.0|0.5|12.9|||ANOVA|||Day 365||12.9|0.5|0.4932
82573843|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|0.8||||0.9983|TWO_SIDED|95.0|0.2|4.6|||ANOVA|||Day 365||4.6|0.2|0.9983
82573844|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|1.7||||0.9112|TWO_SIDED|95.0|0.3|9.3|||ANOVA|||Day 365||9.3|0.3|0.9112
82573845|NCT03635086|164857955|OTHER|Analysis of variance (ANOVA) for GMT of Chikungunya-ELISA antibodies between treatment groups.|Geometric Mean Ratio Estimate|2.0||||0.7431|TWO_SIDED|95.0|0.4|10.2|||ANOVA|||Day 365||10.2|0.4|0.7431
82573846|NCT01080300|164857992|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|0.311||0.0003|TWO_SIDED|95.0|-2.31|-1.09||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Eltereen|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 4:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate to severe hot flashes at Week 4."||-1.09|-2.31|0.0003
82573847|NCT01080300|164857992|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.335||0.1|TWO_SIDED|95.0|-1.8|-0.48||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 12:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate to severe hot flashes at Week 12."||-0.48|-1.80|0.1000
82573848|NCT01080300|164857993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.31|-0.1||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 4:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate to severe hot flashes at Week 4."||-0.10|-0.31|<0.0001
82426190|NCT01977222|164561243|OTHER|||||||0.776|||||||t-test, 2 sided|||||||0.776
82426191|NCT01977222|164561244|OTHER|||||||0.5374|||||||t-test, 2 sided|||||||0.5374
82426192|NCT01977222|164561245|OTHER|||||||0.3385|||||||t-test, 2 sided|||||||0.3385
82426193|NCT01977222|164561246|OTHER|||||||0.0189|||||||t-test, 2 sided|||||||0.0189
82573849|NCT01080300|164857993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.072||0.0004|TWO_SIDED|95.0|-0.33|-0.04||P-value for the test of difference of the least square mean change from baseline between Gabapentin ER 1800 mg and placebo group is based on the F-test of Type III analysis.|Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 12:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate to severe hot flashes at Week 12."||-0.04|-0.33|0.0004
82573850|NCT01080300|164857994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.08|STANDARD_ERROR_OF_MEAN|0.453||0.151|TWO_SIDED|95.0|-1.98|-0.19|||Based on Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Frequency at Week 24:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in observed average daily number of moderate to severe hot flashes at Week 24."||-0.19|-1.98|0.1510
82573851|NCT01080300|164857995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0004|TWO_SIDED|95.0|-0.44|0.0|||Van Elteren|Multiplicity addressed by requiring significance for all primary endpoints.|Based on ANCOVA|"Baseline LOCF Average Daily Severity Score at Week 24:~Null hypothesis: no treatment differences relative to placebo in mean change from baseline in observed average daily severity score of moderate to severe hot flashes at Week 24."||-0.00|-0.44|0.0004
82573852|NCT01080300|164857996|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.6||||0.0008|TWO_SIDED|95.0|5.7|21.6|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in PGIC at Week 12.~Null Hypotheses: no treatment differences, relative to placebo in the proportion of patients who were categorized as very much or much improved in the PGIC score at week 12.."||21.6|5.7|0.0008
82573853|NCT01080300|164857996|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.4||||0.0009|TWO_SIDED|95.0|5.5|21.3|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in PGIC at Week 24."||21.3|5.5|0.0009
82573854|NCT01080300|164857997|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.4|||<|0.0001|TWO_SIDED|95.0|8.4|24.3|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|"Proportion of patients who were categorized as very much or much improved in CGIC at Week 12.~Null Hypotheses: no treatment differences, relative to placebo in the proportion of patients who were categorized as very much or much improved in the CGIC score at week 12."||24.3|8.4|<0.0001
82573855|NCT01080300|164857997|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.0||||0.007|TWO_SIDED|95.0|3.0|19.0|||2-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||19.0|3.0|0.0070
82573856|NCT01080300|164857998|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.5||||0.0609|TWO_SIDED|95.0|-0.3|15.2|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 12||15.2|-0.3|0.0609
82573857|NCT01080300|164857998|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.3||||0.072|TWO_SIDED|95.0|-0.7|15.3|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||15.3|-0.7|0.0720
82573858|NCT01080300|164857999|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.8||||0.1825|TWO_SIDED|95.0|-1.8|9.4|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 12||9.4|-1.8|0.1825
82525690|NCT02401464|164748045|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.985|||||TWO_SIDED|90.0|0.958|1.011||||||Based on the ANOVA in which the natural logarithms of AUC(0-48) of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||1.011|0.958|
82640791|NCT03671746|164996288|SUPERIORITY||||||=|0.617|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||=0.617
82640792|NCT03671746|164996290|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|A Kenward-Roger adjustment was used to correct for negative bias in the standard errors and degrees of freedom calculations.||Sample size calculations were performed regarding LOS as this was the primary outcome measure. Using a significance level of 0.05 and an assumed SD of 1.5 days, a sample size of 42 patients per group (84 total) would yield 80% power to detect a difference of 0.928 days in average LOS between groups. Allowing for a dropout rate of up to 25%, recruitment was originally planned for 56 patients per group. Power calculations were performed using nQuery 8.5 (Statistical Solutions Ltd; Cork, Ireland).|Group-level summary statistics were calculated for demographic and clinical variables, and differences between groups were evaluated using two-sample t-tests for quantitative measures and Fisher's exact tests for categorical measures, as appropriate. Time and group comparisons for each cytokine were made using linear mixed models, with and without adjusting for selected covariates. Patient demographic variables and clinical outcomes of interest were considered for inclusion as covariates in each model but were only retained if they significantly improved the model. Linear mixed models were log-transformed, double-log-transformed, or square-root-transformed to correct for right skewness, as appropriate. Likelihood ratio testing and Akaike information criterion were used to select appropriate covariance structures in each case. All analyses were completed in SAS 9.4 (SAS Institute Inc.; Cary, NC, USA).|||<0.05
82640793|NCT03810417|164996293|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
82640794|NCT03810417|164996293|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
82640795|NCT05643573|164996295|SUPERIORITY||Cox Proportional Hazard|3.785|||<|0.0001|TWO_SIDED|95.0|2.457|5.833|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||5.833|2.457|<.0001
82640796|NCT05643573|164996295|SUPERIORITY||Fine-Gray model|3.79|||<|0.0001|TWO_SIDED|95.0|2.46|5.839|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||5.839|2.460|<.0001
82640797|NCT05643573|164996296|SUPERIORITY||Fine-Gray model|0.319|||<|0.0001|TWO_SIDED|95.0|0.185|0.552|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||0.552|0.185|<.0001
82640798|NCT05643573|164996296|SUPERIORITY||Fine-Gray model|0.316|||<|0.0001|TWO_SIDED|95.0|0.182|0.547|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||0.547|0.182|<.0001
82640799|NCT05643573|164996297|SUPERIORITY||Fine-Gray model|1.61||||0.0011|TWO_SIDED|95.0|1.207|2.149|||Log Rank|||Comparison of Asundexian 50 mg verus Apixaban||2.149|1.207|0.0011
82640800|NCT05643573|164996297|SUPERIORITY||Fine-Gray model|1.599||||0.0013|TWO_SIDED|95.0|1.197|2.134|||Gray's test|||Comparison of Asundexian 50 mg verus Apixaban||2.134|1.197|0.0013
82640801|NCT05182840|164996311|OTHER||Mean Difference (Net)|-0.168||||0.0499|TWO_SIDED|95.0|-0.337|0.0|||MMRM||"Least Squares Mean of 3 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.000|-0.337|0.0499
82640802|NCT05182840|164996311|OTHER||Mean Difference (Net)|-0.486|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.313|||MMRM||"Least Squares Mean of 10 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.313|-0.660|<.0001
82426194|NCT01977222|164561247|OTHER|||||||0.1183|||||||t-test, 2 sided|||||||0.1183
82573859|NCT01080300|164857999|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|4.4||||0.1662|TWO_SIDED|95.0|-1.8|10.7|||two-sample Z test|No multiplicity adjustments were made for secondary efficacy outcomes|Risk difference defined as treatment difference in proportion of responders.|Week 24||10.7|-1.8|0.1662
82389629|NCT01286168|164490688|SUPERIORITY_OR_OTHER|||||||0.004|||||||Likelihood-ratio test|||Antisepsis and Control sides were compared. Due to zero events in the antisepsis side for this endpoint, p-value was derived from likelihood-ratio test comparing the intercept only model to the model with intercept and treatment side included.||||0.004
82389630|NCT01286168|164490689|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. Unadjusted p-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient.||||0.003
82389631|NCT01286168|164490689|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||Antisepsis and Control sides were compared. P-value from generalized linear mixed effect model accounting for correlation among multiple drains from the same patient. P-value was adjusted for side- and drain-specific variables: indication (cancer or prophylaxis), operation (mastectomy only, mastectomy+SLNB, mastectomy +ALND), and drain duration.||||0.003
82389632|NCT01424514|164490690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.6|0.36||||||Placebo vs SB-705498 12 mg for 1 h in WM 0-60 TSS||0.36|-0.60|
82525691|NCT02401464|164748046|NON_INFERIORITY_OR_EQUIVALENCE|Formulations were considered bioequivalent if: 1) 90% Cls of the differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.80)- ln(1.25);2) Differences in the means of the natural log-transformed AUC(0-48) and Cmax between commercial and pediatric formulations was within ln(0.9)-ln(1.11),and results of the dissolution test met the conditions specified in the Guideline for Bioequivalence Studies of Generic Products.|LS mean difference (ln)|0.979|||||TWO_SIDED|90.0|0.938|1.022||||||Based on the ANOVA in which the natural logarithms of Cmax of TAK-536 were used as dependent variables, and formulation, sequence (administration order) and administration period were used as fixed effects, bioequivalence was assessed providing two-sided 90% CIs for the differences between the formulations and between the periods.||1.022|0.938|
82525692|NCT03010462|164748066|SUPERIORITY|||||||0.62|||||||Chi-squared, Corrected|||||||0.62
82389633|NCT01424514|164490690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.45|0.51||||||Placebo vs SB-705498 12 mg for 24 h in WM 0-60 TSS||0.51|-0.45|
82389634|NCT01424514|164490690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.58|0.51||||||Placebo vs SB-705498 12 mg for 1 h in Maximum TSS||0.51|-0.58|
82389635|NCT01424514|164490690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.51|0.72||||||Placebo vs SB-705498 12 mg for 24 h in Maximum TSS||0.72|-0.51|
82389636|NCT01424514|164490692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.3|0.54||||||Placebo vs SB-705498 12 mg for WM 0-60 TSS||0.54|-0.30|
82389637|NCT01424514|164490692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.39|0.57||||||Placebo vs SB-705498 12 mg for Maximum TSS||0.57|-0.39|
82525693|NCT03010462|164748067|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82573860|NCT01080300|164858000|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.36|STANDARD_ERROR_OF_MEAN|0.196|<|0.0001|TWO_SIDED|95.0|-1.75|-0.97||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 4: LOCF daily sleep interference rating.||-0.97|-1.75|<0.0001
82647800|NCT01872689|165011111|SUPERIORITY||Mean Difference (Final Values)|0.49998|STANDARD_ERROR_OF_MEAN|0.84946||0.5566|TWO_SIDED|95.0|-1.17|2.17|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.17|-1.17|0.5566
82389638|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.14|0.08||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in WM 0-60 sneezing||0.08|-0.14|
82389639|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.13|0.09||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in WM 0-60 sneezing||0.09|-0.13|
82525694|NCT03010462|164748068|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82389640|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.2|0.11||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in WM 0-60 sneezing||0.11|-0.20|
82389641|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.28|0.14||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in Maximum sneezing||0.14|-0.28|
82389642|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.15|0.13||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in Maximum sneezing||0.13|-0.15|
82389643|NCT01424514|164490696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.16||||||Placebo vs SB-705498 12 mg for Day 1, 24 h in Maximum sneezing||0.16|-0.20|
82389644|NCT01424514|164490697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.026|||TWO_SIDED|95.0|-0.03|0.07||||||Placebo vs SB-705498 12 mg for Day 1, 2 h in AR||0.07|-0.03|
82389645|NCT01424514|164490697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|-0.13|-0.02||||||Placebo vs SB-705498 12 mg for Day 14, 2 h in AR||-0.02|-0.13|
82389646|NCT01424514|164490697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|95.0|-0.04|0.08||||||Placebo vs SB-705498 12 mg for Day 14, 25 h in AR||0.08|-0.04|
82389647|NCT01424514|164490698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.36|0.26||||||Placebo vs SB-705498 12 mg for Day 14 in AR||0.26|-0.36|
82389648|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.06|0.6||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in WM 0-60 TOSS||0.60|-0.06|
82426195|NCT01561469|164561278|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Regression, Logistic|||||||0.009
82525695|NCT03010462|164748069|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
82525696|NCT03010462|164748070|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
82525697|NCT02799472|164748072|OTHER||Ratio|14.201|||<|0.001|TWO_SIDED|95.0|6.251|32.262|||Repeated measures analysis|||GM-CSF - Complex, Week 1||32.262|6.251|<0.001
82573861|NCT01080300|164858000|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|0.226|<|0.0001|TWO_SIDED|95.0|-1.36|-0.47||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 12: LOCF daily sleep interference rating.||-0.47|-1.36|<0.0001
82389649|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.32|0.53||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in WM 0-60 TOSS||0.53|-0.32|
82389650|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.22|0.63||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in WM 0-60 TOSS||0.63|-0.22|
82389651|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-0.3|0.68||||||Placebo vs SB-705498 12 mg for Day 1, 1 h in Maximum TOSS||0.68|-0.30|
82389652|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.34|0.86||||||Placebo vs SB-705498 12 mg for Day 14, 1 h in Maximum TOSS||0.86|-0.34|
82573862|NCT01080300|164858000|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.237|<|0.0001|TWO_SIDED|95.0|-1.42|-0.49||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 24: LOCF daily sleep interference rating.||-0.49|-1.42|<0.0001
82573863|NCT01080300|164858001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.62|STANDARD_ERROR_OF_MEAN|0.537|<|0.0001|TWO_SIDED|95.0|-3.67|-1.56||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 4: LOCF daily insomnia severity index (ISI) rating.||-1.56|-3.67|<0.0001
82573864|NCT01080300|164858001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|0.543||0.0007|TWO_SIDED|95.0|-2.92|-0.78||The P value (versus placebo) for the pairwise test of difference of the LS mean change from Baseline between the G-ER 1800-mg and placebo-treatment groups was based on the F test of type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 12: LOCF daily insomnia severity index (ISI) rating.||-0.78|-2.92|0.0007
82573865|NCT01080300|164858001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.76|STANDARD_ERROR_OF_MEAN|0.548||0.0014|TWO_SIDED|95.0|-2.84|-0.69|||ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||Change from Baseline to Week 24: LOCF daily insomnia severity index (ISI) rating.||-0.69|-2.84|0.0014
82573866|NCT01080300|164858002|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.084||0.0137|TWO_SIDED|95.0|-0.37|-0.04||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 4||-0.04|-0.37|0.0137
82573867|NCT01080300|164858002|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.084||0.0872|TWO_SIDED|95.0|-0.31|0.02||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 12||0.02|-0.31|0.0872
82389653|NCT01424514|164490699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.15|0.73||||||Placebo vs SB-705498 12 mg for Day 14, 24 h in Maximum TOSS||0.73|-0.15|
82389654|NCT02002533|164490716|SUPERIORITY||||||>|0.9999|||||||exact binomial test|The percentage is greater than or equal to 40%.||||||>0.9999
82389655|NCT02002533|164490717|SUPERIORITY|||||||0.735|||||||exact binomial test|||||||0.7350
82573868|NCT01080300|164858002|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.091||0.5607|TWO_SIDED|95.0|-0.23|0.13||The p-value (vs. Placebo) for the test of difference of the LS mean change from baseline between Gabapentin ER 1800mg and placebo group is based on the F-test of Type III analysis.|ANCOVA|No multiplicity adjustments were made for secondary efficacy outcomes||MENQOL score at Week 24||0.13|-0.23|0.5607
82389656|NCT02002533|164490718|SUPERIORITY||Mean Difference (Final Values)|0.8075|STANDARD_ERROR_OF_MEAN|0.0845|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82389657|NCT02002533|164490719|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|1.21||0.1808|TWO_SIDED||||||ANCOVA||The estimated value is BBT minus HEAL.|||||0.1808
82389658|NCT02002533|164490720|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.73||0.14|TWO_SIDED||||||ANCOVA||Estimated value is BBT minus HEAL.|||||0.14
82389659|NCT02002533|164490721|SUPERIORITY||Mean Difference (Final Values)|0.404|STANDARD_ERROR_OF_MEAN|0.137||0.005|TWO_SIDED||||||ANCOVA|For baseline of 0.7.||||||0.005
82389660|NCT02002533|164490721|SUPERIORITY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.045||0.092|TWO_SIDED|||||At baseline 1.3.|ANCOVA|||||||0.092
82389661|NCT02002533|164490721|SUPERIORITY||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.053||0.556|TWO_SIDED|||||At baseline of 1.5.|ANCOVA|||||||0.556
82389662|NCT02002533|164490721|SUPERIORITY||Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|0.221||0.007|TWO_SIDED|||||Grouped by baseline interaction.|ANCOVA||The estimated value is grouped by baseline interaction parameter.|||||0.007
82389663|NCT02002533|164490722|SUPERIORITY|||||||0|||||||ANCOVA|||||||0.000
82389664|NCT02002533|164490723|SUPERIORITY|||||||0.295|||||||ANCOVA|||||||0.295
82389665|NCT02002533|164490724|SUPERIORITY|||||||0.573|||||||ANCOVA|||||||0.573
82389666|NCT02002533|164490725|SUPERIORITY||Mean Difference (Final Values)|-6.502|STANDARD_ERROR_OF_MEAN|2.558||0.015|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.015
82573869|NCT02844777|164858004|OTHER|||||||0.9518|||||||ANCOVA|||||||0.9518
82573870|NCT02844777|164858004|OTHER|||||||0.2458|||||||ANCOVA|||||||0.2458
82573871|NCT02844777|164858005|OTHER|||||||0.6201|||||||Fisher Exact|||||||0.6201
82573872|NCT02844777|164858005|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82573873|NCT02844777|164858006|OTHER|||||||0.2912|||||||ANCOVA|||||||0.2912
82573874|NCT02844777|164858006|OTHER|||||||0.4168|||||||ANCOVA|||||||0.4168
82573875|NCT02844777|164858007|OTHER|||||||0.6458|||||||ANCOVA|||||||0.6458
82573876|NCT02844777|164858007|OTHER|||||||0.0721|||||||ANCOVA|||||||0.0721
82573877|NCT02844777|164858008|OTHER|||||||0.42|||||||ANCOVA|||||||0.4200
82573878|NCT02844777|164858008|OTHER|||||||0.0241|||||||ANCOVA|||||||0.0241
82573879|NCT00150618|164858018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0|||||ANCOVA|||||||0.0041
82640803|NCT05182840|164996311|OTHER||Mean Difference (Net)|-0.421|||<|0.0001|TWO_SIDED|95.0|-0.596|-0.246|||MMRM||"Least Squares Mean of 20 mg BI 690517 - Least Squares Mean of Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.246|-0.596|<.0001
82389667|NCT02002533|164490725|SUPERIORITY||Mean Difference (Final Values)|-1.723|STANDARD_ERROR_OF_MEAN|1.007||0.094|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.094
82389668|NCT02002533|164490725|SUPERIORITY||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|2.326||0.114|TWO_SIDED||||||ANCOVA||Group difference (BBT - HEAL) in mean post-pre change.|||||0.114
82389669|NCT02002533|164490725|SUPERIORITY||Mean Difference (Final Values)|0.911|STANDARD_ERROR_OF_MEAN|0.4||0.027|TWO_SIDED||||||ANCOVA||This is an arm by baseline interaction parameter.|||||0.027
82573880|NCT00150618|164858018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0176||95.0|||||ANCOVA|||||||0.0176
82426196|NCT01561469|164561279|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Analysis for superinfections category reported.||||1.00
82426197|NCT01561469|164561279|SUPERIORITY_OR_OTHER|||||||0.759|TWO_SIDED||||||Chi-squared|||Analysis for colonization category reported.||||0.759
82426198|NCT01561469|164561280|SUPERIORITY_OR_OTHER|||||||0.773|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.773
82426199|NCT01561469|164561281|SUPERIORITY_OR_OTHER|||||||0.823|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.823
82426200|NCT01561469|164561282|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.276
82426201|NCT01561469|164561283|SUPERIORITY_OR_OTHER|||||||0.512|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.512
82573881|NCT00150618|164858018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||ANCOVA|||||||0.0016
82389670|NCT02653170|164490726|SUPERIORITY||difference-in-differences (DID) p-value|0.025||||0.025|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|PROC MIXED MODEL including main effects of intervention group (UC, SWSCM, SWSCM+VSSP website) and time (7-day and 90-day) plus the interaction term|The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = 0.970 (p=0.335), SWSCM+VSSP vs Usual Care = 3.370 (p\<0.001), SWSCM+VSSP vs SWSCM = 2.400 (p=0.016)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.025
82389671|NCT02653170|164490727|SUPERIORITY||difference-in-differences (DID) p-value|0.562||||0.562|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|PROC MIXED MODEL including main effects of intervention group (UC, SWSCM, SWSCM+VSSP website) and time (7-day and 90-day) plus the interaction term|The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = -1.064 (p=0.422), SWSCM+VSSP vs Usual Care = 0.258 (p=0.844), SWSCM+VSSP vs SWSCM = 1.322 (p=0.309)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.562
82389672|NCT02653170|164490728|SUPERIORITY|||||||0.789||||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|||Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.789
82389673|NCT02653170|164490729|SUPERIORITY||difference-in-differences (DID) p-value|0.042||||0.042|TWO_SIDED|||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis||The DID estimates contrasting the 90-day minus 7-day differences in each group are as follows: SWSCM vs Usual Care = -1.651 (p=0.558), SWSCM+VSSP vs Usual Care = 5.023 (p=0.073), SWSCM+VSSP vs SWSCM = 6.674 (p=0.016)|Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.042
82525698|NCT02799472|164748072|OTHER||Ratio|32.36|||<|0.001|TWO_SIDED|95.0|15.828|66.156|||Repeated measures analysis|||GM-CSF - Complex, Week 2||66.156|15.828|<0.001
82389674|NCT02653170|164490730|SUPERIORITY|||||||0.993||||||P-value represents the test of the interaction term for a difference-in-differences (DID) model \[i.e., 2 degree freedom test of the interaction between intervention group\*time\]|Mixed Models Analysis|||Data were analyzed as the change over time between treatment groups (i.e., 90-day least square mean minus 7-day least square mean) using a difference-in-differences (DID) analysis that involves a group \* time interaction term.||||0.993
82389675|NCT03796442|164490751|NON_INFERIORITY|The study was designed to have 80% power to detect 1-year AVMPG of 12.6±4.3mmHg for the study prosthesis and 11.9±4.3mmHg for the control prosthesis, with a 1-sided type I error of 2.5% and a noninferiority margin of 3mmHg. The noninferiority margin was determined by the values of 15mmHg for AVMPG of clinically significant aortic stenosis and 12mmHg for AVMPG of the control prosthesis.||||||0.0004|||||||t-test, 1 sided|||The null hypothesis was that the AvalusTM was inferior to the CEPME based on the AVMPG at 1-year echocardiographic follow-up, with a non-inferiority margin of 3mmHg. The result for the primary endpoint was presented with 97.5% one-sided confidence interval for mean difference between groups. The non-inferiority test was performed using a t-test which compared mean difference between groups with the non-inferiority margin under the one-sided significance level of 0.025.||||0.0004
82389676|NCT01194999|164490812|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No significant difference from baseline to final follow-up.||||0.001
82640804|NCT05182840|164996311|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0||||||P-value was rounded to four decimal places.|MCPMod Emax model fit|Emax model fit assumption: 80% of the maximum effect is achieved at 10 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod).~MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient."||||0.0000
82426202|NCT01230411|164561285|SUPERIORITY||Odds Ratio (OR)|3.12||||0.078|TWO_SIDED|95.0|0.88|11.0|||Regression, Logistic|||||11.0|0.88|0.078
82525699|NCT02799472|164748072|OTHER||Ratio|55.772|||<|0.001|TWO_SIDED|95.0|25.646|121.287|||Repeated measures analysis|||GM-CSF - Complex, Week 4||121.287|25.646|<0.001
82640805|NCT05182840|164996311|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0||||||P-value was rounded to four decimal places.|MCPMod linear model fit|Linear model fit assumption: No assumption is needed.||"A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod).~MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient."||||0.0000
82640806|NCT05182840|164996311|OTHER|Null hypothesis: The dose-response curve is flat across the 3 BI 690517 doses and the placebo.||||||0.0003|||||||MCPMod exponential model fit|Exponential model fit assumption: 15% of the maximum effect is achieved at 10 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of BI 690517 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod). MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||||0.0003
82640807|NCT05182840|164996312|OTHER||Median Difference (Net)|-15.5|||||TWO_SIDED|95.0|-28.6|0.0|||||"Median of 3 mg BI 690517 - Median of Placebo to BI 690517."|||-0.0|-28.6|
82389677|NCT02091375|164490813|SUPERIORITY||Median Difference (Final Values)|-22.79||||0.0123|TWO_SIDED|95.0|-41.06|-5.43|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach.|||-5.43|-41.06|0.0123
82389678|NCT02091375|164490814|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0784|TWO_SIDED|95.0|0.93|4.3|||Cochran-Mantel-Haenszel|Stratified by age group (2-5 years, 6-12 years, and 13-18 years).||||4.30|0.93|0.0784
82525700|NCT02799472|164748072|OTHER||Ratio|48.336|||<|0.001|TWO_SIDED|95.0|19.341|120.798|||Repeated measures analysis|||GM-CSF - Complex, Week 6||120.798|19.341|<0.001
82640808|NCT05182840|164996312|OTHER||Median Difference (Net)|-38.5|||||TWO_SIDED|95.0|-48.3|-26.8|||||"Median of 10 mg BI 690517 - Median of Placebo to BI 690517."|||-26.8|-48.3|
82640809|NCT05182840|164996312|OTHER||Median Difference (Net)|-34.3|||||TWO_SIDED|95.0|-44.9|-21.8|||||"Median of 20 mg BI 690517 - Median of Placebo to BI 690517."|||-21.8|-44.9|
82640810|NCT05182840|164996313|OTHER||Mean Difference (Net)|-0.227||||0.0867|TWO_SIDED|95.0|-0.488|0.033|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||0.033|-0.488|0.0867
82389679|NCT05139303|164490839|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82389680|NCT03875482|164490868|SUPERIORITY||Mean Difference|59.0|||<|0.001|TWO_SIDED|95.0|48.4|69.6|||Chi-squared|||The variable was analyzed using the Chi-square test. Both null hypotheses corresponding to the co-primary endpoints must be rejected simultaneously under a two-sided significance level of 0.05.||69.6|48.4|<0.001
82389681|NCT03875482|164490869|SUPERIORITY||Mean Difference|68.5|||<|0.001|TWO_SIDED|95.0|57.2|79.7|||Chi-squared|||The variable was analyzed using the Chi-square test. Both null hypotheses corresponding to the co-primary endpoints must be rejected simultaneously under a two-sided significance level of 0.05.||79.7|57.2|<0.001
82389682|NCT03875482|164490870|SUPERIORITY||Mean Difference|36.2|||<|0.001|TWO_SIDED|95.0|26.2|46.2|||Chi-squared|||The ranked secondary efficacy endpoints at Week 16 were to be tested between the risankizumab and placebo treatment groups among the ITT Population in a hierarchical order only if the null hypotheses for both primary endpoints had been rejected.||46.2|26.2|<0.001
82389683|NCT03875482|164490871|SUPERIORITY||Mean Difference|37.1|||<|0.001|TWO_SIDED|95.0|27.1|47.2|||Chi-squared|||The ranked secondary efficacy endpoints at Week 16 were to be tested between the risankizumab and placebo treatment groups among the ITT Population in a hierarchical order only if the null hypotheses for both primary endpoints and for the first secondary endpoint had been rejected.||47.2|27.1|<0.001
82389684|NCT03875482|164490872|SUPERIORITY||LS Mean Difference|-36.14|STANDARD_ERROR_OF_MEAN|4.956|<|0.001|TWO_SIDED|95.0|-45.936|-26.346|||Mixed-effect Model Repeat Measurements||Risankizumab - placebo|"Risankizumab vs placebo at Week 4~Mixed-effect Model Repeat Measurements (MMRM): The repeated measures analysis was conducted using a mixed model including the baseline value and observed measurements at all post-baseline visits. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction as covariates."||-26.346|-45.936|<0.001
82426203|NCT02777086|164561353|SUPERIORITY||||||<|0.001|||||||ANCOVA|||3-month outcome measures were compared between the StaySafe and Comparison groups controlling for the baseline measure using generalized linear models.||||<.001
82525701|NCT02799472|164748072|OTHER||Ratio|34.635|||<|0.001|TWO_SIDED|95.0|13.69|87.629|||Repeated measures analysis|||GM-CSF - Complex, Week 8||87.629|13.690|<0.001
82389685|NCT03875482|164490872|SUPERIORITY||LS Mean Difference|-59.97|STANDARD_ERROR_OF_MEAN|5.326|<|0.001|TWO_SIDED|95.0|-70.501|-49.439|||Mixed-effect Model Repeat Measurements||Risankizumab - placebo|"Risankizumab vs placebo at Week 16~Mixed-effect Model Repeat Measurements (MMRM): The repeated measures analysis was conducted using a mixed model including the baseline value and observed measurements at all post-baseline visits. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction as covariates."||-49.439|-70.501|<0.001
82389686|NCT00507819|164490882|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Regression, Linear|||||||0.73
82389687|NCT00507819|164490883|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Regression, Linear|||||||0.37
82389688|NCT00507819|164490884|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
82389689|NCT00507819|164490885|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Linear|||||||0.04
82389690|NCT02045862|164490897|SUPERIORITY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.69|-0.21||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.69|<0.001
82525702|NCT02799472|164748072|OTHER||Ratio|23.249|||<|0.001|TWO_SIDED|95.0|8.579|63.005|||Repeated measures analysis|||GM-CSF - Complex, Week 12||63.005|8.579|<0.001
82525703|NCT02799472|164748072|OTHER||Ratio|1.233||||0.401|TWO_SIDED|95.0|0.742|2.048|||Repeated measures analysis|||GM-CSF - Complex, 12-Week FU||2.048|0.742|0.401
82389691|NCT02045862|164490897|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.37|0.11||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.11|-0.37|0.002
82389692|NCT02045862|164490898|SUPERIORITY||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.77|-0.2||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the ANCOVA model.|ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.20|-0.77|<0.001
82389693|NCT02045862|164490898|SUPERIORITY||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.71|-0.13||The 2-sided P value was for pairwise comparisons between the combination therapy group and the corresponding monotherapy group from the ANCOVA model.|ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.13|-0.71|0.004
82389694|NCT02045862|164490899|SUPERIORITY||Least Squares Mean Difference|15.84|STANDARD_ERROR_OF_MEAN|3.49|<|0.001|TWO_SIDED|95.0|8.99|22.69|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||22.69|8.99|<0.001
82389695|NCT02045862|164490899|SUPERIORITY||Least Squares Mean Difference|12.77|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|5.98|19.57|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||19.57|5.98|<0.001
82389696|NCT02045862|164490900|SUPERIORITY||Least Squares Mean Difference|-7.55|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-10.05|-5.05|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-5.05|-10.05|<0.001
82389697|NCT02045862|164490900|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-7.09|-2.12|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-2.12|-7.09|<0.001
82426204|NCT01819272|164561395|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-9.0||||0.067|TWO_SIDED|95.0|-21.0|1.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||1.0|-21.0|0.0670
82426205|NCT01819272|164561395|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-14.0||||0.0057|TWO_SIDED|95.0|-22.0|-4.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-4.0|-22.0|0.0057
82525704|NCT02799472|164748073|OTHER||Ratio|0.943||||0.193|TWO_SIDED|95.0|0.861|1.032|||Repeated measures analysis|||14-3-3 ETA Protein, Week 1||1.032|0.861|0.193
82525705|NCT02799472|164748073|OTHER||Ratio|1.028||||0.842|TWO_SIDED|95.0|0.776|1.362|||Repeated measures analysis|||14-3-3 ETA Protein, Week 2||1.362|0.776|0.842
82525706|NCT02799472|164748073|OTHER||Ratio|0.743||||0.127|TWO_SIDED|95.0|0.505|1.093|||Repeated measures analysis|||14-3-3 ETA Protein, Week 4||1.093|0.505|0.127
82525707|NCT02799472|164748073|OTHER||Ratio|0.762||||0.137|TWO_SIDED|95.0|0.531|1.095|||Repeated measures analysis|||14-3-3 ETA Protein, Week 6||1.095|0.531|0.137
82389698|NCT02045862|164490901|SUPERIORITY||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.28|0.82|||ANCOVA|||Difference vs. Mirabegron 50 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.82|0.28|<0.001
82389699|NCT02045862|164490901|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.32|0.86|||ANCOVA|||Difference vs. Solifenacin 5 mg: Difference of the adjusted mean (i.e., least squares mean) was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.86|0.32|<0.001
82525708|NCT02799472|164748073|OTHER||Ratio|0.886||||0.488|TWO_SIDED|95.0|0.623|1.259|||Repeated measures analysis|||14-3-3 ETA Protein, Week 8||1.259|0.623|0.488
82647801|NCT01872689|165011112|SUPERIORITY||Median Difference (Final Values)|21.93023|STANDARD_ERROR_OF_MEAN|21.62248||0.3129|TWO_SIDED|95.0|-20.97|64.83|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||64.83|-20.97|0.3129
82426206|NCT01819272|164561395|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-12.0||||0.1095|TWO_SIDED|95.0|-25.0|3.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||3.0|-25.0|0.1095
82525709|NCT02799472|164748073|OTHER||Ratio|0.793||||0.338|TWO_SIDED|95.0|0.488|1.29|||Repeated measures analysis|||14-3-3 ETA Protein, Week 12||1.290|0.488|0.338
82525710|NCT02799472|164748073|OTHER||Ratio|0.859||||0.582|TWO_SIDED|95.0|0.491|1.502|||Repeated measures analysis|||14-3-3 ETA Protein, 12-Week FU||1.502|0.491|0.582
82525711|NCT02799472|164748073|OTHER||Ratio|0.999||||0.996|TWO_SIDED|95.0|0.699|1.427|||Repeated measures analysis|||S100 CBP A8 and A9, Week 1||1.427|0.699|0.996
82389700|NCT02045862|164490903|SUPERIORITY||Rate Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.54|0.84|||Mixed Effects Poisson-Negative Binomial|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of incontinence episodes divided by number of valid diary days) at baseline included as a covariate and number of valid diary day at EoT as the offset variable.||0.84|0.54|<0.001
82389701|NCT02045862|164490903|SUPERIORITY||Rate Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.12||0.029|TWO_SIDED|95.0|0.61|0.97|||Mixed Effects Poisson-Negative Binomial|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of incontinence episodes divided by number of valid diary days) at baseline included as a covariate and number of valid diary day at EoT as the offset variable.||0.97|0.61|0.029
82426207|NCT01819272|164561395|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-12.0||||0.0097|TWO_SIDED|95.0|-23.0|-3.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-3.0|-23.0|0.0097
82426208|NCT01819272|164561395|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-28.0|||<|0.0001|TWO_SIDED|95.0|-42.0|-17.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-17.0|-42.0|<0.0001
82647802|NCT01872689|165011112|SUPERIORITY||Mean Difference (Final Values)|-21.4127|STANDARD_ERROR_OF_MEAN|16.8016||0.2036|TWO_SIDED|95.0|-54.5|11.67|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||11.67|-54.50|0.2036
82426209|NCT01819272|164561396|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-106.0||||0.0226|TWO_SIDED|95.0|-208.0|-16.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-16.00|-208.0|0.0226
82525712|NCT02799472|164748073|OTHER||Ratio|0.944||||0.745|TWO_SIDED|95.0|0.662|1.346|||Repeated measures analysis|||S100 CBP A8 and A9, Week 2||1.346|0.662|0.745
82426210|NCT01819272|164561396|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-106.0||||0.0068|TWO_SIDED|95.0|-180.0|-32.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-32.00|-180.0|0.0068
82525713|NCT02799472|164748073|OTHER||Ratio|1.017||||0.939|TWO_SIDED|95.0|0.649|1.593|||Repeated measures analysis|||S100 CBP A8 and A9, Week 4||1.593|0.649|0.939
82573882|NCT00150618|164858018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
82389702|NCT02045862|164490904|SUPERIORITY||Least Squares Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-4.76|-1.49||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.49|-4.76|<0.001
82389703|NCT02045862|164490904|SUPERIORITY||Least Squares Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.84|<|0.001|TWO_SIDED|95.0|-2.57|0.72||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.72|-2.57|<0.001
82389704|NCT02045862|164490905|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.26|2.01|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours as a covariate||2.01|1.26|<0.001
82389705|NCT02045862|164490905|SUPERIORITY||Odds Ratio (OR)|1.38||||0.009|TWO_SIDED|95.0|1.08|1.75|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours as a covariate.||1.75|1.08|0.009
82389706|NCT02045862|164490906|SUPERIORITY||Odds Ratio (OR)|1.61|||<|0.001|TWO_SIDED|95.0|1.26|2.05|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours and baseline mean number of micturitions per 24 hours as a covariates.||2.05|1.26|<0.001
82389707|NCT02045862|164490906|SUPERIORITY||Odds Ratio (OR)|1.45||||0.002|TWO_SIDED|95.0|1.14|1.85|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and log transformed baseline mean number of incontinence episodes per 24 hours and baseline mean number of micturitions per 24 hours as a covariates.||1.85|1.14|0.002
82389708|NCT02045862|164490907|SUPERIORITY||Least Squares Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.65|-0.21||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.21|-0.65|<0.001
82389709|NCT02045862|164490907|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.11||0.009|TWO_SIDED|95.0|-0.36|0.09||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate||0.09|-0.36|0.009
82389710|NCT02045862|164490908|SUPERIORITY||Rate Ratio|0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|0.48|0.79|||Negative Binomial Regression|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥65 years), geographic region and previous study history as factors, log(number of urgency incontinence episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary days at EoT as the offset variable||0.79|0.48|<0.001
82389711|NCT02045862|164490908|SUPERIORITY||Rate Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.13||0.023|TWO_SIDED|95.0|0.58|0.96|||Negative Binomial Regression|||Rate ratio of number of incontinence episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of urgency incontinence episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary day at EoT as the offset variable||0.96|0.58|0.023
82389712|NCT02045862|164490909|SUPERIORITY||Least Squares Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.51|-1.46||The two-sided p-value is for pairwise comparisons between the combination therapy group and the mirabegron monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.46|-4.51|<0.001
82647803|NCT01872689|165011114|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.4299|TWO_SIDED|95.0|0.44|1.41|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.41|0.44|0.4299
82647804|NCT01872689|165011114|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3751|TWO_SIDED|95.0|0.56|1.24|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.24|0.56|0.3751
82389713|NCT02045862|164490909|SUPERIORITY||Stratified Rank ANCOVA|-0.93|STANDARD_ERROR_OF_MEAN|0.78||0.006|TWO_SIDED|95.0|-2.47|0.61||The two-sided p-value is for pairwise comparisons between the combination therapy group and the solifenacin monotherapy group from stratified rank ANCOVA.|Stratified Rank ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.61|-2.47|0.006
82389714|NCT02045862|164490911|SUPERIORITY||Odds Ratio (OR)|1.44||||0.002|TWO_SIDED|95.0|1.14|1.8|||Overdispersed Binomial Regression|||Odds ratio vs. Mirabegron 50 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.8|1.14|0.002
82389715|NCT02045862|164490911|SUPERIORITY||Odds Ratio (OR)|1.37||||0.007|TWO_SIDED|95.0|1.09|1.73|||Overdispersed Binomial Regression|||Odds ratio vs. Solifenacin 5 mg (EoT): Odds ratio was from a overdispersed binomial regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.73|1.09|0.007
82389716|NCT02045862|164490912|SUPERIORITY||Least Squares Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.16|-0.41|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.41|-1.16|<0.001
82389717|NCT02045862|164490912|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.037|TWO_SIDED|95.0|-0.77|-0.02|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline mean number of micturitions per 24 hours as a covariate.||-0.02|-0.77|0.037
82640811|NCT05182840|164996313|OTHER||Mean Difference (Net)|-0.469||||0.0007|TWO_SIDED|95.0|-0.737|-0.201|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.201|-0.737|0.0007
82389718|NCT02045862|164490914|SUPERIORITY||Least Squares Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.1|-0.37|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.37|-1.10|<0.001
82389719|NCT02045862|164490914|SUPERIORITY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.036|TWO_SIDED|95.0|-0.76|-0.03|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.03|-0.76|0.036
82389720|NCT02045862|164490915|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.059|TWO_SIDED|95.0|-0.19|0.0|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.00|-0.19|0.059
82389721|NCT02045862|164490915|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.068|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.01|-0.19|0.068
82525714|NCT02799472|164748073|OTHER||Ratio|0.981||||0.937|TWO_SIDED|95.0|0.595|1.617|||Repeated measures analysis|||S100 CBP A8 and A9, Week 6||1.617|0.595|0.937
82426211|NCT01819272|164561396|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-152.0||||0.0071|TWO_SIDED|95.0|-252.0|-42.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-42.00|-252.0|0.0071
82573883|NCT00150618|164858019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.0010
82426212|NCT01819272|164561396|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-101.0||||0.0405|TWO_SIDED|95.0|-208.0|-4.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-4.00|-208.0|0.0405
82573884|NCT00150618|164858019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0468||95.0|||||ANCOVA|||||||0.0468
82573885|NCT00150618|164858019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||ANCOVA|||||||0.0056
82389722|NCT02045862|164490916|SUPERIORITY||Rate Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.06||0.067|TWO_SIDED|95.0|0.81|1.01|||Negative Binomial Regression|||Rate ratio of number of nocturia episodes during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of nocturia episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable||1.01|0.81|0.067
82640812|NCT05182840|164996313|OTHER||Mean Difference (Net)|-0.429||||0.0027|TWO_SIDED|95.0|-0.707|-0.151|||MMRM||"Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 6905177 - Least Squares Mean of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.151|-0.707|0.0027
82640813|NCT05182840|164996314|OTHER||Median Difference (Net)|-20.3|||||TWO_SIDED|95.0|-38.6|3.4|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|||3.4|-38.6|
82640814|NCT05182840|164996314|OTHER||Median Difference (Net)|-37.4|||||TWO_SIDED|95.0|-52.2|-18.2|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517"|||-18.2|-52.2|
82640815|NCT05182840|164996314|OTHER||Median Difference (Net)|-34.9|||||TWO_SIDED|95.0|-50.7|-14.0|||||"Median of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 6905177 - median of Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|||-14.0|-50.7|
82426213|NCT01819272|164561396|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimation|-224.0|||<|0.0001|TWO_SIDED|95.0|-334.0|-118.0||p-value for pair-wise comparison without adjustment|Kruskal-Wallis|||||-118.0|-334.0|<.0001
82640816|NCT05182840|164996315|OTHER||Mean Difference (Net)|-0.098||||0.3737|TWO_SIDED|95.0|-0.316|0.119|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||0.119|-0.316|0.3737
82640817|NCT05182840|164996315|OTHER||Mean Difference (Net)|-0.502|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.275|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.275|-0.730|<.0001
82640818|NCT05182840|164996315|OTHER||Mean Difference (Net)|-0.404||||0.0004|TWO_SIDED|95.0|-0.625|-0.184|||MMRM||"Least Squares Mean of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 - Least Squares Mean of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|The difference of adjusted means and 95 % confidence interval were estimated by restricted maximum likelihood-based mixed models for repeated measures ((REML)-based MMRM) which included the fixed effects of treatment at each visit, baseline (continuous) at each visit, and baseline, visit, treatment, background medication (empagliflozin or placebo matching empagliflozin) and randomisation stratum as main effects, as well as random effects of patient.||-0.184|-0.625|0.0004
82640819|NCT05182840|164996316|OTHER||Median Difference (Net)|-9.4|||||TWO_SIDED|95.0|-27.1|12.7|||||"Median of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||12.7|-27.1|
82640820|NCT05182840|164996316|OTHER||Median Difference (Net)|-39.5|||||TWO_SIDED|95.0|-51.8|-24.0|||||"Median of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||-24.0|-51.8|
82640821|NCT05182840|164996316|OTHER||Median Difference (Net)|-33.2|||||TWO_SIDED|95.0|-46.5|-16.8|||||"Median of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 - median of Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|||-16.8|-46.5|
82426214|NCT01819272|164561397|SUPERIORITY_OR_OTHER||LS Mean|-0.48||||0.01|TWO_SIDED|95.0|-0.85|-0.12|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.12|-0.85|0.0100
82640822|NCT05182840|164996317|OTHER||Odds Ratio (OR)|2.08||||0.0136|TWO_SIDED|95.0|1.16|3.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.72|1.16|0.0136
82640823|NCT05182840|164996317|OTHER||Odds Ratio (OR)|7.02||||0|TWO_SIDED|95.0|3.94|12.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||12.49|3.94|0.0000
82389723|NCT02045862|164490916|SUPERIORITY||Rate Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.06||0.131||95.0|0.82|1.03|||Negative Binomial Regression|||Rate ratio of number of nocturia episodes during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group was calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of nocturia episodes divided by number of valid diary days) included as a covariate and post baseline number of valid diary day as the offset variable.||1.03|0.82|0.131
82389724|NCT02045862|164490917|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.35||0.055|TWO_SIDED|95.0|-1.34|0.01|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.01|-1.34|0.055
82389725|NCT02045862|164490917|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.048|TWO_SIDED|95.0|-1.39|-0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean was calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.01|-1.39|0.048
82573886|NCT00150618|164858019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0237||95.0|||||ANCOVA|||||||0.0237
82426215|NCT01819272|164561397|SUPERIORITY_OR_OTHER||LS Mean|-0.45||||0.0153|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.09|-0.81|0.0153
82389726|NCT02045862|164490918|SUPERIORITY||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED|95.0|-0.69|-0.16|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.16|-0.69|0.002
82389727|NCT02045862|164490918|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.039|TWO_SIDED|95.0|-0.55|-0.01|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.01|-0.55|0.039
82389728|NCT02045862|164490919|SUPERIORITY||Rate Ratio|0.58|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.45|0.76|||Negative Binomial Regression|||Rate ratio vs. Mirabegron 50 mg (EoT): Rate ratio of number of pads during the EoT 7-day diary between the combination therapy group and the mirabegron monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of pads divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable.||0.76|0.45|<0.001
82389729|NCT02045862|164490919|SUPERIORITY||Rate Ratio|0.76|STANDARD_ERROR_OF_MEAN|0.14||0.044|TWO_SIDED|95.0|0.58|0.99|||Negative Binomial Regression|||Rate ratio vs. Solifenacin 5 mg (EoT): Rate ratio of number of pads during the EoT 7-day diary between the combination therapy group and the solifenacin monotherapy group is calculated from a negative binomial regression model incl. treatment group, sex, age group (\< 65, ≥ 65 years), geographic region and previous study history as factors, log(number of pads divided by number of valid diary days) included as a covariate and post baseline number of valid diary days as the offset variable.||0.99|0.58|0.044
82389730|NCT02045862|164490920|SUPERIORITY||Least Squares Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.92||0.001|TWO_SIDED|95.0|-4.78|-1.18|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-1.18|-4.78|0.001
82389731|NCT02045862|164490920|SUPERIORITY||Least Squares Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.072|TWO_SIDED|95.0|-3.52|0.15|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||0.15|-3.52|0.072
82389732|NCT02045862|164490922|SUPERIORITY||Least Squares Mean Difference|4.76|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|2.56|6.96|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||6.96|2.56|<0.001
82389733|NCT02045862|164490922|SUPERIORITY||Least Squares Mean Difference|2.86|STANDARD_ERROR_OF_MEAN|1.11||0.01|TWO_SIDED|95.0|0.68|5.04|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.04|0.68|0.010
82389734|NCT02045862|164490923|SUPERIORITY||Least Squares Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|2.99|8.2|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||8.20|2.99|<0.001
82389735|NCT02045862|164490923|SUPERIORITY||Least Squares Mean Difference|3.01|STANDARD_ERROR_OF_MEAN|1.32||0.022|TWO_SIDED|95.0|0.43|5.6|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.60|0.43|0.022
82389736|NCT02045862|164490924|SUPERIORITY||Least Squares Mean Difference|5.01|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|2.65|7.38|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||7.38|2.65|<0.001
82389737|NCT02045862|164490924|SUPERIORITY||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|1.43|6.13|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||6.13|1.43|0.002
82426216|NCT01819272|164561397|SUPERIORITY_OR_OTHER||LS Mean|-0.35||||0.0611|TWO_SIDED|95.0|-0.71|0.02|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||0.02|-0.71|0.0611
82426217|NCT01819272|164561397|SUPERIORITY_OR_OTHER||LS Mean|-0.45||||0.0188|TWO_SIDED|95.0|-0.83|-0.08|||ANCOVA|Factor for treatment and baseline HbA1c as acovariate||||-0.08|-0.83|0.0188
82640824|NCT05182840|164996317|OTHER||Odds Ratio (OR)|5.48||||0|TWO_SIDED|95.0|3.09|9.71||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.71|3.09|0.0000
82389738|NCT02045862|164490925|SUPERIORITY||Least Squares Mean Difference|5.15|STANDARD_ERROR_OF_MEAN|1.36|<|0.001|TWO_SIDED|95.0|2.47|7.83|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||7.83|2.47|<0.001
82389739|NCT02045862|164490925|SUPERIORITY||Least Squares Mean Difference|3.27|STANDARD_ERROR_OF_MEAN|1.35||0.016|TWO_SIDED|95.0|0.62|5.93|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||5.93|0.62|0.016
82389740|NCT02045862|164490926|SUPERIORITY||Least Squares Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|0.98||0.006|TWO_SIDED|95.0|0.77|4.59|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||4.59|0.77|0.006
82389741|NCT02045862|164490926|SUPERIORITY||Least Squares Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.97||0.287|TWO_SIDED|95.0|-0.87|2.93|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||2.93|-0.87|0.287
82389742|NCT02045862|164490928|SUPERIORITY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.47|-0.16|||ANCOVA|||Difference vs. Mirabegron 50 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the mirabegron monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.16|-0.47|<0.001
82389743|NCT02045862|164490928|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.011|TWO_SIDED|95.0|-0.36|-0.05|||ANCOVA|||Difference vs. Solifenacin 5 mg (EoT): Difference of the adjusted mean is calculated by subtracting the adjusted mean of the solifenacin monotherapy group from the adjusted mean of the combination therapy group (solifenacin 5 mg + mirabegron 50 mg) based on the ANCOVA model with treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as fixed factors and baseline value as a covariate.||-0.05|-0.36|0.011
82389744|NCT02045862|164490940|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.26|2.15|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||2.15|1.26|<0.001
82389745|NCT02045862|164490940|SUPERIORITY||Odds Ratio (OR)|1.27||||0.08|TWO_SIDED|95.0|0.97|1.67|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours during the last 3 days as a covariate.||1.67|0.97|0.080
82389746|NCT02045862|164490941|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.001|TWO_SIDED|95.0|1.49|2.78|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.78|1.49|<0.001
82389747|NCT02045862|164490941|SUPERIORITY||Odds Ratio (OR)|1.87|||<|0.001|TWO_SIDED|95.0|1.37|2.57|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.57|1.37|<0.001
82389748|NCT02045862|164490942|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.001|TWO_SIDED|95.0|1.36|2.43|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||2.43|1.36|<0.001
82389749|NCT02045862|164490942|SUPERIORITY||Odds Ratio (OR)|1.44||||0.014|TWO_SIDED|95.0|1.08|1.92|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline OAB-q subscale as a covariate.||1.92|1.08|0.014
82389750|NCT02045862|164490943|SUPERIORITY||Odds Ratio (OR)|1.8|||<|0.001|TWO_SIDED|95.0|1.34|2.41|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.41|1.34|<0.001
82640825|NCT05182840|164996318|OTHER||Odds Ratio (OR)|2.15||||0.0111|TWO_SIDED|95.0|1.19|3.88||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.88|1.19|0.0111
82389751|NCT02045862|164490943|SUPERIORITY||Odds Ratio (OR)|1.44||||0.019|TWO_SIDED|95.0|1.06|1.95|||Regression, Logistic|||Odds ratio wa from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.95|1.06|0.019
82389752|NCT02045862|164490944|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.26|2.19|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||2.19|1.26|<0.001
82389753|NCT02045862|164490944|SUPERIORITY||Odds Ratio (OR)|1.23||||0.133|TWO_SIDED|95.0|0.94|1.62|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours as a covariate.||1.62|0.94|0.133
82389754|NCT02045862|164490945|SUPERIORITY||Odds Ratio (OR)|1.55||||0.002|TWO_SIDED|95.0|1.18|2.03|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||2.03|1.18|0.002
82389755|NCT02045862|164490945|SUPERIORITY||Odds Ratio (OR)|1.48||||0.006|TWO_SIDED|95.0|1.12|1.95|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of micturitions per 24 hours as a covariate.||1.95|1.12|0.006
82389756|NCT02045862|164490946|SUPERIORITY||Odds Ratio (OR)|1.68|||<|0.001|TWO_SIDED|95.0|1.24|2.29|||Regression, Logistic|||Odds ratio is from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.29|1.24|<0.001
82389757|NCT02045862|164490946|SUPERIORITY||Odds Ratio (OR)|1.29||||0.109|TWO_SIDED|95.0|0.94|1.77|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||1.77|0.94|0.109
82389758|NCT02045862|164490947|SUPERIORITY||Odds Ratio (OR)|1.69|||<|0.001|TWO_SIDED|95.0|1.26|2.25|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.25|1.26|<0.001
82389759|NCT02045862|164490947|SUPERIORITY||Odds Ratio (OR)|1.62|||<|0.001|TWO_SIDED|95.0|1.22|2.16|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline PPBC as a covariate.||2.16|1.22|<0.001
82389760|NCT02045862|164490948|SUPERIORITY||Odds Ratio (OR)|1.99|||<|0.001|TWO_SIDED|95.0|1.5|2.62|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.62|1.50|<0.001
82389761|NCT02045862|164490948|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.35|2.36|||Regression, Logistic|||Odds ratio is from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q symptom bother scale as covariates.||2.36|1.35|<0.001
82389762|NCT02045862|164490949|SUPERIORITY||Odds Ratio (OR)|1.93|||<|0.001|TWO_SIDED|95.0|1.46|2.54|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.54|1.46|<0.001
82389763|NCT02045862|164490949|SUPERIORITY||Odds Ratio (OR)|1.59||||0.001|TWO_SIDED|95.0|1.2|2.09|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline OAB-q HRQL total score as covariates.||2.09|1.20|0.001
82389764|NCT02045862|164490950|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.28|2.26|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline PPBC as covariates.||2.26|1.28|<0.001
82389765|NCT02045862|164490950|SUPERIORITY||Odds Ratio (OR)|1.4||||0.019|TWO_SIDED|95.0|1.06|1.86|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours and baseline PPBC as covariates.||1.86|1.06|0.019
82389766|NCT02045862|164490951|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.001|TWO_SIDED|95.0|1.4|2.46|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.46|1.40|<0.001
82389767|NCT02045862|164490951|SUPERIORITY||Odds Ratio (OR)|1.58||||0.001|TWO_SIDED|95.0|1.19|2.09|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q symptom bother scale and baseline PPBC as covariates.||2.09|1.19|0.001
82389768|NCT02045862|164490952|SUPERIORITY||Odds Ratio (OR)|1.76|||<|0.001|TWO_SIDED|95.0|1.33|2.34|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||2.34|1.33|<0.001
82426218|NCT01819272|164561397|SUPERIORITY_OR_OTHER||LS Mean|-0.67||||0.0006|TWO_SIDED|95.0|-1.04|-0.29|||ANCOVA|Factor for treatment and baseline HbA1c as a covariate||||-0.29|-1.04|0.0006
82389769|NCT02045862|164490952|SUPERIORITY||Odds Ratio (OR)|1.43||||0.012|TWO_SIDED|95.0|1.08|1.89|||Regression, Logistic|||Odds ratio was from a logistic regression model including treatment group, sex, age group (\< 65, ≥ 65 years), previous study history and geographic region as factors and baseline mean number of incontinence episodes per 24 hours, baseline OAB-q HRQL total score and baseline PPBC as covariates.||1.89|1.08|0.012
82389770|NCT00732758|164490970|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||ANCOVA|adjusting for baseline 25(OH)D, race, BMI, diet vitamin D, gender, pubertal status, and sunlight exposure.||||||0.003
82389771|NCT00732758|164490971|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|unadjusted p-values||||||0.51
82389772|NCT00732758|164490972|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
82389773|NCT00732758|164490973|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||t-test, 2 sided|||||||0.35
82389774|NCT01552915|164490974|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-2.1|STANDARD_ERROR_OF_MEAN|1.15||0.0717|TWO_SIDED|95.0|-4.3|0.2|||mixed effects model for repeated measure|||||0.2|-4.3|0.0717
82389775|NCT01552915|164490974|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-12.2|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|-15.1|-9.4|||mixed effects model for repeated measure|||||-9.4|-15.1|<0.0001
82389776|NCT01552915|164490974|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-10.1|STANDARD_ERROR_OF_MEAN|1.43|<|0.0001|TWO_SIDED|95.0|-13.0|-7.3|||mixed effects model for repeated measure|||||-7.3|-13.0|<0.0001
82573887|NCT00150618|164858020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0074||95.0|||||Cochran-Mantel-Haenszel|||||||0.0074
82573888|NCT00150618|164858020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1404||95.0|||||Cochran-Mantel-Haenszel|||||||0.1404
82640826|NCT05182840|164996318|OTHER||Odds Ratio (OR)|6.33||||0|TWO_SIDED|95.0|3.49|11.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.49|3.49|0.0000
82389777|NCT01552915|164490975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6165|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6165
82389778|NCT01552915|164490975|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82389779|NCT01552915|164490975|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.0001
82389780|NCT02858180|164490987|OTHER||Proportion|86.7|||||TWO_SIDED|95.0|59.5|98.3||||||||98.3|59.5|
82389781|NCT02572076|164491010|OTHER|Pilot study- no sample size was calculated|number of subjects with adequate cleansi|100.0|||||TWO_SIDED|95.0|66.0|100.0||||||patients had partial bowel preparation to mimic poor bowel cleansing before the colonoscopy procedure at baseline, MCS was used during the procedure to clean the colon.||100|66|
82389782|NCT03518619|164491019|OTHER|This is a single group design. Paired-samples t-tests were conducted.|||||<|0.05||||||This is a calculated p-value.|t-test, 2 sided|||||||<.05
82389783|NCT03518619|164491020|OTHER|This is a single group design. Paired-samples t-tests were conducted.|||||<|0.01||||||This is a calculated p-value.|t-test, 2 sided|||||||<.01
82389784|NCT01640379|164491021|SUPERIORITY||Odds Ratio (OR)|0.4||||0.07|TWO_SIDED|95.0|0.15|1.09||Judged by type one error limit alpha = 0.05.|t-test, 2 sided||The odds ratio is for the difference in chlamydia or gonorrhea (CT/GC) rates between arms at ninety days after intervention.|A comparison of Chlamydia or Gonorrhea positivity at 90 days post intervention.||1.09|0.15|0.070
82389785|NCT01640379|164491021|SUPERIORITY||Odds Ratio (OR)|0.59||||0.043|TWO_SIDED|95.0|0.39|0.98||Judged by type one error limit alpha = 0.05.|generalized estimating equations||The odds ratio is for the difference in rate of change over time between arms, so is the difference in the odds increment for those receiving TECH N intervention versus the control group.|"We used generalized estimating equations to test for a difference in the trend of chlamydia or gonorrhea (CT/GC) rates over the study period.~The null hypothesis is that rates of CT/GC for women in the intervention arm were changing over the study period similarly to CT/GC rates in the control arm."||0.98|0.39|0.043
82389786|NCT01640379|164491022|SUPERIORITY||Odds Ratio (OR)|92.2|||<|0.001|TWO_SIDED|95.0|37.0|230.1|||Chi-squared|Adjusted for age, debut age, number of lifetime partners, baseline STI status (any vs none), insurance, and if woman had prior pregnancy.|Odds ratio is interpretable as the expected chance of having a 72 follow-up for intervention women compared to women in the control arm, given similar age, debut age, number of lifetime partners, baseline STI status, insurance, and pregnancy history.|H0: Women in TECHN arm had 72 hour visit with same frequency as women in control arm.||230.1|37.0|<0.001
82389787|NCT01640379|164491022|SUPERIORITY||Odds Ratio (OR)|0.6||||0.084|TWO_SIDED|95.0|0.36|1.05|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for intervention arm relative to control.|H0: Women in TECHN arm reported complete adherence to medication regimen (yes or no) with same frequency as women in control arm.||1.05|0.36|0.084
82389788|NCT01640379|164491022|SUPERIORITY||Odds Ratio (OR)|0.9||||0.867|TWO_SIDED|95.0|0.36|2.34|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for the chances of partner notification among TECH N recipients, relative to those in control arm.|H0: Women in TECHN arm notified their partners about their diagnoses more often than women in the control arm.||2.34|0.36|0.867
82573889|NCT00150618|164858020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0055||95.0|||||Cochran-Mantel-Haenszel|||||||0.0055
82573890|NCT00150618|164858020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0|||||Cochran-Mantel-Haenszel|||||||0.0041
82573891|NCT00150618|164858021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0303||95.0|||||Cochran-Mantel-Haenszel|||||||0.0303
82573892|NCT00150618|164858021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4982||95.0|||||Cochran-Mantel-Haenszel|||||||0.4982
82573893|NCT00150618|164858021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|||||||0.0017
82573894|NCT00150618|164858021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Cochran-Mantel-Haenszel|||||||0.0063
82389789|NCT01640379|164491022|SUPERIORITY||Odds Ratio (OR)|0.6||||0.153|TWO_SIDED|95.0|0.33|1.19|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for partners of TECH-N recipients versus partners of women in control arm.|H0: Partners of women receiving the TECH-N intervention were treated more often than the partners of women in the control arm.||1.19|0.33|0.153
82389790|NCT01640379|164491022|SUPERIORITY||Odds Ratio (OR)|1.0||||0.351|TWO_SIDED|95.0|0.86|1.06|||Regression, Logistic|Adjusted for age, debut age, number of lifetime partners, pregnancy history, baseline STI status (any versus none), and insurance.|Odds ratio is for women in the TECH-N arm relative to women in the control arm.|H0: Women in the TECHN arm practiced temporary sexual abstinence for two weeks after their diagnosis more often than those in the control arm.||1.06|0.86|0.351
82525715|NCT02799472|164748073|OTHER||Ratio|1.067||||0.787|TWO_SIDED|95.0|0.659|1.727|||Repeated measures analysis|||S100 CBP A8 and A9, Week 8||1.727|0.659|0.787
82573895|NCT00150618|164858022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0383||95.0|||||ANCOVA|||Psychosocial category||||0.0383
82573896|NCT00150618|164858022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5859||95.0|||||ANCOVA|||Psychosocial category||||0.5859
82573897|NCT00150618|164858022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2136||95.0|||||ANCOVA|||Psychosocial category||||0.2136
82573898|NCT00150618|164858022|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1483||95.0|||||ANCOVA|||Psychosocial category||||0.1483
82573899|NCT04092452|164858031|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|9.69||0.4696|TWO_SIDED|90.0|-15.2|16.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||16.7|-15.2|0.4696
82573900|NCT04092452|164858031|SUPERIORITY||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|9.71||0.0298|TWO_SIDED|90.0|2.7|34.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||34.6|2.7|0.0298
82573901|NCT04092452|164858031|SUPERIORITY||Risk Difference (RD)|3.5|STANDARD_ERROR_OF_MEAN|9.79||0.3606|TWO_SIDED|90.0|-12.6|19.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||The null hypothesis for primary efficacy analysis was that the percentage of participants achieving HiSCR response at Week 16 was the same for the active treatment (PF-06650833, PF-06700841 or PF-06826647) and placebo. The treatment was considered superior to control if the difference was statistically significant at the overall 1-sided 0.1 level.||19.6|-12.6|0.3606
82640827|NCT05182840|164996318|OTHER||Odds Ratio (OR)|5.21||||0|TWO_SIDED|95.0|2.88|9.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.44|2.88|0.0000
82640828|NCT05182840|164996319|OTHER||Odds Ratio (OR)|1.8||||0.0348|TWO_SIDED|95.0|1.04|3.09||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.09|1.04|0.0348
82389791|NCT04064411|164491023|NON_INFERIORITY|"Noninferiority margin = 2.0% for abaloparatide-sMTS compared with abaloparatide-SC.~Non-inferiority was to be concluded if the lower bound of the 2-sided 95% confidence interval (CI) for the estimated treatment difference (abaloparatide-sMTS minus abaloparatide-SC) in the percent change from baseline in lumbar spine BMD at 12 months was above -2.0% using a Mixed Model for Repeated Measures (MMRM) analysis."|Least Squares Means (LSM) Difference|-3.721|||||TWO_SIDED|95.0|-5.0089|-2.4331|||||LSM Difference = abaloparatide-sMTS minus abaloparatide-SC|||-2.4331|-5.0089|
82573902|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-3.8|STANDARD_ERROR_OF_MEAN|7.19|||TWO_SIDED|90.0|-15.6|8.0||||||Week 1||8.0|-15.6|
82573903|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|7.28|||TWO_SIDED|90.0|-12.9|11.1||||||Week 1||11.1|-12.9|
82573904|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|4.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|90.0|-8.5|17.8||||||Week 1||17.8|-8.5|
82573905|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|7.9|STANDARD_ERROR_OF_MEAN|9.02|||TWO_SIDED|90.0|-6.9|22.8||||||Week 2||22.8|-6.9|
82573906|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|7.5|STANDARD_ERROR_OF_MEAN|8.91|||TWO_SIDED|90.0|-7.1|22.2||||||Week 2||22.2|-7.1|
82573907|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|3.5|STANDARD_ERROR_OF_MEAN|9.0|||TWO_SIDED|90.0|-11.3|18.3||||||Week 2||18.3|-11.3|
82573908|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|9.0|STANDARD_ERROR_OF_MEAN|9.79|||TWO_SIDED|90.0|-7.1|25.1||||||Week 4||25.1|-7.1|
82573909|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|7.7|STANDARD_ERROR_OF_MEAN|9.57|||TWO_SIDED|90.0|-8.0|23.5||||||Week 4||23.5|-8.0|
82573910|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|9.37|||TWO_SIDED|90.0|-19.4|11.4||||||Week 4||11.4|-19.4|
82573911|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|0.8|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|90.0|-15.6|17.2||||||Week 6||17.2|-15.6|
82573912|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|6.7|STANDARD_ERROR_OF_MEAN|9.81|||TWO_SIDED|90.0|-9.4|22.9||||||Week 6||22.9|-9.4|
82573913|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|3.7|STANDARD_ERROR_OF_MEAN|10.05|||TWO_SIDED|90.0|-12.8|20.2||||||Week 6||20.2|-12.8|
82389792|NCT00688701|164491046|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.123|<|0.0001|TWO_SIDED|95.0|-0.785|-0.3||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|||"To detect a difference of 0.5% in change in HbA1c at Week 12 between 1 lixisenatide arm and placebo (combined), 120 patients per group would provide a power of 90% assuming common standard deviation of 1.2% with 2-sided test at 5% significance level.~Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.300|-0.785|<0.0001
82389793|NCT00688701|164491046|SUPERIORITY_OR_OTHER||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-0.903|-0.423||Stepwise testing procedure applied to control type 1 error: Lixisenatide (2-step titration) was compared with Placebo (combined), if found statistically significant, then Lixisenatide (1-step titration) arm compared with Placebo (combined).|ANCOVA|||"To detect a difference of 0.5% in change in HbA1c at Week 12 between 1 lixisenatide arm and placebo (combined), 120 patients per group would provide a power of 90% assuming common standard deviation of 1.2% with 2-sided test at 5% significance level.~Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), BMI (\<30,\>=30 kg/m\^2), country as fixed effects, baseline HbA1c as covariate."||-0.423|-0.903|<0.0001
82389794|NCT03917472|164491056|SUPERIORITY|(1-sided)|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.89||0.099|TWO_SIDED|95.0|-0.6|2.9|||ANOVA|||||2.9|-0.6|0.099
82389795|NCT03917472|164491056|NON_INFERIORITY|(4-letter margin) (1-sided)|||||<|0.001|||||||ANOVA|||||||<0.001
82525716|NCT02799472|164748073|OTHER||Ratio|1.267||||0.342|TWO_SIDED|95.0|0.769|2.086|||Repeated measures analysis|||S100 CBP A8 and A9, Week 12||2.086|0.769|0.342
82573914|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-7.8|STANDARD_ERROR_OF_MEAN|9.98||0.7798|TWO_SIDED|90.0|-24.2|8.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||8.7|-24.2|0.7798
82389796|NCT03917472|164491057|SUPERIORITY|(1-sided); Week 52|LS mean difference|-41.4|STANDARD_ERROR_OF_MEAN|8.94|<|0.001|TWO_SIDED|95.0|-58.9|-23.8|||ANOVA|||||-23.8|-58.9|<0.001
82389797|NCT03917472|164491058|SUPERIORITY|(1-sided) Week 52|Difference - %|20.0|||<|0.001|TWO_SIDED|95.0|12.5|28.6|||Clopper-Pearson exact method.|||||28.6|12.5|<0.001
82389798|NCT03917472|164491065|OTHER|Descriptive|Difference - %|9.3|||||TWO_SIDED|95.0|1.7|17.0|||Clopper-Pearson exact method|||≥ 5 letters gain from baseline or BCVA ≥ 84 letters at Week 52||17.0|1.7|
82389799|NCT03917472|164491065|OTHER|Descriptive|Difference - %|7.7|||||TWO_SIDED|95.0|-1.5|17.0|||Clopper-Pearson exact method|||≥ 10 letters gain from baseline or BCVA ≥ 84 letters at Week 52||17.0|-1.5|
82389800|NCT03917472|164491065|OTHER|Descriptive|Difference - %|5.5|||||TWO_SIDED|95.0|-2.7|14.3|||Clopper-Pearson exact method|||≥ 15 letters gain from baseline or BCVA ≥ 84 letters at Week 52||14.3|-2.7|
82389801|NCT03917472|164491066|OTHER|descriptive; week 12|Difference - %|8.3|||||TWO_SIDED|95.0|0.2|16.5|||Clopper-Pearson exact method|||||16.5|0.2|
82389802|NCT03917472|164491066|OTHER|descriptive; week 24|Difference - %|6.0|||||TWO_SIDED|95.0|-3.0|14.9|||Clopper-Pearson exact method|||||14.9|-3.0|
82389803|NCT03917472|164491066|NON_INFERIORITY|(10% margin); week 52|Difference - %|6.0||||0.002|TWO_SIDED|95.0|-3.9|16.1||(10% margin) (1-sided)|Clopper-Pearson exact method|||||16.1|-3.9|0.002
82389804|NCT03917472|164491067|OTHER|descriptive; week 12|Difference - %|2.0|||||TWO_SIDED|95.0|-2.5|6.6|||Clopper-Pearson exact method|||||6.6|-2.5|
82389805|NCT03917472|164491067|OTHER|descriptive; week 24|Difference - %|2.4|||||TWO_SIDED|95.0|-3.0|7.7|||Clopper-Pearson exact method|||||7.7|-3.0|
82389806|NCT03917472|164491067|OTHER|descriptive; week 52|Difference - %|3.9|||||TWO_SIDED|95.0|-2.0|9.8|||Clopper-Pearson exact method|||||9.8|-2.0|
82389807|NCT02759055|164491088|SUPERIORITY||Risk Ratio (RR)|1.003|||<|0.05|TWO_SIDED|95.0|0.998|1.008|||Mixed Models Analysis|||||1.008|0.998|<0.05
82389808|NCT04934189|164491090|OTHER||Mean Difference (Final Values)|0.295|STANDARD_DEVIATION|1.184||0.08|ONE_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.08
82389809|NCT04934189|164491091|OTHER||Mean Difference (Net)|0.417|STANDARD_DEVIATION|0.89||0.005|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month follow-up mean) was statistically different from the baseline mean.||||.005
82389810|NCT04934189|164491093|OTHER||Mean Difference (Net)|-0.103|STANDARD_DEVIATION|2.5||0.4|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||0.40
82389811|NCT04934189|164491094|OTHER||Mean Difference (Net)|-0.01|STANDARD_DEVIATION|2.08||0.49|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month follow-up) mean was statistically different from the baseline mean.||||.49
82525717|NCT02799472|164748073|OTHER||Ratio|1.748||||0.026|TWO_SIDED|95.0|1.076|2.838|||Repeated measures analysis|||S100 CBP A8 and A9, 12-Week FU||2.838|1.076|0.026
82525718|NCT02799472|164748074|OTHER||Ratio|0.774||||0.632|TWO_SIDED|95.0|0.261|2.29|||Repeated measures analysis|||Amyloid A, Week 12||2.290|0.261|0.632
82525719|NCT02799472|164748074|OTHER||Ratio|1.176||||0.685|TWO_SIDED|95.0|0.519|2.663|||Repeated measures analysis|||Amyloid A, 12-Week FU||2.663|0.519|0.685
82525720|NCT02799472|164748075|OTHER||Ratio|0.692||||0.097|TWO_SIDED|95.0|0.445|1.074|||Repeated measures analysis|||CL17, Week 1||1.074|0.445|0.097
82573915|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|9.92||0.4819|TWO_SIDED|90.0|-15.9|16.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||16.8|-15.9|0.4819
82573916|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-2.4|STANDARD_ERROR_OF_MEAN|10.19||0.5933|TWO_SIDED|90.0|-19.2|14.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||14.4|-19.2|0.5933
82389812|NCT04934189|164491096|OTHER||Mean Difference (Net)|0.195|STANDARD_DEVIATION|1.41||0.21|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.21
82389813|NCT04934189|164491097|OTHER||Mean Difference (Net)|0.019|STANDARD_DEVIATION|1.43||0.47|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.47
82389814|NCT04934189|164491099|OTHER||Mean Difference (Net)|0.175|STANDARD_DEVIATION|1.02||0.16|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.16
82389815|NCT04934189|164491100|OTHER||Mean Difference (Net)|0.0481|STANDARD_DEVIATION|0.926||0.38|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.38
82389816|NCT04934189|164491102|OTHER||Mean Difference (Net)|0.179|STANDARD_DEVIATION|2.73||0.35|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.35
82389817|NCT04934189|164491103|OTHER||Mean Difference (Net)|-0.335|STANDARD_DEVIATION|2.05||0.17|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean.||||.17
82389818|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for gender nonaffirmation was statistically different from the baseline mean.|t-test|2.18||||0.02|ONE_SIDED|||||A priori threshold for statistical significance was \<.05|t-test, 1 sided|||||||.02
82389819|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for internalized transphobia was statistically different from the baseline mean.|t-test|1.29||||0.1|ONE_SIDED|||||A priori threshold for statistical significant was p \<.05|t-test, 1 sided|||||||.10
82389820|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for identity nondisclosure was statistically different from the baseline mean.|t-test|0.17||||0.43|ONE_SIDED|||||A priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.43
82389821|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for negative expectations was statistically different from the baseline mean.|t-test|-0.68||||0.25|ONE_SIDED|||||A priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.25
82640829|NCT05182840|164996319|OTHER||Odds Ratio (OR)|4.12||||0|TWO_SIDED|95.0|2.4|7.08||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.08|2.40|0.0000
82640830|NCT05182840|164996319|OTHER||Odds Ratio (OR)|5.02||||0|TWO_SIDED|95.0|2.91|8.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.67|2.91|0.0000
82389822|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for community connection was statistically different from the baseline mean.|t-test|-0.36||||0.36|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.36
82389823|NCT04934189|164491107|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month followup) mean for pride was statistically different from the baseline mean.|t-test|-0.09||||0.47|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.47
82389824|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for gender nonaffirmation was statistically different from the baseline mean.|t-test|3.76|||<|0.001|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided||||"A series of one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean was statistically different from the baseline mean for each of the five gender minority stress subscales measured. See below for T-scores and associated p-values for each statistical test.~Nonaffirmation (t = 3.76; p = .001) Internalized Transphobia (t = 2.01; p = .02) Negative Expectations (t = 2.06; p =.02) Community Connection (t = -0.82; p =.21) Pride (t = .01; p = .50 )"|||<.001
82389825|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for internalized transphobia was statistically different from the baseline mean.|t-test|2.01||||0.02|ONE_SIDED|||||The a priori threshold for statistical significance is p \< .05|t-test, 1 sided|||||||.02
82389826|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for identity nondisclosure was statistically different from the baseline mean.|t-test|1.61||||0.06|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.06
82389827|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for negative expectations was statistically different from the baseline mean.|t-test|2.06||||0.02|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.02
82389828|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for community connection was statistically different from the baseline mean.|t-test|-0.818||||0.21|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.21
82525721|NCT02799472|164748075|OTHER||Ratio|0.713||||0.229|TWO_SIDED|95.0|0.407|1.249|||Repeated measures analysis|||CL17, Week 2||1.249|0.407|0.229
82389829|NCT04934189|164491108|OTHER|A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month followup) mean for pride was statistically different from the baseline mean.|t-test|0.009||||0.5|ONE_SIDED|||||The a priori threshold for statistical significance was p \< .05|t-test, 1 sided|||||||.50
82389830|NCT04934189|164491111|OTHER||Chi-squared|5.59||||0.04|TWO_SIDED|||||A priori threshold for statistical significance was p \<.05|Chi-squared|||For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting freedom from sexual victimization over a 6 month time period||||.04
82389831|NCT04934189|164491111|OTHER|For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting any exposure to nonpenetrative sexual assault over a 6 month time period|Chi-squared|0.21||||0.55|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05|Chi-squared|||||||.55
82389832|NCT04934189|164491111|OTHER|For this categorical data, chi-square tests of independence were performed to compare post-treatment (i.e., 3 month followup) vs 6 month followup numbers of participants reporting exposure to rape over a 6 month time period|Chi-squared|0.11||||0.59|TWO_SIDED|||||A priori threshold for statistical significance was p \< .05|Chi-squared|||||||.59
82389833|NCT04934189|164491113|OTHER||Mean Difference (Net)|-0.08|STANDARD_DEVIATION|1.68||0.38|TWO_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 3-month) mean was statistically different from the baseline mean.||||.38
82525722|NCT02799472|164748075|OTHER||Ratio|0.608||||0.055|TWO_SIDED|95.0|0.365|1.012|||Repeated measures analysis|||CL17, Week 4||1.012|0.365|0.055
82640831|NCT05182840|164996320|OTHER||Odds Ratio (OR)|2.15||||0.0111|TWO_SIDED|95.0|1.19|3.88||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.88|1.19|0.0111
82640832|NCT05182840|164996320|OTHER||Odds Ratio (OR)|6.33||||0|TWO_SIDED|95.0|3.49|11.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.49|3.49|0.0000
82640833|NCT05182840|164996320|OTHER||Odds Ratio (OR)|5.21||||0|TWO_SIDED|95.0|2.88|9.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.44|2.88|0.0000
82640834|NCT05182840|164996321|OTHER||Odds Ratio (OR)|2.44||||0.0419|TWO_SIDED|95.0|1.03|5.74||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.74|1.03|0.0419
82640835|NCT05182840|164996321|OTHER||Odds Ratio (OR)|6.09||||0|TWO_SIDED|95.0|2.64|14.08||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||14.08|2.64|0.0000
82640836|NCT05182840|164996321|OTHER||Odds Ratio (OR)|6.13||||0|TWO_SIDED|95.0|2.64|14.25||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||14.25|2.64|0.0000
82640837|NCT05182840|164996322|OTHER||Odds Ratio (OR)|2.88||||0.0195|TWO_SIDED|95.0|1.19|7.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.02|1.19|0.0195
82640838|NCT05182840|164996322|OTHER||Odds Ratio (OR)|6.38||||0|TWO_SIDED|95.0|2.65|15.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.35|2.65|0.0000
82640839|NCT05182840|164996322|OTHER||Odds Ratio (OR)|6.39||||0.0001|TWO_SIDED|95.0|2.6|15.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.67|2.60|0.0001
82640840|NCT05182840|164996323|OTHER||Odds Ratio (OR)|2.03||||0.0767|TWO_SIDED|95.0|0.93|4.42||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.42|0.93|0.0767
82640841|NCT05182840|164996323|OTHER||Odds Ratio (OR)|4.11||||0.0003|TWO_SIDED|95.0|1.89|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.89|0.0003
82389834|NCT04934189|164491114|OTHER||Mean Difference (Net)|-0.265|STANDARD_DEVIATION|2.21||0.25|ONE_SIDED||||||t-test, 1 sided|||A one-tailed paired samples T-test was conducted to determine whether the post-treatment (i.e., 6-month) mean was statistically different from the baseline mean.||||.25
82389835|NCT01871402|164491192|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Multiple imputation was used to impute missing data from the ITT population.||||||<0.001
82389836|NCT01871402|164491193|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance (\<0.001) was achieved for each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).||||<0.001
82389837|NCT01871402|164491194|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82389838|NCT01871402|164491195|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance (\<0.001) was achieved for each of the clinical signs of psoriasis (scaling, erythema, and plaque elevations).|Cochran-Mantel-Haenszel|||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema, and plaque elevation).||||<0.001
82389839|NCT04594941|164491198|OTHER||Least Sqaure (LS) Mean Difference|-0.149|STANDARD_ERROR_OF_MEAN|0.754||0.8452|TWO_SIDED|90.0|-1.431|1.133|||Mixed-effects model for repeated measure|||"Median of Readers: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.133|-1.431|0.8452
82525723|NCT02799472|164748075|OTHER||Ratio|0.755||||0.307|TWO_SIDED|95.0|0.435|1.309|||Repeated measures analysis|||CL17, Week 6||1.309|0.435|0.307
82426219|NCT01276704|164561398|SUPERIORITY|||||||0.72||||||a priori threshold for statistical significance: \< 0.05|Wilcoxon (Mann-Whitney)|||83% power to detect an absolute 2.5% reduction in Ki-67 for the treatment group compared with no reduction in the control group.||||0.72
82525724|NCT02799472|164748075|OTHER||Ratio|0.557||||0.017|TWO_SIDED|95.0|0.348|0.894|||Repeated measures analysis|||CL17, Week 8||0.894|0.348|0.017
82525725|NCT02799472|164748075|OTHER||Ratio|0.52||||0.026|TWO_SIDED|95.0|0.294|0.922|||Repeated measures analysis|||||0.922|0.294|0.026
82525726|NCT02799472|164748075|OTHER||Ratio|0.947||||0.839|TWO_SIDED|95.0|0.548|1.636|||Repeated measures analysis|||CL17, 12-Week FU||1.636|0.548|0.839
82525727|NCT02799472|164748075|OTHER||Ratio|0.764||||0.142|TWO_SIDED|95.0|0.53|1.1|||Repeated measures analysis|||CL13, Week 1||1.100|0.530|0.142
82389840|NCT04594941|164491198|OTHER||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|1.109||0.989|TWO_SIDED|90.0|-1.899|1.868|||Mixed-effects model for repeated measure|||"SPE VS HPLC: Reader 1~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.868|-1.899|0.9890
82389841|NCT04594941|164491198|OTHER||LS Mean Difference|-0.753|STANDARD_ERROR_OF_MEAN|0.854||0.3852|TWO_SIDED|90.0|-2.204|0.698|||Mixed-effects model for repeated measure|||"Reader 2: SPE VS HPLC~Reader 2: Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||0.698|-2.204|0.3852
82389842|NCT04594941|164491198|OTHER||LS Mean Difference|-0.091|STANDARD_ERROR_OF_MEAN|0.968||0.926|TWO_SIDED|90.0|-1.735|1.554|||Mixed-effects model for repeated measure|||"Reader 3: SPE VS HPLC~Analysis was based on MMRM model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.554|-1.735|0.9260
82389843|NCT04594941|164491199|OTHER||LS Mean Difference|-0.219|STANDARD_ERROR_OF_MEAN|1.109||0.8452|TWO_SIDED|90.0|-2.104|1.667|||Mixed-effects model for repeated measure|||"Median of Readers: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.667|-2.104|0.8452
82389844|NCT04594941|164491199|OTHER||Least Square Mean (LSM) Difference|-0.023|STANDARD_ERROR_OF_MEAN|1.63||0.989|TWO_SIDED|90.0|-2.793|2.747|||Mixed-effects model for repeated measure|||"Reader 1: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||2.747|-2.793|0.9890
82389845|NCT04594941|164491199|OTHER||LS Mean Difference|-1.107|STANDARD_ERROR_OF_MEAN|1.256||0.3852|TWO_SIDED|90.0|-3.241|1.027|||Mixed-effects model for repeated measure|||"Reader 2: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||1.027|-3.241|0.3852
82426220|NCT01276704|164561399|SUPERIORITY|||||||0.018||||||No adjustment for multiple comparisons. Standard threshold of P\<0.05|Wilcoxon (Mann-Whitney)|||||||0.018
82426221|NCT01276704|164561400|SUPERIORITY|||||||0.036||||||No adjustment for multiple comparisons. Standard threshold of P \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.036
82525728|NCT02799472|164748075|OTHER||Ratio|1.005||||0.976|TWO_SIDED|95.0|0.726|1.39|||Repeated measures analysis|||CL13, Week 2||1.390|0.726|0.976
82525729|NCT02799472|164748075|OTHER||Ratio|1.236||||0.244|TWO_SIDED|95.0|0.859|1.778|||Repeated measures analysis|||CL13, Week 4||1.778|0.859|0.244
82389846|NCT04594941|164491199|OTHER||LS Mean Difference|-0.133|STANDARD_ERROR_OF_MEAN|1.424||0.926|TWO_SIDED|90.0|-2.552|2.285|||Mixed-effects model for repeated measure|||"Reader 3: SPE VS HPLC~Analysis was based on Mixed model repeated measures (MMRM) model include the median SRS in each dosing period as the dependent variable, with manufacturing process, period, and dosing sequence as fixed effects, and participant nested within sequence as the random effect."||2.285|-2.552|0.9260
82389847|NCT04594941|164491200|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 1||||<0.0001
82389848|NCT04594941|164491200|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
82389849|NCT04594941|164491200|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
82389850|NCT04594941|164491200|OTHER|||||||0.0072|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0072
82389851|NCT04594941|164491200|OTHER|||||||0.0051|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0051
82525730|NCT02799472|164748075|OTHER||Ratio|1.237||||0.278|TWO_SIDED|95.0|0.836|1.83|||Repeated measures analysis|||CL13, Week 6||1.830|0.836|0.278
82389852|NCT04594941|164491200|OTHER|||||||0.0023|||||||Wilcoxon Signed Rank Test|||Reader 3||||0.0023
82389853|NCT04594941|164491200|OTHER|||||||0.0002|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0002
82389854|NCT04594941|164491200|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
82389855|NCT04594941|164491200|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
82389856|NCT04594941|164491201|OTHER|||||||0.0089|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0089
82389857|NCT04594941|164491201|OTHER|||||||0.0207|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0207
82389858|NCT04594941|164491201|OTHER|||||||0.0089|||||||Wilcoxon Signed Rank Test|||Reader 3||||0.0089
82389859|NCT04594941|164491201|OTHER|||||||0.732|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.732
82389860|NCT04594941|164491201|OTHER|||||||0.0083|||||||Wilcoxon Signed Rank Test|||Reader 2||||0.0083
82389861|NCT04594941|164491201|OTHER|||||||0.0412|||||||Wilcoxon (Mann-Whitney)|||Reader 3||||0.0412
82525731|NCT02799472|164748075|OTHER||Ratio|1.118||||0.677|TWO_SIDED|95.0|0.651|1.92|||Repeated measures analysis|||CL13, Week 8||1.920|0.651|0.677
82640842|NCT05182840|164996323|OTHER||Odds Ratio (OR)|4.69||||0.0001|TWO_SIDED|95.0|2.15|10.24||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||10.24|2.15|0.0001
82640843|NCT05182840|164996324|OTHER||Odds Ratio (OR)|2.88||||0.0195|TWO_SIDED|95.0|1.19|7.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.02|1.19|0.0195
82376747|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.81|2.0||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.00|1.81|<.0001
82389862|NCT04594941|164491201|OTHER|||||||0.0001|||||||Wilcoxon Signed Rank Test|||Reader 1||||0.0001
82389863|NCT04594941|164491201|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 2||||<0.0001
82389864|NCT04594941|164491201|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Reader 3||||<0.0001
82389865|NCT04594941|164491203|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||1.0000|1.0000|
82389866|NCT04594941|164491203|OTHER||Kappa Statistics|0.6957|||||TWO_SIDED|95.0|0.1696|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|0.1696|
82389867|NCT04594941|164491203|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|1.0000|
82389868|NCT04594941|164491203|OTHER||Kappa Statistics|0.4615|||||TWO_SIDED|95.0|-0.0699|0.993|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||0.9930|-0.0699|
82389869|NCT04594941|164491203|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|1.0000|
82389870|NCT04594941|164491203|OTHER||Kappa Statistics|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|1.0000|
82389871|NCT04594941|164491203|OTHER||Kappa Statistics|0.8811|||||TWO_SIDED|95.0|0.6567|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 1||1.0000|0.6567|
82389872|NCT04594941|164491203|OTHER||Kappa Statistics|0.8828|||||TWO_SIDED|95.0|0.6614|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 2||1.0000|0.6614|
82389873|NCT04594941|164491203|OTHER||Kappa Statistics|0.8811|||||TWO_SIDED|95.0|0.6567|1.0|||||Kappa statistics was assessed using Cohen's kappa statistics.|Reader 3||1.0000|0.6567|
82389874|NCT01895270|164491219|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.42||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||.42
82389875|NCT04507256|164491225|OTHER|Bioavailability|Ratio of geometric mean AUCinf|68.69|||||||||||||The bioavailability of AZD7442 Dose 1 administered by IM was, calculated as the ratio of geometric mean AUCinf after IM to IV, for mAb AZD8895.|Bioavailability of AZD8895 at the end of study (Day 361)||||
82647805|NCT01872689|165011115|SUPERIORITY||Median Difference (Final Values)|0.54171|STANDARD_ERROR_OF_MEAN|1.05201||0.6075|TWO_SIDED|95.0|-1.54|2.62|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.62|-1.54|0.6075
82389876|NCT04507256|164491225|OTHER|Bioavailability|Ratio of geometric mean AUCinf|65.02|||||||||||||The bioavailability of AZD7442 Dose 1 administered by IM was, calculated as the ratio of geometric mean AUCinf after IM to IV, for mAb AZD1061.|Bioavailability of AZD1061 at the end of study (Day 361)||||
82389877|NCT01945970|164491231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.36|TWO_SIDED|95.0|-1.09|0.4|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||0.40|-1.09|0.36
82389878|NCT01945970|164491232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.18|TWO_SIDED|95.0|-0.24|1.28|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||1.28|-0.24|0.18
82389879|NCT01945970|164491233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.014|TWO_SIDED|95.0|-1.59|-0.19|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||-0.19|-1.59|0.014
82389880|NCT01945970|164491234|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.49||||0.22|TWO_SIDED|95.0|-1.3|0.31|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.31|-1.30|0.22
82389881|NCT01945970|164491235|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.71||||0.09|TWO_SIDED|95.0|-0.11|1.53|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||1.53|-0.11|0.09
82389882|NCT01945970|164491236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.32|TWO_SIDED|95.0|-1.13|0.37|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.37|-1.13|0.32
82389883|NCT01945970|164491237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.89||||0.14|TWO_SIDED|95.0|-0.61|4.39|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects.|Effect of black tea adjusted for placebo|||4.39|-0.61|0.14
82389884|NCT01945970|164491238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.69|TWO_SIDED|95.0|-2.41|1.62|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects.|Effect of black tea adjusted for placebo|||1.62|-2.41|0.69
82389885|NCT01945970|164491239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.44||||0.72|TWO_SIDED|95.0|-2.06|2.95|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects|Effect of positive control adjusted for placebo|||2.95|-2.06|0.72
82389886|NCT01945970|164491240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.39|TWO_SIDED|95.0|-1.15|2.88|||Mixed Models Analysis|Subject as random factor and treatment and period as fixed effects|Effect of positive control adjusted for placebo|||2.88|-1.15|0.39
82389887|NCT01945970|164491241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.74|TWO_SIDED|95.0|-1.75|1.24|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||1.24|-1.75|0.74
82389888|NCT01945970|164491242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.41|TWO_SIDED|95.0|-2.12|0.88|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|||0.88|-2.12|0.41
82426222|NCT00370292|164561406|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 1 Hour Post-Dose (1 hour across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82389889|NCT01945970|164491243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.74|TWO_SIDED|95.0|-1.11|1.54|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of black tea adjusted for placebo|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects||1.54|-1.11|0.74
82640844|NCT05182840|164996324|OTHER||Odds Ratio (OR)|6.38||||0|TWO_SIDED|95.0|2.65|15.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.35|2.65|0.0000
82389890|NCT01945970|164491244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.66|TWO_SIDED|95.0|-1.84|1.17|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||1.17|-1.84|0.66
82389891|NCT01945970|164491245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.11|TWO_SIDED|95.0|-2.7|0.3|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Effect of positive control adjusted for placebo|||0.30|-2.70|0.11
82389892|NCT01945970|164491246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.55|TWO_SIDED|95.0|-0.93|1.73|||Mixed Models Analysis||Effect of positive control adjusted for placebo|||1.73|-0.93|0.55
82389893|NCT00979875|164491256|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.08|||<|0.0001|TWO_SIDED|90.0|1.7|2.55||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||2.55|1.70|<0.0001
82389894|NCT00979875|164491256|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|5.26|||<|0.0001|TWO_SIDED|90.0|3.88|7.12||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||7.12|3.88|<0.0001
82389895|NCT00979875|164491256|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|4.14|||<|0.0001|TWO_SIDED|90.0|3.05|5.6||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||5.60|3.05|<0.0001
82525732|NCT02799472|164748075|OTHER||Ratio|1.165||||0.661|TWO_SIDED|95.0|0.573|2.369|||Repeated measures analysis|||CL13, Week 12||2.369|0.573|0.661
82525733|NCT02799472|164748075|OTHER||Ratio|1.581||||0.154|TWO_SIDED|95.0|0.832|3.007|||Repeated measures analysis|||CL13, 12-Week FU||3.007|0.832|0.154
82525734|NCT02799472|164748075|OTHER||Ratio|0.903||||0.751|TWO_SIDED|95.0|0.471|1.729|||Repeated measures analysis|||Interleukin 6, Week 1||1.729|0.471|0.751
82640845|NCT05182840|164996324|OTHER||Odds Ratio (OR)|6.39||||0.0001|TWO_SIDED|95.0|2.6|15.67||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.67|2.60|0.0001
82647806|NCT01872689|165011115|SUPERIORITY||Mean Difference (Final Values)|0.18203|STANDARD_ERROR_OF_MEAN|0.65206||0.7803|TWO_SIDED|95.0|-1.1|1.47|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||1.47|-1.10|0.7803
82389896|NCT00979875|164491257|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-38.93|||<|0.0001|TWO_SIDED|90.0|-53.31|-24.55||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-24.55|-53.31|<0.0001
82525735|NCT02799472|164748075|OTHER||Ratio|0.72||||0.33|TWO_SIDED|95.0|0.367|1.413|||Repeated measures analysis|||Interleukin 6, Week 2||1.413|0.367|0.330
82525736|NCT02799472|164748075|OTHER||Ratio|0.822||||0.519|TWO_SIDED|95.0|0.447|1.512|||Repeated measures analysis|||Interleukin 6, Week 4||1.512|0.447|0.519
82525737|NCT02799472|164748075|OTHER||Ratio|0.659||||0.147|TWO_SIDED|95.0|0.372|1.167|||Repeated measures analysis|||Interleukin 6, Week 6||1.167|0.372|0.147
82525738|NCT02799472|164748075|OTHER||Ratio|0.684||||0.166|TWO_SIDED|95.0|0.396|1.18|||Repeated measures analysis|||Interleukin 6, Week 8||1.180|0.396|0.166
82525739|NCT02799472|164748075|OTHER||Ratio|1.221||||0.432|TWO_SIDED|95.0|0.734|2.031|||Repeated measures analysis|||Interleukin 6, Week 12||2.031|0.734|0.432
82389897|NCT00979875|164491257|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-26.43||||0.0032|TWO_SIDED|90.0|-40.81|-12.05||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-12.05|-40.81|0.0032
82389898|NCT00979875|164491257|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-42.14|||<|0.0001|TWO_SIDED|90.0|-56.53|-27.76||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||-27.76|-56.53|<0.0001
82389899|NCT00782184|164491262|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|8.4|||<|0.001|TWO_SIDED|95.0|3.4|21.0|||Regression, Logistic|||COMPARISON BETWEEN GROUPS FOR NUMBER OF PARTICIPANTS REACHING LDL-C GOAL OF \<70 MG/DL||21.0|3.4|<0.001
82389900|NCT00782184|164491263|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-15.0|||<|0.001|TWO_SIDED|95.0|-21.15|-8.84|||Longitudinal Data Analysis (LDA) Model|||||-8.84|-21.15|<0.001
82389901|NCT00782184|164491264|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.7|||<|0.001|TWO_SIDED|95.0|3.3|13.9|||Regression, Logistic|||||13.9|3.3|<0.001
82389902|NCT00782184|164491265|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.0|6.0|||Regression, Logistic|||||6.0|2.0|<0.001
82389903|NCT00782184|164491266|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-8.24|||<|0.001|TWO_SIDED|95.0|-12.5|-3.97|||LDA Model|||||-3.97|-12.50|<0.001
82389904|NCT00782184|164491267|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.13||||0.593|TWO_SIDED|95.0|-5.67|9.93|||LDA Model|||||9.93|-5.67|0.593
82389905|NCT00782184|164491268|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.48||||0.211|TWO_SIDED|95.0|-1.41|6.37|||LDA Model|||||6.37|-1.41|0.211
82389906|NCT00782184|164491269|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-11.62|||<|0.001|TWO_SIDED|95.0|-17.32|-5.92|||LDA Model|||||-5.92|-17.32|<0.001
82389907|NCT00782184|164491270|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-16.1|||<|0.001|TWO_SIDED|95.0|-22.77|-9.44|||LDA Model|||||-9.44|-22.77|<0.001
82389908|NCT00782184|164491271|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-10.02|||<|0.001|TWO_SIDED|95.0|-14.96|-5.08|||LDA Model|||||-5.08|-14.96|<0.001
82389909|NCT00782184|164491272|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.21|||<|0.001|TWO_SIDED|95.0|-19.83|-6.59|||LDA Model|||||-6.59|-19.83|<0.001
82389910|NCT00782184|164491273|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-7.69||||0.002|TWO_SIDED|95.0|-12.5|-2.88|||LDA Model|||||-2.88|-12.50|0.002
82389911|NCT00782184|164491274|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|5.25|||<|0.001|TWO_SIDED|95.0|2.44|8.06|||LDA Model|||||8.06|2.44|<0.001
82647807|NCT01872689|165011117|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0972|TWO_SIDED|95.0|0.39|1.09|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.09|0.39|0.0972
82525740|NCT02799472|164748075|OTHER||Ratio|1.602||||0.216|TWO_SIDED|95.0|0.75|3.423|||Repeated measures analysis|||Interleukin 6, 12-Week FU||3.423|0.750|0.216
82525741|NCT02799472|164748075|OTHER||Ratio|0.926||||0.195|TWO_SIDED|95.0|0.823|1.042|||Repeated measures analysis|||MDC, Week 1||1.042|0.823|0.195
82525742|NCT02799472|164748075|OTHER||Ratio|0.984||||0.851|TWO_SIDED|95.0|0.829|1.168|||Repeated measures analysis|||MDC, Week 2||1.168|0.829|0.851
82525743|NCT02799472|164748075|OTHER||Ratio|0.956||||0.637|TWO_SIDED|95.0|0.79|1.158|||Repeated measures analysis|||MDC, Week 4||1.158|0.790|0.637
82525744|NCT02799472|164748075|OTHER||Ratio|1.01||||0.915|TWO_SIDED|95.0|0.833|1.225|||Repeated measures analysis|||MDC, Week 6||1.225|0.833|0.915
82525745|NCT02799472|164748075|OTHER||Ratio|0.857||||0.157|TWO_SIDED|95.0|0.69|1.064|||Repeated measures analysis|||MDC, Week 8||1.064|0.690|0.157
82525746|NCT02799472|164748075|OTHER||Ratio|0.849||||0.142|TWO_SIDED|95.0|0.681|1.059|||Repeated measures analysis|||MDC, Week 12||1.059|0.681|0.142
82525747|NCT02799472|164748075|OTHER||Ratio|1.013||||0.929|TWO_SIDED|95.0|0.745|1.378|||Repeated measures analysis|||MDC, 12-Week FU||1.378|0.745|0.929
82525748|NCT02799472|164748076|OTHER||Ratio|0.887||||0.463|TWO_SIDED|95.0|0.64|1.231|||Repeated measures analysis|||Chitinase 3 Like 1, Week 1||1.231|0.640|0.463
82525749|NCT02799472|164748076|OTHER||Ratio|0.953||||0.782|TWO_SIDED|95.0|0.672|1.352|||Repeated measures analysis|||Chitinase 3 Like 1, Week 2||1.352|0.672|0.782
82525750|NCT02799472|164748076|OTHER||Ratio|1.132||||0.533|TWO_SIDED|95.0|0.759|1.69|||Repeated measures analysis|||Chitinase 3 Like 1, Week 4||1.690|0.759|0.533
82525751|NCT02799472|164748076|OTHER||Ratio|1.149||||0.473|TWO_SIDED|95.0|0.779|1.694|||Repeated measures analysis|||Chitinase 3 Like 1, Week 6||1.694|0.779|0.473
82525752|NCT02799472|164748076|OTHER||Ratio|1.112||||0.608|TWO_SIDED|95.0|0.733|1.687|||Repeated measures analysis|||Chitinase 3 Like 1, Week 8||1.687|0.733|0.608
82525753|NCT02799472|164748076|OTHER||Ratio|1.005||||0.985|TWO_SIDED|95.0|0.613|1.645|||Repeated measures analysis|||Chitinase 3 Like 1, Week 12||1.645|0.613|0.985
82525754|NCT02799472|164748076|OTHER||Ratio|1.386||||0.102|TWO_SIDED|95.0|0.934|2.057|||Repeated measures analysis|||Chitinase 3 Like 1, 12-Week FU||2.057|0.934|0.102
82525755|NCT02799472|164748076|OTHER||Ratio|0.915||||0.259|TWO_SIDED|95.0|0.781|1.071|||Repeated measures analysis|||MMP-3, Week 1||1.071|0.781|0.259
82525756|NCT02799472|164748076|OTHER||Ratio|0.959||||0.621|TWO_SIDED|95.0|0.809|1.137|||Repeated measures analysis|||MMP-3, Week 2||1.137|0.809|0.621
82647808|NCT01872689|165011117|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9344|TWO_SIDED|95.0|0.72|1.42|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.42|0.72|0.9344
82525757|NCT02799472|164748076|OTHER||Ratio|0.914||||0.354|TWO_SIDED|95.0|0.752|1.11|||Repeated measures analysis|||MMP-3, Week 4||1.110|0.752|0.354
82525758|NCT02799472|164748076|OTHER||Ratio|0.8||||0.448|TWO_SIDED|95.0|0.443|1.444|||Repeated measures analysis|||MMP-3, Week 6||1.444|0.443|0.448
82525759|NCT02799472|164748076|OTHER||Ratio|1.16||||0.402|TWO_SIDED|95.0|0.813|1.653|||Repeated measures analysis|||MMP-3, Week 8||1.653|0.813|0.402
82525760|NCT02799472|164748076|OTHER||Ratio|0.951||||0.745|TWO_SIDED|95.0|0.695|1.301|||Repeated measures analysis|||MMP-3, Week 12||1.301|0.695|0.745
82573917|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-9.9|STANDARD_ERROR_OF_MEAN|9.81||0.8421|TWO_SIDED|90.0|-26.1|6.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||6.2|-26.1|0.8421
82573918|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|8.0|STANDARD_ERROR_OF_MEAN|9.85||0.209|TWO_SIDED|90.0|-8.2|24.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||24.2|-8.2|0.2090
82647809|NCT01872689|165011118|SUPERIORITY||Median Difference (Final Values)|28.12302|STANDARD_ERROR_OF_MEAN|49.47253||0.5707|TWO_SIDED|95.0|-69.8|126.04|||Mixed Models Analysis||Mean Difference = Lebrikizumab - Placebo|Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||126.04|-69.80|0.5707
82389912|NCT00782184|164491275|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.91|||<|0.001|TWO_SIDED|95.0|-18.31|-7.52|||LDA Model|||||-7.52|-18.31|<0.001
82525761|NCT02799472|164748076|OTHER||Ratio|1.226||||0.279|TWO_SIDED|95.0|0.837|1.796|||Repeated measures analysis|||MMP-3, 12-Week FU||1.796|0.837|0.279
82525762|NCT02799472|164748077|OTHER||Ratio|1.098||||0.621|TWO_SIDED|95.0|0.75|1.606|||Repeated measures analysis|||ARGS Neo-Epitope, Week 1||1.606|0.750|0.621
82525763|NCT02799472|164748077|OTHER||Ratio|1.581||||0.031|TWO_SIDED|95.0|1.046|2.388|||Repeated measures analysis|||ARGS Neo-Epitope, Week 2||2.388|1.046|0.031
82525764|NCT02799472|164748077|OTHER||Ratio|1.222||||0.317|TWO_SIDED|95.0|0.817|1.827|||Repeated measures analysis|||ARGS Neo-Epitope, Week 4||1.827|0.817|0.317
82525765|NCT02799472|164748077|OTHER||Ratio|1.302||||0.113|TWO_SIDED|95.0|0.936|1.81|||Repeated measures analysis|||ARGS Neo-Epitope, Week 6||1.810|0.936|0.113
82525766|NCT02799472|164748077|OTHER||Ratio|1.45||||0.217|TWO_SIDED|95.0|0.795|2.645|||Repeated measures analysis|||ARGS Neo-Epitope, Week 8||2.645|0.795|0.217
82525767|NCT02799472|164748077|OTHER||Ratio|1.266||||0.147|TWO_SIDED|95.0|0.916|1.75|||Repeated measures analysis|||ARGS Neo-Epitope, Week 12||1.750|0.916|0.147
82525768|NCT02799472|164748077|OTHER||Ratio|0.996||||0.985|TWO_SIDED|95.0|0.662|1.499|||Repeated measures analysis|||ARGS Neo-Epitope, 12-Week FU||1.499|0.662|0.985
82525769|NCT02799472|164748077|OTHER||Ratio|0.892||||0.681|TWO_SIDED|95.0|0.511|1.56|||Repeated measures analysis|||CMDV, Week 1||1.560|0.511|0.681
82525770|NCT02799472|164748077|OTHER||Ratio|0.87||||0.668|TWO_SIDED|95.0|0.454|1.669|||Repeated measures analysis|||CMDV, Week 2||1.669|0.454|0.668
82525771|NCT02799472|164748077|OTHER||Ratio|1.12||||0.717|TWO_SIDED|95.0|0.597|2.101|||Repeated measures analysis|||CMDV, Week 4||2.101|0.597|0.717
82573919|NCT04092452|164858032|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|10.12||0.5183|TWO_SIDED|90.0|-17.1|16.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||16.2|-17.1|0.5183
82640846|NCT05182840|164996325|OTHER||Odds Ratio (OR)|1.82||||0.1398|TWO_SIDED|95.0|0.82|4.04||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.04|0.82|0.1398
82389913|NCT00782184|164491276|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|2.68||||0.785|TWO_SIDED|95.0|-16.5|21.86|||LDA Model|||||21.86|-16.50|0.785
82389914|NCT03330262|164491277|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82389915|NCT03330262|164491278|OTHER|Ho: mean change = 0||||||0.006|||||||Mixed Models Analysis|||||||0.006
82389916|NCT03330262|164491278|OTHER|Ho: mean change = 0||||||0.869|||||||Mixed Models Analysis|||||||0.869
82389917|NCT03330262|164491279|SUPERIORITY|||||||0.448|||||||Mixed Models Analysis|||||||0.448
82640847|NCT05182840|164996325|OTHER||Odds Ratio (OR)|8.42||||0|TWO_SIDED|95.0|3.73|19.02||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||19.02|3.73|0.0000
82389918|NCT03330262|164491280|OTHER|This test evaluated whether the change in ABC was significant for the BALCAP condition##. Ho: mean = 0||||||0.273|||||||Mixed Models Analysis|||||||0.273
82389919|NCT03330262|164491280|OTHER|This test evaluated if the change in ABC score was significant for the control group.||||||0.796|||||||Mixed Models Analysis|||||||0.796
82389920|NCT03330262|164491281|OTHER|Ho: Mean change in score = 0||||||0.189|||||||Mixed Models Analysis|||||||0.189
82389921|NCT03330262|164491281|OTHER|Ho: mean change = 0||||||0.713|||||||Mixed Models Analysis|||||||0.713
82525772|NCT02799472|164748077|OTHER||Ratio|0.661||||0.227|TWO_SIDED|95.0|0.333|1.31|||Repeated measures analysis|||CMDV, Week 6||1.310|0.333|0.227
82640848|NCT05182840|164996325|OTHER|P-value was rounded to four decimal places.|Odds Ratio (OR)|4.98||||0.0001|TWO_SIDED|95.0|2.28|10.9|||Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||10.90|2.28|0.0001
82640849|NCT05182840|164996326|OTHER||Odds Ratio (OR)|1.71||||0.1884|TWO_SIDED|95.0|0.77|3.79||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.79|0.77|0.1884
82640850|NCT05182840|164996326|OTHER||Odds Ratio (OR)|6.8||||0|TWO_SIDED|95.0|2.94|15.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.72|2.94|0.0000
82640851|NCT05182840|164996326|OTHER||Odds Ratio (OR)|4.46||||0.0003|TWO_SIDED|95.0|2.0|9.94||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.94|2.00|0.0003
82640852|NCT05182840|164996327|OTHER||Odds Ratio (OR)|1.62||||0.214|TWO_SIDED|95.0|0.76|3.46||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.46|0.76|0.2140
82640853|NCT05182840|164996327|OTHER||Odds Ratio (OR)|4.13||||0.0003|TWO_SIDED|95.0|1.93|8.85||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.85|1.93|0.0003
82640854|NCT05182840|164996327|OTHER||Odds Ratio (OR)|5.43||||0|TWO_SIDED|95.0|2.52|11.71||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.71|2.52|0.0000
82640855|NCT05182840|164996328|OTHER||Odds Ratio (OR)|1.71||||0.1884|TWO_SIDED|95.0|0.77|3.79||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.79|0.77|0.1884
82640856|NCT05182840|164996328|OTHER||Odds Ratio (OR)|6.8||||0|TWO_SIDED|95.0|2.94|15.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||15.72|2.94|0.0000
82389922|NCT01647516|164491288|SUPERIORITY||Odds Ratio (OR)|3.262||||0.0482|TWO_SIDED|95.0|0.969|10.984|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||10.984|0.969|0.0482
82389923|NCT01647516|164491288|SUPERIORITY||Odds Ratio (OR)|2.5||||0.1422|TWO_SIDED|95.0|0.722|8.661|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||8.661|0.722|0.1422
82525773|NCT02799472|164748077|OTHER||Ratio|0.817||||0.471|TWO_SIDED|95.0|0.464|1.437|||Repeated measures analysis|||CMDV, Week 8||1.437|0.464|0.471
82389924|NCT01647516|164491289|SUPERIORITY||Odds Ratio (OR)|2.158||||0.0207|TWO_SIDED|95.0|1.093|4.263|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||4.263|1.093|0.0207
82525774|NCT02799472|164748077|OTHER||Ratio|0.816||||0.541|TWO_SIDED|95.0|0.417|1.597|||Repeated measures analysis|||CMDV, Week 12||1.597|0.417|0.541
82525775|NCT02799472|164748077|OTHER||Ratio|0.822||||0.544|TWO_SIDED|95.0|0.422|1.602|||Repeated measures analysis|||CMDV, 12-Week FU||1.602|0.422|0.544
82525776|NCT02799472|164748077|OTHER||Ratio|1.051||||0.537|TWO_SIDED|95.0|0.895|1.233|||Repeated measures analysis|||MMP-Degraded CRP, Week 1||1.233|0.895|0.537
82525777|NCT02799472|164748077|OTHER||Ratio|1.031||||0.635|TWO_SIDED|95.0|0.906|1.173|||Repeated measures analysis|||MMP-Degraded CRP, Week 2||1.173|0.906|0.635
82525778|NCT02799472|164748077|OTHER||Ratio|1.012||||0.866|TWO_SIDED|95.0|0.879|1.165|||Repeated measures analysis|||MMP-Degraded CRP, Week 4||1.165|0.879|0.866
82525779|NCT02799472|164748077|OTHER||Ratio|0.979||||0.78|TWO_SIDED|95.0|0.842|1.139|||Repeated measures analysis|||MMP-Degraded CRP, Week 6||1.139|0.842|0.780
82525780|NCT02799472|164748077|OTHER||Ratio|1.113||||0.212|TWO_SIDED|95.0|0.938|1.32|||Repeated measures analysis|||MMP-Degraded CRP, Week 8||1.320|0.938|0.212
82640857|NCT05182840|164996328|OTHER||Odds Ratio (OR)|4.46||||0.0003|TWO_SIDED|95.0|2.0|9.94||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.94|2.00|0.0003
82525781|NCT02799472|164748077|OTHER||Ratio|1.102||||0.242|TWO_SIDED|95.0|0.934|1.3|||Repeated measures analysis|||MMP-Degraded CRP, Week 12||1.300|0.934|0.242
82525782|NCT02799472|164748077|OTHER||Ratio|1.05||||0.597|TWO_SIDED|95.0|0.87|1.267|||Repeated measures analysis|||MMP-Degraded CRP, 12-Week FU||1.267|0.870|0.597
82525783|NCT02799472|164748077|OTHER||Ratio|0.795||||0.047|TWO_SIDED|95.0|0.634|0.997|||Repeated measures analysis|||MD1C, Week 1||0.997|0.634|0.047
82525784|NCT02799472|164748077|OTHER||Ratio|0.883||||0.367|TWO_SIDED|95.0|0.668|1.165|||Repeated measures analysis|||MD1C, Week 2||1.165|0.668|0.367
82525785|NCT02799472|164748077|OTHER||Ratio|0.784||||0.155|TWO_SIDED|95.0|0.558|1.102|||Repeated measures analysis|||MD1C, Week 4||1.102|0.558|0.155
82525786|NCT02799472|164748077|OTHER||Ratio|0.638||||0.004|TWO_SIDED|95.0|0.477|0.855|||Repeated measures analysis|||MD1C, Week 6||0.855|0.477|0.004
82525787|NCT02799472|164748077|OTHER||Ratio|0.799||||0.14|TWO_SIDED|95.0|0.591|1.08|||Repeated measures analysis|||MD1C, Week 8||1.080|0.591|0.140
82525788|NCT02799472|164748077|OTHER||Ratio|0.891||||0.47|TWO_SIDED|95.0|0.647|1.228|||Repeated measures analysis|||MD1C, Week 12||1.228|0.647|0.470
82525789|NCT02799472|164748077|OTHER||Ratio|0.869||||0.401|TWO_SIDED|95.0|0.621|1.217|||Repeated measures analysis|||MD1C, 12-Week FU||1.217|0.621|0.401
82389925|NCT01647516|164491289|SUPERIORITY||Odds Ratio (OR)|1.947||||0.0648|TWO_SIDED|95.0|0.961|3.946|||Cochran-Mantel-Haenszel|Stratified by prior anti-tumor necrosing factor (anti-TNF) therapy experience, (yes or no).||||3.946|0.961|0.0648
82389926|NCT01647516|164491290|SUPERIORITY|||||||0.0042|||||||ANCOVA|The analysis of covariance model, adjusting for baseline Mayo score and prior anti-TNF (yes or no).||||||0.0042
82525790|NCT02799472|164748077|OTHER||Ratio|0.981||||0.887|TWO_SIDED|95.0|0.742|1.296|||Repeated measures analysis|||MD2C, Week 1||1.296|0.742|0.887
82525791|NCT02799472|164748077|OTHER||Ratio|0.97||||0.814|TWO_SIDED|95.0|0.744|1.263|||Repeated measures analysis|||MD2C, Week 2||1.263|0.744|0.814
82525792|NCT02799472|164748077|OTHER||Ratio|0.969||||0.794|TWO_SIDED|95.0|0.762|1.233|||Repeated measures analysis|||MD2C, Week 4||1.233|0.762|0.794
82525793|NCT02799472|164748077|OTHER||Ratio|0.919||||0.539|TWO_SIDED|95.0|0.696|1.213|||Repeated measures analysis|||MD2C, Week 6||1.213|0.696|0.539
82525794|NCT02799472|164748077|OTHER||Ratio|0.937||||0.623|TWO_SIDED|95.0|0.719|1.221|||Repeated measures analysis|||MD2C, Week 8||1.221|0.719|0.623
82525795|NCT02799472|164748077|OTHER||Ratio|0.913||||0.467|TWO_SIDED|95.0|0.711|1.173|||Repeated measures analysis|||MD2C, Week 12||1.173|0.711|0.467
82525796|NCT02799472|164748077|OTHER||Ratio|0.778||||0.108|TWO_SIDED|95.0|0.57|1.061|||Repeated measures analysis|||MD2C, 12-Week FU||1.061|0.570|0.108
82525797|NCT02799472|164748077|OTHER||Ratio|1.01||||0.897|TWO_SIDED|95.0|0.868|1.175|||Repeated measures analysis|||MD3C, Week 1||1.175|0.868|0.897
82525798|NCT02799472|164748077|OTHER||Ratio|1.037||||0.644|TWO_SIDED|95.0|0.884|1.218|||Repeated measures analysis|||MD3C, Week 2||1.218|0.884|0.644
82525799|NCT02799472|164748077|OTHER||Ratio|0.943||||0.53|TWO_SIDED|95.0|0.78|1.139|||Repeated measures analysis|||MD3C, Week 4||1.139|0.780|0.530
82525800|NCT02799472|164748077|OTHER||Ratio|0.882||||0.182|TWO_SIDED|95.0|0.733|1.063|||Repeated measures analysis|||MD3C, Week 6||1.063|0.733|0.182
82573920|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|7.54||0.515|TWO_SIDED|90.0|-12.7|12.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||12.1|-12.7|0.5150
82525801|NCT02799472|164748077|OTHER||Ratio|0.96||||0.691|TWO_SIDED|10.0|0.779|1.182|||Repeated measures analysis|||MD3C, Week 8||1.182|0.779|0.691
82525802|NCT02799472|164748077|OTHER||Ratio|0.979||||0.843|TWO_SIDED|95.0|0.79|1.214|||Repeated measures analysis|||MD3C, Week 12||1.214|0.790|0.843
82525803|NCT02799472|164748077|OTHER||Ratio|1.075||||0.524|TWO_SIDED|95.0|0.855|1.351|||Repeated measures analysis|||MD3C, 12-Week FU||1.351|0.855|0.524
82525804|NCT02799472|164748078|OTHER||Ratio|0.953||||0.558|TWO_SIDED|95.0|0.809|1.123|||Repeated measures analysis|||Helper/Suppressor, Week 1||1.123|0.809|0.558
82525805|NCT02799472|164748078|OTHER||Ratio|0.947||||0.515|TWO_SIDED|95.0|0.801|1.12|||Repeated measures analysis|||Helper/Suppressor, Week 4||1.120|0.801|0.515
82640858|NCT05182840|164996329|OTHER||Odds Ratio (OR)|2.18||||0.0024|TWO_SIDED|95.0|1.32|3.61||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.61|1.32|0.0024
82525806|NCT02799472|164748078|OTHER||Ratio|1.046||||0.565|TWO_SIDED|95.0|0.895|1.222|||Repeated measures analysis|||Helper/Suppressor, Week 12||1.222|0.895|0.565
82525807|NCT02799472|164748078|OTHER||Ratio|1.013||||0.897|TWO_SIDED|95.0|0.822|1.249|||Repeated measures analysis|||Helper/Suppressor, 12-Week FU||1.249|0.822|0.897
82525808|NCT02799472|164748079|OTHER||Ratio|1.037||||0.786|TWO_SIDED|95.0|0.794|1.354|||Repeated measures analysis|||CD16+CD56+, Week 1||1.354|0.794|0.786
82525809|NCT02799472|164748079|OTHER||Ratio|0.818||||0.188|TWO_SIDED|95.0|0.603|1.109|||Repeated measures analysis|||CD16+CD56+, Week 4||1.109|0.603|0.188
82525810|NCT02799472|164748079|OTHER||Ratio|0.763||||0.129|TWO_SIDED|95.0|0.536|1.087|||Repeated measures analysis|||CD16+CD56+, Week 12||1.087|0.536|0.129
82525811|NCT02799472|164748079|OTHER||Ratio|0.709||||0.054|TWO_SIDED|95.0|0.499|1.006|||Repeated measures analysis|||CD16+CD56+, 12-Week FU||1.006|0.499|0.054
82525812|NCT02799472|164748079|OTHER||Ratio|1.119||||0.383|TWO_SIDED|95.0|0.863|1.45|||Repeated measures analysis|||CD19, Week 1||1.450|0.863|0.383
82525813|NCT02799472|164748079|OTHER||Ratio|0.89||||0.51|TWO_SIDED|95.0|0.623|1.271|||Repeated measures analysis|||CD19, Week 4||1.271|0.623|0.510
82525814|NCT02799472|164748079|OTHER||Ratio|0.952||||0.724|TWO_SIDED|95.0|0.718|1.262|||Repeated measures analysis|||CD19, Week 12||1.262|0.718|0.724
82525815|NCT02799472|164748079|OTHER||Ratio|0.958||||0.831|TWO_SIDED|95.0|0.635|1.443|||Repeated measures analysis|||CD19, 12-Week FU||1.443|0.635|0.831
82525816|NCT02799472|164748079|OTHER||Ratio|1.082||||0.437|TWO_SIDED|95.0|0.882|1.328|||Repeated measures analysis|||CD3, Week 1||1.328|0.882|0.437
82525817|NCT02799472|164748079|OTHER||Ratio|0.937||||0.632|TWO_SIDED|95.0|0.711|1.234|||Repeated measures analysis|||CD3, Week 4||1.234|0.711|0.632
82525818|NCT02799472|164748079|OTHER||Ratio|1.088||||0.413|TWO_SIDED|95.0|0.885|1.336|||Repeated measures analysis|||CD3, Week 12||1.336|0.885|0.413
82525819|NCT02799472|164748079|OTHER||Ratio|1.062||||0.567|TWO_SIDED|95.0|0.858|1.316|||Repeated measures analysis|||CD3, 12-Week FU||1.316|0.858|0.567
82525820|NCT02799472|164748079|OTHER||Ratio|1.069||||0.547|TWO_SIDED|95.0|0.855|1.338|||Repeated measures analysis|||CD3+CD4+, Week 1||1.338|0.855|0.547
82525821|NCT02799472|164748079|OTHER||Ratio|0.907||||0.512|TWO_SIDED|95.0|0.673|1.223|||Repeated measures analysis|||CD3+CD4+, Week 4||1.223|0.673|0.512
82525822|NCT02799472|164748079|OTHER||Ratio|1.064||||0.573|TWO_SIDED|95.0|0.853|1.328|||Repeated measures analysis|||CD3+CD4+, Week 12||1.328|0.853|0.573
82525823|NCT02799472|164748079|OTHER||Ratio|1.031||||0.789|TWO_SIDED|95.0|0.818|1.3|||Repeated measures analysis|||CD3+CD4+, 12-Week FU||1.300|0.818|0.789
82525824|NCT02799472|164748080|OTHER||Mean Difference (Net)|0.036||||0.428|TWO_SIDED|95.0|-0.056|0.128|||Repeated measures analysis|||CD3+CD8+, Week 1||0.128|-0.056|0.428
82525825|NCT02799472|164748080|OTHER||Mean Difference (Net)|-0.023||||0.733|TWO_SIDED|95.0|-0.159|0.113|||Repeated measures analysis|||CD3+CD8+, Week 4||0.113|-0.159|0.733
82525826|NCT02799472|164748080|OTHER||Mean Difference (Net)|0.02||||0.677|TWO_SIDED|95.0|-0.076|0.115|||Repeated measures analysis|||CD3+CD8+, Week 12||0.115|-0.076|0.677
82525827|NCT02799472|164748080|OTHER||Mean Difference (Net)|0.033||||0.569|TWO_SIDED|95.0|-0.084|0.151|||Repeated measures analysis|||CD3+CD8+, 12-Week FU||0.151|-0.084|0.569
82525828|NCT02799472|164748080|OTHER||Mean Difference (Net)|0.103||||0.569|TWO_SIDED|95.0|-0.263|0.469|||Repeated measures analysis|||T Cell B Cell NKL, Week 1||0.469|-0.263|0.569
82640859|NCT05182840|164996329|OTHER||Odds Ratio (OR)|4.05||||0|TWO_SIDED|95.0|2.39|6.86||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.86|2.39|0.0000
82389927|NCT01647516|164491290|SUPERIORITY|||||||0.1415|||||||ANCOVA|The analysis of covariance model, adjusting for baseline Mayo score and prior anti-TNF (yes or no).||||||0.1415
82389928|NCT01647516|164491291|SUPERIORITY||Odds Ratio (OR)|3.861||||0.0023|TWO_SIDED|95.0|1.572|9.484|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||9.484|1.572|0.0023
82389929|NCT01647516|164491291|SUPERIORITY||Odds Ratio (OR)|2.647||||0.0348|TWO_SIDED|95.0|1.058|6.621|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||6.621|1.058|0.0348
82389930|NCT01647516|164491292|SUPERIORITY||Odds Ratio (OR)|4.332||||0.0108|TWO_SIDED|95.0|1.323|14.186|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||14.186|1.323|0.0108
82389931|NCT01647516|164491292|SUPERIORITY||Odds Ratio (OR)|5.443||||0.0021|TWO_SIDED|95.0|1.706|17.365|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||17.365|1.706|0.0021
82389932|NCT01647516|164491293|SUPERIORITY|Stratified by prior anti-TNF therapy experience, (yes or no).|Odds Ratio (OR)|4.03||||0.0002|TWO_SIDED|95.0|1.871|8.678|||Cochran-Mantel-Haenszel|||||8.678|1.871|0.0002
82389933|NCT01647516|164491293|SUPERIORITY||Odds Ratio (OR)|2.154||||0.0571|TWO_SIDED|95.0|0.974|4.763|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||4.763|0.974|0.0571
82389934|NCT01647516|164491294|SUPERIORITY||Odds Ratio (OR)|3.557||||0.0046|TWO_SIDED|95.0|1.444|8.762|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||8.762|1.444|0.0046
82389935|NCT01647516|164491294|SUPERIORITY||Odds Ratio (OR)|3.428||||0.0064|TWO_SIDED|95.0|1.384|8.494|||Cochran-Mantel-Haenszel|Stratified by prior anti-TNF therapy experience, (yes or no).||||8.494|1.384|0.0064
82389936|NCT01895608|164491331|OTHER|non-parametric statistic: Mann-Whitney U test for independent samples||||||0.562|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.562
82389937|NCT01895608|164491331|OTHER|||||||0.414|||||||Wilcoxon (Mann-Whitney)|non-parametric statistical analysis: Mann Whitney U Test for independent samples||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.414
82389938|NCT01895608|164491332|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.181|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.181
82389939|NCT01895608|164491332|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in walking under dual-task conditions following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||1.000
82389940|NCT01895608|164491333|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in fall risk as measured by dynamic gait index following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||1.000
82389941|NCT01895608|164491333|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.662|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in fall risk as measured by dynamic gait index following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.662
82389942|NCT01895608|164491334|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in static balance as measured by sensory organization test following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.05
82389943|NCT01895608|164491334|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.171|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in static balance as measured by sensory organization test following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.171
82389944|NCT01895608|164491335|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.313|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in gait speed following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.313
82389945|NCT01895608|164491335|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.852|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in gait speed following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.852
82389946|NCT01895608|164491336|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.263|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in balance confidence following balance rehabilitation that incorporates dual-task practice compared to standard balance rehabilitation.||||0.263
82389947|NCT01895608|164491336|OTHER|non-parametric statistical analysis: Mann Whitney U Test for independent samples||||||0.181|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: There will not be a difference in improvement in balance confidence following cognitive training that incorporates speed of processing tasks compared to general cognitive training.||||0.181
82426223|NCT00370292|164561406|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 2 Hours Post-Dose (2 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82426224|NCT00370292|164561406|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for 4 Hours Post-Dose (4 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.030
82426225|NCT00370292|164561406|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value for 6 Hours Post-Dose (6 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.166
82525829|NCT02799472|164748080|OTHER||Mean Difference (Net)|-0.157||||0.534|TWO_SIDED|95.0|-0.668|0.354|||Repeated measures analysis|||T Cell B Cell NKL, Week 4||0.354|-0.668|0.534
82525830|NCT02799472|164748080|OTHER||Mean Difference (Net)|0.087||||0.668|TWO_SIDED|95.0|-0.323|0.498|||Repeated measures analysis|||T Cell B Cell NKL, Week 12||0.498|-0.323|0.668
82426226|NCT00370292|164561406|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 Hours Post-Dose (24 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82426227|NCT00370292|164561406|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 48 Hours Post-Dose (48 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82525831|NCT02799472|164748080|OTHER||Mean Difference (Net)|-0.021||||0.934|TWO_SIDED|95.0|-0.526|0.484|||Repeated measures analysis|||T Cell B Cell NKL, 12-Week FU||0.484|-0.526|0.934
82525832|NCT02799472|164748081|OTHER||Ratio|1.112||||0.369|TWO_SIDED|95.0|0.876|1.412|||Repeated measures analysis|||CD3+ CD4+, Week 1||1.412|0.876|0.369
82389948|NCT02822573|164491340|SUPERIORITY|Mixed effects repeated measures analysis of covariance (RMANCOVA) models with covariates of treatment, time, time by treatment interaction, baseline outcome level, age stratification and an unstructured covariance matrix. The primary objective was assessed using a linear contrast of group effect at 24 weeks.||||||0.32|||||||ANCOVA|||With a sample size of 266, there was 90% power to detect a treatment difference of 2 words for HVLT-R total recall score (SD=4.26, effect size=0.47) with a two-sided 5% level of significance. This calculation assumed an ANCOVA model analysis with 25% dropout and 2% missing data at end of treatment. A single interim analysis for futility occurred after 138 participants, with stopping rule of two-sided p-value \< 0.0154. This design required 3.5% more than fixed design, increasing total to 276.||||0.32
82389949|NCT04143594|164491349|SUPERIORITY||Difference in percentage|-2.6||||0.7178|TWO_SIDED|95.0|-18.4|13.2||P-value was from the Cochran-Mantel-Haenszel (CMH) tests stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing and the B/F/TAF groups, and its 95% confidence interval (CI) were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||13.2|-18.4|0.7178
82426228|NCT00370292|164561408|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 1 Hour Post-Dose (1 hour across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82389950|NCT04143594|164491349|SUPERIORITY||Difference in percentage|-7.1||||0.39|TWO_SIDED|95.0|-23.4|9.3||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.3|-23.4|0.3900
82389951|NCT04143594|164491349|SUPERIORITY||Difference in percentage|-7.2||||0.3797|TWO_SIDED|95.0|-23.5|9.1||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.1|-23.5|0.3797
82389952|NCT04143594|164491350|SUPERIORITY||Difference in percentage|-5.5||||0.2398|TWO_SIDED|95.0|-15.9|4.8||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||4.8|-15.9|0.2398
82573921|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|8.28||0.0737|TWO_SIDED|90.0|-1.4|25.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||25.8|-1.4|0.0737
82573922|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|6.6|STANDARD_ERROR_OF_MEAN|8.11||0.2081|TWO_SIDED|90.0|-6.7|20.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0 or 1||20.0|-6.7|0.2081
82389953|NCT04143594|164491350|SUPERIORITY||Difference in percentage|-7.4||||0.1639|TWO_SIDED|95.0|-18.3|3.4||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||3.4|-18.3|0.1639
82389954|NCT04143594|164491350|SUPERIORITY||Difference in percentage|-5.7||||0.2307|TWO_SIDED|95.0|-16.3|4.9||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||4.9|-16.3|0.2307
82573923|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|4.8|STANDARD_ERROR_OF_MEAN|8.9||0.2957|TWO_SIDED|90.0|-9.9|19.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||19.4|-9.9|0.2957
82525833|NCT02799472|164748081|OTHER||Ratio|0.941||||0.641|TWO_SIDED|95.0|0.721|1.228|||Repeated measures analysis|||CD3+ CD4+, Week 4||1.228|0.721|0.641
82389955|NCT04143594|164491351|SUPERIORITY||Difference in percentage|-6.7||||0.3142|TWO_SIDED|95.0|-20.7|7.3||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||7.3|-20.7|0.3142
82389956|NCT04143594|164491351|SUPERIORITY||Difference in percentage|-7.2||||0.3009|TWO_SIDED|95.0|-21.3|6.8||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||6.8|-21.3|0.3009
82389957|NCT04143594|164491351|SUPERIORITY||Difference in percentage|-7.6||||0.2859|TWO_SIDED|95.0|-21.8|6.7||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||6.7|-21.8|0.2859
82389958|NCT04143594|164491352|SUPERIORITY||Difference in percentage|-7.1||||0.3686|TWO_SIDED|95.0|-23.2|9.0||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||9.0|-23.2|0.3686
82389959|NCT04143594|164491352|SUPERIORITY||Difference in percentage|-16.5||||0.0887|TWO_SIDED|95.0|-34.0|1.0||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||1.0|-34.0|0.0887
82389960|NCT04143594|164491352|SUPERIORITY||Difference in percentage|-5.4||||0.4949|TWO_SIDED|95.0|-21.5|10.7||P-value was from the CMH tests stratified by baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentage of participants between LEN-containing treatment groups and the B/F/TAF group, and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||10.7|-21.5|0.4949
82389961|NCT04143594|164491353|SUPERIORITY||Difference in LSM|0.08||||0.5755|TWO_SIDED|95.0|-0.2|0.37||P-value was from analysis of variance (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.37|-0.20|0.5755
82389962|NCT04143594|164491353|SUPERIORITY||Difference in LSM|0.02||||0.8697|TWO_SIDED|95.0|-0.25|0.29||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.29|-0.25|0.8697
82389963|NCT04143594|164491353|SUPERIORITY||Difference in LSM|0.06||||0.7052|TWO_SIDED|95.0|-0.23|0.35||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.35|-0.23|0.7052
82443870|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-13.187|STANDARD_ERROR_OF_MEAN|6.212753||0.044|TWO_SIDED|95.0|-26.002351|-0.372281||A priori set significance threshold was 0.05|Mixed Models Analysis|||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to less emotional dysregulation than sham neurostimulation.||-0.372281|-26.002351|0.044
82640860|NCT05182840|164996329|OTHER||Odds Ratio (OR)|3.87||||0|TWO_SIDED|95.0|2.29|6.55||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.55|2.29|0.0000
82640861|NCT05182840|164996330|OTHER||Odds Ratio (OR)|2.26||||0.0019|TWO_SIDED|95.0|1.35|3.77||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.77|1.35|0.0019
82525834|NCT02799472|164748081|OTHER||Ratio|1.024||||0.844|TWO_SIDED|95.0|0.804|1.303|||Repeated measures analysis|||CD3+ CD4+, Week 12||1.303|0.804|0.844
82389964|NCT04143594|164491354|SUPERIORITY||Difference in LSM|0.02||||0.8942|TWO_SIDED|95.0|-0.26|0.3||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.30|-0.26|0.8942
82525835|NCT02799472|164748081|OTHER||Ratio|1.082||||0.558|TWO_SIDED|95.0|0.821|1.427|||Repeated measures analysis|||CD3+ CD4+, 12-Week FU||1.427|0.821|0.558
82525836|NCT02799472|164748081|OTHER||Ratio|1.111||||0.363|TWO_SIDED|95.0|0.88|1.402|||Repeated measures analysis|||CD3+ CD8+, Week 1||1.402|0.880|0.363
82525837|NCT02799472|164748081|OTHER||Ratio|0.957||||0.751|TWO_SIDED|95.0|0.724|1.265|||Repeated measures analysis|||CD3+ CD8+, Week 4||1.265|0.724|0.751
82525838|NCT02799472|164748081|OTHER||Ratio|1.076||||0.537|TWO_SIDED|95.0|0.846|1.37|||Repeated measures analysis|||CD3+ CD8+, Week 12||1.370|0.846|0.537
82640862|NCT05182840|164996330|OTHER||Odds Ratio (OR)|3.81||||0|TWO_SIDED|95.0|2.2|6.59||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.59|2.20|0.0000
82525839|NCT02799472|164748081|OTHER||Ratio|1.032||||0.806|TWO_SIDED|95.0|0.797|1.335|||Repeated measures analysis|||CD3+ CD8+, 12-Week FU||1.335|0.797|0.806
82525840|NCT02799472|164748081|OTHER||Ratio|1.101||||0.405|TWO_SIDED|95.0|0.872|1.391|||Repeated measures analysis|||CD3+, Week 1||1.391|0.872|0.405
82389965|NCT04143594|164491354|SUPERIORITY||Difference in LSM|-0.02||||0.9058|TWO_SIDED|95.0|-0.28|0.25||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.25|-0.28|0.9058
82525841|NCT02799472|164748081|OTHER||Ratio|0.907||||0.519|TWO_SIDED|95.0|0.668|1.232|||Repeated measures analysis|||CD3+, Week 4||1.232|0.668|0.519
82525842|NCT02799472|164748081|OTHER||Ratio|1.036||||0.748|TWO_SIDED|95.0|0.831|1.291|||Repeated measures analysis|||CD3+, Week 12||1.291|0.831|0.748
82525843|NCT02799472|164748081|OTHER||Ratio|1.049||||0.704|TWO_SIDED|95.0|0.811|1.356|||Repeated measures analysis|||CD3+, 12-Week FU||1.356|0.811|0.704
82525844|NCT02799472|164748082|OTHER||Mean Difference (Net)|6.5||||0.501|TWO_SIDED|95.0|-13.1|26.1|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 1||26.1|-13.1|0.501
82525845|NCT02799472|164748082|OTHER||Mean Difference (Net)|-1.8||||0.852|TWO_SIDED|95.0|-21.6|18.0|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 4||18.0|-21.6|0.852
82525846|NCT02799472|164748082|OTHER||Mean Difference (Net)|6.3||||0.572|TWO_SIDED|95.0|-16.4|29.0|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, Week 12||29.0|-16.4|0.572
82525847|NCT02799472|164748082|OTHER||Mean Difference (Net)|10.5||||0.363|TWO_SIDED|95.0|-13.0|34.1|||Repeated measures analysis|||CD3+CD4+CD25+CD127-, 12-Week FU||34.1|-13.0|0.363
82525848|NCT02799472|164748082|OTHER||Mean Difference (Net)|2.0||||0.788|TWO_SIDED|95.0|-13.0|17.0|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 1||17.0|-13.0|0.788
82640863|NCT05182840|164996330|OTHER||Odds Ratio (OR)|3.67||||0|TWO_SIDED|95.0|2.12|6.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.35|2.12|0.0000
82389966|NCT04143594|164491354|SUPERIORITY||Difference in LSM|0.04||||0.8129|TWO_SIDED|95.0|-0.27|0.35||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.35|-0.27|0.8129
82389967|NCT04143594|164491355|SUPERIORITY||Difference in LSM|0.04||||0.7864|TWO_SIDED|95.0|-0.25|0.33||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.33|-0.25|0.7864
82389968|NCT04143594|164491355|SUPERIORITY||Difference in LSM|-0.05||||0.7013|TWO_SIDED|95.0|-0.31|0.21||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.21|-0.31|0.7013
82389969|NCT04143594|164491355|SUPERIORITY||Difference in LSM|0.22||||0.2753|TWO_SIDED|95.0|-0.18|0.62||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.62|-0.18|0.2753
82389970|NCT04143594|164491356|SUPERIORITY||Difference in LSM|0.08||||0.564|TWO_SIDED|95.0|-0.19|0.34||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.34|-0.19|0.5640
82389971|NCT04143594|164491356|SUPERIORITY||Difference in LSM|-0.01||||0.9555|TWO_SIDED|95.0|-0.28|0.26||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.26|-0.28|0.9555
82389972|NCT04143594|164491356|SUPERIORITY||Difference in LSM|0.14||||0.4025|TWO_SIDED|95.0|-0.19|0.46||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||0.46|-0.19|0.4025
82389973|NCT04143594|164491357|SUPERIORITY||Difference in LSM|12.0||||0.7751|TWO_SIDED|95.0|-73.0|97.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||97|-73|0.7751
82389974|NCT04143594|164491357|SUPERIORITY||Difference in LSM|-2.0||||0.9549|TWO_SIDED|95.0|-79.0|75.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||75|-79|0.9549
82443871|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|0.927909|STANDARD_ERROR_OF_MEAN|9.603423||0.924|TWO_SIDED|95.0|-18.508252|20.364071||A priori set threshold for statistical significance was 0.05|Mixed Models Analysis|baseline was covaried||We expected active stimulation to lead to less emotional dysregulation than sham neurostimulation. A MMANOVA model was employed, controlling for baseline.||20.364071|-18.508252|.924
82443872|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-0.017547|STANDARD_ERROR_OF_MEAN|0.267983||0.95|TWO_SIDED|95.0|-0.560994|0.525901|||Mixed Models Analysis|||we expected more use of cr following active right neurostimulation then after following sham neurostimulation.||0.525901|-0.560994|.95
82640864|NCT05182840|164996331|OTHER||Odds Ratio (OR)|1.67||||0.0418|TWO_SIDED|95.0|1.02|2.74||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||2.74|1.02|0.0418
82389975|NCT04143594|164491357|SUPERIORITY||Difference in LSM|44.0||||0.2603|TWO_SIDED|95.0|-33.0|120.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||120|-33|0.2603
82389976|NCT04143594|164491358|SUPERIORITY||Difference in LSM|-31.0||||0.4827|TWO_SIDED|95.0|-119.0|57.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||57|-119|0.4827
82389977|NCT04143594|164491358|SUPERIORITY||Difference in LSM|-12.0||||0.7963|TWO_SIDED|95.0|-106.0|81.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||81|-106|0.7963
82389978|NCT04143594|164491358|SUPERIORITY||Difference in LSM|-22.0||||0.6169|TWO_SIDED|95.0|-111.0|67.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||67|-111|0.6169
82389979|NCT04143594|164491359|SUPERIORITY||Difference in LSM|21.0||||0.6614|TWO_SIDED|95.0|-73.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-73|0.6614
82426229|NCT00370292|164561408|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 2 Hours Post-Dose (2 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82389980|NCT04143594|164491359|SUPERIORITY||Difference in LSM|20.0||||0.6791|TWO_SIDED|95.0|-75.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-75|0.6791
82389981|NCT04143594|164491359|SUPERIORITY||Difference in LSM|27.0||||0.5563|TWO_SIDED|95.0|-65.0|120.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||120|-65|0.5563
82389982|NCT04143594|164491360|SUPERIORITY||Difference in LSM|32.0||||0.5492|TWO_SIDED|95.0|-75.0|140.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||140|-75|0.5492
82389983|NCT04143594|164491360|SUPERIORITY||Difference in LSM|17.0||||0.722|TWO_SIDED|95.0|-80.0|115.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|Difference in LSM||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||115|-80|0.7220
82389984|NCT04143594|164491360|SUPERIORITY||Difference in LSM|-4.0||||0.9486|TWO_SIDED|95.0|-118.0|110.0||P-value was from (ANOVA) model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|ANOVA||Difference in LSM, and its 95% CI were from ANOVA model adjusting for the baseline HIV-1 RNA level (\<= 100,000 copies/mL or \> 100,000 copies/mL).|||110|-118|0.9486
82389985|NCT01023256|164491395|SUPERIORITY_OR_OTHER|||||||0.095||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.095
82389986|NCT01023256|164491395|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||<0.0001
82389987|NCT01023256|164491395|SUPERIORITY_OR_OTHER|||||||0.003||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.003
82389988|NCT01023256|164491397|SUPERIORITY_OR_OTHER|||||||0.421||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.421
82426230|NCT00370292|164561408|SUPERIORITY_OR_OTHER|||||||0.333||95.0||||P-value for 4 Hours Post-Dose (4 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.333
82426231|NCT00370292|164561408|SUPERIORITY_OR_OTHER|||||||0.849||95.0||||P-value for 6 Hours Post-Dose (6 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||0.849
82426232|NCT00370292|164561408|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 Hours Post-Dose (24 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82426233|NCT00370292|164561408|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 48 Hours Post-Dose (48 hours across cycles compared with pre-dose across cycles).|Repeated Measures Analysis of Variance|||||||<0.001
82525849|NCT02799472|164748082|OTHER||Mean Difference (Net)|-2.2||||0.786|TWO_SIDED|95.0|-18.8|14.4|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 4||14.4|-18.8|0.786
82640865|NCT05182840|164996331|OTHER||Odds Ratio (OR)|3.91||||0|TWO_SIDED|95.0|2.3|6.65||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.65|2.30|0.0000
82389989|NCT01023256|164491397|SUPERIORITY_OR_OTHER|||||||0.003||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.003
82525850|NCT02799472|164748082|OTHER||Mean Difference (Net)|-7.1||||0.433|TWO_SIDED|95.0|-25.4|11.2|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, Week 12||11.2|-25.4|0.433
82389990|NCT01023256|164491397|SUPERIORITY_OR_OTHER|||||||0.065||||||P values were derived from pairwise comparisons between each MOR103 group and the pooled placebo group based on an analysis of covariance (ANCOVA) model. P values \< 0.05 were considered significant.|ANCOVA|The ANCOVA model included fixed effect terms for dose and the covariate C-reactive protein level at baseline.||||||0.065
82389991|NCT01023256|164491398|SUPERIORITY_OR_OTHER|||||||0.243||||||P values \<0.05 were considered to be statistically significant.|Fisher Exact|Patients with missing values were not included||||||0.243
82389992|NCT01023256|164491398|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P values \< 0.05 were considered significant.|Fisher Exact|Patients with missing values were not included||||||<0.0001
82389993|NCT01023256|164491398|SUPERIORITY_OR_OTHER|||||||0.135||||||P values \<0.05 were considered to be statistically significant.|Fisher Exact|Patients with missing values were not included.||||||0.135
82389994|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.13|TWO_SIDED|95.0|-0.53|0.07|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 48-hours post-treatment."||0.07|-0.53|0.13
82389995|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.78|TWO_SIDED|95.0|-0.23|0.3|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 72-hours post-treatment."||0.30|-0.23|0.78
82426234|NCT03801525|164561415|SUPERIORITY||Hazard Ratio (HR)|0.778||||0.696|TWO_SIDED|95.0|0.219|2.755|||Log Rank|||||2.755|0.219|0.6960
82426235|NCT03801525|164561422|SUPERIORITY||Hazard Ratio (HR)|0.201||||0.1038|TWO_SIDED|95.0|0.023|1.721|||Log Rank|||||1.721|0.023|0.1038
82426236|NCT01766102|164561423|OTHER|||||||0.716|||||||t-test, 2 sided|||H0: Procedure time is not significantly different based on mammography type used||||0.716
82389996|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.17||0.77|TWO_SIDED|95.0|-0.38|0.29|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 96-hours post-treatment."||0.29|-0.38|0.77
82389997|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.15||0.37|TWO_SIDED|95.0|-0.45|0.17|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 48-hours post-treatment."||0.17|-0.45|0.37
82389998|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.2|0.58|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 72-hours post-treatment."||0.58|-0.20|0.33
82389999|NCT03155178|164491402|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.16||0.65|TWO_SIDED|95.0|-0.25|0.39|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 recovery between arms at 96-hours post-treatment."||0.39|-0.25|0.65
82426237|NCT01766102|164561423|OTHER|||||||0.676|||||||t-test, 2 sided|||H0: Operating room time is not significantly different based on mammography type used||||0.676
82640866|NCT05182840|164996331|OTHER||Odds Ratio (OR)|3.58||||0|TWO_SIDED|95.0|2.11|6.05||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.05|2.11|0.0000
82525851|NCT02799472|164748082|OTHER||Mean Difference (Net)|4.1||||0.55|TWO_SIDED|95.0|-9.8|18.0|||Repeated measures analysis|||CD3+CD4+foxP3+CD25+CD127-, 12-Week FU||18.0|-9.8|0.550
82525852|NCT02799472|164748083|OTHER||Mean Difference (Net)|14.6||||0.35|TWO_SIDED|95.0|-16.9|46.1|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 1||46.1|-16.9|0.350
82525853|NCT02799472|164748083|OTHER||Mean Difference (Net)|8.4||||0.697|TWO_SIDED|95.0|-35.3|52.0|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 4||52.0|-35.3|0.697
82390000|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.22||0.38|TWO_SIDED|95.0|-0.63|0.24|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 48-hours post-treatment."||0.24|-0.63|0.38
82525854|NCT02799472|164748083|OTHER||Mean Difference (Net)|-49.2||||0.249|TWO_SIDED|95.0|-135.2|36.8|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, Week 12||36.8|-135.2|0.249
82525855|NCT02799472|164748083|OTHER||Mean Difference (Net)|-30.1||||0.119|TWO_SIDED|95.0|-68.6|8.3|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3+38+DR+, 12-Week FU||8.3|-68.6|0.119
82525856|NCT02799472|164748083|OTHER||Mean Difference (Net)|6.5||||0.403|TWO_SIDED|95.0|-9.3|22.4|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 1||22.4|-9.3|0.403
82426238|NCT03545672|164561425|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.001
82426239|NCT03545672|164561426|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82525857|NCT02799472|164748083|OTHER||Mean Difference (Net)|-2.1||||0.91|TWO_SIDED|95.0|-39.4|35.2|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 4||35.2|-39.4|0.910
82525858|NCT02799472|164748083|OTHER||Mean Difference (Net)|-6.5||||0.718|TWO_SIDED|95.0|-43.1|30.1|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, Week 12||30.1|-43.1|0.718
82525859|NCT02799472|164748083|OTHER||Mean Difference (Net)|-5.7||||0.687|TWO_SIDED|95.0|-34.4|23.0|||Repeated measures analysis|||CD45+3+8-4+CCR6+CXCR3-38+DR+, 12-Week FU||23.0|-34.4|0.687
82390001|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.68|TWO_SIDED|95.0|-0.3|0.45|||Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 72-hours post-treatment."||0.45|-0.30|0.68
82390002|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.23||0.97|TWO_SIDED|95.0|-0.47|0.45|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 96-hours post-treatment."||0.45|-0.47|0.97
82390003|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.23||0.4|TWO_SIDED|95.0|-0.27|0.65|||Paired t-test|||"48-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 48-hours post-treatment."||0.65|-0.27|0.40
82390004|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.25||0.03|TWO_SIDED|95.0|0.05|1.03||Using a Hochberg Step-up procedure the critical p value is 0.17|Paired t-test|||"72-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 72-hours post-treatment."||1.03|0.05|0.03
82390005|NCT03155178|164491403|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.23||0.07|TWO_SIDED|95.0|-0.03|0.87|||Paired t-test|||"96-hours post-treatment time point. The primary analysis dataset used a modified Intent to Treat population. Subjects were excluded who did not meet the treatment day baseline requirements of greater than or equal to 5.0 log10 CFU/cm\^2 on the inguinal.~The null hypothesis is that there is no difference in log10 CFU /cm\^2 regrowth from the 10 minute time point between arms at 96-hours post-treatment."||0.87|-0.03|0.07
82647810|NCT01872689|165011118|SUPERIORITY||Mean Difference (Final Values)|21.72972|STANDARD_ERROR_OF_MEAN|31.68767||0.4934|TWO_SIDED|95.0|-40.65|84.11|||Mixed Models Analysis||Mean Difference = Lebrikizumab - Placebo|Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||84.11|-40.65|0.4934
82390006|NCT00308087|164491405|SUPERIORITY_OR_OTHER|||||||0.6182||95.0||||"Exact Conditional Test is stratified on the number~\> of prior therapies (1 or 2, 3 or more prior therapies)."|2-sided Exact Conditional Test|||||||0.6182
82390007|NCT00308087|164491408|SUPERIORITY_OR_OTHER|||||||0.5501||95.0|||||Log Rank|||Log rank analysis is a comparison between treatment groups of the distribution of time to first progressive disease or death.||||0.5501
82390008|NCT00308087|164491409|SUPERIORITY_OR_OTHER|||||||0.8217||95.0|||||Log Rank|||Log rank analysis is a comparison between treatment groups of the distribution of time to first progressive disease or death.||||0.8217
82390009|NCT01044290|164491411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|||<|0.61|TWO_SIDED|95.0|-1.1|0.7|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||.7|-1.1|<0.61
82525860|NCT02799472|164748083|OTHER||Mean Difference (Net)|-56.0||||0.559|TWO_SIDED|95.0|-249.8|137.7|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 1||137.7|-249.8|0.559
82390010|NCT01044290|164491411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||<|0.02|TWO_SIDED|95.0|0.2|2.0|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks.||2.0|.2|<.02
82390011|NCT01044290|164491412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|||=|0.9|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||1.1|-1.2|=.9
82390012|NCT01044290|164491412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||<|0.97|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks.||1.1|-1.2|<.97
82525861|NCT02799472|164748083|OTHER||Mean Difference (Net)|51.6||||0.47|TWO_SIDED|95.0|-93.9|197.0|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 4||197.0|-93.9|0.470
82390013|NCT01044290|164491413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|||<|0.91|TWO_SIDED|95.0|-1.4|1.5|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks||1.5|-1.4|<.91
82390014|NCT01044290|164491413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||=|0.42|TWO_SIDED|95.0|-2.1|0.9|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable||Comparison at 5 weeks||0.9|-2.1|=.42
82390015|NCT01044290|164491414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|||=|0.58|TWO_SIDED|95.0|-1.5|2.8|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||2.8|-1.5|=.58
82390016|NCT01044290|164491414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|||<|0.97|TWO_SIDED|95.0|-2.1|2.2|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks.||2.2|-2.1|<.97
82390017|NCT01044290|164491415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.25|TWO_SIDED|95.0|-0.6|2.4|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||2.4|-.6|.25
82525862|NCT02799472|164748083|OTHER||Mean Difference (Net)|-141.5||||0.675|TWO_SIDED|95.0|-829.2|546.3|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, Week 12||546.3|-829.2|0.675
82525863|NCT02799472|164748083|OTHER||Mean Difference (Net)|-137.9||||0.08|TWO_SIDED|95.0|-294.0|18.2|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3+38+DR+, 12-Week FU||18.2|-294.0|0.080
82525864|NCT02799472|164748083|OTHER||Mean Difference (Net)|0.4||||0.989|TWO_SIDED|95.0|-60.5|61.3|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 1||61.3|-60.5|0.989
82525865|NCT02799472|164748083|OTHER||Mean Difference (Net)|-17.4||||0.634|TWO_SIDED|95.0|-94.3|59.6|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 4||59.6|-94.3|0.634
82525866|NCT02799472|164748083|OTHER||Mean Difference (Net)|59.4||||0.789|TWO_SIDED|95.0|-395.2|513.9|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, Week 12||513.9|-395.2|0.789
82525867|NCT02799472|164748083|OTHER||Mean Difference (Net)|-47.2||||0.249|TWO_SIDED|95.0|-135.5|41.0|||Repeated measures analysis|||CD45+3+8-4+CCR6-CXCR3-38+DR+, 12-Week FU||41.0|-135.5|0.249
82525868|NCT02799472|164748083|OTHER||Mean Difference (Net)|3682.3||||0.234|TWO_SIDED|95.0|-2511.9|9876.5|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 1||9876.5|-2511.9|0.234
82525869|NCT02799472|164748083|OTHER||Mean Difference (Net)|-547.6||||0.875|TWO_SIDED|95.0|-7612.6|6517.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 4||6517.3|-7612.6|0.875
82525870|NCT02799472|164748083|OTHER||Mean Difference (Net)|-1106.0||||0.815|TWO_SIDED|95.0|-10706.0|8494.1|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, Week 12||8494.1|-10706.0|0.815
82525871|NCT02799472|164748083|OTHER||Mean Difference (Net)|-3631.0||||0.23|TWO_SIDED|95.0|-9738.9|2476.8|||Repeated measures analysis|||CD45+CD3+CD8-CD4+, 12-Week FU||2476.8|-9738.9|0.230
82573924|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|15.6|STANDARD_ERROR_OF_MEAN|9.07||0.0456|TWO_SIDED|90.0|0.7|30.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||30.5|0.7|0.0456
82640867|NCT05182840|164996332|OTHER||Odds Ratio (OR)|2.26||||0.0019|TWO_SIDED|95.0|1.35|3.77||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 3 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||3.77|1.35|0.0019
82525872|NCT02799472|164748083|OTHER||Mean Difference (Net)|-515.6||||0.489|TWO_SIDED|95.0|-2021.4|990.1|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 1||990.1|-2021.4|0.489
82525873|NCT02799472|164748083|OTHER||Mean Difference (Net)|-199.8||||0.822|TWO_SIDED|95.0|-2001.7|1602.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 4||1602.0|-2001.7|0.822
82573925|NCT04092452|164858033|SUPERIORITY||Risk Difference (RD)|9.2|STANDARD_ERROR_OF_MEAN|9.05||0.1558|TWO_SIDED|90.0|-5.7|24.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Total AN Count of 0, 1 or 2||24.1|-5.7|0.1558
82525874|NCT02799472|164748083|OTHER||Mean Difference (Net)|-253.5||||0.784|TWO_SIDED|95.0|-2136.7|1629.7|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, Week 12||1629.7|-2136.7|0.784
82525875|NCT02799472|164748083|OTHER||Mean Difference (Net)|225.1||||0.804|TWO_SIDED|95.0|-1633.1|2083.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3+, 12-Week FU||2083.2|-1633.1|0.804
82525876|NCT02799472|164748083|OTHER||Mean Difference (Net)|162.7||||0.719|TWO_SIDED|95.0|-754.5|1079.9|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 1||1079.9|-754.5|0.719
82525877|NCT02799472|164748083|OTHER||Mean Difference (Net)|-183.5||||0.742|TWO_SIDED|95.0|-1317.4|950.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 4||950.3|-1317.4|0.742
82525878|NCT02799472|164748083|OTHER||Mean Difference (Net)|-268.5||||0.658|TWO_SIDED|95.0|-1507.5|970.5|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, Week 12||970.5|-1507.5|0.658
82525879|NCT02799472|164748083|OTHER||Mean Difference (Net)|-197.6||||0.755|TWO_SIDED|95.0|-1499.3|1104.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6+CXCR3-, 12-Week FU||1104.2|-1499.3|0.755
82525880|NCT02799472|164748083|OTHER||Mean Difference (Net)|1150.0||||0.333|TWO_SIDED|95.0|-1250.0|3550.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 1||3550.0|-1250.0|0.333
82525881|NCT02799472|164748083|OTHER||Mean Difference (Net)|-268.0||||0.891|TWO_SIDED|95.0|-4269.2|3733.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 4||3733.3|-4269.2|0.891
82525882|NCT02799472|164748083|OTHER||Mean Difference (Net)|-1347.4||||0.633|TWO_SIDED|95.0|-7073.1|4378.3|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, Week 12||4378.3|-7073.1|0.633
82525883|NCT02799472|164748083|OTHER||Mean Difference (Net)|-1688.9||||0.41|TWO_SIDED|95.0|-5864.1|2486.2|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3+, 12-Week FU||2486.2|-5864.1|0.410
82573926|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-11.98|STANDARD_ERROR_OF_MEAN|8.622|||TWO_SIDED|90.0|-26.16|2.2||||||Week 1||2.20|-26.16|
82573927|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-15.07|STANDARD_ERROR_OF_MEAN|8.526|||TWO_SIDED|90.0|-29.09|-1.04||||||Week 1||-1.04|-29.09|
82573928|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-17.45|STANDARD_ERROR_OF_MEAN|8.758|||TWO_SIDED|90.0|-31.86|-3.05||||||Week 1||-3.05|-31.86|
82573929|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-12.52|STANDARD_ERROR_OF_MEAN|9.465|||TWO_SIDED|90.0|-28.09|3.05||||||Week 2||3.05|-28.09|
82573930|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-2.86|STANDARD_ERROR_OF_MEAN|9.338|||TWO_SIDED|90.0|-18.22|12.5||||||Week 2||12.50|-18.22|
82573931|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-5.5|STANDARD_ERROR_OF_MEAN|9.438|||TWO_SIDED|90.0|-21.02|10.03||||||Week 2||10.03|-21.02|
82573932|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-4.52|STANDARD_ERROR_OF_MEAN|11.214|||TWO_SIDED|90.0|-22.96|13.93||||||Week 4||13.93|-22.96|
82573933|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-17.54|STANDARD_ERROR_OF_MEAN|11.131|||TWO_SIDED|90.0|-35.84|0.77||||||Week 4||0.77|-35.84|
82525884|NCT02799472|164748083|OTHER||Mean Difference (Net)|3276.8||||0.196|TWO_SIDED|95.0|-1786.0|8339.6|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 1||8339.6|-1786.0|0.196
82525885|NCT02799472|164748083|OTHER||Mean Difference (Net)|-447.3||||0.894|TWO_SIDED|95.0|-7285.5|6390.8|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 4||6390.8|-7285.5|0.894
82525886|NCT02799472|164748083|OTHER||Mean Difference (Net)|1435.3||||0.6|TWO_SIDED|95.0|-4101.4|6972.0|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, Week 12||6972.0|-4101.4|0.600
82525887|NCT02799472|164748083|OTHER||Mean Difference (Net)|-1210.2||||0.534|TWO_SIDED|95.0|-5213.1|2792.7|||Repeated measures analysis|||CD45+CD3+CD8-CD4+CCR6-CXCR3-, 12-Week FU||2792.7|-5213.1|0.534
82525888|NCT02799472|164748084|OTHER||Mean Difference (Net)|2756.3||||0.328|TWO_SIDED|95.0|-2953.7|8466.3|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 1||8466.3|-2953.7|0.328
82525889|NCT02799472|164748084|OTHER||Mean Difference (Net)|-487.5||||0.895|TWO_SIDED|95.0|-8003.7|7028.6|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 4||7028.6|-8003.7|0.895
82525890|NCT02799472|164748084|OTHER||Mean Difference (Net)|-277.4||||0.961|TWO_SIDED|95.0|-12001.0|11446.2|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, Week 12||11446.2|-12001.0|0.961
82525891|NCT02799472|164748084|OTHER||Mean Difference (Net)|-311.6||||0.956|TWO_SIDED|95.0|-11960.5|11337.4|||Repeated measures analysis|||CD14-HLA-DR+CD11cbr+CD123-, 12-Week FU||11337.4|-11960.5|0.956
82573934|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-3.92|STANDARD_ERROR_OF_MEAN|11.507|||TWO_SIDED|90.0|-22.85|15.0||||||Week 4||15.00|-22.85|
82525892|NCT02799472|164748084|OTHER||Mean Difference (Net)|6866.9||||0.212|TWO_SIDED|95.0|-4230.7|17964.6|||Repeated measures analysis|||CD14br+CD16+, Week 1||17964.6|-4230.7|0.212
82573935|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|7.09|STANDARD_ERROR_OF_MEAN|13.452|||TWO_SIDED|90.0|-15.04|29.22||||||Week 6||29.22|-15.04|
82573936|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-14.57|STANDARD_ERROR_OF_MEAN|13.688|||TWO_SIDED|90.0|-37.08|7.95||||||Week 6||7.95|-37.08|
82573937|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-8.95|STANDARD_ERROR_OF_MEAN|13.808|||TWO_SIDED|90.0|-31.66|13.76||||||Week 6||13.76|-31.66|
82573938|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|11.5|STANDARD_ERROR_OF_MEAN|13.057||0.8108|TWO_SIDED|90.0|-9.98|32.98||One-sided p-value|ANCOVA|||Week 8||32.98|-9.98|0.8108
82573939|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-16.15|STANDARD_ERROR_OF_MEAN|12.845||0.1043|TWO_SIDED|90.0|-37.28|4.98||One-sided p-value|ANCOVA|||Week 8||4.98|-37.28|0.1043
82573940|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-15.07|STANDARD_ERROR_OF_MEAN|13.355||0.1296|TWO_SIDED|90.0|-37.04|6.9||One-sided p-value|ANCOVA|||Week 8||6.90|-37.04|0.1296
82525893|NCT02799472|164748084|OTHER||Mean Difference (Net)|8359.6||||0.227|TWO_SIDED|95.0|-5533.3|22252.5|||Repeated measures analysis|||CD14br+CD16+, Week 4||22252.5|-5533.3|0.227
82525894|NCT02799472|164748084|OTHER||Mean Difference (Net)|-22683.6||||0.04|TWO_SIDED|95.0|-44298.5|-1068.8|||Repeated measures analysis|||CD14br+CD16+, Week 12||-1068.8|-44298.5|0.040
82525895|NCT02799472|164748084|OTHER||Mean Difference (Net)|-3757.2||||0.741|TWO_SIDED|95.0|-27146.0|19631.6|||Repeated measures analysis|||CD14br+CD16+, 12-Week FU||19631.6|-27146.0|0.741
82525896|NCT02799472|164748084|OTHER||Mean Difference (Net)|-22417.0||||0.628|TWO_SIDED|95.0|-116677.8|71843.8|||Repeated measures analysis|||CD14br+CD16-, Week 1||71843.8|-116677.8|0.628
82525897|NCT02799472|164748084|OTHER||Mean Difference (Net)|27659.7||||0.321|TWO_SIDED|95.0|-28567.8|83887.1|||Repeated measures analysis|||CD14br+CD16-, Week 4||83887.1|-28567.8|0.321
82573941|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-6.54|STANDARD_ERROR_OF_MEAN|16.384||0.345|TWO_SIDED|90.0|-33.49|20.42||One-sided p-value|ANCOVA|||Week 12||20.42|-33.49|0.3450
82573942|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-17.18|STANDARD_ERROR_OF_MEAN|14.116||0.1119|TWO_SIDED|90.0|-40.4|6.04||One-sided p-value|ANCOVA|||Week 12||6.04|-40.40|0.1119
82573943|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-19.99|STANDARD_ERROR_OF_MEAN|14.806||0.0885|TWO_SIDED|90.0|-44.34|4.37||One-sided p-value|ANCOVA|||Week 12||4.37|-44.34|0.0885
82573944|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|10.85|STANDARD_ERROR_OF_MEAN|20.14||0.705|TWO_SIDED|90.0|-22.28|43.98||One-sided p-value|ANCOVA|||Week 16||43.98|-22.28|0.7050
82573945|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-17.62|STANDARD_ERROR_OF_MEAN|19.519||0.1833|TWO_SIDED|90.0|-49.73|14.48||One-sided p-value|ANCOVA|||Week 16||14.48|-49.73|0.1833
82573946|NCT04092452|164858034|SUPERIORITY||Risk Difference (RD)|-9.41|STANDARD_ERROR_OF_MEAN|20.277||0.3213|TWO_SIDED|90.0|-42.76|23.94||One-sided p-value|ANCOVA|||Week 16||23.94|-42.76|0.3213
82573947|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|90.0|-5.9|2.9||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.9|-5.9|
82573948|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|90.0|-6.3|2.2||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.2|-6.3|
82573949|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|2.68|||TWO_SIDED|90.0|-5.9|2.9||||||Week 1 - Statistical Analysis (MI) - Absolute Score||2.9|-5.9|
82573950|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-0.9|STANDARD_ERROR_OF_MEAN|2.59|||TWO_SIDED|90.0|-5.2|3.3||||||Week 2 - Statistical Analysis (MI) - Absolute Score||3.3|-5.2|
82573951|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|90.0|-4.3|4.1||||||Week 2 - Statistical Analysis (MI) - Absolute Score||4.1|-4.3|
82573952|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|90.0|-4.3|4.3||||||Week 2 - Statistical Analysis (MI) - Absolute Score||4.3|-4.3|
82640868|NCT05182840|164996332|OTHER||Odds Ratio (OR)|3.81||||0|TWO_SIDED|95.0|2.2|6.59||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 10 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.59|2.20|0.0000
82390018|NCT01044290|164491415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.05|TWO_SIDED|95.0|0.05|3.1|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable.||Comparison at 5 weeks||3.1|.05|<.05
82390019|NCT01044290|164491416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||<|0.57|TWO_SIDED|95.0|-1.0|1.8|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable. Sex item omitted from scale.||Comparison at 5 weeks.||1.8|-1.0|<.57
82390020|NCT01044290|164491416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|||=|0.055|TWO_SIDED|95.0|-0.03|2.7|||Mixed Models Analysis|Adjusted for Palliative Performance Scale (low versus high) stratification variable. Sex item omitted from scale.||Comparison at 5 weeks.||2.7|-0.03|=0.055
82525898|NCT02799472|164748084|OTHER||Mean Difference (Net)|16182.9||||0.704|TWO_SIDED|95.0|-70377.0|102742.9|||Repeated measures analysis|||CD14br+CD16-, Week 12||102742.9|-70377.0|0.704
82525899|NCT02799472|164748084|OTHER||Mean Difference (Net)|-63419.4||||0.232|TWO_SIDED|95.0|-170364.9|43526.1|||Repeated measures analysis|||CD14br+CD16-, 12-Week FU||43526.1|-170364.9|0.232
82525900|NCT02799472|164748084|OTHER||Mean Difference (Net)|-6913.6||||0.366|TWO_SIDED|95.0|-22588.4|8761.1|||Repeated measures analysis|||CD14lo+CD16br+, Week 1||8761.1|-22588.4|0.366
82525901|NCT02799472|164748084|OTHER||Mean Difference (Net)|-2231.6||||0.603|TWO_SIDED|95.0|-10976.8|6513.6|||Repeated measures analysis|||CD14lo+CD16br+, Week 4||6513.6|-10976.8|0.603
82525902|NCT02799472|164748084|OTHER||Mean Difference (Net)|-10179.1||||0.084|TWO_SIDED|95.0|-21827.4|1469.2|||Repeated measures analysis|||CD14lo+CD16br+, Week 12||1469.2|-21827.4|0.084
82525903|NCT02799472|164748084|OTHER||Mean Difference (Net)|-20744.2||||0.026|TWO_SIDED|95.0|-38771.8|-2716.5|||Repeated measures analysis|||CD14lo+CD16br+, 12-Week FU||-2716.5|-38771.8|0.026
82573953|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|90.0|-4.5|3.8||||||Week 4 - Statistical Analysis (MI) - Absolute Score||3.8|-4.5|
82573954|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|90.0|-5.4|2.8||||||Week 4 - Statistical Analysis (MI) - Absolute Score||2.8|-5.4|
82525904|NCT02799472|164748085|OTHER||Mean Difference (Net)|178.2||||0.564|TWO_SIDED|95.0|-448.3|804.6|||Repeated measures analysis|||Week 1||804.6|-448.3|0.564
82525905|NCT02799472|164748085|OTHER||Mean Difference (Net)|540.4||||0.216|TWO_SIDED|95.0|-335.7|1416.5|||Repeated measures analysis|||Week 4||1416.5|-335.7|0.216
82525906|NCT02799472|164748085|OTHER||Mean Difference (Net)|-252.6||||0.629|TWO_SIDED|95.0|-1326.0|820.8|||Repeated measures analysis|||Week 12||820.8|-1326.0|0.629
82525907|NCT02799472|164748085|OTHER||Mean Difference (Net)|41.6||||0.932|TWO_SIDED|95.0|-962.2|1045.5|||Repeated measures analysis|||12-Week FU||1045.5|-962.2|0.932
82525908|NCT02799472|164748093|OTHER||Median Difference (Net)|-0.13||||0.547|TWO_SIDED|95.0|-2.32|2.23|||Repeated Measures Bayesian Model|||Week 4, For Posterior Probability Difference \<0||2.23|-2.32|0.547
82525909|NCT02799472|164748093|OTHER||Median Difference (Net)|-2.18||||0.948|TWO_SIDED|95.0|-4.77|0.51|||Repeated Measures Bayesian Model|||Week 12, For Posterior Probability Difference \<0||0.51|-4.77|0.948
82525910|NCT02799472|164748093|OTHER||Median Difference (Net)|-2.28||||0.949|TWO_SIDED|95.0|-5.02|0.45|||Repeated Measures Bayesian Model|||12-Week FU, For Posterior Probability Difference \<0||0.45|-5.02|0.949
82573955|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-4.5|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|90.0|-8.8|-0.3||||||Week 4 - Statistical Analysis (MI) - Absolute Score||-0.3|-8.8|
82525911|NCT02799472|164748093|OTHER||Median Difference (Net)|-0.13||||0.453|TWO_SIDED|95.0|-2.32|2.23|||Repeated Measures Bayesian Model|||Week 4, For Posterior Probability Difference \>0||2.23|-2.32|0.453
82525912|NCT02799472|164748093|OTHER||Median Difference (Net)|-2.18||||0.052|TWO_SIDED|95.0|-4.77|0.51|||Repeated Measures Bayesian Model|||Week 12, For Posterior Probability Difference \>0||0.51|-4.77|0.052
82525913|NCT02799472|164748093|OTHER||Median Difference (Net)|-2.28||||0.051|TWO_SIDED|95.0|-5.02|0.45|||Repeated Measures Bayesian Model|||12-Week FU, For Posterior Probability Difference \>0||0.45|-5.02|0.051
82573956|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-1.6|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|90.0|-6.5|3.3||||||Week 6 - Statistical Analysis (MI) - Absolute Score||3.3|-6.5|
82573957|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-4.7|STANDARD_ERROR_OF_MEAN|2.91|||TWO_SIDED|90.0|-9.5|0.1||||||Week 6 - Statistical Analysis (MI) - Absolute Score||0.1|-9.5|
82525914|NCT02799472|164748094|OTHER||Mean Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-0.2|0.3|||Repeated measures analysis|||Week 4||0.3|-0.2|0.940
82525915|NCT02799472|164748094|OTHER||Mean Difference (Net)|-0.8||||0.521|TWO_SIDED|95.0|-3.2|1.6|||Repeated measures analysis|||Week 12||1.6|-3.2|0.521
82525916|NCT02799472|164748094|OTHER||Mean Difference (Net)|-1.3||||0.396|TWO_SIDED|95.0|-4.4|1.8|||Repeated measures analysis|||12-Week FU||1.8|-4.4|0.396
82525917|NCT02799472|164748095|OTHER||Mean Difference (Net)|0.0||||0.945|TWO_SIDED|95.0|-1.1|1.2|||Repeated measures analysis|||Week 4||1.2|-1.1|0.945
82525918|NCT02799472|164748095|OTHER||Mean Difference (Net)|-0.4||||0.475|TWO_SIDED|95.0|-1.5|0.7|||Repeated measures analysis|||Week 12||0.7|-1.5|0.475
82525919|NCT02799472|164748095|OTHER||Mean Difference (Net)|-0.9||||0.086|TWO_SIDED|95.0|-2.0|0.1|||Repeated measures analysis|||12-Week FU||0.1|-2.0|0.086
82525920|NCT02799472|164748096|OTHER||Mean Difference (Net)|211.4||||0.874|TWO_SIDED|95.0|-2589.2|3012.0|||Repeated measures analysis|||Week 4||3012.0|-2589.2|0.874
82525921|NCT02799472|164748096|OTHER||Mean Difference (Net)|-504.8||||0.749|TWO_SIDED|95.0|-3730.4|2720.9|||Repeated measures analysis|||Week 12||2720.9|-3730.4|0.749
82525922|NCT02799472|164748096|OTHER||Mean Difference (Net)|-1536.0||||0.352|TWO_SIDED|95.0|-4884.2|1812.1|||Repeated measures analysis|||12-Week FU||1812.1|-4884.2|0.352
82525923|NCT02799472|164748097|OTHER||Mean Difference (Net)|0.0128||||0.291|TWO_SIDED|95.0|-0.0123|0.038|||Repeated measures analysis|||Week 4||0.0380|-0.0123|0.291
82525924|NCT02799472|164748097|OTHER||Mean Difference (Net)|0.0036||||0.375|TWO_SIDED|95.0|-0.0046|0.0118|||Repeated measures analysis|||Week 12||0.0118|-0.0046|0.375
82525925|NCT02799472|164748097|OTHER||Mean Difference (Net)|0.001||||0.588|TWO_SIDED|95.0|-0.0028|0.0049|||Repeated measures analysis|||12-Week FU||0.0049|-0.0028|0.588
82525926|NCT02799472|164748098|OTHER||Mean Difference (Net)|-0.0002||||0.915|TWO_SIDED|95.0|-0.0033|0.0029|||Repeated measures analysis|||Week 4||0.0029|-0.0033|0.915
82525927|NCT02799472|164748098|OTHER||Mean Difference (Net)|-0.0004||||0.771|TWO_SIDED|95.0|-0.0028|0.0021|||Repeated measures analysis|||Week 12||0.0021|-0.0028|0.771
82573958|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-5.4|STANDARD_ERROR_OF_MEAN|3.08|||TWO_SIDED|90.0|-10.5|-0.4||||||Week 6 - Statistical Analysis (MI) - Absolute Score||-0.4|-10.5|
82525928|NCT02799472|164748098|OTHER||Mean Difference (Net)|0.0005||||0.85|TWO_SIDED|95.0|-0.0048|0.0058|||Repeated measures analysis|||12-Week FU||0.0058|-0.0048|0.850
82390021|NCT01646021|164491467|OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.35|0.6|||Log Rank|||||0.60|0.35|< 0.0001
82390022|NCT01646021|164491469|SUPERIORITY||Hazard Ratio (HR)|0.74|||=|0.0621|TWO_SIDED|95.0|0.54|1.02|||Log Rank|||||1.02|0.54|= 0.0621
82525929|NCT02287584|164748099|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.04||0.007|TWO_SIDED|95.0|-9.6|-1.6||adjusted p value, Hochberg procedure|Mixed Models Analysis|||Using Mixed Model for Repeated Measures||-1.6|-9.6|0.007
82573959|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|1.0|STANDARD_ERROR_OF_MEAN|2.78||0.6393|TWO_SIDED|90.0|-3.6|5.6||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||5.6|-3.6|0.6393
82573960|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|2.72||0.5178|TWO_SIDED|90.0|-4.4|4.6||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||4.6|-4.4|0.5178
82573961|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-3.8|STANDARD_ERROR_OF_MEAN|2.82||0.0864|TWO_SIDED|90.0|-8.5|0.8||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Absolute Score||0.8|-8.5|0.0864
82525930|NCT02287584|164748099|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-14.4|-6.4||adjusted p-value, Hochberg procedure|Mixed Models Analysis|||||-6.4|-14.4|<0.001
82573962|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|2.61||0.3172|TWO_SIDED|90.0|-5.5|3.1||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||3.1|-5.5|0.3172
82573963|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-2.7|STANDARD_ERROR_OF_MEAN|2.51||0.1384|TWO_SIDED|90.0|-6.8|1.4||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||1.4|-6.8|0.1384
82573964|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-2.8|STANDARD_ERROR_OF_MEAN|2.66||0.1427|TWO_SIDED|90.0|-7.2|1.5||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Absolute Score||1.5|-7.2|0.1427
82573965|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-2.5|STANDARD_ERROR_OF_MEAN|2.99||0.1975|TWO_SIDED|90.0|-7.5|2.4||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||2.4|-7.5|0.1975
82573966|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|2.76||0.0755|TWO_SIDED|90.0|-8.5|0.6||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||0.6|-8.5|0.0755
82573967|NCT04092452|164858035|SUPERIORITY||Risk Difference (RD)|-2.6|STANDARD_ERROR_OF_MEAN|2.89||0.1869|TWO_SIDED|90.0|-7.3|2.2||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Absolute Score||2.2|-7.3|0.1869
82573968|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-3.65|STANDARD_ERROR_OF_MEAN|8.659|||TWO_SIDED|90.0|-17.9|10.59||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||10.59|-17.90|
82573969|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-13.77|STANDARD_ERROR_OF_MEAN|8.749|||TWO_SIDED|90.0|-28.16|0.62||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||0.62|-28.16|
82573970|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-17.51|STANDARD_ERROR_OF_MEAN|8.752|||TWO_SIDED|90.0|-31.91|-3.12||||||Week 1 - Statistical Analysis (MI) - Percent Change from Baseline||-3.12|-31.91|
82390023|NCT01967706|164491505|OTHER||Geometric LS Mean Ratio|88.47|||||TWO_SIDED|95.0|68.64|114.03|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS:mCC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||114.03|68.64|
82525931|NCT00659984|164748180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.2||||0.363|TWO_SIDED|95.0|-3.4|13.9|||Cochran Armitage Trend Test|||||13.9|-3.4|0.363
82525932|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.24|STANDARD_ERROR_OF_MEAN|0.59||0.6803|TWO_SIDED|95.0|-0.93|1.41|||ANCOVA||Paradigm 1 - Paradigm 2|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.41|-0.93|0.6803
82525933|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.39|STANDARD_ERROR_OF_MEAN|0.61||0.5206|TWO_SIDED|95.0|-0.82|1.6|||ANCOVA||Paradigm 1 - Paradigm 3|Day 0, 1 Minute. Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.60|-0.82|0.5206
82390024|NCT01967706|164491506|OTHER||Geometric LS Mean Ratio|98.13|||||TWO_SIDED|95.0|80.61|119.46|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (mTHS - Group 1:mCC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of mTHS:mCC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||119.46|80.61|
82390025|NCT02347891|164491507|SUPERIORITY||Risk Ratio (RR)|0.5||||0.6|TWO_SIDED|95.0|0.08|2.65|||ANOVA|||Definition of Improvement (DOI) at week 40||2.65|0.08|0.60
82390026|NCT02347891|164491507|SUPERIORITY||Risk Ratio (RR)|0.6||||0.61|TWO_SIDED|95.0|0.16|1.82|||ANOVA|||Percent patients reaching Total improvement score of ≥40 at Week 40||1.82|0.16|0.61
82390027|NCT02347891|164491507|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Percent of patient with major improvement TIS ≥60 at Week 40||1.47|0|0.23
82390028|NCT02347891|164491508|SUPERIORITY|||||||0.92|||||||ANOVA|||Mean Total Improvement Score (TIS) during Randomized Phase at Week 40||||0.92
82525934|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.606|TWO_SIDED|395.0|-0.86|1.46|||ANCOVA||Paradigm 1 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.46|-0.86|0.6060
82390029|NCT02347891|164491509|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Definition of Improvement (DOI) at Week 64||1.47|0|0.23
82390030|NCT02347891|164491509|SUPERIORITY||Risk Ratio (RR)|0.75||||0.99|TWO_SIDED|95.0|0.19|2.51|||ANOVA|||Percent patients reaching Total improvement score of ≥40 at Week 64||2.51|0.19|0.99
82390031|NCT02347891|164491509|SUPERIORITY||Risk Ratio (RR)|0.0||||0.23|TWO_SIDED|95.0|0.0|1.47|||ANOVA|||Percent of patient with major improvement TIS ≥60 at Week 64||1.47|0|0.23
82390032|NCT02347891|164491510|SUPERIORITY|||||||0.62|||||||ANOVA|||Mean Total Improvement Score (TIS) after Open Label Phase at 64 Week||||0.62
82390033|NCT02195310|164491511|SUPERIORITY|||||||0.7007|||||||Fisher Exact Test (2-sided)|||||||0.7007
82390034|NCT00834639|164491523|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|97.36||||||90.0|93.68|101.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.18|93.68|
82390035|NCT00834639|164491524|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|100.59||||||90.0|97.07|104.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.24|97.07|
82390036|NCT00834639|164491525|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Ratio of the T/R geometric mean x 100|100.36||||||90.0|97.35|103.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.46|97.35|
82426240|NCT02164864|164561465|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.42|0.63||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the first step in hierarchy. The upper bound of the Wald confidence interval (CI) of the HR of Dabigatran Etexilate 110mg vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority.||0.63|0.42|<0.0001
82390037|NCT00614120|164491530|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 1.8mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|-0.06|||<|0.0001||95.0|-0.23|0.11||Non-inferiority; \<.0001. In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority. Statistical significance on a 2.5% level.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.11|-0.23|<0.0001
82573971|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-4.29|STANDARD_ERROR_OF_MEAN|10.103|||TWO_SIDED|90.0|-20.91|12.33||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||12.33|-20.91|
82443873|NCT02573246|164596215|SUPERIORITY||Mean Difference (Net)|-0.096719|STANDARD_ERROR_OF_MEAN|0.389897||0.806|TWO_SIDED|95.0|-0.900919|0.707481||A priori set significance threshold was 0.05|Mixed Models Analysis|Baseline use of cognitive restructuring was covaried||Mixed model analyses of variance (MMANOVAs) were conducted to explore the difference between active and sham neurostimulation on self reported indices of regulation and psychopathology. We expected active neurostimulation to lead to more use of cognitive restructuring than sham neurostimulation.||0.707481|-0.900919|.806
82443874|NCT00973102|164596234|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.47||||0.252|TWO_SIDED|95.0|1.16|5.25|||Barnard's unconditional Exact Test|||||5.25|1.16|.252
82443875|NCT00973102|164596235|SUPERIORITY_OR_OTHER_LEGACY|||||||0.895|||||||t-test, 2 sided|||||||.895
82443876|NCT02968914|164596240|SUPERIORITY||Geometric mean ratio (%)|94.46|||||TWO_SIDED|90.0|88.16|101.21|||ANOVA|||||101.21|88.16|
82640869|NCT05182840|164996332|OTHER||Odds Ratio (OR)|3.67||||0|TWO_SIDED|95.0|2.12|6.35||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of 20 mg BI 690517 vs. Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.35|2.12|0.0000
82443877|NCT02968914|164596241|SUPERIORITY||Geometric mean ratio (%)|92.83|||||TWO_SIDED|90.0|87.41|98.58|||ANOVA|||||98.58|87.41|
82390038|NCT00614120|164491530|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 1.2mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|0.03|||<|0.0001||95.0|-0.14|0.2||In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority. Statistical significance on a 2.5% level.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.20|-0.14|<.0001
82390039|NCT00614120|164491530|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is concluded if the two-sided upper limit of the 95% confidence interval for treatment difference in mean change in HbA1c between lira 0.6mg + met and glim + met is below 0.4%.|Estimated treatment difference, LS Mean|0.25||||0.0421||95.0|0.08|0.42||In order to protect the overall Type I error rate when testing for non-inferiority of the three doses of lira + met to glim + met, the comparisons will be invoked sequentially for descending doses of liraglutide.|ANCOVA|ANCOVA model with treatment, country and previous treatment as fixed effects and baseline value as a covariate.|The p-values correspond to one-sided hypotheses of either superiority or non-inferiority.|"Based on standard normal theory, the sample size needed in order to be able to show that lira + met is non-inferior to glim + met when using a 1:1 randomisation and a non-inferiority criteria of 0.4% with a power of at least 85%, is tabulated below using different SD of HbA1c.~Assuming a drop out rate of 25%, the total number of subjects to be randomised is 896 (224 for each dose of the liraglutide + metformin group and 224 subjects in metformin+glimepiride treatment group) with a SD of 1.2%."||0.42|0.08|0.0421
82390040|NCT01154088|164491542|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|5.42|||||TWO_SIDED|95.0|-1.41|12.25||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups A as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||12.25|-1.41|
82390041|NCT01154088|164491542|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|-0.41|||||TWO_SIDED|95.0|-4.11|3.25||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups C as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||3.25|-4.11|
82443878|NCT02968914|164596242|SUPERIORITY||Geometric mean ratio (%)|92.34|||||TWO_SIDED|90.0|86.34|98.75|||ANOVA|||||98.75|86.34|
82525935|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.15|STANDARD_ERROR_OF_MEAN|0.56||0.7935|TWO_SIDED|95.0|-0.98|1.27|||ANCOVA||Paradigm 2 - Paradigm 3|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.27|-0.98|0.7935
82525936|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|0.06|STANDARD_ERROR_OF_MEAN|0.55||0.914|TWO_SIDED|95.0|-1.03|1.15|||ANCOVA||Paradigm 2 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.15|-1.03|0.9140
82525937|NCT02007434|164748190|SUPERIORITY_OR_OTHER||LS Mean Placebo-adjusted Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.56||0.8754|TWO_SIDED|95.0|-1.21|1.04|||ANCOVA||Paradigm 3 - Paradigm 4|Pairwise differences between paradigms for the placebo-adjusted differences were conducted using a two-way analysis of covariance (ANCOVA) with factors for treatment, paradigm, treatment-by-paradigm interaction, and covariate of baseline CR-SMFRS score.||1.04|-1.21|0.8754
82525938|NCT04074590|164748208|OTHER|A Bayesian analysis of clinical remission rate (based on total Mayo score) with binomial distribution, was modelled with baseline total Mayo score and treatment group as explanatory variables, to compare the remission rates between LYS006 and placebo groups.|Posterior estimate treatment difference|-3.29||||0.314|TWO_SIDED|90.0|-18.02|13.23||Posterior probability that clinical remission rate is better than placebo: Prob (diff\>0)|Bayesian analysis||90% credible intervals are reported on the treatment difference|||13.23|-18.02|0.314
82525939|NCT04074590|164748208|OTHER|A Bayesian analysis of clinical remission rate (based on total Mayo score) with binomial distribution, was modelled with baseline total Mayo score and treatment group as explanatory variables, to compare the remission rates between LYS006 and placebo groups.|Posterior estimate treatment difference|-3.29||||0.037|TWO_SIDED|90.0|-18.02|13.23||Posterior probability that clinical remission rate \>15% over placebo: Prob (diff\>0.15)|Bayesian analysis||90% credible intervals are reported on the treatment difference|||13.23|-18.02|0.037
82525940|NCT01355458|164748210|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||GEE: Logit link function|Generalized Estimating Equation (GEE) methods with Logit link function and marginal expectation model.||||||<0.001
82525941|NCT00571701|164748253|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82573972|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-2.05|STANDARD_ERROR_OF_MEAN|9.904|||TWO_SIDED|90.0|-18.34|14.24||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||14.24|-18.34|
82573973|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|10.039|||TWO_SIDED|90.0|-16.34|16.68||||||Week 2 - Statistical Analysis (MI) - Percent Change from Baseline||16.68|-16.34|
82525942|NCT00571701|164748254|SUPERIORITY_OR_OTHER|||||||0.43|||||||Fisher Exact|||||||0.43
82525943|NCT00571701|164748255|SUPERIORITY_OR_OTHER||||||>|0.3||||||Adjusted for multiple comparisons|Fisher Exact|||||||>0.3
82525944|NCT00571701|164748256|SUPERIORITY_OR_OTHER|||||||1||||||Adjusted for multiple comparisons|Fisher Exact|||||||1.00
82525945|NCT00571701|164748257|SUPERIORITY_OR_OTHER||||||>|0.5||||||Adjusted for multiple comparisons|Fisher Exact|||||||> 0.5
82573974|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|10.227|||TWO_SIDED|90.0|-17.29|16.36||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||16.36|-17.29|
82525946|NCT00571701|164748258|SUPERIORITY_OR_OTHER||||||>|0.56|||||||t-test, 2 sided|||||||>0.56
82525947|NCT04766086|164748284|OTHER||Risk difference|0.0||||||95.0|-3.8|3.7||||||||3.7|-3.8|
82525948|NCT04766086|164748285|OTHER||GMR|0.546|||||TWO_SIDED|95.0|0.405|0.736||||||GMR for Anti-PT Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.736|0.405|
82525949|NCT04766086|164748285|OTHER||GMR|0.567|||||TWO_SIDED|95.0|0.455|0.707||||||GMR for Anti-FHA Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.707|0.455|
82525950|NCT04766086|164748285|OTHER||GMR|0.588|||||TWO_SIDED|95.0|0.451|0.766||||||GMR for Anti-PRN Antibody: GMR for GBS6 + Tdap/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||0.766|0.451|
82573975|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-8.07|STANDARD_ERROR_OF_MEAN|10.155|||TWO_SIDED|90.0|-24.77|8.63||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||8.63|-24.77|
82573976|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-6.06|STANDARD_ERROR_OF_MEAN|10.509|||TWO_SIDED|90.0|-23.35|11.22||||||Week 4 - Statistical Analysis (MI) - Percent Change from Baseline||11.22|-23.35|
82525951|NCT04766086|164748286|OTHER||GMR|0.89|||||TWO_SIDED|95.0|0.38|2.089||||||GMR for serotype Ia: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.089|0.380|
82525952|NCT04766086|164748286|OTHER||GMR|1.149|||||TWO_SIDED|95.0|0.455|2.901||||||GMR for serotype Ib: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.901|0.455|
82525953|NCT04766086|164748286|OTHER||GMR|1.032||||||95.0|0.551|1.931||||||GMR for serotype II: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.931|0.551|
82525954|NCT04766086|164748286|OTHER||GMR|0.635|||||TWO_SIDED|95.0|0.303|1.329||||||GMR for serotype III: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.329|0.303|
82525955|NCT04766086|164748286|OTHER||GMR|1.474|||||TWO_SIDED|95.0|0.842|2.58||||||GMR for serotype IV: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||2.580|0.842|
82525956|NCT04766086|164748286|OTHER||GMR|0.559|||||TWO_SIDED|95.0|0.232|1.349||||||GMR for serotype V: GMR for GBS6 + GBS6/Placebo + Tdap was calculated by back transforming the mean difference between the 2 measures on the logarithmic scale.||1.349|0.232|
82525957|NCT03541044|164748342|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-t fell completely within the 0.80 - 1.25 range.|Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.91|1.0|||||GMR= (Prototype mini Lozenge/ Nicorette mini Lozenge)|||1.00|0.91|
82525958|NCT03541044|164748343|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC(0-inf) fell completely within the 0.80 - 1.25 range.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.00|0.89|
82525959|NCT03541044|164748344|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for Cmax fell completely within the 0.80 - 1.25 range.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.82|0.98|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||0.98|0.82|
82525960|NCT04581200|164748349|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.61|TWO_SIDED|95.0|-1.63|2.8|||t-test, 2 sided|||||2.80|-1.63|0.61
82525961|NCT04581200|164748350|OTHER|This is an exploratory pilot trial|Mean Difference (Final Values)|0.21||||0.89|TWO_SIDED|95.0|-2.66|3.08|||t-test, 2 sided|||||3.08|-2.66|0.89
82525962|NCT04581200|164748351|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.81|TWO_SIDED|95.0|-2.58|3.3|||t-test, 2 sided|||||3.30|-2.58|0.81
82525963|NCT04581200|164748352|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.75|TWO_SIDED|95.0|-2.98|2.14|||t-test, 2 sided|||||2.14|-2.98|0.75
82525964|NCT04581200|164748353|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.45|TWO_SIDED|95.0|-0.57|0.74|||t-test, 2 sided|||||0.74|-0.57|0.45
82573977|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-3.54|STANDARD_ERROR_OF_MEAN|12.262|||TWO_SIDED|90.0|-23.71|16.63||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||16.63|-23.71|
82573978|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-16.26|STANDARD_ERROR_OF_MEAN|12.51|||TWO_SIDED|90.0|-36.84|4.32||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||4.32|-36.84|
82525965|NCT04581200|164748354|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.98|TWO_SIDED|95.0|-0.13|0.13|||t-test, 2 sided|||||0.13|-0.13|0.98
82525966|NCT04581200|164748355|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
82525967|NCT04581200|164748356|SUPERIORITY|||||||0.69|||||||Fisher Exact|||||||0.69
82525968|NCT03131960|164748359|SUPERIORITY|||||||0.0014|||||||ANCOVA|||||||0.0014
82525969|NCT03131960|164748360|SUPERIORITY|||||||0.0077|||||||ANCOVA|||ANCOVA||||0.0077
82525970|NCT03131960|164748361|SUPERIORITY|||||||0.0098|||||||Regression, Logistic|||||||0.0098
82525971|NCT03131960|164748362|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82525972|NCT01625923|164748364|OTHER|T-test comparing GCSI-DD scores before/after intervention||||||0.06|||||||t-test, 2 sided|||||||.06
82525973|NCT03485911|164748371|SUPERIORITY||negative binomial regression model|30.0||||0.024|TWO_SIDED|95.0|4.6|48.7|||negative binomial regression model|||||48.7|4.6|0.024
82525974|NCT03485911|164748371|SUPERIORITY||negative binomial regression model|44.2|||<|0.001|TWO_SIDED|95.0|23.0|59.5|||negative binomial regression model|||||59.5|23.0|<0.001
82525975|NCT03485911|164748373|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.453|TWO_SIDED|95.0|-10.08|4.53|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups.||4.53|-10.08|0.453
82525976|NCT03485911|164748373|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.188|TWO_SIDED|95.0|-12.23|2.43|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups.||2.43|-12.23|0.188
82525977|NCT03485911|164748374|SUPERIORITY||Difference in Least Square Means|-0.062||||0.025|TWO_SIDED|95.0|-0.117|-0.008|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of proportion of days with angioedema symptoms through 24 weeks for statistical significance would not be completed. P-values that are reported are nominal.||-0.008|-0.117|0.025
82573979|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-12.52|STANDARD_ERROR_OF_MEAN|12.61|||TWO_SIDED|90.0|-33.27|8.22||||||Week 6 - Statistical Analysis (MI) - Percent Change from Baseline||8.22|-33.27|
82573980|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|5.79|STANDARD_ERROR_OF_MEAN|11.045||0.7|TWO_SIDED|90.0|-12.38|23.96||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||23.96|-12.38|0.7000
82573981|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-5.81|STANDARD_ERROR_OF_MEAN|10.876||0.2965|TWO_SIDED|90.0|-23.7|12.08||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||12.08|-23.70|0.2965
82573982|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-11.33|STANDARD_ERROR_OF_MEAN|11.247||0.1568|TWO_SIDED|90.0|-29.83|7.17||One-sided p-value|ANCOVA|||Week 8 - Statistical Analysis (MI) - Percent Change from Baseline||7.17|-29.83|0.1568
82573983|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-6.78|STANDARD_ERROR_OF_MEAN|10.912||0.2672|TWO_SIDED|90.0|-24.73|11.17||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||11.17|-24.73|0.2672
82573984|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-16.57|STANDARD_ERROR_OF_MEAN|10.517||0.0576|TWO_SIDED|90.0|-33.87|0.73||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||0.73|-33.87|0.0576
82573985|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-13.65|STANDARD_ERROR_OF_MEAN|11.603||0.1197|TWO_SIDED|90.0|-32.74|5.44||One-sided p-value|ANCOVA|||Week 12 - Statistical Analysis (MI) - Percent Change from Baseline||5.44|-32.74|0.1197
82573986|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-5.63|STANDARD_ERROR_OF_MEAN|13.545||0.3388|TWO_SIDED|90.0|-27.91|16.65||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Percent Change from Baseline||16.65|-27.91|0.3388
82573987|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-14.8|STANDARD_ERROR_OF_MEAN|13.567||0.1376|TWO_SIDED|90.0|-37.12|7.51||One-sided p-value|ANCOVA|||Week 16 - Statistical Analysis (MI) - Percent Change from Baseline||7.51|-37.12|0.1376
82573988|NCT04092452|164858036|SUPERIORITY||Risk Difference (RD)|-8.32|STANDARD_ERROR_OF_MEAN|13.86||0.2741|TWO_SIDED|90.0|-31.12|14.48||One-sided p-value|ANCOVA|||Week 16||14.48|-31.12|0.2741
82573989|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-1.3|STANDARD_ERROR_OF_MEAN|7.06|||TWO_SIDED|90.0|-13.0|10.3||||||Week 4||10.3|-13.0|
82573990|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-8.5|STANDARD_ERROR_OF_MEAN|6.23|||TWO_SIDED|90.0|-18.7|1.8||||||Week 4||1.8|-18.7|
82573991|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|7.55|||TWO_SIDED|90.0|-10.7|14.1||||||Week 4||14.1|-10.7|
82573992|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|6.6|STANDARD_ERROR_OF_MEAN|6.8||0.8372|TWO_SIDED|90.0|-4.6|17.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||17.7|-4.6|0.8372
82573993|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-6.4|STANDARD_ERROR_OF_MEAN|4.68||0.0819|TWO_SIDED|90.0|-14.1|1.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||1.3|-14.1|0.0819
82573994|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-8.0|STANDARD_ERROR_OF_MEAN|4.34||0.0242|TWO_SIDED|90.0|-15.2|-0.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||-0.9|-15.2|0.0242
82573995|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-12.7|STANDARD_ERROR_OF_MEAN|6.33||0.0264|TWO_SIDED|90.0|-23.1|-2.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-2.3|-23.1|0.0264
82573996|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-14.5|STANDARD_ERROR_OF_MEAN|6.47||0.0127|TWO_SIDED|90.0|-25.1|-3.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-3.9|-25.1|0.0127
82573997|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-16.6|STANDARD_ERROR_OF_MEAN|6.33||0.0059|TWO_SIDED|90.0|-27.0|-6.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||-6.2|-27.0|0.0059
82573998|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-9.6|STANDARD_ERROR_OF_MEAN|7.97||0.1185|TWO_SIDED|90.0|-22.7|3.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||3.5|-22.7|0.1185
82573999|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-16.1|STANDARD_ERROR_OF_MEAN|6.39||0.004|TWO_SIDED|90.0|-26.6|-5.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||-5.6|-26.6|0.0040
82574000|NCT04092452|164858037|SUPERIORITY||Risk Difference (RD)|-12.8|STANDARD_ERROR_OF_MEAN|7.09||0.0418|TWO_SIDED|90.0|-24.5|-1.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||-1.1|-24.5|0.0418
82574001|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|12.1|STANDARD_ERROR_OF_MEAN|7.75||0.0559|TWO_SIDED|90.0|-0.7|24.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||24.8|-0.7|0.0559
82574002|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|9.8|STANDARD_ERROR_OF_MEAN|7.09||0.0758|TWO_SIDED|90.0|-1.9|21.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||21.4|-1.9|0.0758
82574003|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|11.3|STANDARD_ERROR_OF_MEAN|7.21||0.0637|TWO_SIDED|90.0|-0.6|23.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Pain at its Worst)||23.2|-0.6|0.0637
82574004|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|4.2|STANDARD_ERROR_OF_MEAN|8.84||0.3179|TWO_SIDED|90.0|-10.3|18.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||18.8|-10.3|0.3179
82574005|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|11.0|STANDARD_ERROR_OF_MEAN|8.82||0.1078|TWO_SIDED|90.0|-3.5|25.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||25.5|-3.5|0.1078
82574006|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|8.86||0.1976|TWO_SIDED|90.0|-7.0|22.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Pain at its Worst)||22.2|-7.0|0.1976
82574007|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-18.9|STANDARD_ERROR_OF_MEAN|9.32||0.9738|TWO_SIDED|90.0|-34.3|-3.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||-3.6|-34.3|0.9738
82390042|NCT01154088|164491542|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|6.83|||||TWO_SIDED|95.0|3.28|10.78||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups W-135 as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||10.78|3.28|
82426866|NCT04211363|164561965|SUPERIORITY||Odds Ratio (OR)|12.0|||<|0.0001|TWO_SIDED|95.0|5.15|27.93|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|PASI-75 at Week 8 Odds Ratio||27.93|5.15|<0.0001
82647811|NCT01872689|165011119|SUPERIORITY||Median Difference (Final Values)|-2.10204|STANDARD_ERROR_OF_MEAN|2.41325||0.3854|TWO_SIDED|95.0|-6.88|2.68|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.68|-6.88|0.3854
82574008|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|10.4||0.2925|TWO_SIDED|90.0|-11.3|22.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||22.9|-11.3|0.2925
82390043|NCT01154088|164491542|NON_INFERIORITY|Criterion for non-inferiority: For each serogroup separately, the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the group difference (Nimenrix-A Group minus Mencevax Group) in the percentage of subjects with bactericidal vaccine response would be greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in vaccine response rate|7.02|||||TWO_SIDED|95.0|2.63|11.58||||||Demonstration of the non-inferiority of the vaccine response induced by Nimenrix conjugate vaccine (Nimenrix Lot A) when compared to the licensed Mencevax for Neisseria meningitidis (N. meningitidis) serogroups Y as measured by serum bactericidal antibodies using baby rabbit complement (rSBA) at GSK.||11.58|2.63|
82390044|NCT01154088|164491543|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|1.04|||||TWO_SIDED|95.0|0.92|1.17||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups A, 1 month after vaccination as measured at GSK.||1.17|0.92|
82390045|NCT01154088|164491543|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|1.15|||||TWO_SIDED|95.0|0.96|1.37||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups C, 1 month after vaccination as measured at GSK.||1.37|0.96|
82390046|NCT01154088|164491543|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.8|1.04||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups W-135, 1 month after vaccination as measured at GSK.||1.04|0.8|
82390047|NCT01154088|164491543|NON_INFERIORITY|Criterion for non-inferiority: Non-inferiority of Nimenrix Lot B vs. Nimenrix Lot A in terms of non-inferiority would be demonstrated if the upper limit (UL) of the 2-sided 95% CIs on the rSBA GMT ratios (GMTs of Nimenrix Lot B over the GMTs of the Nimenrix Lot A) would be below (\<) a limit of 2-fold for antibodies against all meningococcal serogroups.|Adjusted GMT ratio|0.88|||||TWO_SIDED|95.0|0.78|0.99||||||Demonstration of the comparability of the immunogenicity of Lot A to Lot B of Nimenrix conjugate vaccine with respect to rSBA geometric mean titres (GMTs) for N. meningitidis serogroups Y, 1 month after vaccination as measured at GSK.||0.99|0.78|
82390048|NCT05010512|164491554|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with terms for lens, period and sequence as fixed effects, subject as a random effect. Difference = DT1 minus Infuse|||0.01||
82443879|NCT00915148|164596249|SUPERIORITY_OR_OTHER||||||<|0.01||||||The reported p-value corresponds with each area under the ROC assessments|Chi-squared|||In a previous study we investigated women before induction of labor. Using 40 mm as cut-off level for fetal head - perineum distance, the Cesarean section rate in primiparous women was 7% in the group with a short distance and 27% in the group with a long distance. We assumed similar results, with alpha 0.05, power 0.8 and a ratio of 1 : 1 for the numbers of women with a long and short distance. We would need to include 110 women in the study.||||<0.01
82390049|NCT01869699|164491571|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.002|TWO_SIDED|95.0|-0.76|-0.18|||ANCOVA|||We estimated that 20 patients per group would provide 80% power for detecting a difference in means of 0.6 degrees Celsius, with a pooled SD of 0.67 degrees, using a two group t test and a two sided alpha level of 0.05. A previous RCT of IV acetaminophen in healthy male volunteers with induced fever found a core temperature difference of 0.60 degrees with a common SD of 0.67 degrees Celsius.||-0.18|-0.76|0.002
82574009|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-3.1|STANDARD_ERROR_OF_MEAN|10.18||0.6178|TWO_SIDED|90.0|-19.8|13.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Pain at its Worst)||13.7|-19.8|0.6178
82574010|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-20.9|STANDARD_ERROR_OF_MEAN|10.04||0.9769|TWO_SIDED|90.0|-37.4|-4.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||-4.4|-37.4|0.9769
82390050|NCT01869699|164491572|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.03|TWO_SIDED|95.0|-10.0|-1.0|||ANCOVA|||||-1|-10|0.03
82574011|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-4.2|STANDARD_ERROR_OF_MEAN|10.57||0.6529|TWO_SIDED|90.0|-21.6|13.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||13.2|-21.6|0.6529
82390051|NCT01869699|164491573|SUPERIORITY||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-25.0|-8.0|||ANCOVA|||||-8|-25|<0.001
82390052|NCT01869699|164491574|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.42|TWO_SIDED|95.0|-4.0|12.0|||ANCOVA|||||12|-4|0.42
82390053|NCT01869699|164491575|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.002|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||||-0.3|-1|0.002
82640870|NCT05182840|164996333|OTHER||Odds Ratio (OR)|2.2||||0.0285|TWO_SIDED|95.0|1.09|4.45||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.45|1.09|0.0285
82640871|NCT05182840|164996333|OTHER||Odds Ratio (OR)|2.9||||0.0038|TWO_SIDED|95.0|1.41|5.96||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.96|1.41|0.0038
82640872|NCT05182840|164996333|OTHER||Odds Ratio (OR)|4.15||||0.0002|TWO_SIDED|95.0|1.97|8.72||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.72|1.97|0.0002
82640873|NCT05182840|164996334|OTHER||Odds Ratio (OR)|2.56||||0.0116|TWO_SIDED|95.0|1.23|5.31||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.31|1.23|0.0116
82640874|NCT05182840|164996334|OTHER||Odds Ratio (OR)|3.08||||0.0032|TWO_SIDED|95.0|1.46|6.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.52|1.46|0.0032
82640875|NCT05182840|164996334|OTHER||Odds Ratio (OR)|4.07||||0.0004|TWO_SIDED|95.0|1.86|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.86|0.0004
82640876|NCT05182840|164996335|OTHER||Odds Ratio (OR)|1.34||||0.4092|TWO_SIDED|95.0|0.67|2.69||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||2.69|0.67|0.4092
82640877|NCT05182840|164996335|OTHER||Odds Ratio (OR)|3.66||||0.0005|TWO_SIDED|95.0|1.77|7.58||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.58|1.77|0.0005
82640878|NCT05182840|164996335|OTHER||Odds Ratio (OR)|4.04||||0.0002|TWO_SIDED|95.0|1.92|8.49||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.49|1.92|0.0002
82640879|NCT05182840|164996336|OTHER||Odds Ratio (OR)|2.16||||0.0348|TWO_SIDED|95.0|1.06|4.43||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.43|1.06|0.0348
82390054|NCT01869699|164491576|SUPERIORITY||Mean Difference (Final Values)|-24.0||||0.001|TWO_SIDED|95.0|-38.0|-10.0|||ANCOVA|||||-10|-38|0.001
82390055|NCT01869699|164491577|SUPERIORITY||Mean Difference (Final Values)|-8.0||||0.02|TWO_SIDED|95.0|-15.0|-1.0|||ANCOVA|||||-1|-15|0.02
82574012|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-12.8|STANDARD_ERROR_OF_MEAN|10.36||0.8878|TWO_SIDED|90.0|-29.8|4.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Pain at its Worst)||4.3|-29.8|0.8878
82574013|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-6.2|STANDARD_ERROR_OF_MEAN|10.11||0.7259|TWO_SIDED|90.0|-22.9|10.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||10.4|-22.9|0.7259
82426867|NCT04211363|164561966|SUPERIORITY||Odds Ratio (OR)|17.9|||<|0.0001|TWO_SIDED|95.0|4.38|73.09|||Cochran-Mantel-Haenszel|Stratified by study site, baseline IGA score, and baseline intertriginous involvement with multiple imputation of missing data.|Cochran-Mantel-Haenszel stratified by study site, baseline IGA score, and baseline intertriginous involvement with multiple imputation of missing data.|PASI-90 at Week 8 Odds Ratio||73.09|4.38|<0.0001
82574014|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|14.8|STANDARD_ERROR_OF_MEAN|10.24||0.0826|TWO_SIDED|90.0|-2.1|31.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||31.6|-2.1|0.0826
82574015|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-8.0|STANDARD_ERROR_OF_MEAN|9.75||0.7884|TWO_SIDED|90.0|-24.1|8.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Pain at its Worst)||8.0|-24.1|0.7884
82574016|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-16.1|STANDARD_ERROR_OF_MEAN|10.43||0.9326|TWO_SIDED|90.0|-33.2|1.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||1.1|-33.2|0.9326
82574017|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-4.9|STANDARD_ERROR_OF_MEAN|10.41||0.681|TWO_SIDED|90.0|-22.1|12.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||12.2|-22.1|0.6810
82574018|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-10.3|STANDARD_ERROR_OF_MEAN|10.52||0.8308|TWO_SIDED|90.0|-27.6|7.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Pain at its Worst)||7.0|-27.6|0.8308
82574019|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|-8.5|STANDARD_ERROR_OF_MEAN|9.71||0.8063|TWO_SIDED|90.0|-24.5|7.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||7.4|-24.5|0.8063
82574020|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|6.5|STANDARD_ERROR_OF_MEAN|10.27||0.2649|TWO_SIDED|90.0|-10.4|23.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||23.4|-10.4|0.2649
82426868|NCT04211363|164561967|SUPERIORITY||Odds Ratio (OR)|17.94|||<|0.0001|TWO_SIDED|95.0|2.33|138.2|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Success at Week 8 Odds Ratio||138.20|2.33|<0.0001
82574021|NCT04092452|164858038|SUPERIORITY||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|10.35||0.3029|TWO_SIDED|90.0|-11.7|22.4||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Pain at its Worst)||22.4|-11.7|0.3029
82574022|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|7.7|STANDARD_ERROR_OF_MEAN|8.2||0.1687|TWO_SIDED|90.0|-5.7|21.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||21.2|-5.7|0.1687
82574023|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|13.8|STANDARD_ERROR_OF_MEAN|8.03||0.0376|TWO_SIDED|90.0|0.6|27.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||27.0|0.6|0.0376
82525978|NCT03485911|164748374|SUPERIORITY||Difference in Least Square Means|-0.078||||0.006|TWO_SIDED|95.0|-0.133|-0.023|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of number and proportion of days with angioedema symptoms through 24 weeks for statistical significance would not be completed. P-values that are reported are nominal.||-0.023|-0.133|0.006
82640880|NCT05182840|164996336|OTHER||Odds Ratio (OR)|6.08||||0|TWO_SIDED|95.0|2.73|13.57||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||13.57|2.73|0.0000
82640881|NCT05182840|164996336|OTHER||Odds Ratio (OR)|3.58||||0.0007|TWO_SIDED|95.0|1.71|7.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.52|1.71|0.0007
82640882|NCT05182840|164996337|OTHER||Odds Ratio (OR)|2.01||||0.0578|TWO_SIDED|95.0|0.98|4.14||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.14|0.98|0.0578
82640883|NCT05182840|164996337|OTHER||Odds Ratio (OR)|5.12||||0.0001|TWO_SIDED|95.0|2.23|11.78||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.78|2.23|0.0001
82640884|NCT05182840|164996337|OTHER||Odds Ratio (OR)|3.32||||0.0022|TWO_SIDED|95.0|1.54|7.16||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.16|1.54|0.0022
82640885|NCT05182840|164996338|OTHER||Odds Ratio (OR)|2.17||||0.0342|TWO_SIDED|95.0|1.06|4.44||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.44|1.06|0.0342
82640886|NCT05182840|164996338|OTHER||Odds Ratio (OR)|4.23||||0.0003|TWO_SIDED|95.0|1.93|9.24||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||9.24|1.93|0.0003
82640887|NCT05182840|164996338|OTHER||Odds Ratio (OR)|3.19||||0.0023|TWO_SIDED|95.0|1.52|6.73||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.73|1.52|0.0023
82640888|NCT05182840|164996339|OTHER||Odds Ratio (OR)|2.56||||0.0116|TWO_SIDED|95.0|1.23|5.31||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 3 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||5.31|1.23|0.0116
82426869|NCT04211363|164561968|SUPERIORITY||Odds Ratio (OR)|29.36||||0.003|TWO_SIDED|95.0|2.99|288.36|||Cochran-Mantel-Haenszel|Stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site and baseline IGA per randomization with multiple imputation of missing data.|I-IGA Clear at Week 8 Odds Ratio||288.36|2.99|0.003
82390056|NCT02447497|164491596|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.51|4.1|||Paired t-test|||48 hours post treatment time point. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFU/cm\^2 on the abdomen. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||4.10|0.51|<0.0001
82390057|NCT02447497|164491596|SUPERIORITY||Mean Difference (Final Values)|2.37|STANDARD_ERROR_OF_MEAN|0.29||0.0001|TWO_SIDED|95.0|0.6|5.75|||Paired t-test|||48 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFU/cm\^2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||5.75|0.60|0.0001
82525979|NCT03485911|164748375|SUPERIORITY||negative binomial regression model|30.4||||0.026|TWO_SIDED|95.0|4.3|49.3|||negative binomial regression model|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of rate of expert-confirmed HAE attacks during dosing in the effective treatment period for statistical significance would not be completed. P-values reported are nominal.||49.3|4.3|0.026
82390058|NCT02447497|164491596|SUPERIORITY||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|0.23||0.0001|TWO_SIDED|95.0|0.17|3.75|||Paired t-test|||72 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFUcm2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||3.75|0.17|0.0001
82525980|NCT03485911|164748375|SUPERIORITY||negative binomial regression model|46.5|||<|0.001|TWO_SIDED|95.0|25.6|61.5|||negative binomial regression model|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of rate of expert-confirmed HAE attacks during dosing in the effective treatment period for statistical significance would not be completed. P-values reported are nominal.||61.5|25.6|<0.001
82525981|NCT02036645|164748380|SUPERIORITY_OR_OTHER||Slope|0.93|||||TWO_SIDED|95.0|0.82|1.04|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.04|0.82|
82390059|NCT02447497|164491596|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|0.33||0.0001|TWO_SIDED|95.0|0.13|5.04|||Paired t-test|||72 hours post treatment. The primary analysis used a modified intent to treat population. Subjects were excluded who did not meet the treatment day baseline requirement of greater than or equal to 3.0 log10 CFUcm2 on the groin. The null hypothesis is that there is no difference in log10 CFU/cm\^2 recovery between arms.||5.04|0.13|0.0001
82525982|NCT02036645|164748380|SUPERIORITY_OR_OTHER||Slope|1.01|||||TWO_SIDED|95.0|0.71|1.3|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.30|0.71|
82525983|NCT02036645|164748381|SUPERIORITY_OR_OTHER||Slope|0.9|||||TWO_SIDED|95.0|0.81|0.98|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||0.98|0.81|
82525984|NCT02036645|164748381|SUPERIORITY_OR_OTHER||Slope|0.96|||||TWO_SIDED|95.0|0.65|1.27|||Regression, Linear||Since an Estimation approach was taken for the statistical analysis, no p-values were calculated|||1.27|0.65|
82525985|NCT03750006|164748394|SUPERIORITY|||||||0.0238||||||Not adjusted for multiple comparisons, P \< 0.05 is considered significant.|t-test, 2 sided|paired T-test||||||0.0238
82525986|NCT03750006|164748395|SUPERIORITY|||||||0.3029|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.3029
82390060|NCT01322035|164491599|EQUIVALENCE|95% confidence limits from standard deviation of the mean were used as the equivalence.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|95% confidence limits from standard deviation||||||<0.05
82525987|NCT03750006|164748396|SUPERIORITY|||||||0.1713|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.1713
82525988|NCT03750006|164748397|SUPERIORITY|||||||0.1261|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.1261
82525989|NCT03750006|164748398|SUPERIORITY|||||||0.1367|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.1367
82525990|NCT03750006|164748399|SUPERIORITY|||||||0.0111|||||||t-test, 2 sided|paired, P \< 0.05 is considered significant.||||||0.0111
82525991|NCT03750006|164748400|SUPERIORITY|||||||0.0219|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.0219
82525992|NCT03750006|164748401|SUPERIORITY|||||||0.366|||||||t-test, 2 sided|Paired, P \< 0.05 considered significant.||||||0.3660
82525993|NCT03750006|164748404|SUPERIORITY|||||||0.1563|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.1563
82525994|NCT03750006|164748405|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.0110
82525995|NCT03750006|164748406|OTHER|||||||0.3282|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.3282
82525996|NCT03750006|164748407|SUPERIORITY|||||||0.5244|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.5244
82525997|NCT03750006|164748408|SUPERIORITY|||||||0.5718|||||||t-test, 2 sided|Paired, P \< 0.05 is considered significant.||||||0.5718
82525998|NCT02202434|164748431|NON_INFERIORITY|10.5% non-inferiority margin|Difference in Percentages|3.1||||0.0027|ONE_SIDED|97.5||8.32|||Farrington-Manning|||||8.32||0.0027
82525999|NCT02202434|164748432|NON_INFERIORITY|9.5% Non-Inferiority margin|Difference in Percentages|-10.1|||<|0.0001|ONE_SIDED|97.5||-4.41|||Farrington-Manning|||||-4.41||<0.0001
82526000|NCT02202434|164748432|SUPERIORITY||Difference in Percentages|-10.2||||0.0006|TWO_SIDED|95.0|-16.3|-4.0|||Chi-squared|||"Superiority analysis was only to be run if the non-inferiority analysis was met.~Superiority analysis was run on Intent to Treat Population."||-4.0|-16.3|0.0006
82526001|NCT02202434|164748433|SUPERIORITY||Difference in Percentages|-6.1|||<|0.0001|TWO_SIDED|95.0|-9.6|-2.6|||Chi-squared|||||-2.6|-9.6|<0.0001
82526002|NCT04858802|164748464|SUPERIORITY||Mean Difference (Net)|4.19|STANDARD_DEVIATION|19.08||0.059|TWO_SIDED|95.0|-0.2|8.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|The null hypothesis was that there would no difference in FSO cross-sectional area between treatment and control sides at Day 45.||8.6|-0.2|0.059
82526003|NCT04858802|164748465|SUPERIORITY||Mean Difference (Final Values)|1.48|STANDARD_DEVIATION|12.98||0.328|TWO_SIDED|95.0|-1.5|4.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 45 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 45|Day 45||4.5|-1.5|0.328
82574024|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-1.5|STANDARD_ERROR_OF_MEAN|6.9||0.5883|TWO_SIDED|90.0|-12.9|9.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 1 (Average Pain)||9.8|-12.9|0.5883
82526004|NCT04858802|164748465|SUPERIORITY||Mean Difference (Final Values)|-2.75|STANDARD_DEVIATION|12.64||0.063|TWO_SIDED|95.0|-5.7|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 180 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 180|Day 180||0.2|-5.7|0.063
82574025|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|2.7|STANDARD_ERROR_OF_MEAN|9.07||0.3829|TWO_SIDED|90.0|-12.2|17.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||17.6|-12.2|0.3829
82526005|NCT04858802|164748466|SUPERIORITY||Mean Difference (Final Values)|50.94|STANDARD_DEVIATION|430.8||0.306|TWO_SIDED|95.0|-47.5|149.4||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 45||149.4|-47.5|0.306
82526006|NCT04858802|164748466|SUPERIORITY||Mean Difference (Final Values)|-27.44|STANDARD_DEVIATION|413.22||0.567|TWO_SIDED|95.0|-122.5|67.6|||t-test, 2 sided|Paired; the threshold for statistical significance was p = 0.05.|Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 180||67.6|-122.5|0.567
82526007|NCT04858802|164748467|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|1.92||0.031|TWO_SIDED|95.0|0.0|0.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 45||0.9|0.0|0.031
82526008|NCT04858802|164748467|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|2.27||0.943|TWO_SIDED|95.0|-0.5|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 180||0.5|-0.5|0.943
82526009|NCT04858802|164748468|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|1.24||0.715|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Zinreich's modified Lund-Mackay score for the frontal sinus minus balloon sinus dilation alone mean Zinreich's modified Lund-Mackay score for the frontal sinus|Day 45||0.2|-0.3|0.715
82526010|NCT04858802|164748468|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|0.96||0.129|TWO_SIDED|95.0|0.0|0.4|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Zinreich's modified Lund-Mackay score for the frontal sinus minus balloon sinus dilation alone mean Zinreich's modified Lund-Mackay score for the frontal sinus|Day 180||0.4|0.0|0.129
82526011|NCT04858802|164748469|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.28|3.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 21||3.60|0.28|1.00
82526012|NCT04858802|164748469|SUPERIORITY||Odds Ratio (OR)|0.79||||0.453|TWO_SIDED|95.0|0.36|1.73||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 45||1.73|0.36|0.453
82526013|NCT04858802|164748469|SUPERIORITY||Odds Ratio (OR)|0.71||||0.219|TWO_SIDED|95.0|0.31|1.61||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 90||1.61|0.31|0.219
82526014|NCT04858802|164748469|SUPERIORITY||Odds Ratio (OR)|0.71||||0.289|TWO_SIDED|95.0|0.31|1.61|||t-test, 2 sided|||Day 180||1.61|0.31|0.289
82526015|NCT04858802|164748470|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|21.12||0.971|TWO_SIDED|95.0|-4.9|4.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|Day 180||4.8|-4.9|0.971
82526016|NCT04858802|164748471|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.56||1|TWO_SIDED|95.0|-0.1|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided|||Day 45|Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 45 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 45|0.1|-0.1|1.00
82526017|NCT04858802|164748471|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.42||0.288|TWO_SIDED|95.0|0.0|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 180 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 180|Day 180||0.1|0.0|0.288
82526018|NCT04858802|164748472|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.64||0.225|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 45 minus balloon sinus dilation alone mean Lund-Mackay score for the frontal sinus at Day 45|Day 45||0.1|-0.2|0.225
82526019|NCT04858802|164748472|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.65||0.388|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean Lund-Mackay score for the frontal sinus at Day 180 minus balloon sinus dilation alone modified Lund-Mackay score for the frontal sinus at Day 180|Day 180||0.1|-0.2|0.388
82526020|NCT04858802|164748473|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.68||0.537|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 21||0.1|-0.2|0.537
82526021|NCT04858802|164748473|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_DEVIATION|0.54||0.01|TWO_SIDED|95.0|-0.3|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 45||0.0|-0.3|0.010
82526022|NCT04858802|164748473|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.7||0.003|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 90||-0.1|-0.4|0.003
82647812|NCT01872689|165011119|SUPERIORITY||Mean Difference (Final Values)|-0.16313|STANDARD_ERROR_OF_MEAN|1.37698||0.9057|TWO_SIDED|95.0|-2.87|2.55|||Mixed Models Analysis|||Mixed Linear model comparing Lebrikizumab to Placebo, with assessment as the outcome variable; assessment time by treatment as fixed effects; and participant baseline FVC (\<50%, 50 to 75%, \>75%) and participant by assessment time as random effects with unstructured covariance.||2.55|-2.87|0.9057
82526023|NCT04858802|164748473|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.66||0.007|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the frontal recess/FSO minus balloon sinus dilation alone mean adhesion/scarring grade in the frontal recess/FSO|Day 180||-0.1|-0.4|0.007
82526024|NCT04858802|164748474|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_DEVIATION|35.55||0.634|TWO_SIDED|95.0|-12.8|7.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 21||7.9|-12.8|0.634
82390061|NCT00574249|164491621|SUPERIORITY_OR_OTHER|||||||0.086||||||Level of significance 5%; no adjustment for multiple comparisons necessary.|Cochran-Mantel-Haenszel|Two-sided CMH test stratified by country at the alpha level 0.05. Centers were pooled by country (Sweden and Finland pooled due to few participants).||Comparison of the proportion of participants in the adalimumab + calcipotriol/betamethasone group vs. the adalimumab + placebo group.||||0.086
82390062|NCT00574249|164491622|SUPERIORITY_OR_OTHER|||||||0.565||95.0|||||Fisher Exact|||||||0.565
82390063|NCT00574249|164491623|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||||||0.002
82574026|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|18.2|STANDARD_ERROR_OF_MEAN|9.54||0.0316|TWO_SIDED|90.0|2.5|33.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||33.9|2.5|0.0316
82574027|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|4.6|STANDARD_ERROR_OF_MEAN|9.17||0.3072|TWO_SIDED|90.0|-10.5|19.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 2 (Average Pain)||19.7|-10.5|0.3072
82574028|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-13.1|STANDARD_ERROR_OF_MEAN|10.18||0.8952|TWO_SIDED|90.0|-29.8|3.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||3.7|-29.8|0.8952
82574029|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|13.1|STANDARD_ERROR_OF_MEAN|10.76||0.1157|TWO_SIDED|90.0|-4.6|30.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||30.8|-4.6|0.1157
82574030|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|10.93||0.4672|TWO_SIDED|90.0|-17.1|18.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 4 (Average Pain)||18.9|-17.1|0.4672
82574031|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-16.9|STANDARD_ERROR_OF_MEAN|11.29||0.9287|TWO_SIDED|90.0|-35.5|1.6||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||1.6|-35.5|0.9287
82574032|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|10.85||0.4984|TWO_SIDED|90.0|-17.8|17.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||17.9|-17.8|0.4984
82574033|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-14.7|STANDARD_ERROR_OF_MEAN|11.27||0.9001|TWO_SIDED|90.0|-33.2|3.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 6 (Average Pain)||3.9|-33.2|0.9001
82574034|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-10.3|STANDARD_ERROR_OF_MEAN|10.53||0.8319|TWO_SIDED|90.0|-27.6|7.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||7.0|-27.6|0.8319
82574035|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|19.7|STANDARD_ERROR_OF_MEAN|10.55||0.034|TWO_SIDED|90.0|2.3|37.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||37.0|2.3|0.0340
82574036|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-6.8|STANDARD_ERROR_OF_MEAN|10.7||0.7359|TWO_SIDED|90.0|-24.4|10.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8 (Average Pain)||10.8|-24.4|0.7359
82574037|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-16.0|STANDARD_ERROR_OF_MEAN|10.51||0.9291|TWO_SIDED|90.0|-33.3|1.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||1.3|-33.3|0.9291
82574038|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|10.44||0.5087|TWO_SIDED|90.0|-17.4|16.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||16.9|-17.4|0.5087
82574039|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-9.5|STANDARD_ERROR_OF_MEAN|10.74||0.8098|TWO_SIDED|90.0|-27.2|8.1||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12 (Average Pain)||8.1|-27.2|0.8098
82390064|NCT00574249|164491624|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
82390065|NCT00574249|164491625|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|||||||0.004
82574040|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|-8.8|STANDARD_ERROR_OF_MEAN|9.76||0.8114|TWO_SIDED|90.0|-24.8|7.2||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||7.2|-24.8|0.8114
82574041|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|10.8|STANDARD_ERROR_OF_MEAN|10.44||0.1531|TWO_SIDED|90.0|-6.4|28.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||28.0|-6.4|0.1531
82390066|NCT00574249|164491626|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Fisher Exact|||||||0.011
82390067|NCT00574249|164491627|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74||||0.204||95.0|-5.3|24.78|||ANOVA|One-way ANOVA. For confidence interval and difference estimate, adalimumab + calcipotriol/betamethasone minus adalimumab + placebo was used.||||24.78|-5.30|0.204
82390068|NCT00574249|164491628|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.55||||0.272||95.0|-48.92|13.82|||ANOVA|One-way ANOVA. Confidence interval and difference estimated from adalimumab + calcipotriol/betamethasone minus adalimumab + placebo.||||13.82|-48.92|0.272
82390069|NCT00574249|164491629|SUPERIORITY_OR_OTHER|||||||0.413||95.0|||||Fisher Exact|||||||0.413
82390070|NCT00574249|164491630|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82390071|NCT00574249|164491631|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Fisher Exact|||||||0.028
82390072|NCT00574249|164491632|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||ANOVA|One-way ANOVA.||||||0.228
82526025|NCT04858802|164748474|SUPERIORITY||Mean Difference (Final Values)|-7.63|STANDARD_DEVIATION|29.04||0.048|TWO_SIDED|95.0|-15.2|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 45||-0.1|-15.2|0.048
82526026|NCT04858802|164748474|SUPERIORITY||Mean Difference (Final Values)|-7.78|STANDARD_DEVIATION|28.79||0.028|TWO_SIDED|95.0|-14.7|-0.9||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 90||-0.9|-14.7|0.028
82574042|NCT04092452|164858039|SUPERIORITY||Risk Difference (RD)|3.3|STANDARD_ERROR_OF_MEAN|10.58||0.3784|TWO_SIDED|90.0|-14.1|20.7||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16 (Average Pain)||20.7|-14.1|0.3784
82390073|NCT00574249|164491633|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|One-way ANOVA.||||||< 0.001
82390074|NCT00574249|164491634|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|One-way ANOVA.||||||0.001
82390075|NCT00574249|164491635|SUPERIORITY_OR_OTHER|||||||0.764||95.0|||||ANOVA|One-way ANOVA.||||||0.764
82390076|NCT00574249|164491636|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||ANOVA|One-way ANOVA.||||||0.437
82390077|NCT00574249|164491637|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANOVA|One-way ANOVA.||||||0.740
82390078|NCT00574249|164491638|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||ANOVA|One-way ANOVA.||||||0.634
82574043|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-7.44|STANDARD_ERROR_OF_MEAN|6.661||0.1321|TWO_SIDED|90.0|-18.39|3.52||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||3.52|-18.39|0.1321
82574044|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-10.52|STANDARD_ERROR_OF_MEAN|6.308||0.0477|TWO_SIDED|90.0|-20.9|-0.14||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||-0.14|-20.90|0.0477
82574045|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-14.13|STANDARD_ERROR_OF_MEAN|6.379||0.0134|TWO_SIDED|90.0|-24.62|-3.63||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||-3.63|-24.62|0.0134
82574046|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-5.66|STANDARD_ERROR_OF_MEAN|8.38||0.2496|TWO_SIDED|90.0|-19.45|8.12||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||8.12|-19.45|0.2496
82390079|NCT02783729|164491647|SUPERIORITY||Least Squares Geometric Mean(LSGM) Ratio|0.773|||=|0.0003|TWO_SIDED|95.0|0.672|0.889||Based on mixed effect model repeated measurement (MMRM) model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||||0.889|0.672|= 0.0003
82390080|NCT02783729|164491647|SUPERIORITY||LSGM Ratio|0.723|||<|0.0001|TWO_SIDED|95.0|0.628|0.832||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||||0.832|0.628|< 0.0001
82390081|NCT02783729|164491648|SUPERIORITY||Least Squares Mean (LSM) Difference|7.07|STANDARD_ERROR_OF_MEAN|0.746|<|0.0001|TWO_SIDED|95.0|5.61|8.54||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||||8.54|5.61|< 0.0001
82390082|NCT02783729|164491648|SUPERIORITY||LSM Difference|8.03|STANDARD_ERROR_OF_MEAN|0.746|<|0.0001|TWO_SIDED|95.0|6.57|9.49||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||||9.49|6.57|< 0.0001
82390083|NCT02783729|164491649|SUPERIORITY||LSM Difference|-23.96|STANDARD_ERROR_OF_MEAN|3.068|<|0.0001|TWO_SIDED|95.0|-29.98|-17.95||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||||-17.95|-29.98|< 0.0001
82390084|NCT02783729|164491649|SUPERIORITY||LSM Difference|-25.35|STANDARD_ERROR_OF_MEAN|3.067|<|0.0001|TWO_SIDED|95.0|-31.36|-19.34|||MMRM|||||-19.34|-31.36|< 0.0001
82390085|NCT02783729|164491650|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|LSM Difference|-6.65|STANDARD_ERROR_OF_MEAN|2.298|=|0.0038|TWO_SIDED|95.0|-11.15|-2.15|||MMRM|||||-2.15|-11.15|= 0.0038
82390086|NCT02783729|164491650|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|LSM Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.309|=|0.0005|TWO_SIDED|95.0|-12.53|-3.47|||MMRM|||||-3.47|-12.53|= 0.0005
82390087|NCT02783729|164491651|SUPERIORITY||LSM Difference|-9.63|STANDARD_ERROR_OF_MEAN|4.029|=|0.0171|TWO_SIDED|95.0|-17.53|-1.72||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effect, and the baseline posture stability of body sway as a covariate.|MMRM|||Zolpidem Tartrate Extended Release 6.25 mg v Lemborexant 5 mg||-1.72|-17.53|= 0.0171
82390088|NCT02783729|164491651|SUPERIORITY||LSM Difference|-10.74|STANDARD_ERROR_OF_MEAN|4.04|=|0.008|TWO_SIDED|95.0|-18.67|-2.81||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effect, and the baseline posture stability of body sway as a covariate.|MMRM|||Zolpidem Tartrate Extended Release 6.25 mg v Lemborexant 10 mg||-2.81|-18.67|= 0.008
82390089|NCT02783729|164491652|SUPERIORITY||LSGM Ratio|0.874|||=|0.0218|TWO_SIDED|95.0|0.78|0.981||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 1/2: Zolpidem ER, Lemborexant 5 mg||0.981|0.78|= 0.0218
82390090|NCT02783729|164491652|OTHER||LSGM Ratio|0.818|||=|0.0006|TWO_SIDED|95.0|0.729|0.917||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 1/2: Zolpidem ER, Lemborexant 10 mg||0.917|0.729|= 0.0006
82526027|NCT04858802|164748474|SUPERIORITY||Mean Difference (Final Values)|-6.76|STANDARD_DEVIATION|27.99||0.041|TWO_SIDED|95.0|-13.2|-0.3||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean inflammation score in the frontal recess/FSO minus balloon sinus dilation alone mean inflammation score in the frontal recess/FSO|Day 180||-0.3|-13.2|0.041
82390091|NCT02783729|164491652|SUPERIORITY||LSGM Ratio|0.634|||<|0.0001|TWO_SIDED|95.0|0.556|0.724||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 29/30: Zolpidem ER, Lemborexant 5 mg||0.724|0.556|< 0.0001
82390092|NCT02783729|164491652|SUPERIORITY||LSGM Ratio|0.594|||<|0.0001|TWO_SIDED|95.0|0.521|0.677||Based on MMRM model with log transformation of LPS and factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS, Days 29/30: Zolpidem ER, Lemborexant 10 mg||0.677|0.521|< 0.0001
82390093|NCT02783729|164491652|SUPERIORITY||LSM Difference|-6.16|STANDARD_ERROR_OF_MEAN|2.544|=|0.0154|TWO_SIDED|95.0|-11.15|-1.17||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 1/2: Zolpidem ER, Lemborexant 5 mg||-1.17|-11.15|= 0.0154
82526028|NCT04858802|164748475|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.96||0.063|TWO_SIDED|95.0|-0.5|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 21||0.0|-0.5|0.063
82526029|NCT04858802|164748475|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|0.77||0.015|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 45||-0.1|-0.4|0.015
82526030|NCT04858802|164748475|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.78||0.007|TWO_SIDED|95.0|-0.4|-0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 90||-0.1|-0.4|0.007
82526031|NCT04858802|164748475|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_DEVIATION|0.75||0.034|TWO_SIDED|95.0|-0.4|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polypoid edema grade in the frontal recess/FSO minus balloon sinus dilation alone mean polypoid edema grade in the frontal recess/FSO|Day 180||0.0|-0.4|0.034
82526032|NCT04858802|164748476|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|0.65||0.83|TWO_SIDED|95.0|-0.2|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 21||0.2|-0.2|0.830
82526033|NCT04858802|164748476|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.59||0.829|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 45||0.1|-0.2|0.829
82526034|NCT04858802|164748476|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.64||0.132|TWO_SIDED|95.0|-0.3|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 90||0.0|-0.3|0.132
82526035|NCT04858802|164748476|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.79||0.31|TWO_SIDED|95.0|-0.3|0.1|||t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean adhesion/scarring grade in the ethmoid sinus minus balloon sinus dilation alone mean adhesion/scarring grade in the ethmoid sinus|Day 180||0.1|-0.3|0.310
82526036|NCT04858802|164748477|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.48||0.666|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 21||0.1|-0.2|0.666
82526037|NCT04858802|164748477|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.46||0.497|TWO_SIDED|95.0|-0.2|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 45||0.1|-0.2|0.497
82574047|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-11.92|STANDARD_ERROR_OF_MEAN|7.972||0.0675|TWO_SIDED|90.0|-25.03|1.2||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||1.20|-25.03|0.0675
82526038|NCT04858802|164748477|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.5||0.235|TWO_SIDED|95.0|-0.2|0.0||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 90||0.0|-0.2|0.235
82574048|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-11.71|STANDARD_ERROR_OF_MEAN|8.054||0.073|TWO_SIDED|90.0|-24.96|1.54||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||1.54|-24.96|0.0730
82574049|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|3.25|STANDARD_ERROR_OF_MEAN|8.892||0.6426|TWO_SIDED|90.0|-11.38|17.88||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||17.88|-11.38|0.6426
82574050|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-7.82|STANDARD_ERROR_OF_MEAN|8.457||0.1776|TWO_SIDED|90.0|-21.73|6.09||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||6.09|-21.73|0.1776
82574051|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-1.17|STANDARD_ERROR_OF_MEAN|8.579||0.4458|TWO_SIDED|90.0|-15.28|12.94||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||12.94|-15.28|0.4458
82574052|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|7.94|STANDARD_ERROR_OF_MEAN|9.566||0.7969|TWO_SIDED|90.0|-7.79|23.68||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||23.68|-7.79|0.7969
82574053|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-11.09|STANDARD_ERROR_OF_MEAN|9.12||0.112|TWO_SIDED|90.0|-26.09|3.91||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||3.91|-26.09|0.1120
82574054|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|9.188||0.5021|TWO_SIDED|90.0|-15.06|15.16||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||15.16|-15.06|0.5021
82526039|NCT04858802|164748477|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.41||0.677|TWO_SIDED|95.0|-0.1|0.1||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean polyp grade in the ethmoid sinus minus balloon sinus dilation alone mean polyp grade in the ethmoid sinus|Day 180||0.1|-0.1|0.677
82526040|NCT04858802|164748478|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|2.48||0.868|TWO_SIDED|95.0|-0.7|0.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 21||0.6|-0.7|0.868
82526041|NCT04858802|164748478|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|2.3||0.823|TWO_SIDED|95.0|-0.5|0.7||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 45||0.7|-0.5|0.823
82526042|NCT04858802|164748478|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|2.26||1|TWO_SIDED|95.0|-0.5|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 90||0.5|-0.5|1.00
82526043|NCT04858802|164748478|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|2.16||0.188|TWO_SIDED|95.0|-0.8|0.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean CRS side-specific symptom total score minus balloon sinus dilation alone mean CRS side-specific symptom total score|Day 180||0.2|-0.8|0.188
82526044|NCT04858802|164748482|SUPERIORITY||Mean Difference (Net)|6.28|STANDARD_DEVIATION|18.12||0.025|TWO_SIDED|95.0|0.8|11.7||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area minus balloon sinus dilation alone mean FSO cross-sectional area|||11.7|0.8|0.025
82526045|NCT04858802|164748483|SUPERIORITY||Mean Difference (Final Values)|3.98|STANDARD_DEVIATION|12.49||0.04|TWO_SIDED|95.0|0.2|7.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 45 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 45|Day 45||7.8|0.2|0.04
82526046|NCT04858802|164748483|SUPERIORITY||Median Difference (Final Values)|-3.45|STANDARD_DEVIATION|13.02||0.09|TWO_SIDED|95.0|-7.5|0.6||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO cross-sectional area change from baseline to Day 180 minus balloon sinus dilation alone mean FSO cross-sectional area change from baseline to Day 180|Day 180||0.6|-7.5|0.09
82526047|NCT04858802|164748484|SUPERIORITY||Mean Difference (Final Values)|61.54|STANDARD_DEVIATION|460.18||0.375|TWO_SIDED|95.0|-76.7|199.8||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 45||199.8|-76.7|0.375
82526048|NCT04858802|164748484|SUPERIORITY||Mean Difference (Final Values)|-51.98|STANDARD_DEVIATION|434.64||0.432|TWO_SIDED|95.0|-184.1|80.2||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSOT volume minus balloon sinus dilation alone mean FSOT volume|Day 180||80.2|-184.1|0.432
82526049|NCT04858802|164748485|SUPERIORITY||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|2.13||0.023|TWO_SIDED|95.0|0.1|1.4||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 45||1.4|0.1|0.023
82526050|NCT04858802|164748485|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_DEVIATION|2.24||0.646|TWO_SIDED|95.0|-0.8|0.5||Paired; the threshold for statistical significance was p = 0.05.|t-test, 2 sided||Difference = PROPEL Contour Sinus Implant mean FSO minimum diameter minus balloon sinus dilation alone mean FSO minimum diameter|Day 180||0.5|-0.8|0.646
82526051|NCT03243422|164748510|SUPERIORITY||change in Standard Deviation|0.002||||0.96|TWO_SIDED|95.0|-0.077|0.081|||Mixed Models Analysis|Three-level linear mixed effects model with an unstructured covariance matrix from the baseline and the year 3 in-person neurocognitive assessment||||0.081|-0.077|0.96
82574055|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|2.83|STANDARD_ERROR_OF_MEAN|9.296||0.6197|TWO_SIDED|90.0|-12.46|18.12||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||18.12|-12.46|0.6197
82526052|NCT03243422|164748511|SUPERIORITY||Slope|0.079||||0.15|TWO_SIDED|95.0|-0.029|0.187||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.187|-0.029|0.15
82526053|NCT03243422|164748512|SUPERIORITY||Slope|-0.02||||0.69|TWO_SIDED|95.0|-0.118|0.078||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.078|-0.118|0.69
82526054|NCT03243422|164748513|SUPERIORITY||Slope|0.017||||0.7|TWO_SIDED|95.0|-0.07|0.104||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Mixed Models Analysis|||||0.104|-0.070|0.70
82526055|NCT03243422|164748514|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.59|TWO_SIDED|95.0|0.61|1.33||Secondary outcomes were evaluated with Hochberg modification to the Bonferroni adjustment estimates are considered statistically significant if the largest p-value is \<0·05.|Regression, Cox|Discrete-time interval model||||1.33|0.61|0.59
82574056|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-11.3|STANDARD_ERROR_OF_MEAN|8.825||0.1003|TWO_SIDED|90.0|-25.81|3.22||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||3.22|-25.81|0.1003
82574057|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|8.908||0.507|TWO_SIDED|90.0|-14.5|14.81||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||14.81|-14.50|0.5070
82574058|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|0.67|STANDARD_ERROR_OF_MEAN|9.368||0.5283|TWO_SIDED|90.0|-14.74|16.08||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||16.08|-14.74|0.5283
82526056|NCT03243422|164748515|SUPERIORITY||Slope|0.191||||0.027|TWO_SIDED|95.0|0.022|0.36|||Mixed Models Analysis|||Analysis was restricted to ARIC participants who were enrolled in ACHIEVE||0.360|0.022|0.027
82526057|NCT03243422|164748516|SUPERIORITY||Slope|-0.061||||0.18|TWO_SIDED|95.0|-0.151|0.028|||Mixed Models Analysis|||||0.028|-0.151|0.18
82526058|NCT01083654|164748530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.262|TWO_SIDED|95.0|0.2|1.55|||Regression, Logistic|||||1.55|0.20|.262
82526059|NCT00215540|164748537|SUPERIORITY_OR_OTHER|||||||0.476||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.476
82526060|NCT00215540|164748537|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.208
82526061|NCT00215540|164748538|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.500
82526062|NCT00215540|164748538|SUPERIORITY_OR_OTHER|||||||0.146||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||Null hypothesis: No difference between treatment groups||||0.146
82390094|NCT02783729|164491652|SUPERIORITY||LSM Difference|-15.03|STANDARD_ERROR_OF_MEAN|2.542|<|0.0001|TWO_SIDED|95.0|-20.01|-10.05||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 1/2: Zolpidem ER, Lemborexant 10 mg||-10.05|-20.01|< 0.0001
82390095|NCT02783729|164491652|SUPERIORITY||LSM Difference|-7.72|STANDARD_ERROR_OF_MEAN|2.876|=|0.0073|TWO_SIDED|95.0|-13.36|-2.08||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline WASO as a covariate.|MMRM|||WASO, Days 29/30: Zolpidem ER, Lemborexant 5 mg||-2.08|-13.36|= 0.0073
82390096|NCT02783729|164491652|SUPERIORITY||LSM Difference|-9.1|STANDARD_ERROR_OF_MEAN|2.883|=|0.0016|TWO_SIDED|95.0|-14.75|-3.45|||MMRM|||WASO, Days 29/30: Zolpidem ER, Lemborexant 10 mg||-3.45|-14.75|= 0.0016
82390097|NCT02783729|164491652|SUPERIORITY||LSM Difference|10.25|STANDARD_ERROR_OF_MEAN|3.094|=|0.001|TWO_SIDED|95.0|4.18|16.32||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 1/2: Zolpidem ER, Lemborexant 5 mg||16.32|4.18|= 0.001
82390098|NCT02783729|164491652|SUPERIORITY||LSM Difference|23.1|STANDARD_ERROR_OF_MEAN|3.085|<|0.0001|TWO_SIDED|95.0|17.04|29.15||Based on MMRM model with factors for age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 1/2: Zolpidem ER, Lemborexant 10 mg||29.15|17.04|< 0.0001
82390099|NCT02783729|164491652|SUPERIORITY||LSM Difference|19.41|STANDARD_ERROR_OF_MEAN|3.457|<|0.0001|TWO_SIDED|95.0|12.63|26.2||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 29/30: Zolpidem ER, Lemborexant 5 mg||26.2|12.63|< 0.0001
82390100|NCT02783729|164491652|SUPERIORITY||LSM Difference|24.1|STANDARD_ERROR_OF_MEAN|3.456|<|0.0001|TWO_SIDED|95.0|17.32|30.88||Based on MMRM model with factors for age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effects, and the baseline TST as a covariate.|MMRM|||TST, Days 29/30: Zolpidem ER, Lemborexant 10 mg||30.88|17.32|< 0.0001
82390101|NCT02783729|164491653|SUPERIORITY||LSGM Ratio|0.898|||=|0.0122|TWO_SIDED|95.0|0.825|0.977||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Zolpidem ER, Lemborexant 5 mg||0.977|0.825|= 0.0122
82390102|NCT02783729|164491653|SUPERIORITY||LSGM Ratio|0.83|||<|0.0001|TWO_SIDED|95.0|0.763|0.902||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Zolpidem ER, Lemborexant 10 mg||0.902|0.763|< 0.0001
82526063|NCT00215540|164748539|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.267
82526064|NCT00215540|164748539|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.313
82526065|NCT00215540|164748539|SUPERIORITY_OR_OTHER|||||||0.944||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.944
82390103|NCT02783729|164491653|SUPERIORITY||LSGM Ratio|0.882|||=|0.0176|TWO_SIDED|95.0|0.796|0.978||Based on MMRM model model with log transformation of sSOL and factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||0.978|0.796|= 0.0176
82390104|NCT02783729|164491653|SUPERIORITY||LSGM Ratio|0.811|||<|0.0001|TWO_SIDED|95.0|0.732|0.899||Based on MMRM model model with log transformation of sSOL and with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||0.899|0.732|< 0.0001
82390105|NCT02783729|164491653|SUPERIORITY||LSM Difference|8.12|STANDARD_ERROR_OF_MEAN|4.484|=|0.0706|TWO_SIDED|95.0|-0.68|16.91||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 5 mg||16.91|-0.68|= 0.0706
82390106|NCT02783729|164491653|SUPERIORITY||LSM Difference|-5.81|STANDARD_ERROR_OF_MEAN|4.481|=|0.1949|TWO_SIDED|95.0|-14.61|2.98||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 10 mg||2.98|-14.61|= 0.1949
82390107|NCT02783729|164491653|SUPERIORITY||LSM Difference|14.45|STANDARD_ERROR_OF_MEAN|5.241|=|0.0059|TWO_SIDED|95.0|4.16|24.73||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||24.73|4.16|= 0.0059
82390108|NCT02783729|164491653|SUPERIORITY||LSM Difference|5.36|STANDARD_ERROR_OF_MEAN|5.241|=|0.3064|TWO_SIDED|95.0|-4.92|15.65||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||15.65|-4.92|= 0.3064
82526066|NCT00215540|164748540|SUPERIORITY_OR_OTHER|||||||0.476||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.476
82526067|NCT00215540|164748540|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.208
82526068|NCT00215540|164748540|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.046
82526069|NCT00215540|164748541|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.285
82526070|NCT00215540|164748541|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.229
82526071|NCT00215540|164748541|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.030
82526072|NCT00215540|164748542|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.483
82526073|NCT00215540|164748542|SUPERIORITY_OR_OTHER|||||||0.123||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.123
82526074|NCT00215540|164748542|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.006
82647813|NCT01872689|165011121|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4433|TWO_SIDED|95.0|0.54|1.31|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.31|0.54|0.4433
82526075|NCT00215540|164748543|SUPERIORITY_OR_OTHER|||||||0.843||95.0|||||ANOVA|Adjusting for pooled study center||||||0.843
82526076|NCT00215540|164748543|SUPERIORITY_OR_OTHER|||||||0.543||95.0|||||ANOVA|Adjusting for pooled study center||||||0.543
82526077|NCT00215540|164748543|SUPERIORITY_OR_OTHER|||||||0.537||95.0|||||ANOVA|Adjusting for pooled study center||||||0.537
82526078|NCT00215540|164748544|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||ANOVA|Adjusting for pooled study center||||||0.813
82526079|NCT00215540|164748544|SUPERIORITY_OR_OTHER|||||||0.449||95.0|||||ANOVA|Adjusting for pooled study center||||||0.449
82647814|NCT01872689|165011123|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.9366|TWO_SIDED|95.0|0.21|5.3|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||5.30|0.21|0.9366
82647815|NCT01872689|165011123|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.1346|TWO_SIDED|95.0|0.16|1.31|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.31|0.16|0.1346
82390109|NCT02783729|164491653|SUPERIORITY||LSM Difference|-6.57|STANDARD_ERROR_OF_MEAN|5.325|=|0.2174|TWO_SIDED|95.0|-17.02|3.88||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Zolpidem ER, Lemborexant 5 mg||3.88|-17.02|= 0.2174
82526080|NCT00215540|164748544|SUPERIORITY_OR_OTHER|||||||0.275||95.0|||||ANOVA|Adjusting for pooled study center||||||0.275
82526081|NCT00215540|164748545|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.267
82526082|NCT00215540|164748545|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Cochran-Mantel-Haenszel|Adjusting for pooled study center||||||0.313
82526083|NCT00215540|164748546|SUPERIORITY_OR_OTHER|||||||0.311||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.311
82526084|NCT00215540|164748546|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.516
82647816|NCT01872689|165011125|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6815|TWO_SIDED|95.0|0.52|1.54|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.54|0.52|0.6815
82390110|NCT02783729|164491653|SUPERIORITY||LSM Difference|8.88|STANDARD_ERROR_OF_MEAN|5.313|=|0.0949|TWO_SIDED|95.0|-1.55|19.31||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, First 7 nights: Zolpidem ER, Lemborexant 10 mg||19.31|-1.55|= 0.0949
82390111|NCT02783729|164491653|SUPERIORITY||LSM Difference|-6.82|STANDARD_ERROR_OF_MEAN|6.207|=|0.2718|TWO_SIDED|95.0|-19.01|5.36||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||5.36|-19.01|= 0.2718
82390112|NCT02783729|164491653|SUPERIORITY||LSM Difference|7.43|STANDARD_ERROR_OF_MEAN|6.206|=|0.2317|TWO_SIDED|95.0|-4.75|19.61||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||19.61|-4.75|= 0.2317
82390113|NCT02783729|164491654|SUPERIORITY||LSM Difference|-1.37|STANDARD_ERROR_OF_MEAN|1.063|=|0.1963|TWO_SIDED|95.0|-3.46|0.71||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Zolpidem ER, Lemborexant 5 mg||0.71|-3.46|= 0.1963
82390114|NCT02783729|164491654|SUPERIORITY|Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate|LSM Difference|1.7|STANDARD_ERROR_OF_MEAN|1.06|=|0.1093|TWO_SIDED|95.0|-0.38|3.78|||MMRM|||sSE, First 7 nights: Zolpidem ER, Lemborexant 10 mg||3.78|-0.38|= 0.1093
82390115|NCT02783729|164491654|SUPERIORITY||LSM Difference|-1.53|STANDARD_ERROR_OF_MEAN|1.247|=|0.2196|TWO_SIDED|95.0|-3.98|0.92||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||0.92|-3.98|= 0.2196
82390116|NCT02783729|164491654|SUPERIORITY||LSM Difference|1.05|STANDARD_ERROR_OF_MEAN|1.246|=|0.4013|TWO_SIDED|95.0|-1.4|3.49||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||3.49|-1.4|= 0.4013
82574059|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-15.31|STANDARD_ERROR_OF_MEAN|8.921||0.0431|TWO_SIDED|90.0|-29.98|-0.63||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||-0.63|-29.98|0.0431
82390117|NCT02783729|164491655|SUPERIORITY||LSGM Ratio|0.85|||=|0.0092|TWO_SIDED|95.0|0.752|0.961||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS: Placebo, Lemborexant 5 mg||0.961|0.752|= 0.0092
82390118|NCT02783729|164491655|SUPERIORITY||LSGM Ratio|0.795|||=|0.0002|TWO_SIDED|95.0|0.704|0.899||Based on MMRM model with factors of age group, region, treatment, visit (Days1/2), and treatment-by-visit interaction as fixed effects, and the baseline LPS as a covariate.|MMRM|||LPS: Placebo, Lemborexant 10 mg||0.899|0.704|= 0.0002
82390119|NCT02783729|164491655|SUPERIORITY||LSM Difference|-33.4|STANDARD_ERROR_OF_MEAN|2.711|<|0.0001|TWO_SIDED|95.0|-38.71|-28.09||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||WASO: Placebo, Lemborexant 5 mg||-28.09|-38.71|< 0.0001
82390120|NCT02783729|164491655|SUPERIORITY||LSM Difference|-42.27|STANDARD_ERROR_OF_MEAN|2.705|<|0.0001|TWO_SIDED|95.0|-47.57|-36.97||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline WASO as a covariate.|MMRM|||WASO: Placebo, Lemborexant 10 mg||-36.97|-47.57|< 0.0001
82526085|NCT00215540|164748546|SUPERIORITY_OR_OTHER|||||||0.094||95.0|||||ANOVA|On rank adjusting for pooled study center||||||0.094
82526086|NCT02801669|164748575|OTHER||Cox Proportional Hazard|0.339||||0.0003|TWO_SIDED|95.0|0.188|0.608|||Regression, Cox|The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.||This statistical analysis assesses the annual incidence of composite event of stroke and SEE between treatment groups.||0.608|0.188|0.0003
82526087|NCT02801669|164748576|OTHER||Cox Proportional Hazard|0.299|||||TWO_SIDED|95.0|0.157|0.57|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of stroke between treatment groups.||0.570|0.157|
82526088|NCT02801669|164748576|OTHER||Cox Proportional Hazard|0.503|||||TWO_SIDED|95.0|0.126|2.011|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of SEE between treatment groups.||2.011|0.126|
82574060|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-6.39|STANDARD_ERROR_OF_MEAN|9.02||0.2395|TWO_SIDED|90.0|-21.22|8.45||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||8.45|-21.22|0.2395
82574061|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|2.57|STANDARD_ERROR_OF_MEAN|9.617||0.6054|TWO_SIDED|90.0|-13.25|18.39||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||18.39|-13.25|0.6054
82574062|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-21.54|STANDARD_ERROR_OF_MEAN|9.344||0.0106|TWO_SIDED|90.0|-36.91|-6.17||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||-6.17|-36.91|0.0106
82574063|NCT04092452|164858040|SUPERIORITY||Risk Difference (RD)|-12.54|STANDARD_ERROR_OF_MEAN|9.305||0.089|TWO_SIDED|90.0|-27.84|2.77||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||2.77|-27.84|0.0890
82574064|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-6.17|STANDARD_ERROR_OF_MEAN|5.963||0.1505|TWO_SIDED|90.0|-15.98|3.64||One-sided p-value|ANCOVA|||Week 1 Average Pain||3.64|-15.98|0.1505
82574065|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-11.06|STANDARD_ERROR_OF_MEAN|5.555||0.0233|TWO_SIDED|90.0|-20.19|-1.92||One-sided p-value|ANCOVA|||Week 1 Average Pain||-1.92|-20.19|0.0233
82574066|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-6.34|STANDARD_ERROR_OF_MEAN|5.926||0.1423|TWO_SIDED|90.0|-16.09|3.41||One-sided p-value|ANCOVA|||Week 1 Average Pain||3.41|-16.09|0.1423
82574067|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-2.15|STANDARD_ERROR_OF_MEAN|7.202||0.3827|TWO_SIDED|90.0|-14.0|9.7||One-sided p-value|ANCOVA|||Week 2 Average Pain||9.70|-14.00|0.3827
82574068|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-10.35|STANDARD_ERROR_OF_MEAN|6.741||0.0624|TWO_SIDED|90.0|-21.44|0.74||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.74|-21.44|0.0624
82574069|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-2.25|STANDARD_ERROR_OF_MEAN|7.171||0.3771|TWO_SIDED|90.0|-14.04|9.55||One-sided p-value|ANCOVA|||Week 2 Average Pain||9.55|-14.04|0.3771
82574070|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|8.04|STANDARD_ERROR_OF_MEAN|8.614||0.8247|TWO_SIDED|90.0|-6.13|22.21||One-sided p-value|ANCOVA|||Week 4 Average Pain||22.21|-6.13|0.8247
82574071|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-8.97|STANDARD_ERROR_OF_MEAN|8.09||0.1337|TWO_SIDED|90.0|-22.28|4.33||One-sided p-value|ANCOVA|||Week 4 Average Pain||4.33|-22.28|0.1337
82574072|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|5.37|STANDARD_ERROR_OF_MEAN|8.523||0.7357|TWO_SIDED|90.0|-8.65|19.39||One-sided p-value|ANCOVA|||Week 4 Average Pain||19.39|-8.65|0.7357
82574073|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|13.78|STANDARD_ERROR_OF_MEAN|8.977||0.9377|TWO_SIDED|90.0|-0.98|28.55||One-sided p-value|ANCOVA|||Week 6 Average Pain||28.55|-0.98|0.9377
82574074|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-9.39|STANDARD_ERROR_OF_MEAN|8.45||0.1332|TWO_SIDED|90.0|-23.29|4.51||One-sided p-value|ANCOVA|||Week 6 Average Pain||4.51|-23.29|0.1332
82574075|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|6.05|STANDARD_ERROR_OF_MEAN|8.907||0.7514|TWO_SIDED|90.0|-8.6|20.7||One-sided p-value|ANCOVA|||Week 6 Average Pain||20.70|-8.60|0.7514
82574076|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|8.97|STANDARD_ERROR_OF_MEAN|8.902||0.8433|TWO_SIDED|90.0|-5.67|23.62||One-sided p-value|ANCOVA|||Week 8 Average Pain||23.62|-5.67|0.8433
82574077|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-8.84|STANDARD_ERROR_OF_MEAN|8.392||0.1461|TWO_SIDED|90.0|-22.64|4.96||One-sided p-value|ANCOVA|||Week 8 Average Pain||4.96|-22.64|0.1461
82574078|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|8.64|STANDARD_ERROR_OF_MEAN|8.818||0.8364|TWO_SIDED|90.0|-5.86|23.15||One-sided p-value|ANCOVA|||Week 8 Average Pain||23.15|-5.86|0.8364
82526089|NCT02801669|164748576|OTHER||Cox Proportional Hazard|0.306|||||TWO_SIDED|95.0|0.16|0.585|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of ischemic stroke between treatment groups.||0.585|0.160|
82526090|NCT02801669|164748576|OTHER||Cox Proportional Hazard|0.347|||||TWO_SIDED|95.0|0.193|0.624|||||The treatment groups were compared using a Cox proportional hazard model with the CHADS2 score (\<= 2 or \>= 3) as covariate.|This statistical analysis assesses the annual incidence of ischemic stroke/SEE between treatment groups.||0.624|0.193|
82526091|NCT00615264|164748594|SUPERIORITY_OR_OTHER|||||||0.2851|||||||Mixed Models Analysis|Calculated with terms for treatment, visit, treatment by visit interaction, baseline C-peptide and country with the unstructured option for the matrix||||||0.2851
82526092|NCT00615264|164748595|SUPERIORITY_OR_OTHER|||||||0.769|||||||Mixed Models Analysis|Calculated with terms for treatment, visit, treatment by visit interaction, baseline C-peptide and country with the unstructured option for the matrix||||||0.7690
82526093|NCT02884414|164748632|OTHER|Paired Student's t-test.||||||0.44|||||||t-test, 2 sided|||||||0.44
82574079|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|2.35|STANDARD_ERROR_OF_MEAN|8.527||0.6085|TWO_SIDED|90.0|-11.68|16.37||One-sided p-value|ANCOVA|||Week 12 Average Pain||16.37|-11.68|0.6085
82574080|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-14.38|STANDARD_ERROR_OF_MEAN|8.022||0.0365|TWO_SIDED|90.0|-27.58|-1.19||One-sided p-value|ANCOVA|||Week 12 Average Pain||-1.19|-27.58|0.0365
82574081|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|8.469||0.5201|TWO_SIDED|90.0|-13.5|14.36||One-sided p-value|ANCOVA|||Week 12 Average Pain||14.36|-13.50|0.5201
82647817|NCT01872689|165011127|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.5685|TWO_SIDED|95.0|0.23|2.26|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||2.26|0.23|0.5685
82574082|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|4.04|STANDARD_ERROR_OF_MEAN|8.564||0.6813|TWO_SIDED|90.0|-10.05|18.12||One-sided p-value|ANCOVA|||Week 16 Average Pain||18.12|-10.05|0.6813
82574083|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-18.38|STANDARD_ERROR_OF_MEAN|8.23||0.0128|TWO_SIDED|90.0|-31.91|-4.84||One-sided p-value|ANCOVA|||Week 16 Average Pain||-4.84|-31.91|0.0128
82574084|NCT04092452|164858041|SUPERIORITY||Risk Difference (RD)|-4.09|STANDARD_ERROR_OF_MEAN|8.639||0.3181|TWO_SIDED|90.0|-18.3|10.12||One-sided p-value|ANCOVA|||Week 16 Average Pain||10.12|-18.30|0.3181
82574085|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.301||0.1536|TWO_SIDED|90.0|-0.8|0.19||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.19|-0.80|0.1536
82574086|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.289||0.0581|TWO_SIDED|90.0|-0.93|0.02||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.02|-0.93|0.0581
82574087|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.3||0.0532|TWO_SIDED|90.0|-0.98|0.01||One-sided p-value|ANCOVA|||Week 1 Pain at its Worst||0.01|-0.98|0.0532
82647818|NCT01872689|165011127|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.1976|TWO_SIDED|95.0|0.37|1.23|||Log Rank|||Stratified Analysis: stratified by baseline FVC (\<50%, 50 to 75%, \>75%)||1.23|0.37|0.1976
82647819|NCT00660790|165011134|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||The paired student's t-test or the Wilcoxon signed-rank test was used to compare the measurements before and after multifactorial treatment, as appropriate, depending on the distribution of the data.||||0.021
82526094|NCT01982435|164748634|OTHER|Measures were summarized using means, range and standard error of the means (SEM).|||||<|0.05||||||Two-sided paired t-tests and two-sided unpaired t-tests were respectively conducted to analyze efficacy endpoints between study initiation to end, and between monthly and TAE injection regimens.|t-test, 2 sided|||All analyses were performed with a significance level of 0.05 being assumed for all tests.||||<0.05
82526095|NCT00871403|164748646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.2647|TWO_SIDED|95.0|0.43|1.28|||Log Rank||The hazard ratios is estimated using a Pike estimator. The estimated value is the hazard ratio comparing Pazopanib 800 mg plus pemetrexed 500 mg/m\^2 to Cisplatin 75 mg/m\^2 plus pemetrexed 500 mg/m\^2.|||1.28|0.43|0.2647
82526096|NCT00871403|164748649|SUPERIORITY_OR_OTHER||percent difference in response|-12.0||||0.2113|TWO_SIDED|95.0|-30.6|7.2|||Binomial asymptotic||The estimated value is the percent difference in the response rate comparing Pazopanib 800 mg plus pemetrexed 500 mg/m\^2 to Cisplatin 75 mg/m\^2 plus pemetrexed 500 mg/m\^2.|||7.2|-30.6|0.2113
82574088|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.383||0.2007|TWO_SIDED|90.0|-0.95|0.31||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.31|-0.95|0.2007
82574089|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.55|STANDARD_ERROR_OF_MEAN|0.37||0.0694|TWO_SIDED|90.0|-1.16|0.06||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.06|-1.16|0.0694
82574090|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.382||0.1509|TWO_SIDED|90.0|-1.02|0.23||One-sided p-value|ANCOVA|||Week 2 Pain at its Worst||0.23|-1.02|0.1509
82574091|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.431||0.5663|TWO_SIDED|90.0|-0.64|0.78||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.78|-0.64|0.5663
82574092|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.416||0.1396|TWO_SIDED|90.0|-1.13|0.23||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.23|-1.13|0.1396
82647820|NCT02143947|165011150|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Mixed Models Analysis|||||||> .10
82647821|NCT02143947|165011151|SUPERIORITY_OR_OTHER||||||=|0.036|TWO_SIDED||||||Mixed Models Analysis|||||||= .036
82526097|NCT00560612|164748653|SUPERIORITY|||||||0.7054|||||||t-test, 2 sided|||||||0.7054
82526098|NCT00560612|164748654|SUPERIORITY|||||||0.4583|||||||t-test, 2 sided|||||||0.4583
82526099|NCT00560612|164748655|SUPERIORITY|||||||0.7443|||||||t-test, 2 sided|||||||0.7443
82526100|NCT00560612|164748656|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
82526101|NCT03338621|164748669|SUPERIORITY||Cox Proportional Hazard|2.93|||<|0.001|TWO_SIDED|95.0|2.17|3.96|||Log Rank|||||3.96|2.17|<0.001
82526102|NCT01859793|164748710|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Primary and secondary outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected. A priori sample size calculation demonstrated our study design has 80% power to detect a 1.5% absolute increase in FMD% with 30 subjects completing the entire study protocol at α=0.05.||||<0.05
82526103|NCT01859793|164748711|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected||||<0.05
82526104|NCT01859793|164748712|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Outcome variables were compared across measurement periods by repeated measures ANOVA and post hoc analyses using Tukey's test were applied if significant differences were detected||||<0.05
82526105|NCT02255032|164748723|SUPERIORITY||Mean Difference (Final Values)|-164.44|STANDARD_DEVIATION|173.148||0.0017|TWO_SIDED|95.0|-256.7|-72.2||The primary analysis of the primary efficacy endpoint was the comparison between the Baseline and Month 2 values for the 4 mg treatment group. No adjustments for multiplicity were necessary.|Paired t-test, two-sided|||"A paired t-test was used to assess the statistical significance of the change between Baseline and Month 2.~A sample size of 16 subjects would have 80% power to detect a difference of 75, assuming a standard deviation of 100, using a paired t-test with a 0.050 two-sided significance level."||-72.2|-256.7|0.0017
82574093|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.432||0.5227|TWO_SIDED|90.0|-0.69|0.74||One-sided p-value|ANCOVA|||Week 4 Pain at its Worst||0.74|-0.69|0.5227
82574094|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.45||0.8656|TWO_SIDED|90.0|-0.24|1.24||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||1.24|-0.24|0.8656
82574095|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.434||0.1671|TWO_SIDED|90.0|-1.13|0.29||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||0.29|-1.13|0.1671
82574096|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.45||0.6063|TWO_SIDED|90.0|-0.62|0.86||One-sided p-value|ANCOVA|||Week 6 Pain at its Worst||0.86|-0.62|0.6063
82574097|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.458||0.6402|TWO_SIDED|90.0|-0.59|0.92||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.92|-0.59|0.6402
82574098|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.38|STANDARD_ERROR_OF_MEAN|0.441||0.1916|TWO_SIDED|90.0|-1.11|0.34||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.34|-1.11|0.1916
82526106|NCT02037438|164748724|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.03|STANDARD_ERROR_OF_MEAN|0.075||0.687|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.687
82574099|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.13|STANDARD_ERROR_OF_MEAN|0.456||0.6119|TWO_SIDED|90.0|-0.62|0.88||One-sided p-value|ANCOVA|||Week 8 Pain at its Worst||0.88|-0.62|0.6119
82574100|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.45||0.5568|TWO_SIDED|90.0|-0.68|0.8||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.80|-0.68|0.5568
82574101|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.433||0.0976|TWO_SIDED|90.0|-1.27|0.15||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.15|-1.27|0.0976
82574102|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.451||0.5001|TWO_SIDED|90.0|-0.74|0.74||One-sided p-value|ANCOVA|||Week 12 Pain at its Worst||0.74|-0.74|0.5001
82574103|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.451||0.581|TWO_SIDED|90.0|-0.65|0.83||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||0.83|-0.65|0.5810
82574104|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-1.07|STANDARD_ERROR_OF_MEAN|0.442||0.0079|TWO_SIDED|90.0|-1.8|-0.34||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||-0.34|-1.80|0.0079
82647822|NCT02143947|165011152|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Mixed Models Analysis|||||||> .10
82390121|NCT02783729|164491655|SUPERIORITY||LSM Difference|-21.66|STANDARD_ERROR_OF_MEAN|2.221|<|0.0001|TWO_SIDED|95.0|-26.01|-17.3||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 5 mg||-17.3|-26.01|< 0.0001
82640889|NCT05182840|164996339|OTHER||Odds Ratio (OR)|3.08||||0.0032|TWO_SIDED|95.0|1.46|6.52||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 10 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||6.52|1.46|0.0032
82647823|NCT02143947|165011153|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< .05
82526107|NCT02037438|164748725|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|-0.007|STANDARD_ERROR_OF_MEAN|0.539||0.989|TWO_SIDED||||||see Comments|Heteroscedasticity-Consistent Linear Regression with Fixed Effects for Providers and Baseline Covariate||||||0.989
82526108|NCT02037438|164748726|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.114|STANDARD_ERROR_OF_MEAN|0.141||0.417|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.417
82390122|NCT02783729|164491655|SUPERIORITY||LSM Difference|-28.33|STANDARD_ERROR_OF_MEAN|2.219|<|0.0001|TWO_SIDED|95.0|-32.68|-23.98||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 10 mg||-23.98|-32.68|< 0.0001
82390123|NCT02783729|164491655|SUPERIORITY||LSM Difference|44.05|STANDARD_ERROR_OF_MEAN|3.291|<|0.0001|TWO_SIDED|95.0|37.59|50.51||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 5 mg||50.51|37.59|< 0.0001
82526109|NCT02037438|164748727|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.057|STANDARD_ERROR_OF_MEAN|0.078||0.468|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.468
82526110|NCT02037438|164748728|SUPERIORITY_OR_OTHER||Provider-Effect Adjusted Difference|0.177|STANDARD_ERROR_OF_MEAN|0.061||0.003|TWO_SIDED||||||see Comments|Finite-Mixture Models with Fixed Effects for Providers||||||0.003
82574105|NCT04092452|164858042|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.455||0.1068|TWO_SIDED|90.0|-1.31|0.18||One-sided p-value|ANCOVA|||Week 16 Pain at its Worst||0.18|-1.31|0.1068
82640890|NCT05182840|164996339|OTHER||Odds Ratio (OR)|4.07||||0.0004|TWO_SIDED|95.0|1.86|8.91||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: Placebo to empagliflozin 10 mg + 20 mg BI 690517 vs. Treatment period: Placebo to empagliflozin 10 mg + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||8.91|1.86|0.0004
82526111|NCT00125593|164748729|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.0021|TWO_SIDED|95.0|0.74|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.74|0.0021
82526112|NCT00125593|164748730|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.0012|TWO_SIDED|95.0|0.77|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.77|0.0012
82390124|NCT02783729|164491655|SUPERIORITY||LSM Difference|56.9|STANDARD_ERROR_OF_MEAN|3.284|<|0.0001|TWO_SIDED|95.0|50.46|63.34||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 10 mg||63.34|50.46|< 0.0001
82390125|NCT02783729|164491656|SUPERIORITY||LSM Difference|9.01|STANDARD_ERROR_OF_MEAN|0.666|<|0.0001|TWO_SIDED|95.0|7.7|10.31||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effects, and the baseline SE as a covariate.|MMRM|||SE: Placebo, Lemborexant 5 mg||10.31|7.7|< 0.0001
82390126|NCT02783729|164491656|SUPERIORITY||LSM Difference|11.6|STANDARD_ERROR_OF_MEAN|0.664|<|0.0001|TWO_SIDED|95.0|10.3|12.9||Based on MMRM model with factors of age group, region, treatment, visit (Days 1/2), and treatment-by-visit interaction as fixed effect, and the baseline SE as a covariate.|MMRM|||SE: Placebo, Lemborexant 10 mg||12.9|10.3|< 0.0001
82390127|NCT02783729|164491657|SUPERIORITY||LSM Difference|-16.41|STANDARD_ERROR_OF_MEAN|2.457|<|0.0001|TWO_SIDED|95.0|-21.23|-11.6||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 5 mg||-11.6|-21.23|< 0.0001
82390128|NCT02783729|164491657|SUPERIORITY||LSM Difference|-17.76|STANDARD_ERROR_OF_MEAN|2.451|<|0.0001|TWO_SIDED|95.0|-22.57|-12.96||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline WASO2H as a covariate.|MMRM|||WASO2H: Placebo, Lemborexant 10 mg||-12.96|-22.57|< 0.0001
82390129|NCT02783729|164491657|SUPERIORITY||LSM Difference|34.16|STANDARD_ERROR_OF_MEAN|3.673|<|0.0001|TWO_SIDED|95.0|26.95|41.36||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 5 mg||41.36|26.95|< 0.0001
82390130|NCT02783729|164491657|SUPERIORITY||LSM Difference|38.85|STANDARD_ERROR_OF_MEAN|3.672|<|0.0001|TWO_SIDED|95.0|31.64|46.05||Based on MMRM model with factors of age group, region, treatment, visit (Days 29/30), and treatment-by-visit interaction as fixed effect, and the baseline TST as a covariate.|MMRM|||TST: Placebo, Lemborexant 10 mg||46.05|31.64|< 0.0001
82640891|NCT05182840|164996340|OTHER||Odds Ratio (OR)|2.01||||0.0578|TWO_SIDED|95.0|0.98|4.14||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 3 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||4.14|0.98|0.0578
82640892|NCT05182840|164996340|OTHER||Odds Ratio (OR)|5.12||||0.0001|TWO_SIDED|95.0|2.23|11.78||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 10 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||11.78|2.23|0.0001
82640893|NCT05182840|164996340|OTHER||Odds Ratio (OR)|3.32||||0.0022|TWO_SIDED|95.0|1.54|7.16||P-value was rounded to four decimal places.|Regression, Logistic||"Odds ratio of Treatment period: 10 mg empagliflozin + 20 mg BI 690517 vs. Treatment period: 10 mg empagliflozin + Placebo to BI 690517."|"The odds ratio, 95% confidence interval, and p-value were calculated based on logistic regression of binary outcome adjusting for treatment, and stratification factors as covariates.~Randomisation stratification was used, which is based on estimated glomerular filtration rate (eGFR) and urine albumin creatinine ratio (UACR) levels at screening."||7.16|1.54|0.0022
82640894|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of all grade 3-4 adverse events per PYAR between the control arm and the monthly DP arm.||||<0.0001
82640895|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of elevated temperature adverse events per PYAR between the control arm and the monthly DP arm.||||<0.01
82390131|NCT02783729|164491658|SUPERIORITY||LSGM Ratio|0.815|||<|0.0001|TWO_SIDED|95.0|0.745|0.891||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Placebo, Lemborexant 5 mg||0.891|0.745|< 0.0001
82390132|NCT02783729|164491658|SUPERIORITY||LSGM Ratio|0.753|||<|0.0001|TWO_SIDED|95.0|0.689|0.823||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, First 7 nights: Placebo, Lemborexant 10 mg||0.823|0.689|< 0.0001
82390133|NCT02783729|164491658|SUPERIORITY||LSGM Ratio|0.75|||<|0.0001|TWO_SIDED|95.0|0.671|0.837||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Placebo, Lemborexant 5 mg||0.837|0.671|< 0.0001
82390134|NCT02783729|164491658|SUPERIORITY||LSGM Ratio|0.689|||<|0.0001|TWO_SIDED|95.0|0.618|0.769||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSOL as a covariate.|MMRM|||sSOL, Last 7 nights: Placebo, Lemborexant 10 mg||0.769|0.618|< 0.0001
82526113|NCT00125593|164748731|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.001|TWO_SIDED|95.0|0.75|0.93|||Log Rank|||All analyses by intention to treat||0.93|0.75|0.001
82526114|NCT00125593|164748732|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.37|TWO_SIDED|95.0|0.76|1.11|||Log Rank|||All analyses by intention to treat||1.11|0.76|0.37
82526115|NCT00125593|164748733|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.01|TWO_SIDED|95.0|0.6|0.94|||Log Rank|||All analyses by intention to treat||0.94|0.60|0.01
82526116|NCT00125593|164748734|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.0036|TWO_SIDED|95.0|0.68|0.93|||Log Rank|||All analyses by intention to treat||0.93|0.68|0.0036
82390135|NCT02783729|164491658|SUPERIORITY||LSM Difference|-12.41|STANDARD_ERROR_OF_MEAN|4.764|=|0.0093|TWO_SIDED|95.0|-21.76|-3.06||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Placebo, Lemborexant 5 mg||-3.06|-21.76|= 0.0093
82390136|NCT02783729|164491658|SUPERIORITY||LSM Difference|-26.34|STANDARD_ERROR_OF_MEAN|4.762|<|0.0001|TWO_SIDED|95.0|-35.68|-16.99||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, First 7 nights: Placebo, Lemborexant 10 mg||-16.99|-35.68|< 0.0001
82390137|NCT02783729|164491658|SUPERIORITY||LSM Difference|-11.49|STANDARD_ERROR_OF_MEAN|5.573|=|0.0396|TWO_SIDED|95.0|-22.42|-0.55||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Placebo, Lemborexant 5 mg||-0.55|-22.42|= 0.0396
82390138|NCT02783729|164491658|SUPERIORITY||LSM Difference|-20.57|STANDARD_ERROR_OF_MEAN|5.574|=|0.0002|TWO_SIDED|95.0|-31.51|-9.63||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sWASO as a covariate.|MMRM|||sWASO, Last 7 nights: Placebo, Lemborexant 10 mg||-9.63|-31.51|= 0.0002
82390139|NCT02783729|164491658|SUPERIORITY||LSM Difference|19.05|STANDARD_ERROR_OF_MEAN|5.619|=|0.0007|TWO_SIDED|95.0|8.03|30.08||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Placebo, Lemborexant 5 mg||30.08|8.03|= 0.0007
82390140|NCT02783729|164491658|SUPERIORITY||LSM Difference|34.51|STANDARD_ERROR_OF_MEAN|5.609|<|0.0001|TWO_SIDED|95.0|23.5|45.52||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baselines sTST as a covariate.|MMRM|||sTST, First 7 nights: Placebo, Lemborexant 10 mg||45.52|23.5|< 0.0001
82390141|NCT02783729|164491658|SUPERIORITY||LSM Difference|23.57|STANDARD_ERROR_OF_MEAN|6.565|=|0.0003|TWO_SIDED|95.0|10.68|36.45||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Placebo, Lemborexant 5 mg||36.45|10.68|= 0.0003
82390142|NCT02783729|164491658|SUPERIORITY||LSM Difference|37.82|STANDARD_ERROR_OF_MEAN|6.565|<|0.0001|TWO_SIDED|95.0|24.94|50.71||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sTST as a covariate.|MMRM|||sTST, Last 7 nights: Placebo, Lemborexant 10 mg||50.71|24.94|< 0.0001
82390143|NCT02783729|164491659|SUPERIORITY||LSM Difference|3.76|STANDARD_ERROR_OF_MEAN|1.122|=|0.0008|TWO_SIDED|95.0|1.56|5.97||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Placebo, Lemborexant 5 mg||5.97|1.56|= 0.0008
82526117|NCT00125593|164748735|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97||||0.41|TWO_SIDED|95.0|0.89|1.05|||Log Rank|||All analyses by intention to treat||1.05|0.89|0.41
82390144|NCT02783729|164491659|SUPERIORITY||LSM Difference|6.84|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|4.64|9.04||Based on MMRM model with factors of age group, region, treatment, visit (First 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, First 7 nights: Placebo, Lemborexant 10 mg||9.04|4.64|< 0.0001
82526118|NCT01597505|164748736|NON_INFERIORITY|Surotomycin minus Vancomycin. For surotomycin to be non-inferior to vancomycin the lower bound of a 2-sided 95% CI for the difference between treatment groups had to be ≥ -10%.|Difference in percentage of participants|-4.6|||||TWO_SIDED|95.0|-11.0|1.9|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in percentage of participants||1.9|-11.0|
82526119|NCT01597505|164748737|SUPERIORITY|||||||0.832||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified log-rank test p-value||||0.832
82526120|NCT01597505|164748738|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-0.8|||||TWO_SIDED|95.0|-8.8|7.1|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||7.1|-8.8|
82390145|NCT02783729|164491659|SUPERIORITY||LSM Difference|4.61|STANDARD_ERROR_OF_MEAN|1.319|=|0.0005|TWO_SIDED|95.0|2.02|7.19||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Placebo, Lemborexant 5 mg||7.19|2.02|= 0.0005
82526121|NCT01597505|164748742|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|0.6|||||TWO_SIDED|95.0|-7.2|8.3|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||8.3|-7.2|
82526122|NCT01597505|164748743|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-3.5|||||TWO_SIDED|95.0|-10.0|3.0|||||The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference, using the MRc stratum weights. Stratified by age group and number of CDAD episodes.|Difference in percentage of participants||3.0|-10.0|
82574106|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.284||0.1898|TWO_SIDED|90.0|-0.72|0.22||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.22|-0.72|0.1898
82574107|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.43|STANDARD_ERROR_OF_MEAN|0.273||0.0562|TWO_SIDED|90.0|-0.88|0.02||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.02|-0.88|0.0562
82640896|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the monthly DP arm.||||<0.01
82574108|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.284||0.1382|TWO_SIDED|90.0|-0.78|0.16||One-sided p-value|ANCOVA|||Week 1 Average Pain||0.16|-0.78|0.1382
82574109|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.343||0.2039|TWO_SIDED|90.0|-0.85|0.28||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.28|-0.85|0.2039
82574110|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.45|STANDARD_ERROR_OF_MEAN|0.332||0.0855|TWO_SIDED|90.0|-1.0|0.09||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.09|-1.00|0.0855
82574111|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.344||0.3089|TWO_SIDED|90.0|-0.74|0.39||One-sided p-value|ANCOVA|||Week 2 Average Pain||0.39|-0.74|0.3089
82574112|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.407||0.6124|TWO_SIDED|90.0|-0.55|0.79||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.79|-0.55|0.6124
82574113|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|0.395||0.1003|TWO_SIDED|90.0|-1.15|0.14||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.14|-1.15|0.1003
82640897|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared to No chemoprevention arm|Negative Binomial Regression|||Null Hypothesis: Within HIV-unexposed participants, there is no difference in the incidence of thrombocytopenia adverse events per PYAR between the control arm and the monthly DP arm.||||<0.05
82640898|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of all grade 3-4 adverse events per PYAR between the control arm and the monthly DP arm.||||<0.05
82640899|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the monthly DP arm||||<0.05
82640900|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Monthly DP arm compared with the no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of elevated temperature adverse events per PYAR between the control arm and the monthly DP arm||||<0.05
82640901|NCT00948896|164996354|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Daily TS arm compare with the no chemoprevention arm.|Negative Binomial Regression|||Null Hypothesis: Within HIV-exposed participants, there is no difference in the incidence of anemia adverse events per PYAR between the control arm and the daily TS arm||||<0.01
82640902|NCT00948896|164996356|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|7.0||||0.57|TWO_SIDED|95.0|-19.0|28.0|||Negative Binomial Regression||The no chemoprevention arm is the reference group.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||28|-19|0.57
82390146|NCT02783729|164491659|SUPERIORITY||LSM Difference|7.18|STANDARD_ERROR_OF_MEAN|1.319|<|0.0001|TWO_SIDED|95.0|4.6|9.77||Based on MMRM model with factors of age group, region, treatment, visit (Last 7 Nights), and treatment-by-visit interaction as fixed effects, and the baseline sSE as a covariate.|MMRM|||sSE, Last 7 nights: Placebo, Lemborexant 10 mg||9.77|4.6|< 0.0001
82390147|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|0.41|||=|0.9028|TWO_SIDED|95.0|-6.22|7.04||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Placebo, Lemborexant 5 mg||7.04|-6.22|= 0.9028
82390148|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|2.49|||=|0.4699|TWO_SIDED|95.0|-4.2|9.18||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Placebo, Lemborexant 10 mg||9.18|-4.2|= 0.4699
82390149|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|5.58|||=|0.0566|TWO_SIDED|95.0|-0.14|11.31|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by age group.||LPS, Days 1/2: Zolpidem ER, Lemborexant 5 mg||11.31|-0.14|= 0.0566
82526123|NCT01597505|164748744|SUPERIORITY|Surotomycin was superior to vancomycin if the p-value was less than 0.05||||||0.431||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified Log-Rank p-Value||||0.431
82390150|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.57|||=|0.0122|TWO_SIDED|95.0|1.71|13.44||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 1/2: Zolpidem ER, Lemborexant 10 mg||13.44|1.71|= 0.0122
82390151|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|4.42|||=|0.2176|TWO_SIDED|95.0|-2.5|11.34||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Placebo, Lemborexant 5 mg||11.34|-2.5|= 0.2176
82390152|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|6.47|||=|0.0773|TWO_SIDED|95.0|-0.55|13.49||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Placebo, Lemborexant 10 mg||13.49|-0.55|= 0.0773
82526124|NCT01597505|164748745|SUPERIORITY|Surotomycin was superior to vancomycin if the p-value was less than 0.05||||||0.011||||||Log-rank test of equality of survival times, stratified by age group (\< 75, \>= 75 years) and number of CDAD episodes (0, \>= 1). Significance cut-off = 0.05|Log Rank|||Stratified Log-Rank p-Value||||0.011
82574114|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.408||0.6875|TWO_SIDED|90.0|-0.47|0.87||One-sided p-value|ANCOVA|||Week 4 Average Pain||0.87|-0.47|0.6875
82640903|NCT00948896|164996356|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|28.0||||0.01|TWO_SIDED|95.0|7.0|44.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||44|7|0.01
82640904|NCT00948896|164996356|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|58.0|||<|0.001|TWO_SIDED|95.0|45.0|67.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|The sample size was calculated to detect at least a 32% lower incidence of malaria in the DP arm compared to that in the TS arm. We assumed that the incidence of malaria would be 1.85 episodes per person-year with TS chemoprevention based on a prior cohort study in the same area, and thus we calculated that we would need to enroll 100 participants in each arm to detect our targeted protective efficacy with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||67|45|<0.001
82640905|NCT00948896|164996357|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|9.0||||0.065|TWO_SIDED|95.0|-35.0|38.0|||Negative Binomial Regression||The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||38|-35|0.065
82640906|NCT00948896|164996357|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|49.0||||0.001|TWO_SIDED|95.0|23.0|66.0||Adjusted for age at randomization and incidence of malaria prior to randomization.|Negative Binomial Regression||Adjusted for age at randomization and incidence of malaria prior to randomization. The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||66|23|0.001
82640907|NCT00948896|164996357|SUPERIORITY_OR_OTHER||Protective Efficacy (%)|69.0|||<|0.001|TWO_SIDED|95.0|53.0|80.0||Adjusted for age at randomization and incidence of malaria prior to randomization.|Negative Binomial Regression||Adjusted for age at randomization and incidence of malaria prior to randomization. The no chemoprevention arm is the reference arm.|We assumed that the incidence of malaria would be 1.85 episodes per person year with TS based on a prior cohort study in the same area, and thus, that we would need to enroll 50 participants in each arm to detect a reduction in the incidence of malaria in either the monthly SP or DP arms (two-sided significance level 0.05) compared with the daily TS arm of 48% or greater with 80% power at 95% significance (two-sided), allowing for 10% loss to follow-up.||80|53|<0.001
82640908|NCT05436067|164996361|OTHER||||||<|0.001||||||Difference in head angle pitch - left between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
82390153|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|8.85|||=|0.0054|TWO_SIDED|95.0|2.68|15.02||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Zolpidem ER, Lemborexant 5 mg||15.02|2.68|= 0.0054
82526125|NCT01597505|164748746|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|2.2|||||TWO_SIDED|95.0|-10.7|14.8|||||Treatment group percentages were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥ 1). The 95% CIs were stratified Wilson intervals for the treatment group percentages.|Difference in percentage of participants||14.8|-10.7|
82526126|NCT01597505|164748747|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|-2.4|||||TWO_SIDED|95.0|-7.8|3.0|||||Treatment group proportions were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥1). The 95% CIs were stratified Wilson intervals for the treatment group proportions.|Difference in percentage of participants||3.0|-7.8|
82574115|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.51|STANDARD_ERROR_OF_MEAN|0.427||0.8833|TWO_SIDED|90.0|-0.19|1.21||One-sided p-value|ANCOVA|||Week 6 Average Pain||1.21|-0.19|0.8833
82574116|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.43|STANDARD_ERROR_OF_MEAN|0.413||0.1502|TWO_SIDED|90.0|-1.11|0.25||One-sided p-value|ANCOVA|||Week 6 Average Pain||0.25|-1.11|0.1502
82526127|NCT01597505|164748748|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|14.6|||||TWO_SIDED|95.0|-2.7|30.7|||||Treatment group percentages were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥ 1). The 95% CIs were stratified Wilson intervals for the treatment group percentages.|Difference in percentage of participants||30.7|-2.7|
82526128|NCT01597505|164748749|SUPERIORITY|Surotomycin - Vancomycin. For surotomycin to be considered superior to vancomycin the lower bound of the 2-sided 95% CI had to be \> 0%.|Difference in percentage of participants|4.3|||||TWO_SIDED|95.0|-4.2|12.7|||||Treatment group proportions were stratified by age group (\< 75, ≥ 75) and number of previous CDAD episodes (0, ≥1). The 95% CIs were stratified Wilson intervals for the treatment group proportions.|Difference in percentage of participants||12.7|-4.2|
82526129|NCT00462280|164748814|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.61
82526130|NCT01313286|164748840|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square means|1.08|||||TWO_SIDED|90.0|1.0|1.16|||Mixed Models Analysis|Ratio of test formulation (HCl salt) to reference formulation (free base).||||1.16|1.00|
82526131|NCT01313286|164748841|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square means|1.18|||||TWO_SIDED|90.0|1.07|1.31|||Mixed Models Analysis|Ratio of test formulation (HCl salt) to reference formulation (free base).||||1.31|1.07|
82574117|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.428||0.6788|TWO_SIDED|90.0|-0.5|0.9||One-sided p-value|ANCOVA|||Week 6 Average Pain||0.90|-0.50|0.6788
82574118|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.441||0.6835|TWO_SIDED|90.0|-0.51|0.94||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.94|-0.51|0.6835
82640909|NCT05436067|164996361|OTHER||||||<|0.001||||||Difference in head angle pitch - right between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
82390154|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|10.89|||=|0.0008|TWO_SIDED|95.0|4.61|17.17||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||LPS, Days 29/30: Zolpidem ER, Lemborexant 10 mg||17.17|4.61|= 0.0008
82574119|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.425||0.2237|TWO_SIDED|90.0|-1.02|0.38||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.38|-1.02|0.2237
82574120|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.439||0.7234|TWO_SIDED|90.0|-0.46|0.98||One-sided p-value|ANCOVA|||Week 8 Average Pain||0.98|-0.46|0.7234
82574121|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.424||0.4773|TWO_SIDED|90.0|-0.72|0.67||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.67|-0.72|0.4773
82443880|NCT00915148|164596250|SUPERIORITY_OR_OTHER||||||<|0.01||||||the reported p-value corresponds with each log rank comparison|Log Rank|||"Kaplan Meier plots were used to compare time from a defined prolonged labor in the first stage to delivery for~1. women with fetal head-perineum distance ≤40 mm vs. women with distance \>40 mm measured with 2D ultrasound.~2. women with angle of progression ≥110 degrees vs. women with angle \<110 degrees measured with 2D ultrasound"||||<0.01
82443881|NCT02449018|164596253|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.31||0.13|TWO_SIDED|90.0|-0.24|0.79|||ANCOVA|||||0.79|-0.24|0.130
82443882|NCT01355796|164596273|SUPERIORITY||Mean Difference (Net)|1.49|STANDARD_ERROR_OF_MEAN|1.66|<|0.05|TWO_SIDED|95.0|-1.76|4.75|||Mixed Models Analysis|||||4.75|-1.76|<0.05
82443883|NCT02033213|164596292|SUPERIORITY_OR_OTHER|||||||0.41||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 10 minutes time point.||||0.410
82443884|NCT02033213|164596292|SUPERIORITY_OR_OTHER|||||||0.621||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.621
82443885|NCT02033213|164596293|SUPERIORITY_OR_OTHER|||||||0.791||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 10 minutes time point.||||0.791
82443886|NCT02033213|164596293|SUPERIORITY_OR_OTHER|||||||0.41||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.410
82526132|NCT04843930|164748846|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.54|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 261.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.54
82574122|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.41||0.0818|TWO_SIDED|90.0|-1.25|0.1||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.10|-1.25|0.0818
82574123|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.424||0.6397|TWO_SIDED|90.0|-0.55|0.85||One-sided p-value|ANCOVA|||Week 12 Average Pain||0.85|-0.55|0.6397
82443887|NCT02033213|164596294|SUPERIORITY_OR_OTHER|||||||0.322||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement aws assessed at 10 minutes time point.||||0.322
82443888|NCT02033213|164596294|SUPERIORITY_OR_OTHER|||||||0.574||||||P \< 0.05 was considered significant.|t-test, 1 sided|||The measurement was assessed at 6 hours time point.||||0.574
82443889|NCT02033213|164596295|SUPERIORITY_OR_OTHER|||||||0.03||||||P \< 0.05 was considered significant.|t-test, 1 sided|||||||0.030
82443890|NCT02033213|164596295|SUPERIORITY_OR_OTHER|||||||0.096||||||P \< 0.05 was considered significant.|t-test, 1 sided|||||||0.096
82443891|NCT02033213|164596296|SUPERIORITY_OR_OTHER|||||||0.362|||||||t-test, 1 sided|||||||0.362
82443892|NCT02033213|164596297|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.020
82443893|NCT03474081|164596303|SUPERIORITY||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.0167|<|0.001|TWO_SIDED|95.0|0.062|0.128||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.128|0.062|<0.001
82574124|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|0.03|STANDARD_ERROR_OF_MEAN|0.428||0.5321|TWO_SIDED|90.0|-0.67|0.74||One-sided p-value|ANCOVA|||Week 16 Average Pain||0.74|-0.67|0.5321
82443894|NCT03474081|164596304|SUPERIORITY||Mean Difference (Net)|0.122|STANDARD_ERROR_OF_MEAN|0.0144|<|0.001|TWO_SIDED|95.0|0.094|0.15||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.150|0.094|<0.001
82443895|NCT03474081|164596305|SUPERIORITY||Mean Difference (Net)|0.087|STANDARD_ERROR_OF_MEAN|0.0159|<|0.001|TWO_SIDED|95.0|0.056|0.118||The MMRM model included Baseline FEV1, visit, geographical region, and treatment as covariates and visit-by-Baseline FEV1 and visit-by-treatment interaction terms.|Mixed model repeated measures (MMRM)|||||0.118|0.056|<0.001
82443896|NCT01058941|164596316|OTHER||Mean Difference (Net)|-0.42||||0.82|TWO_SIDED|95.0|-3.97|3.13||We used a significance level of p = 0.025 for our measure of ADL changes based on a simple Bonferroni adjustment since we have two primary outcomes.|Mixed Models Analysis|Adjusted for baseline outcome, time from baseline, age, education category, BMI, cholinesterase inhibitors, memantine, vitamin E, and Apo-E.||The target enrollment was 60 subjects, allowing for up to a 20% drop-out. It was calculated that with 48 subjects (24 per group) we would have 80% power to see differences in ADL scores over 18 months between the treatment and placebo groups with a significance level of 0.025 based on a simple Bonferroni adjustment, since we had two primary outcomes.||3.13|-3.97|0.82
82443897|NCT01058941|164596317|OTHER||Mean Difference (Net)|-3.68||||0.001|TWO_SIDED|95.0|-5.9|-1.46||We used a significance level of p = 0.025 for our measure of ADAS-cog changes based on a simple Bonferroni adjustment since we have two primary outcomes.|Mixed Models Analysis|Adjusted for baseline outcome, time from baseline, age, education category, BMI, cholinesterase inhibitors, memantine, vitamin E, and Apo-E.||The target enrollment was 60 subjects, allowing for up to a 20% drop-out. It was calculated that with 48 subjects (24 per group) we would have 80% power to see differences in ADL scores over 18 months between the treatment and placebo groups with a significance level of 0.025 based on a simple Bonferroni adjustment, since we had two primary outcomes.||-1.46|-5.90|0.001
82574125|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.89|STANDARD_ERROR_OF_MEAN|0.42||0.0167|TWO_SIDED|90.0|-1.59|-0.2||One-sided p-value|ANCOVA|||Week 16 Average Pain||-0.20|-1.59|0.0167
82640910|NCT05436067|164996361|OTHER|||||||0.042||||||Difference in head angle yaw - extension between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.042
82640911|NCT05436067|164996361|OTHER|||||||0.111||||||Difference in head angle yaw - flexion between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.111
82574126|NCT04092452|164858043|SUPERIORITY||Risk Difference (RD)|-0.37|STANDARD_ERROR_OF_MEAN|0.434||0.1963|TWO_SIDED|90.0|-1.09|0.34||One-sided p-value|ANCOVA|||Week 16 Average Pain||0.34|-1.09|0.1963
82574127|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|90.0|-10.3|6.0||||||Week 1||6.0|-10.3|
82574128|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|2.0|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-7.3|11.3||||||Week 1||11.3|-7.3|
82390155|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|6.9|||=|0.003|TWO_SIDED|95.0|2.66|11.14||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Placebo, Lemborexant 5 mg||11.14|2.66|= 0.003
82390156|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.5|||=|0.0016|TWO_SIDED|95.0|3.19|11.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Placebo, Lemborexant 10 mg||11.81|3.19|= 0.0016
82574129|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|6.8|STANDARD_ERROR_OF_MEAN|6.47|||TWO_SIDED|90.0|-3.9|17.4||||||Week 1||17.4|-3.9|
82390157|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|2.22|||=|0.3643|TWO_SIDED|95.0|-2.56|7.01||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Zolpidem, Lemborexant 5 mg||7.01|-2.56|= 0.3643
82390158|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|2.82|||=|0.2553|TWO_SIDED|95.0|-2.02|7.66||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, First 7 nights: Zolpidem, Lemborexant 10 mg||7.66|-2.02|= 0.2553
82390159|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|9.69|||=|0.0016|TWO_SIDED|95.0|3.98|15.4||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Placebo, Lemborexant 5 mg||15.4|3.98|= 0.0016
82526133|NCT04843930|164748847|SUPERIORITY||Mean Difference (Final Values)|2.83||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 239.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis."||||0.04
82574130|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|10.7|STANDARD_ERROR_OF_MEAN|7.74|||TWO_SIDED|90.0|-2.0|23.4||||||Week 2||23.4|-2.0|
82574131|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|7.34|||TWO_SIDED|90.0|-4.5|19.7||||||Week 2||19.7|-4.5|
82574132|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|7.5|STANDARD_ERROR_OF_MEAN|7.36|||TWO_SIDED|90.0|-4.6|19.6||||||Week 2||19.6|-4.6|
82640912|NCT05436067|164996362|OTHER|||||||0.023||||||Difference in pitch range of motion between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.023
82390160|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.29|||=|0.0128|TWO_SIDED|95.0|1.8|12.79||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Placebo, Lemborexant 10 mg||12.79|1.8|= 0.0128
82390161|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|8.16|||=|0.0051|TWO_SIDED|95.0|2.51|13.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||13.81|2.51|= 0.0051
82390162|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|5.76|||=|0.0389|TWO_SIDED|95.0|0.34|11.18||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sSOL, Last 7nights: Zolpidem ER, Lemborexant 10 mg||11.18|0.34|= 0.0389
82640913|NCT05436067|164996362|OTHER||||||<|0.001|||||||paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||<0.001
82390163|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|34.26|||<|0.0001|TWO_SIDED|95.0|26.46|42.06||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Placebo, Lemborexant 5 mg||42.06|26.46|< 0.0001
82390164|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|47.57|||<|0.0001|TWO_SIDED|95.0|40.02|55.13||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Placebo, Lemborexant 10 mg||55.13|40.02|< 0.0001
82390165|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|4.89|||=|0.2534|TWO_SIDED|95.0|-3.49|13.28||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 1/2: Zolpidem ER, Lemborexant 5 mg||13.28|-3.49|= 0.2534
82390166|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|18.25|||<|0.0001|TWO_SIDED|95.0|10.1|26.4||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO: Days 1/2: Zolpidem ER, Lemborexant 10 mg||26.4|10.1|< 0.0001
82390167|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|22.2|||<|0.0001|TWO_SIDED|95.0|14.06|30.35||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Placebo, Lemborexant 5 mg||30.35|14.06|< 0.0001
82390168|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|24.13|||<|0.0001|TWO_SIDED|95.0|16.16|32.1||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Placebo, Lemborexant 10 mg||32.1|16.16|< 0.0001
82390169|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|9.59|||=|0.023|TWO_SIDED|95.0|1.36|17.81||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Zolpidem ER, Lemborexant 5 mg||17.81|1.36|= 0.023
82390170|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|11.43|||=|0.0058|TWO_SIDED|95.0|3.38|19.48||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||WASO, Days 29/30: Zolpidem ER, Lemborexant 10 mg||19.48|3.38|= 0.0058
82390171|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.3|||=|0.0222|TWO_SIDED|95.0|1.27|13.33||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Placebo, Lemborexant 5||13.33|1.27|= 0.0222
82390172|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|10.84|||=|0.0013|TWO_SIDED|95.0|4.57|17.11||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Placebo, Lemborexant 10 mg||17.11|4.57|= 0.0013
82640914|NCT05436067|164996363|OTHER|||||||0.057||||||Difference in pitch velocity between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.057
82574133|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|7.4|STANDARD_ERROR_OF_MEAN|7.95|||TWO_SIDED|90.0|-5.7|20.5||||||Week 4||20.5|-5.7|
82390173|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|0.21|||=|0.9495|TWO_SIDED|95.0|-6.17|6.58||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, First 7 nights: Zolpidem ER, Lemborexant 5 mg||6.58|-6.17|= 0.9495
82390174|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|3.72|||=|0.2708|TWO_SIDED|95.0|-2.88|10.32||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO: First 7 nights: Zolpidem ER, Lemborexant 10 mg||10.32|-2.88|= 0.2708
82390175|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.91|||=|0.0322|TWO_SIDED|95.0|0.86|14.96||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Placebo, Lemborexant 5 mg||14.96|0.86|= 0.0322
82390176|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|7.69|||=|0.0363|TWO_SIDED|95.0|0.68|14.71||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Placebo, Lemborexant 10 mg||14.71|0.68|= 0.0363
82390177|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|0.05|||=|0.9885|TWO_SIDED|95.0|-7.14|7.24||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 5 mg||7.24|-7.14|= 0.9885
82526134|NCT04843930|164748848|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.79|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 229.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.79
82640915|NCT05436067|164996363|OTHER|||||||0.003||||||Difference in yaw velocity between the arms|paired t-test|||This statistical analysis tests the difference between the different arms (with and without app) using a paired t-test||||0.003
82640916|NCT05436067|164996364|OTHER|||||||0.035||||||Weight shift exercise - mediolateral range of motion|paired t-test|||||||0.035
82640917|NCT05436067|164996364|OTHER|||||||0.006||||||Weight shift balance exercise anteroposterior range of motion|paired t-test|||||||0.006
82640918|NCT05436067|164996364|OTHER|||||||0.024||||||Single leg balance range of motion|paired t-test|||||||0.024
82640919|NCT05436067|164996364|OTHER|||||||0.257||||||Single leg balance fluency|Shapiro Wilcoxon test|Data was not normally distributed.||||||0.257
82640920|NCT00157157|164996385|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.95||||||95.0|1.29|19.06||||||||19.06|1.29|
82640921|NCT00157157|164996386|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.18||||||95.0|1.18|14.82||||||||14.82|1.18|
82640922|NCT00157157|164996387|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5||||||95.0|1.05|19.25||||||||19.25|1.05|
82640923|NCT01678794|164996388|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
82640924|NCT01678794|164996389|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82640925|NCT02260804|164996402|EQUIVALENCE|The equivalence margin of ±17% was predefined.|Difference in proportion|1.8|||||TWO_SIDED|90.0|-6.43|10.2||||||||10.2|-6.43|
82640926|NCT04074109|164996432|OTHER|This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.||||||||||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||
82640927|NCT04074109|164996432|OTHER|||||||||||||||||This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used. We report percentages and frequencies to show feasibility|This is a feasibility study which is not powered for efficacy. Therefore no formal statistical tests are used.|||
82640928|NCT02983305|164996435|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms at baseline.||||||0.0001||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of visual field area at baseline.||||.0001
82640929|NCT02983305|164996435|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.0001||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of visual field area under intervention conditions.||||0.0001
82640930|NCT02983305|164996435|EQUIVALENCE|Mann-Whitney U test was used to test non-equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.003||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Comparison between study arms of the change in the visual field area (average of both eyes) detected between baseline and intervention.||||.003
82640931|NCT02983305|164996436|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms at baseline.||||||0.38||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of gait speed at baseline.||||0.38
82640932|NCT02983305|164996436|EQUIVALENCE|Mann-Whitney U test was used to test equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.27||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Test of equivalence of gait speed under intervention conditions.||||0.27
82640933|NCT02983305|164996436|EQUIVALENCE|Mann-Whitney U test was used to test non-equivalence of this outcome measure for the two study arms under intervention conditions.||||||0.79||||||P \< .05 was considered a priori to be statistically significant.|Wilcoxon (Mann-Whitney)|||Comparison between study arms of the change in the gait speed detected between baseline and intervention.||||0.79
82390178|NCT02783729|164491660|SUPERIORITY||Difference of Percentage|-0.16|||=|0.9651|TWO_SIDED|95.0|-7.31|6.99||Based on Cochran-Mantel-Haenszel test stratified by age group.|Cochran-Mantel-Haenszel|||sWASO, Last 7 nights: Zolpidem ER, Lemborexant 10 mg||6.99|-7.31|= 0.9651
82390179|NCT02783729|164491661|SUPERIORITY||LSM Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.319|=|0.0006|TWO_SIDED|95.0|-1.73|-0.47||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Placebo, Lemborexant 5 mg||-0.47|-1.73|= 0.0006
82640934|NCT01797458|164996459|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||Twenty-five teeth experienced at least one 'Minor' failure (reversible pulpitis, caries progression, and secondary caries): NRCT 9 (6.4%), CR 14 (10%), HT 2 (1.4%).|Kruskal-Wallis|||The null hypothesis was no difference at 2 yrs among any of the 3 arms for the primary outcome of success or minor failure.||||0.02
82640935|NCT02951182|164996472|SUPERIORITY||Least Squares (LS) Mean Difference|8.6||||0.0016|TWO_SIDED|95.0|3.5|13.8|||Mixed-effects Model for Repeated Measure|||||13.8|3.5|0.0016
82640936|NCT02951182|164996472|SUPERIORITY||Least Squares (LS) Mean Difference|10.6||||0.0001|TWO_SIDED|95.0|5.5|15.8|||Mixed-effects Model for Repeated Measure|||||15.8|5.5|0.0001
82640937|NCT02951182|164996472|SUPERIORITY||Least Squares (LS) Mean Difference|12.0||||0.0001|TWO_SIDED|95.0|6.7|17.4|||Mixed-effects Model for Repeated Measure|||||17.4|6.7|0.0001
82640938|NCT02951182|164996473|SUPERIORITY||Least Squares (LS) Mean Difference|-22.3|||||TWO_SIDED|95.0|-32.1|-12.4||||||||-12.4|-32.1|
82376748|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.29|1.44||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||1.44|1.29|<.0001
82390180|NCT02783729|164491661|SUPERIORITY||LSM Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.32|=|0.0007|TWO_SIDED|95.0|-1.71|-0.46||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Placebo, Lemborexant 10 mg||-0.46|-1.71|= 0.0007
82526135|NCT04843930|164748849|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.45|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 269.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.45
82574134|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|15.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|90.0|1.4|28.7||||||Week 4||28.7|1.4|
82574135|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|4.8|STANDARD_ERROR_OF_MEAN|7.74|||TWO_SIDED|90.0|-8.0|17.5||||||Week 4||17.5|-8.0|
82574136|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|14.3|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|90.0|0.7|28.0||||||Week 6||28.0|0.7|
82640939|NCT02951182|164996473|SUPERIORITY||Least Squares (LS) Mean Difference|-34.7|||||TWO_SIDED|95.0|-44.7|-24.8||||||||-24.8|-44.7|
82376749|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|2.2|2.33||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.33|2.20|<.0001
82376750|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.69|1.85||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||1.85|1.69|<.0001
82640940|NCT02951182|164996473|SUPERIORITY||Least Squares (LS) Mean Difference|-33.4|||||TWO_SIDED|95.0|-48.5|-18.3||||||||-18.3|-48.5|
82640941|NCT02951182|164996474|SUPERIORITY||Least Squares (LS) Mean Difference|14.8|||||TWO_SIDED|95.0|5.3|24.2||||||||24.2|5.3|
82640942|NCT02951182|164996474|SUPERIORITY||Least Squares (LS) Mean Difference|19.1|||||TWO_SIDED|95.0|9.7|28.6||||||||28.6|9.7|
82640943|NCT02951182|164996474|SUPERIORITY||Least Squares (LS) Mean Difference|20.0|||||TWO_SIDED|95.0|10.8|29.1||||||||29.1|10.8|
82390181|NCT02783729|164491661|SUPERIORITY||LSM Difference|0.32|STANDARD_ERROR_OF_MEAN|0.301|=|0.2951|TWO_SIDED|95.0|-0.28|0.91||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 5 mg||0.91|-0.28|= 0.2951
82390182|NCT02783729|164491661|SUPERIORITY||LSM Difference|0.33|STANDARD_ERROR_OF_MEAN|0.303|=|0.2744|TWO_SIDED|95.0|-0.26|0.92||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 10 mg||0.92|-0.26|= 0.2744
82390183|NCT02783729|164491662|SUPERIORITY||LSM Difference|-1.26|STANDARD_ERROR_OF_MEAN|1.063|=|0.2348|TWO_SIDED|95.0|-3.35|0.82||Based on ANCOVA model with factors of age group, region, treatment and the baseline FSS as a covariate.|ANCOVA|||Placebo, Lemborexant 5 mg||0.82|-3.35|= 0.2348
82390184|NCT02783729|164491662|SUPERIORITY||LSM Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.067|=|0.2745|TWO_SIDED|95.0|-3.26|0.93||Based on ANCOVA model with factors of age group, region, treatment and the baseline FSS as a covariate.|ANCOVA|||Placebo, Lemborexant 10 mg||0.93|-3.26|= 0.2745
82390185|NCT02783729|164491662|SUPERIORITY||LSM Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.005|=|0.711|TWO_SIDED|95.0|-2.35|1.6||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 5 mg||1.6|-2.35|= 0.711
82390186|NCT02783729|164491662|SUPERIORITY||LSM Difference|-0.27|STANDARD_ERROR_OF_MEAN|1.009|=|0.7854|TWO_SIDED|95.0|-2.26|1.71||Based on ANCOVA model with factors of age group, region, treatment and the baseline ISI as a covariate.|ANCOVA|||Zolpidem ER, Lemborexant 10 mg||1.71|-2.26|= 0.7854
82390187|NCT02783729|164491663|SUPERIORITY||LSM Difference|30.77|STANDARD_ERROR_OF_MEAN|12.505|=|0.0141|TWO_SIDED|95.0|6.23|55.31||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Placebo, Lemborexant 5 mg||55.31|6.23|= 0.0141
82390188|NCT02783729|164491663|SUPERIORITY||LSM Difference|39.67|STANDARD_ERROR_OF_MEAN|12.542|=|0.0016|TWO_SIDED|95.0|15.05|64.29||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Placebo, Lemborexant 10 mg||64.29|15.05|= 0.0016
82390189|NCT02783729|164491663|SUPERIORITY||LSM Difference|-19.22|STANDARD_ERROR_OF_MEAN|11.779|=|0.1031|TWO_SIDED|95.0|-42.34|3.9||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Zolpidem ER, Lemborexant 5 mg||3.9|-42.34|= 0.1031
82390190|NCT02783729|164491663|SUPERIORITY||LSM Difference|-10.32|STANDARD_ERROR_OF_MEAN|11.813|=|0.3825|TWO_SIDED|95.0|-33.5|12.86||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline POA as a covariate.|MMRM|||POA: Zolpidem ER, Lemborexant 10 mg||12.86|-33.5|= 0.3825
82390191|NCT02783729|164491663|SUPERIORITY||LSM Difference|28.81|STANDARD_ERROR_OF_MEAN|60.626|=|0.6348|TWO_SIDED|95.0|-90.18|147.8||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Placebo, Lemborexant 5 mg||147.8|-90.18|= 0.6348
82390192|NCT02783729|164491663|SUPERIORITY||LSM Difference|50.83|STANDARD_ERROR_OF_MEAN|60.702|=|0.4026|TWO_SIDED|95.0|-68.3|169.97||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Placebo, Lemborexant 10 mg||169.97|-68.3|= 0.4026
82390193|NCT02783729|164491663|SUPERIORITY||LSM Difference|-203.36|STANDARD_ERROR_OF_MEAN|57.171|=|0.0004|TWO_SIDED|95.0|-315.56|-91.15||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Zolpidem ER, Lemborexant 5 mg||-91.15|-315.56|= 0.0004
82390194|NCT02783729|164491663|SUPERIORITY||LSM Difference|-181.33|STANDARD_ERROR_OF_MEAN|57.255|=|0.0016|TWO_SIDED|95.0|-293.71|-68.96||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline SOMT as a covariate.|MMRM|||SOMT: Zolpidem ER, Lemborexant 10 mg||-68.96|-293.71|= 0.0016
82640944|NCT02951182|164996475|SUPERIORITY||Least Squares (LS) Mean Difference|16.1|||||TWO_SIDED|95.0|5.4|26.8||||||||26.8|5.4|
82390195|NCT02783729|164491664|SUPERIORITY||LSM Difference|-0.03|STANDARD_ERROR_OF_MEAN|4.141|=|0.9936|TWO_SIDED|95.0|-8.16|8.09||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Placebo, Lemborexant 5 mg||8.09|-8.16|= 0.9936
82390196|NCT02783729|164491664|SUPERIORITY||LSM Difference|-5.85|STANDARD_ERROR_OF_MEAN|4.154|=|0.1595|TWO_SIDED|95.0|-14.0|2.3||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Placebo, Lemborexant 10 mg||2.3|-14|= 0.1595
82574137|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|10.9|STANDARD_ERROR_OF_MEAN|7.96|||TWO_SIDED|90.0|-2.2|24.0||||||Week 6||24.0|-2.2|
82640945|NCT02951182|164996475|SUPERIORITY||Least Squares (LS) Mean Difference|18.5|||||TWO_SIDED|95.0|7.9|29.1||||||||29.1|7.9|
82640946|NCT02951182|164996475|SUPERIORITY||Least Squares (LS) Mean Difference|20.2|||||TWO_SIDED|95.0|11.9|28.4||||||||28.4|11.9|
82640947|NCT00505765|164996478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|1.5||0.21|TWO_SIDED||||||ANCOVA|||||||0.21
82640948|NCT00505765|164996478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.5||0.44|TWO_SIDED||||||ANCOVA|||||||0.44
82390197|NCT02783729|164491664|SUPERIORITY||LSM Difference|12.73|STANDARD_ERROR_OF_MEAN|3.894|=|0.0011|TWO_SIDED|95.0|5.09|20.38||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Zolpidem ER, Lemborexant 5 mg||20.38|5.09|= 0.0011
82390198|NCT02783729|164491664|SUPERIORITY||LSM Difference|6.92|STANDARD_ERROR_OF_MEAN|3.913|=|0.0774|TWO_SIDED|95.0|-0.76|14.6||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline QOM as a covariate.|MMRM|||QOM: Zolpidem ER, Lemborexant 10 mg||14.6|-0.76|= 0.0774
82443898|NCT01274611|164596318|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A sample of 20 patients, or 40 treatment sites (the unit of randomization), provided 80% power to detect effect sizes of 0.68 using a paired t test at a type I error rate of 5%.|Mean Difference (Net)|0.8|||<|0.01|||||||t-test, 2 sided|||||||<0.01
82574138|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|10.6|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|90.0|-2.6|23.9||||||Week 6||23.9|-2.6|
82574139|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|10.1|STANDARD_ERROR_OF_MEAN|8.38||0.1162|TWO_SIDED|90.0|-3.6|23.9||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||23.9|-3.6|0.1162
82640949|NCT01207219|164996491|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The p-value for statistical significance in these analyses was 0.01 adjusted for multiple comparisons .|Mixed Models Analysis|mixed-model analysis with a repeated-measures approach including an unstructured variance matrix||Data analysis was based on the Intention-to-Treatment (ITT) method. Differences between the three intervention groups over time (baseline and 12 weeks) were assessed with a Group x Time interaction term. A priori comparisons of the active intervention groups with the waitlist group were carried out with the same strategy if analyses including all the three groups meet the criterion of statistical significance (P\<0.01).||||<0.01
82640950|NCT00620776|164996496|SUPERIORITY_OR_OTHER|||||||0.17|||||||Mixed Models Analysis|||Mixed model analysis (differential slopes over time) comparing the 26 patients who received combined treatment with at least one CBT session to the 35 patients randomized to venlafaxine XR alone (and received at least one dose) on HAM-A total scores. Only available scores were used (no imputation for missing data). Because the HAM-A demonstrated a relatively rapid improvement early in treatment and then a leveling off, a shifted log-transformation of time of assessment was implemented.||||.17
82640951|NCT00620776|164996497|SUPERIORITY_OR_OTHER|||||||0.54|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.54
82640952|NCT00620776|164996498|SUPERIORITY_OR_OTHER|||||||0.86|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.86
82640953|NCT00620776|164996499|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANCOVA|||Data collected at week 24 were analyzed using analysis of covariance (ANCOVA) with the baseline score as the covariate.||||.051
82640954|NCT00620776|164996500|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.06
82640955|NCT00620776|164996501|SUPERIORITY_OR_OTHER|||||||0.95|||||||Mixed Models Analysis|||Analyses were conducted using mixed effects models that tested for differential slopes over time between the CBT plus venlafaxine XR and venlafaxine XR alone groups using only available scores (no imputation for missing data).||||.95
82640956|NCT00620776|164996502|SUPERIORITY_OR_OTHER|||||||0.17|||||||ANCOVA|||Data collected at week 24 were analyzed using ANCOVA with the baseline score as the covariate.||||.17
82640957|NCT00620776|164996503|SUPERIORITY_OR_OTHER|||||||0.53|||||||ANCOVA|||Data collected at week 24 were analyzed using ANCOVA with the baseline score as the covariate.||||.53
82640958|NCT00620776|164996504|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|||Data collected at week 24 were analyzed with ANCOVA with baseline data as covariate.||||.23
82640959|NCT00620776|164996505|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANCOVA|||Data collected at week 24 were analyzed with ANCOVA including baseline data as covariate.||||.07
82640960|NCT00620776|164996506|SUPERIORITY_OR_OTHER|||||||0.63|||||||Chi-squared|||||||.63
82390199|NCT02783729|164491664|SUPERIORITY||LSM Difference|0.35|STANDARD_ERROR_OF_MEAN|0.393|=|0.3726|TWO_SIDED|95.0|-0.42|1.12||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Placebo, Lemborexant 5 mg||1.12|-0.42|= 0.3726
82640961|NCT00620776|164996507|SUPERIORITY_OR_OTHER|||||||0.52|||||||Chi-squared|||||||.52
82640962|NCT00766727|164996508|SUPERIORITY||Mean Difference (Final Values)|-31.88|STANDARD_DEVIATION|14.25|||TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||
82443899|NCT01274611|164596319|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A sample of 20 patients, or 40 treatment sites (the unit of randomization), provided 80% power to detect effect sizes of 0.68 using a paired t test at a type I error rate of 5%.|Mean Difference (Net)|15.0|||>|0.01|||||||t-test, 2 sided|||||||>0.01
82443900|NCT03826342|164596367|SUPERIORITY|||||||0.2964|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.2964
82443901|NCT03826342|164596367|SUPERIORITY|||||||0.3404|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.3404
82574140|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|13.1|STANDARD_ERROR_OF_MEAN|8.43||0.0642|TWO_SIDED|90.0|-0.8|27.0||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||27.0|-0.8|0.0642
82640963|NCT01828164|164996509|SUPERIORITY_OR_OTHER||Percent Change|29.0||||0.0164|TWO_SIDED||||||t-test, 1 sided||Percent change in tooth movement rate on the treatment side as compared to the control side.|||||0.0164
82640964|NCT01828164|164996510|SUPERIORITY_OR_OTHER||Percent change|220.8||||0.0423|TWO_SIDED||||||t-test, 1 sided||Percent change in root resorption rate on the control side as compared to the treatment side.|||||0.0423
82640965|NCT01828164|164996511|NON_INFERIORITY|1 point on the 10-point pain scale was used as the non-inferiority margin.|||||<|0.001|||||||Bootstrapped mean difference|This test bootstrapped the mean difference (Treatment Arm - Control Arm) less 1, the non-inferiority margin, 1000 times.||||||<0.001
82640966|NCT00761969|164996520|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||Survival, major-event-free survival and event-free survival of patients with PAD and control subjects was estimated by the Kaplan-Meier method and compared by the log-rank test. The numbers of non-fatal events and revascularization procedures (which could be more than one per person) were compared using the Poisson regression - the outcome being the number of events per person-year.||||<0.001
82640967|NCT03992456|164996531|SUPERIORITY|||||||0.5126|||||||Un-Stratified Log-rank|||||||0.5126
82640968|NCT03992456|164996532|SUPERIORITY|||||||0.1512|||||||Un-Stratified Log-rank|||||||0.1512
82640969|NCT03992456|164996533|SUPERIORITY|||||||0.2506|||||||Chi-squared|||||||0.2506
82640970|NCT03992456|164996534|SUPERIORITY|||||||0.8865|||||||Chi-squared|||||||0.8865
82640971|NCT03992456|164996535|SUPERIORITY|||||||0.5455|||||||Fisher Exact|||||||0.5455
82640972|NCT01068418|164996540|SUPERIORITY_OR_OTHER||||||<|0.05||||||Threshold for significance was P\<0.05.|Mixed Models Analysis|||A repeated measures regression analysis model was used to examine the effect of vitamin D3 therapy on the mean arterial pressure (mean of five measurements at each time point) before and during angiotensin II infusions, before and after vitamin D3 therapy.||||<0.05
82640973|NCT01068418|164996541|SUPERIORITY_OR_OTHER||||||<|0.01||||||threshold for significance was P\<0.05.|Mixed Models Analysis|||A repeated measures regression analysis model was used to examine the effect of vitamin D3 therapy on the renal plasma flow (mean of three measurements at each time point) before and during angiotensin II infusions, before and after vitamin D3 therapy.||||<0.01
82640974|NCT04637815|164996545|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables|||||||TWO_SIDED|0.0||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
82640975|NCT04637815|164996546|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
82640976|NCT04637815|164996547|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
82443902|NCT03826342|164596368|SUPERIORITY|||||||0.7915|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.7915
82640977|NCT04637815|164996548|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
82640978|NCT04637815|164996549|EQUIVALENCE|t-tests for continuous variables and chi-squared tests for categorical variables||||||||||||Statistical threshold of significance is .05.|t-test, 2 sided||||We also conducted difference in differences (DID) analysis by first constructing measures of difference between follow-up and baseline for each participant for each measure and then comparing the means of these difference measures for each arm.|||
82443903|NCT03826342|164596368|SUPERIORITY|||||||0.2131|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.2131
82443904|NCT03826342|164596369|SUPERIORITY|||||||0.8357|||||||Generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||Baseline to 2-month assessment||||0.8357
82443905|NCT03826342|164596369|SUPERIORITY|||||||0.095|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||2-month assessment to 6-month assessment||||0.0950
82640979|NCT01265875|164996594|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to day 4.||||.25
82443906|NCT03826342|164596370|SUPERIORITY|||||||0.7496|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.7496
82443907|NCT03826342|164596371|SUPERIORITY|||||||0.4492|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.4492
82443908|NCT03826342|164596372|SUPERIORITY|||||||0.0765|||||||t-test, 2 sided|||||||0.0765
82443909|NCT03826342|164596373|SUPERIORITY|||||||0.535|||||||t-test, 2 sided|||||||0.535
82443910|NCT03826342|164596374|SUPERIORITY|||||||0.4302|||||||t-test, 2 sided|||||||0.4302
82526136|NCT04843930|164748850|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.02|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 236.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.02
82640980|NCT01265875|164996594|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to day 7.||||.19
82640981|NCT01265875|164996594|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 30.||||.27
82640982|NCT01265875|164996596|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 4.||||.52
82640983|NCT01265875|164996596|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to Day 30.||||.34
82640984|NCT04668066|164996657|OTHER||Least Square Mean Difference|5.6||||0.6343|TWO_SIDED|90.0|-21.4|32.6|||ANCOVA|||||32.6|-21.4|0.6343
82640985|NCT02369874|164996658|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7624|TWO_SIDED|95.0|0.85|1.26|||Log Rank|||||1.26|0.85|0.7624
82640986|NCT02369874|164996658|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1993|TWO_SIDED|95.0|0.72|1.08|||Log Rank|||||1.08|0.72|0.1993
82640987|NCT02369874|164996659|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.459|TWO_SIDED|95.0|0.73|1.17|||Log Rank|||||1.17|0.73|0.4590
82640988|NCT02369874|164996659|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.85|1.36||||||||1.36|0.85|
82640989|NCT02369874|164996660|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.63|1.39||||||||1.39|0.63|
82640990|NCT02369874|164996661|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.9|1.33||||||||1.33|0.90|
82390200|NCT02783729|164491664|SUPERIORITY||LSM Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.394|=|0.2579|TWO_SIDED|95.0|-1.22|0.33||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Placebo, Lemborexant 10 mg||0.33|-1.22|= 0.2579
82390201|NCT02783729|164491664|SUPERIORITY||LSM Difference|1.39|STANDARD_ERROR_OF_MEAN|0.37|=|0.0002|TWO_SIDED|95.0|0.66|2.11||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Zolpidem ER, Lemborexant 5 mg||2.11|0.66|= 0.0002
82390202|NCT02783729|164491664|SUPERIORITY||LSM Difference|0.59|STANDARD_ERROR_OF_MEAN|0.372|=|0.112|TWO_SIDED|95.0|-0.14|1.32||Based on MMRM model with factors of age group, region, treatment, visit (Days 2/3), and treatment-by-visit interaction as fixed effects, and the baseline COA as a covariate.|MMRM|||COA: Zolpidem ER, Lemborexant 10 mg||1.32|-0.14|= 0.112
82390203|NCT03681990|164491698|OTHER|Mixed Model ANOVA with subject as a random effect.||||||0.34||||||F test|ANOVA|||||||0.34
82390204|NCT02715700|164491700|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.95|||||TWO_SIDED|90.0|0.9|1.01||||||||1.01|0.90|
82640991|NCT02369874|164996661|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.84|1.25||||||||1.25|0.84|
82390205|NCT02715700|164491701|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.95|||||TWO_SIDED|90.0|0.88|1.03||||||||1.03|0.88|
82640992|NCT02369874|164996662|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.67|1.7||||||||1.70|0.67|
82640993|NCT02369874|164996662|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.66|1.68||||||||1.68|0.66|
82640994|NCT02369874|164996664|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.67|1.52||||||6 Month analysis||1.52|0.67|
82640995|NCT02369874|164996664|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.64|1.46||||||6 Month analysis||1.46|0.64|
82640996|NCT02369874|164996664|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.72|1.75||||||12 Month analysis||1.75|0.72|
82640997|NCT02369874|164996664|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.63|1.57||||||12 Month analysis||1.57|0.63|
82640998|NCT02369874|164996667|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.76|1.21||||||||1.21|0.76|
82390206|NCT02715700|164491702|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||||1.03|0.93|
82390207|NCT02715700|164491704|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.9|1.06||||||||1.06|0.90|
82390208|NCT02715700|164491705|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.97|||||TWO_SIDED|90.0|0.86|1.1||||||||1.10|0.86|
82390209|NCT02715700|164491706|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||||1.04|0.91|
82390210|NCT02715700|164491708|OTHER|Geometric mean ratio (GMR) of Methadone + Doravirine/Methadone Alone|GMR|0.96|||||TWO_SIDED|90.0|0.9|1.03||||||||1.03|0.90|
82390211|NCT02715700|164491709|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.96|||||TWO_SIDED|90.0|0.87|1.05||||||||1.05|0.87|
82390212|NCT02715700|164491710|OTHER|GMR of Methadone + Doravirine/Methadone Alone|GMR|0.98|||||TWO_SIDED|90.0|0.92|1.03||||||||1.03|0.92|
82390213|NCT04166591|164491712|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||binomial test|||||||<0.01
82390214|NCT04166591|164491712|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390215|NCT04166591|164491712|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390216|NCT04166591|164491712|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390217|NCT04166591|164491713|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390218|NCT04166591|164491713|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.||||||0.12|||||||Binomial test|||||||0.12
82526137|NCT04843930|164748851|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.96|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 257.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.96
82390219|NCT04166591|164491713|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390220|NCT04166591|164491713|OTHER|The primary statistical analysis involves asking whether children look at the target significantly more than chance levels. Binomial tests are used to see if the number of children who do so is significantly greater than would be expected by chance.|||||<|0.01|||||||Binomial test|||||||<0.01
82390221|NCT02730377|164491716|SUPERIORITY||||||<|0.0001|||||||Log Rank|||Test for no treatment difference is based on using a generalised log-rank test for interval censored failure time data.||||<.0001
82390222|NCT02031640|164491745|SUPERIORITY||Least Square Mean (LSM) Difference|0.034||||0.272|TWO_SIDED|95.0|-0.027|0.095|||ANCOVA|||||0.095|-0.027|0.272
82390223|NCT02031640|164491745|SUPERIORITY||LSM Difference|0.045||||0.1415|TWO_SIDED|95.0|-0.015|0.106|||ANCOVA|||||0.106|-0.015|0.1415
82390224|NCT02031640|164491745|SUPERIORITY||LSM Difference|-0.015||||0.6356|TWO_SIDED|95.0|-0.075|0.046|||ANCOVA|||||0.046|-0.075|0.6356
82390225|NCT02031640|164491745|SUPERIORITY||LSM Difference|0.04||||0.1932|TWO_SIDED|95.0|-0.02|0.1|||ANCOVA|||||0.1|-0.02|0.1932
82390226|NCT02031640|164491746|OTHER|The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction.|LSM Difference|10.616||||0.0036|TWO_SIDED|95.0|3.489|17.744|||Mixed Model for repeated measures|||||17.744|3.489|0.0036
82390227|NCT02031640|164491746|SUPERIORITY||LSM Difference|8.419||||0.0204|TWO_SIDED|95.0|1.309|15.53|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||15.53|1.309|0.0204
82390228|NCT02031640|164491746|SUPERIORITY||LSM Difference|6.004||||0.0984|TWO_SIDED|95.0|-1.121|13.129|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||13.129|-1.121|0.0984
82390229|NCT02031640|164491746|SUPERIORITY||LSM Difference|12.512||||0.0006|TWO_SIDED|95.0|5.435|19.589|||Mixed Model for repeated measures|||The analysis of change from baseline in weekly average of daily trough morning (pre-dose and pre-rescue bronchodilator) PEF over the 12-week treatment period was performed using a repeated measures mixed model with effects due to baseline weekly average of daily trough morning PEF, sex, age, treatment, time, and time-by-treatment interaction||19.589|5.435|0.0006
82390230|NCT02031640|164491747|SUPERIORITY||LSM Difference|9.147||||0.0139|TWO_SIDED|95.0|1.866|16.429|||Mixed Model for repeated measures|||||16.429|1.866|0.0139
82640999|NCT02369874|164996668|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.74|2.39||||||||2.39|0.74|
82390231|NCT02031640|164491747|SUPERIORITY||LSM Difference|9.17||||0.0133|TWO_SIDED|95.0|1.914|16.425|||Mixed Model for repeated measures|||||16.425|1.914|0.0133
82390232|NCT02031640|164491747|SUPERIORITY||LSM Difference|4.088||||0.2704|TWO_SIDED|95.0|-3.191|11.367|||Mixed Model for repeated measures|||||11.367|-3.191|0.2704
82390233|NCT02031640|164491747|SUPERIORITY||LSM Difference|10.301||||0.0053|TWO_SIDED|95.0|3.073|17.53|||Mixed Model for repeated measures|||||17.53|3.073|0.0053
82390234|NCT02031640|164491748|SUPERIORITY||LSM Difference|-0.703|||<|0.0001|TWO_SIDED|95.0|-1.044|-0.363|||Mixed Model for repeated measures|||||-0.363|-1.044|<0.0001
82390235|NCT02031640|164491748|SUPERIORITY||LSM Difference|-0.691|||<|0.0001|TWO_SIDED|95.0|-1.029|-0.352|||Mixed Model for repeated measures|||||-0.352|-1.029|<0.0001
82390236|NCT02031640|164491748|SUPERIORITY||LSM Difference|-0.651||||0.0002|TWO_SIDED|95.0|-0.994|-0.309|||Mixed Model for repeated measures|||||-0.309|-0.994|0.0002
82390237|NCT02031640|164491748|SUPERIORITY||LSM difference|-0.801|||<|0.0001|TWO_SIDED|95.0|-1.138|-0.464|||Mixed Model for repeated measures|||||-0.464|-1.138|<0.0001
82390238|NCT02031640|164491749|SUPERIORITY||Mean Difference (Final Values)|-0.149||||0.0119|TWO_SIDED|95.0|-0.265|-0.033|||Mixed Models Analysis|||||-0.033|-0.265|0.0119
82390239|NCT02031640|164491749|SUPERIORITY||Mean Difference (Final Values)|-0.102||||0.0854|TWO_SIDED|95.0|-0.217|0.014|||Mixed Models Analysis|||||0.014|-0.217|0.0854
82390240|NCT02031640|164491749|SUPERIORITY||Mean Difference (Final Values)|-0.189||||0.0016|TWO_SIDED|95.0|-0.306|-0.072|||Mixed Models Analysis|||||-0.072|-0.306|0.0016
82390241|NCT02031640|164491749|SUPERIORITY||Mean Difference (Final Values)|-0.216||||0.0003|TWO_SIDED|95.0|-0.332|-0.101|||Mixed Models Analysis|||||-0.101|-0.332|0.0003
82443911|NCT03826342|164596375|SUPERIORITY|||||||0.807|||||||generalized linear mixed model analysis|generalized linear mixed model analysis under a negative binomial framework||||||0.8070
82641000|NCT00145795|164996677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to examine the significance of the difference in mean absolute increase in CD4+ count at 3 months. Under the null hypothesis, CD4+ increase is similar for both treatment groups.||||0.81
82390242|NCT05356533|164491752|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
82574141|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|8.1|STANDARD_ERROR_OF_MEAN|8.36||0.1664|TWO_SIDED|90.0|-5.7|21.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 8||21.8|-5.7|0.1664
82390243|NCT05356533|164491752|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||ANOVA|||||||>.05
82390244|NCT05356533|164491753|SUPERIORITY||Risk Ratio (RR)|1.08|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
82390245|NCT05356533|164491754|SUPERIORITY||Risk Ratio (RR)|0.81|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
82390246|NCT05356533|164491755|SUPERIORITY||Risk Ratio (RR)|0.91|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82390247|NCT05356533|164491756|SUPERIORITY||Risk Ratio (RR)|0.99|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
82390248|NCT05356533|164491757|SUPERIORITY||Risk Ratio (RR)|1.11|||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>.05
82390249|NCT05896527|164491767|SUPERIORITY||Odds Ratio (OR)|0.46||||0.4839|TWO_SIDED|95.0|0.07|2.37|||Fisher Exact||DC-806 200 mg BID compared to Placebo|||2.37|0.07|0.4839
82390250|NCT05896527|164491767|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4111|TWO_SIDED|95.0|0.51|6.49|||Fisher Exact||DC-806 400 mg BID compared to Placebo|||6.49|0.51|0.4111
82390251|NCT05896527|164491767|SUPERIORITY||Odds Ratio (OR)|1.3||||0.7744|TWO_SIDED|95.0|0.36|4.99|||Fisher Exact||DC-806 600 mg QD compared to Placebo|||4.99|0.36|0.7744
82390252|NCT05896527|164491767|SUPERIORITY||Odds Ratio (OR)|3.59||||0.0164|TWO_SIDED|95.0|1.15|12.37|||Fisher Exact||DC-806 800 mg BID compared to Placebo|||12.37|1.15|0.0164
82390253|NCT03085238|164491769|NON_INFERIORITY|The primary safety endpoint will be analyzed using a unilateral one sample test for binomial proportion at the 5% level.||||||0.1309|||||||unilateral one sample test for binomial|||H0: M-Trap freedom MAE incidence \<= 90% - Non-inferiority margin (25%)||||0.1309
82390254|NCT03085238|164491770|NON_INFERIORITY|The primary safety endpoint will be analyzed using a unilateral one sample test for binomial proportion at the 5% level.||||||0.0181|||||||unilateral one sample test for binomial|||H0: M-Trap freedom MAE incidence \<= 90% - Non-inferiority margin (25%)||||.0181
82390255|NCT01279070|164491779|SUPERIORITY_OR_OTHER||Effect size|0.43|||<|0.05|TWO_SIDED|95.0|0.1|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the BADS(Total score and Key search subtest),linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML.An unstructured correlation matrix was used to account for correlation among several observations for each subject.The dependent variable comprised the measures at 16 weeks while the baseline value of the BADS,intervention group(REPYFLEC group vs Leisure group),time and the interaction term (time×treatment)were included as covariates.||0.7|0.1|<0.05
82443912|NCT04068610|164596410|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3173|TWO_SIDED|95.0|0.6|5.6|||Cochran-Mantel-Haenszel|P-value for comparison of treatment arms obtained from stratified Cochran-Mantel-Haenszel test stratified by the location of the primary tumor.||||5.6|0.6|0.3173
82641001|NCT00145795|164996678|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||||||Significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to examine the significance of the difference in mean absolute increase in CD4+ count at 6 months. Under the null hypothesis, CD4+ increase is similar for both treatment groups.||||0.03
82641002|NCT00145795|164996679|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ memory cell population at 3 months. Under the null hypothesis, percent CD4+ memory cell apoptosis is similar for both treatment groups.||||0.08
82641003|NCT00145795|164996680|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ naïve cell population at 3 months. Under the null hypothesis, percent CD4+ naïve cell apoptosis is similar for both treatment groups.||||0.29
82641004|NCT00145795|164996681|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ memory cell population at 6 months. Under the null hypothesis, percent CD4+ memory cell apoptosis is similar for both treatment groups.||||0.29
82641005|NCT00145795|164996682|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD4+ naïve cell population at 6 months. Under the null hypothesis, percent CD4+ naïve cell apoptosis is similar for both treatment groups.||||0.04
82641006|NCT00145795|164996683|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD8+ cell population at 3 months. Under the null hypothesis, percent CD8+ cell apoptosis is similar for both treatment groups.||||0.21
82641007|NCT00145795|164996684|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||||||The significance level is 5%.|t-test, 2 sided|This is a two-sample t-test assuming equal variances.||Two-sample Student's t-test was used to assess the difference in mean percent apoptosis for the CD8+ cell population at 6 months. Under the null hypothesis, percent CD8+ cell apoptosis is similar for both treatment groups.||||0.61
82641008|NCT01015118|164996701|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0239|TWO_SIDED|95.0|0.72|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|Hazard ratio (HR), Confidence Interval (CI) and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level Area under curve 5 (AUC5) vs. Area under curve 6 (AUC6).||0.98|0.72|0.0239
82641009|NCT01015118|164996702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0286|TWO_SIDED|95.0|0.75|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|Hazard ratio (HR), Confidence Interval (CI) and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.98|0.75|0.0286
82641010|NCT01015118|164996703|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0186|TWO_SIDED|95.0|0.72|0.97|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.97|0.72|0.0186
82641011|NCT01015118|164996704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0256|TWO_SIDED|95.0|0.74|0.98|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||0.98|0.74|0.0256
82641012|NCT01015118|164996705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8653|TWO_SIDED|95.0|0.83|1.17|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.17|0.83|0.8653
82641013|NCT01015118|164996706|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0749|TWO_SIDED|95.0|0.77|1.01|||Log Rank|Breslow method was used for handling ties.|If hazard ratio is below 1 then favours nintedanib.|HR, CI and P-value obtained from a proportional-hazards model stratified by Macroscopic residual postoperative tumour (Yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) Stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.01|0.77|0.0749
82641014|NCT01015118|164996707|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.349|TWO_SIDED|95.0|0.81|1.82|||Regression, Logistic||An odds ratio \>1 favours nintedanib.|Odds ratio and p-value are obtained from logistic regression model adjusting for, macroscopic residual postoperative tumour (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs. IV) and carboplatin level (AUC5 vs. AUC6).||1.82|0.81|0.3490
82641015|NCT01015118|164996708|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.29|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|3.88|6.69|||Mixed effect growth curve model|Mixed-effects growth curve models (longitudinal models) with the average profile over time for each endpoint described by a piecewise linear model.|Mean difference presented is the Adjusted mean difference. Difference calculated as nintedanib minus placebo. High values represent a worse level of symptoms.|Adjusted for the stratification factors macroscopic residual postoperative tumour at baseline (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs IV), and carboplatin level (AUC5 vs. AUC6).||6.69|3.88|<0.0001
82526138|NCT04843930|164748852|SUPERIORITY||Mean Difference (Final Values)|2.78||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 262.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.04
82574142|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|7.2|STANDARD_ERROR_OF_MEAN|8.1||0.1882|TWO_SIDED|90.0|-6.1|20.5||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||20.5|-6.1|0.1882
82574143|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|14.9|STANDARD_ERROR_OF_MEAN|8.43||0.0423|TWO_SIDED|90.0|1.1|28.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||28.8|1.1|0.0423
82443913|NCT02046070|164596433|OTHER|||||||0.4859|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR rate=27% in treatment arms obtained using the one-sided Chi-Square test with alpha=0.10.||||0.4859
82443914|NCT02046070|164596433|OTHER|||||||0.6757|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR rate=27% in treatment arms obtained using the one-sided Chi-Square test with alpha=0.10.||||0.6757
82574144|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|3.3|STANDARD_ERROR_OF_MEAN|7.9||0.3396|TWO_SIDED|90.0|-9.7|16.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 12||16.3|-9.7|0.3396
82526139|NCT04843930|164748853|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.6|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 3, 227.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.60
82574145|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|2.7|STANDARD_ERROR_OF_MEAN|7.35||0.3584|TWO_SIDED|90.0|-9.4|14.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||14.8|-9.4|0.3584
82443915|NCT02046070|164596434|OTHER|||||||0.9688|||||||Chi-squared|||P-value tests the null hypothesis: CR+VGPR+PR rate=60% obtained using the one-sided Chi-Square test with alpha=0.10.||||0.9688
82526140|NCT04843930|164748854|SUPERIORITY||Mean Difference (Final Values)|3.77||||0.06|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 1, 89.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.06
82526141|NCT04843930|164748855|SUPERIORITY||Mean Difference (Final Values)|4.37||||0.04|TWO_SIDED|||||Threshold for statistical significance: p \< 0.05. Exploratory efficacy analysis - p-value not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom for the group x timepoint interaction: 1, 73.|Linear mixed effects interaction reported for group (intervention vs. waitlist control) and timepoint (all measures baseline to week 6).|"Linear Mixed Effects Model: main effects of arm group (intervention vs. waitlist control) and timepoint (all measures from baseline to week 6), arm group x timepoint interaction.~Modified intent-to-treat analysis with all participants who were randomized and completed at least the baseline study visit included in the analysis.~Participants in the intervention hypothesized to improve relative to waitlist control."||||0.04
82526142|NCT00947661|164748856|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of covariance included treatment, site, and intraocular pressure group as a covariate. Two-sided 95% confidence interval for the difference between treatment groups in estimated mean change from baseline lease square means was computed for each time point. Non-inferiority of SPARC drug relative to Reference was established if: 95% confidence interval included 0, the upper limit of the 95% CI was \<1.5, and upper limit of 95% CI was \<1 at most (at least 7 of 12) time point.|||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
82526143|NCT02552238|164748857|SUPERIORITY|||||||0.0067|||||||McNemar|||Sensitivity: superiority test comparing CE-DSE and UE-DSE based on the difference||||0.0067
82526144|NCT02552238|164748857|SUPERIORITY||||||<|0.0001|||||||McNemar|||Specificity: superiority test comparing CE-DSE and UE-DSE based on the difference||||<0.0001
82526145|NCT04770779|164748861|SUPERIORITY||Common Risk Difference on Response Rate|17.6||||0.0003|TWO_SIDED|95.0|8.0|27.2|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||27.2|8.0|0.0003
82526146|NCT04770779|164748862|SUPERIORITY||Common Risk Difference on Response Rate|11.1||||0.0003|TWO_SIDED|95.0|5.1|17.0|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||17.0|5.1|0.0003
82526147|NCT04770779|164748863|SUPERIORITY||Common Risk Difference on Response Rate|13.4|||<|0.0001|TWO_SIDED|95.0|7.7|19.1|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||19.1|7.7|<0.0001
82526148|NCT04770779|164748864|SUPERIORITY||Common Risk Difference on Response Rate|6.4||||0.0056|TWO_SIDED|95.0|1.9|10.9|||Mantel Haenszel|||The p-value is based on the Mantel-Haenszel stratum weighted method adjusting for randomization stratification factors.||10.9|1.9|0.0056
82443916|NCT05601102|164596495|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.41|||||||t-test, 2 sided|||||||.41
82443917|NCT05601102|164596496|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.01|||||||t-test, 2 sided|||Anxiety subscale analysis||||.01
82443918|NCT05601102|164596496|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.42|||||||t-test, 2 sided|||Depression subscale||||.42
82390256|NCT01279070|164491780|SUPERIORITY_OR_OTHER||Effect Size|0.42|||<|0.05|TWO_SIDED|95.0|0.1|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the BADS(Total score and Key search subtest),linear mixed-effects models were fitted using Restricted Maximum Likelihood(REML).An unstructured correlation matrix was used to account for correlation among several observations for each subject.The dependent variable comprised the measures at 40 weeks while the baseline value of the BADS,intervention group(REPYFLEC group vs Leisure group),time and the interaction term (time×treatment)were included as covariates.||0.7|0.1|<0.05
82390257|NCT01279070|164491781|SUPERIORITY_OR_OTHER||Effect Size|0.33|||<|0.05|TWO_SIDED|95.0|0.06|0.6|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the LSP, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 16 weeks while the baseline value of the LSP, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.6|0.06|<0.05
82526149|NCT03692052|164748881|OTHER||||||<|0.0001|||||||Clopper-Pearson Method|Significance of p-value associated with the test of H0:Hb response rate =0.3 vs H1:Hb response rate \> 0.3.||||||<.0001
82526150|NCT02439749|164748972|SUPERIORITY||||||<|0.001||||||p\<0.05 required for significance|ANCOVA|||||||<0.001
82641016|NCT01015118|164996709|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|0.75||0.0124|TWO_SIDED|95.0|-3.35|-0.41|||Mixed effect growth curve model|Mixed-effects growth curve models (longitudinal models) with the average profile over time for each endpoint described by a piecewise linear model.|Mean difference calculated is the Adjusted mean. High values represent a better level of functioning. Difference calculated as nintedanib minus placebo.|Adjusted for the stratification factors macroscopic residual postoperative tumour at baseline (yes vs. no), the International Federation of Gynecology and Obstetrics (FIGO) stage (IIB-III vs IV), and carboplatin level (AUC5 vs. AUC6).||-0.41|-3.35|0.0124
82641017|NCT03522506|164996710|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The least squares mean (LSM) sleep latency for each treatment and the associated standard error and 95% confidence interval (CI) was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|Least square mean difference|20.06|||<|0.001|TWO_SIDED|95.0|13.35|26.77|||Linear mixed effect model|||||26.77|13.35|<0.001
82641018|NCT03522506|164996710|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|24.35|||<|0.001|TWO_SIDED|95.0|17.64|31.06|||Linear mixed effect model|||||31.06|17.64|<0.001
82641019|NCT03522506|164996710|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM Difference|19.89|||<|0.001|TWO_SIDED|95.0|13.3|26.49|||Linear mixed effects model|||||26.49|13.30|<0.001
82641020|NCT03522506|164996720|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.2||||0.664|TWO_SIDED|95.0|-1.13|0.73|||Linear mixed effect model|||||0.73|-1.13|0.664
82641021|NCT03522506|164996720|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.24||||0.605|TWO_SIDED|95.0|-0.69|1.17|||Linear mixed effect model|||||1.17|-0.69|0.605
82641022|NCT03522506|164996720|SUPERIORITY|14 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.26||||0.574|TWO_SIDED|95.0|-1.17|0.66|||Linear mixed effect model|||||0.66|-1.17|0.574
82641023|NCT03522506|164996720|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.29||||0.483|TWO_SIDED|95.0|-0.53|1.11|||Linear mixed effect model|||||1.11|-0.53|0.483
82641024|NCT03522506|164996720|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.01||||0.972|TWO_SIDED|95.0|-0.81|0.84|||Linear mixed effect model|||||0.84|-0.81|0.972
82526151|NCT02439749|164748976|SUPERIORITY|||||||0.026||||||p\<0.05 required for significance.|ANCOVA|||||||0.026
82526152|NCT02439749|164748977|SUPERIORITY|||||||0.052||||||p\<0.05 required for significance.|ANCOVA|||||||0.052
82526153|NCT02439749|164748978|SUPERIORITY|||||||0.07||||||p\<0.05 required for significance.|ANCOVA|||||||0.070
82526154|NCT02439749|164748979|SUPERIORITY|||||||0.009||||||p=\<0.05 required for significance.|ANCOVA|||||||0.009
82390258|NCT01279070|164491782|SUPERIORITY_OR_OTHER||Effect Size|0.35|||<|0.05|TWO_SIDED|95.0|0.09|0.6|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the LSP, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 40 weeks while the baseline value of the LSP, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.6|0.09|<0.05
82426870|NCT04211363|164561969|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1197|TWO_SIDED|95.0|0.98|3.19|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS Success at Week 2 Odds Ratio||3.19|0.98|0.1197
82641025|NCT03522506|164996720|SUPERIORITY|10 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.18||||0.654|TWO_SIDED|95.0|-0.99|0.63|||Linear mixed effect model|||||0.63|-0.99|0.654
82641026|NCT03522506|164996720|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.01||||0.984|TWO_SIDED|95.0|-0.86|0.85|||Linear mixed effect model|||||0.85|-0.86|0.984
82641027|NCT03522506|164996720|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.29||||0.508|TWO_SIDED|95.0|-1.14|0.57|||Linear mixed effect model|||||0.57|-1.14|0.508
82641028|NCT03522506|164996720|SUPERIORITY|6 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.22||||0.605|TWO_SIDED|95.0|-1.06|0.62|||Linear mixed effect model|||||0.62|-1.06|0.605
82641029|NCT03522506|164996720|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.11||||0.847|TWO_SIDED|95.0|-1.06|1.29|||Linear mixed effect model|||||1.29|-1.06|0.847
82641030|NCT03522506|164996720|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.44||||0.455|TWO_SIDED|95.0|-1.61|0.73|||Linear mixed effect model|||||0.73|-1.61|0.455
82641031|NCT03522506|164996720|SUPERIORITY|2 hours pre-infusion: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.58||||0.317|TWO_SIDED|95.0|-1.74|0.57|||Linear mixed effect model|||||0.57|-1.74|0.317
82641032|NCT03522506|164996720|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.0||||0.001|TWO_SIDED|95.0|-3.18|-0.83|||Linear mixed effect model|||||-0.83|-3.18|0.001
82641033|NCT03522506|164996720|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.61|||<|0.001|TWO_SIDED|95.0|-4.79|-2.44|||Linear mixed effect model|||||-2.44|-4.79|<0.001
82641034|NCT03522506|164996720|SUPERIORITY|2.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.16|||<|0.001|TWO_SIDED|95.0|-4.32|-2.01|||Linear mixed effect model|||||-2.01|-4.32|<0.001
82574146|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|14.9|STANDARD_ERROR_OF_MEAN|8.17||0.0367|TWO_SIDED|90.0|1.5|28.3||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||28.3|1.5|0.0367
82641035|NCT03522506|164996720|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-1.69||||0.003|TWO_SIDED|95.0|-2.78|-0.6|||Linear mixed effect model|||||-0.60|-2.78|0.003
82426871|NCT04211363|164561969|SUPERIORITY||Odds Ratio (OR)|4.36|||<|0.0001|TWO_SIDED|95.0|2.31|8.26|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS Success at Week 4 Odds Ratio||8.26|2.31|<0.0001
82526155|NCT02332590|164748992|SUPERIORITY||LS Mean Difference|-1.077|||<|0.0001|TWO_SIDED|95.0|-1.361|-0.793||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline DAS28-ESR score as a continuous covariate. Hierarchical testing procedure was used to control overall alpha error rate at 0.05 level and handle multiple endpoint analyses. Testing was then performed sequentially in order endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-0.793|-1.361|<0.0001
82526156|NCT02332590|164748993|SUPERIORITY||Odds Ratio (OR)|4.879|||<|0.0001|TWO_SIDED|95.0|2.536|9.389||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||9.389|2.536|<0.0001
82574147|NCT04092452|164858044|SUPERIORITY||Risk Difference (RD)|5.2|STANDARD_ERROR_OF_MEAN|7.65||0.2486|TWO_SIDED|90.0|-7.4|17.8||One-sided p-value|MR weighting strategy|P-value method for risk difference (RD) was minimum risk (MR) weighting strategy by Mehrotra and Railkar (2000).||Week 16||17.8|-7.4|0.2486
82574148|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.69|0.29||||||Week 1-HSS0101-Pain At It's Worst||0.29|-0.69|
82574149|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|90.0|-0.96|-0.01||||||Week 1-HSS0101-Pain At It's Worst||-0.01|-0.96|
82574150|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.91|0.06||||||Week 1-HSS0101-Pain At It's Worst||0.06|-0.91|
82574151|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|90.0|-0.95|0.35||||||Week 2-HSS0101-Pain At It's Worst||0.35|-0.95|
82574152|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.71|STANDARD_ERROR_OF_MEAN|0.377|||TWO_SIDED|90.0|-1.33|-0.08||||||Week 2-HSS0101-Pain At It's Worst||-0.08|-1.33|
82574153|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.391|||TWO_SIDED|90.0|-1.21|0.08||||||Week 2-HSS0101-Pain At It's Worst||0.08|-1.21|
82574154|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.481|||TWO_SIDED|90.0|-0.54|1.05||||||Week 4-HSS0101-Pain At It's Worst||1.05|-0.54|
82574155|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|90.0|-1.15|0.37||||||Week 4-HSS0101-Pain At It's Worst||0.37|-1.15|
82574156|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.478|||TWO_SIDED|90.0|-0.85|0.73||||||Week 4-HSS0101-Pain At It's Worst||0.73|-0.85|
82574157|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.62|STANDARD_ERROR_OF_MEAN|0.524|||TWO_SIDED|90.0|-0.24|1.49||||||Week 6-HSS0101-Pain At It's Worst||1.49|-0.24|
82574158|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.19|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.03|0.64||||||Week 6-HSS0101-Pain At It's Worst||0.64|-1.03|
82574159|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|90.0|-0.66|1.08||||||Week 6-HSS0101-Pain At It's Worst||1.08|-0.66|
82574160|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.558|||TWO_SIDED|90.0|-0.69|1.16||||||Week 8-HSS0101-Pain At It's Worst||1.16|-0.69|
82574161|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.539|||TWO_SIDED|90.0|-1.21|0.57||||||Week 8-HSS0101-Pain At It's Worst||0.57|-1.21|
82574162|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|90.0|-0.49|1.38||||||Week 8-HSS0101-Pain At It's Worst||1.38|-0.49|
82574163|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.578|||TWO_SIDED|90.0|-0.79|1.12||||||Week 12-HSS0101-Pain At It's Worst||1.12|-0.79|
82574164|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-1.59|0.23||||||Week 12-HSS0101-Pain At It's Worst||0.23|-1.59|
82574165|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.576|||TWO_SIDED|90.0|-0.88|1.03||||||Week 12-HSS0101-Pain At It's Worst||1.03|-0.88|
82574166|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.631|||TWO_SIDED|90.0|-0.96|1.13||||||Week 16-HSS0101-Pain At It's Worst||1.13|-0.96|
82574167|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.25|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.24|-0.25||||||Week 16-HSS0101-Pain At It's Worst||-0.25|-2.24|
82574168|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.91|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|90.0|-1.95|0.13||||||Week 16-HSS0101-Pain At It's Worst||0.13|-1.95|
82574169|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.47|0.48||||||Week 1-HSS0102-Tenderness At It's Worst||0.48|-0.47|
82574170|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.75|0.18||||||Week 1-HSS0102-Tenderness At It's Worst||0.18|-0.75|
82574171|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.78|0.17||||||Week 1-HSS0102-Tenderness At It's Worst||0.17|-0.78|
82574172|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.22|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|90.0|-0.81|0.38||||||Week 2-HSS0102-Tenderness At It's Worst||0.38|-0.81|
82574173|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.347|||TWO_SIDED|90.0|-0.97|0.18||||||Week 2-HSS0102-Tenderness At It's Worst||0.18|-0.97|
82574174|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.14||||||Week 2-HSS0102-Tenderness At It's Worst||0.14|-1.05|
82574175|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.471|||TWO_SIDED|90.0|-0.56|1.0||||||Week 4-HSS0102-Tenderness At It's Worst||1.00|-0.56|
82574176|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|90.0|-0.99|0.49||||||Week 4-HSS0102-Tenderness At It's Worst||0.49|-0.99|
82574177|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.11|STANDARD_ERROR_OF_MEAN|0.468|||TWO_SIDED|90.0|-0.88|0.67||||||Week 4-HSS0102-Tenderness At It's Worst||0.67|-0.88|
82526157|NCT02332590|164748994|SUPERIORITY||Odds Ratio (OR)|1.976||||0.0017|TWO_SIDED|95.0|1.289|3.028||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||3.028|1.289|0.0017
82390259|NCT01279070|164491783|SUPERIORITY_OR_OTHER||Effect Size|0.3|||<|0.05|TWO_SIDED|95.0|0.01|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups,standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR)assumption.|To evaluate intervention efficacy on the PANSS, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 16 weeks while the baseline value of the PANSS, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.7|0.01|<0.05
82641036|NCT03522506|164996720|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-4.3|||<|0.001|TWO_SIDED|95.0|-5.39|-3.21|||Linear mixed effect model|||||-3.21|-5.39|<0.001
82641037|NCT03522506|164996720|SUPERIORITY|4.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.83|||<|0.001|TWO_SIDED|95.0|-4.91|-2.76|||Linear mixed effect model|||||-2.76|-4.91|<0.001
82641038|NCT03522506|164996720|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.71||||0.13|TWO_SIDED|95.0|-1.63|0.21|||Linear mixed effect model|||||0.21|-1.63|0.130
82641039|NCT03522506|164996720|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-3.32|||<|0.001|TWO_SIDED|95.0|-4.24|-2.4|||Linear mixed effect model|||||-2.40|-4.24|<0.001
82526158|NCT02332590|164748995|SUPERIORITY||Odds Ratio (OR)|2.286||||0.0036|TWO_SIDED|95.0|1.3|4.02||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||4.020|1.300|0.0036
82526159|NCT02332590|164748996|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0074|TWO_SIDED|95.0|1.168|2.773||Threshold for significance 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified by region.||2.773|1.168|0.0074
82526160|NCT02332590|164748997|SUPERIORITY||LS Mean Difference|-0.182||||0.0037|TWO_SIDED|95.0|-0.305|-0.059||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline HAQ-DI score as a continuous covariate.||-0.059|-0.305|0.0037
82526161|NCT02332590|164748998|SUPERIORITY||LS Mean Difference|2.65||||0.0006|TWO_SIDED|95.0|1.147|4.153||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline SF-36 PCS score as a continuous covariate.||4.153|1.147|0.0006
82526162|NCT02332590|164748999|SUPERIORITY||LS Mean Difference|1.768||||0.0689|TWO_SIDED|95.0|-0.137|3.674||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg vs. Adalimumab 40 mg|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using MMRM approach with treatment, region, visits, and treatment-by-visit interaction as fixed effects and baseline FACIT-F score as a continuous covariate.||3.674|-0.137|0.0689
82526163|NCT00279201|164749045|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|P-value from ANCOVA, baseline value as covariate. Response = Treatment + Baseline + Country + thiazolidinedione (TZD) use + Sulfonylurea (sulfo) use.||||||0.005
82526164|NCT00279201|164749046|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Log Rank|Stratified by country, thiazolidinedione (TZD) use, sulfo use.||||||0.040
82641040|NCT03522506|164996720|SUPERIORITY|6.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.71|||<|0.001|TWO_SIDED|95.0|-3.62|-1.8|||Linear mixed effect model|||||-1.80|-3.62|<0.001
82443919|NCT05601102|164596497|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.04|||||||t-test, 2 sided|||||||.04
82526165|NCT00279201|164749047|SUPERIORITY_OR_OTHER|||||||0.271||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
82443920|NCT05601102|164596498|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.15|||||||t-test, 2 sided|||||||.15
82390260|NCT01279070|164491784|SUPERIORITY_OR_OTHER||Effect Size|0.3|||<|0.05|TWO_SIDED|95.0|0.01|0.7|||Mixed Models Analysis||In all the models,adjusted mean difference between the two groups, standardized treatment effect (ES) and confidence intervals were calculated.All the estimates obtained with these models remain unbiased under the missing at random (MAR) assumption.|To evaluate intervention efficacy on the PANSS, linear mixed-effects models were fitted using Restricted Maximum Likelihood (REML). An unstructured correlation matrix was used to account for correlation among several observations for each subject. The dependent variable comprised the measures at 40 weeks while the baseline value of the PANSS, intervention group (REPYFLEC group vs Leisure group), time and the interaction term (time×treatment) were included as covariates.||0.7|0.01|<0.05
82390261|NCT02738879|164491856|NON_INFERIORITY|Hypothesis A: After 30 weeks, continuing sitagliptin is non-inferior relative to withdrawing sitagliptin on the change from baseline in A1C. Non-inferiority is declared if the upper bound of the two-sided 95% CI for the difference is less than 0.3%.|Between Group Difference in the LSM|-0.46|||||TWO_SIDED|95.0|-0.58|-0.34|||LDA|||A longitudinal data analysis (LDA) model included terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening. Least Squares Means = LSM||-0.34|-0.58|
82390262|NCT02738879|164491856|SUPERIORITY|Hypothesis B: After 30 weeks, continuing sitagliptin results in a greater reduction of A1C relative to withdrawing sitagliptin.|Between Group Difference in the LSM|-0.46|||<|0.001|TWO_SIDED|95.0|-0.58|-0.34|||LDA|||A LDA model included terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-0.34|-0.58|< 0.001
82390263|NCT02738879|164491857|SUPERIORITY||Event Rate Ratio|0.73|||=|0.039|TWO_SIDED|95.0|0.54|0.98|||Negative Binomial Model|||Calculated via the Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||0.98|0.54|= 0.039
82390264|NCT02738879|164491858|OTHER|95% CI|Between Group Difference in Percentages|-0.3|||||TWO_SIDED|95.0|-2.3|1.7|||Miettinen & Nurminen|||||1.7|-2.3|
82390265|NCT02738879|164491859|SUPERIORITY||Between Group Difference in Percentages|-4.1|||=|0.25|TWO_SIDED|95.0|-11.2|2.9|||Miettinen and Nurminen|||||2.9|-11.2|= 0.250
82390266|NCT02738879|164491860|SUPERIORITY||Between Group Difference in the LSM|-8.0|||=|0.016|TWO_SIDED|95.0|-14.6|-1.5|||LDA model|||The analysis is based on a LDA model including terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-1.5|-14.6|= 0.016
82390267|NCT02738879|164491861|SUPERIORITY||Event Rate Ratio|0.81|||=|0.041|TWO_SIDED|95.0|0.67|0.99|||Negative Binomial Model|||Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||0.99|0.67|= 0.041
82390268|NCT02738879|164491862|SUPERIORITY||Event Rate Ratio|0.83|||=|0.473|TWO_SIDED|95.0|0.51|1.37|||Negative Binomial Model|||Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||1.37|0.51|= 0.473
82390269|NCT02738879|164491863|SUPERIORITY||Between Group Difference in Percentages|-1.2|||=|0.624|TWO_SIDED|95.0|-6.2|3.7|||Miettinen and Nurminen|||Percentages and difference in percentages were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. Includes imputed events after participants discontinued from the study medication, using a Gamma frailty model. The bootstrap method was used to obtain the CI and p-value.||3.7|-6.2|= 0.624
82390270|NCT02738879|164491864|SUPERIORITY||Between Group Difference in Percentages|18.8|||<|0.001|TWO_SIDED|95.0|11.6|25.7|||Miettinen and Nurminen|||||25.7|11.6|< 0.001
82526166|NCT00279201|164749047|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
82390271|NCT02738879|164491865|SUPERIORITY||Between Group Difference in the LSM|-6.5|||=|0.02|TWO_SIDED|95.0|-11.9|-1.0|||LDA|||Analysis was based on a LDA model including terms for treatment, AHA treatment at screening (Met + DPP-4i, Met + DPP-4i + SU, Met + SU), time, and the interactions of time by treatment and of time by AHA treatment at screening.||-1.0|-11.9|= 0.020
82526167|NCT00279201|164749048|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||0.005
82390272|NCT02738879|164491866|OTHER|95% CI|Between Group Difference in Percentages|-2.1|||||TWO_SIDED|95.0|-9.1|5.0|||Miettinen & Nurminen|||||5.0|-9.1|
82526168|NCT00279201|164749049|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for \<=7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.002
82390273|NCT02738879|164491867|SUPERIORITY||Event Rate Ratio|0.76|||=|0.394|TWO_SIDED|95.0|0.4|1.44|||Negative Binomial Model|||The analysis was calculated via the Negative Binomial Model including terms for treatment, race (i.e., White and Other), region (i.e., Europe, North America, and Other), AHA treatment at screening, baseline A1C value and baseline body weight and an offset for follow-up time (on the natural log scale).||1.44|0.40|= 0.394
82443921|NCT05601102|164596499|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.02|||||||t-test, 2 sided|||||||.02
82443922|NCT05601102|164596500|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.22|||||||t-test, 2 sided|||||||.22
82443923|NCT05601102|164596501|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.29|||||||t-test, 2 sided|||||||.29
82526169|NCT00279201|164749049|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for \<7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||<0.001
82526170|NCT00279201|164749049|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value is for \<=6.5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.174
82526171|NCT00279201|164749050|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.416
82641041|NCT03522506|164996720|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.26||||0.577|TWO_SIDED|95.0|-1.2|0.68|||Linear mixed effect model|||||0.68|-1.20|0.577
82641042|NCT03522506|164996720|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.26|||<|0.001|TWO_SIDED|95.0|-3.2|-1.32|||Linear mixed effect model|||||-1.32|-3.20|<0.001
82641043|NCT03522506|164996720|SUPERIORITY|8.75 hours post-infusion start: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.57|-0.72|||Linear mixed effect model|||||-0.72|-2.57|<0.001
82641044|NCT03522506|164996720|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|0.31||||0.475|TWO_SIDED|95.0|-0.55|1.16|||Linear mixed effect model|||||1.16|-0.55|0.475
82390274|NCT02738879|164491868|SUPERIORITY||Between Group Difference in Percentages|-1.2|||=|0.74|TWO_SIDED|95.0|-8.2|5.8|||Miettinen and Nurminen|||The analysis included imputed events after participants discontinued from the study medication, using a Gamma frailty model. Proportions and difference in proportions were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. The bootstrap method was used to obtain the CI and p-value.||5.8|-8.2|= 0.740
82526172|NCT00279201|164749050|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82390275|NCT02738879|164491869|SUPERIORITY||Between Group Difference in Percentages|-0.7|||=|0.712|TWO_SIDED|95.0|-4.7|3.2|||Miettinen and Nurminen|||Percentages and difference in percentages were calculated via the Miettinen and Nurminen stratified by AHA treatment at screening. The analysis included imputed events after subjects discontinued from the study medication, using a Gamma frailty model. The bootstrap method was used to obtain the CI and p-value.||3.2|-4.7|= 0.712
82526173|NCT00279201|164749050|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.003
82390276|NCT02738879|164491870|SUPERIORITY||Between Group Difference in Percentages|5.3|||=|0.03|TWO_SIDED|95.0|0.5|10.1|||Miettinen and Nurminen|||||10.1|0.5|= 0.030
82390277|NCT01730534|164491879|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.172||95.0|0.84|1.03|||Regression, Cox|||||1.03|0.84|0.172
82390278|NCT01730534|164491880|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.005||95.0|0.73|0.95|||Regression, Cox|||||0.95|0.73|0.005
82390279|NCT01730534|164491881|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.001||95.0|0.67|0.87|||Regression, Cox|||||0.87|0.67|<0.001
82390280|NCT01730534|164491882|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.198||95.0|0.82|1.04|||Regression, Cox|||||1.04|0.82|0.198
82390281|NCT03886519|164491889|SUPERIORITY||Odds Ratio (OR)|0.73||||0.07|TWO_SIDED|95.0|0.52|1.03||The a priori threshold for statistical significance is \<0.05.|Regression, Logistic|Adjusted for correlation between 2 eyes of a participant and baseline trichiasis severity.||||1.03|0.52|0.07
82390282|NCT04964544|164491897|OTHER||Percentage|90.7|||||TWO_SIDED|95.0|88.9|92.3|||||Proportion of participants|Proportion of participants with overall correct initial TASS assessment, with mitigations, worst case imputation (Self-Selection Population)||92.3|88.9|
82390283|NCT04964544|164491898|OTHER||Percentage|98.1|||||TWO_SIDED|95.0|97.1|98.8|||||Proportion of participants|Proportion of participants with overall correct final TASS assessment, with mitigations, worst case imputation (Per Protocol Population)||98.8|97.1|
82390284|NCT04964544|164491899|OTHER||Mean percent change from paseline|-35.48|||||TWO_SIDED|95.0|-36.63|-34.33||||||||-34.33|-36.63|
82443924|NCT05601102|164596502|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||1|||||||t-test, 2 sided|||||||1.00
82443925|NCT05601102|164596503|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||0.6|||||||t-test, 2 sided|||||||.60
82443926|NCT05601102|164596504|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed||||||1|||||||t-test, 2 sided|||||||1.00
82526174|NCT00279201|164749050|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.005
82641045|NCT03522506|164996720|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.14||||0.753|TWO_SIDED|95.0|-0.99|0.72|||Linear mixed effect model|||||0.72|-0.99|0.753
82641046|NCT03522506|164996720|SUPERIORITY|1.75 hours post-infusion end: A linear mixed effect models was performed for all observed KSS parameters at scheduled time points. The LSM sleepless scale for each treatment and the associated standard error and 95% CI was estimated from the model at each time point, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-0.99||||0.022|TWO_SIDED|95.0|-1.83|-0.15|||Linear mixed effect model|||||-0.15|-1.83|0.022
82641047|NCT03522506|164996721|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|22.94|||<|0.001|TWO_SIDED|95.0|16.58|29.3|||Linear mixed effect model|||||29.30|16.58|<0.001
82526175|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for Baseline mean fasting blood glucose.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.179
82526176|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for mean fasting blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82390285|NCT02833844|164491915|SUPERIORITY||treatment difference|-56.92|STANDARD_ERROR_OF_MEAN|2.36|<|0.0001|TWO_SIDED|95.0|-61.55|-52.28||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-52.28|-61.55|< 0.0001
82526177|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||P-value is for Baseline AM 2-hour postprandial BG.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.700
82526178|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for AM 2-hour postprandial blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.016
82526179|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.971||95.0||||P-value is for Baseline midday premeal BG.|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.971
82641048|NCT03522506|164996721|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|30.95|||<|0.001|TWO_SIDED|95.0|24.59|37.31|||Linear mixed effects model|||||37.31|24.59|<0.001
82641049|NCT03522506|164996721|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|26.5|||<|0.001|TWO_SIDED|95.0|20.24|32.75|||Linear mixed effect model|||||32.75|20.24|<0.001
82641050|NCT03522506|164996722|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|14.56|||<|0.001|TWO_SIDED|95.0|7.04|22.08|||Linear mixed effect model|||||22.08|7.04|<0.001
82641051|NCT03522506|164996722|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|32.21|||<|0.001|TWO_SIDED|95.0|24.68|39.73|||Linear mixed effect model|||||39.73|24.68|<0.001
82641052|NCT03522506|164996722|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|25.74|||<|0.001|TWO_SIDED|95.0|18.33|33.14|||Linear mixed effect model|||||33.14|18.33|<0.001
82641053|NCT03522506|164996723|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|9.6||||0.003|TWO_SIDED|95.0|3.35|15.85|||Linear mixed effect model|||||15.85|3.35|0.003
82641054|NCT03522506|164996723|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|33.33|||<|0.001|TWO_SIDED|95.0|27.08|39.58|||Linear mixed effect model|||||39.58|27.08|<0.001
82641055|NCT03522506|164996723|SUPERIORITY|The effect of TAK-925 was evaluated with a linear mixed effects model appropriate for a 4-period crossover study. The LSM sleep latency for each treatment and the associated standard error and 95% CI was estimated from the model at each time, along with differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|16.91|||<|0.001|TWO_SIDED|95.0|10.77|23.06|||Linear mixed effect model|||||23.06|10.77|<0.001
82641056|NCT03522506|164996724|SUPERIORITY|An analysis of variance (ANOVA) model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.16||||0.436|TWO_SIDED|95.0|-7.68|3.36|||ANOVA|||||3.36|-7.68|0.436
82641057|NCT03522506|164996724|SUPERIORITY|ANOVA model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|-2.29||||0.409|TWO_SIDED|95.0|-7.81|3.23|||ANOVA|||||3.23|-7.81|0.409
82641058|NCT03522506|164996724|SUPERIORITY|ANOVA model was used to evaluate the 1 hour post the end of infusion MWT. The LSM sleep latency for each treatment and the associated standard error and 95% CI were estimated from the model, along with the differences between active treatments and placebo, and associated standard errors, 95% CIs, and p-values.|LSM difference|16.77|||<|0.001|TWO_SIDED|95.0|11.37|22.18|||ANOVA|||||22.18|11.37|<0.001
82641059|NCT03480243|164996725|OTHER||Cmax Estimate Ratio|1.9|||||TWO_SIDED|90.0|1.59|2.27|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.27|1.59|
82443927|NCT05601102|164596505|EQUIVALENCE|pre- to post-intervention paired t-test, two-tailed|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82526180|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Midday premeal blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526181|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||P-value is for Baseline midday 2-hour postprandial BG|ANOVA|ANOVA with treatment, country, TZD use and sulfo use in model.||||||0.759
82641060|NCT03480243|164996725|OTHER||Cmax Estimate Ratio|1.81|||||TWO_SIDED|90.0|1.51|2.16|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.16|1.51|
82641061|NCT03480243|164996726|OTHER||AUC Estimate Ratio|1.8|||||TWO_SIDED|90.0|1.5|2.17|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.17|1.50|
82641062|NCT03480243|164996726|OTHER||AUC Estimate Ratio|1.64|||||TWO_SIDED|90.0|1.36|1.97|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||1.97|1.36|
82641063|NCT03480243|164996727|OTHER||Cmax,ss Estimate Ratio|2.13|||||TWO_SIDED|90.0|1.77|2.55|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.55|1.77|
82641064|NCT03480243|164996727|OTHER||Cmax,ss Estimate Ratio|2.13|||||TWO_SIDED|90.0|1.78|2.56|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.56|1.78|
82641065|NCT03480243|164996728|OTHER||AUCtau Estimate Ratio|2.48|||||TWO_SIDED|90.0|2.02|3.03|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||3.03|2.02|
82641066|NCT03480243|164996728|OTHER||AUCtau Estimate Ratio|2.23|||||TWO_SIDED|90.0|1.82|2.73|||ANOVA|||The analysis of variance model included the fixed effects period (1, 2 or 3b) and participant as a random effect.||2.73|1.82|
82443928|NCT03007745|164596516|SUPERIORITY||Mean Difference (Final Values)|1.96|STANDARD_DEVIATION|3.08|<|0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
82641067|NCT00761085|164996753|OTHER|No statistical comparisons||||||||||||||||"No statistical comparisons of methadone concentration in patients receiving methadone vs not receiving methadone (children or adults).~No statistical comparisons of methadone concentration in children vs adults"|No statistical comparisons|||
82641068|NCT00761085|164996754|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82641069|NCT01522755|164996757|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82641070|NCT01522755|164996758|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82641071|NCT01522755|164996759|OTHER|t-test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82641072|NCT03414658|164996760|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.025|TWO_SIDED|80.0|0.35|0.81|||Log Rank|||||0.81|0.35|0.025
82641073|NCT03414658|164996760|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.32|TWO_SIDED|80.0|0.8|1.64|||Log Rank|||||1.64|0.8|0.32
82641074|NCT02388906|164996764|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0003|TWO_SIDED|95.0|0.6|0.86|||Log Rank|Stratified log rank||||0.86|0.60|0.0003
82443929|NCT03007745|164596516|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_DEVIATION|3.97|<|0.0001|TWO_SIDED||||||t-test, 2 sided|Unadjusted||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
82443930|NCT03007745|164596516|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.61||0.9171|TWO_SIDED|||||Adjusted mean changes and adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values|ANCOVA|||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. ANCOVA model included main effects for type of study (home versus in-laboratory), site, and the pre-treatment baseline value of the outcome measure.||||0.9171
82526182|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-value Midday 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.514
82641075|NCT02388906|164996765|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.03|0.69|1.11|||Log Rank||Stratified Cox proportional hazard model|||1.11|0.69|
82641076|NCT02388906|164996772|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.63|0.9|||Log Rank|Stratified log rank||||0.90|0.63|
82641077|NCT04365387|164996773|OTHER||Cochran-Mantel-Haenszel|2.1|||||TWO_SIDED|90.0|-10.3|14.5|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using Cochran-Mantel-Haenszel (CMH).|||14.5|-10.3|
82641078|NCT04365387|164996774|OTHER||Cochran-Mantel-Haenszel|-4.6|||||TWO_SIDED|90.0|-14.9|5.7|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||5.7|-14.9|
82641079|NCT04365387|164996776|OTHER||Cochran-Mantel-Haenszel|1.4|||||TWO_SIDED|90.0|-3.2|5.9|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||5.9|-3.2|
82641080|NCT04365387|164996777|OTHER||Cochran-Mantel-Haenszel|13.3|||||TWO_SIDED|90.0|0.1|26.4|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH for non-Imputed values|||26.4|0.1|
82641081|NCT04365387|164996778|OTHER||Cochran-Mantel-Haenszel|1.3|||||TWO_SIDED|90.0|-9.3|11.9|||||Risk Difference (90% CI) were estimated using weighted average of stratum-specific proportion using CMH.|||11.9|-9.3|
82641082|NCT05770401|164996780|SUPERIORITY||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|1.227||0.014|TWO_SIDED|95.0|0.72|5.76|||ANCOVA|||The null hypothesis was there would be no significant difference in LCQ total score change from baseline to one-week post-treatment between groups.||5.76|.72|.014
82641083|NCT05770401|164996781|SUPERIORITY||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|8.804||0.056|TWO_SIDED|95.0|-32.7|0.46|||ANCOVA|||The null hypothesis was there would be no significant difference in Cough Severity VAS Scores from baseline to one-week post-treatment between groups.||0.46|-32.7|.056
82641084|NCT00056472|164996827|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||<|0.001||95.0|1.12|1.47|||Regression, Logistic|||Predicting remission rates of 40% in combination therapy and 20% in monotherapy subjects, 260 subjects randomized into the two treatment groups would provide \>80% power at a two-tailed alpha level of .05. Treatment efficacy was compared between groups based on intent-to-treat analyses for the longitudinal binary outcome of remission using mixed effects logistic regression with a random intercept that included treatment and time as fixed effects and a treatment by time interaction effect.||1.47|1.12|<.001
82641085|NCT00056472|164996828|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||The p-value is for the overall mean CGI-S score compared to baseline.|Mixed Models Analysis|This was a longitudinal analysis of CGI-S scores compared to baseline.||Intent-to-treat changes in global improvement from week to week compared to baseline (CGI-S) over the course of the trial using longitudinal mixed effects linear regression models. The null hypothesis is that there is no difference in overall change in CGI-S.||||.02
82641086|NCT00056472|164996829|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the overall mean across all time points between each treatment group.|Mixed Models Analysis|||Intent-to-treat between group comparison using longitudinal mixed effects regression.||||<.001
82641087|NCT00931515|164996852|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82641088|NCT01375491|164996905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||See published paper.|ANOVA|See published paper.||See published paper.||||<0.05
82641089|NCT05689554|164996910|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.11|TWO_SIDED|95.0|0.944|1.306|||Log Rank|||||1.306|.944|0.11
82641090|NCT05689554|164996911|SUPERIORITY||Risk Ratio (RR)|1.24||||0.183|TWO_SIDED|95.0|0.9|1.7|||Regression, modified Poisson|||||1.7|.9|0.183
82641091|NCT00563706|164996916|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-12.3||||0.043|TWO_SIDED|95.0|-24.24|-0.37|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||-0.37|-24.24|0.043
82641092|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.77||||0.457|TWO_SIDED|95.0|-24.7|11.16|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||11.16|-24.70|0.457
82390286|NCT02833844|164491916|SUPERIORITY||treatment difference|-75.2|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001|TWO_SIDED|95.0|-82.1|-68.4||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-68.4|-82.1|< 0.0001
82641093|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.61||||0.067|TWO_SIDED|95.0|-24.03|0.81|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||0.81|-24.03|0.067
82526183|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.321||95.0||||P-value is for Baseline evening pre-meal BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.321
82526184|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value for Evening pre-meal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.161
82526185|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||P-value is for Baseline evening 2hour postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.297
82526186|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value Evening 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82426872|NCT04211363|164561969|SUPERIORITY||Odds Ratio (OR)|7.84|||<|0.0001|TWO_SIDED|95.0|3.85|15.94|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|Common odds ratio stratified by pooled study site, baseline IGA, and baseline intertriginous involvement per randomization with multiple imputation of missing data.|WI-NRS at Week 8 Odds Ratio||15.94|3.85|<0.0001
82426873|NCT04211363|164561970|SUPERIORITY||Mean Difference (Final Values)|-25.83|||<|0.0001|TWO_SIDED|95.0|-31.7|-20.0|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Comparison of change from baseline in PSD score at Week 4||-20.0|-31.7|<0.0001
82426874|NCT04211363|164561970|SUPERIORITY||Mean Difference (Final Values)|-30.9|||<|0.0001|TWO_SIDED|95.0|-37.2|-24.6|||ANCOVA|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Site, baseline IGA, baseline intertriginous involvement, and baseline PSD scores were independent variables, multiple imputation used for missing data|Comparison of change from baseline in PSD score at Week 8||-24.6|-37.2|<0.0001
82426875|NCT03961308|164561994|OTHER|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of covariance (ANCOVA) with weight as a covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0734|||||TWO_SIDED|90.0|0.9963|1.1565||||||||1.1565|0.9963|
82426876|NCT03961308|164561995|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0824|||||TWO_SIDED|90.0|1.0169|1.1521||||||||1.1521|1.0169|
82426877|NCT03961308|164561996|OTHER|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with weight as a covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0465|||||TWO_SIDED|90.0|0.9935|1.1023||||||||1.1023|0.9935|
82426878|NCT03358030|164562022|OTHER||||||<|0.05|||||||ANOVA|||Day 12 through Day 260||||<0.05
82426879|NCT03358030|164562022|OTHER||||||<|0.05|||||||ANOVA|||Day 15 through Day 232||||<0.05
82426880|NCT03358030|164562023|OTHER||||||<|0.05|||||||Wilcoxon Rank Sum Test|Wilcoxon Rank Sum Test based on t approximation||Day 15 through Day 176||||< 0.05
82426881|NCT03358030|164562023|OTHER||||||<|0.05|||||||Wilcoxon Rank Sum Test|Wilcoxon Rank Sum Test based on t approximation||Day 12 through Day 176||||< 0.05
82426882|NCT01729039|164562044|SUPERIORITY|||||||0.356||||||Main effect of time (baseline to post-PT) alpha = .05|ANOVA|||||||.356
82426883|NCT01729039|164562044|SUPERIORITY|||||||0.84||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.840
82426884|NCT01729039|164562045|SUPERIORITY|||||||0.17||||||Main effect of Time (baseline to post-PT) Alpha=.05|ANOVA|||||||.170
82426885|NCT01729039|164562045|SUPERIORITY|||||||0.297||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.297
82426886|NCT01729039|164562046|SUPERIORITY||||||<|0.001|||||||ANOVA|Main effect of Time (baseline to post-PT) alpha = .05||||||<.001
82426887|NCT01729039|164562046|SUPERIORITY|||||||0.817||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.817
82641094|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.61||||0.567|TWO_SIDED|95.0|-16.02|8.8|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||8.80|-16.02|0.567
82641095|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.9||||0.07|TWO_SIDED|95.0|-22.71|0.92|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||0.92|-22.71|0.070
82641096|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.18||||0.647|TWO_SIDED|95.0|-16.87|10.5|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||10.50|-16.87|0.647
82641097|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73||||0.075|TWO_SIDED|95.0|-20.46|1.0|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||1.00|-20.46|0.075
82641098|NCT00563706|164996916|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.44||||0.765|TWO_SIDED|95.0|-10.92|8.04|||Mixed Models Analysis|||Mixed effects model was used to assess the treatment effects with change in PANSS total score from baseline as response variable, treatment, visit, and treatment by visit as fixed factors and baseline value as a covariate.||8.04|-10.92|0.765
82641099|NCT03315780|164996945|SUPERIORITY||Mean Difference (Final Values)|-254.02|||<|0.0001|TWO_SIDED|95.0|-337.76|-170.28|||Mixed Models Analysis|||||-170.28|-337.76|< 0.0001
82641100|NCT03315780|164996948|SUPERIORITY||Mean Difference (Final Values)|27.46||||0.01|TWO_SIDED|95.0|8.05|46.87|||Mixed Models Analysis|||||46.87|8.05|0.0100
82641101|NCT03315780|164996949|SUPERIORITY||Mean Difference (Final Values)|3.72||||0.0263|TWO_SIDED|95.0|0.63|6.81|||Mixed Models Analysis|||||6.81|0.63|0.0263
82641102|NCT03315780|164996950|SUPERIORITY||Mean Difference (Final Values)|-9.36||||0.08|TWO_SIDED|95.0|-20.16|1.43|||Mixed Models Analysis|||||1.43|-20.16|0.0800
82641103|NCT03315780|164996951|SUPERIORITY||Mean Difference (Final Values)|-15.39||||0.7475|TWO_SIDED|95.0|-118.35|87.57|||Mixed Models Analysis|||||87.57|-118.35|0.7475
82641104|NCT01361308|164996953|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Week 4 frequency|Rank transformed ANCOVA|||||||<0.0001
82641105|NCT01361308|164996953|SUPERIORITY_OR_OTHER|||||||0.009||||||Week 12 frequency|Rank transformed ANCOVA|||||||0.0090
82641106|NCT01361308|164996954|SUPERIORITY_OR_OTHER|||||||0.001||||||Clinical meaningfulness at week 4|Logit model|||||||0.001
82641107|NCT01361308|164996954|SUPERIORITY_OR_OTHER|||||||0.055||||||Clinical meaningfulness at week 12|Logit model|||||||0.055
82641108|NCT01361308|164996970|SUPERIORITY_OR_OTHER|||||||0.0017||||||Week 4 severity|Rank transformed ANCOVA|||||||0.0017
82641109|NCT01361308|164996970|SUPERIORITY_OR_OTHER|||||||0.1658||||||Week 12 severity|Rank transformed ANCOVA|||||||0.1658
82641110|NCT00706901|164996988|NON_INFERIORITY_OR_EQUIVALENCE|Zero-inflated Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
82641111|NCT00706901|164996988|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.02|TWO_SIDED||||||zero-hurdle Poisson model|||||||0.02
82641112|NCT00706901|164996989|NON_INFERIORITY_OR_EQUIVALENCE|A Zero-inflated Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
82641113|NCT00706901|164996989|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.0002|TWO_SIDED||||||Zero-hurdle Poisson model|||||||.0002
82641114|NCT00706901|164996990|NON_INFERIORITY_OR_EQUIVALENCE|To examine differences between GMI and TCC on SECs, a two-component Weibull mixture model for effectively dealing with zero-heavy continuous data was conducted.||||||0.04|TWO_SIDED||||||Weibull mixture model|||||||0.04
82641115|NCT00706901|164996990|NON_INFERIORITY_OR_EQUIVALENCE|A generalized linear mixed model with correlated errors to account for correlation between repeated measurements of the response within subjects was conducted.||||||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
82641116|NCT00706901|164996991|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.|||||<|0.01|TWO_SIDED||||||Zero inflated Poisson model|||||||<0.01
82641117|NCT00706901|164996991|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.|||||<|0.0001|TWO_SIDED||||||Zero-hurdle Poisson model|||||||<.0001
82641118|NCT00706901|164996992|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.|||||<|0.0001|TWO_SIDED||||||Zero inflated Poisson model|||||||<.0001
82641119|NCT00706901|164996992|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.02|TWO_SIDED||||||Zero-hurdle Poisson model|||||||0.02
82641120|NCT00706901|164996993|NON_INFERIORITY_OR_EQUIVALENCE|Zero inflated Poisson model with random intercept to account for correlation between repeated measurement of the responses within subjects was conducted.||||||0.17|TWO_SIDED||||||Zero inflated Poisson model|||||||0.17
82641121|NCT00706901|164996993|NON_INFERIORITY_OR_EQUIVALENCE|Zero-hurdle Poisson model with random intercept to account for correlation between repeated measurements of the responses within subjects was conducted.||||||0.67|TWO_SIDED||||||Zero-hurdle Poisson model|||||||0.67
82641122|NCT03433482|164996994|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% confidence interval (CI) for the hSBA GMT ratio for serogroup A between the MenACWY liquid vaccine aged for approximately 24 months and the licensed MenACWY vaccine is \> 0.5.|GMT ratio|1.21|||||TWO_SIDED|95.0|0.94|1.57|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the MenACWY liquid vaccine aged for approximately 24 months to that of currently licensed MenACWY vaccine, as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination||1.57|0.94|
82641123|NCT03433482|164996994|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the hSBA GMT ratios for serogroup A between the MenACWY liquid vaccine aged for approximately 30 months and the licensed MenACWY vaccine is \> 0.5. Non-inferiority hypotheses testing will be conducted sequentially, starting from MenACWY liquid vaccine aged for approximately 24 months and subsequently with MenACWY liquid vaccine aged for approximately 30 months.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.87|1.42|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the MenACWY liquid vaccine aged for approximately 30 months to that of currently licensed MenACWY vaccine, as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination.||1.42|0.87|
82641124|NCT03433482|164996995|OTHER||GMT ratio|0.84|||||TWO_SIDED|95.0|0.58|1.19|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup C||1.19|0.58|
82641125|NCT03433482|164996995|OTHER||GMT ratio|0.94|||||TWO_SIDED|95.0|0.72|1.24|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup W||1.24|0.72|
82641126|NCT03433482|164996995|OTHER||GMT ratio|1.09|||||TWO_SIDED|95.0|0.82|1.44|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq24 and ACWY\_1, at Day 29 against serogroup Y||1.44|0.82|
82641127|NCT03433482|164996995|OTHER||GMT ratio|1.14|||||TWO_SIDED|95.0|0.79|1.64|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup C||1.64|0.79|
82641128|NCT03433482|164996995|OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.84|1.45|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup W||1.45|0.84|
82641129|NCT03433482|164996995|OTHER||GMT ratio|0.96|||||TWO_SIDED|95.0|0.72|1.26|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and center (if applicable) as factors.||Between-groups ratio of adjusted hSBA GMTs and its 95% CI, between vaccine groups GSK3536820A ACWY\_Liq30 and ACWY\_2, at Day 29 against serogroup Y||1.26|0.72|
82641130|NCT03433482|164996997|OTHER||Difference in percentage of subjects|2.21|||||TWO_SIDED|95.0|-1.94|6.4|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||6.40|-1.94|
82641131|NCT03433482|164996997|OTHER||Difference in percentage of subjects|-2.12|||||TWO_SIDED|95.0|-8.94|4.72|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||4.72|-8.94|
82641132|NCT03433482|164996997|OTHER||Difference in percentage of subjects|-1.16|||||TWO_SIDED|95.0|-8.11|5.8|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||5.80|-8.11|
82641133|NCT03433482|164996997|OTHER||Difference in percentage of subjects|-1.57|||||TWO_SIDED|95.0|-7.88|4.74|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||4.74|-7.88|
82641134|NCT03433482|164996997|OTHER||Difference in percentage of subjects|-0.12|||||TWO_SIDED|95.0|-4.29|4.07|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||4.07|-4.29|
82641135|NCT03433482|164996997|OTHER||Difference in percentage of subjects|2.85|||||TWO_SIDED|95.0|-3.63|9.3|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||9.30|-3.63|
82641136|NCT03433482|164996997|OTHER||Difference in percentage of subjects|4.01|||||TWO_SIDED|95.0|-2.89|10.88|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||10.88|-2.89|
82641137|NCT03433482|164996997|OTHER||Difference in percentage of subjects|-2.84|||||TWO_SIDED|95.0|-8.91|3.26|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||3.26|-8.91|
82526187|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Baseline 3 AM blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.199
82426888|NCT01729039|164562047|SUPERIORITY|||||||0.005||||||Main effect of Time (baseline to post-PT) alpha = .05|ANOVA|||||||.005
82426889|NCT01729039|164562047|SUPERIORITY|||||||0.172||||||Interaction of Time by Group (GS vs. CON) alpha = .05|ANOVA|||||||.172
82526188|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.693||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.693
82526189|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for Baseline AM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.021
82526190|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526191|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-value is for Baseline midday 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.567
82526192|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for Midday 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.005
82526193|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.994||95.0||||P-value is for Baseline PM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.994
82526194|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for PM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526195|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||P-value is for Baseline mean all meal time excursions.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.436
82526196|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Mean of all meal time excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526197|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.628||95.0||||P-value is for Baseline mean all 2hour PP BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.628
82641138|NCT03433482|164996998|OTHER||Difference in percentage of subjects|1.79|||||TWO_SIDED|95.0|-2.69|6.32|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 1.||6.32|-2.69|
82526198|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Mean of all 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526199|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-value is for Baseline AM/PM 2-hour postprandial BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.677
82526200|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM/PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526201|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value is for Baseline mean all premeal BG.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.364
82526202|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is for Mean of all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.055
82526203|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for Baseline AM/PM 2-hour BG excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.165
82526204|NCT00279201|164749051|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for AM/PM 2-hour blood glucose excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82526205|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value is for Baseline mean of all BG values.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.464
82526206|NCT00279201|164749051|SUPERIORITY_OR_OTHER|||||||0.305||95.0||||P-value is for Mean of all blood glucose values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||0.305
82390287|NCT02833844|164491917|SUPERIORITY||treatment difference|65.4|||<|0.0001|TWO_SIDED|95.0|57.8|71.1||Based on Cochran-Mantel-Haenszel test stratified by statin use stratification factor. For testing, nonachievement was imputed for participants with a missing value.|Cochran-Mantel-Haenszel|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as reference.|Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.||71.1|57.8|< 0.0001
82390288|NCT02833844|164491918|SUPERIORITY||treatment difference|71.9|||<|0.0001|TWO_SIDED|95.0|65.7|76.7||Based on Cochran-Mantel-Haenszel test stratified by statin use stratification factor. For testing, nonachievement was imputed for participants with a missing value.|Cochran-Mantel-Haenszel|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as a reference.|Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.||76.7|65.7|< 0.0001
82526207|NCT00279201|164749052|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|ANCOVA model with treatment, baseline, country, TZD use, and sulfo use.||||||0.003
82526208|NCT00279201|164749053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 6.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526209|NCT00279201|164749053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 12.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526210|NCT00279201|164749053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 18|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82641139|NCT03433482|164996998|OTHER||Difference in percentage of subjects|6.96|||||TWO_SIDED|95.0|0.01|13.84|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 1.||13.84|0.01|
82526211|NCT00279201|164749053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at Week 24.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526212|NCT00279201|164749053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change from baseline at endpoint.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526213|NCT00279201|164749054|SUPERIORITY_OR_OTHER|||||||0.497||95.0||||P-value for Actual weight at baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.497
82641140|NCT03433482|164996998|OTHER||Difference in percentage of subjects|3.13|||||TWO_SIDED|95.0|-3.33|9.58|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 1.||9.58|-3.33|
82641141|NCT03433482|164996998|OTHER||Difference in percentage of subjects|0.96|||||TWO_SIDED|95.0|-4.86|6.8|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 1.||6.80|-4.86|
82390289|NCT02833844|164491919|SUPERIORITY||treatment difference|-50.94|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-54.88|-46.99||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-46.99|-54.88|< 0.0001
82426890|NCT01729039|164562048|SUPERIORITY|||||||0.009||||||Main effect of time (baseline to post-PT) alpha = .05|ANOVA|||||||.009
82426891|NCT01729039|164562048|SUPERIORITY|||||||0.146||||||Interaction of Time by Grou (GS vs. CON) alpha = .05|ANOVA|||||||.146
82526214|NCT00279201|164749054|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + sulfo use.||||||<0.001
82641142|NCT03433482|164996998|OTHER||Difference in percentage of subjects|1.46|||||TWO_SIDED|95.0|-2.24|5.22|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 29.||5.22|-2.24|
82641143|NCT03433482|164996998|OTHER||Difference in percentage of subjects|-0.43|||||TWO_SIDED|95.0|-6.32|5.46|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 29.||5.46|-6.32|
82526215|NCT00279201|164749054|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Actual weight at Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
82390290|NCT02833844|164491920|SUPERIORITY||treatment difference|-47.73|STANDARD_ERROR_OF_MEAN|1.72|<|0.0001|TWO_SIDED|95.0|-51.11|-44.35||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-44.35|-51.11|< 0.0001
82390291|NCT02833844|164491921|SUPERIORITY||treatment difference|-38.12|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|-41.3|-34.94||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-34.94|-41.30|< 0.0001
82390292|NCT02833844|164491922|SUPERIORITY||treatment difference|-26.78|STANDARD_ERROR_OF_MEAN|3.76|<|0.0001|TWO_SIDED|95.0|-34.17|-19.4||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-19.40|-34.17|< 0.0001
82390293|NCT02833844|164491923|SUPERIORITY||treatment difference|-22.46|STANDARD_ERROR_OF_MEAN|4.36|<|0.0001|TWO_SIDED|95.0|-31.03|-13.88||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-13.88|-31.03|< 0.0001
82390294|NCT02833844|164491924|SUPERIORITY||treatment difference|8.36|STANDARD_ERROR_OF_MEAN|1.8|<|0.0001|TWO_SIDED|95.0|4.83|11.89||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||11.89|4.83|< 0.0001
82390295|NCT02833844|164491925|SUPERIORITY||treatment difference|-22.15|STANDARD_ERROR_OF_MEAN|4.01|<|0.0001|TWO_SIDED|95.0|-30.04|-14.26||Multiplicity adjustment was based on the combination of sequential testing, the fallback procedure, and the Hochberg procedure.|repeated measures linear effects model|Per protocol, the adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment difference uses placebo as the reference.|||-14.26|-30.04|< 0.0001
82390296|NCT05129475|164491926|OTHER||Ratio of Adjusted Geometric Means|120.9|||||TWO_SIDED|90.0|109.3|133.74|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||133.74|109.30|
82390297|NCT05129475|164491927|OTHER||Ratio of Adjusted Geometric Means|119.67|||||TWO_SIDED|90.0|108.75|131.68|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||131.68|108.75|
82390298|NCT05129475|164491928|OTHER||Ratio of Adjusted Geometric Means|161.01|||||TWO_SIDED|90.0|139.05|186.44|||||Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|||186.44|139.05|
82390299|NCT01899742|164491937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|||<|0.001|TWO_SIDED|95.0|0.045|0.131|||Mixed Models Analysis|||||0.131|0.045|<0.001
82390300|NCT01899742|164491938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.004|TWO_SIDED|95.0|0.024|0.122|||Mixed Models Analysis|||||0.122|0.024|0.004
82390301|NCT05845567|164492047|SUPERIORITY||ratio of the Geometric LSmeans|139.43|||||TWO_SIDED|90.0|129.73|149.86||||||||149.86|129.73|
82641144|NCT03433482|164996998|OTHER||Difference in percentage of subjects|-1.43|||||TWO_SIDED|95.0|-7.05|4.18|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 29.||4.18|-7.05|
82390302|NCT05845567|164492048|SUPERIORITY||ratio of the Geometric LSmeans|117.97|||||TWO_SIDED|90.0|112.24|124.0||||||||124.00|112.24|
82641145|NCT03433482|164996998|OTHER||Difference in percentage of subjects|2.04|||||TWO_SIDED|95.0|-2.81|6.9|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 29.||6.90|-2.81|
82390303|NCT05845567|164492049|SUPERIORITY||ratio of the Geometric LSmeans|117.88|||||TWO_SIDED|90.0|112.13|123.92||||||||123.92|112.13|
82390304|NCT00805870|164492097|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.271|STANDARD_ERROR_OF_MEAN|26.298|>|0.05|TWO_SIDED|95.0|-63.521|46.978|||ANOVA|||Null hypothesis is that no difference is observed in quadriceps muscle strength between the fish oil and control groups.||46.978|-63.521|>0.05
82390305|NCT00805870|164492098|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.845|STANDARD_ERROR_OF_MEAN|1.417|>|0.05|TWO_SIDED|95.0|-4.823|1.132|||ANOVA|||Null hypothesis is that there is no difference in the amount of force applied to the quadriceps to elicit pain or discomfort between the fish oil and control groups.||1.132|-4.823|>0.05
82390306|NCT00805870|164492099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.015|STANDARD_ERROR_OF_MEAN|47.093|>|0.05|TWO_SIDED|95.0|-156.373|42.344|||ANOVA|||Null hypothesis is that there is no difference in creatine kinase activity between the fish oil and the control groups.||42.344|-156.373|>0.05
82390307|NCT00805870|164492100|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.022|STANDARD_ERROR_OF_MEAN|0.188|>|0.05|TWO_SIDED|95.0|-0.374|0.417|||ANOVA|||The null hypothesis is that there is no difference in interleukin-6 concentration between the fish oil and control groups.||0.417|-0.374|>0.05
82390308|NCT03403751|164492161|SUPERIORITY|||||||0.649|||||||Chi-squared|||||||0.649
82390309|NCT03403751|164492164|SUPERIORITY|||||||0.871|||||||Chi-squared|||||||0.871
82390310|NCT03403751|164492165|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
82443931|NCT03007745|164596516|NON_INFERIORITY|We hypothesized that the lower bound of the non-inferiority analysis of FOSQ-10 would be greater than the a-priori threshold of -1.0.|||||>|0.05||||||"Adjusted group difference in mean change in FOSQ-10 score from baseline to Month 3, controlling for baseline FOSQ and site, was -0.06 ± 061 (SEM) (P = 0.917).~The lower bound of the 95% noninferiority confidence interval was -1.08"|ANCOVA|||||||>0.05
82641146|NCT03433482|164996998|OTHER||Difference in percentage of subjects|1.5|||||TWO_SIDED|95.0|-3.32|6.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 1.||6.33|-3.32|
82641147|NCT03433482|164996998|OTHER||Difference in percentage of subjects|0.38|||||TWO_SIDED|95.0|-6.6|7.35|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 1.||7.35|-6.60|
82641148|NCT03433482|164996998|OTHER||Difference in percentage of subjects|-1.26|||||TWO_SIDED|95.0|-7.75|5.23|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W on Day 1.||5.23|-7.75|
82641149|NCT03433482|164996998|OTHER||Difference in percentage of subjects|-0.85|||||TWO_SIDED|95.0|-6.69|4.98|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 1.||4.98|-6.69|
82390311|NCT03403751|164492166|SUPERIORITY|||||||0.448|||||||Wilcoxon (Mann-Whitney)|||||||0.448
82390312|NCT03403751|164492167|SUPERIORITY|||||||0.579|||||||Wilcoxon (Mann-Whitney)|||||||0.579
82390313|NCT03403751|164492168|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
82390314|NCT03403751|164492171|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82390315|NCT03403751|164492172|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82390316|NCT03403751|164492173|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82390317|NCT03403751|164492174|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82390318|NCT02105246|164492190|EQUIVALENCE|This analysis compared the proportion of eligible patients who participated in cardiac rehab after referral to home-based vs. referral to center-based programs.|Risk Ratio (RR)|0.98||||0.8|TWO_SIDED||||||Chi-squared|||Null hypothesis = no difference in proportion of patients who participate in cardiac rehab after referral to home-based vs. facility-based programs||||0.80
82526216|NCT00279201|164749054|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 18.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
82641150|NCT03433482|164996998|OTHER||Difference in percentage of subjects|-0.64|||||TWO_SIDED|95.0|-4.24|2.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A on Day 29.||2.96|-4.24|
82641151|NCT03433482|164996998|OTHER||Difference in percentage of subjects|1.32|||||TWO_SIDED|95.0|-3.99|6.64|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C on Day 29.||6.64|-3.99|
82641152|NCT03433482|164996998|OTHER||Difference in percentage of subjects|4.09|||||TWO_SIDED|95.0|-1.11|9.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 the N. meningitidis serogroup W on Day 29.||9.33|-1.11|
82390319|NCT02105246|164492191|NON_INFERIORITY|This analysis compared Baseline to 3-month change in 6-minute walk test distance among subjects who participated in home-based cardiac rehab vs. subjects who participated in center-based cardiac rehab|Median Difference (Final Values)|196.0|||<|0.001|TWO_SIDED|||||This comparison was unadjusted.|Wilcoxon (Mann-Whitney)|||Null hypothesis: 3-month change in 6MWT distance is not inferior among participants enrolled in home-based vs. facility-based cardiac rehab.||||<0.001
82390320|NCT02105246|164492192|NON_INFERIORITY|This analysis compared 6-month change in 6-minute walk test distance among subjects who participated in home-based vs. center-based cardiac rehab.|Median Difference (Final Values)|159.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: 6-month change in 6MWT distance is not inferior among participants enrolled in home-based vs. facility-based cardiac rehab.||||0.03
82390321|NCT02272842|164492193|SUPERIORITY|The study had 80% power to detect a standardized effect size of 0.22 and had 90% power to detect an effect size of 0.28. In these calculations, we assumed a loss to follow-up of 10%. Details on the samples size calculations are also presented in the previously published protocol paper.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.35|>|0.16|TWO_SIDED|95.0|-0.54|0.87||The main analysis was the change in cognitive scores from baseline until the end of the intervention.|t-test, 2 sided||This is the P-value for the effect on the cognitive scores.|||.87|-.54|>.16
82390322|NCT02272842|164492203|SUPERIORITY|the means were compared using Students t-test|Mean Difference (Final Values)|-0.5|||>|0.3|TWO_SIDED|95.0|-1.97|0.94||"Mean difference -0.5 points in the Wechsler Preschool and Primary Scale of Intelligence - Fourth Edition.~95 % Confidence Interval of the mean difference: (-1.97, 0.94)"|t-test, 2 sided|||Comparing mean differences between the two study arms||0.94|-1.97|>.3
82390323|NCT03960866|164492234|SUPERIORITY||Mean Difference (Net)|0.12||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
82390324|NCT04789291|164492300|OTHER||Ratios of adjusted geometric means [%]|102.76|||||TWO_SIDED|90.0|99.34|106.29|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 4.8.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||106.29|99.34|
82526217|NCT00279201|164749054|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Actual weight at Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.001
82526218|NCT00279201|164749054|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value is for Actual weight at Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo use.||||||<0.0001
82526219|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for Hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.016
82526220|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value is for Overall hypoglycemic episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.037
82526221|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for Nocturnal hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.834
82526222|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.585||95.0||||P-value is for Nocturnal hypoglycemic episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.585
82526223|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value is for Severe hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.241
82526224|NCT00279201|164749055|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||P-value is for Severe hypoglycemic episodes overall. Initiation phase and maintenance phase are included.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.080
82526225|NCT00279201|164749056|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.009
82526226|NCT00279201|164749056|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.420
82526227|NCT00279201|164749056|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for Severe episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.165
82526228|NCT00279201|164749056|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.167
82574178|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.48|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|-0.38|1.34||||||Week 6-HSS0102-Tenderness At It's Worst||1.34|-0.38|
82526229|NCT00279201|164749056|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.006
82526230|NCT00279201|164749056|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||<0.001
82526231|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82426892|NCT01585025|164562080|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.007
82526232|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526233|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526234|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526235|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526236|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526237|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526238|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526239|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526240|NCT00279201|164749057|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is for Week 18.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||0.001
82526241|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526242|NCT00279201|164749057|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in the model.||||||<0.001
82526243|NCT00279201|164749058|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82574179|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-1.06|0.6||||||Week 6-HSS0102-Tenderness At It's Worst||0.60|-1.06|
82641153|NCT03433482|164996998|OTHER||Difference in percentage of subjects|0.48|||||TWO_SIDED|95.0|-4.16|5.13|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y on Day 29.||5.13|-4.16|
82641154|NCT03433482|164996999|OTHER||Difference in percentage of subjects|1.29|||||TWO_SIDED|95.0|-3.37|5.99|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||5.99|-3.37|
82641155|NCT03433482|164996999|OTHER||Difference in percentage of subjects|7.23|||||TWO_SIDED|95.0|0.25|14.13|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||14.13|0.25|
82641156|NCT03433482|164996999|OTHER||Difference in percentage of subjects|3.92|||||TWO_SIDED|95.0|-2.57|10.39|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||10.39|-2.57|
82641157|NCT03433482|164996999|OTHER||Difference in percentage of subjects|1.49|||||TWO_SIDED|95.0|-4.44|7.44|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||7.44|-4.44|
82641158|NCT03433482|164996999|OTHER||Difference in percentage of subjects|1.73|||||TWO_SIDED|95.0|-1.94|5.46|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||5.46|-1.94|
82641159|NCT03433482|164996999|OTHER||Difference in percentage of subjects|-0.99|||||TWO_SIDED|95.0|-6.66|4.7|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||4.70|-6.66|
82641160|NCT03433482|164996999|OTHER||Difference in percentage of subjects|-1.43|||||TWO_SIDED|95.0|-7.05|4.18|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||4.18|-7.05|
82641161|NCT03433482|164996999|OTHER||Difference in percentage of subjects|2.06|||||TWO_SIDED|95.0|-2.67|6.8|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||6.80|-2.67|
82641162|NCT03433482|164996999|OTHER||Difference in percentage of subjects|1.75|||||TWO_SIDED|95.0|-3.32|6.83|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||6.83|-3.32|
82641163|NCT03433482|164996999|OTHER||Difference in percentage of subjects|3.87|||||TWO_SIDED|95.0|-3.0|10.71|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||10.71|-3.00|
82641164|NCT03433482|164996999|OTHER||Difference in percentage of subjects|-0.73|||||TWO_SIDED|95.0|-7.24|5.77|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||5.77|-7.24|
82641165|NCT03433482|164996999|OTHER||Difference in percentage of subjects|-1.12|||||TWO_SIDED|95.0|-6.99|4.75|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||4.75|-6.99|
82390325|NCT04789291|164492301|OTHER||Ratios of adjusted geometric means [%]|77.81|||||TWO_SIDED|90.0|69.77|86.76|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.5.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||86.76|69.77|
82641166|NCT03433482|164996999|OTHER||Difference in percentage of subjects|-0.64|||||TWO_SIDED|95.0|-4.24|2.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||2.96|-4.24|
82641167|NCT03433482|164996999|OTHER||Difference in percentage of subjects|0.0|||||TWO_SIDED|95.0|-5.16|5.16|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||5.16|-5.16|
82641168|NCT03433482|164996999|OTHER||Difference in percentage of subjects|4.09|||||TWO_SIDED|95.0|-1.11|9.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||9.33|-1.11|
82641169|NCT03433482|164996999|OTHER||Difference in percentage of subjects|0.73|||||TWO_SIDED|95.0|-3.88|5.37|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||5.37|-3.88|
82641170|NCT01646268|164997005|SUPERIORITY_OR_OTHER||LS Means|-4.82|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-7.18|-2.45|||ANCOVA||Value describes the difference value of the mean change from baseline between Rotigotine and Placebo groups. The Value for this outcome was -4.6.|The null hypothesis (H0) is that there is no difference in the change in the sum of the score from the ADL and motor examination in the UPDRS (Parts II+II) between the active treatment and the placebo groups (i.e., the change from Baseline in the sum of the score from the ADL and motor examination in the UPDRS (Parts II+III) is the same for both groups).||-2.45|-7.18|<0.0001
82641171|NCT00461591|164997009|SUPERIORITY||Odds Ratio (OR)|0.76||||0.1068|TWO_SIDED|95.0|0.54|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.54|0.1068
82641172|NCT00461591|164997010|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0412|TWO_SIDED|95.0|0.59|0.99|||Log Rank|||||0.99|0.59|0.0412
82641173|NCT00347776|164997017|SUPERIORITY||Cox Proportional Hazard|0.67||||0.047|TWO_SIDED|95.0|0.45|0.98|||Log Rank|||"The log rank test was done to compare the survival rates between the tetracycline arm and the azithromycin arms combined.~The Cox proportional hazard model was used to evaluate risk factors and adjust for confounding in predicting recurrence."||0.98|0.45|.047
82641174|NCT00347776|164997018|SUPERIORITY|||||||0.19|||||||Log Rank|||"We tried to evaluate if treating the immediate family members of the subject with oral azithromycin along with the subject had added advantage in reducing the rate of recurrent trichiasis in comparison to treating the subject alone with oral azithromycin post surgery.~The log rank test was done to compare the survival rates between the two intervention arms.The comparison results were expressed in person-years."||||0.19
82426893|NCT01585025|164562080|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.11
82526244|NCT00279201|164749059|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and Sulfo use.||||||<0.001
82526245|NCT00279201|164749060|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526246|NCT00279201|164749061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use and Sulfo use in model.||||||<0.001
82526247|NCT00279201|164749062|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||<0.001
82526248|NCT00279201|164749063|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526249|NCT00279201|164749064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Pre Meals Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526250|NCT00279201|164749064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Post Meals Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526251|NCT00279201|164749064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Average of All Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526252|NCT00279201|164749064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Fasting Blood Glucose.|ANOVA|ANOVA with met goal/did not meet goal, country, TZD use, and sulfo use in model.||||||<0.001
82526253|NCT00279201|164749065|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Sulfonylurea/Metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||<0.001
82526254|NCT00279201|164749065|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for TZD/Metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||<0.001
82526255|NCT00279201|164749065|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||P-value is for Sulfonylurea/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.969
82526256|NCT00279201|164749065|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value is for Patients with 3 drugs (Sulfonylurea/TZD/Metformin).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.225
82526257|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value is for Week 0.|ANOVA|ANCOVA used with treatment, country, TZD use, and sulfo use in the model.||||||0.204
82526258|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Week 12.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.004
82526259|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value is for Week 24.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.657
82526260|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value is for Week 36.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.595
82526261|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||P-value for Week 48.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.142
82526262|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.551||95.0||||P-value for Week 60.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.551
82526263|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-value is for Week 72.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.779
82526264|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||P-value is for Week 84.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.175
82526265|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Week 96.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.018
82526266|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for Week 108.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.047
82526267|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for Week 120.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.027
82526268|NCT00279201|164749066|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value is for Endpoint.|ANCOVA|ANCOVA used with treatment, baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.017
82526269|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for Baseline mean fasting blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.218
82526270|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint mean fasting blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526271|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-value is for Baseline AM 2-hour (hr) postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.897
82526272|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||P-value is for Endpoint AM 2-hour postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.138
82526273|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.867||95.0||||P-value is for Baseline midday premeal blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.867
82526274|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value is for Endpoint midday premeal blood.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.031
82526275|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-value is for Baseline midday 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.792
82526276|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||P-value is for Endpoint midday 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.510
82526277|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.535||95.0||||P-value is for Baseline PM pre-meal blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.535
82526278|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||P-value is for Endpoint PM pre-meal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.517
82641175|NCT00347776|164997019|SUPERIORITY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.36|1.1|||Regression, Logistic||Comparison group was the tetracycline group.|Surgery was considered a failure if there was trichiasis recurrence at 6 week follow-up.||1.10|0.36|
82526279|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.869||95.0||||P-value is for Baseline PM 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.869
82526280|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint PM 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526281|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value is for Baseline 3AM blood glucose.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.164
82526282|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||P-value is for Endpoint 3AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.234
82526283|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||P-value is for Baseline AM 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.175
82526284|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint AM 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526285|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||P-value is for Baseline midday 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.589
82526286|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Endpoint midday 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.161
82526287|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.674||95.0||||P-value is for Baseline PM 2hr excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.674
82526288|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint PM 2hr excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526289|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||P-value is for Baseline mean all meal time excursions.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.201
82526290|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint mean all meal time excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526291|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.956||95.0||||P-value is for Baseline mean of all 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.956
82526292|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value is for Endpoint mean of all 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.019
82526293|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value is for Baseline mean all premeal.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.445
82526294|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for Endpoint mean all premeal.|ANOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.371
82526295|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value is for Baseline combined AM/PM 2hr postprandial.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.848
82390326|NCT04789291|164492302|OTHER||Ratios of adjusted geometric means [%]|103.24|||||TWO_SIDED|90.0|99.73|106.89|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 4.9.|Relative bioavailability of BI 1595043 administered in fed state (Test) compared with BI 1595043 administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% CIs were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||106.89|99.73|
82390327|NCT00380081|164492316|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390328|NCT00380081|164492317|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||<0.001
82390329|NCT00380081|164492318|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82641176|NCT00124709|164997081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0046||||0.7901|TWO_SIDED|95.0|-0.029|0.0381|||ANCOVA|Treatment, Center, gender, baseline age (months), baseline EASI score, and baseline TBSA as explanatory variables||"A disease-free day in Step 2 or less was defined as a diary day with variable No or almost no eczema?=yes and medication used variable=no except emollients, yellow label medication 2X day, or medication deviation of yellow label medication 1x day."||0.0381|-0.0290|0.7901
82641177|NCT01683331|164997088|SUPERIORITY||Odds Ratio (OR)|1.03||||0.87|TWO_SIDED|95.0|1.01|1.06|||Chi-squared|||||1.06|1.01|0.87
82390330|NCT00380081|164492319|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390331|NCT00380081|164492320|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390332|NCT00380081|164492321|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390333|NCT00380081|164492322|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||The outcome noted above reflects the all-night sleep quality rating of study subjects who had a scheduled awakening after approximately 4 hours of sleep, were kept awake for 30 minutes and then allowed to return to bed and to sleep. After 4 hours, they were awakened again and disconnected from the PSG apparatus. Morning testing was conducted that included the Sleep Quality questionnaire. Evaluation of the results should reflect the nature of the study and the scheduled sleep disturbance.||||<0.001
82390334|NCT00380081|164492323|SUPERIORITY_OR_OTHER||||||<|0.004||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||<0.004
82390335|NCT00380081|164492324|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Treatment effect|Cochran-Mantel-Haenszel|||||||0.012
82390336|NCT00380081|164492325|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390337|NCT00380081|164492326|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Treatment effect|ANCOVA|||||||<0.001
82390338|NCT00380081|164492327|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||Treatment effect|ANCOVA|||||||0.790
82390339|NCT00380081|164492328|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||Treatment effect|ANCOVA|||||||0.083
82390340|NCT00380081|164492329|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||Treatment effect|ANCOVA|||||||0.072
82390341|NCT00380081|164492329|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Period effect|ANCOVA|||||||<0.001
82390342|NCT00380081|164492330|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||Treatment effect|ANCOVA|||||||0.017
82390343|NCT02231879|164492348|SUPERIORITY|This is a two-sided test, with the null hypothesis that the distribution of the difference scores is the same in both arms.||||||0.65||||||Not adjusted for multiple comparisons, since this is the only pre-specified primary analysis. P\<=0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||This was a pre-specified primary analysis plan, and the two arms are compared with a Wilcoxon-Mann-Whitney test on the primary outcome. This is non-standard (since both arms contain both treatment groups), however, it is a valid test by randomization since it is a permutation test. The statistic of TISS in Period 1 minus TISS in Period 2 was chosen so that even if there are carry-over effects this will give a valid test.||||0.65
82390344|NCT02231879|164492348|SUPERIORITY||||||<|0.0001||||||Not adjusted for multiple comparisons, one-sided test, a priori significance set at 0.025|McNemar|||Maintenance of absolute lymphocyte count greater than 1000 cells/microliter measured 3 hours after a dose for plerixafor as compared to G-CSF||||<0.0001
82390345|NCT02231879|164492348|NON_INFERIORITY|Pre-specified non-inferiority margin of 0.40 which was estimated to be about 50% of the effect size of G-CSF versus placebo.||||||0.023||||||Not adjusted for multiple comparisons, one-sided test, a priori significance set at 0.025|McNemar|||Maintenance of absolute neutrophil counts \>500 cells/microliter for G-CSF versus plerixafor measured as the proportion of successes (75% of measured) while on G-CSF minus the proportion on plerixafor||||0.023
82426894|NCT01585025|164562080|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Paired comparison of fasting FGF19 at baseline on day 0 and on day 14 of OCA treatment||||0.12
82426895|NCT01585025|164562081|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.72
82641178|NCT01683331|164997089|SUPERIORITY||Odds Ratio (OR)|1.3||||0.92|TWO_SIDED|95.0|1.2|2.8|||Chi-squared|||||2.8|1.2|0.92
82526296|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Endpoint combined AM/PM 2hr postprandial.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.002
82526297|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value is for Baseline AM/PM 2hr postprandial excursion.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.281
82641179|NCT05604521|164997091|SUPERIORITY|||||||0.3944|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any local solicited AEs after any vaccination.||||0.3944
82526298|NCT00279201|164749067|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint AM/PM 2hr postprandial excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||<0.001
82526299|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||P-value is for Baseline mean all blood glucose values.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.588
82526300|NCT00279201|164749067|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||P-value is for Endpoint mean all blood glucose values.|ANCOVA|Response = Treatment + Baseline + Country + TZD + Sulfo use.||||||0.217
82641180|NCT05604521|164997091|SUPERIORITY|||||||0.3717|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any systemic solicited AEs after any vaccination.||||0.3717
82526301|NCT00279201|164749068|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use, and sulfo use in the model.||||||0.300
82526302|NCT00279201|164749069|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value for \<=7.0%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.134
82641181|NCT05604521|164997091|SUPERIORITY|||||||1|||||||Fisher Exact|||Null hypothesis: There is no statistically significant difference between the vaccine and control groups in the proportion of participants experiencing any related unsolicited AEs after any vaccination.||||1.0
82526303|NCT00279201|164749069|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for \<7.0%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.089
82574180|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-0.86|0.87||||||Week 6-HSS0102-Tenderness At It's Worst||0.87|-0.86|
82526304|NCT00279201|164749069|SUPERIORITY_OR_OTHER|||||||0.235||95.0||||P-value is for \<=6.5%.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.235
82526305|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 24.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526306|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 36.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526307|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 48.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526308|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 60.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526309|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 72.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526310|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 84.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526311|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 96.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526312|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Week 108|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526313|NCT00279201|164749070|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Change from baseline at Week 120.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||0.002
82574181|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.542|||TWO_SIDED|90.0|-0.81|0.99||||||Week 8-HSS0102-Tenderness At It's Worst||0.99|-0.81|
82574182|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.11|0.62||||||Week 8-HSS0102-Tenderness At It's Worst||0.62|-1.11|
82574183|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.549|||TWO_SIDED|90.0|-0.56|1.25||||||Week 8-HSS0102-Tenderness At It's Worst||1.25|-0.56|
82526314|NCT00279201|164749070|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Change from baseline at Endpoint.|ANCOVA|Model: Response = Treatment + Baseline + Country + TZD use + sulfonylurea use.||||||<0.001
82526315|NCT00279201|164749071|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use, and sulfo use in model.||||||0.128
82526316|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82426896|NCT01585025|164562081|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.51
82426897|NCT01585025|164562081|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change in FGF19 AUC||||0.13
82526317|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 36.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526318|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 48.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526319|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 60.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526320|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 72.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526321|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 84.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526322|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 96.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526323|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 108.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526324|NCT00279201|164749071|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for Week 120.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||0.002
82526325|NCT00279201|164749071|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use + Sulfo Use.||||||<0.001
82526326|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 24.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526327|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 36.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526328|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 48.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526329|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 60.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82574184|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.554|||TWO_SIDED|90.0|-0.87|0.97||||||Week 12-HSS0102-Tenderness At It's Worst||0.97|-0.87|
82574185|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.49|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.36|0.38||||||Week 12-HSS0102-Tenderness At It's Worst||0.38|-1.36|
82574186|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.552|||TWO_SIDED|90.0|-0.9|0.93||||||Week 12-HSS0102-Tenderness At It's Worst||0.93|-0.90|
82574187|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.606|||TWO_SIDED|90.0|-0.96|1.04||||||Week 16-HSS0102-Tenderness At It's Worst||1.04|-0.96|
82574188|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.24|STANDARD_ERROR_OF_MEAN|0.577|||TWO_SIDED|90.0|-2.19|-0.29||||||Week 16-HSS0102-Tenderness At It's Worst||-0.29|-2.19|
82390346|NCT00459706|164492349|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority test was performed using the 95 percent (%) two-sided confidence interval (CI) of the difference (AI minus PFS) of mean subject satisfactions (α = 2.5%).~Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI \> -1."|Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.71|1.5|||ANOVA|ANOVA=analysis of variance||Non-inferiority of autoinjector (AI) over prefilled syringe (PFS) was assessed on the primary endpoint. Hypothesis tested was H0: AI minus PFS less than or equal to (≤) -1. The alternate hypothesis was H1: AI minus PFS greater than (\>) -1.||1.50|0.71|<0.001
82390347|NCT00459706|164492350|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority test was performed using the 95% two-sided CI of the difference (AI minus PFS) of mean subject satisfactions (α = 2.5%).~Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI \> -1."|Mean Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.85|1.64|||ANOVA|||"Non-inferiority of AI over PFS was assessed on the primary endpoint. The hypotheses tested was as follows:~H0: AI - PFS ≤ -1 H1: AI - PFS \> -1"||1.64|0.85|<0.001
82390348|NCT00459706|164492351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.058|TWO_SIDED|95.0|0.98|3.05|||GEE Model+Logit Link+Binomial Distributn|GEE=Generalized estimating equation Distribn=distribution||||3.05|0.98|0.058
82390349|NCT00459706|164492352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.019|TWO_SIDED|95.0|1.12|3.43|||GEE Model+Logit Link+Binomial Distributn|||||3.43|1.12|0.019
82526330|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 72.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526331|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 84.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82390350|NCT00459706|164492353|SUPERIORITY_OR_OTHER||Regression coefficient|0.11||||0.16|TWO_SIDED|95.0|-0.04|0.27|||Regression, Linear|||All categories||0.27|-0.04|0.160
82390351|NCT00459706|164492354|SUPERIORITY_OR_OTHER||Regression coefficients|-0.75||||0.001|TWO_SIDED|95.0|-1.2|-0.29|||Regression, Linear|||Female versus male (reference).||-0.29|-1.20|0.001
82526332|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 96.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82574189|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 16-HSS0102-Tenderness At It's Worst||-0.11|-2.11|
82574190|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.284|||TWO_SIDED|90.0|-0.57|0.37||||||Week 1-HSS0103-Swelling At It's Worst||0.37|-0.57|
82574191|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.69|0.22||||||Week 1-HSS0103-Swelling At It's Worst||0.22|-0.69|
82390352|NCT00459706|164492355|SUPERIORITY_OR_OTHER||Regression coefficient|-0.18||||0.676|TWO_SIDED|95.0|-0.62|0.26|||Regression, Linear|||Participants at High School/Baccalaureate Level versus participants with only Reading/Writing Capacity (reference).||0.26|-0.62|0.676
82390353|NCT00459706|164492355|SUPERIORITY_OR_OTHER||Regression coefficient|0.0||||0.676|TWO_SIDED|95.0|-0.59|0.6|||Regression, Linear|||Participants at University Level versus participants with only Reading/Writing Capacity (reference).||0.60|-0.59|0.676
82390354|NCT00459706|164492356|SUPERIORITY_OR_OTHER||Regression coefficient|-0.28||||0.02|TWO_SIDED|95.0|-0.52|-0.05|||Regression, Linear|||All categories||-0.05|-0.52|0.020
82390355|NCT00459706|164492357|SUPERIORITY_OR_OTHER||Regression coefficient|-0.35||||0.008|TWO_SIDED|95.0|-0.61|-0.09|||Regression, Linear|||All categories||-0.09|-0.61|0.008
82526333|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 108.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526334|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Week 120.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82526335|NCT00279201|164749072|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Endpoint.|ANOVA|Model: Treatment + Country + TZD use + sulfonylurea use.||||||<0.001
82574192|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.285|||TWO_SIDED|90.0|-0.94|0.01||||||Week 1-HSS0103-Swelling At It's Worst||0.01|-0.94|
82574193|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.24|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.83|0.35||||||Week 2-HSS0103-Swelling At It's Worst||0.35|-0.83|
82647824|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-3.2||||0.008|TWO_SIDED|95.0|-5.6|-0.8||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|Mixed Model for Repeated Measures (MMRM)|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.8|-5.6|0.008
82390356|NCT00459706|164492358|SUPERIORITY_OR_OTHER||Regression coefficient|0.17||||0.03|TWO_SIDED|95.0|0.02|0.32|||Regression, Linear|||All categories||0.32|0.02|0.030
82390357|NCT00459706|164492359|SUPERIORITY_OR_OTHER||Regression coefficient|-0.6||||0.006|TWO_SIDED|95.0|-1.03|-0.18|||Regression, Linear|||Self-injection Experience versus No Self-injection Experience (reference).||-0.18|-1.03|0.006
82526336|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||P-value is for Overall hypoglycemic episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.370
82526337|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-Value for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.006
82390358|NCT00459706|164492360|SUPERIORITY_OR_OTHER||Regression coefficient|0.06||||0.278|TWO_SIDED|95.0|-0.05|0.18|||Regression, Linear|||All categories||0.18|-0.05|0.278
82390359|NCT00459706|164492361|SUPERIORITY_OR_OTHER||Regression coefficient|0.03||||0.749|TWO_SIDED|95.0|-0.15|0.21|||Regression, Linear|||All categories||0.21|-0.15|0.749
82390360|NCT00459706|164492362|SUPERIORITY_OR_OTHER||Regression coefficient|-0.08||||0.105|TWO_SIDED|95.0|-0.18|0.02|||Regression, Linear|||All categories||0.02|-0.18|0.105
82526338|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.397
82526339|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.253
82526340|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||P-value is for Severe episodes endpoint.|Cochran-Mantel-Haenszel|Controlling for country, TZD use, and sulfo use.||||||0.893
82526341|NCT00279201|164749073|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country, TZD use, and sulfo use.||||||0.391
82526342|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.497||95.0||||P-value for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.497
82574194|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|90.0|-1.03|0.11||||||Week 2-HSS0103-Swelling At It's Worst||0.11|-1.03|
82574195|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.99|0.19||||||Week 2-HSS0103-Swelling At It's Worst||0.19|-0.99|
82390361|NCT00459706|164492363|SUPERIORITY_OR_OTHER||Regression coefficient|0.01||||0.819|TWO_SIDED|95.0|-0.1|0.12|||Regression, Linear|||All categories||0.12|-0.10|0.819
82574196|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.446|||TWO_SIDED|90.0|-0.58|0.9||||||Week 4-HSS0103-Swelling At It's Worst||0.90|-0.58|
82574197|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.424|||TWO_SIDED|90.0|-0.87|0.53||||||Week 4-HSS0103-Swelling At It's Worst||0.53|-0.87|
82574198|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|90.0|-0.65|0.82||||||Week 4-HSS0103-Swelling At It's Worst||0.82|-0.65|
82390362|NCT00459706|164492364|SUPERIORITY_OR_OTHER||Regression coefficient|-0.39||||0.012|TWO_SIDED|95.0|-0.69|-0.09|||Regression, Linear|||All categories, by 1-unit increments.||-0.09|-0.69|0.012
82526343|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.071
82526344|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.065
82526345|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.021
82526346|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P-value is for Severe episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.200
82526347|NCT00279201|164749074|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.208
82526348|NCT00279201|164749075|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, TZD use and sulfo use.||||||0.004
82574199|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|90.0|-0.15|1.54||||||Week 6-HSS0103-Swelling At It's Worst||1.54|-0.15|
82526349|NCT00279201|164749076|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value is for Baseline at Week 0.|ANOVA|ANOVA used with treatment, country, TZD use and Sulfo use in the model.||||||0.204
82526350|NCT00279201|164749076|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-Value is for Change from baseline to endpoint.|ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use and sulfo use in the model.||||||0.017
82526351|NCT00279201|164749076|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for Change Week 24 to Week 120 endpoint.|ANCOVA|ANCOVA used with treatment, Baseline HbA1c, country, TZD use and sulfo use in the model.||||||0.020
82390363|NCT00459706|164492365|SUPERIORITY_OR_OTHER||Regression coefficient|-0.1||||0.541|TWO_SIDED|95.0|-0.52|0.32|||Regression, Linear|||2 DMARDs versus 1 DMARD (reference).||0.32|-0.52|0.541
82390364|NCT00459706|164492365|SUPERIORITY_OR_OTHER||Regression coefficient|-0.14||||0.541|TWO_SIDED|95.0|-0.97|0.68|||Regression, Linear|||3 DMARDs versus 1 DMARD (reference).||0.68|-0.97|0.541
82390365|NCT00459706|164492365|SUPERIORITY_OR_OTHER||Regression coefficient|1.72||||0.541|TWO_SIDED|95.0|-0.82|4.25|||Regression, Linear|||At least 4 DMARDs versus 1 DMARD (reference).||4.25|-0.82|0.541
82390366|NCT00459706|164492366|SUPERIORITY_OR_OTHER||Regression coefficient|-0.15||||0.465|TWO_SIDED|95.0|-0.55|0.25|||Regression, Linear|||Prior Injection Experience versus No Prior Injection Experience (reference)||0.25|-0.55|0.465
82390367|NCT00459706|164492367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.29||0.154|TWO_SIDED|95.0|-0.97|0.15|||ANOVA|||||0.15|-0.97|0.154
82526352|NCT00279201|164749077|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.036
82526353|NCT00279201|164749078|SUPERIORITY_OR_OTHER|||||||0.708||95.0|||||ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.708
82390368|NCT00459706|164492368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.17||0.212|TWO_SIDED|95.0|-0.12|0.56|||ANOVA|||||0.56|-0.12|0.212
82574200|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.493|||TWO_SIDED|90.0|-0.83|0.8||||||Week 6-HSS0103-Swelling At It's Worst||0.80|-0.83|
82574201|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.513|||TWO_SIDED|90.0|-0.62|1.08||||||Week 6-HSS0103-Swelling At It's Worst||1.08|-0.62|
82574202|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.29|STANDARD_ERROR_OF_MEAN|0.507|||TWO_SIDED|90.0|-0.55|1.13||||||Week 8-HSS0103-Swelling At It's Worst||1.13|-0.55|
82574203|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-0.81|0.81||||||Week 8-HSS0103-Swelling At It's Worst||0.81|-0.81|
82390369|NCT00459706|164492369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.19||0.965|TWO_SIDED|95.0|-0.39|0.37|||ANOVA|||||0.37|-0.39|0.965
82390370|NCT00459706|164492370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.19||0.519|TWO_SIDED|95.0|-0.25|0.5|||ANOVA|||||0.50|-0.25|0.519
82390371|NCT00459706|164492371|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85|||<|0.001|TWO_SIDED|95.0|1.33|2.57|||GEE model+logit link+multinomial distrib|||Day 84||2.57|1.33|<0.001
82390372|NCT00459706|164492372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.007|TWO_SIDED|95.0|1.14|2.29|||GEE model+logit link+multinomial distrib|||||2.29|1.14|0.007
82390373|NCT00459706|164492373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.002|TWO_SIDED|95.0|1.26|2.92|||GEE model+logit link+multinomial distrib|||||2.92|1.26|0.002
82426898|NCT01585025|164562082|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.03
82526354|NCT00279201|164749079|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and Sulfo use.||||||0.028
82526355|NCT00279201|164749080|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Cochran-Mantel-Haenszel|Stratified by country, TZD use, and sulfo use.||||||0.738
82526356|NCT00279201|164749081|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||<0.001
82526357|NCT00279201|164749082|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.043
82526358|NCT00279201|164749083|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||<0.001
82574204|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.514|||TWO_SIDED|90.0|-0.35|1.35||||||Week 8-HSS0103-Swelling At It's Worst||1.35|-0.35|
82574205|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-0.81|0.95||||||Week 12-HSS0103-Swelling At It's Worst||0.95|-0.81|
82526359|NCT00279201|164749084|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country, TZD use, and sulfo use.||||||0.032
82526360|NCT00279201|164749085|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value is for Sulfonylurea/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.037
82526361|NCT00279201|164749085|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for Sulfonylurea/metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.025
82526362|NCT00279201|164749085|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value is for Metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.132
82526363|NCT00279201|164749085|SUPERIORITY_OR_OTHER|||||||0.849||95.0||||P-value is for Sulfonylurea/metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.849
82526364|NCT00279201|164749086|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for Sulfonylurea/TZD|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.006
82526365|NCT00279201|164749086|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||P-value is for Sulfonylurea/metformin.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.048
82526366|NCT00279201|164749086|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for Metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.258
82526367|NCT00279201|164749086|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value is for Sulfonylurea/metformin/TZD.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by country only.||||||0.848
82526368|NCT00279201|164749087|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.004
82526369|NCT00279201|164749088|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.553
82526370|NCT00279201|164749089|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value is for Mean of all post meals blood glucose.|ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.010
82526371|NCT00279201|164749089|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-value is for Average of all blood glucose.|ANOVA|ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.035
82390374|NCT00459706|164492374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.001|TWO_SIDED|95.0|1.65|3.46|||GEE model+logit link+multinomial distrib|||||3.46|1.65|<0.001
82526372|NCT00279201|164749090|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value is for Mean of post-meals blood glucose.|ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.516
82526373|NCT00279201|164749090|SUPERIORITY_OR_OTHER|||||||0.425||95.0||||P-value is for Average of all blood glucose.|ANOVA|From ANOVA with maintained goal/did not maintain goal, country, TZD use, and sulfo use in model.||||||0.425
82526374|NCT00279201|164749091|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.770
82526375|NCT00279201|164749091|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
82526376|NCT00279201|164749091|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.552
82526377|NCT00279201|164749091|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
82526378|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for \<=7.0%.|Fisher Exact|||||||0.027
82526379|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for \<7.0%.|Fisher Exact|||||||0.021
82526380|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||0.799||95.0||||P-value is for \<=6.5%.|Fisher Exact|||||||0.799
82526381|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||P-value is for \<=7.0%.|Fisher Exact|||||||0.676
82526382|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for \<7.0%.|Fisher Exact|||||||1.000
82526383|NCT00279201|164749092|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for \<=6.5%.|Fisher Exact|||||||1.000
82526384|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value is for Mean fast blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.241
82526385|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.305||95.0||||P-value is for AM 2-hour postprandial (PP) BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.305
82526386|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.842||95.0||||P-value is for Midday premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.842
82526387|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.917||95.0||||P-value is for Midday 2-hour (hr) PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.917
82526388|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.648||95.0||||P-value is for PM premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.648
82390375|NCT00459706|164492375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06|||<|0.001|TWO_SIDED|95.0|1.5|2.83|||GEE model+logit link+multinomial distrib|||||2.83|1.50|<0.001
82390376|NCT00459706|164492376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.44|2.78|||GEE model+logit link+multinomial distrib|||||2.78|1.44|<0.001
82390377|NCT00459706|164492377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.184|TWO_SIDED|95.0|0.9|1.72|||GEE model+logit link+multinomial distrib|||||1.72|0.90|0.184
82390378|NCT00459706|164492378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.106|TWO_SIDED|95.0|0.94|1.85|||GEE model+logit link+multinomial distrib|||||1.85|0.94|0.106
82443932|NCT03007745|164596517|SUPERIORITY||Mean Difference (Net)|-3.31|STANDARD_DEVIATION|4.86|<|0.0001|ONE_SIDED|||||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group|t-test, 2 sided|||Paired t-test comparing baseline and 3-month measures within group||||<0.0001
82443933|NCT03007745|164596517|SUPERIORITY||Mean Difference (Net)|-3.51|STANDARD_DEVIATION|5.52|<|0.0001|TWO_SIDED|||||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group|t-test, 2 sided|||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group||||<0.0001
82526389|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.613||95.0||||P-value is for PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.613
82526390|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.813
82526391|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for AM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.953
82526392|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||P-value is for Midday 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.933
82526393|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.348||95.0||||P-value is for PM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.348
82526394|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.625||95.0||||P-value is for Mean all mealtime excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.625
82526395|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.573||95.0||||P-value is for Mean all 2-hour PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.573
82526396|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.711||95.0||||P-value is for Mean all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.711
82526397|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-value is for Mean combined AM/PM 2hr PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.372
82574206|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.3|0.37||||||Week 12-HSS0103-Swelling At It's Worst||0.37|-1.30|
82390379|NCT00459706|164492379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.112|TWO_SIDED|95.0|0.93|1.96|||GEE model+logit link+multinomial distrib|||||1.96|0.93|0.112
82390380|NCT00459706|164492380|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.21|2.24|||GEE model+logit link+multinomial distrib|||||2.24|1.21|0.002
82526398|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value is for Mean AM/PM 2hr BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.516
82526399|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||P-value is for Mean all BG values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.639
82526400|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||P-value is for Mean fast blood glucose (BG).|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.131
82526401|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||P-value is for AM 2-hour postprandial (PP) BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.530
82526402|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||P-value is for Midday premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.578
82526403|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for Midday 2-hour (hr) PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.004
82526404|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.951||95.0||||P-value is for PM premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.951
82526405|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||P-value is for PM 2-hour postprandial BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.580
82526406|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value is for 3 AM blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.071
82526407|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-value is for AM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.081
82526408|NCT00279201|164749093|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for Midday 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||<0.001
82526409|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.542||95.0||||P-value is for PM 2-hour BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.542
82526410|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for Mean all mealtime excursions.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.003
82390381|NCT00459706|164492381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57|||<|0.001|TWO_SIDED|95.0|0.41|0.78|||GEE model+logit link+multinomial distrib|||||0.78|0.41|<0.001
82390382|NCT00459706|164492382|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.022|TWO_SIDED|95.0|0.47|0.94|||GEE model+logit link+multinomial distrib|||||0.94|0.47|0.022
82390383|NCT00459706|164492383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.009|TWO_SIDED|95.0|0.46|0.89|||GEE model+logit link+multinomial distrib|||||0.89|0.46|0.009
82390384|NCT00459706|164492384|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.007|TWO_SIDED|95.0|0.45|0.88|||GEE model+logit link+multinomial distrib|||||0.88|0.45|0.007
82390385|NCT00459706|164492385|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.014|TWO_SIDED|95.0|0.47|0.92|||GEE model+logit link+multinomial distrib|||||0.92|0.47|0.014
82526411|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.105||95.0||||P-value is for Mean all 2-hour PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.105
82526412|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||P-value is for Mean all premeal blood glucose.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.487
82526413|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||P-value is for Mean combined AM/PM 2hr PP BG.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.491
82526414|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-value is for Mean AM/PM 2hr BG excursion.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.127
82390386|NCT00459706|164492386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.88|||GEE model+logit link+multinomial distrib|||||2.88|1.53|<0.001
82390387|NCT00459706|164492387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.57|2.91|||GEE model+logit link+multinomial distrib|||||2.91|1.57|<0.001
82390388|NCT00459706|164492388|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|2.23|4.25|||GEE model+logit link+multinomial distrib|||||4.25|2.23|<0.001
82390389|NCT00459706|164492389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88|||<|0.001|TWO_SIDED|95.0|1.35|2.62|||GEE model+logit link+multinomial distrib|||||2.62|1.35|<0.001
82390390|NCT00459706|164492390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.18|0.34|||GEE model+logit link+multinomial distrib|||||0.34|0.18|<0.001
82390391|NCT00459706|164492391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26|||<|0.001|TWO_SIDED|95.0|0.19|0.36|||GEE model+logit link+multinomial distrib|||||0.36|0.19|<0.001
82390392|NCT00459706|164492392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.2|0.36|||GEE model+logit link+multinomial distrib|||||0.36|0.20|<0.001
82526415|NCT00279201|164749093|SUPERIORITY_OR_OTHER|||||||0.861||95.0||||P-value is for Mean all BG values.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.861
82526416|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.745
82526417|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.467||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.467
82526418|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.575
82526419|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.726
82390393|NCT00459706|164492393|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.196|TWO_SIDED|95.0|0.61|1.11|||GEE model+logit link+multinomial distrib|||||1.11|0.61|0.196
82526420|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.978
82526421|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.345
82526422|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.166
82574207|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.92|0.84||||||Week 12-HSS0103-Swelling At It's Worst||0.84|-0.92|
82574208|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|90.0|-0.75|1.2||||||Week 16-HSS0103-Swelling At It's Worst||1.20|-0.75|
82390394|NCT00459706|164492394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.001|TWO_SIDED|95.0|1.25|2.42|||GEE model+logit link+multinomial distrib|||||2.42|1.25|0.001
82526423|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.064
82526424|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.199
82526425|NCT00279201|164749094|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.098
82526426|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.467||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, and TZD use in model.||||||0.467
82574209|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.06|STANDARD_ERROR_OF_MEAN|0.561|||TWO_SIDED|90.0|-1.99|-0.13||||||Week 16-HSS0103-Swelling At It's Worst||-0.13|-1.99|
82641182|NCT01491737|164997092|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.007|TWO_SIDED|95.0|0.48|0.89||Test was performed at 2-sided alpha of 5%.|Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Primary Analysis. Log Rank tested the following: Null Hypothesis (H0): the distribution of the PFS time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the PFS time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to PFS was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||0.89|0.48|0.0070
82641183|NCT01491737|164997092|OTHER|Exploratory|Hazard Ratio (HR)|0.67||||0.0059|TWO_SIDED|95.0|0.5|0.89|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Final Analysis||0.89|0.50|0.0059
82641184|NCT01491737|164997093|OTHER|Exploratory|Hazard Ratio (HR)|1.15||||0.585|TWO_SIDED|95.0|0.69|1.91|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Primary Analysis. This study was not powered for overall survival (OS), so adequately powered statistical testing for this outcome measure was not possible.||1.91|0.69|0.5850
82641185|NCT01491737|164997093|OTHER|Exploratory|Hazard Ratio (HR)|1.05||||0.7833|TWO_SIDED|95.0|0.73|1.52|||Log Rank|Stratified log-rank test based upon Kaplan-Meier including induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Hazard ratio comparing Arm A vs. B from stratified Cox proportional hazards model including stratification factors.|Final Analysis. This study was not powered for overall survival (OS), so adequately powered statistical testing for this outcome measure was not possible.||1.52|0.73|0.7833
82641186|NCT01491737|164997094|SUPERIORITY||Difference in ORR|7.6||||0.2537|TWO_SIDED|95.0|-6.0|21.3||Test was performed at 2-sided alpha of 5%. There was no multiplicity adjustment.|Chi-squared|||ORR for Arm A vs Arm B||21.3|-6.0|0.2537
82390395|NCT00459706|164492395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.21|0.42|||GEE model+logit link+multinomial distrib|||||0.42|0.21|<0.001
82526427|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.575
82641187|NCT01491737|164997095|SUPERIORITY||Difference in CBR|1.8||||0.7743|TWO_SIDED|95.0|-11.2|14.8||Test was performed at 2-sided alpha of 5%. There was no multiplicity adjustment.|Chi-squared|||CBR for Arm A vs. Arm B||14.8|-11.2|0.7743
82526428|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.726
82574210|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.02|STANDARD_ERROR_OF_MEAN|0.586|||TWO_SIDED|90.0|-1.99|-0.05||||||Week 16-HSS0103-Swelling At It's Worst||-0.05|-1.99|
82390396|NCT00459706|164492396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<|0.001|TWO_SIDED|95.0|0.29|0.56|||GEE model+logit link+multinomial distrib|||||0.56|0.29|<0.001
82390397|NCT00459706|164492397|SUPERIORITY_OR_OTHER|||||||0.896|TWO_SIDED||||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.896
82390398|NCT00459706|164492397|SUPERIORITY_OR_OTHER|||||||0.166|TWO_SIDED||||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.166
82526429|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.978
82526430|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.345
82390399|NCT00459706|164492398|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.069
82390400|NCT00459706|164492398|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.015
82390401|NCT00459706|164492399|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.069
82390402|NCT00459706|164492399|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.015
82390403|NCT00459706|164492400|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
82390404|NCT00459706|164492400|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
82526431|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, and TZD use in model.||||||0.745
82390405|NCT00459706|164492401|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
82526432|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Week 6.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.166
82526433|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.064
82574211|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.27|0.59||||||Week 1-HSS0104-Tiredness At It's Worst||0.59|-0.27|
82390406|NCT00459706|164492401|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
82390407|NCT00459706|164492402|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.652
82390408|NCT00459706|164492402|SUPERIORITY_OR_OTHER|||||||0.459||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.459
82390409|NCT00459706|164492403|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.023
82390410|NCT00459706|164492403|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
82390411|NCT00459706|164492404|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.038
82390412|NCT00459706|164492404|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
82390413|NCT00459706|164492405|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.018
82390414|NCT00459706|164492405|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.019
82390415|NCT00459706|164492406|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.049
82526434|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.199||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.199
82526435|NCT00279201|164749095|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.098
82526436|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.837
82526437|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.205
82526438|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.704
82390416|NCT00459706|164492406|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.736
82526439|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.610
82526440|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.352
82390417|NCT00459706|164492407|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.033
82390418|NCT00459706|164492407|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.730
82390419|NCT00459706|164492408|SUPERIORITY_OR_OTHER|||||||0.838||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.838
82426899|NCT01585025|164562082|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.11
82526441|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.636
82526442|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.880
82526443|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.904||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.904
82526444|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.859||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.859
82574212|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|-0.99|-0.15||||||Week 1-HSS0104-Tiredness At It's Worst||-0.15|-0.99|
82390420|NCT00459706|164492408|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.483
82390421|NCT00459706|164492409|SUPERIORITY_OR_OTHER|||||||0.466||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.466
82390422|NCT00459706|164492409|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.035
82390423|NCT00459706|164492410|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.784
82390424|NCT00459706|164492410|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.006
82526445|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.654
82526446|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.566
82526447|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.926||95.0||||P-value is for Week 1.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.926
82526448|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value is for Week 2.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.902
82526449|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||P-value is for Week 3.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.766
82526450|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.449||95.0||||P-value is for Week 4.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.449
82526451|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-value is for Week 5.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.797
82526452|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||P-value is for Week 6.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.438
82526453|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||P-value is for Week 8.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.602
82526454|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.493||95.0||||P-value is for Week 10.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.493
82526455|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.335||95.0||||P-value is for Week 12.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.335
82526456|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.398||95.0||||P-value is for Week 24.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.398
82526457|NCT00279201|164749096|SUPERIORITY_OR_OTHER|||||||0.903||95.0||||P-value is for Endpoint.|ANOVA|ANOVA with treatment, country, TZD use in the model.||||||0.903
82526458|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for Hypoglycemia episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.953
82526459|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value is for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.953
82526460|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.188
82526461|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.226
82526462|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.855||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.855
82526463|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P-value is for Hypoglycemia episodes at endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.250
82526464|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-value is for Overall hypoglycemia episodes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.123
82526465|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-value is for Severe episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.166
82526466|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value is for Nocturnal episodes endpoint.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.273
82526467|NCT00279201|164749097|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for Nocturnal episodes overall.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic controlling for country and TZD use.||||||0.039
82526468|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.623
82526469|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-value is for Hypoglycemic episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.949
82526470|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is for Hypoglycemia episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.730
82526471|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value is for Hypoglycemia episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.445
82526472|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.949
82526473|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.590
82526474|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value is for Nocturnal episodes Endpoint.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.657
82526475|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value is for Nocturnal episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.108
82390425|NCT00459706|164492411|SUPERIORITY_OR_OTHER|||||||0.843||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.843
82390426|NCT00459706|164492411|SUPERIORITY_OR_OTHER|||||||0.461||95.0|||||ANOVA|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.461
82390427|NCT00459706|164492412|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.150
82526476|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.161
82526477|NCT00279201|164749098|SUPERIORITY_OR_OTHER|||||||0.178||95.0||||P-value is for Severe episodes Overall.|ANOVA|Response = Treatment + Country + TZD use + Sulfo use.||||||0.178
82526478|NCT00279201|164749099|SUPERIORITY_OR_OTHER|||||||0.917||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.917
82526479|NCT00279201|164749099|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||P-value for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.754
82526480|NCT00279201|164749099|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value is for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, and TZD use.||||||0.420
82390428|NCT00459706|164492412|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.002
82526481|NCT00279201|164749099|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-value for Change.|ANCOVA|ANCOVA model with treatment, baseline, country, and TZD use.||||||0.514
82526482|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.770
82574213|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.35|0.52||||||Week 1-HSS0104-Tiredness At It's Worst||0.52|-0.35|
82390429|NCT00459706|164492413|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
82390430|NCT00459706|164492413|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
82390431|NCT00459706|164492414|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
82526483|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.566
82526484|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.812||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.812
82526485|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.990
82526486|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||P-value is for Baseline.|ANOVA|ANOVA with treatment, country, TZD use in model.||||||0.552
82526487|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for Week 12.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.179
82526488|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.377||95.0||||P-value is for Week 24.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.377
82526489|NCT00279201|164749100|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value is for Endpoint.|ANCOVA|Response = Treatment + Baseline + Country + TZD use.||||||0.271
82526490|NCT00916032|164749101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103||95.0|||||paired t-test done on the Log(AUC 0-48h)|||||||0.103
82526491|NCT00916032|164749102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162||95.0|||||paired t-test done on the Log(AUC 0-48h)|||||||0.162
82390432|NCT00459706|164492414|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
82390433|NCT00459706|164492415|SUPERIORITY_OR_OTHER|||||||0.934||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Autoinjector group||||0.934
82390434|NCT00459706|164492415|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Cochran-Mantel-Haenszel|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||0.656
82390435|NCT00459706|164492416|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Autoinjector group||||<0.001
82426900|NCT01585025|164562082|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in fasting C4||||0.02
82526492|NCT03881696|164749144|SUPERIORITY||Odds Ratio (OR)|27.853|||<|1e-05|TWO_SIDED|95.0|9.1274|111.2144||The a priori threshold for statistical significance was p \< 0.0001 at the interim analysis OR p \< 0.05 at the final analysis. Gatekeeping and multiple testing strategies were performed to ensure the overall family-wise error rate was ≤ 5%.|Fisher Exact||The odds ratio (OR) represents the odds of success among subjects randomized to omalizumab (numerator) compared to the odds of success among subjects randomized to placebo (denominator, reference group).|The null hypothesis is that the odds of 'success' (defined as consumption of a single dose of ≥600 mg of peanut protein without dose-limiting symptoms during the DBPCFC at the end of Stage 1) in omalizumab and placebo for omalizumab arms are equal. Participants missing the blinded OFC to peanut at the end of Stage 1 will be considered a 'failure' for the primary efficacy endpoint.||111.2144|9.1274|<0.00001
82526493|NCT01061333|164749240|SUPERIORITY_OR_OTHER||Difference in LS mean|16.22|||<|0.0001|TWO_SIDED|90.0|10.74|21.69||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||21.69|10.74|<0.0001
82526494|NCT01061333|164749240|SUPERIORITY_OR_OTHER||Difference in LS Mean|15.51||||0.0001|TWO_SIDED|90.0|10.0|21.02||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||21.02|10.00|0.0001
82574214|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.54|0.65||||||Week 2-HSS0104-Tiredness At It's Worst||0.65|-0.54|
82390436|NCT00459706|164492416|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||p-value for statistical difference between 3 clusters in the Prefilled Syringe group||||<0.001
82526495|NCT01061333|164749240|SUPERIORITY_OR_OTHER||Difference in LS Mean|8.49||||0.0432|TWO_SIDED|90.0|1.78|15.2||p-value not adjusted for simultaneous multiple comparisons|ANCOVA|||||15.20|1.78|0.0432
82574215|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.44|STANDARD_ERROR_OF_MEAN|0.344|||TWO_SIDED|90.0|-1.01|0.13||||||Week 2-HSS0104-Tiredness At It's Worst||0.13|-1.01|
82574216|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.356|||TWO_SIDED|90.0|-0.33|0.85||||||Week 2-HSS0104-Tiredness At It's Worst||0.85|-0.33|
82426901|NCT01585025|164562083|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.02
82526496|NCT01061333|164749241|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.27||||0.043|TWO_SIDED|90.0|1.05|1.54||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.54|1.05|0.0430
82426241|NCT02164864|164561465|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.58|0.88||P-values for non-inferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the second step in hierarchy. The upper bound of the Wald confidence interval (CI) of the HR of Dabigatran Etexilate 150mg vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority||0.88|0.58|<.0001
82526497|NCT01061333|164749241|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.41||||0.01|TWO_SIDED|90.0|1.15|1.72||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.72|1.15|0.0100
82426902|NCT01585025|164562083|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.04
82526498|NCT01061333|164749241|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|1.3||||0.086|TWO_SIDED|90.0|1.01|1.67||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.67|1.01|0.0860
82526499|NCT01061333|164749242|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.59|||<|0.0001|TWO_SIDED|90.0|0.5|0.7||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.70|0.50|<0.0001
82426903|NCT01585025|164562083|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Change in bile acid 6h AUC||||0.02
82574217|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.12|STANDARD_ERROR_OF_MEAN|0.434|||TWO_SIDED|90.0|-0.83|0.6||||||Week 4-HSS0104-Tiredness At It's Worst||0.60|-0.83|
82390437|NCT00715728|164492456|EQUIVALENCE|Our primary outcome was the rate of core rewarming during the surgery. Groups were compared on mean rewarming rate in a linear mixed effects regression model with within-subject change of core temperature over time as random effect. Using those model results, equivalence on the mean rate of rewarming for the resistive and warm air systems was assessed with the 2 one-tailed tests equivalence testing approach and equivalence delta of 0.2 degrees C/hours.||||||0.91||||||Two 1-tailed tests were conducted. P-value for lower delta was 0.91. Equivalence will be claimed if p-values for upper and lower delta are both lower than 0.05 ⁄ 2 = 0.025.|t-test, 1 sided|"Two 1-tailed tests were conducted to assess equivalence. See  Type of Statistical Test."||A total of 46 patients (23 per group) were needed to have 90% power to demonstrate equivalence of the two warming methods on final intra-operative temperature at the 0.05 significance level using the 2 one-tailed tests equivalence testing technique and an equivalence region of 0.5 degrees C per hour, assuming a SD of 0.5 degrees C/hour for each group and zero true difference.||||0.91
82390438|NCT00715728|164492456|EQUIVALENCE|Our primary outcome was the rate of core rewarming during the surgery. Groups were compared on mean rewarming rate in a linear mixed effects regression model with within-subject change of core temperature over time as random effect. Using those model results, equivalence on the mean rate of rewarming for the resistive and warm air systems was assessed with the 2 one-tailed tests equivalence testing approach and equivalence delta of 0.2 degrees C/hours.|||||<|0.001||||||Two 1-tailed tests were conducted. P-value for lower delta was 0.91. Equivalence will be claimed if p-values for upper and lower delta are both lower than 0.05 ⁄ 2 = 0.025.|t-test, 1 sided|||A total of 46 patients (23 per group) were needed to have 90% power to demonstrate equivalence of the two warming methods on final intra-operative temperature at the 0.05 significance level using the 2 one-tailed tests equivalence testing technique and an equivalence region of 0.5 degrees C per hour, assuming a SD of 0.5 degrees C/hour for each group and zero true difference.||||<0.001
82390439|NCT00715728|164492457|NON_INFERIORITY|The non-inferiority margin is defined as 0.5 °C. Non-inferiority at the 0.025 significance level will be claimed if the lower limit of the 95% confidence interval is higher than the -0.5 °C.|Mean Difference (Final Values)|-0.12||||0.018|TWO_SIDED|95.0|-0.37|0.14||P-value was adjusted for preoperative oral temperature and ASA physical status.|t-test, 1 sided||Non-inferiority will be established, at the 0.025 significance level, if the lower limit of a 95% confidence interval for the difference is above -0.5 °C.|Null hypothesis is the Hot dog resistive heating system is inferior to the Bair Hugger forced air system. Mean difference (95% CI) of the intraoperative TWA temperature between the groups (resistive heating versus forced-air) will be adjusting for preoperative oral temperature and ASA physical status.||0.14|-0.37|0.018
82390440|NCT01258075|164492458|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.21||0.5494|TWO_SIDED|95.0|-0.54|0.29|||ANCOVA|Based on a mixed effect ANCOVA model with treatment and previous type 2 diabetes treatment stratum as fixed effects and baseline as a covariate.||||0.29|-0.54|0.5494
82390441|NCT00985959|164492474|SUPERIORITY_OR_OTHER||Overall response rate (%)|69.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|95.0|58.9|79.2||Significance level 5% one-tailed. Threshold response rate 35%|Binominal test|||||79.2|58.9|<0.0001
82526500|NCT01061333|164749242|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.59|||<|0.0001|TWO_SIDED|90.0|0.49|0.7||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.70|0.49|<0.0001
82526501|NCT01061333|164749242|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.87||||0.2679|TWO_SIDED|90.0|0.69|1.08||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.08|0.69|0.2679
82526502|NCT01061333|164749243|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.9||||0.7622|TWO_SIDED|90.0|0.51|1.59||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.59|0.51|0.7622
82526503|NCT01061333|164749243|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.94||||0.8468|TWO_SIDED|90.0|0.53|1.65||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated on log scale||||1.65|0.53|0.8468
82574218|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.414|||TWO_SIDED|90.0|-1.49|-0.12||||||Week 4-HSS0104-Tiredness At It's Worst||-0.12|-1.49|
82574219|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.14|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|90.0|-0.86|0.57||||||Week 4-HSS0104-Tiredness At It's Worst||0.57|-0.86|
82526504|NCT01061333|164749243|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.91||||0.614|TWO_SIDED|90.0|0.65|1.26||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.26|0.65|0.6140
82526505|NCT01061333|164749244|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.67||||0.0006|TWO_SIDED|90.0|0.57|0.8||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.80|0.57|0.0006
82526506|NCT01061333|164749244|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.79||||0.0291|TWO_SIDED|90.0|0.67|0.94||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||0.94|0.67|0.0291
82526507|NCT01061333|164749244|SUPERIORITY_OR_OTHER||Geom. Mean Ratio of fold over baseline|0.92||||0.3738|TWO_SIDED|90.0|0.77|1.08||p-Value not adjusted for simultaneous multiple comparisons|ANCOVA|concentrations evaluated at log scale||||1.08|0.77|0.3738
82526508|NCT01061333|164749245|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.03||||0.7501||90.0|0.88|1.2||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.20|0.88|0.7501
82526509|NCT01061333|164749245|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.01||||0.941|TWO_SIDED|90.0|0.81|1.25||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.25|0.81|0.9410
82526510|NCT01061333|164749245|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|0.89||||0.1165|TWO_SIDED|90.0|0.79|1.01||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.01|0.79|0.1165
82526511|NCT01061333|164749246|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.03||||0.8616|TWO_SIDED|90.0|0.76|1.41||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.41|0.76|0.8616
82526512|NCT01061333|164749246|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.06||||0.7512|TWO_SIDED|90.0|0.77|1.45||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.45|0.77|0.7512
82526513|NCT01061333|164749246|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|0.99||||0.9723|TWO_SIDED|90.0|0.72|1.37||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.37|0.72|0.9723
82526514|NCT01061333|164749247|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.3||||0.1983|TWO_SIDED|90.0|0.92|1.82||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.82|0.92|0.1983
82526515|NCT01061333|164749247|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.57||||0.0872|TWO_SIDED|90.0|1.02|2.42||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||2.42|1.02|0.0872
82526516|NCT01061333|164749247|SUPERIORITY_OR_OTHER||Geom. mean of fold change over Placebo|1.22||||0.2499|TWO_SIDED|90.0|0.91|1.62||p-Value not adjusted for simultaneous multiple comparisons|ANOVA|concentrations evaluated at log scale||||1.62|0.91|0.2499
82526517|NCT01966003|164749255|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence of the primary endpoint was demonstrated by comparing the 2-sided 90% CI of the risk ratio in objective response rate between ABP 215 and bevacizumab with an equivalence margin of (0.67, 1.5).|Risk Ratio (RR)|0.93|||||TWO_SIDED|90.0|0.8|1.09||||||The risk ratio (ABP 215/Bevacizumab) and 90% confidence interval (CI) were estimated using a generalized linear model adjusted for the stratification factors (region, sex, and ECOG performance status).||1.09|0.80|
82574220|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.76|0.84||||||Week 6-HSS0104-Tiredness At It's Worst||0.84|-0.76|
82641188|NCT01491737|164997096|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0181|TWO_SIDED|95.0|0.36|0.91||Test was performed at 2-sided alpha of 5%.|Log Rank|Log-rank test from unstratified analysis based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including stratification factors of induction chemotherapy and prior adjuvant hormone therapy.|Primary Analysis. Log Rank tested the following: Null Hypothesis (H0): the distribution of the DOR time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the DOR time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to DOR was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||0.91|0.36|0.0181
82426242|NCT02164864|164561465|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.42|0.63||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|A pre-defined hierarchical testing approach was used. This was the fourth step in hierarchy.||0.63|0.42|<0.001
82526518|NCT01966003|164749255|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.9|||||TWO_SIDED|90.0|-9.26|3.45||||||Risk difference (ABP 215 - Bevacizumab) and 90% CI were estimated using a generalized linear model adjusted for the randomization stratification factors geographic region, ECOG performance status, and sex.||3.45|-9.26|
82526519|NCT01966003|164749257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|90.0|0.83|1.29||||||The hazard ratio for ABP 215 relative to bevacizumab was based on a stratified Cox proportional hazards model. Stratification factors are geographic region, ECOG performance status, and sex.||1.29|0.83|
82526520|NCT01966003|164749260|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.75|1.61||||||Hazard ratio for ABP 215 relative to bevacizumab, based on a stratified Cox proportional hazards model. Stratification factors are geographic region, ECOG performance status, and sex.||1.61|0.75|
82526521|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.06|=|0.66|TWO_SIDED|95.0|-0.15|0.1|||Mixed Models Analysis|||Fear Conditioning Beginning (first trial)||.10|-.15|=.66
82526522|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|=|0.41|TWO_SIDED|95.0|-0.17|0.07|||Mixed Models Analysis|||Fear Conditioning Beginning (first trial)||.07|-.17|=.41
82526523|NCT00674570|164749261|SUPERIORITY||Median Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06|=|0.43|TWO_SIDED|95.0|-0.07|0.18|||Mixed Models Analysis|||Fear Conditioning End (last trial)||.18|-.07|=.43
82426243|NCT02164864|164561465|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.58|0.88||unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Regression, Cox|Wald 2-sided p-value from (unstratified) Cox proportional hazards model||A pre-defined hierarchical testing approach was used. This was the sixth step in hierarchy.|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|0.88|0.58|0.0020
82574221|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.52|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.29|0.26||||||Week 6-HSS0104-Tiredness At It's Worst||0.26|-1.29|
82426904|NCT01585025|164562084|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.03
82426905|NCT01585025|164562084|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.17
82526524|NCT00674570|164749261|SUPERIORITY||Median Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.06|=|0.47|TWO_SIDED|95.0|-0.07|0.17|||Mixed Models Analysis|||Fear Conditioning End (last trial)||.17|-.07|=.47
82526525|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.05|=|0.065|TWO_SIDED|95.0|-0.01|0.2|||Mixed Models Analysis|||Fear Extinction Beginning (first trial)||.20|-.01|=.065
82526526|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.05|=|0.34|TWO_SIDED|95.0|-0.05|0.15|||Mixed Models Analysis|||Fear Extinction Beginning (first trial)||.15|-.05|=.34
82526527|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.05|=|0.003|TWO_SIDED|95.0|0.06|0.26|||Mixed Models Analysis|||Extinction End (last trial)||.26|.06|=.003
82426244|NCT02164864|164561466|OTHER||Hazard Ratio (HR)|0.99||||0.9862|TWO_SIDED|95.0|0.25|3.95||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||3.95|0.25|0.9862
82526528|NCT00674570|164749261|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.02|TWO_SIDED|95.0|0.02|0.22|||Mixed Models Analysis|||Extinction End (last trial)||.22|.02|.02
82526529|NCT00674570|164749261|OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.06|=|0.006|TWO_SIDED|95.0|0.05|0.3|||Mixed Models Analysis|||Extinction Retention (first 2 trials) First trials were selected as a test of extinction retention, since repeated presentations of the CS without a UCS were expected to result in additional fear extinction.||.30|.05|=.006
82526530|NCT00674570|164749261|OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.06|=|0.01|TWO_SIDED|95.0|0.04|0.28|||Mixed Models Analysis|||Extinction retention||.28|.04|=.01
82526531|NCT03802864|164749303|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82526532|NCT03802864|164749304|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
82526533|NCT03802864|164749305|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82526534|NCT03802864|164749306|SUPERIORITY|||||||0.28|||||||Regression, Linear|||||||0.28
82526535|NCT03802864|164749307|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
82426906|NCT01585025|164562084|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in number of stools per week||||0.31
82526536|NCT03802864|164749308|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82526537|NCT03802864|164749309|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82526538|NCT00985985|164749310|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.3851|TWO_SIDED|95.0|0.78|1.92|||Cochran-Mantel-Haenszel||Odds Ratio based on logistic model (adjusted by center)|Null hypothesis considered no treatment difference in the smoking cessation success rate for the active treatment versus its matching placebo.||1.92|0.78|0.3851
82526539|NCT00985985|164749310|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.0565|TWO_SIDED|95.0|0.99|3.32|||Cochran-Mantel-Haenszel||Odds Ratio based on logistic model (adjusted by center).|Null hypothesis considered no treatment difference in the smoking cessation success rate for the active treatment versus its matching placebo.||3.32|0.99|0.0565
82526540|NCT01856712|164749318|SUPERIORITY||Odds Ratio (OR)|1.71|||||TWO_SIDED|95.0|0.35|9.98||||||||9.98|0.35|
82526541|NCT00509236|164749322|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline A1c.||||<0.001
82526542|NCT00509236|164749323|SUPERIORITY_OR_OTHER||Difference in % Affected|-4.8||||0.336|TWO_SIDED|95.0|-15.7|5.6||Miettinen \& Nurminen method stratified by prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent).|Miettinen & Nurminen|||||5.6|-15.7|0.336
82526543|NCT00509236|164749324|SUPERIORITY_OR_OTHER||Difference in % Affected|2.8|||||TWO_SIDED|95.0|-10.9|16.5||||||||16.5|-10.9|
82526544|NCT00509236|164749325|SUPERIORITY_OR_OTHER||Change from Baseline in LS Mean|-26.6|||<|0.001|TWO_SIDED|95.0|-38.0|-15.3|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||-15.3|-38.0|<0.001
82526545|NCT00509236|164749325|SUPERIORITY_OR_OTHER||Change from Baseline in LS Mean|-31.2|||<|0.001|TWO_SIDED|95.0|-42.6|-19.9|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||-19.9|-42.6|<0.001
82574222|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.485|||TWO_SIDED|90.0|-0.68|0.92||||||Week 6-HSS0104-Tiredness At It's Worst||0.92|-0.68|
82390442|NCT03197870|164492491|SUPERIORITY|The primary hypotheses was tested in the modified intent-to-treat population using a Fisher's Exact Test with a 2-sided 5% significance level. razuprotafib 15 mg twice daily was tested first. If this was found to be statistically significant, then razuprotafib 15 mg once daily will be tested for statistical significance, at the same significance level.||||||0.495||||||Missing data was imputed using last observation carried forward; baseline values were not carried forward.|Fisher Exact|||The primary hypotheses tested was that razuprotafib 15 mg twice daily and razuprotafib 15 mg once daily will be superior to placebo in the improvement of diabetic retinopathy as measured by the Early Treatment Diabetic Retinopathy Study severity scale change from baseline at 48 weeks.||||0.495
82426907|NCT01585025|164562085|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.05
82526546|NCT00509236|164749325|SUPERIORITY_OR_OTHER||Difference in LS Means|4.6|||||TWO_SIDED|95.0|-11.5|20.7||||||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline FPG.||20.7|-11.5|
82526547|NCT00509236|164749326|SUPERIORITY_OR_OTHER||Difference in LS Means|0.15|||||TWO_SIDED|95.0|-0.18|0.49|||ANCOVA|||Model terms: treatment, prior diabetes pharmacotherapy (not on oral antihyperglycemic agent, or on oral antihyperglycemic agent), and a covariate for baseline A1c.||0.49|-0.18|
82574223|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.96|0.63||||||Week 8-HSS0104-Tiredness At It's Worst||0.63|-0.96|
82574224|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.53|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.31|0.24||||||Week 8-HSS0104-Tiredness At It's Worst||0.24|-1.31|
82574225|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.11|STANDARD_ERROR_OF_MEAN|0.488|||TWO_SIDED|90.0|-0.69|0.92||||||Week 8-HSS0104-Tiredness At It's Worst||0.92|-0.69|
82574226|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.34|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.21|0.53||||||Week 12-HSS0104-Tiredness At It's Worst||0.53|-1.21|
82390443|NCT01542034|164492507|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.702|||<|0.001|TWO_SIDED|95.0|2.808|4.88|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||4.880|2.808|<0.001
82390444|NCT01542034|164492508|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center.||The primary analysis was satisfied if both null hypotheses (there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||||<0.001
82426245|NCT02164864|164561466|OTHER|Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Hazard Ratio (HR)|1.59||||0.5277|TWO_SIDED|95.0|0.38|6.64|||Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||6.64|0.38|0.5277
82390445|NCT01542034|164492509|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|8.541|||<|0.001|TWO_SIDED|95.0|3.62|20.148|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||20.148|3.620|<0.001
82390446|NCT01542034|164492510|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model included treatment and Baseline PR-SMFIS total scale score.||If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||||<0.001
82390447|NCT01508130|164492520|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.08||||0.6451|TWO_SIDED|95.0|0.78|1.49|||Wald residual chi-square test||Due to the non-interventional study design, the Cox model included a propensity score as a covariate (incorporated important demographics and baseline characteristics) to account for the potential imbalance between treatment groups.|||1.49|0.78|0.6451
82390448|NCT01508130|164492520|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.02||||0.8826|TWO_SIDED|95.0|0.78|1.34|||Wald residual chi-square test||Without Propensity Score as a Covariate.|||1.34|0.78|0.8826
82390449|NCT01508130|164492521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.7695|TWO_SIDED|95.0|0.58|1.49|||Multiple Logistic Regression||A multiple logistic regression model including a propensity score as a covariate (incorporated important demographics and baseline characteristics) was used for the treatment comparison.|||1.49|0.58|0.7695
82390450|NCT01508130|164492521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.2594|TWO_SIDED|95.0|0.84|1.92|||Multiple Logistic Regression||Without Propensity Score as a Covariate|||1.92|0.84|0.2594
82641189|NCT01491737|164997096|OTHER|Exploratory|Hazard Ratio (HR)|0.62||||0.0205|TWO_SIDED|95.0|0.41|0.93|||Log Rank|Log-rank test from unstratified analysis based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including stratification factors of induction chemotherapy and prior adjuvant hormone therapy.|Final Analysis.||0.93|0.41|0.0205
82390451|NCT01508130|164492528|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.9156|TWO_SIDED|95.0|0.64|1.64|||Wald residual chi-square test||95% CI for median was computed using the method of Brookmeyer and Crowley.|||1.64|0.64|0.9156
82390452|NCT01508130|164492529|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.5649|TWO_SIDED|95.0|0.57|1.36|||Wald residual chi-square test||95% CI for median was computed using the method of Brookmeyer and Crowley.|||1.36|0.57|0.5649
82390453|NCT01623037|164492548|OTHER||sucess proportion|71.1|||||TWO_SIDED|95.0|55.7|83.6||||||||83.6|55.7|
82390454|NCT00387010|164492553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.3223|TWO_SIDED|95.0|-4.64|1.54|||t-test, 2 sided|||||1.54|-4.64|0.3223
82390455|NCT02294175|164492704|SUPERIORITY|||||||0.029||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|Greenhouse-Geisser corrections were applied to the F test degrees of freedom due to violation of the sphericity assumption (p\<.05 for Mauchly's W).||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.029
82390456|NCT02294175|164492705|SUPERIORITY|||||||0.037||||||Repeated Measures ANOVA. This interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|Greenhouse-Geisser corrections were applied to the F test degrees of freedom due to violation of the sphericity assumption (p\<.05 for Mauchly's W).||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.037
82390457|NCT02294175|164492706|SUPERIORITY|||||||0.012||||||Repeated Measures ANOVA. This interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether the reduction of bacterial CFUs over time varies according to treatment arm.||||.012
82390458|NCT02294175|164492707|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||||||.397
82390459|NCT02294175|164492708|SUPERIORITY|||||||0.661||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether change in MMP-9 over time varies according to treatment arm.||||.661
82390460|NCT02294175|164492709|SUPERIORITY|||||||0.979||||||Repeated Measures ANOVA. The interaction effect is controlling for any potential main effects of treatment arm (SDT vs LDT) and time (days 0, 4, 8).|Repeated Measures ANOVA|||Repeated Measures Analysis of Variance (RMANOVA) to test for effects of treatment arm, time, and treatment-by-time interaction. The effect of interest is the treatment-by-time interaction, i.e, whether change in IL6 over time varies according to treatment arm.||||.979
82526548|NCT03315936|164749339|OTHER||geometric mean (gMean) ratio (T/R) %|110.31|||||TWO_SIDED|90.0|100.73|120.79|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 12.3.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually 12 subjects were analyzed||120.79|100.73|
82574227|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-1.64|0.02||||||Week 12-HSS0104-Tiredness At It's Worst||0.02|-1.64|
82574228|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-0.72|1.02||||||Week 12-HSS0104-Tiredness At It's Worst||1.02|-0.72|
82390461|NCT02294175|164492710|SUPERIORITY|||||||0.999|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.999
82526549|NCT03315936|164749340|OTHER||gMean ratio (T/R) %|110.83|||||TWO_SIDED|90.0|101.2|121.38|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 12.3.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||121.38|101.20|
82574229|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-0.7|1.15||||||Week 16-HSS0104-Tiredness At It's Worst||1.15|-0.70|
82574230|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-1.44|0.32||||||Week 16-HSS0104-Tiredness At It's Worst||0.32|-1.44|
82574231|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.557|||TWO_SIDED|90.0|-0.83|1.01||||||Week 16-HSS0104-Tiredness At It's Worst||1.01|-0.83|
82574232|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|90.0|-0.39|0.49||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.49|-0.39|
82390462|NCT02294175|164492711|SUPERIORITY|||||||0.415|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.415
82390463|NCT02294175|164492712|SUPERIORITY|||||||0.993|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.993
82426908|NCT01585025|164562085|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.04
82574233|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.257|||TWO_SIDED|90.0|-0.75|0.1||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.10|-0.75|
82390464|NCT02294175|164492713|SUPERIORITY|||||||0.99|||||||Kolmogorov-Smirnov Z|||Kolmogorov-Smirnov Z test was used as a non-parametric test to compare rank scores between treatment arms (similar to Mann-Whitney, but potentially more powerful).||||.990
82526550|NCT03315936|164749341|OTHER||gMean ratio (T/R) %|110.46|||||TWO_SIDED|90.0|89.74|135.96|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variation (%) = 28.6.|The analysis of variance (ANOVA) model on the logarithmic scale including 'sequence', 'period', and 'treatment' as fixed effects and 'subject within sequence' as random effect. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||135.96|89.74|
82426909|NCT01585025|164562085|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change in median stool form||||0.74
82426910|NCT01585025|164562086|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.005
82526551|NCT04203537|164749346|SUPERIORITY|||||||0.0004|||||||ANOVA|||||||0.0004
82526552|NCT04203537|164749347|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82526553|NCT04203537|164749347|SUPERIORITY|||||||0.0026|||||||ANOVA|||||||0.0026
82574234|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.46|0.42||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.42|-0.46|
82390465|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|7.44||0.97|TWO_SIDED|95.0|-14.3|14.9|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and Baseline value as a covariate.~Least squares (LS) mean differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||14.9|-14.3|0.97
82390466|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|6.15||0.58|TWO_SIDED|95.0|-8.6|15.5|||ANCOVA|||||15.5|-8.6|0.58
82390467|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|6.13||0.33|TWO_SIDED|95.0|-6.1|18.0|||ANCOVA|||||18.0|-6.1|0.33
82390468|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|17.6|STANDARD_ERROR_OF_MEAN|6.2||0.005|TWO_SIDED|95.0|5.4|29.8|||ANCOVA|||||29.8|5.4|0.005
82390469|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|18.2|STANDARD_ERROR_OF_MEAN|6.1||0.003|TWO_SIDED|95.0|6.2|30.2|||ANCOVA|||||30.2|6.2|0.003
82390470|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|21.7|STANDARD_ERROR_OF_MEAN|7.37||0.003|TWO_SIDED|95.0|7.2|36.1|||ANCOVA|||||36.1|7.2|0.003
82443934|NCT03007745|164596517|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.85||0.9251|ONE_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. ANCOVA model included main effects for type of study (home versus in-laboratory), site, and the pre-treatment baseline value of the outcome measure.||||0.9251
82443935|NCT03007745|164596518|SUPERIORITY|Paired t-test comparing change in score (3-month - baseline) within group|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.33||0.4116|ONE_SIDED||||||t-test, 2 sided|Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||Within arm change from baseline to 3 month follow-up||||0.4116
82390471|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|26.3|STANDARD_ERROR_OF_MEAN|7.32|<|0.001|TWO_SIDED|95.0|11.9|40.7|||ANCOVA|||||40.7|11.9|<0.001
82390472|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.0|STANDARD_ERROR_OF_MEAN|8.46||0.2|TWO_SIDED|95.0|-5.6|27.6|||ANCOVA|||||27.6|-5.6|0.20
82390473|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|20.5|STANDARD_ERROR_OF_MEAN|8.43||0.015|TWO_SIDED|95.0|4.0|37.1|||ANCOVA|||||37.1|4.0|0.015
82390474|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.4|STANDARD_ERROR_OF_MEAN|8.43||0.008|TWO_SIDED|95.0|5.9|39.0|||ANCOVA|||||39.0|5.9|0.008
82390475|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.0|STANDARD_ERROR_OF_MEAN|7.32||0.003|TWO_SIDED|95.0|7.6|36.3|||ANCOVA|||||36.3|7.6|0.003
82443936|NCT03007745|164596518|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.39||0.2201|ONE_SIDED||||||t-test, 2 sided|||Paired t-test comparing change in score (3-month - baseline) within group||||0.2201
82443937|NCT03007745|164596518|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.1732|TWO_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes between groups from baseline to month 3 in participants initiated on CPAP (LOCF applied using 1-month data).||||0.1732
82526554|NCT05375955|164749351|OTHER||Risk Difference (RD)|12.4||||0.0711|TWO_SIDED|95.0|-4.1|29.4|||Chan and Zhang (1999) method|||||29.4|-4.1|0.0711
82526555|NCT05375955|164749351|OTHER||Risk Difference (RD)|10.1||||0.129|TWO_SIDED|95.0|-6.1|26.8|||Chan and Zhang (1999) method|||||26.8|-6.1|0.1290
82526556|NCT05375955|164749352|OTHER||Risk Difference (RD)|6.3||||0.2712|TWO_SIDED|95.0|-10.8|24.3|||Chan and Zhang (1999) method|||||24.3|-10.8|0.2712
82526557|NCT05375955|164749352|OTHER||Risk Difference (RD)|28.3||||0.0028|TWO_SIDED|95.0|7.7|47.5|||Chan and Zhang (1999) method|||||47.5|7.7|0.0028
82526558|NCT05375955|164749352|OTHER||Risk Difference (RD)|36.6||||0.0003|TWO_SIDED|95.0|14.7|56.4|||Chan and Zhang (1999) method|||||56.4|14.7|0.0003
82526559|NCT05375955|164749353|OTHER||Risk Difference (RD)|0.1||||0.5701|TWO_SIDED|95.0|-10.2|10.7|||Chan and Zhang (1999) method|||Week 1||10.7|-10.2|0.5701
82526560|NCT05375955|164749353|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
82526561|NCT05375955|164749353|OTHER||Risk Difference (RD)|9.6||||0.0532|TWO_SIDED|95.0|-2.0|23.7|||Chan and Zhang (1999) method|||Week 2||23.7|-2.0|0.0532
82443938|NCT03007745|164596519|SUPERIORITY||Mean Difference (Final Values)|-2.76|STANDARD_DEVIATION|4.73|<|0.0003|ONE_SIDED||||||t-test, 2 sided|Unadjusted||Paired t-test comparing baseline and 3-month measures within group||||<0.0003
82526562|NCT05375955|164749353|OTHER||Risk Difference (RD)|4.9||||0.1705|TWO_SIDED|95.0|-6.1|17.6|||Chan and Zhang (1999) method|||Week 2||17.6|-6.1|0.1705
82526563|NCT05375955|164749353|OTHER||Risk Difference (RD)|0.5||||0.5123|TWO_SIDED|95.0|-14.4|15.7|||Chan and Zhang (1999) method|||Week 4||15.7|-14.4|0.5123
82526564|NCT05375955|164749353|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 4||22.1|-10.7|0.2751
82526565|NCT05375955|164749353|OTHER||Risk Difference (RD)|7.8||||0.2736|TWO_SIDED|95.0|-8.9|24.8|||Chan and Zhang (1999) method|||Week 6||24.8|-8.9|0.2736
82526566|NCT05375955|164749353|OTHER||Risk Difference (RD)|3.0||||0.3967|TWO_SIDED|95.0|-13.0|19.8|||Chan and Zhang (1999) method|||Week 6||19.8|-13.0|0.3967
82526567|NCT05375955|164749353|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 8||20.2|-13.6|0.3997
82526568|NCT05375955|164749353|OTHER||Risk Difference (RD)|-1.6||||0.5461|TWO_SIDED|95.0|-17.7|15.3|||Chan and Zhang (1999) method|||Week 8||15.3|-17.7|0.5461
82526569|NCT05375955|164749353|OTHER||Risk Difference (RD)|7.8||||0.2736|TWO_SIDED|95.0|-8.9|24.8|||Chan and Zhang (1999) method|||Week 10||24.8|-8.9|0.2736
82526570|NCT05375955|164749353|OTHER||Risk Difference (RD)|5.4||||0.2754|TWO_SIDED|95.0|-11.0|22.1|||Chan and Zhang (1999) method|||Week 10||22.1|-11.0|0.2754
82526571|NCT05375955|164749353|OTHER||Risk Difference (RD)|12.6||||0.0977|TWO_SIDED|95.0|-4.8|30.3|||Chan and Zhang (1999) method|||Week 12||30.3|-4.8|0.0977
82526572|NCT05375955|164749353|OTHER||Risk Difference (RD)|14.9||||0.0542|TWO_SIDED|95.0|-2.8|33.2|||Chan and Zhang (1999) method|||Week 12||33.2|-2.8|0.0542
82526573|NCT05375955|164749354|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
82526574|NCT05375955|164749354|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|10.1|||Chan and Zhang (1999) method|||Week 1||10.1|-10.6|1.0000
82526575|NCT05375955|164749354|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 1||24.3|-2.1|0.0436
82526576|NCT05375955|164749354|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
82526577|NCT05375955|164749354|OTHER||Risk Difference (RD)|2.9||||0.2697|TWO_SIDED|95.0|-7.8|14.9|||Chan and Zhang (1999) method|||Week 2||14.9|-7.8|0.2697
82526578|NCT05375955|164749354|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 2||32.0|3.2|0.0104
82526579|NCT05375955|164749354|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
82526580|NCT05375955|164749354|OTHER||Risk Difference (RD)|14.3||||0.0129|TWO_SIDED|95.0|2.6|30.3|||Chan and Zhang (1999) method|||Week 4||30.3|2.6|0.0129
82526581|NCT05375955|164749354|OTHER||Risk Difference (RD)|21.2||||0.0024|TWO_SIDED|95.0|8.0|38.9|||Chan and Zhang (1999) method|||Week 4||38.9|8.0|0.0024
82526582|NCT05375955|164749354|OTHER||Risk Difference (RD)|21.2||||0.0024|TWO_SIDED|95.0|8.0|38.9|||Chan and Zhang (1999) method|||Week 6||38.9|8.0|0.0024
82526583|NCT05375955|164749354|OTHER||Risk Difference (RD)|22.9||||0.0018|TWO_SIDED|95.0|9.5|40.1|||Chan and Zhang (1999) method|||Week 6||40.1|9.5|0.0018
82526584|NCT05375955|164749354|OTHER||Risk Difference (RD)|33.3||||0.0001|TWO_SIDED|95.0|17.8|51.8|||Chan and Zhang (1999) method|||Week 6||51.8|17.8|0.0001
82526585|NCT05375955|164749354|OTHER||Risk Difference (RD)|15.2||||0.0259|TWO_SIDED|95.0|-0.1|32.5|||Chan and Zhang (1999) method|||Week 8||32.5|-0.1|0.0259
82526586|NCT05375955|164749354|OTHER||Risk Difference (RD)|22.8||||0.0038|TWO_SIDED|95.0|6.3|40.4|||Chan and Zhang (1999) method|||Week 8||40.4|6.3|0.0038
82526587|NCT05375955|164749354|OTHER||Risk Difference (RD)|30.4||||0.0007|TWO_SIDED|95.0|12.2|48.9|||Chan and Zhang (1999) method|||Week 8||48.9|12.2|0.0007
82526588|NCT05375955|164749354|OTHER||Risk Difference (RD)|21.5||||0.0146|TWO_SIDED|95.0|2.1|41.2|||Chan and Zhang (1999) method|||Week 10||41.2|2.1|0.0146
82526589|NCT05375955|164749354|OTHER||Risk Difference (RD)|19.7||||0.0205|TWO_SIDED|95.0|1.0|38.9|||Chan and Zhang (1999) method|||Week 10||38.9|1.0|0.0205
82526590|NCT05375955|164749354|OTHER||Risk Difference (RD)|39.7||||0.0002|TWO_SIDED|95.0|17.1|59.3|||Chan and Zhang (1999) method|||Week 10||59.3|17.1|0.0002
82526591|NCT05375955|164749354|OTHER||Risk Difference (RD)|12.6||||0.1245|TWO_SIDED|95.0|-7.8|32.6|||Chan and Zhang (1999) method|||Week 12||32.6|-7.8|0.1245
82526592|NCT05375955|164749354|OTHER||Risk Difference (RD)|11.0||||0.1431|TWO_SIDED|95.0|-9.1|31.5|||Chan and Zhang (1999) method|||Week 12||31.5|-9.1|0.1431
82526593|NCT05375955|164749354|OTHER||Risk Difference (RD)|36.8||||0.0007|TWO_SIDED|95.0|12.2|56.8|||Chan and Zhang (1999) method|||Week 12||56.8|12.2|0.0007
82526594|NCT05375955|164749355|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
82526595|NCT05375955|164749355|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
82526596|NCT05375955|164749355|OTHER||Risk Difference (RD)|4.9||||0.1705|TWO_SIDED|95.0|-6.1|17.6|||Chan and Zhang (1999) method|||Week 2||17.6|-6.1|0.1705
82526597|NCT05375955|164749355|OTHER||Risk Difference (RD)|7.3||||0.1118|TWO_SIDED|95.0|-3.9|20.5|||Chan and Zhang (1999) method|||Week 2||20.5|-3.9|0.1118
82526598|NCT05375955|164749355|OTHER||Risk Difference (RD)|5.2||||0.2751|TWO_SIDED|95.0|-9.5|20.5|||Chan and Zhang (1999) method|||Week 4||20.5|-9.5|0.2751
82526599|NCT05375955|164749355|OTHER||Risk Difference (RD)|2.8||||0.3857|TWO_SIDED|95.0|-11.4|17.6|||Chan and Zhang (1999) method|||Week 4||17.6|-11.4|0.3857
82426911|NCT01585025|164562086|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.03
82426912|NCT01585025|164562086|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Paired difference in weekly index score||||0.61
82426913|NCT00952705|164562108|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose A/H1N1 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H1N1 post-dose GMT ratio: (FluMist B/Yamagata A/H1N1 + FluMist B/Victoria A/H1N1) divided by Q/LAIV-BFS A/H1N1.|Ratio of geometric mean titers|0.95|||||TWO_SIDED|95.0|0.87|1.03|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of A/H1N1 GMTs for the specified comparison. Geometric mean titers for the A/H1N1 influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.03|0.87|
82526600|NCT05375955|164749355|OTHER||Risk Difference (RD)|7.5||||0.1429|TWO_SIDED|95.0|-6.4|22.6|||Chan and Zhang (1999) method|||Week 6||22.6|-6.4|0.1429
82526601|NCT05375955|164749355|OTHER||Risk Difference (RD)|7.5||||0.1429|TWO_SIDED|95.0|-6.4|22.6|||Chan and Zhang (1999) method|||Week 6||22.6|-6.4|0.1429
82526602|NCT05375955|164749355|OTHER||Risk Difference (RD)|9.8||||0.1119|TWO_SIDED|95.0|-4.4|25.3|||Chan and Zhang (1999) method|||Week 8||25.3|-4.4|0.1119
82390476|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.2|STANDARD_ERROR_OF_MEAN|8.46||0.009|TWO_SIDED|95.0|5.6|38.8|||ANCOVA|||||38.8|5.6|0.009
82390477|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|25.4|STANDARD_ERROR_OF_MEAN|7.35|<|0.001|TWO_SIDED|95.0|11.0|39.8|||ANCOVA|||||39.8|11.0|<0.001
82390478|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|27.9|STANDARD_ERROR_OF_MEAN|7.34|<|0.001|TWO_SIDED|95.0|13.5|42.3|||ANCOVA|||||42.3|13.5|<0.001
82574235|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.65|0.45||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.45|-0.65|
82390479|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|39.6|STANDARD_ERROR_OF_MEAN|7.39|<|0.001|TWO_SIDED|95.0|25.1|54.1|||ANCOVA|||||54.1|25.1|<0.001
82390480|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean DIfference|40.2|STANDARD_ERROR_OF_MEAN|7.31|<|0.001|TWO_SIDED|95.0|25.8|54.5|||ANCOVA|||||54.5|25.8|<0.001
82390481|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|43.6|STANDARD_ERROR_OF_MEAN|8.42|<|0.001|TWO_SIDED|95.0|27.1|60.1|||ANCOVA|||||60.1|27.1|<0.001
82390482|NCT01340027|164492745|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|48.3|STANDARD_ERROR_OF_MEAN|8.35|<|0.001|TWO_SIDED|95.0|31.9|64.7|||ANCOVA|||||64.7|31.9|<0.001
82390483|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.366||0.062|TWO_SIDED|95.0|-1.4|0.03|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.03|-1.40|0.062
82390484|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.302||0.91|TWO_SIDED|95.0|-0.63|0.56|||ANCOVA|||||0.56|-0.63|0.91
82390485|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.302||0.2|TWO_SIDED|95.0|-0.98|0.2|||ANCOVA|||||0.20|-0.98|0.20
82443939|NCT03007745|164596519|SUPERIORITY||Mean Difference (Final Values)|-2.38|STANDARD_DEVIATION|5.2|<|0.0001|TWO_SIDED||||||t-test, 2 sided|Unadjusted||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data) Paired t-test comparing baseline and 3-month measures within group||||<0.0001
82443940|NCT03007745|164596519|SUPERIORITY||Median Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.9||0.673|TWO_SIDED||||||ANCOVA|ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure||Adjusted differences in mean changes were estimated as site-total-sample-size weighted values controlling for treatment group differences in mean pre-treatment baseline values. Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||||0.6730
82443941|NCT03007745|164596520|SUPERIORITY||Mean Difference (Net)|-5.94|STANDARD_DEVIATION|6.17|<|0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)||Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)||||<0.0001
82390486|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.305||0.96|TWO_SIDED|95.0|-0.62|0.58|||ANCOVA|||||0.58|-0.62|0.96
82390487|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.39|-0.22|||ANCOVA|||||-0.22|-1.39|0.007
82390488|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.363||0.016|TWO_SIDED|95.0|-1.59|-0.16|||ANCOVA|||||-0.16|-1.59|0.016
82390489|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.36||0.007|TWO_SIDED|95.0|-1.68|-0.27|||ANCOVA|||||-0.27|-1.68|0.007
82390490|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.417||0.91|TWO_SIDED|95.0|-0.87|0.77|||ANCOVA|||||0.77|-0.87|0.91
82390491|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.415||0.76|TWO_SIDED|95.0|-0.94|0.69|||ANCOVA|||||0.69|-0.94|0.76
82390492|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.416||0.99|TWO_SIDED|95.0|-0.82|0.81|||ANCOVA|||||0.81|-0.82|0.99
82390493|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.361||0.77|TWO_SIDED|95.0|-0.82|0.6|||ANCOVA|||||0.60|-0.82|0.77
82390494|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.417||0.058|TWO_SIDED|95.0|-1.61|0.03|||ANCOVA|||||0.03|-1.61|0.058
82390495|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.362||0.69|TWO_SIDED|95.0|-0.85|0.57|||ANCOVA|||||0.57|-0.85|0.69
82390496|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.362||0.17|TWO_SIDED|95.0|-1.21|0.21|||ANCOVA|||||0.21|-1.21|0.17
82390497|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.364||0.73|TWO_SIDED|95.0|-0.84|0.59|||ANCOVA|||||0.59|-0.84|0.73
82390498|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.361||0.012|TWO_SIDED|95.0|-1.62|-0.2|||ANCOVA|||||-0.20|-1.62|0.012
82390499|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.414||0.018|TWO_SIDED|95.0|-1.8|-0.17|||ANCOVA|||||-0.17|-1.80|0.018
82390500|NCT01340027|164492746|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.412||0.009|TWO_SIDED|95.0|-1.89|-0.28|||ANCOVA|||||-0.28|-1.89|0.009
82426246|NCT02164864|164561467|OTHER||Hazard Ratio (HR)|1.06||||0.8853|TWO_SIDED|95.0|0.5|2.25||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.25|0.50|0.8853
82426247|NCT02164864|164561467|OTHER||Hazard Ratio (HR)|0.49||||0.238|TWO_SIDED|95.0|0.15|1.61||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.61|0.15|0.2380
82641190|NCT01491737|164997097|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5597|TWO_SIDED|95.0|0.78|1.57||Test was performed at 2-sided alpha of 5%.|Log Rank|The log-rank test from unstratified analysis was based upon Kaplan-Meier approach. There was no multiplicity adjustment.|Hazard ratio from stratified Cox proportional hazards model including the induction chemotherapy and prior adjuvant hormone therapy stratification factors.|Log Rank tested the following: Null Hypothesis (H0): the distribution of the TTR time was the same in Arms A \& B; The Alternative Hypothesis (H1): the distribution of the TTR time was different in Arms A \& B. A Cox proportional hazards model tested the HR. If the HR of investigational arm (Arm A) compared with control arm (Arm B) with respect to TTR was assumed to be constant over time (λ) then the null (H0) and alternative hypotheses (H1) were: H0: λ =1; H1: λ ≠1.||1.57|0.78|0.5597
82641191|NCT05644756|164997119|OTHER|The primary analysis examined changes in measurement-based care (MBC) collection over time using ANOVA. The study was not designed as a superiority, non-inferiority, or equivalence trial.|||||>|0.01|||||||ANOVA|||||||>.01
82641192|NCT03985982|164997143|SUPERIORITY||||||<|0.001||||||This outcome measure is the first to be assessed in a hierarchical testing sequence using a one-sided alpha of 0.025.|Cochran-Mantel-Haenszel|||||||<0.001
82390501|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.46||0.51|TWO_SIDED|95.0|-1.0|0.82||Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.|Stratified Rank ANCOVA|P-values are from pairwise comparisons of the combination/active treatment groups vs. solifenacin 5 mg/placebo within a stratified rank ANCOVA model.||The ANCOVA model including the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and Baseline measurement as a covariate was used to calculate point estimates and 95% confidence intervals (CI) for change from Baseline within each treatment group and for differences between combination treatment groups and solifenacin 5 mg as well as for differences between active treatment groups and placebo.||0.82|-1.00|0.51
82390502|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.355||0.21|TWO_SIDED|95.0|-0.57|0.83|||Stratified Rank ANCOVA|||||0.83|-0.57|0.21
82443942|NCT03007745|164596520|SUPERIORITY|Paired t-test comparing baseline and 3-month measures within group (LOCF applied using 1-month data)|Mean Difference (Final Values)|-5.6|STANDARD_DEVIATION|6.96||0.0001|TWO_SIDED|||||Unadjusted|t-test, 2 sided|||Subjects initiated on CPAP and receiving a 3-month follow-up (LOCF applied using 1-month data)||||0.0001
82526603|NCT05375955|164749355|OTHER||Risk Difference (RD)|2.7||||0.3755|TWO_SIDED|95.0|-10.7|16.7|||Chan and Zhang (1999) method|||Week 8||16.7|-10.7|0.3755
82526604|NCT05375955|164749355|OTHER||Risk Difference (RD)|7.7||||0.2547|TWO_SIDED|95.0|-8.4|24.3|||Chan and Zhang (1999) method|||Week 10||24.3|-8.4|0.2547
82526605|NCT05375955|164749355|OTHER||Risk Difference (RD)|2.9||||0.3928|TWO_SIDED|95.0|-12.7|18.6|||Chan and Zhang (1999) method|||Week 10||18.6|-12.7|0.3928
82390503|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.361||0.89|TWO_SIDED|95.0|-0.68|0.74|||Stratified Rank ANCOVA|||||0.74|-0.68|0.89
82526606|NCT05375955|164749356|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|11.0|||Chan and Zhang (1999) method|||Week 1||11.0|-10.6|1.0000
82526607|NCT05375955|164749356|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|10.1|||Chan and Zhang (1999) method|||Week 1||10.1|-10.6|1.0000
82526608|NCT05375955|164749356|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
82526609|NCT05375955|164749356|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 2||20.7|-4.9|0.0993
82526610|NCT05375955|164749356|OTHER||Risk Difference (RD)|5.7||||0.114|TWO_SIDED|95.0|-5.3|19.2|||Chan and Zhang (1999) method|||Week 2||19.2|-5.3|0.1140
82390504|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.365||0.001|TWO_SIDED|95.0|-1.06|0.38||P values were calculated from a pairwise comparison of the combination treatment groups vs solifenacin succinate 5 mg or placebo within the ANCOVA model.|Stratified Rank ANCOVA|||||0.38|-1.06|0.001
82390505|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.397||0.058|TWO_SIDED|95.0|-1.04|0.52|||Stratified Rank ANCOVA|||||0.52|-1.04|0.058
82526611|NCT05375955|164749356|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
82526612|NCT05375955|164749356|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 4||20.7|-4.9|0.0993
82526613|NCT05375955|164749356|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 4||33.9|4.9|0.0071
82526614|NCT05375955|164749356|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
82526615|NCT05375955|164749356|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 6||32.0|3.2|0.0104
82526616|NCT05375955|164749356|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 6||33.9|4.9|0.0071
82526617|NCT05375955|164749356|OTHER||Risk Difference (RD)|24.2||||0.0011|TWO_SIDED|95.0|10.4|42.3|||Chan and Zhang (1999) method|||Week 6||42.3|10.4|0.0011
82526618|NCT05375955|164749356|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 8||24.3|-2.1|0.0436
82574236|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|90.0|-1.33|-0.27||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||-0.27|-1.33|
82390506|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.395||0.15|TWO_SIDED|95.0|-0.17|1.38|||Stratified Rank ANCOVA|||||1.38|-0.17|0.15
82390507|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.417||0.41|TWO_SIDED|95.0|-0.91|0.73|||Stratified Rank ANCOVA|||||0.73|-0.91|0.41
82390508|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.554||0.44|TWO_SIDED|95.0|-0.88|1.3|||Stratified Rank ANCOVA|||||1.30|-0.88|0.44
82526619|NCT05375955|164749356|OTHER||Risk Difference (RD)|28.6||||0.0003|TWO_SIDED|95.0|14.2|46.3|||Chan and Zhang (1999) method|||Week 8||46.3|14.2|0.0003
82526620|NCT05375955|164749356|OTHER||Risk Difference (RD)|27.3||||0.0007|TWO_SIDED|95.0|12.9|45.8|||Chan and Zhang (1999) method|||Week 8||45.8|12.9|0.0007
82526621|NCT05375955|164749356|OTHER||Risk Difference (RD)|9.3||||0.1256|TWO_SIDED|95.0|-6.6|26.4|||Chan and Zhang (1999) method|||Week 10||26.4|-6.6|0.1256
82526622|NCT05375955|164749356|OTHER||Risk Difference (RD)|25.5||||0.0038|TWO_SIDED|95.0|7.0|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|7.0|0.0038
82526623|NCT05375955|164749356|OTHER||Risk Difference (RD)|33.5||||0.0007|TWO_SIDED|95.0|12.8|52.6|||Chan and Zhang (1999) method|||Week 10||52.6|12.8|0.0007
82526624|NCT05375955|164749357|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
82526625|NCT05375955|164749357|OTHER||Risk Difference (RD)|2.5||||0.3269|TWO_SIDED|95.0|-8.4|14.1|||Chan and Zhang (1999) method|||Week 1||14.1|-8.4|0.3269
82526626|NCT05375955|164749357|OTHER||Risk Difference (RD)|2.6||||0.3585|TWO_SIDED|95.0|-9.2|15.5|||Chan and Zhang (1999) method|||Week 2||15.5|-9.2|0.3585
82526627|NCT05375955|164749357|OTHER||Risk Difference (RD)|7.4||||0.129|TWO_SIDED|95.0|-5.3|22.1|||Chan and Zhang (1999) method|||Week 2||22.1|-5.3|0.1290
82526628|NCT05375955|164749357|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 4||22.1|-10.7|0.2751
82526629|NCT05375955|164749357|OTHER||Risk Difference (RD)|7.7||||0.2547|TWO_SIDED|95.0|-8.4|24.3|||Chan and Zhang (1999) method|||Week 4||24.3|-8.4|0.2547
82526630|NCT05375955|164749357|OTHER||Risk Difference (RD)|5.2||||0.2751|TWO_SIDED|95.0|-9.5|20.5|||Chan and Zhang (1999) method|||Week 6||20.5|-9.5|0.2751
82574237|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.36|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.91|0.19||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.19|-0.91|
82390509|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.505||0.85|TWO_SIDED|95.0|-0.95|1.04|||Stratified Rank ANCOVA|||||1.04|-0.95|0.85
82390510|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.533||0.83|TWO_SIDED|95.0|-1.36|0.74|||Stratified Rank ANCOVA|||||0.74|-1.36|0.83
82390511|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.444||0.56|TWO_SIDED|95.0|-0.8|0.95|||Stratified Rank ANCOVA|||||0.95|-0.80|0.56
82390512|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.534||0.48|TWO_SIDED|95.0|-1.07|1.03|||Stratified Rank ANCOVA|||||1.03|-1.07|0.48
82390513|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.443||0.13|TWO_SIDED|95.0|-0.67|1.07|||Stratified Rank ANCOVA|||||1.07|-0.67|0.13
82390514|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.448||0.62|TWO_SIDED|2.0|-0.78|0.99|||Stratified Rank ANCOVA|||||0.99|-0.78|0.62
82390515|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.454||0.34|TWO_SIDED|95.0|-1.16|0.63|||Stratified Rank ANCOVA|||||0.63|-1.16|0.34
82390516|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.472||0.24|TWO_SIDED|95.0|-1.12|0.74|||Stratified Rank ANCOVA|||||0.74|-1.12|0.24
82390517|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|0.475||0.88|TWO_SIDED|95.0|-0.26|1.61|||Stratified Rank ANCOVA|||||1.61|-0.26|0.88
82390518|NCT01340027|164492747|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.494||0.83|TWO_SIDED|95.0|-0.99|0.95|||Stratified Rank ANCOVA|||||0.95|-0.99|0.83
82390519|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29||||0.42|TWO_SIDED|95.0|0.69|2.39|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.39|0.69|0.42
82526631|NCT05375955|164749357|OTHER||Risk Difference (RD)|12.3||||0.0658|TWO_SIDED|95.0|-3.8|28.8|||Chan and Zhang (1999) method|||Week 6||28.8|-3.8|0.0658
82390520|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.48|TWO_SIDED|95.0|0.72|2.0|||Regression, Logistic|||||2.00|0.72|0.48
82390521|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11||||0.69|TWO_SIDED|95.0|0.67|1.83|||Regression, Logistic|||||1.83|0.67|0.69
82390522|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.95|TWO_SIDED|95.0|0.61|1.69|||Regression, Logistic|||||1.69|0.61|0.95
82390523|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.91||||0.015|TWO_SIDED|95.0|1.14|3.21|||Regression, Logistic|||||3.21|1.14|0.015
82390524|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.06||||0.023|TWO_SIDED|95.0|1.11|3.84|||Regression, Logistic|||||3.84|1.11|0.023
82390525|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||0.16|TWO_SIDED|95.0|0.84|2.84|||Regression, Logistic|||||2.84|0.84|0.16
82390526|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.73|TWO_SIDED|95.0|0.45|1.76|||Regression, Logistic|||||1.76|0.45|0.73
82390527|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||0.7|TWO_SIDED|95.0|0.45|1.72|||Regression, Logistic|||||1.72|0.45|0.70
82390528|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.26|TWO_SIDED|95.0|0.74|2.99|||Regression, Logistic|||||2.99|0.74|0.26
82390529|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.69|TWO_SIDED|95.0|0.63|2.04|||Regression, Logistic|||||2.04|0.63|0.69
82390530|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.29|TWO_SIDED|95.0|0.73|2.89|||Regression, Logistic|||||2.89|0.73|0.29
82390531|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.31|TWO_SIDED|95.0|0.75|2.45|||Regression, Logistic|||||2.45|0.75|0.31
82390532|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.45|TWO_SIDED|95.0|0.7|2.25|||Regression, Logistic|||||2.25|0.70|0.45
82390533|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.64|TWO_SIDED|95.0|0.64|2.07|||Regression, Logistic|||||2.07|0.64|0.64
82390534|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.16||||0.013|TWO_SIDED|95.0|1.18|3.94|||Regression, Logistic|||||3.94|1.18|0.013
82390535|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.33||||0.017|TWO_SIDED|95.0|1.16|4.66|||Regression, Logistic|||||4.66|1.16|0.017
82390536|NCT01340027|164492750|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.74||||0.11|TWO_SIDED|95.0|0.88|3.45|||Regression, Logistic|||||3.45|0.88|0.11
82390537|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.64||||0.52|TWO_SIDED|95.0|0.16|2.56|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.56|0.16|0.52
82390538|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||0.48|TWO_SIDED|95.0|0.23|1.99|||Regression, Logistic|||||1.99|0.23|0.48
82390539|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.95||||0.93|TWO_SIDED|95.0|0.32|2.81|||Regression, Logistic|||||2.81|0.32|0.93
82390540|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.12||||0.013|TWO_SIDED|95.0|1.47|25.6|||Regression, Logistic|||||25.60|1.47|0.013
82390541|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.49||||0.031|TWO_SIDED|95.0|1.17|25.77|||Regression, Logistic|||||25.77|1.17|0.031
82390542|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.84||||0.059|TWO_SIDED|95.0|0.95|15.58|||Regression, Logistic|||||15.58|0.95|0.059
82526632|NCT05375955|164749357|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 8||22.1|-10.7|0.2751
82574238|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.36|1.0||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||1.00|-0.36|
82574239|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.94|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|90.0|-1.59|-0.29||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||-0.29|-1.59|
82574240|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.29|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.97|0.39||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||0.39|-0.97|
82641193|NCT03985982|164997144|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the second test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous test shows statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Emotional domain - Change from Baseline at Week 4||||<0.001
82574241|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.55|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-0.2|1.3||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||1.30|-0.20|
82574242|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.69|STANDARD_ERROR_OF_MEAN|0.439|||TWO_SIDED|90.0|-1.41|0.04||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.04|-1.41|
82574243|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.456|||TWO_SIDED|90.0|-0.85|0.66||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.85|
82574244|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.491|||TWO_SIDED|90.0|-0.96|0.66||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.96|
82526633|NCT05375955|164749357|OTHER||Risk Difference (RD)|5.3||||0.2751|TWO_SIDED|95.0|-10.7|22.1|||Chan and Zhang (1999) method|||Week 8||22.1|-10.7|0.2751
82526634|NCT05375955|164749357|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 10||20.2|-13.6|0.3997
82526635|NCT05375955|164749357|OTHER||Risk Difference (RD)|3.1||||0.3997|TWO_SIDED|95.0|-13.6|20.2|||Chan and Zhang (1999) method|||Week 10||20.2|-13.6|0.3997
82526636|NCT05375955|164749357|OTHER||Risk Difference (RD)|7.9||||0.2736|TWO_SIDED|95.0|-9.5|25.7|||Chan and Zhang (1999) method|||Week 12||25.7|-9.5|0.2736
82526637|NCT05375955|164749357|OTHER||Risk Difference (RD)|12.7||||0.1119|TWO_SIDED|95.0|-5.6|31.0|||Chan and Zhang (1999) method|||Week 12||31.0|-5.6|0.1119
82526638|NCT05375955|164749358|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-10.6|11.0|||Chan and Zhang (1999) method|||Week 1||11.0|-10.6|1.0000
82526639|NCT05375955|164749358|OTHER||Risk Difference (RD)|2.9||||0.2697|TWO_SIDED|95.0|-7.8|14.9|||Chan and Zhang (1999) method|||Week 1||14.9|-7.8|0.2697
82526640|NCT05375955|164749358|OTHER||Risk Difference (RD)|3.0||||0.2578|TWO_SIDED|95.0|-7.8|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-7.8|0.2578
82526641|NCT05375955|164749358|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 2||20.7|-4.9|0.0993
82526642|NCT05375955|164749358|OTHER||Risk Difference (RD)|5.7||||0.114|TWO_SIDED|95.0|-5.3|19.2|||Chan and Zhang (1999) method|||Week 2||19.2|-5.3|0.1140
82526643|NCT05375955|164749358|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 2||24.3|-2.1|0.0436
82526644|NCT05375955|164749358|OTHER||Risk Difference (RD)|6.1||||0.0993|TWO_SIDED|95.0|-4.9|20.7|||Chan and Zhang (1999) method|||Week 4||20.7|-4.9|0.0993
82526645|NCT05375955|164749358|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 4||33.9|4.9|0.0071
82574245|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|90.0|-1.89|-0.33||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||-0.33|-1.89|
82574246|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.497|||TWO_SIDED|90.0|-1.13|0.52||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.52|-1.13|
82641194|NCT03985982|164997144|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the third test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous two tests show statistical significance at the alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Social Functioning domain - Change from Baseline at Week 4||||<0.001
82526646|NCT05375955|164749358|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 4||32.0|3.2|0.0104
82526647|NCT05375955|164749358|OTHER||Risk Difference (RD)|15.2||||0.0104|TWO_SIDED|95.0|3.2|32.0|||Chan and Zhang (1999) method|||Week 6||32.0|3.2|0.0104
82526648|NCT05375955|164749358|OTHER||Risk Difference (RD)|17.1||||0.0071|TWO_SIDED|95.0|4.9|33.9|||Chan and Zhang (1999) method|||Week 6||33.9|4.9|0.0071
82526649|NCT05375955|164749358|OTHER||Risk Difference (RD)|24.2||||0.0011|TWO_SIDED|95.0|10.4|42.3|||Chan and Zhang (1999) method|||Week 6||42.3|10.4|0.0011
82526650|NCT05375955|164749358|OTHER||Risk Difference (RD)|9.1||||0.0436|TWO_SIDED|95.0|-2.1|24.3|||Chan and Zhang (1999) method|||Week 8||24.3|-2.1|0.0436
82526651|NCT05375955|164749358|OTHER||Risk Difference (RD)|28.6||||0.0003|TWO_SIDED|95.0|14.2|46.3|||Chan and Zhang (1999) method|||Week 8||46.3|14.2|0.0003
82526652|NCT05375955|164749358|OTHER||Risk Difference (RD)|27.3||||0.0007|TWO_SIDED|95.0|12.9|45.8|||Chan and Zhang (1999) method|||Week 8||45.8|12.9|0.0007
82526653|NCT05375955|164749358|OTHER||Risk Difference (RD)|6.3||||0.2712|TWO_SIDED|95.0|-10.8|24.3|||Chan and Zhang (1999) method|||Week 10||24.3|-10.8|0.2712
82526654|NCT05375955|164749358|OTHER||Risk Difference (RD)|25.5||||0.0056|TWO_SIDED|95.0|5.4|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|5.4|0.0056
82526655|NCT05375955|164749358|OTHER||Risk Difference (RD)|30.6||||0.0017|TWO_SIDED|95.0|9.7|50.5|||Chan and Zhang (1999) method|||Week 10||50.5|9.7|0.0017
82526656|NCT05375955|164749358|OTHER||Risk Difference (RD)|3.4||||0.3929|TWO_SIDED|95.0|-14.9|21.6|||Chan and Zhang (1999) method|||Week 12||21.6|-14.9|0.3929
82526657|NCT05375955|164749358|OTHER||Risk Difference (RD)|28.2||||0.004|TWO_SIDED|95.0|7.0|47.7|||Chan and Zhang (1999) method|||Week 12||47.7|7.0|0.0040
82526658|NCT05375955|164749358|OTHER||Risk Difference (RD)|33.7||||0.0012|TWO_SIDED|95.0|10.4|53.7|||Chan and Zhang (1999) method|||Week 12||53.7|10.4|0.0012
82526659|NCT05375955|164749361|OTHER||Risk Difference (RD)|2.8||||0.3255|TWO_SIDED|95.0|-8.5|15.8|||Chan and Zhang (1999) method|||Week 1||15.8|-8.5|0.3255
82526660|NCT05375955|164749361|OTHER||Risk Difference (RD)|-2.5||||0.7181|TWO_SIDED|95.0|-13.3|8.3|||Chan and Zhang (1999) method|||Week 1||8.3|-13.3|0.7181
82526661|NCT05375955|164749361|OTHER||Risk Difference (RD)|18.4||||0.0022|TWO_SIDED|95.0|7.0|34.3|||Chan and Zhang (1999) method|||Week 2||34.3|7.0|0.0022
82526662|NCT05375955|164749361|OTHER||Risk Difference (RD)|14.7||||0.0064|TWO_SIDED|95.0|3.7|31.1|||Chan and Zhang (1999) method|||Week 2||31.1|3.7|0.0064
82574247|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.86|0.95||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||0.95|-0.86|
82574248|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.87|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.73|-0.01||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||-0.01|-1.73|
82574249|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.78|1.03||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||1.03|-0.78|
82574250|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.602|||TWO_SIDED|90.0|-0.6|1.39||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||1.39|-0.60|
82390543|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.91||||0.36|TWO_SIDED|95.0|0.48|7.58|||Regression, Logistic|||||7.58|0.48|0.36
82574251|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.95|STANDARD_ERROR_OF_MEAN|0.574|||TWO_SIDED|90.0|-1.9|0.0||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.00|-1.90|
82390544|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.34||||0.26|TWO_SIDED|95.0|0.05|2.17|||Regression, Logistic|||||2.17|0.05|0.26
82390545|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.43||||0.33|TWO_SIDED|95.0|0.08|2.31|||Regression, Logistic|||||2.31|0.08|0.33
82390546|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.94|TWO_SIDED|95.0|0.17|6.68|||Regression, Logistic|||||6.68|0.17|0.94
82390547|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.44||||0.29|TWO_SIDED|95.0|0.09|2.02|||Regression, Logistic|||||2.02|0.09|0.29
82390548|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28||||0.15|TWO_SIDED|95.0|0.05|1.6|||Regression, Logistic|||||1.60|0.05|0.15
82574252|NCT04092452|164858050|SUPERIORITY||Risk Difference (RD)|-0.01|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.0|0.99||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.99|-1.00|
82390549|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.29||||0.11|TWO_SIDED|95.0|0.06|1.34|||Regression, Logistic|||||1.34|0.06|0.11
82390550|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41||||0.26|TWO_SIDED|95.0|0.09|1.89|||Regression, Logistic|||||1.89|0.09|0.26
82526663|NCT05375955|164749361|OTHER||Risk Difference (RD)|13.7||||0.0659|TWO_SIDED|95.0|-3.4|31.5|||Chan and Zhang (1999) method|||Week 4||31.5|-3.4|0.0659
82390551|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.67||||0.28|TWO_SIDED|95.0|0.44|16.17|||Regression, Logistic|||||16.17|0.44|0.28
82390552|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.39||||0.36|TWO_SIDED|95.0|0.37|15.46|||Regression, Logistic|||||15.46|0.37|0.36
82390553|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.56|TWO_SIDED|95.0|0.29|9.72|||Regression, Logistic|||||9.72|0.29|0.56
82526664|NCT05375955|164749361|OTHER||Risk Difference (RD)|19.4||||0.0189|TWO_SIDED|95.0|0.9|38.5|||Chan and Zhang (1999) method|||Week 4||38.5|0.9|0.0189
82641195|NCT03985982|164997144|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the forth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous three tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Overall score - Change from Baseline at Week 4.||||<0.001
82641196|NCT03985982|164997144|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the fifth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous four tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Appraisal of Lines Between Eyebrows - Change from Baseline at Week 4||||<0.001
82641197|NCT03985982|164997144|SUPERIORITY||||||<|0.001||||||The statistical significance is set to 0.025. This is the sixth test in a hierarchical testing sequence. Statistical significance will only be assessed if the previous five tests show statistical significance at the 1-sided alpha level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Age Appraisal VAS score||||<0.001
82641198|NCT01283009|164997221|SUPERIORITY||Odds Ratio (OR)|0.9||||0.635|TWO_SIDED|95.0|0.58|1.4|||Mantel Haenszel|||||1.40|0.58|0.635
82641199|NCT01335620|164997227|SUPERIORITY|||||||0.018|||||||Regression, Logistic|||Compare baseline to 24 weeks||||0.018
82641200|NCT02743117|164997228|SUPERIORITY_OR_OTHER||Rate Difference|-1.3|||||TWO_SIDED|95.0|-8.1|1.3||||||||1.3|-8.1|
82641201|NCT02743117|164997229|SUPERIORITY_OR_OTHER||Rate Difference|-8.2|||||TWO_SIDED|95.0|-22.2|4.6||||||Up to Day 8||4.6|-22.2|
82641202|NCT02743117|164997229|SUPERIORITY_OR_OTHER||Rate Difference|-7.4|||||TWO_SIDED|95.0|-21.6|5.9||||||Up to Day 15||5.9|-21.6|
82641203|NCT01453296|164997246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.8|5.7|||||Day 1 maximum HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-0.8|
82641204|NCT01453296|164997246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-2.4|3.7|||||Day 14 maximum HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.7|-2.4|
82641205|NCT01453296|164997246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.6|3.6|||||Day 14 maximum HR (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.6|-2.6|
82641206|NCT01453296|164997247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-0.8|5.7|||||Day 1 weighted HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-0.8|
82641207|NCT01453296|164997247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-2.4|3.7|||||Day 14 weighted HR (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.7|-2.4|
82641208|NCT01453296|164997247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.6|3.6|||||Day 14 weighted HR (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||3.6|-2.6|
82641209|NCT01453296|164997248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-4.5|6.6|||||Day 1 maximum QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.6|-4.5|
82641210|NCT01453296|164997248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|-3.2|6.3|||||Day 14 maximum QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.3|-3.2|
82641211|NCT01453296|164997248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-3.0|5.7|||||Day 14 maximum QTcF (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||5.7|-3.0|
82641212|NCT01453296|164997262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.01|||||TWO_SIDED|95.0|-2.59|6.61|||||Day 1 weighted QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||6.61|-2.59|
82641213|NCT01453296|164997262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94|||||TWO_SIDED|95.0|-1.93|7.81|||||Day 14 weighted QTcF (0-2 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||7.81|-1.93|
82641214|NCT01453296|164997262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||||TWO_SIDED|95.0|-0.7|7.08|||||Day 14 weighted QTcF (0-8 hr). The estimated value represents the treatment difference: VI 25 µg minus placebo.|||7.08|-0.70|
82641215|NCT04983589|164997268|SUPERIORITY||Percentage Difference|27.3|||<|0.0001|TWO_SIDED|95.0|17.3|37.4||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation based on pooled variance without continuity correction.|||37.4|17.3|<0.0001
82641216|NCT04983589|164997269|SUPERIORITY||Percentage Difference|26.4|||<|0.0001|TWO_SIDED|95.0|16.8|36.0||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation based on pooled variance without continuity correction.|||36.0|16.8|<0.0001
82390554|NCT01340027|164492752|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.83||||0.84|TWO_SIDED|95.0|0.15|4.76|||Regression, Logistic|||||4.76|0.15|0.84
82641217|NCT04983589|164997270|SUPERIORITY||Percentage Difference|34.7|||<|0.0001|TWO_SIDED|95.0|22.7|46.7||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated based on the normal approximation using pooled variance without continuity correction.|||46.7|22.7|<0.0001
82641218|NCT04983589|164997271|SUPERIORITY||Percentage Difference|20.6||||0.001|TWO_SIDED|95.0|8.6|32.6||Analysis was done using chi-square test.|Chi-squared||The 95% confidence interval for the proportion differences was calculated using the normal approximation using pooled variance without continuity correction.|||32.6|8.6|0.001
82641219|NCT00585468|164997272|SUPERIORITY_OR_OTHER|||||||0.0163|||||||t-test, 2 sided|||||||0.0163
82641220|NCT00585468|164997273|SUPERIORITY_OR_OTHER|||||||0.039|||||||t-test, 2 sided|||||||0.039
82641221|NCT00585468|164997275|SUPERIORITY_OR_OTHER|||||||0.146|||||||t-test, 2 sided|||||||0.146
82641222|NCT00585468|164997276|SUPERIORITY_OR_OTHER|||||||0.4937|||||||t-test, 2 sided|||||||0.4937
82641223|NCT00585468|164997277|SUPERIORITY_OR_OTHER|||||||0.9669|||||||t-test, 2 sided|||||||0.9669
82641224|NCT00585468|164997279|SUPERIORITY_OR_OTHER|||||||0.9607|||||||t-test, 2 sided|||||||0.9607
82641225|NCT04259905|164997280|SUPERIORITY||Cohen's d|0.85|||||TWO_SIDED|||||||||||||
82641226|NCT04259905|164997281|SUPERIORITY||Cohen's d|1.29|||||TWO_SIDED|||||||||||||
82641227|NCT04259905|164997282|SUPERIORITY||Cohen's d|1.06|||||TWO_SIDED|||||||||||||
82641228|NCT00978120|164997304|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
82526665|NCT05375955|164749361|OTHER||Risk Difference (RD)|3.6||||0.3962|TWO_SIDED|95.0|-14.9|22.3|||Chan and Zhang (1999) method|||Week 6||22.3|-14.9|0.3962
82390555|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61||||0.48|TWO_SIDED|95.0|0.16|2.38|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.38|0.16|0.48
82526666|NCT05375955|164749361|OTHER||Risk Difference (RD)|9.0||||0.2333|TWO_SIDED|95.0|-10.4|29.1|||Chan and Zhang (1999) method|||Week 6||29.1|-10.4|0.2333
82390556|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74||||0.58|TWO_SIDED|95.0|0.25|2.17|||Regression, Logistic|||||2.17|0.25|0.58
82526667|NCT05375955|164749361|OTHER||Risk Difference (RD)|3.6||||0.3962|TWO_SIDED|95.0|-14.9|22.3|||Chan and Zhang (1999) method|||Week 8||22.3|-14.9|0.3962
82526668|NCT05375955|164749361|OTHER||Risk Difference (RD)|11.9||||0.1353|TWO_SIDED|95.0|-7.9|32.7|||Chan and Zhang (1999) method|||Week 8||32.7|-7.9|0.1353
82526669|NCT05375955|164749361|OTHER||Risk Difference (RD)|6.2||||0.2791|TWO_SIDED|95.0|-12.8|25.7|||Chan and Zhang (1999) method|||Week 10||25.7|-12.8|0.2791
82526670|NCT05375955|164749361|OTHER||Risk Difference (RD)|9.0||||0.2333|TWO_SIDED|95.0|-10.4|29.1|||Chan and Zhang (1999) method|||Week 10||29.1|-10.4|0.2333
82526671|NCT05375955|164749361|OTHER||Risk Difference (RD)|11.3||||0.1295|TWO_SIDED|95.0|-7.3|30.6|||Chan and Zhang (1999) method|||Week 12||30.6|-7.3|0.1295
82526672|NCT05375955|164749361|OTHER||Risk Difference (RD)|20.3||||0.0247|TWO_SIDED|95.0|0.1|40.2|||Chan and Zhang (1999) method|||Week 12||40.2|0.1|0.0247
82526673|NCT05375955|164749362|OTHER||Risk Difference (RD)|-4.3||||0.7278|TWO_SIDED|95.0|-21.9|11.5|||Chan and Zhang (1999) method|||Week 1||11.5|-21.9|0.7278
82526674|NCT05375955|164749362|OTHER||Risk Difference (RD)|8.2||||0.2548|TWO_SIDED|95.0|-11.5|28.2|||Chan and Zhang (1999) method|||Week 1||28.2|-11.5|0.2548
82526675|NCT05375955|164749362|OTHER||Risk Difference (RD)|0.9||||0.5162|TWO_SIDED|95.0|-17.5|21.9|||Chan and Zhang (1999) method|||Week 1||21.9|-17.5|0.5162
82641229|NCT00978120|164997305|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82390557|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.93|TWO_SIDED|95.0|0.34|3.28|||Regression, Logistic|||||3.28|0.34|0.93
82390558|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.16||||0.023|TWO_SIDED|95.0|1.4|105.3|||Regression, Logistic|||||105.30|1.40|0.023
82390559|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.48||||0.042|TWO_SIDED|95.0|1.08|83.24|||Regression, Logistic|||||83.24|1.08|0.042
82390560|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.03||||0.047|TWO_SIDED|95.0|1.03|79.19|||Regression, Logistic|||||79.19|1.03|0.047
82390561|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.79||||0.23|TWO_SIDED|95.0|0.52|14.9|||Regression, Logistic|||||14.90|0.52|0.23
82390562|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1||||0.058|TWO_SIDED|95.0|0.01|1.08|||Regression, Logistic|||||1.08|0.01|0.058
82390563|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.18||||0.15|TWO_SIDED|95.0|0.02|1.87|||Regression, Logistic|||||1.87|0.02|0.15
82390564|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.55|TWO_SIDED|95.0|0.04|5.99|||Regression, Logistic|||||5.99|0.04|0.55
82574253|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.69|0.29||||||Week 1-HSS0101-Pain At It's Worst||0.29|-0.69|
82390565|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.16||||0.11|TWO_SIDED|95.0|0.02|1.48|||Regression, Logistic|||||1.48|0.02|0.11
82390566|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1||||0.054|TWO_SIDED|95.0|0.01|1.05|||Regression, Logistic|||||1.05|0.01|0.054
82390567|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.12||||0.059|TWO_SIDED|95.0|0.01|1.08|||Regression, Logistic|||||1.08|0.01|0.059
82574254|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.48|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|90.0|-0.96|-0.01||||||Week 1-HSS0101-Pain At It's Worst||-0.01|-0.96|
82574255|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.42|STANDARD_ERROR_OF_MEAN|0.295|||TWO_SIDED|90.0|-0.91|0.06||||||Week 1-HSS0101-Pain At It's Worst||0.06|-0.91|
82574256|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|90.0|-0.95|0.35||||||Week 2-HSS0101-Pain At It's Worst||0.35|-0.95|
82574257|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.71|STANDARD_ERROR_OF_MEAN|0.377|||TWO_SIDED|90.0|-1.33|-0.08||||||Week 2-HSS0101-Pain At It's Worst||-0.08|-1.33|
82390568|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.17||||0.12|TWO_SIDED|95.0|0.02|1.58|||Regression, Logistic|||||1.58|0.02|0.12
82390569|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.0||||0.64|TWO_SIDED|95.0|0.11|35.46|||Regression, Logistic|||||35.46|0.11|0.64
82390570|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||0.76|TWO_SIDED|95.0|0.09|27.42|||Regression, Logistic|||||27.42|0.09|0.76
82390571|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.79|TWO_SIDED|95.0|0.08|26.47|||Regression, Logistic|||||26.47|0.08|0.79
82390572|NCT01340027|164492753|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.55|TWO_SIDED|95.0|0.04|5.77|||Regression, Logistic|||||5.77|0.04|0.55
82390573|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.495||0.25|TWO_SIDED|95.0|-1.24|0.71||All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.|Stratified Rank ANCOVA|P-values are from pairwise comparisons of the combination/active treatment groups vs. solifenacin 5 mg/placebo within a stratified rank ANCOVA model.||The ANCOVA model including the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and Baseline measurement as a covariate was used to calculate point estimates and 95% confidence intervals for change from Baseline within each treatment group and for differences between combination treatment groups and solifenacin 5 mg as well as for differences between active treatment groups and placebo.||0.71|-1.24|0.25
82390574|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.383||0.35|TWO_SIDED|95.0|-0.7|0.81|||Stratified Rank ANCOVA|||||0.81|-0.70|0.35
82390575|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.371||1|TWO_SIDED|95.0|-0.74|0.72|||Stratified Rank ANCOVA|||||0.72|-0.74|1.0
82390576|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.377||0.003|TWO_SIDED|95.0|-1.08|0.41|||Stratified Rank ANCOVA|||||0.41|-1.08|0.003
82390577|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.413||0.12|TWO_SIDED|95.0|-1.04|0.59|||Stratified Rank ANCOVA|||||0.59|-1.04|0.12
82390578|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.405||0.24|TWO_SIDED|95.0|-0.21|1.38|||Stratified Rank ANCOVA|||||1.38|-0.21|0.24
82390579|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.435||0.54|TWO_SIDED|95.0|-0.94|0.78|||Stratified Rank ANCOVA|||||0.78|-0.94|0.54
82390580|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.59||0.95|TWO_SIDED|95.0|-1.1|1.22|||Stratified Rank ANCOVA|||||1.22|-1.10|0.95
82390581|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.552||0.74|TWO_SIDED|95.0|-1.11|1.07|||Stratified Rank ANCOVA|||||1.07|-1.11|0.74
82390582|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.57||0.89|TWO_SIDED|95.0|-1.43|0.82|||Stratified Rank ANCOVA|||||0.82|-1.43|0.89
82390583|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.487||0.82|TWO_SIDED|95.0|-0.96|0.96|||Stratified Rank ANCOVA|||||0.96|-0.96|0.82
82390584|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.593||0.58|TWO_SIDED|95.0|-1.44|0.9|||Stratified Rank ANCOVA|||||0.90|-1.44|0.58
82390585|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.5||0.46|TWO_SIDED|95.0|-0.93|1.04|||Stratified Rank ANCOVA|||||1.04|-0.93|0.46
82574258|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.391|||TWO_SIDED|90.0|-1.21|0.08||||||Week 2-HSS0101-Pain At It's Worst||0.08|-1.21|
82574259|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.481|||TWO_SIDED|90.0|-0.54|1.05||||||Week 4-HSS0101-Pain At It's Worst||1.05|-0.54|
82574260|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.39|STANDARD_ERROR_OF_MEAN|0.458|||TWO_SIDED|90.0|-1.15|0.37||||||Week 4-HSS0101-Pain At It's Worst||0.37|-1.15|
82641230|NCT00978120|164997308|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||||||0.470
82526676|NCT05375955|164749362|OTHER||Risk Difference (RD)|9.3||||0.1663|TWO_SIDED|95.0|-11.4|30.7|||Chan and Zhang (1999) method|||Week 2||30.7|-11.4|0.1663
82641231|NCT00978120|164997309|SUPERIORITY_OR_OTHER|||||||0.12|||||||Fisher Exact|||||||0.120
82526677|NCT05375955|164749362|OTHER||Risk Difference (RD)|16.5||||0.0605|TWO_SIDED|95.0|-4.2|38.3|||Chan and Zhang (1999) method|||Week 2||38.3|-4.2|0.0605
82641232|NCT00978120|164997310|SUPERIORITY_OR_OTHER|||||||0.284|||||||Fisher Exact|||||||0.284
82641233|NCT00978120|164997311|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
82526678|NCT05375955|164749362|OTHER||Risk Difference (RD)|16.7||||0.0592|TWO_SIDED|95.0|-5.4|41.6|||Chan and Zhang (1999) method|||Week 2||41.6|-5.4|0.0592
82526679|NCT05375955|164749362|OTHER||Risk Difference (RD)|14.0||||0.1246|TWO_SIDED|95.0|-8.6|37.4|||Chan and Zhang (1999) method|||Week 4||37.4|-8.6|0.1246
82526680|NCT05375955|164749362|OTHER||Risk Difference (RD)|16.3||||0.0789|TWO_SIDED|95.0|-7.3|39.7|||Chan and Zhang (1999) method|||Week 4||39.7|-7.3|0.0789
82526681|NCT05375955|164749362|OTHER||Risk Difference (RD)|17.6||||0.0889|TWO_SIDED|95.0|-6.4|43.7|||Chan and Zhang (1999) method|||Week 4||43.7|-6.4|0.0889
82526682|NCT05375955|164749362|OTHER||Risk Difference (RD)|27.5||||0.0097|TWO_SIDED|95.0|4.2|50.7|||Chan and Zhang (1999) method|||Week 6||50.7|4.2|0.0097
82526683|NCT05375955|164749362|OTHER||Risk Difference (RD)|20.7||||0.0294|TWO_SIDED|95.0|-0.8|43.6|||Chan and Zhang (1999) method|||Week 6||43.6|-0.8|0.0294
82526684|NCT05375955|164749362|OTHER||Risk Difference (RD)|37.8||||0.0018|TWO_SIDED|95.0|10.9|62.2|||Chan and Zhang (1999) method|||Week 6||62.2|10.9|0.0018
82526685|NCT05375955|164749362|OTHER||Risk Difference (RD)|23.5||||0.0495|TWO_SIDED|95.0|-3.8|48.9|||Chan and Zhang (1999) method|||Week 8||48.9|-3.8|0.0495
82526686|NCT05375955|164749362|OTHER||Risk Difference (RD)|7.6||||0.289|TWO_SIDED|95.0|-17.3|32.4|||Chan and Zhang (1999) method|||Week 8||32.4|-17.3|0.2890
82526687|NCT05375955|164749362|OTHER||Risk Difference (RD)|35.2||||0.0103|TWO_SIDED|95.0|5.1|62.0|||Chan and Zhang (1999) method|||Week 8||62.0|5.1|0.0103
82526688|NCT05375955|164749362|OTHER||Risk Difference (RD)|19.0||||0.1088|TWO_SIDED|95.0|-7.8|44.8|||Chan and Zhang (1999) method|||Week 10||44.8|-7.8|0.1088
82526689|NCT05375955|164749362|OTHER||Risk Difference (RD)|11.8||||0.2719|TWO_SIDED|95.0|-14.0|36.2|||Chan and Zhang (1999) method|||Week 10||36.2|-14.0|0.2719
82526690|NCT05375955|164749362|OTHER||Risk Difference (RD)|30.0||||0.0227|TWO_SIDED|95.0|0.4|56.6|||Chan and Zhang (1999) method|||Week 10||56.6|0.4|0.0227
82526691|NCT05375955|164749362|OTHER||Risk Difference (RD)|23.5||||0.0495|TWO_SIDED|95.0|-3.8|48.9|||Chan and Zhang (1999) method|||Week 12||48.9|-3.8|0.0495
82526692|NCT05375955|164749362|OTHER||Risk Difference (RD)|15.9||||0.1246|TWO_SIDED|95.0|-10.6|40.6|||Chan and Zhang (1999) method|||Week 12||40.6|-10.6|0.1246
82526693|NCT05375955|164749362|OTHER||Risk Difference (RD)|30.0||||0.0227|TWO_SIDED|95.0|0.4|56.6|||Chan and Zhang (1999) method|||Week 12||56.6|0.4|0.0227
82526694|NCT05454410|164749370|SUPERIORITY||Mean Difference (Net)|-5.2|||||TWO_SIDED|90.0|-9.6|-0.7|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||-0.7|-9.6|
82526695|NCT05454410|164749370|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|90.0|-7.0|2.1|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||2.1|-7.0|
82526696|NCT05454410|164749370|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|90.0|-4.0|5.1|||ANCOVA||Placebo adjusted means (MIJ821-Placebo). 90% CIs are nominal and not adjusted for multiplicity.|||5.1|-4.0|
82526697|NCT05454410|164749376|SUPERIORITY|||||||0.0242||||||P-value for the selected model best representing the underlying DR (the lowest p-value out of the 6 candidate models), adjusted for multiple comparisons.|Multiple contrast test|||MCP-Mod was used to check if there was a DR relationship between the change from baseline to 24 hours in MADRS total score and the doses received. The Least squares means under the primary estimand were used to test the null hypothesis of a flat DR relationship at a one-sided significance level of 5% against the alternative hypothesis of a non-flat DR curve. Six candidate DR curves were used to derive the optimal model contrasts for the multiple contrast tests. A monotone DR was assumed.||||0.0242
82526698|NCT00895622|164749421|OTHER||Kappa statistic|0.79|||<|0.0001|TWO_SIDED|95.0|0.71|0.87|||Z test|||"The Kappa (κ) coefficient was used to assess the measure of agreement between the reviewers. κ can be interpreted as follows (κ / Agreement):~\< 0 / Less than chance agreement; 0.01-0.20 / Slight agreement; 0.21-0.40 / Fair agreement; 0.41-0.60 / Moderate agreement; 0.61-0.80 / Substantial agreement; 0.81-0.99 / Almost perfect agreement.~The asymptotic test of the null hypothesis: κ=0 will be performed using the Z-statistic to determine the strength of agreement."||0.87|0.71|<0.0001
82526699|NCT01320943|164749433|SUPERIORITY|||||||0.022||||||Log-rank test statistic was used to compare the time to HBsAg loss between the two treatment arms.|Log Rank|||||||0.022
82526700|NCT03489057|164749460|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
82526701|NCT03489057|164749474|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||||||0.48
82574261|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.478|||TWO_SIDED|90.0|-0.85|0.73||||||Week 4-HSS0101-Pain At It's Worst||0.73|-0.85|
82574262|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.62|STANDARD_ERROR_OF_MEAN|0.524|||TWO_SIDED|90.0|-0.24|1.49||||||Week 6-HSS0101-Pain At It's Worst||1.49|-0.24|
82641234|NCT00978120|164997312|SUPERIORITY_OR_OTHER|||||||0.341|||||||Fisher Exact|||||||0.341
82641235|NCT00978120|164997313|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.020
82641236|NCT00978120|164997314|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||||||0.245
82641237|NCT00978120|164997315|SUPERIORITY_OR_OTHER|||||||0.173|||||||Fisher Exact|||||||0.173
82641238|NCT00978120|164997316|SUPERIORITY_OR_OTHER|||||||0.362|||||||Fisher Exact|||||||0.362
82526702|NCT03324880|164749492|SUPERIORITY||Difference in Least Squares (LS) Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.189|=|0.003|TWO_SIDED|95.0|-0.9|-0.15||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom subscale score.|-0.15|-0.90|=0.003
82641239|NCT00978120|164997317|SUPERIORITY_OR_OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
82526703|NCT03324880|164749493|SUPERIORITY||Difference in LS Mean|10.5|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|5.1|15.9||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACIT-Fatigue total score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACIT-Fatigue total score.|15.9|5.1|<0.001
82526704|NCT03324880|164749494|SUPERIORITY||Difference in LS Mean|4.242|STANDARD_ERROR_OF_MEAN|1.9219|=|0.015|TWO_SIDED|95.0|0.413|8.072||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 PCS score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 PCS score.|8.072|0.413|=0.015
82526705|NCT03324880|164749495|SUPERIORITY||Difference in LS Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.112|=|0.002|TWO_SIDED|95.0|-0.55|-0.1||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact subscale score.|-0.10|-0.55|=0.002
82526706|NCT03324880|164749496|SUPERIORITY||Difference in LS Mean|-0.28|STANDARD_ERROR_OF_MEAN|0.125|=|0.013|TWO_SIDED|95.0|-0.53|-0.04||1-sided p-value was reported.|MMRM|||Impact on Sleep|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.04|-0.53|=0.013
82526707|NCT03324880|164749496|SUPERIORITY||Difference in LS Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.128|=|0.003|TWO_SIDED|95.0|-0.61|-0.11||1-sided p-value was reported.|MMRM|||Ability to Exercise|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.11|-0.61|=0.003
82641240|NCT00978120|164997318|SUPERIORITY_OR_OTHER|||||||0.016|||||||Fisher Exact|||||||0.016
82641241|NCT00978120|164997319|SUPERIORITY_OR_OTHER|||||||0.032|||||||Fisher Exact|||||||0.032
82526708|NCT03324880|164749496|SUPERIORITY||Difference in LS Mean|-0.36|STANDARD_ERROR_OF_MEAN|0.123|=|0.002|TWO_SIDED|95.0|-0.61|-0.12||1-sided p-value was reported.|MMRM|||Ability to Complete Work|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.12|-0.61|=0.002
82526709|NCT03324880|164749496|SUPERIORITY||Difference in LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.121|=|0.002|TWO_SIDED|95.0|-0.61|-0.13||1-sided p-value was reported.|MMRM|||Impact Family Relationships|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD impact item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD impact item score.|-0.13|-0.61|=0.002
82526710|NCT03324880|164749497|SUPERIORITY||Difference in LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.203|=|0.004|TWO_SIDED|95.0|-0.96|-0.15||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD anxiety item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD anxiety item score.|-0.15|-0.96|=0.004
82526711|NCT03324880|164749498|SUPERIORITY||Difference in LS Mean|-0.54|STANDARD_ERROR_OF_MEAN|0.2|=|0.004|TWO_SIDED|95.0|-0.93|-0.14||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD sadness or depression item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD sadness or depression item score.|-0.14|-0.93|=0.004
82526712|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.56|STANDARD_ERROR_OF_MEAN|0.218|=|0.006|TWO_SIDED|95.0|-0.99|-0.12||1-sided p-value was reported.|MMRM|||Muscle Cramps|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.12|-0.99|=0.006
82526713|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.54|STANDARD_ERROR_OF_MEAN|0.213|=|0.007|TWO_SIDED|95.0|-0.96|-0.12||1-sided p-value was reported.|MMRM|||Tingling|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.12|-0.96|=0.007
82574263|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.19|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.03|0.64||||||Week 6-HSS0101-Pain At It's Worst||0.64|-1.03|
82574264|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.526|||TWO_SIDED|90.0|-0.66|1.08||||||Week 6-HSS0101-Pain At It's Worst||1.08|-0.66|
82641242|NCT00762073|164997320|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.239||||0.5282|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.5282
82641243|NCT00762073|164997320|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.86||||0.0092|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.0092
82641244|NCT00762073|164997320|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.009||||0.0174|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.0174
82390586|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.49||0.95|TWO_SIDED|95.0|-0.97|0.96|||Stratified Rank ANCOVA|||||0.96|-0.97|0.95
82390587|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.499||0.18|TWO_SIDED|95.0|-1.32|0.65|||Stratified Rank ANCOVA|||||0.65|-1.32|0.18
82526714|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.231|=|0.02|TWO_SIDED|95.0|-0.94|-0.02||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.02|-0.94|=0.020
82526715|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.62|STANDARD_ERROR_OF_MEAN|0.219|=|0.003|TWO_SIDED|95.0|-1.05|-0.18||1-sided p-value was reported.|MMRM|||Muscle Spasms|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.18|-1.05|=0.003
82526716|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.38|STANDARD_ERROR_OF_MEAN|0.229|=|0.05|TWO_SIDED|95.0|-0.83|0.07||1-sided p-value was reported.|MMRM|||Feelings of Heaviness|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|0.07|-0.83|=0.050
82526717|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.227|=|0.008|TWO_SIDED|95.0|-1.01|-0.1||1-sided p-value was reported.|MMRM|||Physical Fatigue|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.10|-1.01|=0.008
82526718|NCT03324880|164749499|SUPERIORITY||Difference in LS Mean|-0.51|STANDARD_ERROR_OF_MEAN|0.186|=|0.004|TWO_SIDED|95.0|-0.87|-0.14||1-sided p-value was reported.|MMRM|||Brain Fog|MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD symptom item score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD symptom item score.|-0.14|-0.87|=0.004
82526719|NCT03324880|164749501|SUPERIORITY||Difference in LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|0.235|<|0.001|TWO_SIDED|95.0|-1.37|-0.43||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in HypoPT-SD most bothersome symptom score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect, with adjustment for baseline HypoPT-SD most bothersome symptom score.|-0.43|-1.37|<0.001
82526720|NCT03324880|164749502|SUPERIORITY||Difference in LS Mean|2.1|STANDARD_ERROR_OF_MEAN|1.07|=|0.024|TWO_SIDED|95.0|0.0|4.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACT-Cog Perceived Cognitive Impairments Subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACT-Cog Perceived Cognitive Impairments Subscale score.|4.3|0.0|=0.024
82526721|NCT03324880|164749503|SUPERIORITY||Difference in LS Mean|2.1|STANDARD_ERROR_OF_MEAN|1.07|=|0.024|TWO_SIDED|95.0|0.0|4.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in FACT-Cog QoL Subscale score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline FACT-Cog QoL Subscale score.|4.3|0.0|=0.024
82526722|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|7.21|STANDARD_ERROR_OF_MEAN|2.1376|=|0.001|TWO_SIDED|95.0|2.951|11.469||1-sided p-value was reported.|MMRM|||Standard-Bodily Pain|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|11.469|2.951|=0.001
82526723|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|5.545|STANDARD_ERROR_OF_MEAN|2.0542|=|0.004|TWO_SIDED|95.0|1.452|9.638||1-sided p-value was reported.|MMRM|||Standard-General Health|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|9.638|1.452|=0.004
82526724|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|7.857|STANDARD_ERROR_OF_MEAN|2.2913|<|0.001|TWO_SIDED|95.0|3.292|12.423||1-sided p-value was reported.|MMRM|||Standard-Mental Health|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|12.423|3.292|<0.001
82526725|NCT03324880|164749504|SUPERIORITY||MMRM|4.554|STANDARD_ERROR_OF_MEAN|2.1123|=|0.017|TWO_SIDED|95.0|0.345|8.763||1-sided p-value was reported.|MMRM|||Standard-Physical Functioning|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|8.763|0.345|=0.017
82526726|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|8.42|STANDARD_ERROR_OF_MEAN|2.3186|<|0.001|TWO_SIDED|95.0|3.8|13.04||1-sided p-value was reported.|MMRM|||Standard-Role-Emotional|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|13.040|3.800|<0.001
82526727|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|4.23|STANDARD_ERROR_OF_MEAN|2.2489|=|0.032|TWO_SIDED|95.0|-0.251|8.711||1-sided p-value was reported.|MMRM|||Standard-Role-Physical|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|8.711|-0.251|=0.032
82390588|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.517||0.21|TWO_SIDED|95.0|-1.24|0.8|||Stratified Rank ANCOVA|||||0.80|-1.24|0.21
82641245|NCT00762073|164997321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1786|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.1786
82641246|NCT00762073|164997321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0090
82641247|NCT00762073|164997321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0001
82641248|NCT00762073|164997322|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4959|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.4959
82641249|NCT00762073|164997322|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||0.0040
82641250|NCT00762073|164997322|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||p-values were determined by a logistic regression analysis with treatment (all four groups) and age group as main effects.|Regression, Logistic|||||||<0.0001
82641251|NCT00762073|164997323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0108|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.0108
82641252|NCT00762073|164997323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0208|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.0208
82641253|NCT00762073|164997323|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||p-values comparing percent change from baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||<0.0001
82641254|NCT00762073|164997324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1095|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.1095
82641255|NCT00762073|164997324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0264|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.0264
82641256|NCT00762073|164997324|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate|ANCOVA|||||||0.0010
82641257|NCT00762073|164997325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3769|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3769
82641258|NCT00762073|164997325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9363|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.9363
82641259|NCT00762073|164997325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1235|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.1235
82641260|NCT00762073|164997326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3444|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3444
82641261|NCT00762073|164997326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9258|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.9258
82641262|NCT00762073|164997326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3215|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by a logistic regression analysis with treatment (all four groups) and age as main effects.|Regression, Logistic|||||||0.3215
82641263|NCT00762073|164997327|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6729|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.6729
82641264|NCT00762073|164997327|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8894|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.8894
82641265|NCT00762073|164997327|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1532|TWO_SIDED|||||p-values comparing percent change from Baseline for each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.1532
82641266|NCT00762073|164997328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4197|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.4197
82390589|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.516||0.72|TWO_SIDED|95.0|-0.43|1.6|||Stratified Rank ANCOVA|||||1.60|-0.43|0.72
82390590|NCT01340027|164492754|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.541||0.92|TWO_SIDED|95.0|-1.15|0.98|||Stratified Rank ANCOVA|||||0.98|-1.15|0.92
82390591|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.412||0.002|TWO_SIDED|95.0|-2.06|-0.45|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||-0.45|-2.06|0.002
82390592|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.34||0.16|TWO_SIDED|95.0|-1.15|0.19|||ANCOVA|||||0.19|-1.15|0.16
82390593|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-1.91|-0.57|||ANCOVA|||||-0.57|-1.91|<0.001
82390594|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.343||0.001|TWO_SIDED|95.0|-1.8|-0.46|||ANCOVA|||||-0.46|-1.80|0.001
82390595|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.338|<|0.001|TWO_SIDED|95.0|-2.03|-0.7|||ANCOVA|||||-0.70|-2.03|<0.001
82390596|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.409||0.017|TWO_SIDED|95.0|-1.78|-0.18|||ANCOVA|||||-0.18|-1.78|0.017
82390597|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.405||0.004|TWO_SIDED|95.0|-1.98|-0.39|||ANCOVA|||||-0.39|-1.98|0.004
82390598|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.469||0.53|TWO_SIDED|95.0|-0.63|1.22|||ANCOVA|||||1.22|-0.63|0.53
82390599|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.468||0.85|TWO_SIDED|95.0|-0.83|1.01|||ANCOVA|||||1.01|-0.83|0.85
82390600|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.468||0.84|TWO_SIDED|95.0|-1.01|0.83|||ANCOVA|||||0.83|-1.01|0.84
82390601|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.406||0.05|TWO_SIDED|95.0|0.0|1.59|||ANCOVA|||||1.59|-0.00|0.050
82390602|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.469||0.33|TWO_SIDED|95.0|-1.38|0.46|||ANCOVA|||||0.46|-1.38|0.33
82390603|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.407||0.44|TWO_SIDED|95.0|-0.48|1.12|||ANCOVA|||||1.12|-0.48|0.44
82390604|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.408||0.28|TWO_SIDED|95.0|-1.24|0.36|||ANCOVA|||||0.36|-1.24|0.28
82390605|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.41||0.42|TWO_SIDED|95.0|-1.14|0.47|||ANCOVA|||||0.47|-1.14|0.42
82390606|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.406||0.16|TWO_SIDED|95.0|-1.37|0.23|||ANCOVA|||||0.23|-1.37|0.16
82390607|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.467||0.7|TWO_SIDED|95.0|-1.1|0.73|||ANCOVA|||||0.73|-1.10|0.70
82390608|NCT01340027|164492755|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.464||0.4|TWO_SIDED|95.0|-1.3|0.52|||ANCOVA|||||0.52|-1.30|0.40
82426248|NCT02164864|164561468|OTHER||Hazard Ratio (HR)|1.17||||0.5252|TWO_SIDED|95.0|0.72|1.88||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.88|0.72|0.5252
82641267|NCT00762073|164997328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9787|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.9787
82443943|NCT03007745|164596520|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|1.11||0.9903|TWO_SIDED|||||ANCOVA included main effects for group, site, and the pre-treatment baseline value of the outcome measure|ANCOVA|Adjusted differences in mean changes estimated as site-total-sample-size weighted values controlling for group differences in mean baseline values||Between group comparison of change in Insomnia Severity Index (ISI) at 3 months (LOCF applied using 1-month data)||||0.9903
82443944|NCT03007745|164596524|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||Between group comparison of Client Satisfaction Questionnaire (CSQ-8) at 3 months (LOCF applied using 1-month data)||||>0.05
82443945|NCT03007745|164596525|NON_INFERIORITY|The a-priori lower bound selected for the non-inferiority analysis of average daily CPAP use over 3 months was -0.75 hours.|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.37||0.308|TWO_SIDED|||||Group difference (REVAMP - In-person) in mean CPAP daily use over all days adjusted for investigative site.|ANCOVA|The lower bound of the 95% noninferiority confidence interval was -0.22.||||||0.308
82443946|NCT03921554|164596529|SUPERIORITY||Estimated change (52 weeks - baseline)|0.9|||<|0.0005|TWO_SIDED|95.0|0.5|1.2||The a priori threshold for statistical significance was \< 0.05.|Wald test||We fit a GEE model with AGS score as outcome and an indicator variable for 52 weeks. An exchangeable correlation structure was used to model intra-participant association of AGS scores. The model allowed for up to 2 measurements per participant.|"We are testing the null hypothesis is that the change from baseline (52 weeks - baseline) in AGS is zero.~45 participants had 2 measurements (at baseline and 52 weeks); 6 participants had 1 measurement (at baseline). All participants were included in the analysis."||1.2|0.5|<0.0005
82443947|NCT03921554|164596530|SUPERIORITY||Estimated change (Day 673 - Day 0)|1.09|||<|0.0005|TWO_SIDED|95.0|0.57|1.62||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model of AGS on day of treatment (modeled with cubic splines with knots at days 0, 84, 168, 336, 506, 673, and 1006). Goodness of fit criteria were used to select GEE model with AR(1) correlation structure.|We estimate change from Day 0 to Day 673 of treatment (Day 673 minus Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||1.62|0.57|<0.0005
82443948|NCT03921554|164596531|SUPERIORITY||Estimated change (52 weeks - baseline)|2.2||||0.295|TWO_SIDED|95.0|-1.9|6.4||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||6.4|-1.9|0.295
82443949|NCT03921554|164596531|SUPERIORITY||Estimated change (52 weeks - baseline)|7.0||||0.007|TWO_SIDED|95.0|1.9|12.0||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||12.0|1.9|0.007
82443950|NCT03921554|164596531|SUPERIORITY||Estimated change (52 weeks - baseline)|0.26||||0.932|TWO_SIDED|95.0|-5.7|6.2||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model with GMFM-88 as outcome, with indicator variables for 52 weeks (vs. baseline) and cohorts B and C (vs. A); in addition, time by cohort interaction terms are included. The model allow for up to 2 measurements per participant.|"We are testing the null hypothesis that the change from baseline (52 weeks - baseline) in GMFM-88 is zero within cohorts.~35 participants had 2 measurements (at baseline and 52 weeks); 15 participants had 1 measurement (at baseline). All participants are included in the analysis."||6.2|-5.7|0.932
82443951|NCT03921554|164596532|SUPERIORITY||Estimated change (Day 3 - Day 0)|-8.76|||<|0.0005|TWO_SIDED|95.0|-11.7|-5.81||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a QLS model of ISG on day of treatment and indicator variable for post-treatment. Goodness of fit criteria were used to select QLS model with exchangeable correlation structure.|We estimate change from pre to post treatment (Day 3 minus Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||-5.81|-11.7|<0.0005
82443952|NCT03921554|164596533|SUPERIORITY||Estimated change (day 335 minus day 0)|-0.11||||0.002|TWO_SIDED|95.0|-0.18|-0.04||The a priori threshold for statistical significance was \<0.05.|Wald test||We fit a GEE model of diary average score on day of treatment and indicator variable for post-treatment. Goodness of fit criteria were used to select GEE model with exchangeable correlation structure.|We estimate change from Day 0 to Day 335 (Day 335 - Day 0) with 95% confidence interval (CI). All participants are included in the analysis.||-0.04|-0.18|0.002
82443953|NCT00300677|164596534|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|300.28||||||90.0|192.91|467.43|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||467.43|192.91|
82526728|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|3.809|STANDARD_ERROR_OF_MEAN|2.6658|=|0.079|TWO_SIDED|95.0|-1.502|9.121||1-sided p-value was reported.|MMRM|||Standard-Social Functioning|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|9.121|-1.502|=0.079
82574265|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.558|||TWO_SIDED|90.0|-0.69|1.16||||||Week 8-HSS0101-Pain At It's Worst||1.16|-0.69|
82526729|NCT03324880|164749504|SUPERIORITY||Difference in LS Mean|7.942|STANDARD_ERROR_OF_MEAN|2.353|=|0.001|TWO_SIDED|95.0|3.253|12.63||1-sided p-value was reported.|MMRM|||Standard-Vitality|MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 domain score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 domain score.|12.630|3.253|=0.001
82526730|NCT03324880|164749505|SUPERIORITY||Difference in LS Mean|8.3|STANDARD_ERROR_OF_MEAN|2.2642|<|0.001|TWO_SIDED|95.0|3.788|12.811||1-sided p-value|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in SF-36 MCS score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline SF-36 MCS score.|12.811|3.788|<0.001
82526731|NCT03324880|164749506|SUPERIORITY||Difference in LS Mean|3.13|STANDARD_ERROR_OF_MEAN|9.578|=|0.627|TWO_SIDED|95.0|-16.33|22.6||1-sided p-value was reported.|MMRM|||Percent Work Time Missed Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|22.60|-16.33|=0.627
82526732|NCT03324880|164749506|SUPERIORITY||Difference in LS Mean|-14.6|STANDARD_ERROR_OF_MEAN|7.52|=|0.031|TWO_SIDED|95.0|-29.9|0.7||1-sided p-value was reported.|MMRM|||Percent Impairment While Working Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|0.7|-29.9|=0.031
82574266|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.539|||TWO_SIDED|90.0|-1.21|0.57||||||Week 8-HSS0101-Pain At It's Worst||0.57|-1.21|
82574267|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.565|||TWO_SIDED|90.0|-0.49|1.38||||||Week 8-HSS0101-Pain At It's Worst||1.38|-0.49|
82574268|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.578|||TWO_SIDED|90.0|-0.79|1.12||||||Week 12-HSS0101-Pain At It's Worst||1.12|-0.79|
82574269|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-1.59|0.23||||||Week 12-HSS0101-Pain At It's Worst||0.23|-1.59|
82574270|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.576|||TWO_SIDED|90.0|-0.88|1.03||||||Week 12-HSS0101-Pain At It's Worst||1.03|-0.88|
82574271|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.08|STANDARD_ERROR_OF_MEAN|0.631|||TWO_SIDED|90.0|-0.96|1.13||||||Week 16-HSS0101-Pain At It's Worst||1.13|-0.96|
82574272|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.25|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.24|-0.25||||||Week 16-HSS0101-Pain At It's Worst||-0.25|-2.24|
82574273|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.91|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|90.0|-1.95|0.13||||||Week 16-HSS0101-Pain At It's Worst||0.13|-1.95|
82574274|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.47|0.48||||||Week 1-HSS0102-Tenderness At It's Worst||0.48|-0.47|
82574275|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.28|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.75|0.18||||||Week 1-HSS0102-Tenderness At It's Worst||0.18|-0.75|
82426249|NCT02164864|164561468|OTHER||Hazard Ratio (HR)|0.84||||0.567|TWO_SIDED|95.0|0.47|1.51||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.51|0.47|0.5670
82574276|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.31|STANDARD_ERROR_OF_MEAN|0.286|||TWO_SIDED|90.0|-0.78|0.17||||||Week 1-HSS0102-Tenderness At It's Worst||0.17|-0.78|
82574277|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.22|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|90.0|-0.81|0.38||||||Week 2-HSS0102-Tenderness At It's Worst||0.38|-0.81|
82574278|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.347|||TWO_SIDED|90.0|-0.97|0.18||||||Week 2-HSS0102-Tenderness At It's Worst||0.18|-0.97|
82574279|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.14||||||Week 2-HSS0102-Tenderness At It's Worst||0.14|-1.05|
82574280|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.471|||TWO_SIDED|90.0|-0.56|1.0||||||Week 4-HSS0102-Tenderness At It's Worst||1.00|-0.56|
82574281|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.448|||TWO_SIDED|90.0|-0.99|0.49||||||Week 4-HSS0102-Tenderness At It's Worst||0.49|-0.99|
82574282|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.11|STANDARD_ERROR_OF_MEAN|0.468|||TWO_SIDED|90.0|-0.88|0.67||||||Week 4-HSS0102-Tenderness At It's Worst||0.67|-0.88|
82574283|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.48|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|-0.38|1.34||||||Week 6-HSS0102-Tenderness At It's Worst||1.34|-0.38|
82574284|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.501|||TWO_SIDED|90.0|-1.06|0.6||||||Week 6-HSS0102-Tenderness At It's Worst||0.60|-1.06|
82574285|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-0.86|0.87||||||Week 6-HSS0102-Tenderness At It's Worst||0.87|-0.86|
82574286|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.542|||TWO_SIDED|90.0|-0.81|0.99||||||Week 8-HSS0102-Tenderness At It's Worst||0.99|-0.81|
82574287|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.25|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.11|0.62||||||Week 8-HSS0102-Tenderness At It's Worst||0.62|-1.11|
82574288|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.549|||TWO_SIDED|90.0|-0.56|1.25||||||Week 8-HSS0102-Tenderness At It's Worst||1.25|-0.56|
82574289|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.554|||TWO_SIDED|90.0|-0.87|0.97||||||Week 12-HSS0102-Tenderness At It's Worst||0.97|-0.87|
82574290|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.49|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.36|0.38||||||Week 12-HSS0102-Tenderness At It's Worst||0.38|-1.36|
82574291|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.552|||TWO_SIDED|90.0|-0.9|0.93||||||Week 12-HSS0102-Tenderness At It's Worst||0.93|-0.90|
82526733|NCT03324880|164749506|SUPERIORITY||Difference in LS Mean|-14.9|STANDARD_ERROR_OF_MEAN|6.146|=|0.011|TWO_SIDED|95.0|-27.42|-2.39||1-sided p-value was reported.|MMRM|||Percent Overall Work Impairment Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|-2.39|-27.42|=0.011
82526734|NCT03324880|164749506|SUPERIORITY||Difference in LS Mean|-13.0|STANDARD_ERROR_OF_MEAN|5.78|=|0.014|TWO_SIDED|95.0|-24.5|-1.5||1-sided p-value was reported.|MMRM|||Percent Activity Impairment Due to Problem|MMRM analysis over all post-baseline visits, with the change from baseline in WPAI score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline WPAI score.|-1.5|-24.5|=0.014
82526735|NCT03324880|164749507|SUPERIORITY||Difference in LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.22|=|0.01|TWO_SIDED|95.0|-1.0|-0.1||1-sided p-value|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in PGI-S score as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline PGI-S score.|-0.1|-1.0|=0.010
82574292|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.606|||TWO_SIDED|90.0|-0.96|1.04||||||Week 16-HSS0102-Tenderness At It's Worst||1.04|-0.96|
82574293|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.24|STANDARD_ERROR_OF_MEAN|0.577|||TWO_SIDED|90.0|-2.19|-0.29||||||Week 16-HSS0102-Tenderness At It's Worst||-0.29|-2.19|
82426250|NCT02164864|164561469|OTHER||Hazard Ratio (HR)|1.12||||0.5579|TWO_SIDED|95.0|0.76|1.65||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.65|0.76|0.5579
82574294|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.603|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 16-HSS0102-Tenderness At It's Worst||-0.11|-2.11|
82574295|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.284|||TWO_SIDED|90.0|-0.57|0.37||||||Week 1-HSS0103-Swelling At It's Worst||0.37|-0.57|
82574296|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.23|STANDARD_ERROR_OF_MEAN|0.278|||TWO_SIDED|90.0|-0.69|0.22||||||Week 1-HSS0103-Swelling At It's Worst||0.22|-0.69|
82641268|NCT00762073|164997328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8987|TWO_SIDED|||||p-values comparing each active treatment group to placebo were determined by an ANCOVA model with treatment and age strata as main effects and baseline as a covariate.|ANCOVA|||||||0.8987
82641269|NCT03155269|164997340|OTHER||Mean Difference (Final Values)|-0.0423||||0.1324|TWO_SIDED|97.5|-0.1057|0.0211||The setting of the two-sided significance level of 0.025 was used for the 2 co-primary endpoints to ensure that the overall significance level for the primary endpoint was less than or equal to 0.05.|ANCOVA|Analysis was performed using ANCOVA model with product group and strata as fixed effects, and the corresponding baseline value as covariate.|Difference is test product minus reference product such that a negative difference favors the test product.|||0.0211|-0.1057|0.1324
82641270|NCT03155269|164997341|OTHER||Mean Difference (Final Values)|0.229||||0.0469|TWO_SIDED|97.5|-0.03|0.489||The setting of the two-sided significance level of 0.025 was used for the 2 co-primary endpoints to ensure that the overall significance level for the primary endpoint was less than or equal to 0.05.|ANCOVA|Analysis was performed using ANCOVA model with product group and strata as fixed effects, and the corresponding baseline value as covariate.|Difference is test product minus reference product such that a negative difference favors the test product.|||0.489|-0.030|0.0469
82641271|NCT00480077|164997359|SUPERIORITY|The primary end point of the study, all-cause death or hospitalization for heart failure, was analyzed on a time-to-first-event basis with the log-rank test. The hazard ratio (HR) associated with allocation to the access arm relative to control was estimated with corresponding 95% confidence interval (CI) by fitting a Cox proportional hazards model containing the treatment group as a categorical factor.||||||0.063|||||||Log Rank|||||||0.063
82641272|NCT01215968|164997385|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|2.19|||||TWO_SIDED|90.0|1.83|2.62|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 10 over Day 3.||||2.62|1.83|
82641273|NCT01215968|164997385|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.94|||||TWO_SIDED|90.0|1.61|2.33|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 17 over Day 3.||||2.33|1.61|
82641274|NCT01215968|164997385|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.91|||||TWO_SIDED|90.0|1.59|2.29|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 24 over Day 3.||||2.29|1.59|
82641275|NCT01215968|164997385|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|1.84|||||TWO_SIDED|90.0|1.52|2.22|||Mixed Linear effects model analyses|Ratio is the Geometric LS Means of Day 31 over Day 3.||||2.22|1.52|
82641276|NCT01054443|164997396|OTHER||Cochran-Armitage Trend Test Statistic|0.173||||0.431|||||||Cochran-Armitage Trend Test|||The primary efficacy evaluation was to test if there was a linear relationship existing such that the higher the dose level, the larger the percentage of responders. The Cochran-Armitage trend test was employed by assigning the score 0, 0.5, 0.75, and 1 to placebo, lusutrombopag 0.5, 0.75, and 1.0 mg group, respectively, at the 0.025 level of significance (1-sided) to determine the test statistic for detecting a dose-response in the percentage of responders.||||0.431
82641277|NCT01054443|164997397|OTHER||LS Mean Difference|25544.0|||||TWO_SIDED|95.0|6202.8|44885.3|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||44885.3|6202.8|
82641278|NCT01054443|164997397|OTHER||LS Mean Difference|11801.3|||||TWO_SIDED|95.0|-8809.3|32411.9|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||32411.9|-8809.3|
82526736|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|0.01|||=|0.516|TWO_SIDED|95.0|-0.03|0.05|||ANCOVA|From an Analysis of Covariance (ANCOVA) with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Detection||0.05|-0.03|=0.516
82641279|NCT01054443|164997397|OTHER||LS Mean Difference|756.6|||||TWO_SIDED|95.0|-18794.3|20307.5|||||The difference of least squares means (LSMeans) between each of the lusutrombopag treatment groups and placebo was estimated after adjusting for the Baseline platelet count using analysis of covariance (ANCOVA).|||20307.5|-18794.3|
82390609|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.079||0.062|TWO_SIDED|95.0|-0.3|0.01|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.01|-0.30|0.062
82526737|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|0.02|||=|0.275|TWO_SIDED|95.0|-0.02|0.06|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Identification||0.06|-0.02|=0.275
82526738|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|0.01|||=|0.777|TWO_SIDED|95.0|-0.05|0.07|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||One Card Learning||0.07|-0.05|=0.777
82390610|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.065||0.15|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|||||0.03|-0.22|0.15
82390611|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.065||0.007|TWO_SIDED|95.0|-0.3|-0.05|||ANCOVA|||||-0.05|-0.30|0.007
82390612|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.066||0.017|TWO_SIDED|95.0|-0.29|-0.03|||ANCOVA|||||-0.03|-0.29|0.017
82526739|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|0.01|||=|0.831|TWO_SIDED|95.0|-0.04|0.05|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||One Back (ONB)||0.05|-0.04|=0.831
82574297|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.285|||TWO_SIDED|90.0|-0.94|0.01||||||Week 1-HSS0103-Swelling At It's Worst||0.01|-0.94|
82526740|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|9.93|||=|0.075|TWO_SIDED|95.0|-1.0|20.85|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||Groton Maze Learning (GML)||20.85|-1.00|=0.075
82526741|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|-0.57|||=|0.545|TWO_SIDED|95.0|-2.41|1.27|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||International Shopping List (ISL)||1.27|-2.41|=0.545
82641281|NCT03491800|164997483|SUPERIORITY||Mean Difference (Net)|7.5|STANDARD_ERROR_OF_MEAN|0.15||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
82641282|NCT03491800|164997484|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.43||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.90
82641283|NCT03491800|164997484|SUPERIORITY||Mean Difference (Final Values)|4.44|STANDARD_ERROR_OF_MEAN|0.26||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
82641284|NCT03491800|164997485|SUPERIORITY||Mean Difference (Final Values)|-3.03|STANDARD_ERROR_OF_MEAN|-0.28||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
82574298|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.24|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.83|0.35||||||Week 2-HSS0103-Swelling At It's Worst||0.35|-0.83|
82641285|NCT03491800|164997485|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.22||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
82574299|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.46|STANDARD_ERROR_OF_MEAN|0.345|||TWO_SIDED|90.0|-1.03|0.11||||||Week 2-HSS0103-Swelling At It's Worst||0.11|-1.03|
82641286|NCT03491800|164997486|SUPERIORITY||Mean Difference (Final Values)|-5.05|STANDARD_ERROR_OF_MEAN|-0.25||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.21
82641287|NCT03491800|164997487|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
82641288|NCT03491800|164997488|SUPERIORITY||Mean Difference (Final Values)|3.34|STANDARD_ERROR_OF_MEAN|-0.2||0.52|TWO_SIDED||||||t-test, 2 sided|||||||0.52
82641289|NCT03491800|164997489|SUPERIORITY||Mean Difference (Final Values)|-38.25|STANDARD_ERROR_OF_MEAN|-38.25||0.23|TWO_SIDED||||||t-test, 2 sided|||||||0.23
82574300|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.99|0.19||||||Week 2-HSS0103-Swelling At It's Worst||0.19|-0.99|
82574301|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.446|||TWO_SIDED|90.0|-0.58|0.9||||||Week 4-HSS0103-Swelling At It's Worst||0.90|-0.58|
82641290|NCT03491800|164997489|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|22.0||0.67|TWO_SIDED||||||t-test, 2 sided|||||||0.67
82390613|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.35|-0.1|||ANCOVA|||||-0.10|-0.35|<0.001
82390614|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||||-0.11|-0.41|<0.001
82390615|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.077||0.07|TWO_SIDED|95.0|-0.29|0.01|||ANCOVA|||||0.01|-0.29|0.070
82390616|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.15|TWO_SIDED|95.0|-0.05|0.31|||ANCOVA|||||0.31|-0.05|0.15
82390617|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.089||0.57|TWO_SIDED|95.0|-0.12|0.23|||ANCOVA|||||0.23|-0.12|0.57
82390618|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.089||0.89|TWO_SIDED|95.0|-0.16|0.19|||ANCOVA|||||0.19|-0.16|0.89
82390619|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.077||0.086|TWO_SIDED|95.0|-0.02|0.29|||ANCOVA|||||0.29|-0.02|0.086
82390620|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.88|TWO_SIDED|95.0|-0.19|0.16|||ANCOVA|||||0.16|-0.19|0.88
82390621|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.078||0.61|TWO_SIDED|95.0|-0.11|0.19|||ANCOVA|||||0.19|-0.11|0.61
82390622|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.078||0.58|TWO_SIDED|95.0|-0.2|0.11|||ANCOVA|||||0.11|-0.20|0.58
82443954|NCT00300677|164596534|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|192.72||||||90.0|123.81|300.0|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||300.00|123.81|
82574302|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.424|||TWO_SIDED|90.0|-0.87|0.53||||||Week 4-HSS0103-Swelling At It's Worst||0.53|-0.87|
82574303|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.443|||TWO_SIDED|90.0|-0.65|0.82||||||Week 4-HSS0103-Swelling At It's Worst||0.82|-0.65|
82390623|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.078||0.76|TWO_SIDED|95.0|-0.18|0.13|||ANCOVA|||||0.13|-0.18|0.76
82641291|NCT03491800|164997489|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|9.62||0.054|TWO_SIDED||||||t-test, 2 sided|||||||0.054
82390624|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_DEVIATION|0.077||0.23|TWO_SIDED|95.0|-0.25|0.06|||ANCOVA|||||0.06|-0.25|0.23
82574304|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|90.0|-0.15|1.54||||||Week 6-HSS0103-Swelling At It's Worst||1.54|-0.15|
82574305|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.493|||TWO_SIDED|90.0|-0.83|0.8||||||Week 6-HSS0103-Swelling At It's Worst||0.80|-0.83|
82641292|NCT03491800|164997490|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|5.4||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
82641293|NCT03491800|164997490|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|3.29||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
82526742|NCT03324880|164749509|SUPERIORITY||Difference in LS Mean|0.55|||=|0.283|TWO_SIDED|95.0|-0.45|1.56|||ANCOVA|From an ANCOVA with treatment group (rhPTH(l-84), placebo) as the predictor and Baseline score as a covariate.||International Shopping List Test Delayed Recall (ISRL)||1.56|-0.45|=0.283
82574306|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.513|||TWO_SIDED|90.0|-0.62|1.08||||||Week 6-HSS0103-Swelling At It's Worst||1.08|-0.62|
82574307|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.29|STANDARD_ERROR_OF_MEAN|0.507|||TWO_SIDED|90.0|-0.55|1.13||||||Week 8-HSS0103-Swelling At It's Worst||1.13|-0.55|
82641294|NCT01256086|164997491|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Relative potency of Novolizer compared to Aerolizer. Equivalence was to be concluded if the CI for the relative potency was completely covered by the interval (0.67, 1.50) according to OIP Guideline.|Relative potency|1.13|||||TWO_SIDED|90.0|0.94|1.38|||||Fieller confidence interval for logarithm of relative potency|||1.38|0.94|
82641295|NCT02074982|164997494|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|2.01|4.02|||Regression, Logistic|||||4.02|2.01|<0.0001
82641296|NCT01817764|164997497|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074|||<|0.001|TWO_SIDED|95.0|0.038|0.11|||ANCOVA|||||0.110|0.038|<0.001
82641297|NCT02354352|164997499|NON_INFERIORITY|Using a Type I error rate of 5%, we conducted a power calculation using a non-inferiority test on 12-month change in Ecc. If there is truly no difference in the 12-month Ecc change between the spironolactone and eplerenone groups, 46 patients (23 in each group) would result in at least 80% power to ensure that the lower limit of a one-sided 95% confidence interval for the true difference between the spironolactone and eplerenone groups to be above the non-inferiority limit of -1.75.||||||0.5867|||||||Wilcoxon (Mann-Whitney)|||||||0.5867
82390625|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.089||0.15|TWO_SIDED|95.0|-0.3|0.05|||ANCOVA|||||0.05|-0.30|0.15
82390626|NCT01340027|164492756|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.088||0.94|TWO_SIDED|95.0|-0.18|0.17|||ANCOVA|||||0.17|-0.18|0.94
82426251|NCT02164864|164561469|OTHER||Hazard Ratio (HR)|0.83||||0.4414|TWO_SIDED|95.0|0.51|1.34||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.34|0.51|0.4414
82574308|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-0.81|0.81||||||Week 8-HSS0103-Swelling At It's Worst||0.81|-0.81|
82574309|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.514|||TWO_SIDED|90.0|-0.35|1.35||||||Week 8-HSS0103-Swelling At It's Worst||1.35|-0.35|
82390627|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.33||0.29|TWO_SIDED|95.0|-0.99|0.3|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.30|-0.99|0.29
82390628|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.239||0.15|TWO_SIDED|95.0|-0.12|0.82|||ANCOVA|||||0.82|-0.12|0.15
82526743|NCT03324880|164749510|SUPERIORITY||Difference in LS Mean|0.01|||=|0.582|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||Detection (DET)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.582
82526744|NCT03324880|164749510|SUPERIORITY||Difference in LS Mean|0.01|||=|0.492|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||Identification (IDN)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.492
82526745|NCT03324880|164749510|SUPERIORITY||Difference in LS Mean|0.01|||=|0.506|TWO_SIDED|95.0|-0.03|0.06||1-sided p-value was reported.|MMRM|||One Card Learning (OCL)|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.06|-0.03|=0.506
82526746|NCT03324880|164749510|SUPERIORITY||Difference in LS Mean|0.01|||=|0.438|TWO_SIDED|95.0|-0.02|0.04||1-sided p-value was reported.|MMRM|||One Back Test|From MMRM with visit, treatment group, and visit treatment group as fixed effects, Baseline score as a covariate, and participant as a random effect. By-participant scores, which are summarized in this table, are derived as the average of the planned at-home assessment values that passed the Completion criteria over 14 days preceding the visit.|0.04|-0.02|=0.438
82526747|NCT03324880|164749511|SUPERIORITY||Difference in LS Mean|2.09|STANDARD_ERROR_OF_MEAN|0.871|=|0.991|TWO_SIDED|95.0|0.36|3.83||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in 24-hour urine calcium excretion as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline 24-Hour urine calcium excretion.|3.83|0.36|=0.991
82526748|NCT03324880|164749512|SUPERIORITY||Difference in LS Mean|-0.175|STANDARD_ERROR_OF_MEAN|0.0395|<|0.001|TWO_SIDED|95.0|-0.254|-0.097||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in serum phosphate as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline serum phosphate.|-0.097|-0.254|<0.001
82526749|NCT03324880|164749513|SUPERIORITY||Difference in LS Mean|4.08|STANDARD_ERROR_OF_MEAN|4.654|=|0.81|TWO_SIDED|95.0|-5.06|13.22||1-sided p-value was reported.|MMRM||||From a mixed-effects model for repeated measures (MMRM) analysis over all post-baseline visits, with the change from baseline in active vitamin D supplement dose as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline active vitamin D supplement dose.|13.22|-5.06|=0.810
82526750|NCT03324880|164749514|SUPERIORITY||Difference in LS Mean|-331.3|STANDARD_ERROR_OF_MEAN|132.56|=|0.007|TWO_SIDED|95.0|-594.6|-67.9||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in elemental calcium supplement dose as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline elemental calcium supplement dose.|-67.9|-594.6|=0.007
82526751|NCT03324880|164749517|SUPERIORITY||Difference in LS Mean|22.33|STANDARD_ERROR_OF_MEAN|3.271|<|0.001|TWO_SIDED|95.0|15.83|28.84||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|28.84|15.83|<0.001
82574310|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-0.81|0.95||||||Week 12-HSS0103-Swelling At It's Worst||0.95|-0.81|
82390629|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.248||0.99|TWO_SIDED|95.0|-0.48|0.49|||ANCOVA|||||0.49|-0.48|0.99
82574311|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.47|STANDARD_ERROR_OF_MEAN|0.505|||TWO_SIDED|90.0|-1.3|0.37||||||Week 12-HSS0103-Swelling At It's Worst||0.37|-1.30|
82574312|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.92|0.84||||||Week 12-HSS0103-Swelling At It's Worst||0.84|-0.92|
82390630|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.239||0.76|TWO_SIDED|95.0|-0.54|0.4|||ANCOVA|||||0.40|-0.54|0.76
82390631|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.238||0.3|TWO_SIDED|95.0|-0.71|0.22|||ANCOVA|||||0.22|-0.71|0.30
82390632|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.262||0.43|TWO_SIDED|95.0|-0.72|0.31|||ANCOVA|||||0.31|-0.72|0.43
82390633|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.296||0.4|TWO_SIDED|95.0|-0.83|0.33|||ANCOVA|||||0.33|-0.83|0.40
82390634|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.343||0.24|TWO_SIDED|95.0|-1.08|0.27|||ANCOVA|||||0.27|-1.08|0.24
82574313|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.589|||TWO_SIDED|90.0|-0.75|1.2||||||Week 16-HSS0103-Swelling At It's Worst||1.20|-0.75|
82390635|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.34||0.36|TWO_SIDED|95.0|-0.98|0.36|||ANCOVA|||||0.36|-0.98|0.36
82390636|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.348||0.02|TWO_SIDED|95.0|-1.49|-0.13|||ANCOVA|||||-0.13|-1.49|0.020
82526752|NCT03324880|164749518|SUPERIORITY||Difference in LS Mean|785.5|STANDARD_ERROR_OF_MEAN|113.65|<|0.001|TWO_SIDED|95.0|559.6|1011.3||1-sided p-value was reported.|MMRM||||MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|1011.3|559.6|<0.001
82526753|NCT03324880|164749519|SUPERIORITY||Difference in LS Mean|56.43|STANDARD_ERROR_OF_MEAN|6.091|<|0.001|TWO_SIDED|95.0|44.33|68.53||1-sided p-value was reported.|MMRM|||Osteocalcin|MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|68.53|44.33|<0.001
82526754|NCT03324880|164749519|SUPERIORITY||Difference in LS Mean|226.57|STANDARD_ERROR_OF_MEAN|33.425|<|0.001|TWO_SIDED|95.0|160.17|292.98||1-sided p-value was reported.|MMRM|||Procollagen 1 N-Terminal Propeptide|MMRM analysis over all post-baseline visits, with the change from baseline in bone turnover biomarkers as the outcome, treatment group, visit, and their interaction as fixed effect factors and participants as a random effect with adjustment for baseline bone turnover biomarkers.|292.98|160.17|<0.001
82574314|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.06|STANDARD_ERROR_OF_MEAN|0.561|||TWO_SIDED|90.0|-1.99|-0.13||||||Week 16-HSS0103-Swelling At It's Worst||-0.13|-1.99|
82574315|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.02|STANDARD_ERROR_OF_MEAN|0.586|||TWO_SIDED|90.0|-1.99|-0.05||||||Week 16-HSS0103-Swelling At It's Worst||-0.05|-1.99|
82390637|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.293||0.011|TWO_SIDED|95.0|-1.33|-0.18|||ANCOVA|||||-0.18|-1.33|0.011
82390638|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.377||0.004|TWO_SIDED|95.0|-1.84|-0.36|||ANCOVA|||||-0.36|-1.84|0.004
82390639|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.301||0.18|TWO_SIDED|95.0|-1.0|0.19|||ANCOVA|||||0.19|-1.00|0.18
82390640|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.308||0.015|TWO_SIDED|95.0|-1.35|-0.14|||ANCOVA|||||-0.14|-1.35|0.015
82526755|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group Ratios (Serotype Ia)|0.96|||||TWO_SIDED|98.4|0.71|1.3||||||||1.3|0.71|
82526756|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ia)|0.81|||||TWO_SIDED|98.4|0.6|1.09||||||||1.09|0.6|
82526757|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ia)|0.84|||||TWO_SIDED|98.4|0.63|1.14||||||||1.14|0.63|
82390641|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.301||0.006|TWO_SIDED|95.0|-1.41|-0.23|||ANCOVA|||||-0.23|-1.41|0.006
82390642|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.59|-0.41|||ANCOVA|||||-0.41|-1.59|<0.001
82526758|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|0.8|||||TWO_SIDED|98.4|0.49|1.29||||||||1.29|0.49|
82526759|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|1.05|||||TWO_SIDED|98.4|0.65|1.69||||||||1.69|0.65|
82526760|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype Ib)|1.32|||||TWO_SIDED|98.4|0.85|2.06||||||||2.06|0.85|
82526761|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|1.17|||||TWO_SIDED|98.4|0.66|2.07||||||||2.07|0.66|
82641298|NCT05279807|164997503|SUPERIORITY||Mean difference pre vs post treatment|-13.5|||<|0.001|TWO_SIDED|95.0|-14.5|-12.5|||Paired Samples T-Test|||Primary endpoint, verified on the single cohort of patients who completed the monotherapy run-in period, is calculated as the mean difference in sitting diastolic blood pressure between Visit 2 (Week 0, Baseline Visit of the combination therapy) and Visit 4 (Week 8, End of Study Visit). This is not a comparison of two different arms, but a comparison of two measurements taken from the same patient treated with combination therapy (single arm paired pre- vs. post-combination therapy comparison)||-12.5|-14.5|< 0.001
82641299|NCT01169259|164997504|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.47|TWO_SIDED|95.0|0.88|1.06|||Regression, Cox|||||1.06|0.88|0.47
82641300|NCT01169259|164997504|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.56|TWO_SIDED|95.0|0.93|1.13|||Regression, Cox|||||1.13|0.93|0.56
82390643|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.32||0.003|TWO_SIDED|95.0|-1.59|-0.33|||ANCOVA|||||-0.33|-1.59|0.003
82574316|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.16|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.27|0.59||||||Week 1-HSS0104-Tiredness At It's Worst||0.59|-0.27|
82641301|NCT01169259|164997505|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.69|TWO_SIDED|95.0|0.85|1.12|||Regression, Cox|||||1.12|0.85|0.69
82641302|NCT01169259|164997505|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.24|TWO_SIDED|95.0|0.8|1.06|||Regression, Cox|||||1.06|0.80|0.24
82390644|NCT01340027|164492757|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.348||0.004|TWO_SIDED|95.0|-1.68|-0.31|||ANCOVA|||||-0.31|-1.68|0.004
82574317|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.57|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|90.0|-0.99|-0.15||||||Week 1-HSS0104-Tiredness At It's Worst||-0.15|-0.99|
82574318|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|90.0|-0.35|0.52||||||Week 1-HSS0104-Tiredness At It's Worst||0.52|-0.35|
82574319|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.357|||TWO_SIDED|90.0|-0.54|0.65||||||Week 2-HSS0104-Tiredness At It's Worst||0.65|-0.54|
82390645|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.177||0.15|TWO_SIDED|95.0|-0.6|0.09|||ANCOVA|||"All statistical comparisons are for change from Baseline to End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.09|-0.60|0.15
82390646|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.146||0.78|TWO_SIDED|95.0|-0.33|0.25|||ANCOVA|||||0.25|-0.33|0.78
82390647|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.146||0.58|TWO_SIDED|95.0|-0.37|0.21|||ANCOVA|||||0.21|-0.37|0.58
82390648|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.147||0.6|TWO_SIDED|95.0|-0.37|0.21|||ANCOVA|||||0.21|-0.37|0.60
82390649|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.145||0.017|TWO_SIDED|95.0|-0.63|-0.06|||ANCOVA|||||-0.06|-0.63|0.017
82574320|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.44|STANDARD_ERROR_OF_MEAN|0.344|||TWO_SIDED|90.0|-1.01|0.13||||||Week 2-HSS0104-Tiredness At It's Worst||0.13|-1.01|
82574321|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.356|||TWO_SIDED|90.0|-0.33|0.85||||||Week 2-HSS0104-Tiredness At It's Worst||0.85|-0.33|
82574322|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.12|STANDARD_ERROR_OF_MEAN|0.434|||TWO_SIDED|90.0|-0.83|0.6||||||Week 4-HSS0104-Tiredness At It's Worst||0.60|-0.83|
82574323|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.414|||TWO_SIDED|90.0|-1.49|-0.12||||||Week 4-HSS0104-Tiredness At It's Worst||-0.12|-1.49|
82574324|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.14|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|90.0|-0.86|0.57||||||Week 4-HSS0104-Tiredness At It's Worst||0.57|-0.86|
82574325|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.76|0.84||||||Week 6-HSS0104-Tiredness At It's Worst||0.84|-0.76|
82574326|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.52|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.29|0.26||||||Week 6-HSS0104-Tiredness At It's Worst||0.26|-1.29|
82574327|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.485|||TWO_SIDED|90.0|-0.68|0.92||||||Week 6-HSS0104-Tiredness At It's Worst||0.92|-0.68|
82574328|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.483|||TWO_SIDED|90.0|-0.96|0.63||||||Week 8-HSS0104-Tiredness At It's Worst||0.63|-0.96|
82641303|NCT01169259|164997506|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.08|TWO_SIDED|95.0|0.67|1.02|||Regression, Cox|||||1.02|0.67|0.08
82390650|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.176||0.16|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.10|-0.60|0.16
82390651|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.175||0.13|TWO_SIDED|95.0|-0.61|0.08|||ANCOVA|||||0.08|-0.61|0.13
82390652|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.201||0.81|TWO_SIDED|95.0|-0.35|0.44|||ANCOVA|||||0.44|-0.35|0.81
82390653|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.199||0.67|TWO_SIDED|95.0|-0.48|0.31|||ANCOVA|||||0.31|-0.48|0.67
82390654|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.77|TWO_SIDED|95.0|-0.33|0.45|||ANCOVA|||||0.45|-0.33|0.77
82390655|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.81||0.81|TWO_SIDED|95.0|-0.3|0.38|||ANCOVA|||||0.38|-0.30|0.81
82443955|NCT00300677|164596535|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|300.28||||||90.0|192.91|467.43|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of the adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||467.43|192.91|
82641304|NCT01169259|164997506|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.79|TWO_SIDED|95.0|0.79|1.2|||Regression, Cox|||||1.20|0.79|0.79
82390656|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.201||0.3|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||||0.18|-0.60|0.30
82390657|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.174||0.99|TWO_SIDED|95.0|-0.34|0.34|||ANCOVA|||||0.34|-0.34|0.99
82390658|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.175||0.82|TWO_SIDED|95.0|-0.38|0.3|||ANCOVA|||||0.30|-0.38|0.82
82390659|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.175||0.84|TWO_SIDED|95.0|-0.38|0.31|||ANCOVA|||||0.31|-0.38|0.84
82641305|NCT01169259|164997507|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9|TWO_SIDED|95.0|0.79|1.31|||Regression, Cox|||||1.31|0.79|0.90
82390660|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.173||0.08|TWO_SIDED|95.0|-0.64|0.04|||ANCOVA|||||0.04|-0.64|0.080
82390661|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||||0.18|-0.60|0.30
82390662|NCT01340027|164492758|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.199||0.26|TWO_SIDED|95.0|-0.62|0.17|||ANCOVA|||||0.17|-0.62|0.26
82390663|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.38|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.2|-0.5|0.38
82390664|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.85|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.85
82390665|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.024|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.024
82390666|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.005|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.005
82390667|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.003|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.003
82390668|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.004
82390669|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.15|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.15
82390670|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.99|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||||0.4|-0.4|0.99
82390671|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.67|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||||0.3|-0.5|0.67
82390672|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.44|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||||0.2|-0.5|0.44
82390673|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.88|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|||||0.4|-0.3|0.88
82390674|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.53|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||||0.3|-0.5|0.53
82390675|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||1|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|1.0
82390676|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0.0|-0.6|0.084
82390677|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.03|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||||-0.0|-0.7|0.030
82390678|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.02|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.020
82390679|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.017|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.017
82390680|NCT01340027|164492759|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.26|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||||0.2|-0.6|0.26
82641306|NCT01169259|164997507|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.43|TWO_SIDED|95.0|0.7|1.16|||Regression, Cox|||||1.16|0.70|0.43
82390681|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.04|TWO_SIDED|95.0|1.04|4.95|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||4.95|1.04|0.040
82390682|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.1||||0.73|TWO_SIDED|95.0|0.63|1.92|||Regression, Logistic|||||1.92|0.63|0.73
82390683|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.82||||0.05|TWO_SIDED|95.0|1.0|3.3|||Regression, Logistic|||||3.30|1.00|0.050
82390684|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.21|TWO_SIDED|95.0|0.81|2.59|||Regression, Logistic|||||2.59|0.81|0.21
82526762|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|1.06|||||TWO_SIDED|98.4|0.63|1.78||||||||1.78|0.63|
82574329|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.53|STANDARD_ERROR_OF_MEAN|0.466|||TWO_SIDED|90.0|-1.31|0.24||||||Week 8-HSS0104-Tiredness At It's Worst||0.24|-1.31|
82390685|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02||||0.021|TWO_SIDED|95.0|1.11|3.66|||Regression, Logistic|||||3.66|1.11|0.021
82574330|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.11|STANDARD_ERROR_OF_MEAN|0.488|||TWO_SIDED|90.0|-0.69|0.92||||||Week 8-HSS0104-Tiredness At It's Worst||0.92|-0.69|
82574331|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.34|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-1.21|0.53||||||Week 12-HSS0104-Tiredness At It's Worst||0.53|-1.21|
82390686|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.19|TWO_SIDED|95.0|0.79|3.4|||Regression, Logistic|||||3.40|0.79|0.19
82390687|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.74|TWO_SIDED|95.0|0.57|2.19|||Regression, Logistic|||||2.19|0.57|0.74
82390688|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.57|TWO_SIDED|95.0|0.58|2.71|||Regression, Logistic|||||2.71|0.58|0.57
82390689|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.19|TWO_SIDED|95.0|0.77|3.64|||Regression, Logistic|||||3.64|0.77|0.19
82390690|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.86||||0.69|TWO_SIDED|95.0|0.41|1.79|||Regression, Logistic|||||1.79|0.41|0.69
82574332|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.81|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-1.64|0.02||||||Week 12-HSS0104-Tiredness At It's Worst||0.02|-1.64|
82574333|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.15|STANDARD_ERROR_OF_MEAN|0.527|||TWO_SIDED|90.0|-0.72|1.02||||||Week 12-HSS0104-Tiredness At It's Worst||1.02|-0.72|
82574334|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.22|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-0.7|1.15||||||Week 16-HSS0104-Tiredness At It's Worst||1.15|-0.70|
82574335|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.56|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|90.0|-1.44|0.32||||||Week 16-HSS0104-Tiredness At It's Worst||0.32|-1.44|
82574336|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.557|||TWO_SIDED|90.0|-0.83|1.01||||||Week 16-HSS0104-Tiredness At It's Worst||1.01|-0.83|
82443956|NCT00300677|164596535|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|192.72||||||90.0|123.81|300.0|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||300.00|123.81|
82574337|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|90.0|-0.39|0.49||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.49|-0.39|
82574338|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.32|STANDARD_ERROR_OF_MEAN|0.257|||TWO_SIDED|90.0|-0.75|0.1||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.10|-0.75|
82574339|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.02|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.46|0.42||||||Week 1-HSS0105-Bothered By Appearance HS Lesion||0.42|-0.46|
82574340|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.65|0.45||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.45|-0.65|
82574341|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|90.0|-1.33|-0.27||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||-0.27|-1.33|
82574342|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.36|STANDARD_ERROR_OF_MEAN|0.333|||TWO_SIDED|90.0|-0.91|0.19||||||Week 2-HSS0105-Bothered By Appearance HS Lesion||0.19|-0.91|
82574343|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.36|1.0||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||1.00|-0.36|
82443957|NCT00300677|164596536|SUPERIORITY_OR_OTHER||predose: ratio adjusted geometric means|12.39||||||90.0|7.09|21.65|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||21.65|7.09|
82574344|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.94|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|90.0|-1.59|-0.29||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||-0.29|-1.59|
82574345|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.29|STANDARD_ERROR_OF_MEAN|0.411|||TWO_SIDED|90.0|-0.97|0.39||||||Week 4-HSS0105-Bothered By Appearance HS Lesion||0.39|-0.97|
82574346|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.55|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-0.2|1.3||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||1.30|-0.20|
82574347|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.69|STANDARD_ERROR_OF_MEAN|0.439|||TWO_SIDED|90.0|-1.41|0.04||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.04|-1.41|
82443958|NCT00300677|164596536|SUPERIORITY_OR_OTHER||postdose: ratio adjusted geometric means|31.57||||||90.0|18.06|55.18|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||55.18|18.06|
82448795|NCT01345669|164604860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.08||0.0028|TWO_SIDED|95.0|1.12|5.36|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (pain scale) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||5.36|1.12|0.0028
82574348|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.1|STANDARD_ERROR_OF_MEAN|0.456|||TWO_SIDED|90.0|-0.85|0.66||||||Week 6-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.85|
82574349|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.491|||TWO_SIDED|90.0|-0.96|0.66||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.66|-0.96|
82574350|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-1.11|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|90.0|-1.89|-0.33||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||-0.33|-1.89|
82574351|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|0.497|||TWO_SIDED|90.0|-1.13|0.52||||||Week 8-HSS0105-Bothered By Appearance HS Lesion||0.52|-1.13|
82574352|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.86|0.95||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||0.95|-0.86|
82574353|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.87|STANDARD_ERROR_OF_MEAN|0.523|||TWO_SIDED|90.0|-1.73|-0.01||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||-0.01|-1.73|
82641307|NCT01169259|164997508|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.19|TWO_SIDED|95.0|0.72|1.07|||Regression, Cox|||||1.07|0.72|0.19
82526763|NCT01412801|164749528|SUPERIORITY_OR_OTHER||Vaccine Group ratios (Serotype III)|0.91|||||TWO_SIDED|98.4|0.52|1.58||||||||1.58|0.52|
82526764|NCT05690776|164749603|SUPERIORITY||Mean Difference (Final Values)|12.1|STANDARD_DEVIATION|10.0|<|0.0001|TWO_SIDED|95.0|9.2|15.0|||paired t-test|||||15.0|9.2|<0.0001
82526765|NCT05690776|164749604|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.133|<|0.0001|TWO_SIDED|95.0|0.053|0.128|||paired t-test|||||0.128|0.053|<0.0001
82526766|NCT05690776|164749606|SUPERIORITY||Mean Difference (Final Values)|20.7|STANDARD_DEVIATION|13.2|<|0.0001|TWO_SIDED|95.0|16.9|24.5|||paired t-test|||||24.5|16.9|<0.0001
82526767|NCT02670538|164749617|SUPERIORITY||Least Squares (LS) Mean Difference|-2.5||||0.0417|TWO_SIDED|95.0|-4.6|-0.4||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||-0.4|-4.6|0.0417
82574354|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.547|||TWO_SIDED|90.0|-0.78|1.03||||||Week 12-HSS0105-Bothered By Appearance HS Lesion||1.03|-0.78|
82574355|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.602|||TWO_SIDED|90.0|-0.6|1.39||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||1.39|-0.60|
82526768|NCT02670538|164749617|SUPERIORITY||LS Mean Difference|-1.8||||0.1051|TWO_SIDED|95.0|-3.9|0.4||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||0.4|-3.9|0.1051
82526769|NCT02670538|164749618|SUPERIORITY||LS Mean Difference|-0.3||||0.0417|TWO_SIDED|95.0|-0.6|-0.1||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||-0.1|-0.6|0.0417
82526770|NCT02670538|164749618|SUPERIORITY||LS Mean Difference|-0.2||||0.137|TWO_SIDED|95.0|-0.4|0.1||Adjusted p-value: adjustment was performed using matched parallel gatekeeping procedure to control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6.|Contrast t-test|||||0.1|-0.4|0.1370
82526771|NCT00548132|164749621|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|95.0|0.24|0.9|||Cochran-Mantel-Haenszel|This was calculated based on the assumption that only 85% of eligible patients will consent to the study.|The standard of care is the numerator and the intervention group is the denominator|The null hypothesis is that the Bloostream infection per 1000 catheter days will be similar in both groups. In 2004, 6122 catheter days occurred in by both ICUs. If 15% of these were excluded, then 5203 catheter days/year will be eligible for analysis. The difference in infection rates will reach statistical significance at 12 months with a P-value of 0.04. At 24 months, the P-value will be more significant at 0.006.||0.90|0.24|0.05
82574356|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.95|STANDARD_ERROR_OF_MEAN|0.574|||TWO_SIDED|90.0|-1.9|0.0||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.00|-1.90|
82574357|NCT04092452|164858051|SUPERIORITY||Risk Difference (RD)|-0.01|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.0|0.99||||||Week 16-HSS0105-Bothered By Appearance HS Lesion||0.99|-1.00|
82574358|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-1.7|2.6||||||Week 4||2.6|-1.7|
82574359|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-2.7|1.7||||||Week 4||1.7|-2.7|
82574360|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.4|3.2||||||Week 4||3.2|-1.4|
82526772|NCT02150837|164749650|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Within group comparison (for each group) using a non-parametric paired Wilcoxon signed rank test comparing repeated measures in a single sample.||||||<0.0001
82574361|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-2.7|1.6||||||Week 8||1.6|-2.7|
82526773|NCT01473381|164749793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.0073|TWO_SIDED|95.0|-4.3|-0.84||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.84|-4.30|0.0073
82574362|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-1.1|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.3|1.0||||||Week 8||1.0|-3.3|
82574363|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|90.0|-2.2|2.2||||||Week 8||2.2|-2.2|
82574364|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|90.0|-3.2|1.6||||||Week 12||1.6|-3.2|
82574365|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|90.0|-4.3|0.3||||||Week 12||0.3|-4.3|
82574366|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-2.6|2.2||||||Week 12||2.2|-2.6|
82574367|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.7|4.2||||||Week 16||4.2|-0.7|
82574368|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-3.6|1.2||||||Week 16||1.2|-3.6|
82574369|NCT04092452|164858052|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.4|2.6||||||Week 16||2.6|-2.4|
82574370|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-1.7|2.6||||||Week 4||2.6|-1.7|
82641308|NCT01169259|164997508|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.17|TWO_SIDED|95.0|0.94|1.39|||Regression, Cox|||||1.39|0.94|0.17
82526774|NCT01473381|164749793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.82||||0.0034|TWO_SIDED|95.0|-4.57|-1.06||P-value was adjusted for multiplicity.|Mixed-effect model|||||-1.06|-4.57|0.0034
82641309|NCT01169259|164997509|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.67|TWO_SIDED|95.0|0.73|1.62|||Regression, Cox|||||1.62|0.73|0.67
82526775|NCT01473381|164749793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.002|TWO_SIDED|95.0|-4.48|-1.0||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Mixed-effect model|||||-1.00|-4.48|0.0020
82526776|NCT01473381|164749794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0073|TWO_SIDED|95.0|-0.58|-0.13||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.13|-0.58|0.0073
82526777|NCT01473381|164749794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0097|TWO_SIDED|95.0|-0.55|-0.1||P-value was adjusted for multiplicity.|Mixed-effect model|||||-0.10|-0.55|0.0097
82526778|NCT01473381|164749794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0025|TWO_SIDED|95.0|-0.57|-0.12||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Mixed-effect model|||||-0.12|-0.57|0.0025
82526779|NCT01473381|164749795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.3563|TWO_SIDED|95.0|-3.9|10.9||P-value was adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||10.9|-3.9|0.3563
82526780|NCT01473381|164749795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.1611|TWO_SIDED|95.0|-0.4|14.6||P-value was adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||14.6|-0.4|0.1611
82526781|NCT01473381|164749795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.2672|TWO_SIDED|95.0|-2.7|12.2||P-value was provided for assay sensitivity. It was not adjusted for multiplicity.|Cochran-Mantel-Haenszel|The Mean Difference (Final Values), as well as 95% Confidence Interval, are in units of percentage.||||12.2|-2.7|0.2672
82526782|NCT01641926|164749833|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|1.6|||||TWO_SIDED|95.0|-8.4|11.6||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (hepatitis B Virus \[HBV\] genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||11.6|-8.4|
82526783|NCT01641926|164749834|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-3.0|||||TWO_SIDED|95.0|-20.2|14.3||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||14.3|-20.2|
82526784|NCT01641926|164749835|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.6|||||TWO_SIDED|95.0|-7.2|12.3||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||12.3|-7.2|
82526785|NCT01641926|164749836|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|2.1|||||TWO_SIDED|95.0|-9.5|13.6||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||13.6|-9.5|
82526786|NCT01641926|164749836|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|10.1|||||TWO_SIDED|95.0|-7.2|27.1||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||27.1|-7.2|
82526787|NCT01641926|164749837|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.9|||||TWO_SIDED|95.0|-7.4|9.2||||||The treatment difference in the rates (PEG-Intron arm minus PEGASYS™ arm) and its 95% confidence interval adjusted for the baseline stratification factor (HBV genotype) was computed using the method of Miettinen and Nurminen weighted by stratum sample size.||9.2|-7.4|
82526788|NCT03587142|164749849|SUPERIORITY||Mean Difference (Net)|-0.11||||0.69|TWO_SIDED|95.0|-0.68|0.45||Nominal P value. Power was determined at a level of P=0.05.|ANCOVA|Multiple imputation using regression and 50 datasets to estimate the outcome for the 18/96 (19%) randomized patients without the f4 visit data.||Primary outcome analysis uses a difference of differences analysis between Buspirone compared to the Placebo arm in which the adjusted mean difference of differences, Wald 95% Confidence interval and 2-sided P values are determined from a Wald Chi-Square test. Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Negative change indicates symptom improvement.||0.45|-0.68|0.69
82526789|NCT03587142|164749849|SUPERIORITY||Mean Difference (Net)|-0.13||||0.62|TWO_SIDED|95.0|-0.65|0.39||P value is nominal; no adjustments made from multiple comparisons. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005.|ANCOVA|||Sensitivity analysis of change from a baseline in ES/PPF (Early Satiety/Postprandial Fullness subscore) using all completers: 39 participants in Buspirone arm, 39 participants in placebo arm.||0.39|-0.65|0.62
82526790|NCT03587142|164749849|SUPERIORITY||Mean Difference (Net)|-0.25||||0.62|TWO_SIDED|95.0|-0.89|0.38||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Sensitivity analyses: change in ES/PPF in treatment adherent patients: 23 participants in Buspirone arm, 29 patients in placebo arm.||0.38|-0.89|0.62
82641310|NCT01169259|164997509|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.31|TWO_SIDED|95.0|0.83|1.83|||Regression, Cox|||||1.83|0.83|0.31
82641311|NCT01169259|164997510|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.53|TWO_SIDED|95.0|0.86|1.08|||Regression, Cox|||||1.08|0.86|0.53
82526791|NCT03587142|164749850|SUPERIORITY||Mean Difference (Net)|-0.09||||0.76|TWO_SIDED|95.0|-0.69|0.5||Nominal P value reported. Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||The mean difference of differences (DoD) between Buspirone and Placebo, 95% confidence interval and P (2-sided) were derived from an ANCOVA, regressing an indicator for treatment group on fullness severity score, adjusting for the baseline value of fullness severity score.||0.50|-0.69|0.76
82574371|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-2.7|1.7||||||Week 4||1.7|-2.7|
82641312|NCT01169259|164997510|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21|TWO_SIDED|95.0|0.82|1.04|||Regression, Cox|||||1.04|0.82|0.21
82641313|NCT01169259|164997511|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.78|1.19|||Regression, Cox|||||1.19|0.78|0.73
82574372|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|0.9|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-1.4|3.2||||||Week 4||3.2|-1.4|
82574373|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-0.5|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|90.0|-2.7|1.6||||||Week 8||1.6|-2.7|
82574374|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-1.1|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.3|1.0||||||Week 8||1.0|-3.3|
82390691|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.9|TWO_SIDED|95.0|0.55|1.99|||Regression, Logistic|||||1.99|0.55|0.90
82526792|NCT03587142|164749851|SUPERIORITY||Mean Difference (Net)|-0.15||||0.64|TWO_SIDED|95.0|-0.76|0.47||Nominal P values; Bonferroni p value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.47|-0.76|0.64
82526793|NCT03587142|164749852|SUPERIORITY||Mean Difference (Net)|-0.14||||0.66|TWO_SIDED|95.0|-0.79|0.5||P values are nominal; Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.50|-0.79|0.66
82574375|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|90.0|-2.2|2.2||||||Week 8||2.2|-2.2|
82574376|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-0.8|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|90.0|-3.2|1.6||||||Week 12||1.6|-3.2|
82574377|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-2.0|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|90.0|-4.3|0.3||||||Week 12||0.3|-4.3|
82574378|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-0.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-2.6|2.2||||||Week 12||2.2|-2.6|
82574379|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|1.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.7|4.2||||||Week 16||4.2|-0.7|
82574380|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|90.0|-3.6|1.2||||||Week 16||1.2|-3.6|
82574381|NCT04092452|164858053|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|90.0|-2.4|2.6||||||Week 16||2.6|-2.4|
82574382|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-9.1|9.5||||||Week 4||9.5|-9.1|
82574383|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|1.2|STANDARD_ERROR_OF_MEAN|5.25|||TWO_SIDED|90.0|-7.4|9.8||||||Week 4||9.8|-7.4|
82574384|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|-4.0|STANDARD_ERROR_OF_MEAN|4.52|||TWO_SIDED|90.0|-11.4|3.4||||||Week 4||3.4|-11.4|
82574385|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|4.3|STANDARD_ERROR_OF_MEAN|4.57|||TWO_SIDED|90.0|-3.3|11.8||||||Week 8||11.8|-3.3|
82574386|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|6.2|STANDARD_ERROR_OF_MEAN|4.87|||TWO_SIDED|90.0|-1.8|14.2||||||Week 8||14.2|-1.8|
82574387|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|2.5|STANDARD_DEVIATION|4.42|||TWO_SIDED|90.0|-4.8|9.8||||||Week 8||9.8|-4.8|
82574388|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|5.43|||TWO_SIDED|90.0|-1.3|16.5||||||Week 12||16.5|-1.3|
82574389|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|6.9|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|90.0|-2.0|15.7||||||Week 12||15.7|-2.0|
82574390|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|2.9|STANDARD_ERROR_OF_MEAN|5.09|||TWO_SIDED|90.0|-5.5|11.3||||||Week 12||11.3|-5.5|
82574391|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.88|||TWO_SIDED|90.0|-6.3|6.4||||||Week 16||6.4|-6.3|
82574392|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|6.5|STANDARD_ERROR_OF_MEAN|5.63|||TWO_SIDED|90.0|-2.8|15.7||||||Week 16||15.7|-2.8|
82574393|NCT04092452|164858054|SUPERIORITY||Risk Difference (RD)|7.6|STANDARD_ERROR_OF_MEAN|5.64|||TWO_SIDED|90.0|-1.6|16.9||||||Week 16||16.9|-1.6|
82574394|NCT02127125|164858059|SUPERIORITY||||||<|0.025||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||<0.025
82574395|NCT02127125|164858059|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
82574396|NCT02127125|164858060|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
82574397|NCT02127125|164858060|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in insulin sensitivity compared to placebo treated subjects.||||>0.05
82574398|NCT02127125|164858061|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Sevelamer treated Obese subjects with normal glucose tolerance will show no post-treatment change in Lactulose:Mannitol ratio compared to placebo treated subjects.||||>0.05
82574399|NCT02127125|164858061|SUPERIORITY||||||>|0.05||||||p-value not adjusted for multiple comparison, a priori threshold for significance set at p\<0.025 for multiple comparisons.|Generalized Estimating Equation|||Null hypothesis is that Synbiotic treated Obese subjects with normal glucose tolerance will show no post-treatment change in Lactulose:Mannitol ratio compared to placebo treated subjects.||||>0.05
82641314|NCT01169259|164997511|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.003|TWO_SIDED|95.0|0.59|0.9|||Regression, Cox|||||0.90|0.59|0.003
82641315|NCT01169259|164997512|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.68|TWO_SIDED|95.0|0.76|1.2|||Regression, Cox|||||1.20|0.76|0.68
82577059|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.124||0.507|TWO_SIDED|95.0|-0.33|0.16|||MMRM|||Suicide, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.33|0.5070
82390692|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.36||||0.048|TWO_SIDED|95.0|1.01|5.55|||Regression, Logistic|||||5.55|1.01|0.048
82390693|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.67|TWO_SIDED|95.0|0.6|2.22|||Regression, Logistic|||||2.22|0.60|0.67
82390694|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.07|TWO_SIDED|95.0|0.95|3.78|||Regression, Logistic|||||3.78|0.95|0.070
82390695|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.23|TWO_SIDED|95.0|0.77|2.98|||Regression, Logistic|||||2.98|0.77|0.23
82443959|NCT00300677|164596537|SUPERIORITY_OR_OTHER||predose: ratio adjusted mean|12.39||||||90.0|7.09|21.65|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plama (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 pre-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||21.65|7.09|
82443960|NCT00300677|164596537|SUPERIORITY_OR_OTHER||postdose: ratio adjusted mean|31.57||||||90.0|18.06|55.18|||ANOVA|Mixed-effects analysis of variance model with time, compartment, and time by compartment interaction as fixed effects and subjects as random effects.|Estimated value = ratio (%) of adjusted geometric means comparing brain (test) vs. plasma (reference) concentrations of voriconazole N-oxide.|Other estimated parameter represents the Day 3 post-dose ratio of the adjusted geometric means comparing brain vs. plasma concentrations of voriconazole N-oxide. Natural-log transformed concentrations of voriconazole were analyzed using a mixed-effects model to obtain the adjusted mean difference (Test-Reference) and 90% confidence interval for the difference which were exponentiated to provide estimates of the ratio of the adjusted geometric means and 90% CI for the ratio.||55.18|18.06|
82443961|NCT03968159|164596575|SUPERIORITY||LSM difference|-0.9|STANDARD_ERROR_OF_MEAN|0.82||0.2956|TWO_SIDED|95.0|-2.5|0.8|||Mixed-effects model for repeated measure|||||0.8|-2.5|0.2956
82526794|NCT03587142|164749853|SUPERIORITY||Mean Difference (Net)|-0.12||||0.7|TWO_SIDED|95.0|-0.75|0.5||Nominal P values; Bonferroni p-value for the 10 sensitivity outcomes is \<0.005|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (s-sided) determined from a Wald Chi-Square test.||0.50|-0.75|0.70
82641316|NCT01169259|164997512|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.72|TWO_SIDED|95.0|0.83|1.31|||Regression, Cox|||||1.31|0.83|0.72
82641317|NCT01169259|164997513|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.38|TWO_SIDED|95.0|0.88|1.4|||Regression, Cox|||||1.40|0.88|0.38
82443962|NCT01173029|164596600|NON_INFERIORITY_OR_EQUIVALENCE|Study power calculation was post-hoc based on composite end-point achieved. Number of exposed: 62 Non-exposed to exposed ratio: 0.5 Relative risk worth detecting: 2.5 Attack rate among non-exposed: 23% Alpha risk: 0.05 Calculated power: 89.8%|Risk Ratio (RR)|1.7||||0.19|TWO_SIDED|95.0|0.7|4.1||not adjusted|Chi-squared, Corrected|1 degree-of-freedom||"Long-term intention-to-treat data analysis:~Student 't' tests Yates's corrected Chi-squared or Fisher's exact test, when appropriate Relative risk estimation Cox proportional-hazard model Hardy-Weinberg equilibrium"||4.1|0.7|0.19
82443963|NCT01173029|164596601|NON_INFERIORITY_OR_EQUIVALENCE|Study power calculation was post-hoc based on composite end-point achieved. Number of exposed: 62 Non-exposed to exposed ratio: 0.5 Relative risk worth detecting: 2.5 Attack rate among non-exposed: 23% Alpha risk: 0.05 Calculated power: 89.8%|Risk Ratio (RR)|2.6||||0.01|TWO_SIDED|95.0|1.01|7.3||not adjusted|Chi-squared, Corrected|1 degree-of-freedom||"Long-term intention-to-treat data analysis:~Student 't' test Yates' corrected Chi-squared or Fisher's exact test Relative risk estimation Cox proportional-hazard model Hardy-Weinberg equilibrium"||7.3|1.01|0.01
82443964|NCT01173029|164596601|NON_INFERIORITY_OR_EQUIVALENCE|Proportional-risk hypothesis was tested using the correlation between Schoenfeld's residuals and time (Schoenfeld's global test). The correlation rho was -0.08, Chi-squared was 0.12, and p was 0.73. Therefore, the hypothesis of proportional risk was accepted, validating the correct application model.|Hazard Ratio (HR)|2.2||||0.04|TWO_SIDED|95.0|1.1|4.8||The p-value was adjusted for confounders: Framingham risk score, body mass index, ethnic groups|Regression, Cox|The actuarial function of events per time since the first diagnosis of arterial hypertension was plotted for both groups.||Cox proportional hazard model for the composite endpoint (stroke + myocardial infarction) was assessed. By taking pseudo-resistant arterial hypertension as baseline reference, the hazard ratio for the composite endpoint was calculated.||4.8|1.1|0.04
82443965|NCT01173029|164596602|SUPERIORITY_OR_OTHER||C-statistic|0.66|||<|0.01|TWO_SIDED|95.0|0.56|0.76||At an optimal value of \>3, polygenic risk score yielded 90% sensitivity and 40% specificity for composite endpoint.|z test|Area under receiver operating characteristic curve.|The optimal cutoff value for polygenic risk score was set to \>3.|Receiver operating characteristic curve analysis for the polygenic score as predictor of composite endpoint (stroke + myocardial infarction)||0.76|0.56|<0.01
82443966|NCT01173029|164596602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.9||||0.04|TWO_SIDED|95.0|1.2|9.2||The p-value was adjusted for confounders: Framingham risk score, body mass index, ethnic group|Regression, Cox|The actuarial function of events per time since the first diagnosis of arterial hypertension was plotted for polygenic risk score\<=3 and \>3.||Cox proportional hazard model of the polygenic risk score\<=3 and \> 3 for the composite endpoint (stroke + myocardial infarction). By taking polygenic risk score\<=3, the hazard ratio for the composite endpoint was calculated for polygenic risk score\>3 .||9.2|1.2|0.04
82443967|NCT00357656|164596624|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority by the 200% margin of non-inferiority was demonstrated if the upper confidence limit of a 95% 2-sided confidence interval for the ratio of means did not exceed 200%.|Mean ratio CI/BI|0.924||||0.001|TWO_SIDED|95.0|0.816|1.046||one-sided p-value against the null hypothesis of ration \>=200%|Hypothesis test|||The main analysis used a point estimate and a two-sided 95% confidence interval for ratio of the primary outcome measure of CI over BI combined over the three strata: stratum A: unilateral knee replacement, stratum B: hip surgery, stratum C: shoulder/elbow/ankle/knee (except knee replacement) surgery.||1.046|0.816|0.001
82443968|NCT00316888|164596633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218|||||||one sample binomial test|||Null hypothesis is that the local failure rate at 3 years is no more than 35%.||||0.218
82443969|NCT00316888|164596633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592|||||||one sample binomial test|||The null hypothesis is that the local failure rate at 3 years is no more than 35%.||||0.592
82641318|NCT01169259|164997513|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.76|1.21|||Regression, Cox|||||1.21|0.76|0.73
82641319|NCT01169259|164997514|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.87|TWO_SIDED|95.0|0.87|1.12|||Regression, Cox|||||1.12|0.87|0.87
82526795|NCT03587142|164749854|SUPERIORITY||Mean Difference (Net)|-0.2||||0.4|TWO_SIDED|95.0|-0.66|0.27||P value is nominal; no adjustments made for multiple comparisons. Bonferrini p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) of change in outcome from baseline and 95% Confidence Intervals were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. P (2-sided) were determined from a Wald Chi-Square test.||0.27|-0.66|0.40
82526796|NCT03587142|164749854|SUPERIORITY||Odds Ratio (OR)|1.31||||0.56|TWO_SIDED|95.0|0.53|3.21||Nominal P value without adjustment for multiple comparisons. Bonferroni threshold for level of significance is \<0.002.|Regression, Logistic|Odds ratio, 95% C.I. and P (two-sided) from a logistic regression of the binary outcome on treatment group for symptomatic improvement in GCSI.||GCSI symptomatic improvement of 1+ points in total GCSI symptom score defined as change in GCSI total score at week 4 from baseline being a decrease of 1 or more points. This is a binary variable where 1=1+ reduction in change in GCSI total score, 0=change in GCSI total score from baseline at 4-weeks is \< 1.0.||3.21|0.53|0.56
82526797|NCT03587142|164749855|SUPERIORITY||Mean Difference (Net)|-0.05||||0.86|TWO_SIDED|95.0|-0.58|0.48||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Squares test.||0.48|-0.58|0.86
82526798|NCT03587142|164749856|SUPERIORITY||Mean Difference (Net)|-0.06||||0.85|TWO_SIDED|95.0|-0.64|0.53||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald-Chi Square test.||0.53|-0.64|0.85
82526799|NCT03587142|164749857|SUPERIORITY||Mean Difference (Net)|-0.14||||0.65|TWO_SIDED|95.0|-0.76|0.47||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test||0.47|-0.76|0.65
82526800|NCT03587142|164749858|SUPERIORITY||Mean Difference (Net)|-0.41||||0.16|TWO_SIDED|95.0|-0.99|0.16||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.16|-0.99|0.16
82526801|NCT03587142|164749859|SUPERIORITY||Mean Difference (Net)|-0.65||||0.03|TWO_SIDED|95.0|-1.23|-0.08||P values are nominal; no adjustments made for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||-0.08|-1.23|0.03
82390696|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.11||||0.034|TWO_SIDED|95.0|1.06|4.19|||Regression, Logistic|||||4.19|1.06|0.034
82526802|NCT03587142|164749860|SUPERIORITY||Mean Difference (Net)|0.17||||0.59|TWO_SIDED|95.0|-0.44|0.77||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.77|-0.44|0.59
82526803|NCT03587142|164749861|SUPERIORITY||Mean Difference (Net)|0.24||||0.46|TWO_SIDED|95.0|-0.39|0.88||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.88|-0.39|0.46
82526804|NCT03587142|164749862|SUPERIORITY||Mean Difference (Net)|0.09||||0.73|TWO_SIDED|95.0|-0.42|0.59||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.59|-0.42|0.73
82641320|NCT01169259|164997514|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.79|TWO_SIDED|95.0|0.9|1.15|||Regression, Cox|||||1.15|0.90|0.79
82641321|NCT01169259|164997515|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.33|TWO_SIDED|95.0|0.83|1.06|||Regression, Cox|||||1.06|0.83|0.33
82390697|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.2|TWO_SIDED|95.0|0.76|3.84|||Regression, Logistic|||||3.84|0.76|0.20
82390698|NCT01340027|164492760|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.68|TWO_SIDED|95.0|0.55|2.49|||Regression, Logistic|||||2.49|0.55|0.68
82390699|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.62|TWO_SIDED|95.0|0.64|2.12|||Regression, Logistic|||||2.12|0.64|0.62
82390700|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.25|TWO_SIDED|95.0|0.82|2.17|||Regression, Logistic|||||2.17|0.82|0.25
82574400|NCT00855413|164858096|OTHER|one sided ANOVA.|Mean Difference (Final Values)|4.23|STANDARD_DEVIATION|0.15||0.03|TWO_SIDED|||||The degrees of freedom (df) for the within factor (number of visits - 1) was 2, and the second df is the error df of 17.|ANOVA|||An overall summary score of neurocognitive functioning was created by averaging all tests. Best available demographically corrected normative data were utilized to create z scores and then deficit scores for impairment ratings.Change in neurocognitive functioning was analyzed using a one sided repeated measures ANOVA with neurocognitive performance as the dependent variable (total z score) and time (visit) as the independent variable. Degrees of freedom were 2,17.||||0.03
82574401|NCT00855413|164858098|OTHER|Spearman correlation|spearman correlation|-0.82|||<|0.005|TWO_SIDED|||||R = -0.82|Spearman correlation|||Correlation between time (days) to HIV RNA suppression \<200 copies/mL and total z score (mean) was assessed by Spearman correlation|Correlation between time (days) to HIV RNA suppression \<200 copies/mL and total z score (mean) was assessed by Spearman correlation|||<.005
82574402|NCT02493946|164858101|SUPERIORITY||Treatment difference|80.8|||<|0.0001|TWO_SIDED|95.0|73.7|88.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders.||88.0|73.7|<0.0001
82641322|NCT01169259|164997515|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.056|TWO_SIDED|95.0|1.0|1.28|||Regression, Cox|||||1.28|1.00|0.056
82641323|NCT01169259|164997516|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.38|TWO_SIDED|95.0|0.79|1.09|||Regression, Cox|||||1.09|0.79|0.38
82390701|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.11|TWO_SIDED|95.0|0.91|2.41|||Regression, Logistic|||||2.41|0.91|0.11
82443970|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||||90.0|-3.8|1.59|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.59|-3.80|
82641324|NCT01169259|164997516|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.18|TWO_SIDED|95.0|0.76|1.05|||Regression, Cox|||||1.05|0.76|0.18
82443971|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||||90.0|-3.55|-0.31|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.31|-3.55|
82443972|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.99||||||90.0|-7.69|-2.3|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.30|-7.69|
82443973|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||||90.0|-4.58|-1.34|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.34|-4.58|
82641325|NCT01169259|164997517|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.024|TWO_SIDED|95.0|0.59|0.96|||Regression, Cox|||||0.96|0.59|0.024
82390702|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.81||||0.02|TWO_SIDED|95.0|1.1|2.97|||Regression, Logistic|||||2.97|1.10|0.020
82390703|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87||||0.012|TWO_SIDED|95.0|1.15|3.05|||Regression, Logistic|||||3.05|1.15|0.012
82390704|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.072|TWO_SIDED|95.0|0.95|3.1|||Regression, Logistic|||||3.10|0.95|0.072
82390705|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.29|TWO_SIDED|95.0|0.77|2.44|||Regression, Logistic|||||2.44|0.77|0.29
82641326|NCT01169259|164997517|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.58|TWO_SIDED|95.0|0.73|1.19|||Regression, Cox|||||1.19|0.73|0.58
82641327|NCT01169259|164997518|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.62|TWO_SIDED|95.0|0.84|1.11|||Regression, Cox|||||1.11|0.84|0.62
82526805|NCT03587142|164749863|SUPERIORITY||Mean Difference (Net)|-0.14||||0.5|TWO_SIDED|95.0|-0.55|0.27||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.27|-0.55|0.50
82526806|NCT03587142|164749864|SUPERIORITY||Mean Difference (Net)|0.32||||0.18|TWO_SIDED|95.0|-0.15|0.79||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.79|-0.15|0.18
82526807|NCT03587142|164749865|SUPERIORITY||Mean Difference (Net)|1.01||||0.19|TWO_SIDED|95.0|-0.49|2.51||P value is nominal: no adjustments made from multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002.|ANCOVA|||Adjusted mean difference from differences (DoD) from the baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported; P value (2-sided) determined from a Wald Chi-Square test.||2.51|-0.49|0.19
82526808|NCT03587142|164749866|SUPERIORITY||Mean Difference (Net)|1.86||||0.02|TWO_SIDED|95.0|0.33|3.38||P value is nominal: no adjustments made for multiple comparisons. Bonferroni P-value threshold for the level of significance is \<=0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the HADS depression score.||3.38|0.33|0.02
82526809|NCT03587142|164749867|SUPERIORITY||Mean Difference (Net)|0.76||||0.4|TWO_SIDED|95.0|-1.02|2.54||P values are nominal; no adjustments for multiple comparisons|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the HADS anxiety total score. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test||2.54|-1.02|0.40
82526810|NCT03587142|164749868|SUPERIORITY||Mean Difference (Net)|-0.21||||0.25|TWO_SIDED|95.0|-0.57|0.15||P value is nominal with no adjustment for multiple comparisons. The Bonferroni level of significance threshold is \<=0.002.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of PAGI-QOL total score.||0.15|-0.57|0.25
82526811|NCT03587142|164749869|SUPERIORITY||Mean Difference (Net)|-1.98||||0.36|TWO_SIDED|95.0|-6.2|2.24|||ANCOVA|||Adjusted mean difference of differences (DoD) of change in outcome from baseline and 95% Confidence Intervals were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of outcome. P (2-sided) were determined from a Wald-Chi-Square test.||2.24|-6.20|0.36
82526812|NCT03587142|164749870|SUPERIORITY||Mean Difference (Net)|-2.07||||0.15|TWO_SIDED|95.0|-4.91|0.76||P value is nominal; no adjustments made for multiple comparisons Bonferroni p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||0.76|-4.91|0.15
82526813|NCT03587142|164749871|SUPERIORITY||Mean Difference (Net)|1.37||||0.76|TWO_SIDED|95.0|-7.51|10.25||P value is nominal: no adjustments made for multiple comparisons. Bonferrini p-value is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported. P (2-sided) determined from a Wald Chi-Square test.||10.25|-7.51|0.76
82574403|NCT02493946|164858102|SUPERIORITY||Treatment difference|75.0|||<|0.0001|TWO_SIDED|95.0|67.1|82.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||82.8|67.1|<0.0001
82574404|NCT02493946|164858102|SUPERIORITY||Treatment difference|74.1|||<|0.0001|TWO_SIDED|95.0|66.2|82.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||82.1|66.2|<0.0001
82574405|NCT02493946|164858102|SUPERIORITY||Treatment difference|53.6|||<|0.0001|TWO_SIDED|95.0|44.2|63.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||63.1|44.2|<0.0001
82574406|NCT02493946|164858104|SUPERIORITY||Treatment difference|58.0|||<|0.0001|TWO_SIDED|95.0|44.5|71.6||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||71.6|44.5|<0.0001
82574407|NCT02493946|164858104|SUPERIORITY||Treatment difference|56.8|||<|0.0001|TWO_SIDED|95.0|44.5|69.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||69.0|44.5|<0.0001
82574408|NCT02493946|164858104|SUPERIORITY||Treatment difference|62.5|||<|0.0001|TWO_SIDED|95.0|52.1|72.9||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||72.9|52.1|<0.0001
82641328|NCT01169259|164997518|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.72|TWO_SIDED|95.0|0.84|1.12|||Regression, Cox|||||1.12|0.84|0.72
82641329|NCT01169259|164997519|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.78|TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|||||1.19|0.79|0.78
82526814|NCT03587142|164749872|SUPERIORITY||Mean Difference (Net)|-0.05||||0.1|TWO_SIDED|95.0|-0.12|0.01||Nominal P values; no adjustment for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) were computed using ANCOVA, regressing change in IMD from baseline to 4-weeks on treatment group and the baseline value of IMD. Wald 95% Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||0.01|-0.12|0.10
82641330|NCT01169259|164997519|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.016|TWO_SIDED|95.0|0.63|0.95|||Regression, Cox|||||0.95|0.63|0.016
82526815|NCT03587142|164749873|SUPERIORITY||Mean Difference (Net)|-21.51||||0.29|TWO_SIDED|95.0|-99.4|56.4||Nominal P values; no adjustments for multiple comparisons.|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of teh outcome. Wald 95% Confidence Limits are reported; P (2-sided) determined from a Wald Chi-Square test.||56.4|-99.4|0.29
82526816|NCT03587142|164749874|SUPERIORITY||Mean Difference (Net)|0.09||||0.84|TWO_SIDED|95.0|-0.78|0.95||P value is nominal; no adjustments made for multiple comparisons. Bonferroni p-value \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to week 4 on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported: P (2-sided) determined from Wald Chi-Square test.||0.95|-0.78|0.84
82526817|NCT03587142|164749875|SUPERIORITY||Mean Difference (Net)|-6.43||||0.27|TWO_SIDED|95.0|-17.9|5.03||P value is nominal|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Limits (CI) are reported; P (2-sided) determined from a Wald Chi-Square test.||5.03|-17.90|0.27
82526818|NCT03587142|164749876|SUPERIORITY||Mean Difference (Net)|-1.02||||0.74|TWO_SIDED|95.0|-6.93|4.89||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold for the level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. Wald 95% Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||4.89|-6.93|0.74
82574409|NCT02493946|164858104|SUPERIORITY||Treatment difference|42.6|||<|0.0001|TWO_SIDED|95.0|29.5|55.7||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||55.7|29.5|<0.0001
82574410|NCT02493946|164858105|SUPERIORITY||Treatment difference|61.1|||<|0.0001|TWO_SIDED|95.0|51.9|70.3||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||70.3|51.9|<0.0001
82574411|NCT02493946|164858105|SUPERIORITY||Treatment difference|65.8|||<|0.0001|TWO_SIDED|95.0|56.8|74.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||74.8|56.8|<0.0001
82574412|NCT02493946|164858105|SUPERIORITY||Treatment difference|70.5|||<|0.0001|TWO_SIDED|95.0|62.2|78.8||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||78.8|62.2|<0.0001
82574413|NCT02493946|164858105|SUPERIORITY||Treatment difference|33.0|||<|0.0001|TWO_SIDED|95.0|24.0|42.0||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||42.0|24.0|<0.0001
82574414|NCT02493946|164858106|SUPERIORITY||Treatment difference|68.2|||<|0.0001|TWO_SIDED|95.0|58.2|78.3||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Linear|||Treatment difference against placebo in the adjusted percentage of responders at Day 8 Cycle 1.||78.3|58.2|<0.0001
82574415|NCT02493946|164858106|SUPERIORITY||Treatment difference|77.4|||<|0.0001|TWO_SIDED|95.0|68.6|86.2||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 29 Cycle 1.||86.2|68.6|<0.0001
82574416|NCT02493946|164858106|SUPERIORITY||Treatment difference|74.4|||<|0.0001|TWO_SIDED|95.0|65.7|83.1||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 57 Cycle 1.||83.1|65.7|<0.0001
82574417|NCT02493946|164858106|SUPERIORITY||Treatment difference|51.0|||<|0.0001|TWO_SIDED|95.0|42.0|59.9||The treatment difference and p-value were obtained from a logistic regression on responders with treatment group, gender, baseline severity score on ILA at maximum frown and centre as fixed variables.|Regression, Logistic|||Treatment difference against placebo in the adjusted percentage of responders at Day 85 Cycle 1.||59.9|42.0|<0.0001
82574418|NCT02493946|164858107|SUPERIORITY||Hazard Ratio (HR)|15.296|||<|0.0001|TWO_SIDED||||||Cox proportional hazard model|The cox proportional hazard model used centre, gender and ILA baseline severity score as covariates.||Treatment difference in median time to onset of treatment response.||||<0.0001
82574419|NCT02493946|164858108|SUPERIORITY||Treatment difference|8.6|||<|0.0001|TWO_SIDED|95.0|5.2|12.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference ( BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||12.0|5.2|<0.0001
82641331|NCT01169259|164997520|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.058|TWO_SIDED|95.0|0.55|1.01|||Regression, Cox|||||1.01|0.55|0.058
82526819|NCT03587142|164749877|SUPERIORITY||Mean Difference (Net)|0.03||||0.18|TWO_SIDED|95.0|-0.01|0.08|||ANCOVA|P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance \<0.002||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||0.08|-0.01|0.18
82526820|NCT03587142|164749878|SUPERIORITY||Mean Difference (Net)|-0.39||||0.97|TWO_SIDED|95.0|-20.42|19.64||P value is nominal: no adjustments made for multiple comparisons. Bonferroni p-value threshold level of significance is \<0.002|ANCOVA|||Adjusted mean difference of differences (DoD) from baseline were computed using ANCOVA, regressing change from baseline to 4-weeks on treatment group and baseline value of the outcome. 95% Wald Confidence Intervals are reported; P (2-sided) determined from a Wald Chi-Square test.||19.64|-20.42|0.97
82526821|NCT03587142|164749879|SUPERIORITY||Incident rate ratio|1.27||||0.64|TWO_SIDED|95.0|0.57|2.82||P values are nominal and not adjusted for multiple comparisons.|Exact poisson regression|||Event rates are computed by treatment arm by dividing the total adverse events over 4-weeks by the number of patient-months of follow-up to 4-weeks. Event rates are compared by treatment arm using an exact poisson regression for event rates.||2.82|0.57|0.64
82526822|NCT03587142|164749880|SUPERIORITY||Incident rate ratio|0.95||||0.54|TWO_SIDED|95.0|0.35|2.62||P values are nominal.|Fisher Exact|||A Fisher's Exact test was used for comparisons of events by treatment by severity grade. One patient in the Buspirone arm had 2 AEs during the trial; for analysis by severity grade the maximum severity grade was used.|An exact poisson regression stratified by severity level was used to compute the incident rate ratio and 95% Confidence Intervals for adverse events by severity level.|2.62|0.35|0.54
82526823|NCT03587142|164749881|SUPERIORITY|||||||1||||||P value is nominal.|Fisher Exact|||||||1.00
82526824|NCT03587142|164749882|SUPERIORITY||Incident rate ratio|1.03||||1|TWO_SIDED|95.0|0.0|40.36||P-values are nominal.|Exact poisson regression|||Event rates were computed by dividing the number of hospitalizations over 4-weeks by the number of person-years. An exact poisson regression was used to compare events by treatment group.||40.36|0|1.00
82526825|NCT03587142|164749883|SUPERIORITY|||||||0.52||||||Nominal P value.|Binomial probability test|2-sided test with probability of success=0||||||0.52
82526826|NCT00708435|164749895|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 83 participants."|Difference in effective hemostasis (%)|7.1|||||TWO_SIDED|95.0|-5.8|19.9||Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. No P-value is entered as non-inferiority was assessed via the 95% CI calculation for the difference (Beriplex minus plasma) in the % of subjects with effective hemostasis.|95% confidence interval|Farrington and Manning's method was used to estimate the 95% CI for the difference in the percentage of participants with hemostasis.|Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. There is no P-value as non-inferiority was assessed via the 95% CI calculation for the difference (Beriplex minus plasma) in the % of subjects with effective hemostasis.|The analysis of hemostatic efficacy was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with effective hemostasis.||19.9|-5.8|
82526827|NCT00708435|164749896|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was -(minus)10%. If the lower limit of the 2-sided 95% CI was \>-10%, then the null-hypothesis was rejected and it was concluded that Beriplex was non-inferior to plasma.~The sample size estimation assumed that hemostatic efficacy would be rated 'effective' in 85% of participants in the plasma group and 90% of participants in the Beriplex group. The power to show non-inferiority with these assumptions was greater than 80% for two treatment groups of 83 participants."|Difference in the decrease of INR (%)|52.6|||||TWO_SIDED|95.0|39.4|65.9||Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. No P-value is entered as non-inferiority was assessed via the 95% CI for the difference (Beriplex minus plasma) in the % of subjects with a rapid decrease of the INR.|95% confidence interval|Farrington and Manning's method was used to estimate the 95% CI for the difference in the percentage of participants with a rapid decrease of the INR.|Both primary endpoints had to be non-inferior for Beriplex to be non-inferior. There is no P-value as non-inferiority was assessed via the 95% CI for the difference (Beriplex minus plasma) in the % of subjects with a rapid decrease of the INR.|The analysis of the percentage of participants who had a rapid decrease of the INR was via calculation of the 95% confidence interval (CI) for the difference (Beriplex minus plasma) in the percentage of participants with a rapid decrease of the INR.||65.9|39.4|
82574420|NCT02493946|164858108|SUPERIORITY||Treatment difference|11.1|||<|0.0001|TWO_SIDED|95.0|7.4|14.8||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||14.8|7.4|<0.0001
82526828|NCT01737684|164749910|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.27|||||TWO_SIDED|90.0|0.96|1.67|||ANCOVA|||||1.67|0.96|
82526829|NCT01737684|164749913|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.35|||||TWO_SIDED|90.0|0.88|2.06|||ANCOVA|||||2.06|0.88|
82526830|NCT01691521|164749953|SUPERIORITY_OR_OTHER||Rate Ratio|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.72||Hochberg procedure with a gamma parameter of 1 used for multiplicity adjustment.|Negative binomial model||Number of exacerbations per year in the mepolizumab 75mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.72|0.40|<0.001
82574421|NCT02493946|164858108|SUPERIORITY||Treatment difference|10.4|||<|0.0001|TWO_SIDED|95.0|6.8|14.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||14.0|6.8|<0.0001
82641332|NCT01169259|164997520|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.94|TWO_SIDED|95.0|0.73|1.33|||Regression, Cox|||||1.33|0.73|0.94
82641333|NCT01169259|164997521|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.61|TWO_SIDED|95.0|0.83|1.12|||Regression, Cox|||||1.12|0.83|0.61
82390706|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.94|TWO_SIDED|95.0|0.49|1.93|||Regression, Logistic|||||1.93|0.49|0.94
82526831|NCT01691521|164749953|SUPERIORITY_OR_OTHER||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.35|0.64||Hochberg procedure with a gamma parameter of 1 used for multiplicity adjustment.|Negative binomial model||Number of exacerbations per year in the mepolizumab 100 mg SC arm divided by the number of exacerbations per year in the placebo arm.|||0.64|0.35|<0.001
82526832|NCT02424591|164750045|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
82526833|NCT02424591|164750046|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82526834|NCT02424591|164750047|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82641334|NCT01169259|164997521|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.016|TWO_SIDED|95.0|0.71|0.97|||Regression, Cox|||||0.97|0.71|0.016
82526835|NCT00770432|164750048|SUPERIORITY_OR_OTHER|||||||0.0595||95.0|||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel adjusted for study site (the smallest study sites were pooled according to a pre-specified rule).||||||0.0595
82526836|NCT00818363|164750051|SUPERIORITY||LS Mean Difference|-0.64||||0.303|TWO_SIDED|95.0|-1.74|0.47|||ANCOVA|Includes treatment group and trial site as factors and age as a covariate.||||0.47|-1.74|0.303
82526837|NCT00818363|164750052|SUPERIORITY||LS Mean Difference|-10.25||||0.303|TWO_SIDED|95.0|-30.04|9.55|||ANCOVA|Includes treatment group and trial site as factors and age as a covariate.||||9.55|-30.04|0.303
82526838|NCT01453348|164750058|NON_INFERIORITY_OR_EQUIVALENCE|(GMC anti-HAV + MenACWY-CRM / GMC anti-HAV)|Ratio of GMC|0.89|||||TWO_SIDED|95.0|0.6|1.32||The testing was done by assessing the confidence interval of the ratio|ANCOVA|The Analysis of variance (ANCOVA) model included vaccine group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity was that the lower-limit of the two-sided 95% Confidence Interval (CI) on the ratio of Enzyme-linked Immunosorbent Assay (ELISA) GMCs (Hep A/B + MenACWY-CRM to Hep A/B) is below or equal to 0.5.||1.32|0.6|
82526839|NCT01453348|164750058|NON_INFERIORITY_OR_EQUIVALENCE|(GMC anti-HBsAg + MenACWY-CRM / GMC anti-HBsAg)|Ratio of GMC|1.19|||||TWO_SIDED|95.0|0.59|2.37||The testing was done by assessing the confidence interval of the ratio|ANCOVA|The ANCOVA model included vaccines group and center as factors, age as covariate and was adjusted for baseline.||The primary criterion for immunogenicity was that the the lower-limit of the two-sided 95% CI on the ratio of ELISA GMCs (Hep A/B + MenACWY-CRM to Hep A/B) is below or equal to 0.5.||2.37|0.59|
82526840|NCT00633919|164750063|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0|||||Linear mixed effect (LME) model|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.85
82526841|NCT00633919|164750064|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED|95.0|||||Linear mixed effect (LME) model|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.52
82526842|NCT00633919|164750065|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||>0.05
82526843|NCT00633919|164750066|SUPERIORITY_OR_OTHER|||||||0.0486||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||0.0486
82526844|NCT00633919|164750067|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Proportional odds regression|||The null hypothesis is the hypothesis of no difference and the alternative to the null hypothesis is the hypothesis of a difference.||||>0.05
82526845|NCT01991821|164750080|SUPERIORITY|||||||0.093||||||The complete response of the primary efficacy analysis occurred in 95 patients (56.2%; 95% confidence interval \[CI\] 48.4 - 63.8%) in the APD421 group and 83 patients (46.6%; 95% CI 39.1- 54.2%) in the placebo group|Chi-squared, Corrected|Pearson square test with Yates's continuity correction and with the two- sided significance level of 5%||The primary efficacy analysis was a complete response which is defined as protection from PONV1, which was absence of any episode of emesis, significant nausea or use of rescue medication with the first 24 hours post-operatively.||||0.093
82526846|NCT01991821|164750081|SUPERIORITY|||||||0.059||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.059
82641335|NCT01169259|164997522|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.61|TWO_SIDED|95.0|0.83|1.39|||Regression, Cox|||||1.39|0.83|0.61
82390707|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.8|TWO_SIDED|95.0|0.46|1.81|||Regression, Logistic|||||1.81|0.46|0.80
82390708|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.67|TWO_SIDED|95.0|0.59|2.28|||Regression, Logistic|||||2.28|0.59|0.67
82390709|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.55|1.8|||Regression, Logistic|||||1.80|0.55|1.0
82390710|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.66|TWO_SIDED|95.0|0.59|2.31|||Regression, Logistic|||||2.31|0.59|0.66
82526847|NCT01991821|164750082|SUPERIORITY|||||||0.053||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.053
82526848|NCT01991821|164750083|SUPERIORITY|||||||0.26||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.26
82526849|NCT01991821|164750084|SUPERIORITY|||||||0.06||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.06
82526850|NCT01991821|164750085|SUPERIORITY|||||||0.079||||||Two-sided, significance threshold = 0.05|Chi-squared, Corrected|||||||0.079
82526851|NCT01991821|164750086|SUPERIORITY|||||||0.096|||||||Chi-squared, Corrected|||||||0.096
82526852|NCT03592277|164750089|SUPERIORITY|||||||0.344|||||||Chi-squared|||||||0.344
82526853|NCT03592277|164750090|SUPERIORITY|||||||0.526|||||||Chi-squared|||||||0.526
82526854|NCT03592277|164750091|SUPERIORITY|||||||0.123|||||||Chi-squared|||||||0.123
82526855|NCT03592277|164750092|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.660
82526856|NCT03592277|164750093|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||0.745
82526857|NCT03592277|164750094|SUPERIORITY|||||||0.236|||||||Chi-squared|||||||0.236
82526858|NCT00861601|164750133|SUPERIORITY_OR_OTHER|||||||0.0104||95.0||||Linearity. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0104
82526859|NCT00861601|164750133|SUPERIORITY_OR_OTHER|||||||0.0057||95.0||||Saturation at the medium dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0057
82526860|NCT00861601|164750133|SUPERIORITY_OR_OTHER|||||||0.0808||95.0||||Onset of response at the higher dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0808
82526861|NCT00861601|164750134|SUPERIORITY_OR_OTHER|||||||0.0116||95.0||||Linearity. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0116
82526862|NCT00861601|164750134|SUPERIORITY_OR_OTHER|||||||0.0066||95.0||||Saturation at the medium dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0066
82526863|NCT00861601|164750134|SUPERIORITY_OR_OTHER|||||||0.0846||95.0||||Onset of response at the higher dose. This analysis is based on each participants' change in platelet count.|ANCOVA|No adjustment for multiplicity was made because this analysis was exploratory.||||||0.0846
82526864|NCT00909480|164750149|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: 0.4%.|Mean Difference (Net)|0.3003||||||95.0|0.1427|0.458|||ANCOVA|Full analysis set, Model adjusted for: HbA1c at baseline, previous oral anti-diabetic treatment and country.||||0.4580|0.1427|
82526865|NCT01725386|164750169|SUPERIORITY_OR_OTHER|||||||0.895|||||||Log Rank (Mantel-Cox)|||||||0.895
82526866|NCT00879996|164750171|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9134||||0.77|TWO_SIDED|95.0|0.4156|2.007|||Log Rank|||Null hypothesis: Methadone and buprenorphine treatment do not differ in treatment retention.||2.007|0.4156|0.77
82526867|NCT00879996|164750172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.043||95.0|||||ANOVA|||Null hypothesis: Methadone treatment is as effective as buprenorphine treatment in reducing pain.||||<0.043
82526868|NCT00879996|164750173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.0|<|0.665|TWO_SIDED|95.0|||||ANOVA|||null-hypothesis: methadone and buprenorphine treatment are equally effective in reducing self-reported functioning at 6 months.||||<0.665
82526869|NCT00879996|164750174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|STANDARD_DEVIATION|0.0|<|0.039|TWO_SIDED|95.0|||||Fisher Exact|||Null hypothesis: methadone or buprenorphine treatment equally reduce illicit drug use.||||<0.039
82526870|NCT02413463|164750212|SUPERIORITY|Chi-square test||||||0.18||||||This is the calculated p-value for the success rate in the Augmented Group Vs. Faden Group|Chi-squared|||An estimation of sample size was performed considering a study power of 0.8 with an alpha error of 0.05 aiming to detect a difference of 5 Δ in the postoperative angle disparity between the 2 groups, assuming a postoperative standard deviation of 6 Δ. Based on this estimation, a total of 24 eyes were found to be adequate in each group, and considering a 25% dropout during the follow-up, recruitment of 30 study subjects in each group was targeted||||0.18
82526871|NCT02413463|164750213|SUPERIORITY|||||||0.22||||||This is the calculated p-value for the postoperative angle of deviation with spectacles for distance in Augmented recession vs. Faden group (First row)|t-test, 2 sided|||||||0.22
82526872|NCT02413463|164750214|SUPERIORITY|||||||0.02||||||This is the calculated p-value for the postoperative angle of deviation without spectacles for near in Augmented recession vs. Faden group (Second row)|t-test, 2 sided|||||||0.02
82526873|NCT02413463|164750215|SUPERIORITY|||||||0.03||||||This is the calculated p-value for the postoperative angle disparity in the Augmented Group Vs. Faden Group|t-test, 2 sided|||||||0.03
82526874|NCT02413463|164750216|SUPERIORITY||||||<|0.01||||||This is the calculated p-value for the intraoperative time in the Augmented Group Vs. Faden Group|t-test, 2 sided|||||||<0.01
82526875|NCT04146896|164750242|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||||||0.704
82574422|NCT02493946|164858108|SUPERIORITY||Treatment difference|9.6|||<|0.0001|TWO_SIDED|95.0|5.9|13.3||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariates.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||13.3|5.9|<0.0001
82574423|NCT02493946|164858109|SUPERIORITY||Treatment difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.0|13.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||13.6|5.0|<0.0001
82641336|NCT01169259|164997522|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.74|TWO_SIDED|95.0|0.74|1.24|||Regression, Cox|||||1.24|0.74|0.74
82641337|NCT01169259|164997523|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.37|TWO_SIDED|95.0|0.42|1.38|||Regression, Cox|||||1.38|0.42|0.37
82641338|NCT01169259|164997523|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.37|TWO_SIDED|95.0|0.72|2.39|||Regression, Cox|||||2.39|0.72|0.37
82526876|NCT04146896|164750243|SUPERIORITY|||||||0.684|||||||t-test, 2 sided|||||||.684
82526877|NCT04146896|164750244|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
82526878|NCT04146896|164750245|SUPERIORITY|||||||0.483|||||||t-test, 2 sided|||||||.483
82526879|NCT04146896|164750246|SUPERIORITY|||||||0.199|||||||t-test, 2 sided|||||||.199
82526880|NCT04146896|164750247|SUPERIORITY|||||||0.273|||||||t-test, 2 sided|||||||.273
82526881|NCT04146896|164750248|SUPERIORITY|||||||0.668|||||||t-test, 2 sided|||||||.668
82526882|NCT02118337|164750253|SUPERIORITY||Rate difference|-23.8||||0.5494|TWO_SIDED|95.0|-72.8|31.1|||Fisher Exact|||||31.1|-72.8|0.5494
82526883|NCT02118337|164750253|SUPERIORITY||Rate difference|-7.1||||0.513|TWO_SIDED|95.0|-33.6|20.0|||Fisher Exact|||||20.0|-33.6|0.5130
82526884|NCT02583763|164750284|SUPERIORITY||||||>|0.05||||||Significance value stated as p\<0.05|t-test, 2 sided|||Paired sample T test were used to analyse normally distributed data.||||>0.05
82526885|NCT02583763|164750285|SUPERIORITY||||||>|0.05||||||Significance value was stated as p\<0.05|t-test, 2 sided|||||||>0.05
82526886|NCT02583763|164750286|SUPERIORITY|||||||0.003||||||Significance value was set to p\<0.05|t-test, 2 sided|||||||0.003
82526887|NCT01986101|164750292|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.0||0.007|TWO_SIDED|95.0|-4.9|-1.0||Hochberg-adjusted|Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-1.0|-4.9|0.007
82526888|NCT01986101|164750292|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|1.03||0.057|TWO_SIDED|95.0|-4.0|0.1||Hochberg-adjusted.|Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.1|-4.0|0.057
82526889|NCT01986101|164750293|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.127||0.002|TWO_SIDED|95.0|-0.65|-0.15|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.15|-0.65|0.002
82526890|NCT01986101|164750293|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13||0.019|TWO_SIDED|95.0|-0.56|-0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in SM-13496 group over the placebo group.|||-0.05|-0.56|0.019
82526891|NCT01986101|164750294|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.89||0.037|TWO_SIDED|95.0|-3.6|-0.1|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.1|-3.6|0.037
82526892|NCT01986101|164750294|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.92||0.223|TWO_SIDED|95.0|-2.9|0.7|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.7|-2.9|0.223
82526893|NCT01986101|164750295|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.262||0.076|TWO_SIDED|95.0|-0.98|0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.05|-0.98|0.076
82526894|NCT01986101|164750295|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.269||0.075|TWO_SIDED|95.0|-1.01|0.05|||Mixed Models Analysis||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.05|-1.01|0.075
82526895|NCT01986101|164750296|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.016|TWO_SIDED|95.0|-3.1|-0.3|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||-0.3|-3.1|0.016
82526896|NCT01986101|164750296|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.71||0.294|TWO_SIDED|95.0|-2.1|0.7|||ANCOVA||A negative difference in least square mean change from baseline between SM-13496 group and placebo indicates a greater improvement in the SM-13496 group over the placebo group.|||0.7|-2.1|0.294
82526897|NCT01742364|164750327|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||Comparison of all adverse events (both injection site and systemic AEs).||||0.475
82526898|NCT01742364|164750327|SUPERIORITY_OR_OTHER|||||||0.187|||||||Fisher Exact|||Comparison of all adverse events (both injection site and systemic AEs).||||0.187
82526899|NCT01742364|164750329|SUPERIORITY_OR_OTHER|||||||0.205|||||||Wilcoxon (Mann-Whitney)|||||||0.205
82526900|NCT01742364|164750330|SUPERIORITY_OR_OTHER|||||||0.325|||||||Wilcoxon (Mann-Whitney)|||||||0.325
82526901|NCT01742364|164750331|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82526902|NCT01742364|164750331|SUPERIORITY_OR_OTHER|||||||0.13|||||||Kruskal-Wallis|||||||0.130
82574424|NCT02493946|164858109|SUPERIORITY||Treatment difference|11.4|||<|0.0001|TWO_SIDED|95.0|6.7|16.0||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||16.0|6.7|<0.0001
82574425|NCT02493946|164858109|SUPERIORITY||Treatment difference|11.2|||<|0.0001|TWO_SIDED|95.0|6.4|15.9||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||15.9|6.4|<0.0001
82574426|NCT02493946|164858109|SUPERIORITY||Treatment difference|8.1||||0.0004|TWO_SIDED|95.0|3.7|12.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||12.6|3.7|0.0004
82641339|NCT01169259|164997524|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.15|TWO_SIDED|95.0|0.84|3.06|||Regression, Cox|||||3.06|0.84|0.15
82641340|NCT01169259|164997524|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.04|TWO_SIDED|95.0|0.26|0.97|||Regression, Cox|||||0.97|0.26|0.04
82641341|NCT01169259|164997525|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.27|TWO_SIDED|95.0|0.83|1.95|||Regression, Cox|||||1.95|0.83|0.27
82641342|NCT01169259|164997525|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.198|TWO_SIDED|95.0|0.49|1.16|||Regression, Cox|||||1.16|0.49|0.198
82526903|NCT01742364|164750332|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||||||0.001
82526904|NCT01742364|164750332|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||||||0.003
82526905|NCT00975221|164750333|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH) statistic|39.866|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82526906|NCT00975221|164750334|SUPERIORITY_OR_OTHER||CMH statistic|40.953|||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82526907|NCT00975221|164750335|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-13.55|STANDARD_ERROR_OF_MEAN|1.34|<|0.001|TWO_SIDED|95.0|-16.23|-10.88|||ANCOVA|Analysis of covariance (ANCOVA) with baseline corrected serum calcium and baseline bisphosphonate included as covariates.|Treatment difference: cinacalcet-placebo|||-10.88|-16.23|<0.001
82526908|NCT00975221|164750336|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.79|STANDARD_ERROR_OF_MEAN|5.61|<|0.001|TWO_SIDED|95.0|-34.01|-11.57|||ANCOVA|Analysis of covariance (ANCOVA) with baseline corrected serum calcium and baseline bisphosphonate included as covariates.|Treatment difference: cinacalcet-placebo|||-11.57|-34.01|<0.001
82526909|NCT02026232|164750339|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82526910|NCT01187914|164750341|SUPERIORITY_OR_OTHER||Regression coefficient|0.13||||0.48||95.0|||||Regression, Linear|||||||0.48
82526911|NCT02110732|164750342|OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82526912|NCT02110732|164750343|SUPERIORITY||||||<|0.05|||||||Chi-squared||||Categorical variables were analyzed with Chi-square test or Fisher's exact test. Comparisons between groups were by Levene's test for equality of variances. A P-level \<0.05 was considered statistically significant. Data were analyzed with SPSS v.19 and NCSS.|||< 0.05
82390711|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.35|TWO_SIDED|95.0|0.73|2.4|||Regression, Logistic|||||2.40|0.73|0.35
82526913|NCT02110732|164750344|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||< 0.05
82526914|NCT01480596|164750345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|1.592||0.256|TWO_SIDED|95.0|-5.08|1.4|||Mixed Models Analysis||Standard error of mean is for adjusted difference.|||1.40|-5.08|0.256
82526915|NCT01480596|164750346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.082||95.0|0.87|19.02|||exact methods|||||19.02|0.87|0.082
82526916|NCT01480596|164750347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.827||95.0|0.05|4.35|||exact methods|||||4.35|0.05|0.827
82526917|NCT01480596|164750348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.184|TWO_SIDED|95.0|0.62|10.1|||Cochran-Mantel-Haenszel|||||10.10|0.62|0.184
82526918|NCT01480596|164750350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.228||0.175|TWO_SIDED|95.0|-4.2|0.8|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||0.80|-4.20|0.175
82526919|NCT01480596|164750350|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|1.267||0.31|TWO_SIDED|95.0|-3.89|1.28|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||1.28|-3.89|0.310
82526920|NCT01480596|164750350|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|1.272||0.081|TWO_SIDED|95.0|-4.88|0.3|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||0.30|-4.88|0.081
82526921|NCT01480596|164750351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.486||0.972|TWO_SIDED|95.0|-2.97|3.07|||Mixed Models Analysis||Standard error of mean is for adjusted difference.|||3.07|-2.97|0.972
82526922|NCT01480596|164750352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||1|TWO_SIDED|95.0|0.26|5.48|||exact methods|||||5.48|0.26|1.000
82526923|NCT01480596|164750353|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.53|TWO_SIDED|95.0|0.03|2.89|||exact methods|||||2.89|0.03|0.530
82526924|NCT01480596|164750354|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.175|TWO_SIDED|95.0|0.64|11.46|||Cochran-Mantel-Haenszel|||||11.46|0.64|0.175
82526925|NCT01480596|164750356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.245||0.423|TWO_SIDED|95.0|-3.56|1.53|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||1.53|-3.56|0.423
82526926|NCT01480596|164750356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|1.361||0.986|TWO_SIDED|95.0|-2.76|2.8|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||2.80|-2.76|0.986
82641343|NCT01169259|164997526|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.58|TWO_SIDED|95.0|0.46|1.54|||Regression, Cox|||||1.54|0.46|0.58
82641344|NCT01169259|164997526|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.6|2.01|||Regression, Cox|||||2.01|0.60|0.76
82390712|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.19|TWO_SIDED|95.0|0.82|2.67|||Regression, Logistic|||||2.67|0.82|0.19
82390713|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.054|TWO_SIDED|95.0|0.99|3.28|||Regression, Logistic|||||3.28|0.99|0.054
82390714|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87||||0.038|TWO_SIDED|95.0|1.04|3.38|||Regression, Logistic|||||3.38|1.04|0.038
82526927|NCT01480596|164750356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.43||0.848|TWO_SIDED|95.0|-3.21|2.65|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||2.65|-3.21|0.848
82526928|NCT01480596|164750362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.707||0.483|TWO_SIDED|95.0|-1.94|0.93|||Mixed Models Analysis||Statistical analysis is presented for Week 12. Standard error of mean is for adjusted mean difference.|||0.93|-1.94|0.483
82526929|NCT01480596|164750362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.844||0.711|TWO_SIDED|95.0|-2.03|1.4|||Mixed Models Analysis||Statistical analysis is presented for Week 24. Standard error of mean is for adjusted mean difference.|||1.40|-2.03|0.711
82526930|NCT01480596|164750363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.757||0.028|TWO_SIDED|95.0|-3.3|-0.2|||Mixed Models Analysis||Analysis for Week 28. Standard error of mean is for adjusted difference.|||-0.20|-3.30|0.028
82526931|NCT01480596|164750363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.887||0.756|TWO_SIDED|95.0|-2.1|1.55|||Mixed Models Analysis||Analysis for Week 32. Standard error of mean is for adjusted difference.|||1.55|-2.10|0.756
82526932|NCT01480596|164750363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.909||0.775|TWO_SIDED|95.0|-2.12|1.59|||Mixed Models Analysis||Analysis for Week 36. Standard error of mean is for adjusted difference.|||1.59|-2.12|0.775
82526933|NCT04503096|164750365|OTHER|To monitor safety, paired t-tests were conducted to test for pre- to post-treatment differences in global cognition (i.e., MoCA z-scores).||||||0.725|||||||t-test, 2 sided|||||||0.725
82526934|NCT04503096|164750369|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in depression using HAM-D raw scores.||||||0.605|||||||t-test, 2 sided|||||||.605
82526935|NCT04503096|164750370|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in depression using GDS raw scores.||||||0.897|||||||t-test, 2 sided|||||||.897
82526936|NCT04503096|164750371|OTHER|Paired t-tests were conducted to test for pre- to post-treatment changes in cognition using Fluid Cognition Composite Scores.|||||<|0.001|||||||t-test, 2 sided|||||||< .001
82526937|NCT00988221|164750400|SUPERIORITY_OR_OTHER||Adjusted mean - Placebo|-22.3||||||||||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||||
82526938|NCT00988221|164750400|SUPERIORITY_OR_OTHER||Adjusted mean - Tocilizumab|-32.4||||||||||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||||
82574427|NCT02493946|164858110|SUPERIORITY||Treatment difference|-0.6||||0.0174|TWO_SIDED|95.0|-1.1|-0.1||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 8 Cycle 1.||-0.1|-1.1|0.0174
82390715|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.12|TWO_SIDED|95.0|0.87|3.39|||Regression, Logistic|||||3.39|0.87|0.12
82390716|NCT01340027|164492761|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.36|TWO_SIDED|95.0|0.7|2.67|||Regression, Logistic|||||2.67|0.70|0.36
82526939|NCT00988221|164750400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.0076|TWO_SIDED|95.0|-17.6|-2.7||The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids. The analysis was also adjusted for the pain visual analog scale score at Baseline.|ANOVA|||||-2.7|-17.6|0.0076
82526940|NCT00988221|164750401|SUPERIORITY_OR_OTHER||Weighted difference|18.0||||1|TWO_SIDED|95.0|5.0|32.0||1.000 is used here as the test was considered as not significant due to the break in the hierarchical testing chain.|Cochran-Mantel-Haenszel|The analysis was adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids.||The analysis used the Cochran-Mantel-Haenszel test adjusted for the randomization stratification factors background use of methotrexate and background use of oral corticosteroids.||32|5|1.000
82526941|NCT02481375|164750427|OTHER||Marginal means|0.0|||<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||Marginal means (95% CI) of ferritin concentrations at 12-weeks using a generalized mixed-effects model with adjustments for baseline values and village clusters||||<0.05
82574428|NCT02493946|164858110|SUPERIORITY||Treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.6||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 29 Cycle 1.||-0.6|-1.7|<0.0001
82641345|NCT01169259|164997527|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.56|TWO_SIDED|95.0|0.71|1.2|||Regression, Cox|||||1.20|0.71|0.56
82641346|NCT01169259|164997527|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.014|TWO_SIDED|95.0|0.55|0.93|||Regression, Cox|||||0.93|0.55|0.014
82390717|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4||||0.32|TWO_SIDED|95.0|0.06|2.43|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.43|0.06|0.32
82390718|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|95.0|0.21|2.61|||Regression, Logistic|||||2.61|0.21|0.65
82390719|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.54||||0.39|TWO_SIDED|95.0|0.13|2.19|||Regression, Logistic|||||2.19|0.13|0.39
82390720|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41||||0.22|TWO_SIDED|95.0|0.1|1.67|||Regression, Logistic|||||1.67|0.10|0.22
82390721|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.22||||0.082|TWO_SIDED|95.0|0.04|1.22|||Regression, Logistic|||||1.22|0.04|0.082
82390722|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.36||||0.36|TWO_SIDED|95.0|0.04|3.2|||Regression, Logistic|||||3.20|0.04|0.36
82390723|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.51|TWO_SIDED|95.0|0.42|5.71|||Regression, Logistic|||||5.71|0.42|0.51
82574429|NCT02493946|164858110|SUPERIORITY||Treatment difference|-1.4||||0.0001|TWO_SIDED|95.0|-2.0|-0.7||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 57 Cycle 1.||-0.7|-2.0|0.0001
82526942|NCT05436912|164750456|OTHER||Geometric Mean Ratio|168.9||||0.3601|TWO_SIDED|90.0|61.3|465.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||465.3|61.3|0.3601
82390724|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.99|TWO_SIDED|95.0|0.19|5.36|||Regression, Logistic|||||5.36|0.19|0.99
82390725|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.96|TWO_SIDED|95.0|0.24|4.59|||Regression, Logistic|||||4.59|0.24|0.96
82526943|NCT05436912|164750456|OTHER||Geometric Mean Ratio|92.2||||0.9146|TWO_SIDED|90.0|23.0|368.9|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||368.9|23.0|0.9146
82574430|NCT02493946|164858110|SUPERIORITY||Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.1|-0.8||The general linear model included mean change from baseline as a dependent variable and treatment group, gender and centre as fixed effects, and baseline severity score on ILA at maximum frown as covariate.|General linear model|||Treatment difference (BTX-A-HAC Solution - Placebo) at Day 85 Cycle 1.||-0.8|-2.1|<0.0001
82574431|NCT03332784|164858172|SUPERIORITY||||||<|0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||<0.0001
82574432|NCT03332784|164858172|SUPERIORITY||||||<|0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||<0.0001
82574433|NCT03332784|164858172|SUPERIORITY|||||||0.0001||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||||||0.0001
82641347|NCT01169259|164997528|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.92|1.27||||||||1.27|0.92|
82641348|NCT01169259|164997528|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.83|1.15||||||||1.15|0.83|
82390726|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.62||||0.57|TWO_SIDED|95.0|0.12|3.3|||Regression, Logistic|||||3.30|0.12|0.57
82390727|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||0.93|TWO_SIDED|95.0|0.28|3.95|||Regression, Logistic|||||3.95|0.28|0.93
82390728|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.42||||0.37|TWO_SIDED|95.0|0.06|2.79|||Regression, Logistic|||||2.79|0.06|0.37
82390729|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79||||0.74|TWO_SIDED|95.0|0.2|3.13|||Regression, Logistic|||||3.13|0.20|0.74
82390730|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.57||||0.46|TWO_SIDED|95.0|0.12|2.59|||Regression, Logistic|||||2.59|0.12|0.46
82390731|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.44||||0.28|TWO_SIDED|95.0|0.1|1.96|||Regression, Logistic|||||1.96|0.10|0.28
82526944|NCT05436912|164750456|OTHER||Geometric Mean Ratio|119.6||||0.7478|TWO_SIDED|90.0|43.4|329.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||329.3|43.4|0.7478
82526945|NCT05436912|164750458|OTHER||Geometric Mean Ratio|126.1||||0.4279|TWO_SIDED|90.0|74.8|212.8|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||212.8|74.8|0.4279
82526946|NCT05436912|164750458|OTHER||Geometric Mean Ratio|92.4||||0.8341|TWO_SIDED|90.0|46.4|183.9|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||183.9|46.4|0.8341
82526947|NCT05436912|164750458|OTHER||Geometric Mean Ratio|169.1||||0.1159|TWO_SIDED|90.0|97.1|294.6|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||294.6|97.1|0.1159
82526948|NCT05436912|164750459|OTHER||Geometric Mean Ratio|126.0||||0.4289|TWO_SIDED|90.0|74.8|212.4|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||212.4|74.8|0.4289
82526949|NCT05436912|164750459|OTHER||Geometric Mean Ratio|92.3||||0.8322|TWO_SIDED|90.0|46.5|183.3|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||183.3|46.5|0.8322
82526950|NCT05436912|164750459|OTHER||Geometric Mean Ratio|169.6||||0.1131|TWO_SIDED|90.0|97.6|294.6|||t-test, 2 sided||Geometric mean ratio for natural log transformed parameter (expressed as a percent) and 90% confidence interval for geometric mean ratio of natural log transformed parameter (expressed as a percent), natural log transformed back to the linear scale.|||294.6|97.6|0.1131
82526951|NCT03885011|164750500|SUPERIORITY||Odds Ratio (OR)|1.103||||0.8445|TWO_SIDED|95.0|0.413|2.949|||Regression, Logistic|||This analysis relates to Day 8 up to when pilocarpine HCl 0.2% either in CSF-1-FDC or as pilocarpine alone was administered for one week.||2.949|0.413|0.8445
82526952|NCT03885011|164750500|SUPERIORITY||Odds Ratio (OR)|1.646||||0.266|TWO_SIDED|95.0|0.684|3.958|||Regression, Logistic|||||3.958|0.684|0.2660
82526953|NCT03885011|164750501|SUPERIORITY||Odds Ratio (OR)|3.664||||0.0015|TWO_SIDED|95.0|1.646|8.154|||Regression, Logistic|||||8.154|1.646|0.0015
82526954|NCT03885011|164750501|SUPERIORITY||Odds Ratio (OR)|4.745||||0.0002|TWO_SIDED|95.0|2.088|10.786|||Regression, Logistic|||||10.786|2.088|0.0002
82526955|NCT03885011|164750502|SUPERIORITY|||||||0.1145|||||||Chi-squared|||||||0.1145
82641349|NCT01169259|164997529|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.82|1.26||||||||1.26|0.82|
82390732|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.23||||0.11|TWO_SIDED|95.0|0.04|1.4|||Regression, Logistic|||||1.40|0.04|0.11
82390733|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.38||||0.4|TWO_SIDED|95.0|0.04|3.66|||Regression, Logistic|||||3.66|0.04|0.40
82390734|NCT01340027|164492762|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.5|TWO_SIDED|95.0|0.39|6.85|||Regression, Logistic|||||6.85|0.39|0.50
82526956|NCT03885011|164750502|SUPERIORITY|||||||0.0616|||||||Chi-squared|||||||0.0616
82526957|NCT03885011|164750503|SUPERIORITY|||||||0.0074|||||||Chi-squared|||||||0.0074
82526958|NCT03885011|164750503|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
82526959|NCT04750655|164750523|OTHER|||||||1|||||||Kruskal-Wallis|||Used the Kruskal-Wallis (nonparametric one-way ANOVA), comparing all 3 arms. Note that for each individual, a single number (normalized read) is obtained.||||1
82526960|NCT05807919|164750581|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82526961|NCT05807919|164750582|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
82526962|NCT05807919|164750583|SUPERIORITY|||||||0.18|||||||Fisher Exact|||||||0.18
82526963|NCT05807919|164750584|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82526964|NCT05807919|164750585|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
82526965|NCT05807919|164750586|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
82526966|NCT03635489|164750595|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.53|||Regression, Cox|||||0.53|0.17|<.0001
82443974|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.88||||||90.0|-7.58|-2.19|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.19|-7.58|
82574434|NCT01055704|164858194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.389||0.902|TWO_SIDED|95.0|-0.835|0.739|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.739|-0.835|0.902
82574435|NCT01055704|164858194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.351||0.709|TWO_SIDED|95.0|-0.578|0.841|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.841|-0.578|0.709
82574436|NCT01055704|164858195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.971|STANDARD_ERROR_OF_MEAN|4.669||0.675|TWO_SIDED|95.0|-11.415|7.472|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||7.472|-11.415|0.675
82574437|NCT01055704|164858195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|4.208||0.591|TWO_SIDED|95.0|-10.792|6.233|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||6.233|-10.792|0.591
82574438|NCT01055704|164858196|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-34.425|STANDARD_ERROR_OF_MEAN|14.67||0.024|TWO_SIDED|95.0|-64.097|-4.753|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||-4.753|-64.097|0.024
82574439|NCT01055704|164858196|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.181|STANDARD_ERROR_OF_MEAN|13.24||0.989|TWO_SIDED|95.0|-26.962|26.598|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||26.598|-26.962|0.989
82574440|NCT01055704|164858197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.401|STANDARD_ERROR_OF_MEAN|0.211||0.064|TWO_SIDED|95.0|-0.827|0.025|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.025|-0.827|0.064
82574441|NCT01055704|164858197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.19||0.61|TWO_SIDED|95.0|-0.287|0.482|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.482|-0.287|0.610
82574442|NCT01055704|164858198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.728|STANDARD_ERROR_OF_MEAN|0.497||0.151|TWO_SIDED|95.0|-0.278|1.734|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||1.734|-0.278|0.151
82574443|NCT01055704|164858198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.448||0.806|TWO_SIDED|95.0|-0.795|1.017|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||1.017|-0.795|0.806
82574444|NCT01055704|164858199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.772|STANDARD_ERROR_OF_MEAN|12.583||0.889|TWO_SIDED|95.0|-23.678|27.223|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI as covariates||27.223|-23.678|0.889
82574445|NCT01055704|164858199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.607|STANDARD_ERROR_OF_MEAN|11.356||0.274|TWO_SIDED|95.0|-10.362|35.577|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||35.577|-10.362|0.274
82574446|NCT01055704|164858200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.178||0.236|TWO_SIDED|95.0|-0.572|0.145|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.145|-0.572|0.236
82574447|NCT01055704|164858200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.19||0.885|TWO_SIDED|95.0|-0.412|0.357|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.357|-0.412|0.885
82574448|NCT01055704|164858201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.497|STANDARD_ERROR_OF_MEAN|0.374||0.192|TWO_SIDED|95.0|-1.255|0.261|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.261|-1.255|0.192
82641350|NCT01169259|164997529|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
82443975|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82||||||90.0|-5.44|-2.2|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-2.20|-5.44|
82443976|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||||90.0|-4.74|0.64|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.64|-4.74|
82443977|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76||||||90.0|-3.38|-0.15|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.15|-3.38|
82443978|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08||||||90.0|-4.77|0.62|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.62|-4.77|
82443979|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||||90.0|-2.49|0.74|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.74|-2.49|
82526967|NCT03635489|164750595|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.2|0.58|||Regression, Cox|||||0.58|0.20|<.0001
82526968|NCT03635489|164750596|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.3|1.21||||||||1.21|0.30|
82443980|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||||90.0|-4.99|0.39|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.39|-4.99|
82443981|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||||90.0|-2.47|0.77|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.77|-2.47|
82526969|NCT00361439|164750620|SUPERIORITY_OR_OTHER||||||<|0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.02
82526970|NCT00361439|164750621|SUPERIORITY_OR_OTHER||||||<|0.023||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.023
82526971|NCT00361439|164750622|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||t-test, 2 sided|||||||<0.002
82526972|NCT00361439|164750623|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.010
82526973|NCT02277743|164750624|SUPERIORITY||difference in percentages|27.7|||<|0.0001|TWO_SIDED|95.0|20.18|35.17||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||35.17|20.18|< 0.0001
82526974|NCT02277743|164750624|SUPERIORITY||difference in percentages|27.0|||<|0.0001|TWO_SIDED|95.0|19.47|34.44||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.44|19.47|< 0.0001
82574449|NCT01055704|164858201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.342||0.855|TWO_SIDED|95.0|-0.756|0.63|||ANCOVA|Error degrees of freedom adjusted for number of missing values imputed.||Data were analyzed using analysis of covariance (ANCOVA) with gender and/or BMI included as covariates.||0.630|-0.756|0.855
82574450|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|2.39|||||TWO_SIDED|95.0|1.39|4.1|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||4.1|1.39|
82641351|NCT04242446|164997530|SUPERIORITY||Odds Ratio (OR)|2.0||||0.03|TWO_SIDED|97.5|0.979|4.089|||Regression, Logistic|||||4.089|0.979|0.030
82641352|NCT04242446|164997530|SUPERIORITY||Odds Ratio (OR)|2.234||||0.006|TWO_SIDED|97.5|1.159|4.307|||Regression, Logistic|||||4.307|1.159|0.006
82641353|NCT04242446|164997531|SUPERIORITY||Odds Ratio (OR)|1.416||||0.35|TWO_SIDED|97.5|0.615|3.26||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|Regression, Logistic|||||3.260|0.615|0.350
82641354|NCT04242446|164997531|SUPERIORITY||Odds Ratio (OR)|2.175||||0.021|TWO_SIDED|97.5|1.021|4.635|||Regression, Logistic|||||4.635|1.021|0.021
82641355|NCT04242446|164997532|SUPERIORITY||LS mean difference|-2.574||||0.002|TWO_SIDED|97.5|-4.472|-0.675||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|ANCOVA|||||-0.675|-4.472|0.002
82390735|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.47||0.21|TWO_SIDED|95.0|-8.0|1.7|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||1.7|-8.0|0.21
82443982|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.22||||||90.0|-6.91|-1.52|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.52|-6.91|
82443983|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.51||||||90.0|-4.13|-0.9|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.90|-4.13|
82443984|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||||90.0|-4.63|0.76|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.76|-4.63|
82390736|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.03||0.54|TWO_SIDED|95.0|-5.2|2.7|||ANCOVA|||||2.7|-5.2|0.54
82443985|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32||||||90.0|-3.94|-0.7|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.70|-3.94|
82443986|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.36||||||90.0|-8.22|-0.5|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.50|-8.22|
82443987|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.93||||||90.0|-6.29|-1.56|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.56|-6.29|
82574451|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.71|||||TWO_SIDED|95.0|0.42|1.2|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||1.2|0.42|
82641356|NCT04242446|164997532|SUPERIORITY||LS mean difference|-2.682|||<|0.001|TWO_SIDED|97.5|-4.394|-0.97|||ANCOVA|||||-0.970|-4.394|<0.001
82641357|NCT04242446|164997533|SUPERIORITY||LS mean difference|-0.551||||0.201|TWO_SIDED|97.5|-1.521|0.418||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|ANCOVA|||||0.418|-1.521|0.201
82641358|NCT04242446|164997533|SUPERIORITY||LS mean difference|-1.186||||0.002|TWO_SIDED|97.5|-2.05|-0.322|||ANCOVA|||||-0.322|-2.050|0.002
82641359|NCT04242446|164997534|SUPERIORITY||Odds Ratio (OR)|1.618||||0.367|TWO_SIDED|97.5|0.489|5.352||Nominal p-value only due to the testing hierarchy failing on the HISCR50 outcome.|Regression, Logistic|||||5.352|0.489|0.367
82641360|NCT04242446|164997534|SUPERIORITY||Odds Ratio (OR)|2.757||||0.041|TWO_SIDED|97.5|0.909|8.364|||Regression, Logistic|||||8.364|0.909|0.041
82641361|NCT04058990|164997577|NON_INFERIORITY|13.2% non-inferiority margin||||||0.0012|||||||Farrington-Manning|||\[Not Specified\]||||0.0012
82641362|NCT05981365|164997596|OTHER||Ratio of Geometric LS Means|1.2629|||||TWO_SIDED|90.0|1.1673|1.3663||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3663|1.1673|
82390737|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|2.03||0.016|TWO_SIDED|95.0|-8.9|-0.9|||ANCOVA|||||-0.9|-8.9|0.016
82526975|NCT02277743|164750625|SUPERIORITY||difference in percentages|36.6|||<|0.0001|TWO_SIDED|95.0|28.58|44.63||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||44.63|28.58|< 0.0001
82574452|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|1.68|||||TWO_SIDED|95.0|0.98|2.9|||ANOVA|||Day 1, Men A, Pairwise comparison of geometric mean titer||2.9|0.98|
82390738|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|2.05||0.011|TWO_SIDED|95.0|-9.3|-1.2|||ANCOVA|||||-1.2|-9.3|0.011
82390739|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-10.7|-2.8|||ANCOVA|||||-2.8|-10.7|<0.001
82390740|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|2.43||0.005|TWO_SIDED|95.0|-11.6|-2.0|||ANCOVA|||||-2.0|-11.6|0.005
82641363|NCT05981365|164997596|OTHER||Ratio of Geometric LS Means|1.1845|||||TWO_SIDED|95.0|1.0758|1.3042||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3042|1.0758|
82641364|NCT05981365|164997597|OTHER||Ratio of Geometric LS Means|1.1929|||||TWO_SIDED|90.0|1.0215|1.393||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3930|1.0215|
82641365|NCT05981365|164997598|OTHER||Ratio of Geometric LS Means|1.1311|||||TWO_SIDED|90.0|1.0496|1.2189||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2189|1.0496|
82641366|NCT05981365|164997599|OTHER||Ratio of Geometric LS Means|0.8228||||||90.0|0.6992|0.9683||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9683|0.6992|
82641367|NCT05981365|164997600|OTHER||Ratio of Geometric LS Means|1.5738|||||TWO_SIDED|90.0|1.4523|1.7054||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.7054|1.4523|
82641368|NCT05981365|164997601|OTHER||Ratio of Geometric LS Means|1.1491|||||TWO_SIDED|90.0|1.0807|1.222||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2220|1.0807|
82390741|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|2.44||0.056|TWO_SIDED|95.0|-9.4|0.1|||ANCOVA|||||0.1|-9.4|0.056
82526976|NCT02277743|164750625|SUPERIORITY||difference in percentages|37.7|||<|0.0001|TWO_SIDED|95.0|29.7|45.77||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||45.77|29.70|< 0.0001
82526977|NCT02277743|164750626|SUPERIORITY||difference in percentages|28.6|||<|0.0001|TWO_SIDED|95.0|20.64|36.52||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.52|20.64|< 0.0001
82526978|NCT02277743|164750626|SUPERIORITY||difference in percentages|28.0|||<|0.0001|TWO_SIDED|95.0|19.94|36.13||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.13|19.94|< 0.0001
82526979|NCT02277743|164750627|SUPERIORITY||difference in percentages|29.6|||<|0.0001|TWO_SIDED|95.0|21.36|37.88||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||37.88|21.36|< 0.0001
82526980|NCT02277743|164750627|SUPERIORITY||difference in percentages|34.5|||<|0.0001|TWO_SIDED|95.0|26.08|42.84||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||42.84|26.08|< 0.0001
82526981|NCT02277743|164750628|SUPERIORITY||Least square (LS) mean difference|-24.9|||<|0.0001|TWO_SIDED|95.0|-32.26|-17.52||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-17.52|-32.26|< 0.0001
82574453|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|1.31|||||TWO_SIDED|95.0|0.59|2.91|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||2.91|0.59|
82641369|NCT05981365|164997601|OTHER||Ratio of Geometric LS Means|0.9494|||||TWO_SIDED|90.0|0.8759|1.0291||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.0291|0.8759|
82641370|NCT05981365|164997602|OTHER||Ratio of Geometric LS Means|1.3316|||||TWO_SIDED|90.0|1.2558|1.4121||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.4121|1.2558|
82641371|NCT05981365|164997603|OTHER||Ratio of Geometric LS Means|1.1282|||||TWO_SIDED|90.0|1.07|1.1896||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1896|1.0700|
82641372|NCT05981365|164997604|OTHER||Ratio of Geometric LS Means|0.8047|||||TWO_SIDED|90.0|0.7173|0.9027||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9027|0.7173|
82390742|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.81||0.56|TWO_SIDED|95.0|-7.1|3.9|||ANCOVA|||||3.9|-7.1|0.56
82390743|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.8||0.48|TWO_SIDED|95.0|-7.5|3.5|||ANCOVA|||||3.5|-7.5|0.48
82574454|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|24.0|||||TWO_SIDED|95.0|11.0|52.0|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||52|11|
82574455|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|31.0|||||TWO_SIDED|95.0|14.0|69.0|||ANOVA|||Day 8, Men A, Pairwise comparison of geometric mean titer||69|14|
82641373|NCT05981365|164997605|OTHER||Ratio of Geometric LS Means|2.0611|||||TWO_SIDED|90.0|1.8789|2.2609||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||2.2609|1.8789|
82641374|NCT05981365|164997606|OTHER||Ratio of Geometric LS Means|1.1374|||||TWO_SIDED|90.0|1.0672|1.2122||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2122|1.0672|
82641375|NCT05981365|164997606|OTHER||Ratio of Geometric LS Means|0.9371|||||TWO_SIDED|90.0|0.8643|1.0162||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.0162|0.8643|
82641376|NCT05981365|164997607|OTHER||Ratio of Geometric LS Means|1.2713|||||TWO_SIDED|90.0|1.1939|1.3538||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3538|1.1939|
82641377|NCT05981365|164997608|OTHER||Ratio of Geometric LS Means|1.127|||||TWO_SIDED|90.0|1.0688|1.1883||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1883|1.0688|
82526982|NCT02277743|164750628|SUPERIORITY||LS mean difference|-22.8|||<|0.0001|TWO_SIDED|95.0|-30.33|-15.33||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-15.33|-30.33|< 0.0001
82526983|NCT02277743|164750629|SUPERIORITY||difference in percentages|9.8||||0.0012|TWO_SIDED|95.0|3.95|15.71||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||15.71|3.95|0.0012
82526984|NCT02277743|164750629|SUPERIORITY||difference in percentages|17.3|||<|0.0001|TWO_SIDED|95.0|10.57|23.93||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||23.93|10.57|< 0.0001
82526985|NCT02277743|164750630|SUPERIORITY||difference in percentages|6.1||||0.0097|TWO_SIDED|95.0|1.49|10.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||10.68|1.49|0.0097
82526986|NCT02277743|164750630|SUPERIORITY||difference in percentages|6.2||||0.0094|TWO_SIDED|95.0|1.45|10.86||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||10.86|1.45|0.0094
82526987|NCT02277743|164750631|SUPERIORITY||LS mean difference|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.236|-1.26||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.260|-2.236|< 0.0001
82526988|NCT02277743|164750631|SUPERIORITY||LS mean difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.189|-1.186||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.186|-2.189|< 0.0001
82526989|NCT02277743|164750632|SUPERIORITY||LS mean difference|-34.6|||<|0.0001|TWO_SIDED|95.0|-42.35|-26.88||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-26.88|-42.35|< 0.0001
82526990|NCT02277743|164750632|SUPERIORITY||LS mean difference|-34.4|||<|0.0001|TWO_SIDED|95.0|-42.17|-26.56||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-26.56|-42.17|< 0.0001
82390744|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.13||0.13|TWO_SIDED|95.0|-9.8|1.2|||ANCOVA|||||1.2|-9.8|0.13
82526991|NCT02277743|164750633|SUPERIORITY||difference in percentages|44.2|||<|0.0001|TWO_SIDED|95.0|35.91|52.48||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||52.48|35.91|< 0.0001
82526992|NCT02277743|164750633|SUPERIORITY||difference in percentages|36.4|||<|0.0001|TWO_SIDED|95.0|27.9|44.96||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||44.96|27.90|< 0.0001
82526993|NCT02277743|164750634|SUPERIORITY||difference in percentages|28.1|||<|0.0001|TWO_SIDED|95.0|20.96|35.29||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||35.29|20.96|< 0.0001
82526994|NCT02277743|164750634|SUPERIORITY||difference in percentages|25.6|||<|0.0001|TWO_SIDED|95.0|18.51|32.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||32.68|18.51|< 0.0001
82526995|NCT02277743|164750635|SUPERIORITY||LS mean difference|-17.92|||<|0.0001|TWO_SIDED|95.0|-22.487|-13.353||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-13.353|-22.487|< 0.0001
82526996|NCT02277743|164750635|SUPERIORITY||LS mean difference|-18.89|||<|0.0001|TWO_SIDED|95.0|-23.125|-14.65||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-14.650|-23.125|< 0.0001
82526997|NCT02277743|164750636|SUPERIORITY||LS mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.79|-21.54||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-21.54|-35.79|< 0.0001
82574456|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|1.3|||||TWO_SIDED|95.0|0.7|2.42|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||2.42|0.7|
82390745|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.42||0.61|TWO_SIDED|95.0|-6.0|3.5|||ANCOVA|||||3.5|-6.0|0.61
82390746|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|2.81||0.12|TWO_SIDED|95.0|-9.9|1.2|||ANCOVA|||||1.2|-9.9|0.12
82526998|NCT02277743|164750636|SUPERIORITY||LS mean difference|-28.0|||<|0.0001|TWO_SIDED|95.0|-35.09|-20.87||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-20.87|-35.09|< 0.0001
82526999|NCT02277743|164750637|SUPERIORITY||LS mean difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.16|-2.8||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-2.80|-5.16|< 0.0001
82574457|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|5.56|||||TWO_SIDED|95.0|3.01|10.0|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||10|3.01|
82390747|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|2.44||0.31|TWO_SIDED|95.0|-7.3|2.3|||ANCOVA|||||2.3|-7.3|0.31
82527000|NCT02277743|164750637|SUPERIORITY||LS mean difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.87|-2.49||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-2.49|-4.87|< 0.0001
82527001|NCT02277743|164750638|SUPERIORITY||LS mean difference|-6.5|||<|0.0001|TWO_SIDED|95.0|-8.02|-5.01||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-5.01|-8.02|< 0.0001
82527002|NCT02277743|164750638|SUPERIORITY||LS mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.44|-4.32||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-4.32|-7.44|< 0.0001
82527003|NCT02277743|164750639|SUPERIORITY||LS mean difference|-2.2||||0.0006|TWO_SIDED|95.0|-3.44|-0.95||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-0.95|-3.44|0.0006
82527004|NCT02277743|164750639|SUPERIORITY||LS mean difference|-2.2||||0.0003|TWO_SIDED|95.0|-3.46|-1.03||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-1.03|-3.46|0.0003
82527005|NCT02277743|164750640|SUPERIORITY||LS mean difference|-27.0|||<|0.0001|TWO_SIDED|95.0|-35.04|-18.91||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-18.91|-35.04|< 0.0001
82527006|NCT02277743|164750640|SUPERIORITY||LS mean difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-33.06|-18.12||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-18.12|-33.06|< 0.0001
82527007|NCT02277743|164750641|SUPERIORITY||LS mean difference|-16.5|||<|0.0001|TWO_SIDED|95.0|-21.08|-11.9||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-11.90|-21.08|< 0.0001
82527008|NCT02277743|164750641|SUPERIORITY||LS mean difference|-15.1|||<|0.0001|TWO_SIDED|95.0|-19.62|-10.5||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous outcome measure was statistically significant).||-10.50|-19.62|< 0.0001
82527009|NCT01622010|164750654|EQUIVALENCE|P value 0.05 used||||||0.487|||||||Chi-squared|||||||0.487
82527010|NCT01622010|164750656|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|a non-inferiority margin calculation was not performed for this study prior to its start.||||||0.628|||||||Fisher Exact|||Null hypothesis: Standard care is better than standard care with video enhancement.||||0.628
82527011|NCT01622010|164750657|EQUIVALENCE|P Value 0.05 used||||||0.647|||||||Chi-squared|||||||0.647
82527012|NCT03976466|164750658|SUPERIORITY||Risk Ratio (RR)|0.049|||<|0.05|TWO_SIDED|95.0|0.015|0.168|||Chi-squared, Corrected||For the Relative risk the control Study group was the numerator and control group denominator. In the 2X2 contingency table the rows correspond to groups and columns for the presence or abscence of periprosthetic infection.|"H0.- There is no significant difference in the incidence of periprosthetic infection in patients with non-modifiable risk factors and prophylactic application of antibiotic loaded calcium sulfate compared with patients without prophylactic treatment with calcium sulfate.~The presence of periprosthetic infection in both groups was evaluated by chi2 and Lambda tests for dichotomous nominal and qualitative variables with longitudinal direction and relative risk factor test."||0.168|0.015|<0.05
82527013|NCT03976466|164750659|SUPERIORITY||||||<|0.01||||||The statistical test of t was performed for the variable length of hospital stay, finding a significant difference with a p value \< 0.01|t-test, 2 sided|||Lenght of stay was the variable that compares both groups and was a continous variable (t-test).||||<0.01
82527014|NCT01557322|164750683|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Morning Stiffness \> 1 Hour: p-value was calculated using chi-square test.||||0.010
82527015|NCT01557322|164750683|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Arthritis or Deformity of 3 or More Joint Areas: p-value was calculated using chi-square test.||||<0.001
82574458|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|7.22|||||TWO_SIDED|95.0|3.86|13.0|||ANOVA|||Day 29, Men A, Pairwise comparison of geometric mean titer||13|3.86|
82390748|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|2.44||0.012|TWO_SIDED|95.0|-10.9|-1.3|||ANCOVA|||||-1.3|-10.9|0.012
82390749|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|2.46||0.008|TWO_SIDED|95.0|-11.3|-1.7|||ANCOVA|||||-1.7|-11.3|0.008
82527016|NCT01557322|164750683|SUPERIORITY_OR_OTHER|||||||0.363|TWO_SIDED||||||Chi-squared|||Arthritis/Deformity of Hand/Joint: p-value was calculated using chi-square test.||||0.363
82527017|NCT01557322|164750683|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Symmetry: p-value was calculated using chi-square test.||||<0.001
82527018|NCT01557322|164750683|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Nodules: p-value was calculated using chi-square test.||||<0.001
82527019|NCT01557322|164750683|SUPERIORITY_OR_OTHER|||||||0.605|TWO_SIDED||||||Chi-squared|||Rheumatoid Factor Positive: p-value was calculated using chi-square test.||||0.605
82527020|NCT01557322|164750683|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Chi-squared|||Erosions on Hand or Feet X-Ray: p-value was calculated using chi-square test.||||0.038
82527021|NCT01557322|164750684|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Sicca Syndrome: p-value was calculated using chi-square test.||||<0.001
82527022|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||Serosal Involvement: p-value was calculated using chi-square test.||||0.024
82574459|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|2.64|||||TWO_SIDED|95.0|1.4|4.99|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||4.99|1.4|
82527023|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED||||||Chi-squared|||Eye Involvement: p-value was calculated using chi-square test.||||0.257
82527024|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||Systemic Vasculitis: p-value was calculated using chi-square test.||||0.026
82527025|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.725|TWO_SIDED||||||Chi-squared|||Nailfold Vasculitis: p-value was calculated using chi-square test.||||0.725
82527026|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Chi-squared|||Pulmonary Fibrosis: p-value was calculated using chi-square test.||||0.220
82527027|NCT01557322|164750684|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Chi-squared|||Other: p-value was calculated using chi-square test.||||0.620
82527028|NCT01557322|164750685|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Knee Replacement: p-value was calculated using chi-square test.||||<0.001
82527029|NCT01557322|164750685|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Hip Replacement: p-value was calculated using chi-square test.||||<0.001
82527030|NCT01557322|164750685|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Shoulder Replacement: p-value was calculated using chi-square test.||||<0.001
82527031|NCT01557322|164750685|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Total Elbow Replacement: p-value was calculated using chi-square test.||||<0.001
82527032|NCT01557322|164750685|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||Wrist/Hand/Ankle/Foot Surgery: p-value was calculated using chi-square test.||||0.001
82527033|NCT01557322|164750685|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Neck Surgery: p-value was calculated using chi-square test.||||<0.001
82574460|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|1.05|||||TWO_SIDED|95.0|0.56|1.97|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||1.97|0.56|
82390750|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.44||0.001|TWO_SIDED|95.0|-12.8|-3.2|||ANCOVA|||||-3.2|-12.8|0.001
82527034|NCT01557322|164750686|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||P-value was calculated using chi-square test.||||<0.001
82527035|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Chi-squared|||High Blood Pressure: p-value was calculated using chi-square test.||||0.381
82527036|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Chi-squared|||Angina: p-value was calculated using chi-square test.||||0.006
82527037|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED||||||Chi-squared|||Heart Attack: p-value was calculated using chi-square test.||||0.215
82641378|NCT05981365|164997609|OTHER||Ratio of Geometric LS Means|0.7973|||||TWO_SIDED|90.0|0.7039|0.9031||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.9031|0.7039|
82390751|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.78||0.004|TWO_SIDED|95.0|-13.5|-2.6|||ANCOVA|||||-2.6|-13.5|0.004
82390752|NCT01340027|164492763|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.79||0.035|TWO_SIDED|95.0|-11.4|-0.4|||ANCOVA|||||-0.4|-11.4|0.035
82527038|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.117|TWO_SIDED||||||Chi-squared|||Stroke: p-value was calculated using chi-square test.||||0.117
82527039|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Epilepsy: p-value was calculated using chi-square test.||||1.000
82527040|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.542|TWO_SIDED||||||Chi-squared|||Asthma: p-value was calculated using chi-square test.||||0.542
82527041|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||Chi-squared|||Chronic Bronchitis/Emphysema: p-value was calculated using chi-square test.||||0.027
82527042|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED||||||Chi-squared|||Peptic Ulcer: p-value was calculated using chi-square test.||||0.566
82527043|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||Liver Disease: p-value was calculated using chi-square test.||||0.003
82527044|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.526|TWO_SIDED||||||Chi-squared|||Renal Disease: p-value was calculated using chi-square test.||||0.526
82527045|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.802|TWO_SIDED||||||Chi-squared|||Tuberculosis: p-value was calculated using chi-square test.||||0.802
82527046|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Demyelination: p-value was calculated using chi-square test.||||1.000
82527047|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.385|TWO_SIDED||||||Chi-squared|||Diabetes: p-value was calculated using chi-square test.||||0.385
82527048|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Chi-squared|||Hyperthyroidism: p-value was calculated using chi-square test.||||0.048
82527049|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||Chi-squared|||Depression: p-value was calculated using chi-square test.||||0.308
82527050|NCT01557322|164750687|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|||Cancer: p-value was calculated using chi-square test.||||0.033
82527051|NCT01557322|164750688|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||0.188
82527052|NCT01557322|164750689|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||Systolic Blood Pressure: p-value was calculated using 2-sided t-test.||||0.016
82527053|NCT01557322|164750689|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||t-test, 2 sided|||Diastolic Blood Pressure: p-value was calculated using 2-sided t-test.||||0.369
82527054|NCT01557322|164750690|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
82527055|NCT01557322|164750690|SUPERIORITY_OR_OTHER|||||||0.3746|TWO_SIDED||||||Regression, Linear|||Change at Month 60: p-value was calculated using multivariate linear regression with baseline DAS28 score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.3746
82527056|NCT01557322|164750691|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
82574461|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|2.78|||||TWO_SIDED|95.0|1.47|5.27|||ANOVA|||Day 1, Men C, Pairwise comparison of geometric mean titer||5.27|1.47|
82574462|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.52|||||TWO_SIDED|95.0|0.23|1.13|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||1.13|0.23|
82390753|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.4|TWO_SIDED|95.0|0.63|3.2|||Regression, Logistic|||"All statistical comparisons are for End of Treatment using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||3.20|0.63|0.40
82527057|NCT01557322|164750692|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
82527058|NCT01557322|164750693|SUPERIORITY_OR_OTHER|||||||0.154|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.154
82527059|NCT01557322|164750694|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.108
82527060|NCT01557322|164750695|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||0.199
82527061|NCT01557322|164750696|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||<0.001
82527062|NCT01557322|164750697|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||P-value was calculated using 2-sided t-test.||||<0.001
82527063|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Current DMARDs, Methotrexate: p-value was calculated using chi-square test.||||<0.001
82527064|NCT01557322|164750699|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||Current DMARDs, Azathioprine: p-value was calculated using chi-square test.||||0.313
82527065|NCT01557322|164750699|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Current DMARDs, Cyclophosphamide: p-value was calculated using chi-square test.||||1.000
82527066|NCT01557322|164750699|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Chi-squared|||Current DMARDs, Cyclosporine: p-value was calculated using chi-square test.||||0.066
82527067|NCT01557322|164750699|SUPERIORITY_OR_OTHER|||||||0.099|TWO_SIDED||||||Chi-squared|||Current DMARDs, Leflunomide: p-value was calculated using chi-square test.||||0.099
82527068|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Current DMARDs, Sulphasalazine: p-value was calculated using chi-square test.||||<0.001
82527069|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Methotrexate: p-value was calculated using chi-square test.||||<0.001
82527070|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Azathioprine: p-value was calculated using chi-square test.||||<0.001
82527071|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Cyclophosphamide: p-value was calculated using chi-square test.||||<0.001
82527072|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Cyclosporine: p-value was calculated using chi-square test.||||<0.001
82527073|NCT01557322|164750699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Previous DMARDs, Leflunomide: p-value was calculated using chi-square test.||||<0.001
82527074|NCT01557322|164750700|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline: p-value was calculated using 2-sided t-test.||||<0.001
82527075|NCT01557322|164750701|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Baseline PCS: p-value was calculated using 2-sided t-test.||||<0.001
82527076|NCT01557322|164750701|SUPERIORITY_OR_OTHER|||||||0.886|TWO_SIDED||||||t-test, 2 sided|||Baseline MCS: p-value was calculated using 2-sided t-test.||||0.886
82527077|NCT01557322|164750701|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||t-test, 2 sided|||Baseline Vitality Score: p-value was calculated using 2-sided t-test.||||0.680
82527078|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.0233|TWO_SIDED||||||Chi-squared|||Month 6: p-value was calculated using chi-square test.||||0.0233
82527079|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.5103|TWO_SIDED||||||Chi-squared|||Month 12: p-value was calculated using chi-square test.||||0.5103
82527080|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||Chi-squared|||Month 18: p-value was calculated using chi-square test.||||0.9990
82527081|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.6495|TWO_SIDED||||||Chi-squared|||Month 24: p-value was calculated using chi-square test.||||0.6495
82527082|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.3829|TWO_SIDED||||||Chi-squared|||Month 30: p-value was calculated using chi-square test.||||0.3829
82527083|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.1085|TWO_SIDED||||||Chi-squared|||Month 36: p-value was calculated using chi-square test.||||0.1085
82527084|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.0472|TWO_SIDED||||||Chi-squared|||Month 48: p-value was calculated using chi-square test.||||0.0472
82527085|NCT01557322|164750711|SUPERIORITY_OR_OTHER|||||||0.4804|TWO_SIDED||||||Chi-squared|||Month 60: p-value was calculated using chi-square test.||||0.4804
82527086|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0895|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 6: p-value was calculated using chi-square test.||||0.0895
82527087|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0774|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 12: p-value was calculated using chi-square test.||||0.0774
82527088|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 18: p-value was calculated using chi-square test.||||0.0024
82641379|NCT05981365|164997610|OTHER||Ratio of Geometric LS Means|2.026|||||TWO_SIDED|90.0|1.8496|2.2193||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||2.2193|1.8496|
82443988|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.91||||||90.0|-10.77|-3.05|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-3.05|-10.77|
82443989|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.79||||||90.0|-8.15|-3.42|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-3.42|-8.15|
82443990|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8||||||90.0|-9.66|-1.94|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.94|-9.66|
82443991|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.65||||||90.0|-9.01|-4.29|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-4.29|-9.01|
82443992|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.27||||||90.0|-8.13|-0.41|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.41|-8.13|
82443993|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||||90.0|-6.01|-1.29|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.29|-6.01|
82443994|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||||90.0|-5.91|1.81|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.81|-5.91|
82443995|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||||90.0|-3.46|1.27|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.27|-3.46|
82443996|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||||90.0|-6.16|1.56|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||1.56|-6.16|
82443997|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.43||||||90.0|-5.79|-1.06|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-1.06|-5.79|
82443998|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||||90.0|-7.33|0.39|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.39|-7.33|
82443999|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.26||||||90.0|-5.62|-0.9|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||-0.90|-5.62|
82641380|NCT05981365|164997611|OTHER||Ratio of Geometric LS Means|0.7909|||||TWO_SIDED|90.0|0.716|0.8737||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8737|0.7160|
82527089|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.5552|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 30: p-value was calculated using chi-square test.||||0.5552
82390754|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.89|TWO_SIDED|95.0|0.55|1.97|||Regression, Logistic|||||1.97|0.55|0.89
82390755|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.57|TWO_SIDED|95.0|0.63|2.33|||Regression, Logistic|||||2.33|0.63|0.57
82390756|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.36|TWO_SIDED|95.0|0.7|2.66|||Regression, Logistic|||||2.66|0.70|0.36
82390757|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.15|TWO_SIDED|95.0|0.83|3.32|||Regression, Logistic|||||3.32|0.83|0.15
82390758|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.31|TWO_SIDED|95.0|0.67|3.59|||Regression, Logistic|||||3.59|0.67|0.31
82390759|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.81|TWO_SIDED|95.0|0.42|1.95|||Regression, Logistic|||||1.95|0.42|0.81
82390760|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75||||0.19|TWO_SIDED|95.0|0.75|4.08|||Regression, Logistic|||||4.08|0.75|0.19
82390761|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.59|TWO_SIDED|95.0|0.56|2.77|||Regression, Logistic|||||2.77|0.56|0.59
82390762|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.97||||0.13|TWO_SIDED|95.0|0.83|4.71|||Regression, Logistic|||||4.71|0.83|0.13
82390763|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.2|TWO_SIDED|95.0|0.78|3.16|||Regression, Logistic|||||3.16|0.78|0.20
82390764|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.07|TWO_SIDED|95.0|0.94|5.34|||Regression, Logistic|||||5.34|0.94|0.070
82390765|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64||||0.17|TWO_SIDED|95.0|0.81|3.33|||Regression, Logistic|||||3.33|0.81|0.17
82390766|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.084|TWO_SIDED|95.0|0.92|3.92|||Regression, Logistic|||||3.92|0.92|0.084
82390767|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.14||||0.043|TWO_SIDED|95.0|1.02|4.48|||Regression, Logistic|||||4.48|1.02|0.043
82390768|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.61||||0.013|TWO_SIDED|95.0|1.22|5.58|||Regression, Logistic|||||5.58|1.22|0.013
82390769|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.43||||0.053|TWO_SIDED|95.0|0.99|5.97|||Regression, Logistic|||||5.97|0.99|0.053
82390770|NCT01340027|164492764|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.43||||0.39|TWO_SIDED|95.0|0.63|3.26|||Regression, Logistic|||||3.26|0.63|0.39
82527090|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0793|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 36: p-value was calculated using chi-square test.||||0.0793
82527091|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||Chi-squared|||Lymphoproliferative Tumors, Month 48: p-value was calculated using chi-square test.||||0.0075
82641381|NCT05981365|164997612|OTHER||Ratio of Geometric LS Means|1.0831|||||TWO_SIDED|90.0|0.9723|1.2065||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.2065|0.9723|
82641382|NCT05981365|164997613|OTHER||Ratio of Geometric LS Means|1.3138|||||TWO_SIDED|90.0|1.1871|1.4541||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.4541|1.1871|
82527092|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0895|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 6: p-value was calculated using chi-square test.||||0.0895
82527093|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 18: p-value was calculated using chi-square test.||||0.0024
82527094|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.6301|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 30: p-value was calculated using chi-square test.||||0.6301
82527095|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0793|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 36: p-value was calculated using chi-square test.||||0.0793
82527096|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED||||||Chi-squared|||Hodgkins Lymphoma, Month 48: p-value was calculated using chi-square test.||||0.0075
82527097|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.7253|TWO_SIDED||||||Chi-squared|||Myeloma, Month 12: p-value was calculated using chi-square test.||||0.7253
82527098|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.7336|TWO_SIDED||||||Chi-squared|||Myeloma, Month 30: p-value was calculated using chi-square test.||||0.7336
82527099|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.0044|TWO_SIDED||||||Chi-squared|||Leukaemia, Month 12: p-value was calculated using chi-square test.||||0.0044
82527100|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.4175|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 6: p-value was calculated using chi-square test.||||0.4175
82527101|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.3886|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 12: p-value was calculated using chi-square test.||||0.3886
82641383|NCT05981365|164997614|OTHER||Ratio of Geometric LS Means|0.7958|||||TWO_SIDED|90.0|0.742|0.8534||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8534|0.7420|
82641384|NCT05981365|164997615|OTHER||Ratio of Geometric LS Means|1.0322|||||TWO_SIDED|90.0|0.9531|1.1179||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1179|0.9531|
82527102|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.5102|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 18: p-value was calculated using chi-square test.||||0.5102
82390771|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.55||0.26|TWO_SIDED|95.0|-2.1|7.9|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||7.9|-2.1|0.26
82527103|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.9855|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 24: p-value was calculated using chi-square test.||||0.9855
82527104|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.4955|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 30: p-value was calculated using chi-square test.||||0.4955
82527105|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.5404|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 36: p-value was calculated using chi-square test.||||0.5404
82527106|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.3581|TWO_SIDED||||||Chi-squared|||Non-Melanoma Skin Cancer, Month 48: p-value was calculated using chi-square test.||||0.3581
82527107|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.4932|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 6: p-value was calculated using chi-square test.||||0.4932
82527108|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.4818|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 12: p-value was calculated using chi-square test.||||0.4818
82527109|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.3224|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 18: p-value was calculated using chi-square test.||||0.3224
82527110|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.5003|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 24: p-value was calculated using chi-square test.||||0.5003
82527111|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.1134|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 30: p-value was calculated using chi-square test.||||0.1134
82527112|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.3488|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 36: p-value was calculated using chi-square test.||||0.3488
82527113|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 48: p-value was calculated using chi-square test.||||0.1870
82527114|NCT01557322|164750712|SUPERIORITY_OR_OTHER|||||||0.427|TWO_SIDED||||||Chi-squared|||Solid Tumor, Month 60: p-value was calculated using chi-square test.||||0.4270
82527115|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.5817|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 6: p-value was calculated using chi-square test.||||0.5817
82527116|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.2595|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 12: p-value was calculated using chi-square test.||||0.2595
82641385|NCT05981365|164997616|OTHER||Ratio of Geometric LS Means|1.1975|||||TWO_SIDED|90.0|1.0972|1.3069||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3069|1.0972|
82641386|NCT05981365|164997617|OTHER||Ratio of Geometric LS Means|0.8018|||||TWO_SIDED|90.0|0.7472|0.8604||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||0.8604|0.7472|
82641387|NCT05981365|164997618|OTHER||Ratio of Geometric LS Means|1.063|||||TWO_SIDED|90.0|0.9888|1.1427||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.1427|0.9888|
82641388|NCT05981365|164997619|OTHER||Ratio of Geometric LS Means|1.2197|||||TWO_SIDED|90.0|1.1114|1.3385||||||Analysis was performed using linear mixed model, with treatment as fixed effect and participant as random effect.||1.3385|1.1114|
82641389|NCT00617175|164997699|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Negative binomial regression|||||||<0.001
82641390|NCT02203305|164997701|SUPERIORITY||||||<|0.001||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and condition (p\<0.001). Interaction: Interval and condition (p\<0.001).||Recorded 50-word consonant-nucleus-consonant (CNC) words were evaluated for the poorer hearing ear 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction. Percent correct converted to RAU.||||<0.001
82641391|NCT02203305|164997701|SUPERIORITY||||||<|0.001||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and condition (p\<0.001). Interaction: interval and condition (p\<0.001).||Recorded 50-word CNC words were evaluated for the poorer hearing ear 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction. Percent correct converted to RAU.||||<0.001
82641392|NCT02203305|164997701|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.||Recorded 50-word CNC words were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
82641393|NCT02203305|164997701|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded 50-word CNC words were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
82641394|NCT02203305|164997701|SUPERIORITY||||||<|0.429||||||A logit transformation was applied to proportion correct data prior to analysis.|Mixed Models Analysis|Main effects: interval (p\<0.001) and group (p=0.429). Interaction: group and interval (p=0.387).||Comparison of word recognition between groups (UHL/SSD and AHL) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.429
82641395|NCT02203305|164997702|SUPERIORITY||||||<|0.019||||||The Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.19) and condition (p\<0.001). Interaction: interval and condition (p\<0.019).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.019
82641396|NCT02203305|164997702|SUPERIORITY||||||<|0.012||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.012) and condition (p\<0.001). Interaction: interval and condition (p=0.004).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.012
82390772|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.1||0.38|TWO_SIDED|95.0|-2.3|6.0|||ANCOVA|||||6.0|-2.3|0.38
82390773|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differrence|4.8|STANDARD_ERROR_OF_MEAN|2.1||0.022|TWO_SIDED|95.0|0.7|8.9|||ANCOVA|||||8.9|0.7|0.022
82641397|NCT02203305|164997702|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82641398|NCT02203305|164997702|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82390774|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|2.12||0.01|TWO_SIDED|95.0|1.3|9.7|||ANCOVA|||||9.7|1.3|0.010
82390775|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|2.09||0.002|TWO_SIDED|95.0|2.3|10.5|||ANCOVA|||||10.5|2.3|0.002
82390776|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|2.52||0.008|TWO_SIDED|95.0|1.7|11.6|||ANCOVA|||||11.6|1.7|0.008
82390777|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|2.52||0.037|TWO_SIDED|95.0|0.3|10.2|||ANCOVA|||||10.2|0.3|0.037
82390778|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.9||0.5|TWO_SIDED|95.0|-7.7|3.7|||ANCOVA|||||3.7|-7.7|0.50
82390779|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.89||0.65|TWO_SIDED|95.0|-4.4|7.0|||ANCOVA|||||7.0|-4.4|0.65
82390780|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.88||0.25|TWO_SIDED|95.0|-2.4|8.9|||ANCOVA|||||8.9|-2.4|0.25
82390781|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|2.51||0.76|TWO_SIDED|95.0|-5.7|4.1|||ANCOVA|||||4.1|-5.7|0.76
82527117|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.5642|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 18: p-value was calculated using chi-square test.||||0.5642
82390782|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.91||0.47|TWO_SIDED|95.0|-3.6|7.8|||ANCOVA|||||7.8|-3.6|0.47
82390783|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|2.52||0.67|TWO_SIDED|95.0|-3.9|6.0|||ANCOVA|||||6.0|-3.9|0.67
82390784|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.52||0.11|TWO_SIDED|95.0|-0.9|9.0|||ANCOVA|||||9.0|-0.9|0.11
82390785|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.54||0.062|TWO_SIDED|95.0|-0.2|9.7|||ANCOVA|||||9.7|-0.2|0.062
82527118|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 24: p-value was calculated using chi-square test.||||0.0034
82527119|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.7137|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 36: p-value was calculated using chi-square test.||||0.7137
82527120|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.963|TWO_SIDED||||||Chi-squared|||Death Due to AE, Month 60: p-value was calculated using chi-square test.||||0.9630
82527121|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.7353|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 6: p-value was calculated using chi-square test.||||0.7353
82527122|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.3829|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 12: p-value was calculated using chi-square test.||||0.3829
82527123|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.4532|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 18: p-value was calculated using chi-square test.||||0.4532
82527124|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.4238|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 24: p-value was calculated using chi-square test.||||0.4238
82527125|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.1218|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 30: p-value was calculated using chi-square test.||||0.1218
82527126|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.4124|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 36: p-value was calculated using chi-square test.||||0.4124
82527127|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.6356|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 48: p-value was calculated using chi-square test.||||0.6356
82527128|NCT01557322|164750713|SUPERIORITY_OR_OTHER|||||||0.5491|TWO_SIDED||||||Chi-squared|||Hospitalization Due to AE, Month 60: p-value was calculated using chi-square test.||||0.5491
82527129|NCT01557322|164750714|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||P-value was calculated using multivariate linear regression with baseline DAS28 score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||<0.0001
82527130|NCT01557322|164750715|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||P-value was calculated using multivariate linear regression with baseline HAQ-DI score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||<0.0001
82527131|NCT01557322|164750716|SUPERIORITY_OR_OTHER|||||||0.2558|TWO_SIDED||||||Regression, Linear|||PCS: p-value was calculated using multivariate linear regression with baseline PCS and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.2558
82527132|NCT01557322|164750716|SUPERIORITY_OR_OTHER|||||||0.4908|TWO_SIDED||||||Regression, Linear|||MCS: p-value was calculated using multivariate linear regression with baseline MCS and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.4908
82527133|NCT01557322|164750716|SUPERIORITY_OR_OTHER|||||||0.8379|TWO_SIDED||||||Regression, Linear|||Vitality Score: p-value was calculated using multivariate linear regression with baseline vitality score and other baseline variables (socio-demographics, disease characteristics, and initial treatment profile) as covariates.||||0.8379
82527134|NCT02247336|164750718|SUPERIORITY||Odds Ratio (OR)|0.7||||0.16|TWO_SIDED|95.0|0.4|1.2||A priori threshold was 0.05.|Regression, Logistic|generalized estimating equation|Generalized estimating equation models were used with a logit link function and an exchangeable correlation structure to account for clustering of participants within provider. Fay and Graubard small sample bias correction was applied.|Using alpha=0.05, 80% power, and a risk-appropriate screening referral rate for the delayed arm ranging from 60% to 70%, n = 250 participants with a completed a family health history assessment per arm with 40 providers was needed to detect differences between arms in appropriate referral ranging from 12% to 13.2%. Sample size calculations accounted for provider clustering using an intra-class correlation coefficient of 0.02 to adjust variance for a Z-test of the difference of two proportions.||1.2|0.4|0.16
82527135|NCT02247336|164750719|SUPERIORITY||Odds Ratio (OR)|0.7||||0.23|TWO_SIDED|95.0|0.04|1.2||The a priori threshold was 0.05.|Regression, Logistic|generalized estimating equation|Generalized estimating equation models were used with a logit link function and an exchangeable correlation structure to account for clustering of participants within provider. Fay and Graubard small sample bias correction was applied.|||1.2|.04|0.23
82527136|NCT00733499|164750775|OTHER|||||||0.9478|||||||t-test, 2 sided|||||||0.9478
82390786|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|2.52||0.025|TWO_SIDED|95.0|0.7|10.6|||ANCOVA|||||10.6|0.7|0.025
82390787|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.88||0.041|TWO_SIDED|95.0|0.2|11.5|||ANCOVA|||||11.5|0.2|0.041
82390788|NCT01340027|164492765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|2.88||0.12|TWO_SIDED|95.0|-1.2|10.1|||ANCOVA|||||10.1|-1.2|0.12
82390789|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.92|TWO_SIDED|95.0|0.52|2.08|||Regression, Logistic|||"All statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The logistic regression model includes the 2 main factors mirabegron dose and solifenacin dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate."||2.08|0.52|0.92
82390790|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.58|1.77|||Regression, Logistic|||||1.77|0.58|0.98
82527137|NCT00733499|164750776|OTHER|||||||0.549|||||||t-test, 2 sided|||||||0.5490
82527138|NCT00733499|164750777|OTHER|||||||0.5312|||||||t-test, 2 sided|||||||0.5312
82527139|NCT00733499|164750778|OTHER|||||||0.3549|||||||t-test, 2 sided|||||||0.3549
82527140|NCT00733499|164750779|OTHER|||||||0.0513|||||||t-test, 2 sided|||||||0.0513
82527141|NCT00733499|164750780|OTHER|||||||0.0629|||||||t-test, 2 sided|||||||0.0629
82527142|NCT00733499|164750781|OTHER|||||||0.0327|||||||t-test, 2 sided|||||||0.0327
82527143|NCT00733499|164750782|OTHER|||||||0.0883|||||||t-test, 2 sided|||||||0.0883
82527144|NCT00733499|164750783|OTHER|||||||0.6801|||||||Wilcoxon (Mann-Whitney)|||||||0.6801
82527145|NCT00733499|164750784|OTHER|||||||0.4779|||||||t-test, 2 sided|||||||0.4779
82527146|NCT00733499|164750785|OTHER|||||||0.8007|||||||t-test, 2 sided|||||||0.8007
82390791|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.45|TWO_SIDED|95.0|0.7|2.23|||Regression, Logistic|||||2.23|0.70|0.45
82390792|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.24|TWO_SIDED|95.0|0.79|2.53|||Regression, Logistic|||||2.53|0.79|0.24
82390793|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.21||||0.012|TWO_SIDED|95.0|1.19|4.09|||Regression, Logistic|||||4.09|1.19|0.012
82390794|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.43||||0.32|TWO_SIDED|95.0|0.7|2.9|||Regression, Logistic|||||2.90|0.70|0.32
82390795|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.27|TWO_SIDED|95.0|0.72|3.14|||Regression, Logistic|||||3.14|0.72|0.27
82390796|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.064|TWO_SIDED|95.0|0.24|1.04|||Regression, Logistic|||||1.04|0.24|0.064
82390797|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.57|TWO_SIDED|95.0|0.59|2.61|||Regression, Logistic|||||2.61|0.59|0.57
82390798|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.55|TWO_SIDED|95.0|0.59|2.68|||Regression, Logistic|||||2.68|0.59|0.55
82390799|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.11||||0.75|TWO_SIDED|95.0|0.58|2.13|||Regression, Logistic|||||2.13|0.58|0.75
82390800|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.72|TWO_SIDED|95.0|0.53|2.49|||Regression, Logistic|||||2.49|0.53|0.72
82390801|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.74|TWO_SIDED|95.0|0.58|2.15|||Regression, Logistic|||||2.15|0.58|0.74
82527147|NCT00733499|164750786|OTHER|||||||0.3317|||||||t-test, 2 sided|||||||0.3317
82527148|NCT00733499|164750787|OTHER|||||||0.8955|||||||t-test, 2 sided|||||||0.8955
82527149|NCT00733499|164750788|OTHER|||||||0.2116|||||||t-test, 2 sided|||||||0.2116
82527150|NCT00733499|164750789|OTHER|||||||0.4776|||||||t-test, 2 sided|||||||0.4776
82527151|NCT00733499|164750791|OTHER|||||||0.2935|||||||t-test, 2 sided|||||||0.2935
82527152|NCT00733499|164750792|OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||||||0.0062
82527153|NCT00733499|164750793|OTHER|||||||0.6896|||||||t-test, 2 sided|||||||0.6896
82527154|NCT00733499|164750794|OTHER|||||||0.1076|||||||t-test, 2 sided|||||||0.1076
82527155|NCT00733499|164750795|OTHER|||||||0.9042|||||||t-test, 2 sided|||||||0.9042
82527156|NCT00733499|164750796|OTHER|||||||0.9637|||||||t-test, 2 sided|||||||0.9637
82527157|NCT00733499|164750797|OTHER|||||||0.0485|||||||t-test, 2 sided|||||||0.0485
82527158|NCT00733499|164750798|OTHER|||||||0.9813|||||||t-test, 2 sided|||||||0.9813
82527159|NCT00733980|164750802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2479||||0.703||80.0|-0.5887|1.0846|||Mixed-Model Repeated-Measure analysis|||||1.0846|-0.5887|0.703
82527160|NCT00733980|164750803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0169||||0.966|TWO_SIDED|80.0|-0.5231|0.4893|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 1||0.4893|-0.5231|0.966
82527161|NCT00733980|164750803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4299||||0.386|TWO_SIDED|80.0|-0.2063|1.0661|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 2||1.0661|-0.2063|0.386
82527162|NCT00733980|164750803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9413||||0.095|TWO_SIDED|80.0|0.2203|1.6624|||Mixed Models Analysis|||GSK561679 Vs Placebo, Week 4||1.6624|0.2203|0.095
82527163|NCT00733980|164750804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9495||||0.209|TWO_SIDED|80.0|-0.0185|1.9175|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||1.9175|-0.0185|0.209
82527164|NCT00733980|164750804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7638||||0.409|TWO_SIDED|80.0|-0.4243|1.9519|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||1.9519|-0.4243|0.409
82527165|NCT00733980|164750804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5363||||0.156|TWO_SIDED|80.0|0.1485|2.9241|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||2.9241|0.1485|0.156
82527166|NCT00733980|164750804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6327||||0.599|TWO_SIDED|80.0|-0.9135|2.1789|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.1789|-0.9135|0.599
82527167|NCT00733980|164750805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9866||||0.181|TWO_SIDED|80.0|-3.8876|-0.0856|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||-0.0856|-3.8876|0.181
82527168|NCT00733980|164750805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2538||||0.889|TWO_SIDED|80.0|-2.5922|2.0846|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||2.0846|-2.5922|0.889
82527169|NCT00733980|164750805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3242||||0.867|TWO_SIDED|80.0|-2.8165|2.1681|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 3||2.1681|-2.8165|0.867
82574463|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|45.0|||||TWO_SIDED|95.0|21.0|97.0|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||97|21|
82574464|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|23.0|||||TWO_SIDED|95.0|10.0|51.0|||ANOVA|||Day 8, Men C, Pairwise comparison of geometric mean titer||51|10|
82574465|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.4|||||TWO_SIDED|95.0|0.2|0.82|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||0.82|0.2|
82574466|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|24.0|||||TWO_SIDED|95.0|12.0|48.0|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||48|12|
82574467|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|9.61|||||TWO_SIDED|95.0|4.69|20.0|||ANOVA|||Day 29, Men C, Pairwise comparison of geometric mean titer||20|4.69|
82574468|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|1.11|||||TWO_SIDED|95.0|0.55|2.21|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||2.21|0.55|
82574469|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|2.51|||||TWO_SIDED|95.0|1.27|4.96|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||4.96|1.27|
82390802|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.34|TWO_SIDED|95.0|0.71|2.71|||Regression, Logistic|||||2.71|0.71|0.34
82390803|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.19|TWO_SIDED|95.0|0.8|3.07|||Regression, Logistic|||||3.07|0.80|0.19
82574470|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|2.77|||||TWO_SIDED|95.0|1.38|5.57|||ANOVA|||Day 1, Men W-135, Pairwise comparison of geometric mean titer||5.57|1.38|
82574471|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.54|||||TWO_SIDED|95.0|0.28|1.04|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||1.04|0.28|
82574472|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|50.0|||||TWO_SIDED|95.0|26.0|94.0|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||94|26|
82574473|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|27.0|||||TWO_SIDED|95.0|14.0|52.0|||ANOVA|||Day 8, Men W-135, Pairwise comparison of geometric mean titer||52|14|
82574474|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.6|||||TWO_SIDED|95.0|0.34|1.04|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||1.04|0.34|
82574475|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|35.0|||||TWO_SIDED|95.0|20.0|60.0|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||60|20|
82574476|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|21.0|||||TWO_SIDED|95.0|12.0|36.0|||ANOVA|||Day 29, Men W-135, Pairwise comparison of geometric mean titer||36|12|
82574477|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.9|||||TWO_SIDED|95.0|0.48|1.69|||ANOVA|||Day 1, Men Y, Pairwise comparison of geometric mean titer||1.69|0.48|
82574478|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|3.61|||||TWO_SIDED|95.0|1.94|6.74||||||Day 1, Men Y, Pairwise comparison of geometric mean titer||6.74|1.94|
82574479|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|3.24|||||TWO_SIDED|95.0|1.71|6.13|||ANOVA|||Day 1, Men Y, Pairwise comparison of geometric mean titer||6.13|1.71|
82574480|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.33|||||TWO_SIDED|95.0|0.16|0.66|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||0.66|0.16|
82574481|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|121.0|||||TWO_SIDED|95.0|61.0|241.0|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||241|61|
82574482|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|40.0|||||TWO_SIDED|95.0|20.0|80.0|||ANOVA|||Day 8, Men Y, Pairwise comparison of geometric mean titer||80|20|
82574483|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|0.58|||||TWO_SIDED|95.0|0.32|1.05|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||1.05|0.32|
82574484|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|33.0|||||TWO_SIDED|95.0|18.0|60.0|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||60|18|
82574485|NCT01018732|164858212|SUPERIORITY_OR_OTHER||ratio of titer|19.0|||||TWO_SIDED|95.0|10.0|35.0|||ANOVA|||Day 29, Men Y, Pairwise comparison of geometric mean titer||35|10|
82574486|NCT02781311|164858223|SUPERIORITY||Least-squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|4.45||0.9239|TWO_SIDED|95.0|-8.38|9.23||P-values were from analysis of covariance (ANCOVA) model including fixed effects of treatment, and covariates of age and baseline TAHC value, with the Type III sum of squares.|ANCOVA|||||9.23|-8.38|0.9239
82390804|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.45||||0.012|TWO_SIDED|95.0|1.22|4.94|||Regression, Logistic|||||4.94|1.22|0.012
82390805|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.59||||0.25|TWO_SIDED|95.0|0.72|3.47|||Regression, Logistic|||||3.47|0.72|0.25
82390806|NCT01340027|164492766|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.21|TWO_SIDED|95.0|0.74|3.75|||Regression, Logistic|||||3.75|0.74|0.21
82574487|NCT02781311|164858224|SUPERIORITY||Least-squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.9101|TWO_SIDED|95.0|-0.42|0.37||P-values were from analysis of covariance (ANCOVA) model including fixed effects of treatment, and covariates of age, with the Type III sum of squares.|ANCOVA|||||0.37|-0.42|0.9101
82574488|NCT02906020|164858299|SUPERIORITY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.87|=|0.1679|TWO_SIDED|95.0|-1.1|6.27||The threshold for statistical significance was 0.05.|MMRM|||Least-squares (LS) mean, standard errors (SE) and p-value were estimated from mixed-effect model with repeated measures (MMRM) analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time point interaction.||6.27|-1.10|=0.1679
82574489|NCT02906020|164858300|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|1.85|=|0.5996|TWO_SIDED|95.0|-4.63|2.68||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value were estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time point interaction.||2.68|-4.63|=0.5996
82574490|NCT02906020|164858301|SUPERIORITY||LS mean difference|4.13|STANDARD_ERROR_OF_MEAN|2.13|=|0.0535|TWO_SIDED|95.0|-0.06|8.32||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value were estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time-interaction||8.32|-0.06|=0.0535
82574491|NCT02906020|164858302|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.08|=|0.74|TWO_SIDED|95.0|-0.12|0.17||The threshold for statistical significance was 0.05.|MMRM|||LS mean, SE and P-value: estimated from MMRM analysis which included fixed categorical effects of treatment group, randomization strata, time point, treatment-by-time point and strata-by-time point interaction and continuous fixed covariates Baseline value and Baseline value-by-time-interaction.||0.17|-0.12|=0.7400
82574492|NCT01124097|164858305|SUPERIORITY_OR_OTHER|||||||0.9321|||||||Dunnett's test|||||||0.9321
82574493|NCT01124097|164858305|SUPERIORITY_OR_OTHER|||||||0.261|||||||Dunnett's test|||||||0.2610
82574494|NCT01124097|164858305|SUPERIORITY_OR_OTHER|||||||0.4764|||||||Dunnett's test|||||||0.4764
82574495|NCT00203047|164858356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.11820976||0.8023|TWO_SIDED|95.0|-0.26|0.2|||ANCOVA|||||0.20|-0.26|0.8023
82574496|NCT00762476|164858382|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|95.0|||||Poisson regression|||||||>0.5000
82574497|NCT00762476|164858383|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED|95.0|||||Poisson regression|||||||>0.5000
82574498|NCT00762476|164858384|SUPERIORITY_OR_OTHER|||||||0.3451|TWO_SIDED|95.0|||||Poisson regression|||||||0.3451
82574499|NCT00965497|164858393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|95.0||||0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||There were 13 people that completed so there truly was no power to detect true differences; therefore only trends can be discussed.||||0.01
82574500|NCT01637077|164858470|SUPERIORITY|||||||0.56|||||||Kruskal-Wallis|||||||0.56
82574501|NCT01637077|164858471|SUPERIORITY|||||||0.48|||||||Kruskal-Wallis|||||||0.48
82574502|NCT01637077|164858472|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||Worst pain over the past 24 hours||||0.62
82390807|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.376||0.63|TWO_SIDED|95.0|-0.56|0.92|||ANCOVA|||"Statistical comparisons were made using 2-sided tests at the 0.05 significance level. No adjustment for multiple testing was performed.~The ANCOVA model for all pairwise comparisons includes the 2 main factors mirabegron dose and solifenacin succinate dose and their interaction, sex, age group and geographic region as fixed factors and baseline measurement as a covariate.~LS Mean Differences were calculated by subtracting Solifenacin 5 mg/Placebo from the comparison treatment group."||0.92|-0.56|0.63
82390808|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.31||0.56|TWO_SIDED|95.0|-0.43|0.79|||ANCOVA|||||0.79|-0.43|0.56
82390809|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.308||0.14|TWO_SIDED|95.0|-0.15|1.06|||ANCOVA|||||1.06|-0.15|0.14
82390810|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.313||0.027|TWO_SIDED|95.0|0.08|1.3|||ANCOVA|||||1.30|0.08|0.027
82390811|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.308||0.13|TWO_SIDED|95.0|-0.14|1.07|||ANCOVA|||||1.07|-0.14|0.13
82574503|NCT01637077|164858472|SUPERIORITY|||||||0.22|||||||Kruskal-Wallis|||Average pain over the past 24 hours||||0.22
82574504|NCT01637077|164858472|SUPERIORITY|||||||0.07|||||||Kruskal-Wallis|||Least pain over the past 24 hours||||0.07
82574505|NCT01637077|164858474|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
82574506|NCT01637077|164858475|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
82574507|NCT01637077|164858476|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
82574508|NCT01637077|164858477|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||||||0.12
82574509|NCT01637077|164858478|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||0.78
82574510|NCT01637077|164858479|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82574511|NCT01637077|164858480|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||Sensory neuropathy||||0.46
82574512|NCT01637077|164858480|SUPERIORITY|||||||0.86|||||||Kruskal-Wallis|||Autonomic neuropathy||||0.86
82574513|NCT01637077|164858480|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||Motor neuropathy||||0.40
82574514|NCT03274895|164858483|NON_INFERIORITY|Non-inferiority margin= 0.20|difference in proportion of resolution r|-0.036|||||TWO_SIDED|95.0|-0.154|0.081||||||||0.081|-0.154|
82641399|NCT02203305|164997702|OTHER|correlation|bivariate pearson correlation|0.42|||=|0.033|TWO_SIDED||||||bivariate pearson correlation|||Association of age at implantation and sound source localization (RMS) at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation (one-tailed).||||=0.033
82390812|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.371||0.049|TWO_SIDED|95.0|0.0|1.46|||ANCOVA|||||1.46|0.00|0.049
82390813|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|0.368||0.011|TWO_SIDED|95.0|0.22|1.66|||ANCOVA|||||1.66|0.22|0.011
82390814|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.428||0.7|TWO_SIDED|95.0|-0.67|1.01|||ANCOVA|||||1.01|-0.67|0.70
82390815|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.423||0.084|TWO_SIDED|95.0|-0.1|1.56|||ANCOVA|||||1.56|-0.10|0.084
82390816|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.66|STANDARD_ERROR_OF_MEAN|0.425||0.12|TWO_SIDED|95.0|-0.18|1.49|||ANCOVA|||||1.49|-0.18|0.12
82390817|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.369||0.36|TWO_SIDED|95.0|-0.39|1.06|||ANCOVA|||||1.06|-0.39|0.36
82574515|NCT03274895|164858484|OTHER|||||||0.042|||||||Log Rank|||||||0.042
82444000|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||||90.0|-4.13|3.59|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing systolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||3.59|-4.13|
82444001|NCT00853840|164596638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26||||||90.0|-4.62|0.1|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing diastolic BP~Vardenafil minus Placebo~A total sample size of 18 subjects provides 90% confidence intervals for the difference between vardenafil and placebo of ±5.90 on the standing diastolic BP with 98% coverage probability at each time postdose."||0.10|-4.62|
82444002|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.95||||||90.0|4.18|9.72|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||9.72|4.18|
82444003|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.51||||||90.0|2.73|8.28|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||8.28|2.73|
82444004|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.64||||||90.0|0.87|6.42|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.42|0.87|
82444005|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.89||||||90.0|0.12|5.67|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||5.67|0.12|
82444006|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.06||||||90.0|-0.71|4.83|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||4.83|-0.71|
82444007|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.45||||||90.0|2.68|8.22|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||8.22|2.68|
82444008|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12||||||90.0|1.34|6.89|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.89|1.34|
82444009|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.45||||||90.0|0.68|6.22|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for supine pulse rate~Vardenafil minus Placebo"||6.22|0.68|
82444010|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.33||||||90.0|3.7|10.95|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"1.5 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||10.95|3.70|
82444011|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83||||||90.0|3.2|10.45|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||10.45|3.20|
82444012|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.02||||||90.0|1.4|8.65|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"2.5 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.65|1.40|
82444013|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.72||||||90.0|1.09|8.34|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"3 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.34|1.09|
82527170|NCT00733980|164750805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8107||||0.721|TWO_SIDED|80.0|-2.1036|3.7251|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||3.7251|-2.1036|0.721
82574516|NCT03274895|164858485|OTHER|||||||0.577|||||||ANCOVA|||||||0.577
82444014|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.05||||||90.0|0.43|7.67|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"4 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||7.67|0.43|
82444015|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.36||||||90.0|2.73|9.98|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"6 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||9.98|2.73|
82444016|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.08||||||90.0|1.45|8.7|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"8 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||8.70|1.45|
82444017|NCT00853840|164596639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||||90.0|-1.74|5.51|||Mixed Models Analysis|Sequence, period, time, treatment, \& time by treatment interaction as fixed effects, subject within sequence as random effect. Baseline was covariate.||"12 hour post-dose for standing pulse rate~Vardenafil minus Placebo"||5.51|-1.74|
82444018|NCT03553498|164596643|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82444019|NCT03553498|164596644|SUPERIORITY|||||||0.989|||||||Chi-squared|||||||0.989
82444020|NCT03553498|164596645|SUPERIORITY|||||||0.414|||||||Chi-squared|||||||0.414
82444021|NCT03553498|164596646|SUPERIORITY|||||||0.153|||||||Chi-squared|||||||0.153
82444022|NCT03995355|164596667|NON_INFERIORITY|Subjective overall comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least square mean difference|11.3|STANDARD_ERROR_OF_MEAN|4.44|||TWO_SIDED|95.0|2.6|20.1|||Linear Mixed Model Analysis||Least square mean difference was calculated as Test minus Control|||20.1|2.6|
82444023|NCT03995355|164596668|NON_INFERIORITY|Subjective overall comfort was analyzed using linear mixed model. Statistical inference was made based on the 95% confidence interval constructed for the least square mean difference.|Least square mean difference|2.6|STANDARD_ERROR_OF_MEAN|3.97|||TWO_SIDED|95.0|-5.3|10.4|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||10.4|-5.3|
82444024|NCT03995355|164596669|OTHER||Odds Ratio (OR)|0.967|||||TWO_SIDED|95.0|0.528|1.77|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control. No difference was concluded if 1 fall within the 95% confidence interval for the odds ratio.|||1.770|0.528|
82444025|NCT03995355|164596669|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.61|2.203|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control. No difference was concluded if 1 fall within the 95% confidence interval for the odds ratio.|30-Day follow-up||2.203|0.610|
82444026|NCT03995355|164596670|OTHER||Odds Ratio (OR)|1.601|||||TWO_SIDED|95.0|0.178|19.616|||Fisher Exact||Odds ratio was calculated as Test over Control|||19.616|0.178|
82444027|NCT03995355|164596671|OTHER||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|3.73|||TWO_SIDED|95.0|0.7|15.4|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||15.4|0.7|
82444028|NCT03995355|164596672|OTHER||Mean Difference (Net)|9.3|STANDARD_ERROR_OF_MEAN|3.86|||TWO_SIDED|95.0|1.7|17.0|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Least square mean difference was calculated as Test minus Control|||17.0|1.7|
82444029|NCT01184417|164596674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|||||TWO_SIDED|95.0|4.0|32.0||||||||32|4|
82444030|NCT01184417|164596675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||||TWO_SIDED|95.0|4.0|49.0||||||||49|4|
82444031|NCT01184417|164596676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.0|||||TWO_SIDED|95.0|-4.0|82.0||||||||82|-4|
82444032|NCT01184417|164596678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|||||TWO_SIDED|95.0|-11.0|23.0||||||||23|-11|
82444033|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance between baseline and 24 month follow-up;||||0.025
82444034|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE(G4G6) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.189
82444035|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE (G4G6) adhesives result in similar restoration retention rates;||||0.189
82444036|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance from baseline to 24 month follow-up;||||0.025
82444037|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.747
82444038|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restoration retention rates;||||0.747
82444039|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.070
82527171|NCT00733980|164750805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6273||||0.801|TWO_SIDED|80.0|-3.8337|2.5791|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.5791|-3.8337|0.801
82641400|NCT02203305|164997702|SUPERIORITY||||||<|0.249||||||There were significant main effects of group (p\<0.001) and interval (p\<0.001). There was a non-significant interaction between group and interval (p=0.249).|Mixed Models Analysis|Main effects: group (p\<0.001) and interval (p\<0.001). Interaction: group and interval (p=0.249).||Comparison of sound source localization between groups (UHL/SSD and AHL) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.249
82527172|NCT00733980|164750806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.644||||0.355|TWO_SIDED|80.0|-0.2498|1.5378|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 1||1.5378|-0.2498|0.355
82527173|NCT00733980|164750806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0524||||0.249|TWO_SIDED|80.0|-0.1194|2.2243|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 2||2.2243|-0.1194|0.249
82527174|NCT00733980|164750806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6473||||0.116|TWO_SIDED|80.0|0.3078|2.9868|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 4||2.9868|0.3078|0.116
82527175|NCT00733980|164750806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7283||||0.55|TWO_SIDED|80.0|-0.8353|2.292|||Mixed Models Analysis|||GSK561679 350 mg Vs Placebo, Week 6||2.2920|-0.8353|0.550
82641401|NCT02203305|164997703|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the Speech, Spatial, \& Qualities of hearing scale (SSQ) as measured with the total score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
82641402|NCT02203305|164997703|SUPERIORITY||||||=|0.056||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||=0.056
82641403|NCT02203305|164997703|SUPERIORITY||||||<|0.448||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.488).||Responses on the SSQ over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). Subscales include: speech, spatial, and qualities of hearing. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.448
82641404|NCT02203305|164997703|SUPERIORITY||||||<|0.299||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: subscale (p\<0.001) and interval (p=0.072). Interaction: subscale and interval (p=0.299).||Responses on the SSQ over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). Subscales include: speech, spatial, and qualities of hearing. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.299
82641405|NCT02203305|164997703|SUPERIORITY||||||<|0.018||||||There were significant main effects of interval (p\<0.001) and pragmatic subscale (p\<0.001), and their interaction (p\<0.018).|Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.018).||Responses on the SSQ Speech pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.018
82641406|NCT02203305|164997703|SUPERIORITY||||||<|0.767|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p=0.767). Interaction: interval and pragmatic subscale (p=0.542).||Responses on the SSQ Spatial pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.767
82641407|NCT02203305|164997703|SUPERIORITY||||||<|0.242|||||||Mixed Models Analysis|Main effects: interval (p=0.003) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.242).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.242
82641408|NCT02203305|164997703|OTHER|Bivariate pearson correlation||||||0.37|||||||bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||0.370
82390818|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.428||0.23|TWO_SIDED|95.0|-0.32|1.36|||ANCOVA|||||1.36|-0.32|0.23
82641409|NCT02203305|164997703|OTHER|bivariate pearson correlation|||||=|0.865||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.865
82641410|NCT02203305|164997703|OTHER|bivariate pearson correlation|bivariate pearson correlation|0.6|||=|0.005|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.005
82390819|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.371||0.16|TWO_SIDED|95.0|-0.21|1.25|||ANCOVA|||||1.25|-0.21|0.16
82390820|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.371||0.032|TWO_SIDED|95.0|0.07|1.52|||ANCOVA|||||1.52|0.07|0.032
82390821|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.373||0.006|TWO_SIDED|95.0|0.3|1.76|||ANCOVA|||||1.76|0.30|0.006
82390822|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.369||0.031|TWO_SIDED|95.0|0.07|1.52|||ANCOVA|||||1.52|0.07|0.031
82390823|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|0.423||0.012|TWO_SIDED|95.0|0.24|1.9|||ANCOVA|||||1.90|0.24|0.012
82574517|NCT03434028|164858505|SUPERIORITY||difference in mortality rate|-0.9||||0.61|TWO_SIDED|95.0|-4.4|2.6|||Z-test|||||2.6|-4.4|0.61
82574518|NCT03434028|164858506|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||||The mean values is an estimate from the Kaplan-Meier curve, thus it is correct as reported.|||1.2|-0.5|
82574519|NCT03434028|164858507|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.4|1.6||||||||1.6|-0.4|
82574520|NCT03434028|164858508|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.8|1.2||||||||1.2|-0.8|
82574521|NCT03434028|164858509|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.5|1.3||||||||1.3|-0.5|
82574522|NCT03434028|164858510|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.8|1.0||||||||1.0|-0.8|
82574523|NCT03434028|164858511|SUPERIORITY||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-0.3|1.9||||||||1.9|-0.3|
82574524|NCT03434028|164858512|SUPERIORITY||Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-5.1|1.7||||||||1.7|-5.1|
82574525|NCT03434028|164858513|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.8|1.8||||||||1.8|-1.8|
82574526|NCT03434028|164858514|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
82574527|NCT03434028|164858515|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.3|0.4||||||||0.4|-0.3|
82574528|NCT03434028|164858516|SUPERIORITY||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-1.7|1.5||||||||1.5|-1.7|
82574529|NCT03434028|164858517|SUPERIORITY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-3.7|1.7||||||||1.7|-3.7|
82574530|NCT03434028|164858518|SUPERIORITY||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-3.6|4.7||||||||4.7|-3.6|
82574531|NCT02296892|164858521|SUPERIORITY||Difference in Rates|0.7588|||<|0.0001|TWO_SIDED|95.0|0.6903|0.8274|||Cochran-Mantel-Haenszel|||||0.8274|0.6903|<0.0001
82574532|NCT01814072|164858621|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82574533|NCT01814072|164858622|SUPERIORITY||Estimated Change|0.1244||||0.567|TWO_SIDED|95.0|-0.3026|0.5513|||Mixed Models Analysis|||||.5513|-.3026|0.567
82574534|NCT01814072|164858622|SUPERIORITY||Estimated Change|-0.0226||||0.917|TWO_SIDED|95.0|-0.4495|0.4044|||Mixed Models Analysis|||||.4044|-.4495|0.917
82574535|NCT01814072|164858622|SUPERIORITY||Estimated Change|0.084||||0.699|TWO_SIDED|95.0|-0.3429|0.5109|||Mixed Models Analysis|||||.5109|-.3429|0.699
82574536|NCT01814072|164858622|SUPERIORITY||Estimated Change|0.1081||||0.619|TWO_SIDED|95.0|-0.3188|0.535|||Mixed Models Analysis|||||.5350|-.3188|0.619
82574537|NCT01814072|164858622|SUPERIORITY||Estimated Change|-0.4353||||0.046|TWO_SIDED|95.0|-0.8622|-0.0084|||Mixed Models Analysis|||||-.0084|-.8622|0.046
82574538|NCT01814072|164858623|OTHER||Estimated Change|0.424||||0.051|TWO_SIDED|95.0|-0.002|0.85|||Mixed Models Analysis|||Using the results from primary aim 1, an intervention with only active treatment components with the largest treatment effect that can be obtained for implementation costs of $500 or less was identified and built.||0.850|-0.002|0.051
82574539|NCT01936467|164858652|OTHER||Sensitivity|93.7|||||TWO_SIDED|||||||||||||
82574540|NCT01936467|164858652|OTHER||Specificity|100.0|||||TWO_SIDED|||||||||||||
82574541|NCT01936467|164858653|OTHER||Sensitivity|88.6|||||TWO_SIDED|||||||||||||
82574542|NCT01936467|164858653|OTHER||Specificity|100.0|||||TWO_SIDED|||||||||||||
82574543|NCT01936467|164858654|OTHER|||||||0.47|||||||Chi-squared|||||||0.47
82574544|NCT01936467|164858655|SUPERIORITY_OR_OTHER|||||||0.71|||||||Chi-squared|||||||0.71
82574545|NCT01936467|164858656|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||||||0.15
82574546|NCT01936467|164858657|SUPERIORITY_OR_OTHER|||||||0.46|||||||Chi-squared|||||||0.46
82574547|NCT04547023|164858663|OTHER||Mean Difference (Final Values)|18.7||||0.002|TWO_SIDED|95.0|7.2|30.1|||Fisher Exact|||||30.1|7.2|0.002
82574548|NCT01011868|164858691|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|97.5|-0.78|-0.33||Hypotheses were tested at significance level of 0.025, which is half of overall alpha of 0.05, split equally between 2 treatment comparisons. This maintained the overall type-I (alpha) at 5%. There was no a priori assumption on testing order.|ANCOVA|ANCOVA that included treatment group and geographic region as fixed effects along with baseline HbA1c as covariate.|The primary analysis consisted of the pair-wise comparisons between each dose of empagliflozin versus placebo using the adjusted means from the model.|"The null and alternative hypotheses to be tested:~* H0,1: No difference in change from baseline to Week 18 in HbA1c between empagliflozin 10 mg and placebo~* H1,1: A difference in change from baseline to Week 18 in HbA1c between empagliflozin 10 mg and placebo"||-0.33|-0.78|<0.0001
82574549|NCT01011868|164858691|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|97.5|-0.93|-0.47||Hypotheses were tested at significance level of 0.025, which is half of overall alpha of 0.05, split equally between 2 treatment comparisons. This maintained the overall type-I (alpha) at 5%. There was no a priori assumption on testing order.|ANCOVA|ANCOVA that included treatment group and geographic region as fixed effects along with baseline HbA1c as covariate.|The primary analysis consisted of the pair-wise comparisons between each dose of empagliflozin versus placebo using the adjusted means from the model.|"The null and alternative hypotheses to be tested:~* H0,2: No difference in change from baseline to Week 18 in HbA1c between empagliflozin 25 mg and placebo~* H1,2: A difference in change from baseline to Week 18 in HbA1c between empagliflozin 25 mg and placebo"||-0.47|-0.93|<0.0001
82574550|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.518|||<|0.0001|TWO_SIDED|95.0|3.262|9.334|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c.||Empagliflozin 10 mg vs Placebo at 18 weeks||9.334|3.262|<0.0001
82574551|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.883|||<|0.0001|TWO_SIDED|95.0|2.859|8.338|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 18 weeks||8.338|2.859|<0.0001
82574552|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.471|||<|0.0001|TWO_SIDED|95.0|2.077|5.802|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 54 weeks||5.802|2.077|<0.0001
82574553|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.825|||<|0.0001|TWO_SIDED|95.0|2.268|6.451|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 54 weeks||6.451|2.268|<0.0001
82574554|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.802||||0.0002|TWO_SIDED|95.0|1.639|4.789|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 78 weeks||4.789|1.639|0.0002
82574555|NCT01011868|164858692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.527|||<|0.0001|TWO_SIDED|95.0|2.051|6.066|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 78 weeks||6.066|2.051|<0.0001
82574556|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.4|STANDARD_ERROR_OF_MEAN|4.65|<|0.0001|TWO_SIDED|95.0|-37.54|-19.27|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-19.27|-37.54|<0.0001
82574557|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.21|STANDARD_ERROR_OF_MEAN|4.81|<|0.0001|TWO_SIDED|95.0|-43.67|-24.76|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 25 mg vs Placebo at 18 weeks||-24.76|-43.67|<0.0001
82574558|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.75|STANDARD_ERROR_OF_MEAN|5.02||0.0328|TWO_SIDED|95.0|-20.62|-0.89|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 10 mg vs Placebo at 18 weeks||-0.89|-20.62|0.0328
82574559|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.16|STANDARD_ERROR_OF_MEAN|5.16||0.0002|TWO_SIDED|95.0|-29.31|-9.01|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-9.01|-29.31|0.0002
82641411|NCT02203305|164997703|OTHER|bivariate pearson correlation|bivariate pearson correlation|0.67|||=|0.006|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Speech Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.006
82574560|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.03|STANDARD_ERROR_OF_MEAN|5.07||0.3216|TWO_SIDED|95.0|-15.01|4.94|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||4.94|-15.01|0.3216
82574561|NCT01011868|164858693|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.95|STANDARD_ERROR_OF_MEAN|5.23||0.0229|TWO_SIDED|95.0|-22.24|-1.67|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-1.67|-22.24|0.0229
82574562|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.12|STANDARD_ERROR_OF_MEAN|5.22|<|0.0001|TWO_SIDED|95.0|-35.38|-14.86|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-14.86|-35.38|<0.0001
82574563|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.01|||<|0.0001|TWO_SIDED|95.0|-41.62|-20.39|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 18 - Empagliflozin 25 mg vs Placebo||-20.39|-41.62|<0.0001
82574564|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.2|STANDARD_ERROR_OF_MEAN|5.15|<|0.0484|TWO_SIDED|95.0|-20.33|-0.07|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-0.07|-20.33|<0.0484
82574565|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.42|STANDARD_ERROR_OF_MEAN|5.3||0.0003|TWO_SIDED|95.0|-29.84|-8.99|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-8.99|-29.84|0.0003
82574566|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.73|STANDARD_ERROR_OF_MEAN|5.07||0.3517||95.0|-14.71|5.25|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||5.25|-14.71|0.3517
82574567|NCT01011868|164858694|SUPERIORITY_OR_OTHER||Adjusted mean difference|-12.39|STANDARD_ERROR_OF_MEAN|5.23||0.0185|TWO_SIDED|95.0|-22.69|-2.1|||Mixed Models Analysis|Model includes, baseline FPG, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects||Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-2.10|-22.69|0.0185
82641412|NCT02203305|164997703|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.33|||=|0.152|TWO_SIDED||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the preoperative interval and sound source localization (RMS error).||||=0.152
82527176|NCT00733980|164750810|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6359||||0.3588|TWO_SIDED|80.0|0.3378|1.1968|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 2||1.1968|0.3378|0.3588
82527177|NCT00733980|164750810|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7347||||0.4088|TWO_SIDED|80.0|0.4554|1.1853|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 4||1.1853|0.4554|0.4088
82527178|NCT00733980|164750810|SUPERIORITY_OR_OTHER||Logistic Model|0.9211||||0.8156|TWO_SIDED|80.0|0.5863|1.4471|||Logistic Model|||GSK561679 350 mg Vs Placebo, Week 6/ Early withdrawal||1.4471|0.5863|0.8156
82527179|NCT00733980|164750811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4466||||0.361|TWO_SIDED|80.0|-1.3986|8.2917|||ANCOVA|||||8.2917|-1.3986|0.361
82527180|NCT00733980|164750812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1167||||0.932|TWO_SIDED|80.0|-1.6387|1.8722|||ANCOVA|||||1.8722|-1.6387|0.932
82527181|NCT01552954|164750825|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||for albuminuria changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||Differences with two-tailed P\<0.05 were considered statistically significant.||||0.006
82527182|NCT01552954|164750825|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|||||for 24-hour urine albumin excretion between 8 weeks and 16 weeks|Mixed Models Analysis|||||||0.99
82527183|NCT01552954|164750825|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||for 24-hour urine albumin excretion between 8 weeks and 16 weeks in intensive education group|Mixed Models Analysis|||||||0.001
82527184|NCT01552954|164750826|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED|||||for hemoglobin changes from week 0 at week 16 (week 0 - week 16)|t-test, 2 sided|||||||0.187
82527185|NCT01552954|164750827|SUPERIORITY_OR_OTHER|||||||0.001||||||for changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||0.001
82527186|NCT01552954|164750828|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||for sBP changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||>0.05
82527187|NCT01552954|164750828|SUPERIORITY_OR_OTHER|||||||0.585|TWO_SIDED|||||for dBP changes from week 8 at week 16 (week 8 - week 16)|t-test, 2 sided|||||||0.585
82641413|NCT02203305|164997703|OTHER|bivariate pearson correlation|||||=|0.761|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the preoperative interval and sound source localization (RMS error).||||=0.761
82641414|NCT02203305|164997703|OTHER|bivariate pearson correlation|||||=|0.315|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the 12-month interval and sound source localization (RMS error).||||=0.315
82527188|NCT01395823|164750849|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
82527189|NCT02404389|164750858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.07||0.515|TWO_SIDED|90.0|-0.12|0.12|||Posterior mean|||||0.12|-0.12|0.515
82527190|NCT02404389|164750858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.07||0.517|TWO_SIDED|90.0|-0.12|0.13|||posterior mean|||||0.13|-0.12|0.517
82527191|NCT00335257|164750867|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test of two exponential survival curves.These calculations are based on the following assumptions: 1) one-sided α 0.025; 2) power (1-β) of 0.90; 3) VTE incidence rate of 9/10.000 WY and 4) non-inferiority limit hazard ratio of 2. Furthermore, a study of this size would exclude a threefold risk of ATE.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Hazard ratio was adjusted for age, BMI, duration of current use, family history of VTE|Tested null hypotheses: the VTE hazard ratio for DRSP(24d) vs. Non-DRSP is higher or equal to 2||1.3|0.5|
82527192|NCT03300570|164750869|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82527193|NCT05076149|164750886|NON_INFERIORITY|The non-inferiority margin represents a clinically acceptable loss of effectiveness that margin preserve at least 50% of the treatment effect of the active control (ELX/TEZ/IVA) compared to placebo, where the treatment effect is estimated by the lower bound of the 95% confidence interval (CI)|LS Mean difference|0.2|||<|0.0001|TWO_SIDED|95.0|-0.5|0.9|||Mixed Models Repeated Measures|||||0.9|-0.5|< 0.0001
82527194|NCT05076149|164750887|SUPERIORITY||LS Mean difference|-2.8|||=|0.0034|TWO_SIDED|95.0|-4.7|-0.9|||Mixed Models Repeated Measures|||||-0.9|-4.7|=0.0034
82527195|NCT05076149|164750888|OTHER||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.55|3.16|||Generalized Estimated Equation Model|||||3.16|1.55|< 0.0001
82527196|NCT05076149|164750889|OTHER||Odds Ratio (OR)|2.87|||<|0.0001|TWO_SIDED|95.0|2.0|4.12|||Generalized Estimated Equation Model|||||4.12|2.00|< 0.0001
82527197|NCT00717314|164750890|SUPERIORITY_OR_OTHER|||||||0.494|||||||ANOVA|||||||0.494
82527198|NCT00717314|164750893|SUPERIORITY_OR_OTHER|||||||0.374|||||||ANOVA|||Between group comparison at Baseline||||0.374
82641415|NCT02203305|164997703|OTHER|bivariate pearson correlation|||||=|0.666|||||||bivariate pearson correlation|||Association of subjective benefit (Spatial Subscale) at the 12-month interval and sound source localization (RMS error).||||=0.666
82527199|NCT00717314|164750893|SUPERIORITY_OR_OTHER|||||||0.685||||||Analysis of covariance (ANCOVA) model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 16||||0.685
82527200|NCT00717314|164750893|SUPERIORITY_OR_OTHER|||||||0.722||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 28||||0.722
82527201|NCT00717314|164750893|SUPERIORITY_OR_OTHER|||||||0.432||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 40||||0.432
82527202|NCT00717314|164750894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-5.342|5.561||||||||5.561|-5.342|
82527203|NCT00717314|164750895|SUPERIORITY_OR_OTHER|||||||0.616||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 16||||0.616
82527204|NCT00717314|164750895|SUPERIORITY_OR_OTHER|||||||0.334||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 28||||0.334
82527205|NCT00717314|164750895|SUPERIORITY_OR_OTHER|||||||0.267||||||ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.|ANCOVA|||Change from Baseline at Week 40||||0.267
82527206|NCT00717314|164750895|SUPERIORITY_OR_OTHER|||||||0.764|||||||ANCOVA|ANCOVA model with calculated creatinine clearance at baseline as covariate, and study center and treatment\*study center as factors.||Change from Baseline at Week 52||||0.764
82527207|NCT00717314|164750896|SUPERIORITY_OR_OTHER|||||||1|||||||ANCOVA|||||||1.000
82527208|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.858|1.169|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in least-square (LS) means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.169|0.858|
82527209|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.215|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.215|0.900|
82527210|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.886|1.232|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV A||1.232|0.886|
82527211|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.905|1.261|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.261|0.905|
82527212|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.953|1.336|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.336|0.953|
82527213|NCT05096208|164750897|EQUIVALENCE|Equivalence was established if the 2-sided 95% CI for the ratio of neutralizing GMTs for each pair of individual vaccine lots (RSVpreF Lot 1/RSVpreF Lot 2, RSVpreF Lot 1/RSVpreF Lot 3 and RSVpreF Lot 2/RSVpreF Lot 3) was within the interval (0.667, 1.5), for both antigens simultaneously.|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.884|1.262|||||GMRs and 2-sided CIs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model.|RSV B||1.262|0.884|
82527214|NCT01987817|164750929|SUPERIORITY||Risk Difference (RD)|60.0|||<|0.0001|TWO_SIDED|95.0|35.0|79.0|||Fisher Exact|||||79|35|<0.0001
82574568|NCT01011868|164858695|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.58|STANDARD_ERROR_OF_MEAN|2.4||0.0213|TWO_SIDED|95.0|-10.32|-0.84|||Mixed Models Analysis||Week 54 model includes, baseline basal insulin, baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effects.|Empagliflozin versus Placebo 10 mg at 54 weeks||-0.84|-10.32|0.0213
82527215|NCT01987817|164750930|SUPERIORITY||Treatment difference|0.912|||<|0.0001|TWO_SIDED|95.0|0.5184|1.3065||The p-value is based on the F-test for treatment effect adjusted for MTD from baseline (log10 mg). The p-value and confidence intervals are based on the normality assumption.|ANCOVA|Least squares means and 95% CIs based on ANCOVA model of change from baseline in MTD at Exit DBPCFC (terms for treatment \& MTD at baseline (log10 mg).||MTD for the baseline and Exit DBPCFC are transformed back to log10 scale before calculations. A value of 0.3 mg is substituted for subjects who could not tolerate the lowest DBPCFC dose before log10 transformation.||1.3065|0.5184|<0.0001
82527216|NCT01576718|164750939|SUPERIORITY_OR_OTHER|||||||0.0604||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.0604
82527217|NCT01576718|164750939|SUPERIORITY_OR_OTHER||LSM difference|0.072||||0.0637|TWO_SIDED|95.0|-0.004|0.149||Significance at the 0.05 level.|mixed model for repeated measures||Fp 400 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.149|-0.004|0.0637
82527218|NCT01576718|164750939|SUPERIORITY_OR_OTHER||LSM difference|0.056||||0.1585|TWO_SIDED|95.0|-0.022|0.133||Significance at the 0.05 level|mixed model for repeated measures||Fp 200 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.133|-0.022|0.1585
82527219|NCT01576718|164750939|SUPERIORITY_OR_OTHER||LSM difference|0.048||||0.2221|TWO_SIDED|95.0|-0.029|0.124||Significance at the 0.05 level|mixed model for repeated measures||Fp 100 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.124|-0.029|0.2221
82527220|NCT01576718|164750939|SUPERIORITY_OR_OTHER||LSM difference|0.006|||=|0.8694|TWO_SIDED|95.0|-0.07|0.083||Significance at the 0.05 level|mixed model for repeated measures||Fp 50 - Placebo|No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||0.083|-0.070|=0.8694
82527221|NCT01576718|164750940|SUPERIORITY_OR_OTHER|||||||0.1512||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.1512
82527222|NCT01576718|164750940|SUPERIORITY_OR_OTHER||LSM difference|7.36||||0.2361|TWO_SIDED|95.0|-4.83|19.56||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.56|-4.83|0.2361
82527223|NCT01576718|164750940|SUPERIORITY_OR_OTHER||LSM difference|7.78||||0.2169|TWO_SIDED|95.0|-4.59|20.15|||Regression, Linear|Significance at the 0.05 level||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||20.15|-4.59|0.2169
82527224|NCT01576718|164750940|SUPERIORITY_OR_OTHER||LSM difference|7.09||||0.2523|TWO_SIDED|95.0|-5.07|19.26||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.26|-5.07|0.2523
82527225|NCT01576718|164750940|SUPERIORITY_OR_OTHER||LSM difference|8.23||||0.1858|TWO_SIDED|95.0|-3.98|20.45||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||20.45|-3.98|0.1858
82527226|NCT01576718|164750941|SUPERIORITY_OR_OTHER|||||||0.2879||||||If the Fp MDPI showed a significantly positive trend, then contrasts for pairwise comparisons of each Fp MDPI dose versus placebo were done in the sequence of highest to lowest Fp MDPI dose.|Regression, Linear|||A linear in log-dose trend contrast was constructed to evaluate the time-averaged dose-response trend, where the logarithm of dose was defined as log(dose+1) to accommodate the case of a zero dose (placebo). A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level. Specifically, the 2-sided linear in log-dose time-averaged trend test was first performed at the 0.05 level of significance.||||0.2879
82527227|NCT01576718|164750941|SUPERIORITY_OR_OTHER||LSM difference|7.56||||0.2166|TWO_SIDED|95.0|-4.45|19.56||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||19.56|-4.45|0.2166
82527228|NCT01576718|164750941|SUPERIORITY_OR_OTHER||LSM difference|4.03||||0.5167|TWO_SIDED|95.0|-8.17|16.23||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||16.23|-8.17|0.5167
82641416|NCT02203305|164997703|SUPERIORITY||||||>|0.175|||||||Mixed Models Analysis|Main effects: cohort (p=0.912), interval (p=0.463), and subscale (p=0.483). Interactions: 2-way or 3-way (p\>0.175).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the speech, spatial, and qualities of hearing subscales during the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.175
82527229|NCT01576718|164750941|SUPERIORITY_OR_OTHER||LSM difference|2.99||||0.6258|TWO_SIDED|95.0|-9.06|15.05||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||15.05|-9.06|0.6258
82527230|NCT01576718|164750941|SUPERIORITY_OR_OTHER||LSM difference|0.39||||0.9487|TWO_SIDED|95.0|-11.6|12.39||Significance at the 0.05 level|Regression, Linear|||No explicit structure was assumed for the covariance among the repeated measures. Analyses for comparison of Fp MDPI to placebo did not contain FLOVENT DISKUS data.||12.39|-11.60|0.9487
82527231|NCT01576718|164750942|SUPERIORITY_OR_OTHER|||||||0.0341||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0341
82527232|NCT01576718|164750942|SUPERIORITY_OR_OTHER|||||||0.034||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0340
82527233|NCT01576718|164750942|SUPERIORITY_OR_OTHER|||||||0.0058||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0058
82527234|NCT01576718|164750942|SUPERIORITY_OR_OTHER|||||||0.0018||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.0018
82527235|NCT01576718|164750942|SUPERIORITY_OR_OTHER|||||||0.1006||||||Significance level of 0.05.|Log Rank|||P-value for comparison of survival curve to placebo||||0.1006
82527236|NCT01576718|164750943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.88116|TWO_SIDED|95.0|-11.12|12.91||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||12.91|-11.12|0.88116
82527237|NCT01576718|164750943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.98||||0.05977|TWO_SIDED|95.0|-22.64|0.68||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||0.68|-22.64|0.05977
82527238|NCT01576718|164750943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.90426|TWO_SIDED|95.0|-13.02|11.54||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||11.54|-13.02|0.90426
82641417|NCT02203305|164997704|SUPERIORITY||||||<|0.161||||||"Significant effect of interval (p=0.046) and of condition (p\<0.001) and a non-significant interaction (p=0.161).~Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis."|Mixed Models Analysis|Main effects: interval (p=0.046) and condition (p\<0.001). Interaction: interval and condition (p=0.161).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.161
82527239|NCT01576718|164750943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38||||0.4731|TWO_SIDED|95.0|-16.57|7.82||Significance at the 0.05 level|Regression, Linear|||Estimates computed from a generalized linear logistic model with gender and age as covariates and allows correlation between estimates on the same subject. Interpretation of the estimates is that they are the average over the population at the average level of continuous covariate (age) averaged over discrete covariate (gender).||7.82|-16.57|0.47310
82527240|NCT01576718|164750950|SUPERIORITY_OR_OTHER||LSM difference|0.019|||=|0.6161|TWO_SIDED|95.0|-0.057|0.096||0.05 level of significance.|mixed model for repeated measures|||||0.096|-0.057|=0.6161
82574569|NCT01011868|164858695|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.69|STANDARD_ERROR_OF_MEAN|2.49||0.0237|TWO_SIDED|95.0|-10.62|-0.77|||Mixed Models Analysis||Week 54 model includes, baseline basal insulin, baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Empagliflozin versus Placebo 25 mg at 54 weeks||-0.77|-10.62|0.0237
82574570|NCT01011868|164858695|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.66|STANDARD_ERROR_OF_MEAN|2.18||0.0024|TWO_SIDED|97.5|-11.56|-1.77||Hierarchical testing approach was applied to Empagliflozin 10 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA|Model for Week 78 includes baseline basal insulin, baseline HbA1c as linear covariate(s) and geographical region, treatment as fixed effect(s)||"Empagliflozin versus Placebo 10 mg at 78 weeks~H0,1a: No difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 10 mg and placebo H1,1a: A difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 10 mg and placebo"||-1.77|-11.56|0.0024
82574571|NCT01011868|164858695|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.92|STANDARD_ERROR_OF_MEAN|2.25||0.009|TWO_SIDED|97.5|-11.0|-0.85||Hierarchical testing approach was applied to Empagliflozin 25 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA|Model for Week 78 includes baseline basal insulin, baseline HbA1c as linear covariate(s) and geographical region, treatment as fixed effect(s)||"Empagliflozin versus Placebo 25 mg at 78 weeks~H0,1a: No difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 25 mg and placebo H1,1a: A difference in change from baseline to Week 78 in basal insulin dose between Empagliflozin 25 mg and placebo"||-0.85|-11.00|0.0090
82527241|NCT01576718|164750950|SUPERIORITY_OR_OTHER||LSM difference|0.004||||0.9245|TWO_SIDED|95.0|-0.973|0.08||0.05 level of significance.|mixed model for repeated measures|||||0.080|-0.973|0.9245
82527242|NCT01576718|164750950|SUPERIORITY_OR_OTHER||LSM difference|-0.008||||0.8434|TWO_SIDED|95.0|-0.083|0.068||0.05 level of significance.|mixed model for repeated measures|||||0.068|-0.083|0.8434
82527243|NCT01576718|164750950|SUPERIORITY_OR_OTHER||LSM difference|-0.047||||0.2241|TWO_SIDED|95.0|-0.122|0.029||0.05 level of significance.|mixed model for repeated measures|||||0.029|-0.122|0.2241
82527244|NCT01576718|164750950|SUPERIORITY_OR_OTHER||LSM difference|-0.053||||0.1822|TWO_SIDED|95.0|-0.13|0.025||0.05 level of significance.|mixed model for repeated measures|||||0.025|-0.130|0.1822
82527245|NCT01576718|164750951|SUPERIORITY_OR_OTHER||LSM difference|-5.56||||0.3568|TWO_SIDED|95.0|-17.42|6.29||0.05 level of significance.|Regression, Linear|||||6.29|-17.42|0.3568
82527246|NCT01576718|164750951|SUPERIORITY_OR_OTHER||LSM difference|-5.68||||0.3531|TWO_SIDED|95.0|-17.67|6.32||0.05 level of significance.|Regression, Linear|||||6.32|-17.67|0.3531
82527247|NCT01576718|164750951|SUPERIORITY_OR_OTHER||LSM difference|-6.58||||0.2724|TWO_SIDED|95.0|-18.35|5.19||0.05 level of significance.|Regression, Linear|||||5.19|-18.35|0.2724
82527248|NCT01576718|164750951|SUPERIORITY_OR_OTHER||LSM difference|-5.11|||=|0.3964|TWO_SIDED|95.0|-16.95|6.72||0.05 level of significance.|Regression, Linear|||||6.72|-16.95|=0.3964
82574572|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.04|STANDARD_ERROR_OF_MEAN|0.95||0.032|TWO_SIDED|95.0|-3.9|-0.18|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 18 - Empagliflozin 10 mg vs Placebo||-0.18|-3.90|0.0320
82574573|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.99||0.3818|TWO_SIDED|95.0|-2.81|1.08|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 18 - Empagliflozin 25 mg vs Placebo||1.08|-2.81|0.3818
82527249|NCT01576718|164750951|SUPERIORITY_OR_OTHER||LSM difference|-13.45||||0.0296|TWO_SIDED|95.0|-25.57|-1.33||0.05 level of significance.|Regression, Linear|||||-1.33|-25.57|0.0296
82527250|NCT01576718|164750952|SUPERIORITY_OR_OTHER||LSM difference|-0.69||||0.9101|TWO_SIDED|95.0|-12.59|11.22||0.05 level of significance.|Regression, Linear|||||11.22|-12.59|0.9101
82527251|NCT01576718|164750952|SUPERIORITY_OR_OTHER||LSM difference|-4.51||||0.4634|TWO_SIDED|95.0|-16.6|7.57||0.05 level of significance.|Regression, Linear|||||7.57|-16.6|0.4634
82527252|NCT01576718|164750952|SUPERIORITY_OR_OTHER||LSM difference|-5.88||||0.3333|TWO_SIDED|95.0|-17.8|6.05||0.05 level of significance.|Regression, Linear|||||6.05|-17.8|0.3333
82527253|NCT01576718|164750952|SUPERIORITY_OR_OTHER||LSM difference|-8.19||||0.1763|TWO_SIDED|95.0|-20.06|3.69||0.05 level of significance.|Regression, Linear|||||3.69|-20.06|0.1763
82527254|NCT01576718|164750952|SUPERIORITY_OR_OTHER||Slope|-9.05||||0.1469|TWO_SIDED|95.0|-21.3|3.19||0.05 level of significance.|Regression, Linear|||||3.19|-21.3|0.1469
82527255|NCT01874145|164750953|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.501|STANDARD_ERROR_OF_MEAN|0.101||0.0006|TWO_SIDED|95.0|0.338|0.743||The overall significance level for this study was 5% using 2-tailed test.|Poisson regression model|Natural log of treatment duration was an offset variable; adjusted for baseline EDSS, treatment group, age, sex, # relapses 2 years prior to screening|GA 40 mg/mL TIW treatment group / GA 20 mg/mL QD treatment group.|Adjusted mean estimates were adjusted estimates of event rates within treatment group. The treatment effect parameter estimate was a risk ratio of the GA 40 mg/mL TIW treatment group divided by the GA 20 mg/mL QD treatment group. The p value tested whether the risk ratio was significantly different from 1.||0.743|0.338|0.0006
82390824|NCT01340027|164492774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.28|STANDARD_ERROR_OF_MEAN|0.421||0.002|TWO_SIDED|95.0|0.45|2.1|||ANCOVA|||||2.10|0.45|0.002
82527256|NCT01874145|164750955|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.101||0.0006|TWO_SIDED|95.0|0.337|0.742||The overall significance level for this study was 5% using 2-tailed test.|Poisson regression model|Natural log of treatment duration was an offset variable; adjusted for baseline EDSS, treatment group, age, sex, # relapses 2 years prior to screening|GA 40 mg/mL TIW treatment group / GA 20 mg/mL QD treatment group|Adjusted mean estimates were adjusted estimates of event rates within treatment group. The treatment effect parameter estimate was a risk ratio of the GA 40 mg/mL TIW treatment group divided by the GA 20 mg/mL QD treatment group. The p value tested whether the risk ratio was significantly different from 1.||0.742|0.337|0.0006
82527257|NCT01874145|164750956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.058|STANDARD_ERROR_OF_MEAN|1.206||0.0897|TWO_SIDED|95.0|-4.438|0.322||The overall significance level for this study was 5% using 2-tailed test.|ANCOVA|In addition to treatment group, month (categorical), treatment-by-month interaction and score at baseline were used as covariates.|GA 40 mg/mL TIW treatment group vs. GA 20 mg/mL QD treatment group.|"To control for type 1 errors, secondary variables were analyzed only if analysis of the primary variable was statistically significant. Gate-keeping procedures offered further control with this hierarchy:~1. the rate of ISRs~2. change from baseline to month 4 (change - M4) in MSIS-20 physical wellbeing~3. change - M4 in MSIS-20 psychological wellbeing~4. change - M4 in TSQM-9 convenience~5. change - M4 in TSQM-9 overall satisfaction"||0.322|-4.438|0.0897
82574574|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-2.89|-1.05|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-1.05|-2.89|<0.0001
82574575|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.17|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-3.13|-1.22|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-1.22|-3.13|<0.0001
82574576|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.63|STANDARD_ERROR_OF_MEAN|1.1||0.0012|TWO_SIDED|95.0|-5.81|-1.45|||Mixed Models Analysis||Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 78 - Empagliflozin 10 mg vs Placebo||-1.45|-5.81|0.0012
82574577|NCT01011868|164858696|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.12|STANDARD_ERROR_OF_MEAN|1.15||0.0073|TWO_SIDED|95.0|-5.39|-0.85|||Mixed Models Analysis|Model includes, baseline weight, baseline HbA1c as covariates, geographic region, treatment, visit and visit by treatment interaction as fixed effects|Model includes baseline weight, baseline HbA1c as linear covariates, geographical region, treatment, visit and visit by treatment interaction as fixed effects|Change from BL at week 78 - Empagliflozin 25 mg vs Placebo||-0.85|-5.39|0.0073
82574578|NCT01011868|164858698|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.68|-0.26|||Mixed Models Analysis||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Change from BL at week 54 - Empagliflozin 10 mg vs Placebo||-0.26|-0.68|<0.0001
82574579|NCT01011868|164858698|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.95|-0.52|||Mixed Models Analysis||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment, visit and visit by treatment interaction as fixed effect(s).|Change from BL at week 54 - Empagliflozin 25 mg vs Placebo||-0.52|-0.95|<0.0001
82577060|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1094|TWO_SIDED|95.0|-0.04|0.43|||MMRM|||Suicide, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.04|0.1094
82641418|NCT02203305|164997704|SUPERIORITY||||||>|0.107||||||"Significant effect of condition (p\<0.001) and the interaction (p\<0.001). Non-significant effect of interval (p=0.107).~Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis."|Mixed Models Analysis|Main effects: condition (p\<0.001) and interval p=0.107). Interaction of condition and interval (p\<0.001).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||>0.107
82390825|NCT02496091|164492789|OTHER||95% confidence interval (using the exact|92.7|||||TWO_SIDED|95.0|88.8|95.5||||||Only descriptive statistics The implant success rate is analyzed on an implant level (i.e. percent of successful implants) as well as subject level (i.e. percentage of subjects with no unsuccessful implants). This proportion is presented together with a 95% confidence interval (using the exact Binomial approach) and an average follow-up time.||95.5|88.8|
82426252|NCT02164864|164561470|OTHER|Wald 2-sided p-value from (stratified) Cox proportional hazards model|Hazard Ratio (HR)|1.51||||0.0861|TWO_SIDED|95.0|0.94|2.41|||Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.41|0.94|0.0861
82574580|NCT01011868|164858698|NON_INFERIORITY_OR_EQUIVALENCE|"For non-inferiority, a one-sided test at the significance level of 0.0125 was performed using a chosen margin of 0.3% difference between each dose of empagliflozin and placebo.~If the non-inferiority of empagliflozin to placebo with respect to change from baseline in HbA1c after 78 weeks of treatment could be concluded for a specific dose, subsequent testing of superiority was performed at the significance level of 0.025 for the relevant empagliflozin dose versus placebo comparison."|Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|97.5|-0.73|-0.19||Hierarchical testing approach was applied to Empagliflozin 10 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment as fixed effect(s).|"Change from BL at week 78 - Empagliflozin 10 mg vs Placebo~H0,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 10 mg and placebo ≥0.3% H1,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 10 mg and placebo \<0.3%"||-0.19|-0.73|0.0001
82574581|NCT01011868|164858698|NON_INFERIORITY_OR_EQUIVALENCE|"For non-inferiority, a one-sided test at the significance level of 0.0125 was performed using a chosen margin of 0.3% difference between each dose of empagliflozin and placebo.~If the non-inferiority of empagliflozin to placebo with respect to change from baseline in HbA1c after 78 weeks of treatment could be concluded for a specific dose, subsequent testing of superiority was performed at the significance level of 0.025 for the relevant empagliflozin dose versus placebo comparison."|Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|97.5|-0.9|-0.34||Hierarchical testing approach was applied to Empagliflozin 25 mg vs Placebo. If null hypothesis is rejected for the primary endpoint, at 0.025 (2-sided), testing of the key secondary endpoints continued in a hierarchical fashion for the same dose.|ANCOVA||Model includes baseline HbA1c as linear covariate(s), geographical region, treatment as fixed effect(s).|"Change from BL at week 78 - Empagliflozin 25 mg vs Placebo~H0,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 25 mg and placebo ≥0.3% H1,1b: The change from baseline to Week 78 in HbA1c between empagliflozin 25 mg and placebo \<0.3%"||-0.34|-0.90|<0.0001
82574582|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.096||||0.0005|TWO_SIDED|95.0|1.846|9.088|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 18 weeks||9.088|1.846|0.0005
82574583|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.636||||0.0002|TWO_SIDED|95.0|2.083|10.321|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 18 weeks||10.321|2.083|0.0002
82574584|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.1248|TWO_SIDED|95.0|0.856|3.575|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 54 weeks||3.575|0.856|0.1248
82574585|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.423||||0.0132|TWO_SIDED|95.0|1.203|4.879|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 54 weeks||4.879|1.203|0.0132
82574586|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.939||||0.0986|TWO_SIDED|95.0|0.884|4.256|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 10 mg vs Placebo at 78 weeks||4.256|0.884|0.0986
82574587|NCT01011868|164858700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.239||||0.0024|TWO_SIDED|95.0|1.518|6.911|||Regression, Logistic|Logistic regression includes treatment, geographical region and baseline HbA1c||Empagliflozin 25 mg vs Placebo at 78 weeks||6.911|1.518|0.0024
82574588|NCT01262092|164858701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2887||||0.035||95.0||||p values \<0.05 considered statistically significant|Mixed Models Analysis|Used proc GLIMMIX to model group by time (6 study visits)||"test null hypothesis that gbp and pla did not differ in terms of opioid-positive urines during the buprenorphine detox.~For the analysis, data from 2 participants in the GBP groups were excluded due to evidence of medication diversion (N=1) and not being maintained on the 1600 mg/day dose of GBP (N=1)."||||0.035
82641419|NCT02203305|164997704|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
82574589|NCT03784820|164858702|SUPERIORITY||Odds Ratio (OR)|0.35||||0.36|TWO_SIDED|95.0|0.04|3.27||Comparison of Patients at Post (T2) \[CBT-E is the reference\]|Mixed Models Analysis|||||3.27|0.04|0.36
82574590|NCT03784820|164858702|SUPERIORITY||Odds Ratio (OR)|0.29||||0.38|TWO_SIDED|95.0|0.02|4.6||Comparison of Patients at 3 Month Fup (T3) \[CBT-E is the reference\]|Mixed Models Analysis|||||4.60|0.02|0.38
82574591|NCT03784820|164858702|SUPERIORITY||Odds Ratio (OR)|2.2||||0.54|TWO_SIDED|95.0|0.18|27.39||Comparison of Patients at 6 Month Fup (T4) \[CBT-E is the reference\]|Mixed Models Analysis|||||27.39|0.18|0.54
82574592|NCT03784820|164858703|SUPERIORITY||LS mean difference|0.51||||0.52|TWO_SIDED|95.0|-1.06|2.09||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||2.09|-1.06|0.52
82574593|NCT03784820|164858703|SUPERIORITY||LS mean difference|0.04||||0.97|TWO_SIDED|95.0|-1.99|2.07||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||2.07|-1.99|0.97
82574594|NCT03784820|164858703|SUPERIORITY||LS mean difference|0.62||||0.59|TWO_SIDED|95.0|-1.66|2.89||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||2.89|-1.66|0.59
82574595|NCT03784820|164858704|SUPERIORITY||LS mean difference|0.05||||0.86|TWO_SIDED|95.0|-0.45|0.54||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||0.54|-0.45|0.86
82574596|NCT03784820|164858704|SUPERIORITY||LS mean difference|0.3||||0.44|TWO_SIDED|95.0|-0.46|1.06||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||1.06|-0.46|0.44
82574597|NCT03784820|164858704|SUPERIORITY||LS mean difference|0.31||||0.36|TWO_SIDED|95.0|-0.36|0.98||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||0.98|-0.36|0.36
82574598|NCT03784820|164858705|SUPERIORITY||LS mean difference|2.47||||0.33|TWO_SIDED|95.0|-2.54|7.49||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||7.49|-2.54|0.33
82574599|NCT03784820|164858705|SUPERIORITY||LS mean difference|2.18||||0.46|TWO_SIDED|95.0|-3.59|7.95||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||7.95|-3.59|0.46
82574600|NCT03784820|164858705|SUPERIORITY||LS mean difference|3.83||||0.27|TWO_SIDED|95.0|-2.94|10.6||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||10.60|-2.94|0.27
82574601|NCT03784820|164858706|SUPERIORITY||LS mean difference|1.06||||0.62|TWO_SIDED|95.0|-3.14|5.25||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||5.25|-3.14|0.62
82574602|NCT03784820|164858706|SUPERIORITY||LS mean difference|1.83||||0.54|TWO_SIDED|95.0|-4.07|7.73||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||7.73|-4.07|0.54
82574603|NCT03784820|164858707|SUPERIORITY||LS mean difference|4.8||||0.1|TWO_SIDED|95.0|-0.91|10.51||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||10.51|-0.91|0.10
82574604|NCT03784820|164858707|SUPERIORITY||LS mean difference|1.08||||0.76|TWO_SIDED|95.0|-5.97|8.13||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||8.13|-5.97|0.76
82390826|NCT01970475|164492800|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis was tested by comparing the 2-sided 90% confidence interval (CI) of the RR of ACR20 at week 24 between ABP 501 and adalimumab with an equivalence margin of (0.738, 1/0.738).|Risk Ratio (RR)|1.039|||||TWO_SIDED|90.0|0.954|1.133|||||Based on a generalized linear model adjusted for geographic region and prior biological use for RA as covariates in the model.|The study hypothesis was that there were no clinically meaningful differences between ABP 501 and adalimumab in risk ratio (RR) of ACR20 at week 24.||1.133|0.954|
82574605|NCT03784820|164858707|SUPERIORITY||LS mean difference|3.26||||0.23|TWO_SIDED|95.0|-2.03|8.55||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||8.55|-2.03|0.23
82574606|NCT03784820|164858707|SUPERIORITY||LS mean difference|-0.25||||0.94|TWO_SIDED|95.0|-6.63|6.14||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||6.14|-6.63|0.94
82574607|NCT03784820|164858707|SUPERIORITY||LS mean difference|-1.46||||0.68|TWO_SIDED|95.0|-8.38|5.46||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||5.46|-8.38|0.68
82574608|NCT03784820|164858707|SUPERIORITY||LS mean difference|-0.61||||0.89|TWO_SIDED|95.0|-9.06|7.84||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||7.84|-9.06|0.89
82574609|NCT03784820|164858708|SUPERIORITY||LS mean difference|-0.41||||0.91|TWO_SIDED|95.0|-7.61|6.79||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.79|-7.61|0.91
82574610|NCT03784820|164858708|SUPERIORITY||LS mean difference|4.72||||0.2|TWO_SIDED|95.0|-2.49|11.93||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||11.93|-2.49|0.20
82574611|NCT03784820|164858708|SUPERIORITY||LS mean difference|4.78||||0.14|TWO_SIDED|95.0|-1.63|11.2||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||11.20|-1.63|0.14
82574612|NCT03784820|164858708|SUPERIORITY||LS mean difference|3.86||||0.25|TWO_SIDED|95.0|-2.76|10.49||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||10.49|-2.76|0.25
82574613|NCT03784820|164858708|SUPERIORITY||LS mean difference|4.22||||0.14|TWO_SIDED|95.0|-1.45|9.89||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||9.89|-1.45|0.14
82574614|NCT03784820|164858708|SUPERIORITY||LS mean difference|3.15||||0.28|TWO_SIDED|95.0|-2.58|8.87||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||8.87|-2.58|0.28
82574615|NCT03784820|164858709|SUPERIORITY||LS mean difference|1.73||||0.85|TWO_SIDED|95.0|-16.73|20.19||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||20.19|-16.73|0.85
82574616|NCT03784820|164858709|SUPERIORITY||LS mean difference|7.94||||0.47|TWO_SIDED|95.0|-13.59|29.48||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||29.48|-13.59|0.47
82574617|NCT03784820|164858709|SUPERIORITY||LS mean difference|9.79||||0.37|TWO_SIDED|95.0|-11.5|31.08||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||31.08|-11.50|0.37
82574618|NCT03784820|164858709|SUPERIORITY||LS mean difference|0.36||||0.97|TWO_SIDED|95.0|-19.31|20.03||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||20.03|-19.31|0.97
82574619|NCT03784820|164858709|SUPERIORITY||LS mean difference|-5.88||||0.52|TWO_SIDED|95.0|-23.85|12.09||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||12.09|-23.85|0.52
82574620|NCT03784820|164858709|SUPERIORITY||LS mean difference|-3.55||||0.68|TWO_SIDED|95.0|-20.33|13.23||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||13.23|-20.33|0.68
82574621|NCT03784820|164858710|SUPERIORITY||LS mean difference|-0.27||||0.91|TWO_SIDED|95.0|-5.02|4.47||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||4.47|-5.02|0.91
82574622|NCT03784820|164858710|SUPERIORITY||LS mean difference|4.73||||0.07|TWO_SIDED|95.0|-0.36|9.81||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||9.81|-0.36|0.07
82641420|NCT02203305|164997704|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||<0.001
82641421|NCT02203305|164997704|OTHER|bivariate pearson correlation|||||=|0.58||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of age at implantation and speech recognition in noise at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation.||||=0.580
82641422|NCT02203305|164997704|SUPERIORITY||||||<|0.743||||||A logit transformation was applied to proportion correct data prior to analysis.|Mixed Models Analysis|Effects: SNR (p=0.026) \& masker condition (p\<0.001). Interactions: cohort \& condition (p\<0.001), interval \& condition (p=0.015). Others (p\>0.140).||Comparison of speech recognition between groups (UHL/SSD and AHL) for the three masker configurations (noise towards the better hearing ear, noise towards the poorer hearing ear, and noise from the front) and signal-to-noise ratio (SNR; 0, 5, or 10 dB SNR) over the post-activation intervals (1, 3, 6, 9, and 12 months).||||<0.743
82641423|NCT02203305|164997704|OTHER|pearson correlation|||||=|0.036||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||=0.036
82641424|NCT02203305|164997705|SUPERIORITY||||||<|0.183||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: interval (p=0.183) and condition (p=0.012). Interaction: interval and condition (p=0.081).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.183
82647825|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.3|||<|0.001|TWO_SIDED|95.0|-7.7|-2.9||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-2.9|-7.7|<0.001
82574623|NCT03784820|164858710|SUPERIORITY||LS mean difference|1.75||||0.65|TWO_SIDED|95.0|-5.73|9.23||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||9.23|-5.73|0.65
82574624|NCT03784820|164858710|SUPERIORITY||LS mean difference|-2.05||||0.52|TWO_SIDED|95.0|-8.21|4.12|||Mixed Models Analysis|||Comparison of Partners at Post (T2)||4.12|-8.21|0.52
82390827|NCT03055494|164492823|OTHER|Statistical hypothesis tests were not performed in this study|difference in percentages|76.1|||||TWO_SIDED|95.0|63.3|88.8|||95% confidence interval|"Statistical analysis of no response of skin histology/K16 expression to treatment at Week 12"|||"A patient with missing assessment was considered as having a yes response of skin histology/K16 expression to treatment regardless of the reason for missing data (eg, premature study discontinuation, missed visit, administrative issues). However, missing baseline value was not imputed."|88.8|63.3|
82390828|NCT03055494|164492824|OTHER|Statistical hypothesis tests were not performed in this study|difference in percentages|55.8|||||TWO_SIDED|95.0|42.3|69.3|||95% confidence interval|||||69.3|42.3|
82527258|NCT02821819|164750990|NON_INFERIORITY|The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).|Mean Difference (Final Values)|18.0|STANDARD_DEVIATION|8.1||0.8|ONE_SIDED|||||a priori threshold for statistical significance: \<0.05|t-test, 1 sided|||The sample size was calculated assuming a non-inferiority margin of 5 eggs and a standard deviation (SD) of 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).|"Since the number of collected eggs constitutes the main outcome of the study, the sample size was calculated assuming a non-inferiority margin of 5 eggs with an standard deviation of 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60).~Statistical analysis was performed using t-student test for continuous variables and chi-square test for categorical parameters. A P value of \<.05 was considered significant."|||0.8
82527259|NCT02821819|164750990|NON_INFERIORITY|The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60). Statistical analysis used t-student test for continuous variables and chi-square test for categorical parameters.|Mean Difference (Final Values)|82.0||||0.8|TWO_SIDED|||||a priori threshold for statistical significance: \<0.05|Chi-squared|||The sample size was calculated assuming a non-inferiority margin of 5 eggs SD 6.7. A unilateral alpha level of 0.05 was stablished. With the aim to show that the difference in the mean number of collected eggs will not exceed 5, a statistical power of 80% required 30 patients per group (1:1 allocation, total sample: 60). Statistical analysis used t-student test for continuous variables and chi-square test for categorical parameters.||||0.8
82527260|NCT02821819|164750991|NON_INFERIORITY|Statistical analysis was performed using t-student test for continuous variables and chi-square test for categorical parameters. A P value of \<.05 was considered significant.|Median Difference (Final Values)|71.1|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82527261|NCT01353222|164751018|SUPERIORITY||Hazard Ratio (HR)|1.141||||0.6188|TWO_SIDED|95.0|0.679|1.918|||From a stratified log-rank test, stratif||Cox regression model with treatment as the independent variable, stratified by randomization strata. Hazard ratio with control as reference.|||1.918|0.679|0.6188
82527262|NCT03021668|164751040|EQUIVALENCE|Chi2 test was performed to analyze difference in rates of Surgical Site Infections (SSIs) between the two groups||||||0.003|||||||Chi-squared|||||||0.003
82527263|NCT03021668|164751041|EQUIVALENCE|Students' T-test was used to evaluate any difference in length of stay between the two groups.||||||0.23|||||||t-test, 2 sided|||||||0.23
82535305|NCT00783718|164768646|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.8|||<|0.0001|TWO_SIDED|95.0|20.8|44.7||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||44.7|20.8|< 0.0001
82574625|NCT03784820|164858710|SUPERIORITY||LS mean difference|-6.62||||0.07|TWO_SIDED|95.0|-13.74|0.51||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||0.51|-13.74|0.07
82574626|NCT03784820|164858710|SUPERIORITY||LS mean difference|-6.64||||0.03|TWO_SIDED|95.0|-12.73|-0.56||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||-0.56|-12.73|0.03
82574627|NCT03784820|164858711|SUPERIORITY||LS mean difference|0.88||||0.9|TWO_SIDED|95.0|-13.43|15.19||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||15.19|-13.43|0.90
82641425|NCT02203305|164997705|SUPERIORITY||||||<|0.196||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: interval (p=0.010) and condition (p=0.100). Interaction: interval and condition (p=0.196).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.196
82641426|NCT02203305|164997705|SUPERIORITY|||||||0.056||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||0.056
82444040|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Functional-FDI comparison between G1G2 and G3G4 and G5G6 Arms success rate from baseline to 24 month recall. For Esthetic and Biological-FDI comparison p values were \> 0.05. Adjusted P-values.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restorations (aesthetic, functional and biologic) success rates;||||0.070
82444041|NCT02698371|164596682|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Retention-FDI comparison between G1G2 and G3G4 and G5G6 Arms retention rate from baseline to 24 month recall. Adjusted P-values.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restoration retention rates;||||0.070
82444042|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.025
82444043|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE(G4G6) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.189
82444044|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.189|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE (G1) and MM-SE (G4G6) adhesives result in similar restoration retention rates;||||0.189
82444045|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.025|||||||McNemar|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.025
82444046|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.154|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restorations (aesthetic, functional and biologic) success rates;||||0.154
82444047|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.747|||||||Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC-SE-EE (G2) and MM-ER (G3G5) result in similar restoration retention rates;||||0.747
82444048|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) clinical (aesthetic, functional and biologic) behaviour/performance;||||0.070
82444049|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restorations (aesthetic, functional and biologic) success rates;||||0.070
82444050|NCT02698371|164596683|EQUIVALENCE|alpha value of 0.05 was considered||||||0.07|||||||Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar restoration retention rates;||||0.070
82527264|NCT00856934|164751075|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82527265|NCT00856934|164751076|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82527266|NCT03926065|164751112|SUPERIORITY|||||||0.126|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.1260
82641427|NCT02203305|164997705|SUPERIORITY||||||=|0.21||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Variable error is the average of the standard deviation of the responses for each source and a lower score reflects a more consistently accurate response. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||=0.210
82641428|NCT02203305|164997706|SUPERIORITY||||||<|0.071||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.071) and condition (p\<0.001). Interaction: interval and condition (p\<0.051)||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.071
82641429|NCT02203305|164997706|SUPERIORITY||||||<|0.109||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.109) and condition (p\<0.001). Interaction: interval and condition (p=0.052).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.109
82444051|NCT02698371|164596684|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Esthetic of FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Esthetic outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||1.000
82641430|NCT02203305|164997706|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82641431|NCT02203305|164997706|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Constant error is a measure of side bias, and a lower score indicates less response bias to either side. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82641432|NCT02203305|164997707|SUPERIORITY||||||<|0.024||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.018) and condition (p\<0.001). Interaction: interval and condition (p=0.024).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.024
82641433|NCT02203305|164997707|SUPERIORITY||||||<|0.219|||||||Mixed Models Analysis|Main effects: interval (p=0.187) and condition (p\<0.001). Interaction: interval and condition (p=0.219).||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval, condition (unaided or with the cochlear implant), and their interaction.||||<0.219
82641434|NCT02203305|164997707|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effect of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82641435|NCT02203305|164997707|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Soundfield localization of 200-ms speech-shaped noise, presented from 11 speakers at 60, 70, or 80 decibel (dB) sound pressure level (SPL) in a sound treated room. Adjusted constant error is a measure of reliability in the response taking side bias into account, and a lower score indicates a more reliable response. A repeated-measures ANOVA evaluated the effects of interval (pre-operatively, 1, 3, 6, 9, and 12 months post). Pre-op: unaided, Post: bilateral.||||<0.001
82641436|NCT02203305|164997708|SUPERIORITY||||||=|0.011||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the Abbreviated Profile of Hearing Aid Benefit (APHAB) as measured with the global score were compared over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||=0.011
82390829|NCT04338269|164492865|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.7844|TWO_SIDED|95.0|0.83|1.28|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.28|0.83|0.7844
82390830|NCT04338269|164492865|OTHER||Hazard Ratio (HR)|1.04||||0.7195|TWO_SIDED|95.0|0.84|1.29|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|Cox Proportional Hazards Model||1.29|0.84|0.7195
82390831|NCT04338269|164492866|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|0.94||||0.6902|TWO_SIDED|95.0|0.7|1.27|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.27|0.70|0.6902
82390832|NCT04338269|164492866|OTHER|Cox Proportional Hazards Model|Hazard Ratio (HR)|0.96||||0.7853||95.0|0.71|1.27|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|||1.27|0.71|0.7853
82390833|NCT04338269|164492867|OTHER|Stratified Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.8037|TWO_SIDED|95.0|0.83|1.27|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.27|0.83|0.8037
82527267|NCT03926065|164751112|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||<0.0001
82527268|NCT03926065|164751112|SUPERIORITY|||||||0.0992|||||||Mixed Models Analysis|||Interaction between Portion Size and Palatability||||0.0992
82527269|NCT03926065|164751113|SUPERIORITY|||||||0.5502|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.5502
82444052|NCT02698371|164596684|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Functional of FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Functional outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||1.000
82444053|NCT02698371|164596684|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.998||||||Applied for rows/Categories- Acceptance Vs Not Acceptance Biologic FDI and of USPHS comparison; Applied to G1G2; G3G4 and G5G6 separately.|Chi-squared|||H0: FDI or USPHS criteria Biological outcomes not differ at 24th month follow-up regarding Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4) and ADU (G5G6) adhesive, with SE or SE-ER/ER modes.||||0.998
82444054|NCT02698371|164596685|EQUIVALENCE|alpha value of 0.05 was considered||||||0.029||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Surface Luster Performance at 24 Month Follow-up recall.||||0.029
82574628|NCT03784820|164858711|SUPERIORITY||LS mean difference|-0.64||||0.95|TWO_SIDED|95.0|-18.95|17.66||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||17.66|-18.95|0.95
82574629|NCT03784820|164858711|SUPERIORITY||LS mean difference|1.37||||0.89|TWO_SIDED|95.0|-17.17|19.9||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||19.90|-17.17|0.89
82390834|NCT04338269|164492867|OTHER|Cox Proportional Hazards Model|Hazard Ratio (HR)|1.03||||0.7894|TWO_SIDED|95.0|0.83|1.27|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression.|||1.27|0.83|0.7894
82444055|NCT02698371|164596685|EQUIVALENCE|alpha value of 0.05 was considered||||||0.002||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Surface Luster performance at 24 Month Follow-up recall;||||0.002
82574630|NCT03784820|164858711|SUPERIORITY||LS mean difference|5.81||||0.39|TWO_SIDED|95.0|-7.37|18.98|||Mixed Models Analysis|||Comparison of Partners at Post (T2)||18.98|-7.37|0.39
82390835|NCT04338269|164492868|OTHER|Difference in Overall Response Rates|Odds Ratio (OR)|-3.68||||0.4306|TWO_SIDED|95.0|-12.45|5.1|||Cochran-Mantel-Haenszel||Odds ratio 95% CI was constructed using the Wald method. If at least one stratum has \<10 events at the time of analysis, the stratification factor containing the level with the smallest number of patients will be removed from the stratified analysis|||5.10|-12.45|0.4306
82390836|NCT04338269|164492869|OTHER|Difference in Overall Response Rates|Odds Ratio (OR)|1.0||||0.9893|TWO_SIDED|95.0|0.7|1.43|||Cochran-Mantel-Haenszel||Odds ratio 95% CI was constructed using the Wald method. If at least one stratum has \<10 events at the time of analysis, the stratification factor containing the level with the smallest number of patients will be removed from the stratified analysis|||1.43|0.70|0.9893
82444056|NCT02698371|164596685|EQUIVALENCE|alpha value of 0.05 was considered||||||0.618||||||Applied for all rows/Categories (graded on a 5-point scale) Surface Luster-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Surface Luster performance at 24 Month Follow-up recall.||||0.618
82444057|NCT02698371|164596686|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.009||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Staining Margin Performance at 24 Month Follow-up recall.||||0.009
82641437|NCT02203305|164997708|SUPERIORITY||||||=|0.264||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses were compared to responses over the post-activation period (1, 3, 6, 9, and 12 months) with the cochlear implant using a repeated-measures ANOVA.||||=0.264
82641438|NCT02203305|164997708|SUPERIORITY||||||<|0.023||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p=0.005) and subscales (p=0.001). Interaction: interval and subscales (p=0.023).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.023
82641439|NCT02203305|164997708|SUPERIORITY||||||<|0.643|||||||Mixed Models Analysis|Main effects: interval (p=0.643) and subscale (p=0.005). Interaction: interval and subscale (p=0.480).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction over time with the cochlear implant (1, 3, 6, 9, and 12 months post-activation).||||<0.643
82641440|NCT02203305|164997708|OTHER|bivariate pearson correlation (one-tailed)|||||=|0.947||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.947
82641441|NCT02203305|164997708|SUPERIORITY||||||=|0.5||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the preoperative interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.500
82641442|NCT02203305|164997708|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.51|||=|0.023|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.023
82641443|NCT02203305|164997708|OTHER|bivariate pearson correlation|bivariate pearson correlation|-0.55|||=|0.033|TWO_SIDED|||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|bivariate pearson correlation|||Association of subjective benefit (Noise Subscale) at the 12-month interval and speech recognition with AzBio sentences when the target is from the front and the masker is towards the acoustic ear.||||=0.033
82444058|NCT02698371|164596686|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.059||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Staining Margin Performance at 24 Month Follow-up recall.||||0.059
82574631|NCT03784820|164858711|SUPERIORITY||LS mean difference|6.29||||0.36|TWO_SIDED|95.0|-7.26|19.84||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||19.84|-7.26|0.36
82641444|NCT02203305|164997708|SUPERIORITY||||||>|0.208|||||||Mixed Models Analysis|Main effects: cohort (p=0.541), interval (p=0.446), and subscale (p=0.208). Interactions: 2-way or 3-way (p\>0.287).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the ease of communication, background noise, and reverberation subscales over the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.208
82527270|NCT03926065|164751113|SUPERIORITY|||||||0.0072|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||0.0072
82527271|NCT03926065|164751114|SUPERIORITY|||||||0.103|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.1030
82390837|NCT04338269|164492870|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|0.7||||0.0816|TWO_SIDED|95.0|0.47|1.05|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.05|0.47|0.0816
82390838|NCT04338269|164492870|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|0.72||||0.1099||95.0|0.49|1.08|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.08|0.49|0.1099
82444059|NCT02698371|164596686|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.829||||||Applied for all rows/Categories (graded on a 5-point scale) Staining Margin-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Staining Margin performance at 24 month follow-up recall.||||0.829
82390839|NCT04338269|164492871|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|1.04||||0.8354|TWO_SIDED|95.0|0.7|1.54|||Log Rank|Stratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.54|0.70|0.8354
82641445|NCT02203305|164997709|SUPERIORITY||||||=|0.221||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared over the post-activation time period (1, 3, 6, 9, and 12 months)."||||=0.221
82390840|NCT04338269|164492871|OTHER|Difference between Duration of Response (DOR) rates|Hazard Ratio (HR)|1.05||||0.8159|TWO_SIDED|95.0|0.71|1.55|||Log Rank|Unstratified|Hazard ratios were estimated by Cox regression. If at least one stratum has \<10 events at the time of analysis, the stratification factor that contains the level with the smallest number of patients will be removed from the stratified analysis.|||1.55|0.71|0.8159
82390841|NCT03339726|164492872|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.22||0.3|TWO_SIDED|95.0|-0.205|0.662||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.662|-0.205|0.300
82390842|NCT03339726|164492872|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.222||0.569|TWO_SIDED|95.0|-0.311|0.564||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.564|-0.311|0.569
82390843|NCT03339726|164492872|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.645|TWO_SIDED|95.0|-0.537|0.333||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.333|-0.537|0.645
82390844|NCT03339726|164492873|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.26||0.346|TWO_SIDED|95.0|-0.267|0.759||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.759|-0.267|0.346
82390845|NCT03339726|164492873|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.263||0.938|TWO_SIDED|95.0|-0.498|0.539||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.539|-0.498|0.938
82390846|NCT03339726|164492873|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.261||0.389|TWO_SIDED|95.0|-0.741|0.289||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.289|-0.741|0.389
82390847|NCT03339726|164492874|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.23||0.607|TWO_SIDED|95.0|-0.33|0.57|||ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.33|0.607
82390848|NCT03339726|164492874|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.232||0.085|TWO_SIDED|95.0|-0.06|0.86||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.86|-0.06|0.085
82390849|NCT03339726|164492874|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.23||0.22|TWO_SIDED|95.0|-0.17|0.74||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.74|-0.17|0.220
82390850|NCT03339726|164492875|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.271||0.633|TWO_SIDED|95.0|-0.4|0.66||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.40|0.633
82390851|NCT03339726|164492875|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.273||0.952|TWO_SIDED|95.0|-0.52|0.56||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.56|-0.52|0.952
82390852|NCT03339726|164492875|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.272||0.678|TWO_SIDED|95.0|-0.65|0.42||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.42|-0.65|0.678
82444060|NCT02698371|164596687|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for all rows/Categories (graded on a 5-point scale) Colour Stability-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||<0.001
82527272|NCT03926065|164751114|SUPERIORITY|||||||0.0178|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||0.0178
82390853|NCT03339726|164492876|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.25||0.126|TWO_SIDED|95.0|-0.11|0.88||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.88|-0.11|0.126
82390854|NCT03339726|164492876|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.253||0.27|TWO_SIDED|95.0|-0.22|0.78||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.78|-0.22|0.270
82390855|NCT03339726|164492876|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.251||0.676|TWO_SIDED|95.0|-0.6|0.39||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.39|-0.60|0.676
82390856|NCT03339726|164492877|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.264||0.421|TWO_SIDED|95.0|-0.31|0.73||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.73|-0.31|0.421
82390857|NCT03339726|164492877|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.266||0.97|TWO_SIDED|95.0|-0.54|0.52||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-0.54|0.970
82390858|NCT03339726|164492877|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.265||0.401|TWO_SIDED|95.0|-0.74|0.3||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.30|-0.74|0.401
82390859|NCT03339726|164492878|SUPERIORITY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.272||0.257|TWO_SIDED|95.0|-0.23|0.85||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.85|-0.23|0.257
82390860|NCT03339726|164492878|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.275||0.877|TWO_SIDED|95.0|-0.5|0.58||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.58|-0.50|0.877
82390861|NCT03339726|164492878|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.273||0.329|TWO_SIDED|95.0|-0.8|0.27||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.27|-0.80|0.329
82390862|NCT03339726|164492879|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.298||0.469|TWO_SIDED|95.0|-0.37|0.8||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.80|-0.37|0.469
82390863|NCT03339726|164492879|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.301||0.924|TWO_SIDED|95.0|-0.57|0.62||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.62|-0.57|0.924
82390864|NCT03339726|164492879|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.299||0.532|TWO_SIDED|95.0|-0.78|0.4||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.40|-0.78|0.532
82390865|NCT03339726|164492880|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.309||0.579|TWO_SIDED|95.0|-0.78|0.44||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.44|-0.78|0.579
82390866|NCT03339726|164492880|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.312||0.394|TWO_SIDED|95.0|-0.88|0.35||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.35|-0.88|0.394
82444061|NCT02698371|164596687|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for all rows/Categories (graded on a 5-point scale) of Colour Stability-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||<0.001
82390867|NCT03339726|164492880|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.31||0.76|TWO_SIDED|95.0|-0.71|0.52||The significance threshold level was 0.05 (two sided).|ANOVA|Treatment and baseline nasal congestion score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-0.71|0.760
82390868|NCT03339726|164492881|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.218||0.616|TWO_SIDED|95.0|-0.32|0.539||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.539|-0.320|0.616
82444062|NCT02698371|164596687|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.064||||||Applied for all rows/Categories (graded on a 5-point scale) of Colour Stability-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Colour Stability performance at 24 month follow-up recall.||||0.064
82527273|NCT03926065|164751114|SUPERIORITY|||||||0.241|||||||Mixed Models Analysis|||Interaction between Portion Size and Palatability||||0.2410
82390869|NCT03339726|164492881|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.22||0.734|TWO_SIDED|95.0|-0.359|0.508||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.508|-0.359|0.734
82390870|NCT03339726|164492881|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.218||0.874|TWO_SIDED|95.0|-0.465|0.395||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.395|-0.465|0.874
82527274|NCT03926065|164751115|SUPERIORITY|||||||0.0012|||||||Mixed Models Analysis|||Standard Palatability (Standard Portion Size and Larger Portion Size) compared to Enhanced Palatability (Standard Portion Size and Larger Portion Size)||||0.0012
82527275|NCT03926065|164751115|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Standard Portion Size (Standard Palatability and Enhanced Palatability) compared to Larger Portion Size (Standard Palatability and Enhanced Palatability)||||<0.0001
82390871|NCT03339726|164492882|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.75|TWO_SIDED|95.0|-0.53|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.53|0.750
82390872|NCT03339726|164492882|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.232||0.39|TWO_SIDED|95.0|-0.26|0.66||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.26|0.390
82390873|NCT03339726|164492882|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.236|TWO_SIDED|95.0|-0.18|0.73||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.73|-0.18|0.236
82527276|NCT02991482|164751134|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
82444063|NCT02698371|164596688|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.006||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.006
82390874|NCT03339726|164492883|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.267||0.707|TWO_SIDED|95.0|-0.63|0.43||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.43|-0.63|0.707
82390875|NCT03339726|164492883|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.269||0.839|TWO_SIDED|95.0|-0.59|0.48||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.48|-0.59|0.839
82390876|NCT03339726|164492883|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.267||0.864|TWO_SIDED|95.0|-0.48|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.48|0.864
82390877|NCT03339726|164492884|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.255||0.794|TWO_SIDED|95.0|-0.44|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.44|0.794
82390878|NCT03339726|164492884|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.257||0.628|TWO_SIDED|95.0|-0.38|0.63||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.63|-0.38|0.628
82641446|NCT02203305|164997709|SUPERIORITY||||||=|0.538||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared over the post-activation time period (1, 3, 6, 9, and 12 months)."||||=0.538
82641447|NCT02203305|164997709|SUPERIORITY||||||>|0.218||||||There were no significant main effects of cohort (p=0.265) or interval (p=0.430). There was no significant interaction between cohort and interval (p=0.218).|Mixed Models Analysis|Main effects: cohort (p=0.265) or interval (p=0.430). Interaction: cohort and interval (p=0.218).||Comparison of subjective benefit between groups (UHL/SSD and AHL) on the Tinnitus Handicap Inventory over the post-activation intervals (1, 3, 6, 9, and 12 months).||||>0.218
82641448|NCT02203305|164997710|SUPERIORITY||||||<|0.322||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effect: interval (p=0.084) and condition (p=0.322). Interaction: interval and condition (p=0.125).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.322
82390879|NCT03339726|164492884|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.255||0.82|TWO_SIDED|95.0|-0.45|0.56||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.56|-0.45|0.820
82527277|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for histopathology; Univariate analysis.||||||0.0000
82527278|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.1038|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for histopathology; Multivariate analysis (6 main effects only).||||||0.1038
82527279|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.0588|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for stage of disease; Univariate analysis.||||||0.0588
82390880|NCT03339726|164492885|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.266||0.33|TWO_SIDED|95.0|-0.27|0.79||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.79|-0.27|0.330
82390881|NCT03339726|164492885|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.269||0.631|TWO_SIDED|95.0|-0.4|0.66||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.66|-0.40|0.631
82390882|NCT03339726|164492885|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.266||0.625|TWO_SIDED|95.0|-0.66|0.4||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.40|-0.66|0.625
82390883|NCT03339726|164492886|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.275||0.24|TWO_SIDED|95.0|-0.22|0.87||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.87|-0.22|0.240
82390884|NCT03339726|164492886|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.278||0.865|TWO_SIDED|95.0|-0.5|0.6||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.60|-0.50|0.865
82390885|NCT03339726|164492886|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.275||0.316|TWO_SIDED|95.0|-0.82|0.27||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.27|-0.82|0.316
82390886|NCT03339726|164492887|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.284||0.529|TWO_SIDED|95.0|-0.38|0.74||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.74|-0.38|0.529
82390887|NCT03339726|164492887|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.287||0.997|TWO_SIDED|95.0|-0.56|0.57||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.56|0.997
82390888|NCT03339726|164492887|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.285||0.532|TWO_SIDED|95.0|-0.74|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.74|0.532
82390889|NCT03339726|164492888|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.309||0.468|TWO_SIDED|95.0|-0.83|0.38||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.83|0.468
82390890|NCT03339726|164492888|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.312||0.218|TWO_SIDED|95.0|-1.0|0.23||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.23|-1.00|0.218
82390891|NCT03339726|164492888|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.309||0.604|TWO_SIDED|95.0|-0.77|0.45||The significance threshold level was 0.05 (two sided).|ANCOVA|Treatment and baseline sinus pressure/tenderness score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.45|-0.77|0.604
82426253|NCT02164864|164561470|OTHER||Hazard Ratio (HR)|1.16||||0.6144|TWO_SIDED|95.0|0.66|2.04||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.04|0.66|0.6144
82527280|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.4802|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for stage of disease; Multivariate analysis (6 main effects only).||||||0.4802
82527281|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.0147|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for age at consent; Multivariate analysis (6 main effects only).||||||0.0147
82641449|NCT02203305|164997710|SUPERIORITY||||||<|0.317||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effects: interval (p=0.014) and condition (p=0.317). Interaction: interval and condition (p=0.118).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.317
82641450|NCT02203305|164997710|SUPERIORITY||||||=|0.017||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.017
82641451|NCT02203305|164997710|SUPERIORITY||||||=|0.292||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.292
82574632|NCT03784820|164858711|SUPERIORITY||LS mean difference|-1.55||||0.87|TWO_SIDED|95.0|-20.0|16.91||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||16.91|-20.00|0.87
82527282|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.1181|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for age at consent; Multivariate analysis (6 main effects only).||||||0.1181
82527283|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for gender; Univariate analysis.||||||0.0000
82390892|NCT02357706|164492998|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs"|Mean Difference (Final Values)|1.24||||0.537|TWO_SIDED||||||t-test, 1 sided|||"Comparison of AHI/ oxygen desaturation index (ODI) of Device A compared with Device B.~Efficacy is defined as a residual AHI and ODI on each night of the trial. PSG scored AHI and ODI will be collected on both trial nights (excluding the ramp period); and compared using the Paired T test"||||0.537
82390893|NCT02357706|164492998|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|1.24||||0.05|TWO_SIDED||||||t-test, 1 sided|||||||0.05
82390894|NCT02357706|164492999|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|2.69||||0.205|TWO_SIDED||||||t-test, 1 sided|||||||0.205
82390895|NCT02357706|164492999|NON_INFERIORITY|"We are testing the Hypothesis that there is a significant difference between CPAP A and CPAP B~The Null Hypothesis is H0 = One CPAP is inferior to the other CPAP The Alternate Hypothesis is H1 = There is no significant difference between the CPAPs~The expected difference mu is 0 events/hr The Non-Inferiority Margin delta is 0.75 events/hr (A difference of 1 event per hour is seen as clinically significant. 0.75 has been chosen to ensure any AHI change is seen)."|Mean Difference (Net)|2.69||||0.134|TWO_SIDED||||||t-test, 1 sided|||||||0.134
82390896|NCT01663779|164493032|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.01|TWO_SIDED|95.0|3.0|7.0|||Chi-squared|||||7|3|<0.01
82390897|NCT02017912|164493049|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.5567||0.7208|TWO_SIDED|95.0|-1.321|0.92|||Mixed Models Analysis|||||0.920|-1.321|0.7208
82390898|NCT02017912|164493050|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.881||0.641|TWO_SIDED|95.0|-2.187|1.36|||Mixed Models Analysis|||||1.360|-2.187|0.6410
82390899|NCT00535847|164493055|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.703|||||TWO_SIDED|95.0|4.259|37.884||||||Stratified Analysis (Mantel-Haenszel)- The Mantel-Haenszel estimator provides an estimate of the common odds ratio for the association between eRVR and SVR across the prior response strata.||37.884|4.259|
82390900|NCT05007041|164493057|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-0.96||||0.0037|TWO_SIDED|95.0|-8.94|7.1|||Difference in proportions|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.||The null hypothesis is simultaneous vaccination with RZV and allV4 is inferior (i.e., RZV and allV4 will have a higher proportion) to RZV and HD-IIV4 with regard to the proportion of adults with at least one severe (Grade 3) solicited local or systemic reactogenicity event on days 1-8 after RZV dose||7.10|-8.94|0.0037
82390901|NCT05007041|164493058|OTHER|Difference in proportions|Difference in proportions|-7.77|||||TWO_SIDED|95.0|-20.22|4.69||||||||4.69|-20.22|
82390902|NCT05007041|164493059|OTHER|Difference in proportions|Difference in proportions|2.59|||||TWO_SIDED|95.0|-7.29|12.47||||||||12.47|-7.29|
82390903|NCT05007041|164493060|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|1.74||||0.0031|TWO_SIDED|95.0|-4.04|7.77||The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Difference in proportions|||Number of Participants With at Least One Severe (Grade 3) Solicited Local Reactogenicity Event After SHINGRIX® Dose 1 in Each Study Group||7.77|-4.04|0.0031
82390904|NCT05007041|164493061|OTHER|Difference in proportions|Difference in proportions|-6.25|||||TWO_SIDED|95.0|-13.1|0.6|||Difference in proportions|||||0.60|-13.10|
82390905|NCT05007041|164493062|OTHER|Difference in proportions|Difference in proportions|5.89|||||TWO_SIDED|95.0|-1.32|13.11|||Difference in proportions|||||13.11|-1.32|
82527284|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for gender; Multivariate analysis (6 main effects only).||||||0.0006
82527285|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for race; Univariate analysis.||||||0.0004
82574633|NCT03784820|164858712|SUPERIORITY||LS mean difference|0.27||||0.84|TWO_SIDED|95.0|-2.29|2.83||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||2.83|-2.29|0.84
82641452|NCT02203305|164997710|OTHER|pearson correlation|||||>|0.185|||||||bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||>0.185
82527286|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.3371|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for race; Multivariate analysis (6 main effects only).||||||0.3371
82641453|NCT02203305|164997711|SUPERIORITY||||||<|0.581||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effect: interval (p=0.039) and condition (p=0.007). Interaction: interval and condition (p=0.581).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.581
82641454|NCT02203305|164997711|SUPERIORITY||||||<|0.817||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|Mixed Models Analysis|Main effects: condition (p=0.005) and interval (p=0.528). Interaction: condition and interval (p=0.817).||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.817
82641455|NCT02203305|164997711|SUPERIORITY||||||=|0.008||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.008
82641456|NCT02203305|164997711|SUPERIORITY||||||=|0.009|||||||ANOVA|||Recorded AzBio sentences in a 10-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation). Percent correct converted to RAU.||||=0.009
82641457|NCT02203305|164997711|OTHER|bivariate correlation|||||=|0.049||||||"Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.~This correlation was no longer significant when controlling for the hearing threshold at 8000 Hz."|bivariate pearson correlation|||Association of age at implantation and performance at the 12-month interval with the cochlear implant, analyzed with a Bivariate Pearson correlation (one-tailed).||||=0.049
82641458|NCT02203305|164997711|OTHER|pearson correlation|||||>|0.185|||||||bivariate pearson correlation|||Association of word recognition and speech recognition in noise, analyzed with a Bivariate Pearson correlation. Scores were averaged between 3 and 12 months post-activation as an estimate of asymptotic performance.||||>0.185
82641459|NCT02203305|164997712|SUPERIORITY||||||<|0.44|||||||Mixed Models Analysis|Main effects: interval (p=0.070) and condition (p=0.440). Interaction: interval and condition (p=0.047).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.440
82444064|NCT02698371|164596688|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.020
82527287|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for smoking history; Univariate analysis.||||||0.0000
82641460|NCT02203305|164997712|SUPERIORITY||||||<|0.379|||||||Mixed Models Analysis|Main effects: condition (p\<0.001) and interval (p=0.250). Interaction: interval and condition (p=0.379).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.379
82641461|NCT02203305|164997712|SUPERIORITY||||||=|0.021|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.021
82527288|NCT01250119|164751142|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wald Test|Test for difference in incidence of EGFR mutations for each subgroup controlled for smoking history; Multivariate analysis (6 main effects only).||||||0.0001
82574634|NCT03784820|164858712|SUPERIORITY||LS mean difference|-0.82||||0.57|TWO_SIDED|95.0|-3.66|2.01||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||2.01|-3.66|0.57
82574635|NCT03784820|164858712|SUPERIORITY||LS mean difference|0.6||||0.67|TWO_SIDED|95.0|-2.15|3.35||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||3.35|-2.15|0.67
82641462|NCT02203305|164997712|SUPERIORITY||||||<|0.001|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||<0.001
82641463|NCT02203305|164997713|SUPERIORITY||||||<|0.639||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effect: condition (p\<0.001) and interval (p=0.639). Interaction: interval and condition (p=0.280).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.639
82390906|NCT05007041|164493063|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-4.17|||<|0.0001|TWO_SIDED|95.0|-10.9|2.47|||Difference in proportions|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.||||2.47|-10.90|<0.0001
82390907|NCT05007041|164493064|OTHER|Difference in proportions|Difference in proportions|-5.68|||||TWO_SIDED|95.0|-17.64|6.28|||Difference in proportions|||||6.28|-17.64|
82641464|NCT02203305|164997713|SUPERIORITY||||||<|0.637|||||||Mixed Models Analysis|Main effects: condition (p\<0.001) and interval (p=0.637). Interaction: interval and condition (p=0.450).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.637
82641465|NCT02203305|164997713|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||<0.001
82641466|NCT02203305|164997713|SUPERIORITY||||||=|0.002|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.002
82641467|NCT02203305|164997714|SUPERIORITY||||||<|0.671|||||||Mixed Models Analysis|Main effects: interval (p=0.020) and condition (p=0.406). Interaction: interval and condition (p=0.671).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||<0.671
82641468|NCT02203305|164997714|SUPERIORITY||||||>|0.124|||||||Mixed Models Analysis|Main effects: interval (p=0.124) and condition (p=0.845). Interaction: interval and condition (p=0.960).||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) unaided and 2) with the cochlear implant (CI) over the post-activation study period. Results are reported in dB SNR, where a lower value indicates better performance. A repeated-measures ANOVA evaluated the main effects of interval (1, 3, 6, 9, and 12 months post-activation), condition (unaided or with the CI), and their interaction.||||>0.124
82641469|NCT02203305|164997714|SUPERIORITY||||||=|0.025|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.025
82641470|NCT02203305|164997714|SUPERIORITY||||||=|0.442|||||||ANOVA|||Recorded BKB sentences in a 4-talker masker were evaluated in an unaided condition for the poorer hearing ear pre-operatively and with the cochlear implant (CI) over the study period. A repeated-measures ANOVA evaluated the main effect of interval (before surgery, and 1, 3, 6, 9, and 12 months post-activation).||||=0.442
82641471|NCT02203305|164997715|SUPERIORITY||||||<|0.001||||||Percent correct values were converted to rationalized arcsine units prior to analysis.|t-test, 2 sided|||Paired samples t-test comparing word recognition (percent correct for CNC words) with a hearing aid at the pre-operative interval and the cochlear implant at the 12-month interval for the affected ear (masking presented to the contralateral ear).||||<0.001
82641472|NCT02203305|164997715|SUPERIORITY||||||<|0.001||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|t-test, 2 sided|||Paired samples t-test comparing word recognition (percent correct for CNC words) with a hearing aid at the pre-operative interval and the cochlear implant at the 12-month interval for the affected ear (masking presented to the contralateral ear).||||<0.001
82641473|NCT02203305|164997716|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Participants listened with a bone conduction device preoperatively and with the cochlear implant at 1, 3, 6, 9, and 12 months post-activation. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Repeated-measures ANOVA compared performance over time.||||<0.001
82390908|NCT05007041|164493065|OTHER|Difference in proportions|Difference in proportions|-3.3|||||TWO_SIDED|95.0|-10.5|3.89|||Difference in proportions|||||3.89|-10.50|
82390909|NCT05007041|164493066|OTHER|Difference in proportions|Difference in proportions|-0.73|||||TWO_SIDED|95.0|-2.16|0.7|||Difference in proportions|||||0.70|-2.16|
82390910|NCT05007041|164493067|OTHER|The proportion and 95% exact binomial confidence interval between vaccine groups.|Difference in proportions|-2.88|||||TWO_SIDED|95.0|-6.36|0.6|||Difference in proportions|||||0.60|-6.36|
82641474|NCT02203305|164997716|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Participants listening with a bone conduction device preoperatively and with the cochlear implant at 1, 3, 6, 9, and 12 months post-activation. Overall root-mean-square (RMS) error is the difference between the sound source azimuth and the response azimuth and a lower score indicates more accurate localization of the sound source. Repeated-measures ANOVA compared performance over time.||||<0.001
82641475|NCT02203305|164997716|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Compare localization performance with the cochlear implant to a bone-conduction device at the 12-month interval using a paired samples t-test.||||<0.001
82641476|NCT02203305|164997716|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Compare localization performance with the cochlear implant to a bone-conduction device at the 12-month interval using a paired samples t-test.||||<0.001
82641477|NCT02203305|164997717|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses at the preoperative interval (alternative treatments for unilateral hearing loss) were compared to responses over time with the cochlear implant using a repeated-measures ANOVA.||||<0.001
82641478|NCT02203305|164997717|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. The global score is calculated from the responses on the ease of communication, reverberation, and effectiveness in background noise subscales. Responses at the preoperative interval (alternative treatments for unilateral hearing loss) were compared to responses over time with the cochlear implant using a repeated-measures ANOVA.||||<0.001
82641479|NCT02203305|164997717|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscales (p\<0.001). Interaction: interval and subscales (p\<0.001).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction from the preoperative interval (alternative treatments) and over time with the cochlear implant.||||<0.001
82641480|NCT02203305|164997717|SUPERIORITY||||||<|0.01||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscales (p=0.010). Interaction: interval and subscales (p=0.001).||The Abbreviated Profile of Hearing Aid Benefit, participants rank their perceived difficulty on a scale of 1-99, with lower values indicate less perceived difficulty. Subscales include: ease of communication, reverberation, effectiveness in background noise, and reverberation. A repeated-measures ANOVA compared the main effects of interval and subscale and their interaction from the preoperative interval (alternative treatments) and over time with the cochlear implant.||||<0.010
82641481|NCT02203305|164997718|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared at the preoperative interval (alternative treatments) and over the post-activation time period (1, 3, 6, 9, and 12 months) with the cochlear implant."||||<0.001
82641482|NCT02203305|164997718|SUPERIORITY||||||=|0.003||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||"The Tinnitus Handicap Inventory is a 25-item questionnaire. The subject answers yes (4 points), sometimes (2 points), or no (0 points) to each question. Responses are added to quantify tinnitus severity: none/slight (0-16), mild (18-36), moderate (38-56), severe (58-76), and catastrophic (78-100). Responses were compared at the preoperative interval (alternative treatments) and over the post-activation time period (1, 3, 6, 9, and 12 months) with the cochlear implant."||||=0.003
82641483|NCT02203305|164997719|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared at the preoperative interval (alternative treatments for SSD) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
82641484|NCT02203305|164997719|SUPERIORITY||||||<|0.001||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|||Responses on the SSQ as measured with the total score were compared at the preoperative interval (alternative treatments for asymmetric hearing loss) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months).||||<0.001
82574636|NCT03784820|164858712|SUPERIORITY||LS mean difference|0.46||||0.63|TWO_SIDED|95.0|-1.43|2.35||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.35|-1.43|0.63
82574637|NCT03784820|164858712|SUPERIORITY||LS mean difference|1.44||||0.21|TWO_SIDED|95.0|-0.82|3.7||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||3.70|-0.82|0.21
82390911|NCT01252563|164493083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
82390912|NCT01252563|164493083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
82390913|NCT01252563|164493083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
82527289|NCT01213043|164751152|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin was: \[0.80, 1.25\]|Geometric Least Square Means Ratio|0.85|||<|0.0001|TWO_SIDED|90.0|0.83|0.88|||ANOVA|||Dose proportionality was analysed using an ANOVA model for the natural log-transformed AUC0-7days with treatment, period, and sequence as fixed effects and subject within sequence as a random effect. The treatment dose of 60 mg/kg was the reference treatment and 120 mg/kg was the test treatment. PK parameters in individual subjects for each treatment dose were dose normalized to 60mg/kg based on the actual dose administered at Week 8 or Week 18 (i.e., (AUC0-7days/Actual Dose in mg/kg)\*60mg/kg).||0.88|0.83|<0.0001
82527290|NCT02887989|164751163|SUPERIORITY|||||||0.657|||||||t-test, 2 sided|||||||.6570
82527291|NCT02887989|164751164|SUPERIORITY|||||||0.6339|||||||t-test, 2 sided|||||||.6339
82641485|NCT02203305|164997719|SUPERIORITY||||||<|0.001||||||"There were significant main effects of interval (p\<0.001) and subscale (p\<0.001) and interaction (p=0.001).~A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity."|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.001).||Responses on the SSQ as measured with the subscales (speech, spatial, \& qualities) were compared at the preoperative interval (alternative treatments for SSD) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA assessed the main effects of interval and subscale, and their interaction.||||<0.001
82647826|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.2|||<|0.001|TWO_SIDED|95.0|-8.6|-3.8||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-3.8|-8.6|<0.001
82527292|NCT01559454|164751200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.4167||||0.097|TWO_SIDED|95.0|-8.7519|79.5852|||t-test, 2 sided|||||79.5852|-8.7519|0.097
82527293|NCT01559454|164751201|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||1|TWO_SIDED|95.0|0.0713|1.8248|||Fisher Exact|||||1.8248|0.0713|1.00
82527294|NCT01559454|164751202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.55075||||0.348|TWO_SIDED|95.0|-20.37051|51.34968|||t-test, 2 sided|||||51.34968|-20.37051|0.348
82527295|NCT01559454|164751203|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|39.5833||||0.088|TWO_SIDED|95.0|-7.9653|87.132|||t-test, 2 sided|||||87.1320|-7.9653|0.088
82527296|NCT01559454|164751204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1499||||0.895|TWO_SIDED|95.0|-30.3965|27.0632|||t-test, 2 sided|||||27.0632|-30.3965|0.895
82527297|NCT01559454|164751205|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.6||||0.6999|TWO_SIDED|95.0|0.127|2.8352|||Fisher Exact|||||2.8352|0.127|0.6999
82574638|NCT03784820|164858712|SUPERIORITY||LS mean difference|1.07||||0.34|TWO_SIDED|95.0|-1.14|3.28||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||3.28|-1.14|0.34
82527298|NCT02207725|164751206|SUPERIORITY||Hodges-Lehman estimate of shift|-74.55|||<|0.0001|TWO_SIDED|95.0|-78.39|-66.28|||2-sided test exact Wilcoxon rank-sum tes|||||-66.28|-78.39|<0.0001
82527299|NCT02207725|164751206|SUPERIORITY||Hodges-Lehman estimate of shift|-59.5|||<|0.0001|TWO_SIDED|95.0|-64.1|-55.17|||2-sided test exact Wilcoxon rank-sum tes|||||-55.17|-64.10|<0.0001
82527300|NCT02207725|164751207|SUPERIORITY||Hodges-Lehman estimate of shift|-77.14|||<|0.0001|TWO_SIDED|95.0|-79.98|-74.04|||2-sided test exact Wilcoxon rank-sum tes|||||-74.04|-79.98|<0.0001
82527301|NCT02207725|164751209|SUPERIORITY||Hodges-Lehman estimate of shift|-7.09|||<|0.0001|TWO_SIDED|95.0|-8.86|-5.42|||2-sided test exact Wilcoxon rank-sum tes|||||-5.42|-8.86|<0.0001
82527302|NCT02207725|164751209|SUPERIORITY||Hodges-Lehman estimate of shift|-3.02||||0.0002|TWO_SIDED|95.0|-5.66|-1.25|||2-sided test exact Wilcoxon rank-sum tes|||||-1.25|-5.66|0.0002
82641486|NCT02203305|164997719|SUPERIORITY||||||<|0.034||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|Mixed Models Analysis|Main effects: interval (p\<0.001) and subscale (p\<0.001). Interaction: interval and subscale (p=0.034).||Responses on the SSQ as measured with the subscales (speech, spatial, \& qualities) were compared at the preoperative interval (alternative treatments for asymmetric hearing loss) and over the post-activation period (i.e., 1, 3, 6, 9, and 12 months). A repeated-measures ANOVA assessed the main effects of interval and subscale, and their interaction.||||<0.034
82641487|NCT02203305|164997719|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.001).||Responses on the SSQ Speech pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.001
82641488|NCT02203305|164997719|SUPERIORITY||||||<|0.192|||||||Mixed Models Analysis|Main effect: interval (p\<0.001) and pragmatic subscale (p=0.192). Interaction: interval and pragmatic subscale (p=0.001).||Responses on the SSQ Spatial pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.192
82641489|NCT02203305|164997719|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p\<0.001).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.001
82641490|NCT02203305|164997719|SUPERIORITY||||||<|0.479|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.479).||Responses on the SSQ Speech pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.479
82641491|NCT02203305|164997719|SUPERIORITY||||||<|0.804|||||||Mixed Models Analysis|Main effect: interval (p\<0.001) and pragmatic subscale (p=0.804). Interaction: interval and pragmatic subscale (p=0.090).||Responses on the SSQ Spatial pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.804
82641492|NCT02203305|164997719|SUPERIORITY||||||<|0.005|||||||Mixed Models Analysis|Main effects: interval (p\<0.001) and pragmatic subscale (p\<0.001). Interaction: interval and pragmatic subscale (p=0.005).||Responses on the SSQ Qualities of Hearing pragmatic subscale over the study period (i.e., preoperative, and 1, 3, 6, 9, and 12 months post-activation). A repeated-measures ANOVA compared the main effects of interval and pragmatic subscale and their interaction over time.||||<0.005
82641493|NCT02203305|164997720|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
82641494|NCT02203305|164997720|SUPERIORITY||||||=|0.034|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.034
82641495|NCT02203305|164997721|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
82641496|NCT02203305|164997721|SUPERIORITY||||||=|0.037|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.037
82641497|NCT02203305|164997722|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||<0.001
82527303|NCT02207725|164751210|SUPERIORITY||Hodges-Lehman estimate of shift|1227.35|||<|0.0001|TWO_SIDED|95.0|984.01|1456.38|||2-sided test exact Wilcoxon rank-sum tes|||||1456.38|984.01|<0.0001
82527304|NCT02207725|164751210|SUPERIORITY||Hodges-Lehman estimate of shift|999.33|||<|0.0001|TWO_SIDED|95.0|819.5|1200.53|||2-sided test exact Wilcoxon rank-sum tes|||||1200.53|819.50|<0.0001
82390914|NCT01252563|164493083|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory SBP from the baseline was equal to 0.||||<0.001
82390915|NCT01252563|164493084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
82574639|NCT03784820|164858713|SUPERIORITY||LS mean difference|-3.42||||0.5|TWO_SIDED|95.0|-13.36|6.52||Demand/Withdraw score: Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.52|-13.36|0.50
82527305|NCT02948959|164751213|SUPERIORITY|To control the type-I error rate for the analysis of outcome measure, a hierarchical testing procedure was applied at a 2-sided 5% significant level. Testing was then performed sequentially in the order endpoints were reported. Hierarchical testing sequence continued only if the previous endpoint was statistically significant.|Risk Ratio (RR)|0.353|||<|0.0001|TWO_SIDED|95.0|0.222|0.562||Threshold for statistical significance at 5% significant level.|Negative binomial model||Risk ratio, also called relative risk compares the risk (rate) of an event among one group with the risk (rate) among another group.|Risk ratio and p-value was derived using negative binomial model with total number of events onset from randomization up to Week 52 visit or last contact date (whichever comes earlier) as response variable, with treatment group, age, baseline weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level and number of severe exacerbation events within 1 year prior to study as covariates and log-transformed standardized observation duration as an offset variable.||0.562|0.222|<0.0001
82574640|NCT03784820|164858713|SUPERIORITY||LS mean difference|-0.47||||0.89|TWO_SIDED|95.0|-7.49|6.54||Demand/Withdraw Score: Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||6.54|-7.49|0.89
82641498|NCT02203305|164997722|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded AzBio sentences in a 10-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.||||=0.001
82641499|NCT02203305|164997723|SUPERIORITY||||||=|0.004|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) with a bone-conduction device (preoperative interval) and 2) with the cochlear implant (CI) at the 12-month post-activation interval. Results are reported in dB SNR, where a lower value indicates better performance. A paired samples t-test compared the performance with the two devices.||||=0.004
82641500|NCT02203305|164997723|SUPERIORITY||||||=|0.004|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.004
82641501|NCT02203305|164997724|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||<0.001
82641502|NCT02203305|164997724|SUPERIORITY||||||=|0.727|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.727
82641503|NCT02203305|164997725|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.001
82641504|NCT02203305|164997725|SUPERIORITY||||||=|0.09|||||||t-test, 2 sided|||Recorded BKB sentences in a 4-talker masker were evaluated in 2 conditions: 1) bone-conduction device at the preoperative interval and 2) with the cochlear implant (CI) at the 12-month post-activation period. A paired samples t-test compared the performance with the two devices. Results are reported in dB SNR, where a lower value indicates better performance.||||=0.090
82390916|NCT01252563|164493084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
82641505|NCT02203305|164997731|SUPERIORITY||||||<|0.923|||||||Mixed Models Analysis|Main effect: electrode (p\<0.001), target stimulus (p=0.923), and interval (p=0.226). Interaction: electrode and interval (p=0.496).||A linear mixed effects model compared the main effects of target stimulus (click, tone), electrode (1-5), and interval (1, 3, 6, and 12 months) on the normalized pitch match.||||<0.923
82641506|NCT02203305|164997731|OTHER||||||>|0.164|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and word recognition with the CI alone.||||>0.164
82390917|NCT01252563|164493084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
82390918|NCT01252563|164493084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in ambulatory DBP from the baseline was equal to 0.||||<0.001
82641507|NCT02203305|164997731|OTHER|bivariate pearson correlation|||||>|0.367|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and speech recognition in noise (masker from the front, masker towards the better hearing ear, and masker towards the poorer hearing ear).||||>0.367
82574641|NCT03784820|164858713|SUPERIORITY||LS mean difference|-0.63||||0.86|TWO_SIDED|95.0|-7.56|6.3||Demand/Withdraw Score: Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||6.30|-7.56|0.86
82574642|NCT03784820|164858713|SUPERIORITY||LS mean difference|2.55||||0.25|TWO_SIDED|95.0|-1.83|6.93||Constructive Communication Score: Comparison of Patients at Post (T2)|Mixed Models Analysis|||||6.93|-1.83|0.25
82359978|NCT00676650|164430189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.914||||0.1678|TWO_SIDED|95.0|0.762|1.097||1-sided p-value from the stratified log-rank test|Log Rank||Based on the Cox Proportional hazards model stratified by Eastern Cooperative Oncology Group (ECOG) and Disease Progression Base.|||1.097|0.762|0.1678
82359979|NCT00676650|164430190|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725|||<|0.001|TWO_SIDED|95.0|0.591|0.89||1-sided p-value from the stratified log-rank test.|Log Rank||Based on Cox Proportional Hazards Model stratified by ECOG and Disease Progression Base.|||0.890|0.591|<0.001
82359980|NCT00676650|164430191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.561||||0.04|TWO_SIDED|95.0|1.0|19.0||p-value from 2-sided Fisher's Exact test.|Fisher Exact|||||19.0|1.0|0.040
82359981|NCT05061992|164430198|SUPERIORITY|||||||0.6|||||||ANCOVA|||Change in SF-8||||0.6
82359982|NCT05061992|164430198|SUPERIORITY|||||||0.2|||||||ANCOVA|||End of trial SF-8||||0.2
82574643|NCT03784820|164858713|SUPERIORITY||LS mean difference|2.05||||0.56|TWO_SIDED|95.0|-4.83|8.92||Constructive Communication Score: Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||8.92|-4.83|0.56
82359983|NCT05061992|164430199|SUPERIORITY|||||||0.001|||||||ANCOVA|||Change in ANT||||0.001
82359984|NCT05061992|164430199|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||End of trial ANT||||0.09
82359985|NCT05061992|164430200|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82359986|NCT05061992|164430201|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
82359987|NCT05061992|164430202|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.6
82359988|NCT05061992|164430203|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
82390919|NCT01252563|164493087|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was Complication. The null hypothesis was that there was no difference between participants with complication(s) and participants without complication in the frequency of treatment-related adverse events."||||<0.001
82390920|NCT01252563|164493088|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis was that there was no difference between male and female in the frequency of treatment-related adverse events."||||<0.001
82390921|NCT01252563|164493089|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||Chi-squared|||"The risk factor tested was angina pectoris as a complication. The null hypothesis was that there was no difference between participants with angina pectoris and participants without angina pectoris in the frequency of treatment-related adverse events."||||0.036
82390922|NCT01252563|164493090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||"The risk factor tested was dyslipidaemia as a complication. The null hypothesis was that there was no difference between participants with dyslipidaemia and participants without dyslipidaemia in the frequency of treatment-related adverse events."||||0.020
82390923|NCT01252563|164493091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||Chi-squared|||"The risk factor tested was antihypertensive as a concomitant drug. The null hypothesis was that there was no difference between participants receiving antihypertensive and participants receiving no antihypertensive in the frequency of treatment-related adverse events."||||0.049
82390924|NCT01252563|164493092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||Chi-squared|||"The risk factor tested was ARB as a concomitant drug. The null hypothesis was that there was no difference between participants receiving ARB and participants receiving no ARB in the frequency of treatment-related adverse events."||||0.043
82390925|NCT01252563|164493093|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was diabetes mellitus as a complication. The null hypothesis was that there was no difference between participants with diabetes mellitus and participants without diabetes mellitus in the efficacy."||||<0.001
82390926|NCT01252563|164493094|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was chronic kidney disease as a complication. The null hypothesis was that there was no difference between participants with chronic kidney disease and participants without chronic kidney disease in the efficacy."||||<0.001
82390927|NCT01252563|164493095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Chi-squared|||"The risk factor tested was myocardial infarction as a complication. The null hypothesis was that there was no difference between participants with myocardial infarction and participants without myocardial infarction in the efficacy."||||0.039
82390928|NCT01252563|164493096|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was metabolic syndrome as a complication. The null hypothesis was that there was no difference between participants with metabolic syndrome and participants without metabolic syndrome in the efficacy."||||<0.001
82390929|NCT01252563|164493097|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The risk factor tested was ambulatory SBP at baseline. The null hypothesis was that there was no association between ambulatory SBP at baseline and the number of participants who achieved the target blood pressure specified in the guidelines."||||<0.001
82390930|NCT01252563|164493099|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
82390931|NCT01252563|164493099|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
82390932|NCT01252563|164493099|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
82390933|NCT01252563|164493099|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean change in home SBP from the baseline was equal to 0.||||<0.001
82390934|NCT01252563|164493100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 4|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
82390935|NCT01252563|164493100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 8|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
82390936|NCT01252563|164493100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Week 12|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
82390937|NCT01252563|164493100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Last Day|t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis was that the mean changes in home DBP from the baseline are equal to 0.||||<0.001
82390938|NCT02951533|164493108|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82390939|NCT03724877|164493160|OTHER||Adjusted hazard ratio (HR)|1.04|||||TWO_SIDED|95.0|0.79|1.38|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted forced expiratory volume1 (FEV1).|||1.38|0.79|
82390940|NCT03724877|164493161|OTHER||Adjusted HR|0.97|||||TWO_SIDED|95.0|0.87|1.09|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|||1.09|0.87|
82641508|NCT02203305|164997731|OTHER|bivariate pearson correlation|||||>|0.349|||||||bivariate pearson correlation|||Correlation between pitch perception (normalized mean pitch match) and sound source localization (RMS error).||||>0.349
82641509|NCT02203305|164997732|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||"Comparison of the unaided threshold at 125 Hz at the preoperative and initial activation intervals for the 25 participants with unaided threshold of 80 dB HL or better at the preoperative interval.~The data from the SSD and AHL group were combined to review hearing preservation with long arrays. The inclusion criteria for the implanted ear were the same for the SSD and AHL groups and all subjects received the same 31.5 mm electrode array."||||<0.001
82641510|NCT02203305|164997732|SUPERIORITY||||||=|0.47|||||||ANOVA|generalized linear mixed-effects model||"Comparison of the unaided threshold at 125 Hz from the initial activation to the 12-month post-activation interval for the 9 participants with an unaided threshold of 95 dB HL or better at the initial activation interval.~The data from the SSD and AHL group were combined to review hearing preservation with long arrays. The inclusion criteria for the implanted ear were the same for the SSD and AHL groups and all subjects received the same 31.5 mm electrode array."||||=0.47
82641511|NCT02203305|164997733|SUPERIORITY||||||=|0.739|||||||t-test, 2 sided|||A paired samples t-test compared the performance with the bone-conduction device at the preoperative and 12-month intervals.||||=0.739
82641512|NCT02203305|164997733|SUPERIORITY||||||=|0.553|||||||t-test, 2 sided|||A paired samples t-test compared the performance with the bone-conduction device at the preoperative and 12-month intervals.||||=0.553
82641513|NCT02203305|164997734|SUPERIORITY||||||<|0.345||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|Main effect: interval (p=0.027) and masker condition (p\<0.001). Interaction: interval and masker condition (p=0.345).||A repeated-measures ANOVA assessed the effects of interval (preoperative and 12-months) and masker condition (front, acoustic ear, or affected ear) on performance with the bone conduction device.||||<0.345
82641514|NCT02203305|164997734|SUPERIORITY||||||<|0.577||||||Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis.|ANOVA|Main effect: masker condition (p\<0.001) and interval (p=0.577). Interaction: interval and masker condition (p=0.055).||A repeated-measures ANOVA assessed the effects of interval (preoperative and 12-months) and masker condition (front, acoustic ear, or affected ear) on performance with the bone conduction device.||||<0.577
82641515|NCT02203305|164997735|SUPERIORITY||||||>|0.023|||||||Mixed Models Analysis|Main effect: coding strategy (p=0.023). Interaction: coding strategy and electrode (p=0.044). All other main effects and interactions were p\>0.160.||A linear mixed effect model assessed the main effects of stimulus, electrode, and coding strategy, and their interactions.||||>0.023
82641516|NCT02203305|164997735|SUPERIORITY||||||>|0.035|||||||t-test, 2 sided|Pitch perception for electrode 1 (p=0.035). All other comparisons were p\>0.318.||Paired samples t-tests evaluated whether pitch perception (mean normalized pitch) differed between coding strategy for each electrode.||||>0.035
82641517|NCT02203305|164997736|SUPERIORITY||||||>|0.084|||||||ANOVA|Main effects: condition (p=0.960) and interval (p=0.084). Interaction: condition and interval (p=0.433).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device) and interval (preoperative, 12-month) and their interaction on sound source localization.||||>0.084
82641518|NCT02203305|164997736|SUPERIORITY||||||>|0.434|||||||ANOVA|Main effect: condition (p=0.434) or interval (p=0.687). Interaction: condition and interval (p=0.678).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device) and interval (preoperative, 12-month) and their interaction on sound source localization.||||>0.434
82641519|NCT02203305|164997737|SUPERIORITY||||||<|0.935||||||Percent correct converted to rationalized arcsine units (RAU) prior to analysis.|ANOVA|Main effects: condition (p=0.018), interval (p=0.012), and masker (p\<0.001). Interactions: interval and masker (p\<0.001). Other interactions: p\>0.117.||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device), interval (preoperative, 12-month), and masker condition and their 2-way and 3-way interactions on speech recognition in noise.||||<0.935
82574644|NCT03784820|164858713|SUPERIORITY||LS mean difference|3.13||||0.34|TWO_SIDED|95.0|-3.27|9.54||Constructive Communication Score: Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||9.54|-3.27|0.34
82574645|NCT03784820|164858713|SUPERIORITY||LS mean difference|-10.24||||0.02|TWO_SIDED|95.0|-19.05|-1.42||Demand/Withdraw score: Comparison of Partners at Post (T2)|Mixed Models Analysis|||||-1.42|-19.05|0.02
82641520|NCT02203305|164997737|SUPERIORITY||||||<|0.977||||||A Greenhouse-Geisser correction was applied as indicated by the Mauchly test of sphericity.|ANOVA|Effects: interval (p=0.012) and masker (p\<0.001). Interactions: interval\&masker (p=0.020) \& condition, interval, \&masker (p=0.035). Others: (p\>0.131).||A repeated-measures ANOVA assessed the effects of condition (unaided, bone-conduction device), interval (preoperative, 12-month), and masker condition and their 2-way and 3-way interactions on speech recognition in noise.||||<0.977
82641521|NCT03586427|164997738|OTHER|Mixed model of repeated measures least square estimates of change compared to placebo|||||>|0.05||||||Comparison of each dose level change from baseline to placebo baseline yielded P values \>0.05|Mixed Models Analysis|||Each dose group was compared to placebo||||>0.05
82641522|NCT00593385|164997751|OTHER||Meta-Analysis|9.67||||0.005|ONE_SIDED|95.0||16.57||An exact one sided upper 95% confidence interval of the primary endpoint rate was calculated based on primary analysis population.|Exact test of the binomial distribution||To estimate primary endpoint rate, a meta-analysis was performed on data from 3 previous studies. The meta-analytical rate derived was 9.67%|The composite event rate to determine the performance metric of 16.57% was based on a meta-analysis performed on data from 3 previous studies(9.67%). A 6.9% margin was deemed acceptable at the time of study design. Rejection of the null hypothesis requires that the iCAST Covered Stent primary endpoint rate was significantly below 16.57%. Other assumptions for the analysis included a power of 80% and one-sided alpha error of 5%.||16.57||0.005
82641523|NCT00924313|164997796|SUPERIORITY||||||<|0.0001||||||The reported p-value is representative of the difference in levels of the histopathologic confirmed tumor and normal prostate tissue.|Spearman rank correlation|||||||<0.0001
82641524|NCT00924313|164997796|SUPERIORITY|||||||0.65||||||The reported p-value is representative of the BPH high uptake level.|Spearman rank correlation|||||||0.65
82641525|NCT00924313|164997799|SUPERIORITY|||||||0.55|||||||Spearman rank correlation|||||||0.55
82641526|NCT00924313|164997801|SUPERIORITY|||||||0.407|||||||Spearman rank correlation|||||||0.407
82641527|NCT03056456|164997808|SUPERIORITY||Ratio of Geometric LS Means|1.0|||||TWO_SIDED|90.0|0.81|1.23||||||Day 1||1.23|0.810|
82641528|NCT03056456|164997808|SUPERIORITY||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.817|1.25||||||Day 3||1.25|0.817|
82641529|NCT03056456|164997809|SUPERIORITY||Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|0.808|1.31||||||Day 1||1.31|0.808|
82641530|NCT03056456|164997809|SUPERIORITY|Day 3|Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.82|1.32||||||||1.32|0.820|
82641531|NCT02234427|164997824|SUPERIORITY_OR_OTHER||||||<|5e-06||||||Above noted p-value is adjusted for multiple comparisons. Analysis was performed using the TopHat/Cufflinks pipeline. The differential expression algorithm uses a beta distribution and the overdispersion with a negative binomial distribution.|negative binomial|||Null Hypothesis: There is no difference in gene expression before and after aspirin therapy||||<0.000005
82641532|NCT03707145|164997863|SUPERIORITY||Partial Eta Squared|0.058|||||TWO_SIDED|||||||||Partial Eta Squared was calculated based on ANOVA with Time (pre-post) as within subject factor and Empowerment (Professional led versus Patient Empowered) as between subject factor.||||
82641533|NCT03707145|164997864|SUPERIORITY||Partial Eta Squared|0.008|||||TWO_SIDED|||||||||Partial Eta Squared was calculated based on ANOVA with Time (pre-post) as within subject factor and Empowerment (Professional led versus Patient Empowered) as between subject factor.||||
82641534|NCT00145119|164997885|SUPERIORITY_OR_OTHER_LEGACY||proportion (%)|8.0||||||||||||||||||
82641535|NCT05405218|164998074|SUPERIORITY||Mean Difference (Net)|0.08||||0.46|TWO_SIDED|95.0|-0.13|0.29|||Mixed Models Analysis|||||0.29|-0.13|0.46
82641536|NCT05405218|164998075|SUPERIORITY||Mean Difference (Net)|0.01||||0.92|TWO_SIDED|95.0|-0.2|0.23|||Mixed Models Analysis|||||0.23|-0.2|0.92
82641537|NCT05405218|164998077|SUPERIORITY||Mean Difference (Net)|0.61||||0.09|TWO_SIDED|95.0|-0.08|1.3|||Mixed Models Analysis|||||1.3|-0.08|0.09
82641538|NCT05405218|164998078|SUPERIORITY||Mean Difference (Net)|0.0||||0.9|TWO_SIDED|95.0|-0.06|0.05|||Mixed Models Analysis|||||0.05|-0.06|0.9
82641539|NCT02207413|164998099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (D-QIV\_LP/ D-QIV\_IP) is ≤ 1.5.|Adjusted GMT Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H1N1 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/ Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.11|0.85|
82641540|NCT02207413|164998099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.05|||||TWO_SIDED|95.0|0.94|1.18|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H3N2 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.18|0.94|
82359989|NCT02459418|164430204|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-last) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|164.96|||||TWO_SIDED|90.0|137.82|197.45||||||A mixed-effects analysis of variance (ANOVA) model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. Least squares (LS) means and 90% confidence intervals (CIs) for treatment differences on log-scale were obtained and back transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||197.45|137.82|
82444065|NCT02698371|164596688|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.054||||||Applied for all rows/Categories (graded on a 5-point scale) of Fractures and Retention-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Fractures and Retention performance at 24 month follow-up recall.||||0.054
82641541|NCT02207413|164998099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5|Adjusted GMT Ratio|1.03|||||TWO_SIDED|95.0|0.91|1.16|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Yamagata strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.16|0.91|
82641542|NCT02207413|164998099|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/ Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.04|||||TWO_SIDED|95.0|0.9|1.21|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Victoria strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.21|0.90|
82641543|NCT02207413|164998100|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT ratio|1.07|||||TWO_SIDED|95.0|0.9|1.28|||ANCOVA|||The adjusted GMT of HI antibodies for H1N1 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.28|0.90|
82359990|NCT02459418|164430205|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected Cmax were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|123.15|||||TWO_SIDED|90.0|108.12|140.28||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||140.28|108.12|
82359991|NCT02459418|164430206|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-∞) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS mean ratio|133.68|||||TWO_SIDED|90.0|102.42|174.49||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||174.49|102.42|
82359992|NCT02459418|164430207|OTHER||Median Difference (Net)|7.5|||||TWO_SIDED|90.0|4.5|11.5||||||Non-transformed Tmax was tested using the non-parametric Wilcoxon signed rank test to assess the differences between Gonal-f® RFF and AFOLIA. Median differences and corresponding 90% CIs were calculated using an exact Hodges-Lehmann estimate.||11.5|4.5|
82359993|NCT02459418|164430209|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected AUC(0-last) were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|163.0|||||TWO_SIDED|90.0|94.0|282.67||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||282.67|94|
82359994|NCT02459418|164430210|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline corrected Cmax were used to assess bioequivalence between Gonal-f® RFF and AFOLIA using the bioequivalence interval of 80.00% to 125.00%.|Geometric LS Mean Ratio|177.17|||||TWO_SIDED|90.0|125.65|249.81||||||An ANOVA model with sequence, treatment and period as fixed effects, and subject nested within sequence as random effect was used. LS means and 90% CIs for treatment differences on log-scale were obtained and back-transformed to provide geometric LS mean ratios of AFOLIA over Gonal-f® RFF.||249.81|125.65|
82359995|NCT02459418|164430211|OTHER||Median Difference (Net)|2.14|||||TWO_SIDED|90.0|-9.91|12.29||||||Non-transformed Tmax was tested using the non-parametric Wilcoxon signed rank test to assess the differences between Gonal-f® RFF and AFOLIA. Median difference and corresponding 90% CIs were was calculated using an Exact Hodges-Lehmann estimate with an exact confidence interval.||12.29|-9.91|
82359996|NCT00653159|164430212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4003|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject completed the final study visit at 6 months. Under the null hypothesis, study completion rates are similar for both IUD types.||||0.4003
82359997|NCT00653159|164430213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4136|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject experienced heavy bleeding. Under the null hypothesis, heavy bleeding rates are similar for both IUD types.||||0.4136
82359998|NCT00653159|164430214|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4783|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject became pregnant within 6 months of IUD insertion. Under the null hypothesis, pregnancy rates are similar for both IUD types.||||0.4783
82359999|NCT00653159|164430215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2174|||||||Fisher Exact|Two-sided test||Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject experienced expulsion of the IUD. Under the null hypothesis, expulsion rates are similar for both IUD types.||||0.2174
82360000|NCT00653159|164430216|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|Two-sided test||"Fisher's exact test was used to examine the significance of the association between IUD type (Paragard or Mirena) and whether or not the subject reported being satisfied (happy or very happy) at the 6 month study visit. Under the null hypothesis, satisfaction rates are similar for both IUD types."||||1.0000
82360001|NCT00683592|164430221|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-2.5||||0.009|TWO_SIDED|95.0|-4.4|-0.6|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline MADRS total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.6|-4.4|0.009
82360002|NCT00683592|164430222|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-1.6||||0.026|TWO_SIDED|95.0|-3.1|-0.2|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline HAM-D 17 total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.2|-3.1|0.026
82360003|NCT00683592|164430223|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Improve|-0.3||||0.004|TWO_SIDED|95.0|-0.5|-0.1|||ANOVA|||The model was an analysis of variance (ANOVA), with terms for treatment group and center. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.1|-0.5|0.004
82360004|NCT00683592|164430224|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean Change|-1.2||||0.037|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|||The model was an analysis of covariance (ANCOVA), with terms for treatment group and center, adjusting for baseline HAM-A total score. Missing values at week 8 were handled using the last observation carried forward (LOCF) approach.||-0.1|-2.4|0.037
82360005|NCT00683592|164430225|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.134||||0.002|TWO_SIDED|95.0|0.047|0.221|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel tests were used to compare MADRS response rates between the treatment groups, stratifying by center. The asymptotic confidence interval of the risk difference was estimated by the normal approximation to the binomial distribution.||0.221|0.047|0.002
82360006|NCT00683592|164430226|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.069||||0.066|TWO_SIDED|95.0|-0.008|0.147|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel tests were used to compare MADRS remission rates between the treatment groups, stratifying by center. The asymptotic confidence interval of the risk difference was estimated by the normal approximation to the binomial distribution.||0.147|-0.008|0.066
82360007|NCT02697617|164430227|SUPERIORITY|||||||0.024||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.024
82360008|NCT02697617|164430228|SUPERIORITY|||||||0.14||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.14
82360009|NCT02697617|164430230|OTHER||||||||||||||||||comparison by paired t-test|||
82360010|NCT02697617|164430231|SUPERIORITY|||||||0.15||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|Paired t-test|||||||0.15
82360011|NCT02697617|164430232|SUPERIORITY|||||||0.4||||||First analyzed using a Linear Mixed Model to assess if there were carryover effects and then subsequently analyzed using paired t-tests to compare the mean differences between treatments.|paired t test|||||||0.4
82360012|NCT00876265|164430260|NON_INFERIORITY_OR_EQUIVALENCE|If the 95% CI or the difference between LS mean (Belotero) and LS mean (Zyplast) lies entirely above -Δ, noninferiority of Belotero will be concluded (first step). If, in addition, the CI lies entirely above 0, superiority of Belotero over Zyplast will be concluded (second step).|Adjusted (LS) mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.139||0.733|TWO_SIDED|95.0|-0.228|0.323||Treatment term and all significant (p ≤ 0.10) covariate and covariate by treatment interactions will be retained in the final ANCOVA model. From the final ANCOVA model, adjusted (LS) means for Belotero and Zyplast was computed.|ANCOVA|||"The null, H0, and the alternative hypothesis, H1, are as follows:~H0(1): adjusted mean(dadj\[i\]) ≤ -Δ versus H1(1): adjusted mean(dadj\[i\]) \> -Δ H0(2): adjusted mean(dadj\[i\]) ≤ 0 versus H1(2): adjusted mean(dadj\[i\]) \> 0 The sample size calculation was based on the following assumptions: Type I error α = 0.025 (one sided); Power = 90%; Non-inferiority margin Δ = 0.25; Estimated common standard deviation (SD) = 0.75. Under these assumptions, a total of 100 evaluable subjects were needed."||0.323|-0.228|0.733
82360013|NCT04269993|164430268|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.04|TWO_SIDED||||||t-test, 1 sided|||||||0.04
82360014|NCT01405469|164430274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.44|STANDARD_DEVIATION|2.66|<|0.001||95.0|||||t-test, 2 sided|||this pilot study was created ro evaluate sample size for the following multicenter study, based on manometric outcomes. Mean values between baseline and follow-up were compared using Student ' s t -test for paired samples. P values less then 0.05, two-sided, were considered significant.R 2.13.1(R Development Core Team (2011). Subgroups (partial vs. complete myotomy) were compared using an analysis of variance test adjusted for initial values.||||<0.001
82360015|NCT03807440|164430293|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360016|NCT03807440|164430294|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360017|NCT03807440|164430295|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360018|NCT03807440|164430296|OTHER|||||||0.8071|||||||Chi-squared|||||||0.8071
82574646|NCT03784820|164858713|SUPERIORITY||LS mean difference|-0.12||||0.98|TWO_SIDED|95.0|-8.18|7.95||Demand/Withdraw score: Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||7.95|-8.18|0.98
82360019|NCT03807440|164430296|OTHER|||||||0.764|||||||Fisher Exact|||||||0.7640
82360020|NCT03807440|164430297|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360021|NCT03807440|164430298|OTHER|||||||0.0042|||||||Chi-squared|||||||0.0042
82360022|NCT03807440|164430299|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360023|NCT03807440|164430300|OTHER|||||||0.399|||||||Chi-squared|||||||0.3990
82360024|NCT03807440|164430300|OTHER|||||||0.3842|||||||Fisher Exact|||||||0.3842
82390941|NCT03724877|164493162|OTHER||Adjusted HR|1.46|||||TWO_SIDED|95.0|1.03|2.07|||Regression, Cox||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|||2.07|1.03|
82574647|NCT03784820|164858713|SUPERIORITY||LS mean difference|-2.2||||0.59|TWO_SIDED|95.0|-10.1|5.7||Demand/Withdraw score: Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||5.70|-10.10|0.59
82360025|NCT03807440|164430301|OTHER|||||||0.0605|||||||Kruskal-Wallis|||||||0.0605
82360026|NCT03807440|164430302|OTHER|||||||0.6329|||||||Chi-squared|||||||0.6329
82360027|NCT03807440|164430302|OTHER|||||||0.7181|||||||Fisher Exact|||||||0.7181
82360028|NCT03807440|164430303|OTHER|||||||0.5233|||||||Kruskal-Wallis|||||||0.5233
82360029|NCT03807440|164430305|OTHER|||||||0.3662|||||||Kruskal-Wallis|||||||0.3662
82360030|NCT03807440|164430306|OTHER|||||||0.511|||||||Kruskal-Wallis|||||||0.5110
82360031|NCT03807440|164430307|OTHER|||||||0.0921|||||||Kruskal-Wallis|||||||0.0921
82360032|NCT03807440|164430308|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360033|NCT03807440|164430309|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360034|NCT03807440|164430310|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||||||<.0001
82360035|NCT03807440|164430311|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360036|NCT03807440|164430312|OTHER|||||||0.3201|||||||Kruskal-Wallis|||||||0.3201
82360037|NCT03807440|164430313|OTHER|||||||0.3288|||||||Chi-squared|||||||0.3288
82360038|NCT03807440|164430313|OTHER|||||||0.171|||||||Fisher Exact|||||||0.1710
82360039|NCT03807440|164430314|OTHER|||||||0.013|||||||Kruskal-Wallis|||||||0.0130
82360040|NCT03807440|164430315|OTHER|||||||0.0026|||||||Kruskal-Wallis|||||||0.0026
82360041|NCT03807440|164430316|OTHER|||||||0.3978|||||||Kruskal-Wallis|||||||0.3978
82360042|NCT03807440|164430317|OTHER|||||||0.0055|||||||Chi-squared|||||||0.0055
82360043|NCT03807440|164430317|OTHER|||||||0.0041|||||||Fisher Exact|||||||0.0041
82360044|NCT03807440|164430318|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360045|NCT03807440|164430319|OTHER|||||||0.0399|||||||Chi-squared|||||||0.0399
82360046|NCT03807440|164430319|OTHER|||||||0.0401|||||||Fisher Exact|||||||0.0401
82360047|NCT03807440|164430337|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360048|NCT03807440|164430338|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360049|NCT03807440|164430339|OTHER|||||||0.0008|||||||Chi-squared|||||||0.0008
82360050|NCT03807440|164430341|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360051|NCT03807440|164430342|OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
82360052|NCT03807440|164430343|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360053|NCT03807440|164430344|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360054|NCT03807440|164430345|OTHER|||||||0.9184|||||||Chi-squared|||||||0.9184
82360055|NCT03807440|164430345|OTHER|||||||0.9911|||||||Fisher Exact|||||||0.9911
82360056|NCT03807440|164430346|OTHER|||||||0.6967|||||||Chi-squared|||||||0.6967
82360057|NCT03807440|164430346|OTHER|||||||0.6439|||||||Fisher Exact|||||||0.6439
82360058|NCT03807440|164430347|OTHER|||||||0.9414|||||||Chi-squared|||||||0.9414
82360059|NCT03807440|164430347|OTHER|||||||0.8142|||||||Fisher Exact|||||||0.8142
82360060|NCT03807440|164430348|OTHER|||||||0.7837|||||||Chi-squared|||||||0.7837
82360061|NCT03807440|164430348|OTHER|||||||0.7538|||||||Fisher Exact|||||||0.7538
82360062|NCT03807440|164430349|OTHER|||||||0.0012|||||||Chi-squared|||||||0.0012
82360063|NCT03807440|164430350|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360064|NCT03807440|164430351|OTHER|||||||0.1906|||||||Chi-squared|||||||0.1906
82360065|NCT03807440|164430352|OTHER|||||||0.6198|||||||Chi-squared|||||||0.6198
82360066|NCT03807440|164430352|OTHER|||||||0.7297|||||||Fisher Exact|||||||0.7297
82574648|NCT03784820|164858713|SUPERIORITY||LS mean difference|2.41||||0.16|TWO_SIDED|95.0|-0.99|5.82||Constructive Communication Score: Comparison of Partners at Post (T2)|Mixed Models Analysis|||||5.82|-0.99|0.16
82360067|NCT03807440|164430354|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360068|NCT03807440|164430355|OTHER|||||||0.0012|||||||Chi-squared|||||||0.0012
82360069|NCT03807440|164430355|OTHER|||||||0.0002|||||||Fisher Exact|||||||0.0002
82360070|NCT03807440|164430356|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82360071|NCT03807440|164430359|OTHER|||||||0.003|||||||Log Rank|||||||0.0030
82360072|NCT01332968|164430391|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.0012|TWO_SIDED|95.0|0.51|0.85|||Log Rank|Stratified by chemotherapy regimen and Follicular Lymphoma International Prognostic Index (FLIPI) risk group.||||0.85|0.51|0.0012
82360073|NCT01332968|164430392|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0055|TWO_SIDED|95.0|0.64|0.93|||Log Rank|Stratified by chemotherapy regimen and Follicular Lymphoma International Prognostic Index (FLIPI) risk group.||||0.93|0.64|0.0055
82360074|NCT01332968|164430393|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0028|TWO_SIDED|95.0|0.65|0.91|||Log Rank|||||0.91|0.65|0.0028
82360075|NCT01332968|164430394|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0118|TWO_SIDED|95.0|0.56|0.93|||Log Rank|||||0.93|0.56|0.0118
82360076|NCT01332968|164430395|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0038||95.0|0.57|0.9|||Log Rank|||||0.90|0.57|0.0038
82360077|NCT01332968|164430396|SUPERIORITY||Absolute difference in %|1.8||||0.3|TWO_SIDED|95.0|-2.02|5.68|||Log Rank|||Without PET||5.68|-2.02|0.30
82360078|NCT01332968|164430396|SUPERIORITY||Absolute difference in %|4.3||||0.17|TWO_SIDED|95.0|-1.8|10.5|||Log Rank|||With PET||10.5|-1.8|0.17
82360079|NCT01332968|164430397|SUPERIORITY||Absolute difference in %|1.6||||0.33|TWO_SIDED|95.0|-2.0|5.3|||Log Rank|||Without PET||5.3|-2.0|0.33
82360080|NCT01332968|164430397|SUPERIORITY||Absolute difference in %|3.5||||0.17|TWO_SIDED|95.0|-2.3|9.4|||Log Rank|||With PET||9.4|-2.3|0.17
82360081|NCT01332968|164430398|SUPERIORITY||Absolute difference in %|-5.5||||0.02|TWO_SIDED|95.0|-10.2|-0.78|||Log Rank|||Without PET||-0.78|-10.2|0.02
82360082|NCT01332968|164430398|SUPERIORITY||Absolute difference in %|5.2||||0.32|TWO_SIDED|95.0|-2.8|13.3|||Log Rank|||With PET||13.3|-2.8|0.32
82360083|NCT01332968|164430399|SUPERIORITY||Absolute difference in %|-4.9||||0.02||95.0|-9.3|0.6|||Log Rank|||Without PET||0.6|-9.3|0.02
82360084|NCT01332968|164430399|SUPERIORITY||Absolute difference in %|4.1||||0.33||95.0|-3.6|11.8|||Log Rank|||With PET||11.8|-3.6|0.33
82360085|NCT01332968|164430400|SUPERIORITY||Absolute difference in %|3.3||||0.052|TWO_SIDED|95.0|-0.19|6.85|||Log Rank|||Without PET||6.85|-0.19|0.052
82360086|NCT01332968|164430400|SUPERIORITY||Absolute difference in %|3.3||||0.3|TWO_SIDED|95.0|-2.3|8.9|||Log Rank|||With PET||8.9|-2.3|0.30
82360087|NCT01332968|164430401|SUPERIORITY||Absolute difference in %|3.2||||0.049|TWO_SIDED|95.0|-0.3|6.6|||Log Rank|||Without PET||6.6|-0.3|0.049
82360088|NCT01332968|164430401|SUPERIORITY||Absolute difference in %|3.9||||0.22|TWO_SIDED|95.0|-1.7|9.5|||Log Rank|||With PET||9.5|-1.7|0.22
82360089|NCT01332968|164430402|SUPERIORITY||Absolute difference in %|1.7||||0.58|TWO_SIDED|95.0|-3.5|6.8|||Log Rank|||Without PET||6.8|-3.5|0.58
82360090|NCT01332968|164430402|SUPERIORITY||Absolute difference in %|11.7||||0.006|TWO_SIDED|95.0|3.9|19.4|||Log Rank|||||19.4|3.9|0.006
82360091|NCT01332968|164430403|SUPERIORITY||Absolute difference in %|0.7||||0.8|TWO_SIDED|95.0|-4.0|5.5|||Log Rank|||Without PET||5.5|-4.0|0.80
82360092|NCT01332968|164430403|SUPERIORITY||Absolute difference in %|10.1||||0.009||95.0|2.6|17.6|||Log Rank|||With PET||17.6|2.6|0.009
82360093|NCT01332968|164430404|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3577||95.0|0.63|1.18|||Log Rank|||||1.18|0.63|0.3577
82360094|NCT01332968|164430405|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.25||95.0|0.58|1.16|||Log Rank|||||1.16|0.58|0.25
82360095|NCT01332968|164430406|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0015|TWO_SIDED|95.0|0.62|0.89|||Log Rank|||||0.89|0.62|0.0015
82360096|NCT01332968|164430407|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0004||95.0|0.56|0.85|||Log Rank|||||0.85|0.56|0.0004
82360097|NCT01332968|164430408|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.71|1.27|||Log Rank|||||1.27|0.71|
82360098|NCT01332968|164430409|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.5|1.19||||||||1.19|0.50|
82360099|NCT01332968|164430410|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.63|0.93|||Log Rank|||||0.93|0.63|
82360100|NCT01332968|164430411|SUPERIORITY||Hazard Ratio (HR)|0.69||||||95.0|0.55|0.88||||||||0.88|0.55|
82360101|NCT01332968|164430412|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.001|TWO_SIDED|95.0|0.58|0.87|||Log Rank|||||0.87|0.58|0.001
82360102|NCT01332968|164430413|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.004||95.0|0.54|0.89|||Log Rank|||||0.89|0.54|0.004
82360103|NCT04010227|164430422|SUPERIORITY||partial correlation|0.08||||0.6|TWO_SIDED|95.0|-0.23|0.4||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. multiply imputed data were used in analyses.||||0.40|-0.23|0.60
82360104|NCT04010227|164430423|SUPERIORITY||partial correlation|0.02||||0.96|TWO_SIDED|95.0|-0.29|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.34|-0.29|0.96
82641544|NCT02207413|164998100|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5|Adjusted GMT Ratio|1.18|||||TWO_SIDED|95.0|1.0|1.39|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for H3N2 strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.39|1.00|
82641545|NCT02207413|164998100|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.27|||ANCOVA|||The adjusted GMT of HI antibodies for Yamagata strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate.||1.27|0.91|
82641546|NCT02207413|164998100|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Influsplit Tetra\_LP/Influsplit Tetra\_IP) is ≤ 1.5.|Adjusted GMT Ratio|1.17|||||TWO_SIDED|95.0|0.99|1.38|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval (Ancova model: adjustment for baseline titer - pooled variance).|The adjusted GMT of HI antibodies for Victoria strain at post-vaccination of each vaccine, the GMT ratio of Influsplit Tetra\_LP/Influsplit Tetra\_IP and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination antibody titer as covariate||1.38|0.99|
82641547|NCT00299546|164998143|SUPERIORITY_OR_OTHER||||||<|0.001||||||A positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise comparisons at 0.05 level.|Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX)||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Group 1 vs. Combined Groups 2 and 3. A sample size of 140 patients per group provides a \>90% power assuming 50% of patients used Methotrexate (MTX) at baseline and 30% ACR 20 response in placebo and 40\~55% ACR 20 response in golimumab groups.||||<0.001
82641548|NCT00299546|164998143|SUPERIORITY_OR_OTHER|||||||0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX||Null Hypothesis: No difference in ACR 20 response at Wk 14 between Group 1: Placebo and Group 2: 50 mg.||||0.001
82574649|NCT03784820|164858713|SUPERIORITY||LS mean difference|3.94||||0.12|TWO_SIDED|95.0|-1.05|8.93||Constructive Communication Score: Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||8.93|-1.05|0.12
82574650|NCT03784820|164858713|SUPERIORITY||LS mean difference|2.26||||0.34|TWO_SIDED|95.0|-2.35|6.87||Constructive Communication Score: Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||6.87|-2.35|0.34
82574651|NCT03784820|164858714|SUPERIORITY||LS mean difference|0.09||||0.7|TWO_SIDED|95.0|-0.35|0.53||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||0.53|-0.35|0.70
82641549|NCT00299546|164998143|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||Null Hypothesis: No difference in ACR 20 response at Wk 14 between Group 1: Placebo and Group 3 :100 mg.||||<0.001
82641550|NCT00299546|164998144|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX).||||||0.003
82641551|NCT00299546|164998144|SUPERIORITY_OR_OTHER|||||||0.021||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.021
82641552|NCT00299546|164998144|SUPERIORITY_OR_OTHER|||||||0.002||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.002
82574652|NCT03784820|164858714|SUPERIORITY||LS mean difference|-0.03||||0.9|TWO_SIDED|95.0|-0.48|0.42||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||0.42|-0.48|0.90
82574653|NCT03784820|164858714|SUPERIORITY||LS mean difference|0.25||||0.38|TWO_SIDED|95.0|-0.31|0.82||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||0.82|-0.31|0.38
82574654|NCT03784820|164858715|SUPERIORITY||LS mean difference|-0.33||||0.89|TWO_SIDED|95.0|-5.1|4.43||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||4.43|-5.10|0.89
82574655|NCT03784820|164858715|SUPERIORITY||LS mean difference|0.45||||0.85|TWO_SIDED|95.0|-4.14|5.04||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||5.04|-4.14|0.85
82574656|NCT03784820|164858715|SUPERIORITY||LS mean difference|-0.85||||0.72|TWO_SIDED|95.0|-5.54|3.85||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||3.85|-5.54|0.72
82360105|NCT04010227|164430424|SUPERIORITY||partial correlation|0.06||||0.75|TWO_SIDED|95.0|-0.25|0.38||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.38|-0.25|0.75
82360106|NCT04010227|164430425|SUPERIORITY||partial correlation|0.09||||0.33|TWO_SIDED|95.0|-0.23|0.4||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.40|-0.23|0.33
82574657|NCT03784820|164858715|SUPERIORITY||LS mean difference|-3.05||||0.29|TWO_SIDED|95.0|-8.73|2.63||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.63|-8.73|0.29
82574658|NCT03784820|164858715|SUPERIORITY||LS mean difference|-4.69||||0.08|TWO_SIDED|95.0|-9.9|0.51||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||0.51|-9.90|0.08
82574659|NCT03784820|164858715|SUPERIORITY||LS mean difference|-3.29||||0.19|TWO_SIDED|95.0|-8.23|1.65||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||1.65|-8.23|0.19
82641553|NCT00299546|164998145|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methorexate (MTX).||||||<0.001
82641554|NCT00299546|164998145|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
82641555|NCT00299546|164998145|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
82641556|NCT00299546|164998146|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by baseline Methotrexate (MTX).||||||<0.001
82641557|NCT00299546|164998146|SUPERIORITY_OR_OTHER|||||||0.002||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||0.002
82641558|NCT00299546|164998146|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|Cochran-Mantel-Haenszel|Stratified by baseline MTX.||||||<0.001
82641559|NCT00299546|164998147|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|Stratified by baseline Methotrexate (MTX).||||||<0.001
82641560|NCT00299546|164998147|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|ANOVA on van der Waerden normal scores.|Stratified by baseline MTX.||||||<0.001
82641561|NCT00299546|164998147|SUPERIORITY_OR_OTHER||||||<|0.001||||||Test was performed because Group 1: Placebo was significantly different from Combined Groups 2 \& 3.|ANOVA on van der Waerden normal scores.|Stratified by baseline MTX.||||||<0.001
82641562|NCT02411110|164998204|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34||||0.505|||||||ANCOVA|Baseline value as a covariate; treatment group and stratification (age: \< 40 or ≥ 40 years and baseline bladder pain NRS: ≤ 6 or \> 6) as factors.|LiRIS® - Placebo|||||0.505
82641563|NCT00526162|164998205|OTHER||percentage|0.0|||<|0.03|ONE_SIDED|97.0||||Using a confidence interval of 97%, the exact binomial upper confidence bound was 9.5% which is lower than the 10% set for the primary safety objective. Therefore, the actual p-value has not been calculated further.|One proportion binomial exact||The confidence interval was calculated based on 35 patients who completed 1-month follow-up at interim analysis.|||||<0.03
82360107|NCT04010227|164430426|SUPERIORITY||partial correlation|0.03||||0.91|TWO_SIDED|95.0|-0.29|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.34|-0.29|0.91
82360108|NCT04010227|164430427|SUPERIORITY||partial correlation|0.06||||0.74|TWO_SIDED|95.0|-0.25|0.38||P-value for study group x time interaction for patient physical quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.38|-0.25|0.74
82360109|NCT04010227|164430427|SUPERIORITY||partial correlation|0.14||||0.24|TWO_SIDED|95.0|-0.18|0.45||P-value for study group x time interaction for patient psychological quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.45|-0.18|0.24
82390942|NCT03724877|164493163|OTHER||Adjusted rate ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04|||Negative binomial regression model||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|Moderate/ sever exacerbation||1.04|0.83|
82390943|NCT03724877|164493163|OTHER||Adjusted rate ratio|0.94|||||TWO_SIDED|95.0|0.7|1.28|||Negative binomial regression model||After matching on high-dimensional propensity scores, sex prior severe exacerbation, prior maintenance treatment and calendar time, adjusted further for the deciles of propensity score and percent predicted FEV1.|Severe exacerbation||1.28|0.70|
82641564|NCT01353586|164998217|SUPERIORITY_OR_OTHER||Proportion of events|71.6|||||TWO_SIDED|95.0|63.3|79.8|||||The above supplemental analysis is to estimate the rate of subjects without documented symptomatic AF at Day 240 using the Kaplan-Meier time-to-event analysis method to accommodate the censored information from the two withdrawn subjects.|||79.8|63.3|
82641565|NCT05027958|164998224|SUPERIORITY|||||||0.05714|||||||Wilcoxon (Mann-Whitney)|||||||0.05714
82641566|NCT00491322|164998228|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82641567|NCT00807040|164998230|OTHER|We tested this hypothesis in an intention-to-treat analysis using a two-tailed Wilcoxon rank-sum test, at a 0.05 alpha level. This analysis accommodated nonignorable missing LVESVI outcomes owing to the death of patients by assigning deceased patients the worst ranks in order on the basis of the time of death. We used multiple imputation for data that were missing for reasons other than death to calculate the 12-month LVESVI on the assumption that the data were missing at random.||||||0.18|||||||Wilcoxon (Mann-Whitney)|||The trial was designed with a power of 90% to detect a between-group difference of 15 ml per square meter in the LVESVI from baseline to 12 months. We assumed a baseline LVESVI of 100 ml per square meter, improvements of 20 ml per square meter in the repair group and 35 ml per square meter in the replacement group, and equal 1-year mortality of 10 to 20% in the two groups. The primary null hypothesis was that there would be no between-group difference in the LVESVI at 12 months.||||0.18
82641568|NCT00807040|164998231|OTHER|We used the log-rank test to compare rates of death from baseline to 2 years.|Hazard Ratio (HR)|0.79||||0.39|TWO_SIDED|95.0|0.46|1.35|||Log Rank|||||1.35|0.46|0.39
82641569|NCT04221477|164998266|SUPERIORITY||Adjusted Difference|13.4||||0.0232|TWO_SIDED|95.0|1.95|24.84||Test 1 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|Cochran-Mantel-Haenszel|||||24.84|1.95|0.0232
82641570|NCT04221477|164998267|SUPERIORITY||Adjusted Difference|11.88||||0.0421|TWO_SIDED|95.0|0.57|23.18||Test 2 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|Cochran-Mantel-Haenszel|||||23.18|0.57|0.0421
82641571|NCT04221477|164998268|SUPERIORITY||Adjusted Difference|13.68||||0.0227|TWO_SIDED|95.0|2.01|25.36||Test 3 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.04 with fallback method.|Cochran-Mantel-Haenszel|||||25.36|2.01|0.0227
82641572|NCT04221477|164998269|SUPERIORITY||Difference in Adjusted Means|3.84||||0.1842|TWO_SIDED|95.0|-1.83|9.51||Test 4 of 7 maintaining a fixed sequence testing for type I error control at two-sided alpha 0.05.|ANCOVA|||||9.51|-1.83|0.1842
82360110|NCT04010227|164430427|SUPERIORITY||partial correlation|0.06||||0.78|TWO_SIDED|95.0|-0.26|0.37||P-value for study group x time interaction for patient existential quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.37|-0.26|0.78
82641573|NCT04221477|164998270|SUPERIORITY||Adjusted Difference|-16.83||||0.0026|TWO_SIDED|95.0|-27.42|-6.23||Ranked 5 of 7 in the fixed sequence for type I error control. P-value is nominal as the hierarchical testing stops at the first non-significant endpoint.|Cochran-Mantel-Haenszel|||||-6.23|-27.42|0.0026
82641574|NCT04221477|164998271|SUPERIORITY||Adjusted Difference|8.36||||0.167|TWO_SIDED|95.0|-3.41|20.12||Ranked 6 of 7 in the fixed sequence for type I error control.|Cochran-Mantel-Haenszel|||||20.12|-3.41|0.1670
82641575|NCT04221477|164998272|SUPERIORITY||Difference in Adjusted Means|-1.35||||0.2991|TWO_SIDED|95.0|-3.89|1.2||Ranked 7 of 7 in the fixed sequence for type I error control.|ANCOVA|||||1.20|-3.89|0.2991
82641576|NCT04221477|164998273|SUPERIORITY||Difference in Adjusted Means|-0.36||||0.0006|TWO_SIDED|95.0|-0.57|-0.16||Not type I error controlled.|ANCOVA|||||-0.16|-0.57|0.0006
82641577|NCT04221477|164998274|SUPERIORITY||Difference in Adjusted Means|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||Not type I error controlled|ANCOVA|||||0.20|0.08|<0.0001
82641578|NCT04221477|164998275|SUPERIORITY||Difference in Adjusted Means|-0.12||||0.9384|TWO_SIDED|95.0|-3.11|2.87||Not type I error controlled.|ANCOVA|||||2.87|-3.11|0.9384
82641579|NCT04221477|164998276|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.1324|TWO_SIDED|95.0|0.91|1.89||Not type I error controlled.|Log Rank|||||1.89|0.91|0.1324
82641580|NCT04221477|164998277|SUPERIORITY||Adjusted Difference|13.37||||0.0237|TWO_SIDED|95.0|1.91|24.82||Not type I error controlled.|Cochran-Mantel-Haenszel|||||24.82|1.91|0.0237
82641581|NCT02242942|164998283|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.22|0.51|||Log Rank||Hazard ratios were estimated by Cox regression model. Stratification factors: Binet and Geographic region.|||0.51|0.22|<0.0001
82641582|NCT02242942|164998284|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.23|0.53|||Log Rank||Hazard Ratios were estimated by Cox regression model. Stratification factors: Binet and Geographic region.|||0.53|0.23|<0.0001
82641583|NCT02242942|164998285|SUPERIORITY||Difference in Response Rates|13.43||||0.0007|TWO_SIDED|95.0|5.47|21.38||P-value was assessed using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for difference in rates were constructed using Anderson-Hauck method.|||21.38|5.47|0.0007
82641584|NCT02242942|164998286|SUPERIORITY||Difference in Response Rates|26.39|||<|0.0001|TWO_SIDED|95.0|17.41|35.36||P-value was assessed using CMH test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||35.36|17.41|<0.0001
82641585|NCT02242942|164998287|SUPERIORITY||Difference in MRD Negative Rates|40.28|||<|0.0001|TWO_SIDED|95.0|31.45|49.1|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||49.10|31.45|<0.0001
82641586|NCT02242942|164998288|SUPERIORITY||Difference in MRD Negative Rates|39.81|||<|0.0001|TWO_SIDED|95.0|31.27|48.36|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|||48.36|31.27|<0.0001
82641587|NCT02242942|164998290|SUPERIORITY||Difference in MRD Negative Rates|32.87|||<|0.0001|TWO_SIDED|95.0|23.76|41.98|||Chi-squared||95% CI for difference in rates were constructed using Anderson-Hauck method.|||41.98|23.76|<0.0001
82641588|NCT02242942|164998291|SUPERIORITY||Difference in MRD Negative Rates|38.43|||<|0.0001|TWO_SIDED|95.0|30.15|46.71|||Chi-squared||95% CI for difference in rates were constructed using Anderson-Hauck method.|||46.71|30.15|<0.0001
82641589|NCT02242942|164998292|SUPERIORITY||Difference in Response Rates|1.85||||0.5612|TWO_SIDED|95.0|-4.63|8.33||P-value was assessed using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for difference in rates were constructed using Anderson-Hauck method.|||8.33|-4.63|0.5612
82641590|NCT02242942|164998294|SUPERIORITY||Difference in Response Rates|0.93||||0.7169|TWO_SIDED|95.0|-4.66|6.51|||Cochran-Mantel-Haenszel|P-value was assessed using CMH test stratified by the IvRS randomization stratification factors.|95% CI for difference in rates were constructed using Anderson-Hauck method.|||6.51|-4.66|0.7169
82641591|NCT05014672|164998306|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.86||||0.0206|TWO_SIDED|95.0|0.746|0.994|||Mixed Model Repeated Measures|||||0.994|0.746|0.0206
82641592|NCT05014672|164998306|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.81||||0.0057|TWO_SIDED|95.0|0.703|0.939|||Mixed Model Repeated Measures|||||0.939|0.703|0.0057
82641593|NCT05014672|164998307|SUPERIORITY||LS mean difference vs placebo|-2.16||||0.2214|TWO_SIDED|95.0|-7.785|3.458|||Mixed Model Repeated Measures|||||3.458|-7.785|0.2214
82641594|NCT05014672|164998307|SUPERIORITY||LS mean difference vs placebo|0.63||||0.591|TWO_SIDED|95.0|-4.859|6.12|||Mixed Model Repeated Measures|||||6.120|-4.859|0.5910
82390944|NCT04687072|164493214|SUPERIORITY||Difference in percentage|-3.5||||0.5081|TWO_SIDED|95.0|-14.7|7.0||The p-value was calculated using the Cochran-Mantel-Haenszel test used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentages and 95% confidence interval (CI) (Klingenberg approach) were presented.|||7.0|-14.7|0.5081
82390945|NCT04687072|164493215|SUPERIORITY||Location shift|0.0||||0.4925|TWO_SIDED|95.0|0.0|0.0||The p-value was calculated using the stratified Mann-Whitney test used in the hierarchical testing procedure.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||0.000|0.000|0.4925
82574660|NCT03784820|164858716|SUPERIORITY||LS mean difference|-1.2||||0.41|TWO_SIDED|95.0|-4.08|1.67||Comparison of Patients at Post (T2)|Mixed Models Analysis|||||1.67|-4.08|0.41
82641595|NCT05014672|164998310|SUPERIORITY||LS mean difference vs placebo|0.42||||0.5675|TWO_SIDED|95.0|-4.454|5.285|||Mixed Model Repeated Measures|||||5.285|-4.454|0.5675
82641596|NCT05014672|164998310|SUPERIORITY||LS mean difference vs placebo|0.02||||0.5032|TWO_SIDED|95.0|-4.886|4.926|||Mixed Model Repeated Measures|||||4.926|-4.886|0.5032
82641597|NCT05014672|164998311|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.85||||0.0491|TWO_SIDED|95.0|0.692|1.033|||Mixed Model Repeated Measures|||||1.033|0.692|0.0491
82641598|NCT05014672|164998311|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.95||||0.3099|TWO_SIDED|95.0|0.783|1.158|||Mixed Model Repeated Measures|||||1.158|0.783|0.3099
82641599|NCT05014672|164998317|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.84||||0.0039|TWO_SIDED|95.0|0.743|0.954|||Mixed Model Repeated Measures|||||0.954|0.743|0.0039
82641600|NCT05014672|164998318|SUPERIORITY||LS mean difference vs placebo|0.3905||||0.3905|TWO_SIDED|95.0|-5.496|4.153|||Mixed Model Repeated Measures|||||4.153|-5.496|0.3905
82527306|NCT02948959|164751214|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|Risk Ratio (RR)|0.407|||<|0.0001|TWO_SIDED|95.0|0.274|0.605||Threshold for statistical significance at 5% significant level.|Negative binomial model||Risk ratio, also called relative risk compares the risk (rate) of an event among one group with the risk (rate) among another group.|Risk ratio and p-value was derived using negative binomial model with total number of events onset from randomization up to Week 52 visit or last contact date (whichever comes earlier) as response variable, with treatment group, age, baseline weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level and number of severe exacerbation events within 1 year prior to study as covariates and log-transformed standardized observation duration as an offset variable.||0.605|0.274|<0.0001
82574661|NCT03784820|164858716|SUPERIORITY||LS mean difference|0.33||||0.84|TWO_SIDED|95.0|-2.87|3.54||Comparison of Patients at 3 Month Fup (T3)|Mixed Models Analysis|||||3.54|-2.87|0.84
82390946|NCT04687072|164493216|SUPERIORITY||Difference in percentage|-0.5||||0.9314|TWO_SIDED|95.0|-11.7|10.0||The p-value was calculated using the Cochran-Mantel-Haenszel test used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentages and 95% CI (Klingenberg approach) were presented.|||10.0|-11.7|0.9314
82390947|NCT04687072|164493217|SUPERIORITY||Difference in percentage|-1.7||||0.7379|TWO_SIDED|95.0|-12.4|8.2||The Cochran-Mantel-Haenszel test p-value was used in the hierarchical testing procedure.|Cochran-Mantel-Haenszel||The adjusted difference in percentage and 95% CI (Klingenberg approach) are presented.|||8.2|-12.4|0.7379
82641601|NCT05014672|164998319|SUPERIORITY||LS mean difference vs placebo|0.21||||0.5393|TWO_SIDED|95.0|-3.968|4.381|||Mixed Model Repeated Measures|||||4.381|-3.968|0.5393
82390948|NCT04687072|164493218|OTHER||Difference in percentage|4.2|||||TWO_SIDED|95.0|-9.3|16.8|||||||The 95% Agresti-Min CIs are presented.|16.8|-9.3|
82390949|NCT04687072|164493219|SUPERIORITY||Location shift|0.0||||0.726|TWO_SIDED|95.0|0.0|0.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||0.000|0.000|0.7260
82390950|NCT04687072|164493220|OTHER||Difference in percentage|2.5|||||TWO_SIDED|95.0|-9.6|13.0|||||The 95% Agresti-Min CIs are presented.|||13.0|-9.6|
82390951|NCT04687072|164493223|SUPERIORITY||Location shift|0.0||||0.2929|TWO_SIDED|95.0|0.0|1.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||1.000|0.000|0.2929
82390952|NCT04687072|164493224|SUPERIORITY||Location shift|0.0||||0.1475|TWO_SIDED|95.0|0.0|1.0||The p-value was calculated using the stratified Mann-Whitney test.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|||1.000|0.000|0.1475
82390953|NCT04687072|164493225|SUPERIORITY||Location shift|0.0||||0.7677|TWO_SIDED|95.0|-2.0|2.0||The p-value was calculated using the stratified Mann-Whitney test used in the hierarchical testing procedure.|Wilcoxon (Mann-Whitney)||The Hodges-Lehmann estimator of the treatment difference and 95% CI are presented.|WHO Classified Bleeding Event Grade ≥1||2.000|-2.000|0.7677
82390954|NCT04687072|164493226|OTHER||Difference in percentage|-1.2|||||TWO_SIDED|95.0|-11.8|7.3|||||The 95% Agresti-Min CIs are presented.|IWG Complete Response||7.3|-11.8|
82641602|NCT05014672|164998320|SUPERIORITY||Ratio of geometric LS mean vs placebo|0.9||||0.1079|TWO_SIDED|95.0|0.759|1.065|||Mixed Model Repeated Measures|||||1.065|0.759|0.1079
82390955|NCT04687072|164493226|OTHER||Difference in percentage|8.5|||||TWO_SIDED|95.0|-4.6|20.2|||||The 95% Agresti-Min CIs are presented.|IWG Response||20.2|-4.6|
82641603|NCT05455684|164998355|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.2|=|0.467|TWO_SIDED|95.0|-3.24|1.49|||Mixed Model for Repeated Measures|||||1.49|-3.24|=0.467
82390956|NCT04687072|164493226|OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-9.7|13.3|||||The 95% Agresti-Min CIs are presented.|Initial Response||13.3|-9.7|
82390957|NCT04687072|164493228|OTHER||Difference in percentage|-4.0|||||TWO_SIDED|95.0|-15.6|5.7|||||The 95% Agresti-Min CIs are presented.|||5.7|-15.6|
82390958|NCT01662791|164493240|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Comparison between the groups for \>12 ppm.||||1.0
82390959|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.235|||||||Chi-squared|||Comparison between groups for mobility sub-scale.||||0.235
82390960|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.206|||||||Chi-squared|||Comparison between groups for activities of daily living sub-scale.||||0.206
82390961|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.641|||||||Chi-squared|||Comparison between groups for emotional well-being sub-scale.||||0.641
82390962|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.446|||||||Chi-squared|||Comparison between groups for stigma sub-scale.||||0.446
82390963|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.466|||||||Chi-squared|||Comparison between groups for social support sub-scale.||||0.466
82390964|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.205|||||||Chi-squared|||Comparison between groups for cognition sub-scale.||||0.205
82390965|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.153|||||||Chi-squared|||Comparison between groups for communication sub-scale.||||0.153
82390966|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.73|||||||Chi-squared|||Comparison between groups for bodily discomfort sub-scale.||||0.730
82390967|NCT01662791|164493241|SUPERIORITY_OR_OTHER|||||||0.334|||||||Chi-squared|||Comparison between groups for summary index sub-scale.||||0.334
82390968|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.167|||||||McNemar|||Comparison in case group between baseline and 3 months for mobility sub-scale.||||0.167
82390969|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.159|||||||McNemar|||Comparison in case group between baseline and 3 months for activities of daily living sub-scale.||||0.159
82390970|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.041|||||||McNemar|||Comparison in case group between baseline and 3 months for emotional well-being sub-scale.||||0.041
82390971|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.19|||||||McNemar|||Comparison in case group between baseline and 3 months for stigma sub-scale.||||0.190
82390972|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||1|||||||McNemar|||Comparison in case group between baseline and 3 months for social support sub-scale.||||1.0
82390973|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.16|||||||McNemar|||Comparison in case group between baseline and 3 months for cognition sub-scale.||||0.160
82390974|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.276|||||||McNemar|||Comparison in case group between baseline and 3 months for communication sub-scale.||||0.276
82360111|NCT04010227|164430427|SUPERIORITY||partial correlation|0.13||||0.29|TWO_SIDED|95.0|-0.19|0.44||P-value for study group x time interaction for patient social quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.44|-0.19|0.29
82360112|NCT04010227|164430428|SUPERIORITY||partial correlation|0.03||||0.92|TWO_SIDED|95.0|-0.28|0.35||P-value for study group x time interaction for caregiver physical quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.35|-0.28|0.92
82360113|NCT04010227|164430428|SUPERIORITY||partial correlation|0.06||||0.79|TWO_SIDED|95.0|-0.26|0.37||P-value for study group x time interaction for caregiver psychological quality of life. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 76. Multiply imputed data were used.||||0.37|-0.26|0.79
82360114|NCT04010227|164430429|SUPERIORITY||partial correlation|0.02||||0.94|TWO_SIDED|95.0|-0.3|0.34||P-value for study group x time interaction. Two-tailed p-values \<.05 were considered statistically significant.|Mixed Models Analysis|degrees of freedom = 144. Multiply imputed data were used.||||0.34|-0.30|0.94
82360115|NCT00702507|164430430|SUPERIORITY_OR_OTHER||Percentage of participants|29.2|||||TWO_SIDED|95.0|22.4|36.7|||||Percentage of participants with overall cure at the test-of-cure visit (Day 14) of the initial episode for participants in the MITT Population|||36.7|22.4|
82360116|NCT01742208|164430452|SUPERIORITY||LS Mean Difference|-25.14||||0.007|TWO_SIDED|95.0|-42.78|-7.49||Threshold for significance at 0.05 level.|ANCOVA||Difference is sotagliflozin - placebo|Between-group comparison of the 2 Expansion Groups was based on an ANCOVA model with covariates of baseline mean total daily bolus insulin, treatment group, factor used to stratify the randomization (screening A1C \<= 8%, \> 8%), and random effect of participant\*treatment group.||-7.49|-42.78|0.007
82360117|NCT02522780|164430481|SUPERIORITY||Odds Ratio (OR)|1.57|||>|0.05|TWO_SIDED|95.0|0.96|2.54||The p-value was based on Cochran-Mantel-Haenszel test by controlling pathway of randomization, at a 0.05 significance level.|Cochran-Mantel-Haenszel|||Proportions were compared between treatment groups at Month 6.||2.54|0.96|>0.05
82360118|NCT02522780|164430482|SUPERIORITY||Odds Ratio (OR)|1.24|||>|0.05|TWO_SIDED|95.0|0.76|2.03||The p-value was based on Generalized estimating equations (GEE) approach with binary outcomes (clinical remission) and an unstructured working correlation matrix, at a 0.05 significance level.|Generalised estimating equation approach|||Proportions were compared between treatment groups over 6 months.||2.03|0.76|>0.05
82360119|NCT02522780|164430483|SUPERIORITY||Hazard Ratio (HR)|0.6|||>|0.05|TWO_SIDED|95.0|0.25|1.44||The p-value was based on log-rank test using pathway of randomization as the stratification factor, at a 0.05 significance level.|Log Rank|||Times to relapse were compared between treatment groups up to 6 months.||1.44|0.25|>0.05
82360120|NCT02522780|164430484|SUPERIORITY||Odds Ratio (OR)|0.39|||<|0.05|TWO_SIDED|95.0|0.19|0.79||The p-value was based on Cochran-Mantel-Haenszel test by controlling pathway of randomization, at a 0.05 significance level.|Cochran-Mantel-Haenszel|||Proportions were compared between treatment groups at Month 6.||0.79|0.19|<0.05
82641604|NCT05455684|164998360|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.21|0.52||||||||0.52|-2.21|
82360121|NCT02522780|164430485|SUPERIORITY||Mean difference|-1.0|||>|0.05|TWO_SIDED|95.0|-2.7|0.7||The p-value was based on a repeated-measures analysis of covariance (ANCOVA) model with an unstructured correlation matrix , at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in CRP levels over 6 months was reported.||0.7|-2.7|>0.05
82360122|NCT02522780|164430486|SUPERIORITY||Mean difference|-66.92|||>|0.05|TWO_SIDED|95.0|-140.2|6.36||The p-value was based on a repeated-measures ANCOVA model with an unstructured correlation matrix, at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in fecal calprotectin levels over 6 months was reported.||6.36|-140.2|>0.05
82360123|NCT02522780|164430487|SUPERIORITY||Mean difference|-0.32|||>|0.05|TWO_SIDED|95.0|-4.41|3.77||The p-value was based on a repeated-measures ANCOVA model with an unstructured correlation matrix, at a 0.05 significance level.|ANCOVA|||Adjusted mean treatment difference in IBDQ total scores over 6 months was reported.||3.77|-4.41|>0.05
82360124|NCT00926367|164430500|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|A two-tailed p≤ 0.05 was taken as the level of significance for all comparisons.||||||>0.05
82641605|NCT05204563|164998378|OTHER||Treatment difference|0.2|||||TWO_SIDED|95.0|-3.5|4.0||||||||4.0|-3.5|
82360125|NCT00926367|164430502|SUPERIORITY_OR_OTHER||||||>|0.05||||||A two-tailed p≤ 0.05 was taken as the level of significance for all comparisons.|Dunn's Multiple Comparisons Test|||||||>0.05
82360126|NCT02033317|164430520|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.14|TWO_SIDED||||||paired t-test|||||||= 0.14
82360127|NCT02033317|164430521|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.02|TWO_SIDED||||||paired t-test|||||||= 0.02
82360128|NCT01294449|164430544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.37|TWO_SIDED|95.0|0.67|1.161|||Regression, Cox||The hazard ratio was calculated as the hazard rate of mortality in the CRT-D group over the hazard rate of mortality in the ICD group. A hazard ratio lower than 1 represents a reduction in relative risk of mortality for CRT-D compared to ICD.|The sample size for the analysis included subjects from the original MADIT-CRT IDE (NCT00180271) that did not participate in the Registry portion, these subjects are censored at the time of study conclusion, withdrawal or death during the IDE. This was done as the Registry is a post approval continuation of the follow-up from the MADIT-CRT IDE trial. This is not a pooled analysis from separate studies.||1.161|0.670|0.370
82390975|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.351|||||||McNemar|||Comparison in case group between baseline and 3 months for bodily discomfort sub-scale.||||0.351
82390976|NCT01662791|164493242|SUPERIORITY_OR_OTHER|||||||0.186|||||||McNemar|||Comparison in case group between baseline and 3 months for summary index sub-scale.||||0.186
82390977|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.303|||||||Chi-squared|||Comparison between groups for constipation sub-scale.||||0.303
82390978|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.518|||||||Chi-squared|||Comparison between groups for dyspepsia sub-scale.||||0.518
82390979|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared|||Comparison between groups for abdominal discomfort sub-scale.||||0.800
82390980|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.736|||||||Chi-squared|||Comparison between groups for diarrhea sub-scale.||||0.736
82390981|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.57|||||||Chi-squared|||Comparison between groups for GERD sub-scale.||||0.570
82360129|NCT01294449|164430544|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.028|TWO_SIDED|95.0|0.484|0.96|||Regression, Cox||The hazard ratio was calculated as the hazard rate of mortality in the CRT-D arm over the hazard rate of mortality in the ICD arm. A hazard ratio lower than 1 represents a reduction in relative risk of mortality for CRT-D compared to ICD.|These data represent the indicated sub population of left bundle branch block subjects only. (Left bundle branch block N= 110 ICD group: 181 CRT-D group)||0.960|0.484|0.028
82360130|NCT02911935|164430545|SUPERIORITY||Hazard Ratio (HR)|1.49||||0.08|TWO_SIDED|95.0|0.95|2.34||unadjusted P-value. The threshold for statistical significance was p = 0.05|Log Rank|||The primary analysis tested the statistical null hypothesis of equal recurrent wheeze rates between the azithromycin and placebo groups.||2.34|0.95|0.08
82360131|NCT02911935|164430545|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.11|TWO_SIDED|95.0|0.92|2.29||p-value is adjusted for race, parental history of asthma, ever exposed to smoke and ever exposed to pets. The threshold for statistical significance was p = 0.05|Regression, Cox|||||2.29|0.92|0.11
82360132|NCT02911935|164430546|SUPERIORITY||Hazard Ratio (HR)|1.95||||0.12|TWO_SIDED|95.0|0.83|4.61||Unadjusted. The threshold for statistical significance was p = 0.05|Log Rank|||||4.61|0.83|0.12
82360133|NCT02911935|164430547|SUPERIORITY||Rate Ratio|1.18||||0.31|TWO_SIDED|95.0|0.86|1.62||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||1.62|0.86|0.31
82360134|NCT02911935|164430548|SUPERIORITY||Rate Ratio|1.22||||0.57|TWO_SIDED|95.0|0.6|2.48||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||2.48|0.6|0.57
82360135|NCT02911935|164430549|SUPERIORITY||Rate Ratio|1.34||||0.38|TWO_SIDED|95.0|0.7|2.57||unadjusted P-value. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||2.57|0.70|0.38
82574662|NCT03784820|164858716|SUPERIORITY||LS mean difference|-1.21||||0.5|TWO_SIDED|95.0|-4.76|2.34||Comparison of Patients at 6 Month Fup (T4)|Mixed Models Analysis|||||2.34|-4.76|0.50
82360136|NCT02911935|164430550|SUPERIORITY||Rate Ratio|0.92||||0.56|TWO_SIDED|95.0|0.7|1.22||Unadjusted. The threshold for statistical significance was p = 0.05|Negative Binomial Regression Analysis|||||1.22|0.7|0.56
82360138|NCT00593827|164430613|SUPERIORITY_OR_OTHER|||||||0.03|||||||Log Rank|||||||0.03
82390982|NCT01662791|164493243|SUPERIORITY_OR_OTHER|||||||0.394|||||||Chi-squared|||Comparison between groups for nausea and vomiting sub-scale.||||0.394
82641606|NCT05204563|164998379|OTHER||Treatment difference|4.1|||||TWO_SIDED|95.0|-0.4|8.7||||||||8.7|-0.4|
82360139|NCT00593827|164430614|SUPERIORITY_OR_OTHER|||||||0.05|||||||Log Rank|||||||0.05
82390983|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.056|||||||McNemar|||Comparison in case group between baseline and 3 months for constipation sub-scale.||||0.056
82390984|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.38|||||||McNemar|||Comparison in case group between baseline and 3 months for dyspepsia sub-scale.||||0.380
82360140|NCT00593827|164430617|SUPERIORITY_OR_OTHER|||||||0.11|||||||Log Rank|||||||0.11
82360141|NCT01160640|164430622|SUPERIORITY_OR_OTHER|||||||0.046||||||P-value for proportion of women who had clearance of anaerobic organisms from the endometrium at the 30-day visit|Fisher Exact|||||||0.046
82390985|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.244|||||||McNemar|||Comparison in case group between baseline and 3 months for abdominal discomfort sub-scale.||||0.244
82390986|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.279|||||||McNemar|||Comparison in case group between baseline and 3 months for diarrhea sub-scale.||||0.279
82390987|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.554|||||||McNemar|||Comparison in case group between baseline and 3 months for GERD sub-scale.||||0.554
82360142|NCT01160640|164430624|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value for proportion of women who did not have M. genitalium detected in the cervix or endometrium at the 30-day visit|Fisher Exact|||||||0.16
82360143|NCT01160640|164430625|SUPERIORITY_OR_OTHER|||||||0.74||||||P-value for proportion of women who experienced resolution of clinical signs and symptoms of PID at the 3-day visit|Fisher Exact|||||||0.74
82360144|NCT00688844|164430679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.655574|STANDARD_DEVIATION|8.060658||0.692782|||||||t-test, 2 sided|||Objective was to evaluate BMI across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.692782
82360145|NCT00688844|164430680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005401|STANDARD_DEVIATION|0.0243|<|0.001|||||||t-test, 2 sided|||Objective was to evaluate total body bone mineral density (BMD) one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||<0.001
82360146|NCT00688844|164430681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.419224|STANDARD_DEVIATION|3.4666||0.017941|||||||t-test, 2 sided|||Objective was to evaluate % lean mass across one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.017941
82390988|NCT01662791|164493244|SUPERIORITY_OR_OTHER|||||||0.351|||||||McNemar|||Comparison in case group between baseline and 3 months for nausea and vomiting sub-scale.||||0.351
82390989|NCT01662791|164493245|SUPERIORITY_OR_OTHER|||||||0.872|TWO_SIDED||||||t-test, 1 sided|||Comparison between the two groups at baseline for depression||||0.872
82390990|NCT01662791|164493245|SUPERIORITY_OR_OTHER|||||||0.835|TWO_SIDED||||||t-test, 1 sided|||Comparison between the two groups at baseline for anxiety.||||0.835
82390991|NCT02017717|164493279|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.3791|TWO_SIDED|95.0|0.89|1.36|||log-rank test stratified|||||1.36|0.89|0.3791
82390992|NCT02017717|164493280|SUPERIORITY||Difference of OS rates at 12 months|-0.5||||0.9208|TWO_SIDED|95.0|-10.8|9.7|||Z test with variance estimation based on|Greenwood formula using log(-log) transformation||||9.7|-10.8|0.9208
82390993|NCT02017717|164493282|SUPERIORITY||Hazard Ratio (HR)|1.88|||||TWO_SIDED|95.0|1.5|2.35||||||||2.35|1.50|
82574663|NCT03784820|164858716|SUPERIORITY||LS mean difference|-1.09||||0.52|TWO_SIDED|95.0|-4.43|2.24||Comparison of Partners at Post (T2)|Mixed Models Analysis|||||2.24|-4.43|0.52
82641607|NCT05204563|164998380|OTHER||Treatment difference|3.2|||||TWO_SIDED|95.0|-3.0|9.4||||||Day 14||9.4|-3.0|
82390994|NCT02017717|164493283|SUPERIORITY||Odds Ratio (OR)|0.29|||||TWO_SIDED|95.0|0.15|0.59||||||||0.59|0.15|
82527307|NCT02948959|164751215|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|5.32||||0.0036|TWO_SIDED|95.0|1.76|8.88||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in pre-bronchodilator % predicted FEV1 value up to Week 12 as the response variable, and treatment, baseline weight group, region, ethnicity, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline % predicted FEV1 value and baseline-by-visit interaction as covariates.||8.88|1.76|0.0036
82527308|NCT02948959|164751216|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|5.21||||0.0009|TWO_SIDED|95.0|2.14|8.27||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in pre-bronchodilator % predicted FEV1 value up to Week 12 as the response variable, and treatment, baseline weight group, region, ethnicity, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline % predicted FEV1 value and baseline-by visit interaction as covariates.||8.27|2.14|0.0009
82527309|NCT02948959|164751217|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.26||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in ACQ-7-IA up to Week 52 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline ACQ-7-IA and baseline-by-visit interaction as covariates.||-0.26|-0.66|<0.0001
82527310|NCT02948959|164751218|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-0.33||||0.0001|TWO_SIDED|95.0|-0.5|-0.16||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in ACQ-7-IA up to Week 52 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline FeNO level, baseline ICS dose level, visit, treatment by-visit interaction, baseline ACQ-7-IA and baseline-by-visit interaction as covariates.||-0.16|-0.50|0.0001
82527311|NCT02948959|164751219|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-20.59|||<|0.0001|TWO_SIDED|95.0|-24.6|-16.59||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in FeNO up to Week 12 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline ICS dose level, visit, treatment by-visit interaction, baseline FeNO value and baseline-by-visit interaction as covariates.||-16.59|-24.60|<0.0001
82527312|NCT02948959|164751220|SUPERIORITY|Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).|LS mean difference|-17.84|||<|0.0001|TWO_SIDED|95.0|-21.05|-14.63||Threshold for statistical significance at 5% significant level.|Mixed-effect model with repeated measure|||P-value and LS mean difference were derived from MMRM model with change from baseline in FeNO up to Week 12 as the response variable, and treatment, age, weight group, region, baseline eosinophil level, baseline ICS dose level, visit, treatment by-visit interaction, baseline FeNO value and baseline-by-visit interaction as covariates.||-14.63|-21.05|<0.0001
82574664|NCT03784820|164858716|SUPERIORITY||LS mean difference|-1.38||||0.3|TWO_SIDED|95.0|-3.96|1.21||Comparison of Partners at 3 Month Fup (T3)|Mixed Models Analysis|||||1.21|-3.96|0.30
82574665|NCT03784820|164858716|SUPERIORITY||LS mean difference|-2.52||||0.03|TWO_SIDED|95.0|-4.78|-0.25||Comparison of Partners at 6 Month Fup (T4)|Mixed Models Analysis|||||-0.25|-4.78|0.03
82574666|NCT03784820|164858717|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.79|TWO_SIDED|95.0|-3.66|4.72||Comparison of Patients at Post (T2)|t-test, 2 sided|||||4.72|-3.66|0.79
82574667|NCT01255761|164858721|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 2-sided 95 % CI was greater than -10 %, the null hypothesis was rejected and RAPID3 was deemed comparable to CDAI in assessing response to Certolizumab Pegol therapy at 12 weeks.|Difference in proportion|-0.119|||||TWO_SIDED|95.0|-0.184|-0.053||Study was intended to show the comparability of RAPID3 with CDAI. Assessment of whether the study objective was met was based on CIs rather than p-values. Both variables need to be significant to claim comparability between the two assessment tools.|ANCOVA|Difference in proportions from ANCOVA with tool as factor \& Baseline DAS28(ESR), gender, age, prior anti-TNF use \& disease duration as covariates.||"The null hypothesis was: (Proportion of Rapid 3 responders)-(Proportion of CDAI responders) ≤ delta with a delta of -10 %.~A 2-sided 95 % Confidence Interval (CI) for the difference in proportion of responders was computed."||-0.053|-0.184|
82641608|NCT05204563|164998380|OTHER||Treatment difference|4.0|||||TWO_SIDED|95.0|-3.4|11.3||||||Day 28||11.3|-3.4|
82641609|NCT05204563|164998381|OTHER||Treatment difference|0.5|||||TWO_SIDED|95.0|-5.4|6.3||||||Day 14||6.3|-5.4|
82641610|NCT05204563|164998381|OTHER||Treatment difference|2.9|||||TWO_SIDED|95.0|-3.9|9.8||||||Day 28||9.8|-3.9|
82390995|NCT02017717|164493284|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.3791|TWO_SIDED|95.0|0.89|1.36|||log-rank test stratified|||||1.36|0.89|0.3791
82641611|NCT05204563|164998382|OTHER||Treatment difference|-0.8|||||TWO_SIDED|95.0|-4.9|3.3||||||Day 14||3.3|-4.9|
82641612|NCT05204563|164998382|OTHER||Treatment difference|2.2|||||TWO_SIDED|95.0|-2.7|7.2||||||Day 28||7.2|-2.7|
82390996|NCT05027048|164493295|SUPERIORITY||Mean Difference (Net)|211.0|||<|0.05|TWO_SIDED|95.0|-33.0|410.0||a priori threshold for statistical significance p\<0.05|inverse Gaussian distribution and log li|Inverse Gaussian distribution and log link fit to estimate the effect size and 95% CIs|Inverse gaussian regression with a log link was used to calculate the mean reduction in blood loss in the calcium group relative to placebo group.|||410|-33|<0.05
82390997|NCT05027048|164493296|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.48|1.03|||Regression (poisson with robust SE)|||||1.03|0.48|
82641613|NCT05204563|164998383|OTHER||Treatment difference|2.1|||||TWO_SIDED|95.0|-4.7|8.9||||||Day 14||8.9|-4.7|
82360147|NCT00688844|164430682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.208889|STANDARD_DEVIATION|3.51967||0.026009|||||||t-test, 2 sided|||Objective was to evaluate % fat mass across one year via DXA in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.026009
82527313|NCT01350141|164751276|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-21.81|STANDARD_ERROR_OF_MEAN|8.385||0.0137|TWO_SIDED|95.0|-38.85|-4.77|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with treatment, background statin as independent factors and treatment by background statin interaction, baseline LDL-C as covariate.||-4.77|-38.85|0.0137
82527314|NCT01350141|164751276|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.42|STANDARD_ERROR_OF_MEAN|8.463|<|0.0001|TWO_SIDED|95.0|-63.62|-29.22|||ANCOVA|||Analysis was performed using ANCOVA model with treatment, background statin as independent factors and treatment by background statin interaction, baseline LDL-C as covariate.||-29.22|-63.62|<0.0001
82641614|NCT05204563|164998383|OTHER||Treatment difference|1.3|||||TWO_SIDED|95.0|-6.5|9.1||||||Day 28||9.1|-6.5|
82641615|NCT05204563|164998384|OTHER||Treatment difference|-7.8|||||TWO_SIDED|95.0|-25.3|9.7||||||Day 14||9.7|-25.3|
82641616|NCT05204563|164998384|OTHER||Treatment difference|-7.8|||||TWO_SIDED|95.0|-25.3|9.7||||||Day 28||9.7|-25.3|
82641617|NCT05204563|164998385|OTHER||Treatment difference|3.6|||||TWO_SIDED|95.0|-6.0|13.2||||||Day 4||13.2|-6.0|
82641618|NCT05204563|164998385|OTHER||Treatment difference|3.5|||||TWO_SIDED|95.0|-5.3|12.3||||||EOT (up to Day 14)||12.3|-5.3|
82641619|NCT05204563|164998385|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-9.4|9.3||||||TOC (Day 21)||9.3|-9.4|
82360148|NCT00688844|164430683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.5187|STANDARD_DEVIATION|362.9412||0.303864|||||||t-test, 2 sided|||Objective was to evaluate plasma phenylalanine across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.303864
82360149|NCT00688844|164430684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9549|STANDARD_DEVIATION|20.10814||0.00088|||||||t-test, 2 sided|||Objective was to evaluate protein intake (grams per day) across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.00088
82360150|NCT00688844|164430685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131676|STANDARD_DEVIATION|0.797247||0.3811|||||||t-test, 2 sided|||Objective was to evaluate dietary phenylalanine intake across one year in PKU patients introduced to sapropterin after baseline. Study was prospective cohort in design.||||0.3811
82641620|NCT05204563|164998385|OTHER||Treatment difference|2.7|||||TWO_SIDED|95.0|-6.9|12.2||||||LFU (Day 28)||12.2|-6.9|
82641621|NCT05204563|164998386|OTHER||Treatment difference|-2.2|||||TWO_SIDED|95.0|-18.1|13.6||||||Day 4||13.6|-18.1|
82360151|NCT01374451|164430687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.991||||0.488|TWO_SIDED|95.0|0.636|1.543|||Log Rank|||||1.543|0.636|0.488
82360152|NCT04773600|164430754|SUPERIORITY||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.962|5.183|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA Success at Week 4||5.183|1.962|<0.0001
82444066|NCT02698371|164596689|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.01||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.010
82527315|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.825||||0.19|TWO_SIDED|95.0|0.36|169.74|||Regression, Logistic|||Day 29 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||169.74|0.36|0.1900
82641622|NCT05204563|164998386|OTHER||Treatment difference|12.3|||||TWO_SIDED|95.0|-1.6|26.3||||||EOT (up to Day 14)||26.3|-1.6|
82360153|NCT04773600|164430755|SUPERIORITY||Odds Ratio (OR)|3.37|||<|0.0001|TWO_SIDED|95.0|1.996|5.687|||Cochran-Mantel-Haenszel|Stratified by pooled study site|Stratified by pooled study site|vIGA Success at Week 4 in Participants with Baseline vIGA = 'Moderate'||5.687|1.996|<0.0001
82641623|NCT05204563|164998386|OTHER||Treatment difference|5.0|||||TWO_SIDED|95.0|-10.5|20.4||||||TOC (Day 21)||20.4|-10.5|
82641624|NCT05204563|164998386|OTHER||Treatment difference|8.9|||||TWO_SIDED|95.0|-6.9|24.7||||||LFU (Day 28)||24.7|-6.9|
82641625|NCT05204563|164998387|OTHER||Treatment difference|0.8|||||TWO_SIDED|95.0|-12.7|14.4||||||Day 4||14.4|-12.7|
82641626|NCT05204563|164998387|OTHER||Treatment difference|8.3|||||TWO_SIDED|95.0|-3.7|20.3||||||EOT (up to Day 14)||20.3|-3.7|
82641627|NCT05204563|164998387|OTHER||Treatment difference|8.6|||||TWO_SIDED|95.0|-4.8|21.9||||||TOC (Day 21)||21.9|-4.8|
82641628|NCT05204563|164998387|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-3.0|24.2||||||LFU (Day 28)||24.2|-3.0|
82641629|NCT05204563|164998388|OTHER||Treatment difference|2.3|||||TWO_SIDED|95.0|-8.3|12.8||||||Day 4||12.8|-8.3|
82641630|NCT05204563|164998388|OTHER||Treatment difference|1.7|||||TWO_SIDED|95.0|-6.7|10.1||||||EOT (up to Day 14)||10.1|-6.7|
82641631|NCT05204563|164998388|OTHER||Treatment Difference|0.4|||||TWO_SIDED|95.0|-9.2|10.0||||||TOC (Day 21)||10.0|-9.2|
82641632|NCT05204563|164998388|OTHER||Treatment difference|2.5|||||TWO_SIDED|95.0|-7.7|12.6||||||LFU (Day 28)||12.6|-7.7|
82641633|NCT05204563|164998389|OTHER||Treatment difference|-4.6|||||TWO_SIDED|95.0|-21.4|12.2||||||Day 4||12.2|-21.4|
82641634|NCT05204563|164998389|OTHER||Treatment difference|7.7|||||TWO_SIDED|95.0|-5.8|21.2||||||EOT (up to Day 14)||21.2|-5.8|
82641635|NCT05204563|164998389|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-9.4|22.0||||||TOC (Day 21)||22.0|-9.4|
82641636|NCT05204563|164998389|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-5.9|27.1||||||LFU (Day 28)||27.1|-5.9|
82641637|NCT05204563|164998390|OTHER||Treatment difference|5.9|||||TWO_SIDED|95.0|-20.3|32.1||||||Day 4||32.1|-20.3|
82641638|NCT05204563|164998390|OTHER||Treatment difference|18.3|||||TWO_SIDED|95.0|-5.4|42.1||||||EOT (up to Day 14)||42.1|-5.4|
82641639|NCT05204563|164998390|OTHER||Treatment difference|23.0|||||TWO_SIDED|95.0|-1.5|47.5||||||TOC (Day 21)||47.5|-1.5|
82641640|NCT05204563|164998390|OTHER||Treatment difference|14.0|||||TWO_SIDED|95.0|-11.6|39.7||||||LFU (Day 28)||39.7|-11.6|
82641641|NCT05204563|164998391|OTHER||Treatment difference|10.9|||||TWO_SIDED|95.0|-3.5|25.3||||||EOT (up to Day 14)||25.3|-3.5|
82527316|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|72.518||||0.0057|TWO_SIDED|95.0|3.48|1512.1|||Regression, Logistic|||Day 29 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||1512.10|3.48|0.0057
82527317|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.75||||0.0013|TWO_SIDED|95.0|3.49|175.63|||Regression, Logistic|||Day 29 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||175.63|3.49|0.0013
82641642|NCT05204563|164998391|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-9.7|22.4||||||TOC (Day 21)||22.4|-9.7|
82641643|NCT05204563|164998391|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-7.3|24.7||||||LFU (Day 28)||24.7|-7.3|
82641644|NCT05204563|164998392|OTHER||Treatment difference|10.6|||||TWO_SIDED|95.0|-2.3|23.5||||||EOT (up to Day 14)||23.5|-2.3|
82641645|NCT05204563|164998392|OTHER||Treatment difference|6.4|||||TWO_SIDED|95.0|-7.2|20.0||||||TOC (Day 21)||20.0|-7.2|
82641646|NCT05204563|164998392|OTHER||Treatment difference|5.3|||||TWO_SIDED|95.0|-8.2|18.9||||||LFU (Day 28)||18.9|-8.2|
82641647|NCT05204563|164998393|OTHER||Treatment difference|19.2|||||TWO_SIDED|95.0|-6.4|44.8||||||EOT (up to Day 14)||44.8|-6.4|
82641648|NCT05204563|164998393|OTHER||Treatment difference|-1.2|||||TWO_SIDED|95.0|-24.3|22.0||||||TOC (Day 21)||22.0|-24.3|
82641649|NCT05204563|164998393|OTHER||Treatment difference|-10.2|||||TWO_SIDED|95.0|-32.9|12.5||||||LFU (Day 28)||12.5|-32.9|
82641650|NCT05204563|164998394|OTHER||Treatment difference|6.3|||||TWO_SIDED|95.0|-7.9|20.4||||||EOT (up to Day 14)||20.4|-7.9|
82641651|NCT05204563|164998394|OTHER||Treatment difference|7.5|||||TWO_SIDED|95.0|-9.5|24.5||||||TOC (Day 21)||24.5|-9.5|
82641652|NCT05204563|164998394|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-8.6|26.0||||||LFU (Day 28)||26.0|-8.6|
82641653|NCT05204563|164998395|OTHER||Treatment difference|23.3|||||TWO_SIDED|95.0|4.3|42.3||||||Klebsiella pneumoniae complex EOT (up to Day 14)||42.3|4.3|
82641654|NCT05204563|164998395|OTHER||Treatment difference|7.8|||||TWO_SIDED|95.0|-13.6|29.2||||||Klebsiella pneumoniae complex TOC (Day 21)||29.2|-13.6|
82641655|NCT05204563|164998395|OTHER||Treatment difference|11.9|||||TWO_SIDED|95.0|-9.6|33.5||||||Klebsiella pneumoniae complex LFU (Day 28)||33.5|-9.6|
82641656|NCT05204563|164998395|OTHER||Treatment difference|22.5|||||TWO_SIDED|95.0|-18.6|63.7||||||Pseudomonas aeruginosa EOT (up to Day 14)||63.7|-18.6|
82390998|NCT05027048|164493297|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.46|1.23|||Poisson regression with robust SE|||||1.23|0.46|
82641657|NCT05204563|164998395|OTHER||Treatment difference|8.7|||||TWO_SIDED|95.0|-30.2|47.6||||||Pseudomonas aeruginosa TOC (Day 21)||47.6|-30.2|
82641658|NCT05204563|164998395|OTHER||Treatment difference|0.7|||||TWO_SIDED|95.0|-37.5|38.9||||||Pseudomonas aeruginosa LFU (Day 28)||38.9|-37.5|
82641659|NCT05204563|164998395|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-46.3|46.3||||||A.calco/baumannii complex EOT (up to Day 14)||46.3|-46.3|
82641660|NCT05204563|164998395|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-46.3|46.3||||||A.calco/baumannii complex TOC (Day 21)||46.3|-46.3|
82641661|NCT05204563|164998395|OTHER||Treatment difference|9.1|||||TWO_SIDED|95.0|-38.7|56.9||||||A.calco/baumannii complex LFU (Day 28)||56.9|-38.7|
82641662|NCT05204563|164998395|OTHER||Treatment difference|-40.0|||||TWO_SIDED|95.0|-100.0|37.9||||||Enterobacter cloacae complex EOT (up to Day 14)||37.9|-100.0|
82641663|NCT05204563|164998395|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|17.9||||||Enterobacter cloacae complex TOC (Day 21)||17.9|-100.0|
82641664|NCT05204563|164998395|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|17.9||||||Enterobacter cloacae complex LFU (Day 28)||17.9|-100.0|
82641665|NCT05204563|164998395|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|53.3||||||Klebsiella aerogenes EOT (up to Day 14)||53.3|-100.0|
82641666|NCT05204563|164998395|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100.0|-100.0|
82641667|NCT05204563|164998395|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-100.0|
82641668|NCT05204563|164998395|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli TOC (Day 21)||86.7|-100.0|
82641669|NCT05204563|164998395|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli LFU (Day 28)||86.7|-100.0|
82641670|NCT05204563|164998395|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
82641671|NCT05204563|164998395|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
82641672|NCT05204563|164998395|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
82641673|NCT05204563|164998395|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
82641674|NCT05204563|164998396|OTHER||Treatment difference|18.0|||||TWO_SIDED|95.0|0.4|35.5||||||Klebsiella pneumoniae complex EOT (up to Day 14)||35.5|0.4|
82641675|NCT05204563|164998396|OTHER||Treatment difference|18.5|||||TWO_SIDED|95.0|-11.3|48.3||||||A.calco/baumannii complex EOT (up to Day 14)||48.3|-11.3|
82641676|NCT05204563|164998396|OTHER||Treatment difference|9.4|||||TWO_SIDED|95.0|-27.0|45.7||||||Pseudomonas aeruginosa EOT (up to Day 14)||45.7|-27.0|
82641677|NCT05204563|164998396|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-96.1|29.4||||||Burkholderia cepacia complex EOT (up to Day 14)||29.4|-96.1|
82641678|NCT05204563|164998396|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-96.1|29.4||||||Klebsiella aerogenes EOT (up to Day 14)||29.4|-96.1|
82641679|NCT05204563|164998396|OTHER||Treatment difference|-40.0|||||TWO_SIDED|95.0|-100.0|29.6||||||Enterobacter cloacae complex EOT (up to Day 14)||29.6|-100.0|
82641680|NCT05204563|164998396|OTHER||Treatment difference|100.0|||||TWO_SIDED|95.0|0.0|100.0||||||Serratia marcescens EOT (up to Day 14)||100.0|0.0|
82641681|NCT05204563|164998396|OTHER||Treatment difference|0.3|||||TWO_SIDED|95.0|-19.4|20.0||||||Klebsiella pneumoniae complex TOC (Day 21)||20.0|-19.4|
82641682|NCT05204563|164998396|OTHER||Treatment difference|9.3|||||TWO_SIDED|95.0|-22.1|40.7||||||A.calco/baumannii complex TOC (Day 21)||40.7|-22.1|
82641683|NCT05204563|164998396|OTHER||Treatment difference|5.8|||||TWO_SIDED|95.0|-28.2|39.8||||||Pseudomonas aeruginosa TOC (Day 21)||39.8|-28.2|
82641684|NCT05204563|164998396|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-90.3|90.3||||||Burkholderia cepacia complex TOC (Day 21)||90.3|-90.3|
82641685|NCT05204563|164998396|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-75.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100.0|-75.0|
82360154|NCT04773600|164430756|SUPERIORITY||Odds Ratio (OR)|4.42|||<|0.0001|TWO_SIDED|95.0|2.281|8.658|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Success at Week 2||8.658|2.281|<0.0001
82360155|NCT04773600|164430757|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1156|TWO_SIDED|95.0|0.832|4.782|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Success at Week 1||4.782|0.832|0.1156
82360156|NCT04773600|164430758|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0014|TWO_SIDED|95.0|1.448|5.066|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 4||5.066|1.448|0.0014
82360157|NCT04773600|164430759|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0015|TWO_SIDED|95.0|1.591|7.927|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 2||7.927|1.591|0.0015
82360158|NCT04773600|164430760|SUPERIORITY||Odds Ratio (OR)|7.84||||0.002|TWO_SIDED|95.0|1.717|35.764|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|≥4-Point Reduction in WI-NRS at Week 1||35.764|1.717|0.0020
82360159|NCT04773600|164430761|SUPERIORITY||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|2.108|4.964|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|EASI-75 at Week 4||4.964|2.108|<0.0001
82360160|NCT04773600|164430762|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.0001|TWO_SIDED|95.0|2.191|5.24|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 4||5.240|2.191|<0.0001
82360161|NCT04773600|164430763|SUPERIORITY||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.097|5.854|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 2||5.854|2.097|<0.0001
82360162|NCT04773600|164430764|SUPERIORITY||Odds Ratio (OR)|2.56||||0.005|TWO_SIDED|95.0|1.312|4.993|||Cochran-Mantel-Haenszel|Stratified by pooled study site and vIGA-AD randomization strata|Stratified by pooled study site and vIGA-AD randomization strata|vIGA-AD Score of 'Clear' or 'Almost Clear' at Week 1||4.993|1.312|0.0050
82360163|NCT01848210|164430801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.65||||0.531|TWO_SIDED|95.0|-19.81|10.51|||Regression, Linear|||||10.51|-19.81|0.531
82390999|NCT05027048|164493298|SUPERIORITY||Risk Ratio (RR)|0.56|||||TWO_SIDED|95.0|0.2|1.56||||||||1.56|0.2|
82391000|NCT05027048|164493299|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|95.0|-3.6|0.2|||Regression, Linear|Data were log transformed to approximate a normal distribution prior to linear regression.||||0.2|-3.6|
82391001|NCT05027048|164493301|SUPERIORITY|||||||0.415|||||||Wilcoxon (Mann-Whitney)|||||||0.415
82527318|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.326||||0.0006|TWO_SIDED|95.0|5.26|426.01|||Regression, Logistic|||Day 29 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||426.01|5.26|0.0006
82391002|NCT05027048|164493302|SUPERIORITY|||||||0.566|||||||Wilcoxon (Mann-Whitney)|||||||0.566
82360164|NCT04592419|164430805|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept among BRVO participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.87||0.0004|TWO_SIDED|95.02|-3.11|0.3|||Mixed Models Analysis|MMRM model with treatment, visit, treatment × visit interaction, baseline BCVA, disease duration, and geographical location as covariates.||||0.30|-3.11|.0004
82360165|NCT04592419|164430806|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept among BRVO participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin (NI) is 4.5 letters.|Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.9||0.0243|TWO_SIDED|95.02|-4.24|-0.71|||Mixed Models Analysis|MMRM model treatment, visit, treatment × visit interaction, RVO subtype, baseline BCVA, disease duration, and geographical location as covariates.||||-0.71|-4.24|.0243
82360166|NCT00381849|164430815|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 6 weeks' treatment on placebo.||||0.32
82360167|NCT00381849|164430815|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 6 weeks' treatment on cystone.||||0.23
82391003|NCT05027048|164493304|SUPERIORITY|||||||0.348|||||||ANOVA|||Repeated measures ANOVA used to analyze differences between groups.||||0.348
82391004|NCT05027048|164493305|SUPERIORITY|||||||0.011|||||||ANOVA|Repeated measures ANOVA.||Repeated measures ANOVA used to assess for difference between groups in the % change from baseline heart rate.||||0.011
82391005|NCT05027048|164493307|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
82391006|NCT05027048|164493308|OTHER||||||||||||||||||"Note: a two-compartment pharmacokinetic model was generated in NONMEM using 6 venous blood ionized calcium measurements per participant at random times. The change in ionized calcium was defined as a measured value minus the measured baseline for the patient.~Once the two-compartment pharmacokinetic model was generated, NONMEM was used to generate a predicted ionized calcium concentration at 10 minutes (Tmax) for each participant to generate mean and 95% confidence interval."|||
82391007|NCT05027048|164493310|SUPERIORITY||Mean Difference (Net)|356.0|||<|0.05|TWO_SIDED|95.0|159.0|515.0|||Inverse Gaussian regression, log link||Reduction in blood loss was calculated by inverse Gaussian regression with a log link as detailed in the description of statistical methods for the primary outcome.|||515|159|<0.05
82391008|NCT03051516|164493317|SUPERIORITY|||||||0.89|||||||Chi-squared|||This p-value compares HPV16 persistence by study arm.||||0.89
82391009|NCT03051516|164493317|SUPERIORITY|||||||0.65|||||||Chi-squared|||This p-value compares HPV18/45 persistence by study arm.||||0.65
82391010|NCT03051516|164493317|SUPERIORITY|||||||0.056|||||||Chi-squared|||This p-value compares HPV31/33/52/58 persistence by study arm.||||0.056
82391011|NCT03051516|164493317|SUPERIORITY|||||||0.38|||||||Chi-squared|||This p-value compares HPV35/39/51/56/59 persistence by study arm.||||0.38
82641686|NCT05204563|164998396|OTHER||Treatment difference|-60.0|||||TWO_SIDED|95.0|-100.0|9.6||||||Enterobacter cloacae complex TOC (Day 21)||9.6|-100.0|
82391012|NCT03051516|164493317|SUPERIORITY|||||||0.33||||||This p-value compares overall HPV persistence and is not specific to HPV genotype.|Chi-squared|||||||0.33
82391013|NCT03051516|164493318|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
82391014|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.135|||||||Chi-squared|||This comparison is specific to the incidence of fever or chills.||||0.135
82391015|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.64|||||||Chi-squared|||This comparison is specific to the incidence of headache.||||0.640
82391016|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.838|||||||Chi-squared|||This comparison is specific to the incidence of fatigue.||||0.838
82391017|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.917|||||||Chi-squared|||This comparison is specific to the incidence of muscle aches.||||0.917
82391018|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.005|||||||Chi-squared|||This comparison is specific to the incidence of pain at injection site.||||0.005
82391019|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.001|||||||Chi-squared|||This comparison is specific to the incidence of tenderness at injection site.||||0.001
82391020|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.004|||||||Chi-squared|||This comparison is specific to the incidence of swelling at injection site.||||0.004
82391021|NCT03051516|164493319|OTHER|Descriptive analysis||||||0.133|||||||Chi-squared|||This comparison is specific to the incidence of medical attention/medication required.||||0.133
82391022|NCT03051516|164493320|SUPERIORITY|||||||0.93|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV16, in Arm I (Vaccine)||||0.93
82527319|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.635||||0.6611|TWO_SIDED|95.0|0.18|14.73|||Regression, Logistic|||Day 57 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||14.73|0.18|0.6611
82641687|NCT05204563|164998396|OTHER||Treatment difference|-25.0|||||TWO_SIDED|95.0|-100.0|54.9||||||Escherichia coli TOC (Day 21)||54.9|-100.0|
82391023|NCT03051516|164493320|SUPERIORITY|||||||0.77|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV18, in Arm I (Vaccine)||||0.77
82391024|NCT03051516|164493320|SUPERIORITY|||||||0.57|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV31, in Arm I (Vaccine)||||0.57
82391025|NCT03051516|164493320|SUPERIORITY|||||||0.73|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV33, in Arm I (Vaccine)||||0.73
82391026|NCT03051516|164493320|SUPERIORITY|||||||0.998|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV45, in Arm I (Vaccine)||||0.998
82391027|NCT03051516|164493320|SUPERIORITY|||||||0.93|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV52, in Arm I (Vaccine)||||0.93
82391028|NCT03051516|164493320|SUPERIORITY|||||||0.95|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV58, in Arm I (Vaccine)||||0.95
82391029|NCT03051516|164493320|SUPERIORITY|||||||0.91|||||||Log Rank|||This p-value compares HSIL recurrence and presence of any HPV type, in Arm I (Vaccine)||||0.91
82391030|NCT03051516|164493320|SUPERIORITY|||||||0.22|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV16, in Arm II (Placebo)||||0.22
82391031|NCT03051516|164493320|SUPERIORITY|||||||0.27|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV18, in Arm II (Placebo)||||0.27
82391032|NCT03051516|164493320|SUPERIORITY|||||||0.72|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV31, in Arm II (Placebo)||||0.72
82391033|NCT03051516|164493320|SUPERIORITY|||||||0.71|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV33, in Arm II (Placebo)||||0.71
82391034|NCT03051516|164493320|SUPERIORITY|||||||0.11|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV45, in Arm II (Placebo)||||0.11
82391035|NCT03051516|164493320|SUPERIORITY|||||||0.58|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV52, in Arm II (Placebo)||||0.58
82391036|NCT03051516|164493320|SUPERIORITY|||||||0.81|||||||Log Rank|||This p-value compares HSIL recurrence and presence of HPV58, in Arm II (Placebo)||||0.81
82391037|NCT03051516|164493320|SUPERIORITY|||||||0.73|||||||Log Rank|||This p-value compares HSIL recurrence and presence of any HPV type, in Arm II (Placebo)||||0.73
82391038|NCT02122770|164493395|SUPERIORITY||Geometric LS Mean Ratio|98.75|||||TWO_SIDED|90.0|82.6|118.05||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric least square (LS) means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||118.05|82.60|
82391039|NCT02122770|164493396|SUPERIORITY||Geometric LS Mean Ratio|110.21|||||TWO_SIDED|90.0|102.34|118.69||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||118.69|102.34|
82391040|NCT02122770|164493397|SUPERIORITY||Geometric LS Mean Ratio|110.66|||||TWO_SIDED|90.0|102.53|119.43||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||119.43|102.53|
82391041|NCT02122770|164493398|SUPERIORITY||Geometric LS Mean Ratio|113.05|||||TWO_SIDED|90.0|85.35|149.74||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||149.74|85.35|
82391042|NCT02122770|164493398|SUPERIORITY||Geometric LS Mean Ratio|159.55|||||TWO_SIDED|90.0|89.97|282.96||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||282.96|89.97|
82391043|NCT02122770|164493398|SUPERIORITY||Geometric LS Mean Ratio|77.26|||||TWO_SIDED|90.0|55.19|108.17||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||108.17|55.19|
82641688|NCT05204563|164998396|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
82641689|NCT05204563|164998396|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
82360168|NCT00381849|164430815|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.41
82360169|NCT00381849|164430815|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of CaOx between baseline and after 46 weeks' treatment on cystone.||||0.32
82360170|NCT00381849|164430816|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 6 weeks' treatment on placebo.||||0.49
82360171|NCT00381849|164430816|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 6 weeks' treatment on cystone.||||0.64
82360172|NCT00381849|164430816|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.72
82360173|NCT00381849|164430816|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||t-test, 1 sided|||Paired t test for supersaturation of Brushite between baseline and after 46 weeks' treatment on cystone.||||0.84
82360174|NCT00381849|164430819|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 6 weeks' treatment on placebo.||||0.69
82391044|NCT02122770|164493399|SUPERIORITY||Geometric LS Mean Ratio|121.57|||||TWO_SIDED|90.0|110.92|133.24||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||133.24|110.92|
82391045|NCT02122770|164493399|SUPERIORITY||Geometric LS Mean Ratio|130.16|||||TWO_SIDED|90.0|106.99|158.35||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||158.35|106.99|
82391046|NCT02122770|164493399|SUPERIORITY||Geometric LS Mean Ratio|101.36|||||TWO_SIDED|90.0|90.72|113.23||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||113.23|90.72|
82391047|NCT02122770|164493400|SUPERIORITY||Geometric LS Mean Ratio|122.95|||||TWO_SIDED|90.0|112.13|134.82||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||134.82|112.13|
82444067|NCT02698371|164596689|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.071||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.071
82527320|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.486||||0.0104|TWO_SIDED|95.0|1.84|98.61|||Regression, Logistic|||Day 57 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||98.61|1.84|0.0104
82641690|NCT05204563|164998396|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Serratia marcescens TOC (Day 21)||0.0|-100.0|
82641691|NCT05204563|164998396|OTHER||Treatment difference|2.8|||||TWO_SIDED|95.0|-17.1|22.7||||||Klebsiella pneumoniae complex LFU (Day 28)||22.7|-17.1|
82360175|NCT00381849|164430819|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 6 weeks' treatment on cystone.||||0.25
82360176|NCT00381849|164430819|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between six weeks' treatment on cystone and 6 weeks' treatment on placebo.||||0.15
82360177|NCT00381849|164430819|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 1 sided|||Paired t test for urinary cystine between baseline and after 46 weeks' treatment on cystone.||||0.20
82360178|NCT00381849|164430820|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||Right Kidney Stone Density; P-value comparing one year to baseline||||0.85
82360179|NCT00381849|164430820|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||Left Kidney Stone Density; P-value comparing one year to baseline||||0.63
82360180|NCT00381849|164430820|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||t-test, 2 sided|||Right Kidney Stone Density; P-value comparing one year to baseline||||0.97
82360181|NCT00381849|164430820|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|||Left Kidney Stone Density; P-value comparing one year to baseline||||0.15
82360182|NCT00381849|164430821|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||Right Kidney Stone Volume; P-value comparing one year to baseline||||0.81
82360183|NCT00381849|164430821|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||Left Kidney Stone Volume; P-value comparing one year to baseline||||0.78
82360184|NCT00381849|164430821|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||Right Kidney Stone Volume; P-value comparing one year to baseline||||0.96
82360185|NCT00381849|164430821|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Left Kidney Stone Volume; P-value comparing one year to baseline||||0.13
82360186|NCT00493792|164430844|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.47|TWO_SIDED|95.0|0.29|1.77|||Regression, Cox|||||1.77|0.29|0.47
82391048|NCT02122770|164493400|SUPERIORITY||Geometric LS Mean Ratio|130.16|||||TWO_SIDED|90.0|106.99|158.35||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference||158.35|106.99|
82641692|NCT05204563|164998396|OTHER||Treatment difference|3.0|||||TWO_SIDED|95.0|-28.4|34.3||||||A.calco/baumannii complex LFU (Day 28)||34.3|-28.4|
82641693|NCT05204563|164998396|OTHER||Treatment difference|-0.4|||||TWO_SIDED|95.0|-33.9|33.0||||||Pseudomonas aeruginosa LFU (Day 28)||33.0|-33.9|
82641694|NCT05204563|164998396|OTHER||Treatment difference|0.0|||||TWO_SIDED|95.0|-90.3|90.3||||||Burkholderia cepacia complex LFU (Day 28)||90.3|-90.3|
82641695|NCT05204563|164998396|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-75.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-75.0|
82641696|NCT05204563|164998396|OTHER||Treatment difference|-26.7|||||TWO_SIDED|95.0|-100.0|68.5||||||Enterobacter cloacae complex LFU (Day 28)||68.5|-100.0|
82527321|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.43||||0.0282|TWO_SIDED|95.0|1.22|33.89|||Regression, Logistic|||Day 57 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||33.89|1.22|0.0282
82527322|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.257||||0.0042|TWO_SIDED|95.0|2.36|98.42|||Regression, Logistic|||Day 57 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||98.42|2.36|0.0042
82527323|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.967||||0.5164|TWO_SIDED|95.0|0.11|79.24|||Regression, Logistic|||Day 85 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||79.24|0.11|0.5164
82527324|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.36||||0.0445|TWO_SIDED|95.0|1.08|422.94|||Regression, Logistic|||Day 85 less than 70 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||422.94|1.08|0.0445
82360187|NCT00493792|164430845|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.06|TWO_SIDED|95.0|0.23|1.03|||Regression, Cox|||||1.03|0.23|0.06
82360188|NCT00493792|164430846|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.193|TWO_SIDED|95.0|0.45|1.18|||Regression, Cox|||||1.18|.45|0.193
82360189|NCT00685035|164430852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_DEVIATION|0.23||0.02|TWO_SIDED|95.0|||||ANCOVA|||||||.02
82527325|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.157||||0.0223|TWO_SIDED|95.0|1.35|49.37|||Regression, Logistic|||Day 85 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||49.37|1.35|0.0223
82527326|NCT01350141|164751277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.587||||0.007|TWO_SIDED|95.0|2.04|90.4|||Regression, Logistic|||Day 85 less than 100 mg/dL: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||90.40|2.04|0.0070
82527327|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.647||||0.2928|TWO_SIDED|95.0|0.22|142.04|||Regression, Logistic|||Day 29: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||142.04|0.22|0.2928
82574668|NCT01255761|164858722|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 2-sided 95 % CI was greater than -15 %, the null hypothesis was rejected and RAPID3 was deemed comparable to CDAI in assessing percent of Week 12 responders achieving LDA at Week 52.|Difference in proportion|-0.013|||||TWO_SIDED|95.0|-0.093|0.066||Study was intended to show the comparability of RAPID3 with CDAI. Assessment of whether the study objective was met was based on CIs rather than p-values. Both variables need to be significant to claim comparability between the two assessment tools.|ANCOVA|Difference in proportions from ANCOVA with tool as factor \& Baseline DAS28(ESR), gender, age, prior anti-TNF use \& disease duration as covariates.||"The null hypothesis was: (Proportion of Rapid 3 responders)-(Proportion of CDAI responders) ≤ delta with a delta of -15 %.~A 2-sided 95 % Confidence Interval (CI) for the difference in proportion of responders was computed."||0.066|-0.093|
82574669|NCT04147858|164858761|SUPERIORITY|||||||0.539|||||||t-test, 2 sided|||||||0.539
82574670|NCT04147858|164858761|SUPERIORITY|||||||0.425|||||||t-test, 2 sided|||||||0.425
82574671|NCT04147858|164858762|SUPERIORITY|||||||0.824|||||||t-test, 2 sided|||||||0.824
82574672|NCT04147858|164858762|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82574673|NCT04147858|164858763|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
82574674|NCT04147858|164858763|SUPERIORITY|||||||0.603|||||||t-test, 2 sided|||||||0.603
82574675|NCT04147858|164858764|SUPERIORITY|||||||0.871|||||||t-test, 2 sided|||||||0.871
82574676|NCT04147858|164858764|SUPERIORITY|||||||0.352|||||||t-test, 2 sided|||||||0.352
82574677|NCT04147858|164858765|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82574678|NCT04147858|164858765|SUPERIORITY|||||||0.626|||||||t-test, 2 sided|||||||0.626
82360190|NCT04968925|164430865|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|4.24|||||TWO_SIDED|95.0|0.8|22.54|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||22.54|0.80|
82360191|NCT04968925|164430866|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|3.44|||||TWO_SIDED|95.0|1.16|10.16|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||10.16|1.16|
82527328|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|591.174||||0.0014|TWO_SIDED|95.0|11.68|29922.99|||Regression, Logistic|||Day 29: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||29922.99|11.68|0.0014
82527329|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.468||||0.2339|TWO_SIDED|95.0|0.45|26.88|||Regression, Logistic|||Day 57: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||26.88|0.45|0.2339
82527330|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|23.442||||0.0025|TWO_SIDED|95.0|3.03|181.11|||Regression, Logistic|||Day 57: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||181.11|3.03|0.0025
82574679|NCT04147858|164858766|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||||||0.059
82574680|NCT04147858|164858766|SUPERIORITY|||||||0.726|||||||t-test, 2 sided|||||||0.726
82574681|NCT04147858|164858767|SUPERIORITY|||||||0.888|||||||t-test, 2 sided|||||||0.888
82574682|NCT04147858|164858767|SUPERIORITY|||||||0.832|||||||t-test, 2 sided|||||||0.832
82574683|NCT04147858|164858768|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||||||0.536
82574684|NCT04147858|164858768|SUPERIORITY|||||||0.982|||||||t-test, 2 sided|||||||0.982
82574685|NCT04147858|164858769|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.190
82574686|NCT04147858|164858769|SUPERIORITY|||||||0.764|||||||t-test, 2 sided|||||||0.764
82574687|NCT04147858|164858770|SUPERIORITY|||||||0.097|||||||t-test, 2 sided|||||||0.097
82574688|NCT04147858|164858770|SUPERIORITY|||||||0.849|||||||t-test, 2 sided|||||||0.849
82574689|NCT04121897|164858792|OTHER|||||||0.024|||||||t-test, 2 sided|||||||0.024
82360192|NCT04968925|164430867|NON_INFERIORITY|A non-inferiority margin of 10% was used.|Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.05|6.76|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|Phase I was not powered to test for non-inferiority for any endpoints. The data collected from this Phase was used to estimate the sample size required to achieve the primary endpoints for Phase II of the study.||6.76|1.05|
82360193|NCT04968925|164430868|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.76|||||TWO_SIDED|98.33|1.09|2.83|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.83|1.09|
82360194|NCT04968925|164430869|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.52|||||TWO_SIDED|96.66|1.02|2.28|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.28|1.02|
82360195|NCT04968925|164430870|SUPERIORITY|"The Fallback Method was used to test primary hypotheses in Phase II. An alpha of 0.167 was allocated for each test. Every successful test passed the unused alpha to the next."|Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.77|2.03|||Generalized linear Mixed Model Analysis||Odds ratio was calculated as Test over Control|It was calculated based on Phase I using Stroup's Method that 200 subjects were required to test superiority for each endpoint in Phase II.||2.03|0.77|
82360196|NCT00996437|164430893|SUPERIORITY_OR_OTHER||Treatment Difference in Cumulative Prob|4.0||||0.37|TWO_SIDED|95.0|-4.0|13.0|||Log Rank|After adjusting for potential confounding factors, time to vitrectomy remained similar between treatment groups.||The cumulative probabilities of vitrectomy by 16 weeks in each group were computed using the life-table method. Treatment group comparisons were performed using the log-rank test. The treatment difference in cumulative probabilities and 95% confidence interval were reported.||13|-4|0.37
82360197|NCT00996437|164430894|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value corresponds with recurrent vitreous hemorrhage evaluated on clinical exam between the two treatment arms.|Fisher Exact|||||||0.01
82360198|NCT00996437|164430895|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54||||0.05|TWO_SIDED|95.0|1.03|2.3|||Log Rank|||||2.30|1.03|0.05
82360199|NCT00996437|164430896|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||P-value corresponds to the 12 week visit treatment comparison.|GLM with GEE method|Number of subjects with baseline OCT ss=0 and OCT ss\>0 and no vitrectomy at follow up. A generalized GLM with GEE was used for treatment comparisons.||Signal strength was analyzed as a composite outcome defined as OCT signal strength \> = and no vitrectomy vs. OCT signal strength = 0.||||0.87
82360200|NCT00996437|164430897|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value corresponds to the 12 week visit treatment comparison.|Mixed Models Analysis|Treatment comparisons were performed using a longitudinal mixed model adjusting for baseline visual acuity.||||||.04
82360201|NCT00996437|164430899|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value corresponds with the 12 week visit treatment comparison|Fisher Exact|At the each time point, treatment comparison analysis was performed using a Fisher Exact test.||||||.023
82360202|NCT00996437|164430900|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Fisher Exact|At each time point, treatment comparison analysis was performed using a Fisher Exact Test.||||||0.27
82360203|NCT03653026|164430901|SUPERIORITY||Adjusted Response Rate Difference|29.0|||<|0.001|TWO_SIDED|95.0|23.2|34.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||34.7|23.2|<0.001
82527331|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.502||||0.1786|TWO_SIDED|95.0|0.38|192.32|||Regression, Logistic|||Day 85: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||192.32|0.38|0.1786
82360204|NCT03653026|164430902|SUPERIORITY||Adjusted Response Rate Difference|35.1|||<|0.001|TWO_SIDED|95.0|28.6|41.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||41.6|28.6|<0.001
82360205|NCT03653026|164430903|SUPERIORITY||Adjusted Response Rate Difference|15.9|||<|0.001|TWO_SIDED|95.0|11.4|20.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||20.3|11.4|<0.001
82360206|NCT03653026|164430904|SUPERIORITY||Adjusted Response Rate Difference|49.4|||<|0.001|TWO_SIDED|95.0|41.7|57.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||57.1|41.7|<0.001
82574690|NCT04683510|164858800|SUPERIORITY||Odds Ratio (OR)|1.647||||0.2345|TWO_SIDED|95.0|0.724|3.746|||Regression, Logistic|||||3.746|0.724|0.2345
82527332|NCT01350141|164751278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|51.185||||0.0121|TWO_SIDED|95.0|2.37|1107.57|||Regression, Logistic|||Day 85: Analysis was performed using logistic regression with covariates baseline LDL-C and statin tested along with the treatment.||1107.57|2.37|0.0121
82527333|NCT01588990|164751287|SUPERIORITY_OR_OTHER|||||||0.101|||||||Cox Proportional Hazards Model|||||||0.101
82527334|NCT01588990|164751299|SUPERIORITY_OR_OTHER|||||||0.052|||||||Cox Proportional Hazards Model|||||||0.052
82360207|NCT03653026|164430905|SUPERIORITY||Adjusted Response Rate Difference|37.0|||<|0.001|TWO_SIDED|95.0|28.8|45.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||45.1|28.8|<0.001
82360208|NCT03653026|164430906|SUPERIORITY||Adjusted Response Rate Difference|30.1|||<|0.001|TWO_SIDED|95.0|24.1|36.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - placebo|||36.2|24.1|<0.001
82360209|NCT03653026|164430907|SUPERIORITY||Adjusted Response Rate Difference|27.1|||<|0.001|TWO_SIDED|95.0|19.0|35.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (\<= 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||35.3|19.0|<0.001
82360210|NCT03653026|164430908|SUPERIORITY||Adjusted Response Rate Difference|29.1|||<|0.001|TWO_SIDED|95.0|20.9|37.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||37.4|20.9|<0.001
82360211|NCT03653026|164430909|SUPERIORITY||Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|29.8|46.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||46.1|29.8|<0.001
82360212|NCT03653026|164430910|SUPERIORITY||Least Squares (LS) Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|24.98|37.36||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|||37.36|24.98|<0.001
82527335|NCT01588990|164751300|SUPERIORITY_OR_OTHER|||||||0.797|||||||Cox Proportional Hazards Model|||||||0.797
82527336|NCT01588990|164751301|SUPERIORITY_OR_OTHER|||||||0.188|||||||Cox Proportional Hazards Model|||||||0.188
82360213|NCT03653026|164430911|SUPERIORITY||Adjusted Response Rate Difference|11.3|||<|0.001|TWO_SIDED|95.0|7.2|15.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Adjusted for Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR).|Difference = Upadacitinib 45 mg - Placebo|||15.3|7.2|<0.001
82360214|NCT03653026|164430912|SUPERIORITY||LS Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|4.19|7.73||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|||7.73|4.19|<0.001
82391049|NCT02122770|164493400|SUPERIORITY||Geometric LS Mean Ratio|100.89|||||TWO_SIDED|90.0|91.14|111.68||||||Natural-log transformed pharmacokinetic parameters were fit using a mixed effects model with study day as a fixed effect and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed least squares mean and treatment mean difference.||111.68|91.14|
82527337|NCT01588990|164751302|SUPERIORITY_OR_OTHER|||||||0.016|||||||Cox Proportional Hazards Model|||||||0.016
82527338|NCT02367716|164751312|OTHER|The mean change in QRS duration between Baseline and 6 months|Mean Difference (Final Values)|-13.9|STANDARD_DEVIATION|29.6|||TWO_SIDED|||||||||||||
82391050|NCT01041976|164493412|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82391051|NCT01041976|164493413|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82527339|NCT03502616|164751382|SUPERIORITY||Difference in percentage|27.08|STANDARD_ERROR_OF_MEAN|5.71|<|0.0001|TWO_SIDED|95.0|15.89|38.28|||Cochran-Mantel-Haenszel|||Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via Cochran-Mantel-Haenszel (CMH) approach.||38.28|15.89|<0.0001
82527340|NCT03502616|164751383|SUPERIORITY||Difference in percentage|28.17|STANDARD_ERROR_OF_MEAN|5.06|<|0.0001|TWO_SIDED|95.0|18.26|38.09|||Cochran-Mantel-Haenszel|||Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||38.09|18.26|<0.0001
82527341|NCT03502616|164751390|SUPERIORITY||Difference in percentage|18.28|STANDARD_ERROR_OF_MEAN|4.7||0.0001|TWO_SIDED|95.0|9.06|27.5|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||27.50|9.06|0.0001
82527342|NCT03502616|164751390|SUPERIORITY||Difference in percentage|31.35|STANDARD_ERROR_OF_MEAN|5.47|<|0.0001|TWO_SIDED|95.0|20.64|42.06|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.06|20.64|<0.0001
82574691|NCT04683510|164858800|SUPERIORITY||Odds Ratio (OR)|1.897||||0.124|TWO_SIDED|95.0|0.839|4.291|||Regression, Logistic|||||4.291|0.839|0.124
82527343|NCT03502616|164751390|SUPERIORITY||Difference in percentage|32.24|STANDARD_ERROR_OF_MEAN|5.57|<|0.0001|TWO_SIDED|95.0|21.32|43.17|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||43.17|21.32|<0.0001
82527344|NCT03502616|164751390|SUPERIORITY||Difference in percentage|34.61|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|23.63|45.58|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||45.58|23.63|<0.0001
82527345|NCT03502616|164751390|SUPERIORITY||Difference in percentage|3.65|STANDARD_ERROR_OF_MEAN|5.9||0.536|TWO_SIDED|95.0|-7.92|15.22|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.22|-7.92|0.5360
82574692|NCT04683510|164858801|SUPERIORITY||Odds Ratio (OR)|0.905||||0.2352|TWO_SIDED|95.0|0.768|1.067|||Regression, Logistic|||||1.067|0.768|0.2352
82574693|NCT04683510|164858801|SUPERIORITY||Odds Ratio (OR)|0.924||||0.3418|TWO_SIDED|95.0|0.785|1.088|||Regression, Logistic|||||1.088|0.785|0.3418
82574694|NCT04683510|164858802|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1653|TWO_SIDED|95.0|0.921|1.615|||Regression, Logistic|||||1.615|0.921|0.1653
82574695|NCT04683510|164858802|SUPERIORITY||Odds Ratio (OR)|1.213||||0.181|TWO_SIDED|95.0|0.914|1.609|||Regression, Logistic|||||1.609|0.914|0.181
82641697|NCT05204563|164998396|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|36.5||||||Escherichia coli LFU (Day 28)||36.5|-100.0|
82527346|NCT03502616|164751390|SUPERIORITY||Difference in percentage|3.83|STANDARD_ERROR_OF_MEAN|5.63||0.4971|TWO_SIDED|95.0|-7.22|14.87|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.87|-7.22|0.4971
82574696|NCT03771638|164858803|SUPERIORITY|Minimum detectable effects: Under assumptions of the adherence of DBS TFV-DP levels \>=700 fmol/punch in the control condition as 60% and intraclass correlation of repeated binary measures of DBS TFV-DP of 0.69, and retention of 80% of participants at 24 weeks, we will have 80% power in 2-sided tests with a type-1 error rate of 5% to detect average between-group differences in adherence of 23 percentage points.|Risk Ratio (RR)|1.01||||0.94|TWO_SIDED|95.0|0.75|1.36||GEE poisson models with robust standard errors were used to assess DBS adherence rates, averaged across visits.|GEE Poisson models|||Null hypothesis: no difference in PrEP adherence levels between DOT Diary Intervention and Control arms||1.36|0.75|0.94
82360233|NCT01933919|164430956|SUPERIORITY||LS Mean Difference (Fluvoxamine-Placebo)|-4.3|STANDARD_ERROR_OF_MEAN|2.07||0.044|TWO_SIDED|95.0|-8.5|-0.1|||ANCOVA|ANCOVA with baseline JCY-BOCS (10-item) total score and age as covariates and treatment as fixed effect.|The model included the fixed effects of treatment, with baseline JCY-BOCS (10-item) total score and age as covariates.|||-0.1|-8.5|0.044
82527347|NCT03502616|164751390|SUPERIORITY||Difference in percentage|1.58|STANDARD_ERROR_OF_MEAN|5.65||0.7792|TWO_SIDED|95.0|-9.49|12.66|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||12.66|-9.49|0.7792
82574697|NCT03771638|164858804|OTHER||Kappa statistic|0.49|||||TWO_SIDED|95.0|0.36|0.62|||Kappa|||Kappa statistic to assess concordance between DBS measurement and self-reported PrEP use||0.62|0.36|
82641698|NCT05204563|164998396|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
82641699|NCT05204563|164998396|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
82360234|NCT00979212|164430977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||||||One-sided test at significance level of 0.05|Fisher Exact|||Null hypothesis (H0) was that the experimental treatment was not effective vs the alternative hypothesis (HA) that it was. H0: OR ≤ 1 vs. HA: OR \> 1, where odds ratio (OR)= \[p2\*(1- p1)\]/ \[p1\*(1- p2)\], p1 denotes the mediastinal clearance rate (MCR) on Induction chemoradiation; p2 denotes the MCR on Induction chemoradiation + panitumumab. Fisher's exact test was used to compare the MCRs; the 95% confidence interval was calculated using Clopper-Pearson method. 97 patients were required.||||0.96
82360235|NCT00974350|164430994|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.353||0.0031|TWO_SIDED|95.0|-1.84|-0.44|||ANOVA|LS Mean difference from SABER-Placebo||Pain Intensity on Movement AUCs1-72 hours Including Pain Assessed Upon Taking Opioid Rescue - ITT||-0.44|-1.84|0.0031
82360236|NCT00974350|164430995|SUPERIORITY|||||||0.0909|||||||Cochran-Mantel-Haenszel|Stratified by pooled study sites||Proportion of Patients Not Taking Any Supplemental Opioid Analgesic Medication||||0.0909
82360237|NCT01344018|164431005|SUPERIORITY|"Time assessment biases were taken into account for the primary endpoint:~* Surgery alone arm: abdominal recurrence occurring prior to week 14 assessment was counted as occurring at week 14; progression occurring after the week 14 was counted as occurring at week 24.~* Preoperative RT arm: abdominal recurrence occurring was counted as occurring at week 14; and any abdominal recurrence occurring after and prior to or during the week 24 will be counted as occurring at week 24."|Hazard Ratio (HR)|1.01||||0.955|TWO_SIDED|95.0|0.71|1.44||A 5% significance level was considered as a threshold for statistical significance.|Regression, Cox|The time assessment biases correction described before was not applied to patients for whom death was the first event.|The arm having surgery alone was the reference arm.|Sample size was determined to provide 90% power for detecting a Hazard Ratio (HR)=0.52 (which corresponds to a 20% difference in ARFS rate at 5 years, from 50% in the surgery arm to 70% in the experimental arm) at a global 2-sided 5% significance level assuming ARFS followed an exponential distribution in both arms. This test required 102 events at the time of the statistical analysis.||1.44|0.71|0.955
82360238|NCT01344018|164431010|SUPERIORITY|ARFI was described using cumulative incidence curves. ARFI was compared between the two treatment arms using a Fine and Gray model.|Hazard Ratio (HR)|1.09||||0.658|TWO_SIDED|95.0|0.74|1.6||A 5% significance level was considered as a threshold for statistical significance.|Fine and Gray model|||||1.60|0.74|0.658
82360239|NCT01344018|164431011|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.595|TWO_SIDED|95.0|0.58|1.36||A 5% significance level was considered as a threshold for statistical significance.|Regression, Cox|||||1.36|0.58|0.595
82360240|NCT01344018|164431012|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.615|TWO_SIDED|95.0|0.65|2.05|||Regression, Cox|||||2.05|0.65|0.615
82360241|NCT05070754|164431013|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
82360242|NCT05070754|164431014|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
82360243|NCT05070754|164431015|SUPERIORITY|||||||0.534|||||||Chi-squared|||Outcome measures 1-3 were all tested together. Null hypothesis was that there was no difference in the degree of lesion resolution between the two treatment methods.||||0.534
82360244|NCT05070754|164431016|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82360245|NCT05070754|164431017|SUPERIORITY|||||||0.142|||||||Wilcoxon Signed Rank Test|||Null hypothesis: there was no difference in median pain levels between SOC and NTAP treated lesions.||||0.142
82360246|NCT03538262|164431018|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.006
82360247|NCT03538262|164431018|OTHER|Statistical analysis for BL to Month 24|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82360248|NCT03538262|164431019|OTHER|||||||0.011|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.011
82360249|NCT03538262|164431019|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82360250|NCT03538262|164431020|OTHER|||||||0.007|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.007
82360251|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
82360252|NCT03538262|164431020|OTHER|||||||0.004|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.004
82527348|NCT03502616|164751390|SUPERIORITY||Difference in percentage|5.22|STANDARD_ERROR_OF_MEAN|5.8||0.3685|TWO_SIDED|95.0|-6.15|16.58|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.58|-6.15|0.3685
82527349|NCT03502616|164751391|SUPERIORITY||Difference in percentage|6.12|STANDARD_ERROR_OF_MEAN|3.19||0.0548|TWO_SIDED|95.0|-0.13|12.37|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||12.37|-0.13|0.0548
82360253|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
82360254|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
82360255|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
82360256|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
82360257|NCT03538262|164431020|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82360258|NCT03538262|164431021|OTHER|||||||0.996|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.996
82360259|NCT03538262|164431021|OTHER|||||||0.054|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.054
82360260|NCT03538262|164431021|OTHER|||||||0.025|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.025
82360261|NCT03538262|164431021|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.006
82527350|NCT03502616|164751391|SUPERIORITY||Difference in percentage|23.43|STANDARD_ERROR_OF_MEAN|4.15|<|0.0001|TWO_SIDED|95.0|15.3|31.56|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.56|15.30|<0.0001
82641700|NCT05204563|164998397|OTHER||Treatment difference|21.0|||||TWO_SIDED|95.0|2.4|39.6||||||Klebsiella pneumoniae complex EOT (up to Day 14)||39.6|2.4|
82360262|NCT03538262|164431022|OTHER|||||||0.145|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.145
82360263|NCT03538262|164431022|OTHER|||||||0.029|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.029
82360264|NCT03538262|164431023|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<.001
82360265|NCT03538262|164431023|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82360266|NCT03538262|164431024|OTHER|||||||0.382|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.382
82360267|NCT03538262|164431024|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82391052|NCT02612610|164493433|OTHER||LS Mean Difference|-0.25||||0.0971|TWO_SIDED|95.0|-0.54|0.05|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% confidence intervals (CIs) were estimated using a mixed effect repeated measures (MMRM) model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||0.05|-0.54|0.0971
82391053|NCT02612610|164493433|OTHER||LS Mean Difference|-0.25||||0.0928|TWO_SIDED|95.0|-0.54|0.04|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||0.04|-0.54|0.0928
82391054|NCT02612610|164493433|OTHER||LS Mean Difference|-0.46||||0.0027|TWO_SIDED|95.0|-0.76|-0.16|||Mixed Effect Repeated Measures model|||Estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate.||-0.16|-0.76|0.0027
82444068|NCT02698371|164596689|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.898||||||Applied for all rows/Categories (graded on a 5-point scale) of Marginal Adaptation-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Adaptation performance at 24 month follow-up recall.||||0.898
82444069|NCT02698371|164596690|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.317
82444070|NCT02698371|164596690|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.18||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.180
82360268|NCT03538262|164431025|OTHER|||||||0.688|||||||Mixed Models Analysis|||Secondary analysis for BL to Month 12||||0.688
82360269|NCT03538262|164431025|OTHER|||||||0.293|||||||Mixed Models Analysis|||Secondary analysis for BL to Month 24||||0.293
82360270|NCT03538262|164431026|OTHER|||||||0.446|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.446
82360271|NCT03538262|164431026|OTHER|||||||0.565|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.565
82360272|NCT03538262|164431027|OTHER|||||||0.006|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.006
82444071|NCT02698371|164596690|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.918||||||Applied for all rows/Categories (graded on a 5-point scale) of Postoperative Hypersensibility, Tooth Vitality-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Postoperative Hypersensibility, Tooth Vitality performance at 24 month follow-up recall.||||0.918
82360273|NCT03538262|164431027|OTHER|||||||0.937|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.937
82360274|NCT03538262|164431028|OTHER|||||||0.041|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.041
82360275|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
82360276|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||<0.001
82391055|NCT02612610|164493434|OTHER||LS Mean Difference|-0.19||||0.1914|TWO_SIDED|95.0|-0.47|0.09|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.09|-0.47|0.1914
82360277|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
82360278|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
82360279|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
82360280|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
82360281|NCT03538262|164431028|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82360282|NCT03538262|164431029|OTHER|||||||0.595|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.595
82360283|NCT03538262|164431029|OTHER|||||||0.44|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.440
82360284|NCT03538262|164431029|OTHER|||||||0.909|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.909
82360285|NCT03538262|164431029|OTHER|||||||0.068|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.068
82360286|NCT03538262|164431030|OTHER|||||||0.074|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.074
82360287|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||<0.001
82360288|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||<0.001
82360289|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||<0.001
82360290|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||<0.001
82360291|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||<0.001
82360292|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||<0.001
82360293|NCT03538262|164431030|OTHER||||||<|0.001|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||<0.001
82360294|NCT03538262|164431031|OTHER|||||||0.2|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.200
82360295|NCT03538262|164431031|OTHER|||||||0.888|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 6||||0.888
82360296|NCT03538262|164431031|OTHER|||||||0.837|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.837
82360297|NCT03538262|164431031|OTHER|||||||0.394|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.394
82360298|NCT03538262|164431031|OTHER|||||||0.268|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||0.268
82360299|NCT03538262|164431031|OTHER|||||||0.039|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 18||||0.039
82360300|NCT03538262|164431031|OTHER|||||||0.979|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||0.979
82360301|NCT03538262|164431031|OTHER|||||||0.014|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 24||||0.014
82360302|NCT03538262|164431032|OTHER|||||||0.285|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 3||||0.285
82360303|NCT03538262|164431032|OTHER|||||||0.267|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 9||||0.267
82360304|NCT03538262|164431032|OTHER|||||||0.564|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 15||||0.564
82360305|NCT03538262|164431032|OTHER|||||||0.034|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 21||||0.034
82360306|NCT03538262|164431033|OTHER|||||||0.409|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 12||||0.409
82360307|NCT03538262|164431033|OTHER|||||||0.149|||||||Mixed Models Analysis|||Statistical analysis for BL to Month 0.149||||0.149
82360308|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.38|0.35||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.35|-0.38|
82360309|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.6|0.13||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.13|-0.60|
82360310|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.7|0.15||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.15|-0.70|
82360311|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.93|-0.07||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.07|-0.93|
82360312|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.69|0.33||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.33|-0.69|
82360313|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.09|-0.06||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.06|-1.09|
82360314|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.94|0.27||||||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.27|-0.94|
82360315|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.21|0.0||||||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.00|-1.21|
82360316|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.24|-0.03||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.03|-1.24|
82641701|NCT05204563|164998397|OTHER||Treatment difference|18.2|||||TWO_SIDED|95.0|-25.7|62.0||||||Pseudomonas aeruginosa EOT (up to Day 14)||62.0|-25.7|
82360317|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.84|0.38||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.38|-0.84|
82574698|NCT03170518|164858822|SUPERIORITY|Imputed datasets were analyzed using analysis of covariance (ANCOVA) with terms for treatment, stratification factors (antihyperglycemic agent background and age group), and baseline HbA1c.|Least square mean difference|-0.76|||=|0.002|TWO_SIDED|95.0|-1.25|-0.27|||ANCOVA|||||-0.27|-1.25|= 0.002
82641702|NCT05204563|164998397|OTHER||Treatment difference|-8.9|||||TWO_SIDED|95.0|-51.6|33.9||||||A.calco/baumannii complex EOT (up to Day 14)||33.9|-51.6|
82641703|NCT05204563|164998397|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|61.0||||||Klebsiella aerogenes EOT (up to Day 14)||61.0|-100.0|
82641704|NCT05204563|164998397|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex EOT (up to Day 14)||69.3|-100.0|
82641705|NCT05204563|164998397|OTHER||Treatment difference|9.7|||||TWO_SIDED|95.0|-12.7|32.1||||||Klebsiella pneumoniae complex TOC (Day 21)||32.1|-12.7|
82641706|NCT05204563|164998397|OTHER||Treatment difference|10.9|||||TWO_SIDED|95.0|-31.4|53.2||||||Pseudomonas aeruginosa TOC (Day 21)||53.2|-31.4|
82641707|NCT05204563|164998397|OTHER||Treatment difference|-8.9|||||TWO_SIDED|95.0|-51.6|33.9||||||A.calco/baumannii complex TOC (Day 21)||33.9|-51.6|
82641708|NCT05204563|164998397|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes TOC (Day 21)||100|-100.0|
82641709|NCT05204563|164998397|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex TOC (Day 21)||69.3|-100.0|
82641710|NCT05204563|164998397|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli TOC (Day 21)||86.7|-100.0|
82641711|NCT05204563|164998397|OTHER||Treatment difference|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Citrobacter koseri TOC (Day 21)||100.0|-94.3|
82641712|NCT05204563|164998397|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca TOC (Day 21)||0.0|-100.0|
82641713|NCT05204563|164998397|OTHER||Treatment difference|12.5|||||TWO_SIDED|95.0|-10.5|35.6||||||Klebsiella pneumoniae complex LFU (Day 28)||35.6|-10.5|
82641714|NCT05204563|164998397|OTHER||Treatment difference|1.8|||||TWO_SIDED|95.0|-39.9|43.5||||||Pseudomonas aeruginosa LFU (Day 28)||43.5|-39.9|
82641715|NCT05204563|164998397|OTHER||Treatment difference|2.2|||||TWO_SIDED|95.0|-45.1|49.6||||||A.calco/baumannii complex LFU (Day 28)||49.6|-45.1|
82641716|NCT05204563|164998397|OTHER||Treatment difference|16.7|||||TWO_SIDED|95.0|-100.0|100.0||||||Klebsiella aerogenes LFU (Day 28)||100.0|-100.0|
82391056|NCT02612610|164493434|OTHER||LS Mean Difference|-0.05||||0.7099|TWO_SIDED|95.0|-0.33|0.23|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.23|-0.33|0.7099
82641717|NCT05204563|164998397|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|69.3||||||Enterobacter cloacae complex LFU (Day 28)||69.3|-100.0|
82641718|NCT05204563|164998397|OTHER||Treatment difference|-33.3|||||TWO_SIDED|95.0|-100.0|86.7||||||Escherichia coli LFU (Day 28)||86.7|-100.0|
82641719|NCT05204563|164998397|OTHER||Treatment difference|-50.0|||||TWO_SIDED|95.0|-100.0|94.3||||||Citrobacter koseri LFU (Day 28)||94.3|-100.0|
82641720|NCT05204563|164998397|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Klebsiella oxytoca LFU (Day 28)||0.0|-100.0|
82641721|NCT05204563|164998398|OTHER||Treatment difference|30.3|||||TWO_SIDED|95.0|-4.2|64.8||||||A.calco/baumannii complex EOT (up to Day 14)||64.8|-4.2|
82641722|NCT05204563|164998398|OTHER||Treatment difference|12.0|||||TWO_SIDED|95.0|-19.1|43.2||||||A.calco/baumannii complex TOC (Day 21)||43.2|-19.1|
82641723|NCT05204563|164998398|OTHER||Treatment difference|0.5|||||TWO_SIDED|95.0|-29.0|29.9||||||A.calco/baumannii complex LFU (Day 28)||29.9|-29.0|
82641724|NCT05204563|164998398|OTHER||Treatment difference|-8.3|||||TWO_SIDED|95.0|-57.9|41.1||||||EOT (up to Day 14)||41.1|-57.9|
82641725|NCT05204563|164998398|OTHER||Treatment difference|-39.8|||||TWO_SIDED|95.0|-89.1|9.4||||||Klebsiella pneumoniae complex TOC (Day 21)||9.4|-89.1|
82641726|NCT05204563|164998398|OTHER||Treatment difference|-45.1|||||TWO_SIDED|95.0|-93.8|3.5||||||Klebsiella pneumoniae complex LFU (Day 28)||3.5|-93.8|
82641727|NCT05204563|164998398|OTHER||Treatment difference|20.5|||||TWO_SIDED|95.0|-59.8|100.0||||||Pseudomonas aeruginosa EOT (up to Day 14)||100.0|-59.8|
82641728|NCT05204563|164998398|OTHER||Treatment difference|-2.6|||||TWO_SIDED|95.0|-82.0|76.9||||||Pseudomonas aeruginosa TOC (Day 21)||76.9|-82.0|
82641729|NCT05204563|164998398|OTHER||Treatment difference|-17.9|||||TWO_SIDED|95.0|-95.3|59.4||||||Pseudomonas aeruginosa LFU (Day 28)||59.4|-95.3|
82641730|NCT05204563|164998398|OTHER||Treatment difference|-100.0|||||TWO_SIDED|95.0|-100.0|0.0||||||Escherichia coli LFU (Day 28)||0.0|-100.0|
82641731|NCT05204563|164998399|OTHER||Treatment difference|10.2|||||TWO_SIDED|95.0|-4.9|25.3||||||EOT (up to Day 14)||25.3|-4.9|
82641732|NCT05204563|164998399|OTHER||Treatment difference|3.0|||||TWO_SIDED|95.0|-13.0|19.0||||||TOC (Day 21)||19.0|-13.0|
82641733|NCT05204563|164998399|OTHER||Treatment difference|7.9|||||TWO_SIDED|95.0|-7.6|23.5||||||LFU (Day 28)||23.5|-7.6|
82641734|NCT05204563|164998400|OTHER||Treatment difference|7.5|||||TWO_SIDED|95.0|-5.8|20.8||||||EOT (up to Day 14)||20.8|-5.8|
82641735|NCT05204563|164998400|OTHER||Treatment difference|1.9|||||TWO_SIDED|95.0|-11.6|15.5||||||TOC (Day 21)||15.5|-11.6|
82641736|NCT05204563|164998400|OTHER||Treatment difference|4.1|||||TWO_SIDED|95.0|-9.2|17.4||||||LFU (Day 28)||17.4|-9.2|
82641737|NCT05204563|164998401|OTHER||Treatment difference|4.8|||||TWO_SIDED|95.0|-10.6|20.2||||||EOT (up to Day 14)||20.2|-10.6|
82641738|NCT05204563|164998401|OTHER||Treatment difference|3.2|||||TWO_SIDED|95.0|-14.0|20.4||||||TOC (Day 21)||20.4|-14.0|
82641739|NCT05204563|164998401|OTHER||Treatment difference|8.6|||||TWO_SIDED|95.0|-8.4|25.6||||||LFU (Day 28)||25.6|-8.4|
82641740|NCT05204563|164998402|OTHER||Treatment difference|11.2|||||TWO_SIDED|95.0|-14.5|36.9||||||EOT (up to Day 14)||36.9|-14.5|
82641741|NCT05204563|164998402|OTHER||Treatment difference|-5.4|||||TWO_SIDED|95.0|-28.4|17.6||||||TOC (Day 21)||17.6|-28.4|
82641742|NCT05204563|164998402|OTHER||Treatment difference|-10.2|||||TWO_SIDED|95.0|-32.9|12.5||||||LFU (Day 28)||12.5|-32.9|
82641743|NCT04755283|164998407|SUPERIORITY||Hazard Ratio (HR)|0.314|||<|0.001|TWO_SIDED|95.0|0.192|0.513|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.513|0.192|<0.001
82641744|NCT04755283|164998407|SUPERIORITY||Hazard Ratio (HR)|0.382|||<|0.001|TWO_SIDED|95.0|0.243|0.602|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.602|0.243|<0.001
82360318|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.53|0.01||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.01|-1.53|
82360319|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.07|0.47||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.47|-1.07|
82360320|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.65|-0.08||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.08|-1.65|
82360321|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.06|0.55||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.55|-1.06|
82360322|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.72|-0.15||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.15|-1.72|
82360323|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.05|0.54||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.54|-1.05|
82360324|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.8|-0.15||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.15|-1.80|
82360325|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.04|0.61||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.61|-1.04|
82360326|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.65|-0.05||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.05|-1.65|
82360327|NCT02725411|164431075|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.88|0.71||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.71|-0.88|
82360328|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.77|0.04||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.04|-1.77|
82360329|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.96|-0.14||||||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||-0.14|-1.96|
82444072|NCT02698371|164596691|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion, Abfraction-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||0.317
82360330|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.48|0.43||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.43|-1.48|
82360331|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.43|0.51||||||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.51|-1.43|
82360332|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.04|0.91||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.91|-1.04|
82360333|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-1.53|0.44||||||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.44|-1.53|
82360334|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.06|1.05||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.05|-1.06|
82360335|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.6|0.53||||||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.53|-1.60|
82360336|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.71|0.88||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.88|-1.71|
82360337|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.47|1.14||||||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.14|-1.47|
82360338|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-1.9|0.71||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.71|-1.90|
82360339|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.44|1.25||||||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.25|-1.44|
82360340|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.43|0.28||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.28|-2.43|
82574699|NCT03023423|164858872|SUPERIORITY||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.03|1.92||||||||1.92|0.03|
82574700|NCT03512197|164858882|SUPERIORITY||Hazard Ratio (HR)|1.0239|||||TWO_SIDED|95.0|0.8|1.31||||||||1.31|0.8|
82574701|NCT03512197|164858883|SUPERIORITY||Hazard Ratio (HR)|0.8728|||||TWO_SIDED|95.0|0.59|1.29||||||||1.29|0.59|
82641745|NCT04755283|164998408|SUPERIORITY||Hazard Ratio (HR)|0.263|||<|0.001|TWO_SIDED|95.0|0.121|0.572|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.572|0.121|<0.001
82360341|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.41|1.32||||||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.32|-1.41|
82360342|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.17|0.57||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.57|-2.17|
82360343|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-1.16|1.64||||||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.64|-1.16|
82444073|NCT02698371|164596691|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion, Abfraction-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||.317
82444074|NCT02698371|164596691|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.575||||||Applied for all rows/Categories (graded on a 5-point scale) of Recurrence of Caries, Erosion \& Abfraction-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Recurrence of Caries, Erosion, Abfraction performance at 24 month follow-up recall.||||0.575
82444075|NCT02698371|164596692|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.020
82574702|NCT03512197|164858888|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.6|1.63||||||||1.63|0.60|
82574703|NCT03512197|164858889|SUPERIORITY||Hazard Ratio (HR)|1.5866|||||TWO_SIDED|95.0|0.88|2.87||||||||2.87|0.88|
82574704|NCT03512197|164858890|SUPERIORITY||Hazard Ratio (HR)|0.7937|||||TWO_SIDED|95.0|0.41|1.54||||||||1.54|0.41|
82574705|NCT03512197|164858892|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.75|1.16||||||partial neutrophil recovery||1.16|0.75|
82574706|NCT03512197|164858892|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.72|1.14||||||full neutrophil recovery||1.14|0.72|
82641746|NCT04755283|164998408|SUPERIORITY||Hazard Ratio (HR)|0.325||||0.001|TWO_SIDED|95.0|0.159|0.663|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.663|0.159|0.001
82360344|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.37|0.35||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||0.35|-2.37|
82360345|NCT02725411|164431077|OTHER|No formal hypotheses were tested in the study.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-1.35|1.42||||||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ as covariates, and study site as a random effect.||1.42|-1.35|
82360346|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|13.0|||||TWO_SIDED|95.0|-0.8|26.3||||||Week 16: \>=30%||26.3|-0.8|
82360347|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-1.7|||||TWO_SIDED|95.0|-15.8|12.4||||||Week 16: \>=30%||12.4|-15.8|
82360348|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|18.5|||||TWO_SIDED|95.0|4.2|32.0||||||Week 16: \>=50%||32.0|4.2|
82527351|NCT03502616|164751391|SUPERIORITY||Difference in percentage|28.56|STANDARD_ERROR_OF_MEAN|4.54|<|0.0001|TWO_SIDED|95.0|19.66|37.47|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||37.47|19.66|<0.0001
82641747|NCT04755283|164998409|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.332|0.638|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.638|0.332|<0.001
82641748|NCT04755283|164998409|SUPERIORITY||Hazard Ratio (HR)|0.683||||0.01|TWO_SIDED|95.0|0.512|0.912|||Stratified Log Rank Test|Stratified for stratification factors|Cox Proportional Hazards Model Adjusted for Stratification Factors|||0.912|0.512|0.010
82641749|NCT02268214|164998410|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.0697|<|0.0001|TWO_SIDED|95.0|-0.56|-0.28|||RMM|Repeated Measures Model||||-0.28|-0.56|<0.0001
82641750|NCT02268214|164998410|SUPERIORITY||Median Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.0696|<|0.0001|TWO_SIDED|95.0|-0.58|-0.31|||RMM|Repeated Measures Model||||-0.31|-0.58|<0.0001
82641751|NCT02268214|164998411|SUPERIORITY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.9555|<|0.0001|TWO_SIDED|95.0|-12.56|-4.88|||RMM|Repeated Measures Model||||-4.88|-12.56|<0.0001
82641752|NCT02268214|164998411|SUPERIORITY||Mean Difference (Final Values)|-13.17|STANDARD_ERROR_OF_MEAN|1.8643|<|0.0001|TWO_SIDED|95.0|-16.75|-9.43|||RMM|Repeated Measures Model||||-9.43|-16.75|<0.0001
82641753|NCT02268214|164998412|SUPERIORITY||Mean Difference (Final Values)|-3.05|STANDARD_ERROR_OF_MEAN|0.3251|<|0.0001|TWO_SIDED|95.0|-3.68|-2.41|||RMM|Repeated Measures Model||||-2.41|-3.68|<0.0001
82641754|NCT02268214|164998412|SUPERIORITY||Mean Difference (Final Values)|-3.72|STANDARD_ERROR_OF_MEAN|0.3213|<|0.0001|TWO_SIDED|95.0|-4.34|-3.08|||RMM|Repeated Measures Model||||-3.08|-4.34|<0.0001
82641755|NCT02268214|164998413|SUPERIORITY||Mean Difference (Final Values)|-15.34|STANDARD_ERROR_OF_MEAN|2.4859|<|0.0001|TWO_SIDED|95.0|-20.22|-10.46|||RMM|Repeated Measures Model||||-10.46|-20.22|<0.0001
82641756|NCT02268214|164998413|SUPERIORITY||Mean Difference (Final Values)|-18.03|STANDARD_ERROR_OF_MEAN|2.505|<|0.0001|TWO_SIDED|95.0|-22.95|-13.11|||RMM|Repeated Measures Model||||-13.11|-22.95|<0.0001
82360349|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|2.9|||||TWO_SIDED|95.0|-10.7|16.3||||||Week 16: \>=50%||16.3|-10.7|
82360350|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|10.9|||||TWO_SIDED|95.0|0.6|20.7||||||Week 16: \>=70%||20.7|0.6|
82360351|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.5|||||TWO_SIDED|95.0|-1.4|18.1||||||Week 16: \>=70%||18.1|-1.4|
82360352|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|1.1|||||TWO_SIDED|95.0|-4.3|6.5||||||Week 16: \>=90%||6.5|-4.3|
82360353|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|2.1|||||TWO_SIDED|95.0|-3.7|7.8||||||Week 16: \>=90%||7.8|-3.7|
82360354|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.3|25.7||||||Week 24: \>=30%||25.7|-2.3|
82360355|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-1.6|||||TWO_SIDED|95.0|-15.9|12.6||||||Week 24: \>=30%||12.6|-15.9|
82527352|NCT03502616|164751391|SUPERIORITY||Difference in percentage|31.18|STANDARD_ERROR_OF_MEAN|5.02|<|0.0001|TWO_SIDED|95.0|21.34|41.02|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||41.02|21.34|<0.0001
82641757|NCT02268214|164998414|SUPERIORITY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|2.6273|<|0.0001|TWO_SIDED|95.0|-22.46|-12.14|||RMM|Repeated Measures Model||||-12.14|-22.46|<0.0001
82641758|NCT02268214|164998414|SUPERIORITY||Mean Difference (Final Values)|-18.93|STANDARD_ERROR_OF_MEAN|2.6482|<|0.0001|TWO_SIDED|95.0|-24.13|-13.73|||RMM|Repeated Measures Model||||-13.73|-24.13|<0.0001
82641759|NCT02268214|164998415|SUPERIORITY||Mean Difference (Final Values)|9.11|STANDARD_ERROR_OF_MEAN|1.1611|<|0.0001|TWO_SIDED|95.0|6.83|11.39|||RMM|Repeated Measures Model||||11.39|6.83|<0.0001
82641760|NCT02268214|164998415|SUPERIORITY||Mean Difference (Final Values)|10.65|STANDARD_ERROR_OF_MEAN|1.1689|<|0.0001|TWO_SIDED|95.0|8.35|12.94|||RMM|Repeated Measures Model||||12.94|8.35|<0.0001
82641761|NCT02268214|164998416|SUPERIORITY||Odds Ratio (OR)|3.09|STANDARD_ERROR_OF_MEAN|0.198|<|0.0001|TWO_SIDED|95.0|2.1|4.56|||Regression, Logistic|||||4.56|2.10|<0.0001
82641762|NCT02268214|164998416|SUPERIORITY||Odds Ratio (OR)|3.29|STANDARD_ERROR_OF_MEAN|0.1979|<|0.0001|TWO_SIDED|95.0|2.23|4.85|||Regression, Logistic|||||4.85|2.23|<0.0001
82641763|NCT04342390|164998417|SUPERIORITY|||||||0.363|||||||ANCOVA|||||||0.363
82641764|NCT04342390|164998418|SUPERIORITY|||||||0.633|||||||ANCOVA|||||||0.633
82641765|NCT04342390|164998419|SUPERIORITY|||||||0.433|||||||ANCOVA|||||||0.433
82641766|NCT04342390|164998420|SUPERIORITY|||||||0.822|||||||ANCOVA|||||||0.822
82641767|NCT04342390|164998421|SUPERIORITY|||||||0.554|||||||ANCOVA|||||||0.554
82641768|NCT04342390|164998422|SUPERIORITY|||||||0.186|||||||ANCOVA|||||||0.186
82360356|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.4|25.8||||||Week 24: \>=50%||25.8|-2.4|
82360357|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.0|||||TWO_SIDED|95.0|-9.1|18.9||||||Week 24: \>=50%||18.9|-9.1|
82360358|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|14.1|||||TWO_SIDED|95.0|2.9|24.8||||||Week 24: \>=70%||24.8|2.9|
82360359|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|10.6|||||TWO_SIDED|95.0|-0.2|21.0||||||Week 24: \>=70%||21.0|-0.2|
82360360|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.4|||||TWO_SIDED|95.0|-0.7|11.4||||||Week 24: \>=90%||11.4|-0.7|
82360361|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||Week 24: \>=90%||8.5|-2.2|
82391057|NCT02612610|164493434|OTHER||LS Mean Difference|-0.52||||0.0003|TWO_SIDED|95.0|-0.8|-0.24|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.24|-0.80|0.0003
82391058|NCT02612610|164493435|OTHER||LS Mean Difference|-0.4||||0.0099|TWO_SIDED|95.0|-0.71|-0.1|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.10|-0.71|0.0099
82444076|NCT02698371|164596692|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.107||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.107
82391059|NCT02612610|164493435|OTHER||LS Mean Difference|-0.28||||0.0695|TWO_SIDED|95.0|-0.58|0.02|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.02|-0.58|0.0695
82444077|NCT02698371|164596692|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.592||||||Applied for all rows/Categories (graded on a 5-point scale) of Tooth Integrity (enamel cracks)-FDI comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Tooth Integrity (enamel cracks) performance at 24 month follow-up recall.||||0.592
82444078|NCT02698371|164596693|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
82360362|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|3.1|30.9||||||Week 40: \>=30%||30.9|3.1|
82360363|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-0.5|||||TWO_SIDED|95.0|-14.8|13.7||||||Week 40: \>=30%||13.7|-14.8|
82444079|NCT02698371|164596693|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
82527353|NCT03502616|164751391|SUPERIORITY||Difference in percentage|6.29|STANDARD_ERROR_OF_MEAN|5.98||0.2926|TWO_SIDED|95.0|-5.43|18.01|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.01|-5.43|0.2926
82574707|NCT03512197|164858893|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||partial platelet recovery||1.52|0.87|
82360364|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|3.0|31.0||||||Week 40: \>=50%||31.0|3.0|
82360365|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.0|||||TWO_SIDED|95.0|-9.0|18.7||||||Week 40: \>=50%||18.7|-9.0|
82360366|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|17.4|||||TWO_SIDED|95.0|4.6|29.4||||||Week 40: \>=70%||29.4|4.6|
82360367|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|7.3|||||TWO_SIDED|95.0|-4.5|18.9||||||Week 40: \>=70%||18.9|-4.5|
82360368|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|7.6|||||TWO_SIDED|95.0|1.4|13.5||||||Week 40: \>=90%||13.5|1.4|
82360369|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|5.4|||||TWO_SIDED|95.0|-0.1|10.6||||||Week 40: \>=90%||10.6|-0.1|
82360370|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.4|25.8||||||Week 56: \>=30%||25.8|-2.4|
82360371|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-3.8|||||TWO_SIDED|95.0|-17.9|10.5||||||Week 56: \>=30%||10.5|-17.9|
82527354|NCT03502616|164751391|SUPERIORITY||Difference in percentage|6.37|STANDARD_ERROR_OF_MEAN|5.97||0.2856|TWO_SIDED|95.0|-5.32|18.06|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.06|-5.32|0.2856
82391060|NCT02612610|164493435|OTHER||LS Mean Difference|-0.62||||0.0001|TWO_SIDED|95.0|-0.93|-0.31|||Mixed Effect Repeated Measures model|||"Day 56 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.31|-0.93|0.0001
82391061|NCT02612610|164493436|OTHER||LS Mean Difference|-0.24||||0.0991|TWO_SIDED|95.0|-0.52|0.04|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.04|-0.52|0.0991
82391062|NCT02612610|164493436|OTHER||LS Mean Difference|-0.25||||0.0811|TWO_SIDED|95.0|-0.53|0.03|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.03|-0.53|0.0811
82391063|NCT02612610|164493436|OTHER||LS Mean Difference|-0.47||||0.0014|TWO_SIDED|95.0|-0.76|-0.19|||Mixed Effect Repeated Measures model|||"Day 84 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.19|-0.76|0.0014
82391064|NCT02612610|164493437|OTHER||LS Mean Difference|-0.21||||0.1468|TWO_SIDED|95.0|-0.5|0.07|||Mixed Effect Repeated Measures model|||"Day 28 Awake Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate. ."||0.07|-0.50|0.1468
82391065|NCT02612610|164493437|OTHER||LS Mean Difference|-0.08||||0.5874|TWO_SIDED|95.0|-0.36|0.2|||Mixed Effect Repeated Measures model|||"Day 28 Awake Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.20|-0.36|0.5874
82391066|NCT02612610|164493437|OTHER||LS Mean Difference|-0.49||||0.0008|TWO_SIDED|95.0|-0.78|-0.21|||Mixed Effect Repeated Measures model|||"Day 28 24-hour Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.21|-0.78|0.0008
82527355|NCT03502616|164751391|SUPERIORITY||Difference in percentage|7.83|STANDARD_ERROR_OF_MEAN|5.97||0.1894|TWO_SIDED|95.0|-3.87|19.54|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach||19.54|-3.87|0.1894
82391067|NCT02612610|164493438|OTHER||Mixed Effect Repeated Measures model|-0.39||||0.0177|TWO_SIDED|95.0|-0.7|-0.07|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.07|-0.70|0.0177
82391068|NCT02612610|164493438|OTHER||LS Mean Difference|-0.32||||0.0498|TWO_SIDED|95.0|-0.63|0.0|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.00|-0.63|0.0498
82391069|NCT02612610|164493438|OTHER||LS Mean Difference|-0.59||||0.0004|TWO_SIDED|95.0|-0.92|-0.27|||Mixed Effect Repeated Measures model|||"Day 56 Awake Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||-0.27|-0.92|0.0004
82391070|NCT02612610|164493440|OTHER||LS Mean Difference|-6.4||||0.1318|TWO_SIDED|95.0|-14.8|1.9|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.9|-14.8|0.1318
82574708|NCT03512197|164858893|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.67|1.0||||||full platelet recovery||1.00|0.67|
82391071|NCT02612610|164493440|OTHER||LS Mean Difference|-2.9||||0.4917|TWO_SIDED|95.0|-11.3|5.4|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||5.4|-11.3|0.4917
82391072|NCT02612610|164493440|OTHER||LS Mean Difference|-9.8||||0.0228|TWO_SIDED|95.0|-18.2|-1.4|||Mixed Effect Repeated Measures model|||"Day 28 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-1.4|-18.2|0.0228
82527356|NCT03502616|164751391|SUPERIORITY||Difference in percentage|5.59|STANDARD_ERROR_OF_MEAN|6.04||0.3544|TWO_SIDED|95.0|-6.24|17.43|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach||17.43|-6.24|0.3544
82574709|NCT03358238|164858935|OTHER||Proportion|0.404|||||TWO_SIDED|95.0|0.264|0.557|||||Type of confidence interval = Clopper-Pearson|||0.557|0.264|
82641769|NCT04342390|164998423|SUPERIORITY|||||||0.921|||||||ANCOVA|||||||0.921
82360372|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|12.0|||||TWO_SIDED|95.0|-2.5|25.9||||||Week 56: \>=50%||25.9|-2.5|
82360373|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|-2.6|||||TWO_SIDED|95.0|-16.5|11.4||||||Week 56: \>=50%||11.4|-16.5|
82360374|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|18.5|||||TWO_SIDED|95.0|5.6|30.5||||||Week 56: \>=70%||30.5|5.6|
82360375|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.4|||||TWO_SIDED|95.0|-3.6|20.0||||||Week 56: \>=70%||20.0|-3.6|
82360376|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|8.7|||||TWO_SIDED|95.0|1.6|15.4||||||Week 56: \>=90%||15.4|1.6|
82360377|NCT02725411|164431081|OTHER|No formal hypotheses were tested in the study.|Difference in Percentage of Participants|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||Week 56: \>=90%||8.5|-2.2|
82360378|NCT02725411|164431097|OTHER|No formal hypotheses were tested in the study.|Difference in proportion|0.0|||||TWO_SIDED|95.0|-4.1|4.1||||||95% CI of proportion is the Agresti-Coull confidence limit.||4.1|-4.1|
82391073|NCT02612610|164493441|OTHER||LS Mean Difference|-2.6||||0.554|TWO_SIDED|95.0|-11.5|6.2|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||6.2|-11.5|0.5540
82527357|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.85|-0.57|||Mixed Models Analysis|||Week 2: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.57|-0.85|<0.0001
82360379|NCT02725411|164431097|OTHER|No formal hypotheses were tested in the study.|Difference in proportion|3.2|||||TWO_SIDED|95.0|-2.2|8.5||||||95% CI of proportion is the Agresti-Coull confidence limit.||8.5|-2.2|
82360380|NCT02063217|164431166|SUPERIORITY|Mixed linear models|Mean Difference (Net)|17.0||||0.07|TWO_SIDED|||||Bonferroni correction was used for multiple comparisons.|Mixed Models Analysis||Mean (standard error), units = %. 17(7.2) increase in overnight amyloid-beta 40 concentrations over waking baseline between the sleep deprivation group and controls.|Mixed linear modeling of change in overnight amyloid beta concentrations from waking baseline between 01:00 and 11:00. Data provided for amyloid beta-40.||||0.07
82360381|NCT02063217|164431166|SUPERIORITY|Mixed linear models|Mean Difference (Net)|7.0||||1|TWO_SIDED|||||Bonferroni correction was used for multiple comparisons.|Mixed Models Analysis||Mean= 7%, standard error = 7.6%. 7% increase in overnight amyloid beta 40 concentrations over the waking baseline between the sleep induction group and control group.|Mixed linear modeling of change in overnight amyloid beta concentrations from waking baseline between 01:00 and 11:00. Data provided for amyloid beta-40.||||1.0
82360382|NCT04718129|164431231|SUPERIORITY||Mean Difference (Net)|0.044|STANDARD_ERROR_OF_MEAN|0.021||0.048|TWO_SIDED|95.0|0.003|0.085|||Regression, Linear|||||.085|.003|.048
82360383|NCT02212457|164431232|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.53|1.02|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain M14459 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||1.02|0.53|
82527358|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-1.07|-0.74|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.74|-1.07|<0.0001
82574710|NCT03358238|164858936|SUPERIORITY||Difference in Average Proportions|0.0017||||0.99|TWO_SIDED|95.0|-0.1774|0.1807||Statistical significance was an alpha level of 0.05.|t-test, 2 sided|Two-sample t test. Degrees of freedom = 45.|Two-sample t confidence intervals|Null hypothesis was that the difference in average adherence rates of self-reporting between arms was zero.||0.1807|-0.1774|0.99
82360384|NCT02212457|164431232|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.54|0.94|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain M07-0241084 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.94|0.54|
82360385|NCT02212457|164431232|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.51|0.85|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain 96217 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.85|0.51|
82360386|NCT02212457|164431232|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded when, at 1 month after the second meningococcal vaccination (Visit Month 3), the lower limit of the two-sided 95% confidence interval for the between-group ratios of GMTs (ABCWY\_0\_2 versus rMenB\_0\_2) was greater than 0.5 for each of the four serogroup B test strains.|Geometric Mean Ratio|0.49|||||TWO_SIDED|95.0|0.37|0.66|||ANCOVA|||Non-inferiority response against N. meningitidis serogroup B test strain NZ98/254 of the MenABCWY vaccine to that of the Bexsero vaccine, administered according to 0, 2 month schedule.||0.66|0.37|
82391074|NCT02612610|164493441|OTHER||LS Mean Difference|-3.2||||0.4702|TWO_SIDED|95.0|-12.0|5.6|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||5.6|-12.0|0.4702
82360387|NCT00420095|164431259|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority hypothesis testing where paired t-test for equivalence of means was used to estimate the sample size.~Pre-defined non-inferiority margin of 0.3%."|Mean Difference (Net)|-0.05||||0.497||95.0|-0.2|0.1|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate the denominator degrees of freedom. Adjusted means were presented.||Mixed model where period, sequence, treatment are fixed effects and patient within sequence are random effects.||0.10|-0.20|0.497
82360388|NCT00420095|164431260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.497||95.0|-0.1|0.2||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.20|-0.10|0.497
82360389|NCT00420095|164431261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.419||95.0|-0.48|0.2||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.20|-0.48|0.419
82360390|NCT00420095|164431262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.741||95.0|-1.09|0.78||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.78|-1.09|0.741
82360391|NCT00420095|164431263|SUPERIORITY_OR_OTHER|||||||0.644||95.0||||P-value for the HbA1c Percentage Criteria (7%)|Fisher Exact|||||||0.644
82360392|NCT00420095|164431263|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||P-value for the HbA1c Percentage Criteria (6.5%)|Fisher Exact|||||||0.672
82360393|NCT00420095|164431265|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.67||95.0|-0.16|0.11||All comparisons were conducted using a 2-sided significance level of 0.05.|Mixed Models Analysis|Adjusted means||||0.11|-0.16|0.670
82360394|NCT00393705|164431266|SUPERIORITY_OR_OTHER|||||||0.2519||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.2519
82360395|NCT00393705|164431267|SUPERIORITY_OR_OTHER|||||||0.0287||95.0||||P-value for HbA1c \<7%. Additional statistically significant terms from the model below were baseline HbA1c and treatment by lead-in interaction.|Regression, Logistic|Model: Logit(p(response)/1-p(response)) = U + r' X, where u = intercept parameter, X = vector of parameters (treatment, baseline value, lead-in).||||||0.0287
82360396|NCT00393705|164431267|SUPERIORITY_OR_OTHER|||||||0.0471||95.0||||P-value for HbA1c ≤6.5%. Additional statistically significant term from the model below was baseline HbA1c.|Regression, Logistic|Model: Logit(p(response)/1-p(response)) = U + r' X, where u = intercept parameter, X = vector of parameters (treatment, baseline value, lead-in).||||||0.0471
82391075|NCT02612610|164493441|OTHER||LS Mean Difference|-10.7||||0.0197|TWO_SIDED|95.0|-19.8|-1.7|||Mixed Effect Repeated Measures model|||"Day 56 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-1.7|-19.8|0.0197
82360397|NCT00393705|164431269|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0077
82360398|NCT00393705|164431270|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0002
82360399|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.0129||95.0||||P-value for Fasting.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0129
82360400|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value for 2-Hours After Breakfast.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0027
82641770|NCT04584294|164998450|SUPERIORITY||Odds Ratio (OR)|1.46||||0.31|TWO_SIDED|95.0|0.7|3.06||The threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm. Analyses accounted for missing data in outcome and a priori adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||3.06|0.70|0.31
82360401|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.1947||95.0||||P-value for Pre-Lunch.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.1947
82391076|NCT02612610|164493442|OTHER||LS Mean Difference|-4.4||||0.302|TWO_SIDED|95.0|-12.9|4.0|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||4.0|-12.9|0.3020
82360402|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.0077||95.0||||P-value for 2-Hours After Lunch.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0077
82360403|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.1885||95.0||||P-value for Pre-Dinner.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.1885
82360404|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.5525||95.0||||P-value for 2-Hours After Dinner.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.5525
82360405|NCT00393705|164431271|SUPERIORITY_OR_OTHER|||||||0.4994||95.0||||P-value for 3:00 A.M.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.4994
82360406|NCT00393705|164431273|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||P-value for Total Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.7230
82360407|NCT00393705|164431273|SUPERIORITY_OR_OTHER|||||||0.0063||95.0||||P-value for Nocturnal Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0063
82360408|NCT00393705|164431273|SUPERIORITY_OR_OTHER|||||||0.8876||95.0||||P-value for Severe Hypoglycemic Episodes/30 Days.|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.8876
82360409|NCT00393705|164431274|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0009
82360410|NCT00393705|164431275|SUPERIORITY_OR_OTHER|||||||0.0056||95.0||||P-value for Week 4|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0056
82360411|NCT00393705|164431275|SUPERIORITY_OR_OTHER|||||||0.0421||95.0||||P-value for Week 12|ANCOVA|Model: Value = Treatment + Lead-in + Treatment\*Lead-in + Visit + Treatment\*Visit + Value at baseline + error.||||||0.0421
82360412|NCT00749658|164431315|OTHER|Two tailed testing||||||0.07|||||||SAS|||||||0.07
82360413|NCT01525628|164431316|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|251.37|STANDARD_DEVIATION|31.0||1|TWO_SIDED|90.0|205.54|307.43|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||307.43|205.54|1.0000
82360414|NCT01525628|164431316|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|131.3|STANDARD_DEVIATION|32.5||0.6514|TWO_SIDED|90.0|105.4|163.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||163.57|105.40|0.6514
82360415|NCT01525628|164431317|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|381.11|STANDARD_DEVIATION|28.1||1|TWO_SIDED|90.0|317.01|458.19|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||458.19|317.01|1.0000
82360416|NCT01525628|164431317|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|123.65|STANDARD_DEVIATION|40.0||0.4718|TWO_SIDED|90.0|94.66|161.51|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||161.51|94.66|0.4718
82360417|NCT01525628|164431318|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|306.45|STANDARD_DEVIATION|30.7||1|TWO_SIDED|90.0|250.93|374.26|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||374.26|250.93|1.0000
82360418|NCT01525628|164431318|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|129.85|STANDARD_DEVIATION|32.5||0.6185|TWO_SIDED|90.0|104.26|161.71|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 201335 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||161.71|104.26|0.6185
82360419|NCT01525628|164431319|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|286.01|STANDARD_DEVIATION|39.4||1|TWO_SIDED|90.0|228.51|357.97|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||357.97|228.51|1.0000
82360420|NCT01525628|164431319|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|150.45|STANDARD_DEVIATION|55.1||0.821|TWO_SIDED|90.0|106.81|211.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||211.91|106.81|0.8210
82360421|NCT01525628|164431320|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|349.9|STANDARD_DEVIATION|46.4||1|TWO_SIDED|90.0|269.12|454.93|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||454.93|269.12|1.0000
82360422|NCT01525628|164431320|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|176.56|STANDARD_DEVIATION|50.1||0.9533|TWO_SIDED|90.0|125.95|247.5|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||247.50|125.95|0.9533
82360423|NCT01525628|164431321|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|322.68|STANDARD_DEVIATION|40.4||1|TWO_SIDED|90.0|256.24|406.34|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||406.34|256.24|1.0000
82527359|NCT03502616|164751392|SUPERIORITY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-1.25|-0.87|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.87|-1.25|<0.0001
82360424|NCT01525628|164431321|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|145.93|STANDARD_DEVIATION|66.2||0.7461|TWO_SIDED|90.0|97.83|217.69|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 207127 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||217.69|97.83|0.7461
82574711|NCT03358238|164858937|SUPERIORITY||Risk Difference (RD)|-0.0189||||0.85|TWO_SIDED|95.0|-0.2215|0.1837||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|Two-sample t-test. Degrees of freedom = 45|Two-sample t confidence intervals|Null hypothesis was that the difference in average adherence rates to activity tracking between arms was zero.||0.1837|-0.2215|0.85
82574712|NCT03358238|164858938|OTHER||Proportion|0.5385|||||TWO_SIDED|95.0|0.3718|0.6991|||||Type of confidence interval = Clopper-Pearson|Estimating proportion of individuals with higher adherence rates for self-report over activity tracking among individuals with unequal adherence rates||0.6991|0.3718|
82574713|NCT03358238|164858938|SUPERIORITY|||||||0.0828|||||||Chi-squared|Degrees of freedom = 1||Null hypothesis is that among individuals with unequal adherence rates, the proportion of individuals with greater adherence to self-report over activity tracking in the Review Arm is equal to the proportion of individuals with greater adherence to self-report over activity tracking in the No Review Arm.||||0.0828
82574714|NCT03358238|164858939|OTHER||Mean Difference (Net)|0.79||||0.2|TWO_SIDED|95.0|-0.42|1.99||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|One-sample t-test. Degrees of freedom = 46.|"One participant had a single item missing on the Young Mania Rating Scale administered at study start. A zero was imputed for the missing item to recover a total score.~One-sample t confidence intervals."|"One participant had a single item missing on the Young Mania Rating Scale administered at study start. A zero was imputed for the missing item to recover a total score.~Null hypothesis was that the average change in total scores was zero."||1.99|-0.42|0.20
82574715|NCT03358238|164858940|OTHER||Mean Difference (Net)|0.89||||0.32|TWO_SIDED|95.0|-0.91|2.7||Statistical significance was considered an alpha level of 0.05.|t-test, 2 sided|One-sample t test. Degrees of freedom = 46|One-sample t confidence intervals|Null hypothesis was that average change in scores on the structured interview guide for the Hamilton rating scale for depression is zero.||2.70|-0.91|0.32
82574716|NCT01227616|164858941|NON_INFERIORITY|The study protocol defined the margin for non-inferiority as 0.5 g/dL meaning non-inferiority would be established in a TP if the lower limit of the 95% confidence limit for the difference between ferumoxytol and iron sucrose mean change was ≥0.5 g/dL.|Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED||||||ANCOVA|Stats. of primary endpoint performed only for TP1 and TP2. 240 subjects retreated should yield 90% power to detect non-inferiority during TP2.||||||<0.05
82574717|NCT01431950|164858948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077||||||95.0|-0.039|0.192||||||||0.192|-0.039|
82574718|NCT04297618|164858959|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82574719|NCT04297618|164858960|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82391077|NCT02612610|164493442|OTHER||LS Mean Difference|-6.4||||0.1365|TWO_SIDED|95.0|-14.8|2.0|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.0|-14.8|0.1365
82574720|NCT03931746|164858961|SUPERIORITY||Hodges-Lehmann median difference|-3.5||||0.04|TWO_SIDED|95.0|-8.0|-0.5|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||-0.5|-8.0|0.04
82574721|NCT03931746|164858962|SUPERIORITY||Hodges-Lehmann median difference|-2.5||||0.75|TWO_SIDED|95.0|-9.0|12.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft minus No Porcine Xenograft.|||12|-9|0.75
82574722|NCT03931746|164858963|SUPERIORITY||Hodges-Lehmann median difference|1.0||||1|TWO_SIDED|95.0|-19.0|20.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||20.0|-19.0|1
82574723|NCT03931746|164858964|SUPERIORITY||Hodges-Lehmann median difference|0.01||||1|TWO_SIDED|95.0|-0.26|0.33|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft vs. No Porcine Xenograft.|||0.33|-0.26|1
82574724|NCT03931746|164858965|SUPERIORITY||Hodges-Lehmann median difference|0.0||||1|TWO_SIDED|95.0|-6.0|4.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||4|-6|1
82574725|NCT03931746|164858966|SUPERIORITY||Hodges-Lehmann median difference|0.5||||0.54|TWO_SIDED|95.0|-1.0|2.0|||Wilcoxon (Mann-Whitney)|An exact Wilcoxon two-sample test was performed owing to the small sample size and number of tied observations.|Median difference is for Porcine Xenograft group minus No Porcine Xenograft group.|||2|-1|0.54
82574726|NCT03931746|164858967|SUPERIORITY||Odds Ratio (OR)|0.69||||1|TWO_SIDED|95.0|0.03|13.3|||Fisher Exact||"The No Porcine Xenograft group is the reference group."|||13.3|0.03|1
82574727|NCT03931746|164858968|SUPERIORITY||Risk Difference (RD)|-0.167||||0.43|TWO_SIDED|95.0|-0.564|0.185|||Fisher Exact||"The risk difference is calculated as the outcome risk in the Porcine Xenograft group minus the outcome risk in the No Porcine Xenograft group. The confidence interval for the risk difference was calculated using the Newcombe hybrid score method."|||0.185|-0.564|0.43
82574728|NCT03931746|164858969|SUPERIORITY||Odds Ratio (OR)|0.6||||1|TWO_SIDED|95.0|0.006|55.9|||Fisher Exact||"The No Porcine Xenograft group is the reference group."|||55.9|0.006|1
82574729|NCT02358668|164858985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.46||||0.57|TWO_SIDED|95.0|-6.28|11.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||11.20|-6.28|0.57
82360425|NCT01525628|164431322|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|355.04|STANDARD_DEVIATION|29.9||1|TWO_SIDED|90.0|298.13|422.83|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||422.83|298.13|1.0000
82444080|NCT02698371|164596693|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Surface Staining-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Surface Staining performance at 24 month follow-up recall.||||1.000
82360426|NCT01525628|164431322|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|120.67|STANDARD_DEVIATION|58.3||0.4337|TWO_SIDED|90.0|83.68|174.01|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||174.01|83.68|0.4337
82360427|NCT01525628|164431323|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|397.73|STANDARD_DEVIATION|31.6||1|TWO_SIDED|90.0|330.79|478.22|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||478.22|330.79|1.0000
82360428|NCT01525628|164431323|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|142.27|STANDARD_DEVIATION|53.1||0.7346|TWO_SIDED|90.0|99.49|203.44|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||203.44|99.49|0.7346
82360429|NCT01525628|164431324|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|403.86|STANDARD_DEVIATION|33.6||1|TWO_SIDED|90.0|332.19|490.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||490.99|332.19|1.0000
82360430|NCT01525628|164431324|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|116.96|STANDARD_DEVIATION|73.1||0.3968|TWO_SIDED|90.0|75.38|181.47|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI 208833 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||181.47|75.38|0.3968
82360431|NCT01525628|164431325|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|408.66|STANDARD_DEVIATION|45.9||1|TWO_SIDED|90.0|315.15|529.9|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||529.90|315.15|1.0000
82360432|NCT01525628|164431325|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|301.19|STANDARD_DEVIATION|62.1||0.9993|TWO_SIDED|90.0|204.61|443.35|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||443.35|204.61|0.9993
82360433|NCT01525628|164431326|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|450.51|STANDARD_DEVIATION|48.0||1|TWO_SIDED|90.0|343.67|590.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||590.57|343.67|1.0000
82360434|NCT01525628|164431326|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|341.96|STANDARD_DEVIATION|61.1||0.9996|TWO_SIDED|90.0|229.22|510.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||510.13|229.22|0.9996
82360435|NCT01525628|164431327|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|466.92|STANDARD_DEVIATION|47.6||1|TWO_SIDED|90.0|357.02|610.66|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||610.66|357.02|1.0000
82444081|NCT02698371|164596694|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.011||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.011
82360436|NCT01525628|164431327|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|298.57|STANDARD_DEVIATION|79.2||0.9972|TWO_SIDED|90.0|187.22|476.15|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168 at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||476.15|187.22|0.9972
82360437|NCT01525628|164431328|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|528.95|STANDARD_DEVIATION|42.0||1|TWO_SIDED|90.0|415.88|672.75|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||672.75|415.88|1.0000
82391078|NCT02612610|164493442|OTHER||LS Mean Difference|-11.2||||0.0108|TWO_SIDED|95.0|-19.7|-2.6|||Mixed Effect Repeated Measures model|||"Day 84 Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-2.6|-19.7|0.0108
82391079|NCT02612610|164493443|OTHER||LS Mean Difference|-4.0||||0.3509|TWO_SIDED|95.0|-12.3|4.4|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||4.4|-12.3|0.3509
82391080|NCT02612610|164493443|OTHER||LS Mean Difference|-8.2||||0.0519|TWO_SIDED|95.0|-16.6|0.1|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-16.6|0.0519
82391081|NCT02612610|164493443|OTHER||LS Mean Difference|-15.9||||0.0003|TWO_SIDED|95.0|-24.3|-7.5|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination Cough Severity VAS: 50 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-7.5|-24.3|0.0003
82391082|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1387|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1387
82391083|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7238|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.7238
82391084|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0144|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0144
82391085|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0922|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0922
82391086|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3812|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3812
82391087|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0088|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0088
82391088|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0653|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0653
82360438|NCT01525628|164431328|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|384.0|STANDARD_DEVIATION|69.2||0.9998|TWO_SIDED|90.0|251.56|586.16|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||586.16|251.56|0.9998
82360439|NCT01525628|164431329|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|569.81|STANDARD_DEVIATION|42.2||1|TWO_SIDED|90.0|447.49|725.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||725.57|447.49|1.0000
82360440|NCT01525628|164431329|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|441.89|STANDARD_DEVIATION|66.9||0.9999|TWO_SIDED|90.0|286.81|680.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||680.82|286.81|0.9999
82360441|NCT01525628|164431330|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 9 (%)|606.29|STANDARD_DEVIATION|44.2||1|TWO_SIDED|90.0|471.42|779.74|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 17 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 9||779.74|471.42|1.0000
82391089|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6443|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6443
82527360|NCT03502616|164751392|SUPERIORITY||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.096|<|0.0001|TWO_SIDED|95.0|-1.28|-0.9|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.90|-1.28|<0.0001
82527361|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|-1.16|-0.79|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.79|-1.16|<0.0001
82527362|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.103||0.0623|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||Week 24: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.01|-0.40|0.0623
82527363|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.106||0.0836|TWO_SIDED|95.0|-0.39|0.02|||Mixed Models Analysis|||Week 32: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.02|-0.39|0.0836
82527364|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.108||0.0205|TWO_SIDED|95.0|-0.47|-0.04|||Mixed Models Analysis|||Week 40: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-0.47|0.0205
82391090|NCT02612610|164493444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1511|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1511
82426254|NCT02164864|164561471|OTHER||Hazard Ratio (HR)|1.3||||0.4803|TWO_SIDED|95.0|0.63|2.67||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.67|0.63|0.4803
82527365|NCT03502616|164751392|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.108||0.0614|TWO_SIDED|95.0|-0.42|0.01|||Mixed Models Analysis|||Week 48: Analysis performed using Mixed model for repeated measures (MMRM) which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.01|-0.42|0.0614
82574730|NCT02358668|164858985|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.57||||0.72|TWO_SIDED|95.0|-10.3|7.11||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||7.11|-10.3|0.72
82426255|NCT02164864|164561471|OTHER||Hazard Ratio (HR)|1.09||||0.8537|TWO_SIDED|95.0|0.42|2.83||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.83|0.42|0.8537
82360442|NCT01525628|164431330|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 9 (%)|377.98|STANDARD_DEVIATION|82.0||0.9994|TWO_SIDED|90.0|233.48|611.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of BI CD 6168-ag at Day 66 vs. Day 9 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 9||611.91|233.48|0.9994
82426256|NCT02164864|164561472|OTHER||Hazard Ratio (HR)|0.94||||0.9388|TWO_SIDED|95.0|0.19|4.66||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||4.66|0.19|0.9388
82527366|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-1.15|-0.7|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.70|-1.15|<0.0001
82527367|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.121|<|0.0001|TWO_SIDED|95.0|-1.16|-0.68|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.68|-1.16|<0.0001
82527368|NCT03502616|164751393|SUPERIORITY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|0.196|<|0.0001|TWO_SIDED|95.0|-1.4|-0.63|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.63|-1.40|<0.0001
82527369|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001|TWO_SIDED|95.0|-1.19|-0.74|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.74|-1.19|<0.0001
82527370|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-1.2|-0.72|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.72|-1.20|<0.0001
82527371|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.073||0.4731|TWO_SIDED|95.0|-0.2|0.09|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.20|0.4731
82527372|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.094||0.4055|TWO_SIDED|95.0|-0.26|0.11|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.11|-0.26|0.4055
82527373|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.111||0.2648|TWO_SIDED|95.0|-0.34|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.34|0.2648
82527374|NCT03502616|164751393|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.099||0.5558|TWO_SIDED|95.0|-0.25|0.14|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.14|-0.25|0.5558
82527375|NCT03502616|164751394|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.513||0.0001|TWO_SIDED|95.0|-3.03|-1.01|||ANCOVA|||Week 16: Analysis performed using Analysis of covariance (ANCOVA) model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-1.01|-3.03|0.0001
82527376|NCT03502616|164751394|SUPERIORITY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.567||0.027|TWO_SIDED|95.0|-2.38|-0.14|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.14|-2.38|0.0270
82527377|NCT03502616|164751395|SUPERIORITY||LS mean difference|2.22|STANDARD_ERROR_OF_MEAN|0.841||0.0088|TWO_SIDED|95.0|0.56|3.88|||ANCOVA|||Week 16, Physical Functioning: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.88|0.56|0.0088
82574731|NCT02358668|164858986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.66|TWO_SIDED|95.0|-0.91|1.42||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.42|-0.91|0.66
82426257|NCT02164864|164561472|OTHER||Hazard Ratio (HR)|0.3||||0.303|TWO_SIDED|95.0|0.03|2.93||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.93|0.03|0.3030
82527378|NCT03502616|164751395|SUPERIORITY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|0.939||0.0016|TWO_SIDED|95.0|1.15|4.85|||ANCOVA|||Week 16, Role-Physical: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.85|1.15|0.0016
82360443|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|97.03|STANDARD_DEVIATION|30.8||0.05|TWO_SIDED|90.0|80.0|117.69|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||117.69|80.00|0.0500
82360444|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|97.1|STANDARD_DEVIATION|31.2||0.0564|TWO_SIDED|90.0|79.37|118.79|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||118.79|79.37|0.0564
82360445|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|114.38|STANDARD_DEVIATION|31.9||0.2375|TWO_SIDED|90.0|92.36|141.66|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||141.66|92.36|0.2375
82360446|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|139.07|STANDARD_DEVIATION|22.8||0.9082|TWO_SIDED|90.0|121.63|159.0|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||159.00|121.63|0.9082
82360447|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|122.37|STANDARD_DEVIATION|29.3||0.4111|TWO_SIDED|90.0|104.11|143.84|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||143.84|104.11|0.4111
82360448|NCT01525628|164431331|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|121.43|STANDARD_DEVIATION|24.7||0.3719|TWO_SIDED|90.0|104.24|141.45|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||141.45|104.24|0.3719
82360449|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|88.37|STANDARD_DEVIATION|20.8||0.1037|TWO_SIDED|90.0|77.39|100.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||100.89|77.39|0.1037
82360450|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|159.11|STANDARD_DEVIATION|57.8||0.8723|TWO_SIDED|90.0|111.06|227.93|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||227.93|111.06|0.8723
82360451|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|259.57|STANDARD_DEVIATION|92.5||0.983|TWO_SIDED|90.0|150.65|447.21|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||447.21|150.65|0.9830
82360452|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|163.95|STANDARD_DEVIATION|38.1||0.9689|TWO_SIDED|90.0|129.52|207.52|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||207.52|129.52|0.9689
82360453|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|219.88|STANDARD_DEVIATION|70.4||0.9933|TWO_SIDED|90.0|153.84|314.26|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||314.26|153.84|0.9933
82527379|NCT03502616|164751395|SUPERIORITY||LS mean difference|4.46|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|2.69|6.23|||ANCOVA|||Week 16, Bodily Pain: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||6.23|2.69|<0.0001
82527380|NCT03502616|164751395|SUPERIORITY||LS mean difference|3.24|STANDARD_ERROR_OF_MEAN|0.781|<|0.0001|TWO_SIDED|95.0|1.7|4.78|||ANCOVA|||Week 16, General Health: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.78|1.70|<0.0001
82360454|NCT01525628|164431332|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|214.4|STANDARD_DEVIATION|66.8||0.9865|TWO_SIDED|90.0|145.88|315.09|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of caffeine at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||315.09|145.88|0.9865
82360455|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|96.06|STANDARD_DEVIATION|14.2||0.0015|TWO_SIDED|90.0|87.77|105.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||105.13|87.77|0.0015
82360456|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|85.41|STANDARD_DEVIATION|17.2||0.1617|TWO_SIDED|90.0|76.32|95.57|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||95.57|76.32|0.1617
82360457|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|73.26|STANDARD_DEVIATION|17.5||0.893|TWO_SIDED|90.0|65.03|82.54|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||82.54|65.03|0.8930
82360458|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|92.23|STANDARD_DEVIATION|10.5||0.0005|TWO_SIDED|90.0|86.67|98.13|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||98.13|86.67|0.0005
82360459|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|73.93|STANDARD_DEVIATION|21.6||0.8646|TWO_SIDED|90.0|65.55|83.39|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||83.39|65.55|0.8646
82360460|NCT01525628|164431333|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|75.42|STANDARD_DEVIATION|16.4||0.8378|TWO_SIDED|90.0|68.15|83.45|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||83.45|68.15|0.8378
82360461|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|98.17|STANDARD_DEVIATION|12.3||0.0005|TWO_SIDED|90.0|90.15|106.91|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||106.91|90.15|0.0005
82360462|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|81.26|STANDARD_DEVIATION|11.7||0.3638|TWO_SIDED|90.0|75.19|87.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||87.82|75.19|0.3638
82360463|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|70.93|STANDARD_DEVIATION|22.6||0.8975|TWO_SIDED|90.0|60.44|83.22|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||83.22|60.44|0.8975
82360464|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|86.37|STANDARD_DEVIATION|18.1||0.1144|TWO_SIDED|90.0|77.62|96.11|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||96.11|77.62|0.1144
82360465|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|64.66|STANDARD_DEVIATION|11.8||1|TWO_SIDED|90.0|60.42|69.2|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||69.20|60.42|1.0000
82426258|NCT02164864|164561473|OTHER||Hazard Ratio (HR)|1.86||||0.1546|TWO_SIDED|95.0|0.79|4.4||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||4.40|0.79|0.1546
82360466|NCT01525628|164431334|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|63.75|STANDARD_DEVIATION|17.3||0.9988|TWO_SIDED|90.0|57.19|71.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of tolbutamide at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||71.07|57.19|0.9988
82360467|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|144.78|STANDARD_DEVIATION|19.0||0.9749|TWO_SIDED|90.0|128.3|163.36|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||163.36|128.30|0.9749
82360468|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|152.94|STANDARD_DEVIATION|26.8||0.9703|TWO_SIDED|90.0|128.6|181.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||181.89|128.60|0.9703
82360469|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|102.99|STANDARD_DEVIATION|29.3||0.05|TWO_SIDED|90.0|84.85|124.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||124.99|84.85|0.0500
82360470|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|124.22|STANDARD_DEVIATION|24.1||0.4697|TWO_SIDED|90.0|107.91|142.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||142.99|107.91|0.4697
82360471|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|120.74|STANDARD_DEVIATION|19.2||0.2906|TWO_SIDED|90.0|108.47|134.38|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||134.38|108.47|0.2906
82360472|NCT01525628|164431335|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|93.95|STANDARD_DEVIATION|25.2||0.046|TWO_SIDED|90.0|80.33|109.86|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||109.86|80.33|0.0460
82360473|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|151.66|STANDARD_DEVIATION|18.5||0.9941|TWO_SIDED|90.0|134.79|170.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||170.64|134.79|0.9941
82360474|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|163.42|STANDARD_DEVIATION|26.0||0.9926|TWO_SIDED|90.0|137.91|193.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||193.64|137.91|0.9926
82360475|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|98.14|STANDARD_DEVIATION|28.1||0.0392|TWO_SIDED|90.0|81.2|118.63|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||118.63|81.20|0.0392
82360476|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|122.58|STANDARD_DEVIATION|37.2||0.4374|TWO_SIDED|90.0|99.15|151.55|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||151.55|99.15|0.4374
82360477|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|130.44|STANDARD_DEVIATION|35.3||0.647|TWO_SIDED|90.0|107.57|158.18|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||158.18|107.57|0.6470
82360478|NCT01525628|164431336|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|87.77|STANDARD_DEVIATION|36.9||0.2372|TWO_SIDED|90.0|70.32|109.54|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||109.54|70.32|0.2372
82527381|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.098||0.1065|TWO_SIDED|95.0|-0.38|3.94|||ANCOVA|||Week 16, Vitality: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.94|-0.38|0.1065
82641771|NCT04584294|164998450|SUPERIORITY|||||||||||||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."|P-value and estimated OR (95% CI) is not available because the model did not converge.|||
82641772|NCT04584294|164998451|SUPERIORITY||Odds Ratio (OR)|1.37||||0.26|TWO_SIDED|95.0|0.79|2.38||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach. Analyses accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||2.38|0.79|0.26
82641773|NCT04584294|164998451|SUPERIORITY||Odds Ratio (OR)|3.46||||0.019|TWO_SIDED|95.0|1.23|9.76||Threshold for significance was set at p\<0.05.|Regression, Logistic|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."||9.76|1.23|0.019
82641774|NCT04584294|164998452|SUPERIORITY||Median Difference (Final Values)|-0.62||||0.27|TWO_SIDED|95.0|-1.71|0.48||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach. Analyses accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE).||0.48|-1.71|0.27
82641775|NCT04584294|164998452|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.42|TWO_SIDED|95.0|-2.91|1.22||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome. Our model accounted for missing data in outcome and baseline adjustment variables through multiple imputation (MI) using Multiple Imputation by Chained Equations (MICE) in R."||1.22|-2.91|0.42
82641776|NCT04584294|164998453|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.45|TWO_SIDED|95.0|-0.56|1.26||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||1.26|-0.56|0.45
82527382|NCT03502616|164751395|SUPERIORITY||LS mean difference|2.96|STANDARD_ERROR_OF_MEAN|1.059||0.0055|TWO_SIDED|95.0|0.88|5.05|||ANCOVA|||Week 16, Social Functioning: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||5.05|0.88|0.0055
82641777|NCT04584294|164998453|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.09|TWO_SIDED|95.0|-0.15|2.02||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||2.02|-0.15|0.09
82641778|NCT04584294|164998454|SUPERIORITY||Mean Difference (Final Values)|-2.26||||0.56|TWO_SIDED|95.0|-9.94|5.42||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||5.42|-9.94|0.56
82641779|NCT04584294|164998454|SUPERIORITY||Mean Difference (Final Values)|-13.72||||0.02|TWO_SIDED|95.0|-25.37|-2.06||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||-2.06|-25.37|0.02
82641780|NCT04584294|164998455|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.84|TWO_SIDED|95.0|-0.38|0.47||Threshold for significance was set at p\<0.05.|Regression, Linear|||We used a multilevel regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||0.47|-0.38|0.84
82527383|NCT03502616|164751395|SUPERIORITY||LS mean difference|2.08|STANDARD_ERROR_OF_MEAN|1.289||0.1084|TWO_SIDED|95.0|-0.46|4.61|||ANCOVA|||Week 16, Role-Emotional: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||4.61|-0.46|0.1084
82360479|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|117.67|STANDARD_DEVIATION|15.6||0.1519|TWO_SIDED|90.0|106.49|130.0|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||130.00|106.49|0.1519
82360480|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|117.01|STANDARD_DEVIATION|30.9||0.2827|TWO_SIDED|90.0|96.06|142.52|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day17 vs. Day 1||142.52|96.06|0.2827
82360481|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|92.11|STANDARD_DEVIATION|32.6||0.1326|TWO_SIDED|90.0|74.38|114.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||114.07|74.38|0.1326
82360482|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|95.55|STANDARD_DEVIATION|29.2||0.0432|TWO_SIDED|90.0|80.63|113.24|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||113.24|80.63|0.0432
82360483|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|75.19|STANDARD_DEVIATION|30.3||0.7367|TWO_SIDED|90.0|63.64|88.82|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||88.82|63.64|0.7367
82360484|NCT01525628|164431337|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|70.14|STANDARD_DEVIATION|34.3||0.8547|TWO_SIDED|90.0|56.84|86.56|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||86.56|56.84|0.8547
82360485|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|102.7|STANDARD_DEVIATION|45.9||0.1159|TWO_SIDED|90.0|77.89|135.39|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||135.39|77.89|0.1159
82641781|NCT04584294|164998455|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.27|TWO_SIDED|95.0|-0.35|1.25||Threshold for significance was set at p\<0.05.|Regression, Linear|||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||1.25|-0.35|0.27
82360486|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|99.99|STANDARD_DEVIATION|38.7||0.0651|TWO_SIDED|90.0|78.33|127.64|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||127.64|78.33|0.0651
82360487|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|78.29|STANDARD_DEVIATION|34.3||0.5658|TWO_SIDED|90.0|62.5|98.07|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||98.07|62.50|0.5658
82391091|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0045
82444082|NCT02698371|164596694|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.034||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.034
82444083|NCT02698371|164596694|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.885||||||Applied for rows/categories alfa/bravo/charlie of Marginal Discoloration-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Discoloration performance at 24 month follow-up recall.||||0.885
82360488|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 9 vs. Day 1 (%)|108.25|STANDARD_DEVIATION|37.2||0.1286|TWO_SIDED|90.0|87.46|133.99|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 9 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 9 vs. Day 1||133.99|87.46|0.1286
82360489|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 17 vs. Day 1 (%)|87.59|STANDARD_DEVIATION|31.8||0.1898|TWO_SIDED|90.0|73.56|104.3|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 17 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 17 vs. Day 1||104.30|73.56|0.1898
82360490|NCT01525628|164431338|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside 80% to 125%|Ratio of gmeans Day 66 vs. Day 1 (%)|78.42|STANDARD_DEVIATION|36.3||0.5575|TWO_SIDED|90.0|61.81|99.51|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of 1-OH-Midazolam at Day 66 vs. Day 1 -was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually Intra individual geometric coefficient variation (gCV).|Day 66 vs. Day 1||99.51|61.81|0.5575
82360491|NCT03298880|164431373|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|2.1|5.3|||mixed linear regression|||||5.3|2.1|<0.001
82360492|NCT03298880|164431373|SUPERIORITY||Mean Difference (Net)|2.3||||0.003|TWO_SIDED|95.0|0.8|3.8|||mixed linear regression|||||3.8|0.8|0.003
82360493|NCT00178711|164431381|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||=|0.67|TWO_SIDED|95.0|0.76|1.53|||Regression, Logistic|||The primary hypothesis was a two-sided test assessing whether the induction of hypothermia modified the percentage of subjects with poor outcomes at 6 months after injury. Percentages in each group were compared using a generalized linear model with a binomial distribution and log link function, logistic regression model with admission age and baseline GCS as covariates.||1.53|0.76|=0.67
82360494|NCT00745134|164431426|OTHER|||||||0.33|||||||ANOVA|||||||0.33
82360495|NCT01503333|164431447|EQUIVALENCE|Linear mixed-effect models were applied to examine the intervention effect on MVPA at post-intervention. Models included the group variable, cluster random effect of school, and the following fixed effects: age, BMI z-score, race, SES, ethnicity, pubertal stage, and study year. Baseline MVPA was included when evaluating the intervention effect at post-intervention.|parameter estimate|-0.08||||0.207|TWO_SIDED|95.0|-0.21|0.05|||Mixed Models Analysis|||Hypotheses: Post-intervention, weighted mean minutes of MVPA/week will be greater by 16 minutes among girls in intervention than control schools. Mean minutes per week is determined by multiplying mean minutes/hour by 90 hours that girls are awake in a week (10 hours awake on each weekend day; 14 hours awake on each weekday).||0.05|-0.21|.207
82360496|NCT01503333|164431448|EQUIVALENCE|Linear mixed models were used to analyze intervention effect on CV fitness according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline CV fitness, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and study year cohort.|parameter estimate|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.018|TWO_SIDED|95.0|0.03|0.36|||Mixed Models Analysis|||Immediately post-intervention, cardiovascular (CV) fitness will be higher among girls in the intervention than control schools.||0.36|0.03|.018
82360497|NCT01503333|164431449|OTHER|Linear mixed models were used to analyze intervention effect on BMI-z according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models for BMI-z included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline BMI-z, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and study year cohort.|parameter estimate|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.191|TWO_SIDED|95.0|-0.05|0.01|||Mixed Models Analysis|||Immediately post-intervention, BMI z-score will be significantly lower among girls in the intervention than control schools.||0.01|-0.05|.191
82360498|NCT01503333|164431450|EQUIVALENCE|Linear mixed models were used to analyze intervention effect on % body fat according to intention-to-treat, with school pairs treated as random effect and students nested within school and treatment condition. Models included main intervention predictor (control or intervention), incorporated cluster random effect, specified school pairs (random intercept), and controlled for baseline % body fat, age, physical activity, race, socioeconomic status, ethnicity, pubertal stage, and year cohort.|parameter estimate|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.007|TWO_SIDED|95.0|-0.64|-0.1|||Mixed Models Analysis|||Immediately post-intervention, percent body fat will be significantly lower among girls in the intervention than control schools.||-0.10|-0.64|.007
82360499|NCT01503333|164431451|EQUIVALENCE|Linear mixed-effect models were applied to examine the intervention effect on MVPA at 9-month follow up. Models included the group variable, cluster random effect of school, and the following fixed effects: age, BMI z-score, race, SES, ethnicity, pubertal stage, and study year. Baseline MVPA was included when evaluating the intervention effect at follow up.|parameter estimate|-0.09||||0.118|TWO_SIDED|95.0|-0.21|0.02|||Mixed Models Analysis|||||0.02|-0.21|.118
82360500|NCT01503333|164431452|OTHER||parameter estimate|-0.97|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-square test p\>.05.26.||||
82527384|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.08|STANDARD_ERROR_OF_MEAN|1.124||0.3379|TWO_SIDED|95.0|-1.13|3.29|||ANCOVA|||Week 16, Mental Health: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.29|-1.13|0.3379
82527385|NCT03502616|164751395|SUPERIORITY||LS mean difference|3.55|STANDARD_ERROR_OF_MEAN|0.744|<|0.0001|TWO_SIDED|95.0|2.09|5.02|||ANCOVA|||Week 16, Physical Component Summary: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||5.02|2.09|<0.0001
82360501|NCT01503333|164431453|OTHER||parameter estimate|2.9|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
82360502|NCT01503333|164431454|OTHER||parameter estimate|0.47|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
82360503|NCT01503333|164431455|OTHER||parameter estimate|30.48|||<|0.001|TWO_SIDED||||||Path analysis|||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||<.001
82360504|NCT01503333|164431456|OTHER||parameter estimate|24.48|||<|0.001|TWO_SIDED||||||Path analysis|||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||<.001
82360505|NCT01503333|164431457|OTHER||parameter estimate|3.19|||||TWO_SIDED|||||||||Path analysis was performed to examine study mediation model. Maximum likelihood estimates were computed. Model fit was evaluated based on fit indices: (a) Goodness-of-Fit Index (GFI) ≥.95, (b) Comparative Fit Index (CFI) ≥.95, (c) Root Mean Square Error of Approximation (RMSEA) ≤.05; (d) standardized root mean squared residual (SRMR) ≤.08; and (e) chi-squar||||
82360506|NCT02344745|164431501|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82360507|NCT02344745|164431502|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
82360508|NCT02344745|164431503|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82391092|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0947|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0947
82391093|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0080
82527386|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.33|STANDARD_ERROR_OF_MEAN|1.158||0.2529|TWO_SIDED|95.0|-0.95|3.61|||ANCOVA|||Week 16, Mental Component Summary: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||3.61|-0.95|0.2529
82360509|NCT02344745|164431504|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
82360510|NCT02788513|164431505|OTHER|||||||0.9931||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Beta model fit.|Model assumption: 75% of max effect is achieved at 2 mg, 87.5% at 5 mg, 25% at 25 mg, max effect achieved at 10 mg of BI 425809, scalar parameter = 26||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9931
82360511|NCT02788513|164431505|OTHER|||||||0.9225||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Emax model fit.|Model assumption: 20% of the maximum effect is achieved at 2 mg||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9225
82641782|NCT04584294|164998467|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.21|TWO_SIDED|95.0|-0.22|0.99||threshold for significance set at \<0.05|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||We used a multilevel logistic regression model to test whether the outcome was significantly different in the intervention versus control arm, using an Intent to Treat approach.||0.99|-0.22|0.21
82360512|NCT02788513|164431505|OTHER|||||||0.9287||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod Sigmoidal Emax model fit.|Model assumption: 25% of max effect achieved at 5 mg and 75% of max effect achieved at 10 mg of BI 425809.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9287
82360513|NCT02788513|164431505|OTHER|||||||0.7646||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod linear model fit.|No assumption needed.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.7646
82360514|NCT02788513|164431505|OTHER|||||||0.9335||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod linear in log model fit.|No assumption needed.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.9335
82360515|NCT02788513|164431505|OTHER|||||||0.8199||||||An alpha of 0.05 was used for one-sided test. The MCPMod procedure adjusts for multiplicity.|MCPMod logistic model fit.|Model assumption: 10% of max effect achieved at 5 mg and 50% of max effect achieved at 10 mg of BI 425809.||Multiple comparison procedures and modelling (MCPmod) techniques for mixed model repeated measures (MMRM) was used.||||0.8199
82360516|NCT02788513|164431505|OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.58||0.934|TWO_SIDED|95.0|-1.09|1.18||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.18|-1.09|0.9340
82360517|NCT02788513|164431505|OTHER||Median Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.58||0.6041|TWO_SIDED|95.0|-0.84|1.44||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.44|-0.84|0.6041
82360518|NCT02788513|164431505|OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.58||0.1926|TWO_SIDED|95.0|-0.38|1.9||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.90|-0.38|0.1926
82360519|NCT02788513|164431505|OTHER||Median Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.58||0.9739|TWO_SIDED|95.0|-1.16|1.12||p-values are nominal without multiplicity adjustment.|MMRM|MMRM information is described in the description section.||Mixed model repeated measures (MMRM)||1.12|-1.16|0.9739
82360520|NCT02788513|164431506|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.76||0.979|TWO_SIDED|95.0|-1.48|1.52||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||1.52|-1.48|0.979
82360521|NCT02788513|164431506|OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.77||0.521|TWO_SIDED|95.0|-1.01|2.0||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||2.00|-1.01|0.521
82360522|NCT02788513|164431506|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|0.77||0.047|TWO_SIDED|95.0|-3.04|-0.02||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||-0.02|-3.04|0.047
82360523|NCT02788513|164431506|OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.76||0.005|TWO_SIDED|95.0|-3.65|-0.67||p-values are nominal without multiplicity adjustment.|ANCOVA|Analysis of Covariance model included baseline value for the secondary endpoint measure, MMSE stratification (\>=20, \<20) at baseline and treatment.||Analysis of Covariance (ANCOVA)||-0.67|-3.65|0.005
82360524|NCT02788513|164431507|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.343|TWO_SIDED|95.0|-0.32|0.11||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.11|-0.32|0.343
82360525|NCT02788513|164431507|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.645|TWO_SIDED|95.0|-0.26|0.16||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.16|-0.26|0.645
82360526|NCT02788513|164431507|OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.11||0.448|TWO_SIDED|95.0|-0.13|0.3||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.30|-0.13|0.448
82360527|NCT02788513|164431507|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED|95.0|-0.11|0.32||p-values are nominal without multiplicity adjustment.|ANCOVA|ANCOVA included MMSE stratification (\>=20, \<20) at baseline (BL) and treatment, CIBIS is included as BL adjustment term.||Analysis of Covariance (ANCOVA)||0.32|-0.11|0.340
82574732|NCT02358668|164858986|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.9|TWO_SIDED|95.0|-1.03|1.18||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.18|-1.03|0.90
82360528|NCT00835796|164431614|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|94.2|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109|94.2|
82360529|NCT00835796|164431615|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.7||||||90.0|94.0|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|94.0|
82360530|NCT00835796|164431616|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.8||||||90.0|94.5|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|94.5|
82360531|NCT02327325|164431617|SUPERIORITY||Mean Difference (Final Values)|-2.94||||0.08|TWO_SIDED|95.0|-6.24|0.35|||Mixed Models Analysis|||This is the comparison between physical activity only and the wait list group. Rejection of the null hypothesis means that the physical activity group had greater improvement than the wait list group.||0.35|-6.24|0.08
82360532|NCT02327325|164431617|SUPERIORITY||Mean Difference (Final Values)|-3.26||||0.06|TWO_SIDED|95.0|-6.69|0.06|||Mixed Models Analysis|||This is the comparison of the PA \& CBT group to the wait list group. Rejection of the null hypothesis means that the PA + CBT group was superior on this outcome to the wait list group.||0.06|-6.69|0.06
82360533|NCT02327325|164431618|SUPERIORITY||Mean Difference (Net)|-6.11||||0.07|TWO_SIDED|95.0|-12.85|0.64|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||0.64|-12.85|0.07
82391094|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0283|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0283
82360534|NCT02327325|164431618|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.28|TWO_SIDED|95.0|-11.69|3.48|||Mixed Models Analysis|||This is the comparison of the PA + CBT only group with the wait list control. Rejection of the null hypothesis means that the PA + CBT group was superior to the wait list group.||3.48|-11.69|0.28
82391095|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1493|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1493
82360535|NCT02327325|164431619|SUPERIORITY||Mean Difference (Final Values)|3.64||||0.097|TWO_SIDED|95.0|-0.69|7.96|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||7.96|-0.69|0.097
82360536|NCT02327325|164431619|SUPERIORITY||Mean Difference (Final Values)|2.91||||0.196|TWO_SIDED|95.0|-1.55|7.39|||Mixed Models Analysis|||This is the comparison of the PA+CBT group with the wait list control. Rejection of the null hypothesis means that the PA+CBT group was superior to the wait list group.||7.39|-1.55|0.196
82360537|NCT02327325|164431620|SUPERIORITY||Mean Difference (Final Values)|-4.1|||<|0.01|TWO_SIDED|95.0|-6.85|-1.34|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||-1.34|-6.85|<0.01
82360538|NCT02327325|164431620|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.17|TWO_SIDED|95.0|-4.85|0.86|||Mixed Models Analysis|||This is the comparison of the PA + CBT only group with the wait list control. Rejection of the null hypothesis means that the PA + CBT group was superior to the wait list group.||0.86|-4.85|0.17
82360539|NCT02327325|164431621|SUPERIORITY||Median Difference (Final Values)|0.16||||0.95|TWO_SIDED|95.0|-4.86|5.19|||Mixed Models Analysis|||This is the comparison of the PA only group with the wait list control. Rejection of the null hypothesis means that the PA group was superior to the wait list group.||5.19|-4.86|0.95
82360540|NCT02327325|164431621|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.97|TWO_SIDED|95.0|-7.07|1.07|||Mixed Models Analysis|||This is the comparison of the PA+CBT group with the wait list control. Rejection of the null hypothesis means that the PA+CBT group was superior to the wait list group.||1.07|-7.07|0.97
82391096|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0026
82391097|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0652|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0652
82391098|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3601|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3601
82527387|NCT03502616|164751395|SUPERIORITY||LS mean difference|0.86|STANDARD_ERROR_OF_MEAN|0.964||0.3744|TWO_SIDED|95.0|-1.04|2.76|||Mixed Models Analysis|||Week 48, Physical Functioning: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.76|-1.04|0.3744
82360541|NCT00951093|164431644|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P value adjusted for multiple comparisons|Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||<0.001
82360542|NCT00951093|164431645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||0.002
82360543|NCT00951093|164431646|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Friedman´s test|||||||< 0.001
82360544|NCT00951093|164431647|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.02||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||< 0.020
82360545|NCT00951093|164431648|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||< 0.001
82527388|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.36|STANDARD_ERROR_OF_MEAN|1.083||0.2091|TWO_SIDED|95.0|-0.77|3.5|||Mixed Models Analysis|||Week 48, Role-Physical: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.50|-0.77|0.2091
82360546|NCT00951093|164431649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|followed by nonparametric pairwise multiple comparisons||||||0.001
82360547|NCT00951093|164431650|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Friedman´s test|followed by nonparametric pairwise multiple comparisons||||||< 0.001
82360548|NCT04443569|164431651|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Post-Op Day 1||||0.3
82391099|NCT02612610|164493445|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0086|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0086
82574733|NCT02358668|164858987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.86|TWO_SIDED|95.0|-0.5|0.59||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.59|-0.50|0.86
82574734|NCT02358668|164858987|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.59|TWO_SIDED|95.0|-0.66|0.38||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.38|-0.66|0.59
82360549|NCT04443569|164431651|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Post-Op Day 2||||0.9
82360550|NCT04443569|164431651|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Post-Op Day 3||||0.07
82360551|NCT04443569|164431651|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Post-Op Day 4||||0.09
82360552|NCT04443569|164431652|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82360553|NCT02174276|164431799|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|-0.017||||0.805|TWO_SIDED|95.0|-0.155|0.12|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.120|-0.155|0.805
82360554|NCT02174276|164431799|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|0.063||||0.37|TWO_SIDED|95.0|-0.075|0.202|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.202|-0.075|0.370
82360555|NCT02174276|164431799|SUPERIORITY|Estimated differences in treatment effects between GS-4774 treatment groups and the TDF only group at Week 24 are presented with the 95% CIs and unadjusted P-values.|Least Square Mean Difference|-0.056||||0.426|TWO_SIDED|95.0|-0.194|0.082|||Mixed-Effect Model for Repeated Measures|||The null hypotheses was that the mean change from baseline in serum HBsAg in each of the TDF + GS-4774 groups was equal to the mean change from baseline in serum HBsAg in the TDF only group. Each null hypothesis was tested against the 2-sided alternative hypothesis that the mean change from baseline in serum HBsAg was not equal between each of the respective GS-4774 dose groups and the TDF only group.||0.082|-0.194|0.426
82360556|NCT00216060|164431818|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.08||||0.3|TWO_SIDED|95.0|0.51|8.4|||Regression, Cox|||||8.40|0.51|0.3
82360557|NCT00216060|164431819|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||univariate analysis|||||||0.12
82360558|NCT00216060|164431821|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82360559|NCT00216060|164431823|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82360560|NCT00216060|164431824|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Kruskal-Wallis|||||||0.010
82360561|NCT00216060|164431825|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82360562|NCT00434837|164431860|SUPERIORITY|||||||0.27|||||||ANOVA|||These results are from the 3-year analysis.||||.27
82527389|NCT03502616|164751395|SUPERIORITY||LS mean difference|2.12|STANDARD_ERROR_OF_MEAN|1.146||0.0654|TWO_SIDED|95.0|-0.14|4.38|||Mixed Models Analysis|||Week 48, Bodily Pain: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.38|-0.14|0.0654
82360563|NCT00434837|164431861|SUPERIORITY|||||||0.08|||||||ANOVA|||These results are from the 7-year analysis.||||.08
82360564|NCT00434837|164431862|SUPERIORITY|||||||0.22|||||||ANOVA|||These results are from the 15-year analysis.||||.22
82360565|NCT00434837|164431863|SUPERIORITY|||||||0.0078|||||||ANOVA|||These results are from the 15-year analysis.||||.0078
82360566|NCT00434837|164431864|SUPERIORITY|||||||0.0018|||||||ANOVA|||These results are from the 15-year analysis.||||.0018
82360567|NCT00434837|164431865|SUPERIORITY|||||||0.015|||||||ANOVA|||These results are from the 15-year analysis.||||.015
82360568|NCT00434837|164431866|SUPERIORITY|||||||0.003|||||||ANOVA|||These results are from the 15-year analysis.||||.003
82360569|NCT00434837|164431867|SUPERIORITY|||||||0.0006|||||||ANOVA|||These results are from the 15-year analysis.||||.0006
82360570|NCT00434837|164431868|SUPERIORITY|||||||0.15|||||||ANOVA|||These results are from the 15-year analysis.||||.15
82360571|NCT00434837|164431869|SUPERIORITY|||||||0.34|||||||Chi-squared|||These results are from the 15-year analysis.||||.34
82360572|NCT00434837|164431870|SUPERIORITY|||||||0.17|||||||ANOVA|||These results are from the 15-year analysis.||||.17
82360573|NCT00434837|164431871|SUPERIORITY|||||||0.25|||||||ANOVA|||These results are from the 15-year analysis.||||.25
82360574|NCT00434837|164431872|SUPERIORITY|||||||0.61|||||||ANOVA|||These results are from the 15-year analysis.||||.61
82360575|NCT00434837|164431873|SUPERIORITY|||||||0.15|||||||ANOVA|||These results are from the 15-year analysis.||||.15
82360576|NCT00434837|164431874|SUPERIORITY|||||||0.53|||||||ANOVA|||These results are from the 15-year analysis.||||.53
82360577|NCT00434837|164431875|SUPERIORITY|||||||0.82|||||||ANOVA|||These results are from the 15-year analysis.||||.82
82360578|NCT00434837|164431876|SUPERIORITY|||||||0.03|||||||ANOVA|||These results are from the 15-year analysis.||||.03
82360579|NCT00434837|164431877|SUPERIORITY|||||||0.67|||||||ANOVA|||These results are from the 15-year analysis.||||.67
82360580|NCT00434837|164431879|SUPERIORITY|||||||0.051|||||||ANOVA|||These results are from the 15-year analysis.||||.051
82360581|NCT00434837|164431880|SUPERIORITY|||||||0.14|||||||ANOVA|||These results were from the 15-year analysis.||||.14
82360582|NCT00434837|164431881|SUPERIORITY|||||||0.067|||||||ANOVA|||These results are from the 15-year analysis.||||.067
82360583|NCT00434837|164431882|SUPERIORITY|||||||0.54|||||||ANOVA|||These results were from the 7-year analysis.||||.54
82360584|NCT00434837|164431883|SUPERIORITY|||||||0.08|||||||ANOVA|||These results are from the 15-year analysis.||||.08
82360585|NCT03702816|164431884|OTHER|Linear Regression||||||0.6|||||||Regression, Linear|F=0.308||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.60
82360586|NCT03702816|164431884|OTHER|Linear Regression||||||0.56|||||||Regression, Linear|F=0.367||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.56
82360587|NCT03702816|164431884|OTHER|Linear regression||||||0.44|||||||Regression, Linear|||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.44
82360588|NCT03702816|164431884|OTHER|Linear Regression||||||0.15|||||||Regression, Linear|F=2.55||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in Control Subjects||||0.15
82574735|NCT02358668|164858988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.62|TWO_SIDED|95.0|-0.44|0.73||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.73|-0.44|0.62
82527390|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.22|STANDARD_ERROR_OF_MEAN|0.968||0.21|TWO_SIDED|95.0|-0.69|3.12|||Mixed Models Analysis|||Week 48, General Health: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.12|-0.69|0.2100
82360589|NCT03702816|164431884|OTHER|Linear Regression||||||0.39|||||||Regression, Linear|F=0.947||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.39
82360590|NCT03702816|164431884|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.004||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.95
82360591|NCT03702816|164431884|OTHER|Linear Regulation||||||0.53|||||||Regression, Linear|F=0.483||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.53
82360592|NCT03702816|164431884|OTHER|Linear Regression||||||0.19|||||||Regression, Linear|F=2.543||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in MCI Subjects||||0.19
82360593|NCT03702816|164431884|OTHER|Linear Regression||||||0.32|||||||Regression, Linear|F=3.430||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.32
82360594|NCT03702816|164431884|OTHER|Linear Regression||||||0.11|||||||Regression, Linear|F=32.844||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.11
82360595|NCT03702816|164431884|OTHER|Linear Regression||||||0.31|||||||Regression, Linear|F=3.559||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.31
82391100|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3893|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3893
82391101|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2803|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2803
82574736|NCT02358668|164858988|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.97|TWO_SIDED|95.0|-0.52|0.55||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.55|-0.52|0.97
82391102|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0427|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0427
82360596|NCT03702816|164431884|OTHER|Linear Regression||||||0.005|||||||Regression, Linear|F=14362.699||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in AD Subjects||||0.005
82360597|NCT03702816|164431884|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.056||Linear Regression of Memory Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.84
82360598|NCT03702816|164431884|OTHER|Linear Regression||||||0.94|||||||Regression, Linear|F=0.008||Linear Regression of Executive Function Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.94
82360599|NCT03702816|164431884|OTHER|Linear Regression||||||0.29|||||||Regression, Linear|F=2.01||Linear Regression of Speed Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.29
82360600|NCT03702816|164431884|OTHER|Linear Regression||||||0.72|||||||Regression, Linear|F=0.173||Linear Regression of Language Composite Scores and Frontal GE180 SUVR in PD Subjects||||0.72
82360601|NCT03702816|164431885|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.424||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.54
82360602|NCT03702816|164431885|OTHER|Linear Regression||||||0.53|||||||Regression, Linear|F=0.447||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.53
82360603|NCT03702816|164431885|OTHER|Linear Regression||||||0.23|||||||Regression, Linear|F=1.773||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.23
82360604|NCT03702816|164431885|OTHER|Linear Regression||||||0.01|||||||Regression, Linear|F=3.615||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in Control Subjects||||0.01
82360605|NCT03702816|164431885|OTHER|Linear Regression||||||0.039|||||||Regression, Linear|F=9.204||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.039
82360606|NCT03702816|164431885|OTHER|Linear Regression||||||0.33|||||||Regression, Linear|F=1.209||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.33
82360607|NCT03702816|164431885|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=5.801||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.07
82360608|NCT03702816|164431885|OTHER|Linear Regression||||||0.03|||||||Regression, Linear|F=10.374||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in MCI Subjects||||0.03
82360609|NCT03702816|164431885|OTHER|Linear Regression||||||0.27|||||||Regression, Linear|F=5.024||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.27
82360610|NCT03702816|164431885|OTHER|Linear Regression||||||0.16|||||||Regression, Linear|F=15.568||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.16
82360611|NCT03702816|164431885|OTHER|Linear Regression||||||0.262|||||||Regression, Linear|F=5.238||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.262
82360612|NCT03702816|164431885|OTHER|Linear Regression||||||0.043|||||||Regression, Linear|F=221.308||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in AD Subjects||||0.043
82360613|NCT03702816|164431885|OTHER|Linear Regression||||||0.26|||||||Regression, Linear|F=2.430||Linear Regression of Memory Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.26
82360614|NCT03702816|164431885|OTHER|Linear Regression||||||0.38|||||||Regression, Linear|F=1.269||Linear Regression of Executive Function Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.38
82360615|NCT03702816|164431885|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=13.164||Linear Regression of Speed Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.07
82360616|NCT03702816|164431885|OTHER|Linear Regression||||||0.37|||||||Regression, Linear|F=1.312||Linear Regression of Language Composite Scores and Cingulate GE180 SUVR in PD Subjects||||0.37
82360617|NCT03702816|164431886|OTHER|Linear Regression||||||0.64|||||||Regression, Linear|F=0.233||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.64
82360618|NCT03702816|164431886|OTHER|Linear Regression||||||0.92|||||||Regression, Linear|F=0.011||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.92
82360619|NCT03702816|164431886|OTHER|Linear Regression||||||0.22|||||||Regression, Linear|F=1.790||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.22
82360620|NCT03702816|164431886|OTHER|Linear Regression||||||0.42|||||||Regression, Linear|F=0.720||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in Control Subjects||||0.42
82360621|NCT03702816|164431886|OTHER|Linear Regression||||||0.61|||||||Regression, Linear|F=0.305||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.61
82360622|NCT03702816|164431886|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.005||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.95
82360623|NCT03702816|164431886|OTHER|Linear Regression||||||0.55|||||||Regression, Linear|F=0.435||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.55
82360624|NCT03702816|164431886|OTHER|Linear Regression||||||0.43|||||||Regression, Linear|F=0.787||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in MCI Subjects||||0.43
82391103|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0209|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0209
82360625|NCT03702816|164431886|OTHER|Linear Regression||||||0.036|||||||Regression, Linear|F=316.379||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.036
82360626|NCT03702816|164431886|OTHER|Linear Regression||||||0.39|||||||Regression, Linear|F=2.032||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.39
82360627|NCT03702816|164431886|OTHER|Linear Regression||||||0.031|||||||Regression, Linear|F=425.337||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.031
82360628|NCT03702816|164431886|OTHER|Linear Regression||||||0.274|||||||Regression, Linear|F=4.739||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in AD Subjects||||0.274
82360629|NCT03702816|164431886|OTHER|Linear Regression||||||0.66|||||||Regression, Linear|F=0.263||Linear Regression of Memory Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.66
82360630|NCT03702816|164431886|OTHER|Linear Regression||||||0.07|||||||Regression, Linear|F=12.244||Linear Regression of Executive Function Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.07
82360631|NCT03702816|164431886|OTHER|Linear Regression||||||0.48|||||||Regression, Linear|F=0.762||Linear Regression of Speed Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.48
82360632|NCT03702816|164431886|OTHER|Linear Regression||||||0.12|||||||Regression, Linear|F=7.107||Linear Regression of Language Composite Scores and Parietal GE180 SUVR in PD Subjects||||0.12
82360633|NCT03702816|164431887|OTHER|Linear Regression||||||0.85|||||||Regression, Linear|F=0.038||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.85
82360634|NCT03702816|164431887|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.042||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.84
82360635|NCT03702816|164431887|OTHER|Linear Regression||||||0.35|||||||Regression, Linear|F=1.021||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.35
82360636|NCT03702816|164431887|OTHER|Linear Regression||||||0.25|||||||Regression, Linear|F=1.610||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in Control Subjects||||0.25
82360637|NCT03702816|164431887|OTHER|Linear Regression||||||0.25|||||||Regression, Linear|F=1.779||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.25
82360638|NCT03702816|164431887|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.455||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.54
82360639|NCT03702816|164431887|OTHER|Linear Regression||||||0.47|||||||Regression, Linear|F=0.650||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.47
82360640|NCT03702816|164431887|OTHER|Linear Regression||||||0.74|||||||Regression, Linear|F=0.131||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in MCI Subjects||||0.74
82360641|NCT03702816|164431887|OTHER|Linear Regression||||||0.83|||||||Regression, Linear|F=0.075||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.83
82360642|NCT03702816|164431887|OTHER|Linear Regression||||||0.41|||||||Regression, Linear|F=1.831||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.41
82360643|NCT03702816|164431887|OTHER|Linear Regression||||||0.83|||||||Regression, Linear|F=0.079||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.83
82360644|NCT03702816|164431887|OTHER|Linear Regression||||||0.52|||||||Regression, Linear|F=0.879||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in AD Subjects||||0.52
82360645|NCT03702816|164431887|OTHER|Linear Regression||||||0.98|||||||Regression, Linear|F=0.001||Linear Regression of Memory Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.98
82360646|NCT03702816|164431887|OTHER|Linear Regression||||||0.95|||||||Regression, Linear|F=0.005||Linear Regression of Executive Function Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.95
82360647|NCT03702816|164431887|OTHER|Linear Regression||||||0.32|||||||Regression, Linear|F=1.733||Linear Regression of Speed Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.32
82360648|NCT03702816|164431887|OTHER|Linear Regression||||||0.67|||||||Regression, Linear|F=0.249||Linear Regression of Language Composite Scores and Temporal GE180 SUVR in PD Subjects||||0.67
82391104|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3401|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3401
82360649|NCT03702816|164431888|OTHER|Linear Regression||||||0.76|||||||Regression, Linear|F=0.098||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in Control Subjects||||0.76
82360650|NCT03702816|164431888|OTHER|Linear Regression||||||0.49|||||||Regression, Linear|F=0.513||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in Control Subjects||||0.49
82360651|NCT03702816|164431888|OTHER|Linear Regression||||||0.93|||||||Regression, Linear|F=0.008||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in MCI Subjects||||0.93
82360652|NCT03702816|164431888|OTHER|Linear Regression||||||0.54|||||||Regression, Linear|F=0.430||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in MCI Subjects||||0.54
82360653|NCT03702816|164431888|OTHER|Linear Regression||||||0.77|||||||Regression, Linear|F=0.142||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in AD Subjects||||0.77
82391105|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0031
82391106|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0283|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0283
82391107|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6233|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6233
82391108|NCT02612610|164493446|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
82527391|NCT03502616|164751395|SUPERIORITY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|1.248||0.6568|TWO_SIDED|95.0|-1.9|3.01|||Mixed Models Analysis|||Week 48, Vitality: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.01|-1.90|0.6568
82527392|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|1.152||0.2288|TWO_SIDED|95.0|-0.88|3.66|||Mixed Models Analysis|||Week 48, Social Functioning: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.66|-0.88|0.2288
82527393|NCT03502616|164751395|SUPERIORITY||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|1.25||0.4955|TWO_SIDED|95.0|-1.61|3.32|||Mixed Models Analysis|||Week 48, Role-Emotional: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.32|-1.61|0.4955
82527394|NCT03502616|164751395|SUPERIORITY||LS mean difference|0.65|STANDARD_ERROR_OF_MEAN|1.2||0.5888|TWO_SIDED|95.0|-1.71|3.01|||Mixed Models Analysis|||Week 48, Mental Health: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.01|-1.71|0.5888
82360654|NCT03702816|164431888|OTHER|Linear Regression||||||0.61|||||||Regression, Linear|F=0.496||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in AD Subjects||||0.61
82360655|NCT03702816|164431888|OTHER|Linear Regression||||||0.11|||||||Regression, Linear|F=8.046||Linear Regression of DRS Scores and Whole Brain GE180 SUVR in PD Subjects||||0.11
82360656|NCT03702816|164431888|OTHER|Linear Regression||||||0.84|||||||Regression, Linear|F=0.051||Linear Regression of MoCA Scores and Whole Brain GE180 SUVR in PD Subjects||||0.84
82360657|NCT01881737|164431929|SUPERIORITY_OR_OTHER|||||||0.848|||||||Paired t test|||Effect Size Cohen's d = -0.05||||0.848
82360658|NCT01881737|164431930|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t test|Effect Size Cohen's d = 0.53||||||0.009
82360659|NCT01881737|164431931|SUPERIORITY_OR_OTHER|||||||0.38|||||||paired t test|Effect size Cohen's d = 0.38||||||0.38
82360660|NCT01881737|164431933|SUPERIORITY_OR_OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82360661|NCT02058160|164431943|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.633|-0.397||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, visits, treatment-by-visit interaction and country as fixed effects and baseline HbA1c value-by-visit interaction as covariates. A hierarchical testing procedure was used to control type I error and handle multiple endpoint analyses.||-0.397|-0.633|<0.0001
82360662|NCT02058160|164431944|SUPERIORITY_OR_OTHER||Difference in percentage|25.52|||<|0.0001|TWO_SIDED|95.0|18.94|32.1||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening. This analysis was out of testing order."||32.10|18.94|<0.0001
82527395|NCT03502616|164751395|SUPERIORITY||LS mean difference|1.42|STANDARD_ERROR_OF_MEAN|0.896||0.115|TWO_SIDED|95.0|-0.35|3.18|||Mixed Models Analysis|||Week 48, Physical Component Summary: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.18|-0.35|0.1150
82527396|NCT03502616|164751395|SUPERIORITY||LS mean difference|0.72|STANDARD_ERROR_OF_MEAN|1.158||0.5347|TWO_SIDED|95.0|-1.56|3.0|||Mixed Models Analysis|||Week 48, Mental Component Summary: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.00|-1.56|0.5347
82574737|NCT02358668|164858989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.4|TWO_SIDED|95.0|-0.2|0.51||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.51|-0.20|0.40
82641783|NCT04584294|164998467|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.04||95.0|0.04|1.75||Threshold for significance was set at p\<0.05.|Regression, Linear|Model adjusted for site, provider clinic type, provider, Veteran age, Veteran race, Veteran education, and Veteran health insurance status.||"Per the study protocol, to account for noncompliance, we estimated the complier average causal effect to estimate the causal effect of using the MyPath tool on the outcome."||1.75|0.04|0.04
82360663|NCT02058160|164431944|SUPERIORITY_OR_OTHER||Difference in percentage|19.76|||<|0.0001|TWO_SIDED|95.0|13.9|25.62|||Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin Glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening. This analysis was out of testing order."||25.62|13.90|<0.0001
82360664|NCT02058160|164431945|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.43|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|-3.925|-2.939||Threshold for significance at 0.05 level.|ANCOVA||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening and country as fixed effects and baseline 2-hour plasma glucose excursion value as a covariate.||-2.939|-3.925|<0.0001
82360665|NCT02058160|164431946|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.224|<|0.0001|TWO_SIDED|95.0|-1.808|-0.93||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline body weight value-by-visit interaction as covariates.||-0.93|-1.808|<0.0001
82360666|NCT02058160|164431947|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|-1.154|-0.64||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline average SMPG value-by-visit interaction as covariates.||-0.64|-1.154|<0.0001
82360667|NCT02058160|164431948|SUPERIORITY_OR_OTHER||difference in percentage|20.82|||<|0.0001|TWO_SIDED|95.0|14.98|26.66||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of metformin use at screening.||26.66|14.98|<0.0001
82391109|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4925|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4925
82527397|NCT03502616|164751396|SUPERIORITY||LS mean difference|1.29|STANDARD_ERROR_OF_MEAN|0.898||0.1513|TWO_SIDED|95.0|-0.48|3.06|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.06|-0.48|0.1513
82527398|NCT03502616|164751396|SUPERIORITY||LS mean difference|1.56|STANDARD_ERROR_OF_MEAN|1.02||0.1279|TWO_SIDED|95.0|-0.45|3.56|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.56|-0.45|0.1279
82574738|NCT02358668|164858989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.49|TWO_SIDED|95.0|-0.21|0.44||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.44|-0.21|0.49
82641784|NCT04242498|164998468|SUPERIORITY||Odds Ratio (OR)|2.422||||0.004|TWO_SIDED|97.5|1.221|4.804|||Regression, Logistic|||||4.804|1.221|0.004
82641785|NCT04242498|164998468|SUPERIORITY||Odds Ratio (OR)|2.287||||0.003|TWO_SIDED|97.5|1.22|4.291|||Regression, Logistic|||||4.291|1.220|0.003
82641786|NCT04242498|164998469|SUPERIORITY||Odds Ratio (OR)|2.722||||0.007|TWO_SIDED|97.5|1.182|6.267|||Regression, Logistic|||||6.267|1.182|0.007
82641787|NCT04242498|164998469|SUPERIORITY||Odds Ratio (OR)|3.007||||0.002|TWO_SIDED|97.5|1.374|6.581|||Regression, Logistic|||||6.581|1.374|0.002
82641788|NCT04242498|164998470|SUPERIORITY||Odds Ratio (OR)|0.798||||0.497|TWO_SIDED|97.5|0.378|1.683|||Regression, Logistic|||||1.683|0.378|0.497
82641789|NCT04242498|164998470|SUPERIORITY||Odds Ratio (OR)|1.05||||0.868|TWO_SIDED|97.5|0.541|2.041|||Regression, Logistic|||||2.041|0.541|0.868
82641790|NCT04242498|164998471|SUPERIORITY||LS mean difference|-2.393|||<|0.001|TWO_SIDED|97.5|-3.92|-0.867||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.867|-3.920|<0.001
82641791|NCT04242498|164998471|SUPERIORITY||LS mean difference|-2.309|||<|0.001||97.5|-3.705|-0.914||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.914|-3.705|<0.001
82641792|NCT04242498|164998472|SUPERIORITY||LS mean difference|-0.898||||0.01|TWO_SIDED|97.5|-1.684|-0.113||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.113|-1.684|0.010
82641793|NCT04242498|164998472|SUPERIORITY||LS mean difference|-1.265|||<|0.001|TWO_SIDED|97.5|-1.978|-0.552||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|ANCOVA|||||-0.552|-1.978|<0.001
82641794|NCT04242498|164998473|SUPERIORITY||Odds Ratio (OR)|3.273||||0.028|TWO_SIDED|97.5|0.974|10.997||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|Regression, Logistic|||||10.997|0.974|0.028
82360668|NCT02058160|164431949|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.766||0.7362|TWO_SIDED|95.0|-1.762|1.246||Threshold for significance at 0.05 level.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use at screening, scheduled visits, treatment-by-visit interaction and country as fixed effects and baseline daily insulin glargine dose-by-visit interaction as a covariate.||1.246|-1.762|0.7362
82360669|NCT03259789|164432013|SUPERIORITY||Difference of LS Means|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-0.32|-0.74|< 0.0001
82426259|NCT02164864|164561473|OTHER||Hazard Ratio (HR)|0.99||||0.9789|TWO_SIDED|95.0|0.35|2.81||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||2.81|0.35|0.9789
82641795|NCT04242498|164998473|SUPERIORITY||Odds Ratio (OR)|3.756||||0.01|TWO_SIDED|97.5|1.189|11.867||Nominal p-value only due to the testing hierarchy failing on the flare outcome.|Regression, Logistic|||||11.867|1.189|0.010
82641796|NCT03743571|164998479|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.42||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.67, p = 0.42||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.42
82360670|NCT03259789|164432015|SUPERIORITY||Difference of LS Means|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.83|-0.86|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-0.86|-1.83|< 0.0001
82360671|NCT03259789|164432017|SUPERIORITY||Difference of LS Means|-7.07|||<|0.0001|TWO_SIDED|95.0|-9.83|-4.32|||Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-4.32|-9.83|< 0.0001
82641797|NCT03743571|164998480|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.88||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.02, p = .88.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.88
82641798|NCT03743571|164998481|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.17||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 1.98, p = .17||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.17
82360672|NCT03259789|164432018|SUPERIORITY||Odds Ratio (OR)|4.69||||0.0014|TWO_SIDED|95.0|1.7|12.95||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 6 was calculated as the odds ratio of bexagliflozin group over placebo group.||12.95|1.70|0.0014
82360673|NCT03259789|164432018|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0001|TWO_SIDED|95.0|1.96|8.92||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 12 was calculated as the odds ratio of bexagliflozin group over placebo group.||8.92|1.96|0.0001
82360674|NCT03259789|164432018|SUPERIORITY||Odds Ratio (OR)|2.57||||0.003|TWO_SIDED|95.0|1.31|5.04||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 18 was calculated as the odds ratio of bexagliflozin group over placebo group.||5.04|1.31|0.0030
82360675|NCT03259789|164432018|SUPERIORITY||Odds Ratio (OR)|3.88|||<|0.0001|TWO_SIDED|95.0|1.99|7.58||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates|The odds ratios of bexagliflozin group over the placebo group at each visit will be estimated from LS means based on the model with the corresponding p-values and their two-sided 95% CIs presented.|Odds ratio at Week 24 was calculated as the odds ratio of bexagliflozin group over placebo group.||7.58|1.99|< 0.0001
82360676|NCT03259789|164432020|SUPERIORITY||Difference of LS Means|-2.51|||<|0.0001|TWO_SIDED|95.0|-3.45|-1.57|||ANCOVA|ANCOVA analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||||-1.57|-3.45|< 0.0001
82360677|NCT03259789|164432022|SUPERIORITY||Difference of LS Means|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.38||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 6 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.38|-0.74|< 0.0001
82360678|NCT03259789|164432022|SUPERIORITY||Difference of LS Means|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.86|-0.46||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 12 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.46|-0.86|< 0.0001
82360679|NCT03259789|164432022|SUPERIORITY||Difference of LS Means|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.3||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 18 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.30|-0.69|< 0.0001
82391110|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9007|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9007
82391111|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1602|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1602
82527399|NCT03502616|164751396|SUPERIORITY||LS mean difference|3.83|STANDARD_ERROR_OF_MEAN|1.056||0.0003|TWO_SIDED|95.0|1.75|5.9|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.90|1.75|0.0003
82574739|NCT02358668|164858990|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84||||0.41|TWO_SIDED|95.0|-2.88|1.21||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.21|-2.88|0.41
82360680|NCT03259789|164432022|SUPERIORITY||Difference of LS Means|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32||P-value is presented based on one-sided statistical tests using a 0.025 level of significance|Mixed-effects repeated measures|Mixed-effects repeated measures analysis includes country, treatment, visit, treatment and baseline HbA1c value as fixed effect covariates||Model-adjusted change from baseline at week 24 was calculated as the difference in LS Mean between bexagliflozin group and placebo group.||-0.32|-0.74|< 0.0001
82360681|NCT04291508|164432024|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.65|TWO_SIDED|95.0|-1.6|2.5|||t-test, 2 sided|||||2.5|-1.6|0.65
82360682|NCT04291508|164432024|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.464|TWO_SIDED|95.0|-3.5|7.6|||t-test, 2 sided|||||7.6|-3.5|0.464
82360683|NCT04291508|164432025|SUPERIORITY||Risk Difference (RD)|-4.3||||0.26|TWO_SIDED|95.0|-12.0|3.3|||Chi-squared|||||3.3|-12.0|0.26
82360684|NCT04291508|164432025|SUPERIORITY||Risk Difference (RD)|-13.6||||0.31|TWO_SIDED|95.0|-35.8|8.7|||Fisher Exact|||||8.7|-35.8|0.31
82641799|NCT03743571|164998482|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.42||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.67, p = 0.42.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.42
82360685|NCT04291508|164432026|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.35|TWO_SIDED|95.0|-1.0|2.9|||t-test, 2 sided|||||2.9|-1.0|0.35
82360686|NCT04291508|164432026|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.45|TWO_SIDED|95.0|-3.4|7.6|||t-test, 2 sided|||||7.6|-3.4|0.45
82360687|NCT04291508|164432027|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.83|TWO_SIDED|95.0|-1.9|1.5|||t-test, 2 sided|||||1.5|-1.9|0.83
82360688|NCT04291508|164432027|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.1|TWO_SIDED|95.0|-0.8|8.9|||t-test, 2 sided|||||8.9|-0.8|0.10
82360689|NCT04291508|164432028|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.55|TWO_SIDED|95.0|-1.2|2.4|||t-test, 2 sided|||||2.4|-1.2|0.55
82360690|NCT04291508|164432028|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.18|TWO_SIDED|95.0|-1.6|8.7|||t-test, 2 sided|||||8.7|-1.6|0.18
82360691|NCT04291508|164432029|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.21|TWO_SIDED|95.0|-0.8|3.6|||t-test, 2 sided|||||3.6|-0.8|0.21
82360692|NCT04291508|164432029|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.4|TWO_SIDED|95.0|-3.4|8.5|||t-test, 2 sided|||||8.5|-3.4|0.40
82391112|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3440
82360693|NCT04291508|164432030|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.23|TWO_SIDED|95.0|-0.8|3.4|||t-test, 2 sided|||||3.4|-0.8|0.23
82426260|NCT02164864|164561474|OTHER||Hazard Ratio (HR)|1.34||||0.0484|TWO_SIDED|95.0|1.0|1.79||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.79|1.00|0.0484
82360694|NCT04291508|164432030|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.22|TWO_SIDED|95.0|-2.2|9.4|||t-test, 2 sided|||||9.4|-2.2|0.22
82360695|NCT04291508|164432031|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.58|TWO_SIDED|95.0|-1.6|2.8|||t-test, 2 sided|||||2.8|-1.6|0.58
82360696|NCT04291508|164432031|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.13|TWO_SIDED|95.0|-1.4|10.5|||t-test, 2 sided|||||10.5|-1.4|0.13
82360697|NCT04291508|164432032|SUPERIORITY||Risk Difference (RD)|-4.3||||0.26|TWO_SIDED|95.0|-11.8|3.2|||Chi-squared|||||3.2|-11.8|0.26
82360698|NCT04291508|164432032|SUPERIORITY||Risk Difference (RD)|-13.6||||0.31|TWO_SIDED|95.0|-35.8|8.7|||Fisher Exact|||||8.7|-35.8|0.31
82360699|NCT04291508|164432033|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.76|TWO_SIDED|95.0|-1.6|2.2|||t-test, 2 sided|||||2.2|-1.6|0.76
82360700|NCT04291508|164432033|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.78|TWO_SIDED|95.0|-4.9|6.5|||t-test, 2 sided|||||6.5|-4.9|0.78
82360701|NCT04291508|164432034|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.84|TWO_SIDED|95.0|-2.3|1.9|||t-test, 2 sided|||||1.9|-2.3|0.84
82360702|NCT04291508|164432034|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.1|TWO_SIDED|95.0|-0.9|10.0|||t-test, 2 sided|||||10.0|-0.9|0.10
82360703|NCT04291508|164432035|SUPERIORITY||Risk Difference (RD)|-1.3||||0.79|TWO_SIDED|95.0|-10.9|8.3|||Chi-squared|||||8.3|-10.9|0.79
82360704|NCT04291508|164432035|SUPERIORITY||Risk Difference (RD)|4.9||||1|TWO_SIDED|95.0|-17.5|27.3|||Fisher Exact|||||27.3|-17.5|1.00
82360705|NCT04291508|164432036|SUPERIORITY||Risk Difference (RD)|1.7||||0.53|TWO_SIDED|95.0|-3.7|7.2|||Chi-squared|||||7.2|-3.7|0.53
82360706|NCT04291508|164432036|SUPERIORITY||Risk Difference (RD)|-2.0||||1|TWO_SIDED|95.0|-17.0|13.0|||Fisher Exact|||||13.0|-17.0|1.00
82360707|NCT04291508|164432037|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.9|0.6|||t-test, 2 sided|||||0.6|-0.9|0.70
82360708|NCT04291508|164432037|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.96|TWO_SIDED|95.0|-2.7|2.5|||t-test, 2 sided|||||2.5|-2.7|0.96
82360709|NCT04291508|164432038|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-2.3|7.3|||Fisher Exact|||||7.3|-2.3|1.00
82360710|NCT04291508|164432039|SUPERIORITY||Risk Difference (RD)|-4.4||||0.31|TWO_SIDED|95.0|-13.1|4.2|||Chi-squared|||||4.2|-13.1|0.31
82360711|NCT04291508|164432039|SUPERIORITY||Risk Difference (RD)|-27.9||||0.02|TWO_SIDED|95.0|-51.7|-4.0|||Chi-squared|||||-4.0|-51.7|0.02
82360712|NCT04291508|164432040|SUPERIORITY||Risk Difference (RD)|-0.5||||0.9|TWO_SIDED|95.0|-8.5|7.5|||Chi-squared|||||7.5|-8.5|0.90
82360713|NCT04291508|164432040|SUPERIORITY||Risk Difference (RD)|-27.9||||0.02|TWO_SIDED|95.0|-51.7|-4.0|||Chi-squared|||||-4.0|-51.7|0.02
82360714|NCT04291508|164432041|SUPERIORITY||Risk Difference (RD)|-7.3||||0.003|TWO_SIDED|95.0|-12.2|-2.4|||Chi-squared|||||-2.4|-12.2|0.003
82360715|NCT04291508|164432041|SUPERIORITY||Risk Difference (RD)|6.7||||0.52|TWO_SIDED|95.0|-2.3|15.6|||Fisher Exact|||||15.6|-2.3|0.52
82360716|NCT04291508|164432042|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.68|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||||0.2|-0.2|0.68
82360717|NCT04291508|164432042|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.62|TWO_SIDED|95.0|-0.7|0.4|||Fisher Exact|||||0.4|-0.7|0.62
82360718|NCT04291508|164432043|SUPERIORITY||Risk Difference (RD)|0.5||||0.9|TWO_SIDED|95.0|-7.8|8.8|||Chi-squared|||||8.8|-7.8|0.90
82360719|NCT04291508|164432043|SUPERIORITY||Risk Difference (RD)|-15.6||||0.2|TWO_SIDED|95.0|-40.1|8.9|||Chi-squared|||||8.9|-40.1|0.2
82360720|NCT04291508|164432044|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.88|TWO_SIDED|95.0|-1.1|1.3|||t-test, 2 sided|||||1.3|-1.1|0.88
82360721|NCT04291508|164432044|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.1|TWO_SIDED|95.0|-0.6|6.6|||t-test, 2 sided|||||6.6|-0.6|0.10
82360722|NCT01263561|164432048|NON_INFERIORITY_OR_EQUIVALENCE|A sample size calculation determined that 52 eyes were required to detect a 2.0 mmHg IOP difference with a power of 80%.||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||.85
82360723|NCT01263561|164432049|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation only for main outcome measure of IOP.||||||0.24|TWO_SIDED||||||Kaplan Meier|||||||.24
82360724|NCT01263561|164432050|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation only performed for main outcome measure of IOP.||||||0.8|TWO_SIDED|||||Above p is for number of subjects with any complication. P values above 0.05 are considered statistically insignificant in this study.|Chi-squared|||||||0.80
82360725|NCT01475487|164432051|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 21 participants per group was required to detect a 40% absolute difference in the complication rate between DP and US guided techniques assuming a 45% complication rate in the DP (control) group and using the Fisher's exact test for the comparison of independent proportions. A total of 23 and 24 participants were recruited in the DP and US group, respectively.|||||<|0.01|TWO_SIDED||||||Fisher Exact|||||||<0.01
82360726|NCT01475487|164432052|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.88||||0.001|TWO_SIDED|95.0|1.39|5.94|||Fisher Exact||Risk of injury ( none-mild vs moderate -severe) for all participants|||5.94|1.39|0.001
82360727|NCT01475487|164432052|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||Grade 3-4 comparison of None-mild and moderate-severe||||<0.001
82444084|NCT02698371|164596695|EQUIVALENCE|An alpha value of 0.05 was considered||||||1||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||1.000
82574740|NCT02358668|164858990|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.34||||0.15|TWO_SIDED|95.0|-3.18|0.51||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.51|-3.18|0.15
82360728|NCT01475487|164432053|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.91||||0.701|TWO_SIDED|95.0|0.12|2.72|||Fisher Exact||This is the risk ratio for 1 vs 2 attempts|||2.72|0.12|0.701
82360729|NCT01475487|164432054|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.6||||0.043|TWO_SIDED|95.0|0.79|39.48|||Fisher Exact|||Comparison for Grade 3-4||39.48|0.79|0.043
82360730|NCT01214239|164432083|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001||95.0|-0.71|-0.28|||ANCOVA|||||-0.28|-0.71|<0.0001
82360731|NCT01214239|164432084|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.383|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001||95.0|-0.527|-0.238|||ANCOVA|||||-0.238|-0.527|<0.0001
82360732|NCT01214239|164432085|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.677|-0.323|||ANCOVA|||||-0.323|-0.677|<0.0001
82360733|NCT01214239|164432086|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.512|STANDARD_ERROR_OF_MEAN|0.098|<|0.0001||95.0|-0.705|-0.318|||ANCOVA|||||-0.318|-0.705|<0.0001
82360734|NCT01214239|164432087|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12||0.0001||95.0|-0.69|-0.23|||ANCOVA|||||-0.23|-0.69|0.0001
82360735|NCT01214239|164432088|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.2|STANDARD_ERROR_OF_MEAN|3.1||0.0003||95.0|-17.2|-5.2|||ANCOVA|||||-5.2|-17.2|0.0003
82360736|NCT01214239|164432089|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.8|STANDARD_ERROR_OF_MEAN|3.3||0.0086||95.0|-15.4|-2.3|||ANCOVA|||||-2.3|-15.4|0.0086
82360737|NCT01214239|164432090|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.5|STANDARD_ERROR_OF_MEAN|3.8||0.0135||95.0|-17.0|-2.0|||ANCOVA|||||-2.0|-17.0|0.0135
82360738|NCT01214239|164432091|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.6|STANDARD_ERROR_OF_MEAN|3.8||0.0113||95.0|-17.1|-2.2|||ANCOVA|||||-2.2|-17.1|0.0113
82360739|NCT01214239|164432093|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.552||||0.0021||95.0|1.407|4.629|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>= 7.0%||4.629|1.407|0.0021
82360740|NCT01214239|164432095|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.583||||0.25||95.0|0.724|3.46|||Regression, Logistic|||Comparison by odds ratio for the patients with a baseline HbA1c \>= 6.5%||3.46|0.724|0.2500
82360741|NCT01214239|164432096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.527||||0.0005||95.0|1.494|4.276|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||||4.276|1.494|0.0005
82360742|NCT02625974|164432109|OTHER|A direct comparison|Difference in cure rate|14.0|||||TWO_SIDED|95.0|3.7|24.2||||||||24.2|3.7|
82360743|NCT02625974|164432110|OTHER|Incidence rate and 95% CI of seronegative conversion|Risk Ratio (RR)|2.12|||||TWO_SIDED|95.0|1.21|3.45|||||Person-year = 754|||3.45|1.21|
82360744|NCT02625974|164432115|OTHER|Incidence rate and 95% CI of seronegative conversion|Risk Ratio (RR)|2.11|||||TWO_SIDED|95.0|0.91|4.16|||||Person-year = 379|||4.16|0.91|
82360745|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|51.08|||||TWO_SIDED|95.0|35.22|74.08||||||TAK-272F: Least square mean (LS) mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95 percent (%) confidence intervals (CI) were calculated using an analysis of variance (ANOVA) model for natural log-transformed data.||74.08|35.22|
82360746|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|117.95|||||TWO_SIDED|95.0|81.32|171.07||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.07|81.32|
82641800|NCT03743571|164998483|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.88||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 0.02, p = .88.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.88
82641801|NCT03743571|164998484|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham), and whether scores differed between audience type (matched vs unmatched) for the two tDCS groups (anodal/active vs sham).||||||0.17||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,24) = 1.98, p = .17.||We used a null hypothesis significance testing approach in our analyses. For performance on Behavioral Approach Tests (BATs), we completed 2 x 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham), time (within subjects variable; baseline vs follow-up), and audience type (ethnicity primary matched vs unmatched to the participants' own identity) on outcome measures.||||.17
82641802|NCT03743571|164998485|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham).||||||0.67||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) = 0.19, p = .67||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.67
82641803|NCT03743571|164998486|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham).||||||0.96||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) \< .01, p = .96||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.96
82641804|NCT03743571|164998487|OTHER|We needed a total sample size of at least N = 24 to reach 80% power to detect a moderately large effect (Cohen's f = 0.3) for 2x2 interactions to determine whether scores differed across time (baseline vs follow up) for the two tDCS groups (anodal/active vs sham),||||||0.43||||||Unadjusted. A priori threshold was set at p \< .05, two-tailed|ANOVA|tDCS (anodal vs sham) x Time (baseline vs follow-up) interaction: F(1,26) = 0.65, p = .43||We used a null hypothesis significance testing approach in our analyses. For performance on the questionnaires, we completed 2 x 2 mixed factorial ANOVAs to evaluate the impact of tDCS groups (between-subjects variable; anodal/active vs sham) and time (within subjects variable; baseline vs follow-up) on outcome measures.||||.43
82641805|NCT04115488|164998488|EQUIVALENCE|Data was analyzed using a negative binomial model with a logarithmic link function and fixed effects for the treatment group and stratification factors. Equivalence was tested based 95% confidence interval.|Exponentiated Difference|0.17|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|95.0|-0.613|0.944|||||Difference calculated as Tysabri minus PB006.|||0.944|-0.613|
82641806|NCT01233284|164998530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.09|0.186|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.186|0.090|<0.0001
82641807|NCT01233284|164998530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.08|0.176|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.176|0.080|<0.0001
82641808|NCT01233284|164998530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.14|0.236|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.236|0.140|<0.0001
82574741|NCT02358668|164858991|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.64|TWO_SIDED|95.0|-0.29|0.18||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.18|-0.29|0.64
82641809|NCT01233284|164998531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.078|0.173|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.173|0.078|<0.0001
82641810|NCT01233284|164998531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.179|0.084|<0.0001
82641811|NCT01233284|164998531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.096|0.191|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.191|0.096|<0.0001
82641812|NCT01233284|164998532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.083|0.175|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.175|0.083|<0.0001
82641813|NCT01233284|164998532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.081|0.172|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.172|0.081|<0.0001
82391113|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9876|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9876
82360747|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|272.87|||||TWO_SIDED|95.0|188.14|395.76||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||395.76|188.14|
82360748|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|183.27|||||TWO_SIDED|95.0|126.36|265.81||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||265.81|126.36|
82360749|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|101.67|||||TWO_SIDED|95.0|68.95|149.9||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||149.90|68.95|
82360750|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.98|||||TWO_SIDED|95.0|92.23|200.5||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||200.50|92.23|
82360751|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|62.34|||||TWO_SIDED|95.0|36.17|107.45||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||107.45|36.17|
82360752|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|93.2|||||TWO_SIDED|95.0|54.08|160.64||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||160.64|54.08|
82360753|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|274.21|||||TWO_SIDED|95.0|159.1|472.63||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||472.63|159.10|
82360754|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|261.12|||||TWO_SIDED|95.0|151.5|450.05||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||450.05|151.50|
82360755|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|112.47|||||TWO_SIDED|95.0|69.34|182.41||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||182.41|69.34|
82391114|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0993|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0993
82360756|NCT02367872|164432154|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|176.75|||||TWO_SIDED|95.0|108.97|286.67||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||286.67|108.97|
82360757|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|57.36|||||TWO_SIDED|95.0|37.76|87.14||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||87.14|37.76|
82360758|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|77.04|||||TWO_SIDED|95.0|50.72|117.03||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||117.03|50.72|
82360759|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|206.41|||||TWO_SIDED|95.0|135.88|313.54||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||313.54|135.88|
82360760|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|143.11|||||TWO_SIDED|95.0|94.21|217.39||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||217.39|94.21|
82360761|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|85.31|||||TWO_SIDED|95.0|51.03|142.61||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||142.61|51.03|
82360762|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|131.63|||||TWO_SIDED|95.0|78.74|220.04||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||220.04|78.74|
82360763|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|70.38|||||TWO_SIDED|95.0|40.42|122.53||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||122.53|40.42|
82360764|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|55.03|||||TWO_SIDED|95.0|31.61|95.81||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||95.81|31.61|
82360765|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|125.96|||||TWO_SIDED|95.0|72.35|219.3||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||219.30|72.35|
82360766|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|103.93|||||TWO_SIDED|95.0|59.7|180.95||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||180.95|59.70|
82527400|NCT03502616|164751396|SUPERIORITY||LS mean difference|3.32|STANDARD_ERROR_OF_MEAN|1.282||0.0102|TWO_SIDED|95.0|0.79|5.84|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.84|0.79|0.0102
82360767|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|91.97|||||TWO_SIDED|95.0|49.45|171.06||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.06|49.45|
82360768|NCT02367872|164432155|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|139.33|||||TWO_SIDED|95.0|74.91|259.15||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||259.15|74.91|
82360769|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|51.39|||||TWO_SIDED|95.0|35.45|74.49||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||74.49|35.45|
82360770|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|118.43|||||TWO_SIDED|95.0|81.7|171.68||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||171.68|81.70|
82360771|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|272.83|||||TWO_SIDED|95.0|188.21|395.5||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||395.50|188.21|
82360772|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|184.13|||||TWO_SIDED|95.0|127.02|266.91||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||266.91|127.02|
82360773|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|101.64|||||TWO_SIDED|95.0|69.04|149.64||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||149.64|69.04|
82391115|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5968|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5968
82527401|NCT03502616|164751396|SUPERIORITY||LS mean difference|4.73|STANDARD_ERROR_OF_MEAN|1.285||0.0003|TWO_SIDED|95.0|2.2|7.26|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.26|2.20|0.0003
82360774|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|136.59|||||TWO_SIDED|95.0|92.78|201.09||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||201.09|92.78|
82360775|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|59.17|||||TWO_SIDED|95.0|33.99|102.99||||||M-I: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||102.99|33.99|
82360776|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|97.04|||||TWO_SIDED|95.0|55.75|168.9||||||M-I: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||168.90|55.75|
82360777|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|260.03|||||TWO_SIDED|95.0|149.39|452.6||||||M-I: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||452.60|149.39|
82360778|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|319.06|||||TWO_SIDED|95.0|183.31|555.34||||||M-I: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||555.34|183.31|
82391116|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8726|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.8726
82360779|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|130.07|||||TWO_SIDED|95.0|81.66|207.18||||||M-I: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.18|81.66|
82641814|NCT01233284|164998532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.132|0.224|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.224|0.132|<0.0001
82360780|NCT02367872|164432156|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|192.63|||||TWO_SIDED|95.0|120.94|306.83||||||M-I: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||306.83|120.94|
82360781|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|60.22|||||TWO_SIDED|95.0|40.05|90.56||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||90.56|40.05|
82426261|NCT02164864|164561474|OTHER||Hazard Ratio (HR)|1.03||||0.8903|TWO_SIDED|95.0|0.71|1.47||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.47|0.71|0.8903
82360782|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|97.39|||||TWO_SIDED|95.0|64.77|146.46||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||146.46|64.77|
82360783|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|111.6|||||TWO_SIDED|95.0|74.21|167.82||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||167.82|74.21|
82360784|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|138.79|||||TWO_SIDED|95.0|92.29|208.7||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||208.70|92.29|
82360785|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.18|||||TWO_SIDED|95.0|87.91|207.87||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.87|87.91|
82360786|NCT02367872|164432157|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|323.75|||||TWO_SIDED|95.0|210.54|497.85||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||497.85|210.54|
82360787|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|67.61|||||TWO_SIDED|95.0|42.17|108.39||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||108.39|42.17|
82360788|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|63.7|||||TWO_SIDED|95.0|39.73|102.12||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||102.12|39.73|
82360789|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|84.45|||||TWO_SIDED|95.0|52.67|135.38||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||135.38|52.67|
82360790|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|108.54|||||TWO_SIDED|95.0|67.7|174.01||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||174.01|67.70|
82360791|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|113.25|||||TWO_SIDED|95.0|69.62|184.24||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||184.24|69.62|
82360792|NCT02367872|164432158|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|312.89|||||TWO_SIDED|95.0|192.34|509.0||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||509.00|192.34|
82360793|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|60.68|||||TWO_SIDED|95.0|40.35|91.27||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||91.27|40.35|
82444085|NCT02698371|164596695|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||0.317
82360794|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|98.01|||||TWO_SIDED|95.0|65.17|147.41||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||147.41|65.17|
82360795|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|111.68|||||TWO_SIDED|95.0|74.25|167.96||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 4R) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||167.96|74.25|
82360796|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|139.7|||||TWO_SIDED|95.0|92.88|210.11||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 5R-Part 2) and the reference group (Cohort 1R) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||210.11|92.88|
82360797|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|135.08|||||TWO_SIDED|95.0|87.75|207.92||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 2H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||207.92|87.75|
82360798|NCT02367872|164432159|SUPERIORITY_OR_OTHER||LS Mean Cohort Ratio (%)|325.28|||||TWO_SIDED|95.0|211.32|500.7||||||TAK-272F: LS mean cohort ratios for the test groups (Cohort 3H) and the reference group (Cohort 1H) with their 95% CIs were calculated using an ANOVA model for natural log-transformed data.||500.70|211.32|
82360799|NCT01923311|164432182|EQUIVALENCE|A total of 12 test study participants compared to 334 HIV-infected reference study participants will provide at least 90% power to conclude exposure equivalence of EVG AUCtau in test study vs reference study, assuming the expected geometric mean ratio is 1, equivalency boundary is 70% to 143%, 2 one-sided tests are each performed at an alpha level of 0.05, and the standard deviation of EVG AUCtau is 0.36 ng•h/mL (natural log scale, estimated from EVG population PK modeling).|GLSM Ratio (%) (Test/Reference)|135.73|||||TWO_SIDED|90.0|116.24|158.49||||||To determine whether the proposed EVG dose in children achieved similar systemic exposure to adults, statistical comparisons were performed with PK data from the current study (test) and adult data from population PK modeling in study GS-US-183-0145 (NCT00708162) (reference).||158.49|116.24|
82574742|NCT02358668|164858991|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.41|TWO_SIDED|95.0|-0.3|0.12||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.12|-0.30|0.41
82574743|NCT02358668|164858992|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.19||||0.46|TWO_SIDED|95.0|-4.43|2.05||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||2.05|-4.43|0.46
82391117|NCT02612610|164493447|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4092|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4092
82391118|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0781|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0781
82391119|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7098|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.7098
82391120|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0068|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0068
82391121|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1284|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1284
82391122|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.267|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2670
82527402|NCT03502616|164751396|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|1.439||0.895|TWO_SIDED|95.0|-2.64|3.02|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.02|-2.64|0.8950
82527403|NCT03502616|164751396|SUPERIORITY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|1.365||0.4732|TWO_SIDED|95.0|-3.67|1.71|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.71|-3.67|0.4732
82360800|NCT01923311|164432183|EQUIVALENCE|A total of 12 test study participants compared to 334 HIV-infected reference study participants will provide at least 90% power to conclude exposure equivalence of EVG Cmax in test study vs reference study, assuming the expected geometric mean ratio is 1, equivalency boundary is 70% to 143%, 2 one-sided tests are each performed at an alpha level of 0.05, and the standard deviation of EVG Cmax is 0.28 ng•h/mL (natural log scale, estimated from EVG population PK modeling).|GLSM Ratio (%) (Test/Reference)|146.68|||||TWO_SIDED|90.0|127.35|168.94||||||To determine whether the proposed EVG dose in children achieves similar systemic exposure to adults, statistical comparisons were performed with PK data from the current study (test) and adult data from population PK modeling in study GS-US-183-0145 (NCT00708162) (reference).||168.94|127.35|
82527404|NCT03502616|164751396|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.523||0.6359|TWO_SIDED|95.0|-3.72|2.28|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.28|-3.72|0.6359
82527405|NCT03502616|164751396|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.495||0.6894|TWO_SIDED|95.0|-3.54|2.35|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.35|-3.54|0.6894
82391123|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0013
82360801|NCT00003404|164432205|OTHER||rate of occurance|0.35|||||TWO_SIDED|95.0|0.0|8.0|||||The local recurrence rate was estimated by dividing the number of recurrences by the total sample size. An exact 95% confidence interval (95% CI) for this rate was determined by binomial distribution.|||8|0|
82391124|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4343|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4343
82360802|NCT03429049|164432207|SUPERIORITY||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.256||0.1904|TWO_SIDED|95.0|-0.84|0.17|||Mixed Models Analysis|||The NRS least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.17|-0.84|0.1904
82360803|NCT03429049|164432208|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.206||0.0257|TWO_SIDED|95.0|-5.07|-0.33|||Mixed Models Analysis|||The WOMAC A least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||-0.33|-5.07|0.0257
82360804|NCT03429049|164432209|SUPERIORITY||Least Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.545||0.0855|TWO_SIDED|95.0|-2.01|0.13|||Mixed Models Analysis|||The WOMAC B least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.13|-2.01|0.0855
82360805|NCT03429049|164432210|SUPERIORITY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|4.096||0.055|TWO_SIDED|95.0|-15.86|0.26|||Mixed Models Analysis|||The WOMAC C least squares mean difference in change from baseline between treatment arms was analyzed with a mixed model for repeated measures (MMRM). It included terms for treatment, pooled study center, baseline K L grade category for the index knee, baseline BMI category, sex, study week, treatment by visit study week interaction, and baseline average daily pain with walking NPRS (0-10) score as covariates, using an unstructured covariance structure.||0.26|-15.86|0.0550
82360806|NCT02426541|164432229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68||||0.3794|TWO_SIDED|95.0|-2.18|5.54|||ANCOVA|Adjusted for sex and baseline||||5.54|-2.18|0.3794
82360807|NCT02426541|164432230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.5317|TWO_SIDED|95.0|-5.6|2.96|||ANCOVA|Adjusted for sex and baseline||||2.96|-5.60|0.5317
82360808|NCT02426541|164432231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003||||0.9984|TWO_SIDED|95.0|-3.07|3.07|||ANCOVA|Adjusted for sex and baseline||||3.07|-3.07|0.9984
82360809|NCT04241133|164432239|OTHER|The experimental and control groups were not compared due to the inability to collect post data with the control group because of stay at home orders during the COVID-19 pandemic.|||||<|0.05||||||The reported P-value was calculated.|t-test, 2 sided|The a priori threshold for statistical significance was P\<0.05.||The experimental group was tested for significant difference in Healthy Eating Index 2015 (HEI-2015) scores at baseline and 12 weeks. SAS macros provided by the National Cancer Institute were used to compute HEI-2015 scores for each dietary recall at pre- (baseline) and post-intervention (12 weeks) using the Simple HEI Scoring Algorithm.||||<0.05
82360810|NCT04412057|164432295|SUPERIORITY||Odds Ratio (OR)|2.86||||0.044|TWO_SIDED|90.0|1.04|7.88|||Regression, Logistic|||The sample size provided greater than 80% power to detect a difference of 0.25 in the proportion of subjects alive and free of respiratory failure using a Chi-square exact test at a one-sided significance level of 0.05. This calculation assumed that the proportion alive and free of respiratory failure will be 0.60 in the placebo group and 0.85 in the CERC-002 group.||7.88|1.04|0.0440
82360811|NCT04412057|164432296|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1762|TWO_SIDED|90.0|0.59|6.82|||Regression, Logistic|||The proportion of subjects alive at Day 28/ET in the CERC-002 group was compared to that in the placebo group using logistic regression methods. The logistic regression model included terms for treatment group. Model based point estimate (i.e., odds ratio \[OR\]), 90% confidence interval \[CI\], and one-sided p-value were reported.||6.82|0.59|0.1762
82360812|NCT00407745|164432334|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.198||0.0032|TWO_SIDED|95.0|-0.98|-0.2||Significance was declared if the 2-tailed test for the difference between treatment groups was significant at the 0.05 level.|ANCOVA|||"Null hypothesis - the mean DAAC for the pregabalin group is equal to the mean DAAC for the placebo group; Alternative hypothesis - the mean DAAC for the placebo group differs from the mean DAAC for the pregabalin group.~ANCOVA model included baseline severity of pain and Baseline Pain Catastrophizing Scale (PCS) Total Score as covariates and pooled center and treatment as fixed (class) cofactors."||-0.20|-0.98|0.0032
82360813|NCT00407745|164432335|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.255||0.0066|TWO_SIDED|95.0|-1.2|-0.2||Serial gate-keeping multiple testing procedure was used. If primary comparison for DAAC was significant, then variables were assessed in a hierarchical manner. Significance was declared if unadjusted p-value was significant at 0.05 level (\<=0.05).|ANCOVA|ANCOVA model included baseline severity (pain) and baseline PCS as covariates and effects for treatment and pooled center as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.20|-1.20|0.0066
82360814|NCT00407745|164432336|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85||||0.039|TWO_SIDED|95.0|1.032|3.328||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|Regression, Logistic|Logistic regression model used terms for baseline pain score and baseline PCS total score as covariate, and pooled center and treatment as cofactor.||Null hypothesis - The rate of responder for the pregabain group was equal to the rate of responder for the placebo group; Alternative hypothesis - The rate of responder for the pregabain group was not equal to the rate of responder for the placebo group||3.328|1.032|0.0390
82527406|NCT03502616|164751397|SUPERIORITY||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|0.94||0.141|TWO_SIDED|95.0|-0.46|3.24|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.24|-0.46|0.1410
82360815|NCT00407745|164432337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0||||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|Cochran-Mantel-Haenszel|Modified ridit transformation with the Cochran-Mantel- Haenszel test was used with adjusting for pooled center.||Null hypothesis - The raw mean score for the pregabain group was equal to the raw mean score for the placebo group; Alternative hypothesis - The raw mean score for the pregabain group was not equal to the raw mean score for the placebo group.||||0.0006
82360816|NCT00407745|164432338|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.265|<|0.0001|TWO_SIDED|95.0|-1.6|-0.56||Serial gate-keeping multiple testing was used. If primary comparison for DAAC was significant, then variables were assessed in hierarchical manner. Significance was declared if unadjusted p-value at 0.05 level and preceding tests were significant.|ANCOVA|ANCOVA model included baseline sleep interference score as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.56|-1.60|<0.0001
82360817|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.0295|TWO_SIDED|95.0|-0.94|-0.05||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 1~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.05|-0.94|0.0295
82360818|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.0033|TWO_SIDED|95.0|-1.11|-0.22||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 2~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.22|-1.11|0.0033
82360819|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.23||0.0185|TWO_SIDED|95.0|-0.98|-0.09||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 3~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.09|-0.98|0.0185
82360820|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.1|-0.21||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 4~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.21|-1.10|0.0040
82360821|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.23||0.0004|TWO_SIDED|95.0|-1.26|-0.36||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 5~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.36|-1.26|0.0004
82360822|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.23||0.0018|TWO_SIDED|95.0|-1.17|-0.27||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 6~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.27|-1.17|0.0018
82444086|NCT02698371|164596695|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.403||||||Applied for rows/categories alfa/bravo/charlie of Color Match-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Color Match performance at 24 month follow-up recall.||||0.403
82444087|NCT02698371|164596696|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.020
82444088|NCT02698371|164596696|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.02||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.020
82444089|NCT02698371|164596696|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.04||||||Applied for rows/categories alfa/bravo/charlie of Retention-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Retention performance at 24 month follow-up recall.||||0.040
82360823|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0027|TWO_SIDED|95.0|-1.14|-0.24||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 7~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.24|-1.14|0.0027
82360824|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0041|TWO_SIDED|95.0|-1.11|-0.21||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 8~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.21|-1.11|0.0041
82360825|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.23||0.0058|TWO_SIDED|95.0|-1.09|-0.18||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 9~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.18|-1.09|0.0058
82360826|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0031|TWO_SIDED|95.0|-1.14|-0.23||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 10~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.23|-1.14|0.0031
82360827|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.23||0.0076|TWO_SIDED|95.0|-1.08|-0.17||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 11~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.17|-1.08|0.0076
82360828|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0328|TWO_SIDED|95.0|-0.95|-0.04||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 12~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.04|-0.95|0.0328
82391125|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5384|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5384
82360829|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.015|TWO_SIDED|95.0|-1.02|-0.11||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 13~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.11|-1.02|0.0150
82360830|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.23||0.0048|TWO_SIDED|95.0|-1.11|-0.2||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 14~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.20|-1.11|0.0048
82391126|NCT02612610|164493448|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0822|||||||Cochran-Mantel-Haenszel|||"Day 28: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0822
82391127|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0006
82391128|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0223|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0223
82360831|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.003|TWO_SIDED|95.0|-1.15|-0.24||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 15~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.24|-1.15|0.0030
82360832|NCT00407745|164432339|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23||0.0011|TWO_SIDED|95.0|-1.22|-0.3||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 16~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, study center, time (week), baseline pain score, baseline PCS total score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.30|-1.22|0.0011
82574744|NCT02358668|164858992|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.75||||0.24|TWO_SIDED|95.0|-4.72|1.21||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.21|-4.72|0.24
82574745|NCT02358668|164858993|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.13|0.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.10|-0.13|0.83
82574746|NCT02358668|164858993|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.48|TWO_SIDED|95.0|-0.16|0.08||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.08|-0.16|0.48
82574747|NCT02358668|164858994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.14||||0.83|TWO_SIDED|95.0|-9.17|11.45||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||11.45|-9.17|0.83
82574748|NCT02358668|164858994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92||||0.86|TWO_SIDED|95.0|-11.1|9.27||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||9.27|-11.1|0.86
82641815|NCT01233284|164998533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.027||0.0034||95.0|0.026|0.132|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.132|0.026|0.0034
82360833|NCT00407745|164432340|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.0256|TWO_SIDED|95.0|1.103|4.546||Significance was declared if p-value \<=0.05|Regression, Logistic|Logistic regression used terms for treatment, baseline pain score as covariate, baseline PCS total score, and pooled center as cofactor.||Null hypothesis - The rate of responder for the pregabain group was equal to the rate of responder for the placebo group; Alternative hypothesis - The rate of responder for the pregabain group was not equal to the rate of responder for the placebo group.||4.546|1.103|0.0256
82360834|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.22||0.0004|TWO_SIDED|95.0|-1.23|-0.35||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 1.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.35|-1.23|0.0004
82574749|NCT02358668|164858995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6||||0.75|TWO_SIDED|95.0|-99.6|72.3||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||72.3|-99.6|0.75
82574750|NCT02358668|164858995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|40.0||||0.34|TWO_SIDED|95.0|-43.9|123.9||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||123.9|-43.9|0.34
82574751|NCT02358668|164858996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-980.0||||0.23|TWO_SIDED|95.0|-2604.0|643.8||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||643.8|-2604|0.23
82574752|NCT02358668|164858996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|323.9||||0.68|TWO_SIDED|95.0|-1269.0|1916.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1916.6|-1269|0.68
82574753|NCT02358668|164858997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0||||0.79|TWO_SIDED|95.0|-99.6|129.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||129.6|-99.6|0.79
82641816|NCT01233284|164998533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.027||0.0087||95.0|0.018|0.124|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.124|0.018|0.0087
82574754|NCT02358668|164858997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|60.1||||0.29|TWO_SIDED|95.0|-52.5|172.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||172.6|-52.5|0.29
82574755|NCT02358668|164858998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-120.2||||0.37|TWO_SIDED|95.0|-385.3|144.9||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||144.9|-385.3|0.37
82641817|NCT01233284|164998533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.085|0.19|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.190|0.085|<0.0001
82641818|NCT01233284|164998534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.03||0.0732||95.0|-0.005|0.113|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.113|-0.005|0.0732
82360835|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.31|-0.43||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week2~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.43|-1.31|<0.0001
82360836|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0004|TWO_SIDED|95.0|-1.24|-0.36||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 3.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.36|-1.24|0.0004
82360837|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23||0.0008|TWO_SIDED|95.0|-1.2|-0.32||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 4.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.32|-1.20|0.0008
82360838|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.38|-0.49||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 5.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.49|-1.38|<0.0001
82360839|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.37|-0.48||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 6.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.48|-1.37|<0.0001
82360840|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.35|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 7.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.35|<0.0001
82360841|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.35|-0.46||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 8.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.46|-1.35|<0.0001
82360842|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.39|-0.5||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 9.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.50|-1.39|<0.0001
82360843|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.53|-0.63||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 10.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.63|-1.53|<0.0001
82360844|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.39|-0.49||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 11.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.49|-1.39|<0.0001
82391129|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
82391130|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0165
82641819|NCT01233284|164998534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.03||0.0177||95.0|0.012|0.131|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.131|0.012|0.0177
82641820|NCT01233284|164998534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.03||0.0012||95.0|0.039|0.157|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.157|0.039|0.0012
82641821|NCT01233284|164998535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.026||0.0149||95.0|0.013|0.115|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.115|0.013|0.0149
82641822|NCT01233284|164998535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.026||0.0043||95.0|0.024|0.126|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.126|0.024|0.0043
82641823|NCT01233284|164998535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.086|0.189|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.189|0.086|<0.0001
82641824|NCT01233284|164998539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.55|STANDARD_ERROR_OF_MEAN|3.737|<|0.0001||95.0|11.204|25.895|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||25.895|11.204|<0.0001
82641825|NCT01233284|164998539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.895|STANDARD_ERROR_OF_MEAN|3.737|<|0.0001||95.0|10.55|25.24|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||25.240|10.550|<0.0001
82641826|NCT01233284|164998539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.846|STANDARD_ERROR_OF_MEAN|3.739|<|0.0001||95.0|13.497|28.195|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||28.195|13.497|<0.0001
82641827|NCT01233284|164998540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.251|STANDARD_ERROR_OF_MEAN|3.77|<|0.0001||95.0|13.84|28.662|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||28.662|13.840|<0.0001
82641828|NCT01233284|164998540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.577|STANDARD_ERROR_OF_MEAN|3.77||0.0001||95.0|7.166|21.988|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||21.988|7.166|0.0001
82360845|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.37|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 12.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.37|<0.0001
82391131|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6255|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.6255
82444090|NCT02698371|164596697|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||<0.001
82574756|NCT02358668|164858998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0||||0.69|TWO_SIDED|95.0|-198.1|296.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||296.2|-198.1|0.69
82641829|NCT01233284|164998540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.581|STANDARD_ERROR_OF_MEAN|3.773|<|0.0001||95.0|14.166|28.997|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||28.997|14.166|<0.0001
82641830|NCT01233284|164998541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.114|STANDARD_ERROR_OF_MEAN|0.635||0.8574||95.0|-1.363|1.134|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||1.134|-1.363|0.8574
82641831|NCT01233284|164998541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.635||0.3954||95.0|-1.789|0.708|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.708|-1.789|0.3954
82641832|NCT01233284|164998541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.636||0.9034||95.0|-1.327|1.173|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||1.173|-1.327|0.9034
82574757|NCT02358668|164859000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.57|TWO_SIDED|95.0|-9.8|5.5||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||5.5|-9.8|0.57
82641833|NCT01233284|164998542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.233|STANDARD_ERROR_OF_MEAN|0.107||0.0296||95.0|-0.443|-0.023|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||-0.023|-0.443|0.0296
82641834|NCT01233284|164998542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.107||0.0454||95.0|-0.424|-0.004|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||-0.004|-0.424|0.0454
82641835|NCT01233284|164998542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.107||0.061||95.0|-0.41|0.009|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.009|-0.410|0.0610
82641836|NCT01233284|164998543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.063||0.0183||95.0|-0.273|-0.025|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||-0.025|-0.273|0.0183
82360846|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.38|-0.47||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 13.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.47|-1.38|<0.0001
82360847|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.41|-0.51||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 14.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.51|-1.41|<0.0001
82360848|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.53|-0.63||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 15.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.63|-1.53|<0.0001
82360849|NCT00407745|164432341|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.51|-0.61||Significance was declared if p-value \<=0.05|Mixed Models Analysis|||"Week 16.~A longitudinal analysis of weekly mean changes using repeated measures mixed models which compared treatments at each week and the last scheduled study week based on this model (to assess durability of treatment effect) was used.~Effects for treatment, pooled center, time (week), baseline score, and treatment by time interaction were included as covariates. The covariance structure was compound-symmetric."||-0.61|-1.51|<0.0001
82360850|NCT00407745|164432342|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.269||0.0438|TWO_SIDED|95.0|-1.08|-0.02||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline mBPI-10 Total Score as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.02|-1.08|0.0438
82360851|NCT00407745|164432343|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.448||0.7103|TWO_SIDED|95.0|-1.06|0.72||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Static Mechanical Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/above level: within 2 dermatomes above or below the neurological level of injury (NLI).~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.72|-1.06|0.7103
82360852|NCT00407745|164432343|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.34||0.0747|TWO_SIDED|95.0|-1.28|0.06||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Static Mechanical Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level: more than 2 dermatomes below the NLI.~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.06|-1.28|0.0747
82360853|NCT00407745|164432344|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.379||0.5689|TWO_SIDED|95.0|-0.97|0.54||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Dynamic Mechanical Allodynia as covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.54|-0.97|0.5689
82360854|NCT00407745|164432344|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.322||0.4764|TWO_SIDED|95.0|-0.87|0.41||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Dynamic Mechanical Allodynia as covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.41|-0.87|0.4764
82444091|NCT02698371|164596697|EQUIVALENCE|An alpha value of 0.05 was considered|||||<|0.001||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||<0.001
82641837|NCT01233284|164998543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.138|STANDARD_ERROR_OF_MEAN|0.063||0.0288||95.0|-0.262|-0.014|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||-0.014|-0.262|0.0288
82444092|NCT02698371|164596697|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.211||||||Applied for rows/categories alfa/bravo/charlie/delta of Marginal Integrity-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Marginal Integrity performance at 24 month follow-up recall.||||0.211
82641838|NCT01233284|164998543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.111|STANDARD_ERROR_OF_MEAN|0.063||0.0781||95.0|-0.235|0.013|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.013|-0.235|0.0781
82360855|NCT00407745|164432345|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.474||0.3362|TWO_SIDED|95.0|-1.4|0.48||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Punctate Hyperalgesia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.48|-1.40|0.3362
82360856|NCT00407745|164432345|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.321||0.3113|TWO_SIDED|95.0|-0.96|0.31||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Punctate Hyperalgesia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.31|-0.96|0.3113
82360857|NCT00407745|164432346|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.539||0.2721|TWO_SIDED|95.0|-1.67|0.48||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Temporal Summation to stimuli as covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.48|-1.67|0.2721
82360858|NCT00407745|164432346|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.337||0.4906|TWO_SIDED|95.0|-0.43|0.9||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Temporal Summation to stimuli as covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.90|-0.43|0.4906
82391132|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0085
82391133|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0722|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0722
82360859|NCT00407745|164432347|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.472||0.3123|TWO_SIDED|95.0|-1.42|0.46||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.46|-1.42|0.3123
82360860|NCT00407745|164432347|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.368||0.136|TWO_SIDED|95.0|-1.28|0.18||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Allodynia as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.18|-1.28|0.1360
82360861|NCT00407745|164432348|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.549||0.4257|TWO_SIDED|95.0|-1.53|0.65||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Hyperalgesia Subscales as a covariate and pooled center and treatment as fixed (class) cofactors.||"At/Above level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.65|-1.53|0.4257
82391134|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3577|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3577
82391135|NCT02612610|164493449|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||"Day 56: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0006
82444093|NCT02698371|164596698|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.102||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.102
82527407|NCT03502616|164751397|SUPERIORITY||LS mean difference|2.78|STANDARD_ERROR_OF_MEAN|1.102||0.0122|TWO_SIDED|95.0|0.61|4.95|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.95|0.61|0.0122
82641839|NCT01233284|164998544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.055||0.1303||95.0|-0.193|0.025|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.025|-0.193|0.1303
82641840|NCT01233284|164998544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.055||0.2191||95.0|-0.177|0.041|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.041|-0.177|0.2191
82641841|NCT01233284|164998544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.056||0.1163||95.0|-0.196|0.022|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.022|-0.196|0.1163
82641842|NCT01233284|164998545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.032||0.7501||95.0|-0.073|0.052|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|||0.052|-0.073|0.7501
82641843|NCT01233284|164998545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.032||0.8401||95.0|-0.069|0.056|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|||0.056|-0.069|0.8401
82641844|NCT01233284|164998545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.032||0.3237||95.0|-0.094|0.031|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|||0.031|-0.094|0.3237
82641845|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.079||0.1402|TWO_SIDED|95.0|-0.04|0.276||MMRM, adjusted for treatment, period, patient and study baseline.|Mixed Models Analysis||Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.276|-0.040|0.1402
82641846|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.079||0.0656|TWO_SIDED|95.0|-0.01|0.305|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.305|-0.010|0.0656
82641847|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.079||0.0766|TWO_SIDED|95.0|-0.015|0.299|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.299|-0.015|0.0766
82391136|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3845|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3845
82641848|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.084||0.3371|TWO_SIDED|95.0|-0.086|0.249|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.249|-0.086|0.3371
82641849|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.084||0.1097|TWO_SIDED|95.0|-0.031|0.303|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.303|-0.031|0.1097
82641850|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.084||0.022|TWO_SIDED|95.0|0.029|0.363|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.363|0.029|0.0220
82641851|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.078||0.2062|TWO_SIDED|95.0|-0.056|0.256|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.256|-0.056|0.2062
82641852|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.078||0.0731|TWO_SIDED|95.0|-0.014|0.297|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.297|-0.014|0.0731
82641853|NCT01233284|164998546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.078||0.0333|TWO_SIDED|95.0|0.014|0.324|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.324|0.014|0.0333
82641854|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|0.099||0.2451|TWO_SIDED|95.0|-0.081|0.312|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.312|-0.081|0.2451
82641855|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.099||0.0379|TWO_SIDED|95.0|0.012|0.405|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.405|0.012|0.0379
82641856|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.099||0.0957|TWO_SIDED|95.0|-0.03|0.363|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-12h||0.363|-0.030|0.0957
82641857|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.104||0.5207|TWO_SIDED|95.0|-0.139|0.273|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.273|-0.139|0.5207
82641858|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.104||0.0606|TWO_SIDED|95.0|-0.009|0.404|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.404|-0.009|0.0606
82641859|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.104||0.0855|TWO_SIDED|95.0|-0.026|0.387|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC12-24h||0.387|-0.026|0.0855
82641860|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.099||0.3564|TWO_SIDED|95.0|-0.104|0.287|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R1.25 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.287|-0.104|0.3564
82641861|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.099||0.0424|TWO_SIDED|95.0|0.007|0.399|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.399|0.007|0.0424
82641862|NCT01233284|164998547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.099||0.0815|TWO_SIDED|95.0|-0.022|0.37|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd minus Placebo|Comparison vs. Placebo for AUC0-24h||0.370|-0.022|0.0815
82641863|NCT04938687|164998579|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
82641864|NCT04938687|164998579|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
82641865|NCT04938687|164998579|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|||||||0.037
82641866|NCT04938687|164998580|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
82641867|NCT04938687|164998580|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82641868|NCT04938687|164998580|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|||||||0.069
82641869|NCT04938687|164998581|SUPERIORITY|||||||0.92|||||||ANOVA|||||||0.92
82391137|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1177|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1177
82574758|NCT02358668|164859000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.79|TWO_SIDED|95.0|-6.6|8.6||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||8.6|-6.6|0.79
82641870|NCT04938687|164998581|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||0.053
82641871|NCT04938687|164998581|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|||||||0.069
82641872|NCT04938687|164998582|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
82641873|NCT04938687|164998582|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82641874|NCT04938687|164998582|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||||||0.073
82391138|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0236|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0236
82641875|NCT04938687|164998583|SUPERIORITY|||||||0.93|||||||ANOVA|||||||0.93
82641876|NCT04938687|164998583|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82641877|NCT04938687|164998583|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82641878|NCT04938687|164998584|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
82391139|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0192|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0192
82391140|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3301|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3301
82391141|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0008
82391142|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0285|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0285
82641879|NCT04938687|164998584|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||0.038
82641880|NCT04938687|164998584|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82641881|NCT04938687|164998585|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82641882|NCT04938687|164998585|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82641883|NCT04938687|164998585|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82641884|NCT04938687|164998588|SUPERIORITY|||||||0.42|||||||ANOVA|||||||0.42
82641885|NCT04938687|164998588|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82641886|NCT04938687|164998588|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82641887|NCT01354015|164998602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|0.79||0.2539|TWO_SIDED|95.0|||||ANOVA|||All statistical analysis used intent-to-treat methodology and all comparisons used a two-tailed test at the .05 level of significance. Continuous variables are reported as means and standard deviations. W||||0.2539
82641888|NCT02871921|164998604|EQUIVALENCE|A linear regression model was run with the outcome being the MoCA score at Month 6, controlling for the baseline MoCA score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.86||0.87|TWO_SIDED||||||Regression, Linear|||Outcome: MoCA at Month 6 Among participants with normal cognition||||0.87
82527408|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.32|STANDARD_ERROR_OF_MEAN|1.252||0.0085|TWO_SIDED|95.0|0.86|5.79|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.79|0.86|0.0085
82527409|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.36|STANDARD_ERROR_OF_MEAN|1.416||0.0184|TWO_SIDED|95.0|0.57|6.15|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.15|0.57|0.0184
82360862|NCT00407745|164432348|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.412||0.2005|TWO_SIDED|95.0|-1.34|0.28||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline QANeP - Cold Hyperalgesia Subscales as a covariate and pooled center and treatment as fixed (class) cofactors.||"Below level~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.28|-1.34|0.2005
82391143|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3856|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3856
82444094|NCT02698371|164596698|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.18||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.180
82444095|NCT02698371|164596698|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.99||||||Applied for rows/categories No Evidence vs Evidence of Postoperative Sensitivity-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted.|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Postoperative Sensitivity performance at 24 month follow-up recall.||||0.990
82444096|NCT02698371|164596699|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.157||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.157
82444097|NCT02698371|164596699|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.317||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.317
82444098|NCT02698371|164596699|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.334||||||Applied for rows/categories No Evidence vs Evidence of Secondary Caries-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Secondary Caries performance at 24 month follow-up recall.||||0.334
82444099|NCT02698371|164596700|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.132||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G1 and G4G6 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by Self-Etch mode (FBDC-SE; G1) and MM adhesives by SE mode (MM-SE; G4G6) result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.132
82444100|NCT02698371|164596700|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.257||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G2 and G3G5 Arms performance from baseline to 24 month recall.|Wilcoxon (Mann-Whitney)|||H0 - Bonding to NCCLs with FBDC by SE and enamel etching mode (FBDC-SE-EE; G2) and MM adhesives by Etch-and-Rinse mode (MM-ER; G3G5) result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.257
82444101|NCT02698371|164596700|EQUIVALENCE|An alpha value of 0.05 was considered||||||0.918||||||Applied for rows/categories No Evidence vs Evidence of Gingival Bleeding-USPHS comparison between G1G2 and G3G4 and G5G6 Arms performance from baseline to 24 month recall. P-value adjusted|Kruskal-Wallis|||H0 - Bonding to NCCLs with FBDC (G1G2) or FBU (G3G4), DC adhesives, and ADU (G5G6) light-curing adhesive, with SE or SE-ER/ER modes result in similar (no significant differences) Gingival Bleeding performance at 24 month follow-up recall.||||0.918
82444102|NCT02525094|164596701|SUPERIORITY||Odds Ratio (OR)|1.97|||||TWO_SIDED|95.0|0.9|4.33||||||||4.33|0.90|
82444103|NCT02138240|164596716|OTHER|Pre-post comparison|||||<|0.001|||||||Wilcoxon signed rank sum|||||||<0.001
82444104|NCT02138240|164596719|OTHER|Pre-post comparison of baseline median weight to median weight at 6-month follow up||||||0.21|||||||Wilcoxon signed rank sum|||||||0.21
82444105|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.52|5.09||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-measles seroconversion rates.||5.09|-2.52|
82527410|NCT03502616|164751397|SUPERIORITY||LS mean difference|4.19|STANDARD_ERROR_OF_MEAN|1.38||0.0026|TWO_SIDED|95.0|1.47|6.91|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.91|1.47|0.0026
82527411|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.4|STANDARD_ERROR_OF_MEAN|1.495||0.0236|TWO_SIDED|95.0|0.46|6.35|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.35|0.46|0.0236
82360863|NCT00407745|164432349|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.025||0.1377|TWO_SIDED|95.0|-0.09|0.01||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - 12 Items Total Intensity Score as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.01|-0.09|0.1377
82360864|NCT00407745|164432350|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.038||0.3312|TWO_SIDED|95.0|-0.11|0.04||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Burning Spontaneous Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.04|-0.11|0.3312
82360865|NCT00407745|164432351|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.044|TWO_SIDED|95.0|-0.13|0.0||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Pressing Spontaneous Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.00|-0.13|0.0440
82360866|NCT00407745|164432352|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.033||0.137|TWO_SIDED|95.0|-0.12|0.02||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Paroxysmal Pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.02|-0.12|0.1370
82527412|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.66|STANDARD_ERROR_OF_MEAN|1.541||0.0182|TWO_SIDED|95.0|0.63|6.7|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.70|0.63|0.0182
82527413|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.85|STANDARD_ERROR_OF_MEAN|1.545||0.0133|TWO_SIDED|95.0|0.81|6.9|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.90|0.81|0.0133
82360867|NCT00407745|164432353|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.028||0.8911|TWO_SIDED|95.0|-0.06|0.05||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Evoked pain as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.05|-0.06|0.8911
82360868|NCT00407745|164432354|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.034||0.3731|TWO_SIDED|95.0|-0.1|0.04||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Paresthesia/Dysesthesia as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.04|-0.10|0.3731
82391144|NCT02612610|164493450|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||"Day 84: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0001
82391145|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2441|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a generalized linear mixed model (GLMM) with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified Cochran Mantel Haenszel (CMH) test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2441
82391146|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5055|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.5055
82574759|NCT02358668|164859001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.54|TWO_SIDED|95.0|-3.4|1.8||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.8|-3.4|0.54
82360869|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.383||0.3312|TWO_SIDED|95.0|-1.13|0.38||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 1 - Burning pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.38|-1.13|0.3312
82360870|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.377||0.0976|TWO_SIDED|95.0|-1.37|0.12||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 2 - Squeezing pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.12|-1.37|0.0976
82360871|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.393||0.0538|TWO_SIDED|95.0|-1.54|0.01||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 3 - Pain like pressure~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.01|-1.54|0.0538
82360872|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.389||0.3239|TWO_SIDED|95.0|-1.15|0.38||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 5 - Electric shocks~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.38|-1.15|0.3239
82360873|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.376||0.1912|TWO_SIDED|95.0|-1.23|0.25||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 6 - Stabbing pain~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.25|-1.23|0.1912
82360874|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.353||0.672|TWO_SIDED|95.0|-0.55|0.85||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 8 - By light touching~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.85|-0.55|0.6720
82360875|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.33||0.7821|TWO_SIDED|95.0|-0.74|0.56||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 9 - By pressure~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.56|-0.74|0.7821
82391147|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1602|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥70% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.1602
82391148|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2721|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.2721
82391149|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9763|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9763
82391150|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0993|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥50% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.0993
82391151|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4575|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 7.5 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.4575
82574760|NCT02358668|164859001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.68|TWO_SIDED|95.0|-2.0|3.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||3.1|-2.0|0.68
82360876|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.352||0.6851|TWO_SIDED|95.0|-0.84|0.55||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 10 - By something cold~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.55|-0.84|0.6851
82360877|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.387||0.361|TWO_SIDED|95.0|-1.12|0.41||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 11 - Pins and needles~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.41|-1.12|0.3610
82360878|NCT00407745|164432355|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.402||0.4915|TWO_SIDED|95.0|-1.07|0.52||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline NPSI - Individual Item Score as covariate and pooled center and treatment as fixed (class) cofactors.||"Item 12 - Tingling~Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group."||0.52|-1.07|0.4915
82360879|NCT00407745|164432356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0536||95.0||||p-values are adjusted for baseline score. Significance was declared if p-value \<=0.05.|Cochran-Mantel-Haenszel|||Null hypothesis - The rate of subjects with improvement for the pregabain group was equal to the rate of subjects with improvement for the placebo group; Alternative hypothesis - The rate of subjects with improvement for the pregabain group was not equal to the rate of subjects with improvement for the placebo group.||||0.0536
82391152|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9706|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 20 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.9706
82391153|NCT02612610|164493451|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3258|||||||Cochran-Mantel-Haenszel|||"Day 98: ≥30% Change: 50 mg gefapixant vs. placebo~Cough frequency responder endpoints were analyzed by a GLMM with treatment, visit, and treatment by visit interaction, and country as fixed effects. Comparison of response rates between each gefapixant treatment group and placebo was conducted using the stratified CMH test (stratified by country, unless stated otherwise). Missing data was categorized as discontinued or missing."||||0.3258
82444106|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.52|5.09||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-mumps seroconversion rates.||5.09|-2.52|
82444107|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.51|5.02||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-rubella seroconversion rates.||5.02|-2.51|
82574761|NCT02358668|164859002|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.03|TWO_SIDED|95.0|-3.2|-0.1||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||-0.1|-3.2|0.03
82360880|NCT00407745|164432357|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3107||95.0||||p-values are adjusted for baseline score. Significance was declared if p-value \<=0.05.|Cochran-Mantel-Haenszel|||Null hypothesis - The rate of subjects with improvement for the pregabain group was equal to the rate of subjects with improvement for the placebo group; Alternative hypothesis - The rate of subjects with improvement for the pregabain group was not equal to the rate of subjects with improvement for the placebo group.||||0.3107
82360881|NCT00407745|164432358|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.89|STANDARD_ERROR_OF_MEAN|2.182||0.0262|TWO_SIDED|95.0|-9.19|-0.59||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS 9-item Sleep Problems Index as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.59|-9.19|0.0262
82360882|NCT00407745|164432359|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.67|STANDARD_ERROR_OF_MEAN|2.985||0.0041|TWO_SIDED|95.0|-14.55|-2.78||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep disturbance as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-2.78|-14.55|0.0041
82360883|NCT00407745|164432360|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.78|STANDARD_ERROR_OF_MEAN|3.492||0.0998|TWO_SIDED|95.0|-1.11|12.66||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep Adequacy as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||12.66|-1.11|0.0998
82574762|NCT02358668|164859002|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.86|TWO_SIDED|95.0|-1.7|1.4||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.4|-1.7|0.86
82574763|NCT02358668|164859003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.9|TWO_SIDED|95.0|-0.39|0.44||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.44|-0.39|0.90
82574764|NCT02358668|164859003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.3|TWO_SIDED|95.0|-0.63|0.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.20|-0.63|0.30
82574765|NCT02358668|164859004|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62||||0.52|TWO_SIDED|95.0|-1.32|2.57||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||2.57|-1.32|0.52
82574766|NCT02358668|164859004|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.13||||0.24|TWO_SIDED|95.0|-0.75|3.05||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||3.05|-0.75|0.24
82574767|NCT02358668|164859005|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.002||||0.93|TWO_SIDED|95.0|-0.035|0.038||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.038|-0.035|0.93
82574768|NCT02358668|164859005|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015||||0.4|TWO_SIDED|95.0|-0.021|0.051||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.051|-0.021|0.40
82641889|NCT02871921|164998604|EQUIVALENCE|A linear regression model was run with the outcome being the MoCA score at Month 6, controlling for the baseline MoCA score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score.|Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|0.76||0.03|TWO_SIDED||||||Regression, Linear|||Outcome: MoCA at Month 6 Among MCI||||.03
82641890|NCT02871921|164998605|EQUIVALENCE|A linear regression model was run with the outcome being the Category Fluency test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|2.56|STANDARD_ERROR_OF_MEAN|1.19||0.03|TWO_SIDED||||||Regression, Linear|||Outcome: Category fluency animals Among participants with normal cognition||||0.03
82641891|NCT02871921|164998605|OTHER|A linear regression model was run with the outcome being the Category Fluency test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.93||0.46|TWO_SIDED||||||Regression, Linear|||Outcome: Category Fluency (Animals) at Month 6 Among MCI participants||||0.46
82391154|NCT02612610|164493452|OTHER||LS Mean Difference|0.0||||0.9858|TWO_SIDED|95.0|-0.53|0.54|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.54|-0.53|0.9858
82391155|NCT02612610|164493452|OTHER||LS Mean Difference|-0.01||||0.9813|TWO_SIDED|95.0|-0.53|0.52|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.52|-0.53|0.9813
82444108|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the two-sided standardised asymptotic 95% CI on the difference in the seroconversion rates between the two groups (Priorix-Tetra Group minus Control Group) was greater than or equal to (≥) -10%.|Difference in percentage|4.17|||||TWO_SIDED|95.0|1.37|11.57||||||Non-inferiority of 2 doses of Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-varicella seroconversion rates.||11.57|1.37|
82574769|NCT02358668|164859006|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.36|TWO_SIDED|95.0|-1.2|0.5||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||0.5|-1.2|0.36
82574770|NCT02358668|164859006|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.36|TWO_SIDED|95.0|-0.4|1.2||The p-value of treatment effects relative to placebo was obtained by ANCOVA analysis comparing the outcome values adjusted for age, gender and baseline measurements.|ANCOVA|||||1.2|-0.4|0.36
82574771|NCT02358668|164859007|SUPERIORITY_OR_OTHER|||||||0.09||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.09
82574772|NCT02358668|164859007|SUPERIORITY_OR_OTHER|||||||0.82||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.82
82641892|NCT02871921|164998606|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Stroy Immediate Recall score at Month 6, controlling for its baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.82||0.45|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Stroy Immediate Recall (paraphrase scoring) Among participants with normal cognition||||0.45
82360884|NCT00407745|164432361|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.7|STANDARD_ERROR_OF_MEAN|3.501||0.1048|TWO_SIDED|95.0|-1.2|12.61||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Snoring as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||12.61|-1.20|0.1048
82360885|NCT00407745|164432362|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.14|STANDARD_ERROR_OF_MEAN|2.417||0.0347|TWO_SIDED|95.0|-9.91|-0.37||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included baseline MOS - Awaken Short of Breath or with headache as covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.37|-9.91|0.0347
82360886|NCT00407745|164432363|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.189||0.0436|TWO_SIDED|95.0|0.01|0.76||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Sleep Quantity as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.76|0.01|0.0436
82360887|NCT00407745|164432364|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.02|STANDARD_ERROR_OF_MEAN|2.77||0.2761|TWO_SIDED|95.0|-2.44|8.49||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline MOS - Somnolence as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||8.49|-2.44|0.2761
82360888|NCT00407745|164432365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.81||||0.0024|TWO_SIDED|95.0|1.443|5.491||Significance was declared if p-value \<=0.05|Regression, Logistic|Logistic Regression Model included Pooled Center and Treatment as the categorical factors, and Optimal Sleep Score at Baseline as the covariate.||Null hypothesis - The rate of subjects with optimal sleep for the pregabain group was equal to the rate of subjects with optimal sleep for the placebo group; Alternative hypothesis - The rate of subjects with optimal sleep for the pregabain group was not equal to the rate of subjects with optimal sleep for the placebo group.||5.491|1.443|0.0024
82360889|NCT00407745|164432366|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.433||0.1164|TWO_SIDED|95.0|-1.54|0.17||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline HADS - Anxiety as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||0.17|-1.54|0.1164
82360890|NCT00407745|164432367|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.447||0.0279|TWO_SIDED|95.0|-1.87|-0.11||Significance was declared if p-value \<=0.05|ANCOVA|ANCOVA model included terms of baseline HADS - Depression as a covariate and pooled center and treatment as fixed (class) cofactors.||Null hypothesis - the mean of the measure for the pregabalin group was the same as the mean of the measure for the placebo group; Alternative hypothesis - the mean of the measure for the pregabalin group was different from the mean of the measure for the placebo group.||-0.11|-1.87|0.0279
82360891|NCT00108082|164432368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.7651||95.0|-1.83|2.49|||ANCOVA|||The null hypotheses (tested hierarchically) were that the effect of carvedilol CR + lisinopril on LV mass regression was no different than the effect of atenolol + lisinopril, and that the effect of carvedilol CR + lisinopril was no different than the effect of lisinopril + lisinopril. The primary analysis was based on an analysis of covariance (ANCOVA) with a model adjusting for treatment, stratification by hypertension class, region, and baseline value, at a 0.05 level of significance.||2.49|-1.83|0.7651
82360892|NCT00108082|164432368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.1711||95.0|-0.7|3.9|||ANCOVA|||||3.90|-0.70|0.1711
82360893|NCT00955552|164432386|NON_INFERIORITY|Non-inferiority test of Ártico vs Cosamin DS® regarding the decrease of pain scale (VAS) in the PP population (N = 86).|||||<|0.05||||||For numeric variables Test -t student or ANOVA will be used. It will be considered statistically significant P-value less than 0,05.|t-test, 1 sided|||||||<0.05
82360894|NCT01091103|164432412|SUPERIORITY_OR_OTHER|||||||0.9427|TWO_SIDED|||||The p-value was not adjusted for multiplicity.|t-test, 2 sided|||||||0.9427
82444109|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.46|5.09||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-measles seroconversion rates.||5.09|-2.46|
82360895|NCT01091103|164432413|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED|||||The p-value was not adjusted for multiplicity.|t-test, 2 sided|||||||0.3370
82444110|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.48|5.09||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-mumps seroconversion rates.||5.09|-2.48|
82574773|NCT02358668|164859008|SUPERIORITY_OR_OTHER|||||||0.68||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.68
82574774|NCT02358668|164859008|SUPERIORITY_OR_OTHER|||||||0.26||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.26
82360896|NCT03449199|164432424|SUPERIORITY||LS Mean Difference|-0.05||||0.7953|TWO_SIDED|95.0|-0.44|0.34|||ANCOVA|||Change from baseline in log-transformed UACR was analyzed using an ANCOVA model with randomized treatment, and randomization strata of sUA and UACR as independent variables. The last observation carried forward imputation was used for missing data. In this study, multiplicity was not considered since the study objective is exploratory.||0.34|-0.44|0.7953
82360897|NCT03449199|164432424|SUPERIORITY||LS Mean Difference|-0.43||||0.0311|TWO_SIDED|95.0|-0.82|-0.04|||ANCOVA|||Change from baseline in log-transformed UACR was analyzed using an ANCOVA model with randomized treatment, and randomization strata of sUA and UACR as independent variables. The last observation carried forward imputation was used for missing data. In this study, multiplicity was not considered since the study objective is exploratory.||-0.04|-0.82|0.0311
82641893|NCT02871921|164998606|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.8||0.41|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Immediate Recall (paraphrase) Among MCI||||0.41
82574775|NCT02358668|164859009|SUPERIORITY_OR_OTHER|||||||0.67||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.67
82641894|NCT02871921|164998607|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Median Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.77||0.74|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Delayed Recall) (Paraphrase scoring) Among participants with normal cognition||||0.74
82641895|NCT02871921|164998607|EQUIVALENCE|A linear regression model was run with the outcome being the Craft Story test score at Month 6, controlling for tits baseline score. The coefficient of the treatment indicator (1: experimental group, 0: control group) is our main interest. The significant coefficient means that treatment and control groups differ in the outcome score at Month 6, controlling for the baseline score and a COVID-19 pandemic period indicator (0: pre-COVID-19 pandemic, 1: during COVID-19 pandemic period).|Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.79||0.9|TWO_SIDED||||||Regression, Linear|||Outcome: Craft Story Delayed Recall (Paraphrase scoring) Among MCI||||0.90
82641896|NCT02181075|164998697|SUPERIORITY|||||||0.024||||||Not adjusted for multiple comparisons. A priori threshold \< 0.05|t-test, 2 sided|95% confidence interval (CI)||A paired t-test was used for Part I (Arm 1) only. Analysis only applies to Part I (Arm 1) because only this study arm has matched Post-LTLD (i.e. post-drug alone) and Post-LTLD+FUS biopsy samples obtained from the same liver tumours before and after targeted drug delivery. In Part II of the study design in which drug delivery occurred completely non-invasively, no Post-LTLD tissue sample is obtained and only a single tumour biopsy is obtained following drug delivery (Post-LTLD+FUS).||||0.024
82641897|NCT04150107|164998705|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|Least mean squares||||<|0.9223|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9223
82641898|NCT04150107|164998706|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.8871|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.8871
82641899|NCT04150107|164998707|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.9641|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9641
82360898|NCT03449199|164432425|SUPERIORITY||LS Mean Difference|1.71||||0.4055|TWO_SIDED|95.0|-2.35|5.78|||ANCOVA|||For Week 12 (visit of the primary outcome), ANCOVA model with treatment, randomization strata of sUA and UACR levels as independent variables, Baseline eGFR as covariate is fitted. The last observation carried forward imputation was used for missing data.||5.78|-2.35|0.4055
82574776|NCT02358668|164859009|SUPERIORITY_OR_OTHER|||||||0.3||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.30
82574777|NCT02358668|164859010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|||<|0.01|TWO_SIDED|95.0|-0.48|-0.11||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.11|-0.48|<0.01
82641900|NCT04150107|164998708|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.7922|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.7922
82360899|NCT03449199|164432425|SUPERIORITY||LS Mean Difference|3.42||||0.096|TWO_SIDED|95.0|-0.62|7.46|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of sUA and UACR levels as independent variables, Baseline eGFR as covariate is fitted. The last observation carried forward imputation was used for missing data.||7.46|-0.62|0.0960
82360900|NCT03449199|164432426|SUPERIORITY||LS Mean Difference|-2.43|||<|0.0001|TWO_SIDED|95.0|-3.13|-1.74|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||-1.74|-3.13|<0.0001
82360901|NCT03449199|164432426|SUPERIORITY||LS Mean Difference|-3.23|||<|0.0001|TWO_SIDED|95.0|-3.91|-2.54|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||-2.54|-3.91|<0.0001
82360902|NCT03449199|164432427|SUPERIORITY||LS Mean Difference|-102.02||||0.3955|TWO_SIDED|95.0|-338.81|134.78|||ANCOVA|||For Week 12 (visit of the primary outcome), an ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||134.78|-338.81|0.3955
82360903|NCT03449199|164432427|SUPERIORITY||LS Mean Difference|-197.49||||0.0991|TWO_SIDED|95.0|-432.73|37.75|||ANCOVA|||For Week 12 (visit of the primary outcome), ANCOVA model with treatment, randomization strata of UACR levels as independent variables is fitted. The last observation carried forward imputation was used for missing data.||37.75|-432.73|0.0991
82360904|NCT03449199|164432428|SUPERIORITY||Odds Ratio (OR)|1.72||||0.2791|TWO_SIDED||||||Regression, Logistic||Missing observations at Study Week 12 are imputed as nonresponse.|Odds ratio, 95% CLs, and p-values are obtained from logistic regression model adjusting for treatment group, randomization strata of Baseline sUA (\<6.0 vs ≥6.0 mg/dL) and Baseline UACR (200 to \<300 mg/g vs 300 to ≤3000 mg/g), Baseline UACR and Baseline sUA levels. Odds ratio for a baseline covariate is the ratio of odds over one unit increase of the covariate and it is assumed constant. P-value represents the statistical significance level of odds ratio differing from 1.||||0.2791
82360905|NCT03449199|164432428|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0507|TWO_SIDED||||||Regression, Logistic|||Odds ratio, 95% CLs, and p-values are obtained from logistic regression model adjusting for treatment group, randomization strata of Baseline sUA (\<6.0 vs ≥6.0 mg/dL) and Baseline UACR (200 to \<300 mg/g vs 300 to ≤3000 mg/g), Baseline UACR and Baseline sUA levels. Odds ratio for a baseline covariate is the ratio of odds over one unit increase of the covariate and it is assumed constant. P-value represents the statistical significance level of odds ratio differing from 1.||||0.0507
82360906|NCT00721955|164432462|SUPERIORITY|LS mean was used in the primary efficacy analysis|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
82360907|NCT00721955|164432462|SUPERIORITY|p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
82360908|NCT00721955|164432463|SUPERIORITY|LS mean was used in the primary efficacy analysis|||||<|0.0001||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
82360909|NCT00721955|164432463|SUPERIORITY||||||<|0.0001||||||-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||<0.0001
82360910|NCT00781079|164432465|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|||||Models included site, age, race, ethnicity.|Regression, Linear|||comparisons between the PS and Usual Care groups were completed with a regression testing the interaction of group (PS vs Usual Care) and time (baseline vs follow-up) for the outcome measure. The measure was analyzed with mixed effect hierarchical regressions which accounted for the nesting of site under treatment, subjects within sites, and subjects over time.||||.5
82444111|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.48|5.02||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-rubella seroconversion rates.||5.02|-2.48|
82360911|NCT00781079|164432466|SUPERIORITY||Z tests if Reg coeff are diff from 0|-0.58||||0.56|TWO_SIDED||||||Regression, Linear|||||||.56
82360912|NCT00781079|164432467|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||Models included site, age, race, ethnicity. This is the calculated p value.|Regression, Linear|||comparisons between the PS and Usual Care groups were completed with a regression testing the interaction of group (PS vs Usual Care) and time (baseline vs follow-up) for the outcome measure. The measure was analyzed with mixed effect hierarchical regressions which accounted for the nesting of site under treatment, subjects within sites, and subjects over time.||||.05
82360913|NCT00781079|164432468|SUPERIORITY||Z test if reg coeff is diff from 0|0.56||||0.58|TWO_SIDED||||||Regression, Linear|||||||.58
82360914|NCT00781079|164432469|SUPERIORITY||Z test if reg coeff is diff than 0|-0.16||||0.87|TWO_SIDED||||||Regression, Linear|||||||.87
82360915|NCT00781079|164432470|SUPERIORITY||Z test if ref coeff is diff than 0|0.03||||0.98|TWO_SIDED||||||Regression, Linear|||||||.98
82360916|NCT00345033|164432483|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in total cholesterol is over 99%.||||||0.125||95.0|||||ANCOVA|||||||0.125
82360917|NCT00345033|164432484|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in weight will be over 99%.||||||0.109||95.0|||||ANCOVA|||||||0.109
82444112|NCT00969436|164596720|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after second vaccination dose was concluded if the lower limit (LL) of the 2-sided standardised asymptotic 95% confidence interval (CI) on the difference in the seroconversion rates between the 2 groups (Priorix/Priorix-Tetra Group minus Control Group) was ≥ -10%.|Difference in percentage|2.77|||||TWO_SIDED|95.0|-1.59|10.29||||||Non-inferiority of Priorix™ vaccine followed by Priorix-Tetra® vaccine compared to Priorix™ vaccine followed by Priorix™ vaccine co-administered with Varilrix™ vaccine in terms of anti-varicella seroconversion rates.||10.29|-1.59|
82360918|NCT00345033|164432485|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in Body Mass Index (BMI) will be over 99%.||||||0.229||95.0|||||ANCOVA|||||||0.229
82360919|NCT00345033|164432486|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in glucose metabolism to be 90%.||||||0.01||95.0|||||ANCOVA|||||||0.010
82360920|NCT00345033|164432487|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in triglycerides will be 81%.||||||0.982||95.0|||||ANCOVA|||||||0.982
82360921|NCT00345033|164432488|NON_INFERIORITY_OR_EQUIVALENCE|A priori power calculation determined the power to detect a change in Insulin Resistance will be 90%.||||||0.082||95.0|||||ANCOVA|||||||0.082
82360922|NCT02102932|164432489|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.29|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|101.92|108.78||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.78|101.92|0.0000
82360923|NCT02102932|164432489|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.23|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|99.91|106.65||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.65|99.91|0.0000
82360924|NCT02102932|164432489|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.56|STANDARD_DEVIATION|7.6||0|TWO_SIDED|90.0|99.73|107.54||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||107.54|99.73|0.0000
82360925|NCT02102932|164432489|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.81|STANDARD_DEVIATION|6.9||0|TWO_SIDED|90.0|99.36|106.37||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.37|99.36|0.0000
82391156|NCT02612610|164493452|OTHER||LS Mean Difference|-0.11||||0.6746|TWO_SIDED|95.0|-0.65|0.42|||Mixed Effect Repeated Measures model|||"Day 28 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.42|-0.65|0.6746
82527414|NCT03502616|164751397|SUPERIORITY||LS mean difference|3.49|STANDARD_ERROR_OF_MEAN|1.541||0.0245|TWO_SIDED|95.0|0.45|6.52|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.52|0.45|0.0245
82527415|NCT03502616|164751398|SUPERIORITY||LS mean difference|0.81|STANDARD_ERROR_OF_MEAN|0.257||0.0018|TWO_SIDED|95.0|0.3|1.32|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.32|0.30|0.0018
82527416|NCT03502616|164751398|SUPERIORITY||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|0.301||0.0005|TWO_SIDED|95.0|0.47|1.65|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.65|0.47|0.0005
82527417|NCT03502616|164751398|SUPERIORITY||LS mean difference|1.19|STANDARD_ERROR_OF_MEAN|0.305||0.0001|TWO_SIDED|95.0|0.59|1.79|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.79|0.59|0.0001
82527418|NCT03502616|164751398|SUPERIORITY||LS mean difference|1.63|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|1.09|2.17|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.17|1.09|<0.0001
82360926|NCT02102932|164432490|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.56|STANDARD_DEVIATION|14.0||0.0001|TWO_SIDED|90.0|97.56|112.07||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.07|97.56|0.0001
82641901|NCT04150107|164998709|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.9898|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.9898
82641902|NCT04150107|164998710|OTHER|Treatment least squares means and change from baseline estimates will be derived using this linear model.|||||<|0.5165|||||||ANCOVA|||Information collected in the daily diaries or via the Continuous Glucose Monitor (CGM) on the final 10 days of treatment will be analyzed using a Repeated Measures Analysis of Covariance with subject as a random effect with each of the 10 days being a single measurement. When analyzing the exogenous insulin variables, the CGM parameters (mean 24 hour glucose value and 24 hour time within 70-180 mg/dL range) and the patient reported carbohydrate intake will be included as covariates.||||<0.5165
82641903|NCT00650806|164998711|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.031|TWO_SIDED|95.0|-1.6|-0.1|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.1|-1.6|0.031
82641904|NCT00650806|164998711|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-0.8|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.8|-2.4|<0.001
82641905|NCT00650806|164998711|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.1|-0.6|||ANOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center.||||-0.6|-2.1|<0.001
82360927|NCT02102932|164432490|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.8|STANDARD_DEVIATION|12.8||0.0001|TWO_SIDED|90.0|99.32|112.7||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.70|99.32|0.0001
82360928|NCT02102932|164432490|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.75|STANDARD_DEVIATION|11.2||0|TWO_SIDED|90.0|98.18|109.63||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||109.63|98.18|0.0000
82360929|NCT02102932|164432490|SUPERIORITY_OR_OTHER||Ratio of the geometric means|95.77|STANDARD_DEVIATION|12.8||0|TWO_SIDED|90.0|89.88|102.03||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||102.03|89.88|0.0000
82360930|NCT02102932|164432491|SUPERIORITY_OR_OTHER||Ratio of the geometric means|106.44|STANDARD_DEVIATION|11.8||0|TWO_SIDED|90.0|100.44|112.8||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.80|100.44|0.0000
82360931|NCT02102932|164432491|SUPERIORITY_OR_OTHER||Ratio of the geometric means|110.78|STANDARD_DEVIATION|13.2||0.0021|TWO_SIDED|90.0|103.8|118.24||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||118.24|103.80|0.0021
82391157|NCT02612610|164493453|OTHER||LS Mean Difference|-0.32||||0.2583|TWO_SIDED|95.0|-0.88|0.24|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.24|-0.88|0.2583
82641906|NCT00650806|164998712|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.4||0.045|TWO_SIDED|95.0|-1.58|-0.02|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.02|-1.58|0.045
82641907|NCT00650806|164998712|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.4|-0.8|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.80|-2.40|<0.001
82641908|NCT00650806|164998712|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.07|-0.51|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. Baseline body weight was a covariate.||||-0.51|-2.07|0.001
82641909|NCT00650806|164998713|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.031|TWO_SIDED|95.0|-0.59|-0.03|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.03|-0.59|0.031
82360932|NCT02102932|164432491|SUPERIORITY_OR_OTHER||Ratio of the geometric means|101.38|STANDARD_DEVIATION|13.6||0|TWO_SIDED|90.0|94.82|108.39||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.39|94.82|0.0000
82360933|NCT02102932|164432491|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.02|STANDARD_DEVIATION|16.3||0.0002|TWO_SIDED|90.0|95.08|111.63||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||111.63|95.08|0.0002
82360934|NCT02102932|164432492|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.91|STANDARD_DEVIATION|11.2||0|TWO_SIDED|90.0|99.29|110.86||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||110.86|99.29|0.0000
82360935|NCT02102932|164432492|SUPERIORITY_OR_OTHER||Ratio of the geometric means|106.32|STANDARD_DEVIATION|15.7||0.0008|TWO_SIDED|90.0|98.39|114.88||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||114.88|98.39|0.0008
82360936|NCT02102932|164432492|SUPERIORITY_OR_OTHER||Ratio of the geometric means|104.44|STANDARD_DEVIATION|15.7||0.0003|TWO_SIDED|90.0|96.68|112.82||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.82|96.68|0.0003
82360937|NCT02102932|164432492|SUPERIORITY_OR_OTHER||Ratio of the geometric means|96.61|STANDARD_DEVIATION|16.9||0.0004|TWO_SIDED|90.0|88.9|104.99||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||104.99|88.90|0.0004
82360938|NCT02102932|164432493|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.16|STANDARD_DEVIATION|6.2||0|TWO_SIDED|90.0|101.97|108.45||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||108.45|101.97|0.0000
82360939|NCT02102932|164432493|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.07|STANDARD_DEVIATION|6.6||0|TWO_SIDED|90.0|99.75|106.5||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.50|99.75|0.0000
82360940|NCT02102932|164432493|SUPERIORITY_OR_OTHER||Ratio of the geometric means|103.14|STANDARD_DEVIATION|7.5||0|TWO_SIDED|90.0|99.37|107.04||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||107.04|99.37|0.0000
82527419|NCT03502616|164751398|SUPERIORITY||LS mean difference|1.87|STANDARD_ERROR_OF_MEAN|0.344|<|0.0001|TWO_SIDED|95.0|1.2|2.55|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.55|1.20|<0.0001
82527420|NCT03502616|164751398|SUPERIORITY||LS mean difference|0.95|STANDARD_ERROR_OF_MEAN|0.353||0.0075|TWO_SIDED|95.0|0.26|1.65|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.65|0.26|0.0075
82391158|NCT02612610|164493453|OTHER||LS Mean Difference|0.01||||0.9826|TWO_SIDED|95.0|-0.55|0.56|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.56|-0.55|0.9826
82391159|NCT02612610|164493453|OTHER||LS Mean Difference|-0.4||||0.1672|TWO_SIDED|95.0|-0.98|0.17|||Mixed Effect Repeated Measures model|||"Day 56 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.17|-0.98|0.1672
82391160|NCT02612610|164493454|OTHER||LS Mean Difference|0.14||||0.6102|TWO_SIDED|95.0|-0.4|0.68|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 7.5 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.68|-0.4|0.6102
82391161|NCT02612610|164493454|OTHER||LS Mean Difference|0.08||||0.7782|TWO_SIDED|95.0|-0.46|0.61|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 20 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.61|-0.46|0.7782
82391162|NCT02612610|164493454|OTHER||LS Mean Difference|0.28||||0.3167|TWO_SIDED|95.0|-0.27|0.83|||Mixed Effect Repeated Measures model|||"Day 84 Sleep Cough Frequency: 50 mg gefapixant vs. placebo~Day 84 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value (on log scale) as a covariate."||0.83|-0.27|0.3167
82391163|NCT02612610|164493455|OTHER||LS Mean Difference|0.3||||0.1545|TWO_SIDED|95.0|-0.1|0.7|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.7|-0.1|0.1545
82527421|NCT03502616|164751398|SUPERIORITY||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|0.403||0.1489|TWO_SIDED|95.0|-0.21|1.38|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.38|-0.21|0.1489
82360941|NCT02102932|164432493|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.61|STANDARD_DEVIATION|7.0||0|TWO_SIDED|90.0|99.1|106.25||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||106.25|99.10|0.0000
82360942|NCT02102932|164432494|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.33|STANDARD_DEVIATION|11.9||0|TWO_SIDED|90.0|99.34|111.68||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T1) versus Reference (R1)) i.e. T1/R1. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||111.68|99.34|0.0000
82360943|NCT02102932|164432494|SUPERIORITY_OR_OTHER||Ratio of the geometric means|105.75|STANDARD_DEVIATION|13.2||0.0001|TWO_SIDED|90.0|99.09|112.85||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T2) versus Reference (R2)) i.e. T2/R2. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||112.85|99.09|0.0001
82391164|NCT02612610|164493455|OTHER||LS Mean Difference|0.3||||0.2013|TWO_SIDED|95.0|-0.1|0.7|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 20 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.7|-0.1|0.2013
82391165|NCT02612610|164493455|OTHER||LS Mean Difference|0.0||||0.9962|TWO_SIDED|95.0|-0.4|0.4|||Mixed Effect Repeated Measures model|||"Week 1 CSD Total Score: 50 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.4|0.9962
82391166|NCT02612610|164493456|OTHER||LS Mean Difference|0.1||||0.7328|TWO_SIDED|95.0|-0.4|0.6|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.4|0.7328
82527422|NCT03502616|164751398|SUPERIORITY||LS mean difference|0.78|STANDARD_ERROR_OF_MEAN|0.417||0.0609|TWO_SIDED|95.0|-0.04|1.61|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.61|-0.04|0.0609
82360944|NCT02102932|164432494|SUPERIORITY_OR_OTHER||Ratio of the geometric means|102.9|STANDARD_DEVIATION|11.7||0|TWO_SIDED|90.0|97.11|109.03||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T3) versus Reference (R3)) i.e. T3/R3. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||109.03|97.11|0.0000
82360945|NCT02102932|164432494|SUPERIORITY_OR_OTHER||Ratio of the geometric means|93.84|STANDARD_DEVIATION|13.6||0.0002|TWO_SIDED|90.0|87.74|100.36||P-value for ratio outside interval 80-125|ANOVA||Ratio of the geometric means for treatments (Test (T4) versus Reference (R4)) i.e. T4/R4. The standard deviation is actually the intra-individual gCV.|"The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation:~'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed."||100.36|87.74|0.0002
82360946|NCT03496298|164432515|NON_INFERIORITY|Non-inferiority of efpeglenatide 4 mg+6 mg versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio for the incidence of both 1.8 and less and 1.3 or less.|Hazard Ratio (HR)|0.732|||<|0.0001|TWO_SIDED|95.0|0.583|0.918||One-sided p-value based on log rank test of hazard ratio for the incidence of both 1.8 and less and 1.3 or less.|Log Rank|||Hazard ratio and 95% Confidence Interval (CI) were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.918|0.583|<.0001
82360947|NCT03496298|164432516|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.732||||0.0069|TWO_SIDED|95.0|0.583|0.918||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.918|0.583|0.0069
82360948|NCT03496298|164432517|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.79||||0.02|TWO_SIDED|95.0|0.65|0.96||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.96|0.65|0.02
82360949|NCT03496298|164432518|SUPERIORITY|Superiority was claimed when the upper bound of the 2-sided 95% CI of hazard ratio was less than 1.|Hazard Ratio (HR)|0.675|||<|0.0001|TWO_SIDED|95.0|0.574|0.794||Two-sided p-values based on log rank test of hazard ratio.|Log Rank|||Hazard ratio and 95% CI were obtained from a Cox proportional hazards model with region (North America, Latin America, Europe, other), randomization stratum of SGLT2 inhibitor use (current use, potential future use, neither current nor potential future use) and treatment (efpeglenatide 4 mg, efpeglenatide 6 mg, placebo) as fixed effect factor.||0.794|0.574|<.0001
82360950|NCT01658995|164432519|SUPERIORITY||Risk Difference (RD)|-9.9||||0.37|TWO_SIDED|95.0|-31.4|11.6|||Chi-squared|||||11.6|-31.4|0.37
82391167|NCT02612610|164493456|OTHER||LS Mean Difference|0.1||||0.7635|TWO_SIDED|95.0|-0.4|0.6|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 20 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.4|0.7635
82391168|NCT02612610|164493456|OTHER||LS Mean Difference|-0.4||||0.0951|TWO_SIDED|95.0|-0.9|0.1|||Mixed Effect Repeated Measures model|||"Week 2 CSD Total Score: 50 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-0.9|0.0951
82391169|NCT02612610|164493457|OTHER||LS Mean Difference|-0.2||||0.5797|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5797
82444113|NCT01018095|164596729|NON_INFERIORITY_OR_EQUIVALENCE|Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test. The measure of association at TOC was calculated as a relative risk with 95% confidence interval.|Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.191||0.045|TWO_SIDED|95.0|0.25|1.0|||Relative risk|The measure of association at TOC and 3 months was calculated as a relative risk with 95% confidence interval.||It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.31 Enrollment rates were lower than estimated and only 270 participants (135 per arm) were enrolled.||1.00|0.25|.045
82641910|NCT00650806|164998713|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.9|-0.32|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.32|-0.90|<0.001
82641911|NCT00650806|164998713|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.76|-0.2|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||-0.20|-0.76|<0.001
82641912|NCT00650806|164998714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.317||95.0|0.6|5.6||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||5.6|0.6|0.317
82360951|NCT01658995|164432520|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
82360952|NCT01488448|164432536|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
82360953|NCT01488448|164432537|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Fisher Exact|||||||0.77
82360954|NCT01488448|164432538|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Fisher Exact|||||||0.97
82360955|NCT01488448|164432539|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
82360956|NCT01488448|164432540|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.39
82360957|NCT01488448|164432541|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.18
82360958|NCT01488448|164432544|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.96
82360959|NCT01992094|164432546|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|1.0|||||TWO_SIDED|95.0|0.9|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain H1N1||1.1|0.9|
82360960|NCT01992094|164432546|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|1.0|||||TWO_SIDED|95.0|0.9|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain H3N2||1.1|0.9|
82360961|NCT01992094|164432546|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|0.9|||||TWO_SIDED|95.0|0.8|1.0|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain B1||1.0|0.8|
82391170|NCT02612610|164493457|OTHER||LS Mean Difference|-0.3||||0.2499|TWO_SIDED|95.0|-0.9|0.2|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 20 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-0.9|0.2499
82391171|NCT02612610|164493457|OTHER||LS Mean Difference|-0.5||||0.0612|TWO_SIDED|95.0|-1.1|0.0|||Mixed Effect Repeated Measures model|||"Week 3 CSD Total Score: 50 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.1|0.0612
82444114|NCT01018095|164596729|NON_INFERIORITY_OR_EQUIVALENCE|It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.|Risk Ratio (RR)|0.46|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.21|0.98||Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test.|Chi-squared|||||0.98|0.21|<0.05
82391172|NCT02612610|164493458|OTHER||LS Mean Difference|-0.2||||0.5358|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5358
82574778|NCT02358668|164859010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.13|TWO_SIDED|95.0|-0.32|0.04||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.04|-0.32|0.13
82360962|NCT01992094|164432546|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV2c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT|0.9|||||TWO_SIDED|95.0|0.9|1.0|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c, assessed in terms of ratios of GMT against influenza strain B2||1.0|0.9|
82360963|NCT01992094|164432547|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-0.5|||||TWO_SIDED|95.0|-5.3|4.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain H1N1||4.2|-5.3|
82360964|NCT01992094|164432547|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-2.7|||||TWO_SIDED|95.0|-7.2|1.9|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strainH3N2||1.9|-7.2|
82360965|NCT01992094|164432547|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-1.8|||||TWO_SIDED|95.0|-6.2|2.8|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain B1||2.8|-6.2|
82360966|NCT01992094|164432547|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV2c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference between seroconversion rates|-4.4|||||TWO_SIDED|95.0|-8.9|0.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c in terms of differences in seroconversion rates against influenza strain B2||0.2|-8.9|
82360967|NCT01992094|164432553|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV1c or TIV2c /GMT QIVc) for HI antibody should not exceed the superiority margin of 1.|Ratios of GMT|0.6|||||TWO_SIDED|95.0|0.6|0.7||||||Superiority of immune responses of QIVc to TIV1c in terms of ratios of GMT against influenza strain B2||0.7|0.6|
82391173|NCT02612610|164493458|OTHER||LS Mean Difference|-0.3||||0.3129|TWO_SIDED|95.0|-0.8|0.3|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 20 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.8|0.3129
82391174|NCT02612610|164493458|OTHER||LS Mean Difference|-0.5||||0.1046|TWO_SIDED|95.0|-1.0|0.1|||Mixed Effect Repeated Measures model|||"Week 4 CSD Total Score: 50 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.0|0.1046
82391175|NCT02612610|164493459|OTHER||LS Mean Difference|-0.2||||0.5796|TWO_SIDED|95.0|-0.7|0.4|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.7|0.5796
82444115|NCT01018095|164596730|NON_INFERIORITY_OR_EQUIVALENCE|Continuous variables were assessed for normality, and tested accordingly. When appropriate, continuous variables were categorized using clinically relevant cut-points. Categorical variables were compared using the Chi-square test. The measure of association at 3 months was calculated as a relative risk with 95% confidence interval.|Risk Ratio (RR)|0.46|STANDARD_ERROR_OF_MEAN|0.196|=|0.03|TWO_SIDED|95.0|0.21|0.98|||Relative risk|The measure of association at TOC and 3 months was calculated as a relative risk with 95% confidence interval.||It was initially estimated that a total of 380 participants (190 per arm) would be required, with 90% power and a significance level of 5%, to establish equivalency between the two treatment arms.31 Enrollment rates were lower than estimated and only 270 participants (135 per arm) were enrolled.||0.98|.21|=0.03
82641913|NCT00650806|164998714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.059|TWO_SIDED|95.0|0.9|11.1||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||11.1|0.9|0.059
82641914|NCT00650806|164998714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.1||||0.027|TWO_SIDED|95.0|1.0|10.0||P-value controlled for run-in weight loss stratum and pooled center.|Cochran-Mantel-Haenszel||Odds ratio and Confidence Interval controlled for run-in weight loss stratum and pooled center.|||10.0|1.0|0.027
82641915|NCT00650806|164998715|SUPERIORITY_OR_OTHER|||||||0.117|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.117
82641916|NCT00650806|164998715|SUPERIORITY_OR_OTHER|||||||0.225|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.225
82641917|NCT00650806|164998715|SUPERIORITY_OR_OTHER|||||||0.317|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlled for run-in weight loss stratum and pooled center.||||||0.317
82641918|NCT00650806|164998716|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.23||0.835|TWO_SIDED|95.0|-2.68|2.17|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||2.17|-2.68|0.835
82641919|NCT00650806|164998716|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|1.29||0.466|TWO_SIDED|95.0|-3.47|1.59|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.59|-3.47|0.466
82641920|NCT00650806|164998716|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|1.25||0.273|TWO_SIDED|95.0|-3.87|1.09|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.09|-3.87|0.273
82641921|NCT00650806|164998717|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|1.13||0.149|TWO_SIDED|95.0|-3.85|0.59|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.59|-3.85|0.149
82641922|NCT00650806|164998717|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|1.18||0.541|TWO_SIDED|95.0|-3.05|1.6|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||1.6|-3.05|0.541
82641923|NCT00650806|164998717|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.78|STANDARD_ERROR_OF_MEAN|1.15||0.121|TWO_SIDED|95.0|-4.03|0.47|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.47|-4.03|0.121
82391176|NCT02612610|164493459|OTHER||LS Mean Difference|-0.4||||0.143|TWO_SIDED|95.0|-1.0|0.1|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 20 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.0|0.1430
82641924|NCT00650806|164998718|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0091||0.239|TWO_SIDED|95.0|-0.0071|0.0286|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0286|-0.0071|0.239
82641925|NCT00650806|164998718|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.0095||0.9|TWO_SIDED|95.0|-0.0174|0.0198|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0198|-0.0174|0.900
82641926|NCT00650806|164998718|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.0092||0.822|TWO_SIDED|95.0|-0.016|0.0202|||ANCOVA|Cofactors were treatment, run-in weight loss stratum, and pooled center. The corresponding baseline measurement was a covariate.||||0.0202|-0.0160|0.822
82641927|NCT04456998|164998724|SUPERIORITY||Mean Difference (Net)|-96.1||||0.031|TWO_SIDED|95.0|-183.5|-8.8|||ANCOVA||GB002 vs. Placebo|||-8.8|-183.5|0.0310
82641928|NCT04456998|164998725|SUPERIORITY||Mean Difference (Net)|6.5||||0.5972|TWO_SIDED|95.0|-17.9|30.9|||Mixed Models Analysis||GB002 vs. Placebo|||30.9|-17.9|0.5972
82641929|NCT00965562|164998758|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Chi-squared|||||||0.15
82641930|NCT00965562|164998759|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
82641931|NCT00965562|164998760|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82391177|NCT02612610|164493459|OTHER||LS Mean Difference|-0.7||||0.0221|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Effect Repeated Measures model|||"Week 5 CSD Total Score: 50 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.2|0.0221
82527423|NCT03502616|164751398|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.429||0.4822|TWO_SIDED|95.0|-0.54|1.15|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.15|-0.54|0.4822
82527424|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.131||0.0047|TWO_SIDED|95.0|0.12|0.63|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.63|0.12|0.0047
82527425|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.131||0.0001|TWO_SIDED|95.0|0.26|0.77|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.77|0.26|0.0001
82527426|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|0.148||0.0012|TWO_SIDED|95.0|0.19|0.78|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.78|0.19|0.0012
82527427|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.48|STANDARD_ERROR_OF_MEAN|0.142||0.0008|TWO_SIDED|95.0|0.2|0.76|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.76|0.20|0.0008
82527428|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.147||0.0004|TWO_SIDED|95.0|0.24|0.81|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.81|0.24|0.0004
82527429|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.188||0.0918|TWO_SIDED|95.0|-0.05|0.69|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.69|-0.05|0.0918
82574779|NCT02358668|164859011|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.01|TWO_SIDED|95.0|-1.01|-0.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.18|-1.01|0.01
82574780|NCT02358668|164859011|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.42|TWO_SIDED|95.0|-0.57|0.24||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.24|-0.57|0.42
82574781|NCT02358668|164859012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74||||0.02|TWO_SIDED|95.0|-1.35|-0.14||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.14|-1.35|0.02
82527430|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.179||0.16|TWO_SIDED|95.0|-0.1|0.61|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.61|-0.10|0.1600
82444116|NCT02117349|164596734|OTHER||Odds Ratio (OR)|42.8|||=|0.001|TWO_SIDED|95.0|4.58|401.0||Study was terminated early at 55 randomized subjects, therefore p-value is considered nominal|Regression, Logistic|||Odds Ratio (OR) and Wald-based 95% Confidence intervals (CIs) are from logistic regression model comparing the response between treatment arms.||401.0|4.58|= 0.0010
82444117|NCT02739321|164596746|NON_INFERIORITY|Hypothesized benchmark of 30%|Risk Difference (RD)|25.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82444118|NCT02739321|164596747|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||.001
82527431|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.195||0.6776|TWO_SIDED|95.0|-0.3|0.47|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.47|-0.30|0.6776
82574782|NCT02358668|164859012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.57|TWO_SIDED|95.0|-0.75|0.42||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.42|-0.75|0.57
82641932|NCT00965562|164998761|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Chi-squared|||||||0.09
82444119|NCT02739321|164596748|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
82444120|NCT02739321|164596749|SUPERIORITY||Median Difference (Final Values)|4.09||||0.268|TWO_SIDED||||||Mixed Models Analysis|||||||.268
82444121|NCT02739321|164596750|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.058|TWO_SIDED||||||Mixed Models Analysis|||||||.058
82444122|NCT02739321|164596751|SUPERIORITY||Mean Difference (Final Values)|2.82||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
82444123|NCT02739321|164596752|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|||||||.232
82444124|NCT02739321|164596753|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.100
82360968|NCT01992094|164432554|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - % seroconversion QIVc) for HI antibody should not exceed the margin of 0 points.|Difference between seroconversion rates|-19.4|||||TWO_SIDED|95.0|-23.2|-15.5||||||Superiority of immune responses of QIVc to TIV1c in terms of seroconversion rates against influenza strain B2||-15.5|-23.2|
82391178|NCT02612610|164493460|OTHER||LS Mean Difference|-0.4||||0.1562|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1562
82641933|NCT00965562|164998762|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Chi-squared|||||||0.005
82641934|NCT00965562|164998763|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||0.04
82641935|NCT00965562|164998764|SUPERIORITY_OR_OTHER||Slope|-2.63||||0.07|TWO_SIDED|95.0|-5.51|0.24|||Mixed Models Analysis||Slope represents average change in fluoxetine group IDS score as compared to placebo|||0.24|-5.51|0.07
82641936|NCT00965562|164998764|SUPERIORITY_OR_OTHER||Slope|-0.1||||0.94|TWO_SIDED|95.0|-2.85|2.65|||Mixed Models Analysis||Slope represents average change in calcium group IDS scores as compared to placebo|||2.65|-2.85|0.94
82641937|NCT00965562|164998764|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.15||||0.07|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.07
82641938|NCT00965562|164998764|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.1||||0.94|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.94
82641939|NCT00965562|164998765|SUPERIORITY_OR_OTHER||Slope|-1.63||||0.1|TWO_SIDED|95.0|-3.6|0.34|||Mixed Models Analysis||Slope represents average change in fluoxetine group PMTS scores as compared to placebo|||0.34|-3.60|0.10
82641940|NCT00965562|164998765|SUPERIORITY_OR_OTHER||Slope|-0.81||||0.4|TWO_SIDED|95.0|-2.71|1.09|||Mixed Models Analysis||Slope represents average change in calcium group PMTS scores as compared to placebo|||1.09|-2.71|0.40
82360969|NCT01992094|164432555|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV1c or TIV2c /GMT QIVc) for HI antibody should not exceed the superiority margin of 1.|Ratios of GMT|0.5|||||TWO_SIDED|95.0|0.5|0.5||||||Superiority of immune responses of QIVc to TIV2c in terms of ratios of GMT against influenza strain B1||0.5|0.5|
82360970|NCT01992094|164432556|NON_INFERIORITY_OR_EQUIVALENCE|The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points.|Difference between seroconversion rates|-21.7|||||TWO_SIDED|95.0|-25.5|-17.7||||||Superiority of immune responses of QIVc to TIV2c in terms of seroconversion rates against influenza strain B1||-17.7|-25.5|
82641941|NCT00965562|164998765|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.06||||0.1|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.10
82641942|NCT00965562|164998765|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.37||||0.4|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.40
82641943|NCT00965562|164998766|SUPERIORITY_OR_OTHER||Slope|-0.35||||0.07|TWO_SIDED|95.0|-0.73|0.03|||Mixed Models Analysis||Slope represents average change in fluoxetine group CGI-S scores as compared to placebo|||0.03|-0.73|0.07
82641944|NCT00965562|164998766|SUPERIORITY_OR_OTHER||Slope|-0.17||||0.36|TWO_SIDED|95.0|-0.54|0.2|||Mixed Models Analysis||Slope represents average change in calcium group CGI-S scores as compared to placebo|||0.20|-0.54|0.36
82360971|NCT00243152|164432561|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Visual analog scale (VAS) ratings in the scanner. Measures of pain ratings to evoked stimuli during scanning for heat applied to the affected side.||||<0.05
82444125|NCT02739321|164596754|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||||||0.285
82641945|NCT00965562|164998766|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.92||||0.07|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.07
82641946|NCT00965562|164998766|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.44||||0.36|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.36
82641947|NCT00965562|164998767|SUPERIORITY_OR_OTHER||Slope|-0.28||||0.02|TWO_SIDED|95.0|-0.53|-0.04|||Mixed Models Analysis||Slope represents average change in fluoxetine group DRSP scores as compared to placebo|||-0.04|-0.53|0.02
82641948|NCT00965562|164998767|SUPERIORITY_OR_OTHER||Slope|0.06||||0.58|TWO_SIDED|95.0|-0.16|0.28|||Mixed Models Analysis||Slope represents average change in calcium group DRSP scores as compared to placebo|||0.28|-0.16|0.58
82641949|NCT00965562|164998767|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.08||||0.02|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.02
82641950|NCT00965562|164998767|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.18||||0.58|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 1 and 5 and changes in the placebo group between Visits 1 and 5, divided by the std dev in the placebo group at Visit 5|||||0.58
82641951|NCT00965562|164998768|SUPERIORITY_OR_OTHER||Slope|-1.03||||0.04|TWO_SIDED|95.0|-1.7|-0.35|||Mixed Models Analysis||Slope represents average change in fluoxetine group CGI Improvement scores as compared to placebo|||-0.35|-1.70|0.04
82360972|NCT00243152|164432561|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for heat applied to the unaffected side.||||>0.05
82360973|NCT00243152|164432561|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for cold applied to the affected side.||||>0.05
82360974|NCT00243152|164432561|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for cold applied to the unaffected side.||||>0.05
82360975|NCT00243152|164432561|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for brush applied to the affected side.||||>0.05
82360976|NCT00243152|164432561|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||VAS rating in the scanner. Measures of pain rating to evoke stimuli during scanning for brush applied to the unaffected side.||||>0.05
82360977|NCT01049581|164432562|NON_INFERIORITY_OR_EQUIVALENCE|ANCOVA was used and the result reveled (F1, 17 = 7.565, η2= 0.308, p = 0.007)||||||0.007|ONE_SIDED|95.0|||||ANCOVA|||null hypothesis : there is no difference in gross motor performance in pediatric aquatic therapy group and conventional therapy group||||0.007
82360978|NCT01049581|164432563|NON_INFERIORITY_OR_EQUIVALENCE|ANCOVA : p value 0.393|Mean Difference (Net)|1.762||||0.393|ONE_SIDED|95.0||||"Effect Size η2~0.023"|ANCOVA|F1,17= 0.380||We hypothesize that Children with CP receiving PAT would have better outcomes in motor function and translate to ADL||||0.393
82360979|NCT01049581|164432564|SUPERIORITY_OR_OTHER|||||||0.332|ONE_SIDED|95.0|||||ANCOVA|||null hypothesis : there is no difference in social participation between pediatric aquatic therapy group and conventional therapy group||||0.332
82360980|NCT00810602|164432565|SUPERIORITY_OR_OTHER||Percent Cumulative Incidence of GVHD|22.0|||||TWO_SIDED|95.0|13.0|36.0||||||Hypothesis: The addition of vorinostat will reduce the incidence of grade 2-4 acute graft versus host disease (GVHD) to 25% or lower by day 100.||36|13|
82360981|NCT00810602|164432567|SUPERIORITY_OR_OTHER||Percent Cumulative Incidence of GVHD|16.0|||||TWO_SIDED|95.0|8.0|30.0||||||||30|8|
82360982|NCT01745952|164432572|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9819|TWO_SIDED||||||negative binomial model + overdispersion|||||||0.9819
82391179|NCT02612610|164493460|OTHER||LS Mean Difference|-0.5||||0.071|TWO_SIDED|95.0|-1.1|0.0|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 20 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.1|0.0710
82360983|NCT02625298|164432586|OTHER||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82391180|NCT02612610|164493460|OTHER||LS Mean Difference|-0.7||||0.0274|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Effect Repeated Measures model|||"Week 6 CSD Total Score: 50 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.2|0.0274
82444126|NCT02739321|164596755|SUPERIORITY|||||||0.089|||||||Mixed Models Analysis|||||||0.089
82360984|NCT02304406|164432589|OTHER||Odds Ratio (OR)|1.85||||0.1304|TWO_SIDED|95.0|0.8|4.77|||Cochran-Mantel-Haenszel|||||4.77|0.80|0.1304
82360985|NCT02304406|164432590|OTHER|||||||0.6422|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6422
82360986|NCT02304406|164432591|OTHER|||||||0.4524|||||||Cochran-Mantel-Haenszel|||||||0.4524
82360987|NCT02304406|164432592|OTHER|||||||0.901|||||||Cochran-Mantel-Haenszel|||||||0.9010
82360988|NCT02304406|164432593|OTHER|||||||0.9067|||||||Cochran-Mantel-Haenszel|||||||0.9067
82360989|NCT02304406|164432594|OTHER|||||||0.8785|||||||Cochran-Mantel-Haenszel|||||||0.8785
82360990|NCT02304406|164432595|OTHER|||||||0.9231|||||||Cochran-Mantel-Haenszel|||||||0.9231
82360991|NCT02304406|164432596|OTHER|||||||0.978|||||||Cochran-Mantel-Haenszel|||||||0.9780
82360992|NCT02304406|164432597|OTHER|||||||0.1144|||||||Cochran-Mantel-Haenszel|||||||0.1144
82360993|NCT02304406|164432598|OTHER|||||||0.0862|||||||Cochran-Mantel-Haenszel|||||||0.0862
82360994|NCT02304406|164432599|OTHER|||||||0.0294|||||||Cochran-Mantel-Haenszel|||||||0.0294
82360995|NCT02304406|164432600|OTHER|||||||0.6877|||||||Cochran-Mantel-Haenszel|||||||0.6877
82360996|NCT00401245|164432632|SUPERIORITY_OR_OTHER|||||||0.024||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Chi-squared|||Overall comparison was made between each titration regimen and the control regimen (100 mg).||||0.024
82360997|NCT00401245|164432633|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, analysis of variance (ANOVA) was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||< 0.001
82360998|NCT00401245|164432633|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||<0.001
82360999|NCT00401245|164432633|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||<0.001
82361000|NCT00401245|164432634|SUPERIORITY_OR_OTHER|||||||0.092||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.092
82444127|NCT02739321|164596756|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.040
82444128|NCT02739321|164596757|SUPERIORITY|||||||0.471|||||||Mixed Models Analysis|||||||0.471
82444129|NCT02739321|164596758|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||||||0.015
82444130|NCT02739321|164596759|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82641952|NCT00965562|164998768|SUPERIORITY_OR_OTHER||Slope|-0.2||||0.54|TWO_SIDED|95.0|-0.86|0.46|||Mixed Models Analysis||Slope represents average change in calcium group CGI Improvement scores as compared to placebo|||0.46|-0.86|0.54
82361001|NCT00401245|164432634|SUPERIORITY_OR_OTHER|||||||0.997||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.997
82361002|NCT00401245|164432634|SUPERIORITY_OR_OTHER|||||||0.009||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor||||0.009
82361003|NCT00401245|164432635|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50 mg QOD, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.078
82361004|NCT00401245|164432635|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50/25 mg, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.005
82361005|NCT00401245|164432635|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANOVA|||For DVS 50mg/Placebo, ANOVA was used to compare the DESS score between each tapering regimen and the control regimen (no tapering) for the titration population, where treatment was kept as the factor.||||0.929
82361006|NCT00401245|164432637|SUPERIORITY_OR_OTHER|||||||0.017||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Chi-squared|||Overall comparison was made between each titration regimen and the control regimen (100 mg).||||0.017
82361007|NCT00401245|164432644|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 4) value with 0.||||<0.001
82361008|NCT00401245|164432644|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 8) value with 0.||||< 0.001
82361009|NCT00401245|164432644|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the base value and post-baseline (Week 12) value with 0.||||<0.001
82361010|NCT00401245|164432644|SUPERIORITY_OR_OTHER||||||<|0.001||||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|t-test, 2 sided|||Comparison was made between the difference in the means from the baseline value and post-baseline (Week 16) value with 0.||||<0.001
82391181|NCT02612610|164493461|OTHER||LS Mean Difference|-0.2||||0.4464|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4464
82361011|NCT01560819|164432650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Wilcoxon signed rank test|||A power calculation was not done for this pilot study. Changes in PUCAI post-treatment were compared with baseline using the Wilcoxon signed rank test. P value \<0.05 was considered statistically significant.||||0.03
82361012|NCT01118026|164432722|SUPERIORITY|||||||0.9669|||||||Log Rank|||||||0.9669
82361013|NCT02156154|164432733|SUPERIORITY||Median Difference (Final Values)|-0.04||||0.29|TWO_SIDED|95.0|-0.18|0.11||significance criterion of P \< .044.|Wilcoxon (Mann-Whitney)||Difference = IV Acetaminophen - Placebo group|A total of 28 patients (5%) were missing monitoring data (14 patients in each group). Values for these patients were obtained using multivariable imputation with 5 imputation data sets. The imputation regression model included all of the baseline, intraoperative, surgical, and postanesthesia care unit variables and all of the secondary outcomes||0.11|-0.18|0.29
82444131|NCT02739321|164596760|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely poor, 7 = exceptional) that was used to rate tolerance.|||||||||||||||||The mean rating of parent reported tolerance of mattress technology was 5.61 (SE = 0.25).|||
82444132|NCT02739321|164596761|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely poor, 7 = exceptional) that was used to rate tolerance.|||||||||||||||||The mean rating of parent reported tolerance of actigraph watch was 5.51 (SE = 0.13).|||
82361014|NCT02156154|164432734|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.07|TWO_SIDED|99.4|-0.71|0.15||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|||0.15|-0.71|0.07
82361015|NCT02156154|164432735|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.46|TWO_SIDED|99.4|-0.51|0.29||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|||0.29|-0.51|0.46
82361016|NCT02156154|164432736|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.56|TWO_SIDED|99.4|-0.49|0.76||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as differences in means between the study groups, assessed using a 2-sample t test.|||0.76|-0.49|0.56
82444133|NCT02739321|164596762|NON_INFERIORITY|Non-inferiority compared to the median rating of four on the seven point scale (1 = extremely difficult, 7 = extremely easy) that was used to rate ease of use.|||||||||||||||||The mean rating of parent reported ease of us of the mattress technology was 6.04 (SE = 0.15).|||
82444134|NCT02739321|164596763|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
82361017|NCT02156154|164432737|SUPERIORITY||Mean Difference (Net)|-0.08||||0.3|TWO_SIDED|99.4|-0.29|0.13||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as differences in means between the study groups, assessed using a 2-sample t test.|||0.13|-0.29|0.30
82361018|NCT02156154|164432738|SUPERIORITY||Ratios of geometric means|0.94||||0.65|TWO_SIDED|99.4|0.63|1.39||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|t-test, 2 sided||Treatment effect data are reported as ratios of geometric means, assessed using a 2-sample t test after logarithmic transformation of outcomes.|||1.39|0.63|0.65
82361019|NCT02156154|164432739|SUPERIORITY||Ratios of geometric means|0.86||||0.22|TWO_SIDED|99.4|0.61|1.21|||t-test, 2 sided||Treatment effect data are reported as ratios of geometric means, assessed using a 2-sample t test after logarithmic transformation of outcomes.|||1.21|0.61|0.22
82361020|NCT02156154|164432740|SUPERIORITY||Risk Ratio (RR)|1.13||||0.18|TWO_SIDED|99.4|0.88|1.45||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Chi-squared||Risk ratio = Treatment/Placebo|||1.45|0.88|0.18
82527432|NCT03502616|164751399|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5646|TWO_SIDED|95.0|-0.25|0.46|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.46|-0.25|0.5646
82361021|NCT02156154|164432741|SUPERIORITY||Risk Ratio (RR)|0.9||||0.53|TWO_SIDED|99.4|0.57|1.43||Confidence intervals were adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Chi-squared||RR = Treatment/Placebo|||1.43|0.57|0.53
82361022|NCT02156154|164432742|SUPERIORITY||Median Difference (Final Values)|0.0||||0.99|TWO_SIDED|99.4|-0.39|0.36||Adjusted for 8 comparisons using Bonferroni correction (.05/8 = .006), for a significance criterion of P \< .006.|Wilcoxon (Mann-Whitney)||Treatment effect is reported as median difference, estimated using the Hodges-Lehmann estimator of location shift.|||0.36|-0.39|0.99
82361023|NCT02051595|164432743|SUPERIORITY_OR_OTHER||estimate (beta) from mixed model|-0.068|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|-0.098|-0.039||A priori threshold was set to p \< 0.05.|Mixed Models Analysis|Analyses modeled change in vancomycin concentrations (independent variable defined by time). Analyses were adjusted for covariates.|Negative beta value indicates that vancomycin concentration decreased following cardiopulmonary bypass (CPB).|||-0.039|-0.098|<0.0001
82361024|NCT01729026|164432761|SUPERIORITY_OR_OTHER_LEGACY||Effect size (Cohen's d)|-0.75||||0.141|TWO_SIDED|95.0|-1.85|0.35||Between baseline and 3-month follow-up, subjects in the Adoption group had a mean improvement of 15.20 points on the PCL-5 compared to 7.77 points in the Wait-list group.|Mixed effects regression models|||The analyses were mixed effect regression models with repeated measures at randomization (baseline) and at the 3-month post-randomization follow-up using a 2 x 2 design. Treatment (Adoption group vs Wait-list group), time (baseline and 3-month follow-up) and their interaction were the fixed design effects. The treatment by time interaction tests the significance of the difference between baseline and 3-month follow-up between the Adoption and Wait-list groups.||0.35|-1.85|0.141
82361025|NCT01729026|164432762|SUPERIORITY||effect size (Cohen's d)|0.0||||0.982|TWO_SIDED||||||effect size (Cohen's d)|||||||0.982
82361026|NCT01729026|164432763|SUPERIORITY||effect size (Cohen's d)|-0.5||||0.16|TWO_SIDED||||||effect size (Cohen's d)|||||||0.160
82361027|NCT01729026|164432764|SUPERIORITY||effect size (Cohen's d)|-1.36||||0.015|TWO_SIDED|95.0|-2.49|-0.23|||effect size (Cohen's d)|||||-0.23|-2.49|0.015
82361028|NCT01729026|164432765|SUPERIORITY||effect size (Cohen's d)|0.2||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
82444135|NCT01742065|164596764|SUPERIORITY|To assess effectiveness, we fit generalized estimating equations (GEE) with a logistic link to model patient-level data. We weighted patient data so that each clinic's data had an equal weight. Models were adjusted for age, sex, and health center. They used robust variance estimators and independent correlation structures. We specified clinic as a clustering variable to account for intraclinic correlation; the intraclinic correlation coefficient was 0.05 after model covariates adjustment.|Mean Difference (Final Values)|3.4||||0.05|TWO_SIDED|95.0|0.1|6.8||We report effectiveness as the absolute difference between intervention and usual care clinics in adjusted probabilities calculated using mean values for all covariates;|Generalized Estimating Equations (GEE)|Reported P values based on the corresponding adjusted odds ratio and account for reduced degrees of freedom owing to clustering.||||6.8|.1|.05
82361029|NCT01729026|164432766|SUPERIORITY||mixed effects regression models|-1.41||||0.01|TWO_SIDED|95.0|-2.5|-0.31|||effect size (Cohen's d)|||||-0.31|-2.50|0.010
82361030|NCT01729026|164432767|SUPERIORITY|||||||0.13|||||||Fisher Exact|||||||0.13
82361031|NCT01729026|164432768|SUPERIORITY||effect size (Cohen's d)|0.9||||0.188|TWO_SIDED||||||effect size (Cohen's d)|||||||0.188
82361032|NCT01729026|164432770|SUPERIORITY||effect size (Cohen's d)|1.2||||0.031|TWO_SIDED||||||mixed effects regression models|||||||0.031
82361033|NCT01729026|164432771|SUPERIORITY||effect size (Cohen's d)|0.3||||0.541|TWO_SIDED|95.0|-0.8|1.4|||effect size (Cohen's d)|||||1.40|-0.80|0.541
82361034|NCT01729026|164432772|SUPERIORITY||effect size (Cohen's d)|0.6||||0.139|TWO_SIDED||||||effect size (Cohen's d)|||Please note that a minus number indicates an increase in pain ratings.||||0.139
82361035|NCT00412737|164432815|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.283||||0.772|TWO_SIDED|95.0|-2.3|4.1|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|The null hypothesis tested was that there was no difference between the proportions of participants who met the primary endpoint in the two treatment groups.||4.1|-2.3|0.772
82361036|NCT00412737|164432816|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.37||||0.534|TWO_SIDED|95.0|-2.1|4.5|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|||4.5|-2.1|0.534
82361037|NCT00412737|164432817|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.431||||0.381|TWO_SIDED|95.0|-1.7|4.6|||Fisher Exact||Relative Risk Reduction = (1.0 - Relative Risk).|||4.6|-1.7|0.381
82361038|NCT00412737|164432818|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.713|||||TWO_SIDED|95.0|-0.6|5.2|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.2|-0.6|
82641953|NCT00965562|164998768|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.8||||0.04|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the fluoxetine group between visits 2 and 5 and changes in the placebo group between Visits 2 and 5, divided by the std dev in the placebo group at Visit 5|||||0.04
82527433|NCT03502616|164751400|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.161||0.7291|TWO_SIDED|95.0|-0.26|0.37|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.37|-0.26|0.7291
82527434|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.184||0.0257|TWO_SIDED|95.0|-0.78|-0.05|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.05|-0.78|0.0257
82527435|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.227||0.0002|TWO_SIDED|95.0|-1.31|-0.42|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.42|-1.31|0.0002
82527436|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.216||0.0041|TWO_SIDED|95.0|-1.05|-0.2|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-1.05|0.0041
82527437|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.215||0.0062|TWO_SIDED|95.0|-1.02|-0.17|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.17|-1.02|0.0062
82527438|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.255||0.014|TWO_SIDED|95.0|-1.13|-0.13|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.13|-1.13|0.0140
82574783|NCT02358668|164859013|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|||<|0.01|TWO_SIDED|95.0|-0.52|-0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.12|-0.52|<0.01
82574784|NCT02358668|164859013|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.14|TWO_SIDED|95.0|-0.34|0.05||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.05|-0.34|0.14
82641954|NCT00965562|164998768|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.32||||0.54|TWO_SIDED||||||Mixed Models Analysis||Cohen's d effect sizes were calculated by subtracting the difference between changes in the calcium group between visits 2 and 5 and changes in the placebo group between Visits 2 and 5, divided by the std dev in the placebo group at Visit 5|||||0.54
82361039|NCT00412737|164432819|SUPERIORITY_OR_OTHER||Slope|0.858|||||TWO_SIDED|95.0|0.1|5.7|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.7|0.1|
82361040|NCT00412737|164432820|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.372|||||TWO_SIDED|95.0|-1.9|4.6|||||Relative Risk Reduction = (1.0 - Relative Risk).|||4.6|-1.9|
82361041|NCT00412737|164432821|SUPERIORITY_OR_OTHER||Relative Risk Reduction|0.502|||||TWO_SIDED|95.0|-1.4|5.1|||||Relative Risk Reduction = (1.0 - Relative Risk).|||5.1|-1.4|
82527439|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.225||0.0035|TWO_SIDED|95.0|-1.11|-0.22|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.22|-1.11|0.0035
82527440|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.253||0.0645|TWO_SIDED|95.0|-0.97|0.03|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-0.97|0.0645
82641955|NCT05153629|164998879|OTHER|||||||0.93||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of back pain.||||0.93
82641956|NCT05153629|164998879|OTHER|||||||0.76||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of abdominal/groin pain.||||0.76
82391182|NCT02612610|164493461|OTHER||LS Mean Difference|-0.3||||0.332|TWO_SIDED|95.0|-0.9|0.3|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 20 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.9|0.3320
82574785|NCT02358668|164859014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|||<|0.01|TWO_SIDED|95.0|-0.52|-0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.10|-0.52|<0.01
82641957|NCT05153629|164998879|OTHER|||||||0.56||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of pain frequency.||||0.56
82641958|NCT05153629|164998879|OTHER|||||||0.26||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of nausea intensity.||||0.26
82641959|NCT05153629|164998880|OTHER|||||||0.55||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in back pain.||||0.55
82641960|NCT05153629|164998880|OTHER|||||||0.28||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in abdominal/groin pain.||||0.28
82641961|NCT05153629|164998880|OTHER|||||||0.39||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in pain frequency.||||0.39
82641962|NCT05153629|164998880|OTHER|||||||0.26||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of difference in nausea intensity.||||0.26
82641963|NCT05153629|164998881|OTHER|||||||0.5||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||||||0.50
82641964|NCT05153629|164998882|OTHER|||||||0.5||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||||||0.50
82641965|NCT05153629|164998883|OTHER|||||||0.8||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of overall USDT score.||||0.80
82641966|NCT05153629|164998883|OTHER|||||||0.72||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of urinary symptoms.||||0.72
82641967|NCT05153629|164998883|OTHER|||||||0.45||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of pain.||||0.45
82641968|NCT05153629|164998883|OTHER|||||||0.42||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of daily life.||||0.42
82391183|NCT02612610|164493461|OTHER||LS Mean Difference|-0.5||||0.0792|TWO_SIDED|95.0|-1.1|0.1|||Mixed Effect Repeated Measures model|||"Week 7 CSD Total Score: 50 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.1|0.0792
82641969|NCT05153629|164998883|OTHER|||||||0.36||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of sexual life.||||0.36
82641970|NCT05153629|164998883|OTHER|||||||0.49||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of medical care/analgesic use.||||0.49
82641971|NCT05153629|164998883|OTHER|||||||0.88||||||A p-value less than the a priori threshold of 0.05 is considered statistically significant.|t-test, 2 sided|||Analysis of overall quality of life.||||0.88
82641972|NCT04089566|164998889|SUPERIORITY|The Analysis of Covariance (ANCOVA) model used rank score as response, treatment as fixed effect and disease duration at screening, baseline Hammersmith Infant Neurological Examination (HINE) Section 2 (HINE 2), baseline CHOP INTEND total score as covariates.|Least square (LS) mean difference|26.06|STANDARD_ERROR_OF_MEAN|4.141|<|0.0001|TWO_SIDED|95.0|17.941|34.172|||ANCOVA|||||34.172|17.941|< 0.0001
82641973|NCT04089566|164998912|SUPERIORITY||Difference of percentages|58.0|||<|0.0001|TWO_SIDED|95.0|39.46|71.81|||Fisher Exact||Exact unconditional confidence interval|||71.81|39.46|<0.0001
82641974|NCT04089566|164998913|SUPERIORITY||LS mean difference|26.67|STANDARD_ERROR_OF_MEAN|4.009|<|0.0001|TWO_SIDED|95.0|18.812|34.526||ANCOVA model was used treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||34.526|18.812|<0.0001
82641975|NCT04089566|164998914|SUPERIORITY||LS geometric mean ratio|0.08|||<|0.0001||||||ANCOVA model was used with treatment as a fixed effect and adjusted for each participant disease duration at screening, baseline log plasma NF-L and baseline CHOP INTEND total score.|ANCOVA|||||||<0.0001
82641976|NCT04089566|164998915|SUPERIORITY||LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|5.251|=|0.8484|TWO_SIDED|95.0|-9.29|11.299||ANCOVA model used rank score as response, treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||11.299|-9.29|=0.8484
82641977|NCT04089566|164998916|SUPERIORITY||LS mean difference|6.12|STANDARD_ERROR_OF_MEAN|4.497|=|0.1734|TWO_SIDED|95.0|-2.693|14.939||ANCOVA model used rank score as response, treatment as fixed effect and disease duration at screening, baseline HINE 2, baseline CHOP INTEND total score as covariates.|ANCOVA|||||14.939|-2.693|=0.1734
82641978|NCT04089566|164998917|SUPERIORITY||LS geometric mean ratio|0.51|||=|0.002|TWO_SIDED|95.0|0.33|0.78||ANCOVA model was used with treatment as a fixed effect and adjustment for each participant disease duration at screening, baseline log plasma NF-L and baseline CHOP INTEND total score.|ANCOVA|||||0.78|0.33|=0.002
82641979|NCT04089566|164998960|SUPERIORITY||LS geometric mean ratio|0.86|||=|0.3785|TWO_SIDED|95.0|0.62|1.2||ANCOVA model was used with treatment as a fixed effect and adjusted for each participant disease duration at screening, baseline log CSF NF-L and baseline CHOP INTEND total score.|ANCOVA|||||1.2|0.62|=0.3785
82641980|NCT03378921|164998972|SUPERIORITY|||||||0.183||||||The threshold for statistical significance was P = 0.05|Log Rank|||The sample size (n = 26) was calculated according to the estimation that the remission rate in the FMT group would be 80% and 25% in the placebo group during the follow-up of 1 year. This difference of 55% was considered to be clinically meaningful. The significance level was selected to be 1%, and the power was set to 90%.||||0.183
82641981|NCT00972309|164998987|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82641982|NCT05554471|164999019|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Hypothesis: the time to ambulation for the subjects using the MYNX CONTROL™ Venous VCD was significantly less than for those where manual compression was used.||||<0.001
82641983|NCT05554471|164999020|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Hypothesis: the time to hemostasis for the MYNX CONTROL™ Venous VCD device is at least 5 minutes less than manual compression.||||<0.001
82641984|NCT05554471|164999022|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Hypothesis: The time to discharge eligibility for the subjects using the MYNX CONTROL™ Venous VCD was significantly less than for those where manual compression was used||||<0.001
82641985|NCT04880850|164999025|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin glargine) was strictly below 0.3%.|Treatment difference|0.02|||<|0.0001|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||The response and change from baseline in response after 26 weeks were analysed using an analysis of covariance (ANCOVA) model with treatment, region and personal continuous glucose monitoring (CGM) device use as fixed factors, and baseline response as covariate.||0.15|-0.11|<0.0001
82361042|NCT00513617|164432843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1254|STANDARD_ERROR_OF_MEAN|0.0705||0.08||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo was subtracted from the Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.080
82361043|NCT00513617|164432843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.098|STANDARD_ERROR_OF_MEAN|0.0713||0.133||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo was subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.133
82361044|NCT00513617|164432845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1826|STANDARD_ERROR_OF_MEAN|0.0713||0.915||||||Alpha was set at 0.5|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.915
82361045|NCT00513617|164432845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3582|STANDARD_ERROR_OF_MEAN|4.1047||0.918||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.918
82361046|NCT00513617|164432846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7867|STANDARD_ERROR_OF_MEAN|1.1101||0.015||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from Low dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.015
82361047|NCT00513617|164432846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5213|STANDARD_ERROR_OF_MEAN|1.1553||0.557||||||Alpha was set at 0.05|Mixed Models Analysis|Null is tested using the F-test from a random effects longitudinal mixed model, with treatment and baseline measurement as fixed effects.|Placebo subtracted from High dose|Null hypothesis is no difference between high vs. placebo and low vs. placebo in change from baseline at Week 12 post-randomization. Separate models were fit for pediatric and adult populations, however the combined population is entered here.||||0.557
82361048|NCT00809965|164432911|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.72|0.97|||Log Rank||Based upon the Cox proportional hazards model|||0.97|0.72|0.020
82361049|NCT00809965|164432911|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.028|TWO_SIDED|95.0|0.73|0.98|||Log Rank||Based upon the Cox proportional hazards model|||0.98|0.73|0.028
82361050|NCT00809965|164432912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.016|TWO_SIDED|95.0|0.72|0.97|||Log Rank||Based on the Cox proportional hazards model|||0.97|0.72|0.016
82361051|NCT00809965|164432912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.025|TWO_SIDED|95.0|0.73|0.98|||Log Rank||Based on the Cox proportional hazards model|||0.98|0.73|0.025
82361052|NCT00809965|164432913|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07|||Log Rank||Based upon the Cox proportional hazards model|||1.07|0.81|0.320
82361053|NCT00809965|164432913|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.508|TWO_SIDED|95.0|0.83|1.1|||Log Rank||Based upon the Cox proportional hazards model|||1.10|0.83|0.508
82361054|NCT00809965|164432914|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.185|TWO_SIDED|95.0|0.8|1.04|||Log Rank||Based upon the Cox proportional hazards model|||1.04|0.80|0.185
82361055|NCT00809965|164432914|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.081|TWO_SIDED|95.0|0.78|1.01|||Log Rank||Based upon the Cox proportional hazards model|||1.01|0.78|0.081
82391184|NCT02612610|164493462|OTHER||LS Mean Difference|-0.2||||0.4716|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4716
82361056|NCT00809965|164432915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.011|TWO_SIDED|95.0|0.73|0.96|||Log Rank||Based upon the Cox proportional hazards model|||0.96|0.73|0.011
82361057|NCT00809965|164432915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.07|TWO_SIDED|95.0|0.78|1.01|||Log Rank||Based upon the Cox proportional hazards model|||1.01|0.78|0.070
82361058|NCT01628549|164432924|SUPERIORITY||Difference in Least Squares Means|1.53||||0.4344|TWO_SIDED|95.0|-2.32|5.38|||ANCOVA|||||5.38|-2.32|0.4344
82361059|NCT01628549|164432924|SUPERIORITY||Difference in Least Squares Means|4.46||||0.0266|TWO_SIDED|95.0|0.52|8.4|||ANCOVA|||||8.40|0.52|0.0266
82361060|NCT01628549|164432924|SUPERIORITY||Difference in Least Squares Means|4.37||||0.0317|TWO_SIDED|95.0|0.39|8.36|||ANCOVA|||||8.36|0.39|0.0317
82361061|NCT01628549|164432925|SUPERIORITY||Difference vs placebo in success rate|3.4||||0.33|TWO_SIDED|95.0|-7.82|14.38|||Cochran-Mantel-Haenszel|||||14.38|-7.82|0.3300
82361062|NCT01628549|164432925|SUPERIORITY||Difference vs placebo in success rate|13.2||||0.0159|TWO_SIDED|95.0|0.54|25.6|||Cochran-Mantel-Haenszel|||||25.60|0.54|0.0159
82361063|NCT01628549|164432925|SUPERIORITY||Difference vs placebo in success rate|4.1||||0.4834|TWO_SIDED|95.0|-7.44|15.87|||Cochran-Mantel-Haenszel|||||15.87|-7.44|0.4834
82361064|NCT02958319|164432932|SUPERIORITY||Median Difference (Final Values)|4.1||||0.82|TWO_SIDED|||||p \< 0.05 was considered statistically significant|GENERAL LINEAL MODEL|GENERAL LINEAL MODEL OF REPEATED MEASURES||||||0.82
82641986|NCT01875731|164999035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.09||||0.01|TWO_SIDED|95.0|1.57|16.8|||Chi-squared|||||16.8|1.57|0.01
82391185|NCT02612610|164493462|OTHER||LS Mean Difference|-0.2||||0.4371|TWO_SIDED|95.0|-0.8|0.4|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 20 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.8|0.4371
82391186|NCT02612610|164493462|OTHER||LS Mean Difference|-0.4||||0.1907|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 8 CSD Total Score: 50 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1907
82574786|NCT02358668|164859014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.38|TWO_SIDED|95.0|-0.3|0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.12|-0.30|0.38
82574787|NCT02358668|164859015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.01|TWO_SIDED|95.0|-0.48|-0.07||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.07|-0.48|0.01
82574788|NCT02358668|164859015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.41|TWO_SIDED|95.0|-0.28|0.11||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.11|-0.28|0.41
82574789|NCT02358668|164859016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.08|TWO_SIDED|95.0|-0.4|0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.03|-0.40|0.08
82574790|NCT02358668|164859016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.1|TWO_SIDED|95.0|-0.38|0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.03|-0.38|0.10
82574791|NCT02358668|164859017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.01|TWO_SIDED|95.0|-0.67|-0.12||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.12|-0.67|0.01
82574792|NCT02358668|164859017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.54|TWO_SIDED|95.0|-0.35|0.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.18|-0.35|0.54
82574793|NCT02358668|164859018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.03|TWO_SIDED|95.0|-0.81|-0.03||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.03|-0.81|0.03
82574794|NCT02358668|164859018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.63|TWO_SIDED|95.0|-0.48|0.29||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.29|-0.48|0.63
82574795|NCT02358668|164859019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.18|TWO_SIDED|95.0|-0.13|0.02||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.02|-0.13|0.18
82574796|NCT02358668|164859019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.73|TWO_SIDED|95.0|-0.06|0.09||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.09|-0.06|0.73
82391187|NCT02612610|164493463|OTHER||LS Mean Difference|-0.3||||0.2772|TWO_SIDED|95.0|-0.9|0.3|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-0.9|0.2772
82574797|NCT02358668|164859020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.06|TWO_SIDED|95.0|-0.15|0.0||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.00|-0.15|0.06
82574798|NCT02358668|164859020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.05|0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.10|-0.05|0.46
82574799|NCT02358668|164859021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.06|TWO_SIDED|95.0|-0.15|0.0||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.00|-0.15|0.06
82641987|NCT01875731|164999036|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.71|TWO_SIDED|95.0|0.1|4.09|||Chi-squared|||||4.09|0.1|0.71
82574800|NCT02358668|164859021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.05|0.1||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.10|-0.05|0.46
82574801|NCT02358668|164859022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.03|TWO_SIDED|95.0|-0.31|-0.02||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||-0.02|-0.31|0.03
82574802|NCT02358668|164859022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.87|TWO_SIDED|95.0|-0.13|0.15||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.15|-0.13|0.87
82361065|NCT01077817|164432940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.7|1.5|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to alendronate treatment and incidence of esophageal cancer.||1.5|0.7|
82361066|NCT01077817|164432940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to etidronate treatment and incidence of esophageal cancer.||2.0|0.9|
82361067|NCT01077817|164432940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|4.9|||||TWO_SIDED|95.0|1.4|16.7|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to ibandronate treatment and incidence of esophageal cancer.||16.7|1.4|
82361068|NCT01077817|164432940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||TWO_SIDED|95.0|1.0|2.5|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to risedronate treatment and incidence of esophageal cancer.||2.5|1.0|
82361069|NCT01077817|164432940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.2|||Logistic Regression Model|The case-cohort hazard ratio estimate for drug exposure was based on analysis of all cases of esophageal cancer and their comparison sample.||A hazard ratio estimate was calculated from the case-control matched set to measure the risk association between exposure to raloxifene treatment and incidence of esophageal cancer.||2.2|0.2|
82361070|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.3|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of alendronate~compared to non-initiators of alendronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||1.3|0.7|
82361071|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.8|2.0|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of etidronate~compared to non-initiators of etidronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.0|0.8|
82361072|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.5|3.4|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of ibandronate~compared to non-initiators of ibandronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||3.4|0.5|
82444136|NCT01742065|164596765|OTHER|To assess effectiveness, we fit generalized estimating equations (GEE) with a logistic link to model patient-level data. We weighted patient data so that each clinic's data had an equal weight. Models were adjusted for age, sex, and health center. They used robust variance estimators and independent correlation structures. We specified clinic as a clustering variable to account for intraclinic correlation; the intraclass correlation coefficient was 0.05 after covariable adjustment.|Mean Difference (Final Values)|3.8||||0.02|TWO_SIDED|95.0|0.6|7.0||We report effectiveness as the absolute difference between intervention and usual care clinics in adjusted probabilities calculated using mean values for all covariates;|Generalized Estimating Equations (GEE)|Reported P values based on the corresponding adjusted odds ratio and account for reduced degrees of freedom owing to clustering.||||7|.6|.02
82527441|NCT03502616|164751400|SUPERIORITY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.255||0.0341|TWO_SIDED|95.0|-1.05|-0.04|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-1.05|0.0341
82574803|NCT02358668|164859023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.34|TWO_SIDED|95.0|-1.46|0.5||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.50|-1.46|0.34
82361073|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of risendronate~compared to non-initiators of risendronate. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.0|0.9|
82361074|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.3|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of raloxifene~compared to non-initiators of raloxifene. For calculation of this hazard ratio, esophageal cancer cases occurring during the entire follow-up period were used."||2.3|0.3|
82361075|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.5|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~alendronate compared to non-initiators of alendronate. For calculation of 721+ day hazard ratios, only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||1.5|0.7|
82444137|NCT02440789|164596768|OTHER|||||||0.56|||||||t-test, 2 sided|paired t-test||||||0.56
82444138|NCT02440789|164596770|OTHER|||||||0.11|||||||t-test, 2 sided|paired t-test||||||0.11
82444139|NCT02440789|164596772|OTHER|||||||0.93|||||||t-test, 2 sided|paired t-test; results less than the analysis lower limit (0.7 cp/mL) were imputed to a value of one half the analysis lower limit.||||||0.93
82361076|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|1.9|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~etidronate compared to non-initiators of etidronate. For calculation of 721+ day hazard ratios, only~esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||1.9|0.7|
82641988|NCT03417102|164999046|SUPERIORITY||ABR ratio|0.092|||<|0.0001|TWO_SIDED|95.0|0.044|0.192||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.192|0.044|<0.0001
82361077|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.0|||||TWO_SIDED|95.0|0.8|11.1|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~ibandronate compared to non-initiators of ibandronate. For calculation of 721+ day hazard ratios,~only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||11.1|0.8|
82361078|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.8|||||TWO_SIDED|95.0|1.1|3.0|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~risedronate compared to non-initiators of risedronate. For calculation of 721+ day hazard ratios,~only esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||3.0|1.1|
82361079|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.1|2.7|||Proportional Hazards Regression Model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of~raloxifene compared to non-initiators of raloxifene. For calculation of 721+ day hazard ratios, only~esophageal cancer cases occurring at least 721 days from initiation of study drug (data not shown) were used."||2.7|0.1|
82361080|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.6|||Proportional Hazards Regression Model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of alendronate~compared to non-initiators of alendronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||1.6|0.5|
82361081|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.6|2.0||Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.|Proportional hazards regression model|||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of etidronate~compared to non-initiators of etidronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||2.0|0.6|
82361082|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.4|2.5|||Proportional hazards regression model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of risedronate~compared to non-initiators of risedronate. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||2.5|0.4|
82361083|NCT01077817|164432941|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.2|3.9|||Proportional hazards regression model|Year of birth, calendar quarter of cohort entry, and exposure history were stratified in this model.||"A hazard ratio was calculated to estimate the risk of esophageal cancer among initiators of raloxifene~compared to non-initiators of raloxifene. For calculation of 1441+ day hazard ratios, only esophageal cancer cases occurring at least 1441 days from initiation of study drug (data not shown) were used."||3.9|0.2|
82361084|NCT00372996|164432942|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912||||0.56|TWO_SIDED|80.0|0.744|1.118|||Log Rank|2-sided p-value from an unstratified log-rank text|Hazard ratio was based on Cox proportional hazards model.|||1.118|0.744|0.560
82361085|NCT00372996|164432943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.331|TWO_SIDED|70.0|0.572|1.02||2-sided p-value from unstratified log-rank test|Log Rank||Hazard ratio was based on the Cox proportional hazards model.|||1.020|0.572|0.331
82361086|NCT00372996|164432944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.79||||0.463|TWO_SIDED|95.0|-8.0|17.6|||Pearson chi-square test|||||17.6|-8.0|0.463
82361087|NCT01186016|164432953|OTHER||||||<|0.01||||||A priori threshold for the P-Value was.05 or less.|ANOVA|||The scores on the Genetic Knowledge Test for both groups between baseline and the end of the educational sessions were analyzed with repeated measures ANOVA.||||<0.01
82444140|NCT02440789|164596774|OTHER|||||||0.041|||||||t-test, 2 sided|paired t-test||||||0.041
82361088|NCT01186016|164432954|OTHER|||||||0.44||||||The a priori threshold for statistical significance was a P-Value of .05 or less.|ANOVA|||Data for Self-Efficacy for Quitting/Resisting Smoking were analyzed with repeated measures ANOVA using three time points: baseline, end of the educational sessions, and end of the smoking cessation sessions.||||0.44
82361089|NCT01186016|164432955|OTHER|Nominal data were analyzed with Chi Square.||||||0.88||||||The a priori threshold P-Value for statistical significance was .05 or less.|Chi-squared|||||||.88
82444141|NCT02440789|164596777|OTHER|||||||0.008|||||||t-test, 2 sided|paired t-test||||||0.008
82444142|NCT02440789|164596779|OTHER|||||||0.26|||||||t-test, 2 sided|paired t-test||||||0.26
82444143|NCT02440789|164596781|OTHER|||||||0.75|||||||t-test, 2 sided|paired t-test||||||0.75
82444144|NCT02440789|164596783|OTHER|||||||0.97|||||||t-test, 2 sided|paired t-test||||||0.97
82444145|NCT02440789|164596785|OTHER|||||||0.7|||||||t-test, 2 sided|paired t-test||||||0.7
82444146|NCT02440789|164596787|OTHER|||||||0.47|||||||t-test, 2 sided|paired t-test||||||0.47
82444147|NCT02440789|164596789|OTHER|||||||0.72|||||||t-test, 2 sided|paired t-test||||||0.72
82444148|NCT02440789|164596791|OTHER|||||||0.28|||||||t-test, 2 sided|paired t-test||||||0.28
82444149|NCT02440789|164596793|OTHER|||||||0.7|||||||t-test, 2 sided|paired t-test||||||0.7
82444150|NCT02440789|164596795|OTHER|||||||0.28|||||||t-test, 2 sided|paired t-test||||||0.28
82361090|NCT00452543|164432958|NON_INFERIORITY_OR_EQUIVALENCE|This was a test of non-inferiority between the effects of acamprosate vs. placebo. Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups. Results would be used to estimate effect size to set the stage for an adequately powered larger study in the future.|||||<|0.05||95.0||||Threshold for significance was set a priori at p\<0.05.|Wilcoxon (Mann-Whitney)|||Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinking days.Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups.||||<0.05
82361091|NCT00452543|164432959|NON_INFERIORITY_OR_EQUIVALENCE|This was a test of non-inferiority between the effects of acamprosate vs. placebo.|||||<|0.05||95.0||||This p \<0.05 was set a priori.|Wilcoxon (Mann-Whitney)|||Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per week.Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups.||||<0.05
82361092|NCT00452543|164432960|NON_INFERIORITY_OR_EQUIVALENCE|"This was a test of non-inferiority between the effects of acamprosate vs. placebo. Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per drinking day.~Power analysis is discussed above."|||||<|0.05||95.0||||This p\<0.05 was set a priori.|Wilcoxon (Mann-Whitney)|||"Statistical analyses evaluated the null hypothesis that there would be no difference in the effect of acamprosate vs. placebo on total drinks consumed per drinking day.~Power analysis was originally based on ITT analysis with 40 subjects, and assumed 30% difference in alcohol consumption (50% vs. 20% reduction in the acamprosate and placebo groups, respectively). With alpha of 0.05, we estimated 74% power to detect a difference between the two groups."||||<0.05
82361093|NCT03222037|164433068|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 97.5% confidence interval was below 0.05.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|97.5|-0.09|-0.02|||Linear Mixed Model|Linear mixed model with Kenward and Roger method for degrees of freedom|Mean difference was calculated as Test- SCR. This comparison is for high lumniance low contrast|Comparison between the Test and the SCR treatments was carried out using 97.5% confidence intervals for the least-square mean differences.||-0.02|-0.09|
82527442|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.056||0.0001|TWO_SIDED|95.0|-0.33|-0.11|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.11|-0.33|0.0001
82527443|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001|TWO_SIDED|95.0|-0.47|-0.2|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-0.47|<0.0001
82361094|NCT03222037|164433068|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 97.5% confidence interval was below 0.05|Median Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|97.5|-0.06|-0.01|||Linear Mixed Model|Linear mixed model with Kenward and Roger method for denominator degrees of freedom|Mean difference was calculated as Test- SCR. This comparison is for Low luminance high contrast|||-0.01|-0.06|
82361095|NCT03222037|164433069|EQUIVALENCE|Statistical significance is declared if the lower limit of the 95% confidence interval is above 0 or if the upper limit of the 95% confidence interval is below 0.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0066|TWO_SIDED|95.0|0.01|0.08|||Linear Mixed Model|Linear Mixed Model with Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - SCR.|Comparison between the Test and SCR treatments was carried out using least-square mean differences||0.08|0.01|0.0066
82361096|NCT02418754|164433070|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurements as covariate and treatment group, baseline angiographic choroidal neovascularization (CNV) subtype (predominantly or minimally classic versus occult versus occult with no classic lesions) as fixed factors.|Least Squares (LS) Mean Difference|-1.58||||0.2052|TWO_SIDED|95.0|-4.37|1.22||Threshold for significance at 0.025 level.|ANCOVA|||To control for the family-wise type I error rate of 5%, for each of the 2 REGN2176-3 groups the 2-sided hypothesis comparing REGN2176-3 (1 mg: 2 mg) vs. Intravitreal Aflibercept Injection (IAI) 2 mg was tested at a significance level of α = 2.5%.||1.22|-4.37|0.2052
82361097|NCT02418754|164433070|SUPERIORITY|Analysis was performed using ANCOVA model with baseline measurements as covariate and treatment group, baseline angiographic choroidal neovascularization (CNV) subtype (predominantly or minimally classic versus occult versus occult with no classic lesions) as fixed factors.|Least Squares (LS) Mean Difference|-1.7||||0.0982|TWO_SIDED|95.0|-4.0|0.61||Threshold for significance at 0.025 level.|ANCOVA|||To control for the family-wise type I error rate of 5%, for each of the 2 REGN2176-3 groups the 2-sided hypothesis comparing REGN2176-3 (1 mg: 2 mg) vs. Intravitreal Aflibercept Injection (IAI) 2 mg was tested at a significance level of α = 2.5%.||0.61|-4.00|0.0982
82361098|NCT00462839|164433078|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Post-hoc comparison of 500ml, 1000ml and 2000ml volumes were greater in the non-calibrated drape first group. Post-hoc comparisons made using Bonferroni correct t-test for 8 comparisons.|ANOVA|||Repeated measures ANOVA comparing all levels of blood estimation (P=0.0002). Post-hoc comparisons using Bonferroni corrects t-tests.||||<0.05
82361099|NCT00462839|164433079|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Chi-squared, Corrected|||||||0.76
82574804|NCT02358668|164859023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.64|TWO_SIDED|95.0|-0.73|1.18||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.18|-0.73|0.64
82361100|NCT00462839|164433080|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Chi-squared, Corrected|||||||0.72
82574805|NCT02358668|164859024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.17|TWO_SIDED|95.0|-1.5|0.26||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.26|-1.50|0.17
82641989|NCT03417102|164999048|SUPERIORITY||ABR ratio|0.108|||<|0.0001|TWO_SIDED|95.0|0.056|0.207||P-value derived from NB regression model, accounted for different follow-up times during TP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.207|0.056|<0.0001
82361101|NCT00462839|164433081|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Chi-squared, Corrected|||||||0.89
82361102|NCT02413294|164433213|SUPERIORITY|||||||0.37||||||This t-test analyzes the change in mean between the midpoint interview immediately prior to the start of the intervention and the follow-up interview at the conclusion of the intervention.|Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.37
82444151|NCT02440789|164596797|OTHER|||||||0.77|||||||t-test, 2 sided|paired t-test||||||0.77
82444152|NCT02440789|164596799|OTHER|||||||0.93|||||||t-test, 2 sided|paired t-test||||||0.93
82444153|NCT02440789|164596801|OTHER|||||||0.65|||||||t-test, 2 sided|paired t-test||||||0.65
82444154|NCT02440789|164596803|OTHER|||||||0.22|||||||t-test, 2 sided|paired t-test||||||0.22
82444155|NCT02440789|164596805|OTHER|||||||0.031|||||||t-test, 2 sided|paired t-test||||||0.031
82444156|NCT02440789|164596807|OTHER|||||||0.005|||||||t-test, 2 sided|paired t-test||||||0.005
82444157|NCT02440789|164596809|OTHER|||||||0.69|||||||t-test, 2 sided|paired t-test||||||0.69
82444158|NCT02440789|164596811|OTHER|||||||0.008|||||||t-test, 2 sided|paired t-test||||||0.008
82444159|NCT00541346|164596862|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|26.3|||<|0.001|TWO_SIDED|95.0|19.6|33.1||Posterior-Predictive Probability of Mean Change (Pre-Post) Score at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||33.1|19.6|<0.001
82444160|NCT00541346|164596863|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|23.1|||<|0.001|TWO_SIDED|95.0|16.9|29.3||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||29.3|16.9|<0.001
82444161|NCT00541346|164596864|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|10.9|||<|0.001|TWO_SIDED|95.0|5.4|16.8||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.||Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||16.8|5.4|<0.001
82444162|NCT00541346|164596865|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|7.2|||<|0.001|TWO_SIDED|95.0|3.3|11.1||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||11.1|3.3|<0.001
82444163|NCT00541346|164596866|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|4.1|||<|0.01||95.0|1.2|6.9||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||6.9|1.2|<0.01
82448796|NCT01345669|164604860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.98||0.0005|TWO_SIDED|95.0|-5.33|-1.49|||Mixed Models Analysis|Degrees of freedom calculated using the Kenward-Roger method.|Afatinib minus Placebo mean adjusted for total with data for baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Scores (global health/QoL) over time were assessed using longitudinal mixed-effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score and nodal status.||-1.49|-5.33|0.0005
82448797|NCT01793883|164604861|SUPERIORITY|||||||0.251|||||||Log Rank|||||||0.251
82448798|NCT01793883|164604861|SUPERIORITY|||||||0.818|||||||Log Rank|||||||0.818
82361103|NCT02413294|164433214|SUPERIORITY|||||||0.42|||||||Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.42
82361104|NCT02413294|164433215|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||0.65
82361105|NCT02413294|164433216|SUPERIORITY|||||||1|||||||Fisher Exact|||The analysis, like the measures themselves, tracks the significance of the change from end of pre-intervention period to end of intervention period, so while only a single comparison group is listed, because it is all one population group, there are two sets of data for that group.||||1.0
82361106|NCT02413294|164433217|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.65
82361107|NCT02413294|164433218|SUPERIORITY|||||||0.65|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.65
82361108|NCT02413294|164433219|SUPERIORITY|||||||0.94|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.94
82361109|NCT02413294|164433220|SUPERIORITY|||||||0.81|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.81
82361110|NCT02413294|164433221|SUPERIORITY|||||||0.4|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.40
82361111|NCT02413294|164433222|SUPERIORITY|||||||0.46|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.46
82361112|NCT02413294|164433223|SUPERIORITY||||||<|0.01|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||<0.01
82448799|NCT00659230|164604867|SUPERIORITY_OR_OTHER||Effect Size|-0.18||||0.723|TWO_SIDED|90.0|-0.64|0.27|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|The analysis was conducted using a repeated-measures analysis of variance (ANOVA) model. The model consisted of two factors - treatment at two levels and time (5 time points including baseline) and group by time interaction.||0.27|-0.64|0.723
82574806|NCT02358668|164859024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.37|TWO_SIDED|95.0|-0.46|1.24||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.24|-0.46|0.37
82361113|NCT02413294|164433224|SUPERIORITY|||||||0.28|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.28
82361114|NCT02413294|164433225|SUPERIORITY|||||||0.67|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.67
82361115|NCT02413294|164433226|SUPERIORITY|||||||0.56|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.56
82361116|NCT02413294|164433227|SUPERIORITY|||||||0.82|||||||Paired T test, 2-sided|||Pre-intervention period means are compared to intervention period means for all subjects.||||0.82
82361117|NCT02780167|164433236|OTHER||Estimate difference|1.8|STANDARD_ERROR_OF_MEAN|0.99||0.121|TWO_SIDED|95.0|-0.7|4.4|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 10 mg QD, Reference group: Placebo.|||4.4|-0.7|0.1210
82361118|NCT02780167|164433236|OTHER||Estimate difference|6.0|STANDARD_ERROR_OF_MEAN|3.05||0.1065|TWO_SIDED|95.0|-1.8|13.8|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 30 mg QD, Reference group: Placebo.|||13.8|-1.8|0.1065
82361119|NCT02780167|164433236|OTHER||Estimate difference|21.5|STANDARD_ERROR_OF_MEAN|6.25||0.0184|TWO_SIDED|95.0|5.5|37.6|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 100 mg QD, Reference group: Placebo.|||37.6|5.5|0.0184
82361120|NCT02780167|164433236|OTHER||Mean Difference (Final Values)|38.2|STANDARD_ERROR_OF_MEAN|7.18||0.0032|TWO_SIDED|95.0|19.7|56.6|||Emax model|Emax model with non-responder imputation (NRI)|Test group: PF-04965842 200 mg QD, Reference group: Placebo.|||56.6|19.7|0.0032
82361121|NCT02780167|164433237|OTHER||LS mean difference|4.08|STANDARD_ERROR_OF_MEAN|9.667||0.6731|TWO_SIDED|90.0|-11.88|20.05|||Mixed Models Analysis|Mixed-effects model repeated measures (MMRM) with observed cases (OC)|Test group: PF-04965842 10 mg QD, Reference group: Placebo.|||20.05|-11.88|0.6731
82361122|NCT02780167|164433237|OTHER||LS mean difference|-5.52|STANDARD_ERROR_OF_MEAN|9.474||0.561|TWO_SIDED|90.0|-21.16|10.13|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 30 mg QD, Reference group: Placebo.|||10.13|-21.16|0.5610
82361123|NCT02780167|164433237|OTHER||LS mean difference|-23.82|STANDARD_ERROR_OF_MEAN|9.043||0.0091|TWO_SIDED|90.0|-38.76|-8.88|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 100 mg QD, Reference group: Placebo.|||-8.88|-38.76|0.0091
82361124|NCT02780167|164433237|OTHER||LS mean difference|-47.35|STANDARD_ERROR_OF_MEAN|9.008|<|0.0001|TWO_SIDED|90.0|-62.23|-32.47|||Mixed Models Analysis|MMRM with OC|Test group: PF-04965842 200 mg QD, Reference group: Placebo.|||-32.47|-62.23|<0.0001
82361125|NCT01142908|164433314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.93|TWO_SIDED|95.0|-2.8|3.1|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||3.1|-2.8|0.93
82361126|NCT01142908|164433315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4||||0.34|TWO_SIDED|95.0|-1.5|4.3|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||4.3|-1.5|0.34
82448800|NCT00659230|164604868|SUPERIORITY||Effect Size|-0.07||||0.54|TWO_SIDED|90.0|-0.52|0.39|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.39|-.52|0.540
82361127|NCT01142908|164433317|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.91|TWO_SIDED|95.0|-2.0|1.8|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||1.8|-2.0|0.91
82361128|NCT01142908|164433318|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4||||0.7|TWO_SIDED|95.0|-1.5|2.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||2.2|-1.5|0.70
82361129|NCT01142908|164433319|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.8||||0.1|TWO_SIDED|95.0|-3.9|0.3|||Mixed Models Analysis||Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.3|-3.9|0.1
82361130|NCT01142908|164433320|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.3||||0.74|TWO_SIDED|95.0|-2.4|1.7|||Mixed Models Analysis||Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months||1.7|-2.4|0.74
82361131|NCT01142908|164433322|SUPERIORITY_OR_OTHER_LEGACY||logit-difference (Net)|-0.03||||0.87|TWO_SIDED|95.0|-0.4|0.3|||Gen. Est. Equation with a Logit Link|Method Used Expanded: Generalized Estimating Equation with a Logit Link. Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.3|-0.4|0.87
82361132|NCT01142908|164433323|SUPERIORITY_OR_OTHER_LEGACY||logit-difference (Net)|0.2||||0.36|TWO_SIDED|95.0|-0.2|0.5|||Gen. Est. Equation with a Logit Link|Method Used Expanded: Generalized Estimating Equation with a Logit Link. Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||0.5|-0.2|0.36
82361133|NCT01142908|164433325|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.9||||0.08|TWO_SIDED|95.0|-10.3|0.6|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.6|-10.3|0.08
82361134|NCT01142908|164433326|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.8||||0.79|TWO_SIDED|95.0|-6.6|5.0|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||5.0|-6.6|0.79
82361135|NCT01142908|164433328|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.02||||0.83|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.2|-0.2|0.83
82361136|NCT01142908|164433329|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.54|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Adjusted for gender, diabetes, and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months.||0.2|-0.4|0.54
82361137|NCT01142908|164433331|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.29|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|Adjusted for gender and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 6 months||0.2|-0.6|0.29
82361138|NCT01142908|164433332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.72|TWO_SIDED|95.0|-0.5|0.4|||Mixed Models Analysis|Adjusted for gender and smoking status stratification variables|Direction of the test of comparison is Pharmacist Intervention minus Control|Comparison at 12 months||0.4|-0.5|0.72
82361139|NCT00337428|164433336|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361140|NCT00337428|164433337|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361141|NCT00337428|164433338|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361142|NCT00337428|164433339|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361143|NCT00337428|164433340|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361144|NCT00337428|164433341|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361145|NCT00337428|164433342|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82448801|NCT00659230|164604869|SUPERIORITY||Effect size|-0.18||||0.951|TWO_SIDED|90.0|-0.64|0.27|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.27|-0.64|0.951
82361146|NCT00337428|164433343|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -5%|||||<|0.001|||||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361147|NCT00337428|164433344|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82448802|NCT00659230|164604870|SUPERIORITY||Effect Size|0.11||||0.396|TWO_SIDED|90.0|-0.35|0.56|||ANOVA||Effect size (ES) for change in CAPS-D score relative to baseline was calculated according to the method of Cohen.|||0.56|-0.35|0.396
82361148|NCT00337428|164433345|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361149|NCT00337428|164433346|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361150|NCT00337428|164433347|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361151|NCT00337428|164433348|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (concomitant group - nonconcomitant group) must be greater than -10%|||||<|0.001||95.0|||||Miettinen and Nurminen|Miettinen and Nurminen method for difference in proportions; Stat Med 1985;4:213-26||||||<0.001
82361152|NCT00337428|164433349|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361153|NCT00337428|164433350|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361154|NCT00337428|164433351|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361155|NCT00337428|164433352|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (concomitant group / nonconcomitant group) must be greater than 0.67.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82361156|NCT04205162|164433353|OTHER|||||||0.331|||||||Wilcoxon (Mann-Whitney)|||Comparison of etafilcon A||||0.331
82361157|NCT04205162|164433353|OTHER|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||Comparison of verofilcon A||||0.122
82361158|NCT04205162|164433354|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Comparison of etafilcon A||||0.130
82361159|NCT04205162|164433354|OTHER|||||||0.924|||||||Wilcoxon (Mann-Whitney)|||Comparison of verofilcon A||||0.924
82361160|NCT00779402|164433357|OTHER||Hazard Ratio (HR)|0.997||||0.65|TWO_SIDED|95.0|0.693|1.433|||Log Rank|Log Rank Test (two sided) stratified by Gleason Score and Radiation Therapy||||1.433|0.693|0.65
82361161|NCT00693225|164433375|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82361162|NCT01315028|164433378|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82361163|NCT01315028|164433379|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANOVA|||Parametric and non-parametric descriptive data were summarised and presented. All data analyses were based on the Intention to Treat (ITT) principle. For the main analysis, Repeated Measures Analysis of Variance was performed to identify signals suggesting treatment effects on the outcome measures. Effect sizes were also calculated in order to further examine suggestive trends in the data indicating appropriate outcomes for further research.||||0.996
82361164|NCT01315028|164433380|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82361165|NCT01315028|164433381|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82361166|NCT01386125|164433384|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.14||||0.0007|TWO_SIDED|95.0|-0.22|-0.06|||ANCOVA|||||-0.06|-0.22|0.0007
82361167|NCT01386125|164433385|SUPERIORITY_OR_OTHER_LEGACY||Difference is LS Means|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.45|-0.15|||Constrained longitudinal data analysis|||||-0.15|-0.45|<0.0001
82361168|NCT01098539|164433386|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was from a 1-sided t test to test whether the difference of LS means (albiglutide - sitagliptin) was less than or equal to the prespecified noninferiority margin of 0.4%.|Median Difference (Final Values)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.49|-0.15|||t-test, 1 sided|||||-0.15|-0.49|<0.0001
82361169|NCT03173560|164433416|NON_INFERIORITY|Odd ratio for ORR24W was analyzed along with 90% CI for each treatment arm using Cochran-Mantel-Haenszel (CMH) method, stratified by Memorial Sloan-Kettering Cancer Center (MSKCC) prognostic group and prior programmed cell death protein 1/ programmed cell death protein ligand 1 (PD-1/PD-L1) treatment from IxRS data. Non-inferiority would be claimed if 1-sided P value is \<=0.045 at the final analysis for the non-inferiority test with the non-inferiority margin of the odd ratio =0.76.|Odds Ratio (OR)|0.88||||0.2676|TWO_SIDED|90.0|0.59|1.32|||Cochran-Mantel-Haenszel|||||1.32|0.59|0.2676
82361170|NCT03173560|164433417|SUPERIORITY|Percentage of participants with intolerable Grade 2 or any Grade \>=Grade 3 TEAEs within 24 weeks was tested using CMH method at 2-sided α=0.05, stratified by MSKCC prognostic group and prior PD-1/PD-L1 treatment from IxRS data. The treatment difference and 95% CI were also calculated based on asymptotic normal approximation.|Difference|3.2||||0.4763|TWO_SIDED|95.0|-5.5|11.9|||Cochran-Mantel-Haenszel|||||11.9|-5.5|0.4763
82361171|NCT03173560|164433418|OTHER|The hazard ratio and the corresponding 90% CIs were estimated using the Cox regression model with Efron's method for ties, stratified by MSKCC prognostic group and prior PD-1/PD-L1 treatment.|Hazard Ratio (HR)|1.42|||||TWO_SIDED|90.0|1.08|1.86||||||||1.86|1.08|
82361172|NCT03173560|164433419|OTHER|Odd ratio for ORR was analyzed along with 90% CI for each treatment arm using CMH method stratified by MSKCC prognostic group and PD-1/PD-L1 treatment from IxRS data.|Odds Ratio (OR)|0.77|||||TWO_SIDED|90.0|0.52|1.14||||||||1.14|0.52|
82361173|NCT04254809|164433440|SUPERIORITY||Slope|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-1.02|-0.25||Threshold for statistical significance was p = .05|Regression, Linear||REST coded as 0, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regressing scores at one-week follow-up onto scores at baseline.||-0.25|-1.02|.001
82361174|NCT04254809|164433441|SUPERIORITY||Slope|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.99|-0.23||Threshold for significance was p = .05|Regression, Linear||REST coded as 0, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regression scores at one-month follow-up onto scores at baseline.||-0.23|-0.99|.002
82361175|NCT04254809|164433442|SUPERIORITY||Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.86|-0.05||Threshold for statistical significance was p = .05|Regression, Linear||REST coded as -, HSL coded as 1; negative slope reflects greater standardized reductions in outcome among REST compared to HSL.|Intention to treat analyses carried last observation forward for all participants enrolled at baseline. Standardized residual change score calculated by regression scores at one-week follow-up onto scores at baseline.||-.05|-0.86|.03
82361176|NCT01589601|164433457|SUPERIORITY||Mean Difference (Net)|4.8719||||0.1641|TWO_SIDED|95.0|-2.0289|11.7728|||Mixed Models Analysis|Baseline||||11.7728|-2.0289|0.1641
82527444|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.61|-0.31|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.31|-0.61|<0.0001
82361177|NCT01589601|164433457|SUPERIORITY|6 Months|Mean Difference (Net)|9.4938||||0.0299|TWO_SIDED|95.0|0.9406|18.047|||Mixed Models Analysis|||||18.0470|0.9406|0.0299
82361178|NCT01589601|164433458|SUPERIORITY||Mean Difference (Net)|2.7157||||0.5531|TWO_SIDED|95.0|-6.3054|11.7368|||Mixed Models Analysis|Baseline||||11.7368|-6.3054|0.5531
82361179|NCT01589601|164433458|SUPERIORITY||Mean Difference (Net)|11.773||||0.035|TWO_SIDED|95.0|0.8409|22.7052|||Mixed Models Analysis|6 Months||||22.7052|0.8409|0.0350
82361180|NCT01589601|164433459|SUPERIORITY|HADS Anxiety 2 weeks|Mean Difference (Net)|-1.2436||||0.1592|TWO_SIDED|95.0|-2.9817|0.4945|||Mixed Models Analysis|||||0.4945|-2.9817|0.1592
82361181|NCT01589601|164433459|SUPERIORITY|HADS Anxiety 3 months|Mean Difference (Net)|-0.7946||||0.3657|TWO_SIDED|95.0|-2.5285|0.9393|||Mixed Models Analysis|||||0.9393|-2.5285|0.3657
82361182|NCT01589601|164433459|SUPERIORITY|HADS Anxiety 6 months|Mean Difference (Net)|-1.8269||||0.048|TWO_SIDED|95.0|-3.6375|-0.0164|||Mixed Models Analysis|||||-0.0164|-3.6375|0.0480
82391188|NCT02612610|164493463|OTHER||LS Mean Difference|-0.5||||0.1132|TWO_SIDED|95.0|-1.1|0.1|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 20 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.1|0.1132
82527445|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.62|-0.32|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.32|-0.62|<0.0001
82527446|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.077|<|0.0001|TWO_SIDED|95.0|-0.67|-0.37|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.37|-0.67|<0.0001
82527447|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.086||0.0008|TWO_SIDED|95.0|-0.46|-0.12|||LS mean difference|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.12|-0.46|0.0008
82361183|NCT01589601|164433459|SUPERIORITY|HADS Depression at 2 weeks|Mean Difference (Net)|-0.9097||||0.2372|TWO_SIDED|95.0|-2.4253|0.6058|||Mixed Models Analysis|||||0.6058|-2.4253|0.2372
82361184|NCT01589601|164433459|SUPERIORITY|HADS Depression 3 months|Mean Difference (Net)|-0.6592||||0.4237|TWO_SIDED|95.0|-2.2862|0.9678|||Mixed Models Analysis|||||0.9678|-2.2862|0.4237
82361185|NCT01589601|164433459|SUPERIORITY|HADS Depression at 6 months|Mean Difference (Net)|-1.9379||||0.0202|TWO_SIDED|95.0|-3.5672|-0.3085|||Mixed Models Analysis|||||-0.3085|-3.5672|0.0202
82361186|NCT01589601|164433461|SUPERIORITY|FACIT-Sp at 2 weeks|Mean Difference (Net)|0.9413||||0.5857|TWO_SIDED|95.0|-2.4666|4.3493|||Mixed Models Analysis|||||4.3493|-2.4666|0.5857
82361187|NCT01589601|164433461|SUPERIORITY|FACIT-Sp at 3 months|Mean Difference (Net)|1.1174||||0.5655|TWO_SIDED|95.0|-2.7246|4.9594|||Mixed Models Analysis|||||4.9594|-2.7246|0.5655
82361188|NCT01589601|164433461|SUPERIORITY|FACIT-Sp at 6 months|Mean Difference (Net)|3.9809||||0.0271|TWO_SIDED|95.0|0.4581|7.5036|||Mixed Models Analysis|||||7.5036|0.4581|0.0271
82361189|NCT01589601|164433463|SUPERIORITY|All-cause readmissions, Poisson regression with log link and Pearson scale||||||0.56|||||||Poisson regression|||||||0.56
82361190|NCT01589601|164433463|SUPERIORITY|Cardiovascular readmissions, Poisson regression with log link and Pearson scale||||||0.8|||||||Poisson regression|||||||0.80
82361191|NCT01589601|164433463|SUPERIORITY|Heart failure readmissions, Poisson regression with log link and Pearson scale||||||0.92|||||||Poisson regression|||||||0.92
82361192|NCT01589601|164433463|SUPERIORITY|Non-cardiovascular readmissions, Poisson regression with log link and Pearson scale||||||0.12|||||||Poisson regression|||||||0.12
82361193|NCT02250651|164433475|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.41||0.3738|TWO_SIDED|95.0|-1.17|0.44|||MMRM|||Change from Baseline at Week 12, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.44|-1.17|0.3738
82361194|NCT02250651|164433475|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.41||0.8514|TWO_SIDED|95.0|-0.88|0.73|||MMRM|||Change from Baseline at Week 12, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.73|-0.88|0.8514
82361195|NCT02250651|164433475|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0401|TWO_SIDED|95.0|-1.57|-0.04|||MMRM|||Change from Baseline at Week 12, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||-0.04|-1.57|0.0401
82361196|NCT02250651|164433475|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.39||0.3621|TWO_SIDED|95.0|-1.12|0.41|||MMRM|||Change from Baseline at Week 12, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.41|-1.12|0.3621
82361197|NCT02250651|164433476|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.36||0.0382||95.0|-1.48|-0.04|||MMRM|||Week 2, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.48|0.0382
82361198|NCT02250651|164433476|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.36||0.1133||95.0|-1.29|0.14|||MMRM|||Week 2, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.14|-1.29|0.1133
82361199|NCT02250651|164433477|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0013||95.0|-1.76|-0.43|||MMRM|||Week 2, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.43|-1.76|0.0013
82361200|NCT02250651|164433477|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.34||0.0364||95.0|-1.38|-0.05|||MMRM|||Week 2, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.05|-1.38|0.0364
82361201|NCT02250651|164433478|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2304||95.0|-1.22|0.29|||MMRM|||Week 6, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.29|-1.22|0.2304
82527448|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.086||0.0116|TWO_SIDED|95.0|-0.39|-0.05|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.05|-0.39|0.0116
82527449|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.093||0.0416|TWO_SIDED|95.0|-0.37|-0.01|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.01|-0.37|0.0416
82641990|NCT03417102|164999050|SUPERIORITY||ABR ratio|0.056|||<|0.0001|TWO_SIDED|95.0|0.026|0.121||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.121|0.026|<0.0001
82391189|NCT02612610|164493463|OTHER||LS Mean Difference|-0.6||||0.0737|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 9 CSD Total Score: 50 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.0737
82527450|NCT03502616|164751401|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.092||0.0915|TWO_SIDED|95.0|-0.34|0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-0.34|0.0915
82641991|NCT03417102|164999052|SUPERIORITY||ABR ratio|0.098|||<|0.0001|TWO_SIDED|95.0|0.046|0.21||P-value derived from NB regression model, accounted for different follow-up times during EP, with treatment arm and randomization strata of number of bleeds in 6 months prior to study (\<=10,\>10) as fixed effects. Significance threshold was 0.05.|Negative binomial regression model|||||0.210|0.046|<0.0001
82361202|NCT02250651|164433478|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.1272||95.0|-1.34|0.17|||MMRM|||Week 6, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.17|-1.34|0.1272
82361203|NCT02250651|164433479|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.0038||95.0|-1.76|-0.34|||MMRM|||Week 6, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.76|0.0038
82361204|NCT02250651|164433479|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.36||0.0741||95.0|-1.36|0.06|||MMRM|||Week 6, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.06|-1.36|0.0741
82361205|NCT02250651|164433480|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.41||0.3738||95.0|-1.17|0.44|||MMRM|||Week 12, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.44|-1.17|0.3738
82361206|NCT02250651|164433480|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.41||0.8514||95.0|-0.88|0.73|||MMRM|||Week 12, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.73|-0.88|0.8514
82361207|NCT02250651|164433481|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0401||95.0|-1.57|-0.04|||MMRM|||Week 12, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.57|0.0401
82361208|NCT02250651|164433481|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.39||0.3621|TWO_SIDED|95.0|-1.12|0.41|||MMRM|||Week 12, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.41|-1.12|0.3621
82361209|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.36||0.0382|TWO_SIDED|95.0|-1.48|-0.04|||MMRM|||Change from Baseline at Week 2, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.48|0.0382
82361210|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.36||0.1133|TWO_SIDED|95.0|-1.29|0.14|||MMRM|||Change from Baseline at Week 2, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.14|-1.29|0.1133
82391190|NCT02612610|164493464|OTHER||LS Mean Difference|-0.1||||0.6266|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6266
82527451|NCT03502616|164751402|SUPERIORITY||LS mean difference|2.85|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|1.46|4.24|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.24|1.46|<0.0001
82641992|NCT03417102|164999054|SUPERIORITY||Least Square (LS) Mean difference|-28.72|||<|0.0001|TWO_SIDED|95.0|-39.07|-18.37||Analysis of Covariance (ANCOVA) model included treatment arm and randomization strata of number of bleeds (\<=10, \> 10) as fixed effects, Baseline score as a covariate. Significance threshold was at 0.05.|ANCOVA|||||-18.37|-39.07|<0.0001
82361211|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0013|TWO_SIDED|95.0|-1.76|-0.43|||MMRM|||Change from Baseline at Week 2, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.43|-1.76|0.0013
82361212|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.34||0.0364|TWO_SIDED|95.0|-1.38|-0.05|||MMRM|||Change from Baseline at Week 2, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.05|-1.38|0.0364
82361213|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.38||0.2304|TWO_SIDED|95.0|-1.22|0.29|||MMRM|||Change from Baseline at Week 6, Hour 0: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.29|-1.22|0.2304
82361214|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.1272|TWO_SIDED|95.0|-1.34|0.17|||MMRM|||Change from Baseline at Week 6, Hour 0: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.17|-1.34|0.1272
82391191|NCT02612610|164493464|OTHER||LS Mean Difference|-0.4||||0.1769|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 20 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.1769
82391192|NCT02612610|164493464|OTHER||LS Mean Difference|-0.7||||0.0313|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Effect Repeated Measures model|||"Week 10 CSD Total Score: 50 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.3|0.0313
82391193|NCT02612610|164493465|OTHER||LS Mean Difference|-0.4||||0.2058|TWO_SIDED|95.0|-1.0|0.2|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.0|0.2058
82391194|NCT02612610|164493465|OTHER||LS Mean Difference|-0.6||||0.0665|TWO_SIDED|95.0|-1.2|0.0|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 20 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.2|0.0665
82361215|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.0038|TWO_SIDED|95.0|-1.76|-0.34|||MMRM|||Change from Baseline at Week 6, Hour 2: The hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.76|0.0038
82361216|NCT02250651|164433482|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.36||0.0741|TWO_SIDED|95.0|-1.36|0.06|||MMRM|||Change from Baseline at Week 6, Hour 2: The hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \<0 mmHg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.06|-1.36|0.0741
82641993|NCT03417102|164999055|SUPERIORITY||LS Mean difference|-14.85|||<|0.0001|TWO_SIDED|95.0|-21.37|-8.33||ANCOVA model included treatment arm and randomization strata of number of bleeds (\<=10, \> 10) as fixed effects, Baseline score as a covariate. Significance threshold was at 0.05.|ANCOVA|||||-8.33|-21.37|<0.0001
82391195|NCT02612610|164493465|OTHER||LS Mean Difference|-0.8||||0.0155|TWO_SIDED|95.0|-1.4|-0.1|||Mixed Effect Repeated Measures model|||"Week 11 CSD Total Score: 50 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.4|0.0155
82391196|NCT02612610|164493466|OTHER||LS Mean Difference|-0.4||||0.2458|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 7.5 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.2458
82361217|NCT02795676|164433491|NON_INFERIORITY|Non-inferiority was to be declared if the lower bound of the confidence interval for the treatment difference is above the non-inferiority margin, which was met. No p-value was calculated as this is not relevant for non-inferiority.|Median Difference (Final Values)|-0.359|||||TWO_SIDED|95.0|-2.444|1.726|||Regression, Linear|The primary efficacy analysis compared eGFR slope between the treatment arms using a 2-stage model with quantile regression.||||1.726|-2.444|
82361218|NCT01201486|164433507|SUPERIORITY_OR_OTHER||Percentage Sensitivity|23.0|||||TWO_SIDED||||||Percentage Sensitivity|||||||
82361219|NCT00108550|164433508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0305|STANDARD_ERROR_OF_MEAN|0.038||0.4237|TWO_SIDED|95.0|-0.044|0.105||There was no need for multiple comparisons adjustment for the primary outcome, since there was only one. However, secondary analyses were adjusted for multiple comparisons.|Mixed Models Analysis|Effect of covariates (age, gender, etc) was evaluated (modeled as fixed effects) in secondary analyses.|The analysis was performed on transformed (rather than raw) Descriptor Differential Score Pain Intensity scores.|The null hypothesis was that Gabapentin is no better than placebo in reducing back pain. A mean-matching variance stabilizing transformation was applied to Descriptor Differential Scale Pain intensity (DDS) scores. Scores were modeled as a function of time (week) and group (gabapentin, placebo) in a mixed effects model. Random (subject-specific)intercept and slopes were fitted to the data. With alpha = .05 and N = 65 per group power is .8 to detect effect size =.4 standard deviations (SD).||0.105|-0.044|0.4237
82641994|NCT02062385|164999059|SUPERIORITY_OR_OTHER||1 - (Incidence V260 / Incidence Placebo)|69.3|||<|0.001|TWO_SIDED|95.0|54.5|79.7|||Clopper-Pearson|To calculate the confidence interval and associated p-value, an exact conditional method based on a Poisson distribution was used.||V260 will be considered efficacious if the lower bound of the two-sided confidence interval for efficacy is \>0% at the final analysis||79.7|54.5|<0.001
82641995|NCT00710840|164999088|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||The primary outcome, difference in quadriceps torque between intervention (TKA Min) and Control TKA at 4 weeks, was tested using an analysis of covariance model. Confirmatory measures were evaluated at 4 and 12 weeks after surgery in the same way. Baseline characteristics of the treatment groups were compared using 2-sample t tests for continuous measures or a χ2 test for independent proportions for categorical measures. A 2-sided α level of .05 was designated for statistical significance.||||0.07
82641996|NCT00710840|164999089|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.92
82641997|NCT00710840|164999090|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.48
82641998|NCT00710840|164999091|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||Difference in the change from Preop to 4 weeks Postop|t-test, 2 sided|||||||0.41
82361220|NCT00108550|164433509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5343|STANDARD_ERROR_OF_MEAN|0.7174||0.458|TWO_SIDED|95.0|-1.94|0.872||Primary analyses was multivariable linear regression with fixed and random effects. After the Bonferroni adjustment a p-value would have been considered significant at 0.05 level if \<0.01.|Mixed Models Analysis|||This is a secondary analysis; the null hypothesis is that Gabapentin performs no better than placebo in reducing the Roland and Morris score.||0.872|-1.940|0.458
82391197|NCT02612610|164493466|OTHER||LS Mean Difference|-0.6||||0.0662|TWO_SIDED|95.0|-1.2|0.0|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 20 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.2|0.0662
82391198|NCT02612610|164493466|OTHER||LS Mean Difference|-0.7||||0.0197|TWO_SIDED|95.0|-1.4|-0.1|||Mixed Effect Repeated Measures model|||"Week 12 CSD Total Score: 50 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.1|-1.4|0.0197
82391199|NCT02612610|164493467|OTHER||LS Mean Difference|0.3||||0.1921|TWO_SIDED|95.0|-0.2|0.8|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.2|0.1921
82641999|NCT03309072|164999100|OTHER|To compare the old and new faces' hit rate, we calculated the true positive rate (TPR: the proportion of positives that are correctly identified as such). A repeated measures ANOVA was conducted with the TPR for both old and new faces as within-subjects variable and group (active vs sham) as between-subjects variable.|Mean Difference (Net)|10.66|||<|0.049|TWO_SIDED||||||ANOVA||Difference between active tDCS and sham tDCS|||||<.049
82642000|NCT01656850|164999131|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82642001|NCT01656850|164999132|SUPERIORITY_OR_OTHER|||||||0.2786|TWO_SIDED||||||Mixed Models Analysis|||||||0.2786
82642002|NCT01656850|164999133|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.420
82642003|NCT01656850|164999134|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82642004|NCT01656850|164999135|SUPERIORITY_OR_OTHER|||||||0.2412|TWO_SIDED||||||Mixed Models Analysis|||||||0.2412
82642005|NCT01656850|164999136|SUPERIORITY_OR_OTHER|||||||0.3837|TWO_SIDED||||||Mixed Models Analysis|||||||0.3837
82642006|NCT01656850|164999137|SUPERIORITY_OR_OTHER|||||||0.9784|TWO_SIDED||||||Mixed Models Analysis|||||||0.9784
82642007|NCT01656850|164999138|SUPERIORITY_OR_OTHER|||||||0.5868|TWO_SIDED||||||Mixed Models Analysis|||||||0.5868
82642008|NCT01656850|164999139|SUPERIORITY_OR_OTHER|||||||0.1101|TWO_SIDED||||||Mixed Models Analysis|||||||0.1101
82642009|NCT01656850|164999140|SUPERIORITY_OR_OTHER|||||||0.7823|TWO_SIDED||||||Mixed Models Analysis|||||||0.7823
82642010|NCT01656850|164999141|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||Mixed Models Analysis|||||||0.5570
82642011|NCT01656850|164999142|SUPERIORITY_OR_OTHER|||||||0.6263|TWO_SIDED||||||Mixed Models Analysis|||||||0.6263
82642012|NCT01656850|164999143|SUPERIORITY_OR_OTHER|||||||0.8328|TWO_SIDED||||||Mixed Models Analysis|||||||0.8328
82642013|NCT01656850|164999144|SUPERIORITY_OR_OTHER|||||||0.7758|TWO_SIDED||||||Mixed Models Analysis|||||||0.7758
82642014|NCT01656850|164999145|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED||||||Mixed Models Analysis|||||||0.0476
82361221|NCT02690935|164433530|SUPERIORITY|||||||0.642||||||No adjustment of the p-value|t-test, 2 sided|||H0: The efficacy of 2LALERG and placebo are similar H1: The efficacy of 2LALERG and placebo are different||||0.642
82361222|NCT02690935|164433531|SUPERIORITY|||||||0.829||||||No adjustment for multiplicity|t-test, 2 sided|||H0: 2LALERG and placebo have the same effect on the quality of life H1: 2LALERG and placebo do not have the same effect on the quality of life||||0.829
82361223|NCT04974580|164433538|SUPERIORITY||Odds Ratio (OR)|1.3||||0.14|TWO_SIDED|95.0|0.91|1.84||A priori threshold was 0.10|Regression, Logistic||Reported OR is NRT receipt vs. not, so values \>1 indicate higher odds of abstinence among those receiving NRT.|Comparison of NRT vs. no-NRT in model adjusted for receipt of digital component||1.84|0.91|0.14
82361224|NCT04974580|164433538|SUPERIORITY||Odds Ratio (OR)|1.04||||0.84|TWO_SIDED|95.0|0.73|1.47||A priori threshold was 0.10|Regression, Logistic||Reported OR is Digital receipt vs. not, so values \>1 indicate higher odds of abstinence among those receiving the Digital component.|Comparison of Digital vs. no Digital in model adjusted for receipt of NRT component||1.47|0.73|0.84
82361225|NCT00496262|164433546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.9|STANDARD_DEVIATION|4.4|<|0.0001||90.0|||||2-sided, 1-sample t-test||The entire ITT population was used for a conservative analysis of the mean change in MCF. The mean change was set to 0 for any subject with missing MCF data.|This is an open-label study with statistical comparison between MCF pre-infusion and 1 hour post-infusion.||||<0.0001
82361226|NCT01493596|164433559|OTHER|Comparison of event rates across dose groups.|percentage|14.3|||||TWO_SIDED||||||||There were a total of 5 non-serious adverse events for an AE rate of 14.3%|Descriptive statistics for evaluation of AEs|Descriptive statistics of adverse events|||
82361227|NCT04381481|164433560|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
82361228|NCT04381481|164433561|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||snacks with warning compared to control snack||||<0.001
82361229|NCT04381481|164433562|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
82642015|NCT01656850|164999146|SUPERIORITY_OR_OTHER|||||||0.1205|TWO_SIDED||||||Mixed Models Analysis|||||||0.1205
82642016|NCT01656850|164999147|SUPERIORITY_OR_OTHER|||||||0.1512|TWO_SIDED||||||Mixed Models Analysis|||||||0.1512
82361230|NCT04381481|164433563|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.001
82361231|NCT04381481|164433564|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||Beverages with claim compared to control beverage||||<0.01
82361232|NCT04381481|164433565|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361233|NCT04381481|164433566|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361234|NCT04381481|164433567|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361235|NCT04381481|164433568|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361236|NCT04381481|164433569|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Logistic|||beverages with claim compared to control beverage||||<0.01
82361237|NCT04381481|164433570|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.01
82361238|NCT04381481|164433571|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361239|NCT04381481|164433572|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361240|NCT04381481|164433573|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||beverages with claim compared to control beverage||||<0.001
82361241|NCT04381481|164433574|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361242|NCT04381481|164433575|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361243|NCT04381481|164433576|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361244|NCT04381481|164433577|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361245|NCT04381481|164433578|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361246|NCT04381481|164433579|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361247|NCT04381481|164433580|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361248|NCT04381481|164433581|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361249|NCT04381481|164433582|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361250|NCT04381481|164433583|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361251|NCT04381481|164433584|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82642017|NCT01656850|164999148|SUPERIORITY_OR_OTHER|||||||0.7364|TWO_SIDED||||||Mixed Models Analysis|||||||0.7364
82361252|NCT04381481|164433585|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82448803|NCT01959841|164604940|NON_INFERIORITY|Wherein the non-inferiority margin was set at 10%. If the one-sided P-value was less than 0.025 between the ASP2151(400mg) once daily and the valaciclovir 1000 mg three times daily, non-inferiority of ASP2151 to valaciclovir was assumed.||||||2.41e-06|||||||Modified Farrington-Manning test|||The non-inferiority of each ASP2151 dose level versus valaciclovir was assessed stepwise using a closed testing procedure.First step analysis was performed in the ASP2151(400mg) once daily.||||0.00000241
82527452|NCT03502616|164751402|SUPERIORITY||LS mean difference|3.61|STANDARD_ERROR_OF_MEAN|0.761|<|0.0001|TWO_SIDED|95.0|2.11|5.1|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.10|2.11|<0.0001
82527453|NCT03502616|164751402|SUPERIORITY||LS mean difference|5.42|STANDARD_ERROR_OF_MEAN|0.902|<|0.0001|TWO_SIDED|95.0|3.65|7.2|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.20|3.65|<0.0001
82527454|NCT03502616|164751402|SUPERIORITY||LS mean difference|5.01|STANDARD_ERROR_OF_MEAN|0.943|<|0.0001|TWO_SIDED|95.0|3.15|6.86|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||6.86|3.15|<0.0001
82527455|NCT03502616|164751402|SUPERIORITY||LS mean difference|3.43|STANDARD_ERROR_OF_MEAN|1.012||0.0008|TWO_SIDED|95.0|1.44|5.42|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||5.42|1.44|0.0008
82527456|NCT03502616|164751402|SUPERIORITY||LS mean difference|1.58|STANDARD_ERROR_OF_MEAN|1.064||0.139|TWO_SIDED|95.0|-0.52|3.68|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.68|-0.52|0.1390
82527457|NCT03502616|164751402|SUPERIORITY||LS mean difference|0.66|STANDARD_ERROR_OF_MEAN|1.024||0.5217|TWO_SIDED|95.0|-1.36|2.67|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.67|-1.36|0.5217
82527458|NCT03502616|164751402|SUPERIORITY||LS mean difference|1.51|STANDARD_ERROR_OF_MEAN|1.027||0.1415|TWO_SIDED|95.0|-0.51|3.54|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.54|-0.51|0.1415
82527459|NCT03502616|164751402|SUPERIORITY||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|1.128||0.0533|TWO_SIDED|95.0|-0.03|4.41|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.41|-0.03|0.0533
82527460|NCT03502616|164751403|SUPERIORITY||LS mean difference|1.25|STANDARD_ERROR_OF_MEAN|0.352||0.0005|TWO_SIDED|95.0|0.55|1.94|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.94|0.55|0.0005
82527461|NCT03502616|164751403|SUPERIORITY||LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|0.95|2.45|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.45|0.95|<0.0001
82574807|NCT02358668|164859025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.18|TWO_SIDED|95.0|-1.62|0.31||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.31|-1.62|0.18
82361253|NCT04381481|164433586|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82361254|NCT04381481|164433587|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance is \< 0.05.|Regression, Linear|||warning snacks compared to control snack||||<0.001
82391200|NCT02612610|164493467|OTHER||LS Mean Difference|0.3||||0.2428|TWO_SIDED|95.0|-0.2|0.8|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 20 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.2|0.2428
82361255|NCT04784637|164433589|SUPERIORITY|||||||0.064|||||||t-test, 2 sided|||||||0.064
82361256|NCT04784637|164433589|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82361257|NCT04784637|164433590|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82361258|NCT04784637|164433590|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
82391201|NCT02612610|164493467|OTHER||LS Mean Difference|-0.1||||0.7383|TWO_SIDED|95.0|-0.6|0.4|||Mixed Effect Repeated Measures model|||"Week 1 DCS Total Score: 50 mg gefapixant vs. placebo~Week 1 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.6|0.7383
82361259|NCT05103657|164433609|OTHER||Mean Difference (Net)|0.06||||0.9726|TWO_SIDED|95.0|-3.31|3.43|||Mixed Models for repeated measures||"Least Squares mean of BI 1358894 125 mg - Least Square mean of Placebo."|Least Squares (LS) means differences and confidence intervals were estimated by REML-based MMRM including the fixed categorical covariates of treatment, and the stratification indicator of presence of significant childhood trauma (yes vs. no), the continuous fixed covariate of baseline CAPS-5 total severity score, time since index event (in years) and the treatment-by-visit interaction. Patient is considered as random. Unstructured covariance matrix was used.||3.43|-3.31|0.9726
82361260|NCT05103657|164433610|OTHER||Odds Ratio (OR)|1.002||||0.9945|TWO_SIDED|95.0|0.608|1.65|||Regression, Logistic||BI 1358894 125 mg vs. Placebo|Logistic regression was adjusted for fixed factors of treatment and presence of significant childhood trauma (yes vs. no).||1.650|0.608|0.9945
82361261|NCT05103657|164433611|OTHER||Odds Ratio (OR)|0.912||||0.7167|TWO_SIDED|95.0|0.552|1.504|||Regression, Logistic||BI 1358894 125 mg vs. Placebo|Logistic regression was adjusted for fixed factors of treatment and presence of significant childhood trauma (yes vs. no).||1.504|0.552|0.7167
82361262|NCT05103657|164433612|OTHER||Mean Difference (Net)|0.66||||0.723|TWO_SIDED|95.0|-3.0|4.32|||Mixed Models for Repeated Measures||"Least Square mean of BI 1358894 125 mg - Least Square mean of Placebo."|Least Square (LS) means differences and confidence intervals were estimated by REML-based MMRM including the fixed categorical covariates of treatment, and the stratification indicator of presence of significant childhood trauma (yes vs. no), the continuous fixed covariate of baseline CAPS-5 total severity score, time since index event (in years) and the treatment-by-visit interaction. Patient is considered as random. Unstructured covariance matrix was used.||4.32|-3.00|0.7230
82361263|NCT02020967|164433617|OTHER||Odds Ratio (OR)|7.34||||0.0196|TWO_SIDED|95.0|1.38|39.11|||Regression, Logistic|||Predictor variable: Lips enlargement||39.11|1.38|0.0196
82361264|NCT04234464|164433622|SUPERIORITY||Mean Difference (Final Values)|13.51|||<|0.001|TWO_SIDED|95.0|10.09|16.94|||Mixed Models Analysis|||Maximum percentage fall in post-dose pre-exercise FEV₁ up to 60 minutes post-exercise challenge is analyzed using a mixed effects model adjusted for treatment, treatment period, treatment sequence as categorical fixed effects, period-specific pre-dose baseline FEV₁ and average pre-dose baseline FEV₁ as continuous covariates, and a random subject within treatment sequence effect.||16.94|10.09|<0.001
82361265|NCT04234464|164433623|SUPERIORITY||Odds Ratio (OR)|10.548|||<|0.001|TWO_SIDED|95.0|4.311|25.805|||Mixed Models Analysis|||A generalized linear mixed model with logit link adjusted for treatment, treatment period and treatment sequence as fixed effects, pre-dose baseline FEV₁ and average pre-dose baseline FEV₁ as continuous covariates, and a random subject within treatment sequence effect.||25.805|4.311|<0.001
82361266|NCT02578745|164433630|SUPERIORITY||Risk Ratio (RR)|1.67||||0.72|TWO_SIDED|95.0|0.42|6.67|||Chi-squared|||||6.67|.42|0.72
82391202|NCT02612610|164493468|OTHER||LS Mean Difference|0.3||||0.4033|TWO_SIDED|95.0|-0.4|0.9|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.9|-0.4|0.4033
82391203|NCT02612610|164493468|OTHER||LS Mean Difference|0.2||||0.4599|TWO_SIDED|95.0|-0.4|0.9|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 20 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.9|-0.4|0.4599
82574808|NCT02358668|164859025|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.37|TWO_SIDED|95.0|-0.51|1.36||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||1.36|-0.51|0.37
82361267|NCT02578745|164433631|SUPERIORITY||Risk Ratio (RR)|1.67||||0.72|TWO_SIDED|95.0|0.42|6.67|||Chi-squared|||||6.67|.42|0.72
82361268|NCT02578745|164433632|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82391204|NCT02612610|164493468|OTHER||LS Mean Difference|-0.3||||0.2837|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 2 DCS Total Score: 50 mg gefapixant vs. placebo~Week 2 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.2837
82642018|NCT01656850|164999149|SUPERIORITY_OR_OTHER|||||||0.1995|TWO_SIDED||||||Mixed Models Analysis|||||||0.1995
82642019|NCT01656850|164999150|SUPERIORITY_OR_OTHER|||||||0.8528|TWO_SIDED||||||Mixed Models Analysis|||||||0.8528
82361269|NCT02578745|164433633|SUPERIORITY||||||>|0.99|TWO_SIDED|95.0|||||Chi-squared|||||||>0.99
82361270|NCT02578745|164433634|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
82361271|NCT02578745|164433635|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.50
82361272|NCT00330460|164433636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.22%.|Mean Difference (Final Values)|1.0|||<|0.0001||95.0|0.7|1.2|||ANCOVA|||||1.2|0.7|<0.0001
82361273|NCT00330460|164433637|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -2.29%.|Mean Difference (Final Values)|1.1|||<|0.0001||95.0|0.7|1.4||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1.4|0.7|<0.0001
82361274|NCT00330460|164433638|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.65%|Mean Difference (Final Values)|1.0|||<|0.0001||95.0|0.6|1.4||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1.4|0.6|<0.0001
82361275|NCT00330460|164433639|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -1.04%|Mean Difference (Final Values)|0.6|||<|0.0001||95.0|0.3|1.0||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||1|0.3|<0.0001
82361276|NCT00330460|164433640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.0001||95.0|0.3|0.9||The reported p-value was the one-sided adjusted p-valued based on multiplicity adjustment of the secondary efficacy endpoints|ANCOVA|||||0.9|0.3|0.0001
82361277|NCT03712124|164433641|OTHER||Least Square (LS) Mean Difference|-6.44||||0.903|TWO_SIDED|95.0|-116.18|103.31|||ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) model with change from baseline at Day 14 as the dependent variable and baseline maximum tolerated volume and treatment as covariates.||103.31|-116.18|0.9030
82642020|NCT00795210|164999159|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Kruskal-Wallis|||Kruskal-Wallis Test for overall difference between groups||||0.01
82642021|NCT00795210|164999160|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||ANOVA|||||||0.42
82642022|NCT00296192|164999170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|2.91||||95.0|-2.9|8.7|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||8.7|-2.9|
82642023|NCT00296192|164999170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|2.93||||95.0|-5.7|6.0|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||6.0|-5.7|
82361278|NCT03712124|164433642|OTHER||LS Mean Difference|98.45||||0.0042|TWO_SIDED|95.0|35.81|161.08|||ANCOVA|||Analysis was performed using ANCOVA model with change from baseline at Day 28 as the dependent variable and baseline maximum tolerated volume and treatment as covariates.||161.08|35.81|0.0042
82361279|NCT00127166|164433698|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-3.25||||0.009||95.0|-5.66|-0.84|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period||||-0.84|-5.66|0.009
82361280|NCT00127166|164433699|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-52.71||||0.006||95.0|-89.76|-15.66|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period.||||-15.66|-89.76|0.006
82361281|NCT00127166|164433700|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.11|||<|0.001||95.0|2.58|5.64|||ANCOVA|Participant, treatment, period \& covariate for FEV1 %-predicted Treatment test is adjusted for period \& FEV1 %-predicted at pre-exercise baseline||||5.64|2.58|<0.001
82361282|NCT00127166|164433701|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.26||||0.035||95.0|1.02|1.55|||Cox Proportional Hazards Model|Model terms: treatment and period|Dispersion not applicable to time to event data|||1.55|1.02|0.035
82361283|NCT00127166|164433702|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.8|||<|0.001||95.0|2.28|5.32|||ANOVA|Model terms: participant, treatment and period. The treatment test is adjusted for period.||||5.32|2.28|<0.001
82361284|NCT04728620|164433711|SUPERIORITY|single group|mean|79.3||||0.001|TWO_SIDED||||||t-test, 1 sided|||"One-sample t-test comparing the sample mean to the threshold value of 71 indicative of good usability. The null hypothesis: true mean is 71 or less."||||0.001
82361285|NCT04728620|164433713|OTHER||Mean Difference (Net)|0.57||||0.005|TWO_SIDED||||||t-test, 2 sided|||||||0.005
82361286|NCT04728620|164433714|OTHER||Mean Difference (Net)|-0.85||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
82361287|NCT04728620|164433715|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended A1c monitoring frequency||||1
82361288|NCT04728620|164433715|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended urine microalbumin screening frequency||||1
82361289|NCT04728620|164433715|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended pneumonia vaccination frequency||||1
82361290|NCT04728620|164433715|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of recommended diabetes eye exam frequency||||1
82361291|NCT02030535|164433722|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.219|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.187|0.252||Mixed effect model repeated measures (MMRM) including fixed effects of treatment and period; patient baseline and period baseline as covariates; patient as a random effect|Mixed models repeated measures analysis|Kenward-Roger approximation of denominator degrees of freedom. Compound symmetry covariance structure for within-patient variation|Tio+Olo 5/5μg minus Placebo.|||0.252|0.187|<0.0001
82361292|NCT02030535|164433722|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.252|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.22|0.284||Mixed effect model repeated measures (MMRM) including fixed effects of treatment and period; patient baseline and period baseline as covariates; patient as a random effect|Mixed models repeated measures analysis|Kenward-Roger approximation of denominator degrees of freedom. Compound symmetry covariance structure for within-patient variation.|Tiotropium 5μg + Olodaterol 5μg minus Placebo.|||0.284|0.220|<0.0001
82361293|NCT02030535|164433722|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.033|STANDARD_ERROR_OF_MEAN|0.016|||TWO_SIDED|95.0|-0.065|-0.001|||||Tio+Olo 5/5μg minus Tiotropium 5μg + Olodaterol 5μg.|Descriptive comparison. Statistical Analyses 1 \& 2 were included in the hierarchical testing sequence (alpha protected), and analysis 3 was not included in the hierarchical testing sequence (not alpha protected)||-0.001|-0.065|
82361294|NCT01557582|164433756|SUPERIORITY_OR_OTHER||EDV percent difference|4.8|||||TWO_SIDED|95.0|2.24|7.56|||||Mean percent difference and 95% CI for EDV|||7.56|2.24|
82642024|NCT00296192|164999170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|2.86||||95.0|-2.8|8.6|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||8.6|-2.8|
82642025|NCT00296192|164999170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|3.02||||95.0|-7.4|4.6|||ANCOVA|||Analysis of covariance modeling change from baseline at 24 minutes post-dose in UPDRS Part III, controlling for treatment group and baseline value.||4.6|-7.4|
82642026|NCT00296192|164999171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6|STANDARD_ERROR_OF_MEAN|8.58||||95.0|-25.7|8.5|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||8.5|-25.7|
82642027|NCT00296192|164999171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.8|STANDARD_ERROR_OF_MEAN|8.63||||95.0|-34.0|0.4|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||0.4|-34.0|
82642028|NCT00296192|164999171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|8.45||||95.0|-18.2|15.4|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||15.4|-18.2|
82642029|NCT00296192|164999171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.5|STANDARD_ERROR_OF_MEAN|8.9||||95.0|-23.3|12.2|||ANCOVA|||Analysis of covariance modeling change from baseline to 34 minutes post-dose in tapping rate, controlling for treatment group and baseline value.||12.2|-23.3|
82642030|NCT00296192|164999172|SUPERIORITY_OR_OTHER||Difference in proportions|-20.6||||||95.0|-53.3|12.1|||Confidence interval|||95% confidence interval in difference in success rate||12.1|-53.3|
82642031|NCT00296192|164999172|SUPERIORITY_OR_OTHER||Difference in proportions|4.4||||||95.0|-25.9|34.7|||95% confidence interval|||95% confidence interval in difference in success rate||34.7|-25.9|
82642032|NCT00296192|164999172|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||||95.0|-30.6|30.6|||95% confidence interval|||95% confidence interval in difference in success rate||30.6|-30.6|
82642033|NCT00296192|164999172|SUPERIORITY_OR_OTHER||Difference in proportions|4.4||||||95.0|-25.9|34.7|||95% confidence interval|||95% confidence interval in difference in success rate||34.7|-25.9|
82642034|NCT03504839|164999175|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82642035|NCT01441401|164999190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045|||||||Fisher Exact|||"The factor tested was baseline severity of epileptic seizure. The null hypothesis was that there was no association between the baseline severity of epileptic seizure (mild, moderate, and severe) and the number of participants who responded to the treatment with gabapentin."||||0.045
82642036|NCT01441401|164999190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Armitage (EXACT)|||"The factor tested was baseline severity of epileptic seizure. The null hypothesis was that there was no ordinal trend in the number of responders to the treatment with gabapentin across the baseline severity of epileptic seizure (mild, moderate, and severe)."||||0.017
82642037|NCT01441401|164999191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Fisher Exact|||"The factor tested was baseline frequency of epileptic seizure. The null hypothesis was that there was no difference between the baseline frequency of epileptic seizure and the number of participants who responded to the treatment with gabapentin."||||0.018
82642038|NCT01441401|164999192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Fisher Exact|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no association between the number of concomitant antiepileptic drugs at baseline and the number of participants who responded to the treatment with gabapentin."||||0.034
82642039|NCT01441401|164999192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Cochran-Armitage (EXACT)|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no ordinal trend in the number of responders to the treatment with gabapentin across the increasing number of concomitant antiepileptic drugs at baseline."||||0.005
82642040|NCT01441401|164999193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||"The factor tested was treatment period with gabapentin. The null hypothesis was that there was no association between the treatment period with gabapentin and the number of participants who responded to the treatment with gabapentin."||||<0.001
82642041|NCT01900392|164999224|OTHER||||||>|0.1|||||||Regression, Linear|||||||>0.1
82642042|NCT00848965|164999230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.08|-0.68|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-0.68|-2.08|
82642043|NCT00848965|164999230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.309|||TWO_SIDED|95.0|-2.16|-0.93|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-0.93|-2.16|
82642044|NCT00848965|164999230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-2.33|-1.11|||||Treatment difference (FP minus placebo) is presented as the difference in the adjusted means for treatment versus placebo.|||-1.11|-2.33|
82642045|NCT00848965|164999230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|-2.6|-1.19|||||Treatment difference is presented as the difference in the adjusted means for treatment versus placebo.|||-1.19|-2.60|
82361295|NCT01557582|164433756|SUPERIORITY_OR_OTHER||ESV percent difference|1.76|||||TWO_SIDED|95.0|-1.17|4.76|||||Mean percent difference and 95% CI for ESV|||4.76|-1.17|
82361296|NCT01557582|164433756|SUPERIORITY_OR_OTHER||EF percent difference|2.03|||||TWO_SIDED|95.0|0.72|3.33|||||Mean percent difference and 95% CI for EF|||3.33|0.72|
82361297|NCT03203642|164433779|SUPERIORITY||LS mean difference|-0.0052|STANDARD_ERROR_OF_MEAN|0.0082||0.5265|TWO_SIDED|95.0|-0.0217|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0112|-0.0217|0.5265
82642046|NCT00659945|164999242|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||The primary endpoint was the incidence of emesis at any time within the first 48 hours after surgery. Power analysis showed that a sample size of 69 patients per group was necessary to detect a significant decrease in the incidence of emesis from 33% in the placebo group to 15% in the aprepitant group using a Chi-square test with an alpha value of 0.05 and power of 80%.||||<0.05
82642047|NCT01976104|164999244|SUPERIORITY||Difference of proportion versus placebo|33.7|||=|0.0006|TWO_SIDED|95.0|15.8|51.6|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||51.6|15.8|=0.0006
82642048|NCT01976104|164999244|SUPERIORITY||Difference of proportion versus placebo|54.6|||<|0.0001|TWO_SIDED|95.0|36.5|72.7|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort|Difference of proportion vs placebo = proportion of Responders for avatrombopag - proportion of Responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the 60 mg avatrombopag and matched placebo treatment groups.||72.7|36.5|<0.0001
82642049|NCT01976104|164999245|SUPERIORITY||Difference of proportion versus placebo|60.2|||<|0.0001|TWO_SIDED|95.0|46.8|73.5|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups.||73.5|46.8|<0.0001
82642050|NCT01976104|164999245|SUPERIORITY||Difference of proportion versus placebo|53.7|||<|0.0001|TWO_SIDED|95.0|35.8|71.6|||Cochran-Mantel-Haenszel|Stratified by the risk of bleeding associated with the scheduled procedure within each Baseline platelet count cohort.|Difference of proportion vs placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|The null hypothesis was that the proportion of participants not requiring a platelet transfusion or any rescue procedure for bleeding after randomization and up to 7 days following a scheduled procedure was the same between the avatrombopag and placebo treatment groups||71.6|35.8|<0.0001
82642051|NCT01976104|164999246|SUPERIORITY||Difference in change of platelet count|25.4|||<|0.0001|TWO_SIDED|95.0|19.5|32.0|||Wilcoxon Rank Sum Test|P-value was based on Wilcoxon Rank Sum Test for each avatrombopag treatment group versus placebo within each Baseline platelet count cohort.|Difference in change from Baseline of platelet count for avatrombopag versus placebo within each Baseline platelet count cohort was based on Hodges-Lehmann estimation; 95% CI was the asymptotic (Moses) CI|||32.0|19.5|<0.0001
82642052|NCT01976104|164999246|SUPERIORITY||Difference in change of platelet count|36.3|||<|0.0001|TWO_SIDED|95.0|25.5|45.5|||Wilcoxon Rank Sum Test|P-value was based on Wilcoxon Rank Sum Test for each avatrombopag treatment group versus placebo within each Baseline platelet count cohort.|Difference in change from baseline of platelet count for avatrombopag vs. placebo within each baseline platelet count cohort is based on Hodges-Lehmann estimation; 95% confidence interval is the asymptotic (Moses) CI.|||45.5|25.5|<0.0001
82642053|NCT01353209|164999249|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.4
82642054|NCT01353209|164999250|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.7
82642055|NCT01353209|164999251|SUPERIORITY|||||||0.8|||||||Regression, Linear|Linear Mixed-Effects Model Adjusted for Sirolimus Use||||||0.8
82642056|NCT01353209|164999251|SUPERIORITY|||||||0.8|||||||Regression, Linear|||||||.8
82642057|NCT01353209|164999252|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|Linear Mixed-Effects Model Adjusted for Sirolimus Use. P value was obtained for testing zero slope for log(VEGF-D).||||||0.015
82642058|NCT02181673|164999275|SUPERIORITY_OR_OTHER||Percent Difference|53.4|||<|0.001|TWO_SIDED|95.0|45.8|60.9|||Cochran-Mantel-Haenszel|||||60.90|45.80|<0.001
82642059|NCT00337727|164999299|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Superiority based on 2-sided level of significance of 0.05, based on a logistic regression model that included terms for treatment group, region and gender.|Regression, Logistic|||||||<0.01
82642060|NCT00337727|164999300|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Superiority based on 2-sided level of significance of 0.05, based on a logistic regression model that included terms for treatment group, region and gender.|Regression, Logistic|||||||<0.01
82642061|NCT00943826|164999301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.55|0.74||Stratified by Region and Recursive partitioning analysis (RPA) Class|Log Rank||Stratified by Region and RPA Class.|||0.74|0.55|<0.0001
82361298|NCT03203642|164433780|SUPERIORITY||LS mean difference|-0.0042|STANDARD_ERROR_OF_MEAN|0.0111||0.7076|TWO_SIDED|95.0|-0.0264|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0180|-0.0264|0.7076
82574809|NCT02358668|164859026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.14||||0.06|TWO_SIDED|95.0|-4.36|0.09||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||0.09|-4.36|0.06
82642062|NCT00943826|164999302|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0987|TWO_SIDED|95.0|0.76|1.02|||Log Rank|Stratified by Region and RPA Class|Stratified by Region and RPA Class.|||1.02|0.76|0.0987
82642063|NCT00943826|164999303|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.53|0.71||Stratified by Region and RPA Class.|Log Rank||Stratified by Region and RPA Class.|||0.71|0.53|<0.0001
82642064|NCT00326625|164999308|SUPERIORITY||Slope difference|-0.06|STANDARD_ERROR_OF_MEAN|0.083||0.4807|TWO_SIDED|95.0|-0.22|0.1|||ANCOVA||Glatiramer acetate vs. Placebo|Analysis compares the ALSFRS-R slopes of change from baseline between treatment groups. Analysis includes the following covariates: time from randomization, treatment group, time by treatment interaction, center, Riluzole use, age, site of ALS onset, time from ALS onset and baseline ALSFRS-R score.||0.10|-0.22|0.4807
82642065|NCT00326625|164999309|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8583|TWO_SIDED|95.0|0.56|2.005|||Regression, Cox||Glatiramer acetate vs. Placebo|Analysis covariates are center, riluzole use, site of ALS onset, time from ALS onset, baseline ALSFRS-R score, baseline slow vital capacity (VC) and baseline body mass index (BMI).||2.005|0.560|0.8583
82642066|NCT00517868|164999310|NON_INFERIORITY|A paired student t comparison was used to assess treatment differences as measured by 11 point numerical rating scale.|Mean Difference (Final Values)|-21.14||||0.0363|TWO_SIDED|95.0|-44.43|2.16|||t-test, 1 sided|||||2.16|-44.43|0.0363
82642067|NCT06067191|164999315|OTHER||Difference in Least Square Mean|-312.28||||0.0009|TWO_SIDED|95.0|-489.17|-135.38|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-135.38|-489.17|0.0009
82642068|NCT06067191|164999316|OTHER||Difference in Least Square Mean|-1.45||||0.0047|TWO_SIDED|95.0|-2.43|-0.47|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-0.47|-2.43|0.0047
82642069|NCT06067191|164999317|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82642070|NCT06067191|164999318|OTHER|||||||0.0051|||||||Log Rank|||||||0.0051
82642071|NCT06067191|164999319|OTHER|||||||0.0077|||||||Log Rank|||||||0.0077
82642072|NCT06067191|164999320|OTHER||Difference in Least Square Mean|-87.4||||0.0268|TWO_SIDED|95.0|-164.3|-10.49|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||-10.49|-164.30|0.0268
82642073|NCT06067191|164999321|OTHER||Difference in Least Square Mean|-0.99||||0.0865|TWO_SIDED|95.0|-2.13|0.15|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||0.15|-2.13|0.0865
82642074|NCT06067191|164999322|OTHER|||||||0.0008|||||||Log Rank|||||||0.0008
82642075|NCT06067191|164999323|OTHER|||||||0.8579|||||||Log Rank|||||||0.8579
82361299|NCT03203642|164433781|SUPERIORITY||LS mean difference|-0.0122|STANDARD_ERROR_OF_MEAN|0.014||0.3895|TWO_SIDED|95.0|-0.0404|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0160|-0.0404|0.3895
82574810|NCT02358668|164859026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43||||0.69|TWO_SIDED|95.0|-1.71|2.58||The p-value of treatment effects (reference to placebo) were obtained by mixed effect model analysis comparing the outcome values adjusted with repeated measures, ages and gender.|Mixed Models Analysis|||||2.58|-1.71|0.69
82574811|NCT02358668|164859027|SUPERIORITY_OR_OTHER|||||||0.29||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.29
82642076|NCT06067191|164999324|OTHER||Difference in Least Square Mean|-93.95||||0.0658|TWO_SIDED|95.0|-194.26|6.36|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||6.36|-194.26|0.0658
82642077|NCT06067191|164999325|OTHER||Difference in Least Square Mean|-93.95||||0.0658|TWO_SIDED|95.0|-194.26|6.36|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||6.36|-194.26|0.0658
82642078|NCT06067191|164999326|OTHER||Difference in Least Square Mean|-0.93||||0.203|TWO_SIDED|95.0|-2.38|0.52|||ANCOVA||Analysis was performed using ANCOVA with treatment group as a fixed effect and baseline viral load as the covariate.|||0.52|-2.38|0.2030
82642079|NCT04764669|164999345|SUPERIORITY|Primary comparisons were: DLB without amyloid copathology versus DLB with amyloid copathology|Least squares mean difference|-20.022|||||TWO_SIDED|95.0|-77.635|37.591||||||||37.591|-77.635|
82361300|NCT03203642|164433782|SUPERIORITY||LS mean difference|0.0015|STANDARD_ERROR_OF_MEAN|0.0131||0.9093|TWO_SIDED|95.0|-0.0248|||Threshold for significance at 0.05 level.|ANCOVA|||An ANCOVA model included treatment group as a factor and the Baseline htTKV (log10 transformed) as a covariate for the analysis. The outcome measure was tested at 2-sided 0.05 level to control Type I error rate.||- 0.0278|-0.0248|0.9093
82444164|NCT00541346|164596867|SUPERIORITY_OR_OTHER||Bayesian random intercept model.|3.5|||<|0.001|TWO_SIDED|95.0|1.8|5.2||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||5.2|1.8|<0.001
82361301|NCT00109837|164433807|SUPERIORITY_OR_OTHER||Proportion in 1-year CCR|0.36|STANDARD_DEVIATION|0.06|||ONE_SIDED|95.0|0.25|||||||The regimen would be of no further interest if the true 1-year continuous complete remission (CCR) rate was less than 45% (null). Sample size was chosen for an alternative of 65%, power of 92% and type-1 error of 4.6%.|||0.25|
82361302|NCT00988208|164433824|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.0017|TWO_SIDED|95.0|1.17|2.0||p-value is based on unstratified log-rank test|Log Rank|||||2.00|1.17|0.0017
82361303|NCT00988208|164433825|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.0187|TWO_SIDED|95.0|1.05|1.66|||Log Rank|P-value is based on unstratified log-rank test||||1.66|1.05|0.0187
82444165|NCT00541346|164596868|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-10.9|||<|0.001|TWO_SIDED|95.0|-16.8|-5.4||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||-5.4|-16.8|<0.001
82444166|NCT00541346|164596869|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|1.94|||>|0.21|TWO_SIDED|95.0|-2.98|6.82||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||6.82|-2.98|>0.21
82444167|NCT00541346|164596870|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-3.4|||>|0.06|TWO_SIDED|95.0|-7.9|0.8||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||0.80|-7.9|>0.06
82448804|NCT01959841|164604940|NON_INFERIORITY|Wherein the non-inferiority margin was set at 10%. If the one-sided P-value was less than 0.025 between the ASP2151(200mg) once daily and the valaciclovir 1000 mg three times daily, non-inferiority of ASP2151 to valaciclovir was assumed.||||||0.0688|||||||Modified Farrington-Manning test|||The analysis was performed in the ASP2151(200 mg) once daily only when non-inferiority of the ASP2151(400 mg) 0nce daily to valaciclovir 1000 mg three times daily was assumed.||||0.0688
82574812|NCT02358668|164859027|SUPERIORITY_OR_OTHER|||||||0.22||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.22
82574813|NCT02358668|164859028|SUPERIORITY_OR_OTHER|||||||0.41||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.41
82574814|NCT02358668|164859028|SUPERIORITY_OR_OTHER|||||||0.48||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.48
82361304|NCT00988208|164433826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.884||||0.3975|TWO_SIDED|95.0|0.665|1.176|||Chi-squared|||||1.176|0.665|0.3975
82574815|NCT02358668|164859029|SUPERIORITY_OR_OTHER|||||||0.61||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.61
82642080|NCT04764669|164999345|SUPERIORITY|Primary comparisons were: PDD without amyloid copathology versus PDD with amyloid copathology.|Least squares mean difference|-175.65|||||TWO_SIDED|95.0|-287.407|-63.893||||||||-63.893|-287.407|
82361305|NCT00317642|164433838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9951|TWO_SIDED|95.0|0.78|1.28|||Log Rank|||Full Analysis Set (FAS) population||1.28|0.78|0.9951
82361306|NCT00317642|164433838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.4674|TWO_SIDED|95.0|0.81|1.57|||Log Rank|||Participants stratified by calculated strata remission after first pre-study induction regimen (CR1) \< 6 months||1.57|0.81|0.4674
82361307|NCT00317642|164433838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.3963|TWO_SIDED|95.0|0.58|1.24|||Log Rank|||Participants stratified by calculated strata CR1\>= 6 months||1.24|0.58|0.3963
82361308|NCT00317642|164433839|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population - overall remission (OR)||||<0.0001
82361309|NCT00317642|164433839|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population - Complete Remission (CR)||||0.0005
82361310|NCT00317642|164433839|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \<6 months \[Overall Remission (CR+CRi)\]||||0.0022
82361311|NCT00317642|164433839|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \>=6 months \[Overall Remission (CR+CRi)\]||||0.0019
82361312|NCT00317642|164433839|SUPERIORITY_OR_OTHER|||||||0.0353||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \<6 months \[Complete Remission (CR)\]||||0.0353
82361313|NCT00317642|164433839|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||Fisher Exact|||Participants stratified by calculated strata - CR1 \>=6 months \[Complete Remission (CR)\]||||0.0096
82361314|NCT00317642|164433844|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.0001|TWO_SIDED|95.0|0.49|0.8|||Log Rank|||Full Analysis Set (FAS) population.||0.80|0.49|0.0001
82361315|NCT00317642|164433844|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.0131|TWO_SIDED|95.0|0.49|0.93|||Log Rank|Comparison P-value is from a log-rank test with no strata||Participants stratified by randomization strata CR1 \<6 months||0.93|0.49|0.0131
82361316|NCT00317642|164433844|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.0022||95.0|0.4|0.83|||Log Rank|Comparison p-value is from a log-rank test with no strata.||Participants stratified by randomization strata CR1 \>=6 months||0.83|0.40|0.0022
82361317|NCT00317642|164433845|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8209|TWO_SIDED|95.0|0.77|1.23|||Log Rank|||Full Analysis Set (FAS) population||1.23|0.77|0.8209
82361318|NCT00317642|164433845|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5071|TWO_SIDED|95.0|0.81|1.53|||Log Rank|||||1.53|0.81|0.5071
82361319|NCT00317642|164433845|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.2906|TWO_SIDED|95.0|0.59|1.17|||Log Rank|||||1.17|0.59|0.2906
82361320|NCT00317642|164433846|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.49|0.79|||Log Rank|||Full Analysis Set (FAS) population.||0.79|0.49|<.0001
82361321|NCT00317642|164433846|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0486|TWO_SIDED|95.0|0.53|1.01|||Log Rank|||||1.01|0.53|0.0486
82361322|NCT00317642|164433846|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0002|TWO_SIDED|95.0|0.37|0.74|||Log Rank|||||0.74|0.37|0.0002
82361323|NCT00317642|164433847|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Full Analysis Set (FAS) population||||<0.0001
82361324|NCT00317642|164433847|SUPERIORITY_OR_OTHER|||||||0.0088||95.0|||||Fisher Exact|||Participants stratified by randomization strata CR1 \<6 months.||||0.0088
82361325|NCT00317642|164433847|SUPERIORITY_OR_OTHER|||||||0.0017||95.0|||||Fisher Exact|||Participants stratified by randomization strata CR1 \>=6 months||||0.0017
82361326|NCT00317642|164433848|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82361327|NCT00317642|164433848|SUPERIORITY_OR_OTHER|||||||0.0506||95.0|||||Fisher Exact|||||||0.0506
82361328|NCT00317642|164433848|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82361329|NCT02744755|164433850|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.129|||TWO_SIDED|95.0|-0.24|0.27||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 12 will be concluded if the 95% confidence interval for the LS mean difference between GP2017 and Humira is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.27|-0.24|
82361330|NCT02744755|164433850|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.129|||TWO_SIDED|90.0|-0.19|0.23||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 12 will be concluded if the 90% confidence interval for the LS mean difference between GP2017 and Humira is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.23|-0.19|
82574816|NCT02358668|164859029|SUPERIORITY_OR_OTHER|||||||0.89||||||The univariate p-value of treatment group was obtained by t-tests comparing the changes to that of placebo group|t-test, 2 sided|||||||0.89
82574817|NCT00233480|164859078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|TWO_SIDED|95.0|||||paired t test|||||||0.025
82361331|NCT02744755|164433851|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.096|||TWO_SIDED|95.0|-0.11|0.27|||ANCOVA|||ANCOVA model included treatment, body weight as per CRF, prior therapy as per CRF, region as per CRF as fixed effects and baseline DAS28-CRP values as covariate.||0.27|-0.11|
82361332|NCT02744755|164433851|EQUIVALENCE|A 0.6 change in DAS28-CRP score is considered as no clinically meaningful difference by EULAR criteria and is therefore used as the equivalence margin limits \[0.6,-0.6\].|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.096|||TWO_SIDED|90.0|-0.08|0.24|||ANCOVA|||ANCOVA model included treatment, body weight as per CRF, prior therapy as per CRF, region as per CRF as fixed effects and baseline DAS28-CRP values as covariate.||0.24|-0.08|
82361333|NCT03180801|164433883|OTHER|||||||0.03|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower MMID rate than placebo.||||0.03
82361334|NCT03180801|164433883|OTHER|||||||0.07|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower MMID rate than placebo.||||0.07
82361335|NCT03180801|164433884|OTHER|One sided Fisher's exact test is used to test if TEAE rates of vaccine group is higher than the placebo group.||||||0.647|||||||Fisher Exact|||One sided Fisher's exact test is used to test if the TEAE rates pre-inoculation recorded for the treatment group are higher than for placebo.||||0.647
82391205|NCT02612610|164493469|OTHER||LS Mean Difference|0.1||||0.8084|TWO_SIDED|95.0|-0.6|0.8|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.8|-0.6|0.8084
82391206|NCT02612610|164493469|OTHER||LS Mean Difference|-0.2||||0.6108|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 20 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6108
82361336|NCT03180801|164433884|OTHER|||||||1|||||||Fisher Exact|||One-sided Fisher's exact test is used to test if TEAE rate of vaccine group recorded pre-inoculation is higher than placebo.||||1.00
82361337|NCT03180801|164433884|OTHER|||||||0.024|||||||Fisher Exact|||One sided Fisher's exact test is used to test if TEAE rate of vaccine group post-inoculation is higher than the placebo group.||||0.0240
82361338|NCT03180801|164433884|OTHER|||||||0.186|||||||Fisher Exact|||One sided Fisher's exact test is used to test if TEAE rate of vaccine group post-inoculation is higher than the placebo group.||||0.186
82361339|NCT03180801|164433886|OTHER|||||||0.465|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least one symptom||||0.465
82361340|NCT03180801|164433886|OTHER|||||||0.074|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least one symptom||||0.074
82361341|NCT03180801|164433886|OTHER|||||||0.024|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least two symptoms||||0.024
82361342|NCT03180801|164433886|OTHER|||||||0.23|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects experiencing at least two symptoms.||||0.230
82361343|NCT03180801|164433886|OTHER|||||||0.09|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects with detectable virus shedding||||0.09
82361344|NCT03180801|164433886|OTHER|||||||0.22|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects with detectable virus shedding||||0.22
82361345|NCT03180801|164433886|OTHER|||||||0.23|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects asymptomatic with detectable virus shedding||||0.23
82361346|NCT03180801|164433886|OTHER|||||||0.12|||||||Fisher Exact|||One-sided Fisher exact test is used to test if vaccine group has lower rate of subjects asymptomatic with detectable virus shedding||||0.12
82361347|NCT03180801|164433887|OTHER|||||||0.0501|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter shedding duration than placebo.||||0.0501
82361348|NCT03180801|164433887|OTHER|||||||0.3139|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter shedding duration than placebo.||||0.3139
82361349|NCT03180801|164433888|OTHER|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has smaller shedding AUC than placebo.||||0.102
82361350|NCT03180801|164433888|OTHER|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has a smaller shedding AUC than placebo.||||0.481
82361351|NCT03180801|164433889|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower peak viral shedding than placebo.||||0.128
82391207|NCT02612610|164493469|OTHER||LS Mean Difference|-0.3||||0.422|TWO_SIDED|95.0|-0.9|0.4|||Mixed Effect Repeated Measures model|||"Week 3 DCS Total Score: 50 mg gefapixant vs. placebo~Week 3 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.9|0.4220
82391208|NCT02612610|164493470|OTHER||LS Mean Difference|-0.1||||0.8457|TWO_SIDED|95.0|-0.7|0.6|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.7|0.8457
82391209|NCT02612610|164493470|OTHER||LS Mean Difference|-0.3||||0.4044|TWO_SIDED|95.0|-0.9|0.4|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 20 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-0.9|0.4044
82574818|NCT01381575|164859084|NON_INFERIORITY|Non-inferiority with respect to seroconversion was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of the 95% Confidence Interval (CI) for the difference (Cervarix 2 Group minus Cervarix 1 Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.08|0.78||||||Immune response to anti-HPV-16 in terms of seroconversion (SCR) rates: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule of 0,6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.78|-1.08|
82574819|NCT01381575|164859084|NON_INFERIORITY|Non-inferiority with respect to seroconversion was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of the 95% Confidence Interval (CI) for the difference (Cervarix 2 Group minus Cervarix 1 Group) was below 5%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.0|0.77||||||Immune response to anti-HPV-18 in terms of seroconversion (SCR) rates: To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule of 0,6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.77|-1.00|
82361352|NCT03180801|164433889|OTHER|||||||0.601|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower peak viral shedding than placebo.||||0.601
82448805|NCT00666224|164604956|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.55||||0.0005|TWO_SIDED|95.0|0.4|0.77||Type of unifocal presentation at baseline, past corticosteroid treatment (Yes/No) for the initial attack prior to randomization, and center effects as covariates.|Regression, Cox|||||0.77|0.40|0.0005
82574820|NCT01381575|164859085|NON_INFERIORITY|Non-inferiority with respect to Geometric Mean Concentrations (GMCs) was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of 95% CI for the GMT ratio (Cervarix 2 Group divided by Cervarix 1 Group) was below 2.|Geometric mean ratio|1.09|||||TWO_SIDED|95.0|0.97|1.22||||||Immune response to anti-HPV-16 in terms of Geometric Mean Concentrations (GMCs): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||1.22|0.97|
82574821|NCT01381575|164859085|NON_INFERIORITY|Non-inferiority with respect to Geometric Mean Concentrations (GMCs) was demonstrated if, 1 month after the last dose, for both anti-HPV-16 and anti-HPV-18, the upper limit of 95% CI for the GMT ratio (Cervarix 2 Group divided by Cervarix 1 Group) was below 2.|Geometric mean ratio|0.85|||||TWO_SIDED|95.0|0.76|0.95||||||Immune response to anti-HPV-18 in terms of Geometric Mean Concentrations (GMCs): To evaluate sequentially if the immunogenicity (as determined by ELISA) of Cervarix vaccine administered according to a 2-dose schedule at 0, 6 months in 9-14 year old females was non-inferior to that administered according to the standard 3-dose schedule of 0,1,6 months in 15-25 year old females, 1 month after the last dose of study vaccine, in initially seronegative subjects.||0.95|0.76|
82574822|NCT01443403|164859108|SUPERIORITY_OR_OTHER||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.605||0.0003|TWO_SIDED|95.0|1.02|3.41|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment group as a term and baseline value as a covariate.||||3.41|1.02|0.0003
82574823|NCT01443403|164859108|SUPERIORITY_OR_OTHER||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|0.604||0.0014|TWO_SIDED|95.0|0.76|3.14|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.14|0.76|0.0014
82574824|NCT01443403|164859108|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|0.599||0.3504|TWO_SIDED|95.0|-0.62|1.74|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.74|-0.62|0.3504
82574825|NCT01443403|164859110|SUPERIORITY_OR_OTHER||LS Mean Difference|1.93|STANDARD_ERROR_OF_MEAN|0.568||0.0008|TWO_SIDED|95.0|0.81|3.05|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.05|0.81|0.0008
82574826|NCT01443403|164859110|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|STANDARD_ERROR_OF_MEAN|0.569||0.0009|TWO_SIDED|95.0|0.79|3.04|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.04|0.79|0.0009
82574827|NCT01443403|164859110|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.558||0.2572|TWO_SIDED|95.0|-0.47|1.73|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.73|-0.47|0.2572
82361353|NCT03180801|164433890|OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter duration of symptoms than placebo.||||0.142
82361354|NCT03180801|164433890|OTHER|||||||0.147|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has shorter duration of symptoms than placebo.||||0.147
82448806|NCT00666224|164604957|SUPERIORITY_OR_OTHER||Rate ratio|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.61|||Quasi-Likelihood NB* Regression|"\*NB = Negative Binomial~Center and baseline number of enhancing lesions as covariates."||||0.61|0.29|<0.0001
82361355|NCT03180801|164433891|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer average number of symptoms than placebo.||||0.080
82361356|NCT03180801|164433891|OTHER|||||||0.271|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer average number of symptoms than placebo.||||0.271
82574828|NCT01443403|164859112|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.484||0.0065|TWO_SIDED|95.0|0.38|2.28|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.28|0.38|0.0065
82574829|NCT01443403|164859112|SUPERIORITY_OR_OTHER||LS Mean Difference|1.64|STANDARD_ERROR_OF_MEAN|0.482||0.0008|TWO_SIDED|95.0|0.69|2.58|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.58|0.69|0.0008
82574830|NCT01443403|164859112|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.476||0.2921|TWO_SIDED|95.0|-0.43|1.44|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.44|-0.43|0.2921
82574831|NCT01443403|164859114|SUPERIORITY_OR_OTHER||LS Mean Difference|1.44|STANDARD_ERROR_OF_MEAN|0.495||0.0039|TWO_SIDED|95.0|0.47|2.42|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.42|0.47|0.0039
82361357|NCT03180801|164433892|OTHER|||||||0.099|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer peak symptoms than placebo.||||0.099
82361358|NCT03180801|164433892|OTHER|||||||0.178|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has fewer peak symptoms than placebo.||||0.178
82361359|NCT03180801|164433893|OTHER|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower FLU-PRO scores than placebo.||||0.064
82361360|NCT03180801|164433893|OTHER|||||||0.201|||||||Wilcoxon (Mann-Whitney)|||One-sided Wilcoxon test is used to test if vaccine group has lower FLU-PRO scores than placebo.||||0.201
82361361|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison on day -2||||<0.001
82361362|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparion on day -2||||<0.001
82361363|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 35||||<0.001
82361364|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 35||||<0.001
82574832|NCT01443403|164859114|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.492||0.0007|TWO_SIDED|95.0|0.73|2.67|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.67|0.73|0.0007
82361365|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 63||||<0.001
82361366|NCT03180801|164433894|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison on day 63||||<0.001
82361367|NCT03173170|164433908|OTHER||Mean ratio|1.0622|||||TWO_SIDED|90.0|0.9569|1.1792||||||A paired t-test on the natural log-transformed parameters was performed. The means and difference of means for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90 percent (%) confidence intervals (CIs).||1.1792|0.9569|
82361368|NCT03173170|164433909|OTHER||Mean ratio|1.4892|||||TWO_SIDED|90.0|1.3851|1.6012||||||A paired t-test on the natural log-transformed parameters was performed. The means and difference of means for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.6012|1.3851|
82361369|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.857||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in length z-score.||||0.857
82361370|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.901||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in weight z-score.||||0.901
82361371|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.807||||||Analysis with treatment as factor; baseline as covariate|ANCOVA|||Between group comparison for change from baseline in head circumference z-score.||||0.807
82361372|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.595|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for length z-score.||||0.595
82361373|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.016|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for length z-score.||||0.016
82361374|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.347|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for weight z-score.||||0.347
82361375|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for weight z-score.||||0.040
82361376|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.892|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for head circumference z-score.||||0.892
82361377|NCT00868296|164433911|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|paired||Final evaluation compared to baseline within group comparison for head circumference z-score.||||0.006
82361378|NCT00112294|164433912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.2358|TWO_SIDED|95.0|0.761|1.069||Since only 1 primary comparison was conducted, no adjustment for multiple comparisons was needed.|Log Rank||The hazard ratio of C/T/C to T/C was estimated by means of a stratified Cox's proportional hazard model, with treatment as the single covariate.|Confidence intervals calculated using Brookmeyer and Crowley method. Primary analysis was comparison of PFS between arms performed by 2-sided alpha=0.05 level, log-rank test, stratified by ECOG PS (0/1) and intended on-study taxane (docetaxel or paclitaxel). Null hypothesis was that PFS was equal in both groups. Power calculations indicated that \>=510 events (IRRC progressions/deaths) would lead to \>=90% power at the 5% level for rejecting the null hypothesis, given a true hazard ratio of 0.75.||1.069|0.761|0.2358
82391210|NCT02612610|164493470|OTHER||LS Mean Difference|-0.3||||0.3031|TWO_SIDED|95.0|-1.0|0.3|||Mixed Effect Repeated Measures model|||"Week 4 DCS Total Score: 50 mg gefapixant vs. placebo~Week 4 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.0|0.3031
82391211|NCT02612610|164493471|OTHER||LS Mean Difference|0.0||||0.9126|TWO_SIDED|95.0|-0.7|0.6|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.7|0.9126
82574833|NCT01443403|164859114|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.488||0.3077|TWO_SIDED|95.0|-0.46|1.46|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.46|-0.46|0.3077
82574834|NCT01443403|164859116|SUPERIORITY_OR_OTHER||Difference|27.3||||0.003|TWO_SIDED|95.0|10.0|44.6|||Chi-squared|||||44.6|10.0|0.0030
82361379|NCT00112294|164433913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.675||||0.0066|TWO_SIDED|95.0|1.152|2.436|||Cochran-Mantel-Haenszel||The odds ratio is presented for C/T/C to T/C.|The 2 groups were compared by means of a Cochran-Mantel-Haenszel (CMH) (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||2.436|1.152|0.0066
82361380|NCT00112294|164433914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.265||||0.1501|TWO_SIDED|95.0|0.918|1.741|||Cochran-Mantel-Haenszel||The odds ratio is presented for C/T/C to T/C.|The 2 groups were compared by means of a CMH (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||1.741|0.918|0.1501
82361381|NCT00112294|164433917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1685|TWO_SIDED|95.0|0.754|1.051||An interim analysis on survival was performed. Final p-value was adjusted using an alpha spending function. At the interim analysis (data not reported here) the type 1 error was 0.0001, and the rest is for the final look.|Log Rank||The hazard ratio of C/T/C to T/C was estimated by means of a stratified Cox's proportional hazard model with treatment as the single covariate.|Confidence intervals were calculated using Brookmeyer and Crowley method. Analysis was a comparison of survival between groups by means of a 2-sided, alpha=0.05 level, log-rank test, stratified by ECOG PS (0/1) and intended on-study taxane (docetaxel or paclitaxel). Null hypothesis was that survival was equal in both treatment arms. Power calculations indicated that \>= 558 events would lead to at \>=75% power at the 5% level for rejecting the null hypothesis, given a true hazard ratio of 0.8.||1.051|0.754|0.1685
82361382|NCT00112294|164433918|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Cochran-Mantel-Haenszel|||Improvement of symptoms was compared between groups by means of a CMH (alpha = 0.05 level) test stratified by ECOG PS (0 or 1) and intended on-study taxane (paclitaxel, docetaxel), as recorded at the time of randomization.||||0.26
82361383|NCT02618382|164433942|SUPERIORITY||||||<|0.05||||||The P values for differences among time point means were determined by ANOVA for continuous variables|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
82361384|NCT02618382|164433943|SUPERIORITY||||||<|0.05||||||Paired comparison of hematoma thickness at defined time point means determined by ANOVA for continuous variables.|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
82361385|NCT02618382|164433944|OTHER||||||<|0.05||||||The P values for differences among time point means were determined by ANOVA for continuous variables and by chi-squared test for categorical values in grouped mRS scores.|ANOVA|||Nonparametric tests were used for statistical comparison, including the Kruskal-Wallis rank-sum test for multiple groups and the Mann-Whitney U test for 2 groups. P values \<0.05 were considered statistically significant. Data tabulation and analysis were performed using R statistical software version 3.4.2 (R Foundation for Statistical Computing, Vienna, Austria).||||<0.05
82361386|NCT00476593|164434027|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|95.0||||Hypothesis: the use of diclofenac/dexamethasone does not influence macular thickness in treated eyes compared with untreated eyes of same subject.|t-test, 2 sided|The possible effect of both anti-inflammatory medications was tested in relation to participants' age and gender||Subjects who received diclofenac or dexamethasone eye drops in one eye. Macular thickness in both were compared between same subjects' eyes after 3 day's treatment. Diclofenac and dexamethasone treated eyes were not compared with each other, but with the contralateral eye of same subject by a paired Student's t-test in each medication group||||0.018
82361387|NCT00476593|164434027|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|95.0|||||t-test, 2 sided|||Patient's healthy eyes were compared with sex and age matched healthy controls with Two Sample Student't t-test. Null hypothesis was that quiet, currently unaffected eyes of patients had same macular thickness as age and sex matched controls.||||0.024
82361388|NCT03635983|164434028|SUPERIORITY||Estimate of Odds Ratio (OR)|0.66||||0.0311|TWO_SIDED|95.0|0.45|0.96|||Stratified Cochran-Mantel-Haenszel|two-sided|Strata adjusted odds ratio (NKTR-214 + Nivolumab over Nivolumab) using Mantel-Haenszel method.|Bempegaldesleukin+Nivolumab over Nivolumab||0.96|0.45|0.0311
82361389|NCT03635983|164434029|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3988||95.0|0.89|1.33||Log-rank stratified 2-sided. Boundary for statistical significance p-value \< 0.03|Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab|||1.33|0.89|0.3988
82361390|NCT03635983|164434030|SUPERIORITY|Bempegaldesleukin+Nivolumab over Nivolumab|Hazard Ratio (HR)|0.94||||0.6361|TWO_SIDED|95.0|0.72|1.22|||Log Rank|2-sided p-value. Boundary for statistical significance p-value \< 0.00071|Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab.|||1.22|0.72|0.6361
82361391|NCT03635983|164434034|SUPERIORITY||Estimate of Odds Ratio (OR)|0.7||||0.0626|TWO_SIDED|95.0|0.48|1.02|||Stratified Cochran-Mantel-Haenszel|two-sided|Strata adjusted odds ratio (NKTR-214 + Nivolumab over Nivolumab) using Mantel-Haenszel method.|Bempegaldesleukin+Nivolumab over Nivolumab||1.02|0.48|0.0626
82361392|NCT03635983|164434035|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.3713||95.0|0.9|1.33||Log-rank stratified 2-sided. Boundary for statistical significance p-value \< 0.03|Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is NKTR-214 + Nivolumab over Nivolumab|||1.33|0.90|0.3713
82361393|NCT03635983|164434039|SUPERIORITY||Odds Ratio (OR)|0.63||||||95.0|0.32|1.24|||||Logistic regression model with treatment, PD-L1 Status and treatment by PD-L1 Status interaction. Responders includes CR+PR|Bempegaldesleukin+Nivolumab vs. Nivolumab (PD-L1 Negative: \<1%)||1.24|0.32|
82361394|NCT03635983|164434039|SUPERIORITY||Odds Ratio (OR)|0.63||||0.9939|TWO_SIDED|95.0|0.39|1.02|||Stratified Cochran-Mantel-Haenszel|Interaction P-value|Logistic regression model with treatment, PD-L1 Status and treatment by PD-L1 Status interaction. Responders includes CR+PR|Bempegaldesleukin+Nivolumab vs. Nivolumab (PD-L1 Positive: \>=1%)||1.02|0.39|0.9939
82361395|NCT03635983|164434040|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.81|1.43|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 negative: \<1%)||1.43|0.81|
82361396|NCT03635983|164434040|SUPERIORITY||Hazard Ratio (HR)|1.12||||||95.0|0.83|1.51|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 positive: \>=1%)||1.51|0.83|
82361397|NCT03635983|164434041|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.66|1.4|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 negative: \<1%)||1.40|0.66|
82574835|NCT01443403|164859116|SUPERIORITY_OR_OTHER||Difference|31.8||||0.0005|TWO_SIDED|95.0|15.0|48.7|||Chi-squared|||||48.7|15.0|0.0005
82361398|NCT03635983|164434041|SUPERIORITY||Hazard Ratio (HR)|0.88||||||95.0|0.58|1.33|||||Unstratified Hazard Ratio|Bempegaldesleukin+Nivolumab vs. Nivo (PD-L1 positive: \>=1%)||1.33|0.58|
82361399|NCT00373425|164434153|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.3235|TWO_SIDED|95.0|0.741|1.104||If the primary analysis of DFS was not statistically significant, the hierarchical testing procedure would stop and all key secondary efficacy analyses would be nonsignificant; any further analysis of these outcomes would be considered exploratory.|Log Rank||Hazard ratio: erlotinib to placebo|The null hypothesis that DFS distributions of the 2 arms were equivalent was tested using an unstratified 2-sided log-rank test at the 0.05 level. The primary analysis of DFS was performed when at least 410 events had accrued. If the result of the primary analysis of DFS was statistically significant favoring the erlotinib treatment arm, the null hypothesis of no treatment difference of key secondary efficacy variables was tested under a hierarchical testing procedure.||1.104|0.741|0.3235
82361400|NCT00373425|164434158|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.562|TWO_SIDED|95.0|0.78|1.144|||Log Rank|||The null hypothesis that DFS distributions of the 2 arms were equivalent was tested using an unstratified 2-sided log-rank test at the 0.05 level.||1.144|0.780|0.5620
82361401|NCT00551616|164434187|OTHER||% of observed pregnancies|1.78|||<|0.001|TWO_SIDED|95.0|1.04|2.98|||Chi-squared||Expected pregnancy rate = 5.58%|Comparison of % of observed pregnancies vs % of expected pregnancies based on Trussell 1998||2.98|1.04|<0.001
82361402|NCT00551616|164434187|OTHER||% of observed pregnancies|2.59|||<|0.001|TWO_SIDED|95.0|1.68|3.94|||Chi-squared||Expected pregnancy rate = 5.43%|Comparison of % of observed pregnancies vs % of expected pregnancies based on Trussell 1998||3.94|1.68|<0.001
82361403|NCT01835548|164434213|SUPERIORITY||Least Square Mean Difference|-11.04|STANDARD_ERROR_OF_MEAN|1.4239|<|0.0001|TWO_SIDED|95.0|-13.9|-8.2|||ANCOVA|||||-8.20|-13.9|<0.0001
82361404|NCT00948792|164434241|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in post-transfusion platelet counts (30-minutes post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.8
82391212|NCT02612610|164493471|OTHER||LS Mean Difference|-0.5||||0.1136|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 20 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.1136
82527462|NCT03502616|164751403|SUPERIORITY||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|0.423|<|0.0001|TWO_SIDED|95.0|1.35|3.02|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.02|1.35|<0.0001
82361405|NCT00948792|164434242|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in post-transfusion platelet counts (6-hour post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.26
82361406|NCT00948792|164434243|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||"The null hypothesis is that there would be no difference in the change in post-transfusion platelet counts (30 minutes and 6 hours post-transfusion) between the two groups.~We opted to determine the number of transfusions that would be required to detect difference of 20,000 platelets/mm3 (with a standard deviation of 20,000). The number shown to demonstrate this was 44."||||0.09
82361407|NCT00739973|164434253|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-9.97|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-12.81|-7.12|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-7.12|-12.81|<0.001
82361408|NCT00739973|164434254|SUPERIORITY_OR_OTHER||Least Square mean Difference|-4.82|STANDARD_ERROR_OF_MEAN|1.47||0.001|TWO_SIDED|95.0|-7.7|-1.94|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-1.94|-7.70|0.001
82361409|NCT00739973|164434255|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-13.85|STANDARD_ERROR_OF_MEAN|1.44|<|0.001|TWO_SIDED|95.0|-16.68|-11.0|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-11.0|-16.68|<0.001
82361410|NCT00739973|164434256|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-13.2|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-16.04|-10.4|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-10.4|-16.04|<0.001
82361411|NCT00739973|164434257|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.77|-4.22|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-4.22|-7.77|<0.001
82361412|NCT00739973|164434258|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.98|STANDARD_ERROR_OF_MEAN|0.91||0.001|TWO_SIDED|95.0|-4.77|-1.19|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-1.19|-4.77|0.001
82448807|NCT00666224|164604958|SUPERIORITY_OR_OTHER||Geometric means ratio|0.87||||0.0013|TWO_SIDED|95.0|0.79|0.95|||ANCOVA|Used log-transformed measurements comparing the adjusted geometric means of T2 volume. Center and baseline T2 volume used as covariates.||||0.95|0.79|0.0013
82574836|NCT01443403|164859116|SUPERIORITY_OR_OTHER||Difference|13.1||||0.1461|TWO_SIDED|95.0|-4.4|30.6|||Chi-squared|||||30.6|-4.4|0.1461
82574837|NCT01443403|164859118|SUPERIORITY_OR_OTHER||Difference|24.3||||0.005|TWO_SIDED|95.0|7.8|40.8|||Chi-squared|||||40.8|7.8|0.0050
82361413|NCT00739973|164434259|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.63|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-10.39|-6.87|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-6.87|-10.39|<0.001
82361414|NCT00739973|164434260|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.17|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-9.94|-6.4|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-6.40|-9.94|<0.001
82361415|NCT00739973|164434261|SUPERIORITY_OR_OTHER||Least Sqaure Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.92||0.011|TWO_SIDED|95.0|-4.14|-0.53|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.53|-4.14|0.011
82361416|NCT00739973|164434262|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-10.81|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-12.57|-9.05|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-9.05|-12.57|<0.001
82361417|NCT00739973|164434263|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.79|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.56|-3.03|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-3.03|-6.56|<0.001
82361418|NCT00739973|164434264|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.98|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|-5.78|-2.18|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-2.18|-5.78|<0.001
82361419|NCT00739973|164434265|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-9.64|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-11.41|-7.87|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-7.87|-11.41|<0.001
82361420|NCT00739973|164434266|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.26|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-8.0|-4.51|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-4.51|-8.00|<0.001
82361421|NCT00739973|164434267|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.92||0.004|TWO_SIDED|95.0|-4.42|-0.83|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.83|-4.42|0.004
82361422|NCT00739973|164434268|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-11.1|STANDARD_ERROR_OF_MEAN|0.89|<|0.001|TWO_SIDED|95.0|-12.85|-9.35|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-9.35|-12.85|<0.001
82448808|NCT00666224|164604961|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.27|0.61||Type of unifocal presentation, past corticosteroid treatment (Yes/No) for the initial attack prior to randomization and center effects as covariates.|Regression, Logistic|||||0.61|0.27|<0.0001
82361423|NCT00739973|164434269|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.83|STANDARD_ERROR_OF_MEAN|1.48||0.056|TWO_SIDED|95.0|-5.73|-0.07|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-0.07|-5.73|0.056
82361424|NCT00739973|164434270|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-17.08|STANDARD_ERROR_OF_MEAN|1.44|<|0.001||95.0|-19.91|-14.3|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-14.3|-19.91|<0.001
82361425|NCT00739973|164434271|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.45|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-9.29|-3.62|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-3.62|-9.29|<0.001
82361426|NCT00739973|164434272|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-8.9|-3.11|||ANCOVA|A two-way analysis of covariance model with treatment and region asntwo factors, and the baseline as a covariate.||||-3.11|-8.90|<0.001
82361427|NCT00739973|164434273|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-15.03|STANDARD_ERROR_OF_MEAN|1.45|<|0.001|TWO_SIDED|95.0|-17.88|-12.2|||ANCOVA|||||-12.2|-17.88|<0.001
82361428|NCT00739973|164434274|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.82|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-10.63|-5.02|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-5.02|-10.63|<0.001
82361429|NCT00739973|164434275|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.16|STANDARD_ERROR_OF_MEAN|1.47||0.143|TWO_SIDED|95.0|-5.04|0.73|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||0.73|-5.04|0.143
82361430|NCT00739973|164434276|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-16.4|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-19.21|-13.6|||ANCOVA|A two-way analysis of covariance model with treatment and region as two factors, and the baseline as a covariate.||||-13.6|-19.21|<0.001
82361431|NCT00987831|164434280|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|30.0||||0.2738|TWO_SIDED|95.0|5.0|95.0||Definition of Moderate Disease was \</= 3 BILAG B (moderate) organ scores, no A (severe) scores and SLEDAI \</=10. Severe disease was \> 3 BILAG B or \>/= BILAG A or SLEDAI \> 10 or meets definition for severe flare on the SELENA SLEDAI Flare Index|Log Rank|||||95|5|0.2738
82361432|NCT02875028|164434286|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82361433|NCT05068284|164434298|SUPERIORITY||Risk Difference (RD)|7.1|||||TWO_SIDED|95.0|-6.3|20.6|||||Risk difference = (ABBV-154 - placebo)|||20.6|-6.3|
82361434|NCT05068284|164434298|SUPERIORITY||Risk Difference (RD)|33.3|||||TWO_SIDED|95.0|6.7|60.0|||||Risk difference = (ABBV-154 - placebo)|||60.0|6.7|
82361435|NCT05068284|164434298|SUPERIORITY||Risk Difference (RD)|28.6|||||TWO_SIDED|95.0|4.9|52.2|||||Risk difference = (ABBV-154 - placebo)|||52.2|4.9|
82361436|NCT05068284|164434298|SUPERIORITY||Risk Difference (RD)|27.3|||||TWO_SIDED|95.0|1.0|53.6|||||Risk difference = (ABBV-154 - placebo)|||53.6|1.0|
82361437|NCT05068284|164434299|SUPERIORITY||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-19.8|43.6|||||Risk difference = (ABBV-154 - placebo)|||43.6|-19.8|
82361438|NCT05068284|164434299|SUPERIORITY||Risk Difference (RD)|29.5|||||TWO_SIDED|95.0|-4.8|63.8|||||Risk difference = (ABBV-154 - placebo)|||63.8|-4.8|
82361439|NCT05068284|164434299|SUPERIORITY||Risk Difference (RD)|19.0|||||TWO_SIDED|95.0|-13.7|51.8|||||Risk difference = (ABBV-154 - placebo)|||51.8|-13.7|
82361440|NCT05068284|164434299|SUPERIORITY||Risk Difference (RD)|23.3|||||TWO_SIDED|95.0|-13.6|60.3|||||Risk difference = (ABBV-154 - placebo)|||60.3|-13.6|
82361441|NCT05068284|164434300|SUPERIORITY||Risk Difference (RD)|11.3|||||TWO_SIDED|95.0|-18.5|41.0|||||Risk difference = (ABBV-154 - placebo)|||41.0|-18.5|
82361442|NCT05068284|164434300|SUPERIORITY||Risk Difference (RD)|38.5|||||TWO_SIDED|95.0|5.0|71.9|||||Risk difference = (ABBV-154 - placebo)|||71.9|5.0|
82361443|NCT05068284|164434300|SUPERIORITY||Risk Difference (RD)|24.6|||||TWO_SIDED|95.0|-7.0|56.2|||||Risk difference = (ABBV-154 - placebo)|||56.2|-7.0|
82361444|NCT05068284|164434300|SUPERIORITY||Risk Difference (RD)|39.2|||||TWO_SIDED|95.0|3.8|74.5|||||Risk difference = (ABBV-154 - placebo)|||74.5|3.8|
82361445|NCT04100096|164434325|SUPERIORITY||Least Square (LS) Mean Difference|-1.02||||0.243|TWO_SIDED|95.0|-2.75|0.7||Comparison was carried out using MMRM, with study center (pooled), treatment group (TG), visit, ADT status, and TG by visit interaction (BVI), gender BVI, age BVI as factors and baseline BVI as covariate. An unstructured covariance was used.|MMRM|||||0.70|-2.75|0.2430
82361446|NCT04100096|164434326|SUPERIORITY||LS Mean Difference|-0.04||||0.7759|TWO_SIDED|95.0|-0.35|0.27||Comparison was carried out using MMRM, with study center (pooled), TG, visit, ADT status, and TG BVI, gender BVI, age BVI as factors and baseline BVI as covariate. An unstructured covariance was used.|MMRM|||||0.27|-0.35|0.7759
82361447|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.06||||0.6585|TWO_SIDED|95.0|-0.32|0.2||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 2||0.20|-0.32|0.6585
82361448|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.25||||0.1181|TWO_SIDED|95.0|-0.57|0.06||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 4||0.06|-0.57|0.1181
82361449|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.19||||0.2431|TWO_SIDED|95.0|-0.51|0.13||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 6||0.13|-0.51|0.2431
82361450|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.3||||0.0638|TWO_SIDED|95.0|-0.61|0.02||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 8||0.02|-0.61|0.0638
82361451|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.11||||0.505|TWO_SIDED|95.0|-0.44|0.22||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 10||0.22|-0.44|0.5050
82361452|NCT04100096|164434327|SUPERIORITY||LS Mean Difference|-0.14||||0.4277|TWO_SIDED|95.0|-0.48|0.21||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|MMRM||Derived from an MMRM with fixed effects of treatment, (pooled) trial site, visit, ADT status (with/without background ADT), treatment BVI, gender BVI, covariates of baseline BVI and age BVI.|Week 12||0.21|-0.48|0.4277
82361453|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6225|TWO_SIDED|95.0|-0.18|0.3||Comparison between TGs was carried out using the Cochran-Mantel-Haenszel (CMH) Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 2||0.30|-0.18|0.6225
82361454|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9145|TWO_SIDED|95.0|-0.35|0.31||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 4||0.31|-0.35|0.9145
82361455|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.1535|TWO_SIDED|95.0|-0.52|0.08||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 6||0.08|-0.52|0.1535
82361456|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.1922|TWO_SIDED|95.0|-0.5|0.1||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 8||0.10|-0.50|0.1922
82361457|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.6488|TWO_SIDED|95.0|-0.4|0.25||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 10||0.25|-0.40|0.6488
82361458|NCT04100096|164434328|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.5992|TWO_SIDED|95.0|-0.4|0.23||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 12||0.23|-0.40|0.5992
82361459|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6579|TWO_SIDED|95.0|-0.29|0.19||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 2||0.19|-0.29|0.6579
82361460|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3728|TWO_SIDED|95.0|-0.43|0.16||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 4||0.16|-0.43|0.3728
82574838|NCT01443403|164859118|SUPERIORITY_OR_OTHER||Difference|24.5||||0.0045|TWO_SIDED|95.0|8.1|40.8|||Chi-squared|||||40.8|8.1|0.0045
82361461|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.1684|TWO_SIDED|95.0|-0.5|0.09||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 6||0.09|-0.50|0.1684
82361462|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.0046|TWO_SIDED|95.0|-0.74|-0.13||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 8||-0.13|-0.74|0.0046
82361463|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.2087|TWO_SIDED|95.0|-0.51|0.11||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 10||0.11|-0.51|0.2087
82361464|NCT04100096|164434329|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0389|TWO_SIDED|95.0|-0.64|-0.02||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Cochran-Mantel-Haenszel||Comparison between TGs was carried out using the CMH Row Mean Score Differ Test controlling for trial site.|Week 12||-0.02|-0.64|0.0389
82361465|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.272|TWO_SIDED|95.0|-0.14|0.5||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 2||0.50|-0.14|0.2720
82361466|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|1.09||||0|TWO_SIDED|95.0|0.63|1.56||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 4||1.56|0.63|0
82361467|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|1.18||||0|TWO_SIDED|95.0|0.63|1.73||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 6||1.73|0.63|0
82361468|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|1.57||||0|TWO_SIDED|95.0|0.92|2.21||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 8||2.21|0.92|0
82361469|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|1.72||||0|TWO_SIDED|95.0|0.99|2.45||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 10||2.45|0.99|0
82361470|NCT04100096|164434334|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.0002|TWO_SIDED|95.0|0.68|2.19||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||2.19|0.68|0.0002
82361471|NCT04100096|164434335|SUPERIORITY||Mean Difference (Final Values)|1.31||||0.062|TWO_SIDED|95.0|-0.07|2.68|||ANCOVA|ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.||Week 12||2.68|-0.07|0.0620
82361472|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.4613|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.||Week 2||0.17|-0.08|0.4613
82361473|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.38||||0|TWO_SIDED|95.0|0.21|0.55||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 4||0.55|0.21|0
82361474|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0001|TWO_SIDED|95.0|0.21|0.61||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.61|0.21|0.0001
82361475|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.56||||0|TWO_SIDED|95.0|0.33|0.8||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 8||0.80|0.33|0
82361476|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.61||||0|TWO_SIDED|95.0|0.34|0.88||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 10||0.88|0.34|0
82361477|NCT04100096|164434336|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.0004|TWO_SIDED|95.0|0.23|0.8||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.80|0.23|0.0004
82361478|NCT04100096|164434338|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1687|TWO_SIDED|95.0|-0.04|0.25||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.25|-0.04|0.1687
82361479|NCT04100096|164434338|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.1874|TWO_SIDED|95.0|-0.06|0.29||Analysis of covariance (ANCOVA) model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.29|-0.06|0.1874
82361480|NCT04100096|164434339|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.0974|TWO_SIDED|95.0|-0.25|0.02||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 6||0.02|-0.25|0.0974
82448809|NCT02170870|164604962|SUPERIORITY|||||||0.06|||||||ANOVA|||Mean GI symptom score during lipid infusion in controls vs diabetics adjusted for treatment status (ie, exendin or placebo)||||0.06
82361481|NCT04100096|164434339|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.391|TWO_SIDED|95.0|-0.2|0.08||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons|ANCOVA|||Week 12||0.08|-0.20|0.3910
82448810|NCT02170870|164604962|SUPERIORITY|||||||0.0001|||||||ANOVA|||Mean GI symptom score during lipid infusion in controls vs functional dyspepsia adjusted for treatment status (ie, exendin or placebo)||||0.0001
82361482|NCT04100096|164434340|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0063|TWO_SIDED|9.0|0.04|0.26||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 6||0.26|0.04|0.0063
82361483|NCT04100096|164434340|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.067|TWO_SIDED|95.0|-0.01|0.19||ANCOVA model, with treatment as main effect and baseline value as covariate, is used for change from baseline of case comparisons.|ANCOVA|||Week 12||0.19|-0.01|0.0670
82361484|NCT00991510|164434349|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.923|||||TWO_SIDED|90.0|0.865|0.984|||ANOVA|||A total of 100 subjects were planned to be enrolled, allowing for 10% drop-out rate. Based on previous single dose studies, the intra-subject coefficients of variation were 14% and 50% for AUC and Cmax, respectively. Based on the literature similar intra subject coefficients of variation were observed in steady-state patients. With these expected CV(%) and an expected ratio of Cmax within 0.95 and 1.05, the study should have a power of at least 80 % to show bioequivalence with 80 subjects.||0.984|0.865|
82361485|NCT00991510|164434350|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.959|||||TWO_SIDED|90.0|0.899|1.023|||ANOVA|||||1.023|0.899|
82361486|NCT00991510|164434351|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.873|||||TWO_SIDED|90.0|0.787|0.968|||ANOVA|||||0.968|0.787|
82361487|NCT00991510|164434352|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was accepted if the calculated 90 % CIs were within 0.80-1.25.|adjusted least-squares mean ratio|0.985|||||TWO_SIDED|90.0|0.877|1.106|||ANOVA|||||1.106|0.877|
82361488|NCT00966381|164434361|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82361489|NCT00966381|164434362|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82361490|NCT00966381|164434363|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82361491|NCT01796964|164434371|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority at week 12 is concluded at one-sided alpha level of 0.10 if the lower limit of the corresponding two-sided 80% confidence interval for the treatment difference (ESBA 1008 - EYLEA) is greater than -5 letters.|Treatment difference (ESBA - Eylea)|-1.13|||||TWO_SIDED|80.0|-4.19|1.93|||||Treatment differences were based on least squares estimates.|An analysis of variance (ANOVA) model with treatment and baseline BCVA categories (\< 55 and ≥ 55 letters) as class variables was used to estimate the treatment group differences (ESBA1008 - EYLEA) in the primary efficacy endpoint, BCVA Change from baseline to Week 12.||1.93|-4.19|
82361492|NCT01796964|164434372|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority at week 16 is concluded at one-sided alpha level of 0.10 if the lower limit of the corresponding two-sided 80% confidence interval for the treatment difference (ESBA 1008 - EYLEA) is greater than -5 letters.|Treatment difference (ESBA - Eylea)|-0.58|||||TWO_SIDED|80.0|-3.72|2.56|||||Treatment differences were based on least squares estimates.|An analysis of variance (ANOVA) model with treatment and baseline BCVA categories (\< 55 and ≥ 55 letters) as class variables was used to estimate the treatment group differences (ESBA1008 - EYLEA) in the primary efficacy endpoint, BCVA Change from baseline to Week 16.||2.56|-3.72|
82361493|NCT04025684|164434380|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.11|-0.08||Analysis was performed using ANCOVA Model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.11|<.0001
82361494|NCT04025684|164434380|SUPERIORITY||Adjusted Mean Change|-0.12|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.14|-0.1||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.10|-0.14|<0.0001
82361495|NCT04025684|164434380|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.12|-0.08||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.12|<0.0001
82361496|NCT04025684|164434380|SUPERIORITY||Adjusted Mean Change|-0.1|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.12|-0.08||Analysis was performed using ANCOVA model with product group as a fixed effect and the baseline mean RPI overall value as a covariate.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.08|-0.12|<0.0001
82361497|NCT04025684|164434381|SUPERIORITY||Adjusted Mean Change|-0.5|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|-0.62|-0.37||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.37|-0.62|<0.0001
82361498|NCT04025684|164434381|SUPERIORITY||Adjusted Mean Change|-0.62|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.75|-0.49||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.49|-0.75|<0.0001
82361499|NCT04025684|164434381|SUPERIORITY||Adjusted Mean Change|-0.55|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.68|-0.42||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.42|-0.68|<0.0001
82391213|NCT02612610|164493471|OTHER||LS Mean Difference|-0.7||||0.0352|TWO_SIDED|95.0|-1.4|0.0|||Mixed Effect Repeated Measures model|||"Week 5 DCS Total Score: 50 mg gefapixant vs. placebo~Week 5 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||-0.0|-1.4|0.0352
82391214|NCT02612610|164493472|OTHER||LS Mean Difference|-0.5||||0.1718|TWO_SIDED|95.0|-1.1|0.2|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.1|0.1718
82361500|NCT04025684|164434381|SUPERIORITY||Adjusted Mean Change|-0.57|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.7|-0.44||Analysis was performed using ANCOVA model with product group as a fixed effect, and the baseline mean TPI overall value and RPI stratification level as covariates.|ANCOVA|||Statistical analysis was performed with comparison in pre-treatment and post-treatment within the treatment group.||-0.44|-0.70|<0.0001
82361501|NCT03008837|164434397|OTHER|Using seed-based analysis with a right posterior insula seed, cluster size was set at 40 voxels, and p-value was thresholded at p\<0.05 to compare the differences between the two groups in terms of connectivity between the right posterior insula and areas of the DMN identified based on a priori hypotheses.|Mean Difference (Final Values)|40.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided||Standard therapy control (post-pre) was subtracted from PENFS (post-pre).|PENFS (post-pre) - Standard Therapy (post-pre)||||<0.05
82361502|NCT04894084|164434404|SUPERIORITY||Risk Ratio (RR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.49|||Poisson loglinear model|||||0.49|0.07|<0.001
82361503|NCT04894084|164434405|OTHER||Exact test in the binomial distribution|91.3|||<|0.0001|TWO_SIDED|95.0|72.0|99.0||"Low degree + Very low degree / Not at all were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."||99|72|<0.0001
82361504|NCT04894084|164434406|OTHER||Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0||"Some degree, High degree and Very high degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||For secondary endpoints an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For reliability answered on a 5-point scale the answers some, high, or very high degree was considered acceptable and grouped against answers of 'low or very low' degree of reliability.||93|56|0.0106
82361505|NCT04894084|164434407|OTHER||Exact test in the binomial distribution|95.7|||<|0.0001|TWO_SIDED|95.0|78.0|100.0||"Same, Better and Much better were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||For secondary endpoints an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. For ability to move with test product it was tested if the proportion evaluating same or better was significantly different from 50% when using a 5% test level. The answers of 'same, better or much better' was grouped against the answers of 'worse or much worse' ability to move.||100|78|<0.0001
82361506|NCT04894084|164434408|OTHER|Users worry of leakage given on a 5-point scale was analyzed by a proportional odds ratio model taken the paired design into consideration to compare the results from V1 and V2.|||||<|0.001|||||||Proportional odds ratio model|||||||<0.001
82361507|NCT04894084|164434409|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0|||Exact test in the binomial distribution|||||93|56|0.0106
82361508|NCT04894084|164434410|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|65.2||||0.21|TWO_SIDED|95.0|43.0|84.0||"Higher degree and Much higher degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||84|43|0.21
82361509|NCT04894084|164434411|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|78.3||||0.0106|TWO_SIDED|95.0|56.0|93.0|||Exact test in the binomial distribution|||||93|56|0.0106
82361510|NCT04894084|164434412|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|69.6||||0.093|TWO_SIDED|95.0|47.0|87.0|||Exact test in the binomial distribution|||||87|47|0.093
82391215|NCT02612610|164493472|OTHER||LS Mean Difference|-0.6||||0.0651|TWO_SIDED|95.0|-1.3|0.0|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 20 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.3|0.0651
82391216|NCT02612610|164493472|OTHER||LS Mean Difference|-0.6||||0.0848|TWO_SIDED|95.0|-1.2|0.1|||Mixed Effect Repeated Measures model|||"Week 6 DCS Total Score: 50 mg gefapixant vs. placebo~Week 6 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.2|0.0848
82448811|NCT01128192|164604964|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||Two sided P value|ANOVA|||Change in fasting plasma glucose level||||0.240
82448812|NCT01128192|164604964|SUPERIORITY_OR_OTHER|||||||0.339|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma glucose level||||0.339
82361511|NCT04894084|164434413|OTHER|By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion with a positive response was significantly different from 50% when using a 5% test level.|Exact test in the binomial distribution|95.7|||<|0.0001|TWO_SIDED|95.0|78.0|100.0|||Exact test in the binomial distribution|||||100|78|<0.0001
82361512|NCT04894084|164434414|OTHER|By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion answering I felt more confident was significantly different from 50% when using a 5% test level.|Exact test in the binomial distribution|91.3|||<|0.0001|TWO_SIDED|95.0|72.0|99.0|||Exact test in the binomial distribution|||||99|72|<0.0001
82361513|NCT04894084|164434415|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|34.8||||0.21|TWO_SIDED|95.0|16.0|57.0||"Yes, to the better was tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||57|16|0.21
82361514|NCT04894084|164434416|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|47.8||||1|TWO_SIDED|95.0|27.0|69.0||"Higher degree and Much higher degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||69|27|1.00
82361515|NCT04894084|164434417|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|56.5||||0.678|TWO_SIDED|95.0|34.0|77.0|||Exact test in the binomial distribution|||||77|34|0.678
82361516|NCT04894084|164434419|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level. For questions answered on a 5-point scale the answers was grouped in 2 (e.g. higher or much higher against the rest of the answers)."|Exact test in the binomial distribution|69.6||||0.0931|TWO_SIDED|95.0|47.0|87.0||"High degree and Very high degree were tested against the rest of the answers in this analysis."|Exact test in the binomial distribution|||||87|47|0.0931
82361517|NCT04894084|164434420|OTHER|"For secondary endpoints where the possible answer is Yes or No, the proportion of subjects answering Yes was calculated. By use of an exact test in the binomial distribution a 95% confidence interval was estimated for the proportion. It was tested if the proportion was significantly different from 50% when using a 5% test level."|Exact test in the binomial distribution|87.0||||0.0005|TWO_SIDED|95.0|66.0|97.0|||Exact test in the binomial distribution|||||97|66|0.0005
82361518|NCT01573533|164434423|SUPERIORITY|||||||0.49|||||||ANOVA|||Baseline vs 12 months||||0.49
82391217|NCT02612610|164493473|OTHER||LS Mean Difference|-0.1||||0.6715|TWO_SIDED|95.0|-0.8|0.5|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.8|0.6715
82391218|NCT02612610|164493473|OTHER||LS Mean Difference|-0.3||||0.3514|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 20 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.3514
82391219|NCT02612610|164493473|OTHER||LS Mean Difference|-0.4||||0.2809|TWO_SIDED|95.0|-1.1|0.3|||Mixed Effect Repeated Measures model|||"Week 7 DCS Total Score: 50 mg gefapixant vs. placebo~Week 7 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.1|0.2809
82361519|NCT01573533|164434424|SUPERIORITY|||||||0.41|||||||ANOVA|||Baseline vs 12 months||||0.41
82361520|NCT01573533|164434425|SUPERIORITY|||||||0.06|||||||ANOVA|||Baseline vs 12 months||||0.06
82361521|NCT02695719|164434461|SUPERIORITY||Median Values of CI|1.0||||0.007|TWO_SIDED|95.0|0.1|1.9||No adjustment was made as there was only one primary comparison.|Van Elteren Test|The Van Elteren test is a stratified version of the Wilcoxon-Mann-Whitney test which provides approximate sample size for the van Elteren analysis.|CI was estimated by inverting the hypothesis test.|Assuming equal allocation, a power of 90%, an alpha level of 0.05 for a 2-sided test, a placebo mean of 4 (standard deviation of 2.7), and a treatment mean of 5.9 (standard deviation of 4) for SBM frequency at Week 1 and using Wilcoxon-Mann-Whitney test, a total sample size of 146 is required. Analysis was conducted using van Elteren test.||1.9|0.1|0.007
82391220|NCT02612610|164493474|OTHER||LS Mean Difference|-0.2||||0.6022|TWO_SIDED|95.0|-0.9|0.5|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.5|-0.9|0.6022
82391221|NCT02612610|164493474|OTHER||LS Mean Difference|-0.3||||0.4456|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 20 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4456
82391222|NCT02612610|164493474|OTHER||LS Mean Difference|-0.3||||0.4629|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 8 DCS Total Score: 50 mg gefapixant vs. placebo~Week 8 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4629
82361522|NCT01049412|164434480|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.55|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|90.0|-0.81|-0.29||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.29|-0.81|<0.001
82361523|NCT01049412|164434481|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.56|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|90.0|-0.83|-0.29||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.29|-0.83|<0.001
82361524|NCT01049412|164434482|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.242|TWO_SIDED|90.0|-0.28|0.05||The statistical significance level is 0.10.|Mixed Models Analysis|||||0.05|-0.28|0.242
82361525|NCT01049412|164434483|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.276
82361526|NCT01049412|164434483|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.119
82361527|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.3|STANDARD_ERROR_OF_MEAN|0.35||0.392|TWO_SIDED|90.0|-0.28|0.88||"The statistical significance level is 0.10.~P-value is for 0300 hour BG."|Mixed Models Analysis|||||0.88|-0.28|0.392
82361528|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.24|STANDARD_ERROR_OF_MEAN|0.33||0.464|TWO_SIDED|90.0|-0.79|0.3||"The statistical significance level is 0.10.~P-value is for morning FBG."|Mixed Models Analysis|||||0.30|-0.79|0.464
82361529|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.48|STANDARD_ERROR_OF_MEAN|0.33||0.151|TWO_SIDED|90.0|-1.04|0.07||"The statistical significance level is 0.10.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis|||||0.07|-1.04|0.151
82361530|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.54|STANDARD_ERROR_OF_MEAN|0.3||0.079|TWO_SIDED|90.0|-1.05|-0.03||"The statistical significance level is 0.10.~P-value is for midday pre-meal BG."|Mixed Models Analysis|||||-0.03|-1.05|0.079
82444168|NCT00541346|164596871|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|-5.26|||<|0.01|TWO_SIDED|95.0|-9.37|-1.18||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Above Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear dose and time effects.||-1.18|-9.37|<0.01
82361531|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.52|STANDARD_ERROR_OF_MEAN|0.28||0.07|TWO_SIDED|90.0|-0.99|-0.05||"The statistical significance level is 0.10.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis|||||-0.05|-0.99|0.070
82361532|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.86|STANDARD_ERROR_OF_MEAN|0.32||0.008|TWO_SIDED|90.0|-1.39|-0.34||"The statistical significance level is 0.10.~P-value is for evening pre-meal BG."|Mixed Models Analysis|||||-0.34|-1.39|0.008
82361533|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.89|STANDARD_ERROR_OF_MEAN|0.29||0.003|TWO_SIDED|90.0|-1.38|-0.41||"The statistical significance level is 0.10.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis|||||-0.41|-1.38|0.003
82361534|NCT01049412|164434485|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-1.1|STANDARD_ERROR_OF_MEAN|0.33||0.001|TWO_SIDED|90.0|-1.64|-0.55||"The statistical significance level is 0.10.~P-value is for bed time BG."|Mixed Models Analysis|||||-0.55|-1.64|0.001
82361535|NCT01049412|164434490|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||The statistical significance level is 0.10.|Negative Binomial Model|||||||0.037
82361536|NCT01049412|164434491|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|90.0|-0.69|-0.25||The statistical significance level is 0.10.|Mixed Models Analysis|||||-0.25|-0.69|<0.001
82391223|NCT02612610|164493475|OTHER||LS Mean Difference|-0.3||||0.3749|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.3749
82361537|NCT05966090|164434492|NON_INFERIORITY|Non - Inferiority (NI) was to be demonstrated if the upper limit of the 2 sided 95% confidence interval (CI) of the GMC ratio between the Control group (at Day 91) versus Co-administration group (at Day 91) for anti-gE Ab 1-month after the second HZ/su vaccine dose was \<=1.5.|Ratio|1.24|||||TWO_SIDED|95.0|1.08|1.42|||||The analysis of covariance (ANCOVA) model, for logarithm-transformed concentration, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate non-inferiority of the humoral immune response to 2 doses of HZ/su vaccine when the first dose of HZ/su vaccine was co-administered with RSVPreF3 OA investigational vaccine, compared to 2 doses of HZ/su vaccine administered alone.||1.42|1.08|
82361538|NCT05966090|164434493|NON_INFERIORITY|NI was to be demonstrated if upper limit of the 2 sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-A neutralizing titer 1-month after the RSVPreF3 OA investigational vaccine dose was \<=1.5|ratio|1.14|||||TWO_SIDED|95.0|0.97|1.35|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate the non-inferiority of RSVPreF3 OA investigational vaccine when co-administered with the first dose of HZ/su vaccine, compared to RSVPreF3 OA investigational vaccine administered alone.||1.35|0.97|
82361539|NCT05966090|164434494|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2 sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-B neutralizing titer 1-month after the RSVPreF3 OA investigational vaccine dose was \<=1.5.|ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as a covariate.|To demonstrate the non-inferiority of RSVPreF3 OA investigational vaccine when co-administered with the first dose of HZ/su vaccine, compared to RSVPreF3 OA investigational vaccine administered alone.||1.15|0.84|
82391224|NCT02612610|164493475|OTHER||LS Mean Difference|-0.6||||0.0854|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 20 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0854
82391225|NCT02612610|164493475|OTHER||LS Mean Difference|-0.4||||0.2672|TWO_SIDED|95.0|-1.1|0.3|||Mixed Effect Repeated Measures model|||"Week 9 DCS Total Score: 50 mg gefapixant vs. placebo~Week 9 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.3|-1.1|0.2672
82391226|NCT02612610|164493476|OTHER||LS Mean Difference|-0.1||||0.7255|TWO_SIDED|95.0|-0.8|0.6|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.6|-0.8|0.7255
82391227|NCT02612610|164493476|OTHER||LS Mean Difference|-0.6||||0.0918|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 20 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0918
82391228|NCT02612610|164493476|OTHER||LS Mean Difference|-0.5||||0.1263|TWO_SIDED|95.0|-1.2|0.2|||Mixed Effect Repeated Measures model|||"Week 10 DCS Total Score: 50 mg gefapixant vs. placebo~Week 10 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.2|-1.2|0.1263
82391229|NCT02612610|164493477|OTHER||LS Mean Difference|-0.3||||0.4058|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4058
82391230|NCT02612610|164493477|OTHER||LS Mean Difference|-0.6||||0.0828|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 20 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0828
82391231|NCT02612610|164493477|OTHER||LS Mean Difference|-0.7||||0.0575|TWO_SIDED|95.0|-1.4|0.0|||Mixed Effect Repeated Measures model|||"Week 11 DCS Total Score: 50 mg gefapixant vs. placebo~Week 11 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.0|-1.4|0.0575
82361540|NCT02445287|164434508|SUPERIORITY_OR_OTHER|||||||0.92||||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.920
82391232|NCT02612610|164493478|OTHER||LS Mean Difference|-0.3||||0.4163|TWO_SIDED|95.0|-1.0|0.4|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 7.5 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.4|-1.0|0.4163
82448813|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
82448814|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P Value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
82574839|NCT01443403|164859118|SUPERIORITY_OR_OTHER||Difference|8.2||||0.2984|TWO_SIDED|95.0|-7.2|23.6|||Chi-squared|||||23.6|-7.2|0.2984
82361541|NCT02445287|164434509|SUPERIORITY_OR_OTHER|||||||0||||||Level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.000
82391233|NCT02612610|164493478|OTHER||LS Mean Difference|-0.6||||0.0882|TWO_SIDED|95.0|-1.3|0.1|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 20 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.3|0.0882
82391234|NCT02612610|164493478|OTHER||LS Mean Difference|-0.6||||0.0961|TWO_SIDED|95.0|-1.4|0.1|||Mixed Effect Repeated Measures model|||"Week 12 DCS Total Score: 50 mg gefapixant vs. placebo~Week 12 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||0.1|-1.4|0.0961
82448815|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P Value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82361542|NCT02445287|164434510|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval = (-0.25, 0.25)||||||0||||||level of significance (alpha) = 0.05|Equivalence test|||||||0.000
82361543|NCT02445287|164434511|SUPERIORITY_OR_OTHER|||||||0.012||||||level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.012
82361544|NCT03235479|164434512|SUPERIORITY||Risk Difference (RD)|4.9||||0.0298|TWO_SIDED|95.0|0.5|9.3|||Cochran-Mantel-Haenszel|||||9.3|0.5|0.0298
82361545|NCT03235479|164434513|SUPERIORITY||Risk Difference (RD)|8.9||||0.0016|TWO_SIDED|95.0|3.4|14.4|||Cochran-Mantel-Haenszel|||||14.4|3.4|0.0016
82361546|NCT03235479|164434514|SUPERIORITY||Risk Difference (RD)|10.2||||0.0005|TWO_SIDED|95.0|4.4|15.9|||Cochran-Mantel-Haenszel|||||15.9|4.4|0.0005
82361547|NCT03235479|164434515|SUPERIORITY||Risk Difference (RD)|7.7||||0.0299|TWO_SIDED|95.0|0.8|14.6|||Cochran-Mantel-Haenszel|||||14.6|0.8|0.0299
82361548|NCT03235479|164434516|SUPERIORITY||Risk Difference (RD)|10.3||||0.0006|TWO_SIDED|95.0|4.4|16.2|||Cochran-Mantel-Haenszel|||||16.2|4.4|0.0006
82361549|NCT03235479|164434517|SUPERIORITY||Risk Difference (RD)|5.2||||0.1815|TWO_SIDED|95.0|-2.4|12.9||P-value ≥ 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.9|-2.4|0.1815
82361550|NCT00309985|164434538|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED||||||Log Rank|||The study was designed to detect a 33.3% improvement in median survival time across treatments with one-sided type I error of 0.025 and 80% power.||||0.0003
82361551|NCT00309985|164434539|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82361552|NCT00309985|164434540|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82361553|NCT00309985|164434541|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82361554|NCT00309985|164434542|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82361555|NCT00309985|164434543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0009
82361556|NCT00309985|164434543|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.40
82361557|NCT03110380|164434548|NON_INFERIORITY|A sample size of 260 participants per treatment group would provide at least 90% power to detect a non-inferiority margin of 4% in difference in percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 between the two treatment groups. This was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|-0.7|||||TWO_SIDED|95.001|-2.8|1.0|||||The differences in percentages of participants between treatment groups and their 95.001% confidence intervals (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the B/F/TAF group is at least 4% higher than the DTG + F/TAF group with respect to the percentage of participants with HIV-1 RNA ≥ 50 copies/mL as determined by the US FDA-defined snapshot algorithm at Week 48; the alternative hypothesis was that the B/F/TAF group is less than 4% higher than the DTG + F/TAF group with respect to the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48.||1.0|-2.8|
82361558|NCT03110380|164434548|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
82361559|NCT03110380|164434549|NON_INFERIORITY|It would be concluded that B/F/TAF is noninferior to DTG+F/TAF if the lower bound of the 2-sided 95.001% CI of the difference between treatment groups (B/F/TAF group -DTG+F/TAF group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|2.2|||||TWO_SIDED|95.001|-2.3|6.8|||||The differences in percentages of participants between treatment groups and their 95.001% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||6.8|-2.3|
82361560|NCT03110380|164434550|SUPERIORITY||Difference in LSM|-18.0||||0.23|TWO_SIDED|95.0|-46.0|11.0|||ANOVA|P-value, difference in least squares means (LSM), and its 95% CI were from ANOVA model with treatment group as a fixed effect in the model.||||11|-46|0.23
82361561|NCT01028911|164434613|SUPERIORITY_OR_OTHER||Adjusted Geometric Means Ratio|128.4|||||TWO_SIDED|90.0|75.9|217.21||||||Day 30: Natural log transformed AUCtau of donepezil was analyzed using a mixed effect model with sequence, day and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios. Values were back-transformed from the log scale.||217.21|75.90|
82361562|NCT01028911|164434614|SUPERIORITY_OR_OTHER||Adjusted Geometric Means Ratio|119.82|||||TWO_SIDED|90.0|75.9|189.16||||||Day 30: Natural log transformed AUCtau of donepezil was analyzed using a mixed effect model with sequence, day and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios. Values were back-transformed from the log scale.||189.16|75.90|
82391235|NCT02612610|164493479|OTHER||LS Mean Difference|0.8||||0.163|TWO_SIDED|95.0|-0.3|1.9|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.9|-0.3|0.1630
82448816|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
82361563|NCT03750695|164434657|OTHER||||||<|0.05|||||||Regression, Linear|||Repeated measures linear regression||||<0.05
82361564|NCT04480307|164434659|SUPERIORITY||LS Mean Difference|-0.031||||0.5084|TWO_SIDED|95.0|-0.124|0.063|||ANCOVA|||||0.063|-0.124|0.5084
82361565|NCT04480307|164434659|SUPERIORITY||Difference of change from Baseline|-0.021|||||TWO_SIDED|95.0|-0.121|0.057|||Bayesian|Difference of change from baseline a posteriori||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.057|-0.121|
82361566|NCT04480307|164434660|SUPERIORITY||LS Mean Difference|-0.002||||0.9472|TWO_SIDED|95.0|-0.052|0.049|||ANCOVA|||||0.049|-0.052|0.9472
82361567|NCT04480307|164434660|SUPERIORITY||Difference of change from Baseline|0.012|||||TWO_SIDED|95.0|-0.036|0.059|||Bayesian|Difference of change from Baseline a posteriori.||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.059|-0.036|
82361568|NCT04480307|164434661|SUPERIORITY||LS Mean Difference|0.154||||0.4027|TWO_SIDED|95.0|-0.216|0.524|||ANCOVA|||ANCOVA analysis for T1 lesion volume parameter||0.524|-0.216|0.4027
82361569|NCT04480307|164434661|SUPERIORITY||LS Mean Difference|0.01||||0.7428|TWO_SIDED|95.0|-0.051|0.071|||ANCOVA|||ANCOVA analysis for T2 lesion volume parameter||0.071|-0.051|0.7428
82391236|NCT02612610|164493479|OTHER||LS Mean Difference|0.2||||0.7601|TWO_SIDED|95.0|-1.0|1.3|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 20 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||1.3|-1.0|0.7601
82391237|NCT02612610|164493479|OTHER||LS Mean Difference|2.1||||0.0004|TWO_SIDED|95.0|0.9|3.2|||Mixed Effect Repeated Measures model|||"Day 28 LCQ Total Score: 50 mg gefapixant vs. placebo~Day 28 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||3.2|0.9|0.0004
82391238|NCT02612610|164493480|OTHER||LS Mean Difference|1.0||||0.0941|TWO_SIDED|95.0|-0.2|2.3|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.3|-0.2|0.0941
82391239|NCT02612610|164493480|OTHER||LS Mean Difference|0.9||||0.1321|TWO_SIDED|95.0|-0.3|2.2|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 20 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.2|-0.3|0.1321
82391240|NCT02612610|164493480|OTHER||LS Mean Difference|1.5||||0.0192|TWO_SIDED|95.0|0.2|2.7|||Mixed Effect Repeated Measures model|||"Day 56 LCQ Total Score: 50 mg gefapixant vs. placebo~Day 56 estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.7|0.2|0.0192
82391241|NCT02612610|164493481|OTHER||LS Mean Difference|1.2||||0.0626|TWO_SIDED|95.0|-0.1|2.4|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 7.5 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.4|-0.1|0.0626
82391242|NCT02612610|164493481|OTHER||LS Mean Difference|1.0||||0.0967|TWO_SIDED|95.0|-0.2|2.3|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 20 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||2.3|-0.2|0.0967
82391243|NCT02612610|164493481|OTHER||LS Mean Difference|1.9||||0.0028|TWO_SIDED|95.0|0.7|3.1|||Mixed Effect Repeated Measures model|||"Day 85/Early Termination LCQ Total Score: 50 mg gefapixant vs. placebo~Day 85/Early Termination estimated treatment differences (gefapixant vs. placebo) and corresponding 95% CIs were estimated using a MMRM model, which included fixed effects for treatment group, visit, country, treatment-by-visit interaction, and Baseline value as a covariate."||3.1|0.7|0.0028
82391244|NCT02612610|164493482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3182|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.3182
82391245|NCT02612610|164493482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5021|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.5021
82647827|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.92|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 1 (Placebo\<2.5 mg=5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 1. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82361570|NCT04480307|164434662|SUPERIORITY||LS Mean Difference|0.003||||0.7314|TWO_SIDED|95.0|-0.013|0.018|||ANCOVA|||||0.018|-0.013|0.7314
82361571|NCT04480307|164434662|SUPERIORITY||Difference of change from Baseline|0.005|||||TWO_SIDED|95.0|-0.01|0.023|||Bayesian|Difference of change from Baseline a posteriori||Bayesian analysis is done using a non-informative prior on the mean observed difference.||0.023|-0.010|
82361572|NCT04480307|164434663|SUPERIORITY||LS Mean Difference|0.0||||0.7662|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|||||0|0|0.7662
82391246|NCT02612610|164493482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0665|||||||Cochran-Mantel-Haenszel|||"Day 28 PGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0665
82391247|NCT02612610|164493483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0872|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0872
82391248|NCT02612610|164493483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0994|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0994
82391249|NCT02612610|164493483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||"Day 56 PGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0009
82448817|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
82361573|NCT03604549|164434664|SUPERIORITY||Risk Ratio (RR)|0.44||||0.1|TWO_SIDED|95.0|0.16|1.25|||Chi-squared||Lipiodol UF is the numerator and Saline is the denominator for RR|||1.25|0.16|0.10
82361574|NCT03604549|164434665|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.96|TWO_SIDED|95.0|-1.59|1.68|||t-test, 2 sided||Difference reported as Lipiodol UF - Saline|||1.68|-1.59|0.96
82361575|NCT02508116|164434677|SUPERIORITY||Odds Ratio (OR)|1.6||||0.03|TWO_SIDED|95.0|1.07|2.42|||Regression, Logistic|||The sample size calculation was based on two factors: 1) the rate of pre-study prasugrel/ticagrelor use (\~20%) and 2) anticipated increase in prasugrel/ticagrelor prescribing based on the frequency CYP2C19 LOF variants (\~30-35%). We estimated a 15% difference in the use of prasugrel/ticagrelor in the two groups (35% in the genotyped group and 20% in the control group). A sample size of 138 per group (a total of 276) would provide 80% power at an alpha level of 0.05 to detect this difference.||2.42|1.07|0.03
82361576|NCT02508116|164434679|SUPERIORITY|||||||0.27|||||||Log Rank|||The incidence of first MACE between the groups were compared by use of Kaplan-Meier estimators; statistical tests were based on log-rank tests.||||0.27
82361577|NCT00559364|164434692|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Analysis of covariance (ANCOVA) model using treatment group and pooled site as fixed effects and wash-out phase CFA% value as covariate was used.||||<0.0001
82361578|NCT01235442|164434695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.001|TWO_SIDED|95.0|1.46|2.87||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI(=\<35 or \>35) and prior anti-TNF exposure(Yes or no).||||2.87|1.46|<0.001
82361579|NCT01235442|164434696|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.4|2.75||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||2.75|1.40|<0.001
82361580|NCT01235442|164434697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.009|TWO_SIDED|95.0|1.21|2.64||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||2.64|1.21|0.009
82361581|NCT01235442|164434698|SUPERIORITY_OR_OTHER|||||||0.006||||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No) with with modified ridit scores.||||||0.006
82361582|NCT01235442|164434699|SUPERIORITY_OR_OTHER||||||<|0.001||||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|van Elteren test|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||||<0.001
82361583|NCT01235442|164434700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.135|TWO_SIDED|95.0|0.92|1.85||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is adjusted for baseline BMI (=\<35 or \>35) and prior anti-TNF (Yes or No).||||1.85|0.92|0.135
82391250|NCT02612610|164493484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination PGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0037
82361584|NCT01235442|164434701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.135|TWO_SIDED|95.0|0.96|1.87||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|The test is stratified by baseline BMI (=\<35 or \>35) and prior anti-TNF exposure (Yes or No).||||1.87|0.96|0.135
82361585|NCT04458467|164434728|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||||||0.033
82361586|NCT04458467|164434729|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82361587|NCT05070390|164434742|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|Geometric Mean Ratio (GMR)|1.23|||||TWO_SIDED|90.0|0.62|2.44|||||GMR and 90% confidence interval (CI) were estimated using a linear mixed effects model and referencing a t-distribution.|||2.44|0.62|
82361588|NCT05070390|164434743|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|1.63|||||TWO_SIDED|90.0|0.55|4.83|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||4.83|0.55|
82361589|NCT05070390|164434744|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|1.45|||||TWO_SIDED|90.0|0.7|2.99|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||2.99|0.70|
82391251|NCT02612610|164493484|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination PGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0166
82391252|NCT02612610|164493484|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||<0.0001
82361590|NCT05070390|164434747|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.41|1.62|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.62|0.41|
82361591|NCT05070390|164434748|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.92|||||TWO_SIDED|90.0|0.6|1.42|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.42|0.60|
82361592|NCT05070390|164434751|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.22|3.1|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||3.10|0.22|
82361593|NCT05070390|164434752|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.82|||||TWO_SIDED|90.0|0.22|3.1|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||3.10|0.22|
82361594|NCT05070390|164434753|OTHER|GMR: Panel A-Moderate RI/Panel B-Healthy controls|GMR|0.38|||||TWO_SIDED|90.0|0.13|1.13|||||GMR and 90% CI were estimated using a linear mixed effects model and referencing a t-distribution.|||1.13|0.13|
82361595|NCT01396421|164434818|SUPERIORITY_OR_OTHER||Treatment difference|-8.18|||<|0.0001|TWO_SIDED|95.0|-12.0|-4.4||Primary analysis was performed by fitting a Mixed Model Repeated Measures (MMRM) which included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.|Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Difference between average effect of brexpiprazole 2 and 4 mg/day and placebo was tested first at alpha level of 0.05. If statistically significant, then comparisons for each group (brexpiprazole 2 and 4 mg/day) versus placebo were performed.||-4.40|-12.0|<0.0001
82361596|NCT01396421|164434818|SUPERIORITY_OR_OTHER||Treatment difference|-7.64||||0.0006|TWO_SIDED|95.0|-12.0|-3.3|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||-3.30|-12.0|0.0006
82361597|NCT01396421|164434818|SUPERIORITY_OR_OTHER||Traetment difference|-8.72|||<|0.0001|TWO_SIDED|95.0|-13.1|-4.37|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||-4.37|-13.1|<0.0001
82361598|NCT01396421|164434818|SUPERIORITY_OR_OTHER||Treatment difference|-2.89||||0.291|TWO_SIDED|95.0|-8.27|2.49|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Sample size was determined to achieve 90% power at alpha level of 0.025 (two-sided) to a detect treatment difference of -7.5 points in change from baseline in PANSS Total Score at Week 6 (last observation carried forward) between a brexpiprazole treatment of 4 mg/day (or 2 mg/day) and placebo using a two-sided z-test||2.49|-8.27|0.2910
82361599|NCT01396421|164434819|SUPERIORITY_OR_OTHER||Treatment difference|-0.36||||0.0006|TWO_SIDED|95.0|-0.56|-0.15|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||Difference between the average effect of brexpiprazole 2 and 4 mg/day and placebo was tested first at alpha level of 0.05. If statistically significant, then comparisons for each group (brexpiprazole 2 and 4 mg/day) versus placebo were performed at a significance level of 0.05.||-0.15|-0.56|0.0006
82361600|NCT01396421|164434819|SUPERIORITY_OR_OTHER||Treatment difference|-0.38||||0.0012|TWO_SIDED|95.0|-0.61|-0.15|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||-0.15|-0.61|0.0012
82391253|NCT02612610|164493485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0396|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 7.5 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0396
82391254|NCT02612610|164493485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0751|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 20 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0751
82391255|NCT02612610|164493485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Cochran-Mantel-Haenszel|||"Day 85/Early Termination CGIC: 50 mg gefapixant vs. placebo~The distribution of responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated using CMH test."||||0.0010
82444169|NCT00541346|164596872|SUPERIORITY_OR_OTHER||Bayesian Mean Change Score|7.6|||>|0.11|TWO_SIDED|95.0|-5.6|20.7||Posterior-Predictive Probability of Mean Change Score (Pre-Post) at or Below Zero.|Mixed Models Analysis|Bayesian random intercept model.|The confidence interval listed is a Bayesian credible interval which represents the probabilistic likelihood that the population mean change falls within these bounds.|Random intercept growth curves were fit to all outcome data, including intermediate assessments. A Bayesian posterior-predictive mean change score and its associated 95% credible interval were estimated using the MCMC Gibbs sampler with non-informative priors. Models included linear and quadratic dose effects, effect for compliance, baseline Life Participation Scale (LPS) effect, LPS by compliance interaction, a functional time component, and interaction between LPS and time.||20.7|-5.6|>0.11
82444170|NCT04253587|164596879|EQUIVALENCE|The null hypothesis was no difference between mean change scores for time-points X conditions.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03|=|0.016|TWO_SIDED|95.0|-0.06|0.06||Mixed effects ANOVA applied family wise error for post-hoc tests according to a priori hypothesis|ANOVA|||||0.06|-0.06|= 0.016
82444171|NCT04253587|164596880|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.035|=|0.22|TWO_SIDED|95.0|-0.03|0.03|||ANOVA|effect of condition (F1,20 = 1.616, p = 0.22), effect of time (F1,20 = 0.613, p = 0.44)||||0.03|-0.03|= 0.22
82361601|NCT01396421|164434819|SUPERIORITY_OR_OTHER||Treatment difference|-0.33||||0.0056|TWO_SIDED|95.0|-0.56|-0.1|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||-0.10|-0.56|0.0056
82361602|NCT01396421|164434819|SUPERIORITY_OR_OTHER||Treatment difference|-0.03||||0.8491|TWO_SIDED|95.0|-0.31|0.26|||Mixed Models Analysis|MMRM with fixed effect of treatment, clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.||||0.26|-0.31|0.8491
82391256|NCT02612610|164493486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for the gefapixant vs. placebo using CMH test."||||0.8464
82391257|NCT02612610|164493486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7687|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.7687
82361603|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-1.5||||0.0644|TWO_SIDED|95.0|-3.09|0.09||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, and baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.09|-3.09|0.0644
82361604|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-1.99||||0.0139|TWO_SIDED|95.0|-3.58|-0.41||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||-0.41|-3.58|0.0139
82361605|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|0.35||||0.7231|TWO_SIDED|95.0|-1.61|2.32||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||2.32|-1.61|0.7231
82361606|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-5.14||||0.0018|TWO_SIDED|95.0|-8.36|-1.93||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-1.93|-8.36|0.0018
82361607|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-3.75||||0.0045|TWO_SIDED|95.0|-6.33|-1.17||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 2||||-1.17|-6.33|0.0045
82361608|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|1.84||||0.2568|TWO_SIDED|95.0|-1.34|5.02||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||5.02|-1.34|0.2568
82361609|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-4.4||||0.0009|TWO_SIDED|95.0|-6.97|-1.82||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||-1.82|-6.97|0.0009
82361610|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-3.45||||0.036|TWO_SIDED|95.0|-6.67|-0.23||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-0.23|-6.67|0.0360
82361611|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.9876|TWO_SIDED|95.0|-4.53|4.6||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||4.60|-4.53|0.9876
82361612|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-7.61|||<|0.0001|TWO_SIDED|95.0|-11.3|-3.93||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||-3.93|-11.3|<0.0001
82361613|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-5.16||||0.0062|TWO_SIDED|95.0|-8.85|-1.47||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 4||||-1.47|-8.85|0.0062
82361614|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|1.93||||0.3407|TWO_SIDED|95.0|-2.05|5.9||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||5.90|-2.05|0.3407
82361615|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-7.86||||0.0001|TWO_SIDED|95.0|-11.9|-3.86||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|Week 5||||-3.86|-11.9|0.0001
82361616|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-7.15||||0.0005|TWO_SIDED|95.0|-11.2|-3.14||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-3.14|-11.2|0.0005
82361617|NCT01396421|164434820|SUPERIORITY_OR_OTHER||Treatment difference|-1.12||||0.657|TWO_SIDED|95.0|-6.07|3.83||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5|Because only the comparison of brexpiprazole 4 mg/day versus placebo met the threshold in the primary analysis, the following analysis is not part for the formal statistical testing and is descriptive only.|||3.83|-6.07|0.6570
82361618|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.02||||0.6553|TWO_SIDED|95.0|-0.13|0.08||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.08|-0.13|0.6553
82527463|NCT03502616|164751403|SUPERIORITY||LS mean difference|1.98|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|1.11|2.84|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.84|1.11|<0.0001
82361619|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.03||||0.617|TWO_SIDED|95.0|-0.13|0.08||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 1||||0.08|-0.13|0.6170
82361620|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|0.03||||0.6446|TWO_SIDED|95.0|-0.1|0.15||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates..|Mixed Models Analysis|Week 1||||0.15|-0.10|0.6446
82361621|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.15||||0.0347|TWO_SIDED|95.0|-0.29|-0.01||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||-0.01|-0.29|0.0347
82361622|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Leasr squares mean|-0.12||||0.0825|TWO_SIDED|95.0|-0.27|0.02||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.02|-0.27|0.0825
82361623|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|0.12||||0.1678|TWO_SIDED|95.0|-0.05|0.3||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 2||||0.30|-0.05|0.1678
82361624|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.0219|TWO_SIDED|95.0|-0.39|-0.03||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||-0.03|-0.39|0.0219
82361625|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Least squares mean|-0.09||||0.3275|TWO_SIDED|95.0|-0.27|0.09||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||0.09|-0.27|0.3275
82361626|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.1173|TWO_SIDED|95.0|-0.04|0.4||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 3||||0.40|-0.04|0.1173
82361627|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.21||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||-0.21|-0.63|<0.0001
82361628|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Least squares mean|-0.19||||0.0662|TWO_SIDED|95.0|-0.4|0.01||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||0.01|-0.40|0.0662
82391258|NCT02612610|164493486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4364|||||||Cochran-Mantel-Haenszel|||"1 Year Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses was compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.4364
82361629|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.7587|TWO_SIDED|95.0|-0.3|0.22||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 4||||0.22|-0.30|0.7587
82361630|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.39||||0.0006|TWO_SIDED|95.0|-0.61|-0.17||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-0.17|-0.61|0.0006
82361631|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Least squares mean|-0.34||||0.0032|TWO_SIDED|95.0|-0.56|-0.11||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||-0.11|-0.56|0.0032
82361632|NCT01396421|164434821|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.7619|TWO_SIDED|95.0|-0.32|0.23||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 5||||0.23|-0.32|0.7619
82361633|NCT01396421|164434822|SUPERIORITY_OR_OTHER||Treatment difference|2.46||||0.0557|TWO_SIDED|95.0|-0.06|4.98||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||4.98|-0.06|0.0557
82361634|NCT01396421|164434822|SUPERIORITY_OR_OTHER||Treatment difference|2.89||||0.025|TWO_SIDED|95.0|0.37|5.42||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||5.42|0.37|0.0250
82361635|NCT01396421|164434822|SUPERIORITY_OR_OTHER||Treatment difference|1.58||||0.3264|TWO_SIDED|95.0|-1.58|4.74||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|Week 6||||4.74|-1.58|0.3264
82361636|NCT01396421|164434823|SUPERIORITY_OR_OTHER||Treatment difference|-2.44||||0.001|TWO_SIDED|95.0|-3.88|-0.99||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.99|-3.88|0.0010
82361637|NCT01396421|164434823|SUPERIORITY_OR_OTHER||Treatment difference|-2.22||||0.0029|TWO_SIDED|95.0|-3.67|-0.77||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.77|-3.67|0.0029
82361638|NCT01396421|164434823|SUPERIORITY_OR_OTHER||Treatment difference|-1.11||||0.2227|TWO_SIDED|95.0|-2.9|0.68||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.68|-2.90|0.2227
82361639|NCT01396421|164434824|SUPERIORITY_OR_OTHER||Treatment difference|-1.41||||0.0069|TWO_SIDED|95.0|-2.44|0.39||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.39|-2.44|0.0069
82361640|NCT01396421|164434824|SUPERIORITY_OR_OTHER||Least squares mean|-1.78||||0.0007|TWO_SIDED|95.0|-2.81|-0.76||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.76|-2.81|0.0007
82361641|NCT01396421|164434824|SUPERIORITY_OR_OTHER||Treatmetn difference|-1.07||||0.0996|TWO_SIDED|95.0|-2.33|0.2||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.20|-2.33|0.0996
82391259|NCT02612610|164493487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9966|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.9966
82448818|NCT01128192|164604965|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82361642|NCT01396421|164434825|SUPERIORITY_OR_OTHER||Treatment difference|-0.5||||0.0004|TWO_SIDED|95.0|-0.77|-0.22||The Cochran-Mantel-Haenzel (CMH) row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||-0.22|-0.77|0.0004
82361643|NCT01396421|164434825|SUPERIORITY_OR_OTHER||Treatment difference|-0.54||||0.0002|TWO_SIDED|95.0|-0.82|-0.26||The CMH row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||-0.26|-0.82|0.0002
82361644|NCT01396421|164434825|SUPERIORITY_OR_OTHER||Treatment difference|-0.14||||0.4505|TWO_SIDED|95.0|-0.5|0.22||The CMH row mean scores differ test controlling for trial center was applied to CGI-I score.|Cochran-Mantel-Haenszel|||||0.22|-0.50|0.4505
82361645|NCT01396421|164434826|SUPERIORITY_OR_OTHER||Relative risk|1.48||||0.0032|TWO_SIDED|95.0|1.14|1.91||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||1.91|1.14|0.0032
82361646|NCT01396421|164434826|SUPERIORITY_OR_OTHER||Relative risk|1.59||||0.0004|TWO_SIDED|95.0|1.23|2.05||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||2.05|1.23|0.0004
82361647|NCT01396421|164434826|SUPERIORITY_OR_OTHER||Relative risk|1.27||||0.1576|TWO_SIDED|95.0|0.92|1.76||CMH general association test controlling for trial was applied to the analysis of response rate.|Cochran-Mantel-Haenszel|||||1.76|0.92|0.1576
82361648|NCT01396421|164434827|SUPERIORITY_OR_OTHER||Treatment difference|-1.1||||0.0246|TWO_SIDED|95.0|-2.06|-0.14||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.14|-2.06|0.0246
82361649|NCT01396421|164434827|SUPERIORITY_OR_OTHER||Treatment difference|-1.22||||0.0131|TWO_SIDED|95.0|-2.19|-0.26||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.26|-2.19|0.0131
82361650|NCT01396421|164434827|SUPERIORITY_OR_OTHER||Treatment difference|-0.34||||0.5706|TWO_SIDED|95.0|-1.53|0.85||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.85|-1.53|0.5706
82361651|NCT01396421|164434828|SUPERIORITY_OR_OTHER||Relative risk|0.39||||0.0143|TWO_SIDED|95.0|0.18|0.85|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.||||0.85|0.18|0.0143
82361652|NCT01396421|164434828|SUPERIORITY_OR_OTHER||Relative risk|0.87||||0.6606|TWO_SIDED|95.0|0.46|1.65||CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.|Cochran-Mantel-Haenszel|||||1.65|0.46|0.6606
82361653|NCT01396421|164434828|SUPERIORITY_OR_OTHER||Relative risk|0.77||||0.5115|TWO_SIDED|95.0|0.35|1.68||CMH general association test controlling for trial center was applied to the analysis of discontinuation rate.|Cochran-Mantel-Haenszel|||||1.68|0.35|0.5115
82361654|NCT01396421|164434829|SUPERIORITY_OR_OTHER||Treatment difference|-2.34||||0.0014|TWO_SIDED|95.0|-3.77|-0.91||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.91|-3.77|0.0014
82361655|NCT01396421|164434829|SUPERIORITY_OR_OTHER||Treatment difference|-2.47||||0.0008|TWO_SIDED|95.0|-3.91|-1.04||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-1.04|-3.91|0.0008
82361656|NCT01396421|164434829|SUPERIORITY_OR_OTHER||Treatment difference|-0.89||||0.3263|TWO_SIDED|95.0|-2.66|0.89||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates|Mixed Models Analysis|||||0.89|-2.66|0.3263
82361657|NCT01396421|164434830|SUPERIORITY_OR_OTHER||Treatment difference|-1.3||||0.0155|TWO_SIDED|95.0|-2.35|-0.25||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.25|-2.35|0.0155
82361658|NCT01396421|164434830|SUPERIORITY_OR_OTHER||Treatment difference|-1.68||||0.0019|TWO_SIDED|95.0|-2.73|-0.62||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.62|-2.73|0.0019
82361659|NCT01396421|164434830|SUPERIORITY_OR_OTHER||Treatment difference|-0.86||||0.1956|TWO_SIDED|95.0|-2.17|0.44||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.44|-2.17|0.1956
82361660|NCT01396421|164434831|SUPERIORITY_OR_OTHER||Treatment difference|-1.75||||0.0007|TWO_SIDED|95.0|-2.76|-0.75||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.75|-2.76|0.0007
82361661|NCT01396421|164434831|SUPERIORITY_OR_OTHER||Treatment difference|-1.98||||0.0001|TWO_SIDED|95.0|-2.98|-0.97||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.97|-2.98|0.0001
82361662|NCT01396421|164434831|SUPERIORITY_OR_OTHER||Treatment difference|-0.72||||0.2572|TWO_SIDED|95.0|-1.96|0.52||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.52|-1.96|0.2572
82361663|NCT01396421|164434832|SUPERIORITY_OR_OTHER||Treatment difference|-1.07||||0.0085|TWO_SIDED|95.0|-1.87|-0.28||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.28|-1.87|0.0085
82361664|NCT01396421|164434832|SUPERIORITY_OR_OTHER||Treatment difference|-1.08||||0.0081|TWO_SIDED|95.0|-1.88|-0.28||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||-0.28|-1.88|0.0081
82361665|NCT01396421|164434832|SUPERIORITY_OR_OTHER||Treatment difference|-0.33||||0.5172|TWO_SIDED|95.0|-1.31|0.66||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.66|-1.31|0.5172
82448819|NCT01128192|164604966|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma insulin level||||0.019
82361666|NCT01396421|164434833|SUPERIORITY_OR_OTHER||Treatment difference|-0.34||||0.3284|TWO_SIDED|95.0|-1.03|0.35||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.35|-1.03|0.3284
82391260|NCT02612610|164493487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6372|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.6372
82391261|NCT02612610|164493487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2155|||||||Cochran-Mantel-Haenszel|||"6 Month Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2155
82361667|NCT01396421|164434833|SUPERIORITY_OR_OTHER||Treatment difference|-0.65||||0.0655|TWO_SIDED|95.0|-1.34|0.04||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.04|-1.34|0.0655
82361668|NCT01396421|164434833|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.6251|TWO_SIDED|95.0|-1.07|0.64||MMRM with fixed effect of treatment, (pooled) clinical center, visit, treatment visit interaction, baseline value, baseline visit interaction as covariates.|Mixed Models Analysis|||||0.64|-1.07|0.6251
82361669|NCT01610063|164434834|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Comparison for QIDS-C16||||<0.0001
82361670|NCT01610063|164434835|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups for HAMD-17||||<0.0001
82361671|NCT01610063|164434836|OTHER|||||||0.002|||||||t-test, 2 sided|||Comparison for PHQ-9||||0.002
82361672|NCT03314662|164434842|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5|GMT ratio (aTIV/aQIV)|1.16|||||TWO_SIDED|95.0|1.05|1.27|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aTIV/aQIV - for strain A/H1N1||1.27|1.05|
82361673|NCT03314662|164434842|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5|GMT ratio: (aTIV/aQIV|0.99|||||TWO_SIDED|95.0|0.9|1.09|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log 10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aTIV/aQIV - performed for strain A/H3N2||1.09|0.90|
82361674|NCT03314662|164434842|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5.|GMT ratio: aTIV/aQIV|0.99|||||TWO_SIDED|95.0|0.9|1.08|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aQIV/aTIV - performed for strain B/Yamagata||1.08|0.90|
82361675|NCT03314662|164434842|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% confidence interval (CI) for the ratios of GMTs (aTIV/aQIV) do not exceed 1.5.|GMT ratio: (aTIV/aQIV)]|0.98|||||TWO_SIDED|95.0|0.89|1.08|||||GMT ratios (adjusted) obtained from a GLM fitted on log-transformed (base 10) post-vaccination HI titer as outcome variable and covariate terms: treatment, pre-vaccination HI titer (log10 transformed), age, sex, vaccination history, study site|Comparison Group Selection: aQIV/aTIV - performed for strain B/Victoria||1.08|0.89|
82444172|NCT04732949|164596885|OTHER||Hazard Ratio (HR)|1.06||||0.509|TWO_SIDED|95.0|0.89|1.27|||Cox proportional hazard model|||Hazard Ratio for time to hospital discharge - SNG001 vs Placebo||1.27|0.89|0.509
82361676|NCT03314662|164434843|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)|3.23|||||TWO_SIDED|95.0|-1.3|7.76||||||Comparison Group Selection: aTIV minus aQIV - for strain A/H1N1||7.76|-1.30|
82361677|NCT03314662|164434843|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)|0.37|||||TWO_SIDED|95.0|-4.23|4.96||||||Comparison Group Selection: aTIV minus aQIV - for strain A/H3N2||4.96|-4.23|
82361678|NCT03314662|164434843|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|SCR difference (aTIV minus aQIV)]|-0.93|||||TWO_SIDED|95.0|-5.13|3.27||||||Comparison Group Selection: aTIV minus aQIV - for strain B-Yamagata||3.27|-5.13|
82361679|NCT03314662|164434843|NON_INFERIORITY|aQIV was considered non-inferior to aTIV-1 or aTIV-2 if the upper bound of the two-sided 95% CI for the differences between the SCRs (aTIV - aQIV) do not exceed 10% for each of the four strains|Other [SCR difference (aTIV minus aQIV)]|-1.26|||||TWO_SIDED|95.0|-5.07|2.55||||||Comparison Group Selection: aTIV minus aQIV - for strain B-Victoria||2.55|-5.07|
82361680|NCT03314662|164434846|SUPERIORITY|Superiority of aQIV vs. aTIV-1 for the alternate B strain was assessed using the GMT ratio (GMTaTIV/GMTaQIV); Superiority was declared if the upper limit of the two-sided 95% CI for the GMT ratio (aTIV/aQIV) was \<1. The superiority comparison was based on the Full Analysis Set (FAS) Immunogenicity comprised all subjects who were randomized, received at least 1 study vaccination, and provided immunogenicity data at Day 1 and Day 22.|GMT ratio|0.64|||||TWO_SIDED|95.0|0.58|0.7||||||B/Yamagata strain: GMT Ratio (aTIV/aQIV)||0.70|0.58|
82391262|NCT02612610|164493488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7559|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.7559
82391263|NCT02612610|164493488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5091|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.5091
82361681|NCT03314662|164434846|SUPERIORITY|Superiority of aQIV vs. aTIV-2 for the alternate B strain was assessed using the GMT ratio (GMTaTIV/GMTaQIV); Superiority was declared if the upper limit of the two-sided 95% CI for the GMT ratio (aTIV/aQIV) was \<1. The superiority comparison was based on the FAS Immunogenicity.|GMT ratio|0.71|||||TWO_SIDED|95.0|0.64|0.78||||||B/Victoria Strain: GMT Ratio (aTIV/aQIV)||0.78|0.64|
82361682|NCT03314662|164434849|SUPERIORITY|Superiority of aQIV vs. aTIV-1 for the alternate B strain was assessed using the difference in SCR (SCRaTIV-SCRaQIV) at Day 22. Superiority was declared if the upper limit of the two-sided 95% CI for the difference in SCRs (aTIV-aQIV) was \<0, for both B strains. The superiority comparison was based on the FAS Immunogenicity.|SCR difference|-11.96|||||TWO_SIDED|95.0|-15.12|-8.81||||||B/Yamagata Strain: SCR Difference (aTIV-1 - aQIV).||-8.81|-15.12|
82361683|NCT03314662|164434849|SUPERIORITY|Superiority of aQIV vs. aTIV-2 for the alternate B strain was assessed using the difference in SCR (SCRaTIV-SCRaQIV) at Day 22. Superiority was declared if the upper limit of the two-sided 95% CI for the difference in SCRs (aTIV-aQIV) was \<0, for both B strains. The superiority comparison was based on the FAS Immunogenicity.|SCR difference|-10.82|||||TWO_SIDED|95.0|-13.54|-8.11||||||B/Victoria Strain: SCR Difference (aTIV-2 - aQIV)||-8.11|-13.54|
82361684|NCT01867606|164434860|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
82361685|NCT01867606|164434862|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
82361686|NCT04511208|164434874|SUPERIORITY||Difference in means|-2.2|||<|0.001|TWO_SIDED|95.0|-2.7|-1.7|||Repeated measures linear model|||||-1.7|-2.7|<0.001
82361687|NCT04511208|164434875|SUPERIORITY||Difference in means|-0.26||||0.006|TWO_SIDED|95.0|-0.44|-0.08|||Repeated measures linear model|||||-0.08|-0.44|0.006
82361688|NCT04511208|164434876|SUPERIORITY||Difference in means|-0.23||||0.046|TWO_SIDED|95.0|-0.45|-0.005|||Repeated measures linear model|||||-0.005|-0.45|0.046
82361689|NCT04511208|164434877|SUPERIORITY||Difference in means|-0.07||||0.955|TWO_SIDED|95.0|-2.51|2.38|||Repeated measures linear model|||C3B PST Score||2.38|-2.51|0.955
82361690|NCT04511208|164434877|SUPERIORITY||Difference in means|0.62||||0.686|TWO_SIDED|95.0|-2.48|3.71|||Repeated measures linear model|||C3B VMT Score||3.71|-2.48|0.686
82361691|NCT04511208|164434878|SUPERIORITY||Odds Ratio (OR)|2.5||||0.007|TWO_SIDED|95.0|1.28|4.68|||Generalized linear mixed effects model|||||4.68|1.28|0.007
82361692|NCT04511208|164434878|SUPERIORITY||Difference in means|-1.1||||0.009|TWO_SIDED|95.0|-1.82|-0.28|||Repeated measures linear model|||Sensitivity analysis||-0.28|-1.82|0.009
82361693|NCT04511208|164434879|SUPERIORITY||Difference in means|-1.06||||0.004|TWO_SIDED|95.0|-1.75|-0.38|||Repeated measures linear model|||||-0.38|-1.75|0.004
82361694|NCT04511208|164434880|SUPERIORITY||Difference in means|-2.97|||<|0.001|TWO_SIDED|95.0|-3.8|-2.13|||Repeated measures linear model|||||-2.13|-3.80|<0.001
82361695|NCT02248662|164434897|OTHER|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0||||A two-sided p value of less than 0.05 was considered to indicate statistical significance.|Regression, Logistic|Adjusted percentages for receipt of mastectomy were calculated by setting covariates to their observed mean values.|This group is the reference group.|Unadjusted associations between patient characteristics and the three-level cluster of treatment intensity for primary DCIS were evaluated using Chi-squared tests. We used multivariable modeling to adjust for potential confounders. We also conducted a sensitivity analysis using propensity score matching to balance regional treatment intensity for primary DCIS with respect to the covariates included in the multivariable models.||||<0.05
82361696|NCT02248662|164434897|OTHER|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Odds Ratio (OR)|1.05|||<|0.05|TWO_SIDED|95.0|0.71|1.56||A two-sided p value of less than 0.05 was considered to indicate statistical significance.|Chi-squared|||Unadjusted associations between patient characteristics and the three-level cluster of treatment intensity for primary DCIS were evaluated using Chi-squared tests. We used multivariable modeling to adjust for potential confounders. We also conducted a sensitivity analysis using propensity score matching to balance regional treatment intensity for primary DCIS with respect to the covariates included in the multivariable models.||1.56|0.71|<0.05
82361697|NCT02248662|164434897|OTHER||Odds Ratio (OR)|1.9|||<|0.05|TWO_SIDED|95.0|1.27|2.84|||Chi-squared|||||2.84|1.27|<0.05
82361698|NCT01634854|164434898|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82361699|NCT01989676|164434907|EQUIVALENCE|The hypothesis to be tested in this study was that the risk ratio of ORR of PF-05280014 versus that of trastuzumab-EU by Week 25 (+/-14 days) was within a pre-specified margin of 0.80 to 1.25.|Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.842|1.049||||||Risk Ratio and associated 95% confidence interval (CI) are unstratified and based on the Miettinen and Nurminen method.||1.049|0.842|
82361700|NCT01989676|164434908|SUPERIORITY||Cox Proportional Hazard|1.0||||0.505|TWO_SIDED|95.0|0.8|1.26||1-sided log-rank test was used to compare the PFS distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and estrogen receptor (ER) status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.26|0.80|0.505
82391264|NCT02612610|164493488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.279|||||||Cochran-Mantel-Haenszel|||"4 Week Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2790
82391265|NCT02612610|164493489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3887|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 7.5 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.3887
82391266|NCT02612610|164493489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2333|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 20 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.2333
82444173|NCT04732949|164596886|OTHER||Hazard Ratio (HR)|1.02||||0.888|TWO_SIDED|95.0|0.81|1.28|||Cox proportional hazard model|||Hazard Ratio for time to OSCI recovery - SNG001 vs Placebo||1.28|0.81|0.888
82361701|NCT01989676|164434909|SUPERIORITY||Cox Proportional Hazard|0.92||||0.304|TWO_SIDED|95.0|0.67|1.27||1-sided log-rank test was used to compare the DOR distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and ER status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.27|0.67|0.304
82361702|NCT01989676|164434910|SUPERIORITY||Cox Proportional Hazard|0.929||||0.339|TWO_SIDED|95.0|0.656|1.316||1-sided log-rank test was used to compare the OS distribution between the two treatment groups and was stratified by prior trastuzumab exposure (Yes/No) and ER status (ER positive vs. ER negative).|Log Rank||The 95% CI for the hazard ratio was based on the Cox's proportional hazard model.|||1.316|0.656|0.339
82361703|NCT03941834|164434917|OTHER||Least square (LS) mean difference|0.7|||||TWO_SIDED|95.0|0.1|1.2||||||Analysis were performed using a mixed model with fixed effects for treatment, period and sequence; baseline NPRS as a covariate; and participant as a random effect.||1.2|0.1|
82361704|NCT03941834|164434922|OTHER||LS mean difference|2.4|||||TWO_SIDED|95.0|-6.8|11.5||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline Penn-FPS-R as a covariate; and participant as a random effect.||11.5|-6.8|
82361705|NCT03941834|164434923|OTHER||LS Mean Difference|1.5|||||TWO_SIDED|95.0|-3.8|6.9||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline pain disability index as a covariate; and participant as a random effect.||6.9|-3.8|
82361706|NCT03941834|164434924|OTHER||LS Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.7|0.5||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; and participant as a random effect.||0.5|-0.7|
82361707|NCT03941834|164434925|OTHER||LS Mean Difference|0.7|||||TWO_SIDED|95.0|0.1|1.4||||||Analysis was performed using a mixed model with fixed effects for treatment, period and sequence; baseline NPRS as a covariate; and participant as a random effect.||1.4|0.1|
82361708|NCT03941834|164434926|OTHER||Odds Ratio (OR)|12.6|||||TWO_SIDED|95.0|0.7|229.6||||||Analysis was performed using a logistic regression model, including fixed effects for treatment, sequence, period and baseline NPRS score as a covariate.||229.6|0.7|
82361709|NCT02688387|164434933|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0667|||||TWO_SIDED|90.0|0.9657|1.1784|||||X1 Vs R1, ambrisentan|||1.1784|0.9657|
82361710|NCT02688387|164434933|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0353|||||TWO_SIDED|90.0|0.9293|1.1534|||||X2 Vs R2, ambrisentan|||1.1534|0.9293|
82361711|NCT02688387|164434933|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9839|||||TWO_SIDED|90.0|0.9288|1.0423|||||X1 Vs R1, tadalafil|||1.0423|0.9288|
82361712|NCT02688387|164434933|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9656|||||TWO_SIDED|90.0|0.9151|1.0188|||||X2 Vs R2, tadalafil|||1.0188|0.9151|
82361713|NCT02688387|164434934|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.03|||||TWO_SIDED|90.0|0.9965|1.0646|||||X1 Vs R1, ambrisentan|||1.0646|0.9965|
82361714|NCT02688387|164434934|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0141|||||TWO_SIDED|90.0|0.982|1.0473|||||X2 Vs R2, ambrisentan|||1.0473|0.9820|
82361715|NCT02688387|164434934|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9693|||||TWO_SIDED|90.0|0.931|1.0092|||||X1 Vs R1, tadalafil|||1.0092|0.9310|
82361716|NCT02688387|164434934|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0157|||||TWO_SIDED|90.0|0.9553|1.0799|||||X2 Vs R2, tadalafil|||1.0799|0.9553|
82361717|NCT02688387|164434935|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0278|||||TWO_SIDED|90.0|0.9943|1.0623|||||X1 Vs R1, ambrisentan|||1.0623|0.9943|
82361718|NCT02688387|164434935|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0144|||||TWO_SIDED|90.0|0.9832|1.0466|||||X2 Vs R2, ambrisentan|||1.0466|0.9832|
82361719|NCT02688387|164434935|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|0.9612|||||TWO_SIDED|90.0|0.9265|0.9972|||||X1 Vs R1, tadalafil|||0.9972|0.9265|
82444174|NCT04732949|164596887|OTHER||Odds Ratio (OR)|0.71||||0.161|TWO_SIDED|95.0|0.44|1.15|||Regression, Logistic|||Odds Ratio for progression to severe disease or death - SNG001 vs Placebo||1.15|0.44|0.161
82444175|NCT04732949|164596888|OTHER||Odds Ratio (OR)|0.85||||0.61|TWO_SIDED|95.0|0.45|1.61|||Regression, Logistic|||Odds Ratio for intubation or death - SNG001 vs Placebo||1.61|0.45|0.610
82361720|NCT02688387|164434935|EQUIVALENCE|Part 3A of the study is designed to test the bioequivalence of a FDC of ambrisentan 10 mg + tadalafil 40 mg (test) relative to reference monotherapies of ambrisentan 10 mg \& tadalafil 40 mg taken concurrently (reference) in healthy participants in both the fed and fasted states.|Ratio|1.0122|||||TWO_SIDED|90.0|0.9562|1.0715|||||X2 Vs R2, tadalafil|||1.0715|0.9562|
82361721|NCT02688387|164434936|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0153|||||TWO_SIDED|90.0|0.9348|1.1027|||||Y1 Vs R3, ambrisentan|||1.1027|0.9348|
82361722|NCT02688387|164434936|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9758|||||TWO_SIDED|90.0|0.9044|1.0529|||||Y1 Vs R3, tadalafil|||1.0529|0.9044|
82361723|NCT02688387|164434937|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.039|||||TWO_SIDED|90.0|1.0168|1.0617|||||Y1 Vs R3, ambrisentan|||1.0617|1.0168|
82361724|NCT02688387|164434937|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9806|||||TWO_SIDED|90.0|0.9106|1.056|||||Y1 Vs R3, tadalafil|||1.0560|0.9106|
82361725|NCT02688387|164434938|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0365|||||TWO_SIDED|90.0|1.0138|1.0596|||||Y1 Vs R3, ambrisentan|||1.0596|1.0138|
82361726|NCT02688387|164434938|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|0.9821|||||TWO_SIDED|90.0|0.9145|1.0547|||||Y1 Vs R3, tadalafil|||1.0547|0.9145|
82361727|NCT02688387|164434939|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.1176|||||TWO_SIDED|90.0|1.0166|1.2287|||||Y2 Vs R4, ambrisentan|||1.2287|1.0166|
82361728|NCT02688387|164434939|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.1196|||||TWO_SIDED|90.0|1.0429|1.2019|||||Y2 Vs R4, tadalafil|||1.2019|1.0429|
82361729|NCT02688387|164434940|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0353|||||TWO_SIDED|90.0|1.0009|1.071|||||Y2 Vs R4, ambrisentan|||1.0710|1.0009|
82361730|NCT02688387|164434940|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0362|||||TWO_SIDED|90.0|0.991|1.0834|||||Y2 Vs R4, tadalafil|||1.0834|0.9910|
82361731|NCT02688387|164434941|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0351|||||TWO_SIDED|90.0|1.0002|1.0713|||||Y2 Vs R4, ambrisentan|||1.0713|1.0002|
82361732|NCT02688387|164434941|EQUIVALENCE|Part 3B of the study is set to establish bioequivalence between the Fixed Dose Combination of an additional two dose strengths (ambrisentan 5 mg + tadalafil 40 mg and ambrisentan 5 mg + tadalafil 20 mg).|Ratio|1.0324|||||TWO_SIDED|90.0|0.9929|1.0734|||||Y2 Vs R4, tadalafil|||1.0734|0.9929|
82361733|NCT01115855|164435009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.36||||||Cox Proportional Hazard Model with baseline New York Heart Association (NYHA) cohort (II, III/IV) and baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) covariates.||1.36|0.53|
82361734|NCT01115855|164435010|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.56|1.31||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.31|0.56|
82361735|NCT01115855|164435011|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.77|||||TWO_SIDED|95.0|0.81|3.87||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||3.87|0.81|
82361736|NCT01115855|164435012|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.4|||||TWO_SIDED|95.0|0.92|6.24||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||6.24|0.92|
82361737|NCT01115855|164435013|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.44|0.97||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||0.97|0.44|
82444176|NCT04732949|164596889|OTHER||Odds Ratio (OR)|0.79||||0.544|TWO_SIDED|95.0|0.38|1.67|||Regression, Logistic|||Odds Ratio for death - SNG001 vs Placebo||1.67|0.38|0.544
82361738|NCT01115855|164435014|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.45|1.25||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.25|0.45|
82361739|NCT01115855|164435015|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.45|0.97||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||0.97|0.45|
82361740|NCT01115855|164435016|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.49|1.33||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>=-50 ml/min/1.73 m\^2) covariates.||1.33|0.49|
82444177|NCT04732949|164596890|OTHER||Odds Ratio (OR)|1.18||||0.323|TWO_SIDED|95.0|0.85|1.64|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 7) - SNG001 vs Placebo||1.64|0.85|0.323
82361741|NCT01115855|164435017|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.45|1.1||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.10|0.45|
82361742|NCT01115855|164435018|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.53|1.28||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||1.28|0.53|
82361743|NCT01115855|164435019|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.18|3.53||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||3.53|0.18|
82361744|NCT01115855|164435020|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.07|17.85||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||17.85|0.07|
82361745|NCT01115855|164435021|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.11|||||TWO_SIDED|95.0|0.39|11.56||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||11.56|0.39|
82361746|NCT01115855|164435022|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.66||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||5.66|0.05|
82361747|NCT01115855|164435023|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.16|8.04||||||Cox Proportional Hazard Model with baseline NYHA cohort (II, III/IV) and baseline eGFR (30--\<50 ml/min/1.73 m\^2, \>-=50 ml/min/1.73 m\^2) covariates.||8.04|0.16|
82361748|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-102.93|STANDARD_ERROR_OF_MEAN|47.13|||TWO_SIDED|95.0|-195.92|-9.94||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-9.94|-195.92|
82361749|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-95.77|STANDARD_ERROR_OF_MEAN|44.54|||TWO_SIDED|95.0|-184.51|-7.04||||||Change from baseline at Month 9 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-7.04|-184.51|
82361750|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-125.09|STANDARD_ERROR_OF_MEAN|35.15|||TWO_SIDED|95.0|-195.5|-54.68||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-54.68|-195.50|
82361751|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.94|STANDARD_ERROR_OF_MEAN|51.12|||TWO_SIDED|95.0|-232.77|-31.11||||||Change from baseline at Month 17 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-31.11|-232.77|
82361752|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-132.39|STANDARD_ERROR_OF_MEAN|52.77|||TWO_SIDED|95.0|-240.94|-23.84||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-23.84|-240.94|
82361753|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-117.18|STANDARD_ERROR_OF_MEAN|51.76|||TWO_SIDED|95.0|-221.49|-12.87||||||Change from baseline at Month 25 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-12.87|-221.49|
82361754|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-101.5|STANDARD_ERROR_OF_MEAN|61.05|||TWO_SIDED|95.0|-267.36|64.36||||||Change from baseline at Month 29 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||64.36|-267.36|
82361755|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-110.78|STANDARD_ERROR_OF_MEAN|92.42|||TWO_SIDED|95.0|-307.49|85.93||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||85.93|-307.49|
82361756|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-119.62|STANDARD_ERROR_OF_MEAN|158.84|||TWO_SIDED|95.0|-2137.82|1898.59||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1898.59|-2137.82|
82391267|NCT02612610|164493489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0534|||||||Cochran-Mantel-Haenszel|||"Twice Daily Acceptability: 50 mg gefapixant vs. placebo~The distribution of Extremely likely responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.0534
82391268|NCT02612610|164493490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6115|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 7.5 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0.6115
82444178|NCT04732949|164596890|OTHER||Odds Ratio (OR)|1.17||||0.406|TWO_SIDED|95.0|0.81|1.7|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 14) - SNG001 vs Placebo||1.70|0.81|0.406
82444179|NCT04732949|164596890|OTHER||Odds Ratio (OR)|0.96||||0.828|TWO_SIDED|95.0|0.64|1.43|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 21) - SNG001 vs Placebo||1.43|0.64|0.828
82642081|NCT04411641|164999374|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.693||||0.0026|TWO_SIDED|95.0|0.546|0.88||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation.Covariates were treatment group,age at screening (\>40,\<=40 years),geographic region (United States \[US\], non-US),baseline EDSS score \& baseline gadolinium (Gd)-enhancing T1 lesions (presence, absence).In this analysis, for participants who completed study with 3-month confirmation and continued to meet disability progression criteria throughout EOS, their 6-month CDP status was imputed via multiple imputation method.||0.880|0.546|0.0026
82642082|NCT04411641|164999375|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.757||||0.0134|TWO_SIDED|95.0|0.607|0.944||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||0.944|0.607|0.0134
82642083|NCT04411641|164999376|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Relative Risk|0.622||||0.011|TWO_SIDED|95.0|0.432|0.897||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Derived using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score, and baseline number of T2 lesions as covariates, and log transformed observation duration as the offset variable.||0.897|0.432|0.0110
82642084|NCT04411641|164999377|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.972||||0.8428|TWO_SIDED|95.0|0.735|1.286||Threshold for significance at 2-sided 0.05 level.|Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||1.286|0.735|0.8428
82642085|NCT04411641|164999378|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|0.767||||0.004|TWO_SIDED|95.0|0.64|0.919|||Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||0.919|0.640|0.0040
82642086|NCT04411641|164999379|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|Hazard Ratio (HR)|1.882||||0.0206|TWO_SIDED|95.0|1.102|3.214|||Regression, Cox|||Derived using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), baseline EDSS score and baseline Gd-enhancing T1 lesions (presence, absence).||3.214|1.102|0.0206
82361757|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-144.6|STANDARD_ERROR_OF_MEAN|200.56|||TWO_SIDED|90.0|-2692.95|2403.76||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||2403.76|-2692.95|
82361758|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-77.26|STANDARD_ERROR_OF_MEAN|966.09|||TWO_SIDED|95.0|-2131.88|1977.37||||||Change from baseline at Month 48 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1977.37|-2131.88|
82361759|NCT01115855|164435025|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-102.3|STANDARD_ERROR_OF_MEAN|35.67|||TWO_SIDED|95.0|-172.61|-32.0||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||-32.00|-172.61|
82361760|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-364.65|STANDARD_ERROR_OF_MEAN|763.83|||TWO_SIDED|95.0|-1863.06|1133.76||||||Change from baseline at Month 5 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1133.76|-1863.06|
82444180|NCT04732949|164596890|OTHER||Odds Ratio (OR)|0.92||||0.706|TWO_SIDED|95.0|0.61|1.4|||Regression, Logistic|||Odds Ratio for hospital discharge (Day 28) - SNG001 vs Placebo||1.40|0.61|0.706
82361761|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-247.14|STANDARD_ERROR_OF_MEAN|711.26|||TWO_SIDED|95.0|-1642.43|1148.14||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1148.14|-1642.43|
82361762|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-370.14|STANDARD_ERROR_OF_MEAN|699.58|||TWO_SIDED|95.0|-1742.51|1002.22||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||1002.22|-1742.51|
82361763|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-664.09|STANDARD_ERROR_OF_MEAN|11059.62|||TWO_SIDED|95.0|-141189.93|139861.75||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||139861.75|-141189.93|
82527464|NCT03502616|164751403|SUPERIORITY||LS mean difference|1.56|STANDARD_ERROR_OF_MEAN|0.454||0.0007|TWO_SIDED|95.0|0.67|2.45|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.45|0.67|0.0007
82574840|NCT01443403|164859120|SUPERIORITY_OR_OTHER||LS Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|0.9|2.17|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.17|0.90|<0.0001
82361764|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-414.99|STANDARD_ERROR_OF_MEAN|3071.77|||TWO_SIDED|95.0|-39445.52|38615.54||||||Change from baseline at Month 21 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||38615.54|-39445.52|
82361765|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|23.86|STANDARD_ERROR_OF_MEAN|10794.85|||TWO_SIDED|95.0|-21649.89|21697.6||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||21697.60|-21649.89|
82361766|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-245.23|STANDARD_ERROR_OF_MEAN|6698.57|||TWO_SIDED|95.0|-85358.69|84868.22||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||84868.22|-85358.69|
82361767|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|170.49|STANDARD_ERROR_OF_MEAN|10730.38|||TWO_SIDED|95.0|-21375.69|21716.66||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||21716.66|-21375.69|
82361768|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-58.77|STANDARD_ERROR_OF_MEAN|12765.3|||TWO_SIDED|95.0|-30160.25|30042.7||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||30042.70|-30160.25|
82361769|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-212.25|STANDARD_ERROR_OF_MEAN|11073.11|||TWO_SIDED|90.0|-22723.82|22299.33||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||22299.33|-22723.82|
82361770|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-80.16|STANDARD_ERROR_OF_MEAN|11486.21|||TWO_SIDED|95.0|-146026.28|145865.96||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||145865.96|-146026.28|
82361771|NCT01115855|164435026|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-187.72|STANDARD_ERROR_OF_MEAN|240.96|||TWO_SIDED|95.0|-662.67|287.23||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||287.23|-662.67|
82574841|NCT01443403|164859120|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.32||0.0002|TWO_SIDED|95.0|0.59|1.85|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.85|0.59|0.0002
82361772|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.71|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-0.55|3.96||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||3.96|-0.55|
82361773|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|95.0|0.07|5.42||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||5.42|0.07|
82444181|NCT04732949|164596891|OTHER||Odds Ratio (OR)|1.71||||0.101|TWO_SIDED|95.0|0.9|3.22|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 7) - SNG001 vs Placebo||3.22|0.90|0.101
82448820|NCT01128192|164604966|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in fasting plasma insulin level||||<0.001
82574842|NCT01443403|164859120|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.317||0.0698|TWO_SIDED|95.0|-0.05|1.2|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.20|-0.05|0.0698
82361774|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.86|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|1.11|6.6||||||Change from baseline at Month 13 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||6.60|1.11|
82361775|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.86|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|1.81|7.9||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.90|1.81|
82361776|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.65|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|2.36|8.94||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||8.94|2.36|
82361777|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.44|STANDARD_ERROR_OF_MEAN|1.68|||TWO_SIDED|95.0|0.12|6.75||||||Change from baseline at Month 25 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||6.75|0.12|
82361778|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|1.85|||TWO_SIDED|95.0|-0.06|7.25||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.25|-0.06|
82361779|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.65|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|0.86|8.44||||||Change from baseline at Month 33 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||8.44|0.86|
82361780|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.85|STANDARD_ERROR_OF_MEAN|1.94|||TWO_SIDED|95.0|0.02|7.68||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||7.68|0.02|
82361781|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|2.31|||TWO_SIDED|90.0|0.08|9.25||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||9.25|0.08|
82361782|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-1.82|10.07||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||10.07|-1.82|
82361783|NCT01115855|164435027|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|0.56|5.8||||||Change from baseline at Month 13 : ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||5.80|0.56|
82361784|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-61.53|STANDARD_ERROR_OF_MEAN|59.75|||TWO_SIDED|95.0|-186.44|63.37||||||Change from baseline at Month 5: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||63.37|-186.44|
82361785|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.94|STANDARD_ERROR_OF_MEAN|54.2|||TWO_SIDED|95.0|-131.27|81.39||||||Change from baseline at Month 9 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||81.39|-131.27|
82391269|NCT02612610|164493490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 20 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
82361786|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.57|STANDARD_ERROR_OF_MEAN|43.18|||TWO_SIDED|95.0|-97.28|72.13||||||Change from baseline at Month 13 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||72.13|-97.28|
82361787|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-78.47|STANDARD_ERROR_OF_MEAN|72.78|||TWO_SIDED|95.0|-221.25|64.31||||||Change from baseline at Month 17 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||64.31|-221.25|
82391270|NCT02612610|164493490|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 50 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Never responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
82391271|NCT02612610|164493491|SUPERIORITY_OR_OTHER_LEGACY|||||||0||||||"A p-value of zero was calculated if all participants (100%) had No Taste Effect Noted or Not at All responses in both comparison groups."|Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 7.5 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||0
82361788|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-79.63|STANDARD_ERROR_OF_MEAN|67.42|||TWO_SIDED|95.0|-211.88|52.63||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||52.63|-211.88|
82361789|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|19.35|STANDARD_ERROR_OF_MEAN|88.95|||TWO_SIDED|95.0|-230.01|268.71||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||268.71|-230.01|
82361790|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.05|STANDARD_ERROR_OF_MEAN|88.27|||TWO_SIDED|95.0|-194.21|152.11||||||Change from baseline at Month 29: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||152.11|-194.21|
82361791|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-40.79|STANDARD_ERROR_OF_MEAN|79.91|||TWO_SIDED|95.0|-197.55|115.97||||||Change from baseline at Month 33: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||115.97|-197.55|
82361792|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-44.48|STANDARD_ERROR_OF_MEAN|103.29|||TWO_SIDED|95.0|-247.11|158.15||||||Change from baseline at Month 37 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||158.15|-247.11|
82361793|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.69|STANDARD_ERROR_OF_MEAN|107.06|||TWO_SIDED|90.0|-238.31|182.93||||||Change from baseline at Month 42 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||182.93|-238.31|
82361794|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.46|STANDARD_ERROR_OF_MEAN|96.48|||TWO_SIDED|95.0|-221.17|158.24||||||Change from baseline at Month 48: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||158.24|-221.17|
82361795|NCT01115855|164435028|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.04|STANDARD_ERROR_OF_MEAN|28.85|||TWO_SIDED|95.0|-58.91|54.83||||||Change from baseline at Month 13 :ANCOVA with treatment effect and covariates of the NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||54.83|-58.91|
82361796|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.21|0.37||||||Change from baseline at Month 5 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.37|-0.21|
82361797|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.34|0.3||||||Change from baseline at Month 9 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.30|-0.34|
82361798|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.27|0.39||||||Change from baseline at Month 13: Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.39|-0.27|
82361799|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.41|0.45||||||Change from baseline at Month 17 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.45|-0.41|
82361800|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.56|0.24||||||Change from baseline at Month 21 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.24|-0.56|
82361801|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.55|0.25||||||Change from baseline at Month 25 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.25|-0.55|
82391272|NCT02612610|164493491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 20 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
82391273|NCT02612610|164493491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||"Taste Effect Frequency: 50 mg gefapixant vs. placebo~The distribution of No Taste Effect Noted or Not at All responses were compared between each of the gefapixant treatment groups and placebo using the stratified CMH test (stratified by country). P-values calculated for gefapixant vs. placebo using CMH test."||||<0.0001
82444182|NCT04732949|164596891|OTHER||Odds Ratio (OR)|0.99||||0.942|TWO_SIDED|95.0|0.67|1.45|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 14) - SNG001 vs Placebo||1.45|0.67|0.942
82444183|NCT04732949|164596891|OTHER||Odds Ratio (OR)|0.96||||0.824|TWO_SIDED|95.0|0.68|1.35|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 21) - SNG001 vs Placebo||1.35|0.68|0.824
82444184|NCT04732949|164596891|OTHER||Odds Ratio (OR)|0.92||||0.613|TWO_SIDED|95.0|0.66|1.28|||Regression, Logistic|||Odds Ratio for OSCI recovery (Day 28) - SNG001 vs Placebo||1.28|0.66|0.613
82642087|NCT04411641|164999380|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at 2-sided 0.05. Primary and first 6 secondary endpoints are included in this procedure.|LS Mean Difference|0.082||||0.1646|TWO_SIDED|95.0|-0.034|0.197|||Mixed model repeated measures (MMRM)|||Covariates in the mixed-effect model with repeated measures were treatment group, age at screening (\>40, \<=40 years), geographic region (US, non-US), visit, treatment-by-visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.197|-0.034|0.1646
82642088|NCT03222570|164999391|SUPERIORITY||Estimated mean difference|-0.88||||0.76|TWO_SIDED|95.0|-6.56|4.7|||Regression, Linear||Mean difference estimated from fitting a linear regression model adjusting for baseline value of the measure.|||4.7|-6.56|0.76
82642089|NCT03222570|164999392|SUPERIORITY||Estimated mean difference|-2.52||||0.32|TWO_SIDED|95.0|-7.42|2.3|||Regression, Linear||Mean difference estimated from fitting a linear regression model adjusting for baseline value of the measure.|||2.3|-7.42|0.32
82642090|NCT04410978|164999401|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.061||||0.6691|TWO_SIDED|95.0|0.808|1.393||Threshold for significance at 2-sided 0.05 level.|Chi-squared|||Analysis was performed using negative binomial model with number of adjudicated relapses onset between randomization date and EOS date as the response variable, treatment group, Gadolinium (Gd)-enhancing T1 lesions at baseline (presence, absence), expanded disability status scale (EDSS) strata (\<4, \>=4) and geographic region (United States \[US\], non-US) as covariates, and log transformed observation duration as the offset variable.||1.393|0.808|0.6691
82642091|NCT04410978|164999402|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.85||||0.4888|TWO_SIDED|95.0|0.565|1.278||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.278|0.565|0.4888
82642092|NCT04410978|164999403|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.819||||0.2991|TWO_SIDED|95.0|0.582|1.151||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.151|0.582|0.2991
82642093|NCT04410978|164999404|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.084||||0.4575|TWO_SIDED|95.0|0.876|1.342|||Chi-squared|||Analysis was performed using negative binomial model with the number of new and/or enlarging T2-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, baseline T2-hyperintense lesion count, EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed observation duration as the offset variable.||1.342|0.876|0.4575
82642094|NCT04410978|164999405|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Relative risk|1.86||||0.0001|TWO_SIDED|95.0|1.358|2.548|||Chi-squared|||Analysis was performed using negative binomial model with the number of new Gd-enhancing T1-hyperintense lesions between randomization date and EOS date as the response variable, treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4) and geographic region (US, non-US) as covariates, and log transformed number of MRI scans as the offset variable.||2.548|1.358|0.0001
82642095|NCT04410978|164999406|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Least square (LS) mean difference|0.035||||0.432|TWO_SIDED|95.0|-0.053|0.124|||MMRM|||Covariates in the mixed-effect model with repeated measures (MMRM) were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||0.124|-0.053|0.4320
82642096|NCT04410978|164999407|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|1.873||||0.0675|TWO_SIDED|95.0|-0.135|3.88|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, baseline value, and baseline value-by-visit interaction.||3.880|-0.135|0.0675
82642097|NCT04410978|164999408|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Hazard Ratio (HR)|0.831||||0.3594|TWO_SIDED|95.0|0.554|1.245||Derived from log-rank test with stratification of EDSS strata (\<4, \>=4), geographic region (US, non-US).|Log Rank|||Analysis was performed using Cox proportional-hazards model with robust variance estimation. Covariates were treatment group, Gd-enhancing T1 lesions at baseline (presence, absence), EDSS strata (\<4, \>=4), geographic region (US, non-US).||1.245|0.554|0.3594
82361802|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.49|0.31||||||Change from baseline at Month 29 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.31|-0.49|
82361803|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.57|0.44||||||Change from baseline at Month 33 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.44|-0.57|
82361804|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.5|0.54||||||Change from baseline at Month 37 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.54|-0.50|
82391274|NCT01323010|164493577|SUPERIORITY_OR_OTHER|||||||0.689|TWO_SIDED||||||Chi-squared|||||||0.689
82391275|NCT01323010|164493578|SUPERIORITY_OR_OTHER|||||||0.591|TWO_SIDED||||||t-test, 2 sided|||||||0.591
82391276|NCT01323010|164493579|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||ANOVA|Method: ANOVA with repetead measures for non parametric data proposed by Brunner and Piri.||||||0.150
82391277|NCT01323010|164493580|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
82391278|NCT01323010|164493581|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||ANOVA|||||||0.108
82391279|NCT01323010|164493583|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||ANOVA|||||||0.122
82642098|NCT04410978|164999409|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS mean difference|0.196||||0.0002|TWO_SIDED|95.0|0.093|0.298|||MMRM|||Covariates in the MMRM were treatment group, EDSS strata (\<4, \>=4), geographic region (US, non-US), visit, treatment by visit interaction, cube root transformed Month 6 brain volume, and cube root transformed Month 6 brain volume-by-visit interaction.||0.298|0.093|0.0002
82361805|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.44|0.83||||||Change from baseline at Month 42 :Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.83|-0.44|
82361806|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-0.63|0.89||||||Change from baseline at Month 48 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.89|-0.63|
82361807|NCT01115855|164435030|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.11||||||Change from baseline at Week 4 : Mixed effect model of repeated measurements with covariates of the treatment, Week, interaction between treatment and week, baseline NYHA cohort (II, III/IV), baseline eGFR (30-\<50 ml/min/1.73 m\^2, \>=50 ml/min/1.73 m\^2) and baseline value.||0.11|-0.36|
82361808|NCT00831233|164435031|NON_INFERIORITY_OR_EQUIVALENCE|"The trial was positive if the treatment contrast of degarelix versus goserelin plus bicalutamide in adjusted (for baseline total IPSS, age, and country) mean change from baseline in total IPSS was statistically significantly smaller (two-sided at α=0.05 level) than Δ=3 points in both the FAS and the PP analysis set.~If the Week 12 treatment assessment of IPSS was missing the LOCF approach was used, i.e., the IPSS closest to and before Week 12 was used."|Mean Difference (Final Values)|-2.95||||0.1973|TWO_SIDED|95.0|-7.51|1.61||FAS.|ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.61|-7.51|0.1973
82361809|NCT00831233|164435031|NON_INFERIORITY_OR_EQUIVALENCE|"The trial was positive if the treatment contrast of degarelix versus goserelin plus bicalutamide in adjusted (for baseline total IPSS, age, and country) mean change from baseline in total IPSS was statistically significantly smaller (two-sided at α=0.05 level) than Δ=3 points in both the FAS and the PP analysis set.~If the Week 12 treatment assessment of IPSS was missing the LOCF approach was used, i.e., the IPSS closest to and before Week 12 was used."|Mean Difference (Final Values)|-5.88||||0.0398|TWO_SIDED|95.0|-11.5|-0.291||PP analysis set.|ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||-0.291|-11.5|0.0398
82361810|NCT00831233|164435032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47||||0.2298|TWO_SIDED|95.0|-6.58|1.64|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.64|-6.58|0.2298
82391280|NCT01323010|164493585|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED||||||ANOVA|Method: ANOVA with repetead measures for non paramteric data proposed by Brunner and Piri.||||||0.164
82444185|NCT04732949|164596893|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.41|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|||SNG001 vs Placebo||0.3|-0.1|0.410
82361811|NCT00831233|164435032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.983||||0.6917|TWO_SIDED|95.0|-5.98|4.02|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||4.02|-5.98|0.6917
82391281|NCT01323010|164493586|SUPERIORITY_OR_OTHER|||||||0.165|TWO_SIDED||||||ANOVA|||||||0.165
82391282|NCT01323010|164493587|SUPERIORITY_OR_OTHER|||||||0.436|TWO_SIDED||||||ANOVA|||||||0.436
82391283|NCT01323010|164493588|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED||||||ANOVA|||||||0.046
82391284|NCT01323010|164493589|SUPERIORITY_OR_OTHER|||||||0.723|TWO_SIDED||||||ANOVA|||||||0.723
82391285|NCT01323010|164493590|SUPERIORITY_OR_OTHER|||||||0.235|TWO_SIDED||||||ANOVA|||||||0.235
82391286|NCT01323010|164493591|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED||||||ANOVA|||||||0.284
82391287|NCT01323010|164493592|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED||||||ANOVA|||||||0.905
82391288|NCT01323010|164493595|SUPERIORITY_OR_OTHER|||||||0.892|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.892
82391289|NCT01323010|164493596|SUPERIORITY_OR_OTHER|||||||0.195|TWO_SIDED||||||Chi-squared|||||||0.195
82391290|NCT01323010|164493597|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED||||||Chi-squared, Corrected|||||||0.203
82391291|NCT01323010|164493598|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Chi-squared|||||||0.03
82444186|NCT02408523|164596948|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.001|TWO_SIDED|95.0|0.377|0.774||Wald's method was used to calculate the p-value, Hazard Ratio (HR) and confidence intervals (CIs).|Regression, Cox|||Comparison of LCM versus Placebo was based on a Cox proportional hazards regression model with an effect for treatment, stratifying for the following combinations of study participants' Baseline PGTCS frequency and Development from interactive response technology (IRT) (\<= 2 per 28 days in the Combined Baseline Period and Pediatric, \<= 2 per 28 days in the Combined Baseline Period and Adult, and \> 2 per 28 days in the Combined Baseline Period). The reference group was Placebo.||0.774|0.377|<0.001
82361812|NCT00831233|164435033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.553||||0.8151|TWO_SIDED|95.0|-5.33|4.22|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||4.22|-5.33|0.8151
82527465|NCT03502616|164751403|SUPERIORITY||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.485||0.2018|TWO_SIDED|95.0|-0.33|1.58|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.58|-0.33|0.2018
82574843|NCT01443403|164859122|SUPERIORITY_OR_OTHER||LS Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|0.307||0.0001|TWO_SIDED|95.0|0.58|1.79|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.79|0.58|0.0001
82361813|NCT00831233|164435033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.455|TWO_SIDED|95.0|-2.46|5.38|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||5.38|-2.46|0.455
82361814|NCT00831233|164435033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.3186|TWO_SIDED|95.0|-2.04|6.08|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 12. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||6.08|-2.04|0.3186
82361815|NCT00831233|164435034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.2||||0.5627|TWO_SIDED|95.0|-37.8|68.2|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 4. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||68.2|-37.8|0.5627
82361816|NCT00831233|164435034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91||||0.8284|TWO_SIDED|95.0|-49.1|60.9|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 8. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||60.9|-49.1|0.8284
82361817|NCT00831233|164435034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.2||||0.5984|TWO_SIDED|95.0|-34.4|58.8|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Week 12. Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||58.8|-34.4|0.5984
82391292|NCT02880865|164493622|NON_INFERIORITY|Non-inferiority was achieved if the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentages of participants with seropositivity between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10% for both measles and rubella results.|Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2||||||The primary hypotheses evaluated the non-inferiority of the concomitant administration of MMR and CD-JEV vaccines (Group 1) to MMR and CD-JEV vaccines given 2 months apart (Group 2) in children 9 months of age at 56 days in terms of percentage of participants achieving seropositivity to measles and rubella assuming a non-inferiority margin of 10%.||2.2|-2.1|
82448821|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
82448822|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
82574844|NCT01443403|164859122|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.305||0.0004|TWO_SIDED|95.0|0.49|1.7|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.70|0.49|0.0004
82574845|NCT01443403|164859122|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.302||0.1648|TWO_SIDED|95.0|-0.17|1.02|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.02|-0.17|0.1648
82361818|NCT00831233|164435035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.83||||0.1018|TWO_SIDED|95.0|-17.3|1.64|||ANCOVA|The baseline score, age, and country were used as covariates and treatment was used as a factor in the analysis for the FAS.||Estimates from analysis of variance with treatment and country as factors and age and baseline value as covariates.||1.64|-17.3|0.1018
82574846|NCT01443403|164859124|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
82574847|NCT01443403|164859124|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82574848|NCT01443403|164859124|SUPERIORITY_OR_OTHER|||||||0.0118||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0118
82574849|NCT01443403|164859125|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82574850|NCT01443403|164859125|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0011
82574851|NCT01443403|164859125|SUPERIORITY_OR_OTHER|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
82361819|NCT01976728|164435042|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.012||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||The primary efficacy analysis compared the pooled ovulation rate of the LutrePulse 15 μg and 20 μg group to placebo.||||0.0120
82361820|NCT01976728|164435043|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0553||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||P4 levels of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0553
82574852|NCT01443403|164859128|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.358||0.0003|TWO_SIDED|95.0|0.62|2.03|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.03|0.62|0.0003
82361821|NCT01976728|164435044|SUPERIORITY|The hypotheses was tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0383||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||Clinical pregnancy rates of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0383
82361822|NCT01976728|164435045|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0246||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||Biochemical pregnancy rates of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0246
82361823|NCT01976728|164435046|SUPERIORITY|The hypotheses were tested using a stratified one-sided Fisher's exact test in the FAS including the randomization scheme as the stratification factor.||||||0.0011||||||The SAS PROC FREQ with permutation-based Cochran-Mantel-Haenszel test with exact p-value derived from all possible permutations was employed for the calculation of p-value for the stratified Fisher's exact test.|Fisher Exact|The success threshold at each analysis corresponded to a nominal p-value \<0.0130 to maintain an overall one-sided type I error rate of 0.025.||LH surge detection of the pooled LutrePulse 15 μg and 20 μg group were compared to placebo.||||0.0011
82361824|NCT01976728|164435047|SUPERIORITY|||||||0.1344||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1344
82361825|NCT01976728|164435047|SUPERIORITY|||||||0.2726||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2726
82361826|NCT01976728|164435047|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 10: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
82361827|NCT01976728|164435047|SUPERIORITY|||||||0.1275||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1275
82361828|NCT01976728|164435047|SUPERIORITY|||||||0.1088||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1088
82361829|NCT01976728|164435047|SUPERIORITY|||||||0.2374||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2374
82361830|NCT01976728|164435047|SUPERIORITY|||||||0.0796||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test||||0.0796
82361831|NCT01976728|164435047|SUPERIORITY|||||||0.1757||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test||||0.1757
82361832|NCT01976728|164435047|SUPERIORITY|||||||0.0584||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0584
82444187|NCT02408523|164596949|SUPERIORITY||KM seizure free of LCM vs Placebo|14.1|||=|0.011|TWO_SIDED|95.0|3.2|25.1||Superiority of LCM vs Placebo p-value was based on a chi-square test on 1 degree of freedom.|Mantel Haenszel||Stratified difference in proportion of subjects who are seizure-free from PGTCS on Lacosamide (FAS) vs Placebo (FAS).|The key secondary efficacy variable was evaluated using an extended Mantel-Haenszel testing procedure. Baseline PGTCS Frequency from Combined Baseline and development (age from interactive response technology (IRT)) were calculated from IRT.||25.1|3.2|=0.011
82361833|NCT01976728|164435047|SUPERIORITY|||||||0.3711||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3711
82361834|NCT01976728|164435047|SUPERIORITY|||||||0.0143||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0143
82361835|NCT01976728|164435047|SUPERIORITY|||||||0.006||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0060
82361836|NCT01976728|164435047|SUPERIORITY|||||||0.1573||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥14 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.1573
82361837|NCT01976728|164435048|SUPERIORITY|||||||0.4142||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 12: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4142
82361838|NCT01976728|164435048|SUPERIORITY|||||||0.2374||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2374
82361839|NCT01976728|164435048|SUPERIORITY|||||||0.2636||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.2636
82361840|NCT01976728|164435048|SUPERIORITY|||||||0.4795||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4795
82361841|NCT01976728|164435048|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 15: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
82361842|NCT01976728|164435048|SUPERIORITY|||||||0.3711||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3711
82361843|NCT01976728|164435048|SUPERIORITY|||||||0.4142||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.4142
82361844|NCT01976728|164435048|SUPERIORITY|||||||0.0838||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 18: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 20 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.0838
82361845|NCT01976728|164435048|SUPERIORITY|||||||0.3173||||||The p-value was based on the stratified (by randomization scheme) Wilcoxon rank sum test.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 10 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3173
82361846|NCT01976728|164435048|SUPERIORITY|||||||0.3778||||||The p-value was based on the Wilcoxon rank sum test without stratification.|Wilcoxon rank sum test|SAS PROC FREQ with modified ridit score (MODRIDIT option) was used for the stratified Wilcoxon rank sum test.||Day 21: Number of follicles with a mean diameter ≥18 mm in the LutrePulse 15 μg group was compared to placebo, using Wilcoxon's rank sum test.||||0.3778
82448823|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82361847|NCT01976728|164435049|SUPERIORITY||Least square mean (LSM) difference|1.35||||0.6732|TWO_SIDED|95.0|-5.16|7.87||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% confidence interval (CI) for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 10 µg group were compared to placebo using an analysis of covariance (ANCOVA) model including the randomization scheme and treatment group as factors and baseline value as covariate.||7.87|-5.16|0.6732
82361848|NCT01976728|164435049|SUPERIORITY||LSM|5.7||||0.0814|TWO_SIDED|95.0|-0.76|12.15||p-value for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 15 µg group were compared to placebo using an ANCOVA model including treatment group as factors and baseline value as covariate.||12.15|-0.76|0.0814
82448824|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-30 minutes||||<0.001
82448825|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 30-180 minutes||||<0.001
82361849|NCT01976728|164435049|SUPERIORITY||LSM difference|7.55||||0.0223|TWO_SIDED|95.0|1.16|13.93||p-value for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Maximum P4 levels in the LutrePulse 20 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||13.93|1.16|0.0223
82391293|NCT02880865|164493623|NON_INFERIORITY|Non-inferiority was achieved if the lower limit of the two-sided 95% CI for the difference in percentages of participants with seropositivity between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10% for both measles and rubella results.|Difference|0.3|||||TWO_SIDED|95.0|-0.3|1.0||||||The primary hypotheses evaluated the non-inferiority of the concomitant administration of MMR and CD-JEV vaccines (Group 1) to MMR and CD-JEV vaccines given 2 months apart (Group 2) in children 9 months of age at 56 days in terms of percentage of participants achieving seropositivity to measles and rubella assuming a non-inferiority margin of 10%.||1.0|-0.3|
82391294|NCT02880865|164493624|NON_INFERIORITY|The percentage of participants with seropositivity for mumps at 56 days post-vaccination between Group 1 and Group 2 were compared using a non-inferiority test. Non-inferiority of Group 1 to Group 2 in terms of seropositivity for mumps was demonstrated if the lower limit of the two-sided 95% CI for the difference of seropositivity rates between the two groups (concurrent administration minus separate administration) at 56 days post-vaccination was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.1||||||||2.1|-2.0|
82361850|NCT01976728|164435050|SUPERIORITY||LSM difference|0.679||||0.7355|TWO_SIDED|95.0|-3.404|4.762||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 10 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||4.762|-3.404|0.7355
82361851|NCT01976728|164435050|SUPERIORITY||LSM difference|2.602||||0.198|TWO_SIDED|95.0|-1.444|6.648||p-value for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 15 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 15 µg group were compared to placebo using an ANCOVA model including treatment group as factors and baseline value as covariate.||6.648|-1.444|0.1980
82361852|NCT01976728|164435050|SUPERIORITY||LSM difference|4.88||||0.0187|TWO_SIDED|95.0|0.878|8.882||p-value for the LutrePulse 10 µg group compared to placebo based on the fitted linear model were reported.|ANCOVA|PROC GLM was used for ANCOVA.|The LSM difference on the treatment groups and 95% CI for the LutrePulse 20 µg group compared to placebo based on the fitted linear model were reported. Type III sum-of-squares for the LSMs were used for statistical comparisons.|Mean P4 levels in the LutrePulse 20 µg group were compared to placebo using an ANCOVA model including the randomization scheme and treatment group as factors and baseline value as covariate.||8.882|0.878|0.0187
82361853|NCT01976728|164435051|SUPERIORITY||LSM difference|0.03||||0.8772|TWO_SIDED|95.0|-0.39|0.46||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.46|-0.39|0.8772
82361854|NCT01976728|164435051|SUPERIORITY||LSM difference|0.07||||0.7805|TWO_SIDED|95.0|-0.44|0.58||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.58|-0.44|0.7805
82391295|NCT02880865|164493625|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.2|||||Group 1/Group 2 ratio obtained using analysis of covariance (ANCOVA) with log10-transformed antibody concentration as dependent variable and treatment group as the explanatory variable adjusted for log10-transformed baseline antibody concentration.|||1.2|0.9|
82391296|NCT02880865|164493626|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.1|||||Group 1/Group 2 ratio obtained using an ANCOVA method with log 10-transformed antibody concentration as dependent variable and treatment group as explanatory variable adjusted for log 10-transformed baseline antibody concentration.|||1.1|0.9|
82391297|NCT02880865|164493627|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2|||||Group 1 - Group 2|||2.2|-2.1|
82527466|NCT03502616|164751403|SUPERIORITY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.465||0.6432|TWO_SIDED|95.0|-0.7|1.13|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.13|-0.70|0.6432
82391298|NCT02880865|164493628|OTHER||Difference|1.6|||||TWO_SIDED|95.0|-1.8|4.9|||||Group 1 - Group 2|||4.9|-1.8|
82574853|NCT01443403|164859128|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|STANDARD_ERROR_OF_MEAN|0.359|<|0.0001|TWO_SIDED|95.0|0.8|2.22|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||2.22|0.80|<0.0001
82391299|NCT02880865|164493629|OTHER||Difference|0.3|||||TWO_SIDED|95.0|-0.3|1.0|||||Group 1 - Group 2|||1.0|-0.3|
82391300|NCT02880865|164493630|OTHER||Difference|4.1|||||TWO_SIDED|95.0|-3.1|11.3||||||||11.3|-3.1|
82391301|NCT02880865|164493631|OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|1.0|1.4|||||Group 1 / Group 2 ratio obtained using an analysis of covariance (ANCOVA) method with log 10-transformed antibody concentration as dependent variable and treatment group as explanatory variable adjusted for log 10-transformed baseline antibody titer.|||1.4|1.0|
82361855|NCT01976728|164435051|SUPERIORITY||LSM difference|0.12||||0.6095|TWO_SIDED|95.0|-0.35|0.58||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in FSH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||0.58|-0.35|0.6095
82361856|NCT01976728|164435052|SUPERIORITY||LSM difference|0.51||||0.152|TWO_SIDED|95.0|-0.2|1.22||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.22|-0.20|0.1520
82361857|NCT01976728|164435052|SUPERIORITY||LSM difference|0.93||||0.0221|TWO_SIDED|95.0|0.14|1.72||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.72|0.14|0.0221
82361858|NCT01976728|164435052|SUPERIORITY||LSM difference|0.76||||0.0316|TWO_SIDED|95.0|0.07|1.44||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in LH levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||1.44|0.07|0.0316
82361859|NCT01976728|164435054|SUPERIORITY||LSM difference|73.0||||0.3147|TWO_SIDED|95.0|-72.66|218.65||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 10 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||218.65|-72.66|0.3147
82361860|NCT01976728|164435054|SUPERIORITY||LSM difference|95.18||||0.229|TWO_SIDED|95.0|-63.01|253.36||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 15 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||253.36|-63.01|0.2290
82361861|NCT01976728|164435054|SUPERIORITY||LSM difference|46.99||||0.5066|TWO_SIDED|95.0|-95.64|189.61||The p-value was derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|ANCOVA||LSM difference and CIs were derived from an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.|The mean change in E2 levels from Day 10 pre-treatment (prior to first dose) in the LutrePulse 20 μg/Pulse group was compared to placebo using an ANCOVA model with randomization scheme and treatment as factors and baseline value as covariate.||189.61|-95.64|0.5066
82361862|NCT03244475|164435061|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.|Mean Difference (Final Values)|1.6||||0.01|TWO_SIDED|95.0|1.1|2.2||The corrected p-value of 0.01 was chosen after the standard cluster analysis for correcting family-wise error across different voxels.|Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||The analysis was performed for the voxel-wise delta-band activity from the frontal pole and inferior frontal gyri. Spatial smoothing and logarithm transformation (e-based) were performed. Resting-state MEG activity differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||2.2|1.1|0.01
82361863|NCT03244475|164435062|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361864|NCT03244475|164435063|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361865|NCT03244475|164435064|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82391302|NCT01565369|164493691|SUPERIORITY_OR_OTHER||Fleiss' kappa|0.8547|STANDARD_ERROR_OF_MEAN|0.0282|<|0.0001||95.0||||evaluated at the .05 significance level|Fleiss' kappa|||Fleiss' kappa||||<0.0001
82391303|NCT02548351|164493692|OTHER||Hazard Ratio (HR)|0.814||||0.1028|TWO_SIDED|95.0|0.635|1.043|||Log Rank|||||1.043|0.635|0.1028
82391304|NCT02548351|164493692|OTHER||Hazard Ratio (HR)|0.772||||0.0444|TWO_SIDED|95.0|0.6|0.994|||Log Rank|||||0.994|0.600|0.0444
82361866|NCT03244475|164435065|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361867|NCT03244475|164435066|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361868|NCT03244475|164435067|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361869|NCT03244475|164435068|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361870|NCT03244475|164435069|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361871|NCT03244475|164435070|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361872|NCT03244475|164435071|SUPERIORITY|Statistical analysis was carried out for the DIFFERENCE scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361873|NCT03244475|164435072|SUPERIORITY|Statistical analysis was carried out for the difference scores to assess group differences between TES and Sham groups.||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon test was chosen due to potential non-normal distribution for the difference scores.||Differences between pre- and post-treatment measures were obtained as difference scores for TES and Sham separately. The null hypothesis was that there was no group difference in the pre- and post-treatment difference scores between TES and Sham groups||||0.05
82361874|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.861||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rivermead Behavioural Memory Test (RBMT) - Immediate memory||||0.861
82361875|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.668||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||RBMT - Delayed memory||||0.668
82361876|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.713||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||RBMT-Delayed corrected for immediate memory||||0.713
82361877|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.028||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Short-term memory||||0.028
82391305|NCT02548351|164493693|OTHER||Difference in percentages|7.1|||<|0.0001|TWO_SIDED|95.0|3.6|10.6|||Cochran-Mantel-Haenszel|||||10.6|3.6|<0.0001
82361878|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.227||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Total immediate memory||||0.227
82361879|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.13||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Learning Score||||0.130
82361880|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.106||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test- Delayed memory||||0.106
82361881|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.35||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Delayed corrected for total memory||||0.350
82391306|NCT02548351|164493693|OTHER||Treatment difference|9.4|||<|0.0001|TWO_SIDED|95.0|5.8|13.0|||Cochran-Mantel-Haenszel|||||13.0|5.8|<0.0001
82391307|NCT02548351|164493694|OTHER||Treatment difference|6.7||||0.0004|TWO_SIDED|95.0|3.0|10.4|||Cochran-Mantel-Haenszel|||||10.4|3.0|0.0004
82391308|NCT02548351|164493694|OTHER||Treatment difference|9.0|||<|0.0001|TWO_SIDED|95.0|5.2|12.8|||Cochran-Mantel-Haenszel|||||12.8|5.2|<0.0001
82391309|NCT00792688|164493703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0062
82391310|NCT00792688|164493703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0331||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0331
82391311|NCT02091986|164493705|SUPERIORITY_OR_OTHER|||||||0.006|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.006
82361882|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.093||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||15 Words Test - Recognition||||0.093
82361883|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.614||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Digit Span forward - Short-term memory||||0.614
82361884|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.111||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rey Complex Figure - Immediate memory||||0.111
82361885|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.451||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Rey Complex Figure - Delayed memory||||0.451
82361886|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.905||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Reaction time auditory response||||0.905
82361887|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.502||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Reaction time visual response||||0.502
82361888|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.531||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Number of omission errors||||0.531
82361889|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.681||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Divided attention-Number of commission errors||||0.681
82361890|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.713||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Reaction time for target stimuli||||0.713
82361891|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.229||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Number of omission errors||||0.229
82361892|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.329||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Visual scanning - Number of commission errors||||0.329
82361893|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.192||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Alertness - Reaction time tonic alertness||||0.192
82361894|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.164||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Alertness - Reaction time phasic alertness||||0.164
82361895|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.536||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Semantic fluency||||0.536
82361896|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.572||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Phonemic fluency||||0.572
82361897|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.632||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Digit span backward - Working memory||||0.632
82361898|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.512||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Time condition A||||0.512
82361899|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.861||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Time condition B||||0.861
82361900|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.958||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Trail Making Test - Condition B/A||||0.958
82361901|NCT01546922|164435073|SUPERIORITY_OR_OTHER|||||||0.819||||||A Bonferroni correction for multiple comparisons was applied, resulting in a significance level of 0.001.|Wilcoxon (Mann-Whitney)|||Social cognition||||0.819
82361902|NCT02000531|164435091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26|||>|0.05|TWO_SIDED|95.0|0.61|2.62|||Log Rank|||||2.62|0.61|>0.05
82361903|NCT02285634|164435093|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
82361904|NCT02285634|164435093|SUPERIORITY|||||||0.52|||||||Fisher Exact|||||||0.52
82361905|NCT02285634|164435093|SUPERIORITY|||||||0.93|||||||Fisher Exact|||||||0.93
82361906|NCT02285634|164435094|SUPERIORITY|||||||0.06|||||||Fisher Exact|||||||0.06
82361907|NCT02285634|164435094|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
82361908|NCT02285634|164435094|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
82391312|NCT02091986|164493705|SUPERIORITY_OR_OTHER|||||||0.063|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.063
82361909|NCT02285634|164435095|SUPERIORITY|||||||0.27|||||||Fisher Exact|||||||0.27
82361910|NCT02285634|164435095|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
82361911|NCT02285634|164435095|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.56
82361912|NCT02285634|164435096|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
82361913|NCT02285634|164435096|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.10
82361914|NCT02285634|164435096|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82361915|NCT01239472|164435105|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82361916|NCT01239472|164435106|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82361917|NCT03440424|164435107|OTHER||Percent ratio of geometric mean|157.86|||||TWO_SIDED|90.0|118.18|210.87|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||210.87|118.18|
82361918|NCT03440424|164435107|OTHER||Percent ratio of geometric mean|122.2|||||TWO_SIDED|90.0|91.49|163.24|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||163.24|91.49|
82361919|NCT03440424|164435108|OTHER||Percent ratio of geometric mean|122.31|||||TWO_SIDED|90.0|98.95|151.17|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||151.17|98.95|
82361920|NCT03440424|164435108|OTHER||Percent ratio of geometric mean|103.24|||||TWO_SIDED|90.0|83.53|127.61|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||127.61|83.53|
82361921|NCT03440424|164435109|OTHER||Percent ratio of geometric mean|125.26|||||TWO_SIDED|90.0|96.76|162.16|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||162.16|96.76|
82361922|NCT03440424|164435109|OTHER||Percent ratio of geometric mean|115.2|||||TWO_SIDED|90.0|88.98|149.13|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||149.13|88.98|
82361923|NCT03440424|164435110|OTHER||Percent ratio of geometric mean|131.91|||||TWO_SIDED|90.0|96.46|180.4|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||180.40|96.46|
82361924|NCT03440424|164435110|OTHER||Percent ratio of geometric mean|149.52|||||TWO_SIDED|90.0|109.34|204.47|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||204.47|109.34|
82361925|NCT03440424|164435111|OTHER||Percent ratio of geometric mean|125.03|||||TWO_SIDED|90.0|87.96|177.74|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||177.74|87.96|
82361926|NCT03440424|164435111|OTHER||Percent ratio of geometric mean|153.56|||||TWO_SIDED|90.0|106.39|221.66|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||221.66|106.39|
82361927|NCT03440424|164435112|OTHER||Percent ratio of geometric mean|128.88|||||TWO_SIDED|90.0|88.35|188.02|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||188.02|88.35|
82361928|NCT03440424|164435112|OTHER||Percent ratio of geometric mean|166.55|||||TWO_SIDED|90.0|112.31|246.99|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|||246.99|112.31|
82361929|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|96.97|||||TWO_SIDED|90.0|70.15|134.06|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||134.06|70.15|
82361930|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|72.05|||||TWO_SIDED|90.0|52.12|99.6|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||99.60|52.12|
82361931|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|84.36|||||TWO_SIDED|90.0|60.21|118.19|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||118.19|60.21|
82527467|NCT03502616|164751403|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.47||0.4092|TWO_SIDED|95.0|-0.54|1.31|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.31|-0.54|0.4092
82574854|NCT01443403|164859128|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.352||0.1211|TWO_SIDED|95.0|-0.15|1.24|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.24|-0.15|0.1211
82361932|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|65.7|||||TWO_SIDED|90.0|46.89|92.05|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||92.05|46.89|
82361933|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|94.74|||||TWO_SIDED|90.0|68.37|131.3|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||131.30|68.37|
82361934|NCT03440424|164435113|OTHER||Percent ratio of geometric mean|76.56|||||TWO_SIDED|90.0|55.24|106.09|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||106.09|55.24|
82361935|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|99.14|||||TWO_SIDED|90.0|76.91|127.81|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||127.81|76.91|
82448826|NCT01128192|164604967|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82361936|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|69.66|||||TWO_SIDED|90.0|54.03|89.79|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||89.79|54.03|
82361937|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|78.98|||||TWO_SIDED|90.0|62.88|99.21|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||99.21|62.88|
82361938|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|63.2|||||TWO_SIDED|90.0|50.31|79.38|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||79.38|50.31|
82361939|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|94.56|||||TWO_SIDED|90.0|68.5|130.51|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||130.51|68.50|
82361940|NCT03440424|164435115|OTHER||Percent ratio of geometric mean|71.81|||||TWO_SIDED|90.0|52.03|99.12|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||99.12|52.03|
82448827|NCT01128192|164604968|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Baseline Insulin Level||||<0.001
82574855|NCT01443403|164859130|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|STANDARD_ERROR_OF_MEAN|0.551|<|0.0001|TWO_SIDED|95.0|1.28|3.45|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.45|1.28|<0.0001
82361941|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|106.7|||||TWO_SIDED|90.0|83.95|135.62|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||135.62|83.95|
82361942|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|85.68|||||TWO_SIDED|90.0|67.41|108.9|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||108.90|67.41|
82361943|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|75.41|||||TWO_SIDED|90.0|62.28|91.31|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||91.31|62.28|
82361944|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|76.0|||||TWO_SIDED|90.0|62.76|92.02|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||92.02|62.76|
82361945|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|95.55|||||TWO_SIDED|90.0|71.92|126.94|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||126.94|71.92|
82361946|NCT03440424|164435116|OTHER||Percent ratio of geometric mean|74.48|||||TWO_SIDED|90.0|56.06|98.94|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||98.94|56.06|
82391313|NCT02091986|164493705|SUPERIORITY_OR_OTHER|||||||0.373|||||||Mixed Models Analysis|Baseline FEV1, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.373
82391314|NCT02091986|164493706|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.001
82391315|NCT02091986|164493706|SUPERIORITY_OR_OTHER|||||||0.195|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.195
82391316|NCT02091986|164493706|SUPERIORITY_OR_OTHER|||||||0.032|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.032
82361947|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|113.04|||||TWO_SIDED|90.0|85.16|150.05|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||150.05|85.16|
82391317|NCT02091986|164493707|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||<0.001
82361948|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|103.74|||||TWO_SIDED|90.0|78.16|137.7|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||137.70|78.16|
82361949|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|78.62|||||TWO_SIDED|90.0|62.57|98.78|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||98.78|62.57|
82361950|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|101.0|||||TWO_SIDED|90.0|80.38|126.9|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||126.90|80.38|
82391318|NCT02091986|164493707|SUPERIORITY_OR_OTHER|||||||0.005|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.005
82391319|NCT02091986|164493707|SUPERIORITY_OR_OTHER|||||||0.326|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.326
82391320|NCT02091986|164493708|SUPERIORITY_OR_OTHER|||||||0.276|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.276
82391321|NCT02091986|164493708|SUPERIORITY_OR_OTHER|||||||0.759|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.759
82391322|NCT02091986|164493708|SUPERIORITY_OR_OTHER|||||||0.165|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.165
82391323|NCT02091986|164493709|SUPERIORITY_OR_OTHER|||||||0.724|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.724
82391324|NCT02091986|164493709|SUPERIORITY_OR_OTHER|||||||0.909|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.909
82391325|NCT02091986|164493709|SUPERIORITY_OR_OTHER|||||||0.811|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.811
82574856|NCT01443403|164859130|SUPERIORITY_OR_OTHER||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.549||0.0002|TWO_SIDED|95.0|0.99|3.15|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||3.15|0.99|0.0002
82361951|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|109.49|||||TWO_SIDED|90.0|81.07|147.88|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||147.88|81.07|
82361952|NCT03440424|164435117|OTHER||Percent ratio of geometric mean|105.2|||||TWO_SIDED|90.0|77.89|142.08|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||142.08|77.89|
82574857|NCT01443403|164859130|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.542||0.2022|TWO_SIDED|95.0|-0.37|1.76|||ANCOVA|ANCOVA model with treatment group as a term and baseline value as a covariate.||||1.76|-0.37|0.2022
82574858|NCT01443403|164859133|SUPERIORITY_OR_OTHER|||||||0.0272||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0272
82361953|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|115.38|||||TWO_SIDED|90.0|83.51|159.42|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||159.42|83.51|
82361954|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|116.97|||||TWO_SIDED|90.0|84.66|161.62|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M4 metabolite||161.62|84.66|
82361955|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|78.46|||||TWO_SIDED|90.0|61.06|100.81|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||100.81|61.06|
82361956|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|116.76|||||TWO_SIDED|90.0|89.95|151.56|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M9 metabolite||151.56|89.95|
82361957|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|94.97|||||TWO_SIDED|90.0|70.31|128.28|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||128.28|70.31|
82361958|NCT03440424|164435118|OTHER||Percent ratio of geometric mean|103.59|||||TWO_SIDED|90.0|75.43|142.28|||||Percent ratio of geometric mean was calculated by dividing the geometric mean of test by geometric mean of reference, then multiplying the value by 100.|M10 metabolite||142.28|75.43|
82361959|NCT00573170|164435125|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.378|TWO_SIDED|95.0|0.7|2.5||Compares odds ratio.|Generalized Estimating Equations|||||2.5|0.7|0.378
82361960|NCT02418455|164435150|SUPERIORITY||LS Mean|-61.0|STANDARD_ERROR_OF_MEAN|6.409|<|0.0001|TWO_SIDED|95.0|-73.56|-48.44||P-values are from generalized estimating equation (GEE) model including baseline value and visit as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||||-48.44|-73.56|< 0.0001
82361961|NCT02418455|164435158|SUPERIORITY|||||||0.2655|||||||t-test|||||||0.2655
82361962|NCT02418455|164435159|SUPERIORITY||LS Mean|-0.99|STANDARD_ERROR_OF_MEAN|0.396||0.0122|TWO_SIDED|95.0|-1.77|-0.22||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 12||-0.22|-1.77|0.0122
82361963|NCT02418455|164435159|SUPERIORITY||LS Mean|-1.21|STANDARD_ERROR_OF_MEAN|0.461||0.0086|TWO_SIDED|95.0|-2.12|-0.31||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 24||-0.31|-2.12|0.0086
82361964|NCT02418455|164435159|SUPERIORITY||LS Mean|-0.98|STANDARD_ERROR_OF_MEAN|0.31||0.0016|TWO_SIDED|95.0|-1.58|-0.37||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 48||-0.37|-1.58|0.0016
82391326|NCT02091986|164493710|SUPERIORITY_OR_OTHER|||||||0.134|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.134
82391327|NCT02091986|164493710|SUPERIORITY_OR_OTHER|||||||0.985|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.985
82391328|NCT02091986|164493710|SUPERIORITY_OR_OTHER|||||||0.128|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.128
82448828|NCT01128192|164604968|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Change in Baseline Insulin Level||||<0.001
82361965|NCT02418455|164435159|SUPERIORITY||LS Mean|-0.57|STANDARD_ERROR_OF_MEAN|0.428||0.1792|TWO_SIDED|95.0|-1.41|0.26||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 96||0.26|-1.41|0.1792
82361966|NCT02418455|164435159|SUPERIORITY||LS Mean|-0.35|STANDARD_ERROR_OF_MEAN|0.255||0.1731|TWO_SIDED|95.0|-0.85|0.15||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 144||0.15|-0.85|0.1731
82361967|NCT02418455|164435160|SUPERIORITY||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.213||0.0843|TWO_SIDED|95.0|-0.78|0.05||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 12||0.05|-0.78|0.0843
82361968|NCT02418455|164435160|SUPERIORITY||LS Mean|-0.02|STANDARD_ERROR_OF_MEAN|0.513||0.9618|TWO_SIDED|95.0|-1.03|0.98||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 24||0.98|-1.03|0.9618
82391329|NCT02091986|164493711|SUPERIORITY_OR_OTHER|||||||0.684|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.684
82391330|NCT02091986|164493711|SUPERIORITY_OR_OTHER|||||||0.621|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.621
82391331|NCT02091986|164493711|SUPERIORITY_OR_OTHER|||||||0.929|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.929
82391332|NCT02091986|164493712|SUPERIORITY_OR_OTHER|||||||0.664|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.664
82448829|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-10 minutes||||<0.001
82642099|NCT00157820|164999435|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.31||||0.0028|TWO_SIDED|95.0|0.14|0.67|||Wilcoxon (Mann-Whitney)||An additional primary analysis was pre-planned: the odds ratio of CSAE-score between DC and SC obtained from SAS GENMOD procedure with the length of follow-up as an 'offset'.|"The assumed effect of the DC treatment was a reduction from 30 to 15% in the proportion of patients who develop a CSAE, as well as a 15% reduction in the mean of CSAE (from 6 to 5.1). The estimated sample size was 200 (DC true) vs. 100 (SC true) patients followed for 8 months, with a two-sided alfa \< 0.05 and a power of 88.8%.~The sample size was set up to 360 patients (120 patients per arm), considering losses in follow-up."||0.67|0.14|0.0028
82642100|NCT00741026|164999456|SUPERIORITY_OR_OTHER|||||||0.0203|||||||Wilcoxon Signed-rank|||||||0.0203
82642101|NCT00741026|164999457|SUPERIORITY_OR_OTHER|||||||0.0105|||||||Wilcoxon Sign-rank|||||||0.0105
82642102|NCT00741026|164999458|SUPERIORITY_OR_OTHER|||||||0.0166|||||||Wilcoxon Sign-rank|||||||0.0166
82642103|NCT00741026|164999459|SUPERIORITY_OR_OTHER|||||||0.0184|||||||Wilcoxon Sign-rank|||||||0.0184
82642104|NCT00741026|164999460|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon Sign-rank|||||||0.0170
82361969|NCT02418455|164435160|SUPERIORITY||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.391||0.6954|TWO_SIDED|95.0|-0.92|0.61||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|GEE model|||Change at Week 48||0.61|-0.92|0.6954
82361970|NCT02418455|164435160|SUPERIORITY||LS Mean|0.22|STANDARD_ERROR_OF_MEAN|0.364||0.5492|TWO_SIDED|95.0|-0.5|0.93||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 96||0.93|-0.50|0.5492
82361971|NCT02418455|164435160|SUPERIORITY||LS Mean|-0.56|STANDARD_ERROR_OF_MEAN|0.503||0.2618|TWO_SIDED|95.0|-1.55|0.42||From generalized estimating equation model including baseline value and visit as a categorical variable. Change from baseline in Liver Ultrasound (cm) as a dependent variable. Covariance structure within subjects is assumed to be exchangeable.|generalized estimating equation|||Change at Week 144||0.42|-1.55|0.2618
82361972|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|90.0|0.95|1.78||||||Cmax Mild HI vs. Normal: Based on pooled variance estimates||1.78|0.95|
82391333|NCT02091986|164493712|SUPERIORITY_OR_OTHER|||||||0.747|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.747
82391334|NCT02091986|164493712|SUPERIORITY_OR_OTHER|||||||0.913|||||||Mixed Models Analysis|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.913
82448830|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 10-180 minutes||||<0.001
82361973|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|90.0|0.92|1.83||||||Cmax Moderate HI vs. Normal: Based on pooled variance estimates||1.83|0.92|
82361974|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|90.0|0.55|1.37||||||Cmax Severe HI vs. Normal: Based on pooled variance estimates||1.37|0.55|
82361975|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|0.9|1.71||||||Css Mild HI vs. Normal: Based on pooled variance estimates||1.71|0.90|
82361976|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|90.0|0.89|1.8||||||Css Moderate HI vs. Normal: Based on pooled variance estimates||1.80|0.89|
82391335|NCT02091986|164493713|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.015
82391336|NCT02091986|164493713|SUPERIORITY_OR_OTHER|||||||0.342|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.342
82391337|NCT02091986|164493713|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANCOVA|Baseline lung function assessment, Treatment group, Region, Age were all included as explanatory variables in the linear predictor.||||||0.138
82391338|NCT02091986|164493717|SUPERIORITY_OR_OTHER|||||||0.098|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.098
82391339|NCT02091986|164493717|SUPERIORITY_OR_OTHER|||||||0.367|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.367
82391340|NCT02091986|164493717|SUPERIORITY_OR_OTHER|||||||0.449|||||||ANCOVA|The explanatory variables included in the model are: treatment group, baseline overall PAQLQ(S) score, region and age group||||||0.449
82391341|NCT00125242|164493719|SUPERIORITY_OR_OTHER||effect size|7.15|STANDARD_DEVIATION|3.1|||TWO_SIDED||||||||the reported effect size is a d-index value|Effect sizes were calculated - this is a comparison of perfomance in baseline (repeated measurements prior to treatment) relative to peformance following treatment||||
82642105|NCT01939834|164999479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82642106|NCT02060526|164999501|SUPERIORITY_OR_OTHER_LEGACY||Difference between proportions|0.286||||0.4615|TWO_SIDED|95.0|-0.297|0.745|||Fisher Exact|||95% exact unconditional confidence interval of the difference in proportion between each of the treatment groups and the untreated control group was considered for the parameter estimation.||0.745|-0.297|0.4615
82642107|NCT02060526|164999501|SUPERIORITY_OR_OTHER_LEGACY||Difference between proportions|0.143||||1|TWO_SIDED|95.0|-0.423|0.647|||Fisher Exact|||95% exact unconditional confidence interval of the difference in proportion between each of the treatment groups and the untreated control group was considered for the parameter estimation.||0.647|-0.423|1.0000
82642108|NCT00798707|164999526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.452|TWO_SIDED|95.0|-0.75|1.69||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare each DVS SR dose to placebo. The comparison was performed at the 0.05 level overall.||1.69|-0.75|0.452
82574859|NCT01443403|164859133|SUPERIORITY_OR_OTHER|||||||0.1355||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1355
82361977|NCT01546519|164435166|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.55|1.41||||||Css Severe HI vs. Normal: Based on pooled variance estimates||1.41|0.55|
82361978|NCT01546519|164435167|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.24|||||TWO_SIDED|90.0|0.89|1.73||||||AUC0-24hr Mild HI vs. Normal: Based on pooled variance estimates||1.73|0.89|
82361979|NCT01546519|164435167|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.31|||||TWO_SIDED|90.0|0.91|1.89||||||AUC0-24hr Moderate HI vs. Normal: Based on pooled variance estimates||1.89|0.91|
82361980|NCT01546519|164435167|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86|||||TWO_SIDED|90.0|0.53|1.39||||||AUC0-24hr Severe HI vs. Normal: Based on pooled variance estimates||1.39|0.53|
82361981|NCT00263887|164435175|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|||The main effect ANCOVA model includes the change from baseline to endpoint as the dependent variable, treatment and center as fixed factors, change in logarithm of total lung volume and baseline measurement as covariates.||||0.049
82391342|NCT00606554|164493720|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
82391343|NCT00606554|164493724|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82361982|NCT04364763|164435182|SUPERIORITY|||||||0.0352||||||p-value is for Day 7|Mixed Models Analysis|||||||0.0352
82361983|NCT04364763|164435182|SUPERIORITY|||||||0.235||||||p-value is for Day 28|Mixed Models Analysis|||Comparison made for Day 7 and Day 28||||0.2350
82361984|NCT00983476|164435266|SUPERIORITY_OR_OTHER||Slope|2.2||||0.11|TWO_SIDED||||||Mixed Models Analysis||Reference group is Web-based MOVE SMI: In-person MOVE SMI visit x group Beta estimate is .27 (p=.08); Reference group is Web-based MOVE SMI: Usual care plus handouts visit x group Beta estimate is .29 (p=.06).|Difference in Body Mass Index (BMI) by study arm at 6 months after controlling for BMI 6 months prior to baseline using a repeated measures mixed model with arm, time, and the interaction of arm by time||||0.11
82361985|NCT00983476|164435267|SUPERIORITY_OR_OTHER||Slope|4.02||||0.02|TWO_SIDED||||||Mixed Models Analysis||Reference group is Web-based MOVE SMI: In-person MOVE SMI visit x group Beta estimate is .40 (p=.02); Reference group is Web-based MOVE SMI: Usual care plus handouts visit x group Beta estimate is .44 (p=.01).|In the obese sample, difference in Body Mass Index (BMI) by study arm at 6 months after controlling for BMI 6 months prior to baseline using a repeated measures mixed model with arm, time, and the interaction of arm by time||||0.02
82361986|NCT00983476|164435268|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14||||0.32|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was not statistically significant.|||||0.32
82361987|NCT00983476|164435269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23||||0.11|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.11
82361988|NCT00983476|164435270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75||||0.47|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.47
82361989|NCT00983476|164435271|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.51|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.51
82361990|NCT00983476|164435272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.83|TWO_SIDED||||||ANOVA||No comparison between groups was conducted because overall model test was NS.|||||0.83
82361991|NCT02663882|164435289|SUPERIORITY|||||||0.503||||||the a priori threshold for statistical significance was p\<0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.503
82361992|NCT02663882|164435290|SUPERIORITY|||||||0.765||||||the a priori threshold for statistical significance was p\<0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.765
82361993|NCT02663882|164435291|SUPERIORITY|||||||0.717||||||the a priori threshold for statistical significance was p=0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.717
82361994|NCT02663882|164435292|SUPERIORITY|||||||0.302||||||the a priori threshold for statistical significance was p=0.05|ANOVA|||The non-smoking-related self control task was the comparison group in relation to the smoking-related self control task||||0.302
82361995|NCT02412722|164435300|SUPERIORITY||Geometric Mean Ratio|0.59|||||TWO_SIDED|90.0|0.46|0.76||||||||0.76|0.46|
82361996|NCT02412722|164435301|SUPERIORITY||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.59|1.36||||||||1.36|0.59|
82361997|NCT02412722|164435302|SUPERIORITY||Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.72|1.49||||||||1.49|0.72|
82361998|NCT02412722|164435306|SUPERIORITY||Geometric Mean Ratio|1.07|||||TWO_SIDED|90.0|0.78|1.47||||||||1.47|0.78|
82361999|NCT02412722|164435307|SUPERIORITY||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|0.75|1.68||||||||1.68|0.75|
82391344|NCT00606554|164493727|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
82391345|NCT02537431|164493745|OTHER||Mean|-54.18|||<|0.0001|TWO_SIDED|95.0|-68.64|-39.72||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-39.72|-68.64|< 0.0001
82391346|NCT02537431|164493746|OTHER||||||<|0.0001||||||The p-value is for testing the proportion of participants achieving the mean serum phosphorus levels above the LLN (2.5 mg/dL \[0.81 mmol/L\]) against 0% from the binomial test.|binomial test|||||||<0.0001
82362000|NCT02412722|164435308|SUPERIORITY||Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.67|1.26||||||||1.26|0.67|
82362001|NCT01352182|164435326|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82391347|NCT02537431|164493747|OTHER||Mean|-32.21|||<|0.0001|TWO_SIDED|95.0|-40.25|-24.17||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-24.17|-40.25|<0.0001
82391348|NCT02537431|164493748|OTHER||Mean|-26.0||||0.0002|TWO_SIDED|95.0|-36.08|-15.91||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-15.91|-36.08|0.0002
82391349|NCT02537431|164493749|OTHER||Mean|-52.24||||0.0199|TWO_SIDED|95.0|-94.08|-10.41||The null hypothesis of no mean percent change from baseline is tested using t-test.|t-test|||||-10.41|-94.08|0.0199
82391350|NCT02537431|164493761|OTHER||Least Squares Mean (GEE)|107.75|||||TWO_SIDED|95.0|76.46|139.03|||||From the generalized estimation equation (GEE) model which includes change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 1||139.03|76.46|
82574860|NCT01443403|164859133|SUPERIORITY_OR_OTHER|||||||0.3689||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3689
82391351|NCT02537431|164493761|OTHER||LS Mean|48.41|||||TWO_SIDED|95.0|33.91|62.91|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 2||62.91|33.91|
82391352|NCT02537431|164493761|OTHER||LS Mean|13.58|||||TWO_SIDED|95.0|6.85|20.31|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 4||20.31|6.85|
82391353|NCT02537431|164493761|OTHER||LS Mean|-1.34|||||TWO_SIDED|95.0|-8.43|5.75|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 20||5.75|-8.43|
82391354|NCT02537431|164493761|OTHER||LS Mean|31.75|||||TWO_SIDED|95.0|21.49|42.0|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 21||42.00|21.49|
82391355|NCT02537431|164493761|OTHER||LS Mean|11.5|||||TWO_SIDED|95.0|3.54|19.46|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 22||19.46|3.54|
82444188|NCT02408523|164596950|SUPERIORITY||Hazard Ratio (HR)|0.683|||=|0.012|TWO_SIDED|95.0|0.507|0.921||Wald's method was used to calculate the p-value, Hazard Ratio (HR) and confidence intervals (CIs).|Regression, Cox|||Comparison of LCM versus Placebo was based on a Cox proportional hazards regression model with an effect for treatment, stratifying for the following combinations of study participants' Baseline PGTCS frequency and Development from interactive response technology (IRT) (\<= 2 per 28 days in the Combined Baseline Period and Pediatric, \<= 2 per 28 days in the Combined Baseline Period and Adult, and \> 2 per 28 days in the Combined Baseline Period). The reference group was Placebo.||0.921|0.507|=0.012
82391356|NCT02537431|164493761|OTHER||LS Mean|-3.04|||||TWO_SIDED|95.0|-12.62|6.55|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 24||6.55|-12.62|
82391357|NCT02537431|164493761|OTHER||LS Mean|-1.72||||0.6821|TWO_SIDED|95.0|-9.93|6.5|||GEE model||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 48||6.50|-9.93|0.6821
82391358|NCT02537431|164493761|OTHER||LS mean|-5.73|||||TWO_SIDED|95.0|-12.38|0.92|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 60||0.92|-12.38|
82391359|NCT02537431|164493761|OTHER||LS mean|3.36|||||TWO_SIDED|95.0|-4.45|11.18|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 70||11.18|-4.45|
82391360|NCT02537431|164493761|OTHER||LS mean|-5.55|||||TWO_SIDED|95.0|-11.22|0.13|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 72||0.13|-11.22|
82391361|NCT02537431|164493761|OTHER||LS mean|-5.55|||||TWO_SIDED|95.0|-11.35|0.26|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 84||0.26|-11.35|
82574861|NCT01443403|164859135|SUPERIORITY_OR_OTHER|||||||0.2126||95.0|||||Welch's t-test|||||||0.2126
82391362|NCT02537431|164493761|OTHER||LS mean|9.63|||||TWO_SIDED|95.0|1.33|17.94|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 94||17.94|1.33|
82391363|NCT02537431|164493761|OTHER||LS mean|-6.09|||||TWO_SIDED|95.0|-10.8|-1.38||||||Week 96||-1.38|-10.80|
82391364|NCT02537431|164493761|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-9.22|9.26|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 108||9.26|-9.22|
82391365|NCT02537431|164493761|OTHER||LS mean|1.45|||||TWO_SIDED|95.0|-6.77|9.68|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 120||9.68|-6.77|
82574862|NCT01443403|164859135|SUPERIORITY_OR_OTHER|||||||0.2799||95.0|||||Welch's t-test|||||||0.2799
82574863|NCT01443403|164859135|SUPERIORITY_OR_OTHER|||||||0.6466||95.0|||||Welch's t-test|||||||0.6466
82574864|NCT01443403|164859137|SUPERIORITY_OR_OTHER|||||||0.9826||95.0|||||Welch's t-test|||||||0.9826
82574865|NCT01443403|164859137|SUPERIORITY_OR_OTHER|||||||0.5188||95.0|||||Welch's t-test|||||||0.5188
82574866|NCT01443403|164859137|SUPERIORITY_OR_OTHER|||||||0.5029||95.0|||||Welch's t-test|||||||0.5029
82574867|NCT03258723|164859186|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||<0.0001
82574868|NCT03258723|164859187|SUPERIORITY|||||||0.0005|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.0005
82574869|NCT03258723|164859188|SUPERIORITY|||||||0.1809|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.1809
82574870|NCT03258723|164859189|SUPERIORITY|||||||0.0973|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.0973
82574871|NCT03258723|164859191|SUPERIORITY|||||||0.1992|||||||t-test, 2 sided|||Within subject change on matched cases.||||0.1992
82574872|NCT03258723|164859192|SUPERIORITY|||||||0.7017|||||||t-test, 2 sided|||Within subject change on matched cases.||||0.7017
82574873|NCT03258723|164859193|SUPERIORITY|||||||0.1573|||||||McNemar|||Within group change from baseline assessed on matched cases in low activity group at baseline.||||0.1573
82574874|NCT03258723|164859193|SUPERIORITY|||||||0.4328|||||||McNemar|||Within group change from baseline assessed on matched cases in medium activity group at baseline.||||0.4328
82362002|NCT01352182|164435327|SUPERIORITY|||||||1||||||threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||1.0
82362003|NCT01352182|164435328|SUPERIORITY|||||||0.154||||||threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.154
82362004|NCT01352182|164435329|SUPERIORITY|||||||0.683||||||significance threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.683
82362005|NCT01352182|164435330|SUPERIORITY|||||||0.08||||||significance threshold p\<0.05|t-test, 2 sided|||||||0.08
82362006|NCT01352182|164435331|OTHER|linear regression|Slope|-1.44|STANDARD_ERROR_OF_MEAN|0.3741||0.003|TWO_SIDED||||||Regression, Linear|||||||0.003
82362007|NCT00588731|164435343|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.90
82444189|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre- to post- feed in the anemic state for babies \<1250 gm||||0.571
82444190|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.345|||||||Wilcoxon (Mann-Whitney)|||change in peak systolic blood flow velocity from pre-to post feed for babies \<1250 gm while anemic||||0.345
82574875|NCT03258723|164859193|SUPERIORITY|||||||0.6698|||||||McNemar|||Within group change from baseline assessed on matched cases in high activity group at baseline.||||0.6698
82362008|NCT00588731|164435344|SUPERIORITY_OR_OTHER|||||||0.76|||||||ANOVA|||||||0.76
82362009|NCT00346164|164435350|OTHER||||||<|0.0001|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
82362010|NCT00346164|164435351|OTHER|||||||0.0049|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of histologic (POG) grade after accounting for the effects of disease extent (non-metastatic; metastatic), site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and extent of resection of the primary tumor (less than total resection; margin -; margin +) .||||0.0049
82362011|NCT00346164|164435352|OTHER||||||<|0.0001|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
82362012|NCT00346164|164435353|OTHER|||||||0.0096|||||||Regression, Cox|||The Cox proportional hazards model was used to evaluate prognostic impact of the resection extent of the primary tumor (less than total resection; margin -; margin +) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), disease extent (non-metastatic; metastatic), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and histologic (POG) grade.||||0.0096
82362013|NCT00346164|164435354|OTHER||||||<|0.0001|||||||Regression, Logistic|Firth logistic regression is used to overcome the issue of quasi-complete separation of data points.||The logistic regression model was used to evaluate prognostic impact of disease extent (non-metastatic; metastatic) after accounting for the effects of site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), extent of resection of the primary tumor (less than total resection; margin -; margin +), and histologic (POG) grade.||||<0.0001
82362014|NCT00346164|164435355|OTHER|||||||0.0228|||||||Regression, Logistic|Firth logistic regression is used to overcome the issue of quasi-complete separation of data points.||The logistic regression model was used to evaluate prognostic impact of histologic (POG) grade after accounting for the effects of disease extent (non-metastatic; metastatic), site of the primary tumor (body wall; extremity; head/neck; visceral), tumor size (\<=5cm; \>5cm), tumor depth (deep; superficial), tumor invasiveness (invasive; non-invasive), and extent of resection of the primary tumor (less than total resection; margin -; margin +) .||||0.0228
82362015|NCT00346164|164435357|OTHER||Kappa statistic|0.82|||||TWO_SIDED|95.0|0.76|0.88||||||Kappa statistic and its 95% confidence interval are used to assess agreement beyond random.||0.88|0.76|
82362016|NCT00346164|164435358|OTHER||Kappa statistic|0.42|||||TWO_SIDED|95.0|0.36|0.48||||||Kappa statistic and its 95% confidence interval are used to assess agreement beyond random.||0.48|0.36|
82362017|NCT03297294|164435359|SUPERIORITY|at week 12|least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.101|TWO_SIDED|95.0|-1.4|0.1|||ANCOVA|||||0.1|-1.4|0.101
82362018|NCT03297294|164435360|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.168|TWO_SIDED|95.0|-1.3|0.2|||ANCOVA|||At week 12||0.2|-1.3|0.168
82362019|NCT03297294|164435364|SUPERIORITY||Odds Ratio (OR)|1.6||||0.255|TWO_SIDED|95.0|0.7|3.9|||Regression, Logistic|||Week 12||3.9|0.7|0.255
82362020|NCT03297294|164435365|SUPERIORITY||Odds Ratio (OR)|2.8||||0.1|TWO_SIDED|95.0|0.8|9.6|||Regression, Logistic|||||9.6|0.8|0.100
82362021|NCT04569786|164435385|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|0.92||||0.649|TWO_SIDED|90.0|0.63|1.34||1-sided|Longitudinal data analysis (LDA) method|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.34|0.63|0.649
82391366|NCT02537431|164493761|OTHER||LS mean|-1.69|||||TWO_SIDED|95.0|-5.6|2.21|||||From the GEE model which includes the change from baseline for 1, 25 (OH)2 D as the dependent variable, visit as fixed factors, and baseline of 1, 25 (OH)2 D as a covariate, with compound symmetry covariance structure.|Week 132||2.21|-5.60|
82391367|NCT02537431|164493762|OTHER||LS Mean|0.1|||||TWO_SIDED|95.0|-0.15|0.35|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 12||0.35|-0.15|
82391368|NCT02537431|164493762|OTHER||LS Mean|-0.04|||||TWO_SIDED|95.0|-0.19|0.11|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 24||0.11|-0.19|
82574876|NCT03258723|164859194|SUPERIORITY|||||||0.5271|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||0.5271
82642109|NCT00798707|164999526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.016|TWO_SIDED|95.0|0.28|2.72||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|ANCOVA|||An analysis of covariance (ANCOVA) model with treatment and as a factor and the baseline HAM-D17 total score as a covariate was used to compare each DVS SR dose to placebo. The comparison was performed at the 0.05 level overall.||2.72|0.28|0.016
82642110|NCT00798707|164999527|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure. p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.160
82642111|NCT00798707|164999527|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||In this case, multiplicity arising from testing key secondary hypotheses in both doses was controlled by a Hochberg step-up procedure.p-Value obtained for the alternative hypothesis of 'Row mean scores differences'.|Cochran-Mantel-Haenszel|||Each DVS SR dose was separately compared to placebo. To control the study-wise type I error rate across the primary and the key secondary endpoints, as well as across the 2 active dose arms, testing of the key secondary hypothesis occurred only when both active doses were superior to placebo on the primary endpoint.||||0.028
82642112|NCT00798707|164999528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.066|TWO_SIDED|95.0|-0.01|0.39|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.39|-0.01|0.066
82642113|NCT00798707|164999528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.038|TWO_SIDED|95.0|0.01|0.41|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.41|0.01|0.038
82642114|NCT00798707|164999529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.242|TWO_SIDED|95.0|-0.68|2.68|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||2.68|-0.68|0.242
82362022|NCT04569786|164435385|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|1.0||||0.495||90.0|0.68|1.48||1-sided|LDA model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.48|0.68|0.495
82362023|NCT04569786|164435385|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|1.1||||0.339|TWO_SIDED|90.0|0.75|1.6||1-sided|LDA Model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||1.60|0.75|0.339
82362024|NCT04569786|164435385|SUPERIORITY|A conclusion of superiority is based on the lower limit of the 90% CI for the estimated GMT ratio (V590/Placebo) being \>1.0 (one-sided p-value \<0.05).|GMT Ratio|2.26|||<|0.001|TWO_SIDED|90.0|1.56|3.28||1-sided|LDA Model|GMT ratios and 90% CIs, and p-values are estimated from an LDA model and are provided in accordance with the statistical analysis plan.||||3.28|1.56|<0.001
82362025|NCT00292227|164435405|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.75||||||90.0|-2.63|1.12|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.12|-2.63|
82362026|NCT00292227|164435406|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.01||||||90.0|-2.21|2.19|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.19|-2.21|
82391369|NCT02537431|164493762|OTHER||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.12|0.11|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 36||0.11|-0.12|
82391370|NCT02537431|164493762|OTHER||LS Mean|-0.04||||0.6021|TWO_SIDED|95.0|-0.19|0.11|||GEE model||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 48||0.11|-0.19|0.6021
82391371|NCT02537431|164493762|OTHER||LS mean|0.0|||||TWO_SIDED|95.0|-0.19|0.19|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 72||0.19|-0.19|
82444191|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Change in superior mesenteric artery blood flow velocity from pre- to post- feed in the anemic state for babies \>1250 gm||||0.006
82444192|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||change in peak systolic blood flow velocity from pre-to post feed for babies \>1250 gm while anemic||||0.035
82642115|NCT00798707|164999529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.06||||0.016|TWO_SIDED|95.0|0.39|3.73|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||3.73|0.39|0.016
82391372|NCT02537431|164493762|OTHER||LS mean|-0.13|||||TWO_SIDED|95.0|-0.29|0.03|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|Week 96||0.03|-0.29|
82391373|NCT02537431|164493762|OTHER||LS mean|-0.07|||||TWO_SIDED|95.0|-0.41|0.26|||||From the GEE model; includes change from baseline from baseline for 24-Hour urinary phosphorus as the dependent variable, visit as fixed factors, and baseline of 24-Hour urinary phosphorus as a covariate, with compound symmetry covariance structure.|EOS II||0.26|-0.41|
82391374|NCT02537431|164493763|OTHER||LS Mean|1.76|||||TWO_SIDED|95.0|1.49|2.03|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 2||2.03|1.49|
82391375|NCT02537431|164493763|OTHER||LS Mean|0.78|||||TWO_SIDED|95.0|0.59|0.97|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 4||0.97|0.59|
82391376|NCT02537431|164493763|OTHER||LS Mean|0.58|||||TWO_SIDED|95.0|0.34|0.82|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 12||0.82|0.34|
82391377|NCT02537431|164493763|OTHER||LS Mean|0.87|||||TWO_SIDED|95.0|0.74|0.99|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 22||0.99|0.74|
82391378|NCT02537431|164493763|OTHER||LS Mean|0.44|||||TWO_SIDED|95.0|0.24|0.64|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 24||0.64|0.24|
82391379|NCT02537431|164493763|OTHER||LS Mean|0.2||||0.043|TWO_SIDED|95.0|0.01|0.38|||GEE model||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 48||0.38|0.01|0.0430
82391380|NCT02537431|164493763|OTHER||LS mean|0.3|||||TWO_SIDED|95.0|-0.04|0.64|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 60||0.64|-0.04|
82444193|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre-to post-feed for babies \<1250 gm after the PRBC transfusion||||0.910
82642116|NCT00798707|164999530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.802|TWO_SIDED|95.0|-0.62|0.8|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.80|-0.62|0.802
82391381|NCT02537431|164493763|OTHER||LS mean|0.28|||||TWO_SIDED|95.0|0.03|0.52|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 72||0.52|0.03|
82444194|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Change in Peak systolic mesenteric blood flow velocity from pre-to post-feed for babies \<1250 gm after the PRBC transfusion||||0.850
82391382|NCT02537431|164493763|OTHER||LS mean|0.39|||||TWO_SIDED|95.0|0.13|0.66|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 84||0.66|0.13|
82391383|NCT02537431|164493763|OTHER||LS mean|0.29|||||TWO_SIDED|95.0|0.1|0.48|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|Week 96||0.48|0.10|
82391384|NCT02537431|164493763|OTHER||LS mean|0.21|||||TWO_SIDED|95.0|0.08|0.34|||||From the GEE model, which includes the change from baseline for TmP/GFR as the dependent variable, visit as fixed factors, and baseline of TmP/GFR as a covariate, with compound symmetry covariance structure.|EOSII||0.34|0.08|
82391385|NCT02537431|164493764|OTHER||LS Mean|0.07|||||TWO_SIDED|95.0|0.06|0.08|||||From the GEE model, which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 2||0.08|0.06|
82391386|NCT02537431|164493764|OTHER||LS Mean|0.03|||||TWO_SIDED|95.0|0.01|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 4||0.06|0.01|
82391387|NCT02537431|164493764|OTHER||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 12||0.04|-0.01|
82391388|NCT02537431|164493764|OTHER||LS Mean|0.04|||||TWO_SIDED|95.0|0.02|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 22||0.05|0.02|
82391389|NCT02537431|164493764|OTHER||LS Mean|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||Week 24||0.04|-0.02|
82444195|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.507|||||||Wilcoxon (Mann-Whitney)|||Change in mean mesenteric blood flow velocity from pre-to post-feed for babies \>1250 gm after the PRBC transfusion||||0.507
82444196|NCT00167388|164596955|SUPERIORITY_OR_OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Change in peak systolic mesenteric blood flow velocity from pre-to post-feed for babies \>1250 gm after the PRBC transfusion||||0.286
82444197|NCT05501795|164596958|OTHER||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|5.8|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
82391390|NCT02537431|164493764|OTHER||LS Mean|0.0||||0.8377|TWO_SIDED|95.0|-0.05|0.04|||GEE model||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 48||0.04|-0.05|0.8377
82391391|NCT02537431|164493764|OTHER||LS mean|0.03|||||TWO_SIDED|95.0|0.0|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 60||0.06|-0.00|
82391392|NCT02537431|164493764|OTHER||LS mean|-0.02|||||TWO_SIDED|95.0|-0.09|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 72||0.05|-0.09|
82391393|NCT02537431|164493764|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-0.01|0.06|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 84||0.06|-0.01|
82391394|NCT02537431|164493764|OTHER||LS mean|0.02|||||TWO_SIDED|95.0|-0.01|0.05|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|Week 96||0.05|-0.01|
82391395|NCT02537431|164493764|OTHER||LS mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03|||||From the GEE model which includes the change from baseline or percent change from baseline for TRP as the dependent variable, visit as fixed factors, and baseline of TRP as a covariate, with compound symmetry covariance structure.|EOSII||0.03|-0.01|
82391396|NCT02537431|164493765|OTHER||LS Mean|99.18|||||TWO_SIDED|95.0|76.83|121.53|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 12||121.53|76.83|
82391397|NCT02537431|164493765|OTHER||LS Mean|104.33|||||TWO_SIDED|95.0|82.47|126.19|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 24||126.19|82.47|
82391398|NCT02537431|164493765|OTHER||LS Mean|52.49|||<|0.0001|TWO_SIDED|95.0|29.84|75.13|||GEE model||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 48||75.13|29.84|< 0.0001
82391399|NCT02537431|164493765|OTHER||LS mean|37.29|||||TWO_SIDED|95.0|13.19|61.38|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 72||61.38|13.19|
82391400|NCT02537431|164493765|OTHER||LS mean|29.29|||||TWO_SIDED|95.0|3.18|55.4|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 96||55.40|3.18|
82391401|NCT02537431|164493765|OTHER||LS mean|2.14|||||TWO_SIDED|95.0|-17.67|21.94|||||From the GEE model, which includes the change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|EOSII||21.94|-17.67|
82391402|NCT02537431|164493766|OTHER||LS Mean|133.08|||||TWO_SIDED|95.0|106.26|159.89|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 12||159.89|106.26|
82444198|NCT04243330|164596976|SUPERIORITY||Mean Difference (Net)|1.01||||0.18|TWO_SIDED|95.0|-0.46|2.48||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||2.48|-0.46|0.18
82391403|NCT02537431|164493766|OTHER||LS Mean|137.8|||||TWO_SIDED|95.0|106.95|168.65|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 24||168.65|106.95|
82391404|NCT02537431|164493766|OTHER||LS Mean|76.86|||<|0.0001|TWO_SIDED|95.0|49.2|104.53|||GEE model||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 48||104.53|49.20|< 0.0001
82391405|NCT02537431|164493766|OTHER||LS mean|50.46|||||TWO_SIDED|95.0|23.69|77.23|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 72||77.23|23.69|
82391406|NCT02537431|164493766|OTHER||LS mean|41.36|||||TWO_SIDED|95.0|18.69|64.03|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|Week 96||64.03|18.69|
82391407|NCT02537431|164493766|OTHER||LS mean|26.2|||||TWO_SIDED|95.0|6.76|45.64|||||From the GEE model, which includes the percent change from baseline for P1NP as the dependent variable, visit as fixed factors, and baseline of P1NP as a covariate, with compound symmetry covariance structure.|EOSII||45.64|6.76|
82391408|NCT02537431|164493767|OTHER||LS Mean|464.84|||||TWO_SIDED|95.0|343.92|585.77|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 12||585.77|343.92|
82391409|NCT02537431|164493767|OTHER||LS Mean|404.13|||||TWO_SIDED|95.0|294.47|513.78|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 24||513.78|294.47|
82391410|NCT02537431|164493767|OTHER||LS Mean|175.13|||<|0.0001|TWO_SIDED|95.0|88.85|261.41|||GEE model||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 48||261.41|88.85|< 0.0001
82391411|NCT02537431|164493767|OTHER||LS mean|143.11|||||TWO_SIDED|95.0|-38.2|324.41|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 72||324.41|-38.20|
82574877|NCT03258723|164859195|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Within group change from baseline assessed on matched cases.||||<0.0001
82391412|NCT02537431|164493767|OTHER||LS mean|76.8|||||TWO_SIDED|95.0|-35.62|189.22|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 96||189.22|-35.62|
82391413|NCT02537431|164493767|OTHER||LS mean|-41.32|||||TWO_SIDED|95.0|-204.28|121.64|||||From the GEE model which includes the change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|EOSII||121.64|-204.28|
82391414|NCT02537431|164493768|OTHER||LS Mean|89.68|||||TWO_SIDED|95.0|63.58|115.78|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 12||115.78|63.58|
82391415|NCT02537431|164493768|OTHER||LS Mean|70.17|||||TWO_SIDED|95.0|49.9|90.44|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 24||90.44|49.90|
82391416|NCT02537431|164493768|OTHER||LS Mean|35.86|||<|0.0001|TWO_SIDED|95.0|21.37|50.36|||GEE model||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 48||50.36|21.37|< 0.0001
82391417|NCT02537431|164493768|OTHER||LS mean|34.0|||||TWO_SIDED|95.0|6.53|61.47|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 72||61.47|6.53|
82391418|NCT02537431|164493768|OTHER||LS mean|25.86|||||TWO_SIDED|95.0|9.27|42.44|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|Week 96||42.44|9.27|
82391419|NCT02537431|164493768|OTHER||LS mean|17.88|||||TWO_SIDED|95.0|-0.32|36.07|||||From the GEE model which includes the percent change from baseline for CTx as the dependent variable, visit as fixed factors, and baseline of CTx as a covariate, with compound symmetry covariance structure.|EOSII||36.07|-0.32|
82391420|NCT02537431|164493769|OTHER||LS Mean|10.93|||||TWO_SIDED|95.0|3.98|17.89|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 12||17.89|3.98|
82391421|NCT02537431|164493769|OTHER||LS Mean|5.82|||||TWO_SIDED|95.0|-0.02|11.66|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 24||11.66|-0.02|
82391422|NCT02537431|164493769|OTHER||LS Mean|4.5||||0.2592|TWO_SIDED|95.0|-3.32|12.32|||GEE model||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 48||12.32|-3.32|0.2592
82642117|NCT00798707|164999530|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.72||||0.048|TWO_SIDED|95.0|0.01|1.43|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||1.43|0.01|0.048
82391423|NCT02537431|164493769|OTHER||LS mean|3.13|||||TWO_SIDED|95.0|-1.64|7.9|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 72||7.90|-1.64|
82574878|NCT01107899|164859200|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for the overall effect of initial inhibition on the day to return to baseline platelet function.|Regression, Linear|||||||<0.001
82391424|NCT02537431|164493769|OTHER||LS mean|1.14|||||TWO_SIDED|95.0|-2.84|5.11|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 96||5.11|-2.84|
82391425|NCT02537431|164493769|OTHER||LS mean|-5.8|||||TWO_SIDED|95.0|-12.46|0.85|||||From the GEE model, which includes the change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|EOSII||0.85|-12.46|
82391426|NCT02537431|164493770|OTHER||LS Mean|52.54|||||TWO_SIDED|95.0|21.18|83.9|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 12||83.90|21.18|
82391427|NCT02537431|164493770|OTHER||LS Mean|31.37|||||TWO_SIDED|95.0|8.23|54.51|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 24||54.51|8.23|
82391428|NCT02537431|164493770|OTHER||l|24.35||||0.1672|TWO_SIDED|95.0|-10.2|58.9|||GEE model||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 48||58.90|-10.20|0.1672
82391429|NCT02537431|164493770|OTHER||LS mean|15.13|||||TWO_SIDED|95.0|-11.19|41.46|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 72||41.46|-11.19|
82391430|NCT02537431|164493770|OTHER||LS mean|6.92|||||TWO_SIDED|95.0|-13.44|27.28|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|Week 96||27.28|-13.44|
82391431|NCT02537431|164493770|OTHER||LS mean|-27.3|||||TWO_SIDED|95.0|-52.33|-2.28|||||From the GEE model, which includes the percent change from baseline for Bone ALP as the dependent variable, visit as fixed factors, and baseline of Bone ALP as a covariate, with compound symmetry covariance structure.|EOSII||-2.28|-52.33|
82391432|NCT00794040|164493771|SUPERIORITY||Odds Ratio (OR)|11.7||||0.006|TWO_SIDED|95.0|2.0|68.16||priori threshold p\<0.05|Multilevel growth curve model|||||68.16|2.00|0.006
82391433|NCT00794040|164493772|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.085|TWO_SIDED|95.0|-1.32|0.09||priori threshold \<0.05|Multilevel growth curve model|||||0.09|-1.32|0.085
82391434|NCT00794040|164493773|SUPERIORITY||Mean Difference (Final Values)|4.72||||0.124|TWO_SIDED|95.0|-1.3|10.74||priori threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||10.74|-1.30|0.124
82642118|NCT00798707|164999531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.363||||0.1099|TWO_SIDED|95.0|0.93|1.99|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.99|0.93|0.1099
82391435|NCT00794040|164493774|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.993|TWO_SIDED|95.0|-4.76|4.8||priori threshold p\<0.05|Multilevel growth curve model|||||4.80|-4.76|0.993
82391436|NCT00794040|164493775|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.598|TWO_SIDED|95.0|-4.23|2.19||priori threshold p\<0.05|Multilevel growth curve model|||||2.19|-4.23|0.598
82574879|NCT01107899|164859202|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||<0.001
82642119|NCT00798707|164999531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.591||||0.0154|TWO_SIDED|95.0|1.09|2.32|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||2.32|1.09|0.0154
82642120|NCT00798707|164999532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.878||||0.5929|TWO_SIDED|95.0|0.54|1.41|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||1.41|0.54|0.5929
82642121|NCT00798707|164999532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.474||||0.0852|TWO_SIDED|95.0|0.95|2.29|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment as a factor and baseline HAM-D17 score as a covariate.||2.29|0.95|0.0852
82642122|NCT00798707|164999533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.277||||0.2232|TWO_SIDED|95.0|0.86|1.89|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||1.89|0.86|0.2232
82642123|NCT00798707|164999533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.827||||0.0022|TWO_SIDED|95.0|1.24|2.69|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor and baseline MADRS score as a covariate.||2.69|1.24|0.0022
82642124|NCT00798707|164999534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.158||||0.4313|TWO_SIDED|95.0|0.8|1.67|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor.||1.67|0.80|0.4313
82391437|NCT00915876|164493778|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82391438|NCT04545567|164493784|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82642125|NCT00798707|164999534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.372||||0.0888|TWO_SIDED|95.0|0.95|1.97|||Regression, Logistic|||Analysis was conducted with a logistic regression model with treatment as a factor.||1.97|0.95|0.0888
82642126|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09||||0.073|TWO_SIDED|95.0|-0.1|2.29|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score.||2.29|-0.10|0.073
82642127|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.06||||0.078|TWO_SIDED|95.0|-0.12|2.24|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for total score.||2.24|-0.12|0.078
82642128|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.176|TWO_SIDED|95.0|-0.13|0.73|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score.||0.73|-0.13|0.176
82642129|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.109|TWO_SIDED|95.0|-0.08|0.77|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for work/studies component score.||0.77|-0.08|0.109
82642130|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.064|TWO_SIDED|95.0|-0.02|0.84|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life component score.||0.84|-0.02|0.064
82391439|NCT04545567|164493785|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82391440|NCT04545567|164493786|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82391441|NCT04545567|164493787|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82391442|NCT04545567|164493788|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82391443|NCT04545567|164493789|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
82391444|NCT04545567|164493790|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82391445|NCT04545567|164493791|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82391446|NCT04545567|164493792|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82391447|NCT04545567|164493793|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82391448|NCT04545567|164493794|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82391449|NCT04545567|164493795|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82391450|NCT04545567|164493796|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
82391451|NCT04545567|164493797|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.05|TWO_SIDED||||||t-test, 1 sided|||||||0.05
82391452|NCT04545567|164493798|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82391453|NCT04545567|164493799|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82391454|NCT04545567|164493800|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82391455|NCT04545567|164493801|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82391456|NCT04545567|164493802|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
82642131|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.104|TWO_SIDED|95.0|-0.07|0.78|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for social life component score.||0.78|-0.07|0.104
82642132|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.538|TWO_SIDED|95.0|-2.98|5.57|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score.||5.57|-2.98|0.538
82642133|NCT00798707|164999536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.689|TWO_SIDED|95.0|-1.76|2.62|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate for family life/home responsibilities component score||2.62|-1.76|0.689
82362027|NCT00292227|164435407|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.84||||||90.0|-1.12|2.8|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.80|-1.12|
82362028|NCT00292227|164435408|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.26||||||90.0|-1.8|2.32|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.32|-1.80|
82362029|NCT00292227|164435409|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.11||||||90.0|-2.25|2.02|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.02|-2.25|
82362030|NCT00292227|164435410|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.07||||||90.0|-2.14|2.28|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.28|-2.14|
82362031|NCT00292227|164435411|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.56||||||90.0|-2.84|1.72|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.72|-2.84|
82362032|NCT00292227|164435412|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.26||||||90.0|-2.29|1.78|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.78|-2.29|
82362033|NCT00292227|164435413|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.17||||||90.0|-3.25|0.91|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.91|-3.25|
82362034|NCT00292227|164435414|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.69||||||90.0|-0.34|3.73|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.73|-0.34|
82391457|NCT04545567|164493803|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82391458|NCT03979807|164493804|OTHER||Adjusted Hazard Ratio|1.11|||||TWO_SIDED|95.0|1.06|1.17|||||Cox proportional hazard model. 'Treatment' is the only Independent variable used to estimate the hazard ratios. Umeclidinium/Vilanterol is Reference Group.|||1.17|1.06|
82391459|NCT03626363|164493811|SUPERIORITY|We sought to have up to 20 participants complete each group so that we could have a statistical power of 0.89 to detect about a 4 burst per minute difference with an alpha of 0.05. We would have had sympathetic nerve data on up to 18 more of the 21 participants that we were not allowed to post-test in the spring of 2020 due to COVID-19 restrictions.|Mean Difference (Net)|-2.0||||0.51|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance with 2 groups (MBSR and SME) and 2 time points (Pre vs. Post). Outcome data reported is the change in the mean number of bursts per minute of muscle sympathetic nerve activity (MSNA) from pre to post.||||0.51
82391460|NCT03626363|164493812|SUPERIORITY|To detect a 0.5 meter per second change in carotid-to-femoral pulse wave velocity with at least 80% power with an alpha of 0.05 we should have had at least 12 participants complete measurements in each group (MBSR and SME). We fell a little short of that in the MBSR group and met the 12 participants in the SME group. The number of participants we were able to study from pre to post was limited by COVID-19 restrictions.|Mean Difference (Net)|-0.2||||0.25|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance with 2 groups (MBSR and SME) and 2 time points (Pre vs. Post). Outcome data reported is the change in carotid-to-femoral pulse wave velocity in meters per second from pre to post. We had 21 participants in the spring of 2020 that were were not allowed to bring into the laboratory for post testing during COVID-19 restrictions which led to our limited sample size.||||0.25
82391461|NCT02419612|164493814|SUPERIORITY||Least Squares (LS) Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.57|-0.18|||Mixed Models Analysis|Adjusted for for treatment, baseline HbA1c, visit, treatment-by-visit interaction, and baseline HbA1c-by-visit interaction.||||-0.18|-0.57|<0.001
82391462|NCT02419612|164493815|SUPERIORITY||LS Mean Difference|-4.06|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-4.84|-3.28|||Mixed Models Analysis|Adjusted for for treatment, baseline body weight, visit, treatment-by-visit interaction, and baseline body weight-by-visit interaction.||||-3.28|-4.84|<0.001
82642134|NCT00798707|164999537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.066|TWO_SIDED|95.0|-1.67|0.05|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.05|-1.67|0.066
82642135|NCT00798707|164999537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.15|TWO_SIDED|95.0|-1.48|0.23|||ANCOVA|||Analysis was conducted using ANCOVA on the change from baseline with treatment as a factor and corresponding baseline value as a covariate.||0.23|-1.48|0.150
82362035|NCT00292227|164435415|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.31||||||90.0|-1.7|2.32|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.32|-1.70|
82362036|NCT00292227|164435416|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.65||||||90.0|-0.65|3.96|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.96|-0.65|
82362037|NCT00292227|164435417|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.21||||||90.0|-1.78|1.36|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.36|-1.78|
82362038|NCT00292227|164435418|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.53||||||90.0|-2.37|1.3|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.30|-2.37|
82362039|NCT00292227|164435419|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.41||||||90.0|-2.3|1.49|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.49|-2.30|
82391463|NCT02419612|164493816|SUPERIORITY||Odds Ratio (OR)|1.5||||0.044||95.0|1.01|2.29|||Regression, Logistic|Adjusted for baseline HbA1c value||||2.29|1.01|0.044
82391464|NCT02419612|164493817|SUPERIORITY||LS Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|1.35||0.007|TWO_SIDED|95.0|-6.3|-1.0|||Mixed Models Analysis|Adjusted for treatment, baseline SBP, visit, treatment-by-visit interaction, and baseline SBP-by-visit interaction||||-1.0|-6.3|0.007
82574880|NCT01107899|164859202|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||<0.001
82444199|NCT04243330|164596977|SUPERIORITY||Mean Difference (Net)|3.58||||0.06|TWO_SIDED|95.0|-0.11|7.28||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||7.28|-0.11|.06
82642136|NCT00798707|164999538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.951||||0.8758|TWO_SIDED|95.0|0.51|1.78|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||1.78|0.51|0.8758
82362040|NCT00292227|164435420|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.5||||||90.0|-2.34|1.35|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.35|-2.34|
82362041|NCT00292227|164435421|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.21||||||90.0|-1.76|2.17|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.17|-1.76|
82362042|NCT00292227|164435422|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.23||||||90.0|-2.99|0.53|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.53|-2.99|
82362043|NCT00292227|164435423|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-1.62||||||90.0|-3.87|0.63|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.63|-3.87|
82362044|NCT00292227|164435424|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.81||||||90.0|-2.55|0.93|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||0.93|-2.55|
82362045|NCT00292227|164435425|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.37||||||90.0|-2.13|1.39|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.39|-2.13|
82362046|NCT00292227|164435426|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.68||||||90.0|-2.6|1.25|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.25|-2.60|
82362047|NCT00292227|164435427|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|1.17||||||90.0|-0.69|3.03|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||3.03|-0.69|
82362048|NCT00292227|164435428|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|0.8||||||90.0|-1.14|2.73|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||2.73|-1.14|
82444200|NCT04243330|164596978|SUPERIORITY||Median Difference (Net)|1.7||||0.6|TWO_SIDED|95.0|-4.5|7.9||the p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||7.9|-4.5|0.60
82362049|NCT00292227|164435429|NON_INFERIORITY_OR_EQUIVALENCE|A standard deviation of 12ms was assumed for sample size calculation. Sample size was calculated to have 90% power to show the non-inferiority of rotigotine against placebo with respect to the non-inferiority margin of 10ms (α=0.05, 1-sided).|Mean Difference (Net)|-0.42||||||90.0|-2.33|1.5|||ANCOVA|The ANCOVA model included the factors site, treatment, gender, and time-matched baseline QTcI as covariate.|The direction of the estimate is Rotigotine - Placebo. Mean difference was estimated from the ANCOVA model.|The analysis was based on a non-inferiority comparison of rotigotine vs placebo using a 1-sided 95% confidence interval (or, equivalently, the upper limit of 2-sided 90% confidence interval) for the time-matched changes from Baseline in QTcI.||1.50|-2.33|
82362050|NCT00292227|164435430|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||||95.0|-1.04|1.71|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||1.71|-1.04|
82362051|NCT00292227|164435431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||||95.0|-0.72|1.68|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||1.68|-0.72|
82362052|NCT00292227|164435432|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.51||||||95.0|0.3|2.73|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||2.73|0.30|
82362053|NCT00292227|164435433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.5||||||95.0|11.78|15.22|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||15.22|11.78|
82362054|NCT00292227|164435434|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.02||||||95.0|9.12|12.93|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||12.93|9.12|
82362055|NCT00292227|164435435|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.3||||||95.0|9.94|12.67|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||12.67|9.94|
82362056|NCT00292227|164435436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.28||||||95.0|6.85|9.7|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||9.70|6.85|
82362057|NCT00292227|164435437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.3||||||95.0|7.57|11.02|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||11.02|7.57|
82391465|NCT02419612|164493818|SUPERIORITY||Hazard Ratio (HR)|0.15||||0.002|TWO_SIDED|95.0|0.04|0.5||This endpoint did not meet the required number of events (n=10) in each treatment arm, hence was excluded from sequential testing.|Regression, Cox Proportional Hazards|||Time to treatment intensification was analyzed using a Cox proportional hazards model.||0.50|0.04|0.002
82391466|NCT02419612|164493819|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.68|||Regression, Cox Proportional Hazards|||Time to treatment intensification was analyzed using a Cox proportional hazards model.||0.68|0.39|<0.001
82391467|NCT02419612|164493820|SUPERIORITY||Odds Ratio (OR)|2.1|STANDARD_ERROR_OF_MEAN|0.54||0.006|TWO_SIDED|95.0|1.23|3.42|||Regression, Logistic|Adjusted for baseline HbA1c value.||||3.42|1.23|0.006
82391468|NCT02419612|164493821|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.68|||Regression, Cox Proportional Hazards|||||0.68|0.39|<0.001
82527468|NCT03502616|164751403|SUPERIORITY||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.506||0.107|TWO_SIDED|95.0|-0.18|1.81|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.81|-0.18|0.1070
82642137|NCT00798707|164999538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.165||||0.6397|TWO_SIDED|95.0|0.61|2.21|||Regression, Logistic|||Analysis was conducted using a logistic regression model with treatment and gender as factors and baseline sexual dysfunction status as a covariate.||2.21|0.61|0.6397
82642138|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.847|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 8 (or ET).||||0.847
82642139|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.847|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 8 (or ET).||||0.847
82642140|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 9 (or ET + 1 week).||||0.720
82642141|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 9 (or ET + 1 week).||||0.720
82642142|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 10 (or ET + 2 weeks).||||0.720
82642143|NCT00798707|164999540|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||t-test, 2 sided|||To address the multiplicity effect inherent in these comparisons, adjusted p-values based on the false discovery rate were used at Week 10 (or ET + 2 weeks).||||0.720
82642144|NCT00929201|164999582|NON_INFERIORITY_OR_EQUIVALENCE|The FMI sitagliptin/metformin 50/500 mg FDC tablet and coadministration of corresponding doses of sitagliptin and metformin as individual tablets after consumption of a standard high-fat breakfast will be bioequivalent for metformin based on assessment of the AUC0-∞ for metformin \[i.e., the true metformin AUC0-∞GMR (sitagliptin/metformin 50/500 mg FDC tablet/co-administration of sitagliptin and metformin as individual tablets will be contained within (0.80, 1.25)\].|Least-Squares Mean Ratio|0.97||||||90.0|0.95|1.0||||||Least-Squares Mean Ratio calculated as Sitagliptin/Metformin 50/500 mg FDC tablet divided by Sitagliptin 50 mg and metformin 500 mg individual tablets||1.00|0.95|
82642145|NCT00929201|164999583|NON_INFERIORITY_OR_EQUIVALENCE|The FMI sitagliptin/metformin 50/500 mg FDC tablet and co-administration of corresponding doses of sitagliptin and metformin as individual tablets after consumption of a standard high-fat breakfast will be bioequivalent for metformin based on assessment of the Cmax for metformin \[i.e., the true metformin Cmax GMR (sitagliptin/metformin 50/500 mg FDC tablet/ co-administration of sitagliptin and metformin as individual tablets will be contained within (0.80, 1.25)\].|Least-Squares Mean Ratio|0.95||||||90.0|0.93|0.98||||||Least-Squares Mean Ratio calculated as Sitagliptin/Metformin 50/500 mg FDC tablet divided by Sitagliptin 50 mg and metformin 500 mg individual tablets||0.98|0.93|
82642146|NCT00566969|164999584|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hierarchical linear model was used to account for unequal variance and covariance structures across time.||||||0.1|||||||ANOVA|||||||.10
82642147|NCT01299272|164999590|SUPERIORITY_OR_OTHER|||||||0.485|||||||Log Rank|||||||0.485
82642148|NCT00464308|164999619|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.11|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|Non-inferiority||Assumed that the true resolution rates in the rab20 and eso40 groups would be 30% (0.3). Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
82642149|NCT00464308|164999622|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.051|||<|0.05||95.0||||All statistical tests were interpreted at the 5% significance level (2-tailed).|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
82642150|NCT00464308|164999623|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.053|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
82574881|NCT01107899|164859202|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||ANCOVA|p-value was obtained from an analysis of covariance model with treatment as a fixed effect and the baseline value as a covariate.||||||0.025
82444201|NCT04243330|164596979|SUPERIORITY||Median Difference (Net)|-4.1||||0.36|TWO_SIDED|95.0|-12.8|4.7||p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||4.7|-12.8|0.36
82391469|NCT01187498|164493842|NON_INFERIORITY_OR_EQUIVALENCE|A power analysis indicated that a sample size of 70 per group would provide 80% power with a one-sided alpha of 0.05 to declare two means equivalent, assuming a mean voiding frequency of 8.2 for behavioral treatment, a mean voiding frequency of 8.0 for drug therapy, and a standard deviation of 2.3 for both groups. Equivalence was defined as ±15% of the drug therapy posttreatment mean.|Difference of the Means|0.4|STANDARD_ERROR_OF_MEAN|0.346||0.001||95.0|||||Regression, Linear||The estimated parameter of dispersion is the standard error of the regression coefficient which measured the adjusted difference of the group means.|The primary analysis was an equivalence analysis to compare the two treatment groups on posttreatment 24- hour voiding frequency using a margin of ±15% of the drug group mean. Schuirmann's two one-sided tests (TOST) approach was used first to examine completers and then repeated using last observation carried forward to include participants who did not complete therapy. Adjusting the test to regression, the analyses were repeated using baseline voiding frequency as a covariate.||||.001
82391470|NCT01187498|164493843|SUPERIORITY_OR_OTHER||Difference of the Means|-0.38|STANDARD_ERROR_OF_MEAN|0.188||0.05||95.0|||||Regression, Linear||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.05
82391471|NCT01187498|164493844|SUPERIORITY_OR_OTHER||Difference of Group Means|0.19|STANDARD_ERROR_OF_MEAN|0.091||0.05||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.05
82391472|NCT01187498|164493845|SUPERIORITY_OR_OTHER||Difference in Group Means|-0.14|STANDARD_ERROR_OF_MEAN|0.091||0.33||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.33
82391473|NCT01187498|164493846|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.924||0.84||95.0|||||t-test, 2 sided||The estimated parameter of dispersion represents the standard error for the difference of the group means.|Standard regression methods adjusting for baseline values||||.84
82391474|NCT01187498|164493847|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|-0.0563|STANDARD_ERROR_OF_MEAN|0.1249||0.69||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.69
82391475|NCT01187498|164493848|SUPERIORITY_OR_OTHER||Difference between Group Weighted Means|-0.1563|STANDARD_ERROR_OF_MEAN|0.1009||0.16||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.16
82391476|NCT01187498|164493849|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|0.1079|STANDARD_ERROR_OF_MEAN|0.1625||0.56||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.56
82391477|NCT01187498|164493850|SUPERIORITY_OR_OTHER||Difference in Weighted Group Means|0.054|STANDARD_ERROR_OF_MEAN|0.1265||0.65||95.0|||||Cochran-Mantel-Haenszel||The estimated parameter of dispersion represents the standard error for the difference of the weighted group means.|Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.65
82391478|NCT01187498|164493851|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||Cochran Mantel-Haenszel procedure used to account for the ordinal nature of responses.||||.01
82391479|NCT01187498|164493852|SUPERIORITY_OR_OTHER||Difference in Group Proportions|-0.21|STANDARD_ERROR_OF_MEAN|0.086||0.02||95.0|||||Chi-squared||The estimated parameter of dispersion represents the standard error for the difference of the group proportions.|Cochran Mantel-Haenszel procedure.||||.02
82444202|NCT04243330|164596980|SUPERIORITY||Mean Difference (Net)|-4.5||||0.02|TWO_SIDED|95.0|-8.3|-0.67||p-values are not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||-0.67|-8.3|.02
82574882|NCT00592293|164859222|OTHER||Cumulative incidence|17.0|||||TWO_SIDED|95.0|9.1|27.6||||||||27.6|9.1|
82391480|NCT04464720|164493878|OTHER|||||||0.05|||||||Wilcoxon Ranked Sum|||comparing pre and post intervention PM2.5||||0.050
82391481|NCT04464720|164493881|OTHER|||||||0.043|||||||Wilcoxon Ranked Sum|||comparing pre v post intervention NO2||||0.043
82391482|NCT04464720|164493884|OTHER|||||||0.056|||||||Wilcoxon Ranked Sum|||comparing FVC pre and post intervention||||0.056
82391483|NCT04464720|164493885|OTHER|||||||0.058|||||||Wilcoxon Signed Rank|||Comparing FEV1 pre and post intervention||||0.058
82391484|NCT04464720|164493887|OTHER|||||||0.058|||||||Wilcoxon Ranked Sum|||comparing FeNO pre v post intervention||||0.058
82391485|NCT02156895|164493905|OTHER||Odds Ratio (OR)|1.1||||0.1244|TWO_SIDED|95.0|0.97|1.24|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Inlyta as factor||||1.24|0.97|0.1244
82391486|NCT02156895|164493911|OTHER||Odds Ratio (OR)|1.11||||0.0109|TWO_SIDED|95.0|1.02|1.2|||Regression, Logistic|Multiple logistic regression including total duration of treatment with Inlyta as factor||||1.2|1.02|0.0109
82391487|NCT03728985|164493962|NON_INFERIORITY|Performance Goal 80%|Absolute Percentage with Success|77.5||||0.5908|TWO_SIDED|90.0|69.6|84.1|||Fisher Exact||The lower estimated confidence interval above the Performance Goal of 80% would be considered success.|||84.1|69.6|0.5908
82391488|NCT03728985|164493963|NON_INFERIORITY|Performance Goal 68%|Percentage with Success|70.6||||0.7017|TWO_SIDED|90.0|61.4|78.7|||Fisher Exact|||||78.7|61.4|0.7017
82391489|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.75|1.17|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 3||1.17|0.75|<0.001
82444203|NCT04243330|164596981|SUPERIORITY||Mean Difference (Net)|-0.56||||0.82|TWO_SIDED|95.0|-5.5|4.4|||Mixed Models Analysis|||||4.4|-5.5|0.82
82574883|NCT00592293|164859223|OTHER||Percent Survival, Local Control|87.1|||||TWO_SIDED|95.0|78.1|93.7||||||||93.7|78.1|
82642151|NCT00464308|164999624|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based upon the number of patients acheiveing complete resolution of HEARTBURN. A sample size of 450 subjects per arm will give a 90% power (with a one-sided 95% confidence interval and a minimal clinically important difference of 9%) to demonstrate non-inferiority of rabeprazole 20mg to esomeprazole 40mg with respect to the number of patients with complete resolution of heartburn with or without regurgitation at week 4|Proportion difference|-0.061|||<|0.05||95.0||||Adjustment for multiple comparisons was not made. The a priori threshold for statistical significance was p\<0.05. Tests were 2-sided except for the non-inferiority test which was 1-sided.|non-inferiority||Non inferiority was considered proven if the lower confidence interval of the one sided 95% CI of P(rab20)-P(e40) was above -9%|Primary endpoints were assessed using non-inferiority tests. See below.||||<0.05
82642152|NCT01107834|164999645|SUPERIORITY_OR_OTHER|||||||0.27|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.27
82642153|NCT01107834|164999646|SUPERIORITY_OR_OTHER|||||||0.46|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.46
82642154|NCT01107834|164999647|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.13
82642155|NCT01107834|164999648|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.59
82642156|NCT01107834|164999649|SUPERIORITY_OR_OTHER|||||||0.09|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.09
82642157|NCT01107834|164999650|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||T-test to detect differences between groups||||0.03
82642158|NCT03722849|164999651|OTHER||||||=|0.0028||||||No multiple comparisons as region of interest analysis defined a priori.|Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests for non-parametric data||||=0.0028
82642159|NCT03722849|164999652|OTHER||||||=|0.007||||||No multiple comparisons as region of interest analysis defined a priori.|Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests for non-parametric data||||=0.0070
82642160|NCT03722849|164999653|OTHER|Group comparisons (Cough versus healthy) for each measurement using repeated measures ANOVA.|||||=|0.0019|||||||ANOVA|with repeated measures||||||=0.0019
82642161|NCT03722849|164999655|OTHER|Group-wise comparisons using unpaired t-tests or one way ANOVA|||||<|0.0001|||||||ANOVA|||||||<0.0001
82362058|NCT00292227|164435438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.87||||||95.0|7.47|10.28|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||10.28|7.47|
82426262|NCT02164864|164561475|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|1.17||||0.1128|TWO_SIDED|95.0|0.9|1.53||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|The upper bound of the Wald confidence interval (CI) of the HR of All Dabigatran Etexilate (110mg and 150 mg) vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority|A pre-defined hierarchical testing approach was used. This was the fifth step in hierarchy.||1.53|0.90|0.1128
82642162|NCT03533608|164999656|OTHER|Descriptive|Mean Difference (Final Values)|19.51|||||TWO_SIDED|||||||||||||
82642163|NCT03533608|164999657|OTHER|Descriptive|Mean Difference (Final Values)|4.04|||||TWO_SIDED|||||||||||||
82642164|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - PT the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥5 EU/mL) threshold was calculated||1.4|-1.4|
82642165|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.7||||||95.0|-4.8|3.3||||||For Pertussis - PTf the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥26.00 EU/mL) threshold was calculated||3.3|-4.8|
82642166|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥5 EU/mL) threshold was calculated||1.4|-1.4|
82642167|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-6.4|1.7||||||For Pertussis - FHAf the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥36.00 EU/mL) threshold was calculated||1.7|-6.4|
82642168|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (≥7.82 EU/mL) threshold was calculated||1.4|-1.4|
82642169|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - PT the difference in percentages between the two groups (13vPnC - 7vPnC) at (5 EU/mL) threshold was calculated||2.7|-1.7|
82642170|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.1||||||95.0|-1.4|6.8||||||For Pertussis - PTf the difference in percentages between the two groups (13vPnC - 7vPnC) at (17.00 EU/mL) threshold was calculated||6.8|-1.4|
82642171|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (5 EU/mL) threshold was calculated||2.7|-1.7|
82391490|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.88|1.33|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 7F||1.33|0.88|<0.001
82391491|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.12|||<|0.001|TWO_SIDED|95.0|0.93|1.36|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 8||1.36|0.93|<0.001
82391492|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.86|1.29|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 9N||1.29|0.86|<0.001
82391493|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.65|||<|0.001|TWO_SIDED|95.0|1.28|2.14|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 10A||2.14|1.28|<0.001
82391494|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.52|||<|0.001|TWO_SIDED|95.0|1.2|1.92|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 11A||1.92|1.20|<0.001
82391495|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.97|||<|0.001|TWO_SIDED|95.0|1.43|2.72|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 12F||2.72|1.43|<0.001
82391496|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.28|2.0|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 17F||2.00|1.28|<0.001
82391497|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.16|||<|0.001|TWO_SIDED|95.0|0.93|1.45|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 19A||1.45|0.93|<0.001
82391498|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.44|||<|0.001|TWO_SIDED|95.0|1.18|1.77|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 20A||1.77|1.18|<0.001
82444204|NCT00673881|164596991|SUPERIORITY_OR_OTHER|||||||0.0042||95.0|||||t-test, 2 sided|||||||0.0042
82444205|NCT00673881|164596992|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||Comparison baseline to end-of-treatment||||0.0002
82444206|NCT00673881|164596993|SUPERIORITY_OR_OTHER||||||NS|0|||||||t-test, 2 sided|||Comparison from baseline to end-of-treatment||||NS
82444207|NCT00673881|164597001|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82642172|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Pertussis - FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at (7.82 EU/mL) threshold was calculated||2.7|-1.7|
82642173|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-3.0||||||95.0|-8.0|2.5||||||For Pertussis - FHAf the difference in percentages between the two groups (13vPnC - 7vPnC) at (75.00 EU/mL) threshold was calculated||2.5|-8.0|
82642174|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-8.0||||||95.0|-14.9|-1.2||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||-1.2|-14.9|
82642175|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||1.4|-1.4|
82642176|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.7||||||95.0|-3.7|9.2||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||9.2|-3.7|
82642177|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.5|1.5||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||1.5|-1.5|
82642178|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8||||||95.0|-3.1|1.8||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||1.8|-3.1|
82642179|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||2.7|-1.7|
82391499|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.39|||<|0.001|TWO_SIDED|95.0|1.1|1.76|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 22F||1.76|1.10|<0.001
82642180|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-5.8|1.8||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 (IU/mL) threshold was calculated||1.8|-5.8|
82642181|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.7||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 (IU/mL) threshold was calculated||2.7|-1.7|
82642182|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-2.3||||||95.0|-7.6|3.0||||||For Polio Type 1 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.0|-7.6|
82642183|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.3||||||95.0|-11.4|2.6||||||For Polio Type 2 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||2.6|-11.4|
82642184|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.3||||||95.0|-5.0|4.3||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||4.3|-5.0|
82642185|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.5||||||95.0|-3.6|3.5||||||For Polio Type 1 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.5|-3.6|
82642186|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.5||||||95.0|-3.1|3.0||||||For Polio Type 2 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||3.0|-3.1|
82642187|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8||||||95.0|-3.1|1.9||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at (1:8) threshold was calculated||1.9|-3.1|
82642188|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.9||||||95.0|-3.2|5.0||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 (μg/mL) threshold was calculated||5.0|-3.2|
82391500|NCT05633992|164493998|NON_INFERIORITY|For the 12 serotypes common to both V116 and PPSV23, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.68|1.12|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 33F||1.12|0.68|<0.001
82391501|NCT05633992|164493998|NON_INFERIORITY|For serotype 15B, a conclusion of non-inferiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>0.5 (one-sided p-value \<0.025).|Day 30 GMT Ratio|1.43|||<|0.001|TWO_SIDED|95.0|1.07|1.89|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 15B||1.89|1.07|<0.001
82391502|NCT05633992|164493998|SUPERIORITY|For serotype 15C, a conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the OPA GMT ratio (V116/PPSV23) to be \>1.0 (one-sided p-value \<0.025).|Day 30 GMT Ratio|2.05|||<|0.001|TWO_SIDED|95.0|1.56|2.7|||Constrained Longitudinal Data Analysis|cLDA model with terms for vaccination group, time, interaction of time-by-vaccination, age stratum at baseline, and interaction of time-by-age stratum|Ratio is V116/PPSV23. GMT ratio and confidence interval estimated from the cLDA model. The cLDA model-based ratio includes estimated data for participants who had baseline data available but no day 30 measurement.|Serotype 15C||2.70|1.56|<0.001
82642189|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.5||||||95.0|-13.2|4.4||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 (μg/mL) threshold was calculated||4.4|-13.2|
82642190|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|2.8||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 (μg/mL) threshold was calculated||2.8|-1.7|
82642191|NCT00366678|164999694|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.2||||||95.0|-3.1|4.5||||||For Hib (PRP) the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 (μg/mL) threshold was calculated||4.5|-3.1|
82642192|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.7|2.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.9|-1.7|
82362059|NCT00292227|164435439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.6||||||95.0|7.25|9.96|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||9.96|7.25|
82362060|NCT00292227|164435440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.52||||||95.0|6.31|8.72|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||8.72|6.31|
82527469|NCT03502616|164751404|SUPERIORITY||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|0.428||0.0002|TWO_SIDED|95.0|0.78|2.46|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.46|0.78|0.0002
82642193|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.9||||||95.0|-0.9|4.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.9|-0.9|
82642194|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-0.9||||||95.0|-4.9|2.1||||||For serotype 4 the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.1|-4.9|
82642195|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.8||||||For serotype 6B the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.8|-1.8|
82642196|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|1.4||||||95.0|-1.1|5.9||||||For serotype 6B the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.9|-1.1|
82642197|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-5.8|2.7||||||For serotype 6B the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.7|-5.8|
82642198|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.7|2.9||||||For serotype 9V the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.9|-1.7|
82642199|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-1.8|3.3||||||For serotype 9V the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||3.3|-1.8|
82362061|NCT00292227|164435441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.58||||||95.0|6.21|8.95|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||8.95|6.21|
82362062|NCT00292227|164435442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.19||||||95.0|4.94|7.45|||ANOVA|The ANOVA model included the factors treatment, period, sequence, and subject(sequence).|The direction of the estimate is Moxifloxacin - Placebo. Mean difference was estimated from the ANOVA model.|For the analysis of the assay sensitivity, an ANOVA with the factors treatment, period, sequence, and subject(sequence) for comparison of moxifloxacin vs placebo (cross-over comparison) was performed. The point estimates for the difference between placebo and positive control (moxifloxacin) and the respective 95% confidence intervals were calculated.||7.45|4.94|
82362063|NCT00784134|164435471|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.027||||0.554|TWO_SIDED|95.0|-0.062|0.115|||Chi-squared|||||0.115|-0.062|0.554
82362064|NCT00784134|164435471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.465|TWO_SIDED|95.0|0.75|1.87||Multivariable logit model adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume.|Multivariable Logit Model|||||1.87|0.75|0.465
82362065|NCT00784134|164435472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.484|TWO_SIDED|95.0|0.63|1.25||Generalized ordered logit model adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical) compares odds ratio for mRS score \> K v. \<= K for K = 1 - 4; Alt v. Sal.|Generalized ordered Logit Model|||||1.25|0.63|0.484
82362066|NCT00784134|164435472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.71||The same generalized ordered logit model, adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical), compares odds ratio for mRS score greater than 5 versus mRS score equal or less than 5 (dead versus alive).|Generalized ordered Logit Model|||||0.71|0.28|<0.001
82362067|NCT00784134|164435473|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.026||||0.552|TWO_SIDED|95.0|-0.059|0.111|||Chi-squared|||||0.111|-0.059|0.552
82391503|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|27.6|||<|0.001|TWO_SIDED|95.0|17.8|36.9|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 6A||36.9|17.8|<0.001
82391504|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|33.7|||<|0.001|TWO_SIDED|95.0|23.6|43.0|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 15A||43.0|23.6|<0.001
82527470|NCT03502616|164751404|SUPERIORITY||LS mean difference|1.92|STANDARD_ERROR_OF_MEAN|0.466|<|0.0001|TWO_SIDED|95.0|1.0|2.84|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.84|1.00|<0.0001
82362068|NCT00784134|164435473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.35|TWO_SIDED|95.0|0.8|1.9||Multivariable logit model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).|Multivariable Logit Model|||||1.90|0.80|0.350
82362069|NCT00784134|164435474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.428|TWO_SIDED|95.0|0.78|1.8||Random effects model with site as random effect adjusted for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).|Random Effects Model|||||1.80|0.78|0.428
82362070|NCT00784134|164435475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.384|TWO_SIDED|95.0|0.75|2.1|||Generalized Estimating Equation Model|Generalized estimating equation model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||Logit mRS scores 0-3 at 30 days||2.10|0.75|0.384
82362071|NCT00784134|164435475|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.964|TWO_SIDED|95.0|0.62|1.64|||Generalized Estimating Equation Model|Generalized estimating equation model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||Logit mRS scores 0-3 at 180 days||1.64|0.62|0.964
82362072|NCT00784134|164435476|SUPERIORITY_OR_OTHER|||||||0.0056|||||||Log Rank|||||||0.0056
82362073|NCT00784134|164435477|SUPERIORITY_OR_OTHER||||||<|0.001|||||||AUC/ Logit Model|||||||<0.001
82362074|NCT00784134|164435478|SUPERIORITY_OR_OTHER|||||||0.771|||||||Kruskal-Wallis|||||||0.771
82362075|NCT00784134|164435479|SUPERIORITY_OR_OTHER|||||||0.098|||||||Kruskal-Wallis|||||||0.098
82362076|NCT00784134|164435480|SUPERIORITY_OR_OTHER|||||||0.45|||||||Generalized Linear Models|||||||0.450
82362077|NCT00784134|164435481|SUPERIORITY_OR_OTHER|||||||0.501|||||||Chi-squared|||||||0.501
82362078|NCT00784134|164435482|SUPERIORITY_OR_OTHER|||||||0.795|||||||Chi-squared|||||||0.795
82362079|NCT00784134|164435483|SUPERIORITY_OR_OTHER|||||||0.784|||||||Chi-squared|||||||0.784
82362080|NCT00784134|164435484|SUPERIORITY_OR_OTHER|||||||0.592|||||||Chi-squared|||||||0.592
82362081|NCT00784134|164435485|SUPERIORITY_OR_OTHER|||||||0.105|||||||Chi-squared|||||||0.105
82362082|NCT00784134|164435486|SUPERIORITY_OR_OTHER|||||||0.152|||||||Chi-squared|||||||0.152
82362083|NCT00784134|164435487|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.055||||0.055|TWO_SIDED|95.0|-0.111|0.008|||Fisher Exact|||||0.008|-0.111|0.055
82362084|NCT00784134|164435488|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.035||||0.202|TWO_SIDED|95.0|-0.084|0.014|||Fisher Exact|||||0.014|-0.084|0.202
82362085|NCT00784134|164435489|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||0.771|TWO_SIDED|95.0|-0.022|0.03|||Fisher Exact|||||0.030|-0.022|0.771
82444208|NCT01299571|164597008|SUPERIORITY_OR_OTHER||Percentage of participants|3.8||||||95.0|3.2|4.4|||||The estimated value represents the percentage of participants with adverse events.|||4.4|3.2|
82642200|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.3|3.0||||||For serotype 9V the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.0|-3.3|
82642201|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-0.4||||||95.0|-2.5|2.4||||||For serotype 14 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.4|-2.5|
82642202|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-1.8|4.4||||||For serotype 14 the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.4|-1.8|
82642203|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-0.9||||||95.0|-4.9|2.1||||||For serotype 14 the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.1|-4.9|
82642204|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.8||||||For serotype 18C the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.8|-1.8|
82642205|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|1.3||||||95.0|-1.1|5.7||||||For serotype 18C the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.7|-1.1|
82642206|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-1.0||||||95.0|-5.5|2.8||||||For serotype 18C the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||2.8|-5.5|
82642207|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.2||||||95.0|-3.1|4.7||||||For serotype 19F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||4.7|-3.1|
82642208|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-2.9|5.4||||||For serotype 19F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||5.4|-2.9|
82362086|NCT00784134|164435490|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||0.811|TWO_SIDED|95.0|-0.028|0.036|||Fisher Exact|||||0.036|-0.028|0.811
82362087|NCT00784134|164435491|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.144||||0.0017|TWO_SIDED|95.0|-0.23|-0.057|||Fisher Exact|||||-0.057|-0.230|0.0017
82448831|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82642209|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-0.3||||||95.0|-5.5|4.4||||||For serotype 19F the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||4.4|-5.5|
82642210|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.4||||||95.0|-1.8|3.9||||||For serotype 23F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.9|-1.8|
82642211|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|0.5||||||95.0|-1.9|4.4||||||For serotype 23F the difference in percentages between the two groups (13vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 13vPnC Toddler Dose) was calculated||4.4|-1.9|
82642212|NCT00366678|164999695|SUPERIORITY_OR_OTHER||Difference|-0.1||||||95.0|-4.1|3.7||||||For serotype 23F the difference in percentages between the two groups (7vPnC Infant Series / 13vPnC Toddler Dose - 7vPnC Infant Series / 7vPnC Toddler Dose) was calculated||3.7|-4.1|
82642213|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.87||||||95.0|0.73|1.03||||||For serotype 4 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.03|0.73|
82642214|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.83||||||95.0|0.67|1.03||||||For serotype 4 after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.03|0.67|
82642215|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.04||||||95.0|0.86|1.26||||||For serotype 4 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.26|0.86|
82642216|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.93||||||95.0|0.77|1.13||||||For serotype 6B after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.13|0.77|
82642217|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.07||||||95.0|0.82|1.4||||||For serotype 6B after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.40|0.82|
82642218|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.87||||||95.0|0.69|1.1||||||For serotype 6B after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.10|0.69|
82642219|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.8||||||95.0|0.68|0.94||||||For serotype 9V after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.94|0.68|
82642220|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.71||||||95.0|0.59|0.85||||||For serotype 9V after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.85|0.59|
82642221|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.13||||||95.0|0.95|1.33||||||For serotype 9V after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.33|0.95|
82362088|NCT00784134|164435492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.006|TWO_SIDED|95.0|0.41|0.86|||Cox Proportional Hazards Model|Adjusted Cox Proportional Hazards Model adjusting for age, GCS, thalamus, stability ICH volume and stability IVH volume (categorical).||||0.86|0.41|0.006
82362089|NCT00784134|164435493|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.064||||0.41|TWO_SIDED|95.0|-0.088|0.217|||Chi-squared|||||0.217|-0.088|0.410
82362090|NCT00784134|164435494|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.016||||0.781|TWO_SIDED|95.0|-0.096|0.128|||Chi-squared|||||0.128|-0.096|0.781
82362091|NCT00784134|164435495|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.773|TWO_SIDED|95.0|-0.113|0.152|||Chi-squared|||||0.152|-0.113|0.773
82362092|NCT00784134|164435496|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.032||||0.587|TWO_SIDED|95.0|-0.085|0.151|||Chi-squared|||||0.151|-0.085|0.587
82527471|NCT03502616|164751404|SUPERIORITY||LS mean difference|3.26|STANDARD_ERROR_OF_MEAN|0.549|<|0.0001|TWO_SIDED|95.0|2.18|4.34|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.34|2.18|<0.0001
82642222|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.88||||||95.0|0.73|1.06||||||For serotype 14 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.06|0.73|
82642223|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.72||||||95.0|0.58|0.9||||||For serotype 14 after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.90|0.58|
82642224|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.22||||||95.0|1.0|1.49||||||For serotype 14 after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.49|1.00|
82642225|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.82||||||95.0|0.69|0.97||||||For serotype 18C after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||0.97|0.69|
82642226|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.86||||||95.0|0.69|1.08||||||For serotype 18C after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.08|0.69|
82642227|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.95||||||95.0|0.78|1.15||||||For serotype 18C after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.15|0.78|
82642228|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.26||||||95.0|1.0|1.59||||||For serotype 19F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.59|1.00|
82642229|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.91||||||95.0|0.68|1.2||||||For serotype 19F after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.20|0.68|
82642230|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|1.39||||||95.0|1.08|1.79||||||For serotype 19F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.79|1.08|
82642231|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.81||||||95.0|0.67|1.0||||||For serotype 23F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.00|0.67|
82642232|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.85||||||95.0|0.67|1.07||||||For serotype 23F after the toddler dose the GMC ratio (7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/7vPnC Toddler Dose After Toddler Dose) was calculated||1.07|0.67|
82642233|NCT00366678|164999696|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.78|1.19||||||For serotype 23F after the toddler dose the GMC ratio (13vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose / 7vPnC Infant Series/13vPnC Toddler Dose After Toddler Dose) was calculated||1.19|0.78|
82642234|NCT00366678|164999699|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.77||||||95.0|0.66|0.9||||||For Diphtheria the GMC ratio was calculated||0.90|0.66|
82642235|NCT00366678|164999699|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.82|1.08||||||For Tetanus the GMC ratio was calculated||1.08|0.82|
82642236|NCT00366678|164999699|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.8||||||95.0|0.67|0.97||||||For Diphtheria the GMC ratio was calculated||0.97|0.67|
82642237|NCT00366678|164999699|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.69|1.08||||||For Tetanus the GMC ratio was calculated||1.08|0.69|
82642238|NCT00366678|164999700|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.91||||||95.0|0.73|1.14||||||For Hib (PRP) the GMC ratio was calculated||1.14|0.73|
82642239|NCT00366678|164999700|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.04||||||95.0|0.82|1.32||||||For Hib (PRP) the GMC ratio was calculated||1.32|0.82|
82642240|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88||||||95.0|0.71|1.09||||||For Polio Type 1 the GMC ratio was calculated||1.09|0.71|
82642241|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.82||||||95.0|0.66|1.03||||||For Polio Type 2 the GMC ratio was calculated||1.03|0.66|
82642242|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78||||||95.0|0.59|1.02||||||For Polio Type 3 the GMC ratio was calculated||1.02|0.59|
82642243|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.72|1.41||||||For Polio Type 1 the GMC ratio was calculated||1.41|0.72|
82642244|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.72|1.34||||||For Polio Type 2 the GMC ratio was calculated||1.34|0.72|
82362093|NCT00784134|164435497|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.015||||0.775|TWO_SIDED|95.0|-0.09|0.121|||Chi-squared|||||0.121|-0.09|0.775
82362094|NCT00784134|164435498|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.019||||0.808|TWO_SIDED|95.0|-0.132|0.169|||Chi-squared|||||0.169|-0.132|0.808
82362095|NCT00784134|164435499|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.033||||0.625|TWO_SIDED|95.0|-0.165|0.099|||Chi-squared|||||0.099|-0.165|0.625
82362096|NCT00784134|164435500|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.087||||0.191|TWO_SIDED|95.0|-0.043|0.218|||Chi-squared|||||0.218|-0.043|0.191
82362097|NCT00784134|164435501|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0066||||0.949|TWO_SIDED|95.0|-0.197|0.211|||Chi-squared|||||0.211|-0.197|0.949
82362098|NCT00784134|164435502|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.014||||0.812|TWO_SIDED|95.0|-0.098|0.126|||Chi-squared|||||0.126|-0.098|0.812
82362099|NCT00784134|164435503|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.059||||0.394|TWO_SIDED|95.0|-0.076|0.194|||Chi-squared|||||0.194|-0.076|0.394
82362100|NCT00784134|164435504|SUPERIORITY_OR_OTHER|||||||0.312|||||||Wilcoxon (Mann-Whitney)|||||||0.312
82362101|NCT00784134|164435505|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.075||||0.087|TWO_SIDED|95.0|-0.011|0.16||Analysis of dichotomous eGOS, comparing Upper Severe Disability scores to Lower Severe Disability scores|Chi-squared|||||0.160|-0.011|0.087
82362102|NCT00784134|164435505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.064|TWO_SIDED|95.0|0.98|2.43||Adjusted Multivariable Logit Model comparing eGOS scores of Upper Severe Disability or greater versus Lower Severe Disability and worse; Alteplase versus Saline|Multivariable Logit Model|||||2.43|0.98|0.064
82362103|NCT00784134|164435505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.336|TWO_SIDED|95.0|0.7|2.89||Adjusted generalized ordered logit model odds ratios for eGOS scores of Moderate Disability or worse versus Good Recovery; Alteplase versus Saline|Generalized Ordered Logit Model|||||2.89|0.70|0.336
82362104|NCT00784134|164435505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.783|TWO_SIDED|95.0|0.57|1.52||Adjusted generalized ordered logit model odds ratios for eGOS scores of Upper Severe Disability or worse versus Moderate Disability + Good Recovery; Alteplase versus Saline|Generalized Ordered Logit Model|||||1.52|0.57|0.783
82362105|NCT00784134|164435506|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82362106|NCT00784134|164435507|SUPERIORITY_OR_OTHER|||||||0.312|||||||t-test, 2 sided|||||||0.312
82362107|NCT00784134|164435508|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82362108|NCT00784134|164435509|SUPERIORITY_OR_OTHER|||||||0.478|||||||t-test, 2 sided|||||||0.478
82362109|NCT00784134|164435510|SUPERIORITY_OR_OTHER|||||||0.634|||||||t-test, 2 sided|||||||0.634
82642245|NCT00366678|164999701|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.84||||||95.0|0.6|1.17||||||For Polio Type 3 the GMC ratio was calculated||1.17|0.60|
82391505|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|38.3|||<|0.001|TWO_SIDED|95.0|29.8|46.4|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 16F||46.4|29.8|<0.001
82426263|NCT02164864|164561475|OTHER||Hazard Ratio (HR)|1.3||||0.072|TWO_SIDED|95.0|0.98|1.73||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.73|0.98|0.0720
82362110|NCT00784134|164435511|SUPERIORITY_OR_OTHER|||||||0.255|||||||t-test, 2 sided|||||||0.255
82362111|NCT00784134|164435512|SUPERIORITY_OR_OTHER|||||||0.224|||||||t-test, 2 sided|||||||0.224
82362112|NCT00784134|164435513|SUPERIORITY_OR_OTHER|||||||0.882|||||||t-test, 2 sided|||||||0.882
82362113|NCT00784134|164435514|SUPERIORITY_OR_OTHER|||||||0.551|||||||t-test, 2 sided|||||||0.551
82362114|NCT00784134|164435515|SUPERIORITY_OR_OTHER|||||||0.224|||||||t-test, 2 sided|||||||0.224
82362115|NCT00784134|164435516|SUPERIORITY_OR_OTHER|||||||0.376|||||||t-test, 2 sided|||||||0.376
82362116|NCT02960438|164435541|SUPERIORITY||Difference of arms|2.2||||0.374|TWO_SIDED|95.0|-19.96|24.46|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||24.46|-19.96|0.374
82362117|NCT02960438|164435541|SUPERIORITY||Difference of arms|11.1||||0.102|TWO_SIDED|95.0|-7.42|29.64|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||29.64|-7.42|0.102
82362118|NCT02960438|164435541|SUPERIORITY||Difference of arms|9.3||||0.188|TWO_SIDED|95.0|-9.25|27.77|||Regression, Logistic||Estimate was calculated based on the normal approximation to the binomial distribution.|||27.77|-9.25|0.188
82362119|NCT03686150|164435563|OTHER|This was a population PK analysis of 25(OH)D after oral administration of Vitamin D.||||||||||||||||Part 1 of this study was to perform a population PK analysis of 25(OH)D after oral administration of Vitamin D in children who are overweight or obese and have asthma. Based on the interim analysis of the VDORA study, the PK of 25(OH)D after Vitamin D supplementation in children was well characterized by a 2-compartment population PK model with linear absorption and elimination kinetics. A loading dose of 50,000 IU followed by a daily dose of 8,000 IU was recommended.|Based on the interim analysis of the VDORA study, the PK of 25(OH)D after Vitamin D supplementation in children was well characterized by a 2-compartment population PK model with linear absorption and elimination kinetics. A loading dose of 50,000 IU followed by a daily dose of 8,000 IU was recommended.|||
82362120|NCT03686150|164435564|OTHER|This is one-sample test of proportion testing the null hypothesis that the proportion of participants with 25(OH)D level \>= 40 ng/mL is 50%.||||||0.0001|||||||z-test|||This is a one-sample test of proportion.||||0.0001
82362121|NCT03404401|164435586|NON_INFERIORITY|Non-inferiority margin was set at 10%.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82362122|NCT02070757|164435598|NON_INFERIORITY|Meropenem minus ceftolozane/tazobactam. For ceftolozane/tazobactam to be non-inferior to meropenem the lower bound of a 2-sided 95% confidence interval (CI) for the difference between treatment groups had to be ≥ -10%.|Difference in Percentage of Participants|1.1|||||TWO_SIDED|95.0|-5.13|7.39|||||The % difference between groups is the weighted proportion difference using MRc stratum weights for diagnosis and age categories. The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference.|||7.39|-5.13|
82362123|NCT02070757|164435599|NON_INFERIORITY|Clinical Response difference is calculated as ceftolozane/tazobactam minus meropenem. For ceftolozane/tazobactam to be non-inferior to meropenem the lower bound of a 2-sided 95% confidence interval (CI) for the difference between treatment groups had to be ≥ -12.5%.|Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-6.17|8.29|||||The % difference between groups is the weighted proportion difference using MRc stratum weights for diagnosis and age categories. The 95% CI was stratified Wilson intervals for group percentages and a stratified Newcombe interval for the difference.|||8.29|-6.17|
82362124|NCT02070757|164435600|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|4.4|||||TWO_SIDED|95.0|-2.83|11.75|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||11.75|-2.83|
82642246|NCT00366678|164999702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87||||||95.0|0.78|0.98||||||For Pertussis - FHA the GMC ratio was calculated||0.98|0.78|
82362125|NCT02070757|164435601|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-1.3|||||TWO_SIDED|95.0|-10.21|7.67|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||7.67|-10.21|
82362126|NCT02070757|164435602|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|7.0||||||95.0|-5.11|18.93|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||18.93|-5.11|
82362127|NCT02070757|164435604|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-1.4|||||TWO_SIDED|95.0|-6.41|3.57|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||3.57|-6.41|
82362128|NCT02070757|164435605|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|-0.8|||||TWO_SIDED|95.0|-7.67|6.04|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||6.04|-7.67|
82362129|NCT02070757|164435606|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|1.6|||||TWO_SIDED|95.0|-8.91|12.02|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||12.02|-8.91|
82642247|NCT00366678|164999702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.92||||||95.0|0.84|1.02||||||For Pertussis - PT the GMC ratio was calculated||1.02|0.84|
82362130|NCT02070757|164435607|OTHER|The % difference is the weighted proportion difference using Mehrotra-Railkar continuity-corrected-minimum risk (MRc) stratum weights for strata of diagnosis (VABP, ventilated HABP) and age (\<65, \>=65) categories.|Difference in Percentage of Participants|3.3|||||TWO_SIDED|95.0|-3.38|10.44|||||The 95% confidence interval (CI) were stratified Wilson intervals for the treatment group percentages and a stratified Newcombe interval for the treatment difference, constructed using the MRc stratum weights.|Difference in Percentage of Participants||10.44|-3.38|
82362131|NCT01844531|164435611|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|97.92|STANDARD_ERROR_OF_MEAN|8.4||0|TWO_SIDED|90.0|93.529|102.52||Model included effects:sequence;subjects within sequences;period and treatment with subjects within sequences as random effect.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||102.520|93.529|0.0000
82391506|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|29.5|||<|0.001|TWO_SIDED|95.0|17.4|40.6|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 23A||40.6|17.4|<0.001
82391507|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|38.3|||<|0.001|TWO_SIDED|95.0|29.3|46.7|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 23B||46.7|29.3|<0.001
82642248|NCT00366678|164999702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.72|1.0||||||For Pertussis - FHA the GMC ratio was calculated||1.00|0.72|
82391508|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|27.1|||<|0.001|TWO_SIDED|95.0|18.3|35.6|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 24F||35.6|18.3|<0.001
82391509|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|57.3|||<|0.001|TWO_SIDED|95.0|49.3|64.4|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 31||64.4|49.3|<0.001
82391510|NCT05633992|164493999|SUPERIORITY|A conclusion of superiority of V116 to PPSV23 requires the lower bound of the 2-sided 95% confidence interval of the difference (V116-PPSV23) between the percentage of participants to be \>0 percentage points (one-sided p-value \<0.025).|Difference in Percent|47.0|||<|0.001|TWO_SIDED|95.0|39.5|54.1|||Stratified Miettinen & Nurminen||Estimated difference and confidence interval are based on the Miettinen \& Nurminen method.|Serotype 35B||54.1|39.5|<0.001
82391511|NCT05072106|164494006|OTHER|Bioequivalence|Least-squares geometric mean ratio|96.83|||||TWO_SIDED|90.0|81.09|115.62|||||The reported results are the same as the ones reported in the CSR of the trial.|||115.62|81.09|
82391512|NCT05072106|164494007|OTHER|Bioequivalence|Least-squares geometric mean ratio|79.81|||||TWO_SIDED|90.0|64.78|98.32||||||||98.32|64.78|
82391513|NCT05072106|164494008|OTHER|Bioequivalence|Least-squares geometric mean ratio|79.2|||||TWO_SIDED|90.0|64.12|97.82||||||||97.82|64.12|
82391514|NCT05072106|164494009|OTHER|Bioequivalence|Least-squares geometric mean ratio|125.3|||||TWO_SIDED|90.0|101.71|154.36||||||||154.36|101.71|
82391515|NCT05072106|164494010|OTHER|Bioequivalence|Least-squares geometric mean ratio|106.79|||||TWO_SIDED|90.0|74.63|152.8||||||||152.8|74.63|
82527472|NCT03502616|164751404|SUPERIORITY||LS mean difference|3.04|STANDARD_ERROR_OF_MEAN|0.564|<|0.0001|TWO_SIDED|95.0|1.93|4.15|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.15|1.93|<0.0001
82574884|NCT01606319|164859225|SUPERIORITY_OR_OTHER||relative rate|0.94||||0.67|TWO_SIDED|95.0|0.69|1.28|||log-linear model|log-linear model in which the number of exacerbations was assumed to follow a negative binomial distribution|relative rate with acetaminophen in the numerator and ibuprofen in the denominator|||1.28|.69|0.67
82642249|NCT00366678|164999702|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.86|1.14||||||For Pertussis - PT the GMC ratio was calculated||1.14|0.86|
82391516|NCT05072106|164494011|OTHER|Bioequivalence|Least-squares geometric mean ratio|104.93|||||TWO_SIDED|90.0|69.49|158.44||||||||158.44|69.49|
82391517|NCT05072106|164494012|OTHER|bioequivalence|Least-squares geometric mean ratio|88.44|||||TWO_SIDED|90.0|65.62|119.19||||||||119.19|65.62|
82391518|NCT05072106|164494013|OTHER|bioequivalence|Least-squares geometric mean ratio|81.8|||||TWO_SIDED|90.0|54.8|119.96||||||||119.96|54.8|
82391519|NCT05072106|164494014|OTHER|bioequivalence|Least-squares geometric mean ratio|80.26|||||TWO_SIDED|90.0|54.26|118.72||||||||118.72|54.26|
82391520|NCT05072106|164494015|OTHER|bioequivalence|Least-squares geometric mean ratio|123.34|||||TWO_SIDED|90.0|83.36|182.49||||||||182.49|83.36|
82391521|NCT05072106|164494016|OTHER|bioequivalence|Least-squares geometric mean ratio|120.5|||||TWO_SIDED|90.0|64.79|224.13||||||||224.13|64.79|
82391522|NCT05072106|164494017|OTHER|bioequivalence|Least-squares geometric mean ratio|120.5|||||TWO_SIDED|90.0|64.79|224.13||||||||224.13|64.79|
82391523|NCT05072106|164494018|OTHER|bioequivalence|Least-squares geometric mean ratio|188.13|||||TWO_SIDED|90.0|132.93|266.26||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M1 dose-normalized Cmax.||266.26|132.93|
82391524|NCT05072106|164494019|OTHER|bioequivalence|Least-squares geometric mean ratio|245.46|||||TWO_SIDED|90.0|133.4|451.65||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M1 dose-normalized AUC0-t.||451.65|133.4|
82391525|NCT05072106|164494020|OTHER|bioequivalence|Least-squares geometric mean ratio|104.94|||||TWO_SIDED|90.0|94.07|117.05||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M4 dose-normalized Cmax.||117.05|94.07|
82391526|NCT05072106|164494021|OTHER|bioequivalence|Least-squares geometric mean ratio|91.02|||||TWO_SIDED|90.0|71.39|116.04||||||PK parameter used was the log-transformed metabolite/parent ratio (MPR) of M4 dose-normalized AUC0-t.||116.04|71.39|
82426264|NCT02164864|164561475|OTHER||Hazard Ratio (HR)|0.97||||0.875|TWO_SIDED|95.0|0.68|1.39||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.39|0.68|0.8750
82426265|NCT02164864|164561476|OTHER||Hazard Ratio (HR)|1.09||||0.608|TWO_SIDED|95.0|0.79|1.51||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.51|0.79|0.6080
82426266|NCT02164864|164561476|OTHER||Hazard Ratio (HR)|0.96||||0.8348|TWO_SIDED|95.0|0.65|1.41||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded from|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.41|0.65|0.8348
82426267|NCT02164864|164561477|NON_INFERIORITY|All non-inferiority tests were based on a margin of 1.38.|Hazard Ratio (HR)|1.04||||0.0047|TWO_SIDED|95.0|0.84|1.29||P values for noninferiority were calculated at a one-sided alpha level of 0.025|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|The upper bound of the Wald confidence interval (CI) of the HR of All Dabigatran Etexilate (110mg and 150 mg) vs Warfarin (one-sided 97.5%) was compared with this noninferiority margin for the testing of non-inferiority|A pre-defined hierarchical testing approach was used. This was the third step in hierarchy.||1.29|0.84|0.0047
82444209|NCT00413010|164597011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.48||||95.0|-2.16|-0.26|||Mixed Models Analysis|Adjusted for treatment, pooled center baseline, HAM-A total score,time,and treatment-by time|Since an interim analysis was conducted and the sample size was larger than the targeted 173 subjects per group, a critical t-value adjustment was 1.977, yielding an adjusted 95% CI shown above.|Null hypothesis: no difference between Pregabalin (150-600 mg/day) BID and Placebo BID treatment groups. An initial sample size of 173 subjects per double-blind treatment group was calculated to provide at least 90% power to detect an effect size (ie, difference in the true means between 2 treatment groups/standard deviation) of 0.36 for the HAM-A total score change from Baseline using a 2-sided nominal significance level of 4.9%.||-0.26|-2.16|
82642250|NCT04633434|164999716|EQUIVALENCE|Test of whether the pretest and posttest scores are significantly different from zero.|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.56||0.69|TWO_SIDED||||||t-test, 2 sided||Estimation parameter based on paired t-test.|||||.690
82362132|NCT01844531|164435611|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.0|STANDARD_ERROR_OF_MEAN|8.3|<|0.0001|TWO_SIDED|90.0|93.57|102.65||Model included effects:sequence;subjects within sequences;period and treatment with all effects as fixed.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||102.65|93.57|<.0001
82362133|NCT01844531|164435611|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.79|STANDARD_ERROR_OF_MEAN|6.7||0|TWO_SIDED|90.0|99.077|106.633||Model included effects:sequence;subjects within sequences;period and treatment with subjects within sequences as random effect.|ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500 , PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA). The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale.||106.633|99.077|0.0000
82362134|NCT01844531|164435611|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.5|STANDARD_ERROR_OF_MEAN|6.7|<|0.0001|TWO_SIDED|90.0|98.78|106.36|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 (T2) : Empa5 + Met500 (R2), PK set AUCinfpred \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.36|98.78|<.0001
82362135|NCT01844531|164435612|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.25|STANDARD_ERROR_OF_MEAN|15.4||0.0006|TWO_SIDED|90.0|88.542|104.628|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||104.628|88.542|0.0006
82362136|NCT01844531|164435612|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|97.21|STANDARD_ERROR_OF_MEAN|15.1||0.0004|TWO_SIDED|90.0|89.41|105.68|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 (T1) : Empa12.5 + Met500 (R1), PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||105.68|89.41|0.0004
82362137|NCT01844531|164435612|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.79|STANDARD_ERROR_OF_MEAN|9.8||0|TWO_SIDED|90.0|91.772|102.093|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||102.093|91.772|0.0000
82362138|NCT01844531|164435612|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.91|STANDARD_ERROR_OF_MEAN|9.8|<|0.0001|TWO_SIDED|90.0|91.79|102.32|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUCinfpred \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||102.32|91.79|<.0001
82391527|NCT00771264|164494045|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-values \<0.05 were considered statistically significant.|t-test, 2 sided|Mean values were analyzed for significant change using a 2-sided paired t-test and proportions were analyzed using chi-square methodology.||Mean values were analyzed for significant change using a 2-sided paired t test and proportions were analyzed using chi-square methodology. Median values were analyzed using a Wilcoxon signed rank test with p\<0.05 considered statistically significant. A sample size estimate of 214 subjects, 107 per arm, was calculated using a 2-sided Fisher's exact binomial test based on an estimated 60% responder rate in the PTNS group and a 40% in the sham group with a 5% significance level and 80% power.||||0.05
82391528|NCT04542499|164494048|SUPERIORITY||LS Mean of Difference|1.103|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|0.553|1.653||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||||1.653|0.553|<0.0001
82391529|NCT04542499|164494049|SUPERIORITY||LS Mean of Difference|-0.943|STANDARD_ERROR_OF_MEAN|0.271||0.0006|TWO_SIDED|95.0|-1.475|-0.41||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||||-0.410|-1.475|0.0006
82391530|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.188||0.2216|TWO_SIDED|95.0|-0.6|0.139||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 2||0.139|-0.600|0.2216
82642251|NCT04633434|164999717|EQUIVALENCE|Test of whether pretest to posttest score change is greater than zero.|Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.308||0.052|TWO_SIDED||||||t-test, 2 sided|||||||.052
82642252|NCT04633434|164999718|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.41||0.135|TWO_SIDED||||||t-test, 2 sided|||||||.135
82362139|NCT01844531|164435613|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.0|STANDARD_ERROR_OF_MEAN|8.5||0|TWO_SIDED|90.0|93.53|102.686|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||102.686|93.530|0.0000
82362140|NCT01844531|164435613|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|98.07|STANDARD_ERROR_OF_MEAN|8.5|<|0.0001|TWO_SIDED|90.0|93.55|102.81|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||102.81|93.55|<.0001
82362141|NCT01844531|164435613|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.77|STANDARD_ERROR_OF_MEAN|6.5||0|TWO_SIDED|90.0|99.146|106.522|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.522|99.146|0.0000
82574885|NCT01606319|164859226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5|TWO_SIDED|95.0|-0.039|0.0019|||ANCOVA|||||.0019|-0.039|0.5
82574886|NCT01606319|164859227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.69|TWO_SIDED|95.0|-0.9|0.6|||ANCOVA|||||0.6|-0.9|0.69
82574887|NCT01606319|164859228|SUPERIORITY_OR_OTHER||relative rate|0.99||||0.94|TWO_SIDED|95.0|0.72|1.37|||log-linear model|log-linear model in which the number of exacerbations was assumed to follow a negative binomial distribution|relative rate with acetaminophen in the numerator and ibuprofen in the denominator|||1.37|0.72|.94
82574888|NCT02701062|164859236|SUPERIORITY|||||||0.2593|||||||Fisher Exact|||||||0.2593
82574889|NCT02701062|164859237|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82574890|NCT02701062|164859238|SUPERIORITY|||||||0.1238|||||||Fisher Exact|||||||0.1238
82642253|NCT04633434|164999719|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|4.24|STANDARD_ERROR_OF_MEAN|7.14||0.026|TWO_SIDED||||||t-test, 2 sided|||||||.026
82391531|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.099|STANDARD_ERROR_OF_MEAN|0.211||0.6379|TWO_SIDED|95.0|-0.316|0.515||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 5||0.515|-0.316|0.6379
82391532|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.582|STANDARD_ERROR_OF_MEAN|0.234||0.0132|TWO_SIDED|95.0|0.122|1.042||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 8||1.042|0.122|0.0132
82391533|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.358|STANDARD_ERROR_OF_MEAN|0.236||0.1299|TWO_SIDED|95.0|-0.106|0.821||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 11||0.821|-0.106|0.1299
82391534|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.698|STANDARD_ERROR_OF_MEAN|0.257||0.0068|TWO_SIDED|95.0|0.194|1.202||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 14||1.202|0.194|0.0068
82574891|NCT02701062|164859239|SUPERIORITY|||||||0.6603|||||||t-test, 2 sided|||LOS (Total)||||0.6603
82574892|NCT02701062|164859239|SUPERIORITY|||||||0.0783|||||||t-test, 2 sided|||LOS (Post-Procedure)||||0.0783
82574893|NCT02701062|164859239|SUPERIORITY|||||||0.4282|||||||t-test, 2 sided|||Readmission LOS (per subject)||||0.4282
82574894|NCT02701062|164859240|SUPERIORITY|||||||0.6603|||||||t-test, 2 sided|||||||0.6603
82574895|NCT02701062|164859240|SUPERIORITY|||||||0.0783|||||||t-test, 2 sided|||LOS (Post-Procedure)||||0.0783
82642254|NCT04633434|164999720|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82574896|NCT02701062|164859240|SUPERIORITY|||||||0.4282|||||||t-test, 2 sided|||Readmission LOS (per subject)||||0.4282
82574897|NCT02701062|164859241|SUPERIORITY|||||||0.5442|||||||Fisher Exact|||Reoperation||||0.5442
82574898|NCT02701062|164859241|SUPERIORITY|||||||0.2598|||||||Fisher Exact|||ED Visit||||0.2598
82574899|NCT02701062|164859241|SUPERIORITY|||||||0.5442|||||||Fisher Exact|||Neurologic Consult||||0.5442
82574900|NCT02701062|164859241|SUPERIORITY|||||||0.2921|||||||Fisher Exact|||Hospital Readmission (per subject)||||0.2921
82574901|NCT02179177|164859253|OTHER||Mean Difference (Net)|1.0||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
82574902|NCT02349152|164859270|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha= 0.05) between the groups. A total of 116 patients were recruited to allow for dropouts.|Risk Ratio (RR)|1.9||||0.001|TWO_SIDED|95.0|1.3|3.0|||Chi-squared|||The null hypothesis that there was no difference in the percentage of patients with two or more blood glucose values greater than 180mg/dl between the two groups. Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%.||3.0|1.3|0.001
82574903|NCT02349152|164859271|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.004|||||||t-test, 2 sided|||||||0.004
82444210|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.49||||95.0|-2.3|-0.4|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 1||-0.4|-2.3|
82362142|NCT01844531|164435613|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.49|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|90.0|98.85|106.25|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[nmol\*h/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||106.25|98.85|<.0001
82362143|NCT01844531|164435614|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|104.61|STANDARD_ERROR_OF_MEAN|8.4||0|TWO_SIDED|90.0|99.882|109.555|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||109.555|99.882|0.0000
82362144|NCT01844531|164435614|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|104.53|STANDARD_ERROR_OF_MEAN|8.4|<|0.0001|TWO_SIDED|90.0|99.76|109.53|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||109.53|99.76|<.0001
82362145|NCT01844531|164435614|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.96|STANDARD_ERROR_OF_MEAN|9.2||0|TWO_SIDED|90.0|97.917|108.258|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||108.258|97.917|0.0000
82362146|NCT01844531|164435614|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|102.8|STANDARD_ERROR_OF_MEAN|9.2|<|0.0001|TWO_SIDED|90.0|97.72|108.14|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[nmol/L\] for EMPAGLIFLOZIN (PLASMA EDTA)||108.14|97.72|<.0001
82362147|NCT01844531|164435615|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|94.76|STANDARD_ERROR_OF_MEAN|11.4||0.0001|TWO_SIDED|90.0|89.056|100.819|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.819|89.056|0.0001
82362148|NCT01844531|164435615|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|94.4|STANDARD_ERROR_OF_MEAN|11.4||0.0001|TWO_SIDED|90.0|88.64|100.54|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.54|88.64|0.0001
82362149|NCT01844531|164435615|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|93.83|STANDARD_ERROR_OF_MEAN|11.9||0.0002|TWO_SIDED|90.0|88.006|100.034|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.034|88.006|0.0002
82362150|NCT01844531|164435615|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|93.98|STANDARD_ERROR_OF_MEAN|12.0||0.0003|TWO_SIDED|90.0|87.94|100.43|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set Cmax \[ng/mL\] for METFORMIN (PLASMA EDTA)||100.43|87.94|0.0003
82362151|NCT01844531|164435616|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|95.78|STANDARD_ERROR_OF_MEAN|15.7||0.0008|TWO_SIDED|90.0|88.0|104.256|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||104.256|88.000|0.0008
82362152|NCT01844531|164435616|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.74|STANDARD_ERROR_OF_MEAN|15.5||0.0006|TWO_SIDED|90.0|88.78|105.41|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa12.5 : Empa12.5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||105.41|88.78|0.0006
82362153|NCT01844531|164435616|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|95.94|STANDARD_ERROR_OF_MEAN|9.3||0|TWO_SIDED|90.0|91.199|100.934|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||100.934|91.199|0.0000
82362154|NCT01844531|164435616|SUPERIORITY_OR_OTHER||Adjusted gMean ratio FDC/single tablets|96.1|STANDARD_ERROR_OF_MEAN|9.3|<|0.0001|TWO_SIDED|90.0|91.28|101.19|||ANOVA||\*Results reported as Standard Error of the mean are Intra-individual geometric coefficient of variation \[%\].|Adjusted by-treatment geometric means and relative bioavailability - analysis with fixed effects for all terms comparison FDC Empa5 : Empa5 + Met500, PK set AUClast \[ng\*h/mL\] for METFORMIN (PLASMA EDTA)||101.19|91.28|<.0001
82444211|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.59||||95.0|-2.2|0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 2||0.1|-2.2|
82444212|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.62||||95.0|-2.7|-0.2|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 3||-0.2|-2.7|
82574904|NCT02349152|164859272|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG\>180 mg/dl) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha= 0.05) between the groups. A total of 116 patients were recruited to allow for dropouts.||||||0.01|||||||Fisher Exact|||||||0.01
82574905|NCT02349152|164859273|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.0001|||||||t-test, 2 sided|||Mean Intraoperative Blood Glucose||||0.0001
82574906|NCT02349152|164859273|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.0003|||||||t-test, 2 sided|||Peak Intraoperative Blood Glucose||||0.0003
82574907|NCT02349152|164859273|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.98|||||||t-test, 2 sided|||Lowest Intraoperative Blood Glucose||||0.98
82574908|NCT02349152|164859274|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.14|||||||t-test, 2 sided|||Mean post-operative glucose||||0.14
82574909|NCT02349152|164859274|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.25|||||||t-test, 2 sided|||Peak Postoperative Blood Glucose||||0.25
82574910|NCT02349152|164859275|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.49|||||||t-test, 2 sided|||||||0.49
82574911|NCT02349152|164859277|SUPERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.401|||||||t-test, 2 sided|||Prebypass||||0.401
82574912|NCT02349152|164859277|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||30 minutes after the start of CPB||||<0.0001
82642255|NCT04633434|164999721|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82642256|NCT04633434|164999722|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|0.54||0.057|TWO_SIDED||||||t-test, 2 sided|||||||.057
82362155|NCT00418522|164435626|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test utilized a one-sided 2.5% level of significance.|Mean Difference (Final Values)|-0.19|||<|0.0001||95.0|-0.38|0.0|||ANCOVA||A confidence interval (CI) approach was presented with a two-sided 95% CI of the difference between treatment and control.|The null hypothesis was that the inhaled human insulin group was inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, while the alternate hypothesis is that the inhaled human insulin group was not inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, given the predetermined non-inferiority margin of 0.4%.||0|-0.38|<0.0001
82391535|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.969|STANDARD_ERROR_OF_MEAN|0.254||0.0002|TWO_SIDED|95.0|0.469|1.469||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 18||1.469|0.469|0.0002
82362156|NCT00418522|164435626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0516||95.0|-0.38|0.0|||ANCOVA||The superiority test used a one-sided 2.5% level of significance.|With an established non-inferiority claim, an additional test for superiority was conducted (ie, the margin was 0.0%).||0|-0.38|0.0516
82362157|NCT00418522|164435627|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.0052||95.0|1.22|3.14|||Regression, Logistic|||||3.14|1.22|0.0052
82362158|NCT00418522|164435628|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0022||95.0|1.29|3.15|||Regression, Logistic|||||3.15|1.29|0.0022
82362159|NCT00418522|164435629|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.248||95.0|0.4|1.27|||Regression, Logistic|||||1.27|0.40|0.2480
82448832|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-10 minutes||||<0.001
82642257|NCT04633434|164999723|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82362160|NCT00418522|164435630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.57||||0.6091||95.0|-7.31|12.46|||ANCOVA|||||12.46|-7.31|0.6091
82444213|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.64||||95.0|-2.6|-0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 4||-0.1|-2.6|
82444214|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.68||||95.0|-2.1|0.5|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 5||0.5|-2.1|
82362161|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.96|||<|0.0001||95.0|22.66|43.25|||ANCOVA|||Time 0 (fasting) at Week 26.||43.25|22.66|<0.0001
82362162|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||<|0.0001||95.0|16.55|40.59|||ANCOVA|||Time 30 at Week 26.||40.59|16.55|<0.0001
82391536|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|0.879|STANDARD_ERROR_OF_MEAN|0.259||0.0008|TWO_SIDED|95.0|0.369|1.389||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 22||1.389|0.369|0.0008
82391537|NCT04542499|164494050|SUPERIORITY||LS Mean of Difference|1.103|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|0.553|1.653||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.653|0.553|<0.0001
82391538|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|0.108|STANDARD_ERROR_OF_MEAN|0.18||0.5471|TWO_SIDED|95.0|-0.245|0.461||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 2||0.461|-0.245|0.5471
82391539|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.237|STANDARD_ERROR_OF_MEAN|0.205||0.2488|TWO_SIDED|95.0|-0.64|0.166||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 5||0.166|-0.640|0.2488
82391540|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.818|STANDARD_ERROR_OF_MEAN|0.221||0.0002|TWO_SIDED|95.0|-1.252|-0.384||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 8||-0.384|-1.252|0.0002
82391541|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.753|STANDARD_ERROR_OF_MEAN|0.227||0.001|TWO_SIDED|95.0|-1.199|-0.307||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 11||-0.307|-1.199|0.0010
82391542|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.904|STANDARD_ERROR_OF_MEAN|0.254||0.0004|TWO_SIDED|95.0|-1.403|-0.405||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 14||-0.405|-1.403|0.0004
82362163|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.96||||0.0044||95.0|5.96|31.96|||ANCOVA|||Time 60 at Week 26.||31.96|5.96|0.0044
82362164|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.69||||0.3168||95.0|-6.45|19.83|||ANCOVA|||Time 90 at Week 26.||19.83|-6.45|0.3168
82362165|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.9222||95.0|-12.12|13.39|||ANCOVA|||Time 120 at Week 26.||13.39|-12.12|0.9222
82362166|NCT00418522|164435631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41||||0.695||95.0|-14.51|9.69|||ANCOVA|||Time 180 at Week 26.||9.69|-14.51|0.6950
82362167|NCT00418522|164435632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.61||||0.1207||95.0|-21.76|2.54|||ANCOVA|||Post-Breakfast, Week 26.||2.54|-21.76|0.1207
82362168|NCT00418522|164435632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.11|||<|0.0001||95.0|-39.77|-18.44|||ANCOVA|||Post-Lunch, Week 26.||-18.44|-39.77|<0.0001
82362169|NCT00418522|164435632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.76|||<|0.0001||95.0|-44.17|-23.35|||ANCOVA|||Post-Dinner, Week 26.||-23.35|-44.17|<0.0001
82391543|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-1.024|STANDARD_ERROR_OF_MEAN|0.256|<|0.0001|TWO_SIDED|95.0|-1.528|-0.52||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 18||-0.520|-1.528|<0.0001
82391544|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.979|STANDARD_ERROR_OF_MEAN|0.261||0.0002|TWO_SIDED|95.0|-1.493|-0.465||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 22||-0.465|-1.493|0.0002
82444215|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.67||||95.0|-2.5|0.1|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 6||0.1|-2.5|
82444216|NCT00413010|164597012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.77||||95.0|-2.9|0.2|||Mixed Models Analysis|Treatment (tx) adjusted, pooled center baseline HAM-A total score,time,and tx-by time. Degrees of freedom adjusted using Satterthwaite approximation|Difference reflects pregabalin minus placebo.|Week 8||0.2|-2.9|
82448833|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 10-180 minutes||||<0.001
82362170|NCT00418522|164435633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21||||0.0735||95.0|-0.5|10.91|||ANCOVA|||Total Cholesterol at Week 26.||10.91|-0.50|0.0735
82362171|NCT00418522|164435633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.0017||95.0|0.79|3.39|||ANCOVA|||HDL-c at Week 26.||3.39|0.79|0.0017
82362172|NCT00418522|164435633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43||||0.1369||95.0|-1.1|7.96|||ANCOVA|||LDL-c at Week 26.||7.96|-1.10|0.1369
82362173|NCT00418522|164435633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26||||0.5684||95.0|-10.4|18.92|||ANCOVA|||Triglycerides at Week 26.||18.92|-10.40|0.5684
82574913|NCT02349152|164859277|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||End of CPB||||<0.0001
82574914|NCT02349152|164859277|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||End of Surgery||||<0.0001
82574915|NCT02349152|164859277|NON_INFERIORITY|Power calculation was performed based on the assumption that continuous remifentanil infusion would reduce the percentage of patients with unacceptable blood glucose values (more than one BG \> 180 mg) to an absolute value of 20%. Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.021|||||||t-test, 2 sided|||Postoperative (8 hours)||||0.021
82574916|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.58|||||||t-test, 2 sided|||Analyzing the IL-1b Pre bypass||||0.580
82574917|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.815|||||||t-test, 2 sided|||Analyzing the IL-1b CPB-30||||0.815
82574918|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.715|||||||t-test, 2 sided|||Analyzing the CPB-END||||0.715
82574919|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.33|||||||t-test, 2 sided|||Analyzing the IL-1b post-bypass||||0.330
82574920|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.651|||||||t-test, 2 sided|||Analyzing the IL-1b 8 HR||||0.651
82574921|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.439|||||||t-test, 2 sided|||Analyzing the IL-6 Pre bypass||||0.439
82574922|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.284|||||||t-test, 2 sided|||Analyzing the IL-6 CPB-30||||0.284
82362174|NCT00418522|164435634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.5673||95.0|-0.58|1.06|||ANCOVA|||hs-CRP at Week 26.||1.06|-0.58|0.5673
82362175|NCT00418522|164435634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.6099||95.0|-2.97|1.75|||ANCOVA|||Leptin at Week 26.||1.75|-2.97|0.6099
82448834|NCT01128192|164604969|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Two sided P value.|ANOVA|||Pre and Post treatment Area Under the Curve (AUC) 0-180 minutes||||<0.001
82574923|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.779|||||||t-test, 2 sided|||Analyzing the CPB-END||||0.779
82574924|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.274|||||||t-test, 2 sided|||Analyzing the IL-6 post-bypass||||0.274
82574925|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.601|||||||t-test, 2 sided|||Analyzing the IL-6 8HR||||0.601
82574926|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.315|||||||t-test, 2 sided|||Analyzing the TNFa Pre-bypass||||0.315
82574927|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.062|||||||t-test, 2 sided|||Analyzing the TNFa CPB-30||||0.062
82574928|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.09|||||||t-test, 2 sided|||Analyzing the TNFa CPB-END||||0.090
82642258|NCT04633434|164999724|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.1||0.352|TWO_SIDED||||||t-test, 2 sided|||||||.352
82642259|NCT04633434|164999725|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.13||0.104|TWO_SIDED||||||t-test, 2 sided|||||||.104
82574929|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.004|||||||t-test, 2 sided|||Analyzing the TNFa- post-bypass||||0.004
82362176|NCT00418522|164435634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.28||||0.7684||95.0|-12.94|17.51|||ANCOVA|||Spot urine microalbumin at Week 26.||17.51|-12.94|0.7684
82362177|NCT00418522|164435635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.5005||95.0|-0.69|1.42|||ANCOVA|||Adiponectin at Week 26.||1.42|-0.69|0.5005
82362178|NCT00418522|164435635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.685||95.0|-0.03|0.04|||ANCOVA|||ApoB at Week 26.||0.04|-0.03|0.6850
82362179|NCT00418522|164435636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.7||||0.1856||95.0|-43.37|160.77|||ANCOVA|||||160.77|-43.37|0.1856
82362180|NCT00418522|164435637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.72||||0.1862||95.0|-51.34|13.89|||ANCOVA|||||13.89|-51.34|0.1862
82362181|NCT00418522|164435643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.0055||95.0|0.35|2.04|||ANCOVA|||||2.04|0.35|0.0055
82362182|NCT00418522|164435644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.0053||95.0|0.12|0.71|||ANCOVA|||||0.71|0.12|0.0053
82362183|NCT00418522|164435646|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test utilized a one-sided 2.5% level of significance.|Mean Difference (Final Values)|-0.27|||<|0.0001||95.0|-0.47|-0.08|||ANCOVA||A CI approach was presented with a two-sided 95% CI of the difference between treatment and control.|The null hypothesis was that the inhaled human insulin group was inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, while the alternate hypothesis is that the inhaled human insulin group was not inferior to the insulin glargine group with respect to 26-week change from baseline in HbA1c, given the predetermined non-inferiority margin of 0.4%.||-0.08|-0.47|<0.0001
82527473|NCT03502616|164751404|SUPERIORITY||LS mean difference|1.87|STANDARD_ERROR_OF_MEAN|0.621||0.0028|TWO_SIDED|95.0|0.65|3.09|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||3.09|0.65|0.0028
82527474|NCT03502616|164751404|SUPERIORITY||LS mean difference|0.97|STANDARD_ERROR_OF_MEAN|0.638||0.1289|TWO_SIDED|95.0|-0.28|2.23|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.23|-0.28|0.1289
82527475|NCT03502616|164751404|SUPERIORITY||LS mean difference|0.45|STANDARD_ERROR_OF_MEAN|0.616||0.4698|TWO_SIDED|95.0|-0.77|1.66|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.66|-0.77|0.4698
82527476|NCT03502616|164751404|SUPERIORITY||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.603||0.0616|TWO_SIDED|95.0|-0.06|2.32|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.32|-0.06|0.0616
82527477|NCT03502616|164751404|SUPERIORITY||LS mean difference|1.37|STANDARD_ERROR_OF_MEAN|0.681||0.0455|TWO_SIDED|95.0|0.03|2.71|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.71|0.03|0.0455
82527478|NCT03502616|164751405|SUPERIORITY||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.185|<|0.0001|TWO_SIDED|95.0|-1.25|-0.52|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.52|-1.25|<0.0001
82527479|NCT03502616|164751405|SUPERIORITY||LS mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.215|<|0.0001|TWO_SIDED|95.0|-1.65|-0.8|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.80|-1.65|<0.0001
82527480|NCT03502616|164751405|SUPERIORITY||LS mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.232|<|0.0001|TWO_SIDED|95.0|-2.17|-1.26|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.26|-2.17|<0.0001
82527481|NCT03502616|164751405|SUPERIORITY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.247|<|0.0001|TWO_SIDED|95.0|-2.2|-1.23|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.23|-2.20|<0.0001
82527482|NCT03502616|164751405|SUPERIORITY||LS mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.07|-1.05|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.05|-2.07|<0.0001
82527483|NCT03502616|164751405|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.281||0.0483|TWO_SIDED|95.0|-1.11|0.0|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-1.11|0.0483
82527484|NCT03502616|164751405|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.286||0.0357|TWO_SIDED|95.0|-1.17|-0.04|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.04|-1.17|0.0357
82574930|NCT02349152|164859278|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.074|||||||t-test, 2 sided|||Analyzing the TNFa-8HR||||0.074
82574931|NCT02349152|164859279|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.74|||||||t-test, 2 sided|||Analyzing the ACTH Pre-bypass group||||0.740
82574932|NCT02349152|164859279|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH CPB-30 group.||||<0.0001
82574933|NCT02349152|164859279|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH CPB-END||||<0.0001
82574934|NCT02349152|164859279|NON_INFERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||Analyzing the ACTH post-bypass||||<0.0001
82574935|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.014|||||||t-test, 2 sided|||Analyzing the ACTH 8-hr||||0.014
82574936|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.1|||||||t-test, 2 sided|||Analyzing the GH- Pre-bypass||||0.100
82574937|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.|||||<|0.0001|||||||t-test, 2 sided|||GH-CPB-30||||<0.0001
82574938|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.009|||||||t-test, 2 sided|||Analyzing the GH-CPB-END||||0.009
82574939|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.046|||||||t-test, 2 sided|||GH-Post-bypass||||0.046
82574940|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.695|||||||t-test, 2 sided|||Analyzing the GH-8-hr||||0.695
82574941|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.455|||||||t-test, 2 sided|||Analyzing the Glucagon Pre Bypass||||0.455
82574942|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.059|||||||t-test, 2 sided|||Analyzing the Glucagon CPB-30||||0.059
82574943|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.175|||||||t-test, 2 sided|||Analyzing the Glucagon CPB-END||||0.175
82574944|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.062|||||||t-test, 2 sided|||Analyzing the Glucagon Post-bypass||||0.062
82391545|NCT04542499|164494051|SUPERIORITY||LS Mean of Difference|-0.943|STANDARD_ERROR_OF_MEAN|0.271||0.0006|TWO_SIDED|95.0|-1.475|-0.41||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.410|-1.475|0.0006
82448835|NCT01128192|164604970|SUPERIORITY_OR_OTHER|||||||0.608|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Basal EGP||||0.608
82574945|NCT02349152|164859279|SUPERIORITY|Under these conditions, 52 patients per group would have 90% power to detect a significant difference (alpha = .05) between the groups. A total of 116 patients were recruited to allow dropouts.||||||0.261|||||||t-test, 2 sided|||Analyzing the Glucagon 8-hr||||0.261
82574946|NCT02349152|164859280|SUPERIORITY|||||||0.06|||||||Chi-squared|||30-day mortality||||0.06
82574947|NCT02349152|164859280|SUPERIORITY|||||||0.03|||||||Chi-squared|||30-day readmission||||0.03
82574948|NCT02349152|164859280|SUPERIORITY|||||||0.24|||||||Chi-squared|||Cerebral Vascular Accident||||0.24
82574949|NCT02349152|164859280|SUPERIORITY|||||||0.93|||||||Chi-squared|||Prolonged Mechanical Ventilation||||0.93
82574950|NCT02349152|164859280|SUPERIORITY|||||||1|||||||Chi-squared|||Renal Failure||||1
82574951|NCT02349152|164859280|SUPERIORITY|||||||0.1|||||||Chi-squared|||Atrial Fibrillation||||0.10
82574952|NCT02349152|164859280|SUPERIORITY|||||||1|||||||Chi-squared|||cardiac arrest||||1
82574953|NCT02349152|164859281|SUPERIORITY|||||||0.205|||||||t-test, 2 sided|||Hrs 0-6||||0.205
82574954|NCT02349152|164859281|SUPERIORITY|||||||0.339|||||||t-test, 2 sided|||Hrs 7-12||||0.339
82574955|NCT02349152|164859281|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Hrs 13-18||||0.006
82574956|NCT02349152|164859281|SUPERIORITY|||||||0.747|||||||t-test, 2 sided|||Hrs 19-24||||0.747
82574957|NCT02349152|164859281|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Hrs 25-30||||0.568
82574958|NCT02349152|164859281|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||Hrs 31-36||||0.924
82574959|NCT02349152|164859281|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||Hrs 37-42||||0.501
82574960|NCT02349152|164859281|SUPERIORITY|||||||0.977|||||||t-test, 2 sided|||Hrs 43-48||||0.977
82574961|NCT02349152|164859285|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.350
82574962|NCT01634269|164859328|SUPERIORITY_OR_OTHER_LEGACY||Proportion of IF implanted subjects|87.5||||0.002|TWO_SIDED|95.0|61.7|98.4|||Exact binomial|||||98.4|61.7|0.002
82527485|NCT03502616|164751405|SUPERIORITY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.278||0.0508|TWO_SIDED|95.0|-1.09|0.0|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.00|-1.09|0.0508
82527486|NCT03502616|164751405|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.282||0.0614|TWO_SIDED|95.0|-1.08|0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.03|-1.08|0.0614
82574963|NCT04052425|164859373|SUPERIORITY||Odds Ratio (OR)|5.28|||<|0.0001|TWO_SIDED|95.0|2.341|11.903||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||11.903|2.341|< 0.0001
82574964|NCT04052425|164859374|SUPERIORITY||Odds Ratio (OR)|5.18|||<|0.0001|TWO_SIDED|95.0|2.831|9.482||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.482|2.831|< 0.0001
82574965|NCT04052425|164859375|SUPERIORITY||Odds Ratio (OR)|8.49||||0.0038|TWO_SIDED|95.0|1.997|36.048||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||36.048|1.997|0.0038
82574966|NCT04052425|164859376|SUPERIORITY||Odds Ratio (OR)|4.93||||0.002|TWO_SIDED|95.0|1.795|13.566||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||13.566|1.795|0.0020
82574967|NCT04052425|164859377|SUPERIORITY||Odds Ratio (OR)|9.53||||0.0002|TWO_SIDED|95.0|2.9|31.29||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||31.290|2.900|0.0002
82574968|NCT04052425|164859378|SUPERIORITY||least squares mean difference|-19.3|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-27.05|-11.64||Response Variable = Treatment + Stratification Factors (Skin Type Fitzpatrick scale Type I, II versus Type III, IV, V, and VI, Region North America/Europe) + Baseline|ANCOVA|||||-11.64|-27.05|< 0.0001
82574969|NCT04052425|164859381|SUPERIORITY||Odds Ratio (OR)|5.56|||<|0.0001|TWO_SIDED|95.0|3.226|9.578||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.578|3.226|< 0.0001
82574970|NCT04052425|164859383|SUPERIORITY||least squares mean difference|-30.61|STANDARD_ERROR_OF_MEAN|4.28|<|0.0001|TWO_SIDED|95.0|-39.03|-22.19|||mixed-effect model; repeated measurement|||||-22.19|-39.03|<0.0001
82574971|NCT04052425|164859386|SUPERIORITY||least squares mean difference|-16.98|STANDARD_ERROR_OF_MEAN|3.2|<|0.0001|TWO_SIDED|95.0|-23.28|-10.68|||mixed-effect model; repeated measurement|||||-10.68|-23.28|<0.0001
82574972|NCT04052425|164859388|SUPERIORITY||least squares mean difference|-9.07|STANDARD_ERROR_OF_MEAN|2.49||0.0003|TWO_SIDED|95.0|-13.96|-4.18|||mixed-effect model; repeated measurement|||||-4.18|-13.96|0.0003
82362184|NCT00418522|164435646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0062||95.0|-0.47|-0.08|||ANCOVA||The superiority test used a one-sided 2.5% level of significance.|With an established non-inferiority claim, an additional test for superiority was conducted (ie, the margin was 0.0%).||-0.08|-0.47|0.0062
82362185|NCT01652729|164435647|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.2167||0.001|TWO_SIDED|95.0|-1.15|-0.3|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.30|-1.15|0.0010
82362186|NCT01652729|164435647|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1638||0.0209|TWO_SIDED|95.0|-0.7|-0.06|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.06|-0.70|0.0209
82362187|NCT01652729|164435647|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2278||0.1347|TWO_SIDED|95.0|-0.79|0.11|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||0.11|-0.79|0.1347
82362188|NCT01652729|164435648|SUPERIORITY_OR_OTHER|||||||0.0489|||||||Cochran-Mantel-Haenszel|||Percentage of Subjects Achieving HbA1c \<7% at Week 28.||||0.0489
82574973|NCT04052425|164859390|SUPERIORITY||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.746|5.307||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI25||5.307|1.746|< 0.0001
82574974|NCT04052425|164859390|SUPERIORITY||Odds Ratio (OR)|2.3||||0.2921|TWO_SIDED|95.0|0.489|10.823||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI75||10.823|0.489|0.2921
82574975|NCT04052425|164859390|SUPERIORITY||Odds Ratio (OR)|0.49||||||||||The p value was not evaluable because the response rate in the vehicle group was too low.||||T-VASI90||||
82574976|NCT04052425|164859393|SUPERIORITY||least squares mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.48||0.497|TWO_SIDED|95.0|-1.26|0.62|||mixed-effect model; repeated measurement|||||0.62|-1.26|0.4970
82574977|NCT01677299|164859408|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-22.5|||<|0.05|TWO_SIDED|95.0|-37.0|-8.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment A.||||-8|-37|<0.05
82574978|NCT01677299|164859408|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-20.0|||<|0.05|TWO_SIDED|95.0|-30.0|-9.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment B.||||-9|-30|<0.05
82574979|NCT01677299|164859408|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-16.0|||<|0.05|TWO_SIDED|95.0|-24.0|-8.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment C.||||-8|-24|<0.05
82574980|NCT01677299|164859408|SUPERIORITY_OR_OTHER||LS mean diff (Day 5 - Baseline)|-21.0|||<|0.05|TWO_SIDED|95.0|-31.0|-11.0|||Mixed Models Analysis|Change in fasting plasma glucose from Baseline to Day 5 (end of treatment) for treatment D.||||-11|-31|<0.05
82574981|NCT01677299|164859409|SUPERIORITY_OR_OTHER||Geometric LS mean ration|1.6|||<|0.05|TWO_SIDED|95.0|1.4|1.9|||Mixed Models Analysis|||||1.9|1.4|<0.05
82574982|NCT01677299|164859409|SUPERIORITY_OR_OTHER||Geo LSmean ratio of (Day 5/Baseline)|1.9|||<|0.05|TWO_SIDED|95.0|1.5|2.3|||Mixed Models Analysis|||||2.3|1.5|<0.05
82527487|NCT03502616|164751406|SUPERIORITY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.186|<|0.0001|TWO_SIDED|95.0|-1.26|-0.53|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.53|-1.26|<0.0001
82642260|NCT04633434|164999728|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.19||0.106|TWO_SIDED||||||t-test, 2 sided|||||||.106
82574983|NCT01677299|164859409|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.7|||<|0.05|TWO_SIDED|95.0|1.4|2.0|||Mixed Models Analysis|||||2.0|1.4|<0.05
82574984|NCT01677299|164859409|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.9|||<|0.05|TWO_SIDED|95.0|1.5|2.3|||Mixed Models Analysis|||||2.3|1.5|<0.05
82574985|NCT01677299|164859410|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.4|1.8|||Mixed Models Analysis|||||1.8|1.4|<0.05
82574986|NCT01677299|164859410|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.4|||<|0.05|TWO_SIDED|95.0|1.2|1.6|||Mixed Models Analysis|||||1.6|1.2|<0.05
82574987|NCT01677299|164859410|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.3|1.6|||Mixed Models Analysis|||||1.6|1.3|<0.05
82574988|NCT01677299|164859410|SUPERIORITY_OR_OTHER||Geo LSmean ratio (Day 5/Baseline)|1.5|||<|0.05|TWO_SIDED|95.0|1.4|1.6|||Mixed Models Analysis|||||1.6|1.4|<0.05
82362189|NCT01652729|164435648|SUPERIORITY_OR_OTHER|||||||0.0103|||||||Cochran-Mantel-Haenszel|||Percentage of Subjects Achieving HbA1c \<7% at Week 28.||||0.0103
82527488|NCT03502616|164751406|SUPERIORITY||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.75|-0.92|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.92|-1.75|<0.0001
82362190|NCT01652729|164435649|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|5.96||0.0924|TWO_SIDED|95.0|-21.8|1.7|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||1.7|-21.8|0.0924
82527489|NCT03502616|164751406|SUPERIORITY||LS mean difference|-1.98|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-2.41|-1.54|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.54|-2.41|<0.0001
82527490|NCT03502616|164751406|SUPERIORITY||LS mean difference|-1.89|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|-2.37|-1.4|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.40|-2.37|<0.0001
82574989|NCT01210651|164859451|SUPERIORITY_OR_OTHER|||||||0.034||||||Analysis performed via Stata v14.1. Alpha was 2-tailed. P-value was calculated, with p-value \< 0.05 required a priori to reject the null hypothesis.|Regression, Generalized Least Squares|||A random-effects, generalized least squares (GLS) regression model for depression severity was used to analyze participant BDI scores measured just before 1st assigned session at 0 wks, and just after assigned sessions at 2 wks, 4 wks, 6 wks and 8 wks. BDI Scores were modeled as correlated within participants but independent between participants. The GLS regression model tested the null hypothesis that no significant effects on BDI scores would be found by intervention and intervention-by-time.||||0.034
82574990|NCT01210651|164859452|SUPERIORITY_OR_OTHER|||||||0.02||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on BDI, using two sample t-test to evaluate the null hypothesis that the Total Change Score on BDI for each intervention group would be statistically comparable.||||0.02
82574991|NCT01210651|164859453|SUPERIORITY_OR_OTHER|||||||0.018||||||Analysis performed via Stata v14.1. Alpha was 2-tailed. P-value was calculated, with a p-value \< 0.05 required a priori to reject the null hypothesis.|Fisher Exact|||Fisher's Exact test evaluated null hypothesis that the proportion of study completers with remitted depression would be statistically comparable in the 2 intervention groups.||||0.018
82642261|NCT04633434|164999729|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED||||||t-test, 2 sided|||||||.005
82642262|NCT04633434|164999730|EQUIVALENCE|Test of whether pretest to posttest change is significantly different from zero.|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|1.9||0.082|TWO_SIDED||||||t-test, 2 sided|||||||.082
82362191|NCT01652729|164435649|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.9|STANDARD_ERROR_OF_MEAN|8.037||0.0001|TWO_SIDED|95.0|-46.7|-15.1|||mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-15.1|-46.7|0.0001
82362192|NCT01652729|164435650|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.4058||0.8625|TWO_SIDED|95.0|-0.73|0.87||Nominal p-value|mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||0.87|-0.73|0.8625
82362193|NCT01652729|164435650|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.5419||0.0198|TWO_SIDED|95.0|-2.34|-0.2||Nominal p-value|mixed model for repeated measure|MMRM includes treatment, baseline HbA1c (\<9% or ≥9%), week of visit and treatment by visit interaction as fixed factors, and subject random effect.||||-0.20|-2.34|0.0198
82362194|NCT01652729|164435651|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.96|STANDARD_ERROR_OF_MEAN|15.71||0.0248|TWO_SIDED|95.0|-67.23|-4.68||Nominal p-value|general linear model|Includes treatment and baseline HbA1c (\< 9% or ≥ 9%) as fixed factors, and baseline 2-hour postprandial plasma glucose concentrations as a covariate.||||-4.68|-67.23|0.0248
82574992|NCT01210651|164859454|SUPERIORITY_OR_OTHER|||||||0.5||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on GSES, using an independent samples t-test to evaluate null hypothesis that Total Change Score on GSES for each intervention group would be statistically comparable.||||0.50
82362195|NCT01652729|164435651|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.89|STANDARD_ERROR_OF_MEAN|19.66||0.2914|TWO_SIDED|95.0|-60.02|18.25||Nominal p-value|general linear model|Includes treatment and baseline HbA1c (\< 9% or ≥ 9%) as fixed factors, and baseline 2-hour postprandial plasma glucose concentrations as a covariate.||||18.25|-60.02|0.2914
82362196|NCT00483548|164435652|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.36|STANDARD_ERROR_OF_MEAN|1.37||0.7921||95.0|-3.07|2.34||Due to planned interim analysis of primary endpoint, to control type I error at 2-sided alpha=0.05, a nominal 2-sided p-value ≤0.0476 needed at final analysis to reject the null hypothesis of no treatment effect.|ANCOVA Mixed-effects repeated-measures|No other adjustment made for multiple comparisons since all comparisons, except for single primary comparison, are considered secondary.|Mixed-effects repeated-measures (MMRM) analysis of covariance model: fixed categorical effects of treatment, country, mood stabilizer type, visit, treatment-by-visit interaction, fixed continuous effect of baseline value and subject as random effect.|N=141 per arm (282 total) needed for 85% power for 2-sided alpha=0.05 based on true mean difference=4.0 and standard deviation (SD)=11.0 for primary endpoint. Interim Analysis (IA) planned when 60% of subjects had completed study or discontinued prematurely to assess efficacy (nominal 2-sided p-value less than or equal to \[≤\] 0.0076) or futility (nominal 2-sided p-value greater than or equal to \[≥\] 0.5099).||2.34|-3.07|0.7921
82362197|NCT00483548|164435653|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.7223||95.0|-0.25|0.36|||ANCOVA Mixed-effects repeated-measures|||Week 6; MMRM analysis of covariance model with fixed categorical effects of treatment, country, type of mood stabilizer, visit, treatment-by-visit interaction, fixed continuous effect of baseline value and subject as random effect.||0.36|-0.25|0.7223
82448836|NCT01128192|164604970|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Basal EGP||||0.132
82574993|NCT01210651|164859455|SUPERIORITY_OR_OTHER|||||||0.053||||||Analysis performed via Stata v14.1, with P-value calculated using a t-distribution and assuming unequal variances in the two samples. Alpha was two-tailed. P-value \< 0.05 was required a priori to reject the null hypothesis.|t-test, 2 sided|||Statistical analysis examined Total Change Scores on RSES, using an independent samples t-test to evaluate null hypothesis that Total Change Score on RSES for each intervention group would be statistically comparable.||||0.053
82574994|NCT05101993|164859723|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82574995|NCT01124838|164859727|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.004|TWO_SIDED|95.0|0.39|0.84|||Log Rank|||The primary analysis of the primary endpoint was performed on Main Study data, excluding the Japanese sub-study. The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.||0.84|0.39|0.004
82574996|NCT01124838|164859727|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.37|0.74|||Log Rank|||An additional analysis of the primary endpoint was performed using the Integrated Study data (Main Study + Japan sub-study). The statistical test was performed at a 2-sided significance level of 0.05. The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.||0.74|0.37|<0.001
82574997|NCT01124838|164859728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.14||||0.218|TWO_SIDED|95.0|-0.37|0.08|||ANOVA|From ANOVA with treatment as factor adjusted for clustered observations (i.e., observations from each of the participant's eyes).|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.08|-0.37|0.218
82574998|NCT01124838|164859728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.15||||0.164|TWO_SIDED|95.0|-0.36|0.06|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.06|-0.36|0.164
82574999|NCT01124838|164859729|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.13||||0.07|TWO_SIDED|95.0|-0.28|0.01|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as factor|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.01|-0.28|0.070
82575000|NCT01124838|164859729|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.17||||0.016|TWO_SIDED|95.0|-0.31|-0.03|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||-0.03|-0.31|0.016
82575001|NCT01124838|164859730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.04||||0.096|TWO_SIDED|95.0|-0.08|0.01|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as factor adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.01|-0.08|0.096
82391546|NCT04542499|164494052|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3265|TWO_SIDED|95.0|-0.4|1.2||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part I||1.2|-0.4|0.3265
82391547|NCT04542499|164494052|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.52||0.0203|TWO_SIDED|95.0|-2.2|-0.2||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part II||-0.2|-2.2|0.0203
82391548|NCT04542499|164494052|SUPERIORITY||LS Mean of Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.96||0.0118|TWO_SIDED|95.0|-4.3|-0.5||LS Means, SE, difference from placebo, and confidence intervals are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, and treatment by visit interaction and baseline as a covariate.|Mixed-effect Model Repeated Measurement|||Part III||-0.5|-4.3|0.0118
82391549|NCT04488497|164494103|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
82391550|NCT04488497|164494104|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82391551|NCT04488497|164494105|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82391552|NCT04488497|164494106|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82391553|NCT04488497|164494107|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
82391554|NCT04488497|164494108|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
82391555|NCT04488497|164494109|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
82391556|NCT03408444|164494132|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.063|STANDARD_ERROR_OF_MEAN|0.0181|||TWO_SIDED|95.0|-0.106|-0.02|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.020|-0.106|
82448837|NCT01128192|164604971|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose % EGP Inhibition||||0.178
82527491|NCT03502616|164751406|SUPERIORITY||LS mean difference|-1.62|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|-2.1|-1.14|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.14|-2.10|<0.0001
82527492|NCT03502616|164751406|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.261||0.0492|TWO_SIDED|95.0|-1.03|0.0|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-1.03|0.0492
82527493|NCT03502616|164751406|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.266||0.2614|TWO_SIDED|95.0|-0.82|0.22|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.22|-0.82|0.2614
82527494|NCT03502616|164751406|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.272||0.0722|TWO_SIDED|95.0|-1.03|0.04|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.04|-1.03|0.0722
82527495|NCT03502616|164751406|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.275||0.0121|TWO_SIDED|95.0|-1.24|-0.15|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.15|-1.24|0.0121
82527496|NCT03502616|164751407|SUPERIORITY||LS mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.207|<|0.0001|TWO_SIDED|95.0|-1.33|-0.51|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.51|-1.33|<0.0001
82527497|NCT03502616|164751407|SUPERIORITY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.216|<|0.0001|TWO_SIDED|95.0|-2.02|-1.17|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.17|-2.02|<0.0001
82527498|NCT03502616|164751407|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-2.5|-1.54|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.54|-2.50|<0.0001
82527499|NCT03502616|164751407|SUPERIORITY||LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|-2.5|-1.5|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.50|-2.50|<0.0001
82642263|NCT00297882|164999750|NON_INFERIORITY|Non-inferiority of AQ-AS compared to AL was assessed by constructing a one-sided, lower limit asymptotic 97.5% CI on the difference of polymerase chain reaction (PCR)-corrected cure rates of AQ-AS when compared to AL. Non-inferiority was declared if the lower limit of the CI was greater than -10% for AQ-AS.|||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample Size will be determined by N = {\[(Zα/2)/E\]\*2}pq where Where: n=sample size; Zα/2= Z value of a two-tailed test with 95% confidence level=1.96; p represents cure rate, q=1-p, which represents treatment failure rate of; E=precision of 5%||||>0.05
82642264|NCT00297882|164999751|NON_INFERIORITY|Non-inferiority of AQ-AS compared to AL was assessed by constructing a one-sided, lower limit asymptotic 97.5% CI on the difference of polymerase chain reaction (PCR)-corrected cure rates of AQ-AS when compared to AL. Non-inferiority was declared if the lower limit of the CI was greater than -10% for AQ-AS.|||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample Size will be determined by N = {\[(Zα/2)/E\]\*2}pq where Where: n=sample size; Zα/2= Z value of a two-tailed test with 95% confidence level=1.96; p represents cure rate, q=1-p, which represents treatment failure rate of; E=precision of 5%||||>0.05
82642265|NCT03112720|164999754|OTHER||Odds Ratio (OR)|1.5|||<|0.01|TWO_SIDED||||||Chi-squared||||\< 0.01 study terminated because of covid and no meaningfull numbers participated|||<0.01
82642266|NCT03237325|164999827|SUPERIORITY|||||||0.1798|||||||Log Rank|||||||0.1798
82362198|NCT00483548|164435654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.846||||0.5029||95.0|0.52|1.38|||Regression, Logistic||Odds ratio measures the odds of achieving remission (MADRS total score ≤ 12) from ziprasidone treated subjects versus placebo; a value \> 1 favors ziprasidone.|Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.38|0.52|0.5029
82362199|NCT00483548|164435655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.949||||0.8266||95.0|0.59|1.52|||Regression, Logistic||Odds ratio measures the odds of achieving response (≥ 50 % reduction in MADRS total score) from ziprasidone treated subjects versus placebo; a value \> 1 favors ziprasidone.|Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.52|0.59|0.8266
82575002|NCT01124838|164859730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.04||||0.044|TWO_SIDED|95.0|-0.09|0.0|||ANOVA|From ANOVA with treatment and race (Japanese versus non-Japanese) as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||0.00|-0.09|0.044
82575003|NCT01124838|164859731|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.491|TWO_SIDED|95.0|0.34|1.69|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment as factor.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.69|0.34|0.491
82575004|NCT01124838|164859731|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6||||0.185|TWO_SIDED|95.0|0.28|1.28|||Log Rank||The hazard ratio of adalimumab versus placebo was calculated using proportional hazards regression with treatment and race (Japanese versus non-Japanese) as factors.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.28|0.28|0.185
82575005|NCT01124838|164859732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-2.3||||0.451|TWO_SIDED|95.0|-8.5|3.8|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||3.8|-8.5|0.451
82575006|NCT01124838|164859732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-3.9||||0.174|TWO_SIDED|95.0|-9.7|1.8|||ANOVA|From ANOVA with treatment, race (Japanese versus non-Japanese) and OCT machine as factors adjusted for clustered observations.|The mean difference between treatment groups with its 95% confidence interval is based on individual data from all eyes adjusted for correlated measurements within a subject in an analysis of variance (ANOVA) model.|The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||1.8|-9.7|0.174
82362200|NCT00483548|164435656|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.939||||0.7924||95.0|0.59|1.5||Logistic regression model with treatment, country, and type of mood stabilizer.|Regression, Logistic|||Week 6; LOCF; Logistic regression model with treatment, country, and type of mood stabilizer.||1.50|0.59|0.7924
82448838|NCT01128192|164604971|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose % EGP Inhibition||||0.111
82448839|NCT01128192|164604972|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in high-dose % EGP Inhibition||||0.573
82642267|NCT02684370|164999828|OTHER||adjusted difference in percentage|70.3|||<|0.001|TWO_SIDED|95.0|64.0|76.7||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||76.7|64.0|<0.001
82642268|NCT02684370|164999829|OTHER||adjusted difference in percentage|79.9|||<|0.001|TWO_SIDED|95.0|73.5|86.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||86.3|73.5|<0.001
82642269|NCT02684370|164999830|OTHER||adjusted difference in percentage|34.7|||<|0.001|TWO_SIDED|95.0|28.6|40.8||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.8|28.6|<0.001
82391557|NCT03408444|164494132|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.056|STANDARD_ERROR_OF_MEAN|0.0183|||TWO_SIDED|95.0|-0.1|-0.013|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.013|-0.100|
82391558|NCT03408444|164494132|SUPERIORITY|Superiority is established if the adjusted upper confidence limit is below 0.|Mean Difference|-0.105|STANDARD_ERROR_OF_MEAN|0.0184|||TWO_SIDED|95.0|-0.149|-0.062|||Mixed Models Analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 90% power to detect a 0.08 mm difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||-0.062|-0.149|
82391559|NCT03408444|164494133|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|Kenward and Roger method was for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.21|-0.04|
82391560|NCT03408444|164494133|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.01|0.25|||Mixed Models Analysis|Kenward and Roger method was used for the denominator degrees of freedom|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.25|-0.01|
82391561|NCT03408444|164494133|SUPERIORITY|Superiority is established if the adjusted lower confidence limit is above 0.|Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|0.09|0.35|||Mixed Models Analysis|Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|It was calculated that 160 participants randomized in a 1:1:1:1 fashion among the four arms would have at least 79% power to detect a 0.20 D difference in mean axial elongation at the 6-month follow-up. The power analysis was conducted controlling 2-sided type I error of 0.05.||0.35|0.09|
82527500|NCT03502616|164751407|SUPERIORITY||LS mean difference|-1.84|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.35|-1.32|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.32|-2.35|<0.0001
82527501|NCT03502616|164751407|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.274||0.0785|TWO_SIDED|95.0|-1.02|0.06|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.06|-1.02|0.0785
82527502|NCT03502616|164751407|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.275||0.3047|TWO_SIDED|95.0|-0.82|0.26|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.26|-0.82|0.3047
82527503|NCT03502616|164751407|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.283||0.1009|TWO_SIDED|95.0|-1.02|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-1.02|0.1009
82527504|NCT03502616|164751407|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.287||0.0764|TWO_SIDED|95.0|-1.08|0.05|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.05|-1.08|0.0764
82527505|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.159||0.0089|TWO_SIDED|95.0|-0.73|-0.11|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.11|-0.73|0.0089
82527506|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.179|<|0.0001|TWO_SIDED|95.0|-1.12|-0.42|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.42|-1.12|<0.0001
82527507|NCT03502616|164751408|SUPERIORITY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.202|<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.70|-1.50|<0.0001
82527508|NCT03502616|164751408|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.71|-0.88|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.88|-1.71|<0.0001
82575007|NCT01124838|164859733|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|2.12||||0.16|TWO_SIDED|95.0|-0.84|5.08|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.08|-0.84|0.160
82575008|NCT01124838|164859733|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.77||||0.205|TWO_SIDED|95.0|-0.97|4.52|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.52|-0.97|0.205
82575009|NCT01124838|164859734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|1.88||||0.401|TWO_SIDED|95.0|-2.53|6.29|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.29|-2.53|0.401
82575010|NCT01124838|164859734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|2.36||||0.256|TWO_SIDED|95.0|-1.73|6.45|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||6.45|-1.73|0.256
82575011|NCT01124838|164859735|SUPERIORITY_OR_OTHER_LEGACY||Mena Difference|-0.1||||0.967|TWO_SIDED|95.0|-4.81|4.61|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.61|-4.81|0.967
82391562|NCT01473394|164494138|SUPERIORITY_OR_OTHER||Least square mean difference|-5.117|||<|1e-05|TWO_SIDED|95.0|-6.886|-3.347|||Mixed-effects model for repeated measure|||||-3.347|-6.886|<0.00001
82391563|NCT01473394|164494139|SUPERIORITY_OR_OTHER||Least square mean difference|-0.622|||<|1e-05|TWO_SIDED|95.0|-0.845|-0.399|||Mixed-effects model for repeated measure|||||-0.399|-0.845|<0.00001
82391564|NCT01473394|164494140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2||||0.0047|TWO_SIDED|95.0|3.0|17.4|||Cochran-Mantel-Haenszel||The Mean Difference (Final Values), as well as the 95% Confidence Interval, are in units of percentage.|||17.4|3.0|0.0047
82575012|NCT01124838|164859735|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.87||||0.714|TWO_SIDED|95.0|-5.53|3.79|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese versus non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||3.79|-5.53|0.714
82575013|NCT01124838|164859736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|0.56||||0.83|TWO_SIDED|95.0|-4.56|5.68|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment as a factor.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||5.68|-4.56|0.830
82362201|NCT00483548|164435657|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.68|STANDARD_ERROR_OF_MEAN|0.89||0.0594||95.0|-3.42|0.07|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.07|-3.42|0.0594
82391565|NCT04777201|164494229|OTHER||Mean Difference (Final Values)|0.2||||0.7702|TWO_SIDED|95.0|-1.14|1.54|||Paired t-test||Difference is the result of study eye minus fellow eye.|No formal hypothesis testing was planned for this study. The paired t-tests were for reference purposes and thus not considered formal. The test was 2-sided, with the null hypothesis of no difference in percent change from baseline between the study eye and fellow eye in each patient.||1.54|-1.14|0.7702
82391566|NCT04777201|164494230|OTHER||Mean Difference (Final Values)|0.27||||0.6305|TWO_SIDED|95.0|-0.84|1.38|||Paired t-test||Difference is the result of study eye minus fellow eye.|No formal hypothesis testing was planned for this study. The paired t-tests were for reference purposes and thus not considered formal. The test was 2-sided, with the null hypothesis of no difference in percent change from baseline between the study eye and fellow eye in each patient.||1.38|-0.84|0.6305
82362202|NCT00483548|164435657|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.25|STANDARD_ERROR_OF_MEAN|1.03||0.223||95.0|-3.27|0.77|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.77|-3.27|0.2230
82362203|NCT00483548|164435657|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.43|STANDARD_ERROR_OF_MEAN|1.09||0.6971||95.0|-2.57|1.72|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.72|-2.57|0.6971
82362204|NCT00483548|164435657|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.68|STANDARD_ERROR_OF_MEAN|1.12||0.5485||95.0|-2.89|1.54|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.54|-2.89|0.5485
82362205|NCT00483548|164435657|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.25|STANDARD_ERROR_OF_MEAN|1.19||0.8322||95.0|-2.6|2.1|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.10|-2.60|0.8322
82362206|NCT00483548|164435658|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.1771||95.0|-0.29|0.05|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.29|0.1771
82362207|NCT00483548|164435658|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1765||95.0|-0.37|0.07|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.07|-0.37|0.1765
82362208|NCT00483548|164435658|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6765||95.0|-0.27|0.18|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.18|-0.27|0.6765
82362209|NCT00483548|164435658|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.977||95.0|-0.24|0.25|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.25|-0.24|0.9770
82575014|NCT01124838|164859736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference|-0.49||||0.842|TWO_SIDED|95.0|-5.32|4.34|||ANOVA|From ANOVA of change from baseline to final/early termination visit with treatment and race (Japanese vs. non-Japanese) as factors.||The statistical test for the ranked secondary variables was carried out in hierarchical order at the significance level of 5%.||4.34|-5.32|0.842
82575015|NCT02065882|164859761|OTHER|Confirmatory t-test testing of the MCF difference (1 h post-dose minus pre-dose)|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82575016|NCT00474526|164859783|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.53|||||TWO_SIDED|95.0|3.04|6.74|||ANOVA||A (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||6.74|3.04|
82575017|NCT00474526|164859783|SUPERIORITY_OR_OTHER||Ratio of GMTs|6.39|||||TWO_SIDED|95.0|4.16|9.79|||ANOVA||C (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||9.79|4.16|
82575018|NCT00474526|164859783|SUPERIORITY_OR_OTHER||Ratio of GMTs|37.0|||||TWO_SIDED|95.0|24.0|58.0|||ANOVA||W (Post-vaccination GMT; group ratio US1A:US2)|Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.||58|24|
82575019|NCT00474526|164859783|SUPERIORITY_OR_OTHER||Ratio of GMTs|38.0|||||TWO_SIDED|95.0|24.0|60.0|||ANOVA||Y (Post-vaccination GMT; group ratio US1A:US2)|"Using the MenACWY GMTs, immunogenicity of the fourth dose at 1 month after the 12-month vaccination in those subjects receiving MenACWY at 2, 4, and 6 months was considered superior to the immune response of a single dose given at 12-months of age if the lower limit of the two-sided 95% CI of the ratio of the two GMTs was \>= 2.0.~Ratio of GMTs"||60|24|
82575020|NCT00474526|164859792|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMT|0.73|||||TWO_SIDED|95.0|0.55|0.95|||ANOVA|||Serogroup A (Post-vaccination GMT; group ratio LA1:LA3)||0.95|0.55|
82362210|NCT00483548|164435658|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7907||95.0|-0.3|0.23|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.23|-0.30|0.7907
82362211|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0392||95.0|-0.43|-0.01|||ANOVA|||Week 1; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||-0.01|-0.43|0.0392
82362212|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.2803||95.0|-0.38|0.11|||ANOVA|||Week 2; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.11|-0.38|0.2803
82362213|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.9835||95.0|-0.26|0.26|||ANOVA|||Week 3; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.26|-0.26|0.9835
82362214|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.06|STANDARD_ERROR_OF_MEAN|0.15||0.7062||95.0|-0.34|0.23|||ANOVA|||Week 4; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.23|-0.34|0.7062
82362215|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.01|STANDARD_ERROR_OF_MEAN|0.15||0.9518||95.0|-0.31|0.29|||ANOVA|||Week 5; LOCF; Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.||0.29|-0.31|0.9518
82362216|NCT00483548|164435659|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.4757||95.0|-0.2|0.42||Analysis of variance model with treatment, country, type of mood stabilizer as fixed effects.|ANOVA|||Week 6; LOCF||0.42|-0.20|0.4757
82362217|NCT00483548|164435660|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.35|STANDARD_ERROR_OF_MEAN|0.75||0.6362||95.0|-1.12|1.82|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.82|-1.12|0.6362
82362218|NCT00483548|164435660|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.59|STANDARD_ERROR_OF_MEAN|0.8||0.4565||95.0|-0.98|2.17|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.17|-0.98|0.4565
82362219|NCT00483548|164435660|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.61|STANDARD_ERROR_OF_MEAN|0.86||0.477||95.0|-1.08|2.3|||ANCOVA|||Week 6; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||2.30|-1.08|0.4770
82362220|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.7|STANDARD_ERROR_OF_MEAN|0.46||0.1277||95.0|-0.2|1.6|||ANCOVA|||Week 1; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.60|-0.20|0.1277
82362221|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.64|STANDARD_ERROR_OF_MEAN|0.53||0.2345||95.0|-0.41|1.68|||ANCOVA|||Week 2; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.68|-0.41|0.2345
82362222|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.13|STANDARD_ERROR_OF_MEAN|0.6||0.8337||95.0|-1.05|1.3|||ANCOVA|||Week 3; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.30|-1.05|0.8337
82448840|NCT01128192|164604973|SUPERIORITY_OR_OTHER|||||||0.956|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose Glucose Disposal Rate (GDR)||||0.956
82575021|NCT00474526|164859792|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.81|1.31|||ANOVA|||Serogroup C (Post-vaccination GMT; group ratio LA1:LA3)||1.31|0.81|
82362223|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.43|STANDARD_ERROR_OF_MEAN|0.59||0.4646||95.0|-0.73|1.59|||ANCOVA|||Week 4; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.59|-0.73|0.4646
82362224|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.5|STANDARD_ERROR_OF_MEAN|0.59||0.3993||95.0|-0.67|1.67|||ANCOVA|||Week 5; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.67|-0.67|0.3993
82362225|NCT00483548|164435661|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.19|STANDARD_ERROR_OF_MEAN|0.65||0.7647||95.0|-1.08|1.46|||ANCOVA|||Week 6; LOCF; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||1.46|-1.08|0.7647
82391567|NCT02275780|164494231|NON_INFERIORITY|Doravirine is concluded to be non-inferior to darunavir + ritonavir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Treatment Difference|3.913|||||TWO_SIDED|95.0|-1.59|9.415|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||9.415|-1.590|
82391568|NCT02275780|164494232|NON_INFERIORITY|Doravirine is concluded to be non-inferior to darunavir + ritonavir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Treatment Difference|7.082|||||TWO_SIDED|95.0|0.508|13.656|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||13.656|0.508|
82391569|NCT02275780|164494233|OTHER||Mean treatment difference|7.1|||||TWO_SIDED|95.0|-20.8|35.0|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||35.0|-20.8|
82391570|NCT02275780|164494234|OTHER||Mean treatment difference|17.4|||||TWO_SIDED|95.0|-14.5|49.3|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||49.3|-14.5|
82391571|NCT02275780|164494235|OTHER||Treatment Difference (mg/dL)|-14.61|||<|0.0001|TWO_SIDED|95.0|-18.15|-11.06|||ANCOVA|Terms for Baseline lipid level and treatment group||||-11.06|-18.15|<0.0001
82527509|NCT03502616|164751408|SUPERIORITY||LS mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|-1.66|-0.8|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.80|-1.66|<0.0001
82575022|NCT00474526|164859792|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.42|||||TWO_SIDED|95.0|1.18|1.72|||ANOVA|||Serogroup W (Post-vaccination GMT; group ratio LA1:LA3)||1.72|1.18|
82362226|NCT00483548|164435662|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|4.24|STANDARD_ERROR_OF_MEAN|1.65||0.0108||95.0|0.99|7.5|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||7.50|0.99|0.0108
82362227|NCT00483548|164435663|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-4.56|STANDARD_ERROR_OF_MEAN|1.35||0.001||95.0|-7.24|-1.87|||ANCOVA|||Total SDS: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||-1.87|-7.24|0.0010
82362228|NCT00483548|164435664|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.44|STANDARD_ERROR_OF_MEAN|0.28||0.123|TWO_SIDED|95.0|-1.0|0.12|||ANCOVA|||Days Lost: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.12|-1.00|0.1230
82391572|NCT02275780|164494236|OTHER||Treatment Difference (mg/dL)|-19.34|||<|0.0001|TWO_SIDED|95.0|-23.33|-15.35|||ANCOVA|Terms for Baseline lipid level and treatment group||||-15.35|-23.33|<0.0001
82391573|NCT02275780|164494245|OTHER||Treatment Difference|4.169|||||TWO_SIDED|95.0|-1.404|9.743|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||9.743|-1.404|
82391574|NCT02275780|164494246|OTHER||Treatment Difference|7.606|||||TWO_SIDED|95.0|0.98|14.232|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||14.232|0.980|
82391575|NCT03369067|164494247|OTHER|||||||0.01||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.010
82391576|NCT03369067|164494247|OTHER|||||||0.089||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.089
82362229|NCT00483548|164435664|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.17|STANDARD_ERROR_OF_MEAN|0.34||0.6232|TWO_SIDED|95.0|-0.84|0.5|||ANCOVA|||Days Unproductive: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.50|-0.84|0.6232
82391577|NCT03369067|164494247|OTHER|||||||0.024||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.024
82391578|NCT03369067|164494248|OTHER|||||||0.095||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.095
82391579|NCT03369067|164494248|OTHER|||||||0.104||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.104
82391580|NCT03369067|164494248|OTHER|||||||0.042||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.042
82391581|NCT03369067|164494249|OTHER||||||<|0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||<0.001
82391582|NCT03369067|164494249|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82575023|NCT00474526|164859792|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the ratio of GMTs between the 2 dose and the 3 dose schedule (GMTLA1/GMTLA3) must be \> 0.5.|Ratio of GMTs|1.27|||||TWO_SIDED|95.0|1.02|1.58|||ANOVA|||Serogroup Y (Post-vaccination GMT; group ratio LA1:LA3)||1.58|1.02|
82642270|NCT02684370|164999831|OTHER||adjusted difference in percentage|35.5|||<|0.001|TWO_SIDED|95.0|30.0|41.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||41.0|30.0|< 0.001
82642271|NCT02684370|164999832|OTHER||adjusted difference in percentage|57.9|||<|0.001|TWO_SIDED|95.0|50.4|65.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||65.3|50.4|< 0.001
82642272|NCT02684370|164999833|OTHER||adjusted difference in percentage|27.1|||<|0.001|TWO_SIDED|95.0|21.2|32.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.9|21.2|< 0.001
82362230|NCT00483548|164435665|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0096||95.0|0.04|0.31|||ANCOVA|||Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.31|0.04|0.0096
82575024|NCT00474526|164859795|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-15.0|||||TWO_SIDED|95.0|-21.2|-8.5|||ANOVA|||Serogroup A (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||-8.5|-21.2|
82575025|NCT00474526|164859795|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-3.0|||||TWO_SIDED|95.0|-7.0|0.3|||ANOVA|||Serogroup C (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||0.3|-7|
82575026|NCT00474526|164859795|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|1.0|||||TWO_SIDED|95.0|-1.3|3.1|||ANOVA|||Serogroup W (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||3.1|-1.3|
82575027|NCT00474526|164859795|NON_INFERIORITY_OR_EQUIVALENCE|LA1 was noninferior to LA3, if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA ≥ 1:8 and ≥1:4 between the 2 dose and the 3 dose schedule (PLA1 - PLA3) must be greater than -10%.|Percentage (hSBA titers >=8) difference|-1.0|||||TWO_SIDED|95.0|-4.0|1.7|||ANOVA|||Serogroup Y (post-vaccination percentage of subjects with hSBA titer \>=8, group difference (PLA1 - PLA3))||1.7|-4|
82575028|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.87|||||TWO_SIDED|95.0|0.74|1.04|||ANOVA|||Diphtheria (Post-vaccination GMT; group ratio US1:US2)||1.04|0.74|
82575029|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.08|||||TWO_SIDED|95.0|0.92|1.28|||ANOVA|||Tetanus (Post-vaccination GMT; group ratio US1:US2)||1.28|0.92|
82575030|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.79|1.26|||ANOVA|||PT (Post-vaccination GMT; group ratio US1:US2)||1.26|0.79|
82362231|NCT00483548|164435665|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.8134||95.0|-0.13|0.16|||ANCOVA|||Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.16|-0.13|0.8134
82575031|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||FHA (Post-vaccination GMT; group ratio US1:US2)||1.25|0.85|
82362232|NCT00483548|164435665|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0226||95.0|0.02|0.29|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.29|0.02|0.0226
82448841|NCT01128192|164604973|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in Low-Dose Glucose Disposal Rate (GDR)||||0.125
82642273|NCT02684370|164999834|OTHER||adjusted difference in percentage|33.5|||<|0.001|TWO_SIDED|95.0|22.7|44.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||44.3|22.7|< 0.001
82391583|NCT03369067|164494249|OTHER|||||||0.065||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.065
82391584|NCT03369067|164494250|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391585|NCT03369067|164494250|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391586|NCT03369067|164494250|OTHER|||||||0.063||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.063
82391587|NCT03369067|164494251|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391588|NCT03369067|164494251|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391589|NCT03369067|164494251|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391590|NCT03369067|164494252|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82527510|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.242||0.1686|TWO_SIDED|95.0|-0.81|0.14|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.14|-0.81|0.1686
82391591|NCT03369067|164494252|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391592|NCT03369067|164494252|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391593|NCT03369067|164494253|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391594|NCT03369067|164494253|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391595|NCT03369067|164494253|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391596|NCT03369067|164494254|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391597|NCT03369067|164494254|OTHER|||||||0.062||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.062
82391598|NCT03369067|164494254|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391599|NCT03369067|164494255|OTHER|||||||0.015||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.015
82391600|NCT03369067|164494255|OTHER|||||||0.199||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.199
82391601|NCT03369067|164494255|OTHER|||||||0.025||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.025
82391602|NCT03369067|164494256|OTHER|||||||0.059||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.059
82391603|NCT03369067|164494256|OTHER|||||||0.064||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.064
82391604|NCT03369067|164494256|OTHER|||||||0.017||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.017
82391605|NCT03369067|164494257|OTHER|||||||0.034||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.034
82391606|NCT03369067|164494257|OTHER|||||||0.074||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.074
82391607|NCT03369067|164494257|OTHER|||||||0.034||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.034
82391608|NCT03369067|164494258|OTHER|||||||0.023||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.023
82391609|NCT03369067|164494258|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391610|NCT03369067|164494258|OTHER|||||||0.016||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.016
82391611|NCT03369067|164494259|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391612|NCT03369067|164494259|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391613|NCT03369067|164494259|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391614|NCT03369067|164494260|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391615|NCT03369067|164494260|OTHER|||||||0.081||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.081
82391616|NCT03369067|164494260|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391617|NCT03369067|164494261|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391618|NCT03369067|164494261|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391619|NCT03369067|164494261|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391620|NCT03369067|164494262|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391621|NCT03369067|164494262|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391622|NCT03369067|164494262|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391623|NCT03369067|164494263|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391624|NCT03369067|164494263|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391625|NCT03369067|164494263|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82575032|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.04|||||TWO_SIDED|95.0|0.83|1.32|||ANOVA|||Pertactin (Post-vaccination GMT; group ratio US1:US2||1.32|0.83|
82391626|NCT03369067|164494264|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391627|NCT03369067|164494264|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391628|NCT03369067|164494264|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391629|NCT03369067|164494265|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391630|NCT03369067|164494265|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391631|NCT03369067|164494265|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391632|NCT03369067|164494266|OTHER|||||||0.124||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.124
82391633|NCT03369067|164494266|OTHER|||||||0.187||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.187
82391634|NCT03369067|164494266|OTHER|||||||0.04||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.040
82391635|NCT03369067|164494267|OTHER|||||||0.108||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.108
82448842|NCT01128192|164604974|SUPERIORITY_OR_OTHER|||||||0.993|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in High-Dose Glucose Disposal Rate (GDR)||||0.993
82642274|NCT02684370|164999835|OTHER||adjusted difference in percentage|25.1|||<|0.001|TWO_SIDED|95.0|15.2|35.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||35.0|15.2|< 0.001
82642275|NCT02684370|164999836|OTHER||adjusted difference in percentage|23.8|||<|0.001|TWO_SIDED|95.0|15.5|32.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.1|15.5|< 0.001
82362233|NCT00483548|164435666|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0193||95.0|0.02|0.23|||ANCOVA|||Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.23|0.02|0.0193
82362234|NCT00483548|164435666|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.4745||0.16|-0.07|0.16|||ANCOVA|||Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.16|-0.07|0.4745
82362235|NCT00483548|164435666|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.07|STANDARD_ERROR_OF_MEAN|0.06||0.2613||95.0|-0.05|0.19|||ANCOVA|||Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.19|-0.05|0.2613
82362236|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0271||95.0|0.01|0.21|||ANCOVA|||Total score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.21|0.01|0.0271
82362237|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7462||95.0|-0.07|0.05|||ANCOVA|||Total score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.07|0.7462
82362238|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.9574||95.0|-0.08|0.08|||ANCOVA|||Total score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.08|-0.08|0.9574
82362239|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0844||95.0|-0.01|0.1|||ANCOVA|||Global severity score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.10|-0.01|0.0844
82362240|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.5779||95.0|-0.04|0.06|||ANCOVA|||Global severity score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.06|-0.04|0.5779
82362241|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7455||95.0|-0.05|0.06|||ANCOVA|||Global severity score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.06|-0.05|0.7455
82362242|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3278||95.0|-0.02|0.05|||ANCOVA|||Incapacitation score: Week 2; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.05|-0.02|0.3278
82362243|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9097||95.0|-0.03|0.03|||ANCOVA|||Incapacitation score: Week 4; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.03|-0.03|0.9097
82391636|NCT03369067|164494267|OTHER|||||||0.053||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.053
82527511|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.238||0.28|TWO_SIDED|95.0|-0.72|0.21|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.21|-0.72|0.2800
82527512|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.243||0.1135|TWO_SIDED|95.0|-0.86|0.09|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.09|-0.86|0.1135
82527513|NCT03502616|164751408|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.247||0.2496|TWO_SIDED|95.0|-0.77|0.2|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.20|-0.77|0.2496
82527514|NCT03502616|164751409|SUPERIORITY||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-1.22|-0.47|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.47|-1.22|<0.0001
82642276|NCT02684370|164999837|OTHER||adjusted difference in percentage|22.9|||<|0.001|TWO_SIDED|95.0|14.3|31.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||31.6|14.3|< 0.001
82575033|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.96|||||TWO_SIDED|95.0|0.75|1.23|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio US1:US2)||1.23|0.75|
82575034|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.2|||||TWO_SIDED|95.0|0.93|1.55|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio US1:US2)||1.55|0.93|
82642277|NCT02684370|164999838|OTHER||adjusted difference in percentage|38.3|||<|0.001|TWO_SIDED|95.0|27.9|48.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||48.6|27.9|< 0.001
82362244|NCT00483548|164435667|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.9864||95.0|-0.04|0.04|||ANCOVA|||Incapacitation score: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.04|-0.04|0.9864
82362245|NCT00483548|164435668|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|1.52|STANDARD_ERROR_OF_MEAN|2.54||0.5519||95.0|-3.5|6.53|||ANCOVA|||Total Q-LES-Q: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||6.53|-3.50|0.5519
82362246|NCT00483548|164435668|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.5238||95.0|-0.35|0.18|||ANCOVA|||Medications: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.18|-0.35|0.5238
82362247|NCT00483548|164435668|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|0.09|STANDARD_ERROR_OF_MEAN|0.14||0.536||95.0|-0.19|0.36|||ANCOVA|||Overall life satisfaction: Week 6; Observed cases; Analysis of covariance model with treatment, country, type of mood stabilizer as fixed effects and baseline score as covariate.||0.36|-0.19|0.5360
82362248|NCT01280617|164435679|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Continuous variables analyzed using 2-tailed t test or Mann Whitney tes.. Categorical variables analyzed using Chi-Square or Fisher's Exact test||||||<0.05
82362249|NCT01280617|164435679|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82362250|NCT00572039|164435681|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.079||||0.47|TWO_SIDED|95.0|-0.14|0.29|||ANCOVA|||To test the efficacy of PST to improve TVF functional reserve measures at 3 months, we used an analysis of covariance in which group differences (PST vs ST) in 3-month average TVF scores were examined, adjusting for baseline TVF score and the vision severity stratification variable. To approximate an interval scale and compensate for ceiling and floor effects, we linearized TVF scores using a logit transform. 106 PST and 112 ST participants provided data at 3 months.||0.29|-0.14|.47
82362251|NCT00572039|164435682|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4||||0.7|TWO_SIDED|95.0|-1.96|2.77|||ANCOVA|||To test the efficacy of PST to improve NE-VFQ scores at 3 months, we used an analysis of covariance in which group differences (PST vs ST) in 3-month average NEI-VFQ scores were examined, adjusting for baseline score and the vision severity stratification variable.||2.77|-1.96|.7
82362252|NCT03756883|164435685|EQUIVALENCE|The 90% Confidence Interval for the test-to-reference ratio was calculated using a procedure similar to Fieller's method.|Test-to-Reference Ratio|101.8|||||TWO_SIDED|90.0|92.68|111.94||||||||111.94|92.68|
82362253|NCT03756883|164435686|EQUIVALENCE|The 90% confidence interval for the test-to-reference ratio was calculated using a procedure similar to Fieller's method.|Test-to-Reference Ratio|98.09|||||TWO_SIDED|90.0|87.1|110.61||||||||110.61|87.10|
82362254|NCT03756883|164435687|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of the test product over the placebo.||||<0.0001
82362255|NCT03756883|164435687|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of Reference to placebo.||||<0.0001
82362256|NCT03756883|164435688|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of test over placebo.||||<0.0001
82362257|NCT03756883|164435688|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Superiority of reference to placebo.||||<0.0001
82362258|NCT03460158|164435692|OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.1524||0.8822|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the relative change in volume and relative change in patient reported outcomes will be the same at 2 weeks post injection||||0.8822
82362259|NCT03460158|164435692|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1466||0.2223|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the change in volume and change in patient reported outcomes will be the same at 4 weeks post injection||||0.2223
82362260|NCT03460158|164435692|OTHER||Mean Difference (Final Values)|-0.369|STANDARD_ERROR_OF_MEAN|0.113||0.0015|TWO_SIDED|95.0|||||t-test, 2 sided|||Two-sample t test with equal variances the null hypothesis is the change in volume and change in patient reported outcomes will be the same at 12 weeks post injection||||0.0015
82362261|NCT01557920|164435701|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||pathological swallows under anesthesia vs. wakefulness: 25.9% vs. 4.9%|Mixed Models Analysis|||||||0.001
82362262|NCT01557920|164435701|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Comparison of pathological swallow-rate increase by carbon-dioxide during anesthesia and wakefulness||||<0.001
82362263|NCT01557920|164435706|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The number of swallows per hour: 1.7±3.3 during anesthesia vs. 28.0±22.3 during wakefulness|Mixed Models Analysis|||||||<0.001
82391637|NCT03369067|164494267|OTHER|||||||0.01||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.010
82448843|NCT01128192|164604974|SUPERIORITY_OR_OTHER|||||||0.956|TWO_SIDED|||||Two sided P value.|ANOVA|||Change in High-Dose Glucose Disposal Rate (GDR)||||0.956
82391638|NCT03369067|164494268|OTHER|||||||0.08||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.080
82391639|NCT03369067|164494268|OTHER|||||||0.038||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.038
82391640|NCT03369067|164494268|OTHER|||||||0.016||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.016
82391641|NCT03369067|164494269|OTHER|||||||0.111||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.111
82391642|NCT03369067|164494269|OTHER|||||||0.13||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.130
82391643|NCT03369067|164494269|OTHER|||||||0.017||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.017
82391644|NCT03369067|164494270|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391645|NCT03369067|164494270|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82444217|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.35||||||95.0|1.37|8.24||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at each week with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 1||8.24|1.37|
82527515|NCT03502616|164751409|SUPERIORITY||LS mean difference|-1.48|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.89|-1.07|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.07|-1.89|<0.0001
82391646|NCT03369067|164494270|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391647|NCT03369067|164494271|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391648|NCT03369067|164494271|OTHER|||||||0.044||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.044
82391649|NCT03369067|164494271|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391650|NCT03369067|164494272|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391651|NCT03369067|164494272|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391652|NCT03369067|164494272|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391653|NCT03369067|164494273|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391654|NCT03369067|164494273|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391655|NCT03369067|164494273|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391656|NCT03369067|164494274|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391657|NCT03369067|164494274|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391658|NCT03369067|164494274|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391659|NCT03369067|164494275|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391660|NCT03369067|164494275|OTHER|||||||0.141||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.141
82391661|NCT03369067|164494275|OTHER|||||||0.149||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.149
82362264|NCT01175473|164435782|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-154.42|||<|0.0001|TWO_SIDED|95.0|-180.3|-128.54||Linear fixed effects model with fixed terms for treatment, study site and GLU-AUC(0:30-4:30h) at baseline as covariate was used (using Statistical Analysis System \[SAS®\] PROC MIXED procedure).|Linear fixed effects model|No alpha adjustment was performed.||To detect a difference of 100 or 150 h\*mg/dL in change from baseline to Day 28 in GLU-AUC(0:30-4:30h) between lixisenatide and liraglutide, 60 patients per group would provide a power of 90% assuming common standard deviation of 170 or 250 h\*mg/dL, respectively, with a 2-sided test at 5% significance level.||-128.54|-180.30|<0.0001
82362265|NCT02630316|164435792|SUPERIORITY||Hodges-Lehmann|21.0||||0.0043|TWO_SIDED|95.0|7.0|37.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category.|ANCOVA|||||37.0|7.0|0.0043
82575035|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.15|||||TWO_SIDED|95.0|0.85|1.56|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio US1:US2)||1.56|0.85|
82575036|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.88||||||95.0|0.65|1.2|||ANOVA|||Hepatitis B (Post-vaccination GMT; group ratio US1:US2)||1.2|0.65|
82575037|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.31|||||TWO_SIDED|95.0|0.97|1.77|||ANOVA|||HIb (Post-vaccination GMT; group ratio US1:US2)||1.77|0.97|
82575038|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.84|||||TWO_SIDED|95.0|0.7|1.0|||ANOVA|||PnC 4 (Post-vaccination GMT; group ratio US1:US2)||1|0.7|
82575039|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.56|1.03|||ANOVA|||PnC 6B (Post-vaccination GMT; group ratio US1:US2)||1.03|0.56|
82575040|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.85||||||95.0|0.7|1.04|||ANOVA|||PnC 9V (Post-vaccination GMT; group ratio US1:US2)||1.04|0.7|
82575041|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.84|1.26|||ANOVA|||PnC 14 (Post-vaccination GMT; group ratio US1:US2)||1.26|0.84|
82575042|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.77|||||TWO_SIDED|95.0|0.64|0.93|||ANOVA|||PnC 18C (Post-vaccination GMT; group ratio US1:US2)||0.93|0.64|
82575043|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.82|||||TWO_SIDED|95.0|0.69|0.97|||ANOVA|||PnC 19F (Post-vaccination GMT; group ratio US1:US2)||0.97|0.69|
82575044|NCT00474526|164859797|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the ratio of pertussis GMCs (GMCUS1 /GMCUS2) must be greater than 0.67; the lower limit of 95% CI for the ratio of all other GMCs (GMCUS1 / GMCUS2) must be greater than 0.50.|Ratio of GMTs|0.79|||||TWO_SIDED|95.0|0.62|1.02|||ANOVA|||PnC 23F (Post-vaccination GMT; group ratio US1:US2)||1.02|0.62|
82575045|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Diphtheria (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
82575046|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Tetanus (Seroconversion percentage difference (PUS1 - PUS2))||4|-2|
82362266|NCT02630316|164435793|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82362267|NCT02630316|164435794|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.041|TWO_SIDED|95.0|0.4|0.92||p-value is calculated with log-rank test stratified by baseline 6MWD category.|Log Rank||p-value was 0.0202 for the proportional hazard model. Hazard ratio, 95% confidence interval (CI), and p-values are calculated with proportional hazards model with treatment and Baseline 6MWD (continuous) as explanatory variables.|||0.92|0.40|0.0410
82391662|NCT03369067|164494276|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391663|NCT03369067|164494276|OTHER|||||||0.094||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||0.094
82391664|NCT03369067|164494276|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82642278|NCT02684370|164999839|OTHER||adjusted difference in percentage|35.1|||<|0.001|TWO_SIDED|95.0|25.7|44.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||44.6|25.7|< 0.001
82362268|NCT02630316|164435795|SUPERIORITY||Hodges-Lehmann|20.0||||0.0041|TWO_SIDED|95.0|7.0|34.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category|ANCOVA|||||34.0|7.0|0.0041
82362269|NCT02630316|164435796|SUPERIORITY||Hodges-Lehmann|15.0||||0.0432|TWO_SIDED|95.0|0.0|29.0||p-value is obtained from nonparametric ANCOVA adjusted for Baseline 6MWD category.|ANCOVA|||||29.0|0.0|0.0432
82362270|NCT01955044|164435801|SUPERIORITY||Median Difference (Final Values)|1.23||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||DHA levels||||0.05
82362271|NCT02260258|164435812|EQUIVALENCE|Time variable log transformed and compared using linear regression controlling for shock stratification and site. Effect estimate represents geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.0||||0.82|TWO_SIDED|95.0|0.7|1.4||A priori threshold for significance 0.05|Regression, Linear|||||1.4|0.7|0.82
82362272|NCT02260258|164435813|EQUIVALENCE|LOS truncated at 28 days and compared using negative binomial regression controlling for stratification and site. Effect estimates represent incidence rate ratios. The parameter estimate, p value and CI provided below are from the negative binomial regression carried out all patients (N = 37 in NMB and 43 in Usual Care)|Incidence rate ratio|1.4||||0.09|TWO_SIDED|95.0|1.0|1.9|||Negative binomial regression|||All patients analyzed (N = 37 in NMB and 43 in Usual Care)||1.9|1.0|0.09
82362273|NCT02260258|164435813|EQUIVALENCE|LOS truncated at 28 days and compared using negative binomial regression controlling for stratification and site. Effect estimates represent incidence rate ratios. The parameter estimate, p value and CI provided below are from the negative binomial regression carried out on ICU survivors alone (n = 14 in NMB and 14 in Control)|Incidence rate ratio|1.3||||0.35|TWO_SIDED|95.0|0.8|2.0|||Negative binomial regression|||ICU survivors alone analyzed (n = 14 in each arm)||2.0|0.8|0.35
82362274|NCT02260258|164435814|EQUIVALENCE|Duration log transformed and compared using linear regression controlling for shock stratification and site. Includes all patients (n=37 in NMB and n = 43 in control). Effect estimates represent geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.3||||0.18|TWO_SIDED|95.0|0.9|1.9|||Regression, Linear|Duration log transformed and so parameter estimate represents geometric mean difference.||Anaysis for the full data (n= 37 in NMB and 43 in Control)||1.9|0.9|0.18
82362275|NCT02260258|164435814|EQUIVALENCE|Duration log transformed and compared using linear regression controlling for shock stratification and site. Includes patients surviving to discontinuation of mechanical ventilation (n=14 in each group). Two patients discharged from the hospital on mechanical ventilation have duration truncated at time of discharge and are considered survivors to extubation. Effect estimates represent geometric mean difference. Values above 1.0 favor longer duration in the NMB arm.|Geometric mean difference|1.4||||0.32|TWO_SIDED|95.0|0.7|2.9|||Regression, Linear|Duration log transformed and so parameter estimate represents geometric mean difference.||Anaysis for the patients surviving to extubation (n= 14 in both groups)||2.9|0.7|0.32
82362276|NCT02260258|164435815|EQUIVALENCE|Comparison made using logistic regression controlling for shock stratification and site. Effect estimates represent odds ratios|Odds Ratio (OR)|1.3||||0.63|TWO_SIDED|95.0|0.5|3.3|||Regression, Logistic|||||3.3|0.5|0.63
82362277|NCT02260258|164435816|EQUIVALENCE|Comparison made using logistic regression controlling for shock stratification and site. Effect estimates represent odds ratios|Odds Ratio (OR)|1.7||||0.35|TWO_SIDED|95.0|0.6|4.7|||Regression, Logistic|||||4.7|0.6|0.35
82362278|NCT01506908|164435833|SUPERIORITY_OR_OTHER||Least squares means difference|-15.9|||<|0.0001|TWO_SIDED|95.0|-21.6|-10.2|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 5 minutes||-10.2|-21.6|<0.0001
82362279|NCT01506908|164435834|SUPERIORITY_OR_OTHER||Least squares means difference|-4.2||||0.0511|TWO_SIDED|95.0|-8.4|0.0|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 1 minute.||0.0|-8.4|0.0511
82391665|NCT03369067|164494277|OTHER||||||<|0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||<0.001
82391666|NCT03369067|164494277|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391667|NCT03369067|164494277|OTHER|||||||0.033||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.033
82391668|NCT03369067|164494278|OTHER|||||||0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.001
82391669|NCT03369067|164494278|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391670|NCT03369067|164494278|OTHER|||||||0.111||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.111
82391671|NCT03369067|164494279|OTHER|||||||0.118||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.118
82642279|NCT02684370|164999840|OTHER||adjusted difference in percentage|36.5|||<|0.001|TWO_SIDED|95.0|27.0|45.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||45.9|27.0|< 0.001
82391672|NCT03369067|164494279|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391673|NCT03369067|164494279|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391674|NCT03369067|164494280|OTHER|||||||0.116||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.116
82391675|NCT03369067|164494280|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391676|NCT03369067|164494280|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391677|NCT03369067|164494281|OTHER|||||||0.005||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.005
82391678|NCT03369067|164494281|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391679|NCT03369067|164494281|OTHER|||||||0.193||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.193
82391680|NCT03369067|164494282|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391681|NCT03369067|164494282|OTHER|||||||0.106||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.106
82391682|NCT03369067|164494282|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391683|NCT03369067|164494283|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391684|NCT03369067|164494283|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391685|NCT03369067|164494283|OTHER|||||||0.157||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.157
82391686|NCT03369067|164494284|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82444218|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||||95.0|0.9|2.87||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 2||2.87|0.90|
82391687|NCT03369067|164494284|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391688|NCT03369067|164494284|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391689|NCT03369067|164494285|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391690|NCT03369067|164494285|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391691|NCT03369067|164494285|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82575047|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-7.0|12.0|||ANOVA|||PT (Seroconversion percentage difference (PUS1 - PUS2))||12|-7|
82391692|NCT03369067|164494286|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391693|NCT03369067|164494286|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391694|NCT03369067|164494286|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82527516|NCT03502616|164751409|SUPERIORITY||LS mean difference|-1.61|STANDARD_ERROR_OF_MEAN|0.228|<|0.0001|TWO_SIDED|95.0|-2.06|-1.16|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.16|-2.06|<0.0001
82391695|NCT03369067|164494287|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391696|NCT03369067|164494287|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391697|NCT03369067|164494287|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391698|NCT03369067|164494288|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391699|NCT03369067|164494288|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with age group as a fixed factor. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391700|NCT03369067|164494288|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using Wilcoxon signed-rank test with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|Wilcoxon (Mann-Whitney)|||||||>0.2
82391701|NCT03369067|164494289|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391702|NCT03369067|164494289|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391703|NCT03369067|164494289|OTHER|||||||0.073||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.073
82391704|NCT03369067|164494290|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391705|NCT03369067|164494290|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391706|NCT03369067|164494290|OTHER|||||||0.064||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.064
82527517|NCT03502616|164751409|SUPERIORITY||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.237|<|0.0001|TWO_SIDED|95.0|-2.34|-1.4|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.40|-2.34|<0.0001
82527518|NCT03502616|164751409|SUPERIORITY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.236|<|0.0001|TWO_SIDED|95.0|-2.18|-1.25|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.25|-2.18|<0.0001
82391707|NCT03369067|164494291|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391708|NCT03369067|164494291|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391709|NCT03369067|164494291|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391710|NCT03369067|164494292|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391711|NCT03369067|164494292|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391712|NCT03369067|164494292|OTHER|||||||0.104||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.104
82391713|NCT03369067|164494293|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391714|NCT03369067|164494293|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391715|NCT03369067|164494293|OTHER|||||||0.198||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||0.198
82391716|NCT03369067|164494294|OTHER|||||||0.105||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.105
82391717|NCT03369067|164494294|OTHER|||||||0.001||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||0.001
82391718|NCT03369067|164494294|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391719|NCT03369067|164494295|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391720|NCT03369067|164494295|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with age group as a fixed factor. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82391721|NCT03369067|164494295|OTHER||||||>|0.2||||||Primary statistical analysis between treatment groups was performed using univariate ANOVA with the treatment mode and age group as fixed factors. P value \<0.05 was considered significant.|ANOVA|||||||>0.2
82642280|NCT02684370|164999841|OTHER||adjusted difference in percentage|17.0|||<|0.001|TWO_SIDED|95.0|7.4|26.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||26.6|7.4|< 0.001
82391722|NCT00135798|164494307|SUPERIORITY_OR_OTHER|||||||0.0477||95.0||||One-sided test|Fisher Exact|||ITT analysis of pTVR: 0/13 Standard care vs. 11/46 Combined LADR-treated groups||||0.0477
82391723|NCT00135798|164494307|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Chi-squared|||ITT analysis of LADR-treated: 5/24 Genotypes 1,4,6 vs 6/22 Genotypes 2,3||||0.6090
82391724|NCT00135798|164494308|SUPERIORITY_OR_OTHER|||||||0.2014||95.0||||One-sided test|Fisher Exact|||ITT analysis of CVR: 1/16 Standard care vs. 12/63 Combined LADR-treated groups||||0.2014
82391725|NCT00135798|164494308|SUPERIORITY_OR_OTHER|||||||0.9513||95.0|||||Chi-squared|||ITT analysis of LADR-treated: 6/31 Genotypes 1,4,6 vs 6/32 Genotypes 2,3||||0.9513
82391726|NCT00135798|164494309|SUPERIORITY_OR_OTHER|||||||0.0274||95.0||||One-sided test|Fisher Exact|||PP analysis of pTVR: 0/13 Standard care vs. 11/44 Combined LADR-treated groups||||0.0274
82391727|NCT00135798|164494309|SUPERIORITY_OR_OTHER|||||||0.6011||95.0|||||Chi-squared|||PP analysis of LADR-treated: 5/23 G1,4,6 vs 6/21 G2,3||||0.6011
82391728|NCT00135798|164494310|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||One-sided test|Fisher Exact|||PP analysis of CVR: 0/20 Standard care vs. 13/59 Combined LADR-treated groups||||0.0153
82391729|NCT00135798|164494310|SUPERIORITY_OR_OTHER|||||||0.8065||95.0|||||Chi-squared|||PP analysis of LADR-treated: 7/30 G1,4,6 vs 6/29 G2,3||||0.8065
82391730|NCT04186806|164494324|NON_INFERIORITY|Non-inferiority margin was 1.5 cm|Mean Difference (Final Values)|-0.3426|||||TWO_SIDED|95.0|-1.2601|0.5749||The conclusion of the non-inferiority test is based on the 95% confidence interval and not on a p value. A p value was not computed.|Mixed Models Analysis||Non-inferiority testing was carried out using 95% confidence intervals.|||0.5749|-1.2601|
82391731|NCT03409107|164494366|SUPERIORITY||LS Mean Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.23|1.56|||ANCOVA|One-sided p-value based on test of null hypothesis: (Daprodustat - Placebo) \<= 0 versus alternative: difference \> 0.|Treatment group comparisons were based on a ANCOVA model with terms for treatment, Baseline hemoglobin, and region.|||1.56|1.23|<0.0001
82391732|NCT03409107|164494367|SUPERIORITY||Difference in Response rate|0.56|||<|0.0001|TWO_SIDED|95.0|0.49|0.63||One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \<=0 versus alternative: difference \> 0|Cochran-Mantel-Haenszel||Treatment group comparisons were based on a Cochran-Mantel-Haenszel test adjusted for treatment group and region.|||0.63|0.49|<0.0001
82391733|NCT03409107|164494368|SUPERIORITY||LS Mean Difference|5.36||||0.0005|TWO_SIDED|95.0|2.17|8.56||One-sided p-value based on test of null hypothesis:(Daprodustat-Placebo) \<= 0 vs alternative: difference \> 0.|ANCOVA||Treatment group comparisons were based on ANCOVA model with terms for treatment, Baseline score, and region.|||8.56|2.17|0.0005
82391734|NCT03409107|164494369|SUPERIORITY||Difference in Response rate|0.45|||<|0.0001|TWO_SIDED|95.0|0.37|0.52||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|Cochran-Mantel-Haenszel||Treatment group comparisons are based on a Cochran-Mantel-Haenszel test adjusted for treatment group, and region|||0.52|0.37|<0.0001
82391735|NCT03409107|164494370|SUPERIORITY||Difference in treatment effect|38.8|||||TWO_SIDED|95.0|25.0|54.55|||Hodges-Lehmann Estimate|Hodges-Lehmann Estimate of treatment difference has been reported.||||54.55|25.00|
82391736|NCT03409107|164494371|SUPERIORITY||Difference in treatment effect|0.768|||<|0.0001|TWO_SIDED|95.0|0.729|0.806||One-sided superiority p-value from the van Elteren test|van Elteren test||Mann-Whitney estimate of the treatment difference stratified by region has been presented.|||0.806|0.729|<0.0001
82391737|NCT03409107|164494372|SUPERIORITY||LS Mean difference|1.36|||<|0.0001|TWO_SIDED|95.0|1.16|1.55||One-sided superiority p-value from the MMRM model|MMRM||Treatment group comparisons were based on MMRM fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline Hb and Baseline Hb by time and treatment by time interactions.|||1.55|1.16|<0.0001
82391738|NCT03409107|164494373|SUPERIORITY||Hazard Ratio (HR)|0.07||||0.0002|TWO_SIDED|95.0|0.02|0.3||One-sided p-value was based on Wald test of null hypothesis: (Daprodustat/Placebo) \>=1 versus alternative: ratio\<1.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group and region.|||0.30|0.02|0.0002
82391739|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|5.91|||<|0.0001|TWO_SIDED|95.0|2.83|9.0||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Tired/Low Energy/Weak domain.|||9.00|2.83|<0.0001
82362280|NCT01506908|164435835|SUPERIORITY_OR_OTHER||Least squares means difference|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.7|-6.4|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 3 minutes.||-6.4|-16.7|<0.0001
82362281|NCT01506908|164435836|SUPERIORITY_OR_OTHER||Least squares means difference|-17.8|||<|0.0001|TWO_SIDED|95.0|-23.8|-11.7|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 7 minutes.||-11.7|-23.8|<0.0001
82575048|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|6.0|||||TWO_SIDED|95.0|-4.0|17.0|||ANOVA|||FHA(Seroconversion percentage difference (PUS1 - PUS2))||17|-4|
82575049|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-12.0|10.0|||ANOVA|||Pertactin (Seroconversion percentage difference (PUS1 - PUS2))||10|-12|
82575050|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
82575051|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.0|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PUS1 - PUS2))||4|-2|
82642281|NCT02684370|164999842|OTHER||adjusted difference in percentage|17.3|||<|0.001|TWO_SIDED|95.0|7.3|27.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||27.3|7.3|< 0.001
82362282|NCT01506908|164435837|SUPERIORITY_OR_OTHER||Least square mean difference|-17.9|||<|0.0001|TWO_SIDED|95.0|-24.4|-11.4|||ANCOVA||Treatment comparisons were made between 4 mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered the population's change from post-cue baseline in craving score mean to be equal in both treatment groups at 10 minutes.||-11.4|-24.4|<0.0001
82362283|NCT00925301|164435842|SUPERIORITY||Difference|12.5||||0.2996|TWO_SIDED|95.0|-13.4|37.3|||Cochran-Mantel-Haenszel|p-value from Cochran-Mantel-Haenszel test stratified by sex|The difference between the percentage of successes between migalastat and placebo treatment groups|||37.3|-13.4|0.2996
82362284|NCT00925301|164435845|OTHER|Mixed effects model for repeated measures (MMRM) approach with fixed effects of treatment, time (Month 6 and Month 12), mutation type (amenable or non-amenable), time by treatment interaction, time by mutation type interaction, and the baseline value as a covariate. An unstructured covariance matrix to account for repeated measures within a participant was assumed.||||||0.014||||||Significant at the 0.050 level|MMRM|||||||0.014
82362285|NCT00925301|164435846|OTHER||Difference LSMeans|-0.3||||0.0078|TWO_SIDED|95.0|-0.6|-0.1||Significant at the 0.010 level|ANCOVA|||The change from Baseline in the average number of kidney ICs was analyzed using an ANCOVA model with covariate adjustment for the baseline value and factors for treatment group and the treatment by baseline interaction.||-0.1|-0.6|0.0078
82362286|NCT01117766|164435856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.537||0.7319|TWO_SIDED|95.0|-1.29|0.92|||ANCOVA|||Week 3 (Visits 3 and 6)||0.92|-1.29|0.7319
82362287|NCT01117766|164435856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.536||0.3404|TWO_SIDED|95.0|-1.61|0.57|||ANCOVA|||Week 4 (Visits 4 and 7)||0.57|-1.61|0.3404
82362288|NCT01117766|164435857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.32|STANDARD_ERROR_OF_MEAN|26.872||0.6539|TWO_SIDED|95.0|-70.2|45.56|||ANCOVA|||Week 3 (Visits 3 and 6)||45.56|-70.20|0.6539
82362289|NCT01117766|164435857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.91|STANDARD_ERROR_OF_MEAN|25.807||0.3678|TWO_SIDED|95.0|-78.54|30.72|||ANCOVA|||Week 4 (Visits 4 and 7)||30.72|-78.54|0.3678
82362290|NCT01117766|164435858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.342||0.0071|TWO_SIDED|95.0|-1.84|-0.35|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||-0.35|-1.84|0.0071
82391740|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|2.93||||0.0152|TWO_SIDED|95.0|0.28|5.57||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Chest Pain/Shortness of Breath Domain.|||5.57|0.28|0.0152
82391741|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|3.79||||0.0045|TWO_SIDED|95.0|0.95|6.63||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Cognitive Domain.|||6.63|0.95|0.0045
82575052|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
82362291|NCT01117766|164435858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|STANDARD_ERROR_OF_MEAN|0.37||0.1294|TWO_SIDED|95.0|-1.36|0.19|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.19|-1.36|0.1294
82362292|NCT01117766|164435859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.54|STANDARD_ERROR_OF_MEAN|25.298||0.03|TWO_SIDED|95.0|-116.12|-6.96|||ANCOVA|||Week 3 (Visits 3 and 6)||-6.96|-116.12|0.0300
82362293|NCT01117766|164435859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.06|STANDARD_ERROR_OF_MEAN|26.501||0.0844|TWO_SIDED|95.0|-105.67|7.55|||ANCOVA|||Week 4 (Visits 4 and 7)||7.55|-105.67|0.0844
82362294|NCT01117766|164435860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.478||0.7506|TWO_SIDED|95.0|-0.83|1.14|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||1.14|-0.83|0.7506
82362295|NCT01117766|164435860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.299||0.9673|TWO_SIDED|95.0|-0.61|0.64|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.64|-0.61|0.9673
82527519|NCT03502616|164751409|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.245||0.0385|TWO_SIDED|95.0|-0.99|-0.03|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-0.99|0.0385
82527520|NCT03502616|164751409|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.252||0.0463|TWO_SIDED|95.0|-1.0|-0.01|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.01|-1.00|0.0463
82527521|NCT03502616|164751409|SUPERIORITY||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.257||0.0126|TWO_SIDED|95.0|-1.15|-0.14|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.14|-1.15|0.0126
82527522|NCT03502616|164751409|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.268||0.0372|TWO_SIDED|95.0|-1.09|-0.03|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-1.09|0.0372
82527523|NCT03502616|164751410|SUPERIORITY||Difference in percentage|13.6|STANDARD_ERROR_OF_MEAN|3.53||0.0001|TWO_SIDED|95.0|6.68|20.52|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||20.52|6.68|0.0001
82527524|NCT03502616|164751410|SUPERIORITY||Difference in percentage|28.79|STANDARD_ERROR_OF_MEAN|4.6|<|0.0001|TWO_SIDED|95.0|19.78|37.8|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||37.80|19.78|<0.0001
82527525|NCT03502616|164751410|SUPERIORITY||Difference in percentage|33.31|STANDARD_ERROR_OF_MEAN|4.83|<|0.0001|TWO_SIDED|95.0|23.84|42.78|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.78|23.84|<0.0001
82575053|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||ANOVA|||Hepatitis B(Seroconversion percentage difference (PUS1 - PUS2))||3|-4|
82575054|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PUS1 - PUS2))||3|-3|
82362296|NCT01117766|164435861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.642||0.5502|TWO_SIDED|95.0|-0.99|1.78|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 3 (Visits 3 and 6)||1.78|-0.99|0.5502
82362297|NCT01117766|164435861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.5||0.8536|TWO_SIDED|95.0|-1.15|0.96|||ANCOVA|Statistical analysis was based on the average pain score across all levels of stimuli.||Week 4 (Visits 4 and 7)||0.96|-1.15|0.8536
82362298|NCT01117766|164435862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|0.586||0.0132|TWO_SIDED|95.0|-2.73|-0.34|||ANCOVA||In statistical analyses, scores were further grouped to 1-3 'improved', 4 'no change' and 5-7 'worsened'.|Week 3 (Visits 3 and 6)||-0.34|-2.73|0.0132
82527526|NCT03502616|164751410|SUPERIORITY||Difference in percentage|36.37|STANDARD_ERROR_OF_MEAN|4.95|<|0.0001|TWO_SIDED|95.0|26.67|46.07|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||46.07|26.67|<0.0001
82527527|NCT03502616|164751410|SUPERIORITY||Difference in percentage|36.34|STANDARD_ERROR_OF_MEAN|4.74|<|0.0001|TWO_SIDED|95.0|27.05|45.63|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||45.63|27.05|<0.0001
82527528|NCT03502616|164751410|SUPERIORITY||Difference in percentage|5.6|STANDARD_ERROR_OF_MEAN|5.99||0.3498|TWO_SIDED|95.0|-6.14|17.35|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.35|-6.14|0.3498
82527529|NCT03502616|164751410|SUPERIORITY||Difference in percentage|-2.4|STANDARD_ERROR_OF_MEAN|5.89||0.6835|TWO_SIDED|95.0|-13.96|9.15|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.15|-13.96|0.6835
82527530|NCT03502616|164751410|SUPERIORITY||Difference in percentage|-1.75|STANDARD_ERROR_OF_MEAN|5.98||0.7704|TWO_SIDED|95.0|-13.47|9.98|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.98|-13.47|0.7704
82362299|NCT01117766|164435862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.467||0.0403|TWO_SIDED|95.0|-1.95|-0.05|||ANCOVA||In statistical analyses, scores were further grouped to 1-3 'improved', 4 'no change' and 5-7 'worsened'.|Week 4 (Visits 4 and 7)||-0.05|-1.95|0.0403
82575055|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|5.0|||||TWO_SIDED|95.0|-3.0|14.0|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PUS1 - PUS2))||14|-3|
82527531|NCT03502616|164751410|SUPERIORITY||Difference in percentage|-1.13|STANDARD_ERROR_OF_MEAN|5.95||0.8492|TWO_SIDED|95.0|-12.8|10.53|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||10.53|-12.80|0.8492
82362300|NCT01117766|164435863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.433||0.6631|TWO_SIDED|95.0|-1.12|0.74|||ANCOVA|||Week 3 (Visits 3 and 6)||0.74|-1.12|0.6631
82362301|NCT01117766|164435863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|0.465||0.0022|TWO_SIDED|95.0|-2.48|-0.59|||ANCOVA|||Week 4 (Visits 4 and 7)||-0.59|-2.48|0.0022
82362302|NCT01117766|164435864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|0.722||0.1753|TWO_SIDED|95.0|-2.6|0.53|||ANCOVA|||Week 3 (Visits 3 and 6)||0.53|-2.60|0.1753
82362303|NCT01117766|164435864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|0.588||0.0198|TWO_SIDED|95.0|-2.75|-0.27|||ANCOVA|||Week 4 (Visits 4 and 7)||-0.27|-2.75|0.0198
82362304|NCT01117766|164435865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.29|STANDARD_ERROR_OF_MEAN|6.292||0.4999|TWO_SIDED|95.0|-17.13|8.54|||ANCOVA|||||8.54|-17.13|0.4999
82362305|NCT05766787|164435870|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||-0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, period, sequence, visit, and lens by visit interaction) and random (subject) effects. Difference = LID022821 minus AOHG. Sign is retained with the rounded value.|||-0.01||
82362306|NCT00438659|164435871|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
82362307|NCT01917968|164435886|SUPERIORITY||Adjusted difference in percentages|6.5||||0.056|TWO_SIDED|90.0|-0.2|13.2||Statistical significance is considered at 0.05 level.|Z statistics|P-value is calculated using a Z statistics from the propensity score adjusted estimates. Missing values are handled using multiple imputation.||||13.2|-0.2|0.056
82362308|NCT01917968|164435887|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.20 (power 80%), 298 subjects (149 subjects per arm) are needed to detect non-inferiority with a margin of 10%.|Adjusted difference in percentages|-0.4|||||TWO_SIDED|90.0|-2.7|1.9|||||The propensity score adjusted difference in SAE rate of Uphold LITE transvaginal mesh (TVM) vs. NTR was estimated.|||1.9|-2.7|
82362309|NCT01435928|164435897|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.039|TWO_SIDED|95.0|0.45|0.98|||Log Rank|||||0.98|0.45|0.039
82362310|NCT01435928|164435898|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.07|TWO_SIDED|95.0|0.54|1.03|||Log Rank|||||1.03|0.54|0.070
82362311|NCT01435928|164435899|SUPERIORITY_OR_OTHER|||||||0.029|||||||ANCOVA|LOCF||||||0.029
82391742|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|2.61||||0.1267|TWO_SIDED|95.0|-1.87|7.09||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Difficulty Sleeping|||7.09|-1.87|0.1267
82391743|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|4.64||||0.0203|TWO_SIDED|95.0|0.2|9.09||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Difficulty Standing for Long Periods of Time|||9.09|0.20|0.0203
82362312|NCT01435928|164435900|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|LOCF||||||0.015
82362313|NCT01435928|164435901|SUPERIORITY_OR_OTHER|||||||0.218|||||||ANCOVA|LOCF||||||0.218
82362314|NCT01435928|164435902|SUPERIORITY_OR_OTHER|||||||0.021|||||||ANCOVA|LOCF||||||0.021
82362315|NCT01435928|164435903|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANCOVA|LOCF||||||0.056
82362316|NCT03234608|164435909|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.32||0.56|TWO_SIDED|95.0|-0.44|0.81||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||0.81|-0.44|0.56
82391744|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|2.68||||0.0266|TWO_SIDED|95.0|-0.04|5.39||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Severity of Shortness of Breath While Sitting or Resting|||5.39|-0.04|0.0266
82362317|NCT03234608|164435910|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.79||0.73|TWO_SIDED|95.0|-1.28|1.84||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||1.84|-1.28|0.73
82362318|NCT03234608|164435911|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.17||0.94|TWO_SIDED|95.0|-0.35|0.33||The threshold for statistical significance was p\<0.05.|Regression, Linear|||Statistical analysis for Individual Level Healthcare Self-Efficacy Sub-scale.||0.33|-0.35|0.94
82362319|NCT03234608|164435911|SUPERIORITY||Slope|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.65|TWO_SIDED|95.0|-0.33|0.52|||Regression, Linear|||Statistical analysis for Relationship-Dependent Healthcare Self-Efficacy Sub-scale||0.52|-0.33|0.65
82362320|NCT03234608|164435912|SUPERIORITY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|0.52||0.66|TWO_SIDED|95.0|-1.25|0.79||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||0.79|-1.25|0.66
82362321|NCT03234608|164435913|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.78||0.85|TWO_SIDED|95.0|-1.4|1.69||The threshold for statistical significance was p\<0.05.|Regression, Linear|||||1.69|-1.40|0.85
82362322|NCT02105701|164435917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
82362323|NCT02105701|164435917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
82362324|NCT02105701|164435917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
82362325|NCT02105701|164435917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR12 rate \>58%.||||<0.001
82362326|NCT02105701|164435920|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
82362327|NCT02105701|164435920|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
82362328|NCT02105701|164435920|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
82362329|NCT02105701|164435920|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||One-sided Exact Test|||The hypothesis was that at least 1 treatment arm would have a SVR24 rate \>58%.||||<0.001
82362330|NCT01362296|164435921|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.5197|TWO_SIDED|95.0|0.75|1.75||P-value from the stratified log-rank was adjusted for gender (male versus female).|Log Rank||HRs were estimated using a Pike estimator. The HR from the stratified log-rank test was adjusted for gender (male versus female).|||1.75|0.75|0.5197
82362331|NCT00442546|164435959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.37||0.9185||95.0|-0.766|0.691||A step-down procedure was used for multiple comparisons adjustment. If the difference between the high dose and placebo groups was statistically significant (p\<0.05), then the next step conducted where the low dose group was compared to placebo.|ANOVA|Least squares means from the analysis of variance (ANOVA) model with main effects of treatment and center and Baseline mean worst pain score.|Mean difference (final values) = Least squares mean difference|||0.691|-0.766|0.9185
82362332|NCT00442546|164435959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.339|STANDARD_ERROR_OF_MEAN|0.371||0.3619||95.0|-1.07|0.392||A step-down procedure was used for multiple comparisons adjustment. If the difference between the high dose and placebo groups was statistically significant (p\<0.05), then the next step conducted where the low dose group was compared to placebo.|ANOVA|Least squares means from the ANOVA model with main effects of treatment and center and Baseline mean worst pain score.|Mean difference (final values) = Least squares mean difference|||0.392|-1.070|0.3619
82362333|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.065|STANDARD_ERROR_OF_MEAN|19.426||0.4091||95.0|-54.332|22.203|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||22.203|-54.332|0.4091
82362334|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.548|STANDARD_ERROR_OF_MEAN|19.388||0.4234||95.0|-53.74|22.645|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||22.645|-53.740|0.4234
82391745|NCT03409107|164494374|SUPERIORITY||Mean Difference (Net)|2.01||||0.0907|TWO_SIDED|95.0|-0.94|4.96||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||Analysis was performed by MMRM with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Time with Shortness of Breath While not Doing an Activity|||4.96|-0.94|0.0907
82391746|NCT03409107|164494375|SUPERIORITY||Mean Difference (Net)|-0.13||||0.0391|TWO_SIDED|95.0|-0.28|0.02||One-sided p-value was based on test of null hypothesis: (Daprodustat-rhEPO) \>=0 versus alternative: difference \<0|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.02|-0.28|0.0391
82391747|NCT03409107|164494376|SUPERIORITY||Mean Difference (Net)|2.57||||0.0858|TWO_SIDED|95.0|-1.12|6.26||One sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 vs. alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||6.26|-1.12|0.0858
82391748|NCT03409107|164494377|SUPERIORITY||Mean Difference (Net)|0.17||||0.0357|TWO_SIDED|95.0|-0.02|0.36||One sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel full of life?.|||0.36|-0.02|0.0357
82362335|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.428|STANDARD_ERROR_OF_MEAN|16.517||0.0284||95.0|-68.972|-3.884|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||-3.884|-68.972|0.0284
82362336|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-28.985|STANDARD_ERROR_OF_MEAN|16.57||0.0816||95.0|-61.632|3.663|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||3.663|-61.632|0.0816
82362337|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.759|STANDARD_ERROR_OF_MEAN|11.752||0.8147||95.0|-20.446|25.964|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||25.964|-20.446|0.8147
82362338|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.182|STANDARD_ERROR_OF_MEAN|11.589||0.7187||95.0|-27.064|18.7|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||18.700|-27.064|0.7187
82362339|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.356|STANDARD_ERROR_OF_MEAN|10.148||0.7416||95.0|-23.516|16.804|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||16.804|-23.516|0.7416
82362340|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.574|STANDARD_ERROR_OF_MEAN|9.283||0.2577||95.0|-29.017|7.869|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||7.869|-29.017|0.2577
82362341|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|17.387||0.9982||95.0|-36.431|36.352|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||36.352|-36.431|0.9982
82362342|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.325|STANDARD_ERROR_OF_MEAN|22.184||0.5552||95.0|-59.756|33.107|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||33.107|-59.756|0.5552
82362343|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.0|STANDARD_ERROR_OF_MEAN|24.655||0.2032||95.0|-118.463|38.463|||ANOVA||Mean difference (final values) = Least squares mean difference|144 hours||38.463|-118.463|0.2032
82391749|NCT03409107|164494377|SUPERIORITY||Mean Difference (Net)|0.17||||0.0328|TWO_SIDED|95.0|-0.01|0.35||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you have a lot of energy?.|||0.35|-0.01|0.0328
82527532|NCT03502616|164751411|SUPERIORITY||Difference in percentage|2.24|STANDARD_ERROR_OF_MEAN|1.63||0.1692|TWO_SIDED|95.0|-0.95|5.43|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||5.43|-0.95|0.1692
82527533|NCT03502616|164751411|SUPERIORITY||Difference in percentage|4.46|STANDARD_ERROR_OF_MEAN|2.04||0.0289|TWO_SIDED|95.0|0.46|8.46|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||8.46|0.46|0.0289
82527534|NCT03502616|164751411|SUPERIORITY||Difference in percentage|6.02|STANDARD_ERROR_OF_MEAN|2.59||0.0199|TWO_SIDED|95.0|0.95|11.09|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||11.09|0.95|0.0199
82527535|NCT03502616|164751411|SUPERIORITY||Difference in percentage|12.03|STANDARD_ERROR_OF_MEAN|3.46||0.0005|TWO_SIDED|95.0|5.26|18.81|||Difference in percentage|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.81|5.26|0.0005
82527536|NCT03502616|164751411|SUPERIORITY||Difference in percentage|12.05|STANDARD_ERROR_OF_MEAN|3.45||0.0005|TWO_SIDED|95.0|5.29|18.8|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.80|5.29|0.0005
82527537|NCT03502616|164751411|SUPERIORITY||Difference in percentage|10.03|STANDARD_ERROR_OF_MEAN|4.49||0.0253|TWO_SIDED|95.0|1.24|18.83|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.83|1.24|0.0253
82527538|NCT03502616|164751411|SUPERIORITY||Difference in percentage|7.93|STANDARD_ERROR_OF_MEAN|4.75||0.095|TWO_SIDED|95.0|-1.38|17.24|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.24|-1.38|0.0950
82527539|NCT03502616|164751411|SUPERIORITY||Difference in percentage|7.21|STANDARD_ERROR_OF_MEAN|4.86||0.1377|TWO_SIDED|95.0|-2.31|16.73|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.73|-2.31|0.1377
82527540|NCT03502616|164751411|SUPERIORITY||Difference in percentage|5.68|STANDARD_ERROR_OF_MEAN|4.91||0.2472|TWO_SIDED|95.0|-3.94|15.3|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.30|-3.94|0.2472
82527541|NCT03502616|164751412|SUPERIORITY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.163|<|0.0001|TWO_SIDED|95.0|-1.05|-0.41|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.41|-1.05|<0.0001
82527542|NCT03502616|164751412|SUPERIORITY||LS mean difference|-1.28|STANDARD_ERROR_OF_MEAN|0.187|<|0.0001|TWO_SIDED|95.0|-1.65|-0.91|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.91|-1.65|<0.0001
82527543|NCT03502616|164751412|SUPERIORITY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.92|-1.09|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.09|-1.92|<0.0001
82527544|NCT03502616|164751412|SUPERIORITY||LS mean difference|-1.68|STANDARD_ERROR_OF_MEAN|0.221|<|0.0001|TWO_SIDED|95.0|-2.11|-1.24|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.24|-2.11|<0.0001
82527545|NCT03502616|164751412|SUPERIORITY||LS mean difference|-1.44|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.88|-1.0|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.00|-1.88|<0.0001
82527546|NCT03502616|164751412|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.235||0.088|TWO_SIDED|95.0|-0.86|0.06|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.06|-0.86|0.0880
82527547|NCT03502616|164751412|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.241||0.0921|TWO_SIDED|95.0|-0.88|0.07|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.07|-0.88|0.0921
82527548|NCT03502616|164751412|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.243||0.0597|TWO_SIDED|95.0|-0.94|0.02|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.02|-0.94|0.0597
82527549|NCT03502616|164751412|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.0492|TWO_SIDED|95.0|-0.99|0.0|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.00|-0.99|0.0492
82527550|NCT03502616|164751413|SUPERIORITY||Difference in percentage|8.31|STANDARD_ERROR_OF_MEAN|3.29||0.0116|TWO_SIDED|95.0|1.86|14.77|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.77|1.86|0.0116
82527551|NCT03502616|164751413|SUPERIORITY||Difference in percentage|22.74|STANDARD_ERROR_OF_MEAN|4.46|<|0.0001|TWO_SIDED|95.0|13.99|31.49|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.49|13.99|<0.0001
82391750|NCT03409107|164494377|SUPERIORITY||Mean Difference (Net)|0.18||||0.0252|TWO_SIDED|95.0|0.0|0.37||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel worn out?.|||0.37|0.00|0.0252
82527552|NCT03502616|164751413|SUPERIORITY||Difference in percentage|28.87|STANDARD_ERROR_OF_MEAN|4.99|<|0.0001|TWO_SIDED|95.0|19.09|38.66|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||38.66|19.09|<0.0001
82362344|NCT00442546|164435960|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-138.5|STANDARD_ERROR_OF_MEAN|37.661||0.0348||95.0|-258.354|-18.646|||ANOVA||Mean difference (final values) = Least squares mean difference|144 hours||-18.646|-258.354|0.0348
82362345|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.136|STANDARD_ERROR_OF_MEAN|4.499||0.3602||95.0|-4.79|13.062|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 2||13.062|-4.790|0.3602
82391751|NCT03409107|164494377|SUPERIORITY||Mean Difference (Net)|0.26||||0.001|TWO_SIDED|95.0|0.1|0.42||One-sided p-value based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus alternative: difference \>0.|MMRM||MMRM fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions for Did you feel tired?.|||0.42|0.10|0.0010
82391752|NCT03409107|164494384|SUPERIORITY||Mean Difference (Net)|0.03||||0.1098|TWO_SIDED|95.0|-0.02|0.07||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 versus. alternative: difference \>0.|MMRM||Based on MMRM model fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.07|-0.02|0.1098
82391753|NCT03409107|164494385|SUPERIORITY||Mean Difference (Net)|4.5||||0.012|TWO_SIDED|95.0|0.6|8.4||One-sided p-value was based on test of null hypothesis: (Daprodustat-Placebo) \<=0 vs. alternative: difference \>0.|MMRM||MMRM model fitted from Baseline up to Week 28 with factors for treatment, time, region, Baseline value and Baseline value by time and treatment by time interactions.|||8.40|0.60|0.0120
82527553|NCT03502616|164751413|SUPERIORITY||Difference in percentage|31.93|STANDARD_ERROR_OF_MEAN|4.92|<|0.0001|TWO_SIDED|95.0|22.28|41.58|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||41.58|22.28|<0.0001
82362346|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.573|STANDARD_ERROR_OF_MEAN|4.637||0.7352||95.0|-7.626|10.771|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 2||10.771|-7.626|0.7352
82362347|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|6.156||0.6435||95.0|-9.392|15.111|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 4||15.111|-9.392|0.6435
82362348|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.237|STANDARD_ERROR_OF_MEAN|6.361||0.6123||95.0|-9.422|15.895|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 4||15.895|-9.422|0.6123
82362349|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|7.663||0.6356||95.0|-11.683|18.984|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 6/ET||18.984|-11.683|0.6356
82362350|NCT00442546|164435961|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.909|STANDARD_ERROR_OF_MEAN|7.747||0.907||95.0|-14.593|16.411|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Week 6/ET||16.411|-14.593|0.9070
82362351|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1190.65|STANDARD_ERROR_OF_MEAN|123.062||0.0656||95.0|-2754.304|373.004|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, 72 hours||373.004|-2754.304|0.0656
82362352|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.2|STANDARD_ERROR_OF_MEAN|142.1||0.9277||95.0|-1789.352|1821.752|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, 72 hours||1821.752|-1789.352|0.9277
82362353|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.771|STANDARD_ERROR_OF_MEAN|62.692||0.935||95.0|-263.972|275.515|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 24 hours||275.515|-263.972|0.9350
82362354|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.243|STANDARD_ERROR_OF_MEAN|44.33||0.6139||95.0|-164.494|216.98|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 24 hours||216.980|-164.494|0.6139
82362355|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|9.96||0.776||95.0|-25.451|19.611|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 48 hours||19.611|-25.451|0.7760
82362356|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|6.833||0.819||95.0|-17.066|13.846|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Ketorolac, 48 hours||13.846|-17.066|0.8190
82362357|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-69.235|STANDARD_ERROR_OF_MEAN|390.483||0.8603||95.0|-861.171|722.7|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 24 hours||722.700|-861.171|0.8603
82362358|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.395|STANDARD_ERROR_OF_MEAN|384.376||0.9642||95.0|-796.945|762.155|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 24 hours||762.155|-796.945|0.9642
82362359|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|93.693|STANDARD_ERROR_OF_MEAN|484.957||0.8476||95.0|-880.865|1068.251|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 48 hours||1068.251|-880.865|0.8476
82362360|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|105.543|STANDARD_ERROR_OF_MEAN|457.374||0.8185||95.0|-813.584|1024.67|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 48 hours||1024.670|-813.584|0.8185
82362361|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-682.304|STANDARD_ERROR_OF_MEAN|495.241||0.1792||95.0|-1696.759|332.15|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 72 hours||332.150|-1696.759|0.1792
82391754|NCT03409107|164494386|SUPERIORITY||Mean Difference (Net)|0.4||||0.6106|TWO_SIDED|95.0|-2.42|3.22||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \<0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline SBP and Baseline SBP by time and treatment by time interactions.|||3.22|-2.42|0.6106
82362362|NCT00442546|164435962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-250.439|STANDARD_ERROR_OF_MEAN|501.808||0.6216||95.0|-1278.347|777.469|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, 72 hours||777.469|-1278.347|0.6216
82362363|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-494.0|STANDARD_ERROR_OF_MEAN|301.253||0.1996||95.0|-1452.72|464.72|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, Week 2.||464.720|-1452.720|0.1996
82362364|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-195.15|STANDARD_ERROR_OF_MEAN|368.958||0.6335||95.0|-1369.338|979.038|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Acetylsalicylic Acid, Week 2.||979.038|-1369.338|0.6335
82362365|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.291|STANDARD_ERROR_OF_MEAN|302.355||0.929||95.0|-657.992|603.41|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 2||603.410|-657.992|0.9290
82362366|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.787|STANDARD_ERROR_OF_MEAN|256.969||0.8937||95.0|-501.241|570.815|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 2||570.815|-501.241|0.8937
82362367|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|198.937|STANDARD_ERROR_OF_MEAN|491.153||0.6912||95.0|-847.93|1245.804|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 4||1245.804|-847.930|0.6912
82362368|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|185.728|STANDARD_ERROR_OF_MEAN|349.047||0.6024||95.0|-558.248|929.704|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 4||929.704|-558.248|0.6024
82362369|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-256.921|STANDARD_ERROR_OF_MEAN|407.391||0.5372||95.0|-1120.551|606.709|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 6/ET||606.709|-1120.551|0.5372
82362370|NCT00442546|164435963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-287.032|STANDARD_ERROR_OF_MEAN|328.227||0.3948||95.0|-982.843|408.778|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|Paracetamol, Week 6/ET||408.778|-982.843|0.3948
82362371|NCT00442546|164435964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-121.5|STANDARD_ERROR_OF_MEAN|1169.654||0.9341|TWO_SIDED|95.0|-14983.36|14740.362|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|||14740.362|-14983.36|0.9341
82362372|NCT00442546|164435966|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|302.9|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|302.9|302.9|||ANOVA||Mean Difference (Final Values) = Least Squares Mean Difference|||302.900|302.900|<0.0001
82362373|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.087||0.1661||95.0|-0.293|0.051|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.051|-0.293|0.1661
82362374|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.088||0.3604||95.0|-0.254|0.093|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.093|-0.254|0.3604
82362375|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.083||0.1299||95.0|-0.29|0.037|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.037|-0.290|0.1299
82362376|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.129|STANDARD_ERROR_OF_MEAN|0.082||0.1167||95.0|-0.29|0.032|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.032|-0.290|0.1167
82362377|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.09||0.5271||95.0|-0.234|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.120|-0.234|0.5271
82362378|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.09||0.6731||95.0|-0.215|0.139|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.139|-0.215|0.6731
82362379|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.098||0.5936||95.0|-0.247|0.142|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.142|-0.247|0.5936
82527554|NCT03502616|164751413|SUPERIORITY||Difference in percentage|25.28|STANDARD_ERROR_OF_MEAN|5.34|<|0.0001|TWO_SIDED|95.0|14.82|35.75|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||35.75|14.82|<0.0001
82362380|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.094||0.8368||95.0|-0.206|0.167|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.167|-0.206|0.8368
82362381|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.111||0.8659||95.0|-0.242|0.204|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.204|-0.242|0.8659
82362382|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.112||0.7151||95.0|-0.266|0.184|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.184|-0.266|0.7151
82362383|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.077||0.2121||95.0|-0.249|0.056|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.056|-0.249|0.2121
82362384|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.077||0.5607||95.0|-0.197|0.107|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.107|-0.197|0.5607
82362385|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.077||0.7797||95.0|-0.13|0.173|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.173|-0.130|0.7797
82362386|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.079||0.8761||95.0|-0.143|0.167|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.167|-0.143|0.8761
82444219|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.15||||||95.0|1.76|5.66||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 3||5.66|1.76|
82444220|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||||95.0|1.06|3.05||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 4||3.05|1.06|
82444221|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||||95.0|0.9|2.73||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 5||2.73|0.90|
82444222|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||||95.0|0.86|2.66||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 6||2.66|0.86|
82444223|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86||||||95.0|1.08|3.22||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responsers at each each with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8||3.22|1.08|
82444224|NCT00413010|164597013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||||95.0|1.12|2.79||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8 (last observation carried forward, LOCF)||2.79|1.12|
82444225|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.88||||||95.0|0.94|8.8||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 1||8.80|0.94|
82444226|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||||95.0|0.72|3.06||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 2||3.06|0.72|
82444227|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.08||||||95.0|1.09|3.97||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 3||3.97|1.09|
82575056|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-5.0|2.0|||ANOVA|||PnC 4(Seroconversion percentage difference (PUS1 - PUS2))||2|-5|
82362387|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.067||0.8619||95.0|-0.121|0.144|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.144|-0.121|0.8619
82362388|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.068||0.7256||95.0|-0.111|0.159|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.159|-0.111|0.7256
82362389|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.061||0.8659||95.0|-0.11|0.131|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.131|-0.110|0.8659
82362390|NCT00442546|164435970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.063||0.0203||95.0|0.023|0.27|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.270|0.023|0.0203
82362391|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.074||0.5791||95.0|-0.187|0.105|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.105|-0.187|0.5791
82362392|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.075||0.6829||95.0|-0.178|0.117|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.117|-0.178|0.6829
82362393|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.07||0.4516||95.0|-0.19|0.085|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.085|-0.190|0.4516
82527555|NCT03502616|164751413|SUPERIORITY||Difference in percentage|10.71|STANDARD_ERROR_OF_MEAN|5.88||0.0683|TWO_SIDED|95.0|-0.8|22.23|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||22.23|-0.80|0.0683
82527556|NCT03502616|164751413|SUPERIORITY||Difference in percentage|10.05|STANDARD_ERROR_OF_MEAN|5.94||0.0906|TWO_SIDED|95.0|-1.59|21.7|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||21.70|-1.59|0.0906
82527557|NCT03502616|164751413|SUPERIORITY||Difference in percentage|13.03|STANDARD_ERROR_OF_MEAN|5.94||0.0282|TWO_SIDED|95.0|1.39|24.66|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||24.66|1.39|0.0282
82527558|NCT03502616|164751413|SUPERIORITY||Difference in percentage|10.77|STANDARD_ERROR_OF_MEAN|5.98||0.0719|TWO_SIDED|95.0|-0.96|22.49|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||22.49|-0.96|0.0719
82527559|NCT03502616|164751414|SUPERIORITY||Difference in percentage|32.79|STANDARD_ERROR_OF_MEAN|4.75|<|0.0001|TWO_SIDED|95.0|23.48|42.11|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||42.11|23.48|<0.0001
82527560|NCT03502616|164751414|SUPERIORITY||Difference in percentage|40.53|STANDARD_ERROR_OF_MEAN|5.19|<|0.0001|TWO_SIDED|95.0|30.37|50.7|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||50.70|30.37|<0.0001
82527561|NCT03502616|164751414|SUPERIORITY||Difference in percentage|45.22|STANDARD_ERROR_OF_MEAN|5.2|<|0.0001|TWO_SIDED|95.0|35.03|55.41|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||55.41|35.03|<0.0001
82642282|NCT02684370|164999843|OTHER||adjusted difference in percentage|23.0|||<|0.001|TWO_SIDED|95.0|11.9|34.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||34.0|11.9|< 0.001
82391755|NCT03409107|164494386|SUPERIORITY||Mean Difference (Net)|1.8||||0.9819|TWO_SIDED|95.0|0.12|3.49||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \< 0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline DBP and Baseline DBP by time and treatment by time interactions.|||3.49|0.12|0.9819
82391756|NCT03409107|164494386|SUPERIORITY||Mean Difference (Net)|1.31||||0.9215|TWO_SIDED|95.0|-0.51|3.13||"One-sided p-value was based on test of null hypothesis: (Daprodustat - Placebo) \>= 0 versus alternative:~difference \<0"|MMRM||MMRM model fitted from Baseline up to Week 28, with factors for treatment, time, region, Baseline MAP and Baseline MAP by time and treatment by time interactions.|||3.13|-0.51|0.9215
82391757|NCT03409107|164494387|SUPERIORITY||Difference in Response rate|0.06||||0.068|TWO_SIDED|95.0|-0.02|0.13||One-sided p-value based on test of null hypothesis: (Daprodustat - Placebo) \<= 0 versus alternative: difference \> 0.|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test was performed for treatment group comparison.|||0.13|-0.02|0.0680
82391758|NCT03687372|164494407|SUPERIORITY||Mean Difference (Final Values)|3.22||||0.0003|TWO_SIDED|95.0|1.67|6.22||P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mixed Models Analysis|||A summary of the wart clearance at Visit 10.||6.22|1.67|0.0003
82391759|NCT03687372|164494408|SUPERIORITY|P-Value test comparing the Patients Cleared of All Baseline Warts in the Active (A-101 45%) and vehicle groups.|Mean Difference (Final Values)|2.14||||0.0024|TWO_SIDED|95.0|1.3|3.52|||Mixed Models Analysis|||||3.52|1.30|0.0024
82391760|NCT03687372|164494409|SUPERIORITY||Odds Ratio (OR)|14.12|||<|0.0001|TWO_SIDED|95.0|7.5|20.8|||Wilcoxon (Mann-Whitney)|||||20.8|7.5|<0.0001
82391761|NCT03687372|164494410|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0009|TWO_SIDED|95.0|1.55|6.65|||Wilcoxon (Mann-Whitney)|||||6.65|1.55|0.0009
82391762|NCT03687372|164494411|SUPERIORITY||Hazard Ratio (HR)|2.56|||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82391763|NCT01152359|164494432|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.05|TWO_SIDED|95.0|-0.8|2.9|||Mixed Models Analysis|||||2.9|-0.8|<0.05
82391764|NCT01152359|164494433|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.66|TWO_SIDED|95.0|-4.9|3.1|||Mixed Models Analysis|||||3.1|-4.9|0.66
82391765|NCT01152359|164494434|SUPERIORITY||Mean Difference (Net)|-0.8||||0.65|TWO_SIDED|95.0|-4.1|2.6|||Mixed Models Analysis|||||2.6|-4.1|0.65
82391766|NCT01546571|164494509|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0||||||||||||
82391767|NCT05127304|164494521|OTHER|||||||0.639|||||||Weighted clustered linear regression|||Ambulatory visits||||0.639
82391768|NCT05127304|164494521|OTHER|||||||0.535|||||||Weighted clustered linear regression|||Office visits||||0.535
82391769|NCT05127304|164494521|OTHER|||||||0.337|||||||Weighted clustered linear regression|||Outpatient visits||||0.337
82391770|NCT05127304|164494521|OTHER|||||||0.058|||||||Weighted clustered linear regression|||Emergency room visits||||0.058
82391771|NCT05127304|164494521|OTHER|||||||0.192|||||||Weighted clustered linear regression|||Inpatient visits||||0.192
82391772|NCT05127304|164494521|OTHER|||||||0.176|||||||Weighted clustered linear regression|||Other medical visits||||0.176
82391773|NCT05127304|164494522|OTHER|||||||0.313|||||||Weighted clustered linear regression|||||||0.313
82391774|NCT05127304|164494523|OTHER|||||||0.021|||||||Weighted clustered linear regression|||||||0.021
82391775|NCT05127304|164494524|OTHER|||||||0.022|||||||Weighted clustered linear regression|||Ambulatory visits||||0.022
82391776|NCT05127304|164494524|OTHER|||||||0.124|||||||Weighted clustered linear regression|||Office visits||||0.124
82527562|NCT03502616|164751414|SUPERIORITY||Difference in percentage|45.23|STANDARD_ERROR_OF_MEAN|5.23|<|0.0001|TWO_SIDED|95.0|34.97|55.49|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||55.49|34.97|<0.0001
82362394|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.071|STANDARD_ERROR_OF_MEAN|0.069||0.3014||95.0|-0.207|0.064|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.064|-0.207|0.3014
82362395|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.075||0.7628||95.0|-0.171|0.125|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.125|-0.171|0.7628
82362396|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.075||0.711||95.0|-0.176|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.120|-0.176|0.7110
82362397|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.079||0.7382||95.0|-0.183|0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.130|-0.183|0.7382
82362398|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.076||0.6586||95.0|-0.183|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.116|-0.183|0.6586
82362399|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.084||0.7691||95.0|-0.195|0.145|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.145|-0.195|0.7691
82362400|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.085||0.507||95.0|-0.229|0.115|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.115|-0.229|0.5070
82362401|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.066||0.5802||95.0|-0.166|0.093|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.093|-0.166|0.5802
82362402|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.065||0.919||95.0|-0.122|0.136|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.136|-0.122|0.9190
82362403|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.059||0.6559||95.0|-0.09|0.143|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.143|-0.090|0.6559
82362404|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.06||0.8552||95.0|-0.108|0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.130|-0.108|0.8552
82362405|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.048||0.6364||95.0|-0.072|0.117|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.117|-0.072|0.6364
82362406|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.049||0.2127||95.0|-0.035|0.157|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.157|-0.035|0.2127
82362407|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.047||0.8746||95.0|-0.086|0.101|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.101|-0.086|0.8746
82362408|NCT00442546|164435971|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.048||0.0286||95.0|0.011|0.202|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.202|0.011|0.0286
82362409|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.165|STANDARD_ERROR_OF_MEAN|0.102||0.1078||95.0|-0.367|0.036|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.036|-0.367|0.1078
82391777|NCT05127304|164494524|OTHER|||||||0.043|||||||Weighted clustered linear regression|||Outpatient visits||||0.043
82362410|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.103||0.6406||95.0|-0.252|0.155|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.155|-0.252|0.6406
82362411|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.092||0.2404||95.0|-0.289|0.073|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.073|-0.289|0.2404
82391778|NCT05127304|164494524|OTHER|||||||0.99|||||||Weighted clustered linear regression|||Emergency room visits||||0.990
82391779|NCT05127304|164494524|OTHER|||||||0.039|||||||Weighted clustered linear regression|||Inpatient visits||||0.039
82362412|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.149|STANDARD_ERROR_OF_MEAN|0.09||0.1005||95.0|-0.327|0.029|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.029|-0.327|0.1005
82391780|NCT05127304|164494524|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Other medical visits||||<0.001
82362413|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.136|STANDARD_ERROR_OF_MEAN|0.108||0.2109||95.0|-0.349|0.078|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.078|-0.349|0.2109
82362414|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.108||0.2399||95.0|-0.342|0.086|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.086|-0.342|0.2399
82362415|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.131|STANDARD_ERROR_OF_MEAN|0.108||0.2272||95.0|-0.346|0.083|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.083|-0.346|0.2272
82362416|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.104||0.4417||95.0|-0.285|0.125|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.125|-0.285|0.4417
82362417|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.144||0.9502||95.0|-0.299|0.281|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.281|-0.299|0.9502
82391781|NCT05127304|164494525|OTHER|||||||0.163|||||||Weighted clustered linear regression|||||||0.163
82391782|NCT05127304|164494526|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
82391783|NCT05127304|164494527|OTHER|||||||0.017|||||||Weighted clustered linear regression|||Ambulatory visits||||0.017
82391784|NCT05127304|164494527|OTHER|||||||0.098|||||||Weighted clustered linear regression|||Office visits||||0.098
82391785|NCT05127304|164494527|OTHER|||||||0.036|||||||Weighted clustered linear regression|||Outpatient visits||||0.036
82391786|NCT05127304|164494527|OTHER|||||||0.894|||||||Weighted clustered linear regression|||Emergency room visits||||0.894
82527563|NCT03502616|164751414|SUPERIORITY||Difference in percentage|42.3|STANDARD_ERROR_OF_MEAN|5.4|<|0.0001|TWO_SIDED|95.0|31.73|52.88|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||52.88|31.73|<0.0001
82527564|NCT03502616|164751414|SUPERIORITY||Difference in percentage|4.96|STANDARD_ERROR_OF_MEAN|5.85||0.3967|TWO_SIDED|95.0|-6.51|16.42|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.42|-6.51|0.3967
82575057|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|(Seroconversion percentage difference (P|-8.0|||||TWO_SIDED|95.0|-14.0|-1.0|||ANOVA|||PnC 6B(Seroconversion percentage difference (PUS1 - PUS2))||-1|-14|
82362418|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.144||0.355||95.0|-0.426|0.156|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.156|-0.426|0.3550
82362419|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.122|STANDARD_ERROR_OF_MEAN|0.092||0.1888||95.0|-0.304|0.06|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.060|-0.304|0.1888
82362420|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.092||0.3774||95.0|-0.262|0.1|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.100|-0.262|0.3774
82362421|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.087||0.9452||95.0|-0.178|0.166|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.166|-0.178|0.9452
82362422|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.089||0.7663||95.0|-0.201|0.148|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.148|-0.201|0.7663
82362423|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.074||0.5777||95.0|-0.104|0.186|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.186|-0.104|0.5777
82362424|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.075||0.2916||95.0|-0.069|0.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.227|-0.069|0.2916
82362425|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.069||0.8389||95.0|-0.15|0.122|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.122|-0.150|0.8389
82362426|NCT00442546|164435972|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.07||0.0734||95.0|-0.012|0.266|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.266|-0.012|0.0734
82362427|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.084||0.1949||95.0|-0.276|0.057|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.057|-0.276|0.1949
82362428|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.052|STANDARD_ERROR_OF_MEAN|0.085||0.5431||95.0|-0.22|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.116|-0.220|0.5431
82362429|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.095|STANDARD_ERROR_OF_MEAN|0.077||0.2164||95.0|-0.247|0.056|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.056|-0.247|0.2164
82362430|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.117|STANDARD_ERROR_OF_MEAN|0.076||0.1251||95.0|-0.266|0.033|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.033|-0.266|0.1251
82362431|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.088||0.4079||95.0|-0.247|0.101|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.101|-0.247|0.4079
82362432|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.088||0.4562||95.0|-0.24|0.108|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.108|-0.240|0.4562
82362433|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.093||0.4526||95.0|-0.254|0.114|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.114|-0.254|0.4526
82362434|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.089||0.6186||95.0|-0.221|0.132|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.132|-0.221|0.6186
82362435|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.109||0.8712||95.0|-0.237|0.202|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.202|-0.237|0.8712
82362436|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.11||0.4784||95.0|-0.3|0.143|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.143|-0.300|0.4784
82362437|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.075||0.2635||95.0|-0.232|0.064|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.064|-0.232|0.2635
82362438|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.075||0.6009||95.0|-0.187|0.108|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.108|-0.187|0.6009
82362439|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.073||0.8559||95.0|-0.13|0.156|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.156|-0.130|0.8559
82362440|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.074||0.9841||95.0|-0.147|0.144|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.144|-0.147|0.9841
82362441|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.061||0.6771||95.0|-0.095|0.146|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.146|-0.095|0.6771
82362442|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.062||0.3717||95.0|-0.067|0.178|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.178|-0.067|0.3717
82362443|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.058||0.9863||95.0|-0.114|0.116|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.116|-0.114|0.9863
82362444|NCT00442546|164435973|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.059||0.0355||95.0|0.009|0.243|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.243|0.009|0.0355
82362445|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.202||0.8071||95.0|-0.35|0.449|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.449|-0.350|0.8071
82362446|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.204||0.8282||95.0|-0.359|0.447|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.447|-0.359|0.8282
82362447|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.192||0.8972||95.0|-0.353|0.403|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.403|-0.353|0.8972
82362448|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.19||0.8159||95.0|-0.329|0.418|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.418|-0.329|0.8159
82362449|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.188||0.8577||95.0|-0.337|0.405|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.405|-0.337|0.8577
82362450|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.188||0.8158||95.0|-0.415|0.327|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.327|-0.415|0.8158
82391787|NCT05127304|164494527|OTHER|||||||0.036|||||||Weighted clustered linear regression|||Inpatient visits||||0.036
82391788|NCT05127304|164494527|OTHER|||||||0.001|||||||Weighted clustered linear regression|||Other medical visits||||0.001
82575058|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-4.0|5.0|||ANOVA|||PnC 9V (Seroconversion percentage difference (PUS1 - PUS2))||5|-4|
82362451|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.195||0.4243||95.0|-0.229|0.541|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.541|-0.229|0.4243
82362452|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.205|STANDARD_ERROR_OF_MEAN|0.187||0.2742||95.0|-0.164|0.574|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||0.574|-0.164|0.2742
82362453|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.069|STANDARD_ERROR_OF_MEAN|0.116||0.5569||95.0|-0.302|0.165|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.165|-0.302|0.5569
82362454|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.116||0.3762||95.0|-0.13|0.336|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||0.336|-0.130|0.3762
82362455|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.155||0.6203||95.0|-0.229|0.383|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.383|-0.229|0.6203
82362456|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.155||0.3343||95.0|-0.155|0.455|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.455|-0.155|0.3343
82362457|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.128||0.2213||95.0|-0.096|0.41|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.410|-0.096|0.2213
82362458|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.131||0.2863||95.0|-0.118|0.399|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.399|-0.118|0.2863
82362459|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.082||0.305||95.0|-0.077|0.245|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.245|-0.077|0.3050
82362460|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.083||0.0155||95.0|0.039|0.368|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.368|0.039|0.0155
82362461|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.087||0.9243||95.0|-0.164|0.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.181|-0.164|0.9243
82362462|NCT00442546|164435974|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.089||0.0201||95.0|0.033|0.386|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.386|0.033|0.0201
82391789|NCT05127304|164494528|OTHER|||||||0.162|||||||Weighted clustered linear regression|||||||0.162
82391790|NCT05127304|164494529|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
82391791|NCT05127304|164494530|OTHER|||||||0.065|||||||Weighted clustered linear regression|||Ambulatory visits||||0.065
82391792|NCT05127304|164494530|OTHER|||||||0.102|||||||Weighted clustered linear regression|||Office visits||||0.102
82391793|NCT05127304|164494530|OTHER|||||||0.1|||||||Weighted clustered linear regression|||Outpatient visits||||0.100
82391794|NCT05127304|164494530|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Emergency room visits||||0.189
82391795|NCT05127304|164494530|OTHER|||||||0.024|||||||Weighted clustered linear regression|||Inpatient visits||||0.024
82391796|NCT05127304|164494530|OTHER|||||||0.767|||||||Weighted clustered linear regression|||Other medical visits||||0.767
82391797|NCT05127304|164494531|OTHER|||||||0.357|||||||Weighted clustered linear regression|||||||0.357
82362463|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.321||0.1537||95.0|-1.093|0.173|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.173|-1.093|0.1537
82362464|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.398|STANDARD_ERROR_OF_MEAN|0.324||0.2208||95.0|-1.038|0.241|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.241|-1.038|0.2208
82362465|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.325||0.8355||95.0|-0.707|0.572|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.572|-0.707|0.8355
82362466|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.331||0.5024||95.0|-0.875|0.43|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.430|-0.875|0.5024
82362467|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.282||0.8116||95.0|-0.489|0.624|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.624|-0.489|0.8116
82362468|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.288||0.7325||95.0|-0.667|0.469|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.469|-0.667|0.7325
82362469|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.278||0.8133||95.0|-0.614|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.482|-0.614|0.8133
82391798|NCT05127304|164494532|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Ambulatory visits||||0.002
82391799|NCT05127304|164494532|OTHER|||||||0.42|||||||Weighted clustered linear regression|||Office visits||||0.420
82391800|NCT05127304|164494532|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Outpatient visits||||0.002
82391801|NCT05127304|164494532|OTHER|||||||0.304|||||||Weighted clustered linear regression|||Emergency room visits||||0.304
82391802|NCT05127304|164494532|OTHER|||||||0.326|||||||Weighted clustered linear regression|||Inpatient visits||||0.326
82391803|NCT05127304|164494532|OTHER|||||||0.007|||||||Weighted clustered linear regression|||Other medical visits||||0.007
82362470|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.285||0.9307||95.0|-0.588|0.538|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.538|-0.588|0.9307
82391804|NCT05127304|164494533|OTHER|||||||0.52|||||||Weighted clustered linear regression|||||||0.520
82391805|NCT05127304|164494534|OTHER|||||||0.037|||||||Weighted clustered linear regression|||||||0.037
82391806|NCT05127304|164494535|OTHER|||||||0.06|||||||Weighted clustered linear regression|||Medical costs||||0.060
82362471|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.439||0.2682||95.0|-1.364|0.385|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.385|-1.364|0.2682
82362472|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.294|STANDARD_ERROR_OF_MEAN|0.413||0.4784||95.0|-1.116|0.528|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.528|-1.116|0.4784
82391807|NCT05127304|164494535|OTHER|||||||0.177|||||||Weighted clustered linear regression|||Ambulatory costs||||0.177
82391808|NCT05127304|164494535|OTHER|||||||0.834|||||||Weighted clustered linear regression|||Office visits costs||||0.834
82391809|NCT05127304|164494535|OTHER|||||||0.121|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.121
82391810|NCT05127304|164494535|OTHER|||||||0.159|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.159
82362473|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.661|STANDARD_ERROR_OF_MEAN|0.298||0.0255||95.0|0.084|1.239|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.239|0.084|0.0255
82362474|NCT00442546|164435975|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.448|STANDARD_ERROR_OF_MEAN|0.314||0.1591||95.0|-0.18|1.076|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.076|-0.180|0.1591
82362475|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.372||0.0359||95.0|-1.52|-0.052|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.052|-1.520|0.0359
82362476|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.907|STANDARD_ERROR_OF_MEAN|0.374||0.0161||95.0|-1.644|-0.17|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.170|-1.644|0.0161
82391811|NCT05127304|164494535|OTHER|||||||0.289|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.289
82391812|NCT05127304|164494535|OTHER|||||||0.055|||||||Weighted clustered linear regression|||Other medical costs||||0.055
82391813|NCT05127304|164494535|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
82391814|NCT05127304|164494535|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
82391815|NCT05127304|164494536|OTHER|||||||0.066|||||||Weighted clustered linear regression|||Medical costs||||0.066
82391816|NCT05127304|164494536|OTHER|||||||0.193|||||||Weighted clustered linear regression|||Ambulatory costs||||0.193
82391817|NCT05127304|164494536|OTHER|||||||0.117|||||||Weighted clustered linear regression|||Office visits costs||||0.117
82391818|NCT05127304|164494536|OTHER|||||||0.25|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.250
82391819|NCT05127304|164494536|OTHER|||||||0.431|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.431
82391820|NCT05127304|164494536|OTHER|||||||0.129|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.129
82391821|NCT05127304|164494536|OTHER|||||||0.236|||||||Weighted clustered linear regression|||Other medical costs||||0.236
82391822|NCT05127304|164494536|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
82391823|NCT05127304|164494536|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
82391824|NCT05127304|164494537|OTHER|||||||0.057|||||||Weighted clustered linear regression|||Medical costs||||0.057
82391825|NCT05127304|164494537|OTHER|||||||0.182|||||||Weighted clustered linear regression|||Ambulatory costs||||0.182
82642283|NCT02684370|164999844|OTHER||Mean Difference (Final Values)|-5.765|||<|0.001|TWO_SIDED|95.0|-6.496|-5.035|||van Elteren test|||P-value calculated by the van Elteren test stratified for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||-5.035|-6.496|<0.001
82642284|NCT01783860|164999845|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 1 sided|||||||0.03
82642285|NCT01783860|164999846|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||||||0.01
82642286|NCT01783860|164999847|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 1 sided|||||||0.007
82642287|NCT01783860|164999848|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 1 sided|||||||> 0.05
82642288|NCT01783860|164999849|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 1 sided|||||||0.02
82642289|NCT01783860|164999850|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 1 sided|||||||0.08
82642290|NCT00258310|164999851|SUPERIORITY_OR_OTHER_LEGACY||proportion|0.74|||||TWO_SIDED|95.0|0.59|0.9||||||||.90|.59|
82391826|NCT05127304|164494537|OTHER|||||||0.083|||||||Weighted clustered linear regression|||Office visits costs||||0.083
82391827|NCT05127304|164494537|OTHER|||||||0.245|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.245
82391828|NCT05127304|164494537|OTHER|||||||0.386|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.386
82575059|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Diphtheria (Seroconversion percentage di|1.0|||||TWO_SIDED|95.0|-1.0|5.0|||ANOVA|||PnC 14 (Seroconversion percentage difference (PUS1 - PUS2))||5|-1|
82642291|NCT03992261|164999856|OTHER|"Mean, median, SD, minimum/maximum determined for total amount of test article used by each subject in Safety, Evaluable, and PK populations HPA Axis Suppression: Proportion of subjects manifesting laboratory evidence of adrenal suppression at EOS were presented with 95% confidence intervals (CIs) for Evaluable and Safety populations. Descriptive statistics for daily dose of test article were tabulated separately for suppressed and non-suppressed subjects.~PK: Screening, Day 8, Day 15"||||||0.05|||||||ANOVA|||Outcome measure: extent of exposure, HPA axis suppression, and pharmacokinetic analysis.||||0.05
82642292|NCT00256217|164999857|OTHER||Mean Difference (Final Values)|4.9||||0.004|TWO_SIDED|95.0|1.8|8.0|||Wilcoxon (Mann-Whitney)|||||8.0|1.8|0.004
82642293|NCT00256217|164999858|OTHER||Mean Difference (Final Values)|0.3||||0.016|TWO_SIDED|95.0|0.1|0.49|||Wilcoxon (Mann-Whitney)|||||0.49|0.10|0.016
82642294|NCT01833897|164999874|SUPERIORITY_OR_OTHER||||||<|0.001||||||F1,6.4=161.8,|linear mixed model|||||||<0.001
82391829|NCT05127304|164494537|OTHER|||||||0.115|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.115
82391830|NCT05127304|164494537|OTHER|||||||0.237|||||||Weighted clustered linear regression|||Other medical costs||||0.237
82391831|NCT05127304|164494537|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
82391832|NCT05127304|164494537|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
82391833|NCT05127304|164494538|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Medical costs||||0.189
82391834|NCT05127304|164494538|OTHER|||||||0.314|||||||Weighted clustered linear regression|||Ambulatory costs||||0.314
82391835|NCT05127304|164494538|OTHER|||||||0.203|||||||Weighted clustered linear regression|||Office visits costs||||0.203
82391836|NCT05127304|164494538|OTHER|||||||0.379|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.379
82642295|NCT01833897|164999875|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82642296|NCT01833897|164999876|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||0.026
82642297|NCT01833897|164999877|SUPERIORITY_OR_OTHER|||||||0.011|||||||ANOVA|||||||0.011
82642298|NCT01833897|164999878|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82642299|NCT01244516|164999900|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at -5.|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|97.4|-5.91|6.7|||Mixed Models Analysis|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP - AOA.|This comparison is between galyfilcon and lotrafilcon B. Ho: galyfilcon A -lotrafilcon B \<= -5. Ha: galyfilcon A - lotrafilcon B \> -5.||6.70|-5.91|
82642300|NCT01244516|164999900|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at -5.|Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|97.4|-5.96|6.79|||Mixed Models Analysis|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP - BIO.|This comparison is between galyfilcon A and comfilcon A. Ho: gayfilcon A- comfilcon A \<= -5. Ha: galyfilcon A- comfilcon A\> -5.||6.79|-5.96|
82642301|NCT01244516|164999901|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at \> 0.75. Superiority is concluded is the 97.4% CL \> 1.|Odds Ratio (OR)|1.66|||||TWO_SIDED|97.4|1.14|2.44|||Regression, Logistic|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.|The direction of comparison is AAHP/AOA.|The comparison is between galyfilcon A (AAHP) and lotrafilcon B (AOA) for comparing proportions of those with corneal staining and those without. Ho: OR = 1 for (AAHP/AOA). Ha: OR \> 1 for (AAHP/AOA).||2.44|1.14|
82642302|NCT01244516|164999901|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is set at \> 0.75. Superiority is concluded is the 97.4% CL \> 1.|Odds Ratio (OR)|1.66|||||TWO_SIDED|97.4|1.14|2.44|||Regression, Logistic|Alpha is adjusted to 1.3% based on a Sidak multiplicity correction.||The comparison is between galyfilcon A (AAHP) and comfilcon A (BIO) for comparing proportions of those with corneal staining and those without. Ho: OR = 1 for (AAHP/BIO). Ha: OR \> 1 for (AAHP/BIO).||2.44|1.14|
82642303|NCT04035694|164999910|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.41|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.41
82444228|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||||95.0|0.99|3.28||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 4||3.28|0.99|
82444229|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||||95.0|0.82|2.85||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 5||2.85|0.82|
82444230|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||||95.0|0.71|2.48||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 6||2.48|0.71|
82444231|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||||95.0|0.85|2.83||P-value less that the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the HAM-A remission at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 8||2.83|0.85|
82444232|NCT00413010|164597014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||||95.0|0.92|2.53|||Regression, Logistic|Based on fitting a logistic regression on the HAM-A responders at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a remitter (yes) for pregabalin relative to the odds of being a remitter for placebo.|Week 8 Last Observation Carried Foward (LOCF)||2.53|0.92|
82444233|NCT00413010|164597015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0137||||||P-value corresponds to the 2-sided log-rank test.|Log Rank|2-sided log-rank test||Kaplan Meier product limit estimate for calculating median time in days to onset sustained HAM-A Improvement.||||0.0137
82444234|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.54||||||95.0|0.96|2.47||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic|Based on fitting a logistic regression on the CGI-I responders at Week 8 with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 1||2.47|0.96|
82444235|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.58||||||95.0|1.01|2.47||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 2||2.47|1.01|
82444236|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75||||||95.0|1.09|2.82||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 3||2.82|1.09|
82444237|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||||95.0|0.77|2.05||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 4||2.05|0.77|
82444238|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||||95.0|0.72|2.11||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 5||2.11|0.72|
82391837|NCT05127304|164494538|OTHER|||||||0.815|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.815
82391838|NCT05127304|164494538|OTHER|||||||0.205|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.205
82391839|NCT05127304|164494538|OTHER|||||||0.556|||||||Weighted clustered linear regression|||Other medical costs||||0.556
82391840|NCT05127304|164494538|OTHER|||||||0.189|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||0.189
82391841|NCT05127304|164494539|OTHER|||||||0.483|||||||Weighted clustered linear regression|||Medical costs||||0.483
82391842|NCT05127304|164494539|OTHER|||||||0.002|||||||Weighted clustered linear regression|||Ambulatory costs||||0.002
82391843|NCT05127304|164494539|OTHER|||||||0.123|||||||Weighted clustered linear regression|||Office visits costs||||0.123
82391844|NCT05127304|164494539|OTHER|||||||0.003|||||||Weighted clustered linear regression|||Outpatient visits costs||||0.003
82391845|NCT05127304|164494539|OTHER|||||||0.17|||||||Weighted clustered linear regression|||Emergency room visits costs||||0.170
82391846|NCT05127304|164494539|OTHER|||||||0.582|||||||Weighted clustered linear regression|||Inpatient stay costs||||0.582
82527565|NCT03502616|164751414|SUPERIORITY||Difference in percentage|4.34|STANDARD_ERROR_OF_MEAN|5.67||0.4442|TWO_SIDED|95.0|-6.78|15.46|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.46|-6.78|0.4442
82527566|NCT03502616|164751414|SUPERIORITY||Difference in percentage|6.38|STANDARD_ERROR_OF_MEAN|5.92||0.281|TWO_SIDED|95.0|-5.22|17.97|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.97|-5.22|0.2810
82362477|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.105|STANDARD_ERROR_OF_MEAN|0.319||0.7416||95.0|-0.733|0.523|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.523|-0.733|0.7416
82362478|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.324||0.3527||95.0|-0.939|0.336|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.336|-0.939|0.3527
82362479|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.184|STANDARD_ERROR_OF_MEAN|0.3||0.5419||95.0|-0.776|0.409|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.409|-0.776|0.5419
82362480|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.305||0.9333||95.0|-0.628|0.577|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.577|-0.628|0.9333
82362481|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.354|STANDARD_ERROR_OF_MEAN|0.24||0.142||95.0|-0.827|0.12|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.120|-0.827|0.1420
82362482|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.245||0.829||95.0|-0.535|0.429|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.429|-0.535|0.8290
82391847|NCT05127304|164494539|OTHER|||||||0.887|||||||Weighted clustered linear regression|||Other medical costs||||0.887
82391848|NCT05127304|164494539|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Pharmacy costs||||<0.001
82391849|NCT05127304|164494539|OTHER||||||<|0.001|||||||Weighted clustered linear regression|||Total (medical + pharmacy) costs||||<0.001
82391850|NCT05127304|164494540|OTHER|||||||0.205|||||||Weighted clustered linear regression|||Any COPD exacerbation||||0.205
82391851|NCT05127304|164494540|OTHER|||||||0.454|||||||Weighted clustered linear regression|||Severe COPD exacerbation||||0.454
82527567|NCT03502616|164751414|SUPERIORITY||Difference in percentage|5.54|STANDARD_ERROR_OF_MEAN|5.95||0.3514|TWO_SIDED|95.0|-6.12|17.2|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||17.20|-6.12|0.3514
82527568|NCT03502616|164751415|SUPERIORITY||Difference in percentage|8.84|STANDARD_ERROR_OF_MEAN|2.74||0.0013|TWO_SIDED|95.0|3.46|14.21|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.21|3.46|0.0013
82444239|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||||95.0|0.84|2.5|||Regression, Logistic|P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 6||2.50|0.84|
82527569|NCT03502616|164751415|SUPERIORITY||Difference in percentage|16.25|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|95.0|9.13|23.36|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||23.36|9.13|<0.0001
82362483|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.111|STANDARD_ERROR_OF_MEAN|0.441||0.0138||95.0|-1.989|-0.233|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||-0.233|-1.989|0.0138
82362484|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.503|STANDARD_ERROR_OF_MEAN|0.416||0.23||95.0|-1.332|0.325|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.325|-1.332|0.2300
82362485|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.268||0.5151||95.0|-0.36|0.711|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||0.711|-0.360|0.5151
82362486|NCT00442546|164435976|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.433|STANDARD_ERROR_OF_MEAN|0.295||0.146||95.0|-0.155|1.022|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.022|-0.155|0.1460
82362487|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.258|STANDARD_ERROR_OF_MEAN|0.463||0.5786||95.0|-1.17|0.655|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.655|-1.170|0.5786
82391852|NCT05127304|164494541|OTHER|||||||0.06|||||||Rao-Scott test|||||||0.060
82391853|NCT05174949|164494553|SUPERIORITY|We performed a linear regression analysis (generalized estimating equations) in which we compared both intervention groups to the sham group and added a time interaction term|Mean Difference (Final Values)|5.4|STANDARD_DEVIATION|3.58|<|0.0001|TWO_SIDED|95.0|2.4|8.4||Anode compared to sham: p = 0.0516 Cathode compared to sham: p \<.0001 . Anode change over time compared to sham p=0.0255 Cathode change over time compared to sham p\<.0001|Generalized Estimating Equations||Anode mean change = 4.13 std = 4.29 CLM = 0.5-7.7 Cathode mean change = 5.38 std = 3.58 CLM=2.4-8.4|We will report first anode compared to sham and then cathode compared to sham||8.4|2.4|<0.0001
82391854|NCT05174949|164494554|SUPERIORITY||Mean Difference (Final Values)|-24.2|STANDARD_DEVIATION|9.5||0.002|TWO_SIDED|95.0|-32.2|-16.2||anode compared to sham p= 0.0020 cathode compared to sham p = 0.0088 anode over time anode compared to sham p \<.0001 Cathode over time compared to sham p \<.0001|Regression, Cox||anode -24.2 (-32.2, -16.2) cathode -22.2 (-30.6, -13.8)|We compared anode to sham We compared cathode to sham We compared the change over time of anode to sham We compared the change over time of cathode to shal||-16.2|-32.2|0.0020
82527570|NCT03502616|164751415|SUPERIORITY||Difference in percentage|20.31|STANDARD_ERROR_OF_MEAN|4.03|<|0.0001|TWO_SIDED|95.0|12.41|28.2|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||28.20|12.41|<0.0001
82362488|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.025|STANDARD_ERROR_OF_MEAN|0.467||0.957||95.0|-0.895|0.946|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.946|-0.895|0.9570
82362489|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.434||0.986||95.0|-0.862|0.847|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.847|-0.862|0.9860
82362490|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.151|STANDARD_ERROR_OF_MEAN|0.442||0.7336||95.0|-1.021|0.72|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.720|-1.021|0.7336
82362491|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.384|STANDARD_ERROR_OF_MEAN|0.365||0.2939||95.0|-0.336|1.104|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.104|-0.336|0.2939
82362492|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.372||0.4615||95.0|-0.459|1.008|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.008|-0.459|0.4615
82362493|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.161|STANDARD_ERROR_OF_MEAN|0.347||0.6433||95.0|-0.845|0.523|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.523|-0.845|0.6433
82362494|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.356||0.9466||95.0|-0.678|0.726|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.726|-0.678|0.9466
82362495|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.424|STANDARD_ERROR_OF_MEAN|0.621||0.4967||95.0|-1.66|0.812|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.812|-1.660|0.4967
82362496|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.582||0.8659||95.0|-1.06|1.257|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.257|-1.060|0.8659
82362497|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.994|STANDARD_ERROR_OF_MEAN|0.451||0.0311||95.0|0.093|1.895|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.895|0.093|0.0311
82362498|NCT00442546|164435977|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.995|STANDARD_ERROR_OF_MEAN|0.485||0.0441||95.0|0.027|1.962|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.962|0.027|0.0441
82362499|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.969|STANDARD_ERROR_OF_MEAN|0.439||0.0284||95.0|-1.835|-0.104|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.104|-1.835|0.0284
82391855|NCT05174949|164494555|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.0001|TWO_SIDED|95.0|0.0|0.1||Compare anode to sham p= 0.0001 Compare cathode to sham p=0.1073 Compare anode change in time to sham p=0.0938 Compare cathode change in time to sham 0.0068|Regression, Linear|Using generalized estimating equations with group and time component|Anode = 0.077 (0.00, 0.10) Cathode = -.0.125 (-0.32 0.07 )|e compare anode to sham We compare cathode to sham||0.10|0.00|0.0001
82391856|NCT01203826|164494601|OTHER|||||||0.0005|||||||Wilcoxon signed-rank test|P-value based on Wilcoxon signed-rank test.||Change is relative to Baseline in Study ENB-006-09 (NCT00952484). The RGI-C score represents evaluations of skeletal X-rays at each post-treatment study timepoint in Study ENB-008-10 compared with pre-treatment X-rays from Study ENB-006-09, using an ordinal scale. Therefore, no Baseline data for RGI-C are available.||||0.0005
82391857|NCT03379753|164494616|OTHER||U statistic|984.5||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
82391858|NCT04017832|164494621|SUPERIORITY||Mean Difference (Net)|-0.2||||0.0078|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.1|-0.3|0.0078
82362500|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.265|STANDARD_ERROR_OF_MEAN|0.444||0.5516||95.0|-1.141|0.611|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.611|-1.141|0.5516
82362501|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.38||0.479||95.0|-1.02|0.48|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.480|-1.020|0.4790
82362502|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.39||0.9947||95.0|-0.765|0.77|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.770|-0.765|0.9947
82362503|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.329||0.8943||95.0|-0.605|0.692|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.692|-0.605|0.8943
82362504|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.336||0.9767||95.0|-0.674|0.654|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.654|-0.674|0.9767
82362505|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.34||0.8117||95.0|-0.59|0.752|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.752|-0.590|0.8117
82362506|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.125|STANDARD_ERROR_OF_MEAN|0.351||0.7216||95.0|-0.818|0.567|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.567|-0.818|0.7216
82362507|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.592||0.8558||95.0|-1.286|1.07|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.070|-1.286|0.8558
82362508|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.422|STANDARD_ERROR_OF_MEAN|0.556||0.4501||95.0|-1.53|0.685|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.685|-1.530|0.4501
82391859|NCT04017832|164494621|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.6||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.6|-0.8|<0.0001
82391860|NCT04017832|164494621|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||Unadjusted two-sided p-value|Mixed model for repeated measurements|||||-0.8|-1.1|< 0.0001
82391861|NCT02417961|164494706|SUPERIORITY_OR_OTHER||Percentage|98.2||||||95.0|93.81|99.79|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 12)|||99.79|93.81|
82362509|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.328|STANDARD_ERROR_OF_MEAN|0.45||0.4682||95.0|-0.57|1.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.227|-0.570|0.4682
82362510|NCT00442546|164435978|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.492||0.5347||95.0|-0.675|1.289|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.289|-0.675|0.5347
82362511|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.765|STANDARD_ERROR_OF_MEAN|0.407||0.0613||95.0|-1.568|0.037|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.037|-1.568|0.0613
82362512|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.936|STANDARD_ERROR_OF_MEAN|0.409||0.023||95.0|-1.741|-0.13|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||-0.130|-1.741|0.0230
82362513|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.4||0.8306||95.0|-0.703|0.875|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.875|-0.703|0.8306
82362514|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.439|STANDARD_ERROR_OF_MEAN|0.407||0.2814||95.0|-1.242|0.363|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.363|-1.242|0.2814
82362515|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.353||0.8637||95.0|-0.636|0.757|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.757|-0.636|0.8637
82362516|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.359||0.9585||95.0|-0.727|0.689|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.689|-0.727|0.9585
82362517|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.272|STANDARD_ERROR_OF_MEAN|0.321||0.3975||95.0|-0.906|0.361|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.361|-0.906|0.3975
82362518|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.154|STANDARD_ERROR_OF_MEAN|0.327||0.6386||95.0|-0.799|0.491|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.491|-0.799|0.6386
82362519|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.702|STANDARD_ERROR_OF_MEAN|0.397||0.0813||95.0|-1.493|0.089|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.089|-1.493|0.0813
82362520|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.378|STANDARD_ERROR_OF_MEAN|0.37||0.31||95.0|-1.114|0.358|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.358|-1.114|0.3100
82362521|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.831|STANDARD_ERROR_OF_MEAN|0.357||0.0231||95.0|0.118|1.545|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.545|0.118|0.0231
82444240|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||||95.0|0.61|1.84||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8||1.84|0.61|
82362522|NCT00442546|164435979|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.463|STANDARD_ERROR_OF_MEAN|0.388||0.2367||95.0|-0.311|1.237|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.237|-0.311|0.2367
82362523|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.064|STANDARD_ERROR_OF_MEAN|0.448||0.8868||95.0|-0.947|0.82|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.820|-0.947|0.8868
82362524|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.254|STANDARD_ERROR_OF_MEAN|0.45||0.5733||95.0|-1.142|0.634|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.634|-1.142|0.5733
82362525|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.384||0.7385||95.0|-0.884|0.628|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.628|-0.884|0.7385
82362526|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.39||0.8353||95.0|-0.849|0.687|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.687|-0.849|0.8353
82362527|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.362||0.5737||95.0|-0.51|0.918|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.918|-0.510|0.5737
82362528|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.335|STANDARD_ERROR_OF_MEAN|0.368||0.364||95.0|-1.06|0.391|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.391|-1.060|0.3640
82362529|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.332||0.4315||95.0|-0.393|0.917|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.917|-0.393|0.4315
82362530|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.339||0.6727||95.0|-0.525|0.812|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.812|-0.525|0.6727
82362531|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.489|STANDARD_ERROR_OF_MEAN|0.505||0.3361||95.0|-1.496|0.517|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.517|-1.496|0.3361
82362532|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.469||0.9634||95.0|-0.955|0.912|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.912|-0.955|0.9634
82362533|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.446|STANDARD_ERROR_OF_MEAN|0.352||0.2098||95.0|-0.257|1.15|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.150|-0.257|0.2098
82362534|NCT00442546|164435980|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.382||0.49||95.0|-0.497|1.027|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.027|-0.497|0.4900
82362535|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.546||0.9912||95.0|-1.07|1.082|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||1.082|-1.070|0.9912
82642304|NCT04035694|164999911|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.11
82642305|NCT04035694|164999912|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.54|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.54
82362536|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.135|STANDARD_ERROR_OF_MEAN|0.554||0.8076||95.0|-1.227|0.957|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.957|-1.227|0.8076
82362537|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.46||0.6978||95.0|-0.727|1.085|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.085|-0.727|0.6978
82362538|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.47||0.5344||95.0|-1.219|0.634|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.634|-1.219|0.5344
82362539|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.384||0.8721||95.0|-0.819|0.695|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.695|-0.819|0.8721
82362540|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.395|STANDARD_ERROR_OF_MEAN|0.394||0.3179||95.0|-1.173|0.383|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.383|-1.173|0.3179
82362541|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.376||0.8037||95.0|-0.648|0.835|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.835|-0.648|0.8037
82362542|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.39||0.7731||95.0|-0.656|0.881|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.881|-0.656|0.7731
82362543|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.468|STANDARD_ERROR_OF_MEAN|0.611||0.4461||95.0|-1.684|0.748|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.748|-1.684|0.4461
82362544|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.533|STANDARD_ERROR_OF_MEAN|0.575||0.3568||95.0|-1.679|0.612|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.612|-1.679|0.3568
82362545|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.598|STANDARD_ERROR_OF_MEAN|0.315||0.0623||95.0|-0.032|1.227|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.227|-0.032|0.0623
82362546|NCT00442546|164435981|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.343||0.3529||95.0|-0.364|1.005|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.005|-0.364|0.3529
82362547|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.611|STANDARD_ERROR_OF_MEAN|0.417||0.1448||95.0|-1.434|0.212|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.212|-1.434|0.1448
82362548|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.665|STANDARD_ERROR_OF_MEAN|0.42||0.1148||95.0|-1.494|0.163|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.163|-1.494|0.1148
82362549|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.448|STANDARD_ERROR_OF_MEAN|0.458||0.3285||95.0|-1.35|0.454|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.454|-1.350|0.3285
82362550|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.572|STANDARD_ERROR_OF_MEAN|0.466||0.2205||95.0|-1.49|0.346|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.346|-1.490|0.2205
82362551|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.389||0.6266||95.0|-0.958|0.578|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.578|-0.958|0.6266
82362552|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.502|STANDARD_ERROR_OF_MEAN|0.397||0.2077||95.0|-1.284|0.281|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.281|-1.284|0.2077
82362553|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.223|STANDARD_ERROR_OF_MEAN|0.385||0.5626||95.0|-0.982|0.536|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.536|-0.982|0.5626
82391862|NCT02417961|164494706|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|94.99|99.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 16)|||99.98|94.99|
82391863|NCT02417961|164494706|SUPERIORITY_OR_OTHER||Percentage|93.0|||||TWO_SIDED|95.0|86.64|96.92|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 and 16)|Percentage of patients who successfully administered benralizumab with an APFS at home (Week 12 and 16)|||96.92|86.64|
82391864|NCT02417961|164494707|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|95.21|99.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients returned functional APFS administered at home (Week 12)|||99.98|95.21|
82362554|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.368|STANDARD_ERROR_OF_MEAN|0.394||0.3507||95.0|-1.145|0.408|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.408|-1.145|0.3507
82362555|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.224|STANDARD_ERROR_OF_MEAN|0.64||0.7276||95.0|-1.498|1.05|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||1.050|-1.498|0.7276
82362556|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.598||0.353||95.0|-1.748|0.631|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 3||0.631|-1.748|0.3530
82362557|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.186|STANDARD_ERROR_OF_MEAN|0.529||0.0283||95.0|0.13|2.242|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||2.242|0.130|0.0283
82362558|NCT00442546|164435982|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.573||0.6934||95.0|-0.918|1.372|||ANOVA||Mean difference (final values) = Least squares mean difference|Month 6||1.372|-0.918|0.6934
82362559|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.553|STANDARD_ERROR_OF_MEAN|0.77||0.0476||95.0|-3.089|-0.017|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.017|-3.089|0.0476
82362560|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.768|STANDARD_ERROR_OF_MEAN|0.764||0.0237||95.0|-3.293|-0.243|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.243|-3.293|0.0237
82362561|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.402||0.4925||95.0|-0.516|1.069|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||1.069|-0.516|0.4925
82362562|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.414||0.8299||95.0|-0.727|0.905|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.905|-0.727|0.8299
82362563|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.37||0.9185||95.0|-0.766|0.691|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.691|-0.766|0.9185
82391865|NCT02417961|164494707|SUPERIORITY_OR_OTHER||Percentage|99.1|||||TWO_SIDED|95.0|94.99|99.98|||Clopper Pearson Exact CI|One sample confidence interval (Week 16)|Percentage of patients returned functional APFS administered at home (Week 16)|||99.98|94.99|
82391866|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.13|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0)|Percentage of mulfunctioning APFS used to administer benralizumab at home or clinic (Week 0)|||3.13|0.00|
82391867|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.9|||||TWO_SIDED|95.0|0.02|4.67|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 4)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 4)|||4.67|0.02|
82391868|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.16|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 8)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 8)|||3.16|0.00|
82391869|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.13|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 12)|||3.13|0.00|
82391870|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.33|||Clopper-Pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 16)|||3.33|0|
82391871|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.3|||||TWO_SIDED|95.0|0.01|1.59|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 8)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 0 to 8)|||1.59|0.01|
82391872|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|1.63|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 to 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 12 to 16)|||1.63|0.00|
82391873|NCT02417961|164494708|SUPERIORITY_OR_OTHER||Percentage|0.2|||||TWO_SIDED|95.0|0.0|0.97|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 16)|Percentage of malfunctioning APFS used to administer benralizumab at home or clinic (Week 0 to 16)|||0.97|0.00|
82425953|NCT01959932|164560544|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|8.38|||<|0.001|TWO_SIDED|95.0|6.89|10.2||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||10.20|6.89|<0.001
82362564|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.339|STANDARD_ERROR_OF_MEAN|0.371||0.3619||95.0|-1.07|0.392|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.392|-1.070|0.3619
82362565|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.358|STANDARD_ERROR_OF_MEAN|0.453||0.4309||95.0|-0.538|1.254|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||1.254|-0.538|0.4309
82362566|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.459||0.9778||95.0|-0.895|0.921|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.921|-0.895|0.9778
82362567|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.777||0.8503||95.0|-1.411|1.706|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.706|-1.411|0.8503
82362568|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.845|STANDARD_ERROR_OF_MEAN|0.757||0.0183||95.0|-3.364|-0.326|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.326|-3.364|0.0183
82362569|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.141|STANDARD_ERROR_OF_MEAN|0.956||0.286||95.0|-3.598|1.316|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||1.316|-3.598|0.2860
82362570|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|1.856||0.204||95.0|-7.479|2.06|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||2.060|-7.479|0.2040
82362571|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.295||0.6332||95.0|-0.722|0.44|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.440|-0.722|0.6332
82391874|NCT00197002|164494732|NON_INFERIORITY_OR_EQUIVALENCE|"The two-sided standardized asymptotic 95% confidence interval (CI) for the difference in seropositivity rates \[Havrix+Prevnar Group minus Havrix Group\] was computed. The anti-HAV seropositivity rates in the Havrix+Prevnar Group were considered as non-inferior to the seropositivity rates in the Havrix Group, if the lower limit of the 95% CI was not lower (≥) than -5%.~The non-inferiority was concluded if both non-inferiority criteria (for seropositivity rates and GMCs) were met."|Difference in seropositivity rate|-1.06|||||TWO_SIDED|95.0|-5.78|2.45||||||"Difference in seropositivity rates for anti-HAV:~To demonstrate the non-inferiority of Havrix® vaccine co-administered with Prevnar™ vaccine (Havrix+Prevnar Group), compared to Havrix® vaccine administered alone (Havrix Group), in terms of seropositivity rates and geometric mean concentrations (GMCs) for anti-HAV antibody, one month after Dose 2 of Havrix® vaccine (Month 7-10)."||2.45|-5.78|
82391875|NCT00197002|164494733|NON_INFERIORITY_OR_EQUIVALENCE|"The standardized two-sided 95% CI for the GMC ratio (Havrix+Prevnar Group divided by Havrix Group) was computed. The anti-HAV GMC in the Havrix+Prevnar Group was considered as non-inferior to the anti-HAV GMC in the Havrix Group if the lower limit of the 95% CI was not lower than (≥) 0.5.~The non-inferiority of the anti-HAV immune response in Havrix+Prevnar Group compared to Havrix Group was concluded if both non-inferiority criteria (for seropositivity rates and GMCs) were met."|Adjusted GMC ratio|0.91|||||TWO_SIDED|95.0|0.63|1.31|||ANCOVA|||To demonstrate the non-inferiority of Havrix® vaccine co-administered with Prevnar™ vaccine (Havrix+Prevnar Group), compared to Havrix® vaccine administered alone (Havrix Group), in terms of seropositivity rates and geometric mean concentrations (GMCs) for anti-HAV antibody, one month after Dose 2 of Havrix® vaccine (Month 7-10).||1.31|0.63|
82391876|NCT03569293|164494746|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|63.4|||<|0.001|TWO_SIDED|95.0|57.1|69.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||69.8|57.1|<0.001
82391877|NCT03569293|164494746|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.3|||<|0.001|TWO_SIDED|95.0|46.4|60.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.2|46.4|<0.001
82391878|NCT03569293|164494747|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|47.2|60.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||60.0|47.2|<0.001
82391879|NCT03569293|164494747|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|39.8|||<|0.001|TWO_SIDED|95.0|33.2|46.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||46.4|33.2|<0.001
82391880|NCT03569293|164494748|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.2|||<|0.001|TWO_SIDED|95.0|41.3|55.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||55.0|41.3|<0.001
82391881|NCT03569293|164494748|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.5|||<|0.001|TWO_SIDED|95.0|33.5|47.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||47.5|33.5|<0.001
82426268|NCT02164864|164561477|OTHER||Hazard Ratio (HR)|1.13||||0.3002|TWO_SIDED|95.0|0.9|1.43||Wald 2-sided p-value from (stratified) Cox proportional hazards model|Regression, Cox|The Cox proportional hazard model is stratified by age, non-elderly vs elderly \[\<70 or \>=70 in Japan and \<80 or \>=80 years old elsewhere\].|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.43|0.90|0.3002
82362572|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.303||0.5183||95.0|-0.402|0.794|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.794|-0.402|0.5183
82362573|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.146|STANDARD_ERROR_OF_MEAN|0.306||0.6341||95.0|-0.75|0.458|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.458|-0.750|0.6341
82391882|NCT03569293|164494749|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.8|||<|0.001|TWO_SIDED|95.0|51.5|64.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||64.1|51.5|<0.001
82391883|NCT03569293|164494749|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|45.1|||<|0.001|TWO_SIDED|95.0|38.6|51.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||51.7|38.6|<0.001
82391884|NCT03569293|164494750|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|62.3|||<|0.001|TWO_SIDED|95.0|56.3|68.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||68.3|56.3|<0.001
82391885|NCT03569293|164494750|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.1|||<|0.001|TWO_SIDED|95.0|40.7|53.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.4|40.7|<0.001
82391886|NCT03569293|164494751|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|43.9|||<|0.001|TWO_SIDED|95.0|37.7|50.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.0|37.7|<0.001
82391887|NCT03569293|164494751|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|34.5|||<|0.001|TWO_SIDED|95.0|28.6|40.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||40.5|28.6|<0.001
82391888|NCT03569293|164494752|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|19.2|||<|0.001|TWO_SIDED|95.0|14.6|23.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||23.9|14.6|<0.001
82391889|NCT03569293|164494752|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|14.6|||<|0.001|TWO_SIDED|95.0|10.3|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||18.8|10.3|<0.001
82391890|NCT03569293|164494753|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|8.1|||<|0.001|TWO_SIDED|95.0|3.8|12.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||12.5|3.8|<0.001
82391891|NCT03569293|164494754|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|13.0|||<|0.001|TWO_SIDED|95.0|8.1|17.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||17.8|8.1|<0.001
82527571|NCT03502616|164751415|SUPERIORITY||Difference in percentage|22.77|STANDARD_ERROR_OF_MEAN|4.24|<|0.0001|TWO_SIDED|95.0|14.46|31.08|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||31.08|14.46|<0.0001
82527572|NCT03502616|164751415|SUPERIORITY||Difference in percentage|25.28|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|95.0|16.47|34.1|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||34.10|16.47|<0.0001
82575060|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-3.0|||||TWO_SIDED|95.0|-6.0|1.0|||ANOVA|||PnC 18C (Seroconversion percentage difference (PUS1 - PUS2))||1|-6|
82362574|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.236|STANDARD_ERROR_OF_MEAN|0.32||0.4607||95.0|-0.868|0.395|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.395|-0.868|0.4607
82362575|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.327||0.7499||95.0|-0.541|0.75|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.750|-0.541|0.7499
82362576|NCT00442546|164435983|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.333||0.8231||95.0|-0.584|0.733|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.733|-0.584|0.8231
82362577|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.036|STANDARD_ERROR_OF_MEAN|0.709||0.1486||95.0|-2.452|0.379|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.379|-2.452|0.1486
82362578|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.903|STANDARD_ERROR_OF_MEAN|0.706||0.0089||95.0|-3.311|-0.494|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||-0.494|-3.311|0.0089
82362579|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.344||0.8995||95.0|-0.635|0.722|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.722|-0.635|0.8995
82362580|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.303|STANDARD_ERROR_OF_MEAN|0.354||0.3918||95.0|-1.0|0.394|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.394|-1.000|0.3918
82362581|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.33||0.9942||95.0|-0.648|0.652|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.652|-0.648|0.9942
82362582|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.206|STANDARD_ERROR_OF_MEAN|0.332||0.5352||95.0|-0.859|0.448|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.448|-0.859|0.5352
82362583|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.382||0.8055||95.0|-0.662|0.85|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.850|-0.662|0.8055
82362584|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.446|STANDARD_ERROR_OF_MEAN|0.391||0.256||95.0|-1.22|0.327|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.327|-1.220|0.2560
82362585|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.641||0.8744||95.0|-1.184|1.387|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.387|-1.184|0.8744
82444241|NCT00413010|164597016|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||||95.0|0.71|1.76||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Regression, Logistic||The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. Odds of being a responder (yes) for pregabalin relative to the odds of being a responder for placebo.|Week 8 (LOCF) Last Observation Carried Forward||1.76|0.71|
82362586|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.614|STANDARD_ERROR_OF_MEAN|0.616||0.0115||95.0|-2.851|-0.378|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.378|-2.851|0.0115
82362587|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|1.155||0.9497||95.0|-3.047|2.893|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||2.893|-3.047|0.9497
82527573|NCT03502616|164751415|SUPERIORITY||Difference in percentage|9.41|STANDARD_ERROR_OF_MEAN|5.62||0.0941|TWO_SIDED|95.0|-1.61|20.43|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||20.43|-1.61|0.0941
82362588|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.347|STANDARD_ERROR_OF_MEAN|1.992||0.5288||95.0|-6.467|3.773|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||3.773|-6.467|0.5288
82362589|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.262||0.2595||95.0|-0.813|0.22|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.220|-0.813|0.2595
82362590|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.27||0.9605||95.0|-0.546|0.519|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.519|-0.546|0.9605
82362591|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.207|STANDARD_ERROR_OF_MEAN|0.251||0.4107||95.0|-0.702|0.288|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.288|-0.702|0.4107
82362592|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.318|STANDARD_ERROR_OF_MEAN|0.263||0.2271||95.0|-0.836|0.2|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.200|-0.836|0.2271
82362593|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.263||0.9552||95.0|-0.535|0.506|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.506|-0.535|0.9552
82362594|NCT00442546|164435984|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.268||0.9899||95.0|-0.533|0.526|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.526|-0.533|0.9899
82362595|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.578|STANDARD_ERROR_OF_MEAN|0.471||0.2211||95.0|-0.35|1.506|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||1.506|-0.350|0.2211
82362596|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.809|STANDARD_ERROR_OF_MEAN|0.477||0.0916||95.0|-1.75|0.132|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||0.132|-1.750|0.0916
82362597|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.42||0.9312||95.0|-0.863|0.791|||ANOVA||Mean difference (final values) = Least squares mean difference|8 hours||0.791|-0.863|0.9312
82362598|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.591|STANDARD_ERROR_OF_MEAN|0.425||0.1658||95.0|-1.428|0.247|||ANOVA||Mean difference (final values) = Least squares mean difference|8 hours||0.247|-1.428|0.1658
82527574|NCT03502616|164751415|SUPERIORITY||Difference in percentage|2.52|STANDARD_ERROR_OF_MEAN|5.96||0.6727|TWO_SIDED|95.0|-9.17|14.21|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||14.21|-9.17|0.6727
82362599|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.483||0.9921||95.0|-0.958|0.948|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.948|-0.958|0.9921
82362600|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.715|STANDARD_ERROR_OF_MEAN|0.479||0.1367||95.0|-1.66|0.229|||ANOVA||Mean difference (final values) = Least squares mean difference|12 hours||0.229|-1.660|0.1367
82362601|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.336|STANDARD_ERROR_OF_MEAN|0.364||0.3561||95.0|-1.053|0.38|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.380|-1.053|0.3561
82362602|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.366||0.426||95.0|-1.012|0.429|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||0.429|-1.012|0.4260
82362603|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.41||0.7975||95.0|-0.703|0.914|||ANOVA||Mean difference (final values) = Least squares mean difference|32 hours||0.914|-0.703|0.7975
82362604|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.412||0.6947||95.0|-0.65|0.974|||ANOVA||Mean difference (final values) = Least squares mean difference|32 hours||0.974|-0.650|0.6947
82362605|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.182|STANDARD_ERROR_OF_MEAN|0.465||0.6954||95.0|-1.101|0.736|||ANOVA||Mean difference (final values) = Least squares mean difference|40 hours||0.736|-1.101|0.6954
82362606|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.081|STANDARD_ERROR_OF_MEAN|0.481||0.8665||95.0|-1.032|0.87|||ANOVA||Mean difference (final values) = Least squares mean difference|40 hours||0.870|-1.032|0.8665
82362607|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.311|STANDARD_ERROR_OF_MEAN|0.386||0.4216||95.0|-0.45|1.072|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||1.072|-0.450|0.4216
82362608|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.285|STANDARD_ERROR_OF_MEAN|0.391||0.4673||95.0|-0.487|1.056|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||1.056|-0.487|0.4673
82362609|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.255|STANDARD_ERROR_OF_MEAN|0.44||0.5624||95.0|-0.614|1.125|||ANOVA||Mean difference (final values) = Least squares mean difference|56 hours||1.125|-0.614|0.5624
82362610|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.448||0.3705||95.0|-1.286|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|56 hours||0.482|-1.286|0.3705
82362611|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.358|STANDARD_ERROR_OF_MEAN|0.476||0.4539||95.0|-1.302|0.586|||ANOVA||Mean difference (final values) = Least squares mean difference|64 hours||0.586|-1.302|0.4539
82362612|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.086|STANDARD_ERROR_OF_MEAN|0.515||0.0373||95.0|-2.107|-0.065|||ANOVA||Mean difference (final values) = Least squares mean difference|64 hours||-0.065|-2.107|0.0373
82362613|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.476||0.76||95.0|-0.796|1.087|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||1.087|-0.796|0.7600
82527575|NCT03502616|164751415|SUPERIORITY||Difference in percentage|7.29|STANDARD_ERROR_OF_MEAN|5.96||0.2213|TWO_SIDED|95.0|-4.39|18.98|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||18.98|-4.39|0.2213
82362614|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.555|STANDARD_ERROR_OF_MEAN|0.481||0.2506||95.0|-1.507|0.397|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.397|-1.507|0.2506
82362615|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.027|STANDARD_ERROR_OF_MEAN|0.895||0.2567||95.0|-0.77|2.823|||ANOVA||Mean difference (final values) = Least squares mean difference|80 hours||2.823|-0.770|0.2567
82362616|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.882|STANDARD_DEVIATION|0.76||0.0167||95.0|-3.408|-0.356|||ANOVA||Mean difference (final values) = Least squares mean difference|80 hours||-0.356|-3.408|0.0167
82362617|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.352|STANDARD_ERROR_OF_MEAN|0.89||0.6953||95.0|-1.456|2.159|||ANOVA||Mean difference (final values) = Least squares mean difference|88 hours||2.159|-1.456|0.6953
82362618|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.147|STANDARD_ERROR_OF_MEAN|0.894||0.208||95.0|-2.962|0.668|||ANOVA||Mean difference (final values) = Least squares mean difference|88 hours||0.668|-2.962|0.2080
82362619|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.867|STANDARD_ERROR_OF_MEAN|0.975||0.3805||95.0|-1.116|2.849|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||2.849|-1.116|0.3805
82362620|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.905||0.89||95.0|-1.965|1.713|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||1.713|-1.965|0.8900
82362621|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.672|STANDARD_ERROR_OF_MEAN|1.08||0.1821||95.0|-1.103|4.448|||ANOVA||Mean difference (final values) = Least squares mean difference|104 hours||4.448|-1.103|0.1821
82362622|NCT00442546|164435985|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.851|STANDARD_ERROR_OF_MEAN|1.768||0.6505||95.0|-3.693|5.395|||ANOVA||Mean difference (final values) = Least squares mean difference|104 hours||5.395|-3.693|0.6505
82362623|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.029|STANDARD_ERROR_OF_MEAN|0.495||0.0388||95.0|-2.004|-0.053|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||-0.053|-2.004|0.0388
82527576|NCT03502616|164751415|SUPERIORITY||Difference in percentage|4.7|STANDARD_ERROR_OF_MEAN|5.76||0.4137|TWO_SIDED|95.0|-6.58|15.98|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||15.98|-6.58|0.4137
82527577|NCT03502616|164751416|SUPERIORITY||Difference in percentage|0.75|STANDARD_ERROR_OF_MEAN|1.27||0.5518|TWO_SIDED|95.0|-1.73|3.24|||Cochran-Mantel-Haenszel|||Week 2: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||3.24|-1.73|0.5518
82527578|NCT03502616|164751416|SUPERIORITY||Difference in percentage|3.72|STANDARD_ERROR_OF_MEAN|1.92||0.0524|TWO_SIDED|95.0|-0.04|7.47|||Cochran-Mantel-Haenszel|||Week 4: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||7.47|-0.04|0.0524
82575061|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|(Seroconversion percentage difference (P|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||ANOVA|||PnC 19F (Seroconversion percentage difference (PUS1 - PUS2))||3|-4|
82362624|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.501||0.0004||95.0|-2.798|-0.822|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||-0.822|-2.798|0.0004
82362625|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.405||0.6274||95.0|-0.995|0.601|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.601|-0.995|0.6274
82362626|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.619|STANDARD_ERROR_OF_MEAN|0.413||0.135||95.0|-1.432|0.194|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||0.194|-1.432|0.1350
82362627|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.719|STANDARD_ERROR_OF_MEAN|0.448||0.1106||95.0|-1.605|0.166|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||0.166|-1.605|0.1106
82362628|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.036|STANDARD_ERROR_OF_MEAN|0.457||0.0248||95.0|-1.939|-0.133|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||-0.133|-1.939|0.0248
82362629|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.874|STANDARD_ERROR_OF_MEAN|0.725||0.2335||95.0|-0.582|2.33|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||2.330|-0.582|0.2335
82362630|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.568|STANDARD_ERROR_OF_MEAN|0.682||0.0258||95.0|-2.939|-0.198|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||-0.198|-2.939|0.0258
82362631|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.866|STANDARD_ERROR_OF_MEAN|1.973||0.3878||95.0|-3.207|6.939|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||6.939|-3.207|0.3878
82362632|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.909|STANDARD_ERROR_OF_MEAN|3.754||0.1762||95.0|-3.74|15.559|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||15.559|-3.740|0.1762
82362633|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.515|STANDARD_ERROR_OF_MEAN|0.379||0.1754||95.0|-1.261|0.231|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.231|-1.261|0.1754
82362634|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.569|STANDARD_ERROR_OF_MEAN|0.386||0.1413||95.0|-1.329|0.191|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.191|-1.329|0.1413
82362635|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.419|STANDARD_ERROR_OF_MEAN|0.306||0.1731||95.0|-1.023|0.185|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.185|-1.023|0.1731
82527579|NCT03502616|164751416|SUPERIORITY||Difference in percentage|5.25|STANDARD_ERROR_OF_MEAN|2.29||0.0216|TWO_SIDED|95.0|0.77|9.73|||Cochran-Mantel-Haenszel|||Week 8: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.73|0.77|0.0216
82362636|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|0.314||0.6829||95.0|-0.747|0.49|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||0.490|-0.747|0.6829
82362637|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.351|STANDARD_ERROR_OF_MEAN|0.3||0.2436||95.0|-0.943|0.241|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.241|-0.943|0.2436
82362638|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.313||0.119||95.0|-1.108|0.127|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.127|-1.108|0.1190
82362639|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.264|STANDARD_ERROR_OF_MEAN|0.321||0.4117||95.0|-0.897|0.369|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.369|-0.897|0.4117
82362640|NCT00442546|164435986|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.156|STANDARD_ERROR_OF_MEAN|0.323||0.6294||95.0|-0.794|0.482|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||0.482|-0.794|0.6294
82362641|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.859|STANDARD_ERROR_OF_MEAN|3.315||0.7958||95.0|-7.391|5.673|||ANOVA||Mean difference (final values) = Least squares mean difference|Day 1||5.673|-7.391|0.7958
82362642|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|3.322||0.9733||95.0|-6.436|6.659|||ANOVA||Mean difference (final values) = Least squares mean difference|Day 1||6.659|-6.436|0.9733
82362643|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.889|STANDARD_ERROR_OF_MEAN|3.946||0.822||95.0|-6.898|8.675|||ANOVA||Mean difference (final values) = Least squares mean difference|1 hour||8.675|-6.898|0.8220
82362644|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.813|STANDARD_ERROR_OF_MEAN|3.917||0.4736||95.0|-10.542|4.917|||ANOVA||Mean difference (final values) = Least squares mean difference|1 hour||4.917|-10.542|0.4736
82362645|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.662|STANDARD_ERROR_OF_MEAN|4.045||0.5113||95.0|-10.639|5.316|||ANOVA||Mean difference (final values) = Least squares mean difference|2 hours||5.316|-10.639|0.5113
82362646|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.365|STANDARD_ERROR_OF_MEAN|3.95||0.9266||95.0|-7.425|8.154|||ANOVA||Mean difference (final values) = Least squares mean difference|2 hours||8.154|-7.425|0.9266
82362647|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|4.347||0.9699||95.0|-8.423|8.751|||ANOVA||Mean difference (final values) = Least squares mean difference|3 hours||8.751|-8.423|0.9699
82362648|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|4.232||0.9482||95.0|-8.085|8.635|||ANOVA||Mean difference (final values) = Least squares mean difference|3 hours||8.635|-8.085|0.9482
82362649|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.915|STANDARD_ERROR_OF_MEAN|7.391||0.7969||95.0|-16.842|13.012|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||13.012|-16.842|0.7969
82362650|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.023|STANDARD_ERROR_OF_MEAN|7.68||0.1991||95.0|-25.533|5.487|||ANOVA||Mean difference (final values) = Least squares mean difference|4 hours||5.487|-25.533|0.1991
82362651|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|86.335|STANDARD_ERROR_OF_MEAN|22.737||0.0321||95.0|13.976|158.693|||ANOVA||Mean difference (final values) = Least squares mean difference|5 hours||158.693|13.976|0.0321
82362652|NCT00442546|164435987|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|44.964|STANDARD_ERROR_OF_MEAN|12.295||0.0353||95.0|5.837|84.091|||ANOVA||Mean difference (final values) = Least squares mean difference|5 hours||84.091|5.837|0.0353
82426269|NCT02164864|164561477|OTHER||Hazard Ratio (HR)|0.89||||0.4432|TWO_SIDED|95.0|0.67|1.19||Wald 2-sided p-value from (unstratified) Cox proportional hazards model|Regression, Cox|unstratified Cox proportional hazards model was used and elderly patients outside the USA were excluded|Hazard Ratio (HR) and Wald confidence intervals are derived from a Cox proportional-hazard model|||1.19|0.67|0.4432
82527580|NCT03502616|164751416|SUPERIORITY||Difference in percentage|10.48|STANDARD_ERROR_OF_MEAN|2.9||0.0003|TWO_SIDED|95.0|4.8|16.17|||Cochran-Mantel-Haenszel|||Week 12: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||16.17|4.80|0.0003
82362653|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.812|STANDARD_ERROR_OF_MEAN|12.055||0.5736||95.0|-30.792|17.169|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||17.169|-30.792|0.5736
82362654|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.991|STANDARD_ERROR_OF_MEAN|11.786||0.8003||95.0|-26.438|20.455|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||20.455|-26.438|0.8003
82362655|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.815|STANDARD_ERROR_OF_MEAN|10.371||0.5125||95.0|-27.369|13.74|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||13.740|-27.369|0.5125
82362656|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.294|STANDARD_ERROR_OF_MEAN|10.227||0.4773||95.0|-27.563|12.976|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||12.976|-27.563|0.4773
82362657|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.915|STANDARD_ERROR_OF_MEAN|11.101||0.2142||95.0|-36.055|8.226|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||8.226|-36.055|0.2142
82362658|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.769|STANDARD_ERROR_OF_MEAN|11.245||0.2989||95.0|-34.197|10.659|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||10.659|-34.197|0.2989
82362659|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.51|STANDARD_ERROR_OF_MEAN|45.612||0.3829||95.0|-53.429|134.449|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||134.449|-53.429|0.3829
82362660|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.25|STANDARD_ERROR_OF_MEAN|45.322||0.5531||95.0|-120.59|66.092|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||66.092|-120.59|0.5531
82362661|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.513|STANDARD_ERROR_OF_MEAN|8.491||0.2738||95.0|-89.376|126.402|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||126.402|-89.376|0.2738
82362662|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.644|STANDARD_ERROR_OF_MEAN|2.519||0.7987||95.0|-4.343|5.63|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||5.630|-4.343|0.7987
82362663|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|2.441||0.8875||95.0|-5.177|4.485|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||4.485|-5.177|0.8875
82362664|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.537|STANDARD_ERROR_OF_MEAN|1.949||0.4319||95.0|-2.324|5.398|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||5.398|-2.324|0.4319
82362665|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|1.935||0.407||95.0|-2.223|5.443|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||5.443|-2.223|0.4070
82362666|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.119|STANDARD_ERROR_OF_MEAN|1.641||0.4968||95.0|-4.371|2.133|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.133|-4.371|0.4968
82362667|NCT00442546|164435988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.327|STANDARD_ERROR_OF_MEAN|1.665||0.427||95.0|-1.972|4.626|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||4.626|-1.972|0.4270
82362668|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.862|STANDARD_ERROR_OF_MEAN|2.999||0.7742||95.0|-6.775|5.052|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||5.052|-6.775|0.7742
82362669|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.006|STANDARD_ERROR_OF_MEAN|3.025||0.0996||95.0|-0.96|10.971|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||10.971|-0.960|0.0996
82362670|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.803|STANDARD_ERROR_OF_MEAN|2.79||0.7738||95.0|-4.698|6.304|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||6.304|-4.698|0.7738
82362671|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.192|STANDARD_ERROR_OF_MEAN|2.778||0.1328||95.0|-1.284|9.669|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||9.669|-1.284|0.1328
82362672|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.928|STANDARD_ERROR_OF_MEAN|3.012||0.7585||95.0|-5.027|6.882|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||6.882|-5.027|0.7585
82362673|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.946|STANDARD_ERROR_OF_MEAN|2.997||0.19||95.0|-1.979|9.871|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||9.871|-1.979|0.1900
82362674|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|3.693||0.2365||95.0|-3.004|11.865|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||11.865|-3.004|0.2365
82362675|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.306|STANDARD_ERROR_OF_MEAN|3.73||0.1616||95.0|-2.202|12.814|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||12.814|-2.202|0.1616
82362676|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.071|STANDARD_ERROR_OF_MEAN|6.911||0.8819||95.0|-17.98|15.838|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||15.838|-17.98|0.8819
82362677|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.071|STANDARD_ERROR_OF_MEAN|11.7||0.4676||95.0|-37.7|19.558|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||19.558|-37.70|0.4676
82391892|NCT03569293|164494755|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-25.2|||<|0.001|TWO_SIDED|95.0|-30.3|-20.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-20.1|-30.3|<0.001
82362678|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.925|STANDARD_ERROR_OF_MEAN|2.195||0.3813||95.0|-2.403|6.254|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||6.254|-2.403|0.3813
82362679|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.341|STANDARD_ERROR_OF_MEAN|2.236||0.2966||95.0|-2.07|6.751|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||6.751|-2.070|0.2966
82362680|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.962|STANDARD_ERROR_OF_MEAN|2.576||0.4474||95.0|-3.122|7.046|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||7.046|-3.122|0.4474
82362681|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.316|STANDARD_ERROR_OF_MEAN|2.59||0.0416||95.0|0.204|10.427|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.427|0.204|0.0416
82362682|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.372|STANDARD_ERROR_OF_MEAN|2.566||0.5935||95.0|-3.694|6.438|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||6.438|-3.694|0.5935
82362683|NCT00442546|164435989|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.272|STANDARD_ERROR_OF_MEAN|2.674||0.3966||95.0|-3.006|7.551|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||7.551|-3.006|0.3966
82362684|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.729|STANDARD_ERROR_OF_MEAN|2.631||0.5117||95.0|-3.457|6.916|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||6.916|-3.457|0.5117
82362685|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.532|STANDARD_ERROR_OF_MEAN|2.675||0.0154||95.0|1.258|11.805|||ANOVA||Mean difference (final values) = Least squares mean difference|24 hours||11.805|1.258|0.0154
82362686|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.901|STANDARD_ERROR_OF_MEAN|2.353||0.7022||95.0|-3.738|5.54|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||5.540|-3.738|0.7022
82362687|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.509|STANDARD_ERROR_OF_MEAN|2.343||0.0557||95.0|-0.11|9.129|||ANOVA||Mean difference (final values) = Least squares mean difference|48 hours||9.129|-0.110|0.0557
82362688|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.171|STANDARD_ERROR_OF_MEAN|2.552||0.2161||95.0|-1.874|8.215|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||8.215|-1.874|0.2161
82362689|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.135|STANDARD_ERROR_OF_MEAN|2.548||0.0058||95.0|2.098|12.172|||ANOVA||Mean difference (final values) = Least squares mean difference|72 hours||12.172|2.098|0.0058
82362690|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.185|STANDARD_ERROR_OF_MEAN|3.993||0.1283||95.0|-1.853|14.223|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||14.223|-1.853|0.1283
82362691|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.173|STANDARD_ERROR_OF_MEAN|4.033||0.008||95.0|3.056|19.291|||ANOVA||Mean difference (final values) = Least squares mean difference|96 hours||19.291|3.056|0.0080
82362692|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.941|STANDARD_ERROR_OF_MEAN|2.15||0.0018||95.0|7.414|18.468|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||18.468|7.414|0.0018
82362693|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.941|STANDARD_ERROR_OF_MEAN|3.533||0.0038||95.0|8.859|27.023|||ANOVA||Mean difference (final values) = Least squares mean difference|120 hours||27.023|8.859|0.0038
82362694|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.125|STANDARD_ERROR_OF_MEAN|2.115||0.5953||95.0|-3.045|5.296|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||5.296|-3.045|0.5953
82362695|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.331|STANDARD_ERROR_OF_MEAN|2.172||0.1267||95.0|-0.952|7.613|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||7.613|-0.952|0.1267
82362696|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.617|STANDARD_ERROR_OF_MEAN|2.339||0.2647||95.0|-1.997|7.231|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||7.231|-1.997|0.2647
82362697|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.771|STANDARD_ERROR_OF_MEAN|2.421||0.0181||95.0|0.995|10.548|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.548|0.995|0.0181
82362698|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.374|STANDARD_ERROR_OF_MEAN|2.299||0.5507||95.0|-3.161|5.91|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||5.910|-3.161|0.5507
82362699|NCT00442546|164435990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.404|STANDARD_ERROR_OF_MEAN|2.393||0.3164||95.0|-2.317|7.124|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||7.124|-2.317|0.3164
82362700|NCT00442546|164435991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4365||95.0|||||Log Rank|||||||0.4365
82362701|NCT00442546|164435991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4023||95.0|||||Log Rank|||||||0.4023
82362702|NCT00442546|164435992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4024||95.0|||||Log Rank|||||||0.4024
82362703|NCT00442546|164435992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.191||95.0|||||Log Rank|||||||0.1910
82362704|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.347|STANDARD_ERROR_OF_MEAN|2.497||0.3483||95.0|-2.573|7.268|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||7.268|-2.573|0.3483
82362705|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.155|STANDARD_ERROR_OF_MEAN|2.498||0.2078||95.0|-1.766|8.077|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.077|-1.766|0.2078
82362706|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.126|STANDARD_ERROR_OF_MEAN|6.436||0.4299||95.0|-7.836|18.088|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||18.088|-7.836|0.4299
82362707|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.146|STANDARD_ERROR_OF_MEAN|6.726||0.4482||95.0|-8.4|18.693|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||18.693|-8.400|0.4482
82362708|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.036|STANDARD_ERROR_OF_MEAN|4.426||0.6472||95.0|-6.818|10.89|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||10.890|-6.818|0.6472
82362709|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.156|STANDARD_ERROR_OF_MEAN|4.642||0.4992||95.0|-6.129|12.442|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||12.442|-6.129|0.4992
82362710|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.656|STANDARD_ERROR_OF_MEAN|5.149||0.6072||95.0|-7.578|12.891|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||12.891|-7.578|0.6072
82362711|NCT00442546|164435993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.963|STANDARD_ERROR_OF_MEAN|4.906||0.3146||95.0|-4.789|14.714|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||14.714|-4.789|0.3146
82362712|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.177|STANDARD_ERROR_OF_MEAN|2.326||0.0739||95.0|-0.407|8.76|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.760|-0.407|0.0739
82362713|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.176|STANDARD_ERROR_OF_MEAN|2.327||0.074||95.0|-0.409|8.761|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.761|-0.409|0.0740
82362714|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.298|STANDARD_ERROR_OF_MEAN|6.418||0.2615||95.0|-5.628|20.224|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||20.224|-5.628|0.2615
82362715|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.286|STANDARD_ERROR_OF_MEAN|6.707||0.6266||95.0|-10.22|16.795|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||16.795|-10.22|0.6266
82362716|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.17|STANDARD_ERROR_OF_MEAN|3.958||0.2963||95.0|-3.747|12.086|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||12.086|-3.747|0.2963
82362717|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.248|STANDARD_ERROR_OF_MEAN|4.151||0.1375||95.0|-2.054|14.55|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||14.550|-2.054|0.1375
82362718|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.431|STANDARD_ERROR_OF_MEAN|4.895||0.2703||95.0|-4.298|15.161|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||15.161|-4.298|0.2703
82362719|NCT00442546|164435994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.663|STANDARD_ERROR_OF_MEAN|4.664||0.104||95.0|-1.607|16.933|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||16.933|-1.607|0.1040
82362720|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.579|STANDARD_ERROR_OF_MEAN|3.154||0.8545||95.0|-5.635|6.793|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||6.793|-5.635|0.8545
82362721|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.128|STANDARD_ERROR_OF_MEAN|3.155||0.5006||95.0|-4.088|8.344|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||8.344|-4.088|0.5006
82362722|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.956|STANDARD_ERROR_OF_MEAN|8.248||0.7217||95.0|-13.66|19.569|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||19.569|-13.66|0.7217
82362723|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.011|STANDARD_ERROR_OF_MEAN|8.62||0.4203||95.0|-10.35|24.372|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||24.372|-10.35|0.4203
82362724|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|5.6||0.9859||95.0|-11.3|11.102|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||11.102|-11.30|0.9859
82362725|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|5.873||0.9915||95.0|-11.68|11.811|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||11.811|-11.68|0.9915
82362726|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|6.508||0.9843||95.0|-13.06|12.808|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||12.808|-13.06|0.9843
82362727|NCT00442546|164435995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.351|STANDARD_ERROR_OF_MEAN|6.201||0.7055||95.0|-9.974|14.677|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||14.677|-9.974|0.7055
82362728|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.315||0.9405||95.0|-0.614|0.661|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.661|-0.614|0.9405
82362729|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.287||0.5641||95.0|-0.749|0.415|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.415|-0.749|0.5641
82362730|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.755||0.5226||95.0|-1.181|2.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||2.181|-1.181|0.5226
82362731|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.893||0.8557||95.0|-2.156|1.823|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.823|-2.156|0.8557
82362732|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.328|STANDARD_ERROR_OF_MEAN|0.882||0.1925||95.0|-3.596|0.94|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||0.940|-3.596|0.1925
82362733|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.982||0.9654||95.0|-2.568|2.479|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||2.479|-2.568|0.9654
82362734|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.352|STANDARD_ERROR_OF_MEAN|1.782||0.235||95.0|-6.712|2.008|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.008|-6.712|0.2350
82362735|NCT00442546|164435996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.859||0.742||95.0|-1.806|2.399|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.399|-1.806|0.7420
82362736|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.329||0.5299||95.0|-0.458|0.874|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.874|-0.458|0.5299
82362737|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.355|STANDARD_ERROR_OF_MEAN|0.3||0.2442||95.0|-0.964|0.253|||ANOVA||Mean difference (final values) = Least squares mean difference|Discharge||0.253|-0.964|0.2442
82362738|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.755||0.5226||95.0|-1.181|2.181|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||2.181|-1.181|0.5226
82362739|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.167|STANDARD_ERROR_OF_MEAN|0.893||0.8557||95.0|-2.156|1.823|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 2||1.823|-2.156|0.8557
82362740|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.119|STANDARD_ERROR_OF_MEAN|1.024||0.324||95.0|-3.751|1.512|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||1.512|-3.751|0.3240
82362741|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|1.139||0.9503||95.0|-2.853|3.003|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 4||3.003|-2.853|0.9503
82362742|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.833|STANDARD_ERROR_OF_MEAN|1.858||0.3618||95.0|-6.379|2.712|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.712|-6.379|0.3618
82362743|NCT00442546|164435997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.896||0.7226||95.0|-1.859|2.525|||ANOVA||Mean difference (final values) = Least squares mean difference|Week 6/ET||2.525|-1.859|0.7226
82362744|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2473||95.0|||||Cochran-Mantel-Haenszel|||Discharge||||0.2473
82362745|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0239||95.0|||||Cochran-Mantel-Haenszel|||Discharge||||0.0239
82362746|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6118||95.0|||||Cochran-Mantel-Haenszel|||Week 2||||0.6118
82362747|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673||95.0|||||Cochran-Mantel-Haenszel|||Week 2||||0.6730
82362748|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5954||95.0|||||Cochran-Mantel-Haenszel|||Week 4||||0.5954
82362749|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7784||95.0|||||Cochran-Mantel-Haenszel|||Week 4||||0.7784
82362750|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7293||95.0|||||Cochran-Mantel-Haenszel|||Week 6/ET||||0.7293
82362751|NCT00442546|164435998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5202||95.0|||||Cochran-Mantel-Haenszel|||Week 6/ET||||0.5202
82362752|NCT00442546|164435999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1509||95.0|||||Cochran-Mantel-Haenszel|||Month 3||||0.1509
82362753|NCT00442546|164435999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3822||95.0|||||Cochran-Mantel-Haenszel|||Month 3||||0.3822
82362754|NCT00442546|164435999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2825||95.0|||||Cochran-Mantel-Haenszel|||Month 6||||0.2825
82362755|NCT00442546|164435999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7733||95.0|||||Cochran-Mantel-Haenszel|||Month 6||||0.7733
82362756|NCT00248170|164436001|SUPERIORITY_OR_OTHER|||||||0.315|||||||Log Rank|||||||0.3150
82362757|NCT03581188|164436044|SUPERIORITY||Odds Ratio (OR)|3.5|||||TWO_SIDED|95.0|0.9|14.0||||||Odds ratios report differences between groups at follow-up.||14|0.9|
82362758|NCT03581188|164436045|SUPERIORITY||Odds Ratio (OR)|2.2|||||TWO_SIDED|95.0|0.8|5.7||||||||5.7|0.8|
82362759|NCT03581188|164436047|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|1.1|2.1||||||||2.1|1.1|
82362760|NCT03581188|164436048|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.6|2.0||||||||2|0.6|
82362761|NCT03581188|164436049|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|-2.0|23.0||||||For new melanoma diagnoses, we calculated the difference in proportions and confidence intervals using the χ2 method without continuity correction. We included baseline measurement of the outcome in the models as a covariate to estimate between group difference in change from baseline.||23|-2|
82362762|NCT03581188|164436050|SUPERIORITY||Risk Difference (RD)|10.0|||||TWO_SIDED|95.0|2.0|19.0||||||New melanoma diagnoses prompted at unscheduled visit||19|2|
82362763|NCT03581188|164436050|SUPERIORITY||Risk Ratio (RR)|0.0|||||TWO_SIDED|95.0|-9.0|10.0||||||New melanoma diagnoses prompted at scheduled visit||10|-9|
82362764|NCT03581188|164436051|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-5.8|3.0||||||||3|-5.8|
82362765|NCT02190279|164436090|OTHER|||||||0.0033|||||||ANOVA|||At 1 hour post injection.||||0.0033
82362766|NCT02190279|164436090|OTHER|||||||0.012|||||||ANOVA|||At 2 hour post injection.||||0.012
82362767|NCT02190279|164436091|EQUIVALENCE|One way analysis variance.|||||<|0.05|||||||variance|||||||<0.05
82362768|NCT04403399|164436114|SUPERIORITY||Mean Difference (Final Values)|-3.62||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.003
82362769|NCT04403399|164436115|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
82391893|NCT03569293|164494755|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-29.3|-18.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-18.9|-29.3|<0.001
82391894|NCT03569293|164494756|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.9|||<|0.001|TWO_SIDED|95.0|45.2|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.6|45.2|<0.001
82362770|NCT04403399|164436116|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.03|TWO_SIDED||||||Mixed Models Analysis|||||||0.03
82527581|NCT03502616|164751416|SUPERIORITY||Difference in percentage|6.69|STANDARD_ERROR_OF_MEAN|2.37||0.0047|TWO_SIDED|95.0|2.05|11.33|||Cochran-Mantel-Haenszel|||Week 16: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||11.33|2.05|0.0047
82362771|NCT01316419|164436118|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Mean SBP change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||<0.0001
82362772|NCT01316419|164436121|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Mean DBP change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||<0.0001
82362773|NCT01316419|164436123|SUPERIORITY_OR_OTHER|||||||0.1099|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.1099
82527582|NCT03502616|164751416|SUPERIORITY||Difference in percentage|1.07|STANDARD_ERROR_OF_MEAN|3.98||0.7883|TWO_SIDED|95.0|-6.74|8.88|||Cochran-Mantel-Haenszel|||Week 24: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||8.88|-6.74|0.7883
82362774|NCT01316419|164436124|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0197
82362775|NCT01316419|164436125|SUPERIORITY_OR_OTHER|||||||0.4543|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.4543
82362776|NCT01316419|164436126|SUPERIORITY_OR_OTHER|||||||0.0152|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0152
82362777|NCT01316419|164436127|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||The change of QOL data collected using the WHOQOL-BREF is analyzed by paired t-test|Paired t test|||||||0.0013
82362778|NCT01316419|164436128|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The change of QOL data collected using the EQ VAS is analyzed by paired t-test|Paired t test|||||||<0.0001
82362779|NCT01316419|164436130|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Mean LDL-C change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.0006
82362780|NCT01316419|164436131|SUPERIORITY_OR_OTHER|||||||0.4248|TWO_SIDED|||||Mean HDL-C change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.4248
82362781|NCT01316419|164436132|SUPERIORITY_OR_OTHER|||||||0.5579|TWO_SIDED|||||Mean Triglyceride change from baseline at the last visit will be analyzed by paired t-test|Paired t test|||||||0.5579
82362782|NCT01316419|164436133|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Mean total cholesterol change from baseline at the last visit will be analyzed by paired t-test|Paired t-test|||||||0.0006
82362783|NCT00455962|164436138|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||Using previously collected data from a group of 18 predominantly Caucasian women undergoing a similar infusion we determined that 22 women would be necessary to identify a 30% difference in peak LH levels, the primary outcome measure, between AAW and CW with 80% power at a significance level of 0.05.||||0.69
82362784|NCT02760264|164436142|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82362785|NCT02760264|164436144|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82362786|NCT02760264|164436146|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82362787|NCT02760264|164436147|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82362788|NCT02760264|164436149|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82362789|NCT02760264|164436151|OTHER|Treatment levels were not compared.|||||||||||||||||"Safety Population was used for this analysis. Safety Population includes all subjects who receive at least one dose of vamorolone study medication.~Treatment levels were not compared."|||
82391895|NCT03569293|164494756|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|41.8|||<|0.001|TWO_SIDED|95.0|33.9|49.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||49.7|33.9|<0.001
82391896|NCT03569293|164494757|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.6|||<|0.001|TWO_SIDED|95.0|41.0|56.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.1|41.0|<0.001
82391897|NCT03569293|164494757|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.7|||<|0.001|TWO_SIDED|95.0|30.9|46.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.5|30.9|<0.001
82362790|NCT05918822|164436160|OTHER|A mixed-effects model was applied to log (ln)-transformed plasma maribavir Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as random effect. Point estimates and their associated 90% confidence intervals (CIs) were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimate and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|82.19|||||TWO_SIDED|90.0|74.31|90.91|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||90.91|74.31|
82362791|NCT05918822|164436160|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90 percent (%) CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|57.72|||||TWO_SIDED|90.0|52.18|63.84|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||63.84|52.18|
82444242|NCT00413010|164597017|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.56||||||95.0|1.07|2.3||P-value less than the nominal 0.05 level is suggestive of a treatment difference; P-value corresponds to Wald's Chi square test.|Cumulative Logit Model|Based on fitting a logistic regression model for ordinal response of CGI-S scores at Week 8 (LOCF) with treatment and center in the model.|The odds ratio represented the odds of demonstrating an improvement comparing pregabalin versus placebo. The odds of having an increasingly better response for pregabalin relative to the odds of having an increasingly better response for placebo.|Week 8 Last Observation Carried Forward (LOCF)||2.30|1.07|
82362792|NCT05918822|164436160|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir Cmax with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|49.03|||||TWO_SIDED|90.0|40.07|60.0|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of Cmax of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||60.00|40.07|
82362793|NCT05918822|164436161|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|97.59|||||TWO_SIDED|90.0|91.39|104.2|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||104.20|91.39|
82362794|NCT05918822|164436161|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|82.05|||||TWO_SIDED|90.0|76.84|87.61|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||87.61|76.84|
82362795|NCT05918822|164436161|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUClast with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|70.0|||||TWO_SIDED|90.0|60.11|81.51|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUClast of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||81.51|60.11|
82362796|NCT05918822|164436162|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment B (test) versus Treatment A (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (GMR) (%)|99.94|||||TWO_SIDED|90.0|94.12|106.11|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUC0-infinity of Maribavir: Part 1: Treatment B (Test) versus Treatment A (Reference)||106.11|94.12|
82362797|NCT05918822|164436162|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs were constructed for differences between Treatment C (test) versus Treatment B (reference). Point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment B.|Geometric Mean Ratio (GMR) (%)|81.68|||||TWO_SIDED|90.0|76.93|86.73||||||Comparison of AUC0-infinity of Maribavir: Part 1: Treatment C (Test) versus Treatment B (Reference)||86.73|76.93|
82362798|NCT05918822|164436162|OTHER|A mixed-effects model was applied to ln-transformed plasma maribavir AUC0-infinity with treatment as a fixed effect, and participant as a random effect. Point estimates and their associated 90% CIs were constructed for the differences between Treatment E (test) versus Treatment D (reference). The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for the ratios of Treatment E versus Treatment D.|Geometric Mean Ratio (GMR) (%)|88.92|||||TWO_SIDED|90.0|76.94|102.78|||||GMR (%) was calculated as 100\*(Test/Reference).|Comparison of AUC0-infinity of Maribavir: Part 2: Treatment E (Test) versus Treatment D (Reference)||102.78|76.94|
82362799|NCT03346070|164436189|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.0075|TWO_SIDED|95.0|1.18|3.1|||Log Rank||Cox regression model|||3.10|1.18|0.0075
82362800|NCT03346070|164436189|SUPERIORITY||Hazard Ratio (HR)|25.9|||<|0.0001|TWO_SIDED|95.0|9.72|69.03|||Log Rank||Cox regression model|||69.03|9.72|<0.0001
82362801|NCT03346070|164436189|SUPERIORITY||Hazard Ratio (HR)|61.4|||<|0.0001|TWO_SIDED|95.0|14.13|266.77|||Log Rank||Cox regression model|||266.77|14.13|<0.0001
82362802|NCT03346070|164436189|SUPERIORITY||Hazard Ratio (HR)|2.38||||0.0005|TWO_SIDED|95.0|1.44|3.93|||Log Rank||Cox regression model|||3.93|1.44|0.0005
82362803|NCT03346070|164436189|SUPERIORITY||Hazard Ratio (HR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.5|3.01|||Log Rank||Cox regression model|||3.01|1.50|<0.0001
82362804|NCT03346070|164436190|SUPERIORITY||Difference in percentage|2.3||||0.602|TWO_SIDED|95.0|-9.6|15.0|||Miettinen & Nurminen method|||||15.0|-9.6|0.602
82362805|NCT03346070|164436190|SUPERIORITY||Difference in percentage|0.2||||0.969|TWO_SIDED|95.0|-13.4|13.5|||Miettinen & Nurminen method|||||13.5|-13.4|0.969
82362806|NCT03346070|164436190|SUPERIORITY||Difference in percentage|2.6||||0.567|TWO_SIDED|95.0|-8.7|15.0|||Miettinen & Nurminen method|||||15.0|-8.7|0.567
82362807|NCT03346070|164436190|SUPERIORITY||Difference in percentage|2.6||||0.571|TWO_SIDED|95.0|-8.8|15.0|||Miettinen & Nurminen method|||||15.0|-8.8|0.571
82362808|NCT03346070|164436190|SUPERIORITY||Difference in percentage|-0.2||||0.95|TWO_SIDED|95.0|-11.6|10.9|||Miettinen & Nurminen method|||||10.9|-11.6|0.950
82362809|NCT03346070|164436190|SUPERIORITY||Difference in percentage|2.9||||0.528|TWO_SIDED|95.0|-8.4|15.9|||Miettinen & Nurminen method|||||15.9|-8.4|0.528
82362810|NCT03346070|164436190|SUPERIORITY||Difference in percentage|1.3||||0.709|TWO_SIDED|95.0|-6.8|9.6|||Miettinen & Nurminen method|||||9.6|-6.8|0.709
82362811|NCT03346070|164436191|SUPERIORITY||Difference in percentage|2.2||||0.738|TWO_SIDED|95.0|-12.3|17.4|||Miettinen & Nurminen method|||||17.4|-12.3|0.738
82362812|NCT03346070|164436191|SUPERIORITY||Difference in percentage|11.1||||0.077|TWO_SIDED|95.0|-1.7|26.3|||Miettinen & Nurminen method|||||26.3|-1.7|0.077
82362813|NCT03346070|164436191|SUPERIORITY||Difference in percentage|2.4||||0.717|TWO_SIDED|95.0|-12.0|16.4|||Miettinen & Nurminen method|||||16.4|-12.0|0.717
82362814|NCT03346070|164436191|SUPERIORITY||Difference in percentage|5.0||||0.486|TWO_SIDED|95.0|-9.9|19.7|||Miettinen & Nurminen method|||||19.7|-9.9|0.486
82362815|NCT03346070|164436191|SUPERIORITY||Difference in percentage|-1.2||||0.849|TWO_SIDED|95.0|-16.2|12.4|||Miettinen & Nurminen method|||||12.4|-16.2|0.849
82362816|NCT03346070|164436191|SUPERIORITY||Difference in percentage|-4.9||||0.339|TWO_SIDED|95.0|-18.2|6.7|||Miettinen & Nurminen method|||||6.7|-18.2|0.339
82362817|NCT03346070|164436191|SUPERIORITY||Difference in percentage|6.6||||0.149|TWO_SIDED|95.0|-2.6|16.8|||Miettinen & Nurminen method|||||16.8|-2.6|0.149
82362818|NCT03346070|164436192|SUPERIORITY||Difference in percentage|-2.7||||0.299|TWO_SIDED|95.0|-13.9|6.7|||Miettinen & Nurminen method|||||6.7|-13.9|0.299
82362819|NCT03346070|164436192|SUPERIORITY||Difference in percentage|0.0|||>|0.999|TWO_SIDED|95.0|-9.9|9.4|||Miettinen & Nurminen method|||||9.4|-9.9|>0.999
82362820|NCT03346070|164436192|SUPERIORITY||Difference in percentage|-2.6||||0.326|TWO_SIDED|95.0|-13.7|7.0|||Miettinen & Nurminen method|||||7.0|-13.7|0.326
82362821|NCT03346070|164436192|SUPERIORITY||Difference in percentage|-2.5||||0.335|TWO_SIDED|95.0|-13.6|7.1|||Miettinen & Nurminen method|||||7.1|-13.6|0.335
82362822|NCT03346070|164436192|SUPERIORITY||Difference in percentage|0.3||||0.935|TWO_SIDED|95.0|-11.1|11.9|||Miettinen & Nurminen method|||||11.9|-11.1|0.935
82362823|NCT03346070|164436192|SUPERIORITY||Difference in percentage|-2.7||||0.326|TWO_SIDED|95.0|-13.8|7.3|||Miettinen & Nurminen method|||||7.3|-13.8|0.326
82362824|NCT03346070|164436192|SUPERIORITY||Difference in percentage|-1.4||||0.299|TWO_SIDED|95.0|-7.5|3.5|||Miettinen & Nurminen method|||||3.5|-7.5|0.299
82362825|NCT03346070|164436193|SUPERIORITY||Difference in percentage|0.1|||||TWO_SIDED|95.0|-12.7|13.1|||||Miettinen and Nurminen method|||13.1|-12.7|
82362826|NCT03346070|164436193|SUPERIORITY||Difference in percentage|-3.6|||||TWO_SIDED|95.0|-19.6|12.2|||||Miettinen and Nurminen method|||12.2|-19.6|
82527583|NCT03502616|164751416|SUPERIORITY||Difference in percentage|4.85|STANDARD_ERROR_OF_MEAN|4.4||0.2708|TWO_SIDED|95.0|-3.78|13.48|||Cochran-Mantel-Haenszel|||Week 32: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||13.48|-3.78|0.2708
82527584|NCT03502616|164751416|SUPERIORITY||Difference in percentage|0.44|STANDARD_ERROR_OF_MEAN|4.55||0.9226|TWO_SIDED|95.0|-8.48|9.36|||Cochran-Mantel-Haenszel|||Week 40: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||9.36|-8.48|0.9226
82362827|NCT03346070|164436193|SUPERIORITY||Difference in percentage|5.1|||||TWO_SIDED|95.0|-8.1|19.7|||||Miettinen and Nurminen method|||19.7|-8.1|
82362828|NCT03346070|164436193|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-18.0|13.1|||||Miettinen and Nurminen method|||13.1|-18.0|
82362829|NCT03346070|164436193|SUPERIORITY||Difference in percentage|4.4|||||TWO_SIDED|95.0|-9.6|19.2|||||Miettinen and Nurminen method|||19.2|-9.6|
82362830|NCT03346070|164436193|SUPERIORITY||Difference in percentage|2.2|||||TWO_SIDED|95.0|-12.5|17.0|||||Miettinen and Nurminen method|||17.0|-12.5|
82362831|NCT03346070|164436193|SUPERIORITY||Difference in percentage|-1.8|||||TWO_SIDED|95.0|-11.4|7.8|||||Miettinen and Nurminen method|||7.8|-11.4|
82362832|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-15.2|9.1|||||Miettinen and Nurminen method|||9.1|-15.2|
82362833|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-8.5|||||TWO_SIDED|95.0|-22.3|1.3|||||Miettinen and Nurminen method|||1.3|-22.3|
82362834|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-5.3|||||TWO_SIDED|95.0|-18.8|6.8|||||Miettinen and Nurminen method|||6.8|-18.8|
82362835|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-8.0|||||TWO_SIDED|95.0|-21.2|1.8|||||Miettinen and Nurminen method|||1.8|-21.2|
82362836|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-2.9|||||TWO_SIDED|95.0|-17.0|10.5|||||Miettinen and Nurminen method|||10.5|-17.0|
82362837|NCT03346070|164436194|SUPERIORITY||Difference in percentage|0.5|||||TWO_SIDED|95.0|-14.0|15.5|||||Miettinen and Nurminen method|||15.5|-14.0|
82362838|NCT03346070|164436194|SUPERIORITY||Difference in percentage|-5.5|||||TWO_SIDED|95.0|-13.9|1.2|||||Miettinen and Nurminen method|||1.2|-13.9|
82362839|NCT03346070|164436195|SUPERIORITY||Difference in percentage|-2.4|||||TWO_SIDED|95.0|-13.4|7.3|||||Miettinen and Nurminen method|||7.3|-13.4|
82362840|NCT03346070|164436195|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-12.3|10.8|||||Miettinen and Nurminen method|||10.8|-12.3|
82362841|NCT03346070|164436195|SUPERIORITY||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-13.7|7.0|||||Miettinen and Nurminen method|||7.0|-13.7|
82527585|NCT03502616|164751416|SUPERIORITY||Difference in percentage|1.84|STANDARD_ERROR_OF_MEAN|4.23||0.663|TWO_SIDED|95.0|-6.44|10.13|||Cochran-Mantel-Haenszel|||Week 48: Analysis performed using Normal approximation adjusting for the stratification factor derived from clinical database via CMH approach.||10.13|-6.44|0.6630
82527586|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.319||0.0099|TWO_SIDED|95.0|-1.47|-0.2|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.20|-1.47|0.0099
82362842|NCT03346070|164436195|SUPERIORITY||Difference in percentage|0.2|||||TWO_SIDED|95.0|-11.2|11.7|||||Miettinen and Nurminen method|||11.7|-11.2|
82362843|NCT03346070|164436195|SUPERIORITY||Difference in percentage|-0.2|||||TWO_SIDED|95.0|-11.5|11.0|||||Miettinen and Nurminen method|||11.0|-11.5|
82362844|NCT03346070|164436195|SUPERIORITY||Difference in percentage|0.2|||||TWO_SIDED|95.0|-11.0|12.0|||||Miettinen and Nurminen method|||12.0|-11.0|
82362845|NCT03346070|164436196|SUPERIORITY||Difference in percentage|3.0|||||TWO_SIDED|95.0|-10.8|16.9|||||Miettinen and Nurminen method|||16.9|-10.8|
82362846|NCT03346070|164436196|SUPERIORITY||Difference in percentage|-76.1|||||TWO_SIDED|95.0|-87.2|-57.6|||||Miettinen and Nurminen method|||-57.6|-87.2|
82362847|NCT03346070|164436196|SUPERIORITY||Difference in percentage|-78.7|||||TWO_SIDED|95.0|-88.8|-61.1|||||Miettinen and Nurminen method|||-61.1|-88.8|
82362848|NCT03346070|164436196|SUPERIORITY||Difference in percentage|2.8|||||TWO_SIDED|95.0|-7.2|14.2|||||Miettinen and Nurminen method|||14.2|-7.2|
82362849|NCT03346070|164436196|SUPERIORITY||Difference in percentage|2.9|||||TWO_SIDED|95.0|-4.8|11.0|||||Miettinen and Nurminen method|||11.0|-4.8|
82362850|NCT03346070|164436197|SUPERIORITY||Ratio of geometric means|0.64|||||TWO_SIDED|95.0|0.48|0.86|||||Log transformation and t-distribution|||0.86|0.48|
82362851|NCT03346070|164436197|SUPERIORITY||Ratio of geometric means|0.09|||||TWO_SIDED|95.0|0.06|0.12|||||Log transformation and t-distribution|||0.12|0.06|
82362852|NCT03346070|164436197|SUPERIORITY||Ratio of geometric means|0.14|||||TWO_SIDED|95.0|0.1|0.19|||||Log transformation and t-distribution|||0.19|0.10|
82362853|NCT03346070|164436197|SUPERIORITY||Ratio of geometric means|0.54|||||TWO_SIDED|95.0|0.4|0.71|||||Log transformation and t-distribution|||0.71|0.40|
82362854|NCT03346070|164436197|SUPERIORITY||Ratio of geometric means|0.59|||||TWO_SIDED|95.0|0.48|0.72|||||Log transformation and t-distribution|||0.72|0.48|
82362855|NCT03346070|164436198|SUPERIORITY||Ratio of geometric means|0.63|||||TWO_SIDED|95.0|0.5|0.8|||||Log transformation and t-distribution|||0.80|0.50|
82362856|NCT03346070|164436198|SUPERIORITY||Ratio of geometric means|0.09|||||TWO_SIDED|95.0|0.07|0.13|||||Log transformation and t-distribution|||0.13|0.07|
82362857|NCT03346070|164436198|SUPERIORITY||Ratio of geometric means|0.15|||||TWO_SIDED|95.0|0.11|0.2|||||Log transformation and t-distribution|||0.20|0.11|
82362858|NCT03346070|164436198|SUPERIORITY||Ratio of geometric means|0.56|||||TWO_SIDED|95.0|0.44|0.72|||||Log transformation and t-distribution|||0.72|0.44|
82362859|NCT03346070|164436198|SUPERIORITY||Ratio of geometric means|0.6|||||TWO_SIDED|95.0|0.51|0.7|||||Log transformation and t-distribution|||0.70|0.51|
82362860|NCT03346070|164436199|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.54|0.81|||||Log transformation and t-distribution|||0.81|0.54|
82362861|NCT03346070|164436199|SUPERIORITY||Ratio of geometric means|0.13|||||TWO_SIDED|95.0|0.09|0.17|||||Log transformation and t-distribution|||0.17|0.09|
82362862|NCT03346070|164436199|SUPERIORITY||Ratio of geometric means|0.19|||||TWO_SIDED|95.0|0.14|0.27|||||Log transformation and t-distribution|||0.27|0.14|
82362863|NCT03346070|164436199|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.52|0.83|||||Log transformation and t-distribution|||0.83|0.52|
82362864|NCT03346070|164436199|SUPERIORITY||Ratio of geometric means|0.66|||||TWO_SIDED|95.0|0.57|0.77|||||Log transformation and t-distribution|||0.77|0.57|
82362865|NCT00255151|164436220|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82362866|NCT00255151|164436220|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82362867|NCT00255151|164436220|SUPERIORITY_OR_OTHER|||||||0.80473||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.80473
82362868|NCT00255151|164436221|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82362869|NCT00255151|164436221|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82362870|NCT00255151|164436221|SUPERIORITY_OR_OTHER|||||||0.76046||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.76046
82362871|NCT00255151|164436223|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82362872|NCT00255151|164436223|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82362873|NCT00255151|164436223|SUPERIORITY_OR_OTHER|||||||0.37161||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.37161
82362874|NCT00255151|164436224|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82362875|NCT00255151|164436224|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82362876|NCT00255151|164436224|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.59700
82362877|NCT00934596|164436238|SUPERIORITY_OR_OTHER||Median Difference (Net)|57.0|||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82362878|NCT00934596|164436241|SUPERIORITY_OR_OTHER||Median Difference (Net)|72.0|||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82362879|NCT00934596|164436246|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0|||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||As data for these small groups were non-parametric the median and quartiles were used for comparison of groups by the Wilcoxon Rank Sum test.||||<0.001
82362880|NCT01011556|164436250|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-7.17|||<|0.001|TWO_SIDED|90.0|-8.489|-5.851|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-5.851|-8.489|<0.001
82362881|NCT01011556|164436250|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-7.48|||<|0.001|TWO_SIDED|90.0|-8.822|-6.144|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-6.144|-8.822|<0.001
82362882|NCT01011556|164436250|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 3.5% was used.|Difference in Least Square Means|-6.17|||<|0.001|TWO_SIDED|90.0|-7.448|-4.891|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-4.891|-7.448|<0.001
82362883|NCT01011556|164436251|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-4.58|||<|0.001|TWO_SIDED|90.0|-5.716|-3.452|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-3.452|-5.716|<0.001
82444243|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||||95.0|-1.5|0.0|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 1||0.0|-1.5|
82362884|NCT01011556|164436251|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.87|||<|0.001|TWO_SIDED|90.0|-5.006|-2.727|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-2.727|-5.006|<0.001
82362885|NCT01011556|164436251|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.56|||<|0.001|TWO_SIDED|90.0|-4.652|-2.464|||ANCOVA|Analyses were performed using ANCOVA model with the baseline value as a covariate and pooled site and treatment as fixed effects.||||-2.464|-4.652|<0.001
82362886|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-4.53|STANDARD_ERROR_OF_MEAN|0.687|<|0.001|TWO_SIDED|90.0|-5.663|-3.392||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-3.392|-5.663|<0.001
82362887|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.94|STANDARD_ERROR_OF_MEAN|0.692|<|0.001|TWO_SIDED|90.0|-5.086|-2.8||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-2.800|-5.086|<0.001
82362888|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-3.53|STANDARD_ERROR_OF_MEAN|0.665|<|0.001|TWO_SIDED|90.0|-4.627|-2.43||p-value is for change in BMD at 6 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-2.430|-4.627|<0.001
82362889|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-7.5|STANDARD_ERROR_OF_MEAN|0.818|<|0.001|TWO_SIDED|90.0|-8.856|-6.151||p-value is for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-6.151|-8.856|<0.001
82362890|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-7.46|STANDARD_ERROR_OF_MEAN|0.83||0.001|TWO_SIDED|90.0|-8.835|-6.091||p-value for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-6.091|-8.835|0.001
82391898|NCT03569293|164494758|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.9|||<|0.001|TWO_SIDED|95.0|45.4|60.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.3|45.4|<0.001
82391899|NCT03569293|164494758|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.3|||<|0.001|TWO_SIDED|95.0|30.4|46.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.2|30.4|<0.001
82362891|NCT01011556|164436252|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-6.19|STANDARD_ERROR_OF_MEAN|0.802||0.001|TWO_SIDED|90.0|-7.51|-4.86||p-value is for change in BMD at 12 months|Mixed Models Analysis|MMRM Model: Percentage change in BMD = treatment+baseline+pooled site+visit+treatment\*visit interaction. Repeat measure occurred at each visit.||||-4.860|-7.510|0.001
82362892|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82362893|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82362894|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82391900|NCT03569293|164494759|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|44.7|60.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.4|44.7|<0.001
82362895|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
82362896|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
82391901|NCT03569293|164494759|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|42.7|||<|0.001|TWO_SIDED|95.0|34.4|50.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.9|34.4|<0.001
82391902|NCT03569293|164494760|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|44.9|61.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||61.3|44.9|<0.001
82362897|NCT01011556|164436253|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||0.003
82362898|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
82362899|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
82362900|NCT01011556|164436253|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.029
82362901|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||<0.001
82362902|NCT01011556|164436253|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||<0.001
82362903|NCT01011556|164436253|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.047
82362904|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.822||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.822
82362905|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.406
82362906|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.312||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||0.312
82362907|NCT01011556|164436254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
82362908|NCT01011556|164436254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||<0.001
82362909|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 3 months.||||||0.952
82362910|NCT01011556|164436254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||<0.001
82362911|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.011
82362912|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.997||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 6 months.||||||0.997
82362913|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.003
82362914|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.112
82391903|NCT03569293|164494760|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|44.7|||<|0.001|TWO_SIDED|95.0|36.2|53.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.2|36.2|<0.001
82391904|NCT03569293|164494761|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|25.3|||<|0.001|TWO_SIDED|95.0|20.0|30.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||30.6|20.0|<0.001
82391905|NCT03569293|164494761|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|15.0|||<|0.001|TWO_SIDED|95.0|10.4|19.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||19.6|10.4|<0.001
82391906|NCT03569293|164494762|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-45.98|STANDARD_ERROR_OF_MEAN|6.549|<|0.001|TWO_SIDED|95.0|-58.82|-33.15|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.15|-58.82|<0.001
82391907|NCT03569293|164494762|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-36.74|||<|0.001|TWO_SIDED|95.0|-49.66|-23.81|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-23.81|-49.66|<0.001
82391908|NCT03569293|164494763|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-47.03|STANDARD_ERROR_OF_MEAN|2.716|<|0.001|TWO_SIDED|95.0|-52.37|-41.7|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-41.70|-52.37|<0.001
82444244|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||||95.0|-1.5|0.2|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 2||0.2|-1.5|
82362915|NCT01011556|164436254|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 12 months.||||||0.988
82362916|NCT01011556|164436255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82362917|NCT01011556|164436255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82362918|NCT01011556|164436255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Rank Sum Test|Pairwise comparison p-value at 1 month.||||||<0.001
82362919|NCT02147587|164436268|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.213|||||TWO_SIDED|80.0|1.033|1.424|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Week 4|Geometric Mean Fold Rise (GMFR) for Tofacitinib versus Placebo (Week 4)||1.424|1.033|
82362920|NCT02147587|164436269|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.03|||||TWO_SIDED|80.0|0.877|1.209|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Day 1|GMFR for Tofacitinib versus Placebo (Day 1)||1.209|0.877|
82362921|NCT02147587|164436269|SUPERIORITY_OR_OTHER||Ratio of GMFR|1.093|||||TWO_SIDED|80.0|0.924|1.294|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMFRs are adjusted for baseline factors. GMFRs and 80% CIs are back-transformed from log scale.|Ratio of GMFRs (Tofacitinib/Placebo) at Week 12|GMFR for Tofacitinib versus Placebo (Week 12)||1.294|0.924|
82391909|NCT03569293|164494763|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-39.53|STANDARD_ERROR_OF_MEAN|2.738|<|0.001|TWO_SIDED|95.0|-44.91|-34.15|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-34.15|-44.91|<0.001
82362922|NCT02147587|164436270|SUPERIORITY_OR_OTHER||Ratio of GMT|1.063|||||TWO_SIDED|80.0|0.821|1.375|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Day 1|Geometric Mean Titer (GMT) for Tofacitinib versus Placebo (Day 1)||1.375|0.821|
82362923|NCT02147587|164436270|SUPERIORITY_OR_OTHER||Ratio of GMT|1.251|||||TWO_SIDED|80.0|0.967|1.618|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Week 4|GMT for Tofacitinib versus Placebo (Week 4)||1.618|0.967|
82362924|NCT02147587|164436270|SUPERIORITY_OR_OTHER||Ratio of GMT|1.121|||||TWO_SIDED|80.0|0.862|1.459|||ANCOVA|Repeated-measures ANCOVA model for the log-transformed GMTs are adjusted for baseline factors. GMTs and 80% CIs are back-transformed from log scale.|Ratio of GMTs (Tofacitinib/Placebo) at Week 12|GMT for Tofacitinib versus Placebo (Week 12)||1.459|0.862|
82362925|NCT02147587|164436271|SUPERIORITY_OR_OTHER||Difference in percentages|8.39|||||TWO_SIDED|80.0|-4.05|20.56|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Day 1)||20.56|-4.05|
82362926|NCT02147587|164436271|SUPERIORITY_OR_OTHER||Difference in percentages|14.01|||||TWO_SIDED|80.0|1.57|26.03|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Week 4)||26.03|1.57|
82362927|NCT02147587|164436271|SUPERIORITY_OR_OTHER||Difference in percentages|2.65|||||TWO_SIDED|80.0|-10.66|15.83|||80% CI based on Chan and Zhang method|||Tofacitinib versus Placebo (Week 12)||15.83|-10.66|
82362928|NCT00436917|164436290|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0|||||Kruskal-Wallis|||A sample of 60 participants was estimated to provide percentage statistics accuracy to within 13% with 95% confidence.||||0.01
82362929|NCT02438540|164436313|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362930|NCT02438540|164436314|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362931|NCT02438540|164436315|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362932|NCT02438540|164436316|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82527587|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.332||0.0275|TWO_SIDED|95.0|-1.4|-0.08|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.08|-1.40|0.0275
82575062|NCT00474526|164859798|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1 over US2, the lower limit of 95% CI for the difference in seroresponse rates (PUS1 - PUS2) must be greater than -5% for polio and -10% for all others.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-8.0|5.0|||ANOVA|||PnC 23F (Seroconversion percentage difference (PUS1 - PUS2))||5|-8|
82362933|NCT02438540|164436317|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|90.0|||||ANOVA|||||||0.04
82362934|NCT02438540|164436318|NON_INFERIORITY_OR_EQUIVALENCE|multiple comparatives||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
82362935|NCT02438540|164436318|NON_INFERIORITY_OR_EQUIVALENCE|from 0.60±0.03 mg/dl before treatment to 0.57±0.03 mg/dl after treatment, P=0.082||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
82362936|NCT02438540|164436318|NON_INFERIORITY_OR_EQUIVALENCE|from 0.59±0.03 mg/dl before treatment to 0.57±0.03 mg/dl after treatment, P=0.082||||||0.082|TWO_SIDED|90.0||||CRP is known to be an independent parameter|ANOVA|||||||0.082
82362937|NCT02438540|164436319|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362938|NCT02438540|164436320|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362939|NCT02438540|164436321|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362940|NCT02438540|164436322|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362941|NCT02438540|164436323|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362942|NCT02438540|164436324|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362943|NCT02438540|164436325|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362944|NCT02438540|164436326|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362945|NCT02438540|164436327|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362946|NCT02438540|164436328|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362947|NCT02438540|164436329|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362948|NCT02438540|164436330|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|90.0|||||ANOVA|||||||<0.001
82362949|NCT02010996|164436331|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Chi-squared|||||||0.05
82362950|NCT03420768|164436346|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.13|17.7||||||||17.70|0.13|
82362951|NCT03420768|164436346|SUPERIORITY||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|0.26|20.23||||||||20.23|0.26|
82362952|NCT01040793|164436360|SUPERIORITY_OR_OTHER||Ratio to placebo|1.118|STANDARD_ERROR_OF_MEAN|0.04||0.0018||95.0|1.043|1.199|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 5 mcg divided by Placebo|||1.199|1.043|0.0018
82362953|NCT01040793|164436360|SUPERIORITY_OR_OTHER||Ratio to placebo|1.105|STANDARD_ERROR_OF_MEAN|0.039||0.0052||95.0|1.03|1.184|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline endurance time and period as fixed and patient as random effect. Means, CI back-transformed.|Olo 10 mcg divided by Placebo|||1.184|1.030|0.0052
82362954|NCT01040793|164436361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.035||0.0155||95.0|0.016|0.152|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.152|0.016|0.0155
82362955|NCT01040793|164436361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.098|0.234|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.234|0.098|<0.0001
82444245|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||||95.0|-1.6|0.1|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 3||0.1|-1.6|
82444246|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||||95.0|-2.1|-0.6|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 4||-0.6|-2.1|
82362956|NCT01040793|164436362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.366|STANDARD_ERROR_OF_MEAN|0.214||0.1176||95.0|-0.757|0.085|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.085|-0.757|0.1176
82362957|NCT01040793|164436362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.214||0.7591||95.0|-0.486|0.355|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.355|-0.486|0.7591
82362958|NCT01040793|164436363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.094|0.234|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.234|0.094|<0.0001
82362959|NCT01040793|164436363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.125|0.265|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.265|0.125|<0.0001
82362960|NCT01040793|164436364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.034||0.0245||95.0|0.01|0.146|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.146|0.010|0.0245
82362961|NCT01040793|164436364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.105|0.24|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.240|0.105|<0.0001
82362962|NCT01040793|164436365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.074|STANDARD_ERROR_OF_MEAN|0.07||0.2897||95.0|-0.211|0.063|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.063|-0.211|0.2897
82362963|NCT01040793|164436365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.069||0.7199||95.0|-0.162|0.112|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.112|-0.162|0.7199
82362964|NCT01040793|164436366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.146||0.5313||95.0|-0.196|0.379|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.379|-0.196|0.5313
82362965|NCT01040793|164436366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.341|STANDARD_ERROR_OF_MEAN|0.146||0.0198||95.0|0.055|0.628|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.628|0.055|0.0198
82362966|NCT01040793|164436367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.053||0.1048||95.0|-0.19|0.018|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.018|-0.190|0.1048
82362967|NCT01040793|164436367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.053||0.0246||95.0|-0.224|-0.015|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.015|-0.224|0.0246
82362968|NCT01040793|164436368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.318|-0.108|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||-0.108|-0.318|<0.0001
82527588|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.35||0.042|TWO_SIDED|95.0|-1.41|-0.03|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-0.03|-1.41|0.0420
82527589|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.349||0.1309|TWO_SIDED|95.0|-1.22|0.16|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.16|-1.22|0.1309
82527590|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.305||0.5566|TWO_SIDED|95.0|-0.78|0.42|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.42|-0.78|0.5566
82362969|NCT01040793|164436368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.187|STANDARD_ERROR_OF_MEAN|0.054||0.0005||95.0|-0.293|-0.082|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||-0.082|-0.293|0.0005
82362970|NCT01040793|164436369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|0.071|0.228|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.228|0.071|0.0002
82362971|NCT01040793|164436369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.04||0.0001||95.0|0.076|0.233|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.233|0.076|0.0001
82362972|NCT01040793|164436370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.162|0.303|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.303|0.162|<0.0001
82362973|NCT01040793|164436370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.133|0.273|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.273|0.133|<0.0001
82362974|NCT01040793|164436371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.056||0.3109||95.0|-0.053|0.166|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.166|-0.053|0.3109
82362975|NCT01040793|164436371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.056||0.608||95.0|-0.081|0.138|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.138|-0.081|0.6080
82362976|NCT01040793|164436372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.056||0.6809||95.0|-0.087|0.133|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.133|-0.087|0.6809
82362977|NCT01040793|164436372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.858||95.0|-0.1|0.12|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.120|-0.100|0.8580
82362978|NCT01040793|164436373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.148|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.148|0.073|<0.0001
82362979|NCT01040793|164436373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.148|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.148|0.073|<0.0001
82362980|NCT01040793|164436374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.151|0.233|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.233|0.151|<0.0001
82362981|NCT01040793|164436374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.153|0.236|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.236|0.153|<0.0001
82362982|NCT01040793|164436375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.036||0.0013||95.0|0.047|0.191|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.191|0.047|0.0013
82362983|NCT01040793|164436375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.047|0.191|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.191|0.047|0.0013
82362984|NCT01040793|164436376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.196|0.333|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.333|0.196|<0.0001
82362985|NCT01040793|164436376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.212|0.35|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.350|0.212|<0.0001
82362986|NCT01040793|164436377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.156|0.405|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.405|0.156|<0.0001
82362987|NCT01040793|164436377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.166|0.416|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.416|0.166|<0.0001
82362988|NCT01040793|164436378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.441|0.719|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 5 mcg minus Placebo|||0.719|0.441|<0.0001
82444247|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||||95.0|-1.3|0.5|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 5||0.5|-1.3|
82362989|NCT01040793|164436378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.552|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001||95.0|0.412|0.691|||Mixed Models Analysis|Mixed effects repeated measures with treatment, baseline and period as fixed and patient as random effect.|Olo 10 mcg minus Placebo|||0.691|0.412|<0.0001
82362990|NCT00860743|164436411|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|ANOVA|||||||0.001
82362991|NCT00860743|164436412|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||||||0.2
82362992|NCT01684878|164436439|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.88||||0.4983|TWO_SIDED|95.0|0.62|1.27|||2 sided log-rank|||The stratified time-to-event analysis included the treatment group variable plus the following stratification factors: selected chemotherapy cohort (gemcitabine versus topotecan vs paclitaxel), previous anti-angiogenic therapy (yes versus no), and progression-free interval (PFI) since platinum therapy (\< 3 months versus 3-6 months). A hazard ratio \< 1 favored the pertuzumab + chemotherapy treatment arm.||1.27|0.62|0.4983
82362993|NCT01684878|164436441|SUPERIORITY_OR_OTHER||Difference in response rate|6.06||||0.4102|TWO_SIDED|95.0|6.0|18.3|||Fisher Exact||Approximate 95% CI for difference of 2 rates using Hauck-Anderson method.|||18.3|6.0|0.4102
82391910|NCT03569293|164494764|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|58.6|||<|0.001|TWO_SIDED|95.0|51.9|65.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||65.3|51.9|<0.001
82391911|NCT03569293|164494764|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|52.3|||<|0.001|TWO_SIDED|95.0|45.2|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.4|45.2|<0.001
82391912|NCT03569293|164494765|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|53.2|||<|0.001|TWO_SIDED|95.0|45.9|60.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.5|45.9|<0.001
82391913|NCT03569293|164494765|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|46.7|||<|0.001|TWO_SIDED|95.0|39.0|54.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||54.4|39.0|<0.001
82391914|NCT03569293|164494766|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-40.39|STANDARD_ERROR_OF_MEAN|2.732|<|0.001|TWO_SIDED|95.0|-45.75|-35.03|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-35.03|-45.75|<0.001
82391915|NCT03569293|164494766|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-33.03|STANDARD_ERROR_OF_MEAN|2.758|<|0.001|TWO_SIDED|95.0|-38.44|-27.61|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-27.61|-38.44|<0.001
82642306|NCT04035694|164999913|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.38|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.38
82391916|NCT03569293|164494767|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|24.8|45.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.1|24.8|<0.001
82391917|NCT03569293|164494767|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|21.4|41.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||41.6|21.4|<0.001
82391918|NCT03569293|164494768|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|37.3|||<|0.001|TWO_SIDED|95.0|30.8|43.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.8|30.8|<0.001
82391919|NCT03569293|164494768|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|25.9|||<|0.001|TWO_SIDED|95.0|19.7|32.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||32.1|19.7|<0.001
82391920|NCT03569293|164494769|SUPERIORITY||Adjusted Response Rate Difference|66.6|||<|0.001|TWO_SIDED|95.0|53.8|79.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||79.4|53.8|<0.001
82391921|NCT03569293|164494769|SUPERIORITY||Adjusted Response Rate Difference|62.0|||<|0.001|TWO_SIDED|95.0|48.6|75.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||75.4|48.6|<0.001
82391922|NCT03569293|164494770|SUPERIORITY||Adjusted Response Rate Difference|57.4|||<|0.001|TWO_SIDED|95.0|44.6|70.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.2|44.6|<0.001
82391923|NCT03569293|164494770|SUPERIORITY||Adjusted Response Rate Difference|39.1|||<|0.001|TWO_SIDED|95.0|25.6|52.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||52.6|25.6|<0.001
82391924|NCT03569293|164494771|SUPERIORITY||Adjusted Response Rate Difference|46.6|||<|0.001|TWO_SIDED|95.0|32.6|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.6|32.6|<0.001
82391925|NCT03569293|164494771|SUPERIORITY||Adjusted Response Rate Difference|38.7|||<|0.001|TWO_SIDED|95.0|24.3|53.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.1|24.3|<0.001
82391926|NCT03569293|164494772|SUPERIORITY||Adjusted Response Rate Difference|63.9|||<|0.001|TWO_SIDED|95.0|51.8|75.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||75.9|51.8|<0.001
82391927|NCT03569293|164494772|SUPERIORITY||Adjusted Response Rate Difference|43.8|||<|0.001|TWO_SIDED|95.0|30.9|56.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||56.7|30.9|<0.001
82391928|NCT03569293|164494773|SUPERIORITY||Adjusted Response Rate Difference|54.7|||<|0.001|TWO_SIDED|95.0|41.7|67.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.8|41.7|<0.001
82391929|NCT03569293|164494773|SUPERIORITY||Adjusted Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|32.0|58.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||58.3|32.0|<0.001
82391930|NCT03569293|164494774|SUPERIORITY||Adjusted Response Rate Difference|47.1|||<|0.001|TWO_SIDED|95.0|34.0|60.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.2|34.0|<0.001
82391931|NCT03569293|164494774|SUPERIORITY||Adjusted Response Rate Difference|35.9|||<|0.001|TWO_SIDED|95.0|23.2|48.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.6|23.2|<0.001
82527591|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.248||0.4497|TWO_SIDED|95.0|-0.68|0.3|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.30|-0.68|0.4497
82527592|NCT03502616|164751417|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.227||0.9272|TWO_SIDED|95.0|-0.43|0.47|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.47|-0.43|0.9272
82391932|NCT03569293|164494775|SUPERIORITY||Adjusted Response Rate Difference|21.0|||<|0.001|TWO_SIDED|95.0|11.0|31.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||31.1|11.0|<0.001
82391933|NCT03569293|164494775|SUPERIORITY||Adjusted Response Rate Difference|9.4||||0.008|TWO_SIDED|95.0|2.5|16.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||16.4|2.5|0.008
82391934|NCT03569293|164494776|SUPERIORITY||Adjusted Response Rate Difference|11.0||||0.015|TWO_SIDED|95.0|2.1|19.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||19.9|2.1|0.015
82391935|NCT03569293|164494776|SUPERIORITY||Adjusted Response Rate Difference|6.5||||0.086|TWO_SIDED|95.0|-0.9|13.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||13.9|-0.9|0.086
82391936|NCT03569293|164494777|SUPERIORITY||Adjusted Response Rate Difference|10.8||||0.045|TWO_SIDED|95.0|0.2|21.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.4|0.2|0.045
82391937|NCT03569293|164494777|SUPERIORITY||Adjusted Response Rate Difference|11.0||||0.04|TWO_SIDED|95.0|0.5|21.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.5|0.5|0.040
82391938|NCT03569293|164494778|SUPERIORITY||Adjusted Response Rate Difference|-22.1|||<|0.001|TWO_SIDED|95.0|-32.6|-11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-11.5|-32.6|<0.001
82391939|NCT03569293|164494778|SUPERIORITY||Adjusted Response Rate Difference|-22.1|||<|0.001|TWO_SIDED|95.0|-32.7|-11.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-11.5|-32.7|<0.001
82391940|NCT03569293|164494779|SUPERIORITY||Adjusted Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|37.7|69.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.4|37.7|<0.001
82642307|NCT04035694|164999914|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.56|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.56
82391941|NCT03569293|164494779|SUPERIORITY||Adjusted Response Rate Difference|34.8|||<|0.001|TWO_SIDED|95.0|18.1|51.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||51.4|18.1|<0.001
82444248|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||||95.0|-1.8|0.0|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 6||0.0|-1.8|
82362994|NCT01684878|164436446|SUPERIORITY_OR_OTHER||Hazard ratio (stratified)|0.9||||0.596|TWO_SIDED|95.0|0.61|1.32|||2 sided log-rank||A hazard ratio \< 1 favored the Pertuzumab + Chemotherapy treatment group|The stratified time-to-event analysis included the treatment group variable plus the following stratification factors: selected chemotherapy cohort (gemcitabine versus topotecan versus paclitaxel), previous angiogenic therapy (yes versus no) and PFI since platinum therapy (\<3 months versus 3-6 months).||1.32|0.61|0.5960
82362995|NCT00810888|164436447|SUPERIORITY|||||||1||||||not adjusted for multiple comparisons as a prior hypothesis critical value \<0.05|Fisher Exact|||Fisher's exact test||||1.00
82362996|NCT00810888|164436448|SUPERIORITY|||||||0.66|||||||Fisher Exact|||Only the randomized subjects will be compared||||0.66
82362997|NCT00810888|164436449|SUPERIORITY||Sensitivity|38.5||||0.004|TWO_SIDED|95.0|17.6|64.6|||Fisher Exact|||||64.6|17.6|0.004
82362998|NCT00810888|164436450|SUPERIORITY||Specificity|94.2||||0.004|TWO_SIDED|95.0|85.6|98.1|||Fisher Exact|||||98.1|85.6|0.004
82362999|NCT00810888|164436451|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82363000|NCT00810888|164436452|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
82391942|NCT03569293|164494780|SUPERIORITY||Adjusted Response Rate Difference|56.6|||<|0.001|TWO_SIDED|95.0|42.0|71.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.1|42.0|<0.001
82391943|NCT03569293|164494780|SUPERIORITY||Adjusted Response Rate Difference|32.5|||<|0.001|TWO_SIDED|95.0|16.9|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.1|16.9|<0.001
82363001|NCT00810888|164436453|OTHER|A Kappa test of overall agreement was used|Kappa|0.77|||||TWO_SIDED|95.0|0.61|0.93|||||A kappa of \>0.75 is considered excellent agreement|||0.93|0.61|
82363002|NCT00810888|164436454|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||Groups 1 and 2 only the spot positive subjects randomized to interventional drug or placebo||||0.25
82363003|NCT00479388|164436565|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|1.6||0.006||95.0|-7.7|-1.3|||Repeated measures analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time, baseline LDL-C-by-time and concomitant statin group-by-time interaction.||||-1.3|-7.7|0.006
82363004|NCT00479388|164436566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|STANDARD_ERROR_OF_MEAN|1.2|<=|0.001||95.0|13.4|17.9|||Repeated measures analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time, baseline HDL-C-by-time and concomitant statin group-by-time interaction.||||17.9|13.4|<=0.001
82363005|NCT00479388|164436567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|||<=|0.001||95.0|-19.2|-11.7|||Repeated measures analysis|ANCOVA model based on Tukey's normalized ranks with term for treatment, gender, concomitant statin group and Tukey's normal score of baseline.||||-11.7|-19.2|<=0.001
82363006|NCT01876368|164436571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.19|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.73|-1.65|||ANCOVA|||||-1.65|-4.73|<0.001
82363007|NCT02563769|164436588|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82363008|NCT02563769|164436588|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82363009|NCT00104247|164436595|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82363010|NCT01886937|164436599|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
82391944|NCT03569293|164494781|SUPERIORITY||Adjusted Response Rate Difference|50.9|||<|0.001|TWO_SIDED|95.0|35.1|66.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.7|35.1|<0.001
82391945|NCT03569293|164494781|SUPERIORITY||Adjusted Response Rate Difference|35.7|||<|0.001|TWO_SIDED|95.0|18.8|52.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||52.6|18.8|<0.001
82391946|NCT03569293|164494782|SUPERIORITY||Adjusted Response Rate Difference|54.4|||<|0.001|TWO_SIDED|95.0|37.4|71.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.3|37.4|<0.001
82391947|NCT03569293|164494782|SUPERIORITY||Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|19.8|56.4|||Chi-squared, Corrected|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||56.4|19.8|<0.001
82444249|NCT00413010|164597018|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||||95.0|-2.1|0.1|||ANCOVA|Repeated analysis of covariance heterogeneous auto-regressive w/ tx center wk \& tx by wk fixed effects; Baseline HAM-D total score covariate in model.|Difference is pregabalin minus placebo.|Week 8||0.1|-2.1|
82444250|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.191|0.298|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 once daily (QD) minus Placebo|||0.298|0.191|<0.0001
82444251|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.065|0.172|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg|||0.172|0.065|<0.0001
82444252|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.061|0.167|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.167|0.061|<0.0001
82444253|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.164|0.271|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.271|0.164|<0.0001
82444254|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.027||0.0008|TWO_SIDED|95.0|0.038|0.145|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.145|0.038|0.0008
82444255|NCT01533922|164597020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.027||0.0015|TWO_SIDED|95.0|0.034|0.141|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.141|0.034|0.0015
82444256|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|1.209|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|1.132|1.292|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Placebo QD|||1.292|1.132|<0.0001
82444257|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|1.002|STANDARD_ERROR_OF_MEAN|0.034||0.9633|TWO_SIDED|95.0|0.937|1.07|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Olodaterol 5 mcg QD|||1.070|0.937|0.9633
82444258|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|0.993|STANDARD_ERROR_OF_MEAN|0.033||0.8415|TWO_SIDED|95.0|0.93|1.061|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Tiotropium 5 mcg QD|||1.061|0.930|0.8415
82527593|NCT03502616|164751417|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.273||0.2539|TWO_SIDED|95.0|-0.85|0.23|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.23|-0.85|0.2539
82527594|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.479||0.4379|TWO_SIDED|95.0|-0.58|1.33|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.33|-0.58|0.4379
82363011|NCT00605917|164436624|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was starting dose. The null hypothesis is there is no difference between three types of starting dose in the participants of responders."||||<0.001
82527595|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.532||0.534|TWO_SIDED|95.0|-0.73|1.39|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.39|-0.73|0.5340
82363012|NCT00605917|164436625|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.002
82444259|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|1.265|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|1.184|1.351|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Placebo QD|||1.351|1.184|<0.0001
82444260|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|1.047|STANDARD_ERROR_OF_MEAN|0.035||0.1717|TWO_SIDED|95.0|0.98|1.119|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Olodaterol 5 mcg QD|||1.119|0.980|0.1717
82444261|NCT01533922|164597021|SUPERIORITY_OR_OTHER||Ratio|1.039|STANDARD_ERROR_OF_MEAN|0.035||0.261|TWO_SIDED|95.0|0.972|1.11|||Mixed Models Analysis||Ratio calculated asTiotropium + olodaterol 2.5/5 QD divided by Tiotropium 5 mcg QD|||1.110|0.972|0.2610
82444262|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0004|TWO_SIDED|95.0|-0.004|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||-0.001|-0.004|0.0004
82444263|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.8291|TWO_SIDED|95.0|-0.001|0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.002|-0.001|0.8291
82444264|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.857|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.8570
82444265|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.005|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||-0.002|-0.005|<0.0001
82527596|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.582||0.9148|TWO_SIDED|95.0|-1.1|1.22|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.22|-1.10|0.9148
82363013|NCT00605917|164436626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was family history of psychiatric disorder. The null hypothesis is there is no difference between with and without family history of psychiatric disorder in the participants of responders."||||0.032
82363014|NCT00605917|164436627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was smoking status. The null hypothesis is there is no difference between three types of smoking status in the participants of responders."||||<0.001
82363015|NCT00605917|164436628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||<0.001
82363016|NCT00605917|164436629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was non-pharmaceutical therapies. The null hypothesis is there is no difference between with and without non-pharmaceutical therapies in the participants of responders."||||0.001
82391948|NCT03569293|164494783|SUPERIORITY||Adjusted Response Rate Difference|51.2|||<|0.001|TWO_SIDED|95.0|33.3|69.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.1|33.3|<0.001
82391949|NCT03569293|164494783|SUPERIORITY||Adjusted Response Rate Difference|28.1||||0.006|TWO_SIDED|95.0|8.0|48.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.2|8.0|0.006
82575063|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.16|||||TWO_SIDED|95.0|0.96|1.4|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA1:LA2)||1.4|0.96|
82391950|NCT03569293|164494784|SUPERIORITY||Adjusted Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|19.9|42.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||42.5|19.9|<0.001
82391951|NCT03569293|164494784|SUPERIORITY||Adjusted Response Rate Difference|15.8||||0.001|TWO_SIDED|95.0|6.9|24.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||24.6|6.9|0.001
82391952|NCT03569293|164494785|SUPERIORITY||LS Mean Difference|-42.42|||<|0.001|TWO_SIDED|95.0|-56.16|-28.68|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-28.68|-56.16|<0.001
82642308|NCT04035694|164999915|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.09|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.09
82575064|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.1|||||TWO_SIDED|95.0|0.96|1.27|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA1:LA2)||1.27|0.96|
82363017|NCT00605917|164436630|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was history of treatment prior to administration of Sertraline. The null hypothesis is there is no difference between with and without history of treatment prior to administration of Sertraline in the participants of responders."||||0.028
82363018|NCT00605917|164436631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was average daily dose. The null hypothesis is there is no difference of five types of average daily dose in the participants of responders."||||<0.001
82363019|NCT00605917|164436632|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED|||||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."|Chi-squared|not adjusted, p=0.050||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."||||0.030
82363020|NCT00605917|164436633|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.013
82363021|NCT00605917|164436634|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was complications. The null hypothesis is there is no difference between with or without complications in the participants of responders."||||0.004
82391953|NCT03569293|164494785|SUPERIORITY||LS Mean Difference|-33.88|||<|0.001|TWO_SIDED|95.0|-47.76|-19.99|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-19.99|-47.76|<0.001
82391954|NCT03569293|164494786|SUPERIORITY||LS Mean Difference|-41.84|||<|0.001|TWO_SIDED|95.0|-52.09|-31.58|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-31.58|-52.09|<0.001
82391955|NCT03569293|164494786|SUPERIORITY||LS Mean Difference|-37.84|||<|0.001|TWO_SIDED|95.0|-48.17|-27.52|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-27.52|-48.17|<0.001
82391956|NCT03569293|164494787|SUPERIORITY||Adjusted Response Rate Difference|54.8|||<|0.001|TWO_SIDED|95.0|40.3|69.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.4|40.3|<0.001
82391957|NCT03569293|164494787|SUPERIORITY||Adjusted Response Rate Difference|50.0|||<|0.001|TWO_SIDED|95.0|34.8|65.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||65.3|34.8|<0.001
82391958|NCT03569293|164494788|SUPERIORITY||Adjusted Response Rate Difference|45.1|||<|0.001|TWO_SIDED|95.0|21.0|69.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.2|21.0|<0.001
82391959|NCT03569293|164494788|SUPERIORITY||Adjusted Response Rate Difference|49.6|||<|0.001|TWO_SIDED|95.0|26.7|72.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.5|26.7|<0.001
82391960|NCT03569293|164494789|SUPERIORITY||LS Mean Difference|-38.92|||<|0.001|TWO_SIDED|95.0|-49.54|-28.31|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-28.31|-49.54|<0.001
82391961|NCT03569293|164494789|SUPERIORITY||LS Mean Difference|-32.7|||<|0.001|TWO_SIDED|95.0|-43.44|-21.96|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-21.96|-43.44|<0.001
82391962|NCT03569293|164494790|SUPERIORITY||Adjusted Response Rate Difference|51.7|||<|0.001|TWO_SIDED|95.0|31.7|71.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||71.8|31.7|<0.001
82391963|NCT03569293|164494790|SUPERIORITY||Adjusted Response Rate Difference|44.7|||<|0.001|TWO_SIDED|95.0|26.7|62.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||62.8|26.7|<0.001
82391964|NCT03569293|164494791|SUPERIORITY||Adjusted Response Rate Difference|25.1||||0.006|TWO_SIDED|95.0|7.3|43.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.0|7.3|0.006
82575065|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.04|||||TWO_SIDED|95.0|0.87|1.25|||ANOVA|||PT (Post-vaccination GMC; group ratio LA1:LA2)||1.25|0.87|
82575066|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.05|||||TWO_SIDED|95.0|0.89|1.23|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA1:LA2)||1.23|0.89|
82363022|NCT00605917|164436635|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was drinking status. The null hypothesis is there is no difference between five types of drinking status in the participants of responders."||||0.004
82363023|NCT02339090|164436713|NON_INFERIORITY|Threshold for significance: annualized height velocity between somavaratan and daily rhGH ≤ -2.0 cm/year|LS Mean Difference|-1.28|||||TWO_SIDED|95.0|-2.32|-0.24||||||An ANCOVA model will be used to determine the adjusted (least squares) means and standard error (SE) to determine the confidence interval (CI) of the difference. ANCOVA model included treatment group, region, and gender as fixed effects; with baseline age and baseline IGF-I SDS as covariates.||-0.24|-2.32|
82363024|NCT04243096|164436723|OTHER||Mean Difference (Final Values)|4.62|||<|0.0001|TWO_SIDED|95.0|2.6|6.64|||Mixed Models Analysis|||||6.64|2.60|<0.0001
82363025|NCT04243096|164436724|OTHER||Mean Difference (Final Values)|-0.04|||<|0.0001|TWO_SIDED|95.0|-0.06|-0.02|||Mixed Models Analysis|||||-0.02|-0.06|<0.0001
82363026|NCT04243096|164436725|OTHER||Mean Difference (Final Values)|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.01|||Mixed Models Analysis|||||-0.01|-0.03|<0.0001
82363027|NCT04243096|164436726|OTHER||Mean Difference (Final Values)|-0.03|||<|0.0001|TWO_SIDED|95.0|-0.04|-0.02|||Mixed Models Analysis|||||-0.02|-0.04|<0.0001
82363028|NCT04243096|164436727|OTHER||Mean Difference (Final Values)|-0.01|||<|0.0001|TWO_SIDED|95.0|-0.01|0.0|||Mixed Models Analysis|||||0.00|-0.01|<0.0001
82363029|NCT04243096|164436728|OTHER||Mean Difference (Final Values)|-0.01||||0.0013|TWO_SIDED|95.0|-0.02|-0.01|||Mixed Models Analysis|||||-0.01|-0.02|0.0013
82363030|NCT04243096|164436729|OTHER||Mean Difference (Final Values)|-0.02||||0.0003|TWO_SIDED|95.0|-0.02|-0.01|||Mixed Models Analysis|||||-0.01|-0.02|0.0003
82363031|NCT04243096|164436730|OTHER||Mean Difference (Final Values)|0.03|||<|0.0001|TWO_SIDED|95.0|0.02|0.04|||Mixed Models Analysis|||||0.04|0.02|<0.0001
82363032|NCT04243096|164436731|OTHER||Mean Difference (Final Values)|0.09|||<|0.0001|TWO_SIDED|95.0|0.06|0.13|||Mixed Models Analysis|||||0.13|0.06|<0.0001
82363033|NCT04243096|164436735|OTHER||Mean Difference (Final Values)|9.96|||<|0.0001|TWO_SIDED|95.0|6.6|13.31|||Mixed Models Analysis|||||13.31|6.60|<0.0001
82363034|NCT04243096|164436736|OTHER||Mean Difference (Final Values)|13.07|||<|0.0001|TWO_SIDED|95.0|9.65|16.48|||Mixed Models Analysis|adjusted for age, sex, BMI, and presence of comorbidities.|Change from baseline to week 12|||16.48|9.65|<0.0001
82363035|NCT04243096|164436737|OTHER||Median Difference (Final Values)|-17.5||||0.1196|TWO_SIDED|95.0|-39.7|4.61|||Mixed Models Analysis|||||4.61|-39.7|0.1196
82363036|NCT04243096|164436739|OTHER||Mean Difference (Final Values)|0.11|||<|0.0001|TWO_SIDED|95.0|-0.04|0.25|||Mixed Models Analysis|||||0.25|-0.04|<0.0001
82363037|NCT04243096|164436740|OTHER||Mean Difference (Final Values)|-1.83|||<|0.0001|TWO_SIDED|95.0|-5.76|2.09|||Mixed Models Analysis|||||2.09|-5.76|<0.0001
82391965|NCT03569293|164494791|SUPERIORITY||Adjusted Response Rate Difference|15.8||||0.093|TWO_SIDED|95.0|-2.6|34.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||34.2|-2.6|0.093
82527597|NCT03502616|164751418|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.548||0.5409|TWO_SIDED|95.0|-1.43|0.76|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.76|-1.43|0.5409
82527598|NCT03502616|164751418|SUPERIORITY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.607||0.3555|TWO_SIDED|95.0|-1.78|0.65|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.65|-1.78|0.3555
82642309|NCT04035694|164999916|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.40
82527599|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.436||0.2485|TWO_SIDED|95.0|-0.36|1.38|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.38|-0.36|0.2485
82527600|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.435||0.0866|TWO_SIDED|95.0|-0.11|1.63|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.63|-0.11|0.0866
82527601|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.356||0.4101|TWO_SIDED|95.0|-0.42|1.01|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||1.01|-0.42|0.4101
82527602|NCT03502616|164751418|SUPERIORITY||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.217||0.0237|TWO_SIDED|95.0|0.07|0.94|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.94|0.07|0.0237
82363038|NCT04243096|164436741|OTHER||Mean Difference (Final Values)|-0.15|||<|0.0001|TWO_SIDED|95.0|-0.46|0.16|||Mixed Models Analysis|||||0.16|-0.46|<0.0001
82363039|NCT04243096|164436742|OTHER||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-2.22|-0.08|||Mixed Models Analysis|||||-0.08|-2.22|<0.0001
82363040|NCT04243096|164436743|OTHER||Mean Difference (Final Values)|-0.08|||<|0.0001|TWO_SIDED|95.0|-3.37|3.22|||Mixed Models Analysis|||||3.22|-3.37|<0.0001
82363041|NCT04243096|164436744|OTHER||Mean Difference (Final Values)|6.21||||0.0134|TWO_SIDED|95.0|1.31|11.11|||Mixed Models Analysis|||||11.11|1.31|0.0134
82363042|NCT04243096|164436745|OTHER||Median Difference (Final Values)|1.75|||<|0.0001|TWO_SIDED|95.0|1.16|2.34|||Mixed Models Analysis|||||2.34|1.16|<0.0001
82363043|NCT04243096|164436746|OTHER||Median Difference (Final Values)|-1.19||||0.003|TWO_SIDED|95.0|-1.97|-0.41|||Mixed Models Analysis|||||-0.41|-1.97|0.0030
82363044|NCT04243096|164436747|OTHER||Mean Difference (Final Values)|0.45|||<|0.0001|TWO_SIDED|95.0|0.23|0.67|||Mixed Models Analysis|||||0.67|0.23|<0.0001
82363045|NCT04243096|164436748|OTHER||Mean Difference (Final Values)|35.18|||<|0.0001|TWO_SIDED|95.0|18.7|51.67|||Mixed Models Analysis|||||51.67|18.70|<0.0001
82363046|NCT04243096|164436749|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.57|-1.39|||Mixed Models Analysis|||||-1.39|-2.57|<0.0001
82363047|NCT01631682|164436771|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after propranolol was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||>.05
82363048|NCT01631682|164436771|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was initially presented (CS+R) and then followed by a series of extinction trials after a 10-min delay would result in a smaller SCR than a conditioned stimulus (CS+N) that was not extinguished without a 10-min delay.||||>.05
82363049|NCT01631682|164436771|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after mifepristone was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||<.05
82363050|NCT01631682|164436771|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study used a within-groups design. Each subject provides his/her own comparison data. It was predicted that that a conditioned stimulus that was reactivated (CS+R) after intranasal oxytocin was administered would result in a smaller SCR than a conditioned stimulus that was not reactivated (CS+N).||||>.05
82363051|NCT00749411|164436772|NON_INFERIORITY|GSK233705/GW642444 were declared non-inferior to placebo for heart rate if the upper limit of the 95% confidence interval for the estimated treatment difference for weighted mean heart rate was less than +10bpm.|Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-5.5|3.5|||||Analysis performed using a Repeated Measures Model with covariates of baseline pulse rate, sex, age, smoking status, treatment and Day and Day by treatment and Day by baseline interactions.|||3.5|-5.5|
82363052|NCT04052698|164436775|NON_INFERIORITY|1-sided test where the mean ratio is less than 0.5 utilizing a negative binomial counting regression model. One-sided alpha level of 2.5%.|Mean Difference (Final Values)|0.1645|||<|0.0001|TWO_SIDED|95.0|0.10194|0.26558|||Regression, Linear|||||0.26558|0.10194|<0.0001
82363053|NCT04052698|164436777|NON_INFERIORITY|1-sided test where the mean ratio is less than 0.5 utilizing a negative binomial counting regression model. One-sided alpha level of 2.5%.|Mean Difference (Final Values)|0.1389|||<|0.0001|TWO_SIDED|95.0|0.07664|0.25187|||Regression, Linear|||||0.25187|0.07664|<0.0001
82363054|NCT06442410|164436789|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363055|NCT06442410|164436790|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363056|NCT06442410|164436791|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363057|NCT06442410|164436792|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363058|NCT06442410|164436793|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363059|NCT06442410|164436794|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82391966|NCT02276053|164494831|OTHER||Retention rate|86.0|||||TWO_SIDED|95.0|79.0|93.1|||||"Confidence intervals for the 6-month retention rate were calculated using Greenwood's formula.~Addition of a note: Not all patients had an Observation Period of 6 months."|The retention rate was derived using Kaplan-Meier methodology where patients who completed the study were censored at the date of last administration of LCM in the study.||93.1|79.0|
82391967|NCT01632904|164494842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.139|TWO_SIDED|95.0|0.82|4.04|||Chi-squared|||||4.04|0.82|0.139
82575067|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.99|||||TWO_SIDED|95.0|0.81|1.21|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA1:LA2)||1.21|0.81|
82363060|NCT06442410|164436796|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363061|NCT06442410|164436797|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363062|NCT06442410|164436798|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363063|NCT06442410|164436799|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363064|NCT06442410|164436800|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363065|NCT06442410|164436801|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82444266|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.7294|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.001|-0.002|0.7294
82363066|NCT06442410|164436802|NON_INFERIORITY|A non-inferiority margin of 0.65 cm was selected based on a previous study of a similar therapy against traditional SCS|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82363067|NCT00880087|164436803|SUPERIORITY||Risk Difference (RD)|-2.6||||0.63|TWO_SIDED|95.0|-14.5|9.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||9.2|-14.5|0.63
82363068|NCT00880087|164436804|SUPERIORITY||Risk Difference (RD)|2.8||||0.56|TWO_SIDED|95.0|-8.0|13.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was used adjusting for age category at time of randomization (\<2 years, 2 to \<12 years, or \>=12 years)||||13.7|-8.0|0.56
82363069|NCT00880087|164436805|SUPERIORITY|||||||0.7|||||||Stratified Mann-Whitney Test|Test stratified by age category (\<2 years, 2 to \<12 years, or \>=12 years), for continuous (NOT categorized as reported above) 1-year change in VABS-II|||As the (nonparametric) comparison treated 1-year deaths as worst possible outcomes and worst possible 1-year VABS-II as next worst possible outcomes, using change in VABS-II for other participants alive at 1 year, no relevant estimation of effect size is possible for this secondary outcome.|||0.70
82363070|NCT00880087|164436806|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|"Test used the continuous (NOT categorized as reported above) neuropsychological scores, with Lowest Possible Score treated as lowest possible value."||||||0.46
82363071|NCT03662308|164436808|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82363072|NCT01005329|164436815|OTHER||||||||||||||||||The rate of the acute specified AEs (adverse events) from previous (and prior to ClinicalTrials.gov requirements) Radiation Therapy Oncology Group (RTOG) trial 9708 of RT + cisplatin was 44% and the hypothesis is that the addition of bevacizumab to IMRT + cisplatin will not increase this rate beyond 60%. This study was designed with a 1-sided, upper bound confidence interval to estimate this AE rate. Twenty-seven evaluable patients were required to have 95% confidence that the true grade 3+ non-hematologic treatment-related AE rate is not greater than 60%. Please note that this is a 95% ONE-SIDED confidence bound which is equivalent to the upper bound of a two-sided 90% confidence interval.|||
82575068|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.68|1.17|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio LA1:LA2)||1.17|0.68|
82575069|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.97|||||TWO_SIDED|95.0|0.73|1.28|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio LA1:LA2)||1.28|0.73|
82363073|NCT03852524|164436845|SUPERIORITY||Median Difference (Net)|11.0||||0.81|TWO_SIDED||||||Log Rank|||The sample size (41 patients per study group; 82 patients total) for this superiority trial was calculated with a power of 90% (alpha = 0.05) and based on the assumption that 50% of subjects in the placebo group would experience a bowel movement by postoperative day 3, as compared to 85% in the treatment group. Additionally, a 10% lost-to-follow up rate was assumed.||||0.81
82363074|NCT02973321|164436876|OTHER|The overall Type 1 error for multiple comparisons of the HbA1c and body weight was controlled by a Hierarchical testing procedure. Testing was performed in following sequence: 1. 1st trend test for HbA1c, 2. 1st trend test for body weight, 3. 2nd trend test for HbA1c, 4. 2nd trend test for body weight, 5. 3rd trend test for HbA1c, 6. 3rd trend test for body weight.|||||<|0.0001||||||Hierarchical testing procedure continued only, if the previous comparison was statistically significant. Threshold for significance at 0.05 level.|ANCOVA|1st trend test||Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Overall 1st trend test based on a contrast with coefficients of +3, +1, -1, -3 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide. Here it is test 1 of testing order.||||< 0.0001
82363075|NCT02973321|164436876|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-0.956|STANDARD_ERROR_OF_MEAN|0.206|<|0.0001|TWO_SIDED|95.0|-1.359|-0.552||Threshold for significance at 0.05 level.|ANCOVA|2nd Trend test||Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Second Trend test based on a contrast with coefficients of 0, +1, 0, -1 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide, respectively. Here, it is test no. 3 of hierarchical testing sequence.||-0.552|-1.359|< 0.0001
82363076|NCT02973321|164436876|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-0.854|STANDARD_ERROR_OF_MEAN|0.209|<|0.0001|TWO_SIDED|95.0|-1.264|-0.444||Threshold for significance at 0.05 level.|ANCOVA|3rd Trend test||Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Visit 4 (Day 1) BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline HbA1c as a covariate. Third Trend test based on a contrast with coefficients of 0, 0, +1, -1 and 0 for SAR425899 0.20 mg, 0.16 mg, 0.12 mg, placebo and liraglutide, respectively. Here, it is test no. 5 of hierarchical testing sequence.||-0.444|-1.264|< 0.0001
82363077|NCT02973321|164436877|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.||||||0.0012||||||Threshold for significance at 0.05 level.|ANCOVA|1st Trend test||Placebo, SAR425899 0.12,0.16,0.20 mg: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 2 of hierarchical testing sequence.||||0.0012
82363078|NCT02973321|164436877|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant|LS Mean difference|-3.57|STANDARD_ERROR_OF_MEAN|0.887|<|0.0001|TWO_SIDED|95.0|-5.309|-1.832||Threshold for significance at 0.05 level.|ANCOVA|2nd Trend test||SAR425899 0.16 mg vs Placebo: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 4 of hierarchical testing sequence.||-1.832|-5.309|< 0.0001
82363079|NCT02973321|164436877|OTHER|Hierarchical testing procedure continued only, if the previous comparison was statistically significant.|LS Mean difference|-2.517|STANDARD_ERROR_OF_MEAN|0.891||0.0047|TWO_SIDED|95.0|-4.264|-0.77||Threshold for significance at 0.05 level.|ANCOVA|3rd Trend test||3rd Trend Test: SAR425899 0.12 mg vs Placebo: Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c value (\<8, \>=8 %), randomization strata of Day 1 BMI (\<35.0 kg/m\^2, \>=35.0 kg/m\^2), and country as fixed effects and baseline body weight as a covariate. Here, it is test no. 6 of hierarchical testing sequence.||-0.77|-4.264|0.0047
82391968|NCT00715104|164494845|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|16.2||||1|TWO_SIDED|95.0|1.7|30.7||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||30.7|1.7|1.000
82391969|NCT00715104|164494845|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|18.9||||1|TWO_SIDED|95.0|3.5|34.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||34.3|3.5|1.000
82426270|NCT00652834|164561478|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.05|TWO_SIDED|95.0||||The p value is only for GSRS score comparison only.|t-test, 2 sided||The GSRS range is 1-7|"The results of the initial SBCE exams were evaluated by a visually challenged GI specialist who gave us a descriptive report. By the end of the study, we submitted the final reports to the same specialist and asked his impression on the significant changes observed in patients' exams for each GI segment (stomach and small bowel).~There were no comparison groups. Each patient is their own control. Given that this is a pilot study there is no power calculation."||||0.05
82426271|NCT00474903|164561603|SUPERIORITY_OR_OTHER|||||||0.0955|||||||Wilcoxon (Mann-Whitney)|||||||0.0955
82527603|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.107||0.0043|TWO_SIDED|95.0|0.1|0.52|||Mixed Models Analysis|||Week 2: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.52|0.10|0.0043
82363080|NCT01098110|164436890|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-11.29|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-15.42|-7.16||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-7.16|-15.42|<0.0001
82575070|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMTs|0.95||||||95.0|0.69|1.31|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio LA1:LA2)||1.31|0.69|
82363081|NCT01098110|164436890|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.22|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-17.33|-9.12||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-9.12|-17.33|<0.0001
82363082|NCT01098110|164436891|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-3.47|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-4.8|-2.13|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 5 mg BID minus Placebo BID|||-2.13|-4.80|<0.0001
82363083|NCT01098110|164436891|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-5.11|-2.46|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 10 mg BID minus Placebo BID|||-2.46|-5.11|<0.0001
82363084|NCT01098110|164436892|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.47|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.53|-1.41|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-1.41|-3.53|<0.0001
82363085|NCT01098110|164436892|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.03|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-4.08|-1.97|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-1.97|-4.08|<0.0001
82363086|NCT01098110|164436893|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-5.46|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED|95.0|-7.56|-3.35|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-3.35|-7.56|<0.0001
82642310|NCT04035694|164999917|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.74|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.74
82363087|NCT01098110|164436893|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.53|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-8.62|-4.44||Statistical significant: p=\<0.05, two sided|ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-4.44|-8.62|<0.0001
82363088|NCT01098110|164436894|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-3.41|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.72|-2.09|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-2.09|-4.72|<0.0001
82363089|NCT01098110|164436894|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.66|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.97|-2.35|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-2.35|-4.97|<0.0001
82363090|NCT01098110|164436895|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.36|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-3.47|-1.26|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 5 mg BID minus Placebo BID|||-1.26|-3.47|<0.0001
82363091|NCT01098110|164436895|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-4.03|-1.84|||ANCOVA|Change from baseline a response variable, baseline score a covariate.|Asenapine 10 mg BID minus Placebo BID|||-1.84|-4.03|<0.0001
82363092|NCT01098110|164436896|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-2.72|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|-3.73|-1.7|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-1.70|-3.73|<0.0001
82363093|NCT01098110|164436896|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.08|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.09|-2.08|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-2.08|-4.09|<0.0001
82363094|NCT01098110|164436897|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-1.62|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.41|-0.83|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.83|-2.41|<0.0001
82426272|NCT00474903|164561603|SUPERIORITY_OR_OTHER|||||||0.0204|||||||Wilcoxon (Mann-Whitney)|||||||0.0204
82426273|NCT02319486|164561605|SUPERIORITY_OR_OTHER||Probability of Event-Free Survival ，pEFS|0.32||||0.034|TWO_SIDED|||||stage 2 vs stage 3|pEFS||over all pEFS|||||0.034
82426274|NCT01605669|164561652|SUPERIORITY_OR_OTHER||Percentage Sensitivity|85.7||||||95.0||||||||||||
82426275|NCT01605669|164561652|SUPERIORITY_OR_OTHER||Percent Specificity|72.4||||||95.0||||||||||||
82444267|NCT01533922|164597022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.4567|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.4567
82527604|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|0.121||0.0072|TWO_SIDED|95.0|0.09|0.56|||Mixed Models Analysis|||Week 4: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.56|0.09|0.0072
82527605|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.146||0.1101|TWO_SIDED|95.0|-0.05|0.52|||Mixed Models Analysis|||Week 8: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.52|-0.05|0.1101
82642311|NCT04035694|164999918|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.07||0.66|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.66
82642312|NCT04035694|164999919|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.78|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.78
82642313|NCT04035694|164999920|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.52|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.52
82363095|NCT01098110|164436897|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.26|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.04|-1.47|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-1.47|-3.04|<0.0001
82363096|NCT01098110|164436898|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-1.41|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.04|-0.78|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.78|-2.04|<0.0001
82363097|NCT01098110|164436898|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.53|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.16|-0.91|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-0.91|-2.16|<0.0001
82363098|NCT01098110|164436899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.6||||0.0001|TWO_SIDED|95.0|9.2|28.1||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 5 mg BID minus Placebo BID|||28.1|9.2|0.0001
82363099|NCT01098110|164436899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||<|0.0001|TWO_SIDED|95.0|13.7|32.6||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 10 mg BID minus Placebo BID|||32.6|13.7|<0.0001
82444268|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.293|0.352|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.352|0.293|<0.0001
82527606|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.13||0.0147|TWO_SIDED|95.0|0.06|0.58|||Mixed Models Analysis|||Week 12: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.58|0.06|0.0147
82575071|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.11|||||TWO_SIDED|95.0|0.88|1.4|||ANOVA|||Hepatitis B (Post-vaccination GMC; group ratio LA1:LA2)||1.4|0.88|
82363100|NCT01098110|164436900|SUPERIORITY_OR_OTHER_LEGACY||Least square (LS) means difference|-0.52|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.75|-0.28|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 5 mg BID minus Placebo BID|||-0.28|-0.75|<0.0001
82363101|NCT01098110|164436900|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.82|-0.36|||ANCOVA|Change from baseline a response variable, baseline score a covariate, treatment groups and regions as explanatory variables.|Asenapine 10 mg BID minus Placebo BID|||-0.36|-0.82|<0.0001
82363102|NCT01098110|164436901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.2|||<|0.0001|TWO_SIDED|95.0|12.0|32.4||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 5 mg BID minus Placebo BID|||32.4|12.0|<0.0001
82363103|NCT01098110|164436901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.8|||<|0.0001|TWO_SIDED|95.0|18.9|38.8||Adjusted for region.|Cochran-Mantel-Haenszel||Asenapine 10 mg BID minus Placebo BID|||38.8|18.9|<0.0001
82527607|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.162||0.2032|TWO_SIDED|95.0|-0.11|0.53|||Mixed Models Analysis|||Week 16: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.53|-0.11|0.2032
82363104|NCT00530348|164436961|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.2173|TWO_SIDED|95.0|0.4|1.23||Hochberg method was used to adjust for the two co-primary outcomes.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model with robust variance estimation using treatment group and geographic region as covariates was used.||1.23|0.40|0.2173
82363105|NCT00530348|164436962|SUPERIORITY_OR_OTHER||Rate ratio|0.45|||<|0.0001|TWO_SIDED|95.0|0.32|0.63||Hochberg method was used to adjust for the two co-primary outcomes.|Proportional means regression|||Proportional means regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.63|0.32|<0.0001
82363106|NCT00530348|164436963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.33|0.61|||Cox Proportional Hazards Regression|||Cox PH regression model with robust variance estimation, covariate adjustment for geographic region, was used. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||0.61|0.33|<0.0001
82363107|NCT00530348|164436964|SUPERIORITY_OR_OTHER|||||||0.4188|||||||Wei-Lachin|||The analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||||0.4188
82363108|NCT00530348|164436965|SUPERIORITY_OR_OTHER|||||||0.0115|||||||Wei-Lachin|||Change at Year 2: analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by MSFC. Each endpoint could only be formally tested if prior endpoint was significant.||||0.0115
82363109|NCT00530348|164436966|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED||||||Ranked ANCOVA|||Ranked ANCOVA models with covariate adjustment for geographic region and baseline T2 lesion volume was used. Secondary endpoints were analyzed sequentially as: Proportion of participants relapse free at Year 2, Change from baseline in EDSS, Percent change from Baseline in magnetic resonance imaging-T2 hyperintense lesion volume at Year 2, Acquisition of disability measured by multiple sclerosis functional composite. Each endpoint could only be formally tested if prior endpoint was significant.||||0.3080
82363110|NCT02075606|164436976|OTHER||Odds Ratio (OR)|0.17|||=|0.126|TWO_SIDED|95.0|0.02|1.65|||Regression, Logistic|||Clinical symptomatic response as dependent variable and CTC presence at baseline as explanatory variable was used to perform the logistic regression analysis.||1.65|0.02|=0.126
82363111|NCT01439724|164436987|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.158||||0.05|TWO_SIDED|95.0|0.05|0.498|||Chi-squared|||The primary end point of the study was the incidence of grade 3-4 oral mucositis (OM) according to the WHO scale. Assuming an α =0.05 and a β = 0.20, with the estimates of proportion being 0.40 for placebo (P0) and 0.15 for LLLT (P1) a total of 94 patients were evaluated. One-sided test error was the basis for the sample size determination and all the reported P-values were derived from two-sided statistical tests. P-values less than or equal to 0.05 were considered statistically significant.||0.498|0.050|0.05
82363112|NCT04019054|164436989|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group.||||||0.518|||||||ANOVA|||||||0.518
82363113|NCT04019054|164436990|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Analysis described here is within-group differences.||||||0.008||||||a priori threshold for significance of p=0.05. Observed power η2=0.39.|ANOVA|||||||0.008
82363114|NCT04019054|164436990|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Analysis described here is between-group differences.|||||>|0.05||||||a priori threshold for significance of p=0.05.|ANOVA|||||||>0.05
82363115|NCT04019054|164436991|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Result described here is within-group difference over time.||||||0.004||||||a priori threshold for significance p=0.05. Result above describes within group testing over time. Observed power η2=0.43.|ANOVA|||||||0.004
82363116|NCT04019054|164436991|SUPERIORITY|Repeated-measure MANOVA was utilized to compare control and active group. This allowed for examination between and within each group. Result described here is the between-group comparison|||||>|0.05||||||a priori threshold for significance p=0.05|ANOVA|||||||>0.05
82527608|NCT03502616|164751419|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.168||0.9345|TWO_SIDED|95.0|-0.34|0.32|||Mixed Models Analysis|||Week 24: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.32|-0.34|0.9345
82363117|NCT04019054|164436992|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.01||||||Threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of skin conductance level (SCL) as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<0.01
82527609|NCT03502616|164751419|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.187||0.5968|TWO_SIDED|95.0|-0.47|0.27|||Mixed Models Analysis|||Week 32: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.27|-0.47|0.5968
82363118|NCT04019054|164436992|SUPERIORITY|||||||0.029||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||The second statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of skin conductance level (SCL) (as a function of step and timepoint).||||0.029
82363119|NCT04019054|164436993|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
82363120|NCT04019054|164436993|SUPERIORITY|||||||0.63||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of step and timepoint.||||0.63
82363121|NCT04019054|164436993|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance of p=0.05|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of treatment group and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
82363122|NCT04019054|164436993|SUPERIORITY||||||<|0.001||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of group and timepoint.||||<0.001
82363123|NCT04019054|164436993|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of anticipatory distress as a function of step and group. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
82363124|NCT04019054|164436993|SUPERIORITY|||||||0.047||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of anticipatory distress as a function of step and group.||||0.047
82363125|NCT04019054|164436994|SUPERIORITY||Mann Whitney U statistic|13.5|STANDARD_ERROR_OF_MEAN|9.58||0.027|TWO_SIDED|||||a priori threshold for significance of p=0.05|Wilcoxon (Mann-Whitney)|||2-sided Mann-Whitney U Test (nonparametric) utilized to compare the ability of the groups to tolerate treatment intensity.||||0.027
82363126|NCT04019054|164436996|OTHER|A pair of chi-square analyses were performed to validate blinding of the study (based on questionnaires completed by subjects and raters). Given the small sample size, Fisher's exact method was utilized. The number of correct and incorrect guesses for each group were examined once for the subject guesses and once for the rater's guesses.|||||>|0.05|||||||Fisher Exact|For the subjects, p=0.64 using Fisher's exact method. For the raters, p=1 using Fisher's exact method.||||||>.05
82363127|NCT04019054|164436997|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of step and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
82363128|NCT04019054|164436997|SUPERIORITY||||||>|0.05||||||a priori threshold for significance of 0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of step and timepoint.||||>.05
82363129|NCT04019054|164436997|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance of p=0.05|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of treatment group and timepoint. This multi-level model was generated using the menbreg function in Stata 16||||<.001
82391970|NCT00715104|164494845|SUPERIORITY_OR_OTHER||% Subjects with 2-fold increase|70.3|||<|0.001|TWO_SIDED|95.0|52.3|88.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD3+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD3+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||88.3|52.3|<0.001
82363130|NCT04019054|164436997|SUPERIORITY||||||<|0.001||||||a priori threshold for significance of p=0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of group and timepoint.||||<.001
82363131|NCT04019054|164436997|OTHER|This was a goodness of fit test of a multi-level model, fit was tested using a wald chi-square test.|||||<|0.001||||||a priori threshold for significance was p=0.05.|Chi-squared|This was specifically a wald chi-square test, performed in Stata for the purpose of assessing goodness-of-fit of a mixed effects model||Goodness of fit test of a two-variable negative binomial multi-level model of maximum distress as a function of step and group. This multi-level model was generated using the menbreg function in Stata 16||||<0.001
82363132|NCT04019054|164436997|SUPERIORITY|||||||0.024||||||a priori threshold for significance of p=0.05|Mixed Models Analysis|||This statistical analysis involved testing of the step-by-timepoint interaction in the two-variable negative binomial model of maximum distress as a function of step and group.||||0.024
82363133|NCT00508027|164437038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_DEVIATION|1.7|<|0.05|||||||t-test, 2 sided|||Ho: There is no change in plasma biomarker levels before and after simivastatin treatment. With 12 patients in each group and assuming a 5% risk of Type I error (two-tailed α = 0.05) and estimated SD for the change in NOx (or sVCAM-1) of 48%, power will be 80% to detect a 40% change from baseline for each group, and a 55% difference in the change in biomarker levels between dose groups. Matched paired t-tests were used to measure changes in biomarker levels from baseline.||||<0.05
82363134|NCT02013531|164437062|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in mean change from Baseline in the MADRS total score at Week 6 was tested at a significance level of 0.05. Because this was an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
82363135|NCT02013531|164437063|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 6.||||<0.0001
82363136|NCT02013531|164437069|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in Mean change from Baseline in HAM-A total score at Week 6 was tested at a significance level of 0.05. Because this was an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
82363137|NCT03877926|164437081|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 1 and Lot 2 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.01|||||TWO_SIDED|95.0|0.93|1.1||||||||1.10|0.93|
82363138|NCT03877926|164437081|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 1 and Lot 3 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.05|||||TWO_SIDED|95.0|0.96|1.14||||||||1.14|0.96|
82363139|NCT03877926|164437081|EQUIVALENCE|The 95% CIs for the Day 64 TNA NF50 GMT ratios between AV7909 Lot 2 and Lot 3 had to be within 0.5 to 2.0 equivalence margin.|Ratio|1.04|||||TWO_SIDED|95.0|0.95|1.13||||||||1.13|0.95|
82363140|NCT03877926|164437083|OTHER||Percentage of participants|66.3|||||TWO_SIDED|95.0|64.5|68.1||||||||68.1|64.5|
82363141|NCT03877926|164437084|NON_INFERIORITY|A non-inferiority margin of -15% was used for the difference in percentage of AV7909 participants (pooled from three AV7909 study groups \[Lot 1, 2, and 3\]) vs. BioThrax participants who achieved TNA NF50 ≥0.29 at Day 64. The success criterion was defined as the lower bound of 95% confidence interval of the difference in the percentage of AV7909 vs. BioThrax participants being greater than -15%.|Difference in percentage|24.5|||||TWO_SIDED|95.0|20.0|29.2||||||||29.2|20.0|
82391971|NCT00715104|164494846|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|20.6||||1|TWO_SIDED|95.0|4.0|37.2||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||37.2|4.0|1.000
82575072|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|1.27|||||TWO_SIDED|95.0|0.98|1.65|||ANOVA|||HIb (Post-vaccination GMC; group ratio LA1:LA2)||1.65|0.98|
82363142|NCT03877926|164437085|OTHER|Relative risk of serious adverse events incidence between AV7909 (combined from all three AV7909 lots) and BioThrax.|Relative risk (AV7909/BioThrax)|2.5|||||TWO_SIDED|95.0|0.9|6.5|||||The 95% CI of the relative risk was derived using the Farrington-Manning relative risk score statistic.|||6.5|0.9|
82363143|NCT03877926|164437086|OTHER|Success criteria was defined as the lower bound for the 95% CI for the proportion of participants pooled from all three AV7909 study groups with TNA NF50 ≥0.15 to be ≥67%.|Percentage of participants|97.8|||||TWO_SIDED|95.0|97.2|98.3||||||||98.3|97.2|
82363144|NCT03877926|164437088|OTHER|Relative risk of adverse events of special interest (events of autoimmune etiology) incidence between AV7909 (combined from all three AV7909 lots) and BioThrax.|Relative risk (AV7909/BioThrax)|1.3|||||TWO_SIDED|95.0|0.3|5.0|||||The 95% CI of the relative risk was derived using the Farrington-Manning relative risk score statistic.|||5.0|0.3|
82363145|NCT02240186|164437091|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
82363146|NCT02240186|164437092|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
82363147|NCT02240186|164437093|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
82363148|NCT03396874|164437101|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|87.3|||<|1e-07|TWO_SIDED|95.0|81.58|100.0||The exact p-value cannot be entered as it is equal to 2.2e-16.|Exact binomial proportion test|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)||We determined the positive predictive value (PPV) (true positives / (true positives + false positives)) of 68Ga-PSMA-11 PET for presence or absence of prostate cancer confirmed by histopathology on a per-patient basis. On a per-patient basis, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|81.58|<0.0000001
82426276|NCT01605669|164561652|SUPERIORITY_OR_OTHER||Percent Error Rate|25.0||||||95.0|||||||Error rate of 9/36 is equal to total of false positives plus false negatives over the total of participants analyzed.|||||
82363149|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|92.3|||<|1e-07|TWO_SIDED|95.0|90.0|100.0||Per patient basis p-value = 2.2e-16|binomial proportion test|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)||PPV, composite standard, per-patient basis: We determined the positive predictive value (PPV) of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available. On a per-patient basis, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100|90.0|<0.0000001
82363150|NCT03396874|164437102|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|95.29|||<|1e-07|TWO_SIDED|95.0|93.3|100.0||Per patient basis p-value = 2.2e-16|Sensitivity|||Sensitivity, composite standard, per-patient basis: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). On a per-patient basis, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|93.3|<0.0000001
82363151|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|91.1|||<|1e-07|TWO_SIDED|95.0|86.2|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, prostate or prostate bed: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In the prostate or prostate bed, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|86.2|<0.0000001
82363152|NCT03396874|164437102|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|91.72|||<|1e-07|TWO_SIDED|95.0|86.74|100.0||p-value = 2.2e-16 Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Exact binomial proportion test|||Sensitivity, composite standard, prostate/prostate bed: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In the prostate or prostate bed, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|86.74|<0.0000001
82363153|NCT03396874|164437102|OTHER|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|90.78|||<|1e-07|TWO_SIDED|95.0|85.74|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, pelvic lymph nodes: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In the prostate or prostate bed, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|85.74|<0.0000001
82363154|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|96.97|||<|1e-07|TWO_SIDED|95.0|93.2|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, pelvic lymph nodes: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In pelvic lymph nodes, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|93.20|<0.0000001
82363155|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|91.25|||<|1e-07|TWO_SIDED|95.0|84.19|100.0||p-value = 2.9e-15|Exact binomial proportion test|||PPV, composite standard, soft tissues: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In soft tissues, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|84.19|<0.0000001
82363156|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|93.59|||<|1e-07|TWO_SIDED|95.0|86.99|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, soft tissues: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In soft tissues, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|86.99|<0.0000001
82363157|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|PPV|95.17|||<|1e-07|TWO_SIDED|95.0|91.12|100.0||p-value = 2.2e-16|Exact binomial proportion test|||PPV, composite standard, bone: PPV of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy where available (composite standard of truth). In bone tissues, the PPV of conventional imaging ranges between 30-50%. The null hypothesis is that the PPV at 50% will be tested against the alternative hypothesis that the PPV is greater than 50%.||100.00|91.12|<0.0000001
82363158|NCT03396874|164437102|SUPERIORITY|Exact binomial proportion test, R statistical software package: R version 4.3.1 (2023-06-16)|Sensitivity|100.0|||<|1e-07|TWO_SIDED|95.0|97.85|100.0||p-value = 2.2e-16|Exact binomial proportion test|||Sensitivity, composite standard, bone: We determined the sensitivity of 68Ga-PSMA-11 PET for presence of prostate cancer confirmed by conventional imaging, clinical follow-up, and histopathology/biopsy (composite standard of truth). In bone, the sensitivity of conventional imaging ranges between 30-50%. The null hypothesis is that the sensitivity at 50% will be tested against the alternative hypothesis that the sensitivity is greater than 50%.||100.00|97.85|<0.0000001
82444269|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.101|0.16|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.160|0.101|<0.0001
82642314|NCT04035694|164999921|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.74|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.74
82642315|NCT04035694|164999922|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.13||0.21|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.21
82642316|NCT04035694|164999923|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.27|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.27
82363159|NCT02740179|164437118|SUPERIORITY|||||||0.72||||||P value for Change in Coronary Flow Reserve on Cardiac PET|t-test, 2 sided|||||||0.72
82363160|NCT02740179|164437119|SUPERIORITY|||||||0.03||||||P value for Change in Stress Myocardial Blood Flow on Cardiac MRI|t-test, 2 sided|||||||0.03
82363161|NCT02740179|164437120|SUPERIORITY|||||||0.38|||||||Kruskal-Wallis|||||||0.38
82391972|NCT00715104|164494846|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|32.4||||0.014|TWO_SIDED|95.0|13.1|51.6||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||51.6|13.1|0.014
82444270|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.084|0.143|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.143|0.084|<0.0001
82444271|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.256|0.315|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.315|0.256|<0.0001
82363162|NCT02740179|164437121|SUPERIORITY|||||||0.09|||||||Kruskal-Wallis|||||||0.09
82363163|NCT02740179|164437122|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Analyses performed on log transformation of data||||||0.03
82363164|NCT02740179|164437123|SUPERIORITY|||||||0.09||||||P value for Change in Plasma IL-6|t-test, 2 sided|Analyses performed after log transformation of data||||||0.09
82363165|NCT02740179|164437124|SUPERIORITY|||||||0.36||||||P value for Change in Plasma hsCRP|t-test, 2 sided|Analyses performed after log transformation of data||||||0.36
82363166|NCT02740179|164437125|SUPERIORITY|||||||0.88||||||P value for Change in Plasma MCP-1|t-test, 2 sided|Analyses performed after log transformation of data||||||0.88
82363167|NCT02740179|164437126|SUPERIORITY|||||||0.17||||||P value for Change in Plasma sCD163|t-test, 2 sided|Analyses performed after log transformation of data||||||0.17
82363168|NCT02740179|164437127|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|Analyses performed after log transformation of data||||||0.28
82363169|NCT02740179|164437128|SUPERIORITY|||||||0.32|||||||Kruskal-Wallis|||||||0.32
82363170|NCT02740179|164437129|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82363171|NCT02740179|164437130|SUPERIORITY|||||||0.73|||||||Kruskal-Wallis|||||||0.73
82363172|NCT02740179|164437131|SUPERIORITY|||||||0.56|||||||Kruskal-Wallis|||||||0.56
82363173|NCT02740179|164437132|SUPERIORITY|||||||0.03|||||||Kruskal-Wallis|||||||0.03
82363174|NCT02740179|164437133|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82363175|NCT02776553|164437159|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||0.49
82363176|NCT02776553|164437160|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
82363177|NCT02776553|164437161|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
82363178|NCT01998243|164437162|SUPERIORITY||Risk Ratio (RR)|1.2||||0.689|TWO_SIDED|95.0|0.53|2.6|||Chi-squared||risk ratio (RR)|||2.60|0.53|0.689
82363179|NCT01998243|164437163|SUPERIORITY||Risk Ratio (RR)|1.59||||0.144|TWO_SIDED|95.0|0.84|3.01|||Chi-squared||all in all balloon and postsurgical morbidity in group A vs. group B.|||3.01|0.84|0.144
82363180|NCT01998243|164437164|SUPERIORITY|||||||0.937|||||||Wilcoxon (Mann-Whitney)|||||||0.937
82363181|NCT01998243|164437165|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82363182|NCT01998243|164437166|SUPERIORITY|||||||0.673|||||||Fisher Exact|||||||0.673
82363183|NCT04117945|164437220|SUPERIORITY|||||||0.8874|||||||One-sided unstratified log-rank|||||||0.8874
82363184|NCT04117945|164437221|SUPERIORITY|||||||0.9683|||||||One-sided unstratified log-rank|||||||0.9683
82363185|NCT04117945|164437222|SUPERIORITY|||||||0.0448|||||||One-sided unstratified log-rank|||||||0.0448
82363186|NCT04117945|164437223|SUPERIORITY|||||||0.9007|||||||One-sided unstratified log-rank|||||||0.9007
82363187|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.302|TWO_SIDED|||||P-value was based on one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.302
82642317|NCT04035694|164999924|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
82527610|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.166||0.7047|TWO_SIDED|95.0|-0.26|0.39|||Mixed Models Analysis|||Week 40: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.39|-0.26|0.7047
82363188|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.134
82363189|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.229|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.229
82363190|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.544|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.544
82363191|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.710
82363192|NCT00562120|164437237|SUPERIORITY_OR_OTHER|||||||0.816|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.816
82363193|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.269|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.269
82363194|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.097
82391973|NCT00715104|164494846|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|79.4|||<|0.001|TWO_SIDED|95.0|62.8|96.0||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD4+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD4+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||96.0|62.8|<0.001
82444272|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.063|0.123|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.123|0.063|<0.0001
82527611|NCT03502616|164751419|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.157||0.807|TWO_SIDED|95.0|-0.27|0.35|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.35|-0.27|0.8070
82527612|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.055||0.003|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 16, Mobility: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-0.06|-0.28|0.0030
82363195|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.252
82363196|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.479|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.479
82363197|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.521|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.521
82363198|NCT00562120|164437238|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.952
82363199|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.130
82527613|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.055||0.897|TWO_SIDED|95.0|-0.11|0.1|||ANCOVA|||Week 16, Self-Care: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.10|-0.11|0.8970
82527614|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.058||0.1437|TWO_SIDED|95.0|-0.2|0.03|||ANCOVA|||Week 16, Usual Activities: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.03|-0.20|0.1437
82527615|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|95.0|-0.27|-0.09|||ANCOVA|||Week 16, Pain/Discomfort: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-0.09|-0.27|<0.0001
82527616|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.061||0.8445|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Week 16, Anxiety/Depression: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||0.11|-0.13|0.8445
82575073|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.92|||||TWO_SIDED|95.0|0.78|1.09|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio LA1:LA2)||1.09|0.78|
82642318|NCT04035694|164999925|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.23|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.23
82363200|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.663|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.663
82363201|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.138
82363202|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.124
82363203|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.134
82363204|NCT00562120|164437239|SUPERIORITY_OR_OTHER|||||||0.978|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.978
82363205|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.357
82426277|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|35.22|||<|0.001|TWO_SIDED|95.0|29.13|41.32|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05. This belongs to the primary endpoint.||41.32|29.13|<0.001
82527617|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.064||0.3473|TWO_SIDED|95.0|-0.19|0.07|||Mixed Models Analysis|||Week 48, Mobility: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.07|-0.19|0.3473
82527618|NCT03502616|164751420|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.059||0.9834|TWO_SIDED|95.0|-0.12|0.12|||Mixed Models Analysis|||Week 48, Self-Care: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.12|-0.12|0.9834
82527619|NCT03502616|164751420|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.066||0.7364|TWO_SIDED|95.0|-0.11|0.15|||Mixed Models Analysis|||Week 48, Usual Activities: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.15|-0.11|0.7364
82363206|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.952
82575074|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.97|||||TWO_SIDED|95.0|0.74|1.27|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA1:LA2)||1.27|0.74|
82642319|NCT04035694|164999926|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.05|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.05
82642320|NCT04035694|164999927|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.95|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.95
82642321|NCT04035694|164999928|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.99|STANDARD_ERROR_OF_MEAN|0.72||0.19|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.19
82642322|NCT04035694|164999929|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.59||0.92|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.92
82642323|NCT04035694|164999930|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.13||0.81|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.81
82642324|NCT04035694|164999931|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.81|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.81
82642325|NCT04035694|164999932|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.1||0.14|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.14
82642326|NCT04035694|164999933|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.82|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.82
82363207|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.480
82426278|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|34.43|||<|0.001|TWO_SIDED|95.0|28.28|40.58|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||40.58|28.28|<0.001
82642327|NCT04035694|164999934|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.97|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.97
82642328|NCT04035694|164999935|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.89|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.89
82527620|NCT03502616|164751420|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.059||0.8075|TWO_SIDED|95.0|-0.13|0.1|||Mixed Models Analysis|||Week 48, Pain/Discomfort: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.10|-0.13|0.8075
82363208|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.043
82363209|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.087
82426279|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|38.27|||<|0.001|TWO_SIDED|95.0|32.2|44.34|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||44.34|32.20|<0.001
82527621|NCT03502616|164751420|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.067||0.5461|TWO_SIDED|95.0|-0.09|0.17|||Mixed Models Analysis|||Week 48, Anxiety/Depression: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||0.17|-0.09|0.5461
82527622|NCT03502616|164751421|SUPERIORITY||LS mean difference|10.11|STANDARD_ERROR_OF_MEAN|2.331|<|0.0001|TWO_SIDED|95.0|5.52|14.7|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||14.70|5.52|<0.0001
82527623|NCT03502616|164751421|SUPERIORITY||LS mean difference|2.63|STANDARD_ERROR_OF_MEAN|2.337||0.2608|TWO_SIDED|95.0|-1.97|7.24|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||7.24|-1.97|0.2608
82527624|NCT03502616|164751422|SUPERIORITY||LS mean difference|-4.53|STANDARD_ERROR_OF_MEAN|3.35||0.1784|TWO_SIDED|95.0|-11.15|2.09|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||2.09|-11.15|0.1784
82527625|NCT03502616|164751422|SUPERIORITY||LS mean difference|-2.31|STANDARD_ERROR_OF_MEAN|2.54||0.3651|TWO_SIDED|95.0|-7.34|2.72|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.72|-7.34|0.3651
82527626|NCT03502616|164751423|SUPERIORITY||LS mean difference|-12.89|STANDARD_ERROR_OF_MEAN|2.884|<|0.0001|TWO_SIDED|95.0|-18.59|-7.19|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-7.19|-18.59|<0.0001
82527627|NCT03502616|164751423|SUPERIORITY||LS mean difference|-2.36|STANDARD_ERROR_OF_MEAN|3.318||0.4788|TWO_SIDED|95.0|-8.92|4.21|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||4.21|-8.92|0.4788
82527628|NCT03502616|164751424|SUPERIORITY||LS mean difference|-13.85|STANDARD_ERROR_OF_MEAN|3.202|<|0.0001|TWO_SIDED|95.0|-20.18|-7.52|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-7.52|-20.18|<0.0001
82575075|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.71|1.04|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA1:LA2)||1.04|0.71|
82527629|NCT03502616|164751424|SUPERIORITY||LS mean difference|-4.41|STANDARD_ERROR_OF_MEAN|3.613||0.2244|TWO_SIDED|95.0|-11.56|2.74|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||2.74|-11.56|0.2244
82527630|NCT03502616|164751425|SUPERIORITY||LS mean difference|-13.4|STANDARD_ERROR_OF_MEAN|2.488|<|0.0001|TWO_SIDED|95.0|-18.3|-8.5|||ANCOVA|||Week 16: Analysis performed using ANCOVA model which included fixed effects of treatment group, stratification factor derived from clinical database, and baseline value.||-8.50|-18.30|<0.0001
82527631|NCT03502616|164751425|SUPERIORITY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.905||0.0095|TWO_SIDED|95.0|-13.32|-1.88|||Mixed Models Analysis|||Week 48: Analysis performed using MMRM which included fixed effect of treatment group, visit, and treatment-group by visit interaction, stratification factor derived from clinical database, stratification-factor by visit interaction, baseline value, and baseline-value by visit interaction.||-1.88|-13.32|0.0095
82527632|NCT02917265|164751433|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82363210|NCT00562120|164437240|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.753
82575076|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.72|1.14|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA1:LA2)||1.14|0.72|
82391974|NCT00715104|164494847|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|35.1||||0.002|TWO_SIDED|95.0|16.3|53.9||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||53.9|16.3|0.002
82391975|NCT00715104|164494847|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|29.7||||0.036|TWO_SIDED|95.0|11.7|47.7||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||47.7|11.7|0.036
82527633|NCT01216163|164751438|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|17.68|||<|0.001|TWO_SIDED|95.0|13.08|22.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR), gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference(Ibuprofen sodium - placebo) and 95 percent(%) confidence interval(CI):based on LS means from Analysis of Variance(ANOVA).Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:Ibuprofen sodium(IBU Na) versus(vs) Placebo(PBO), IBU Na vs Acetaminophen(APAP), APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||22.27|13.08|<0.001
82575077|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.74|1.08|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA1:LA2)||1.08|0.74|
82363211|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.011
82363212|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.127
82363213|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.103
82363214|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.218|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.218
82363215|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.905
82363216|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.273|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal congestion: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.273
82363217|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
82363218|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.055|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.055
82363219|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.012
82363220|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.048
82363221|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.496|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.496
82363222|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Nasal Itching: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.190
82642329|NCT04035694|164999936|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.69|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.69
82642330|NCT04035694|164999937|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.63|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.63
82642331|NCT04035694|164999938|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.79|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.79
82642332|NCT04035694|164999939|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.93|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.93
82642333|NCT04035694|164999940|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|2.98|STANDARD_ERROR_OF_MEAN|2.18||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.20
82642334|NCT04035694|164999941|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|2.52||0.11|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.11
82642335|NCT04035694|164999942|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-6.93|STANDARD_ERROR_OF_MEAN|2.38||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
82642336|NCT04035694|164999943|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-2.24|STANDARD_ERROR_OF_MEAN|4.45||0.64|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.64
82642337|NCT04035694|164999944|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-6.46|STANDARD_ERROR_OF_MEAN|2.53||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
82642338|NCT04035694|164999945|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|1.23|STANDARD_ERROR_OF_MEAN|2.68||0.65|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.65
82391976|NCT00715104|164494847|SUPERIORITY_OR_OTHER||% subjects with 2-fold increase|83.8|||<|0.001|TWO_SIDED|95.0|69.3|98.3||Bonferroni-adjusted p-values will be reported to alleviate the multiple testing problem; pbon = minimum of p\*3 and 1 (p = the nominal p-value from the test, pbon = the Bonferroni-adjusted p-value). Confidence intervals will be adjusted similarly.|Chi-squared|||A 2-fold increase in CD8+ T cell counts from biopsy to post-RP was considered a positive response. The number of infiltrating CD8+ T cells/μm2 was coded as binary with each subject categorized as having at least a 2-fold increase from baseline or not. One sample Chi-square test for a binary response, with a null hypothesis of 15% was implemented. The tests were done using post-treatment post-RP benign tissue, tumor tissue, and tumor interface compared to the biopsy benign tissue.||98.3|69.3|<0.001
82527634|NCT01216163|164751438|SUPERIORITY_OR_OTHER||LS mean difference|4.96||||0.01|TWO_SIDED|95.0|1.21|8.72||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Ibuprofen sodium - Acetaminophen) and 95% CI: based on LS means from ANOVA. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||8.72|1.21|0.010
82363223|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
82363224|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.019
82363225|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.009
82363226|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.061
82363227|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.778|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.778
82527635|NCT01216163|164751438|SUPERIORITY_OR_OTHER||LS mean difference|12.71|||<|0.001|TWO_SIDED|95.0|8.12|17.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Acetaminophen - Placebo) and 95% CI: based on LS means from ANOVA. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||17.30|8.12|<0.001
82575078|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.74|1.1|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA1:LA2)||1.1|0.74|
82642339|NCT04035694|164999946|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||<.01
82363228|NCT00562120|164437241|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||Rhinorrhea: An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.102
82363229|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An analysis of variance (ANOVA) mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
82363230|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
82363231|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||P-value was based on a one-sided test. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.000
82363232|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.217
82363233|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.156
82527636|NCT01216163|164751439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.84|||<|0.001|TWO_SIDED|95.0|5.13|27.36||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||27.36|5.13|<0.001
82527637|NCT01216163|164751439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.468|TWO_SIDED|95.0|0.81|1.6||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||1.60|0.81|0.468
82527638|NCT01216163|164751439|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|10.43|||<|0.001|TWO_SIDED|95.0|4.5|24.17||p-value was calculated using PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level(2-sided) by testing co-primary endpoints sequentially:IBU Na vs PBO, IBU Na vs APAP, APAP vs PBO for SPRID 0-6 then time to meaningful relief at each comparison.If comparison at preceding step was significant only then subsequent comparisons were significant.||24.17|4.50|<0.001
82527639|NCT01216163|164751440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|14.06|||<|0.001|TWO_SIDED|95.0|6.02|32.8||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||32.80|6.02|<0.001
82527640|NCT01216163|164751440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.323|TWO_SIDED|95.0|0.84|1.68||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.68|0.84|0.323
82527641|NCT01216163|164751440|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|11.81|||<|0.001|TWO_SIDED|95.0|5.06|27.59||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||27.59|5.06|<0.001
82527642|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.53|||<|0.001|TWO_SIDED|95.0|0.24|0.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.83|0.24|<0.001
82363234|NCT00562120|164437242|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED|||||P-value was based on two-sided test which was underpowered and presented for descriptive purposes only. There were no further adjustments for multiplicity.|ANOVA|||An ANOVA mixed model was assessed with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||||0.848
82363235|NCT02148445|164437244|SUPERIORITY|Based on prior studies using precessation NRT, we estimate a 2-fold increase in cessation outcomes in the GMT group compared to the SC group. Given our recruitment of patients at all levels of readiness to quit, we estimate a 12 month cessation rate of 10%. With 199 participants, in each arm, we will have an 80% power to detect a 2-fold difference or greater with a Type I error rate of 5%.||||||0.88|||||||Chi-squared|||||||0.88
82363236|NCT02148445|164437245|SUPERIORITY|Based on prior studies using precessation NRT, we estimate a 2-fold increase in cessation outcomes in the GMT group compared to the SC group. Given our recruitment of patients at all levels of readiness to quit, we estimate a 12 month cessation rate of 10%. With 199 participants, in each arm, we will have an 80% power to detect a 2-fold difference or greater with a Type I error rate of 5%. This sample size will provide comparable power for looking at 6 month sustained cessation.||||||0.55|||||||Chi-squared|||||||0.55
82363237|NCT02148445|164437246|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
82363238|NCT02148445|164437247|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82363239|NCT02148445|164437248|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82363240|NCT02148445|164437249|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||||||0.39
82363241|NCT02148445|164437250|SUPERIORITY|||||||0.42|||||||t-test, 1 sided|||||||0.42
82363242|NCT02148445|164437251|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
82363243|NCT02148445|164437252|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
82363244|NCT02148445|164437254|SUPERIORITY|||||||0.08|||||||Chi-squared|||Month 3 self-reported abstinence||||0.08
82363245|NCT02148445|164437254|SUPERIORITY|||||||0.06|||||||Chi-squared|||Month 3 biochemically verified abstinence||||0.06
82363246|NCT02148445|164437254|SUPERIORITY|||||||0.22|||||||Chi-squared|||Month 6, self-reported abstinence||||0.22
82363247|NCT02148445|164437254|SUPERIORITY|||||||0.34|||||||Chi-squared|||Month 6, biochemically verified abstinence||||0.34
82363248|NCT02148445|164437254|SUPERIORITY|||||||0.66|||||||Chi-squared|||Month 12, self-reported abstinence||||0.66
82363249|NCT02148445|164437255|SUPERIORITY|||||||0.0149|||||||Mixed Models Analysis|||||||0.0149
82363250|NCT02148445|164437256|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82363251|NCT02148445|164437257|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82363252|NCT02148445|164437258|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
82363253|NCT02148445|164437259|SUPERIORITY|||||||0.0918|||||||Mixed Models Analysis|||||||0.0918
82363254|NCT03450629|164437260|EQUIVALENCE|8 AM +/- 30 min||||||0.0006|||||||t-test, 2 sided|||||||0.0006
82363255|NCT03450629|164437260|EQUIVALENCE|10 AM +/- 30 min||||||0.0291|||||||t-test, 2 sided|||||||0.0291
82363256|NCT03450629|164437260|EQUIVALENCE|4 PM +/- 30 min||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82527643|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.101|TWO_SIDED|95.0|-0.04|0.44||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.44|-0.04|0.101
82527644|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.029|TWO_SIDED|95.0|0.03|0.62||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.62|0.03|0.029
82527645|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.44|||<|0.001|TWO_SIDED|95.0|1.01|1.87||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.87|1.01|<0.001
82527646|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.24||||0.178|TWO_SIDED|95.0|-0.11|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.11|0.178
82527647|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.77|1.63||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.63|0.77|<0.001
82527648|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|2.07|||<|0.001|TWO_SIDED|95.0|1.64|2.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.49|1.64|<0.001
82575079|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the ratio of pertussis GMCs (GMCLA1 / GMCLA2) must be greater than 0.67; the lower limit of the 95% CI for the ratio of all other GMCs (GMCLA1 / GMCLA2) must be greater than 0.50.|Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.6|0.99|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA1:LA2)||0.99|0.6|
82363257|NCT04230876|164437261|SUPERIORITY||partial eta squared|0.047|||=|0.269|TWO_SIDED|||||Within the 28 participants, changes in the COSI scores after four weeks using the Amptify were compared to the changes after four weeks watching 20 minutes of CC TV (F(1,26)=1.28).|ANOVA|||||||=0.269
82575080|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.69|0.99|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA3:LA4)||0.99|0.69|
82363258|NCT04230876|164437262|SUPERIORITY||partial eta squared|0.031|||=|0.401|TWO_SIDED|||||Changes in the IOI-HA scores measured after four weeks using the Amptify were compared to the changes seen after four weeks of CC TV every day (F(1,23)=.733).|ANOVA|||||||=0.401
82527649|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.44||||0.014|TWO_SIDED|95.0|0.09|0.78||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.78|0.09|0.014
82527650|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.21|2.06||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.06|1.21|<0.001
82527651|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|2.25|||<|0.001|TWO_SIDED|95.0|1.79|2.7||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.70|1.79|<0.001
82527652|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.055|TWO_SIDED|95.0|-0.01|0.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.74|-0.01|0.055
82527653|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.43|2.34||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.34|1.43|<0.001
82363259|NCT04230876|164437263|SUPERIORITY||partial eta squared|0.0|||=|0.968|TWO_SIDED|||||Changes in the APHAB benefit scores after four weeks using the Amptify were compared to the improvements seen after four weeks of CC TV every day (F(1,25)=.002).|ANOVA|||||||=0.968
82363260|NCT04230876|164437264|SUPERIORITY||partial eta squared|0.028|||=|0.392|TWO_SIDED|||||Changes in the SSQ-12 scores after four weeks using the Amptify were compared to the improvements seen after four weeks watching 20 minutes of CC TV (F(1,26)=.756).|ANOVA|||||||=0.392
82391977|NCT00715104|164494848|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P value is for the visit effect in the mixed model|Mixed Models Analysis|Randomization groups, visits (up to 12-weeks Post-RP), and randomization groups × visits interaction were included in the mixed model.||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||<0.001
82391978|NCT00715104|164494849|SUPERIORITY_OR_OTHER|||||||0.173|TWO_SIDED|||||P value is for the visit effect in the mixed model|Mixed Models Analysis|Randomization groups, visits (up to 12-weeks Post-RP), and randomization groups × visits interaction were included in the mixed model.||Repeated measure analysis of variance (ANOVA) methods with a mixed model approach was used. The ranked data were used in the statistical model.||||0.173
82391979|NCT00715104|164494850|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED|||||P value compares 24 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.667
82391980|NCT00715104|164494850|SUPERIORITY_OR_OTHER|||||||0.191|TWO_SIDED|||||P value compares 48 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.191
82391981|NCT00715104|164494850|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED|||||P value compares 72 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.699
82391982|NCT00715104|164494851|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED|||||P value compares 24 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.086
82391983|NCT00715104|164494851|SUPERIORITY_OR_OTHER|||||||0.432|TWO_SIDED|||||P value compares 48 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.432
82391984|NCT00715104|164494851|SUPERIORITY_OR_OTHER|||||||0.249|TWO_SIDED|||||P value compares 72 week post-RP to pre-booster (12 weeks post RP)|Mixed Models Analysis|||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach to allow for a varying number of follow-up measurements. The ranked data were used in the statistical model.||||0.249
82642340|NCT04035694|164999947|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.22||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.20
82642341|NCT04035694|164999948|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|2.79|STANDARD_ERROR_OF_MEAN|2.22||0.28|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.28
82642342|NCT04035694|164999949|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|1.56|STANDARD_ERROR_OF_MEAN|2.77||0.58|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.58
82642343|NCT04035694|164999950|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.49|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.49
82363261|NCT04230876|164437265|SUPERIORITY||partial eta squared|0.005|||=|0.72|TWO_SIDED|||||Among the 28 participants, changes in the hours per day of hearing aid usage seen after four weeks using the Amptify were compared to the changes seen after four weeks of CC TV every day (F(1,26)=.131).|ANOVA|||||||=0.720
82363262|NCT04230876|164437266|SUPERIORITY||partial eta squared|0.052|||=|0.242|TWO_SIDED|||||Changes in the NU-6 seen after four weeks using the Amptify were compared to the changes seen after four weeks watching 20 minutes of CC TV (F(1,26)=1.43).|ANOVA|||||||=0.242
82426280|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|42.98|||<|0.001|TWO_SIDED|95.0|37.02|48.95|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||48.95|37.02|<0.001
82527654|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|2.31|||<|0.001|TWO_SIDED|95.0|1.8|2.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.83|1.80|<0.001
82363263|NCT02093923|164437276|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
82363264|NCT02093923|164437276|SUPERIORITY||Percent Change in Mean Rate|-87.77||||0.005|TWO_SIDED|95.0|-97.18|-46.9|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-46.90|-97.18|0.0050
82363265|NCT02093923|164437276|SUPERIORITY||Percent Change in Mean Rate|-91.08||||0.0012||95.0|-97.93|-61.57|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-61.57|-97.93|0.0012
82363266|NCT02093923|164437277|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
82363267|NCT02093923|164437277|SUPERIORITY||Percent Change in Mean Rate|-84.08|||<|0.0001|TWO_SIDED|95.0|-93.07|-63.46|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-63.46|-93.07|<.0001
82363268|NCT02093923|164437277|SUPERIORITY||Percent Change in Mean Rate|-87.84|||<|0.0001|TWO_SIDED|95.0|-94.81|-71.5|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-71.50|-94.81|<.0001
82363269|NCT02093923|164437278|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
82363270|NCT02093923|164437278|SUPERIORITY||Percent Change in Mean Rate|-82.38|||<|0.0001|TWO_SIDED|95.0|-92.5|-58.64|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-58.64|-92.50|<.0001
82363271|NCT02093923|164437278|SUPERIORITY||Percent Change in Mean Rate|-87.02|||<|0.0001|TWO_SIDED|95.0|-94.55|-69.06|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-69.06|-94.55|<.0001
82363272|NCT02093923|164437279|SUPERIORITY||Percent Change in Mean Rate|-100.0|||<|0.0001|TWO_SIDED|95.0|-100.0|-100.0|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-100.00|-100.00|<.0001
82363273|NCT02093923|164437279|SUPERIORITY||Percent Change in Mean Rate|-85.24||||0.0141||95.0|-96.79|-32.03|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-32.03|-96.79|0.0141
82363274|NCT02093923|164437279|SUPERIORITY||Percent Change in Mean Rate|-89.35||||0.004|TWO_SIDED|95.0|-97.68|-51.13|||Mixed Models Analysis|||The result was based on General Estimating Equation (GEE) analysis. Generalized Estimating Equation (GEE) approach with Poisson distribution assumption was applied to the repeated-measures mixed model with independence working correlation structure. The treatment group was a fixed effect and the number of baseline HAE attacks per week was included as a covariate in the GEE.||-51.13|-97.68|0.0040
82363275|NCT03200535|164437284|SUPERIORITY|Superiority analysis|||||<|0.001|||||||Chi-squared|||||||<0.001
82363276|NCT03200535|164437285|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82363277|NCT01181531|164437299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|5.3||0.346|TWO_SIDED|95.0|-15.4|5.4||Unadjusted. Model contains baseline stratification factor for type of Vitamin D administered at the site|Mixed Models Analysis||Cinacalcet - Vitamin D|Null hypothesis: no difference in % change from baseline in PTH comparing the two treatment arms.||5.4|-15.4|0.346
82363278|NCT01181531|164437300|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.11|TWO_SIDED|95.0|0.92|2.29||Stratified by type of Vitamin D at site|Cochran-Mantel-Haenszel||OR is Cinacalcet: Vitamin D|||2.29|0.92|0.110
82363279|NCT01181531|164437301|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.346|TWO_SIDED|95.0|0.74|2.39||stratified by type of Vitamin D at site|Cochran-Mantel-Haenszel||OR is Cinacalcet: Vitamin D|||2.39|0.74|0.346
82363280|NCT02756637|164437313|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.98|1.11||||||The Hazard Ration is the ratio of survival rates between patients with high NLR and low NLR.||1.11|0.98|
82363281|NCT02756637|164437313|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.9|1.14||||||The Hazard Ration is the ratio of survival rates between patients with high NLR and low NLR.||1.14|0.90|
82363282|NCT04947150|164437333|SUPERIORITY|||||||0.255||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA were used.||||||.255
82363283|NCT04947150|164437334|SUPERIORITY|||||||0.56||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.560
82363284|NCT04947150|164437335|SUPERIORITY|||||||0.319||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.319
82363285|NCT04947150|164437336|SUPERIORITY|||||||0.032||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.032
82391985|NCT00715104|164494852|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||P value is based on the treatment effect in the mixed model|Mixed Models Analysis|Mixed model includes randomization group, visit, and randomization group × visit interaction, with subject as a random effect.||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||0.950
82391986|NCT00715104|164494853|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P value is based on the treatment effect in the mixed model|Mixed Models Analysis|Mixed model includes randomization group, visit, and randomization group × visit interaction, with subject as a random effect||The change over time was evaluated by using repeated measure analysis of variance (ANOVA) methods with a mixed model approach. The ranked data were used in the statistical model.||||0.048
82363286|NCT04947150|164437337|SUPERIORITY|||||||0.044||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.044
82363287|NCT04947150|164437338|SUPERIORITY|||||||0.01||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated Measures ANOVA||||||.010
82391987|NCT04769466|164494870|OTHER|||||||0.02|||||||t-test, 1 sided|||T-Test||||0.020
82527655|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.51||||0.019|TWO_SIDED|95.0|0.08|0.93||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.93|0.08|0.019
82363288|NCT04947150|164437339|SUPERIORITY|||||||0.073||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.073
82363289|NCT04947150|164437340|SUPERIORITY|||||||0.872||||||The reported p-value reflects the change across time for the full (Wave 1) sample.|ANOVA|Repeated measures ANOVA||||||.872
82363290|NCT04947150|164437341|SUPERIORITY|||||||0.145||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated Measures ANOVA||||||.145
82363291|NCT04947150|164437342|SUPERIORITY|||||||0.173||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.173
82363292|NCT04947150|164437343|SUPERIORITY|||||||0.012||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.012
82363293|NCT04947150|164437344|SUPERIORITY|||||||0.008||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.008
82363294|NCT04947150|164437345|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363295|NCT04947150|164437346|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363296|NCT04947150|164437347|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363297|NCT04947150|164437348|SUPERIORITY|||||||0.382||||||The reported p-value reflects the change across time for the full (Wave 2) sample.|ANOVA|Repeated measures ANOVA||||||.382
82363298|NCT04947150|164437349|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||<.001
82363299|NCT04947150|164437350|SUPERIORITY|||||||0.178||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.178
82391988|NCT04769466|164494871|OTHER|||||||0.223|||||||t-test, 1 sided|||T-Test||||0.223
82391989|NCT04769466|164494872|OTHER|||||||0.036|||||||t-test, 2 sided|||T-Test||||0.036
82391990|NCT04769466|164494873|OTHER|||||||0.131|||||||t-test, 1 sided|||||||0.131
82363300|NCT04947150|164437351|SUPERIORITY|||||||0.081||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.081
82363301|NCT04947150|164437352|SUPERIORITY|||||||0.343||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.343
82363302|NCT04947150|164437353|SUPERIORITY|||||||0.369||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.369
82391991|NCT04769466|164494874|OTHER|||||||0.351|||||||t-test, 1 sided|||||||0.351
82391992|NCT04769466|164494875|OTHER|||||||0.08|||||||t-test, 1 sided|||||||0.08
82363303|NCT04947150|164437354|SUPERIORITY|||||||0.055||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.055
82363304|NCT04947150|164437357|SUPERIORITY|||||||0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.001
82363305|NCT04947150|164437358|SUPERIORITY|||||||0.079||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.079
82363306|NCT04947150|164437359|SUPERIORITY|||||||0.581||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.581
82363307|NCT04947150|164437360|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82391993|NCT04769466|164494876|OTHER|||||||0.4|||||||t-test, 1 sided|||T-Test||||0.400
82391994|NCT04769466|164494878|OTHER|||||||0.011|||||||t-test, 2 sided|||||||0.011
82391995|NCT04769466|164494880|OTHER|||||||0.459|||||||t-test, 1 sided|||||||0.459
82391996|NCT04769466|164494881|OTHER|||||||0.033|||||||t-test, 1 sided|||||||0.033
82391997|NCT04769466|164494882|OTHER|||||||0.103|||||||t-test, 1 sided|||||||0.103
82391998|NCT04769466|164494883|OTHER|||||||0.494|||||||t-test, 1 sided|||||||0.494
82391999|NCT04769466|164494884|OTHER|||||||0.214|||||||t-test, 1 sided|||||||0.214
82392000|NCT04769466|164494885|OTHER|||||||0.199|||||||t-test, 1 sided|||||||0.199
82392001|NCT04769466|164494888|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82363308|NCT04947150|164437361|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82392002|NCT04769466|164494889|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82392003|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.101|||||||Paired t-test|||Statistical analysis at Week 12||||0.101
82392004|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.139|||||||Paired t-test|||Statistical analysis at Week 24||||0.139
82392005|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.116|||||||Paired t-test|||Statistical analysis at Week 36||||0.116
82392006|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.167|||||||Paired t-test|||Statistical analysis at Week 48||||0.167
82392007|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.21|||||||Paired t-test|||Statistical analysis at Week 56||||0.210
82392008|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.343|||||||Paired t-test|||Statistical analysis at Week 68||||0.343
82363309|NCT04947150|164437362|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363310|NCT04947150|164437363|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363311|NCT04947150|164437367|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired Sample T-test||||||<.05
82363312|NCT04947150|164437369|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|Paired samples t-test||||||.006
82363313|NCT04947150|164437370|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired samples t-test||||||<.001
82363314|NCT04947150|164437371|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|Paired samples t-test||||||.220
82363315|NCT04947150|164437372|SUPERIORITY|||||||0.623|||||||t-test, 2 sided|Paired samples t-test||||||.623
82363316|NCT04947150|164437373|SUPERIORITY|||||||0.577||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.577
82363317|NCT04947150|164437374|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82363318|NCT04947150|164437375|SUPERIORITY||||||<|0.001||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||<.001
82392009|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.533|||||||Paired t-test|||Statistical analysis at Week 80||||0.533
82392010|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.593|||||||Paired t-test|||Statistical analysis at Week 92||||0.593
82392011|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.044|||||||Paired t-test|||Statistical analysis at Week 104||||0.044
82392012|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.243|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.243
82392013|NCT01668966|164494903|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.009
82392014|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.1853|||||||Paired t-test|||Statistical analysis at Week 12||||0.1853
82392015|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.2992|||||||Paired t-test|||Statistical analysis at Week 24||||0.2992
82392016|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.2249|||||||Paired t-test|||Statistical analysis at Week 36||||0.2249
82392017|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.3102|||||||Paired t-test|||Statistical analysis at Week 48||||0.3102
82392018|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.2164|||||||Paired t-test|||Statistical analysis at Week 56||||0.2164
82392019|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.8822|||||||Paired t-test|||Statistical analysis at Week 68||||0.8822
82392020|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.7649|||||||Paired t-test|||Statistical analysis at Week 80||||0.7649
82392021|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.605|||||||Paired t-test|||Statistical analysis at Week 92||||0.6050
82392022|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.4478|||||||Paired t-test|||Statistical analysis at Week 104||||0.4478
82392023|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.4821|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.4821
82392024|NCT01668966|164494904|SUPERIORITY_OR_OTHER|||||||0.0522|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.0522
82392025|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.0624|||||||Paired t-test|||Statistical analysis at Week 12||||0.0624
82392026|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.0616|||||||Paired t-test|||Statistical analysis at Week 24||||0.0616
82392027|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.248|||||||Paired t-test|||Statistical analysis at Week 36||||0.2480
82392028|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.5393|||||||Paired t-test|||Statistical analysis at Week 48||||0.5393
82392029|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.1401|||||||Paired t-test|||Statistical analysis at Week 56||||0.1401
82392030|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.0679|||||||Paired t-test|||Statistical analysis at Week 68||||0.0679
82392031|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.6017|||||||Paired t-test|||Statistical analysis at Week 80||||0.6017
82527656|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.81|||<|0.001|TWO_SIDED|95.0|1.29|2.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.32|1.29|<0.001
82392032|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.4772|||||||Paired t-test|||Statistical analysis at Week 92||||0.4772
82392033|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.4877|||||||Paired t-test|||Statistical analysis at Week 104||||0.4877
82392034|NCT01668966|164494905|SUPERIORITY_OR_OTHER|||||||0.0624|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.0624
82392035|NCT01668966|164494905|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||<0.0001
82392036|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.2388|||||||Paired t-test|||Statistical analysis at Week 12||||0.2388
82392037|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.1084|||||||Paired t-test|||Statistical analysis at Week 24||||0.1084
82392038|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.0321|||||||Paired t-test|||Statistical analysis at Week 36||||0.0321
82392039|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.0203|||||||Paired t-test|||Statistical analysis at Week 48||||0.0203
82392040|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.0193|||||||Paired t-test|||Statistical analysis at Week 56||||0.0193
82392041|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.6235|||||||Paired t-test|||Statistical analysis at Week 68||||0.6235
82392042|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.2814|||||||Paired t-test|||Statistical analysis at Week 80||||0.2814
82527657|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.66|1.53|<0.001
82392043|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.3391|||||||Paired t-test|||Statistical analysis at Week 92||||0.3391
82392044|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.1605|||||||Paired t-test|||Statistical analysis at Week 104||||0.1605
82392045|NCT01668966|164494906|SUPERIORITY_OR_OTHER|||||||0.4312|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.4312
82392046|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.934|||||||Paired t-test|||Statistical analysis at Week 12||||0.934
82392047|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.624|||||||Paired t-test|||Statistical analysis at Week 24||||0.624
82444273|NCT01533922|164597023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.047|0.106|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.106|0.047|<0.0001
82575081|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.83|1.09|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA3:LA4)||1.09|0.83|
82392048|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.642|||||||Paired t-test|||Statistical analysis at Week 36||||0.642
82392049|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.952|||||||Paired t-test|||Statistical analysis at Week 48||||0.952
82392050|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.928|||||||Paired t-test|||Statistical analysis at Week 56||||0.928
82392051|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.832|||||||Paired t-test|||Statistical analysis at Week 68||||0.832
82392052|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.315|||||||Paired t-test|||Statistical analysis at Week 80||||0.315
82392053|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.485|||||||Paired t-test|||Statistical analysis at Week 92||||0.485
82392054|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.246|||||||Paired t-test|||Statistical analysis at Week 104||||0.246
82392055|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.375|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.375
82392056|NCT01668966|164494909|SUPERIORITY_OR_OTHER|||||||0.185|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.185
82392057|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.445|||||||Paired t-test|||Statistical analysis at Week 12||||0.445
82392058|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.414|||||||Paired t-test|||Statistical analysis at Week 24||||0.414
82392059|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.401|||||||Paired t-test|||Statistical analysis at Week 36||||0.401
82392060|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.92|||||||Paired t-test|||Statistical analysis at Week 48||||0.920
82392061|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.834|||||||Paired t-test|||Statistical analysis at Week 56||||0.834
82392062|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.539|||||||Paired t-test|||Statistical analysis at Week 68||||0.539
82392063|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.246|||||||Paired t-test|||Statistical analysis at Week 80||||0.246
82392064|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.602|||||||Paired t-test|||Statistical analysis at Week 92||||0.602
82392065|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.218|||||||Paired t-test|||Statistical analysis at Week 104||||0.218
82392066|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.208|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.208
82392067|NCT01668966|164494910|SUPERIORITY_OR_OTHER|||||||0.101|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.101
82392068|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.565|||||||Paired t-test|||Statistical analysis at Week 12||||0.565
82392069|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.637|||||||Paired t-test|||Statistical analysis at Week 24||||0.637
82392070|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.594|||||||Paired t-test|||Statistical analysis at Week 36||||0.594
82363319|NCT04947150|164437376|SUPERIORITY|||||||0.008||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.008
82363320|NCT04947150|164437377|SUPERIORITY|||||||0.601||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.601
82363321|NCT04947150|164437378|SUPERIORITY|||||||0.088||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.088
82363322|NCT04947150|164437379|SUPERIORITY|||||||0.21||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.210
82363323|NCT04947150|164437380|SUPERIORITY|||||||0.06||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.060
82363324|NCT04947150|164437381|SUPERIORITY|||||||0.37||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.370
82363325|NCT04947150|164437382|SUPERIORITY|||||||0.556||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.556
82363326|NCT04947150|164437383|SUPERIORITY|||||||0.913||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated measures ANOVA||||||.913
82363327|NCT04947150|164437384|SUPERIORITY|||||||0.241||||||The reported p-value reflects the change across time for the full sample.|ANOVA|Repeated Measures ANOVA||||||.241
82363328|NCT03535857|164437397|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.546|TWO_SIDED|95.0|||||Pairwise t- test|||||||0.546
82363329|NCT00546910|164437410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.001|TWO_SIDED|95.0|0.52|0.87||P-value is for Time Active overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Time Active was tested at rank 8.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.87|0.52|<0.001
82363330|NCT00546910|164437410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|||<|0.001|TWO_SIDED|95.0|0.98|1.57||P-value is for Distance overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Distance was tested at rank 5.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.57|0.98|<0.001
82363331|NCT00546910|164437410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.81|1.35||P-value is for Area overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Area was tested at rank 6.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.35|0.81|<0.001
82363332|NCT00546910|164437410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.78|1.22||P-value is for Microevents overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Microevents was tested at rank 3.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.22|0.78|<0.001
82363333|NCT00546910|164437410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|||<|0.001|TWO_SIDED|95.0|0.18|0.58||P-value is for Motion Simplicity overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Motion Simplicity was tested at rank 9.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.58|0.18|<0.001
82363334|NCT00546910|164437411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.6|||<|0.001|TWO_SIDED|95.0|8.2|14.99||P-value for ADHD-RS Total Score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||Comparison of atomoxetine vs. placebo at Visit 7 (Week 8)||14.99|8.20|<0.001
82363335|NCT00546910|164437412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.11|||<|0.001|TWO_SIDED|95.0|0.76|1.46||P-value for CGI-S ADHD score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||Comparison of atomoxetine vs. placebo at Visit 7 (Week 8)||1.46|0.76|<0.001
82363336|NCT00546910|164437413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.74|||<|0.001|TWO_SIDED|95.0|3.55|7.92||P-value for Total Score|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||7.92|3.55|<0.001
82363337|NCT00546910|164437413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.96||||0.001|TWO_SIDED|95.0|2.49|5.44||P-value for Evening subscore|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||5.44|2.49|0.001
82363338|NCT00546910|164437413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|||<|0.002|TWO_SIDED|95.0|0.42|1.93||P-value for Morning subscore|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.93|0.42|<0.002
82363339|NCT00546910|164437413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|||<|0.001|TWO_SIDED|95.0|0.31|0.93||P-value for Item 11 (difficulty falling asleep).|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.93|0.31|<0.001
82363340|NCT00546910|164437414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.66|1.35||P-value is for Reaction Time Variation overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Reaction time variation was tested at rank 1.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.35|0.66|<0.001
82363341|NCT00546910|164437414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||<|0.001|TWO_SIDED|95.0|0.46|0.93||P-value is for Omission Error overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Omission error was tested at rank 7.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.93|0.46|<0.001
82363342|NCT00546910|164437414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|||<|0.001|TWO_SIDED|95.0|0.17|0.65||P-value is for Mean Reaction Time overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Mean reaction time was tested at rank 2.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.65|0.17|<0.001
82392071|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.788|||||||Paired t-test|||Statistical analysis at Week 48||||0.788
82392072|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.329|||||||Paired t-test|||Statistical analysis at Week 56||||0.329
82363343|NCT00546910|164437414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|0.26|0.73||P-value is for Normalized Variation of Reaction Time overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Normalized Variation of Reaction Time was tested at rank 10.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.73|0.26|<0.001
82363344|NCT00546910|164437415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||<|0.001|TWO_SIDED|95.0|0.31|0.68||P-value is for Commission Error overall for morning, noon and evening. Primary tests were performed hierarchically to adjust for multiplicity. Commission Error was tested at rank 4.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.68|0.31|<0.001
82363345|NCT00546910|164437415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.022|TWO_SIDED|95.0|0.02|0.31||P-value is for Anticipatory Response overall for morning, noon and evening. Anticipatory Response was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.31|0.02|0.022
82392073|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.716|||||||Paired t-test|||Statistical analysis at Week 68||||0.716
82392074|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.119|||||||Paired t-test|||Statistical analysis at Week 80||||0.119
82392075|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.201|||||||Paired t-test|||Statistical analysis at Week 92||||0.201
82392076|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.087|||||||Paired t-test|||Statistical analysis at Week 104||||0.087
82392077|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.116|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.116
82392078|NCT01668966|164494911|SUPERIORITY_OR_OTHER|||||||0.07|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.070
82392079|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.3299|||||||Paired t-test|||Statistical analysis at Week 12||||0.3299
82363346|NCT00546910|164437416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.001|TWO_SIDED|95.0|0.69|1.18||P-value is for Error Rate overall for morning, noon and evening. Error Rate was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||1.18|0.69|<0.001
82392080|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.9247|||||||Paired t-test|||Statistical analysis at Week 24||||0.9247
82392081|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.9602|||||||Paired t-test|||Statistical analysis at Week 36||||0.9602
82392082|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.2773|||||||Paired t-test|||Statistical analysis at Week 48||||0.2773
82392083|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.5031|||||||Paired t-test|||Statistical analysis at Week 56||||0.5031
82392084|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.8109|||||||Paired t-test|||Statistical analysis at Week 68||||0.8109
82392085|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.254|||||||Paired t-test|||Statistical analysis at Week 80||||0.2540
82392086|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.3794|||||||Paired t-test|||Statistical analysis at Week 92||||0.3794
82392087|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.8687|||||||Paired t-test|||Statistical analysis at Week 104||||0.8687
82392088|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.4685|||||||Paired t-test|||Statistical analysis at Follow-up visit 1||||0.4685
82392089|NCT01668966|164494912|SUPERIORITY_OR_OTHER|||||||0.0511|||||||Paired t-test|||Statistical analysis at Follow-up visit 2||||0.0511
82392090|NCT02961062|164494985|SUPERIORITY||Mean Difference (Final Values)|-11.1|STANDARD_ERROR_OF_MEAN|0.0||0.005|TWO_SIDED|90.0|-17.54|-4.71|||Kenward-Roger method|||||-4.71|-17.54|0.005
82392091|NCT02961062|164494986|SUPERIORITY||Median Difference (Final Values)|-8.56|STANDARD_ERROR_OF_MEAN|3.37||0.017|TWO_SIDED|90.0|-14.29|-2.83|||Kenward-Roger method|||||-2.83|-14.29|0.017
82392092|NCT02938949|164494995|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82392093|NCT02938949|164494996|SUPERIORITY||||||>|0.2|||||||ANOVA|||||||> 0.20
82392094|NCT02938949|164494997|SUPERIORITY||||||>|0.2|||||||ANOVA|||||||>0.20
82392095|NCT01500213|164495014|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.043|TWO_SIDED|95.0|1.0|2.1||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.1|1.0|0.043
82392096|NCT01500213|164495015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.233|TWO_SIDED|95.0|0.8|2.0||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|0.8|0.233
82392097|NCT01500213|164495016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.084|TWO_SIDED|95.0|1.0|1.9||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||1.9|1.0|0.084
82392098|NCT02003963|164495028|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82392099|NCT01537068|164495042|SUPERIORITY_OR_OTHER||Test of Within-subjects effects|2.95||||0.09|TWO_SIDED||||||Mixed Models Analysis|Repeated Measures of ANOVA||||||0.09
82392100|NCT01537068|164495044|SUPERIORITY_OR_OTHER||Chi-squared|6.32||||0.025|TWO_SIDED||||||Chi-squared|||||||0.025
82392101|NCT03559868|164495064|SUPERIORITY||||||<|0.01|||||||ANOVA|Ordinary one-way ANOVA Bartlett's test||For IL10||||<0.01
82392102|NCT05870956|164495077|OTHER||Mean Difference (Net)|932.88||||0.516|TWO_SIDED|95.0|-1880.17|3745.94|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||3745.94|-1880.17|0.516
82392103|NCT05870956|164495077|OTHER||Mean Difference (Net)|4902.02||||0.02|TWO_SIDED|95.0|767.6|9036.43|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||9036.43|767.60|0.020
82363347|NCT00546910|164437416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.178|TWO_SIDED|95.0|0.05|0.28||P-value is for Multi Response overall for morning, noon and evening. Multi Response was not tested in the primary analysis but is a secondary endpoint.|Mixed Models Analysis|Positive values for the mean difference are in favor of the atomoxetine arm.||||0.28|0.05|0.178
82363348|NCT03407612|164437440|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.67|||||||t-test, 2 sided|||This analysis considers the baseline HOS-ADL measures.||||0.67
82363349|NCT03407612|164437440|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.73|||||||t-test, 2 sided|||This analysis considers the 6 week postoperative HOS-ADL measures.||||0.73
82363350|NCT03407612|164437440|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.87|||||||t-test, 2 sided|||This analysis considers the 12 week postoperative HOS-ADL measures.||||0.87
82363351|NCT03407612|164437440|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.78|||||||t-test, 2 sided|||This analysis considers the 6 month postoperative HOS-ADL measures.||||0.78
82363352|NCT03407612|164437441|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.25|||||||t-test, 2 sided|||||||0.25
82363353|NCT03407612|164437442|EQUIVALENCE|p \< 0.05 required for groups to have non-equivalent results.||||||0.04|||||||t-test, 2 sided|||||||0.04
82363354|NCT02551679|164437496|SUPERIORITY||Cox Proportional Hazard|2.046||||0.258|TWO_SIDED|95.0|0.577|7.255|||ANCOVA|||The primary hypothesis of this study is that ACP-01 is superior to placebo in terms of the earlier time from treatment with Investigational Medicinal Product (IMP) to either de-novo gangrene, or doubling of wound size, or major amputation, or death.||7.255|0.577|0.258
82363355|NCT01332578|164437522|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-20.92||||0.0004|TWO_SIDED|95.0|-27.31|-15.81|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate of median difference was determined.|Null hypothesis was no difference between test hot drink and standard paracetamol tablets.||-15.81|-27.31|0.0004
82363356|NCT01002794|164437531|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||Power calculation: The sample size calculation was based on the change in KOOS4 from baseline to two year follow-up. To detect a 10 point difference with a standard deviation of 15, with a level of power of 90%, level of significance of 0.05, and an estimated 15% dropout rate at two years, we determined that we would need 56 participants in each group. To allow for a 20% crossover rate, we randomised 140 participants.||||<0.05
82363357|NCT03614494|164437567|SUPERIORITY||Risk Difference (RD)|31.4|||<|0.0001|TWO_SIDED|95.0|26.2|36.4|||Chi-squared|||||36.4|26.2|<0.0001
82363358|NCT03614494|164437568|SUPERIORITY||Odds Ratio (OR)|0.197||||0.036|TWO_SIDED|95.0|0.021|0.906|||Logistic regression, Firth's bias reduct|||||0.906|0.021|0.036
82363359|NCT02997657|164437569|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
82363360|NCT02997657|164437570|SUPERIORITY|||||||0.81|||||||Chi-squared|||||||0.81
82363361|NCT02997657|164437571|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
82363362|NCT02997657|164437572|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
82363363|NCT02997657|164437573|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82363364|NCT02997657|164437574|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
82363365|NCT02997657|164437575|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
82363366|NCT02129647|164437576|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 122 (60 to 265)|||
82363367|NCT02129647|164437577|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 135 (100 to 240)|||
82363368|NCT02129647|164437578|OTHER||||||||||||||||||10 tissue matched historical controls were analyzed. The Median (Full Range) of the histoscore was 12 (0 to 100)|||
82363369|NCT01311557|164437582|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% confidence interval (CI) was constructed around each of the ratios: Pertussis toxoid (PT) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.843|1.05||||||||1.05|0.843|
82363370|NCT01311557|164437582|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% CI was constructed around each of the ratios: anti-Filamentous hemagglutinin (FHA) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.944|1.13||||||||1.13|0.944|
82363371|NCT01311557|164437582|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95% CI was constructed around each of the ratios: Anti-Pertactin (PRN) GMT Group 1 / GMT Group 2.~The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025."|GMT Ratio|1.05|||||TWO_SIDED|95.0|0.928|1.18||||||||1.18|0.928|
82363372|NCT01311557|164437582|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was constructed around each of the ratios: anti-Fimbriae types 2 and 3 (FIM) GMT Group 1 / GMT Group 2. The GMT hypothesis was supported by the data if the lower bound of the calculated 95% CI was \> 0.67. This was the equivalent of testing the null hypothesis using a one-sided type I error rate of 0.025.|GMT Ratio|0.882|||||TWO_SIDED|95.0|0.731|1.06||||||||1.06|0.731|
82363373|NCT01833533|164437595|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 65% to achieve noninferiority.|Percentage of Participants|90.2|||||TWO_SIDED|95.0|86.2|94.3|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||94.3|86.2|
82363374|NCT01833533|164437595|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 65% to achieve noninferiority.|Percentage of Participants|97.0|||||TWO_SIDED|95.0|93.7|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|93.7|
82527658|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.59||||0.013|TWO_SIDED|95.0|0.13|1.05||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.05|0.13|0.013
82527659|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.51|||<|0.001|TWO_SIDED|95.0|0.95|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.07|0.95|<0.001
82363375|NCT01833533|164437596|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82392104|NCT05870956|164495077|OTHER||Mean Difference (Net)|2727.38||||0.026|TWO_SIDED|95.0|323.48|5131.27|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5131.27|323.48|0.026
82392105|NCT05870956|164495077|OTHER||Mean Difference (Net)|5462.41||||0|TWO_SIDED|95.0|2520.93|8403.9|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8403.90|2520.93|0.000
82392106|NCT05870956|164495078|OTHER||Mean Difference (Net)|-303.94||||0.439|TWO_SIDED|95.0|-1074.77|466.9|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||466.90|-1074.77|0.439
82392107|NCT05870956|164495078|OTHER||Mean Difference (Net)|2772.06||||0.021|TWO_SIDED|95.0|422.1|5122.02|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5122.02|422.10|0.021
82392108|NCT05870956|164495078|OTHER||Mean Difference (Net)|456.79||||0.328|TWO_SIDED|95.0|-458.64|1372.21|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||1372.21|-458.64|0.328
82575082|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.93||||||95.0|0.78|1.1|||ANOVA|||PT (Post-vaccination GMC; group ratio LA3:LA4)||1.1|0.78|
82392109|NCT05870956|164495078|OTHER||Mean Difference (Net)|620.87||||0.382|TWO_SIDED|95.0|-771.77|2013.51|||ANOVA||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||2013.51|-771.77|0.382
82392110|NCT05870956|164495079|OTHER||Mean Difference (Net)|2.4||||0.463|TWO_SIDED|95.0|-4.0|8.9|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8.9|-4.0|0.463
82392111|NCT05870956|164495079|OTHER||Mean Difference (Net)|9.6||||0.008|TWO_SIDED|95.0|2.5|16.8|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||16.8|2.5|0.008
82392112|NCT05870956|164495079|OTHER||Mean Difference (Net)|9.1||||0.005|TWO_SIDED|95.0|2.8|15.3|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||15.3|2.8|0.005
82392113|NCT05870956|164495079|OTHER||Mean Difference (Net)|6.4||||0.019|TWO_SIDED|95.0|1.1|11.7|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||11.7|1.1|0.019
82392114|NCT05870956|164495080|OTHER||Mean Difference (Net)|0.6||||0.801|TWO_SIDED|95.0|-4.3|5.5|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5.5|-4.3|0.801
82392115|NCT05870956|164495080|OTHER||Mean Difference (Net)|8.7||||0.005|TWO_SIDED|95.0|2.7|14.8|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||14.8|2.7|0.005
82392116|NCT05870956|164495080|OTHER||Mean Difference (Net)|3.4||||0.17|TWO_SIDED|95.0|-1.4|8.2|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||8.2|-1.4|0.170
82392117|NCT05870956|164495080|OTHER||Mean Difference (Net)|1.4||||0.489|TWO_SIDED|95.0|-2.6|5.4|||Chi-squared||"The net difference was calculated as:~Comparator - Reference~where High nintedanib adherence group was used as reference."|||5.4|-2.6|0.489
82392118|NCT00347919|164495091|SUPERIORITY_OR_OTHER||Percentage difference|2.7||||0.3724||90.0|-11.0|16.3|||Chi-squared||Difference in the percentage of independently-evaluated PD between lapatinib and combination therapy (lapatinib plus pazopanib)|||16.3|-11.0|0.3724
82392119|NCT00347919|164495091|SUPERIORITY_OR_OTHER||Percentage difference|5.4||||0.2578||90.0|-8.4|19.2|||Chi-squared||Difference in the percentage of investigator-evaluated PD between lapatinib and combination therapy (lapatinib plus pazopanib)|||19.2|-8.4|0.2578
82392120|NCT00347919|164495092|SUPERIORITY_OR_OTHER|||||||0.7488||95.0|||||Log Rank|||||||0.7488
82392121|NCT04713592|164495107|SUPERIORITY||Rate Difference|17.2|||=|0.006|TWO_SIDED|95.0|5.0|29.3||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||29.3|5.0|=0.006
82392122|NCT04713592|164495109|SUPERIORITY||Rate Difference|27.6|||<|0.001|TWO_SIDED|95.0|15.4|39.7||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||39.7|15.4|<0.001
82642344|NCT04035694|164999951|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.14||0.55|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.55
82642345|NCT04035694|164999952|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.54|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.54
82642346|NCT04035694|164999953|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.1||0.95|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.95
82642347|NCT04035694|164999954|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Median Difference (Net)|-4.25|STANDARD_ERROR_OF_MEAN|2.15||0.05|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.05
82642348|NCT04035694|164999955|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|1.37|STANDARD_ERROR_OF_MEAN|3.84||0.75|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.75
82642349|NCT04035694|164999956|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.14|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.14
82642350|NCT04035694|164999957|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
82642351|NCT04035694|164999958|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.06||0.01|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.01
82392123|NCT04713592|164495110|SUPERIORITY||Rate Difference|21.8|||<|0.001|TWO_SIDED|95.0|11.5|32.1||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||32.1|11.5|<0.001
82642352|NCT04035694|164999959|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.02
82527660|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.97|||<|0.001|TWO_SIDED|95.0|1.39|2.56||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.56|1.39|<0.001
82527661|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.63||||0.01|TWO_SIDED|95.0|0.15|1.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.10|0.15|0.010
82363376|NCT01833533|164437597|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|97.0|||||TWO_SIDED|95.0|93.7|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|93.7|
82363377|NCT01833533|164437597|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.2|||||TWO_SIDED|95.0|86.2|94.3|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>90% power to demonstrate superiority of each regimen to the historical rate for telaprevir plus pegIFN and RBV therapy (75%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||94.3|86.2|
82527662|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.35|||<|0.001|TWO_SIDED|95.0|0.77|1.93||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.93|0.77|<0.001
82575083|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.88|||||TWO_SIDED|95.0|0.75|1.03|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA3:LA4)||1.03|0.75|
82363378|NCT01833533|164437597|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Noninferiority of the rate of sustained virologic response at 12 weeks after treatment in the ABT-450/r/ABT-267 and ABT-333, plus placebo RBV treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%; the lower confidence bound of the 2-sided 95% CI (calculated using normal approximation to the binomial distribution)for the difference in percentage of participants must exceed -10.5% to achieve noninferiority.|Difference in Percentage of Participants|-6.8|||||TWO_SIDED|95.0|-12.0|-1.5|||||95% CI was calculated using the normal approximation to the binomial distribution.|Based on a 2-sided significance level of 0.05 and an underlying rate of ≥90% in the ABT-450/r/ABT-267 and ABT-333, plus RBV arm (100 participants) and ≥85% in the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (200 participants) provides \>95% power to demonstrate noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV arm compared with the ABT-450/r/ABT-267 and ABT-333, plus Placebo RBV arm (normal approximation of a single binomial proportion in a one-sample test for superiority).||-1.5|-12.0|
82363379|NCT03478865|164437600|SUPERIORITY||Mean Difference (Final Values)|-2.54||||0.259|TWO_SIDED|95.0|-7.91|2.83||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 2 for Cohort 1)."||2.83|-7.91|0.259
82363380|NCT03478865|164437600|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.818|TWO_SIDED|95.0|-4.66|4.12||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 1 for Cohort 2)."||4.12|-4.66|0.818
82363381|NCT03478865|164437601|SUPERIORITY||Mean Difference (Final Values)|-3.56||||0.365|TWO_SIDED|95.0|-13.24|6.12||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the post-treatment follow-up visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 3 for Cohort 1)."||6.12|-13.24|0.365
82363382|NCT03478865|164437601|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.48|TWO_SIDED|95.0|-12.94|19.41||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the post-treatment follow-up visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 2 for Cohort 2)."||19.41|-12.94|0.480
82426281|NCT04846231|164561653|SUPERIORITY||Mean Difference (Final Values)|36.57|||<|0.001|TWO_SIDED|95.0|30.61|42.54|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||42.54|30.61|<0.001
82527663|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.54|||<|0.001|TWO_SIDED|95.0|0.95|2.14||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.14|0.95|<0.001
82527664|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.42||||0.088|TWO_SIDED|95.0|-0.06|0.91||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.91|-0.06|0.088
82527665|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||<|0.001|TWO_SIDED|95.0|0.52|1.71||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.71|0.52|<0.001
82363383|NCT05212883|164437610|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||Comparison of the likelihood to test before gathering for age \< 18 vs. age \>= 18.||1.3|0.8|
82363384|NCT02502734|164437622|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower limit of the confidence interval (0.025, 1-sided significance test level) for the mean difference in lower-leg growth rate of FF 50 mcg OD versus Placebo was greater than -0.20mm/week.|Mean Difference (Final Values)|-0.052|||||TWO_SIDED|95.0|-0.1217|0.0176||Non-inferiority would be demonstrated if the lower limit of the confidence interval (0.025,1-sided significance test level) for the mean difference in lower-leg growth rate of FF 50 mcg OD versus Placebo was greater than -0.20mm/week.|ANCOVA|Analysis performed using ANCOVA with covariates period-level baseline and subject-level baseline lower-leg length, age, gender, treatment and period.||||0.0176|-0.1217|
82363385|NCT03476317|164437624|EQUIVALENCE|Median difference in calprotectin for controls from day 12 to baseline||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82363386|NCT04625062|164437644|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.72|TWO_SIDED||||||paired t-test, two-tailed|df = 6|Traditional treatment condition - biofeedback treatment condition|||||.72
82363387|NCT03827018|164437745|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0263|TWO_SIDED|95.0|0.15|0.92||Comparison of KPL-301 and placebo with respect to time to flare calculated by using a log-rank test stratified by randomization strata.|Log Rank||95% confidence interval was calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata.|||0.92|0.15|0.0263
82363388|NCT03827018|164437746|SUPERIORITY||Difference in proportions|33.3||||0.0038|TWO_SIDED|95.0|10.7|55.8||Two-sided p-value and 95% CI for the difference in sustained remission between two arms using normal approximation. Placebo arm is the reference.|normal approximation|||Secondary endpoints were analyzed in hierarchical order.||55.8|10.7|0.0038
82363389|NCT03827018|164437747|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0277|TWO_SIDED|95.0|0.27|0.95||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||0.95|0.27|0.0277
82363390|NCT03827018|164437748|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.0378|TWO_SIDED|95.0|0.19|0.98||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||0.98|0.19|0.0378
82363391|NCT03827018|164437749|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0651|TWO_SIDED|95.0|0.22|1.06||Calculated by using a log-rank test stratified by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate, and stratified by randomization strata.|Secondary endpoints were analyzed in hierarchical order.||1.06|0.22|0.0651
82363392|NCT03827018|164437750|OTHER|Descriptive statistic|Least Squares (LS) means difference|-326.45||||0.0667|TWO_SIDED|95.0|-675.99|23.09||Calculated using ANCOVA with treatment arm and randomization strata as discrete variables, and corticosteroid starting dose as a continuous variable.|ANCOVA|||||23.09|-675.99|0.0667
82392124|NCT04713592|164495111|SUPERIORITY||Rate Difference|20.7|||<|0.001|TWO_SIDED|95.0|9.1|32.2||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||32.2|9.1|<0.001
82363393|NCT03827018|164437751|OTHER|Descriptive statistic|Difference in percentages|31.0||||0.0201|TWO_SIDED|95.0|11.1|50.8||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||50.8|11.1|0.0201
82363394|NCT03827018|164437752|OTHER|Descriptive statistic|Difference in percentages|9.5||||0.5533|TWO_SIDED|95.0|-8.7|27.8||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||27.8|-8.7|0.5533
82363395|NCT03827018|164437753|OTHER|Descriptive statistics|Difference in percentages|39.3||||0.0031|TWO_SIDED|95.0|17.2|61.3||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata|Cochran-Mantel-Haenszel|||||61.3|17.2|0.0031
82363396|NCT03827018|164437754|OTHER|Descriptive statistics|Least Squares (LS) means difference|-380.82||||0.1629|TWO_SIDED|95.0|-919.66|158.02||Calculated using ANCOVA with treatment arm and randomization strata as discrete variables, and corticosteroid starting dose as a continuous variable|ANCOVA|||||158.02|-919.66|0.1629
82363397|NCT03078478|164437762|SUPERIORITY||Treatment rate ratio|0.88||||0.1715|TWO_SIDED|95.0|0.73|1.06|||Regression, Cox|||The number of episodes is analysed using a negative binomial regression model (log link) with the logarithm of the time period in which a hypoglycaemic episode was considered treatment emergent as offset. The model includes treatment, number of OADs, region, sex and dosing time as fixed factors, and age as a covariate. Missing values are imputed through multiple imputation by treatment arm, based on a Poisson model.||1.06|0.73|0.1715
82363398|NCT02792218|164437778|SUPERIORITY||rate ratio|0.495|||<|0.001|TWO_SIDED|95.0|0.375|0.655|||negative binomial regression model|||Obtained from fitting a negative binomial regression model with log-link to the number of relapses, adjusted for treatment and region as factors, number of relapses in previous year, baseline EDSS, baseline number of Gd-enhancing lesions and the patient's age at baseline as covariates. The natural log of the time-in-study was used as offset to annualize the relapse rate.||0.655|0.375|<0.001
82363399|NCT02792218|164437779|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.003|TWO_SIDED|95.0|0.5|0.863|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.863|0.500|0.003
82363400|NCT02792218|164437780|SUPERIORITY||Hazard Ratio (HR)|0.652||||0.029|TWO_SIDED|95.0|0.445|0.956|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.956|0.445|0.029
82363401|NCT02792218|164437781|SUPERIORITY||Hazard Ratio (HR)|0.676||||0.012|TWO_SIDED|95.0|0.498|0.917|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.917|0.498|0.012
82363402|NCT02792218|164437782|SUPERIORITY||Hazard Ratio (HR)|0.607||||0.022|TWO_SIDED|95.0|0.396|0.93|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||0.930|0.396|0.022
82363403|NCT02792218|164437783|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.092|TWO_SIDED|95.0|0.952|1.952|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||1.952|0.952|0.092
82363404|NCT02792218|164437784|SUPERIORITY||Hazard Ratio (HR)|1.186||||0.516|TWO_SIDED|95.0|0.709|1.983|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2302 to address this endpoint.||1.983|0.709|0.516
82363405|NCT02792218|164437785|SUPERIORITY||rate ratio|0.025|||<|0.001|TWO_SIDED|95.0|0.013|0.049|||negative binomial regression model|||||0.049|0.013|<.001
82363406|NCT02792218|164437786|SUPERIORITY||rate ratio|0.26|||<|0.001|TWO_SIDED|95.0|0.21|0.33|||negative binomial regression model|||Month 12||0.33|0.21|<.001
82363407|NCT02792218|164437786|SUPERIORITY||rate ratio|0.22|||<|0.001|TWO_SIDED|95.0|0.15|0.34|||negative binomial regression model|||Month 24||0.34|0.15|<.001
82363408|NCT02792218|164437786|SUPERIORITY||rate ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.15|0.22|||negative binomial regression model|||End of Study||0.22|0.15|<.001
82363409|NCT02792218|164437787|SUPERIORITY||Geo-mean ratio|0.93||||0.011|TWO_SIDED|95.0|0.89|0.98|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 3||0.98|0.89|0.011
82392125|NCT04713592|164495112|SUPERIORITY||Rate Difference|16.2|||<|0.001|TWO_SIDED|95.0|8.2|24.3||P-value based on Cochran-Mantel-Haenszel (CMH) test adjusted for Baseline ppIGA and Baseline BSA categories for comparison of treatment groups based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19.|Cochran-Mantel-Haenszel||Difference: Risankizumab - Placebo|Risankizumab vs Placebo at Week 16||24.3|8.2|<0.001
82392126|NCT01056198|164495115|SUPERIORITY_OR_OTHER||||||=|0.208||95.0|||||ANCOVA|||The BWAT-m scores were compared at each of the 4 treatment weeks and at the end of the follow-up using a mixed-effects ANCOVA for the intent-to-treat population. Treatment and treatment week, as well as their interaction, were defined as fixed effects with subject as a random effect. The BWAT-m score at baseline was used as a covariate.||||=0.208
82363410|NCT02792218|164437787|SUPERIORITY||Geo-mean ratio|0.73|||<|0.001|TWO_SIDED|95.0|0.69|0.77|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 12||0.77|0.69|<.001
82363411|NCT02792218|164437787|SUPERIORITY||Geo-mean ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.72|0.82|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 24||0.82|0.72|<.001
82363412|NCT02792218|164437788|SUPERIORITY||Mean Difference (Net)|0.07||||0.118|TWO_SIDED|95.0|-0.02|0.15|||random coefficient model|||||0.15|-0.02|0.118
82363413|NCT02792218|164437791|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.002|TWO_SIDED|95.0|0.486|0.847|||Regression, Cox|||||0.847|0.486|0.002
82363414|NCT02792218|164437792|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.008|TWO_SIDED|95.0|0.481|0.898|||Regression, Cox|||||0.898|0.481|0.008
82363415|NCT02449473|164437848|SUPERIORITY|The model included treatment group as fixed effect and baseline log-transformed airway submucosal eosinophils as a continuous covariate. No interaction terms were included in the model. The analysis was performed using log-transformed data. All group comparisons from analysis of covariance (ANCOVA) model were based on Type III sums of squares.|Least square (LS) geometric mean ratio|1.43||||0.3862|TWO_SIDED|95.0|0.63|3.27|||ANCOVA|||Comparison of change from baseline, expressed as a ratio, in airway submucosal eosinophils; Tralo 300 mg Q2W vs placebo. The null hypothesis was that the change in airway submucosal eosinophils at Week 12 on tralokinumab was equal to the corresponding change on placebo.||3.27|0.63|0.3862
82363416|NCT02449473|164437849|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed eosinophils and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A restricted maximum likelihood (REML) approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|1.21||||0.0546|TWO_SIDED|95.0|1.0|1.48|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in blood eosinophil count; Tralo 300 mg Q2W vs placebo.||1.48|1.00|0.0546
82363417|NCT02449473|164437850|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed differential sputum eosinophils and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|0.57||||0.6334|TWO_SIDED|95.0|0.06|6.0|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in differential sputum eosinophils; Tralo 300 mg Q2W vs placebo.||6.00|0.06|0.6334
82392127|NCT01056198|164495116|SUPERIORITY_OR_OTHER||||||=|0.2737||95.0|||||ANCOVA|||Null hypothesis: no differences between the 2 treatments with the alternative of non-zero differences. 48 evaluable subjects is sufficient to detect an effect size of 0.80.||||=0.2737
82527666|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||<|0.001|TWO_SIDED|95.0|0.85|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.07|0.85|<0.001
82527667|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.47||||0.061|TWO_SIDED|95.0|-0.02|0.97||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.97|-0.02|0.061
82527668|NCT01216163|164751441|SUPERIORITY_OR_OTHER||LS mean difference|0.98||||0.002|TWO_SIDED|95.0|0.38|1.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.38|0.002
82527669|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.31|||<|0.001|TWO_SIDED|95.0|0.13|0.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.49|0.13|<0.001
82527670|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.06||||0.387|TWO_SIDED|95.0|-0.08|0.21||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.21|-0.08|0.387
82527671|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.007|TWO_SIDED|95.0|0.07|0.42||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.42|0.07|0.007
82527672|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.89|||<|0.001|TWO_SIDED|95.0|0.64|1.15||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.15|0.64|<0.001
82363418|NCT02449473|164437851|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed blood free ECP and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|1.11||||0.3769|TWO_SIDED|95.0|0.88|1.4|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in blood free ECP concentration; Tralo 300 mg Q2W vs placebo.||1.40|0.88|0.3769
82527673|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.019|TWO_SIDED|95.0|0.04|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.04|0.019
82527674|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.64|||<|0.001|TWO_SIDED|95.0|0.38|0.9||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.90|0.38|<0.001
82527675|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||<|0.001|TWO_SIDED|95.0|1.01|1.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|1.01|<0.001
82527676|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.006|TWO_SIDED|95.0|0.09|0.57||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.57|0.09|0.006
82527677|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.97|||<|0.001|TWO_SIDED|95.0|0.68|1.26||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.26|0.68|<0.001
82527678|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.43|||<|0.001|TWO_SIDED|95.0|1.12|1.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.74|1.12|<0.001
82363419|NCT02449473|164437852|SUPERIORITY|The repeated measures analysis included treatment group, baseline log-transformed sputum free ECP and visit as fixed effects. Treatment-by-visit interaction was also included. The analysis was performed using log-transformed data. A REML approach was used. An unstructured variance-covariance matrix was used to model the within-subject errors.|LS geometric mean ratio|0.49||||0.1126|TWO_SIDED|95.0|0.2|1.2|||Repeated measures analysis|||Comparison of change from baseline, expressed as a ratio, in sputum free ECP concentration; Tralo 300 mg Q2W vs placebo.||1.20|0.20|0.1126
82392128|NCT01056198|164495117|SUPERIORITY_OR_OTHER||||||=|0.2741||95.0|||||ANCOVA|||Null hypothesis: no differences between the 2 treatments with the alternative of non-zero differences. 48 evaluable subjects is sufficient to detect an effect size of 0.80.||||=0.2741
82527679|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.32||||0.014|TWO_SIDED|95.0|0.07|0.58||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.58|0.07|0.014
82392129|NCT01056198|164495118|SUPERIORITY_OR_OTHER||||||=|0.0164||95.0|||||t-test, 2 sided|||Paired t-test, 2-sided, alpha = 0.05||||=0.0164
82392130|NCT01056198|164495119|SUPERIORITY_OR_OTHER||||||=|0.9392||95.0|||||t-test, 2 sided|||Paired t-test, 2-sided, alpha = 0.05||||=0.9392
82392131|NCT02426749|164495132|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82392132|NCT02484651|164495149|SUPERIORITY|||||||0.651|||||||t-test, 2 sided|||Sample size calculation was performed with a power of 0.80 and an α of 0.05, considering the primary hypothesis of a reduction in the BIS variability (measured as the standard deviation). A 25% reduction on the BIS variability (standard deviation) was considered clinically relevant, and gave a minimum sample size of 26 per group.||||0.651
82392133|NCT02484651|164495150|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||This statistical analysis applies to the propofol effect-site concentration. Sample size calculation was performed with a power of 0.80 and an α of 0.05 also a reduction in the propofol drug consumption (measured as the average effect-site concentration) during maintenance of anesthesia. A reduction on propofol mean effect-site concentration of 20% was considered clinically relevant, giving a minimum of 34 patients per group||||<0.001
82392134|NCT02484651|164495150|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||"This statistical analysis applies to the remifentanil effect-site concentration.~Sample size calculation was performed with a power of 0.80 and an α of 0.05 also a reduction in the remifentanil drug consumption (measured as the average effect-site concentration) during maintenance of anesthesia. A reduction on on remifentanil average effect-site concentration of 20% was considered clinically relevant, giving a minimum of 24 patients per group"||||0.245
82392135|NCT02484651|164495151|SUPERIORITY|||||||0.419|||||||Fisher Exact|||The null hypothesis was that PQRS overall recovery at 15 minutes was independent from the study group.||||0.419
82392136|NCT02484651|164495151|SUPERIORITY|||||||0.107|||||||Fisher Exact|||The null hypothesis was that PQRS overall recovery at 40 minutes was independent from the study group.||||0.107
82392137|NCT02484651|164495152|SUPERIORITY|||||||0.669|||||||Chi-squared|||The null hypothesis was that PQRS satisfaction with anesthetic care was independent of the study group.||||0.669
82392138|NCT02266472|164495156|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00 %.|ratio of the adjusted means|99.11|STANDARD_DEVIATION|6.3|<|0.0001|TWO_SIDED|90.0|96.4|101.89|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed 10mg+1000mg FDC divided by Fed 10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||101.89|96.40|<0.0001
82392139|NCT02266472|164495157|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints,using an acceptance range of 80.00 to 125.00 %.|ratio of the adjusted means|101.25|STANDARD_DEVIATION|10.7|<|0.0001|TWO_SIDED|90.0|96.54|106.19|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed 10mg+1000mg FDC divided by Fed 10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||106.19|96.54|<0.0001
82392140|NCT02266472|164495158|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|99.12|STANDARD_DEVIATION|12.9|<|0.0001|TWO_SIDED|90.0|93.69|104.87|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||104.87|93.69|<0.0001
82527680|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.11|||<|0.001|TWO_SIDED|95.0|0.8|1.42||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.42|0.80|<0.001
82392141|NCT02266472|164495159|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|108.58|STANDARD_DEVIATION|9.3|<|0.0001|TWO_SIDED|90.0|104.17|113.17|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||113.17|104.17|<0.0001
82426282|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|33.49|||<|0.001|TWO_SIDED|95.0|27.42|39.55|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||39.55|27.42|<0.001
82426283|NCT04846231|164561653|SUPERIORITY||Mean Difference (Net)|31.31|||<|0.001|TWO_SIDED|95.0|25.16|37.47|||ANCOVA|||To control the overall alpha of the study, the primary endpoint will be evaluated hierarchically. Each comparison to rosuvastatin will use an alpha of 0.05.||37.47|25.16|<0.001
82363420|NCT04034355|164437853|SUPERIORITY||Risk Ratio (RR)|1.521||||0.028|TWO_SIDED|95.0|1.0462|2.2113|||Cochran-Mantel-Haenszel|||||2.2113|1.0462|0.0280
82363421|NCT01552369|164437869|SUPERIORITY|||||||0.0396|||||||Mantel Haenszel|||||||0.0396
82363422|NCT01552369|164437869|SUPERIORITY||Hazard Ratio (HR)|2.22||||0.048|TWO_SIDED|95.0|1.01|7.3|||Competing risk regression|Death was considered a competing risk.|The risk of CMV disease is 2.2x higher in the prophylaxis group when compared to the preemptive group|||7.3|1.01|0.048
82363423|NCT01552369|164437870|SUPERIORITY|log-rank test for equality of survivor functions||||||0.19|||||||Log Rank|||||||0.19
82363424|NCT01552369|164437871|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6|TWO_SIDED|95.0|0.45|1.58|||Mantel Haenszel||The odds of rejection in prophylaxis group compared to preemptive group|||1.58|0.45|0.60
82363425|NCT01552369|164437872|SUPERIORITY||Odds Ratio (OR)|0.95||||0.96|TWO_SIDED|95.0|0.13|6.92|||Mantel Haenszel||The odds of graft loss in prophylaxis group compared to preemptive group|||6.92|0.13|0.96
82363426|NCT01552369|164437873|SUPERIORITY||Odds Ratio (OR)|3.24||||0.014|TWO_SIDED|95.0|1.21|8.69|||Mantel Haenszel||Odds of late disease in prophylaxis group compared to preemptive|||8.69|1.21|0.014
82363427|NCT01552369|164437874|SUPERIORITY||Odds Ratio (OR)|1.17||||0.64|TWO_SIDED|95.0|0.61|2.23|||Mantel Haenszel||Odds of bacterial infection in prophylaxis subjects compared to preemptive|||2.23|0.61|0.64
82363428|NCT01552369|164437875|SUPERIORITY||Odds Ratio (OR)|2.25||||0.18|TWO_SIDED|95.0|0.66|7.62|||Mantel Haenszel||Odds of fungal disease in prophylaxis group compared to preemptive|||7.62|0.66|0.18
82363429|NCT01552369|164437876|SUPERIORITY|||||||0.24|||||||Fisher Exact|||||||0.24
82363430|NCT01552369|164437877|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
82363431|NCT01552369|164437878|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.57
82363432|NCT01552369|164437879|SUPERIORITY|||||||0.61|||||||Chi-squared|||||||0.61
82363433|NCT03694808|164437894|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|ratio of GMT (Fluzone/Fluad)|1.23|||||TWO_SIDED|95.0|0.8|1.89|||t-test, 2 sided|||Statistical Analysis for Year 1 (2018-2019)||1.89|0.8|
82363434|NCT03694808|164437894|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.95|||||TWO_SIDED|95.0|0.66|1.38|||t-test, 2 sided|||Statistical Analysis for Year 2 (2019-2020)||1.38|0.66|
82363435|NCT03694808|164437895|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|1.38|||||TWO_SIDED|95.0|0.88|2.15|||t-test, 2 sided|||Statistical Analysis for Year 1 (2018-2019)||2.15|0.88|
82363436|NCT03694808|164437895|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.86|||||TWO_SIDED|95.0|0.53|1.4|||t-test, 2 sided|||Statistical Analysis for Year 2 (2019-2020)||1.4|0.53|
82363437|NCT03694808|164437896|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|1.85|||||TWO_SIDED|95.0|1.23|2.79|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||2.79|1.23|
82363438|NCT03694808|164437896|NON_INFERIORITY|2-sided t-test performed on log-transformed titers; estimate and 95% confidence interval of log-scale difference exponentiated to generate GMT ratio and its 95% CI below.|Ratio of GMT (Fluzone/Fluad)|0.88|||||TWO_SIDED|95.0|0.61|1.26|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||1.26|0.61|
82363439|NCT03694808|164437897|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.154|||||TWO_SIDED|95.0|-0.001|0.308|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.308|-0.001|
82363440|NCT03694808|164437897|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.056|||||TWO_SIDED|95.0|-0.2|0.089|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.089|-0.2|
82363441|NCT03694808|164437898|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.218|||||TWO_SIDED|95.0|0.063|0.373|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.373|0.063|
82363442|NCT03694808|164437898|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.008|||||TWO_SIDED|95.0|-0.139|0.123|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.123|-0.139|
82363443|NCT03694808|164437899|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.136|||||TWO_SIDED|95.0|-0.019|0.291|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.291|-0.019|
82363444|NCT03694808|164437899|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|0.024|||||TWO_SIDED|95.0|-0.117|0.164|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.164|-0.117|
82363445|NCT03694808|164437900|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.43|||||TWO_SIDED|95.0|0.29|0.64|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||0.64|0.29|
82527681|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.43|||<|0.001|TWO_SIDED|95.0|1.09|1.78||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.78|1.09|<0.001
82575084|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.66|0.97|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA3:LA4||0.97|0.66|
82527682|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.31||||0.03|TWO_SIDED|95.0|0.03|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|0.03|0.030
82363446|NCT03694808|164437900|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.45|||||TWO_SIDED|95.0|0.29|0.69|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||0.69|0.29|
82363447|NCT03694808|164437901|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.91|||||TWO_SIDED|95.0|0.71|1.16|||t-test, 2 sided|||Statistical Analysis Year 1 (2018-2019)||1.16|0.71|
82363448|NCT03694808|164437901|NON_INFERIORITY|Ratio of GMT (Fluzone/Fluad), upper bound of two-sided 95% CI should not exceed 1.5 for non-inferiority|Ratio of GMT (Fluzone/Fluad)|0.96|||||TWO_SIDED|95.0|0.69|1.33|||t-test, 2 sided|||Statistical Analysis Year 2 (2019-2020)||1.33|0.69|
82363449|NCT03694808|164437902|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.544|||||TWO_SIDED|95.0|-0.674|-0.414|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||-0.414|-0.674|
82363450|NCT03694808|164437902|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.168|||||TWO_SIDED|95.0|-0.311|-0.025|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||-0.025|-0.311|
82363451|NCT03694808|164437903|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference in proportions|-0.104|||||TWO_SIDED|95.0|-0.221|0.013|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 1 (2018-2019)||0.013|-0.221|
82363452|NCT03694808|164437903|NON_INFERIORITY|Difference between seroconversion rates (Fluzone - Fluad), upper bound of two-sided 95% CI of difference should not exceed 10 percentage points for non-inferiority|Difference of proportions|-0.113|||||TWO_SIDED|95.0|-0.241|0.015|||Test of proportions|2sided proportions test to estimate 95% CI difference in seroconversion rates; upper limit differences compared to 10%, per non-inferiority guidance||Statistical Analysis Year 2 (2019-2020)||0.015|-0.241|
82363453|NCT02322788|164437912|SUPERIORITY_OR_OTHER||Estimated mean ratio|1.87|||<|0.001|TWO_SIDED|95.0|1.52|2.29|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||2.29|1.52|<0.001
82363454|NCT02322788|164437912|SUPERIORITY_OR_OTHER||Estimated mean ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.46|2.2|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||2.20|1.46|<0.001
82363455|NCT02322788|164437912|NON_INFERIORITY_OR_EQUIVALENCE|The details of the sample size calculation is document at Section 8.2 the study protocol.|Estimated mean ratio|0.92|||||TWO_SIDED|95.0|0.75|1.13|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||1.13|0.75|
82363456|NCT02322788|164437912|NON_INFERIORITY_OR_EQUIVALENCE|The details of the sample size calculation is document at Section 8.2 the study protocol.|Estimated mean ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08|||Mixed Models Analysis|||A linear mixed effect model based on restricted maximum likelihood analysis is used to estimate the treatment effect. PC20 in natural log scale is the response variable, treatment and period are the fixed effects, and patient within sequence is a random effect.||1.08|0.72|
82363457|NCT02631837|164437940|NON_INFERIORITY|Our hypothesis was that women would accept a higher conversion rate of 15% for vNOTESbased on a telephone interview of 10 women treated by total vaginal NOTES hysterectomy. Women were asked to choose among ﬁve cut-off rates (5, 10, 15, 20 or 25%). Most women indicated 15%. We would conclude non-inferiority when the upper limit of the one-sided 95% conﬁdence interval for the difference in the proportions of women between both comparisons would be below 15%.||||||0.0221||||||The Farrington-Manning test for non-inferiority was performed with 5% significance level and yielded P = 0.0221 in a sensitivity analysis assuming one conversion in the vNOTES and 0 conversions in the laparoscopy group.|Farrington-Manning|||||||0.0221
82363458|NCT02631837|164437941|SUPERIORITY||Risk Difference (RD)|-0.34||||0.007|TWO_SIDED|95.0|-0.56|-0.13|||Fisher Exact|||||-0.13|-0.56|0.007
82363459|NCT02631837|164437941|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
82363460|NCT02631837|164437943|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.006|TWO_SIDED|95.0|-10.0|-1.8|||Mann-Whitney U test|Two-sided test||||-1.8|-10|0.006
82363461|NCT02631837|164437944|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82363462|NCT02631837|164437945|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||> 0.05
82392142|NCT02266472|164495160|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|98.89|STANDARD_DEVIATION|6.3|||TWO_SIDED|90.0|96.18|101.67|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||101.67|96.18|
82392143|NCT02266472|164495161|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% CIs for the ratios (test to reference treatment) of the adjusted gMeans of the primary endpoints, with acceptance range of 80.00 to 125.00%.|ratio of the adjusted means|101.37|STANDARD_DEVIATION|11.0|||TWO_SIDED|90.0|96.53|106.45|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the adjusted gMean ratio of Fed10mg+1000mg FDC divided by Fed10mg+1000mg Single. Standard deviation is actually intraindividual geometric coefficient variation (gCV).|||106.45|96.53|
82392144|NCT05537792|164495174|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.579|||||||t-test, 1 sided|||||||0.579
82392145|NCT05537792|164495174|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.0008|||||||t-test, 1 sided|||||||0.0008
82392146|NCT05537792|164495174|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.5513|||||||t-test, 1 sided|||||||0.5513
82392147|NCT05537792|164495174|OTHER|Paired t-tests were used to compare the offline forward estimation error of each adapted forward estimator with the baseline during overground walking.||||||0.00034|||||||t-test, 1 sided|||||||0.00034
82392148|NCT03495154|164495175|OTHER|This was not a comparative endpoint.|Percentage and confidence interval|3.3|||||TWO_SIDED|95.0|1.0|8.5||||||Number of participants with hernia recurrence within 12 months following Parietene™ DS Composite Mesh use in ventral hernia repair||8.5|1.0|
82392149|NCT03495154|164495176|OTHER|Statistical Analysis is based on number of participants with incidence of with ADEs at discharge. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|14.0|||||TWO_SIDED|||||||||||||
82392150|NCT03495154|164495176|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 1 month. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|31.0|||||TWO_SIDED|||||||||||||
82392151|NCT03495154|164495176|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 3 months. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|34.0|||||TWO_SIDED|||||||||||||
82392152|NCT03495154|164495176|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 12 months. Adverse Device Effects (ADE) is inclusive of both procedure and/or device related AEs.|Number of Subjects with ADEs|40.0|||||TWO_SIDED|||||||||||||
82392153|NCT03495154|164495176|OTHER|Statistical Analysis is based on number of participants with incidence of ADEs within 24 months. Adverse Device Effects (ADEs) are inclusive of both procedure and device related AEs.|Number of Subjects with ADEs|42.0|||||TWO_SIDED|||||||||||||
82392154|NCT03495154|164495177|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 1M|0.0|||||TWO_SIDED|95.0|0.0|2.9||||||||2.9|0|
82527683|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||<|0.001|TWO_SIDED|95.0|0.78|1.46||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.46|0.78|<0.001
82392155|NCT03495154|164495177|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 3M|0.0|||||TWO_SIDED|95.0|0.0|3.0||||||||3.0|0|
82392156|NCT03495154|164495177|OTHER|This was not a comparative endpoint.|% of Subjects with Recurrence within 24M|4.0|||||TWO_SIDED|95.0|1.2|9.6||||||||9.6|1.2|
82392157|NCT04908202|164495186|SUPERIORITY||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.67|3.13|||Cochran-Mantel-Haenszel|||||3.13|1.67|<0.0001
82392158|NCT04908202|164495187|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|-0.5051|||<|0.0001|TWO_SIDED|95.0|-0.6709|-0.3392|||ANCOVA|||||-0.3392|-0.6709|<0.0001
82392159|NCT04908202|164495188|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|-0.1688|||<|0.0001|TWO_SIDED|95.0|-0.2442|-0.0933|||ANCOVA|||||-0.0933|-0.2442|<0.0001
82392160|NCT04908202|164495189|SUPERIORITY||Odds Ratio (OR)|14.08|||<|0.0001|TWO_SIDED|95.0|7.19|27.59|||Cochran-Mantel-Haenszel|||||27.59|7.19|<0.0001
82392161|NCT04908202|164495190|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|6.631|||<|0.0001|TWO_SIDED|95.0|3.481|9.781|||ANCOVA|||||9.781|3.481|<0.0001
82392162|NCT04908202|164495191|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5699|TWO_SIDED|95.0|0.74|1.75|||Cochran-Mantel-Haenszel|||||1.75|0.74|0.5699
82392163|NCT04908202|164495192|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0012|TWO_SIDED|95.0|1.33|3.26|||Cochran-Mantel-Haenszel|||||3.26|1.33|0.0012
82392164|NCT04908202|164495193|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|2.6|||<|0.0001|TWO_SIDED|95.0|1.4|3.9|||ANCOVA|||||3.9|1.4|<0.0001
82392165|NCT04908202|164495194|SUPERIORITY||Odds Ratio (OR)|1.8||||0.027|TWO_SIDED|95.0|1.07|3.03|||Cochran-Mantel-Haenszel|||||3.03|1.07|0.0270
82392166|NCT04908202|164495195|SUPERIORITY||ADJUSTED MEAN DIFFERENCE|0.1596||||0.7194|TWO_SIDED|95.0|-0.7114|1.0306|||ANCOVA|||||1.0306|-0.7114|0.7194
82392167|NCT02100670|164495245|SUPERIORITY_OR_OTHER||Difference of LS mean|-9.23||||0.4144|TWO_SIDED|95.0|-31.45|12.98||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||12.98|-31.45|0.4144
82527684|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.29|||<|0.001|TWO_SIDED|95.0|0.91|1.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.66|0.91|<0.001
82363463|NCT02631837|164437946|SUPERIORITY||Risk Difference (RD)|-0.29||||0.009|TWO_SIDED|95.0|-0.47|-0.1|||Fisher Exact|||||-0.10|-0.47|0.009
82363464|NCT02631837|164437947|SUPERIORITY|||||||0.106|||||||Fisher Exact|||||||0.106
82392168|NCT02100670|164495246|SUPERIORITY_OR_OTHER||LS mean difference|1.58||||0.8761|TWO_SIDED|95.0|-18.34|21.5||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||21.50|-18.34|0.8761
82392169|NCT02100670|164495246|SUPERIORITY_OR_OTHER||LS mean difference|2.61||||0.8164|TWO_SIDED|95.0|-19.46|24.67||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||24.67|-19.46|0.8164
82527685|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.42||||0.007|TWO_SIDED|95.0|0.12|0.73||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.73|0.12|0.007
82363465|NCT02631837|164437948|SUPERIORITY||Median Difference (Final Values)|-34.0|||<|0.01|TWO_SIDED|95.0|-46.0|-22.0|||Mann-Whitney U test|||||-22|-46|< 0.01
82363466|NCT02631837|164437949|SUPERIORITY|||||||0.7604||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.7604
82363467|NCT02631837|164437950|SUPERIORITY|||||||0.3071||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3071
82363468|NCT02631837|164437951|SUPERIORITY|||||||0.4541||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.4541
82363469|NCT02631837|164437952|SUPERIORITY|||||||0.4514||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.4514
82363470|NCT02631837|164437953|SUPERIORITY|||||||0.3473||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3473
82363471|NCT02631837|164437954|SUPERIORITY|We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.||||||0.3473||||||We tested a treatment arm by time interaction to study changes in differences for the outcomes during the follow-up period. In absence of such an interaction (p\>0.05 for the interaction term), the main effect of treatment was tested.|Arm by time interaction|||||||0.3473
82363472|NCT02631837|164437956|SUPERIORITY||Mean Difference (Final Values)|-555.8||||0.11|TWO_SIDED|95.0||36.0|||Mann-Whitney U test|||||36|-1,044|0.110
82426284|NCT04846231|164561655|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82363473|NCT04039919|164437965|OTHER||Geometric LS Mean ratio|0.785|||||TWO_SIDED|90.0|0.6513|0.9461||||||The log-transformed PK parameters was analyzed by a mixed analysis of variance (ANOVA) with period and treatment as fixed effects and study participant as the random effect. The estimates and confidence intervals are back-transformed after the analysis.||0.9461|0.6513|
82363474|NCT04039919|164437966|OTHER||Geometric LS Mean Ratio|0.8342|||||TWO_SIDED|90.0|0.6999|0.9942||||||The log-transformed PK parameters was analyzed by a mixed ANOVA with period and treatment as fixed effects and study participant as the random effect. The estimates and confidence intervals are back-transformed after the analysis.||0.9942|0.6999|
82363475|NCT01197417|164437993|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment||Null hypothesis of equal distributions of primary length of stay between treatment arms within all randomization strata||||0.24
82363476|NCT01197417|164437994|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.12
82363477|NCT01197417|164437995|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.39
82363478|NCT01197417|164437996|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||<0.01
82363479|NCT01197417|164437997|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mantel Haenszel|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.11
82363480|NCT01197417|164437998|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.78
82363481|NCT01197417|164437999|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Van Elteren test|Randomization strata were defined by enrollment site, age group and hydroxyurea use within the last three months prior to enrollment.||||||0.46
82642353|NCT04035694|164999960|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.03|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.03
82642354|NCT04035694|164999961|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.57|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.57
82642355|NCT04035694|164999962|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.91|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.91
82363482|NCT01546142|164438007|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.983|||<|0.001|TWO_SIDED|95.0|2.311|3.849|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (that there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||3.849|2.311|<0.001
82363483|NCT01546142|164438008|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|6.271|||<|0.001|TWO_SIDED|95.0|2.908|13.52|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center.|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|The primary analysis was satisfied if both null hypotheses (that there is no treatment difference in 1-grade or 2-grade response rate) were rejected in favor of the two-tailed alternative at the 0.05 level of significance for both primary efficacy endpoints, and the response rates were higher for the deoxycholic acid injection treatment group than the placebo group. Because both hypotheses must be rejected, the type I error was preserved when testing the primary endpoints.||13.520|2.908|<0.001
82363484|NCT01546142|164438009|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|7.838|||<|0.001|TWO_SIDED|95.0|3.299|18.622|||Cochran-Mantel-Haenszel|CMH method stratified by pooled study center|A risk ratio greater than 1 favors deoxycholic acid injection treatment, and between 0 and 1 favors placebo.|If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||18.622|3.299|<0.001
82363485|NCT01546142|164438010|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model included treatment and Baseline PR-SMFIS total scale score.||If both primary endpoints were statistically significant, testing continued to the 2 secondary endpoints using the Bonferroni-Holm method. The smaller of the 2 p-values for the treatment difference was tested at the 0.025 level. If significant, testing proceeded for the remaining secondary endpoint at the 0.05 level. If the smaller p-value was \> 0.025, the null hypothesis for the associated variable would not be rejected, and testing of the second endpoint would not proceed.||||<0.001
82363486|NCT00441350|164438011|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82363487|NCT00441350|164438012|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
82363488|NCT00441350|164438013|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
82363489|NCT00441350|164438014|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
82392170|NCT02100670|164495246|SUPERIORITY_OR_OTHER||LS mean difference|1.03||||0.9279|TWO_SIDED|95.0|-21.27|23.33||P-value from multiple comparisons using t-test in Proc Mixed|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||23.33|-21.27|0.9279
82426285|NCT00934921|164561661|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.1||||||90.0|91.2|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|91.2|
82527686|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.87|||<|0.001|TWO_SIDED|95.0|0.49|1.24||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.24|0.49|<0.001
82642356|NCT04035694|164999963|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.72|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.72
82527687|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|1.27|||<|0.001|TWO_SIDED|95.0|0.89|1.65||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.65|0.89|<0.001
82527688|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.004|TWO_SIDED|95.0|0.15|0.76||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.76|0.15|0.004
82527689|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.44|1.19||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.19|0.44|<0.001
82527690|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.92|||<|0.001|TWO_SIDED|95.0|0.54|1.31||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.31|0.54|<0.001
82527691|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.28||||0.084|TWO_SIDED|95.0|-0.04|0.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.04|0.084
82527692|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.65||||0.001|TWO_SIDED|95.0|0.27|1.03||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.03|0.27|0.001
82363490|NCT02597582|164438044|NON_INFERIORITY_OR_EQUIVALENCE|"A previous study found that the mean operation time was 165 minutes for patients undergoing LigaSure vessel sealing system-assisted total laryngectomy plus neck dissection and 195 minutes for those receiving conventional hemostasis.~With a difference in operative duration of 30 minutes between the two groups,9 the estimated sample size needed to demonstrate a two-sided significance level of 0.05 with 80% power should be at least 18 participants in each treatment arm."||||||0.022|||||||t-test, 2 sided|||||||0.022
82363491|NCT02597582|164438045|NON_INFERIORITY_OR_EQUIVALENCE|As above||||||0.266|||||||t-test, 2 sided|||||||0.266
82363492|NCT02597582|164438046|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.06|||||||t-test, 2 sided|||||||0.060
82363493|NCT02597582|164438048|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.524|||||||t-test, 2 sided|||||||0.524
82363494|NCT02597582|164438049|NON_INFERIORITY_OR_EQUIVALENCE|as above||||||0.037|||||||Wilcoxon (Mann-Whitney)|||||||0.037
82363495|NCT02065713|164438050|SUPERIORITY||||||=|0.026|||||||Wilcoxon (Mann-Whitney)|||||||=0.026
82363496|NCT00619359|164438068|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates (Fosaprepitant minus Aprepitant), calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥7 percentage points, fosaprepitant was considered at least as effective as aprepitant for Complete Response in the overall phase. Study had 90% power to detect non-inferiority for this outcome measure.|Risk Difference (RD)|-0.4|STANDARD_ERROR_OF_MEAN|3.7||||95.0|-4.1|3.3||||||||3.3|-4.1|
82363497|NCT00619359|164438069|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates, calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥7.3 percentage points, fosaprepitant was considered at least as effective as aprepitant for Complete Response in the delayed phase.|Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.6||||95.0|-3.5|3.7||||||||3.7|-3.5|
82363498|NCT00619359|164438070|NON_INFERIORITY_OR_EQUIVALENCE|If the CI for the difference in response rates, calculated using the methodology of Miettinen and Nurminen, had a lower limit ≥8.2 percentage points, fosaprepitant was considered at least as effective as aprepitant for No Vomiting in the overall phase.|Risk Difference (RD)|-1.7|STANDARD_ERROR_OF_MEAN|3.6||||95.0|-5.3|2.0||||||||2.0|-5.3|
82363499|NCT01043926|164438098|NON_INFERIORITY_OR_EQUIVALENCE|"AUC(0-∞) GMR = AUC(0-∞) GM for Moderate Hepatic Insufficiency Participants ÷ AUC(0-∞) GM for Healthy Participants~A 90% CI for the AUC(0-∞) GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the upper limit bound of the 90% CI for the AUC(0-∞) GMR fell below 2.00, then the hypothesis would be met and the AUC(0-∞) of suvorexant would be similar in both groups of participants. That is, if the true ratio of the GM AUC(0-∞) is no more than 2.00."|AUC(0-∞) Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.74|1.43|||ANCOVA|||"The geometric mean (GM) for each participant group and the corresponding 95% confidence interval (CI) were calculated for AUC(0-∞) using an analysis of covariance (ANCOVA) model.~The AUC(0-∞) geometric mean ratio (GMR) of the 2 participant groups was used to test the primary hypothesis, which was that the AUC(0-∞) of suvorexant following a single 20-mg oral dose would be similar between participants with moderate hepatic insufficiency and healthy matched control participants."||1.43|0.74|
82363500|NCT01043926|164438099|NON_INFERIORITY_OR_EQUIVALENCE|"Cmax GMR = Cmax GM for Moderate Hepatic Insufficiency Participants ÷ Cmax GM for Healthy Participants~A 90% CI for the Cmax GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the upper limit bound of the 90% CI for the Cmax GMR fell below 2.00, then the hypothesis would be met and the Cmax of suvorexant would be similar in both groups of participants. That is, if the true ratio of the geometric mean Cmax is no more than 2.00."|Cmax Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.68|1.29|||ANCOVA|||"The GM for each participant group and the corresponding 95% CI were calculated for Cmax using an ANCOVA model.~The Cmax GMR of the 2 participant groups was used to test the primary hypothesis, which was that the Cmax of suvorexant following a single 20-mg oral dose would be similar between participants with moderate hepatic insufficiency and healthy matched control participants."||1.29|0.68|
82527693|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.54|1.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.32|0.54|<0.001
82392171|NCT02100670|164495246|SUPERIORITY_OR_OTHER||LS mean difference|-10.81||||0.3442|TWO_SIDED|95.0|-33.26|11.64||P-value from multiple comparisons using t-test in Proc Mixed.|ANCOVA|Least squares (LS) means from mixed model analysis of covariance with treatment, site as fixed effects, pain intensity at baseline as a covariates.|Difference of LS mean of first named treatment minus second named treatment. Lower values of LS mean favours a better response because of lower pain intensity over time. 95% Confidence intervals of difference between LS means.|||11.64|-33.26|0.3442
82392172|NCT02100670|164495251|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.1||||0.5404|TWO_SIDED|95.0|0.81|1.48||P-value from chi-square test of survival analysis|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.48|0.81|0.5404
82392173|NCT02100670|164495251|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|0.9||||0.4639|TWO_SIDED|95.0|0.67|1.2||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.20|0.67|0.4639
82392174|NCT02100670|164495251|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.09||||0.5118|TWO_SIDED|95.0|0.84|1.43||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.43|0.84|0.5118
82392175|NCT02100670|164495252|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|0.93||||0.6918|TWO_SIDED|95.0|0.67|1.31||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.31|0.67|0.6918
82392176|NCT02100670|164495252|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.23||||0.2389|TWO_SIDED|95.0|0.87|1.73||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.73|0.87|0.2389
82392177|NCT02100670|164495252|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.0||||0.9817|TWO_SIDED|95.0|0.74|1.37||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to reach perceptible pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||1.37|0.74|0.9817
82392178|NCT02100670|164495253|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.06||||0.7003|TWO_SIDED|95.0|0.79|1.43||P-value from chi-square test of survival analysis|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.43|0.79|0.7003
82527694|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.38||||0.02|TWO_SIDED|95.0|0.06|0.69||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|0.06|0.020
82575085|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.78|||||TWO_SIDED|95.0|0.6|1.02|||ANOVA|||Polio Type 1 (Post-vaccination GMT; group ratio LA3:LA4)||1.02|0.6|
82392179|NCT02100670|164495253|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.01||||0.9565|TWO_SIDED|95.0|0.75|1.35||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.35|0.75|0.9565
82392180|NCT02100670|164495253|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.07||||0.6216|TWO_SIDED|95.0|0.82|1.4||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to cooling sensation. The 95% confidence intervals of cox proportional hazard ratio.|||1.40|0.82|0.6216
82444274|NCT05432167|164597024|SUPERIORITY||Mean Difference (Final Values)|-8.08|STANDARD_ERROR_OF_MEAN|2.676||0.003|TWO_SIDED|95.0|-13.36|-2.79|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-2.79|-13.36|0.003
82444275|NCT05432167|164597025|SUPERIORITY||Mean Difference (Final Values)|-7.22|STANDARD_ERROR_OF_MEAN|3.051||0.019|TWO_SIDED|95.0|-13.24|-1.19|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-1.19|-13.24|0.019
82527695|NCT01216163|164751442|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.005|TWO_SIDED|95.0|0.17|0.94||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.94|0.17|0.005
82392181|NCT02100670|164495257|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|2.43||||0.0408|TWO_SIDED|95.0|1.04|5.7||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||5.70|1.04|0.0408
82527696|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.84|||<|0.001|TWO_SIDED|95.0|0.4|1.28||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.28|0.40|<0.001
82527697|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.27||||0.148|TWO_SIDED|95.0|-0.1|0.63||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.63|-0.10|0.148
82575086|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.83|||||TWO_SIDED|95.0|0.63|1.09|||ANOVA|||Polio Type 2 (Post-vaccination GMT; group ratio LA3:LA4)||1.09|0.63|
82575087|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.59|1.11|||ANOVA|||Polio Type 3 (Post-vaccination GMT; group ratio LA3:LA4)||1.11|0.59|
82575088|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.76|1.19|||ANOVA|||Hepatitis B (Post-vaccination GMT; group ratio LA3:LA4)||1.19|0.76|
82575089|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|1.07|||||TWO_SIDED|95.0|0.83|1.37|||ANOVA|||HIb (Post-vaccination GMC; group ratio LA3:LA4)||1.37|0.83|
82642357|NCT04035694|164999964|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.07
82527698|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.57||||0.011|TWO_SIDED|95.0|0.13|1.02||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.02|0.13|0.011
82575090|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.68|0.95|||ANOVA|||PnC 4 (Post-vaccination GMT; group ratio LA3:LA4)||0.95|0.68|
82575091|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.87|||||TWO_SIDED|95.0|0.67|1.14|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA3:LA4)||1.14|0.67|
82363501|NCT02598895|164438124|OTHER|||||||||||||||||The primary efficacy endpoint was percent patients achieving PSA decline of 50% or more from baseline (PSA50), assessed in the time prior to disease progression, unacceptable toxicity or 1 year after the last study medication. The historical comparison was PSA50 of 26%. The target response rate was 60%. The study followed an optimal two-stage Simon design (Simon, 1989) where the null hypothesis that the true PSA response rate PSA50 was 0.26 was tested against a one-sided alternative.|See above|||
82363502|NCT01192399|164438126|OTHER||||||<|0.0001|||||||Sign test|||||||<0.0001
82363503|NCT02691741|164438142|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.0193|||TWO_SIDED|90.0|-0.093|-0.029||||||||-0.029|-0.093|
82527699|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.34|||<|0.001|TWO_SIDED|95.0|1.68|2.99||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.99|1.68|<0.001
82363504|NCT02691741|164438143|SUPERIORITY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.0193||0.002|TWO_SIDED|90.0|-0.093|-0.029|||Repeated Measures Analysis of Variance|||||-0.029|-0.093|0.002
82363505|NCT02691741|164438144|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.0157|||TWO_SIDED|95.0|-0.019|0.043||||||||0.043|-0.019|
82575092|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.83|||||TWO_SIDED|95.0|0.69|1.0|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA3:LA4)||1|0.69|
82426286|NCT00934921|164561662|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|95.2||||||90.0|88.8|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|88.8|
82426287|NCT00934921|164561663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|95.9||||||90.0|89.5|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|89.5|
82426288|NCT03781479|164561674|OTHER||Mean Difference (Net)|0.792||||0.0083|TWO_SIDED|95.0|0.22|1.37|||Mixed Models Analysis||Results show the LSMeans for the estimated difference between treatments along with a 95% confidence interval for this difference.|A mixed effects liner model was fit with the HFMSE change from baseline (CFB) scores at Day 28 as a response and treatment, sequence, and treatment by sequence as fixed effect terms and patient as a random effect.||1.37|0.22|0.0083
82426289|NCT00404248|164561677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.9|ONE_SIDED||||||t-test, 2 sided|||||||0.9
82426290|NCT00404248|164561678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.4||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.6
82426291|NCT00404248|164561679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.8|TWO_SIDED||||||t-test, 2 sided|||||||0.8
82575093|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.84||||||95.0|0.67|1.05|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA3:LA4)||1.05|0.67|
82575094|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.62|0.9|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA3:LA4)||0.9|0.62|
82363506|NCT02691741|164438144|SUPERIORITY|||||||0.455|||||||Repeated Measures Analysis of Variance|||||||0.455
82363507|NCT02691741|164438145|NON_INFERIORITY|Non-inferiority is demonstrated if the upper confidence limit of the two-sided 90% confidence interval on the treatment difference is less than 0.1 logMAR unit.|Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.0168|||TWO_SIDED|90.0|-0.078|-0.023||||||||-0.023|-0.078|
82363508|NCT02691741|164438145|SUPERIORITY|||||||0.003|||||||Repeated Measures Analysis of Variance|||||||0.003
82363509|NCT02139124|164438152|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.675|TWO_SIDED|95.0|-6.6|2.6||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo."||2.6|-6.6|0.6750
82363510|NCT02139124|164438152|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.0013|TWO_SIDED|95.0|-11.5|-2.2||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo||-2.2|-11.5|0.0013
82363511|NCT02139124|164438152|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.672|TWO_SIDED|95.0|-6.8|2.7||The model includes terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo"||2.7|-6.8|0.6720
82363512|NCT02139124|164438152|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.0002|TWO_SIDED|95.0|-12.9|-3.2||The model include terms for treatment and baseline Clinician ADHD-5-RS score as a covariate.|ANCOVA|Analyses utilize ANCOVA models with Dunnett's adjustments for multiple pairwise comparisons for each active dose group with placebo.||"The null hypothesis is the mean Clinician ADHD-5-RS total score at Visit 6 is not different between the active treatment and placebo"||-3.2|-12.9|0.0002
82363513|NCT03291041|164438181|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|34.75||||0.0354|TWO_SIDED||||||ANCOVA|||||||0.0354
82363514|NCT03291041|164438182|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-0.63||||0.0168|TWO_SIDED||||||ANCOVA|||||||0.0168
82363515|NCT03291041|164438183|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|90.56||||0.0785|TWO_SIDED||||||ANCOVA|||||||0.0785
82363516|NCT03291041|164438184|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|78.45||||0.0225|TWO_SIDED||||||ANCOVA|||||||0.0225
82363517|NCT03291041|164438185|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|0.95||||0.0198|TWO_SIDED||||||ANCOVA|||||||0.0198
82363518|NCT03291041|164438186|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-26.55||||0.0347|TWO_SIDED||||||ANCOVA|||||||0.0347
82363519|NCT03291041|164438187|SUPERIORITY|LS mean and p-value are from ANCOVA with treatment and time-zone-shift as main effects and baseline value as a covariate.|Mean Difference (Net)|-56.44||||0.084|TWO_SIDED||||||ANCOVA|||||||0.0840
82363520|NCT03291041|164438188|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0765|TWO_SIDED||||||ANCOVA|||||||0.0765
82363521|NCT04184999|164438189|SUPERIORITY||F-Statistic|207.4|||<|0.01|TWO_SIDED||||||ANOVA|||||||<.01
82527700|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.071|TWO_SIDED|95.0|-0.04|1.03||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.03|-0.04|0.071
82392182|NCT02100670|164495257|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.31||||0.4507|TWO_SIDED|95.0|0.65|2.65||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||2.65|0.65|0.4507
82527701|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|1.84|||<|0.001|TWO_SIDED|95.0|1.19|2.5||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.50|1.19|<0.001
82527702|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|3.37|||<|0.001|TWO_SIDED|95.0|2.67|4.06||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.06|2.67|<0.001
82392183|NCT02100670|164495257|SUPERIORITY_OR_OTHER||Cox proportional hazard ratio|1.38||||0.315|TWO_SIDED|95.0|0.73|2.61||P-value from chi-square test of survival analysis.|chi-square test of survival analysis||Cox proportional hazard ratio of survival time, i.e. time to complete pain relief. The 95% confidence intervals of cox proportional hazard ratio.|||2.61|0.73|0.3150
82527703|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.77||||0.008|TWO_SIDED|95.0|0.2|1.33||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.33|0.20|0.008
82527704|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||<|0.001|TWO_SIDED|95.0|1.91|3.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.30|1.91|<0.001
82527705|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||<|0.001|TWO_SIDED|95.0|2.92|4.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.43|2.92|<0.001
82392184|NCT03036098|164495266|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0032|TWO_SIDED|95.0|0.64|0.97|||Log Rank|Stratified weighted log-rank test||||0.97|0.64|0.0032
82527706|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.69||||0.028|TWO_SIDED|95.0|0.07|1.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.30|0.07|0.028
82527707|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.24|3.74||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.74|2.24|<0.001
82527708|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|3.75|||<|0.001|TWO_SIDED|95.0|2.9|4.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.59|2.90|<0.001
82527709|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.82||||0.02|TWO_SIDED|95.0|0.13|1.51||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.51|0.13|0.020
82392185|NCT03036098|164495273|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0018|TWO_SIDED|95.0|0.59|0.88|||Log Rank|Stratified weighted log-rank test||||0.88|0.59|0.0018
82527710|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.93|||<|0.001|TWO_SIDED|95.0|2.09|3.77||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.77|2.09|<0.001
82527711|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|3.38|||<|0.001|TWO_SIDED|95.0|2.46|4.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.30|2.46|<0.001
82392186|NCT03036098|164495274|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0171|TWO_SIDED|95.0|0.63|0.96|||Log Rank|Stratified weighted log-rank test||||0.96|0.63|0.0171
82392187|NCT02059434|164495279|SUPERIORITY_OR_OTHER||Least squares mean difference|0.104|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.06|0.149||All statistical comparisons were two-sided hypothesis tests, and the significance level was set at 0.05 without multiplicity adjustment|ANCOVA|||Change from baseline to trough FEV1 was analyzed by means of an analysis of covariance (ANCOVA) for cross-over designs with sequence, treatment group and period as fixed effect factors, subject within sequence as random effect, and screening and baseline FEV1 value of each period as covariates||0.149|0.060|<0.0001
82392188|NCT02059434|164495279|SUPERIORITY_OR_OTHER||Least squares mean difference|0.178|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.133|0.223||All statistical comparisons were two-sided hypothesis tests, and the significance level was set at 0.05 without multiplicity adjustment|ANCOVA|||Change from baseline to trough FEV1 was analyzed by means of an analysis of covariance (ANCOVA) for cross-over designs with sequence, treatment group and period as fixed effect factors, subject within sequence as random effect, and screening and baseline FEV1 value of each period as covariates||0.223|0.133|<0.0001
82392189|NCT04281784|164495319|SUPERIORITY||Risk Difference (RD)|0.0421||||0.027|TWO_SIDED|95.0|0.0047|0.0777||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Occurrence of discussion regressed on randomization condition, adjusted for ADRD status, hospital, and time between study start \& randomization date.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.0777|0.0047|0.027
82392190|NCT04281784|164495321|SUPERIORITY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.246||0.75|TWO_SIDED|95.0|-0.56|0.404|||Regression, Linear|Outcome (days alive and out of ICU) regressed on Arm/Group (0=usual care, 1=intervention), adjusted for hospital and ADRD status|Robust (HC3) standard error|Superior outcome for Group 2||0.404|-0.560|0.750
82392191|NCT04281784|164495322|SUPERIORITY||Median Difference (Final Values)|-0.361|STANDARD_ERROR_OF_MEAN|0.357||0.312|TWO_SIDED|95.0|-1.06|0.338|||Regression, Linear|Outcome (days alive and out of hospital) regressed on Arm/Group (0=usual care, 1=intervention), adjusted for hospital and ADRD status|Robust (HC3) standard error|Superior outcome for Group 2||0.338|-1.060|0.312
82392192|NCT04281784|164495323|SUPERIORITY||Risk Difference (RD)|0.012||||0.475|TWO_SIDED|95.0|-0.02|0.043||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Readmission (0, 1) regressed on randomization condition (0=usual care, 1=intervention), adjusted for ADRD status, and hospital site.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.043|-0.020|0.475
82642358|NCT04035694|164999965|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.1||0.56|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.56
82642359|NCT04035694|164999966|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.17
82363522|NCT00545688|164438190|SUPERIORITY_OR_OTHER||Difference in Response rates|16.82||||0.0094|TWO_SIDED|95.0|3.5|30.1||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||30.1|3.5|0.0094
82527712|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|1.01||||0.009|TWO_SIDED|95.0|0.26|1.76||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.76|0.26|0.009
82527713|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||<|0.001|TWO_SIDED|95.0|1.46|3.3||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.30|1.46|<0.001
82575095|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.75|1.1|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA3:LA4)||1.1|0.75|
82363523|NCT00545688|164438190|SUPERIORITY_OR_OTHER|||||||0.0141|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0141
82392193|NCT04281784|164495324|SUPERIORITY||Risk Difference (RD)|-0.009||||0.61|TWO_SIDED|95.0|-0.043|0.025||two-sided test, no adjustment for multiple comparisons|Regression, Linear|ICU care (0,1) regressed on randomization condition (0=usual care, 1=intervention), adjusted for ADRD status, and hospital site.|Robust standard error|Usual care = reference group; intervention arm = comparison group||0.025|-0.043|0.610
82392194|NCT04281784|164495325|SUPERIORITY|Higher cost indicates worse outcome. Missing if cost data unavailable from Finance Office.|Slope|0.022|STANDARD_ERROR_OF_MEAN|0.058||0.71|TWO_SIDED|95.0|-0.092|0.135|||other type of regression|Generalized linear model (gamma family, log link); Outcome on study arm (0=control, 1=intervention) adjusted for hospital and ADRD status, robust SEs.|Robust standard error|Superior outcome for Group 2||0.135|-0.092|0.710
82642360|NCT04035694|164999967|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.89|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.89
82363524|NCT00545688|164438190|SUPERIORITY_OR_OTHER||Difference in Response rates|-12.15||||0.0198|TWO_SIDED|95.0|-23.8|-0.5||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||-0.5|-23.8|0.0198
82363525|NCT00545688|164438190|SUPERIORITY_OR_OTHER|||||||0.0198|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0198
82527714|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|3.24|||<|0.001|TWO_SIDED|95.0|2.3|4.19||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.19|2.30|<0.001
82363526|NCT00545688|164438190|SUPERIORITY_OR_OTHER||Difference in Response rates|-21.84||||0.001|TWO_SIDED|95.0|-35.1|-8.5||Cochran-Mantel-Haenszel test stratified by breast cancer type (operable, locally advanced, or inflammatory) and estrogen and or progesterone positivity (either positive versus both negative).|Cochran-Mantel-Haenszel|||||-8.5|-35.1|0.0010
82363527|NCT00545688|164438190|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value from Cochran-Mantel-Haenszel test, with Simes multiplicity adjustment.|Cochran-Mantel-Haenszel|||||||0.0030
82363528|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.2983|TWO_SIDED|95.0|0.34|1.4|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||1.40|0.34|0.2983
82363529|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.4722|TWO_SIDED|95.0|0.68|2.3|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||2.30|0.68|0.4722
82363530|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.05||||0.0268|TWO_SIDED|95.0|1.07|3.93|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|PFS||3.93|1.07|0.0268
82363531|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1805|TWO_SIDED|95.0|0.28|1.27|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||1.27|0.28|0.1805
82363532|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.5901|TWO_SIDED|95.0|0.42|1.64|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||1.64|0.42|0.5901
82363533|NCT00545688|164438205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.16||||0.025|TWO_SIDED|95.0|1.08|4.32|||Cochran-Mantel-Haenszel||HR is based on Cox proportional hazard regression stratified by breast cancer type and hormone positivity.|DFS||4.32|1.08|0.0250
82363534|NCT00107042|164438250|SUPERIORITY_OR_OTHER|||||||0.2954|||||||Fisher Exact|||The study wasn't powered to compare the 2 arms but to detect a large difference. A quantitative antibody (a'body) response was measured, but for sample size and power considerations, the outcome was considered to be binary. The primary analysis involved straightforward computation of point estimates and exact confidence intervals of immunogenicity in each arm. The data for primary analysis used the Intent-to-Treat for subjects who were vaccinated at least once. Missing titers were not imputed.||||0.2954
82363535|NCT00107042|164438250|SUPERIORITY_OR_OTHER||Response Rate|87.23|||||TWO_SIDED|95.0|74.26|95.17|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Recombivax arm is presented here."||95.17|74.26|
82363536|NCT00107042|164438250|SUPERIORITY_OR_OTHER||Response Rate|94.55|||||TWO_SIDED|95.0|84.88|98.86|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the 'Twinrix arm is presented here."||98.86|84.88|
82363537|NCT00107042|164438251|SUPERIORITY_OR_OTHER|||||||0.0608|||||||Wilcoxon (Mann-Whitney)|||Analysis included an assessment of quantitative titer values in each of the two arms using confidence intervals and examining the frequency distributions of the titers in each arm. Transformations were considered (log10) for the titers based on the distributional properties observed in the sample, with the goal of attaining approximate normality of the transformed data.||||0.0608
82363538|NCT00107042|164438251|SUPERIORITY_OR_OTHER||Mean response|2.29|||||TWO_SIDED|95.0|2.05|2.53|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Recombivax arm is presented here."||2.53|2.05|
82363539|NCT00107042|164438251|SUPERIORITY_OR_OTHER||Response rate|2.58|||||TWO_SIDED|95.0|2.4|2.76|||95% confidence interval|||"Two-sided confidence intervals (CI) were calculated for both the Recombivax and Twinrix arms. The CI for the Twinrix arm is presented here."||2.76|2.40|
82363540|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.2455|STANDARD_ERROR_OF_MEAN|0.1757||0.1667|||||||Regression, Linear|||This is a regression analysis for testing the effect of treatment arm (Recombivax vs. Twinrix) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.1667
82392195|NCT04281784|164495326|SUPERIORITY||Risk Difference (RD)|0.487|STANDARD_ERROR_OF_MEAN|0.899||0.588|TWO_SIDED|95.0|-1.275|2.249||two-sided test, no adjustment for multiple comparisons|Regression, Linear|Died within 30 days after randomization regressed on randomization condition (0=usual care, 1=intervention) adjusted for hospital and ADRD status|Robust standard error|Usual care=reference group; intervention arm = comparison group||2.249|-1.275|0.588
82392196|NCT04281784|164495327|SUPERIORITY|Higher cost indicates worse outcome. Missing if cost data unavailable from Finance Office.|Slope|-0.028|STANDARD_ERROR_OF_MEAN|0.069||0.685|TWO_SIDED|95.0|-0.162|0.107|||other type of regression|Generalized linear model (gamma family, log link); Outcome on study arm (0=control, 1=intervention) adjusted for hospital and ADRD status, robust SEs.|Robust standard error|Superior outcome for Group 2||0.107|-0.162|0.685
82392197|NCT02111746|164495328|SUPERIORITY|||||||0.934|||||||Wilcoxon (Mann-Whitney)|||||||0.934
82392198|NCT02111746|164495329|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
82392199|NCT02111746|164495330|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82392200|NCT02111746|164495331|SUPERIORITY|||||||0.512|||||||Wilcoxon (Mann-Whitney)|||||||0.512
82392201|NCT02111746|164495332|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
82392202|NCT02111746|164495333|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82392203|NCT02111746|164495334|SUPERIORITY|||||||0.774|||||||Wilcoxon (Mann-Whitney)|||||||0.774
82392204|NCT02111746|164495335|SUPERIORITY|||||||0.188|||||||Wilcoxon (Mann-Whitney)|||||||0.188
82527715|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|1.08||||0.006|TWO_SIDED|95.0|0.31|1.85||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.85|0.31|0.006
82527716|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.16|||<|0.001|TWO_SIDED|95.0|1.22|3.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.10|1.22|<0.001
82527717|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.47|||<|0.001|TWO_SIDED|95.0|1.51|3.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.43|1.51|<0.001
82527718|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.7||||0.08|TWO_SIDED|95.0|-0.09|1.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.49|-0.09|0.080
82527719|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|1.77|||<|0.001|TWO_SIDED|95.0|0.81|2.73||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.73|0.81|<0.001
82527720|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|1.41|3.37||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.37|1.41|<0.001
82527721|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|0.85||||0.037|TWO_SIDED|95.0|0.05|1.65||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.65|0.05|0.037
82527722|NCT01216163|164751443|SUPERIORITY_OR_OTHER||LS mean difference|1.54||||0.002|TWO_SIDED|95.0|0.57|2.52||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.52|0.57|0.002
82527723|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||<|0.001|TWO_SIDED|95.0|1.88|2.88||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.88|1.88|<0.001
82527724|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.007|TWO_SIDED|95.0|0.15|0.97||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.97|0.15|0.007
82363541|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficent|-0.0025|STANDARD_ERROR_OF_MEAN|0.1792||0.989||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of site effect(Other sites vs. Baltimore) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.9890
82527725|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|1.82|||<|0.001|TWO_SIDED|95.0|1.32|2.32||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.32|1.32|<0.001
82527726|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|3.67|||<|0.001|TWO_SIDED|95.0|2.85|4.49||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.49|2.85|<0.001
82527727|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|0.98||||0.004|TWO_SIDED|95.0|0.31|1.66||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.66|0.31|0.004
82363542|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coeffcient|0.2053|STANDARD_ERROR_OF_MEAN|0.1885||0.2796||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of age(15 - 17 year old particpants vs. 12 - 14 year old participants) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2796
82363543|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regresssion coeffcient|-0.4726|STANDARD_ERROR_OF_MEAN|0.1734||0.008||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of gender(Females vs. Males) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0080
82363544|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.2189|STANDARD_ERROR_OF_MEAN|0.1905||0.2543||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Hispanic ethnicity (Not Hispanic vs. Hispanic) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2543
82363545|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.2994|STANDARD_ERROR_OF_MEAN|0.3292||0.3661||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of racial background(White vs. Other/Mixed vs. Black/African American) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between White vs. Other/Mixed Race is presented.||||0.3661
82527728|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|2.69|||<|0.001|TWO_SIDED|95.0|1.87|3.51||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.51|1.87|<0.001
82527729|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|6.8|||<|0.001|TWO_SIDED|95.0|4.96|8.64||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||8.64|4.96|<0.001
82527730|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|2.09||||0.007|TWO_SIDED|95.0|0.59|3.59||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.59|0.59|0.007
82527731|NCT01216163|164751444|SUPERIORITY_OR_OTHER||LS mean difference|4.71|||<|0.001|TWO_SIDED|95.0|2.87|6.54||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||6.54|2.87|<0.001
82575096|NCT00474526|164859799|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of two-sided 95% CI for the ratio of pertussis GMCs (GMCLA3 / GMCLA4) must be greater than 0.67; the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3 / GMCLA4) or GMTs (poliovirus antigens) for the other antigens must be greater than 0.50.|Ratio of GMCs|0.88|||||TWO_SIDED|95.0|0.69|1.12|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA3:LA4)||1.12|0.69|
82363546|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.0083|STANDARD_ERROR_OF_MEAN|0.3497||0.9812||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of racial background(White vs. Other/Mixed vs. Black/African American) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between White vs. Black/African American is presented.||||0.9812
82363547|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0663|STANDARD_ERROR_OF_MEAN|0.2314||0.7766||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Tanner Stage for Females(Stage 5 vs. Stages 1 - 4) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.7766
82363548|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.2929|STANDARD_ERROR_OF_MEAN|0.2508||0.2492||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Tanner Stage for Males(Stage 5 vs. Stages 1 - 4) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.2492
82575097|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.2|4.4|||ANOVA|||Diphtheria (Seroconversion percentage difference (PLA1 - PLA2))||4.4|-2.2|
82575098|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-1.9|2.6|||ANOVA|||Tetanus (Seroconversion percentage difference (PLA1 - PLA2))||2.6|-1.9|
82363549|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coeffcient|-0.316|STANDARD_ERROR_OF_MEAN|0.1826||0.0877||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of BMI at Baseline(Normal and Underweight (\<25.0) vs. Overweight and Obsese (\>= 25.0)) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0877
82363550|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0292|STANDARD_ERROR_OF_MEAN|0.0113||0.0117||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of BMI at Baseline(continuous variable) on vaccine response as measured in log10 titers.||||0.0117
82363551|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0578|STANDARD_ERROR_OF_MEAN|0.2163||0.7899||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of smokng cigarettes(Never Smoked vs. Has Smoked) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.7899
82392205|NCT02111746|164495336|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
82392206|NCT02729038|164495342|OTHER||Ratio of geometric LS means|1.507|||||TWO_SIDED|90.0|0.902|2.519|||||AUC (0-inf) for participants with normal renal function Vs participants with moderate renal function has been presented.|||2.519|0.902|
82527732|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|3.81|||<|0.001|TWO_SIDED|95.0|3.05|4.57||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.57|3.05|<0.001
82392207|NCT02729038|164495342|OTHER||Ratio of geometric LS means|1.924|||||TWO_SIDED|90.0|1.151|3.215|||||AUC (0-inf) for participants with normal renal function Vs participants with Severe/ESRD not on hemodialysis|||3.215|1.151|
82392208|NCT02729038|164495343|OTHER||Ratio of geometric LS means|2.375|||||TWO_SIDED|90.0|1.421|3.969|||||AUC (0-inf) for participants with normal renal function Vs ESRD on hemodialysis (before hemodialysis)|||3.969|1.421|
82363552|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.5339|STANDARD_ERROR_OF_MEAN|0.2803||0.0607||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of sexual identity(Straight (heterosexual) vs. Gay (homosexual), Bi (bisexual), and Not Sure or Undecided) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0607
82363553|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3883|STANDARD_ERROR_OF_MEAN|0.2779||0.167||95.0|||||Regression, Linear|||"This is a regression analysis for testing the effect of age at which the subject first had unforced sex (Never vs. \<= 14 year olds vs. 15-17 year olds) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between never vs. \<= 14 year olds is presented."||||0.1670
82363554|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.0344|STANDARD_ERROR_OF_MEAN|0.2065||0.8682||95.0|||||Regression, Linear|||"This is a regression analysis for testing the effect of age at which subject had first unforced sex (Never vs. \<= 14 year olds vs. 15 - 17 year olds) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between never vs. 15-17 year olds is presented."||||0.8682
82363555|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.1532|STANDARD_ERROR_OF_MEAN|0.1896||0.4219||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of total number of lifetime sex partners (0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.4219
82363556|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.7752|STANDARD_ERROR_OF_MEAN|0.242||0.002||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.0020
82363557|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.2921|STANDARD_ERROR_OF_MEAN|0.2086||0.1659||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Male Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.1659
82363558|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-1.6163|STANDARD_ERROR_OF_MEAN|0.2839||0||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Male Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.0000
82392209|NCT02729038|164495343|OTHER||Ratio of geometric LS means|4.075|||||TWO_SIDED|90.0|2.438|6.81|||||AUC (0-inf) for participants with normal renal function Vs ESRD on hemodialysis (after hemodialysis)|||6.810|2.438|
82392210|NCT02729038|164495344|OTHER||Ratio of geometric LS means|1.179|||||TWO_SIDED|90.0|0.467|2.977|||||Cmax for participants with normal renal function Vs participants with moderate renal function has been presented.|||2.977|0.467|
82392211|NCT02729038|164495344|OTHER||Ratio of geometric LS means|1.575|||||TWO_SIDED|90.0|0.624|3.975|||||Cmax for participants with normal renal function Vs .participants with Severe/ESRD not on hemodialysis|||3.975|0.624|
82392212|NCT02729038|164495345|OTHER||Ratio of geometric LS means|2.25|||||TWO_SIDED|90.0|0.891|5.681|||||Cmax for participants with normal renal function Vs ESRD on hemodialysis (before hemodialysis)|||5.681|0.891|
82392213|NCT02729038|164495345|OTHER||Ratio of geometric LS means|5.966|||||TWO_SIDED|90.0|2.363|15.062|||||Cmax for participants with normal renal function Vs ESRD on hemodialysis (after hemodialysis)|||15.062|2.363|
82392214|NCT02729038|164495367|OTHER||Ratio of geometric LS means|1.501|||||TWO_SIDED|90.0|0.894|2.52|||||Normal Vs Moderate|||2.520|0.894|
82392215|NCT02729038|164495367|OTHER||Ratio of geometric LS means|1.912|||||TWO_SIDED|90.0|1.139|3.212|||||Normal Vs Severe/ESRD not on hemodialysis|||3.212|1.139|
82392216|NCT02729038|164495368|OTHER||Ratio of geometric LS means|2.375|||||TWO_SIDED|90.0|1.414|3.989|||||Normal Vs ESRD on hemodialysis (before hemodialysis)|||3.989|1.414|
82392217|NCT02729038|164495368|OTHER||Ratio of geometric LS means|4.068|||||TWO_SIDED|90.0|2.422|6.831|||||Normal Vs ESRD on hemodialysis (after hemodialysis)|||6.831|2.422|
82392218|NCT02901275|164495404|SUPERIORITY|||||||0.61||||||No covariate or correction for multiple comparisons. a priori statistical threshold is p\<.05|Mixed Models Analysis|||||||0.61
82392219|NCT02901275|164495405|SUPERIORITY||||||<|0.0001||||||No covariates or correction for multiple comparisons. a priori threshold is p\<.05.|Mixed Models Analysis|||||||<.0001
82392220|NCT02901275|164495406|SUPERIORITY|||||||0.51||||||No covariate or correction for multiple comparisons. a priori threshold for significance is p\<.05|Mixed Models Analysis|||||||0.51
82392221|NCT01210495|164495471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907||||0.2872|TWO_SIDED|95.0|0.646|1.274||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio less than (\<) 1 indicated reduction in hazard rate to favor Axitinib; hazard ratio greater than (\>) 1 indicated reduction to favor Placebo.|The study was designed to test the null hypothesis that the true median OS was 5 months vs. the alternative hypothesis that the true median OS was at least 8.3 months (i.e., 66 percent \[%\] improvement in median OS).||1.274|0.646|0.2872
82392222|NCT01210495|164495472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.618||||0.0039|TWO_SIDED|95.0|0.438|0.871||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio \<1 indicated a reduction in hazard rate in favor of Axitinib; a hazard ratio \>1 indicated a reduction in favor of Placebo.|||0.871|0.438|0.0039
82444276|NCT05432167|164597026|SUPERIORITY||Mean Difference (Final Values)|-8.99|STANDARD_ERROR_OF_MEAN|3.098||0.004|TWO_SIDED|95.0|-15.1|-2.87|||Mixed Models Analysis|||The analysis was performed using a mixed-effect model for repeated measures including fixed effects for treatment, visit, stratification variables (SGLT2 inhibitor use and CKD category), and the treatment-by-visit interaction, along with a covariate of the baseline seated SBP value and the baseline seated SBP by visit interaction.||-2.87|-15.10|0.004
82363559|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.1788|STANDARD_ERROR_OF_MEAN|0.2463||0.4701||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Female Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. 1-5 partners is presented.||||0.4701
82363560|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|0.1083|STANDARD_ERROR_OF_MEAN|0.3488||0.7572||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of Total Number of Female Lifetime Sex Partners(0 partners vs. 1-5 partners vs. \>= 6 partners) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups. In this statistical analysis, information for the comparison between 0 partners vs. \>= 6 partners is presented.||||0.7572
82363561|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.0307|STANDARD_ERROR_OF_MEAN|0.1809||0.8657||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever drank alcohol (No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.8657
82363562|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3548|STANDARD_ERROR_OF_MEAN|0.2076||0.0917||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever smoked marijuana(No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.0917
82392223|NCT01210495|164495473|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.172||||0.0914|TWO_SIDED|95.0|0.759|13.265||ORR for the 2 treatment arms was compared with a significance level of 0.025 using Cochran-Mantel-Haenszel (CMH) test for stratified analyses.|Cochran-Mantel-Haenszel||Risk ratio and confidence interval (CI) were based on the Mantel-Haenszel estimator; risk ratio was adjusted for geographical region and vascular invasion and extra hepatic spread.|||13.265|0.759|0.0914
82392224|NCT01210495|164495474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.621||||0.006|TWO_SIDED|95.0|0.434|0.889||For the overall stratified analysis the p-value is from a 1-sided log-rank test of treatment stratified by tumor invasion and geographic region.|Log Rank||Assuming proportional hazards, a hazard ratio \<1 indicated a reduction in hazard rate in favor of Axitinib; a hazard ratio \>1 indicated a reduction in favor of Placebo.|||0.889|0.434|0.006
82392225|NCT01210495|164495476|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.65||||0.0025|TWO_SIDED|95.0|1.319|5.326||For the overall stratified analysis the p-value is from Cochran-Mantel-Haenszel test of treatment stratified by geographical region and vascular invasion and extra hepatic spread.|Cochran-Mantel-Haenszel||Risk Ratio and CI based on the Mantel-Haenszel estimator; risk ratio was adjusted for geographical region and vascular invasion and extra hepatic spread.|||5.326|1.319|0.0025
82392226|NCT01210495|164495485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.89||||0.0006|TWO_SIDED|95.0|-18.7|-5.08||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-5.08|-18.70|0.0006
82392227|NCT01210495|164495486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6||||0.0014|TWO_SIDED|95.0|-12.27|-2.94||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-2.94|-12.27|0.0014
82392228|NCT01210495|164495487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27|||<|0.0001|TWO_SIDED|95.0|-4.76|-1.78||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.78|-4.76|<0.0001
82392229|NCT01210495|164495488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.21||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G PWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-2.21|-5.26|<0.0001
82444277|NCT02690649|164597032|SUPERIORITY||estimated adherence rate for the interve|94.0||||0.28|TWO_SIDED|95.0|92.0|95.0|||Regression, Linear|||estimated adherence rate for the intervention group Generalized linear models were used to test the effect of the intervention on medication adherence. These generalized linear models used a Poisson distribution to estimate the rate of adherence with the log of total prescribed doses as an offset term in the linear predictor.||95|92|0.28
82444278|NCT02690649|164597033|SUPERIORITY||||||<|0.001||||||A negative binomial distribution because the outcome was a count variable and it was over-dispersed.|Regression, Linear|Age, previous patient portal logins, and gender were used as co-variates in the model.||||||<0.001
82392230|NCT01210495|164495488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||0.1642|TWO_SIDED|95.0|-3.07|0.52||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G SWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.52|-3.07|0.1642
82392231|NCT01210495|164495488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.4759|TWO_SIDED|95.0|-1.8|0.84||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G EWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.84|-1.80|0.4759
82392232|NCT01210495|164495488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07||||0.0288|TWO_SIDED|95.0|-3.92|-0.21||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis presented above is for FACT-G FWB. Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-0.21|-3.92|0.0288
82392233|NCT01210495|164495489|SUPERIORITY||Mean Difference (Final Values)|-4.96||||0.0011|TWO_SIDED|95.0|-7.93|-1.99||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.99|-7.93|0.0011
82444279|NCT02690649|164597034|SUPERIORITY||Slope|-0.61||||0.03|TWO_SIDED|95.0|-1.14|-0.07||baseline AF knowledge, gender, age, and educational level were all used as co-variates.|Regression, Linear|generalized linear model tested whether AF knowledge at study completion was related to baseline AF knowledge, gender, age, and educational level||||-0.07|-1.14|0.03
82363563|NCT00107042|164438254|SUPERIORITY_OR_OTHER||Regression coefficient|-0.3474|STANDARD_ERROR_OF_MEAN|0.3924||0.3788||95.0|||||Regression, Linear|||This is a regression analysis for testing the effect of whether a subject ever used drugs not prescribed(No vs. Yes) on vaccine response as measured in log10 titers. The null hypothesis is no difference between groups.||||0.3788
82363564|NCT00107042|164438255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54||||0.2068|TWO_SIDED|95.0|0.6|10.76|||Univariate regression, logistic||The reference group is the 'Recombivax' group.|||10.76|0.60|0.2068
82363565|NCT00107042|164438256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.5524|TWO_SIDED|95.0|0.38|6.01|||Univariate regression, logistic||The reference group is the 'Other Sites' group.|||6.01|0.38|0.5524
82363566|NCT00107042|164438257|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.4646|TWO_SIDED|95.0|0.36|9.36|||Univariate regression, logistic||The reference group is the '15-17 year' age group|||9.36|0.36|0.4646
82363567|NCT00107042|164438258|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.339|TWO_SIDED|95.0|0.09|2.3|||Univariate regression, logistic||The reference group is the 'Female' group.|||2.30|0.09|0.3390
82363568|NCT00107042|164438259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.86||||0.0102|TWO_SIDED|95.0|1.58|29.78|||Univariate regression, logistic||The reference group is the 'Hispanic: NO' group.|||29.78|1.58|0.0102
82363569|NCT00107042|164438259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.38||||0.0118|TWO_SIDED|95.0|1.56|34.95||Since Hispanic (no, yes) was a factor with a p-value of \< 0.15 in the unadjusted univariate regression analysis, it was entered into the initial full multivariate model.|Multivariate regression, logistic||"The reference group is the Hispanic: NO group."|||34.95|1.56|0.0118
82363570|NCT00107042|164438260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.4241|TWO_SIDED|95.0|0.04|3.84|||Univariate regression, logistic||The reference group is the 'White' group.|||3.84|0.04|0.4241
82363571|NCT00107042|164438260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12||||0.2685|TWO_SIDED|95.0|0.34|50.76|||Univariate regression, logistic||The reference group is the 'White' group.|||50.76|0.34|0.2685
82392234|NCT01210495|164495490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.45|||<|0.0001|TWO_SIDED|95.0|-15.49|-5.42||No adjustment made for multiple comparisons.|Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-5.42|-15.49|<0.0001
82527733|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|0.76||||0.016|TWO_SIDED|95.0|0.14|1.38||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.38|0.14|0.016
82363572|NCT00107042|164438261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.939|TWO_SIDED|95.0|0.05|15.44|||Univariate regression, logistic||The reference group is the 'Stage 5' group.|||15.44|0.05|0.9390
82392235|NCT01210495|164495491|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.252||||0.9182|TWO_SIDED|95.0|0.923|1.698||The p-value is from a 1-sided log-rank test.|1-sided, unstratified log-rank test||Assuming proportional hazards, a hazard ratio \<1 indicates reduction in hazard rate to favor Axitinib, hazard ratio \>1 indicates reduction to favor Placebo.|||1.698|0.923|0.9182
82363573|NCT00107042|164438262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.6181|TWO_SIDED|95.0|0.3|7.39|||Univariate regression, logistic||"The reference group is the Stage 5 group."|||7.39|0.30|0.6181
82363574|NCT00107042|164438263|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.1943|TWO_SIDED|95.0|0.1|1.6|||Univariate regression, logistic||"The reference group is the Normal and Underweight (\<25.0) group."|||1.60|0.10|0.1943
82363575|NCT00107042|164438264|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.2542|TWO_SIDED|95.0|0.1|1.86|||Univariate regression, logistic||"The reference group is the Ever smoked cigarettes: NO group."|||1.86|0.10|0.2542
82363576|NCT00107042|164438265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.14||||0.0161|TWO_SIDED|95.0|0.03|0.69|||Univariate regression, logistic||"The reference group is the Straight (heterosexual) group."|||0.69|0.03|0.0161
82363577|NCT00107042|164438265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12||||0.0222|TWO_SIDED|95.0|0.02|0.74||Since sexual identity was a factor with a p-value of \< 0.15 in the unadjusted univariate regression analysis, it was entered into the initial full multivariate model.|Multivariate regression, logistic||"The reference group is the Straight (heterosexual) group."|||0.74|0.02|0.0222
82363578|NCT00107042|164438266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8945|TWO_SIDED|95.0|0.12|11.83|||Univariate regression, logistic||"The reference group is the Never (had sex)group."|||11.83|0.12|0.8945
82363579|NCT00107042|164438266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12||||0.019|TWO_SIDED|95.0|0.02|0.7|||Univariate regression, logistic||"The reference group is the Never (had sex) group."|||0.70|0.02|0.0190
82363580|NCT00107042|164438267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||0.0042|TWO_SIDED|95.0|0.01|0.48|||Univariate regression, logistic||"The reference group is the 0 partners group"|||0.48|0.01|0.0042
82363581|NCT00107042|164438267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.6893||95.0|||||Univariate regression, Logistic||"The reference group is the 0 partners group.~Two sided 95% confidence interval: Lower Limit = 0.17; upper limit = infinity"|||||0.6893
82363582|NCT00107042|164438268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.015||||0.0003|TWO_SIDED|95.0|0.0|0.19|||Univariate regression, logistic||"The reference group is hte 0 Partners group."|||0.19|0.00|0.0003
82363583|NCT00107042|164438268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||1|TWO_SIDED|95.0|0.0|10.01|||Univariate regression, Logistic||"The reference group is the 0 Partners group"|||10.01|0.00|1.0000
82363584|NCT00107042|164438269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.5503|TWO_SIDED|95.0|0.05|4.86|||Univariate regression, logistic||"The reference group is the 0 Partners group"|||4.86|0.05|0.5503
82363585|NCT00107042|164438269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8904|TWO_SIDED|95.0|0.13|10.46|||Univariate Regression, Logistic||"The reference group is the 0 Partners group."|||10.46|0.13|0.8904
82363586|NCT00107042|164438270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.301|TWO_SIDED|95.0|0.12|1.92|||Univariate regression, logistic||"The reference group is the Ever drank alcohol: NO group."|||1.92|0.12|0.3010
82392236|NCT01210495|164495492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.0024|TWO_SIDED|95.0|-0.2|-0.04|||Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-0.04|-0.20|0.0024
82444280|NCT00530920|164597043|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.43||||0.997|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||0.997
82444281|NCT00530920|164597043|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.55||||1|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||1
82444282|NCT00530920|164597043|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.47||||0.998|||||||Wilcoxon (Mann-Whitney)|||NULL HYPOTHESIS (H0): Median viral load reduction from baseline \>1.2 log10 copies/mL within each group||||0.998
82444283|NCT01302054|164597083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-2.63|-2.02||Statistical testing: one-sided, at alpha = 0.025.|t-test, 1 sided|||||-2.02|-2.63|<0.0001
82363587|NCT00107042|164438271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.0501|TWO_SIDED|95.0|0.06|1.0|||Univariate regression, logistic||"The reference group is the Ever smoked marijuana: NO group."|||1.00|0.06|0.0501
82444284|NCT01302054|164597084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0079|TWO_SIDED|95.0|-0.87|-0.13||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used. Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Multiple hypothesis testing was carried out in a hierarchical sequentially rejective manner. Statistical testing between fesoterodine and placebo (Analysis of covariance \[ANCOVA\]) was carried out only if the change from baseline at Week 12 in UUI episodes for fesoterodine group was found statistically significant (paired t-test).||-0.13|-0.87|0.0079
82444285|NCT01302054|164597085|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0931|TWO_SIDED|95.0|-0.86|0.07||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||0.07|-0.86|0.0931
82444286|NCT01302054|164597086|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.34||0.0438|TWO_SIDED|95.0|-1.37|-0.02||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||-0.02|-1.37|0.0438
82444287|NCT01302054|164597087|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change at Week 12: the p-value was obtained from a Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country.|Cochran-Mantel-Haenszel|||||||<0.0001
82444288|NCT01302054|164597088|SUPERIORITY_OR_OTHER|||||||0.0095|TWO_SIDED|||||Change at Week 12: the p-value was obtained from a Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country.|Cochran-Mantel-Haenszel|||||||0.0095
82444289|NCT01302054|164597089|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.34|STANDARD_ERROR_OF_MEAN|1.91||0.0001|TWO_SIDED|95.0|-11.1|-3.58||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||-3.58|-11.10|0.0001
82363588|NCT00107042|164438272|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.3846|TWO_SIDED|95.0|0.04|3.61|||Univariate regression, logistic||"The reference group is the Ever used drugs not prescribed: NO group."|||3.61|0.04|0.3846
82363589|NCT00107042|164438273|SUPERIORITY_OR_OTHER|||||||0.3827||95.0|||||Fisher Exact|||||||0.3827
82363590|NCT00107042|164438273|SUPERIORITY_OR_OTHER||Responding Rate|81.08|||||TWO_SIDED|95.0|68.84|92.04|||||Response rate=Total number subjects responded/Total number subjects in arm|||92.04|68.84|
82444290|NCT01302054|164597090|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|9.01|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|5.12|12.91||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Concern Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||12.91|5.12|<0.0001
82363591|NCT00107042|164438273|SUPERIORITY_OR_OTHER||Responding Rate|88.0|||||TWO_SIDED|95.0|75.69|95.47|||||Response rate=Total number subjects responded/Total number subjects in arm|||95.47|75.69|
82363592|NCT00107042|164438274|SUPERIORITY_OR_OTHER||Responding rate|98.08|||||TWO_SIDED|95.0|89.74|99.95||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95% CI|||||99.95|89.74|
82444291|NCT01302054|164597090|SUPERIORITY_OR_OTHER||LS Mean Difference|7.75|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|3.87|11.62||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Coping Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||11.62|3.87|<0.0001
82444292|NCT01302054|164597090|SUPERIORITY_OR_OTHER||LS Mean Difference|6.52|STANDARD_ERROR_OF_MEAN|2.0||0.0012|TWO_SIDED|95.0|2.6|10.45||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Sleep Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||10.45|2.60|0.0012
82444293|NCT01302054|164597090|SUPERIORITY_OR_OTHER||LS Mean Difference|4.13|STANDARD_ERROR_OF_MEAN|1.64||0.0123|TWO_SIDED|95.0|0.9|7.36||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Social Interaction Subscale - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||7.36|0.90|0.0123
82444294|NCT01302054|164597090|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|1.77|<|0.0001|TWO_SIDED|95.0|3.63|10.57||Statistical testing: one-sided, at alpha = 0.025.|ANCOVA|||Total HRQL - Change at Week 12: ANCOVA model with terms for treatment and country with centered baseline value as a covariate was used.||10.57|3.63|<0.0001
82444295|NCT01302054|164597091|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||The p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0023
82363593|NCT00107042|164438275|SUPERIORITY_OR_OTHER||Responding Rate|91.49||||||95.0|79.62|97.63||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95 % confidence interval|||||97.63|79.62|
82363594|NCT00107042|164438276|SUPERIORITY_OR_OTHER||Responding Rate %|98.11|||||TWO_SIDED|95.0|89.93|99.95||A p-value has not been entered because there is only one study arm in this analysis.|Exact 95% confidence interval||"For overall response, if a subject is reactive at either 1-month or 12-month, then the overall response is considered Positive. If a subject is non-reactive at both 1-month and 12-month, then the overall response for this subject is Negative."|||99.95|89.93|
82363595|NCT00107042|164438277|SUPERIORITY_OR_OTHER|||||||0.2938||95.0|||||Fisher Exact|||||||0.2938
82392237|NCT01210495|164495493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.03||||0.0193|TWO_SIDED|95.0|-12.91|-1.15|||Longitudinal mixed effect analysis|||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||-1.15|-12.91|0.0193
82392238|NCT00767039|164495503|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).|t-test, 2 sided|||Respiratory support were compared using a t-test for individual time points and Generalized Linear Model to account for correlations among repeated measures. Patient who survive \>/= 3 days were included in the analysis.||||< 0.05
82392239|NCT00767039|164495504|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.43|||<|0.05|TWO_SIDED|95.0|0.19|0.95|||Mantel Haenszel|||||0.95|0.19|<0.05
82392240|NCT00767039|164495505|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
82392241|NCT00767039|164495506|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|||<|0.05|TWO_SIDED|95.0|0.25|0.96|||Mantel Haenszel|||||0.96|0.25|<0.05
82392242|NCT00767039|164495507|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.38|||<|0.01|TWO_SIDED|95.0|1.29|4.38|||Mantel Haenszel|||||4.38|1.29|<0.01
82392243|NCT00767039|164495508|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
82392244|NCT00767039|164495509|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
82392245|NCT00767039|164495510|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Tested null hypothesis. T-test and Generalized Linear Model was used to assess respiratory support parameters (mean airway pressure and percent fraction of inspiratory oxygen x mean airway pressure).||||<0.05
82392246|NCT00767039|164495511|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
82392247|NCT00767039|164495512|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.44|||>|0.05|TWO_SIDED|95.0|0.71|2.89|||Mantel Haenszel|||||2.89|0.71|>0.05
82392248|NCT00767039|164495513|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||>|0.05|TWO_SIDED|90.0|0.84|2.63|||Mantel Haenszel|||||2.63|0.84|>0.05
82392249|NCT00640653|164495525|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.67||||0.03|TWO_SIDED|95.0|0.48|0.96||The significance criterion was set at alpha = .05.|generalized linear regression|Log link was specified|Treatment was coded as 1 vs health control coded as 0.|With alpha = .05, 2-tailed, and 37.4% of the control group initiating sexual intercourse by 24-month follow-up, a total sample size of 563 participants completing the trial was projected to provide power of 80% to detect a difference of 16.8% in self-reported sexual intercourse between an HIV intervention condition and the health promotion control condition.||0.96|0.48|.03
82444296|NCT01302054|164597092|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||The p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0027
82527734|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|3.04|||<|0.001|TWO_SIDED|95.0|2.29|3.8||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.80|2.29|<0.001
82392250|NCT01472757|164495530|SUPERIORITY|||||||0.013|||||||ANCOVA|||||||0.013
82392251|NCT01472757|164495530|SUPERIORITY||||||<|0.001||||||Calculated p-value was less than 0.001.|ANCOVA|||||||<0.001
82392252|NCT01472757|164495530|SUPERIORITY||||||<|0.001||||||Calculated p-value was less than 0.001.|ANCOVA|||||||<0.001
82392253|NCT01472757|164495531|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
82392254|NCT01472757|164495531|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
82392255|NCT01472757|164495531|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
82392256|NCT01472757|164495532|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82392257|NCT01472757|164495532|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82392258|NCT01472757|164495532|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
82392259|NCT00628095|164495563|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0221||||0.591|TWO_SIDED|90.0|-0.17|0.13|||Normal Approximation method|No adjustments for multiple comparisons were performed.|Power of 80% and a Type I error at 0.10 in a 1-sided test was calculated. Null hypothesis stated that there was no difference between the CE-224,535 and placebo arm groups, on the percentage of ACR 20 responders at Week 12.|Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.13|-0.17|0.591
82392260|NCT00628095|164495564|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.1232||||0.941|TWO_SIDED|80.0|-0.22|-0.02|||Normal Approximation method|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||-0.02|-0.22|0.941
82392261|NCT00628095|164495564|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0622||||0.742|TWO_SIDED|80.0|-0.18|0.05|||Normal Approximation method|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.05|-0.18|0.742
82392262|NCT00628095|164495564|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.004||||0.482|TWO_SIDED|80.0|-0.11|0.12|||Normal Approximation method|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.12|-0.11|0.482
82444297|NCT01302054|164597093|SUPERIORITY_OR_OTHER|||||||0.0427|TWO_SIDED|||||Treatment difference at Week 4: p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.0427
82444298|NCT01302054|164597093|SUPERIORITY_OR_OTHER|||||||0.1461|TWO_SIDED|||||Treatment difference at Week 12: p-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test and stratified by country.|Cochran-Mantel-Haenszel|||||||0.1461
82392263|NCT00628095|164495565|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0072||||0.989|TWO_SIDED|80.0|-0.08|0.06|||Barnard exact test|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.06|-0.08|0.989
82392264|NCT00628095|164495565|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.0096||||0.957|TWO_SIDED|80.0|-0.08|0.07|||Barnard exact test|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.07|-0.08|0.957
82392265|NCT00628095|164495565|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0044||||0.473|TWO_SIDED|80.0|-0.08|0.09|||Normal Approximation method|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.09|-0.08|0.473
82392266|NCT00628095|164495565|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-0.057||||0.793|TWO_SIDED|80.0|-0.15|0.03|||Normal Approximation method|||Week 12: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the normal approximation method.||0.03|-0.15|0.793
82392267|NCT00628095|164495566|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0377||||0.121|TWO_SIDED|80.0|0.0|0.09|||Barnard exact test|||Week 2: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.09|-0.00|0.121
82527735|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|5.9|||<|0.001|TWO_SIDED|95.0|4.66|7.15||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.15|4.66|<0.001
82527736|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|1.35||||0.01|TWO_SIDED|95.0|0.33|2.37||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.37|0.33|0.010
82527737|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|4.56|||<|0.001|TWO_SIDED|95.0|3.31|5.8||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.80|3.31|<0.001
82363596|NCT00107042|164438277|SUPERIORITY_OR_OTHER||Responding Rate %|85.37|||||TWO_SIDED|95.0|70.83|94.43|||95 % confidence interval|||||94.43|70.83|
82363597|NCT00107042|164438277|SUPERIORITY_OR_OTHER||Responding Rate %|93.62|||||TWO_SIDED|95.0|82.46|98.66|||95% confidence interval|||||98.66|82.46|
82363598|NCT03919448|164438279|EQUIVALENCE|The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test-to-reference ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|101.55||||0.9766|TWO_SIDED|90.0|90.19|114.34||Power of ANOVA: 0,93|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||114.34|90.19|0.9766
82575099|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-7.7|7.1|||ANOVA|||PT (Seroconversion percentage difference (PLA1 - PLA2))||7.1|-7.7|
82363599|NCT03919448|164438279|EQUIVALENCE|The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test-to-reference ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|100.95||||0.9766|TWO_SIDED|90.0|89.75|113.55||Power of ANOVA: 0,93|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||113.55|89.75|0.9766
82392268|NCT00628095|164495566|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0141||||0.421|TWO_SIDED|80.0|-0.05|0.07|||Barnard exact test|||Week 4: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.07|-0.05|0.421
82392269|NCT00628095|164495566|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0566||||0.058|TWO_SIDED|80.0|0.01|0.12|||Barnard exact test|||Week 8: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.12|0.01|0.058
82392270|NCT00628095|164495566|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|0.0377||||0.121|TWO_SIDED|80.0|0.0|0.09|||Barnard exact test|||Week 12: Treatment effect was estimated by the difference of percentages between the treatment groups, and tested using the Barnard exact test.||0.09|-0.00|0.121
82392271|NCT00628095|164495574|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 2: p-value was analyzed using Barnard Exact Test.||||1.0000
82392272|NCT00628095|164495574|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 4: p-value was analyzed using Barnard Exact Test.||||1.0000
82392273|NCT00628095|164495574|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Barnard exact test|||Week 8: p-value was analyzed using Barnard Exact Test.||||1.0000
82392274|NCT00628095|164495574|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED||||||Barnard exact test|||Week 12: p-value was analyzed using Barnard Exact Test.||||0.0637
82392275|NCT00628095|164495574|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0637|TWO_SIDED||||||Barnard exact test|||Week 14: p-value was analyzed using Barnard Exact Test.||||0.0637
82392276|NCT00478699|164495585|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.73|TWO_SIDED|95.0|0.689|1.298|||Log Rank|||Based on the relevant clinical evidence of the prognostic and predictive value of BRCA1, proposes the present study with which it is intended to demonstrate that adjuvant chemotherapy Individualized based on BRCA1 expression (Experimental arm), it is more effective than chemotherapy without individualize based (Control arm) in patients with completely resected stage II-IIIA NSCLC.||1.298|0.689|0.73
82392277|NCT00478699|164495586|SUPERIORITY||Median Difference (Final Values)|79.3||||0.753|TWO_SIDED|95.0|63.5|95.1|||Log Rank|||Control Arm v Experimental Arm||95.1|63.5|0.753
82363600|NCT03919448|164438279|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area Under the Serum Concentration-time Curve of Bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|100.59||||0.9766|TWO_SIDED|90.0|88.16|114.77|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||114.77|88.16|0.9766
82363601|NCT03919448|164438280|EQUIVALENCE|The comparable bioavailability was achieved if 90% confidence intervals (CIs) for the test to reference ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|90.82||||0.3617|TWO_SIDED|90.0|81.21|101.57||Power of ANOVA: 0,95|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||101.57|81.21|0.3617
82363602|NCT03919448|164438280|EQUIVALENCE|The comparable bioavailability was achieved if 90% confidence intervals (CIs) for the test to reference ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|94.87||||0.3617|TWO_SIDED|90.0|84.91|105.99||Power of ANOVA: 0.95|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||105.99|84.91|0.3617
82392278|NCT00478699|164495586|SUPERIORITY|The initial hyphotesis were the disease free survival were longest under 65 vs upper 65.|Median Difference (Final Values)|38.7||||0.025|TWO_SIDED|95.0|28.0|38.7|||Log Rank|||Control Arm v Experimental Arm||38.7|28|0.025
82392279|NCT01005888|164495588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Observed number of attacks.|ANOVA|||||||<0.0001
82392280|NCT01005888|164495588|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Normalized number of attacks.|ANOVA|||||||<0.0001
82392281|NCT01005888|164495589|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||Period 1.|Fisher Exact|||||||>0.999
82392282|NCT01005888|164495589|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0||||Period 2.|Fisher Exact|||||||>0.999
82392283|NCT01005888|164495590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0008
82392284|NCT01005888|164495591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
82575100|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-9.2|5.8|||ANOVA|||FHA(Seroconversion percentage difference (PLA1 - PLA2))||5.8|-9.2|
82392285|NCT01005888|164495592|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82392286|NCT01005888|164495593|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82392287|NCT01005888|164495594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Visit 1 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82392288|NCT01005888|164495594|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 4 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82392289|NCT01005888|164495594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0||||Week 8 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0001
82392290|NCT01005888|164495594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0||||Week 12 change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0028
82392291|NCT01005888|164495595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Visit 1 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82392292|NCT01005888|164495595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 4 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82392293|NCT01005888|164495595|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Week 8 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82392294|NCT01005888|164495595|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||Week 12 percent change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0002
82392295|NCT01043705|164495596|SUPERIORITY_OR_OTHER||One sided Fisher's exact test.|0.0044||||0.0023|ONE_SIDED|95.0||0.009|||Fisher Exact|||||0.009||0.0023
82392296|NCT01043705|164495596|SUPERIORITY_OR_OTHER||1-sided Fisher's Exact Text|0.002||||0.0052|ONE_SIDED|95.0||0.01|||Fisher Exact|||||0.01||0.0052
82392297|NCT01043705|164495596|SUPERIORITY_OR_OTHER||1-sided Fisher's Exact Test|0.006||||0.0176|ONE_SIDED|95.0||0.014|||Fisher Exact|||||0.014||0.0176
82392298|NCT01043705|164495596|SUPERIORITY_OR_OTHER||Fisher's Exact Test|0.7||||0.3764|TWO_SIDED|95.0|||||Fisher Exact|||||||0.3764
82392299|NCT01043705|164495597|SUPERIORITY_OR_OTHER||Rate compared to performance goal|4.4||||0.0005|TWO_SIDED|95.0|3.3|5.8|||1-sided Chi-square|||||5.8|3.3|0.0005
82392300|NCT01043705|164495597|SUPERIORITY_OR_OTHER||Rate compared to a performance goal|3.1||||0.0444|TWO_SIDED|95.0|1.7|5.1|||1-sided Chi-square test|||||5.1|1.7|0.0444
82392301|NCT01043705|164495597|SUPERIORITY_OR_OTHER||rate compared to performance goal|5.4||||0.0006|TWO_SIDED|95.0|3.8|5.4|||1-sided Chi-squared test|||All types of mechanical complications combined.||5.4|3.8|0.0006
82392302|NCT01043705|164495597|SUPERIORITY_OR_OTHER||Descriptive|5.4||||0.0745|TWO_SIDED|95.0|3.7|7.5|||Chi-squared|||All mechanical complications, retrospective, non-TYRX cohort||7.5|3.7|0.0745
82392303|NCT02635542|164495598|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
82392304|NCT02635542|164495599|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82392305|NCT01260272|164495622|SUPERIORITY_OR_OTHER||||||=|0.033||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.033
82392306|NCT01260272|164495623|SUPERIORITY_OR_OTHER||||||=|0.0468||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.0468
82392307|NCT01260272|164495624|SUPERIORITY_OR_OTHER||||||=|0.2114||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.2114
82363603|NCT03919448|164438280|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|95.73||||0.3617|TWO_SIDED|90.0|84.82|108.05|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||108.05|84.82|0.3617
82363604|NCT03919448|164438281|EQUIVALENCE|80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|90.46||||0.3529|TWO_SIDED|90.0|80.64|101.47||Power of ANOVA: 0.94|ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||101.47|80.64|0.3529
82527738|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|10.88|||<|0.001|TWO_SIDED|95.0|8.05|13.7||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||13.70|8.05|<0.001
82527739|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|2.87||||0.015|TWO_SIDED|95.0|0.57|5.18||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.18|0.57|0.015
82527740|NCT01216163|164751445|SUPERIORITY_OR_OTHER||LS mean difference|8.0|||<|0.001|TWO_SIDED|95.0|5.18|10.83||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||10.83|5.18|<0.001
82527741|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|6.19|||<|0.001|TWO_SIDED|95.0|4.96|7.43||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.43|4.96|<0.001
82363605|NCT03919448|164438281|EQUIVALENCE|80.00-125.00% acceptance criteria.|Hazard Ratio (HR)|95.02||||0.3529|TWO_SIDED|90.0|84.8|106.49||Power of ANOVA: 0.94|ANOVA|||||106.49|84.80|0.3529
82363606|NCT03919448|164438281|EQUIVALENCE|As supplementary information, Test Product 1 vs. Test Product 2 shall also be compared. The comparable bioavailability was achieved if 90 % confidence intervals (CIs) for the test1-to-test2 ratios of the geometric means of Cmax, Area under the serum concentration-time curve of bevacizumab (ABC0-t) fell within the 80.00-125.00 % acceptance criteria.|Hazard Ratio (HR)|95.19||||0.3529|TWO_SIDED|90.0|84.17|107.67|||ANOVA|||The null hypothesis (H0) of ANOVA is that there is no difference among group means. The alternate hypothesis (H1) is that at least one group differs significantly from the overall mean of the dependent variable.||107.67|84.17|0.3529
82363607|NCT01221090|164438292|SUPERIORITY_OR_OTHER|||||||0.771||95.0||||A priori threshold for statistical significance is \<0.05|Likelihood Ratio Tests|||We used a multilevel statistical model including time (in days) as a continuous variable, where 0=baseline. The lowest level of the hierarchy was repeated measurements of HbA1c on each subject, with participants themselves constituting the 2nd level. Forward selection was utilized, in which powers of time were added one at a time to the base model including treatment group effects. Interaction terms between time \& treatment effects were added gradually and evaluated with likelihood ratio tests.||||0.771
82363608|NCT01221090|164438293|SUPERIORITY_OR_OTHER|||||||0.2176||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimates.||||||0.2176
82392308|NCT01260272|164495625|SUPERIORITY_OR_OTHER||||||=|0.1727||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.1727
82527742|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|1.33||||0.01|TWO_SIDED|95.0|0.32|2.33||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.33|0.32|0.010
82575101|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-6.0||||||95.0|-12.9|2.2|||ANOVA|||Pertactin (Seroconversion percentage difference (PLA1 - PLA2))||2.2|-12.9|
82575102|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|1.0|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PLA1 - PLA2))||1.0|-4.8|
82363609|NCT01221090|164438294|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||A priori threshold for statistical significance was \<0.05|Fisher Exact|||||||0.572
82363610|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Test blood sugar."||||0.26
82363611|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Test blood sugar the recommended times."||||0.21
82392309|NCT01260272|164495626|SUPERIORITY_OR_OTHER||||||=|0.7498||||||Apriori threshold for statistical significance was \<=0.05|Wilcoxon (Mann-Whitney)|||||||=0.7498
82392310|NCT01260272|164495627|SUPERIORITY_OR_OTHER||||||=|0.2615||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.2615
82392311|NCT01260272|164495628|SUPERIORITY_OR_OTHER||||||=|0.6915||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||=0.6915
82392312|NCT01260272|164495629|SUPERIORITY_OR_OTHER|||||||0.106||||||Apriori threshold for statistical significance was \<=0.05|t-test, 2 sided|||||||0.1060
82363612|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Exercise at least 30 minutes."||||0.53
82363613|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Participate in a specific exercise session."||||0.24
82363614|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Check feet."||||0.18
82363615|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Wash feet."||||0.19
82363616|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Soak feet."||||0.87
82363617|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Dry between toes."||||0.53
82363618|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Inspect inside of shoes."||||0.32
82392313|NCT04601103|164495649|OTHER|Generalized Fisher's Exact Test was used to detect an association between the 3 treatment groups and the incidence of sloughing||||||0.916|||||||Fisher Exact|||||||.916
82392314|NCT04442269|164495666|SUPERIORITY||Mean Difference|0.201||||0.0022|TWO_SIDED|95.0|0.0768|0.3256|||Mixed Models Analysis|||||0.3256|0.0768|0.0022
82392315|NCT01032239|164495740|SUPERIORITY||Hodges-Lehmann|-0.667||||0.014|TWO_SIDED|95.1|-1.0|-0.1667|||Wilcoxon (Mann-Whitney)|||To test the null hypothesis the sample size needed was 44 evaluable patient (22 per arm) with a power of 80 %.||-0.1667|-1.000|0.0140
82392316|NCT01032239|164495741|SUPERIORITY||Hodges-Lehmann|-0.6||||0.0042|TWO_SIDED|95.0|-1.0|-0.2|||Wilcoxon (Mann-Whitney)|||||-0.2000|-1.0000|0.0042
82363619|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Follow healthful eating plan."||||0.37
82363620|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Space carbohydrates."||||0.72
82363621|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat 5+ servings of fruits and vegetables."||||0.59
82363622|NCT01221090|164438295|SUPERIORITY_OR_OTHER||||||<|0.004||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat high-fat foods."||||<0.004
82363623|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Eat packaged foods (e.g., sweets and desserts)."||||0.66
82363624|NCT01221090|164438295|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||A priori threshold for statistical significance is \<0.05|ANOVA|||"This analysis was to compare the average difference in days for the diabetes self-care activity, Followed a healthful eating plan."||||0.68
82363625|NCT01221090|164438296|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust Variance Estimation.||"This analysis was to compare the quality of life measure, Number of days physical health was not good in the past 30 days at the 12 month follow-up visit."||||0.685
82363626|NCT01221090|164438296|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimation.||"This analysis was to compare the quality of life measure, Number of days mental health was not good in the past 30 days at the 12 month follow-up visit."||||0.997
82363627|NCT01221090|164438296|SUPERIORITY_OR_OTHER|||||||0.3067||95.0||||A priori threshold for statistical significance is \<0.05|Regression, Linear|Robust variance estimation.||"This analysis was to compare the quality of life measure, Number of days poor physical/mental health prevented usual activity in the past 30 days at the 12 month follow-up visit."||||0.3067
82392317|NCT01032239|164495742|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||0.0540
82392318|NCT01032239|164495743|SUPERIORITY|||||||0.6256|||||||Wilcoxon (Mann-Whitney)|||||||0.6256
82392319|NCT01032239|164495744|SUPERIORITY|||||||0.3676|||||||Cochran-Mantel-Haenszel|||||||0.3676
82392320|NCT01032239|164495745|SUPERIORITY|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Actual Pain||||0.0380
82392321|NCT01032239|164495745|SUPERIORITY|||||||0.0136|||||||Wilcoxon (Mann-Whitney)|||Least Pain||||0.0136
82392322|NCT01032239|164495745|SUPERIORITY|||||||0.2427|||||||Wilcoxon (Mann-Whitney)|||Worst Pain||||0.2427
82392323|NCT01032239|164495746|SUPERIORITY|||||||0.7661|||||||Fisher Exact|||||||0.7661
82392324|NCT01032239|164495747|SUPERIORITY|||||||0.0197|||||||Wilcoxon (Mann-Whitney)|||Utility Score||||0.0197
82392325|NCT01032239|164495747|SUPERIORITY|||||||0.3807|||||||t-test, 2 sided|||VAS||||0.3807
82392326|NCT01032239|164495748|SUPERIORITY|||||||0.1068|||||||t-test, 2 sided|||PCS||||0.1068
82392327|NCT01032239|164495748|SUPERIORITY|||||||0.6824|||||||t-test, 2 sided|||MCS||||0.6824
82392328|NCT01032239|164495749|SUPERIORITY|||||||0.2105|||||||t-test, 2 sided|||||||0.2105
82392329|NCT03649178|164495781|OTHER|||||||0.55|||||||Mixed Models Analysis|||||||0.55
82392330|NCT03649178|164495782|OTHER|||||||0.76|||||||Mixed Models Analysis|||||||0.76
82392331|NCT03649178|164495783|OTHER|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82392332|NCT05238025|164495790|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|42.9|||||TWO_SIDED|95.0|-16.1|71.9||||||||71.9|-16.1|
82363628|NCT00440466|164438297|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment of -0.3 g/dL between QW and Q2W groups, a pooled standard deviation of 1.5 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 200 subjects (100 per group) would provide 90% power to demonstrate that Q2W group would not inferior to QW group for an overall 2-sided 0.05 significance level.|Difference of Least Squares Means|-0.03|STANDARD_ERROR_OF_MEAN|0.092|||TWO_SIDED|95.0|-0.208|0.153|||ANCOVA|||The null hypothesis was that the lower limit of the 95% confidence interval (CI) for the difference in mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment between the every-2-weeks (Q2W) and once-weekly (QW) groups would be lower than -1 g/dL.||0.153|-0.208|
82363629|NCT00440466|164438297|NON_INFERIORITY_OR_EQUIVALENCE|Under the same assumptions in the sample size calculation for the QW and the Q2W, 100 subjects would be needed for the Q4W. However, because Study EPO-AKD-3001 and the current study both included QW and Q2W groups, the sample size would add up to 200 for each group if combined, the sample size in the Q4W group in the current study was increased to 200 subjects in order to enroll a comparable and sufficiently large number of subjects in each of the 3 extended dosing groups across the 2 studies.|Difference of Least Squares Means|-0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|95.0|-0.249|0.063|||ANCOVA|||The null hypothesis was that the lower limit of the 95% confidence interval (CI) for the difference in mean change in hemoglobin from baseline to the average of the last 12 weeks of treatment between the every-4-weeks (Q4W) and once-weekly (QW) groups would be lower than -1 g/dL.||0.063|-0.249|
82363630|NCT00440466|164438299|SUPERIORITY_OR_OTHER||Difference in percentage of participants|10.9|||||TWO_SIDED|95.0|0.1|21.7|||95% Confidence Interval|||||21.7|0.1|
82363631|NCT00440466|164438299|SUPERIORITY_OR_OTHER||Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-9.1|11.2|||95% of Confidence Interval|||||11.2|-9.1|
82363632|NCT00440466|164438300|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.13|||||TWO_SIDED|95.0|-0.113|0.372|||ANOVA|||||0.372|-0.113|
82363633|NCT00440466|164438300|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.11|||||TWO_SIDED|95.0|-0.098|0.32|||ANOVA|||||0.320|-0.098|
82363634|NCT00440466|164438301|SUPERIORITY_OR_OTHER||Difference in percentage of participants|8.2|||||TWO_SIDED|95.0|-2.0|18.3|||95% of Confidence Interval|||||18.3|-2.0|
82363635|NCT00440466|164438301|SUPERIORITY_OR_OTHER||Difference in percentage of participants|10.3||||||95.0|1.5|19.2|||95% of Confidence Interval|||||19.2|1.5|
82363636|NCT00440466|164438302|SUPERIORITY_OR_OTHER||Difference in percentage of participants|5.7|||||TWO_SIDED|95.0|-7.7|19.1|||95% of Confidence Interval|||||19.1|-7.7|
82392333|NCT05238025|164495791|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if the first primary outcome is met and the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|59.0|||||TWO_SIDED|95.0|34.7|74.3|||||Not formally tested, since the first primary outcome was not met|||74.3|34.7|
82392334|NCT05238025|164495792|OTHER|Vaccine Efficacy (VE) is defined as 1 minus the hazard ratio resulting from a Cox proportional hazards regression model stratified by age group. It is demonstrated if both primary outcomes are met and the lower limit (LL) of the 2-sided 95% confidence interval (CI) for VE is above 20%|Vaccine Efficacy|48.8|||||TWO_SIDED|95.0|25.8|64.7|||||Not formally tested, since the first primary outcome was not met|||64.7|25.8|
82392335|NCT02754674|164495806|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82363637|NCT00440466|164438302|SUPERIORITY_OR_OTHER||Difference in percentage of participants|9.1|||||TWO_SIDED|95.0|-2.5|20.6|||95% of Confidence Interval|||||20.6|-2.5|
82363638|NCT00440466|164438303|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-3.2|||||TWO_SIDED|95.0|-15.8|9.5|||95% of Confidence Interval|||||9.5|-15.8|
82363639|NCT00440466|164438303|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-3.0|||||TWO_SIDED|95.0|-13.9|8.0|||95% of Confidence Interval|||||8.0|-13.9|
82363640|NCT00440466|164438304|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.08||||||95.0|-0.367|0.208|||ANOVA|||||0.208|-0.367|
82363641|NCT00440466|164438304|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.206|0.289|||ANOVA|||||0.289|-0.206|
82363642|NCT03233958|164438338|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.24|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82363643|NCT03233958|164438339|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|5.55|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82363644|NCT03233958|164438340|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.54||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
82363645|NCT03233958|164438341|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.18||||0.076|TWO_SIDED||||||ANOVA|||||||0.076
82363646|NCT03233958|164438342|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|-0.51||||0.147|TWO_SIDED||||||ANOVA|||||||0.147
82363647|NCT03233958|164438343|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|1.07||||0.197|TWO_SIDED||||||ANOVA|||||||0.197
82363648|NCT03233958|164438344|OTHER|Due to the single group, pre-post design, the analysis simply investigated the effect of time.|Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82363649|NCT03095118|164438365|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Proteinuria baseline values compared to 6 month follow up values||||0.001
82363650|NCT03095118|164438366|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Proteinuria baseline values compared to 12 month follow up values||||0.004
82392336|NCT02754674|164495807|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82426292|NCT05788991|164561706|NON_INFERIORITY|Difference of proportions between groups (with 95% CI) and a non inferiority margin of 15 percentage points, assuming a 1-sided α = .025 and 80% power|Farrington-Manning test|-0.5|||<|0.025|ONE_SIDED|95.0|-10.8|||1 sided alpha|Farrington-Manning test|||The outcome measure of the primary objective was a noninferiority margin of 15 percentage points in the absolute difference in clinical cure rates between dequalinium chloride and metronidazole 7 to 11 days after start of treatment.|||-10.8|<.025
82426293|NCT04464473|164561713|SUPERIORITY|||||||0.5736|||||||ANOVA|The main effect of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of MFG efferent connectivity||||||0.5736
82527743|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|4.87|||<|0.001|TWO_SIDED|95.0|3.63|6.1||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||6.10|3.63|<0.001
82527744|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|9.58|||<|0.001|TWO_SIDED|95.0|7.54|11.61||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||11.61|7.54|<0.001
82363651|NCT03095118|164438368|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Serum creatinine baseline values compared to 6 month follow up values||||0.15
82363652|NCT03095118|164438369|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Serum creatinine baseline values comparted to 12 month follow up values||||0.16
82363653|NCT01483625|164438370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0569|STANDARD_ERROR_OF_MEAN|0.055||0.3025|TWO_SIDED|95.0|-0.0516|0.1654|||Mixed effect repeated measures (MMRM)|Fixed effects:treatment,visit,treatment by visit,baseline and baseline by visit. Random:Patient. A spatial power covariance structure was used.||Tiotropium 18 mcg minus Placebo||0.1654|-0.0516|0.3025
82363654|NCT01483625|164438371|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.99|STANDARD_ERROR_OF_MEAN|0.44||0.7823|TWO_SIDED|95.0|0.9053|1.078|||2sample t quantiles with pooled variance|||Comparison Tiotropium 18 mcg Vs Placebo||1.0780|0.9053|0.7823
82363655|NCT01483625|164438372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0099|STANDARD_ERROR_OF_MEAN|0.0806||0.9025|TWO_SIDED|95.0|-0.1489|0.1686||Comparison Tiotropium 18 mcg Vs Placebo at Week 12|Mixed effects repeated measures (MMRM)|Fixed effects:treatment,visit,treatment by visit,baseline and baseline by visit. Patient was random. A spatial power covariance structure was used.||||0.1686|-0.1489|0.9025
82575103|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.6|2.3|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PLA1 - PLA2))||2.3|-4.6|
82363656|NCT01483625|164438375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.061|STANDARD_ERROR_OF_MEAN|3.0115||0.1797|TWO_SIDED|95.0|-10.0157|1.8938|||t-test, 2 sided|95% confidence interval is based on 2 sample t quantiles using pooled variance.||Comparison Tiotropium 18 mcg Vs Placebo Over 12 Weeks||1.8938|-10.0157|0.1797
82363657|NCT00707447|164438389|SUPERIORITY_OR_OTHER||||||<|0.05||||||There was only one primary outcome variable, thus no adjustments for multiple comparisons were made.|t-test, 2 sided|||independent t-tests for between group comparisons, dependent t-tests for within group comparisons||||<.05
82363658|NCT00707447|164438390|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||independent t-tests for between group comparisons, dependent t-tests for within group comparisons||||<.05
82363659|NCT00707447|164438391|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363660|NCT00707447|164438392|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363661|NCT00707447|164438393|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363662|NCT00707447|164438394|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363663|NCT00707447|164438395|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363664|NCT00707447|164438396|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363665|NCT00707447|164438397|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363666|NCT00707447|164438398|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82363667|NCT03208673|164438408|SUPERIORITY||Ratio of Geometric mean|0.5628||||0.001|TWO_SIDED|95.0|0.4395|0.7204|||t-test, 2 sided|||||0.7204|0.4395|.001
82363668|NCT03208673|164438409|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|||Nasal||||0.025
82363669|NCT03208673|164438409|SUPERIORITY|||||||0.312|||||||t-test, 1 sided|||Temporal||||0.312
82363670|NCT03208673|164438410|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Comfort||||<0.001
82363671|NCT03208673|164438410|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Dry||||<0.001
82363672|NCT03208673|164438410|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Gritty||||<0.001
82363673|NCT03208673|164438410|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Vision||||<0.001
82363674|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a responder rate (π) of 63% in the reference group, a clinically relevant delta (Δ) of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.0986|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for treatment.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.0986
82363675|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.5682|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for spasticity pattern.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.5682
82426294|NCT04464473|164561713|SUPERIORITY|||||||0.304|||||||ANOVA|Interaction of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) and subsystem (Temporal, Contextual Control) on the magnitude of MFG efferent connectivity||||||0.304
82426295|NCT04464473|164561713|SUPERIORITY|||||||0.0545|||||||ANOVA|The main effect of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of FPl efferent connectivity||||||0.0545
82642361|NCT04035694|164999968|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.08||0.2|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||.20
82363676|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.8543|TWO_SIDED|5.0|-0.363|0.0284||Based on a generalised linear model including factors for country.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.8543
82527745|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|2.33||||0.006|TWO_SIDED|95.0|0.67|4.0||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - Acetaminophen) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.00|0.67|0.006
82527746|NCT01216163|164751446|SUPERIORITY_OR_OTHER||LS mean difference|7.24|||<|0.001|TWO_SIDED|95.0|5.21|9.28||p-value was calculated using ANOVA model with treatment, baseline PSR, gender and treatment-by-baseline PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Acetaminophen - Placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||9.28|5.21|<0.001
82363677|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|-0.1673||||0.9167|TWO_SIDED|95.0|-0.363|0.0284||Based on a generalised linear model including factors for MAS at Baseline.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0284|-0.3630|0.9167
82363678|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.6052|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for treatment.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.6052
82363679|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.5369|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for spasticity pattern.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.5369
82392337|NCT02754674|164495808|SUPERIORITY|Student's t-test or the Mann-Whitney U-test was used to analyze intergroup differences. The paired t-test or Wilcoxon signed rank test was used to analyze differences between pre- and postoperative values. The statistical significance level was set at .05.|||||>|0.05|||||||t-test, 2 sided|||We used the Kolmogorov-Smirnov test to assess the normality of the data distribution. Student's t-test or the Mann-Whitney U-test was used to analyze intergroup differences. The paired t-test or Wilcoxon signed rank test was used to analyze differences between pre- and postoperative values. Pearson's Chi-square test or Fisher's exact test was used to analyze categorical variables between groups. The statistical significance level was set at .05.||||>0.05
82392338|NCT02754674|164495809|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82392339|NCT02754674|164495810|SUPERIORITY|||||||0.054|||||||t-test, 2 sided|||||||0.054
82392340|NCT02135107|164495819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.||||||<0.001
82392341|NCT02135107|164495820|SUPERIORITY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at a two-sided significance level of alpha = 0.05.||Comparison at Week 12||||<0.001
82392342|NCT02135107|164495820|SUPERIORITY||||||<|0.001|||||||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.||Comparison at Week 24||||<0.001
82392343|NCT02135107|164495821|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|95.0|0.23|0.49|||Log Rank|||||0.49|0.23|<0.001
82392344|NCT02135107|164495822|SUPERIORITY||Group difference|-15.2|||<|0.001|TWO_SIDED|95.0|-23.5|-6.8|||Chi-squared|P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.|Group difference (percentage of participants) = Arm D (percentage of participants) - Arm C (percentage of participants) 95% CI was calculated based on normal approximation.|||-6.8|-23.5|<0.001
82426296|NCT04464473|164561713|SUPERIORITY|||||||0.1134|||||||ANOVA|Interaction of visit (Baseline, FPl-TMS, MFG-TMS, S1-TMS) and Subsystem on the magnitude of FPl efferent connectivity||||||0.1134
82426297|NCT04464473|164561713|SUPERIORITY|||||||0.4326|||||||ANOVA|The main effect of intervention (FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of MFG efferent connectivity||||||0.4326
82642362|NCT04035694|164999969|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.78|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.78
82642363|NCT04035694|164999970|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.41
82392345|NCT02135107|164495825|SUPERIORITY||Group difference|0.0|||=|0.992|TWO_SIDED|95.0|-3.5|3.5||P-value was calculated using chi-square test at two-sided significance level of alpha = 0.05.|Chi-squared||Group difference (percentage of participants) = Arm D (percentage of participants) - Arm C (percentage of participants) 95% CI was calculated based on normal approximation.|||3.5|-3.5|=0.992
82392346|NCT02278120|164495870|SUPERIORITY||Hazard Ratio, log|0.553|||<|1e-07|TWO_SIDED|95.0|0.441|0.694|||Log Rank|||||0.694|0.441|<0.0000001
82392347|NCT02278120|164495871|SUPERIORITY||Cox Proportional Hazard|0.712||||0.00973|TWO_SIDED|95.0|0.535|0.948||One-sided stratified log-rank test|Log Rank|||||0.948|0.535|0.00973
82392348|NCT02278120|164495872|SUPERIORITY|||||||0.00098|||||||Cochran-Mantel-Haenszel|||||||0.000980
82392349|NCT02278120|164495873|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||||||0.002
82392350|NCT03197324|164495880|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Ratio of Geometric LSM|100.4|||||TWO_SIDED|90.0|86.49|116.56|||||Digoxin group is the denominator and Digoxin with Bexagliflozin is the numerator. Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subjects as a random effect.|Geometric LS Mean was used as PK parameters||116.56|86.49|
82363680|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.7732|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for country.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.7732
82363681|NCT01682148|164438411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on a π of 63% in the reference group, a clinically relevant Δ of 17%, α=2.5% (one sided) and power=80%, the sample size estimate yielded 122 valid subjects per group. Including a 10% addition for premature withdrawals, 136 subjects per group were necessary to be randomised in the study (i.e., a total of 272 subjects).|Treatment difference|0.0707||||0.1758|TWO_SIDED|95.0|-0.1948|0.3362||Based on a generalised linear model including factors for MAS at Baseline.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.3362|-0.1948|0.1758
82392351|NCT03197324|164495883|SUPERIORITY|Compare if co-administration of digoxin with bexagliflozin had significant impact on the PK of digoxin|Ratio of Geometric LSM|106.12|||||TWO_SIDED|90.0|95.82|117.53|||||Digoxin group is the denominator and Digoxin with Bexagliflozin is the numerator. Confidence interval from ANOVA with treatment, period, and sequence as fixed effects, and subjects as a random effect.|Geometric LS Mean was used as PK parameters||117.53|95.82|
82392352|NCT01390428|164495908|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|0.73|2.01|||||Mild Hepatic Impairment (HI)/Healthy Matched to Mild HI|Day 1||2.01|0.73|
82392353|NCT01390428|164495908|SUPERIORITY_OR_OTHER||GMR|1.66|||||TWO_SIDED|90.0|1.05|2.61|||||Mild HI/Healthy Matched to Mild HI|Day 10||2.61|1.05|
82392354|NCT01390428|164495908|SUPERIORITY_OR_OTHER||GMR|5.03|||||TWO_SIDED|90.0|2.19|11.56|||||Moderate HI/Healthy Matched to Moderate HI|Day 1||11.56|2.19|
82392355|NCT01390428|164495908|SUPERIORITY_OR_OTHER||GMR|4.82|||||TWO_SIDED|90.0|2.6|8.93|||||Moderate HI/Healthy Matched to Moderate HI|Day 10||8.93|2.60|
82392356|NCT01390428|164495908|SUPERIORITY_OR_OTHER||GMR|19.83|||||TWO_SIDED|90.0|8.11|48.51|||||Severe HI/Healthy Matched to Severe HI|Day 1||48.51|8.11|
82392357|NCT01390428|164495908|SUPERIORITY_OR_OTHER||GMR|11.68|||||TWO_SIDED|90.0|6.1|22.35|||||Severe HI/Healthy Matched to Severe HI|Day 10||22.35|6.10|
82392358|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|0.84|||||TWO_SIDED|90.0|0.35|2.01|||||Mild HI/Healthy Matched to Mild HI|Day 1||2.01|0.35|
82392359|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|1.37|||||TWO_SIDED|90.0|0.83|2.27|||||Mild HI/Healthy Matched to Mild HI|Day 10||2.27|0.83|
82392360|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|7.64|||||TWO_SIDED|90.0|2.74|21.27|||||Moderate HI/Healthy Matched to Moderate HI|Day 1||21.27|2.74|
82392361|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|5.98|||||TWO_SIDED|90.0|2.84|12.57|||||Moderate HI/Healthy Matched to Moderate HI|Day 10||12.57|2.84|
82392362|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|15.18|||||TWO_SIDED|90.0|6.02|38.25|||||Severe HI/Healthy Matched to Severe HI|Day 1||38.25|6.02|
82392363|NCT01390428|164495909|SUPERIORITY_OR_OTHER||GMR|13.01|||||TWO_SIDED|90.0|6.0|28.21|||||Severe HI/Healthy Matched to Severe HI|Day 10||28.21|6.00|
82392364|NCT01390428|164495911|SUPERIORITY_OR_OTHER||GMR|1.86|||||TWO_SIDED|90.0|1.54|2.24|||||Mild HI/Healthy Matched to Mild HI|||2.24|1.54|
82392365|NCT01390428|164495911|SUPERIORITY_OR_OTHER||GMR|2.99|||||TWO_SIDED|90.0|1.31|6.82|||||Moderate HI/Healthy Matched to Moderate HI|||6.82|1.31|
82392366|NCT01390428|164495913|SUPERIORITY_OR_OTHER||GMR|1.92|||||TWO_SIDED|90.0|1.4|2.63|||||Mild HI/Healthy Matched to Mild HI|||2.63|1.40|
82527747|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|21.42|||<|0.001|TWO_SIDED|95.0|12.99|29.84||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||29.84|12.99|<0.001
82527748|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|1.58||||0.799|TWO_SIDED|95.0|-10.54|13.7||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.70|-10.54|0.799
82527749|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|20.09||||0.001|TWO_SIDED|95.0|11.45|28.72||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||28.72|11.45|0.001
82527750|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|53.22|||<|0.001|TWO_SIDED|95.0|42.92|63.53||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.53|42.92|<0.001
82527751|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|-2.98||||0.695|TWO_SIDED|95.0|-17.67|11.7||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.70|-17.67|0.695
82527752|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|57.06|||<|0.001|TWO_SIDED|95.0|46.53|67.6||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||67.60|46.53|<0.001
82527753|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|70.58|||<|0.001|TWO_SIDED|95.0|60.28|80.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||80.88|60.28|<0.001
82527754|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|7.99||||0.261|TWO_SIDED|95.0|-5.85|21.84||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.84|-5.85|0.261
82527755|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|62.88|||<|0.001|TWO_SIDED|95.0|51.78|73.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.99|51.78|<0.001
82527756|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|66.24|||<|0.001|TWO_SIDED|95.0|53.77|78.71||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.71|53.77|<0.001
82363682|NCT01682148|164438413|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-0.1324||||0.24|TWO_SIDED|95.0|-0.3531|0.0884||Based on a generalised linear model including factors for treatment, spasticity pattern, country and MAS baseline score.|Generalised linear model||Difference of the two clinical success rates (NMJ Targeted minus Current Clinical Practice).|A responder was defined as a subject with at least one level decrease on the MAS scale.||0.0884|-0.3531|0.2400
82363683|NCT01682148|164438414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9448|TWO_SIDED|95.0|||||ANOVA|Analysis of variance (ANOVA) included factors for treatment, spasticity pattern and country, and Baseline VAS as a covariate.||Mean change in VAS from Baseline to Week 4.||||0.9448
82363684|NCT01682148|164438414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5458|||||||ANOVA|ANOVA included factors for treatment, spasticity pattern and country, and Baseline VAS as a covariate.||Mean change in VAS from Baseline to Week 12.||||0.5458
82363685|NCT01682148|164438415|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4006|||||||ANOVA|ANOVA included factors for treatment, spasticity pattern and country.||||||0.4006
82363686|NCT01682148|164438416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5747|||||||Mann-Whitney U-test|||||||0.5747
82363687|NCT01682148|164438417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1802|||||||Mann-Whitney U-test|||||||0.1802
82575104|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.2|5.1|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PLA1 - PLA2))||5.1|-3.2|
82363688|NCT01056640|164438424|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31|STANDARD_ERROR_OF_MEAN|0.2865||0.05|TWO_SIDED|95.0|0.747|2.297|||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test, 2-sample t-test and Chi-square analysis were all used.||All analyses were performed using an intent-to-treat method. Wilcoxon rank sum test, 2-sample t test, or Chi-Square analysis was used to compare baseline characteristics. The primary end points of combined and individual percentages of hospitalizations and ED visits were compared using Chi-Square test. Statistical adjustment was planned only if there were statistical differences in clinical variables between the groups. All tests for significance used a 2-sided P value of .05.||2.297|0.747|0.05
82363689|NCT00285584|164438432|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.5||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.9
82363690|NCT00285584|164438433|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.5||||0.3|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank test||||0.3
82363691|NCT00285584|164438434|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.15||||0.3|TWO_SIDED|95.0|0.4|27.8|||Fisher Exact|||Comparison of cumulative incidence proportions||27.8|0.4|0.3
82363692|NCT00285584|164438435|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.5||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82363693|NCT01103479|164438493|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.65||||0.32|TWO_SIDED|95.0|0.62|4.38||Random effects model adjusting for clustering by clinic|Mixed Models Analysis|||||4.38|0.62|0.32
82363694|NCT01103479|164438494|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8||||0.28|TWO_SIDED|95.0|0.53|1.2||Linear model adjusting for stratification by clinic and participant age|Mixed Models Analysis|||||1.20|0.53|0.28
82363695|NCT01103479|164438495|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43||||0.42|TWO_SIDED|95.0|0.6|3.43||Random effects model adjusted for clustering by clinic|Mixed Models Analysis|||||3.43|0.60|0.42
82363696|NCT01103479|164438496|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.05||||0.38|TWO_SIDED|95.0|0.94|1.18||Linear model adjusting for stratification by clinic and participant age|Mixed Models Analysis|||||1.18|0.94|0.38
82363697|NCT01523587|164438497|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.814||||0.0103|TWO_SIDED|95.0|0.693|0.956||P-value from log-rank stratified by Race (two-sided). Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazards model stratified by Race.|Log Rank|||A Cox proportional hazards model without the randomization stratification variable was used for each subgroup category, along with the corresponding log-rank test.||0.956|0.693|0.0103
82363698|NCT01523587|164438498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841||||0.0193|TWO_SIDED|95.0|0.727|0.973||P-value from log-rank stratified by Race (two-sided). Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazards model stratified by Race.|Log Rank|||A Cox proportional-hazards model, stratified by race, was used to estimate the hazard ratio and 95% confidence interval (CI) between the two treatment groups.||0.973|0.727|0.0193
82363699|NCT01523587|164438499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.0551|TWO_SIDED|95.0|0.98|4.32||Odds ratio (Afatinib vs Erlotinib), 95% CI and p-value (two-sided) from logistic regression stratified by race.|Regression, Logistic|||||4.32|0.98|0.0551
82363700|NCT01523587|164438500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.002|TWO_SIDED|95.0|1.18|2.06|||Regression, Logistic|Odds ratio (Afatinib vs Erlotinib), 95% CI and p-value (two-sided) from logistic regression stratified by race.||||2.06|1.18|0.0020
82363701|NCT01523587|164438501|SUPERIORITY_OR_OTHER||Adjusted mean|-1.2|STANDARD_ERROR_OF_MEAN|1.77||0.5|TWO_SIDED|95.0|-4.67|2.28|||ANCOVA||Mean was adjusted for baseline sum of diameters and race.|The analysis will compare the treatments using analysis of covariance (ANCOVA) for minimum sum of diameters, using baseline sum of diameters as a covariate. The randomization strata will be included as classification factors.||2.28|-4.67|0.500
82363702|NCT01523587|164438503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2562|TWO_SIDED|95.0|0.72|1.09||p-value calculated using log rank test stratified by race.|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Coughing.||1.09|0.72|0.2562
82363703|NCT01523587|164438503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0078|TWO_SIDED|95.0|0.66|0.94||p-value calculated using log rank test stratified by race.|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Dyspnoea||0.94|0.66|0.0078
82363704|NCT01523587|164438503|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.869|TWO_SIDED|95.0|0.82|1.18||p-value calculated using log rank test stratified by race|Regression, Cox||Hazard ratio (Afatinib vs Erlotinib) from Cox proportional hazard model stratified by race.|The results shown relate to Time to Deterioration in Pain||1.18|0.82|0.8690
82363705|NCT01523587|164438504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.34||0.0091|TWO_SIDED|95.0|-6.15|-0.88|||Regression, Cox|||The results shown relate to Change in scores over time for: Coughing.||-0.88|-6.15|0.0091
82392367|NCT01390428|164495913|SUPERIORITY_OR_OTHER||GMR|3.59|||||TWO_SIDED|90.0|1.81|7.11|||||Moderate HI/Healthy Matched to Moderate HI|||7.11|1.81|
82363706|NCT01523587|164438504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.15||0.0024|TWO_SIDED|95.0|-5.75|-1.25|||Regression, Cox|||The results shown relate to Change in scores over time for: Dyspnoea.||-1.25|-5.75|0.0024
82363707|NCT01523587|164438504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|1.32||0.0384|TWO_SIDED|95.0|-5.33|-0.15|||Regression, Cox|||The results shown relate to Change in scores over time for: Pain.||-0.15|-5.33|0.0384
82363708|NCT01298778|164438505|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||acute pain scores with movement at 24 hours||||0.05
82392368|NCT01390428|164495913|SUPERIORITY_OR_OTHER||GMR|9.34|||||TWO_SIDED|90.0|4.98|17.51|||||Severe HI/Healthy Matched to Severe HI|||17.51|4.98|
82392369|NCT05897827|164495916|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|3.93||||0.074|TWO_SIDED|95.0|3.73|4.13||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.13|3.73|0.074
82392370|NCT05897827|164495917|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 75.|Mean|75.47||||0.827|TWO_SIDED|95.0|71.12|79.83||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||79.83|71.12|0.827
82392371|NCT05897827|164495918|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|4.01||||0.003|TWO_SIDED|95.0|3.84|4.17||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.17|3.84|0.003
82392372|NCT05897827|164495919|OTHER|We calculated the mean and 95% confidence interval using a one sample two-sided t-test against the a priori benchmark of success, which was \> 3.75.|Mean|4.01||||0.002|TWO_SIDED|95.0|3.85|4.18||Threshold for statistical significance: \<0.05|t-test, 2 sided|||||4.18|3.85|0.002
82392373|NCT05897827|164495923|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.22||||0.03|TWO_SIDED|95.0|0.03|0.42||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.42|0.03|0.03
82392374|NCT05897827|164495923|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.01||||0.95|TWO_SIDED|95.0|-0.36|0.38||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.38|-0.36|0.95
82392375|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in LGBTQ+ Inclusivity, Awareness, and Advocacy, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.7|||<|0.001|TWO_SIDED|95.0|0.46|0.95||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.95|0.46|<0.001
82392376|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in LGBTQ+ Inclusivity, Awareness, and Advocacy, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.45||||0.01|TWO_SIDED|95.0|0.1|0.8||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.80|0.10|0.01
82392377|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Identity-Affirming Practices, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.26||||0.001|TWO_SIDED|95.0|0.11|0.41||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.41|0.11|0.001
82527757|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|4.38||||0.522|TWO_SIDED|95.0|-8.89|17.64||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.64|-8.89|0.522
82527758|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|61.93|||<|0.001|TWO_SIDED|95.0|49.06|74.8||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.80|49.06|<0.001
82527759|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|66.35|||<|0.001|TWO_SIDED|95.0|53.61|79.09||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.09|53.61|<0.001
82527760|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|5.46||||0.415|TWO_SIDED|95.0|-7.53|18.44||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.44|-7.53|0.415
82642364|NCT04035694|164999971|EQUIVALENCE|A series of multilevel regression models were estimated to determine the association between condition and each outcome, while controlling for the conditional non-independence of observations. Fixed effects included condition (intervention vs. control), the adolescent's pretest outcome score, and covariates (age, SES, race, sexual experience). The models included a random intercept for teacher and df were adjusted using the Satterthwaite adjustment.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.11||0.34|TWO_SIDED||||||Mixed Models Analysis|The df were adjusted to take into account random effects using Satterthwaite df adjustment for mixed models.||||||0.34
82527761|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|60.92|||<|0.001|TWO_SIDED|95.0|47.65|74.19||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.19|47.65|<0.001
82392378|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Identity-Affirming Practices, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.13||||0.01|TWO_SIDED|95.0|0.03|0.24||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.24|0.03|0.01
82392379|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Inclusivity in Restrooms and Changing Options, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.43||||0.001|TWO_SIDED|95.0|0.18|0.68||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.68|0.18|0.001
82392380|NCT05897827|164495924|OTHER|To test for within-arm statistical significance of the change in Self-Efficacy in Inclusivity in Restrooms and Changing Options, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.44||||0.04|TWO_SIDED|95.0|0.02|0.86||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.86|0.02|0.04
82392381|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.23||||0.1|TWO_SIDED|95.0|-0.5|0.04||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.04|-0.50|0.10
82392382|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.24||||0.14|TWO_SIDED|95.0|-0.55|0.07||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.07|-0.55|0.14
82392383|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.19||||0.07|TWO_SIDED|95.0|-0.39|0.01||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.01|-0.39|0.07
82392384|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.02||||0.85|TWO_SIDED|95.0|-0.18|0.22||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.22|-0.18|0.85
82363709|NCT00536484|164438513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002||95.0|-1.1|-0.4||Significance level p \<0.05|ANCOVA|Terms for treatment, center and baseline as covariate and baseline by treatment interaction.|The LS mean difference \& 95% CI were calculated at mean baseline = 12.9 (centered baseline used in model)|Null hypothesis: the mean change from baseline in micturitions per 24 hours in the fesoterodine group is the same as in the placebo group at Week 12. A sample size of 350 in each arm had at least 85% power to detect a difference of 0.8 between flexible dose fesoterodine \& placebo assuming a standard deviation of 3.52 using a 2-sample t-test with a 0.05 2-sided significance level. Accounting for 10% of randomized subjects not having the primary endpoint data, 390 subjects were needed in each arm||-0.4|-1.1|0.0002
82575105|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-1.5|3.5|||ANOVA|||Hepatitis B (Seroconversion percentage difference (PLA1 - PLA2))||3.5|-1.5|
82575106|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-1.1|5.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PLA1 - PLA2))||5|-1.1|
82363710|NCT00536484|164438514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0136||95.0|-0.8|-0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment, baseline covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 2 minus Baseline||-0.1|-0.8|0.0136
82363711|NCT00536484|164438514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002||95.0|-1.1|-0.3||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 6 minus Baseline||-0.3|-1.1|0.0002
82363712|NCT00536484|164438515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1057||95.0|-0.9|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||0.1|-0.9|0.1057
82363713|NCT00536484|164438515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0338||95.0|-1.1|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-0.0|-1.1|0.0338
82363714|NCT00536484|164438515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0003||95.0|-1.5|-0.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.5|-1.5|0.0003
82363715|NCT00536484|164438516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1666||95.0|-0.6|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||0.1|-0.6|0.1666
82363716|NCT00536484|164438516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0506||95.0|-0.8|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||0.0|-0.8|0.0506
82392385|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.15||||0.06|TWO_SIDED|95.0|-0.3|0.01||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.01|-0.30|0.06
82392386|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.07||||0.51|TWO_SIDED|95.0|-0.14|0.28||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.28|-0.14|0.51
82392387|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.33||||0.001|TWO_SIDED|95.0|0.13|0.53||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.53|0.13|0.001
82426298|NCT04464473|164561713|SUPERIORITY|||||||0.2546|||||||ANOVA|The interaction of intervention (FPl-TMS, MFG-TMS, S1-TMS) and subsystem (Temporal, Contextual Control) on the magnitude of MFG efferent connectivity||||||0.2546
82363717|NCT00536484|164438516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0014||95.0|-1.0|-0.2||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.2|-1.0|0.0014
82363718|NCT00536484|164438517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.2054||95.0|-0.4|0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 2 minus Baseline||0.1|-0.4|0.2054
82363719|NCT00536484|164438517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0225||95.0|-0.6|0.0||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 6 minus Baseline||-0.0|-0.6|0.0225
82363720|NCT00536484|164438517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0167||95.0|-0.6|-0.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 12 minus Baseline||-0.1|-0.6|0.0167
82363721|NCT00536484|164438518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8019||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 2 minus Baseline||0.1|-0.2|0.8019
82363722|NCT00536484|164438518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3881||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 6 minus Baseline||0.1|-0.2|0.3881
82363723|NCT00536484|164438518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.324||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 12 minus Baseline||0.1|-0.2|0.3240
82363724|NCT00536484|164438519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8279||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 2 minus Baseline||0.1|-0.2|0.8279
82363725|NCT00536484|164438519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5059||95.0|-0.2|0.1||Significance level p \<0.05|ANOVA|||Week 6 minus Baseline||0.1|-0.2|0.5059
82392388|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.28||||0.04|TWO_SIDED|95.0|0.01|0.55||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.55|0.01|0.04
82575107|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0||||||95.0|-2.8|7.7|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PLA1 - PLA2))||7.7|-2.8|
82363726|NCT00536484|164438519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0806||95.0|-0.4|0.0||Significance level p \<0.05|ANOVA|||Week 12 minus Baseline||0.0|-0.4|0.0806
82363727|NCT00536484|164438520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0203||95.0|-3.2|-0.3||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||-0.3|-3.2|0.0203
82363728|NCT00536484|164438520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.8||0.0007||95.0|-4.2|-1.1||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-1.1|-4.2|0.0007
82363729|NCT00536484|164438520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001||95.0|-4.9|-1.7||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-1.7|-4.9|<0.0001
82363730|NCT00536484|164438521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001||95.0|-10.7|-4.9||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|Week 12 minus Baseline||-4.9|-10.7|<0.0001
82363731|NCT00536484|164438522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001||95.0|5.3|11.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Concern domain"||11.5|5.3|<0.0001
82363732|NCT00536484|164438522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001||95.0|3.9|10.2||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Coping domain"||10.2|3.9|<0.0001
82363733|NCT00536484|164438522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.6||0.0036||95.0|1.5|7.8||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate||"Week 12 minus Baseline~Sleep domain"||7.8|1.5|0.0036
82392389|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.06||||0.36|TWO_SIDED|95.0|-0.19|0.07||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.07|-0.19|0.36
82392390|NCT05897827|164495925|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.03||||0.62|TWO_SIDED|95.0|-0.16|0.1||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.10|-0.16|0.62
82426299|NCT04464473|164561713|SUPERIORITY|||||||0.0645|||||||ANOVA|The main effect of intervention (FPl-TMS, MFG-TMS, S1-TMS) on the overall magnitude of FPl efferent connectivity||||||0.0645
82426300|NCT04464473|164561713|SUPERIORITY|||||||0.2033|||||||ANOVA|Interaction of intervention (FPl-TMS, MFG-TMS, S1-TMS) and Subsystem on the magnitude of FPl efferent connectivity||||||0.2033
82426301|NCT04464473|164561714|SUPERIORITY|||||||0.8152|||||||ANOVA|Main effect of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) on overall BOLD actviation.||||||0.8152
82363734|NCT00536484|164438522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0007||95.0|1.6|5.8||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~Social interaction domain"||5.8|1.6|0.0007
82642365|NCT00077766|164999972|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with 90% power assuming that the true difference between the RO0503821 group and darbepoetin was not larger than 0.3 g/dL.|Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.1162|<|0.0001|TWO_SIDED|95.0|-0.049|0.408||The p-value for the non-inferiority test was derived using ANCOVA.|ANCOVA, CI for difference between groups|Degrees of Freedom : 246|Difference between groups based on the adjusted means derived from the ANCOVA model.|RO0503821 group was compared to darbepoetin alfa group, using analysis of covariance (ANCOVA) with the independent variable as treatment group and Hb at baseline and geographical region as covariates. The test for non-inferiority was based on the lower limit of 2-sided 95% confidence interval (CI) for difference in adjusted mean between 2 groups. If this lower limit was \> or = to -0.75 g/dL, the RO0503821 group was regarded as clinically non-inferior to darbepoetin alfa group, with 90% power.||0.408|-0.049|< 0.0001
82642366|NCT00318357|165000007|SUPERIORITY|||||||0.007|||||||Regression, Cox|||Mortality is compared between the arms of the CARE-HF study, using Cox proportional hazards regression. Data from the original CARE-HF trial and the CARE-HF Long Term Follow-up trial were combined for the analysis.||||0.007
82642367|NCT06212544|165000008|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82642368|NCT02712359|165000030|NON_INFERIORITY|The lower limit of the 2-sided 95% confidence interval (CI) for the difference (Havrix 1 dose\_Year 8 Group minus Havrix 2 doses\_Year 8 Group) of percentage of subjects with anti-HAV antibody concentrations ≥ 15 mIU/mL was to be greater than or equal to the pre-defined clinical non-inferiority limit of -10%.|Difference in seropositivity rate|-23.33|||<|0.0001|TWO_SIDED|95.0|-28.78|-18.29|||Fisher Exact|||Difference in seropositivity rates for anti-HAV antibody: To demonstrate that 1-dose schedule of Havrix (Havrix 1 dose\_Year 8 Group) was non-inferior to the 2-dose schedule of Havrix (Havrix 2 doses\_Year 8 Group), in terms of seropositivity rates for anti-HAV antibody, measured by ELISA, approximately 8 years after the administration of the last vaccine dose.||-18.29|-28.78|<0.0001
82642369|NCT02712359|165000031|NON_INFERIORITY|The lower limit of the 2-sided 95% confidence interval (CI) for the difference (Havrix 1 dose\_Year 10 Group minus Havrix 2 doses\_Year 10 Group) of percentage of subjects with anti-HAV antibody concentrations ≥ 15 mIU/mL was to be greater than or equal to the pre-defined clinical non-inferiority limit of -10%.|Difference in seropositivity rate|-24.43|||<|0.0001|TWO_SIDED|95.0|-30.11|-19.03|||Fisher Exact|||Difference in seropositivity rates for anti-HAV antibody: To demonstrate that 1-dose schedule of Havrix (Havrix 1 dose\_Year 10 Group) was non-inferior to the 2-dose schedule of Havrix (Havrix 2 doses\_Year 10 Group), in terms of seropositivity rates for anti-HAV antibody, measured by ELISA, approximately 10 years after the administration of the last vaccine dose.||-19.03|-30.11|<0.0001
82363735|NCT00536484|164438522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001||95.0|3.6|8.9||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline as covariate and baseline by treatment interaction|Since centered baseline was used in the model, the LS mean difference and its 95% CI were calculated at mean baseline|"Week 12 minus Baseline~HRQL scale score total"||8.9|3.6|<0.0001
82363736|NCT00536484|164438523|SUPERIORITY_OR_OTHER|||||||0.0087||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 2||||0.0087
82363737|NCT00536484|164438523|SUPERIORITY_OR_OTHER|||||||0.0008||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 6||||0.0008
82363738|NCT00536484|164438523|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 12||||0.0006
82363739|NCT00536484|164438524|SUPERIORITY_OR_OTHER|||||||0.0129||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 2||||0.0129
82363740|NCT00536484|164438524|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 6||||0.0100
82363741|NCT00536484|164438524|SUPERIORITY_OR_OTHER|||||||0.0009||95.0||||Significance level p \<0.05|Cochran-Mantel-Haenszel|The CMH test used modified ridit scores which were based on the ranks of the observations rather than the observed values.||Treatment difference at Week 12||||0.0009
82363742|NCT00536484|164438525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.9|-0.4||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 2 minus Baseline||-0.4|-0.9|<0.0001
82363743|NCT00536484|164438525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-1.1|-0.5||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 6 minus Baseline||-0.5|-1.1|<0.0001
82444299|NCT01672866|164597139|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|-0.2|||||TWO_SIDED|95.0|-1.3|1.0||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||1.0|-1.3|
82642370|NCT02513095|165000060|SUPERIORITY||Odds Ratio (OR)|6.0||||0.396|TWO_SIDED|95.0|0.6|76.8|||Chi-squared, Corrected|||||76.8|0.6|0.396
82642371|NCT00826176|165000093|SUPERIORITY_OR_OTHER||upper limit of tolerance interval (min.)|6.4||||||95.0|||||||The tolerance interval (TI) refers to a fixed proportion (in this trial set to 95%) of the population with a stated confidence (in this trial, 95%). Efficacy was to be claimed in case the upper limit of TI was below the prespecified margin of 10 min.|||||
82642372|NCT00826176|165000093|SUPERIORITY_OR_OTHER||upper limit of tolerance interval (min.)|3.2||||||95.0|||||||The tolerance interval (TI) refers to a fixed proportion (in this trial set to 95%) of the population with a stated confidence (in this trial, 95%). Efficacy was to be claimed in case the upper limit of TI was below the prespecified margin of 10 min.|||||
82363744|NCT00536484|164438525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.3|-0.7||Significance level p \<0.05|ANCOVA|Terms for center, treatment and baseline covariate||Week 12 minus Baseline||-0.7|-1.3|<0.0001
82363745|NCT02243293|164438557|NON_INFERIORITY|The non-inferiority of the rate of sustained virologic response at 12 weeks after treatment as compared to historical control (in genotype 2 (GT2) DAA-naive participants in Part 4, arm S) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 89% to achieve noninferiority.|Percentage of Participants|98.5|||||TWO_SIDED|95.0|96.5|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|||100.0|96.5|
82363746|NCT03069417|164438561|SUPERIORITY|Conducted at post-treatment time point.||||||0.11|||||||Mixed Models Analysis|||||||0.11
82363747|NCT03069417|164438561|SUPERIORITY|Conducted at 3-month follow-up time point.||||||0.56|||||||Mixed Models Analysis|||||||0.56
82363748|NCT03069417|164438562|SUPERIORITY|Main effect for time calculated at 3-month follow-up time point.|Fixed effects coefficient (β)|-12.7|||<|0.05|TWO_SIDED|95.0|-22.29|-3.15||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.15|-22.29|< 0.05
82363749|NCT03069417|164438563|SUPERIORITY|Interaction evaluated at post-treatment time point.|Fixed effects coefficient (β)|-11.1|||<|0.005|TWO_SIDED|95.0|-18.41|-3.83||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.83|-18.41|< 0.005
82363750|NCT03069417|164438563|SUPERIORITY|Main effect for time at 3-month follow-up time point.|Fixed effects coefficient (β)|-13.8|||<|0.005|TWO_SIDED|95.0|-22.5|-5.17||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-5.17|-22.50|< 0.005
82363751|NCT03069417|164438565|SUPERIORITY|Main effect for condition.|Fixed effects coefficient (β)|-10.1|||<|0.05|TWO_SIDED|95.0|-19.58|-0.67||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-0.67|-19.58|< 0.05
82363752|NCT03069417|164438565|SUPERIORITY|Main effect for time at post-treatment time point.|Fixed effects coefficient (β)|-12.8|||<|0.01|TWO_SIDED|95.0|-22.14|-3.37||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||-3.37|-22.14|< 0.01
82363753|NCT03069417|164438566|SUPERIORITY|Main effect for condition.|Fixed effects coefficient (β)|6.2|||<|0.05|TWO_SIDED|95.0|0.5|11.88||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||||11.88|0.50|< 0.05
82363754|NCT02409329|164438567|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.313||||0.0493|TWO_SIDED|95.0|-0.61|-0.017||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||-0.017|-0.610|.0493
82392391|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.15||||0.08|TWO_SIDED|95.0|-0.32|0.02||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.02|-0.32|0.08
82575108|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|3.3|||ANOVA|||PnC 4(Seroconversion percentage difference (PLA1 - PLA2))||3.3|-3|
82363755|NCT02409329|164438567|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.07||||0.26|TWO_SIDED|95.0|-0.38|0.24||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||0.240|-0.380|0.260
82363756|NCT02409329|164438568|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.406|||<|0.001|TWO_SIDED|95.0|0.196|0.615||A priori threshold p\<.05.|Wald statistic|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.615|0.196|<.001
82392392|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Notice the Event, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.21||||0.2|TWO_SIDED|95.0|-0.55|0.12||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.12|-0.55|0.20
82426302|NCT04464473|164561714|SUPERIORITY|||||||0.0085|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and subsystem (temporal, contextual, sensorimotor control) on overall BOLD activation.||||||0.0085
82426303|NCT04464473|164561714|SUPERIORITY|||||||0.1551|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on BOLD activation||||||0.1551
82426304|NCT04464473|164561714|SUPERIORITY|||||||0.6431|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on BOLD activation||||||0.6431
82363757|NCT02409329|164438568|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.21||||0.003|TWO_SIDED|95.0|-0.031|0.45||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. For the HbA1c model, we allowed for a three-way interaction between time, treatment group, and baseline HbA1c because there was descriptive evidence that the effect was modified by baseline HbA1c values. Multiply imputed data (m=1,000) using chained equations.||0.450|-0.031|0.003
82363758|NCT02409329|164438569|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.54||||0.376|TWO_SIDED|95.0|-0.012|1.09||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||1.090|-0.012|0.376
82363759|NCT02409329|164438569|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.278||||0.434|TWO_SIDED|95.0|-0.319|0.875||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.875|-0.319|0.434
82363760|NCT02409329|164438570|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.399||||0.0012|TWO_SIDED|95.0|0.16|0.637||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations||0.637|0.160|0.0012
82363761|NCT02409329|164438570|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.152||||0.003|TWO_SIDED|95.0|-0.121|0.426||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.426|-0.121|0.003
82363762|NCT02409329|164438571|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.061||||0.632|TWO_SIDED|95.0|-0.218|0.095||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.095|-0.218|0.632
82363763|NCT02409329|164438571|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|0.005||||0.572|TWO_SIDED|95.0|-0.202|1.1||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||1.100|-0.202|0.572
82363764|NCT02409329|164438572|SUPERIORITY|We performed an omnibus test of the treatment effect at 3 and 6 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|369.0||||0.703|TWO_SIDED|95.0|-142.0|881.0||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|6-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||881|-142|0.703
82392393|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.02||||0.74|TWO_SIDED|95.0|-0.14|0.1||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.10|-0.14|0.74
82426305|NCT04464473|164561714|SUPERIORITY|||||||0.2447|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on BOLD activation||||||0.2447
82392394|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Interpret the Event as an Emergency, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.05||||0.55|TWO_SIDED|95.0|-0.12|0.23||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.23|-0.12|0.55
82363765|NCT02409329|164438572|SUPERIORITY|We performed an omnibus test of the treatment effect at 3, 6, 12, and 15 months using a robust variance-covariance based Wald statistic. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|26.0||||0.465|TWO_SIDED|95.0|-459.0|511.0||A priori threshold p\<.05.|GEE, Wald test|Adjusted for baseline values with cubic splines (3 knots).|15-month point estimate|Any REACH vs. Helpline and A1c results. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||511|-459|0.465
82363766|NCT02409329|164438573|SUPERIORITY|Testing superiority of REACH only relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.75|||||TWO_SIDED|95.0|-1.38|-0.12|||||6-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||-0.12|-1.38|
82363767|NCT02409329|164438573|SUPERIORITY|Testing superiority of REACH only relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.31|||||TWO_SIDED|95.0|-1.0|0.39|||||12-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.39|-1.00|
82363768|NCT02409329|164438573|SUPERIORITY|Testing superiority of REACH\_FAMS relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.65|||||TWO_SIDED|95.0|-1.26|-0.05|||||6-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||-0.05|-1.26|
82363769|NCT02409329|164438573|SUPERIORITY|Testing superiority of REACH+FAMS relative to control. We used ordinary least squares linear regression with Huber-White heteroscedasticity-consistent standard errors to obtain point estimates and 95% CIs for the intervention effect at each time.|Predicted mean difference|-0.31|||||TWO_SIDED|95.0|-0.96|0.51|||||12-month point estimate|To evaluate if REACH only and REACH+FAMS had similar effects on HbA1c relative to control, we subsetted to participants with baseline HbA1c greater than or equal to 8.5% to maximize our power for these analyses. We used generalized estimating equations (GEE) with a working-exchangeable correlation structure and identity link, adjusting for baseline and allowing a time-treatment interaction. Multiply imputed data (m=1,000) using chained equations.||0.51|-0.96|
82363770|NCT02953678|164438574|OTHER||Exact method for binomial distributions|54.9|||||TWO_SIDED|95.0|42.7|66.8||||||||66.8|42.7|
82363771|NCT01730040|164438601|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.1|||<|0.0001|TWO_SIDED|99.0|-55.9|-22.2|||Mixed Models Analysis|Threshold for significance ≤ 0.01.||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-22.2|-55.9|< 0.0001
82363772|NCT01730040|164438601|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.6|||=|0.0004|TWO_SIDED|99.0|-40.7|-6.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||As described in statistical analysis 1 of the endpoint.||-6.5|-40.7|= 0.0004
82363773|NCT01730040|164438601|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.2|||<|0.0001|TWO_SIDED|99.0|-65.0|-33.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-33.5|-65|< 0.0001
82363774|NCT01730040|164438601|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.6|||<|0.0001|TWO_SIDED|99.0|-48.4|-16.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.9|-48.4|< 0.0001
82392395|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.07||||0.4|TWO_SIDED|95.0|-0.22|0.09||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.09|-0.22|0.40
82363775|NCT01730040|164438601|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|99.0|-47.4|-15.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.4|-47.4|<0.0001
82392396|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Accept Responsibility for Intervening, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.12||||0.36|TWO_SIDED|95.0|-0.37|0.13||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.13|-0.37|0.36
82444300|NCT01672866|164597139|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|-0.4|||||TWO_SIDED|95.0|-1.5|0.8||||||An MMRM with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||0.8|-1.5|
82527762|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|65.32|||<|0.001|TWO_SIDED|95.0|52.18|78.46||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.46|52.18|<0.001
82527763|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|4.21||||0.519|TWO_SIDED|95.0|-8.39|16.81||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.81|-8.39|0.519
82363776|NCT01730040|164438602|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.5|||<|0.0001|TWO_SIDED|99.0|-59.2|-25.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 1% level.||-25.7|-59.2|< 0.0001
82363777|NCT01730040|164438602|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.9|||=|0.0002|TWO_SIDED|99.0|-41.9|-7.8||Threshold for significance≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.8|-41.9|= 0.0002
82363778|NCT01730040|164438602|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.8|||<|0.0001|TWO_SIDED|99.0|-69.2|-36.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-36.5|-69.2|< 0.0001
82363779|NCT01730040|164438602|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|||<|0.0001|TWO_SIDED|99.0|-51.3|-18.6|||Mixed Models Analysis|Threshold for significance ≤ 0.01.||Analysis description as per the statistical analysis 1 of this endpoint.||-18.6|-51.3|< 0.0001
82363780|NCT01730040|164438602|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.4|||<|0.0001|TWO_SIDED|99.0|-50.0|-16.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.8|-50.0|< 0.0001
82363781|NCT01730040|164438603|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.8|||<|0.0001|TWO_SIDED|99.0|-54.0|-25.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.6|-54|<0.0001
82363782|NCT01730040|164438603|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|99.0|-40.0|-11.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-40.0|<0.0001
82363783|NCT01730040|164438603|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.0|||<|0.0001|TWO_SIDED|99.0|-47.7|-24.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-24.3|-47.7|<0.0001
82363784|NCT01730040|164438603|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|99.0|-39.2|-15.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.4|-39.2|<0.0001
82363785|NCT01730040|164438603|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.9|||<|0.0001|TWO_SIDED|99.0|-32.8|-8.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.9|-32.8|<0.0001
82363786|NCT01730040|164438604|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.5|||<|0.0001|TWO_SIDED|99.0|-55.8|-33.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-33.1|-55.8|<0.0001
82363787|NCT01730040|164438604|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.6|||<|0.0001|TWO_SIDED|99.0|-38.0|-15.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.2|-38.0|<0.0001
82363788|NCT01730040|164438604|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.3|||<|0.0001|TWO_SIDED|99.0|-48.1|-24.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-24.5|-48.1|<0.0001
82363789|NCT01730040|164438604|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.7|||<|0.0001|TWO_SIDED|99.0|-39.6|-15.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.8|-39.6|<0.0001
82363790|NCT01730040|164438604|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.2|||<|0.0001|TWO_SIDED|99.0|-32.2|-8.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.2|-32.2|<0.0001
82363791|NCT01730040|164438605|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|99.0|-42.0|-16.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-16.6|-42.0|<0.0001
82363792|NCT01730040|164438605|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.6|||<|0.0001|TWO_SIDED|99.0|-36.6|-10.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-10.7|-36.6|<0.0001
82363793|NCT01730040|164438605|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.4|||<|0.0001|TWO_SIDED|99.0|-50.8|-26.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-26.0|-50.8|<0.0001
82363794|NCT01730040|164438605|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.9|||<|0.0001|TWO_SIDED|99.0|-43.2|-18.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.6|-43.2|<0.0001
82363795|NCT01730040|164438605|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.6|||<|0.0001|TWO_SIDED|99.0|-40.1|-15.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.1|-40.1|<0.0001
82363796|NCT01730040|164438606|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.6|||<|0.0001|TWO_SIDED|99.0|-44.6|-20.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.6|-44.6|<0.0001
82392397|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.39|||<|0.001|TWO_SIDED|95.0|0.18|0.6||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.60|0.18|<0.001
82392398|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Know How to Intervene, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.12||||0.41|TWO_SIDED|95.0|-0.16|0.39||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.39|-0.16|0.41
82392399|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|-0.01||||0.92|TWO_SIDED|95.0|-0.22|0.2||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.20|-0.22|0.92
82392400|NCT05897827|164495926|OTHER|To test for within-arm statistical significance of the change in Implement Intervention Decisions, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.14||||0.37|TWO_SIDED|95.0|-0.16|0.44||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.44|-0.16|0.37
82392401|NCT05897827|164495927|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.59||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.59|0.28|<0.001
82392402|NCT05897827|164495927|OTHER|To test for within-arm statistical significance, we used linear mixed models accounting for within-person clustering using random effects. We reported the beta coefficients and 95% confidence intervals.|Mean Difference (Net)|0.49|||<|0.001|TWO_SIDED|95.0|0.29|0.69||Threshold for statistical significance: \<0.05|Mixed Models Analysis|||||0.69|0.29|<0.001
82392403|NCT01752634|164495933|SUPERIORITY||Odds Ratio (OR)|2.32||||0.02|TWO_SIDED|95.0|1.14|4.73|||Regression, Logistic|||||4.73|1.14|0.0200
82392404|NCT01752634|164495933|SUPERIORITY||Odds Ratio (OR)|6.52|||<|1|TWO_SIDED|95.0|3.25|13.08|||Regression, Logistic|||||13.08|3.25|<0001
82392405|NCT01752634|164495933|SUPERIORITY||Odds Ratio (OR)|6.81|||<|0.0001|TWO_SIDED|95.0|3.42|13.56|||Regression, Logistic|||||13.56|3.42|<.0001
82392406|NCT01752634|164495934|SUPERIORITY||Odds Ratio (OR)|2.07||||0.165|TWO_SIDED|95.0|0.74|5.81|||Regression, Logistic|||||5.81|0.74|0.1650
82392407|NCT01752634|164495934|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0006|TWO_SIDED|95.0|2.12|15.34|||Regression, Logistic|||||15.34|2.12|0.0006
82392408|NCT01752634|164495934|SUPERIORITY||Odds Ratio (OR)|9.48|||<|0.0001|TWO_SIDED|95.0|3.33|27.0|||Regression, Logistic|||||27.00|3.33|<.0001
82392409|NCT01752634|164495935|SUPERIORITY||Odds Ratio (OR)|1.38||||0.6421|TWO_SIDED|95.0|0.36|5.36|||Regression, Logistic|||||5.36|0.36|0.6421
82392410|NCT01752634|164495935|SUPERIORITY||Odds Ratio (OR)|6.36||||0.0029|TWO_SIDED|95.0|1.89|21.47|||Regression, Logistic|||||21.47|1.89|0.0029
82392411|NCT01752634|164495935|SUPERIORITY||Odds Ratio (OR)|10.74||||0.0002|TWO_SIDED|95.0|3.13|36.84|||Regression, Logistic|||||36.84|3.13|0.0002
82392412|NCT01752634|164495936|SUPERIORITY||Mean Difference (Net)|-0.16||||0.3763|TWO_SIDED|95.0|-0.53|0.2|||Mixed Models Analysis|||||0.20|-0.53|0.3763
82392413|NCT01752634|164495936|SUPERIORITY||Mean Difference (Net)|-0.62||||0.0008|TWO_SIDED|95.0|-0.98|-0.26|||Mixed Models Analysis|||||-0.26|-0.98|0.0008
82392414|NCT01752634|164495936|SUPERIORITY||Mean Difference (Net)|-0.65||||0.0004|TWO_SIDED|95.0|-1.02|-0.29|||Mixed Models Analysis|||||-0.29|-1.02|0.0004
82444301|NCT01672866|164597140|SUPERIORITY|||||||0.73|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by the presence or absence of diabetes at baseline.||||0.73
82392415|NCT01752634|164495937|SUPERIORITY||Mean Difference (Net)|2.42||||0.0482|TWO_SIDED|95.0|0.02|4.83|||Mixed Models Analysis|||||4.83|0.02|0.0482
82392416|NCT01752634|164495937|SUPERIORITY||Mean Difference (Net)|4.44||||0.0003|TWO_SIDED|95.0|2.05|6.83|||Mixed Models Analysis|||||6.83|2.05|0.0003
82392417|NCT01752634|164495937|SUPERIORITY||Mean Difference (Net)|5.3|||<|0.0001|TWO_SIDED|95.0|2.91|7.69|||Mixed Models Analysis|||||7.69|2.91|<0.0001
82444302|NCT01672866|164597140|SUPERIORITY|||||||0.85|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by the presence or absence of diabetes at baseline.||||0.85
82444303|NCT01294163|164597189|NON_INFERIORITY_OR_EQUIVALENCE|Xenon was to be concluded non-inferior to sevoflurane if the upper bound of the 2-sided 95% CI for the difference \[mean troponin I level (xenon) - mean troponin I level (sevoflurane)\] was below the prespecified margin of 0.63 ng/mL. Assuming a margin of 0.63, a same concentration of troponin I at 24 hours in the xenon and sevoflurane groups, a common standard deviation of 1.9 ng/mL and a one-sided type I error of 0.025, 164 patients per group were deemed necessary to demonstrate non-inferiority.|Mean Difference (Final Values)|-0.4||||0.02|TWO_SIDED|95.0|-1.27|0.47|||ANCOVA|Treatment difference and 95%CI assessed using ANCOVA with 24h troponin I as response, treatment group and pre-induction troponin I as covariates.||||0.47|-1.27|0.02
82392418|NCT01752634|164495938|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9195|TWO_SIDED|95.0|-0.16|0.15|||Mixed Models Analysis|||||0.15|-0.16|0.9195
82392419|NCT01752634|164495938|SUPERIORITY||Mean Difference (Net)|-0.17||||0.0278|TWO_SIDED|95.0|-0.32|-0.02|||Mixed Models Analysis|||||-0.02|-0.32|0.0278
82392420|NCT01752634|164495938|SUPERIORITY||Mean Difference (Net)|-0.25||||0.0013|TWO_SIDED|95.0|-0.4|-0.1|||Mixed Models Analysis|||||-0.10|-0.40|0.0013
82392421|NCT01752634|164495939|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0245|TWO_SIDED|95.0|1.15|7.36|||Regression, Logistic|||||7.36|1.15|0.0245
82392422|NCT01752634|164495939|SUPERIORITY||Odds Ratio (OR)|7.54|||<|0.0001|TWO_SIDED|95.0|3.11|18.25|||Regression, Logistic|||||18.25|3.11|<.0001
82392423|NCT01752634|164495939|SUPERIORITY||Odds Ratio (OR)|7.15|||<|0.0001|TWO_SIDED|95.0|2.97|17.22|||Regression, Logistic|||||17.22|2.97|<.0001
82392424|NCT01752634|164495940|SUPERIORITY||Odds Ratio (OR)|0.51||||0.3149|TWO_SIDED|95.0|0.13|1.91|||Regression, Logistic|||||1.91|0.13|0.3149
82642373|NCT00826176|165000093|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence between the two subject populations was to be claimed in the event that the two-sided 95% confidence interval was entirely within the interval ranging from -60 to +60 seconds.|median difference (seconds)|49.0||||||95.0|30.0|72.0|||||The estimated median difference (Chinese minus Caucasian) in time to recovery of the T4/T1 ratio to 0.9.|||72|30|
82642374|NCT01687400|165000096|OTHER|||||||0.035|||||||Fisher Exact|||Statistical analysis #1 is for the genetic mutation TP53.||||0.035
82642375|NCT01687400|165000096|OTHER|||||||0.72|||||||Fisher Exact|||Statistical analysis #2 is for ASXL1 genetic mutation||||0.72
82642376|NCT01687400|165000096|OTHER|||||||0.28|||||||Fisher Exact|||Statistical analysis #3 is for SRSF2 genetic mutation||||0.28
82642377|NCT01687400|165000096|OTHER|||||||0.14|||||||Fisher Exact|||Statistical analysis #4 is for IDH2 genetic mutation||||0.14
82642378|NCT01687400|165000096|OTHER|||||||0.3|||||||Fisher Exact|||Statistical analysis #5 is for DNMT3A genetic mutation||||0.3
82444304|NCT01294163|164597198|NON_INFERIORITY_OR_EQUIVALENCE|It was to be concluded that xenon was non-inferior to sevoflurane if the upper bound of the 2-sided 95% CI for the difference \[mean troponin I level (xenon) - mean troponin I level (sevoflurane)\] was below the margin of 0.15 ng/mL.|Mean Difference (Final Values)|-0.09||||0.0186|TWO_SIDED|95.0|-0.3|0.11|||ANCOVA|||As the residuals from the primary ANCOVA model were non-normal and skewed, the non-inferiority analysis was repeated using log-transformed blood troponin levels.||0.11|-0.30|0.0186
82444305|NCT03495102|164597210|SUPERIORITY||Mean Difference (Net)|-0.17||||0.003|TWO_SIDED|95.0|-0.29|-0.06|||Mixed Models Analysis|||||-0.06|-0.29|0.003
82642379|NCT01687400|165000096|OTHER|||||||0.183|||||||Fisher Exact|||Statistical analysis #6 is for SF3B1 genetic mutation||||0.183
82642380|NCT01687400|165000096|OTHER|||||||0.42|||||||Fisher Exact|||Statistical analysis #7 is for RUNX1 genetic mutation||||0.42
82363797|NCT01730040|164438606|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|99.0|-37.3|-12.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.8|-37.3|<0.0001
82363798|NCT01730040|164438606|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.3|||<|0.0001|TWO_SIDED|99.0|-51.2|-25.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-25.4|-51.2|<0.0001
82363799|NCT01730040|164438606|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|99.0|-42.6|-17.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.1|-42.6|<0.0001
82363800|NCT01730040|164438606|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.4|||<|0.0001|TWO_SIDED|99.0|-39.4|-13.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-13.4|-39.4|<0.0001
82363801|NCT01730040|164438607|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.4|||<|0.0001|TWO_SIDED|99.0|-44.7|-16.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-16.1|-44.7|<0.0001
82363802|NCT01730040|164438607|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.6|||=|0.0002|TWO_SIDED|99.0|-36.1|-7.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.1|-36.1|=0.0002
82363803|NCT01730040|164438607|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.1|||<|0.0001|TWO_SIDED|99.0|-54.7|-27.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-27.5|-54.7|<0.0001
82363804|NCT01730040|164438607|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.2|||<|0.0001|TWO_SIDED|99.0|-43.7|-16.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.6|-43.7|<0.0001
82363805|NCT01730040|164438607|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.6|||<|0.0001|TWO_SIDED|99.0|-40.3|-12.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.8|-40.3|<0.0001
82642381|NCT01687400|165000096|OTHER|||||||0.36|||||||Fisher Exact|||Statistical analysis #8 is for TET2 genetic mutation||||0.36
82642382|NCT01687400|165000096|OTHER|||||||0.1|||||||Fisher Exact|||Statistical analysis #9 is for IDH1 genetic mutation||||0.1
82642383|NCT01687400|165000096|OTHER|||||||1|||||||Fisher Exact|||Statistical analysis #10 is for NPM1 genetic mutation||||1
82642384|NCT01687400|165000096|OTHER|||||||0.17|||||||Fisher Exact|||Statistical analysis #11 is for NRAS genetic mutation||||0.17
82642385|NCT01687400|165000096|OTHER|||||||1|||||||Fisher Exact|||-Statistical analysis #12 is for U2AF1 genetic mutation||||1
82642386|NCT01687400|165000096|OTHER|||||||0.6|||||||Fisher Exact|||Statistical analysis #13 is for MY05B genetic mutation||||0.6
82642387|NCT01687400|165000096|OTHER|||||||1|||||||Fisher Exact|||Statistical analysis #14 is for WT1 genetic mutation||||1
82642388|NCT01687400|165000097|SUPERIORITY||Overall Response Rate-for current study|0.744|||<|0.0001|TWO_SIDED|95.0|0.652|0.836|||Chi-squared|1-sample Chi-square test to compare the overall response rate (ORR) to historical control (with ORR=0.25)||-The historical control of a 5-day regimen (Cashen et al 2010 JCO = NCT00358644) showed 25% (14 out of 55 participants) in overall response rate||0.836|0.652|<0.0001
82642389|NCT01687400|165000097|SUPERIORITY||Complete response rate-for current study|0.64|||<|0.0001|TWO_SIDED|95.0|0.538|0.741|||Chi-squared|1-sample Chi-square test to compare the complete response rate to historical control (with CR=0.24)||-The historical control of a 5-day regimen (Cashen et al 2010 JCO = NCT00358644) showed 24% (13 out of 55 participants) in complete response rate.||0.741|0.538|<0.0001
82642390|NCT00388674|165000103|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.3553|TWO_SIDED|95.03|0.8|1.084|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.084|0.800|0.3553
82642391|NCT00388674|165000104|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0676|TWO_SIDED|95.03|0.713|1.012|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.012|0.713|0.0676
82642392|NCT00388674|165000105|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1182|TWO_SIDED|95.03|0.769|1.03|||Cox proportional hazards model||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.030|0.769|0.1182
82642393|NCT00388674|165000106|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.817|1.478|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.478|0.817|
82392425|NCT01752634|164495940|SUPERIORITY||Odds Ratio (OR)|0.16||||0.0056|TWO_SIDED|95.0|0.04|0.58|||Regression, Logistic|||||0.58|0.04|0.0056
82527764|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82527765|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82392426|NCT01752634|164495940|SUPERIORITY||Odds Ratio (OR)|0.14||||0.0021|TWO_SIDED|95.0|0.04|0.5|||Regression, Logistic|||||0.50|0.04|0.0021
82392427|NCT01752634|164495941|SUPERIORITY||Odds Ratio (OR)|0.58||||0.1678|TWO_SIDED|95.0|0.26|1.26|||Regression, Logistic|||||1.26|0.26|0.1678
82392428|NCT01752634|164495941|SUPERIORITY||Odds Ratio (OR)|0.36||||0.0108|TWO_SIDED|95.0|0.17|0.79|||Regression, Logistic|||||0.79|0.17|0.0108
82392429|NCT01752634|164495941|SUPERIORITY||Odds Ratio (OR)|0.29||||0.0025|TWO_SIDED|95.0|0.13|0.65|||Regression, Logistic|||||0.65|0.13|0.0025
82392430|NCT01196936|164495942|SUPERIORITY|||||||0.05||||||The calculated p-value is 0.05.|Mixed Models Analysis|||||||0.05
82392431|NCT01196936|164495943|SUPERIORITY|||||||0.0266|||||||Mixed Models Analysis|||||||0.0266
82392432|NCT01196936|164495944|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82392433|NCT01196936|164495945|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82392434|NCT01196936|164495946|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82527766|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82575109|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|4.0|||||TWO_SIDED|95.0|-2.2|12.3|||ANOVA|||PnC 6B(Seroconversion percentage difference (PLA1 - PLA2))||12.3|-2.2|
82392435|NCT01196936|164495947|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||> 0.05
82392436|NCT01196936|164495948|SUPERIORITY|||||||0.071|||||||Mixed Models Analysis|||||||0.071
82392437|NCT01196936|164495949|SUPERIORITY|||||||0.739|||||||Mixed Models Analysis|||||||0.739
82392438|NCT01196936|164495950|SUPERIORITY|||||||0.8315|||||||Mixed Models Analysis|||||||0.8315
82392439|NCT05562934|164495955|SUPERIORITY|||||||0.5651||||||Single best candidate model is the one with the lowest adjusted p-value of the 5 candidate models|Multiple Comparisons Procedure-MOD|||||||0.5651
82392440|NCT05562934|164495956|SUPERIORITY||Median Difference (Net)|1.37||||0.6955|TWO_SIDED|95.0|-5.48|8.21|||ANCOVA|||||8.21|-5.48|0.6955
82392441|NCT05562934|164495957|SUPERIORITY||Median Difference (Net)|1.14||||0.7108|TWO_SIDED|95.0|-4.9|7.18|||ANCOVA|||||7.18|-4.90|0.7108
82392442|NCT04765722|164496005|SUPERIORITY||% change relative to placebo|18.0||||0.99|TWO_SIDED|95.0|-46.4|160.1||The model included treatment group, week, the interaction between treatment group and week, and baseline log-transformed 24-hour cough frequency as fixed effects.|Generalized estimating equations|Hypothesis tests were two-sided, a p\<0.05 indicated statistical significance. We made no adjustments for multiple comparisons across outcomes.||The primary outcome was the change from baseline in log-transformed 24-hour cough frequency (coughs/hour) at week 14.||160.1|-46.4|0.99
82392443|NCT04982575|164496023|OTHER||Treatment difference|-0.3||||0.2284|TWO_SIDED|95.0|-0.79|0.19|||Mixed Models Analysis|||The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor as factors and baseline HbA1c as a covariate using retrieved participants multiple imputation of missing data regardless of treatment or stratification.||0.19|-0.79|0.2284
82392444|NCT05711381|164496033|OTHER|PK parameters of HM15912 from the severe renal impairment group (Cohort 2) were to be estimated and compared to the control group (Cohort 1, normal renal function). A one-way analysis of variance (ANOVA) was to be used to compare log transformed PK parameters. The estimates of mean difference and corresponding 90% CIs, as well as each exponentiation of estimates, were to be presented to provide the estimates of GMR.|Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.59|1.41||||||||1.41|0.59|
82392445|NCT05711381|164496034|OTHER|PK parameters of HM15912 from the severe renal impairment group (Cohort 2) were to be estimated and compared to the control group (Cohort 1, normal renal function). A one-way analysis of variance (ANOVA) was to be used to compare log transformed PK parameters. The estimates of mean difference and corresponding 90% CIs, as well as each exponentiation of estimates, were to be presented to provide the estimates of GMR.|Geometric mean ratio|1.25|||||TWO_SIDED|90.0|0.93|1.68||||||||1.68|0.93|
82392446|NCT04322539|164496036|SUPERIORITY||Stratified Hazard Ratio|0.662|||<|0.001|TWO_SIDED|95.0|0.549|0.8||Raw unadjusted p-value was obtained by using a stratified log-rank test accounting for the randomization schedule stratification factors.|stratified log-rank test||The HR between 2 treatment groups (fruquintinib vs placebo), together with its 95 percent (%) confidence interval (CI), was calculated from a stratified Cox proportional hazards model accounting for the randomization schedule stratification factors.|||0.800|0.549|< .001
82426306|NCT04464473|164561714|SUPERIORITY|||||||0.0002|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.0002
82426307|NCT04464473|164561714|SUPERIORITY|||||||0.1339|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), contextual control, and subsystem on BOLD activation||||||0.1339
82426308|NCT04464473|164561714|SUPERIORITY|||||||0.1315|||||||ANOVA|Interaction of visit, temporal control, contextual control, and subsystem on BOLD activation||||||0.1315
82426309|NCT04464473|164561714|SUPERIORITY|||||||0.6836|||||||ANOVA|The main effect of intervention arm (FPl-TMS, MFG-TMS, S1-TMS) on overall BOLD activation.||||||0.6836
82642394|NCT00388674|165000107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.727|1.032|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.032|0.727|
82363806|NCT01730040|164438608|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.0|||<|0.0001|TWO_SIDED|99.0|-47.0|-19.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-19.0|-47.0|<0.0001
82363807|NCT01730040|164438608|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|99.0|-36.6|-8.1||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-8.1|-36.6|<0.0001
82363808|NCT01730040|164438608|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.6|||<|0.0001|TWO_SIDED|99.0|-57.4|-29.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-29.7|-57.4|<0.0001
82363809|NCT01730040|164438608|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.1|||<|0.0001|TWO_SIDED|99.0|-46.0|-18.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.3|-46.0|<0.0001
82363810|NCT01730040|164438608|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.3|||<|0.0001|TWO_SIDED|99.0|-41.4|-13.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-13.2|-41.4|<0.0001
82363811|NCT01730040|164438609|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.1|||<|0.0001|TWO_SIDED|99.0|-32.9|-13.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-13.2|-32.9|<0.0001
82363812|NCT01730040|164438609|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|99.0|-25.8|-5.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-5.8|-25.8|<0.0001
82363813|NCT01730040|164438609|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.9|||<|0.0001|TWO_SIDED|99.0|-39.4|-18.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-18.4|-39.4|<0.0001
82363814|NCT01730040|164438609|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.9|||<|0.0001|TWO_SIDED|99.0|-32.4|-11.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.4|-32.4|<0.0001
82363815|NCT01730040|164438609|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.4|||<|0.0001|TWO_SIDED|99.0|-29.1|-7.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.7|-29.1|<0.0001
82363816|NCT01730040|164438610|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.5|||<|0.0001|TWO_SIDED|99.0|-41.6|-21.3||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.3|-41.6|<0.0001
82363817|NCT01730040|164438610|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.3|||<|0.0001|TWO_SIDED|99.0|-35.4|-15.2||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-15.2|-35.4|<0.0001
82363818|NCT01730040|164438610|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.7|||<|0.0001|TWO_SIDED|99.0|-35.9|-17.5||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-17.5|-35.9|<0.0001
82363819|NCT01730040|164438610|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.2|||<|0.0001|TWO_SIDED|99.0|-31.5|-12.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.9|-31.5|<0.0001
82363820|NCT01730040|164438610|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.9|||<|0.0001|TWO_SIDED|99.0|-25.2|-6.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-6.6|-25.2|<0.0001
82642395|NCT00388674|165000108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.608|1.365|||||Hazard Ratio of ETV : Non-ETV Analyses are stratified by geographic region and prior HBV nucleoside/tide experience|||1.365|0.608|
82363821|NCT01730040|164438611|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.5|||<|0.0001|TWO_SIDED|99.0|-45.3|-21.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.6|-45.3|<0.0001
82363822|NCT01730040|164438611|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.4|||<|0.0001|TWO_SIDED|99.0|-35.2|-11.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-35.2|<0.0001
82363823|NCT01730040|164438611|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.3|||<|0.0001|TWO_SIDED|99.0|-39.0|-19.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-19.6|-39.0|<0.0001
82363824|NCT01730040|164438611|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.5|||<|0.0001|TWO_SIDED|99.0|-32.3|-12.7||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-12.7|-32.3|<0.0001
82363825|NCT01730040|164438611|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.8|||<|0.0001|TWO_SIDED|99.0|-24.7|-4.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-4.9|-24.7|<0.0001
82363826|NCT01730040|164438612|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.6|||<|0.0001|TWO_SIDED|99.0|-31.4|-13.8||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-13.8|-31.4|<0.0001
82363827|NCT01730040|164438612|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|99.0|-24.6|-7.0||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.0|-24.6|<0.0001
82363828|NCT01730040|164438612|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.1|||<|0.0001|TWO_SIDED|99.0|-26.9|-11.4||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.4|-26.9|<0.0001
82426310|NCT04464473|164561714|SUPERIORITY|||||||0.2146|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and subsystem (temporal, contextual, sensorimotor control) on overall BOLD activation.||||||0.2146
82642396|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9257|||||TWO_SIDED|95.0|0.844|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.844|
82392447|NCT04322539|164496037|SUPERIORITY||Hazard Ratio (HR)|0.321|||<|0.001|TWO_SIDED|95.0|0.267|0.386||Raw unadjusted p-value was obtained by using a stratified log-rank test accounting for the randomization schedule stratification factors.|stratified log-rank test||The HR between the 2 treatment groups (fruquintinib vs placebo), together with its 95% CI, was calculated from a stratified Cox proportional hazards model accounting for the randomization schedule stratification factors.|||0.386|0.267|< .001
82392448|NCT04322539|164496038|SUPERIORITY||Adjusted difference|1.5||||0.059|TWO_SIDED|95.0|0.4|2.7||p-value was calculated from a stratified Cochran-Mantel Haenszel test accounting for the randomization schedule stratification factors.|Cochran-Mantel-Haenszel||The adjusted difference and its 95% CI were calculated using the Wald method from Cochran-Mantel Haenszel test to account for the randomization schedule stratification factors.|||2.7|0.4|.059
82392449|NCT04322539|164496039|SUPERIORITY||Adjusted difference|39.4|||<|0.001|TWO_SIDED|95.0|32.8|46.0||p-value was calculated from a stratified Cochran-Mantel Haenszel test accounting for the randomization schedule stratification factors.|Cochran-Mantel-Haenszel||The adjusted difference and its 95% CI were calculated using the Wald method from Cochran-Mantel Haenszel test to account for the randomization schedule stratification factors.|||46.0|32.8|<.001
82392450|NCT04322539|164496045|OTHER|||||||0.06|||||||Wald test|||CminSS Based on the Starting Dose for OS Exposure-Response Analyses||||0.0600
82392451|NCT04322539|164496045|OTHER|||||||0.8065|||||||Wald test|||CminSS Based on the Adjusted RDI for OS Exposure-Response Analyses||||0.8065
82392452|NCT04322539|164496046|OTHER|||||||0.265|||||||Wald test|||CmaxSS for Gr Dermatological toxicity for Exposure-Response Analyses.||||0.265
82392453|NCT04322539|164496046|OTHER|||||||0.0159|||||||Wald test|||CmaxSS for Gr3+ Dermatological Toxicity for Exposure-Response Analyses.||||0.0159
82527767|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82392454|NCT04322539|164496046|OTHER|||||||0.484|||||||Wald test|||CmaxSS for Gr Proteinuria for Exposure-Response Analyses.||||0.484
82392455|NCT04322539|164496046|OTHER|||||||0.642|||||||Wald test|||CmaxSS for Gr3+ Proteinuria for Exposure-Response Analyses.||||0.642
82527768|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82575110|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.9|3.6|||ANOVA|||PnC 9V (Seroconversion percentage difference (PLA1 - PLA2))||3.6|-3.9|
82642397|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9321|||||TWO_SIDED|95.0|0.858|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.858|
82392456|NCT04322539|164496046|OTHER|||||||0.166|||||||Wald test|||CmaxSS for Gr Hemorrhage for Exposure-Response Analyses.||||0.166
82392457|NCT01702532|164496052|SUPERIORITY_OR_OTHER||LS Means Difference|-4.9||||0.0141|TWO_SIDED|95.0|-8.8|-0.99||The comparison between treatments was conducted in a hierarchical order; consequently no adjustment of the significance level (5%) for multiplicity was needed.|ANCOVA|ANCOVA model contains pre-provocation baseline, pre-dosing post-provocation craving score, and the terms treatment groups and center as fixed|Comment: The confidence interval is for the difference between treatments groups|Null hypotheses considered change in craving score means from pre-dose post-provocation at 50 seconds to be equal for the two treatment groups.||-0.99|-8.80|0.0141
82392458|NCT03617861|164496054|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.12
82392459|NCT03617861|164496054|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.65
82392460|NCT03617861|164496054|SUPERIORITY|||||||0.0574|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.0574
82392461|NCT03617861|164496055|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.85
82392462|NCT03617861|164496055|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.82
82392463|NCT03617861|164496055|SUPERIORITY|||||||0.1451|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.1451
82392464|NCT03617861|164496056|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.85
82392465|NCT03617861|164496056|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||1.0
82392466|NCT03617861|164496056|SUPERIORITY|||||||0.4233|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.4233
82392467|NCT03617861|164496057|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Healthy Controls Secretin vs Healthy Controls Placebo||||0.92
82392468|NCT03617861|164496057|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||1.0
82392469|NCT03617861|164496057|SUPERIORITY|||||||0.3891|||||||ANCOVA|||Healthy Controls vs Functional Dyspepsia||||0.3891
82392470|NCT03617861|164496058|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Healthy Secretin vs Healthy Placebo||||0.004
82392471|NCT03617861|164496058|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.03
82392472|NCT03617861|164496058|SUPERIORITY|||||||0.0355|||||||ANCOVA|||Healthy vs Functional Dyspepsia||||0.0355
82392473|NCT03617861|164496059|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Nausea: Healthy Controls Secretin vs Healthy Controls Placebo||||0.5
82392474|NCT03617861|164496059|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Nausea: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.16
82392475|NCT03617861|164496059|SUPERIORITY|||||||0.0016|||||||ANCOVA|||Nausea: Healthy Controls vs Functional Dyspepsia||||0.0016
82527769|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82642398|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
82363829|NCT01730040|164438612|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.4|||<|0.0001|TWO_SIDED|99.0|-23.3|-7.6||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-7.6|-23.3|<0.0001
82363830|NCT01730040|164438612|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.8|||=|0.0015|TWO_SIDED|99.0|-17.7|-1.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Analysis description as per the statistical analysis 1 of this endpoint.||-1.9|-17.7|=0.0015
82363831|NCT01730040|164438613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.7|||<|0.0001|TWO_SIDED|99.0|3.9|71.7||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||71.7|3.9|<0.0001
82363832|NCT01730040|164438613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||=|0.0284|TWO_SIDED|99.0|0.8|14.6||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||14.6|0.8|=0.0284
82363833|NCT01730040|164438613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|83.2|||<|0.0001|TWO_SIDED|99.0|11.6|596.8||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||596.8|11.6|<0.0001
82363834|NCT01730040|164438613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.2|||=|0.0025|TWO_SIDED|99.0|1.3|38.3||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||38.3|1.3|=0.0025
82363835|NCT01730040|164438613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.1|||=|0.0011|TWO_SIDED|99.0|1.6|52.2||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||52.2|1.6|=0.0011
82363836|NCT01730040|164438614|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|128.4|||<|0.0001|TWO_SIDED|99.0|14.2|1157.0||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1157|14.2|<0.0001
82363837|NCT01730040|164438614|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.9|||=|0.0015|TWO_SIDED|99.0|1.6|75.4||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||75.4|1.6|=0.0015
82363838|NCT01730040|164438614|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.7|||=|0.0008|TWO_SIDED|99.0|1.8|101.1||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||101.1|1.8|=0.0008
82575111|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-1.1|6.2|||ANOVA|||PnC 14 (Seroconversion percentage difference (PLA1 - PLA2))||6.2|-1.1|
82642399|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8699|||||TWO_SIDED|95.0|0.79|0.949||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||0.949|0.790|
82642400|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9607|||||TWO_SIDED|95.0|0.927|0.995||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||0.995|0.927|
82363839|NCT01730040|164438615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|116.8|||<|0.0001|TWO_SIDED|99.0|14.7|927.5||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||927.5|14.7|<0.0001
82363840|NCT01730040|164438615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.2|||<|0.0001|TWO_SIDED|99.0|2.5|68.8||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||68.8|2.5|<0.0001
82363841|NCT01730040|164438615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.9|||=|0.0004|TWO_SIDED|99.0|1.9|51.9||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||51.9|1.9|=0.0004
82363842|NCT01730040|164438616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|162.1|||<|0.0001|TWO_SIDED|99.0|17.3|1520.5||Threshold for significance ≤ 0.01.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||1520.5|17.3|<0.0001
82363843|NCT01730040|164438616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.8|||<|0.0001|TWO_SIDED|99.0|3.1|126.3||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||126.3|3.1|<0.0001
82363844|NCT01730040|164438616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.9|||=|0.0002|TWO_SIDED|99.0|2.2|88.1||Threshold for significance ≤ 0.01.|Regression, Logistic|||Analysis description as per the statistical analysis 1 of this endpoint.||88.1|2.2|=0.0002
82363845|NCT01730040|164438617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.1|||=|0.0004|TWO_SIDED|99.0|-36.3|-5.9||Threshold for significance ≤ 0.01.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-5.9|-36.3|=0.0004
82363846|NCT01730040|164438617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.9|||<|0.0001|TWO_SIDED|99.0|-40.2|-11.6||Threshold for significance ≤ 0.01.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-11.6|-40.2|<0.0001
82363847|NCT01730040|164438617|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-31.0|||<|0.0001|TWO_SIDED|99.0|-45.6|-16.4||Threshold for significance ≤ 0.01.|Regression, Robust|||Analysis description as per the statistical analysis 1 of this endpoint.||-16.4|-45.6|<0.0001
82363848|NCT01730040|164438618|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||=|0.4456|TWO_SIDED|99.0|-7.0|12.9||Threshold for significance ≤ 0.01.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant) for atorvastatin 40 mg baseline stratification).||12.9|-7.0|=0.4456
82363849|NCT03702049|164438646|OTHER|Change in score at 3 months|Mean Difference (Final Values)|-0.24||||0.603|TWO_SIDED||||||Mixed Models Analysis|||Change in score at 3 months||||0.603
82363850|NCT03702049|164438646|OTHER|Change at 6 months|Mean Difference (Final Values)|-0.12||||0.805|TWO_SIDED||||||Mixed Models Analysis|||6 month outcome||||0.805
82363851|NCT03702049|164438647|OTHER||Odds Ratio (OR)|0.83||||0.672|TWO_SIDED|95.0|0.39|1.79|||Regression, Logistic|||3 month outcome||1.79|0.39|0.672
82363852|NCT03702049|164438647|OTHER||Odds Ratio (OR)|0.49||||0.165|TWO_SIDED|95.0|0.18|1.34|||Regression, Logistic|||6 month outcome||1.34|0.18|0.165
82363853|NCT03702049|164438648|OTHER||Mean Difference (Final Values)|-0.31||||0.719|TWO_SIDED||||||Mixed Models Analysis|||3 month outcome||||0.719
82363854|NCT03702049|164438648|OTHER||Mean Difference (Final Values)|0.43||||0.626|TWO_SIDED||||||Mixed Models Analysis|||6 month outcome||||0.626
82363855|NCT03702049|164438649|OTHER||Mean Difference (Final Values)|0.83||||0.1668|TWO_SIDED|95.0|-0.36|2.03|||t-test, 2 sided|||||2.03|-0.36|0.1668
82363856|NCT03702049|164438650|OTHER||Mean Difference (Final Values)|1.5||||0.9198|TWO_SIDED|95.0|-29.6|32.7|||t-test, 2 sided|||3 month outcome||32.7|-29.6|0.9198
82363857|NCT03702049|164438650|OTHER||Mean Difference (Final Values)|12.5||||0.5015|TWO_SIDED|95.0|-25.6|50.7|||t-test, 2 sided|||6 month||50.7|-25.6|0.5015
82363858|NCT02678442|164438657|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82363859|NCT02678442|164438659|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82363860|NCT02678442|164438660|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82363861|NCT02678442|164438661|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||.001
82363862|NCT01117337|164438695|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.2
82363863|NCT01117337|164438696|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Fisher Exact|||||||0.56
82363864|NCT01045993|164438697|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Proportional hazards regression model|P-value calculated using proportional hazards model with treatment term only in the model.||||||0.046
82363865|NCT01045993|164438698|NON_INFERIORITY_OR_EQUIVALENCE|The statistical alternative hypothesis tested is that the survival curves of time to first perceptible relief confirmed by meaningful relief are not identical between two treatment groups, or equivalently, the hazard ratio between two treatment groups is not equal to 1.||||||0.046|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Proportional hazards regression model|P-value calculated using proportional hazards model with treatment term only in the model.||||||0.046
82363866|NCT01045993|164438699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value calculated using analysis of variance (ANOVA) model with treatment term only in the model.||||||<0.001
82363867|NCT01045993|164438700|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value calculated using ANOVA model with treatment term only in the model.||||||0.002
82363868|NCT01045993|164438702|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||60 minutes timepoint||||0.012
82363869|NCT01045993|164438702|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||120 minutes timepoint||||0.016
82363870|NCT01045993|164438702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||180 minutes timepoint||||<0.001
82363871|NCT01045993|164438702|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||240 minutes timepoint||||0.002
82363872|NCT01045993|164438702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||300 minutes timepoint||||<0.001
82363873|NCT01045993|164438702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||360 minutes timepoint||||<0.001
82363874|NCT01045993|164438702|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||420 minutes timepoint||||0.003
82363875|NCT01045993|164438702|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||480 minutes timepoint||||0.001
82444306|NCT03495102|164597210|SUPERIORITY||Mean Difference (Net)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.45|-0.22|||Mixed Models Analysis|||||-0.22|-0.45|<0.001
82444307|NCT03495102|164597211|SUPERIORITY||Mean Difference (Net)|-0.9||||0.001|TWO_SIDED|95.0|-1.4|-0.4|||Mixed Models Analysis|||||-0.4|-1.4|0.001
82363876|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||60 minutes timepoint||||0.012
82363877|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||120 minutes timepoint||||0.002
82363878|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||180 minutes timepoint||||0.033
82363879|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||240 minutes timepoint||||0.096
82363880|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||300 minutes timepoint||||0.002
82363881|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||360 minutes timepoint||||0.005
82363882|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||420 minutes timepoint||||0.008
82363883|NCT01045993|164438703|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||480 minutes timepoint||||0.004
82392476|NCT03617861|164496059|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Fullness: Healthy Controls Secretin vs Healthy Controls Placebo||||0.10
82392477|NCT03617861|164496059|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Fullness: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.30
82392478|NCT03617861|164496059|SUPERIORITY|||||||0.0002|||||||ANCOVA|||Fullness: Healthy Controls vs Functional Dyspepsia||||0.0002
82392479|NCT03617861|164496059|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Bloating: Healthy Controls Secretin vs Healthy Controls Placebo||||0.41
82392480|NCT03617861|164496059|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Bloating Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.67
82392481|NCT03617861|164496059|SUPERIORITY|||||||0.033|||||||ANCOVA|||Bloating: Healthy Controls vs Functional Dyspepsia||||0.0330
82392482|NCT03617861|164496059|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Abdominal Pain: Healthy Controls Secretin vs Healthy Controls Placebo||||0.25
82642401|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9948|||||TWO_SIDED|95.0|0.985|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.985|
82363884|NCT01045993|164438704|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.268
82363885|NCT01045993|164438704|SUPERIORITY_OR_OTHER|||||||0.419||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.419
82392483|NCT03617861|164496059|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Abdominal Pain: Functional Dyspepsia Secretin vs Functional Dyspepsia Placebo||||0.57
82392484|NCT03617861|164496059|SUPERIORITY|||||||0.2375|||||||ANCOVA|||Abdominal Pain: Healthy Controls vs Functional Dyspepsia||||0.2375
82392485|NCT01846221|164496086|OTHER|||||||0.38|||||||ANOVA|||||||0.38
82392486|NCT04599933|164496091|SUPERIORITY||Odds Ratio (OR)|2.916|||<|0.01|TWO_SIDED|95.0|1.663|5.113|||Regression, Logistic|||All treatment comparisons for primary and secondary endpoints related to BDCVA were conducted with a logistic regression model including fixed effects of baseline BDCVA at 40 cm as a covariate and treatment.||5.113|1.663|<0.01
82392487|NCT04599933|164496092|SUPERIORITY||Odds Ratio (OR)|3.035|||<|0.01|TWO_SIDED|95.0|1.736|5.305|||Regression, Logistic|||||5.305|1.736|<0.01
82392488|NCT04599933|164496093|SUPERIORITY||Odds Ratio (OR)|4.751|||<|0.01|TWO_SIDED|95.0|2.694|8.379|||Regression, Logistic|||||8.379|2.694|<0.01
82392489|NCT04599933|164496094|SUPERIORITY||Odds Ratio (OR)|3.422|||<|0.01|TWO_SIDED|95.0|1.923|6.09|||Regression, Logistic|||||6.090|1.923|<0.01
82392490|NCT02339155|164496128|NON_INFERIORITY|If the upper bound of the 90% confidence interval (CI) or the ratio of anti-PA Ab (attributable to AVA) GMCs between the AVA and the AVA + raxibacumab groups at Week 4 is less than 1.5, non-inferiority was to be established.|Ratio|1.18||||0.0016|TWO_SIDED|90.0|1.03|1.35|||t-test, 1 sided|||||1.35|1.03|0.0016
82392491|NCT02339155|164496129|OTHER||Ratio|1.09|||||TWO_SIDED|90.0|0.98|1.22|||t-test, 1 sided||Week 8|||1.22|0.98|
82392492|NCT02339155|164496129|OTHER||Ratio|0.98|||<|0.0001|TWO_SIDED|90.0|0.89|1.07|||t-test, 1 sided||Week 26|||1.07|0.89|<0.0001
82392493|NCT01643798|164496169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82392494|NCT01643798|164496169|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
82392495|NCT01643798|164496170|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANOVA|||||||.0003
82392496|NCT01643798|164496170|SUPERIORITY_OR_OTHER|||||||0.794||95.0|||||ANOVA|||||||0.794
82392497|NCT02102100|164496177|OTHER||Mean Difference (Net)|0.9436|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Least square means and standard errors were calculated to describe the patterns of means for each outcome. Effect slices were tested to explain significant interactions in the models. Pairwise comparisons of least square means were used to describe significant main effects.||||<.0001
82363886|NCT01045993|164438704|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.086
82363887|NCT01045993|164438705|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.067
82363888|NCT01045993|164438705|SUPERIORITY_OR_OTHER|||||||0.757||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.757
82363889|NCT01045993|164438705|SUPERIORITY_OR_OTHER|||||||0.219||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.219
82363890|NCT01045993|164438706|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.043
82363891|NCT01045993|164438706|SUPERIORITY_OR_OTHER|||||||0.388||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.388
82363892|NCT01045993|164438706|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.039
82363893|NCT01045993|164438707|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.797
82363894|NCT01045993|164438708|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.371
82363895|NCT01045993|164438709|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||||||0.122
82363896|NCT01045993|164438710|SUPERIORITY_OR_OTHER|||||||0.355||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.355
82363897|NCT01045993|164438710|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.371
82363898|NCT01045993|164438710|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-values from ANOVA model with treatment treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.216
82363899|NCT01045993|164438711|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.054
82575112|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|2.9|||ANOVA|||PnC 18C (Seroconversion percentage difference (PLA1 - PLA2))||2.9|-4.8|
82363900|NCT01045993|164438711|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.600
82363901|NCT01045993|164438711|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.294
82363902|NCT01045993|164438712|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Maximum degrees||||0.088
82363903|NCT01045993|164438712|SUPERIORITY_OR_OTHER|||||||0.625||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Minus 5 degrees||||0.625
82363904|NCT01045993|164438712|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|ANOVA|P-value from ANOVA model with treatment term only in the model.||At Plus 5 degrees (beyond maximum)||||0.034
82363905|NCT01045993|164438713|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistically significant treatment difference was declared if the probability of random occurrence between the treatment groups p-value was ≤0.05.|Cochran-Mantel-Haenszel|P-value from the Cochran-Mantel-Haenszel test with modified ridit scores.||||||<0.001
82363906|NCT01659736|164438715|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||p-value is for the condition (active TMS versus Sham) by time (pre, post, 3-month follow-up) interaction|ANOVA|||||||0.006
82426311|NCT04464473|164561714|SUPERIORITY|||||||0.1541|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on BOLD activation||||||0.1541
82426312|NCT04464473|164561714|SUPERIORITY|||||||0.6657|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on BOLD activation||||||0.6657
82392498|NCT01349322|164496189|NON_INFERIORITY|Non-inferiority is defined as a hazard ratio upper limit of 2.12.|Hazard Ratio (HR)|1.32||||0.039|TWO_SIDED|90.0|0.84|2.05|||Regression, Cox||Cause-specific hazard ratio; reference level = Arm 1.|"Assuming Arm 1 5-year IBR of 1.59%, for hypothesized upper bound hazard ratio (HR) of 2.12 (Arm 2 5-year IBR of 3.33%), 46 IBR events provide \>80% power to conclude non-inferiority with one-sided significance level = 0.05. Null hypothesis: HR ≥ 2.12 (inferior). Alternative hypothesis: HR \< 2.12 (non-inferior). See Limitations and Caveats section."||2.05|0.84|0.039
82527770|NCT01216163|164751447|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82575113|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-4.8|2.9|||ANOVA|||PnC 19F (Seroconversion percentage difference (PLA1 - PLA2))||2.9|-4.8|
82642402|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
82363907|NCT00391079|164438720|SUPERIORITY_OR_OTHER||Estimated treatment effect|-0.17||||0.468|TWO_SIDED|95.0|-0.62|0.29|||ANCOVA|||The change in pain NRS score from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||0.29|-0.62|0.468
82363908|NCT00391079|164438721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.309||||0.2338|TWO_SIDED|95.0|0.84|2.038|||Regression, Logistic|||The proportions of responders were compared between the treatment groups using logistic regression with region and treatment groups as factors. The null hypothesis was that there was no difference between each Sativex and placebo.||2.038|0.840|0.2338
82363909|NCT00391079|164438722|SUPERIORITY_OR_OTHER||Estimated treatment effect|-1.83||||0.3103|TWO_SIDED|95.0|-5.39|1.72|||ANOVA||A negative difference in estimated treatment effect indicates an improvement in pain in favour of Sativex.|The change in NPS score from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||1.72|-5.39|0.3103
82392499|NCT01349322|164496190|SUPERIORITY|||||||0.96||||||Two-sided significance level = 0.05|Log Rank|||||||0.96
82392500|NCT01349322|164496191|SUPERIORITY|||||||0.14||||||Two-sided significance level = 0.05.|Log Rank|||||||0.14
82392501|NCT01349322|164496192|SUPERIORITY|||||||0.34||||||Two-sided significance level = 0.05|Log Rank|||||||0.34
82363910|NCT00391079|164438723|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.24||||0.1567|TWO_SIDED|95.0|-0.57|0.09|||ANCOVA||A negative difference in estimated treatment difference indicates a reduction in breakthrough analgesic medication in favour of Sativex.|The change in average number of tablets taken daily from baseline to the end of study was analyzed using analysis of covariance (ANCOVA) with the baseline value as a covariate and centre group and treatment as factors.||0.09|-0.57|0.1567
82363911|NCT00391079|164438724|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.12||||0.5643|TWO_SIDED|95.0|-0.53|0.29|||ANCOVA||A negative difference in estimated means indicates an improvement in pain in favour of Sativex.|||0.29|-0.53|0.5643
82363912|NCT00391079|164438725|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.47||||0.0552|TWO_SIDED|95.0|0.991|2.179|||Regression, Logistic||An odds ratio of greater than 1 indicates and improvement in favour of Sativex.|||2.179|0.991|0.0552
82363913|NCT00391079|164438726|SUPERIORITY_OR_OTHER||estimated treatment difference|0.05||||0.833|TWO_SIDED|95.0|-0.39|0.48|||ANCOVA||A negative difference in estimated treatment difference indicates an improvement in sleep quality in favour of Sativex.|||0.48|-0.39|0.8330
82392502|NCT01349322|164496194|NON_INFERIORITY|Null hypothesis (H0) of inferiority: the mean change in cosmetic subscale score in Arm 2 will be at least 0.4 standard deviations worse than in Arm 1. If H0 is rejected, then non-inferiority can be concluded.|Mean Difference (Final Values)|0.026|STANDARD_DEVIATION|0.62|<|0.0001|TWO_SIDED|95.0|-0.08|0.13||One-side significance level = 0.025|t-test, 1 sided|||||0.13|-0.08|<0.0001
82392503|NCT02634268|164496223|SUPERIORITY||Mean Difference (Final Values)|42.3||||0.02|TWO_SIDED|95.0|7.93|76.6|||Mixed Models Analysis|Difference in average six minute walk test distance at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month six minute walk test distance between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||76.6|7.93|.02
82426313|NCT04464473|164561714|SUPERIORITY|||||||0.5619|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on BOLD activation||||||0.5619
82426314|NCT04464473|164561714|SUPERIORITY|||||||0.5148|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.5148
82426315|NCT04464473|164561714|SUPERIORITY|||||||0.5428|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), contextual control, and subsystem (temporal, contextual, sensorimotor) on BOLD activation||||||0.5428
82426316|NCT04464473|164561714|SUPERIORITY|||||||0.1249|||||||ANOVA|Interaction of intervention, temporal control, contextual control, and subsystem on BOLD activation||||||0.1249
82426317|NCT04464473|164561715|SUPERIORITY|||||||0.9504|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on error rate||||||0.9504
82426318|NCT04464473|164561715|SUPERIORITY|||||||0.7318|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control on error rate||||||0.7318
82426319|NCT04464473|164561715|SUPERIORITY|||||||0.8424|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control on error rate||||||0.8424
82426320|NCT04464473|164561715|SUPERIORITY|||||||0.7652|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control on error rate||||||0.7652
82363914|NCT00474851|164438734|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||p (within group for subjects receiving norethindrone + conjugated estrogens)=0.05 p (within group for subjects receiving norethindrone + placebo)=0.65 p (between the two groups)=0.10|RMANOVA|||"Analysis followed the intention-to-treat principle. The time course of each measurement from baseline to 3, 6, 9, and 12 months was compared between arms by repeated-measures analysis of variance (RM-ANOVA), with an autoregressive covariance model to account for visit-to-visit correlation within subjects.~The primary test of treatment efficacy was time × treatment interaction. Adjusted changes over time and differences between trial arms were constructed from parameters of the RMANOVA."||||0.10
82642403|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.0000|1.0000|
82363915|NCT00474851|164438735|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||p (within group for participants receiving norethindrone + estrogens)=0.0001 p (within group for participants receiving norethindrone + placebo)=0.31 p (between groups)=0.02|RMANOVA|||"The time course of each measurement from baseline to 3, 6, 9, and 12 months was compared between arms by repeated-measures analysis of variance (RM-ANOVA), with an autoregressive covariance model to account for visit-to-visit correlation within subjects.~The primary test of treatment efficacy was time × treatment interaction. Adjusted changes over time and differences between trial arms were constructed from parameters of the RMANOVA."||||0.02
82363916|NCT01746264|164438737|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||P-value for change from baseline to 3 month follow-up.||||0.59
82363917|NCT01746264|164438738|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow up visit.||||<0.001
82363918|NCT01746264|164438739|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||<0.01
82363919|NCT01746264|164438741|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.32
82363920|NCT01746264|164438742|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3-month follow-up.||||0.21
82363921|NCT01746264|164438743|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.02
82363922|NCT01746264|164438744|SUPERIORITY_OR_OTHER|||||||0.0123|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.0123
82363923|NCT01746264|164438745|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.09
82363924|NCT01746264|164438746|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.27
82642404|NCT02118896|165000121|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9773|||||TWO_SIDED|95.0|0.933|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from BCAR at EOS was calculated using Greenwood's formula.||1.000|0.933|
82642405|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8391|||||TWO_SIDED|95.0|0.729|0.949||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.949|0.729|
82363925|NCT01746264|164438747|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.18
82363926|NCT01746264|164438748|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.33
82363927|NCT01746264|164438749|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.05
82363928|NCT01746264|164438750|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.41
82363929|NCT01746264|164438751|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.32
82363930|NCT01746264|164438752|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 3 month follow-up.||||0.47
82363931|NCT02791893|164438753|SUPERIORITY|||||||0.47||||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention pain severity was regressed on pre-intervention pain severity and condition, using an ANCOVA model.||||0.47
82363932|NCT02791893|164438753|SUPERIORITY|||||||0.58||||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase are not included limiting the sample to 10 subjects in each condition (N=20). Post-intervention pain severity was regressed on pre-intervention pain severity and condition, using an ANCOVA model.||||0.58
82363933|NCT02791893|164438754|SUPERIORITY|||||||0.23||||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was an independent t-test comparing the conditions on their perception of change since starting the intervention.||"A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase were assigned a score of 1 indicating no change in their condition. Post-intervention PGIC scores were compared between conditions."||||0.23
82363934|NCT02791893|164438754|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.23|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was an independent t-test comparing the conditions on their perception of change since starting the intervention.|Condition difference = Active - Sham|Below are the results of the per protocol analysis. Post-intervention PGIC scores were compared between conditions.||||0.23
82426321|NCT04464473|164561716|SUPERIORITY|||||||0.0266|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on error rate||||||0.0266
82426322|NCT04464473|164561716|SUPERIORITY|||||||0.2386|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return) and contextual control on error rate||||||0.2386
82392504|NCT02634268|164496224|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0008|TWO_SIDED|95.0|-0.63|-0.09|||Mixed Models Analysis|Difference in average Modified Borg Scale score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month Modified Borg Scale score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.09|-0.63|.0008
82392505|NCT02634268|164496225|SUPERIORITY||Mean Difference (Final Values)|-1.34||||0.0008|TWO_SIDED|95.0|-2.33|-0.34|||Mixed Models Analysis|Difference in average body weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month body weight between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.34|-2.33|0.0008
82392506|NCT02634268|164496226|SUPERIORITY||Mean Difference (Final Values)|1.48||||0.01|TWO_SIDED|95.0|0.35|2.6|||Mixed Models Analysis|Difference in average SF-12 PCS at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SF-12 PCS between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||2.60|0.35|0.01
82392507|NCT02634268|164496227|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.45|TWO_SIDED|95.0|-0.84|1.89|||Mixed Models Analysis|Difference in average SF-12 MCS at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SF-12 MCS between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||1.89|-0.84|0.45
82392508|NCT02634268|164496228|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.009|TWO_SIDED|95.0|-0.71|-0.1|||Mixed Models Analysis|Difference in average Framingham Risk Score at 12 months between control and intervention groups.||Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month Framingham Risk Score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.10|-0.71|0.009
82392509|NCT02634268|164496229|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.13|TWO_SIDED|95.0|-2.12|0.26|||Mixed Models Analysis|Difference in average waist circumference at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month waist circumference between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||0.26|-2.12|0.13
82392510|NCT02634268|164496230|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.64|TWO_SIDED|95.0|-3.02|1.84|||Mixed Models Analysis|Difference in average 12 month systolic blood at 12 months between control and intervention groups|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month systolic blood pressure between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||1.84|-3.02|0.64
82392511|NCT02634268|164496231|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.004|TWO_SIDED|95.0|-0.85|-0.17|||Mixed Models Analysis|Difference in average BMI at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month BMI between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.17|-0.85|0.004
82392512|NCT02634268|164496232|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.09|TWO_SIDED|95.0|-4.87|0.36|||Mixed Models Analysis|Difference in average SGRQ-C Symptom score at 12 months between control and intervention groups.||Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Symptom score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|0.36|-4.87|0.09
82426323|NCT04464473|164561716|SUPERIORITY|||||||0.4211|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control on error rate||||||0.4211
82426324|NCT04464473|164561716|SUPERIORITY|||||||0.7503|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return) and contextual control on error rate||||||0.7503
82426325|NCT04464473|164561717|SUPERIORITY|||||||0.0091|||||||ANOVA|Interaction of Visit (Baseline, MFG-cTBS, FPl-cTBS, S1), Temporal Control, and Contextual Control on error rate||||||0.0091
82527771|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|26.4|||<|0.001|TWO_SIDED|95.0|15.87|36.93||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.93|15.87|<0.001
82426326|NCT04464473|164561717|SUPERIORITY|||||||0.0045|||||||ANOVA|Interaction of Visit (Baseline, MFG-cTBS, FPl-cTBS, S1), phase (sub-task, return), Temporal Control, and Contextual Control on error rate||||||0.0045
82363935|NCT02791893|164438755|SUPERIORITY||Mean Difference (Final Values)|12.88||||0.13|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention physical function scores was regressed on pre-intervention physical function and condition, using an ANCOVA model.||||0.13
82642406|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8792|||||TWO_SIDED|95.0|0.778|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula..||0.981|0.778|
82363936|NCT02791893|164438755|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.12|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA|||Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention physical function scores was regressed on pre-intervention physical function and condition, using an ANCOVA model.||||0.12
82363937|NCT02791893|164438756|SUPERIORITY||Mean Difference (Final Values)|-5.71||||0.58|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention headache days was regressed on pre-intervention headache days and condition, using an ANCOVA model.||||0.58
82363938|NCT02791893|164438756|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.49|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention headache days was regressed on pre-intervention headache days and condition, using an ANCOVA model.||||0.49
82363939|NCT02791893|164438757|SUPERIORITY||Mean Difference (Final Values)|-1.42||||0.18|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|A power analysis was conducted with G\*Power, specifying a standard Type I error (α = .05) and desired power of .80. Results indicated that a total sample of 26 would be sufficient. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention depression scores were regressed on pre-intervention depression scores and condition, using an ANCOVA model.||||0.18
82363940|NCT02791893|164438757|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.25|TWO_SIDED|||||The a priori threshold for statistical significance was p = 0.05.|ANCOVA||Condition difference = Active - Sham|Below are the results of the per protocol analysis. Patients that did not complete the assessment after the blinded phase had their baseline scores carried forward. Post-intervention depression scores were regressed on pre-intervention depression scores and condition, using an ANCOVA model.||||0.25
82363941|NCT02791893|164438758|SUPERIORITY|||||||0.004||||||The a priori threshold for statistical significance was p = 0.05.|t-test, 2 sided|This was a dependent t-test comparing pre-intervention scores to the scores collected at the end of the open label phase.||Regardless of original condition assignment, patients' 2.5-month pain scores at the end of the open label phase were compared to their baseline scores using a dependent samples t-test. Below are the results of the intent-to-treat analysis. Patients that did not complete the assessment after the open-label phase had their most recent score carried forward. All patients included in this comparison received at least 10 weeks of VNS therapy.||||0.004
82363942|NCT02791893|164438758|SUPERIORITY|||||||0.005||||||This was a dependent t-test comparing baseline scores to the scores collected at the end of the open label phase.|t-test, 2 sided|||Regardless of original condition assignment, patients' 2.5-month pain scores at the end of the open label phase were compared to their baseline scores using a dependent samples t-test. Below are the results of the per protocol analysis. Patients that did not complete the assessment after the open-label phase were excluded. All patients included in this comparison received at least 10 weeks of VNS therapy.||||0.005
82363943|NCT04578886|164438773|SUPERIORITY||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|3.7||0.22|TWO_SIDED|95.0|2.3|4.4|||t-test, 2 sided|||||4.4|2.3|0.22
82363944|NCT04578886|164438773|SUPERIORITY||Risk Ratio (RR)|1.3307||||0.015|TWO_SIDED|95.0|1.0571|1.6751||unadjusted for covariates|Regression, Linear|||"Null Hypothesis: The administration of guanfacine in critically ill patients in the intensive unit has no effect on the duration of delirium.~Continuous variables will be summarized using sample mean and sample variance whereas categorical variables will be summarized as proportions. Logistic regression models will examine whether age, gender, or comorbities associated with incidence of delirium when Guanfacine is administered."||1.6751|1.0571|0.0150
82363945|NCT03053583|164438782|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||Posthoc analysis of POGO scores were compared using the Kruskall Wallis test with Mann-WHitney test for pairwise comparisons||||<0.05
82444308|NCT03495102|164597211|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-2.1|-1.1|||Mixed Models Analysis|||||-1.1|-2.1|<0.001
82444309|NCT03495102|164597212|SUPERIORITY||Odds Ratio (OR)|1.49||||0.006|TWO_SIDED|95.0|1.12|1.98|||Regression, Logistic|||||1.98|1.12|0.006
82444310|NCT03495102|164597212|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.001|TWO_SIDED|95.0|1.65|3.01|||Regression, Logistic|||||3.01|1.65|<0.001
82444311|NCT03495102|164597213|SUPERIORITY||Mean Difference (Net)|-3.7||||0.084|TWO_SIDED|95.0|-7.8|0.5|||Mixed Models Analysis|||||0.5|-7.8|0.084
82444312|NCT03495102|164597213|SUPERIORITY||Mean Difference (Net)|-8.1|||<|0.001|TWO_SIDED|95.0|-12.3|-3.9|||Mixed Models Analysis|||||-3.9|-12.3|<0.001
82642407|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8816|||||TWO_SIDED|95.0|0.782|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.981|0.782|
82642408|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.7769|||||TWO_SIDED|95.0|0.675|0.878||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.878|0.675|
82363946|NCT03005067|164438785|OTHER||Mean Difference (Net)|0.137||||0.516|TWO_SIDED|95.0|-0.279|0.553||P-value was based on the Wald statistic Chi-Square test, from an ANCOVA model with treatment, center, and Day 1 dosing time stratification as factors and baseline NSS (Day 1 prior to the first dose) as a covariate.|ANCOVA||Difference of LS mean is 1146A Formulation Nasal Spray - Placebo Nasal Spray. 95% CI is for difference of LS means.|||0.553|-0.279|0.516
82363947|NCT02296853|164438793|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|54.04|||||TWO_SIDED|90.0|41.98|69.56|||||Here, GLSM is geometric least square mean.|TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||69.56|41.98|
82363948|NCT02296853|164438793|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|63.06|||||TWO_SIDED|90.0|42.9|92.7||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||92.70|42.90|
82363949|NCT02296853|164438793|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|94.42|||||TWO_SIDED|90.0|72.48|122.99||||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||122.99|72.48|
82363950|NCT02296853|164438794|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|45.1|||||TWO_SIDED|90.0|31.66|64.25||||||TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||64.25|31.66|
82363951|NCT02296853|164438794|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|89.88|||||TWO_SIDED|90.0|64.77|124.72||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||124.72|64.77|
82363952|NCT02296853|164438794|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|82.16|||||TWO_SIDED|90.0|56.58|119.31||"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||119.31|56.58|
82363953|NCT02296853|164438795|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|51.2|||||TWO_SIDED|90.0|40.11|65.36||||||TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||65.36|40.11|
82392513|NCT02634268|164496233|SUPERIORITY||Mean Difference (Final Values)|-2.31||||0.12|TWO_SIDED|95.0|-5.19|0.56|||Mixed Models Analysis|Difference in average SGRQ-C Activity score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Activity score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||0.56|-5.19|0.12
82392514|NCT02634268|164496234|SUPERIORITY||Mean Difference (Final Values)|-2.72||||0.03|TWO_SIDED|95.0|-5.19|-0.25|||Mixed Models Analysis|Difference in average SGRQ-C Impact score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12 month SGRQ-C Impact score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.25|-5.19|0.03
82392515|NCT02634268|164496235|SUPERIORITY||Mean Difference (Final Values)|-2.42||||0.03|TWO_SIDED|95.0|-4.55|-0.28|||Mixed Models Analysis|Difference in average SGRQ-C Total score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis, including participants with a measurement at baseline and/or 12 months, comparing the average 12-month SGRQ-C Total score between control and intervention groups. Our analysis controlled for smoking and before/during the COVID-19 pandemic with fixed effects, while random effects were used for multiple measurement on individuals and study sites.||-0.28|-4.55|0.03
82392516|NCT01482962|164496239|SUPERIORITY||Odds Ratio (OR)|0.6||||0.038|TWO_SIDED|95.0|0.33|1.08||P-value was stratified using disease type, International Prognostic Index (IPI) Score and region as stratification factors.|Cochran-Mantel-Haenszel|||||1.08|0.33|0.038
82392517|NCT01482962|164496240|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.177|TWO_SIDED|95.0|0.637|1.178|||Stratified Log Rank||Hazard ratio (HR) was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.178|0.637|0.177
82392518|NCT01482962|164496241|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.338|TWO_SIDED|95.0|0.707|1.369|||Stratified Log-rank Test||Hazard ratio (HR) was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.369|0.707|0.338
82392519|NCT01482962|164496246|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.362|TWO_SIDED|95.0|0.679|1.329|||Stratified Log Rank||Hazard ratio was based on a stratified Cox's proportional hazard regression model with stratification factors: disease type, IPI Score and region with treatment as a factor in the model.|||1.329|0.679|0.362
82527772|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|3.53||||0.602|TWO_SIDED|95.0|-9.85|16.91||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.91|-9.85|0.602
82363954|NCT02296853|164438795|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|62.04|||||TWO_SIDED|90.0|41.92|91.82||||||TFV: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||91.82|41.92|
82363955|NCT02296853|164438795|EQUIVALENCE|"Sample size calculations were done in Query Advisor 6.0 by using the Two-group t-test of equal means (equal n's) module with α (one-sided) = 0.05, upper equivalence limit = ln(2.0) = 0.691, and expected difference = 0."|GLSM ratio percentage|93.28|||||TWO_SIDED|90.0|72.62|119.8||||||Free (unbound) TAF: Severe Hepatic Impairment Group vs. Matched Normal Hepatic Function Group||119.8|72.62|
82363956|NCT02462486|164438819|NON_INFERIORITY|For hypothesis testing, if the lower limit of the 95.1% confidence interval for the difference between an abicipar group and ranibizumab is greater than or equal to -10%, non-inferiority of abicipar group is established.|Percentage Difference|-1.2|||||TWO_SIDED|95.0|-5.0|2.4|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||2.4|-5.0|
82363957|NCT02462486|164438819|NON_INFERIORITY|For hypothesis testing, if the lower limit of the 95.1% confidence interval for the difference between an abicipar group and ranibizumab is greater than or equal to -10%, non-inferiority of abicipar group is established.|Percentage Difference|-4.6|||||TWO_SIDED|95.0|-9.0|-0.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||-0.5|-9.0|
82363958|NCT02462486|164438820|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.1|-2.4|2.0|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||2.0|-2.4|
82363959|NCT02462486|164438820|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.1|-3.8|0.6|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||0.6|-3.8|
82363960|NCT02462486|164438821|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.1|-7.1|14.0|||||MMRM included treatment, region, BL BCVA, BL CRT, choroidal neovascularization lesion type, visit, visit-by-baseline CRT interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||14.0|-7.1|
82363961|NCT02462486|164438821|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.1|-4.7|16.5|||||MMRM included treatment, region, BL BCVA, BL CRT, choroidal neovascularization lesion type, visit, visit-by-baseline CRT interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||16.5|-4.7|
82363962|NCT02462486|164438822|SUPERIORITY||Percentage Difference|1.4|||||TWO_SIDED|95.0|-5.5|8.4|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||8.4|-5.5|
82363963|NCT02462486|164438822|SUPERIORITY||Percentage Difference|-2.3|||||TWO_SIDED|95.0|-9.1|4.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||4.5|-9.1|
82363964|NCT02462486|164438823|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.1|-3.5|0.3|||||MMRM included treatment group, region, baseline BCVA in the study eye, baseline VFQ score, visit, and treatment by visit interaction as fixed covariates using an unstructured covariance matrix.|||0.3|-3.5|
82392520|NCT02505334|164496290|SUPERIORITY|Superiority of liraglutide 1.8 mg/day vs. liraglutide 0.9 mg/day was to be considered confirmed if the 95% confidence interval for the treatment difference (liraglutide 1.8 mg/day minus liraglutide 0.9 mg/day) for change from baseline in HbA1c (% of HbA1c) was entirely below 0%, equivalent to a one-sided test with significance level of 2.5%.|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.55|-0.24|||ANCOVA|||Missing data was imputed using the LOCF method. The change from baseline in the response after 26 weeks of treatment was analysed using an ANCOVA model with treatment as a fixed effect and baseline response as a covariate.||-0.24|-0.55|<0.0001
82363965|NCT02462486|164438823|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.1|-3.9|-0.1|||||MMRM included treatment group, region, baseline BCVA in the study eye, baseline VFQ score, visit, and treatment by visit interaction as fixed covariates using an unstructured covariance matrix.|||-0.1|-3.9|
82363966|NCT02310763|164438841|SUPERIORITY||Mean Difference (Net)|1.293|STANDARD_ERROR_OF_MEAN|1.022||0.2088|TWO_SIDED|95.0|-0.7343|3.32||The significance level is 0.05.|ANCOVA||Least square mean difference was calculated by placebo minus domagrozumab.|||3.3200|-0.7343|0.2088
82363967|NCT02310763|164438845|SUPERIORITY||Mean Difference (Net)|-0.0845||||0.9191|TWO_SIDED|95.0|-1.7354|1.5663||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||1.5663|-1.7354|0.9191
82363968|NCT02310763|164438845|SUPERIORITY||Mean Difference (Net)|0.5837||||0.7642|TWO_SIDED|95.0|-3.2978|4.4652||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.4652|-3.2978|0.7642
82363969|NCT02310763|164438845|SUPERIORITY||Mean Difference (Net)|0.2712||||0.9423|TWO_SIDED|95.0|-7.3799|7.9223||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||7.9223|-7.3799|0.9423
82363970|NCT02310763|164438846|SUPERIORITY||Mean Difference (Net)|0.0||||0.9993|TWO_SIDED|95.0|-0.0693|0.0693||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||0.0693|-0.0693|0.9993
82363971|NCT02310763|164438846|SUPERIORITY||Mean Difference (Net)|-0.0259||||0.5464|TWO_SIDED|95.0|-0.1107|0.0589||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||0.0589|-0.1107|0.5464
82363972|NCT02310763|164438846|SUPERIORITY||Mean Difference (Net)|-0.042||||0.3041|TWO_SIDED|95.0|-0.1227|0.0386||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||0.0386|-0.1227|0.3041
82363973|NCT02310763|164438847|SUPERIORITY||Mean Difference (Net)|0.8||||0.3522|TWO_SIDED|95.0|-0.9|2.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||2.5|-0.9|0.3522
82392521|NCT01629823|164496366|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.51|TWO_SIDED|95.0|0.44|1.5||Comparison of 5cm group to control. No adjustment for multiple comparisons.|Regression, Linear|||Both the 5 and 10cm groups were compared to the control group, \<1cm H₂O||1.50|0.44|0.51
82392522|NCT01629823|164496366|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.57|TWO_SIDED|95.0|0.47|1.52|||Regression, Linear|||||1.52|0.47|0.57
82392523|NCT01683422|164496412|SUPERIORITY|The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.||||||0.1|||||||t-test, 1 sided|||In the RTOG 9812 (NCT00003591) for unresectable pancreatic cancer, a one-year survival rate of 43% was observed. There were 109 analyzable patients on NCT00003591 with 61 still at risk for death at one year. Using the method of Dixon and Simon, a sample size of 39 analyzable patients followed over 12 months will ensure at least 90% probability of detecting a minimum of 17% improvement in the one-year survival rate compared to NCT00003591 at the 0.10 significance level (with a one-sided test).||||0.1
82392524|NCT04972968|164496428|SUPERIORITY||Cox Proportional Hazard|0.49||||0.012|TWO_SIDED|95.0|0.273|0.878||P-value \<= 0.05|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\].||||0.878|0.273|0.012
82392525|NCT04972968|164496428|SUPERIORITY||Cox Proportional Hazard|0.443||||0.004|TWO_SIDED|95.0|0.248|0.794||P-value \<= 0.01|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\]||||0.794|0.248|0.004
82363974|NCT02310763|164438847|SUPERIORITY||Mean Difference (Net)|2.5||||0.0061|TWO_SIDED|95.0|0.7|4.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.2|0.7|0.0061
82392526|NCT04972968|164496428|SUPERIORITY||Cox Proportional Hazard|0.198|||<|0.001|TWO_SIDED|95.0|0.094|0.419||P-value \<= 0.001|Log Rank|Stratified by baseline randomization stratification factors \[Glucocorticoid use at Baseline (\>= 10 mg/day; \< 10 mg/day prednisone equivalent)\]||||0.419|0.094|<0.001
82392527|NCT04972968|164496429|SUPERIORITY||Mean Difference (Net)|18.7||||0.107|TWO_SIDED|95.0|-4.0|41.4|||Cochran-Mantel-Haenszel||From Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid (GC) use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||41.4|-4.0|0.107
82392528|NCT04972968|164496429|SUPERIORITY||Mean Difference (Net)|18.9||||0.092|TWO_SIDED|95.0|-3.1|41.0||P-value ≤ 0.1|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||41.0|-3.1|0.092
82527773|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|22.72||||0.001|TWO_SIDED|95.0|12.39|33.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||33.05|12.39|0.001
82527774|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|60.37|||<|0.001|TWO_SIDED|95.0|48.61|72.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||72.12|48.61|<0.001
82363975|NCT02310763|164438847|SUPERIORITY|Week 49|Mean Difference (Net)|1.6||||0.1268|TWO_SIDED|95.0|-0.5|3.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|||3.8|-0.5|0.1268
82392529|NCT04972968|164496429|SUPERIORITY||Mean Difference (Net)|41.9|||<|0.001|TWO_SIDED|95.0|21.4|62.3||P-value ≤ 0.001|Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel test adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent); Length of prior GC treatment for PMR (≤ 1 year; \> 1 year)\].|||62.3|21.4|< 0.001
82363976|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|-0.4||||0.7337|TWO_SIDED|95.0|-2.9|2.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 17||2.1|-2.9|0.7337
82363977|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|0.2||||0.8893|TWO_SIDED|95.0|-2.4|2.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 33||2.7|-2.4|0.8893
82392530|NCT04972968|164496430|SUPERIORITY||Mean Difference (Net)|-88.67||||0.144|TWO_SIDED|95.0|-208.04|30.71|||ANCOVA|P-value based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors.|95% CI based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[GC use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent);|||30.71|-208.04|0.144
82392531|NCT04972968|164496430|SUPERIORITY||Mean Difference (Net)|-164.76||||0.007|TWO_SIDED|95.0|-283.62|-45.89||P-value ≤ 0.01|ANCOVA||P-value and 95% CI are based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone\] equivalent);|||-45.89|-283.62|0.007
82392532|NCT04972968|164496430|SUPERIORITY||Mean Difference (Final Values)|-182.55||||0.003|TWO_SIDED|95.0|-300.52|-64.58||P-value ≤ 0.01|ANCOVA||P-value and 95% CI based on an Analysis of covariance (ANCOVA) model adjusting for baseline randomization stratification factors \[Glucocorticoid use at baseline (≥ 10 mg/day; \< 10 mg/day prednisone equivalent)|||-64.58|-300.52|0.003
82392533|NCT04972968|164496431|SUPERIORITY||Mean Difference (Net)|-1.58||||0.039|TWO_SIDED|95.0|-3.08|-0.08||P-value \<= 0.05|ANCOVA|P-value based on ANCOVA adjusting for baseline randomization stratification factors (GC use at baseline)||||-0.08|-3.08|0.039
82363978|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|-1.5||||0.2939|TWO_SIDED|95.0|-4.3|1.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left ankle, Week 49||1.3|-4.3|0.2939
82363979|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|0.8||||0.5995|TWO_SIDED|95.0|-2.1|3.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 17||3.6|-2.1|0.5995
82363980|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|2.9||||0.0385|TWO_SIDED|95.0|0.2|5.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 33||5.6|0.2|0.0385
82392534|NCT04972968|164496431|SUPERIORITY||Mean Difference (Final Values)|-2.66|||<|0.001|TWO_SIDED|95.0|-4.15|-1.16||P-value \<= 0.001|ANCOVA|P-value based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|95% CI based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|||-1.16|-4.15|<0.001
82392535|NCT04972968|164496431|SUPERIORITY||Mean Difference (Final Values)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.49|-1.52||P-value \<= 0.001|ANCOVA|P-value based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|95% CI based on an ANCOVA model adjusting for baseline randomization stratification factors (GC use at baseline)|||-1.52|-4.49|<0.001
82392536|NCT04120584|164496432|SUPERIORITY||Mean Difference (Final Values)|9.62|||<|0.001|TWO_SIDED|5.0|||||ANOVA|||||||<0.001
82392537|NCT04120584|164496433|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||ANOVA|||||||<0.001
82392538|NCT02584998|164496462|OTHER||||||<|0.001|||||||Chi-squared|||In our power and sample size analysis, we assumed 15% screening rate in usual care, 25% with invitation, and 40% with mailed-FIT. A sample size of 500 (250/arm) will give 80% power for UC vs. screening invitation-reminder, and 152/arm will give a power of 80% for the screening invitation-reminder vs. mailed-FIT. Accounting for the possibility that up to 20% of participants could be ineligible post-randomization, we concluded that we should enroll 783 patients, 261 per arm, for this trial.||||<0.001
82392539|NCT02928770|164496463|OTHER|||||||0.0559|||||||t-test, 2 sided|Comparison between baseline and experimental (Nastent) conditions||||||0.0559
82392540|NCT05014815|164496499|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4698|TWO_SIDED|95.0|0.74|1.33||1-sided p-value|Log Rank|Stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|The HR and its 95% confidence interval (CI) was estimated using a Cox regression model stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|||1.33|0.74|0.4698
82392541|NCT05014815|164496500|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.47|1.26|||||The Mantel-Haenszel common OR and its 95% CI were estimated using a normal approximation of the log odds ratio and the Robins-Breslow-Greenland variance, stratified by PD-L1 expression and histology.|||1.26|0.47|
82363981|NCT02310763|164438848|SUPERIORITY||Mean Difference (Net)|0.0||||0.9927|TWO_SIDED|95.0|-3.3|3.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right ankle, Week 49||3.2|-3.3|0.9927
82392542|NCT05014815|164496502|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.67|1.34|||||The HR and its 95% confidence interval (CI) was estimated using a Cox regression model stratified by PD-L1 expression (\<1% of tumor cells (TC) vs 1-49% TC vs \>= 50% TC) and histology (squamous vs non-squamous).|||1.34|0.67|
82392543|NCT03833804|164496514|NON_INFERIORITY|The investigators conducted a noninferiority analysis using a prespecified margin of 0.5%. The noninferiority margin was selected based on expert input from addiction medicine clinicians and implementation scientists, who agreed that a 0.5% absolute difference in the composite intervention rate would be clinically acceptable given the workflow and scalability benefits of automation. The margin was chosen to reflect a reasonable balance between clinical impact and operational gain.|z-test|0.86||||0.2|TWO_SIDED||||||One-sided independent samples z-test|||||||0.20
82363982|NCT02310763|164438849|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6049|TWO_SIDED|95.0|-1.7|1.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||1.0|-1.7|0.6049
82363983|NCT02310763|164438849|SUPERIORITY||Mean Difference (Net)|1.7||||0.2065|TWO_SIDED|95.0|-1.0|4.4||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||4.4|-1.0|0.2065
82363984|NCT02310763|164438849|SUPERIORITY||Mean Difference (Net)|0.0||||0.9391|TWO_SIDED|95.0|-1.3|1.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||1.2|-1.3|0.9391
82392544|NCT04076059|164496523|SUPERIORITY||Cox Proportional Hazard|0.13|||<|0.0001|TWO_SIDED|95.0|0.076|0.222|||Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|||0.222|0.076|<0.0001
82392545|NCT04076059|164496524|SUPERIORITY||Cox Proportional Hazard|0.33|||<|0.0001|TWO_SIDED|95.0|0.196|0.556|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||0.556|0.196|<0.0001
82392546|NCT04076059|164496525|SUPERIORITY||Cox Proportional Hazard|0.789||||0.7279|TWO_SIDED|95.0|0.208|2.998|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||2.998|0.208|0.7279
82392547|NCT04076059|164496526|SUPERIORITY||Cox Proportional Hazard|0.172|||<|0.0001|TWO_SIDED|95.0|0.107|0.276|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||0.276|0.107|<0.0001
82392548|NCT04076059|164496527|SUPERIORITY|||||||0.0036|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||||0.0036
82392549|NCT04076059|164496528|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||||<0.0001
82392550|NCT04076059|164496529|SUPERIORITY||Cox Proportional Hazard|0.797||||0.5899|TWO_SIDED|95.0|0.35|1.819|||Log Rank|Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.||||1.819|0.350|0.5899
82392551|NCT04076059|164496530|SUPERIORITY||Difference in Percentage|53.5|||<|0.0001|TWO_SIDED|95.0|40.1|66.9|||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||66.9|40.1|<0.0001
82642409|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.8373|||||TWO_SIDED|95.0|0.693|0.981||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||0.981|0.693|
82642410|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9419|||||TWO_SIDED|95.0|0.883|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.883|
82642411|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|1.000|
82642412|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9898|||||TWO_SIDED|95.0|0.97|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.970|
82363985|NCT02310763|164438850|SUPERIORITY||Mean Difference (Net)|1.8||||0.8499|TWO_SIDED|95.0|-16.7|20.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||20.3|-16.7|0.8499
82363986|NCT02310763|164438850|SUPERIORITY||Mean Difference (Net)|8.9||||0.4008|TWO_SIDED|95.0|-12.0|29.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||29.8|-12.0|0.4008
82363987|NCT02310763|164438850|SUPERIORITY||Mean Difference (Net)|-1.5||||0.916|TWO_SIDED|95.0|-30.0|27.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||27.0|-30.0|0.9160
82363988|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|0.115||||0.5726|TWO_SIDED|95.0|-0.287|0.517||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 17||0.517|-0.287|0.5726
82392552|NCT04076059|164496531|SUPERIORITY||Difference in Percentage|-5.2||||0.8312|TWO_SIDED|95.0|-25.4|14.9|||Cochran-Mantel-Haenszel|Stratified by volume of disease and previous docetaxel use during screening period. Parameter estimate: Difference in percentage||||14.9|-25.4|0.8312
82642413|NCT02118896|165000124|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Method|0.9773|||||TWO_SIDED|95.0|0.933|1.0||||||The two-sided 95% confidence interval for the estimated rate of freedom from efficacy failure at EOS was calculated using Greenwood's formula.||1.000|0.933|
82363989|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|-0.163||||0.4334|TWO_SIDED|95.0|-0.574|0.248||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 33||0.248|-0.574|0.4334
82363990|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|-0.126||||0.5767|TWO_SIDED|95.0|-0.573|0.321||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow extension, Week 49||0.321|-0.573|0.5767
82363991|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|-0.022||||0.9274|TWO_SIDED|95.0|-0.489|0.446||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 17||0.446|-0.489|0.9274
82363992|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|-0.439||||0.0469|TWO_SIDED|95.0|-0.872|-0.006||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 33||-0.006|-0.872|0.0469
82363993|NCT02310763|164438851|SUPERIORITY||Mean Difference (Net)|-0.166||||0.4362|TWO_SIDED|95.0|-0.587|0.255||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow extension, Week 49||0.255|-0.587|0.4362
82363994|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.156||||0.5557|TWO_SIDED|95.0|-0.679|0.367||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 17||0.367|-0.679|0.5557
82363995|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.303||||0.2669|TWO_SIDED|95.0|-0.841|0.235||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 33||0.235|-0.841|0.2669
82363996|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.161||||0.4665|TWO_SIDED|95.0|-0.598|0.276||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left elbow flexion, Week 49||0.276|-0.598|0.4665
82363997|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.083||||0.7335|TWO_SIDED|95.0|-0.564|0.399||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 17||0.399|-0.564|0.7335
82392553|NCT02677896|164496532|SUPERIORITY||Cox hazard ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.3|0.5||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|rPFS Treatment Comparison||0.50|0.30|<0.0001
82642414|NCT04242264|165000125|SUPERIORITY|A two-sided Chi-squared test with alpha=0.05 was used to test the null hypothesis that the vaccine efficacy is zero, which is equivalent to testing that the relative risk of shigellosis is one.|Vaccine efficacy|0.89|||<|0.001|TWO_SIDED|95.0|0.71|0.96|||Chi-squared||Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate.|The null hypothesis is that the absolute vaccine efficacy (VE) of preventing shigellosis is zero. The alternative hypothesis is that the absolute VE is greater than zero.||0.96|0.71|<0.001
82642415|NCT04242264|165000126|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|0.77|||||TWO_SIDED|95.0|0.44|0.92||||||||0.92|0.44|
82642416|NCT04242264|165000126|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|1.0|||||TWO_SIDED|95.0|0.78|1.0||||||||1.00|0.78|
82642417|NCT04242264|165000126|OTHER|Vaccine efficacy was calculated as 1 - relative risk of shigellosis, where relative risk = probability of shigellosis in WRSs2 group / probability of shigellosis in placebo group. A Wilson (Score) CI was calculated for the vaccine efficacy estimate, but no formal hypothesis test was performed.|Vaccine efficacy|1.0|||||TWO_SIDED|95.0|0.71|1.0||||||||1.00|0.71|
82392554|NCT02677896|164496533|SUPERIORITY||Cox proportional hazards model|0.39|||<|0.0001|TWO_SIDED|95.0|0.3|0.5|||Log Rank|||rPFS Treatment Comparision||0.50|0.30|<0.0001
82575114|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1 to LA2, the lower limit of the 95% CI for the difference in seroresponse rates (PLA1 - PLA2) must be greater than -5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-4.0|||||TWO_SIDED|95.0|-8.0|1.9|||ANOVA|||PnC 23F (Seroconversion percentage difference (PLA1 - PLA2))||1.9|-8|
82642418|NCT03292731|165000149|OTHER||Odds Ratio (OR)|1.0||||0.96|TWO_SIDED|95.0|0.93|1.08||adjusted for cerclage|Regression, Logistic|adjusted for cerclage||logistic regression comparing drug concentration to the rate of sPTB||1.08|0.93|0.96
82363998|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.361||||0.1695|TWO_SIDED|95.0|-0.877|0.156||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 33||0.156|-0.877|0.1695
82363999|NCT02310763|164438852|SUPERIORITY||Mean Difference (Net)|-0.189||||0.3783|TWO_SIDED|95.0|-0.612|0.234||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right elbow flexion, Week 49||0.234|-0.612|0.3783
82364000|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|-0.586||||0.1078|TWO_SIDED|95.0|-1.303|0.13||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 17||0.130|-1.303|0.1078
82364001|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|0.046||||0.8967|TWO_SIDED|95.0|-0.654|0.746||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 33||0.746|-0.654|0.8967
82364002|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|-0.378||||0.3196|TWO_SIDED|95.0|-1.128|0.371||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left hip abduction, Week 49||0.371|-1.128|0.3196
82364003|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|-0.689||||0.0526|TWO_SIDED|95.0|-1.386|0.008||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 17||0.008|-1.386|0.0526
82364004|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|-0.336||||0.3739|TWO_SIDED|95.0|-1.082|0.41||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 33||0.410|-1.082|0.3739
82364005|NCT02310763|164438853|SUPERIORITY||Mean Difference (Net)|-0.322||||0.4019|TWO_SIDED|95.0|-1.079|0.436||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right hip abduction, Week 49||0.436|-1.079|0.4019
82364006|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|-0.107||||0.7676|TWO_SIDED|95.0|-0.825|0.61||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 17||0.610|-0.825|0.7676
82364007|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|-0.322||||0.4127|TWO_SIDED|95.0|-1.098|0.454||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 33||0.454|-1.098|0.4127
82364008|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|0.113||||0.7815|TWO_SIDED|95.0|-0.693|0.919||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left knee extension, Week 49||0.919|-0.693|0.7815
82364009|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|-0.236||||0.4975|TWO_SIDED|95.0|-0.924|0.451||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 17||0.451|-0.924|0.4975
82364010|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|-0.467||||0.2646|TWO_SIDED|95.0|-1.294|0.359||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 33||0.359|-1.294|0.2646
82364011|NCT02310763|164438854|SUPERIORITY||Mean Difference (Net)|-0.149||||0.732|TWO_SIDED|95.0|-1.008|0.71||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right knee extension, Week 49||0.710|-1.008|0.7320
82364012|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.044||||0.8569|TWO_SIDED|95.0|-0.525|0.437||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 17||0.437|-0.525|0.8569
82364013|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.154||||0.5495|TWO_SIDED|95.0|-0.663|0.355||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 33||0.355|-0.663|0.5495
82364014|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.023||||0.934|TWO_SIDED|95.0|-0.566|0.521||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Left shoulder abduction, Week 49||0.521|-0.566|0.9340
82575115|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.3|3.8|||ANOVA|||Diphtheria (Seroconversion percentage difference (PLA3 - PLA4))||3.8|-2.3|
82642419|NCT03292731|165000150|OTHER||Slope|1.11||||0.05|TWO_SIDED|95.0|0.0|2.23|||Regression, Linear|||||2.23|0.00|0.05
82364015|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.236||||0.3279|TWO_SIDED|95.0|-0.711|0.239||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 17||0.239|-0.711|0.3279
82364016|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.757||||0.0086|TWO_SIDED|95.0|-1.318|-0.196||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 33||-0.196|-1.318|0.0086
82392555|NCT02677896|164496534|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.53|0.81|||Log Rank|P-value from stratified log-rank test.|Significance level is 0.04. Hazard ratio and 95 % CI are estimated by cox proportional hazards model.|||0.81|0.53|<0.0001
82642420|NCT03292731|165000151|OTHER||Slope|1.56||||0.022|TWO_SIDED|95.0|0.25|2.87|||Regression, Linear|||||2.87|0.25|0.022
82642421|NCT03292731|165000152|SUPERIORITY|||||||0.82||||||no adjustments|Fisher Exact|||Only RCT subjects utilized in neonatal safety analysis||||0.82
82364017|NCT02310763|164438855|SUPERIORITY||Mean Difference (Net)|-0.439||||0.2328|TWO_SIDED|95.0|-1.165|0.286||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Right shoulder abduction, Week 49||0.286|-1.165|0.2328
82364018|NCT02310763|164438856|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.211||||0.8908|TWO_SIDED|95.0|-2.8353|3.2573|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||3.2573|-2.8353|0.8908
82364019|NCT02310763|164438857|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.819||||0.4748|TWO_SIDED|95.0|-1.4514|3.0895|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||3.0895|-1.4514|0.4748
82364020|NCT02310763|164438858|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.0097||||0.807|TWO_SIDED|95.0|-0.0692|0.0887|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||0.0887|-0.0692|0.8070
82364021|NCT02310763|164438859|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|0.0506||||0.3643|TWO_SIDED|95.0|-0.0594|0.1607|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||0.1607|-0.0594|0.3643
82364022|NCT02310763|164438860|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-2.9||||0.0483|TWO_SIDED|95.0|-5.7|0.0|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||0|-5.7|0.0483
82364023|NCT02310763|164438861|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-3.9||||0.0146|TWO_SIDED|95.0|-7.0|-0.8|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||-0.8|-7.0|0.0146
82364024|NCT02310763|164438862|EQUIVALENCE|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-31.6||||0.1669|TWO_SIDED|95.0|-76.9|13.6|||Mixed Models Analysis||Mean difference was calculated by Sequence 3 minus natural history control group.|||13.6|-76.9|0.1669
82392556|NCT02677896|164496535|SUPERIORITY||Cox hazard ratio|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.26||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Time to PSA Progression Treatment Comparison||0.26|0.13|<0.0001
82392557|NCT02677896|164496536|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.31|0.48|||||Hazard ratio and 95 % CI are estimated by cox proportional hazards model.|||0.48|0.31|
82364025|NCT02310763|164438863|SUPERIORITY|The comparator was the natural history control group. The significance level is 0.05.|Mean Difference (Net)|-66.3||||0.0267|TWO_SIDED|95.0|-124.5|-8.1|||Mixed Models Analysis||Mean difference was calculated by Sequence 1 minus natural history control group.|||-8.1|-124.5|0.0267
82364026|NCT02310763|164438864|SUPERIORITY||Mean Difference (Net)|-0.0692||||0.7033|TWO_SIDED|95.0|-0.4345|0.2961||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.2961|-0.4345|0.7033
82364027|NCT02310763|164438864|SUPERIORITY||Mean Difference (Net)|0.2114||||0.6893|TWO_SIDED|95.0|-0.8472|1.27||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||1.27|-0.8472|0.6893
82642422|NCT00471237|165000156|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_ERROR_OF_MEAN|0.55||0.59|TWO_SIDED|95.0|-0.78|1.37|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||1.37|-0.78|0.590
82364028|NCT02310763|164438864|SUPERIORITY||Mean Difference (Net)|-2.6439||||0.6469|TWO_SIDED|95.0|-14.4292|9.1414||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||9.1414|-14.4292|0.6469
82364029|NCT02310763|164438865|SUPERIORITY||Mean Difference (Net)|-0.3289||||0.1353|TWO_SIDED|95.0|-0.7649|0.1072||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1072|-0.7649|0.1353
82364030|NCT02310763|164438865|SUPERIORITY||Mean Difference (Net)|0.3457||||0.7648|TWO_SIDED|95.0|-1.9614|2.6528||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||2.6528|-1.9614|0.7648
82364031|NCT02310763|164438865|SUPERIORITY||Mean Difference (Net)|8.2893||||0.3562|TWO_SIDED|95.0|-9.6409|26.2194||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||26.2194|-9.6409|0.3562
82364032|NCT02310763|164438866|SUPERIORITY||Mean Difference (Net)|-0.5582||||0.1163||95.0|-1.2615|0.1451||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1451|-1.2615|0.1163
82364033|NCT02310763|164438866|SUPERIORITY||Mean Difference (Net)|0.0944||||0.9503|TWO_SIDED|95.0|-3.0798|3.2686||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.2686|-3.0798|0.9503
82364034|NCT02310763|164438866|SUPERIORITY||Mean Difference (Net)|-11.2881||||0.2947|TWO_SIDED|95.0|-32.8328|10.2566||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||10.2566|-32.8328|0.2947
82364035|NCT02310763|164438867|SUPERIORITY||Mean Difference (Net)|0.0159||||0.8229|TWO_SIDED|95.0|-0.127|0.1588||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.1588|-0.1270|0.8229
82364036|NCT02310763|164438867|SUPERIORITY||Mean Difference (Net)|-0.0132||||0.7709|TWO_SIDED|95.0|-0.1036|0.0772||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||0.0772|-0.1036|0.7709
82392558|NCT02677896|164496537|SUPERIORITY||Difference in rate|50.5|||<|0.0001|TWO_SIDED|95.0|45.3|55.7||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Cochran-Mantel-Haenszel|||PSA Undetectable Rate Treatment Comparison||55.7|45.3|<0.0001
82392559|NCT02677896|164496538|SUPERIORITY||Difference in rate|19.3|||<|0.0001|TWO_SIDED|95.0|10.4|28.2||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Cochran-Mantel-Haenszel|||ORR Treatment Comparison||28.2|10.4|<0.0001
82392560|NCT02677896|164496539|SUPERIORITY||Cox hazard ratio|0.88||||0.2162|TWO_SIDED|95.0|0.72|1.08||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Log Rank||Stratified by volume of disease (low vs high) and prior docetaxel use (yes vs no) during screening period.|Time to Deterioration of Urinary Symptoms Treatment Comparison||1.08|0.72|0.2162
82527775|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|2.25||||0.761|TWO_SIDED|95.0|-12.1|16.59||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.59|-12.10|0.761
82527776|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|58.32|||<|0.001|TWO_SIDED|95.0|46.59|70.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||70.05|46.59|<0.001
82642423|NCT00471237|165000156|SUPERIORITY||Mean Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|0.55||0.028|TWO_SIDED|95.0|0.28|2.44|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12||||2.44|0.28|0.028
82642424|NCT00471237|165000156|SUPERIORITY||Mean Difference (Net)|1.58|STANDARD_ERROR_OF_MEAN|0.54||0.011|TWO_SIDED|95.0|0.51|2.65|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||2.65|0.51|0.011
82364037|NCT02310763|164438867|SUPERIORITY||Mean Difference (Net)|0.0889||||0.3746|TWO_SIDED|95.0|-0.1219|0.2996||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.2996|-0.1219|0.3746
82364038|NCT02310763|164438868|SUPERIORITY||Mean Difference (Net)|-0.0934||||0.2294|TWO_SIDED|95.0|-0.2481|0.0613||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.0613|-0.2481|0.2294
82364039|NCT02310763|164438868|SUPERIORITY||Mean Difference (Net)|-0.0117||||0.8485|TWO_SIDED|95.0|-0.1339|0.1105||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.1105|-0.1339|0.8485
82364040|NCT02310763|164438868|SUPERIORITY||Mean Difference (Net)|0.0562||||0.6645|TWO_SIDED|95.0|-0.2187|0.3312||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.3312|-0.2187|0.6645
82364041|NCT02310763|164438869|SUPERIORITY||Mean Difference (Net)|-0.1013||||0.2101|TWO_SIDED|95.0|-0.2622|0.0597||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||0.0597|-0.2622|0.2101
82364042|NCT02310763|164438869|SUPERIORITY||Mean Difference (Net)|-0.0359||||0.4603|TWO_SIDED|95.0|-0.1326|0.0608||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.0608|-0.1326|0.4603
82364043|NCT02310763|164438869|SUPERIORITY||Mean Difference (Net)|0.1039||||0.3739|TWO_SIDED|95.0|-0.1386|0.3463||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||0.3463|-0.1386|0.3739
82364044|NCT02310763|164438870|SUPERIORITY||Mean Difference (Net)|-0.3||||0.8925|TWO_SIDED|95.0|-4.5|3.9||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||3.9|-4.5|0.8925
82364045|NCT02310763|164438870|SUPERIORITY||Mean Difference (Net)|1.2||||0.2107|TWO_SIDED|95.0|-0.7|3.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.2|-0.7|0.2107
82364046|NCT02310763|164438870|SUPERIORITY||Mean Difference (Net)|1.3||||0.2298|TWO_SIDED|95.0|-0.9|3.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.5|-0.9|0.2298
82364047|NCT02310763|164438871|SUPERIORITY||Mean Difference (Net)|3.5||||0.0554|TWO_SIDED|95.0|-0.1|7.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||7.1|-0.1|0.0554
82364048|NCT02310763|164438871|SUPERIORITY||Mean Difference (Net)|1.6||||0.2027|TWO_SIDED|95.0|-0.9|4.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||4.0|-0.9|0.2027
82364049|NCT02310763|164438871|SUPERIORITY||Mean Difference (Net)|2.9||||0.0926|TWO_SIDED|95.0|-0.5|6.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||6.3|-0.5|0.0926
82364050|NCT02310763|164438872|SUPERIORITY||Mean Difference (Net)|2.0||||0.3597|TWO_SIDED|95.0|-2.4|6.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||6.3|-2.4|0.3597
82364051|NCT02310763|164438872|SUPERIORITY||Mean Difference (Net)|0.5||||0.7345|TWO_SIDED|95.0|-2.3|3.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||3.3|-2.3|0.7345
82364052|NCT02310763|164438872|SUPERIORITY||Mean Difference (Net)|4.0||||0.032|TWO_SIDED|95.0|0.4|7.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||7.7|0.4|0.0320
82364053|NCT02310763|164438873|SUPERIORITY||Mean Difference (Net)|1.2||||0.3345|TWO_SIDED|95.0|-1.3|3.8||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||3.8|-1.3|0.3345
82364054|NCT02310763|164438873|SUPERIORITY||Mean Difference (Net)|-1.2||||0.14|TWO_SIDED|95.0|-2.9|0.4||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||0.4|-2.9|0.1400
82364055|NCT02310763|164438873|SUPERIORITY||Mean Difference (Net)|-0.9||||0.6764|TWO_SIDED|95.0|-5.4|3.6||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.6|-5.4|0.6764
82392561|NCT02677896|164496540|SUPERIORITY||Cox hazard ratio|0.52||||0.0026|TWO_SIDED|95.0|0.33|0.8|||Log Rank|||Time to SSE Treatment Comparison||0.80|0.33|0.0026
82364056|NCT02310763|164438874|SUPERIORITY||Mean Difference (Net)|6.5||||0.097|TWO_SIDED|95.0|-1.2|14.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||14.2|-1.2|0.0970
82364057|NCT02310763|164438874|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6919|TWO_SIDED|95.0|-1.9|1.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||1.3|-1.9|0.6919
82364058|NCT02310763|164438874|SUPERIORITY||Mean Difference (Net)|-1.0||||0.6736|TWO_SIDED|95.0|-5.8|3.9||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.9|-5.8|0.6736
82364059|NCT02310763|164438875|SUPERIORITY||Mean Difference (Net)|0.0||||0.9582|TWO_SIDED|95.0|-1.5|1.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||1.5|-1.5|0.9582
82364060|NCT02310763|164438875|SUPERIORITY||Mean Difference (Net)|-0.1||||0.8629|TWO_SIDED|95.0|-1.8|1.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<= 8 seconds||1.5|-1.8|0.8629
82364061|NCT02310763|164438875|SUPERIORITY||Mean Difference (Net)|-0.9||||0.6746|TWO_SIDED|95.0|-5.5|3.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||3.7|-5.5|0.6746
82364062|NCT02310763|164438876|SUPERIORITY||Mean Difference (Net)|-5.8||||0.7483|TWO_SIDED|95.0|-42.4|30.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||30.7|-42.4|0.7483
82364063|NCT02310763|164438876|SUPERIORITY||Mean Difference (Net)|-1.3||||0.9053|TWO_SIDED|95.0|-23.9|21.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||21.2|-23.9|0.9053
82364064|NCT02310763|164438876|SUPERIORITY||Mean Difference (Net)|13.1||||0.6896|TWO_SIDED|95.0|-53.4|79.7||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||79.7|-53.4|0.6896
82364065|NCT02310763|164438877|SUPERIORITY||Mean Difference (Net)|-3.7||||0.8117|TWO_SIDED|95.0|-34.8|27.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||27.5|-34.8|0.8117
82364066|NCT02310763|164438877|SUPERIORITY||Mean Difference (Net)|7.3||||0.6018|TWO_SIDED|95.0|-20.6|35.2||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||35.2|-20.6|0.6018
82392562|NCT02677896|164496541|SUPERIORITY||Cox hazard ratio|0.28|||<|0.0001|TWO_SIDED|95.0|0.22|0.36|||Log Rank|||Time to Castration Resistance Treatment Comparison||0.36|0.22|<0.0001
82364067|NCT02310763|164438877|SUPERIORITY||Mean Difference (Net)|16.3||||0.7152|TWO_SIDED|95.0|-73.4|106.0||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||106.0|-73.4|0.7152
82364068|NCT02310763|164438878|SUPERIORITY||Mean Difference (Net)|7.0||||0.719|TWO_SIDED|95.0|-32.1|46.1||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\<3.5 seconds||46.1|-32.1|0.7190
82364069|NCT02310763|164438878|SUPERIORITY||Mean Difference (Net)|-15.8||||0.4634|TWO_SIDED|95.0|-58.9|27.3||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>=3.5 and \<=8 seconds||27.3|-58.9|0.4634
82575116|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0||||||95.0|-1.3|2.7|||ANOVA|||Tetanus (Seroconversion percentage difference (PLA3 - PLA4))||2.7|-1.3|
82364070|NCT02310763|164438878|SUPERIORITY||Mean Difference (Net)|3.9||||0.94|TWO_SIDED|95.0|-100.7|108.5||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Baseline 4SC\>8 seconds||108.5|-100.7|0.9400
82364071|NCT02310763|164438882|SUPERIORITY||Mean Difference (Net)|2.945||||0.0087|TWO_SIDED|95.0|0.7597|5.1309||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||5.1309|0.7597|0.0087
82364072|NCT02310763|164438882|SUPERIORITY||Mean Difference (Net)|2.918||||0.0536|TWO_SIDED|95.0|-0.0461|5.8811||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||5.8811|-0.0461|0.0536
82364073|NCT02310763|164438882|SUPERIORITY||Mean Difference (Net)|4.087||||0.0298|TWO_SIDED|95.0|0.4069|7.7677||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||7.7677|0.4069|0.0298
82364074|NCT02310763|164438883|SUPERIORITY||Mean Difference (Net)|1.575||||0.0684|TWO_SIDED|95.0|-0.1213|3.2715||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 17||3.2715|-0.1213|0.0684
82364075|NCT02310763|164438883|SUPERIORITY||Mean Difference (Net)|2.612||||0.0376|TWO_SIDED|95.0|0.1521|5.0711||The significance level is 0.05.|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 33||5.0711|0.1521|0.0376
82364076|NCT02310763|164438883|SUPERIORITY||Mean Difference (Net)|3.208||||0.0411|TWO_SIDED|95.0|0.1318|6.2844||The significance level is 0.05|Mixed Models Analysis||Mean difference was calculated by domagrozumab minus placebo.|Week 49||6.2844|0.1318|0.0411
82364077|NCT02646917|164438904|SUPERIORITY||||||<|0.008|||||||Wilcoxon (Mann-Whitney)|||Goodman and Baron's qualitative acne scar severity scores. Calculated from Wilcoxon signed-rank test. Testing hypothesis is that the mean change from baseline is equal to zero.||||<0.008
82364078|NCT02646917|164438905|SUPERIORITY||||||<|0.001|||||||Wilcoxen signed-rank test|||Null hypothesis 4 (no change).||||<.001
82392563|NCT02677896|164496542|SUPERIORITY||Cox hazard ratio|0.96||||0.6548|TWO_SIDED|95.0|0.81|1.14|||Log Rank|||Time to Deterioration of QoL in FACT-P Treatment Comparison||1.14|0.81|0.6548
82392564|NCT02677896|164496543|SUPERIORITY||Cox hazard ratio|0.92||||0.2715|TWO_SIDED|95.0|0.78|1.07|||Log Rank|||Time to Pain Progression Based on BPI-SF Treatment Comparison||1.07|0.78|0.2715
82642425|NCT00471237|165000156|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.55||0.012|TWO_SIDED|95.0|0.51|2.69|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.044 at Month 12.||||2.69|0.51|0.012
82364079|NCT02646917|164438906|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated from Wilcoxon signed-rank test. The testing hypothesis is that the mean change from baseline is equal to zero||||<0.01
82575117|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-4.8|10.7|||Seroconversion Percentage difference|||PT (Seroconversion percentage difference (PLA3 - PLA4))||10.7|-4.8|
82364080|NCT02646917|164438907|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated from Wilcoxon signed-rank test. The testing hypothesis is that the mean score is equal to 0 (no change in the appearance of acne scars).||||<0.01
82364081|NCT02646917|164438908|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Calculated from Wilcoxon signed-rank test. Testing hypothesis is that the mean score is equal to 4 (no change).||||||<0.01
82364082|NCT00680186|164438926|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 2.75 for the HR analysis|Hazard Ratio (HR)|1.13||||0.0002||95.0|0.69|1.85||Non-inferiority P-Value.Two co-primary analyses performed on primary endpoint. Both non inferiority for the risk difference (RD) (at day 180) and for the HR (up to end of ptp) analyses to be reached in order to conclude positively on primary endpoint|Regression, Cox|Patients without events are censored at the end of ptp.||Hazard ratio (HR) vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.85|0.69|0.0002
82364083|NCT00680186|164438926|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 3.6% for the RD based on KM estimates|Risk Difference (Percentage)|0.2|||<|0.0001||95.0|-1.0|1.3||Non-inferiority P-Value.Two co-primary analyses performed on primary endpoint. Both non inferiority for the RD (at day 180) and for the HR (events up to end of ptp) analyses to be reached in order to conclude positively on the primary endpoint.|Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with VTE or death related to VTE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.3|-1.0|<0.0001
82364084|NCT00680186|164438926|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||||95.0|0.64|1.8|||Regression, Cox|Patients without events are censored at the earliest of last contact date or day 180.||HR vs. Warfarin (events occurring between randomisation and day 180). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE. This analysis was performed as sensitivity analysis for statistical analysis 1.||1.8|0.64|
82392565|NCT02720744|164496562|SUPERIORITY||Mean Difference (Net)|6.13|||<|0.001|TWO_SIDED|95.0|3.52|8.75||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|Mixed Models Analysis|P-values were estimated using an MMRM with change from baseline (or its log transformation).|Difference from placebo was defined by the FT218 mean value minus placebo value.|||8.75|3.52|<0.001
82364085|NCT00680186|164438927|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.6932||95.0|-1.1|1.6|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with VTE or death at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.6|-1.1|0.6932
82364086|NCT00680186|164438927|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.6383||95.0|0.75|1.6|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.60|0.75|0.6383
82364087|NCT00680186|164438928|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.6||||0.1703||95.0|-0.3|1.5|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic DVT at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.5|-0.3|0.1703
82364088|NCT00680186|164438928|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.65||||0.1054||95.0|0.9|3.01|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||3.01|0.90|0.1054
82364089|NCT00680186|164438929|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.4||||0.2283||95.0|-1.1|0.3|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic non-fatal PE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.3|-1.1|0.2283
82392566|NCT02720744|164496563|SUPERIORITY||Odds Ratio (OR)|5.56|||<|0.001|TWO_SIDED|95.0|2.76|11.23||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|GLIMMIX model|P-values estimated with categorized CGI-Improvement response (very much or much improved versus other category) at the specific visit.||||11.23|2.76|<0.001
82444313|NCT03938324|164597235|SUPERIORITY|||||||0.0034||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.0034
82392567|NCT02720744|164496564|SUPERIORITY||Mean Difference (Net)|-6.65|||<|0.001|TWO_SIDED|95.0|-9.32|-3.98||Each outcome measure for the 9.0 g, 7.5 g, and 6.0 g doses were tested at the 2-sided α level of 0.05.|Mixed Models Analysis|P-values were estimated using an MMRM with change from baseline to the end of the respective treatment period.||||-3.98|-9.32|<0.001
82392568|NCT00001656|164496608|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||.04
82392569|NCT00001656|164496609|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.21
82392570|NCT00001656|164496610|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANCOVA|||Analysis of covariance with baseline score as covariate||||0.35
82392571|NCT00001656|164496611|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.19
82642426|NCT00471237|165000164|SUPERIORITY||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|0.47||0.68|TWO_SIDED|95.0|-1.38|0.48|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||0.48|-1.38|0.680
82392572|NCT00001656|164496612|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.59
82392573|NCT00001656|164496613|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANCOVA|||Analysis of covariance with baseline score as covariate||||0.72
82392574|NCT00001656|164496614|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||ANCOVA|Covariate is baseline score||Analysis of covariance with baseline score as covariate||||0.27
82392575|NCT00001656|164496615|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|Covariate is baseline score||||||0.11
82392576|NCT00001656|164496616|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
82527777|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|67.52|||<|0.001|TWO_SIDED|95.0|54.91|80.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||80.12|54.91|<0.001
82392577|NCT00001656|164496617|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|||||||0.76
82392578|NCT00001656|164496619|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.73
82392579|NCT01892085|164496620|SUPERIORITY|||||||0.015|||||||Marginalized two part model|||||||0.015
82392580|NCT01892085|164496620|SUPERIORITY|||||||0.339|||||||Marginalized two part model|||||||0.339
82392581|NCT01892085|164496621|SUPERIORITY|||||||0.024|||||||Marginalized two part model|||||||0.024
82392582|NCT01892085|164496621|SUPERIORITY|||||||0.317|||||||Marginalized two part model|||||||0.317
82392583|NCT01892085|164496622|SUPERIORITY|||||||0.031|||||||Marginalized two part model|||||||0.031
82392584|NCT01892085|164496622|SUPERIORITY|||||||0.298|||||||Marginalized two part model|||||||0.298
82392585|NCT01892085|164496623|SUPERIORITY|||||||0.05|||||||Marginalized two part model|||||||0.05
82392586|NCT01892085|164496623|SUPERIORITY|||||||0.27|||||||Marginalized 2 part model|||||||0.27
82392587|NCT01892085|164496624|SUPERIORITY|||||||0.069|||||||Marginalized two part model|||||||0.069
82392588|NCT01892085|164496624|SUPERIORITY|||||||0.244|||||||Marginalized two part model|||||||0.244
82392589|NCT01892085|164496625|SUPERIORITY|||||||0.094|||||||Marginalized two part model|||||||0.094
82392590|NCT01892085|164496625|SUPERIORITY|||||||0.235|||||||Marginalized 2 part model|||||||0.235
82392591|NCT01892085|164496626|SUPERIORITY|||||||0.123|||||||Marginalized two part model|||||||0.123
82392592|NCT01892085|164496626|SUPERIORITY|||||||0.21|||||||Marginalized two part model|||||||0.210
82392593|NCT01892085|164496627|SUPERIORITY|||||||0.143|||||||Marginalized two part model|||||||0.143
82392594|NCT01892085|164496627|SUPERIORITY|||||||0.196|||||||Marginalized two part model|||||||0.196
82392595|NCT01892085|164496628|SUPERIORITY|||||||0.185|||||||Marginalized two part model|||||||0.185
82392596|NCT01892085|164496628|SUPERIORITY|||||||0.183|||||||Marginalized two part model|||||||0.183
82392597|NCT01892085|164496629|SUPERIORITY|||||||0.229|||||||Marginalized two part model|||||||0.229
82392598|NCT01892085|164496629|SUPERIORITY|||||||0.17|||||||Marginalized two part model|||||||0.170
82392599|NCT01892085|164496630|SUPERIORITY|||||||0.314|||||||Marginalized two part model|||||||0.314
82392600|NCT01892085|164496630|SUPERIORITY|||||||0.162|||||||Marginalized two part model|||||||0.162
82392601|NCT01892085|164496631|SUPERIORITY|||||||0.377|||||||Marginalized two part model|||||||0.377
82392602|NCT01892085|164496631|SUPERIORITY|||||||0.149|||||||Marginalized two part model|||||||0.149
82392603|NCT01892085|164496632|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
82392604|NCT01892085|164496633|SUPERIORITY|||||||0.82|||||||ANOVA|||||||0.82
82392605|NCT01892085|164496634|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||00.22
82392606|NCT01892085|164496635|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
82392607|NCT01892085|164496636|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
82392608|NCT01892085|164496637|SUPERIORITY|||||||0.77|||||||Chi-squared|||||||0.77
82392609|NCT01892085|164496638|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82392610|NCT01892085|164496639|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
82392611|NCT01892085|164496640|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
82392612|NCT00480493|164496658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|3.36||0.468|TWO_SIDED|95.0|-4.32|9.24|||t-test, 2 sided||Confidence scores were also compared using random-effect, mixed regression models to determine whether changes over time differed significantly between groups.|A 2 sided t-test was used to determine if the change in Confidence score was significantly different between the groups.||9.24|-4.32|0.468
82392613|NCT00480493|164496659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.82|STANDARD_ERROR_OF_MEAN|10.05||0.634|TWO_SIDED|95.0|-15.47|25.11|||t-test, 2 sided||Concern scores were also compared using random-effect, mixed regression models to determine whether changes over time differed significantly between groups.|A 2 sided t-test was used to determine if there were significant differences in Concern between the two groups at 12 months.||25.11|-15.47|0.634
82364090|NCT00680186|164438929|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.2101||95.0|0.26|1.35|||Regression, Cox|||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.35|0.26|0.2101
82364091|NCT00680186|164438930|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.2||||0.083||95.0|0.0|0.5|||Kaplan Meier weighted estimates|||RD at 6 months vs. Warfarin for Proportion of patients who died due to VTE . Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.5|0.0|0.0830
82364092|NCT00680186|164438931|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.1||||0.7348||95.0|-0.7|1.0|||Kaplan Meier weighted estimates|||RD at 6 months vs. Warfarin for Proportion of patients who died from any cause. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.0|-0.7|0.7348
82364093|NCT00680186|164438931|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8939||95.0|0.61|1.77|||Regression, Cox|Patients without events are censored at the end of ptp.||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.77|0.61|0.8939
82364094|NCT00680186|164438932|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.3||||0.321|TWO_SIDED|95.0|-1.0|0.3|||Kaplan Meier weighted estimates|||RD vs. Warfarin for Proportion of patients with symptomatic fatal and non-fatal PE at 6 months. Point estimate and 95% CI for the overall RD obtained based on the KM estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.3|-1.0|0.3210
82364095|NCT00680186|164438932|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.3021|TWO_SIDED|95.0|0.29|1.46|||Regression, Cox|||HR vs. Warfarin (events occurring between randomisation and end of ptp). The time to first occurrence of the endpoint was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.46|0.29|0.3021
82444314|NCT03938324|164597236|SUPERIORITY|||||||0.5137||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.5137
82642427|NCT00471237|165000164|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.48||0.192|TWO_SIDED|95.0|0.01|1.89|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||1.89|0.01|0.192
82364096|NCT00680186|164438933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||||95.0|0.36|1.32|||Regression, Cox||This is the analysis of the time to the first MBE.|HR vs. Warfarin (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of MBE was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.32|0.36|
82364097|NCT00680186|164438933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.56|0.81|||Regression, Cox||This is the analysis of the time to the first occurrence of any bleeding event.|HR vs. Warfarin (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of any bleeding was compared between treatment groups using the Cox PH model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||0.81|0.56|<0.0001
82364098|NCT04070287|164438989|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364099|NCT04070287|164438990|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364100|NCT04070287|164438991|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364101|NCT04070287|164438992|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364102|NCT04070287|164438993|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364103|NCT04070287|164438994|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82364104|NCT02709486|164438995|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0088|TWO_SIDED|95.0|-0.81|-0.12||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.12|-0.81|0.0088
82392614|NCT00480493|164496660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|3.12||0.43|TWO_SIDED|95.0|-8.76|3.8|||t-test, 2 sided||We also used a random-effect, mixed regression models to look for between group changes over time.|The difference in the Worry score at 12 months was compared between the groups using a 2 sided t-test.||3.80|-8.76|0.430
82392615|NCT04027075|164496661|SUPERIORITY||Odds Ratio (OR)|1.02||||0.962|TWO_SIDED|95.0|0.51|2.02|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.02|0.51|.962
82575118|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-7.1|8.8|||ANOVA|||FHA(Seroconversion percentage difference (PLA3 - PLA4))||8.8|-7.1|
82364105|NCT02709486|164438995|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18||0.0006|TWO_SIDED|95.0|-0.97|-0.26||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.97|0.0006
82364106|NCT02709486|164438996|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.18||0.0008|TWO_SIDED|95.0|-0.93|-0.24||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-0.93|0.0008
82364107|NCT02709486|164438996|SUPERIORITY|Step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.36||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.36|-1.05|<.0001
82364108|NCT02709486|164438997|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.1092|TWO_SIDED|95.0|-0.24|0.02||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.24|0.1092
82364109|NCT02709486|164438997|SUPERIORITY|A step-down testing procedure within each of the primary outcome measures was applied to maintain Type I error. Tanezumab 5 mg versus placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg versus placebo. A tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary outcome measures.|Least Square Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.0051|TWO_SIDED|95.0|-0.32|-0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.32|0.0051
82364110|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.94|-0.4|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-0.94|<.0001
82364111|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.0149|TWO_SIDED|95.0|-0.61|-0.07|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.07|-0.61|0.0149
82364112|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.08|-0.5|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.08|<.0001
82364113|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.5|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.07|<.0001
82364114|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.92|-0.32|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.32|-0.92|<.0001
82364115|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.47|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.07|<.0001
82364116|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.05|<.0001
82364117|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.09|-0.44|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.44|-1.09|<.0001
82364118|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.17||0.0005|TWO_SIDED|95.0|-0.93|-0.26|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.93|0.0005
82364119|NCT02709486|164438998|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0004|TWO_SIDED|95.0|-0.93|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.93|0.0004
82364120|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.95|-0.42|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-0.95|<.0001
82392616|NCT04027075|164496662|SUPERIORITY||Odds Ratio (OR)|0.47||||0.109|TWO_SIDED|95.0|0.19|1.18|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||1.18|0.19|.109
82392617|NCT04027075|164496663|SUPERIORITY||Odds Ratio (OR)|1.58||||0.227|TWO_SIDED|95.0|0.75|3.29|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||3.29|0.75|.227
82392618|NCT04027075|164496664|SUPERIORITY||Odds Ratio (OR)|1.2||||0.681|TWO_SIDED|95.0|0.5|2.87|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.87|0.50|.681
82444315|NCT03938324|164597237|SUPERIORITY|||||||0.4107||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.4107
82448844|NCT00746863|164604994|SUPERIORITY_OR_OTHER|||||||0.0251||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A 2.0 cm difference on a 10.0 cm VAS scale was clinically significant. Assuming a power of 80% to detect a 2.0 difference on scores between groups, standard deviation of 2.2, an α of 0.05, then, 21 patients would be needed in each group for a total of 42 subjects. A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups.||||0.0251
82642428|NCT00471237|165000164|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.47||0.68|TWO_SIDED|95.0|-1.12|0.73|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||0.73|-1.12|0.680
82392619|NCT04027075|164496665|SUPERIORITY||Odds Ratio (OR)|1.18||||0.65|TWO_SIDED|95.0|0.58|2.42|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.42|0.58|.650
82392620|NCT04027075|164496666|SUPERIORITY||Odds Ratio (OR)|1.41||||0.304|TWO_SIDED|95.0|0.73|2.73|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||2.73|0.73|.304
82392621|NCT04027075|164496667|SUPERIORITY||Odds Ratio (OR)|1.44||||0.97|TWO_SIDED|95.0|0.69|3.0|||Chi-squared||The odds ratio applies to the group comparison (Intervention vs. Services as Usual) at 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||3.00|0.69|0.97
82364121|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.14||0.0014|TWO_SIDED|95.0|-0.7|-0.17|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.70|0.0014
82364122|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.09|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.09|<.0001
82364123|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.08|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.08|<.0001
82364124|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.93|-0.33|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-0.93|<.0001
82364125|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.06|-0.47|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.06|<.0001
82364126|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.11|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.11|<.0001
82364127|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.15|<.0001
82364128|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.0|-0.34|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.34|-1.00|<.0001
82364129|NCT02709486|164439000|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.0|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.00|<.0001
82364130|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.33|-0.12|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.12|-0.33|<.0001
82364131|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.0022|TWO_SIDED|95.0|-0.27|-0.06|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.27|0.0022
82527778|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.42||||0.41|TWO_SIDED|95.0|-7.34|18.18||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.18|-7.34|0.410
82364132|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.35|-0.14|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.35|<.0001
82392622|NCT04027075|164496668|SUPERIORITY||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|0.64||0.005|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.005
82364133|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.43|-0.22|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.43|<.0001
82364134|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.0029|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.28|0.0029
82364135|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.37|-0.15|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.37|<.0001
82364136|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.4|-0.17|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.40|<.0001
82364137|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.43|-0.2|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-0.43|<.0001
82364138|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0352|TWO_SIDED|95.0|-0.26|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.01|-0.26|0.0352
82364139|NCT02709486|164439002|SUPERIORITY||Least Square Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.37|-0.13|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.13|-0.37|<.0001
82364140|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.59|3.14|||Regression, Logistic|||Week 2: Odds ratio and 95 percent (%) confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.59|<.0001
82364141|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0085|TWO_SIDED|95.0|1.12|2.18|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|1.12|0.0085
82527779|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|62.13|||<|0.001|TWO_SIDED|95.0|48.96|75.29||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.29|48.96|<0.001
82364142|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|2.71|||<|0.0001|TWO_SIDED|95.0|1.89|3.88|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.88|1.89|<.0001
82364143|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.62|3.28|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.28|1.62|<.0001
82364144|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.91||||0.0005|TWO_SIDED|95.0|1.33|2.75|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.75|1.33|0.0005
82364145|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0005|TWO_SIDED|95.0|1.32|2.73|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.73|1.32|0.0005
82364146|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0009|TWO_SIDED|95.0|1.31|2.86|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.86|1.31|0.0009
82575119|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-8.0|5.7|||ANOVA|||Pertactin (Seroconversion percentage difference (PLA3 - PLA4))||5.7|-8|
82527780|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|68.64|||<|0.001|TWO_SIDED|95.0|56.11|81.16||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.16|56.11|<0.001
82642429|NCT00471237|165000164|SUPERIORITY||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.68|TWO_SIDED|95.0|-0.59|1.29|||ANOVA|Each dose of ronacaleret was deemed significantly different from placebo if the Hommel-adjusted p-value was \<0.006 at Month 6.||||1.29|-0.59|0.680
82642430|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.33||0.037|TWO_SIDED|95.0|-1.32|-0.04|||ANOVA|||Total Hip aBMD, Month 6||-0.04|-1.32|0.037
82642431|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.33||0.017|TWO_SIDED|95.0|-1.43|-0.14|||ANOVA|||Total Hip aBMD, Month 6||-0.14|-1.43|0.017
82364147|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0008|TWO_SIDED|95.0|1.32|2.89|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.89|1.32|0.0008
82364148|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0002|TWO_SIDED|95.0|1.41|3.01|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.01|1.41|0.0002
82364149|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0022|TWO_SIDED|95.0|1.23|2.57|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.57|1.23|0.0022
82364150|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0032|TWO_SIDED|95.0|1.21|2.54|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.54|1.21|0.0032
82392623|NCT04027075|164496669|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.09||0.46|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.460
82527781|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82642432|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-1.28|STANDARD_ERROR_OF_MEAN|0.32||0|TWO_SIDED|95.0|-1.92|-0.64|||ANOVA|||Total Hip aBMD, Month 6||-0.64|-1.92|0.000
82364151|NCT02709486|164439004|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0013|TWO_SIDED|95.0|1.27|2.69|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment||2.69|1.27|0.0013
82364152|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.3|2.59|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.59|1.30|0.0006
82364153|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.53||||0.016|TWO_SIDED|95.0|1.08|2.16|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|1.08|0.0160
82392624|NCT04027075|164496670|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.26||0.851|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.851
82392625|NCT04027075|164496671|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.23||0.977|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.977
82642433|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.33||0|TWO_SIDED|95.0|-1.95|-0.65|||ANOVA|||Total Hip aBMD, Month 6||-0.65|-1.95|0.000
82642434|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|0.36||0.015|TWO_SIDED|95.0|-1.61|-0.17|||ANOVA|||Total Hip aBMD, Month 12||-0.17|-1.61|0.015
82642435|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|0.37||0.006|TWO_SIDED|95.0|-1.74|-0.3|||ANOVA|||Total Hip aBMD, Month 12||-0.30|-1.74|0.006
82642436|NCT00471237|165000165|SUPERIORITY||Mean Difference (Net)|-1.33|STANDARD_ERROR_OF_MEAN|0.36||0|TWO_SIDED|95.0|-2.04|-0.63|||ANOVA|||Total Hip aBMD, Month 12||-0.63|-2.04|0.000
82642437|NCT00471237|165000165|SUPERIORITY||Median Difference (Net)|-1.57|STANDARD_ERROR_OF_MEAN|0.37||0|TWO_SIDED|95.0|-2.3|-0.84|||ANOVA|||Total Hip aBMD, Month 12||-0.84|-2.30|0.000
82642438|NCT02329834|165000189|EQUIVALENCE|90% Confidence Interval 80\<ratio of AUC\<125. The FDA guided Bioequivalence limit of 80 to 125% for the ratio of the product averages has been adopted for use of an average BE criterion.|% diff Geometric Least Squared Mean|99.5|||||TWO_SIDED|90.0|94.77|104.75||||||||104.75|94.77|
82642439|NCT02329834|165000190|OTHER||% Diff Geometric Least Squared Mean|99.65|||||TWO_SIDED|90.0|94.79|104.75||||||||104.75|94.79|
82642440|NCT00561600|165000234|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority of proportion successful with 8% non inferiority margin at 24 months|percentage difference|0.139||||0.872|ONE_SIDED|95.0||0.225|||Chi-squared||The upper confidence limit was a priori determined to be a secondary endpoint|A non-inferiority test of the proportion successful for each treatment group will be the primary test of efficacy in this investigation. The null hypothesis is Ho: Xc-Xt ≥ 0.08 and the alternative hypothesis is HA:Xc-Xt \< 0.08 Sample size of 126 per group was needed assuming 93% success rates, this was increased to 150 per group to account for attrition.||.225||0.872
82642441|NCT00561600|165000235|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||t-test, 2 sided|Satterthwaite||||||0.167
82642442|NCT00561600|165000238|SUPERIORITY_OR_OTHER|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
82642443|NCT00561600|165000239|SUPERIORITY_OR_OTHER|||||||0.762|||||||Wilcoxon (Mann-Whitney)|||||||0.762
82642444|NCT00561600|165000240|SUPERIORITY_OR_OTHER|||||||0.869|||||||Wilcoxon (Mann-Whitney)|||||||0.869
82364154|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0008|TWO_SIDED|95.0|1.34|3.07|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.07|1.34|0.0008
82364155|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5118|TWO_SIDED|95.0|0.75|1.8|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.80|0.75|0.5118
82364156|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0093|TWO_SIDED|95.0|1.25|4.81|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.81|1.25|0.0093
82364157|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.46||||0.3017|TWO_SIDED|95.0|0.71|3.01|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.01|0.71|0.3017
82364158|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.4||||0.216|TWO_SIDED|95.0|0.6|9.58|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.58|0.60|0.2160
82364159|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.33||||0.7174|TWO_SIDED|95.0|0.29|6.08|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.08|0.29|0.7174
82364160|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.04|||<|0.0001|TWO_SIDED|95.0|1.45|2.87|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.45|<.0001
82364161|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0006|TWO_SIDED|95.0|1.29|2.54|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.54|1.29|0.0006
82642445|NCT00561600|165000241|SUPERIORITY_OR_OTHER|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||||||0.799
82364162|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0024|TWO_SIDED|95.0|1.23|2.65|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.65|1.23|0.0024
82642446|NCT00561600|165000242|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||<0.001
82642447|NCT00561600|165000243|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.032
82642448|NCT00561600|165000244|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||<0.001
82642449|NCT00561600|165000245|SUPERIORITY_OR_OTHER|||||||0.882|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.882
82642450|NCT00561600|165000246|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.005
82642451|NCT00561600|165000247|SUPERIORITY_OR_OTHER|||||||0.237|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.237
82642452|NCT00561600|165000248|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.001
82642453|NCT00561600|165000249|SUPERIORITY_OR_OTHER|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.121
82642454|NCT00561600|165000250|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum Cobalt ions were expected to be lower in the ASR-XL group||||0.012
82642455|NCT00561600|165000251|SUPERIORITY_OR_OTHER|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.103
82392626|NCT04027075|164496672|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.456|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.456
82392627|NCT04027075|164496673|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.31||0.874|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.874
82392628|NCT04027075|164496674|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.24||0.069|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.069
82392629|NCT04027075|164496675|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.658|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.658
82392630|NCT04027075|164496676|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.783|TWO_SIDED||||||t-test, 2 sided||The mean difference applies to the group comparison (Intervention vs. Services as Usual) in trajectory differences from baseline through 3-months. Group was coded 1 = Intervention and 0 = Services as Usual.|||||.783
82444316|NCT03938324|164597238|SUPERIORITY|||||||0.1708||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.1708
82444317|NCT03938324|164597239|SUPERIORITY|||||||0.7982||||||The two-tailed significance set at 0.05 was not adjusted for multiple outcomes or comparisons. No adjustments for pairwise comparisons were required for the model.|Multi-level mixed effects|Fixed effects were treatment, time, treatment-by time; whereas, random effects were participant and participant-by-time.||Multi-level mixed effects model for longitudinal data to compare treatment group difference in trajectory across 12 months. Group sizes provided at least 80% power to detect a true difference in change trajectories (treatment-by-time interaction effect), assuming a medium effect size, two-tailed tests, and statistical significance set at 0.05. Null hypothesis was no treatment group difference in the trajectory from baseline to 12 months (no significant treatment-by-time effect).||||0.7982
82527782|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|63.34|||<|0.001|TWO_SIDED|95.0|50.32|76.35||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||76.35|50.32|<0.001
82642456|NCT00561600|165000252|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.001
82642457|NCT00561600|165000253|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.300
82642458|NCT00561600|165000254|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.079
82364163|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.17|||<|0.0001|TWO_SIDED|95.0|1.49|3.16|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.16|1.49|<.0001
82364164|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0373|TWO_SIDED|95.0|1.04|3.14|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.04|0.0373
82392631|NCT00550862|164496679|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals.||||<0.0001
82392632|NCT00550862|164496679|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals.||||<0.0001
82392633|NCT00550862|164496679|OTHER||||||<|0.0001||||||Initial Phase 2 study: no a priori estimate of treatment effect available. Effect size estimated.|Wilcoxon (Mann-Whitney)|Hierarchical model applied and pairwise comparisons of the 10mg treatment group versus the placebo group, then 25 mg and 50 mg were performed.||All tests: Descriptive methods were used with nominal p values provided and 95% confidence intervals||||<0.0001
82392634|NCT00550862|164496680|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82392635|NCT00550862|164496681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0005||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0005
82642459|NCT00561600|165000255|SUPERIORITY_OR_OTHER|||||||0.766|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.766
82642460|NCT00561600|165000256|SUPERIORITY_OR_OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.018
82642461|NCT00561600|165000257|SUPERIORITY_OR_OTHER|||||||0.689|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.689
82642462|NCT00561600|165000258|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum cobalt ions were expected to be lower in the ASR-XL group||||0.048
82364165|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.17||||0.0046|TWO_SIDED|95.0|1.27|3.72|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.27|0.0046
82364166|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0683|TWO_SIDED|95.0|0.92|9.47|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.47|0.92|0.0683
82364167|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0214|TWO_SIDED|95.0|1.22|11.66|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||11.66|1.22|0.0214
82364168|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.3|2.58|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.30|0.0006
82364169|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0048|TWO_SIDED|95.0|1.16|2.28|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.28|1.16|0.0048
82364170|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0012|TWO_SIDED|95.0|1.27|2.65|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.65|1.27|0.0012
82642463|NCT00561600|165000259|SUPERIORITY_OR_OTHER|||||||0.782|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Serum chromium ions were expected to be lower in the ASR-XL group||||0.782
82642464|NCT00561600|165000260|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte cobalt ions were expected to be lower in the ASR-XL group||||0.061
82364171|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.68|3.47|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.47|1.68|<.0001
82364172|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0537|TWO_SIDED|95.0|0.99|2.74|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.74|0.99|0.0537
82364173|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0001|TWO_SIDED|95.0|1.58|4.13|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.13|1.58|0.0001
82364174|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1155|TWO_SIDED|95.0|0.82|6.27|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.27|0.82|0.1155
82364175|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0271|TWO_SIDED|95.0|1.13|7.96|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.96|1.13|0.0271
82392636|NCT00455520|164496716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-1.7|-0.92|||ANCOVA|||Analysis of Covariance Model with factors of treatment, country, prior opioid use, and baseline dose level and start of DB pain score as factors.||-0.92|-1.7|<0.001
82392637|NCT02719938|164496738|SUPERIORITY|||||||0.415|||||||t-test, 2 sided|||||||0.415
82392638|NCT02719938|164496739|SUPERIORITY|||||||0.521|||||||t-test, 2 sided|||||||0.521
82642465|NCT00561600|165000261|SUPERIORITY_OR_OTHER|||||||0.957|||||||Wilcoxon (Mann-Whitney)|||HO: Pinnacle=ASR-XL. The alternative hypothesis is HA: Pinnacle≠ASR-XL. Erythrocyte chromium ions were expected to be lower in the ASR-XL group||||0.957
82642466|NCT04139642|165000262|SUPERIORITY||||||<|0.0001||||||A mixed-effects model with provider as a random effect and month as a fixed effect was used to test the main effect of arm.|Mixed Models Analysis|||The null hypothesis was that the rate of balance-related diagnosis as a percentage of total visits would be the same between the historical control period, the active control (weight-only), and the intervention (balance+weight), considering provider and month as co-variates.||||<0.0001
82642467|NCT04139642|165000263|SUPERIORITY||||||=|0.15||||||Mixed-effects model with provider as a random effect and month as a fixed effect. Statistical significance a priori threshold set at 0.05.|Mixed Models Analysis|||The null hypothesis was that the rate of balance-related referral as a percentage of total visits would be the same between the historical control period, the active control (weight-only), and the intervention (balance+weight), considering provider and month as co-variates.||||=0.15
82392639|NCT02719938|164496740|SUPERIORITY|||||||0.409|||||||t-test, 2 sided|||||||0.409
82642468|NCT01040624|165000265|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|One-sided binomial test of univariate probability distributions||||||<0.0001
82642469|NCT03733301|165000276|SUPERIORITY||Odds Ratio (OR)|1.88||||0.082|TWO_SIDED|95.0|0.92|3.85|||Regression, Logistic|||||3.85|0.92|0.082
82642470|NCT03733301|165000276|SUPERIORITY||Odds Ratio (OR)|2.77||||0.004|TWO_SIDED|95.0|1.38|5.56|||Regression, Logistic|||||5.56|1.38|0.004
82364176|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0007|TWO_SIDED|95.0|1.3|2.63|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.63|1.30|0.0007
82364177|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0011|TWO_SIDED|95.0|1.26|2.56|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.56|1.26|0.0011
82364178|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0009|TWO_SIDED|95.0|1.27|2.52|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.52|1.27|0.0009
82364179|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.07|||<|0.0001|TWO_SIDED|95.0|1.47|2.91|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.91|1.47|<.0001
82364180|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0064|TWO_SIDED|95.0|1.18|2.78|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.78|1.18|0.0064
82364181|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.68||||0.018|TWO_SIDED|95.0|1.09|2.58|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.09|0.0180
82392640|NCT02719938|164496741|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||0.019
82642471|NCT03733301|165000277|SUPERIORITY||Odds Ratio (OR)|2.62||||0.002|TWO_SIDED|95.0|1.44|4.76|||Regression, Logistic|||||4.76|1.44|0.002
82364182|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|5.61||||0.0006|TWO_SIDED|95.0|2.09|15.08|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||15.08|2.09|0.0006
82364183|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0034|TWO_SIDED|95.0|1.64|12.13|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||12.13|1.64|0.0034
82364184|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.44|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.22|0.0022
82364185|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0014|TWO_SIDED|95.0|1.25|2.5|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|1.25|0.0014
82364186|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0003|TWO_SIDED|95.0|1.33|2.64|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.64|1.33|0.0003
82364187|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.68||||0.003|TWO_SIDED|95.0|1.19|2.36|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.36|1.19|0.0030
82392641|NCT02719938|164496742|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82392642|NCT02719938|164496743|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82392643|NCT02719938|164496744|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||||||0.516
82392644|NCT00955968|164496745|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.54|TWO_SIDED|95.0|0.19|2.4||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||2.40|0.19|0.54
82392645|NCT00955968|164496746|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.66|TWO_SIDED|95.0|0.11|4.01||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||4.01|0.11|0.66
82392646|NCT00955968|164496748|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.44|TWO_SIDED|95.0|0.09|2.81||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||2.81|0.09|0.44
82642472|NCT03733301|165000277|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.8|5.97|||Regression, Logistic|||||5.97|1.80|< 0.001
82642473|NCT03733301|165000278|SUPERIORITY||Odds Ratio (OR)|1.24||||0.574|TWO_SIDED|95.0|0.59|2.62|||Regression, Logistic|||||2.62|0.59|0.574
82642474|NCT03733301|165000278|SUPERIORITY||Odds Ratio (OR)|2.07||||0.045|TWO_SIDED|95.0|1.02|4.2|||Regression, Logistic|||||4.20|1.02|0.045
82642475|NCT03733301|165000279|SUPERIORITY||Mean Difference (Final Values)|-13.08|STANDARD_ERROR_OF_MEAN|5.256||0.013|TWO_SIDED|95.0|-23.42|-2.73|||Mixed Models Analysis|||||-2.73|-23.42|0.013
82642476|NCT03733301|165000279|SUPERIORITY||Mean Difference (Final Values)|-22.13|STANDARD_ERROR_OF_MEAN|5.259|<|0.001|TWO_SIDED|95.0|-32.48|-11.78|||Mixed Models Analysis|||||-11.78|-32.48|<0.001
82444318|NCT01300351|164597250|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.078|TWO_SIDED|95.0|0.54|1.03||With a sample size of 220 randomised patients and 150 progression events, if treatment effect is consistent between ethnicities/the study populations, there is an 89% chance the HR \<1.|Log Rank|||The results of this study would be considered to be consistent with that of the CONFIRM study if the hazard ratio (HR) point estimate for the treatment comparison was \<1 (ie, it favoured fulvestrant 500 mg), without the requirement for the benefit of fulvestrant 500 mg to be statistically significant.||1.03|0.54|0.078
82444319|NCT01300351|164597251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.107|TWO_SIDED|95.0|0.93|2.24|||Regression, Logistic|||||2.24|0.93|0.107
82642477|NCT03733301|165000280|SUPERIORITY||Odds Ratio (OR)|1.53||||0.364|TWO_SIDED|95.0|0.61|3.81|||Regression, Logistic|||||3.81|0.61|0.364
82642478|NCT03733301|165000280|SUPERIORITY||Odds Ratio (OR)|2.7||||0.022|TWO_SIDED|95.0|1.15|6.34|||Regression, Logistic|||||6.34|1.15|0.022
82642479|NCT03733301|165000281|SUPERIORITY||Odds Ratio (OR)|2.88||||0.002|TWO_SIDED|95.0|1.48|5.61|||Regression, Logistic|||||5.61|1.48|0.002
82642480|NCT03733301|165000281|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|1.98|7.46|||Regression, Logistic|||||7.46|1.98|<0.001
82642481|NCT03733301|165000282|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.23|-0.41|||Mixed Models Analysis|||||-0.41|-1.23|<0.001
82642482|NCT03733301|165000282|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.209|<|0.001|TWO_SIDED|95.0|-1.33|-0.51|||Mixed Models Analysis|||||-0.51|-1.33|<0.001
82642483|NCT03733301|165000283|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.319|<|0.001|TWO_SIDED|95.0|-1.78|-0.52|||Mixed Models Analysis|||||-0.52|-1.78|<0.001
82642484|NCT03733301|165000283|SUPERIORITY||Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-2.3|-1.3|||Mixed Models Analysis|||||-1.30|-2.30|<0.001
82642485|NCT03733301|165000284|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.001|TWO_SIDED|95.0|1.47|4.49|||Regression, Logistic|||||4.49|1.47|<0.001
82642486|NCT03733301|165000284|SUPERIORITY||Odds Ratio (OR)|3.56|||<|0.001|TWO_SIDED|95.0|2.0|6.32|||Regression, Logistic|||||6.32|2.00|<0.001
82642487|NCT03733301|165000285|SUPERIORITY||Odds Ratio (OR)|1.3||||0.715|TWO_SIDED|95.0|0.32|5.31|||Regression, Logistic|||||5.31|0.32|0.715
82642488|NCT03733301|165000285|SUPERIORITY||Odds Ratio (OR)|3.02||||0.083|TWO_SIDED|95.0|0.86|10.56|||Regression, Logistic|||||10.56|0.86|0.083
82642489|NCT03733301|165000286|SUPERIORITY||Mean Difference (Final Values)|-8.48|STANDARD_ERROR_OF_MEAN|2.663||0.002|TWO_SIDED|95.0|-13.72|-3.24|||Mixed Models Analysis|||||-3.24|-13.72|0.002
82444320|NCT01300351|164597252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.023|TWO_SIDED|95.0|1.04|1.8|||Regression, Logistic|||||1.80|1.04|0.023
82444321|NCT00443781|164597269|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||McNemar|Exact test was used.||Mcnemar test was used to test the difference between paired PD (provocative discography) and F.A.D. (Functional Anesthetic Discography) proportions.||||0.002
82448845|NCT00746863|164604995|SUPERIORITY_OR_OTHER|||||||0.0923||95.0||||Adjusted for multiple comparisions|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups.||||0.0923
82642490|NCT03733301|165000286|SUPERIORITY||Mean Difference (Final Values)|-14.38|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|-19.62|-9.14|||Mixed Models Analysis|||||-9.14|-19.62|<0.001
82642491|NCT03733301|165000287|SUPERIORITY||Odds Ratio (OR)|3.21||||0.204|TWO_SIDED|95.0|0.53|19.37|||Regression, Logistic|||||19.37|0.53|0.204
82642492|NCT03733301|165000287|SUPERIORITY||Odds Ratio (OR)|6.99||||0.025|TWO_SIDED|95.0|1.27|38.53|||Regression, Logistic|||||38.53|1.27|0.025
82642493|NCT03733301|165000288|SUPERIORITY||Mean Difference (Final Values)|-8.97|STANDARD_ERROR_OF_MEAN|2.591|<|0.001|TWO_SIDED|95.0|-14.07|-3.87|||Mixed Models Analysis|||||-3.87|-14.07|<0.001
82642494|NCT03733301|165000288|SUPERIORITY||Mean Difference (Final Values)|-11.69|STANDARD_ERROR_OF_MEAN|2.584|<|0.001|TWO_SIDED|95.0|-16.78|-6.61|||Mixed Models Analysis|||||-6.61|-16.78|<0.001
82642495|NCT03733301|165000289|SUPERIORITY|||||||0.721|||||||Fisher Exact|||||||0.721
82642496|NCT03733301|165000289|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82642497|NCT03733301|165000290|SUPERIORITY||Mean Difference (Final Values)|-65.16|STANDARD_ERROR_OF_MEAN|24.149||0.0073|TWO_SIDED|95.0|-112.87|-17.65|||ANOVA|||||-17.65|-112.87|0.0073
82642498|NCT03733301|165000290|SUPERIORITY||Mean Difference (Final Values)|-91.14|STANDARD_ERROR_OF_MEAN|24.038||0.0002|TWO_SIDED|95.0|-138.43|-43.85|||ANOVA|||||-43.85|-138.43|0.0002
82642499|NCT03733301|165000291|SUPERIORITY||Mean Difference (Final Values)|-16.44|STANDARD_ERROR_OF_MEAN|4.658|<|0.001|TWO_SIDED|95.0|-25.6|-7.27|||Mixed Models Analysis|||||-7.27|-25.60|< 0.001
82642500|NCT03733301|165000291|SUPERIORITY||Mean Difference (Final Values)|-24.22|STANDARD_ERROR_OF_MEAN|4.672|<|0.001|TWO_SIDED|95.0|-33.42|-15.03|||Mixed Models Analysis|||||-15.03|-33.42|< 0.001
82642501|NCT03733301|165000292|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.046||0.006|TWO_SIDED|95.0|-4.96|-0.84|||Mixed Models Analysis|||||-0.84|-4.96|0.006
82642502|NCT03733301|165000292|SUPERIORITY||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|1.043|<|0.001|TWO_SIDED|95.0|-7.28|-3.18|||Mixed Models Analysis|||||-3.18|-7.28|< 0.001
82642503|NCT03733301|165000293|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.005|TWO_SIDED|95.0|-0.63|-0.12|||Mixed Models Analysis|||||-0.12|-0.63|0.005
82642504|NCT03733301|165000293|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.75|-0.24|||Mixed Models Analysis|||||-0.24|-0.75|< 0.001
82642505|NCT03733301|165000294|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.425||0.083|TWO_SIDED|95.0|-1.57|0.1|||Mixed Models Analysis|||HADS Depression||0.10|-1.57|0.083
82642506|NCT03733301|165000294|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.423||0.016|TWO_SIDED|95.0|-1.85|-0.19|||Mixed Models Analysis|||HADS Depression||-0.19|-1.85|0.016
82642507|NCT03733301|165000294|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.415||0.051|TWO_SIDED|95.0|-1.63|0.0|||Mixed Models Analysis|||HADS Anxiety||0.00|-1.63|0.051
82642508|NCT03733301|165000294|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.413||0.028|TWO_SIDED|95.0|-1.72|-0.1|||Mixed Models Analysis|||HADS Anxiety||-0.10|-1.72|0.028
82527783|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82642509|NCT03733301|165000295|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.832||0.022|TWO_SIDED|95.0|-3.56|-0.28|||Mixed Models Analysis|||||-0.28|-3.56|0.022
82527784|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82527785|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82527786|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82527787|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82527788|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82527789|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82527790|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82527791|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82527792|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82527793|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82527794|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82575120|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|4.7|||ANOVA|||Polio Type 1 (Seroconversion percentage difference (PLA3 - PLA4))||4.7|-2|
82642510|NCT03733301|165000295|SUPERIORITY||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|0.829|<|0.001|TWO_SIDED|95.0|-4.94|-1.68|||Mixed Models Analysis|||||-1.68|-4.94|< 0.001
82642511|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|2.01|STANDARD_ERROR_OF_MEAN|2.569||0.435|TWO_SIDED|95.0|-3.06|7.08|||Mixed Models Analysis|||Absenteeism||7.08|-3.06|0.435
82642512|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.569||0.706|TWO_SIDED|95.0|-4.1|6.04|||Mixed Models Analysis|||Absenteeism||6.04|-4.10|0.706
82642513|NCT03733301|165000296|SUPERIORITY|Presenteeism|Mean Difference (Final Values)|-8.12|STANDARD_ERROR_OF_MEAN|4.384||0.066|TWO_SIDED|95.0|-16.78|0.54|||Mixed Models Analysis|||||0.54|-16.78|0.066
82642514|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|-10.73|STANDARD_ERROR_OF_MEAN|4.336||0.014|TWO_SIDED|95.0|-19.3|-2.17|||Mixed Models Analysis|||Presenteeism||-2.17|-19.30|0.014
82642515|NCT03733301|165000296|SUPERIORITY|Work Productivity Loss|Mean Difference (Final Values)|-7.93|STANDARD_ERROR_OF_MEAN|4.511||0.081|TWO_SIDED|95.0|-16.84|0.99|||Mixed Models Analysis|||||0.99|-16.84|0.081
82642516|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|-10.71|STANDARD_ERROR_OF_MEAN|4.473||0.018|TWO_SIDED|95.0|-19.55|1.88|||Mixed Models Analysis|||Work productivity Loss||1.88|-19.55|0.018
82364188|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0754|TWO_SIDED|95.0|0.96|2.24|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.24|0.96|0.0754
82364189|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0253|TWO_SIDED|95.0|1.06|2.44|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.06|0.0253
82364190|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0098|TWO_SIDED|95.0|1.3|6.83|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.83|1.30|0.0098
82364191|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.72||||0.223|TWO_SIDED|95.0|0.72|4.13|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.13|0.72|0.2230
82364192|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0201|TWO_SIDED|95.0|1.07|2.12|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.12|1.07|0.0201
82364193|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0021|TWO_SIDED|95.0|1.22|2.44|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.44|1.22|0.0021
82364194|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0022
82364195|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0004|TWO_SIDED|95.0|1.32|2.64|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.64|1.32|0.0004
82364196|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.32||||0.2031|TWO_SIDED|95.0|0.86|2.01|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.01|0.86|0.2031
82392647|NCT00955968|164496749|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.79|TWO_SIDED|95.0|0.54|1.6||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||1.60|0.54|0.79
82392648|NCT00955968|164496750|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.71|TWO_SIDED|95.0|0.54|1.52||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||1.52|0.54|0.71
82392649|NCT00955968|164496751|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.42|0.8||5% alpha level and 2-sided test|Log Rank||HR reflects Continue HAART : Stop HAART|||0.80|0.42|<0.001
82392650|NCT00955968|164496752|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1|TWO_SIDED|95.0|0.72|1.03||5% alpha level and 2-sided test|Log Rank|||||1.03|0.72|0.10
82392651|NCT01785849|164496770|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|32.46|||<|0.001|TWO_SIDED|95.0|18.71|56.31|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel test stratified by screening PTH category (\< 600, ≥ 600 to ≤ 1000, and \> 1000 pg/mL), recent cinacalcet use within 8 weeks before randomization (yes and no), and region (North America and non-North America) was used to compare the primary endpoint of proportion of participants with \> 30% reduction from baseline in PTH during the EAP between etelcalcetide and placebo.||56.31|18.71|<0.001
82527795|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|66.44|||<|0.001|TWO_SIDED|95.0|53.38|79.51||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||79.51|53.38|<0.001
82575121|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|4.8|||ANOVA|||Polio Type 2 (Seroconversion percentage difference (PLA3 - PLA4))||4.8|-3|
82392652|NCT01785849|164496771|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.08|||<|0.001|TWO_SIDED|95.0|11.47|42.48|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by screening PTH category, recent cinacalcet use within 8 weeks before randomization, and region.||||42.48|11.47|<0.001
82392653|NCT01785849|164496772|SUPERIORITY_OR_OTHER||Mean Difference|-71.11|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-77.77|-64.46|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-64.46|-77.77|<0.001
82392654|NCT01785849|164496773|SUPERIORITY_OR_OTHER||Mean Difference|-8.38|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|TWO_SIDED|95.0|-9.52|-7.23|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-7.23|-9.52|<0.001
82364197|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0867|TWO_SIDED|95.0|0.95|2.18|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|0.95|0.0867
82364198|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1746|TWO_SIDED|95.0|0.77|4.22|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.22|0.77|0.1746
82364199|NCT02709486|164439006|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1039|TWO_SIDED|95.0|0.87|4.57|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.57|0.87|0.1039
82364200|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0003|TWO_SIDED|95.0|1.33|2.68|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.68|1.33|0.0003
82364201|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0286|TWO_SIDED|95.0|1.04|2.1|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.10|1.04|0.0286
82364202|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1031|TWO_SIDED|95.0|0.93|2.27|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.27|0.93|0.1031
82364203|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2033|TWO_SIDED|95.0|0.85|2.1|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.10|0.85|0.2033
82364204|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0064|TWO_SIDED|95.0|1.34|5.86|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||5.86|1.34|0.0064
82364205|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.44||||0.3706|TWO_SIDED|95.0|0.65|3.23|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|0.65|0.3706
82364206|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.39||||0.2121|TWO_SIDED|95.0|0.61|9.41|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.41|0.61|0.2121
82364207|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.67||||0.4859|TWO_SIDED|95.0|0.39|7.11|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.11|0.39|0.4859
82364208|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.6|3.17|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.17|1.60|<.0001
82364209|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.5|2.96|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.50|<.0001
82364210|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.91||||0.002|TWO_SIDED|95.0|1.27|2.87|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.27|0.0020
82364211|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.53|3.4|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.40|1.53|<.0001
82392655|NCT01785849|164496774|SUPERIORITY_OR_OTHER||Mean Difference|-14.99|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-19.73|-10.25|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-10.25|-19.73|<0.001
82392656|NCT01785849|164496775|SUPERIORITY_OR_OTHER||Mean Difference|-7.45|STANDARD_ERROR_OF_MEAN|2.47||0.003|TWO_SIDED|95.0|-12.31|-2.59|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-2.59|-12.31|0.003
82392657|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.38|STANDARD_ERROR_OF_MEAN|5.449|||TWO_SIDED|95.0|-5.75|24.51|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||24.51|-5.75|
82392658|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.55|STANDARD_ERROR_OF_MEAN|5.849|||TWO_SIDED|95.0|-8.68|23.79|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||23.79|-8.68|
82527796|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|5.31||||0.412|TWO_SIDED|95.0|-7.22|17.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.83|-7.22|0.412
82575122|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.4|4.5|||ANOVA|||Polio Type 3 (Seroconversion percentage difference (PLA3 - PLA4))||4.5|-4.4|
82642517|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|3.511||0.006|TWO_SIDED|95.0|-16.71|-2.89|||Mixed Models Analysis|||Activity Impairment||-2.89|-16.71|0.006
82364212|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0107|TWO_SIDED|95.0|1.21|4.14|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.14|1.21|0.0107
82364213|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0126|TWO_SIDED|95.0|1.18|4.02|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.02|1.18|0.0126
82364214|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.67||||0.1516|TWO_SIDED|95.0|0.7|10.26|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||10.26|0.70|0.1516
82364215|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|4.49||||0.021|TWO_SIDED|95.0|1.25|16.05|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||16.05|1.25|0.0210
82575123|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|0.0|||||TWO_SIDED|95.0|-2.3|2.7|||ANOVA|||Hepatitis B (Seroconversion percentage difference (PLA3 - PLA4))||2.7|-2.3|
82575124|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0|||||TWO_SIDED|95.0|-5.3|1.0|||ANOVA|||Hib (≥ 0.15 μg/mL)(Seroconversion percentage difference (PLA3 - PLA4))||1|-5.3|
82575125|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-2.0||||||95.0|-6.6|3.0|||ANOVA|||Hib (≥1.0 μg/mL)(Seroconversion percentage difference (PLA3 - PLA4))||3|-6.6|
82575126|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.2|3.0|||ANOVA|||PnC 4 (Seroconversion percentage difference (PLA3 - PLA4))||3|-4.2|
82575127|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-4.0|9.0|||ANOVA|||PnC 6B (Seroconversion percentage difference (PLA3 - PLA4))||9|-4|
82364216|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0034|TWO_SIDED|95.0|1.18|2.31|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.18|0.0034
82575128|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0|||||TWO_SIDED|95.0|-2.8|6.0|||ANOVA|||PnC 9V (Seroconversion percentage difference (PLA3 - PLA4))||6|-2.8|
82575129|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.7|3.4|||ANOVA|||PnC 14 (Seroconversion percentage difference (PLA3 - PLA4))||3.4|-3.7|
82575130|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|-3.0|||||TWO_SIDED|95.0|-7.2|0.8|||ANOVA|||PnC 18C (Seroconversion percentage difference (PLA3 - PLA4))||0.8|-7.2|
82575131|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|2.0|||||TWO_SIDED|95.0|-0.8|7.5|||ANOVA|||PnC 19F (Seroconversion percentage difference (PLA3 - PLA4))||7.5|-0.8|
82642518|NCT03733301|165000296|SUPERIORITY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|3.5||0.003|TWO_SIDED|95.0|-17.39|-3.61|||Mixed Models Analysis|||Activity Impairment||-3.61|-17.39|0.003
82642519|NCT03733301|165000297|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.176|TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis|||Health State Index US||0.06|-0.01|0.176
82392659|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.92|STANDARD_ERROR_OF_MEAN|3.645|||TWO_SIDED|95.0|-12.04|8.2|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||8.20|-12.04|
82392660|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.21|STANDARD_ERROR_OF_MEAN|6.361|||TWO_SIDED|95.0|-3.45|31.87|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||31.87|-3.45|
82392661|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|3.79|||TWO_SIDED|95.0|-10.12|10.92|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||10.92|-10.12|
82392662|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.04|STANDARD_ERROR_OF_MEAN|4.281|||TWO_SIDED|95.0|13.16|36.93|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||36.93|13.16|
82392663|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45|STANDARD_ERROR_OF_MEAN|10.62||||95.0|-29.94|29.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||29.03|-29.94|
82364217|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.75||||0.001|TWO_SIDED|95.0|1.26|2.45|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.26|0.0010
82364218|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0014|TWO_SIDED|95.0|1.27|2.71|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.71|1.27|0.0014
82364219|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.46|3.1|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.46|<.0001
82364220|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.61||||0.0007|TWO_SIDED|95.0|1.49|4.55|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.55|1.49|0.0007
82364221|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0018|TWO_SIDED|95.0|1.39|4.24|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.24|1.39|0.0018
82364222|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|4.1||||0.015|TWO_SIDED|95.0|1.31|12.79|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||12.79|1.31|0.0150
82364223|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0211|TWO_SIDED|95.0|1.22|11.78|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||11.78|1.22|0.0211
82364224|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.43|2.84|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.84|1.43|<.0001
82364225|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.19|||<|0.0001|TWO_SIDED|95.0|1.55|3.1|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.55|<.0001
82364226|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.47|3.0|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.00|1.47|<.0001
82364227|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.08|||<|0.0001|TWO_SIDED|95.0|1.46|2.96|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.46|<.0001
82392664|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.31|STANDARD_ERROR_OF_MEAN|7.194|||TWO_SIDED|95.0|-11.67|28.28|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||28.28|-11.67|
82392665|NCT00742508|164496786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|-0.63|0.15|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.15|-0.63|
82392666|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|4.833|||TWO_SIDED|95.0|-11.2|15.63|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||15.63|-11.20|
82392667|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|6.265|||TWO_SIDED|95.0|-17.95|16.84|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||16.84|-17.95|
82392668|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.93|STANDARD_ERROR_OF_MEAN|3.885|||TWO_SIDED|95.0|-15.71|5.86|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||5.86|-15.71|
82392669|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|95.0|-7.11|26.59|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||26.59|-7.11|
82527797|NCT01216163|164751448|SUPERIORITY_OR_OTHER||Difference in proportion|61.14|||<|0.001|TWO_SIDED|95.0|47.6|74.68||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.68|47.60|<0.001
82527798|NCT01216163|164751449|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.22|0.08|<0.001
82575132|NCT00474526|164859800|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3 over LA4, the lower limit of the two-sided 95% CI for the difference in seroresponse rates (PLA3 - PLA4) must be greater than 5% for poliovirus and greater than -10% for all other antigens.|Seroconversion Percentage difference|1.0||||||95.0|-3.7|7.0|||ANOVA|||PnC 23F (Seroconversion percentage difference (PLA3 - PLA4))||7|-3.7|
82575133|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.67|1.2|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio US1A:US1B)||1.2|0.67|
82364228|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.74||||0.018|TWO_SIDED|95.0|1.1|2.76|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.76|1.10|0.0180
82364229|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0072|TWO_SIDED|95.0|1.18|2.94|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.94|1.18|0.0072
82364230|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|10.84||||0.0015|TWO_SIDED|95.0|2.49|47.22|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||47.22|2.49|0.0015
82364231|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|8.62||||0.0044|TWO_SIDED|95.0|1.96|37.96|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||37.96|1.96|0.0044
82364232|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0018|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0018
82364233|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0011|TWO_SIDED|95.0|1.26|2.5|||Regression, Logistic|||Week 16, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|1.26|0.0011
82364234|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0035|TWO_SIDED|95.0|1.19|2.38|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.38|1.19|0.0035
82364235|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0022|TWO_SIDED|95.0|1.22|2.43|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.43|1.22|0.0022
82364236|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0155|TWO_SIDED|95.0|1.11|2.72|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|1.11|0.0155
82364237|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1549|TWO_SIDED|95.0|0.88|2.2|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.20|0.88|0.1549
82364238|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0212|TWO_SIDED|95.0|1.18|7.37|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||7.37|1.18|0.0212
82364239|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0373|TWO_SIDED|95.0|1.06|6.57|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.57|1.06|0.0373
82364240|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0006|TWO_SIDED|95.0|1.29|2.57|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|1.29|0.0006
82364241|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.51|3.02|||Regression, Logistic|||Week 24, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|1.51|<.0001
82527799|NCT01216163|164751449|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.303|TWO_SIDED|95.0|0.45|1.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.28|0.45|0.303
82364242|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0152|TWO_SIDED|95.0|1.09|2.18|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.18|1.09|0.0152
82364243|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0018|TWO_SIDED|95.0|1.23|2.45|||Regression, Logistic|||Week 24, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.23|0.0018
82364244|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.47||||0.097|TWO_SIDED|95.0|0.93|2.31|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|0.93|0.0970
82364245|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3435|TWO_SIDED|95.0|0.79|1.98|||Regression, Logistic|||Week 24, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.98|0.79|0.3435
82364246|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0236|TWO_SIDED|95.0|1.17|9.27|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||9.27|1.17|0.0236
82364247|NCT02709486|164439007|SUPERIORITY||Odds Ratio (OR)|3.14||||0.0296|TWO_SIDED|95.0|1.12|8.81|||Regression, Logistic|||Week 24, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||8.81|1.12|0.0296
82364248|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.14||||0.0132|TWO_SIDED|95.0|1.17|3.9|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.90|1.17|0.0132
82527800|NCT01216163|164751449|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.1|0.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.28|0.10|<0.001
82575134|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.62|1.02|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio US1A:US1B)||1.02|0.62|
82364249|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1274|TWO_SIDED|95.0|0.87|3.02|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|0.87|0.1274
82364250|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0016|TWO_SIDED|95.0|1.44|4.76|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.76|1.44|0.0016
82364251|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.0001|TWO_SIDED|95.0|1.84|6.03|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||6.03|1.84|<.0001
82364252|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0089|TWO_SIDED|95.0|1.2|3.49|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.49|1.20|0.0089
82364253|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0012|TWO_SIDED|95.0|1.42|4.1|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.10|1.42|0.0012
82364254|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0006|TWO_SIDED|95.0|1.45|3.98|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.98|1.45|0.0006
82364255|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|1.92|5.21|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||5.21|1.92|<.0001
82364256|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0203|TWO_SIDED|95.0|1.1|3.06|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.06|1.10|0.0203
82364257|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.77|4.86|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.86|1.77|<.0001
82364258|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0775|TWO_SIDED|95.0|0.95|2.55|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.55|0.95|0.0775
82364259|NCT02709486|164439009|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0064|TWO_SIDED|95.0|1.21|3.21|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline patient global assessment of osteoarthritis scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.21|1.21|0.0064
82364260|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.7|-0.27|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.27|-0.70|<.0001
82364261|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.11||0.0009|TWO_SIDED|95.0|-0.58|-0.15|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.15|-0.58|0.0009
82364262|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.48|-1.00|<.0001
82364263|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.77|-0.25|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.25|-0.77|0.0001
82364264|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.06|-0.5|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.50|-1.06|<.0001
82364265|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0006|TWO_SIDED|95.0|-0.77|-0.21|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.21|-0.77|0.0006
82444322|NCT00353873|164597283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using a one-sided significance level of 2.5%. If the lower confidence interval for the difference SFC-FP falls above -12 L/min the once daily SFC treatment combination was deemed to be statistically non-inferior. In the event that the lower confidence limit (2.5% 1-sided significance) exceeded 0, and using a separate closed testing procedure, superiority could be established.|Mean Difference (Net)|7.6|STANDARD_ERROR_OF_MEAN|3.01||0.012|TWO_SIDED|95.0|1.7|13.5|||ANCOVA|||||13.5|1.7|0.012
82575135|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.67|1.2|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio US1A:US1B)||1.2|0.67|
82364266|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.2|-0.62|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.62|-1.20|<.0001
82364267|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.06|-0.47|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.47|-1.06|<.0001
82364268|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.2|-0.59|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.59|-1.20|<.0001
82364269|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.25|-0.64|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.64|-1.25|<.0001
82364270|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.16||0.0001|TWO_SIDED|95.0|-0.93|-0.3|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.30|-0.93|0.0001
82364271|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.13|-0.5|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.50|-1.13|<.0001
82364272|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.05|-0.39|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.39|-1.05|<.0001
82364273|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.1|-0.44|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.44|-1.10|<.0001
82364274|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.06|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.39|-1.06|<.0001
82364275|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.13|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.46|-1.13|<.0001
82364276|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.004|TWO_SIDED|95.0|-0.87|-0.16|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.16|-0.87|0.0040
82364277|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.18||0.0005|TWO_SIDED|95.0|-0.98|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.27|-0.98|0.0005
82392670|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.45|STANDARD_ERROR_OF_MEAN|4.08|||TWO_SIDED|95.0|-14.78|7.88|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||7.88|-14.78|
82392671|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.06|STANDARD_ERROR_OF_MEAN|1.694|||TWO_SIDED|95.0|13.36|22.76|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||22.76|13.36|
82392672|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.46|STANDARD_ERROR_OF_MEAN|8.902|||TWO_SIDED|95.0|-32.17|17.26|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||17.26|-32.17|
82444323|NCT00353873|164597284|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was tested using a one-sided significance level of 2.5%. If the lower confidence interval for the difference SFC-FP falls above -12 L/min the once daily SFC treatment combination was deemed to be statistically non-inferior. In the event that the lower confidence limit (2.5% 1-sided significance) exceeded 0, and using a separate closed testing procedure, superiority could be established.|Mean Difference (Net)|9.3|STANDARD_ERROR_OF_MEAN|3.08||0.003|TWO_SIDED|95.0|3.2|15.3|||ANCOVA|||||15.3|3.2|0.003
82364278|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.33|-1.06|0.0002
82392673|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|5.297|||TWO_SIDED|95.0|-13.61|15.8|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||15.80|-13.61|
82392674|NCT00742508|164496806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|95.0|-0.54|0.3|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.30|-0.54|
82392675|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.99|STANDARD_ERROR_OF_MEAN|3.187|||TWO_SIDED|95.0|-12.84|4.86|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the 24 h assessment.|||4.86|-12.84|
82392676|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.27|STANDARD_ERROR_OF_MEAN|2.962|||TWO_SIDED|95.0|-13.5|2.95|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Morning assessment.|||2.95|-13.50|
82444324|NCT00353873|164597285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.389|TWO_SIDED|95.0|0.7|2.4|||Regression, Logistic|||||2.4|0.7|0.389
82444325|NCT00353873|164597286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.535|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||||1.9|0.7|0.535
82364279|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.05|-0.32|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.32|-1.05|0.0002
82364280|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.2||0.0506|TWO_SIDED|95.0|-0.78|0.0|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.00|-0.78|0.0506
82364281|NCT02709486|164439010|SUPERIORITY||Least Square Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.2||0.0086|TWO_SIDED|95.0|-0.91|-0.13|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.13|-0.91|0.0086
82364282|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.07|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.48|-1.07|<.0001
82364283|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.94|-0.35|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.94|<.0001
82364284|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.03|-0.41|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.03|<.0001
82364285|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.15|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.15|<.0001
82364286|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0004|TWO_SIDED|95.0|-0.91|-0.26|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-0.91|0.0004
82364287|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.31|-0.67|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.67|-1.31|<.0001
82364288|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.14|<.0001
82364289|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.18|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.18|<.0001
82392677|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.98|STANDARD_ERROR_OF_MEAN|3.209|||TWO_SIDED|95.0|-10.89|6.94|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Afternoon assessment.|||6.94|-10.89|
82392678|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.14|STANDARD_ERROR_OF_MEAN|3.665|||TWO_SIDED|95.0|-14.32|6.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Night assessment.|||6.03|-14.32|
82392679|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.99|STANDARD_ERROR_OF_MEAN|3.047|||TWO_SIDED|95.0|-11.45|5.47|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Waking assessment.|||5.47|-11.45|
82392680|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.11|STANDARD_ERROR_OF_MEAN|4.686|||TWO_SIDED|95.0|-16.12|9.89|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the Sleeping assessment.|||9.89|-16.12|
82392681|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.0|STANDARD_ERROR_OF_MEAN|3.749|||TWO_SIDED|95.0|-20.41|0.41|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax assessment.|||0.41|-20.41|
82392682|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|5.249|||TWO_SIDED|95.0|-16.0|13.15|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmin assessment.|||13.15|-16.00|
82575136|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.63|1.03|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio US1A:US1B)||1.03|0.63|
82364290|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.18||0.0002|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.30|-1.00|0.0002
82364291|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.12|-0.43|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-1.12|<.0001
82364292|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.0013|TWO_SIDED|95.0|-0.99|-0.24|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.24|-0.99|0.0013
82364293|NCT02709486|164439012|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.25|-0.5|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.25|<.0001
82364294|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.96|-0.45|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.45|-0.96|<.0001
82364295|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0004|TWO_SIDED|95.0|-0.73|-0.21|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.73|0.0004
82392683|NCT00742508|164496807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|-0.71|0.03|||||The mean treatment difference is calculated as SK\&F-105517-D minus CRV-IR for the PDmax/PDmin assessment.|||0.03|-0.71|
82392684|NCT02431806|164496811|SUPERIORITY||Least Squares (LS) Mean Difference|-0.38||||0.8035|TWO_SIDED|95.0|-3.41|2.64|||Mixed Model Repeated Measures (MMRM)||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||2.64|-3.41|0.8035
82575137|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|1.02|||||TWO_SIDED|95.0|0.78|1.34|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio US1A:US1B)||1.34|0.78|
82642520|NCT03733301|165000297|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.017||0.004|TWO_SIDED|95.0|0.02|0.09|||Mixed Models Analysis|||Health State Index US||0.09|0.02|0.004
82364296|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.04|-0.49|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.49|-1.04|<.0001
82364297|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.08|-0.53|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.53|-1.08|<.0001
82364298|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.9|-0.32|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.32|-0.90|<.0001
82392685|NCT02431806|164496811|SUPERIORITY||LS Mean Difference|0.26||||0.8681|TWO_SIDED|95.0|-2.8|3.31|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||3.31|-2.80|0.8681
82426327|NCT04464473|164561717|SUPERIORITY|||||||0.1082|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1), Temporal Control, and Contextual Control on error rate||||||0.1082
82426328|NCT04464473|164561717|SUPERIORITY|||||||0.0659|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1), phase (sub-task, return), Temporal Control, and Contextual Control on error rate||||||0.0659
82426329|NCT04464473|164561718|SUPERIORITY|||||||0.0211|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control in reaction time||||||0.0211
82527801|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-40.1|||<|0.001|TWO_SIDED|95.0|-55.39|-24.8||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-24.80|-55.39|<0.001
82527802|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-0.12||||0.958|TWO_SIDED|95.0|-4.52|4.28||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.28|-4.52|0.958
82527803|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-40.19|||<|0.001|TWO_SIDED|95.0|-55.51|-24.87||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-24.87|-55.51|<0.001
82527804|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-63.4|||<|0.001|TWO_SIDED|95.0|-77.81|-48.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-48.99|-77.81|<0.001
82527805|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-7.17||||0.108|TWO_SIDED|95.0|-15.91|1.57||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.57|-15.91|0.108
82527806|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-56.39|||<|0.001|TWO_SIDED|95.0|-71.68|-41.09||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-41.09|-71.68|<0.001
82527807|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-71.01|||<|0.001|TWO_SIDED|95.0|-84.09|-57.93||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-57.93|-84.09|<0.001
82527808|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-9.82||||0.083|TWO_SIDED|95.0|-20.18|1.16||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.16|-20.18|0.083
82527809|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-61.14|||<|0.001|TWO_SIDED|95.0|-75.4|-46.87||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.87|-75.40|<0.001
82527810|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-66.37|||<|0.001|TWO_SIDED|95.0|-80.08|-52.66||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-52.66|-80.08|<0.001
82527811|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-11.03||||0.079|TWO_SIDED|95.0|-23.37|1.21||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.21|-23.37|0.079
82527812|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-55.53|||<|0.001|TWO_SIDED|95.0|-70.12|-40.85||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-40.85|-70.12|<0.001
82527813|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-57.33|||<|0.001|TWO_SIDED|95.0|-71.9|-42.77||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-42.77|-71.90|<0.001
82527814|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-7.73||||0.263|TWO_SIDED|95.0|-21.08|5.63||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.63|-21.08|0.263
82575138|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|1.04||||||95.0|0.81|1.34|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio US1A:US1B)||1.34|0.81|
82575139|NCT00474526|164859815|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the ratio of pneumococcal GMCs (GMCUS1A / GMCUS1B) had to be greater than 0.50.|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.69|1.29|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio US1A:US1B)||1.29|0.69|
82364299|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.13|-0.56|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.56|-1.13|<.0001
82364300|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.09|-0.47|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.09|<.0001
82364301|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.12|-0.5|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.50|-1.12|<.0001
82364302|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.16||0.0001|TWO_SIDED|95.0|-0.95|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.95|0.0001
82364303|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-0.99|<.0001
82364304|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.17||0.0015|TWO_SIDED|95.0|-0.89|-0.21|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.89|0.0015
82364305|NCT02709486|164439014|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.07|-0.39|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average scores and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.07|<.0001
82364306|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.96|-0.38|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.38|-0.96|<.0001
82364307|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.0139|TWO_SIDED|95.0|-0.67|-0.08|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.67|0.0139
82364308|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.13|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.13|<.0001
82392686|NCT02431806|164496811|SUPERIORITY||LS Mean|-1.47||||0.3439|TWO_SIDED|95.0|-4.52|1.58|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||1.58|-4.52|0.3439
82392687|NCT02431806|164496812|SUPERIORITY||LS Mean Difference|0.02||||0.8788|TWO_SIDED|95.0|-0.25|0.29|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.29|-0.25|0.8788
82392688|NCT02431806|164496812|SUPERIORITY||LS Mean Difference|0.01||||0.923|TWO_SIDED|95.0|-0.26|0.29|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.29|-0.26|0.9230
82392689|NCT02431806|164496812|SUPERIORITY||LS Mean Difference|-0.15||||0.2895|TWO_SIDED|95.0|-0.42|0.13|||MMRM||Estimates and p-values are based on MMRM with treatment group, pooled study center, visit, and treatment group-by-visit interaction as fixed effects, and baseline and baseline-by-visit as covariates using an unstructured covariance matrix.|||0.13|-0.42|0.2895
82527815|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-49.93|||<|0.001|TWO_SIDED|95.0|-64.74|-35.12||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-35.12|-64.74|<0.001
82392690|NCT04450407|164496815|NON_INFERIORITY|The non-inferiority margin is 0.4%. Non-inferiority is achieved if the upper limit of the 90% CI (Confidence Interval) is below 0.4.|LS Mean Difference|0.17|||||TWO_SIDED|90.0|0.01|0.32||||||||0.32|0.01|
82575140|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|1.0|||||TWO_SIDED|95.0|-8.0|10.0|||ANOVA|||PnC 4 (percentage difference (US1A - US1B))||10|-8|
82575141|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|4.0|||||TWO_SIDED|95.0|0.0|10.0|||ANOVA|||PnC 6B (percentage difference (US1A - US1B))||10|0|
82364309|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.16|-0.55|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.55|-1.16|<.0001
82364310|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.91|-0.27|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.91|0.0003
82364311|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.04|-0.4|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.04|<.0001
82364312|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.08|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.08|<.0001
82364313|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.44|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.44|-1.14|<.0001
82364314|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18||0.0006|TWO_SIDED|95.0|-0.98|-0.27|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.98|0.0006
82364315|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0009|TWO_SIDED|95.0|-0.96|-0.25|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.25|-0.96|0.0009
82364316|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0377|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.02|-0.78|0.0377
82364317|NCT02709486|164439016|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.0019|TWO_SIDED|95.0|-0.96|-0.22|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.96|0.0019
82364318|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.39|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-0.99|<.0001
82364319|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.15||0.0002|TWO_SIDED|95.0|-0.87|-0.27|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.27|-0.87|0.0002
82426330|NCT04464473|164561718|SUPERIORITY|||||||0.4964|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control in reaction time||||||0.4964
82426331|NCT04464473|164561718|SUPERIORITY|||||||0.3129|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and temporal control in reaction time||||||0.3129
82527816|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-52.75|||<|0.001|TWO_SIDED|95.0|-67.62|-37.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-37.88|-67.62|<0.001
82364320|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.29|-0.65|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.65|-1.29|<.0001
82364321|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.28|-0.65|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.65|-1.28|<.0001
82364322|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.11|-0.42|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-1.11|<.0001
82364323|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.35|-0.67|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.67|-1.35|<.0001
82392691|NCT00474045|164496820|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can only be declared if the non-inferiority criterion was fulfilled for both (FAS and Per-protocol) analysis sets. Non-inferiority was declared if the upper limit of the two-sided 95% CI for the estimated treatment difference was below 0.4%.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.074||0.4||95.0|-0.21|0.08||P-value for superiority was calculated.|Regression, Linear|Treatment, country, pregnancy (preg.) status at randomisation (random.)-fixed. HbA1c at rand.(covariate) \& at rand. by preg. status (interaction)|Estimated treatment differences for IDet versus NPH at Visit P4 with the corresponding 95% confidence interval (CI) was calculated. Non-inferiority was established but superiority was not established.|Non-inferiority analysis with a null hypothesis stated that the difference between treatments, IDet-NPH, was equal to or larger than the pre-specified non-inferiority margin of 0.4%. In case non-inferiority was established it was also investigated if IDet was superior to NPH with a null hypothesis stating that the difference between IDet and NPH treatment groups is equal to or greater than 0.||0.08|-0.21|0.400
82392692|NCT00474045|164496821|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can only be declared if the non-inferiority criterion was fulfilled for both (FAS and Per-protocol) analysis sets. Non-inferiority was declared if the upper limit of the two-sided 95% CI for the estimated treatment difference was below 0.4%.|Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.096||0.122||95.0|-0.34|0.04||P-value for superiority was calculated|Regression, Linear|Treatment, country, preg. status at rand.(fixed factors),HbA1c at rand.(covariate),HbA1c at rand. by preg. status (interaction)|Estimated treatment differences for IDet versus NPH at Visit P4 with the corresponding 95% CI was calculated. Non-inferiority was established but superiority was not established.|Non-inferiority analysis with a null hypothesis stated that the difference between treatments, IDet-NPH, was equal to or larger than the pre-specified non-inferiority margin of 0.4%. In case non-inferiority was established it was also investigated if IDet was superior to NPH with a null hypothesis stating that the difference between IDet and NPH treatment groups is equal to or greater than 0.||0.04|-0.34|0.122
82392693|NCT03315455|164496925|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.016|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.016|<0.0001
82392694|NCT03315455|164496925|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.015|0.082||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.082|0.015|<0.0001
82426332|NCT04464473|164561718|SUPERIORITY|||||||0.5439|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and temporal control in reaction time||||||0.5439
82426333|NCT04464473|164561719|SUPERIORITY|||||||0.0344|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control in reaction time||||||0.0344
82575142|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-4.0|||||TWO_SIDED|95.0|-13.0|5.0|||ANOVA|||PnC 9V (percentage difference (US1A - US1B))||5|-13|
82364324|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.11|-0.39|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.11|<.0001
82426334|NCT04464473|164561719|SUPERIORITY|||||||0.5113|||||||ANOVA|Interaction between visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and contextual control in reaction time||||||0.5113
82392695|NCT03315455|164496928|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.026|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.026|<0.0001
82392696|NCT03315455|164496928|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.028|0.092||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.092|0.028|<0.0001
82392697|NCT03315455|164496931|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.006|0.053||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.053|0.006|<0.0001
82392698|NCT03315455|164496931|SUPERIORITY||ABR Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.007|0.059||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.059|0.007|<0.0001
82392699|NCT03315455|164496934|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.017|0.102||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.102|0.017|<0.0001
82392700|NCT03315455|164496934|SUPERIORITY||ABR Ratio|0.03|||<|0.0001|TWO_SIDED|95.0|0.013|0.084||Statistical significance was controlled at a 2-sided alpha level of 0.05. Hierarchical testing was used to account for multiple comparisons.|Stratified Wald test||The ABR ratio was calculated as Arm B vs. Arm C.|H0 (null hypothesis): ABR Ratio = 1; versus, H1 (alternative hypothesis): ABR Ratio ≠ 1||0.084|0.013|<0.0001
82392701|NCT03315455|164496937|SUPERIORITY||ABR Ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.016|0.163||Not controlled for Type I error|Stratified Wald test||The ABR ratio was calculated as Arm A vs. Arm C.|||0.163|0.016|<0.0001
82392702|NCT03315455|164496937|SUPERIORITY||ABR Ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.011|0.122||Not controlled for Type I error|ABR Ratio||The ABR ratio was calculated as Arm B vs. Arm C.|||0.122|0.011|<0.0001
82392703|NCT03315455|164496942|SUPERIORITY||Difference in Adjusted Means|14.68||||0.0515|TWO_SIDED|95.0|-0.1|29.46||Type I error controlled|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||29.46|-0.10|0.0515
82392704|NCT03315455|164496942|SUPERIORITY||Difference in Adjusted Means|18.33||||0.0204|TWO_SIDED|95.0|2.97|33.68||Type I error controlled|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||33.68|2.97|0.0204
82392705|NCT03315455|164496944|SUPERIORITY||Difference in Adjusted Means|6.06||||0.3281|TWO_SIDED|95.0|-6.27|18.4||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||18.40|-6.27|0.3281
82392706|NCT03315455|164496944|SUPERIORITY||Difference in Adjusted Means|14.01||||0.0297|TWO_SIDED|95.0|1.44|26.59||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||26.59|1.44|0.0297
82527817|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-5.51||||0.439|TWO_SIDED|95.0|-19.27|8.25||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.25|-19.27|0.439
82392707|NCT03315455|164496947|SUPERIORITY||Difference in Adjusted Means|-3.46||||0.6165|TWO_SIDED|95.0|-17.23|10.31||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||10.31|-17.23|0.6165
82575143|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0|||ANOVA|||PnC 14 (percentage difference (US1A - US1B))||3|-6|
82575144|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-6.0|||||TWO_SIDED|95.0|-15.0|3.0|||ANOVA|||PnC 18C (percentage difference (US1A:US1B))||3|-15|
82392708|NCT03315455|164496947|SUPERIORITY||Difference in Adjusted Means|-7.58||||0.2797|TWO_SIDED|95.0|-21.48|6.33||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||6.33|-21.48|0.2797
82392709|NCT03315455|164496949|SUPERIORITY||Difference in Adjusted Means|-0.05||||0.489|TWO_SIDED|95.0|-0.18|0.09||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm A.|||0.09|-0.18|0.4890
82392710|NCT03315455|164496949|SUPERIORITY||Difference in Adjusted Means|-0.08||||0.2454|TWO_SIDED|95.0|-0.22|0.06||Not controlled for Type I error|ANCOVA|Means were adjusted for baseline score, treatment group, and treatment by baseline interaction term.|The difference in adjusted means was calculated as Arm C minus Arm B.|||0.06|-0.22|0.2454
82426335|NCT04464473|164561719|SUPERIORITY|||||||0.0301|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS) and contextual control in reaction time||||||0.0301
82426336|NCT04464473|164561719|SUPERIORITY|||||||0.6931|||||||ANOVA|Interaction between intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), and contextual control in reaction time||||||0.6931
82642521|NCT03733301|165000297|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.024||0.176|TWO_SIDED|95.0|-0.01|0.08|||Mixed Models Analysis|||Health State Index UK||0.08|-0.01|0.176
82364325|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.23|-0.51|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.23|<.0001
82364326|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.19||0.0005|TWO_SIDED|95.0|-1.03|-0.29|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-1.03|0.0005
82364327|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.13|-0.4|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.13|<.0001
82364328|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.2||0.0246|TWO_SIDED|95.0|-0.82|-0.06|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.82|0.0246
82364329|NCT02709486|164439018|SUPERIORITY||Least Square Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.2||0.0003|TWO_SIDED|95.0|-1.1|-0.33|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-1.10|0.0003
82364330|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|2.57||0.6427|TWO_SIDED|95.0|-3.9|6.29|||ANCOVA|||Week 8: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||6.29|-3.90|0.6427
82364331|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|2.59||0.4208|TWO_SIDED|95.0|-7.22|3.04|||ANCOVA|||Week 8: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.04|-7.22|0.4208
82364332|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|2.73||0.8204|TWO_SIDED|95.0|-6.03|4.79|||ANCOVA|||Week 16: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.79|-6.03|0.8204
82364333|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-4.52|STANDARD_ERROR_OF_MEAN|2.85||0.1157|TWO_SIDED|95.0|-10.16|1.13|||ANCOVA|||Week 16: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||1.13|-10.16|0.1157
82364334|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|2.41||0.5845|TWO_SIDED|95.0|-6.12|3.47|||ANCOVA|||Week 24: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.47|-6.12|0.5845
82364335|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.54||0.2514|TWO_SIDED|95.0|-7.97|2.11|||ANCOVA|||Week 24: Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.11|-7.97|0.2514
82364336|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-6.68|STANDARD_ERROR_OF_MEAN|3.67||0.0717|TWO_SIDED|95.0|-13.97|0.6|||ANCOVA|||Week 8: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.60|-13.97|0.0717
82364337|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-12.69|STANDARD_ERROR_OF_MEAN|3.74||0.001|TWO_SIDED|95.0|-20.11|-5.26|||ANCOVA|||Week 8: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-5.26|-20.11|0.0010
82364338|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|3.8||0.0079|TWO_SIDED|95.0|-17.85|-2.77|||ANCOVA|||Week 16: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.77|-17.85|0.0079
82364339|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-10.56|STANDARD_ERROR_OF_MEAN|4.0||0.0096|TWO_SIDED|95.0|-18.49|-2.63|||ANCOVA|||Week 16: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.63|-18.49|0.0096
82364340|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-4.28|STANDARD_ERROR_OF_MEAN|4.37||0.3302|TWO_SIDED|95.0|-12.97|4.41|||ANCOVA|||Week 24: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.41|-12.97|0.3302
82364341|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-2.74|STANDARD_ERROR_OF_MEAN|4.54||0.5483|TWO_SIDED|95.0|-11.78|6.3|||ANCOVA|||Week 24: Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||6.30|-11.78|0.5483
82364342|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-6.75|STANDARD_ERROR_OF_MEAN|3.79||0.0774|TWO_SIDED|95.0|-14.26|0.76|||ANCOVA|||Week 8: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.76|-14.26|0.0774
82364343|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-12.48|STANDARD_ERROR_OF_MEAN|3.87||0.0017|TWO_SIDED|95.0|-20.15|-4.81|||ANCOVA|||Week 8: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-4.81|-20.15|0.0017
82364344|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-9.41|STANDARD_ERROR_OF_MEAN|3.74||0.0135|TWO_SIDED|95.0|-16.83|-1.99|||ANCOVA|||Week 16: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-1.99|-16.83|0.0135
82364345|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-10.04|STANDARD_ERROR_OF_MEAN|3.97||0.0129|TWO_SIDED|95.0|-17.91|-2.17|||ANCOVA|||Week 16: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.17|-17.91|0.0129
82364346|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|4.43||0.3869|TWO_SIDED|95.0|-12.66|4.96|||ANCOVA|||Week 24: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||4.96|-12.66|0.3869
82392711|NCT01458951|164496978|SUPERIORITY_OR_OTHER||Percentage difference|13.0||||0.0005|TWO_SIDED|95.0|8.1|17.9|||CMH Chi-square Test|||P-value based on Cochran-Mantel Haenszel (CMH) chi-square test stratified by prior treatment with anti-tumor necrosis factor (TNF), steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using non-responder imputation (NRI).||17.9|8.1|0.0005
82392712|NCT01458951|164496979|SUPERIORITY_OR_OTHER||Percentage difference|16.8||||0.0002|TWO_SIDED|95.0|9.5|24.1|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||24.1|9.5|0.0002
82392713|NCT01458951|164496980|SUPERIORITY_OR_OTHER||Percentage difference|26.4|||<|0.0001|TWO_SIDED|95.0|16.8|36.0|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||36.0|16.8|<0.0001
82392714|NCT01458951|164496981|SUPERIORITY_OR_OTHER||Percentage difference|5.2||||0.0425|TWO_SIDED|95.0|1.8|8.6|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.6|1.8|0.0425
82426337|NCT04464473|164561720|SUPERIORITY|||||||0.0189|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on reaction time||||||0.0189
82575145|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|4.0|||||TWO_SIDED|95.0|-4.0|11.0|||ANOVA|||PnC 19F (percentage difference (US1A:US1B))||11|-4|
82364347|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-2.11|STANDARD_ERROR_OF_MEAN|4.62||0.6485|TWO_SIDED|95.0|-11.31|7.08|||ANCOVA|||Week 24: Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||7.08|-11.31|0.6485
82364348|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-6.18|STANDARD_ERROR_OF_MEAN|1.61||0.0001|TWO_SIDED|95.0|-9.34|-3.03|||ANCOVA|||Week 8: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-3.03|-9.34|0.0001
82364349|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-9.13|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-12.26|-6.0|||ANCOVA|||Week 8: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-6.00|-12.26|<.0001
82364350|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.79||0.0008|TWO_SIDED|95.0|-9.51|-2.5|||ANCOVA|||Week 16: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-2.50|-9.51|0.0008
82364351|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-6.97|STANDARD_ERROR_OF_MEAN|1.77|<|0.0001|TWO_SIDED|95.0|-10.44|-3.51|||ANCOVA|||Week 16: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||-3.51|-10.44|<.0001
82364352|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-3.08|STANDARD_ERROR_OF_MEAN|1.87||0.1004|TWO_SIDED|95.0|-6.76|0.6|||ANCOVA|||Week 24: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.60|-6.76|0.1004
82392715|NCT01458951|164496982|SUPERIORITY_OR_OTHER||Difference in percentage|13.2||||0.0004|TWO_SIDED|95.0|8.3|18.1|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference in its percentage and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||18.1|8.3|0.0004
82392716|NCT01458951|164496983|SUPERIORITY_OR_OTHER||Percentage difference|8.0||||0.009|TWO_SIDED|95.0|3.9|12.2|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||12.2|3.9|0.0090
82392717|NCT01458951|164496984|SUPERIORITY_OR_OTHER||Percentage difference|3.3||||0.1408|TWO_SIDED|95.0|0.1|6.6|||CMH Chi-square Test|||P-value was based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Percentage difference and its 95% CI was based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||6.6|0.1|0.1408
82392718|NCT01458951|164496986|SUPERIORITY_OR_OTHER||Least square mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||At Week 2: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.6|-1.4|<0.0001
82575146|NCT00474526|164859816|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of US1A over US1B, the lower limit of 95% CI for the difference in rates (PUS1A - PUS1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-10.0|5.0|||ANOVA|||PnC 239F (percentage difference (US1A:US1B))||5|-10|
82392719|NCT01458951|164496986|SUPERIORITY_OR_OTHER||Least square mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Models Analysis|||At Week 4: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.7|-1.6|<0.0001
82392720|NCT01458951|164496986|SUPERIORITY_OR_OTHER||Least square mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.7|-0.9|||Mixed Models Analysis|||At Week 8: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and subjects as a random effect.||-0.9|-1.7|<0.0001
82392721|NCT01458951|164496987|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.2|-1.0|||ANCOVA|||The change from baseline at Week 8 was analyzed using an analysis of covariance (ANCOVA) model with treatment group, prior treatment with anti-TNF, steroid use at baseline and geographic region as factors and baseline as a covariate based on the observed-case data.||-1.0|-2.2|<0.0001
82392722|NCT00308750|164497029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Log Rank|||||||0.40
82392723|NCT00308750|164497029|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Log Rank|||||||0.19
82392724|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||||||P-value is for the change in Total FACT-L at Cycle 1 (Week 3).|ANCOVA|||||||0.96
82392725|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||P-value is for the change in Total FACT-L at Cycle 1 (Week 3).|ANCOVA|||||||0.15
82364353|NCT02709486|164439021|SUPERIORITY||Least Square Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.86||0.0079|TWO_SIDED|95.0|-8.59|-1.3|||ANCOVA|||Week 24: Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect||-1.30|-8.59|0.0079
82392726|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||P-value is for the change in Total FACT-L at Cycle 2 (Week 6).|ANCOVA|||||||0.92
82392727|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||||||P-value is for the change in Total FACT-L at Cycle 2 (Week 6).|ANCOVA|||||||0.97
82392728|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||P-value is for the change in Total FACT-L at Cycle 3 (Week 9).|ANCOVA|||||||0.71
82392729|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66||||||P-value is for the change in Total FACT-L at Cycle 3 (Week 9).|ANCOVA|||||||0.66
82392730|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||||||P-value is for the change in Total FACT-L at Cycle 4 (Week 12).|ANCOVA|||||||0.93
82392731|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33||||||P-value is for the change in Total FACT-L at Cycle 4 (Week 12).|ANCOVA|||||||0.33
82392732|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||P-value is for the change in Total FACT-L at Cycle 5 (Week 15).|ANCOVA|||||||0.19
82392733|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||P-value is for the change in Total FACT-L at Cycle 5 (Week 15).|ANCOVA|||||||0.40
82392734|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||||||P-value is for the change in Total FACT-L at Cycle 6 (Week 18).|ANCOVA|||||||0.63
82392735|NCT00308750|164497033|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||P-value is for the change in Total FACT-L at Cycle 6 (Week 18).|ANCOVA|||||||0.55
82392736|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||||||P-value is for the change in Total FACT-Taxane at Cycle 1 (Week 3).|ANCOVA|||||||0.93
82392737|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||P-value is for the change in Total FACT-Taxane at Cycle 1 (Week 3).|ANCOVA|||||||0.86
82527818|NCT01216163|164751450|SUPERIORITY_OR_OTHER||Difference in proportion|-47.72|||<|0.001|TWO_SIDED|95.0|-62.62|-32.83||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-32.83|-62.62|<0.001
82575147|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.61|1.02|||ANOVA|||PnC 4 (Post-vaccination GMC; group ratio LA1A:LA1B)||1.02|0.61|
82642522|NCT03733301|165000297|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.024||0.003|TWO_SIDED|95.0|0.02|0.12|||Mixed Models Analysis|||Health State Index UK||0.12|0.02|0.003
82642523|NCT03733301|165000298|SUPERIORITY||Mean Difference (Final Values)|4.12|STANDARD_ERROR_OF_MEAN|2.593||0.113|TWO_SIDED|95.0|-0.98|9.23|||Mixed Models Analysis|||||9.23|-0.98|0.113
82642524|NCT03733301|165000298|SUPERIORITY||Mean Difference (Final Values)|6.06|STANDARD_ERROR_OF_MEAN|2.592||0.02|TWO_SIDED|95.0|0.96|11.16|||Mixed Models Analysis|||||11.16|0.96|0.020
82642525|NCT03733301|165000299|SUPERIORITY||Mean Difference (Final Values)|10.04|STANDARD_ERROR_OF_MEAN|4.36||0.022|TWO_SIDED|95.0|1.46|18.36|||ANCOVA|||||18.36|1.46|0.022
82642526|NCT03733301|165000299|SUPERIORITY||Mean Difference (Final Values)|17.33|STANDARD_ERROR_OF_MEAN|4.34|<|0.001|TWO_SIDED|95.0|8.79|25.88|||ANCOVA|||||25.88|8.79|< 0.001
82364354|NCT02709486|164439036|SUPERIORITY||Odds Ratio (OR)|0.1||||0.0027|TWO_SIDED|95.0|0.02|0.46|||Regression, Logistic|||Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade and treatment. Odds ratio and 95% CI estimated from logistic regression model.||0.46|0.02|0.0027
82364355|NCT02709486|164439036|SUPERIORITY||Odds Ratio (OR)|0.16||||0.0033|TWO_SIDED|95.0|0.05|0.54|||Regression, Logistic|||Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade and treatment. Odds ratio and 95% CI estimated from logistic regression model.||0.54|0.05|0.0033
82392738|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||||||P-value is for the change in Total FACT-Taxane at Cycle 2 (Week 6).|ANCOVA|||||||0.69
82364356|NCT02709486|164439037|SUPERIORITY|||||||0.0002||||||P-value based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0002
82364357|NCT02709486|164439037|SUPERIORITY|||||||0.0007||||||P-value based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0007
82364358|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.59|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.59|0.29|<.0001
82392739|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||P-value is for the change in Total FACT-Taxane at Cycle 2 (Week 6).|ANCOVA|||||||0.77
82392740|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83||||||P-value is for the change in Total FACT-Taxane at Cycle 3 (Week 9).|ANCOVA|||||||0.83
82392741|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||||||P-value is for the change in Total FACT-Taxane at Cycle 3 (Week 9).|ANCOVA|||||||0.78
82527819|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.294|TWO_SIDED|95.0|-3.59|1.17||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.17|-3.59|0.294
82575148|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.81|||||TWO_SIDED|95.0|0.54|1.2|||ANOVA|||PnC 6B (Post-vaccination GMC; group ratio LA1A:LA1B)||1.2|0.54|
82392742|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||1||||||P-value is for the change in Total FACT-Taxane at Cycle 4 (Week 12).|ANCOVA|||||||1.00
82642527|NCT03733301|165000300|SUPERIORITY||Odds Ratio (OR)|3.83||||0.006|TWO_SIDED|95.0|1.46|10.03|||Regression, Logistic|||||10.03|1.46|0.006
82642528|NCT03733301|165000300|SUPERIORITY||Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.77|11.87|||Regression, Logistic|||||11.87|1.77|0.002
82642529|NCT02050373|165000301|OTHER|For the comparison between the LLLT and control groups the Pearson chi-square (χ2) or Fisher's Exact tests were used.|||||<|0.05|||||||Fisher Exact|||The Pearson chi-square (χ2) or Fisher's Exact tests were used, at three different times (AD, D7, HD), to analyze the oral mucositis severity in the comparison between the LLLT and control groups. Statistical analysis was not performed for each grade of oral mucositis separately.||||<0.05
82642530|NCT02050373|165000302|OTHER|Student's t test was used to numerical variables with normal distribution. The Mann-Whitney test was used to compare the cytokine values of the two groups (control and laser). The Friedman test was used to indicate differences by comparing cytokine levels at different times of assessment within each group. The Friedman and Wilcoxon tests were used for paired analyzes of the saliva collection times in the groups. All tests were used to compare the groups at the three different times (AD, D7, HD).|||||<|0.05||||||p\<0,05|Wilcoxon (Mann-Whitney)|||||||<0.05
82642531|NCT04342130|165000303|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82642532|NCT01803464|165000325|OTHER||Cohen's d|0.59|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled Standard Deviation (SD) of the % change for the 2 groups was the denominator.|||||
82642533|NCT01803464|165000325|OTHER||Cohen's d|0.13|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82364359|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.55||||0.001|TWO_SIDED|95.0|0.38|0.78|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.78|0.38|0.0010
82364360|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.7|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.70|0.36|<.0001
82364361|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.62||||0.0067|TWO_SIDED|95.0|0.44|0.88|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.88|0.44|0.0067
82364362|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.64||||0.0087|TWO_SIDED|95.0|0.45|0.89|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.89|0.45|0.0087
82364363|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.74||||0.0787|TWO_SIDED|95.0|0.53|1.04|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.04|0.53|0.0787
82364364|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0129|TWO_SIDED|95.0|0.47|0.91|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.47|0.0129
82642534|NCT01803464|165000325|OTHER||Cohen's d|0.51|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing control group group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82642535|NCT01803464|165000326|OTHER||Cohen's d|0.45|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator|||||
82642536|NCT01803464|165000326|OTHER||Cohen's d|0.57|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82364365|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0124|TWO_SIDED|95.0|0.47|0.91|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.47|0.0124
82364366|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.7||||0.0399|TWO_SIDED|95.0|0.5|0.98|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.98|0.50|0.0399
82364367|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.62||||0.006|TWO_SIDED|95.0|0.45|0.87|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.87|0.45|0.0060
82364368|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9449|TWO_SIDED|95.0|0.72|1.42|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.42|0.72|0.9449
82364369|NCT02709486|164439038|SUPERIORITY||Odds Ratio (OR)|0.84||||0.3238|TWO_SIDED|95.0|0.6|1.18|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.18|0.60|0.3238
82364370|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.07||0.0001|TWO_SIDED|95.0|0.54|0.82|||Negative binomial model|||Week 2: Least square (LS) Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.82|0.54|0.0001
82364371|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.08||0.0067|TWO_SIDED|95.0|0.61|0.92|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.92|0.61|0.0067
82364372|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.64|STANDARD_ERROR_OF_MEAN|0.08||0.0003|TWO_SIDED|95.0|0.51|0.82|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.82|0.51|0.0003
82642537|NCT01803464|165000326|OTHER||Cohen's d|0.13|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator|||||
82642538|NCT01803464|165000327|OTHER||Cohen's d|1.2|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox plus low-magnitude vibration group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82642539|NCT01803464|165000327|OTHER||Cohen's d|0.33|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the Botox group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82364373|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.09||0.0112|TWO_SIDED|95.0|0.58|0.93|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.93|0.58|0.0112
82364374|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.09||0.0093|TWO_SIDED|95.0|0.56|0.92|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.92|0.56|0.0093
82364375|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.09||0.0237|TWO_SIDED|95.0|0.59|0.96|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.96|0.59|0.0237
82364376|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.11||0.0374|TWO_SIDED|95.0|0.56|0.98|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.98|0.56|0.0374
82364377|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.11||0.0468|TWO_SIDED|95.0|0.57|1.0|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.00|0.57|0.0468
82364378|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.11||0.0751|TWO_SIDED|95.0|0.59|1.03|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.03|0.59|0.0751
82364379|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.81|STANDARD_ERROR_OF_MEAN|0.11||0.1305|TWO_SIDED|95.0|0.61|1.06|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.06|0.61|0.1305
82364380|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.13||0.3057|TWO_SIDED|95.0|0.63|1.16|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.16|0.63|0.3057
82364381|NCT02709486|164439040|SUPERIORITY||LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.13||0.2056|TWO_SIDED|95.0|0.61|1.11|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.11|0.61|0.2056
82392743|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||P-value is for the change in Total FACT-Taxane at Cycle 4 (Week 12).|ANCOVA|||||||0.91
82364382|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.62|STANDARD_ERROR_OF_MEAN|0.15||0.0441|TWO_SIDED|95.0|0.39|0.99|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||0.99|0.39|0.0441
82364383|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.17||0.1895|TWO_SIDED|95.0|0.46|1.17|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.17|0.46|0.1895
82364384|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0567|TWO_SIDED|95.0|0.35|1.01|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.01|0.35|0.0567
82364385|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.2||0.296|TWO_SIDED|95.0|0.44|1.28|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.28|0.44|0.2960
82364386|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.65|STANDARD_ERROR_OF_MEAN|0.18||0.1215|TWO_SIDED|95.0|0.37|1.12|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.12|0.37|0.1215
82364387|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.22||0.3569|TWO_SIDED|95.0|0.44|1.34|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.34|0.44|0.3569
82364388|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.67|STANDARD_ERROR_OF_MEAN|0.21||0.2096|TWO_SIDED|95.0|0.36|1.25|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.25|0.36|0.2096
82364389|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.69|STANDARD_ERROR_OF_MEAN|0.22||0.2387|TWO_SIDED|95.0|0.37|1.28|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.28|0.37|0.2387
82392744|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49||||||P-value is for the change in Total FACT-Taxane at Cycle 5 (Week 15).|ANCOVA|||||||0.49
82392745|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||||||P-value is for the change in Total FACT-Taxane at Cycle 5 (Week 15).|ANCOVA|||||||0.53
82642540|NCT01803464|165000327|OTHER||Cohen's d|0.33|||||TWO_SIDED||||||||Cohen's d was calculated. The % change of the typically developing control group minus the % change of the cerebral palsy control group was the numerator. The pooled SD of the % change for the 2 groups was the denominator.|||||
82642541|NCT02424851|165000328|OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
82642542|NCT02424851|165000329|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
82642543|NCT02424851|165000330|OTHER||||||=|0.48|||||||Fisher Exact|||Statistical analysis of SAEs.||||=0.48
82642544|NCT02424851|165000330|OTHER||||||=|0.25|||||||Fisher Exact|||Statistical analysis of AEs||||=0.25
82642545|NCT02424851|165000331|OTHER||||||=|0.31|||||||Log Rank|||||||= 0.31
82642546|NCT02424851|165000332|OTHER||||||=|0.45|||||||Fisher Exact|||||||=0.45
82392746|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||||||P-value is for the change in Total FACT-Taxane at Cycle 6 (Week 18).|ANCOVA|||||||0.80
82642547|NCT02424851|165000333|OTHER|||||||0.33|||||||t-test, 1 sided|||||||0.33
82642548|NCT01856257|165000334|SUPERIORITY||Mean Difference (Final Values)|3.512||||0.544|TWO_SIDED|95.0|-7.999|15.024|||Mixed Models Analysis||The p-value, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from weeks 4, 12, 28, 36, and 52 to compare Group 2 to Group 1.|||15.024|-7.999|0.544
82642549|NCT01856257|165000334|SUPERIORITY||Mean Difference (Final Values)|4.82||||0.531|TWO_SIDED|95.0|-10.481|20.121|||Mixed Models Analysis||P-value estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from weeks 4, 12, 28, 36, and 52 to compare Group 3 to Group 1.|||20.121|-10.481|0.531
82392747|NCT00308750|164497034|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85||||||P-value is for the change in Total FACT-Taxane at Cycle 6 (Week 18).|ANCOVA|||||||0.85
82392748|NCT00308750|164497035|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87|||||||Log Rank|||||||0.87
82392749|NCT00308750|164497035|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Log Rank|||||||0.05
82392750|NCT00308750|164497038|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Log Rank|||||||0.71
82392751|NCT00308750|164497038|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Log Rank|||||||0.04
82392752|NCT02304380|164497047|OTHER||Difference in differences|-0.0064|||||TWO_SIDED|95.0|-0.0469|0.034|||||Linear model difference in incidences.|||0.0340|-0.0469|
82392753|NCT02304380|164497048|OTHER||Difference in Differences|0.0506|||||TWO_SIDED|95.0|0.029|0.0722|||||Linear model difference in incidences.|||0.0722|0.0290|
82642550|NCT00318409|165000384|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.98
82642551|NCT02325739|165000392|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 (single agent - fasted) is 120mg.|||||
82642552|NCT02325739|165000392|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 (single agent - fed) is 120mg.|||||
82642553|NCT02325739|165000392|OTHER||RP2D|120.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 + PDR001 combination is for FGF401 120mg.|||||
82642554|NCT02325739|165000392|OTHER||RP2D|300.0|||||||||||||The estimation parameter and recommended Phase 2 dose level for FGF401 + PDR001 combination is for PDR001 300mg.|||||
82642555|NCT00530621|165000438|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.13||||0.544||95.0|0.77|1.65||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status and time since last chemotherapy.|Log Rank|||||1.65|0.77|0.544
82642556|NCT00530621|165000439|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.171||95.0|0.42|1.17||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status and time since last chemotherapy.|Log Rank|||||1.17|0.42|0.171
82642557|NCT00530621|165000440|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.11||||0.01||95.0|1.19|3.75|||Regression, Cox|||||3.75|1.19|0.010
82642558|NCT00530621|165000441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.5||||0.194||95.0|0.81|2.77||P-value was stratified by Eastern Cooperative Oncology Group (ECOG) performance status score and time since last chemotherapy.|Log Rank|||||2.77|0.81|0.194
82642559|NCT00530621|165000442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.681|||||||Fisher Exact|||||||0.681
82642560|NCT04611152|165000446|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin|Adjusted mean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.84||0.4162|TWO_SIDED|95.04|-5.47|-2.17|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA and OCT CST.||||-2.17|-5.47|0.4162
82642561|NCT04611152|165000447|NON_INFERIORITY|"The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%"|Difference of weighted percentages|0.6|||<|0.0001|TWO_SIDED|95.04|-0.7|2.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by study identifier and randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||2|-0.7|<0.0001
82642562|NCT04611152|165000448|NON_INFERIORITY|"The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%"|Difference of weighted percentages|0.0|||||TWO_SIDED|95.04|0.0|0.0|||||Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||0|0|
82642563|NCT01281475|165000452|SUPERIORITY|We modeled each outcome variable as a function of treatment (ie, levodopa versus placebo), visit (ie, baseline vs. 12-month follow-up) and the treatment-by-visit interaction; the interaction term tests whether the effect of levodopa treatment over time is significantly greater than that of the placebo group.||||||0.75||||||This was the calculated p value without correction for multiple comparisons|Generalized estimating equations|||We performed generalized estimating equations with an unstructured covariance matrix to account for inter-correlations within measurements on the same participant over time.||||0.75
82642564|NCT02080273|165000454|OTHER|||||||0.919|||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.919
82364390|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.71|STANDARD_ERROR_OF_MEAN|0.22||0.2627|TWO_SIDED|95.0|0.39|1.29|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.29|0.39|0.2627
82364391|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.72|STANDARD_ERROR_OF_MEAN|0.22||0.2863|TWO_SIDED|95.0|0.4|1.31|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group||1.31|0.40|0.2863
82364392|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.27||0.556|TWO_SIDED|95.0|0.43|1.58|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.58|0.43|0.5560
82642565|NCT02080273|165000455|SUPERIORITY_OR_OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
82642566|NCT02080273|165000456|SUPERIORITY_OR_OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
82364393|NCT02709486|164439042|SUPERIORITY||LS Mean Ratio|0.8|STANDARD_ERROR_OF_MEAN|0.26||0.5076|TWO_SIDED|95.0|0.42|1.53|||Negative binomial model|||Week 24: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.53|0.42|0.5076
82364394|NCT00606502|164439057|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.84|||||TWO_SIDED|95.0|0.61|1.14||||||||1.14|0.61|
82364395|NCT02443545|164439064|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.0000
82364396|NCT02443545|164439064|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.0000
82392754|NCT02304380|164497049|OTHER||Difference in Differences|-0.0005|||||TWO_SIDED|95.0|-0.0109|0.0099|||||Linear model difference in incidences.|||0.0099|-0.0109|
82364397|NCT02443545|164439064|OTHER|One-sample t-test, to determine whether the change from baseline in LIC was significantly different from 0.||||||0|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.0000
82364398|NCT02443545|164439065|OTHER|One-sample t-test, to determine whether the change from baseline in MRI T2\* was significantly different from 0.||||||0.3146|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.3146
82364399|NCT02443545|164439065|OTHER|One-sample t-test, to determine whether the change from baseline in MRI T2\* was significantly different from 0.||||||0.9454|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.9454
82364400|NCT02443545|164439065|OTHER|One-sample t-test, to determine whether the change from baseline in MRI 2\* was significantly different from 0.||||||0.4336|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.4336
82364401|NCT02443545|164439066|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.9952|||||||t-test, 2 sided|||Change from baseline after 1 year of deferiprone therapy||||0.9952
82364402|NCT02443545|164439066|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.0008|||||||t-test, 2 sided|||Change from baseline after 2 years of deferiprone therapy||||0.0008
82364403|NCT02443545|164439066|OTHER|One-sample t-test, to determine whether the change from baseline in serum ferritin was significantly different from 0||||||0.042|||||||t-test, 2 sided|||Change from baseline after 3 years of deferiprone therapy||||0.0420
82364404|NCT01770431|164439080|SUPERIORITY||chi-squared|14.7315||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
82364405|NCT01770431|164439081|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.81|||Regression, Cox|||||0.81|0.55|<0.0001
82364406|NCT02610816|164439111|SUPERIORITY|||||||0.04||||||P-values are not adjusted for multiplicity, since a single primary endpoint is analyzed|Mixed Models Analysis|No adjustment of degrees of freedom is needed.||The primary treatment comparison was to compare change in PEESS V2.0 scores of 1FED versus 4FED. The primary null hypothesis was 4FED would be no more effective than 1FED. This was designed as a superiority trial.||||0.04
82364407|NCT02610816|164439112|SUPERIORITY||||||<|0.0001||||||This is a calculated p-value. The threshold for statistical significance is p \<0.05.|Mixed Models Analysis|||||||<0.0001
82364408|NCT02610816|164439112|SUPERIORITY||||||<|0.0001||||||This is a calculated p-value. The threshold for statistical significance is p \<0.05|Mixed Models Analysis|||||||<0.0001
82364409|NCT02610816|164439113|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82364410|NCT02610816|164439116|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
82364411|NCT02610816|164439117|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
82364412|NCT02610816|164439118|SUPERIORITY|||||||0.36|||||||Mixed Models Analysis|||||||0.36
82642567|NCT02080273|165000457|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
82642568|NCT02080273|165000458|OTHER|||||||0.922|||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.922
82642569|NCT02080273|165000459|OTHER|||||||0.848||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline||||0.848
82575149|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.74|||||TWO_SIDED|95.0|0.58|0.94|||ANOVA|||PnC 9V (Post-vaccination GMC; group ratio LA1A:LA1B)||0.94|0.58|
82575150|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.65|||||TWO_SIDED|95.0|0.51|0.82|||ANOVA|||PnC 14 (Post-vaccination GMC; group ratio LA1A:LA1B)||0.82|0.51|
82575151|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.78|||||TWO_SIDED|95.0|0.6|1.01|||ANOVA|||PnC 18C (Post-vaccination GMC; group ratio LA1A:LA1B)||1.01|0.6|
82575152|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.56|1.04|||ANOVA|||PnC 19F (Post-vaccination GMC; group ratio LA1A:LA1B)||1.04|0.56|
82575153|NCT00474526|164859817|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the ratio of pneumococcal GMCs (GMCLA1A / GMCLA1B) had to be greater than 0.50.|Ratio of GMCs|0.74|||||TWO_SIDED|95.0|0.54|1.01|||ANOVA|||PnC 23F (Post-vaccination GMC; group ratio LA1A:LA1B)||1.01|0.54|
82575154|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-9.6|5.2|||ANOVA|||PnC 4 (percentage difference (LA1A - LA1B))||5.2|-9.6|
82575155|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-2.0|||||TWO_SIDED|95.0|-11.9|7.3|||ANOVA|||PnC 6B (percentage difference (LA1A - LA1B))||7.3|-11.9|
82575156|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-3.0|||||TWO_SIDED|95.0|-10.9|4.3|||ANOVA|||PnC 9V (percentage difference (LA1A - LA1B))||4.3|-10.9|
82642570|NCT02080273|165000460|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
82364413|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.5|||||TWO_SIDED|90.0|-5.41|-1.59|||Mixed Models Analysis|||30 minutes postdose||-1.59|-5.41|
82364414|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.54|||||TWO_SIDED|90.0|-5.18|-1.89|||Mixed Models Analysis|||1 hour postdose||-1.89|-5.18|
82364415|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.1|||||TWO_SIDED|90.0|-5.77|-2.43|||Mixed Models Analysis|||1.5 hours postdose||-2.43|-5.77|
82392755|NCT02304380|164497050|OTHER||Difference in differences|-0.0207|||||TWO_SIDED|95.0|-0.0318|0.0096||||||||0.0096|-0.0318|
82575157|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-1.0|||||TWO_SIDED|95.0|-5.6|2.7|||ANOVA|||PnC 14 (percentage difference (LA1A - LA1B))||2.7|-5.6|
82575158|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-14.0|||||TWO_SIDED|95.0|-24.1|-5.6|||ANOVA|||PnC 18C (percentage difference (LA1A - LA1B))||-5.6|-24.1|
82575159|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|-3.0|||||TWO_SIDED|95.0|-11.6|5.2|||ANOVA|||PnC 19F (percentage difference (LA1A - LA1B))||5.2|-11.6|
82575160|NCT00474526|164859818|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA1A over LA1B, the lower limit of the two-sided 95% CI for the difference in rates (PLA1A - PLA1B) had to be greater than -10%.|Percentage difference|0.0|||||TWO_SIDED|95.0|-7.0|7.0|||ANOVA|||PnC 23F (percentage difference (LA1A - LA1B))||7|-7|
82575161|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A/GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.05|||||TWO_SIDED|95.0|0.86|1.27|||ANOVA|||Diphtheria (Post-vaccination GMC; group ratio LA3A:LA3B)||1.27|0.86|
82575162|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.75|1.18|||ANOVA|||Tetanus (Post-vaccination GMC; group ratio LA3A:LA3B)||1.18|0.75|
82575163|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.11|||||TWO_SIDED|95.0|0.88|1.4|||ANOVA|||PT (Post-vaccination GMC; group ratio LA3A:LA3B)||1.4|0.88|
82575164|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.14|||||TWO_SIDED|95.0|0.9|1.44|||ANOVA|||FHA (Post-vaccination GMC; group ratio LA3A:LA3B)||1.44|0.9|
82642571|NCT02080273|165000461|OTHER|||||||0.001||||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline.||||0.001
82364416|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.21|||||TWO_SIDED|90.0|-5.14|-1.28|||Mixed Models Analysis|||2 hours postdose||-1.28|-5.14|
82364417|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.46|||||TWO_SIDED|90.0|-4.41|-0.51|||Mixed Models Analysis|||2.5 hours postdose||-0.51|-4.41|
82364418|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.91|||||TWO_SIDED|90.0|-2.84|1.03|||Mixed Models Analysis|||3 hours postdose||1.03|-2.84|
82642572|NCT02255422|165000469|SUPERIORITY||LS mean difference (net)|-0.015|STANDARD_ERROR_OF_MEAN|0.0446||0.7321|TWO_SIDED|95.0|-0.1051|0.0743||P-Value relates to difference in change in peak work from baseline relative to placebo for all doses pooled. Statistical significance was defined as p\<0.05|Mixed Models Analysis|Null hypothesis: wk 12 mean change from baseline (\[μ RTA 408\] - \[μ Placebo\]) in peak work = 0 w/kg. Positive change from baseline suggests improvement||Primary Objective: To evaluate the change in peak work during maximal exercise testing||0.0743|-0.1051|0.7321
82642573|NCT02255422|165000470|SUPERIORITY||LS mean difference (net)|-33.448|STANDARD_ERROR_OF_MEAN|11.6473||0.006|TWO_SIDED|95.0|-56.855|-10.042||P-value comparison is for difference in change in six minute walk distance from baseline within each dosage group relative to placebo. Statistical significance defined as p\<0.05.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 4||-10.042|-56.855|0.0060
82642574|NCT02255422|165000470|SUPERIORITY||LS mean difference (net)|-3.963|STANDARD_ERROR_OF_MEAN|11.53||0.7325|TWO_SIDED|95.0|-27.133|19.207||Statistical significance was defined as p\<0.05. The p-value comparison is for the difference in change in 6MWD from baseline within each dosage group relative to placebo.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 8||19.207|-27.133|0.7325
82364419|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.62|||||TWO_SIDED|90.0|-2.53|1.29|||Mixed Models Analysis|||3.5 hours postdose||1.29|-2.53|
82364420|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.07|||||TWO_SIDED|90.0|-1.84|1.99|||Mixed Models Analysis|||4 hours postdose||1.99|-1.84|
82364421|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.06|||||TWO_SIDED|90.0|-3.22|1.1|||Mixed Models Analysis|||6 hours postdose||1.10|-3.22|
82642575|NCT02255422|165000470|SUPERIORITY||LS mean difference (net)|-18.594|STANDARD_ERROR_OF_MEAN|15.0004||0.221|TWO_SIDED|95.0|-48.739|11.55||Statistical significance was defined as p\<0.05. The p-value comparison is for the difference in change in 6MWD from baseline within each dosage group relative to placebo.|Mixed Models Analysis|The change from baseline in 6MWT was analyzed using the same MMRM model used for the primary efficacy endpoint. Analysis visits 0, 4, 8 and 12 used.||Secondary Objective: To evaluate the change in 6-minute walk test (6MWT) distance at Week 12||11.550|-48.739|0.2210
82364422|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.73|||||TWO_SIDED|90.0|-4.88|-0.57|||Mixed Models Analysis|||8 hours postdose||-0.57|-4.88|
82364423|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.05|||||TWO_SIDED|90.0|-3.77|-0.32|||Mixed Models Analysis|||12 hours postdose||-0.32|-3.77|
82364424|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.21|||||TWO_SIDED|90.0|-1.9|2.33|||Mixed Models Analysis|||24 hours postdose||2.33|-1.90|
82364425|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-3.83|||||TWO_SIDED|90.0|-5.56|-2.11|||Mixed Models Analysis|||30 minutes postdose||-2.11|-5.56|
82364426|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.75|||||TWO_SIDED|90.0|-2.75|1.25|||Mixed Models Analysis|||1 hour postdose||1.25|-2.75|
82364427|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.45|||||TWO_SIDED|90.0|-1.49|2.38|||Mixed Models Analysis|||1.5 hours postdose||2.38|-1.49|
82364428|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.58|||||TWO_SIDED|90.0|0.58|4.58|||Mixed Models Analysis|||2 hours postdose||4.58|0.58|
82364429|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.85|||||TWO_SIDED|90.0|0.73|4.98|||Mixed Models Analysis|||2.5 hours postdose||4.98|0.73|
82364430|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|3.94|||||TWO_SIDED|90.0|1.85|6.03|||Mixed Models Analysis|||3 hours postdose||6.03|1.85|
82364431|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|5.28|||||TWO_SIDED|90.0|3.61|6.95|||Mixed Models Analysis|||3.5 hours postdose||6.95|3.61|
82392756|NCT02304380|164497051|OTHER||Difference in differences|0.0163|||||TWO_SIDED|95.0|0.0036|0.0289|||||Linear model difference in incidences.|||0.0289|0.0036|
82364432|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|6.94|||||TWO_SIDED|90.0|4.99|8.89|||Mixed Models Analysis|||4 hours postdose||8.89|4.99|
82364433|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|3.13|||||TWO_SIDED|90.0|0.93|5.34|||Mixed Models Analysis|||6 hours postdose||5.34|0.93|
82364434|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.09|||||TWO_SIDED|90.0|-0.23|4.4|||Mixed Models Analysis|||8 hours postdose||4.40|-0.23|
82364435|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.37|||||TWO_SIDED|90.0|-0.57|3.3|||Mixed Models Analysis|||12 hours postdose||3.30|-0.57|
82392757|NCT02304380|164497052|OTHER||Difference in differences|0.0046|||||TWO_SIDED|95.0|-0.002|0.0111|||||||Linear model difference in incidences.|0.0111|-0.0020|
82364436|NCT03465436|164439133|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.29|||||TWO_SIDED|90.0|-2.21|1.63|||Mixed Models Analysis|||24 hours postdose||1.63|-2.21|
82364437|NCT03465436|164439133|SUPERIORITY||LS Mean|7.32|||||TWO_SIDED|90.0|5.03|9.6|||Mixed Models Analysis|||30 minutes postdose||9.60|5.03|
82364438|NCT03465436|164439133|SUPERIORITY||LS Mean|12.28|||||TWO_SIDED|90.0|10.47|14.1|||Mixed Models Analysis|||1 hour postdose||14.10|10.47|
82364439|NCT03465436|164439133|SUPERIORITY||LS Mean|11.27|||||TWO_SIDED|90.0|9.54|13.0|||Mixed Models Analysis|||1.5 hours postdose||13.00|9.54|
82364440|NCT03465436|164439133|SUPERIORITY||LS Mean|11.92|||||TWO_SIDED|90.0|9.97|13.87|||Mixed Models Analysis|||2 hours postdose||13.87|9.97|
82364441|NCT03465436|164439133|SUPERIORITY||LS Mean|10.98|||||TWO_SIDED|90.0|9.17|12.79|||Mixed Models Analysis|||2.5 hours postdose||12.79|9.17|
82364442|NCT03465436|164439133|SUPERIORITY||LS Mean|11.99|||||TWO_SIDED|90.0|10.1|13.87|||Mixed Models Analysis|||3 hours postdose||13.87|10.10|
82364443|NCT03465436|164439133|SUPERIORITY||LS Mean|12.19|||||TWO_SIDED|90.0|10.32|14.05|||Mixed Models Analysis|||3.5 hours postdose||14.05|10.32|
82364444|NCT03465436|164439133|SUPERIORITY||LS Mean|11.68|||||TWO_SIDED|90.0|9.83|13.52|||Mixed Models Analysis|||4 hours postdose||13.52|9.83|
82392758|NCT02304380|164497053|OTHER||Difference in differences|0.0151|||||TWO_SIDED|95.0|-0.0129|0.0431|||||Linear model difference in incidences.|||0.0431|-0.0129|
82364445|NCT03465436|164439133|SUPERIORITY||LS Mean|8.24|||||TWO_SIDED|90.0|6.1|10.39|||Mixed Models Analysis|||6 hours postdose||10.39|6.10|
82364446|NCT03465436|164439133|SUPERIORITY||LS Mean|7.87|||||TWO_SIDED|90.0|5.66|10.07|||Mixed Models Analysis|||8 hours postdose||10.07|5.66|
82364447|NCT03465436|164439133|SUPERIORITY||LS Mean|6.35|||||TWO_SIDED|90.0|4.32|8.38|||Mixed Models Analysis|||12 hours postdose||8.38|4.32|
82364448|NCT03465436|164439133|SUPERIORITY||LS Mean|6.13|||||TWO_SIDED|90.0|3.88|8.38|||Mixed Models Analysis|||24 hours postdose||8.38|3.88|
82364449|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.49|||||TWO_SIDED|90.0|-6.47|-2.52|||Mixed Models Analysis|||30 minutes postdose||-2.52|-6.47|
82364450|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-5.3|||||TWO_SIDED|90.0|-7.18|-3.42|||Mixed Models Analysis|||1 hour postdose||-3.42|-7.18|
82364451|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-5.7|||||TWO_SIDED|90.0|-7.57|-3.82|||Mixed Models Analysis|||1.5 hours postdose||-3.82|-7.57|
82364452|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.47|||||TWO_SIDED|90.0|-6.64|-2.3|||Mixed Models Analysis|||2 hours postdose||-2.30|-6.64|
82392759|NCT02304380|164497054|OTHER||Difference in Differences|-0.0066|||||TWO_SIDED|95.0|-0.0328|0.0197|||||Linear model difference in incidences.|||0.0197|-0.0328|
82364453|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.53|||||TWO_SIDED|90.0|-6.87|-2.19|||Mixed Models Analysis|||2.5 hours postdose||-2.19|-6.87|
82364454|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.74|||||TWO_SIDED|90.0|-4.9|-0.59|||Mixed Models Analysis|||3 hours postdose||-0.59|-4.90|
82364455|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.74|||||TWO_SIDED|90.0|-3.86|0.39|||Mixed Models Analysis|||3.5 hours postdose||0.39|-3.86|
82364456|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.66|||||TWO_SIDED|90.0|-3.77|0.44|||Mixed Models Analysis|||4 hours postdose||0.44|-3.77|
82364457|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-1.11|||||TWO_SIDED|90.0|-3.17|0.94|||Mixed Models Analysis|||6 hours postdose||0.94|-3.17|
82364458|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.47|||||TWO_SIDED|90.0|-4.58|-0.35|||Mixed Models Analysis|||8 hours postdose||-0.35|-4.58|
82364459|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.15|||||TWO_SIDED|90.0|-3.87|-0.43|||Mixed Models Analysis|||12 hours postdose||-0.43|-3.87|
82364460|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|0.79|||||TWO_SIDED|90.0|-1.14|2.72|||Mixed Models Analysis|||24 hours postdose||2.72|-1.14|
82364461|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-4.64|||||TWO_SIDED|90.0|-6.57|-2.71|||Mixed Models Analysis|||30 minutes postdose||-2.71|-6.57|
82364462|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-2.49|||||TWO_SIDED|90.0|-4.59|-0.39|||Mixed Models Analysis|||1 hour postdose||-0.39|-4.59|
82364463|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.96|||||TWO_SIDED|90.0|-3.02|1.09|||Mixed Models Analysis|||1.5 hours postdose||1.09|-3.02|
82364464|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.64|||||TWO_SIDED|90.0|-0.46|3.73|||Mixed Models Analysis|||2 hours postdose||3.73|-0.46|
82364465|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.61|||||TWO_SIDED|90.0|-0.59|3.81|||Mixed Models Analysis|||2.5 hours postdose||3.81|-0.59|
82364466|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.41|||||TWO_SIDED|90.0|0.25|4.57|||Mixed Models Analysis|||3 hours postdose||4.57|0.25|
82364467|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|4.3|||||TWO_SIDED|90.0|2.48|6.12|||Mixed Models Analysis|||3.5 hours postdose||6.12|2.48|
82364468|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|5.15|||||TWO_SIDED|90.0|3.02|7.27|||Mixed Models Analysis|||4 hours postdose||7.27|3.02|
82392760|NCT02304380|164497055|OTHER||Difference in Differences|-0.0105|||||TWO_SIDED|95.0|-0.0374|0.0163|||||Linear model difference in incidences.|||0.0163|-0.0374|
82392761|NCT02304380|164497056|OTHER||Difference in Differences|0.0006|||||TWO_SIDED|95.0|-0.0031|0.0044|||||Linear model difference in incidences.|||0.0044|-0.0031|
82642576|NCT00602667|165000478|OTHER||Hazard Ratio (HR)|4.99|||||TWO_SIDED|95.0|1.17|21.23||||||The historical control included 10 medulloblastoma patients treated during 1998-2006 who would have been classified as intermediate risk according to SJYC07 criteria (section 13.1.3 of protocol).||21.23|1.17|
82642577|NCT00602667|165000478|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.4|1.84||||||The historical control included 14 medulloblastoma patients treated during 1998-2006 who would have been classified as high risk according to SJYC07 criteria (section 13.1.3 of protocol).||1.84|0.40|
82642578|NCT00602667|165000479|OTHER||Hazard Ratio (HR)|1.85|||||TWO_SIDED|95.0|0.42|8.22||||||The historical control included 10 medulloblastoma patients treated during 1998-2006 who would have been classified as intermediate risk according to SJYC07 criteria (section 13.1.3 of protocol).||8.22|0.42|
82642579|NCT00602667|165000479|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.31|1.79||||||The historical control included 14 medulloblastoma patients treated during 1998-2006 who would have been classified as high risk according to SJYC07 criteria (section 13.1.3 of protocol).||1.79|0.31|
82642580|NCT03179462|165000563|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82642581|NCT04636437|165000564|SUPERIORITY||Mean Difference (Net)|1.36||||0.23|TWO_SIDED|97.5|-1.2|3.92||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 48.||3.92|-1.20|0.23
82364469|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|2.77|||||TWO_SIDED|90.0|0.75|4.79|||Mixed Models Analysis|||6 hours postdose||4.79|0.75|
82642582|NCT04636437|165000564|SUPERIORITY||Mean Difference (Net)|-0.89||||0.41|TWO_SIDED|97.5|-3.34|1.57||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 48.||1.57|-3.34|0.41
82642583|NCT04636437|165000565|SUPERIORITY||Mean Difference (Net)|0.83||||0.31|TWO_SIDED|97.5|-0.99|2.64||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 24.||2.64|-0.99|0.31
82642584|NCT04636437|165000565|SUPERIORITY||Mean Difference (Net)|-1.99||||0.012|TWO_SIDED|97.5|-3.76|-0.21||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry weight, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in body weight from entry to week 24.||-0.21|-3.76|0.012
82642585|NCT04636437|165000566|SUPERIORITY||Mean Difference (Net)|1.72||||0.2|TWO_SIDED|97.5|-1.33|4.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 48.||4.77|-1.33|0.20
82642586|NCT04636437|165000566|SUPERIORITY||Mean Difference (Net)|-1.49||||0.25|TWO_SIDED|97.5|-4.43|1.44||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 48.||1.44|-4.43|0.25
82364470|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.75|||||TWO_SIDED|90.0|-0.55|4.05|||Mixed Models Analysis|||8 hours postdose||4.05|-0.55|
82642587|NCT04636437|165000567|SUPERIORITY||Mean Difference (Net)|-0.16||||0.9|TWO_SIDED|97.5|-3.23|2.9||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 24.||2.90|-3.23|0.90
82642588|NCT04636437|165000567|SUPERIORITY||Mean Difference (Net)|-1.48||||0.26|TWO_SIDED|97.5|-4.47|1.51||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry waist circumference, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in waist circumference from entry to week 24.||1.51|-4.47|0.26
82642589|NCT04636437|165000568|SUPERIORITY||Mean Difference (Net)|1.19||||0.91|TWO_SIDED|97.5|-22.2|24.59||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 48.||24.59|-22.2|0.91
82364471|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|1.75|||||TWO_SIDED|90.0|-0.19|3.69|||Mixed Models Analysis|||12 hours postdose||3.69|-0.19|
82364472|NCT03465436|164439134|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 10 milliseconds.|LS Mean|-0.48|||||TWO_SIDED|90.0|-2.44|1.48|||Mixed Models Analysis|||24 hours postdose||1.48|-2.44|
82364473|NCT03465436|164439134|SUPERIORITY||LS Mean|7.07|||||TWO_SIDED|90.0|4.72|9.41|||Mixed Models Analysis|||30 minutes postdose||9.41|4.72|
82364474|NCT03465436|164439134|SUPERIORITY||LS Mean|11.81|||||TWO_SIDED|90.0|9.94|13.69|||Mixed Models Analysis|||1 hour postdose||13.69|9.94|
82364475|NCT03465436|164439134|SUPERIORITY||LS Mean|10.95|||||TWO_SIDED|90.0|9.16|12.74|||Mixed Models Analysis|||1.5 hours postdose||12.74|9.16|
82364476|NCT03465436|164439134|SUPERIORITY||LS Mean|11.5|||||TWO_SIDED|90.0|9.5|13.43|||Mixed Models Analysis|||2 hours postdose||13.43|9.5|
82364477|NCT03465436|164439134|SUPERIORITY||LS Mean|10.81|||||TWO_SIDED|90.0|8.9|12.71|||Mixed Models Analysis|||2.5 hours postdose||12.71|8.9|
82392762|NCT02304380|164497057|OTHER||Difference in Differences|-0.0293|||||TWO_SIDED|95.0|-0.1025|0.044||||Linear model difference in incidences.||||0.0440|-0.1025|
82392763|NCT02304380|164497058|OTHER||Difference in Differences|-0.0579|||||TWO_SIDED|95.0|-0.1492|0.0116|||||Linear model difference in incidences.|||0.0116|-0.1492|
82527820|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|1.21||||0.458|TWO_SIDED|95.0|-1.16|3.58||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.58|-1.16|0.458
82642590|NCT04636437|165000568|SUPERIORITY||Mean Difference (Net)|-7.1||||0.48|TWO_SIDED|97.5|-29.7|15.47||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 48.||15.47|-29.7|0.48
82642591|NCT04636437|165000569|SUPERIORITY||Mean Difference (Net)|-15.2||||0.3|TWO_SIDED|97.5|-48.6|18.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 24.||18.20|-48.6|0.30
82642592|NCT04636437|165000569|SUPERIORITY||Mean Difference (Net)|-18.5||||0.21|TWO_SIDED|97.5|-51.8|14.76||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting triglycerides, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting triglycerides from entry to week 24.||14.76|-51.8|0.21
82642593|NCT04636437|165000570|SUPERIORITY||Mean Difference (Net)|-2.84||||0.58|TWO_SIDED|97.5|-14.4|8.72||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 48.||8.72|-14.4|0.58
82364478|NCT03465436|164439134|SUPERIORITY||LS Mean|12.35|||||TWO_SIDED|90.0|10.42|14.28|||Mixed Models Analysis|||3 hours postdose||14.28|10.42|
82392764|NCT02304380|164497059|OTHER||Difference in differences|0.0072|||||TWO_SIDED|95.0|0.001|0.0134|||||Linear model difference in incidences.|||0.0134|0.0010|
82642594|NCT04636437|165000570|SUPERIORITY||Mean Difference (Net)|-6.88||||0.16|TWO_SIDED|97.5|-18.0|4.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 48.||4.20|-18.0|0.16
82642595|NCT04636437|165000571|SUPERIORITY||Mean Difference (Net)|-2.92||||0.47|TWO_SIDED|97.5|-12.1|6.27||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 24.||6.27|-12.1|0.47
82364479|NCT03465436|164439134|SUPERIORITY||LS Mean|12.65|||||TWO_SIDED|90.0|10.76|14.54|||Mixed Models Analysis|||3.5 hours postdose||14.54|10.76|
82364480|NCT03465436|164439134|SUPERIORITY||LS Mean|11.17|||||TWO_SIDED|90.0|9.23|13.1|||Mixed Models Analysis|||4 hours postdose||13.10|9.23|
82364481|NCT03465436|164439134|SUPERIORITY||LS Mean|8.12|||||TWO_SIDED|90.0|6.02|10.22|||Mixed Models Analysis|||6 hours postdose||10.22|6.02|
82364482|NCT03465436|164439134|SUPERIORITY||LS Mean|8.1|||||TWO_SIDED|90.0|6.01|10.19|||Mixed Models Analysis|||8 hours postdose||10.19|6.01|
82392765|NCT02304380|164497060|OTHER||Difference in Differences|0.0058|||||TWO_SIDED|95.0|0.0009|0.0107||||||||0.0107|0.0009|
82392766|NCT02304380|164497061|OTHER||Difference in Differences|0.0054|||||TWO_SIDED|95.0|0.0001|0.0106|||||Linear model difference in incidences.|||0.0106|0.0001|
82642596|NCT04636437|165000571|SUPERIORITY||Mean Difference (Net)|-15.1|||<|0.001|TWO_SIDED|97.5|-24.2|-5.91||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting LDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting LDL from entry to week 24.||-5.91|-24.2|<0.001
82364483|NCT03465436|164439134|SUPERIORITY||LS Mean|6.26|||||TWO_SIDED|90.0|4.23|8.28|||Mixed Models Analysis|||12 hours postdose||8.28|4.23|
82364484|NCT03465436|164439134|SUPERIORITY||LS Mean|5.74|||||TWO_SIDED|90.0|3.47|8.01|||Mixed Models Analysis|||24 hours postdose||8.01|3.47|
82364485|NCT03465436|164439135|SUPERIORITY||LS Mean|32.89|||||TWO_SIDED|90.0|11.5|54.28|||Mixed Models Analysis|||30 minutes postdose||54.28|11.50|
82364486|NCT03465436|164439135|SUPERIORITY||LS Mean|100.15|||||TWO_SIDED|90.0|77.81|122.5|||Mixed Models Analysis|||1 hour postdose||122.50|77.81|
82364487|NCT03465436|164439135|SUPERIORITY||LS Mean|107.11|||||TWO_SIDED|90.0|83.31|130.91|||Mixed Models Analysis|||1.5 hours postdose||130.91|83.31|
82392767|NCT02304380|164497062|OTHER||Difference in Differences|-0.0039|||||TWO_SIDED|95.0|-0.0096|0.0017|||||Linear model difference in incidences.|||0.0017|-0.0096|
82392768|NCT02304380|164497063|OTHER||Difference in Differences|-0.011|||||TWO_SIDED|95.0|-0.0178|-0.0043|||||Linear model difference in incidences.|||-0.0043|-0.0178|
82392769|NCT02304380|164497064|OTHER||Difference in Differences|0.0026|||||TWO_SIDED|95.0|-0.0036|0.0086|||||Linear model difference in incidences.|||0.0086|-0.0036|
82364488|NCT03465436|164439135|SUPERIORITY||LS Mean|74.48|||||TWO_SIDED|90.0|56.32|92.63|||Mixed Models Analysis|||2 hours postdose||92.63|56.32|
82392770|NCT02304380|164497065|OTHER||Difference in differences|0.0197|||||TWO_SIDED|95.0|0.011|0.0284|||||Linear model difference in incidences.|||0.0284|0.0110|
82527821|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|6.81||||0.073|TWO_SIDED|95.0|1.57|12.06||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.06|1.57|0.073
82527822|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|1.96||||0.583|TWO_SIDED|95.0|-4.94|8.85||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.85|-4.94|0.583
82527823|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|4.81||||0.137|TWO_SIDED|95.0|0.14|9.49||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.49|0.14|0.137
82527824|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|23.86|||<|0.001|TWO_SIDED|95.0|14.81|32.91||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||32.91|14.81|<0.001
82527825|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|8.45||||0.165|TWO_SIDED|95.0|-3.43|20.33||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.33|-3.43|0.165
82527826|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|15.46||||0.006|TWO_SIDED|95.0|7.66|23.26||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.26|7.66|0.006
82527827|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|29.41|||<|0.001|TWO_SIDED|95.0|19.78|39.05||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.05|19.78|<0.001
82642597|NCT04636437|165000572|SUPERIORITY||Mean Difference (Net)|0.8||||0.79|TWO_SIDED|97.5|-6.17|7.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 48.||7.77|-6.17|0.79
82364489|NCT03465436|164439135|SUPERIORITY||LS Mean|89.19|||||TWO_SIDED|90.0|68.77|109.61|||Mixed Models Analysis|||2.5 hours postdose||109.61|68.77|
82392771|NCT00985426|164497066|NON_INFERIORITY|Non-inferiority is achieved if the lower limit of the two-sided 95% CI was greater than -10%.|SPR Difference (%)|8.0|||||TWO_SIDED|95.0|1.7|14.3|||||SPR difference = SPR for HEPLISAV-B minus SPR for Engerix-B.|Two-sided 95% confidence intervals (CIs) of the difference in seroprotection rates (SPR) between the HEPLISAV-B group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||14.3|1.7|
82527828|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|4.61||||0.497|TWO_SIDED|95.0|-8.78|17.99||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.99|-8.78|0.497
82527829|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|25.13|||<|0.001|TWO_SIDED|95.0|15.81|34.46||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||34.46|15.81|<0.001
82527830|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|31.78|||<|0.001|TWO_SIDED|95.0|20.03|43.53||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||43.53|20.03|<0.001
82527831|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|6.7||||0.349|TWO_SIDED|95.0|-7.38|20.79||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.79|-7.38|0.349
82364490|NCT03465436|164439135|SUPERIORITY||LS Mean|74.98|||||TWO_SIDED|90.0|55.41|94.55|||Mixed Models Analysis|||3 hours postdose||94.55|55.41|
82364491|NCT03465436|164439135|SUPERIORITY||LS Mean|52.83|||||TWO_SIDED|90.0|36.03|69.63|||Mixed Models Analysis|||3.5 hours postdose||69.63|36.03|
82364492|NCT03465436|164439135|SUPERIORITY||LS Mean|42.1|||||TWO_SIDED|90.0|24.86|59.35|||Mixed Models Analysis|||4 hours postdose||59.35|24.86|
82642598|NCT04636437|165000572|SUPERIORITY||Mean Difference (Net)|-5.46||||0.063|TWO_SIDED|97.5|-12.1|1.16||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 48.||1.16|-12.1|0.063
82642599|NCT04636437|165000573|SUPERIORITY||Mean Difference (Net)|-1.38||||0.27|TWO_SIDED|97.5|-4.21|1.45||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 24.||1.45|-4.21|0.27
82642600|NCT04636437|165000573|SUPERIORITY||Mean Difference (Net)|-5.45|||<|0.001|TWO_SIDED|97.5|-8.25|-2.66||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting HDL, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting HDL from entry to week 24.||-2.66|-8.25|<0.001
82642601|NCT04636437|165000574|SUPERIORITY||Mean Difference (Net)|1.55||||0.77|TWO_SIDED|97.5|-10.3|13.44||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 48.||13.44|-10.3|0.77
82642602|NCT04636437|165000574|SUPERIORITY||Mean Difference (Net)|-5.23||||0.3|TWO_SIDED|97.5|-16.7|6.2||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 48.||6.20|-16.7|0.30
82642603|NCT04636437|165000575|SUPERIORITY||Mean Difference (Net)|0.18||||0.96|TWO_SIDED|97.5|-8.78|9.15||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 24.||9.15|-8.78|0.96
82642604|NCT04636437|165000575|SUPERIORITY||Mean Difference (Net)|-6.32||||0.11|TWO_SIDED|97.5|-15.2|2.55||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting glucose, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting glucose from entry to week 24.||2.55|-15.2|0.11
82642605|NCT04636437|165000576|SUPERIORITY||Mean Difference (Net)|8.07||||0.16|TWO_SIDED|97.5|-4.93|21.06||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 48.||21.06|-4.93|0.16
82642606|NCT04636437|165000576|SUPERIORITY||Mean Difference (Net)|8.89||||0.1|TWO_SIDED|97.5|-3.37|21.15||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 48.||21.15|-3.37|0.10
82642607|NCT04636437|165000577|SUPERIORITY||Mean Difference (Net)|4.28||||0.37|TWO_SIDED|97.5|-6.42|14.99||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 24.||14.99|-6.42|0.37
82642608|NCT04636437|165000577|SUPERIORITY||Mean Difference (Net)|0.37||||0.94|TWO_SIDED|97.5|-10.0|10.77||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry fasting insulin, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in fasting insulin from entry to week 24.||10.77|-10.0|0.94
82642609|NCT04636437|165000578|SUPERIORITY||Mean Difference (Net)|2.77||||0.2|TWO_SIDED|97.5|-2.08|7.63||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 48.||7.63|-2.08|0.20
82642610|NCT04636437|165000578|SUPERIORITY||Mean Difference (Net)|2.21||||0.28|TWO_SIDED|97.5|-2.44|6.87||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 48.||6.87|-2.44|0.28
82392772|NCT00985426|164497066|SUPERIORITY|Superiority is achieved if the lower limit of the two-sided 95% CI was greater than 0%.|SPR Difference (%)|8.0|||||TWO_SIDED|95.0|1.7|14.3||||||Two-sided 95% CIs of the difference in SPR between the HEPLISAV-B group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||14.3|1.7|
82426338|NCT04464473|164561720|SUPERIORITY|||||||0.0763|||||||ANOVA|Interaction of visit (Baseline, MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), temporal control, and contextual control on reaction time||||||0.0763
82642611|NCT04636437|165000579|SUPERIORITY||Mean Difference (Net)|1.79||||0.24|TWO_SIDED|97.5|-1.68|5.25||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 24.||5.25|-1.68|0.24
82642612|NCT04636437|165000579|SUPERIORITY||Mean Difference (Net)|-0.57||||0.7|TWO_SIDED|97.5|-3.91|2.78||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry HOMA-IR, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in absolute change in HOMA-IR from entry to week 24.||2.78|-3.91|0.70
82642613|NCT04636437|165000581|SUPERIORITY|||||||0.43||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of Grade ≥3 AEs from entry to week 48.||||0.43
82642614|NCT04636437|165000581|SUPERIORITY|||||||0.26||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of Grade ≥3 AEs from entry to week 48.||||0.26
82642615|NCT04636437|165000582|SUPERIORITY|||||||0.008||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of \>10% reduction in CrCl from entry to week 48.||||0.008
82642616|NCT04636437|165000582|SUPERIORITY|||||||0.068||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of \>10% reduction in CrCl from entry to week 48.||||0.068
82642617|NCT04636437|165000583|SUPERIORITY|||||||0.2||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of premature discontinuation of study treatment from entry to week 48.||||0.20
82642618|NCT04636437|165000583|SUPERIORITY|||||||0.56||||||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in occurrence of premature discontinuation of study treatment from entry to week 48.||||0.56
82642619|NCT04636437|165000584|SUPERIORITY||Mean Difference (Net)|3.43||||0.13|TWO_SIDED|97.5|-1.62|8.47||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry total fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in total fat from entry to week 48.||8.47|-1.62|0.13
82642620|NCT04636437|165000584|SUPERIORITY||Mean Difference (Net)|-0.09||||0.97|TWO_SIDED|97.5|-4.89|4.72||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry total fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in total fat from entry to week 48.||4.72|-4.89|0.97
82642621|NCT04636437|165000585|SUPERIORITY||Mean Difference (Net)|0.31||||0.78|TWO_SIDED|97.5|-2.18|2.8||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lean mass from entry to week 48.||2.80|-2.18|0.78
82642622|NCT04636437|165000585|SUPERIORITY||Mean Difference (Net)|1.24||||0.23|TWO_SIDED|97.5|-1.11|3.59||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lean mass from entry to week 48.||3.59|-1.11|0.23
82426339|NCT04464473|164561720|SUPERIORITY|||||||0.9701|||||||ANOVA|Interaction of intervention (MFG-cTBS, FPl-cTBS, S1-cTBS), temporal control, and contextual control on reaction time||||||0.9701
82642623|NCT04636437|165000586|SUPERIORITY||Mean Difference (Net)|3.71||||0.18|TWO_SIDED|97.5|-2.48|9.9||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry trunk fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in trunk fat from entry to week 48.||9.90|-2.48|0.18
82642624|NCT04636437|165000586|SUPERIORITY||Mean Difference (Net)|-1.35||||0.6|TWO_SIDED|97.5|-7.23|4.53||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry trunk fat, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in trunk fat from entry to week 48.||4.53|-7.23|0.60
82642625|NCT04636437|165000587|SUPERIORITY||Mean Difference (Net)|4.19||||0.094|TWO_SIDED|97.5|-1.45|9.83||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear|||Null hypothesis: There is no difference between the two arms in percent change in limb fat from entry to week 48.|Mean difference and CI come from a linear regression model adjusting for entry limb fat, sex, and race (Black and not Black).|9.83|-1.45|0.094
82642626|NCT04636437|165000587|SUPERIORITY||Mean Difference (Net)|1.76||||0.46|TWO_SIDED|97.5|-3.59|7.11||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear|||Null hypothesis: There is no difference between the two arms in percent change in limb fat from entry to week 48.|Mean difference and CI come from a linear regression model adjusting for entry limb fat, sex, and race (Black and not Black).|7.11|-3.59|0.46
82364493|NCT03465436|164439135|SUPERIORITY||LS Mean|62.61|||||TWO_SIDED|90.0|42.39|82.83|||Mixed Models Analysis|||6 hours postdose||82.83|42.39|
82527832|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|25.34|||<|0.001|TWO_SIDED|95.0|13.73|36.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.94|13.73|<0.001
82364494|NCT03465436|164439135|SUPERIORITY||LS Mean|56.05|||||TWO_SIDED|90.0|32.49|79.61|||Mixed Models Analysis|||8 hours postdose||79.61|32.49|
82364495|NCT03465436|164439135|SUPERIORITY||LS Mean|35.71|||||TWO_SIDED|90.0|11.79|59.63|||Mixed Models Analysis|||12 hours postdose||59.63|11.79|
82364496|NCT03465436|164439135|SUPERIORITY||LS Mean|-4.59|||||TWO_SIDED|90.0|-24.66|15.47|||Mixed Models Analysis|||24 hours postdose||15.47|-24.66|
82364497|NCT03465436|164439135|SUPERIORITY||LS Mean|56.53|||||TWO_SIDED|90.0|36.72|76.35|||Mixed Models Analysis|||30 minutes postdose||76.35|36.72|
82364498|NCT03465436|164439135|SUPERIORITY||LS Mean|103.3|||||TWO_SIDED|90.0|83.88|122.72|||Mixed Models Analysis|||1 hour postdose||122.72|83.88|
82392773|NCT00985426|164497071|SUPERIORITY|Superiority is achieved if the lower limit of the two-sided 95% CI was greater than 0%.|SPR Difference (%)|12.9|||||TWO_SIDED|95.0|4.4|21.2||||||Two-sided 95% CIs of the difference in SPRs between the HEPLISAV group and the Engerix-B group at 28 weeks was computed using the Newcombe score method with continuity correction.||21.2|4.4|
82426340|NCT04464473|164561720|SUPERIORITY|||||||0.3826|||||||ANOVA|Interaction of intervention(MFG-cTBS, FPl-cTBS, S1-cTBS), phase (sub-task, return), temporal control, and contextual control on reaction time||||||0.3826
82527833|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|37.64|||<|0.001|TWO_SIDED|95.0|25.47|49.81||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||49.81|25.47|<0.001
82527834|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|8.85||||0.233|TWO_SIDED|95.0|-5.72|23.42||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.42|-5.72|0.233
82575165|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|1.21|||||TWO_SIDED|95.0|0.92|1.59|||ANOVA|||Pertactin (Post-vaccination GMC; group ratio LA3A:LA3B||1.59|0.92|
82364499|NCT03465436|164439135|SUPERIORITY||LS Mean|94.21|||||TWO_SIDED|90.0|75.15|113.26|||Mixed Models Analysis|||1.5 hours postdose||113.26|75.15|
82364500|NCT03465436|164439135|SUPERIORITY||LS Mean|83.49|||||TWO_SIDED|90.0|67.98|99.0|||Mixed Models Analysis|||2 hours postdose||99.00|67.98|
82364501|NCT03465436|164439135|SUPERIORITY||LS Mean|103.64|||||TWO_SIDED|90.0|87.28|120.0|||Mixed Models Analysis|||2.5 hours postdose||120.00|87.28|
82364502|NCT03465436|164439135|SUPERIORITY||LS Mean|89.26|||||TWO_SIDED|90.0|71.24|107.29|||Mixed Models Analysis|||3 hours postdose||107.29|71.24|
82364503|NCT03465436|164439135|SUPERIORITY||LS Mean|65.29|||||TWO_SIDED|90.0|48.28|82.3|||Mixed Models Analysis|||3.5 hours postdose||82.30|48.28|
82364504|NCT03465436|164439135|SUPERIORITY||LS Mean|52.85|||||TWO_SIDED|90.0|36.1|69.6|||Mixed Models Analysis|||4 hours postdose||69.60|36.10|
82426341|NCT03802396|164561721|OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
82426342|NCT03802396|164561722|OTHER|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.116
82364505|NCT03465436|164439135|SUPERIORITY||LS Mean|86.09|||||TWO_SIDED|90.0|66.36|105.82|||Mixed Models Analysis|||6 hours postdose||105.82|66.36|
82364506|NCT03465436|164439135|SUPERIORITY||LS Mean|80.12|||||TWO_SIDED|90.0|58.32|101.91|||Mixed Models Analysis|||8 hours postdose||101.91|58.32|
82364507|NCT03465436|164439135|SUPERIORITY||LS Mean|67.58|||||TWO_SIDED|90.0|44.64|90.51|||Mixed Models Analysis|||12 hours postdose||90.51|44.64|
82364508|NCT03465436|164439135|SUPERIORITY||LS Mean|7.77|||||TWO_SIDED|90.0|-10.01|25.55|||Mixed Models Analysis|||24 hours postdose||25.55|-10.01|
82364509|NCT03465436|164439135|SUPERIORITY||LS Mean|-22.02|||||TWO_SIDED|90.0|-38.44|-5.6|||Mixed Models Analysis|||30 minutes postdose||-5.60|-38.44|
82364510|NCT03465436|164439135|SUPERIORITY||LS Mean|-38.87|||||TWO_SIDED|90.0|-57.15|-20.6|||Mixed Models Analysis|||1 hour postdose||-20.60|-57.15|
82364511|NCT03465436|164439135|SUPERIORITY||LS Mean|-22.13|||||TWO_SIDED|90.0|-39.35|-4.91|||Mixed Models Analysis|||1.5 hours postdose||-4.91|-39.35|
82364512|NCT03465436|164439135|SUPERIORITY||LS Mean|-17.35|||||TWO_SIDED|90.0|-32.15|-2.56|||Mixed Models Analysis|||2 hours postdose||-2.56|-32.15|
82364513|NCT03465436|164439135|SUPERIORITY||LS Mean|-1.03|||||TWO_SIDED|90.0|-18.17|16.12|||Mixed Models Analysis|||2.5 hours postdose||16.12|-18.17|
82364514|NCT03465436|164439135|SUPERIORITY||LS Mean|-4.77|||||TWO_SIDED|90.0|-21.81|12.27|||Mixed Models Analysis|||3 hours postdose||12.27|-21.81|
82364515|NCT03465436|164439135|SUPERIORITY||LS Mean|-16.56|||||TWO_SIDED|90.0|-33.36|0.24|||Mixed Models Analysis|||3.5 hours postdose||0.24|-33.36|
82364516|NCT03465436|164439135|SUPERIORITY||LS Mean|-15.29|||||TWO_SIDED|90.0|-32.94|2.37|||Mixed Models Analysis|||4 hours postdose||2.37|-32.94|
82364517|NCT03465436|164439135|SUPERIORITY||LS Mean|6.13|||||TWO_SIDED|90.0|-10.86|23.11|||Mixed Models Analysis|||6 hours postdose||23.11|-10.86|
82364518|NCT03465436|164439135|SUPERIORITY||LS Mean|2.27|||||TWO_SIDED|90.0|-15.25|19.8|||Mixed Models Analysis|||8 hours postdose||19.80|-15.25|
82364519|NCT03465436|164439135|SUPERIORITY||LS Mean|-11.95|||||TWO_SIDED|90.0|-33.46|9.56|||Mixed Models Analysis|||12 hours postdose||9.56|-33.46|
82364520|NCT03465436|164439135|SUPERIORITY||LS Mean|-0.31|||||TWO_SIDED|90.0|-17.32|16.69|||Mixed Models Analysis|||24 hours postdose||16.69|-17.32|
82364521|NCT03465436|164439136|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|90.0|-0.37|0.41|||Mixed Models Analysis|||30 minutes postdose||0.41|-0.37|
82426343|NCT03802396|164561722|OTHER|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.388
82426344|NCT03802396|164561723|OTHER|||||||0.569|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.569
82364522|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.23|||||TWO_SIDED|90.0|-0.61|0.15|||Mixed Models Analysis|||1 hour postdose||0.15|-0.61|
82364523|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.12|||||TWO_SIDED|90.0|-0.47|0.23|||Mixed Models Analysis|||1.5 hours postdose||0.23|-0.47|
82364524|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.44|||||TWO_SIDED|90.0|-0.81|-0.07|||Mixed Models Analysis|||2 hours postdose||-0.07|-0.81|
82364525|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.55|||||TWO_SIDED|90.0|-0.95|-0.15|||Mixed Models Analysis|||2.5 hours postdose||-0.15|-0.95|
82364526|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.38|||||TWO_SIDED|90.0|-0.77|0.0|||Mixed Models Analysis|||3 hours postdose||0.00|-0.77|
82364527|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.41|||||TWO_SIDED|90.0|-0.72|-0.1|||Mixed Models Analysis|||3.5 hours postdose||-0.10|-0.72|
82364528|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.35|||||TWO_SIDED|90.0|-0.66|-0.04|||Mixed Models Analysis|||4 hours postdose||-0.04|-0.66|
82364529|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.54|||||TWO_SIDED|90.0|-0.98|-0.09|||Mixed Models Analysis|||6 hours postdose||-0.09|-0.98|
82364530|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.14|||||TWO_SIDED|90.0|-0.58|0.31|||Mixed Models Analysis|||8 hours postdose||0.31|-0.58|
82527835|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|28.96|||<|0.001|TWO_SIDED|95.0|17.17|40.75||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||40.75|17.17|<0.001
82364531|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.29|||||TWO_SIDED|90.0|-0.7|0.12|||Mixed Models Analysis|||12 hours postdose||0.12|-0.70|
82364532|NCT03465436|164439136|SUPERIORITY||LS Mean|0.43|||||TWO_SIDED|90.0|0.01|0.84|||Mixed Models Analysis|||24 hours postdose||0.84|0.01|
82364533|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.19|||||TWO_SIDED|90.0|-0.59|0.21|||Mixed Models Analysis|||30 minutes postdose||0.21|-0.59|
82364534|NCT03465436|164439136|SUPERIORITY||LS Mean|0.48|||||TWO_SIDED|90.0|0.06|0.89|||Mixed Models Analysis|||1 hour postdose||0.89|0.06|
82364535|NCT03465436|164439136|SUPERIORITY||LS Mean|0.56|||||TWO_SIDED|90.0|0.19|0.93|||Mixed Models Analysis|||1.5 hours postdose||0.93|0.19|
82364536|NCT03465436|164439136|SUPERIORITY||LS Mean|0.4|||||TWO_SIDED|90.0|0.02|0.77|||Mixed Models Analysis|||2 hours postdose||0.77|0.02|
82392774|NCT02052596|164497073|NON_INFERIORITY|Criteria for non-inferiority: At one month after the last vaccine dose (Month 3 or Month 5), the upper limit (UL) of the 95% confidence interval (CI) for the anti-gE antibodies GMC ratio between the Control Group and the GSK1437173A Group had to be below (\<) 1.5,|Adjusted GMC ratio|1.11|||||TWO_SIDED|95.0|1.02|1.21||||Adjustment for baseline concentration and age - pooled variance.||Demonstration of non-inferiority of the humoral immune response to two doses of the GSK1437173A vaccine when Boostrix vaccine was co-administered with the first GSK1437173A vaccine dose compared to two doses of GSK1437173A vaccine (administered separately from Boostrix vaccine), one month after the last vaccine dose.||1.21|1.02|
82364537|NCT03465436|164439136|SUPERIORITY||LS Mean|0.51|||||TWO_SIDED|90.0|0.13|0.88|||Mixed Models Analysis|||2.5 hours postdose||0.88|0.13|
82364538|NCT03465436|164439136|SUPERIORITY||LS Mean|0.33|||||TWO_SIDED|90.0|-0.05|0.71|||Mixed Models Analysis|||3 hours postdose||0.71|-0.05|
82364539|NCT03465436|164439136|SUPERIORITY||LS Mean|0.32|||||TWO_SIDED|90.0|-0.02|0.67|||Mixed Models Analysis|||3.5 hours postdose||0.67|-0.02|
82364540|NCT03465436|164439136|SUPERIORITY||LS Mean|0.5|||||TWO_SIDED|90.0|0.16|0.84|||Mixed Models Analysis|||4 hours postdose||0.84|0.16|
82364541|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.1|||||TWO_SIDED|90.0|-0.56|0.36|||Mixed Models Analysis|||6 hours postdose||0.36|-0.56|
82364542|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.11|||||TWO_SIDED|90.0|-0.56|0.33|||Mixed Models Analysis|||8 hours postdose||0.33|-0.56|
82364543|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.84|0.06|||Mixed Models Analysis|||12 hours postdose||0.06|-0.84|
82364544|NCT03465436|164439136|SUPERIORITY||LS Mean|0.04|||||TWO_SIDED|90.0|-0.37|0.45|||Mixed Models Analysis|||24 hours postdose||0.45|-0.37|
82364545|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.09|||||TWO_SIDED|90.0|-0.45|0.28|||Mixed Models Analysis|||30 minutes postdose||0.28|-0.45|
82364546|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.1|||||TWO_SIDED|90.0|-0.46|0.27|||Mixed Models Analysis|||1 hour postdose||0.27|-0.46|
82364547|NCT03465436|164439136|SUPERIORITY||LS Mean|0.25|||||TWO_SIDED|90.0|-0.1|0.6|||Mixed Models Analysis|||1.5 hours postdose||0.60|-0.10|
82364548|NCT03465436|164439136|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|90.0|-0.38|0.4|||Mixed Models Analysis|||2 hours postdose||0.40|-0.38|
82364549|NCT03465436|164439136|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|90.0|-0.34|0.37|||Mixed Models Analysis|||2.5 hours postdose||0.37|-0.34|
82364550|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.09|||||TWO_SIDED|90.0|-0.44|0.25|||Mixed Models Analysis|||3 hours postdose||0.25|-0.44|
82364551|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.76|-0.03|||Mixed Models Analysis|||3.5 hours postdose||-0.03|-0.76|
82364552|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.38|||||TWO_SIDED|90.0|-0.73|-0.03|||Mixed Models Analysis|||4 hours postdose||-0.03|-0.73|
82364553|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.6|||||TWO_SIDED|90.0|-1.03|-0.17|||Mixed Models Analysis|||6 hours postdose||-0.17|-1.03|
82364554|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.39|||||TWO_SIDED|90.0|-0.82|0.04|||Mixed Models Analysis|||8 hours postdose||0.04|-0.82|
82364555|NCT03465436|164439136|SUPERIORITY||LS Mean|-0.31|||||TWO_SIDED|90.0|-0.7|0.09|||Mixed Models Analysis|||12 hours postdose||0.09|-0.70|
82364556|NCT03465436|164439136|SUPERIORITY||LS Mean|0.19|||||TWO_SIDED|90.0|-0.23|0.61|||Mixed Models Analysis|||24 hours postdose||0.61|-0.23|
82364557|NCT03465436|164439137|SUPERIORITY||LS Mean|-1.53|||||TWO_SIDED|90.0|-2.9|-0.16|||Mixed Models Analysis|||30 minutes postdose||-0.16|-2.90|
82364558|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.09|||||TWO_SIDED|90.0|-6.29|-3.88|||Mixed Models Analysis|||1 hour postdose||-3.88|-6.29|
82364559|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.57|||||TWO_SIDED|90.0|-6.81|-4.32|||Mixed Models Analysis|||1.5 hours postdose||-4.32|-6.81|
82364560|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.01|||||TWO_SIDED|90.0|-5.0|-3.01|||Mixed Models Analysis|||2 hours postdose||-3.01|-5.00|
82364561|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.78|||||TWO_SIDED|90.0|-5.91|-3.65|||Mixed Models Analysis|||2.5 hours postdose||-3.65|-5.91|
82364562|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.14|||||TWO_SIDED|90.0|-5.2|-3.08|||Mixed Models Analysis|||3 hours postdose||-3.08|-5.20|
82392775|NCT02052596|164497074|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-PT antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.17|||||TWO_SIDED|95.0|1.0|1.36||||Ancova model: adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for pertussis toxoid (PT), one month after the vaccine dose.||1.36|1.00|
82392776|NCT02052596|164497074|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-FHA antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.24|||||TWO_SIDED|95.0|1.07|1.44||||Adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for filamentous hemagglutinin (FHA) antigen, one month after the vaccine dose.||1.44|1.07|
82642627|NCT04636437|165000588|SUPERIORITY||Mean Difference (Net)|2.19||||0.26|TWO_SIDED|97.5|-2.19|6.56||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry appendicular lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in appendicular lean mass from entry to week 48.||6.56|-2.19|0.26
82642628|NCT04636437|165000588|SUPERIORITY||Mean Difference (Net)|3.15||||0.084|TWO_SIDED|97.5|-0.96|7.25||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry appendicular lean mass, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in appendicular lean mass from entry to week 48.||7.25|-0.96|0.084
82642629|NCT04636437|165000589|SUPERIORITY||Mean Difference (Net)|0.78||||0.19|TWO_SIDED|97.5|-0.57|2.13||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry hip bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in hip bone mineral density from entry to week 48.||2.13|-0.57|0.19
82392777|NCT02052596|164497074|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval for the GMC ratio for anti-PRN antibodies of the Control Group over the GSK1437173A Group had to be \< 1.5.|Adjusted GMC ratio|1.27|||||TWO_SIDED|95.0|1.02|1.58||||Adjustment for baseline concentration - pooled variance.||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for pertactin (PRN) antigen, one month after the vaccine dose.||1.58|1.02|
82448846|NCT00746863|164604996|SUPERIORITY_OR_OTHER|||||||0.4756||95.0|||||Chi-squared|||Chi square was performed to compared the two groups and the patient's ability to pass their voiding trial prior to discharge||||0.4756
82392778|NCT02052596|164497075|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval (CI) for the difference in the percentages of subjects with anti-diphtheria (anti-D) concentrations ≥ 1.0 IU/mL of the Control Group minus the GSK1437173A Group had to be \< 10%.|Difference in seropositivity rate|-0.1|||||TWO_SIDED|95.0|-3.03|2.85||||||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for diphteria (D) antigen, one month after the vaccine dose.||2.85|-3.03|
82527836|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|38.73|||<|0.001|TWO_SIDED|95.0|25.87|51.6||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.60|25.87|<0.001
82642630|NCT04636437|165000589|SUPERIORITY||Mean Difference (Net)|-0.64||||0.27|TWO_SIDED|97.5|-1.93|0.66||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry hip bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in hip bone mineral density from entry to week 48.||0.66|-1.93|0.27
82642631|NCT04636437|165000590|SUPERIORITY||Mean Difference (Net)|0.5||||0.58|TWO_SIDED|97.5|-1.57|2.58||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lumbar spine bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lumbar spine bone mineral density from entry to week 48.||2.58|-1.57|0.58
82364563|NCT03465436|164439137|SUPERIORITY||LS Mean|-2.94|||||TWO_SIDED|90.0|-3.87|-2.01|||Mixed Models Analysis|||3.5 hours postdose||-2.01|-3.87|
82364564|NCT03465436|164439137|SUPERIORITY||LS Mean|-2.42|||||TWO_SIDED|90.0|-3.42|-1.42|||Mixed Models Analysis|||4 hours postdose||-1.42|-3.42|
82364565|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.61|||||TWO_SIDED|90.0|-6.17|-3.06|||Mixed Models Analysis|||6 hours postdose||-3.06|-6.17|
82364566|NCT03465436|164439137|SUPERIORITY||LS Mean|-3.82|||||TWO_SIDED|90.0|-5.38|-2.26|||Mixed Models Analysis|||8 hours postdose||-2.26|-5.38|
82364567|NCT03465436|164439137|SUPERIORITY||LS Mean|-2.65|||||TWO_SIDED|90.0|-4.33|-0.97|||Mixed Models Analysis|||12 hours postdose||-0.97|-4.33|
82364568|NCT03465436|164439137|SUPERIORITY||LS Mean|0.12|||||TWO_SIDED|90.0|-1.22|1.46|||Mixed Models Analysis|||24 hours postdose||1.46|-1.22|
82364569|NCT03465436|164439137|SUPERIORITY||LS Mean|-3.09|||||TWO_SIDED|90.0|-4.16|-2.02|||Mixed Models Analysis|||30 minutes postdose||-2.02|-4.16|
82364570|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.61|||||TWO_SIDED|90.0|-6.65|-4.58|||Mixed Models Analysis|||1 hour postdose||-4.58|-6.65|
82364571|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.39|||||TWO_SIDED|90.0|-6.42|-4.35|||Mixed Models Analysis|||1.5 hours postdose||-4.35|-6.42|
82364572|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.64|||||TWO_SIDED|90.0|-5.55|-3.72|||Mixed Models Analysis|||2 hours postdose||-3.72|-5.55|
82364573|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.82|||||TWO_SIDED|90.0|-6.77|-4.87|||Mixed Models Analysis|||2.5 hours postdose||-4.87|-6.77|
82364574|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.99|||||TWO_SIDED|90.0|-6.03|-3.96|||Mixed Models Analysis|||3 hours postdose||-3.96|-6.03|
82364575|NCT03465436|164439137|SUPERIORITY||LS Mean|-3.69|||||TWO_SIDED|90.0|-4.68|-2.71|||Mixed Models Analysis|||3.5 hours postdose||-2.71|-4.68|
82575166|NCT00474526|164859819|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, the lower limit of the two-sided 95% CI for the ratio of GMCs (GMCLA3A / GMCLA3B) had to be greater than 0.67 for PT, FHA and pertactin and greater than 0.50 for Hib, diphtheria and tetanus.|Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.63|1.16|||ANOVA|||Hib (Post-vaccination GMC; group ratio LA3A:LA3B)||1.16|0.63|
82364576|NCT03465436|164439137|SUPERIORITY||LS Mean|-3.19|||||TWO_SIDED|90.0|-4.21|-2.17|||Mixed Models Analysis|||4 hours postdose||-2.17|-4.21|
82364577|NCT03465436|164439137|SUPERIORITY||LS Mean|-6.29|||||TWO_SIDED|90.0|-7.83|-4.95|||Mixed Models Analysis|||6 hours postdose||-4.95|-7.83|
82364578|NCT03465436|164439137|SUPERIORITY||LS Mean|-5.37|||||TWO_SIDED|90.0|-6.73|-4.02|||Mixed Models Analysis|||8 hours postdose||-4.02|-6.73|
82364579|NCT03465436|164439137|SUPERIORITY||LS Mean|-4.71|||||TWO_SIDED|90.0|-6.25|-3.17|||Mixed Models Analysis|||12 hours postdose||-3.17|-6.25|
82364580|NCT03465436|164439137|SUPERIORITY||LS Mean|-0.55|||||TWO_SIDED|90.0|-1.74|0.63|||Mixed Models Analysis|||24 hours postdose||0.63|-1.74|
82364581|NCT03465436|164439137|SUPERIORITY||LS Mean|1.32|||||TWO_SIDED|90.0|0.32|2.33|||Mixed Models Analysis|||30 minutes postdose||2.33|0.32|
82364582|NCT03465436|164439137|SUPERIORITY||LS Mean|2.29|||||TWO_SIDED|90.0|1.19|3.4|||Mixed Models Analysis|||1 hour postdose||3.40|1.19|
82364583|NCT03465436|164439137|SUPERIORITY||LS Mean|1.3|||||TWO_SIDED|90.0|0.31|2.28|||Mixed Models Analysis|||1.5 hours postdose||2.28|0.31|
82364584|NCT03465436|164439137|SUPERIORITY||LS Mean|1.07|||||TWO_SIDED|90.0|0.17|1.97|||Mixed Models Analysis|||2 hours postdose||1.97|0.17|
82364585|NCT03465436|164439137|SUPERIORITY||LS Mean|0.21|||||TWO_SIDED|90.0|-0.81|1.23|||Mixed Models Analysis|||2.5 hours postdose||1.23|-0.81|
82364586|NCT03465436|164439137|SUPERIORITY||LS Mean|0.53|||||TWO_SIDED|90.0|-0.5|1.56|||Mixed Models Analysis|||3 hours postdose||1.56|-0.50|
82364587|NCT03465436|164439137|SUPERIORITY||LS Mean|1.36|||||TWO_SIDED|90.0|0.29|2.44|||Mixed Models Analysis|||3.5 hours postdose||2.44|0.29|
82364588|NCT03465436|164439137|SUPERIORITY||LS Mean|1.21|||||TWO_SIDED|90.0|0.09|2.34|||Mixed Models Analysis|||4 hours postdose||2.34|0.09|
82364589|NCT03465436|164439137|SUPERIORITY||LS Mean|-0.49|||||TWO_SIDED|90.0|-1.97|0.99|||Mixed Models Analysis|||6 hours postdose||0.99|-1.97|
82364590|NCT03465436|164439137|SUPERIORITY||LS Mean|-0.36|||||TWO_SIDED|90.0|-1.54|0.83|||Mixed Models Analysis|||8 hours postdose||0.83|-1.54|
82364591|NCT03465436|164439137|SUPERIORITY||LS Mean|0.73|||||TWO_SIDED|90.0|-0.87|2.34|||Mixed Models Analysis|||12 hours postdose||2.34|-0.87|
82364592|NCT03465436|164439137|SUPERIORITY||LS Mean|-0.12|||||TWO_SIDED|90.0|-1.29|1.04|||Mixed Models Analysis|||24 hours postdose||1.04|-1.29|
82364593|NCT02697773|164439200|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0129|TWO_SIDED|95.0|-1.07|-0.13||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.13|-1.07|0.0129
82364594|NCT02697773|164439200|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0023|TWO_SIDED|95.0|-1.2|-0.26||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.26|-1.20|0.0023
82364595|NCT02697773|164439201|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.24||0.0065|TWO_SIDED|95.0|-1.14|-0.19||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed data sets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.19|-1.14|0.0065
82426345|NCT03802396|164561723|OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.047
82426346|NCT03802396|164561724|OTHER|||||||0.498|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.498
82426347|NCT03802396|164561724|OTHER|||||||0.745|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.745
82642632|NCT04636437|165000590|SUPERIORITY||Mean Difference (Net)|0.05||||0.95|TWO_SIDED|97.5|-1.93|2.03||Bonferroni adjustment for 2 pairwise comparisons of DOR-containing arms versus continuation of INSTI. Two sided 2.5% alpha.|Regression, Linear||Mean difference and CI come from a linear regression model adjusting for entry lumbar spine bone mineral density, sex, and race (Black and not Black).|Null hypothesis: There is no difference between the two arms in percent change in lumbar spine bone mineral density from entry to week 48.||2.03|-1.93|0.95
82642633|NCT02087865|165000660|SUPERIORITY||Mean Difference (Final Values)|-8.25|STANDARD_ERROR_OF_MEAN|7.59||0.273|TWO_SIDED|95.0|-23.12|6.63|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||6.63|-23.12|0.273
82642634|NCT02087865|165000661|SUPERIORITY||Mean Difference (Final Values)|-13.41|STANDARD_ERROR_OF_MEAN|3.92||0.001|TWO_SIDED|95.0|-21.09|-5.73|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-5.73|-21.09|0.001
82642635|NCT02087865|165000662|SUPERIORITY||Median Difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|5.48||0.115|TWO_SIDED|95.0|-19.33|2.14|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||2.14|-19.33|0.115
82642636|NCT02087865|165000663|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|2.09||0.941|TWO_SIDED|95.0|-3.94|4.25|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||4.25|-3.94|0.941
82642637|NCT02087865|165000664|SUPERIORITY||Mean Difference (Final Values)|46.33|STANDARD_ERROR_OF_MEAN|15.4||0.003|TWO_SIDED|95.0|16.14|76.53|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||76.53|16.14|0.003
82642638|NCT02087865|165000665|SUPERIORITY||Mean Difference (Final Values)|61.36|STANDARD_ERROR_OF_MEAN|13.32|<|0.001|TWO_SIDED|95.0|35.25|87.46|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||87.46|35.25|<0.001
82642639|NCT02087865|165000666|SUPERIORITY||Mean Difference (Final Values)|-3.35|STANDARD_ERROR_OF_MEAN|1.18||0.005|TWO_SIDED|95.0|-5.65|-1.04|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-1.04|-5.65|0.005
82642640|NCT02087865|165000667|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.67||0.011|TWO_SIDED|95.0|-7.58|-1.02|||ANCOVA|||We are reporting the difference in mean between the Donepezil HCL and Placebo groups.||-1.02|-7.58|0.011
82642641|NCT01392469|165000673|SUPERIORITY||Ratio (Test/Reference)|1.17|||||TWO_SIDED|90.0|1.03|1.33||||||||1.33|1.03|
82642642|NCT01392469|165000673|SUPERIORITY||Ratio (Test/Reference)|1.4|||||TWO_SIDED|90.0|1.23|1.59||||||||1.59|1.23|
82642643|NCT01392469|165000674|SUPERIORITY||Ratio (Test/Reference)|1.36|||||TWO_SIDED|90.0|1.14|1.62||||||||1.62|1.14|
82642644|NCT01392469|165000674|SUPERIORITY||Ratio (Test/Reference)|1.7|||||TWO_SIDED|90.0|1.43|2.03||||||||2.03|1.43|
82642645|NCT01392469|165000675|SUPERIORITY||Ratio (Test/Reference)|1.0|||||TWO_SIDED|90.0|0.82|1.21||||||||1.21|0.82|
82642646|NCT01392469|165000675|SUPERIORITY||Ratio (Test/Reference)|1.07|||||TWO_SIDED|90.0|0.88|1.31||||||||1.31|0.88|
82642647|NCT01392469|165000676|SUPERIORITY||Ratio (Test/Reference)|1.28|||||TWO_SIDED|90.0|1.03|1.61||||||||1.61|1.03|
82642648|NCT01392469|165000676|SUPERIORITY||Ratio (Test/Reference)|1.56|||||TWO_SIDED|90.0|1.24|1.95||||||||1.95|1.24|
82642649|NCT01017731|165000684|SUPERIORITY_OR_OTHER|||||||0.0161||||||The p-value for QTc interval prolongation compared to baseline.|Mixed Models Analysis|||||||0.0161
82642650|NCT01339858|165000756|SUPERIORITY|||||||0.32|||||||ANOVA|||||||0.32
82642651|NCT00996632|165000765|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||null hypothesis is that drainage volumes are not different||||<0.05
82426348|NCT03802396|164561725|OTHER|||||||0.177|||||||Wilcoxon (Mann-Whitney)|||Baseline to 24 hours||||0.177
82642652|NCT00996632|165000766|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||null hypothesis is that Stay in Hospital Days are not different||||0.05
82642653|NCT03731325|165000791|SUPERIORITY||Mean Difference (Net)|2.2|||<|0.01|TWO_SIDED||||||ANOVA||This mean difference represents the main effect of time from baseline to 15 weeks, regardless of group|Change in parent BMI from baseline at 8,11 to 15 weeks||||<0.01
82642654|NCT03731325|165000792|SUPERIORITY||Mean Difference (Net)|-10.5||||0.003|TWO_SIDED|||||main effect of time|ANOVA||This is the main effect of weight change at week 15, e.g. average weight change from baseline to week 15 in the entire sample of parents|repeated measures analysis of variance for time (0,8,11,15 weeks) for weight change (lbs)||||0.003
82642655|NCT03731325|165000793|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.06|TWO_SIDED||||||ANOVA||average difference in BMI percentile for entire sample|Repeated measures ANOVA for child BMI percentile at 0, 8, 11 and 15 weeks||||0.06
82642656|NCT03731325|165000794|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.07|TWO_SIDED||||||ANOVA||average change in delay discounting measure area under the curve for all participants (parents and children) in both groups from baseline to week 15|repeated measures ANOVA, reporting repeated measures effect only||||0.07
82642657|NCT03731325|165000795|SUPERIORITY||Mean Difference (Net)|-0.8||||0.64|TWO_SIDED||||||ANOVA||Difference between weight at baseline and week 15 in lbs for all children, regardless of group|||||0.64
82642658|NCT04221373|165000807|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 117.78||SCIM Total Score||||<0.01
82642659|NCT04221373|165000807|OTHER|Mixed-effects model||||||0.03||||||treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 5.59||SCIM Total Score||||0.03
82642660|NCT04221373|165000807|OTHER|Mixed-effects model||||||0.01||||||treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 8.02||SCIM R \& S scores||||0.01
82642661|NCT04221373|165000807|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 72.49||SCIM R \& S scores||||< 0.01
82642662|NCT04221373|165000808|OTHER|Mixed-effects model||||||0.02||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 5.82||LEMS||||0.02
82642663|NCT04221373|165000808|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 33.29||LEMS||||<0.01
82642664|NCT04221373|165000808|OTHER|Mixed-effects model||||||0.04||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 4.58||UEMS||||0.04
82642665|NCT04221373|165000808|OTHER|Mixed-effects model|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1, 26) = 15.34||UEMS||||<0.01
82642666|NCT04221373|165000808|OTHER|Mixed-effects model|||||<|0.01||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,26) = 8.06||TMS||||<0.01
82364596|NCT02697773|164439201|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.37|-0.42||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.42|-1.37|0.0002
82364597|NCT02697773|164439202|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.0109|TWO_SIDED|95.0|-0.39|-0.05||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.39|0.0109
82527837|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|9.83||||0.189|TWO_SIDED|95.0|-4.8|24.45||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.45|-4.80|0.189
82527838|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|29.19|||<|0.001|TWO_SIDED|95.0|16.71|41.66||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||41.66|16.71|<0.001
82642667|NCT04221373|165000808|OTHER|TMS|||||<|0.01||||||Main effect of time|Mixed Models Analysis|F(1,26) = 38.91||||||<0.01
82364598|NCT02697773|164439202|SUPERIORITY|Step-down testing procedure within each of the primary endpoints was applied to maintain Type I error. Tanezumab 2.5/5 mg vs placebo was tested first and if found significant, then the testing was continued for Tanezumab 2.5 mg vs placebo. Tanezumab treatment group was declared as superior to placebo if the corresponding treatment contrast was significant over all 3 primary endpoints.|Least Square Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0038|TWO_SIDED|95.0|-0.41|-0.08||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.41|0.0038
82364599|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.21||0.002|TWO_SIDED|95.0|-1.08|-0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.24|-1.08|0.0020
82364600|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.21||0.0014|TWO_SIDED|95.0|-1.1|-0.26|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.10|0.0014
82364601|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.31|-0.45|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.45|-1.31|<.0001
82364602|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.3|-0.44|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.44|-1.30|<.0001
82364603|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.0085|TWO_SIDED|95.0|-1.03|-0.15|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.15|-1.03|0.0085
82364604|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.22||0.0657|TWO_SIDED|95.0|-0.85|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||0.03|-0.85|0.0657
82426349|NCT03802396|164561725|OTHER|||||||0.478|||||||Wilcoxon (Mann-Whitney)|||Baseline to 6 weeks||||0.478
82426350|NCT03802396|164561726|OTHER|||||||0.803|||||||t-test, 2 sided|||||||0.803
82642668|NCT04221373|165000808|OTHER|Mixed-effects model||||||0.02||||||Treatment group by time interaction effects|Mixed Models Analysis|F(1,21.7) = 6.23||TLTS||||0.02
82364605|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.24||0.0012|TWO_SIDED|95.0|-1.25|-0.31|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.31|-1.25|0.0012
82364606|NCT02697773|164439203|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.24||0.0004|TWO_SIDED|95.0|-1.33|-0.38|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.38|-1.33|0.0004
82364607|NCT02697773|164439205|SUPERIORITY||Least Mean Square Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.21||0.0004|TWO_SIDED|95.0|-1.17|-0.34|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.34|-1.17|0.0004
82364608|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.33|-0.5|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.50|-1.33|<.0001
82364609|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.45|-0.6|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.60|-1.45|<.0001
82364610|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.53|-0.68|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.68|-1.53|<.0001
82364611|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0057|TWO_SIDED|95.0|-1.07|-0.18|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.18|-1.07|0.0057
82364612|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.0114|TWO_SIDED|95.0|-1.02|-0.13|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.13|-1.02|0.0114
82364613|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.24||0.0004|TWO_SIDED|95.0|-1.33|-0.38|||ANCOVA|||Week 12:Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.38|-1.33|0.0004
82364614|NCT02697773|164439205|SUPERIORITY||Least Square Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.52|-0.58|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariate, and study site as a random effect.||-0.58|-1.52|<.0001
82364615|NCT02697773|164439207|SUPERIORITY||Least Mean Square Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0236|TWO_SIDED|95.0|-0.32|-0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.02|-0.32|0.0236
82642669|NCT04221373|165000808|OTHER|Mixed-effects model||||||0.05||||||Main effect of time|Mixed Models Analysis|F(1 26)=4.14||TLTS||||0.05
82364616|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0958|TWO_SIDED|95.0|-0.27|0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis subscale and baseline diary average pain as covariate, and study site as a random effect.||0.02|-0.27|0.0958
82426351|NCT03802396|164561728|OTHER||Risk Ratio (RR)|0.73||||0.286|TWO_SIDED|95.0|0.41|1.3|||Chi-squared|||||1.30|0.41|0.286
82642670|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.485||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 21) = 0.51||Average worst pain intensity||||0.485
82642671|NCT04221373|165000809|OTHER|Mixed-effects model||||||0||||||Main effect of time|Mixed Models Analysis|F(1, 21) = 26.71||Average worst pain intensity||||0.000
82642672|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.832||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 21) = 0.05||Worst pain interference with day-to-day activities||||0.832
82642673|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.033||||||Main effect of time|Mixed Models Analysis|F(1, 21) = 5.21||Worst pain interference with day-to-day activities||||0.033
82642674|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.692||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1, 42) = 0.16||Worst pain interference with overall mood||||0.692
82642675|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.005||||||Main effect of time|Mixed Models Analysis|F(1, 42) = 8.65||Worst pain interference with overall mood||||0.005
82642676|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.946||||||Treatment group-by-time interaction effect|Mixed Models Analysis|F(1,21) = 0.01||Worst pain interfered with sleep||||0.946
82642677|NCT04221373|165000809|OTHER|Mixed-effects model||||||0.0002||||||Main effect of time|Mixed Models Analysis|F(1,21) = 11.94||Worst pain interference with sleep||||0.0002
82642678|NCT04221373|165000810|SUPERIORITY|||||||0.554|||||||Chi-squared|X\^2 (1, N = 23) = 0.35||Baseline||||0.554
82642679|NCT04221373|165000810|SUPERIORITY|||||||0.949|||||||Chi-squared|X\^2 (1, N = 23) = 0.004||discharge from acute inpatient rehabilitation (average 2-3 weeks)||||0.949
82642680|NCT00627094|165000811|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0438|TWO_SIDED|95.0|1.02|2.96||In order to obtain 90% power to show superiority of Biatain Ibu compared to Biatain, a sample size of 60 pts per group (assuming a 15% drop-out rate) was found by simulating data from multi-nomial distributions over time.|Chi-squared|Result based on ITT population (evening). PP-analysis show a strong tendency (not significant) in favour of Biatain Ibu supporting the ITT-analysis||The null hypothesis to be tested was that the distributions of categorical responses were the same.||2.96|1.02|0.0438
82642681|NCT00539006|165000822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0|-1.5|-0.6|||ANCOVA||Mean Difference = Mean Change in FFNS - Mean Change in Placebo|FFNS combined across treatment arms 1 \& 2 compared with Placebo FFNS combined across treatment arms 1 \& 2.||-0.6|-1.5|<0.001
82642682|NCT00539006|165000822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.004||95.0|-1.1|-0.2|||ANCOVA||Mean Difference = Mean Change in FPNS - Mean Change in Placebo|FPNS combined across treatment arms 1 \& 2 compared with Placebo FPNS combined across treatment arms 1 \& 2.||-0.2|-1.1|0.004
82642683|NCT00539006|165000823|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH): stratified approximation to Prescotts test; variation of chi-square test for treatment sequence/subjects no preference.||Statistical analysis applies to FFNS and FPNS categories.||||<0.001
82642684|NCT01965431|165000836|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is the maximum acceptable extent of statistical and clinical noninferiority of an experimental treatment. Non-inferiority margin for this trial is 10ms.|Mean Difference (Net)|7.9|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|90.0|5.37|10.43|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|||10.43|5.37|
82642685|NCT01965431|165000837|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.7|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|90.0|9.32|16.08|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||16.08|9.32|
82642686|NCT01965431|165000838|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|-1.38|1.73|||||Maximum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||1.73|-1.38|
82642687|NCT01965431|165000839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.42|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|-5.98|-2.87|||||Minimum mean difference to placebo is estimated. Adjusted means are based on a mixed model for repeated measures with 'global' \& 'period-global baseline' covariates. Toeplitz covariance model used for modelling the random and repeated effect.|No formal hypothesis testing was done.||-2.87|-5.98|
82364617|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07||0.0007|TWO_SIDED|95.0|-0.4|-0.11|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.11|-0.40|0.0007
82642688|NCT00577031|165000855|SUPERIORITY_OR_OTHER|||||||0.0076|||||||Signed-rank test|||Change from baseline to last visit||||0.0076
82426352|NCT03802396|164561729|OTHER|||||||0.189|||||||Wilcoxon (Mann-Whitney)|||||||0.189
82642689|NCT04776135|165000890|OTHER|AUC0-t was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|0.987|||||TWO_SIDED|90.0|0.936|1.041|||ANOVA|||For AUC0-t, MT-1186 orally Versus MT-1186 via NGT||1.041|0.936|
82642690|NCT04776135|165000890|OTHER|AUC0-inf was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|0.981|||||TWO_SIDED|90.0|0.931|1.033|||ANOVA|||For AUC0-inf, MT-1186 orally Versus MT-1186 via NGT||1.033|0.931|
82642691|NCT04776135|165000891|OTHER|Cmax was log-transformed and analyzed by analysis of variance using administration groups, the administration route, study periods, and subjects as factors. Estimates of the mean values on the log scale, the mean difference between administration routes on the log scale, and 90% CIs for the difference were back transformed to present mean ratios and their 90% CIs for administration via NGT to oral administration.|Ratio (NGT/oral)|1.052|||||TWO_SIDED|90.0|0.903|1.227|||ANOVA|||MT-1186 orally Versus MT-1186 via NGT||1.227|0.903|
82642692|NCT00769132|165000902|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two treatments are comparable if the geometric mean ratio is contained within the interval \[0.50-2.00\].|Geometric least-squares mean ratio|1.12||||||90.0|0.9|1.38||||||The endpoint is the urine levels of 11-dTxB2 on Day 7 following a 7 day course of daily dosing in the overall 24 hour collection interval. The point estimate and 90% confidence intervals (CIs) were calculated for the geometric mean ratio (GMR) \[Treatment A/B\] of the urine levels of 11-dTxB2 on Day 7.||1.38|0.9|
82642693|NCT00769132|165000902|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.87||||||90.0|0.71|1.07||||||||1.07|0.71|
82364618|NCT02697773|164439207|SUPERIORITY||Least Mean Square Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.36|-0.07|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.07|-0.36|0.0040
82364619|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0498|TWO_SIDED|95.0|-0.31|0.0|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.00|-0.31|0.0498
82364620|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.238|TWO_SIDED|95.0|-0.24|0.06|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||0.06|-0.24|0.2380
82364621|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.09||0.0426|TWO_SIDED|95.0|-0.34|-0.01|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.01|-0.34|0.0426
82364622|NCT02697773|164439207|SUPERIORITY||Least Square Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.09||0.0014|TWO_SIDED|95.0|-0.45|-0.11|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline PGA of osteoarthritis and baseline diary average pain as covariate, and study site as a random effect.||-0.11|-0.45|0.0014
82364623|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0027|TWO_SIDED|95.0|1.22|2.61|||Regression, Logistic|||Week 2: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.61|1.22|0.0027
82364624|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0004|TWO_SIDED|95.0|1.36|2.89|||Regression, Logistic|||Week 2: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.89|1.36|0.0004
82642694|NCT00769132|165000902|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.8||||||90.0|0.65|0.98||||||||0.98|0.65|
82642695|NCT00769132|165000902|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.89||||||90.0|0.72|1.09||||||||1.09|0.72|
82364625|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0008|TWO_SIDED|95.0|1.33|2.95|||Regression, Logistic|||Week 4: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.95|1.33|0.0008
82364626|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0004|TWO_SIDED|95.0|1.37|3.04|||Regression, Logistic|||Week 4: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.37|0.0004
82364627|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.27||||0.2283|TWO_SIDED|95.0|0.86|1.87|||Regression, Logistic|||Week 8: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.87|0.86|0.2283
82642696|NCT00769132|165000902|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.91||||||90.0|0.74|1.12||||||||1.12|0.74|
82642697|NCT00769132|165000902|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|1.02||||||90.0|0.83|1.25||||||||1.25|0.83|
82642698|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|1.04||||||90.0|0.92|1.17||||||||1.17|0.92|
82642699|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.9||||||90.0|0.8|1.01||||||||1.01|0.8|
82642700|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.56||||||90.0|0.49|0.63||||||||0.63|0.49|
82642701|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.58||||||90.0|0.51|0.65||||||||0.65|0.51|
82642702|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.62||||||90.0|0.55|0.7||||||||0.7|0.55|
82642703|NCT00769132|165000903|SUPERIORITY_OR_OTHER_LEGACY||Geometric least-squares mean ratio|0.64||||||90.0|0.57|0.72||||||||0.72|0.57|
82642704|NCT00877799|165000906|SUPERIORITY_OR_OTHER|||||||0.057|||||||t-test, 2 sided|||||||0.057
82642705|NCT00877799|165000907|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82642706|NCT00877799|165000908|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82642707|NCT01360021|165000909|SUPERIORITY_OR_OTHER||Estimated Geometic Mean Ratio|1.1||||0.001|TWO_SIDED|95.0|1.06|1.14|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|Symbicort AC pMDI 2x160/4.5 µg bid vs Budesonide AC pMDI 2x160 µg bid|The comparison of Symbicort AC pMDI 2x160/4.5 µg bid with budesonide AC pMDI 2x160 µg bid for post dose FEV1||1.14|1.06|0.001
82642708|NCT01360021|165000909|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 0.2 (for pre dose FEV1) on the log-scale and 60 patients/arm, the width of the confidence interval will extend 0.072 from the point estimate on the log-scale. The lower and upper limits of the CI for the ratio of effects will thus be obtained by multiplying the estimated ratio by 0.931 and 1.075, respectively.|Estimated Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.97|1.05|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|The comparisons was used to assess therapeutic equivalence of Symbicort AC pMDI and Symbicort BA MDI. Assay sensitivity was demonstrated before proceeding to assess therapeutic equivalence of the 2 Symbicort products.|The comparisons of Symbicort BA MDI 2x160/4.5 µg bid with Symbicort AC pMDI 2x160/4.5 µg bid for post dose FEV1.||1.05|0.97|
82642709|NCT01360021|165000910|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a standard deviation of 0.2 (for pre dose FEV1) on the log-scale and 60 patients/arm, the width of the confidence interval will extend 0.072 from the point estimate on the log-scale. The lower and upper limits of the CI for the ratio of effects will thus be obtained by multiplying the estimated ratio by 0.931 and 1.075, respectively.|Estimated Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.99|1.08|||ANCOVA|ANCOVA model on the log transformed outcome variable with treatment and country as factor, and log transformed baseline FEV1 (pre-dose) as covariate.|The comparisons was used to assess therapeutic equivalence of Symbicort AC pMDI and Symbicort BA MDI. Assay sensitivity was demonstrated before proceeding to assess therapeutic equivalence of the 2 Symbicort products.|The comparisons of Symbicort BA MDI 2x160/4.5 µg bid with Symbicort AC pMDI 2x160/4.5 µg bid, for pre-dose FEV1.||1.08|0.99|
82642710|NCT01360021|165000911|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were be made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|1.49|STANDARD_ERROR_OF_MEAN|6.75||0.825|TWO_SIDED|95.0|-11.81|14.8|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Morning peak expiratory flow (mPEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid||14.80|-11.81|0.825
82642711|NCT01360021|165000911|SUPERIORITY_OR_OTHER||Mean Difference (Net)|33.52|STANDARD_ERROR_OF_MEAN|6.8||0.001|TWO_SIDED|95.0|20.11|46.93|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Morning peak expiratory flow (mPEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort AC pMDI 2x160/4.5 µg bid minus Budesonide AC pMDI 2x160 µg bid||46.93|20.11|0.001
82642712|NCT01360021|165000911|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|1.48|STANDARD_ERROR_OF_MEAN|6.15||0.81|TWO_SIDED|95.0|-10.66|13.61|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Evening peak expiratory flow (ePEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||13.61|-10.66|0.810
82642713|NCT01360021|165000911|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.25|STANDARD_ERROR_OF_MEAN|6.21||0.001|TWO_SIDED|95.0|20.01|44.49|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.|Secondary efficacy variables were analyzed as continuous data, comparing mean changes from baseline to the average of the double-blind treatment period between treatments. No adjustment were made for multiplicity and nominal p-values were reported.|Evening peak expiratory flow (ePEF): Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort AC pMDI 2x160/4.5 µg bid and Budesonide AC pMDI 2x160 µg bid.||44.49|20.01|0.001
82642714|NCT01360021|165000912|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.272|TWO_SIDED|95.0|-0.1|0.35|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||0.35|-0.10|0.272
82642715|NCT01360021|165000913|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.69||0.025|TWO_SIDED|95.0|-11.41|-0.79|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between Symbicort BA MDI 2x160/4.5 μg bid and Symbicort AC pMDI 2x160/4.5 µg bid.||-0.79|-11.41|0.025
82642716|NCT01360021|165000914|NON_INFERIORITY_OR_EQUIVALENCE|No adjustment were made for multiplicity for these supportive variables and nominal p-values were reported.|Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|0.23||0.258|TWO_SIDED|95.0|-0.19|0.71|||ANCOVA|ANCOVA model includes treatment and country as a factor and baseline value as covariate.||Comparing mean changes from baseline to the average of the double-blind treatment period between BAI Symbicort BA MDI 2x160/4.5 μg bid and pMDI Symbicort AC pMDI 2x160/4.5 µg bid.||0.71|-0.19|0.258
82575167|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0||||||95.0|-4.2|5.4|||ANOVA|||Diphtheria (percentage difference (LA3A - LA3B))||5.4|-4.2|
82575168|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0|||||TWO_SIDED|95.0|-4.2|5.4|||ANOVA|||Tetanus (percentage difference (LA3A - LA3B))||5.4|-4.2|
82575169|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|6.0||||||95.0|-3.6|15.2|||ANOVA|||PT (percentage difference (LA3A - LA3B))||15.2|-3.6|
82575170|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|-1.0|||||TWO_SIDED|95.0|-10.2|8.2|||ANOVA|||FHA (percentage difference (LA3A - LA3B))||8.2|-10.2|
82575171|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|2.0|||||TWO_SIDED|95.0|-7.2|10.6|||ANOVA|||Pertactin (percentage difference (LA3A - LA3B))||10.6|-7.2|
82575172|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.1|3.6|||ANOVA|||Hib (≥ 0.15 μg/mL) (percentage difference (LA3A - LA3B))||3.6|-3.1|
82575173|NCT00474526|164859820|NON_INFERIORITY_OR_EQUIVALENCE|To assess non-inferiority of LA3A over LA3B, The lower limit of the two-sided 95% CI for the difference (PLA3A-PLA3B) in percentages of subjects with seroresponse against diphtheria, tetanus, Hib and pertussis antigens (except FHA for ≥4 fold rise) was greater than -10%|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.2|5.3|||ANOVA|||Hib (≥1.0 μg/mL) (percentage difference (LA3A - LA3B))||5.3|-2.2|
82575174|NCT01475305|164859836|SUPERIORITY_OR_OTHER||Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.05|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|||2.05|0.00|
82575175|NCT01475305|164859837|SUPERIORITY_OR_OTHER||Relative Risk|1.0|||||TWO_SIDED|95.0|0.16|6.24|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by quantitative real-time RT-PCR||6.24|0.16|
82575176|NCT01475305|164859837|SUPERIORITY_OR_OTHER||Relative Risk|0.0|||||TWO_SIDED|95.0|0.0|2.05|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by DFA||2.05|0.00|
82575177|NCT01475305|164859837|SUPERIORITY_OR_OTHER||Relative Risk|1.0|||||TWO_SIDED|95.0|0.16|6.24|||||Relative risk was calculated as the proportion of participants with RSV infection in the MEDI-557 arm divided by the proportion of participants with RSV infection in the placebo arm.|RSV infection by Any Method||6.24|0.16|
82575178|NCT00132678|164859864|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.001||95.0|0.27|0.59|||Log Rank|Adjusting for country|RISPERDAL CONSTA hazard in numerator, placebo hazard in denominator.|||0.59|0.27|<0.001
82575179|NCT00132678|164859865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.09|<|0.001||95.0|-8.08|-3.79|||ANCOVA|ANCOVA model with factors for treatment and country and double-blind baseline value as covariate.|Change in RISPERDAL CONSTA arm minus change in placebo arm.|||-3.79|-8.08|<0.001
82575180|NCT00132678|164859866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.87||0.02||95.0|-3.75|-0.32|||ANCOVA|ANCOVA model with factors for treatment and country and double-blind baseline value as covariate.|Change in RISPERDAL CONSTA arm minus change in placebo arm.|||-0.32|-3.75|0.020
82575181|NCT00953147|164859867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.0001|TWO_SIDED|95.0|0.35|1.04||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in iTNSS with a two-sided alpha level of 0.025.||1.04|0.35|<0.0001
82575182|NCT00953147|164859867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54||||0.0005|TWO_SIDED|95.0|0.24|0.84||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in iTNSS with a two-sided alpha level of 0.025.||0.84|0.24|0.0005
82575183|NCT00953147|164859868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0014|TWO_SIDED|95.0|0.25|0.92|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.92|0.25|0.0014
82575184|NCT00953147|164859868|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.42||||0.0122|TWO_SIDED|95.0|0.12|0.72|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.72|0.12|0.0122
82575185|NCT01251770|164859885|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||Serum Sodium difference at the beginning||||0.030
82575186|NCT01251770|164859885|SUPERIORITY_OR_OTHER|||||||0.871||95.0|||||t-test, 2 sided|||Serum Sodium at the end of the study||||0.871
82575187|NCT01251770|164859886|SUPERIORITY_OR_OTHER|||||||0.895|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.895
82364628|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1066|TWO_SIDED|95.0|0.93|2.03|||Regression, Logistic|||Week 8: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.03|0.93|0.1066
82364629|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0154|TWO_SIDED|95.0|1.1|2.54|||Regression, Logistic|||Week 12: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.54|1.10|0.0154
82364630|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0006|TWO_SIDED|95.0|1.38|3.27|||Regression, Logistic|||Week 12: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.27|1.38|0.0006
82364631|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1139|TWO_SIDED|95.0|0.92|2.07|||Regression, Logistic|||Week 16: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.07|0.92|0.1139
82364632|NCT02697773|164439209|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0014|TWO_SIDED|95.0|1.31|3.04|||Regression, Logistic|||Week 16: Odds ratio and 95% confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.31|0.0014
82364633|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.3|2.78|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.78|1.30|0.0009
82364634|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0004|TWO_SIDED|95.0|1.36|2.9|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.90|1.36|0.0004
82364635|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0015|TWO_SIDED|95.0|1.29|2.96|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.29|0.0015
82364636|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0008|TWO_SIDED|95.0|1.34|3.07|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.07|1.34|0.0008
82364637|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0251|TWO_SIDED|95.0|1.07|2.75|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.75|1.07|0.0251
82364638|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0276|TWO_SIDED|95.0|1.06|2.72|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|1.06|0.0276
82642717|NCT00127192|165000915|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.6|||<|0.001||95.0|-4.3|-3.0||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-3.0|-4.3|<0.001
82364639|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0404|TWO_SIDED|95.0|1.03|3.71|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.71|1.03|0.0404
82364640|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3486|TWO_SIDED|95.0|0.7|2.72|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.72|0.70|0.3486
82364641|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0002|TWO_SIDED|95.0|1.42|3.02|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.02|1.42|0.0002
82364642|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0006|TWO_SIDED|95.0|1.32|2.79|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|1.32|0.0006
82364643|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0002|TWO_SIDED|95.0|1.41|3.05|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.05|1.41|0.0002
82364644|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.15|||<|0.0001|TWO_SIDED|95.0|1.46|3.15|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.15|1.46|<.0001
82364645|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0024|TWO_SIDED|95.0|1.28|3.18|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.18|1.28|0.0024
82364646|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0011|TWO_SIDED|95.0|1.35|3.34|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.34|1.35|0.0011
82642718|NCT00127192|165000915|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.2|||<|0.001||95.0|-3.9|-2.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.6|-3.9|<0.001
82364647|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0172|TWO_SIDED|95.0|1.14|3.72|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.14|0.0172
82364648|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.06||||0.0173|TWO_SIDED|95.0|1.14|3.72|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.72|1.14|0.0173
82364649|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0118|TWO_SIDED|95.0|1.11|2.35|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.35|1.11|0.0118
82364650|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0132|TWO_SIDED|95.0|1.1|2.32|||Regression, Logistic|||Week 8, \>=30%:Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.32|1.10|0.0132
82364651|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0005|TWO_SIDED|95.0|1.35|2.92|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.92|1.35|0.0005
82364652|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.66||||0.01|TWO_SIDED|95.0|1.13|2.45|||Regression, Logistic|||Week 8, \>=50%:Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.45|1.13|0.0100
82364653|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0023|TWO_SIDED|95.0|1.28|3.12|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.12|1.28|0.0023
82364654|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0322|TWO_SIDED|95.0|1.04|2.58|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.58|1.04|0.0322
82364655|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2005|TWO_SIDED|95.0|0.81|2.67|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.67|0.81|0.2005
82364656|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1923|TWO_SIDED|95.0|0.82|2.68|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.68|0.82|0.1923
82364657|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0013|TWO_SIDED|95.0|1.28|2.79|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|1.28|0.0013
82364658|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.68|3.73|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.73|1.68|<.0001
82364659|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.45|3.1|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.10|1.45|<.0001
82364660|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0014|TWO_SIDED|95.0|1.26|2.67|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.67|1.26|0.0014
82364661|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0008|TWO_SIDED|95.0|1.33|2.99|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.99|1.33|0.0008
82364662|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0005|TWO_SIDED|95.0|1.37|3.06|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.06|1.37|0.0005
82364663|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0127|TWO_SIDED|95.0|1.16|3.49|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.49|1.16|0.0127
82392779|NCT02052596|164497075|NON_INFERIORITY|Criteria for non-inferiority: At one month after the first vaccine dose (Month 1), the upper limit (UL) of the 95% confidence interval (CI) for the difference in the percentages of subjects with anti-tetanus (anti-T) concentrations ≥ 1.0 IU/mL of the Control Group minus the GSK1437173A Group had to be \< 10%.|Difference in seropositivity rate|0.01|||||TWO_SIDED|95.0|-1.18|1.27||||||Demonstration of non-inferiority of the humoral immune response to Boostrix vaccine when co-administered with GSK1437173A vaccine at first vaccination dose compared to Boostrix vaccine (administered separately from GSK1437173A) for tetanus (T) antigen, one month after the vaccine dose.||1.27|-1.18|
82392780|NCT00454818|164497117|SUPERIORITY_OR_OTHER|||||||0.078||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.078
82392781|NCT00454818|164497117|SUPERIORITY_OR_OTHER|||||||0.515||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.515
82392782|NCT00454818|164497117|SUPERIORITY_OR_OTHER|||||||0.098||||||The a priori threshold for statistical significance was P \< 0.2. There were no adjustments for multiple comparisons.|t-test, 2 sided|||||||0.098
82392783|NCT01541839|164497143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|327.0|STANDARD_DEVIATION|70.0|<|0.0001|TWO_SIDED|95.0|||||t-test, 1 sided||The mean time for closure with septal stapler was 35 +/-22 seconds versus 7 minutes +/- 1 minute 10 seconds for suture closure. The mean net difference between groups was 327 seconds, or 6 minutes 27 seconds.|The operative time required for closure and NOSE questionnaire scores were analyzed with unpaired and paired t-tests respectively. Chi-squared testing was used for post-operative complication rates. The mean closure time for septoplasty was estimated to be 10 minutes +/- 4 minutes. It was assumed that the septal stapler would take 5 minutes +/- 4 minutes. Assuming a one-sided test, an alpha of 0.05 and a power of 0.8, a total of 16 patients were needed.||||<0.0001
82392784|NCT01393132|164497151|SUPERIORITY_OR_OTHER|||||||0.0108|TWO_SIDED||||||t-test, 2 sided|||Comparison of fluorescein staining score between the placebo and Thymosin beta 4 groups||||0.0108
82392785|NCT01393132|164497152|SUPERIORITY_OR_OTHER|||||||0.0141|TWO_SIDED||||||t-test, 2 sided|||Comparison of Ocular Discomfort Index score between the placebo and Thymosin beta 4 groups||||0.0141
82444326|NCT03743064|164597287|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|1.284|STANDARD_ERROR_OF_MEAN|0.289|<|0.0001|TWO_SIDED|95.0|0.718|1.851|||ANOVA|||"To declare anamorelin superior to placebo, both co-primary endpoints had to be significant.~The null hypothesis for mean change in body weight from baseline over 12 weeks (H0w) and the corresponding alternative hypothesis (H1w) were:~H0w: MWa = MWp H1w: MWa ≠ MWp~Where MWa is the mean change in body weight from baseline over 12 weeks for the anamorelin arm and MWp is the mean change in body weight from baseline over 12 weeks for the placebo arm."||1.851|0.718|<0.0001
82448847|NCT00746863|164604997|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups. Normality of continuous variables was assessed using the Shapiro-Wilk test. For categorical data, Fisher's exact test was used to evaluate the data. A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.||||0.258
82575188|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|11.9||||0.1236|TWO_SIDED|95.0|-3.1|26.9|||Regression, Logistic|P-value has been corrected for multiplicity according to Hommel's closed-testing method.||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||26.9|-3.1|0.1236
82364664|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|2.11||||0.0075|TWO_SIDED|95.0|1.22|3.64|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.64|1.22|0.0075
82364665|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0061|TWO_SIDED|95.0|1.17|2.52|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.52|1.17|0.0061
82392786|NCT01393132|164497153|SUPERIORITY_OR_OTHER|||||||0.0162|TWO_SIDED||||||t-test, 2 sided|||Comparison of Tear Film Break up Time between the placebo and Thymosin beta 4 groups.||||0.0162
82392787|NCT00808639|164497218|SUPERIORITY_OR_OTHER||Pathologic response rate|49.0|||||TWO_SIDED|80.0|38.0|61.0||||||This study used a Simon's optimal two-stage design. Of 39 eligible patients, if 18 achieved PaR, the treatment would be declared effective. A two-sided 80% CI was estimated considering the two-stage design based on Atkinson and Brown methods.||61|38|
82642719|NCT00127192|165000915|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-3.3|||<|0.001||95.0|-3.9|-2.7||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.7|-3.9|<0.001
82642720|NCT00127192|165000915|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-2.6|||<|0.001||95.0|-3.2|-2.0||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-2.0|-3.2|<0.001
82642721|NCT00127192|165000916|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Tukeys linear trend test based on ANCOVA|Linear contrast including all groups was tested using ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline||||||<0.001
82642722|NCT00127192|165000916|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-1.04|||<|0.001||95.0|-1.21|-0.86||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, but the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.86|-1.21|<0.001
82642723|NCT00127192|165000916|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.96|||<|0.001||95.0|-1.14|-0.79||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.79|-1.14|<0.001
82642724|NCT00127192|165000916|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.99|||<|0.001||95.0|-1.16|-0.82||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.82|-1.16|<0.001
82642725|NCT00127192|165000916|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.69|||<|0.001||95.0|-0.85|-0.52||No multiplicity adjustment was done between trend test of primary analysis and pairwise comparisons, the multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-0.52|-0.85|<0.001
82642726|NCT00127192|165000917|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-23.2|||<|0.001||95.0|-29.8|-16.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-16.6|-29.8|<0.001
82642727|NCT00127192|165000917|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-20.8|||<|0.001||95.0|-27.4|-14.3||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-14.3|-27.4|<0.001
82642728|NCT00127192|165000917|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-17.7|||<|0.001||95.0|-24.2|-11.2||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-11.2|-24.2|<0.001
82642729|NCT00127192|165000917|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-15.9|||<|0.001||95.0|-22.3|-9.6||Multiplicity among pairwise comparisons of sitagliptin groups against placebo was adjusted by Bonferroni method in post-hoc manner.|Pairwise comparison based on ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used for pairwise comparison|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to estimate difference of two groups and its 95% confidence interval|||-9.6|-22.3|<0.001
82392788|NCT00191282|164497225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.866||95.0|||||Log Rank|||To achieve 80% power, 490 pts need to experience primary combined CV outcome to detect diff. between treatments, assuming: \>=18.5% reduction in incidence of outcomes, 18 mo. pt recruitment, 18 mo. pt follow-up, 10% annual drop-out rate, 2-yr outcome incidence rate of \>=40% (pts in least efficacious treatment), and nominal 2-sided signif. of 0.045.||||0.866
82575189|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|19.3||||0.0435|TWO_SIDED|95.0|4.7|34.0||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||34|4.7|0.0435
82364666|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0007|TWO_SIDED|95.0|1.33|2.88|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.88|1.33|0.0007
82364667|NCT02697773|164439210|SUPERIORITY|The two comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus placebo and tanezumab 2.5/5 mg treatment group versus placebo) were adjusted for multiple comparisons using the Hochberg procedure and an overall significance level of 0.05.|Odds Ratio (OR)|1.89||||0.001|TWO_SIDED|95.0|1.29|2.76|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.76|1.29|0.0010
82364668|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0411|TWO_SIDED|95.0|1.02|2.31|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.02|0.0411
82364669|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.72||||0.009|TWO_SIDED|95.0|1.14|2.57|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|1.14|0.0090
82364670|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.6||||0.1149|TWO_SIDED|95.0|0.89|2.86|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.86|0.89|0.1149
82364671|NCT02697773|164439210|SUPERIORITY||Odds Ratio (OR)|1.56||||0.1351|TWO_SIDED|95.0|0.87|2.79|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.79|0.87|0.1351
82364672|NCT02697773|164439210|SUPERIORITY|The two comparisons for 'Participants with ≥50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus placebo and tanezumab 2.5/5 mg treatment group versus placebo) were adjusted for multiple comparisons using the Hochberg procedure and an overall significance level of 0.05.|Odds Ratio (OR)|2.17|||<|0.0001|TWO_SIDED|95.0|1.48|3.16|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.16|1.48|<.0001
82364673|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0001|TWO_SIDED|95.0|1.45|3.11|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.11|1.45|0.0001
82392789|NCT00191282|164497226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.715||95.0|||||Log Rank|||||||0.715
82392790|NCT00191282|164497227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.914||95.0|||||Log Rank|||||||0.914
82642730|NCT00203892|165000918|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.028
82642731|NCT00203892|165000919|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||||||>0.99
82364674|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.59|3.4|||Regression, Logistic|||Week 2, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.40|1.59|<.0001
82364675|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0312|TWO_SIDED|95.0|1.04|2.39|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.39|1.04|0.0312
82364676|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0003|TWO_SIDED|95.0|1.4|3.19|||Regression, Logistic|||Week 2, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.19|1.40|0.0003
82364677|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0005|TWO_SIDED|95.0|1.48|4.01|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.01|1.48|0.0005
82392791|NCT00191282|164497228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.706||95.0|||||Log Rank|||||||0.706
82392792|NCT00191282|164497229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.982||95.0|||||Log Rank|||||||0.982
82392793|NCT00191282|164497230|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.816||95.0|||||Log Rank|||||||0.816
82392794|NCT00191282|164497231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.948||95.0|||||Log Rank|||||||0.948
82392795|NCT00191282|164497232|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.581||95.0|||||Log Rank|||||||0.581
82392796|NCT00191282|164497233|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.647||95.0|||||Log Rank|||||||0.647
82392797|NCT00191282|164497234|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.525||95.0|||||Log Rank|||||||0.525
82392798|NCT00191282|164497235|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8||95.0|||||Log Rank|||||||0.800
82392799|NCT00191282|164497236|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.662||95.0|||||Log Rank|||||||0.662
82642732|NCT01139801|165000920|SUPERIORITY||Mean Difference (Final Values)|212.2||||0.037|TWO_SIDED|95.0|13.3|411.0|||t-test, 2 sided|||||411.0|13.3|0.037
82364678|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0006|TWO_SIDED|95.0|1.45|3.94|||Regression, Logistic|||Week 2, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.94|1.45|0.0006
82364679|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0436|TWO_SIDED|95.0|1.02|4.32|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.32|1.02|0.0436
82364680|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1348|TWO_SIDED|95.0|0.84|3.69|||Regression, Logistic|||Week 2, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.69|0.84|0.1348
82364681|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.58|3.36|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.36|1.58|<.0001
82364682|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.46|3.09|||Regression, Logistic|||Week 4, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.09|1.46|<.0001
82364683|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.62|3.57|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.57|1.62|<.0001
82392800|NCT00191282|164497237|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.863||95.0|||||Log Rank|||||||0.863
82364684|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.74|3.82|||Regression, Logistic|||Week 4, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.82|1.74|<.0001
82364685|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0003|TWO_SIDED|95.0|1.47|3.7|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.70|1.47|0.0003
82364686|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0001|TWO_SIDED|95.0|1.55|3.89|||Regression, Logistic|||Week 4, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.89|1.55|0.0001
82392801|NCT00191282|164497238|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.471||95.0|||||Log Rank|||||||0.471
82364687|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.02||||0.031|TWO_SIDED|95.0|1.07|3.82|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.82|1.07|0.0310
82364688|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0088|TWO_SIDED|95.0|1.24|4.34|||Regression, Logistic|||Week 4, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||4.34|1.24|0.0088
82364689|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.49||||0.036|TWO_SIDED|95.0|1.03|2.16|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|1.03|0.0360
82364690|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0039|TWO_SIDED|95.0|1.19|2.51|||Regression, Logistic|||Week 8, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.51|1.19|0.0039
82364691|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0002|TWO_SIDED|95.0|1.43|3.13|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.13|1.43|0.0002
82392802|NCT00191282|164497239|SUPERIORITY_OR_OTHER|||||||0.7168||95.0|||||Chi-squared|||||||0.7168
82392803|NCT00191282|164497241|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Chi-squared|||||||0.0860
82392804|NCT00191282|164497243|SUPERIORITY_OR_OTHER|||||||0.1424||95.0|||||Chi-squared|||||||0.1424
82392805|NCT00191282|164497246|SUPERIORITY_OR_OTHER|||||||0.1957||95.0|||||Chi-squared|||||||0.1957
82392806|NCT00191282|164497248|SUPERIORITY_OR_OTHER|||||||0.2434||95.0|||||Chi-squared|||||||0.2434
82392807|NCT00191282|164497250|SUPERIORITY_OR_OTHER|||||||0.2617||95.0|||||Chi-squared|||||||0.2617
82392808|NCT00710684|164497270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.279|TWO_SIDED|95.0|-1.9|0.5|||mixed model for repeated measures (MMRM)|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15mg versus placebo at Week 24||0.5|-1.9|0.279
82575190|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|24.4||||0.0068|TWO_SIDED|95.0|10.1|38.8||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||38.8|10.1|0.0068
82364692|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.77||||0.004|TWO_SIDED|95.0|1.2|2.62|||Regression, Logistic|||Week 8, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.62|1.20|0.0040
82364693|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0175|TWO_SIDED|95.0|1.1|2.74|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.74|1.10|0.0175
82364694|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.87||||0.0065|TWO_SIDED|95.0|1.19|2.94|||Regression, Logistic|||Week 8, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.94|1.19|0.0065
82364695|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0796|TWO_SIDED|95.0|0.94|3.23|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|0.94|0.0796
82364696|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0718|TWO_SIDED|95.0|0.95|3.27|||Regression, Logistic|||Week 8, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.27|0.95|0.0718
82642733|NCT00806416|165000922|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and the 70 mg alendronate market tablet, the GMR of the combination tablet/alendronate only tablet are contained within \[0.80,1.25\].|Least square mean ratio|1.03||||||90.0|0.91|1.17||||||If the true geometric mean ratio (GMR) for total urinary excretion of alendronate of 70 mg alendronate/vitamin D3 combination tablet with respect to alendronate alone is 1.00 then a sample size =208 provided 99% probability of yielding a 90% CI for the total urinary excretion GMR within the interval of \[0.80, 1.25\]. These calculations were based on the observed-pooled within-subject standard deviation (log scale) of 0.521 obtained from earlier Phase 1 studies.||1.17|0.91|
82642734|NCT00806416|165000923|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and a tablet containing 2800 IU vitamin D3, the geometric mean ratio (GMR) for AUC0-120 hr and Cmax, corrected for predose concentration, of the combination tablet/2800 IU vitamin D3 only tablet were contained within \[0.80,1.25\].|Least square mean ratio for AUC0-120 hr|0.88||||||90.0|0.81|0.95||||||If the true GMRs for AUC and Cmax for 70 mg alendronate/vitamin D3 combination tablet with respect to 2800 IU vitamin D3 alone were 1.00 then a sample size=28 provided \>99% probability of yielding a 90% CI for both AUC(0-120 hr) and Cmax GMRs within the interval of \[0.80, 1.25\]. The within-subject standard deviation of 0.14 ln ng•hr/mL for AUC(0-120 hr) (ng•hr/mL) and 0.14 ng/mL for Cmax was obtained from another phase 1 study.||0.95|0.81|
82642735|NCT00806416|165000924|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Administration of a 70 mg alendronate/2800 IU vitamin D3 final market combination tablet and a tablet containing 2800 IU vitamin D3, the geometric mean ratio (GMR) for AUC0-120 hr and Cmax, corrected for predose concentration, of the combination tablet/2800 IU vitamin D3 only tablet were contained within \[0.80,1.25\].|least-squares mean for Cmax|0.89||||||90.0|0.84|0.95||||||If the true GMR ratios for AUC and Cmax for 70 mg alendronate/vitamin D3 combination tablet with respect to 2800 IU vitamin D3 alone were 1.00 then a sample of N=28 provided \>99% probability of yielding a 90% CI for both AUC0-120 hr and Cmax GMRs within the interval of \[0.80, 1.25\]. The within-subject standard deviation of 0.14 ln ng•hr/mL for AUC0-120 hr (ng•hr/mL) and 0.14 ng/mL for Cmax was obtained from another phase 1 study.||0.95|0.84|
82364697|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0004|TWO_SIDED|95.0|1.36|2.96|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.96|1.36|0.0004
82527839|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|36.55|||<|0.001|TWO_SIDED|95.0|23.22|49.88||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||49.88|23.22|<0.001
82364698|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.78|3.93|||Regression, Logistic|||Week 12, \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.93|1.78|<.0001
82364699|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.11||||0.0001|TWO_SIDED|95.0|1.44|3.09|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.09|1.44|0.0001
82364700|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0002|TWO_SIDED|95.0|1.42|3.04|||Regression, Logistic|||Week 12, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.04|1.42|0.0002
82364701|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0003|TWO_SIDED|95.0|1.41|3.23|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.23|1.41|0.0003
82392809|NCT00710684|164497270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.012|TWO_SIDED|95.0|-2.7|-0.3|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35mg versus placebo at Week 24||-0.3|-2.7|0.012
82527840|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|9.83||||0.189|TWO_SIDED|95.0|-4.8|24.45||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.45|-4.80|0.189
82527841|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|26.97|||<|0.001|TWO_SIDED|95.0|14.0|39.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.94|14.00|<0.001
82527842|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|37.72|||<|0.001|TWO_SIDED|95.0|24.36|51.07||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.07|24.36|<0.001
82527843|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|10.97||||0.144|TWO_SIDED|95.0|-3.67|25.61||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - Acetaminophen) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||25.61|-3.67|0.144
82642736|NCT03387267|165000931|OTHER||AUC under ROC curve|0.64|||||ONE_SIDED|95.0||0.72||||||||0.72||
82642737|NCT03387267|165000932|OTHER||AUC under ROC curve|0.65|||||TWO_SIDED|||||||||||||
82642738|NCT03387267|165000933|OTHER||AUC under ROC curve|0.576|||||TWO_SIDED|||||||||||||
82364702|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.52|3.46|||Regression, Logistic|||Week 12, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.46|1.52|<.0001
82364703|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.09||||0.0113|TWO_SIDED|95.0|1.18|3.68|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.68|1.18|0.0113
82364704|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.19||||0.0064|TWO_SIDED|95.0|1.25|3.85|||Regression, Logistic|||Week 12, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.85|1.25|0.0064
82364705|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.58||||0.02|TWO_SIDED|95.0|1.07|2.31|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.31|1.07|0.0200
82364706|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0002|TWO_SIDED|95.0|1.43|3.14|||Regression, Logistic|||Week 16 \>=30%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.14|1.43|0.0002
82392810|NCT00710684|164497271|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.711|TWO_SIDED|95.0|-0.4|0.3|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||0.3|-0.4|0.711
82392811|NCT00710684|164497271|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.462|TWO_SIDED|95.0|-0.5|0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||0.2|-0.5|0.462
82392812|NCT00710684|164497272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.174|TWO_SIDED|95.0|-5.8|1.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||1.1|-5.8|0.174
82392813|NCT00710684|164497272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.776|TWO_SIDED|95.0|-3.6|2.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||2.7|-3.6|0.776
82392814|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.631|TWO_SIDED|95.0|-1.2|0.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||0.7|-1.2|0.631
82392815|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.006|TWO_SIDED|95.0|-2.2|-0.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||-0.4|-2.2|0.006
82392816|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.947|TWO_SIDED|95.0|-1.3|1.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||1.2|-1.3|0.947
82392817|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.057|TWO_SIDED|95.0|-2.5|0.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||0.0|-2.5|0.057
82392818|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.925|TWO_SIDED|95.0|-1.6|1.5|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||1.5|-1.6|0.925
82392819|NCT00710684|164497273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.024|TWO_SIDED|95.0|-3.1|-0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||-0.2|-3.1|0.024
82527844|NCT01216163|164751451|SUPERIORITY_OR_OTHER||Difference in proportion|26.97|||<|0.001|TWO_SIDED|95.0|14.0|39.94||p-value was calculated using CMH test, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Acetaminophen - Placebo) and its associated CI was calculated based on CMH adjusted proportions and the corresponding standard error.||39.94|14.00|<0.001
82527845|NCT01216163|164751452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.001|TWO_SIDED|95.0|0.78|0.96||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.96|0.78|<0.001
82527846|NCT01216163|164751452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.02|TWO_SIDED|95.0|0.05|0.45||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - Acetaminophen) and the associated CI were calculated based on the weighted Gamma statistic.||0.45|0.05|0.020
82527847|NCT01216163|164751452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|||<|0.001|TWO_SIDED|95.0|0.63|0.91||P-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Acetaminophen - Placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.91|0.63|<0.001
82527848|NCT02237508|164751454|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|138.87|||<|0.001|TWO_SIDED|90.0|129.09|149.39|||Mixed Models Analysis|||||149.39|129.09|<0.001
82527849|NCT02237508|164751454|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|136.18|||<|0.001|TWO_SIDED|90.0|126.13|147.04|||Mixed Models Analysis|||||147.04|126.13|<0.001
82527850|NCT02237508|164751455|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|119.73||||0.001|TWO_SIDED|90.0|109.4|131.03|||Mixed Models Analysis|||||131.03|109.40|0.001
82527851|NCT02237508|164751455|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|129.62|||<|0.001|TWO_SIDED|90.0|117.33|143.2|||Mixed Models Analysis|||||143.20|117.33|<0.001
82642739|NCT01102972|165000937|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be established between the two arms if the lower limit of the 2-sided 95% confidence interval (CI) for the difference in the percentage of participants with HIV-1 RNA \<50 copies/mL at Week 24 was -12% or greater.|Treatment difference of proportions|0.33||||0.937||95.0|-7.97|8.64||The p-value was obtained from the Cochran-Mantel-Haenszel method stratified by initial antiretroviral regimen.|Cochran-Mantel-Haenszel||95% confidence intervals were calculated (using Mantel-Haenszel weight) stratified by initial antiretroviral regimen.|||8.64|-7.97|0.937
82527852|NCT02237508|164751456|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|218.13|||<|0.001|TWO_SIDED|90.0|194.02|245.24|||Mixed Models Analysis|||||245.24|194.02|<0.001
82527853|NCT02237508|164751456|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|200.66|||<|0.001|TWO_SIDED|90.0|174.3|231.01|||Mixed Models Analysis|||||231.01|174.30|<0.001
82527854|NCT02237508|164751457|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|126.17|||<|0.001|TWO_SIDED|90.0|115.93|137.32|||Mixed Models Analysis|||||137.32|115.93|<0.001
82364707|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0005|TWO_SIDED|95.0|1.34|2.87|||Regression, Logistic|||Week 16 \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.34|0.0005
82364708|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0141|TWO_SIDED|95.0|1.11|2.56|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.56|1.11|0.0141
82364709|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0022|TWO_SIDED|95.0|1.26|2.87|||Regression, Logistic|||Week 16, \>=70%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.87|1.26|0.0022
82364710|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.42||||0.2286|TWO_SIDED|95.0|0.8|2.5|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.50|0.80|0.2286
82364711|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|1.47||||0.1808|TWO_SIDED|95.0|0.84|2.57|||Regression, Logistic|||Week 16, \>=90%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.57|0.84|0.1808
82364712|NCT02697773|164439212|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.57|3.36|||Regression, Logistic|||Week 16, \>=50%: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC physical function subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||3.36|1.57|<.0001
82364713|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.44||||0.1463|TWO_SIDED|95.0|0.88|2.34|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.34|0.88|0.1463
82364714|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9644|TWO_SIDED|95.0|0.6|1.62|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.62|0.60|0.9644
82364715|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0422|TWO_SIDED|95.0|1.02|2.59|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.59|1.02|0.0422
82527855|NCT02237508|164751457|EQUIVALENCE|"Z7200 was considered bioequivalent to the reference if the following criteria were satisfied:~* the 90%CI for the geometric mean AUC0-t ratio was within the interval 80.00% to 125.00% for both budesonide and formoterol, with and without charcoal blockade and~* the 90%CI for the geometric mean ratio for Cmax was within the wider bioequivalence acceptance limits of (69.84%, 143.19%) for budesonide and (71.92%, 139.04%) for formoterol, respectively with and without charcoal blockade."|Adjusted geometric means ratio|117.08||||0.004|TWO_SIDED|90.0|107.05|128.05|||Mixed Models Analysis|||||128.05|107.05|0.004
82527856|NCT01905046|164751477|SUPERIORITY||Odds Ratio (OR)|0.97||||0.951|TWO_SIDED|95.0|0.36|2.62|||Chi-squared|||||2.62|0.36|0.951
82364716|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1995|TWO_SIDED|95.0|0.85|2.16|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.16|0.85|0.1995
82364717|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.17||||0.4878|TWO_SIDED|95.0|0.75|1.84|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.84|0.75|0.4878
82364718|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7856|TWO_SIDED|95.0|0.68|1.67|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.67|0.68|0.7856
82364719|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0476|TWO_SIDED|95.0|1.0|2.39|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.39|1.00|0.0476
82364720|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0124|TWO_SIDED|95.0|1.12|2.63|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.63|1.12|0.0124
82364721|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.66||||0.0307|TWO_SIDED|95.0|1.05|2.62|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.62|1.05|0.0307
82364722|NCT02697773|164439214|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0846|TWO_SIDED|95.0|0.95|2.35|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline PGA of osteoarthritis, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||2.35|0.95|0.0846
82392820|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.387|TWO_SIDED|95.0|-0.4|0.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||0.1|-0.4|0.387
82527857|NCT00116272|164751496|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.77|||||TWO_SIDED|95.0|1.04|7.35|||||Adjusted oddds ratio for major structural defects in women exposed to etanercept in their 1st trimester versus not exposed computed using logistic regression adjusted for propensity score comprised of asthma and maternal height|||7.35|1.04|
82527858|NCT00116272|164751497|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37|||||TWO_SIDED|95.0|1.02|5.52|||||Adjusted oddds ratio for major structural defects in women exposed to etanercept in their 1st trimester versus not exposed computed using logistic regression adjusted for propensity score comprised of asthma and maternal height|||5.52|1.02|
82527859|NCT00116272|164751498|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.7|2.01|||||Unadjusted Odds Ratio computed using logistic regression. No adjusted estimate was computed due to no confirmed confounder.|||2.01|0.70|
82527860|NCT00116272|164751500|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.2|1.12|||||Adjusted HR computed using Cox proportional hazards regression adjusted for propensity score comprised of referral source (3 categories: OTIS, Pharmaceutical Company/Sponsor/HCP, Patient Support Group/Internet/Other), and maternal height.|||1.12|0.20|
82575191|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|12.8||||0.1236|TWO_SIDED|95.0|-2.0|27.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||27.6|-2|0.1236
82575192|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|15.8||||0.1056|TWO_SIDED|95.0|1.0|30.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||30.6|1|0.1056
82575193|NCT01888874|164859898|SUPERIORITY||Difference in percentage rates|34.4|||<|0.0001|TWO_SIDED|95.0|20.7|48.1||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||48.1|20.7|< 0.0001
82575194|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% Confidence Interval (CI) of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-diphtheria. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
82575195|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.14|2.07||||||Non-inferiority (Group 1 - Group 2); Anti-tetanus. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.07|-1.14|
82642740|NCT02222168|165000964|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|95.9|STANDARD_ERROR_OF_MEAN|50.7|||TWO_SIDED|90.0|72.593|126.682|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||126.682|72.593|
82527861|NCT00116272|164751501|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||TWO_SIDED|95.0|0.86|2.98|||||Adjusted HR computed using Cox proportional hazards regression adjusted for preeclampsia|||2.98|0.86|
82392821|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.018|TWO_SIDED|95.0|-0.5|-0.1|||MMRM|||SB-742457 35 mg versus placebo at Week 12||-0.1|-0.5|0.018
82392822|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.439|TWO_SIDED|95.0|-0.3|0.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||0.6|-0.3|0.439
82527862|NCT00116272|164751502|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-0.2|||||TWO_SIDED|95.0|-0.65|0.26|||||Computed using linear regression, directly adjusted for referral source (not collapsed), vitamin use (not collapsed), preeclampsia, and asthma because propensity score adjustment was not balanced.|||0.26|-0.65|
82527863|NCT00116272|164751503|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|21.79|||||TWO_SIDED|95.0|-83.32|126.91|||||Computed using linear regression, directly adjusted for asthma, RA2 severity score at 32 weeks, and disease severity score imputation indicator because propensity score adjustment was not balanced.|||126.91|-83.32|
82527864|NCT00116272|164751504|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.1|||||TWO_SIDED|95.0|-0.44|0.63|||||Computed using linear regression, adjusted for propensity score comprised of preeclampsia and asthma.|||0.63|-0.44|
82527865|NCT00116272|164751505|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|-0.09|||||TWO_SIDED|95.0|-0.43|0.26|||||Computed using linear regression, adjusted for maternal age (categorical).|||0.26|-0.43|
82527866|NCT00116272|164751506|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.22|1.05|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, referral source (OTIS, Sponsor/HCP, Patient Support Group/Internet/Other), PsO disease severity score at 32 weeks, \& disease severity imputation indicator|||1.05|0.22|
82575196|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.14|2.08||||||Non-inferiority (Group 1 - Group 2); Anti-polio 1. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.08|-1.14|
82642741|NCT02222168|165000964|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|82.13|STANDARD_ERROR_OF_MEAN|38.0|||TWO_SIDED|90.0|66.37|101.639|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||101.639|66.370|
82642742|NCT02222168|165000965|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|107.41|STANDARD_ERROR_OF_MEAN|18.2|||TWO_SIDED|90.0|96.697|119.318|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||119.318|96.697|
82642743|NCT02222168|165000965|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|94.88|STANDARD_ERROR_OF_MEAN|19.1|||TWO_SIDED|90.0|85.028|105.875|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||105.875|85.028|
82642744|NCT02222168|165000966|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 fed' was an Analysis of Variance (ANOVA ) model on the logarithmic scale.This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.|Ratio (Fed/Fasted)|107.41|STANDARD_ERROR_OF_MEAN|18.2|||TWO_SIDED|90.0|96.709|119.301|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: fed (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||119.301|96.709|
82642745|NCT02222168|165000966|OTHER|The statistical model used for the analysis of the endpoint comparing 'BI 409306 fasted' against 'BI 409306 at bed-time' was an Analysis of Variance (ANOVA ) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect treatment was considered as fixed.|Ratio (Bed time/Fasted)|94.92|STANDARD_ERROR_OF_MEAN|19.1|||TWO_SIDED|90.0|85.061|105.921|||||The estimated parameter was the adjusted geometric mean ratios \[%\] of BI 409306: at bed time (numerator), fasted (denominator). The standard deviation is the intra-individual geometric coefficient of variation \[%\].|No formal hypothesis was tested.||105.921|85.061|
82364723|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.0319|TWO_SIDED|95.0|-0.63|-0.03|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.03|-0.63|0.0319
82364724|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.0139|TWO_SIDED|95.0|-0.68|-0.08|||ANCOVA|||Week 1:Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.08|-0.68|0.0139
82364725|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.0011|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.25|-1.03|0.0011
82392823|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.336|TWO_SIDED|95.0|-0.6|0.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||0.2|-0.6|0.336
82392824|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.19|TWO_SIDED|95.0|-0.2|0.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||0.8|-0.2|0.190
82364726|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.0053|TWO_SIDED|95.0|-0.93|-0.16|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.16|-0.93|0.0053
82392825|NCT00710684|164497274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.787|TWO_SIDED|95.0|-0.5|0.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||0.4|-0.5|0.787
82392826|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.337|TWO_SIDED|95.0|-4.0|1.4|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||1.4|-4.0|0.337
82392827|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.596|TWO_SIDED|95.0|-1.7|3.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||3.0|-1.7|0.596
82527867|NCT00116272|164751507|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.31|1.68|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to the small number of events.|||1.68|0.31|
82527868|NCT00116272|164751508|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.4|1.57|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, referral source (OTIS, Sponsor/HCP, Patient Support Group/Internet/Other), PsO disease severity score at 32 weeks, \& disease severity imputation indicator|||1.57|0.40|
82527869|NCT00116272|164751509|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.2|||||TWO_SIDED|95.0|-7.59|7.99|||||Computed using linear regression, adjusted for propensity score comprised of maternal height, vitamin use, primary disease, RA disease severity score at 32 weeks, PsO disease severity score at intake \& 32 weeks, disease severity imputation indicators|||7.99|-7.59|
82527870|NCT00116272|164751510|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|1.53|||||TWO_SIDED|95.0|-5.76|8.81|||||Computed using linear regression, adjusted for propensity score comprised of maternal height, maternal age (categorical), and referral source (3 categories: OTIS, Pharmaceutical Company/Sponsor/HCP, Patient Support Group/Internet/Other).|||8.81|-5.76|
82527871|NCT00116272|164751511|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|0.27|||||TWO_SIDED|95.0|-6.12|6.65|||||Computed using linear regression. Directly adjusted for infant sex and other autoimmune diseases because propensity score adjustment was not balanced.|||6.65|-6.12|
82527872|NCT00116272|164751512|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.37|1.62|||||Computed using logistic regression, adjusted for propensity score comprised of maternal height, RA disease severity score at 32 weeks, and disease severity score imputation indicator.|||1.62|0.37|
82527873|NCT00116272|164751513|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.43|3.14|||||Computed using logistic regression, adjusted for propensity score comprised of country (U.S., Canada), primary disease, and maternal height.|||3.14|0.43|
82527874|NCT00116272|164751514|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.29|2.65|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to the small number of events.|||2.65|0.29|
82527875|NCT00116272|164751515|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.47|4.02|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to no confirmed confounder.|||4.02|0.47|
82527876|NCT00116272|164751517|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.65|1.69|||||Unadjusted Odds Ratio computed using logistic regression. An adjusted estimate was not computed due to no confirmed confounder.|||1.69|0.65|
82575197|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-polio 2. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
82642746|NCT02596009|165000967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.97|||<|0.0001|TWO_SIDED|95.0|23.7|30.24|||paired t-test|||||30.24|23.70|<0.0001
82392828|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.634|TWO_SIDED|95.0|-4.4|2.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 36||2.7|-4.4|0.634
82527877|NCT00576732|164751522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|2.18|<|0.001|TWO_SIDED|95.0|-12.19|-3.52||Type I error is preserved by the step down procedure, no multiple comparison adjustment is needed. A priori threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline ABC-I value|Mean difference is change in Risperidone high dose arm minus change in placebo arm.|"A step-down testing procedure was employed with the risperidone high dose versus placebo comparison tested first. If this comparison was significant the risperidone low dose versus placebo comparison would be performed.~A clinically relevant difference in the change from baseline on the ABC Irritability subscale was assumed to be 6 with a standard deviation of 8. To achieve 80% power with Type I error rate of 5%, 93 subjects were required."||-3.52|-12.19|<0.001
82392829|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1||||0.238|TWO_SIDED|95.0|-1.4|5.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||5.6|-1.4|0.238
82527878|NCT00576732|164751522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|2.17||0.164|TWO_SIDED|95.0|-7.36|1.27||Type I error is preserved by the step down procedure, no multiple comparison adjustment is needed. A priori threshold for statistical significance was 0.05.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline ABC-I value|Mean difference is change in Risperidone low dose arm minus change in placebo arm.|||1.27|-7.36|0.164
82527879|NCT00576732|164751523|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.004
82527880|NCT00576732|164751523|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.817
82527881|NCT00576732|164751524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.02|-0.33||P-value is not adjusted for multiple comparisons.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline CGI-S value.|Mean difference is change in Risperidone high dose arm minus change in placebo arm.|||-0.33|-1.02|<0.001
82527882|NCT00576732|164751524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.769|TWO_SIDED|95.0|-0.39|0.29||P-value is not adjusted for multiple comparisons.|ANCOVA|ANCOVA model included factors for treatment group, center (after pooling of small centers), baseline weight stratification, and baseline CGI-S value|Mean difference is change in Risperidone low dose arm minus change in placebo arm.|||0.29|-0.39|0.769
82642747|NCT02596009|165000967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.93|||<|0.0001|TWO_SIDED|95.0|49.15|58.72|||paired t-test|||||58.72|49.15|<0.0001
82392830|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.292|TWO_SIDED|95.0|-6.0|1.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||1.8|-6.0|0.292
82527883|NCT00576732|164751525|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||<0.001
82392831|NCT00710684|164497275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.161|TWO_SIDED|95.0|-1.0|6.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||6.2|-1.0|0.161
82575198|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.37|||||TWO_SIDED|95.0|-1.15|2.09||||||Non-inferiority (Group 1 - Group 2); Anti-polio 3. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.09|-1.15|
82392832|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.396|TWO_SIDED|95.0|-0.8|2.1|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 12||2.1|-0.8|0.396
82392833|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7||||0.019|TWO_SIDED|95.0|0.3|3.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 12||3.2|0.3|0.019
82392834|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.11|TWO_SIDED|95.0|-0.3|3.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||3.2|-0.3|0.110
82392835|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0||||0.024|TWO_SIDED|95.0|0.3|3.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||3.7|0.3|0.024
82392836|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.944|TWO_SIDED|95.0|-2.1|2.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo ate Week 36||2.0|-2.1|0.944
82392837|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.037|TWO_SIDED|95.0|0.1|3.8|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 36||3.8|0.1|0.037
82392838|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.705|TWO_SIDED|95.0|-1.9|2.9|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||2.9|-1.9|0.705
82392839|NCT00710684|164497276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.088|TWO_SIDED|95.0|-0.3|4.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||4.2|-0.3|0.088
82392840|NCT00710684|164497277|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.962|TWO_SIDED|95.0|-0.6|0.6|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 24||0.6|-0.6|0.962
82527884|NCT00576732|164751525|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value is not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test controlling for center (after pooling small centers) and baseline weight stratification.||||||0.985
82527885|NCT03857230|164751561|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline AUC0-192 were used to assess bioequivalence between Primapur and Gonal-F (bioequivalence range of 80.00% to 125.00%)|Geometric Mean Ratio (%)|93.31||||0.05|TWO_SIDED|90.0|87.25|99.79|||ANOVA|||Statistical comparison of the obtained results comprised the calculation of parametric bilateral 90 % CIs for the ratios of the corresponding mean values of the pharmacokinetic parameters of the study and comparator drug. The equivalence of the pharmacokinetics of the drug products will be proven if the limits of the evaluated CIs for the ratios of the mean values are in the range of 80.00-125.00%.||99.79|87.25|0.05
82392841|NCT00710684|164497277|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.134|TWO_SIDED|95.0|-0.1|1.0|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 24||1.0|-0.1|0.134
82392842|NCT00710684|164497277|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.782|TWO_SIDED|95.0|-1.0|0.7|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 15 mg versus placebo at Week 48||0.7|-1.0|0.782
82392843|NCT00710684|164497277|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.268|TWO_SIDED|95.0|-0.3|1.2|||MMRM|The MMRM model included fixed categorical terms for treatment, visit, treatment by visit interaction and country.||SB-742457 35 mg versus placebo at Week 48||1.2|-0.3|0.268
82392844|NCT02832375|164497288|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.577|-0.319|||ANCOVA|From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|H0= no difference between experimental dentifrice and control dentifrice H1= a difference between experimental dentifrice and control dentifrice||-0.319|-0.577|<0.0001
82392845|NCT06350461|164497291|NON_INFERIORITY|The non-inferiority margin is -3.|Median Difference (Final Values)|-0.324|||<|0.0001|TWO_SIDED|95.0|-1.3|0.6||One-sided test for non-inferiority|ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|The non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population.||0.6|-1.3|<0.0001
82392846|NCT06350461|164497292|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.733|TWO_SIDED|95.0|-0.4|0.4|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue|||0.4|-0.4|0.733
82392847|NCT06350461|164497293|SUPERIORITY||Mean Difference (Final Values)|-1.52||||0.226|TWO_SIDED|95.0|-4.1|0.9|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.9|-4.1|0.226
82364727|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.21||0.0014|TWO_SIDED|95.0|-1.08|-0.26|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.08|0.0014
82364728|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.17|-0.36|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.36|-1.17|0.0002
82364729|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.33|-0.49|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.49|-1.33|<.0001
82642748|NCT00903409|165000971|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The difference between Non-switchers and Switchers in the percent change in non-HDL-C level from the end of the OM6 double-blind study (average of Weeks 6 and 8 for the statistical analysis) to 4 months of OM6X open-label treatment (Month 4).|Kruskal-Wallis|||||||<0.001
82642749|NCT03539952|165000975|NON_INFERIORITY|The primary efficacy analysis utilized the serum NCC values from all study visits that were analyzed using a restricted maximum likelihood based general linear model for correlated data. The correlation due to repeated measures was modeled by specifying the variance covariance matrix. Considering a comparison of means in both treatment arms (D-penicillamine minus TETA 4HCl) at the 1-sided 2.5% level of Type 1 error, a non-inferiority margin of 50 μg/L was used.|Mean Difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|7.49|||TWO_SIDED|||||||||The primary endpoint was the assessment of the non-inferiority of TETA 4HCl in relation to D-penicillamine. The non-inferiority assessment was made on the basis of the mean serum NCC level at Week 36.||||
82642750|NCT01821391|165000980|SUPERIORITY||||||=|0.2665|||||||Paired Student's t test|||||||=0.2665
82642751|NCT01977482|165000996|SUPERIORITY_OR_OTHER||E0 (g/dL)|-0.664|||||TWO_SIDED|95.0|-0.96|-0.387|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-0.387|-0.960|
82642752|NCT01977482|165000996|SUPERIORITY_OR_OTHER||ED50 (milligrams[mg])|33.531|||||TWO_SIDED|95.0|15.566|48.948|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||48.948|15.566|
82642753|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Emax (g/dL)|5.234||||||95.0|2.691|7.94|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||7.940|2.691|
82642754|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Gamma|1.145|||||TWO_SIDED|95.0|0.748|1.738|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.738|0.748|
82392848|NCT06350461|164497294|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.857|TWO_SIDED|95.0|-1.8|2.1|||ANOVA|Adjusted for four dichotomous randomization strata|Direction of the difference is Discontinue - Continue|||2.1|-1.8|0.857
82392849|NCT06350461|164497295|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.16|TWO_SIDED|95.0|-0.25|1.54|||t-test, 2 sided||Direction of the difference is Discontinue - Continue|||1.54|-0.25|0.16
82642755|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Var|1.012|||||TWO_SIDED|95.0|0.84|1.234|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||1.234|0.840|
82642756|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Alpha|-0.206|||||TWO_SIDED|95.0|-0.397|-0.014|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||-0.014|-0.397|
82642757|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Minimally Effective Dose (MED) (mg)|0.418|||||TWO_SIDED|95.0|0.0|2.342|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||2.342|0.000|
82364730|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.36|-0.52|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.52|-1.36|<.0001
82392850|NCT06350461|164497296|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.56|TWO_SIDED|95.0|-1.04|0.57|||t-test, 2 sided||Direction of the difference is Discontinue - Continue|||0.57|-1.04|0.56
82392851|NCT06350461|164497297|SUPERIORITY||Difference in % Participants|1.1||||0.653|TWO_SIDED|95.0|-3.7|6.1|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants initiating acute antibiotics is the same in the Discontinue and Continue arms||6.1|-3.7|0.653
82642758|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Dose that achieves a change of -0.25g/dL|2.423|||||TWO_SIDED|95.0|0.0|4.15|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||4.150|0.000|
82392852|NCT06350461|164497298|SUPERIORITY||Difference in % Participants|0.5||||0.622|TWO_SIDED|95.0|-2.0|3.4|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one hospitalization is the same in Discontinue and Continue arms.||3.4|-2.0|0.622
82642759|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Target Dose (TD) (mg)|4.406|||||TWO_SIDED|95.0|2.544|5.995|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||5.995|2.544|
82642760|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.25 g/dL|6.43|||||TWO_SIDED|95.0|4.698|8.01|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||8.010|4.698|
82642761|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.5 g/dL|8.542|||||TWO_SIDED|95.0|6.931|10.523|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||10.523|6.931|
82642762|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Dose that achieves a change of 0.75 g/dL|10.8|||||TWO_SIDED|95.0|9.024|14.004|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||14.004|9.024|
82642763|NCT01977482|165000996|SUPERIORITY_OR_OTHER||Dose that achieves a change of 1 g/dL|13.248|||||TWO_SIDED|95.0|10.891|18.916|||||Posterior median and 95% credibility intervals were estimated using Bayesian methods.|||18.916|10.891|
82392853|NCT06350461|164497299|SUPERIORITY||Difference in % Participants|-1.1||||0.623|TWO_SIDED|95.0|-4.1|1.6|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one protocol-defined pulmonary exacerbation is the same in Discontinue and Continue arms.||1.6|-4.1|0.623
82527886|NCT03857230|164751562|EQUIVALENCE|The 90% CIs of the ratios of geometric means of log-transformed baseline Cmax were used to assess bioequivalence between Primapur and Gonal-F (bioequivalence range of 80.00% to 125.00%)|Geometric Mean Ratio (%)|87.93||||0.05|TWO_SIDED|90.0|82.85|93.33|||ANOVA|||||93.33|82.85|0.05
82527887|NCT00116844|164751576|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||<0.001
82392854|NCT06350461|164497300|SUPERIORITY||Difference in % Participants|11.7||||0.0165|TWO_SIDED|95.0|2.4|20.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one AE is the same in Discontinue and Continue arms.||20.7|2.4|0.0165
82392855|NCT06350461|164497301|SUPERIORITY||Rate Ratio|1.29||||0.0958|TWO_SIDED|95.0|0.96|1.74|||Poisson Regression|||Rate ratio, confidence interval, and p-value calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the HS-discontinue and HS-continue arms are 1135.7 and 1163.9 weeks, respectively. Ratio is Discontinue / Continue.||1.74|0.96|0.0958
82392856|NCT06350461|164497302|SUPERIORITY||Difference in % Participants|2.17||||0.1215|TWO_SIDED|95.0|-0.7|5.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.7|-0.7|0.1215
82392857|NCT00514904|164497308|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] greater than or equal to (≥) -10%.|Difference in percentage|14.77|||||TWO_SIDED|95.0|10.26|20.23||||||||20.23|10.26|
82392858|NCT00514904|164497308|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|24.47|||||TWO_SIDED|95.0|17.52|31.87||||||||31.87|17.52|
82392859|NCT00514904|164497308|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|6.35|||||TWO_SIDED|95.0|2.68|11.08|||Difference in percentage|||||11.08|2.68|
82392860|NCT00514904|164497308|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|23.92|||||TWO_SIDED|95.0|18.02|30.3||||||||30.3|18.02|
82392861|NCT00514904|164497309|NON_INFERIORITY|Criterion for assessment: upper limit of the two-sided standardized asymptotic 95% confidence interval (CI) for the ratio between Nimenrix Group and Mencevax ACWY Group being lower than or equal to the pre-defined clinical limit ratio of 3.0 in the percentage of subjects with any grade 3 general symptoms.|Risk Ratio (RR)|3.34||||0.2202|TWO_SIDED|95.0|0.56|20.25|||Chi-squared|||||20.25|0.56|0.2202
82392862|NCT03301740|164497351|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.2||||0.5|TWO_SIDED|95.0|0.8|1.7||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in intradialytic hypotension between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.7|0.8|0.5
82527888|NCT00116844|164751577|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||<0.001
82527889|NCT00116844|164751578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Prescott's method|||||||<0.001
82527890|NCT00116844|164751579|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||0.800
82527891|NCT00116844|164751580|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Nonparametric tests-Wilcoxon Rank Sum|||||||0.229
82642764|NCT03926728|165001046|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs D \[D1, D2\].||||1
82642765|NCT03926728|165001046|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs E \[E1, E2\].||||1
82642766|NCT03926728|165001046|OTHER|||||||0.0007|||||||Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs F \[F1, F2\].||||0.0007
82642767|NCT03926728|165001049|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs A2.||||1
82642768|NCT03926728|165001049|OTHER|||||||0.3956|||||||Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs F1.||||0.3956
82527892|NCT00116844|164751581|SUPERIORITY_OR_OTHER|||||||0.0331||95.0|||||Prescott's method|||||||0.0331
82527893|NCT02172625|164751604|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|26.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
82527894|NCT02172625|164751605|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|15.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
82527895|NCT02172625|164751609|SUPERIORITY_OR_OTHER||week-to-week coefficient of variation %|24.0|||||TWO_SIDED||||||||This was the week-to-week coefficient of variation (CV) obtained at baseline over two different weeks in a fasted state measured at rest.|||||
82527896|NCT03285295|164751625|SUPERIORITY||Clinical Specificity (%)|99.96|||||TWO_SIDED|95.0|99.92|99.99|||Binomial Distribution|Specificity sample size is a minimum of 15,000 donors.||||99.99|99.92|
82527897|NCT03285295|164751626|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.15|100.0|||Sensitivity|||||100.00|99.15|
82527898|NCT03285295|164751627|SUPERIORITY||Clinical Specificity (%)|99.99|||||TWO_SIDED|95.0|99.95|100.0|||Binomial Distribution|||||100.00|99.95|
82642769|NCT03926728|165001050|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs A2.||||1
82642770|NCT03926728|165001050|OTHER|||||||0.3956|||||||Fisher Exact|||Comparison: Cohort B \[B1, B2\] vs F1.||||0.3956
82642771|NCT03926728|165001052|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs D \[D1, D2\].||||1
82642772|NCT03926728|165001052|OTHER|||||||1||||||Simple nonparametric statistical test.|Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs E \[E1, E2\].||||1
82642773|NCT03926728|165001052|OTHER|||||||0.3229|||||||Fisher Exact|||Comparison: Cohort A-C \[A1, A2, B1, B2, C1, C2\] vs F \[F1, F2\].||||0.3229
82642774|NCT03993288|165001057|NON_INFERIORITY|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval for the mean value calculated by the least squares method did not exceed the predetermined boundary of non-inferiority of 5 g/L|Mean Difference (Net)|-0.24||||0.0032|TWO_SIDED|95.0|-4.86|4.38|||ANCOVA|||||4.38|-4.86|0.0032
82642775|NCT00915473|165001072|SUPERIORITY_OR_OTHER|||||||0.98|||||||Chi-squared|||||||0.98
82642776|NCT00915473|165001073|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||Severe Migraine Frequency||||0.52
82642777|NCT00915473|165001073|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||At least Moderate Migraine Frequency||||0.52
82642778|NCT00915473|165001073|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||At Least Mild Migraine Frequency||||0.47
82642779|NCT00915473|165001074|SUPERIORITY_OR_OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.90
82642780|NCT00915473|165001075|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||||||0.47
82642781|NCT01389024|165001076|SUPERIORITY||Incidence rate ratio|0.216||||0.2914|TWO_SIDED|90.0|0.009|1.66|||Poisson Regression||We calculated confidence intervals from exact Poisson regression.|||1.66|.009|0.2914
82642782|NCT00529802|165001082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.69|TWO_SIDED|95.0|-9.3|13.23|||t-test, 2 sided|Relative changes in tumor size were log-transformed to satisfy the normality assumption for the t-test.|Mean difference is the difference between Low and High SUV uptake groups in tumor size percent (%) change from baseline, and is reported on the raw scale. Tumor size changes were log-transformed for the t-test.|Relative changes in tumor size were log-transformed to satisfy the normality assumption.||13.23|-9.3|0.69
82642783|NCT00529802|165001083|SUPERIORITY_OR_OTHER||Slope|0.0028|STANDARD_ERROR_OF_MEAN|0.00109||0.013|TWO_SIDED|95.0|0.00063|0.004997|||Regression, Linear|Tumor size change (outcome variable) was log-transformed to satisfy the normality assumption.|Outcome was log(tumor size at 8 weeks/tumor size at baseline), and the predictor was the early change in aveSUVmax \[(aveSUVmax at 2 weeks - aveSUVmax at baseline)/aveSUVmax at baseline\] x 100%.|The relationship between early changes in SUV uptake (from baseline to 2 weeks) and tumor size changes (from baseline to 8 weeks) were examined using linear regression models. Tumor size change was log-transformed to satisfy the normality assumption.||0.004997|0.00063|0.013
82527899|NCT03285295|164751628|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.48|100.0|||Sensitivity|||||100.00|99.48|
82527900|NCT03285295|164751629|SUPERIORITY||Clinical Specificity (%)|99.92|||||TWO_SIDED|95.0|99.86|99.95|||Binomial Distribution|||||99.95|99.86|
82527901|NCT03285295|164751630|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
82642784|NCT00367679|165001084|SUPERIORITY_OR_OTHER||Percentage of participants with response|5.7||||||95.0|0.7|19.2|||||The estimated value given is the percentage of participants who had a response out of the total participants.|||19.2|0.7|
82642785|NCT00367679|165001085|SUPERIORITY_OR_OTHER||Percentage of participants with response|8.6||||||95.0|1.8|23.1|||||The estimated value given is the percentage of participants who had a response out of the total participants.|||23.1|1.8|
82642786|NCT00367679|165001091|SUPERIORITY_OR_OTHER|||||||0.0028||95.0||||VEGF D|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0028
82642787|NCT00367679|165001091|SUPERIORITY_OR_OTHER|||||||0.0324||95.0||||VEGF A|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0324
82642788|NCT00367679|165001091|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||VEGFR-2|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0082
82642789|NCT00367679|165001091|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||c-KIT|t-test, 2 sided|Post- versus pretreatment expression levels for each of the indicated genes in response to pazopanib treatment||||||0.0082
82642790|NCT00367679|165001097|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Vascular endothelial growth factor receptor 2 (VEGFR2)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||<0.01
82642791|NCT00367679|165001097|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Placental growth factor (PIGF)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||<0.01
82642792|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.00024||95.0||||Interferon-inducible cytokine (IP-10)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.00024
82642793|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.0029||95.0||||Cutaneous T-cell attracting chemokine (CTACK)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0029
82642794|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.0062||95.0||||Stromal cell-derived factor 1 (SDF-1alpha)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0062
82527902|NCT03285295|164751631|SUPERIORITY||Clinical Specificity (%)|99.92|||||TWO_SIDED|95.0|99.87|99.96|||Binomial Exact|||||99.96|99.87|
82527903|NCT03285295|164751632|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.72|100.0|||Sensitivity|||||100.00|99.72|
82527904|NCT03285295|164751633|SUPERIORITY||Clinical Specificity (%)|99.9|||||TWO_SIDED|95.0|99.84|99.94|||Binomial Exact|||||99.94|99.84|
82527905|NCT03285295|164751634|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
82527906|NCT03285295|164751635|SUPERIORITY||Clinical Specificity (%)|99.98|||||TWO_SIDED|95.0|99.94|100.0|||Binomial Exact|||||100.00|99.94|
82527907|NCT03285295|164751636|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|98.85|100.0|||Sensitivity|||||100.00|98.85|
82642795|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.0069||95.0||||Monokine induced by interferon gamma (MIG)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0069
82642796|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||Tumor necrosis factor ligand (TRAIL)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.0093
82642797|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Interferon alpha 2 (IFN-alpha2)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.021
82642798|NCT00367679|165001097|SUPERIORITY_OR_OTHER|||||||0.326||95.0||||Vascular endothelial growth factor (VEGF)|Wilcoxon (Mann-Whitney)|Post- versus pretreatment change in levels of cytokines and angiogenic factors in response to pazopanib treatment||||||0.326
82642799|NCT00315328|165001107|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination).||||0.96
82364731|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.23||0.0015|TWO_SIDED|95.0|-1.16|-0.28|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.28|-1.16|0.0015
82364732|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.22||0.0023|TWO_SIDED|95.0|-1.12|-0.24|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.24|-1.12|0.0023
82527908|NCT03285295|164751641|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|95.98|100.0|||Sensitivity|||Sensitivity||100.00|95.98|
82642800|NCT00315328|165001108|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests used to assess treatment group differences in change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination) among those with anisometropia only.||||0.78
82642801|NCT00315328|165001109|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the change in Randot Preschool stereoacuity levels ( from baseline to the outcome examination) among patients with strabismus or combined mechanism only.||||0.99
82642802|NCT00315328|165001110|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||To evaluate WITHIN each treatment group whether stereoacuity changed from baseline to outcome a Wilcoxon sign-rank test was performed to evaluate whether the distribution of change from baseline was zero||||.04
82642803|NCT00315328|165001110|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||To evaluate WITHIN each treatment group whether stereoacuity changed from baseline to outcome a Wilcoxon sign-rank test was performed to evaluate whether the distribution of change from baseline was zero||||0.003
82642804|NCT00315328|165001111|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Positive mean favors atropine group.||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Social Stigma subscale.||||<0.01
82642805|NCT00315328|165001112|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Positive mean favors atropine group.||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Compliance subscale.||||<0.01
82364733|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.23||0.0512|TWO_SIDED|95.0|-0.89|0.0|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||0.00|-0.89|0.0512
82364734|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.22||0.0693|TWO_SIDED|95.0|-0.85|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||0.03|-0.85|0.0693
82527909|NCT03285295|164751643|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|92.75|100.0|||Sensitivity|||Sensitivity||100.00|92.75|
82527910|NCT03285295|164751644|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|94.87|100.0|||Sensitivity|||Sensitivity||100.00|94.87|
82527911|NCT03285295|164751645|OTHER|95% Confidence Interval provided.|Point Estimate|98.65|||||TWO_SIDED|95.0|95.2|99.84|||Sensitivity|||Sensitivity||99.84|95.20|
82527912|NCT02714868|164751671|OTHER|||||||0.05|||||||t-test, 2 sided|||For goal attainment, we calculated independent t-tests to compare GAS t-scores across groups at outcome. Lowest score is 0, highest score is 100. 100 is highest goal attainment.||||.05
82527913|NCT00981474|164751677|SUPERIORITY||Risk Ratio (RR)|0.96||||0.752|TWO_SIDED|95.0|0.82|1.121|||Chi-squared|||||1.121|.82|.752
82642806|NCT00315328|165001113|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to assess treatment group differences in the parent questionnaire subscale scores at 17 weeks - Adverse events subscale.||||0.70
82642807|NCT00315328|165001114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||||95.0|-0.03|0.17||||||95% confidence interval constructed on the treatment group difference in proportion with amblyopic eye visual acuity 20/25 or better at 17 weeks.||0.17|-0.03|
82642808|NCT00315328|165001116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||||95.0|-0.02|0.18||||||95% confidence interval constructed on the treatment group difference of the proportion improving 15 or more letters from baseline to 17 weeks.||0.18|-0.02|
82364735|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.24||0.0043|TWO_SIDED|95.0|-1.14|-0.21|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.21|-1.14|0.0043
82364736|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.0041|TWO_SIDED|95.0|-1.13|-0.21|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.21|-1.13|0.0041
82364737|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0024|TWO_SIDED|95.0|-1.19|-0.26|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.26|-1.19|0.0024
82527914|NCT00981474|164751678|SUPERIORITY||Risk Ratio (RR)|0.55||||0.053|TWO_SIDED|95.0|0.32|0.93|||Chi-squared|||||.93|.32|.053
82527915|NCT00981474|164751679|SUPERIORITY||Risk Ratio (RR)|0.454||||0.149|TWO_SIDED|95.0|0.18|1.17|||Chi-squared|||||1.17|.18|.149
82527916|NCT00981474|164751680|SUPERIORITY||Hazard Ratio (HR)|0.581||||0.144|TWO_SIDED|95.0|0.3|1.13|||Chi-squared|||||1.13|.30|.144
82527917|NCT00981474|164751681|SUPERIORITY||Risk Ratio (RR)|0.724||||0.439|TWO_SIDED|95.0|0.37|1.41|||Chi-squared|||||1.41|.37|.439
82527918|NCT00981474|164751682|SUPERIORITY||Risk Ratio (RR)|0.872||||0.311|TWO_SIDED|95.0|0.69|1.11|||Chi-squared|||||1.11|.69|.311
82364738|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.24||0.0015|TWO_SIDED|95.0|-1.22|-0.29|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.29|-1.22|0.0015
82364739|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.25||0.0063|TWO_SIDED|95.0|-1.16|-0.19|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.19|-1.16|0.0063
82364740|NCT02697773|164439215|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.24||0.0008|TWO_SIDED|95.0|-1.3|-0.34|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline diary average pain as covariate, and study site as a random effect.||-0.34|-1.30|0.0008
82364741|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.61|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.61|-1.47|<.0001
82392863|NCT03301740|164497352|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Beta coefficient|-2.8||||0.2|TWO_SIDED|95.0|-6.9|1.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in troponin T change between UF profiling and conventional HD. Repeated measure linear regression was performed, giving each subject a random intercept term. The coefficient is the difference in the outcome between UF profiling and conventional HD.||1.4|-6.9|0.2
82527919|NCT00981474|164751683|SUPERIORITY||Risk Ratio (RR)|0.247||||0.103|TWO_SIDED|95.0|0.005|1.18|||Fisher Exact|Fisher exact test used due to the small number of events.||||1.18|.005|.103
82527920|NCT00981474|164751684|SUPERIORITY||Risk Ratio (RR)|1.102||||0.608|TWO_SIDED|95.0|0.81|1.5|||Chi-squared|||||1.5|.81|.608
82364742|NCT02697773|164439217|SUPERIORITY||Least Mean Square Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.62|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.62|-1.47|<.0001
82527921|NCT00981474|164751685|SUPERIORITY||Risk Ratio (RR)|0.564||||0.541|TWO_SIDED|95.0|0.16|1.97|||Fisher Exact|Fisher exact test used due to the small number of events.||||1.97|.16|.541
82527922|NCT00981474|164751686|SUPERIORITY||Risk Ratio (RR)|0.247||||0.103|TWO_SIDED|95.0|0.05|1.18|||Fisher Exact|Fisher exact test used due to small number of events.||||1.18|.05|.103
82527923|NCT00981474|164751687|SUPERIORITY||Risk Ratio (RR)|0.409||||0.129|TWO_SIDED|95.0|0.15|1.14|||Chi-squared|||||1.14|.15|.129
82527924|NCT00708526|164751688|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|A Bonferroni correction was used.||We compared times for discharge criteria after general anesthesia with and without the QED.||||>0.05
82527925|NCT00708526|164751689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||t-test, 2 sided|||The effect of the use of hypercapnia and increased ventilation on the time to recovery events was compared using multivariate analysis of variance with the Hotelling's two sample T2.-test and the two-tailed unpaired t-test; individual comparisons were by Bonferroni adjusted two tailed unpaired t-tests. The data was tested for normality before identifying statistical significance.||||0.039
82642809|NCT00315328|165001117|NON_INFERIORITY_OR_EQUIVALENCE|Treatment equivalence was to be declared if the ends of the 2 1-sided 95% confidence intervals constructed on the difference between adjusted mean visual acuity scores were completely contained within the designated equivalence interval of +/- 5 letters.|Mean Difference (Net)|1.2||||||95.0|-0.7|3.1|||ANCOVA|||The trial was designed to evaluate whether patching and atropine are equivalent treatments for amblyopia in children 7 to 12 years old. The sample size was computed based on a standard deviation of 17-week visual acuity scores of 10 letters, correlation between outcome and baseline visual acuity scores of 0.30 and 10% loss to follow up.||3.1|-0.7|
82642810|NCT00315328|165001120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|0.4|2.2|||ANCOVA|||95% confidence interval constructed on the treatment group difference of mean change in fellow eye visual acuity from baseline to 17 weeks, adjusted for baseline fellow eye visual acuity.||2.2|0.4|
82642811|NCT00448630|165001124|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||We hypothesize that atypical antipsychotic therapy effects the metabolic syndrome parameters, particularly body mass index.||||<0.001
82642812|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.490
82642813|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642814|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.006
82642815|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642816|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.003
82392864|NCT03301740|164497353|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.5||||0.1|TWO_SIDED|95.0|0.2|1.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in troponin T rise between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.3|0.2|0.1
82392865|NCT03301740|164497354|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Mean Difference (Final Values)|-0.8||||0.2|TWO_SIDED|95.0|-2.0|0.5||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in left ventricular GLS change between UF profiling and conventional HD. Wilcoxon (Mann-Whitney) tests were performed assessing the difference of the endpoint between the 2 treatment groups.||0.5|-2.0|0.2
82392866|NCT03301740|164497355|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Beta coefficient|-0.2||||0.9|TWO_SIDED|95.0|-2.0|1.7||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in nadir systolic BP between UF profiling and conventional HD. Repeated measure linear regression was performed, giving each subject a random intercept term. The coefficient is the difference in the outcome between UF profiling and conventional HD.||1.7|-2.0|0.9
82527926|NCT01175148|164751700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15|||<|0.05|TWO_SIDED||||||Fisher Exact|||The study used a minimax Simon two-stage design to test the null hypothesis Ho: P \> 0.35 versus the alternative H1: \< 0.15, where P is the probability of grade 2 to 4 acute GVHD at day + 100.||||<0.05
82642817|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642818|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.050
82642819|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0012
82642820|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0078
82642821|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
82642822|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0133
82642823|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0142||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0142
82642824|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0265||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0265
82642825|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1613||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1613
82642826|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2644||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2644
82642827|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||5e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000005
82642828|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7385||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7385
82642829|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
82642830|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6813||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6813
82642831|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0024
82642832|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2237||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2237
82642833|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5774||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5774
82642834|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000001
82642835|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2502||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2502
82642836|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5224||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5224
82364743|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.67|-0.81|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.81|-1.67|<.0001
82364744|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.66|-0.8|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.80|-1.66|<.0001
82364745|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.23||0.0007|TWO_SIDED|95.0|-1.25|-0.33|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.33|-1.25|0.0007
82364746|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.23||0.0013|TWO_SIDED|95.0|-1.2|-0.29|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-1.20|0.0013
82364747|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.51|-0.55|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.55|-1.51|<.0001
82364748|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.67|-0.73|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.73|-1.67|<.0001
82392867|NCT03301740|164497356|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||0.8|TWO_SIDED|95.0|0.7|1.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in failed target weight achievement between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.3|0.7|0.8
82392868|NCT03301740|164497357|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||0.9|TWO_SIDED|95.0|0.4|2.1||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important cramping between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.1|0.4|0.9
82642837|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
82642838|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
82642839|NCT00448630|165001125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8166||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8166
82364749|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.25||0.0007|TWO_SIDED|95.0|-1.32|-0.35|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.32|0.0007
82364750|NCT02697773|164439217|SUPERIORITY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.48|-0.51|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC stiffness subscales and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.48|<.0001
82527927|NCT01010477|164751701|SUPERIORITY_OR_OTHER|||||||0.632||||||threshold for statistical significance: p\< 0.05|Fisher Exact|||Fisher Exact test (2-sided)||||0.632
82642840|NCT00448630|165001126|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||We hypothesize that atypical antipsychotic therapy effects the metabolic syndrome parameters, particularly body mass index.||||<0.001
82642841|NCT00448630|165001127|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||<0.001
82642842|NCT00448630|165001128|SUPERIORITY_OR_OTHER_LEGACY|||||||0.544||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.544
82642843|NCT00448630|165001129|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.245
82642844|NCT00448630|165001130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.362
82642845|NCT00448630|165001131|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||0.176
82642846|NCT00448630|165001132|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time (Baseline, 1 month, 4 months).||||<0.001
82392869|NCT03301740|164497358|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.7||||0.5|TWO_SIDED|95.0|0.2|2.2||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important nausea/upset stomach between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.2|0.2|0.5
82392870|NCT03301740|164497359|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.1|16.0|||Mixed Models Analysis|||Null hypothesis = no difference in clinically important Vomiting/throwing up score between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||16.0|0.1|1.0
82392871|NCT03301740|164497360|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.2||||0.04|TWO_SIDED|95.0|0.1|0.9||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important dizziness/lightheadedness between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||0.9|0.1|0.04
82392872|NCT03301740|164497361|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|3.1||||0.3|TWO_SIDED|95.0|0.3|32.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important racing heart/heart palpitations between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||32.4|0.3|0.3
82392873|NCT03301740|164497362|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.2|6.0||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important chest pain between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.0|0.2|1.0
82527928|NCT00431184|164751702|SUPERIORITY_OR_OTHER|||||||0.22|||||||Mixed Models Analysis|||||||0.22
82527929|NCT00431184|164751703|SUPERIORITY_OR_OTHER|||||||0.83|||||||Mixed Models Analysis|||||||0.83
82527930|NCT01187329|164751712|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.11|TWO_SIDED|97.5|-2.87|0.48|||t-test, 2 sided|||||0.48|-2.87|0.11
82642847|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.524||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.524
82642848|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642849|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.005
82642850|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642851|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.009
82642852|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642853|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.047
82642854|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0007
82364751|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.22|-0.41|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.22|<.0001
82364752|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.29|-0.48|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.48|-1.29|<.0001
82364753|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.46|-0.63|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.63|-1.46|<.0001
82364754|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.49|-0.66|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.66|-1.49|<.0001
82364755|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.22||0.0024|TWO_SIDED|95.0|-1.12|-0.24|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-1.12|0.0024
82364756|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.0078|TWO_SIDED|95.0|-1.03|-0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-1.03|0.0078
82364757|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.35|-0.43|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-1.35|0.0002
82364758|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.5|-0.57|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.57|-1.50|<.0001
82364759|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0034|TWO_SIDED|95.0|-1.16|-0.23|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-1.16|0.0034
82364760|NCT02697773|164439219|SUPERIORITY||Least Square Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24||0.0003|TWO_SIDED|95.0|-1.33|-0.4|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.33|0.0003
82392874|NCT03301740|164497363|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.3||||0.7|TWO_SIDED|95.0|0.3|6.5||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important shortness of breath between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.5|0.3|0.7
82426353|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Linoleic acid (18:2n-6) mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-3.4|0.9||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.9|-3.4|<0.001
82527931|NCT01187329|164751713|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.007|TWO_SIDED|97.5|-0.3|-0.01|||t-test, 2 sided|paired t-test||||-0.01|-0.3|0.007
82642855|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0057||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0057
82642856|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00009
82642857|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0201||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0201
82642858|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0095||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0095
82642859|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0386
82642860|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1976||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1976
82642861|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2383||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2383
82642862|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||2e-05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00002
82642863|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8297||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8297
82392875|NCT03301740|164497364|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.6||||0.2|TWO_SIDED|95.0|0.3|1.2||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important thirst/dry mouth between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||1.2|0.3|0.2
82392876|NCT03301740|164497365|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.9||||0.8|TWO_SIDED|95.0|0.4|2.3||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important headache between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.3|0.4|0.8
82448848|NCT00746863|164604998|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A t-test was used in comparing the intervention and control groups, if continuous variables were approximately normal. If data were not approximately normal, a Mann-Whitney Wilcoxon test was used in comparing the two groups. Normality of continuous variables was assessed using the Shapiro-Wilk test. For categorical data, Fisher's exact test was used to evaluate the data. A Bonferroni correction was used when evaluating the VAS results to adjust for multiple comparisons.||||0.435
82642864|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9081||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9081
82642865|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7386
82642866|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0024
82642867|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2587||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2587
82642868|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6263||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6263
82642869|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-06||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.000001
82642870|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2589||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2589
82642871|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5153||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5153
82642872|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0003
82642873|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0005
82642874|NCT00448630|165001133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8952||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8952
82642875|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.197
82642876|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.010
82642877|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.012
82642878|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642879|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.282||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.282
82642880|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.040
82642881|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.004
82642882|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0193||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0193
82642883|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0065||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0065
82642884|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
82642885|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3172||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3172
82642886|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0116||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0116
82642887|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0016
82642888|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2600
82642889|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2309||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2309
82642890|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0063
82642891|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8158||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8158
82575199|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.48|1.4||||||Non-inferiority (Group 1 - Group 2); Anti-PRP. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||1.40|-1.48|
82575200|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|-0.56|||||TWO_SIDED|95.0|-3.93|2.69||||||Non-inferiority (Group 1 - Group 2); Anti-PT. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||2.69|-3.93|
82642892|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3968||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3968
82575201|NCT01411241|164859909|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the difference is greater than -10% for all antigens. Wilson score (without continuity adjustment) 95% two-sided CI was used for the difference of seroprotection/booster rates.|Difference in percentage|-0.36|||||TWO_SIDED|95.0|-4.87|4.06||||||Non-inferiority (Group 1 - Group 2); Anti-FHA. Non-inferiority of Pentaxim booster dose based on seroprotection/booster response was assessed 28 days after injection.||4.06|-4.87|
82575202|NCT02980042|164859919|SUPERIORITY||Risk Ratio (RR)|0.6616||||0.1996|TWO_SIDED|95.0|0.3666|1.1942|||Generalized estimating equations|GEE was necessary because there are repeated measures on subjects.|This is comparing the Switching group to the Comparator group|||1.1942|.3666|0.1996
82575203|NCT02980042|164859920|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.5299|1.8872|||Generalized estimating equations|GEE was used because there are repeated measures on subjects|Comparing Switching group Day 1 to combined Comparator group|||1.8872|.5299|1.0000
82642893|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7193||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7193
82575204|NCT02980042|164859920|SUPERIORITY||Risk Ratio (RR)|0.2857||||0.0053|TWO_SIDED|95.0|0.1006|0.8114|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.|Switching group Day 15 was compared to combined Comparator group.|||.8114|.1006|0.0053
82575205|NCT02980042|164859920|SUPERIORITY||Risk Ratio (RR)|0.8571||||0.6474|TWO_SIDED|95.0|0.4385|1.6753|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||1.6753|.4385|0.6474
82575206|NCT02980042|164859924|SUPERIORITY||Risk Ratio (RR)|0.2857||||0.0075|TWO_SIDED|95.0|0.1072|0.7613|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||.7613|.1072|0.0075
82575207|NCT02980042|164859924|SUPERIORITY||Risk Ratio (RR)|0.8571||||0.593|TWO_SIDED|95.0|0.4868|1.5093|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||1.5093|.4868|0.5930
82575208|NCT02980042|164859924|SUPERIORITY||Risk Ratio (RR)|3.0||||0.0209|TWO_SIDED|95.0|1.126|7.9932|||Generalized estimating equations|GEE was used because there are repeated measures on subjects.||||7.9932|1.1260|0.0209
82575209|NCT02980042|164859929|OTHER||Mean Difference (Net)|0.0||||0.005|TWO_SIDED|95.0|-27.05|-5.01||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.01|-27.05|0.005
82575210|NCT02980042|164859930|OTHER||Mean Difference (Net)|2.55|||<|0.0001|TWO_SIDED|95.0|1.54|3.56||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||3.56|1.54|<0.0001
82575211|NCT02980042|164859931|OTHER||Median Difference (Net)|8.58|||<|0.0001|TWO_SIDED|95.0|6.33|10.82||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||10.82|6.33|<0.0001
82575212|NCT02980042|164859932|OTHER||Mean Difference (Net)|-7.37|||<|0.0001|TWO_SIDED|95.0|-10.19|-4.55||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.55|-10.19|<0.0001
82575213|NCT02980042|164859933|OTHER||Mean Difference (Net)|44.32|||<|0.0001|TWO_SIDED|95.0|29.59|59.05||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||59.05|29.59|<0.0001
82642894|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0127
82642895|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2351||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2351
82642896|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5672||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5672
82642897|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.00009
82642898|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1774||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1774
82642899|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6082||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6082
82642900|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
82642901|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0014
82642902|NCT00448630|165001134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5587||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5587
82642903|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.077
82642904|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.039
82575214|NCT02980042|164859934|OTHER||Mean Difference (Net)|353.35||||0.0002|TWO_SIDED|95.0|175.23|531.46||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||531.46|175.23|0.0002
82642905|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.978||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.978
82575215|NCT02980042|164859935|OTHER||Mean Difference (Net)|176.9|||<|0.0001|TWO_SIDED|95.0|124.5|229.31||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||229.31|124.50|<0.0001
82575216|NCT02980042|164859936|OTHER||Mean Difference (Net)|0.19||||0.002|TWO_SIDED|95.0|0.07|0.32||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.32|0.07|0.0020
82575217|NCT02980042|164859937|OTHER||Mean Difference (Net)|0.55|||<|0.0001|TWO_SIDED|95.0|0.32|0.77||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.77|0.32|<0.0001
82575218|NCT02980042|164859938|OTHER||Mean Difference (Net)|-46.16||||0.0091|TWO_SIDED|95.0|-80.61|-11.72||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-11.72|-80.61|0.0091
82642906|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||<0.001
82642907|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.593||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.593
82575219|NCT02980042|164859939|OTHER||Mean Difference (Net)|55.26||||0.0002|TWO_SIDED|95.0|27.0|83.52||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||83.52|27.00|0.0002
82575220|NCT02980042|164859940|OTHER||Mean Difference (Net)|-17.24||||0.0044|TWO_SIDED|95.0|-28.96|-5.51||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.51|-28.96|0.0044
82575221|NCT02980042|164859941|OTHER||Mean Difference (Net)|16.01|||<|0.0001|TWO_SIDED|95.0|9.75|22.28||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||22.28|9.75|<0.0001
82575222|NCT02980042|164859942|OTHER||Mean Difference (Net)|429.08|||<|0.0001|TWO_SIDED|95.0|296.07|562.1||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||562.10|296.07|<0.0001
82575223|NCT02980042|164859943|OTHER||Mean Difference (Net)|1.23||||0.0101|TWO_SIDED|95.0|0.3|2.16||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.16|0.30|0.0101
82575224|NCT02980042|164859944|OTHER||Mean Difference (Net)|8.69|||<|0.0001|TWO_SIDED|95.0|4.87|12.52||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||12.52|4.87|<0.0001
82575225|NCT02980042|164859945|OTHER||Mean Difference (Net)|1.53|||<|0.0001|TWO_SIDED|95.0|1.04|2.03||Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 1 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 99.|Mean of post minus pre.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.03|1.04|<0.0001
82575226|NCT02980042|164859946|OTHER||Mean Difference (Net)|-33.17|||<|0.0001|TWO_SIDED|95.0|-38.91|-27.44||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-27.44|-38.91|<0.0001
82575227|NCT02980042|164859947|OTHER||Mean Difference (Net)|-0.62||||0.0008|TWO_SIDED|95.0|-0.98|-0.26||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.26|-0.98|0.0008
82642908|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.987||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.987
82642909|NCT00448630|165001135|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0||||P-value was not adjusted for multiple comparisons; p-values \< 0.05 were considered statistically significant.|Friedman|||Friedman's test was used to assess trends over time.||||0.174
82642910|NCT04662086|165001136|OTHER|||||||0.2||||||A p-value of \<0.05 would be considered statistically significant.|Linear mixed-effects regression model|||A generalized linear mixed effects model with parameterization was utilized to capture the difference in change in viral shedding at day 10 between treatment arms. SARS-CoV2 viral RNA CT values were transformed using a standard Reference curve.||||0.20
82642911|NCT04662086|165001137|OTHER||Hazard Ratio (HR)|0.6||||0.07|TWO_SIDED|95.0|0.34|1.04||A p-value of \<0.05 would be considered statistically significant.|Cox proportional hazards model|Two-sided Cox proportional hazards model adjusted for age, sex, and receipt of baseline receipt of monoclonal antibodies.||A two-sided log rank test at the 0.04999 level of significance for the final analysis required 78 events (i.e., sustained symptom resolution) to provide 80% power to detect a hazard ratio of 1.91. Based on previous outpatient COVID-19 trials at Stanford, assumed placebo and treatment arm median time to symptom resolution of 10 and 5 days, respectively, for a total sample size of 120 patients. Participants with missing data lasting through Day 28 were censored on Day 28.||1.04|0.34|0.07
82642912|NCT04662086|165001139|OTHER||Hazard Ratio (HR)|0.62||||0.05|TWO_SIDED|95.0|0.38|1.01|||Linear mixed-effects regression model|||||1.01|0.38|0.05
82642913|NCT04662086|165001140|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.34|1.01||||||||1.01|0.34|
82642914|NCT04662086|165001141|OTHER|||||||0.21||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||Difference in incidence of ED visits||||0.21
82642915|NCT04253756|165001146|NON_INFERIORITY|The margin of non-inferiority (Delta) was 5g/dl|Mean Difference (Final Values)|0.5||||0.87|TWO_SIDED||||||ANOVA|||||||0.87
82642916|NCT04253756|165001147|NON_INFERIORITY|The non-inferiority margin (Delta) was 10 minutes of run time, no other key parameters|Mean Difference (Final Values)|3.2||||0.32|TWO_SIDED||||||ANOVA|||||||0.32
82642917|NCT00568776|165001150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.71|TWO_SIDED|95.0|-0.14|0.21|||Mixed Models Analysis|||||0.21|-0.14|0.71
82642918|NCT00568776|165001151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|1.9||0.18|TWO_SIDED|95.0|-6.33|1.22|||Mixed Models Analysis|||||1.22|-6.33|0.18
82642919|NCT00568776|165001152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED|95.0|-0.06|0.36|||Mixed Models Analysis|||||0.36|-0.06|0.17
82642920|NCT00568776|165001153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|2.03||0.49|TWO_SIDED|95.0|-5.41|2.62|||Mixed Models Analysis|||||2.62|-5.41|0.49
82642921|NCT00568776|165001154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|2.2||0.77|TWO_SIDED|95.0|-3.73|5.03|||Mixed Models Analysis|||||5.03|-3.73|0.77
82642922|NCT00568776|165001155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.47||0.54|TWO_SIDED|95.0|-0.63|1.21|||Mixed Models Analysis|||||1.21|-0.63|0.54
82642923|NCT00568776|165001156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|2.24||0.65|TWO_SIDED|95.0|-3.43|5.46|||Mixed Models Analysis|||||5.46|-3.43|0.65
82642924|NCT01005680|165001157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.822|TWO_SIDED|95.0|0.77|1.39||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex, and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.39|0.77|0.822
82642925|NCT01005680|165001158|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.64|TWO_SIDED|95.0|0.82|1.37||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.37|0.82|0.640
82642926|NCT01005680|165001159|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.78|1.32||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and biases for initial pathological diagnosis.|Cox Proportional Hazard|||||1.32|0.78|0.928
82642927|NCT01005680|165001160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.887|TWO_SIDED|95.0|0.51|1.79||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.79|0.51|0.887
82642928|NCT01005680|165001161|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.861|TWO_SIDED|95.0|0.67|1.61||HR adjusted for treatment, disease stage, Eastern Cooperative Oncology Group Performance Status (ECOG PS), sex and basis for initial pathological diagnosis.|Cox Proportional Hazard|||||1.61|0.67|0.861
82642929|NCT01005680|165001162|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||two-sided Z test|||||||0.451
82642930|NCT01005680|165001164|SUPERIORITY_OR_OTHER|||||||0.627||95.0|||||two-sided Z test|||||||0.627
82642931|NCT01569074|165001255|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.23||||0.059|TWO_SIDED|80.0|0.07|0.39||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||0.39|0.07|0.059
82642932|NCT01569074|165001255|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.24||||0.054|TWO_SIDED|80.0|0.08|0.39||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.39|0.08|0.054
82642933|NCT01569074|165001255|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.06||||0.57|TWO_SIDED|80.0|-0.2|0.08||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.08|-0.20|0.570
82642934|NCT01569074|165001255|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.14||||0.262|TWO_SIDED|80.0|-0.02|0.29||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.29|-0.02|0.262
82527932|NCT01187329|164751714|SUPERIORITY||Median Difference (Final Values)|-0.6||||0.57|TWO_SIDED|95.0|-2.6|1.5|||t-test, 2 sided|||||1.5|-2.6|0.57
82642935|NCT01569074|165001256|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.11||||0.172|TWO_SIDED|80.0|0.01|0.21||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.21|0.01|0.172
82642936|NCT01569074|165001256|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.06||||0.489|TWO_SIDED|80.0|-0.05|0.18||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.18|-0.05|0.489
82642937|NCT01569074|165001256|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.03||||0.704|TWO_SIDED|80.0|-0.08|0.15||Week 1|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.15|-0.08|0.704
82527933|NCT01187329|164751715|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.45|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||||0.1|-0.2|0.45
82527934|NCT02296190|164751716|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||Statistical analysis was performed with the Fisher's exact test to compare the conversion rate between the MSP-2017 groups and the placebo group.||||<0.05
82527935|NCT03682705|164751721|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|90.0|-2.03|-0.85|||t-test, 2 sided|||Mixed-Effect Model Repeated Measure (MMRM) analysis was conducted, testing the superiority of the combination of upadacitinib 15 mg and elsubrutinib 60 mg compared to placebo at Week 12. Data collected after a participant discontinued study drug was considered as missing. The mixed model included the categorical fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline DAS28 (CRP) measurement.||-0.85|-2.03|<0.001
82527936|NCT00094328|164751743|OTHER|One sample t-test|Mean Difference (Final Values)|-1.62||||0.278|TWO_SIDED|95.0|-4.72|1.48|||t-test, 2 sided|||The primary efficacy parameter, change in growth rate (cm/year) after 12 months relative to the baseline growth rate was analysed using a one sample t-test. A 95% 2-sided confidence interval was calculated for the mean change in growth rate.||1.48|-4.72|0.278
82527937|NCT00094328|164751744|OTHER|One sample t-test|Median Difference (Final Values)|-0.07||||0.882|TWO_SIDED|95.0|-1.15|1.0|||t-test, 2 sided|||The primary efficacy parameter, change in growth rate (SD units) after 12 months relative to the baseline growth rate was analysed using a one sample t-test. A 95% 2-sided confidence interval was calculated for the mean change in growth rate.||1.00|-1.15|0.882
82527938|NCT01483937|164751752|SUPERIORITY_OR_OTHER|||||||0.533||95.0|||||ANOVA|||||||.533
82527939|NCT00402337|164751822|SUPERIORITY_OR_OTHER|||||||0.0337||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||0.0337
82527940|NCT00402337|164751822|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||0.0010
82527941|NCT00402337|164751822|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||<0.0001
82527942|NCT00402337|164751822|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null hypothesis is that the active treatment group is equal to the placebo group.||||<0.0001
82527943|NCT00682643|164751839|SUPERIORITY_OR_OTHER|||||||0.395||95.0||||Wald Chi-Square test based on a proportional hazards model adjusting for age and baseline value|Wald Chi-square|||||||0.395
82527944|NCT00682643|164751840|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||Wald Chi-Square test based on a proportional hazards model adjusting for age and baseline value|Wald Chi-square|||||||0.342
82527945|NCT00085202|164751886|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8001||95.0|||||Log Rank|||||||0.8001
82527946|NCT00085202|164751886|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5195||95.0|||||Log Rank|||||||0.5195
82527947|NCT00085202|164751886|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7696||95.0|||||Log Rank|||||||0.7696
82527948|NCT00085202|164751887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206||95.0|||||Log Rank|||||||0.0206
82527949|NCT00085202|164751889|SUPERIORITY|||||||0.6231|||||||t-test, 2 sided|||Change over time||||0.6231
82527950|NCT00085202|164751889|SUPERIORITY|||||||0.572|||||||t-test, 2 sided|||Baseline||||0.5720
82527951|NCT00658138|164751900|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation done - pilot study|Mean Difference (Final Values)|0.05||||0.05|||||||Wilcoxon (Mann-Whitney)|||Hypothesis was no difference between adhesives tested at one year. Restorations were scored using USPHS subjective clinical criteria.||||0.05
82527952|NCT00658138|164751900|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation done - pilot study|percentage of Alpha values||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis is adhesives are not different in clinical performance at one year||||>0.05
82527953|NCT03238300|164751901|SUPERIORITY||partial eta squared|0.02|||>|0.05|TWO_SIDED|95.0|0.0|0.22||P-value \>0.05 for main effect of medication (N-acetylcysteine vs. placebo)|Mixed Models Analysis|Random intercepts were used||"With 31 participants, the study has 99% power to detect such effects on glutamate levels (calculated based on d =1.13 \[reported in Schmaal et al., 2012\], α = 0.05, two-tailed).~We used linear mixed effects models with random intercepts with medication, visit, and sequence. Baseline metabolite levels and brain tissue composition \[GM:BM = GM/(GM+WM)\], cannabis use (days), and alcohol use disorder status (Yes/No) were included as covariates."||0.22|0.00|>0.05
82575228|NCT02980042|164859948|OTHER||Mean Difference (Net)|2.01|||<|0.0001|TWO_SIDED|95.0|1.23|2.79||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||2.79|1.23|<0.0001
82642938|NCT01569074|165001257|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.17||||0.114|TWO_SIDED|80.0|0.03|0.31||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.31|0.03|0.114
82642939|NCT01569074|165001257|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.21||||0.035|TWO_SIDED|80.0|0.08|0.34||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.34|0.08|0.035
82642940|NCT01569074|165001257|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.07||||0.334|TWO_SIDED|80.0|-0.17|0.02||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.02|-0.17|0.334
82642941|NCT01569074|165001257|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.04||||0.645|TWO_SIDED|80.0|-0.13|0.06||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.06|-0.13|0.645
82642942|NCT01569074|165001258|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.12||||0.028|TWO_SIDED|80.0|0.05|0.19||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.19|0.05|0.028
82642943|NCT01569074|165001258|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.14||||0.021|TWO_SIDED|80.0|0.06|0.22||Week 12|Mantel Haenszel|Treatment difference in proportion of responders, with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||0.22|0.06|0.021
82642944|NCT01569074|165001259|SUPERIORITY_OR_OTHER|||||||0.073||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.073
82642945|NCT01569074|165001259|SUPERIORITY_OR_OTHER|||||||0.065||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.065
82642946|NCT01569074|165001259|SUPERIORITY_OR_OTHER|||||||0.317||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.317
82642947|NCT01569074|165001259|SUPERIORITY_OR_OTHER|||||||0.263||||||As this is a non-parametric test, p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-value estimated using the Van Elteren method stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||||0.263
82642948|NCT01569074|165001260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.3||||0.033|TWO_SIDED|80.0|1.94|14.31|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied||14.31|1.94|0.033
82642949|NCT01569074|165001260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.1||||0.033|TWO_SIDED|80.0|1.92|13.61|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||13.61|1.92|0.033
82444327|NCT03743064|164597288|SUPERIORITY|The Multiple Imputation process (N=100) was performed leading to least squares mean (LSM) and standard error (SE) estimates using the ANOVA model (including treatment group and the 3 stratification factors at randomization as categorical covariates). The estimates were pooled using Rubin rule, with corresponding p-value for difference between treatment groups. The 95% confidence interval (CI) was calculated for each treatment group and for the pooled difference between the groups.|Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.399||0.7241|TWO_SIDED|95.0|-0.641|0.923|||ANOVA|||"To declare anamorelin superior to the placebo, both co-primary endpoints had to be significant. The null hypothesis for mean change from baseline over 12 weeks in patient 5-IASS (H0A) and the corresponding alternative (H1A) were:~H0A: MAa = MAp; H1A: MAa ≠ MAp~Where MAa is the mean change from baseline over 12 weeks in 5-IASS for the anamorelin arm and MAp is the mean change from baseline over 12 weeks in 5-IASS for the placebo arm."||0.923|-0.641|0.7241
82444328|NCT03743064|164597289|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.081|STANDARD_ERROR_OF_MEAN|0.579||0.0003|TWO_SIDED|95.0|0.946|3.216|||ANOVA|||||3.216|0.946|0.0003
82444329|NCT03743064|164597290|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|2.404|STANDARD_ERROR_OF_MEAN|0.476|<|0.0001|TWO_SIDED|95.0|1.471|3.337|||ANOVA|||||3.337|1.471|<0.0001
82444330|NCT03743064|164597291|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.629|STANDARD_ERROR_OF_MEAN|0.431||0.1443|TWO_SIDED|95.0|-0.215|1.472|||ANOVA|||||1.472|-0.215|0.1443
82444331|NCT03743064|164597292|SUPERIORITY|All secondary endpoints were analyzed using the same statistical model and multiple imputation approach as for the co-primary efficacy endpoints.|Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.452||0.7376|TWO_SIDED|95.0|-0.734|1.036|||ANOVA|||||1.036|-0.734|0.7376
82444332|NCT03973905|164597303|OTHER||Vaccine Effectiveness|65.26|||||TWO_SIDED|95.0|-64.93|92.68|||||Vaccine Effectiveness (VE) was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during third trimester of pregnancy (at least 14 days before delivery) at preventing pertussis in infants \<2 months||92.68|-64.93|
82527954|NCT03238300|164751902|SUPERIORITY||||||>|0.05||||||P-value \>0.05 for main effect of medication (N-acetylcysteine vs. placebo) for all ROIs.|Mixed Models Analysis|Random intercepts were used for all models.||Contrast of interest was alcohol beverages vs. non-alcohol beverages. We used linear mixed effects models with random intercepts with medication, visit, and sequence. Baseline reactivity levels for each ROI, cannabis use (days), and an alcohol use covariate (quantity, frequency, AUD status, or AUD severity - depending on which best fit the model) were included as covariates. ROIs included were (left and right hemisphere): amygdala, caudate, insula, putamen, and nucleus accumbens.||||>0.05
82527955|NCT02081950|164751903|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|93.65|||||TWO_SIDED|90.0|87.56|100.16||||||||100.16|87.56|
82527956|NCT02081950|164751904|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|100.46|||||TWO_SIDED|90.0|95.74|105.42||||||||105.42|95.74|
82527957|NCT02081950|164751905|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|101.16|||||TWO_SIDED|90.0|96.32|106.24||||||||106.24|96.32|
82527958|NCT02081950|164751906|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|94.88|||||TWO_SIDED|90.0|88.49|101.73||||||||101.73|88.49|
82527959|NCT02081950|164751907|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|97.13|||||TWO_SIDED|90.0|89.93|104.91||||||||104.91|89.93|
82527960|NCT02081950|164751908|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|108.84|||||TWO_SIDED|90.0|95.61|123.91||||||||123.91|95.61|
82575229|NCT02980042|164859949|OTHER||Mean Difference (Net)|-7.84|||<|0.0001|TWO_SIDED|95.0|-9.87|-5.81||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.81|-9.87|<0.0001
82448849|NCT00655629|164604999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.92|||<|0.0001||95.0|-8.45|-5.38|||ANCOVA|||Power adjustment for 3 primary efficacy variables (3 variables have to be significant in favor of Vardenafil to conclude efficacy). Statistical analysis applies to the total population.||-5.38|-8.45|<0.0001
82527961|NCT02081950|164751919|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|Geometric least square mean ratio|102.45|||||TWO_SIDED|90.0|96.31|109.0||||||||109.0|96.31|
82527962|NCT02081950|164751920|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|95.84|||||TWO_SIDED|90.0|79.11|116.11||||||||116.11|79.11|
82527963|NCT02081950|164751922|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|99.54|||||TWO_SIDED|90.0|95.69|103.54||||||||103.54|95.69|
82527964|NCT02081950|164751926|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject.|geometric least square mean ratio|98.36|||||TWO_SIDED|90.0|95.31|101.51||||||||101.51|95.31|
82527965|NCT02081950|164751927|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject|geometric least square mean ratio|111.3|||||TWO_SIDED|90.0|99.73|124.2||||||||124.2|99.73|
82527966|NCT02081950|164751930|OTHER|Results were obtained using a mixed-effects ANOVA with fixed effect of study period and a random effect for subject|geometric least square mean ratio|98.7|||||TWO_SIDED|90.0|93.16|104.57||||||||104.57|93.16|
82444333|NCT03973905|164597304|OTHER||Vaccine Effectiveness|42.01|||||TWO_SIDED|95.0|-1071.8|97.13|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix before pregnancy at preventing pertussis in infants \<2 months||97.13|-1071.80|
82444334|NCT03973905|164597304|OTHER||Vaccine Effectiveness|62.17|||||TWO_SIDED|95.0|-439.75|97.35|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during first or second trimester of pregnancy at preventing pertussis in infants \<2 months||97.35|-439.75|
82444335|NCT03973905|164597304|OTHER||Vaccine Effectiveness|-12.89|||||TWO_SIDED|95.0|-166.37|52.16|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix after pregnancy at preventing pertussis in infants \<2 months||52.16|-166.37|
82444336|NCT03973905|164597305|OTHER||Vaccine Effectiveness|64.79|||||TWO_SIDED|95.0|-57.51|92.13|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix at any time during pregnancy at preventing pertussis in infants \<2 months||92.13|-57.51|
82527967|NCT02081950|164751931|OTHER||geometric least square mean ratio|103.43|||||TWO_SIDED|90.0|94.5|113.2||||||||113.2|94.5|
82527968|NCT02081950|164751932|OTHER||geometric least square mean ratio|92.92|||||TWO_SIDED|90.0|80.58|107.16||||||||107.16|80.58|
82527969|NCT00110890|164751964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.001||95.0|5.72|13.36|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||13.36|5.72|<0.001
82527970|NCT00110890|164751965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.001||95.0|5.38|14.19|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||14.19|5.38|<0.001
82527971|NCT00110890|164751966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.11|||<|0.001||95.0|2.0|4.84|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||4.84|2.00|<0.001
82527972|NCT00110890|164751967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.93|||<|0.001||95.0|4.65|10.34|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||10.34|4.65|<0.001
82527973|NCT00110890|164751968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.002||95.0|1.26|2.81|||Cochran-Mantel-Haenszel|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|Adjusted for four baseline strata defined by vitamin D prescribed and calcium x phosphorus ≤ 55 mg\^2/dL\^2|||2.81|1.26|0.002
82527974|NCT01975220|164751977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.98|STANDARD_DEVIATION|5.4|<|0.0001|TWO_SIDED|90.0|97.275|102.751|||ANOVA||Adjusted geometric mean (GM) ratio(%) was calculated as GM of 'High dose, fasted:1 FDC tablet' divided by GM of 'High dose, fasted:3 single tablets'.The 'standard deviation' is actually intra-individual geometric coefficient of variation (gCV (%)).|||102.751|97.275|<0.0001
82527975|NCT01975220|164751977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|97.09|STANDARD_DEVIATION|6.7|<|0.0001|TWO_SIDED|90.0|93.857|100.436|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||100.436|93.857|<0.0001
82527976|NCT01975220|164751977|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|100.7|STANDARD_DEVIATION|4.9|<|0.0001|TWO_SIDED|90.0|98.28|103.18|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.18|98.28|<0.0001
82642950|NCT01569074|165001260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.257|TWO_SIDED|80.0|0.89|6.89|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||6.89|0.89|0.257
82527977|NCT01975220|164751978|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|94.65|STANDARD_DEVIATION|28.1||0.0256|TWO_SIDED|90.0|82.29|108.88|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||108.88|82.29|0.0256
82527978|NCT01975220|164751978|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.69|STANDARD_DEVIATION|7.1|<|0.0001|TWO_SIDED|90.0|96.25|103.26|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.26|96.25|<0.0001
82527979|NCT01975220|164751978|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|99.76|STANDARD_DEVIATION|24.2||0.002|TWO_SIDED|90.0|88.65|112.27|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||112.27|88.65|0.0020
82364761|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.0026|TWO_SIDED|95.0|-1.1|-0.23|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-1.10|0.0026
82364762|NCT02697773|164439221|SUPERIORITY||Least Mean Square Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.22||0.0023|TWO_SIDED|95.0|-1.1|-0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.24|-1.10|0.0023
82364763|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.23||0.0002|TWO_SIDED|95.0|-1.29|-0.4|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.40|-1.29|0.0002
82527980|NCT01975220|164751979|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|100.1|STANDARD_DEVIATION|5.1|<|0.0001|TWO_SIDED|90.0|97.555|102.719|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||102.719|97.555|<0.0001
82527981|NCT01975220|164751979|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|97.01|STANDARD_DEVIATION|7.0|<|0.0001|TWO_SIDED|90.0|93.622|100.531|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||100.531|93.622|<0.0001
82527982|NCT01975220|164751979|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|100.78|STANDARD_DEVIATION|4.9|<|0.0001|TWO_SIDED|90.0|98.36|103.27|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.27|98.36|<0.0001
82527983|NCT01975220|164751980|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|109.07|STANDARD_DEVIATION|17.4||0.0072|TWO_SIDED|90.0|99.892|119.1|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||119.100|99.892|0.0072
82527984|NCT01975220|164751980|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|92.42|STANDARD_DEVIATION|12.5||0.0004|TWO_SIDED|90.0|86.781|98.428|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||98.428|86.781|0.0004
82527985|NCT01975220|164751980|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing|Adjusted geometric mean ratio (%)|105.37|STANDARD_DEVIATION|17.7||0.0014|TWO_SIDED|90.0|96.6|114.942|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||114.942|96.600|0.0014
82527986|NCT01975220|164751981|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|96.65|STANDARD_DEVIATION|29.8||0.0198|TWO_SIDED|90.0|83.337|112.079|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||112.079|83.337|0.0198
82575230|NCT02980042|164859950|OTHER||Mean Difference (Net)|-14.2||||0.0022|TWO_SIDED|95.0|-23.15|-5.25||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-5.25|-23.15|0.0022
82575231|NCT02980042|164859951|OTHER||Mean Difference (Net)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.43||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.43|0.17|<0.0001
82364764|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.35|-0.47|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.47|-1.35|<.0001
82527987|NCT01975220|164751981|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|110.17|STANDARD_DEVIATION|12.0||0.0007|TWO_SIDED|90.0|103.809|116.926|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||116.926|103.809|0.0007
82448850|NCT00655629|164605000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.972|||<|0.0001||95.0|-32.688|-19.256|||ANCOVA|||Statistical analysis applies to the total population.||-19.256|-32.688|<0.0001
82364765|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.0066|TWO_SIDED|95.0|-1.11|-0.18|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.11|0.0066
82364766|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.23||0.1506|TWO_SIDED|95.0|-0.79|0.12|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.79|0.1506
82364767|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.0021|TWO_SIDED|95.0|-1.25|-0.28|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.28|-1.25|0.0021
82364768|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.25||0.0008|TWO_SIDED|95.0|-1.32|-0.35|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.35|-1.32|0.0008
82364769|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.0167|TWO_SIDED|95.0|-1.09|-0.11|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.11|-1.09|0.0167
82364770|NCT02697773|164439221|SUPERIORITY||Least Square Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.25||0.0073|TWO_SIDED|95.0|-1.17|-0.18|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects,baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.17|0.0073
82364771|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.23||0.0058|TWO_SIDED|95.0|-1.09|-0.18|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.18|-1.09|0.0058
82364772|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.23||0.0002|TWO_SIDED|95.0|-1.31|-0.41|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.41|-1.31|0.0002
82444337|NCT03973905|164597306|OTHER||Vaccine Effectiveness|17.65|||||TWO_SIDED|95.0|-12529.0|99.46|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix before pregnancy at preventing pertussis in infants \<2 months||99.46|-12529.0|
82642951|NCT01569074|165001260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.481|TWO_SIDED|80.0|0.63|5.04|||Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.04|0.63|0.481
82364773|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.44|-0.51|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.51|-1.44|<.0001
82364774|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.56|-0.64|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.64|-1.56|<.0001
82364775|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.24||0.0091|TWO_SIDED|95.0|-1.11|-0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-1.11|0.0091
82527988|NCT01975220|164751981|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|97.68|STANDARD_DEVIATION|23.8||0.0037|TWO_SIDED|90.0|86.942|109.734|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||109.734|86.942|0.0037
82527989|NCT01975220|164751982|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|95.4|STANDARD_DEVIATION|29.4||0.0254|TWO_SIDED|90.0|82.42|110.44|||ANOVA||The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fasted: 1 FDC tablet' divided by the geometric mean of 'High dose, fasted: 3 single tablets'. The 'standard deviation' is actually the intra-individual gCV (%).|||110.44|82.42|0.0254
82527990|NCT01975220|164751982|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|99.63|STANDARD_DEVIATION|7.1|<|0.0001|TWO_SIDED|90.0|96.21|103.17|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'High dose, fed: 1 FDC tablet' divided by the geometric mean of 'High dose, fed: 3 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||103.17|96.21|<0.0001
82527991|NCT01975220|164751982|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing.|Adjusted geometric mean ratio (%)|101.06|STANDARD_DEVIATION|24.4||0.0029|TWO_SIDED|90.0|89.7|113.86|||ANOVA||"The adjusted geometric mean ratio (%) was calculated as the geometric mean of 'Low dose, fasted: 2 FDC tablets' divided by the geometric mean of 'Low dose, fasted: 4 single tablets'.~The 'standard deviation' is actually the intra-individual gCV (%)."|||113.86|89.70|0.0029
82527992|NCT01301274|164752073|NON_INFERIORITY_OR_EQUIVALENCE|beta error 20%, alfa error 5%, diminished 2 mEq/L between groups||||||0.04||95.0|||||t-test, 2 sided|||||||0.04
82575232|NCT02980042|164859952|OTHER||Mean Difference (Net)|0.41|||<|0.0001|TWO_SIDED|95.0|0.22|0.61||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||0.61|0.22|<0.0001
82575233|NCT02980042|164859953|OTHER||Mean Difference (Net)|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.5||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.50|-0.95|<0.0001
82575234|NCT02980042|164859954|OTHER||Mean Difference (Net)|-19.31|||<|0.0001|TWO_SIDED|95.0|-22.64|-15.98||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-15.98|-22.64|<0.0001
82575235|NCT02980042|164859955|OTHER||Mean Difference (Net)|-6.96|||<|0.0001|TWO_SIDED|95.0|-9.85|-4.08||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.08|-9.85|<0.0001
82575236|NCT02980042|164859956|OTHER||Mean Difference (Net)|-23.22||||0.0061|TWO_SIDED|95.0|-39.66|-6.78||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-6.78|-39.66|0.0061
82642952|NCT01569074|165001261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.131|TWO_SIDED|80.0|1.12|4.2|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.20|1.12|0.131
82527993|NCT01301274|164752074|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||without adjust|Chi-squared|||||||0.081
82575237|NCT02980042|164859957|OTHER||Mean Difference (Net)|-5.69|||<|0.0001|TWO_SIDED|95.0|-7.24|-4.14||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-4.14|-7.24|<0.0001
82527994|NCT01301274|164752075|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||t-test, 2 sided|||||||0.396
82527995|NCT01301274|164752076|SUPERIORITY_OR_OTHER|||||||0.129||95.0|||||t-test, 2 sided|||||||0.129
82527996|NCT04064242|164752115|OTHER|A Bayesian model for repeated measurements including data collected at Weeks 4, 8, 12 and 16 was applied to compare FVC between CMK389 and placebo groups.|Posterior estimate treatment difference|-1.49|STANDARD_DEVIATION|1.62||0.1804|TWO_SIDED|80.0|-3.56|0.6|||Bayesian analysis|Posterior probability that treatment is better than placebo.|80% credible intervals are reported on the treatment difference|||0.60|-3.56|0.1804
82527997|NCT04064242|164752121|SUPERIORITY||Median Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.045||0.783|TWO_SIDED|80.0|-0.09|0.02|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||0.02|-0.09|0.783
82527998|NCT04064242|164752122|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.664||0.608|TWO_SIDED|80.0|-1.05|0.68|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||0.68|-1.05|0.608
82527999|NCT04064242|164752123|SUPERIORITY||Median Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|13.126||0.479|TWO_SIDED|80.0|-16.35|17.76|||Mixed effects Model for Repeated Measure||Treatment difference (CMK389-placebo)|||17.76|-16.35|0.479
82364776|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.24||0.0668|TWO_SIDED|95.0|-0.92|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.92|0.0668
82364777|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.26||0.0011|TWO_SIDED|95.0|-1.36|-0.34|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.34|-1.36|0.0011
82364778|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.26||0.0002|TWO_SIDED|95.0|-1.48|-0.46|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.46|-1.48|0.0002
82364779|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25||0.0059|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-1.20|0.0059
82642953|NCT01569074|165001261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.423|TWO_SIDED|80.0|0.79|2.82|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||2.82|0.79|0.423
82642954|NCT01569074|165001261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.781|TWO_SIDED|80.0|0.45|1.67|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.67|0.45|0.781
82642955|NCT01569074|165001261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.239|TWO_SIDED|80.0|0.95|3.44|||Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||3.44|0.95|0.239
82364780|NCT02697773|164439223|SUPERIORITY||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.25||0.0005|TWO_SIDED|95.0|-1.39|-0.39|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets includes treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.39|-1.39|0.0005
82364781|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|1.56||0.6984|TWO_SIDED|95.0|-2.48|3.7|||ANCOVA|||Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||3.70|-2.48|0.6984
82364782|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|1.6||0.2953|TWO_SIDED|95.0|-4.84|1.48|||ANCOVA|||Percent Work Time Missed: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||1.48|-4.84|0.2953
82448851|NCT00655629|164605001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.432|||<|0.0001||95.0|-40.439|-26.425|||ANCOVA|||Statistical analysis applies to the total population.||-26.425|-40.439|<0.0001
82528000|NCT04512066|164752136|OTHER||treatment effect|0.6||||0.849|TWO_SIDED|90.0|-4.58|5.78|||Mixed Models Analysis|||||5.78|-4.58|0.849
82528001|NCT04512066|164752136|OTHER||treatment effect|-2.83||||0.362|TWO_SIDED|90.0|-7.96|2.29|||Mixed Models Analysis|||||2.29|-7.96|0.362
82528002|NCT04512066|164752136|OTHER||treatment effect|-10.45||||0.001|TWO_SIDED|90.0|-15.46|-5.43|||Mixed Models Analysis|||||-5.43|-15.46|0.001
82528003|NCT00445679|164752149|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|-3.13|||||TWO_SIDED|95.0|-12.62|6.37||||||||6.37|-12.62|
82528004|NCT00445679|164752149|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|0.88|||||TWO_SIDED|95.0|-8.5|10.25||||||||10.25|-8.50|
82642956|NCT01569074|165001262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.169|TWO_SIDED|80.0|1.06|4.67||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ration \>1 indicates a benefit towards fostamatinib|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.67|1.06|0.169
82528005|NCT00445679|164752149|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority to paroxetine was declared if the lower limit of the 95% two-sided confidence interval for the difference in responders is greater than or equal to -9 percentage points.|Difference|-2.17|||||TWO_SIDED|95.0|-11.68|7.33||||||||7.33|-11.68|
82528006|NCT00445679|164752150|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.714
82528007|NCT00445679|164752150|SUPERIORITY_OR_OTHER|||||||0.653||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.653
82528008|NCT00445679|164752150|SUPERIORITY_OR_OTHER|||||||0.881||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.881
82528009|NCT00445679|164752151|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.450
82528010|NCT00445679|164752151|SUPERIORITY_OR_OTHER|||||||0.452||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.452
82642957|NCT01569074|165001262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.833|TWO_SIDED|80.0|0.45|1.78||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.78|0.45|0.833
82528011|NCT00445679|164752151|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Cochran-Mantel-Haenszel|||Final on-therapy population||||0.850
82528012|NCT01806584|164752156|SUPERIORITY_OR_OTHER_LEGACY|||||||0.138|TWO_SIDED|||||p-value based on log rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.138
82528013|NCT01806584|164752157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|TWO_SIDED|||||p-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.312
82528014|NCT01806584|164752158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093|TWO_SIDED|||||p-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.093
82528015|NCT01806584|164752159|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.23|||||TWO_SIDED|95.0|-0.942|1.402||||||||1.402|-0.942|
82528016|NCT00909428|164752160|SUPERIORITY||Z-Score|2.803||||0.005|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no change from baseline maximal tolerated cystometric capacity following 30 days of treatment with daily 10mg solifenacin succinate.||||.005
82528017|NCT03535337|164752167|SUPERIORITY||Slope|2.44|STANDARD_ERROR_OF_MEAN|1.1||0.03|TWO_SIDED|95.0|0.28|4.59|||Mixed Models Analysis|||||4.59|0.28|0.03
82528018|NCT03535337|164752168|SUPERIORITY||Slope|0.17|STANDARD_ERROR_OF_MEAN|0.76||0.82|TWO_SIDED|95.0|-1.32|1.66|||Mixed Models Analysis|||||1.66|-1.32|0.82
82528019|NCT01265030|164752177|SUPERIORITY||Mean Difference (Net)|0.75||||0.63|TWO_SIDED|95.0|-2.54|4.04|||t-test, 2 sided|||||4.04|-2.54|0.63
82528020|NCT01265030|164752177|SUPERIORITY||Mean Difference (Net)|-1.95||||0.31|TWO_SIDED|95.0|-6.08|2.19|||t-test, 2 sided|||||2.19|-6.08|0.31
82528021|NCT01265030|164752178|SUPERIORITY||Mean Difference (Net)|0.063||||0.68|TWO_SIDED|95.0|-0.286|0.411|||t-test, 2 sided|||The mean difference in pain score at week 1 and before surgery||0.411|-.286|0.68
82528022|NCT00840996|164752192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|97.5|-1.23|-0.4||Test for superiority adjusted for 2 primary comparisons (2 outcomes)|Mixed Models Analysis|Llinear mixed-effects accounts for correlation exhibited by the repeated pain measurements on a given patient (spatial power correlation structure).||Postoperative analgesia was characterized using both pain scores and opioid consumption .We considered one of the groups to be better than the other on postoperative pain control with superiority on either outcome, in the presence of noninferiority on both outcomes. Thus, our primary hypothesis was assessed in a joint hypothesis testing framework .||-0.40|-1.23|<0.001
82528023|NCT00840996|164752193|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin: ratio of the geometric means not more than 1.3 greater (mean mg IV morphine equivalent not more than 30% greater ) than that of the other group|the ratio of the geometric means|0.8||||0.011|TWO_SIDED|95.0|0.65|1.21||Noninferiority hypotheses were evaluated against a one-sided significance criterion of 0.025 \[adjusting for testing in both directions: lidocaine vs. control and vs. control vs. lidocaine \]|Regression, Linear|Log-linear regression model was used; 0.1 mg added before taking the logarithm to accommodate the 2 patients who received 0 mg opioids.||Postoperative analgesia was characterized using both pain scores and opioid consumption .We considered one of the groups to be better than the other on postoperative pain control with superiority on either outcome, in the presence of noninferiority on both outcomes. Thus, our primary hypothesis was assessed in a joint hypothesis testing framework .||1.21|0.65|0.011
82528024|NCT00840996|164752194|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.049|TWO_SIDED|95.0|0.84|1.0|||Regression, Logistic|||||1.00|0.84|0.049
82528025|NCT00840996|164752195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.31|TWO_SIDED|95.0|0.77|1.09|||Regression, Logistic|||Nausea - POD 2||1.09|0.77|0.31
82528026|NCT00840996|164752195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.44|TWO_SIDED|95.0|0.94|1.14|||Regression, Logistic|||Vomiting - POD 2||1.14|0.94|0.44
82528027|NCT00840996|164752196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.15|TWO_SIDED|95.0|-2.4|0.4|||Regression, Linear|||||0.4|-2.4|0.15
82528028|NCT00840996|164752197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.002|TWO_SIDED|95.0|2.3|10.0|||Regression, Linear|||||10|2.3|0.002
82528029|NCT00840996|164752198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.04|TWO_SIDED|95.0|0.3|8.9|||Regression, Logistic|||||8.9|0.3|0.04
82528030|NCT04022889|164752199|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|7.7|||TWO_SIDED|95.0|-3.5|6.2|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||6.2|-3.5|
82642958|NCT01569074|165001262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.614|TWO_SIDED|80.0|0.37|1.54||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.54|0.37|0.614
82528031|NCT04022889|164752199|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|8.9|||TWO_SIDED|95.0|-6.4|4.8|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||4.8|-6.4|
82528032|NCT04022889|164752199|OTHER|Variant 1-BEST = Test Variant 1 Endpoint - Test BEST Endpoint|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|10.2|||TWO_SIDED|95.0|-5.0|8.7|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||8.7|-5.0|
82528033|NCT04022889|164752199|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.66 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|-2.5|2.6|||||The mean treatment difference is defined as Test recovery - (0.66 × Control recovery).|||2.6|-2.5|
82528034|NCT04022889|164752200|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|28.9|STANDARD_DEVIATION|16.5|||TWO_SIDED|95.0|18.5|39.4|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||39.4|18.5|
82528035|NCT04022889|164752200|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|25.5|STANDARD_DEVIATION|25.3|||TWO_SIDED|95.0|9.5|41.6|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||41.6|9.5|
82528036|NCT04022889|164752200|EQUIVALENCE|Variant 1-BEST = Test Variant 1 Endpoint - Test BEST Endpoint|Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|21.3|||TWO_SIDED|95.0|-12.7|15.8|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||15.8|-12.7|
82528037|NCT04022889|164752200|NON_INFERIORITY|The null hypothesis of inferiority was to be rejected in favor of the alternative hypothesis of non-inferiority at the two-sided 0.05 significance level if the lower bound of a two-sided 95% CI for the mean treatment difference (Test - 0.58 × Control) was greater than or equal to zero.|Mean Difference (Final Values)|29.8|STANDARD_DEVIATION|18.5|||TWO_SIDED|95.0|21.8|37.8|||||The mean treatment difference is defined as Test survival - (0.58 × Control survival).|||37.8|21.8|
82528038|NCT01015807|164752255|OTHER|||||||0.48|||||||ANOVA|||We estimated that 25 subjects per group would allow us to detect a reduction of this area from 7.5 cm2 in our placebo group to 3.5 cm2 in the CloTAP group, with SD = 5 cm2 in both groups, owing to improved overall analgesia and reduced pain sensitization in women allocated to receive a TAP block with clonidine (2-tailed \[alpha\] = 0.05, 80% power). To allow for failed TAP blocks and/or exclusions of cases, we included 30 patients per group (n = 90)||||0.48
82528039|NCT01077362|164752256|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528040|NCT01077362|164752256|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528041|NCT01077362|164752256|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528042|NCT01077362|164752257|SUPERIORITY_OR_OTHER|||||||0.002|||||||re-randomization test|||||||0.002
82528043|NCT01077362|164752257|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528044|NCT01077362|164752257|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528045|NCT01077362|164752258|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82448852|NCT00655629|164605002|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|53.8693|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|CMH adjusted for age group and center||Statistical analysis applies to the total population.||||<0.0001
82528046|NCT01077362|164752258|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528047|NCT01077362|164752258|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528048|NCT01077362|164752259|SUPERIORITY_OR_OTHER|||||||0.018|||||||re-randomization test|||||||0.018
82528049|NCT01077362|164752259|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528050|NCT01077362|164752259|SUPERIORITY_OR_OTHER|||||||0.002|||||||re-randomization test|||||||0.002
82528051|NCT01077362|164752260|SUPERIORITY_OR_OTHER|||||||0.017|||||||re-randomization test|||||||0.017
82528052|NCT01077362|164752260|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528053|NCT01077362|164752260|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82528054|NCT01077362|164752261|SUPERIORITY_OR_OTHER|||||||0.171|||||||re-randomization|||||||0.171
82528055|NCT01077362|164752261|SUPERIORITY_OR_OTHER|||||||0.06|||||||re-randomization test|||||||0.060
82528056|NCT01077362|164752261|SUPERIORITY_OR_OTHER|||||||0.094|||||||re-randomization|||||||0.094
82528057|NCT02387216|164752267|SUPERIORITY||Hazard Ratio (HR)|1.382||||0.2302|TWO_SIDED|95.0|0.813|2.35|||Log Rank|||||2.350|0.813|0.2302
82528058|NCT02387216|164752268|SUPERIORITY||Hazard Ratio (HR)|1.195||||0.5436|TWO_SIDED|95.0|0.673|2.122|||Log Rank|||||2.122|0.673|0.5436
82528059|NCT02387216|164752269|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0455|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.0455
82528060|NCT02387216|164752270|SUPERIORITY|||||||0.2726|||||||Log Rank|||||||0.2726
82528061|NCT00868699|164752277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
82528062|NCT00868699|164752277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
82528063|NCT00868699|164752278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
82528064|NCT00868699|164752278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|||||||Mixed Models Analysis||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
82528065|NCT00868699|164752279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|1.05||0.003|||||||ANCOVA||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||0.003
82528066|NCT00868699|164752279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|||||||ANCOVA||A negative difference in least square mean change from baseline between Lurasidone group and placebo indicates a greater improvement in the Lurasidone group over the placebo group.|||||<0.001
82528067|NCT00152009|164752282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.0006
82528068|NCT00152009|164752282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.0005
82528069|NCT00152009|164752282|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
82642959|NCT01569074|165001262|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.748|TWO_SIDED|80.0|0.42|1.69||Week 12|Regression, Logistic|Odds ratio and 80% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.69|0.42|0.748
82528070|NCT00152009|164752283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.025
82528071|NCT00152009|164752283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||0.035
82528072|NCT00152009|164752283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
82448853|NCT00655629|164605003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.078|||<|0.0001||95.0|-22.41|-9.746|||ANCOVA|||Statistical analysis applies to the total population.||-9.746|-22.41|<0.0001
82528073|NCT00152009|164752284|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
82528074|NCT00152009|164752284|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
82528075|NCT00152009|164752284|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||||||<0.0001
82528076|NCT00152009|164752285|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82528077|NCT00152009|164752285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||Cochran-Mantel-Haenszel|||||||0.0016
82528078|NCT00152009|164752285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||0.0001
82528079|NCT00152009|164752286|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82528080|NCT00152009|164752286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||95.0|||||Cochran-Mantel-Haenszel|||||||0.0013
82528081|NCT00152009|164752286|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82528082|NCT00152009|164752287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1438||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.1438
82528083|NCT00152009|164752287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1426||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.1426
82528084|NCT00152009|164752287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0191||95.0|||||ANCOVA|Employed Dunnett's adjustment for multiple pairwise comparisons. Corresponding baseline efficacy scores obtained were used as covariates.||Psychosocial category||||0.0191
82528085|NCT04091360|164752303|OTHER||GeoMean Ratio|1.221|||<|0.0001|TWO_SIDED|95.0|1.163|1.281|||ANCOVA|||||1.281|1.163|<0.0001
82642960|NCT01569074|165001263|SUPERIORITY_OR_OTHER||Treatment difference|3.01||||0.087|TWO_SIDED|80.0|0.76|5.26|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.26|0.76|0.087
82642961|NCT01569074|165001263|SUPERIORITY_OR_OTHER||Treatment difference|0.25||||0.881|TWO_SIDED|80.0|-1.91|2.41|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||2.41|-1.91|0.881
82642962|NCT01569074|165001263|SUPERIORITY_OR_OTHER||Treatment difference|-0.42||||0.806|TWO_SIDED|80.0|-2.64|1.8|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.80|-2.64|0.806
82642963|NCT01569074|165001263|SUPERIORITY_OR_OTHER||Treatment difference|1.03||||0.548|TWO_SIDED|80.0|-1.17|3.23|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||3.23|-1.17|0.548
82642964|NCT01569074|165001264|SUPERIORITY_OR_OTHER||Treatment difference|3.12||||0.139|TWO_SIDED|80.0|0.42|5.82|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.82|0.42|0.139
82642965|NCT01569074|165001264|SUPERIORITY_OR_OTHER||Treatment difference|2.47||||0.223|TWO_SIDED|80.0|-0.13|5.07|||ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||5.07|-0.13|0.223
82642966|NCT01569074|165001264|SUPERIORITY_OR_OTHER||Treatment difference|-1.63||||0.432|TWO_SIDED|80.0|-4.3|1.04|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||1.04|-4.30|0.432
82642967|NCT01569074|165001264|SUPERIORITY_OR_OTHER||Treatment difference|1.45||||0.481|TWO_SIDED|80.0|-1.19|4.09|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or following receipt of any parenteral steroids, or for patients with no post baseline data. Subjects who prematurely withdrew due to project closure have no imputation applied.||4.09|-1.19|0.481
82364783|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-5.43|STANDARD_ERROR_OF_MEAN|4.14||0.1911|TWO_SIDED|95.0|-13.59|2.74|||ANCOVA|||Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.74|-13.59|0.1911
82364784|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-5.59|STANDARD_ERROR_OF_MEAN|4.2||0.1857|TWO_SIDED|95.0|-13.89|2.71|||ANCOVA|||Percent Impairment While Working: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.71|-13.89|0.1857
82642968|NCT01610284|165001308|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.67|0.89|||Log Rank|||FAS-Full population||0.89|0.67|<0.001
82642969|NCT01610284|165001308|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.8||||0.003|TWO_SIDED|95.0|0.68|0.94|||Log Rank|||FAS-Main cohort||0.94|0.68|0.003
82642970|NCT01610284|165001308|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.76||||0.015|TWO_SIDED|95.0|0.6|0.97|||Log Rank|||FAS-PI3K pathway activated||0.97|0.60|0.015
82642971|NCT01610284|165001308|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.67|1.03||||||FAS-PI3K pathway non-activated||1.03|0.67|
82364785|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|4.21||0.1707|TWO_SIDED|95.0|-14.12|2.52|||ANCOVA|||Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.52|-14.12|0.1707
82448854|NCT00655629|164605004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.134|||<|0.0001||95.0|-40.281|-25.987|||ANCOVA|||Statistical analysis applies to the total population.||-25.987|-40.281|<0.0001
82528086|NCT04091360|164752303|OTHER||GeoMean Ratio|1.203|||<|0.0001|TWO_SIDED|95.0|1.146|1.263|||ANCOVA|||||1.263|1.146|<0.0001
82448855|NCT00655629|164605005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.934|||<|0.0001||95.0|-41.119|-26.749|||ANCOVA|||Statistical analysis applies to the total population.||-26.749|-41.119|<0.0001
82528087|NCT04091360|164752303|OTHER||GeoMean Ratio|1.139|||<|0.0001|TWO_SIDED|95.0|1.085|1.195|||ANCOVA|||||1.195|1.085|<0.0001
82528088|NCT04091360|164752304|OTHER||GeoMean Ratio|1.253|||<|0.0001|TWO_SIDED|95.0|1.151|1.363|||ANCOVA|||||1.363|1.151|<0.0001
82528089|NCT04091360|164752304|OTHER||GeoMean Ratio|1.146||||0.0022|TWO_SIDED|95.0|1.054|1.246|||ANCOVA|||||1.246|1.054|0.0022
82528090|NCT04091360|164752304|OTHER||GeoMean Ratio|1.102||||0.0295|TWO_SIDED|95.0|1.01|1.202|||ANCOVA|||||1.202|1.010|0.0295
82528091|NCT04091360|164752304|OTHER||GeoMean Ratio|1.129||||0.0098|TWO_SIDED|95.0|1.032|1.235|||ANCOVA|||||1.235|1.032|0.0098
82528092|NCT04091360|164752304|OTHER||GeoMean Ratio|1.028||||0.54|TWO_SIDED|95.0|0.939|1.125|||ANCOVA|||||1.125|0.939|0.54
82528093|NCT04091360|164752305|OTHER||GeoMean Ratio|1.228|||<|0.0001|TWO_SIDED|95.0|1.142|1.319|||ANCOVA|||||1.319|1.142|<0.0001
82528094|NCT04091360|164752305|OTHER||GeoMean Ratio|1.155||||0.0002|TWO_SIDED|95.0|1.075|1.24|||ANCOVA|||||1.240|1.075|0.0002
82528095|NCT04091360|164752305|OTHER||GeoMean Ratio|1.1||||0.0129|TWO_SIDED|95.0|1.022|1.184|||ANCOVA|||||1.184|1.022|0.0129
82528096|NCT04091360|164752305|OTHER||GeoMean Ratio|1.112||||0.0079|TWO_SIDED|95.0|1.03|1.201|||ANCOVA|||||1.201|1.030|0.0079
82528097|NCT04091360|164752305|OTHER||GeoMean Ratio|1.033||||0.39|TWO_SIDED|95.0|0.957|1.116|||ANCOVA|||||1.116|0.957|0.39
82528098|NCT04091360|164752306|OTHER||GeoMean Ratio|1.137|||<|0.0001|TWO_SIDED|95.0|1.073|1.204|||ANCOVA|||||1.204|1.073|<0.0001
82528099|NCT04091360|164752306|OTHER||GeoMean Ratio|1.091||||0.0041|TWO_SIDED|95.0|1.03|1.155|||ANCOVA|||||1.155|1.030|0.0041
82528100|NCT04091360|164752306|OTHER||GeoMean Ratio|1.019||||0.53|TWO_SIDED|95.0|0.96|1.081|||ANCOVA|||||1.081|0.960|0.53
82528101|NCT04091360|164752314|OTHER||GeoMean Ratio|1.21|||<|0.0001|TWO_SIDED|95.0|1.153|1.27|||ANCOVA|||||1.270|1.153|<0.0001
82528102|NCT04091360|164752314|OTHER||GeoMean Ratio|1.193|||<|0.0001|TWO_SIDED|95.0|1.136|1.252|||ANCOVA|||||1.252|1.136|<0.0001
82528103|NCT04091360|164752314|OTHER||GeoMean Ratio|1.124|||<|0.0001|TWO_SIDED|95.0|1.071|1.179|||ANCOVA|||||1.179|1.071|<0.0001
82528104|NCT04091360|164752315|OTHER||GeoMean Ratio|1.139|||<|0.0001|TWO_SIDED|95.0|1.087|1.194|||ANCOVA|||||1.194|1.087|<0.0001
82528105|NCT04091360|164752315|OTHER||GeoMean Ratio|1.142|||<|0.0001|TWO_SIDED|95.0|1.089|1.197|||ANCOVA|||||1.197|1.089|<0.0001
82528106|NCT04091360|164752315|OTHER||GeoMean Ratio|1.08||||0.0018|TWO_SIDED|95.0|1.031|1.132|||ANCOVA|||||1.132|1.031|0.0018
82528107|NCT04091360|164752316|OTHER||GeoMean Ratio|1.08||||0.0066|TWO_SIDED|95.0|1.022|1.14|||ANCOVA|||||1.140|1.022|0.0066
82528108|NCT04091360|164752316|OTHER||GeoMean Ratio|1.074||||0.0115|TWO_SIDED|95.0|1.017|1.134|||ANCOVA|||||1.134|1.017|0.0115
82528109|NCT04091360|164752316|OTHER||GeoMean Ratio|1.037||||0.18|TWO_SIDED|95.0|0.982|1.096|||ANCOVA|||||1.096|0.982|0.18
82528110|NCT04091360|164752317|OTHER||GeoMean Ratio|1.162|||<|0.0001|TWO_SIDED|95.0|1.122|1.203|||ANCOVA|||||1.203|1.122|<0.0001
82528111|NCT04091360|164752317|OTHER||GeoMean Ratio|1.15|||<|0.0001|TWO_SIDED|95.0|1.111|1.19|||ANCOVA|||||1.190|1.111|<0.0001
82528112|NCT04091360|164752317|OTHER||GeoMean Ratio|1.112|||<|0.0001|TWO_SIDED|95.0|1.074|1.152|||ANCOVA|||||1.152|1.074|<0.0001
82528113|NCT04091360|164752318|OTHER||GeoMean Ratio|1.157|||<|0.0001|TWO_SIDED|95.0|1.119|1.196|||ANCOVA|||||1.196|1.119|<0.0001
82528114|NCT04091360|164752318|OTHER||GeoMean Ratio|1.147|||<|0.0001|TWO_SIDED|95.0|1.11|1.186|||ANCOVA|||||1.186|1.110|<0.0001
82528115|NCT04091360|164752318|OTHER||GeoMean Ratio|1.105|||<|0.0001|TWO_SIDED|95.0|1.068|1.142|||ANCOVA|||||1.142|1.068|<0.0001
82528116|NCT04091360|164752319|OTHER||GeoMean Ratio|1.098|||<|0.0001|TWO_SIDED|95.0|1.059|1.137|||ANCOVA|||||1.137|1.059|<0.0001
82528117|NCT04091360|164752319|OTHER||GeoMean Ratio|1.111|||<|0.0001|TWO_SIDED|95.0|1.072|1.15|||ANCOVA|||||1.150|1.072|<0.0001
82528118|NCT04091360|164752319|OTHER||GeoMean Ratio|1.07||||0.0003|TWO_SIDED|5.0|1.033|1.109|||ANCOVA|||||1.109|1.033|0.0003
82528119|NCT04091360|164752320|OTHER||Median Difference (Final Values)|8.5||||0.47|TWO_SIDED||||||Hodges-Lehmann|||||||0.47
82528120|NCT04091360|164752320|OTHER||Mean Difference (Final Values)|18.0||||0.0059|TWO_SIDED||||||Hodges-Lehmann|||||||0.0059
82528121|NCT00098254|164752368|SUPERIORITY_OR_OTHER|||||||0.0027||95.0|||||Kaplan-Meier|||||||0.0027
82528122|NCT00098254|164752370|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Kaplan-Meier|||||||0.33
82528123|NCT00098254|164752371|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||Kaplan-Meier|||||||0.042
82528124|NCT00098254|164752372|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Kaplan-Meier|||||||0.028
82528125|NCT02224482|164752379|SUPERIORITY|||||||0.9634|||||||Mixed Models Analysis|||||||.9634
82528126|NCT02224482|164752380|SUPERIORITY|||||||0.5214|||||||Mixed Models Analysis|||||||.5214
82528127|NCT02224482|164752381|SUPERIORITY|||||||0.4875|||||||Mixed Models Analysis|||||||.4875
82528128|NCT02224482|164752382|SUPERIORITY|||||||0.7938|||||||Mixed Models Analysis|||||||.7938
82528129|NCT02224482|164752383|SUPERIORITY|||||||0.6765|||||||Mixed Models Analysis|||||||.6765
82528130|NCT02224482|164752384|SUPERIORITY|||||||0.7061|||||||Mixed Models Analysis|||||||.7061
82528131|NCT02224482|164752385|SUPERIORITY|||||||0.7593|||||||Mixed Models Analysis|||||||.7593
82528132|NCT00744263|164752386|SUPERIORITY_OR_OTHER||Vaccine Efficacy|45.56||||0.0006|TWO_SIDED|95.2|21.82|62.49|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1 - (proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||62.49|21.82|0.0006
82528133|NCT00744263|164752387|SUPERIORITY_OR_OTHER||Vaccine Efficacy|45.0||||0.0067|TWO_SIDED|95.2|14.21|65.31|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1-(proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||65.31|14.21|0.0067
82642972|NCT01610284|165001308|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.52|0.94||||||FAS-PI3K pathway unknown||0.94|0.52|
82642973|NCT01610284|165001309|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.87||||0.045|TWO_SIDED|95.0|0.74|1.02|||Log Rank|||FAS-Full population||1.02|0.74|0.045
82642974|NCT01610284|165001309|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.91||||0.144|TWO_SIDED|95.0|0.75|1.09|||Log Rank|||FAS-Main cohort||1.09|0.75|0.144
82642975|NCT01610284|165001309|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.61|1.08||||||FAS-PI3K pathway activated||1.08|0.61|
82642976|NCT01610284|165001309|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.77|1.24||||||FAS-PI3K pathway non-activated||1.24|0.77|
82642977|NCT01610284|165001309|OTHER|Comparison of overall survival (OS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.06||||||FAS-PI3K pathway unknown||1.06|0.52|
82642978|NCT00442338|165001317|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.01||||0.871|TWO_SIDED|95.0|-0.07|0.08|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the least square (LS) means of time weighted average change FEV1 (0-60 min) using an Analysis of Covariance (ANCOVA) model.||0.08|-0.07|0.871
82642979|NCT00442338|165001317|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.794|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the LS means of time weighted average change FEV1 (0-60 min) using an ANCOVA model.||0.06|-0.08|0.794
82642980|NCT00442338|165001317|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.675|TWO_SIDED|95.0|-0.06|0.09|||ANCOVA|The model included a factor for treatment and used the baseline FEV1 as a covariate.||Treatment difference in change from Baseline in FEV1 within the first 60 minutes after study drug administration was assessed as the difference in the LS means of time weighted average change FEV1 (0-60 min) using an ANCOVA model.||0.09|-0.06|0.675
82642981|NCT01125358|165001318|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.02|||||TWO_SIDED|90.0|-3.37|0.0|||Multiple Comparisons with The Best (MCB)|LS mean difference = LS mean of 10 mg LY2140023 - LS mean of 80 mg LY2140023.||||0.00|-3.37|
82642982|NCT01125358|165001318|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.05|||||TWO_SIDED|90.0|-2.42|0.32|||Multiple Comparison with The Best (MCB)|LS mean difference = LS mean of 160 mg LY2140023 - LS mean of 80 mg LY2140023.||||0.32|-2.42|
82444338|NCT03973905|164597306|OTHER||Vaccine Effectiveness|85.01|||||TWO_SIDED|95.0|-13.91|98.03|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix during third trimester of pregnancy at preventing pertussis in infants \<2 months||98.03|-13.91|
82448856|NCT00655629|164605006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.902|||<|0.0001||95.0|-27.724|-14.081|||ANCOVA|||Statistical analysis applies to the total population.||-14.081|-27.724|<0.0001
82528134|NCT00744263|164752388|SUPERIORITY_OR_OTHER||Vaccine Efficacy|75.0||||0.0005|TWO_SIDED|95.0|41.43|90.78|||Clopper-Pearson method|||Vaccine efficacy against first event expressed as percentage. Vaccine efficacy = 1-(proportion of participants who received 13vPnC with confirmed VT-CAP relative to those who received placebo). p-value and confidence intervals were derived using Clopper-Pearson method. The null hypothesis was vaccine efficacy = 0.||90.78|41.43|0.0005
82642983|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-9.84|STANDARD_ERROR_OF_MEAN|7.96||0.222|TWO_SIDED|95.0|-25.8|6.12||P-value is for PANSS Total Score.|MMRM|||||6.12|-25.80|0.222
82642984|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-11.91|STANDARD_ERROR_OF_MEAN|7.22||0.105|TWO_SIDED|95.0|-26.42|2.6||P-value is for PANSS Total Score.|MMRM|||||2.60|-26.42|0.105
82642985|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-7.96|STANDARD_ERROR_OF_MEAN|7.73||0.308|TWO_SIDED|95.0|-23.46|7.55||P-value is for PANSS Total Score.|MMRM|||||7.55|-23.46|0.308
82642986|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.6|STANDARD_ERROR_OF_MEAN|2.06||0.441|TWO_SIDED|95.0|-5.74|2.54||P-value is for PANSS Positive Subscore.|MMRM|||||2.54|-5.74|0.441
82642987|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-4.22|STANDARD_ERROR_OF_MEAN|1.88||0.03||95.0|-8.01|-0.44||P-value is for PANSS Positive Subscore.|MMRM|||||-0.44|-8.01|0.030
82642988|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.98|STANDARD_ERROR_OF_MEAN|1.98||0.323|TWO_SIDED|95.0|-5.96|2.01||P-value is for PANSS Positive Subscore.|MMRM|||||2.01|-5.96|0.323
82642989|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.46|STANDARD_ERROR_OF_MEAN|2.28||0.285|TWO_SIDED|95.0|-7.05|2.12||P-value is for PANSS Negative Subscore.|MMRM|||||2.12|-7.05|0.285
82642990|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.92|STANDARD_ERROR_OF_MEAN|2.07||0.166|TWO_SIDED|95.0|-7.1|1.26||P-value is for PANSS Negative Subscore.|MMRM|||||1.26|-7.10|0.166
82528135|NCT00744263|164752391|SUPERIORITY_OR_OTHER|||||||0.979|TWO_SIDED||||||Fisher Exact|||Fisher exact test, 2-sided, was used to calculate the p-value for the difference between vaccine groups in percentages of participants.||||0.979
82642991|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-2.37|STANDARD_ERROR_OF_MEAN|2.2||0.286|TWO_SIDED|95.0|-6.79|2.05||P-value is for PANSS Negative Subscore.|MMRM|||||2.05|-6.79|0.286
82642992|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.67|STANDARD_ERROR_OF_MEAN|4.14||0.177|TWO_SIDED|95.0|-13.96|2.63||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||2.63|-13.96|0.177
82642993|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.1|STANDARD_ERROR_OF_MEAN|3.74||0.178|TWO_SIDED|95.0|-12.6|2.4||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||2.40|-12.60|0.178
82528136|NCT00744263|164752392|SUPERIORITY_OR_OTHER|||||||0.455|TWO_SIDED||||||Fisher Exact|||Fisher exact test, 2-sided, was used to calculate the p-value for the difference between vaccine groups in percentages of participants.||||0.455
82642994|NCT01125358|165001319|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-3.61|STANDARD_ERROR_OF_MEAN|4.05||0.377|TWO_SIDED|95.0|-11.72|4.51||P-value is for PANSS General Psychopathology Subscore.|MMRM|||||4.51|-11.72|0.377
82528137|NCT03107377|164752393|SUPERIORITY||Risk Difference (RD)|-4.81||||0.0256|TWO_SIDED|95.0|-9.02|-0.61|||Chi-squared|||||-0.61|-9.02|0.0256
82528138|NCT03107377|164752394|SUPERIORITY||Risk Difference (RD)|-2.53||||0.0316|TWO_SIDED|95.0|-4.84|-0.23|||Chi-squared|||||-0.23|-4.84|0.0316
82528139|NCT03107377|164752398|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =0% adherence||||1.0000
82528140|NCT03107377|164752398|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>0% adherence||||1.0000
82528141|NCT03107377|164752398|SUPERIORITY|||||||0.6278|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=20% adherence||||.6278
82528142|NCT03107377|164752398|SUPERIORITY|||||||0.6404|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=40% adherence||||.6404
82528143|NCT03107377|164752398|SUPERIORITY|||||||0.5008|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=60% adherence||||.5008
82528144|NCT03107377|164752398|SUPERIORITY|||||||0.1818|||||||Chi-squared|||A comparison of infection rates between the treatment arms amongst subjects with \>=80% adherence||||.1818
82528145|NCT03107377|164752398|SUPERIORITY|||||||0.0012|||||||Chi-squared|||A comparison of infection rates between the treatment arms amongst subjects with =100% adherence||||0.0012
82528146|NCT03107377|164752399|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =0% adherence||||1.0000
82528147|NCT03107377|164752399|SUPERIORITY|||||||0.4375|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>0% adherence||||0.4375
82528148|NCT03107377|164752399|SUPERIORITY|||||||0.4444|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=20% adherence||||0.4444
82528149|NCT03107377|164752399|SUPERIORITY|||||||0.1836|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=60% adherence||||0.1836
82528150|NCT03107377|164752399|SUPERIORITY|||||||0.5006|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with \>=80% adherence||||0.5006
82528151|NCT03107377|164752399|SUPERIORITY|||||||1|||||||Fisher Exact|||A comparison of infection rates between the treatment arms amongst subjects with =100% adherence||||1.000
82528152|NCT01121172|164752436|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Non parametric test||||||0.001
82642995|NCT01125358|165001320|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.87|STANDARD_ERROR_OF_MEAN|0.48||0.077|TWO_SIDED|95.0|-0.1|1.83|||MMRM|||||1.83|-0.10|0.077
82528153|NCT01121172|164752437|SUPERIORITY_OR_OTHER|||||||0.232|||||||Chi-squared|Chi-square test of frequency distribution amng obese study group and HapMap-CEU polymorphism distribution||||||0.232
82528154|NCT04078035|164752453|SUPERIORITY||Slope|-0.00015|STANDARD_ERROR_OF_MEAN|0.00088||0.86|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.86
82528155|NCT04078035|164752454|SUPERIORITY||Slope|0.00022|STANDARD_ERROR_OF_MEAN|0.00067||0.74|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results present the condition (stress/control) by time interactions.||||0.74
82528156|NCT04078035|164752455|SUPERIORITY||Slope|-0.0012|STANDARD_ERROR_OF_MEAN|0.0019||0.52|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.52
82528157|NCT04078035|164752456|SUPERIORITY|Results present the condition (stress/control) by time\^2 interactions.|Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 77.2, p \< .001.||||||<.001
82528158|NCT04078035|164752457|SUPERIORITY||Slope|0.0021|STANDARD_ERROR_OF_MEAN|0.00027|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 66.4, p \< .001.||Results-interaction between time2 and condition||||<.001
82528159|NCT04078035|164752458|SUPERIORITY||Slope|0.0013|STANDARD_ERROR_OF_MEAN|0.0002|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 77.2, p \< .001.||Results-interaction between time\^2 and condition||||<.001
82528160|NCT04078035|164752459|SUPERIORITY||Slope|0.0037|STANDARD_ERROR_OF_MEAN|0.0013||0.005|TWO_SIDED||||||Mixed Models Analysis|||Results below present the condition (stress/control) by time interactions.||||0.005
82528161|NCT04078035|164752460|SUPERIORITY||Slope|-0.0071|STANDARD_ERROR_OF_MEAN|0.074||0.92|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.92
82528162|NCT04078035|164752461|SUPERIORITY||Slope|-0.85|STANDARD_ERROR_OF_MEAN|0.41||0.04|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.04
82528163|NCT04078035|164752462|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.0033||0.002|TWO_SIDED|||||Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.|Mixed Models Analysis|Likelihood ratio test showed better fit if quadratic for time included χ2 (2) = 15.64, p \< .001.||Results-interaction between time\^2 and condition||||0.002
82642996|NCT01125358|165001320|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.24|STANDARD_ERROR_OF_MEAN|0.44||0.592|TWO_SIDED|95.0|-1.12|0.65|||MMRM|||||0.65|-1.12|0.592
82642997|NCT01125358|165001320|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.39|STANDARD_ERROR_OF_MEAN|0.46||0.395|TWO_SIDED|95.0|-0.53|1.32|||MMRM|||||1.32|-0.53|0.395
82642998|NCT01125358|165001321|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|4.64|STANDARD_ERROR_OF_MEAN|4.49||0.306|TWO_SIDED|95.0|-4.37|13.65|||MMRM|||||13.65|-4.37|0.306
82575238|NCT02980042|164859958|OTHER||Mean Difference (Net)|-0.84||||0.0077|TWO_SIDED|95.0|-1.45|-0.23||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.23|-1.45|0.0077
82575239|NCT02980042|164859959|OTHER||Mean Difference (Net)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.27||99 patients with non-missing change scores used. Controlled for the false discovery rate (alpha = 0.05) for all cytokines on day 15 using the Benjamini-Hochberg procedure.|t-test, 2 sided|Paired T-test. Degrees of freedom = 98.|Mean of post minus pre. 99 usable change scores.|Paired T-test for change in means. Null hypothesis: no pre-post difference.||-0.27|-0.37|<0.0001
82575240|NCT01189110|164859971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81|STANDARD_ERROR_OF_MEAN|0.42||0.74|TWO_SIDED|95.0|0.23|2.83|||Chi-squared|||A two-proportion z-test was used to compare the proportion of self-reported abstinence at 3 weeks between groups.||2.83|0.23|0.74
82575241|NCT01732549|164859972|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.0315||||||Log-rank test adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). Two-sided p-value.|Log Rank|||Stratified\[a\]||||=0.0315
82575242|NCT01732549|164859972|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.0344|||||||Log Rank|||Unstratified\[b\]||||=0.0344
82575243|NCT01732549|164859973|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.443|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.4430
82575244|NCT01732549|164859974|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5219|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||0.5219
82575245|NCT01732549|164859975|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.5442|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.5442
82575246|NCT01732549|164859976|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.112|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use and region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.1120
82575247|NCT01732549|164859977|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.2491|||||||Log Rank|Adjusting for presence (or absence) of visceral metastases, opioid analgesic use (or not) \& region (Eastern Europe, Western Europe). One-sided p-value||Stratified\[a\]||||=0.2491
82575248|NCT01516749|164859980|SUPERIORITY_OR_OTHER|||||||0.024||||||significance was accepted at p\<0.05|t-test, 2 sided|||Significance of decrease in modified Sartorius score from Baseline to 8 weeks||||0.024
82575249|NCT01516749|164859981|SUPERIORITY_OR_OTHER|||||||0.006||||||Significance was accepted at p\<0.05|t-test, 2 sided|||Significance of reductions in Physican Global Assessment mean values between baseline and 8 weeks of therapy||||0.006
82575250|NCT01516749|164859981|SUPERIORITY_OR_OTHER|||||||0.019||||||Significance was accepted at p\<0.05|t-test, 2 sided|||Significance of reductions in Patient Global Assessment mean values between baseline and 8 weeks of therapy||||0.019
82575251|NCT03994731|164859994|SUPERIORITY||Stratified difference in proportions|32.31|STANDARD_ERROR_OF_MEAN|8.157|<|0.0001|TWO_SIDED|95.0|16.3|48.3||The 2-sided p-value was calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (Pegloticase+MTX - Pegloticase+Placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tophi presence at baseline: yes, no) were combined with Cochran-Mantel-Haenszel (CMH) weights.|||48.3|16.3|< 0.0001
82575252|NCT03994731|164859995|SUPERIORITY||response rate difference|29.05|STANDARD_ERROR_OF_MEAN|8.084||0.0003|TWO_SIDED|95.0|13.2|44.9||The 2-sided p-value was calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||response rate difference (Peg+MTX - Peg+Placebo)|||44.9|13.2|0.0003
82575253|NCT03994731|164859996|SUPERIORITY||Difference|22.8||||0.0482|TWO_SIDED|95.0|1.2|44.4||The comparison of complete response between groups is performed using an unstratified chi-squared test.|Chi-squared||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||44.4|1.2|0.0482
82575254|NCT03994731|164859997|SUPERIORITY||Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.084||0.6287|TWO_SIDED|95.0|-0.21|0.13||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||0.13|-0.21|0.6287
82575255|NCT03994731|164859998|SUPERIORITY||Difference|-8.43|STANDARD_ERROR_OF_MEAN|3.766||0.0272|TWO_SIDED|95.0|-15.88|-0.97||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||-0.97|-15.88|0.0272
82364786|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|4.29||0.138|TWO_SIDED|95.0|-14.85|2.07|||ANCOVA|||Percent Overall Work Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||2.07|-14.85|0.1380
82575256|NCT03994731|164859999|SUPERIORITY||Difference|-10.16|STANDARD_ERROR_OF_MEAN|2.531||0.0222|TWO_SIDED|95.0|-18.84|-1.48||Based on mixed models repeated measures (MMRM) analysis of covariance (ANCOVA) model including the following terms: baseline value, tophi presence (Y/N), treatment group, visit, visit-by-treatment interaction, and visit-by-baseline value interaction.|MMRM ANCOVA||Difference (Pegloticase+MTX - Pegloticase+Placebo)|||-1.48|-18.84|0.0222
82575257|NCT01150461|164860000|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test||||0.02
82575258|NCT01150461|164860001|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test||||0.06
82575259|NCT01681992|164860012|NON_INFERIORITY|The lower limit of the 2-sided 97.5% confidence interval (CI) on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to measles virus when tested with ELISA.|Difference in seroresponse rate|-5.48|||||TWO_SIDED|97.5|-7.65|-3.43|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to measles virus at Day 42.||-3.43|-7.65|
82642999|NCT01125358|165001321|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.82|STANDARD_ERROR_OF_MEAN|4.26||0.849|TWO_SIDED|95.0|-7.74|9.38|||MMRM|||||9.38|-7.74|0.849
82643000|NCT01125358|165001321|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-5.09|STANDARD_ERROR_OF_MEAN|4.46||0.259||95.0|-14.05|3.86|||MMRM|||||3.86|-14.05|0.259
82643001|NCT01125358|165001323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.354||95.0|||||Fisher Exact|||||||0.354
82643002|NCT01125358|165001323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181||95.0|||||Fisher Exact|||||||0.181
82643003|NCT01125358|165001323|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
82643004|NCT03159611|165001339|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82528164|NCT04078035|164752463|SUPERIORITY||Slope|0.014|STANDARD_ERROR_OF_MEAN|0.0053||0.008|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results \_condition (stress/control) by time interactions.||||0.008
82643005|NCT03159611|165001340|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
82643006|NCT03159611|165001341|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
82643007|NCT03159611|165001342|SUPERIORITY|||||||0.2|||||||Cochran-Mantel-Haenszel|||||||0.20
82643008|NCT03159611|165001343|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82643009|NCT01984229|165001346|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|118.0|||||TWO_SIDED|90.0|102.0|137.0|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals (CIs).||137|102|
82444339|NCT03973905|164597306|OTHER||Vaccine Effectiveness|37.64|||||TWO_SIDED|95.0|-87.4|79.25|||||VE was estimated as (1-odds ratio) × 100%. The Confidence Interval was calculated based on the conditional binomial distribution of cases in the exposed group and the total number of cases.|To assess the effectiveness of maternal vaccination with Boostrix after pregnancy at preventing pertussis in infants \<2 months||79.25|-87.40|
82643010|NCT01984229|165001347|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|177.0|||||TWO_SIDED|90.0|159.0|198.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||198|159|
82575260|NCT01681992|164860012|NON_INFERIORITY|The lower limit of the 2-sided 97.5% confidence interval (CI) on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to measles virus when tested with ELISA.|Difference in seroresponse rate|-2.08|||||TWO_SIDED|97.5|-3.96|-0.27|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to measles virus at Day 42.||-0.27|-3.96|
82643011|NCT01984229|165001348|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|175.0|||||TWO_SIDED|90.0|157.0|195.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||195|157|
82643012|NCT01984229|165001352|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|28.7|||||TWO_SIDED|90.0|23.1|35.5|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||35.5|23.1|
82643013|NCT01984229|165001353|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|66.2|||||TWO_SIDED|90.0|56.7|77.4|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||77.4|56.7|
82528165|NCT04078035|164752464|SUPERIORITY||Slope|-0.0003|STANDARD_ERROR_OF_MEAN|0.0014||0.83|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.83
82643014|NCT01984229|165001354|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|75.1|||||TWO_SIDED|90.0|64.4|87.7|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and CIs.||87.7|64.4|
82643015|NCT02072174|165001365|SUPERIORITY|||||||0.0242|||||||Kruskal-Wallis|||||||0.0242
82643016|NCT02072174|165001366|SUPERIORITY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||patient diary data||||0.0026
82643017|NCT02072174|165001366|SUPERIORITY|||||||0.0127|||||||Cochran-Mantel-Haenszel|||doctor's examination data||||0.0127
82643018|NCT02072174|165001367|SUPERIORITY|||||||0.0394||||||"The p-value associated with treatment factor of variable on day 2, 3, 4 and 5 between Anaferon for Children and Placebo. Model includes treatment, visit, treatment\*visit interaction, Day 1 covariate. Treatment\*visit interaction p-value is 0.3220."|Mixed Models Analysis|||||||0.0394
82643019|NCT02072174|165001367|SUPERIORITY|||||||0.322||||||"The p-value associated with treatment\*visit interaction factor of variable on day 2, 3, 4 and 5 between Anaferon for Children and Placebo. Model includes treatment, visit, treatment\*visit interaction, Day 1 covariate."|Mixed Models Analysis|||||||0.3220
82643020|NCT02072174|165001368|SUPERIORITY|||||||0.0043|||||||Cochran-Mantel-Haenszel|||||||0.0043
82643021|NCT02072174|165001369|SUPERIORITY|||||||0.0104||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 2 (patient diary data)||||0.0104
82643022|NCT02072174|165001369|SUPERIORITY|||||||0.0041||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 3 (patient diary data)||||0.0041
82643023|NCT02072174|165001369|SUPERIORITY|||||||0.0484||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 4 (patient diary data)||||0.0484
82643024|NCT02072174|165001369|SUPERIORITY|||||||0.0603||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 5 (patient diary data)||||0.0603
82643025|NCT02072174|165001369|SUPERIORITY|||||||0.0056||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 3 (doctor's examination)||||0.0056
82643026|NCT02072174|165001369|SUPERIORITY|||||||0.0994||||||p-value not adjusted for multiple comparisons|Kruskal-Wallis|||Day 5 (doctor's examination)||||0.0994
82643027|NCT02072174|165001370|SUPERIORITY|||||||0.0084|||||||Kruskal-Wallis|||Days 1-7 (patient diary data)||||0.0084
82643028|NCT02072174|165001370|SUPERIORITY|||||||0.0233|||||||Kruskal-Wallis|||Days 1, 3, 5 and 7 (doctor's examination)||||0.0233
82528166|NCT04078035|164752465|SUPERIORITY||Slope|-0.0074|STANDARD_ERROR_OF_MEAN|0.0033||0.03|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.03
82528167|NCT04078035|164752466|SUPERIORITY||Slope|0.00075|STANDARD_ERROR_OF_MEAN|0.00012||0.51|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.51
82528168|NCT04078035|164752467|SUPERIORITY||Slope|-0.0053|STANDARD_ERROR_OF_MEAN|0.0026||0.04|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.04
82528169|NCT04078035|164752468|SUPERIORITY||Slope|0.0018|STANDARD_ERROR_OF_MEAN|0.0027||0.49|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.49
82575261|NCT01681992|164860013|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to mumps virus when tested with ELISA.|Difference in seroresponse rate|-0.42|||||TWO_SIDED|97.5|-1.91|1.04|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||1.04|-1.91|
82575262|NCT01681992|164860013|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to mumps virus when tested with ELISA.|Difference in seroresponse rate|-0.58|||||TWO_SIDED|97.5|-2.11|0.91|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||0.91|-2.11|
82575263|NCT01681992|164860014|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -10% for antibodies to mumps virus when tested with PRNT.|Difference in seroresponse rate|-9.41|||||TWO_SIDED|97.5|-13.2|-5.62|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||-5.62|-13.20|
82575264|NCT01681992|164860014|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -10% for antibodies to mumps virus when tested with PRNT.|Difference in seroresponse rate|-7.22|||||TWO_SIDED|97.5|-10.94|-3.49|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to mumps virus at Day 42.||-3.49|-10.94|
82575265|NCT01681992|164860015|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Min minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to rubella virus when tested with ELISA.|Difference in seroresponse rate|-1.71|||||TWO_SIDED|97.5|-3.11|-0.42|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Min vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to rubella virus at Day 42.||-0.42|-3.11|
82643029|NCT02072174|165001371|SUPERIORITY|||||||0.0721|||||||Mixed Models Analysis|||||||0.0721
82643030|NCT02072174|165001372|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82643031|NCT02072174|165001373|SUPERIORITY|||||||0.3383|||||||Fisher Exact|||||||0.3383
82643032|NCT01418365|165001378|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean ratio|0.979|||||TWO_SIDED|90.0|0.961|0.998|||ANOVA|||||0.998|0.961|
82643033|NCT01418365|165001379|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|0.993|||||TWO_SIDED|90.0|0.951|1.04|||ANOVA|||||1.04|0.951|
82528170|NCT04078035|164752469|SUPERIORITY||Slope|0.013|STANDARD_ERROR_OF_MEAN|0.0044||0.002|TWO_SIDED||||||Mixed Models Analysis|Subject, day (nested within subject), and time as random effects and condition (stress/control) as fixed effects.||Results below present the condition (stress/control) by time interactions.||||0.002
82528171|NCT05652036|164752488|OTHER|||||||0.21||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NPS score pre- and post-procedure||||0.21
82528172|NCT05652036|164752489|OTHER|||||||0.07||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in overactive bladder symptom bother before and after treatment||||.07
82528173|NCT05652036|164752489|OTHER|||||||0.16||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in overactive bladder HRQL mean before and after treatment||||0.16
82528174|NCT05652036|164752490|OTHER|||||||0.21|||||||Chi-squared|||Participant rated procedural satisfaction assessed 30-days post-procedure.||||0.21
82528175|NCT05652036|164752491|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as very much improved after treatment||||||0.79|||||||Chi-squared|||||||0.79
82528176|NCT05652036|164752491|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as much improved after treatment||||||0.27|||||||Chi-squared|||||||0.27
82528177|NCT05652036|164752491|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as minimally improved after treatment||||||0.14|||||||Chi-squared|||||||0.14
82528178|NCT05652036|164752491|OTHER|Clinical Global Impression of Improvement scale sores reported by participants as no difference after treatment||||||1|||||||Chi-squared|||||||1.0
82528179|NCT05652036|164752492|OTHER|Rates of urinary retention observed in participants after BTX-A treatment.||||||0.5|||||||Chi-squared|||||||0.5
82528180|NCT05652036|164752492|OTHER|Rates of urinary tract infection observed in participants after BTX-A treatment.||||||0.24|||||||Chi-squared|||||||0.24
82528181|NCT05652036|164752492|OTHER|Rates of bleeding requiring evaluation observed in participants after BTX-A treatment.||||||1|||||||Chi-squared|||||||1.0
82528182|NCT05652036|164752492|OTHER|Rates of hematuria observed in participants after BTX-A treatment.||||||0.46|||||||Chi-squared|||||||0.46
82643034|NCT03226366|165001380|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.29|TWO_SIDED|95.0|-20.4|6.1|||Regression, Linear||Change in emergency department door-to-antibiotic time (minutes) based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department (ED) door-to-antibiotic time after versus before intervention implementation at the intervention site adjusted for the change observed over the same time period at the control sites and for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and ED arrival via ambulance.||6.1|-20.4|0.29
82575266|NCT01681992|164860015|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group difference (Inv\_MMR\_Med minus Com\_MMR) in seroresponse rate should be ≥ -5% for antibodies to rubella virus when tested with ELISA.|Difference in seroresponse rate|-1.18|||||TWO_SIDED|97.5|-2.5|0.05|||||Asymptotic standardized 97.5% CI for the difference in seroresponse rate.|Non-inferiority of Inv\_MMR\_Med vaccine compared to Com\_MMR vaccine in terms of seroresponse rate to rubella virus at Day 42.||0.05|-2.50|
82575267|NCT01681992|164860016|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to measles virus when tested with ELISA.|Adjusted GMC ratio|0.79|||||TWO_SIDED|97.5|0.72|0.88|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-measles antibodies at Day 42.||0.88|0.72|
82575268|NCT01681992|164860016|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to measles virus when tested with ELISA.|Adjusted GMC ratio|0.91|||||TWO_SIDED|97.5|0.83|1.01|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-measles antibodies at Day 42.||1.01|0.83|
82575269|NCT01681992|164860017|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with ELISA.|Adjusted GMC ratio|0.82|||||TWO_SIDED|97.5|0.76|0.89|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.89|0.76|
82575270|NCT01681992|164860017|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with ELISA.|Adjusted GMC ratio|0.84|||||TWO_SIDED|97.5|0.78|0.91|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.91|0.78|
82575271|NCT01681992|164860018|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with PRNT.|Adjusted GMT ratio|0.6|||||TWO_SIDED|97.5|0.53|0.68|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed titers with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.68|0.53|
82643035|NCT03226366|165001381|SUPERIORITY||Odds Ratio (OR)|0.81||||0.72|TWO_SIDED|95.0|0.25|2.61|||Regression, Logistic||Odds ratio for hospital mortality after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in odds of hospital mortality after versus before implementation at the intervention site with adjustment for observed change in outcome over the same time period at the control sites as well as for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, an initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and arrival to the ED via ambulance.||2.61|0.25|0.72
82575272|NCT01681992|164860018|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to mumps virus when tested with PRNT.|Adjusted GMT ratio|0.65|||||TWO_SIDED|97.5|0.57|0.74|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed titers with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-mumps antibodies at Day 42.||0.74|0.57|
82575273|NCT01681992|164860019|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Min over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to rubella virus when tested with ELISA.|Adjusted GMC ratio|0.89|||||TWO_SIDED|97.5|0.83|0.95|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Min vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-rubella antibodies at Day 42.||0.95|0.83|
82575274|NCT01681992|164860019|NON_INFERIORITY|The lower limit of the 2-sided 97.5% CI on the group ratio of GMCs (Inv\_MMR\_Med over pooled Com\_MMR) should to be ≥ 0.67 for antibodies to rubella virus when tested with ELISA.|Adjusted GMC ratio|0.88|||||TWO_SIDED|97.5|0.83|0.95|||ANOVA|97.5% CI for GMC ratio was computed using ANOVA model on the log-transformed concentrations with vaccine group and the country as fixed effects.||Non-inferiority of Inv\_MMR\_Med vaccine compared to COM\_MMR vaccine in terms of GMCs for anti-rubella antibodies at Day 42.||0.95|0.83|
82577061|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.099||0.3112|TWO_SIDED|95.0|-0.3|0.1|||MMRM|||Suicide, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.30|0.3112
82575275|NCT04148989|164860045|SUPERIORITY||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-18.6|-7.0|||Regression, gamma||Change in emergency department door-to-antibiotic time (minutes) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||-7.0|-18.6|<0.001
82575276|NCT04148989|164860046|SUPERIORITY||Odds Ratio (OR)|0.89||||0.45|TWO_SIDED|95.0|0.68|1.19|||Regression, Logistic||Change in all-cause 30-day mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.19|0.68|0.45
82643036|NCT03226366|165001382|SUPERIORITY||Mean Difference (Final Values)|-9.5||||0.26|TWO_SIDED|95.0|-25.9|7.0|||Regression, Linear||Change in emergency department length of stay (minutes) after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department length of stay after versus before implementation at the intervention site with adjustment for the change observed over the same time period at the control sites as well as for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, an initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and arrival to the ED via ambulance.||7.0|-25.9|0.26
82647828|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.87|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 2 (Placebo=2.5 mg\<5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 2. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82575277|NCT04148989|164860047|SUPERIORITY||Odds Ratio (OR)|0.83||||0.1|TWO_SIDED|95.0|0.67|1.04|||Regression, Logistic||Change in all-cause 1-year mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.04|0.67|0.10
82575278|NCT04148989|164860048|SUPERIORITY||Odds Ratio (OR)|0.77||||0.15|TWO_SIDED|95.0|0.53|1.1|||Regression, Logistic|||Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Change in all-cause in-hospital mortality risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|1.10|0.53|0.15
82575279|NCT04148989|164860049|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.71|TWO_SIDED|95.0|-1.4|2.1|||Regression, gamma||Change in hospital charges ($1000s) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||2.1|-1.4|0.71
82364787|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-3.82|STANDARD_ERROR_OF_MEAN|2.42||0.1151|TWO_SIDED|95.0|-8.58|0.94|||ANCOVA|||Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.94|-8.58|0.1151
82364788|NCT02697773|164439226|SUPERIORITY||Least Square Mean Difference|-3.77|STANDARD_ERROR_OF_MEAN|2.41||0.1195|TWO_SIDED|95.0|-8.51|0.98|||ANCOVA|||Percent Activity Impairment: WPAI parameters were analyzed using ANCOVA model which included covariates of the corresponding baseline score, baseline diary average pain, index joint, highest Kellgren-Lawrence grade (2, 3 or 4), and treatment, with study site as a random effect.||0.98|-8.51|0.1195
82364789|NCT02697773|164439237|SUPERIORITY||Odds Ratio (OR)|0.48||||0.1444|TWO_SIDED|95.0|0.18|1.29|||Regression, Logistic|||Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.29|0.18|0.1444
82364790|NCT02697773|164439237|SUPERIORITY||Odds Ratio (OR)|0.29||||0.0335|TWO_SIDED|95.0|0.09|0.91|||Regression, Logistic|||Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.91|0.09|0.0335
82364791|NCT02697773|164439238|SUPERIORITY|||||||0.0809||||||P-value was based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0809
82448857|NCT00655629|164605008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.866|||<|0.0001||95.0|-22.599|-11.133|||ANCOVA|||Statistical analysis applies to the total population.||-11.133|-22.599|<0.0001
82643037|NCT03226366|165001383|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.55|TWO_SIDED|95.0|-3.3|1.8|||Regression, Linear||Estimated change in emergency department door-to-physician evaluation time (minutes) after versus before intervention implementation based on adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable regression to estimate the change in emergency department (ED) door-to-physician evaluation time after versus before implementation at the intervention site adjusted for the change observed over the same time period at the control sites and for subject's age, sex, Elixhauser Comorbidity Score, initial systolic blood pressure, initial Glasgow Coma Scale score \<14. initial temperature, ED triage acuity score, and ED arrival via ambulance.||1.8|-3.3|0.55
82643038|NCT00518011|165001390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.842||||0.3644|TWO_SIDED|95.0|0.483|7.027|||Log Rank|||||7.027|0.483|0.3644
82528183|NCT05652036|164752492|OTHER|Rates of bladder pain observed in participants after BTX-A treatment.||||||1|||||||Chi-squared|||||||1.0
82528184|NCT05652036|164752492|OTHER|Rates of ER department evaluations observed in participants after BTX-A treatment.||||||0.5|||||||Chi-squared|||||||0.5
82575280|NCT04148989|164860050|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.19|TWO_SIDED|95.0|-0.4|0.1|||Regression, gamma||Change in hospital length of stay (days) associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable gamma regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||0.1|-0.4|0.19
82575281|NCT04148989|164860051|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.1||||0.005|TWO_SIDED|95.0|1.03|1.17||Model adjusted for age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Regression, Logistic||Change in antimicrobial treatment risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||1.17|1.03|0.005
82575282|NCT04148989|164860052|SUPERIORITY||Odds Ratio (OR)|1.09||||0.73|TWO_SIDED|95.0|0.68|1.75|||Regression, Logistic||Change in risk for possible antimicrobial-associated adverse event associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||1.75|0.68|0.73
82577062|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.096||0.1345|TWO_SIDED|95.0|-0.05|0.33|||MMRM|||Suicide, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.05|0.1345
82643039|NCT00518011|165001394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.278||||0.7165|TWO_SIDED|95.0|0.339|4.824|||Log Rank|||||4.824|0.339|0.7165
82643040|NCT03409328|165001400|OTHER||F|38.44|||<|0.001|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||<.001
82643041|NCT03409328|165001401|OTHER||F|6.69||||0.013|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.013
82643042|NCT03409328|165001402|OTHER||F|5.07||||0.029|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.029
82528185|NCT05458024|164752502|SUPERIORITY||Beta coefficient|-0.14||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
82528186|NCT05458024|164752503|SUPERIORITY||Beta coefficient|-1.41||||0.21|TWO_SIDED|||||Analyses were adjusted for sex, baseline pain, and baseline vitamin D levels.|Mixed Models Analysis|||||||0.21
82643043|NCT03409328|165001403|OTHER||F|0.38||||0.542|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||||||.542
82643044|NCT03409328|165001404|OTHER||F|3.12||||0.084|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||The outcome for this analysis is internalized stigma.||||.084
82643045|NCT03409328|165001404|OTHER||F|0.67||||0.417|TWO_SIDED||||||ANCOVA|The ANCOVA controlled for baseline levels of the outcome.||The outcome for this analysis is identity affirmation.||||.417
82364792|NCT02697773|164439238|SUPERIORITY|||||||0.0239||||||P-value was based on the log-rank test.|Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0239
82528187|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-75.0||||0.4788|TWO_SIDED|95.0|-284.8|134.9|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH 1||134.9|-284.8|0.4788
82528188|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|124.1||||0.2309|TWO_SIDED|95.0|-80.6|328.9|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH 1||328.9|-80.6|0.2309
82528189|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-185.1||||0.0758|TWO_SIDED|95.0|-389.8|19.7|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH 1||19.7|-389.8|0.0758
82528190|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Median Difference (Net)|130.4||||0.2084|TWO_SIDED|95.0|-74.4|335.1|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH 1||335.1|-74.4|0.2084
82528191|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|132.6||||0.1684|TWO_SIDED|95.0|-57.4|322.6|||Mixed Models Analysis|||Placebo versus Asacol for ACTH 1||322.6|-57.4|0.1684
82364793|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.7||||0.0761|TWO_SIDED|95.0|0.48|1.04|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.04|0.48|0.0761
82364794|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0312|TWO_SIDED|95.0|0.44|0.96|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.96|0.44|0.0312
82364795|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0262|TWO_SIDED|95.0|0.45|0.95|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.95|0.45|0.0262
82364796|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.54||||0.0013|TWO_SIDED|95.0|0.37|0.79|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||0.79|0.37|0.0013
82364797|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6706|TWO_SIDED|95.0|0.64|1.33|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.33|0.64|0.6706
82364798|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.99||||0.972|TWO_SIDED|95.0|0.69|1.43|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.43|0.69|0.9720
82364799|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.89||||0.5311|TWO_SIDED|95.0|0.61|1.29|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.29|0.61|0.5311
82392877|NCT03301740|164497366|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|2.8||||0.02|TWO_SIDED|95.0|1.2|6.6||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important itching between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||6.6|1.2|0.02
82392878|NCT03301740|164497367|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|1.2||||0.7|TWO_SIDED|95.0|0.5|2.6||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important restless legs/difficulty keeping legs still between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.6|0.5|0.7
82577063|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.091||0.5148|TWO_SIDED|95.0|-0.24|0.12|||MMRM|||Suicide, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.24|0.5148
82364800|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.77||||0.1712|TWO_SIDED|95.0|0.53|1.12|||Regression, Logistic|||Week 12: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.12|0.53|0.1712
82364801|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7475|TWO_SIDED|95.0|0.73|1.54|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.54|0.73|0.7475
82364802|NCT02697773|164439239|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6564|TWO_SIDED|95.0|0.63|1.33|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade and treatment.||1.33|0.63|0.6564
82364803|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.11||0.4833|TWO_SIDED|95.0|0.73|1.16|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.16|0.73|0.4833
82364804|NCT02697773|164439241|SUPERIORITY|Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.|LS Mean Ratio|0.82|STANDARD_ERROR_OF_MEAN|0.1||0.0942|TWO_SIDED|95.0|0.65|1.03|||Negative binomial model|||||1.03|0.65|0.0942
82364805|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.88|STANDARD_ERROR_OF_MEAN|0.12||0.3371|TWO_SIDED|95.0|0.67|1.15|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.15|0.67|0.3371
82643046|NCT03930615|165001441|SUPERIORITY||Treatment Difference|-16.1||||0.0005|TWO_SIDED|95.0|-25.8|-6.5||A one-sided p-value ≤0.0249 was used for declaring statistical significance|Mantel Haenszel|Stratum adjusted|Letermovir minus placebo|It was hypothesized that LET is superior to placebo in the prevention of clinically significant CMV infection.|95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|-6.5|-25.8|0.0005
82643047|NCT03930615|165001442|OTHER||Difference in Percentage|-4.4|||||TWO_SIDED|95.0|-11.8|4.7|||||Letermovir minus Placebo||Miettinen \& Nurminen method|4.7|-11.8|
82643048|NCT03930615|165001443|OTHER||Difference in Percentage|3.5|||||TWO_SIDED|95.0|-2.7|8.6|||||Letermovir minus Placebo||Miettinen \& Nurminen method|8.6|-2.7|
82643049|NCT03930615|165001444|SUPERIORITY||Treatment Difference|-5.7||||0.1591|TWO_SIDED|95.0|-16.8|5.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.4|-16.8|0.1591
82643050|NCT03930615|165001445|SUPERIORITY||Treatment Difference|-5.7||||0.1591|TWO_SIDED|95.0|-16.8|5.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.4|-16.8|0.1591
82643051|NCT03930615|165001448|SUPERIORITY||Treatment difference|-14.1||||0.0012|TWO_SIDED|95.0|-23.3|-5.0|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|-5.0|-23.3|0.0012
82643052|NCT03930615|165001449|SUPERIORITY||Treatment Difference|-5.7||||0.1494|TWO_SIDED|95.0|-16.5|5.1|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.1|-16.5|0.1494
82643053|NCT03930615|165001450|SUPERIORITY||Treatment difference|0.7||||0.6244|TWO_SIDED|95.0|-3.8|5.3|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|5.3|-3.8|0.6244
82643054|NCT03930615|165001451|SUPERIORITY||Treatment Difference|0.3||||0.5264|TWO_SIDED|95.0|-7.9|8.4|||Mantel Haenszel|Stratum adjusted|Letermovir minus placebo||95% CIs for the treatment differences in percent response were calculated using stratum adjusted Mantel Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (haploidentical donor yes or no).|8.4|-7.9|0.5264
82643055|NCT03252015|165001496|SUPERIORITY||Mean Difference (Final Values)|-0.182|||||TWO_SIDED|95.0|-0.412|0.049||||||Day 7||0.049|-0.412|
82643056|NCT03252015|165001496|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.081|0.224||||||Day 7||0.224|-0.081|
82643057|NCT03252015|165001496|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
82426354|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Arachidonic acid (20:4n-6) mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|2.2|||<|0.001|TWO_SIDED|95.0|1.7|2.8||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||2.8|1.7|<0.001
82643058|NCT03252015|165001496|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
82643059|NCT03252015|165001497|SUPERIORITY||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.34|0.05||||||Day 7||0.050|-0.340|
82643060|NCT03252015|165001497|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.081|0.224||||||||0.224|-0.081|
82643061|NCT03252015|165001497|SUPERIORITY||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.151|0.294||||||Day 21||0.294|-0.151|
82643062|NCT03252015|165001497|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Day 21||0.000|0.000|
82643063|NCT03126682|165001556|SUPERIORITY|||||||0.212||||||Threshold of \<0.05|t-test, 2 sided|||||||0.212
82643064|NCT03256526|165001560|SUPERIORITY||LS mean difference|11.45||||0.1654|TWO_SIDED|90.0|-2.19|25.09|||ANCOVA|||||25.09|-2.19|0.1654
82643065|NCT03256526|165001560|SUPERIORITY||LS mean difference|-18.73||||0.0395|TWO_SIDED|90.0|-33.55|-3.9|||ANCOVA|||||-3.90|-33.55|0.0395
82643066|NCT01607398|165001565|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.05||||0.5146|TWO_SIDED|95.0|-20.5|7.6|||Wilcoxon (Mann-Whitney)|The analysis was done using the Van Elteren extension to the Wilcoxon rank sum test.|From Van-Elteren extension to the Wilcoxon Rank Sum test, adjusted for smoking status strata and Hodges-Lehmann estimator of the 95% CI, not stratified and unadjusted for multiplicity.|||7.600|-20.500|0.5146
82643067|NCT03443973|165001600|SUPERIORITY||Difference in Adjusted mean|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2998|TWO_SIDED|95.0|-0.55|0.17|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline (BL) + Geographic Region + Disease Stage + AD Medication at BL + Apolipoprotein E, Allele e4 (APOE e4) + Baseline ADAS COG13 + Baseline Alzheimer Disease Cooperative Study Group-Activities of Daily Living (ADCS-ADL).||0.17|-0.55|0.2998
82643068|NCT03443973|165001606|SUPERIORITY||Difference in adjusted mean|-1.28|STANDARD_ERROR_OF_MEAN|0.58||0.0273|TWO_SIDED|95.0|-2.41|-0.14|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4||-0.14|-2.41|0.0273
82643069|NCT03443973|165001607|SUPERIORITY||Difference in adjusted mean|0.82|STANDARD_ERROR_OF_MEAN|0.78||0.2918|TWO_SIDED|95.0|-0.7|2.34|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Region + Disease Stage + AD Medication at BL + APOE e4||2.34|-0.70|0.2918
82364806|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.76|STANDARD_ERROR_OF_MEAN|0.11||0.0508|TWO_SIDED|95.0|0.58|1.0|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.00|0.58|0.0508
82575283|NCT04148989|164860053|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.02||||0.9|TWO_SIDED|95.0|0.78|1.33||Model adjusted for age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.|Regression, Logistic|||Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.|Change in risk for possible antimicrobial-associated adverse event associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|1.33|0.78|0.90
82575284|NCT04148989|164860054|SUPERIORITY||Odds Ratio (OR)|1.03||||0.94|TWO_SIDED|95.0|0.49|2.17|||Regression, Logistic||Change in new-onset Clostridium difficile colitis risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||2.17|0.49|0.94
82575285|NCT04148989|164860055|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.6% of eligible patients.|Odds Ratio (OR)|1.41||||0.1|TWO_SIDED|95.0|0.93|2.14|||Regression, Logistic||Change in new-onset Clostridium difficile colitis risk associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis.|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||2.14|0.93|0.10
82575286|NCT04148989|164860056|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 3.1% of eligible patients.|Odds Ratio (OR)|1.15||||0.59|TWO_SIDED|95.0|0.69|1.93|||Regression, Logistic||Change in risk for antimicrobial administration in the ED associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable logistic regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||1.93|0.69|0.59
82575287|NCT04148989|164860057|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.02|TWO_SIDED|95.0|0.06|0.58|||Regression, Linear||Change in total spectrum score of antibiotics administered within 24 hours of ED arrival associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable ??? regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for subjects' age, sex, Elixhauser Comorbidity Score, ED arrival via ambulance, English language preference, temperature, systolic blood pressure, Acute Physiology Score, Sequential Organ Failure Assessment score, and ED-diagnosed source of infection.||0.58|0.06|0.02
82575288|NCT04148989|164860058|SUPERIORITY|Multiple imputation was employed to account for missing covariate data affecting 2.0% of eligible patients.|Mean Difference (Final Values)|0.17||||0.02|TWO_SIDED|95.0|0.03|0.31|||Regression, Linear||Change in total spectrum score of antibiotics administered within 24 hours of ED arrival associated with Code Sepsis implementation derived from adjusted differences-in-differences analysis|Differences-in-differences analysis using multivariable linear regression to estimate the change in outcome after versus before intervention implementation at the intervention site adjusted for the change observed at control sites and for prespecified covariates.||0.31|0.03|0.02
82575289|NCT02975102|164860111|NON_INFERIORITY|A sample size of 33 evaluable patients per treatment group was calculated to provide at least 90% power to demonstrate non-inferiority of CBL-101 to Vismed Multi. Assumptions included a non-inferiority margin of 2 grades and a standard deviation of 2.5|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.2|0.3|||||Treatment difference : CBL-101 - Vismed Multi|||0.3|-1.2|
82575290|NCT02975102|164860112|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82643070|NCT03443973|165001608|SUPERIORITY||Difference in adjusted mean|-0.86|STANDARD_ERROR_OF_MEAN|0.43||0.0438|TWO_SIDED|95.0|-1.7|-0.02|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.02|-1.70|0.0438
82575291|NCT02975102|164860113|SUPERIORITY|||||||0.0002||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0002
82575292|NCT02975102|164860114|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82575293|NCT02975102|164860115|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82364807|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.14||0.728|TWO_SIDED|95.0|0.71|1.27|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.27|0.71|0.7280
82364808|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.3244|TWO_SIDED|95.0|0.65|1.15|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.15|0.65|0.3244
82364809|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.16||0.5681|TWO_SIDED|95.0|0.65|1.27|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.27|0.65|0.5681
82643071|NCT03443973|165001609|SUPERIORITY||Difference in adjusted mean|0.52|STANDARD_ERROR_OF_MEAN|0.27||0.0566|TWO_SIDED|95.0|-0.01|1.06|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline + Geographic Region + Disease Stage + AD Medication at BL + APOE e4.||1.06|-0.01|0.0566
82643072|NCT03443973|165001610|SUPERIORITY||Difference in adjusted mean|-1.19|STANDARD_ERROR_OF_MEAN|0.53||0.026|TWO_SIDED|95.0|-2.24|-0.14|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.14|-2.24|0.0260
82643073|NCT03443973|165001611|SUPERIORITY||Difference in adjusted mean|-0.03|STANDARD_ERROR_OF_MEAN|0.28||0.9086|TWO_SIDED|95.0|-0.59|0.52|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.52|-0.59|0.9086
82643074|NCT03443973|165001612|SUPERIORITY||Difference in adjusted mean|1.41|STANDARD_ERROR_OF_MEAN|0.76||0.0629|TWO_SIDED|95.0|-0.08|2.9|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.90|-0.08|0.0629
82643075|NCT03443973|165001613|SUPERIORITY||Difference in adjusted mean|0.79|STANDARD_ERROR_OF_MEAN|0.66||0.2348|TWO_SIDED|95.0|-0.51|2.09|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.09|-0.51|0.2348
82444340|NCT02648217|164597307|SUPERIORITY_OR_OTHER||Treatment Contrast|0.02||||0.8426|TWO_SIDED|95.0|-0.2|0.24|||Mixed model for repeated measurements|||The endpoint was analysed using mixed model for repeated measurements (MMRM) with an unstructured covariance matrix. The model included treatment, sex, region, previous OAD treatment, pre-Ramadan trial exposure and visit as factors and age and baseline value of the endpoint as covariates. Interactions between visit and all factors and covariates are included in the model.||0.24|-0.20|0.8426
82444341|NCT02553538|164597314|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82444342|NCT02553538|164597315|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Logistic|||||||<0.001
82643076|NCT03443973|165001620|SUPERIORITY||Difference in adjusted means|-56.46|STANDARD_ERROR_OF_MEAN|3.976|<|0.0001|TWO_SIDED|95.0|-64.36|-48.56|||Mixed Model for Repeated Measures|||Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Type of Tracer + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||-48.56|-64.36|<.0001
82643077|NCT03443973|165001621|SUPERIORITY||Difference in adjusted mean|0.01|STANDARD_ERROR_OF_MEAN|0.023||0.7816|TWO_SIDED|95.0|-0.04|0.05|||Mixed Model for Repeated Measures|||Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.04|0.7816
82364810|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.13||0.1387|TWO_SIDED|95.0|0.55|1.09|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.09|0.55|0.1387
82364811|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.18||0.7275|TWO_SIDED|95.0|0.76|1.48|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.48|0.76|0.7275
82364812|NCT02697773|164439241|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|0.67|1.31|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.31|0.67|0.7090
82364813|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.25||0.9164|TWO_SIDED|95.0|0.58|1.62|||Negative binomial model|||Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.62|0.58|0.9164
82444343|NCT02553538|164597316|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Logistic|||||||<0.001
82444344|NCT02553538|164597317|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82643078|NCT03443973|165001621|SUPERIORITY||Difference in adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.018||0.6203|TWO_SIDED|95.0|-0.03|0.05|||Mixed Model for Repeated Measures|||Medial Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.03|0.6203
82643079|NCT03443973|165001621|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.7754|TWO_SIDED|95.0|-0.03|0.03|||Mixed Model for Repeated Measures|||Frontal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.03|-0.03|0.7754
82444345|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3598|TWO_SIDED|95.0|0.53|1.26|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.26|0.53|0.3598
82575294|NCT02975102|164860116|SUPERIORITY|||||||0.0186||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0186
82643080|NCT03443973|165001621|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.9022|TWO_SIDED|95.0|-0.05|0.05|||Mixed Model for Repeated Measures|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.05|0.9022
82392879|NCT03301740|164497368|EQUIVALENCE|The equivalence margin is the standard error of the estimated differences between UF and standard treatment from the repeated measure mixed model.|Odds Ratio (OR)|0.6||||0.5|TWO_SIDED|95.0|0.2|2.4||Statistically significant p-value is \<0.05|Mixed Models Analysis|||Null hypothesis = no difference in clinically important tingling/feeling of pins and needles between UF profiling and conventional HD. Likelihood ratio tests were performed using repeated measure logistic regression with the binary treatment indicator as a fixed effect predictor and assigning each subject a random intercept term. A likelihood ratio test assessed the significance of whether the coefficient corresponding to the binary treatment indicator equals to zero.||2.4|0.2|0.5
82392880|NCT04216589|164497369|OTHER|This was a single arm trial.|Mean Difference (Net)|-4.24|STANDARD_DEVIATION|4.05|<|0.001|TWO_SIDED|95.0|-5.41|-3.06|||Regression, Linear|||The study was powered to detect an absolute IHTG change of -5% assuming a null change of 0%, a standard deviation of absolute IHTG change of 9%, and 37 evaluable participants.||-3.06|-5.41|<0.001
82392881|NCT04216589|164497370|OTHER|This was a single arm trial.|Mean Difference (Net)|-31.33|STANDARD_DEVIATION|26.5|<|0.001|TWO_SIDED|95.0|-39.04|-23.62||No adjustment for multiple comparisons|Regression, Linear|||||-23.62|-39.04|<0.001
82392882|NCT04216589|164497374|OTHER|This was a single arm trial.|Mean Difference (Net)|-2.77|STANDARD_DEVIATION|2.05|<|0.001|TWO_SIDED|95.0|-3.36|-2.17||Not adjusted for multiple comparisons.|Regression, Linear|||||-2.17|-3.36|<0.001
82528192|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-90.4||||0.5122|TWO_SIDED|95.0|-364.7|184.0|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH 2||184.0|-364.7|0.5122
82528193|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-75.5||||0.5417|TWO_SIDED|95.0|-321.7|170.7|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH 2||170.7|-321.7|0.5417
82575295|NCT02975102|164860117|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82392883|NCT04216589|164497375|OTHER|This was a single arm trial.|Mean Difference (Net)|-2.15|STANDARD_DEVIATION|1.38|<|0.001|TWO_SIDED|95.0|-2.55|-1.75||Not adjusted for multiple comparisons|Regression, Linear|||||-1.75|-2.55|<0.001
82392884|NCT04216589|164497376|OTHER|This was a single arm trial.|Mean Difference (Net)|-7.8|STANDARD_DEVIATION|5.77|<|0.001|TWO_SIDED|95.0|-9.48|-6.13||Not adjusted for multiple comparisons|Regression, Linear|||||-6.13|-9.48|<0.001
82392885|NCT04216589|164497377|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.16|STANDARD_DEVIATION|3.96|<|0.001|TWO_SIDED|95.0|-7.3|-5.03||Not adjusted for multiple comparisons|Regression, Linear|||||-5.03|-7.30|<0.001
82392886|NCT04216589|164497378|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.66|STANDARD_DEVIATION|6.47|<|0.001|TWO_SIDED|95.0|-8.54|-4.78||Not adjusted for multiple comparisons|Regression, Linear|||||-4.78|-8.54|<0.001
82392887|NCT04216589|164497379|OTHER|This was a single arm trial.|Mean Difference (Net)|-5.53|STANDARD_DEVIATION|5.3|<|0.001|TWO_SIDED|95.0|-7.07|-3.99||Not adjusted for multiple comparisons|Regression, Linear|||||-3.99|-7.07|<0.001
82392888|NCT04216589|164497380|OTHER|This was a single arm trial.|Mean Difference (Net)|-1.46|STANDARD_DEVIATION|5.82||0.092|TWO_SIDED|95.0|-3.17|0.25||Not adjusted for multiple comparisons|Regression, Linear|||||0.25|-3.17|0.092
82392889|NCT04216589|164497382|OTHER|This was a single arm trial.|Mean Difference (Net)|-0.25|STANDARD_DEVIATION|0.259|<|0.001|TWO_SIDED|95.0|-0.32|-0.17||Not adjusted for multiple comparisons|Regression, Linear|||||-0.17|-0.32|< 0.001
82392890|NCT04216589|164497383|OTHER|This was a single arm trial.|Mean Difference (Net)|-9.9|STANDARD_DEVIATION|16.6|<|0.001|TWO_SIDED|95.0|-14.7|-5.09||Not adjusted for multiple comparisons|Regression, Linear|||||-5.09|-14.70|<0.001
82392891|NCT04216589|164497384|OTHER|This was a single arm trial.|Mean Difference (Net)|-8.87|STANDARD_DEVIATION|11.5|<|0.001|TWO_SIDED|95.0|-12.26|-5.48||Not adjusted for multiple comparisons|Regression, Linear|||||-5.48|-12.26|<0.001
82392892|NCT04216589|164497385|OTHER|This was a single arm trial.|Mean Difference (Net)|-3.98|STANDARD_DEVIATION|23.1||0.25|TWO_SIDED|95.0|-10.84|2.89||Not adjusted for multiple comparisons|Regression, Linear|||||2.89|-10.84|0.25
82528194|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.4||||0.6511|TWO_SIDED|95.0|-294.2|185.3|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH 2||185.3|-294.2|0.6511
82392893|NCT04216589|164497386|OTHER|This was a single arm trial.|Mean Difference (Net)|-11.93|STANDARD_DEVIATION|26.4||0.004|TWO_SIDED|95.0|-19.79|-4.08||Not adjusted for multiple comparisons|Regression, Linear|||||-4.08|-19.79|0.004
82392894|NCT04216589|164497387|OTHER|This was a single arm trial.|Mean Difference (Net)|-1.04|STANDARD_DEVIATION|20.5||0.73|TWO_SIDED|95.0|-7.14|5.05||Not adjusted for multiple comparisons|Regression, Linear|||||5.05|-7.14|0.73
82392895|NCT04216589|164497388|OTHER|This was a single arm trial.|Mean Difference (Net)|-6.91|STANDARD_DEVIATION|23.1||0.051|TWO_SIDED|95.0|-13.85|0.03||Not adjusted for multiple comparisons|Regression, Linear|||||0.03|-13.85|0.051
82528195|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.7||||0.6117|TWO_SIDED|95.0|-189.1|318.5|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH 2||318.5|-189.1|0.6117
82528196|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-99.7||||0.3882|TWO_SIDED|95.0|-329.3|129.9|||Mixed Models Analysis|||Placebo versus Asacol for ACTH 2||129.9|-329.3|0.3882
82528197|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-125.5||||0.4781|TWO_SIDED|95.0|-477.5|226.5|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH effect||226.5|-477.5|0.4781
82528198|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-277.9||||0.0834|TWO_SIDED|95.0|-593.7|37.9|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH effect||37.9|-593.7|0.0834
82528199|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|121.7||||0.4313|TWO_SIDED|95.0|-185.8|429.3|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH effect||429.3|-185.8|0.4313
82575296|NCT02975102|164860118|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82643081|NCT03443973|165001622|SUPERIORITY||Percent Difference in Geometric Mean|-13.2||||0.014|TWO_SIDED|95.0|-22.51|-2.87|||ANCOVA|||||-2.87|-22.51|0.014
82528200|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-73.5||||0.6528|TWO_SIDED|95.0|-399.1|252.0|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH effect||252.0|-399.1|0.6528
82528201|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-248.5||||0.0966|TWO_SIDED|95.0|-542.9|46.0|||Mixed Models Analysis|||Placebo versus Asacol for ACTH effect||46.0|-542.9|0.0966
82528202|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.2||||0.7704|TWO_SIDED|95.0|-187.6|252.0|||Mixed Models Analysis|||Placebo versus GSK1399686 10 mg for ACTH morning||252.0|-187.6|0.7704
82528203|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|165.3||||0.0988|TWO_SIDED|95.0|-32.0|362.5|||Mixed Models Analysis|||Placebo versus GSK1399686 30 mg for ACTH morning||362.5|-32.0|0.0988
82528204|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-153.4||||0.1153|TWO_SIDED|95.0|-345.5|38.7|||Mixed Models Analysis|||Placebo versus GSK1399686 100 mg for ACTH morning||38.7|-345.5|0.1153
82528205|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.7||||0.9636|TWO_SIDED|95.0|-198.7|208.0|||Mixed Models Analysis|||Placebo versus GSK1399686 300 mg for ACTH morning||208.0|-198.7|0.9636
82575297|NCT02975102|164860119|SUPERIORITY|||||||0.0011||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0011
82364814|NCT02697773|164439243|SUPERIORITY|Week 2: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.|LS Mean Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.2||0.3542|TWO_SIDED|95.0|0.47|1.31|||Negative binomial model|||||1.31|0.47|0.3542
82364815|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.28||0.8065|TWO_SIDED|95.0|0.51|1.68|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.68|0.51|0.8065
82364816|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.66|STANDARD_ERROR_OF_MEAN|0.2||0.1752|TWO_SIDED|95.0|0.36|1.2|||Negative binomial model|||Week 4: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.20|0.36|0.1752
82364817|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.3||0.7837|TWO_SIDED|95.0|0.48|1.73|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.73|0.48|0.7837
82364818|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.81|STANDARD_ERROR_OF_MEAN|0.26||0.5062|TWO_SIDED|95.0|0.43|1.52|||Negative binomial model|||Week 8: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.52|0.43|0.5062
82448858|NCT00655629|164605009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.04|||<|0.0001||95.0|-31.547|-20.533|||ANCOVA|||Statistical analysis applies to the total population.||-20.533|-31.547|<0.0001
82448859|NCT00655629|164605010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.496|||<|0.0001||95.0|-24.676|-14.315|||ANCOVA|||Statistical analysis applies to the total population.||-14.315|-24.676|<0.0001
82528206|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|119.8||||0.1972|TWO_SIDED|95.0|-64.1|303.8|||Mixed Models Analysis|||Placebo versus Asacol for ACTH morning||303.8|-64.1|0.1972
82528207|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-207.6||||0.0495|TWO_SIDED|95.0|-414.6|-0.5|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH 1||-0.5|-414.6|0.0495
82528208|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.5||||0.9333|TWO_SIDED|95.0|-210.4|193.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH 1||193.4|-210.4|0.9333
82528209|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-317.7||||0.0025|TWO_SIDED|95.0|-519.6|-115.8|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH 1||-115.8|-519.6|0.0025
82575298|NCT02975102|164860120|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82528210|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.9823|TWO_SIDED|95.0|-204.1|199.6|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH 1||199.6|-204.1|0.9823
82528211|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.3||||0.946|TWO_SIDED|95.0|-265.0|283.7|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH 2||283.7|-265.0|0.9460
82528212|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.2||||0.8445|TWO_SIDED|95.0|-222.0|270.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH 2||270.4|-222.0|0.8445
82528213|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.3||||0.7069|TWO_SIDED|95.0|-194.5|285.0|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH 2||285.0|-194.5|0.7069
82528214|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|164.4||||0.1998|TWO_SIDED|95.0|-89.4|418.2|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH 2||418.2|-89.4|0.1998
82528215|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|123.0||||0.4871|TWO_SIDED|95.0|-229.0|474.9|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH effect||474.9|-229.0|0.4871
82528216|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.4||||0.8527|TWO_SIDED|95.0|-345.2|286.4|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH effect||286.4|-345.2|0.8527
82528217|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|370.2||||0.0192|TWO_SIDED|95.0|62.6|677.8|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH effect||677.8|62.6|0.0192
82528218|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|174.9||||0.2865|TWO_SIDED|95.0|-150.6|500.5|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH effect||500.5|-150.6|0.2865
82528219|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.6||||0.4279|TWO_SIDED|95.0|-307.5|132.2|||Mixed Models Analysis|||Asacol versus GSK1399686 10 mg for ACTH morning||132.2|-307.5|0.4279
82575299|NCT02975102|164860121|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||> 0.05
82575300|NCT02975102|164860122|SUPERIORITY|||||||0.005||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.005
82575301|NCT02975102|164860123|SUPERIORITY|||||||0.0008||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0008
82528220|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.4||||0.6464|TWO_SIDED|95.0|-151.8|242.7|||Mixed Models Analysis|||Asacol versus GSK1399686 30 mg for ACTH morning||242.7|-151.8|0.6464
82528221|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-273.3||||0.0061|TWO_SIDED|95.0|-465.4|-81.2|||Mixed Models Analysis|||Asacol versus GSK1399686 100 mg for ACTH morning||-81.2|-465.4|0.0061
82528222|NCT01036022|164752586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-115.2||||0.2614|TWO_SIDED|95.0|-318.5|88.1|||Mixed Models Analysis|||Asacol versus GSK1399686 300 mg for ACTH morning||88.1|-318.5|0.2614
82528223|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.7559|TWO_SIDED|95.0|-2.0|1.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 1 SCCAI score||1.5|-2.0|0.7559
82575302|NCT02975102|164860124|SUPERIORITY|||||||0.0026||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0026
82575303|NCT02975102|164860125|SUPERIORITY|||||||0.077||||||Significance level of 0.05 . P-Value result provided only for Global Question|ANCOVA|Adjustment for baseline||||||0.077
82575304|NCT02975102|164860126|SUPERIORITY|||||||0.6097||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.6097
82575305|NCT02975102|164860127|SUPERIORITY|||||||0.231||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.231
82575306|NCT02975102|164860128|SUPERIORITY|||||||0.0135||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0135
82575307|NCT02975102|164860129|SUPERIORITY|||||||0.575||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.575
82364819|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.33||0.6821|TWO_SIDED|95.0|0.4|1.82|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.82|0.40|0.6821
82364820|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.3||0.5032|TWO_SIDED|95.0|0.36|1.65|||Negative binomial model|||Week 12: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||1.65|0.36|0.5032
82392896|NCT04216589|164497389|OTHER|This was a single arm trial.|Mean Difference (Net)|2.04|STANDARD_DEVIATION|6.96||0.053|TWO_SIDED|95.0|-0.02|4.11||Not adjusted for multiple comparisons|Regression, Linear|||||4.11|-0.02|0.053
82528224|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.1238|TWO_SIDED|95.0|-0.4|3.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 1 SCCAI score||3.2|-0.4|0.1238
82528225|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.6302|TWO_SIDED|95.0|-1.3|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 1 SCCAI score||2.2|-1.3|0.6302
82528226|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.2777|TWO_SIDED|95.0|-0.8|2.8|||Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 1 SCCAI score||2.8|-0.8|0.2777
82575308|NCT01825577|164860137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||.55
82575309|NCT01825577|164860138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.67|TWO_SIDED||||||t-test, 2 sided|||||||.67
82575310|NCT01782690|164860168|SUPERIORITY_OR_OTHER|||||||0.2361|||||||Log Rank|||Comparison of Rash=Yes versus Rash=No within Erlotinib plus Gemcitabine arm||||0.2361
82528227|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8069|TWO_SIDED|95.0|-1.4|1.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 1 SCCAI score||1.8|-1.4|0.8069
82528228|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.7699|TWO_SIDED|95.0|-1.6|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 2 SCCAI score||2.2|-1.6|0.7699
82528229|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3869|TWO_SIDED|95.0|-1.1|2.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 2 SCCAI score||2.8|-1.1|0.3869
82575311|NCT02353312|164860181|EQUIVALENCE|Pairwise comparisons of VO2 max means with equal variances between participant on and off treatment.||||||0.823|||||||t-test, 2 sided|||||||0.823
82575312|NCT01948076|164860194|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
82575313|NCT01948076|164860195|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|95.0|||||McNemar|||||||0.043
82575314|NCT01151423|164860196|SUPERIORITY||Hazard Ratio (HR)|2.2|||=|0.005|TWO_SIDED|95.0|1.28|3.78||Caplacizumab was compared to placebo using a one-sided log-rank test in order to assess superiority at 2.5% significance level.|Stratified log-rank test||The HR was estimated from a Cox proportional Hazards regression model with presence (yes) / absence (no) of 1 PE session prior to randomization as covariate.|The primary analysis consisted of a Kaplan-Meier analysis with time-to-response as endpoint and treatment group as the independent variable and stratified for absence/presence of one PE session prior to randomization.||3.78|1.28|= 0.005
82575315|NCT04991753|164860286|SUPERIORITY||Least square mean difference|-0.45|||=|0.224|TWO_SIDED|95.0|-1.17|0.28|||ANCOVA|||||0.28|-1.17|=0.224
82575316|NCT00475644|164860305|SUPERIORITY||Odds Ratio (OR)|0.031|||||TWO_SIDED|95.0|0.001|0.86||||||||0.860|0.001|
82575317|NCT01020877|164860309|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test\[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|110.0|||||TWO_SIDED|90.0|103.0|117.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||117|103|
82528230|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.6695|TWO_SIDED|95.0|-2.4|1.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 2 SCCAI score||1.5|-2.4|0.6695
82364821|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|1.24|STANDARD_ERROR_OF_MEAN|0.47||0.5796|TWO_SIDED|95.0|0.58|2.61|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||2.61|0.58|0.5796
82364822|NCT02697773|164439243|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.36||0.8725|TWO_SIDED|95.0|0.44|2.0|||Negative binomial model|||Week 16: LS Mean was ratio of treatments. Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, and treatment group.||2.00|0.44|0.8725
82364823|NCT00842530|164439261|SUPERIORITY|The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|30.2|||||TWO_SIDED|95.0|-13.4|56.6||||||Vaccine efficacy of CYD dengue vaccine: The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups.||56.6|-13.4|
82364824|NCT00842530|164439262|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|75.2|||||TWO_SIDED|95.0|-377.0|99.6||||||Vaccine efficacy against severe VCD (IDMC)||99.6|-377|
82364825|NCT00842530|164439262|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|50.3|||||TWO_SIDED|95.0|-585.0|96.4||||||Vaccine efficacy of against severe VCD (WHO 1999)||96.4|-585|
82364826|NCT00842530|164439263|SUPERIORITY|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|41.5|||||TWO_SIDED|95.0|-38.4|74.9||||||Vaccine efficacy:- 28 days Post-Inj. 2 up to Inj. 3||74.9|-38.4|
82364827|NCT00842530|164439263|SUPERIORITY|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant only if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|35.3|||||TWO_SIDED|95.0|3.3|56.5||||||Vaccine efficacy: 28 days Post-Inj. 2 up to end of Active Phase||56.5|3.3|
82364828|NCT00842530|164439269|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|33.4|||||TWO_SIDED|95.0|4.1|53.5||||||Vaccine efficacy: 28 days Post-Inj. 1 up to end of Active Phase||53.5|4.1|
82364829|NCT00842530|164439269|OTHER|The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy. The CI was calculated using the exact method conditional on the total number of cases in both groups. The vaccine efficacy of the CYD dengue vaccine against severe VCD cases was considered significant if the lower bound of its 95% CI was greater than 0%.|Vaccine efficacy (%)|34.9|||||TWO_SIDED|95.0|6.7|54.3||||||Vaccine efficacy: Day 0 up to end of Active Phase||54.3|6.7|
82364830|NCT00440115|164439275|SUPERIORITY|Power calculations demonstrated that 250 participants per group would have 95% power to compare combined high-intensity disease management and moderate-intensity disease management with pharmacotherapy management, on the basis of 10% (pharmacotherapy management), 15% (moderate-intensity disease management), and 25% (high-intensity disease management) self-reported quit rates.|Odds Ratio (OR)|1.12||||0.54|TWO_SIDED|95.0|0.78|1.61|||Mixed Models Analysis||(High-intensity disease management and moderate-intensity disease management) vs pharmacotherapy management|||1.61|0.78|0.54
82364831|NCT00440115|164439275|SUPERIORITY|Power calculations indicated that 250 participants per group would have 80% power to compare high-intensity disease management and moderate-intensity disease management with pharmacotherapy management, on the basis of 10% (pharmacotherapy management), 15% (moderate-intensity disease management), and 25% (high-intensity disease management) self-reported quit rates.|Odds Ratio (OR)|1.33||||0.18|TWO_SIDED|95.0|0.88|2.02|||Mixed Models Analysis||High-intensity disease management vs moderate-intensity disease management|||2.02|0.88|0.18
82364832|NCT03064438|164439278|SUPERIORITY||Difference of Least Squares (LS) Mean|1.8|STANDARD_ERROR_OF_MEAN|1.95||0.366|TWO_SIDED|95.0|-2.162|5.727|||t-test, 2 sided|||||5.727|-2.162|0.366
82364833|NCT03064438|164439279|SUPERIORITY|||||||0.1099|||||||Van Elteren test|||Percent change from baseline at Week 2||||0.1099
82448860|NCT00655629|164605011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.418|||<|0.0001||95.0|-24.439|-12.396|||ANCOVA|||Statistical analysis applies to the total population.||-12.396|-24.439|<0.0001
82643082|NCT03443973|165001623|SUPERIORITY||Percent Difference in Geometric Mean|-14.4|||<|0.001|TWO_SIDED|95.0|-21.88|-6.21|||ANCOVA|||||-6.21|-21.88|<0.001
82364834|NCT03064438|164439279|SUPERIORITY|||||||0.1653|||||||Van Elteren test|||Percent change from baseline at Week 4||||0.1653
82448861|NCT00655629|164605012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.379|||<|0.0001||95.0|-28.006|-16.753|||ANCOVA|||Statistical analysis applies to the total population.||-16.753|-28.006|<0.0001
82528231|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.5152|TWO_SIDED|95.0|-1.4|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 2 SCCAI score||2.7|-1.4|0.5152
82392897|NCT04216589|164497390|OTHER|This was a single arm trial.|Mean Difference (Net)|-0.78|STANDARD_DEVIATION|6.66||0.43|TWO_SIDED|95.0|-2.76|1.2||Not adjusted for multiple comparisons|Regression, Linear|||||1.20|-2.76|0.43
82392898|NCT04216589|164497391|OTHER|This was a single arm trial.|Mean Difference (Net)|-26.78|STANDARD_DEVIATION|64.8||0.007|TWO_SIDED|95.0|-46.04|-7.53||Not adjusted for multiple comparisons|Regression, Linear|||||-7.53|-46.04|0.007
82392899|NCT04216589|164497392|OTHER|This was a single arm trial.|Mean Difference (Net)|-18.65|STANDARD_DEVIATION|49.3||0.014|TWO_SIDED|95.0|-33.29|-4.01||Not adjusted for multiple comparisons|Regression, Linear|||||-4.01|-33.29|0.014
82392900|NCT04216589|164497393|OTHER|This was a single arm trial.|Risk Ratio (RR)|0.72||||0.016|TWO_SIDED|95.0|0.55|0.94||Not adjusted for multiple comparisons.|GEE model for repeated binary outcomes|The GEE model used a log link and an unstructured correlation.|The risk ratio is comparing the estimated risk at Week 12 (0.55; 95% CI: 0.43, 0.72) to estimated risk at Baseline (0.77; 95% CI: 0.67, 0.90).|Comparison between Baseline and Week 12.||0.94|0.55|0.016
82392901|NCT04216589|164497393|OTHER|This was a single arm trial.|Risk Ratio (RR)|0.75||||0.033|TWO_SIDED|95.0|0.58|0.98||Not adjusted for multiple comparisons.|GEE model for repeated binary outcomes|The GEE model used a log link and an unstructured correlation.|The risk ratio is comparing the estimated risk at Week 24 (0.58; 95% CI: 0.46, 0.74) to estimated risk at Baseline (0.77; 95% CI: 0.67, 0.90).|Comparison between Baseline and Week 24.||0.98|0.58|0.033
82528232|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.4507|TWO_SIDED|95.0|-2.4|1.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 2 SCCAI score||1.1|-2.4|0.4507
82643083|NCT03443973|165001624|SUPERIORITY||Percent Difference in Geometric Mean|-17.8|||<|0.001|TWO_SIDED|95.0|-24.92|-10.11|||ANCOVA|||||-10.11|-24.92|<0.001
82364835|NCT03064438|164439279|SUPERIORITY|||||||0.8437|||||||Van Elteren test|||Percent change from baseline at Week 8||||0.8437
82392902|NCT01254851|164497407|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|0.39||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.70
82392903|NCT02086682|164497458|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82392904|NCT03976323|164497465|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.8721|TWO_SIDED|95.0|0.92|1.36||One-sided p-value based on log-rank test stratified by Eastern Cooperative Oncology Group (ECOG) at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.36|0.92|0.8721
82392905|NCT03976323|164497466|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6649|TWO_SIDED|95.0|0.87|1.25||One-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|Log Rank||Based on Cox regression model with Efron's method of tie handling and with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization and baseline PD-L1 status.|||1.25|0.87|0.6649
82392906|NCT03976323|164497469|SUPERIORITY||Difference in Least Squares (LS) Means|-1.9||||0.2533|TWO_SIDED|95.0|-5.16|1.36||Two-sided p-value based on t test.|t-test, 2 sided||Based on constrained longitudinal data analysis model (cLDA) model with PRO scores as response variable with covariates for treatment by time interaction, stratification factors, response at randomization and baseline PD-L1 expression as covariates.|||1.36|-5.16|0.2533
82364836|NCT03064438|164439279|SUPERIORITY|||||||0.4644|||||||Van Elteren test|||Percent change from baseline at Week 12||||0.4644
82364837|NCT03064438|164439280|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82364838|NCT03064438|164439281|SUPERIORITY||Difference of LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.91||0.495|TWO_SIDED|95.0|-2.571|5.211|||t-test, 2 sided|||Change from baseline at Week 2||5.211|-2.571|0.495
82392907|NCT03976323|164497470|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8125|TWO_SIDED|95.0|0.76|1.24||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.24|0.76|0.8125
82528233|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8707|TWO_SIDED|95.0|-1.9|2.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 3 SCCAI score||2.3|-1.9|0.8707
82643084|NCT03443973|165001625|SUPERIORITY||Percent Difference in Geometric Mean|-21.0|||<|0.001|TWO_SIDED|95.0|-28.29|-12.97|||ANCOVA|||||-12.97|-28.29|<0.001
82364839|NCT03064438|164439281|SUPERIORITY||Difference of LS Mean|-1.5|STANDARD_ERROR_OF_MEAN|1.74||0.399|TWO_SIDED|95.0|-5.014|2.045|||t-test, 2 sided|||Change from baseline at Week 4||2.045|-5.014|0.399
82364840|NCT03064438|164439281|SUPERIORITY||Difference of LS Mean|2.2|STANDARD_ERROR_OF_MEAN|2.07||0.29|TWO_SIDED|95.0|-1.965|6.407|||t-test, 2 sided|||Change from baseline at Week 8||6.407|-1.965|0.290
82392908|NCT03976323|164497471|SUPERIORITY||Difference in LS Means|-0.16||||0.9364|TWO_SIDED|95.0|-4.02|3.71||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||3.71|-4.02|0.9364
82392909|NCT03976323|164497472|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3782|TWO_SIDED|95.0|0.66|1.17||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.17|0.66|0.3782
82643085|NCT00467038|165001627|SUPERIORITY_OR_OTHER||||||<|0.004|TWO_SIDED||||||t-test, 1 sided|\<0.004 p value was common for all time points.||||||<0.004
82643086|NCT00467038|165001628|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Fisher's LSD post-hoc, trend level|||||||0.08
82643087|NCT02545868|165001666|SUPERIORITY||normal distribution approximation|-30.7|||||TWO_SIDED|95.0|-50.5|-10.8||||||Difference in positive response, Group A minus Group B||-10.8|-50.5|
82643088|NCT02545868|165001667|SUPERIORITY||normal distribution approximation|-36.4|||||TWO_SIDED|95.0|-56.0|-16.7||||||Difference in positive response, Group A minus Group B||-16.7|-56.0|
82364841|NCT03064438|164439281|SUPERIORITY||Difference of LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.83||0.343|TWO_SIDED|95.0|-1.953|5.469|||t-test, 2 sided|||Change from baseline at Week 12||5.469|-1.953|0.343
82444346|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.6544|TWO_SIDED|95.0|0.59|1.39|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.39|0.59|0.6544
82444347|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9958|TWO_SIDED|95.0|0.64|1.58|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.58|0.64|0.9958
82444348|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6276|TWO_SIDED|95.0|0.59|1.37|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.37|0.59|0.6276
82444349|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8819|TWO_SIDED|95.0|0.63|1.49|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.49|0.63|0.8819
82444350|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7197|TWO_SIDED|95.0|0.6|1.42|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.42|0.60|0.7197
82444351|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.6204|TWO_SIDED|95.0|0.73|1.7|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.70|0.73|0.6204
82444352|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.4779|TWO_SIDED|95.0|0.75|1.84|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.84|0.75|0.4779
82444353|NCT00907296|164597346|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9952|TWO_SIDED|95.0|0.65|1.53|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.53|0.65|0.9952
82528234|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.2915|TWO_SIDED|95.0|-0.9|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 3 SCCAI score||3.1|-0.9|0.2915
82528235|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.7251|TWO_SIDED|95.0|-2.4|1.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 3 SCCAI score||1.7|-2.4|0.7251
82528236|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4556|TWO_SIDED|95.0|-1.3|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 3 SCCAI score||2.9|-1.3|0.4556
82528237|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.662|TWO_SIDED|95.0|-2.3|1.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 3 SCCAI score||1.4|-2.3|0.6620
82528238|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2844|TWO_SIDED|95.0|-1.1|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 4 SCCAI score||3.5|-1.1|0.2844
82575318|NCT01020877|164860310|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.0|||||TWO_SIDED|90.0|98.2|115.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115|98.2|
82643089|NCT02545868|165001668|SUPERIORITY||normal distribution approximation|-47.0|||||TWO_SIDED|95.0|-63.2|-30.7||||||Difference in positive response, Group A minus Group B||-30.7|-63.2|
82364842|NCT03064438|164439282|SUPERIORITY||Difference of LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.75||0.407|TWO_SIDED|95.0|-0.894|2.155|||t-test, 2 sided|||Change from baseline at Week 2||2.155|-0.894|0.407
82392910|NCT03976323|164497473|SUPERIORITY||Difference in LS Means|-0.35||||0.8285|TWO_SIDED|95.0|-3.54|2.83||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.83|-3.54|0.8285
82392911|NCT03976323|164497474|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6272|TWO_SIDED|95.0|0.78|1.51||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.51|0.78|0.6272
82392912|NCT03976323|164497475|SUPERIORITY||Difference in LS Means|-1.51||||0.4422|TWO_SIDED|95.0|-5.38|2.35||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.35|-5.38|0.4422
82392913|NCT03976323|164497476|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9156|TWO_SIDED|95.0|0.74|1.31||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.31|0.74|0.9156
82392914|NCT03976323|164497477|SUPERIORITY||Difference in LS Means|-0.01||||0.9962|TWO_SIDED|95.0|-2.94|2.93||Two-sided p-value based on t test.|t-test, 2 sided||Based on cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors, response at randomization, and baseline PD-L1 expression as covariates.|||2.93|-2.94|0.9962
82392915|NCT03976323|164497478|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5517|TWO_SIDED|95.0|0.83|1.4||Two-sided p-value based on log-rank test stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG at pre-randomization visit, response at randomization, and baseline PD-L1 expression.|||1.40|0.83|0.5517
82392916|NCT02294461|164497479|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Cox Proportional Hazards|0.38|||<|0.0001|TWO_SIDED|95.0|0.27|0.52|||Hazard Ratio|||P-value is based on an unstratified log-rank test. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.52|0.27|<0.0001
82392917|NCT02294461|164497480|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.0208|TWO_SIDED|95.0|0.51|0.95||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who were not known to have had died at the analysis date were censored at date last known alive. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.95|0.51|0.0208
82392918|NCT02294461|164497481|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001||95.0|0.2|0.46||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who were not known to have had an rPFS event were censored at the date of the last assessment showing no objective evidence of rPFS prior to scan modality change, new antineoplastic treatment, initiation of radiation therapy for prostate cancer, skeletal-related event (SRE) and 2 or more consecutive missed tumor assessments. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide.||0.46|0.20|<0.0001
82392919|NCT02294461|164497482|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.2501|TWO_SIDED|95.0|0.21|1.52||P-value was based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who did not have an SRE were censored at the date of the last assessment indicating no evidence of SRE. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||1.52|0.21|0.2501
82392920|NCT02294461|164497483|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28||||0.002||95.0|0.12|0.66||P-value is based on an unstratified log-rank test.|Unstratified log-rank test|||Participants who did not start cytotoxic chemotherapy were censored at the date of the last assessment indicating no evidence of cytotoxic chemotherapy usage. Hazard ratio calculated using unstratified Cox Proportional Hazards model with treatment as the only covariate for enzalutamide group versus placebo group.||0.66|0.12|0.0020
82392921|NCT02294461|164497484|SUPERIORITY_OR_OTHER_LEGACY||Difference of response rate|55.8|||<|0.0001|TWO_SIDED|95.0|47.4|64.2||P-value is based on unstratified Cochran-Mantel-Haenszel mean score test.|Unstratified Cochran-Mantel-Haenszel %|||||64.2|47.4|<0.0001
82392922|NCT02294461|164497485|SUPERIORITY_OR_OTHER_LEGACY||Difference in objective response rate|26.0|||<|0.0001|TWO_SIDED|95.0|14.7|37.4||P-value is based on unstratified Cochran-Mantel-Haenszel mean score test.|Unstratified Cochran-Mantel-Haenszel|||When deriving the response category, it was based on the target, non-target and new lesions without confirming CR, PR, and Progressive disease (PD). Participants with no post baseline assessment were included in the category of Nonevaluable (NE). The best overall soft tissue objective response was defined as PR or CR based on the investigator assessments of target, non-target and new lesions while on the study treatment.||37.4|14.7|<0.0001
82392923|NCT04676412|164497495|OTHER|Percent difference and 95% CI were calculated using Miettinen and Nurminen method with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).|Difference in percentage|-8.4||||0.79262|TWO_SIDED|95.0|-27.4|11.9|||Stratified Miettinen and Nurminen|One-sided p-value for testing. H0: difference in percentage =0 versus H1: difference in percentage \> 0||||11.9|-27.4|0.79262
82448862|NCT00655629|164605013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.758|||<|0.0001||95.0|-36.736|-24.779|||ANOVA|||Statistical analysis applies to the total population.||-24.779|-36.736|<0.0001
82528239|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2799|TWO_SIDED|95.0|-1.0|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 4 SCCAI score||3.5|-1.0|0.2799
82643090|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-50.7|||||TWO_SIDED|95.0|-62.7|-38.8||||||Serotype 1||-38.8|-62.7|
82643091|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-43.3|||||TWO_SIDED|95.0|-56.5|-30.1||||||Serotype 2||-30.1|-56.5|
82444354|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1713|TWO_SIDED|95.0|0.47|1.14|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.14|0.47|0.1713
82444355|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9958|TWO_SIDED|95.0|0.65|1.53|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.53|0.65|0.9958
82444356|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.295|TWO_SIDED|95.0|0.81|1.97|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.97|0.81|0.2950
82643092|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-48.0|||||TWO_SIDED|95.0|-65.2|-30.9||||||Serotype 3||-30.9|-65.2|
82364843|NCT03064438|164439282|SUPERIORITY||Difference of LS Mean|0.4|STANDARD_ERROR_OF_MEAN|0.36||0.291|TWO_SIDED|95.0|-0.342|1.109|||t-test, 2 sided|||Change from baseline at Week 4||1.109|-0.342|0.291
82364844|NCT03064438|164439282|SUPERIORITY||Difference of LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.734|TWO_SIDED|95.0|-0.763|1.073|||t-test, 2 sided|||Change from baseline at Week 8||1.073|-0.763|0.734
82364845|NCT03064438|164439282|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.57||0.952|TWO_SIDED|95.0|-1.128|1.197|||t-test, 2 sided|||Change from baseline in pustule lesions at Week 12||1.197|-1.128|0.952
82364846|NCT03064438|164439283|SUPERIORITY||Difference of LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.313|TWO_SIDED|95.0|-0.215|0.069|||t-test, 2 sided|||Change from baseline at Week 2||0.069|-0.215|0.313
82364847|NCT03064438|164439283|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.942|TWO_SIDED|95.0|-0.141|0.152|||t-test, 2 sided|||Change from baseline at Week 4||0.152|-0.141|0.942
82392924|NCT04676412|164497498|OTHER|Difference in LS means and 95% CI were calculated using the Constrained longitudinal data analysis (cLDA) model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in Least Square (LS) Means|-0.25||||0.9519|TWO_SIDED|95.0|-8.59|8.09|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||8.09|-8.59|0.9519
82392925|NCT04676412|164497499|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|8.81||||0.0628|TWO_SIDED|95.0|-0.49|18.11|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||18.11|-0.49|0.0628
82444357|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0844|TWO_SIDED|95.0|0.44|1.05|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.05|0.44|0.0844
82448863|NCT00655629|164605014|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel|60.2391|||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|CMH adjusted for age group and center||Statistical analysis applies to the total population.||||<0.0001
82643093|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-62.8|||||TWO_SIDED|95.0|-77.2|-48.4||||||Serotype 4||-48.4|-77.2|
82364848|NCT03064438|164439283|SUPERIORITY||Difference of LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.284|TWO_SIDED|95.0|-0.067|0.226|||t-test, 2 sided|||Change from baseline in nodule lesions at Week 8||0.226|-0.067|0.284
82364849|NCT03064438|164439283|SUPERIORITY||Difference of LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.542|TWO_SIDED|95.0|-0.198|0.105|||t-test, 2 sided|||Change from baseline at Week 12||0.105|-0.198|0.542
82364850|NCT03064438|164439284|SUPERIORITY||Difference of LS Mean|2.0|STANDARD_ERROR_OF_MEAN|2.04||0.333|TWO_SIDED|95.0|-2.135|6.139|||t-test, 2 sided|||Change from baseline at Week 2||6.139|-2.135|0.333
82364851|NCT03064438|164439284|SUPERIORITY||Difference of LS Mean|-1.0|STANDARD_ERROR_OF_MEAN|1.9||0.591|TWO_SIDED|95.0|-4.882|2.822|||t-test, 2 sided|||Change from baseline at Week 4||2.822|-4.882|0.591
82364852|NCT03064438|164439284|SUPERIORITY||Difference of LS Mean|2.5|STANDARD_ERROR_OF_MEAN|2.12||0.254|TWO_SIDED|95.0|-1.84|6.758|||t-test, 2 sided|||Change from baseline at Week 8||6.758|-1.840|0.254
82364853|NCT03064438|164439284|SUPERIORITY||Difference of LS Mean|1.8|STANDARD_ERROR_OF_MEAN|1.95||0.356|TWO_SIDED|95.0|-2.131|5.779|||t-test, 2 sided|||Change from baseline at Week 12||5.779|-2.131|0.356
82364854|NCT03135899|164439352|OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.064|||TWO_SIDED|90.0|-0.048|0.165|||Mixed Models Analysis||BI 443651 100 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.165|-0.048|
82448864|NCT01963845|164605037|SUPERIORITY_OR_OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
82364855|NCT03135899|164439352|OTHER||Mean Difference (Final Values)|-0.037|STANDARD_ERROR_OF_MEAN|0.064|||TWO_SIDED|90.0|-0.144|0.07|||Mixed Models Analysis||BI 443651 400 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.070|-0.144|
82528240|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.7655|TWO_SIDED|95.0|-1.9|2.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 4 SCCAI score||2.6|-1.9|0.7655
82528241|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.3332|TWO_SIDED|95.0|-1.2|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 4 SCCAI score||3.5|-1.2|0.3332
82643094|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-53.8|||||TWO_SIDED|95.0|-68.0|-39.7||||||Serotype 5||-39.7|-68.0|
82643095|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-37.5|||||TWO_SIDED|95.0|-54.4|-20.7||||||Serotype 6B||-20.7|-54.4|
82643096|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-58.3|||||TWO_SIDED|95.0|-73.1|-43.6||||||Serotype 7F||-43.6|-73.1|
82364856|NCT03135899|164439352|OTHER||Mean Difference (Final Values)|-0.157|STANDARD_ERROR_OF_MEAN|0.066|||TWO_SIDED|90.0|-0.266|-0.047|||Mixed Models Analysis||BI 443651 1200 μg is compared to placebo.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||-0.047|-0.266|
82364857|NCT03135899|164439354|OTHER||Geometric Mean Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.168|||TWO_SIDED|90.0|0.595|0.977|||Mixed Models Analysis||BI 443651 100 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||0.977|0.595|
82392926|NCT04676412|164497500|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|3.59||||0.3298|TWO_SIDED|95.0|-3.7|10.87|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||10.87|-3.70|0.3298
82392927|NCT04676412|164497501|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|-0.28||||0.9594|TWO_SIDED|95.0|-11.32|10.75|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||10.75|-11.32|0.9594
82643097|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-32.9|||||TWO_SIDED|95.0|-45.7|-20.1||||||Serotype 8||-20.1|-45.7|
82643098|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-46.4|||||TWO_SIDED|95.0|-62.5|-30.4||||||Serotype 9N||-30.4|-62.5|
82643099|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-40.4|||||TWO_SIDED|95.0|-55.7|-25.1||||||Serotype 9V||-25.1|-55.7|
82643100|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-62.8|||||TWO_SIDED|95.0|-77.2|-48.4||||||Serotype 10A||-48.4|-77.2|
82643101|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-69.4|-35.6||||||Serotype 11A||-35.6|-69.4|
82643102|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-55.6|||||TWO_SIDED|95.0|-72.8|-38.3||||||Serotype 12F||-38.3|-72.8|
82643103|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-25.5|||||TWO_SIDED|95.0|-41.4|-9.7||||||Serotype 14||-9.7|-41.4|
82643104|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-47.9|||||TWO_SIDED|95.0|-63.9|-32.0||||||Serotype 15B||-32.0|-63.9|
82643105|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-56.9|||||TWO_SIDED|95.0|-72.4|-41.4||||||Serotype 17F||-41.4|-72.4|
82643106|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-52.4|||||TWO_SIDED|95.0|-67.4|-37.3||||||Serotype 18C||-37.3|-67.4|
82643107|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-46.4|||||TWO_SIDED|95.0|-62.5|-30.4||||||Serotype 19A||-30.4|-62.5|
82643108|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-68.8|-36.1||||||Serotype 19F||-36.1|-68.8|
82364858|NCT03135899|164439354|OTHER||Geometric Mean Ratio|0.926|STANDARD_ERROR_OF_MEAN|1.168|||TWO_SIDED|90.0|0.715|1.199|||Mixed Models Analysis||BI 443651 400 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||1.199|0.715|
82643109|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-61.5|||||TWO_SIDED|95.0|-77.5|-45.4||||||Serotype 20||-45.4|-77.5|
82643110|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-56.8|||||TWO_SIDED|95.0|-71.7|-42.0||||||Serotype 22F||-42.0|-71.7|
82643111|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-33.2|||||TWO_SIDED|95.0|-51.7|-14.6||||||Serotype 23F||-14.6|-51.7|
82643112|NCT02545868|165001672|SUPERIORITY||Normal Distribution Approximation|-47.8|||||TWO_SIDED|95.0|-62.2|-33.5||||||Serotype 33F||-33.5|-62.2|
82643113|NCT02545868|165001673|SUPERIORITY||Normal Distribution Approximation|-13.4|||||TWO_SIDED|95.0|-21.6|-5.3||||||||-5.3|-21.6|
82643114|NCT02545868|165001674|SUPERIORITY||Normal Distribution Approximation|-59.7|||||TWO_SIDED|95.0|-72.6|-46.8||||||||-46.8|-72.6|
82643115|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-45.2|||||TWO_SIDED|95.0|-62.7|-27.6||||||Serotype 1- Difference in positive response, Group A1 minus Group B||-27.6|-62.7|
82643116|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-42.2|||||TWO_SIDED|95.0|-60.6|-23.8||||||Serotype 2- Difference in positive response, Group A1 minus Group B||-23.8|-60.6|
82643117|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-49.8|||||TWO_SIDED|95.0|-70.4|-29.2||||||Serotype 3- Difference in positive response, Group A1 minus Group B||-29.2|-70.4|
82643118|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-56.0|||||TWO_SIDED|95.0|-75.7|-36.3||||||Serotype 4- Difference in positive response, Group A1 minus Group B||-36.3|-75.7|
82528242|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.6985|TWO_SIDED|95.0|-1.6|2.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 4 SCCAI score||2.4|-1.6|0.6985
82643119|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-58.3|||||TWO_SIDED|95.0|-76.4|-40.3||||||Serotype 5- Difference in positive response, Group A1 minus Group B||-40.3|-76.4|
82364859|NCT03135899|164439354|OTHER||Geometric Mean Ratio|0.845|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|90.0|0.651|1.095|||Mixed Models Analysis||BI 443651 1200 μg is compared to placebo. Standard error of the mean is actually geometric standard error.|The mixed effects model included 'treatment' and 'period' as fixed effects, 'patient' as a random effect, and 'period baseline' as well as 'patient baseline' as covariates. No hypothesis was tested. The patient baseline was obtained by calculating the mean of the period baselines for each patient. Covariance structure variance component (VC) was used for random subject effect.||1.095|0.651|
82364860|NCT03135899|164439356|OTHER||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.31|3.95|||Regression, Cox||BI 443651 100 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||3.95|1.31|
82364861|NCT03135899|164439356|OTHER||Hazard Ratio (HR)|2.08|||||TWO_SIDED|95.0|1.22|3.53|||Regression, Cox||BI 443651 400 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||3.53|1.22|
82364862|NCT03135899|164439356|OTHER||Hazard Ratio (HR)|2.59|||||TWO_SIDED|95.0|1.5|4.47|||Regression, Cox||BI 443651 1200 μg is compared to placebo.|The cox proportional hazard model included treatment and period as fixed effect and patient baseline as covariate. No hypothesis was tested. The patient baseline was obtained by calculating the median of the period baselines for each patient. A hazard ratio greater than 1 gives that active treatment is not-inferior to placebo.||4.47|1.50|
82364863|NCT04146363|164439357|SUPERIORITY||Risk Difference (RD)|29.7|||<|1e-06|TWO_SIDED|95.0|21.6|37.8|||Cochran-Mantel-Haenszel|||||37.8|21.6|<0.000001
82364864|NCT04146363|164439358|SUPERIORITY||Risk Difference (RD)|42.0|||<|1e-06|TWO_SIDED|95.0|33.3|50.6|||Cochran-Mantel-Haenszel|||||50.6|33.3|<0.000001
82364865|NCT04146363|164439359|SUPERIORITY||Risk Difference (RD)|1.7||||0.218644|TWO_SIDED|95.0|-0.6|4.0|||Cochran-Mantel-Haenszel|||||4.0|-0.6|0.218644
82364866|NCT04146363|164439360|SUPERIORITY||Risk Difference (RD)|9.6||||0.000498|TWO_SIDED|95.0|5.7|13.6|||Cochran-Mantel-Haenszel|||||13.6|5.7|0.000498
82364867|NCT04146363|164439361|SUPERIORITY||Risk Difference (RD)|30.8|||<|1e-06|TWO_SIDED|95.0|22.1|39.4|||Cochran-Mantel-Haenszel|||||39.4|22.1|<0.000001
82364868|NCT04146363|164439362|SUPERIORITY||Risk Difference (RD)|28.8|||<|1e-06|TWO_SIDED|95.0|21.3|36.3|||Cochran-Mantel-Haenszel|||||36.3|21.3|<0.000001
82364869|NCT04146363|164439363|SUPERIORITY||LS Mean Difference (Final Values)|-30.42|STANDARD_ERROR_OF_MEAN|3.915|<|1e-06|TWO_SIDED|95.0|-38.1|-22.7|||ANCOVA|||||-22.7|-38.1|<0.000001
82364870|NCT04146363|164439364|SUPERIORITY||Risk Difference (RD)|32.9|||<|1e-06|TWO_SIDED|95.0|24.6|41.3|||Cochran-Mantel-Haenszel|||||41.3|24.6|<0.000001
82364871|NCT04146363|164439365|SUPERIORITY||Risk Difference (RD)|35.1|||<|1e-06|TWO_SIDED|95.0|26.3|43.9|||Cochran-Mantel-Haenszel|||||43.9|26.3|<0.000001
82364872|NCT04146363|164439366|SUPERIORITY||LS Mean Difference (Final Values)|-38.31|STANDARD_ERROR_OF_MEAN|4.151|<|1e-06|TWO_SIDED|95.0|-46.4|-30.2|||ANCOVA|||||-30.2|-46.4|<0.000001
82448865|NCT01963845|164605038|SUPERIORITY_OR_OTHER|||||||0.7583|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in AST values from baseline to 24 weeks between the two groups.||||0.7583
82528243|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.3256|TWO_SIDED|95.0|-1.3|3.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 5 SCCAI score||3.7|-1.3|0.3256
82643120|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-34.0|||||TWO_SIDED|95.0|-55.7|-12.2||||||Serotype 6B- Difference in positive response, Group A1 minus Group B||-12.2|-55.7|
82643121|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-42.5|||||TWO_SIDED|95.0|-61.8|-23.2||||||Serotype 7F- Difference in positive response, Group A1 minus Group B||-23.2|-61.8|
82364873|NCT04146363|164439367|SUPERIORITY||LS Mean Difference (Final Values)|-18.5|STANDARD_ERROR_OF_MEAN|2.0|<|1e-06|TWO_SIDED|95.0|-22.4|-14.5|||Mixed Models Analysis|||||-14.5|-22.4|<0.000001
82364874|NCT04146363|164439368|SUPERIORITY||Risk Difference (RD)|10.7||||0.000412|TWO_SIDED|95.0|6.2|15.2|||Cochran-Mantel-Haenszel|||||15.2|6.2|0.000412
82364875|NCT04146363|164439369|SUPERIORITY||LS Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|0.68|<|1e-06|TWO_SIDED|95.0|-7.1|-4.5|||ANCOVA|||||-4.5|-7.1|<0.000001
82364876|NCT04146363|164439370|SUPERIORITY||Risk Difference (RD)|38.8|||<|1e-06|TWO_SIDED|95.0|28.3|49.3|||Cochran-Mantel-Haenszel|||||49.3|28.3|<0.000001
82364877|NCT04146363|164439371|SUPERIORITY||Risk Difference (RD)|41.8|||<|1e-06|TWO_SIDED|95.0|31.2|52.3|||Cochran-Mantel-Haenszel|||||52.3|31.2|<0.000001
82364878|NCT04146363|164439372|SUPERIORITY||LS Mean Difference (Final Values)|-32.35|STANDARD_ERROR_OF_MEAN|5.23|<|1e-06|TWO_SIDED|95.0|-42.6|-22.1|||ANCOVA|||||-22.1|-42.6|<0.000001
82364879|NCT04146363|164439373|SUPERIORITY||LS Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.098|<|1e-06|TWO_SIDED|95.0|-0.9|-0.6|||ANCOVA|||||-0.6|-0.9|<0.000001
82364880|NCT04146363|164439374|SUPERIORITY||Risk Difference (RD)|34.6|||<|1e-06|TWO_SIDED|95.0|26.2|43.0|||Cochran-Mantel-Haenszel|||||43.0|26.2|<0.000001
82364881|NCT04146363|164439375|SUPERIORITY||Risk Difference (RD)|1.5||||0.275529|TWO_SIDED|95.0|-0.8|3.9|||Cochran-Mantel-Haenszel|||||3.9|-0.8|0.275529
82364882|NCT04146363|164439376|SUPERIORITY||Risk Difference (RD)|5.3||||0.016656|TWO_SIDED|95.0|1.9|8.6|||Cochran-Mantel-Haenszel|||||8.6|1.9|0.016656
82364883|NCT04146363|164439377|SUPERIORITY||Risk Difference (RD)|19.3||||3e-06|TWO_SIDED|95.0|13.7|25.0|||Cochran-Mantel-Haenszel|||||25.0|13.7|0.000003
82364884|NCT04146363|164439378|SUPERIORITY||Risk Difference (RD)|1.8||||0.244105|TWO_SIDED|95.0|-0.8|4.3|||Cochran-Mantel-Haenszel|||||4.3|-0.8|0.244105
82392928|NCT04676412|164497502|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1) and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS Means|-5.53||||0.162|TWO_SIDED|95.0|-13.37|2.31|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG and baseline PDL-1.||||2.31|-13.37|0.1620
82392929|NCT04676412|164497503|OTHER|HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.03||||0.9419|TWO_SIDED|95.0|0.47|2.26|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.26|0.47|0.9419
82392930|NCT04676412|164497504|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.01||||0.9789|TWO_SIDED|95.0|0.43|2.38|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.38|0.43|0.9789
82392931|NCT04676412|164497505|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.08||||0.8856|TWO_SIDED|95.0|0.36|3.28|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||3.28|0.36|0.8856
82364885|NCT04146363|164439379|SUPERIORITY||Risk Difference (RD)|5.8||||0.01445|TWO_SIDED|95.0|2.2|9.4|||Cochran-Mantel-Haenszel|||||9.4|2.2|0.014450
82364886|NCT04146363|164439380|SUPERIORITY||Risk Difference (RD)|20.9||||2e-06|TWO_SIDED|95.0|14.9|26.9|||Cochran-Mantel-Haenszel|||||26.9|14.9|0.000002
82364887|NCT04146363|164439381|SUPERIORITY||LS Mean Difference (Final Values)|-30.29|STANDARD_ERROR_OF_MEAN|3.203|<|1e-06|TWO_SIDED|95.0|-36.59|-24.0|||ANCOVA|||||-24.00|-36.59|<0.000001
82364888|NCT04146363|164439383|SUPERIORITY||Risk Difference (RD)|17.9||||0.072375|TWO_SIDED|95.0|-2.3|38.1|||Cochran-Mantel-Haenszel|||||38.1|-2.3|0.072375
82364889|NCT04146363|164439383|SUPERIORITY||Risk Difference (RD)|17.5||||0.106653|TWO_SIDED|95.0|-4.5|39.5|||Cochran-Mantel-Haenszel|||||39.5|-4.5|0.106653
82364890|NCT04146363|164439384|SUPERIORITY||Risk Difference (RD)|28.0||||0.029857|TWO_SIDED|95.0|2.8|53.2|||Cochran-Mantel-Haenszel|||||53.2|2.8|0.029857
82364891|NCT04146363|164439384|SUPERIORITY||Risk Difference (RD)|29.0||||0.019744|TWO_SIDED|95.0|4.6|53.3|||Cochran-Mantel-Haenszel|||||53.3|4.6|0.019744
82364892|NCT04146363|164439385|SUPERIORITY||Risk Difference (RD)|15.8||||0.268265|TWO_SIDED|95.0|-12.2|43.8|||Cochran-Mantel-Haenszel|||||43.8|-12.2|0.268265
82392932|NCT04676412|164497506|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.55||||0.3264|TWO_SIDED|95.0|0.64|3.75|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||3.75|0.64|0.3264
82392933|NCT04676412|164497507|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.31||||0.4068|TWO_SIDED|95.0|0.7|2.46|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||2.46|0.70|0.4068
82392934|NCT04676412|164497508|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1) and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|7.81||||0.002|TWO_SIDED|95.0|1.71|35.62|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status and baseline PD-L1 status.||||35.62|1.71|0.0020
82448866|NCT01963845|164605039|SUPERIORITY_OR_OTHER|||||||0.8569|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in ALT values from baseline to 24 weeks between the two groups.||||0.8569
82448867|NCT01963845|164605040|SUPERIORITY_OR_OTHER|||||||0.7984|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in LDL values from baseline to 24 weeks between the two groups.||||0.7984
82528244|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.65|TWO_SIDED|95.0|-1.9|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 5 SCCAI score||3.0|-1.9|0.6500
82528245|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.8758|TWO_SIDED|95.0|-2.3|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 5 SCCAI score||2.7|-2.3|0.8758
82364893|NCT04146363|164439385|SUPERIORITY||Risk Difference (RD)|16.6||||0.192776|TWO_SIDED|95.0|-9.4|42.7|||Cochran-Mantel-Haenszel|||||42.7|-9.4|0.192776
82364894|NCT04146363|164439386|SUPERIORITY||Risk Difference (RD)|18.6||||0.185361|TWO_SIDED|95.0|-9.3|46.6|||Cochran-Mantel-Haenszel|||||46.6|-9.3|0.185361
82364895|NCT04146363|164439386|SUPERIORITY||Risk Difference (RD)|16.6||||0.192776|TWO_SIDED|95.0|-9.4|42.7|||Cochran-Mantel-Haenszel|||||42.7|-9.4|0.192776
82364896|NCT04146363|164439387|SUPERIORITY||LS Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|4.756||0.714208|TWO_SIDED|95.0|-11.15|7.66|||ANCOVA|||||7.66|-11.15|0.714208
82643122|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-42.2|||||TWO_SIDED|95.0|-60.6|-23.8||||||Serotype 8- Difference in positive response, Group A1 minus Group B||-23.8|-60.6|
82364897|NCT04146363|164439387|SUPERIORITY||LS Mean Difference (Final Values)|-5.63|STANDARD_ERROR_OF_MEAN|4.4748||0.237855|TWO_SIDED|95.0|-15.01|3.76|||ANCOVA|||||3.76|-15.01|0.237855
82364898|NCT04146363|164439388|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|1e-06|TWO_SIDED|95.0|0.1|0.2|||ANCOVA|||UK||0.2|0.1|<0.000001
82364899|NCT04146363|164439388|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.01|<|1e-06|TWO_SIDED|95.0|0.1|0.1|||ANCOVA|||US||0.1|0.1|<0.000001
82528246|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.7298|TWO_SIDED|95.0|-2.1|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 5 SCCAI score||3.0|-2.1|0.7298
82528247|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.5963|TWO_SIDED|95.0|-2.8|1.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 5 SCCAI score||1.6|-2.8|0.5963
82643123|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-37.2|||||TWO_SIDED|95.0|-58.9|-15.5||||||Serotype 9N- Difference in positive response, Group A1 minus Group B||-15.5|-58.9|
82364900|NCT04146363|164439389|SUPERIORITY||LS Mean Difference (Final Values)|8.3|STANDARD_ERROR_OF_MEAN|1.66|<|1e-06|TWO_SIDED|95.0|5.0|11.5|||ANCOVA|||||11.5|5.0|<0.000001
82364901|NCT04146363|164439390|SUPERIORITY||LS Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|0.8|<|1e-06|TWO_SIDED|95.0|-8.9|-5.7|||Mixed Models Analysis|||||-5.7|-8.9|<0.000001
82364902|NCT04146363|164439391|SUPERIORITY||LS Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|2.917||0.716224|TWO_SIDED|95.0|-6.93|4.8|||ANCOVA|||||4.80|-6.93|0.716224
82364903|NCT04146363|164439392|SUPERIORITY||LS Mean Difference (Final Values)|-4.51|STANDARD_ERROR_OF_MEAN|2.599||0.089275|TWO_SIDED|95.0|-9.73|0.72|||ANCOVA|||||0.72|-9.73|0.089275
82364904|NCT04146363|164439393|SUPERIORITY||LS Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|0.796||4e-05|TWO_SIDED|95.0|-4.88|-1.75|||ANCOVA|||||-1.75|-4.88|0.000040
82364905|NCT04146363|164439394|SUPERIORITY||LS Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.697||0.000127|TWO_SIDED|95.0|-4.07|-1.33|||ANCOVA|||||-1.33|-4.07|0.000127
82364906|NCT04146363|164439395|SUPERIORITY||LS Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.121||0.455291|TWO_SIDED|95.0|-0.33|0.15|||ANCOVA|||||0.15|-0.33|0.455291
82364907|NCT04146363|164439396|SUPERIORITY||LS Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|1.52||6.9e-05|TWO_SIDED|95.0|-10.1|-3.9|||Mixed Models Analysis|||||-3.9|-10.1|0.000069
82364908|NCT03660241|164439398|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|138.49|||||TWO_SIDED|90.0|93.74|204.61|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group.||204.61|93.74|
82364909|NCT03660241|164439398|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|99.11|||||TWO_SIDED|90.0|57.3|171.43|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||171.43|57.30|
82364910|NCT03660241|164439399|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|182.91|||||TWO_SIDED|90.0|117.09|285.71|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||285.71|117.09|
82364911|NCT03660241|164439399|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|121.32|||||TWO_SIDED|90.0|68.32|215.41|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||215.41|68.32|
82364912|NCT03660241|164439400|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|99.51|||||TWO_SIDED|90.0|59.8|165.57|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||165.57|59.80|
82364913|NCT03660241|164439400|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|167.79|||||TWO_SIDED|90.0|97.2|289.64|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||289.64|97.20|
82364914|NCT03660241|164439401|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|154.22|||||TWO_SIDED|90.0|105.11|226.26|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||226.26|105.11|
82364915|NCT03660241|164439401|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|287.06|||||TWO_SIDED|90.0|196.72|418.89|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||418.89|196.72|
82364916|NCT03660241|164439402|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|137.43|||||TWO_SIDED|90.0|106.82|176.81|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||176.81|106.82|
82364917|NCT03660241|164439402|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|177.92|||||TWO_SIDED|90.0|135.91|232.92|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||232.92|135.91|
82364918|NCT03660241|164439403|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|269.78|||||TWO_SIDED|90.0|196.61|370.18|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||370.18|196.61|
82364919|NCT03660241|164439403|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|571.43|||||TWO_SIDED|90.0|447.27|730.05|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||730.05|447.27|
82364920|NCT03660241|164439408|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|133.87|||||TWO_SIDED|90.0|102.45|174.92|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||174.92|102.45|
82364921|NCT03660241|164439408|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|129.49|||||TWO_SIDED|90.0|92.86|180.57|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||180.57|92.86|
82364922|NCT03660241|164439409|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|210.2|||||TWO_SIDED|90.0|154.6|285.8|||ANOVA|||Test: the moderate renal impairment group; Reference: the normal renal function group||285.80|154.60|
82364923|NCT03660241|164439409|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of adjusted geometric means|290.68|||||TWO_SIDED|90.0|217.39|388.69|||ANOVA|||Test: the severe renal impairment group; Reference: the normal renal function group||388.69|217.39|
82364924|NCT02914236|164439410|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Hypothesis was that the mean improvement in NOSE score exceeded 15 points||||||<0.0001
82364925|NCT02914236|164439411|SUPERIORITY||||||<|0.0001|||||||binomial test|Success threshold required at least 55% of subjects to be responders||||||<0.0001
82364926|NCT01286558|164439487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||||95.0|-0.22|3.14|||ANCOVA|||||3.14|-0.22|
82364927|NCT01286558|164439488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||||95.0|-0.36|4.64|||ANCOVA|||||4.64|-0.36|
82364928|NCT01286558|164439489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||||95.0|-2.58|0.15|||ANCOVA|||||0.15|-2.58|
82364929|NCT01286558|164439490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||||95.0|-4.16|0.35|||ANCOVA|||||0.35|-4.16|
82364930|NCT01286558|164439491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||||95.0|-2.57|0.79|||ANCOVA|||||0.79|-2.57|
82364931|NCT01286558|164439492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||||95.0|-4.27|0.99|||ANCOVA|||||0.99|-4.27|
82364932|NCT00836719|164439513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||<|0.01||95.0|3.4|16.2|||Mixed Models Analysis|Anisotropic power spatial covariance matrix with terms for time and the registered voxel. Kenward Rogers approx. for degrees of freedom.|Dependent variable: NAA. Main effect: visit. Covariates Cre, %GM, %WM, %CSF and %lesion in the voxel.|N-Acetylaspartate acid (NAA) levels were measured at baseline and exit (6 months). Voxels with less than 30% error in NAA and Creatine (Cre) were used.NAA, Cre and Proton Density were log transformed.||16.2|3.4|<0.01
82364933|NCT01567826|164439533|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|||||||0.01
82364934|NCT01567826|164439534|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||||||0.02
82426355|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Total n-6 mol% between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.4||||0.61|TWO_SIDED|95.0|-1.0|1.7||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.7|-1.0|0.61
82528248|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6498|TWO_SIDED|95.0|-2.0|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 10 mg for Week 6 SCCAI score||3.1|-2.0|0.6498
82364935|NCT02062801|164439541|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Chi-squared|||||||0.18
82364936|NCT02062801|164439542|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Chi-squared|||||||0.97
82364937|NCT02062801|164439543|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Chi-squared|||||||.56
82364938|NCT01612884|164439544|OTHER|Student's T-test||||||0.85|||||||t-test, 2 sided|||||||0.85
82364939|NCT01612884|164439545|OTHER|Chi-Square||||||0.93|||||||Chi-squared|||||||0.93
82364940|NCT01612884|164439546|OTHER|Chi-Square|||||>|0.05|||||||Chi-squared|||||||>0.05
82364941|NCT03265288|164439558|SUPERIORITY||Least square means difference|0.7716||||0.3449|TWO_SIDED|95.0|-0.8397|2.3828||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Primary analysis of the treatment effect at the Week 24 visit on the intent to treat population (ITT) Null hypothesis is no treatment difference||2.3828|-0.8397|0.3449
82364942|NCT03265288|164439558|SUPERIORITY||Least square means difference|1.0053||||0.0667|TWO_SIDED|95.0|-0.07|2.0807||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Analysis of the overall treatment effect from baseline through Week 24 in the intent to treat population (ITT), Null hypothesis is no treatment difference||2.0807|-0.0700|0.0667
82364943|NCT03265288|164439558|SUPERIORITY||Least square means difference|1.2258||||0.0486|TWO_SIDED|95.0|0.0078|2.4438||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|Secondary analysis of the overall treatment effect from baseline through Week 24 on the per protocol population (PP), null hypothesis is no treatment difference||2.4438|0.0078|0.0486
82364944|NCT03265288|164439558|SUPERIORITY||Least square means difference|2.6628||||0.0687|TWO_SIDED|95.0|-0.2069|5.5325||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for stratification factor ppFEV1 (\<70% or ≥70%) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup ≥70%, n=29 (LAU-7b), n=27 (Placebo)"||5.5325|-0.2069|0.0687
82364945|NCT03265288|164439558|SUPERIORITY||Least square means difference|1.391||||0.236|TWO_SIDED|95.0|-0.922|3.7041||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for stratification factor co-administration of CFTR modulator (yes/no) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup receiving CFTR modulators, n=41 (LAU-7b), n=46 (Placebo)"||3.7041|-0.9220|0.236
82364946|NCT03265288|164439558|SUPERIORITY||Least square means difference|1.1302||||0.5323|TWO_SIDED|95.0|-2.4447|4.7052||alpha is set to 0.05|Mixed Model for Repeated Measures||A positive difference favours LAU-7b, a negative difference favours placebo.|"Secondary analysis of treatment effect at the Week 24 visit for à priori defined subgroup co-administration of ETI - elexacaftor/tezacaftor/ivacaftor (yes/no) in intent to treat population (ITT), null hypothesis is no treatment difference.~Here presented is the analysis for subgroup receiving ETI, n=18 (LAU-7b), n=23 (Placebo)"||4.7052|-2.4447|0.5323
82364947|NCT03265288|164439560|SUPERIORITY||Odds Ratio (OR)|0.5036||||0.1047|TWO_SIDED|95.0|0.2199|1.1532||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of Arachidonic Acid (AA) during treatment Intent to treat population (ITT), null hypothesis is no treatment effect||1.1532|0.2199|0.1047
82364948|NCT03265288|164439560|SUPERIORITY||Odds Ratio (OR)|0.8773||||0.7596|TWO_SIDED|95.0|0.3793|2.0291||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of Docosahexaenoic Acid (DHA) during treatment Intent to treat population (ITT, null hypothesis is no treatment effect||2.0291|0.3793|0.7596
82364949|NCT03265288|164439560|SUPERIORITY||Odds Ratio (OR)|1.0532||||0.8852|TWO_SIDED|95.0|0.5209|2.1296||alpha is set to 0.05|Regression, Logistic||Odds ratio \< 1 means lower odds of normalization with LAU-7b, odds ratio \> 1 means higher odds of normalization with LAU-7b|Highest normalization of AA/DHA ratio during treatment Intent to treat population (ITT), null hypothesis is no treatment effect||2.1296|0.5209|0.8852
82364950|NCT03265288|164439563|SUPERIORITY|||||||0.3025|||||||Log Rank|||||||0.3025
82364951|NCT03265288|164439564|SUPERIORITY||Risk Ratio (RR)|1.55||||0.3366|TWO_SIDED|95.0|0.63|3.8||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|Protocol-Defined IV antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||3.80|0.63|0.3366
82364952|NCT03265288|164439564|OTHER||Risk Ratio (RR)|1.34||||0.3936|TWO_SIDED|95.0|0.68|2.64||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|ALL IV antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||2.64|0.68|0.3936
82364953|NCT03265288|164439564|SUPERIORITY||Risk Ratio (RR)|1.16||||0.5011|TWO_SIDED|95.0|0.75|1.79||alpha is set to 0.05|Regression, Cox||Odds ratio \< 1 means lower odds of a pulmonary exacerbation with LAU-7b, odds ratio close to 1 means similar odds of a pulmonary exacerbation for LAU-7b and placebo, odds ratio \> 1 means higher odds of a pulmonary exacerbation with LAU-7b|Combined IV- or Oral antibiotics-treated pulmonary exacerbation events. Intent to treat population (ITT), null hypothesis is no treatment effect||1.79|0.75|0.5011
82364954|NCT03265288|164439565|SUPERIORITY|||||||0.1955|||||||Log Rank|||||||0.1955
82528249|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.7061|TWO_SIDED|95.0|-2.0|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 30 mg for Week 6 SCCAI score||3.0|-2.0|0.7061
82528250|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.8549|TWO_SIDED|95.0|-2.7|2.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 100 mg for Week 6 SCCAI score||2.3|-2.7|0.8549
82528251|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6533|TWO_SIDED|95.0|-2.0|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus GSK1399686 300 mg for Week 6 SCCAI score||3.1|-2.0|0.6533
82528252|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.4378|TWO_SIDED|95.0|-3.1|1.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Placebo versus Asacol for Week 6 SCCAI score||1.4|-3.1|0.4378
82528253|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.5917|TWO_SIDED|95.0|-2.2|1.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 1 SCCAI score||1.3|-2.2|0.5917
82528254|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.1764|TWO_SIDED|95.0|-0.5|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 1 SCCAI score||2.9|-0.5|0.1764
82528255|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7914|TWO_SIDED|95.0|-1.5|2.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 1 SCCAI score||2.0|-1.5|0.7914
82528256|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3578|TWO_SIDED|95.0|-0.9|2.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 1 SCCAI score||2.5|-0.9|0.3578
82643124|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-36.6|||||TWO_SIDED|95.0|-57.3|-16.0||||||Serotype 9V- Difference in positive response, Group A1 minus Group B||-16.0|-57.3|
82364955|NCT03265288|164439566|SUPERIORITY||Risk Ratio (RR)|1.35||||0.1909|TWO_SIDED|95.0|0.86|2.12||alpha is set to 0.05|Poisson regression||Odds ratio \< 1 means lower odds of an antibiotic treatment with LAU-7b, odds ratio \> 1 means higher odds of an antibiotic treatment with LAU-7b|Number per subject of intravenous antibiotic treatments required for a pulmonary exacerbation, excludes Cycle 1 pulmonary exacerbations Intent to treat population (ITT), null hypothesis is no treatment effect||2.12|0.86|0.1909
82364956|NCT03265288|164439567|SUPERIORITY||Risk Ratio (RR)|1.11||||0.7473|TWO_SIDED|95.0|0.6|2.04||alpha is set to 0.05|Poisson regression||Odds ratio \< 1 means lower odds in terms of days of antibiotics with LAU-7b, odds ratio close to 1 means similar odds in terms of days of antibiotics with LAU-7b or placebo, odds ratio \> 1 means higher odds in terms of days of antibiotics with LAU-7b|Number of days of intravenous antibiotics required for a pulmonary exacerbation, excludes Cycle 1 pulmonary exacerbations, Intent to treat population (ITT), null hypothesis is no treatment effect||2.04|0.60|0.7473
82364957|NCT03265288|164439568|SUPERIORITY||Least Squares Means difference|-2.89||||0.0822|TWO_SIDED|95.0|-6.154|0.374||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|C-Reactive Protein (CRP), Intent-to-Treat population (ITT), null hypothesis is no treatment effect||0.374|-6.154|0.0822
82364958|NCT03265288|164439568|SUPERIORITY||Least Squares Means difference|-576.0||||0.0603|TWO_SIDED|95.0|-1177.0|25.4||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|Calprotectin, Intent-to-Treat population (ITT), null hypothesis is no treatment effect||25.4|-1177|0.0603
82528257|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.3247|TWO_SIDED|95.0|-1.0|2.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 2 SCCAI score||2.9|-1.0|0.3247
82528258|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1153|TWO_SIDED|95.0|-0.4|3.4||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 2 SCCAI score||3.4|-0.4|0.1153
82364959|NCT03265288|164439568|SUPERIORITY||Least Square Means difference|-3.853||||0.0287|TWO_SIDED|95.0|-7.297|-0.408||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|C-Reactive Protein (CRP), Per-Protocol population (PP), null hypothesis is no treatment effect||-0.408|-7.297|0.0287
82364960|NCT03265288|164439568|SUPERIORITY||Least Square Means difference|-620.0||||0.0459|TWO_SIDED|95.0|-1228.0|12.0||alpha is set to 0.05|Mixed Model for Repeated Measures||A negative difference favours LAU-7b, a positive difference favours placebo|Calprotectin, Per-Protocol population (PP), null hypothesis is no treatment effect||12|-1228|0.0459
82364961|NCT03265288|164439569|SUPERIORITY||Least Squares Means difference|-0.39||||0.1006|TWO_SIDED|95.0|-0.86|0.08||alpha is set to 0.05|Mixed Model for Repeated Measures|||Body weight, Intent to treat population (ITT), null hypothesis is no treatment effect||0.08|-0.86|0.1006
82364962|NCT03265288|164439570|SUPERIORITY||Least Squares Means difference|-0.137||||0.1246|TWO_SIDED|95.0|-0.312|0.038||alpha is set to 0.05|Mixed Model for Repeated Measures|||Body mass index, intent to treat population (ITT), null hypothesis is no treatment effect||0.038|-0.312|0.1246
82364963|NCT03265288|164439571|SUPERIORITY|||||||0.764||||||alpha is set to 0.05|ANOVA|||Intent to treat population (ITT), null hypothesis is no treatment effect||||0.7640
82364964|NCT03265288|164439572|SUPERIORITY||Least Squares Means difference|-2.758||||0.2996|TWO_SIDED|95.0|-7.998|2.482||alpha is set to 0.05|Mixed Model for Repeated Measures|||CFQ-R Respiratory subscore, intent to treat population (ITT), null hypothesis is no treatment effect||2.482|-7.998|0.2996
82364965|NCT02790034|164439577|SUPERIORITY||Mean Difference (Final Values)|-5.292|STANDARD_ERROR_OF_MEAN|11.3184||0.6411|TWO_SIDED|95.0|-27.741|17.157|||Mixed Models Analysis|||Primary inferential comparison between treatment groups used a restricted maximum likelihood (REML)-based, mixed-effects repeated measures model approach (MMRM) with 95% CI for the difference between treatment groups for % change from baseline in the number of apnea episodes. Model included % change from baseline as response, the fixed, categorical effects of treatment group, visit, treatment group-by-visit interaction, and the continuous terms age and baseline value as covariate.||17.157|-27.741|0.6411
82364966|NCT02790034|164439577|SUPERIORITY||Mean Difference (Final Values)|-16.966|STANDARD_ERROR_OF_MEAN|13.1869||0.2011|TWO_SIDED|95.0|-43.119|9.186|||Mixed Models Analysis|||Primary inferential comparison between treatment groups used a restricted maximum likelihood (REML)-based, mixed-effects repeated measures model approach (MMRM) with 95% CI for the difference between treatment groups for % change from baseline in the number of apnea episodes. Model included % change from baseline as response, the fixed, categorical effects of treatment group, visit, treatment group-by-visit interaction, and the continuous terms age and baseline value as covariate.||9.186|-43.119|0.2011
82364967|NCT01715896|164439579|SUPERIORITY_OR_OTHER||Percent difference|-3.5||||0.666|TWO_SIDED|90.0|-16.8|9.8|||Logit response Model||P-value and 90% unconditional exact confidence interval (CI) was calculated using the model of logit (response) = strata + treatment.|||9.8|-16.8|0.666
82364968|NCT01715896|164439580|SUPERIORITY_OR_OTHER||Percent difference|-8.6||||0.293|TWO_SIDED|90.0|-22.0|4.8|||Logit response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||4.8|-22.0|0.293
82364969|NCT01715896|164439581|SUPERIORITY_OR_OTHER||Percent difference|-9.8||||0.156|TWO_SIDED|90.0|-21.1|1.4|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||1.4|-21.1|0.156
82364970|NCT01715896|164439582|SUPERIORITY_OR_OTHER||Percent difference|-11.6||||0.108|TWO_SIDED|90.0|-23.2|0.0|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||0.0|-23.2|0.108
82392935|NCT04676412|164497509|OTHER|Hazard ratio (HR) and 95% confidence interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).|Hazard Ratio (HR)|1.18||||0.71084|TWO_SIDED|95.0|0.61|2.25|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of enrolling site and baseline PD-L1 status.||||2.25|0.61|0.71084
82364971|NCT01715896|164439583|SUPERIORITY_OR_OTHER||Percent difference|-10.3||||0.208|TWO_SIDED|90.0|-23.7|3.0|||Logit Response Model||P-value and 90% unconditional exact CI was calculated using the model of logit (response) = strata + treatment.|||3.0|-23.7|0.2080
82364972|NCT01715896|164439590|SUPERIORITY_OR_OTHER||Adjusted Mean difference|-7.42||||0.213|TWO_SIDED|90.0|-17.24|2.4|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term.|||2.40|-17.24|0.213
82364973|NCT01715896|164439592|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.129|TWO_SIDED|90.0|0.36|1.04|||Proportional odds analysis||Odds ratio, 90% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor.|||1.04|0.36|0.129
82528259|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7995|TWO_SIDED|95.0|-1.7|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 2 SCCAI score||2.2|-1.7|0.7995
82364974|NCT01715896|164439593|SUPERIORITY_OR_OTHER||Percent difference|-11.6||||0.108||90.0|-23.2|0.0|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of golimumab or active responders was less than 5.||0.0|-23.2|0.108
82364975|NCT01715896|164439593|SUPERIORITY_OR_OTHER||Percent difference|-11.7||||0.145|TWO_SIDED|90.0|-24.8|1.4|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|The analysis reported DAS28 (CRP) low disease activity response.||1.4|-24.8|0.145
82364976|NCT01715896|164439594|SUPERIORITY_OR_OTHER|||||||0.328|||||||Log Rank|P-value was calculated using the Log rank test.||||||0.328
82364977|NCT01715896|164439595|SUPERIORITY_OR_OTHER|||||||0.003|||||||Weibull model|P-value was calculated using an Weibull model.||||||0.003
82528260|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.1786|TWO_SIDED|95.0|-0.6|3.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 2 SCCAI score||3.3|-0.6|0.1786
82364978|NCT01715896|164439596|SUPERIORITY_OR_OTHER||Percent difference|-1.7||||0.795|TWO_SIDED|90.0|-12.4|9.0|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|P-value estimated from fisher's exact test when number of golimumab or active responders was less than 5.||9.0|-12.4|0.795
82364979|NCT01715896|164439597|SUPERIORITY_OR_OTHER||Percent difference|-11.7||||0.048|TWO_SIDED|90.0|-21.0|-2.5|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-2.5|-21.0|0.048
82364980|NCT01715896|164439598|SUPERIORITY_OR_OTHER||Percent difference|-11.9||||0.035|TWO_SIDED|90.0|-20.6|-3.1|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-3.1|-20.6|0.035
82364981|NCT01715896|164439599|SUPERIORITY_OR_OTHER||Percent difference|-7.5||||0.061|TWO_SIDED|90.0|-13.6|-1.5|||Regression, Logistic||90% CI was calculated for the treatment difference in proportion of responders using logisitic regression with strata and treatment as factors.|||-1.5|-13.6|0.061
82364982|NCT01715896|164439600|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01||||0.993|TWO_SIDED|90.0|-1.33|1.32|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|Analysis reported for change from baseline in swollen joint count at Day 169.||1.32|-1.33|0.993
82364983|NCT01715896|164439600|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.23||||0.424|TWO_SIDED|90.0|-1.31|3.77|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|Analysis reported for change from baseline in Tender joint count at Day 169.||3.77|-1.31|0.424
82364984|NCT01715896|164439601|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.89||||0.272|TWO_SIDED|90.0|-2.46|12.24|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||12.24|-2.46|0.272
82364985|NCT01715896|164439602|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.46||||0.319|TWO_SIDED|90.0|-2.92|11.84|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||11.84|-2.92|0.319
82364986|NCT01715896|164439603|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.16||||0.64|TWO_SIDED|90.0|-0.42|0.74|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||0.74|-0.42|0.640
82364987|NCT01715896|164439604|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.18||||0.055|TWO_SIDED|90.0|0.03|0.34|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction.|||0.34|0.03|0.055
82364988|NCT01715896|164439605|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.06||||0.752|TWO_SIDED|90.0|0.79|1.41|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis.|||1.41|0.79|0.752
82364989|NCT01715896|164439606|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.05||||0.725|TWO_SIDED|90.0|0.84|1.3|||Repeated measures model||An estimate of the treatment difference and its 90% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis.|||1.30|0.84|0.725
82364990|NCT03923699|164439617|SUPERIORITY||Risk Ratio (RR)|0.96||||0.41|TWO_SIDED|95.0|0.85|1.08||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.08|0.85|0.41
82364991|NCT03923699|164439618|SUPERIORITY||Risk Ratio (RR)|1.0||||0.92|TWO_SIDED|95.0|0.92|1.1||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.10|0.92|0.92
82364992|NCT03923699|164439619|SUPERIORITY||Risk Ratio (RR)|0.98||||0.68|TWO_SIDED|95.0|0.89|1.09||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.09|0.89|0.68
82364993|NCT03923699|164439620|SUPERIORITY||Risk Ratio (RR)|0.98||||0.42|TWO_SIDED|95.0|0.92|1.05||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.05|0.92|0.42
82528261|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.5824|TWO_SIDED|95.0|-1.5|2.7||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 3 SCCAI score||2.7|-1.5|0.5824
82364994|NCT03923699|164439621|SUPERIORITY||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.98|1.02||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.02|0.98|0.99
82364995|NCT03923699|164439622|SUPERIORITY||Risk Ratio (RR)|1.0||||0.95|TWO_SIDED|95.0|0.95|1.05||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.05|0.95|0.95
82364996|NCT03923699|164439623|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.29|TWO_SIDED|95.0|0.0|0.0||Not adjusted for multiple comparisons.|Regression, Linear|||||0.00|-0.00|0.29
82364997|NCT03923699|164439624|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.37|TWO_SIDED|95.0|-0.01|0.0||Not adjusted for multiple comparisons.|Regression, Linear|||||0.00|-0.01|0.37
82364998|NCT03923699|164439625|SUPERIORITY||Risk Ratio (RR)|1.03||||0.3|TWO_SIDED|95.0|0.95|1.13||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.13|0.95|0.30
82364999|NCT03923699|164439626|SUPERIORITY||Risk Ratio (RR)|1.0||||0.85|TWO_SIDED|95.0|0.98|1.02||Not adjusted for multiple comparisons.|Regression, Poisson|||||1.02|0.98|0.85
82365000|NCT03923699|164439627|SUPERIORITY||Risk Ratio (RR)|0.99||||0.51|TWO_SIDED|95.0|0.97|1.02||Not adjusted for multiple comparisons.|Regression, poisson|||||1.02|0.97|0.51
82365001|NCT03575871|164439628|SUPERIORITY||Difference in Percentage|19.3||||0.0008|TWO_SIDED|95.0|9.6|29.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.0|9.6|0.0008
82392936|NCT04676412|164497510|OTHER||Hazard Ratio (HR)|1.53||||0.8197|TWO_SIDED|95.0|0.61|3.87|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of enrolling site and baseline PD-L1 status.||HR and 95% CIs were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 status (1-49% versus ≥50%).||3.87|0.61|0.81970
82392937|NCT05175131|164497524|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.0042|TWO_SIDED|95.0|0.3|1.8|||ANCOVA||Mean difference of Mebeverine+Simethicone combination to Mebeverine. Adjusted least squares mean (difference between Mebeverine+Simethicone combination and Mebeverine) from ANCOVA is presented here|ANCOVA was used for primary end point analysis. The model included the change from baseline of the NRS\_11 score as dependent variable and treatment and site as independent factors, and baseline NRS-11 as covariate.||1.8|0.3|0.0042
82392938|NCT05175131|164497524|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.0001|TWO_SIDED|95.0|0.9|2.4|||ANCOVA||Adjusted least squares mean (difference between Mebeverine+Simethicone combination and Mebeverine) from ANCOVA is presented here|Mean difference of Mebeverine+Simethicone combination to Simethicone. ANCOVA was used for primary end point analysis. The model included the change from baseline of the NRS\_11 score as dependent variable and treatment and site as independent factors, and baseline NRS-11 as covariate.||2.4|0.9|<0.0001
82392939|NCT02407132|164497529|SUPERIORITY|||||||0.038||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to immediate post-intervention. 6 months between-arms p-value = 0.139; 12 months between-arms p-value = 0.013. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean HbA1c from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.038
82392940|NCT02407132|164497530|SUPERIORITY|||||||0.234||||||The p-value above reflects results of between-arms analysis of change in mean BMI from baseline to immediate post-intervention. 6 months between-arms p-value = 0.552; 12 months between-arms p-value = 0.447. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean BMI from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.234
82392941|NCT02407132|164497531|SUPERIORITY|||||||0.019||||||The p-value above reflects results of between-arms analysis of change in mean total chol from baseline to immediate post-intervention. 6 months between-arms p-value=0.598; 12 months between-arms p-value=0.073. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean Total Cholesterol (mg/dL) from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.019
82392942|NCT02407132|164497532|SUPERIORITY|||||||0.186||||||The p-value above reflects results of between-arms analysis of mean change in HDL from baseline to immediate post-intervention. 6 months between-arms p-value=0.009; 12 months between-arms p-value=0.201. Analyses do not include imputed values.|Linear mixed effects regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||The outcome variable for these analyses is Change in mean HDL (mg/dL) from baseline to immediate post-intervention, 6 months post-intervention, and 12 months post-intervention.||||0.186
82392943|NCT02407132|164497533|SUPERIORITY|||||||0.04||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.040
82392944|NCT02407132|164497534|SUPERIORITY|||||||0.312||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed Effects Logistic Regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.312
82392945|NCT02407132|164497535|SUPERIORITY|||||||0.622||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.622
82426356|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in α-linolenic acid (18:3n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.0||||0.4|TWO_SIDED|95.0|-0.1|0.1||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.1|-0.1|0.40
82528262|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1392|TWO_SIDED|95.0|-0.5|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 3 SCCAI score||3.5|-0.5|0.1392
82528263|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9665|TWO_SIDED|95.0|-2.0|2.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 3 SCCAI score||2.1|-2.0|0.9665
82643125|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-62.1|||||TWO_SIDED|95.0|-80.8|-43.5||||||Serotype 10A- Difference in positive response, Group A1 minus Group B||-43.5|-80.8|
82392946|NCT02407132|164497536|SUPERIORITY|||||||0.957||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.957
82392947|NCT02407132|164497537|SUPERIORITY|||||||0.147||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.147
82392948|NCT02407132|164497538|SUPERIORITY|||||||0.326||||||The p-value above represents results of analysis of the between-arm changes in probability of performing the self-care behavior from baseline to 12 months post-intervention. Analyses do not include imputed values.|Mixed effects logistic regression|Adjusted for baseline sex, age, education, marital status, employment, use of diabetes medication, and households containing multiple participants.||To facilitate interpretation of regression coefficients, estimates obtained in the logit scale (log odds) were transformed into probability scale.||||0.326
82392949|NCT00585013|164497542|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This p value applies to all time points for all variables.|Wilcoxon (Mann-Whitney)|||||||>0.05
82392950|NCT00585013|164497543|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This applies for measurements at preoperative and 0 h time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
82392951|NCT00585013|164497543|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This applies to measurements at time points 12 h, 24 h, and 48 h.|Wilcoxon (Mann-Whitney)|||||||<0.05
82392952|NCT00585013|164497544|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||This applies to measurements at preoperative, 0 h, and 48 h time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
82392953|NCT00585013|164497544|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This applies to time points at 12 h and 24 h.|Wilcoxon (Mann-Whitney)|||||||<0.05
82392954|NCT00585013|164497545|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Applies to all time points.|Wilcoxon (Mann-Whitney)|||||||>0.05
82392955|NCT01573767|164497547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.227|TWO_SIDED|95.0|-2.7|11.4||Inference for VI 12.5 µg versus (vs) placebo was dependent upon statistical significance (SS) having first been achieved for VI 25 µg vs placebo; inference for VI 6.25 µg vs placebo was dependent on SS having been achieved for VI 12.5 µg vs placebo.|ANCOVA|||||11.4|-2.7|0.227
82392956|NCT01573767|164497547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4||||0.073|TWO_SIDED|95.0|-0.6|13.5|||ANCOVA|||||13.5|-0.6|0.073
82392957|NCT01573767|164497547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5||||0.127|TWO_SIDED|95.0|-1.6|12.5|||ANCOVA|||||12.5|-1.6|0.127
82392958|NCT01573767|164497548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057|||||TWO_SIDED|95.0|-0.138|0.024||||||||0.024|-0.138|
82392959|NCT01573767|164497548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.063|0.096||||||||0.096|-0.063|
82392960|NCT01573767|164497548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.11|0.051||||||||0.051|-0.110|
82392961|NCT01573767|164497549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-10.5|6.0||||||||6.0|-10.5|
82392962|NCT01573767|164497549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-6.9|9.6||||||||9.6|-6.9|
82392963|NCT01573767|164497549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|0.4|17.0||||||||17.0|0.4|
82392964|NCT01573767|164497550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0|-1.2|12.3||||||||12.3|-1.2|
82392965|NCT01573767|164497550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|0.7|14.2||||||||14.2|0.7|
82392966|NCT01573767|164497550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.2||||||95.0|0.4|14.0||||||||14.0|0.4|
82392967|NCT01573767|164497551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-6.1|13.1||||||||13.1|-6.1|
82392968|NCT01573767|164497551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-1.8|17.4||||||||17.4|-1.8|
82392969|NCT01573767|164497551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|||||TWO_SIDED|95.0|-4.4|14.9||||||||14.9|-4.4|
82392970|NCT01573767|164497552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-3.7|15.6||||||||15.6|-3.7|
82392971|NCT01573767|164497552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|||||TWO_SIDED|95.0|0.0|19.3||||||||19.3|0.0|
82392972|NCT01573767|164497552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||||95.0|-2.7|16.7||||||||16.7|-2.7|
82392973|NCT01573767|164497553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-7.2|7.5||||||||7.5|-7.2|
82392974|NCT01573767|164497553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3|||||TWO_SIDED|95.0|1.0|15.7||||||||15.7|1.0|
82392975|NCT01573767|164497553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|2.3|17.2||||||||17.2|2.3|
82392976|NCT00328094|164497572|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.29||||0.23|TWO_SIDED|95.0|0.85|1.97|||Chi-squared|||||1.97|0.85|0.23
82392977|NCT01911780|164497574|SUPERIORITY_OR_OTHER||Adjusted mean, comparison|-7.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-9.7|-5.3|||LOCF-ANCOVA|Last observation carried forward (LOCF) was used as the imputation method|Model includes baseline DBP as a linear covariate, and treatment and center as fixed effects.|||-5.3|-9.7|<0.0001
82392978|NCT01911780|164497575|SUPERIORITY_OR_OTHER||Adjusted mean, comparison|-8.6|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-12.7|-4.5||Additional information, the p-value is not adjusted for multiplicity.|LOCF-ANCOVA||Model includes baseline SBP as a linear covariate, and treatment and center as fixed effects.|||-4.5|-12.7|<0.0001
82392979|NCT01911780|164497576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.1||||0.0052|TWO_SIDED|95.0|1.4|7.1||Additional information, the p-value is not adjusted for multiplicity.|Regression, Logistic|Non-completers considered failures (NCF) was used as the imputation method.|Exact 95 % confidence interval by Clopper and Pearson. Logistic regression includes treatment and center.|||7.1|1.4|0.0052
82643126|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-50.1|||||TWO_SIDED|95.0|-71.0|-29.2||||||Serotype 11A- Difference in positive response, Group A1 minus Group B||-29.2|-71.0|
82643127|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-56.8|||||TWO_SIDED|95.0|-76.9|-36.8||||||Serotype 12F- Difference in positive response, Group A1 minus Group B||-36.8|-76.9|
82643128|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-20.8|||||TWO_SIDED|95.0|-41.4|-0.2||||||Serotype 14- Difference in positive response, Group A1 minus Group B||-0.2|-41.4|
82643129|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-52.8|||||TWO_SIDED|95.0|-72.8|-32.7||||||Serotype 15B- Difference in positive response, Group A1 minus Group B||-32.7|-72.8|
82528264|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.2455|TWO_SIDED|95.0|-0.9|3.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 3 SCCAI score||3.3|-0.9|0.2455
82528265|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4644|TWO_SIDED|95.0|-1.4|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 4 SCCAI score||3.1|-1.4|0.4644
82528266|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.4567|TWO_SIDED|95.0|-1.4|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 4 SCCAI score||3.0|-1.4|0.4567
82643130|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-46.3|||||TWO_SIDED|95.0|-66.8|-25.8||||||Serotype 17F- Difference in positive response, Group A1 minus Group B||-25.8|-66.8|
82643131|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-42.5|||||TWO_SIDED|95.0|-61.8|-23.2||||||Serotype 18C- Difference in positive response, Group A1 minus Group B||-23.2|-61.8|
82643132|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-30.2|||||TWO_SIDED|95.0|-50.6|-9.7||||||Serotype 19A- Difference in positive response, Group A1 minus Group B||-9.7|-50.6|
82365002|NCT03575871|164439628|SUPERIORITY||Difference in Percentage|28.7|||<|0.0001|TWO_SIDED|95.0|18.6|38.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.8|18.6|<0.0001
82365003|NCT03575871|164439629|SUPERIORITY||Difference in Percentage|33.9|||<|0.0001|TWO_SIDED|95.0|23.3|44.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.4|23.3|<0.0001
82528267|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.9594|TWO_SIDED|95.0|-2.3|2.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 4 SCCAI score||2.2|-2.3|0.9594
82643133|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-46.3|||||TWO_SIDED|95.0|-66.8|-25.8||||||Serotype 19F- Difference in positive response, Group A1 minus Group B||-25.8|-66.8|
82528268|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.5122|TWO_SIDED|95.0|-1.5|3.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 4 SCCAI score||3.0|-1.5|0.5122
82528269|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.1493|TWO_SIDED|95.0|-0.7|4.3||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 5 SCCAI score||4.3|-0.7|0.1493
82643134|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-59.5|||||TWO_SIDED|95.0|-79.0|-40.0||||||Serotype 20- Difference in positive response, Group A1 minus Group B||-40.0|-79.0|
82643135|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-52.5|||||TWO_SIDED|95.0|-72.1|-32.8||||||Serotype 22F- Difference in positive response, Group A1 minus Group B||-32.8|-72.1|
82643136|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-28.1|||||TWO_SIDED|95.0|-50.7|-5.4||||||Serotype 23F- Difference in positive response, Group A1 minus Group B||-5.4|-50.7|
82643137|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-49.0|||||TWO_SIDED|95.0|-68.2|-29.7||||||Serotype 33F- Difference in positive response, Group A1 minus Group B||-29.7|-68.2|
82643138|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-78.1|-45.4||||||Serotype 1- Difference in positive response, Group A2 minus Group B||-45.4|-78.1|
82643139|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-70.6|-35.3||||||Serotype 2- Difference in positive response, Group A2 minus Group B||-35.3|-70.6|
82643140|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-55.9|||||TWO_SIDED|95.0|-75.3|-36.5||||||Serotype 3- Difference in positive response, Group A2 minus Group B||-36.5|-75.3|
82643141|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-64.7|||||TWO_SIDED|95.0|-82.6|-46.8||||||Serotype 4- Difference in positive response, Group A2 minus Group B||-46.8|-82.6|
82643142|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-70.6|-35.3||||||Serotype 5- Difference in positive response, Group A2 minus Group B||-35.3|-70.6|
82643143|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-59.3|-17.2||||||Serotype 6B- Difference in positive response, Group A2 minus Group B||-17.2|-59.3|
82643144|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-76.7|-40.9||||||Serotype 7F- Difference in positive response, Group A2 minus Group B||-40.9|-76.7|
82643145|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-29.4|||||TWO_SIDED|95.0|-46.1|-12.7||||||Serotype 8- Difference in positive response, Group A2 minus Group B||-12.7|-46.1|
82643146|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-35.3|||||TWO_SIDED|95.0|-56.4|-14.2||||||Serotype 9N- Difference in positive response, Group A2 minus Group B||-14.2|-56.4|
82643147|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-58.2|-18.2||||||Serotype 9V- Difference in positive response, Group A2 minus Group B||-18.2|-58.2|
82392980|NCT01911780|164497578|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-3.1|2.3|||mixed-effects model repeated measures||As a linear covariate, and treatment and visit, treatment by visit interaction and baseline value by visit interaction as fixed effects.|||2.3|-3.1|
82392981|NCT01911780|164497579|SUPERIORITY_OR_OTHER||Adjusted Mean|2.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-1.5|6.1|||mixed-effects model repeated measures||Model includes baseline SBP as a linear covariate, and treatment and visit, treatment by visit interaction and baseline value by visit interaction as fixed effects.|||6.1|-1.5|
82392982|NCT01661933|164497592|SUPERIORITY_OR_OTHER|||||||0.693|TWO_SIDED||||||t-test, 2 sided|||||||0.693
82392983|NCT01661933|164497593|SUPERIORITY_OR_OTHER||||||=|0.837|TWO_SIDED||||||t-test, 2 sided|||||||=0.837
82528270|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.3478|TWO_SIDED|95.0|-1.3|3.6||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 5 SCCAI score||3.6|-1.3|0.3478
82528271|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.5238|TWO_SIDED|95.0|-1.7|3.2||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 5 SCCAI score||3.2|-1.7|0.5238
82528272|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.4091|TWO_SIDED|95.0|-1.4|3.5||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 5 SCCAI score||3.5|-1.4|0.4091
82528273|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.2604|TWO_SIDED|95.0|-1.1|4.0||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 10 mg for Week 6 SCCAI score||4.0|-1.1|0.2604
82528274|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.2809|TWO_SIDED|95.0|-1.1|3.8||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 30 mg for Week 6 SCCAI score||3.8|-1.1|0.2809
82528275|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.6038|TWO_SIDED|95.0|-1.8|3.1||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 100 mg for Week 6 SCCAI score||3.1|-1.8|0.6038
82643148|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-79.8|-43.7||||||Serotype 10A- Difference in positive response, Group A2 minus Group B||-43.7|-79.8|
82643149|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-38.2|||||TWO_SIDED|95.0|-59.3|-17.2||||||Serotype 11A- Difference in positive response, Group A2 minus Group B||-17.2|-59.3|
82528276|NCT01036022|164752588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.2511|TWO_SIDED|95.0|-1.1|3.9||Analysis was adjusted for baseline (Day -1) SCCAI score, Baseline (Screening) Endoscopy Score and Baseline (Screening) UCDAI Score.|Repeated measures mixed model|||Asacol versus GSK1399686 300 mg for Week 6 SCCAI score||3.9|-1.1|0.2511
82528277|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.75|||||TWO_SIDED|95.0|0.24|2.39||||||Placebo versus GSK1399686 10 mg for Week 1 fecal calprotectin levels||2.39|0.24|
82528278|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.21|1.92||||||Placebo versus GSK1399686 30 mg for Week 1 fecal calprotectin levels||1.92|0.21|
82528279|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.26|2.48||||||Placebo versus GSK1399686 100 mg for Week 1 fecal calprotectin levels||2.48|0.26|
82643150|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-78.0|-39.6||||||Serotype 12F- Difference in positive response, Group A2 minus Group B||-39.6|-78.0|
82643151|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-17.6|||||TWO_SIDED|95.0|-37.4|2.1||||||Serotype 14- Difference in positive response, Group A2 minus Group B||2.1|-37.4|
82392984|NCT01661933|164497594|SUPERIORITY_OR_OTHER||||||=|0.99|ONE_SIDED||||||Binomial distribution|||The null hypothesis was that irrespective of hookworm infection, GC-1g would result in a 2-point or more deterioration in the Marsh score. A binomial (yes=deterioration or no=no deterioration) distribution was applied to pre- and post-GC-1g paired biopsies.||||=0.99
82392985|NCT01661933|164497595|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Mixed effects model.|||||||=0.005
82392986|NCT00475878|164497598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64|STANDARD_ERROR_OF_MEAN|0.22||0.19|TWO_SIDED|95.0|0.33|1.24|||Chi-squared|||||1.24|.33|.19
82392987|NCT00475878|164497599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.16||0.18|TWO_SIDED|95.0|-2.79|5.84|||t-test, 2 sided|||||5.84|-2.79|.18
82528280|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.27|2.68||||||Placebo versus GSK1399686 300 mg for Week 1 fecal calprotectin levels||2.68|0.27|
82528281|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.23|1.81||||||Placebo versus Asacol for Week 1 fecal calprotectin levels||1.81|0.23|
82528282|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.26|2.73||||||Placebo versus GSK1399686 10 mg for Week 2 fecal calprotectin levels||2.73|0.26|
82528283|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.55|||||TWO_SIDED|95.0|0.18|1.68||||||Placebo versus GSK1399686 30 mg for Week 2 fecal calprotectin levels||1.68|0.18|
82528284|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.21|2.18||||||Placebo versus GSK1399686 100 mg for Week 2 fecal calprotectin levels||2.18|0.21|
82528285|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.19|2.03||||||Placebo versus GSK1399686 300 mg for Week 2 fecal calprotectin levels||2.03|0.19|
82528286|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.22|1.9||||||Placebo versus Asacol for Week 2 fecal calprotectin levels||1.90|0.22|
82528287|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|1.07|||||TWO_SIDED|95.0|0.28|4.09||||||Placebo versus GSK1399686 10 mg for Week 3 fecal calprotectin levels||4.09|0.28|
82643152|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-50.0|||||TWO_SIDED|95.0|-69.6|-30.4||||||Serotype 15B- Difference in positive response, Group A2 minus Group B||-30.4|-69.6|
82643153|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-44.1|||||TWO_SIDED|95.0|-64.0|-24.2||||||Serotype 17F- Difference in positive response, Group A2 minus Group B||-24.2|-64.0|
82365004|NCT03575871|164439629|SUPERIORITY||Difference in Percentage|50.5|||<|0.0001|TWO_SIDED|95.0|40.0|60.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.9|40.0|<0.0001
82365005|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|19.2||||0.0002|TWO_SIDED|95.0|11.0|27.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||27.4|11.0|0.0002
82365006|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|31.2|||<|0.0001|TWO_SIDED|95.0|22.3|40.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.2|22.3|<0.0001
82365007|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|27.5|||<|0.0001|TWO_SIDED|95.0|18.9|36.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.2|18.9|<0.0001
82365008|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|46.4|||<|0.0001|TWO_SIDED|95.0|37.2|55.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||55.7|37.2|<0.0001
82365009|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|27.4|||<|0.0001|TWO_SIDED|95.0|16.8|38.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.0|16.8|<0.0001
82365010|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|39.8|||<|0.0001|TWO_SIDED|95.0|28.9|50.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||50.6|28.9|<0.0001
82365011|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|29.3|||<|0.0001|TWO_SIDED|95.0|18.9|39.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.6|18.9|<0.0001
82365012|NCT03575871|164439630|SUPERIORITY||Difference in Percentage|38.6|||<|0.0001|TWO_SIDED|95.0|28.1|49.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||49.1|28.1|<0.0001
82392988|NCT03280225|164497620|OTHER||Odds Ratio (OR)|1.43||||0.302|TWO_SIDED|95.0|0.73|2.82|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans being assigned a coordinator during the 6 month period following implementation compared to eligible Veterans being assigned a coordinator in the 6 month period prior to implementation.||2.82|0.73|.302
82392989|NCT03280225|164497621|OTHER||Odds Ratio (OR)|1.29||||0.226|TWO_SIDED|95.0|0.86|1.93|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans being assigned a provider during the 6 month period following implementation compared to eligible Veterans being assigned a provider in the 6 month period prior to implementation.||1.93|0.86|0.226
82448868|NCT01963845|164605041|SUPERIORITY_OR_OTHER|||||||0.556|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in HOMA-IR values from baseline to 24 weeks between the two groups.||||0.5560
82448869|NCT03194646|164605100|OTHER||Mean Difference (Final Values)|-1.85|||||TWO_SIDED|95.0|-2.44|-1.26||||||||-1.26|-2.44|
82643154|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-61.8|||||TWO_SIDED|95.0|-79.4|-44.2||||||Serotype 18C- Difference in positive response, Group A2 minus Group B||-44.2|-79.4|
82365013|NCT03575871|164439631|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed Models Analysis|||Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.1|-2.3|<0.0001
82365014|NCT03575871|164439631|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.6|||Mixed Models Analysis|||Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.6|-2.8|<0.0001
82365015|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|8.8||||0.015|TWO_SIDED|95.0|2.8|14.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||14.9|2.8|0.0150
82365016|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|22.7|||<|0.0001|TWO_SIDED|95.0|15.0|30.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.3|15.0|<0.0001
82448870|NCT03194646|164605100|OTHER||Mean Difference (Final Values)|-2.34|||||TWO_SIDED|95.0|-2.87|-1.8||||||||-1.80|-2.87|
82365017|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|20.0||||0.0004|TWO_SIDED|95.0|10.9|29.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||29.0|10.9|0.0004
82365018|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|44.3|||<|0.0001|TWO_SIDED|95.0|34.8|53.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||53.8|34.8|<0.0001
82365019|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|30.4|||<|0.0001|TWO_SIDED|95.0|19.7|41.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||41.2|19.7|<0.0001
82365020|NCT03575871|164439633|SUPERIORITY||Difference in Percentage|47.4|||<|0.0001|TWO_SIDED|95.0|36.8|58.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||58.0|36.8|<0.0001
82643155|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-52.9|||||TWO_SIDED|95.0|-72.3|-33.6||||||Serotype 19A- Difference in positive response, Group A2 minus Group B||-33.6|-72.3|
82643156|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-58.8|||||TWO_SIDED|95.0|-77.6|-40.1||||||Serotype 19F- Difference in positive response, Group A2 minus Group B||-40.1|-77.6|
82643157|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-70.6|||||TWO_SIDED|95.0|-87.4|-53.8||||||Serotype 20- Difference in positive response, Group A2 minus Group B||-53.8|-87.4|
82643158|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-67.6|||||TWO_SIDED|95.0|-84.8|-50.5||||||Serotype 22F- Difference in positive response, Group A2 minus Group B||-50.5|-84.8|
82643159|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-47.1|||||TWO_SIDED|95.0|-68.0|-26.1||||||Serotype 23F- Difference in positive response, Group A2 minus Group B||-26.1|-68.0|
82392990|NCT03280225|164497622|OTHER||Odds Ratio (OR)|1.23||||0.199|TWO_SIDED|95.0|0.9|1.7|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans receiving a care evaluation during the 6 month period following implementation compared to eligible Veterans receiving a care evaluation in the 6 month period prior to implementation.||1.70|0.90|0.199
82643160|NCT02545868|165001676|SUPERIORITY||Normal Distribution Approximation|-50.0|||||TWO_SIDED|95.0|-68.5|-31.5||||||Serotype 33F- Difference in positive response, Group A2 minus Group B||-31.5|-68.5|
82643161|NCT02545868|165001678|SUPERIORITY||Normal Distribution Approximation|-25.5|||||TWO_SIDED|95.0|-41.6|-9.5||||||Strain = H1N1CA09 (Group A2 minus Group B)||-9.5|-41.6|
82444358|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3225|TWO_SIDED|95.0|0.52|1.24|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.24|0.52|0.3225
82643162|NCT02545868|165001678|SUPERIORITY||Normal Distribution Approximation|-14.0|||||TWO_SIDED|95.0|-35.2|7.3||||||Strain = BPHU13 (Group A2 minus Group B)||7.3|-35.2|
82643163|NCT02545868|165001678|SUPERIORITY||Normal Distribution Approximation|-25.9|||||TWO_SIDED|95.0|-45.5|-6.4||||||Strain = H3N2SW13 (Group A2 minus Group B)||-6.4|-45.5|
82643164|NCT02545868|165001678|SUPERIORITY||Normal Distribution Approximation|-19.4|||||TWO_SIDED|95.0|-50.7|11.8||||||Strain = BBRIS08 (Group A2 minus Group B)||11.8|-50.7|
82643165|NCT02545868|165001678|SUPERIORITY||Normal Distribution Approximation|-3.3|||||TWO_SIDED|95.0|-49.4|42.7||||||Strain = AHK4801 (Group A2 minus Group B)||42.7|-49.4|
82643166|NCT02545868|165001679|SUPERIORITY||Normal Distribution Approximation|-41.8|||||TWO_SIDED|95.0|-61.9|-21.7||||||Strain = H1N1CA09 (Group A2 minus Group B)||-21.7|-61.9|
82643167|NCT02545868|165001679|SUPERIORITY||Normal Distribution Approximation|-37.6|||||TWO_SIDED|95.0|-59.7|-15.5||||||Strain = BPHU13 (Group A2 minus Group B)||-15.5|-59.7|
82643168|NCT02545868|165001679|SUPERIORITY||Normal Distribution Approximation|-59.5|||||TWO_SIDED|95.0|-78.2|-40.7||||||Strain = H3N2SW13 (Group A2 minus Group B)||-40.7|-78.2|
82643169|NCT02545868|165001679|SUPERIORITY||Normal Distribution Approximation|-45.6|||||TWO_SIDED|95.0|-76.0|-15.1||||||Strain = BBRIS08 (Group A2 minus Group B)||-15.1|-76.0|
82643170|NCT02545868|165001679|SUPERIORITY||Normal Distribution Approximation|-3.3|||||TWO_SIDED|95.0|-49.4|42.7||||||Strain = AHK4801 (Group A2 minus Group B)||42.7|-49.4|
82643171|NCT02545868|165001680|SUPERIORITY||Normal Distribution Approximation|-61.3|||||TWO_SIDED|95.0|-80.2|-42.3||||||Strain = H1N1CA09 - Difference in at least 4-fold response, Group A2 minus Group B||-42.3|-80.2|
82643172|NCT02545868|165001680|SUPERIORITY||Normal Distribution Approximation|-54.8|||||TWO_SIDED|95.0|-75.3|-34.4||||||Strain = BPHU13 - Difference in at least 4-fold response, Group A2 minus Group B||-34.4|-75.3|
82643173|NCT02545868|165001680|SUPERIORITY||Normal Distribution Approximation|-82.3|||||TWO_SIDED|95.0|-97.1|-67.5||||||Strain = H3N2SW13 - Difference in at least 4-fold response, Group A2 minus Group B||-67.5|-97.1|
82643174|NCT02545868|165001680|SUPERIORITY||Normal Distribution Approximation|-36.7|||||TWO_SIDED|95.0|-67.2|-6.1||||||Strain = BBRIS08 - Difference in at least 4-fold response, Group A2 minus Group B||-6.1|-67.2|
82643175|NCT02545868|165001680|SUPERIORITY||Normal Distribution Approximation|-6.7|||||TWO_SIDED|95.0|-63.8|50.5||||||Strain = AHK4801 - Difference in at least 4-fold response, Group A2 minus Group B||50.5|-63.8|
82365021|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|5.1||||0.0459|TWO_SIDED|95.0|0.2|10.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.0|0.2|0.0459
82392991|NCT03280225|164497623|OTHER||Odds Ratio (OR)|1.38||||0.011|TWO_SIDED|95.0|1.08|1.76|||Regression, Logistic||Odds ratios were estimated using GEE to control for clustering within VAMCs. Fixed effects included a time-dependent variable (pre-post) as well an independent variable of time to account for improvement due to secular trends.|Odds Ratio of eligible Veterans where outreach was attempted during the 6 month period following implementation compared to eligible Veterans where outreach was attempted in the 6 month period prior to implementation.||1.76|1.08|0.011
82392992|NCT03280225|164497624|SUPERIORITY|||||||0.018|||||||ANOVA|F (4, 158) = 3.08||Program Needs||||.018
82392993|NCT03280225|164497624|SUPERIORITY|||||||0.136|||||||ANOVA|F (4, 158) = 1.78||Training Needs||||.136
82392994|NCT03280225|164497624|SUPERIORITY|Pressure for Change||||||0.812|||||||ANOVA|F (4, 158) = 0.39||||||.812
82392995|NCT03280225|164497624|SUPERIORITY|Staffing||||||0.358|||||||ANOVA|F (4, 158) = 1.10||||||.358
82392996|NCT03280225|164497624|SUPERIORITY|Mission||||||0.748|||||||ANOVA|F (4, 158) = 0.48||||||.748
82392997|NCT03280225|164497624|SUPERIORITY|||||||0.748|||||||ANOVA|F (4, 158) = 0.48||Cohesion||||.748
82392998|NCT03280225|164497624|SUPERIORITY|||||||0.005|||||||ANOVA|F (4, 158) = 3.88||Autonomy||||.005
82643176|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-61.3|||||TWO_SIDED|95.0|-80.2|-42.3||||||Strain = H1N1CA09 (Group A2 minus Group B) \[FDA\]||-42.3|-80.2|
82643177|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-46.0|||||TWO_SIDED|95.0|-88.0|-4.0||||||Strain = H1N1CA09 (Group A2 minus Group B) \[Protocol\]||-4.0|-88.0|
82392999|NCT03280225|164497624|SUPERIORITY|||||||0.224|||||||ANOVA|F (4, 158) = 1.44||Communication||||.224
82393000|NCT03280225|164497624|SUPERIORITY|||||||0.043|||||||ANOVA|F (4, 158) = 2.52||Stress||||.043
82393001|NCT03280225|164497624|SUPERIORITY|||||||0.096|||||||ANOVA|F (4, 158) = 2.01||Change||||.096
82393002|NCT00435487|164497625|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|-2.6||||||95.0|-8.59|3.4|||upper limit of 95% CI <= 10%||95% confidence interval (CI) is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Death after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||3.40|-8.59|
82393003|NCT00435487|164497625|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|1.25||||||95.0|-3.02|5.52|||upper limit of 95% CI <= 10%||95% CI is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Non-fatal Myocardial Infarction after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||5.52|-3.02|
82448871|NCT03194646|164605100|OTHER||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-2.51|-1.1||||||||-1.10|-2.51|
82643178|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-57.9|||||TWO_SIDED|95.0|-77.7|-38.1||||||Strain = BPHU13 (Group A2 minus Group B) \[FDA\]||-38.1|-77.7|
82643179|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-55.6|||||TWO_SIDED|95.0|-88.0|-23.1||||||Strain = BPHU13 (Group A2 minus Group B) \[Protocol\]||-23.1|-88.0|
82643180|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-78.5|||||TWO_SIDED|95.0|-94.8|-62.2||||||Strain = H3N2SW13 (Group A2 minus Group B) \[FDA\]||-62.2|-94.8|
82643181|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-57.8|||||TWO_SIDED|95.0|-100.0|-13.4||||||Strain = H3N2SW13 (Group A2 minus Group B) \[Protocol\]||-13.4|-100.0|
82643182|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-36.7|||||TWO_SIDED|95.0|-67.2|-6.1||||||Strain = BBRIS08 (Group A2 minus Group B) \[FDA\]||-6.1|-67.2|
82643183|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-25.0|||||TWO_SIDED|95.0|-67.4|17.4||||||Strain = BBRIS08 (Group A2 minus Group B) \[Protocol\]||17.4|-67.4|
82393004|NCT00435487|164497625|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority was based on whether the upper limit of the two-sided 95% confidence interval for the treatment group difference was less than or equal to 10%, the non-inferiority margin specified in the protocol.|Difference in proportion|-1.35||||||95.0|-8.62|5.93|||upper limit of 95% CI <= 10%||95% CI is for difference in proportion using normal approximation to binomial. Non-inferiority was concluded if the upper boundary of the 95% CI for the Dalteparin - Unfractioned Heparin difference was less than or equal to 10%.|Death or Non-fatal Myocardial Infarction after receiving 48 hours of study medication (Event date - First dose date) and on or before day 30 from baseline. Difference in proportion (Dalteparin-UFH)(%).||5.93|-8.62|
82393005|NCT00435487|164497626|SUPERIORITY_OR_OTHER||Difference in proportion|1.27||||1||95.0|-1.2|3.73|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||3.73|-1.20|1.0000
82393006|NCT00435487|164497627|SUPERIORITY_OR_OTHER||Difference in proportion|-0.05||||1||95.0|-6.05|5.95|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||5.95|-6.05|1.0000
82393007|NCT00435487|164497628|SUPERIORITY_OR_OTHER||Difference in proportion|-0.05||||1||95.0|-6.05|5.95|||Chi-squared||95% CI is for difference in proportion using normal approximation to binomial.|Difference in proportion (Dalteparin-UFH)(%).||5.95|-6.05|1.0000
82393008|NCT03660475|164497666|SUPERIORITY|||||||0.967|||||||t-test, 2 sided|||||||0.967
82393009|NCT03660475|164497667|SUPERIORITY|||||||0.836|||||||t-test, 2 sided|||||||0.836
82393010|NCT03660475|164497668|SUPERIORITY|||||||0.166|||||||t-test, 2 sided|||||||0.166
82393011|NCT03660475|164497669|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|||||||0.638
82393012|NCT03660475|164497670|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||0.122
82393013|NCT03660475|164497671|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.200
82393014|NCT03660475|164497672|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||||||0.085
82393015|NCT03660475|164497674|SUPERIORITY|||||||0.903|||||||t-test, 2 sided|||||||0.903
82448872|NCT03037983|164605153|SUPERIORITY||Mean Difference (Net)|1.38||||0.849|TWO_SIDED||||||t-test, 2 sided|||||||.849
82393016|NCT03660475|164497675|SUPERIORITY|||||||0.898|||||||t-test, 2 sided|||||||0.898
82393017|NCT03660475|164497676|SUPERIORITY|||||||0.221|||||||t-test, 2 sided|||||||0.221
82393018|NCT03660475|164497677|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||||||0.459
82393019|NCT00084318|164497730|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.05|TWO_SIDED|95.0|0.54|1.06|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year disease-free survival rate of 54.8% (47.9% to 61.7%).||Using the method of Dixon and Simon, 104 analyzable patients per arm were needed to detect a ≥ 33 reduction in the hazard rate for disease-free survival compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) with 80% power and one-sided log-rank test at the 0.05 level. Two-year rates were estimated by the Kaplan-Meier method. \[RTOG = Radiation Therapy Oncology Group\]||1.06|0.54|0.05
82393020|NCT00084318|164497730|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.01|TWO_SIDED|95.0|0.5|0.96|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year disease-free survival rate of 54.8% (47.9% to 61.7%).||Using the method of Dixon and Simon, 104 analyzable patients per arm were needed to detect a ≥ 33 reduction in the hazard rate for disease-free survival compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) with 80% power and one-sided log-rank test at the 0.05 level. Two-year rates were estimated by the Kaplan-Meier method.||0.96|0.50|0.01
82393021|NCT00084318|164497731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.04|TWO_SIDED|95.0|0.5|1.03|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year survival rate of 64.7% (58.1% to 71.3%).|Reference arm = historical control|Two-year rates were estimated by the Kaplan-Meier method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided log-rank test. Hazard ratios were estimated by Cox model. \[RTOG = Radiation Therapy Oncology Group\]||1.03|0.5|0.04
82393022|NCT00084318|164497731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.001|TWO_SIDED|95.0|0.39|0.82|||Log Rank|Historical control data (RTOG-9501/NCT00002670): n=202, two-year survival rate of 64.7% (58.1% to 71.3%).|Reference arm = historical control|Two-year rates were estimated by the Kaplan-Meier method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided log-rank test. Hazard ratios were estimated by Cox model.||0.82|0.39|0.001
82528288|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.74|||||TWO_SIDED|95.0|0.23|2.43||||||Placebo versus GSK1399686 30 mg for Week 3 fecal calprotectin levels||2.43|0.23|
82643184|NCT02545868|165001681|SUPERIORITY||Normal Distribution Approximation|-6.7|||||TWO_SIDED|95.0|-63.8|50.5||||||Strain = AHK4801 (Group A2 minus Group B) \[FDA\]||50.5|-63.8|
82643185|NCT01777191|165001707|SUPERIORITY_OR_OTHER_LEGACY|||||||0.248|TWO_SIDED||||||Fisher Exact|||||||0.248
82393023|NCT00084318|164497735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.66|TWO_SIDED|95.0|0.63|1.76|||Gray's test|Historical control data (RTOG-9501/NCT00002670): n=202, two-year failure rate of 19.9% (12.2% to 27.5%)|Reference arm = historical control|Two-year failure rates were estimated by the cumulative incidence method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided Gray's test. Hazard ratios were estimated by Cox model. \[RTOG = Radiation Therapy Oncology Group\]||1.76|0.63|0.66
82393024|NCT00084318|164497735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.86|TWO_SIDED|95.0|0.72|1.87|||Gray's test|Historical control data (RTOG-9501/NCT00002670): n=202, two-year failure rate of 19.9% (12.2% to 27.5%)|Reference arm = historical control|Two-year failure rates were estimated by the cumulative incidence method. RTOG 0234 results were compared to historical control data (the chemoradiation arm of study RTOG-9501/NCT00002670) by 1-sided Gray's test. Hazard ratios were estimated by Cox model.||1.87|0.72|0.86
82393025|NCT01037127|164497740|SUPERIORITY_OR_OTHER||percentage of participants|25.0|||||TWO_SIDED|95.0|14.1|37.8|||||The estimated value reflects the percentage of particpants with CR and PR.|||37.8|14.1|
82448873|NCT03037983|164605155|SUPERIORITY||Mean Difference (Net)|0.5||||0.782|TWO_SIDED|||||t = 0.287|t-test, 2 sided|||||||.782
82643186|NCT01932801|165001710|SUPERIORITY|||||||0.461||||||Denotes exact fit for the omnibus model|Chi-squared|Complete omnibus model stats: χ2(18, N=308) = 17.93, CFI = 1.00, RMSEA \< .001, SRMR = .07||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.461
82643187|NCT01932801|165001710|SUPERIORITY||Slope|-0.48||||0.01|TWO_SIDED|95.0|-0.79|-0.18||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period|z score for parameters||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.18|-.79|.01
82643188|NCT01932801|165001710|SUPERIORITY||Slope|-0.41||||0.01|TWO_SIDED|95.0|-0.67|-0.15|||z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables) during treatment period|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.15|-.67|.01
82393026|NCT01037127|164497741|SUPERIORITY_OR_OTHER||percentage of participants|17.0|||||TWO_SIDED|95.0|2.1|48.4|||||The estimated value reflects the percentage of particpants with CR and PR.|||48.4|2.1|
82448874|NCT01122849|164605157|SUPERIORITY_OR_OTHER||Least Square (LS) Mean difference|-0.12||||0.5456|TWO_SIDED|95.0|-0.52|0.28||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.28|-0.52|0.5456
82528289|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.18|2.08||||||Placebo versus GSK1399686 100 mg for Week 3 fecal calprotectin levels||2.08|0.18|
82393027|NCT01037127|164497741|SUPERIORITY_OR_OTHER||percentage of participants|27.0|||||TWO_SIDED|95.0|14.6|41.9|||||The estimated value reflects the percentage of particpants with CR and PR.|||41.9|14.6|
82393028|NCT01037127|164497741|SUPERIORITY_OR_OTHER||percentage of participants|26.0|||||TWO_SIDED|95.0|14.3|41.4|||||The estimated value reflects the percentage of particpants with CR and PR.|||41.4|14.3|
82444359|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.4754|TWO_SIDED|95.0|0.76|1.81|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.81|0.76|0.4754
82643189|NCT01932801|165001710|SUPERIORITY||Slope|-0.23||||0.19|TWO_SIDED|95.0|-0.52|0.06|||z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control (one of three dummy-coded variables) during treatment period|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||.06|-.52|.19
82643190|NCT01932801|165001711|SUPERIORITY|||||||0.347||||||Denotes exact fit for the omnibus model|Chi-squared|complete omnibus model statistics: χ2(20, N=308) = 21.89, CFI = 1.00, RMSEA = .02, SRMR = .03||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.347
82643191|NCT01932801|165001711|SUPERIORITY||Slope|-2.22||||0.002|TWO_SIDED|95.0|-3.39|-1.06||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-1.06|-3.39|.002
82643192|NCT01932801|165001711|SUPERIORITY||Slope|-0.82||||0.208|TWO_SIDED|95.0|-1.89|0.25||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||.25|-1.89|.208
82643193|NCT01932801|165001711|SUPERIORITY||Slope|-1.58||||0.025|TWO_SIDED|95.0|-2.73|-0.42||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.42|-2.73|.025
82643194|NCT01932801|165001712|SUPERIORITY|||||||0.028||||||"p value reflects omnibus model close fit"|Chi-squared|χ2(13, N=308) = 24.34, CFI = .98, RMSEA = .05, SRMR = .03||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.028
82643195|NCT01932801|165001712|SUPERIORITY||Slope|-4.42||||0.047|TWO_SIDED|95.0|-8.09|-0.76||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.76|-8.09|.047
82643196|NCT01932801|165001712|SUPERIORITY||Slope|-5.95||||0.009|TWO_SIDED|95.0|-9.72|-2.19||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-2.19|-9.72|.009
82448875|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS mean difference|-0.34||||0.1029|TWO_SIDED|95.0|-0.75|0.07||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.07|-0.75|0.1029
82393029|NCT01037127|164497741|SUPERIORITY_OR_OTHER||percentage of participants|28.0|||||TWO_SIDED|95.0|14.2|45.2|||||The estimated value reflects the percentage of particpants with CR and PR.|||45.2|14.2|
82393030|NCT01037127|164497742|SUPERIORITY_OR_OTHER||percentage of participants|20.0||||||95.0|7.7|38.6|||||The estimated value reflects the percentage of particpants with CR and PR.|||38.6|7.7|
82528290|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.6|||||TWO_SIDED|95.0|0.17|2.08||||||Placebo versus GSK1399686 300 mg for Week 3 fecal calprotectin levels||2.08|0.17|
82393031|NCT02847182|164497776|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.83|TWO_SIDED|95.0|-1.58|3.86|||t-test, 2 sided|||Null hypothesis: The mean of the 6-month change in VABS-II Socialization Subscale Standard Score is the same for the Cord Blood and Placebo groups.||3.86|-1.58|0.83
82393032|NCT00962091|164497845|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.9|||||TWO_SIDED|90.0|1.52|2.37|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 Cmax values (difference=OS-PIC). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||2.37|1.52|
82393033|NCT00962091|164497846|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|1.08|1.78|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUClast values (difference=OS-PIC). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.78|1.08|
82393034|NCT00962091|164497852|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.66|1.06|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 Cmax values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.06|0.66|
82393035|NCT00962091|164497853|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.8|1.34|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUClast values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.34|0.80|
82393036|NCT00962091|164497854|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|90.0|0.68|1.32|||||The CIs are calculated for the difference in the LS means of the ln-transformed Day 1 AUC values (difference=Fed-Fasted). Antilogs of the confidence limits for the difference are taken to construct the CIs for the ratio of the geometric means.|||1.32|0.68|
82393037|NCT00778102|164497859|SUPERIORITY_OR_OTHER||Difference in Resection Rate|12.3||||0.2707|TWO_SIDED|95.0|-11.0|35.5|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with R0, R1, or R2.||35.5|-11.0|0.2707
82393038|NCT00778102|164497862|SUPERIORITY_OR_OTHER||Difference in Response Rate|-4.8||||0.7817|TWO_SIDED|95.0|-43.0|33.5|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with complete or major histopathological response.||33.5|-43.0|0.7817
82393039|NCT00778102|164497869|SUPERIORITY_OR_OTHER||Difference in Response Rate (CR or PR)|18.9||||0.0612|TWO_SIDED|95.0|-2.1|40.0|||Chi-squared||Confidence interval calculated for difference based on Hauck-Anderson method.|Difference between groups in the collective percentage of participants with confirmed best overall response of CR or PR.||40.0|-2.1|0.0612
82393040|NCT00224406|164497925|SUPERIORITY||Mean Difference (Final Values)|5.022||||0.8541|ONE_SIDED|95.0||50.26|||t-test, 1 sided|||Repeated Measurements Analysis of PaO2/FiO2 ratio corrected for the altitude at 0 and 24hours after ICU admission using a one-sided test excluding missing data. Herein analysis at ICU Admission (Time 0).||50.26||0.8541
82393041|NCT00224406|164497925|SUPERIORITY||Mean Difference (Final Values)|10.426||||0.6996|ONE_SIDED|95.0||55.17|||t-test, 1 sided|||Repeated Measurements Analysis of PaO2/FiO2 ratio corrected for the altitude at 0 and 24hours after ICU admission using a one-sided test excluding missing data. Herein analysis at 24 Hours Post ICU Admission.||55.17||0.6996
82393042|NCT00224406|164497926|SUPERIORITY||Mean Difference (Final Values)|4.377||||0.8654|ONE_SIDED|95.0||47.15|||t-test, 1 sided|||ICU Admission (Time 0)||47.15||0.8654
82393043|NCT00224406|164497926|SUPERIORITY||Median Difference (Final Values)|13.386||||0.6789|ONE_SIDED|95.0||66.91|||t-test, 1 sided|||24 Hours Post ICU Admission||66.91||0.6789
82393044|NCT00224406|164497926|SUPERIORITY||Mean Difference (Final Values)|-19.968||||0.6345|ONE_SIDED|95.0||49.56|||t-test, 1 sided|||48 Hours Post ICU Admission||49.56||0.6345
82643197|NCT01932801|165001712|SUPERIORITY||Slope|-4.12||||0.072|TWO_SIDED|95.0|-7.88|-0.36||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|z||Linear effects of HaRT-A only compared to services-as usual control during treatment period (one of three dummy-coded variables)|"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model. For more familiar formats, please see the related publications page, especially see https://doi.org/10.1016/s2215-0366(20)30489-2"||-.36|-7.88|.072
82393045|NCT00224406|164497926|SUPERIORITY||Mean Difference (Final Values)|0.908||||0.9858|ONE_SIDED|95.0||85.49|||t-test, 1 sided|||72 Hours Post ICU Admission||85.49||0.9858
82393046|NCT00224406|164497927|SUPERIORITY||Odds Ratio (OR)|2.867||||0.7985|TWO_SIDED|95.0|0.727|11.302|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at ICU Admission (Time 0). One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||11.302|0.727|0.7985
82393047|NCT00224406|164497927|SUPERIORITY||Odds Ratio (OR)|0.837||||0.5606|TWO_SIDED|95.0|0.226|3.092|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 24h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||3.092|0.226|0.5606
82393048|NCT00224406|164497927|SUPERIORITY||Odds Ratio (OR)|1.716||||0.8786|TWO_SIDED|95.0|0.531|5.552|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 48h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||5.552|0.531|0.8786
82448876|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS mean difference|0.22||||0.2879|TWO_SIDED|95.0|-0.19|0.62||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 7||0.62|-0.19|0.2879
82365022|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|14.2||||0.0005|TWO_SIDED|95.0|7.8|20.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||20.5|7.8|0.0005
82528291|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.15|1.32||||||Placebo versus Asacol for Week 3 fecal calprotectin levels||1.32|0.15|
82365023|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|12.9||||0.0019|TWO_SIDED|95.0|6.3|19.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||19.4|6.3|0.0019
82365024|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|31.8|||<|0.0001|TWO_SIDED|95.0|23.6|39.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.9|23.6|<0.0001
82365025|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|11.9||||0.0246|TWO_SIDED|95.0|2.4|21.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.4|2.4|0.0246
82365026|NCT03575871|164439634|SUPERIORITY||Difference in Percentage|26.9|||<|0.0001|TWO_SIDED|95.0|17.0|36.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||36.9|17.0|<0.0001
82365027|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.7|3.7||P-value was not estimable since there were no events.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.7|-3.7|
82365028|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|1.9||||0.2262|TWO_SIDED|95.0|-2.2|6.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.1|-2.2|0.2262
82365029|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|1.9||||0.2223|TWO_SIDED|95.0|-2.2|6.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.1|-2.2|0.2223
82365030|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|4.5||||0.0597|TWO_SIDED|95.0|-0.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-0.2|0.0597
82393049|NCT00224406|164497927|SUPERIORITY||Odds Ratio (OR)|1.337||||0.8499|TWO_SIDED|95.0|0.352|5.072|||Cochran-Mantel-Haenszel||Odds ratio is Repertaxin:Placebo ratio of PGD scores 0-2:PGD score 3 odds|Analysis of PGD score was performed separately at time 0, and at 24, 48, 72 hours after ICU admission. Herein analysis at 72h post-ICU admission. One patient of placebo group is excluded from analysis of PGD score because the cause of graft dysfunction is Cardiogenic pulmonary edema.||5.072|0.352|0.8499
82528292|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|1.29|||||TWO_SIDED|95.0|0.33|5.04||||||Placebo versus GSK1399686 10 mg for Week 4 fecal calprotectin levels||5.04|0.33|
82365031|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-2.7|0.3207
82365032|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|4.5||||0.0586|TWO_SIDED|95.0|-0.2|9.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||9.2|-0.2|0.0586
82365033|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|5.2||||0.0419|TWO_SIDED|95.0|0.3|10.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.1|0.3|0.0419
82365034|NCT03575871|164439635|SUPERIORITY||Difference in Percentage|6.3||||0.0244|TWO_SIDED|95.0|1.2|11.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.4|1.2|0.0244
82393050|NCT00224406|164497928|SUPERIORITY|at 24 hrs from mechanical ventilation|difference in event probability|0.0091||||0.7076|TWO_SIDED|95.0|-0.1867|0.2049|||Log Rank|||||0.2049|-0.1867|0.7076
82528293|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.64|||||TWO_SIDED|95.0|0.2|2.02||||||Placebo versus GSK1399686 30 mg for Week 4 fecal calprotectin levels||2.02|0.20|
82528294|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.96|||||TWO_SIDED|95.0|0.29|3.23||||||Placebo versus GSK1399686 100 mg for Week 4 fecal calprotectin levels||3.23|0.29|
82528295|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|1.36|||||TWO_SIDED|95.0|0.39|4.72||||||Placebo versus GSK1399686 300 mg for Week 4 fecal calprotectin levels||4.72|0.39|
82365035|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|25.0|||<|0.0001|TWO_SIDED|95.0|14.8|35.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.2|14.8|<0.0001
82365036|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|44.2|||<|0.0001|TWO_SIDED|95.0|33.9|54.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||54.6|33.9|<0.0001
82365037|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|30.2|||<|0.0001|TWO_SIDED|95.0|17.5|42.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.8|17.5|<0.0001
82365038|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|49.8|||<|0.0001|TWO_SIDED|95.0|37.8|61.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||61.7|37.8|<0.0001
82365039|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|31.5|||<|0.0001|TWO_SIDED|95.0|18.8|44.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||44.3|18.8|<0.0001
82365040|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|47.6|||<|0.0001|TWO_SIDED|95.0|35.7|59.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||59.6|35.7|<0.0001
82365041|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|48.7|||<|0.0001|TWO_SIDED|95.0|37.2|60.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.1|37.2|<0.0001
82365042|NCT03575871|164439636|SUPERIORITY||Difference in Percentage|60.1|||<|0.0001|TWO_SIDED|95.0|49.1|71.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||71.0|49.1|<0.0001
82365043|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|2.5||||0.1623|TWO_SIDED|95.0|-1.7|6.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.8|-1.7|0.1623
82365044|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|9.1||||0.007|TWO_SIDED|95.0|3.4|14.7||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||14.7|3.4|0.0070
82365045|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|9.7||||0.0049|TWO_SIDED|95.0|4.0|15.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||15.4|4.0|0.0049
82365046|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|22.9|||<|0.0001|TWO_SIDED|95.0|15.5|30.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||30.2|15.5|<0.0001
82365047|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|14.6||||0.0013|TWO_SIDED|95.0|7.2|22.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||22.0|7.2|0.0013
82365048|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|31.6|||<|0.0001|TWO_SIDED|95.0|23.1|40.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.1|23.1|<0.0001
82365049|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|20.1||||0.0001|TWO_SIDED|95.0|11.9|28.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||28.3|11.9|0.0001
82365050|NCT03575871|164439637|SUPERIORITY||Difference in Percentage|33.5|||<|0.0001|TWO_SIDED|95.0|24.6|42.5|||Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||42.5|24.6|<0.0001
82365051|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.7|3.7||P-value could not be calculated since percentage of participants with events was 0.||||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||3.7|-3.7|
82365052|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|1.3||||0.3261|TWO_SIDED|95.0|-2.8|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-2.8|0.3261
82365053|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.3|-2.7|0.3207
82365054|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|3.9||||0.081|TWO_SIDED|95.0|-0.8|8.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.5|-0.8|0.0810
82365055|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|1.3||||0.3207|TWO_SIDED|95.0|-2.7|5.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||5.2|-2.7|0.3207
82365056|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|3.8||||0.081|TWO_SIDED|95.0|-0.7|8.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||8.4|-0.7|0.0810
82365057|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|5.2||||0.0419|TWO_SIDED|95.0|0.3|10.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.1|0.3|0.0419
82365058|NCT03575871|164439638|SUPERIORITY||Difference in Percentage|7.0||||0.018|TWO_SIDED|95.0|1.8|12.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.2|1.8|0.0180
82365059|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-30.2|||<|0.0001|TWO_SIDED|95.0|-38.1|-22.3|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-22.3|-38.1|<0.0001
82365060|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-42.3|||<|0.0001|TWO_SIDED|95.0|-50.3|-34.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-34.4|-50.3|<0.0001
82365061|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-29.9|||<|0.0001|TWO_SIDED|95.0|-38.1|-21.7|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-21.7|-38.1|<0.0001
82365062|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-44.6|||<|0.0001|TWO_SIDED|95.0|-52.8|-36.3|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-36.3|-52.8|<0.0001
82365063|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-26.4|||<|0.0001|TWO_SIDED|95.0|-36.2|-16.7|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-16.7|-36.2|<0.0001
82365064|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-40.2|||<|0.0001|TWO_SIDED|95.0|-50.0|-30.4|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-30.4|-50.0|<0.0001
82365065|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-31.4|||<|0.0001|TWO_SIDED|95.0|-43.1|-19.7|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-19.7|-43.1|<0.0001
82393051|NCT00224406|164497928|SUPERIORITY||difference in event probability|-0.0316||||0.7076|TWO_SIDED|95.0|-0.2092|0.146|||Log Rank|||at 48 hrs from mechanical ventilation||0.1460|-0.2092|0.7076
82365066|NCT03575871|164439639|SUPERIORITY||Difference in LS mean|-44.7|||<|0.0001|TWO_SIDED|95.0|-56.4|-33.0|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-33.0|-56.4|<0.0001
82365067|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-26.5|||<|0.0001|TWO_SIDED|95.0|-35.5|-17.5|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-17.5|-35.5|<0.0001
82393052|NCT00224406|164497928|SUPERIORITY||difference in event probability|-0.0661||||0.7076|TWO_SIDED|95.0|-0.2314|0.0993|||Log Rank|||at 72 hrs from mechanical ventilation||0.0993|-0.2314|0.7076
82393053|NCT00224406|164497929|SUPERIORITY||Difference in event probability|-0.0364||||0.9632|TWO_SIDED|95.0|-0.0858|0.0131|||Log Rank|||Analysis at 24 hours||0.0131|-0.0858|0.9632
82365068|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-34.1|||<|0.0001|TWO_SIDED|95.0|-43.1|-25.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-25.1|-43.1|<0.0001
82365069|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-29.7|||<|0.0001|TWO_SIDED|95.0|-39.0|-20.4|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-20.4|-39.0|<0.0001
82365070|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-40.5|||<|0.0001|TWO_SIDED|95.0|-49.8|-31.1|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-31.1|-49.8|<0.0001
82365071|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-32.9|||<|0.0001|TWO_SIDED|95.0|-44.6|-21.2|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-21.2|-44.6|<0.0001
82365072|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-40.6|||<|0.0001|TWO_SIDED|95.0|-52.2|-28.9|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-28.9|-52.2|<0.0001
82365073|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-39.6|||<|0.0001|TWO_SIDED|95.0|-51.8|-27.4|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-27.4|-51.8|<0.0001
82365074|NCT03575871|164439640|SUPERIORITY||Difference in LS mean|-48.2|||<|0.0001|TWO_SIDED|95.0|-60.4|-36.0|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-36.0|-60.4|<0.0001
82365075|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|1.9||||0.2353|TWO_SIDED|95.0|-2.2|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-2.2|0.2353
82365076|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|5.8||||0.0332|TWO_SIDED|95.0|0.8|10.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.8|0.8|0.0332
82365077|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|6.5||||0.0227|TWO_SIDED|95.0|1.4|11.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||11.6|1.4|0.0227
82365078|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|16.8||||0.0001|TWO_SIDED|95.0|10.1|23.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.5|10.1|0.0001
82365079|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|14.5||||0.0008|TWO_SIDED|95.0|7.7|21.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||21.3|7.7|0.0008
82365080|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|25.8|||<|0.0001|TWO_SIDED|95.0|18.1|33.4||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||33.4|18.1|<0.0001
82365081|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|18.5||||0.0003|TWO_SIDED|95.0|10.5|26.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||26.5|10.5|0.0003
82365082|NCT03575871|164439641|SUPERIORITY||Difference in Percentage|30.2|||<|0.0001|TWO_SIDED|95.0|21.4|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|21.4|<0.0001
82365083|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|12.7||||0.0011|TWO_SIDED|95.0|6.5|18.9||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||18.9|6.5|0.0011
82448877|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.8213|TWO_SIDED|95.0|-0.45|0.56||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q3 at Day 7||0.56|-0.45|0.8213
82365084|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|32.6|||<|0.0001|TWO_SIDED|95.0|24.6|40.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||40.6|24.6|<0.0001
82448878|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean difference|-0.24||||0.3457||95.0|-0.74|0.27||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q3 at Day 7||0.27|-0.74|0.3457
82365085|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|28.3|||<|0.0001|TWO_SIDED|95.0|18.5|38.2||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||38.2|18.5|<0.0001
82365086|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|52.8|||<|0.0001|TWO_SIDED|95.0|43.2|62.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||62.5|43.2|<0.0001
82365087|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|28.0|||<|0.0001|TWO_SIDED|95.0|17.0|39.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||39.0|17.0|<0.0001
82365088|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|46.1|||<|0.0001|TWO_SIDED|95.0|35.2|57.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||57.1|35.2|<0.0001
82365089|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|36.2|||<|0.0001|TWO_SIDED|95.0|25.4|47.1||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||47.1|25.4|<0.0001
82365090|NCT03575871|164439642|SUPERIORITY||Difference in Percentage|49.6|||<|0.0001|TWO_SIDED|95.0|38.9|60.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||60.3|38.9|<0.0001
82365091|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|1.9||||0.2261|TWO_SIDED|95.0|-2.2|6.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||6.0|-2.2|0.2261
82365092|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|5.2||||0.0451|TWO_SIDED|95.0|0.3|10.0||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 2: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||10.0|0.3|0.0451
82365093|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|7.0||||0.0171|TWO_SIDED|95.0|1.8|12.3||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||12.3|1.8|0.0171
82365094|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|17.7|||<|0.0001|TWO_SIDED|95.0|10.9|24.5||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 4: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||24.5|10.9|<0.0001
82365095|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|11.5||||0.0018|TWO_SIDED|95.0|5.5|17.5||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||17.5|5.5|0.0018
82365096|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|25.7|||<|0.0001|TWO_SIDED|95.0|18.3|33.1||P-value was adjusted by randomization strata (baseline disease severity and age category)|Cochran-Mantel-Haenszel|||Week 8: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||33.1|18.3|<0.0001
82393054|NCT00224406|164497929|SUPERIORITY||Difference in event probability|0.0352||||0.9632|TWO_SIDED|95.0|-0.1458|0.2162|||Log Rank|||Analysis at 48 h||0.2162|-0.1458|0.9632
82528296|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.28|2.42||||||Placebo versus Asacol for Week 4 fecal calprotectin levels||2.42|0.28|
82365097|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|16.2||||0.0005|TWO_SIDED|95.0|8.8|23.6||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||23.6|8.8|0.0005
82393055|NCT00224406|164497929|SUPERIORITY||Difference in event probability|-0.0179||||0.9632|TWO_SIDED|95.0|-0.2143|0.1785|||Log Rank|||analysis at 72 h||0.1785|-0.2143|0.9632
82393056|NCT00224406|164497934|SUPERIORITY||Difference in event probability|-0.0566||||0.0111|TWO_SIDED|95.0|-0.1188|0.0056|||Log Rank|||Herein analysis up to month 3 was reported.||0.0056|-0.1188|0.0111
82393057|NCT00224406|164497934|SUPERIORITY||Difference in event probability|-0.0943||||0.0111|TWO_SIDED|95.0|-0.173|-0.0156|||Log Rank|||Herein analysis up to month 6 was reported.||-0.0156|-0.1730|0.0111
82393058|NCT00224406|164497934|SUPERIORITY||Difference in event probability|-0.1132||||0.0111|TWO_SIDED|95.0|-0.1985|-0.0279|||Log Rank|||Herein analysis up to month 9 was reported.||-0.0279|-0.1985|0.0111
82393059|NCT00224406|164497934|SUPERIORITY||Slope|-0.1334||||0.0111|TWO_SIDED|95.0|-0.2254|-0.0413|||Log Rank|||Herein analysis up to month 12 was reported.||-0.0413|-0.2254|0.0111
82528297|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.61|||||TWO_SIDED|95.0|0.14|2.66||||||Placebo versus GSK1399686 10 mg for Week 5 fecal calprotectin levels||2.66|0.14|
82365098|NCT03575871|164439643|SUPERIORITY||Difference in Percentage|27.6|||<|0.0001|TWO_SIDED|95.0|19.3|35.8||P-value was adjusted by randomization strata (baseline disease severity and age category).|Cochran-Mantel-Haenszel|||Week 12: The estimate and CI for difference were calculated based on the weighted average of difference for each randomization stratum using the normal approximation of binomial proportions.||35.8|19.3|<0.0001
82365099|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.1|-2.3|<0.0001
82365100|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.3|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.3|-3.5|<0.0001
82365101|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.3|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.3|-2.6|<0.0001
82365102|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-3.1|||<|0.0001|TWO_SIDED|95.0|-3.8|-2.5|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.5|-3.8|<0.0001
82365103|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.9|-2.3|<0.0001
82365104|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.3|-1.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.9|-3.3|<0.0001
82365105|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-1.4||||0.0006|TWO_SIDED|95.0|-2.2|-0.6|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.6|-2.2|0.0006
82365106|NCT03575871|164439644|SUPERIORITY||Difference in LS mean|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.4|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.4|-3.0|<0.0001
82365107|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.8|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.8|-2.0|<0.0001
82365108|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.8|||Mixed Models Analysis|||Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.8|-3.0|<0.0001
82365109|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.2|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.2|-2.4|<0.0001
82365110|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.3|||Mixed Models Analysis|||Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-2.3|-3.6|<0.0001
82528298|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|1.25|||||TWO_SIDED|95.0|0.35|4.38||||||Placebo versus GSK1399686 30 mg for Week 5 fecal calprotectin levels||4.38|0.35|
82365111|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.9|-2.3|<0.0001
82365112|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.7|||Mixed Models Analysis|||Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.7|-3.1|<0.0001
82365113|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-0.9||||0.0164|TWO_SIDED|95.0|-1.7|-0.2|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-0.2|-1.7|0.0164
82365114|NCT03575871|164439645|SUPERIORITY||Difference in LS mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.0|||Mixed Models Analysis|||Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category), baseline value and an unstructured covariance matrix.||-1.0|-2.5|<0.0001
82365115|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-20.9|||<|0.0001|TWO_SIDED|95.0|-26.6|-15.1|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.1|-26.6|<0.0001
82448879|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.2364|TWO_SIDED|95.0|-0.2|0.79|||ANCOVA|||Comparison for Q3 at Day 7||0.79|-0.20|0.2364
82528299|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.2|2.47||||||Placebo versus GSK1399686 100 mg for Week 5 fecal calprotectin levels||2.47|0.20|
82393060|NCT01556997|164497937|SUPERIORITY_OR_OTHER|||||||0.025|ONE_SIDED|||||The statistical model was an analysis of covariance model with treatment as the main effect and baseline DBP (\<100 mmHg versus ≥100 mmHg), current type 2 diabetes status (yes versus no), and race (black versus non-black) as covariates.|ANCOVA|||||||0.025
82393061|NCT01556997|164497938|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||The statistical model was an analysis of covariance model with treatment as the main effect and baseline DBP (\<100 mmHg versus ≥100 mmHg), current type 2 diabetes status (yes versus no), and race (black versus non-black) as covariates.|ANCOVA|||||||0.025
82393062|NCT01010009|164497939|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Data was analysed by omnibus ANOVA with a priori planned comparisons utilizing the mean squares error term from this ANOVA.||||>0.05
82393063|NCT01010009|164497939|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||Data was analysed by omnibus ANOVA with a priori planned comparisons utilizing the mean squares error term from this ANOVA.||||<0.05
82393064|NCT01010009|164497940|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Performance on each cognitive task was assessed via omnibus ANOVA with a priori planned comparisons.||||>0.05
82393065|NCT01010009|164497940|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Performance on each cognitive task was assessed via omnibus ANOVA with a priori planned comparisons.||||>0.05
82393066|NCT01010009|164497941|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||An omnibus ANOVA was carried out with a priori planned comparisons using the mean squares error term from this ANOVA.||||<0.05
82393067|NCT01010009|164497941|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||An omnibus ANOVA was carried out with a priori planned comparisons using the mean squares error term from this ANOVA.||||<0.05
82393068|NCT05070468|164497967|SUPERIORITY|||||||0.618|||||||Wilcoxon (Mann-Whitney)|||||||0.618
82393069|NCT05070468|164497968|SUPERIORITY|||||||0.483|||||||Wilcoxon (Mann-Whitney)|||||||0.483
82528300|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.41|||||TWO_SIDED|95.0|0.11|1.46||||||Placebo versus GSK1399686 300 mg for Week 5 fecal calprotectin levels||1.46|0.11|
82393070|NCT05070468|164497969|SUPERIORITY|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||||||0.571
82393071|NCT02607280|164497970|OTHER||LS mean change from baseline at Week 14|-1.79|||||TWO_SIDED|95.0|-2.45|-1.14||||||||-1.14|-2.45|
82365116|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-32.1|||<|0.0001|TWO_SIDED|95.0|-37.9|-26.4|||Mixed Models Analysis|||Change at Week 2: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-26.4|-37.9|<0.0001
82365117|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-21.6|||<|0.0001|TWO_SIDED|95.0|-28.1|-15.2|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-15.2|-28.1|<0.0001
82365118|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-35.9|||<|0.0001|TWO_SIDED|95.0|-42.3|-29.4|||Mixed Models Analysis|||Change at Week 4: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-29.4|-42.3|<0.0001
82393072|NCT02607280|164497970|OTHER||LS mean change from baseline at Week 14|-2.07|||||TWO_SIDED|95.0|-3.77|-0.36||||||||-0.36|-3.77|
82393073|NCT02539134|164497985|SUPERIORITY_OR_OTHER||Slope|1.06||||0.757|TWO_SIDED|90.0|0.741|1.374|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90 percent (%) confidence interval (CI) for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.374|0.741|0.757
82528301|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.47|||||TWO_SIDED|95.0|0.15|1.48||||||Placebo versus Asacol for Week 5 fecal calprotectin levels||1.48|0.15|
82393074|NCT02539134|164497985|SUPERIORITY_OR_OTHER||Slope|1.37||||0.042|TWO_SIDED|90.0|1.078|1.664|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.664|1.078|0.042
82393075|NCT02539134|164497986|SUPERIORITY_OR_OTHER||Slope|1.2||||0.191|TWO_SIDED|90.0|0.946|1.45|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90% CI for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.450|0.946|0.191
82393076|NCT02539134|164497986|SUPERIORITY_OR_OTHER||Slope|1.37||||0.036|TWO_SIDED|90.0|1.089|1.657|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.657|1.089|0.036
82393077|NCT02539134|164497987|SUPERIORITY_OR_OTHER||Slope|1.19||||0.288|TWO_SIDED|90.0|0.89|1.489|||Power model|||Day 1: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 1 was assessed using the power model. For Day 1, the criteria for dose proportionality was the 90% CI for the slope within (0.875, 1.125) for the dose range of 100 mg to 600 mg.||1.489|0.890|0.288
82393078|NCT02539134|164497988|SUPERIORITY_OR_OTHER||Slope|1.36||||0.039|TWO_SIDED|90.0|1.08|1.642|||Power model|||Day 14: For groups with QD dosing, dose proportionality for TAK-935 plasma exposure on Day 14 was assessed using the power model. For Day 14, the criteria for dose proportionality was the 90% CI for the slope within (0.839, 1.161) for the dose range of 100 mg to 400 mg.||1.642|1.080|0.039
82393079|NCT02453282|164497989|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.036|TWO_SIDED|97.54|0.564|1.019||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.019|0.564|0.036
82528302|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.13|3.39||||||Placebo versus GSK1399686 10 mg for Week 6 fecal calprotectin levels||3.39|0.13|
82528303|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.44|||||TWO_SIDED|95.0|0.11|1.84||||||Placebo versus GSK1399686 30 mg for Week 6 fecal calprotectin levels||1.84|0.11|
82528304|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.09|1.48||||||Placebo versus GSK1399686 100 mg for Week 6 fecal calprotectin levels||1.48|0.09|
82393080|NCT02453282|164497989|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.202|TWO_SIDED|98.77|0.611|1.173||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.173|0.611|0.202
82393081|NCT02453282|164497990|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.705|TWO_SIDED|99.5|0.722|1.534||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.534|0.722|0.705
82393082|NCT02453282|164497991|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.523|TWO_SIDED|95.0|0.836|1.421||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.421|0.836|0.523
82393083|NCT02453282|164497992|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.194|TWO_SIDED|95.0|0.725|1.067||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.067|0.725|0.194
82393084|NCT02453282|164497992|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.952|TWO_SIDED|95.0|0.834|1.213||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.213|0.834|0.952
82393085|NCT02453282|164497992|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.218|TWO_SIDED|95.0|0.931|1.371||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.371|0.931|0.218
82393086|NCT02453282|164497993|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.602|TWO_SIDED|95.0|0.812|1.128||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.128|0.812|0.602
82393087|NCT02453282|164497993|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.43|TWO_SIDED|95.0|0.794|1.103||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.103|0.794|0.430
82393088|NCT02453282|164497993|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.802|TWO_SIDED|95.0|0.828|1.157||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.157|0.828|0.802
82393089|NCT02453282|164497994|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.324|TWO_SIDED|95.0|0.667|1.143||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.143|0.667|0.324
82393090|NCT02453282|164497994|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.207|TWO_SIDED|95.0|0.911|1.541||The analysis was performed using stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.541|0.911|0.207
82444360|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5578|TWO_SIDED|95.0|0.74|1.75|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.75|0.74|0.5578
82643198|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.24||0.6|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.6
82393091|NCT02453282|164497995|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.383|TWO_SIDED|95.0|0.894|1.339||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.339|0.894|0.383
82365119|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-19.4|||<|0.0001|TWO_SIDED|95.0|-26.8|-12.1|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-12.1|-26.8|<0.0001
82365120|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-33.6|||<|0.0001|TWO_SIDED|95.0|-41.0|-26.3|||Mixed Models Analysis|||Change at Week 8: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-26.3|-41.0|<0.0001
82365121|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-23.1|||<|0.0001|TWO_SIDED|95.0|-32.3|-13.9|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-13.9|-32.3|<0.0001
82365122|NCT03575871|164439646|SUPERIORITY||Difference in LS mean|-33.4|||<|0.0001|TWO_SIDED|95.0|-42.6|-24.3|||Mixed Models Analysis|||Change at Week 12: MMRM contained fixed factors of treatment, visit, treatment by visit interaction, randomization strata (baseline disease severity and age category) and baseline value and used an unstructured covariance matrix.||-24.3|-42.6|<0.0001
82365123|NCT03998436|164439648|SUPERIORITY||Odds Ratio (OR)|2.126||||0.0276|TWO_SIDED|95.0|1.08|4.17|||Chi-squared|||||4.17|1.08|0.0276
82365124|NCT03998436|164439649|SUPERIORITY||Odds Ratio (OR)|2.708||||0.0126|TWO_SIDED|95.0|1.22|5.99|||Chi-squared|||||5.99|1.22|0.0126
82365125|NCT01138826|164439748|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|105.57|||||TWO_SIDED|90.0|98.09|113.61||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||113.61|98.09|
82365126|NCT01138826|164439748|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|107.55|||||TWO_SIDED|90.0|99.98|115.69||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||115.69|99.98|
82365127|NCT01138826|164439748|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUC\[0- ∞\] of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|101.88|||||TWO_SIDED|90.0|94.7|109.6||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1036 on the natural log scale for AUCinf with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1234 for loge AUCinf.||109.60|94.70|
82365128|NCT01138826|164439749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|103.88|||||TWO_SIDED|90.0|97.27|110.94||||||||110.94|97.27|
82365129|NCT01138826|164439749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|104.26|||||TWO_SIDED|90.0|97.67|111.3||||||||111.30|97.67|
82393092|NCT02453282|164497995|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.001|TWO_SIDED|95.0|1.136|1.678||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.678|1.136|0.001
82365130|NCT01138826|164439749|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed AUClast of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|100.37|||||TWO_SIDED|90.0|94.02|107.15||||||||107.15|94.02|
82444361|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.1864|TWO_SIDED|95.0|0.87|2.07|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||2.07|0.87|0.1864
82365131|NCT01138826|164439750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|98.39|||||TWO_SIDED|90.0|91.05|106.33||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||106.33|91.05|
82365132|NCT01138826|164439750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|95.22|||||TWO_SIDED|90.0|88.16|102.84||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||102.84|88.16|
82365133|NCT01138826|164439750|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Natural log transformed Cmax of amlodipine was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.|Adjusted ratio of geometric means|96.77|||||TWO_SIDED|90.0|89.58|104.54||||||A sample size of 12 completers provided 90% confidence intervals for the difference between treatment of +/-0.1146 on the natural log scale for Cmax with 90% coverage probability. These calculations were based on estimates of within-participant standard deviations of 0.1366 for loge Cmax.||104.54|89.58|
82365134|NCT03360916|164439766|SUPERIORITY||Mean Difference (Net)|2.29|STANDARD_DEVIATION|125.59||0.953|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.9530
82365135|NCT03360916|164439766|SUPERIORITY||Mean Difference (Net)|-11.24|STANDARD_DEVIATION|130.12||0.7908|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.7908
82365136|NCT03360916|164439766|SUPERIORITY||Mean Difference (Net)|44.88|STANDARD_DEVIATION|105.19||0.1344|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.1344
82365137|NCT03360916|164439767|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.18||0.0005|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0005
82365138|NCT03360916|164439767|SUPERIORITY||Mean Difference (Net)|0.23|STANDARD_DEVIATION|0.21||0.0021|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0021
82365139|NCT03360916|164439767|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_DEVIATION|0.23||0.0025|TWO_SIDED||||||t-test, 2 sided|This is within group 3 month change||||||0.0025
82365140|NCT00350402|164439816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.254|STANDARD_ERROR_OF_MEAN|2.028|<|0.001|TWO_SIDED|95.0|3.147|11.362|||t-test, 2 sided|df = 38; t = 3.576|Treatment effect size: Cohen's D =1.142|Hypothesis: Parkinson patients assigned to high intensity IMST will show greater improvement in facial movement (entropy) relative to those undergoing Sham IMST.||11.362|3.147|< 0.001
82365141|NCT00350402|164439817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.36|STANDARD_ERROR_OF_MEAN|4.955|<|0.459|TWO_SIDED|95.0|-16.41|3.68|||t-test, 2 sided|||Hypothesis: Scores on PDQ-39 would show bigger change for the IMST group than the Sham treatment group. The sample size was not powered for the PDQ-39 (but rather for the primary outcome variable).||3.68|-16.41|<0.459
82365142|NCT00350402|164439818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.426|STANDARD_ERROR_OF_MEAN|4.221|<|0.018|TWO_SIDED|95.0|1.874|18.978|||t-test, 2 sided|t-value = 2.47, with 37 df||Hypothesis: Changes in MIP following treatment would be greater for participants in the IMST versus the Sham treatment group. This is a validity check on for the IMST intervention.||18.978|1.874|<0.018
82393093|NCT02453282|164497995|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.138|TWO_SIDED|95.0|0.954|1.403||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.403|0.954|0.138
82393094|NCT02453282|164497996|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.015|TWO_SIDED|95.0|1.043|1.475||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.475|1.043|0.015
82365143|NCT00350402|164439819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.129|STANDARD_ERROR_OF_MEAN|2.492|<|0.047|TWO_SIDED|95.0|0.0834|10.17||No adjustment necessary|t-test, 2 sided|38 df, t= 2.058 However, due to inequality of variance (Levine test), the adjusted p-value = \<0.049, and adjusted df = 27.3||Hypothesis: Facial entropy changes would be greater in IMST group than sham treatment group. Sample size was based on preliminary data suggesting total N of 40 would be adequate for detecting change in entropy (of approximately 50%).||10.17|.0834|<0.047
82365144|NCT04844021|164439820|OTHER|We used a multiple hypothesis testing framework to evaluate the effectiveness of Nudge+ vs. Nudge, considering: 1) Nudge+ is more effective than Nudge by over 10 percentage points (PP); 2) Nudge+ is as effective as Nudge, with a difference of no greater than 10 PP in either direction; and 3) Nudge+ is less effective than Nudge by over 10 PP. The 10 PP margin was selected based on discussions with health system leaders and previous studies to ensure the differences were clinically meaningful.|Marginal probability|0.22|||||TWO_SIDED|95.0|0.13|0.31||If the 95% confidence interval for the risk difference did not contain any values within a region (Nudge+ superior, equivalence, Nudge+ inferior), that region could be rejected.||||The primary analysis involved fitting generalized estimating equations (GEE) with a binomial distribution and logit link to estimate reach (primary endpoint) for Nudge and Nudge+ along with the risk difference between conditions.||0.31|0.13|
82393095|NCT02453282|164497996|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.01|TWO_SIDED|95.0|1.054|1.485||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.485|1.054|0.010
82393096|NCT02453282|164497996|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.984|TWO_SIDED|95.0|0.845|1.179||The analysis was performed using stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.179|0.845|0.984
82393097|NCT02453282|164497997|SUPERIORITY||Odds Ratio (OR)|0.91||||0.698|TWO_SIDED|95.0|0.582|1.437||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.437|0.582|0.698
82393098|NCT02453282|164497997|SUPERIORITY||Odds Ratio (OR)|0.87||||0.534|TWO_SIDED|95.0|0.549|1.363||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.363|0.549|0.534
82393099|NCT02453282|164497997|SUPERIORITY||Odds Ratio (OR)|0.95||||0.82|TWO_SIDED|95.0|0.601|1.496||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.496|0.601|0.820
82393100|NCT02453282|164497998|SUPERIORITY||Odds Ratio (OR)|0.69||||0.05|TWO_SIDED|95.0|0.48|1.0||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.000|0.480|0.050
82393101|NCT02453282|164497998|SUPERIORITY||Odds Ratio (OR)|0.67||||0.029|TWO_SIDED|95.0|0.464|0.959||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||0.959|0.464|0.029
82393102|NCT02453282|164497998|SUPERIORITY||Odds Ratio (OR)|0.97||||0.887|TWO_SIDED|95.0|0.661|1.43||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.430|0.661|0.887
82393103|NCT02453282|164497999|SUPERIORITY||Odds Ratio (OR)|0.65||||0.012|TWO_SIDED|95.0|0.462|0.908||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab Monotherapy Vs SoC Chemotherapy||0.908|0.462|0.012
82393104|NCT02453282|164497999|SUPERIORITY||Odds Ratio (OR)|0.76||||0.093|TWO_SIDED|95.0|0.543|1.048||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.048|0.543|0.093
82444362|NCT00907296|164597349|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8488|TWO_SIDED|95.0|0.68|1.59|||Cox proportional hazard model||A hazard ratio \> 1 favors romosozumab.|The cause-specific hazard was modeled using a Cox proportional hazards model with 10 treatment groups as the independent variable, stratified by type of fracture and definitive fracture fixation (closed with reamed IM nail, Gustilo type I/II open with reamed IM nail, Gustilo type I/II open with unreamed IM nail) and adjusting for quality of surgical fixation.||1.59|0.68|0.8488
82393105|NCT02453282|164497999|SUPERIORITY||Odds Ratio (OR)|1.16||||0.406|TWO_SIDED|95.0|0.818|1.647||P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|Regression, Logistic||The analysis was performed using logistic regression adjusting for histology (squamous Vs non-squamous) and PD-L1 status (\>=25% Vs \<25%), with 95% CI calculated by profile likelihood.|Durvalumab + Tremelimumab Vs Durvalumab Monotherapy||1.647|0.818|0.406
82444363|NCT04135859|164597411|SUPERIORITY||Mean Difference (Final Values)|10.3||||0.023|TWO_SIDED||||||Mixed Models Analysis|||||||.023
82444364|NCT04135859|164597412|SUPERIORITY||Mean Difference (Final Values)|-59.0||||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||.06
82444365|NCT04135859|164597413|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.43|TWO_SIDED||||||Mixed Models Analysis|||||||.43
82448880|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.3553|TWO_SIDED|95.0|-0.21|0.57||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.57|-0.21|0.3553
82528305|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.76|||||TWO_SIDED|95.0|0.19|2.99||||||Placebo versus GSK1399686 300 mg for Week 6 fecal calprotectin levels||2.99|0.19|
82528306|NCT01036022|164752591|SUPERIORITY_OR_OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.21|2.49||||||Placebo versus Asacol for Week 6 fecal calprotectin levels||2.49|0.21|
82575319|NCT01020877|164860311|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.0|||||TWO_SIDED|90.0|97.6|115.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115|97.6|
82575320|NCT00790400|164860312|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Clopper-Pearson|||||||<0.0001
82575321|NCT01006980|164860325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.26|0.55|||Log Rank||The hazard ratio for death for vemurafenib relative to dacarbazine and the associated 95% confidence interval were computed using an unstratified Cox regression model.|The trial had a power of 80% to detect a hazard ratio of 0.65 for overall survival with an alpha level of 0.045 (an increase in median survival from 8 months for dacarbazine to 12.3 months for vemurafenib), one interim analysis for overall survival at 50% information.||0.55|0.26|<0.0001
82575322|NCT01006980|164860326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.2|0.33|||Log Rank||Hazard ratios for treatment with vemurafenib, as compared with dacarbazine, were estimated with the use of unstratified Cox regression.|The trial had a power of 90% to detect a hazard ratio of 0.55 for progression-free survival with an alpha level of 0.005 (an increase in median survival from 2.5 months for dacarbazine to 4.5 months for vemurafenib).||0.33|0.20|<.0001
82643199|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.18||0.83|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.83
82365145|NCT04844021|164439820|OTHER|We used a multiple hypothesis testing framework to evaluate the effectiveness of Nudge+ vs. Nudge, considering: 1) Nudge+ is more effective than Nudge by over 10 percentage points (PP); 2) Nudge+ is as effective as Nudge, with a difference of no greater than 10 PP in either direction; and 3) Nudge+ is less effective than Nudge by over 10 PP. The 10 PP margin was selected based on discussions with health system leaders and previous studies to ensure the differences were clinically meaningful.|Marginal probability|0.49|||||TWO_SIDED|95.0|0.37|0.61||If the 95% confidence interval for the risk difference did not contain any values within a region (Nudge+ superior, equivalence, Nudge+ inferior), that region could be rejected.||||The primary analysis involved fitting generalized estimating equations (GEE) with a binomial distribution and logit link to estimate reach (primary endpoint) for Nudge and Nudge+ along with the risk difference between conditions.||0.61|0.37|
82365146|NCT00645944|164439826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.039|TWO_SIDED|95.0|-7.5|-0.2|||Mixed Models Analysis|||||-0.2|-7.5|0.039
82365147|NCT02377921|164439844|SUPERIORITY||Least Squares (LS) Mean Difference|0.74||||0.5387|TWO_SIDED|95.0|-1.61|3.09||Generalized estimating equation (GEE) model includes change from Baseline (BL) as dependent variable, visit, treatment and visit by treatment as fixed factors, and BL values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||3.09|-1.61|0.5387
82365148|NCT02377921|164439845|SUPERIORITY||LS Mean Difference|-0.4||||0.6938|TWO_SIDED|95.0|-2.38|1.58||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||1.58|-2.38|0.6938
82365149|NCT02377921|164439846|SUPERIORITY||LS Mean Difference|-1.49||||0.5023|TWO_SIDED|95.0|-5.83|2.86||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||2.86|-5.83|0.5023
82365150|NCT02377921|164439847|SUPERIORITY||LS Mean Difference|-0.72||||0.2739|TWO_SIDED|95.0|-2.01|0.57||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference = Ace-ER - placebo|||0.57|-2.01|0.2739
82365151|NCT02377921|164439848|SUPERIORITY||LS Mean Difference|-2.76||||0.1235|TWO_SIDED|95.0|-6.27|0.75||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.75|-6.27|0.1235
82448881|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.3369|TWO_SIDED|95.0|-0.58|0.2||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.20|-0.58|0.3369
82575323|NCT00078338|164860333|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.943||||0.643|TWO_SIDED|95.0|0.74|1.21|||Cox proportional hazards model|||||1.21|0.74|0.643
82575324|NCT01483144|164860334|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.121|TWO_SIDED|95.0|0.4|1.3||The threshold for statistical significance is p=0.05|stratified Cox proportional (Score)||Eflornithine plus sulindac is the numerator and sulindac plus eflornithine placebo is the denominator.|Intent to treat population with all FAP-related events||1.3|0.4|0.1210
82575325|NCT01483144|164860334|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.1076|TWO_SIDED|95.0|0.4|1.2||The threshold for statistical significance is p=0.05|stratified Cox proportional (Score)||Eflornithine plus sulindac is the numerator and eflornithine plus sulindac placebo is the denominator.|Intent to treat population with all FAP-related events||1.2|0.4|0.1076
82643200|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.89|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol frequency.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.89
82643201|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.65|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.65
82643202|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.87|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the placebo vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.87
82643203|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.02||0.91|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all four treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.91
82643204|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.24|STANDARD_ERROR_OF_MEAN|0.38||0.54|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the XR-NTX vs control group effects on alcohol related harm.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.54
82643205|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.06|STANDARD_ERROR_OF_MEAN|0.32||0.84|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the placebo vs control effects on alcohol-related harm.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.84
82643206|NCT01932801|165001713|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|0.06|STANDARD_ERROR_OF_MEAN|0.29||0.84|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails all 4 treatment arms; however, this specific contrast is for the HaRT-A vs control group effects on alcohol related harm|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of readiness for change slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.84
82643207|NCT01932801|165001714|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.9||0.65|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails two treatment arms: XR-NTX vs placebo effects on alcohol frequency and alcohol craving (PACS).|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of the craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.65
82643208|NCT01932801|165001714|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.46|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails 2 treatment arms: XR-NTX vs placebo effects on craving and alcohol quantity.|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of the alcohol craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.46
82643209|NCT01932801|165001714|OTHER|Mediation tested using the product of coefficients (a\*b) approach (MacKinnon et al, 2002).|Slope|-0.57|STANDARD_ERROR_OF_MEAN|0.75||0.45|TWO_SIDED||||||z||We used growth modeling to test mediators of the treatment effect, truncated for during-treatment effects. This analysis entails two treatment arms: XR-NTX vs placebo effects on craving and alcohol-related harm|This was a mediation analysis (i.e., multiplication of regression coefficients for the regression of alcohol craving (PACS) slope on group (a-paths) and for the regression of alcohol outcome slopes on readiness (b-paths), where a\*b is considered the mediated effect) for during-treatment effects (baseline to week 12).||||.45
82393106|NCT02453282|164498006|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.03|TWO_SIDED|95.0|0.597|0.975||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||0.975|0.597|0.030
82393107|NCT02453282|164498006|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.045|TWO_SIDED|95.0|0.606|0.994||The 2-sided p-value was calculated using a stratified log-rank test adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||0.994|0.606|0.045
82393108|NCT02453282|164498007|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.255|TWO_SIDED|95.0|0.746|1.08||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.080|0.746|0.255
82393109|NCT02453282|164498007|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.534|TWO_SIDED|95.0|0.787|1.132||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.132|0.787|0.534
82393110|NCT02453282|164498008|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.663|TWO_SIDED|95.0|0.824|1.131||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab Monotherapy Vs SoC Chemotherapy||1.131|0.824|0.663
82393111|NCT02453282|164498008|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.103|TWO_SIDED|95.0|0.746|1.027||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Log Rank||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>=25% Vs \<25%) and histology (squamous Vs non-squamous), with ties handled by the Breslow approach.|Durvalumab + Tremelimumab Vs SoC Chemotherapy||1.027|0.746|0.103
82393112|NCT02327013|164498025|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|1.8||0.9723|TWO_SIDED|95.0|-3.6|3.5|||weighed z-score|Equally weighed LS z-score, combining results from stagewise MMRM, was compared to standard normal distribution.||The mean difference between treatment groups was estimated based on LS means for the treatment-by-visit interaction in stagewise MMRM analyses. In each stage, the REML-based MMRM model included site ID (stage 1 only), visit, treatment (placebo, vortioxetine 10mg, vortioxetine 20mg), baseline (for the stage) AISRS total score, treatment-by-visit interaction, and baseline (stage) AISRS total score-by-visit interaction, with an unstructured covariance structure to model the within-patient errors.||3.5|-3.6|0.9723
82393113|NCT02327013|164498025|SUPERIORITY|The mean difference between treatment groups was estimated based on LS means for the treatment-by-visit interaction in stagewise MMRM analyses. In each stage, the REML-based MMRM model included site ID (stage 1 only), visit, treatment (placebo, vortioxetine 10mg, vortioxetine 20mg), baseline (for the stage) AISRS total score, treatment-by-visit interaction, and baseline (stage) AISRS total score-by-visit interaction, with an unstructured covariance structure to model the within-patient errors.|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.9||0.601|TWO_SIDED|95.0|-2.8|4.8|||weighed z-score|Equally weighed LS z-score, combining results from stagewise MMRM, was compared to standard normal distribution.||||4.8|-2.8|0.6010
82393114|NCT02380859|164498085|SUPERIORITY|||||||0.005|||||||ANOVA|||Group (real, sham) x Time (pre, 1d post) x Stepping Direction (forward, backward) ANOVA||||0.005
82393115|NCT02063178|164498141|SUPERIORITY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This randomized clinical trial was designed to have 90% power to detect a 4% weight loss percent difference at 12 months between the two study arms.||||<0.001
82393116|NCT02063178|164498142|OTHER|Correlation|||||<|0.0001|||||||Correlation|||The association between weight change percent and attendance was described using Spearman rank correlation.||||<0.0001
82393117|NCT02063178|164498143|OTHER||||||<|0.0001|||||||Correlation|||||||<0.0001
82393118|NCT02063178|164498144|OTHER||||||<|0.0001|||||||Correlation|||||||<0.0001
82393119|NCT03747302|164498145|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
82393120|NCT03747302|164498146|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||Change in mean scores for behavioral intent to vaccine: negative values: smaller values indicate more likely to vaccinate.||||>.05
82444366|NCT03242018|164597425|SUPERIORITY||Difference in Least Square (LS) Means|-0.29|STANDARD_ERROR_OF_MEAN|0.173||0.0962|TWO_SIDED|95.0|-0.628|0.051|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.051|-0.628|0.0962
82393121|NCT01032070|164498147|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||P-value is not adjusted for multiple comparisons.|Fisher Exact|||The study was not powered for this comparison due to small sample size.||||0.2200
82393122|NCT00738062|164498191|SUPERIORITY_OR_OTHER|||||||0.438|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.438
82643210|NCT01932801|165001715|SUPERIORITY|||||||0.95||||||Denotes exact fit for the omnibus model|Chi-squared|Complete omnibus model : χ2(12, N=308) = .75, CFI = 1.00, RMSEA \< .001, SRMR = .008||"We used piecewise growth modeling to test various treatment arm effects on this outcome. Because there is currently no appropriate way to report on piecewise growth models in clinicaltrials.gov reporting tables, we are reporting the omnibus model statistics on this page called analysis 1 and select parameters representing certain treatment arm effects on subsequent analysis pages. However, we note these do not constitute separate analyses, but various parameters within a single SEM model."||||.95
82643211|NCT01932801|165001715|SUPERIORITY||Slope|-0.04||||0.75|TWO_SIDED|95.0|-0.24|0.16||Linear effects of HaRT-A+XR-NTX compared to services-as usual control during treatment period (one of three dummy-coded variables)|Chi-squared|||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.16|-.24|.75
82643212|NCT01932801|165001715|SUPERIORITY||Slope|-0.15||||0.2|TWO_SIDED|95.0|-0.34|0.04|||Chi-squared|Linear effects of HaRT-A+placebo compared to services-as usual control during treatment period (one of three dummy-coded variables)||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.04|-.34|.20
82643213|NCT01932801|165001715|SUPERIORITY||Slope|0.1||||0.39|TWO_SIDED|95.0|-0.09|0.29|||Chi-squared|Linear effects of HaRT-A compared to services-as usual control during treatment period (one of three dummy-coded variables)||"These are select parameters for treatment arm effects that are subordinate to the omnibus model statistics in the table called analysis 1. These are not separate analyses, but select parameters within a single SEM model."||.29|-.09|.39
82643214|NCT01932801|165001716|SUPERIORITY||incident rate ratio|0.98|||>|0.84|TWO_SIDED|95.0|0.83|1.16|||z|||We conducted a generalized estimating equations analysis (negative binomial distribution, log link) to test whether number of adverse events reported increased from baseline to the follow-ups differentially across placebo and XR-NTX groups||1.16|.83|>.84
82643215|NCT01856686|165001719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56593|||||||ANCOVA|||Between-Group Comparison||||0.56593
82643216|NCT01856686|165001719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44929|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.44929
82643217|NCT01856686|165001719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81844|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.81844
82643218|NCT01856686|165001720|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71152|||||||ANCOVA|||Between-Group Comparison||||0.71152
82643219|NCT01856686|165001720|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27795|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27795
82643220|NCT01856686|165001720|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47616|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.47616
82643221|NCT01856686|165001721|SUPERIORITY_OR_OTHER_LEGACY|||||||0.10036|||||||ANCOVA|||Between-Group Comparison||||0.10036
82365152|NCT02377921|164439849|SUPERIORITY||LS Mean Difference|-0.43||||0.3907|TWO_SIDED|95.0|-1.4|0.55||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.55|-1.40|0.3907
82643222|NCT01856686|165001721|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0082|||||||Paired t-test|||Within-group changes||||0.00820
82643223|NCT01856686|165001721|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||1.00000
82643224|NCT01856686|165001722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92193|||||||ANCOVA|||Between-Group Comparison||||0.92193
82643225|NCT01856686|165001722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.50704|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.50704
82643226|NCT01856686|165001722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42314|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.42314
82643227|NCT01856686|165001723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08946|||||||ANCOVA|||Between-Group Comparison||||0.08946
82643228|NCT01856686|165001723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27795|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27795
82643229|NCT01856686|165001723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.01090
82643230|NCT01856686|165001724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73209|||||||ANCOVA|||Between-Group Comparison||||0.73209
82643231|NCT01856686|165001724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07965|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.07965
82643232|NCT01856686|165001724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61613|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.61613
82643233|NCT01856686|165001725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33027|||||||ANCOVA|||Between-Group Comparison||||0.33027
82643234|NCT01856686|165001725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00013|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00013
82643235|NCT01856686|165001725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28019|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.28019
82643236|NCT01856686|165001726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94449|||||||ANCOVA|||Between-Group Comparison||||0.94449
82643237|NCT01856686|165001726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94574|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.94574
82643238|NCT01856686|165001726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85428|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.85428
82643239|NCT01856686|165001727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83929|||||||ANCOVA|||Between-Group Comparison||||0.83929
82643240|NCT01856686|165001727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97213|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.97213
82643241|NCT01856686|165001727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58323|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.58323
82643242|NCT01856686|165001728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05158|||||||ANCOVA|||Between-Group Comparison||||0.05158
82643243|NCT01856686|165001728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94574|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.94574
82393123|NCT00738062|164498192|SUPERIORITY_OR_OTHER|||||||0.554|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHDAS Composite value at randomization.||||||0.554
82393124|NCT00738062|164498193|SUPERIORITY_OR_OTHER|||||||0.198|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Composite value at baseline.||||||0.198
82528307|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.19|||||TWO_SIDED|95.0|0.42|3.38||||||Placebo versus GSK1399686 10 mg for Week 1 fecal lactoferrin levels||3.38|0.42|
82444367|NCT03242018|164597426|SUPERIORITY||Difference in LS Means|0.05|STANDARD_ERROR_OF_MEAN|0.196||0.8124|TWO_SIDED|95.0|-0.338|0.431|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.431|-0.338|0.8124
82444368|NCT03242018|164597427|SUPERIORITY||Difference in LS Means|-0.361|STANDARD_ERROR_OF_MEAN|0.6033||0.5501|TWO_SIDED|95.0|-1.5431|0.822|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline FPG as a covariate.||0.8220|-1.5431|0.5501
82643244|NCT01856686|165001728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09331|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.09331
82643245|NCT01856686|165001729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17383|||||||ANCOVA|||Between-Group Comparison||||0.17383
82643246|NCT01856686|165001729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00092|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00092
82643247|NCT01856686|165001729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15544|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.15544
82643248|NCT01856686|165001730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39707|||||||ANCOVA|||Between-Group Comparison||||0.39707
82643249|NCT01856686|165001730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27945|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.27945
82643250|NCT01856686|165001730|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19739|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.19739
82643251|NCT01856686|165001731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.50964|||||||ANCOVA|||Between-Group Comparison||||0.50964
82643252|NCT01856686|165001731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0071|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00710
82643253|NCT01856686|165001731|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00595|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00595
82643254|NCT01856686|165001732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48336|||||||ANCOVA|||Between-Group Comparison||||0.48336
82643255|NCT01856686|165001732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08739|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.08739
82643256|NCT01856686|165001732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37046|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.37046
82643257|NCT01856686|165001734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45013|||||||ANCOVA|||Between-Group Comparison||||0.45013
82643258|NCT01856686|165001734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17374|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.17374
82643259|NCT01856686|165001734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07548|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.07548
82643260|NCT01856686|165001735|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23226|||||||ANCOVA|||Between-Group Comparison||||0.23226
82643261|NCT01856686|165001735|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08812|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.08812
82393125|NCT00738062|164498194|SUPERIORITY_OR_OTHER|||||||0.286|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.286
82393126|NCT00738062|164498195|SUPERIORITY_OR_OTHER|||||||0.251|||||||Mantel Haenszel|Mantel-Haenszel statistic comparing treatment groups based on rank statistics adjusted for the covariate OHSA Item 1 value at randomization.||||||0.251
82528308|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.35|||||TWO_SIDED|95.0|0.5|3.65||||||Placebo versus GSK1399686 30 mg for Week 1 fecal lactoferrin levels||3.65|0.50|
82528309|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.25|||||TWO_SIDED|95.0|0.45|3.47||||||Placebo versus GSK1399686 100 mg for Week 1 fecal lactoferrin levels||3.47|0.45|
82528310|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.26|||||TWO_SIDED|95.0|0.44|3.59||||||Placebo versus GSK1399686 300 mg for Week 1 fecal lactoferrin levels||3.59|0.44|
82643262|NCT01856686|165001735|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00776|||||||Pairedt-test|||Within-group comparisons between the baseline and 3 month data||||0.00776
82643263|NCT01856686|165001736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.90843|||||||ANCOVA|||Between-Group Comparison||||0.90843
82643264|NCT01856686|165001736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00413|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00413
82643265|NCT01856686|165001736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.00775|||||||Paired t-test|||Within-group comparisons between the baseline and 3 month data||||0.00775
82643266|NCT00468312|165001738|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
82643267|NCT00468312|165001739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||0.026
82643268|NCT00468312|165001740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
82643269|NCT00468312|165001741|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||<0.001
82643270|NCT00468312|165001742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.269||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) extracted sources of variation due to treatment, variable specific baseline, and site.||||||0.269
82643271|NCT01598740|165001750|SUPERIORITY_OR_OTHER|||||||0.0662||95.0|||||ANCOVA|||One-way analysis of covariance (ANCOVA) common slopes model for a 2-period crossover design.||||0.0662
82365153|NCT02377921|164439850|OTHER||LS Mean Difference|-10.98||||0.1964|TWO_SIDED|95.0|-27.64|5.68||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||5.68|-27.64|0.1964
82528311|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.28|||||TWO_SIDED|95.0|0.5|3.28||||||Placebo versus Asacol for Week 1 fecal lactoferrin levels||3.28|0.50|
82643272|NCT01598740|165001751|SUPERIORITY_OR_OTHER|||||||0.1899||95.0|||||ANCOVA|||One-way analysis of covariance (ANCOVA) common slopes model for a 2-period crossover design.||||0.1899
82643273|NCT02723786|165001775|OTHER||||||||||||||||||The proportion of participants with DGF was 0.57, highest Posterior Density (HPD) 95% Credible interval (CI) (0.25,0.90). The posterior probability for the proportion of participants with DGF \<30% was 0.07 (HPD 95% CI \[0.00,1.00\]). The posterior probability for the proportion of participants with DGF \<50% was 0.34 (HPD 95% CI \[0.00,1.00\]).|||
82643274|NCT00703261|165001796|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||cLDA|||Constrained longitudinal data analysis (cLDA)||||0.006
82365154|NCT02377921|164439851|SUPERIORITY||LS Mean Difference|-1.4||||0.2241|TWO_SIDED|95.0|-3.66|0.86||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER - placebo|||0.86|-3.66|0.2241
82365155|NCT02377921|164439852|OTHER||LS Mean Difference|-0.32||||0.5608|TWO_SIDED|95.0|-1.39|0.75||GEE model includes change from Baseline as dependent variable, visit, treatment and visit by treatment as fixed factors, and Baseline values, sex, and region as covariates, with compound symmetry covariance structure.|GEE model||Difference: Ace-ER 6 g/day - placebo|||0.75|-1.39|0.5608
82365156|NCT01769274|164439905|OTHER|||||||1|||||||Hierarchical rank test|||||||1.0000
82365157|NCT01769274|164439905|OTHER|||||||1|||||||Hierarchical rank test|||||||1.0000
82365158|NCT02377063|164439915|OTHER||Mean Difference (Final Values)|-11.2||||0.014|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to day 4 minus day 0 (baseline) change of phylum Firmicutes after juice consumption||||0.014
82365159|NCT02377063|164439915|OTHER||Mean Difference (Final Values)|10.5||||0.026|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to day 4 minus day 0 (baseline) change of phylum Bacteroidetes after juice consumption||||0.026
82365160|NCT01172821|164439927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.159|0.264|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.264|0.159|<0.0001
82365161|NCT01172821|164439927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.116|0.222|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.222|0.116|<0.0001
82365162|NCT01172821|164439928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.12|0.233|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.233|0.120|<0.0001
82365163|NCT01172821|164439928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.076|0.19|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.190|0.076|<0.0001
82365164|NCT01172821|164439929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.03||0.0002|TWO_SIDED|95.0|0.052|0.168|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.168|0.052|0.0002
82393127|NCT00738062|164498196|SUPERIORITY_OR_OTHER|||||||0.708|||||||Fisher Exact|||||||0.708
82528312|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.76|||||TWO_SIDED|95.0|0.26|2.19||||||Placebo versus GSK1399686 10 mg for Week 2 fecal lactoferrin levels||2.19|0.26|
82528313|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.59|||||TWO_SIDED|95.0|0.22|1.63||||||Placebo versus GSK1399686 30 mg for Week 2 fecal lactoferrin levels||1.63|0.22|
82528314|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.35|||||TWO_SIDED|95.0|0.12|1.0||||||Placebo versus GSK1399686 100 mg for Week 2 fecal lactoferrin levels||1.00|0.12|
82643275|NCT00703261|165001796|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||cLDA|||||||0.277
82643276|NCT00703261|165001796|SUPERIORITY_OR_OTHER||Percent Reduction|4.5||||0.088|TWO_SIDED|90.0|-1.0|9.6|||cLDA|||||9.6|-1.0|0.088
82643277|NCT00703261|165001797|SUPERIORITY_OR_OTHER|||||||0.195||95.0|||||cLDA|||||||0.195
82643278|NCT03170271|165001798|SUPERIORITY|The null hypothesis was that the exacerbation rate of benralizumab was equal to the exacerbation rate of placebo.|Rate ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.65|||Negative binomial|||Comparison of annual exacerbation rates for benralizumab vs placebo (rate ratio). Treatment group, region, number of exacerbations in previous year and maintenance OCS use at baseline were included in the negative binomial model as covariates. The log of each patient's corresponding follow-up time was used as an offset variable in the model to adjust for patients having different follow-up times during which events occurred.||0.65|0.39|<0.0001
82393128|NCT00738062|164498197|SUPERIORITY_OR_OTHER|||||||0.873|||||||Fisher Exact|||||||0.873
82393129|NCT00738062|164498198|SUPERIORITY_OR_OTHER|||||||0.252|||||||Fisher Exact|||||||0.252
82393130|NCT00738062|164498199|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||||||0.330
82393131|NCT00033657|164498201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|TWO_SIDED|95.0|||||Log Rank|||||||0.48
82393132|NCT02248974|164498204|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||The model uses a general linear mixed model with fixed effects for baseline Knowledge Scale score, time (discrete), arm, and a time-arm interaction term. The matrix of correlated residual terms assumes an unstructured format.||||0.01
82393133|NCT02248974|164498205|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||The model uses a general linear mixed model with fixed effects for baseline KS score, time (discrete), arm, and a time-arm interaction term. The matrix of correlated residual terms assumes an unstructured format.||||0.47
82393134|NCT02248974|164498206|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Used Wilcoxon 2-sample test to see if DA group had significantly better (i.e. lower) Decisional Conflict Scores than no-DA (Control) group.||||0.12
82393135|NCT02248974|164498207|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Used Wilcoxon 2-sample test to see if DA group had significantly better (i.e. lower) Decisional Conflict Scores than no-DA (Control) group.||||0.79
82528315|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.93|||||TWO_SIDED|95.0|0.31|2.77||||||Placebo versus GSK1399686 300 mg for Week 2 fecal lactoferrin levels||2.77|0.31|
82365165|NCT01172821|164439929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.03||0.0031|TWO_SIDED|95.0|0.03|0.147|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.147|0.030|0.0031
82393136|NCT02248974|164498208|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
82393137|NCT02248974|164498209|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
82393138|NCT02248974|164498210|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82393139|NCT02248974|164498211|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82528316|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.7|||||TWO_SIDED|95.0|0.26|1.87||||||Placebo versus Asacol for Week 2 fecal lactoferrin levels||1.87|0.26|
82528317|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.53|||||TWO_SIDED|95.0|0.15|1.84||||||Placebo versus GSK1399686 10 mg for Week 3 fecal lactoferrin levels||1.84|0.15|
82528318|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.96|||||TWO_SIDED|95.0|0.32|2.87||||||Placebo versus GSK1399686 30 mg for Week 3 fecal lactoferrin levels||2.87|0.32|
82393140|NCT02248974|164498212|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82393141|NCT02248974|164498213|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82393142|NCT02248974|164498214|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82393143|NCT02248974|164498216|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82393144|NCT02248974|164498217|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82393145|NCT02248974|164498221|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82393146|NCT02248974|164498222|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82393147|NCT02248974|164498223|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
82393148|NCT02248974|164498224|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82393149|NCT02248974|164498225|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82393150|NCT02248974|164498226|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82393151|NCT02248974|164498228|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82393152|NCT02248974|164498229|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82393153|NCT02248974|164498230|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82393154|NCT02248974|164498237|SUPERIORITY|||||||0.98|||||||Fisher Exact|||||||0.98
82393155|NCT02248974|164498238|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
82393156|NCT02332239|164498239|SUPERIORITY||Mean Difference (Final Values)|-7.48|STANDARD_ERROR_OF_MEAN|4.11||0.07|TWO_SIDED||||||Mixed effects longitudinal regression||d=0.37|BDI Score where baseline \>=20: 8 week||||0.07
82393157|NCT02332239|164498240|SUPERIORITY||Median Difference (Final Values)|-7.29|STANDARD_ERROR_OF_MEAN|2.62||0.01|TWO_SIDED||||||quantile regression models|Controlled for baseline and gender|d=0.46|CTS Score where baseline \>=4: 8 week||||0.01
82393158|NCT02332239|164498243|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
82393159|NCT01928797|164498270|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
82393160|NCT01928797|164498271|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
82393161|NCT00006305|164498273|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.005||||0.97|TWO_SIDED|95.0|-0.031|0.02||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of all-cause mortality for Revascularization compared with Medical therapy|||0.020|-0.031|0.97
82448882|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.0591|TWO_SIDED|95.0|-0.01|0.76||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q17 at Day 7||0.76|-0.01|0.0591
82528319|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.52|||||TWO_SIDED|95.0|0.17|1.56||||||Placebo versus GSK1399686 100 mg for Week 3 fecal lactoferrin levels||1.56|0.17|
82528320|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.42|||||TWO_SIDED|95.0|0.45|4.46||||||Placebo versus GSK1399686 300 mg for Week 3 fecal lactoferrin levels||4.46|0.45|
82528321|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.14|1.01||||||Placebo versus Asacol for Week 3 fecal lactoferrin levels||1.01|0.14|
82528322|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.1|1.15||||||Placebo versus GSK1399686 10 mg for Week 4 fecal lactoferrin levels||1.15|0.10|
82528323|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.23|2.03||||||Placebo versus GSK1399686 30 mg for Week 4 fecal lactoferrin levels||2.03|0.23|
82528324|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.19|1.68||||||Placebo versus GSK1399686 100 mg for Week 4 fecal lactoferrin levels||1.68|0.19|
82393162|NCT00006305|164498273|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.003||||0.89|TWO_SIDED|95.0|-0.029|0.022||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of all-cause mortality for Insulin Sensitizing glycemic control strategy compared with Insulin Providing glycemic control strategy|||0.022|-0.029|0.89
82528325|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.19|||||TWO_SIDED|95.0|0.38|3.7||||||Placebo versus GSK1399686 300 mg for Week 4 fecal lactoferrin levels||3.70|0.38|
82365166|NCT01172821|164439930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.032||0.0061|TWO_SIDED|95.0|0.025|0.149|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.149|0.025|0.0061
82365167|NCT01172821|164439930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.032||0.0093|TWO_SIDED|95.0|0.021|0.146|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.146|0.021|0.0093
82365168|NCT01172821|164439931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.15|0.252|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.252|0.150|<0.0001
82365169|NCT01172821|164439931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.112|0.215|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.215|0.112|<0.0001
82365170|NCT01172821|164439932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|STANDARD_ERROR_OF_MEAN|0.029||0.0002|TWO_SIDED|95.0|0.052|0.164|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.164|0.052|0.0002
82365171|NCT01172821|164439932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.029||0.0019|TWO_SIDED|95.0|0.033|0.145|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.145|0.033|0.0019
82365172|NCT01172821|164439933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.759|STANDARD_ERROR_OF_MEAN|4.963|<|0.0001|TWO_SIDED|95.0|19.025|38.494|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||38.494|19.025|<0.0001
82365173|NCT01172821|164439933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.178|STANDARD_ERROR_OF_MEAN|4.985|<|0.0001|TWO_SIDED|95.0|18.401|37.956|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||37.956|18.401|<0.0001
82365174|NCT01172821|164439934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.068||0.87|TWO_SIDED|95.0|-0.122|0.144|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.144|-0.122|0.8700
82365175|NCT01172821|164439934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.068||0.9612|TWO_SIDED|95.0|-0.137|0.13|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.130|-0.137|0.9612
82393163|NCT00006305|164498274|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.013||||0.7|TWO_SIDED|95.0|-0.049|0.022||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of Death/MI/Stroke for Revascularization compared with Medical Therapy|||0.022|-0.049|0.70
82528326|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.26|1.89||||||Placebo versus Asacol for Week 4 fecal lactoferrin levels||1.89|0.26|
82528327|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.05|||||TWO_SIDED|95.0|0.27|4.07||||||Placebo versus GSK1399686 10 mg for Week 5 fecal lactoferrin levels||4.07|0.27|
82528328|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.48|||||TWO_SIDED|95.0|0.46|4.73||||||Placebo versus GSK1399686 30 mg for Week 5 fecal lactoferrin levels||4.73|0.46|
82528329|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.11|1.02||||||Placebo versus GSK1399686 100 mg for Week 5 fecal lactoferrin levels||1.02|0.11|
82528330|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.16|||||TWO_SIDED|95.0|0.36|3.73||||||Placebo versus GSK1399686 300 mg for Week 5 fecal lactoferrin levels||3.73|0.36|
82393164|NCT00006305|164498274|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.024||||0.13||95.0|-0.06|0.012||A separate test with alpha=0.05 was conducted for each treatment comparison of the main effects in the 2x2 factorial design.|Log Rank||Risk difference of Death/MI/Stroke for Insulin Sensitizing glycemic control strategy compared with Insulin Providing glycemic control strategy|||0.012|-0.060|0.13
82393165|NCT00662558|164498275|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Differences in treatment proportions and the 95% confidence interval (CI) around the difference were estimated by calculating the risk difference between the treatment arms using a generalized linear model with treatment and center as factors. A lower 95% CI for the risk difference greater than -0.10 would demonstrate that celecoxib 200 mg BID is not inferior to tramadol hydrochloride 50 mg QID.|Risk Difference (RD)|0.091||||||95.0|0.0255|0.1565||||||||0.1565|0.0255|
82393166|NCT00662558|164498275|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0|||||Cochran-Mantel-Haenszel|||If celecoxib 200 mg BID was found to be non-inferior to tramadol hydrochloride 50 mg QID then the second step was to test the superiority of celecoxib 200 mg BID over tramadol hydrochloride 50 mg QID using a two-sided test of proportions. Differences in proportions were tested using the General Association Test of the Cochran-Mantel-Haenszel (CMH) procedure stratified by center.||||0.008
82393167|NCT00662558|164498276|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.234||95.0|-0.53|0.13|||ANCOVA||The mean difference reported is the least squares (LS) mean difference.|The change from Baseline was compared between the two treatment groups using analysis of covariance (ANCOVA), with treatment and center as factors, and Baseline value as a covariate.||0.13|-0.53|0.234
82393168|NCT00662558|164498277|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|1.76||0.595||95.0|-4.39|2.52|||ANCOVA||The mean difference reported is the LS mean difference.|The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||2.52|-4.39|0.595
82393169|NCT00662558|164498278|SUPERIORITY_OR_OTHER_LEGACY|||||||0.829||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.829
82393170|NCT00662558|164498279|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.470
82643279|NCT03170271|165001799|SUPERIORITY||LS Mean difference|-8.11|||<|0.0001|TWO_SIDED|95.0|-11.41|-4.82|||Repeated measures analysis||Model: Change from baseline in SGRQ total score = Treatment + baseline SGRQ total score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SGRQ total score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a mixed-effect model for repeated measures (MMRM) analysis.||-4.82|-11.41|<0.0001
82643280|NCT03170271|165001800|SUPERIORITY||LS Mean difference|0.16|||<|0.0001|TWO_SIDED|95.0|0.09|0.23|||Repeated measures analysis||Model: Change from baseline in pre-BD FEV1 = Treatment + baseline pre-BD FEV1 + region + number of exacerbations in previous year + maintenance OCS use at baseline + gender + age + visit + treatment by visit.|Change from baseline in pre-BD FEV1 at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||0.23|0.09|<0.0001
82643281|NCT03170271|165001801|SUPERIORITY||LS Mean difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.27|||Repeated measures analysis||Model: Change from baseline in ACQ-6 score = Treatment + baseline ACQ-6 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in ACQ-6 score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.27|-0.65|<0.0001
82643282|NCT03170271|165001802|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.67|||Regression, Cox||A hazard ratio \< 1 favours benralizumab to be associated with a longer time from randomization to the first exacerbation than placebo.|Comparison of time to first asthma exacerbation for benralizumab vs placebo. Treatment group, region, number of exacerbations in previous year and maintenance OCS use at baseline were included in the Cox proportional hazard model as covariates.||0.67|0.40|<0.0001
82393171|NCT00662558|164498280|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.32||0.339||95.0|-0.95|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.95|0.339
82393172|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.741||95.0|-0.36|0.25|||ANCOVA||The mean difference reported is the LS mean difference.|How Much Pain Now. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.25|-0.36|0.741
82393173|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.17||0.796||95.0|-0.38|0.29|||ANCOVA||The mean difference reported is the LS mean difference.|Worst Pain in Past 24 Hours. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.29|-0.38|0.796
82393174|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.16||0.492||95.0|-0.41|0.2|||ANCOVA||The mean difference reported is the LS mean difference.|Average Pain in Past 24 Hours. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.20|-0.41|0.492
82393175|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.893||95.0|-0.28|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With General Activity. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.28|0.893
82448883|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.7686|TWO_SIDED|95.0|-0.42|0.31||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison of Q18 at Day 7||0.31|-0.42|0.7686
82643283|NCT03170271|165001803|SUPERIORITY||LS Mean difference|20.11||||0.0031|TWO_SIDED|95.0|6.79|33.44|||Repeated measures analysis||Model: Change from baseline in PEF = Treatment + baseline PEF + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from run-in baseline in morning PEF at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||33.44|6.79|0.0031
82643284|NCT03170271|165001803|SUPERIORITY||LS Mean Difference|23.09||||0.0008|TWO_SIDED|95.0|9.62|36.55|||Repeated measures analysis||Model: Change from baseline in PEF = Treatment + baseline PEF + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from run-in baseline in evening PEF at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||36.55|9.62|0.0008
82643285|NCT03170271|165001804|SUPERIORITY||LS Mean difference|5.35||||0.0077|TWO_SIDED|95.0|1.42|9.28|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for physical functioning at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||9.28|1.42|0.0077
82643286|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|6.8||||0.0022|TWO_SIDED|95.0|2.45|11.14|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for role limitations due to physical health at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||11.14|2.45|0.0022
82643287|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|3.07||||0.1741|TWO_SIDED|95.0|-1.36|7.5|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for bodily pain at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||7.50|-1.36|0.1741
82643288|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|5.62||||0.0009|TWO_SIDED|95.0|2.32|8.92|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for general health perceptions at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||8.92|2.32|0.0009
82643289|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|5.51||||0.0025|TWO_SIDED|95.0|1.95|9.08|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for vitality at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||9.08|1.95|0.0025
82643290|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|3.12||||0.1583|TWO_SIDED|95.0|-1.22|7.46|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for social functioning at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||7.46|-1.22|0.1583
82643291|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|2.44||||0.2103|TWO_SIDED|95.0|-1.38|6.27|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for role limitations due to emotional problems at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||6.27|-1.38|0.2103
82643292|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|1.68||||0.2581|TWO_SIDED|95.0|-1.23|4.59|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 subscale score for mental health at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||4.59|-1.23|0.2581
82365176|NCT01172821|164439935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.127|STANDARD_ERROR_OF_MEAN|0.059||0.0305|TWO_SIDED|95.0|-0.241|-0.012|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.012|-0.241|0.0305
82365177|NCT01172821|164439935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.059||0.1602|TWO_SIDED|95.0|-0.198|0.033|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.033|-0.198|0.1602
82365178|NCT01172821|164439936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4012|TWO_SIDED|95.0|0.81|1.74||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.74|0.81|0.4012
82365179|NCT01172821|164439936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||1.1727|TWO_SIDED|95.0|0.67|1.42||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.42|0.67|1.1727
82643293|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|2.32||||0.0022|TWO_SIDED|95.0|0.84|3.81|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 physical health component summary score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||3.81|0.84|0.0022
82643294|NCT03170271|165001804|SUPERIORITY||LS Mean Difference|0.87||||0.2751|TWO_SIDED|95.0|-0.7|2.44|||Repeated measures analysis||Model: Change from baseline in SF-36v2 score = Treatment + baseline SF-36v2 score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SF-36v2 mental health component summary score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||2.44|-0.70|0.2751
82643295|NCT03170271|165001805|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0233|TWO_SIDED|95.0|1.06|2.25|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + baseline score + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a responder classified as type 'Improvement' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.25|1.06|0.0233
82643296|NCT03170271|165001805|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0401|TWO_SIDED|95.0|1.02|2.16|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + baseline score + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a responder classified as type 'Important Improvement' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.16|1.02|0.0401
82643297|NCT03170271|165001806|SUPERIORITY||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.47|2.86|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a CGI-C responder classified as type 'Much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.86|1.47|<0.0001
82643298|NCT03170271|165001806|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0003|TWO_SIDED|95.0|1.77|6.7|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a CGI-C responder classified as type 'Very much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||6.70|1.77|0.0003
82643299|NCT03170271|165001806|SUPERIORITY||Odds Ratio (OR)|2.06|||<|0.0001|TWO_SIDED|95.0|1.48|2.87|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a PGI-C responder classified as type 'Much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||2.87|1.48|<0.0001
82643300|NCT03170271|165001806|SUPERIORITY||Odds Ratio (OR)|3.02|||<|0.0001|TWO_SIDED|95.0|2.02|4.51|||Regression, Logistic||Model: ln (1/(1-p)) = Treatment + region + number of exacerbations in previous year + maintenance OCS use at baseline, where p is the proportion of patients being a responder.|Estimate of the log odds of being a PGI-C responder classified as type 'Very much improved' at Week 24 in the benralizumab group compared to the placebo group using a logistic regression.||4.51|2.02|<0.0001
82643301|NCT03170271|165001807|SUPERIORITY||LS Mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.62|-0.68|||Repeated measures analysis||Model: Change from baseline in average PSIA score (top 3 ranked) =Treatment + baseline average PSIA score (top 3 ranked) + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in PSIA severity score for the average of top 3 ranked symptoms/impairments at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.68|-1.62|<0.0001
82643302|NCT03170271|165001807|SUPERIORITY||LS Mean difference|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.64|-0.66|||Repeated measures analysis||Model: Change from baseline in PSIA score (top ranked) =Treatment + baseline PSIA score (top ranked) + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in PSIA severity score of top ranked symptom/impairment at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-0.66|-1.64|<0.0001
82365180|NCT01172821|164439937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.613|STANDARD_ERROR_OF_MEAN|4.496|<|0.0001|TWO_SIDED|95.0|11.795|29.431|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||29.431|11.795|<0.0001
82365181|NCT01172821|164439937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.757|STANDARD_ERROR_OF_MEAN|4.513|<|0.0001|TWO_SIDED|95.0|15.907|33.607|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||33.607|15.907|<0.0001
82365182|NCT01172821|164439938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.991|STANDARD_ERROR_OF_MEAN|4.547||0.0004|TWO_SIDED|95.0|7.074|24.908|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||24.908|7.074|0.0004
82528331|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.82|||||TWO_SIDED|95.0|0.29|2.33||||||Placebo versus Asacol for Week 5 fecal lactoferrin levels||2.33|0.29|
82528332|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.44|||||TWO_SIDED|95.0|0.31|6.59||||||Placebo versus GSK1399686 10 mg for Week 6 fecal lactoferrin levels||6.59|0.31|
82528333|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|2.21|||||TWO_SIDED|95.0|0.54|9.04||||||Placebo versus GSK1399686 30 mg for Week 6 fecal lactoferrin levels||9.04|0.54|
82528334|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.41|||||TWO_SIDED|95.0|0.11|1.48||||||Placebo versus GSK1399686 100 mg for Week 6 fecal lactoferrin levels||1.48|0.11|
82528335|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|1.64|||||TWO_SIDED|95.0|0.46|5.91||||||Placebo versus GSK1399686 300 mg for Week 6 fecal lactoferrin levels||5.91|0.46|
82365183|NCT01172821|164439938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.247|STANDARD_ERROR_OF_MEAN|4.561|<|0.0001|TWO_SIDED|95.0|12.302|30.193|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||30.193|12.302|<0.0001
82528336|NCT01036022|164752592|SUPERIORITY_OR_OTHER||Ratio|0.84|||||TWO_SIDED|95.0|0.27|2.62||||||Placebo versus Asacol for Week 6 fecal lactoferrin levels||2.62|0.27|
82528337|NCT02087501|164752597|OTHER||Sample proportion|0.0|||||TWO_SIDED|95.0|0.0|11.6|||||The CI is calculated based on Clopper-Pearson method|||11.6|0|
82528338|NCT02087501|164752597|OTHER||Sample proportion|0.0|||||TWO_SIDED|95.0|0.0|11.6||||||||11.6|0|
82528339|NCT02087501|164752598|OTHER||Sample proportion|100.0|||||TWO_SIDED|95.0|88.4|100.0|||||CI is calculated based on Clopper-Pearson method|||100|88.4|
82643303|NCT03170271|165001808|SUPERIORITY||LS Mean difference|-8.91||||0.0204|TWO_SIDED|95.0|-16.42|-1.4|||Repeated measures analysis||Model: Change from baseline in SNOT-22 total score = Treatment + baseline SNOT-22 total score + region + number of exacerbations in previous year + maintenance OCS use at baseline + visit + treatment by visit.|Change from baseline in SNOT-22 total score at Week 24 was compared between the benralizumab group and placebo group using a restricted maximum likelihood based on a MMRM analysis.||-1.40|-16.42|0.0204
82365184|NCT01172821|164439939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.953|STANDARD_ERROR_OF_MEAN|0.598||0.1114|TWO_SIDED|95.0|-2.125|0.22|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.220|-2.125|0.1114
82365185|NCT01172821|164439939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.178|STANDARD_ERROR_OF_MEAN|0.6||0.7665|TWO_SIDED|95.0|-1.355|0.999|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.999|-1.355|0.7665
82365186|NCT01172821|164439940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.031||0.0111|TWO_SIDED|95.0|0.018|0.14|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.140|0.018|0.0111
82365187|NCT01172821|164439940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.031||0.0395|TWO_SIDED|95.0|0.003|0.126|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.126|0.003|0.0395
82528340|NCT02087501|164752599|OTHER||Sample proportion|80.0|||||TWO_SIDED|95.0|61.0|92.0||||||||92|61|
82528341|NCT01933880|164752652|SUPERIORITY_OR_OTHER|||||||0.0387|||||||Signed Rank Sum Test|||P-value was calculated to compare the data at Baseline and change at Week 12 for the OROS-MPH group||||0.0387
82528342|NCT01933880|164752653|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 1 for the OROS-MPH group||||<0.0001
82528343|NCT01933880|164752654|SUPERIORITY_OR_OTHER|||||||0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 2 for the OROS-MPH group||||0.0001
82528344|NCT01933880|164752655|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 3 for the OROS-MPH group||||<0.0001
82528345|NCT01933880|164752656|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 7 for the OROS-MPH group||||<0.0001
82528346|NCT01933880|164752657|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||P-value was calculated to compare the data at Baseline and change at Week 12 for the OROS-MPH group||||<0.0001
82528347|NCT00510458|164752681|OTHER|It is expected that the mean linear wear rate is not more than 0.08 mm per year or 0.05 mm per year superior to the reference control, which was 0.13 mm per year. The reference control was determined from the control group within the Post-approval Study of the ABC and Trident® Systems (NCT00960206).|mean linear wear rate at 5 yrs|0.008|||||TWO_SIDED|90.0|-0.0107|0.0267||||||||.0267|-0.0107|
82528348|NCT00510458|164752682|OTHER|To test if the change from pre-operative HHS compared to the post-operative HHS at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82528349|NCT00510458|164752683|OTHER|To test if the change from pre-operative HHS pain score compared to the post-operative HHS pain score at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82528350|NCT00510458|164752684|OTHER|To test if the change from pre-operative HHS ROM compared to the post-operative HHS ROM at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82365188|NCT01172821|164439941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.032||0.0357|TWO_SIDED|95.0|0.005|0.131|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.131|0.005|0.0357
82393176|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.618||95.0|-0.4|0.24|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Mood. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.24|-0.40|0.618
82393177|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.44||95.0|-0.19|0.43|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Walking Activity. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.43|-0.19|0.440
82393178|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.806||95.0|-0.25|0.32|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Relations With Others. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.32|-0.25|0.806
82393179|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.17||0.739||95.0|-0.38|0.27|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Sleep. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.27|-0.38|0.739
82393180|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.992||95.0|-0.32|0.33|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Normal Work. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.33|-0.32|0.992
82393181|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.793||95.0|-0.28|0.36|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interfered With Enjoyment of Life. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.36|-0.28|0.793
82393182|NCT00662558|164498281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.973||95.0|-0.27|0.28|||ANCOVA||The mean difference reported is the LS mean difference.|Pain Interference Subscale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.28|-0.27|0.973
82393183|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|1.51||0.392||95.0|-4.26|1.67|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Disturbance. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.67|-4.26|0.392
82643304|NCT02701049|165001816|OTHER|Among 109,994 patients who entered the ED during Mode 1, 19,742 had SOGI collected (18%). Among 88,143 patients who entered the ED during Mode 2, 3,630 had SOGI collected (4%).||||||||||||||||Historical controls included all patients entering participating EDs as identified by the Electronic Health Record.|Results were compared to historical control population from an electronic health record database, no other data were collected for these participants.|||
82643305|NCT03466060|165001826|SUPERIORITY||Posterior mean difference|-2.1|STANDARD_DEVIATION|2.23|||TWO_SIDED|95.0|-6.4|2.3||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|bayesian multivariate hierarachical||Posterior mean difference was calculated as Test-Control.|1-Minute Follow-up Analysis||2.3|-6.4|
82393184|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.67||0.691||95.0|-3.94|2.61|||ANCOVA||The mean difference reported is the LS mean difference.|Snoring. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||2.61|-3.94|0.691
82393185|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.45||0.549||95.0|-3.7|1.97|||ANCOVA||The mean difference reported is the LS mean difference.|Awaken Shortness of Breath or Headache. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.97|-3.70|0.549
82393186|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.23||0.336||95.0|-0.67|0.23|||ANCOVA||The mean difference reported is the LS mean difference.|Quantity of Sleep. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||0.23|-0.67|0.336
82393187|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.69||0.37||95.0|-4.83|1.8|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Adequacy. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.80|-4.83|0.370
82643306|NCT03466060|165001826|SUPERIORITY||Posertior Mean Difference|-2.5|STANDARD_DEVIATION|2.16|||TWO_SIDED|95.0|-6.8|1.7||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian Multivariate Hierarchical Model||Posterior mean difference was calculated as Test-Control.|5-minute Follow-up Analysis||1.7|-6.8|
82393188|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|1.34||0.341||95.0|-3.9|1.35|||ANCOVA||The mean difference reported is the LS mean difference.|Somnolence. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.35|-3.90|0.341
82448884|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.46||||0.0151|TWO_SIDED|95.0|-0.83|-0.09|||ANCOVA|||Comparison of Q18 at Day 7||-0.09|-0.83|0.0151
82365189|NCT01172821|164439941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.032||0.0422|TWO_SIDED|95.0|0.002|0.129|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.129|0.002|0.0422
82365190|NCT01172821|164439942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.171|STANDARD_ERROR_OF_MEAN|0.131||0.1927|TWO_SIDED|95.0|-0.427|0.086|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.086|-0.427|0.1927
82365191|NCT01172821|164439942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.131||0.4053|TWO_SIDED|95.0|-0.148|0.367|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.367|-0.148|0.4053
82365192|NCT01172821|164439943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.027||0.3501|TWO_SIDED|95.0|-0.079|0.028|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.028|-0.079|0.3501
82365193|NCT01172821|164439943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.028||0.8045|TWO_SIDED|95.0|-0.047|0.061|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.061|-0.047|0.8045
82365194|NCT01172821|164439944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.0308|TWO_SIDED|95.0|1.03|1.72||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.72|1.03|0.0308
82365195|NCT01172821|164439944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0348|TWO_SIDED|95.0|1.02|1.71||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.71|1.02|0.0348
82365196|NCT00710749|164439949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44||95.0|||||Wilcoxon signed rank test|||||||0.44
82365197|NCT00710749|164439949|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
82393189|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.15||0.604||95.0|-2.85|1.66|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Problem Index I. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.66|-2.85|0.604
82393190|NCT00662558|164498282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.14||0.547||95.0|-2.92|1.55|||ANCOVA||The mean difference reported is the LS mean difference.|Sleep Problem Index II. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.55|-2.92|0.547
82444369|NCT03242018|164597427|SUPERIORITY||Difference in LS Means|-0.714|STANDARD_ERROR_OF_MEAN|0.5298||0.1779|TWO_SIDED|95.0|-1.7524|0.3246|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline FPG as a covariate.||0.3246|-1.7524|0.1779
82365198|NCT00710749|164439949|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82365199|NCT02985879|164439952|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.34|=|0.998|TWO_SIDED|95.0|-2.63|2.63|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||2.63|-2.63|=0.998
82365200|NCT02985879|164439952|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.32|=|0.464|TWO_SIDED|95.0|-1.63|3.58|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||3.58|-1.63|=0.464
82393191|NCT00662558|164498283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196||95.0|||||Cochran-Mantel-Haenszel|||Optimal sleep was analyzed using CMH general association test.||||0.196
82393192|NCT00662558|164498284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|1.91||0.252||95.0|-1.56|5.94|||ANCOVA||The mean difference reported is the LS mean difference.|Time Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||5.94|-1.56|0.252
82393193|NCT00662558|164498284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|1.88||0.798||95.0|-3.21|4.17|||ANCOVA||The mean difference reported is the LS mean difference.|Physical Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||4.17|-3.21|0.798
82643307|NCT03466060|165001826|SUPERIORITY||Posterior Mean Difference|-2.7|STANDARD_DEVIATION|2.1|||TWO_SIDED|95.0|-6.9|1.5||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian multivariate hierarchical model||Posterior mean difference was calculated as Test-Control.|45-Minute Follolw-up Analysis||1.5|-6.9|
82643308|NCT03466060|165001826|SUPERIORITY||Posterior Mean Difference|-2.5|STANDARD_DEVIATION|2.01|||TWO_SIDED|95.0|-6.5|1.4|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|2-Hour Follow-up Analysis||1.4|-6.5|
82643309|NCT03466060|165001826|SUPERIORITY||Posterior Mean Difference|-1.1|STANDARD_DEVIATION|2.28|||TWO_SIDED|95.0|-5.8|3.1|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|1-Minute Follow-up Analysis||3.1|-5.8|
82643310|NCT03466060|165001826|SUPERIORITY|95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Posterior Mean Difference|-0.7|STANDARD_DEVIATION|2.2|||TWO_SIDED|95.0|-5.0|3.6|||Bayesian Multivariate Heirarchical Model||Posterior mean difference was calculated as Test-Control.|5-Minute Follow-up Analysis||3.6|-5.0|
82643311|NCT03466060|165001826|NON_INFERIORITY|95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Posterior Mean Difference|-2.0|STANDARD_DEVIATION|2.16|||TWO_SIDED|95.0|-6.4|2.3|||Bayesian Multivariate Hierarchical Model||Posterior mean difference was calculated as Test-Control.|45-Minute Follow-up Analysis||2.3|-6.4|
82643312|NCT03466060|165001826|SUPERIORITY||Posterior Mean Difference|-1.5|STANDARD_DEVIATION|2.1|||TWO_SIDED|95.0|-5.8|2.5||95% credible intervals are used to determine whether Test and Control solutions are statistically significantly different at each time point.|Bayesian Mutlivariate Hiearachical Model||Posterior mean difference was calculated as Test-Control.|2-Hour Follow-up Analysis||2.5|-5.8|
82365201|NCT02985879|164439954|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.88|=|0.812|TWO_SIDED|95.0|-1.52|1.93|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||1.93|-1.52|=0.812
82365202|NCT02985879|164439954|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.88|=|0.104|TWO_SIDED|95.0|-0.3|3.16|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||3.16|-0.30|=0.104
82393194|NCT00662558|164498284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|1.92||0.7||95.0|-3.03|4.51|||ANCOVA||The mean difference reported is the LS mean difference.|Output Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||4.51|-3.03|0.700
82643313|NCT03701516|165001827|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -5.|Posterior Mean Difference|-0.38|STANDARD_DEVIATION|1.781|||TWO_SIDED|98.0|-4.53|3.85|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||3.85|-4.53|
82643314|NCT03701516|165001828|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -5.|Posterior Mean Difference|-2.34|STANDARD_DEVIATION|1.263|||TWO_SIDED|98.0|-5.36|0.61|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.61|-5.36|
82643315|NCT03701516|165001829|NON_INFERIORITY|Non-inferiority will be established if the lower bound of the credible interval of the mean difference between Test and Control is greater than -1.|Posterior Mean Difference|-0.06|STANDARD_DEVIATION|0.083|||TWO_SIDED|95.0|-0.22|0.1|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.10|-0.22|
82643316|NCT03701516|165001830|NON_INFERIORITY|Non-inferiority will be established if the upper bound of the credible interval of the mean difference between Test and Control is less than 0.05.|Posterior Mean Difference|0.001|STANDARD_DEVIATION|0.0028|||TWO_SIDED|95.0|-0.005|0.006|||Bayesian repeated measurement random-eff|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.006|-0.005|
82643317|NCT03701516|165001831|NON_INFERIORITY|Non-inferiority will be established if the upper bound of the credible interval of the mean difference between Test and Control is less than 0.05.|Posterior Mean Difference|-0.003|STANDARD_DEVIATION|0.0029|||TWO_SIDED|95.0|-0.009|0.002|||Bayesian repeated measurement model|Results were reported as regression coefficient mean estimates with credible intervals (CrI)|Mean difference was calculated as Test - Control|||0.002|-0.009|
82643318|NCT00956813|165001858|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
82643319|NCT00956813|165001860|SUPERIORITY_OR_OTHER|||||||0.93|||||||Kruskal-Wallis|||||||0.93
82643320|NCT00956813|165001861|SUPERIORITY_OR_OTHER|||||||0.19|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for vasomotor-related questions in the MENQOL form.||||0.19
82643321|NCT00956813|165001861|SUPERIORITY_OR_OTHER|||||||0.78|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Psychosocial-related questions in the MENQOL form.||||0.78
82643322|NCT00956813|165001861|SUPERIORITY_OR_OTHER|||||||0.238|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Physical-related questions in the MENQOL form.||||0.238
82643323|NCT00956813|165001861|SUPERIORITY_OR_OTHER|||||||0.497|||||||Kruskal-Wallis|||Testing the change in score from baseline to treatment completion for Sexually-related questions in the MENQOL form.||||0.497
82643324|NCT00956813|165001862|SUPERIORITY_OR_OTHER|||||||0.089|||||||Kruskal-Wallis|||||||0.089
82393195|NCT00662558|164498284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|1.72||0.902||95.0|-3.16|3.59|||ANCOVA||The mean difference reported is the LS mean difference.|Mental-Interpersonal Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||3.59|-3.16|0.902
82393196|NCT00662558|164498284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.46||0.581||95.0|-0.65|1.16|||ANCOVA||The mean difference reported is the LS mean difference.|Index Scale. The change from Baseline was compared between the two treatment groups using ANCOVA, with treatment and center as factors, and Baseline value as a covariate.||1.16|-0.65|0.581
82393197|NCT00662558|164498285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 1.||||0.614
82393198|NCT00662558|164498285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.786||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 3.||||0.786
82393199|NCT00662558|164498285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Cochran-Mantel-Haenszel|||P-value reported is the overall p-value for Week 6/ET.||||0.044
82393200|NCT00662558|164498286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.870
82393201|NCT00662558|164498287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.545||95.0|||||Cochran-Mantel-Haenszel|||CMH tests using row mean score and adjusted for center was used to compare the two treatment groups.||||0.545
82393202|NCT00662558|164498288|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||95.0|||||Cochran-Mantel-Haenszel|||CMH test adjusted for center was used to compare the two treatment groups.||||0.218
82528351|NCT00510458|164752685|OTHER|To test if the change from pre-operative SF-12 Physical component score compared to the post-operative SF-12 Physical component score at all intervals is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82393203|NCT00783224|164498297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
82393204|NCT00783224|164498297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
82393205|NCT01711619|164498298|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 4% was predefined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation of the proportion for ITT.||||<0.0001
82393206|NCT01711619|164498299|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 5% was pre-defined for the final analysis.|Regression, Linear|||||||<0.0001
82393207|NCT01711619|164498300|SUPERIORITY_OR_OTHER|||||||0.0002||||||Nominal alpha of 5% was pre-defined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation for ITT.||||0.0002
82393208|NCT01711619|164498301|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Nominal alpha of 5% was pre-defined for the final analysis.|Fisher Exact|||Subjects with missing information were considered in the test and computation for ITT.||||<0.0001
82393209|NCT01935700|164498307|NON_INFERIORITY|Non-inferiority was defined as no statistically significant difference (P value \> 0.05) in median survival between the colchicine group and the sorafenib treated group.||||||0.4593|||||||Mann-Whitney U test|||||||0.4593
82528352|NCT00510458|164752685|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 1 year is statistically significant.||||||0.0394|||||||t-test, 2 sided|||||||0.0394
82393210|NCT01935700|164498307|NON_INFERIORITY|Non-inferiority was defined as no statistically significant difference (P value \> 0.05) in survival between the colchicine group and the sorafenib treated group.||||||0.329|||||||Log Rank|||||||0.3290
82393211|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0552||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of pneumonia between two groups||||0.0552
82393212|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0184||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of biliary tract obstruction between two groups||||0.0184
82393213|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0931||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of cholangitis between two groups||||0.0931
82393214|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.0506||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of peritonitis between two groups||||0.0506
82393215|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of sepsis between two groups||||1
82393216|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.5374||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of diarrhea between two groups||||0.5374
82393217|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.14||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of anorexia between two groups||||0.14
82393218|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.4584||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of abdominal pain between two groups||||0.4584
82393219|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of skin rash between two groups||||1
82528353|NCT00510458|164752685|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 3 years is statistically significant.||||||0.4974|||||||t-test, 2 sided|||||||0.4974
82393220|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of palmar-plantar erythrodysesthesia syndrome between two groups||||1
82393221|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypertension between two groups||||1
82575326|NCT01483144|164860334|SUPERIORITY||Hazard Ratio (HR)|0.2||||0.0201|TWO_SIDED|95.0|0.0|0.8||Threshold for statistical significance was p=0.05|stratified Cox proportional (Score)||Eflornithine and sulindac is the numerator and sulindac and eflornithine placebo is the denominator. Reduction in relative risk for FAP-related events with the combination.|Lower GI population||0.8|0.0|0.0201
82393222|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.5958||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hemorrhage between two groups||||0.5958
82393223|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||0.14||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypoglycemia between two groups||||0.14
82393224|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hyperglycemia between two groups||||1
82393225|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of hypocalcemia between two groups||||1
82393226|NCT01935700|164498308|EQUIVALENCE|The threshold for statistically significant difference in incidence was P = 0.05.||||||1||||||The threshold for statistically significant difference in incidence was P = 0.05.|Fisher Exact|||Comparison the incidence of grade III adverse event of pleural effusion between two groups||||1
82393227|NCT00231283|164498309|SUPERIORITY_OR_OTHER||Percentage of participants|97.0|STANDARD_ERROR_OF_MEAN|1.71||||95.0|91.5|99.4|||Qualitative Comparison|Reported in qualitative/semi-quantitative comparitive fashion due to study design.||||99.4|91.5|
82393228|NCT00231283|164498310|SUPERIORITY_OR_OTHER||Percentage of participants|3.0||||||95.0|0.6|8.6|||No formal statistical testing|||||8.6|0.6|
82393229|NCT00231283|164498311|SUPERIORITY_OR_OTHER||Percentage of participants|3.0||||||95.0|0.6|8.5|||Descriptive statistics|||||8.5|0.6|
82393230|NCT00231283|164498312|SUPERIORITY_OR_OTHER||Percentage of participants|10.4||||||95.0|5.1|18.3|||Descriptive statistics|||||18.3|5.1|
82393231|NCT01225289|164498313|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82393232|NCT00483704|164498341|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54|||<|0.001|TWO_SIDED|95.0|1.8|3.58|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.58|1.80|<0.001
82393233|NCT00483704|164498341|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|2.15|4.27|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.27|2.15|<0.001
82393234|NCT00483704|164498342|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|2.35|3.9|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.90|2.35|<0.001
82393235|NCT00483704|164498342|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||<|0.001|TWO_SIDED|95.0|2.17|3.61|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.61|2.17|<0.001
82393236|NCT00483704|164498343|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.001|TWO_SIDED|95.0|2.05|7.23|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||7.23|2.05|<0.001
82393237|NCT00483704|164498343|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18|||<|0.001|TWO_SIDED|95.0|3.36|11.39|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||11.39|3.36|<0.001
82393238|NCT00483704|164498344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.001|TWO_SIDED|95.0|1.96|3.51|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.51|1.96|<0.001
82393239|NCT00483704|164498344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23|||<|0.001|TWO_SIDED|95.0|2.41|4.34|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.34|2.41|<0.001
82393240|NCT00483704|164498345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|||<|0.001|TWO_SIDED|95.0|1.3|2.11|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.11|1.30|<0.001
82393241|NCT00483704|164498345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.31|2.14|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.14|1.31|<0.001
82448885|NCT01122849|164605157|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.0256|TWO_SIDED|95.0|0.05|0.77||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day 7||0.77|0.05|0.0256
82393242|NCT00483704|164498346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.36|2.22|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.22|1.36|<0.001
82393243|NCT00483704|164498346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||<|0.001|TWO_SIDED|95.0|1.26|2.06|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.06|1.26|<0.001
82393244|NCT00483704|164498347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||<|0.001|TWO_SIDED|95.0|1.28|2.17|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.17|1.28|<0.001
82393245|NCT00483704|164498347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57|||<|0.001|TWO_SIDED|95.0|1.21|2.04|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.04|1.21|<0.001
82393246|NCT00483704|164498350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69|||<|0.001|TWO_SIDED|95.0|1.78|4.07|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.07|1.78|<0.001
82393247|NCT00483704|164498350|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45|||<|0.001|TWO_SIDED|95.0|2.3|5.19|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.19|2.30|<0.001
82393248|NCT00483704|164498351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.56|3.69|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.69|1.56|<0.001
82393249|NCT00483704|164498351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.22|5.12|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.12|2.22|<0.001
82393250|NCT00483704|164498352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.001|TWO_SIDED|95.0|1.65|3.38|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.38|1.65|<0.001
82528354|NCT00510458|164752685|OTHER|To test if the change from pre-operative SF-12 Mental component score compared to the post-operative SF-12 Mental component score at 5 years is statistically significant.||||||0.677|||||||t-test, 2 sided|||||||0.6770
82393251|NCT00483704|164498352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.81|||<|0.001|TWO_SIDED|95.0|1.97|4.01|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.01|1.97|<0.001
82393252|NCT00483704|164498353|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.32|||<|0.001|TWO_SIDED|95.0|1.52|3.54|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.54|1.52|<0.001
82393253|NCT00483704|164498353|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02|||<|0.001|TWO_SIDED|95.0|2.0|4.56|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.|An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.56|2.00|<0.001
82393254|NCT02326298|164498365|SUPERIORITY||Odds Ratio (OR)|28.962|||<|0.0001|TWO_SIDED|97.5|6.968|120.371||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose versus (vs) PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||120.371|6.968|<0.0001
82393255|NCT02326298|164498365|SUPERIORITY||Odds Ratio (OR)|45.66|||<|0.0001|TWO_SIDED|97.5|10.657|195.634||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||195.634|10.657|<0.0001
82528355|NCT00510458|164752686|OTHER|To test if the change from pre-operative LEAS compared to the post-operative LEAS at 1 year and 3 years is statistically significant.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82393256|NCT02326298|164498365|SUPERIORITY||Estimated difference in responder rate|60.0|||||TWO_SIDED|95.0|47.92|72.17|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||72.17|47.92|
82528356|NCT00510458|164752686|OTHER|To test if the change from pre-operative LEAS compared to the post-operative LEAS at 5 years is statistically significant.||||||0.0006|||||||t-test, 2 sided|||||||0.0006
82528357|NCT01755143|164752694|SUPERIORITY_OR_OTHER||Percentage|100.0|||<|0.0001|ONE_SIDED|97.5|97.7|||A priori threshold for statistical significance was 0.025|exact test of binomial proportions|||Null Hypothesis: MRI-related complication-free rate between the MRI scan and one-month post-MRI \<90%.|||97.7|<0.0001
82393257|NCT02326298|164498365|SUPERIORITY||Estimated difference in responder rate|69.3|||||TWO_SIDED|95.0|57.65|80.99|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||80.99|57.65|
82365203|NCT02985879|164439955|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16|=|0.756|TWO_SIDED|95.0|-0.36|0.26|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.26|-0.36|=0.756
82365204|NCT02985879|164439955|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.16|=|0.409|TWO_SIDED|95.0|-0.44|0.18|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.18|-0.44|=0.409
82365205|NCT02985879|164439956|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|13.54|=|0.597|TWO_SIDED|95.0|-33.86|19.53|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||19.53|-33.86|=0.597
82365206|NCT02985879|164439956|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|13.56|=|0.642|TWO_SIDED|95.0|-33.04|20.42|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||20.42|-33.04|=0.642
82365207|NCT02985879|164439957|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.53|=|0.323|TWO_SIDED|95.0|-2.48|7.51|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||7.51|-2.48|=0.323
82365208|NCT02985879|164439957|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|2.51|=|0.974|TWO_SIDED|95.0|-4.86|5.02|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||5.02|-4.86|=0.974
82365209|NCT02985879|164439962|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|=|0.761|TWO_SIDED|95.0|-0.31|0.23|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.23|-0.31|=0.761
82365210|NCT02985879|164439962|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13|=|0.678|TWO_SIDED|95.0|-0.32|0.21|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.21|-0.32|=0.678
82393258|NCT02326298|164498366|SUPERIORITY||Odds Ratio (OR)|20.116|||<|0.0001|TWO_SIDED|97.5|3.699|109.399||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||109.399|3.699|<0.0001
82393259|NCT02326298|164498366|SUPERIORITY||Odds Ratio (OR)|31.143|||<|0.0001|TWO_SIDED|97.5|5.687|170.548||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||170.548|5.687|<0.0001
82448886|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11||||0.5958|TWO_SIDED|95.0|-0.52|0.3||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1at Day 14||0.30|-0.52|0.5958
82365211|NCT02985879|164439963|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|2.3|=|0.653|TWO_SIDED|95.0|-3.5|5.57|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||5.57|-3.50|=0.653
82365212|NCT02985879|164439963|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|2.3|=|0.748|TWO_SIDED|95.0|-3.5|5.57|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||5.57|-3.50|=0.748
82365213|NCT02985879|164439964|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34|=|0.828|TWO_SIDED|95.0|-0.6|0.74|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||0.74|-0.60|=0.828
82365214|NCT02985879|164439964|SUPERIORITY|The primary efficacy analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.34|=|0.543|TWO_SIDED|95.0|-0.46|0.87|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||0.87|-0.46|=0.543
82365215|NCT02985879|164439965|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|25.44|=|0.829|TWO_SIDED|95.0|-55.66|44.63|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||44.63|-55.66|=0.829
82365216|NCT02985879|164439965|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-32.9|STANDARD_ERROR_OF_MEAN|25.92|=|0.206|TWO_SIDED|95.0|-83.94|18.23|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||18.23|-83.94|=0.206
82365217|NCT02985879|164439966|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|3.88|=|0.304|TWO_SIDED|95.0|-3.65|11.65|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||11.65|-3.65|=0.304
82365218|NCT02985879|164439966|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|3.88|=|0.243|TWO_SIDED|95.0|-3.11|12.19|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||12.19|-3.11|=0.243
82365219|NCT02985879|164439967|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|-26.4|STANDARD_ERROR_OF_MEAN|53.86||0.625|TWO_SIDED|95.0|-132.76|79.94|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||79.94|-132.76|0.625
82393260|NCT02326298|164498366|SUPERIORITY||Estimated difference in responder rate|42.8|||||TWO_SIDED|95.0|30.7|54.86|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||54.86|30.70|
82393261|NCT02326298|164498366|SUPERIORITY||Estimated difference in responder rate|53.6|||||TWO_SIDED|95.0|41.33|65.94|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||65.94|41.33|
82365220|NCT02985879|164439967|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|33.2|STANDARD_ERROR_OF_MEAN|55.47|=|0.55|TWO_SIDED|95.0|-76.34|142.71|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||142.71|-76.34|=0.550
82365221|NCT02985879|164439968|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|1739.1|STANDARD_ERROR_OF_MEAN|2502.95|=|0.488|TWO_SIDED|95.0|-3201.75|6680.02|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||6680.02|-3201.75|=0.488
82393262|NCT02326298|164498367|SUPERIORITY||Odds Ratio (OR)|36.668|||<|0.0001|TWO_SIDED|97.5|5.717|235.193||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment,region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||235.193|5.717|<0.0001
82393263|NCT02326298|164498367|SUPERIORITY||Odds Ratio (OR)|50.606|||<|0.0001|TWO_SIDED|97.5|7.88|324.988||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||324.988|7.880|<0.0001
82393264|NCT02326298|164498367|SUPERIORITY||Estimated difference in responder rate|35.4|||||TWO_SIDED|95.0|20.85|49.87|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 200 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||49.87|20.85|
82393265|NCT02326298|164498367|SUPERIORITY||Estimated difference in responder rate|43.1|||||TWO_SIDED|95.0|27.56|58.71|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.|Estimate and 95% CI for difference in proportion of responders for CZP 400 mg Q2W (RS) versus Placebo Q2W (RS).|The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||58.71|27.56|
82393266|NCT02326298|164498368|SUPERIORITY||Adjusted Mean Treatment Differences|-6.0|||<|0.0001|TWO_SIDED|97.5|-8.18|-3.81||P-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-3.81|-8.18|<0.0001
82393267|NCT02326298|164498368|SUPERIORITY||Ajusted Mean Treatment Differences|-6.84|||<|0.0001|TWO_SIDED|97.5|-9.05|-4.62||P-value obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-4.62|-9.05|<0.0001
82365222|NCT02985879|164439968|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|3684.9|STANDARD_ERROR_OF_MEAN|2487.32|=|0.14|TWO_SIDED|95.0|-1225.46|8595.29|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||8595.29|-1225.46|=0.140
82393268|NCT03191864|164498373|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82393269|NCT03191864|164498373|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82444370|NCT03242018|164597428|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|0.703||0.2432|TWO_SIDED|95.0|-2.197|0.557|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||0.557|-2.197|0.2432
82444371|NCT03242018|164597428|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.715||0.0487|TWO_SIDED|95.0|-2.81|-0.008|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||-0.008|-2.810|0.0487
82528358|NCT01755143|164752695|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|0.0|||||TWO_SIDED|||||A priori threshold for statistical significance was 0.025. Because there were no failures in either group, a p-value could not be calculated.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||||
82393270|NCT03191864|164498373|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82393271|NCT03191864|164498373|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82365223|NCT02985879|164439969|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|207.9|STANDARD_ERROR_OF_MEAN|592.68|=|0.726|TWO_SIDED|95.0|-962.98|1378.88|||Mixed-effects model, repeated measures||ABBV-8E12 2000 mg - Placebo|ABBV-8E12 2000 mg vs Placebo||1378.88|-962.98|=0.726
82365224|NCT02985879|164439969|SUPERIORITY|The analysis utilized a likelihood-based, mixed-effects model, repeated measures (MMRM) analysis of the change from baseline for each postbaseline value and compared each ABBV-8E12 dose group with the placebo group. The model, which used all observed data, included fixed, categorical effects for treatment, site, visit, baseline score-by-visit interaction and treatment-by-visit interaction, with continuous fixed covariates for the corresponding baseline score.|LS Mean Difference|133.6|STANDARD_ERROR_OF_MEAN|611.91|=|0.828|TWO_SIDED|95.0|-1075.26|1342.4|||Mixed-effects model, repeated measures||ABBV-8E12 4000 mg - Placebo|ABBV-8E12 4000 mg vs Placebo||1342.40|-1075.26|=0.828
82365225|NCT03959527|164439985|NON_INFERIORITY|A single oral 3 g dose of zoliflodacin would be considered as non-inferior to a combination of a single IM 500 mg dose of ceftriaxone and a single 1 g oral dose of azithromycin if the upper bound of the 2-sided 95% CI for the microbiological cure rate of the combination therapy minus zoliflodacin was less than 12% (prespecified non-inferiority \[NI\] margin for the primary endpoint).|Risk Difference (RD)|5.31|||||TWO_SIDED|95.0|1.38|8.65|||||95% CI of the treatment difference of ceftriaxone+ azithromycin combination minus zoliflodacin|Point estimate for the treatment difference in proportion of ceftriaxone/azithromycin combination and zoliflodacin with microbiological cure and 2-sided 95% CI calculated by Newcombe score method.||8.65|1.38|
82365226|NCT00595335|164440030|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||Comparison of the change between the two groups' CAS score at 6 months.||||0.73
82365227|NCT00595335|164440031|SUPERIORITY_OR_OTHER|||||||0.75|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 6 months.||||0.75
82365228|NCT00595335|164440031|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 12 months.||||0.85
82365229|NCT00595335|164440033|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||Comparison of the change between the two groups in proptosis in the right eye at 12 months.||||0.97
82365230|NCT00595335|164440033|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||Comparison of the change between the two groups in change in proptosis in left eye at 12 months.||||0.86
82365231|NCT00595335|164440034|SUPERIORITY_OR_OTHER|||||||0.98|||||||t-test, 2 sided|||Comparison of the change in lid fissure in the right eye between the two groups.||||0.98
82365232|NCT00595335|164440034|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||Comparison of the change in lid fissure in the left eye between the two groups.||||0.49
82444372|NCT03242018|164597429|SUPERIORITY||Difference in LS Means|-2.14|STANDARD_ERROR_OF_MEAN|2.515||0.3954|TWO_SIDED|95.0|-7.066|2.792|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||2.792|-7.066|0.3954
82444373|NCT03242018|164597429|SUPERIORITY||Difference in LS Means|-4.4|STANDARD_ERROR_OF_MEAN|2.442||0.0716|TWO_SIDED|95.0|-9.185|0.386|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.386|-9.185|0.0716
82528359|NCT01755143|164752696|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|-0.7|||<|0.0001|TWO_SIDED|95.0|-5.4|4.1||A priori threshold for statistical significance was 0.025.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group -10%.||4.1|-5.4|<0.0001
82365233|NCT00595335|164440035|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||Comparison of change between groups in extraocular motility at 6 months.||||0.21
82365234|NCT00595335|164440035|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||Comparison of change between groups in extraocular motility at 12 months.||||0.64
82365235|NCT00595335|164440036|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 physical score at 6 months.||||0.36
82365236|NCT00595335|164440036|SUPERIORITY_OR_OTHER|||||||0.91|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 mental score at 6 months.||||0.91
82365237|NCT00595335|164440036|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 physical score at 12 months.||||0.29
82365238|NCT00595335|164440036|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||Comparison of the arms for QoL SF-12 mental score at 12 months.||||0.18
82365239|NCT00595335|164440037|SUPERIORITY_OR_OTHER|||||||0.85|||||||Fisher Exact|||Comparison of the change between the two groups' failure rate at 12 months.||||0.85
82365240|NCT04843566|164440052|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Infection||||0.04
82365241|NCT04843566|164440052|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Urinary retention||||0.30
82365242|NCT04843566|164440052|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Bleeding requiring intervention||||0.31
82365243|NCT04843566|164440053|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Immediately following biopsy - Pain||||0.002
82365244|NCT04843566|164440053|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Immediately following biopsy - Discomfort||||0.05
82365245|NCT04843566|164440053|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||7-day post biopsy - Pain||||<0.0001
82365246|NCT04843566|164440053|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||7-day post biopsy - Discomfort||||0.07
82365247|NCT04843566|164440054|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82365248|NCT04843566|164440055|SUPERIORITY|||||||0.59|||||||Chi-squared|||Gleason grade \>=2||||0.59
82365249|NCT04843566|164440056|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Infection||||0.04
82365250|NCT04843566|164440056|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Urinary retention||||0.30
82365251|NCT04843566|164440056|SUPERIORITY|||||||0.31|||||||Fisher Exact|||Bleeding requiring intervention||||0.31
82365252|NCT02516410|164440109|SUPERIORITY||Least squares (LS) mean difference|1.2|||=|0.1176|TWO_SIDED|95.0|-0.3|2.6|||Mixed-effect repeated measure (MMRM)|||||2.6|-0.3|= 0.1176
82365253|NCT06005597|164440121|SUPERIORITY||Least Squares (LS) Means|-48.61|STANDARD_ERROR_OF_MEAN|4.959|<|0.0001|TWO_SIDED|95.0|-58.33|-38.89|||ANCOVA|||||-38.89|-58.33|<.0001
82365254|NCT06005597|164440122|SUPERIORITY||Least Squares (LS) Means|-27.94|STANDARD_ERROR_OF_MEAN|4.893|<|0.0001|TWO_SIDED|95.0|-37.53|-18.35|||ANCOVA|||||-18.35|-37.53|<.0001
82393272|NCT03191864|164498375|OTHER||Mean Difference (Final Values)|-1.28||||0.02|TWO_SIDED|90.0|-2.29|-0.26|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-0.26|-2.29|0.020
82393273|NCT03191864|164498375|OTHER||Mean Difference (Final Values)|-2.08|||<|0.001|TWO_SIDED|90.0|-3.07|-1.1|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-1.10|-3.07|<0.001
82393274|NCT03191864|164498375|OTHER||Mean Difference (Final Values)|-2.25|||<|0.001|TWO_SIDED|90.0|-3.23|-1.26|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-1.26|-3.23|<0.001
82393275|NCT03191864|164498375|OTHER||Mean Difference (Final Values)|-1.59||||0.005|TWO_SIDED|90.0|-2.59|-0.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparisons of each APT-1011 dose group to Placebo at Week 12 are from an ANCOVA model||-0.59|-2.59|0.005
82393276|NCT03191864|164498377|OTHER||Mean Difference (Final Values)|-1.19||||0.067|TWO_SIDED|90.0|-2.49|0.12|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||0.12|-2.49|0.067
82393277|NCT03191864|164498377|OTHER||Mean Difference (Final Values)|0.34||||0.672|TWO_SIDED|90.0|-0.91|1.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||1.59|-0.91|0.672
82393278|NCT03191864|164498377|OTHER||Mean Difference (Final Values)|-1.28||||0.048|TWO_SIDED|90.0|-2.55|-0.01|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||-0.01|-2.55|0.048
82528360|NCT01755143|164752697|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|1.6|||<|0.0001|ONE_SIDED|95.0|-3.2|||A priori threshold for statistical significance was 0.05.|Farrington-Manning test|||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-3.2|<0.0001
82393279|NCT03191864|164498377|OTHER||Mean Difference (Final Values)|0.31||||0.653|TWO_SIDED|90.0|-0.98|1.59|||ANCOVA|||Least-squares Mean differences, 90% confidence intervals and 1-sided p-values for comparison of each APT-1011 dose group to placebo at Week 12 are from an ANCOVA model.||1.59|-0.98|0.653
82393280|NCT03191864|164498379|SUPERIORITY||Mean Difference (Final Values)|-8.81||||0.079|TWO_SIDED|90.0|-19.06|1.45|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||1.45|-19.06|0.079
82393281|NCT03191864|164498379|SUPERIORITY||Mean Difference (Final Values)|-5.18||||0.195|TWO_SIDED|90.0|-15.14|4.78|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||4.78|-15.14|0.195
82393282|NCT03191864|164498379|SUPERIORITY||Mean Difference (Final Values)|-12.56||||0.02|TWO_SIDED|90.0|-22.55|-2.58|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||-2.58|-22.55|0.020
82393283|NCT03191864|164498379|SUPERIORITY||Mean Difference (Final Values)|-10.61||||0.043|TWO_SIDED|90.0|-20.74|-0.48|||ANCOVA|||EEsAI Total Score Change from Baseline Week 12||-0.48|-20.74|0.043
82393284|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.459|TWO_SIDED|90.0|-3.49|3.08|||ANCOVA|||VDQ Score Change from Baseline Week 12||3.08|-3.49|0.459
82365255|NCT06005597|164440123|SUPERIORITY||Least Squares (LS) Means|-16.76|STANDARD_ERROR_OF_MEAN|4.918||0.0007|TWO_SIDED|95.0|-26.4|-7.12|||ANCOVA|||||-7.12|-26.40|0.0007
82365256|NCT06005597|164440124|SUPERIORITY||Least Squares (LS) Means|-31.85|STANDARD_ERROR_OF_MEAN|4.993|<|0.0001|TWO_SIDED|95.0|-41.64|-22.07|||ANCOVA|||||-22.07|-41.64|<.0001
82365257|NCT06005597|164440125|SUPERIORITY||Least Squares (LS) Means|-45.13|STANDARD_ERROR_OF_MEAN|4.233|<|0.0001|TWO_SIDED|95.0|-53.43|-36.84|||ANCOVA|||||-36.84|-53.43|<.0001
82393285|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.617|TWO_SIDED|90.0|-2.65|3.8|||ANCOVA|||VDQ Score Change from Baseline Week 12||3.80|-2.65|0.617
82393286|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.167|TWO_SIDED|90.0|-5.07|1.33|||ANCOVA|||VDQ Score Change from Baseline Week 12||1.33|-5.07|0.167
82393287|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.373|TWO_SIDED|90.0|-3.88|2.61|||ANCOVA|||VDQ Score Change from Baseline Week 12||2.61|-3.88|0.373
82393288|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-1.66||||0.203|TWO_SIDED|90.0|-4.96|1.64|||ANCOVA|||AMS Score Change from Baseline Week 12||1.64|-4.96|0.203
82393289|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-4.33||||0.014|TWO_SIDED|90.0|-7.54|-1.13|||ANCOVA|||AMS Score Change from Baseline Week 12||-1.13|-7.54|0.014
82393290|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-3.02||||0.061|TWO_SIDED|90.0|-6.23|0.2|||ANCOVA|||AMS Score Change from Baseline Week 12||0.20|-6.23|0.061
82393291|NCT03191864|164498380|SUPERIORITY||Mean Difference (Final Values)|-2.57||||0.097|TWO_SIDED|90.0|-5.83|0.69|||ANCOVA|||AMS Score Change from Baseline Week 12||0.69|-5.83|0.097
82393292|NCT02044874|164498394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.0027|TWO_SIDED|95.0|1.47|6.22|||Regression, Logistic|||||6.22|1.47|0.0027
82393293|NCT02044874|164498394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.2427|TWO_SIDED|95.0|0.73|3.51|||Regression, Logistic|||||3.51|0.73|0.2427
82393294|NCT02044874|164498394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0477|TWO_SIDED|95.0|1.01|3.56|||Regression, Logistic|||||3.56|1.01|0.0477
82393295|NCT02044874|164498395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0784|TWO_SIDED|95.0|0.89|9.08|||Regression, Logistic|||||9.08|0.89|0.0784
82393296|NCT02044874|164498395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.365|TWO_SIDED|95.0|0.51|6.17|||Regression, Logistic|||||6.17|0.51|0.3650
82528361|NCT01755143|164752698|SUPERIORITY_OR_OTHER||Percentage|0.0|||<|0.0001|ONE_SIDED|95.0||1.9|||exact test of binomial proportions|A priori threshold for statistical significance was 0.05.||Null hypothesis: the proportion of subjects with sustained ventricular arrhythmias and asystole during MRI scans \>= 10%.||1.9||<0.0001
82365258|NCT06005597|164440126|SUPERIORITY||Least Squares (LS) Means|-29.19|STANDARD_ERROR_OF_MEAN|3.467|<|0.0001|TWO_SIDED|95.0|-35.99|-22.4|||ANCOVA|||||-22.40|-35.99|<.0001
82365259|NCT06005597|164440127|SUPERIORITY||Least Squares (LS) Means|-29.9|STANDARD_ERROR_OF_MEAN|4.274|<|0.0001|TWO_SIDED|95.0|-38.28|-21.53|||ANCOVA|||||-21.53|-38.28|<.0001
82365260|NCT06005597|164440128|SUPERIORITY||Least Squares (LS) Means|-19.78|STANDARD_ERROR_OF_MEAN|3.549|<|0.0001|TWO_SIDED|95.0|-26.73|-12.82|||ANCOVA|||||-12.82|-26.73|<.0001
82365261|NCT06005597|164440129|SUPERIORITY||Least Squares (LS) Means|-25.44|STANDARD_ERROR_OF_MEAN|4.198|<|0.0001|TWO_SIDED|95.0|-33.67|-17.22|||ANCOVA|||||-17.22|-33.67|<.0001
82365262|NCT06005597|164440130|SUPERIORITY||Least Squares (LS) Means|-14.21|STANDARD_ERROR_OF_MEAN|3.495|<|0.0001|TWO_SIDED|95.0|-21.06|-7.36|||ANCOVA|||||-7.36|-21.06|<.0001
82365263|NCT06005597|164440131|SUPERIORITY||Least Squares (LS) Means|-15.23|STANDARD_ERROR_OF_MEAN|4.236||0.0003|TWO_SIDED|95.0|-23.53|-6.93|||ANCOVA|||||-6.93|-23.53|0.0003
82365264|NCT06005597|164440132|SUPERIORITY||Least Squares (LS) Means|-9.42|STANDARD_ERROR_OF_MEAN|3.493||0.007|TWO_SIDED|95.0|-16.26|-2.57|||ANCOVA|||||-2.57|-16.26|0.007
82365265|NCT00754442|164440133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED|95.0||||see above|t-test, 2 sided|95%||The null hypothesis is that there is no statistical difference between patients and controls at baseline||||0.1
82365266|NCT00754442|164440133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||t-test, 2 sided|||The null hypothesis is that there is no statistical difference between patients and controls at 4 hours||||0.002
82365267|NCT00754442|164440133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||t-test, 2 sided|||The null hypothesis is that there is no statistical difference between patients and controls at 8 hrs||||0.003
82448887|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31||||0.1429|TWO_SIDED|95.0|-0.73|0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q1 at Day 14||0.11|-0.73|0.1429
82528362|NCT01755143|164752699|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Risk Difference (RD)|0.2||||0.0004|ONE_SIDED|95.0|-4.8||||Farrington-Manning test|A priori threshold for statistical significance was 0.05.||Null hypothesis: % successes MRI group ≤ % successes Control group - 10%.|||-4.8|0.0004
82365268|NCT05611996|164440136|SUPERIORITY||Mean Difference (Net)|-1.783|STANDARD_ERROR_OF_MEAN|0.772||0.025|TWO_SIDED|95.0|-3.336|-0.23||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||Score difference = Post-intervention - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to post-intervention for all study participants.||-0.230|-3.336|0.025
82365269|NCT05611996|164440136|SUPERIORITY||Mean Difference (Net)|-2.42|STANDARD_ERROR_OF_MEAN|0.814||0.005|TWO_SIDED|95.0|-4.057|-0.784||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||Score difference = 3-month - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 3-month for all study participants.||-0.784|-4.057|0.005
82365270|NCT05611996|164440136|SUPERIORITY||Mean Difference (Net)|-0.5468|STANDARD_ERROR_OF_MEAN|0.1744||0.004|TWO_SIDED|95.0|-0.9039|-0.1897||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis||The mean difference of the PHQ-9 score by each unit increase of the time(each week increase)|Null hypothesis: There is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores over time for all study participants.||-0.1897|-0.9039|0.0040
82365271|NCT04479475|164440146|OTHER|The Wilcoxon signed-rank test is a non-parametric statistical test. We used it to assess repeated measures of missed methadone doses.|Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|10.8||0.0094|TWO_SIDED|||||Exact p-value reported due to small sample size|Wilcoxon signed-rank test||We opted not to include the 95% confidence interval due to the non-parametric nature of the data.|||||0.0094
82365272|NCT00484419|164440193|SUPERIORITY_OR_OTHER|||||||0.0061||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0061
82365273|NCT00484419|164440193|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.1090
82365274|NCT00484419|164440193|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||<0.0001
82365275|NCT00484419|164440194|SUPERIORITY_OR_OTHER|||||||0.0234||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0234
82365276|NCT00484419|164440194|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||<0.0001
82365277|NCT00484419|164440194|SUPERIORITY_OR_OTHER|||||||0.0011||95.0|||||t-test, 2 sided|||For a treatment group, assuming a within-subject standard deviation of at most 1.15, a 2-sided t-test of the null hypothesis that the change from baseline (CFB) is zero will have 67% to 85% power to detect a difference of 0.4 to 0.5 with a sample size of 50 randomized subjects.||||0.0011
82365278|NCT00484419|164440197|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0077
82365279|NCT00484419|164440197|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0004
82528363|NCT03315130|164752731|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.7|=|0.0941|TWO_SIDED|80.0|-4.5|-0.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.1|-4.5|=0.0941
82365280|NCT00484419|164440197|SUPERIORITY_OR_OTHER|||||||0.0483||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0483
82365281|NCT00484419|164440198|SUPERIORITY_OR_OTHER|||||||0.0133||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0133
82365282|NCT00484419|164440198|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0004
82365283|NCT00484419|164440198|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0125
82365284|NCT00484419|164440201|SUPERIORITY_OR_OTHER|||||||0.8596||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.8596
82365285|NCT00484419|164440201|SUPERIORITY_OR_OTHER|||||||0.0257||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0257
82365286|NCT00484419|164440201|SUPERIORITY_OR_OTHER|||||||0.1862||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1862
82365287|NCT00484419|164440202|SUPERIORITY_OR_OTHER|||||||0.7094||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.7094
82365288|NCT00484419|164440202|SUPERIORITY_OR_OTHER|||||||0.1394||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1394
82365289|NCT00484419|164440202|SUPERIORITY_OR_OTHER|||||||0.4528||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.4528
82393297|NCT02044874|164498395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.3438|TWO_SIDED|95.0|0.61|4.21|||Regression, Logistic|||||4.21|0.61|0.3438
82365290|NCT00484419|164440204|SUPERIORITY_OR_OTHER|||||||0.0374||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0374
82365291|NCT00484419|164440204|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
82365292|NCT00484419|164440204|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0001
82365293|NCT00484419|164440205|SUPERIORITY_OR_OTHER|||||||0.2701||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.2701
82365294|NCT00484419|164440205|SUPERIORITY_OR_OTHER|||||||0.6117||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.6117
82365295|NCT00484419|164440205|SUPERIORITY_OR_OTHER|||||||0.2007||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.2007
82365296|NCT00484419|164440207|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
82365297|NCT00484419|164440207|SUPERIORITY_OR_OTHER|||||||0.1864||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.1864
82365298|NCT00484419|164440207|SUPERIORITY_OR_OTHER|||||||0.0999||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0999
82365299|NCT00484419|164440208|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||<0.0001
82365300|NCT00484419|164440208|SUPERIORITY_OR_OTHER|||||||0.0566||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0566
82365301|NCT00484419|164440208|SUPERIORITY_OR_OTHER|||||||0.0217||95.0|||||t-test, 2 sided|||P-value presents results from 1-sample t-test for within-treatment difference from baseline.||||0.0217
82365302|NCT03176784|164440245|SUPERIORITY||Odds Ratio (OR)|0.9||||0.66|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.66
82365303|NCT03176784|164440245|SUPERIORITY||Odds Ratio (OR)|1.0||||0.85|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.4|0.7|.85
82365304|NCT03176784|164440245|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.7|1.4|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.4|0.7|1.00
82365305|NCT03176784|164440246|SUPERIORITY||Odds Ratio (OR)|1.2||||0.44|TWO_SIDED|95.0|0.8|1.7||Study site (Madison vs Milwaukee) was included as a covariate.|Regression, Logistic|||||1.7|0.8|.44
82365306|NCT03176784|164440246|SUPERIORITY||Odds Ratio (OR)|1.1||||0.61|TWO_SIDED|95.0|0.8|1.6|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.6|0.8|.61
82365307|NCT03176784|164440246|SUPERIORITY||Odds Ratio (OR)|1.4||||0.12|TWO_SIDED|95.0|0.9|2.0|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||2.0|0.9|.12
82365308|NCT03176784|164440247|SUPERIORITY||Odds Ratio (OR)|0.8||||0.43|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.5|.43
82365309|NCT03176784|164440247|SUPERIORITY||Odds Ratio (OR)|0.8||||0.37|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.5|.37
82365310|NCT03176784|164440247|SUPERIORITY||Odds Ratio (OR)|1.1||||0.81|TWO_SIDED|95.0|0.7|1.6|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.6|0.7|.81
82365311|NCT03176784|164440248|SUPERIORITY||Odds Ratio (OR)|0.9||||0.65|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.65
82365312|NCT03176784|164440248|SUPERIORITY||Odds Ratio (OR)|0.9||||0.6|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.3|0.6|.60
82393298|NCT02044874|164498396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0379|TWO_SIDED|95.0|1.04|3.55|||Regression, Logistic|||||3.55|1.04|0.0379
82393299|NCT02044874|164498396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8628|TWO_SIDED|95.0|0.54|2.09|||Regression, Logistic|||||2.09|0.54|0.8628
82393300|NCT02044874|164498396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0556|TWO_SIDED|95.0|0.99|3.31|||Regression, Logistic|||||3.31|0.99|0.0556
82643325|NCT02864953|165001879|SUPERIORITY||Odds Ratio (OR)|1.17|||=|0.415|TWO_SIDED|95.0|0.8|1.71||P-value was analyzed by ordinal logistic regression adjusting for covariates: region, and IRT stratification factors including rtPA usage (yes/no), thrombectomy usage (yes/no), use of ASPECTS for screening (yes/no), baseline NIHSS (\<=20 vs. \>20).|Regression, Logistic|||||1.71|0.80|=0.4150
82365313|NCT03176784|164440248|SUPERIORITY||Odds Ratio (OR)|1.0||||0.86|TWO_SIDED|95.0|0.7|1.5|||Regression, Logistic|Study site (Madison vs Milwaukee) was included as a covariate.||||1.5|0.7|.86
82365314|NCT02990806|164440249|EQUIVALENCE|A test for equivalence was carried out using an asymmetric margin (-12%, 15%) pre-specified in protocol and a two 1-sided test (TOST) analysis with α=0.05 for each 1-sided statistical test.|Percentage difference|3.6|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-4.3|11.5||||||||11.5|-4.3|
82365315|NCT02654587|164440290|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.05|TWO_SIDED|95.0|0.38|0.91||OS in patients with ICI secondary resistance|t-test, 2 sided||p=0.017|||0.91|0.38|<0.05
82365316|NCT02654587|164440290|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.36|TWO_SIDED|95.0|0.62|1.19|||t-test, 2 sided|||OS in the ITT population with ICI resistance (primary and secondary resistance)||1.19|0.62|0.36
82365317|NCT02654587|164440291|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.004|TWO_SIDED|95.0|0.27|0.79|||t-test, 2 sided|||Post-progression survival in patients with ICI secondary resistance||0.79|0.27|0.004
82365318|NCT02654587|164440291|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0035|TWO_SIDED|95.0|0.39|0.83|||t-test, 2 sided|||Post-progression survival in ITT population with ICI resistance (primary and secondary)||0.83|0.39|0.0035
82365319|NCT02654587|164440292|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.006|TWO_SIDED|95.0|0.23|0.8|||t-test, 2 sided|||Time to worsening ECOG PS \>1 in patients with ICI secondary resistance||0.80|0.23|0.006
82365320|NCT02654587|164440292|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.02|TWO_SIDED|95.0|0.35|0.92|||t-test, 2 sided|||Time to worsening ECOG PS in the ITT population with ICI resistance (primary and secondary)||0.92|0.35|0.02
82365321|NCT02654587|164440293|SUPERIORITY||P Value|0.045|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||QLQ C30 Global Health Status in Patients with ICI secondary resistance||||<0.05
82365322|NCT02654587|164440293|SUPERIORITY||P Value|0.07||||0.07|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Physical functioning in patients with ICI secondary resistance||||0.07
82365323|NCT02654587|164440293|SUPERIORITY||P Value|0.03|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Role functioning in patients with ICI secondary resistance||||<0.05
82365324|NCT02654587|164440293|SUPERIORITY||P Value|0.36||||0.36|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Emotional functioning in patients with ICI secondary resistance||||0.36
82393301|NCT02044874|164498397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0219|TWO_SIDED|95.0|1.1|3.35|||Regression, Logistic|||||3.35|1.10|0.0219
82393302|NCT02044874|164498397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.545|TWO_SIDED|95.0|0.66|2.18|||Regression, Logistic|||||2.18|0.66|0.5450
82365325|NCT02654587|164440293|SUPERIORITY||P Value|0.24||||0.24|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Cognitive functioning in patients with ICI secondary resistance||||0.24
82365326|NCT02654587|164440293|SUPERIORITY|QLQ-C30 Social functioning|P Value|0.11||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
82365327|NCT02654587|164440294|SUPERIORITY||P Value|0.06||||0.06|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Fatigue in ICI secondary resistance||||0.06
82575327|NCT01483144|164860334|SUPERIORITY||Hazard Ratio (HR)|0.17||||0.0101|TWO_SIDED|95.0|0.0|0.7||Threshold of significance was p=0.05|stratified Cox proportional (Score)||Eflornithine and sulindac is the numerator and eflornithine and sulindac placebo is the denominator.|Lower GI population||0.7|0|0.0101
82365328|NCT02654587|164440294|SUPERIORITY||P Value|0.0003||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Constipation in ICI secondary resistance||||0.0003
82365329|NCT02654587|164440294|SUPERIORITY||P Value|0.8||||0.8|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Dyspnea in ICI secondary resistance||||0.80
82365330|NCT02654587|164440294|SUPERIORITY||P Value|0.21||||0.21|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Nausea and Vomiting in ICI secondary resistance||||0.21
82365331|NCT02654587|164440294|SUPERIORITY||P Value|0.45||||0.45|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Pain in ICI secondary resistance||||0.45
82365332|NCT02654587|164440294|SUPERIORITY||P Value|0.87||||0.87|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Insomnia in ICI secondary resistance||||0.87
82365333|NCT02654587|164440294|SUPERIORITY||P Value|0.59||||0.59|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Appetite loss in ICI secondary resistance||||0.59
82365334|NCT02654587|164440294|SUPERIORITY||P Value|0.88||||0.88|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Diarrhea in ICI secondary resistance||||0.88
82365335|NCT02654587|164440294|SUPERIORITY||P Value|0.37||||0.37|TWO_SIDED||||||Mixed Models Analysis|||QLQ-C30 Financial difficulties in ICI secondary resistance||||0.37
82365336|NCT02654587|164440295|SUPERIORITY||P Value|0.0001|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Alopecia in ICI secondary resistance||||<0.0001
82365337|NCT02654587|164440295|SUPERIORITY||P Value|0.03||||0.03|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC 13 Peripheral neuropathy in ICI secondary resistance||||0.03
82365338|NCT02654587|164440295|SUPERIORITY||P Value|0.01||||0.01|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Sore mouth in ICI secondary resistance||||0.01
82365339|NCT02654587|164440295|SUPERIORITY||P Value|0.01||||0.01|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Dysphagia in ICI secondary resistance||||0.01
82365340|NCT02654587|164440295|SUPERIORITY||P Value|0.35||||0.35|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Pain in arm and shoulder||||0.35
82365341|NCT02654587|164440295|SUPERIORITY||P Value|0.43||||0.43|TWO_SIDED||||||Mantel Haenszel|||QLQ-LC13 Pain in chest in ICI secondary resistance||||0.43
82393303|NCT02044874|164498397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.0868|TWO_SIDED|95.0|0.93|2.72|||Regression, Logistic|||||2.72|0.93|0.0868
82393304|NCT02044874|164498398|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.97||||0.0004|TWO_SIDED|95.0|-1.51|-0.43|||Mixed-effects repeated measures|||||-0.43|-1.51|0.0004
82575328|NCT01483144|164860335|SUPERIORITY|||||||0.8127||||||The threshold of significance was p=0.05|Mantel Haenszel|||||||0.8127
82643326|NCT02864953|165001881|SUPERIORITY||Odds Ratio (OR)|1.07|||=|0.7413|TWO_SIDED|95.0|0.72|1.6||A logistic regression model was used to estimate an odds ratio (and 95% CI) of improvement on the mRS dichotomized as 0-4 vs. 5-6 at Day 90.|Regression, Logistic|||||1.60|0.72|=0.7413
82365342|NCT02654587|164440295|SUPERIORITY||P Value|0.78||||0.78|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Pain in other parts||||0.78
82365343|NCT02654587|164440295|SUPERIORITY||P Value|0.23||||0.23|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC 13 Hemoptysis in ICI secondary resistance||||0.23
82365344|NCT02654587|164440295|SUPERIORITY||P Value|0.54||||0.54|TWO_SIDED||||||Mixed Models Analysis|||QLQ-LC13 Coughing in ICI secondary resistance||||0.54
82365345|NCT02654587|164440296|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.43|2.75|||Mantel Haenszel|||DCR at 6 months in patients with ICI secondary resistance||2.75|0.43|0.87
82365346|NCT02654587|164440296|SUPERIORITY||Odds Ratio (OR)|0.73||||0.37|TWO_SIDED|95.0|0.36|1.46|||Mantel Haenszel|||DCR at 6 months in ITT patients with ICI resistance (primary and secondary)||1.46|0.36|0.37
82365347|NCT02654587|164440297|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.29|TWO_SIDED|95.0|0.82|2.0|||t-test, 2 sided|||Median PFS in patients with ICI secondary resistance||2.0|0.82|0.29
82365348|NCT02654587|164440297|SUPERIORITY||Hazard Ratio (HR)|1.64|||<|0.05|TWO_SIDED|95.0|1.18|2.28|||t-test, 2 sided|||Median PFS in ITT patients with ICI resistance (primary and secondary)||2.28|1.18|<0.05
82365349|NCT02654587|164440298|SUPERIORITY|ORR in ICI secondary resistance|Odds Ratio (OR)|0.33||||0.07|TWO_SIDED|95.0|0.1|1.11|||Mantel Haenszel|||||1.11|0.10|0.07
82365350|NCT02654587|164440298|SUPERIORITY|ORR in ITT population with ICI resistance (primary and secondary)|Odds Ratio (OR)|0.22||||0.002|TWO_SIDED|95.0|0.08|0.59|||Mantel Haenszel|||||0.59|0.08|0.002
82365351|NCT02654587|164440299|SUPERIORITY|Duration of response at 6 months in ICI secondary resistance|Hazard Ratio (HR)|1.14||||0.88|TWO_SIDED|95.0|0.25|5.3|||Regression, Cox|||||5.30|0.25|0.88
82365352|NCT02654587|164440299|SUPERIORITY|Duration of Response at 6 months in ITT population with ICI resistance (primary and secondary)|Hazard Ratio (HR)|1.41||||0.57|TWO_SIDED|95.0|0.43|4.6|||Regression, Cox|||||4.60|0.43|0.57
82365353|NCT02654587|164440300|SUPERIORITY|Time to next lung cancer therapy in ICI secondary resistance|Hazard Ratio (HR)|1.85||||0.04|TWO_SIDED|95.0|1.03|3.31|||Regression, Cox|||||3.31|1.03|0.04
82365354|NCT02654587|164440300|SUPERIORITY|Time to next lung cancer therapy in ITT population with ICI resistance (primary and secondary)|Hazard Ratio (HR)|1.59||||0.02|TWO_SIDED|95.0|1.07|2.36|||Regression, Cox|||||2.36|1.07|0.02
82365355|NCT02654587|164440301|SUPERIORITY||Hazard Ratio (HR)|1.36|||<|0.05|TWO_SIDED|95.0|1.0|1.86|||t-test, 2 sided|||||1.86|1.00|<0.05
82365356|NCT00904748|164440308|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|98.68|||||TWO_SIDED|90.0|92.03|105.82|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||105.82|92.03|
82365357|NCT00904748|164440308|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|97.23|||||TWO_SIDED|90.0|90.67|104.26|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||104.26|90.67|
82365358|NCT00904748|164440309|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20%.|ratio between geometric means|80.83|||||TWO_SIDED|90.0|72.38|90.26|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||90.26|72.38|
82365359|NCT00904748|164440309|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20%.|ratio between geometric means|78.76|||||TWO_SIDED|90.0|70.53|87.96|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||87.96|70.53|
82365360|NCT00904748|164440310|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|99.12|||||TWO_SIDED|90.0|92.76|105.93|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||105.93|92.76|
82365361|NCT00904748|164440310|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Percent of reference to detect for 2-1 tests and power = 20.0%.|ratio between geometric means|97.84|||||TWO_SIDED|90.0|91.56|104.56|||ANOVA||Estimated value = ratio (% reference).|Ratio between geometric means of Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||104.56|91.56|
82365362|NCT00904748|164440311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|90.0|-0.14|0.5|||ANOVA|||Difference in Tmax between Test 1 study treatment (chewable without water) and reference study treatment (coated with water).||0.50|-0.14|
82365363|NCT00904748|164440311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|90.0|-0.27|0.28|||ANOVA|||Difference in Tmax between Test 2 study treatment (chewable with water) and reference study treatment (coated with water).||0.28|-0.27|
82365364|NCT04740931|164440328|NON_INFERIORITY|If the lower bound of a two-sided 95% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.5|1.6|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. The final sample size provided \>90% power for the non-inferiority assessment (at a one-sided 0.02485 significance level).||1.6|-2.5|
82393305|NCT02044874|164498398|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.34||||0.2268|TWO_SIDED|95.0|-0.89|0.21|||mixed effects repeated measures|||||0.21|-0.89|0.2268
82393306|NCT02044874|164498398|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.63||||0.0217|TWO_SIDED|95.0|-1.17|-0.09|||mixed effects repeated measures|||||-0.09|-1.17|0.0217
82448888|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.3348|TWO_SIDED|95.0|-0.21|0.62|||ANCOVA|||Comparison of Q1 at Day 14||0.62|-0.21|0.3348
82528364|NCT03315130|164752731|SUPERIORITY||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.7|=|0.0538|TWO_SIDED|80.0|-5.1|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-5.1|=0.0538
82365365|NCT04740931|164440328|SUPERIORITY||Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|1.04||0.6715|TWO_SIDED|95.0|-2.5|1.6||Tested at a two-sided p\<0.0497 significance level.|Mixed Model of Repeated Measures||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The final sample size provided \>80% power for a 3.5-letter superiority assessment of faricimab over aflibercept (at a two-sided 0.0497 significance level).||1.6|-2.5|0.6715
82365366|NCT04740931|164440330|OTHER||Difference in CMH Weighted Percentage|-1.5|||||TWO_SIDED|95.0|-8.4|5.3||||||||5.3|-8.4|
82365367|NCT04740931|164440346|OTHER||Difference in Adjusted Means|-1.2|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.7|0.3||||||||0.3|-2.7|
82365368|NCT04179019|164440466|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||The intra-individual, paired, 24h urine aldosterone excretion rate following 2 weeks of amlodipine therapy was compared to the baseline pre-treatment 24h urine aldosterone excretion rate. The null hypothesis was that amlodipine therapy would result in no change in the 24h urine aldosterone excretion rate. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.96
82365369|NCT04179019|164440467|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||The intra-individual, paired, plasma aldosterone concentration following 2 weeks of amlodipine therapy was compared to the baseline pre-treatment aldosterone concentration. The null hypothesis was that amlodipine therapy would result in no change in the plasma aldosterone value. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.29
82365370|NCT04179019|164440468|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||The intra-individual, paired, change in plasma aldosterone concentration in response to an acute dose of amlodipine (6h post-dose) was compared to the baseline pre-treatment response to an acute dose of amlodipine. The null hypothesis was that an acute amlodipine dose would result in no acute change in the plasma aldosterone levels. Because only 2 participants completed the pilot study, the validity of the results is low.||||0.83
82365371|NCT03179163|164440469|OTHER||Mean Difference (Net)|0.01|||=|0.01|TWO_SIDED||||||ANOVA|||A priori power analysis (power = 0.80,a= 0.05) confirmed a sample size of n= 10 was needed to determine a meaningful difference of 10% in the (flux/MAP)\*logAch(mol/L) . All data were analyzed with repeated-measures ANOVA . When appropriate, post hoc Tukey-Kramer corrections were applied to correct for multiple comparisons. Significance was set a priori at a\<0.05.||||=0.01
82365372|NCT02149121|164440476|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|97.07|||||TWO_SIDED|90.0|88.08|106.99|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using analysis of covariance (ANCOVA) model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||106.99|88.08|
82365373|NCT02149121|164440476|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|94.18|||||TWO_SIDED|90.0|85.4|103.86|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||103.86|85.40|
82365374|NCT02149121|164440476|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|103.07|||||TWO_SIDED|90.0|93.32|113.85|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||113.85|93.32|
82365375|NCT02149121|164440477|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|95.81|||||TWO_SIDED|90.0|87.39|105.04|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||105.04|87.39|
82365376|NCT02149121|164440477|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|89.89|||||TWO_SIDED|90.0|81.85|98.72|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||98.72|81.85|
82444374|NCT03242018|164597430|SUPERIORITY||Difference in LS Means|-3.24|STANDARD_ERROR_OF_MEAN|2.103||0.1232|TWO_SIDED|95.0|-7.365|0.881|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.881|-7.365|0.1232
82448889|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.4425||95.0|-0.32|0.72||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q3 at Day 14||0.72|-0.32|0.4425
82575329|NCT01483144|164860335|SUPERIORITY|||||||0.8133||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.8133
82575330|NCT01483144|164860336|SUPERIORITY|||||||0.999||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.999
82643327|NCT02864953|165001882|SUPERIORITY||Mean Difference (Final Values)|0.82|||=|0.1242|TWO_SIDED|95.0|-0.23|1.87||Analysis of Variance (ANOVA) was used to compare the two study arms to assess the treatment effects on midline shift.|ANOVA|||||1.87|-0.23|=0.1242
82643328|NCT00981019|165001884|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||"Study was exploratory, thus no hypotheses had been formalized beforehand.~To analyze repeated measures outcomes (e.g., effect of the four different statistic scenarios on doctors' recommendation of screening, their judgment of screening's effectiveness, etc.), we used the McNemar chi-square test and the Wilcoxon signed-rank test.~To test for order effects (scenarios were randomly presented)Pearson's chi-square test and the Mann-Whitney U test were used."||||<0.05
82643329|NCT02262507|165001896|OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82643330|NCT00379821|165001905|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0413|STANDARD_ERROR_OF_MEAN|0.1746||0.8097|TWO_SIDED|95.0|0.7497|1.4463||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.4463|0.7497|0.8097
82643331|NCT00379821|165001905|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1623|STANDARD_ERROR_OF_MEAN|0.1973||0.3767|TWO_SIDED|95.0|0.8333|1.6211||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments.|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.6211|0.8333|0.3767
82643332|NCT00379821|165001905|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0707|STANDARD_ERROR_OF_MEAN|0.1795||0.6277|TWO_SIDED|95.0|0.7708|1.4872||The a priori threshold for statistical significance is 0.05/3.|Poisson regression|No adjustments.|The denominator for the risk ratio is the CQ Monotherapy arm.|Number of clinical malaria episodes per PYAR was compared using Poisson regression assuming null hypothesis that the number of malaria episodes are the same in both groups.||1.4872|0.7708|0.6277
82643333|NCT00379821|165001939|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|STANDARD_ERROR_OF_MEAN|0.17||0.79|TWO_SIDED|95.0|0.68|1.34||Not adjusted, 0.05|Regression, Cox|There are no adjustments.|The reference category is those who did not travel.|||1.34|0.68|0.79
82643334|NCT00902486|165001963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0619|TWO_SIDED|95.0|0.77|6.15|||Cochran-Armitage trend test||LOGISTIC regression model for odds ratio estimates : LOGIT(Response 0/1) = Treatment + Biologics|The prespecified primary analysis for ACR 20 was the Cochran-Armitage trend test looking for a dose-response relationship. The treatment effect was also assessed using a logistic regression model including background therapy (more than 8 weeks of biologics or not) and treatment.||6.15|0.77|0.0619
82643335|NCT00902486|165001963|OTHER|||||||0.1978|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 4 mg QD versus placebo.||||0.1978
82528365|NCT03315130|164752732|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.3|=|0.047|TWO_SIDED|80.0|-3.9|-0.5||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.5|-3.9|=0.0470
82528366|NCT03315130|164752732|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.3|=|0.0392|TWO_SIDED|80.0|-4.0|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-4.0|=0.0392
82643336|NCT00902486|165001963|OTHER|||||||0.0437|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 7 mg QD versus placebo.||||0.0437
82643337|NCT00902486|165001963|OTHER|||||||0.1236|||||||Fisher Exact|||Sensitivity analysis for pairwise comparisons of 10 mg QD versus placebo.||||0.1236
82643338|NCT00526227|165002020|OTHER|An exact one-sided 97% upper confidence bound or a p-value will be calculated based on the observed percentage of subjects with an USADE within the first month post-implant. This rate will be considered acceptable if the one-sided 97% upper confidence bound is less than 10% or, equivalently, if the p-value is less than 0.0304.|Percentage|7.7|||||ONE_SIDED|97.0|||||||The CI was calculated based on 44 patients at interim analysis: 0 USADE were reported within 1-month post implant, ie 0% of subjects experienced a USADE. The one-sided 97% exact binomial upper confidence bound was 7.7% which is lower than 10%.|"H 0 (null hypothesis): P ≥ 10%; H A (alternative hypothesis): P \< 10%, where P is the percentage of subjects experiencing a USADE through the 1-month post implant.~An upper limit of the confidence interval of the percentage subjects with USADE not greater than or equal to 10% at the 1-month follow-up visit provides a reasonably-sized clinical study with sufficient power to detect USADEs."||||
82643339|NCT00684645|165002039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.395|||<|0.0001|TWO_SIDED|95.0|0.257|0.609|||Cox proportional hazard|||Time to PFS was analyzed using survival analysis methodology. Model was fitted with sunitinib-induced hypertension included as a time-dependent covariate (presence versus absence of hypertension).||0.609|0.257|<0.0001
82643340|NCT00684645|165002040|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.361||||0.0221|TWO_SIDED|95.0|0.151|0.864|||Cox proportional hazard|||Time to OS was analyzed using survival analysis methodology. Model was fitted with sunitinib-induced hypertension included as a time-dependent covariate (presence versus absence of hypertension).||0.864|0.151|0.0221
82643341|NCT01186744|165002046|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Log Rank|||||||0.0008
82643342|NCT01186744|165002046|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82643343|NCT01186744|165002047|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED||||||Log Rank|||||||0.0027
82643344|NCT01186744|165002047|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82643345|NCT02547779|165002171|SUPERIORITY||Odds Ratio (OR)|0.95|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
82643346|NCT02547779|165002172|SUPERIORITY||Odds Ratio (OR)|0.98|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
82643347|NCT01461369|165002190|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-11.68|STANDARD_ERROR_OF_MEAN|3.806||0.0024|TWO_SIDED|95.0|-19.17|-4.19|||Mixed Models Analysis|||||-4.19|-19.17|0.0024
82643348|NCT01461369|165002190|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.58|STANDARD_ERROR_OF_MEAN|3.739||0.0795|TWO_SIDED|95.0|-13.94|0.78|||Mixed Models Analysis|||||0.78|-13.94|0.0795
82393307|NCT02889835|164498399|SUPERIORITY|||||||0.686|||||||Log Rank|||Kaplan-Meier analysis was performed to assess survival over 36 months. Test of survival distributions for the three arms were calculated using Log Rank (Mantel-Cox). Sample size is based on guidelines of the American Dental Association for obtaining approval as an amalgam replacement for posterior restorations - minimum of 40 restorations in a minimum of 20 subjects at 18 months. Sample size is based by taking subject attrition into account over the 36 month clinical evaluation.||||0.686
82393308|NCT02889835|164498400|SUPERIORITY|||||||0.701|||||||Kruskal-Wallis|||||||0.701
82393309|NCT02889835|164498401|SUPERIORITY|||||||0.812|||||||Kruskal-Wallis|||||||0.812
82393310|NCT02889835|164498402|SUPERIORITY|||||||0.104|||||||Kruskal-Wallis|||||||0.104
82393311|NCT02889835|164498403|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.440
82393312|NCT02889835|164498404|SUPERIORITY|||||||0.676|||||||Kruskal-Wallis|||||||0.676
82528367|NCT03315130|164752733|SUPERIORITY||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.4|=|0.017|TWO_SIDED|80.0|-8.4|-2.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-2.1|-8.4|=0.0170
82643349|NCT01461369|165002191|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-15.82|STANDARD_ERROR_OF_MEAN|3.552|<|0.0001|TWO_SIDED|95.0|-22.82|-8.83|||Mixed Models Analysis|||||-8.83|-22.82|<0.0001
82365377|NCT02149121|164440477|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|106.58|||||TWO_SIDED|90.0|97.03|117.08|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||117.08|97.03|
82393313|NCT02889835|164498405|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.000
82393314|NCT02889835|164498406|SUPERIORITY|||||||0.764|||||||Kruskal-Wallis|||||||0.764
82393315|NCT02889835|164498407|SUPERIORITY|||||||0.323|||||||Kruskal-Wallis|||||||0.323
82393316|NCT02889835|164498408|SUPERIORITY|||||||0.714|||||||Kruskal-Wallis|||||||0.714
82528368|NCT03315130|164752733|SUPERIORITY||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|2.4|=|0.0624|TWO_SIDED|80.0|-6.9|-0.6||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-0.6|-6.9|=0.0624
82528369|NCT03315130|164752734|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.2|=|0.1866|TWO_SIDED|80.0|-4.9|0.9||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||0.9|-4.9|=0.1866
82643350|NCT01461369|165002191|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.8|STANDARD_ERROR_OF_MEAN|3.481||0.0052|TWO_SIDED|95.0|-16.66|-2.95|||Mixed Models Analysis|||||-2.95|-16.66|0.0052
82393317|NCT02889835|164498409|SUPERIORITY|||||||0.846|||||||Kruskal-Wallis|||||||0.846
82393318|NCT02889835|164498410|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.000
82393319|NCT02889835|164498411|SUPERIORITY|||||||0.424|||||||Kruskal-Wallis|||||||0.424
82393320|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.1|||<|0.001|TWO_SIDED|95.0|-3.3|3.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 1||3.0|-3.3|< 0.001
82393321|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|24.2|||<|0.001|TWO_SIDED|95.0|18.7|30.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar|Type 3||30.0|18.7|< 0.001
82393322|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|3.0|||<|0.001|TWO_SIDED|95.0|0.0|6.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 4||6.4|0.0|< 0.001
82393323|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.5|||<|0.001|TWO_SIDED|95.0|-3.9|2.8|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 5||2.8|-3.9|< 0.001
82393324|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-5.6|||<|0.001|TWO_SIDED|95.0|-10.0|-1.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 6A||-1.6|-10.0|< 0.001
82393325|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-5.7|4.0|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 6B||4.0|-5.7|< 0.001
82393326|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.7|||<|0.001|TWO_SIDED|95.0|-1.1|2.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 7F||2.7|-1.1|< 0.001
82393327|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.3|||<|0.001|TWO_SIDED|95.0|-1.9|4.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 9V||4.6|-1.9|< 0.001
82393328|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.0|||<|0.001|TWO_SIDED|95.0|-0.2|4.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 14||4.7|-0.2|< 0.001
82393329|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.2|||<|0.001|TWO_SIDED|95.0|-2.1|4.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 18C||4.7|-2.1|< 0.001
82393330|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.9|2.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 19A||2.6|-1.9|< 0.001
82393331|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.0|1.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 19F||1.9|-1.0|< 0.001
82393332|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.8|||<|0.001|TWO_SIDED|95.0|-2.9|6.5|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 1 minus Percentage Prevnar 13™|Type 23F||6.5|-2.9|< 0.001
82643351|NCT01461369|165002192|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.43|STANDARD_ERROR_OF_MEAN|3.776||0.0011|TWO_SIDED|95.0|-19.87|-4.99|||Mixed Models Analysis|||||-4.99|-19.87|0.0011
82393333|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.9|||<|0.001|TWO_SIDED|95.0|-2.0|3.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 1||3.9|-2.0|< 0.001
82393334|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|22.3|||<|0.001|TWO_SIDED|95.0|16.5|28.3|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 3||28.3|16.5|< 0.001
82393335|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|1.9|||<|0.001|TWO_SIDED|95.0|-1.4|5.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 4||5.4|-1.4|< 0.001
82393336|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.6|||<|0.001|TWO_SIDED|95.0|-4.1|2.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 5||2.7|-4.1|< 0.001
82528370|NCT03315130|164752734|SUPERIORITY||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.2|=|0.0391|TWO_SIDED|80.0|-7.0|-1.1||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-1.1|-7.0|=0.0391
82393337|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.6|||<|0.001|TWO_SIDED|95.0|-4.2|2.8|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 6A||2.8|-4.2|< 0.001
82393338|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.9|||<|0.001|TWO_SIDED|95.0|-3.7|5.6|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 6B||5.6|-3.7|< 0.001
82643352|NCT01461369|165002192|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.56|STANDARD_ERROR_OF_MEAN|3.707||0.1349|TWO_SIDED|95.0|-12.86|1.74|||Mixed Models Analysis|||||1.74|-12.86|0.1349
82393339|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.3|||<|0.001|TWO_SIDED|95.0|-1.7|2.4|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 7F||2.4|-1.7|< 0.001
82448890|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.4795|TWO_SIDED|95.0|-0.71|0.34|||ANCOVA|||Comparison of Q3 at Day 14||0.34|-0.71|0.4795
82528371|NCT03315130|164752738|SUPERIORITY||LS Mean Difference|-82.597|STANDARD_ERROR_OF_MEAN|3.563|<|0.0001|TWO_SIDED|80.0|-87.249|-77.946||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-77.946|-87.249|<0.0001
82393340|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.0|||<|0.001|TWO_SIDED|95.0|-1.1|5.2|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 9V||5.2|-1.1|< 0.001
82393341|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|0.2|||<|0.001|TWO_SIDED|95.0|-2.8|3.1|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 14||3.1|-2.8|< 0.001
82393342|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|2.6|||<|0.001|TWO_SIDED|95.0|-0.3|5.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 18C||5.9|-0.3|< 0.001
82393343|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.1|||<|0.001|TWO_SIDED|95.0|-2.5|2.2|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 19A||2.2|-2.5|< 0.001
82393344|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-2.9|0.9|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 19F||0.9|-2.9|< 0.001
82393345|NCT02987972|164498427|NON_INFERIORITY|Statistical criterion for non-inferiority corresponds to the lower bound of the adjusted 95% CI of the proportion difference (V114 minus Prevnar 13™) being greater than -0.15 for each of the 13 shared serotypes.|Difference in Percentages|4.2|||<|0.001|TWO_SIDED|95.0|-0.1|8.7|||Miettinen and Nurminen||Difference in Response Rate calculated as Percentage V114 Lot 2 minus Percentage Prevnar 13™|Type 23F||8.7|-0.1|< 0.001
82393346|NCT02987972|164498428|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on analysis of variance (ANOVA) model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.81|0.64|
82528372|NCT03315130|164752738|SUPERIORITY||LS Mean Difference|-95.689|STANDARD_ERROR_OF_MEAN|3.91|<|0.0001|TWO_SIDED|80.0|-100.794|-90.585||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||-90.585|-100.794|<0.0001
82643353|NCT01461369|165002193|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-13.24|STANDARD_ERROR_OF_MEAN|3.377||0.0001|TWO_SIDED|95.0|-19.89|-6.59|||ANCOVA|||||-6.59|-19.89|0.0001
82643354|NCT01461369|165002193|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.48|STANDARD_ERROR_OF_MEAN|3.313||0.0248|TWO_SIDED|95.0|-14.0|-0.96|||ANCOVA|||||-0.96|-14.00|0.0248
82643355|NCT01461369|165002194|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.63|STANDARD_ERROR_OF_MEAN|3.396||0.0002|TWO_SIDED|95.0|-19.32|-5.94|||ANCOVA|||||-5.94|-19.32|0.0002
82643356|NCT01461369|165002194|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.03|STANDARD_ERROR_OF_MEAN|3.339||0.0363|TWO_SIDED|95.0|-13.6|-0.45|||ANCOVA|||||-0.45|-13.60|0.0363
82643357|NCT01461369|165002195|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.38|STANDARD_ERROR_OF_MEAN|3.441||0.0028|TWO_SIDED|95.0|-17.16|-3.6|||ANCOVA|||||-3.60|-17.16|0.0028
82393347|NCT02987972|164498428|OTHER||GMC Ratio|1.98|||||TWO_SIDED|95.0|1.75|2.23|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.23|1.75|
82528373|NCT03315130|164752739|SUPERIORITY||LS Mean Difference|60.123|STANDARD_ERROR_OF_MEAN|9.394|<|0.0001|TWO_SIDED|80.0|47.839|72.408||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||72.408|47.839|<0.0001
82643358|NCT01461369|165002195|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.46|STANDARD_ERROR_OF_MEAN|3.385||0.1081|TWO_SIDED|95.0|-12.13|1.21|||ANCOVA|||||1.21|-12.13|0.1081
82643359|NCT01612780|165002242|SUPERIORITY||||||<|0.0001||||||Values of p \<0.05 were deemed statistically significant.|t-test, 2 sided|||Study sample size was established to test the hypothesis that the mean SNOT-20 score is reduced by at least 0.8 points from baseline to 1 year post procedure. Using this delta, a 1-sided alpha of 0.25, and 90% power, a sample size of 19 participants was adequate to test the hypothesis.||||<0.0001
82643360|NCT03359473|165002272|OTHER||Mean Difference (Net)|4.53|||||TWO_SIDED|90.0|-1.3|10.36|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||10.36|-1.30|
82643361|NCT03359473|165002272|OTHER||Mean Difference (Net)|7.8|||||TWO_SIDED|90.0|0.83|14.76|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||14.76|0.83|
82643362|NCT03359473|165002273|OTHER||Mean Difference (Net)|16.71|||||TWO_SIDED|90.0|9.86|23.56|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||23.56|9.86|
82643363|NCT03359473|165002273|OTHER||Mean Difference (Net)|5.35|||||TWO_SIDED|90.0|-4.09|14.78|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||14.78|-4.09|
82643364|NCT03359473|165002274|OTHER||Mean Difference (Net)|5.17|||||TWO_SIDED|90.0|-4.67|15.01|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||15.01|-4.67|
82528374|NCT03315130|164752739|SUPERIORITY||LS Mean Difference|57.076|STANDARD_ERROR_OF_MEAN|9.269|<|0.0001|TWO_SIDED|80.0|44.955|69.197||1-sided p-value is presented for each active treatment arm compared to the Placebo treatment arm.|ANCOVA||LS mean difference and associated confidence interval are presented for each active treatment arm compared to the Placebo treatment arm.|||69.197|44.955|<0.0001
82365378|NCT02149121|164440478|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|94.92|||||TWO_SIDED|90.0|89.61|100.55|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||100.55|89.61|
82365379|NCT02149121|164440478|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|89.0|||||TWO_SIDED|90.0|84.01|94.28|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||94.28|84.01|
82365380|NCT02149121|164440478|EQUIVALENCE|The equivalence of PK was to be concluded if the 90% CI for the ratio of geometric means in AUC0-last, AUC0-inf, and Cmax was entirely contained within the PK equivalence bounds of 80% and 125% for the following comparisons: CT-P10 versus Rituxan, CT-P10 versus MabThera, and Rituxan versus MabThera.|Ratio of geometric least squares means|106.66|||||TWO_SIDED|90.0|100.56|113.13|||||Point estimates (geometric least squares means and ratios of geometric means) were calculated by back-transforming the least squares means.|Primary PK analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, prior anti TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.||113.13|100.56|
82365381|NCT02149121|164440479|EQUIVALENCE|Therapeutic equivalence was to be concluded if the 90% CI for the treatment difference in the change from baseline of DAS28 (CRP) at Week 24 was entirely within the equivalence margin of ±0.50.|Mean Difference (Final Values)|-0.01|||||TWO_SIDED|90.0|-0.22|0.2|||||Adjusted least squares means and standard error, estimate of treatment difference \[CT-P10 - (Rituxan + MabThera)\] and 2-sided 90% confidence interval calculated from the ANCOVA model.|Primary efficacy analysis were analyzed using an ANCOVA model with treatment group as a fixed effect and gender, region, race, study part, interaction of treatment group with study part, prior anti TNF alpha blocker status at baseline (intolerance case versus inadequate response), and RF or anti-CCP status fitted as covariates.||0.20|-0.22|
82365382|NCT02149121|164440484|OTHER||Ratio of geometric least squares means|102.37|||||TWO_SIDED|95.0|92.46|113.33||||||Secondary PD analysis were analyzed using an ANCOVA model with results as the response, treatment group, as fixed effect and baseline values, gender, region, race, study part, interaction of treatment group with study part, prior anti-TNF alpha blocker status, and RF or anti-CCP status fitted as covariates.|Estimate of Geometric Least Square Mean and ratio of Geometric Least Square Means (CT-P10/reference products) were obtained from back transforming the least square means from the ANCOVA.|113.33|92.46|
82365383|NCT03166124|164440485|SUPERIORITY||Ratio of Geometric LSMeans|1.02|||||TWO_SIDED|95.0|0.953|1.1|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.10|0.953|
82365384|NCT03166124|164440485|SUPERIORITY||Ratio of Geometric LSMeans|1.03|||||TWO_SIDED|95.0|0.974|1.09|||Mixed Models Analysis|||Geometric Least Squares Means (LSMeans) were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.09|0.974|
82528375|NCT00552786|164752746|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two-sided|ANOVA|Assessing the bioequivalence on temporary threshold shift at3k,4k,6k Hz between NAC and Placebo was carried out using ANOVA for 2×2 crossover design.||||||<0.05
82643365|NCT03359473|165002274|OTHER||Mean Difference (Net)|7.02|||||TWO_SIDED|90.0|0.46|13.58|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||13.58|0.46|
82365385|NCT03166124|164440486|SUPERIORITY||Ratio of Geometric LSMeans|1.04|||||TWO_SIDED|95.0|0.96|1.12|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.12|0.96|
82365386|NCT03166124|164440486|SUPERIORITY||Ratio of Geometric LSMeans|1.02|||||TWO_SIDED|95.0|0.94|1.1|||Mixed Models Analysis|||Geometric LSMeans were controlled for injection site, study period, and sequence as fixed effects, and subject within sequence as a random effect.||1.10|0.94|
82365387|NCT00788593|164440488|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|1.023||||0.228|TWO_SIDED|95.0|-0.656|2.701|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) was based on LS mean from analysis of covariance (ANCOVA) which included participant as random effect, treatment, period and sequence as fixed effects, and placebo baseline CFA value as covariate.||2.701|-0.656|0.228
82528376|NCT00552786|164752747|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|Assessing the bioequivalence on temporary threshold shift at 3k,4k,6k Hz between NAC and Placebo was carried out using ANOVA for 2×2 crossover design.||||||<0.05
82575331|NCT01483144|164860336|SUPERIORITY|||||||0.2152||||||The threshold for significance was p=0.05|Mantel Haenszel|||||||0.2152
82643366|NCT03359473|165002275|OTHER||Mean Difference (Net)|5.9|||||TWO_SIDED|90.0|-1.4|13.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||13.2|-1.4|
82643367|NCT03359473|165002275|OTHER||Mean Difference (Net)|13.5|||||TWO_SIDED|90.0|1.6|25.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||25.5|1.6|
82643368|NCT03359473|165002276|OTHER||Mean Difference (Net)|20.7|||||TWO_SIDED|90.0|10.1|31.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||31.2|10.1|
82393348|NCT02987972|164498428|OTHER||GMC Ratio|1.04|||||TWO_SIDED|95.0|0.92|1.16|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.16|0.92|
82575332|NCT04307940|164860339|SUPERIORITY||LS Mean Difference|14.81||||0.001|TWO_SIDED|95.0|6.1|23.51||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||23.51|6.10|0.001
82643369|NCT03359473|165002276|OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|90.0|-11.1|25.8|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||25.8|-11.1|
82643370|NCT03359473|165002277|OTHER||Mean Difference (Net)|8.0|||||TWO_SIDED|90.0|-2.5|18.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||18.4|-2.5|
82643371|NCT03359473|165002277|OTHER||Mean Difference (Net)|11.8|||||TWO_SIDED|90.0|-0.5|24.0|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline leg press strength, with Day as the repeated factor.|||24.0|-0.5|
82643372|NCT03359473|165002278|OTHER||Mean Difference (Net)|0.882|||||TWO_SIDED|90.0|0.643|1.121|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.121|0.643|
82643373|NCT03359473|165002278|OTHER||Mean Difference (Net)|0.291|||||TWO_SIDED|90.0|-0.156|0.738|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||0.738|-0.156|
82643374|NCT03359473|165002279|OTHER||Mean Difference (Net)|0.982|||||TWO_SIDED|90.0|0.629|1.334|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.334|0.629|
82643375|NCT03359473|165002279|OTHER||Mean Difference (Net)|1.127|||||TWO_SIDED|90.0|0.682|1.571|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.571|0.682|
82643376|NCT03359473|165002280|OTHER||Mean Difference (Net)|1.38|||||TWO_SIDED|90.0|0.964|1.795|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.795|0.964|
82643377|NCT03359473|165002280|OTHER||Mean Difference (Net)|1.124|||||TWO_SIDED|90.0|0.594|1.654|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline appendicular lean mass, with Day as the repeated factor.|||1.654|0.594|
82643378|NCT03359473|165002281|OTHER||Mean Difference (Net)|1.167|||||TWO_SIDED|90.0|0.677|1.658|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||1.658|0.677|
82643379|NCT03359473|165002281|OTHER||Mean Difference (Net)|0.923|||||TWO_SIDED|90.0|0.222|1.623|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||1.623|0.222|
82575333|NCT04307940|164860339|SUPERIORITY||LS Mean Difference|39.63|||<|0.001|TWO_SIDED|95.0|29.08|50.18||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||50.18|29.08|<0.001
82643380|NCT03359473|165002282|OTHER||Mean Difference (Net)|2.085|||||TWO_SIDED|90.0|1.493|2.678|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.678|1.493|
82643381|NCT03359473|165002282|OTHER||Mean Difference (Net)|1.7|||||TWO_SIDED|90.0|0.801|2.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.600|0.801|
82643382|NCT03359473|165002283|OTHER||Mean Difference (Net)|2.108|||||TWO_SIDED|90.0|1.271|2.945|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||2.945|1.271|
82575334|NCT04307940|164860339|SUPERIORITY||LS Mean Difference|24.82|||<|0.001|TWO_SIDED|95.0|14.26|35.39||All p-values were presented using two-sided test with alpha 0.05 and were considered statistically significant.|ANCOVA|||||35.39|14.26|<0.001
82643383|NCT03359473|165002283|OTHER||Mean Difference (Net)|2.113|||||TWO_SIDED|90.0|0.949|3.277|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline total lean mass, with Day as the repeated factor.|||3.277|0.949|
82643384|NCT03359473|165002284|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.6|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.6|
82643385|NCT03359473|165002284|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.4|0.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.5|-0.4|
82643386|NCT03359473|165002285|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|90.0|-0.6|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.6|
82643387|NCT03359473|165002285|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|90.0|-0.2|0.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.9|-0.2|
82365388|NCT00788593|164440489|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82365389|NCT00788593|164440489|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82365390|NCT00788593|164440490|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82365391|NCT00788593|164440490|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82365392|NCT00515034|164440494|NON_INFERIORITY_OR_EQUIVALENCE|Percent of participants who are clinically cured including 95% confidence intervals are provided.|Risk Difference (RD)|-13.8|||||TWO_SIDED|95.0|-54.4|26.8|||normal approximation to the binomial||Treatment difference (doripenem minus imipenem/cilastatin) in percent of participants who are clinically cured.|There is no formal hypothesis test for this outcome. Only summary data are provided.||26.8|-54.4|
82393349|NCT02987972|164498428|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.89|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.89|0.68|
82393350|NCT02987972|164498428|OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.47|0.63|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.63|0.47|
82444375|NCT03242018|164597430|SUPERIORITY||Difference in LS Means|-5.36|STANDARD_ERROR_OF_MEAN|2.077||0.0098|TWO_SIDED|95.0|-9.433|-1.292|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.292|-9.433|0.0098
82575335|NCT01810939|164860370|SUPERIORITY_OR_OTHER_LEGACY||Proportion|0.76|||||TWO_SIDED|95.0|0.7|0.81||||||||0.81|0.7|
82643388|NCT03359473|165002286|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|90.0|-0.4|0.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.9|-0.4|
82643389|NCT03359473|165002286|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|90.0|-0.5|0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline SPPB total score, with Day as the repeated factor.|||0.6|-0.5|
82643390|NCT03359473|165002287|OTHER||Mean Difference (Net)|-0.553|||||TWO_SIDED|90.0|-2.082|0.977|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.977|-2.082|
82643391|NCT03359473|165002287|OTHER||Mean Difference (Net)|-0.073|||||TWO_SIDED|90.0|-0.977|0.832|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.832|-0.977|
82643392|NCT03359473|165002288|OTHER||Mean Difference (Net)|-0.816|||||TWO_SIDED|90.0|-2.252|0.619|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.619|-2.252|
82643393|NCT03359473|165002288|OTHER||Mean Difference (Net)|0.163|||||TWO_SIDED|90.0|-1.096|1.422|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||1.422|-1.096|
82643394|NCT03359473|165002289|OTHER||Mean Difference (Net)|-0.96|||||TWO_SIDED|90.0|-2.668|0.748|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||0.748|-2.668|
82643395|NCT03359473|165002289|OTHER||Mean Difference (Net)|-1.937|||||TWO_SIDED|90.0|-5.208|1.333|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline time for chair rise, with Day as the repeated factor.|||1.333|-5.208|
82643396|NCT03359473|165002290|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|90.0|-0.314|0.233|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.233|-0.314|
82643397|NCT03359473|165002290|OTHER||Mean Difference (Net)|0.058|||||TWO_SIDED|90.0|-0.209|0.324|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.324|-0.209|
82643398|NCT03359473|165002291|OTHER||Mean Difference (Net)|-0.287|||||TWO_SIDED|90.0|-0.65|0.077|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.077|-0.650|
82444376|NCT03242018|164597431|SUPERIORITY||Percent Difference|-20.37||||0.222|TWO_SIDED|95.0|-44.75|14.77|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and log-transformed baseline UACR as a covariate.||14.77|-44.75|0.222
82575336|NCT01810939|164860371|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mantel Haenszel|||Test for difference between treatment groups in proportion with serum potassium ≥ 5.5 mEq/L||||<0.001
82643399|NCT03359473|165002291|OTHER||Mean Difference (Net)|-0.191|||||TWO_SIDED|90.0|-0.534|0.152|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.152|-0.534|
82643400|NCT03359473|165002292|OTHER||Mean Difference (Net)|-0.012|||||TWO_SIDED|90.0|-0.555|0.532|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.532|-0.555|
82643401|NCT03359473|165002292|OTHER||Mean Difference (Net)|-0.231|||||TWO_SIDED|90.0|-0.541|0.08|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline Time for fastest walk for 4 meter, with Day as the repeated factor.|||0.080|-0.541|
82643402|NCT03359473|165002293|OTHER||Difference in Least Square Means|11.1|||||TWO_SIDED|90.0|-57.1|79.2|||||Analysis was performed by ANCOVA model with Baseline CWR duration as the covariate adjusting for the treatment.|||79.2|-57.1|
82643403|NCT03359473|165002293|OTHER||Difference in Least Square Means|-149.3|||||TWO_SIDED|90.0|-280.6|-18.1|||||Analysis was performed by ANCOVA model with Baseline CWR duration as the covariate adjusting for the treatment.|||-18.1|-280.6|
82393351|NCT02987972|164498428|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.84|1.26|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.26|0.84|
82393352|NCT02987972|164498428|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.92|0.73|
82575337|NCT01810939|164860372|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mantel Haenszel|||Test for difference between treatment groups in proportion with serum potassium ≥ 5.1 mEq/L||||<0.001
82365393|NCT00515034|164440495|NON_INFERIORITY_OR_EQUIVALENCE|Percent of participants who are clinically cured including 95% confidence intervals are provided.|Risk Difference (RD)|18.7|||||TWO_SIDED|95.0|-13.2|50.6|||normal approximation to binomial||Treatment difference (doripenem minus imipenem) in percent of participants who are clinically cured.|There is no formal hypothesis test for this outcome. Only summary data are presented.||50.6|-13.2|
82365394|NCT02858726|164440496|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.8|-2.8|<0.001
82365395|NCT02858726|164440496|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.107|TWO_SIDED|95.0|-1.9|0.2|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||0.2|-1.9|0.107
82365396|NCT02858726|164440496|SUPERIORITY||Median Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.5||0.019|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.2|-2.3|0.019
82365397|NCT02858726|164440497|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-16.0|-4.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-4.8|-16.0|<0.001
82365398|NCT02858726|164440497|SUPERIORITY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|3.0||0.016|TWO_SIDED|95.0|-13.1|-1.4|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-1.4|-13.1|0.016
82365399|NCT02858726|164440497|SUPERIORITY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.0||0.026|TWO_SIDED|95.0|-12.8|-0.8|||Mixed Models Analysis|MMRM with effects for treatment, visit, treatment by visit interaction, and covariates for prior anti-itch medication usage and baseline score.||||-0.8|-12.8|0.026
82365400|NCT02508259|164440508|EQUIVALENCE|The null hypothesis was that before and after treatment ADOS scores were equivalent.|Mean Difference (Net)|-1.6|STANDARD_DEVIATION|0.55||0.0028|TWO_SIDED|95.0|-2.3|-0.9|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.9|-2.3|0.0028
82365401|NCT02508259|164440509|EQUIVALENCE|The child-specific difference in EOWPVT scores were compared for equivalence before and 6-weeks after suramin treatment|Mean Difference (Net)|-4.2|STANDARD_DEVIATION|8.3||0.32|TWO_SIDED|95.0|-14.5|6.1|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||6.1|-14.5|0.32
82528377|NCT03549234|164752754|NON_INFERIORITY|"We tested the noninferiority of ESPB compared to PVB (paravertebral block) using the 95% confidence interval (CI) associated with the Wilcoxon-Mann-Whitney Exact test. If the lower limit of the 95% CI for median average recovery room pain scores was greater than -1.25 (based on PVB minus ESPB), we concluded noninferiority. The noninferiority of ESPBs with regard to opioid consumption was similarly tested with a predefined noninferiority margin of 2 mg intravenous morphine equivalents."||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||We hypothesized that 1) analgesia would be noninferior in the recovery room as measured on a Numeric Rating Scale with ESPB (erector spinae plane block), and 2) opioid consumption would be noninferior in the operating and recovery rooms with ESPB. We simulated pain scores from a discrete distribution with median (interquartile range) 2 (0-3). The sample size of 50 per group provided 81% power to detect noninferiority in pain.||||0.0011
82528378|NCT03549234|164752755|NON_INFERIORITY|"We tested the noninferiority of ESPB compared to PVB using the 95% confidence interval (CI) associated with the Wilcoxon-Mann-Whitney Exact test. If the lower limit of the 95% CI for median average recovery room pain scores was greater than -1.25 (based on PVB minus ESPB), we concluded noninferiority. The noninferiority of ESPBs with regard to opioid consumption was similarly tested with a predefined noninferiority margin of 2 mg intravenous morphine equivalents."||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||||||0.0043
82575338|NCT01810939|164860373|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Longitudinal mixed models|Test that the mean change is significantly different from zero.||Estimation of mean change in serum potassium from Part A Baseline to Part A Week 4 and test mean change different from zero.||||<0.001
82365402|NCT02508259|164440510|EQUIVALENCE|In this analysis, the null hypothesis was tested that the child-specific ABC subscores for stereotypy were unchanged before and after suramin treatment.|Mean Difference (Net)|-4.0|STANDARD_DEVIATION|2.3||0.019|TWO_SIDED|95.0|-6.9|-1.1|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-1.1|-6.9|0.019
82393353|NCT02987972|164498428|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.77|1.0|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||1.00|0.77|
82393354|NCT02987972|164498428|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.03|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||1.03|0.75|
82448891|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.1375|TWO_SIDED|95.0|-0.13|0.9||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q3 at Day 14||0.90|-0.13|0.1375
82393355|NCT02987972|164498428|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.66|0.84|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||0.84|0.66|
82393356|NCT02987972|164498428|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.92|0.73|
82393357|NCT02987972|164498428|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on analysis of variance (ANOVA) model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.98|0.79|
82393358|NCT02987972|164498428|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.13|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.13|0.84|
82393359|NCT02987972|164498428|OTHER||GMC Ratio|92.05|||||TWO_SIDED|95.0|80.84|104.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||104.81|80.84|
82393360|NCT02987972|164498428|OTHER||GMC Ratio|34.41|||||TWO_SIDED|95.0|28.5|41.54|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||41.54|28.50|
82393361|NCT02987972|164498428|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.74|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.94|0.74|
82393362|NCT02987972|164498428|OTHER||GMC Ratio|1.93|||||TWO_SIDED|95.0|1.71|2.18|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.18|1.71|
82393363|NCT02987972|164498428|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.14|0.90|
82393364|NCT02987972|164498428|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.94|0.72|
82393365|NCT02987972|164498428|OTHER||GMC Ratio|0.57|||||TWO_SIDED|95.0|0.49|0.66|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.66|0.49|
82528379|NCT02019563|164752767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34||||0.15|TWO_SIDED|95.0|0.08|1.49|||Chi-squared|||Radiographic outcomes were compared using univariate repeated measures logistic regression. A binary logistic generalized estimating equation model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups.||1.49|.08|.15
82643404|NCT03359473|165002294|OTHER||Difference in Least Square Means|-6.7|||||TWO_SIDED|90.0|-42.7|29.2|||||Analysis was performed by ANCOVA model with Baseline peak performance as the covariate adjusting for the treatment.|||29.2|-42.7|
82393366|NCT02987972|164498428|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.1|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.10|0.74|
82393367|NCT02987972|164498428|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.72|0.91|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.91|0.72|
82393368|NCT02987972|164498428|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.94|1.22|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||1.22|0.94|
82528380|NCT02019563|164752768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.38|TWO_SIDED|95.0|0.19|1.89|||Chi-squared|||Radiographic outcomes were compared using univariate repeated measures logistic regression. A binary logistic generalized estimating equation model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups.||1.89|.19|.38
82575339|NCT01810939|164860374|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Test for difference between treatment groups in serum potassium change in Part B||||< 0.001
82393369|NCT02987972|164498428|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.71|0.97|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.97|0.71|
82643405|NCT03359473|165002294|OTHER||Difference in Least Square Means|-34.8|||||TWO_SIDED|90.0|-72.0|2.4|||||Analysis was performed by ANCOVA model with Baseline peak performance as the covariate adjusting for the treatment.|||2.4|-72.0|
82393370|NCT02987972|164498428|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.88|1.12|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.12|0.88|
82393371|NCT02987972|164498428|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.73|0.92|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.92|0.73|
82393372|NCT02987972|164498428|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.81|1.01|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.01|0.81|
82393373|NCT02987972|164498428|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.01|1.37|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.37|1.01|
82393374|NCT02987972|164498428|OTHER||GMC Ratio|80.09|||||TWO_SIDED|95.0|70.3|91.24|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||91.24|70.30|
82393375|NCT02987972|164498428|OTHER||GMC Ratio|32.92|||||TWO_SIDED|95.0|27.25|39.78|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||39.78|27.25|
82393376|NCT02987972|164498429|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-3.1|3.2||||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||3.2|-3.1|
82393377|NCT02987972|164498429|OTHER||Difference in Percentages|2.0|||||TWO_SIDED|95.0|-0.7|5.0||||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||5.0|-0.7|
82575340|NCT00709228|164860378|SUPERIORITY_OR_OTHER||simple proportion|0.097|||||TWO_SIDED|95.0|0.06|0.15||||||||0.15|0.06|
82365403|NCT02508259|164440511|EQUIVALENCE|In this analysis, we tested the equivalence of the child-specific ATEC subscore for language before and 6-weeks after treatment with suramin.|Mean Difference (Net)|-2.0|STANDARD_DEVIATION|1.4||0.034|TWO_SIDED|95.0|-2.7|-0.49|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.49|-2.7|0.034
82365404|NCT02508259|164440512|EQUIVALENCE|In this analysis, overall ASD symptom scores, measured by CGI were compared between suramin and placebo groups.|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|1.04||0.05|TWO_SIDED|95.0|-3.4|-0.15|||ANOVA|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||-0.15|-3.4|0.05
82365405|NCT02508259|164440513|EQUIVALENCE|In this analysis, the child-specific RBQ score was tested for equivalence before and 6-weeks after suramin treatment.|Mean Difference (Net)|-3.2|STANDARD_DEVIATION|5.8||0.28|TWO_SIDED|95.0|-10.4|4.0|||t-test, 2 sided|||In this analysis, each child was used as their own control to examine before and after suramin treatment effects in a paired t-test design. This study was a small pilot study of safety and activity of suramin. The small subject numbers of just 5 per group make it impossible to draw any strong conclusions about efficacy. Future studies are required.||4.0|-10.4|0.28
82365406|NCT01036490|164440521|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82365407|NCT01036490|164440522|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
82365408|NCT01036490|164440525|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
82365409|NCT01036490|164440526|SUPERIORITY_OR_OTHER|||||||0.58|||||||t-test, 2 sided|||||||0.58
82365410|NCT01131299|164440575|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||The minimum sample size to detect an 8 mg/dl change in total plasma cholesterol between the placebo and alpha cyclodextrin periods is 62 subjects. The power is 80% by using the normal approximation to a one-sample (paired) two-tail t-test at an alpha of 0.05.||||0.82
82365411|NCT01131299|164440576|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82365412|NCT01131299|164440577|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82365413|NCT01131299|164440578|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82365414|NCT00118378|164440631|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||< 0.001
82528381|NCT02019563|164752769|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Fisher Exact|||A binary logistic generalized estimating equation (GEE) model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups for radiographic and clinical outcomes.||||.51
82365415|NCT00118378|164440632|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.001
82643406|NCT03359473|165002295|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|90.0|-2.6|1.9|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||1.9|-2.6|
82365416|NCT00118378|164440633|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|95.0|||||ANOVA|||Week 4 CD4 cell count||||.150
82365417|NCT00118378|164440634|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED|95.0|||||ANOVA|||||||.459
82365418|NCT01252719|164440635|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population was greater than -10%, the NI of oritavancin to vancomycin was concluded.|Difference in Proportions|-0.4|||||TWO_SIDED|95.0|-5.5|4.7||||||||4.7|-5.5|
82365419|NCT01252719|164440636|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% confidence interval (CI) for the difference in response rates in the mITT population was greater than -10% the non-inferiority (NI) of oritavancin to vancomycin was concluded.|Difference in Proportions|3.4|||||TWO_SIDED|95.0|-1.6|8.4||||||||8.4|-1.6|
82365420|NCT01252719|164440637|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test was a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population was greater than -10% the NI of oritavancin to vancomycin was concluded.|Difference in Proportions|4.1|||||TWO_SIDED|95.0|-0.5|8.6||||||||8.6|-0.5|
82365421|NCT01287039|164440661|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.501|||<|0.0001|TWO_SIDED|95.0|0.3726|0.6737||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.6737|0.3726|<0.0001
82365422|NCT01287039|164440662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.137|STANDARD_ERROR_OF_MEAN|0.0311|<|0.0001|TWO_SIDED|95.0|0.076|0.198|||Mixed Model Repeated Measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.198|0.076|<0.0001
82393378|NCT02987972|164498430|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-0.8|1.6||||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||1.6|-0.8|
82393379|NCT02987972|164498430|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-0.8|1.6||||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™. Confidence intervals based on Miettinen and Nurminen method.||1.6|-0.8|
82393380|NCT02987972|164498431|OTHER||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-0.3|12.8|||||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™.|||12.8|-0.3|
82365423|NCT01287039|164440663|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.0967||0.0143|TWO_SIDED|95.0|0.048|0.428|||Mixed model repeated measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.428|0.048|0.0143
82365424|NCT01287039|164440664|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.0681||0.0001|TWO_SIDED|95.0|-0.399|-0.132|||Mixed model repeated measures|||For each week and overall change, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment and sex as fixed factors, and covariates for height and baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||-0.132|-0.399|0.0001
82365425|NCT01287039|164440665|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.575|||<|0.0001|TWO_SIDED|95.0|0.44|0.75|||Regression, Cox|Stratified by baseline usage of oral corticosteroid (yes or no) and geographical region (US or other).|Reslizumab vs placebo|Kaplan-Meier estimate of probability (5) of not experiencing a CAE by week 52. The first CAEs for each patient occurring after randomization and up to 2 weeks after the end of treatment period were analyzed. Patients without a CAE within this time frame were censored at two weeks after the treatment completion date or study discontinuation, whichever came first.||0.750|0.440|<0.0001
82365426|NCT01287039|164440666|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.0125|<|0.0001|TWO_SIDED|95.0|0.034|0.083|||Mixed model repeated measures|||For each week, inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.083|0.034|<0.0001
82365427|NCT01287039|164440667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.1632||0.0919|TWO_SIDED|95.0|-0.597|0.045|||Mixed model repeated measures|||Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, OCS use at enrollment as fixed factors, and covariate for baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures.||0.045|-0.597|0.0919
82365428|NCT01287039|164440668|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.466|STANDARD_ERROR_OF_MEAN|0.0244|<|0.0001|TWO_SIDED|95.0|-0.514|-0.418|||Mixed model repeated measures|||"Eosinophil Count Over 16 Weeks~Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures."||-0.418|-0.514|<0.0001
82365429|NCT01287039|164440668|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.455|STANDARD_ERROR_OF_MEAN|0.0182|<|0.0001|TWO_SIDED|95.0|-0.491|-0.419|||Mixed model repeated measures|||"Eosinophil Count Over 52 Weeks~Inferential statistics were from mixed model repeated measures (MMRM) with treatment, visit, treatment by visit interaction, region, oral glucocorticosteroids use at enrollment as fixed factor, and covariate baseline value and patient as a random effect. Unstructured covariance structure was assumed for the repeated measures."||-0.419|-0.491|<0.0001
82393381|NCT02987972|164498431|OTHER||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-0.2|12.9|||||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™.|||12.9|-0.2|
82393382|NCT02987972|164498432|OTHER||Difference in Percentages|0.7||||0.772|TWO_SIDED|95.0|-3.9|5.2|||Miettinen and Nurminen||Difference in percentages calculated as V114 Lot 1 minus Prevnar 13™.|||5.2|-3.9|0.772
82393383|NCT02987972|164498432|OTHER||Difference in Percentages|2.6||||0.235|TWO_SIDED|95.0|-1.7|7.0|||Miettinen and Nurminen||Difference in percentages calculated as V114 Lot 2 minus Prevnar 13™.|||7.0|-1.7|0.235
82528382|NCT02019563|164752770|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Fisher Exact|||A binary logistic generalized estimating equation (GEE) model was used to analyze predictor variables such as age, gender, tooth and treatment provider between the treatment groups for radiographic and clinical outcomes.||||.64
82393384|NCT02987972|164498433|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.62|0.76|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.76|0.62|
82393385|NCT02987972|164498433|OTHER||GMC Ratio|2.0|||||TWO_SIDED|95.0|1.75|2.28|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.28|1.75|
82528383|NCT02019563|164752771|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||The p-value represents the survival rate from the Kaplan-Meier survival analysis from 6 to 36 months.|Log Rank|||||||.11
82393386|NCT02987972|164498433|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.86|1.07|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.07|0.86|
82643407|NCT03359473|165002295|OTHER||Mean Difference (Net)|-0.7|||||TWO_SIDED|90.0|-3.4|2.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||2.1|-3.4|
82393387|NCT02987972|164498433|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.78|0.96|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.96|0.78|
82393388|NCT02987972|164498433|OTHER||GMC Ratio|0.57|||||TWO_SIDED|95.0|0.5|0.65|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.65|0.50|
82393389|NCT02987972|164498433|OTHER||GMC Ratio|1.21|||||TWO_SIDED|95.0|1.06|1.39|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.39|1.06|
82528384|NCT04867785|164752772|SUPERIORITY||Least Squares (LS) Mean Difference|-0.38||||0.188|TWO_SIDED|95.0|-0.94|0.18|||Mixed Models Analysis|||||0.18|-0.94|0.188
82528385|NCT04867785|164752772|SUPERIORITY||LSMean Difference|-1.34|||<|0.001|TWO_SIDED|95.0|-1.84|-0.85|||Mixed Models Analysis|||||-0.85|-1.84|<0.001
82393390|NCT02987972|164498433|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.82|0.67|
82393391|NCT02987972|164498433|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.95|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.95|0.74|
82393392|NCT02987972|164498433|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.76|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.76|0.58|
82393393|NCT02987972|164498433|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9||||||Type 18C|IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|0.90|0.72|
82393394|NCT02987972|164498433|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.69|0.91|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.91|0.69|
82393395|NCT02987972|164498433|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.65|0.85|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.85|0.65|
82393396|NCT02987972|164498433|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.07|0.79|
82393397|NCT02987972|164498433|OTHER||GMC Ratio|27.82|||||TWO_SIDED|95.0|24.64|31.4|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|type 22F||31.40|24.64|
82393398|NCT02987972|164498433|OTHER||GMC Ratio|25.57|||||TWO_SIDED|95.0|22.61|28.92|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||28.92|22.61|
82528386|NCT04867785|164752772|SUPERIORITY||LSMean Difference|-1.25|||<|0.001|TWO_SIDED|95.0|-1.85|-0.65|||Mixed Models Analysis|||||-0.65|-1.85|<0.001
82393399|NCT02987972|164498433|OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.69|0.85|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.85|0.69|
82444377|NCT03242018|164597431|SUPERIORITY||Percent Difference|-21.17||||0.1965|TWO_SIDED|95.0|-45.05|13.1|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and log-transformed baseline UACR as a covariate.||13.10|-45.05|0.1965
82528387|NCT04867785|164752772|SUPERIORITY||LSMean Difference|-1.94|||<|0.001|TWO_SIDED|95.0|-2.44|-1.43|||Mixed Models Analysis|||||-1.43|-2.44|<0.001
82528388|NCT04867785|164752772|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.42|-1.24|||Mixed Models Analysis|||||-1.24|-2.42|<0.001
82393400|NCT02987972|164498433|OTHER||GMC Ratio|2.1|||||TWO_SIDED|95.0|1.84|2.39|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||2.39|1.84|
82393401|NCT02987972|164498433|OTHER||GMC Ratio|0.94|||||TWO_SIDED|95.0|0.85|1.05|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.05|0.85|
82393402|NCT02987972|164498433|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.77|0.95|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.95|0.77|
82393403|NCT02987972|164498433|OTHER||GMC Ratio|0.65|||||TWO_SIDED|95.0|0.57|0.74|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.74|0.57|
82393404|NCT02987972|164498433|OTHER||GMC Ratio|1.12|||||TWO_SIDED|95.0|0.97|1.28|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.28|0.97|
82393405|NCT02987972|164498433|OTHER||GMC Ratio|0.78|||||TWO_SIDED|95.0|0.7|0.86|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.86|0.70|
82393406|NCT02987972|164498433|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.76|0.97|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.97|0.76|
82393407|NCT02987972|164498433|OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.53|0.7|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.70|0.53|
82393408|NCT02987972|164498433|OTHER||GMC Ratio|1.2|||||TWO_SIDED|95.0|1.07|1.34|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.34|1.07|
82393409|NCT02987972|164498433|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.71|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.94|0.71|
82393410|NCT02987972|164498433|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.73|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||0.94|0.73|
82528389|NCT04867785|164752772|SUPERIORITY||LSMean Difference|-1.96|||<|0.001|TWO_SIDED|95.0|-2.43|-1.5|||Mixed Models Analysis|||||-1.50|-2.43|<0.001
82528390|NCT04867785|164752773|SUPERIORITY||LSMean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.52|1.43|||Mixed Models Analysis|||||1.43|0.52|<0.001
82528391|NCT04867785|164752773|SUPERIORITY||LSMean Difference|0.01||||0.935|TWO_SIDED|95.0|-0.34|0.37|||Mixed Models Analysis|||||0.37|-0.34|0.935
82528392|NCT04867785|164752773|SUPERIORITY||LSMean Difference|0.11||||0.668|TWO_SIDED|95.0|-0.39|0.6|||Mixed Models Analysis|||||0.60|-0.39|0.668
82528393|NCT04867785|164752773|SUPERIORITY||LSMean Difference|-0.58||||0.002|TWO_SIDED|95.0|-0.95|-0.21|||Mixed Models Analysis|||||-0.21|-0.95|0.002
82365430|NCT01287039|164440670|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.4499|||<|0.0001|TWO_SIDED|95.0|0.3255|0.622||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Requiring Systemic Corticosteroids The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.6220|0.3255|<0.0001
82365431|NCT01287039|164440670|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.6595||||0.2572|TWO_SIDED|95.0|0.321|1.355||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Hospitalization or ER visit The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.3550|0.3210|0.2572
82365432|NCT01272921|164440680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|||<|0.001|TWO_SIDED|95.0|0.49|0.54|||Z score|||||0.54|0.49|<0.001
82365433|NCT01272921|164440680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.18|0.21|||Z score|||||0.21|0.18|<0.001
82365434|NCT01272921|164440681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-17.0|-6.0||Post hoc comparison were made against the 30-mL volume group and corrected for 6 comparisons using the Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-6.00|-17.00|0.05
82365435|NCT01272921|164440681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-15.0|-6.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-6.00|-15.00|0.05
82365436|NCT01272921|164440681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-10.0|-4.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-4.00|-10.00|0.05
82365437|NCT01272921|164440681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|95.0|-7.0|-2.0|||Wilcoxon (Mann-Whitney)|||The sample selected for this study,70 per drug group (or 10 in each of the 7 groups), achieves 88% power to detect a minimal difference of 4 hours in duration at a significance level (α) of 0.05 and a standard deviation of 3 hours using Williams test. We chose a difference of 4 hours as this was the interval used for assessment in the postoperative period at night. We sought to detect a difference that was equal to 1 observation period difference.||-2.00|-7.00|0.05
82365438|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup A was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup A compared with that of MenACWY PS vaccine.||||<0.001
82365439|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup A was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup A compared with that of MenACWY PS vaccine.||||<0.001
82365440|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup C was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup C compared with that of MenACWY PS vaccine.||||<0.001
82393411|NCT02987972|164498433|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|0.99|1.35|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.35|0.99|
82643408|NCT03359473|165002296|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|90.0|-2.9|1.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||1.1|-2.9|
82365441|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup C was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.||||||0.003||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup C compared with that of MenACWY PS vaccine.||||0.003
82393412|NCT02987972|164498433|OTHER||GMC Ratio|26.3|||||TWO_SIDED|95.0|23.31|29.68|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||29.68|23.31|
82393413|NCT02987972|164498433|OTHER||GMC Ratio|24.1|||||TWO_SIDED|95.0|21.32|27.25|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||27.25|21.32|
82365442|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup W was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup W compared with that of MenACWY PS vaccine.||||<0.001
82365443|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup W was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.||||||0.071||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup W compared with that of MenACWY PS vaccine.||||0.071
82365444|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad+ vaccine against the serogroup Y was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad+ vaccine group against serogroup Y compared with that of MenACWY PS vaccine.||||<0.001
82365445|NCT00262041|164440752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of MenACWY Ad- vaccine against the serogroup Y was assessed to that of the MenACWY PS vaccine if the lower limit of the two-sided 95% CI around the difference in proportions was greater than -10%.|||||<|0.001||95.0|||||Chi-squared|||To demonstrate non-inferiority of percentages of subjects with hSBA titer ≥ 1:4 who received MenACWY Ad- vaccine group against serogroup Y compared with that of MenACWY PS vaccine.||||<0.001
82365446|NCT00834652|164440757|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82365447|NCT01173471|164440772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|5.352||0.822|TWO_SIDED|95.0|-15.2|12.6|||Mixed Models Analysis||Difference is (AZD4017 200 mg OD - Placebo OD)|||12.6|-15.2|0.822
82365448|NCT01173471|164440772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|3.516||0.413|TWO_SIDED|95.0|-10.1|4.3|||Mixed Models Analysis||Difference is (AZD4017 400 mg BID - Placebo BID)|||4.3|-10.1|0.413
82393414|NCT02987972|164498434|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.81|0.62|
82393415|NCT02987972|164498434|OTHER||GMC Ratio|1.44|||||TWO_SIDED|95.0|1.27|1.63|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||1.63|1.27|
82643409|NCT03359473|165002296|OTHER||Mean Difference (Net)|2.2|||||TWO_SIDED|90.0|0.0|4.5|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and Baseline CAT score, with Day as the repeated factor.|||4.5|0.0|
82365449|NCT01173471|164440774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.57||0.758|TWO_SIDED|95.0|-4.8|3.7|||Mixed Models Analysis||Difference is (AZD4017 200 mg OD - Placebo OD)|||3.7|-4.8|0.758
82365450|NCT01173471|164440774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.909||0.467|TWO_SIDED|95.0|-2.5|1.2|||Mixed Models Analysis||Difference is (AZD4017 400 mg BID - Placebo BID)|||1.2|-2.5|0.467
82365451|NCT01939496|164440805|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-3.29|STANDARD_ERROR_OF_MEAN|1.748||0.062|TWO_SIDED|95.0|-6.743|0.163|||ANCOVA|||||0.163|-6.743|0.062
82365452|NCT01939496|164440805|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-4.93|STANDARD_ERROR_OF_MEAN|1.75||0.006|TWO_SIDED|95.0|-8.382|-1.469|||ANCOVA|||||-1.469|-8.382|0.006
82365453|NCT01642914|164440823|SUPERIORITY_OR_OTHER|||||||0.0054|ONE_SIDED||||||Kolmogorov-Smirnov|Kolmogorov-Smirnov test for equality of distribution||||||0.0054
82365454|NCT01642914|164440823|SUPERIORITY_OR_OTHER|||||||0.0012|ONE_SIDED||||||Kolmogorov-Smirnov|Kolmogorov-Smirnov test for equality of distribution||||||0.0012
82365455|NCT01642914|164440836|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.193||||0.0006|TWO_SIDED|95.0|0.086|0.3||p-Values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||.300|.086|0.0006
82365456|NCT01642914|164440836|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.17||||0.0022|TWO_SIDED|95.0|0.064|0.227||p-Values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||.227|.064|0.0022
82444378|NCT03242018|164597432|SUPERIORITY||Percentage Difference|3.2||||0.242|TWO_SIDED|95.0|-2.17|8.66|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||8.66|-2.17|0.2420
82365457|NCT01642914|164440837|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.37||||0.0054|TWO_SIDED|95.0|1.09|1.72|||Log Rank|Log-rank test stratified by geographic region.||||1.72|1.09|.0054
82365458|NCT01642914|164440837|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.24||||0.047|TWO_SIDED|95.0|0.99|1.55|||Log Rank|Log-rank test stratified by geographic region.||||1.55|0.99|0.0470
82365459|NCT01642914|164440843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23||||0.0264|TWO_SIDED|95.0|1.09|4.56||p-values were obtained from the Cochran-Mantel-Haenszel tests controlling for geographic region, comparing each linaclotide dose versus placebo in a pairwise manner.|Cochran-Mantel-Haenszel|||||4.56|1.09|0.0264
82393416|NCT02987972|164498434|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.02|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||1.02|0.76|
82528394|NCT04867785|164752773|SUPERIORITY||LSMean Difference|-0.47||||0.056|TWO_SIDED|95.0|-0.95|0.01|||Mixed Models Analysis|||||0.01|-0.95|0.056
82528395|NCT04867785|164752773|SUPERIORITY||LSMean Difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.93|-0.29|||Mixed Models Analysis|||||-0.29|-0.93|<0.001
82528396|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.24||||0.448|TWO_SIDED|95.0|-0.85|0.38|||Mixed Models Analysis|||||0.38|-0.85|0.448
82643410|NCT03359473|165002297|OTHER||Mean Difference (Net)|-4.7|||||TWO_SIDED|90.0|-8.9|-0.6|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||-0.6|-8.9|
82365460|NCT03028740|164440844|SUPERIORITY||Percentage Difference|-3.2||||0.2067|TWO_SIDED|95.0|-8.2|1.9||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of Type 2 diabetes mellitus (T2DM) at Baseline).|Cochran-Mantel-Haenszel|||||1.9|-8.2|0.2067
82365461|NCT03028740|164440844|SUPERIORITY||Odds Ratio (OR)|0.8369|||||TWO_SIDED|95.0|0.6341|1.1044|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.1044|0.6341|
82365462|NCT03028740|164440846|SUPERIORITY||Percentage Difference|-1.7||||0.2827|TWO_SIDED|95.0|-4.8|1.5||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|Cochran-Mantel-Haenszel|||||1.5|-4.8|0.2827
82365463|NCT03028740|164440846|SUPERIORITY||Odds Ratio (OR)|0.7844|||||TWO_SIDED|95.0|0.5032|1.2229|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.2229|0.5032|
82393417|NCT02987972|164498434|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.84|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.84|0.63|
82393418|NCT02987972|164498434|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.82|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.82|0.62|
82393419|NCT02987972|164498434|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.22|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||1.22|0.93|
82393420|NCT02987972|164498434|OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.59|0.77|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.77|0.59|
82528397|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.99||||0.001|TWO_SIDED|95.0|-1.6|-0.38|||Mixed Models Analysis|||||-0.38|-1.60|0.001
82643411|NCT03359473|165002297|OTHER||Mean Difference (Net)|-2.1|||||TWO_SIDED|90.0|-7.2|3.1|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||3.1|-7.2|
82643412|NCT03359473|165002298|OTHER||Mean Difference (Net)|-4.9|||||TWO_SIDED|90.0|-9.5|-0.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||-0.4|-9.5|
82643413|NCT03359473|165002298|OTHER||Mean Difference (Net)|-4.1|||||TWO_SIDED|90.0|-10.3|2.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline difficulty scores, with Day as the repeated factor.|||2.2|-10.3|
82643414|NCT03359473|165002299|OTHER||Mean Difference (Net)|-3.1|||||TWO_SIDED|90.0|-5.9|-0.3|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||-0.3|-5.9|
82643415|NCT03359473|165002299|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|90.0|-4.6|4.2|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||4.2|-4.6|
82643416|NCT03359473|165002300|OTHER||Mean Difference (Net)|4.0|||||TWO_SIDED|90.0|-0.8|8.8|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||8.8|-0.8|
82365464|NCT03028740|164440847|SUPERIORITY||Percentage Difference|-2.7||||0.4054|TWO_SIDED|95.0|-8.7|3.3||P-value was based on Cochran-Mantel-Haenszel general association test comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|Cochran-Mantel-Haenszel|||||3.3|-8.7|0.4054
82365465|NCT03028740|164440847|SUPERIORITY||Odds Ratio (OR)|0.8877|||||TWO_SIDED|95.0|0.6709|1.1744|||||Odds Ratio was based on Mantel-Haenszel estimates comparing Cenicriviroc vs Placebo, controlling for factors (randomization strata: fibrosis stage \[2 vs 3\] and presence or absence of T2DM at Baseline).|||1.1744|0.6709|
82365466|NCT04060719|164440861|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|10.48|||||TWO_SIDED|90.0|9.74|11.28|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 11.8.|Relative bioavailability||11.28|9.74|
82365467|NCT04060719|164440862|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|30.03|||||TWO_SIDED|90.0|25.76|35.02|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 25.2.|Relative bioavailability||35.02|25.76|
82393421|NCT02987972|164498434|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.6|0.79|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.79|0.60|
82393422|NCT02987972|164498434|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.02|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||1.02|0.76|
82528398|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.8|-0.59|||Mixed Models Analysis|||||-0.59|-1.80|<0.001
82528399|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.41|-1.24|||Mixed Models Analysis|||||-1.24|-2.41|<0.001
82365468|NCT04060719|164440863|OTHER|No formal hypotheses were tested.|Adjusted Geometric Mean Ratio T/R [%]|10.39|||||TWO_SIDED|90.0|9.66|11.18|||Mixed Models Analysis|Mixed effects model on the logarithmic scale including effects for 'subject' (random) and 'treatment' (fixed).|Confidence intervals were calculated based on the residual error from the mixed effects model. Ratio is calculated as Test/Reference. Intra-individual geometric coefficient of variation (gCV) = 11.8.|Relative bioavailability||11.18|9.66|
82365469|NCT04323098|164440896|SUPERIORITY|||||||0.0057||||||P-value was based on two-sided t-test against 0.|t-test, 2 sided|||||||0.0057
82365470|NCT00296491|164440943|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.2|STANDARD_ERROR_OF_MEAN|5.41|<|0.001||95.0|12.5|33.8|||t-test, 2 sided||Treatment Difference = FSC - MON|||33.8|12.5|<0.001
82365471|NCT00296491|164440944|NON_INFERIORITY_OR_EQUIVALENCE|Given estimates, and assuming a significance level of a=0.05, a sample size of 133 subjects per treatment was determined to be sufficient to provide 80% power to show equivalance.|Mean Difference (Net)|-8.9|STANDARD_ERROR_OF_MEAN|8.0|<|0.127||95.0|-24.6|6.9|||t-test, 2 sided||Treatment Difference=FSC+MON-FSC|||6.9|-24.6|<0.127
82365472|NCT01300052|164440955|SUPERIORITY_OR_OTHER||Difference in Percentage|3.8|||||TWO_SIDED|95.0|-14.3|21.8||||||Difference in percentage was calculated as values of AN2728 Ointment, 2% group minus values of AN2728 Ointment, Vehicle group.||21.8|-14.3|
82365473|NCT05444543|164440965|SUPERIORITY||Odds Ratio (OR)|0.089||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
82365474|NCT05444543|164440966|SUPERIORITY||Odds Ratio (OR)|1.1|||>|0.99|TWO_SIDED||||||Chi-squared|||||||>0.99
82365475|NCT03891329|164440981|OTHER|No comparison of two groups, just single arm design|SADE-free rate in the study group|0.98||||0.05|TWO_SIDED|95.0|0.9|1.0|||t-test, 2 sided|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Cor Family devices until the 3- month follow-up are counted for this primary endpoint.~The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||1|0.9|0.05
82365476|NCT03891329|164440982|OTHER|Kaplan-Meier method|||||||||||||||||The Kaplan-Meier method will be applied to estimate the 3-month SADE-free rate at 92 days after implantation (sensitivity analysis of the primary endpoint) and the 12-month SADE-free rate at 365 days after implantation.|||
82643417|NCT03359473|165002300|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|90.0|-2.3|9.4|||||Analysis was performed by mixed model repeated measures including the covariates: treatment, Day, treatment\*Day and corresponding Baseline amount scores, with Day as the repeated factor.|||9.4|-2.3|
82365477|NCT01258101|164440990|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to Arms Peginterferon/Ribavirin 800 mg (16 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|32.0|||||TWO_SIDED|95.0|10.5|53.5||||||||53.5|10.5|
82365478|NCT01258101|164440990|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (24 weeks).|Risk Difference (RD)|-3.2|||||TWO_SIDED|95.0|-14.0|7.6||||||||7.6|-14.0|
82365479|NCT01258101|164440990|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 800 mg (16 weeks).|Risk Difference (RD)|7.2|||||TWO_SIDED|95.0|-4.7|19.1||||||||19.1|-4.7|
82365480|NCT01258101|164440990|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|-21.1|||||TWO_SIDED|95.0|-42.2|-0.1||||||||-0.1|-42.2|
82365481|NCT01258101|164440992|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (16 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||||0.2|-1.0|
82365482|NCT01258101|164440992|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (24 weeks).|Risk Difference (RD)|-2.6|||||TWO_SIDED|95.0|-6.4|1.3||||||||1.3|-6.4|
82365483|NCT01258101|164440992|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 800 mg (16 weeks).|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.4|1.4||||||||1.4|-1.4|
82365484|NCT01258101|164440992|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis was applied to arms Peginterferon/Ribavirin 800 mg (24 weeks) and Peginterferon/Ribavirin 400 mg (16 weeks).|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-0.5|1.7||||||||1.7|-0.5|
82365485|NCT01258101|164441000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.2667|TWO_SIDED||||||Regression, Cox|||||||0.2667
82365486|NCT01258101|164441000|SUPERIORITY_OR_OTHER|||||||0.9999|||||||Regression, Cox|||||||0.9999
82365487|NCT01258101|164441000|SUPERIORITY_OR_OTHER|||||||0.9891|||||||Regression, Cox|||||||0.9891
82365488|NCT00063882|164441001|SUPERIORITY||Cox Proportional Hazard|0.82||||0.21|TWO_SIDED|95.0|0.6|1.12||One-sided significance level of 0.025|Greenwood's T||Reference level = Brachytherapy only|Target sample size was 586; 532 patients were needed to test hypothesis of better FFP in the EBRT + Brachytherapy arm over the Brachytherapy Only arm. The trial is designed to detect a 10% improvement in 5-year FFP with 90% power, 1-sided alpha of 0.025. The Z-test statistic for the difference between the 2 5-year FFP rates with the standard errors estimated by Greenwood's method will be used.||1.12|0.60|0.21
82365489|NCT00063882|164441002|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.63|1.54||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.54|0.63|0.95
82365490|NCT00063882|164441003|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.97|TWO_SIDED|95.0|0.64|1.58||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.58|0.64|0.97
82365491|NCT00063882|164441004|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.77|TWO_SIDED|95.0|0.36|3.9||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||3.90|0.36|0.77
82365492|NCT00063882|164441005|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.33|3.13||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||3.13|0.33|0.99
82365493|NCT00063882|164441006|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.81|TWO_SIDED|95.0|0.46|2.76||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||2.76|0.46|0.81
82365494|NCT00063882|164441007|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.22|TWO_SIDED|95.0|0.51|1.17||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|||1.17|0.51|0.22
82365495|NCT00063882|164441008|SUPERIORITY||Odds Ratio (OR)|1.13||||0.53|TWO_SIDED|95.0|0.76|1.67||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 2+ GU/GI||1.67|0.76|0.53
82365496|NCT00063882|164441008|SUPERIORITY||Odds Ratio (OR)|1.06||||0.73|TWO_SIDED|95.0|0.73|1.53||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 2+ Overall||1.53|0.73|0.73
82365497|NCT00063882|164441008|SUPERIORITY||Odds Ratio (OR)|1.09||||0.81|TWO_SIDED|95.0|0.54|2.19||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 3+ GU/GI||2.19|0.54|0.81
82365498|NCT00063882|164441008|SUPERIORITY||Odds Ratio (OR)|0.93||||0.82|TWO_SIDED|95.0|0.51|1.69||One-sided significance level of 0.05|Chi-squared||Reference level = Brachytherapy Only|Grade 3+ Overall||1.69|0.51|0.82
82365499|NCT00063882|164441009|SUPERIORITY||Hazard Ratio (HR)|2.37||||0.01|TWO_SIDED|95.0|1.2|4.68||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|Grade 3+ GU/GI||4.68|1.20|0.01
82365500|NCT00063882|164441009|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.029|TWO_SIDED|95.0|1.06|3.1||One-sided significance level of 0.025|Log Rank||Reference level = Brachytherapy Only|Grade 3+ Overall||3.10|1.06|0.029
82365501|NCT00063882|164441010|SUPERIORITY||Effect size|0.4|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary||||<0.0001
82365502|NCT00063882|164441010|SUPERIORITY||Effect size|0.09||||0.33|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary- Incontinence||||0.33
82393423|NCT02987972|164498434|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.08|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.08|0.81|
82393424|NCT02987972|164498434|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.01|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||1.01|0.78|
82393425|NCT02987972|164498434|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.10|0.85|
82393426|NCT02987972|164498434|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.64|0.87|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||0.87|0.64|
82365503|NCT00063882|164441010|SUPERIORITY||Effect size|0.44|||<|0.0001|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Irritative||||<0.0001
82365504|NCT00063882|164441010|SUPERIORITY||Effect size|0.31||||0.001|TWO_SIDED|||||significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Bowel||||0.001
82365505|NCT00063882|164441010|SUPERIORITY||Effect size|0.12||||0.23|TWO_SIDED||||||t-test, 2 sided|||Sexual|Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|||0.23
82365506|NCT00063882|164441011|SUPERIORITY||Effect size|0.38||||0.0002|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary||||0.0002
82365507|NCT00063882|164441011|SUPERIORITY||Effect size|0.08||||0.42|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Incontinence||||0.42
82365508|NCT00063882|164441011|SUPERIORITY||Effect size|0.44|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Urinary-Irritative||||<0.0001
82365509|NCT00063882|164441011|SUPERIORITY||Effect size|0.42|||<|0.0001|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Bowel||||<0.0001
82365510|NCT00063882|164441011|SUPERIORITY||Effect size|0.27||||0.0072|TWO_SIDED|||||Significance level of 0.01|t-test, 2 sided||Minimally important difference (MID) defined as an effect size of at least 0.5. Effect sizes are interpreted as negligible: \< 0.3; small: 0.3 to \< 0.5; moderate: 0.5 to \< 0.7; and large ≥ 0.7.|Sexual||||0.0072
82365511|NCT03399318|164441019|SUPERIORITY||||||<|0.0001||||||treatment group as the factor of interest, country and disease severity 207 (CM=yes, no) as stratification factors, and admission temperature as a covariate. A t-test for significance of the treatment effect, were derived from this model.|t-test, 2 sided|||The analysis of the primary outcome variable, Tmax, involved fitting an analysis of 206 covariance model with treatment group as the factor of interest, country and disease severity 207 (CM=yes, no) as stratification factors, and admission temperature as a covariate. The estimated 208 treatment effect and associated 95% confidence interval, as well as a t-test for significance of the treatment effect, were derived from this model.||||<0.0001
82393427|NCT02987972|164498434|OTHER||GMC Ratio|149.69|||||TWO_SIDED|95.0|130.23|172.06|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||172.06|130.23|
82393428|NCT02987972|164498434|OTHER||GMC Ratio|90.35|||||TWO_SIDED|95.0|79.93|102.12|||||IgG GMC Ratio (V114 Lot 1/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||102.12|79.93|
82393429|NCT02987972|164498434|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.93|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 1||0.93|0.71|
82365512|NCT03399318|164441020|SUPERIORITY||Odds Ratio (OR)|0.09|||<|0.05|TWO_SIDED|95.0|0.03|0.27|||Regression, Logistic|||Seizure occurrence defined as a three-level ordinal variable was analyzed using a 223 multinomial logistic regression model because there was evidence that the proportional odds 224 assumption did not hold. This model included treatment group as the factor of interest and 225 country and disease severity as stratification factors. The adjusted treatment group odds ratio, 226 and its associated 95% confidence interval were derived from this model.||.27|.03|<0.05
82365513|NCT03399318|164441021|SUPERIORITY||Odds Ratio, log|6.3|||<|0.05|TWO_SIDED|95.0|-5.1|17.7||The covariance matrix for the within-participant observations was 232 modeled using an unstructured pattern.|ANCOVA|Time to parasite clearance was 235 evaluated using a discrete-time proportional hazards model with a complementary log-log link.|The adjusted treatment group difference in mean area 233 under the log10(HRP2 level) × time curve was estimated using appropriate contrasts among the 234 treatment group means over time that quantify this comparison.|Parasite clearance measured by log10 (HRP2 level) was analyzed with a repeated 228 measures analysis of covariance model (mixed model repeated measures)35 with terms for 229 treatment group, country, disease severity, log10(HRP2 level) at admission, time (treated as a 230 categorical variable), and interaction terms for admission log10(HRP2 level) and time, and for 231 treatment group and time.|The model included terms for treatment group, country, and disease severity.|17.7|-5.1|<0.05
82365514|NCT03399318|164441022|SUPERIORITY||Odds Ratio (OR)|0.32|||<|0.05|TWO_SIDED|95.0|0.2|0.52||An ordinal logistic regression model assuming 216 proportional odds with terms for treatment group, country, and disease severity as covariates was used to derive the estimated adjusted treatment group odds ratio and 95%CI|Regression, Logistic|Sensitivity analyses with best-case and worst-case imputation were 219 performed to accommodate missing data||A secondary efficacy measure included fever exposure as measured by the area under 214 the temperature × time curve for T≥38.5°C during the 72-hour follow-up period, categorized as 215 0, \> 0 and \< 2, and ≥ 2 degree-hours.||.52|.20|<0.05
82393430|NCT02987972|164498434|OTHER||GMC Ratio|1.48|||||TWO_SIDED|95.0|1.31|1.68|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 3||1.68|1.31|
82393431|NCT02987972|164498434|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.7|0.94|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 4||0.94|0.70|
82393432|NCT02987972|164498434|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.6|0.79|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 5||0.79|0.60|
82393433|NCT02987972|164498434|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.58|0.76|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6A||0.76|0.58|
82393434|NCT02987972|164498434|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.95|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 6B||0.95|0.72|
82393435|NCT02987972|164498434|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 7F||0.81|0.62|
82393436|NCT02987972|164498434|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.88|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 9V||0.88|0.67|
82393437|NCT02987972|164498434|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.73|0.98|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 14||0.98|0.73|
82528400|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-1.63|||<|0.001|TWO_SIDED|95.0|-2.27|-0.99|||Mixed Models Analysis|||||-0.99|-2.27|<0.001
82393438|NCT02987972|164498434|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.24|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 18C||1.24|0.93|
82393439|NCT02987972|164498434|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.93|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19A||0.93|0.72|
82393440|NCT02987972|164498434|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 19F||1.03|0.79|
82365515|NCT03438227|164441026|SUPERIORITY|||||||0.039|||||||Chi-squared|||||||0.039
82393441|NCT02987972|164498434|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.08|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 23F||1.08|0.79|
82393442|NCT02987972|164498434|OTHER||GMC Ratio|131.23|||||TWO_SIDED|95.0|114.05|151.0|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 22F||151.00|114.05|
82393443|NCT02987972|164498434|OTHER||GMC Ratio|78.99|||||TWO_SIDED|95.0|69.82|89.36|||||IgG GMC Ratio (V114 Lot 2/Prevnar 13™) based on ANOVA model with log-transformed IgG antibody responses as response variable and vaccination group as covariate.|Type 33F||89.36|69.82|
82393444|NCT01726036|164498436|SUPERIORITY_OR_OTHER|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
82393445|NCT01047332|164498437|OTHER|||||||0.53|||||||Log Rank|||||||0.530
82393446|NCT01047332|164498438|OTHER|||||||0.997|||||||Log Rank|||||||0.997
82393447|NCT03521817|164498443|OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.14|<|0.231|TWO_SIDED||||||t-test, 2 sided|||||||<0.231
82448892|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.575|TWO_SIDED|95.0|-0.56|0.31||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||0.31|-0.56|0.5750
82528401|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.39|-1.31|||Mixed Models Analysis|||||-1.31|-2.39|<0.001
82528402|NCT04867785|164752774|SUPERIORITY||LSMean Difference|0.82|||<|0.001|TWO_SIDED|95.0|0.35|1.29|||Mixed Models Analysis|||||1.29|0.35|<0.001
82528403|NCT04867785|164752774|SUPERIORITY||LSMean Difference|0.06||||0.796|TWO_SIDED|95.0|-0.41|0.53|||Mixed Models Analysis|||||0.53|-0.41|0.796
82448893|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.0337|TWO_SIDED|95.0|-0.92|-0.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||-0.04|-0.92|0.0337
82643418|NCT03359473|165002301|OTHER||Mean Difference (Net)|-4.2|||||TWO_SIDED|90.0|-6.5|-1.9|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||-1.9|-6.5|
82643419|NCT03359473|165002301|OTHER||Mean Difference (Net)|-1.5|||||TWO_SIDED|90.0|-4.1|1.1|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||1.1|-4.1|
82643420|NCT03359473|165002302|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|90.0|-3.8|1.8|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||1.8|-3.8|
82643421|NCT03359473|165002302|OTHER||Mean Difference (Net)|-0.7|||||TWO_SIDED|90.0|-4.6|3.2|||||Analysis was performed by mixed model repeated measures including the covariates; treatment, Day, treatment\*Day and corresponding Baseline total scores, with Day as the repeated factor.|||3.2|-4.6|
82643422|NCT03359473|165002307|OTHER||Difference in Least Square Means|3.0|||||TWO_SIDED|90.0|-1.4|7.4|||||Analysis was performed by ANCOVA model with Baseline total score as the covariate adjusting for the treatment.|||7.4|-1.4|
82643423|NCT03359473|165002307|OTHER||Difference in Least Square Means|2.1|||||TWO_SIDED|90.0|-2.3|6.5|||||Analysis was performed by ANCOVA model with Baseline total score as the covariate adjusting for the treatment.|||6.5|-2.3|
82643424|NCT03359473|165002308|OTHER||Difference in Least Square Means|2.6|||||TWO_SIDED|90.0|-5.0|10.1|||||Analysis was performed by ANCOVA model with Baseline symptoms score as the covariate adjusting for the treatment.|||10.1|-5.0|
82643425|NCT03359473|165002308|OTHER||Difference in Least Square Means|-0.5|||||TWO_SIDED|90.0|-8.4|7.5|||||Analysis was performed by ANCOVA model with Baseline symptoms score as the covariate adjusting for the treatment.|||7.5|-8.4|
82643426|NCT03359473|165002309|OTHER||Difference in Least Square Means|2.0|||||TWO_SIDED|90.0|-3.2|7.1|||||Analysis was performed by ANCOVA model with Baseline activity score as the covariate adjusting for the treatment.|||7.1|-3.2|
82643427|NCT03359473|165002309|OTHER||Difference in Least Square Means|0.5|||||TWO_SIDED|90.0|-5.6|6.5|||||Analysis was performed by ANCOVA model with Baseline activity score as the covariate adjusting for the treatment.|||6.5|-5.6|
82643428|NCT03359473|165002310|OTHER||Difference in Least Square Means|3.4|||||TWO_SIDED|90.0|-1.7|8.6|||||Analysis was performed by ANCOVA model with Baseline impact score as the covariate adjusting for the treatment.|||8.6|-1.7|
82643429|NCT03359473|165002310|OTHER||Difference in Least Square Means|3.5|||||TWO_SIDED|90.0|-0.7|7.7|||||Analysis was performed by ANCOVA model with Baseline impact score as the covariate adjusting for the treatment.|||7.7|-0.7|
82643430|NCT05302414|165002315|SUPERIORITY||Median Difference (Final Values)|12.75|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
82643431|NCT05302414|165002315|SUPERIORITY||Median Difference (Final Values)|2.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
82643432|NCT05302414|165002315|SUPERIORITY||Median Difference (Final Values)|6.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
82643433|NCT05302414|165002316|SUPERIORITY||Median Difference (Final Values)|1.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For pretest at the 0 week||||<0.05
82643434|NCT05302414|165002316|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
82643435|NCT05302414|165002316|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
82643436|NCT05302414|165002317|SUPERIORITY||Median Difference (Final Values)|40.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
82643437|NCT05302414|165002317|SUPERIORITY||Median Difference (Final Values)|45.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
82643438|NCT05302414|165002317|SUPERIORITY||Median Difference (Final Values)|43.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
82643439|NCT05302414|165002318|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
82643440|NCT05302414|165002318|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
82643441|NCT05302414|165002318|SUPERIORITY||Median Difference (Final Values)|2.5||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
82643442|NCT05302414|165002319|SUPERIORITY||Median Difference (Final Values)|6.75|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For the pretest at week 0.||||<0.05
82643443|NCT05302414|165002319|SUPERIORITY||Median Difference (Final Values)|0.25||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||0.05
82643444|NCT05302414|165002319|SUPERIORITY||Median Difference (Final Values)|0.0||||0.05|TWO_SIDED||||||Kruskal-Wallis|||For follow-up test at the 16 weeks.||||0.05
82643445|NCT05302414|165002320|SUPERIORITY||Median Difference (Final Values)|22.0|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||For posttest right after intervention at the 4 weeks.||||<0.05
82643446|NCT02964910|165002321|NON_INFERIORITY|The criteria of the immunogenicity non-inferiority between CHB group and healthy adults group were: the lower limit of 95% CI of the seroconversion rate difference was not less than -10%.|the seroconversion rate difference(%)|-2.08|||||TWO_SIDED|95.0|-5.23|0.22||||||||0.22|-5.23|
82643447|NCT02964910|165002322|NON_INFERIORITY|The criteria of the immunogenicity non-inferiority between CHB group and healthy adults group were: the lower limit of 95%CI of the GMC ratio was not lower than 0.5.|GMC ratio|0.69|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
82643448|NCT02964910|165002326|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.778|||||||Chi-squared|||||||0.778
82643449|NCT02964910|165002327|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.728|||||||Chi-squared|||||||0.728
82643450|NCT02964910|165002328|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.949|||||||Chi-squared|||||||0.949
82643451|NCT02964910|165002329|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.614|||||||Chi-squared|||||||0.614
82393448|NCT01313494|164498479|SUPERIORITY_OR_OTHER||LSM Difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.095|||Repeated measures ANCOVA|Independent variables: treatment, baseline value of pre-bronchodilator FEV1, time and a treatment-by-time interaction.||The primary endpoint was tested in a confirmatory manner with a 2-sided significance level of 5%.||0.095|0.046|<0.0001
82528404|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.14||||0.548|TWO_SIDED|95.0|-0.61|0.32|||Mixed Models Analysis|||||0.32|-0.61|0.548
82365516|NCT03438227|164441027|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
82365517|NCT03438227|164441028|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
82365518|NCT03438227|164441029|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
82365519|NCT03438227|164441030|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
82365520|NCT03438227|164441031|SUPERIORITY|||||||0.194|||||||Fisher Exact|||||||0.194
82365521|NCT03438227|164441032|SUPERIORITY|||||||0.414|||||||Chi-squared|||||||0.414
82393449|NCT01432275|164498551|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Binomial test|Comparison to 27 participants that preferred their usual method to FreeStyle InsuLinx. Twelve(12) participants did not have a preference.||||||<0.0001
82393450|NCT00772005|164498607|SUPERIORITY_OR_OTHER|||||||0.8514||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8514
82393451|NCT00772005|164498607|SUPERIORITY_OR_OTHER|||||||0.6995||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6995
82528405|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.19|-0.36|||Mixed Models Analysis|||||-0.36|-1.19|<0.001
82643452|NCT02964910|165002330|OTHER|The differences in incidence rate of ADR\\AE between the two groups were compared.||||||0.956|||||||Chi-squared|||||||0.956
82365522|NCT03438227|164441033|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82365523|NCT03438227|164441034|SUPERIORITY|||||||0.571|||||||t-test, 2 sided|||||||0.571
82365524|NCT03438227|164441035|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
82365525|NCT03438227|164441036|SUPERIORITY|||||||0.049|||||||Log Rank|||||||0.049
82365526|NCT03438227|164441037|SUPERIORITY|||||||0.933|||||||t-test, 2 sided|||||||0.933
82365527|NCT03438227|164441038|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
82365528|NCT03438227|164441039|SUPERIORITY|||||||0.633|||||||t-test, 2 sided|||||||0.633
82365529|NCT01138111|164441064|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||The baseline neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0001
82365530|NCT01138111|164441064|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||The 12 month neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0011
82365531|NCT01138111|164441064|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||The 24 month neocortical SUVR in those subjects who progressed to AD over the 2 year follow-up was compared to the neocortical SUVR of those that did not progress by a Wilcoxon-Mann-Whitney test.||||0.0008
82365532|NCT00560937|164441068|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||T-test of change scores, pregnenolone vs. placebo post-treatment compared to baseline.||||.048
82365533|NCT00560937|164441069|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||t-test, 2 sided|||||||0.79
82365534|NCT00560937|164441070|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
82365535|NCT00560937|164441071|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||T-test of change scores, pregnenolone compared to placebo post-treatment vs. pre-randomization.||||1.0
82365536|NCT00560937|164441072|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
82365537|NCT03821272|164441087|SUPERIORITY||non-recurrence rate|0.45||||0.31|TWO_SIDED|95.0|0.17|0.77|||Fisher Exact|||||0.77|0.17|0.31
82365538|NCT03821272|164441088|SUPERIORITY||non-recurrence rate|0.8||||0.31|TWO_SIDED|95.0|0.28|0.99|||Fisher Exact|||||0.99|0.28|0.31
82365539|NCT03821272|164441089|SUPERIORITY||non-recurrence rate|0.56||||0.58|TWO_SIDED|95.0|0.21|0.86|||Fisher Exact|||||0.86|0.21|0.58
82365540|NCT03821272|164441090|SUPERIORITY||non-recurrence rate|0.8||||0.58|TWO_SIDED|95.0|0.28|0.99|||Fisher Exact|||||0.99|0.28|0.58
82365541|NCT05626803|164441097|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365542|NCT05626803|164441097|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365543|NCT05626803|164441097|SUPERIORITY|||||||0.0003|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0003
82365544|NCT05626803|164441099|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365545|NCT05626803|164441099|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365546|NCT05626803|164441099|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82448894|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.1061|TWO_SIDED|95.0|-0.08|0.79||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q17 at Day 14||0.79|-0.08|0.1061
82528406|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.57||||0.025|TWO_SIDED|95.0|-1.08|-0.07|||Mixed Models Analysis|||||-0.07|-1.08|0.025
82528407|NCT04867785|164752774|SUPERIORITY||LSMean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.16|-0.44|||Mixed Models Analysis|||||-0.44|-1.16|<0.001
82528408|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.14||||0.121|TWO_SIDED|95.0|-0.04|0.32|||Regression, Logistic|||||0.32|-0.04|0.121
82365547|NCT05626803|164441101|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365548|NCT05626803|164441101|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365549|NCT05626803|164441101|SUPERIORITY|||||||0.0017|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0017
82365550|NCT05626803|164441103|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365551|NCT05626803|164441103|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365552|NCT05626803|164441103|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365553|NCT05626803|164441105|SUPERIORITY|||||||0.0059|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0059
82365554|NCT05626803|164441105|SUPERIORITY|||||||0.002|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0020
82444379|NCT03242018|164597432|SUPERIORITY||Percentage Difference|6.5||||0.0513|TWO_SIDED|95.0|0.04|12.93|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||12.93|0.04|0.0513
82444380|NCT03242018|164597433|SUPERIORITY||Percentage Difference|12.0||||0.0066|TWO_SIDED|95.0|3.48|20.61|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||20.61|3.48|0.0066
82643453|NCT04007406|165002356|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold value for statistical significance was p\<0.05|Mixed Models Analysis|||||||<0.0001
82643454|NCT04007406|165002357|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
82365555|NCT05626803|164441105|SUPERIORITY|||||||0.1899|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.1899
82365556|NCT05626803|164441107|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365557|NCT05626803|164441107|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||<.0001
82365558|NCT05626803|164441107|SUPERIORITY|||||||0.002|||||||ANCOVA|Computed by using ANCOVA model with log transformed data as response variable and treatment as a fixed factor and baseline value as covariate.||||||0.0020
82365559|NCT00380692|164441170|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-10.0|-3.4||P-value for treatment group differences over time.|Mixed Models Analysis|||||-3.4|-10.0|<0.001
82365560|NCT00380692|164441171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.921||95.0|-0.5|0.4||P-value for treatment differences over time.|Mixed Models Analysis|||||0.4|-0.5|0.921
82365561|NCT00380692|164441172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.61||0.369||95.0|-1.8|0.7||P-value for treatment differences in Oppositional Score at 8 weeks.|ANCOVA|||||0.7|-1.8|0.369
82365562|NCT00380692|164441172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|0.87||0.024||95.0|-3.7|-0.3||P-value for treatment differences in Hyperactivity score at 8 weeks|ANCOVA|||||-0.3|-3.7|0.024
82365563|NCT00380692|164441172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.51||0.179||95.0|-1.7|0.3||P-value for treatment differences in Cognititve/Attention score at 8 weeks.|ANCOVA|||||0.3|-1.7|0.179
82365564|NCT00380692|164441172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.48||0.077||95.0|-5.6|0.3||P-value for treatment differences in ADHD score at 8 weeks|ANCOVA|||||0.3|-5.6|0.077
82365565|NCT00380692|164441174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.028||95.0|-1.0|-0.1||P-value for treatment differences in Time to fall asleep score at 8 weeks.|ANCOVA|||||-0.1|-1.0|0.028
82365566|NCT00380692|164441174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.407||95.0|-0.3|0.9||P-value for treatment differences in Difficulty falling asleep score at 8 weeks.|ANCOVA|||||0.9|-0.3|0.407
82365567|NCT00380692|164441174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.652||95.0|-0.6|0.4||P-value for treatment differences in Total hours of sleep score at 8 weeks.|ANCOVA|||||0.4|-0.6|0.652
82365568|NCT00380692|164441174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.49||0.112||95.0|-1.7|0.2||P-value for treatment differences in Quality of sleep score at 8 weeks.|ANCOVA|||||0.2|-1.7|0.112
82365569|NCT00380692|164441174|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.87||0.188||95.0|-2.9|0.6||P-value for treatment differences in Functional outcome during day score at 8 weeks.|ANCOVA|||||0.6|-2.9|0.188
82365570|NCT00380692|164441175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|1.29||0.452||95.0|-3.5|1.6||P-value for treatment differences in Irritability score at 8 weeks.|ANCOVA|||||1.6|-3.5|0.452
82365571|NCT00380692|164441175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|1.1||0.85||95.0|-2.4|2.0||P-value for treatment differences in Lethargy score at 8 weeks.|ANCOVA|||||2.0|-2.4|0.850
82365572|NCT00380692|164441175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.63||0.014||95.0|-2.8|-0.3||P-value for treatment differences in Stereotypic score at 8 weeks.|ANCOVA|||||-0.3|-2.8|0.014
82393452|NCT00772005|164498607|SUPERIORITY_OR_OTHER|||||||0.9766||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9766
82393453|NCT00772005|164498608|SUPERIORITY_OR_OTHER|||||||0.7596||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7596
82393454|NCT00772005|164498608|SUPERIORITY_OR_OTHER|||||||0.562||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5620
82393455|NCT00772005|164498608|SUPERIORITY_OR_OTHER|||||||0.6688||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6688
82365573|NCT00380692|164441175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|1.68||0.01||95.0|-7.8|-1.1||P-value for treatment differences in Hyperactivity score at 8 weeks.|ANCOVA|||||-1.1|-7.8|0.010
82393456|NCT00772005|164498609|SUPERIORITY_OR_OTHER|||||||0.1894||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1894
82393457|NCT00772005|164498609|SUPERIORITY_OR_OTHER|||||||0.4582||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4582
82365574|NCT00380692|164441175|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.42||0.045||95.0|-1.7|0.0||P-value for treatment differences in Inappropriate speech score at 8 weeks.|ANCOVA|||||-0.0|-1.7|0.045
82365575|NCT00380692|164441176|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|2.13||0.069||95.0|-8.1|0.3||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||0.3|-8.1|0.069
82393458|NCT00772005|164498609|SUPERIORITY_OR_OTHER|||||||0.0327||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0327
82393459|NCT00772005|164498610|SUPERIORITY_OR_OTHER|||||||0.3275||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3275
82393460|NCT00772005|164498610|SUPERIORITY_OR_OTHER|||||||0.2597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2597
82393461|NCT00772005|164498610|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0039
82393462|NCT00772005|164498611|SUPERIORITY_OR_OTHER|||||||0.0713||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0713
82528409|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.36||||0.002|TWO_SIDED|95.0|0.13|0.59|||Regression, Logistic|||||0.59|0.13|0.002
82528410|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.48|||<|0.001|TWO_SIDED|95.0|0.28|0.68|||Regression, Logistic|||||0.68|0.28|<0.001
82365576|NCT00380692|164441177|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.64||0.598||95.0|-1.6|0.9||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||0.9|-1.6|0.598
82365577|NCT00380692|164441178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|STANDARD_ERROR_OF_MEAN|11.12||0.318||95.0|-33.3|11.0||P-value for treatment differences in Total score at 8 weeks.|ANCOVA|||||11.0|-33.3|0.318
82365578|NCT00380692|164441179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.7||0.948||95.0|-5.5|5.2||P-value for treatment differences in Error Rate over time.|Mixed Models Analysis|||||5.2|-5.5|0.948
82365579|NCT00380692|164441179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|3.5||0.399||95.0|-9.7|3.9||P-value for Treatment\*Condition Error Rate irrelevant targets over time.|Mixed Models Analysis|||||3.9|-9.7|0.399
82393463|NCT00772005|164498611|SUPERIORITY_OR_OTHER|||||||0.0431||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0431
82393464|NCT00772005|164498611|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0063
82528411|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.7|||<|0.001|TWO_SIDED|95.0|0.53|0.87|||Regression, Logistic|||||0.87|0.53|<0.001
82365580|NCT00380692|164441179|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_DEVIATION|3.1||0.57||95.0|-4.3|7.8||P-value for Treatment\*Condition Error Rate relevant nontargets over time.|Mixed Models Analysis|||||7.8|-4.3|0.570
82365581|NCT00380692|164441180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-61.9|STANDARD_ERROR_OF_MEAN|66.0||0.352||95.0|-193.5|69.8||P-value for Treatment differences in Reaction time over time.|Mixed Models Analysis|||||69.8|-193.5|0.352
82528412|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.6|||<|0.001|TWO_SIDED|95.0|0.39|0.82|||Regression, Logistic|||||0.82|0.39|<0.001
82528413|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.68|||<|0.001|TWO_SIDED|95.0|0.51|0.85|||Regression, Logistic|||||0.85|0.51|<0.001
82528414|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|-0.21||||0.03|TWO_SIDED|95.0|-0.39|-0.02|||Regression, Logistic|||||-0.02|-0.39|0.030
82643455|NCT04007406|165002358|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
82393465|NCT00772005|164498612|SUPERIORITY_OR_OTHER|||||||0.0619||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0619
82643456|NCT04007406|165002359|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0||||The threshold for significance was p \<0.05|Mixed Models Analysis|||||||<0.0001
82643457|NCT04007406|165002360|SUPERIORITY||||||<|0.0001||||||The statistical threshold was p\<0.05|Mixed Models Analysis|||||||<0.0001
82643458|NCT01523301|165002363|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.12|||=|0.1286|TWO_SIDED|95.0|-2.56|0.33||The null hypothesis was assessed with a 2-sided test and not rejected at p≤0.05.|ANCOVA|||The change from Baseline to the end of the Maintenance period in the score of the HAM-D of rotigotine-treated subjects has been compared with those subjects on placebo in the EES. The null hypothesis (H0) was that there was no difference in the change of the HAM-D score between the active treatment and the placebo group. The alternative hypothesis (H1) was that there was a difference in the change of HAM-D score between the rotigotine and the placebo arm.||0.33|-2.56|=0.1286
82643459|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.9237|TWO_SIDED|95.0|-7.3|9.3|||Chi-squared, Corrected||95% confidence interval for the true difference in the incidence of MACE between the two treatment groups. Difference of incidence = usual care minus atorvastatin.|Total MACE: treatment difference. Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||9.3|-7.3|0.9237
82643460|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-10.7|10.7|||Fisher Exact||Confidence limits were calculated by the exact unconditional inference. Difference of incidence = usual care minus atorvastatin.|Death: treatment difference. Null hypothesis = no difference between the incidence rates in two groups. Fisher's exact test was applied because the expected frequency of events was less than 5.||10.7|-10.7|1.0000
82643461|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.9158|TWO_SIDED|95.0|-7.2|9.2|||Chi-squared, Corrected||Difference of incidence = usual care minus atorvastatin.|Myocardial Infarction: treatment difference. Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||9.2|-7.2|0.9158
82643462|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93||||0.8|TWO_SIDED|95.0|0.5104|1.6846|||Regression, Logistic|||Unadjusted odds ratio and 95% confidence interval calculated by including treatment group as the only covariate in the logistic regression model. Reference group = usual care.||1.6846|0.5104|0.80
82643463|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.9|TWO_SIDED|95.0|0.4887|1.8836|||Regression, Logistic|||Adjusted odds ratio: model includes treatment group and potential confounding covariates age, gender, country, non-ST elevation myocardial infarction, LVEF \<=40, and use of beta-blockers, ACE-inhibitors, angiotension receptor blockers, calcium channel antagonists, and diuretics. Reference group = usual care.||1.8836|0.4887|0.90
82643464|NCT00728988|165002375|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8494|TWO_SIDED||||||Log Rank|Survival analysis: Kaplan-Meier log rank test.||MACE-free survival up to Day 30. A censoring variable with a value of 1 denoted that the subject had the event and 0 indicated that the subject was censored. A log-rank test was applied to investigate any differences on the survival distribution function between two treatment groups.||||0.8494
82643465|NCT00728988|165002376|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||1|TWO_SIDED|95.0|-5.6|6.3|||Chi-squared, Corrected||Difference of incidence = atorvastatin minus usual care.|Treatment difference (%). Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||6.3|-5.6|1.0000
82643466|NCT00728988|165002377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.7896|TWO_SIDED|95.0|-9.7|6.5|||Chi-squared, Corrected||Difference of incidence = atorvastatin minus usual care .|Treatment difference (%). Null hypothesis = no difference between the incidence rates in the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||6.5|-9.7|0.7896
82643467|NCT00728988|165002378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4||||0.631|TWO_SIDED|95.0|-10.1|5.4|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||5.4|-10.1|0.631
82643468|NCT00728988|165002378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.518|TWO_SIDED|95.0|-12.1|5.5|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||5.5|-12.1|0.518
82643469|NCT00728988|165002378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.236|TWO_SIDED|95.0|-9.6|12.0|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||12.0|-9.6|0.236
82393466|NCT00772005|164498612|SUPERIORITY_OR_OTHER|||||||0.1137||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1137
82643470|NCT00728988|165002379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.9||||0.425|TWO_SIDED|95.0|-6.2|15.9|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||15.9|-6.2|0.425
82643471|NCT00728988|165002379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3||||0.392|TWO_SIDED|95.0|-6.1|16.7|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||16.7|-6.1|0.392
82643472|NCT00728988|165002379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||1|TWO_SIDED|95.0|-10.7|10.9|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||10.9|-10.7|1.000
82393467|NCT00772005|164498612|SUPERIORITY_OR_OTHER|||||||0.0598||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0598
82393468|NCT00772005|164498613|SUPERIORITY_OR_OTHER|||||||0.7093||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7093
82393469|NCT00772005|164498613|SUPERIORITY_OR_OTHER|||||||0.5129||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5129
82393470|NCT00772005|164498613|SUPERIORITY_OR_OTHER|||||||0.1097||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1097
82393471|NCT00772005|164498614|SUPERIORITY_OR_OTHER|||||||0.4291||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4291
82393472|NCT00772005|164498614|SUPERIORITY_OR_OTHER|||||||0.3195||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3195
82393473|NCT00772005|164498614|SUPERIORITY_OR_OTHER|||||||0.1591||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1591
82393474|NCT00772005|164498615|SUPERIORITY_OR_OTHER|||||||0.7768||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7768
82393475|NCT00772005|164498615|SUPERIORITY_OR_OTHER|||||||0.4014||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4014
82393476|NCT00772005|164498615|SUPERIORITY_OR_OTHER|||||||0.4016||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4016
82393477|NCT00772005|164498616|SUPERIORITY_OR_OTHER|||||||0.5612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5612
82393478|NCT00772005|164498616|SUPERIORITY_OR_OTHER|||||||0.9704||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9704
82393479|NCT00772005|164498616|SUPERIORITY_OR_OTHER|||||||0.2424||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2424
82393480|NCT00772005|164498617|SUPERIORITY_OR_OTHER|||||||0.8847||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8847
82393481|NCT00772005|164498617|SUPERIORITY_OR_OTHER|||||||0.2958||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2958
82393482|NCT00772005|164498617|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2660
82393483|NCT00772005|164498618|SUPERIORITY_OR_OTHER|||||||0.0524||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0524
82393484|NCT00772005|164498618|SUPERIORITY_OR_OTHER|||||||0.0328||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0328
82393485|NCT00772005|164498618|SUPERIORITY_OR_OTHER|||||||0.0084||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0084
82393486|NCT00772005|164498619|SUPERIORITY_OR_OTHER|||||||0.3651||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3651
82393487|NCT00772005|164498619|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0096
82448895|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.7092|TWO_SIDED|95.0|-0.5|0.34||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day 14||0.34|-0.50|0.7092
82365582|NCT00380692|164441180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.1|STANDARD_ERROR_OF_MEAN|62.3||0.553||95.0|-160.3|86.2||P-value for Treatment\*Condition Mean Reaction Time correct rejections irrelevant target over time.|Mixed Models Analysis|||||86.2|-160.3|0.553
82365583|NCT00380692|164441180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_ERROR_OF_MEAN|57.7||0.904||95.0|-107.1|121.1||P-value for Treatment\*Condition Mean Reaction Time correct rejections relevant nontarget over time.|Mixed Models Analysis|||||121.1|-107.1|0.904
82365584|NCT00380692|164441181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|65.9||0.748||95.0|-152.8|110.3||P-value for Treatment differences in Standard Deviation of Reaction Time over time.|Mixed Models Analysis|||||110.3|-152.8|0.748
82365585|NCT00380692|164441181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-80.9|STANDARD_ERROR_OF_MEAN|77.5||0.299||95.0|-234.3|72.5||P-value for Treatment\*Condition Standard Deviation correct rejections irrelevant target over time.|Mixed Models Analysis|||||72.5|-234.3|0.299
82365586|NCT00380692|164441181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.6|STANDARD_ERROR_OF_MEAN|67.1||0.84||95.0|-119.3|146.5||P-value for Treatment\*Condition Standard Deviation correct rejections relevant nontarget over time.|Mixed Models Analysis|||||146.5|-119.3|0.840
82365587|NCT00380692|164441182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3|STANDARD_ERROR_OF_MEAN|2.8||0.126||95.0|-1.2|9.9||P-value for Treatment differences in Error Rate over time.|Mixed Models Analysis|||||9.9|-1.2|0.126
82365588|NCT00380692|164441182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.7||0.297||95.0|-5.2|1.6||P-value for Treatment\*Error Rate absent over time.|Mixed Models Analysis|||||1.6|-5.2|0.297
82365589|NCT00380692|164441182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|STANDARD_ERROR_OF_MEAN|2.1||0.023||95.0|-9.4|-0.7||P-value for Treatment\*Targets Load 1 over time.|Mixed Models Analysis|||||-0.7|-9.4|0.023
82393488|NCT00772005|164498619|SUPERIORITY_OR_OTHER|||||||0.0327||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0327
82393489|NCT00772005|164498620|SUPERIORITY_OR_OTHER|||||||0.2091||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2091
82393490|NCT00772005|164498620|SUPERIORITY_OR_OTHER|||||||0.0706||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0706
82528415|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.01||||0.938|TWO_SIDED|95.0|-0.22|0.24|||Regression, Logistic|||||0.24|-0.22|0.938
82365590|NCT00380692|164441183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-87.2|STANDARD_ERROR_OF_MEAN|71.7||0.228||95.0|-230.4|56.0||P-value for Treatment differences in Reaction Time over time.|Mixed Models Analysis|||||56.0|-230.4|0.228
82365591|NCT00380692|164441183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.6|STANDARD_ERROR_OF_MEAN|77.3||0.26||95.0|-65.6|240.8||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 1 over time.|Mixed Models Analysis|||||240.8|-65.6|0.260
82365592|NCT00380692|164441183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|70.4|STANDARD_ERROR_OF_MEAN|59.5||0.239||95.0|-47.3|188.2||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 2 over time.|Mixed Models Analysis|||||188.2|-47.3|0.239
82365593|NCT00380692|164441183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.7|STANDARD_ERROR_OF_MEAN|80.1||0.128||95.0|-35.9|281.4||P-value for Treatment\*Condition Mean Reaction Time hits Load 1 over time.|Mixed Models Analysis|||||281.4|-35.9|0.128
82365594|NCT00380692|164441184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-175.5|STANDARD_ERROR_OF_MEAN|88.0||0.051||95.0|-351.5|0.5||P-value for Treatment differences in Standard Deviation of Reaction Time over time.|Mixed Models Analysis|||||0.5|-351.5|0.051
82365595|NCT00380692|164441184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|218.1|STANDARD_ERROR_OF_MEAN|90.8||0.018||95.0|38.0|398.2||P-value for Treatment\*Condition Standard Deviation correct rejections Load 1 over time.|Mixed Models Analysis|||||398.2|38.0|0.018
82365596|NCT00380692|164441184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|173.6|STANDARD_ERROR_OF_MEAN|105.6||0.103||95.0|-35.7|383.0||P-value for Treatment\*Condition Standard Deviation correct rejections Load 2 over time.|Mixed Models Analysis|||||383.0|-35.7|0.103
82365597|NCT00380692|164441184|SUPERIORITY_OR_OTHER||Mean Difference (Net)|205.5|STANDARD_ERROR_OF_MEAN|99.9||0.042||95.0|7.5|403.6||P-value for Treatment\*Condition Standard Deviation hits Load 1 over time.|Mixed Models Analysis|||||403.6|7.5|0.042
82365598|NCT00380692|164441185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.3|STANDARD_ERROR_OF_MEAN|4.6||0.128||95.0|-16.9|2.3||P-value for Treatment difference in Accuracy over time.|Mixed Models Analysis|||||2.3|-16.9|0.128
82365599|NCT00380692|164441186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.4||0.022||95.0|-11.2|-1.0||P-value for Treatment difference in Stability of Movement over time.|Mixed Models Analysis|||||-1.0|-11.2|0.022
82365600|NCT00380692|164441187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|2.0||0.43||95.0|-2.4|5.7||P-value for Treatment difference in Error Rate over time.|Mixed Models Analysis|||||5.7|-2.4|0.430
82365601|NCT00380692|164441187|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.0|STANDARD_ERROR_OF_MEAN|2.4||0.005||95.0|-11.8|-2.2||P-value for Treatment\*Condition Error Rate irrelevant targets over time.|Mixed Models Analysis|||||-2.2|-11.8|0.005
82365602|NCT00380692|164441188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|2.9||0.221||95.0|-9.6|2.3||P-value for Treatment differences in Error Rates over time.|Mixed Models Analysis|||||2.3|-9.6|0.221
82365603|NCT00380692|164441188|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|2.0||0.307||95.0|-2.1|6.3||P-value for Treatment\*Condition Error Rates compatible signals over time.|Mixed Models Analysis|||||6.3|-2.1|0.307
82365604|NCT00380692|164441189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.0|STANDARD_ERROR_OF_MEAN|68.9||0.752||95.0|-163.1|119.1||P-value for Treatment differences in Reaction Time over time.|Mixed Models Analysis|||||119.1|-163.1|0.752
82528416|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.13||||0.209|TWO_SIDED|95.0|-0.07|0.33|||Regression, Logistic|||||0.33|-0.07|0.209
82643473|NCT00728988|165002380|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7||||0.529|TWO_SIDED|95.0|-9.6|4.3|||Chi-squared, Corrected|||8 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||4.3|-9.6|0.529
82393491|NCT00772005|164498620|SUPERIORITY_OR_OTHER|||||||0.3052||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3052
82643474|NCT00728988|165002380|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.827|TWO_SIDED|95.0|-5.8|3.6|||Chi-squared, Corrected|||24 hours post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. A 5% two-sided continuity adjusted Chi-square test was applied.||3.6|-5.8|0.827
82643475|NCT00728988|165002380|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.616|TWO_SIDED|95.0|-10.3|11.5|||Fisher Exact|||30 days post-PCI: difference (%) in proportions. Null hypothesis = no difference in proportions of the two groups. Fisher's exact test was applied because the expected frequency of biomarker elevation was less than 5.||11.5|-10.3|0.616
82643476|NCT00728988|165002381|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.53||||0.7554|TWO_SIDED|95.0|-215.87|156.81|||ANOVA|||8 hours post-PCI: difference (% change).||156.81|-215.87|0.7554
82643477|NCT00728988|165002381|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|50.58||||0.7436|TWO_SIDED|95.0|-253.42|354.58|||ANOVA|||24 hours post-PCI: difference (% change).||354.58|-253.42|0.7436
82643478|NCT00728988|165002381|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-58.22||||0.4741|TWO_SIDED|95.0|-218.12|101.68|||ANOVA|||30 days post-PCI: difference (% change).||101.68|-218.12|0.4741
82643479|NCT00116207|165002382|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||BASELINE||||0.32
82643480|NCT00116207|165002382|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24-MONTH||||0.045
82643481|NCT00116207|165002383|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||BASELINE||||0.52
82643482|NCT00116207|165002383|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.82
82643483|NCT00116207|165002384|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||p values were computed using a general linear model adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.24
82643484|NCT00116207|165002385|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||p values were computed using a general linear model (ANOVA) adjusted at baseline for age, sex, HbA1c.|ANOVA|||24 MONTH||||0.83
82643485|NCT05674721|165002386|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per Food and Drug Administration (FDA) requirements if the 90 percent (%) confidence intervals (CIs) for the ratio of the geometric means of Cmax were between 80% and 125%.|Ratio of Geometric Least Square Mean|95.13|||||TWO_SIDED|90.0|88.31|102.47||||||||102.47|88.31|
82643486|NCT05674721|165002387|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of Cmax were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.51|||||TWO_SIDED|90.0|93.54|112.35||||||||112.35|93.54|
82643487|NCT05674721|165002388|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-t were between 80% and 125%.|Ratio of Geometric Least Square Mean|99.15|||||TWO_SIDED|90.0|96.76|101.61||||||||101.61|96.76|
82643488|NCT05674721|165002389|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-t were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.62|||||TWO_SIDED|90.0|98.15|107.3||||||||107.30|98.15|
82643489|NCT05674721|165002390|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-inf were between 80% and 125%.|Ratio of Geometric Least Square Mean|99.2|||||TWO_SIDED|90.0|96.82|101.63||||||||101.63|96.82|
82643490|NCT05674721|165002391|EQUIVALENCE|The bioequivalence between Treatment A (test) and Treatment B (reference) under fasted conditions would be declared as per FDA if the 90% CIs for the ratio of the geometric means of AUC0-inf were between 80% and 125%.|Ratio of Geometric Least Square Mean|102.73|||||TWO_SIDED|90.0|98.31|107.34||||||||107.34|98.31|
82643491|NCT00091507|165002403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.28|TWO_SIDED|95.0|0.66|1.13|||Regression, Logistic|||||1.13|0.66|0.28
82643492|NCT00091507|165002404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.08|TWO_SIDED|95.0|0.3|1.07|||Regression, Logistic|||||1.07|0.30|0.08
82643493|NCT00091507|165002405|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.24|TWO_SIDED|95.0|0.43|1.23|||Regression, Logistic|||||1.23|0.43|0.24
82643494|NCT00091507|165002406|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.27|TWO_SIDED|95.0|0.4|1.29|||Regression, Logistic|||||1.29|0.40|0.27
82643495|NCT00091507|165002407|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.01|TWO_SIDED|95.0|0.27|0.85|||Regression, Logistic|||||0.85|0.27|0.01
82643496|NCT03506425|165002430|OTHER|||||||0.32|||||||t-test, 2 sided|||||||0.32
82393492|NCT00772005|164498621|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9960
82448896|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean difference|-0.49||||0.025|TWO_SIDED|95.0|-0.91|-0.06||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q18 at Day14||-0.06|-0.91|0.0250
82643497|NCT03506425|165002431|OTHER|||||||0.08|||||||ANOVA|||||||0.08
82643498|NCT03506425|165002432|OTHER|||||||0.83|||||||ANOVA|||||||0.83
82365605|NCT00380692|164441189|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.6|STANDARD_ERROR_OF_MEAN|31.9||0.564||95.0|-47.0|84.3||P-value for Treatment\*Condition Mean Reaction Time correct rejections Load 2 over time.|Mixed Models Analysis|||||84.3|-47.0|0.564
82365606|NCT03861481|164441195|SUPERIORITY||LS Mean difference (Rozimab - Placebo)|-0.052|||||TWO_SIDED|90.0|-0.892|0.788|||||MMRM analysis (fixed effect terms: treatment, baseline iRODS score, prior Ig therapy administration route, assessment week, treatment by week interaction; random effect term: study participant). LS Mean Difference \> 0 favours rozanolixizumab.|||0.788|-0.892|
82365607|NCT00773734|164441196|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.6||||0.1846|TWO_SIDED|95.0|-2.6|13.7|||Chi-squared|||||13.7|-2.6|0.1846
82365608|NCT00773734|164441196|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|23.1|||<|0.0001|TWO_SIDED|95.0|12.4|33.7|||Chi-squared|||||33.7|12.4|<0.0001
82365609|NCT00773734|164441196|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.2|||<|0.0001|TWO_SIDED|95.0|23.9|46.6|||Chi-squared|||||46.6|23.9|<0.0001
82365610|NCT00773734|164441198|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.2||||0.059|TWO_SIDED|95.0|-0.4|26.8|||Chi-squared|||||26.8|-0.4|0.0590
82365611|NCT00773734|164441198|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|22.1||||0.0023|TWO_SIDED|95.0|8.3|36.0|||Chi-squared|||||36.0|8.3|0.0023
82365612|NCT00773734|164441198|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.2|||<|0.0001|TWO_SIDED|95.0|21.6|48.9|||Chi-squared|||||48.9|21.6|<0.0001
82393493|NCT00772005|164498621|SUPERIORITY_OR_OTHER|||||||0.3604||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3604
82393494|NCT00772005|164498621|SUPERIORITY_OR_OTHER|||||||0.9528||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9528
82393495|NCT00772005|164498622|SUPERIORITY_OR_OTHER|||||||0.9797||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9797
82365613|NCT00773734|164441200|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.4||||0.1776|TWO_SIDED|95.0|-1.5|8.2|||Chi-squared|||||8.2|-1.5|0.1776
82365614|NCT00773734|164441200|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|8.1||||0.0158|TWO_SIDED|95.0|1.6|14.5|||Chi-squared|||||14.5|1.6|0.0158
82365615|NCT00773734|164441200|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.2||||0.0051|TWO_SIDED|95.0|3.2|17.2|||Chi-squared|||||17.2|3.2|0.0051
82365616|NCT00773734|164441205|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.7||||0.0156|TWO_SIDED|95.0|-24.8|-2.6|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-2.6|-24.8|0.0156
82365617|NCT00773734|164441205|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-36.4|-13.9|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-13.9|-36.4|<0.0001
82365618|NCT00773734|164441205|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-44.0|-21.7|||ANCOVA|Analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-21.7|-44.0|<0.0001
82365619|NCT00773734|164441207|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.2||||0.6541|TWO_SIDED|95.0|-11.7|7.3|||Chi-squared|||||7.3|-11.7|0.6541
82365620|NCT00773734|164441207|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.4||||0.0402|TWO_SIDED|95.0|0.6|24.1|||Chi-squared|||||24.1|0.6|0.0402
82365621|NCT00773734|164441207|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|21.1||||0.0011|TWO_SIDED|95.0|8.8|33.4|||Chi-squared|||||33.4|8.8|0.0011
82365622|NCT00773734|164441211|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.2||||0.002|TWO_SIDED|95.0|-33.0|-7.5|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate||||-7.5|-33.0|0.0020
82365623|NCT00773734|164441211|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.9|||<|0.0001|TWO_SIDED|95.0|-42.9|-17.0|||ANCOVA|based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate||||-17.0|-42.9|<0.0001
82365624|NCT00773734|164441211|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-42.4|||<|0.0001|TWO_SIDED|95.0|-55.2|-29.5||Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate|ANCOVA|||||-29.5|-55.2|<0.0001
82365625|NCT00773734|164441213|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.3||||0.1322|TWO_SIDED|95.0|-3.1|0.4|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||0.4|-3.1|0.1322
82365626|NCT00773734|164441213|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.9|-2.3|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-2.3|-5.9|<0.0001
82365627|NCT00773734|164441213|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.6||||0.0047|TWO_SIDED|95.0|-4.3|-0.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||-0.8|-4.3|0.0047
82365628|NCT00773734|164441215|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.3||||0.0078|TWO_SIDED|95.0|0.9|5.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||5.8|0.9|0.0078
82365629|NCT00773734|164441215|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.5||||0.0068|TWO_SIDED|95.0|1.0|6.0|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||6.0|1.0|0.0068
82365630|NCT00773734|164441215|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|3.6||||0.0045|TWO_SIDED|95.0|1.1|6.1|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||6.1|1.1|0.0045
82365631|NCT00773734|164441216|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.6||||0.6097|TWO_SIDED|95.0|-1.6|2.8|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||2.8|-1.6|0.6097
82365632|NCT00773734|164441216|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.3||||0.2424|TWO_SIDED|95.0|-0.9|3.6|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||3.6|-0.9|0.2424
82365633|NCT00773734|164441216|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.9528|TWO_SIDED|95.0|-2.2|2.3|||ANCOVA|Based on an analysis of covariance model with treatment group as a factor and the baseline value as a covariate.||||2.3|-2.2|0.9528
82365634|NCT02119286|164441346|SUPERIORITY_OR_OTHER||Least squared mean difference|0.122|||<|0.001|TWO_SIDED|95.0|0.091|0.152|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.152|0.091|<0.001
82365635|NCT02119286|164441346|SUPERIORITY_OR_OTHER||Least squared mean difference|0.111|||<|0.001|TWO_SIDED|95.0|0.081|0.141|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.141|0.081|<0.001
82365636|NCT02119286|164441347|SUPERIORITY_OR_OTHER||Least squared mean difference|0.147|||<|0.001|TWO_SIDED|95.0|0.114|0.179|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.179|0.114|<0.001
82365637|NCT02119286|164441347|SUPERIORITY_OR_OTHER||Least squared mean difference|0.135|||<|0.001|TWO_SIDED|95.0|0.103|0.167|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.167|0.103|<0.001
82365638|NCT03438396|164441350|OTHER|The statistical hypotheses was tested to address ORR \<= 11% vs. ORR \> 11%.||||||0.0002|||||||one-sided exact test|||||||0.0002
82365639|NCT01744093|164441371|OTHER|Descriptive proportion|Proportion (percent)|18.8|||||TWO_SIDED|95.0|4.0|45.6|||||Exact two-sided 95% Clopper-Pearson confidence interval.|||45.6|4.0|
82365640|NCT01744093|164441372|SUPERIORITY||Proportion (percent)|6.3||||0.002|TWO_SIDED|95.0|0.16|30.2|||Fisher Exact||Exact two-sided 95% Clopper-Pearson confidence interval.|Null hypothesis adverse event rate (grade 2 or higher toxicity) = 45.5%||30.2|0.16|0.002
82365641|NCT02006628|164441377|SUPERIORITY||Treatment difference (GWP42003-placebo)|-2.8||||0.1332|TWO_SIDED|95.0|-6.5|0.9|||ANCOVA|Change from baseline as the response variable, treatment as fixed effect, and individual baseline subscore and age as covariates.||||0.9|-6.5|0.1332
82365642|NCT02006628|164441378|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0896|TWO_SIDED|95.0|0.86|8.0|||Regression, Logistic|Responder (yes/no) is the dependent variable with treatment included as factor and age and baseline P, G, and N scores included as covariates.||||8.00|0.86|0.0896
82365643|NCT02006628|164441379|SUPERIORITY||Treatment difference (GWP42003-placebo)|-1.4||||0.0188|TWO_SIDED|95.0|-2.5|-0.2|||ANCOVA|||||-0.2|-2.5|0.0188
82365644|NCT02006628|164441380|SUPERIORITY||Treatment difference (GWP42003-placebo)|0.0||||0.9647|TWO_SIDED|95.0|-1.3|1.4|||ANCOVA|||||1.4|-1.3|0.9647
82365645|NCT02006628|164441381|SUPERIORITY||Treatment difference (GWP42003-placebo)|-1.3||||0.1963|TWO_SIDED|95.0|-3.2|0.7|||ANCOVA|||||0.7|-3.2|0.1963
82365646|NCT02006628|164441382|SUPERIORITY||Treatment difference (GWP42003-placebo)|-3.5||||0.1167|TWO_SIDED|95.0|-7.9|0.9|||ANCOVA|||||0.9|-7.9|0.1167
82365647|NCT02006628|164441383|SUPERIORITY||Treatment difference (GWP42003-placebo)|-0.3||||0.0443|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||||0.0|-0.5|0.0443
82365648|NCT02006628|164441384|SUPERIORITY||Treatment difference (GWP42003-placebo)|-0.5||||0.0182|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.0182
82365649|NCT02006628|164441385|SUPERIORITY||Treatment difference (GWP42003-placebo)|1.31||||0.0677|TWO_SIDED|95.0|-0.1|2.72|||ANCOVA|||||2.72|-0.10|0.0677
82365650|NCT02384941|164441389|SUPERIORITY||Least squares mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|||||Threshold for significance \< 0.05.|MMRM|||||||<0.001
82365651|NCT02384941|164441389|SUPERIORITY||Least squares mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|95.0||||Threshold for significance \< 0.05.|MMRM|||||||< 0.001
82365652|NCT02384941|164441390|SUPERIORITY||Percentage difference|11.8||||0.002|TWO_SIDED|95.0|4.28|19.36||Threshold for significance \< 0.05.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint of each treatment comparison was statistically significant at 0.05 level.||19.36|4.28|0.002
82365653|NCT02384941|164441390|SUPERIORITY||Percentage difference|21.9|||<|0.001|TWO_SIDED|95.0|14.1|29.64||Threshold for significance \< 0.05.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||29.64|14.10|< 0.001
82365654|NCT02384941|164441391|SUPERIORITY||Least squares mean difference|-2.35|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-2.85|-1.85||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-1.85|-2.85|< 0.001
82365655|NCT02384941|164441391|SUPERIORITY||Least squares mean difference|-3.45|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-3.95|-2.94||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-2.94|-3.95|< 0.001
82365656|NCT02384941|164441392|SUPERIORITY||Least squares mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.917||0.1|TWO_SIDED|95.0|-3.3|0.3||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||0.30|-3.30|0.10
82365657|NCT02384941|164441392|SUPERIORITY||Least squares mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.916|<|0.001|TWO_SIDED|95.0|-5.09|-1.5||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-1.50|-5.09|< 0.001
82365658|NCT02384941|164441393|SUPERIORITY||Least squares mean difference|-0.99|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.5|-0.48||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-0.48|-1.50|< 0.001
82365659|NCT02384941|164441394|SUPERIORITY||Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.8|3.3||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||3.3|1.8|< 0.001
82365660|NCT02384941|164441395|SUPERIORITY||Least squares mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.0|-0.5||Threshold for significance \< 0.05.|MMRM|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the relevant compared arms).||-0.5|-1.0|< 0.001
82365661|NCT02493777|164441397|SUPERIORITY||||||<|0.001|||||||Mixed model repeated measures analysis|||||||<0.001
82643499|NCT01516684|165002496|OTHER|||||||0.036|||||||T-test and chi-square|||Raw mean total dose administered and raw percentage of times additional propofol was administered will be presented by sedation group treating each event (sedation with lumbar puncture) as the unit. T-test and chi-square tests will be performed as appropriate for the outcome. GEE methods will be used when analyzing the percentage of times additional propofol was administered. Mixed model regression methods will be used when analyzing the total dose administered.||||0.036
82365662|NCT02493777|164441398|SUPERIORITY||||||<|0.001|||||||Mixed model repeated measures analysis|||||||<0.001
82365663|NCT00468728|164441399|NON_INFERIORITY_OR_EQUIVALENCE|The point estimate of the difference and the 2-sided 95% confidence interval (CI) for the difference between treatment groups were computed. If the lower limit of the CI was greater than -10%, the clinical non-inferiority of fidaxomicin was demonstrated. CIs for the difference of cure rates were calculated using the method recommended by Agresti and Caffo.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.8|6.8||||||H0: C(OPT-80) - C(VAN) \<= -10% Power calculation is based on cure rate of 85% in both treatment groups, non-inferiority margin of 10%, 2.5% (1-sided) type I error rate with approximately 90% power gives a total of 530 subjects.||6.8|-4.8|
82365664|NCT00468728|164441400|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-14.4|||<|0.001|TWO_SIDED|95.0|-21.6|-7.0|||Chi-squared|||||-7.0|-21.6|<0.001
82365665|NCT00468728|164441401|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.4||||0.001||95.0|5.4|21.1|||Chi-squared|||||21.1|5.4|0.001
82365666|NCT04572243|164441408|SUPERIORITY||Median Difference (Final Values)|-86.08|||||TWO_SIDED|95.0|-144.01|-28.14||||||||-28.14|-144.01|
82393496|NCT00772005|164498622|SUPERIORITY_OR_OTHER|||||||0.6173||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6173
82393497|NCT00772005|164498622|SUPERIORITY_OR_OTHER|||||||0.5415||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5415
82393498|NCT00772005|164498623|SUPERIORITY_OR_OTHER|||||||0.3547||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3547
82448897|NCT01122849|164605158|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.0503|TWO_SIDED|95.0|0.0|0.82||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q18 at Day 14||0.82|0.00|0.0503
82365667|NCT04572243|164441409|SUPERIORITY||Odds Ratio (OR)|6.0|||||TWO_SIDED|95.0|0.81|44.35||||||||44.35|0.81|
82365668|NCT01231373|164441413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.34|||<|0.0001|TWO_SIDED|95.0|-4.63|-2.04|||ANCOVA|||Comparison of polidocanol treatment groups versus placebo (absolute change from baseline to week 8 in patient assessment of symptoms of varicose veins (VVSymQ) score.||-2.04|-4.63|<0.0001
82365669|NCT01231373|164441413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.74|||ANCOVA|||||-2.74|-5.26|<0.0001
82365670|NCT01231373|164441413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.05|||<|0.0001|TWO_SIDED|95.0|-4.33|-1.77|||ANCOVA|||||-1.77|-4.33|<0.0001
82365671|NCT01231373|164441414|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-0.88|-0.45|||ANCOVA|||||-0.45|-0.88|<0.0001
82365672|NCT01231373|164441414|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.078|<|0.0001|TWO_SIDED|95.0|-1.04|-0.61|||ANCOVA|||||-0.61|-1.04|<0.0001
82365673|NCT01231373|164441414|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.54|||ANCOVA|||||-0.54|-0.97|<0.0001
82365674|NCT01231373|164441415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|-1.59|-0.87|||ANCOVA|||||-0.87|-1.59|<0.0001
82365675|NCT01231373|164441415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.129|<|0.0001|TWO_SIDED|95.0|-1.9|-1.18|||ANCOVA|||||-1.18|-1.90|<0.0001
82365676|NCT01231373|164441415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.83|-1.11|||ANCOVA|||||-1.11|-1.83|<0.0001
82365677|NCT00767520|164441425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.148|||||||Un-stratified log-rank test|||||||0.148
82365678|NCT01338987|164441442|OTHER|||||||0.0075|||||||Wilcoxon's rank sum test|||||||0.0075
82365679|NCT00720226|164441454|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Participants demonstrating 5-35% emphysema on baseline CT scan||||0.06
82365680|NCT00720226|164441455|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Participants with 5-35% emphysema at baseline||||0.55
82365681|NCT00279955|164441515|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.07|STANDARD_DEVIATION|0.292||0.0119|TWO_SIDED|95.0|1.17|3.67|||Regression, Cox||The estimated parameter in a Cox regression model was adjusted by age, gender, New York Heart Association (NYHA) class at 6 month visit, Angiotensin Converting Enzyme (ACE)/Angiotensin Receptor Blocker (ARB) at 6 months, and Diuretics at 6 month.|||3.67|1.17|0.0119
82365682|NCT00279955|164441516|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.9|STANDARD_DEVIATION|0.277||0.0185|TWO_SIDED|95.0|1.11|3.27|||Regression, Cox||The estimated parameter in a Cox regression model was adjusted by age, gender, NYHA class at 6 month visit, ACE/ARB at 6 months, and and at least one day where CRT pacing \<90% in last 21 days of DREP.|||3.27|1.11|0.0185
82365683|NCT00279955|164441517|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8|STANDARD_DEVIATION|0.311||0.0578|TWO_SIDED|95.0|0.98|3.31|||Regression, Cox||A Cox regression model has been used here, and the estimated parameter has been adjusted by including covariates age, gender, and NYHA class at 6 months.|||3.31|0.98|0.0578
82365684|NCT04632706|164441546|OTHER|||||||0.803||||||If the p-value is more than 0.05 then dose proportionality can not be confirmed.|Mixed Models Analysis|||Assessment of dose proportionality on D2 and D28||||0.803
82393499|NCT00772005|164498623|SUPERIORITY_OR_OTHER|||||||0.6642||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6642
82393500|NCT00772005|164498623|SUPERIORITY_OR_OTHER|||||||0.7395||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7395
82393501|NCT00772005|164498624|SUPERIORITY_OR_OTHER|||||||0.8124||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8124
82365685|NCT04632706|164441548|OTHER|||||||0.689||||||If the p-value is more than 0.05 then dose proportionality can not be confirmed.|Mixed Models Analysis|||Assessment of dose proportionality on D2 and D28||||0.689
82365686|NCT03050918|164441558|SUPERIORITY|||||||0.05||||||we used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||.05
82365687|NCT03050918|164441559|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
82393502|NCT00772005|164498624|SUPERIORITY_OR_OTHER|||||||0.8961||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8961
82393503|NCT00772005|164498624|SUPERIORITY_OR_OTHER|||||||0.4999||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4999
82393504|NCT00772005|164498634|SUPERIORITY_OR_OTHER|||||||0.454||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4540
82393505|NCT00772005|164498634|SUPERIORITY_OR_OTHER|||||||0.358||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3580
82393506|NCT00772005|164498634|SUPERIORITY_OR_OTHER|||||||0.6271||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6271
82393507|NCT00772005|164498635|SUPERIORITY_OR_OTHER|||||||0.1459||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1459
82393508|NCT00772005|164498635|SUPERIORITY_OR_OTHER|||||||0.6004||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6004
82643500|NCT01516684|165002498|OTHER|Marginal mixed model (GEE type)||||||0.094|||||||Mixed Models Analysis|||||||0.094
82393509|NCT00772005|164498635|SUPERIORITY_OR_OTHER|||||||0.0192||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0192
82393510|NCT00772005|164498636|SUPERIORITY_OR_OTHER|||||||0.8455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8455
82393511|NCT00772005|164498636|SUPERIORITY_OR_OTHER|||||||0.8715||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8715
82643501|NCT01516684|165002499|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
82643502|NCT01516684|165002500|OTHER|Marginal mixed model (GEE type)||||||0.426|||||||Mixed Models Analysis|||||||0.426
82365688|NCT03050918|164441559|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||.05
82365689|NCT03050918|164441560|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
82365690|NCT03050918|164441560|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||.05
82365691|NCT03050918|164441561|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||.05
82365692|NCT03050918|164441562|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Wilcoxon (Mann-Whitney)|||||||0.05
82365693|NCT03050918|164441563|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
82365694|NCT03050918|164441565|SUPERIORITY|||||||0.05||||||We used the O'Brian-Fleming α-spending function, allowing for an α-level of significance of 0.005 and 0.048 for the interim and final analyses, respectively.|Chi-squared|||||||0.05
82365695|NCT00430950|164441569|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.2648||95.0|-1.51|0.42|||ANCOVA|||"The ANCOVA model included treatment as main effect and baseline mean trough sitting dBP as covariate.~Significance level alpha = 5%. Power = 80%.~The following statistical superiority hypothesis was tested:~Superiority of OM/HCTZ combination therapy 40/25 mg over OM/HCTZ 20/25 mg"||0.42|-1.51|0.2648
82365696|NCT00430950|164441570|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.4246||95.0|-1.26|0.53|||ANCOVA|||||0.53|-1.26|0.4246
82365697|NCT00430950|164441571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7019||95.0|-1.84|1.24|||ANCOVA||refers to 8 week change; from week 8 to week 16|||1.24|-1.84|0.7019
82365698|NCT00430950|164441571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7328||95.0|-1.71|1.21|||ANCOVA||refers to 4 week change; from week 8 to week 12|||1.21|-1.71|0.7328
82365699|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0016||95.0|-2.58|-0.6|||ANCOVA||24 hour Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.60|-2.58|0.0016
82365700|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0031||95.0|-2.61|-0.53|||ANCOVA||daytime Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.53|-2.61|0.0031
82365701|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0073||95.0|-2.58|-0.4|||ANCOVA||night-time Ambulatory Blood Pressure Monitoring (ABPM) diastolic blood pressure (dBP)|||-0.40|-2.58|0.0073
82365702|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0021||95.0|-3.71|-0.82|||ANCOVA||24 hour Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.82|-3.71|0.0021
82393512|NCT00772005|164498636|SUPERIORITY_OR_OTHER|||||||0.0309||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0309
82528417|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.35|||<|0.001|TWO_SIDED|95.0|0.18|0.53|||Regression, Logistic|||||0.53|0.18|<0.001
82365703|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0031||95.0|-3.76|-0.76|||ANCOVA||daytime Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.76|-3.76|0.0031
82365704|NCT00430950|164441572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.0104||95.0|-3.61|-0.48|||ANCOVA||night-time Ambulatory Blood Pressure Monitoring (ABPM) systolic blood pressure (sBP)|||-0.48|-3.61|0.0104
82365705|NCT00430950|164441573|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||||95.0|0.85|1.4|||Regression, Logistic|||||1.40|0.85|
82365706|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.0234||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.0234
82365707|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.074||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.0740
82365708|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.4698||||||Ovulation rate vs Testosterone post-treatment, threshold for statistical significance = p\<0.05|Regression, Linear|||||||0.4698
82365709|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.118||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.1180
82365710|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.0311||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.0311
82365711|NCT00703508|164441586|SUPERIORITY_OR_OTHER|||||||0.1586||||||Ovulation rate vs Matsuda Index post-treatment, threshold for statistical significance = p \< 0.05.|Regression, Linear|||||||0.1586
82365712|NCT01064323|164441597|OTHER|Paired T-test to detect if there was a change from baseline to 5 minutes into intermittent pneumatic compression (IPC)||||||0.02|||||||Paired t-test|||||||0.02
82365713|NCT01064323|164441604|OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.2
82365714|NCT01564459|164441625|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.587||||0.269|TWO_SIDED|95.0|-1.637|0.464|||Constrained longitudinal data analysis|terms for treatment, time and treatment-by-time interaction||||0.464|-1.637|0.269
82365715|NCT01564459|164441626|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.687||||0.108|TWO_SIDED|95.0|-1.527|0.154|||Constrained longitudinal data analysis|terms for treatment, time and treatment-by-time interaction||||0.154|-1.527|0.108
82365716|NCT00486018|164441629|SUPERIORITY_OR_OTHER||Difference in Least Squares means|9.4|||<|0.0001||95.0|6.6|12.2||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||12.2|6.6|<0.0001
82365717|NCT00486018|164441629|SUPERIORITY_OR_OTHER||Difference in Least Squares means|10.6|||<|0.0001||95.0|7.6|13.6||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||13.6|7.6|<0.0001
82365718|NCT00486018|164441630|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||<|0.0001||95.0|15.6|38.0|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||38.0|15.6|<0.0001
82365719|NCT00486018|164441630|SUPERIORITY_OR_OTHER||Difference in percentage|31.3|||<|0.0001||95.0|20.1|42.6|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||42.6|20.1|<0.0001
82365720|NCT00486018|164441631|SUPERIORITY_OR_OTHER||Difference in percentage|4.5||||0.0141||95.0|1.6|9.9|||Fisher Exact||Exact confidence interval based on inverting the exact two-sided score test.|||9.9|1.6|0.0141
82365721|NCT00486018|164441631|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.2815||95.0|-1.5|8.3|||Fisher Exact||Exact confidence interval based on inverting the exact two-sided score test.|||8.3|-1.5|0.2815
82643503|NCT02742818|165002567|OTHER|||||||0.19|||||||Generalized Estimation Equations (GEE)|Model assuming Gaussian distribution and AR-1 correlation structure, considering repeated measures in time.|||Through inference, changes in body temperature and proportional occurrence of hypothermia during surgery were evaluated using general models of estimating equations (GEE, Liang e Zeger, 1986). Binominal and normal distributions were taken into account, respectively, and assumptions for errors normalities were verified using residual plot graphs and fitted values. The significance of other associated factors and probable outcomes were verified, including gender, age, surgery type and total surgery duration, in minutes. Since analyses were longitudinal, AR-1 working correlation matrix was created.|||0.190
82643504|NCT02742818|165002568|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
82643505|NCT02742818|165002569|OTHER|||||||0.529|||||||Chi-squared|||||||0.529
82643506|NCT02742818|165002570|OTHER|||||||0.999|||||||Chi-squared|||||||0.999
82643507|NCT02742818|165002571|OTHER|||||||0.462|||||||Wilcoxon (Mann-Whitney)|||||||0.462
82643508|NCT01785472|165002579|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test was made at a one-sided significance level of 0.025.|least Square Means net difference|-2.33|STANDARD_ERROR_OF_MEAN|0.85|<|0.001||95.0|-4.0|-0.66|||ANCOVA|||||-0.66|-4.00|<0.001
82643509|NCT01211873|165002602|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82643510|NCT01211873|165002603|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82643511|NCT01211873|165002603|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82643512|NCT01211873|165002604|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82643513|NCT01211873|165002604|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82643514|NCT00110084|165002620|SUPERIORITY_OR_OTHER||Proportion of confirmed responses (%)|50.0|||||TWO_SIDED|95.0|36.0|64.0|||||95% Confidence intervals were calculated for the true confirmed response rate using properties of the binomial distribution.|Proportion of confirmed responses was estimated by the number of patients who achieved a confirmed response divided by the total number of assessable patients.||64|36|
82643515|NCT02446496|165002624|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|95.91|||||TWO_SIDED|90.0|85.67|107.37||||||||107.37|85.67|
82365722|NCT00486018|164441632|SUPERIORITY_OR_OTHER||Difference in percentage|45.5|||<|0.0001||95.0|36.0|55.0|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||55.0|36.0|<0.0001
82365723|NCT00486018|164441632|SUPERIORITY_OR_OTHER||Difference in percentage|40.1|||<|0.0001||95.0|29.9|50.2|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||50.2|29.9|<0.0001
82528418|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.26||||0.024|TWO_SIDED|95.0|0.03|0.48|||Regression, Logistic|||||0.48|0.03|0.024
82643516|NCT02446496|165002625|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|102.31|||||TWO_SIDED|90.0|90.46|115.7|||||Comparison of AUC (0-t) between Treatment A and Treatment B|||115.70|90.46|
82643517|NCT02446496|165002625|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point estimate percent|103.13|||||TWO_SIDED|90.0|91.19|116.62|||||Comparison of AUC(0-infinity) between Treatment A and Treatment B|||116.62|91.19|
82643518|NCT02446496|165002626|SUPERIORITY_OR_OTHER|||||||0.267||95.0|||||Wilcoxon's Signed-Rank Test|Comparison of T-max between Treatment A and Treatment B.||||||0.2670
82643519|NCT04854707|165002628|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643520|NCT04854707|165002628|OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82643521|NCT04854707|165002629|OTHER||Mean Difference (Final Values)|0.017||||0.314|TWO_SIDED|95.0|-0.0161|0.0501|||Chi-squared|z-value = 1||95% Confidence intervals (CIs) of point estimates were calculated using the exact binominal distribution (Clopper-Pearson method) for proportions||0.0501|-0.0161|0.314
82643522|NCT04854707|165002629|OTHER||Mean Difference (Final Values)|0.0207||||0.482|TWO_SIDED|95.0|-0.0369|0.0782|||Chi-squared|||95% Confidence intervals (CIs) of point estimates were calculated using the exact binominal distribution (Clopper-Pearson method) for proportions||0.0782|-0.0369|0.482
82643523|NCT04854707|165002630|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643524|NCT04854707|165002630|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643525|NCT04854707|165002631|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643526|NCT04854707|165002632|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643527|NCT04854707|165002632|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82643528|NCT02115373|165002679|OTHER||Median|2.07|||||TWO_SIDED|90.0|1.446|7.195|||||TTP in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||7.195|1.446|
82643529|NCT02115373|165002679|OTHER||Median|3.98|||||TWO_SIDED|90.0|2.858|4.238|||||TTP in months was calculated for Phase 2: Tepotinib 500 mg.|||4.238|2.858|
82643530|NCT02115373|165002680|OTHER||Median|1.51|||||TWO_SIDED|90.0|1.413|3.68|||||PFS time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||3.680|1.413|
82643531|NCT02115373|165002680|OTHER||Median|3.22|||||TWO_SIDED|90.0|0.03|16.53|||||PFS time in months was calculated for Phase 2: Tepotinib 500 mg.|||16.53|0.03|
82643532|NCT02115373|165002681|OTHER||Median|1.48|||||TWO_SIDED|90.0|1.413|3.844|||||PFS time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||3.844|1.413|
82643533|NCT02115373|165002681|OTHER||Median|3.35|||||TWO_SIDED|90.0|2.76|4.172|||||PFS time in months was was calculated for Phase 2: Tepotinib 500 mg.|||4.172|2.760|
82643534|NCT02115373|165002683|OTHER||Median|7.2|||||TWO_SIDED|90.0|3.68|10.119|||||Overall Survival time in months was calculated for Phase 1b: Tepotinib 300 mg and Phase 1b: Tepotinib 500 mg combined.|||10.119|3.680|
82643535|NCT02115373|165002683|OTHER||Median|5.55|||||TWO_SIDED|90.0|5.092|8.181|||||Overall Survival time in months was calculated for Phase 2: Tepotinib 500 mg.|||8.181|5.092|
82643536|NCT00962013|165002718|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin is 7%||||||0.0136|||||||Exact Binomial|||This revision study will demonstrate a 5-year survivorship of the Restoration Modular system not seven percent worse than an expected 95% survival rate using a lower 95% one-sided confidence bound.||||0.0136
82365724|NCT00486018|164441633|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-148.7|||<|0.0001||95.0|-183.6|-113.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-113.8|-183.6|<0.0001
82365725|NCT00486018|164441633|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-134.8|||<|0.0001||95.0|-172.7|-96.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-96.8|-172.7|<0.0001
82365726|NCT00486018|164441634|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.1||||0.0214||95.0|0.6|7.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||7.6|0.6|0.0214
82393513|NCT00772005|164498637|SUPERIORITY_OR_OTHER|||||||0.2664||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2664
82393514|NCT00772005|164498637|SUPERIORITY_OR_OTHER|||||||0.3528||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3528
82444381|NCT03242018|164597433|SUPERIORITY||Percentage Difference|13.0||||0.0043|TWO_SIDED|95.0|4.28|21.75|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of metformin use at screening (Yes, No), and the randomization strata of mean SBP (\<130, ≥130 mmHg) at screening.||21.75|4.28|0.0043
82393515|NCT00772005|164498637|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0380
82448898|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.5462|TWO_SIDED|95.0|-1.92|3.59||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 7||3.59|-1.92|0.5462
82643537|NCT00962013|165002720|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from HHS pre-op to HHS 5 year||||<0.0001
82643538|NCT00962013|165002721|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Change from SF-36 Role-Physical pre-op score to 2 and 5 year scores||||<0.0001
82393516|NCT00772005|164498638|SUPERIORITY_OR_OTHER|||||||0.3316||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3316
82393517|NCT00772005|164498638|SUPERIORITY_OR_OTHER|||||||0.349||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3490
82393518|NCT00772005|164498638|SUPERIORITY_OR_OTHER|||||||0.0926||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0926
82393519|NCT00772005|164498639|SUPERIORITY_OR_OTHER|||||||0.8835||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8835
82393520|NCT00772005|164498639|SUPERIORITY_OR_OTHER|||||||0.9748||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9748
82393521|NCT00772005|164498639|SUPERIORITY_OR_OTHER|||||||0.0883||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0883
82528419|NCT04867785|164752775|SUPERIORITY||Risk Difference (RD)|0.33|||<|0.001|TWO_SIDED|95.0|0.16|0.51|||Regression, Logistic|||||0.51|0.16|<0.001
82528420|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.14||||0.169|TWO_SIDED|95.0|-0.06|0.35|||Regression, Logistic|||||0.35|-0.06|0.169
82528421|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.39||||0.001|TWO_SIDED|95.0|0.15|0.63|||Regression, Logistic|||||0.63|0.15|0.001
82643539|NCT00962013|165002723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Exact Binomial|||Post-surgery femoral stem crack/fracture rate compared to 21% (pre-specified in protocol based on literature rates) Femoral subsidence rate compared to 18% (pre-specified in protocol based on literature rates)||||<0.0001
82643540|NCT03972709|165002734|SUPERIORITY||Difference in Adjusted Means|0.29|STANDARD_ERROR_OF_MEAN|0.188||0.1206||95.0|-0.08|0.66|||MMRM|||||0.66|-0.08|0.1206
82365727|NCT00486018|164441634|SUPERIORITY_OR_OTHER||Difference in Least Squares means|6.4||||0.0002||95.0|3.0|9.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||9.8|3.0|0.0002
82365728|NCT00486018|164441635|SUPERIORITY_OR_OTHER||Difference in Least Squares means|3.8||||0.0248||95.0|0.5|7.0|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||7.0|0.5|0.0248
82365729|NCT00486018|164441635|SUPERIORITY_OR_OTHER||Difference in Least Squares means|5.1||||0.0014||95.0|2.0|8.3|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||8.3|2.0|0.0014
82365730|NCT01277718|164441672|SUPERIORITY_OR_OTHER||Ratio of Least Squares (LS) Means (in %)|111.0|||||TWO_SIDED|90.0|98.02|124.99|||||LS mean was calculated from Analysis of variance (ANOVA). Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||124.99|98.02|
82365731|NCT01277718|164441672|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|96.2|||||TWO_SIDED|90.0|85.06|108.77|||||LS mean was calculated from ANOVA. Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||108.77|85.06|
82393522|NCT00772005|164498640|SUPERIORITY_OR_OTHER|||||||0.6948||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6948
82393523|NCT00772005|164498640|SUPERIORITY_OR_OTHER|||||||0.3345||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3345
82643541|NCT03972709|165002734|SUPERIORITY||Difference in Adjusted Means|0.12|STANDARD_ERROR_OF_MEAN|0.231||0.6127||95.0|-0.34|0.57|||MMRM|||||0.57|-0.34|0.6127
82393524|NCT00772005|164498640|SUPERIORITY_OR_OTHER|||||||0.2447||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2447
82393525|NCT00772005|164498641|SUPERIORITY_OR_OTHER|||||||0.6115||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6115
82393526|NCT00772005|164498641|SUPERIORITY_OR_OTHER|||||||0.2233||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2233
82393527|NCT00772005|164498641|SUPERIORITY_OR_OTHER|||||||0.2343||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2343
82393528|NCT00772005|164498642|SUPERIORITY_OR_OTHER|||||||0.8228||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8228
82365732|NCT01277718|164441672|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|106.0|||||TWO_SIDED|90.0|94.53|119.91|||||LS mean was calculated from ANOVA. Data for AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||119.91|94.53|
82393529|NCT00772005|164498642|SUPERIORITY_OR_OTHER|||||||0.9373||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9373
82393530|NCT00772005|164498642|SUPERIORITY_OR_OTHER|||||||0.319||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3190
82393531|NCT00772005|164498643|SUPERIORITY_OR_OTHER|||||||0.9769||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9769
82444382|NCT00121641|164597495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.33||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.33|-0.90|<.0001
82393532|NCT00772005|164498643|SUPERIORITY_OR_OTHER|||||||0.8374||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8374
82393533|NCT00772005|164498643|SUPERIORITY_OR_OTHER|||||||0.7061||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7061
82393534|NCT00772005|164498644|SUPERIORITY_OR_OTHER|||||||0.9577||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9577
82393535|NCT00772005|164498644|SUPERIORITY_OR_OTHER|||||||0.5106||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5106
82393536|NCT00772005|164498644|SUPERIORITY_OR_OTHER|||||||0.2655||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2655
82393537|NCT00772005|164498645|SUPERIORITY_OR_OTHER|||||||0.3825||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3825
82643542|NCT03972709|165002741|SUPERIORITY||Difference in Adjusted Means|-0.39|STANDARD_ERROR_OF_MEAN|1.901||0.8388|TWO_SIDED|95.0|-4.14|3.36|||MMRM|||||3.36|-4.14|0.8388
82643543|NCT03972709|165002741|SUPERIORITY||Difference in Adjusted Means|-0.48|STANDARD_ERROR_OF_MEAN|2.384||0.8412|TWO_SIDED|95.0|-5.18|4.23|||MMRM|||||4.23|-5.18|0.8412
82643544|NCT03972709|165002742|SUPERIORITY||Difference in Adjusted Means|0.83|STANDARD_ERROR_OF_MEAN|2.052||0.6865|TWO_SIDED|95.0|-3.22|4.88|||MMRM|||||4.88|-3.22|0.6865
82365733|NCT01277718|164441673|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|100.0|||||TWO_SIDED|90.0|85.09|118.03|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||118.03|85.09|
82365734|NCT01277718|164441673|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|85.7|||||TWO_SIDED|90.0|72.51|101.33|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||101.33|72.51|
82528422|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.37||||0.002|TWO_SIDED|95.0|0.14|0.6|||Regression, Logistic|||||0.60|0.14|0.002
82528423|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.59|||<|0.001|TWO_SIDED|95.0|0.39|0.79|||Regression, Logistic|||||0.79|0.39|<0.001
82365735|NCT01277718|164441673|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|85.9|||||TWO_SIDED|90.0|72.94|101.17|||||LS mean was calculated from ANOVA. Data for Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||101.17|72.94|
82365736|NCT01392326|164441699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53|||<|0.0001|TWO_SIDED|95.0|3.46|8.85|||Regression, Logistic|||||8.85|3.46|<0.0001
82365737|NCT01392326|164441699|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.39|||<|0.0001|TWO_SIDED|95.0|3.37|8.62|||Regression, Logistic|||||8.62|3.37|<0.0001
82365738|NCT00603291|164441775|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.14|||<|0.0001|TWO_SIDED|95.0|2.05|4.8|||Regression, Logistic|Adjustment for baseline body weight, baseline HbA1c stratum, and prior antihyperglycemic medication stratum||||4.80|2.05|<0.0001
82365739|NCT00603291|164441776|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.06|||<|0.0001|TWO_SIDED|95.0|-3.92|-2.2|||ANCOVA|||||-2.20|-3.92|<0.0001
82393538|NCT00772005|164498645|SUPERIORITY_OR_OTHER|||||||0.2003||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2003
82393539|NCT00772005|164498645|SUPERIORITY_OR_OTHER|||||||0.0625||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0625
82393540|NCT00772005|164498646|SUPERIORITY_OR_OTHER|||||||0.2981||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2981
82393541|NCT00772005|164498646|SUPERIORITY_OR_OTHER|||||||0.0104||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0104
82444383|NCT00121641|164597495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.93|-0.36||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.36|-0.93|<.0001
82393542|NCT00772005|164498646|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0150
82528424|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.56|||<|0.001|TWO_SIDED|95.0|0.34|0.78|||Regression, Logistic|||||0.78|0.34|<0.001
82528425|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.57|||<|0.001|TWO_SIDED|95.0|0.38|0.76|||Regression, Logistic|||||0.76|0.38|<0.001
82528426|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|-0.23||||0.029|TWO_SIDED|95.0|-0.44|-0.02|||Regression, Logistic|||||-0.02|-0.44|0.029
82528427|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.02||||0.898|TWO_SIDED|95.0|-0.22|0.25|||Regression, Logistic|||||0.25|-0.22|0.898
82643545|NCT03972709|165002742|SUPERIORITY||Difference in Adjusted Means|0.2|STANDARD_ERROR_OF_MEAN|2.5||0.9355||95.0|-4.73|5.13|||MMRM|||||5.13|-4.73|0.9355
82365740|NCT04495283|164441789|SUPERIORITY||LS Mean Difference|-114.43|STANDARD_ERROR_OF_MEAN|26.65|<|0.001|ONE_SIDED|90.0||-80.01|||ANOVA|||||-80.01||<0.001
82365741|NCT04495283|164441790|SUPERIORITY||LS Mean Difference|-70.16|STANDARD_ERROR_OF_MEAN|21.549|<|0.001|ONE_SIDED|90.0||-42.32|||ANOVA|||||-42.32||<0.001
82365742|NCT02274844|164441809|SUPERIORITY|The outcomes were all continuous or ordinal measures, thus unadjusted hypothesis tests used t-tests or the Wilcoxon-Mann-Whitney test, as appropriate, and statistical modeling used linear regression. ANCOVA was used to adjust for baseline covariates with imbalance across treatment arms (race) and baseline values of the measures.|Mean Difference (Final Values)|-0.09||||0.22|TWO_SIDED|95.0|-0.23|0.05||The main hypotheses tested were that intervention participants would have higher medication adherence and significantly greater improvement in A1c, BP, LDL-C, and measures of quality of life, and self-efficacy compared to control participants.|ANCOVA|||The study was powered to detect clinically meaningful differences in physiologic risk factors; it had four primary outcomes.Power estimates accounted for clustering of patients within towns, using a variance inflation factor, conservatively estimating power for ICC=0.01-0.05. Process measures were selected to understand which aspects of the intervention were particularly effective, assessing both program satisfaction and peer coach effectiveness.||0.05|-0.23|0.22
82365743|NCT02712333|164441827|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|7.53|||<|0.05|TWO_SIDED|95.0|4.65|10.41||the p-value has been adjusted for multiple comparisons|Mixed Models Analysis|||we analyzed the serum cortisol levels (presented as relative intensities in high perfomance liquid chromatography-mass spectrum) by treatments (intervention group vs control group)||10.41|4.65|<0.05
82365744|NCT02712333|164441827|SUPERIORITY_OR_OTHER||fold change|1.33|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
82365745|NCT02712333|164441828|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|3.69|||<|0.01|TWO_SIDED|95.0|1.85|5.54||the p-value has been adjusted for multiple comparisons.|Mixed Models Analysis|||we analyzed the serum cortisone levels by treatment (intervention group vs control group)||5.54|1.85|<0.01
82365746|NCT02712333|164441828|SUPERIORITY_OR_OTHER||fold change|1.18|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
82365747|NCT02712333|164441829|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|5.17|||<|0.01|TWO_SIDED|95.0|3.21|7.14||the p-value has been adjusted for multiple comparisons.|Mixed Models Analysis|||we analyzed the serum epinephrine levels by treatment (intervention group vs control group)||7.14|3.21|<0.01
82365748|NCT02712333|164441829|SUPERIORITY_OR_OTHER||fold change|1.2|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
82393543|NCT00772005|164498647|SUPERIORITY_OR_OTHER|||||||0.4608||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4608
82393544|NCT00772005|164498647|SUPERIORITY_OR_OTHER|||||||0.0807||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0807
82393545|NCT00772005|164498647|SUPERIORITY_OR_OTHER|||||||0.2959||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2959
82393546|NCT00772005|164498648|SUPERIORITY_OR_OTHER|||||||0.6759||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6759
82393547|NCT00772005|164498648|SUPERIORITY_OR_OTHER|||||||0.2418||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2418
82444384|NCT00121641|164597495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.02|-0.44||Between-group comparisons significant at alpha = 0.019, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-0.44|-1.02|<.0001
82444385|NCT00121641|164597496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.6|STANDARD_ERROR_OF_MEAN|5.53||0.0002|TWO_SIDED|95.0|-31.47|-9.72||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-9.72|-31.47|0.0002
82393548|NCT00772005|164498648|SUPERIORITY_OR_OTHER|||||||0.9808||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9808
82393549|NCT00772005|164498649|SUPERIORITY_OR_OTHER|||||||0.7599||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7599
82393550|NCT00772005|164498649|SUPERIORITY_OR_OTHER|||||||0.4543||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4543
82393551|NCT00772005|164498649|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6040
82393552|NCT00772005|164498650|SUPERIORITY_OR_OTHER|||||||0.2476||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2476
82393553|NCT00772005|164498650|SUPERIORITY_OR_OTHER|||||||0.949||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9490
82393554|NCT00772005|164498650|SUPERIORITY_OR_OTHER|||||||0.9035||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9035
82528428|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.0||||0.968|TWO_SIDED|95.0|-0.24|0.23|||Regression, Logistic|||||0.23|-0.24|0.968
82393555|NCT00772005|164498651|SUPERIORITY_OR_OTHER|||||||0.9472||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9472
82393556|NCT00772005|164498651|SUPERIORITY_OR_OTHER|||||||0.8335||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8335
82393557|NCT00772005|164498651|SUPERIORITY_OR_OTHER|||||||0.5674||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5674
82528429|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.22||||0.033|TWO_SIDED|95.0|0.02|0.42|||Regression, Logistic|||||0.42|0.02|0.033
82528430|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.19||||0.099|TWO_SIDED|95.0|-0.04|0.41|||Regression, Logistic|||||0.41|-0.04|0.099
82528431|NCT04867785|164752776|SUPERIORITY||Risk Difference (RD)|0.2||||0.044|TWO_SIDED|95.0|0.01|0.39|||Regression, Logistic|||||0.39|0.01|0.044
82365749|NCT02712333|164441830|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|11.28|||<|0.01|TWO_SIDED|95.0|7.37|15.21||the p-value has been adjusted for multiple comparisons|Mixed Models Analysis|||we analyzed the serum norepinephrine levels by treatment (intervention group vs control group)||15.21|7.37|<0.01
82365750|NCT02712333|164441830|SUPERIORITY_OR_OTHER||fold change|1.57|||<|0.01|TWO_SIDED||||||t-test, 2 sided||fold change is calculated by measurments from the sham purification group/measurements from the real purification group|||||<0.01
82393558|NCT00772005|164498652|SUPERIORITY_OR_OTHER|||||||0.3536||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3536
82365751|NCT02712333|164441831|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|0.84|||<|0.01|TWO_SIDED|95.0|0.09|1.59|||Mixed Models Analysis|||we analyzed the serum SBP levels by treatment (intervention group vs control group)||1.59|0.09|<0.01
82365752|NCT02712333|164441832|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|0.31|||>|0.05|TWO_SIDED|95.0|-1.59|0.96|||Mixed Models Analysis|||we analyzed the serum cortisol levels by treatment (intervention group vs control group)||0.96|-1.59|>0.05
82365753|NCT02712333|164441833|SUPERIORITY_OR_OTHER||% increase per 10μg/m3 increase of PM2.5|1.24|||>|0.05|TWO_SIDED|95.0|-1.14|3.63|||Mixed Models Analysis|||we analyzed the serum cortisol levels by treatment (intervention group vs control group)||3.63|-1.14|>0.05
82365754|NCT02278718|164441834|SUPERIORITY|||||||0.0008|||||||Generalized Wilcoxon-Gehan Test|||Wilcoxon test statistic was estimated using generalized Wilcoxon-Gehan test stratified by center group, age group, % TBSA group, proportion of FT area group and number of TWs group. A negative (positive) statistic is associated with longer (shorter) time to the event when treated with NexoBrid vs. Standard of Care. P-value was calculated using the re-randomization test.||||0.0008
82365755|NCT02278718|164441835|SUPERIORITY||Odds Ratio (OR)|0.025|||<|0.0001|TWO_SIDED|95.0|0.007|0.09|||Fisher Exact|||Incidence of Surgical Excision for Eschar Removal for NexoBrid vs SOC||0.090|0.007|<0.0001
82365756|NCT02278718|164441836|SUPERIORITY|||||||0.1374|||||||t-test, 2 sided|||||||0.1374
82393559|NCT00772005|164498652|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1940
82393560|NCT00772005|164498652|SUPERIORITY_OR_OTHER|||||||0.2129||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2129
82393561|NCT00772005|164498653|SUPERIORITY_OR_OTHER|||||||0.584||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5840
82393562|NCT00772005|164498653|SUPERIORITY_OR_OTHER|||||||0.6028||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6028
82393563|NCT00772005|164498653|SUPERIORITY_OR_OTHER|||||||0.1426||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1426
82393564|NCT00772005|164498654|SUPERIORITY_OR_OTHER|||||||0.5989||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5989
82393565|NCT00772005|164498654|SUPERIORITY_OR_OTHER|||||||0.7411||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7411
82393566|NCT00772005|164498654|SUPERIORITY_OR_OTHER|||||||0.1566||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1566
82365757|NCT02278718|164441837|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.5045|TWO_SIDED||||||t-test, 2 sided|||||||0.5045
82365758|NCT02278718|164441838|SUPERIORITY||Odds Ratio (OR)|0.414||||0.0545|TWO_SIDED|95.0|0.163|1.054|||t-test, 2 sided|||||1.054|0.163|0.0545
82365759|NCT03212794|164441839|SUPERIORITY||||||=|0.87||||||Threshold for significance p\<0.05|Chi-squared|||||||=0.87
82365760|NCT03212794|164441840|SUPERIORITY||||||=|0.82||||||Threshold for significance p\<0.05|Chi-squared|||||||=0.82
82365761|NCT03212794|164441841|OTHER||||||=|0.92||||||Threshold for significance p\<0.05|Log Rank|If no event occurred, the data from those individuals were right censored.||||||=0.92
82365762|NCT03212794|164441842|OTHER||||||=|0.85||||||Threshold for significance p\<0.05|Log Rank|If no event occurred, the data from those individuals were right censored.||||||=0.85
82365763|NCT01763918|164441843|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-59.23|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-65.11|-53.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.35|-65.11|<0.001
82365764|NCT01763918|164441843|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-61.27|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-69.0|-53.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.55|-69.00|<0.001
82365765|NCT01763918|164441844|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.15|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-65.83|-54.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.46|-65.83|<0.001
82365766|NCT01763918|164441844|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.55|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-71.27|-59.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||Within each dose frequency, the null hypothesis was that there was no mean difference in the percent change from baseline at week 12 or in the percent change from baseline at the mean of weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-59.83|-71.27|<0.001
82365767|NCT01763918|164441845|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-95.2|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-105.1|-85.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-85.2|-105.1|<0.001
82365768|NCT01763918|164441845|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-97.4|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-107.1|-87.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-87.7|-107.1|<0.001
82365769|NCT01763918|164441846|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-92.9|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-102.9|-82.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-82.8|-102.9|<0.001
82365770|NCT01763918|164441846|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-91.3|STANDARD_ERROR_OF_MEAN|6.3|<|0.001|TWO_SIDED|95.0|-103.8|-78.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-78.9|-103.8|<0.001
82365771|NCT01763918|164441847|SUPERIORITY_OR_OTHER||Treatment Difference|65.1|||<|0.001|TWO_SIDED|95.0|52.8|73.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||73.4|52.8|<0.001
82365772|NCT01763918|164441847|SUPERIORITY_OR_OTHER||Treatment Difference|78.5|||<|0.001|TWO_SIDED|95.0|66.9|85.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||85.1|66.9|<0.001
82393567|NCT00772005|164498655|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2610
82393568|NCT00772005|164498655|SUPERIORITY_OR_OTHER|||||||0.4457||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4457
82393569|NCT00772005|164498655|SUPERIORITY_OR_OTHER|||||||0.1342||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1342
82528432|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-2.12||||0.823|TWO_SIDED|95.0|-20.73|16.48|||Mixed Models Analysis|||||16.48|-20.73|0.823
82365773|NCT01763918|164441848|SUPERIORITY_OR_OTHER||Treatment Difference|66.3|||<|0.001|TWO_SIDED|95.0|53.7|74.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use||||74.6|53.7|<0.001
82365774|NCT01763918|164441848|SUPERIORITY_OR_OTHER||Treatment Difference|60.9|||<|0.001|TWO_SIDED|95.0|47.6|69.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and ezetimibe use.||||69.8|47.6|<0.001
82365775|NCT01763918|164441849|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-56.0|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-61.41|-50.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.59|-61.41|<0.001
82365776|NCT01763918|164441849|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.01|STANDARD_ERROR_OF_MEAN|2.65|<|0.001|TWO_SIDED|95.0|-65.24|-54.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-54.77|-65.24|<0.001
82365777|NCT01763918|164441850|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.79|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-60.47|-49.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-49.12|-60.47|<0.001
82528433|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-19.6||||0.165|TWO_SIDED|95.0|-47.29|8.1|||Mixed Models Analysis|||||8.10|-47.29|0.165
82528434|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-33.3||||0.001|TWO_SIDED|95.0|-53.56|-13.04|||Mixed Models Analysis|||||-13.04|-53.56|0.001
82643546|NCT04466956|165002757|OTHER|Statistical analysis was by intention-to-treat including all randomised participants, using Stata-12 software. Continuous data were summarised as mean and standard deviation, and categorical data as counts and percentages. Between group differences were reported with 95% confidence intervals, and p-values, using t-test to compare normally distributed data and chi-squared tests to compare categorical data.|||||<|0.01|TWO_SIDED|95.0||||Between group differences were reported with 95% confidence intervals, and p-values, using t-test to compare normally distributed data and chi-squared tests to compare categorical data.|t-test, 1 sided|||Mean worst pain scores were 5.98 and 6.88 in the standard care and VR groups respectively, with difference in means -0.9 (95% CI -2.1 - 0.28), p value 0.13. Mean anxiety scores at the end of the procedure were 3.94 and 4.4 in the standard care and VR groups respectively, with difference in means -0.46 (95% CI -2.1, 1.1), p value 0.57.||||<0.01
82365778|NCT01763918|164441850|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.95|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-61.95|-47.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-47.96|-61.95|<0.001
82365779|NCT01763918|164441851|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.39|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-54.32|-44.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-44.46|-54.32|<0.001
82365780|NCT01763918|164441851|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.98|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-59.58|-50.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.38|-59.58|<0.001
82365781|NCT01763918|164441852|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.09|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-54.55|-43.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-43.63|-54.55|<0.001
82365782|NCT01763918|164441852|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.41|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|-55.73|-43.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-43.10|-55.73|<0.001
82365783|NCT01763918|164441853|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.59|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-51.43|-41.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-41.76|-51.43|<0.001
82365784|NCT01763918|164441853|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.16|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-54.21|-44.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-44.11|-54.21|<0.001
82365785|NCT01763918|164441854|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.08|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|-51.27|-40.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-40.88|-51.27|<0.001
82643547|NCT00203931|165002758|SUPERIORITY_OR_OTHER|||||||0.11|||||||Log Rank|||||||0.11
82643548|NCT00203931|165002759|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon-Gehan test|||||||0.91
82365786|NCT01763918|164441854|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.42|STANDARD_ERROR_OF_MEAN|3.77|<|0.001|TWO_SIDED|95.0|-52.86|-37.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-37.98|-52.86|<0.001
82365787|NCT01763918|164441855|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.17|STANDARD_ERROR_OF_MEAN|2.62|<|0.001|TWO_SIDED|95.0|-58.35|-47.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-47.99|-58.35|<0.001
82365788|NCT01763918|164441855|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-55.56|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-61.08|-50.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-50.05|-61.08|<0.001
82365789|NCT01763918|164441856|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.28|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-60.16|-48.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-48.41|-60.16|<0.001
82365790|NCT01763918|164441856|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.55|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-58.14|-40.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-40.96|-58.14|<0.001
82393570|NCT00772005|164498656|SUPERIORITY_OR_OTHER|||||||0.0974||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0974
82365791|NCT01763918|164441857|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.37|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-38.33|-24.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-24.41|-38.33|<0.001
82365792|NCT01763918|164441857|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.0|STANDARD_ERROR_OF_MEAN|3.5|<|0.001|TWO_SIDED|95.0|-37.91|-24.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-24.09|-37.91|<0.001
82365793|NCT01763918|164441858|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-31.57|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-39.28|-23.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-23.87|-39.28|<0.001
82365794|NCT01763918|164441858|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-28.24|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-35.61|-20.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-20.88|-35.61|<0.001
82365795|NCT01763918|164441859|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.36|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-29.48|-15.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-15.24|-29.48|<0.001
82365796|NCT01763918|164441859|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.74|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-24.43|-9.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-9.05|-24.43|<0.001
82365797|NCT01763918|164441860|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-19.59|STANDARD_ERROR_OF_MEAN|4.22|<|0.001|TWO_SIDED|95.0|-27.92|-11.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-11.26|-27.92|<0.001
82365798|NCT01763918|164441860|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.56|STANDARD_ERROR_OF_MEAN|4.97|<|0.001|TWO_SIDED|95.0|-21.38|-1.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-1.74|-21.38|<0.001
82365799|NCT01763918|164441861|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|8.38|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|4.36|12.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||12.40|4.36|<0.001
82365800|NCT01763918|164441861|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.48|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|5.1|13.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||13.85|5.10|<0.001
82393571|NCT00772005|164498656|SUPERIORITY_OR_OTHER|||||||0.664||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6640
82365801|NCT01763918|164441862|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.2|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|4.66|13.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||13.74|4.66|<0.001
82365802|NCT01763918|164441862|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.07|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|3.48|1466.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||1466|3.48|<0.001
82365803|NCT01763918|164441863|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.63|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-29.46|-15.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-15.81|-29.46|<0.001
82365804|NCT01763918|164441863|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-15.54|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-23.25|-7.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-7.84|-23.25|<0.001
82365805|NCT01763918|164441864|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.97|STANDARD_ERROR_OF_MEAN|4.21|<|0.001|TWO_SIDED|95.0|-29.29|-12.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||-12.66|-29.29|<0.001
82393572|NCT00772005|164498656|SUPERIORITY_OR_OTHER|||||||0.1507||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1507
82393573|NCT00772005|164498657|SUPERIORITY_OR_OTHER|||||||0.7649||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7649
82393574|NCT00772005|164498657|SUPERIORITY_OR_OTHER|||||||0.4866||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4866
82393575|NCT00772005|164498657|SUPERIORITY_OR_OTHER|||||||0.5002||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5002
82393576|NCT00772005|164498658|SUPERIORITY_OR_OTHER|||||||0.2076||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2076
82393577|NCT00772005|164498658|SUPERIORITY_OR_OTHER|||||||0.9355||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9355
82393578|NCT00772005|164498658|SUPERIORITY_OR_OTHER|||||||0.189||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1890
82365806|NCT01763918|164441864|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-9.17|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|95.0|-19.01|0.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C and ezetimibe use, scheduled visit, and the interaction of treatment with scheduled visit.||||0.68|-19.01|<0.001
82365807|NCT01553747|164441870|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
82365808|NCT01553747|164441870|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
82393579|NCT00772005|164498659|SUPERIORITY_OR_OTHER|||||||0.632||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6320
82393580|NCT00772005|164498659|SUPERIORITY_OR_OTHER|||||||0.8777||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8777
82393581|NCT00772005|164498659|SUPERIORITY_OR_OTHER|||||||0.4378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4378
82393582|NCT00772005|164498660|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5544
82393583|NCT00772005|164498660|SUPERIORITY_OR_OTHER|||||||0.4446||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4446
82393584|NCT00772005|164498660|SUPERIORITY_OR_OTHER|||||||0.4483||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4483
82643549|NCT00203931|165002760|SUPERIORITY_OR_OTHER|||||||0.24|||||||Fisher Exact|||||||0.24
82393585|NCT00772005|164498661|SUPERIORITY_OR_OTHER|||||||0.1914||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1914
82393586|NCT00772005|164498661|SUPERIORITY_OR_OTHER|||||||0.2543||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2543
82643550|NCT00203931|165002761|SUPERIORITY_OR_OTHER|||||||0.046|||||||Wilcoxon-Gehan test|||||||0.046
82643551|NCT00203931|165002762|SUPERIORITY_OR_OTHER|||||||0.029|||||||Log Rank|||||||0.029
82365809|NCT01553747|164441871|SUPERIORITY|||||||0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||0.001
82365810|NCT01553747|164441871|SUPERIORITY||||||<|0.001||||||Significance level of 0.025|Chi-square test statistic|||The family-wise error rate was controlled by Bonferroni adjustment for each active dose versus placebo.||||<0.001
82365811|NCT01490931|164441905|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P value adjusted with Bonferroni corrections for multiple comparisons|t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365812|NCT01490931|164441909|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82643552|NCT01393626|165002763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86||||0.3249|TWO_SIDED|95.0|-7.64|21.36|||Cochran-Mantel-Haenszel|||Tofacitinib-Placebo||21.36|-7.64|0.3249
82365813|NCT01490931|164441910|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365814|NCT01490931|164441911|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365815|NCT01490931|164441912|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365816|NCT01490931|164441913|SUPERIORITY_OR_OTHER||||||<|1|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0001
82365817|NCT01490931|164441914|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365818|NCT01490931|164441915|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82365819|NCT01490931|164441916|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Changes in pain intensity on the VAS were statistically compared to baseline pain utilizing paired t tests with Bonferroni corrections for multiple comparisons. The median onsets of first perceptible and meaningful relief (with 95% confidence intervals) were calculated and then used to construct Kaplan-Meier Curves of the distribution of pain relief times.||||<0.0001
82393587|NCT00772005|164498661|SUPERIORITY_OR_OTHER|||||||0.9748||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9748
82365820|NCT00754494|164441941|SUPERIORITY_OR_OTHER|||||||0.762|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.762
82365821|NCT00754494|164441941|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.125
82393588|NCT00772005|164498662|SUPERIORITY_OR_OTHER|||||||0.5312||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5312
82393589|NCT00772005|164498662|SUPERIORITY_OR_OTHER|||||||0.7522||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7522
82643553|NCT01393626|165002763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.36||||0.3916|TWO_SIDED|95.0|-8.09|20.8|||Cochran-Mantel-Haenszel|||Tofacitinib-Placebo||20.80|-8.09|0.3916
82365822|NCT00754494|164441941|SUPERIORITY_OR_OTHER|||||||0.855|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.855
82365823|NCT00754494|164441942|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.369
82365824|NCT00754494|164441942|SUPERIORITY_OR_OTHER|||||||0.085|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.085
82365825|NCT00754494|164441942|SUPERIORITY_OR_OTHER|||||||0.233|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.233
82365826|NCT00754494|164441943|SUPERIORITY_OR_OTHER|||||||0.651|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.651
82365827|NCT00754494|164441943|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.030
82365828|NCT00754494|164441943|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||General Linear Model|||A log-transformation of pEGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median pEGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.261
82365829|NCT00754494|164441944|SUPERIORITY_OR_OTHER|||||||0.654|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.654
82365830|NCT00754494|164441944|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.030
82365831|NCT00754494|164441944|SUPERIORITY_OR_OTHER|||||||0.083|TWO_SIDED||||||General Linear Model|||A log-transformation of total EGFR was utilized in primary analyses because of the highly skewed distribution observed in this outcome. The general linear model was used to estimate and compare the relative change in median total EGFR with adjustment for actin as a normalizing factor. The estimated relative change (post:pre) in the median, corresponding 95% confidence interval, and p-value for testing the null hypothesis of equal medians comparing pre- and post-measurements were reported.||||0.083
82365832|NCT05528861|164441983|SUPERIORITY||LSM Difference from Placebo|0.5|STANDARD_ERROR_OF_MEAN|2.1||0.8174|TWO_SIDED|95.0|-3.6|4.5|||ANCOVA|||||4.5|-3.6|0.8174
82365833|NCT05528861|164441984|SUPERIORITY||LSM Difference from Placebo|0.6|STANDARD_ERROR_OF_MEAN|1.1||0.5857|TWO_SIDED|95.0|-1.6|2.8|||Mixed Models Analysis|||||2.8|-1.6|0.5857
82528435|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-55.5|||<|0.001|TWO_SIDED|95.0|-69.77|-41.22|||Mixed Models Analysis|||||-41.22|-69.77|<0.001
82365834|NCT05528861|164441985|SUPERIORITY||LSM Difference from Placebo|-0.1|STANDARD_ERROR_OF_MEAN|1.1||0.9633|TWO_SIDED|95.0|-2.2|2.1|||Mixed Models Analysis|||||2.1|-2.2|0.9633
82365835|NCT05528861|164441986|SUPERIORITY||Risk Difference (RD)|6.25||||0.1201|TWO_SIDED|95.0|-11.4|23.78|||Fisher Exact|||||23.78|-11.40|0.1201
82365836|NCT01602172|164441989|EQUIVALENCE|Results of the regression models were used to reject null hypotheses of equivalence with p-values of comparisons across groups in changes in alcohol related measures using p-values \< 0.05 as significant.||||||0.05||||||First, significance of the regression model was viewed. When the overall model was significant, tests of the co-efficients were viewed. Primary effects of interest were the treatment group X time interactions.|Mixed Models Analysis|||Measures were compared with linear mixed effects regression models to compare impact of BI compared to usual care conditions. Analyses reported here included only those that completed the 6 month interview (71/82 baseline participants).||||.05
82365837|NCT00518882|164442007|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test is below 0.4%|Estimated treatment difference, LS Mean|-0.33|||<|0.0001||95.0|-0.47|-0.18||No multiplicity concerns|ANCOVA|||"ANCOVA with treatment, country and previous OAD treatment as fixed effects and baseline HbA1c as covariate.~2 hypotheses were tested: H01: µliraglutide ≥ µexenatide + Δ, HA1: µliraglutide \< µexenatide + Δ; Δ=0.4%. If non-inferiority was concluded, a test for superiority was established by a 1-sided test of the hypothesis H02: µliraglutide ≥ µexenatide against HA2: µliraglutide \< µexenatide. Superiority was concluded if the upper limit of the 2-sided 95% CI for the difference was below 0%."||-0.18|-0.47|<.0001
82365838|NCT00518882|164442008|SUPERIORITY_OR_OTHER||Mean|0.25|STANDARD_DEVIATION|0.803|<|0.0001||95.0|0.139|0.364|||Paired t-test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.364|0.139|<0.0001
82393590|NCT00772005|164498662|SUPERIORITY_OR_OTHER|||||||0.3183||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3183
82528436|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-29.22||||0.015|TWO_SIDED|95.0|-52.84|-5.59|||Mixed Models Analysis|||||-5.59|-52.84|0.015
82528437|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-54.61|||<|0.001|TWO_SIDED|95.0|-69.63|-39.59|||Mixed Models Analysis|||||-39.59|-69.63|<0.001
82365839|NCT00518882|164442008|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.924||0.9872||95.0|-1.36|0.134|||Paired t-test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.134|-1.36|0.9872
82365840|NCT00518882|164442009|SUPERIORITY_OR_OTHER||Mean|-0.98|STANDARD_DEVIATION|1.119|<|0.0001||95.0|-1.137|-0.823|||Paired t-test|||The analysis was made with a paired t test within the treatment group and 95% confidence intervals for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0 = 0 against HA: µ78 - µ0 ≠ 0. A difference between the two means (Weeks 0 and 78) was concluded when H0 was rejected at the 5% level.||-0.823|-1.137|<0.0001
82365841|NCT00518882|164442009|SUPERIORITY_OR_OTHER||Mean|-0.85|STANDARD_DEVIATION|1.105|<|0.0001||95.0|-1.01|-0.687|||Paired t-test|||The analysis was made with a paired t test within the exenatide→liraglutide group and 95% confidence intervals for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0 = 0 against HA: µ78 - µ0 ≠ 0. A difference between the two means (Weeks 0 and 78) was concluded when H0 was rejected at the 5% level.||-0.687|-1.010|<0.0001
82365842|NCT00518882|164442012|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.38||||0.2235||95.0|-0.99|0.23||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline body weight as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the body weight in the liraglutide arm and exenatide arm, respectively.||0.23|-0.99|0.2235
82365843|NCT00518882|164442013|SUPERIORITY_OR_OTHER||Mean|-0.4|STANDARD_DEVIATION|3.24||0.0793||95.0|-0.86|0.05|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26=0 against HA: µ78 - µ26 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.05|-0.86|0.0793
82365844|NCT00518882|164442013|SUPERIORITY_OR_OTHER||Mean|-0.7|STANDARD_DEVIATION|3.67||0.0075||95.0|-1.26|-0.2|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.20|-1.26|0.0075
82365845|NCT00518882|164442014|SUPERIORITY_OR_OTHER||Mean|-3.3|STANDARD_DEVIATION|4.63|<|0.0001||95.0|-3.9|-2.61|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.61|-3.90|<0.0001
82365846|NCT00518882|164442014|SUPERIORITY_OR_OTHER||Mean|-3.2|STANDARD_DEVIATION|4.44|<|0.0001||95.0|-3.85|-2.55|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.55|-3.85|<0.0001
82365847|NCT00518882|164442015|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-1.01|||<|0.0001||95.0|-1.37|-0.65||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline fasting plasma glucose as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the fasting plasma glucose in the liraglutide and exenatide arm, respectively.||-0.65|-1.37|<0.0001
82365848|NCT00518882|164442016|SUPERIORITY_OR_OTHER||Mean|0.7|STANDARD_DEVIATION|1.84|<|0.0001||95.0|0.48|1.0|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 26 and 78 were constructed. H0 was µ78- µ26=0 against HA: µ78 - µ26 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||1.00|0.48|<0.0001
82365849|NCT00518882|164442016|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|2.42||0.4864||95.0|-0.48|0.23|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.23|-0.48|0.4864
82365850|NCT00518882|164442017|SUPERIORITY_OR_OTHER||Mean|-1.3|STANDARD_DEVIATION|2.5|<|0.0001||95.0|-1.62|-0.92|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.92|-1.62|<0.0001
82365851|NCT00518882|164442017|SUPERIORITY_OR_OTHER||Mean|-0.8|STANDARD_DEVIATION|2.76|<|0.0001||95.0|-1.23|-0.42|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78 - µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.42|-1.23|<0.0001
82365852|NCT00518882|164442018|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|1.33|||<|0.0001||95.0|0.8|1.86||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.86|0.80|<.0001
82365853|NCT00518882|164442019|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.01||||0.9849||95.0|-0.52|0.53||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.53|-0.52|0.9849
82393591|NCT00772005|164498663|SUPERIORITY_OR_OTHER|||||||0.5879||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5879
82365854|NCT00518882|164442020|SUPERIORITY_OR_OTHER||LS Mean|1.01||||0.0005||95.0|0.44|1.57||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.57|0.44|0.0005
82365855|NCT00518882|164442021|SUPERIORITY_OR_OTHER||Mean|-0.22|STANDARD_DEVIATION|2.866||0.2972||95.0|-0.626|0.192|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.192|-0.626|0.2972
82365856|NCT00518882|164442021|SUPERIORITY_OR_OTHER||Mean|1.15|STANDARD_DEVIATION|3.253|<|0.0001||95.0|0.66|1.637|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.637|0.660|<0.0001
82365857|NCT00518882|164442022|SUPERIORITY_OR_OTHER||Mean|0.05|STANDARD_DEVIATION|3.307||0.8396||95.0|-0.424|0.521|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.521|-0.424|0.8396
82365858|NCT00518882|164442022|SUPERIORITY_OR_OTHER||Mean|-0.09|STANDARD_DEVIATION|3.419||0.7278||95.0|-0.604|0.423|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.423|-0.604|0.7278
82365859|NCT00518882|164442023|SUPERIORITY_OR_OTHER||Mean|0.22|STANDARD_DEVIATION|3.053||0.3271||95.0|-0.219|0.654|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.654|-0.219|0.3271
82365860|NCT00518882|164442023|SUPERIORITY_OR_OTHER||Mean|1.07|STANDARD_DEVIATION|3.775||0.0003||95.0|0.497|1.634|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.634|0.497|0.0003
82393592|NCT00772005|164498663|SUPERIORITY_OR_OTHER|||||||0.891||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8910
82393593|NCT00772005|164498663|SUPERIORITY_OR_OTHER|||||||0.1795||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1795
82365861|NCT00518882|164442024|SUPERIORITY_OR_OTHER||Mean|-1.08|STANDARD_DEVIATION|3.662|<|0.0001||95.0|-1.605|-0.562|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.562|-1.605|<0.0001
82365862|NCT00518882|164442024|SUPERIORITY_OR_OTHER||Mean|-0.99|STANDARD_DEVIATION|3.467||0.0003||95.0|-1.517|-0.458|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.458|-1.517|0.0003
82365863|NCT00518882|164442025|SUPERIORITY_OR_OTHER||Mean|0.26|STANDARD_DEVIATION|4.158||0.3859||95.0|-0.331|0.853|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.853|-0.331|0.3859
82365864|NCT00518882|164442025|SUPERIORITY_OR_OTHER||Mean|-0.37|STANDARD_DEVIATION|3.838||0.2119||95.0|-0.956|0.214|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.214|-0.956|0.2119
82365865|NCT00518882|164442026|SUPERIORITY_OR_OTHER||Mean|-0.35|STANDARD_DEVIATION|3.975||0.229||95.0|-0.917|0.2211|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.2211|-0.917|0.2290
82365866|NCT00518882|164442026|SUPERIORITY_OR_OTHER||Mean|-0.95|STANDARD_DEVIATION|3.23||0.0002||95.0|-1.449|-0.459|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.459|-1.449|0.0002
82365867|NCT00518882|164442027|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.73||||0.0124||95.0|0.16|1.31||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.31|0.16|0.0124
82365868|NCT00518882|164442028|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.39||||0.143||95.0|-0.91|0.13||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.13|-0.91|0.1430
82365869|NCT00518882|164442029|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.54||||0.038||95.0|0.03|1.05||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||1.05|0.03|0.0380
82365870|NCT00518882|164442030|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|2.827||0.77||95.0|-0.344|0.463|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.463|-0.344|0.7700
82575341|NCT03334253|164860426|SUPERIORITY|"The following assumptions were used in the power calculation:~* 2:1 randomization~* treatment group difference of 0.50D~* standard deviation of 0.80D~* type 1 error of 5% (2-sided)~* up to 10% loss to follow up"|Adjusted mean difference|-0.02|||||TWO_SIDED|95.0|-0.19|0.15|||||Atropine - Placebo Adjusted mean difference, adjusting for baseline refractive error, age, iris color (brown vs. not brown), and race (East Asian vs. non-East Asian).|Null Hypothesis: no difference in mean change in SER from baseline to 24 months between the atropine and placebo groups||0.15|-0.19|
82575342|NCT03334253|164860427|SUPERIORITY|"The following assumptions were used in the power calculation:~* 2:1 randomization~* treatment group difference of 0.50D~* standard deviation of 0.80D~* type 1 error of 5% (2-sided)~* up to 10% loss to follow up"|Adjusted mean difference|-0.04|||||TWO_SIDED|95.0|-0.25|0.17|||||Atropine-Placebo Adjusted mean difference, adjusting for baseline refractive error, age, iris color (brown vs. not brown), and race (East Asian vs. non-East Asian).|Null Hypothesis: no difference in mean change in SER from baseline to 24 months between the atropine and placebo groups||0.17|-0.25|
82643554|NCT02426125|165002783|SUPERIORITY||Hazard Ratio (HR)|0.757||||0.0118|TWO_SIDED|95.0|0.607|0.943||Stratified|Log Rank||Stratified|||0.943|0.607|0.0118
82365871|NCT00518882|164442030|SUPERIORITY_OR_OTHER||Mean|0.72|STANDARD_DEVIATION|3.27||0.0042||95.0|0.23|1.212|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||1.212|0.230|0.0042
82393594|NCT00772005|164498664|SUPERIORITY_OR_OTHER|||||||0.6378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6378
82393595|NCT00772005|164498664|SUPERIORITY_OR_OTHER|||||||0.8679||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8679
82393596|NCT00772005|164498664|SUPERIORITY_OR_OTHER|||||||0.5489||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5489
82393597|NCT00772005|164498665|SUPERIORITY_OR_OTHER|||||||0.9337||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9337
82643555|NCT02426125|165002784|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.2461|TWO_SIDED|95.0|0.724|1.086||Stratified|Log Rank||Stratified|||1.086|0.724|0.2461
82365872|NCT00518882|164442031|SUPERIORITY_OR_OTHER||Mean|0.67|STANDARD_DEVIATION|3.041||0.0026||95.0|0.238|1.106|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.106|0.238|0.0026
82393598|NCT00772005|164498665|SUPERIORITY_OR_OTHER|||||||0.9428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9428
82393599|NCT00772005|164498665|SUPERIORITY_OR_OTHER|||||||0.5895||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5895
82448899|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.37||||0.0942|TWO_SIDED|95.0|-5.16|0.42||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for sleep problems at Day 7||0.42|-5.16|0.0942
82575343|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|3.959||0.9779|TWO_SIDED|90.0|-6.49|6.71|||Mixed Models Analysis|||Month 3: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.71|-6.49|0.9779
82575344|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|3.815||0.8801|TWO_SIDED|90.0|-5.79|6.94|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.94|-5.79|0.8801
82643556|NCT02426125|165002787|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.189|TWO_SIDED|95.0|0.473|1.158|||Log Rank|||||1.158|0.473|0.189
82643557|NCT02426125|165002788|SUPERIORITY||Hazard Ratio (HR)|0.879||||0.357|TWO_SIDED|95.0|0.663|1.167||Stratified|Log Rank||Stratified|Global health status/QoL||1.167|0.663|0.357
82643558|NCT04193033|165002812|SUPERIORITY|||||||0.001|||||||Linear Growth Curve Model|||||||0.001
82393600|NCT00772005|164498666|SUPERIORITY_OR_OTHER|||||||0.8695||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8695
82393601|NCT00772005|164498666|SUPERIORITY_OR_OTHER|||||||0.6637||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6637
82393602|NCT00772005|164498666|SUPERIORITY_OR_OTHER|||||||0.3152||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3152
82365873|NCT00518882|164442031|SUPERIORITY_OR_OTHER||Mean|-0.09|STANDARD_DEVIATION|2.989||0.6845||95.0|-0.541|0.356|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.356|-0.541|0.6845
82365874|NCT00518882|164442032|SUPERIORITY_OR_OTHER||Mean|0.32|STANDARD_DEVIATION|2.705||0.1041||95.0|-0.066|0.706|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.706|-0.066|0.1041
82365875|NCT00518882|164442032|SUPERIORITY_OR_OTHER||Mean|0.58|STANDARD_DEVIATION|3.114||0.0151||95.0|0.114|1.052|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||1.052|0.114|0.0151
82365876|NCT00518882|164442033|SUPERIORITY_OR_OTHER||Mean|-3.31|STANDARD_DEVIATION|3.857|<|0.0001||95.0|-3.861|-2.763|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.763|-3.861|<0.0001
82365877|NCT00518882|164442033|SUPERIORITY_OR_OTHER||Mean|-3.13|STANDARD_DEVIATION|3.56|<|0.0001||95.0|-3.673|-2.589|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-2.589|-3.673|<0.0001
82393603|NCT00772005|164498667|SUPERIORITY_OR_OTHER|||||||0.7472||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7472
82393604|NCT00772005|164498667|SUPERIORITY_OR_OTHER|||||||0.4503||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4503
82393605|NCT00772005|164498667|SUPERIORITY_OR_OTHER|||||||0.3127||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3127
82393606|NCT00772005|164498668|SUPERIORITY_OR_OTHER|||||||0.9193||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9193
82365878|NCT00518882|164442034|SUPERIORITY_OR_OTHER||Mean|-1.93|STANDARD_DEVIATION|3.703|<|0.0001||95.0|-2.457|-1.403|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.403|-2.457|<0.0001
82365879|NCT00518882|164442034|SUPERIORITY_OR_OTHER||Mean|-2.17|STANDARD_DEVIATION|3.654|<|0.0001||95.0|-2.731|-1.618|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.618|-2.731|<0.0001
82365880|NCT00518882|164442035|SUPERIORITY_OR_OTHER||Mean|-2.21|STANDARD_DEVIATION|3.752|<|0.0001||95.0|-2.747|-1.676|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.676|-2.747|<0.0001
82393607|NCT00772005|164498668|SUPERIORITY_OR_OTHER|||||||0.4814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4814
82393608|NCT00772005|164498668|SUPERIORITY_OR_OTHER|||||||0.6097||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6097
82393609|NCT00772005|164498669|SUPERIORITY_OR_OTHER|||||||0.8594||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8594
82643559|NCT04193033|165002813|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
82643560|NCT04193033|165002814|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
82365881|NCT00518882|164442035|SUPERIORITY_OR_OTHER||Mean|-2.55|STANDARD_DEVIATION|3.625|<|0.0001||95.0|-3.104|-1.997|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-1.997|-3.104|<0.0001
82643561|NCT04193033|165002816|SUPERIORITY|||||||0.49|||||||Linear Growth Curve Model|Time was included as a fixed effect and both time and intercept were included as random effects.||||||.49
82643562|NCT04193033|165002818|SUPERIORITY|||||||0.06||||||Paired t-test, alpha = .05.|t-test, 2 sided|||||||0.06
82365882|NCT00518882|164442036|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|29.37|||<|0.0001||95.0|16.81|41.93||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||41.93|16.81|<.0001
82365883|NCT00518882|164442037|SUPERIORITY_OR_OTHER||Mean|-18.18|STANDARD_DEVIATION|62.811|<|0.0001||95.0|-26.988|-9.382|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-9.382|-26.988|<0.0001
82365884|NCT00518882|164442037|SUPERIORITY_OR_OTHER||Mean|2.49|STANDARD_DEVIATION|52.997||0.5304||95.0|-5.327|10.307|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||10.307|-5.327|0.5304
82365885|NCT00518882|164442038|SUPERIORITY_OR_OTHER||Mean|24.86|STANDARD_DEVIATION|59.326|<|0.0001||95.0|16.348|33.374|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||33.374|16.348|<0.0001
82365886|NCT00518882|164442038|SUPERIORITY_OR_OTHER||Mean|11.13|STANDARD_DEVIATION|87.145||0.092||95.0|-1.835|24.093|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||24.093|-1.835|0.0920
82393610|NCT00772005|164498669|SUPERIORITY_OR_OTHER|||||||0.6157||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6157
82393611|NCT00772005|164498669|SUPERIORITY_OR_OTHER|||||||0.4846||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4846
82393612|NCT00772005|164498670|SUPERIORITY_OR_OTHER|||||||0.6076||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6076
82393613|NCT00772005|164498670|SUPERIORITY_OR_OTHER|||||||0.5827||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5827
82365887|NCT00518882|164442039|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.11||||0.0946||95.0|-0.23|0.02||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.02|-0.23|0.0946
82365888|NCT00518882|164442040|SUPERIORITY_OR_OTHER||Mean|0.11|STANDARD_DEVIATION|0.774||0.0513||95.0|-0.001|0.216|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.216|-0.001|0.0513
82365889|NCT00518882|164442040|SUPERIORITY_OR_OTHER||Mean|0.12|STANDARD_DEVIATION|0.804||0.0513||95.0|-0.001|0.233|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.233|-0.001|0.0513
82365890|NCT00518882|164442041|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.859||0.2764||95.0|-0.187|0.054|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.054|-0.187|0.2764
82393614|NCT00772005|164498670|SUPERIORITY_OR_OTHER|||||||0.7865||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7865
82393615|NCT00772005|164498671|SUPERIORITY_OR_OTHER|||||||0.3045||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3045
82448900|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2||||0.0221|TWO_SIDED|95.0|0.48|5.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of sleep problems at Day 7||5.93|0.48|0.0221
82643563|NCT00118209|165002869|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6519|TWO_SIDED|95.0|0.68|1.27|||Log Rank|||||1.27|0.68|0.6519
82643564|NCT00118209|165002870|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82643565|NCT00118209|165002871|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6414|TWO_SIDED|95.0|0.75|1.59|||Log Rank|||||1.59|0.75|0.6414
82365891|NCT00518882|164442041|SUPERIORITY_OR_OTHER||Mean|0.09|STANDARD_DEVIATION|0.89||0.1911||95.0|-0.043|0.216|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.216|-0.043|0.1911
82365892|NCT00518882|164442042|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.04||||0.4412||95.0|-0.15|0.06||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.06|-0.15|0.4412
82365893|NCT00518882|164442043|SUPERIORITY_OR_OTHER||Mean|0.03|STANDARD_DEVIATION|0.606||0.4746||95.0|-0.054|0.115|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.115|-0.054|0.4746
82365894|NCT00518882|164442043|SUPERIORITY_OR_OTHER||Mean|0.08|STANDARD_DEVIATION|0.72||0.1281||95.0|-0.024|0.188|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.188|-0.024|0.1281
82365895|NCT00518882|164442044|SUPERIORITY_OR_OTHER||Mean|-0.3|STANDARD_DEVIATION|0.604|<|0.0001||95.0|-0.39|-0.214|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.214|-0.390|<0.0001
82365896|NCT00518882|164442044|SUPERIORITY_OR_OTHER||Mean|-0.21|STANDARD_DEVIATION|0.647|<|0.0001||95.0|-0.303|-0.11|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.110|-0.303|<0.0001
82365897|NCT00518882|164442045|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.07||||0.0277||95.0|-0.13|-0.01||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.01|-0.13|0.0277
82365898|NCT00518882|164442046|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|0.29||0.003||95.0|0.021|0.102|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.102|0.021|0.0030
82393616|NCT00772005|164498671|SUPERIORITY_OR_OTHER|||||||0.0617||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0617
82365899|NCT00518882|164442046|SUPERIORITY_OR_OTHER||Mean|0.03|STANDARD_DEVIATION|0.307||0.1452||95.0|-0.012|0.079|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.079|-0.012|0.1452
82365900|NCT00518882|164442047|SUPERIORITY_OR_OTHER||Mean|0.27|STANDARD_DEVIATION|0.306|<|0.0001||95.0|0.223|0.315|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.315|0.223|<0.0001
82365901|NCT00518882|164442047|SUPERIORITY_OR_OTHER||Mean|0.31|STANDARD_DEVIATION|0.346|<|0.0001||95.0|0.259|0.364|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.364|0.259|<0.0001
82365902|NCT00518882|164442048|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.01||||0.5105||95.0|-0.02|0.04||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.04|-0.02|0.5105
82365903|NCT00518882|164442049|SUPERIORITY_OR_OTHER||Mean|-0.01|STANDARD_DEVIATION|0.15||0.222||95.0|-0.034|0.008|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.008|-0.034|0.2220
82365904|NCT00518882|164442049|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.141||0.7923||95.0|-0.018|0.024|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.024|-0.018|0.7923
82528438|NCT04867785|164752777|SUPERIORITY||LSMean Difference|33.54|||<|0.001|TWO_SIDED|95.0|18.26|48.82|||Mixed Models Analysis|||||48.82|18.26|<0.001
82528439|NCT04867785|164752777|SUPERIORITY||LSMean Difference|16.07||||0.231|TWO_SIDED|95.0|-10.25|42.39|||Mixed Models Analysis|||||42.39|-10.25|0.231
82365905|NCT00518882|164442050|SUPERIORITY_OR_OTHER||Mean|-0.03|STANDARD_DEVIATION|0.159||0.0254||95.0|-0.05|-0.003|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.003|-0.050|0.0254
82365906|NCT00518882|164442050|SUPERIORITY_OR_OTHER||Mean|-0.02|STANDARD_DEVIATION|0.165||0.2244||95.0|-0.04|0.009|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.009|-0.040|0.2244
82365907|NCT00518882|164442051|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.18||||0.0485||95.0|-0.37|0.0||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.00|-0.37|0.0485
82365908|NCT00518882|164442052|SUPERIORITY_OR_OTHER||Mean|0.1|STANDARD_DEVIATION|0.82||0.1161||95.0|-0.02|0.21|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.21|-0.02|0.1161
82365909|NCT00518882|164442052|SUPERIORITY_OR_OTHER||Mean|0.0|STANDARD_DEVIATION|0.96||0.7888||95.0|-0.16|0.12|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.12|-0.16|0.7888
82365910|NCT00518882|164442053|SUPERIORITY_OR_OTHER||Mean|-0.3|STANDARD_DEVIATION|1.07||0.0003||95.0|-0.43|-0.13|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.13|-0.43|0.0003
82365911|NCT00518882|164442053|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|1.47||0.2078||95.0|-0.35|0.08|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||0.08|-0.35|0.2078
82365912|NCT00518882|164442054|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.07||||0.0014||95.0|-0.11|-0.03||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||-0.03|-0.11|0.0014
82393617|NCT00772005|164498671|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0580
82365913|NCT00518882|164442055|SUPERIORITY_OR_OTHER||Mean|0.06|STANDARD_DEVIATION|0.269||0.0018||95.0|0.023|0.098|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.098|0.023|0.0018
82365914|NCT00518882|164442055|SUPERIORITY_OR_OTHER||Mean|0.01|STANDARD_DEVIATION|0.272||0.5499||95.0|-0.028|0.052|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.052|-0.028|0.5499
82365915|NCT00518882|164442056|SUPERIORITY_OR_OTHER||Mean|-0.1|STANDARD_DEVIATION|0.273|<|0.0001||95.0|-0.14|-0.062|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.062|-0.140|<0.0001
82365916|NCT00518882|164442056|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.302||0.0012||95.0|-0.118|-0.03|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.030|-0.118|0.0012
82365917|NCT00518882|164442057|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|-0.02||||0.1119||95.0|-0.05|0.01||There were no multiplicity concerns.|ANCOVA|||ANCOVA model included treatment, country and previous treatment as fixed effects and baseline value of the endpoint as covariate. The objective was to demonstrate that treatment with liraglutide was different from treatment with exenatide. Thus the null hypothesis and its alternative were H0: µliraglutide = µexenatide against HA1:µliraglutide ≠ µexenatide where µliraglutide and µexenatide is the mean value of the endpoint in the liraglutide arm and exenatide arm, respectively.||0.01|-0.05|0.1119
82365918|NCT00518882|164442058|SUPERIORITY_OR_OTHER||Mean|-0.02|STANDARD_DEVIATION|0.168||0.1342||95.0|-0.041|0.006|||Paired t test|||A paired t test was made within the group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||0.006|-0.041|0.1342
82393618|NCT00772005|164498672|SUPERIORITY_OR_OTHER|||||||0.0194||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0194
82643566|NCT02180659|165002879|NON_INFERIORITY|"For the primary efficacy variable, a test of non-inferiority of Probuphine (active) versus SL BPN (control) responders was conducted. A non-inferiority margin of 20% was employed to define noninferiority.~A Confidence Interval (CI) for the difference in proportions was calculated, and non-inferiority was established if the lower bound of the 95% CI for the difference of proportions (Probuphine - SL BPN) was greater than -0.20."|Difference in Response Rate|0.088|||<|0.001|TWO_SIDED|95.0|0.009|0.167|||Chi-squared|||||0.167|0.009|<.001
82643567|NCT02180659|165002880|SUPERIORITY|At month 6 comparing those subject with no illicit drug use.||||||0.306|||||||Chi-squared|||||||0.306
82643568|NCT02180659|165002881|SUPERIORITY|||||||0.037|||||||Log Rank|||||||.037
82365919|NCT00518882|164442058|SUPERIORITY_OR_OTHER||Mean|-0.03|STANDARD_DEVIATION|0.189||0.0344||95.0|-0.057|-0.002|||Paired t test|||A paired t test was made within the treatment group and 95% confidence intervals for the difference between Weeks 26 and 78 were constructed. H0 was µ78 - µ26 = 0 against HA: µ78 - µ26 ≠ 0. A difference between the two means (Week 26 and Week 78) was concluded when H0 was rejected at the 5% level.||-0.002|-0.057|0.0344
82365920|NCT00518882|164442059|SUPERIORITY_OR_OTHER||Mean|-0.08|STANDARD_DEVIATION|0.176|<|0.0001||95.0|-0.105|-0.056|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.056|-0.105|<0.0001
82365921|NCT00518882|164442059|SUPERIORITY_OR_OTHER||Mean|-0.07|STANDARD_DEVIATION|0.192|<|0.0001||95.0|-0.094|-0.038|||Paired t test|||The analysis was made with a paired t test within the treatment group and 95% CIs for the difference between Weeks 0 and 78 were constructed. H0 was µ78- µ0=0 against HA: µ78 - µ0 ≠ 0. A difference between the two means was concluded when H0 was rejected at the 5% level.||-0.038|-0.094|<0.0001
82365922|NCT02696031|164442067|SUPERIORITY||Odds Ratio (OR)|1.72||||0.0197|TWO_SIDED|95.0|1.09|2.7||unadjusted p-value|Regression, Logistic|||week 16||2.70|1.09|0.0197
82365923|NCT02696031|164442067|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0146|TWO_SIDED|95.0|1.12|2.76||unadjusted p-value|Regression, Logistic|||week 16||2.76|1.12|0.0146
82365924|NCT02696031|164442068|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0017|TWO_SIDED|95.0|1.35|3.63||unadjusted p-value|Regression, Logistic|||week 52||3.63|1.35|0.0017
82393619|NCT00772005|164498672|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2270
82365925|NCT02696031|164442068|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|1.64|4.36||unadjusted p-value|Regression, Logistic|||week 52||4.36|1.64|<.0001
82365926|NCT02696031|164442069|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0108|TWO_SIDED|95.0|1.14|2.74||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.74|1.14|0.0108
82393620|NCT00772005|164498672|SUPERIORITY_OR_OTHER|||||||0.1181||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1181
82393621|NCT00772005|164498673|SUPERIORITY_OR_OTHER|||||||0.1348||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1348
82393622|NCT00772005|164498673|SUPERIORITY_OR_OTHER|||||||0.0419||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0419
82365927|NCT02696031|164442069|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0087|TWO_SIDED|95.0|1.16|2.78||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.78|1.16|0.0087
82365928|NCT02696031|164442069|SUPERIORITY|week 52|Odds Ratio (OR)|2.16||||0.0016|TWO_SIDED|95.0|1.34|3.49||unadjusted p-value|Regression, Linear||||Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|3.49|1.34|0.0016
82365929|NCT02696031|164442069|SUPERIORITY|week 52|Median Difference (Net)|2.61|||<|0.0001|TWO_SIDED|95.0|1.62|4.19||unadjusted p-value|Regression, Linear||||Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|4.19|1.62|<.0001
82365930|NCT02696031|164442070|SUPERIORITY||Odds Ratio (OR)|1.6||||0.026|TWO_SIDED|95.0|1.06|2.43||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.43|1.06|0.0260
82365931|NCT02696031|164442070|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0149|TWO_SIDED|95.0|1.11|2.54||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight as a covariate.|2.54|1.11|0.0149
82365932|NCT02696031|164442071|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0005|TWO_SIDED|95.0|1.43|3.58||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|3.58|1.43|0.0005
82643569|NCT02180659|165002883|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.832|TWO_SIDED||||||ANOVA|||Comparing change in baseline to week 24 between the two groups.||||0.832
82643570|NCT02180659|165002884|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.922|TWO_SIDED||||||ANOVA|||||||0.922
82643571|NCT02180659|165002885|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.425|TWO_SIDED||||||ANOVA|||||||0.425
82643572|NCT02180659|165002886|SUPERIORITY||Median Difference (Final Values)|-1.3||||0.505|TWO_SIDED||||||ANOVA|||Comparing change in baseline to week 24 between the two groups.||||0.505
82393623|NCT00772005|164498673|SUPERIORITY_OR_OTHER|||||||0.0146||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0146
82393624|NCT00772005|164498674|SUPERIORITY_OR_OTHER|||||||0.1292||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1292
82643573|NCT03000075|165002887|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant psoriatic arthritis (PsA) at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|73.6|||<|0.001|TWO_SIDED|95.0|62.2|85.0||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% confidence interval (CI) for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||85.0|62.2|< 0.001
82643574|NCT03000075|165002887|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|72.4|||<|0.001|TWO_SIDED|95.0|60.6|84.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||84.1|60.6|< 0.001
82643575|NCT03000075|165002889|OTHER||Adjusted percentage difference|75.0|||<|0.001|TWO_SIDED|95.0|63.8|86.2||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||86.2|63.8|< 0.001
82643576|NCT03000075|165002889|OTHER||Adjusted percentage difference|82.4|||<|0.001|TWO_SIDED|95.0|72.2|92.6||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||92.6|72.2|< 0.001
82393625|NCT00772005|164498674|SUPERIORITY_OR_OTHER|||||||0.3773||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3773
82528440|NCT04867785|164752777|SUPERIORITY||LSMean Difference|2.37||||0.804|TWO_SIDED|95.0|-16.28|21.01|||Mixed Models Analysis|||||21.01|-16.28|0.804
82393626|NCT00772005|164498674|SUPERIORITY_OR_OTHER|||||||0.1348||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1348
82393627|NCT00772005|164498675|SUPERIORITY_OR_OTHER|||||||0.9642||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9642
82528441|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-19.83|||<|0.001|TWO_SIDED|95.0|-31.01|-8.65|||Mixed Models Analysis|||||-8.65|-31.01|<0.001
82528442|NCT04867785|164752777|SUPERIORITY||LSMean Difference|6.45||||0.586|TWO_SIDED|95.0|-16.75|29.65|||Mixed Models Analysis|||||29.65|-16.75|0.586
82528443|NCT04867785|164752777|SUPERIORITY||LSMean Difference|-18.94||||0.002|TWO_SIDED|95.0|-30.93|-6.96|||Mixed Models Analysis|||||-6.96|-30.93|0.002
82528444|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-0.25||||0.984|TWO_SIDED|95.0|-24.57|24.07|||Mixed Models Analysis|||||24.07|-24.57|0.984
82528445|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-4.2||||0.804|TWO_SIDED|95.0|-37.44|29.03|||Mixed Models Analysis|||||29.03|-37.44|0.804
82528446|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-21.47||||0.167|TWO_SIDED|95.0|-51.91|8.98|||Mixed Models Analysis|||||8.98|-51.91|0.167
82528447|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-51.84|||<|0.001|TWO_SIDED|95.0|-76.09|-27.59|||Mixed Models Analysis|||||-27.59|-76.09|<0.001
82528448|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-23.94||||0.168|TWO_SIDED|95.0|-57.94|10.06|||Mixed Models Analysis|||||10.06|-57.94|0.168
82528449|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-50.58|||<|0.001|TWO_SIDED|95.0|-74.94|-26.22|||Mixed Models Analysis|||||-26.22|-74.94|<0.001
82528450|NCT04867785|164752778|SUPERIORITY||LSMean Difference|10.02||||0.362|TWO_SIDED|95.0|-11.55|31.6|||Mixed Models Analysis|||||31.60|-11.55|0.362
82528451|NCT04867785|164752778|SUPERIORITY||LSMean Difference|6.07||||0.696|TWO_SIDED|95.0|-24.34|36.48|||Mixed Models Analysis|||||36.48|-24.34|0.696
82528452|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-11.19||||0.436|TWO_SIDED|95.0|-39.38|16.99|||Mixed Models Analysis|||||16.99|-39.38|0.436
82528453|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-41.57|||<|0.001|TWO_SIDED|95.0|-62.89|-20.25|||Mixed Models Analysis|||||-20.25|-62.89|<0.001
82393628|NCT00772005|164498675|SUPERIORITY_OR_OTHER|||||||0.7814||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7814
82393629|NCT00772005|164498675|SUPERIORITY_OR_OTHER|||||||0.1455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1455
82393630|NCT00772005|164498676|SUPERIORITY_OR_OTHER|||||||0.5722||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5722
82393631|NCT00772005|164498676|SUPERIORITY_OR_OTHER|||||||0.1352||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1352
82393632|NCT00772005|164498676|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0630
82393633|NCT00772005|164498677|SUPERIORITY_OR_OTHER|||||||0.4607||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4607
82365933|NCT02696031|164442071|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0094|TWO_SIDED|95.0|1.16|2.94||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|2.94|1.16|0.0094
82393634|NCT00772005|164498677|SUPERIORITY_OR_OTHER|||||||0.2538||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2538
82393635|NCT00772005|164498677|SUPERIORITY_OR_OTHER|||||||0.3406||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3406
82393636|NCT00772005|164498678|SUPERIORITY_OR_OTHER|||||||0.8116||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8116
82393637|NCT00772005|164498678|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6870
82393638|NCT00772005|164498678|SUPERIORITY_OR_OTHER|||||||0.8112||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8112
82393639|NCT00772005|164498679|SUPERIORITY_OR_OTHER|||||||0.9786||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9786
82393640|NCT00772005|164498679|SUPERIORITY_OR_OTHER|||||||0.5879||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5879
82393641|NCT00772005|164498679|SUPERIORITY_OR_OTHER|||||||0.3973||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3973
82393642|NCT00772005|164498680|SUPERIORITY_OR_OTHER|||||||0.403||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4030
82393643|NCT00772005|164498680|SUPERIORITY_OR_OTHER|||||||0.3777||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3777
82393644|NCT00772005|164498680|SUPERIORITY_OR_OTHER|||||||0.6493||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6493
82393645|NCT00772005|164498681|SUPERIORITY_OR_OTHER|||||||0.9871||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9871
82575345|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|3.845||0.9412|TWO_SIDED|90.0|-6.13|6.7|||Mixed Models Analysis|||Month 9: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.70|-6.13|0.9412
82365934|NCT02696031|164442072|SUPERIORITY||Odds Ratio (OR)|3.8|||<|0.0001|TWO_SIDED|95.0|1.95|7.39||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|7.39|1.95|<.0001
82365935|NCT02696031|164442072|SUPERIORITY||Odds Ratio (OR)|3.64||||0.0001|TWO_SIDED|95.0|1.87|7.1||unadjusted p-value|Regression, Logistic|||week 16|Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNF-alpha status as factors and baseline weight as a covariate.|7.10|1.87|0.0001
82365936|NCT02696031|164442073|SUPERIORITY||LS Mean|-0.75|STANDARD_ERROR_OF_MEAN|0.259||0.0041|TWO_SIDED|95.0|-1.26|-0.24||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.24|-1.26|0.0041
82365937|NCT02696031|164442073|SUPERIORITY||LS Mean|-0.64|STANDARD_ERROR_OF_MEAN|0.259||0.0143|TWO_SIDED|95.0|-1.15|-0.13||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.13|-1.15|0.0143
82365938|NCT02696031|164442074|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0001|TWO_SIDED|95.0|1.58|4.07||unadjusted p-value|Regression, Logistic|||week 16|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|4.07|1.58|0.0001
82365939|NCT02696031|164442074|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0002|TWO_SIDED|95.0|1.51|3.89||unadjusted p-value|Regression, Logistic|||week 16|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.89|1.51|0.0002
82365940|NCT02696031|164442074|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0056|TWO_SIDED|95.0|1.22|3.24||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.24|1.22|0.0056
82393646|NCT00772005|164498681|SUPERIORITY_OR_OTHER|||||||0.5859||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5859
82393647|NCT00772005|164498681|SUPERIORITY_OR_OTHER|||||||0.0328||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0328
82393648|NCT00772005|164498682|SUPERIORITY_OR_OTHER|||||||0.2318||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2318
82393649|NCT00772005|164498682|SUPERIORITY_OR_OTHER|||||||0.6211||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6211
82393650|NCT00772005|164498682|SUPERIORITY_OR_OTHER|||||||0.3125||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3125
82365941|NCT02696031|164442074|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0005|TWO_SIDED|95.0|1.45|3.78||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders."|3.78|1.45|0.0005
82365942|NCT02696031|164442075|SUPERIORITY||LS Mean of treatment difference|-0.89|STANDARD_ERROR_OF_MEAN|0.256||0.0006|TWO_SIDED|95.0|-1.39|-0.38||unadjusted p-value|mixed model repeated measures (MMRM)|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.38|-1.39|0.0006
82365943|NCT02696031|164442075|SUPERIORITY||LS Mean of Treatment Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.255||0.0002|TWO_SIDED|95.0|-1.47|-0.47||unadjusted p-value|mixed model repeated measures (MMRM)|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.47|-1.47|0.0002
82393651|NCT00772005|164498683|SUPERIORITY_OR_OTHER|||||||0.2425||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2425
82393652|NCT00772005|164498683|SUPERIORITY_OR_OTHER|||||||0.6597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6597
82528454|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-13.67||||0.418|TWO_SIDED|95.0|-46.75|19.42|||Mixed Models Analysis|||||19.42|-46.75|0.418
82528455|NCT04867785|164752778|SUPERIORITY||LSMean Difference|-40.31|||<|0.001|TWO_SIDED|95.0|-60.77|-19.85|||Mixed Models Analysis|||||-19.85|-60.77|<0.001
82365944|NCT02696031|164442076|SUPERIORITY||LS Mean|-1.61|STANDARD_ERROR_OF_MEAN|0.478||0.0008|TWO_SIDED|95.0|-2.54|-0.67||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.67|-2.54|0.0008
82365945|NCT02696031|164442076|SUPERIORITY||LS Mean|-1.78|STANDARD_ERROR_OF_MEAN|0.479||0.0002|TWO_SIDED|95.0|-2.72|-0.84||unadjusted p-value|MMRM|||week 16|LS Mean, 95% CI, and p-value are from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|-0.84|-2.72|0.0002
82365946|NCT02696031|164442077|SUPERIORITY|||||||0.0012||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||0.0012
82365947|NCT02696031|164442077|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
82365948|NCT02696031|164442078|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0577|TWO_SIDED|95.0|0.98|3.45||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders. Patients were considered as non-responders after treatment switch decision."|3.45|0.98|0.0577
82365949|NCT02696031|164442078|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0003|TWO_SIDED|95.0|1.65|5.41||unadjusted p-value|Regression, Logistic|||week 52|"Odds ratio, 95% CI, and p-value were from a logistic regression model with treatment, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors and baseline weight and baseline score as covariates.~Missing responses for any reason were imputed as non-responders. Patients were considered as non-responders after treatment switch decision."|5.41|1.65|0.0003
82365950|NCT02696031|164442079|SUPERIORITY||Relative Treatment Effect|0.7||||0.0002|TWO_SIDED|95.0|0.58|0.84||unadjusted p-value|MMRM|||week 16|Analysis was done on the log(e) ratio of the treatment value vs. baseline value to normalize the distribution of the hsCRP at each visit. LS Mean, SE, 95% CI and p-value were from mixed-effect model repeated measures (MMRM) with treatment, visit, stratification factor and TNFi status as factors, log(e) baseline and weight as covariates, treatment by visit and log(e) baseline by visit as interaction terms and an unstructured covariance|0.84|0.58|0.0002
82365951|NCT02696031|164442079|SUPERIORITY||Relative Treatment Effect|0.7||||0.0002||95.0|0.58|0.84||unadjusted p-value|MMRM|||week 16|Analysis was done on the log(e) ratio of the treatment value vs. baseline value to normalize the distribution of the hsCRP at each visit. LS Mean, SE, 95% CI and p-value were from mixed-effect model repeated measures (MMRM) with treatment, visit, stratification factor and TNFi status as factors, log(e) baseline and weight as covariates, treatment by visit and log(e) baseline by visit as interaction terms and an unstructured covariance structure.|0.84|0.58|0.0002
82365952|NCT02696031|164442080|SUPERIORITY||LS Mean of Treatment Difference|2.77|STANDARD_ERROR_OF_MEAN|0.799||0.0006|TWO_SIDED|95.0|1.2|4.34||unadjusted p-value|ANCOVA|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|4.34|1.20|0.0006
82365953|NCT02696031|164442080|SUPERIORITY||LS Mean of Treatment Difference|2.64|STANDARD_ERROR_OF_MEAN|0.803||0.0011|TWO_SIDED|95.0|1.06|4.22||unadjusted p-value|ANCOVA|||week 16|LS Mean, 95% CI, and p-value were from a mixed model repeated measures (MMRM) with treatment group, analysis visit, stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates, treatment by analysis visit and baseline score by analysis visit as interaction terms, using an unstructured covariance structure.|4.22|1.06|0.0011
82365954|NCT02696031|164442081|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|ANCOVA|||week 16|"LS Mean, 95% CI, and p-value were from an ANCOVA model with treatment group and stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates.~Missing data were imputed using multiple imputation (MI, MAR assumption) prior to running ANCOVA."|||<0.0001
82365955|NCT02696031|164442081|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|ANCOVA|||week 16|"LS Mean, 95% CI, and p-value were from an ANCOVA model with treatment group and stratification factor (CRP+/MRI+, CRP+/MRI-, CRP-/MRI+) and TNFi status as factors, weight and baseline score as covariates.~Missing data were imputed using multiple imputation (MI, MAR assumption) prior to running ANCOVA."|||<0.0001
82365956|NCT02696031|164442082|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
82365957|NCT02696031|164442082|SUPERIORITY||||||<|0.0001||||||unadjusted p-value|Wilcoxon (Mann-Whitney)|The endpoint was analyzed by composite estimand strategy. Extreme unfavorable value is assigned for patients with treatment escape or missing data.||||||<.0001
82365958|NCT00700817|164442114|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.6||||0.0001||95.0|-0.77|-0.43||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).||ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate. Hieracheal testing of non-inferiority followed by superiority.||-0.43|-0.77|0.0001
82393653|NCT00772005|164498683|SUPERIORITY_OR_OTHER|||||||0.4753||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4753
82365959|NCT00700817|164442114|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.34||||0.0001||95.0|-0.51|-0.16||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).||ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate. Hieracheal testing of non-inferiority followed by superiority. Liraglutide 1.2 mg versus sitagliptin only tested if liraglutide 1.8 mg was superior to sitagliptin.||-0.16|-0.51|0.0001
82365960|NCT00700817|164442115|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated Treatment Difference, LS Mean|-0.63||||0.0001||95.0|-0.81|-0.44||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).|Lira 1.8 - Sita|ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate.||-0.44|-0.81|0.0001
82365961|NCT00700817|164442115|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority concluded if upper confidence interval of test was below 0.4%. Superiority concluded if upper limit of confidence interval was below 0%.|Estimated Treatment Difference, LS Mean|-0.4||||0.0001||95.0|-0.59|-0.22||Multiple comparisons not applicable due to the hieracheal testing.|ANCOVA|Adjusted for treatment and country (fixed effects) and baseline HbA1c (covariate).|Lira 1.2 - Sita|ANCOVA with treatment and country as fixed effects and baseline HbA1c as covariate.||-0.22|-0.59|0.0001
82365962|NCT00700817|164442117|SUPERIORITY_OR_OTHER||Change within treatment group|-0.24|STANDARD_DEVIATION|0.7||0.006||95.0|-0.41|-0.07||Multiple comparisons is not applicable.|paired t-test|The analysis is not a controlled comparison, and there are no adjustments||The t-test was performed to examine whether the change in HbA1c from week 52 to week 78 were different from 0 within each treatment group.||-0.07|-0.41|0.0060
82365963|NCT00700817|164442117|SUPERIORITY_OR_OTHER||Change within treatment group|-0.45|STANDARD_DEVIATION|0.9||0.0001||95.0|-0.67|-0.23||Multiple comparisons is not applicable.|paired t-test|The analysis is not a controlled comparison, and there are no adjustments||The t-test was performed to examine whether the change in HbA1c from week 52 to week 78 were different from 0 within each treatment group.||-0.23|-0.67|0.0001
82365964|NCT02480582|164442227|SUPERIORITY_OR_OTHER||||||<|0.01||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in energy intake between almonds, cheese savouries and no food.||||||<0.01
82393654|NCT00772005|164498684|SUPERIORITY_OR_OTHER|||||||0.1715||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1715
82365965|NCT02480582|164442228|SUPERIORITY_OR_OTHER||||||<|0.05||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in wanting for high fat foods between almonds, cheese savouries and no food.||||||<0.05
82365966|NCT02480582|164442229|SUPERIORITY_OR_OTHER||||||<|0.001||||||Where significant effects were obtained post hoc analyses, with a Bonferroni correction for multiple comparisons were conducted.|ANOVA|Null hypothesis is that there was no difference in hunger AUC between almonds, cheese savouries and no food.||||||<0.001
82365967|NCT02480582|164442230|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Null hypothesis is that there was no difference in energy intake between almonds, cheese savouries and no food.||"Energy intake measured by ad-libitum test meals (breakfast, lunch, dinner) during each intervention condition.~Null hypothesis is that there was no difference in total energy intake between almonds, cheese savouries and no food."||||<0.05
82365968|NCT01949116|164442231|NON_INFERIORITY|The P-value for the risk difference is from an asymptotic non-inferiority analysis for the proportion (risk) difference with a 15% non-inferiority margin.|Risk Difference (RD)|0.072||||0.0367|ONE_SIDED|90.0||0.134|||Farrington-Manning score (exact)||LDMTX - Placebo|||0.134||0.0367
82365969|NCT01949116|164442232|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.55|TWO_SIDED|95.0|-0.67|0.85|||Wilcoxon (Mann-Whitney)|Stratified by Statin Use (study stratification factor)||||0.85|-0.67|0.55
82365970|NCT02994355|164442267|SUPERIORITY||Prevalence rate ratio|1.33|||<|0.05|TWO_SIDED|95.0|1.16|1.52|||Poisson Regression|||||1.52|1.16|<0.05
82365971|NCT02994355|164442268|SUPERIORITY||Prevalence rate ratio|1.27|||<|0.05|TWO_SIDED|95.0|1.15|1.3|||Poisson regression|||||1.30|1.15|<0.05
82365972|NCT02994355|164442269|SUPERIORITY||Prevalence rate ratio|3.23|||<|0.05|TWO_SIDED|95.0|2.29|4.55|||Poisson regression|||||4.55|2.29|<0.05
82365973|NCT04440449|164442274|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82365974|NCT04440449|164442275|SUPERIORITY|||||||0.108|||||||t-test, 2 sided|||||||0.108
82365975|NCT02312713|164442279|SUPERIORITY||Mean Difference (Final Values)|-3.36||||0.06|TWO_SIDED|95.0|-6.84|0.12|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.12|-6.84|0.06
82365976|NCT02312713|164442279|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.39|TWO_SIDED|95.0|-5.26|2.08|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||2.08|-5.26|0.39
82365977|NCT02312713|164442279|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.14|TWO_SIDED|95.0|-6.24|0.85|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.85|-6.24|0.14
82365978|NCT02312713|164442279|SUPERIORITY||Mean Difference (Final Values)|-2.63||||0.17|TWO_SIDED|95.0|-6.37|1.11|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||1.11|-6.37|0.17
82365979|NCT02312713|164442279|NON_INFERIORITY|The IBET intervention will be non-inferior to the standard PT intervention, indicated by a mean WOMAC score less than 5 points higher than standard PT.|Mean Difference (Final Values)|0.67||||0.65|TWO_SIDED|95.0|-2.23|3.56|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.56|-2.23|0.65
82365980|NCT02312713|164442279|NON_INFERIORITY|The IBET intervention will be non-inferior to the standard PT intervention, indicated by a mean WOMAC score less than 5 points higher than standard PT.|Mean Difference (Final Values)|-1.04||||0.51|TWO_SIDED|95.0|-4.13|2.05|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||2.05|-4.13|0.51
82365981|NCT02312713|164442280|SUPERIORITY||Median Difference (Final Values)|0.56||||0.01|TWO_SIDED|95.0|0.15|0.98|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.98|0.15|0.01
82393655|NCT00772005|164498684|SUPERIORITY_OR_OTHER|||||||0.3056||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3056
82528456|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-0.49||||0.54|TWO_SIDED|95.0|-2.07|1.08|||Mixed Models Analysis|||||1.08|-2.07|0.540
82393656|NCT00772005|164498684|SUPERIORITY_OR_OTHER|||||||0.0083||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0083
82393657|NCT00772005|164498685|SUPERIORITY_OR_OTHER|||||||0.2681||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2681
82393658|NCT00772005|164498685|SUPERIORITY_OR_OTHER|||||||0.1475||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1475
82393659|NCT00772005|164498685|SUPERIORITY_OR_OTHER|||||||0.0647||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0647
82393660|NCT00772005|164498686|SUPERIORITY_OR_OTHER|||||||0.167||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1670
82393661|NCT00772005|164498686|SUPERIORITY_OR_OTHER|||||||0.1737||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1737
82393662|NCT00772005|164498686|SUPERIORITY_OR_OTHER|||||||0.372||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3720
82393663|NCT00772005|164498687|SUPERIORITY_OR_OTHER|||||||0.3547||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3547
82365982|NCT02312713|164442280|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.28|TWO_SIDED|95.0|-0.19|0.65|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.65|-0.19|0.28
82393664|NCT00772005|164498687|SUPERIORITY_OR_OTHER|||||||0.6043||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6043
82365983|NCT02312713|164442280|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.75|TWO_SIDED|95.0|-0.35|0.49|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.49|-0.35|0.75
82365984|NCT02312713|164442280|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.22|TWO_SIDED|95.0|-0.16|0.7|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.7|-0.16|0.22
82393665|NCT00772005|164498687|SUPERIORITY_OR_OTHER|||||||0.0463||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0463
82393666|NCT00772005|164498688|SUPERIORITY_OR_OTHER|||||||0.9258||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9258
82393667|NCT00772005|164498688|SUPERIORITY_OR_OTHER|||||||0.9116||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9116
82393668|NCT00772005|164498688|SUPERIORITY_OR_OTHER|||||||0.4848||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4848
82393669|NCT00772005|164498689|SUPERIORITY_OR_OTHER|||||||0.7612||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7612
82528457|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-4.41|||<|0.001|TWO_SIDED|95.0|-6.69|-2.13|||Mixed Models Analysis|||||-2.13|-6.69|<0.001
82528458|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-6.78|||<|0.001|TWO_SIDED|95.0|-9.47|-4.09|||Mixed Models Analysis|||||-4.09|-9.47|<0.001
82365985|NCT02312713|164442280|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.5||||0|TWO_SIDED|95.0|-0.84|-0.16|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||-0.16|-0.84|0.00
82643577|NCT03000075|165002891|OTHER||Adjusted percentage difference|80.3|||<|0.001|TWO_SIDED|95.0|70.1|90.4||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||90.4|70.1|< 0.001
82643578|NCT03000075|165002891|OTHER||Adjusted percentage difference|86.0|||<|0.001|TWO_SIDED|95.0|76.8|95.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||95.1|76.8|< 0.001
82643579|NCT03000075|165002893|OTHER||Adjusted percentage difference|22.6|||<|0.001|TWO_SIDED|95.0|11.8|33.4||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||33.4|11.8|< 0.001
82643580|NCT03000075|165002893|OTHER||Adjusted percentage difference|32.5|||<|0.001|TWO_SIDED|95.0|20.0|45.0||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||45.0|20.0|< 0.001
82643581|NCT03000075|165002895|OTHER||Adjusted percentage difference|39.2||||0.131|TWO_SIDED|95.0|-11.6|90.1||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.||90.1|-11.6|0.131
82643582|NCT03000075|165002895|OTHER|Cochran-Mantel-Haenszel test adjusted for strata: weight (≤ 90 kg vs \> 90 kg) and concomitant PsA at Baseline (YES: DIAGNOSED or SUSPECTED vs NO). If there was a stratum containing zero count, 0.1 was added to each cell.|Adjusted percentage difference|31.3||||0.269|TWO_SIDED|95.0|-24.2|86.7||P-value was calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for strata. If there was a stratum containing zero count, 0.1 was added to each cell.|||86.7|-24.2|0.269
82643583|NCT00111007|165002897|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.906||||0.492|TWO_SIDED|95.0|0.627|1.31|||log rank test|||||1.310|0.627|0.492
82643584|NCT00111007|165002898|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.979|TWO_SIDED|95.0|0.744|1.333|||log rank test|||||1.333|0.744|0.979
82643585|NCT00111007|165002899|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.331|TWO_SIDED|95.0|0.641|1.162|||log rank test|||||1.162|0.641|0.331
82643586|NCT00111007|165002900|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.398||||0.146|TWO_SIDED|95.0|0.11|1.437|||log rank test|||||1.437|0.110|0.146
82643587|NCT00111007|165002901|SUPERIORITY_OR_OTHER|||||||0.389||95.0|||||Fisher Exact|||||||0.389
82643588|NCT00440193|165002910|NON_INFERIORITY_OR_EQUIVALENCE|Assuming equal efficacy, a total of 88 events was calculated to give a power of 90% to prove that rivaroxaban is at least as effective as the comparator, considering a non-inferiority upper CI margin for the hazard ratio of 2.0 (two-sided α=0.05). A mean incidence for the primary efficacy outcome of 3% was expected and at least 1465 participants per group were determined to be necessary. This number was to be adjusted based on the observed overall incidence of symptomatic recurrent VTE.|Hazard Ratio (HR)|0.68|STANDARD_ERROR_OF_MEAN|0.2179|<|0.0001||95.0|0.44|1.04|||Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline|The standard error of the log hazard ratio was estimated.|The rivaroxaban to comparator hazard ratio was computed with a 95% CI (confidence interval) (two-sided testing). Based on this model, rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI was less than 2.0.||1.04|0.44|< 0.0001
82643589|NCT00440193|165002911|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.1616||0.044||95.0|0.53|0.99||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||0.99|0.53|0.044
82643590|NCT00440193|165002912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|STANDARD_ERROR_OF_MEAN|0.1828||0.027||95.0|0.47|0.95||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||0.95|0.47|0.027
82643591|NCT00440193|165002914|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97|STANDARD_ERROR_OF_MEAN|0.1204||0.77||95.0|0.76|1.22||Nominal p-value|Regression, Cox|Stratified by intend treatment duration, adjusted for presence of active malignancy at baseline.|The standard error of the log hazard ratio was estimated.|||1.22|0.76|0.77
82393670|NCT00772005|164498689|SUPERIORITY_OR_OTHER|||||||0.5761||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5761
82393671|NCT00772005|164498689|SUPERIORITY_OR_OTHER|||||||0.1576||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1576
82393672|NCT00772005|164498690|SUPERIORITY_OR_OTHER|||||||0.9565||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9565
82393673|NCT00772005|164498690|SUPERIORITY_OR_OTHER|||||||0.9178||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9178
82393674|NCT00772005|164498690|SUPERIORITY_OR_OTHER|||||||0.1491||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1491
82444386|NCT00121641|164597496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73|STANDARD_ERROR_OF_MEAN|5.48||0.0074|TWO_SIDED|95.0|-25.5|-3.97||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-3.97|-25.50|0.0074
82444387|NCT00121641|164597496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.81|STANDARD_ERROR_OF_MEAN|5.58|<|0.0001|TWO_SIDED|95.0|-33.79|-11.84||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-11.84|-33.79|<.0001
82444388|NCT00121641|164597497|SUPERIORITY_OR_OTHER||Difference in Proportions|11.1||||0.1141|TWO_SIDED|95.0|-3.1|24.9||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||24.9|-3.1|0.1141
82444389|NCT00121641|164597497|SUPERIORITY_OR_OTHER||Difference in Proportions|14.0||||0.0443|TWO_SIDED|95.0|-0.1|27.6||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||27.6|-0.1|0.0443
82444390|NCT00121641|164597497|SUPERIORITY_OR_OTHER||Difference in Proportions|17.1||||0.0133|TWO_SIDED|95.0|2.8|31.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|Fisher Exact|The exact 95% CIs is based on the standardized statistic and inverting the one 2-sided test.||||31.0|2.8|0.0133
82528459|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-10.13|||<|0.001|TWO_SIDED|95.0|-12.24|-8.03|||Mixed Models Analysis|||||-8.03|-12.24|<0.001
82393675|NCT00772005|164498691|SUPERIORITY_OR_OTHER|||||||0.7056||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7056
82393676|NCT00772005|164498691|SUPERIORITY_OR_OTHER|||||||0.5179||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5179
82528460|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-12.06|||<|0.001|TWO_SIDED|95.0|-15.06|-9.06|||Mixed Models Analysis|||||-9.06|-15.06|<0.001
82393677|NCT00772005|164498691|SUPERIORITY_OR_OTHER|||||||0.4585||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4585
82393678|NCT00772005|164498692|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0690
82393679|NCT00772005|164498692|SUPERIORITY_OR_OTHER|||||||0.5324||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5324
82393680|NCT00772005|164498692|SUPERIORITY_OR_OTHER|||||||0.0946||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0946
82393681|NCT00772005|164498693|SUPERIORITY_OR_OTHER|||||||0.1878||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1878
82448901|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|-0.72||||0.6731|TWO_SIDED|95.0|-4.11|2.68||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Sleep Time problems at Day 7||2.68|-4.11|0.6731
82528461|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-10.99|||<|0.001|TWO_SIDED|95.0|-13.24|-8.73|||Mixed Models Analysis|||||-8.73|-13.24|<0.001
82528462|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-1.19||||0.135|TWO_SIDED|95.0|-2.75|0.37|||Mixed Models Analysis|||||0.37|-2.75|0.135
82528463|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-5.11|||<|0.001|TWO_SIDED|95.0|-7.36|-2.86|||Mixed Models Analysis|||||-2.86|-7.36|<0.001
82393682|NCT00772005|164498693|SUPERIORITY_OR_OTHER|||||||0.4294||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4294
82393683|NCT00772005|164498693|SUPERIORITY_OR_OTHER|||||||0.6504||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6504
82393684|NCT00772005|164498694|SUPERIORITY_OR_OTHER|||||||0.4022||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4022
82643592|NCT01154673|165002933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.056|TWO_SIDED|95.0|-0.006|0.4||"The estimated difference in mean change from baseline to 48 weeks was calculated as the log DNA copies/106 CD4+ T cells in Intensive HAART minus the log DNA copies/106 CD4+ T cells in Placebo Arm"|Regression, Linear||"The estimated difference in mean change from baseline to 48 weeks was calculated as the log DNA copies/106 CD4+ T cells in Intensive HAART minus the log DNA copies/106 CD4+ T cells in Placebo Arm"|||0.4|-.006|0.056
82393685|NCT00772005|164498694|SUPERIORITY_OR_OTHER|||||||0.6246||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6246
82393686|NCT00772005|164498694|SUPERIORITY_OR_OTHER|||||||0.8655||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8655
82393687|NCT00772005|164498695|SUPERIORITY_OR_OTHER|||||||0.5676||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5676
82393688|NCT00772005|164498695|SUPERIORITY_OR_OTHER|||||||0.5239||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5239
82393689|NCT00772005|164498695|SUPERIORITY_OR_OTHER|||||||0.4092||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4092
82393690|NCT00772005|164498696|SUPERIORITY_OR_OTHER|||||||0.5195||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5195
82528464|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-7.48|||<|0.001|TWO_SIDED|95.0|-10.19|-4.77|||Mixed Models Analysis|||||-4.77|-10.19|<0.001
82393691|NCT00772005|164498696|SUPERIORITY_OR_OTHER|||||||0.1732||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1732
82393692|NCT00772005|164498696|SUPERIORITY_OR_OTHER|||||||0.7455||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7455
82528465|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-10.83|||<|0.001|TWO_SIDED|95.0|-12.89|-8.77|||Mixed Models Analysis|||||-8.77|-12.89|<0.001
82528466|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-12.76|||<|0.001|TWO_SIDED|95.0|-15.74|-9.77|||Mixed Models Analysis|||||-9.77|-15.74|<0.001
82393693|NCT00772005|164498697|SUPERIORITY_OR_OTHER|||||||0.6885||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6885
82393694|NCT00772005|164498697|SUPERIORITY_OR_OTHER|||||||0.5443||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5443
82393695|NCT00772005|164498697|SUPERIORITY_OR_OTHER|||||||0.9343||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9343
82393696|NCT00772005|164498698|SUPERIORITY_OR_OTHER|||||||0.9093||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9093
82393697|NCT00772005|164498698|SUPERIORITY_OR_OTHER|||||||0.4701||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4701
82528467|NCT04867785|164752779|SUPERIORITY||LSMean Difference|-11.69|||<|0.001|TWO_SIDED|95.0|-13.9|-9.47|||Mixed Models Analysis|||||-9.47|-13.90|<0.001
82528468|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-0.03||||0.979|TWO_SIDED|95.0|-2.18|2.12|||Mixed Models Analysis|||||2.12|-2.18|0.979
82528469|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-4.0||||0.018|TWO_SIDED|95.0|-7.32|-0.68|||Mixed Models Analysis|||||-0.68|-7.32|0.018
82528470|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-7.09|||<|0.001|TWO_SIDED|95.0|-10.46|-3.71|||Mixed Models Analysis|||||-3.71|-10.46|<0.001
82528471|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-13.2|||<|0.001|TWO_SIDED|95.0|-16.74|-9.66|||Mixed Models Analysis|||||-9.66|-16.74|<0.001
82393698|NCT00772005|164498698|SUPERIORITY_OR_OTHER|||||||0.9764||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9764
82393699|NCT00772005|164498699|SUPERIORITY_OR_OTHER|||||||0.8115||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8115
82393700|NCT00772005|164498699|SUPERIORITY_OR_OTHER|||||||0.5378||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5378
82393701|NCT00772005|164498699|SUPERIORITY_OR_OTHER|||||||0.9144||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9144
82393702|NCT00772005|164498700|SUPERIORITY_OR_OTHER|||||||0.9812||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9812
82393703|NCT00772005|164498700|SUPERIORITY_OR_OTHER|||||||0.5464||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5464
82393704|NCT00772005|164498700|SUPERIORITY_OR_OTHER|||||||0.8811||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8811
82643593|NCT00090259|165002934|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.899||||0.027|TWO_SIDED|95.0|0.818|0.988|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.988|0.818|0.027
82393705|NCT00772005|164498701|SUPERIORITY_OR_OTHER|||||||0.6487||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6487
82528472|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-12.84|||<|0.001|TWO_SIDED|95.0|-16.5|-9.18|||Mixed Models Analysis|||||-9.18|-16.50|<0.001
82393706|NCT00772005|164498701|SUPERIORITY_OR_OTHER|||||||0.4204||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4204
82393707|NCT00772005|164498701|SUPERIORITY_OR_OTHER|||||||0.6955||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6955
82393708|NCT00772005|164498702|SUPERIORITY_OR_OTHER|||||||0.6042||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6042
82393709|NCT00772005|164498702|SUPERIORITY_OR_OTHER|||||||0.9783||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9783
82393710|NCT00772005|164498702|SUPERIORITY_OR_OTHER|||||||0.9739||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9739
82393711|NCT00772005|164498703|SUPERIORITY_OR_OTHER|||||||0.3466||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3466
82528473|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-13.91|||<|0.001|TWO_SIDED|95.0|-17.1|-10.71|||Mixed Models Analysis|||||-10.71|-17.10|<0.001
82393712|NCT00772005|164498703|SUPERIORITY_OR_OTHER|||||||0.8469||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8469
82393713|NCT00772005|164498703|SUPERIORITY_OR_OTHER|||||||0.5439||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5439
82393714|NCT00772005|164498704|SUPERIORITY_OR_OTHER|||||||0.6059||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6059
82393715|NCT00772005|164498704|SUPERIORITY_OR_OTHER|||||||0.7474||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7474
82528474|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-1.34||||0.213|TWO_SIDED|95.0|-3.45|0.77|||Mixed Models Analysis|||||0.77|-3.45|0.213
82528475|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-5.31||||0.002|TWO_SIDED|95.0|-8.66|-1.97|||Mixed Models Analysis|||||-1.97|-8.66|0.002
82528476|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-8.4|||<|0.001|TWO_SIDED|95.0|-11.76|-5.04|||Mixed Models Analysis|||||-5.04|-11.76|<0.001
82393716|NCT00772005|164498704|SUPERIORITY_OR_OTHER|||||||0.4424||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4424
82393717|NCT00772005|164498705|SUPERIORITY_OR_OTHER|||||||0.4874||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4874
82393718|NCT00772005|164498705|SUPERIORITY_OR_OTHER|||||||0.8243||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8243
82393719|NCT00772005|164498705|SUPERIORITY_OR_OTHER|||||||0.9562||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9562
82393720|NCT00772005|164498706|SUPERIORITY_OR_OTHER|||||||0.3686||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3686
82393721|NCT00772005|164498706|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0270
82393722|NCT00772005|164498706|SUPERIORITY_OR_OTHER|||||||0.7322||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7322
82393723|NCT00772005|164498707|SUPERIORITY_OR_OTHER|||||||0.4646||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4646
82528477|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-14.51|||<|0.001|TWO_SIDED|95.0|-18.0|-11.01|||Mixed Models Analysis|||||-11.01|-18.00|<0.001
82393724|NCT00772005|164498707|SUPERIORITY_OR_OTHER|||||||0.8783||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8783
82393725|NCT00772005|164498707|SUPERIORITY_OR_OTHER|||||||0.4213||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4213
82393726|NCT00772005|164498708|SUPERIORITY_OR_OTHER|||||||0.6597||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6597
82393727|NCT00772005|164498708|SUPERIORITY_OR_OTHER|||||||0.0262||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0262
82393728|NCT00772005|164498708|SUPERIORITY_OR_OTHER|||||||0.6652||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6652
82393729|NCT00772005|164498709|SUPERIORITY_OR_OTHER|||||||0.3355||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3355
82393730|NCT00772005|164498709|SUPERIORITY_OR_OTHER|||||||0.0953||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0953
82393731|NCT00772005|164498709|SUPERIORITY_OR_OTHER|||||||0.9235||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9235
82393732|NCT00772005|164498710|SUPERIORITY_OR_OTHER|||||||0.4164||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4164
82393733|NCT00772005|164498710|SUPERIORITY_OR_OTHER|||||||0.3003||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3003
82393734|NCT00772005|164498710|SUPERIORITY_OR_OTHER|||||||0.6907||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6907
82393735|NCT00772005|164498711|SUPERIORITY_OR_OTHER|||||||0.2518||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2518
82393736|NCT00772005|164498711|SUPERIORITY_OR_OTHER|||||||0.0739||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0739
82528478|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-14.15|||<|0.001|TWO_SIDED|95.0|-17.77|-10.54|||Mixed Models Analysis|||||-10.54|-17.77|<0.001
82393737|NCT00772005|164498711|SUPERIORITY_OR_OTHER|||||||0.5644||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5644
82365986|NCT02312713|164442280|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.04||||0.83|TWO_SIDED|95.0|-0.31|0.39|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.39|-0.31|0.83
82365987|NCT02312713|164442281|SUPERIORITY||Mean Difference (Final Values)|7.75||||0.04|TWO_SIDED|95.0|0.43|15.07|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for the 2 Minute Step Test.||15.07|0.43|0.04
82365988|NCT02312713|164442281|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.78|TWO_SIDED|95.0|-6.59|8.82|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for the 2 Minute Step Test.||8.82|-6.59|0.78
82393738|NCT00772005|164498712|SUPERIORITY_OR_OTHER|||||||0.4305||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4305
82393739|NCT00772005|164498712|SUPERIORITY_OR_OTHER|||||||0.8299||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8299
82393740|NCT00772005|164498712|SUPERIORITY_OR_OTHER|||||||0.7283||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7283
82393741|NCT00772005|164498713|SUPERIORITY_OR_OTHER|||||||0.761||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7610
82444391|NCT00121641|164597498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6221.0|STANDARD_ERROR_OF_MEAN|1701.3||0.0003|TWO_SIDED|95.0|-9570.0|-2872.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-2872|-9570|0.0003
82528479|NCT04867785|164752780|SUPERIORITY||LSMean Difference|-15.22|||<|0.001|TWO_SIDED|95.0|-18.36|-12.07|||Mixed Models Analysis|||||-12.07|-18.36|<0.001
82365989|NCT02312713|164442281|SUPERIORITY||Mean Difference (Final Values)|4.88||||0.2|TWO_SIDED|95.0|-2.56|12.33|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for the 2 Minute Step Test.||12.33|-2.56|0.20
82393742|NCT00772005|164498713|SUPERIORITY_OR_OTHER|||||||0.6091||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6091
82365990|NCT02312713|164442281|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.78|TWO_SIDED|95.0|-6.74|8.99|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for the 2 Minute Step Test.||8.99|-6.74|.78
82365991|NCT02312713|164442281|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-2.86||||0.35|TWO_SIDED|95.0|-8.94|3.21|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for the 2 Minute Step Test.||3.21|-8.94|0.35
82393743|NCT00772005|164498713|SUPERIORITY_OR_OTHER|||||||0.3368||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3368
82393744|NCT00772005|164498714|SUPERIORITY_OR_OTHER|||||||0.8457||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8457
82393745|NCT00772005|164498714|SUPERIORITY_OR_OTHER|||||||0.4531||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.4531
82393746|NCT00772005|164498714|SUPERIORITY_OR_OTHER|||||||0.6867||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.6867
82393747|NCT00772005|164498715|SUPERIORITY_OR_OTHER|||||||0.9705||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9705
82393748|NCT00772005|164498715|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0021
82393749|NCT00772005|164498715|SUPERIORITY_OR_OTHER|||||||0.5013||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.5013
82643594|NCT00090259|165002935|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.924||||0.068|TWO_SIDED|95.0|0.848|1.006|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||1.006|0.848|0.068
82643595|NCT00090259|165002936|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.235|TWO_SIDED|95.0|0.84|1.044|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||1.044|0.840|0.235
82643596|NCT00090259|165002937|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.865||||0.025|TWO_SIDED|95.0|0.762|0.982|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.982|0.762|0.025
82365992|NCT02312713|164442281|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.01||||1|TWO_SIDED|95.0|-6.4|6.42|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for the 2 Minute Step Test.||6.42|-6.40|1.00
82365993|NCT02312713|164442282|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.19|TWO_SIDED|95.0|-1.56|0.3|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Unilateral Stand Time.||0.30|-1.56|0.19
82365994|NCT02312713|164442282|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.93|TWO_SIDED|95.0|-0.89|0.98|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Unilateral Stand Time.||0.98|-0.89|0.93
82365995|NCT02312713|164442282|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.97|TWO_SIDED|95.0|-0.97|0.93|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Unilateral Stand Time.||0.93|-0.97|0.97
82365996|NCT02312713|164442282|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.93|TWO_SIDED|95.0|-0.91|1.0|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Unilateral Stand Time||1|-0.91|0.93
82643597|NCT00090259|165002938|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.892||||0.023|TWO_SIDED|95.0|0.808|0.984|||Regression, Cox|Model terms: treatment, region and β-blocker use at randomization|Direction of the Comparison: Hazard Ratio of experiencing the endpoint on Losartan 150 mg compared to Losartan 50 mg|||0.984|0.808|0.023
82365997|NCT02312713|164442282|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.61||||0.12|TWO_SIDED|95.0|-0.16|1.38|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Unilateral Stand Time.||1.38|-0.16|0.12
82365998|NCT02312713|164442282|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.78|0.77|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Unilateral Stand Time.||0.77|-0.78|1.00
82365999|NCT02312713|164442283|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.63|TWO_SIDED|95.0|-1.55|0.94|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for 30 Second Chair Stand.||.94|-1.55|0.63
82366000|NCT02312713|164442283|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.37|TWO_SIDED|95.0|-1.58|0.6|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for 30 Second Chair Stand.||0.6|-1.58|0.37
82366001|NCT02312713|164442283|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.62|TWO_SIDED|95.0|-0.95|1.59|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for 30 Second Chair Stand.||1.59|-0.95|0.62
82366002|NCT02312713|164442283|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.67|TWO_SIDED|95.0|-0.87|1.35|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for 30 Second Chair Stand.||1.35|-0.87|0.67
82366003|NCT02312713|164442283|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.63||||0.23|TWO_SIDED|95.0|-0.4|1.66|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for 30 Second Chair Stand.||1.66|-0.40|0.23
82643598|NCT00345969|165002944|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82643599|NCT00345969|165002945|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||ANOVA|||||||0.55
82643600|NCT00345969|165002946|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||ANOVA|||||||0.23
82643601|NCT00345969|165002947|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||ANOVA|||||||0.43
82643602|NCT00345969|165002948|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||ANOVA|||||||0.33
82643603|NCT00345969|165002949|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||ANOVA|||||||0.93
82643604|NCT00345969|165002950|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||ANOVA|||||||0.24
82643605|NCT00345969|165002951|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||ANOVA|||||||0.49
82643606|NCT00345969|165002952|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||ANOVA|||||||0.19
82643607|NCT00345969|165002953|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||0.71
82643608|NCT00345969|165002954|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||ANOVA|||||||0.44
82643609|NCT00345969|165002955|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||ANOVA|||||||0.89
82643610|NCT00345969|165002956|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANOVA|||||||0.13
82643611|NCT03083639|165002957|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of AUC∞ using analysis of variance (ANOVA) models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90 percent (%) confidence intervals (CIs) for the ratio of AUC central values between esomeprazole capsules and tablets are presented.|Point estimate|1.018|||||TWO_SIDED|90.0|0.969|1.07||||||||1.070|0.969|
82643612|NCT03083639|165002958|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of AUCt using ANOVA models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90% CIs for the ratio of AUC central values between esomeprazole capsules and tablets are presented.|Point estimate|0.993|||||TWO_SIDED|90.0|0.939|1.05||||||||1.050|0.939|
82393750|NCT00772005|164498716|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.7330
82393751|NCT00772005|164498716|SUPERIORITY_OR_OTHER|||||||0.0068||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0068
82393752|NCT00772005|164498716|SUPERIORITY_OR_OTHER|||||||0.104||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1040
82393753|NCT00772005|164498717|SUPERIORITY_OR_OTHER|||||||0.822||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8220
82393754|NCT00772005|164498717|SUPERIORITY_OR_OTHER|||||||0.0144||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0144
82643613|NCT03083639|165002959|EQUIVALENCE|The bioequivalence between esomeprazole capsules (Regimen A) and esomeprazole tablets (Regimen B) was assessed for the natural logarithms of Cmax using ANOVA models. The models included regimen, period, and sequence as fixed effects and participant nested within sequence as a random effect. Within ANOVA framework, point estimates and their 90% CIs for the ratio of Cmax central values between esomeprazole capsules and tablets are presented.|Point estimate|0.942|||||TWO_SIDED|90.0|0.88|1.009||||||||1.009|0.880|
82643614|NCT01275170|165002960|OTHER|Geometric mean ratio (GMR) \[Renal Impairment/Healthy Control\]|GMR|1.63|||||TWO_SIDED|90.0|1.12|2.39||||||||2.39|1.12|
82643615|NCT01275170|165002960|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.19|||||TWO_SIDED|90.0|1.51|3.18||||||||3.18|1.51|
82643616|NCT01275170|165002960|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|4.87|||||TWO_SIDED|90.0|3.37|7.04||||||||7.04|3.37|
82528480|NCT03239873|164752794|NON_INFERIORITY|The conclusion of non-inferiority (similarity) is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease equal to or more than the prespecified criterion of 10.0 percentage points for Varicella zoster virus.|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-2.7|2.8|||Miettinen and Nurminen|||||2.8|-2.7|<0.001
82643617|NCT01275170|165002960|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|9.32|||||TWO_SIDED|90.0|6.45|13.46||||||||13.46|6.45|
82643618|NCT01275170|165002960|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.76|||||TWO_SIDED|90.0|1.2|2.58||||||||2.58|1.20|
82393755|NCT00772005|164498717|SUPERIORITY_OR_OTHER|||||||0.9464||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value and 95% CI for the treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.9464
82393756|NCT00336323|164498777|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness at the 3 week visit between the laser only treatment group to the 1.25 mg injection at baseline and at 6 weeks treatment group||||0.009
82393757|NCT00336323|164498777|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness at the 3 week visit between the laser only treatment group to the 2.5mg injection at baseline and 6 weeks treatment group||||<0.001
82393758|NCT00336323|164498777|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 3 week visit||||0.66
82643619|NCT01275170|165002961|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.1|||||TWO_SIDED|90.0|0.64|1.88||||||||1.88|0.64|
82643620|NCT01275170|165002961|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.04|||||TWO_SIDED|90.0|0.62|1.77||||||||1.77|0.62|
82643621|NCT01275170|165002961|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.3|||||TWO_SIDED|90.0|0.77|2.2||||||||2.20|0.77|
82643622|NCT01275170|165002961|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.34|||||TWO_SIDED|90.0|1.39|3.96||||||||3.96|1.39|
82643623|NCT01275170|165002961|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.85|||||TWO_SIDED|90.0|0.5|1.44||||||||1.44|0.50|
82643624|NCT01275170|165002962|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.61|||||TWO_SIDED|90.0|0.42|0.9||||||||0.90|0.42|
82643625|NCT01275170|165002962|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.46|||||TWO_SIDED|90.0|0.31|0.66||||||||0.66|0.31|
82643626|NCT01275170|165002962|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.21|||||TWO_SIDED|90.0|0.14|0.3||||||||0.30|0.14|
82643627|NCT01275170|165002962|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.11|||||TWO_SIDED|90.0|0.07|0.16||||||||0.16|0.07|
82643628|NCT01275170|165002962|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.57|||||TWO_SIDED|90.0|0.39|0.84||||||||0.84|0.39|
82643629|NCT01275170|165002963|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.99|||||TWO_SIDED|90.0|0.82|1.21||||||||1.21|0.82|
82643630|NCT01275170|165002963|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.01|||||TWO_SIDED|90.0|0.84|1.22||||||||1.22|0.84|
82366004|NCT02312713|164442283|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.74||||0.11|TWO_SIDED|95.0|-0.17|1.64|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for 30 Second Chair Stand.||1.64|-0.17|0.11
82366005|NCT02312713|164442284|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.52|TWO_SIDED|95.0|-1.58|0.8|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Timed Up and Go.||0.8|-1.58|0.52
82393759|NCT00336323|164498777|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 6 week visit||||0.49
82393760|NCT00336323|164498777|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Adjusted for baseline values|Least squares regression|||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 9 week visit||||0.45
82393761|NCT00336323|164498777|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of the reduction in central subfield thickening in the 1.25mg injection at baseline and at 6 weeks treatment group with the 2.5mg injection at baseline and 6 weeks treatment group at the 12 week visit||||0.90
82393762|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 3 week visit||||0.42
82393763|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 6 week visit||||0.67
82393764|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 9 week visit||||0.48
82393765|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Least squares regression|||Comparison of improvement in visual acuity between the 1.25mg injection at baseline and at 6 weeks treatment group and the 2.5mg injection at baseline and 6 weeks treatment group at the 12 week visit||||0.82
82393766|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity through the 12 week visit between the laser only treatment group and the 1.25mg injection at baseline and at 6 weeks treatment group||||0.01
82393767|NCT00336323|164498778|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of improvement in visual acuity through the 12 week visit between the laser only treatment group and the 2.5mg injection at baseline and at 6 weeks treatment group||||0.003
82393768|NCT00336323|164498781|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline central subfield thickness of \<400 microns compared to those that had baseline central subfield thickness of ≥400 microns. Eyes included all of those from the pooled Bevacizumab group.||||<0.0001
82393769|NCT00336323|164498782|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Least squares regression|Adjusted for baseline score||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline visual acuity letter score that was \<65 letters compared to those that had baseline visual acuity letter score that was ≥65 letters. Eyes included all of those from the pooled Bevacizumab group.||||0.31
82393770|NCT00336323|164498783|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between those that were ≤66 years old compared to those that were \>66 years old at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.44
82393771|NCT00336323|164498784|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between females and males. Eyes included all of those from the pooled Bevacizumab group.||||0.55
82393772|NCT00336323|164498785|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had no history of treatment for diabetic macular edema compared to those that had history or treatment for diabetic macular edema. Eyes included all of those from the pooled Bevacizumab group.||||0.16
82393773|NCT00336323|164498786|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Least squares regression|||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline retinopathy severity that was \<severe nonproliferative diabetic retinopathy (NPDR) compared to those that had baseline retinopathy severity that was proliferative diabetic retinopathy or severe NPDR. Eyes included all of those from the pooled Bevacizumab group.||||0.53
82393774|NCT00336323|164498787|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline clinical diabetic macular edema characterized as typical/predominantly focal, neither predominantly focal or diffuse, or typical/predominantly diffuse. Eyes included all of those from the pooled Bevacizumab group.||||0.93
82393775|NCT00336323|164498788|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of central subfield thickness (microns) change from baseline to the 3 week visit between eyes that had baseline subretinal fluid that was definite/questionable compared to eyes that had no evidence of subretinal fluid at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.52
82448902|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.57||||0.1354|TWO_SIDED|95.0|-5.98|0.83||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Sleep time problems at Day 7||0.83|-5.98|0.1354
82643631|NCT01275170|165002963|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.9|||||TWO_SIDED|90.0|0.74|1.08||||||||1.08|0.74|
82393776|NCT00336323|164498789|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had baseline central subfield thickness of \<400 microns compared to eyes that had baseline central subfield thickness of ≥400 microns. Eyes included all of those from the pooled Bevacizumab group.||||0.22
82393777|NCT00336323|164498790|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Least squares regression|Adjusted for baseline values||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline visual acuity letter score of \<65 letters compared to eyes that had baseline visual acuity letter score of ≥65 letters. Eyes included all of those from the pooled Bevacizumab group.||||0.006
82393778|NCT00336323|164498791|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that were ≤66 years old at baseline compared to eyes that were \>66 years old at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.23
82393779|NCT00336323|164498792|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between females and males. Eyes included all of those from the pooled Bevacizumab group.||||0.37
82393780|NCT00336323|164498793|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that did not have a prior history of treatment for diabetic macular edema compared to eyes that did have a prior history of treatment for diabetic macular edema. Eyes included all of those from the pooled Bevacizumab group.||||0.04
82393781|NCT00336323|164498794|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline retinopathy severity of \<severe nonproliferative diabetic retinopathy (NPDR) compared to eyes that had baseline retinopathy severity of proliferative diabetic retinopathy or severe NPDR. Eyes included all of those from the pooled Bevacizumab group.||||0.38
82393782|NCT00336323|164498795|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline clinical diabetic macular edema (DME) characterization of typical/predominantly focal compared to neither predominantly focal or diffuse characterization at baseline and compared to typical/predominantly diffuse characterization at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.45
82393783|NCT00336323|164498796|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Least squares regression|||Comparison of change in visual acuity letter score from baseline to the 3 week visit between eyes that had a baseline subretinal fluid presence that was definite/questionable compared to eyes that there was no evidence of subretinal fluid at baseline. Eyes included all of those from the pooled Bevacizumab group.||||0.06
82393784|NCT02584959|164498851|OTHER||Difference in LS means|-2.32|||<|0.0001|TWO_SIDED|95.0|-2.895|-1.744|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-1.744|-2.895|<0.0001
82393785|NCT02584959|164498853|OTHER||Difference in LS means|-2.323|||<|0.0001|TWO_SIDED|95.0|-2.969|-1.677|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-1.677|-2.969|<0.0001
82393786|NCT02584959|164498856|OTHER||Difference in LS means|-4.881|||<|0.0001|TWO_SIDED|95.0|-6.113|-3.649|||Mixed Models Analysis|||The LS means, 95% CIs, and p-values were based on a mixed effect linear model with period, sequence ,use of prophylactic therapy with C1 INH at randomization, and treatment as fixed effects and subject nested within sequence as a random effect.||-3.649|-6.113|<0.0001
82393787|NCT02584959|164498857|OTHER||Difference in LS means|5.435|||<|0.0001|TWO_SIDED|95.0|3.981|6.889|||Mixed Models Analysis|||||6.889|3.981|<0.0001
82393788|NCT02584959|164498858|OTHER||Difference in LS means|-2.175|||<|0.0001|TWO_SIDED|95.0|-2.75|-1.599|||Mixed Models Analysis|||||-1.599|-2.750|<0.0001
82393789|NCT02584959|164498873|OTHER||Difference in LS means|-31.735||||0.0001|TWO_SIDED|95.0|-42.696|-20.773|||Mixed Models Analysis|||The Least Square means, 95% confidence intervals and p-values are based on mixed effect linear model with period, sequence, use of prophylactic therapy with C1 INH at randomization and treatment as fixed effects and subject nested within sequence as a random effect.||-20.773|-42.696|0.0001
82393790|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|1.12|||||TWO_SIDED|95.0|1.0|1.24||||||||1.24|1|
82393791|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|1.05|||||TWO_SIDED|95.0|0.95|1.17||||||||1.17|0.95|
82393792|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H1N1 strain)|0.94|||||TWO_SIDED|95.0|0.85|1.05||||||||1.05|0.85|
82393793|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|1.01|||||TWO_SIDED|95.0|0.92|1.11||||||||1.11|0.92|
82393794|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|0.99|||||TWO_SIDED|95.0|0.9|1.08||||||||1.08|0.9|
82393795|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (H3N2 strain)|0.98|||||TWO_SIDED|95.0|0.89|1.07||||||||1.07|0.89|
82393796|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|1.0|||||TWO_SIDED|95.0|0.91|1.1||||||||1.1|0.91|
82643632|NCT01275170|165002963|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.96|||||TWO_SIDED|90.0|0.79|1.16||||||||1.16|0.79|
82643633|NCT01275170|165002963|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.28|||||TWO_SIDED|90.0|2.7|4.0||||||||4.00|2.70|
82643634|NCT01275170|165002966|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.41|||||TWO_SIDED|90.0|1.07|1.84||||||||1.84|1.07|
82366006|NCT02312713|164442284|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.46|TWO_SIDED|95.0|-1.86|0.85|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Timed Up and Go.||0.85|-1.86|0.46
82366007|NCT02312713|164442284|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.3|TWO_SIDED|95.0|-1.85|0.58|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Timed Up and Go.||0.58|-1.85|0.3
82366008|NCT02312713|164442284|SUPERIORITY||Mean Difference (Final Values)|-1.22||||0.08|TWO_SIDED|95.0|-2.61|0.16|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Timed Up and Go.||0.16|-2.61|0.08
82366009|NCT02312713|164442284|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.24||||0.63|TWO_SIDED|95.0|-1.23|0.74|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Timed Up and Go.||0.74|-1.23|0.63
82366010|NCT02312713|164442284|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.72||||0.21|TWO_SIDED|95.0|-1.85|0.41|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Timed Up and Go.||0.41|-1.85|0.21
82366011|NCT02312713|164442285|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.05|TWO_SIDED|95.0|-1.59|0.02|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.02|-1.59|0.05
82366012|NCT02312713|164442285|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.05|TWO_SIDED|95.0|-1.82|0.02|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.02|-1.82|0.05
82366013|NCT02312713|164442285|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.19|TWO_SIDED|95.0|-1.37|0.27|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.27|-1.37|0.19
82366014|NCT02312713|164442285|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.06|TWO_SIDED|95.0|-1.83|0.05|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.05|-1.83|0.06
82366015|NCT02312713|164442285|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.23||||0.49|TWO_SIDED|95.0|-0.43|0.89|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||0.89|-0.43|0.49
82366016|NCT02312713|164442285|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.77|0.78|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.78|-0.77|0.99
82393797|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|0.96|||||TWO_SIDED|95.0|0.87|1.05||||||||1.05|0.87|
82643635|NCT01275170|165002966|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.53|||||TWO_SIDED|90.0|1.17|1.99||||||||1.99|1.17|
82366017|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.57||||0.36|TWO_SIDED|95.0|-1.77|4.92|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS Pain.||4.92|-1.77|0.36
82366018|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.51||||0.17|TWO_SIDED|95.0|-1.11|6.14|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months for KOOS Pain.||6.14|-1.11|0.17
82366019|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.94||||0.06|TWO_SIDED|95.0|-0.19|8.06|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS Pain.||8.06|-0.19|0.06
82366020|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.36||||0.14|TWO_SIDED|95.0|-1.08|7.79|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS Pain.||7.79|-1.08|0.14
82366021|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|2.37||||0.25|TWO_SIDED|95.0|-1.67|6.4|||Mixed Models Analysis|||This is the comparison between Standard Physical Therapy and Wait List Control at 4 months for KOOS Pain.||6.4|-1.67|0.25
82393798|NCT01162122|164498885|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CIs of GMT ratios for the pairwise lot-to-lot group comparisons should fall within the equivalence range of 0.67 to 1.5.|GMT ratio (B strain)|0.96|||||TWO_SIDED|95.0|0.87|1.05||||||||1.05|0.87|
82393799|NCT01162122|164498886|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|1.32|1.49||||||||1.49|1.32|
82643636|NCT01275170|165002966|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.51|||||TWO_SIDED|90.0|1.93|3.26||||||||3.26|1.93|
82643637|NCT01275170|165002966|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.1|||||TWO_SIDED|90.0|2.39|4.03||||||||4.03|2.39|
82643638|NCT01275170|165002966|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.99|||||TWO_SIDED|90.0|0.76|1.29||||||||1.29|0.76|
82393800|NCT01162122|164498886|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H3N2 strain)|1.61|||||TWO_SIDED|95.0|1.52|1.7||||||||1.7|1.52|
82643639|NCT01275170|165002967|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.15|||||TWO_SIDED|90.0|0.65|2.06||||||||2.06|0.65|
82643640|NCT01275170|165002967|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.07|||||TWO_SIDED|90.0|0.61|1.89||||||||1.89|0.61|
82643641|NCT01275170|165002967|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.32|||||TWO_SIDED|90.0|0.75|2.32||||||||2.32|0.75|
82366022|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.7|TWO_SIDED|95.0|-3.48|5.18|||Mixed Models Analysis|||This is the comparison between Standard Physical Therapy and Wait List Control at 12 months for KOOS Pain.||5.18|-3.48|0.70
82366023|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-1.32||||0.4|TWO_SIDED|95.0|-4.43|1.79|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS ADL.||1.79|-4.43|0.40
82366024|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.33||||0.84|TWO_SIDED|95.0|-2.93|3.59|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS ADL.||3.59|-2.93|0.84
82366025|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|2.11||||0.28|TWO_SIDED|95.0|-1.73|5.94|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 month for KOOS ADL.||5.94|-1.73|0.28
82366026|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|2.79||||0.17|TWO_SIDED|95.0|-1.2|6.77|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 month for KOOS ADL.||6.77|-1.2|0.17
82366027|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.43||||0.07|TWO_SIDED|95.0|-0.32|7.18|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS ADL.||7.18|-0.32|0.07
82366028|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|2.45||||0.22|TWO_SIDED|95.0|-1.44|6.34|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS ADL.||6.34|-1.44|0.22
82366029|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.21||||0.92|TWO_SIDED|95.0|-4.47|4.06|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS Sport/Rec.||4.06|-4.47|.92
82393801|NCT01162122|164498886|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (B strain)|1.15|||||TWO_SIDED|95.0|1.08|1.21||||||||1.21|1.08|
82393802|NCT01162122|164498887|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (H1N1 strain)|9.2|||||TWO_SIDED|95.0|7.1|11.3||||||||11.3|7.1|
82366030|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.55||||0.82|TWO_SIDED|95.0|-4.15|5.24|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS Sport/Rec.||5.24|-4.15|.82
82366031|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.71||||0.17|TWO_SIDED|95.0|-1.59|9.0|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS Sport/Rec.||9|-1.59|0.17
82366032|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|6.01||||0.04|TWO_SIDED|95.0|0.29|11.74|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS Sport/Rec.||11.74|0.29|0.04
82366033|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.91||||0.14|TWO_SIDED|95.0|-1.28|9.1|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS Sport/Rec.||9.1|-1.28|0.14
82366034|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|5.47||||0.05|TWO_SIDED|95.0|-0.1|11.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS Sport/Rec.||11.03|-0.1|0.05
82366035|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.33||||0.86|TWO_SIDED|95.0|-3.29|3.96|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for KOOS QOL.||3.96|-3.29|.86
82393803|NCT01162122|164498887|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (H3N2 strain)|12.7|||||TWO_SIDED|95.0|10.5|14.9||||||||14.9|10.5|
82643642|NCT01275170|165002967|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.46|||||TWO_SIDED|90.0|1.4|4.33||||||||4.33|1.40|
82643643|NCT01275170|165002967|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.86|||||TWO_SIDED|90.0|0.49|1.51||||||||1.51|0.49|
82643644|NCT01275170|165002968|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.71|||||TWO_SIDED|90.0|0.54|0.93||||||||0.93|0.54|
82643645|NCT01275170|165002968|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.65|||||TWO_SIDED|90.0|0.5|0.85||||||||0.85|0.50|
82643646|NCT01275170|165002968|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.4|||||TWO_SIDED|90.0|0.31|0.52||||||||0.52|0.31|
82366036|NCT02312713|164442286|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.59||||0.15|TWO_SIDED|95.0|-0.96|6.13|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for KOOS QOL.||6.13|-0.96|0.15
82366037|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.63||||0.11|TWO_SIDED|95.0|-0.85|8.11|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for KOOS QOL.||8.11|-0.85|0.11
82366038|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|7.74||||0|TWO_SIDED|95.0|3.39|12.08|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for KOOS QOL.||12.08|3.39|0
82366039|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|3.29||||0.14|TWO_SIDED|95.0|-1.08|7.67|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for KOOS QOL.||7.67|-1.08|0.14
82366040|NCT02312713|164442286|SUPERIORITY||Mean Difference (Final Values)|5.15||||0.02|TWO_SIDED|95.0|0.92|9.37|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for KOOS QOL.||9.37|0.92|0.02
82366041|NCT02312713|164442287|SUPERIORITY||Mean Difference (Final Values)|-2.58||||0.02|TWO_SIDED|95.0|-4.67|-0.5|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||-0.5|-4.67|0.02
82366042|NCT02312713|164442287|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.33|TWO_SIDED|95.0|-3.22|1.09|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||1.09|-3.22|0.33
82393804|NCT01162122|164498887|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference (B strain)|5.2|||||TWO_SIDED|95.0|3.0|7.4||||||||7.4|3.0|
82444392|NCT00121641|164597498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6249.0|STANDARD_ERROR_OF_MEAN|1675.1||0.0002|TWO_SIDED|95.0|-9546.0|-2952.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-2952|-9546|0.0002
82393805|NCT01162122|164498888|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|1.37|||||TWO_SIDED|95.0|1.29|1.46||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.46|1.29|
82575346|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|4.223||0.7486|TWO_SIDED|90.0|-8.38|5.66|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||5.66|-8.38|0.7486
82393806|NCT01162122|164498888|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.6|||||TWO_SIDED|95.0|1.51|1.68||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.68|1.51|
82393807|NCT01162122|164498888|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.14|||||TWO_SIDED|95.0|1.08|1.2||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.2|1.08|
82393808|NCT01162122|164498889|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|8.9|||||TWO_SIDED|95.0|6.9|10.9||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||10.9|6.9|
82448903|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|1.86||||0.2722|TWO_SIDED|95.0|-1.5|5.21||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of sleep time problems at Day 7||5.21|-1.50|0.2722
82366043|NCT02312713|164442287|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.72|TWO_SIDED|95.0|-2.52|1.74|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||1.74|-2.52|0.72
82366044|NCT02312713|164442287|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.56|TWO_SIDED|95.0|-1.56|2.86|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||2.86|-1.56|0.56
82366045|NCT02312713|164442287|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|2.19||||0.01|TWO_SIDED|95.0|0.48|3.9|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.9|0.48|0.01
82366046|NCT02312713|164442287|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.71||||0.06|TWO_SIDED|95.0|-0.1|3.52|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||3.52|-0.1|0.06
82366047|NCT02312713|164442288|SUPERIORITY||Mean Difference (Final Values)|-2.47||||0.03|TWO_SIDED|95.0|-4.67|-0.26|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||-0.26|-4.67|0.03
82366048|NCT02312713|164442288|SUPERIORITY||Mean Difference (Final Values)|-2.43||||0.01|TWO_SIDED|95.0|-4.31|-0.55|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||-0.55|-4.31|0.01
82366049|NCT02312713|164442288|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.39|TWO_SIDED|95.0|-3.24|1.27|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||1.27|-3.24|0.39
82366050|NCT02312713|164442288|SUPERIORITY||Mean Difference (Final Values)|-1.65||||0.1|TWO_SIDED|95.0|-3.58|0.29|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.29|-3.58|0.1
82393809|NCT01162122|164498889|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|12.7|||||TWO_SIDED|95.0|10.6|14.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||14.8|10.6|
82366051|NCT02312713|164442288|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|1.48||||0.11|TWO_SIDED|95.0|-0.33|3.29|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||3.29|-0.33|0.11
82366052|NCT02312713|164442288|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.79||||0.33|TWO_SIDED|95.0|-0.8|2.37|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||2.37|-0.8|0.33
82366053|NCT02312713|164442289|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.06|TWO_SIDED|95.0|-1.62|0.04|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||0.04|-1.62|0.06
82366054|NCT02312713|164442289|SUPERIORITY||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.77|0.77|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||0.77|-0.77|1.00
82366055|NCT02312713|164442289|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.31|TWO_SIDED|95.0|-1.29|0.41|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||0.41|-1.29|0.31
82366056|NCT02312713|164442289|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.58|TWO_SIDED|95.0|-1.01|0.57|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||0.57|-1.01|0.58
82366057|NCT02312713|164442289|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.35||||0.32|TWO_SIDED|95.0|-0.33|1.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||1.03|-0.33|0.32
82366058|NCT02312713|164442289|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.22||||0.51|TWO_SIDED|95.0|-0.86|0.43|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||0.43|-0.86|0.51
82366059|NCT02312713|164442290|SUPERIORITY||Mean Difference (Final Values)|6.95||||0.48|TWO_SIDED|95.0|-12.31|26.22|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months.||26.22|-12.31|0.48
82393810|NCT01162122|164498889|SUPERIORITY_OR_OTHER||Group difference (B strain)|5.1|||||TWO_SIDED|95.0|2.9|7.2||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||7.2|2.9|
82528481|NCT03239873|164752794|OTHER|Acceptability|Antibody Response Rate|98.4|||<|0.001|TWO_SIDED|95.0|95.9|99.6|||Exact CI method/binomial proportion|||The conclusion of acceptability is based on the lower bound of the 95% Confidence Interval (CI) being \>76%, and implies that the value of the parameter is statistically significantly greater than the prespecified acceptability criterion (76%).||99.6|95.9|<0.001
82393811|NCT01162122|164498893|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H1N1 strain)|1.38|||||TWO_SIDED|95.0|1.25|1.52||||||||1.52|1.25|
82393812|NCT01162122|164498893|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (H3N2 strain)|1.57|||||TWO_SIDED|95.0|1.44|1.72||||||||1.72|1.44|
82448904|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|-0.71||||0.6195|TWO_SIDED|95.0|-3.55|2.14||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on walking in the morning at Day 7||2.14|-3.55|0.6195
82643647|NCT01275170|165002968|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.32|||||TWO_SIDED|90.0|0.25|0.42||||||||0.42|0.25|
82366060|NCT02312713|164442290|SUPERIORITY||Mean Difference (Final Values)|7.11||||0.41|TWO_SIDED|95.0|-9.69|23.91|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months.||23.91|-9.69|0.41
82366061|NCT02312713|164442290|SUPERIORITY||Mean Difference (Final Values)|-6.82||||0.5|TWO_SIDED|95.0|-26.55|12.91|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months.||12.91|-26.55|0.50
82366062|NCT02312713|164442290|SUPERIORITY||Mean Difference (Final Values)|7.02||||0.43|TWO_SIDED|95.0|-10.31|24.35|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months.||24.35|-10.31|0.43
82366063|NCT02312713|164442290|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-13.77||||0.09|TWO_SIDED|95.0|-29.73|2.19|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months.||2.19|-29.73|0.09
82366064|NCT02312713|164442290|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.09||||0.99|TWO_SIDED|95.0|-14.41|14.23|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet-Based Exercise Training at 12 months.||14.23|-14.41|0.99
82366065|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.36||||0.04|TWO_SIDED|95.0|0.05|2.66|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Strengthening Exercises||2.66|0.05|0.04
82366066|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.09|TWO_SIDED|95.0|-0.18|2.6|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Strengthening Exercises.||2.6|-0.18|0.09
82393813|NCT01162122|164498893|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 homologous strains was \>0.67.|GMT ratio (B strain)|1.12|||||TWO_SIDED|95.0|1.03|1.21||||||||1.21|1.03|
82393814|NCT01162122|164498894|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (H1N1 strain)|11.1|||||TWO_SIDED|95.0|7.5|14.6||||||||14.6|7.5|
82393815|NCT01162122|164498894|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (H3N2 strain)|13.5|||||TWO_SIDED|95.0|9.8|17.2||||||||17.2|9.8|
82393816|NCT01162122|164498894|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%|Group difference (B strain)|5.0|||||TWO_SIDED|95.0|1.4|8.5||||||||8.5|1.4|
82393817|NCT01162122|164498895|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|1.32|||||TWO_SIDED|95.0|1.2|1.45||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.45|1.2|
82643648|NCT01275170|165002968|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.01|||||TWO_SIDED|90.0|0.78|1.31||||||||1.31|0.78|
82366067|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.22|TWO_SIDED|95.0|-0.49|2.19|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Strengthening Exercises.||2.19|-0.49|0.22
82366068|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.06|TWO_SIDED|95.0|-0.08|2.78|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Strengthening Exercises.||2.78|-0.08|0.06
82393818|NCT01162122|164498895|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.54|||||TWO_SIDED|95.0|1.42|1.68||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.68|1.42|
82393819|NCT01162122|164498895|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.11|||||TWO_SIDED|95.0|1.03|1.21||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||1.21|1.03|
82393820|NCT01162122|164498899|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|9.9|||||TWO_SIDED|95.0|6.4|13.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||13.3|6.4|
82393821|NCT01162122|164498899|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|13.0|||||TWO_SIDED|95.0|9.5|16.6||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||16.6|9.5|
82393822|NCT01162122|164498899|SUPERIORITY_OR_OTHER||Group difference (B strain)|4.9|||||TWO_SIDED|95.0|1.5|8.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 homologous strains was \>10%.||8.3|1.5|
82393823|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (H3N2/Brisbane-overall)|1.45|||||TWO_SIDED|95.0|1.29|1.63||||||||1.63|1.29|
82393824|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (H3N2/Wisconsin-overall)|1.36|||||TWO_SIDED|95.0|1.23|1.5||||||||1.5|1.23|
82393825|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was ≥0.67.|GMT Ratio (B strain-overall)|1.09|||||TWO_SIDED|95.0|0.98|1.21||||||||1.21|0.98|
82393826|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio(H3N2/Brisbane-high risk group)|1.35||||||95.0|1.13|1.61||||||||1.61|1.13|
82393827|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio(H3N2/Wisconsin-high risk group|1.29|||||TWO_SIDED|95.0|1.1|1.5||||||||1.5|1.1|
82393828|NCT01162122|164498900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for all 3 heterologous strains was \>0.67.|GMT Ratio (B strain-high risk group)|1.11|||||TWO_SIDED|95.0|0.95|1.3||||||||1.3|0.95|
82393829|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio (H3N2/Brisbane-overall)|1.49|||||TWO_SIDED|95.0|1.33|1.67||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.67|1.33|
82393830|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio(H3N2/Wisconsin-overall)|1.38|||||TWO_SIDED|95.0|1.25|1.52||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.52|1.25|
82393831|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio (B strain-overall)|1.09|||||TWO_SIDED|95.0|0.99|1.21||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.21|0.99|
82643649|NCT01275170|165002969|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.81|||||TWO_SIDED|90.0|0.61|1.08||||||||1.08|0.61|
82366069|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.51||||0.36|TWO_SIDED|95.0|-1.6|0.58|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Strength.||0.58|-1.6|0.36
82393832|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio (H3N2/Brisbane-high risk)|1.36|||||TWO_SIDED|95.0|1.15|1.61||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.61|1.15|
82643650|NCT01275170|165002969|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.95|||||TWO_SIDED|90.0|0.72|1.26||||||||1.26|0.72|
82643651|NCT01275170|165002969|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.61|1.06||||||||1.06|0.61|
82366070|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.14||||0.81|TWO_SIDED|95.0|-1.03|1.31|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Strength.||1.31|-1.03|0.81
82366071|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.85||||0|TWO_SIDED|95.0|0.67|3.03|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Stretching.||3.03|0.67|0.00
82366072|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.62||||0|TWO_SIDED|95.0|0.55|2.68|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Stretching.||2.68|0.55|0.00
82366073|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.37||||0.03|TWO_SIDED|95.0|0.16|2.57|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Stretching.||2.57|0.16|0.03
82393833|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio(H3N2/Wisconsin-high risk)|1.28|||||TWO_SIDED|95.0|1.1|1.48||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.48|1.1|
82393834|NCT01162122|164498901|SUPERIORITY_OR_OTHER||GMT ratio (B strain-high risk)|1.13|||||TWO_SIDED|95.0|0.97|1.31||||||Superiority was established if the lower bound of the 95% CI for the day 22 vaccine group GMT ratios for at least 2 heterologous strains was \>1.5.||1.31|0.97|
82393835|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference (H3N2/Brisbane-overall)|11.3|||||TWO_SIDED|95.0|6.7|15.9||||||||15.9|6.7|
82643652|NCT01275170|165002969|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.83|||||TWO_SIDED|90.0|0.63|1.09||||||||1.09|0.63|
82643653|NCT01275170|165002969|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.54|||||TWO_SIDED|90.0|1.93|3.36||||||||3.36|1.93|
82643654|NCT01275170|165002972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.6|||||TWO_SIDED|90.0|1.03|2.49||||||||2.49|1.03|
82393836|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference(H3N2/Wisconsin-overall)|11.9|||||TWO_SIDED|95.0|7.3|16.6||||||||16.6|7.3|
82393837|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Slope|4.0|||||TWO_SIDED|95.0|-0.4|8.4||||||||8.4|-0.4|
82393838|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference(H3N2/Brisbane-high risk|12.3|||||TWO_SIDED|95.0|4.8|19.9||||||||19.9|4.8|
82393839|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 homologous strains was ≥-10%.|Group difference(H3N2Wisconsin-high risk|12.6|||||TWO_SIDED|95.0|5.0|20.2||||||||20.2|5.0|
82366074|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|2.07||||0|TWO_SIDED|95.0|0.98|3.16|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Stretching.||3.16|0.98|0.00
82366075|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.48||||0.33|TWO_SIDED|95.0|-1.46|0.5|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Stretching.||0.5|-1.46|0.33
82366076|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.45||||0.32|TWO_SIDED|95.0|-0.44|1.34|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Stretching.||1.34|-0.44|0.32
82366077|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.21|TWO_SIDED|95.0|-0.61|2.8|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 4 months for Aerobic Exercise.||2.8|-0.61|0.21
82393840|NCT01162122|164498902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for all 3 heterologous strains was ≥-10%.|Group difference (B strain-high risk)|4.8|||||TWO_SIDED|95.0|-2.1|11.8||||||||11.8|-2.1|
82393841|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference (H3N2/Brisbane-overall)|12.5|||||TWO_SIDED|95.0|8.1|16.9||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||16.9|8.1|
82393842|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference(H3N2/Wisconsin-overall)|12.6|||||TWO_SIDED|95.0|8.1|17.1||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||17.1|8.1|
82393843|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference (B strain-overall)|4.6|||||TWO_SIDED|95.0|0.4|8.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||8.8|0.4|
82393844|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference(H3N2/Brisbane-high risk|12.4|||||TWO_SIDED|95.0|5.2|19.6||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||19.6|5.2|
82643655|NCT01275170|165002972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.86|||||TWO_SIDED|90.0|1.21|2.87||||||||2.87|1.21|
82643656|NCT01275170|165002972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|5.6|||||TWO_SIDED|90.0|3.64|8.59||||||||8.59|3.64|
82643657|NCT01275170|165002972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|13.75|||||TWO_SIDED|90.0|8.96|21.12||||||||21.12|8.96|
82393845|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference(H3N2/Wisconsin-highrisk|13.0|||||TWO_SIDED|95.0|5.8|20.3||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||20.3|5.8|
82393846|NCT01162122|164498903|SUPERIORITY_OR_OTHER||Group difference (B strain-high risk)|5.1|||||TWO_SIDED|95.0|-1.6|11.8||||||Superiority was established if the lower bound of the 95% CI for the day 22 differences in seroconversion rates for at least 2 heterologous strains was \>10%.||11.8|-1.6|
82393847|NCT03019003|164498913|OTHER||||||<|0.036|||||||t-test, 2 sided|||||||<0.036
82393848|NCT00926536|164498915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|71.6|||<|0.001|TWO_SIDED|||||Decrease in DAP in C-arm CT +DSA group when compared to DSA only|Mixed Models Analysis|||||||<.001
82393849|NCT00926536|164498916|SUPERIORITY_OR_OTHER||Mean Difference (Net)|158.3||||0.017|TWO_SIDED|||||Decrease in CD in C-arm CT +DSA group when compared to DSA only|Mixed Models Analysis|||||||0.017
82366078|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|2.07||||0.04|TWO_SIDED|95.0|0.13|4.0|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Wait List Control at 12 months for Aerobic Exercise.||4|0.13|0.04
82366079|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.03|TWO_SIDED|95.0|0.15|3.62|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 4 months for Aerobic Exercise.||3.62|0.15|0.03
82393850|NCT01267201|164498920|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|92.11|||||TWO_SIDED|90.0|88.23|96.15||||||Natural log transformed AUC (0 - ∞) of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||96.15|88.23|
82393851|NCT01267201|164498920|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|90.22|||||TWO_SIDED|90.0|86.49|94.11||||||Natural log transformed AUC (0 - ∞) of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||94.11|86.49|
82393852|NCT01267201|164498921|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|94.76|||||TWO_SIDED|90.0|88.06|101.98||||||Natural log transformed Cmax of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||101.98|88.06|
82393853|NCT01267201|164498921|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|83.89|||||TWO_SIDED|90.0|78.06|90.17||||||Natural log transformed Cmax of methylprednisolone was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||90.17|78.06|
82393854|NCT02124759|164498925|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|Paired T-test||Null hypothesis is that high fat diet will have no effect on M value, the measure of insulin sensitivity for each intervention as assessed by clamp.||||>0.05
82393855|NCT04250298|164498928|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
82393856|NCT04250298|164498929|OTHER|||||||0.267|||||||t-test, 2 sided|||||||0.267
82393857|NCT04250298|164498930|OTHER|||||||0.228|||||||t-test, 2 sided|||||||0.228
82393858|NCT04250298|164498931|OTHER|||||||0.267|||||||t-test, 2 sided|||||||0.267
82393859|NCT04250298|164498932|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82393860|NCT04250298|164498933|OTHER|||||||0.318|||||||Fisher Exact|||||||0.318
82393861|NCT04250298|164498934|OTHER|||||||0.348|||||||Fisher Exact|||||||0.348
82393862|NCT04250298|164498935|OTHER|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||||||0.548
82393863|NCT04250298|164498936|OTHER|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||||||0.401
82393864|NCT04250298|164498937|OTHER|||||||0.506|||||||Wilcoxon (Mann-Whitney)|||||||0.506
82393865|NCT04250298|164498938|OTHER|||||||0.506|||||||Wilcoxon (Mann-Whitney)|||||||0.506
82393866|NCT04250298|164498944|OTHER|Mann-Whitney U test, Fisher Exact, Chi-Squared, Kolmogorv-Smirnow||||||0.919|||||||Wilcoxon (Mann-Whitney)|||"sub-population 1 vs. sub-population 2: Parametric and nonparametric univariate tests: t-test for independent samples, Mann-Whitney-U test, Fisher's exact test, chi-square homogeneity test; normal distribution check by Kolmogorov-Smirnov test with Lilliefors -significance correction, type I error = 10%).~Estimate the true effect size:~Two-sided 95% confidence intervals (depending on the nature of the data sets: parametric, non-parametric or Clopper-Pearson) are calculated for all parameters."||||0.919
82393867|NCT04250298|164498946|OTHER|||||||0.033|||||||t-test, 2 sided|||||||0.033
82393868|NCT04250298|164498947|OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
82393869|NCT04250298|164498948|OTHER|||||||0.676|||||||t-test, 2 sided|||||||0.676
82393870|NCT04250298|164498949|OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82393871|NCT04250298|164498954|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
82393872|NCT04250298|164498955|OTHER|||||||0.862|||||||t-test, 2 sided|||||||0.862
82393873|NCT04250298|164498956|OTHER|||||||0.25|||||||Fisher Exact|||||||0.250
82393874|NCT04250298|164498957|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82393875|NCT04250298|164498958|OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
82393876|NCT04250298|164498959|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
82393877|NCT04250298|164498960|OTHER|||||||0.111|||||||Wilcoxon (Mann-Whitney)|||||||0.111
82393878|NCT04250298|164498961|OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
82393879|NCT04250298|164498964|OTHER|||||||0.111|||||||Wilcoxon (Mann-Whitney)|||||||0.111
82393880|NCT04250298|164498965|OTHER|||||||0.213|||||||Wilcoxon (Mann-Whitney)|||||||0.213
82393881|NCT00725101|164499063|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||P-value for age over 65.|Regression, Logistic|||||||0.0074
82393882|NCT00725101|164499063|SUPERIORITY_OR_OTHER|||||||0.0028||95.0||||P-value for female physicians.|Regression, Logistic|||||||0.0028
82393883|NCT00725101|164499063|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Rheumatology versus PCP.|Regression, Logistic|||||||<0.0001
82393884|NCT00725101|164499063|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for other specialty versus PCP.|Regression, Logistic|||||||<0.0001
82393885|NCT00725101|164499063|SUPERIORITY_OR_OTHER|||||||0.0064||95.0||||P-value for use of opioids.|Regression, Logistic|||||||0.0064
82393886|NCT00725101|164499063|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for use of NSAIDs.|Regression, Logistic|||||||<0.0001
82393887|NCT00725101|164499063|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for number of medications participants were taking.|Regression, Logistic|||||||<0.0001
82393888|NCT00725101|164499064|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for GAD-7 score.|Regression, Logistic|||||||0.026
82393889|NCT00725101|164499064|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for pregabalin use.|Regression, Logistic|||||||0.021
82366080|NCT02312713|164442291|SUPERIORITY||Mean Difference (Final Values)|1.99||||0.05|TWO_SIDED|95.0|0.01|3.97|||Mixed Models Analysis|||This is the comparison between Internet Based Exercise Training and Wait List Control at 12 months for Aerobic Exercise.||3.97|0.01|0.05
82366081|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|0.79||||0.27|TWO_SIDED|95.0|-0.62|2.2|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 4 months for Aerobic Exercise.||2.2|-0.62|0.27
82393890|NCT00725101|164499064|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for NSAID use.|Regression, Logistic|||||||0.050
82393891|NCT02923245|164499084|OTHER||Mean Difference (Final Values)|49.7|||||TWO_SIDED|95.0|23.4|77.2|||||These confidence intervals correspond to the bootstrap analysis|||77.2|23.4|
82393892|NCT02923245|164499085|OTHER||Difference in percentages|15.3||||0.006|TWO_SIDED|95.0|5.3|25.0|||Test of proportions|||||25.0|5.3|0.006
82393893|NCT00793624|164499125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.193|0.110|<0.0001
82393894|NCT00793624|164499125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.124|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.124|<0.0001
82393895|NCT00793624|164499125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.218|0.136|<0.0001
82393896|NCT00793624|164499126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.021||0.0002||95.0|0.037|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.118|0.037|0.0002
82366082|NCT02312713|164442291|NON_INFERIORITY|Since there were not sufficient data in prior literature to specific an a priori non-inferiority margin, for this and other secondary outcomes we based conclusions and discussions on magnitude of differences between the group, descriptively. This strategy was specified in the protocol.|Mean Difference (Final Values)|-0.07||||0.93|TWO_SIDED|95.0|-1.69|1.54|||Mixed Models Analysis|||This is the comparison between Physical Therapy and Internet Based Exercise Training at 12 months for Aerobic Exercise.||1.54|-1.69|0.93
82393897|NCT00793624|164499126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.044|0.125|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.125|0.044|<0.0001
82393898|NCT00793624|164499126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.021||0.0088||95.0|0.014|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.095|0.014|0.0088
82393899|NCT00793624|164499127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.343||0.5843||95.0|-0.485|0.86|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.860|-0.485|0.5843
82393900|NCT00793624|164499127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.345||0.9494||95.0|-0.656|0.699|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.699|-0.656|0.9494
82393901|NCT00793624|164499127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.288|STANDARD_ERROR_OF_MEAN|0.346||0.5099||95.0|-0.908|0.451|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.451|-0.908|0.5099
82393902|NCT00793624|164499128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.442|STANDARD_ERROR_OF_MEAN|1.401||0.0816||95.0|-5.19|0.307|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.307|-5.190|0.0816
82393903|NCT00793624|164499128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.394|STANDARD_ERROR_OF_MEAN|1.4||0.0155||95.0|-6.141|-0.648|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.648|-6.141|0.0155
82393904|NCT00793624|164499128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.952|STANDARD_ERROR_OF_MEAN|1.396||0.4954||95.0|-3.691|1.787|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.787|-3.691|0.4954
82448905|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.83||||0.0099|TWO_SIDED|95.0|-6.7|-0.96||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at day 7 for symptoms for walking in the morning||-0.96|-6.70|0.0099
82366083|NCT03856593|164442321|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|95.0|-0.2|-0.07|||Mixed Models Analysis||This is the interaction coefficient for the difference-in-difference in average weekly MME pre-to-post letter between study arms. It was used to acquire the estimated average weekly MME post-letter in the Outcome Measure Data table.|Please note that 10% of means in the pre-intervention period were trimmed to remove outliers.||-0.07|-0.20|<0.05
82366084|NCT03856593|164442322|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|95.0|-0.15|-0.02|||Mixed Models Analysis||This is the interaction coefficient for the difference-in-difference in average weekly MME pre-to-post letter between study arms. It was used to acquire the estimated average weekly VME post-letter in the Outcome Measure Data table.|||-0.02|-0.15|<0.05
82366085|NCT01901874|164442323|OTHER|"Acceptable performance: favorably exclude PG=16.9% with 95.1% confidence.~Wa = expected weight (proportion) anatomic = 35% Pa = CEA expected anatomic MAE = 11% Wc = expected weight (proportion) comorbid = 65% Pc = CEA expected comorbid MAE = 14% D = noninferiority delta = 4%~PG = 0.35 x 11% + 0.65 x 14% + 4% = 16.9%"|Weighted binomial proportion|0.0448|STANDARD_ERROR_OF_MEAN|0.0241|<|1e-05|ONE_SIDED|95.1||0.0846||A priori 1-sided alpha = 0.049 (from simulation) to ensure overall type-1 error rate ≤ 0.05.|Binomial test (normal approximation)||Weighted by expected fractions of anatomic and comorbid high risk subjects (35% and 65%, respectively). Standard error based on H0.|"Test null hypothesis of equal or greater proportion with 1-year MAE compared to a performance goal (PG).~H0: P ≥ 16.9% vs H1: P \< 16.9%, where P is the true proportion of CAS subjects with 1-year MAE and 16.9% is the PG based on outcomes reported for patients treated with carotid endarterectomy (CEA).~N=280 subjects provide ≥90% power to exclude PG with 95.1% confidence if P=10.2% under H1."||0.0846||<0.00001
82366086|NCT01901874|164442331|OTHER||Cumulative probability|0.018|||||TWO_SIDED|95.0|0.007|0.047|||||Kaplan-Meier product-limit method (Greenwood's formula for standard error)|||0.047|0.007|
82366087|NCT01901874|164442332|OTHER||Cumulative probability|0.022|||||TWO_SIDED|95.0|0.009|0.052|||||Kaplan-Meier product-limit method (Greenwood's formula for standard error)|||0.052|0.009|
82366088|NCT03832738|164442373|SUPERIORITY||Odds Ratio (OR)|1.5||||0.558|TWO_SIDED|95.0|0.39|5.8||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||5.80|0.39|0.558
82366089|NCT03832738|164442373|SUPERIORITY||Odds Ratio (OR)|3.74||||0.035|TWO_SIDED|95.0|1.07|13.1||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||13.10|1.07|0.035
82366090|NCT03832738|164442374|SUPERIORITY||Odds Ratio (OR)|2.26||||0.086|TWO_SIDED|95.0|0.89|5.75||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||5.75|0.89|0.086
82366091|NCT03832738|164442374|SUPERIORITY||Odds Ratio (OR)|3.76||||0.006|TWO_SIDED|95.0|1.45|9.75||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||9.75|1.45|0.006
82366092|NCT03832738|164442375|SUPERIORITY||Odds Ratio (OR)|1.0|||>|0.999|TWO_SIDED|95.0|0.06|17.25||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||17.25|0.06|>0.999
82366093|NCT03832738|164442375|SUPERIORITY||Odds Ratio (OR)|3.86||||0.244|TWO_SIDED|95.0|0.36|41.2||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||41.20|0.36|0.244
82366094|NCT03832738|164442377|SUPERIORITY||Odds Ratio (OR)|5.21||||0.009|TWO_SIDED|95.0|1.38|19.62||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||19.62|1.38|0.009
82366095|NCT03832738|164442377|SUPERIORITY||Odds Ratio (OR)|7.35||||0.002|TWO_SIDED|95.0|1.86|29.08||p-value was estimated based on Cochran-Mantel-Haenszel test stratified by prior exposure to biologic therapy (Yes/No) and body weight (\<90 kg/≥90 kg).|Cochran-Mantel-Haenszel|||||29.08|1.86|0.002
82366096|NCT03852459|164442392|SUPERIORITY|||||||0.4272|||||||ANCOVA|||||||0.4272
82366097|NCT03545191|164442521|OTHER||LS mean difference to placebo|-12.2|||<|0.0001|TWO_SIDED|95.0|-17.435|-6.961||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 25 mg vs placebo).||-6.961|-17.435|<0.0001
82366098|NCT03545191|164442521|OTHER||LS mean difference to placebo|-22.78|||<|0.0001|TWO_SIDED|95.0|-27.996|-17.567||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 50 mg vs placebo).||-17.567|-27.996|<0.0001
82366099|NCT03545191|164442522|OTHER||LS mean difference to placebo|-11.86|||<|0.0001|TWO_SIDED|95.0|-17.494|-6.23||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 25 mg vs placebo).||-6.23|-17.494|<0.0001
82366100|NCT03545191|164442522|OTHER||LS mean difference to placebo|-18.3|||<|0.0001|TWO_SIDED|95.0|-23.945|-12.661||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 50 mg vs placebo).||-12.661|-23.945|<0.0001
82366101|NCT03545191|164442523|OTHER||LS mean difference to placebo|-8.32||||0.0005|TWO_SIDED|95.0|-13.014|-3.629||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||-3.629|-13.014|0.0005
82393905|NCT00793624|164499129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.785|STANDARD_ERROR_OF_MEAN|1.387||0.045||95.0|-5.507|-0.063|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.063|-5.507|0.0450
82366102|NCT03545191|164442523|OTHER||LS mean difference to placebo|-11.35|||<|0.0001|TWO_SIDED|95.0|-16.022|-6.687||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 50 mg vs placebo).||-6.687|-16.022|<0.0001
82366103|NCT03545191|164442524|OTHER||LS mean difference to placebo|-7.59||||0.0015|TWO_SIDED|95.0|-12.265|-2.923||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||-2.923|-12.265|0.0015
82366104|NCT03545191|164442524|OTHER||LS mean difference to placebo|-11.67|||<|0.0001|TWO_SIDED|95.0|-16.348|-6.994||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 50 mg vs placebo).||-6.994|-16.348|<0.0001
82366105|NCT03545191|164442525|OTHER||LS mean difference to placebo|12.62|||=|0.0013|TWO_SIDED|95.0|4.953|20.288||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||20.288|4.953|= 0.0013
82366106|NCT03545191|164442525|OTHER||LS mean difference to placebo|22.06|||<|0.0001|TWO_SIDED|95.0|14.405|29.708||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||29.708|14.405|< 0.0001
82366107|NCT03545191|164442526|OTHER||LS mean difference to placebo|9.93|||=|0.0334|TWO_SIDED|95.0|0.782|19.082||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 25 mg vs placebo).||19.082|0.782|= 0.0334
82366108|NCT03545191|164442526|OTHER||LS mean difference to placebo|19.77|||<|1e-05|TWO_SIDED|95.0|10.623|28.918||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 50 mg vs placebo).||28.918|10.623|< .00001
82366109|NCT03545191|164442527|OTHER||LS mean difference to placebo|-0.75|||=|0.0547|TWO_SIDED|95.0|-1.515|0.015||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 25 mg vs placebo).||0.015|-1.515|= 0.0547
82366110|NCT03545191|164442527|OTHER||LS mean difference to placebo|-1.75|||<|1e-05|TWO_SIDED|95.0|-2.508|-0.983||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 50 mg vs placebo).||-0.983|-2.508|< .00001
82366111|NCT03545191|164442528|OTHER||LS mean difference to placebo|-0.99||||0.0534|TWO_SIDED|95.0|-1.99|0.014||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 25 mg vs placebo).||0.014|-1.990|0.0534
82366112|NCT03545191|164442528|OTHER||LS mean difference to placebo|-1.9|||=|0.0002|TWO_SIDED|95.0|-2.905|-0.905|||Mixed Models Analysis|||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 50 mg vs placebo).||-0.905|-2.905|= 0.0002
82366113|NCT03545191|164442529|OTHER||LSGM ratio to placebo|0.79||||0.0003|TWO_SIDED|95.0|0.7|0.9||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||0.90|0.70|0.0003
82366114|NCT03545191|164442529|OTHER||LSGM ratio to placebo|0.73|||<|0.0001|TWO_SIDED|95.0|0.65|0.82||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 50 mg vs placebo).||0.82|0.65|<0.0001
82366115|NCT03545191|164442530|OTHER||LSGM ratio to placebo|0.78||||0.0002|TWO_SIDED|95.0|0.68|0.89||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||0.89|0.68|0.0002
82366116|NCT03545191|164442530|OTHER||LSGM ratio to placebo|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.83||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 50 mg vs placebo).||0.83|0.64|<0.0001
82366117|NCT00775684|164442531|SUPERIORITY||||||=|0.1|||||||t-test, 2 sided|||Student t test||||=0.1
82366118|NCT00775684|164442531|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Repeated measure (baseline and 6 months)||||< 0.05
82366119|NCT00775684|164442532|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||Within group changes over 6 months (delta= final - baseline) were compared.||||>0.1
82366120|NCT00775684|164442533|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||To determine if exenatide or sitagliptin induced significant changes from baseline, the change for each measure (Δ = final - baseline) for each group was compared with the change in the glimepiride group using independent Student t tests||||>0.1
82393906|NCT00793624|164499129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.144|STANDARD_ERROR_OF_MEAN|1.386||0.0002||95.0|-7.864|-2.425|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-2.425|-7.864|0.0002
82393907|NCT00793624|164499129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.754|STANDARD_ERROR_OF_MEAN|1.386||0.2061||95.0|-4.474|0.966|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.966|-4.474|0.2061
82528482|NCT03239873|164752795|NON_INFERIORITY|The statistical criterion for noninferiority of the GMT corresponds to the lower bound of the 2-sided 95% CI on the GMT ratio \[VARIVAX® PE34 process/VARIVAX® 2016 commercial product\] being \>0.67.|Risk Difference (RD)|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||Miettinen and Nurminen|||||1.1|0.9|<0.001
82366121|NCT00775684|164442534|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||||||>0.1
82366122|NCT02025751|164442536|SUPERIORITY|||||||0.597|||||||ANCOVA|||||||0.597
82366123|NCT00653991|164442538|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82393908|NCT00793624|164499130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.871|STANDARD_ERROR_OF_MEAN|1.419||0.1878||95.0|-4.655|0.914|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.914|-4.655|0.1878
82528483|NCT03239873|164752796|OTHER||Difference in Percentage|2.0||||0.436|TWO_SIDED|95.0|-3.1|7.1|||Miettinen & Nurminen|||Up to 42 days after Vaccination 1||7.1|-3.1|0.436
82528484|NCT03239873|164752796|OTHER||Difference in Percentage|2.9||||0.204|TWO_SIDED|95.0|-1.6|7.5|||Miettinen & Nurminen|||Up to 42 days after Vaccination 2||7.5|-1.6|0.204
82528485|NCT03239873|164752797|OTHER||Difference in Percentage|-1.3||||0.102|TWO_SIDED|95.0|-3.5|0.4|||Miettinen & Nurminen|||Measles-like rash||0.4|-3.5|0.102
82528486|NCT03239873|164752797|OTHER||Difference in Percentage|0.3||||0.317|TWO_SIDED|95.0|-0.9|1.9|||Miettinen & Nurminen|||Rubella-like rash||1.9|-0.9|0.317
82366124|NCT01244061|164442566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.08|||<|0.0001|TWO_SIDED|95.0|4.34|11.55||The statistical significance was declared for each hypothesis firstly for CAR Weeks 9-12, and then secondly for CAR Weeks 9-52 until a p-value \> 0.05 was obtained, at which point the hypothesis would be declared to be not statistically significant.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||The study was conducted on a sample size to achieve at least 90% power for the treatment comparison in the primary efficacy endpoint assuming an odds ratio of 3.36 with a placebo abstinence rate of 12% and varenicline abstinence rate of 31%. The intent of the primary efficacy analysis was to evaluate the hypothesis that varenicline is superior to placebo for smoking cessation after 12 weeks of treatment.||11.55|4.34|<0.0001
82393909|NCT00793624|164499130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.565|STANDARD_ERROR_OF_MEAN|1.427||0.0126||95.0|-6.364|-0.767|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.767|-6.364|0.0126
82528487|NCT03239873|164752797|OTHER||Difference in Percentage|1.3||||0.241||95.0|-1.0|4.0|||Miettinen & Nurminen|||Varicella-like rash||4.0|-1.0|0.241
82643658|NCT01275170|165002972|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|3.64|||||TWO_SIDED|90.0|2.32|5.69||||||||5.69|2.32|
82393910|NCT00793624|164499130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|1.426||0.9913||95.0|-2.782|2.814|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||2.814|-2.782|0.9913
82393911|NCT00793624|164499131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.972||0.0034||95.0|-4.751|-0.94|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo||-0.940|-4.751|0.0034
82393912|NCT00793624|164499131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.434|STANDARD_ERROR_OF_MEAN|0.973||0.0004||95.0|-5.343|-1.525|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo||-1.525|-5.343|0.0004
82393913|NCT00793624|164499131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.248|STANDARD_ERROR_OF_MEAN|0.976||0.2009||95.0|-3.161|0.665|||Mixed Models Analysis||Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 10 mcg qd minus Placebo||0.665|-3.161|0.2009
82393914|NCT00793624|164499132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.146|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.226|0.146|<0.0001
82528488|NCT03239873|164752797|OTHER||Difference in Percentage|-0.3||||0.318|TWO_SIDED|95.0|-1.9|0.9|||Miettinen & Nurminen|||Zoster-like rash||0.9|-1.9|0.318
82528489|NCT03239873|164752798|OTHER||Difference in Percentage|1.1||||0.17|TWO_SIDED|95.0|-0.7|3.4|||Miettinen & Nurminen|||Measles-like rash||3.4|-0.7|0.170
82528490|NCT03239873|164752798|OTHER||Difference in Percentage|-0.3||||0.576|TWO_SIDED|95.0|-2.2|1.4|||Miettinen & Nurminen|||Varicella-like rash||1.4|-2.2|0.576
82528491|NCT03239873|164752798|OTHER||Difference in Percentage|0.4||||0.312|TWO_SIDED|95.0|-1.0|2.0|||Miettinen & Nurminen|||Zoster-like rash||2.0|-1.0|0.312
82528492|NCT03239873|164752799|OTHER||Difference of Percentage|-1.0||||0.696|TWO_SIDED|95.0|-5.9|4.0|||Miettinen & Nurminen|||Injection site erythema||4.0|-5.9|0.696
82528493|NCT03239873|164752799|OTHER||Difference in Percentage|0.7||||0.796|TWO_SIDED|95.0|-4.7|6.2|||Miettinen & Nurminen|||Injection site pain||6.2|-4.7|0.796
82528494|NCT03239873|164752799|OTHER||Difference in Percentage|-2.7||||0.111||95.0|-6.2|0.7|||Miettinen & Nurminen|||Injection site swelling||0.7|-6.2|0.111
82528495|NCT03239873|164752800|OTHER||Difference in Percentage|-0.3||||0.931|TWO_SIDED|95.0|-6.9|6.4|||Miettinen & Nurminen|||Injection site erythema||6.4|-6.9|0.931
82643659|NCT01275170|165002973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.25|||||TWO_SIDED|90.0|0.75|2.08||||||||2.08|0.75|
82366125|NCT01244061|164442567|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|3.97|20.41||Statistical significance was declared for each hypothesis in the order above until a p-value \>0.05 was obtained, at which point the hypothesis was declared to be not statistically significant.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||The sample size was sufficient to achieve 80% power for the treatment comparison in the key secondary end point for an odds ratio of 2.55 with a placebo abstinence rate of 6% and varenicline abstinence rate of 14%. The intent of the key secondary efficacy analysis was to evaluate the hypothesis that varenicline is superior to placebo for smoking cessation from Week 9 to the end of non-treatment follow up period at Week 52.||20.41|3.97|<0.0001
82366126|NCT01244061|164442568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.83|||<|0.0001|TWO_SIDED|95.0|3.25|10.44||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||||10.44|3.25|<0.0001
82366127|NCT01244061|164442569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.85|||<|0.0001|TWO_SIDED|95.0|4.92|12.51||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 12 assessment||12.51|4.92|<0.0001
82366128|NCT01244061|164442569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.86|4.64||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 24 assessment||4.64|1.86|<0.0001
82366129|NCT01244061|164442569|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.88|4.97||The statistical test was two-sided and at a 0.05 level of significance. No adjustment was made for the analysis of multiple secondary endpoints.|Regression, Logistic|The analysis model included main effect of treatment and pooled center.||Week 52 assessment||4.97|1.88|<0.0001
82366130|NCT03020719|164442606|SUPERIORITY||Mean Difference (Final Values)|-0.081||||0.2521|TWO_SIDED|95.0|-0.221|0.059|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\< 6 years, ≥ 6 years), and baseline weight-for-age z-score category (\< -0.52, ≥ -0.52).|Model incorporates Week 12 weight-for-age z-score, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.059|-0.221|0.2521
82366131|NCT03020719|164442607|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.089|TWO_SIDED|95.0|-0.18|0.01|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.01|-0.18|0.0890
82366132|NCT03020719|164442608|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.573|TWO_SIDED|95.0|-0.28|0.15|||Mixed Models Analysis|Model adjusted from randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.15|-0.28|0.5730
82393915|NCT00793624|164499132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.126|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.206|0.126|<0.0001
82393916|NCT00793624|164499132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.166|0.246|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.246|0.166|<0.0001
82444393|NCT00121641|164597498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7437.0|STANDARD_ERROR_OF_MEAN|1707.6|<|0.0001|TWO_SIDED|95.0|-10798.0|-4076.0||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model:post - pre = pre treatment|||-4076|-10798|<.0001
82366133|NCT03020719|164442609|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.4259|TWO_SIDED|95.0|-0.17|0.4|||Mixed Models Analysis|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).|Model incorporates Week 12 measurements, assumes unstructured covariance for within-subject measurements, and includes a subject-level random intercept.|||0.40|-0.17|0.4259
82366134|NCT03020719|164442610|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.4666|TWO_SIDED|95.0|-2.06|0.96|||ANCOVA|Model adjusted for randomization strata: sex, baseline age (\<6 years, ≥6 years), and baseline weight-for-age z-score category (\< -0.52, ≥-0.52).||||0.96|-2.06|0.4666
82366135|NCT03020719|164442611|SUPERIORITY||Difference in % of Participants with AE|0.0||||1|TWO_SIDED|95.0|-13.6|13.6|||Fisher Exact||95% CI calculated using the Newcombe-Wilson method without continuity correction.|||13.6|-13.6|1.0000
82366136|NCT03020719|164442611|SUPERIORITY||Difference in % of Participants with SAE|-13.3||||0.1945|TWO_SIDED|95.0|-30.5|2.9|||Fisher Exact||95% CI calculated using the Newcombe-Wilson method without continuity correction.|||2.9|-30.5|0.1945
82393917|NCT00793624|164499133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.217|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.217|0.136|<0.0001
82393918|NCT00793624|164499133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.119|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.119|<0.0001
82393919|NCT00793624|164499133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.152|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.233|0.152|<0.0001
82444394|NCT04468074|164597533|SUPERIORITY||Mean Difference (Net)|1.0||||0.014|TWO_SIDED||||||Mixed Models Analysis|||||||0.014
82366137|NCT03020719|164442612|SUPERIORITY||Rate Ratio|1.21||||0.1087|TWO_SIDED|95.0|0.96|1.52|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the GSH group was 179.22 and in the Placebo group was 177.19.||1.52|0.96|0.1087
82366138|NCT03020719|164442612|SUPERIORITY||Rate Ratio|0.12||||0.0122|TWO_SIDED|95.0|0.01|0.67|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the GSH group was 179.22 and in the Placebo group was 177.19.||0.67|0.01|0.0122
82366139|NCT02340221|164442613|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0037|TWO_SIDED|95.0|0.56|0.89|||Log Rank|||||0.89|0.56|0.0037
82366140|NCT02340221|164442614|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0008|TWO_SIDED|95.0|0.58|0.87|||Log Rank|||||0.87|0.58|0.0008
82366141|NCT02340221|164442615|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0002|TWO_SIDED|95.0|1.6|5.4|||Cochran-Mantel-Haenszel|||||5.4|1.6|0.0002
82366142|NCT02340221|164442616|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|1.7|5.4|||Cochran-Mantel-Haenszel|||||5.4|1.7|<0.0001
82366143|NCT02340221|164442617|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4151|TWO_SIDED|95.0|0.58|1.25|||Log Rank|||||1.25|0.58|0.4151
82366144|NCT02340221|164442618|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9974|TWO_SIDED|95.0|0.75|1.33|||Log Rank|||||1.33|0.75|0.9974
82366145|NCT02340221|164442619|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.2|2.9||||||||2.9|1.2|
82366146|NCT02340221|164442620|SUPERIORITY||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.2|3.0||||||||3.0|1.2|
82366147|NCT02340221|164442621|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.6708|TWO_SIDED|95.0|0.23|2.59|||Log Rank|||||2.59|0.23|0.6708
82366148|NCT02340221|164442622|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8286|TWO_SIDED|95.0|0.51|2.35|||Log Rank|||||2.35|0.51|0.8286
82366149|NCT02340221|164442623|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0023|TWO_SIDED|95.0|0.51|0.86|||Log Rank|||||0.86|0.51|0.0023
82643660|NCT01275170|165002973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.13|||||TWO_SIDED|90.0|0.69|1.87||||||||1.87|0.69|
82366150|NCT02340221|164442624|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0095|TWO_SIDED|95.0|0.56|0.92|||Log Rank|||||0.92|0.56|0.0095
82366151|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.01||||||95.0|-2.87|-1.14|||||Mean (Day 8 - baseline) HCV RNA for MK7009 25 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.14|-2.87|
82366152|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.64||||||95.0|-3.49|-1.8|||||Mean (Day 8 - baseline) HCV RNA for MK7009 75 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.80|-3.49|
82366153|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||||95.0|-3.9|-1.9|||||Mean (Day 8 - baseline) HCV RNA for MK7009 250 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.90|-3.90|
82366154|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.38||||||95.0|-4.59|-2.17|||||Mean (Day 8 - baseline) HCV RNA for MK7009 500 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-2.17|-4.59|
82366155|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.73||||||95.0|-5.15|-4.31|||||Mean (Day 8 - baseline) HCV RNA for MK7009 700 mg bid minus mean (Day 8 - baseline) HCV RNA for placebo|||-4.31|-5.15|
82366156|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.93||||||95.0|-2.68|-1.18|||||Mean (Day 8 - baseline) HCV RNA for MK7009 125 mg qd minus mean (Day 8 - baseline) HCV RNA for placebo|||-1.18|-2.68|
82366157|NCT00518622|164442632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.46||||||95.0|-2.78|-2.13|||||Mean (Day 8 - baseline) HCV RNA for MK7009 600 mg qd minus mean (Day 8 - baseline) HCV RNA for placebo|||-2.13|-2.78|
82366158|NCT02655016|164442671|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.502|0.755||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and homologous recombination deficiency (HRD) status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||0.755|0.502|<0.0001
82366159|NCT02655016|164442672|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1238|TWO_SIDED|95.0|0.442|1.106||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||1.106|0.442|0.1238
82366160|NCT02655016|164442673|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0001|TWO_SIDED|95.0|0.521|0.802||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||0.802|0.521|0.0001
82366161|NCT02655016|164442674|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.2242|TWO_SIDED|95.0|0.577|1.139||p-value was calculated based on stratified log-rank test using randomization stratification factors: administration of neoadjuvant chemotherapy, best response to platinum therapy and HRD status.|Log Rank||If hazard ratio was found to be \<1 then niraparib can be considered as superior to placebo.|||1.139|0.577|0.2242
82366162|NCT01013649|164442719|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.62|TWO_SIDED|95.0|0.79|1.38||One-sided significance level = 0.15|Log Rank||Reference level = Arm I|A total of 200 deaths between the arms will provide 80% power to detect a signal for an increase in median overall survival from 22 to 28.8 months and 90% power to detect a signal for an increase in median overall survival from 22 to 30.6 months (HRs of 0.76 and 0.72, respectively, in favor of the erlotinib arm) with the addition of erlotinib and a 1-sided alpha of 0.15||1.38|0.79|0.62
82393920|NCT00793624|164499134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.137|0.219|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.219|0.137|<0.0001
82643661|NCT01275170|165002973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.49|||||TWO_SIDED|90.0|0.9|2.44||||||||2.44|0.90|
82643662|NCT01275170|165002973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.49|||||TWO_SIDED|90.0|1.51|4.09||||||||4.09|1.51|
82643663|NCT01275170|165002973|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.94|||||TWO_SIDED|90.0|0.57|1.54||||||||1.54|0.57|
82643664|NCT01275170|165002974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.63|||||TWO_SIDED|90.0|0.4|0.97||||||||0.97|0.40|
82366163|NCT01013649|164442720|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.38|TWO_SIDED|90.0|0.79|1.18||One-sided significance level = 0.05.|Log Rank||Reference level = Arm III|316 deaths from step 2 randomized patients provides 80% power, with 0.05 1-sided alpha, to detect an OS increase (HR=0.76 in favor of arm IV), corresponding to increasing median OS from 17 to 22.5 months with the addition of RT. For analysis triggered by patients having 5 years potential follow-up from step 2 randomization, it is projected that at least 265 events will be observed, providing at least 72% power. The trigger used for the primary analysis was 5-years of follow-up (270 deaths).||1.18|0.79|0.38
82366164|NCT01013649|164442721|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.8|1.31|||||Reference level = Arm I|||1.31|0.80|
82366165|NCT01013649|164442722|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|90.0|0.68|0.99|||||Reference level = Arm III|||0.99|0.68|
82366166|NCT04285567|164442728|SUPERIORITY||Difference in Rates|26.6||||0.0004|TWO_SIDED|95.0|12.33|40.87|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using Cochran-Mantel-Haenszel (CMH) test stratified by the IvRS randomization stratification factors.||40.87|12.33|0.0004
82366167|NCT04285567|164442730|SUPERIORITY||Difference in Rates|20.78||||0.0053|TWO_SIDED|95.0|6.66|34.9|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||34.90|6.66|0.0053
82366168|NCT04285567|164442731|SUPERIORITY||Difference in Rates|31.63|||<|0.0001|TWO_SIDED|95.0|16.55|46.71|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||46.71|16.55|< .0001
82366169|NCT04285567|164442732|SUPERIORITY||Difference in Response Rates|9.68||||0.1119|TWO_SIDED|95.0|-2.05|21.41|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||21.41|-2.05|0.1119
82366170|NCT04285567|164442733|SUPERIORITY||Difference in Response Rates|17.44||||0.0154|TWO_SIDED|95.0|1.96|32.93|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||32.93|1.96|0.0154
82366171|NCT04285567|164442734|SUPERIORITY||Difference in Rates|18.93||||0.0054|TWO_SIDED|95.0|0.91|36.95|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||36.95|0.91|0.0054
82366172|NCT04285567|164442735|SUPERIORITY||Difference in Rates|26.79||||0.0038|TWO_SIDED|95.0|3.86|49.72|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||49.72|3.86|0.0038
82366173|NCT04285567|164442737|SUPERIORITY||Difference in Response Rates|3.05||||0.4199|TWO_SIDED|95.0|-5.73|11.84|||Cochran-Mantel-Haenszel||95% CI for difference in rates were constructed using Anderson-Hauck method.|P-value estimated using CMH test stratified by the IvRS randomization stratification factors.||11.84|-5.73|0.4199
82528496|NCT03239873|164752800|OTHER||Difference in Percentage|-1.6||||0.523|TWO_SIDED|95.0|-6.6|3.4|||Miettinen & Nurminen|||Injection site pain||3.4|-6.6|0.523
82366174|NCT02287909|164442761|SUPERIORITY||least square mean difference|-6.9|||>|0.05|TWO_SIDED|985.0|-38.0|24.0|||ANCOVA|||||24|-38|>0.05
82366175|NCT02246439|164442762|SUPERIORITY||Odds Ratio (OR)|1.6081||||0.0406|TWO_SIDED|95.0|1.0194|2.5368||"This P-Value is for the All ages group"|Cochran-Mantel-Haenszel|Stratified by age.||The odds ratio and p-value were from a Cochran-Mantel-Haenszel test. For the 'All ages' category, the odds ratio and p-value were stratified by age.||2.5368|1.0194|0.0406
82366176|NCT02246439|164442762|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0729|TWO_SIDED|95.0|0.847|27.2024||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||27.2024|0.8470|0.0729
82366177|NCT02246439|164442762|SUPERIORITY||Odds Ratio (OR)|1.4755||||0.1089|TWO_SIDED|95.0|0.917|2.3741||"This P-Value is for the 18 years of age and older group"|Cochran-Mantel-Haenszel|||||2.3741|0.9170|0.1089
82528497|NCT03239873|164752800|OTHER||Difference in Percentage|2.0||||0.415|TWO_SIDED|95.0|-2.9|6.9|||Miettinen & Nurminen|||Injection site swelling||6.9|-2.9|0.415
82366178|NCT02246439|164442763|SUPERIORITY||Odds Ratio (OR)|1.3545||||0.1843|TWO_SIDED|95.0|0.8647|2.1216|||Cochran-Mantel-Haenszel|Stratified by age.||||2.1216|0.8647|0.1843
82366179|NCT02246439|164442764|SUPERIORITY||Odds Ratio (OR)|1.752||||0.0166|TWO_SIDED|95.0|1.1058|2.776|||Cochran-Mantel-Haenszel|Stratified by age.||||2.7760|1.1058|0.0166
82366180|NCT02246439|164442765|SUPERIORITY||Odds Ratio (OR)|0.6677||||0.1049|TWO_SIDED|95.0|0.4093|1.0892|||Cochran-Mantel-Haenszel|Stratified by age.||||1.0892|0.4093|0.1049
82366181|NCT02246439|164442766|SUPERIORITY||Odds Ratio (OR)|0.6566||||0.1235|TWO_SIDED|95.0|0.3826|1.1268|||Cochran-Mantel-Haenszel|Stratified by age.||||1.1268|0.3826|0.1235
82366182|NCT02246439|164442768|SUPERIORITY|||||||0.589||||||This P-Value is for the BSS=7 group.|Wilcoxon (Mann-Whitney)|||||||0.5890
82366183|NCT02246439|164442769|SUPERIORITY||Hazard Ratio (HR)|0.9782||||0.8487|TWO_SIDED|95.0|0.7803|1.2264||"This P-Value is for the All ages group."|Cox proportioanl hazards method|Stratified by age.||||1.2264|0.7803|0.8487
82366184|NCT02246439|164442769|SUPERIORITY||Hazard Ratio (HR)|1.4756||||0.3479|TWO_SIDED|95.0|0.6549|3.325||"This P-Value is for the \<18 years of age group."|Cox proportional hazards method|||||3.3250|0.6549|0.3479
82366185|NCT02246439|164442769|SUPERIORITY||Hazard Ratio (HR)|0.9445||||0.6332|TWO_SIDED|95.0|0.7469|1.1943||"This P-Value is for the 18 years of age of older group."|Cox proportional hazards method|||||1.1943|0.7469|0.6332
82528498|NCT03239873|164752801|OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-3.4|6.7|||||Miettinen \& Nurminen|||6.7|-3.4|
82528499|NCT03239873|164752802|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.5|2.6|||||Miettinen \& Nurminen|||2.6|-2.5|
82528500|NCT03239873|164752803|OTHER||Difference in Percentage|1.9|||||TWO_SIDED|95.0|-6.1|9.8|||||Miettinen \& Nurminen|||9.8|-6.1|
82528501|NCT03239873|164752804|OTHER||Difference in Percentage|2.3|||||TWO_SIDED|95.0|-4.7|9.2|||||Miettinen \& Nurminen|||9.2|-4.7|
82528502|NCT03239873|164752809|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Miettinen \& Nurminen|||1.3|-1.3|
82528503|NCT03239873|164752810|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Miettinen \& Nurminen|||1.3|-1.3|
82528504|NCT03239873|164752813|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-4.6|10.3|||||Miettinen and Nurminen|||10.3|-4.6|
82393921|NCT00793624|164499134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.129|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.211|0.129|<0.0001
82366186|NCT02246439|164442770|SUPERIORITY||Hazard Ratio (HR)|1.0275||||0.8289|TWO_SIDED|95.0|0.8036|1.3138||"This P-Value was for the All ages group."|Cox proportional hazards method|Stratified by age.||||1.3138|0.8036|0.8289
82366187|NCT02246439|164442770|SUPERIORITY||Hazard Ratio (HR)|1.5744||||0.3241|TWO_SIDED|95.0|0.6388|3.8802||"This P-Value is for the \<18 years of age group."|Cox proportional hazards method|||||3.8802|0.6388|0.3241
82366188|NCT02246439|164442770|SUPERIORITY||Hazard Ratio (HR)|0.992||||0.9511|TWO_SIDED|95.0|0.7688|1.2801||"This P-Value is for the 18 years of age or older group."|Cox proportional hazards method|||||1.2801|0.7688|0.9511
82366189|NCT02246439|164442771|SUPERIORITY||Odds Ratio (OR)|2.3012||||0.2005|TWO_SIDED|95.0|0.6221|8.5129|||Cochran-Mantel-Haenszel|||||8.5129|0.6221|0.2005
82366190|NCT02246439|164442772|SUPERIORITY||Odds Ratio (OR)|0.6674||||0.572|TWO_SIDED|95.0|0.1638|2.7191|||Cochran-Mantel-Haenszel|||||2.7191|0.1638|0.5720
82366191|NCT02246439|164442773|SUPERIORITY||Odds Ratio (OR)|2.1591||||0.3186|TWO_SIDED|95.0|0.477|9.7735||"This P-Value is for the No nausea or mild nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||9.7735|0.4770|0.3186
82366192|NCT02246439|164442773|SUPERIORITY||Odds Ratio (OR)|1.575||||0.3473|TWO_SIDED|95.0|0.6096|4.0696||"This P-Value is for the Moderate nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.0696|0.6096|0.3473
82366193|NCT02246439|164442773|SUPERIORITY||Odds Ratio (OR)|2.0971||||0.0633|TWO_SIDED|95.0|0.9614|4.5747||"This P-Value is for the Severe nausea group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.5747|0.9614|0.0633
82366194|NCT02246439|164442773|SUPERIORITY||Odds Ratio (OR)|1.6397||||0.2797|TWO_SIDED|95.0|0.6649|4.0437||"This P-Value is for the Nausea as bad as it could have been group."|Cochran-Mantel-Haenszel|Stratified by age.||||4.0437|0.6649|0.2797
82366195|NCT02246439|164442774|SUPERIORITY||Odds Ratio (OR)|1.8673||||0.0103|TWO_SIDED|95.0|1.1572|3.0131||"This P-Value is for the All ages group."|Cochran-Mantel-Haenszel|Stratified by age.||||3.0131|1.1572|0.0103
82366196|NCT02246439|164442774|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0934|TWO_SIDED|95.0|0.7699|25.145||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||25.1450|0.7699|0.0934
82366197|NCT02246439|164442774|SUPERIORITY||Odds Ratio (OR)|1.7356||||0.0303|TWO_SIDED|95.0|1.0527|2.8615||"This P-Value is for the 18 years of age or older group."|Cochran-Mantel-Haenszel|||||2.8615|1.0527|0.0303
82393922|NCT00793624|164499134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.144|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.226|0.144|<0.0001
82444395|NCT04468074|164597534|SUPERIORITY||Mean Difference (Net)|2.79||||0.0159|TWO_SIDED||||||Mixed Models Analysis|||||||0.0159
82444396|NCT04468074|164597535|SUPERIORITY||Median Difference (Net)|-3.85||||0.0066|TWO_SIDED||||||Mixed Models Analysis|||||||0.0066
82366198|NCT02246439|164442775|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0924|TWO_SIDED|95.0|0.7699|25.145||"This P-Value is for the \<18 years of age group."|Cochran-Mantel-Haenszel|||||25.1450|0.7699|0.0924
82366199|NCT02246439|164442775|SUPERIORITY||Odds Ratio (OR)|1.7356||||0.0303|TWO_SIDED|95.0|1.0527|2.8615||"This P-Value is for the 18 years of age or older group."|Cochran-Mantel-Haenszel|||||2.8615|1.0527|0.0303
82366200|NCT02246439|164442776|SUPERIORITY||Odds Ratio (OR)|1.7922||||0.0152|TWO_SIDED|95.0|1.1188|2.871|||Regression, Logistic|||||2.8710|1.1188|0.0152
82366201|NCT02246439|164442777|SUPERIORITY||Odds Ratio (OR)|2.0789||||0.0037|TWO_SIDED|95.0|1.2676|3.4095|||Regression, Logistic|||||3.4095|1.2676|0.0037
82366202|NCT03439852|164442778|SUPERIORITY||Mean Difference (Net)|0.83|||<|0.05|TWO_SIDED|95.0|0.26|1.39|||Mixed Models Analysis|||Multilevel modeling for repeated measures was conducted to compare 2 conditions over time. The model included group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||1.39|0.26|<0.05
82366203|NCT03439852|164442779|SUPERIORITY||Median Difference (Net)|1.14||||0.05|TWO_SIDED|95.0|-0.37|2.64||Calculated|Mixed Models Analysis|||Multilevel modeling conducted for repeated measures comparing minutes per week of light-to-moderate physical activity for participants in two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||2.64|-0.37|0.05
82366204|NCT03439852|164442780|SUPERIORITY||Mean Difference (Net)|-0.72||||0.05|TWO_SIDED|95.0|-2.31|0.88|||Mixed Models Analysis|||Multilevel modeling for the repeated measures was conducted comparing the two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation. The response was transformed using squared root to satisfy the model assumption.||0.88|-2.31|0.05
82366205|NCT03439852|164442781|SUPERIORITY||Mean Difference (Net)|0.96|||<|0.05|TWO_SIDED|95.0|-2.67|4.6|||Mixed Models Analysis|||Multilevel modeling for the repeated measures was conducted comparing the two conditions over time. In the multilevel models, participants were nested within Catholic Clubs, adjusting for within-club and within-subject correlations. The model includes group, time, and the interaction between group and time, adjusting for within-subject correlation.||4.60|-2.67|<0.05
82366206|NCT03439852|164442782|SUPERIORITY||Mean Difference (Net)|-0.76|||<|0.05|TWO_SIDED|95.0|-1.11|-0.4|||Mixed Models Analysis|||||-0.40|-1.11|<0.05
82366207|NCT03439852|164442783|SUPERIORITY||Mean Difference (Net)|-0.62|||<|0.05|TWO_SIDED|95.0|-1.15|0.1|||Mixed Models Analysis|||||0.10|-1.15|<0.05
82366208|NCT03439852|164442784|SUPERIORITY||Median Difference (Net)|-0.49|||<|0.05|TWO_SIDED|95.0|-2.1|1.11|||Mixed Models Analysis|Repeated measures generalized linear model test effects of time/group, \& interaction rate met MVPA, adjusting for within subject correlation.||||1.11|-2.10|<0.05
82366209|NCT02177136|164442795|SUPERIORITY|||||||0.0434|||||||ANCOVA|ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline as covariate.||||||0.0434
82366210|NCT02177136|164442795|SUPERIORITY|||||||0.0665|||||||ANCOVA|ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline as covariate.||||||0.0665
82366211|NCT02054130|164442820|SUPERIORITY||Rate ratio|0.38|||<|0.001|TWO_SIDED|95.0|0.23|0.63|||Negative binomial regression|||||0.63|0.23|<0.001
82366212|NCT02054130|164442820|SUPERIORITY||Rate ratio|0.29|||<|0.001|TWO_SIDED|95.0|0.16|0.51|||Negative binomial regression|||||0.51|0.16|<0.001
82366213|NCT02054130|164442820|SUPERIORITY||Rate ratio|0.34|||<|0.001|TWO_SIDED|95.0|0.2|0.58|||Negative bnomial regression|||||0.58|0.20|<0.001
82366214|NCT00094458|164442878|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||<0.001
82366215|NCT00094458|164442878|SUPERIORITY_OR_OTHER|||||||0.006|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.006
82366216|NCT00094458|164442878|SUPERIORITY_OR_OTHER|||||||0.022|||||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.022
82366217|NCT00094458|164442879|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||<0.001
82366218|NCT00094458|164442879|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.023
82366219|NCT00094458|164442879|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||Cochran-Mantel-Haenszel|The P-Value is from a CMH test stratified by duration of Crohn's disease and corticosteroid treatment at Baseline||||||0.055
82366220|NCT02130583|164442887|SUPERIORITY||Mean Difference (Net)|2.06||||0.034|TWO_SIDED||||||ANOVA|||||||.034
82366221|NCT03247517|164442899|SUPERIORITY||Least Square Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.98||0.0232|TWO_SIDED|95.0|-8.4|-0.6|||Mixed Models for Repeated Measures|||||-0.6|-8.4|0.0232
82528505|NCT01703702|164752834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.002|TWO_SIDED|95.0|1.22|2.38|||Chi-squared|||||2.38|1.22|0.002
82528506|NCT01703702|164752835|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35||||0.568|TWO_SIDED|95.0|-1.54|0.84|||ANCOVA|Adjusted for: Baseline ADAS-Cog score, study arm, Alzheimer's treatment, country, and interaction between study arm and Alzheimer's treatment.||||0.84|-1.54|0.568
82528507|NCT01703702|164752836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|43.9|||<|0.001|TWO_SIDED|95.0|20.0|96.12|||Chi-squared|||||96.12|20|<0.001
82366222|NCT03247517|164442899|SUPERIORITY||Least Square Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.93||0.0091|TWO_SIDED|95.0|-8.9|-1.3|||Mixed Models for Repeated Measures|||||-1.3|-8.9|0.0091
82366223|NCT03247517|164442900|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0042|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.8|0.0042
82366224|NCT03247517|164442900|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.3|-0.9|0.0003
82366225|NCT03247517|164442901|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.54||0.6854|TWO_SIDED|95.0|-3.6|2.4|||ANCOVA|||||2.4|-3.6|0.6854
82366226|NCT03247517|164442901|SUPERIORITY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.49||0.0518|TWO_SIDED|95.0|-5.8|0.0|||ANCOVA|||||0.0|-5.8|0.0518
82366227|NCT03247517|164442902|SUPERIORITY||Least Square Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.061||0.2062|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||||0.04|-0.20|0.2062
82366228|NCT03247517|164442902|SUPERIORITY||Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.059||0.0519|TWO_SIDED|95.0|-0.23|0.0|||ANCOVA|||||0.00|-0.23|0.0519
82366229|NCT03247517|164442903|SUPERIORITY||Risk Difference (RD)|18.8||||0.0068|TWO_SIDED|95.0|5.5|32.2|||Regression, Logistic|||||32.2|5.5|0.0068
82366230|NCT03247517|164442903|SUPERIORITY||Risk Difference (RD)|17.6||||0.0095|TWO_SIDED|95.0|4.6|30.5|||Regression, Logistic|||||30.5|4.6|0.0095
82366231|NCT03247517|164442904|SUPERIORITY||Least Square Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.51||0.7629|TWO_SIDED|95.0|-9.1|12.5|||ANCOVA|||||12.5|-9.1|0.7629
82366232|NCT03247517|164442904|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|5.36||0.7648|TWO_SIDED|95.0|-12.1|8.9|||ANCOVA|||||8.9|-12.1|0.7648
82366233|NCT03247517|164442905|SUPERIORITY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.99||0.0069|TWO_SIDED|95.0|-4.6|-0.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.7|-4.6|0.0069
82366234|NCT03247517|164442905|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.96||0.0005|TWO_SIDED|95.0|-5.2|-1.5|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.5|-5.2|0.0005
82366235|NCT03247517|164442905|SUPERIORITY||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.05||0.0424|TWO_SIDED|95.0|-4.2|-0.1|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.1|-4.2|0.0424
82366236|NCT03247517|164442905|SUPERIORITY||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.03||0.039|TWO_SIDED|95.0|-4.1|-0.1|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.1|-4.1|0.0390
82366237|NCT03247517|164442906|SUPERIORITY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.2||0.3813|TWO_SIDED|95.0|-3.4|1.3|||ANCOVA|||||1.3|-3.4|0.3813
82366238|NCT03247517|164442906|SUPERIORITY||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.17||0.9506|TWO_SIDED|95.0|-2.4|2.2|||ANCOVA|||||2.2|-2.4|0.9506
82366239|NCT03247517|164442907|SUPERIORITY|||||||0.0254|||||||Chi-squared|||This analysis pertains to Week 1||||0.0254
82366240|NCT03247517|164442907|SUPERIORITY|||||||0.0899|||||||Chi-squared|||This analysis pertains to Week 2||||0.0899
82366241|NCT03247517|164442907|SUPERIORITY|||||||0.007|||||||Chi-squared|||This analysis pertains to Week 3||||0.0070
82528508|NCT01703702|164752837|SUPERIORITY_OR_OTHER||LS Mean Difference|20.69|||<|0.001|TWO_SIDED|95.0|18.95|22.43|||ANCOVA|Adjusted for: Cognitive status (mild impairment/dementia), physician/practice type, country and florbetapir F18 PET scan result (Aß+/Aß-)||Comparison of change in diagnostic confidence at follow-up (3 months)||22.43|18.95|<0.001
82528509|NCT01703702|164752838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.144|TWO_SIDED|95.0|0.92|1.78|||Chi-squared|||||1.78|0.92|0.144
82643665|NCT01275170|165002974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.54|||||TWO_SIDED|90.0|0.35|0.83||||||||0.83|0.35|
82393923|NCT00793624|164499135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.103|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.186|0.103|<0.0001
82393924|NCT00793624|164499135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.105|0.188|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.188|0.105|<0.0001
82393925|NCT00793624|164499135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.13|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.214|0.130|<0.0001
82366242|NCT03247517|164442907|SUPERIORITY|||||||0.0031|||||||Chi-squared|||This analysis pertains to Week 4||||0.0031
82366243|NCT03247517|164442907|SUPERIORITY|||||||0.0065|||||||Chi-squared|||This analysis pertains to Week 5||||0.0065
82366244|NCT03247517|164442907|SUPERIORITY|||||||0.007|||||||Chi-squared|||This analysis pertains to Week 6||||0.0070
82366245|NCT03247517|164442907|SUPERIORITY|||||||0.0063|||||||Chi-squared|||This analysis pertains to Week 1||||0.0063
82366246|NCT03247517|164442907|SUPERIORITY|||||||0.0123|||||||Chi-squared|||This analysis pertains to Week 2||||0.0123
82366247|NCT03247517|164442907|SUPERIORITY|||||||0.0003|||||||Chi-squared|||This analysis pertains to Week 3||||0.0003
82366248|NCT03247517|164442907|SUPERIORITY|||||||0.0001|||||||Chi-squared|||This analysis pertains to Week 4||||0.0001
82366249|NCT03247517|164442907|SUPERIORITY|||||||0.0025|||||||Chi-squared|||This analysis pertains to Week 5||||0.0025
82366250|NCT03247517|164442907|SUPERIORITY|||||||0.0033|||||||Chi-squared|||This analysis pertains to Week 6||||0.0033
82366251|NCT03623386|164442908|SUPERIORITY|||||||0.981|||||||Wilcoxon (Mann-Whitney)|||||||0.981
82366252|NCT03623386|164442909|SUPERIORITY|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
82366253|NCT03623386|164442910|SUPERIORITY||||||>|0.05|||||||ANOVA|||Testing for main effects (group), time effect and the interaction of group and time.||||>0.05
82366254|NCT03623386|164442911|SUPERIORITY|||||||0.026||||||p value reflects the effect of time.|ANOVA|||Testing for main effects (group), time effect and the interaction of group and time.||||0.026
82366255|NCT04271735|164442931|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82366256|NCT00515541|164442942|SUPERIORITY_OR_OTHER|||||||0.01||||||A P-value \<0.05 when compared to baseline is considered significant.|Wilcoxon (Mann-Whitney)|||Group B baseline vs. Group B Week 12||||0.01
82366257|NCT00515541|164442943|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The median of Groups A, B, and C grouped together was compared Baseline to Week 6.||||<0.001
82393926|NCT00793624|164499136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.048|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.126|0.048|<0.0001
82393927|NCT00793624|164499136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.118|0.040|<0.0001
82393928|NCT00793624|164499136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.040|<0.0001
82393929|NCT00793624|164499137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.047|0.125|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.125|0.047|<0.0001
82393930|NCT00793624|164499137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.02||0.0001||95.0|0.038|0.117|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.117|0.038|0.0001
82393931|NCT00793624|164499137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.039|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.039|<0.0001
82393932|NCT00793624|164499138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.043|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|0.043|<0.0001
82366258|NCT00515541|164442943|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||The median of Groups A, B, and C grouped together was compared Baseline to Week 12.||||<0.001
82366259|NCT03197558|164442958|SUPERIORITY|Upper confidence limit of mean VAS score hypothesized to be less than (superior) to a performance goal of 45 mm.|Bootstrap method|14.35|||||ONE_SIDED|97.5||14.35||||||Mean VAS score compared to performance goal using a bootstrap method test at 2.5% significance.||14.35||
82366260|NCT01936519|164442966|EQUIVALENCE|Mann Whitney U Test was performed|Mean Difference (Net)|27.32|STANDARD_ERROR_OF_MEAN|20.61||0.283|TWO_SIDED|95.0|-16.17|70.8||Cockcroft-Gault Clearance|Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the Cockcroft Gault Creatinine clearance 2 year data.||70.80|-16.17|0.283
82366261|NCT01936519|164442967|EQUIVALENCE|Wilcoxon Test|Median Difference (Final Values)|34.08|STANDARD_ERROR_OF_MEAN|11.44||0.013|TWO_SIDED|95.0|9.95|58.21|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the MDRD Clearance 2 year data row data.||58.21|9.95|0.013
82366262|NCT01936519|164442968|EQUIVALENCE|Wilcoxon Test|Mean Difference (Final Values)|22.22|STANDARD_ERROR_OF_MEAN|12.09||0.099|TWO_SIDED|95.0|-3.28|47.72|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on the Iothalamate Clearance 2 year data.||47.72|-3.28|0.099
82366263|NCT01936519|164442968|EQUIVALENCE|Non-parametric statistical tests were used for all analyses, including the Mann-Whitney U test for continuous outcomes and Pearson's chi-square test for binary outcomes. Univariate statistical tests were used for all comparisons. Cohen's d was utilized for all comparisons to provide information about effect size.|Mean Difference (Final Values)|29.08|STANDARD_ERROR_OF_MEAN|13.29||0.032|TWO_SIDED|95.0|1.04|57.1|||Wilcoxon (Mann-Whitney)|||"Power and sample size. The assumption was made that eGFR would improve from 34 mL/min/1.73 m2 to 43 mL/min/1.73 m2. It was determined that a sample size of 12 in each group would have 80% power to detect a difference in means of -9.0 (the difference between a group 1 mean of 34.0 and a group 2 mean of 43.0) assuming that the common standard deviation was 7.5 using a two group t-test with a 0.05 two-sided significance level.~Data from the 2 year time point was used for analysis."||57.1|1.04|.032
82366264|NCT01936519|164442968|EQUIVALENCE|Difference of zero hypothesized.|Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.263||0.015|TWO_SIDED|95.0|-1.11|-0.003|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed on 2 year data time point.||-0.003|-1.11|0.015
82366265|NCT01421342|164443033|SUPERIORITY||Odds Ratio (OR)|1.31||||0.076|TWO_SIDED|95.0|0.97|1.75||Co-primary hypothesis: After ordering results from largest p-value to smallest (Hochberg approach) the comparison of Augmenting Antidepressant+Bupropion with Switching to Bupropion-SR was performed at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of remission for Augmentation Antidepressant + Bupropion-SR / Switching to Bupropion-SR|||1.75|0.97|0.076
82366266|NCT01421342|164443033|SUPERIORITY||Odds Ratio (OR)|1.42||||0.018|TWO_SIDED|95.0|1.06|1.89||Co-primary hypothesis: Second ordered test after ordering largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of remission for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|Co-primary hypothesis: After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||1.89|1.06|0.018
82366267|NCT01421342|164443033|SUPERIORITY||Odds Ratio (OR)|1.11||||0.46|TWO_SIDED|95.0|0.84|1.48||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole vs. Augmentation Antidepressant + Bupropion-SR was evaluated at the 0.05 significance level.|Regression, Logistic||Represents relative odds of remission for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|If either if the first two hypothesis tests for the co-primary hypotheses were significant, perform the test of Augmentation Antidepressant + Aripiprazole vs. Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.||1.48|0.84|0.46
82366268|NCT01421342|164443034|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.7|TWO_SIDED|95.0|0.78|2.39|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Bupropion-SR / Switching to Bupropion-SR|||2.39|0.78|0.70
82366269|NCT01421342|164443034|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.68|TWO_SIDED|95.0|0.65|1.94|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|||1.94|0.65|0.68
82366270|NCT01421342|164443034|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.87|TWO_SIDED|95.0|0.58|1.59|||Log Rank||Represents relative odds of relapse for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||1.59|0.58|0.87
82366271|NCT01421342|164443035|SUPERIORITY||Odds Ratio (OR)|1.16||||0.28|TWO_SIDED|95.0|0.89|1.5|||Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Bupropion / Switching to Bupropion|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Bupropion with Switching to Bupropion was performed at the 0.05 significance level.||1.50|0.89|0.28
82366272|NCT01421342|164443035|SUPERIORITY||Odds Ratio (OR)|1.74|||<|0.0001|TWO_SIDED|95.0|1.33|2.29|||Regression, Logistic|Stratified by participating medical center (site)|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||2.29|1.33|<0.0001
82366273|NCT01421342|164443035|SUPERIORITY||Odds Ratio (OR)|1.55||||0.002|TWO_SIDED|95.0|1.17|2.05||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole with Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||2.05|1.17|0.002
82366274|NCT01421342|164443036|SUPERIORITY||Odds Ratio (OR)|1.26||||0.11|TWO_SIDED|95.0|0.95|1.68||After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Bupropion with Switching to Bupropion was performed at the 0.05 significance level.|Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Bupropion / Switching to Bupropion|||1.68|0.95|0.11
82366275|NCT01421342|164443036|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.26|2.29|||Regression, Logistic|Stratified by participating medical center|Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Switching to Bupropion-SR|After ordering results form largest p-value to smallest (Hochberg approach) the comparison of Augmentation Antidepressant + Aripiprazole with Switching to Bupropion-SR was performed at the 0.025 significance level.||2.29|1.26|<0.001
82366276|NCT01421342|164443036|SUPERIORITY||Odds Ratio (OR)|1.37||||0.043|TWO_SIDED|95.0|1.01|1.86||Following the gate-keeping strategy of the analysis plan, complete the comparison of Augmentation Antidepressant + Aripiprazole with Augmentation Antidepressant + Bupropion-SR at the 0.05 significance level.|Regression, Logistic||Represents relative odds of response for Augmentation Antidepressant + Aripiprazole / Augmentation Antidepressant + Bupropion-SR|||1.86|1.01|0.043
82393933|NCT00793624|164499138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.02||0.0002||95.0|0.035|0.114|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.114|0.035|0.0002
82643666|NCT01275170|165002974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.18|||||TWO_SIDED|90.0|0.12|0.27||||||||0.27|0.12|
82366277|NCT00076804|164443095|SUPERIORITY_OR_OTHER|||||||0.42||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Chi-squared|one degree of freedom||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.42
82366278|NCT00076804|164443096|SUPERIORITY_OR_OTHER|||||||0.89||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Chi-squared|one degree of freedom||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.89
82366279|NCT00076804|164443097|SUPERIORITY_OR_OTHER|||||||0.14||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Wilcoxon (Mann-Whitney)|||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.14
82366280|NCT00076804|164443098|SUPERIORITY_OR_OTHER|||||||0.61||||||Logistic regression analysis \& Cox proportional hazards regression analyses were performed to compare outcomes after adjusting for the relevant covariates,including study arm, age, sex, baseline CD4 cell counts and viral load and pill count adherence|Wilcoxon (Mann-Whitney)|||Unadjusted endpoint analyses were conducted on an intention-to-treat basis using all patients enrolled to compare outcomes in the DOT vs. Self-ART arm. For viral load analyses, missing values were considered detectable (missing¼failure analysis). As-treated analyses were also conducted using patients remaining in the study with available data.Crosssectional comparisons between study groups were conducted using two sample t-test,Wilcoxon rank-sum test,chi-squared orFisher's exact and Kaplan-Meier||||0.61
82366281|NCT00354341|164443099|SUPERIORITY_OR_OTHER|||||||0.8811|TWO_SIDED|||||P-value was calculated by ANCOVA with last observation carry forward (LOCF) method.|ANCOVA with LOCF|||||||0.8811
82366282|NCT00354341|164443100|SUPERIORITY_OR_OTHER|||||||0.8864|TWO_SIDED||||||ANCOVA with LOCF|||||||0.8864
82366283|NCT00354341|164443101|SUPERIORITY_OR_OTHER|||||||0.5681|TWO_SIDED||||||ANCOVA with LOCF|||||||0.5681
82366284|NCT00354341|164443102|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED||||||ANCOVA with LOCF|||||||0.1578
82366285|NCT00354341|164443103|SUPERIORITY_OR_OTHER|||||||0.2913|TWO_SIDED||||||ANCOVA with LOCF|||||||0.2913
82366286|NCT00354341|164443104|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
82393934|NCT00793624|164499138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.02||0.0037||95.0|0.019|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.100|0.019|0.0037
82393935|NCT00793624|164499139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.02||0.0016||95.0|0.025|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|0.025|0.0016
82366287|NCT04295135|164443105|SUPERIORITY||Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.001|<|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.05
82366288|NCT04295135|164443106|SUPERIORITY||Median Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.001|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
82366289|NCT04295135|164443107|SUPERIORITY||Mean Difference (Net)|0.022|STANDARD_ERROR_OF_MEAN|0.008|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
82393936|NCT00793624|164499139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.02||0.0276||95.0|0.005|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.085|0.005|0.0276
82393937|NCT00793624|164499139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.021||0.0426||95.0|0.001|0.082|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.082|0.001|0.0426
82448906|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean Difference|3.12||||0.0298|TWO_SIDED|95.0|0.32|5.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 7||5.93|0.32|0.0298
82366290|NCT04295135|164443108|SUPERIORITY||Median Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.006|>|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||>0.05
82366291|NCT04295135|164443109|SUPERIORITY||Median Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.001|<|0.01|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||<0.01
82366292|NCT04295135|164443110|SUPERIORITY||Median Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.003|>|0.05|TWO_SIDED|||||A multi-level linear probability model that included patient demographics, clinician random effects, and indicator variables for (a) site; (b) treatment and control clinicians; and (c) pre-/post-OneSheet access.|Regression, Linear|Model also included an interaction term for treatment and post-OneSheet access.|The coefficient estimates the causal effect of OneSheet on our outcomes. Unit of analysis was patient visit.|||||>0.05
82366293|NCT03463993|164443124|SUPERIORITY|||||||0.549||||||The p-value above is the calculated P value based on hematocrit.|Chi-squared|||The null hypothesis was that intravenous Tranexamic Acid (TXA) 10mg/kg plus Oxytocin 5IU does not result in a lower incidence of primary postpartum haemorrhage compared to Oxytocin alone after elective caesarean section||||0.549
82366294|NCT03463993|164443124|SUPERIORITY|||||||0.138||||||This is the calculated p-value based on hemoglobin .|Chi-squared|||The null hypothesis was that intravenous Tranexamic Acid (TXA)10mg/kg plus Oxytocin 5IU does not result in a lower incidence of primary postpartum haemorrhage compared to Oxytocin alone after elective caesarean section||||0.138
82366295|NCT03463993|164443125|SUPERIORITY|||||||0.789||||||0.789 is the calculated p-value for visually estimated blood loss: Visually estimated blood loss (ml): Group A mean 483.73 (standard deviation182.56); Group B 479.61 (139.49); p-value 0.789|t-test, 2 sided|||||||0.789
82366296|NCT03463993|164443125|SUPERIORITY|||||||0.968||||||0.968 is the calculated p-value based on hematocrit. Hematocrit-based calculation of estimated blood loss(ml): Group A mean 650.06 (standard deviation 631.50); Group B 653.05 (796.03); p-value 0.968|t-test, 2 sided|||||||0.968
82366297|NCT03463993|164443125|SUPERIORITY|||||||0.447||||||Hemoglobin-based calculation of estimated blood loss(ml) mean(standard deviation): Group A 644.30 (692.27); Group B 707.68 (948.01); p-value 0.447|t-test, 2 sided|||||||0.447
82366298|NCT03463993|164443126|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82366299|NCT03463993|164443127|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82393938|NCT00793624|164499140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0237||95.0|0.006|0.087|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.087|0.006|0.0237
82366300|NCT02566993|164443137|SUPERIORITY||Hazard Ratio (HR)|0.967||||0.9029|TWO_SIDED|95.0|0.815|1.148|||Log Rank|Stratified log-rank test||||1.148|0.815|0.9029
82366301|NCT02566993|164443138|SUPERIORITY|||||||0.2826|||||||Normal test|||||||0.2826
82366302|NCT02566993|164443139|SUPERIORITY|||||||0.6216|||||||Normal test|||||||0.6216
82366303|NCT02566993|164443140|SUPERIORITY|||||||0.9708|||||||Normal test|||||||0.9708
82366304|NCT02566993|164443141|SUPERIORITY||Hazard Ratio (HR)|0.831||||0.3257|TWO_SIDED|95.0|0.693|0.996|||Log Rank|Stratified log-rank test||||0.996|0.693|0.3257
82366305|NCT02566993|164443142|SUPERIORITY|||||||0.0851|||||||Normal test|||||||0.0851
82366306|NCT02566993|164443143|SUPERIORITY|||||||0.0129|||||||Normal test|||||||0.0129
82366307|NCT02566993|164443145|SUPERIORITY|||||||0.6616|||||||Binomial test|||||||0.6616
82366308|NCT02566993|164443146|SUPERIORITY||Hazard Ratio (HR)|0.581||||0.0012|TWO_SIDED|95.0|0.416|0.812|||Log Rank|||||0.812|0.416|0.0012
82366309|NCT02566993|164443147|SUPERIORITY||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.744|1.14||||||||1.140|0.744|
82366310|NCT02566993|164443148|SUPERIORITY||Hazard Ratio (HR)|0.688|||||TWO_SIDED|95.0|0.549|0.863||||||||0.863|0.549|
82366311|NCT02566993|164443150|SUPERIORITY||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.616|1.376||||||||1.376|0.616|
82366312|NCT02566993|164443151|SUPERIORITY||Hazard Ratio (HR)|0.504|||||TWO_SIDED|95.0|0.346|0.736||||||||0.736|0.346|
82366313|NCT02566993|164443152|SUPERIORITY||Hazard Ratio (HR)|1.122|||||TWO_SIDED|95.0|0.84|1.5||||||||1.500|0.840|
82393939|NCT00793624|164499140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.021||0.0175||95.0|0.009|0.09|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.090|0.009|0.0175
82393940|NCT00793624|164499140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.021||0.0339||95.0|0.003|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.085|0.003|0.0339
82366314|NCT02566993|164443153|SUPERIORITY||Hazard Ratio (HR)|1.306|||||TWO_SIDED|95.0|0.955|1.786||||||||1.786|0.955|
82366315|NCT02566993|164443155|SUPERIORITY||Hazard Ratio (HR)|0.915|||||TWO_SIDED|95.0|0.455|1.843||||||||1.843|0.455|
82366316|NCT02566993|164443156|SUPERIORITY||Hazard Ratio (HR)|1.092|||||TWO_SIDED|95.0|0.506|2.36||||||||2.360|0.506|
82366317|NCT02566993|164443157|SUPERIORITY||Hazard Ratio (HR)|0.923|||||TWO_SIDED|95.0|0.765|1.113||||||||1.113|0.765|
82366318|NCT02566993|164443158|SUPERIORITY||Hazard Ratio (HR)|0.788|||||TWO_SIDED|95.0|0.645|0.961||||||||0.961|0.645|
82366319|NCT02566993|164443160|SUPERIORITY||Hazard Ratio (HR)|0.903|||||TWO_SIDED|95.0|0.624|1.307||||||||1.307|0.624|
82366320|NCT02566993|164443161|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.392|0.799||||||||0.799|0.392|
82366321|NCT02566993|164443162|SUPERIORITY||Hazard Ratio (HR)|1.291|||||TWO_SIDED|95.0|0.838|1.99||||||||1.990|0.838|
82366322|NCT02566993|164443163|SUPERIORITY||Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.824|2.019||||||||2.019|0.824|
82366323|NCT02566993|164443165|SUPERIORITY||Hazard Ratio (HR)|1.032|||||TWO_SIDED|95.0|0.403|2.641||||||||2.641|0.403|
82366324|NCT02566993|164443166|SUPERIORITY||Hazard Ratio (HR)|1.013|||||TWO_SIDED|95.0|0.373|2.75||||||||2.750|0.373|
82366325|NCT01610453|164443195|SUPERIORITY_OR_OTHER||||||<|0.01||||||A sample size calculation with alpha 0.05, power 0.8, and cut-off level of HPD at 40 mm. 146 women should be included. The calculation was based from a previous study, in which 93% with HPD ≤40 mm and 57% of with HPD \> 40 mm delivered vaginally.|Chi-squared|||Women were categorized in accordance to fetal descent measured by ultrasound. Head-perineum distance ≤40 mm was used as cut-off level. Vaginal delivery was the primary outcome measure.||||<0.01
82366326|NCT01610453|164443196|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.01
82366327|NCT00103402|164443228|SUPERIORITY|The primary analysis compared rates for the primary outcome between study groups, using the exact conditional test version of the Mantel-Haenszel test to control for clustering by clinical center.|Risk Difference (RD)|0.1||||0.99|TWO_SIDED|95.0|-11.2|11.0|||Mantel Haenszel|The exact conditional test version of the Mantel-Haenszel test was used to control for clustering by clinical center.||Sample-size calculations were based on a 2-sided alpha of 0.05 with 80% power to detect a difference of 20 between response rates (40% placebo and 60% alfuzosin) for the Fisher's exact test. We calculated that a total sample of 270 participants would be required (135 per study group). This proposed sample size included a 20% increase to adjust for clustering within clinical sites and a 5% increase for interim monitoring.||11.0|-11.2|0.99
82366328|NCT00103402|164443229|SUPERIORITY|The primary analysis compared rates for the primary outcome between study groups, using the exact conditional test version of the Mantel-Haenszel test to control for clustering by clinical center.|Risk Difference (RD)|1.8||||0.9|TWO_SIDED|95.0|-9.0|2.5|||Mantel Haenszel|||Marked or moderate improvement at 12 weeks Absolute Difference in Rates % (95% CI)||2.5|-9.0|0.90
82366329|NCT00103402|164443230|SUPERIORITY||Mean Difference (Net)|-0.5||||0.7|TWO_SIDED|95.0|-2.7|1.5|||t-test, 2 sided|||Total score (0-43) change from baseline||1.5|-2.7|0.70
82366330|NCT00103402|164443230|SUPERIORITY||Mean Difference (Net)|-0.3||||0.64|TWO_SIDED|95.0|-1.4|0.8|||t-test, 2 sided|||Pain score (0-21) change from baseline||0.8|-1.4|0.64
82366331|NCT00103402|164443230|SUPERIORITY||Mean Difference (Net)|-0.2||||0.62|TWO_SIDED|95.0|-0.8|0.4|||t-test, 2 sided|||Urinary score (0-10) change from baseline||0.4|-0.8|0.62
82448907|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3||||0.7211|TWO_SIDED|95.0|-2.01|1.4||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||1.40|-2.01|0.7211
82643667|NCT01275170|165002974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.07|||||TWO_SIDED|90.0|0.05|0.11||||||||0.11|0.05|
82643668|NCT01275170|165002974|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.27|||||TWO_SIDED|90.0|0.18|0.43||||||||0.43|0.18|
82366332|NCT00103402|164443230|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|||Quality of life score (0-12) change from baseline||0.4|-0.4|.99
82366333|NCT00103402|164443231|SUPERIORITY||Mean Difference (Net)|-0.3||||0.45|TWO_SIDED|95.0|-1.8|1.2|||t-test, 2 sided|||McGill Total Score||1.2|-1.8|0.45
82366334|NCT00103402|164443231|SUPERIORITY||Mean Difference (Net)|-0.2||||0.47|TWO_SIDED|95.0|-1.4|1.0|||t-test, 2 sided|||McGill Sensory Score||1.0|-1.4|0.47
82366335|NCT00103402|164443231|SUPERIORITY||Mean Difference (Net)|-0.1||||0.89|TWO_SIDED|95.0|-0.6|0.4|||t-test, 2 sided|||McGill Affective Score||0.4|-0.6|0.89
82366336|NCT00103402|164443232|SUPERIORITY||Mean Difference (Net)|-0.5||||0.6|TWO_SIDED|95.0|-2.3|1.3|||t-test, 2 sided|||Physical component summary (0-100) change in scores||1.3|-2.3|0.60
82366337|NCT00103402|164443232|SUPERIORITY||Mean Difference (Net)|2.1||||0.16|TWO_SIDED|95.0|-0.4|4.6|||t-test, 2 sided|||Mental component summary (0-100) Absolute Difference between Groups (95% CI)||4.6|-0.4|0.16
82366338|NCT00103402|164443233|SUPERIORITY||Mean Difference (Net)|-1.1||||0.08|TWO_SIDED|95.0|-2.4|0.2|||t-test, 2 sided|||||0.2|-2.4|0.08
82366339|NCT00103402|164443234|SUPERIORITY||Risk Difference (RD)|0.7||||0.94|TWO_SIDED|95.0|-2.6|4.0|||t-test, 2 sided|||||4.0|-2.6|0.94
82366340|NCT00103402|164443235|SUPERIORITY||Mean Difference (Net)|1.1||||0.06|TWO_SIDED|95.0|-0.3|2.5|||t-test, 2 sided|||||2.5|-0.3|0.06
82643669|NCT01275170|165002975|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.62|1.04||||||||1.04|0.62|
82643670|NCT01275170|165002975|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.91|||||TWO_SIDED|90.0|0.71|1.17||||||||1.17|0.71|
82643671|NCT01275170|165002975|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.8|||||TWO_SIDED|90.0|0.62|1.03||||||||1.03|0.62|
82366341|NCT03182582|164443329|SUPERIORITY|||||||0.003|||||||Paired t test|||A sample size of 22 patients was required to achieve 80% power, using a two-tailed test with α = 0.05.||||0.003
82366342|NCT03334721|164443335|SUPERIORITY|"Given the crossover design through which the data were collected, the statistical model also included a Visit (1 vs. 2) factor and a Visit by Treatment Condition interaction term. Analysis used Linear Mixed Modeling with Fixed Factors."|Test III Tests of Fixed Effects (F)|0.141||||0.711|TWO_SIDED|||||Treatment Condition Factor (0 = Placebo, 1 = Gabapentin)|Mixed Models Analysis|df = 1, 20.183|||"Given the crossover design through which the data were collected, the statistical model also included a Visit (1 vs. 2) factor and a Visit by Treatment Condition interaction term."|||0.711
82366343|NCT02960893|164443357|SUPERIORITY||LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.519|TWO_SIDED|95.0|-0.5|0.9||Significance was evaluated at a 2-sided alpha level of 0.05|Mixed Model with Repeated Measures|Fixed effects: treatment, baseline (BL) gait severity, visit, treatment-by-visit interaction; Covariate: BL Total SARA score; Random effect: subject||||0.9|-0.5|0.519
82366344|NCT03692312|164443363|SUPERIORITY||Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|0.875||0.0514|TWO_SIDED|95.0|-0.01|3.51|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||3.51|-0.01|0.0514
82366345|NCT03692312|164443364|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.268||0.2124|TWO_SIDED|95.0|-0.2|0.88|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.88|-0.20|0.2124
82366346|NCT03692312|164443365|SUPERIORITY||Mean Difference (Final Values)|4.74|STANDARD_ERROR_OF_MEAN|1.104|<|0.0001|TWO_SIDED|95.0|2.51|6.96|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||6.96|2.51|<0.0001
82393941|NCT00793624|164499141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.021||0.0537||95.0|-0.001|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.081|-0.001|0.0537
82393942|NCT00793624|164499141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.021||0.0808||95.0|-0.004|0.078|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.078|-0.004|0.0808
82393943|NCT00793624|164499141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.021||0.2579||95.0|-0.017|0.065|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.065|-0.017|0.2579
82393944|NCT00793624|164499142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.021||0.0011||95.0|0.027|0.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.109|0.027|0.0011
82393945|NCT00793624|164499142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.021||0.0069||95.0|0.018|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.101|0.018|0.0069
82393946|NCT00793624|164499142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.04|0.119|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.119|0.040|<0.0001
82393947|NCT00793624|164499143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.135|0.22|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.220|0.135|<0.0001
82643672|NCT01275170|165002975|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.76|||||TWO_SIDED|90.0|0.59|0.97||||||||0.97|0.59|
82366347|NCT03692312|164443366|SUPERIORITY||Mean Difference (Final Values)|3.18|STANDARD_ERROR_OF_MEAN|1.099||0.0059|TWO_SIDED|95.0|0.96|5.39|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||5.39|0.96|0.0059
82366348|NCT03692312|164443367|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.4634|TWO_SIDED|95.0|-0.3|0.14|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.14|-0.30|0.4634
82393948|NCT00793624|164499143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.108|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.108|<0.0001
82393949|NCT00793624|164499143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.148|0.233|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.233|0.148|<0.0001
82393950|NCT00793624|164499144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.124|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.124|<0.0001
82393951|NCT00793624|164499144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.109|0.195|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.195|0.109|<0.0001
82393952|NCT00793624|164499144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.139|0.226|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.226|0.139|<0.0001
82393953|NCT00793624|164499145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.122|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.208|0.122|<0.0001
82393954|NCT00793624|164499145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.116|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.203|0.116|<0.0001
82393955|NCT00793624|164499145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.13|0.218|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.218|0.130|<0.0001
82393956|NCT00793624|164499146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.104|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.191|0.104|<0.0001
82448908|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|-0.8||||0.35|TWO_SIDED|95.0|-2.51|0.9||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||0.90|-2.51|0.3500
82643673|NCT01275170|165002975|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|2.81|||||TWO_SIDED|90.0|2.16|3.65||||||||3.65|2.16|
82643674|NCT01275170|165002981|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.52|||||TWO_SIDED|90.0|1.07|2.15||||||||2.15|1.07|
82366349|NCT03692312|164443368|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.564||0.5385|TWO_SIDED|95.0|-1.49|0.79|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.79|-1.49|0.5385
82366350|NCT03692312|164443371|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.764||0.711|TWO_SIDED|95.0|-1.26|1.83|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||1.83|-1.26|0.7110
82366351|NCT03692312|164443372|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.326||0.7861|TWO_SIDED|95.0|-0.57|0.75|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.75|-0.57|0.7861
82366352|NCT03692312|164443373|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.123||0.6282|TWO_SIDED|95.0|-0.19|0.31|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. A compound symmetry variance-covariance matrix has been used.||0.31|-0.19|0.6282
82366353|NCT03692312|164443374|SUPERIORITY|||||||0.0428|||||||t-test, 2 sided|||||||0.0428
82366354|NCT03692312|164443375|SUPERIORITY||Ratio|0.77|STANDARD_ERROR_OF_MEAN|0.094||0.0379|TWO_SIDED|95.0|0.6|0.98|||MMRM|||Analysis is a mixed model for repeated measures (MMRM) analysis with treatment, visit, age group and treatment by visit interaction as fixed effects and baseline value as a covariate. An unstructured variance-covariance matrix has been used.||0.98|0.60|0.0379
82366355|NCT03692312|164443377|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline; two-tailed t-test assuming unequal variance.||||0.078
82366356|NCT03692312|164443379|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline; two-tailed t-test assuming unequal variance.||||0.29
82366357|NCT03692312|164443381|SUPERIORITY|||||||0.077|||||||t-test, 2 sided|||Cmax upper quantiles group compared to the placebo group for mean change from baseline (absolute value); two-tailed t-test assuming unequal variance.||||0.077
82366358|NCT03692312|164443382|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||Cmax upper quantiles group compared to placebo group for mean Raw Score; two-tailed t-test assuming unequal variance.||||0.071
82366359|NCT03573505|164443422|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.112|TWO_SIDED|95.0|0.85|4.73|||Log Rank|||A cox proportional hazards model with terms for treatment (BG00011 vs. placebo) and randomization stratification factor is used. A stratified log-rank test is used to compare the 2 treatment groups using randomization stratus as the stratification factor. An HR (Hazard Ratio) \< 1 indicates lower risk of event for the BG00011 group where HR is based on Cox proportional hazard model with treatment (Placebo, BG00011) as the categorical covariate.||4.73|0.85|0.112
82366360|NCT02040779|164443440|SUPERIORITY||LSM difference|0.116||||0.001|TWO_SIDED|95.0|0.048|0.185||ANCOVA model with effects due to baseline trough morning FEV1, sex, age, current protocol-allowed asthma therapy (ICS or non-corticosteroid therapy) at the time of screening visit and during the run-in period and treatment.|ANCOVA||BDP 160 mcg BAI - Placebo BAI|A fixed-sequence multiple testing procedure was used while controlling the family-wise error rate at 5%. If the 2-sided p-value resulting from the ANCOVA model for comparing beclomethasone dipropionate BAI 160 mcg/day versus placebo was less than 0.05, then the comparison of the 80 mcg/day versus placebo was to be interpreted inferentially.||0.185|0.048|0.0010
82366361|NCT02040779|164443440|SUPERIORITY||LSM difference|0.124||||0.0005|TWO_SIDED|95.0|0.054|0.193||ANCOVA model with effects due to baseline trough morning FEV1, sex, age, current protocol-allowed asthma therapy (ICS or non-corticosteroid therapy) at the time of screening visit and during the run-in period and treatment.|ANCOVA||BDP 80 mcg BAI - Placebo BAI|||0.193|0.054|0.0005
82393957|NCT00793624|164499146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.112|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.112|<0.0001
82366362|NCT02040779|164443441|SUPERIORITY||LSM difference|7.911||||0.0443|TWO_SIDED|95.0|0.202|15.621||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||15.621|0.202|0.0443
82393958|NCT00793624|164499146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.123|0.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.211|0.123|<0.0001
82366363|NCT02040779|164443441|SUPERIORITY||LSM difference|13.645||||0.0007|TWO_SIDED|95.0|5.843|21.446||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||21.446|5.843|0.0007
82366364|NCT02040779|164443442|SUPERIORITY||LSM difference|5.405||||0.2014|TWO_SIDED|95.0|-2.905|13.715||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||13.715|-2.905|0.2014
82393959|NCT00793624|164499147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.095|0.183|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.183|0.095|<0.0001
82393960|NCT00793624|164499147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.095|0.184|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.184|0.095|<0.0001
82393961|NCT00793624|164499147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.117|0.206|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.206|0.117|<0.0001
82393962|NCT00793624|164499148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.149|0.297|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.297|0.149|<0.0001
82393963|NCT00793624|164499148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.309|0.161|<0.0001
82393964|NCT00793624|164499148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.233|0.381|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.381|0.233|<0.0001
82393965|NCT00793624|164499149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.161|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.161|<0.0001
82444397|NCT00249613|164597559|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.34||0.01|TWO_SIDED|95.0|0.21|0.79||Odds ratio is 0.40, confidence interval is 0.21-0.79.|Regression, Logistic||The direction of the comparison would dictate that odds ratio of less than 1 would indicate Women-Only participants are less likely than Mixed-Gender participants to engage in criminal activities.|Logistic regression does not separate arms because group status (women-only vs mixed gender) is the dependent variable in our multinomial logistic regression. Because we were not able to randomly assign after all, we also included a propensity score, and additional variables (substance use in past 30 days at baseline, age, race/ethnicity, childhood sexual abuse history, previous treatment, criminal justice funding source, and primary drug) to adjust for the non-random sampling.||0.79|0.21|0.01
82528510|NCT01703702|164752839|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.925|TWO_SIDED|95.0|-3.2|3.53|||ANCOVA|Adjusted for: Baseline scale, Cognitive status (mild impairment/dementia), country and florbetapir F18 PET scan result (Aß+/Aß-).||||3.53|-3.20|0.925
82643675|NCT01275170|165002981|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.63|||||TWO_SIDED|90.0|0.45|0.9||||||||0.90|0.45|
82393966|NCT00793624|164499149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.175|0.324|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.324|0.175|<0.0001
82393967|NCT00793624|164499149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.235|0.384|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.384|0.235|<0.0001
82393968|NCT00793624|164499150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.135|0.285|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.285|0.135|<0.0001
82393969|NCT00793624|164499150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.179|0.329|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.329|0.179|<0.0001
82393970|NCT00793624|164499150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.201|0.352|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.352|0.201|<0.0001
82393971|NCT00793624|164499151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.107|0.258|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.258|0.107|<0.0001
82393972|NCT00793624|164499151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.139|0.291|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.291|0.139|<0.0001
82528511|NCT01703702|164752840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.857|TWO_SIDED|95.0|0.7|1.54|||Chi-squared|||Major Diagnostic Tests||1.54|0.70|0.857
82643676|NCT01275170|165002981|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.67|||||TWO_SIDED|90.0|0.47|0.94||||||||0.94|0.47|
82643677|NCT01275170|165002982|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.07|||||TWO_SIDED|90.0|0.63|1.83||||||||1.83|0.63|
82643678|NCT01275170|165002982|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.6|||||TWO_SIDED|90.0|0.35|1.01||||||||1.01|0.35|
82643679|NCT01275170|165002982|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.61|||||TWO_SIDED|90.0|0.36|1.04||||||||1.04|0.36|
82643680|NCT01275170|165002983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|1.47|||||TWO_SIDED|90.0|0.63|3.4||||||||3.40|0.63|
82643681|NCT01275170|165002983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.91|||||TWO_SIDED|90.0|0.41|2.0||||||||2.00|0.41|
82393973|NCT00793624|164499151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.166|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.318|0.166|<0.0001
82448909|NCT01122849|164605159|SUPERIORITY_OR_OTHER||LS Mean difference|0.5||||0.5564|TWO_SIDED|95.0|-1.19|2.18||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 7||2.18|-1.19|0.5564
82528512|NCT01703702|164752840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.36|2.81|||Chi-squared|||Alzheimer's/Cognitive Medication||2.81|1.36|<0.001
82528513|NCT01703702|164752840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.063|TWO_SIDED|95.0|0.97|2.64|||Chi-squared|||Neuropsychological Tests||2.64|0.97|0.063
82366365|NCT02040779|164443442|SUPERIORITY||LSM difference|10.902||||0.0112|TWO_SIDED|95.0|2.5|19.303||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||19.303|2.500|0.0112
82366366|NCT02040779|164443443|SUPERIORITY||LSM difference|-0.388||||0.0175|TWO_SIDED|95.0|-0.708|-0.068||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.068|-0.708|0.0175
82366367|NCT02040779|164443443|SUPERIORITY||LSM difference|-0.358||||0.0285|TWO_SIDED|95.0|-0.678|-0.038||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 80 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.038|-0.678|0.0285
82366368|NCT02040779|164443444|SUPERIORITY||LSM difference|-0.137||||0.0335|TWO_SIDED|95.0|-0.263|-0.011||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 160 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||-0.011|-0.263|0.0335
82366369|NCT02040779|164443444|SUPERIORITY||LSM difference|-0.127||||0.0509|TWO_SIDED|95.0|-0.255|0.001||a priori threshold for significance of 0.05.|mixed model for repeated measures||BDP 80 mcg BAI - Placebo BAI|Treatment comparisons began with am PEF for BDP 160 mcg BAI vs placebo. If the p-value was ≤0.05, the next comparisons of interest were made 1) the next secondary outcome comparison for BDP 160 mcg BAI vs placebo and 2) the am PEF for BDP 80 mcg BAI vs placebo. This procedure allowed for control of the Type I error for comparisons at a particular BAI treatment over the 5 secondary endpoints, as well as comparisons within an endpoint. It did not control the overall Type I error.||0.001|-0.255|0.0509
82366370|NCT02040779|164443446|SUPERIORITY|||||||0.2384|||||||Log Rank|||||||0.2384
82366371|NCT02040779|164443446|SUPERIORITY|||||||0.0208|||||||Log Rank|||||||0.0208
82366372|NCT00922272|164443450|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82366373|NCT00922272|164443452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.4182|TWO_SIDED|95.0|-3.4|8.1|||ANCOVA|||||8.1|-3.4|0.4182
82393974|NCT00793624|164499152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.103|0.256|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.256|0.103|<0.0001
82528514|NCT01703702|164752840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.741|TWO_SIDED|95.0|0.69|1.7|||Chi-squared|||Physician Follow-up for Re-evaluation||1.70|0.69|0.741
82528515|NCT01703702|164752840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.046|TWO_SIDED|95.0|1.01|2.08|||Chi-squared|||Specialist Referral||2.08|1.01|0.046
82366374|NCT00922272|164443453|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6705||95.0|||||Fisher Exact|||||||0.6705
82366375|NCT00922272|164443454|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Affective Flattening||||<0.0001
82366376|NCT00922272|164443454|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Alogia||||<0.0001
82366377|NCT00922272|164443454|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Avolition-Apathy||||<0.0001
82366378|NCT00922272|164443454|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Anhedonia-Asociality||||<0.0001
82366379|NCT00922272|164443454|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Attention||||<0.0001
82528516|NCT03980184|164752862|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
82528517|NCT03980184|164752863|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<.001
82528518|NCT03980184|164752864|SUPERIORITY|||||||0.703|||||||Fisher Exact|||||||0.703
82528519|NCT03980184|164752866|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82528520|NCT03980184|164752867|SUPERIORITY|||||||0.647|||||||Fisher Exact|||||||0.647
82528521|NCT03980184|164752868|SUPERIORITY|||||||0.887|||||||Fisher Exact|||||||0.887
82528522|NCT00462670|164752869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.58|-0.6|||t-test, 2 sided|||||-0.60|-1.58|<0.0001
82528523|NCT00462670|164752870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.45|<|0.0001|TWO_SIDED|95.0|-2.54|-0.92|||t-test, 2 sided|||||-0.92|-2.54|<0.0001
82444398|NCT00249613|164597560|SUPERIORITY_OR_OTHER||Beta coefficient|-0.7|STANDARD_ERROR_OF_MEAN|0.72||0.33|TWO_SIDED|95.0|-2.11|0.7|||Generalized estimating equations (GEE)|||Generalized estimating equation (GEE) models do not separate arms: group status (women-only vs mixed-gender) is the dependent variable. Because we were not able to randomly assign, we also included a propensity score, and additional variables (education, race/ethnicity, marital status, income, history of sexual abuse, criminal justice funding source, had child, mental health symptoms, and a time in treatment by group interaction term) to adjust for the non-random sampling.||0.70|-2.11|0.33
82448910|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.6804|TWO_SIDED|95.0|-2.2|3.35||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for Sleep Problems at Day 14||3.35|-2.20|0.6804
82366380|NCT00922272|164443455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.8771|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Affective Flattening||0.5|-0.4|0.8771
82366381|NCT00922272|164443455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.0584|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Alogia||1.1|0.0|0.0584
82366382|NCT00922272|164443455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.5215|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Avolition-Apathy||0.6|-0.3|0.5215
82366383|NCT00922272|164443455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.4835|TWO_SIDED|95.0|-0.3|0.7|||ANCOVA|||Anhedonia-Asociality||0.7|-0.3|0.4835
82366384|NCT00922272|164443455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.5723|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||Attention||0.7|-0.4|0.5723
82366385|NCT00922272|164443456|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Positive subscale||||<0.0001
82366386|NCT00922272|164443456|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Negative subscale||||<0.0001
82366387|NCT00922272|164443456|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||General Psychopathology subscale||||<0.0001
82366388|NCT00922272|164443457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6||||0.1975|TWO_SIDED|95.0|-0.3|1.5|||ANCOVA|||Positive subscale||1.5|-0.3|0.1975
82366389|NCT00922272|164443457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.1228|TWO_SIDED|95.0|-0.3|2.3|||ANCOVA|||Negative subscale||2.3|-0.3|0.1228
82366390|NCT00922272|164443457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.1115|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA|||General Psychopathology subscale||3.9|-0.4|0.1115
82366391|NCT00922272|164443464|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0307||95.0|||||t-test, 2 sided|||||||0.0307
82575347|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|8.18|STANDARD_ERROR_OF_MEAN|4.171||0.0534|TWO_SIDED|90.0|1.24|15.12|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||15.12|1.24|0.0534
82366392|NCT00922272|164443465|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1072|TWO_SIDED|95.0|-0.6|6.2|||ANCOVA|||||6.2|-0.6|0.1072
82366393|NCT00922272|164443466|SUPERIORITY_OR_OTHER_LEGACY|||||||0.366||95.0|||||t-test, 2 sided|||||||0.3660
82366394|NCT00922272|164443467|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4347|TWO_SIDED|95.0|-5.0|2.2|||ANCOVA|||||2.2|-5.0|0.4347
82366395|NCT00922272|164443468|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4312||95.0|||||t-test, 2 sided|||||||0.4312
82366396|NCT00922272|164443469|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||0.0874|TWO_SIDED|95.0|-5.4|0.4|||ANCOVA|||||0.4|-5.4|0.0874
82366397|NCT00922272|164443470|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Total Skills||||<0.0001
82366398|NCT00922272|164443470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||t-test, 2 sided|||Communication Skills||||0.0002
82366399|NCT00922272|164443470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0|||||t-test, 2 sided|||Financial Skills||||0.0028
82366400|NCT00922272|164443471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4637|TWO_SIDED|95.0|-5.3|2.4|||ANCOVA|||Total Skills||2.4|-5.3|0.4637
82366401|NCT00922272|164443471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.6137|TWO_SIDED|95.0|-4.1|2.4|||ANCOVA|||Communication Skills||2.4|-4.1|0.6137
82366402|NCT00922272|164443471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.3482|TWO_SIDED|95.0|-3.5|1.3|||ANCOVA|||Financial Skills||1.3|-3.5|0.3482
82366403|NCT00922272|164443472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0174||95.0|||||t-test, 2 sided|||Global Executive Composite||||0.0174
82366404|NCT00922272|164443472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0461||95.0|||||t-test, 2 sided|||Behavioral Recognition Index||||0.0461
82366405|NCT00922272|164443472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146||95.0|||||t-test, 2 sided|||Metacognition Index||||0.0146
82366406|NCT00922272|164443473|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.7418|TWO_SIDED|95.0|-3.8|2.7|||ANCOVA|||Global Executive Composite||2.7|-3.8|0.7418
82366407|NCT00922272|164443473|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.6429|TWO_SIDED|95.0|-2.6|4.1|||ANCOVA|||Behavioral Recognition Index||4.1|-2.6|0.6429
82366408|NCT00922272|164443473|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.4364|TWO_SIDED|95.0|-4.8|2.1|||ANCOVA|||Metacognition Index||2.1|-4.8|0.4364
82366409|NCT02588950|164443487|SUPERIORITY||Geometric LSMean Ratio|1.46|||||TWO_SIDED|90.0|1.08|1.97|||Mixed Models Analysis|||||1.97|1.08|
82366410|NCT02588950|164443491|SUPERIORITY||Geometric LSMean Ratio|0.885|||||TWO_SIDED|90.0|0.761|1.03|||Mixed Models Analysis|||||1.03|0.761|
82366411|NCT02588950|164443492|SUPERIORITY||Median Difference (Final Values)|0.9|||||TWO_SIDED|90.0|-1.6|2.6||||||||2.60|-1.60|
82366412|NCT00866658|164443496|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-1.116|-0.65||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%),sulfonylurea use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 145 patients in each arm would provide a power of 90% assuming common standard deviation of 1.3% with a 2-sided t test at 5% significance level.||-0.650|-1.116|<0.0001
82366413|NCT02072824|164443517|SUPERIORITY||Least Square Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4606|TWO_SIDED|95.0|-0.19|0.42|||ANCOVA|||Linear model with log transformed baseline seizure rate as continuous covariate and treatment, age stratum, and geographical region as fixed factor effects.||0.42|-0.19|0.4606
82393975|NCT00793624|164499152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.126|0.28|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.280|0.126|<0.0001
82393976|NCT00793624|164499152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.166|0.32|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.320|0.166|<0.0001
82393977|NCT00793624|164499153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.039||0.0781||95.0|-0.008|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.143|-0.008|0.0781
82393978|NCT00793624|164499153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.039||0.0455||95.0|0.002|0.153|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.153|0.002|0.0455
82643682|NCT01275170|165002983|OTHER|GMR (Renal Impairment/Healthy Control)|GMR|0.81|||||TWO_SIDED|90.0|0.37|1.78||||||||1.78|0.37|
82643683|NCT00865306|165003006|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<.05
82366414|NCT02072824|164443517|SUPERIORITY||Least Square Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.185||0.0223|TWO_SIDED|95.0|-0.8|-0.06|||ANCOVA|||Linear model with log transformed baseline seizure rate as continuous covariate and treatment, age stratum, and geographical region as fixed factor effects.||-0.06|-0.80|0.0223
82366415|NCT02072824|164443518|SUPERIORITY||Odds Ratio (OR)|0.625||||0.2418|TWO_SIDED|95.0|0.284|1.373|||Regression, Logistic|||The dichotomized responder variable was analyzed using a logistic regression model via maximum likelihood estimation with treatment group, age stratum, and geographical region as a fixed effect covariates.||1.373|0.284|0.2418
82366416|NCT02072824|164443518|SUPERIORITY||Odds Ratio (OR)|1.622||||0.305|TWO_SIDED|95.0|0.644|4.086|||Regression, Logistic|||The dichotomized responder variable was analyzed using a logistic regression model via maximum likelihood estimation with treatment group, age stratum, and geographical region as a fixed effect covariates.||4.086|0.644|0.3050
82366417|NCT02011113|164443529|SUPERIORITY_OR_OTHER|||||||0.0027||||||Based on one sample binomial test for dichotomized response proportion against the null hypothesis(H0: p = 0.1)|Binomial test for dichotomized response|||||||0.0027
82366418|NCT01338649|164443540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0211|||||||t-test, 2 sided|t-test on two groups of differences||||||0.0211
82393979|NCT00793624|164499153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.039||0.029||95.0|0.009|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.160|0.009|0.0290
82393980|NCT00793624|164499154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.039||0.0043||95.0|0.035|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.186|0.035|0.0043
82393981|NCT00793624|164499154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.039||0.0007||95.0|0.055|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.207|0.055|0.0007
82575348|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|3.776||0.998|TWO_SIDED|90.0|-6.29|6.31|||Mixed Models Analysis|||Month 3: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.31|-6.29|0.9980
82643684|NCT00865306|165003007|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||||||<.01
82643685|NCT03611751|165003043|SUPERIORITY||Odds Ratio (OR)|10.55|||<|0.0001|TWO_SIDED|95.0|6.54|17.0|||Cochran-Mantel-Haenszel|||||17.00|6.54|<0.0001
82366419|NCT01765582|164443581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.132|TWO_SIDED|90.0|0.96|2.71|||Cochran-Mantel-Haenszel|||Stratified by extent of metastatic disease (liver-limited disease versus non liver-limited disease) and tumor location (right versus left) after correction post-randomization.||2.71|0.96|0.132
82366420|NCT01765582|164443582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.005|TWO_SIDED|90.0|0.53|0.88|||Log Rank|||Stratified by extent of metastatic disease (liver-limited disease vs. non-liver-limited disease) and tumor location (right vs. left) after correction post-randomization.||0.88|0.53|0.005
82393982|NCT00793624|164499154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.039||0.0005||95.0|0.06|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.212|0.060|0.0005
82393983|NCT00793624|164499155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.039||0.0136||95.0|0.02|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.173|0.020|0.0136
82393984|NCT00793624|164499155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.039||0.0076||95.0|0.028|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.182|0.028|0.0076
82643686|NCT03611751|165003044|SUPERIORITY||Odds Ratio (OR)|10.49|||<|0.0001|TWO_SIDED|95.0|6.65|16.55|||Cochran-Mantel-Haenszel|||||16.55|6.65|<0.0001
82643687|NCT03611751|165003045|SUPERIORITY||Odds Ratio (OR)|11.42|||<|0.0001|TWO_SIDED|95.0|5.45|23.93|||Cochran-Mantel-Haenszel|||||23.93|5.45|<0.0001
82643688|NCT03611751|165003045|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0046|TWO_SIDED|95.0|1.18|2.56|||Cochran-Mantel-Haenszel|||||2.56|1.18|0.0046
82643689|NCT03611751|165003046|SUPERIORITY||Odds Ratio (OR)|9.21|||<|0.001|TWO_SIDED|95.0|2.89|29.4|||Cochran-Mantel-Haenszel|||||29.40|2.89|<0.001
82643690|NCT03611751|165003046|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0051|TWO_SIDED|95.0|1.3|5.0|||Cochran-Mantel-Haenszel|||||5.00|1.30|0.0051
82643691|NCT03611751|165003047|SUPERIORITY||Odds Ratio (OR)|14.44|||<|0.0001|TWO_SIDED|95.0|4.62|45.11|||Cochran-Mantel-Haenszel|||||45.11|4.62|<0.0001
82643692|NCT03611751|165003047|SUPERIORITY||Odds Ratio (OR)|2.85||||0.0002|TWO_SIDED|95.0|1.61|5.03|||Cochran-Mantel-Haenszel|||||5.03|1.61|0.0002
82643693|NCT03611751|165003048|SUPERIORITY||Mean Difference (Net)|-23.6|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-26.9|-20.3|||ANCOVA|||||-20.3|-26.9|<0.0001
82643694|NCT03611751|165003048|SUPERIORITY||Mean Difference (Net)|-7.2|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|-10.5|-3.9|||ANCOVA|||||-3.9|-10.5|<0.0001
82643695|NCT03611751|165003049|SUPERIORITY||Odds Ratio (OR)|6.4||||0.0005|TWO_SIDED|95.0|1.94|21.15|||Cochran-Mantel-Haenszel|||||21.15|1.94|0.0005
82643696|NCT03611751|165003049|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0928|TWO_SIDED|95.0|0.89|3.71|||Cochran-Mantel-Haenszel|||||3.71|0.89|0.0928
82643697|NCT03611751|165003050|SUPERIORITY||Odds Ratio (OR)|6.85|||<|0.0001|TWO_SIDED|95.0|4.34|10.81|||Cochran-Mantel-Haenszel|||||10.81|4.34|<0.0001
82643698|NCT03611751|165003050|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.77|3.91|||Cochran-Mantel-Haenszel|||||3.91|1.77|<0.0001
82643699|NCT03611751|165003051|SUPERIORITY||Odds Ratio (OR)|5.38|||<|0.0001|TWO_SIDED|95.0|3.42|8.47|||Cochran-Mantel-Haenszel|||||8.47|3.42|<0.0001
82643700|NCT03611751|165003052|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0621|TWO_SIDED|95.0|0.88|11.79|||Cochran-Mantel-Haenszel|||||11.79|0.88|0.0621
82366421|NCT00986180|164443588|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was recalculated due to Amendment INT-1. The non-inferiority margin for SPID120 was set as 120. The common standard deviation for the SPID120 data was estimated to be 230. Seventy nine subjects in each arm would have 90% power to demonstrate the non-inferiority of NUCYNTA to oxycodone IR with a 1-sided significance level of 0.025. This would have required enrollment of total 158 mITT subjects for each stratum. The original sample size (292 mITT subjects) was derived for SPID72.|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|16.02||0.9703|TWO_SIDED|95.0|-32.1|30.9|||ANCOVA|||||30.9|-32.1|0.9703
82366422|NCT00986180|164443589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|6.08||0.7691|TWO_SIDED|95.0|-10.1|13.7|||ANCOVA|||||13.7|-10.1|0.7691
82366423|NCT00986180|164443590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|9.24||0.9282|TWO_SIDED|95.0|-17.3|19.0|||ANCOVA|||||19.0|-17.3|0.9282
82528524|NCT02002884|164752871|SUPERIORITY||LS Mean difference|-0.22|||=|0.017|TWO_SIDED|95.0|-0.4|-0.04|||MMRM|||LS-Means are from mixed model with treatment group, pooled site and pre-treatment status included as fixed factors and AS at baseline, Gross Motor Function Classification System-Extended and Revised (GMFCS-E\&R) level at screening included as covariates. For MMRM visit\*treatment is interaction term repeated factor.||-0.04|-0.4|= 0.017
82643701|NCT03611751|165003053|SUPERIORITY||Odds Ratio (OR)|0.64||||0.6692|TWO_SIDED|95.0|0.06|7.46|||Cochran-Mantel-Haenszel|||||7.46|0.06|0.6692
82643702|NCT03611751|165003053|SUPERIORITY||Odds Ratio (OR)|0.32||||0.3793|TWO_SIDED|95.0|0.02|5.56|||Cochran-Mantel-Haenszel|||||5.56|0.02|0.3793
82643703|NCT03611751|165003054|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0004|TWO_SIDED|95.0|1.29|2.41|||Cochran-Mantel-Haenszel|||||2.41|1.29|0.0004
82366424|NCT00986180|164443591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|29.75||0.9562|TWO_SIDED|95.0|-60.1|56.8|||ANCOVA|||||56.8|-60.1|0.9562
82366425|NCT00986180|164443592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|6.08||0.7973|TWO_SIDED|95.0|-13.5|10.4|||ANCOVA|||||10.4|-13.5|0.7973
82366426|NCT00986180|164443593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|9.3||0.7882|TWO_SIDED|95.0|-20.8|15.8|||ANCOVA|||||15.8|-20.8|0.7882
82366427|NCT00986180|164443594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|15.82||0.7491|TWO_SIDED|95.0|-36.1|26.0|||ANCOVA|||||26.0|-36.1|0.7491
82643704|NCT03611751|165003055|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.45|2.78|||Cochran-Mantel-Haenszel|||||2.78|1.45|<0.0001
82643705|NCT03611751|165003056|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82643706|NCT03611751|165003057|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.78|3.43|||Cochran-Mantel-Haenszel|||||3.43|1.78|<0.0001
82643707|NCT03611751|165003058|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.78|3.36|||Cochran-Mantel-Haenszel|||||3.36|1.78|<0.0001
82643708|NCT03611751|165003059|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0001|TWO_SIDED|95.0|1.43|3.01|||Cochran-Mantel-Haenszel|||||3.01|1.43|0.0001
82643709|NCT00929864|165003060|NON_INFERIORITY_OR_EQUIVALENCE|Analysis tested for non-inferiority. Abatacept will be considered non-inferior to adalimumab if the upper limit of the 95% two-sided CI of difference in ACR20 response rates between the adalimumab arm and the abatacept arm is smaller than or equal to 12%. Estimate and 95% confidence interval (CI) for difference based on minimum risk weights method with randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).|Difference from adalimumab at Day 365|1.8|||||TWO_SIDED|95.0|-5.6|9.2|||minimum risk weights method|adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||The null and alternative hypotheses are H0: T - C\<= δ vs. Ha:T - C \> δ, where T is the treatment effect of abatacept, C is the effect of active control (adalimumab),and δ is non-inferiority margin. Abatacept is defined as δ non-inferior to adalimumab when H0 is rejected. More specifically, if the lower bound of the 95% two-sided confidence interval for C-T is greater than δ,, then that Abatacept is δ non-inferior to adalimumab can be claimed.||9.2|-5.6|
82643710|NCT00929864|165003061|SUPERIORITY_OR_OTHER||Difference in proportions|-5.37||||0.006|TWO_SIDED|95.0|-9.13|-1.62|||Chi-squared|||Analysis is p-value of difference in proportions. n=number of participants with event, N=number of participants at risk. Proportion = n/N. In order to maintain the overall type I error rate of 0.05 for testing both the primary non-inferiority hypothesis and the key secondary local injection site reaction (LISR) hypothesis, the LISR hypothesis was tested at the 5% significance level only after the primary non-inferiority hypothesis is established at the 5% level.||-1.62|-9.13|0.006
82643711|NCT00929864|165003062|SUPERIORITY_OR_OTHER||Difference from adalimumab|-4.13|||||TWO_SIDED|95.0|-6.55|-1.72||||||Analysis of incidence rate at 24 months. Point estimate and 95% CI. Poisson distribution was used to construct the 95% CIs.||-1.72|-6.55|
82643712|NCT00929864|165003063|SUPERIORITY_OR_OTHER||Difference from adalimumab at Day 365|-1.3|||||TWO_SIDED|95.0|-6.5|3.9|||minimum risk weights method|Adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||This analysis is for Day 365.||3.9|-6.5|
82643713|NCT00929864|165003063|SUPERIORITY_OR_OTHER||Difference from adalimumab at Day 729|0.9|||||TWO_SIDED|95.0|-5.5|7.3|||minimum risk weights method|Adjusted for randomization stratification of screening Disease Activity Score-28 (DAS28) c-reactive protein (CRP).||This analysis is for Day 729.||7.3|-5.5|
82528525|NCT02002884|164752871|SUPERIORITY||LS-Mean difference|-0.07|||=|0.546|TWO_SIDED|95.0|-0.29|0.15|||MMRM|||LS-Means are from mixed model with treatment group, pooled site and pre-treatment status included as fixed factors and AS at baseline, GMFCS-E\&R level at screening included as covariates. For MMRM visit\*treatment is interaction term repeated factor.||0.15|-0.29|= 0.546
82643714|NCT00929864|165003064|SUPERIORITY_OR_OTHER||Difference from adalimumab|0.8|||||TWO_SIDED|95.0|-4.51|6.11||||||Analysis for incidence rate of SAE at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||6.11|-4.51|
82643715|NCT00929864|165003064|SUPERIORITY_OR_OTHER||Difference from adalimumab|-0.67|||||TWO_SIDED|95.0|-3.27|1.94||||||Analysis for incidence rate of Serious Infections and Infestations at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.94|-3.27|
82643716|NCT00929864|165003064|SUPERIORITY_OR_OTHER||Difference from adalimumab|0.0|||||TWO_SIDED|95.0|-0.92|0.91||||||Analysis for incidence rate of Opportunistic Infections at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.91|-0.92|
82643717|NCT00929864|165003064|SUPERIORITY_OR_OTHER||Difference from adalimumab|-5.32|||||TWO_SIDED|95.0|-12.06|1.41||||||Analysis for incidence rate of discontinuation for any cause at 12 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.41|-12.06|
82643718|NCT00929864|165003065|SUPERIORITY_OR_OTHER||Difference from adalimumab|-1.91|||||TWO_SIDED|95.0|-5.43|1.61||||||Analysis for incidence rate of SAE at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||1.61|-5.43|
82643719|NCT00929864|165003065|SUPERIORITY_OR_OTHER||Difference from adalimumab|-1.24|||||TWO_SIDED|95.0|-3.12|0.63||||||Analysis for incidence rate of Serious infections and infestations Adverse Events at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.63|-3.12|
82643720|NCT00929864|165003065|SUPERIORITY_OR_OTHER||Difference from adalimumab|-0.52|||||TWO_SIDED|95.0|-1.39|0.36|||minimum risk weights method|||Analysis for incidence rate of opportunistic infections at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.36|-1.39|
82643721|NCT00929864|165003065|SUPERIORITY_OR_OTHER||Difference from adalimumab|-3.1|||||TWO_SIDED|95.0|-7.13|0.92||||||Analysis for incidence rate of discontinuations (all cause) at 24 months. Point estimate and 95% CI for treatment difference. Poisson distribution was used to construct the 95% CIs.||0.92|-7.13|
82643722|NCT00929864|165003066|SUPERIORITY_OR_OTHER||Difference from adalimumab|-8.1|||||TWO_SIDED|95.0|-13.9|-2.2||||||Analysis for ANA at Day 365. Point estimate and 95% CI for treatment difference.||-2.2|-13.9|
82643723|NCT00929864|165003066|SUPERIORITY_OR_OTHER||Difference from adalimumab|-8.4|||||TWO_SIDED|95.0|-15.3|-1.5||||||Analysis for ANA at Day 729. Point estimate and 95% CI for treatment difference||-1.5|-15.3|
82643724|NCT00929864|165003066|SUPERIORITY_OR_OTHER||Difference from adalimumab|-9.6|||||TWO_SIDED|95.0|-13.4|-5.7||||||Analysis for dsDNA at Day 365. Point estimate and 95% CI for treatment difference.||-5.7|-13.4|
82643725|NCT00929864|165003066|SUPERIORITY_OR_OTHER||Difference from adalimumab|-12.2|||||TWO_SIDED|95.0|-16.9|-7.6||||||Analysis for dsDNA at Day 729. Point estimate and 95% CI for treatment difference.||-7.6|-16.9|
82643726|NCT03728257|165003067|SUPERIORITY|Change in average steps per day between baseline and 3 months was compared between the two groups.||||||0.8793||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.8793
82643727|NCT03728257|165003068|SUPERIORITY|Change in average steps per day between baseline and 6 months was compared between the two groups.||||||0.9597||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.9597
82643728|NCT03728257|165003069|SUPERIORITY|Change in Berg balance between baseline and 3 months was compared between the two groups.||||||0.3||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.30
82643729|NCT03728257|165003070|SUPERIORITY|Change in Berg balance between baseline and 3 months was compared between the two groups.||||||0.81||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.81
82643730|NCT03728257|165003071|SUPERIORITY|Change in 30 Second Sit-to-Stand Test between baseline and 3 months was compared between the two groups.||||||0.2262||||||a priori threshold for statistical significance is p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.2262
82643731|NCT03728257|165003072|SUPERIORITY|Change in 30 Second Sit-to-Stand Test between baseline and 6 months was compared between the two groups.||||||0.59||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.59
82643732|NCT03728257|165003073|SUPERIORITY|Change in SGRQ between baseline and 3 months was compared between the two groups.||||||0.26||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.26
82643733|NCT03728257|165003074|SUPERIORITY|Change in SGRQ between baseline and 6 months was compared between the two groups.||||||0.78||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.78
82643734|NCT03728257|165003075|SUPERIORITY|Change in MVPA between baseline and 3 months was compared between the two groups.||||||0.7073||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.7073
82643735|NCT03728257|165003076|SUPERIORITY|Change in MVPA between baseline and 6 months was compared between the two groups.||||||0.313||||||a priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.313
82643736|NCT03728257|165003077|SUPERIORITY|Change in count of participants with the same or improved stage of hypertension between baseline and 6 months.||||||0.91||||||a priori threshold for statistical significance p \< 0.05|Chi-squared|||||||0.91
82643737|NCT03728257|165003078|SUPERIORITY|Change in count of participants with the same or improved stage of hypertension between baseline and 6 months.||||||0.72||||||a priori threshold of statistical significance p \< 0.05|Chi-squared|||||||0.72
82643738|NCT03205163|165003164|OTHER||GMR|1.35||||0.032|TWO_SIDED|95.0|1.04|1.77|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an analysis of variance (ANOVA) model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and geometric mean ratio (GMR) were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.77|1.04|0.032
82366428|NCT00986180|164443595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|29.03||0.6897|TWO_SIDED|95.0|-68.6|45.4|||ANCOVA|||||45.4|-68.6|0.6897
82366429|NCT00986180|164443596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|7.02||0.8226|TWO_SIDED|95.0|-12.2|15.4|||ANCOVA|||||15.4|-12.2|0.8226
82366430|NCT00986180|164443597|SUPERIORITY_OR_OTHER|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.8880
82366431|NCT00986180|164443598|SUPERIORITY_OR_OTHER|||||||0.4115|||||||Wilcoxon (Mann-Whitney)|||||||0.4115
82366432|NCT00986180|164443599|SUPERIORITY_OR_OTHER|||||||0.8495|||||||Wilcoxon (Mann-Whitney)|||||||0.8495
82366433|NCT00986180|164443600|SUPERIORITY_OR_OTHER|||||||0.7846|||||||Wilcoxon (Mann-Whitney)|||||||0.7846
82366434|NCT00986180|164443601|SUPERIORITY_OR_OTHER|||||||0.479|||||||Wilcoxon (Mann-Whitney)|||||||0.4790
82366435|NCT00986180|164443602|SUPERIORITY_OR_OTHER|||||||0.3147|||||||Wilcoxon (Mann-Whitney)|||||||0.3147
82366436|NCT00986180|164443603|SUPERIORITY_OR_OTHER|||||||0.5411|||||||Wilcoxon (Mann-Whitney)|||||||0.5411
82366437|NCT00986180|164443604|SUPERIORITY_OR_OTHER|||||||0.6137|||||||Wilcoxon (Mann-Whitney)|||||||0.6137
82393985|NCT00793624|164499155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.039||0.0294||95.0|0.009|0.163|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.163|0.009|0.0294
82393986|NCT00793624|164499156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.039||0.8674||95.0|-0.071|0.084|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.084|-0.071|0.8674
82528526|NCT02002884|164752872|SUPERIORITY||LS-Mean difference|0.09|||=|0.34|TWO_SIDED|95.0|-0.1|0.28|||ANCOVA|||LS-Means are from analysis of covariance (ANCOVA) with treatment group, pooled site and pretreatment status included as fixed factors and maximum AS score of the two possible primary target patterns flexed elbow or flexed wrist baseline, GMFCS-E\&R level at screening included as covariates.||0.28|-0.1|= 0.34
82366438|NCT00986180|164443605|SUPERIORITY_OR_OTHER|||||||0.7246|||||||Wilcoxon (Mann-Whitney)|||||||0.7246
82366439|NCT00986180|164443606|SUPERIORITY_OR_OTHER|||||||0.4882|||||||Wilcoxon (Mann-Whitney)|||||||0.4882
82366440|NCT00986180|164443607|SUPERIORITY_OR_OTHER|||||||0.7201|||||||Cochran-Mantel-Haenszel|||||||0.7201
82366441|NCT00986180|164443609|SUPERIORITY_OR_OTHER|||||||0.5208|||||||Cochran-Mantel-Haenszel|||||||0.5208
82366442|NCT00986180|164443611|SUPERIORITY_OR_OTHER|||||||0.0401|||||||Cochran-Mantel-Haenszel|||||||0.0401
82366443|NCT00986180|164443613|SUPERIORITY_OR_OTHER|||||||0.4679|||||||Cochran-Mantel-Haenszel|||||||0.4679
82366444|NCT00986180|164443615|SUPERIORITY_OR_OTHER|||||||0.1454|||||||Fisher Exact|||||||0.1454
82366445|NCT00986180|164443616|SUPERIORITY_OR_OTHER|||||||0.1541|||||||Fisher Exact|||||||0.1541
82366446|NCT00986180|164443618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.92|2.06|||Cochran-Mantel-Haenszel|||||2.06|0.92|
82366447|NCT00986180|164443619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||||TWO_SIDED|95.0|1.17|2.57|||Cochran-Mantel-Haenszel|||||2.57|1.17|
82366448|NCT00986180|164443620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.43|||||TWO_SIDED|95.0|1.45|8.11|||Cochran-Mantel-Haenszel|||||8.11|1.45|
82366449|NCT00986180|164443621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.54|1.67|||Cochran-Mantel-Haenszel|||||1.67|0.54|
82366450|NCT00986180|164443622|SUPERIORITY_OR_OTHER|||||||0.5828|||||||Log Rank|||||||0.5828
82366451|NCT00986180|164443623|SUPERIORITY_OR_OTHER|||||||0.9084|||||||Log Rank|||||||0.9084
82366452|NCT03261960|164443624|NON_INFERIORITY|Non-inferiority margin was set at 10%.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82366453|NCT00706381|164443652|SUPERIORITY||Percent change from placebo|7.87|STANDARD_DEVIATION|9.2||0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.0001
82366454|NCT00706381|164443652|SUPERIORITY||Percent change from placebo|9.25|STANDARD_DEVIATION|8.3|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
82366455|NCT00706381|164443652|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|6.2||0.89|TWO_SIDED||||||Percent change from placebo|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.89
82366456|NCT00706381|164443652|SUPERIORITY||Percent change from placebo|-0.3|STANDARD_DEVIATION|7.2||0.41|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.41
82366457|NCT00706381|164443653|SUPERIORITY||Percent change from placebo|40.0|STANDARD_DEVIATION|72.8||0.096|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.096
82366458|NCT00706381|164443653|SUPERIORITY||Percent change from placebo|260.4|STANDARD_DEVIATION|191.7|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
82366459|NCT00706381|164443653|SUPERIORITY||Percent change from placebo|16.4|STANDARD_DEVIATION|56.3||0.83|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||0.83
82366460|NCT00706381|164443653|SUPERIORITY||Percent change from placebo|125.7|STANDARD_DEVIATION|92.2|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||The percent change from placebo was calculated for each participant and then a t-test was used to test the null hypothesis that this difference was equal to 0.||||<0.0001
82393987|NCT00793624|164499156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.04||0.6487||95.0|-0.06|0.096|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.096|-0.060|0.6487
82643739|NCT03205163|165003165|OTHER||GMR|1.17|||<|0.001|TWO_SIDED|95.0|1.09|1.25|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.25|1.09|<0.001
82643740|NCT03205163|165003166|OTHER||GMR|4.13|||<|0.001|TWO_SIDED|95.0|2.94|5.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.79|2.94|<0.001
82643741|NCT03205163|165003167|OTHER||GMR|3.24|||<|0.001|TWO_SIDED|95.0|2.76|3.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||3.79|2.76|<0.001
82643742|NCT03205163|165003168|OTHER||GMR|0.143|||<|0.001|TWO_SIDED|95.0|0.118|0.172|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.172|0.118|<0.001
82643743|NCT03205163|165003169|OTHER||GMR|0.153|||<|0.001|TWO_SIDED|95.0|0.138|0.17|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.170|0.138|<0.001
82643744|NCT03205163|165003170|OTHER||GMR|0.622||||0.003|TWO_SIDED|95.0|0.492|0.786|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.786|0.492|0.003
82643745|NCT03205163|165003171|OTHER||GMR|0.599|||<|0.001|TWO_SIDED|95.0|0.525|0.684|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||0.684|0.525|<0.001
82643746|NCT03205163|165003172|OTHER||GMR|7.0|||<|0.001|TWO_SIDED|95.0|5.78|8.48|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||8.48|5.78|<0.001
82643747|NCT03205163|165003173|OTHER||GMR|6.54|||<|0.001|TWO_SIDED|95.0|5.89|7.27|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||7.27|5.89|<0.001
82643748|NCT03205163|165003174|OTHER||GMR|4.54|||<|0.001|TWO_SIDED|95.0|3.64|5.66|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.66|3.64|<0.001
82643749|NCT03205163|165003175|OTHER||GMR|4.32|||<|0.001|TWO_SIDED|95.0|3.96|4.72|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||4.72|3.96|<0.001
82643750|NCT03205163|165003176|OTHER||GMR|1.36||||0.063|TWO_SIDED|95.0|0.978|1.89|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.89|0.978|0.063
82643751|NCT03205163|165003177|OTHER||GMR|1.18|||<|0.001|TWO_SIDED|95.0|1.1|1.26|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||1.26|1.10|<0.001
82643752|NCT03205163|165003178|OTHER||GMR|4.57|||<|0.001|TWO_SIDED|95.0|4.0|5.23|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||5.23|4.00|<0.001
82643753|NCT03205163|165003179|OTHER||GMR|4.46|||<|0.001|TWO_SIDED|95.0|4.16|4.79|||ANOVA|||Comparison of Advate and BIVV001 was obtained through analyzing log transformed PK parameters using an ANOVA model containing participant and treatment as factors. Geometric mean, 95% confidence interval of geometric mean, and GMR were the exponentiated mean, 95% confidence interval, and difference of means, respectively.||4.79|4.16|<0.001
82643754|NCT04502862|165003180|OTHER||Least square mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.107||0.512|TWO_SIDED|95.0|-0.28|0.14||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|MMRM|||The MMRM model included study intervention, age, body mass index (BMI), region (Eastern Europe, rest of world \[ROW\]), inhaled corticosteroids \[ICS\] dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline asthma control questionnaire (ACQ-5), baseline sleep disturbance score and baseline-by-visit interaction as covariates.||0.14|-0.28|0.512
82393988|NCT00793624|164499156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.04||0.9267||95.0|-0.074|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.081|-0.074|0.9267
82393989|NCT00793624|164499157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.04||0.1603||95.0|-0.022|0.134|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.134|-0.022|0.1603
82393990|NCT00793624|164499157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.04||0.0399||95.0|0.004|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.160|0.004|0.0399
82393991|NCT00793624|164499157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.04||0.6328||95.0|-0.059|0.098|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.098|-0.059|0.6328
82393992|NCT00793624|164499158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.04||0.127||95.0|-0.017|0.139|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.139|-0.017|0.1270
82393993|NCT00793624|164499158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.04||0.1076||95.0|-0.014|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.014|0.1076
82393994|NCT00793624|164499158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.04||0.1492||95.0|-0.021|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.137|-0.021|0.1492
82444399|NCT00249613|164597561|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42|STANDARD_ERROR_OF_MEAN|0.34||0.01|TWO_SIDED|95.0|0.22|0.82|||Regression, Logistic||The direction of the comparison would dictate that odds ratio of less than 1 would indicate Women-Only treatment participants are less likely than the Mixed-Gender group to use drugs or alcohol during the 30 days prior to the 12-Mo follow-up.|Logistic regression does not separate arms because group status (women-only vs mixed gender) is the dependent variable in our multinomial logistic regression. Because we were not able to randomly assign after all, we also included a propensity score, and additional variables (substance use in past 30 days at baseline, age, race/ethnicity, childhood sexual abuse history, previous treatment, criminal justice funding source, and primary drug) to adjust for the non-random sampling.||0.82|0.22|0.01
82528527|NCT02002884|164752872|SUPERIORITY||LS-Mean difference|-0.12|||=|0.297|TWO_SIDED|95.0|-0.36|0.11|||ANCOVA|||LS-Means are from ANCOVA with treatment group, pooled site and pre-treatment status included as fixed factors and maximum AS score of the two possible primary target patterns flexed elbow or flexed wrist baseline, GMFCS-E\&R level at screening included as covariates.||0.11|-0.36|= 0.297
82528528|NCT02966002|164752886|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
82643755|NCT04502862|165003181|OTHER||Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.11||0.967|TWO_SIDED|95.0|-0.21|0.22||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|MMRM|||The MMRM model included study intervention, age, BMI, region (Eastern Europe, ROW), ICS dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline ACQ-5, baseline number of nocturnal awakenings and baseline-by-visit interaction as covariates.||0.22|-0.21|0.967
82393995|NCT00793624|164499159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.04||0.0385||95.0|0.004|0.162|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.162|0.004|0.0385
82393996|NCT00793624|164499159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.04||0.142||95.0|-0.02|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.138|-0.020|0.1420
82393997|NCT00793624|164499159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.04||0.0965||95.0|-0.012|0.147|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.147|-0.012|0.0965
82393998|NCT00793624|164499160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.04||0.1394||95.0|-0.019|0.138|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.138|-0.019|0.1394
82393999|NCT00793624|164499160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.04||0.1532||95.0|-0.022|0.137|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.137|-0.022|0.1532
82394000|NCT00793624|164499160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.041||0.5511||95.0|-0.055|0.104|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.104|-0.055|0.5511
82394001|NCT00793624|164499161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.108|0.264|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.264|0.108|<0.0001
82528529|NCT02966002|164752887|OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.67
82528530|NCT02966002|164752888|OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
82528531|NCT02966002|164752889|OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
82366461|NCT00942331|164443675|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1707|TWO_SIDED|95.0|0.72|1.06|||Log Rank|Stratified log rank||||1.06|0.72|0.1707
82366462|NCT04017754|164443696|EQUIVALENCE|A p-value \<0.05 was considered significant for at difference in frequency of low p-MBL level(\<500 ug/l) between groups.|Prevalence proportion ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.34|2.38|||Chi-squared||The numerator is the risk of low p-MBL in the study sample with RPL patients and the denominator is the risk of low p-MBL in control group 1 of female blood donors.|Comparing the risk of low p-MBL level between RPL patients and MBL reference group. We hypothesized that more RPL patients had a low p-MBL level; thus, the null hypothesis was that no difference existed.||2.38|1.34|<0.001
82366463|NCT03508687|164443720|OTHER|||||||0.517||||||paired t test; baseline vs. week 12 (n = 5)|t-test, 2 sided|||||||0.517
82366464|NCT03508687|164443720|OTHER|||||||0.345|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Ranks Test (n = 5)||||||0.345
82366465|NCT02728752|164443751|SUPERIORITY||Mean Difference (Net)|-8.0|||<|0.0001|TWO_SIDED|95.0|-11.5|-4.6|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16 for Total Activity Score||-4.6|-11.5|<0.0001
82366466|NCT02728752|164443757|SUPERIORITY||Median Difference (Net)|8.6||||0.0001|TWO_SIDED|95.0|4.4|12.8|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||12.8|4.4|0.0001
82366467|NCT02728752|164443758|SUPERIORITY||Median Difference (Net)|-0.4||||0.0002|TWO_SIDED|95.0|-0.5|-0.2|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||-0.2|-0.5|0.0002
82366468|NCT02728752|164443764|SUPERIORITY||Median Difference (Net)|-1.2||||0.001|TWO_SIDED|95.0|-1.9|-0.5|||ANCOVA|With treatment, stratum and baseline as fixed effects, and site as random effect|Difference in LS Means of changes from baseline to week 16 (Octagam - Placebo)|LS Means difference between changes from baseline to week 16||-0.5|-1.9|0.0010
82366469|NCT02999477|164443768|EQUIVALENCE|The null hypothesis is no change in the amount of PD-L1 expression from baseline to after a two-week run in of nabpaclitaxel. The test was using one-sided alpha (type I error) of 0.05. The margin is zero.||||||1|||||||McNemar|||||||1.0
82366470|NCT02999477|164443768|EQUIVALENCE|The null hypothesis is no change in the amount of PD-L1 expression from baseline to after a two-week run in of nabpaclitaxel or pembrolizumab. The test was using one-sided alpha (type I error) of 0.05.||||||1|||||||McNemar|||||||1.0
82366471|NCT01568866|164443793|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.533|||<|0.0001|TWO_SIDED|95.0|0.437|0.651|||Stratified Log Rank|Log rank test stratified by the randomization stratification factors.|The hazard ratio (carfilzomib/bortezomib) was estimated using a Cox proportional hazards model stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|"The PFS interim analysis was to be performed using a group sequential monitoring plan.~The monitoring plan included an O'Brien-Fleming type of efficacy stopping boundary constructed using the Lan-DeMets alpha spending function to ensure a 1-sided Type I error rate ≤ 0.025."||0.651|0.437|< 0.0001
82366472|NCT01568866|164443794|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.791||||0.01|TWO_SIDED|95.0|0.648|0.964||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Stratified Log Rank|Log rank test stratified by the randomization stratification factors.|The hazard ratio (carfilzomib/bortezomib) was estimated using a Cox proportional hazards model stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|The second interim analysis of overall survival was to be conducted after 394 events had been reached. A one-sided significance level was determined using the O'Brien-Fleming-type α spending function based on the actual number of events (α=0.0123).||0.964|0.648|0.0100
82366473|NCT01568866|164443795|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.032|||<|0.0001|TWO_SIDED|95.0|1.519|2.718||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by the randomization stratification factors.|The odds ratio (carfilzomib/bortezomib) was calculated using the Cochran-Mantel-Haenszel method stratified by prior proteasome inhibitor treatment, lines of prior treatment, ISS stage, and choice of route of bortezomib administration.|||2.718|1.519|< 0.0001
82366474|NCT01568866|164443797|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.137|||<|0.0001|TWO_SIDED|95.0|0.089|0.21||The multiplicity in testing secondary endpoints was adjusted per group using the sequential Holm procedure to preserve the family-wise error rate at 0.025.|Cochran-Mantel-Haenszel||The odds ratio (carfilzomib/bortezomib) was estimated using the unconditional Cochran-Mantel-Haenszel method.|||0.210|0.089|<0.0001
82366475|NCT03864042|164443801|OTHER||Geometric LS Mean Ratio|1.17|||||TWO_SIDED|90.0|0.978|1.4|||||Day 1 / Day -7|||1.40|0.978|
82366476|NCT03864042|164443801|OTHER||Geometric LS Mean Ratio|0.258|||||TWO_SIDED|90.0|0.215|0.308|||||Day 14 / Day -7|||0.308|0.215|
82366477|NCT03864042|164443802|OTHER||Geometric LS Mean Ratio|1.12|||||TWO_SIDED|90.0|0.998|1.25|||||Day 1 / Day -7|||1.25|0.998|
82366478|NCT03864042|164443802|OTHER||Geometric LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.12|1.4|||||Day 14 / Day -7|||1.40|1.12|
82366479|NCT03864042|164443803|OTHER||Geometric LS Mean Ratio|1.34|||||TWO_SIDED|90.0|1.12|1.62|||||Day 1 / Day -7|||1.62|1.12|
82366480|NCT03864042|164443803|OTHER||Geometric LS Mean Ratio|0.622|||||TWO_SIDED|90.0|0.517|0.748|||||Day 14 / Day -7|||0.748|0.517|
82366481|NCT03864042|164443804|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.975|1.23|||||Day 1 / Day -7|||1.23|0.975|
82366482|NCT03864042|164443804|OTHER||Geometric LS Mean Ratio|1.3|||||TWO_SIDED|90.0|1.16|1.46|||||Day 14 / Day -7|||1.46|1.16|
82366483|NCT03864042|164443805|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.922|1.2|||||Day 1 / Day -7|||1.20|0.922|
82366484|NCT03864042|164443805|OTHER||Geometric LS Mean Ratio|1.13|||||TWO_SIDED|90.0|0.992|1.29|||||Day 14 / Day -7|||1.29|0.992|
82366485|NCT03864042|164443806|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.99|1.19|||||Day 1 / Day -7|||1.19|0.990|
82366486|NCT03864042|164443806|OTHER||Geometric LS Mean Ratio|1.1|||||TWO_SIDED|90.0|1.0|1.22|||||Day 14 / Day -7|||1.22|1.00|
82366487|NCT03864042|164443807|OTHER||Geometric LS Mean Ratio|0.894|||||TWO_SIDED|90.0|0.741|1.08|||||Day 1 / Day -7|||1.08|0.741|
82643756|NCT04502862|165003182|OTHER||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.865||0.422|TWO_SIDED|95.0|-2.4|1.01||A hierarchical testing procedure was used to control type I error and handle primary and first 2 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05|MMRM|||The MMRM model included study intervention, age, BMI, region (Eastern Europe, ROW), ICS dose level at baseline (ICS dose level medium, ICS dose level high), visit (up to Week 12), study intervention-by-visit interaction, baseline ACQ-5, baseline PROMIS total score and baseline-by-visit interaction as covariates.||1.01|-2.40|0.422
82366488|NCT03864042|164443807|OTHER||Geometric LS Mean Ratio|0.692|||||TWO_SIDED|90.0|0.573|0.835|||||Day 14 / Day -7|||0.835|0.573|
82366489|NCT03864042|164443808|OTHER||Geometric LS Mean Ratio|1.32|||||TWO_SIDED|90.0|0.861|2.04|||||Day 1 / Day -7|||2.04|0.861|
82366490|NCT03864042|164443808|OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.659|1.56|||||Day 14 / Day -7|||1.56|0.659|
82366491|NCT03864042|164443809|OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.762|1.33|||||Day 1 / Day -7|||1.33|0.762|
82366492|NCT03864042|164443809|OTHER||Geometric LS Mean Ratio|0.718|||||TWO_SIDED|90.0|0.543|0.948|||||Day 14 / Day -7|||0.948|0.543|
82366493|NCT03864042|164443810|OTHER||Geometric LS Mean Ratio|4.34|||||TWO_SIDED|90.0|2.94|6.4|||||Day 1 / Day -7|||6.40|2.94|
82366494|NCT03864042|164443810|OTHER||Geometric LS Mean Ratio|2.68|||||TWO_SIDED|90.0|1.82|3.96|||||Day 14 / Day -7|||3.96|1.82|
82366495|NCT03864042|164443811|OTHER||Geometric LS Mean Ratio|0.754|||||TWO_SIDED|90.0|0.595|0.954|||||Day 1 / Day -7|||0.954|0.595|
82366496|NCT03864042|164443811|OTHER||Geometric LS Mean Ratio|0.755|||||TWO_SIDED|90.0|0.596|0.957|||||Day 14 / Day -7|||0.957|0.596|
82366497|NCT03864042|164443812|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.864|1.27|||||Day 1 / Day -7|||1.27|0.864|
82366498|NCT03864042|164443812|OTHER||Geometric LS Mean Ratio|1.42|||||TWO_SIDED|90.0|1.17|1.72|||||Day 14 / Day -7|||1.72|1.17|
82366499|NCT03864042|164443813|OTHER||Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.92|1.25|||||Day 1 / Day -7|||1.25|0.920|
82366500|NCT03864042|164443813|OTHER||Geometric LS Mean Ratio|0.175|||||TWO_SIDED|90.0|0.151|0.204|||||Day 14 / Day -7|||0.204|0.151|
82394002|NCT00793624|164499161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.128|0.284|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.284|0.128|<0.0001
82394003|NCT00793624|164499161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.205|0.361|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.361|0.205|<0.0001
82643757|NCT01563029|165003240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|9.6|22.4|||ANCOVA|Gate-keeper analysis||||22.4|9.6|<0.001
82366501|NCT03864042|164443814|OTHER||Geometric LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.18|1.38|||||Day 1 / Day -7|||1.38|1.18|
82366502|NCT03864042|164443814|OTHER||Geometric LS Mean Ratio|1.05|||||TWO_SIDED|90.0|0.974|1.14|||||Day 14 / Day -7|||1.14|0.974|
82366503|NCT03864042|164443815|OTHER||Geometric LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.09|1.43|||||Day 1 / Day -7|||1.43|1.09|
82366504|NCT03864042|164443815|OTHER||Geometric LS Mean Ratio|0.513|||||TWO_SIDED|90.0|0.449|0.587|||||Day 14 / Day -7|||0.587|0.449|
82366505|NCT03864042|164443816|OTHER||Geometric LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.17|1.39|||||Day 1 / Day -7|||1.39|1.17|
82366506|NCT03864042|164443816|OTHER||Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.979|1.16|||||Day 14 / Day -7|||1.16|0.979|
82366507|NCT03864042|164443817|OTHER||Geometric LS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.947|1.26|||||Day 1 / Day -7|||1.26|0.947|
82366508|NCT03864042|164443817|OTHER||Geometric LS Mean Ratio|1.27|||||TWO_SIDED|90.0|1.1|1.46|||||Day 14 / Day -7|||1.46|1.10|
82366509|NCT03864042|164443818|OTHER||Geometric LS Mean Ratio|1.12|||||TWO_SIDED|90.0|1.02|1.23|||||Day 1 / Day -7|||1.23|1.02|
82366510|NCT03864042|164443818|OTHER||Geometric LS Mean Ratio|1.26|||||TWO_SIDED|90.0|1.14|1.38|||||Day 14 / Day -7|||1.38|1.14|
82366511|NCT03864042|164443819|OTHER||Geometric LS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.721|1.12|||||Day 1 / Day -7|||1.12|0.721|
82366512|NCT03864042|164443819|OTHER||Geometric LS Mean Ratio|0.679|||||TWO_SIDED|90.0|0.544|0.848|||||Day 14 / Day -7|||0.848|0.544|
82366513|NCT03864042|164443820|OTHER||Geometric LS Mean Ratio|1.26|||||TWO_SIDED|90.0|0.8|1.98|||||Day 1 / Day -7|||1.98|0.800|
82366514|NCT03864042|164443820|OTHER||Geometric LS Mean Ratio|0.827|||||TWO_SIDED|90.0|0.526|1.3|||||Day 14 / Day -7|||1.30|0.526|
82366515|NCT03864042|164443821|OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.688|1.39|||||Day 1 / Day -7|||1.39|0.688|
82366516|NCT03864042|164443821|OTHER||Geometric LS Mean Ratio|0.633|||||TWO_SIDED|90.0|0.445|0.9|||||Day 14 / Day -7|||0.900|0.445|
82366517|NCT03864042|164443822|OTHER||Geometric LS Mean Ratio|2.79|||||TWO_SIDED|90.0|2.08|3.74|||||Day 1 / Day -7|||3.74|2.08|
82366518|NCT03864042|164443822|OTHER||Geometric LS Mean Ratio|1.57|||||TWO_SIDED|90.0|1.17|2.11|||||Day 14 / Day -7|||2.11|1.17|
82366519|NCT03864042|164443823|OTHER||Geometric LS Mean Ratio|0.769|||||TWO_SIDED|90.0|0.637|0.928|||||Day 1 / Day -7|||0.928|0.637|
82366520|NCT03864042|164443823|OTHER||Geometric LS Mean Ratio|0.736|||||TWO_SIDED|90.0|0.61|0.889|||||Day 14 / Day -7|||0.889|0.610|
82366521|NCT03864042|164443824|OTHER||Geometric LS Mean Ratio|0.993|||||TWO_SIDED|90.0|0.803|1.23|||||Day 1 / Day -7|||1.23|0.803|
82366522|NCT03864042|164443824|OTHER||Geometric LS Mean Ratio|1.48|||||TWO_SIDED|90.0|1.2|1.83|||||Day 14 / Day -7|||1.83|1.20|
82366523|NCT03864042|164443825|OTHER||Geometric LS Mean Ratio|1.45|||||TWO_SIDED|90.0|0.902|2.32|||||Day 1 / Day -7|||2.32|0.902|
82366524|NCT03864042|164443825|OTHER||Geometric LS Mean Ratio|1.18|||||TWO_SIDED|90.0|0.72|1.93|||||Day 14 / Day -7|||1.93|0.720|
82366525|NCT03864042|164443826|OTHER||Geometric LS Mean Ratio|1.47|||||TWO_SIDED|90.0|0.915|2.36|||||Day 1 / Day -7|||2.36|0.915|
82366526|NCT03864042|164443826|OTHER||Geometric LS Mean Ratio|0.851|||||TWO_SIDED|90.0|0.519|1.39|||||Day 14 / Day -7|||1.39|0.519|
82366527|NCT03864042|164443827|OTHER||Geometric LS Mean Ratio|1.2|||||TWO_SIDED|90.0|0.775|1.87|||||Day 1 / Day -7|||1.87|0.775|
82366528|NCT03864042|164443827|OTHER||Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.593|1.49|||||Day 14 / Day -7|||1.49|0.593|
82448911|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.31||||0.3524|TWO_SIDED|95.0|-4.12|1.49||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 14||1.49|-4.12|0.3524
82643758|NCT01563029|165003240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|||<|0.001|TWO_SIDED|95.0|5.1|19.8|||ANCOVA||Inference for FF 100 μg versus (vs) placebo and FF 50 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for the average of the higher two doses of FF (FF 100 ug and 50 ug ) versus placebo comparison.|||19.8|5.1|<0.001
82366529|NCT03864042|164443828|OTHER||Geometric LS Mean Ratio|1.18|||||TWO_SIDED|90.0|0.83|1.67|||||Day 1 / Day -7|||1.67|0.830|
82366530|NCT03864042|164443828|OTHER||Geometric LS Mean Ratio|0.979|||||TWO_SIDED|90.0|0.68|1.41|||||Day 14 / Day -7|||1.41|0.680|
82643759|NCT01563029|165003240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.5|||<|0.001|TWO_SIDED|95.0|12.1|26.9|||ANCOVA||Inference for FF 100 µg versus (vs) placebo and FF 50 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for the average of the higher two doses of FF (FF 100 ug and 50 ug ) versus placebo comparsion.|||26.9|12.1|<0.001
82366531|NCT03864042|164443829|OTHER||Geometric LS Mean Ratio|0.798|||||TWO_SIDED|90.0|0.585|1.09|||||Day 21 / Day 14|||1.09|0.585|
82366532|NCT03864042|164443830|OTHER||Geometric LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.935|1.11|||||Day 21 / Day 14|||1.11|0.935|
82366533|NCT03864042|164443831|OTHER||Geometric LS Mean Ratio|0.762|||||TWO_SIDED|90.0|0.613|0.945|||||Day 21 / Day 14|||0.945|0.613|
82366534|NCT03864042|164443832|OTHER||Geometric LS Mean Ratio|1.06|||||TWO_SIDED|90.0|0.929|1.22|||||Day 21 / Day 14|||1.22|0.929|
82366535|NCT01698775|164443950|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.33||||0.035|TWO_SIDED|95.0|-0.63|-0.02|||ANCOVA|||||-0.02|-0.63|0.035
82366536|NCT01698775|164443951|SUPERIORITY_OR_OTHER||Difference in percentages|-3.8|||||TWO_SIDED|95.0|-16.3|8.8|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||8.8|-16.3|
82528532|NCT01454830|164752962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.44||0.2|TWO_SIDED||||||t-test, 2 sided||unit of measurement, hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.20
82394004|NCT00793624|164499162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.131|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.288|0.131|<0.0001
82643760|NCT01563029|165003240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6|||<|0.001|TWO_SIDED|95.0|11.3|26.0|||ANCOVA||Inference for FF 25 ug versus placebo was dependent upon statistical significance (SS) having first been achieved for both the FF 100 ug versus placebo comparison and the FF 50 ug versus placebocomparison.|||26.0|11.3|<0.001
82643761|NCT01563029|165003240|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|14.0|||<|0.001|TWO_SIDED|95.0|6.7|21.4|||ANCOVA|||||21.4|6.7|<0.001
82643762|NCT01563029|165003241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|||<|0.001|TWO_SIDED|95.0|0.051|0.201|||ANCOVA|||||0.201|0.051|<0.001
82366537|NCT01698775|164443952|SUPERIORITY_OR_OTHER||Difference in percentages|1.9|||||TWO_SIDED|95.0|-2.6|7.2|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||7.2|-2.6|
82394005|NCT00793624|164499162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.153|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.310|0.153|<0.0001
82643763|NCT01563029|165003241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022||||0.551|TWO_SIDED|95.0|-0.05|0.094|||ANCOVA|||||0.094|-0.050|0.551
82366538|NCT01698775|164443953|SUPERIORITY_OR_OTHER||Difference in percentage|-0.9|||||TWO_SIDED|95.0|-12.2|10.3|||||Based on Miettinen \& Nurminen method stratified by renal status stratum.|||10.3|-12.2|
82366539|NCT01698775|164443954|SUPERIORITY_OR_OTHER||Difference in percentage|2.8|||||TWO_SIDED|95.0|-3.6|9.8||||||||9.8|-3.6|
82366540|NCT01698775|164443955|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.9||||0.54|TWO_SIDED|95.0|-16.5|8.7|||ANCOVA|||||8.7|-16.5|0.540
82366541|NCT01698775|164443958|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.4||||0.72|TWO_SIDED|95.0|-2.7|1.9|||cLDA|||||1.9|-2.7|0.720
82366542|NCT00359788|164443960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|||<|0.0001|TWO_SIDED|95.0|0.055|0.157|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.157|0.055|<0.0001
82366543|NCT00359788|164443961|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.05 liters|Mean Difference (Final Values)|0.02||||0.0042||95.0|-0.032|0.072|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.072|-0.032|0.0042
82366544|NCT00359788|164443962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.098|0.193|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.193|0.098|<0.0001
82366545|NCT00359788|164443963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||<|0.0001||95.0|-0.114|-0.046|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.046|-0.114|<0.0001
82366546|NCT00359788|164443964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.054||||0.0447||95.0|0.001|0.106|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.106|0.001|0.0447
82366547|NCT00359788|164443965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.131|||<|0.0001||95.0|-0.171|-0.092|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.092|-0.171|<0.0001
82366548|NCT00359788|164443966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.152|||<|0.0001||95.0|-0.19|-0.113|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.113|-0.19|<0.0001
82366549|NCT00359788|164443967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|||<|0.0001||95.0|-0.175|-0.091|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.091|-0.175|<0.0001
82394006|NCT00793624|164499162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.187|0.344|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.344|0.187|<0.0001
82394007|NCT00793624|164499163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.108|0.267|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.267|0.108|<0.0001
82394008|NCT00793624|164499163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.159|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.159|<0.0001
82394009|NCT00793624|164499163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.177|0.336|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.336|0.177|<0.0001
82394010|NCT00793624|164499164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.092|0.253|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.253|0.092|<0.0001
82394011|NCT00793624|164499164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.127|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.288|0.127|<0.0001
82394012|NCT00793624|164499164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.137|0.298|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.298|0.137|<0.0001
82394013|NCT00793624|164499165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003||95.0|0.07|0.231|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.231|0.070|0.0003
82394014|NCT00793624|164499165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|0.096|0.259|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.259|0.096|<0.0001
82394015|NCT00793624|164499165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001||95.0|0.141|0.304|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.304|0.141|<0.0001
82528533|NCT01454830|164752963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.48||0.9|TWO_SIDED||||||t-test, 2 sided||unit of measurement: hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.90
82528534|NCT01454830|164752964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.53||0.89|TWO_SIDED||||||t-test, 2 sided||units of measurement: hours/night; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Pilot RCT designed to establish effect size and feasibility outcomes; no a priori power calculation; statistical significance with hypotheses testing was not objective of the pilot trial||||0.89
82643764|NCT01563029|165003241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.379|TWO_SIDED|95.0|-0.041|0.108|||ANCOVA|||||0.108|-0.041|0.379
82643765|NCT01563029|165003241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.089|TWO_SIDED|95.0|-0.01|0.137|||ANCOVA|||||0.137|-0.010|0.089
82394016|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.067|STANDARD_ERROR_OF_MEAN|4.639||0.0012|TWO_SIDED|95.0|5.962|24.173|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||24.173|5.962|0.0012
82394017|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.999|STANDARD_ERROR_OF_MEAN|4.611||0.0012||95.0|5.949|24.049|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||24.049|5.949|0.0012
82394018|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.642|STANDARD_ERROR_OF_MEAN|4.601||0.0001|TWO_SIDED|95.0|8.61|26.673|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean morning PEFR||26.673|8.610|0.0001
82394019|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.721|STANDARD_ERROR_OF_MEAN|4.606||0.0001|TWO_SIDED|95.0|8.68|26.762|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||26.762|8.680|0.0001
82394020|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.471|STANDARD_ERROR_OF_MEAN|4.579|<|0.0001|TWO_SIDED|95.0|9.484|27.458|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||27.458|9.484|<0.0001
82394021|NCT00793624|164499166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.873|STANDARD_ERROR_OF_MEAN|4.548|<|0.0001|TWO_SIDED|95.0|8.947|26.799|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for Weekly mean evening PEFR||26.799|8.947|<0.0001
82394022|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.403|STANDARD_ERROR_OF_MEAN|0.133||0.0026|TWO_SIDED|95.0|-0.665|-0.141|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.141|-0.665|0.0026
82394023|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.327|STANDARD_ERROR_OF_MEAN|0.133||0.0141|TWO_SIDED|95.0|-0.587|-0.066|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.066|-0.587|0.0141
82394024|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.132||0.2677|TWO_SIDED|95.0|-0.406|0.113|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||0.113|-0.406|0.2677
82366550|NCT00359788|164443968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175||||0.0015||95.0|0.067|0.283|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.283|0.067|0.0015
82366551|NCT00359788|164443969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.835||95.0|-0.092|0.114|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.114|-0.092|0.835
82366552|NCT00359788|164443970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||<|0.0001||95.0|0.178|0.379|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.379|0.178|<0.0001
82366553|NCT00359788|164443971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.157|||<|0.0001||95.0|-0.236|-0.078|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.078|-0.236|<0.0001
82394025|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.602|STANDARD_ERROR_OF_MEAN|0.171||0.0005|TWO_SIDED|95.0|-0.939|-0.266|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.266|-0.939|0.0005
82394026|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.914|-0.247|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.247|-0.914|0.0007
82366554|NCT00359788|164443972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.4386||95.0|-0.059|0.137|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.137|-0.059|0.4386
82366555|NCT00359788|164443973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.282||||0.0001||95.0|-0.374|-0.191|||ANCOVA|||||-0.191|-0.374|0.0001
82394027|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.169||0.0391|TWO_SIDED|95.0|-0.683|-0.018|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.018|-0.683|0.0391
82394028|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.991|STANDARD_ERROR_OF_MEAN|0.269||0.0002|TWO_SIDED|95.0|-1.518|-0.464|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.464|-1.518|0.0002
82394029|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.902|STANDARD_ERROR_OF_MEAN|0.267||0.0008|TWO_SIDED|95.0|-1.426|-0.378|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.378|-1.426|0.0008
82394030|NCT00793624|164499167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.473|STANDARD_ERROR_OF_MEAN|0.266||0.0758|TWO_SIDED|95.0|-0.994|0.049|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||0.049|-0.994|0.0758
82394031|NCT00793624|164499168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0003||95.0|-0.6|-0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.2|-0.6|0.0003
82394032|NCT00793624|164499168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0073||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0073
82366556|NCT00359788|164443974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.361|||<|0.0001||95.0|-0.449|-0.274|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.274|-0.449|<0.0001
82366557|NCT00359788|164443975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.286|||<|0.0001||95.0|-0.375|-0.196|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.196|-0.375|<0.0001
82366558|NCT00359788|164443976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.175|||<|0.0001||95.0|-0.207|-0.142|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.142|-0.207|<0.0001
82366559|NCT00359788|164443977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.168|||<|0.0001||95.0|-0.205|-0.131|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.131|-0.205|<0.0001
82366560|NCT00359788|164443978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182|||<|0.0001||95.0|-0.221|-0.143|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.143|-0.221|<0.0001
82366561|NCT00359788|164443979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.136|||<|0.0001||95.0|-0.175|-0.097|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.097|-0.175|<0.0001
82366562|NCT00359788|164443980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||<|0.0001||95.0|-0.125|-0.044|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.044|-0.125|<0.0001
82394033|NCT00793624|164499168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0017||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0017
82394034|NCT00793624|164499169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0021||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0021
82394035|NCT00793624|164499169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.6|-0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.2|-0.6|<0.0001
82394036|NCT00793624|164499169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0121||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0121
82394037|NCT00793624|164499170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.032||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0320
82448912|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|1.89||||0.1739|TWO_SIDED|95.0|-0.86|4.63||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep problems at Day 14||4.63|-0.86|0.1739
82366563|NCT00359788|164443981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035||||0.0997||95.0|-0.076|0.007|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.007|-0.076|0.0997
82366564|NCT00359788|164443982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.101||95.0|-0.007|0.08|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.08|-0.007|0.101
82366565|NCT00359788|164443983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.098|0.193|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.193|0.098|<0.0001
82366566|NCT00359788|164443984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.055||||0.0411||95.0|-0.108|-0.002|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.002|-0.108|0.0411
82366567|NCT00359788|164443985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.0354||95.0|-0.116|-0.004|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.004|-0.116|0.0354
82366568|NCT00359788|164443986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.062||||0.041||95.0|-0.121|-0.003|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.003|-0.121|0.041
82366569|NCT00359788|164443987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018||||0.5387||95.0|-0.076|0.04|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.04|-0.076|0.5387
82366570|NCT00359788|164443988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061||||0.0372||95.0|0.004|0.118|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.118|0.004|0.0372
82366571|NCT00359788|164443989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.0001||95.0|0.066|0.177|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.177|0.066|<0.0001
82366572|NCT00359788|164443990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||<|0.0001||95.0|0.108|0.216|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.216|0.108|<0.0001
82394038|NCT00793624|164499170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0447||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.0|-0.4|0.0447
82394039|NCT00793624|164499170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1332||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.0|-0.4|0.1332
82643766|NCT01563029|165003242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4||||0.05|TWO_SIDED|95.0|0.0|16.9|||ANCOVA|||||16.9|0.0|0.050
82366573|NCT00359788|164443991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|||<|0.0001||95.0|0.055|0.157|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.157|0.055|<0.0001
82366574|NCT00359788|164443992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083||||0.0023||95.0|-0.136|-0.03|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.03|-0.136|0.0023
82366575|NCT00359788|164443993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087||||0.0019||95.0|-0.142|-0.033|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.033|-0.142|0.0019
82366576|NCT00359788|164443994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083||||0.0044||95.0|-0.139|-0.026|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.026|-0.139|0.0044
82366577|NCT00359788|164443995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.1182||95.0|-0.103|0.012|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.012|-0.103|0.1182
82366578|NCT00359788|164443996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.4814||95.0|-0.037|0.078||ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.|ANCOVA|||||0.078|-0.037|0.4814
82366579|NCT00359788|164443997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074||||0.008||95.0|0.019|0.129|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.129|0.019|0.008
82366580|NCT00359788|164443998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|||<|0.0001||95.0|0.082|0.19|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.19|0.082|<0.0001
82366581|NCT00359788|164443999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.0001||95.0|-0.449|-0.29|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.29|-0.449|<0.0001
82366582|NCT00359788|164444000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.356|||<|0.0001||95.0|-0.44|-0.272|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.272|-0.44|<0.0001
82366583|NCT00359788|164444001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|||<|0.0001||95.0|-0.451|-0.264|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.264|-0.451|<0.0001
82366584|NCT00359788|164444002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.285|||<|0.0001||95.0|-0.376|-0.194|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.194|-0.376|<0.0001
82366585|NCT00359788|164444003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.0003||95.0|-0.261|-0.079|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.079|-0.261|0.0003
82366586|NCT00359788|164444004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.2992||95.0|-0.143|0.044|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.044|-0.143|0.2992
82366587|NCT00359788|164444005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081||||0.0984||95.0|-0.015|0.177|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.177|-0.015|0.0984
82394040|NCT00793624|164499171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4105||95.0|-0.3|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.1|-0.3|0.4105
82643767|NCT01563029|165003242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8||||0.023|TWO_SIDED|95.0|1.3|18.2|||ANCOVA|||||18.2|1.3|0.023
82366588|NCT00359788|164444006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|||<|0.0001||95.0|0.178|0.379|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.379|0.178|<0.0001
82366589|NCT00359788|164444007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.189||||0.0004||95.0|-0.293|-0.086|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.086|-0.293|0.0004
82366590|NCT00359788|164444008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.204||||0.0003||95.0|-0.314|-0.095|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.095|-0.314|0.0003
82366591|NCT00359788|164444009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1832||||0.012||95.0|-0.293|-0.072|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.072|-0.293|0.012
82366592|NCT00359788|164444010|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.044||95.0|-0.219|0.003|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.003|-0.219|0.044
82366593|NCT00359788|164444011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.3634||95.0|-0.058|0.158|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.158|-0.058|0.3634
82366594|NCT00359788|164444012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163||||0.0032||95.0|0.055|0.27|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.27|0.055|0.0032
82366595|NCT00359788|164444013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|||<|0.0001||95.0|0.173|0.378|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.378|0.173|<0.0001
82366596|NCT00359788|164444014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175||||0.0015||95.0|0.067|0.283|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.283|0.067|0.0015
82366597|NCT00359788|164444015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193||||0.0002||95.0|-0.296|-0.091|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.091|-0.296|0.0002
82366598|NCT00359788|164444016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215|||<|0.0001||95.0|-0.323|-0.108|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.108|-0.323|<0.0001
82366599|NCT00359788|164444017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.198||||0.0006||95.0|-0.309|-0.086|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||-0.086|-0.309|0.0006
82366600|NCT00359788|164444018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.0896||95.0|-0.21|0.015|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.015|-0.21|0.0896
82366601|NCT00359788|164444019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.8937||95.0|-0.103|0.118|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.118|-0.103|0.8937
82366602|NCT00359788|164444020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.0269||95.0|0.014|0.236|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.236|0.014|0.0269
82366603|NCT00359788|164444021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223||||0.0001||95.0|0.111|0.335|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.335|0.111|0.0001
82366604|NCT00359788|164444022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042||||0.7196||95.0|-0.275|0.19|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.19|-0.275|0.7196
82366605|NCT00359788|164444023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069||||0.6189||95.0|-0.343|0.205|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.205|-0.343|0.6189
82394041|NCT00793624|164499171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0584||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||0.0|-0.4|0.0584
82394042|NCT00793624|164499171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1006||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.0|-0.4|0.1006
82643768|NCT01563029|165003242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.2||||0.004|TWO_SIDED|95.0|3.8|20.5|||ANCOVA|||||20.5|3.8|0.004
82366606|NCT00359788|164444024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073||||0.6197||95.0|-0.36|0.215|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.215|-0.36|0.6197
82366607|NCT00359788|164444025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.112||||0.4582||95.0|-0.408|0.184|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.184|-0.408|0.4582
82366608|NCT00359788|164444026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.6538||95.0|-0.376|0.236|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.236|-0.376|0.6538
82366609|NCT00359788|164444027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145||||0.4145||95.0|-0.495|0.205|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.205|-0.495|0.4145
82366610|NCT00359788|164444028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.085||||0.6048||95.0|-0.408|0.238|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.238|-0.408|0.6048
82366611|NCT00359788|164444029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.3137||95.0|-0.503|0.162|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.162|-0.503|0.3137
82366612|NCT00359788|164444030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061||||0.7195||95.0|-0.395|0.273|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.273|-0.395|0.7195
82394043|NCT00793624|164499172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.571|STANDARD_ERROR_OF_MEAN|0.335||0.0882||95.0|-0.085|1.227|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.227|-0.085|0.0882
82643769|NCT01563029|165003242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.143|TWO_SIDED|95.0|-2.1|14.6|||ANCOVA|||||14.6|-2.1|0.143
82366613|NCT00359788|164444031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043||||0.7947||95.0|-0.367|0.282|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.282|-0.367|0.7947
82366614|NCT00359788|164444032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.093||||0.6049||95.0|-0.446|0.26|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.26|-0.446|0.6049
82366615|NCT00359788|164444033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047||||0.8109||95.0|-0.437|0.342|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.342|-0.437|0.8109
82366616|NCT00359788|164444034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.527||||0.1471||95.0|-0.186|1.24|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||1.24|-0.186|0.1471
82643770|NCT01563029|165003243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.005|TWO_SIDED|95.0|3.4|19.0|||ANCOVA|||||19.0|3.4|0.005
82643771|NCT01563029|165003243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4|||<|0.001|TWO_SIDED|95.0|5.7|21.1|||ANCOVA|||||21.1|5.7|<0.001
82366617|NCT00359788|164444035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265||||0.3192||95.0|-0.258|0.788|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.788|-0.258|0.3192
82366618|NCT00359788|164444036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.351||||0.182||95.0|-0.165|0.867|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.867|-0.165|0.182
82366619|NCT00359788|164444037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363||||0.1777||95.0|-0.166|0.893|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.893|-0.166|0.1777
82366620|NCT00359788|164444038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363||||0.1805||95.0|-0.169|0.895|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.895|-0.169|0.1805
82528535|NCT01454830|164752965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|4.09||0.78|TWO_SIDED||||||t-test, 2 sided||units of measurement: % TST; positive estimation parameter favors TI group; negative estimation parameter favors UC group|Exploratory outcome of PAP use defined within the sleep period, TST (total sleep time).||||0.78
82366621|NCT00359788|164444039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372||||0.1777||95.0|-0.17|0.913|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.913|-0.17|0.1777
82366622|NCT00359788|164444040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.5725||95.0|-0.395|0.714|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.714|-0.395|0.5725
82366623|NCT00359788|164444041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121||||0.6765||95.0|-0.449|0.69|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.69|-0.449|0.6765
82366624|NCT00359788|164444042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247||||0.3943||95.0|-0.323|0.818|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.818|-0.323|0.3943
82366625|NCT00359788|164444043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291||||0.3091||95.0|-0.271|0.852|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.852|-0.271|0.3091
82366626|NCT00359788|164444044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317||||0.2911||95.0|-0.273|0.907|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.907|-0.273|0.2911
82366627|NCT00359788|164444045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108||||0.7458||95.0|-0.549|0.766|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.766|-0.549|0.7458
82366628|NCT00359788|164444046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.698||||0.0004||95.0|4.836|16.56|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||16.56|4.836|0.0004
82366629|NCT00359788|164444047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.257||||0.0023||95.0|4.055|18.458|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||18.458|4.055|0.0023
82366630|NCT00359788|164444048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.772||||0.0015||95.0|4.942|20.602|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.602|4.942|0.0015
82366631|NCT00359788|164444049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.568||||0.0013||95.0|5.342|21.795|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.795|5.342|0.0013
82366632|NCT00359788|164444050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.052||||0.005||95.0|3.676|20.428|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.428|3.676|0.005
82366633|NCT00359788|164444051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.107||||0.0159||95.0|2.095|20.119|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.119|2.095|0.0159
82366634|NCT00359788|164444052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.057||||0.0219||95.0|1.613|20.501|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||20.501|1.613|0.0219
82366635|NCT00359788|164444053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.655||||0.0048||95.0|4.207|23.104|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||23.104|4.207|0.0048
82366636|NCT00359788|164444054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.231||||0.0058||95.0|4.153|24.31|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||24.31|4.153|0.0058
82528536|NCT02294630|164752978|OTHER|||||||0.399|||||||t-test, 2 sided|||||||0.399
82643772|NCT01563029|165003243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|||<|0.033|TWO_SIDED|95.0|0.7|16.1|||ANCOVA|||||16.1|0.7|<0.033
82643773|NCT01563029|165003243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0||||0.042|TWO_SIDED|95.0|0.3|15.7|||ANCOVA|||||15.7|0.3|0.042
82643774|NCT01563029|165003244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.037|TWO_SIDED|95.0|0.7|21.7|||ANCOVA|||||21.7|0.7|0.037
82643775|NCT01563029|165003244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.1||||0.014|TWO_SIDED|95.0|2.6|23.6|||ANCOVA|||||23.6|2.6|0.014
82528537|NCT03097861|164752998|OTHER|Treatment p-value is from ANCOVA using SBM count as dependent variable, treatment as fixed effect and baseline count as random effect|||||=|0.002|||||||ANCOVA|||||||=0.0020
82366637|NCT00359788|164444055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.597||||0.0248||95.0|1.483|21.71|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.71|1.483|0.0248
82366638|NCT00359788|164444056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.001||||0.0325||95.0|0.924|21.079|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||21.079|0.924|0.0325
82366639|NCT00359788|164444057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.074||||0.0153||95.0|2.726|25.422|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||25.422|2.726|0.0153
82366640|NCT00359788|164444058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.755||||0.6105||95.0|-8.532|5.022|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||5.022|-8.532|0.6105
82366641|NCT00359788|164444059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.842||||0.8249||95.0|-6.642|8.326|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||8.326|-6.642|0.8249
82366642|NCT00359788|164444060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.71||||0.4896||95.0|-5.001|10.421|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||10.421|-5.001|0.4896
82366643|NCT00359788|164444061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.898||||0.0935||95.0|-1.172|14.968|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.968|-1.172|0.0935
82366644|NCT00359788|164444062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.419||||0.4339||95.0|-5.17|12.007|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||12.007|-5.17|0.4339
82366645|NCT00359788|164444063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.971||||0.845||95.0|-10.74|8.799|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||8.799|-10.74|0.845
82366646|NCT00359788|164444064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194||||0.9696||95.0|-9.811|10.199|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||10.199|-9.811|0.9696
82366647|NCT00359788|164444065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.129||||0.3252||95.0|-5.117|15.376|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||15.376|-5.117|0.3252
82366648|NCT00359788|164444066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.062||||0.452||95.0|-6.558|14.683|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.683|-6.558|0.452
82366649|NCT00359788|164444067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.14||||0.4388||95.0|-6.372|14.651|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||14.651|-6.372|0.4388
82366650|NCT00359788|164444068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.185||||0.8288||95.0|-9.595|11.964|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||11.964|-9.595|0.8288
82366651|NCT00359788|164444069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.204||||0.4929||95.0|-7.857|16.264|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||16.264|-7.857|0.4929
82366652|NCT00359788|164444070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204||||0.0754||95.0|-0.021|0.429|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.429|-0.021|0.0754
82366653|NCT00359788|164444071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251||||0.0765||95.0|-0.027|0.528|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.528|-0.027|0.0765
82366654|NCT00359788|164444072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151||||0.163||95.0|-0.061|0.363|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.363|-0.061|0.163
82366655|NCT00359788|164444073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.285||||0.0085||95.0|0.073|0.496|||ANCOVA|ANCOVA model with terms for treatment and center as fixed effects and baseline as a covariate.||||0.496|0.073|0.0085
82643776|NCT01563029|165003244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.266|TWO_SIDED|95.0|-4.5|16.3|||ANCOVA|||||16.3|-4.5|0.266
82643777|NCT01563029|165003244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2||||0.242|TWO_SIDED|95.0|-4.2|16.6|||ANCOVA|||||16.6|-4.2|0.242
82366656|NCT01232491|164444076|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.49||||0.132||95.0|-0.15|1.13||If the p-value for the two-sided test was less than 5%, and D (the estimated treatment difference \[dietary intervention versus no dietary intervention\]) was less than 0 then superiority for dietary intervention was considered confirmed.|Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening, sex and region as factors and age and weight at baseline as covariates. Superiority was considered confirmed if the upper bound of the two-sided 95% CI for the estimated treatment difference (dietary intervention versus no dietary intervention), which was calculated using the FAS, was below 0 kg.||1.13|-0.15|0.132
82366657|NCT01232491|164444077|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.17||||0.137||95.0|-0.05|0.39|||Regression, Linear|||Normal linear regression model with treatment, use of insulin secretagogue at screening, sex and region as factors, and age and BMI at baseline as covariates.||0.39|-0.05|0.137
82366658|NCT01232491|164444078|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.13||||0.053||95.0|0.0|0.26|||Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening and region as factors and HbA1c at baseline as covariate.||0.26|-0.00|0.053
82366659|NCT01232491|164444079|SUPERIORITY_OR_OTHER||Estimated treatment difference, LS Mean|0.07||||0.674||95.0|-0.25|0.39|||Regression, Linear|||Normal linear regression model with treatment, strata, use of insulin secretagogue at screening and region as factors and FPG at baseline as covariate.||0.39|-0.25|0.674
82366660|NCT06204887|164444096|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82528538|NCT03097861|164752998|OTHER||||||<|0.0001|||||||ANCOVA|||Treatment p-value is from ANCOVA using SBM count as dependent variable, treatment as fixed effect and baseline count as random effect||||<0.0001
82643778|NCT01563029|165003245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|||<|0.001|TWO_SIDED|95.0|10.0|31.3|||ANCOVA|||||31.3|10.0|<0.001
82366661|NCT00856973|164444138|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|7.33|STANDARD_ERROR_OF_MEAN|3.91|>|0.05|TWO_SIDED|97.5|-5.17|19.83|||ANCOVA|Bonferroni adjustment was use for multiple comparisons|Difference calculated as Eszopiclone minus placebo|This endpoint was analyzed using ANCOVA with treatment group (pooled low dose eszopiclone, pooled high dose eszopiclone, and placebo) as a fixed effect and the baseline value as a covariate. Contrast statements were used to perform pairwise comparisons of the eszopiclone treatment groups to placebo. A Bonferroni adjustment was used for the 2 pairwise comparisons. Least squares means and the standard errors were presented for each treatment grou||19.83|-5.17|>0.05
82528539|NCT01616771|164753016|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||To verify the difference in C\&L grades using each blade, the ordinal scales of each blade were compared using the Wilcoxon signed rank test. P values and confidence intervals have been corrected for the 3 comparisons.|Wilcoxon (Mann-Whitney)|Hodges-Lehmann method was used to calculate 98.3% CIs of paired differences of 3 comparisons.||An improvement of C\&L grade ordinal scale by 2 was considered a clinically significant change. The mean difference of C\&L grade ordinal scale between DL and GVLw was 1.3, and its standard deviation was 2.0 in our pilot study. The required sample size for the Wilcoxon signed rank test was 21 with an α error of 0.05 and 80% power.||||<0.05
82575349|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|3.35|STANDARD_ERROR_OF_MEAN|3.958||0.4004|TWO_SIDED|90.0|-3.25|9.94|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||9.94|-3.25|0.4004
82366662|NCT00856973|164444138|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|2.21|STANDARD_ERROR_OF_MEAN|3.91|>|0.05|TWO_SIDED|97.5|-10.23|14.65|||ANCOVA|||This endpoint was analyzed using ANCOVA with treatment group (pooled low dose eszopiclone, pooled high dose eszopiclone, and placebo) as a fixed effect and the baseline value as a covariate. Contrast statements were used to perform pairwise comparisons of the eszopiclone treatment groups to placebo. A Bonferroni adjustment was used for the 2 pairwise comparisons. Least squares means and the standard errors were presented for each treatment group.||14.65|-10.23|>0.05
82366663|NCT04551911|164444175|OTHER|||||||0.7856|||||||Regression, Logistic|Logistic regression with treatment as the main effect, and baseline aggregate symptom score, baseline 25D level, and body weight as covariates||||||0.7856
82366664|NCT01383421|164444214|SUPERIORITY||||||<|0.001||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||< 0.001
82366665|NCT01383421|164444216|SUPERIORITY|||||||0.058||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||0.058
82366666|NCT01383421|164444218|SUPERIORITY|||||||0.003||||||Statistical significance was set at P = 0.05.|Chi-squared|||||||0.003
82366667|NCT01383421|164444220|SUPERIORITY||LS Mean Difference|-0.203|STANDARD_ERROR_OF_MEAN|0.092||0.027|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.027
82366668|NCT01383421|164444220|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.094||0.006|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.006
82366669|NCT01383421|164444220|SUPERIORITY||LS Mean Difference|-0.233|STANDARD_ERROR_OF_MEAN|0.098||0.018|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.018
82366670|NCT01383421|164444221|SUPERIORITY||LS Mean Difference|-1.686|STANDARD_ERROR_OF_MEAN|0.893||0.059|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.059
82366671|NCT01383421|164444221|SUPERIORITY||LS Mean Difference|-2.697|STANDARD_ERROR_OF_MEAN|0.903||0.003|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.003
82366672|NCT01383421|164444221|SUPERIORITY||LS Mean Difference|-2.447|STANDARD_ERROR_OF_MEAN|0.945||0.01|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.010
82366673|NCT01383421|164444222|SUPERIORITY||LS Mean Difference|-1.791|STANDARD_ERROR_OF_MEAN|0.788||0.023|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.023
82366674|NCT01383421|164444222|SUPERIORITY||LS Mean Difference|-2.549|STANDARD_ERROR_OF_MEAN|0.818||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.002
82366675|NCT01383421|164444222|SUPERIORITY||LS Mean Difference|-2.734|STANDARD_ERROR_OF_MEAN|0.872||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.002
82366676|NCT01383421|164444226|SUPERIORITY||LS Mean Difference|1.333|STANDARD_ERROR_OF_MEAN|2.725||0.625|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.625
82366677|NCT01383421|164444226|SUPERIORITY||LS Mean Difference|-0.824|STANDARD_ERROR_OF_MEAN|2.441||0.736|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.736
82366678|NCT01383421|164444226|SUPERIORITY||LS Mean Difference|1.207|STANDARD_ERROR_OF_MEAN|3.126||0.7|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.700
82366679|NCT01383421|164444226|SUPERIORITY||LS Mean Difference|-3.552|STANDARD_ERROR_OF_MEAN|1.561||0.023|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||0.023
82643779|NCT01563029|165003245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.9||||0.001|TWO_SIDED|95.0|7.2|28.6|||ANCOVA|||||28.6|7.2|0.001
82643780|NCT01563029|165003245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.5||||0.033|TWO_SIDED|95.0|0.9|22.1|||ANCOVA|||||22.1|0.9|0.033
82643781|NCT01563029|165003245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.002|TWO_SIDED|95.0|6.0|27.3|||ANCOVA|||||27.3|6.0|0.002
82643782|NCT01563029|165003246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.619|TWO_SIDED|95.0|-6.1|10.2|||ANCOVA|||||10.2|-6.1|0.619
82394044|NCT00793624|164499172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.664|STANDARD_ERROR_OF_MEAN|0.336||0.0484||95.0|0.005|1.324|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.324|0.005|0.0484
82366680|NCT01383421|164444227|SUPERIORITY||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|2.736||0.89|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.890
82366681|NCT01383421|164444227|SUPERIORITY||LS Mean Difference|-0.527|STANDARD_ERROR_OF_MEAN|2.523||0.835|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.835
82394045|NCT00793624|164499172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.758|STANDARD_ERROR_OF_MEAN|0.338||0.0252||95.0|0.094|1.421|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.421|0.094|0.0252
82366682|NCT01383421|164444227|SUPERIORITY||LS Mean Difference|-0.471|STANDARD_ERROR_OF_MEAN|3.205||0.883|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.883
82366683|NCT01383421|164444227|SUPERIORITY||LS Mean Difference|-3.792|STANDARD_ERROR_OF_MEAN|1.611||0.019|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||0.019
82366684|NCT01383421|164444228|SUPERIORITY||LS Mean Difference|-0.409|STANDARD_ERROR_OF_MEAN|2.548||0.873|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI absenteeism||||0.873
82366685|NCT01383421|164444228|SUPERIORITY||LS Mean Difference|-0.817|STANDARD_ERROR_OF_MEAN|2.598||0.753|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI presenteeism||||0.753
82366686|NCT01383421|164444228|SUPERIORITY||LS Mean Difference|-2.334|STANDARD_ERROR_OF_MEAN|3.159||0.461|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI overall work impairment||||0.461
82394046|NCT00793624|164499173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.381|STANDARD_ERROR_OF_MEAN|0.34||0.2625||95.0|-0.285|1.047|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.047|-0.285|0.2625
82394047|NCT00793624|164499173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.543|STANDARD_ERROR_OF_MEAN|0.341||0.1109||95.0|-0.125|1.211|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.211|-0.125|0.1109
82366687|NCT01383421|164444228|SUPERIORITY||LS Mean Difference|-5.537|STANDARD_ERROR_OF_MEAN|1.624|<|0.001|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||WPAI activity impairment||||<0.001
82394048|NCT00793624|164499173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.394|STANDARD_ERROR_OF_MEAN|0.343||0.2507||95.0|-0.278|1.066|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.066|-0.278|0.2507
82394049|NCT00793624|164499174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.342||0.4895||95.0|-0.439|0.902|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.902|-0.439|0.4895
82394050|NCT00793624|164499174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.434|STANDARD_ERROR_OF_MEAN|0.344||0.2073||95.0|-0.24|1.107|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.107|-0.240|0.2073
82366688|NCT01383421|164444229|SUPERIORITY||LS Mean Difference|2.973|STANDARD_ERROR_OF_MEAN|1.245||0.017|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.017
82366689|NCT01383421|164444229|SUPERIORITY||LS Mean Difference|2.843|STANDARD_ERROR_OF_MEAN|2.042||0.164|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.164
82366690|NCT01383421|164444229|SUPERIORITY||LS Mean Difference|5.473|STANDARD_ERROR_OF_MEAN|1.866||0.003|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||0.003
82643783|NCT01563029|165003246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8||||0.161||95.0|-2.3|13.9|||ANCOVA|||||13.9|-2.3|0.161
82366691|NCT01383421|164444229|SUPERIORITY||LS Mean Difference|1.705|STANDARD_ERROR_OF_MEAN|1.769||0.335|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.335
82394051|NCT00793624|164499174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.345||0.9462||95.0|-0.653|0.7|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.700|-0.653|0.9462
82394052|NCT00793624|164499175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.345||0.6309||95.0|-0.511|0.842|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.842|-0.511|0.6309
82394053|NCT00793624|164499175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|STANDARD_ERROR_OF_MEAN|0.348||0.9227||95.0|-0.717|0.649|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.649|-0.717|0.9227
82366692|NCT01383421|164444230|SUPERIORITY||LS Mean Difference|2.728|STANDARD_ERROR_OF_MEAN|1.183||0.021|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.021
82366693|NCT01383421|164444230|SUPERIORITY||LS Mean Difference|3.124|STANDARD_ERROR_OF_MEAN|1.93||0.106|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.106
82366694|NCT01383421|164444230|SUPERIORITY||LS Mean Difference|5.572|STANDARD_ERROR_OF_MEAN|1.756||0.002|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||0.002
82366695|NCT01383421|164444230|SUPERIORITY||LS Mean Difference|1.885|STANDARD_ERROR_OF_MEAN|1.704||0.269|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.269
82444400|NCT00424268|164597576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|80.0|STANDARD_ERROR_OF_MEAN|15.0|<|0.0001|TWO_SIDED|95.0|51.0|110.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||110|51|<0.0001
82643784|NCT01563029|165003246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.34|TWO_SIDED|95.0|-4.1|12.0|||ANCOVA|||||12.0|-4.1|0.340
82643785|NCT01563029|165003246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.459|TWO_SIDED|95.0|-5.0|11.1|||ANCOVA|||||11.1|-5.0|0.459
82643786|NCT01563029|165003247|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82643787|NCT01563029|165003247|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Fisher Exact|||||||0.006
82643788|NCT01563029|165003247|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||||||0.003
82643789|NCT01563029|165003247|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82643790|NCT02861534|165003252|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.269|TWO_SIDED|95.0|0.81|1.06|||Cox proportional hazard model|||||1.06|0.81|0.269
82643791|NCT02861534|165003253|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.048|TWO_SIDED|95.0|0.81|1.0|||Cox proportional hazard model|||||1.00|0.81|0.048
82643792|NCT02861534|165003254|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.019|TWO_SIDED|95.0|0.82|0.98|||Cox proportional hazard model|||||0.98|0.82|0.019
82643793|NCT02861534|165003255|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.023|TWO_SIDED|95.0|0.84|0.99|||Andersen-Gill model|||||0.99|0.84|0.023
82366696|NCT01383421|164444231|SUPERIORITY||LS Mean Difference|2.324|STANDARD_ERROR_OF_MEAN|1.177||0.049|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM convenience||||0.049
82366697|NCT01383421|164444231|SUPERIORITY||LS Mean Difference|4.929|STANDARD_ERROR_OF_MEAN|1.929||0.011|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM effectiveness||||0.011
82366698|NCT01383421|164444231|SUPERIORITY||LS Mean Difference|5.997|STANDARD_ERROR_OF_MEAN|1.775|<|0.001|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM global satisfaction||||<0.001
82366699|NCT01383421|164444231|SUPERIORITY||LS Mean Difference|1.823|STANDARD_ERROR_OF_MEAN|1.657||0.272|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||TSQM side effects||||0.272
82444401|NCT00424268|164597577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.0|STANDARD_ERROR_OF_MEAN|15.0|<|0.0001|TWO_SIDED|95.0|51.0|110.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||110|51|<0.0001
82643794|NCT02861534|165003256|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.021|TWO_SIDED|95.0|0.83|0.98|||Cox proportional hazard model|||||0.98|0.83|0.021
82643795|NCT02861534|165003257|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.377|TWO_SIDED|95.0|0.84|1.07|||Cox proportional hazard model|||||1.07|0.84|0.377
82643796|NCT02861534|165003260|OTHER||Difference in Percentage|1.2||||0.121|TWO_SIDED|95.0|-0.3|2.8|||Miettinen & Nurminen method|||||2.8|-0.3|0.121
82643797|NCT02861534|165003261|OTHER||Difference in Percentage|0.6||||0.303|TWO_SIDED|95.0|-0.5|1.6|||Miettinen & Nurminen method|||||1.6|-0.5|0.303
82643798|NCT02780115|165003262|SUPERIORITY||LS Mean Diff|1.96||||0.1663|TWO_SIDED|95.0|-0.83|4.74|||ANCOVA|||||4.74|-0.83|0.1663
82643799|NCT02780115|165003262|SUPERIORITY||LS Mean Diff|4.77||||0.0009|TWO_SIDED|95.0|1.98|7.56|||ANCOVA|||||7.56|1.98|0.0009
82643800|NCT02780115|165003262|SUPERIORITY||LS Mean Diff|4.54||||0.0014|TWO_SIDED|95.0|1.79|7.29|||ANCOVA|||||7.29|1.79|0.0014
82643801|NCT02780115|165003262|SUPERIORITY||LS Mean Diff|4.81||||0.0008|TWO_SIDED|95.0|2.03|7.58|||ANCOVA|||||7.58|2.03|0.0008
82643802|NCT01294709|165003275|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-6.9|||||TWO_SIDED|90.0|-17.66|3.86|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||3.86|-17.66|
82643803|NCT01294709|165003276|SUPERIORITY_OR_OTHER||Difference in Least squares meand|-0.056|||||TWO_SIDED|90.0|-0.19|0.076|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||0.076|-0.19|
82643804|NCT01294709|165003277|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.14|||||TWO_SIDED|90.0|-22.03|7.74|||mixed effects model|mixed effects model with MK-0974 pooled over doses||Telcagepant minus Placebo Treatment Difference||7.74|-22.03|
82643805|NCT00742859|165003281|OTHER||Hazard Ratio (HR)|0.14||||0.035|TWO_SIDED|95.0|0.017|1.14|||Log Rank|||Betrixaban 40mg compared to Warfarin||1.14|0.017|0.035
82643806|NCT00742859|165003281|OTHER||Hazard Ratio (HR)|0.711||||0.546|TWO_SIDED|95.0|0.225|2.24|||Log Rank|||Betrixaban 60mg compared to Warfarin||2.24|0.225|0.546
82643807|NCT00742859|165003281|OTHER||Hazard Ratio (HR)|0.755||||0.712|TWO_SIDED|95.0|0.239|2.39|||Log Rank|||Betrixaban 80mg compared to Warfarin||2.39|0.239|0.712
82643808|NCT00742859|165003282|OTHER||Hazard Ratio (HR)|0.508||||0.011|TWO_SIDED|95.0|0.301|0.856|||Log Rank|||Betrixaban 40mg compared to Warfarin||0.856|0.301|0.011
82444402|NCT00424268|164597578|SUPERIORITY_OR_OTHER||Rate ratio|0.768|STANDARD_ERROR_OF_MEAN|0.157||0.1957|TWO_SIDED|95.0|0.515|1.146||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||1.146|0.515|0.1957
82444403|NCT00424268|164597579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0032|TWO_SIDED|95.0|0.1|0.7||This secondary endpoint was analyzed in an exploratory manner.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||0.7|0.1|0.0032
82643809|NCT00742859|165003282|OTHER||Hazard Ratio (HR)|0.767||||0.308|TWO_SIDED|95.0|0.481|1.22|||Log Rank|||Betrixaban 60mg compared to Warfarin||1.22|0.481|0.308
82643810|NCT00742859|165003282|OTHER||Hazard Ratio (HR)|0.551||||0.022|TWO_SIDED|95.0|0.332|0.914|||Log Rank|||Betrixaban 80mg compared to Warfarin||0.914|0.332|0.022
82366700|NCT01383421|164444232|SUPERIORITY||LS Mean Difference|0.817|STANDARD_ERROR_OF_MEAN|0.572||0.154|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 24||||0.154
82366701|NCT01383421|164444232|SUPERIORITY||LS Mean Difference|0.772|STANDARD_ERROR_OF_MEAN|0.599||0.198|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 52||||0.198
82366702|NCT01383421|164444232|SUPERIORITY||LS Mean Difference|0.884|STANDARD_ERROR_OF_MEAN|0.585||0.131|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|LS mean difference and P value are from ANCOVA model adjusting for corresponding Baseline values.||Week 78||||0.131
82366703|NCT01383421|164444236|SUPERIORITY||LS Mean Between Group Change|0.1|STANDARD_ERROR_OF_MEAN|0.0429||0.019|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|P value is from an ANCOVA model adjusting for Baseline.||Necessity||||0.019
82366704|NCT01383421|164444236|SUPERIORITY||LS Mean Between Group Change|0.0|STANDARD_ERROR_OF_MEAN|0.0526||0.56|TWO_SIDED|||||Statistical significance was set at P = 0.05.|ANCOVA|P value is from an ANCOVA model adjusting for Baseline.||Concern||||0.560
82366705|NCT00605865|164444243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the participants of responders."||||<0.001
82366706|NCT00605865|164444244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was concomitant drug. The null hypothesis is there is no difference between with and without concomitant drug in the participants of responders."||||0.039
82366707|NCT00605865|164444245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was renal dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction in the participants of responders."||||0.011
82643811|NCT00956709|165003283|SUPERIORITY_OR_OTHER|||||||0.56||||||Two patients in each group had incomplete block before sugery.|Wilcoxon (Mann-Whitney)|||||||0.56
82643812|NCT00956709|165003285|SUPERIORITY_OR_OTHER|||||||0.3354|||||||Wilcoxon (Mann-Whitney)|||||||0.3354
82366708|NCT00605865|164444246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was past medical history of other illness. The null hypothesis is there is no difference between with and without past medical history of other illness in the participants of responders."||||0.010
82366709|NCT00605865|164444247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was average daily dose. The null hypothesis is there is no difference of five types of average daily dose in the participants of responders."||||<0.001
82366710|NCT00605865|164444248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was suicidal ideation (including suicide attempt). The null hypothesis is there is no difference between with and without suicidal ideation(including suicide attempt) in the participants of responders."||||0.014
82366711|NCT00605865|164444249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The risk factor tested was 15 years and higher of age or not. The null hypothesis is there is no difference between 15 years and higher of age or not in the participants of responders."||||0.021
82366712|NCT00605865|164444250|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was target disease severity. The null hypothesis is there is no difference between three grade of target disease severity in the participants of responders."||||<0.001
82366713|NCT00605865|164444251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was history of treatment prior to Sertralin. The null hypothesis is there is no difference between with and without history of treatment prior to Sertralin in the participants of responders."||||0.003
82366714|NCT00605865|164444252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was outpatient or inpatient. The null hypothesis is there is no difference between outpatient or inpatient in the participants of responders."||||0.012
82366715|NCT00605865|164444253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was complications. The null hypothesis is there is no difference between with or without complications in the participants of responders."||||0.019
82444404|NCT00424268|164597580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|0.9||0.0051|TWO_SIDED|95.0|-4.5|-0.8||This secondary endpoint was analyzed in an exploratory manner.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||-0.8|-4.5|0.0051
82448913|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|1.98||||0.2463|TWO_SIDED|95.0|-1.41|5.36||Between treatment p-values and confidence intervals|ANCOVA|Between treatment p-values and confidence intervals||Comparison for Sleep time problems at Day 14||5.36|-1.41|0.2463
82643813|NCT00956709|165003286|SUPERIORITY_OR_OTHER|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||||||0.0445
82643814|NCT03706209|165003300|SUPERIORITY||Odds Ratio (OR)|4.12||||0.161|TWO_SIDED|95.0|0.47|35.97|||Cochran-Mantel-Haenszel|||||35.97|0.47|0.161
82643815|NCT03706209|165003300|SUPERIORITY||Odds Ratio (OR)|5.52||||0.111|TWO_SIDED|95.0|0.55|55.43|||Cochran-Mantel-Haenszel|||||55.43|0.55|0.111
82643816|NCT03706209|165003301|SUPERIORITY||Odds Ratio (OR)|1.73||||0.222|TWO_SIDED|95.0|0.71|4.25|||Cochran-Mantel-Haenszel|||||4.25|0.71|0.222
82394054|NCT00793624|164499175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.349||0.503||95.0|-0.451|0.919|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.919|-0.451|0.5030
82643817|NCT03706209|165003301|SUPERIORITY||Odds Ratio (OR)|1.91||||0.182|TWO_SIDED|95.0|0.75|4.91|||Cochran-Mantel-Haenszel|||||4.91|0.75|0.182
82643818|NCT03706209|165003302|SUPERIORITY||Odds Ratio (OR)|2.91||||0.294|TWO_SIDED|95.0|0.33|25.39|||Cochran-Mantel-Haenszel|||||25.39|0.33|0.294
82394055|NCT00793624|164499176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.112|STANDARD_ERROR_OF_MEAN|0.347||0.7459||95.0|-0.793|0.568|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.568|-0.793|0.7459
82528540|NCT01616771|164753017|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||To verify the difference in C\&L grades using each blade, the ordinal scales of each blade were compared using the Wilcoxon signed rank test. P values and confidence intervals have been corrected for the 3 comparisons.|Wilcoxon (Mann-Whitney)|Hodges-Lehmann method was used to calculate 98.3% CIs of paired differences of 3 comparisons.||An improvement of C\&L grade ordinal scale by 2 was considered a clinically significant change. The mean difference of C\&L grade ordinal scale between DL and GVLw was 1.3, and its standard deviation was 2.0 in our pilot study. The required sample size for the Wilcoxon signed rank test was 21 with an α error of 0.05 and 80% power.||||<0.05
82528541|NCT02247804|164753046|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.39||0.295|TWO_SIDED|95.0|-1.17|0.36|||MMRM|||Change from Baseline Week 12, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.36|-1.17|0.2950
82528542|NCT02247804|164753046|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.39||0.3904|TWO_SIDED|95.0|-1.09|0.43|||MMRM|||Change from Baseline Week 12, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.43|-1.09|0.3904
82528543|NCT02247804|164753046|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0464|TWO_SIDED|95.0|-1.4|-0.01|||MMRM|||Change from Baseline Week 12, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||-0.01|-1.40|0.0464
82528544|NCT02247804|164753046|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.5383|TWO_SIDED|95.0|-0.9|0.47|||MMRM|||Change from Baseline Week 12, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Week 12).||0.47|-0.90|0.5383
82528545|NCT02247804|164753047|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.34||0.0033|TWO_SIDED|95.0|-1.68|-0.34|||MMRM|||Week 2, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.68|0.0033
82528546|NCT02247804|164753047|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0187|TWO_SIDED|95.0|-1.47|-0.13|||MMRM|||Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.13|-1.47|0.0187
82528547|NCT02247804|164753048|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.31||0.0057||95.0|-1.45|-0.25|||MMRM|||Week 2, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.25|-1.45|0.0057
82575350|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|1.81|STANDARD_ERROR_OF_MEAN|4.214||0.6685|TWO_SIDED|90.0|-5.2|8.82|||Mixed Models Analysis|||Month 9: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||8.82|-5.20|0.6685
82394056|NCT00793624|164499176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.351||0.8534||95.0|-0.753|0.623|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.623|-0.753|0.8534
82575351|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|4.74|STANDARD_ERROR_OF_MEAN|4.522||0.2968|TWO_SIDED|90.0|-2.77|12.25|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.25|-2.77|0.2968
82366716|NCT00605865|164444254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was 15 years and higher of age or not. The null hypothesis is there is no difference between 15 years and higher of age or not in the participants of responders."||||0.010
82366717|NCT00605865|164444255|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was age. The null hypothesis is there is no difference between four groups of age in the participants of responders."||||0.015
82366718|NCT00605865|164444256|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||not adjusted, p=0.050|Chi-squared|||"The factor tested was suicidal ideation (including suicide attempt). The null hypothesis is there is no difference between with or without suicidal ideation (including suicide attempt) in the participants of responders."||||<0.001
82366719|NCT01030341|164444296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hypoglycemic excursions (\<50 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
82366720|NCT01030341|164444296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hypoglycemic excursions (\<70 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
82366721|NCT01030341|164444296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9||||||0.005||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of euglycemic excursions (70-180 mg/dL) during the screening phase and treatment phase respectively.||||0.005
82366722|NCT01030341|164444296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9||||||0.04||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hyperglycemic excursions (\>180 mg/dL) during the screening phase and treatment phase respectively.||||0.04
82366723|NCT01030341|164444296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Type I error: 0.05; power: 0.9|||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Regression, Logistic|Generalized estimating equations (GEE) with independent working correlation to account for correlated data comparing screening and treatment phases||Null hypothesis: Difference of 0% in the frequencies of hyperglycemic excursions (\>300 mg/dL) during the screening phase and treatment phase respectively.||||<0.0001
82366724|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in total GCSI score from screening to 12 weeks of treatment.||||<0.0001
82366725|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in total GCSI score from screening to 24 weeks of treatment.||||<0.0001
82366726|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in GCSI composite score from screening to 12 weeks of treatment.||||<0.0001
82366727|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in GCSI composite score from screening to 24 weeks of treatment.||||<0.0001
82366728|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in PAGI-QOL score from screening to 12 weeks of treatment.||||<0.0001
82643819|NCT03706209|165003302|SUPERIORITY||Odds Ratio (OR)|4.06||||0.291|TWO_SIDED|95.0|0.31|53.14|||Cochran-Mantel-Haenszel|||||53.14|0.31|0.291
82366729|NCT01030341|164444297|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean change = 0|||||<|0.0001|||||||paired t-test|||Null hypothesis: No difference in PAGI-QOL score from screening to 24 weeks of treatment.||||<0.0001
82366730|NCT02856880|164444315|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|40.18|||<|0.0001|TWO_SIDED|95.0|32.37|47.99||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque Glycolysis for the first named treatment.|||47.99|32.37|<0.0001
82366731|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|26.41|||<|0.0001|TWO_SIDED|95.0|18.94|33.88||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||33.88|18.94|<0.0001
82366732|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|-2.91||||0.4823|TWO_SIDED|95.0|-11.18|5.37||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of glycolysis for the first named treatment.|||5.37|-11.18|0.4823
82394057|NCT00793624|164499176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.377|STANDARD_ERROR_OF_MEAN|0.352||0.5099||95.0|-1.068|0.314|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.314|-1.068|0.5099
82643820|NCT03706209|165003303|SUPERIORITY||Odds Ratio (OR)|1.31||||0.617|TWO_SIDED|95.0|0.45|3.77|||Cochran-Mantel-Haenszel|||||3.77|0.45|0.617
82394058|NCT00793624|164499177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095|STANDARD_ERROR_OF_MEAN|0.348||0.785||95.0|-0.587|0.777|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.777|-0.587|0.7850
82643821|NCT03706209|165003303|SUPERIORITY||Odds Ratio (OR)|1.73||||0.319|TWO_SIDED|95.0|0.6|5.0|||Cochran-Mantel-Haenszel|||||5|0.6|0.319
82366733|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|10.86||||0.0072|TWO_SIDED|95.0|3.13|18.59||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||18.59|3.13|0.0072
82366734|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|13.77||||0.0009|TWO_SIDED|95.0|6.01|21.53||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||21.53|6.01|0.0009
82366735|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|8.44||||0.0286|TWO_SIDED|95.0|0.93|15.95||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||15.95|0.93|0.0286
82366736|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|5.32||||0.1573|TWO_SIDED|95.0|-2.15|12.79||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||12.79|-2.15|0.1573
82366737|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|-29.32|||<|0.0001|TWO_SIDED|95.0|-37.2|-21.43||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||-21.43|-37.20|<0.0001
82366738|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|31.74|||<|0.0001|TWO_SIDED|95.0|24.18|39.3||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||39.30|24.18|<0.0001
82366739|NCT02856880|164444316|SUPERIORITY_OR_OTHER||LS mean difference|2.42||||0.5174|TWO_SIDED|95.0|-5.08|9.92||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a positive difference indicates a greater inhibition of plaque glycolysis for the first named treatment.|||9.92|-5.08|0.5174
82366740|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-233.22|||<|0.0001|TWO_SIDED|95.0|-332.88|-133.55||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-133.55|-332.88|<0.0001
82366741|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|35.53||||0.5018|TWO_SIDED|95.0|-69.9|140.96||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||140.96|-69.90|0.5018
82366742|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-24.73||||0.6325|TWO_SIDED|95.0|-128.07|78.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||78.61|-128.07|0.6325
82394059|NCT00793624|164499177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.383|STANDARD_ERROR_OF_MEAN|0.352||0.2755||95.0|-0.306|1.073|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.073|-0.306|0.2755
82643822|NCT03706209|165003304|SUPERIORITY||Odds Ratio (OR)|1.5||||0.47|TWO_SIDED|95.0|0.5|4.52|||Cochran-Mantel-Haenszel|||||4.52|0.5|0.47
82643823|NCT03706209|165003304|SUPERIORITY||Odds Ratio (OR)|2.44||||0.136|TWO_SIDED|95.0|0.76|7.82|||Cochran-Mantel-Haenszel|||||7.82|0.76|0.136
82643824|NCT03706209|165003305|SUPERIORITY||least square means|0.2|STANDARD_ERROR_OF_MEAN|1.4||0.894|TWO_SIDED|95.0|-2.6|3.0|||ANCOVA|||||3|-2.6|0.894
82643825|NCT03706209|165003305|SUPERIORITY||least square means|-1.1|STANDARD_ERROR_OF_MEAN|1.4||0.456|TWO_SIDED|95.0|-3.8|1.7|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||1.7|-3.8|0.456
82643826|NCT03706209|165003307|SUPERIORITY|||||||0.572|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 75 criterion was not computed since data were too sparse.||||||0.572
82366743|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-60.26||||0.2427|TWO_SIDED|95.0|-162.72|42.21||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||42.21|-162.72|0.2427
82366744|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|1.05||||0.9834|TWO_SIDED|95.0|-100.5|102.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||102.61|-100.50|0.9834
82366745|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-61.31||||0.2226|TWO_SIDED|95.0|-161.14|38.52||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||38.52|-161.14|0.2226
82366746|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|268.74|||<|0.0001|TWO_SIDED|95.0|165.98|371.51||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is second named treatment(non-SLS negative control) minus first named treatment (SLS negative control) such that a negative difference indicates a greater inhibition of plaque|||371.51|165.98|<0.0001
82366747|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-293.47|||<|0.0001|TWO_SIDED|95.0|-396.03|-190.91||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-190.91|-396.03|<0.0001
82366748|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-294.53|||<|0.0001|TWO_SIDED|95.0|-395.43|-193.62||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||-193.62|-395.43|<0.0001
82366749|NCT02856880|164444317|SUPERIORITY_OR_OTHER||LS mean difference|-25.78||||0.6086|TWO_SIDED|95.0|-126.53|74.96||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a greater inhibition of plaque regrowth for the first named treatment.|||74.96|-126.53|0.6086
82366750|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|-273.92||||0.6664|TWO_SIDED|95.0|-1550.45|1002.61||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1002.61|-1550.45|0.6664
82366751|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|674.06||||0.3249|TWO_SIDED|95.0|-692.21|2040.33||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2040.33|-692.21|0.3249
82366752|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|677.09||||0.3544|TWO_SIDED|95.0|-784.16|2138.35||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2138.35|-784.16|0.3544
82575352|NCT00945672|164860480|SUPERIORITY_OR_OTHER_LEGACY||L S Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|4.494||0.772|TWO_SIDED|90.0|-8.77|6.16|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||6.16|-8.77|0.7720
82366753|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|3.04||||0.9967|TWO_SIDED|95.0|-1469.45|1475.52||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1475.52|-1469.45|0.9967
82394060|NCT00793624|164499177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.353||0.7618||95.0|-0.584|0.798|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.798|-0.584|0.7618
82394061|NCT00793624|164499178|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162|STANDARD_ERROR_OF_MEAN|0.19||0.3424||95.0|0.843|1.603|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.603|0.843|0.3424
82643827|NCT03706209|165003307|SUPERIORITY|||||||0.4494|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 75 criterion was not computed since data were too sparse.||||||0.4494
82643828|NCT03706209|165003308|SUPERIORITY|||||||0.7922|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 50 criterion was not computed since data were too sparse.||||||0.7922
82643829|NCT03706209|165003308|SUPERIORITY|||||||0.1425|||||||Log Rank|Kaplan-Meier estimate of the median time (day) to reach the PASI 50 criterion was not computed since data were too sparse.||||||0.1425
82643830|NCT03706209|165003309|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.992|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.992
82643831|NCT03706209|165003309|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.143|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.143
82643832|NCT03706209|165003312|SUPERIORITY|||||||0.178|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.178
82643833|NCT03706209|165003312|SUPERIORITY||Odds Ratio (OR)|0.63||||0.718|TWO_SIDED|95.0|0.05|7.48|||Cochran-Mantel-Haenszel|||||7.48|0.05|0.718
82643834|NCT03706209|165003313|SUPERIORITY||Odds Ratio (OR)|2.4||||0.474|TWO_SIDED|95.0|0.21|28.05|||Cochran-Mantel-Haenszel|||||28.05|0.21|0.474
82643835|NCT03706209|165003313|SUPERIORITY||Odds Ratio (OR)|1.25||||0.867|TWO_SIDED|95.0|0.08|19.05|||Cochran-Mantel-Haenszel|||||19.05|0.08|0.867
82643836|NCT03706209|165003314|SUPERIORITY||Odds Ratio (OR)|2.2||||0.375|TWO_SIDED|95.0|0.38|12.84|||Cochran-Mantel-Haenszel|||||12.84|0.38|0.375
82643837|NCT03706209|165003314|SUPERIORITY||Odds Ratio (OR)|4.24||||0.116|TWO_SIDED|95.0|0.66|27.08|||Cochran-Mantel-Haenszel|||||27.08|0.66|0.116
82643838|NCT03706209|165003315|SUPERIORITY||Odds Ratio (OR)|0.41||||0.287|TWO_SIDED|95.0|0.08|2.27|||Cochran-Mantel-Haenszel|||||2.27|0.08|0.287
82643839|NCT03706209|165003315|SUPERIORITY||Odds Ratio (OR)|1.85||||0.332|TWO_SIDED|95.0|0.53|6.4|||Cochran-Mantel-Haenszel|||||6.4|0.53|0.332
82643840|NCT03706209|165003316|SUPERIORITY||Odds Ratio (OR)|0.81||||0.719|TWO_SIDED|95.0|0.25|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.25|0.719
82643841|NCT03706209|165003316|SUPERIORITY||Odds Ratio (OR)|1.72||||0.357|TWO_SIDED|95.0|0.55|5.32|||Cochran-Mantel-Haenszel|||||5.32|0.55|0.357
82643842|NCT03706209|165003317|SUPERIORITY||Odds Ratio (OR)|1.75||||0.355|TWO_SIDED|95.0|0.53|5.72|||Cochran-Mantel-Haenszel|||||5.72|0.53|0.355
82394062|NCT00793624|164499178|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.186|STANDARD_ERROR_OF_MEAN|0.195||0.3023||95.0|0.859|1.636|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.636|0.859|0.3023
82394063|NCT00793624|164499178|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854|STANDARD_ERROR_OF_MEAN|0.15||0.3589||95.0|0.605|1.205|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.205|0.605|0.3589
82394064|NCT00793624|164499179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.818|STANDARD_ERROR_OF_MEAN|0.841||0.191||95.0|0.734|4.503|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||4.503|0.734|0.1910
82394065|NCT00793624|164499179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.743|STANDARD_ERROR_OF_MEAN|0.817||0.2274||95.0|0.695|4.369|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||4.369|0.695|0.2274
82394066|NCT00793624|164499179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.346|STANDARD_ERROR_OF_MEAN|0.664||0.5538||95.0|0.512|3.538|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||3.538|0.512|0.5538
82394067|NCT00793624|164499180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.101|STANDARD_ERROR_OF_MEAN|0.195||0.5577||95.0|0.778|1.557|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.557|0.778|0.5577
82394068|NCT00793624|164499180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017|STANDARD_ERROR_OF_MEAN|0.184||0.9423||95.0|0.714|1.448|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.448|0.714|0.9423
82394069|NCT00793624|164499180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.735|STANDARD_ERROR_OF_MEAN|0.143||0.1097||95.0|0.502|1.076|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.076|0.502|0.1097
82394070|NCT00793624|164499181|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2521|STANDARD_ERROR_OF_MEAN|0.2064||0.1729||95.0|0.906|1.7304|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.7304|0.9060|0.1729
82394071|NCT00793624|164499181|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.222|STANDARD_ERROR_OF_MEAN|0.2039||0.2297||95.0|0.8808|1.6954|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.6954|0.8808|0.2297
82643843|NCT03706209|165003317|SUPERIORITY||Odds Ratio (OR)|2.22||||0.198|TWO_SIDED|95.0|0.67|7.37|||Cochran-Mantel-Haenszel|||||7.37|0.67|0.198
82643844|NCT03706209|165003318|SUPERIORITY||least square means|0.3|STANDARD_ERROR_OF_MEAN|1.0||0.757|TWO_SIDED|95.0|-1.7|2.3|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||2.3|-1.7|0.757
82394072|NCT00793624|164499181|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8968|STANDARD_ERROR_OF_MEAN|0.1575||0.5354||95.0|0.6353|1.2659|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.2659|0.6353|0.5354
82394073|NCT00793624|164499182|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.8821|STANDARD_ERROR_OF_MEAN|1.0358||0.2508||95.0|0.6391|5.543|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||5.5430|0.6391|0.2508
82394074|NCT00793624|164499182|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.3877|STANDARD_ERROR_OF_MEAN|1.3119||0.1135||95.0|0.8122|7.0194|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||7.0194|0.8122|0.1135
82394075|NCT00793624|164499182|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0289|STANDARD_ERROR_OF_MEAN|0.6013||0.9611||95.0|0.3268|3.2395|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||3.2395|0.3268|0.9611
82643845|NCT03706209|165003318|SUPERIORITY||least square means|-1.1|STANDARD_ERROR_OF_MEAN|1.0||0.267|TWO_SIDED|95.0|-3.1|0.9|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||0.9|-3.1|0.267
82643846|NCT03706209|165003319|SUPERIORITY||least square means|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.412|TWO_SIDED|95.0|-1.4|3.4|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.4|-1.4|0.412
82643847|NCT03706209|165003319|SUPERIORITY||least square means|-1.0|STANDARD_ERROR_OF_MEAN|1.2||0.401|TWO_SIDED|95.0|-3.5|1.4|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||1.4|-3.5|0.401
82643848|NCT03706209|165003320|SUPERIORITY||least square means|0.4|STANDARD_ERROR_OF_MEAN|1.7||0.801|TWO_SIDED|95.0|-3.0|3.9|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.9|-3|0.801
82366754|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|766.64||||0.2976|TWO_SIDED|95.0|-703.26|2236.54||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2236.54|-703.26|0.2976
82575353|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.789||0.8205|TWO_SIDED|90.0|-12.68|16.69|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||16.69|-12.68|0.8205
82643849|NCT03706209|165003320|SUPERIORITY||least square means|0.1|STANDARD_ERROR_OF_MEAN|1.7||0.957|TWO_SIDED|95.0|-3.4|3.3|||ANCOVA|||Estimates and treatment comparison of least square means using an ANCOVA model, with treatment arm and (pooled) analysis center as factors and baseline outcome as covariate.||3.3|-3.4|0.957
82643850|NCT03706209|165003324|SUPERIORITY||Odds Ratio (OR)|1.45||||0.45|TWO_SIDED|95.0|0.55|3.8|||Cochran-Mantel-Haenszel|||||3.8|0.55|0.45
82643851|NCT03706209|165003324|SUPERIORITY||Odds Ratio (OR)|1.97||||0.186|TWO_SIDED|95.0|0.74|5.26|||Cochran-Mantel-Haenszel|||||5.26|0.74|0.186
82643852|NCT03706209|165003325|SUPERIORITY||Odds Ratio (OR)|0.94||||0.884|TWO_SIDED|95.0|0.41|2.18|||Cochran-Mantel-Haenszel|||||2.18|0.41|0.884
82643853|NCT03706209|165003325|SUPERIORITY||Odds Ratio (OR)|1.49||||0.384|TWO_SIDED|95.0|0.61|3.64|||Cochran-Mantel-Haenszel|||||3.64|0.61|0.384
82643854|NCT03706209|165003326|SUPERIORITY||Odds Ratio (OR)|1.64||||0.311|TWO_SIDED|95.0|0.63|4.26|||Cochran-Mantel-Haenszel|||||4.26|0.63|0.311
82643855|NCT03706209|165003326|SUPERIORITY||Odds Ratio (OR)|1.21||||0.699|TWO_SIDED|95.0|0.47|3.17|||Cochran-Mantel-Haenszel|||||3.17|0.47|0.699
82643856|NCT03706209|165003327|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.671|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.671
82643857|NCT03706209|165003327|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.183|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.183
82643858|NCT03706209|165003328|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.542|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.542
82643859|NCT03706209|165003328|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.328|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.328
82643860|NCT03706209|165003329|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.921|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.921
82643861|NCT03706209|165003329|SUPERIORITY||Hodges-Lehmann using location shift|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.488|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.488
82366755|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|-763.6||||0.2702|TWO_SIDED|95.0|-2144.45|617.25||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||617.25|-2144.45|0.2702
82643862|NCT03706209|165003340|SUPERIORITY|||||||0.1193|||||||Fisher Exact|||||||0.1193
82643863|NCT03706209|165003340|SUPERIORITY|||||||0.0054|||||||Fisher Exact|||||||0.0054
82643864|NCT03706209|165003341|SUPERIORITY|||||||0.2439|||||||Fisher Exact|||||||0.2439
82643865|NCT03706209|165003341|SUPERIORITY|||||||0.2461|||||||Fisher Exact|||||||0.2461
82643866|NCT03706209|165003342|SUPERIORITY|||||||0.4395|||||||Fisher Exact|||||||0.4395
82643867|NCT03706209|165003342|SUPERIORITY|||||||0.0593|||||||Fisher Exact|||||||0.0593
82643868|NCT03706209|165003344|SUPERIORITY|||||||0.0507|||||||Fisher Exact|||||||0.0507
82643869|NCT03706209|165003344|SUPERIORITY|||||||0.0005|||||||Fisher Exact|||||||0.0005
82643870|NCT03706209|165003345|SUPERIORITY|||||||0.0504|||||||Fisher Exact|||||||0.0504
82643871|NCT03706209|165003345|SUPERIORITY|||||||0.0013|||||||Fisher Exact|||||||0.0013
82643872|NCT03706209|165003346|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
82643873|NCT03706209|165003346|SUPERIORITY|||||||0.0032|||||||Fisher Exact|||||||0.0032
82643874|NCT02587117|165003376|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|95.0|||||Mann Whitney test|||||||0.004
82643875|NCT02587117|165003377|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED|95.0|||||Mann Whitney test|||||||0.224
82643876|NCT03940742|165003439|OTHER||Ratio of geometric least squares mean|1.08|||||TWO_SIDED|90.0|0.879|1.32||||||||1.32|0.879|
82643877|NCT03940742|165003439|OTHER||Ratio of geometric least squares mean|0.96|||||TWO_SIDED|90.0|0.79|1.17||||||||1.17|0.790|
82643878|NCT03940742|165003439|OTHER||Ratio of geometric least squares mean|0.852|||||TWO_SIDED|90.0|0.699|1.04||||||||1.04|0.699|
82643879|NCT03940742|165003440|OTHER||Ratio of geometric least squares mean|0.916|||||TWO_SIDED|90.0|0.726|1.16||||||||1.16|0.726|
82643880|NCT03940742|165003440|OTHER||Ratio of geometric least squares mean|1.0|||||TWO_SIDED|90.0|0.802|1.25||||||||1.25|0.802|
82643881|NCT03940742|165003440|OTHER||Ratio of geometric least squares mean|0.972|||||TWO_SIDED|90.0|0.784|1.21||||||||1.21|0.784|
82643882|NCT02032823|165003441|SUPERIORITY||Hazard Ratio (HR)|0.581||||7.3e-06|TWO_SIDED|99.5|0.409|0.816||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.816|0.409|0.0000073
82643883|NCT02032823|165003442|SUPERIORITY||Hazard Ratio (HR)|0.574||||2.57e-05|TWO_SIDED|99.5|0.392|0.831||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.831|0.392|0.0000257
82643884|NCT02032823|165003443|SUPERIORITY||Hazard Ratio (HR)|0.678||||0.0091|TWO_SIDED|98.5|0.468|0.973||A multiple testing procedure is employed across the primary and all key secondary endpoints to strongly control overall type I error at 5% (2 sided) accounting for all analysis timepoints.|Log Rank|Log rank test is stratified by chemotherapy type, hormone receptor status, and prior platinum therapy using a pre-specified pooling strategy.|Estimate of the treatment hazard ratio is based on a stratified Cox's Proportional Hazards Model, \<1 indicates a lower risk with olaparib compared with placebo arm. Stratification factors are the same as those used in the stratified log-rank test.|||0.973|0.468|0.0091
82643885|NCT03428217|165003449|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6528|TWO_SIDED|95.0|0.74|1.21|||Log Rank|||Stratified Analysis 1: Stratified by prior programmed cell death protein 1/programmed cell death protein ligand 1 (PD-1/PDL1) inhibitor therapy (yes vs no) and International Metastatic Renal Cell Carcinoma Database (IMDC) prognostic risk group (favorable vs intermediate vs poor).||1.21|0.74|0.6528
82643886|NCT03428217|165003449|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8193|TWO_SIDED|95.0|0.76|1.24|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.24|0.76|0.8193
82643887|NCT03428217|165003449|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8345|TWO_SIDED|95.0|0.76|1.25|||Log Rank|||Stratified Analysis 3: Stratified by the number of prior anti-angio cancer therapy \[0 vs. \>=1\].||1.25|0.76|0.8345
82643888|NCT03428217|165003449|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9479|TWO_SIDED|95.0|0.78|1.27|||Log Rank|||Unstratified Analysis||1.27|0.78|0.9479
82643889|NCT03428217|165003450|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3867|TWO_SIDED|95.0|0.83|1.6|||Log Rank|||Stratified Analysis 1: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate vs. poor\].||1.6|0.83|0.3867
82643890|NCT03428217|165003450|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.3367|TWO_SIDED|95.0|0.85|1.62|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.62|0.85|0.3367
82643891|NCT03428217|165003450|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.2416|TWO_SIDED|95.0|0.88|1.69|||Log Rank|||Stratified Analysis 3: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.69|0.88|0.2416
82643892|NCT03428217|165003450|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.3043|TWO_SIDED|95.0|0.86|1.64|||Log Rank|||Unstratified Analysis||1.64|0.86|0.3043
82643893|NCT03428217|165003451|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9692|TWO_SIDED|95.0|0.79|1.25|||Log Rank|||Stratified Analysis 1: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate vs. poor\].||1.25|0.79|0.9692
82643894|NCT03428217|165003451|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9235|TWO_SIDED|95.0|0.8|1.27|||Log Rank|||Stratified Analysis 2: Stratified by prior PD-1/PD-L1 inhibitor therapy \[yes vs. no\] and IMDC prognostic risk group \[favorable vs. intermediate/poor\].||1.27|0.8|0.9235
82643895|NCT03428217|165003451|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9549|TWO_SIDED|95.0|0.8|1.26|||Log Rank|||Stratified Analysis 3: Stratified by the number of prior anti-angio cancer therapy \[0 vs. \>=1\].||1.26|0.8|0.9549
82643896|NCT03428217|165003451|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8193|TWO_SIDED|95.0|0.82|1.29|||Log Rank|||Unstratified Analysis||1.29|0.82|0.8193
82643897|NCT03889197|165003452|SUPERIORITY|||||||0.162|||||||Kruskal-Wallis|||||||0.162
82643898|NCT03889197|165003453|SUPERIORITY|||||||0.242|||||||Kruskal-Wallis|||||||0.242
82643899|NCT03889197|165003454|SUPERIORITY|||||||0.956|||||||Kruskal-Wallis|||||||0.956
82448914|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|0.28||||0.8677|TWO_SIDED|95.0|-3.11|3.68|||ANCOVA|||Comparison for sleep time problems at Day 14||3.68|-3.11|0.8677
82643900|NCT03889197|165003455|SUPERIORITY|||||||0.132|||||||Kruskal-Wallis|||||||0.132
82643901|NCT03889197|165003456|SUPERIORITY|||||||0.445|||||||Kruskal-Wallis|||||||0.445
82643902|NCT03889197|165003457|SUPERIORITY|||||||0.746|||||||Kruskal-Wallis|||||||0.746
82643903|NCT03889197|165003458|SUPERIORITY|||||||0.979|||||||Kruskal-Wallis|||||||0.979
82643904|NCT03889197|165003459|SUPERIORITY|||||||0.289|||||||Chi-squared|||||||0.289
82643905|NCT03889197|165003460|SUPERIORITY|||||||0.94|||||||Kruskal-Wallis|||||||0.940
82643906|NCT03889197|165003461|SUPERIORITY|||||||0.126|||||||Chi-squared|||||||0.126
82643907|NCT03889197|165003462|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
82643908|NCT03889197|165003463|SUPERIORITY|||||||0.676|||||||Fisher Exact|||||||0.676
82643909|NCT03889197|165003464|SUPERIORITY|||||||0.996|||||||Kruskal-Wallis|||||||0.996
82643910|NCT03889197|165003465|SUPERIORITY|||||||0.095|||||||Kruskal-Wallis|||||||0.095
82643911|NCT05004181|165003512|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the GMR was greater than 0.67.|Geometric mean ratio|13.12|||||TWO_SIDED|95.0|11.14|15.45|||||GMRs and 2-sided 95% CIs were based on the analysis of logarithmically transformed neutralizing titers using a linear regression model with terms of age, sex, and group.|||15.45|11.14|
82366756|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|947.97||||0.1511|TWO_SIDED|95.0|-361.95|2257.9||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||2257.90|-361.95|0.1511
82366757|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|-270.88||||0.6998|TWO_SIDED|95.0|-1680.58|1138.82||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1138.82|-1680.58|0.6998
82366758|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|-1037.52||||0.121|TWO_SIDED|95.0|-2361.33|286.29||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant -level pre-treatment values and period minus participant -level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||286.29|-2361.33|0.1210
82366759|NCT02856880|164444318|SUPERIORITY_OR_OTHER||LS mean difference|-89.54||||0.8935|TWO_SIDED|95.0|-1439.5|1260.41||Obtained from ANCOVA including period and treatment as fixed effects, participant as a random effect and participant-level pre-treatment values and period minus participant-level pre-treatment values as covariates in the model.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference indicates a smaller live:dead stain ratio for the first named treatment.|||1260.41|-1439.50|0.8935
82366760|NCT00364949|164444372|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||||||0.049
82366761|NCT00364949|164444373|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||||||0.042
82366762|NCT00364949|164444374|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||t-test, 2 sided|||||||0.156
82366763|NCT00364949|164444375|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||t-test, 2 sided|||||||0.770
82575354|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.37|STANDARD_ERROR_OF_MEAN|8.789||0.2007|TWO_SIDED|90.0|-3.31|26.06|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||26.06|-3.31|0.2007
82366764|NCT00364949|164444376|SUPERIORITY_OR_OTHER|||||||0.325||95.0|||||t-test, 2 sided|||||||0.325
82366765|NCT01032018|164444379|SUPERIORITY_OR_OTHER||Difference of back-transformed means.|-3.5||||0.01||95.0|-6.1|-0.7|||Mixed Models Analysis|||The trial was powered to detect a between-group difference in the 6-month change in depression symptoms. Assuming 5% attrition rate, we estimated that a sample of 150 patients would be needed to have 80% power to detect a clinically meaningful differential change in depression scores between groups of 0.46 SD.||-0.7|-6.1|0.01
82366766|NCT00714493|164444412|SUPERIORITY_OR_OTHER||change from baseline||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82394076|NCT00793624|164499183|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1621|STANDARD_ERROR_OF_MEAN|0.2075||0.4002||95.0|0.8187|1.6497|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.6497|0.8187|0.4002
82643912|NCT05004181|165003513|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the difference of percentages was greater than -10%.|Difference in Percentages|-4.55|||||TWO_SIDED|95.0|-10.04|0.83|||||Adjusted difference in percentages were estimated using minimum risk weights and stratified by sex and age group.|||0.83|-10.04|
82366767|NCT00714493|164444413|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82366768|NCT00688376|164444417|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.8||||0.694|TWO_SIDED|95.0|-3.22|4.8|||ANCOVA|||P-values, least squares (LS) mean, and 95% confidence interval (CI) were obtained from Analysis of Covariance (ANCOVA) model with treatment group as a factor and Baseline value as covariate.||4.8|-3.22|0.694
82366769|NCT00688376|164444418|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1||||0.9458|TWO_SIDED|95.0|-4.38|4.09|||ANCOVA|||P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.09|-4.38|0.9458
82366770|NCT00688376|164444419|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.4||||0.743|TWO_SIDED|95.0|-9.56|6.85|||ANCOVA|||RTVSS Change from Baseline to Week 6 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||6.85|-9.56|0.743
82366771|NCT00688376|164444419|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2||||0.9561|TWO_SIDED|95.0|-7.42|7.84|||ANCOVA|||RTVSS Change from Baseline to Week 12 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||7.84|-7.42|0.9561
82366772|NCT00688376|164444419|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.5||||0.4385|TWO_SIDED|95.0|-3.97|9.04|||ANCOVA|||RTSS Change from Baseline to Week 6 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||9.04|-3.97|0.4385
82366773|NCT00688376|164444419|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4||||0.9088|TWO_SIDED|95.0|-6.74|6.0|||ANCOVA|||RTSS Change from Baseline to Week 12 (LOCF). P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||6|-6.74|0.9088
82366774|NCT00688376|164444420|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.7||||0.2886|TWO_SIDED|95.0|-1.5|4.96|||ANCOVA|||Global Executive Composite Score Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.96|-1.5|0.2886
82366775|NCT00688376|164444420|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.1||||0.2555|TWO_SIDED|95.0|-1.54|5.69|||ANCOVA|||Behavioral Regulation Index Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||5.69|-1.54|0.2555
82448915|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.3136|TWO_SIDED|95.0|-1.65|5.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for sleep time problems at Day 14||5.04|-1.65|0.3136
82394077|NCT00793624|164499183|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0733|STANDARD_ERROR_OF_MEAN|0.1957||0.6983||95.0|0.7503|1.5352|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.5352|0.7503|0.6983
82394078|NCT00793624|164499183|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.781|STANDARD_ERROR_OF_MEAN|0.1516||0.2033||95.0|0.5336|1.1433|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.1433|0.5336|0.2033
82394079|NCT00793624|164499186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.509|STANDARD_ERROR_OF_MEAN|0.23||0.027||95.0|0.058|0.96|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 5mcg minus placebo||0.960|0.058|0.0270
82394080|NCT00793624|164499186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.525|STANDARD_ERROR_OF_MEAN|0.226||0.0203||95.0|0.082|0.967||See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|pattern mixture model||"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 10 mcg minus placebo||0.967|0.082|0.0203
82394081|NCT00793624|164499186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.355|STANDARD_ERROR_OF_MEAN|0.226||0.1166||95.0|-0.088|0.799|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Form 12mcg minus placebo||0.799|-0.088|0.1166
82394082|NCT02542293|164499226|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0808|TWO_SIDED|95.0|0.485|1.045||The 2-sided p-value was calculated using an unstratified log-rank test.|Log Rank||The HR and confidence interval (CI) were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"Global: Durvalumab + Tremelimumab versus (Vs) Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.045|0.485|0.0808
82394083|NCT02542293|164499227|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.322|1.109|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.109|0.322|
82394084|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.629|1.201|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.201|0.629|
82394085|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.726|1.213|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.213|0.726|
82394086|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.786|1.464|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.464|0.786|
82394087|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.835|1.302|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB \<20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.302|0.835|
82394088|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.758|1.353|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB non-evaluable analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.353|0.758|
82394089|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.309|1.008|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.008|0.309|
82394090|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.56|1.35|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.350|0.560|
82394091|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.614|1.251|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.251|0.614|
82394092|NCT02542293|164499228|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.564|1.08|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.080|0.564|
82394093|NCT02542293|164499229|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.871|1.186|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.186|0.871|
82394094|NCT02542293|164499229|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.018|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25 and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.018|0.480|
82394095|NCT02542293|164499229|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.654|1.078|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.078|0.654|
82394096|NCT02542293|164499229|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.289|1.065|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.065|0.289|
82394097|NCT02542293|164499229|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.587|1.081|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||1.081|0.587|
82394098|NCT02542293|164499229|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.222|0.955|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer OS than SoC."||0.955|0.222|
82394099|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.514|1.146|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.146|0.514|
82394100|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.623|1.189|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.189|0.623|
82575355|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|8.9|STANDARD_ERROR_OF_MEAN|0.8789||0.3152|TWO_SIDED|90.0|-5.78|23.59|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||23.59|-5.78|0.3152
82643913|NCT05004181|165003515|OTHER||Difference in Percentages|36.73|||||TWO_SIDED|95.0|19.21|51.17|||||Adjusted difference was estimated using the minimum risk weights and stratified by sex and age group.|||51.17|19.21|
82394101|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.714|1.193|||||The HR and CI interval were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.193|0.714|
82394102|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.258|0.818|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||0.818|0.258|
82394103|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.524|1.228|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.228|0.524|
82394104|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.585|1.177|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.177|0.585|
82394105|NCT02542293|164499230|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.534|1.017|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.017|0.534|
82366776|NCT00688376|164444420|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.7||||0.3155|TWO_SIDED|95.0|-1.63|4.99|||ANCOVA|||Metacognition Index Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||4.99|-1.63|0.3155
82366777|NCT00688376|164444420|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2||||0.9075|TWO_SIDED|95.0|-3.55|3.16|||ANCOVA|||Working Memory Scale Analysis. P-values, LS mean, and 95% confidence intervals were obtained from ANCOVA model with treatment group as a factor and baseline value as covariate.||3.16|-3.55|0.9075
82366778|NCT00557076|164444421|NON_INFERIORITY_OR_EQUIVALENCE|Because 50% of the planned sample size was randomized, achieved power for the DOCS is 0.51.|Mean Difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|7.0||0.465|TWO_SIDED|95.0|-11.1|21.9|||t-test, 1 sided|DOCS scores were transformed to interval level measures using a many-faceted Rasch model anchored to values from a larger validation data set|The mean difference between the baseline and endpoint DOCS test was compared between the FAST and Sham groups.|The planned sample of 15 per group provided 80% power for a one-sided t-test to detect be-tween group endpoint differences in DOCS averages equivalent to an effect size of .91 (9 units). Clinically, this assumes that the FAST protocol would facilitate progression from one clinical state to another (e.g., vegetative (VS) to minimally conscious (MCS) states). The hypothesized effect was based on average DOCS change for a severe TBI sample receiving three weeks of acute rehabilitation.||21.9|-11.1|.465
82366779|NCT00557076|164444422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.346||0.049|TWO_SIDED|95.0|-1.51|-0.00493|||t-test, 1 sided|CNC scores were transformed to interval level measures using Rasch partial credit and Facets models. We then re-scaled these logits to 0-100 scales.|The mean difference was calculated for each group using the eighth CNC measure minus the Baseline CNC measure.|Power was not calculated for the CNC because the effect size was not published.||-.00493|-1.51|0.049
82366780|NCT00557076|164444422|SUPERIORITY_OR_OTHER||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.0022|TWO_SIDED|||||To confirm that CNC results were not an anomaly at the final measurement and that the overall CNC response pattern was consistent, mixed-effect longitudinal models were conducted.|t-test, 1 sided||The Baseline CNC measure and seven post-Baseline CNC measures (for a total of eight CNC measures) were used to calculate the slope.|||||.0022
82643914|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|3.656|STANDARD_ERROR_OF_MEAN|1.85|||TWO_SIDED|95.0|-0.032|7.344|||||Hydromorphone - Placebo|"Week 1~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||7.344|-0.032|
82643915|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|6.927|STANDARD_ERROR_OF_MEAN|1.848|||TWO_SIDED|95.0|3.243|10.612|||||Hydromorphone - Placebo|Week 1 Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05.||10.612|3.243|
82643916|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|0.586|STANDARD_ERROR_OF_MEAN|1.283|||TWO_SIDED|95.0|-1.977|3.149|||||Hydromorphone - Placebo|"Week 2~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||3.149|-1.977|
82643917|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|2.899|STANDARD_ERROR_OF_MEAN|1.285|||TWO_SIDED|95.0|0.333|5.465|||||Hydromorphone - Placebo|"Week 2~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||5.465|0.333|
82643918|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|0.863|STANDARD_ERROR_OF_MEAN|1.959|||TWO_SIDED|95.0|-3.053|4.778|||||Hydromorphone - Placebo|"Week 3~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||4.778|-3.053|
82643919|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|4.926|STANDARD_ERROR_OF_MEAN|1.956|||TWO_SIDED|95.0|1.016|8.837|||||Hydromorphone - Placebo|"Week 3~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||8.837|1.016|
82366781|NCT01517659|164444426|OTHER||Mean Difference (Final Values)|2.61|STANDARD_DEVIATION|2.29|||TWO_SIDED|95.0|2.23|3.27||||||||3.27|2.23|
82366782|NCT03835325|164444459|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"The sample size calculation was based on the following hypothesis test:~H0: there is no improvement in memory capacity between the initial (VS) and final (VF) assessments, assessed by the self-efficacy factor of the MIAr questionnaire.~H1: there is an improvement in memory capacity between the initial (VS) and final (VF) assessments, assessed by the self-efficacy factor of the MIAr questionnaire.~or H0: AUTO-EF (VF) - AUTO-EF (VS) ≤ 0 H1: AUTO-EF (VF) - AUTO-EF (VS)\> 0"||||<0.001
82366783|NCT00472797|164444472|SUPERIORITY_OR_OTHER||mean|2.73|||<|0.001||97.5|2.73|2.73||P-Value denotes percent change from baseline to week 12 for all combined subjects.|t-test, 1 sided|||A one-sided paired t-test across all subjects by combining the titrated and non-titrated new formulation groups was performed.||2.73|2.73|<0.001
82366784|NCT00472797|164444473|SUPERIORITY_OR_OTHER|||||||0.466||||||P-value denotes difference between treatment groups|ANOVA|||||||0.466
82366785|NCT00472797|164444473|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value denotes the mean percent change from baseline to week 12.|t-test, 1 sided|||||||<0.001
82366786|NCT00472797|164444473|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value denotes the mean percent change from baseline to week 12.|t-test, 1 sided|||||||0.003
82366787|NCT00472797|164444474|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value refers to change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ for all subjects combined.|t-test, 1 sided|Paired t-test for change from baseline to week 12||Change in total score from baseline to week 12 for all subjects combined. Lower scores indicate a more favorable response||||<0.001
82394106|NCT02542293|164499231|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.81|1.517|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.517|0.810|
82643920|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|3.316|STANDARD_ERROR_OF_MEAN|2.367|||TWO_SIDED|95.0|-1.425|8.025|||||Hydromorphone - Placebo|"Week 4~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||8.025|-1.425|
82643921|NCT02044094|165003705|NON_INFERIORITY|Blockade was achieved if the upper bound of the 95% confidence interval was \<= the non-inferiority margin of 11.|LSM difference|6.677|STANDARD_ERROR_OF_MEAN|2.367|||TWO_SIDED|95.0|1.936|11.418|||||Hydromorphone - Placebo|"Week 4~Complete hydromorphone blockade was claimed for RBP-6000 if blockade was achieved for both hydromorphone doses (6 mg and 18 mg) during each week of testing for the 4 weeks after the first dose of RBP-6000. Each test was performed at a 2-sided α = 0.05."||11.418|1.936|
82643922|NCT03353415|165003731|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82643923|NCT03353415|165003732|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82643924|NCT03353415|165003733|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82394107|NCT02542293|164499231|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.592|2.141|||||The HR and CI interval were calculated using an stratified Cox proportional hazards model, adjusting histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||2.141|0.592|
82394108|NCT02542293|164499231|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.924|1.253|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.253|0.924|
82394109|NCT02542293|164499231|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.655|1.362|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (≥ 25% Vs \< 25%) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.362|0.655|
82394110|NCT02542293|164499231|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.621|1.024|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.024|0.621|
82448916|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.9183|TWO_SIDED|95.0|-2.93|2.65||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||2.65|-2.93|0.9183
82643925|NCT03353415|165003734|OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
82643926|NCT03353415|165003735|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
82643927|NCT03353415|165003736|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82643928|NCT03353415|165003737|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82643929|NCT03353415|165003738|OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82643930|NCT03353415|165003739|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82643931|NCT03353415|165003740|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82643932|NCT03353415|165003741|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82643933|NCT03353415|165003742|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
82643934|NCT03353415|165003743|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82366788|NCT00472797|164444474|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value refers to differences between treatment groups in change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ.|ANOVA|||Analysis evaluated differences between treatment groups in change in total score from baseline to week 12 for all domains, except global side effect score, in the MSTCQ. Lower scores indicate a more favorable response.||||0.110
82643935|NCT03353415|165003744|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82643936|NCT03353415|165003745|OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82643937|NCT03353415|165003746|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82643938|NCT03353415|165003747|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82643939|NCT03353415|165003748|OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82643940|NCT03353415|165003749|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82643941|NCT03353415|165003750|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82643942|NCT03353415|165003751|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82366789|NCT00472797|164444475|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value refers to differneces in total score from baseline to week 12 between treatment groups.|ANOVA|||Analysis evaluates total score from baseline to week 12 for differences between each treatment group.||||0.302
82366790|NCT00472797|164444477|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||P-value denotes differences between treatment groups in change in diameter of injection site redness from baseline to week 12.|ANOVA|||Analysis evaluates differences between treatment groups in change in diameter of injection site redness from baseline to week 12.||||0.899
82366791|NCT00472797|164444478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Week 12||||<0.001
82366792|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Week 36||||0.234
82366793|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Extension Visit 1||||0.001
82366794|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Extension Visit 3||||0.004
82366795|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||t-test, 2 sided|Paired||Physical Component - Change from Baseline to Exisit Visit LOCF||||0.036
82366796|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|Paired||Mental Component - Baseline to Week 12||||0.002
82366797|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||t-test, 2 sided|Paired||Mental Component - Baseline to Week 36||||0.468
82394111|NCT02542293|164499231|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.389|1.317|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.317|0.389|
82394112|NCT02542293|164499231|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.542|1.01|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.010|0.542|
82394113|NCT02542293|164499231|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.335|1.251|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer PFS than SoC."||1.251|0.335|
82394114|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.236|1.03||||||"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.030|0.236|
82366798|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.602||95.0|||||t-test, 2 sided|Paired||Mental Component - Change from Baseline to Extension Visit 1||||0.602
82366799|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.414||95.0|||||t-test, 2 sided|Paired||Change from Baseline to Extension Visit 3||||0.414
82366800|NCT00472797|164444478|SUPERIORITY_OR_OTHER|||||||0.991||95.0|||||t-test, 2 sided|Paired||Change from Baseline to Exit Visit LOCF||||0.991
82366801|NCT03395639|164444489|OTHER|Difference in adjudicated major or CRNM bleeding rates were assessed.|Annualized rate difference|-0.03|||||TWO_SIDED|95.0|-0.18|0.12||||||||0.12|-0.18|
82366802|NCT03395639|164444489|OTHER|Difference in adjudicated major bleeding rates were assessed.|Annualized rate difference|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0|0|
82366803|NCT03395639|164444489|OTHER|Difference in all adjudicated bleeding (major, CRNM, minor) rates were assessed.|Annualized rate difference|0.0|||||TWO_SIDED|95.0|-0.24|0.25||||||||0.25|-0.24|
82366804|NCT03407118|164444526|SUPERIORITY||ratio of least square means|0.967|||||TWO_SIDED|95.0|0.803|1.17||||||||1.17|0.803|
82366805|NCT01846273|164444528|NON_INFERIORITY|pre-defined non-inferiority margin of 5 letters|Least Squares Mean|3.2|||<|0.001|ONE_SIDED|95.0|0.38||||ANCOVA||||||0.38|<0.001
82366806|NCT01846273|164444529|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82366807|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|1.12|STANDARD_ERROR_OF_MEAN|2.0801|||TWO_SIDED|95.0|-3.0|5.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.2|-3.0|
82366808|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|2.66|STANDARD_ERROR_OF_MEAN|2.0796|||TWO_SIDED|95.0|-1.4|6.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.8|-1.4|
82394115|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|0.53|||||TWO_SIDED|95.0|0.288|0.968||||||"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.968|0.288|
82643943|NCT00975000|165003752|SUPERIORITY_OR_OTHER||Chi-Square test statistic|66.437|||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by baseline corrected total serum calcium level (≤ 11.2 mg/dL and \> 11.2 mg/dL)||The primary endpoint was tested at a significance level of 0.05.||||<0.001
82366809|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|3.0|STANDARD_ERROR_OF_MEAN|2.0792|||TWO_SIDED|95.0|-1.1|7.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.1|-1.1|
82366810|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|2.53|STANDARD_ERROR_OF_MEAN|2.079|||TWO_SIDED|95.0|-1.6|6.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.6|-1.6|
82366811|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|1.72|STANDARD_ERROR_OF_MEAN|2.0789|||TWO_SIDED|95.0|-2.4|5.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.8|-2.4|
82366812|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.15|STANDARD_ERROR_OF_MEAN|2.079|||TWO_SIDED|95.0|-4.2|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-4.2|
82366813|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.15|STANDARD_ERROR_OF_MEAN|2.0792|||TWO_SIDED|95.0|-7.2|0.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-7.2|
82366814|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.31|STANDARD_ERROR_OF_MEAN|2.0796|||TWO_SIDED|95.0|-5.4|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-5.4|
82366815|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.15|STANDARD_ERROR_OF_MEAN|2.0801|||TWO_SIDED|95.0|-4.2|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-4.2|
82394116|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.336|0.908||||||"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.908|0.336|
82394117|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|1.96|||||TWO_SIDED|95.0|0.752|5.234||||||"tTMB ≥14 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||5.234|0.752|
82394118|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.482|2.214||||||"tTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||2.214|0.482|
82394119|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.43|1.548||||||"tTMB ≥10 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.548|0.430|
82394120|NCT02542293|164499232|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.456|1.486||||||"tTMB ≥8 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.486|0.456|
82448917|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|-2.68||||0.0614|TWO_SIDED|95.0|-5.5|0.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||0.13|-5.50|0.0614
82394121|NCT02542293|164499233|SUPERIORITY||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.245|0.869|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.869|0.245|
82394122|NCT02542293|164499233|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.124|1.337|||Binomial exact test|||"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.337|0.124|
82394123|NCT02542293|164499233|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.356|0.647|||||The analysis was performed using logistic regression adjusting for PD-L1 status (≥25% Vs \<25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||0.647|0.356|
82394124|NCT02542293|164499233|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.45|1.66|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.660|0.450|
82366816|NCT02037165|164444546|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.68|STANDARD_ERROR_OF_MEAN|2.0282|||TWO_SIDED|95.0|-6.7|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-6.7|
82366817|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|1.58|STANDARD_ERROR_OF_MEAN|2.0279|||TWO_SIDED|95.0|-2.4|5.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.6|-2.4|
82366818|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|2.63|STANDARD_ERROR_OF_MEAN|2.0278|||TWO_SIDED|95.0|-1.4|6.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.6|-1.4|
82394125|NCT02542293|164499233|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.443|1.079|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥25% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.079|0.443|
82394126|NCT02542293|164499233|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|1.78|||||TWO_SIDED|95.0|0.658|4.919|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥ 25% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||4.919|0.658|
82394127|NCT02542293|164499233|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.449|1.291|||||The analysis was performed using logistic regression, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥50% analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||1.291|0.449|
82394128|NCT02542293|164499233|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.585|5.27|||||The analysis was performed using logistic regression, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Va ever smoker) and histology (squamous Vs non-squamous), with 95% CI calculated by profile likelihood.|"PD-L1 TC ≥50% analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~An odds ratio \>1 favors Durvalumab + Tremelimumab combination therapy over SoC."||5.270|0.585|
82394129|NCT02542293|164499234|SUPERIORITY||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.113|0.532|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.532|0.113|
82448918|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean Difference|2.54||||0.0695|TWO_SIDED|95.0|-0.21|5.29||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for symptoms on waking in the morning at Day 14||5.29|-0.21|0.0695
82394130|NCT02542293|164499234|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.196|0.639|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.639|0.196|
82394131|NCT02542293|164499234|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.233|0.611|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.611|0.233|
82394132|NCT02542293|164499235|SUPERIORITY||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.199|0.787|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.787|0.199|
82394133|NCT02542293|164499235|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.183|2.86|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||2.860|0.183|
82394134|NCT02542293|164499235|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.324|0.588|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.588|0.324|
82528548|NCT02247804|164753048|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.0031||95.0|-1.5|-0.31|||MMRM|||Week 2, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.31|-1.50|0.0031
82575356|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|8.964||0.8071|TWO_SIDED|90.0|-17.18|12.79|||Mixed Models Analysis|||Month 6: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.79|-17.18|0.8071
82643944|NCT00975000|165003752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|91.41|||||TWO_SIDED|95.0|18.76|445.41|||||Odds ratio of Cinacalcet/Placebo|||445.41|18.76|
82366819|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.17|STANDARD_ERROR_OF_MEAN|2.0277|||TWO_SIDED|95.0|-4.2|3.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-4.2|
82394135|NCT02542293|164499235|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.193|0.761|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25%) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab combination therapy to be associated with a longer DoR than SoC."||0.761|0.193|
82394136|NCT02542293|164499238|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.494|1.058|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥20 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.058|0.494|
82394137|NCT02542293|164499238|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.607|1.151|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥16 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.151|0.607|
82643945|NCT00975000|165003752|SUPERIORITY_OR_OTHER||Difference|75.44|||||TWO_SIDED|95.0|63.83|87.05|||||Difference = Cinacalcet-Placebo|||87.05|63.83|
82394138|NCT02542293|164499238|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.689|1.146|||||The HR and CI were calculated using an unstratified Cox proportional hazards model, with ties handled by the Efron approach.|"bTMB ≥12 mut/Mb analysis set: Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.146|0.689|
82394139|NCT02542293|164499239|SUPERIORITY||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.748|1.388|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.388|0.748|
82643946|NCT00975000|165003753|SUPERIORITY_OR_OTHER||Difference|1.41||||0.266|TWO_SIDED|95.0|-1.1|3.93|||ANCOVA|Analysis of covariance (ANCOVA) with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the percent change in BMD between the 2 treatment groups (cinacalcet - placebo)|||3.93|-1.10|0.266
82643947|NCT00975000|165003754|SUPERIORITY_OR_OTHER||Difference|0.45|||<|0.001|TWO_SIDED|95.0|0.26|0.64|||ANCOVA|Analysis of covariance (ANCOVA) with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in mean serum phosphorus between the 2 treatment groups (cinacalcet - placebo)|||0.64|0.26|<0.001
82643948|NCT00975000|165003755|SUPERIORITY_OR_OTHER||Difference|-0.4||||0.842|TWO_SIDED|95.0|-4.37|3.57|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in mean eGFR between the 2 treatment groups (cinacalcet - placebo)|||3.57|-4.37|0.842
82643949|NCT00975000|165003756|SUPERIORITY_OR_OTHER||Difference|-1.39|||<|0.001|TWO_SIDED|95.0|-1.62|-1.16|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in corrected total calcium between the 2 treatment groups (cinacalcet - placebo)|||-1.16|-1.62|<0.001
82643950|NCT00975000|165003757|SUPERIORITY_OR_OTHER||Difference|-117.21||||0.002|TWO_SIDED|95.0|-189.88|-44.55|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in iPTH between the 2 treatment groups (cinacalcet - placebo)|||-44.55|-189.88|0.002
82643951|NCT00975000|165003758|SUPERIORITY_OR_OTHER||Difference|-1.42||||0.846|TWO_SIDED|95.0|-15.91|13.06|||ANCOVA|ANCOVA with Baseline corrected total serum calcium group as a covariate.|Least square estimate for the difference in the absolute change in urine phosphorus between the 2 treatment groups (cinacalcet - placebo)|||13.06|-15.91|0.846
82643952|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.16||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643953|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hyposthesis is that visual acuity is the same for all lens types.||||0.02
82643954|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643955|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643956|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82575357|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|9.354||0.9918|TWO_SIDED|90.0|-15.72|15.52|||Mixed Models Analysis|||Month 13: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||15.52|-15.72|0.9918
82643957|NCT00584831|165003790|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643958|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.16||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643959|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643960|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643961|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.19||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643962|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643963|NCT00584831|165003791|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643964|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.13||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643965|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643966|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643967|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643968|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643969|NCT00584831|165003792|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643970|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.17||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643971|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.19||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643972|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.2||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643973|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.15||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82366820|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|1.2|STANDARD_ERROR_OF_MEAN|2.0276|||TWO_SIDED|95.0|-2.8|5.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.2|-2.8|
82366821|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|2.0277|||TWO_SIDED|95.0|-4.6|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-4.6|
82366822|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.88|STANDARD_ERROR_OF_MEAN|2.0278|||TWO_SIDED|95.0|-6.9|1.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-6.9|
82366823|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|0.43|STANDARD_ERROR_OF_MEAN|2.0279|||TWO_SIDED|95.0|-3.6|4.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-3.6|
82366824|NCT02037165|164444546|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.04|STANDARD_ERROR_OF_MEAN|2.0282|||TWO_SIDED|95.0|-5.0|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-5.0|
82366825|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.94|STANDARD_ERROR_OF_MEAN|1.8566|||TWO_SIDED|95.0|-4.6|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-4.6|
82366826|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.87|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-6.5|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-6.5|
82366827|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.08|STANDARD_ERROR_OF_MEAN|1.8557|||TWO_SIDED|95.0|-6.7|0.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-6.7|
82643974|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82643975|NCT00584831|165003793|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.05|Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.18||0.02||95.0|||||ANOVA|||Hypothesis is that visual acuity is the same for all lens types.||||0.02
82394140|NCT02542293|164499239|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.36|1.219|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"PD-L1-negative analysis set:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.219|0.360|
82394141|NCT02542293|164499239|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.845|1.147|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status (\>= 25% Vs \< 25%), smoking status (never smoker Vs ever smoker) and histology (squamous Vs non-squamous), with ties handled by Efron approach.|"FAS:~Global: Durvalumab + Tremelimumab Vs Global: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.147|0.845|
82643976|NCT01371006|165003797|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|105.61|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|90.81|122.82|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (50 mg Efavirenz+240 mg Faldaprevir : 50 mg Efavirenz) of Efavirenz||122.82|90.81|
82643977|NCT01371006|165003798|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|116.12|STANDARD_DEVIATION|18.8|||TWO_SIDED|90.0|101.87|132.35|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (50 mg Efavirenz+240 mg Faldaprevir : 50 mg Efavirenz) of Efavirenz||132.35|101.87|
82366828|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.63|STANDARD_ERROR_OF_MEAN|1.8555|||TWO_SIDED|95.0|-5.3|2.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.0|-5.3|
82366829|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.8554|||TWO_SIDED|95.0|-3.5|3.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-3.5|
82394142|NCT02542293|164499239|OTHER|The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.492|1.03|||||The HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for histology (squamous Vs non-squamous), with ties handled by the Efron approach.|"FAS:~China: Durvalumab + Tremelimumab Vs China: SoC Chemotherapy~A HR \<1 favors Durvalumab + Tremelimumab to be associated with a longer time to second progression than SoC."||1.030|0.492|
82394143|NCT03030118|164499246|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||For the primary outcome (SLICC classification criteria count \[SLICC score\]), measured every 12 weeks over a 96-week period, we used an ordinal logistic regression model to compare the estimated slopes over time for the intervention (HCQ) and placebo groups. The model accounted for the ordinal and non-decreasing properties of the SLICC score. Our null hypothesis was that the intervention slope equaled the placebo slope, with a corresponding hypothesis that the slopes were not equal.||||0.72
82394144|NCT03030118|164499247|SUPERIORITY|||||||0.81|||||||Regression, Cox|||Progression to SLE was defined as the number of subjects in whom a SLICC score of 4 was recorded, up to 96 weeks.||||0.81
82394145|NCT03030118|164499248|SUPERIORITY|||||||0.74|||||||Regression, Logistic|||"For the SLEDAI score, we combined responses to model the following groups:~* Score of 0 or 1~* Score of 2 or 3~* Score of 4, 6, or 8"||||0.74
82394146|NCT03030118|164499249|SUPERIORITY|||||||0.77|||||||Regression, Logistic|Ordinal logistic regression||"For analysis, we combined responses ≥3 to model the following groups:~* Score of 0~* Score of 1~* Score of 2~* Score of 3 or higher"||||0.77
82394147|NCT03030118|164499250|SUPERIORITY|||||||0.386|||||||t-test, 2 sided|Paired t-test||||||0.386
82528549|NCT02247804|164753049|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.32||0.0547||95.0|-1.26|0.01|||MMRM|||Week 6, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.01|-1.26|0.0547
82394148|NCT03030118|164499251|SUPERIORITY|||||||0.497|||||||t-test, 2 sided|Paired t-test||||||0.497
82394149|NCT03030118|164499252|SUPERIORITY|||||||0.99|||||||Regression, Logistic|Ordinal logistic regression||||||0.99
82394150|NCT03030118|164499253|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82394151|NCT03030118|164499254|NON_INFERIORITY|Outcome with hydroxychloroquine is hypothesized to be not inferior to outcome with placebo.|||||>|0.5|||||||Fisher Exact|||||||>0.5
82394152|NCT03030118|164499255|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82394153|NCT03030118|164499256|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82394154|NCT00310466|164499259|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||||||0.87
82394155|NCT00310466|164499260|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
82394156|NCT00310466|164499262|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANOVA|||||||0.55
82448919|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.4947|TWO_SIDED|95.0|-1.03|2.1||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day14||2.10|-1.03|0.4947
82528550|NCT02247804|164753049|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0107||95.0|-1.46|-0.19|||MMRM|||Week 6, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.19|-1.46|0.0107
82643978|NCT01371006|165003799|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|71.83|STANDARD_DEVIATION|23.6|||TWO_SIDED|90.0|61.46|83.95|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||83.95|61.46|
82643979|NCT01371006|165003800|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|64.97|STANDARD_DEVIATION|30.2|||TWO_SIDED|90.0|53.32|79.16|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||79.16|53.32|
82643980|NCT01371006|165003801|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|54.31|STANDARD_DEVIATION|44.2|||TWO_SIDED|90.0|40.47|72.88|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (7.5 mg Midazolam+240 mg Faldaprevir+600 mg Efavirenz : 7.5 mg Midazolam+240 mg Faldaprevir) of Faldaprevir||72.88|40.47|
82643981|NCT03515837|165003825|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0122|TWO_SIDED|95.0|0.65|0.97|||Log Rank|One-sided p-value based on log-rank test stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||0.97|0.65|0.0122
82643982|NCT03515837|165003826|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0362|TWO_SIDED|95.0|0.69|1.02|||Log Rank|One-sided p-value based on log-rank test stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||1.02|0.69|0.0362
82643983|NCT03515837|165003827|SUPERIORITY||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-6.0|9.9|||||Based on Miettinen \& Nurminen method stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||9.9|-6.0|
82643984|NCT03515837|165003829|OTHER||Difference in LS Means|1.59|||||TWO_SIDED|95.0|-1.93|5.1|||||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors PD-L1 expression, treatment history, and geographic region of the enrolling site as covariates.|||5.10|-1.93|
82643985|NCT03515837|165003830|OTHER||Hazard Ratio (HR)|0.93||||||95.0|0.68|1.27|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression; treatment history; geographic region of the enrolling site.|||1.27|0.68|
82394157|NCT03309696|164499356|EQUIVALENCE|A p value of \<.0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.59||||0.055|TWO_SIDED|||||The p value is not adjusted because it was a planned contrast.|Mixed Models Analysis||Active tDCS - sham tDCS.|Examines the effect of tDCS preconditioning on P100 amplitudes. The effect size for this comparison was .33 (Cohen's).||||.055
82448920|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|0.15||||0.8454|TWO_SIDED|95.0|-1.42|1.72||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 14||1.72|-1.42|0.8454
82643986|NCT02957682|165003843|NON_INFERIORITY|Upper confidence interval (CI) limit was compared to the noninferiority margin, which was 0.2%, and noninferiority was declared if the upper CI limit was below the noninferiority margin.|Least Square (LS) Mean Difference|-0.02||||0.6055|TWO_SIDED|95.0|-0.094|0.055||P-value was taken from mixed-effect model with repeated measures (MMRM) analysis.|Mixed-effect Model Repeated Measures||Model: fixed categorical effects of treatment group, randomization strata as per IVRS, time point, treatment-by-time point, strata-by-time point, continuous fixed covariates of baseline SWMS raw score value, baseline value by time-point interaction.|Change at Week 96||0.055|-0.094|0.6055
82643987|NCT00149669|165003859|SUPERIORITY||Odds Ratio (OR)|8.67|||<|0.01|TWO_SIDED|95.0|4.24|17.73|||General Estimating Equation (GEE)|||||17.73|4.24|<0.01
82643988|NCT00149669|165003860|SUPERIORITY||Odds Ratio (OR)|0.91||||0.82|TWO_SIDED|95.0|0.43|1.95|||General Estimating Equation (GEE)|||||1.95|.43|0.82
82643989|NCT00149669|165003861|SUPERIORITY||Odds Ratio (OR)|0.61|||=|0.19|TWO_SIDED|95.0|0.29|1.26|||General Estimating Equation (GEE)|||||1.26|0.29|=0.19
82643990|NCT02458365|165003866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.75|.51|<.0001
82643991|NCT02458365|165003866|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.45|0.68|||Regression, Linear|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.68|.45|<.0001
82643992|NCT02458365|165003867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||<|0.001|TWO_SIDED|95.0|0.57|0.84|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.84|.57|<.001
82643993|NCT02458365|165003867|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.5|0.75|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.75|.50|<.0001
82643994|NCT02458365|165003868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.43|0.67|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.67|.43|<.0001
82575358|NCT00945672|164860481|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.01|STANDARD_ERROR_OF_MEAN|9.415||0.7498|TWO_SIDED|90.0|-18.73|12.7|||Mixed Models Analysis|||Month 18: Mixed model repeated measures (MMRM) analysis with cohort, treatment by time interaction as fixed effects and baseline as covariate.||12.70|-18.73|0.7498
82643995|NCT02458365|165003868|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.36|0.56|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.56|.36|<.0001
82366830|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|0.66|STANDARD_ERROR_OF_MEAN|1.8555|||TWO_SIDED|95.0|-3.0|4.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.3|-3.0|
82366831|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.19|STANDARD_ERROR_OF_MEAN|1.8557|||TWO_SIDED|95.0|-4.8|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-4.8|
82366832|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.34|STANDARD_ERROR_OF_MEAN|1.856|||TWO_SIDED|95.0|-5.0|2.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-5.0|
82366833|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.84|STANDARD_ERROR_OF_MEAN|1.8566|||TWO_SIDED|95.0|-4.5|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-4.5|
82366834|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.8257|||TWO_SIDED|95.0|-4.7|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-4.7|
82366835|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.98|STANDARD_ERROR_OF_MEAN|1.8254|||TWO_SIDED|95.0|-7.6|-0.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.4|-7.6|
82366836|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.43|STANDARD_ERROR_OF_MEAN|1.8252|||TWO_SIDED|95.0|-6.0|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-6.0|
82394158|NCT03309696|164499356|EQUIVALENCE|A p value of \<.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|0.36||||0.0418|TWO_SIDED|||||This p value is not adjusted for multiple comparisons because it was a planned contrast.|Mixed Models Analysis||Sham tDCS - Sham tDCS and Active rTMS|Examines the effect of rTMS on the P100 amplitude. The calculated effect size is .35 (Cohen's).||||0.0418
82394159|NCT03309696|164499356|EQUIVALENCE|A p value less than 0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.19||||0.4|TWO_SIDED|||||The p value is not adjusted as this was a planned contrast.|Mixed Models Analysis||Effect of tDCS preconditioning on active rTMS: active tDCS preconditioning of active rTMS - sham tDCS preconditioning of active rTMS.|Examines the additive effect of tDCS preconditioning on the P100 amplitude after rTMS. The effect size for this comparison was 0.14.||||0.40
82394160|NCT03309696|164499356|EQUIVALENCE|A p value less than 0.05 is taken as evidence of nonequivalence.|Mean Difference (Net)|-0.48||||0.086|TWO_SIDED|||||The p value was not adjusted for this planned contrast.|Mixed Models Analysis||Active tDCS and Active rTMS - Sham tDCS and Sham rTMS.|Examines the combined effect of tDCS and rTMS on the P100 amplitude. The effect size for this comparison was .29 (Cohen's).||||.086
82643996|NCT02458365|165003869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.41|0.62|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.62|.41|<.0001
82394161|NCT00078949|164499357|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The literature has suggested that the ORR is approximately 50% for this patient population treated with DHAP. The treatment difference is defined as the response rate for the DHAP arm minus that of GDP arm. We would consider GDP to be non-inferior to DHAP if we are 95% sure that the true difference is less than 10%. In order to rule out that the 10% difference with 80% power, we need to accrue a total of 630 eligible patients. The actual sample size for this final analysis is 619 patients.|Risk Difference (RD)|-1.2||||0.005|TWO_SIDED|95.0|-9.0|6.7||p-value for non-inferiority|Cochran-Mantel-Haenszel|||||6.7|-9.0|0.005
82394162|NCT00078949|164499358|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.1||||0.55||95.0|-10.0|5.8|||Cochran-Mantel-Haenszel|||||5.8|-10.0|0.55
82394163|NCT00078949|164499359|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.17|TWO_SIDED|95.0|0.52|1.12|||Log Rank|||It was estimated that 240 patients will be eligible for the maintenance question, and randomized with a 1:1 ratio to either rituximab or observation. It is expected that the 2-year event-free survival will be 50% on the observation arm. In order to detect a 15% difference in the 2-year event-free survival with an 80% power using a two-sided 5% level test, 142 events are required to detect an HR of 0.622.||1.12|0.52|0.17
82394164|NCT00577005|164499361|SUPERIORITY_OR_OTHER||Slope|-0.05425|STANDARD_ERROR_OF_MEAN|0.03211||0.09|TWO_SIDED|||||p-value \<0.05 considered statistically significant|Mixed Models Analysis|We modeled the the change in thrice weekly cocaine urines using a mixed-effect ordinal regression approach with MIXOR.|Group x time interaction: Z=-1.68950 p = 0.09112|||||0.09
82643997|NCT02458365|165003869|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.54|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.54|.35|<.0001
82394165|NCT00577005|164499362|SUPERIORITY_OR_OTHER||Slope|0.0257|STANDARD_ERROR_OF_MEAN|0.04369||0.55|TWO_SIDED|||||p-value \<0.05 considered statistically significant|Mixed Models Analysis|We modeled the the change in thrice weekly opioid urines using a mixed-effect ordinal regression approach with MIXOR.|Group x time interaction: Z= 0.58823 p = 0.55638|||||0.55
82394166|NCT00577005|164499363|SUPERIORITY_OR_OTHER|||||||0.67||||||p-value \<0.05 considered statistically significant|Log Rank|Chi-Square 0.175. df = 1, p=0.676||||||0.67
82394167|NCT00577005|164499364|SUPERIORITY_OR_OTHER||Slope|-0.1557||||0.11|TWO_SIDED|||||Significant p-value \< 0.05|Mixed Models Analysis||Interaction of time x group: Z = -1.5671, p = 0.11708|||||0.11
82394168|NCT01004432|164499365|SUPERIORITY_OR_OTHER||Percentage achive ACR 20 response|34.9|||<|0.0001|TWO_SIDED|95.0|30.4|39.4||One sided test adjusting for conducting one interim analysis|Chi-squared|||null hypothesis: proportion \<=0.2||39.4|30.4|<0.0001
82394169|NCT04068688|164499422|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82394170|NCT04068688|164499422|OTHER|||||||0.914|||||||Wilcoxon (Mann-Whitney)|||||||0.914
82643998|NCT02458365|165003870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.001|TWO_SIDED|95.0|0.38|0.78|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.78|.38|.001
82643999|NCT02458365|165003870|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.013|TWO_SIDED|95.0|0.4|0.9|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.90|.40|.013
82394171|NCT04068688|164499423|OTHER|||||||0.655|||||||Wilcoxon (Mann-Whitney)|||||||0.655
82394172|NCT04068688|164499423|OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||||||0.564
82394173|NCT04068688|164499424|OTHER|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82394174|NCT04068688|164499424|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||||||0.705
82394175|NCT04068688|164499425|OTHER|||||||0.096|||||||Wilcoxon (Mann-Whitney)|||||||0.096
82394176|NCT04068688|164499425|OTHER|||||||0.732|||||||Wilcoxon (Mann-Whitney)|||||||0.732
82394177|NCT04068688|164499426|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82394178|NCT04068688|164499426|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||||||0.705
82394179|NCT04068688|164499427|OTHER|||||||0.442|||||||Wilcoxon (Mann-Whitney)|||||||0.442
82394180|NCT04068688|164499427|OTHER|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||||||0.458
82394181|NCT04068688|164499428|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
82394182|NCT04068688|164499428|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82394183|NCT04068688|164499432|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82394184|NCT04068688|164499433|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
82394185|NCT04068688|164499434|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82394186|NCT04068688|164499434|OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
82394187|NCT04068688|164499435|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82394188|NCT04068688|164499435|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
82394189|NCT04068688|164499439|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82394190|NCT04068688|164499439|OTHER|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.139
82394191|NCT03436199|164499454|SUPERIORITY||Risk Difference (RD)|0.064||||0.0811|TWO_SIDED|95.0|-0.008|0.136|||Farrington-Manning score test|The Miettinen-Nurminen method was used to obtain the 95% confidence intervals.||||0.136|-0.008|0.0811
82394192|NCT03436199|164499454|SUPERIORITY||Risk Difference (RD)|0.098||||0.0104|TWO_SIDED|95.0|0.023|0.174|||Farrington-Manning score test|The Miettinen-Nurminen method was used to obtain the 95% confidence intervals.||||0.174|0.023|0.0104
82394193|NCT03436199|164499455|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.048||0.0162|TWO_SIDED|95.0|0.02|0.21|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.21|0.02|0.0162
82394194|NCT03436199|164499455|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0142|TWO_SIDED|95.0|0.02|0.22|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.22|0.02|0.0142
82394195|NCT03436199|164499456|SUPERIORITY||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.538||0.1424|TWO_SIDED|95.0|-1.85|0.27|||Mixed Models Analysis|Mixed models analysis with repeated measures||||0.27|-1.85|0.1424
82394196|NCT03436199|164499456|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.56||0.9467|TWO_SIDED|95.0|-1.14|1.06|||Mixed Models Analysis|Mixed models analysis with repeated measures||||1.06|-1.14|0.9467
82394197|NCT03436199|164499457|SUPERIORITY||Mean Difference (Net)|4.143|STANDARD_ERROR_OF_MEAN|1.7389||0.0176|TWO_SIDED|95.0|0.726|7.56|||Mixed Models Analysis|Mixed models analysis with repeated measures||||7.560|0.726|0.0176
82644000|NCT02458365|165003871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53|||<|0.001|TWO_SIDED|95.0|0.37|0.76|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.76|.37|<.001
82366837|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.8251|||TWO_SIDED|95.0|-4.9|2.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-4.9|
82366838|NCT02037165|164444547|SUPERIORITY_OR_OTHER||Slope|-1.72|STANDARD_ERROR_OF_MEAN|1.825|||TWO_SIDED|95.0|-5.3|1.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-5.3|
82366839|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.23|STANDARD_ERROR_OF_MEAN|1.8251|||TWO_SIDED|95.0|-3.8|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-3.8|
82366840|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.8252|||TWO_SIDED|95.0|-5.0|2.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-5.0|
82366841|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.65|STANDARD_ERROR_OF_MEAN|1.8254|||TWO_SIDED|95.0|-6.2|0.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-6.2|
82366842|NCT02037165|164444547|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.31|STANDARD_ERROR_OF_MEAN|1.8257|||TWO_SIDED|95.0|-3.9|3.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.3|-3.9|
82366843|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.16|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.8|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.8|
82394198|NCT03436199|164499457|SUPERIORITY||Mean Difference (Net)|3.529|STANDARD_ERROR_OF_MEAN|1.8196||0.053|TWO_SIDED|95.0|-0.046|7.104|||Mixed Models Analysis|Mixed models analysis with repeated measures||||7.104|-0.046|0.0530
82394199|NCT02631070|164499458|SUPERIORITY||Common Risk Difference on Response Rate|24.56|||<|0.0001|TWO_SIDED|95.0|14.48|34.64|||Cochran-Mantel-Haenszel|||||34.64|14.48|<0.0001
82394200|NCT02631070|164499458|SUPERIORITY||Odds Ratio (OR)|5.065|||<|0.0001|TWO_SIDED|95.0|2.278|11.259|||Cochran-Mantel-Haenszel|||||11.259|2.278|<0.0001
82394201|NCT02631070|164499459|SUPERIORITY||Common Risk Difference on Response Rate|20.0||||0.0002|TWO_SIDED|95.0|10.92|29.08|||Cochran-Mantel-Haenszel|||||29.08|10.92|0.0002
82394202|NCT02631070|164499459|SUPERIORITY||Odds Ratio (OR)|5.071||||0.0002|TWO_SIDED|95.0|2.002|12.844|||Cochran-Mantel-Haenszel|||||12.844|2.002|0.0002
82644001|NCT02458365|165003871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.004|TWO_SIDED|95.0|0.35|0.82|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.82|.35|.004
82644002|NCT02458365|165003872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.002|TWO_SIDED|95.0|0.35|0.78|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.78|.35|.002
82394203|NCT02631070|164499460|SUPERIORITY||Common Risk Difference on Response Rate|21.37||||0.0003|TWO_SIDED|95.0|11.23|31.51|||Cochran-Mantel-Haenszel|||||31.51|11.23|0.0003
82394204|NCT02631070|164499460|SUPERIORITY||Odds Ratio (OR)|4.045||||0.0003|TWO_SIDED|95.0|1.827|8.956|||Cochran-Mantel-Haenszel|||||8.956|1.827|0.0003
82644003|NCT02458365|165003872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.005|TWO_SIDED|95.0|0.31|0.81|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.81|.31|.005
82644004|NCT02458365|165003873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.29|0.64|||Regression, Logistic|Hierarchical logistic regression using random intercepts for school to account for the clustered study design||||.64|.29|<.0001
82644005|NCT02458365|165003873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.003|TWO_SIDED|95.0|0.29|0.77|||Regression, Logistic|Adjusted model that controls for potential confounds and covariates, including variables that predicted non-response and the primary outcomes.||||.77|.29|.003
82644006|NCT02953262|165003874|SUPERIORITY|||||||0.057||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.057
82644007|NCT02953262|165003874|SUPERIORITY|||||||0.753||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.753
82644008|NCT02953262|165003874|SUPERIORITY|||||||0.613||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.613
82644009|NCT02953262|165003875|SUPERIORITY|||||||0.308||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.308
82644010|NCT02953262|165003875|SUPERIORITY|||||||0.154||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.154
82644011|NCT02953262|165003875|SUPERIORITY|||||||0.025||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.025
82644012|NCT02953262|165003876|SUPERIORITY|||||||0.102||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.102
82366844|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|2.18|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-0.5|4.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.9|-0.5|
82528551|NCT02247804|164753050|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.32||0.086||95.0|-1.16|0.08|||MMRM|||Week 6, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.08|-1.16|0.0860
82644013|NCT02953262|165003876|SUPERIORITY|||||||0.023||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.023
82644014|NCT02953262|165003876|SUPERIORITY|||||||0.439||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.439
82644015|NCT02953262|165003877|SUPERIORITY|||||||0.982||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.982
82366845|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|1.01|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-1.7|3.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-1.7|
82644016|NCT02953262|165003877|SUPERIORITY|||||||0.559||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.559
82644017|NCT02953262|165003877|SUPERIORITY|||||||0.032||||||The a priori threshold for statistical significance was p=0.05.|Chi-squared|||||||0.032
82644018|NCT03349437|165003880|SUPERIORITY|||||||0.02||||||This p-value is in reference to the total Modified 6MWT Distance|Wilcoxon Signed Rank|||||||0.02
82644019|NCT02367729|165003893|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.3947||0.003|TWO_SIDED|95.0|1.37|2.93|||Wilcoxon (Mann-Whitney)|||||2.93|1.37|0.003
82644020|NCT00759174|165003901|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.033|TWO_SIDED|95.0|1.06|4.34|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||4.34|1.06|0.033
82644021|NCT00759174|165003902|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.36||||0.003|TWO_SIDED|95.0|1.33|4.19|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||4.19|1.33|0.003
82644022|NCT00759174|165003903|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|1.7|7.69|||Conditional logistic regression|||Conditional logistic regression was stratified by participant.||7.69|1.70|<0.001
82644023|NCT01890109|165003904|SUPERIORITY||Least Square Geometric Mean Ratio|1.1||||0.723|TWO_SIDED|95.0|0.66|1.83|||Repeated Measures Analysis of Covariance|||Repeated measures analysis of covariance was performed on the log transformed ratio to baseline of the number of daily moderate to severe hot flashes. Independent variables included treatment, week, and the treatment-by-week interaction; subject served as a random effect; and the log transformed baseline number of daily moderate to severe hot flashes was used as a covariate.||1.83|0.66|0.723
82644024|NCT01890109|165003905|SUPERIORITY||Least Square Geometric Mean Ratio|1.14||||0.551|TWO_SIDED|95.0|0.74|1.74|||Repeated Measures Analysis of Covariance|||Repeated measures analysis of covariance was performed on the log transformed ratio to baseline of the daily hot flash severity score. Independent variables included treatment, week, and the treatment-by-week interaction; subject served as a random effect; and the log transformed baseline daily hot flash severity score was used as a covariate.||1.74|0.74|0.551
82394205|NCT02631070|164499461|SUPERIORITY||Common Risk Difference on Response Rate|29.55|||<|0.0001|TWO_SIDED|95.0|18.73|40.36|||Cochran-Mantel-Haenszel|||||40.36|18.73|<0.0001
82394206|NCT02631070|164499461|SUPERIORITY||Odds Ratio (OR)|5.306|||<|0.0001|TWO_SIDED|95.0|2.526|11.146|||Cochran-Mantel-Haenszel|||||11.146|2.526|<0.0001
82394207|NCT02631070|164499463|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||<0.0001
82394208|NCT02631070|164499463|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||<0.0001
82394209|NCT02631070|164499464|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 1 Through Week 24||||<0.0001
82394210|NCT02631070|164499464|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 1 Through Week 48||||<0.0001
82394211|NCT02631070|164499465|SUPERIORITY||Hazard Ratio (HR)|0.446||||0.0445|TWO_SIDED|95.0|0.196|1.013|||Log Rank||HR is from the Cox proportional hazards model|||1.013|0.196|0.0445
82394212|NCT02631070|164499466|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.5121|TWO_SIDED|95.0|0.362|1.699|||Log Rank||HR is from the Cox proportional hazards model|||1.699|0.362|0.5121
82575359|NCT00945672|164860482|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.35|STANDARD_ERROR_OF_MEAN|1.91||0.4855|TWO_SIDED|90.0|-1.9|4.6|||ANCOVA|||Month 13: Analysis of covariance (ANCOVA) with cohort by treatment interaction as fixed effect and baseline scores as covariate.||4.60|-1.90|0.4855
82644025|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|6.116|||<|0.0001|TWO_SIDED|95.0|5.976|6.255|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"||6.255|5.976|<.0001
82444405|NCT04075409|164597615|OTHER||LS means ratio|1.426|||||TWO_SIDED|90.0|1.112|1.83|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% Confidence Intervals (CIs) were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.830|1.112|
82394213|NCT02631070|164499468|SUPERIORITY|||||||0.2382|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||0.2382
82394214|NCT02631070|164499468|SUPERIORITY|||||||0.5127|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||0.5127
82394215|NCT02631070|164499469|SUPERIORITY|||||||0.5479|||||||Cochran-Mantel-Haenszel|||Week 1 -24||||0.5479
82394216|NCT02631070|164499469|SUPERIORITY|||||||0.298|||||||Cochran-Mantel-Haenszel|||Week 1 - 48||||0.2980
82394217|NCT02631070|164499470|SUPERIORITY||LS Mean Difference|-229.1|STANDARD_ERROR_OF_MEAN|74.43||0.0024|TWO_SIDED|95.0|-375.8|-82.4|||ANCOVA|||Week 9 Through 24||-82.4|-375.8|0.0024
82394218|NCT02631070|164499470|SUPERIORITY||LS Mean Difference|-319.5|STANDARD_ERROR_OF_MEAN|144.57||0.0294|TWO_SIDED|95.0|-606.3|-32.7|||ANCOVA|||Week 33 Through 48||-32.7|-606.3|0.0294
82394219|NCT02631070|164499471|SUPERIORITY||LS Mean Difference|-41.0|STANDARD_ERROR_OF_MEAN|40.18||0.3087|TWO_SIDED|95.0|-120.3|38.2|||ANCOVA|||Weeks 9 Through 24||38.2|-120.3|0.3087
82394220|NCT02631070|164499471|SUPERIORITY||LS Mean Difference|-24.9|STANDARD_ERROR_OF_MEAN|93.42||0.7903|TWO_SIDED|95.0|-210.7|160.8|||ANCOVA|||Weeks 33 Through 48||160.8|-210.7|0.7903
82394221|NCT02631070|164499476|SUPERIORITY||Hazard Ratio (HR)|0.986||||0.958|TWO_SIDED|95.0|0.595|1.636|||Log Rank||HR is from the Cox proportional hazards model|||1.636|0.595|0.9580
82394222|NCT01153620|164499513|SUPERIORITY_OR_OTHER||||||=|0.006||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.006
82394223|NCT03301844|164499528|SUPERIORITY|||||||0.071|||||||Chi-squared||||"Patient preference for one of the two treatments at Visit 3 was presented overall in terms of number and percentage of patients preferring the standard or the study treatment.~Patient preference was compared between the standard and the study treatment with a Chi-Square test for equal proportion."|||0.071
82394224|NCT03301844|164499529|OTHER|||||||0.7353|||||||Chi-squared||||"The incidence of all the treatment-emergent systemic Adverse Events recorded in the eCRF was presented overall at patient level; the incidence of all the treatment-emergent ocular Adverse Events recorded in eCRF was presented by treatment group at eye level.~Incidence of treatment-emergent ocular Adverse Events was compared between treatment groups by means of a Chi-square test."|||0.7353
82394225|NCT00501059|164499531|SUPERIORITY_OR_OTHER|||||||0.597|||||||Log Rank|||Primary efficacy analysis of time to the composite endpoint was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant and the primary objective of the study will have been met if the 2-sided P value is ≤0.05.||||0.597
82394226|NCT00501059|164499532|SUPERIORITY_OR_OTHER|||||||0.6125|||||||Log Rank|||Statistics for time to the composite endpoint was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.6125
82394227|NCT00501059|164499533|SUPERIORITY_OR_OTHER|||||||0.4505|||||||Log Rank|||Statistics for time to non-fatal MI was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.4505
82394228|NCT00501059|164499533|SUPERIORITY_OR_OTHER|||||||0.229|||||||Log Rank|||Statistics for time to total MI was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.229
82394229|NCT00501059|164499533|SUPERIORITY_OR_OTHER|||||||0.3947|||||||Log Rank|||Statistics for time to total non-fatal stroke was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.3947
82448921|NCT01122849|164605160|SUPERIORITY_OR_OTHER||LS Mean difference|0.38||||0.6223|TWO_SIDED|95.0|-1.17|1.93||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for practical problems at Day 14||1.93|-1.17|0.6223
82394230|NCT00501059|164499533|SUPERIORITY_OR_OTHER|||||||0.5125|||||||Log Rank|||Statistics for time to total stroke was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.5125
82394231|NCT00501059|164499534|SUPERIORITY_OR_OTHER|||||||0.9544|||||||Log Rank|||Analysis of time to all-cause mortality was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.9544
82394232|NCT00501059|164499534|SUPERIORITY_OR_OTHER|||||||0.4422|||||||Log Rank|||Analysis of time to the first occurrence of all cancers excluding non-melanoma skin cancer was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.4422
82394233|NCT00501059|164499534|SUPERIORITY_OR_OTHER|||||||0.611|||||||Log Rank|||Analysis of time to the first occurence colon cancer was conducted via a 2-sided log-rank test stratified for treatment, country, and sex. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||||0.611
82394234|NCT00501059|164499535|OTHER||Cox Proportional Hazard|0.99||||0.9459|TWO_SIDED|95.0|0.8|1.24|||Log Rank|||Analysis of incidence of all-cause mortality was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.24|0.80|0.9459
82394235|NCT00501059|164499536|OTHER||Cox Proportional Hazard|0.85||||0.2325|TWO_SIDED|95.0|0.64|1.11|||Log Rank|||Analysis of incidence of MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.11|0.64|0.2325
82394236|NCT00501059|164499536|OTHER||Cox Proportional Hazard|1.12||||0.5072||95.0|0.8|1.55|||Log Rank|||Analysis of incidence of stroke was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.55|0.80|0.5072
82394237|NCT00501059|164499536|OTHER||Cox Proportional Hazard|0.97||||0.901||95.0|0.62|1.52|||Log Rank|||Analysis of incidence of cardiovascular death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.52|0.62|0.9010
82394238|NCT00501059|164499536|OTHER||Cox Proportional Hazard|1.0||||0.9979|TWO_SIDED|95.0|0.54|1.86|||Log Rank|||Analysis of incidence of UA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.86|0.54|0.9979
82394239|NCT00501059|164499536|OTHER||Cox Proportional Hazard|0.93||||0.7455|TWO_SIDED|95.0|0.61|1.42|||Log Rank|||Analysis of incidence of TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.42|0.61|0.7455
82394240|NCT00501059|164499538|OTHER||Cox Proportional Hazard|0.96||||0.6038|TWO_SIDED|95.0|0.81|1.13|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke, CV death, UA or TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.13|0.81|0.6038
82394241|NCT00501059|164499538|OTHER||Cox Proportional Hazard|0.95||||0.619|TWO_SIDED|95.0|0.79|1.15|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke or CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.15|0.79|0.6190
82394242|NCT00501059|164499538|OTHER||Cox Proportional Hazard|0.9||||0.4562|TWO_SIDED|95.0|0.67|1.2|||Log Rank|||Analysis of incidence of non-fatal MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.20|0.67|0.4562
82394243|NCT00501059|164499539|OTHER||Cox Proportional Hazard|0.81||||0.0756|TWO_SIDED|95.0|0.64|1.02|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke, CV death, UA or TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.02|0.64|0.0756
82394244|NCT00501059|164499539|OTHER||Cox Proportional Hazard|0.79||||0.0661|TWO_SIDED|95.0|0.61|1.02|||Log Rank|||Analysis of incidence of composite outcome of MI, stroke or CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.02|0.61|0.0661
82394245|NCT00501059|164499539|OTHER||Cox Proportional Hazard|0.53||||0.0014|TWO_SIDED|95.0|0.36|0.79|||Log Rank|||Analysis of incidence of MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||0.79|0.36|0.0014
82394246|NCT00501059|164499539|OTHER||Cox Proportional Hazard|0.55||||0.0056|TWO_SIDED|95.0|0.36|0.84|||Log Rank|||Analysis of incidence of non-fatal MI was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||0.84|0.36|0.0056
82394247|NCT00501059|164499539|OTHER||Cox Proportional Hazard|1.12||||0.6291||95.0|0.71|1.75|||Log Rank|||Analysis of incidence of stroke was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.75|0.71|0.6291
82394248|NCT00501059|164499539|OTHER||Cox Proportional Hazard|1.03||||0.9161|TWO_SIDED|95.0|0.6|1.77|||Log Rank|||Analysis of incidence of CV death was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.77|0.60|0.9161
82394249|NCT00501059|164499539|OTHER||Cox Proportional Hazard|0.75||||0.538||95.0|0.3|1.87|||Log Rank|||Analysis of incidence of UA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.87|0.30|0.5380
82394250|NCT00501059|164499539|OTHER||Cox Proportional Hazard|1.03||||0.9181|TWO_SIDED|95.0|0.55|1.95|||Log Rank|||Analysis of incidence of TIA was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.95|0.55|0.9181
82394251|NCT00501059|164499539|OTHER||Cox Proportional Hazard|1.1||||0.4796|TWO_SIDED|95.0|0.84|1.45|||Log Rank|||Analysis of incidence of all-cause mortality was conducted via a 2-sided log-rank test. Results would be considered statistically significant if the 2-sided P value is ≤0.05.||1.45|0.84|0.4796
82394252|NCT01592292|164499545|SUPERIORITY_OR_OTHER|||||||0.3037||||||Change in DAS28 at Month 6 was performed using analysis of covariance (ANCOVA) model with baseline DAS28 score and rheumatoid factor (RF) status as covariate values.|ANCOVA|||||||0.3037
82394253|NCT01592292|164499546|SUPERIORITY_OR_OTHER|||||||0.0951||||||Change in DAS28 at Month 6 was performed using ANCOVA model with baseline DAS28 score and rheumatoid factor status as covariate values.|ANCOVA|||||||0.0951
82394254|NCT01592292|164499547|SUPERIORITY_OR_OTHER|||||||0.239||||||Change in DAS28 at Month 12 was performed using ANCOVA model with baseline DAS28 score and rheumatoid factor status as covariate values.|ANCOVA|||||||0.2390
82394255|NCT01592292|164499548|SUPERIORITY_OR_OTHER|||||||0.3212||||||Change in TJC at Month 6 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.3212
82644026|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|6.073|||<|0.0001|TWO_SIDED|95.0|5.963|6.183|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"||6.183|5.963|<.0001
82528552|NCT02247804|164753050|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.31||0.0362||95.0|-1.27|-0.04|||MMRM|||Week 6, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.27|0.0362
82644027|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.736|||<|0.0001|TWO_SIDED|95.0|5.605|5.868|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"||5.868|5.605|<.0001
82394256|NCT01592292|164499548|SUPERIORITY_OR_OTHER|||||||0.7097||||||Change in TJC at Month 12 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.7097
82394257|NCT01592292|164499549|SUPERIORITY_OR_OTHER|||||||0.2444||||||Change in TJC at Month 6 was performed using ANCOVA with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2444
82394258|NCT01592292|164499549|SUPERIORITY_OR_OTHER|||||||0.3903||||||Change in TJC at Month 12 was performed using ANCOVA model with baseline TJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.3903
82394259|NCT01592292|164499550|SUPERIORITY_OR_OTHER|||||||0.5306||||||Change in SJC at Month 6 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.5306
82528553|NCT02247804|164753051|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.39||0.295||95.0|-1.17|0.36|||MMRM|||Week 12, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.36|-1.17|0.2950
82394260|NCT01592292|164499550|SUPERIORITY_OR_OTHER|||||||0.2542||||||Change in SJC at Month 12 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2542
82394261|NCT01592292|164499551|SUPERIORITY_OR_OTHER|||||||0.2549||||||Change in SJC at Month 6 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2549
82394262|NCT01592292|164499551|SUPERIORITY_OR_OTHER|||||||0.7644||||||Change in SJC at Month 12 was performed using ANCOVA model with baseline SJC and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.7644
82394263|NCT01592292|164499552|SUPERIORITY_OR_OTHER|||||||0.8987||||||Change in ESR at Month 6 was performed using ANCOVA model with baseline ESR and rheumatoid factor status as covariate values.|ANCOVA|||||||0.8987
82394264|NCT01592292|164499552|SUPERIORITY_OR_OTHER|||||||0.5808||||||Change in ESR at Month 12 was performed using ANCOVA model with baseline ESR and rheumatoid factor status as covariate values.|ANCOVA|||||||0.5808
82394265|NCT01592292|164499553|SUPERIORITY_OR_OTHER|||||||0.2282||||||Change in ESR at Month 6 was performed using ANCOVA model with baseline ESR and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.2282
82394266|NCT01592292|164499553|SUPERIORITY_OR_OTHER|||||||0.5849||||||Change in ESR at Month 12 was performed using ANCOVA model with baseline ESR and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.5849
82394267|NCT01592292|164499554|SUPERIORITY_OR_OTHER|||||||0.49||||||Change in CRP at Month 6 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.4900
82394268|NCT01592292|164499554|SUPERIORITY_OR_OTHER|||||||0.1826||||||Change in CRP at Month 12 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1826
82394269|NCT01592292|164499555|SUPERIORITY_OR_OTHER|||||||0.1894||||||Change in CRP at Month 6 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1894
82394270|NCT01592292|164499555|SUPERIORITY_OR_OTHER|||||||0.1805||||||Change in CRP at Month 12 was performed using ANCOVA model with baseline CRP and baseline rheumatoid factor status as covariate values.|ANCOVA|||||||0.1805
82394271|NCT01592292|164499556|SUPERIORITY_OR_OTHER|||||||0.0568||||||Change in HAQ-DI at Month 6 was performed using ANCOVA model with baseline rheumatoid factor status as covariate value.|ANCOVA|||||||0.0568
82394272|NCT01592292|164499557|SUPERIORITY_OR_OTHER|||||||0.1167||||||Change in HAQ-DI at Month 6 was performed using ANCOVA model with baseline rheumatoid factor status as covariate value.|ANCOVA|||||||0.1167
82644028|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|5.792|||<|0.0001|TWO_SIDED|95.0|5.687|5.897|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"||5.897|5.687|<.0001
82644029|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.835|||<|0.0001|TWO_SIDED|95.0|5.701|5.969|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"||5.969|5.701|<.0001
82394273|NCT00819780|164499559|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.871||||0.3531|TWO_SIDED|95.0|0.651|1.166|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.166|0.651|0.3531
82644030|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|5.799|||<|0.0001|TWO_SIDED|95.0|5.694|5.904|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"||5.904|5.694|<.0001
82644031|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|4.881|||<|0.0001|TWO_SIDED|95.0|4.713|5.048|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"||5.048|4.713|<.0001
82644032|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.844|||<|0.0001|TWO_SIDED|95.0|4.711|4.977|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"||4.977|4.711|<.0001
82644033|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.185|||<|0.0001|TWO_SIDED|95.0|5.021|5.35|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"||5.350|5.021|<.0001
82644034|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.933|||<|0.0001|TWO_SIDED|95.0|4.801|5.066|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"||5.066|4.801|<.0001
82644035|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|5.014|||<|0.0001|TWO_SIDED|95.0|4.852|5.175|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"||5.175|4.852|<.0001
82394274|NCT00819780|164499560|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.723||||0.1386|TWO_SIDED|95.0|0.47|1.111|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.111|0.470|0.1386
82394275|NCT00819780|164499561|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.5497|TWO_SIDED|95.0|0.72|1.95|||Stratified exact test|Stratified by prior adjuvant oxaliplatin therapy|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||1.95|0.72|0.5497
82394276|NCT00819780|164499563|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.874||||0.3861|TWO_SIDED|95.0|0.645|1.185|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.185|0.645|0.3861
82575360|NCT00945672|164860482|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.45|STANDARD_ERROR_OF_MEAN|2.185||0.5132|TWO_SIDED|90.0|-2.27|5.16|||ANCOVA|||Month 13: Analysis of covariance (ANCOVA) with cohort by treatment interaction as fixed effect and baseline scores as covariate.||5.16|-2.27|0.5132
82575361|NCT00584077|164860491|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||Each subject served as their own control as a comparison of the airway innervated (contralateral native lung) with the denervated airway (allograft)||||<0.01
82575362|NCT00584077|164860492|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value was adjusted for multiple comparisons using Bonferroni test|ANOVA|||For the cross-sectional and longitudinal groups, a comparison of cough frequency after airway irritation of the main carina, and the proximal and distal anastomotic sites was performed using one-way analysis of variance with Bonferroni test. In the longitudinal cohort, a comparison of the cough frequencies at different airway sites at 1.5 and 12 months was performed using one-way analysis of variance with Bonferroni test.||||<0.01
82575363|NCT03054337|164860493|SUPERIORITY||Least squares mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.301||0.0045|TWO_SIDED|95.0|0.29|1.51|||ANCOVA|The analysis of covariance (ANCOVA) model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||1.51|0.29|0.0045
82644036|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|4.892|||<|0.0001|TWO_SIDED|95.0|4.763|5.02|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"||5.020|4.763|<.0001
82644037|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.379||||0.0013|TWO_SIDED|95.0|-0.646|-0.112|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.112|-0.646|0.0013
82444406|NCT04075409|164597615|OTHER||LS means ratio|1.234|||||TWO_SIDED|90.0|0.9619|1.584|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.584|0.9619|
82394277|NCT00819780|164499566|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.651||||0.0286|TWO_SIDED|95.0|0.444|0.956|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.956|0.444|0.0286
82394278|NCT00819780|164499567|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.579||||0.0083|TWO_SIDED|95.0|0.386|0.869|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.869|0.386|0.0083
82448922|NCT01122849|164605161|SUPERIORITY_OR_OTHER||LS Mean difference|-1.34||||0.4258|TWO_SIDED|95.0|-4.68|2.01||Between treatment p-values and confidence intervals|LS Mean Difference|||Comparison at Day 7||2.01|-4.68|0.4258
82575364|NCT03054337|164860493|SUPERIORITY||Least squares mean difference|1.59|STANDARD_ERROR_OF_MEAN|0.306|<|0.0001|TWO_SIDED|95.0|0.98|2.21|||ANCOVA|The ANCOVA model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.21|0.98|<0.0001
82575365|NCT03054337|164860493|SUPERIORITY||Least squares mean difference|2.09|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|1.49|2.7|||ANCOVA|The ANCOVA model included treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||||2.70|1.49|<0.0001
82575366|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.103||0.0018|TWO_SIDED|95.0|0.13|0.55|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.55|0.13|0.0018
82575367|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.51|STANDARD_ERROR_OF_MEAN|0.103|<|0.0001|TWO_SIDED|95.0|0.3|0.72|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.72|0.30|<0.0001
82575368|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.66|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|0.45|0.86|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||RBC Count||0.86|0.45|<0.0001
82575369|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.005||0.7804|TWO_SIDED|95.0|-0.01|0.01|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.01|-0.01|0.7804
82644038|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.281||||0.0034|TWO_SIDED|95.0|-0.496|-0.065|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.065|-0.496|0.0034
82644039|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.281||||0.0354|TWO_SIDED|95.0|-0.549|-0.012|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.012|-0.549|0.0354
82644040|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.274||||0.0044|TWO_SIDED|95.0|-0.489|-0.059|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.059|-0.489|0.0044
82644041|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-1.235|||<|0.0001|TWO_SIDED|95.0|-1.539|-0.93|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.930|-1.539|<.0001
82644042|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-1.229|||<|0.0001|TWO_SIDED|95.0|-1.475|-0.983|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.983|-1.475|<.0001
82644043|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.23|-0.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)"||-0.630|-1.230|<.0001
82644044|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.383|-0.896|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.896|-1.383|<.0001
82644045|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.723|||<|0.0001|TWO_SIDED|95.0|0.436|1.009|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)"||1.009|0.436|<.0001
82644046|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.901|||<|0.0001|TWO_SIDED|95.0|0.667|1.134|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)"||1.134|0.667|<.0001
82448923|NCT01122849|164605161|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.05||||0.0764|TWO_SIDED|95.0|-6.43|0.33||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at Day 7||0.33|-6.43|0.0764
82366846|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|1.26|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-1.4|3.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.9|-1.4|
82366847|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.0|3.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-2.0|
82366848|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|0.36|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-2.3|3.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.0|-2.3|
82366849|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-4.3|1.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-4.3|
82366850|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.51|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-4.2|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-4.2|
82366851|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.83|STANDARD_ERROR_OF_MEAN|1.3652|||TWO_SIDED|95.0|-3.5|1.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-3.5|
82366852|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-4.2|1.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.0|-4.2|
82394279|NCT00819780|164499568|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.606||||0.0934|TWO_SIDED|95.0|0.337|1.088|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant Oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||1.088|0.337|0.0934
82394280|NCT00819780|164499569|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.465||||0.0235|TWO_SIDED|95.0|0.239|0.902|||Stratified Cox proportional hazards|The Cox proportional hazard model is stratified by prior adjuvant oxaliplatin therapy|A hazard ratio \< 1.0 favors panitumumab|||0.902|0.239|0.0235
82394281|NCT00819780|164499570|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.9426|TWO_SIDED|95.0|0.55|2.12|||Stratified exact test|Stratified by prior exposure to oxaliplatin|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||2.12|0.55|0.9426
82394282|NCT00819780|164499571|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.52|2.15|||Stratified exact test|Stratified by prior exposure to oxaliplatin|The odds ratio is defined as the odds of having an objective response in the panitumumab plus mFOLFOX6 arm relative to the odds in the bevacizumab plus mFOLFOX6 arm.|||2.15|0.52|1.0000
82444407|NCT04075409|164597615|OTHER||LS means ratio|1.156|||||TWO_SIDED|90.0|0.9008|1.483|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.483|0.9008|
82448924|NCT01122849|164605161|SUPERIORITY_OR_OTHER||LS Mean Difference|1.71||||0.2986|TWO_SIDED|95.0|-1.56|4.97||Between treatment p-values and confidence intervals|ANCOVA|||Comparison at Day 7||4.97|-1.56|0.2986
82644047|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.821|||<|0.0001|TWO_SIDED|95.0|0.533|1.109|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)"||1.109|0.533|<.0001
82644048|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.907|||<|0.0001|TWO_SIDED|95.0|0.675|1.14|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)"||1.140|.675|<.0001
82644049|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|-0.133||||0.8291|TWO_SIDED|95.0|-0.453|0.188|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)"||0.188|-0.453|.8291
82644050|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.048||||0.9997|TWO_SIDED|95.0|-0.308|0.213|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)"||0.213|-0.308|0.9997
82644051|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)"|Mean Difference (Net)|0.172||||0.5755|TWO_SIDED|95.0|-0.145|0.488|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)"||0.488|-0.145|0.5755
82644052|NCT03692078|165003985|EQUIVALENCE|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)"|Mean Difference (Net)|0.042||||0.9999|TWO_SIDED|95.0|-0.217|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7.~Alternate hypothesis: NNAL amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)"||0.301|-0.217|0.9999
82644053|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|2.629|||<|0.0001|TWO_SIDED|95.0|2.317|2.94|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)"||2.940|2.317|<.0001
82644054|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.632|||<|0.0001|TWO_SIDED|95.0|2.321|2.943|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)"||2.943|2.321|<.0001
82444408|NCT04075409|164597616|OTHER||LS means ratio|2.122|||||TWO_SIDED|90.0|1.706|2.638|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.638|1.706|
82366853|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|1.07|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-1.5|3.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-1.5|
82366854|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|0.82|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-1.8|3.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-1.8|
82394283|NCT01447927|164499591|SUPERIORITY_OR_OTHER|||||||0.7981|||||||Wilcoxon Rank-Rum Test (1-sided)|||The null hypothesis was that the percent change in mean pS6K1 values (from pre to post) was the same or increased for the metformin arm as compared to placebo. Assuming equal standard deviations (i.e. 50%) across the metformin and placebo groups, 30 participants per arm yielded 84% power to detect at least a 35% decrease in the metformin arm as compared to placebo, using a 1-sided t-test with a significant level of 0.05.||||0.7981
82394284|NCT04231396|164499593|SUPERIORITY||Mean Difference (Final Values)|0.1456||||0.037|TWO_SIDED|95.0|0.012|0.279|||t-test, 1 sided|||The SNR Loss scores computed the means per client and week (1-12), with a smoothing method: isotonic regression (isoreg, via R). The slopes (lsfit, via R) calculated of the smoothed means separately per client, per 7-9 weeks (early training weeks), and per 10-12 weeks (final training weeks). This created slope differences, per client.||.279|.012|.037
82394285|NCT03334422|164499615|SUPERIORITY||Odds Ratio (OR)|2.58||||0.026|TWO_SIDED|95.0|1.12|5.92|||Regression, Logistic|||||5.92|1.12|0.026
82394286|NCT03334422|164499615|SUPERIORITY||Odds Ratio (OR)|3.64||||0.001|TWO_SIDED|95.0|1.64|8.05|||Regression, Logistic|||||8.05|1.64|0.001
82394287|NCT03334422|164499616|SUPERIORITY||Odds Ratio (OR)|2.13||||0.085|TWO_SIDED|95.0|0.9|5.02|||Regression, Logistic|||||5.02|0.90|0.085
82394288|NCT03334422|164499617|SUPERIORITY||Odds Ratio (OR)|2.35||||0.024|TWO_SIDED|95.0|1.12|4.93|||Regression, Logistic|||||4.93|1.12|0.024
82394289|NCT03334422|164499617|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.73|7.04|||Regression, Logistic|||||7.04|1.73|<0.001
82394290|NCT03334422|164499617|SUPERIORITY||Odds Ratio (OR)|4.41|||<|0.001|TWO_SIDED|95.0|2.22|8.76|||Regression, Logistic|||||8.76|2.22|<0.001
82394291|NCT03334422|164499618|SUPERIORITY||Odds Ratio (OR)|2.8||||0.053|TWO_SIDED|95.0|0.99|7.97|||Regression, Logistic|||||7.97|0.99|0.053
82394292|NCT03334422|164499618|SUPERIORITY||Odds Ratio (OR)|3.87||||0.007|TWO_SIDED|95.0|1.44|10.41|||Regression, Logistic|||||10.41|1.44|0.007
82394293|NCT03334422|164499618|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|2.42|15.91|||Regression, Logistic|||||15.91|2.42|<0.001
82394294|NCT03334422|164499619|SUPERIORITY||Mean Difference (Net)|-12.76|STANDARD_ERROR_OF_MEAN|6.81||0.062|TWO_SIDED|95.0|-26.19|0.66|||Mixed Models Analysis|||||0.66|-26.19|0.062
82394295|NCT03334422|164499619|SUPERIORITY||Mean Difference (Net)|-25.89|STANDARD_ERROR_OF_MEAN|6.54|<|0.001|TWO_SIDED|95.0|-38.78|-12.99|||Mixed Models Analysis|||||-12.99|-38.78|<0.001
82394296|NCT03334422|164499619|SUPERIORITY||Mean Difference (Net)|-25.97|STANDARD_ERROR_OF_MEAN|6.24|<|0.001|TWO_SIDED|95.0|-38.29|-13.65|||Mixed Models Analysis|||||-13.65|-38.29|<0.001
82394297|NCT03334422|164499620|SUPERIORITY||Odds Ratio (OR)|2.9||||0.086|TWO_SIDED|95.0|0.86|9.76|||Regression, Logistic|||||9.76|0.86|0.086
82448925|NCT01122849|164605162|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12||||0.482|TWO_SIDED|95.0|-2.05|4.29||Between treatment p-values and confidence intervals|ANCOVA|||||4.29|-2.05|0.4820
82394298|NCT03334422|164499620|SUPERIORITY||Odds Ratio (OR)|4.95||||0.006|TWO_SIDED|95.0|1.58|15.49|||Regression, Logistic|||||15.49|1.58|0.006
82394299|NCT03334422|164499620|SUPERIORITY||Odds Ratio (OR)|7.4|||<|0.001|TWO_SIDED|95.0|2.51|21.83|||Regression, Logistic|||||21.83|2.51|<0.001
82394300|NCT03334422|164499621|SUPERIORITY||Odds Ratio (OR)|1.41||||0.505|TWO_SIDED|95.0|0.51|3.87|||Regression, Logistic|||||3.87|0.51|0.505
82394301|NCT03334422|164499621|SUPERIORITY||Odds Ratio (OR)|3.64||||0.002|TWO_SIDED|95.0|1.6|8.27|||Regression, Logistic|||||8.27|1.60|0.002
82394302|NCT03334422|164499621|SUPERIORITY||Odds Ratio (OR)|4.91|||<|0.001|TWO_SIDED|95.0|2.22|10.86|||Regression, Logistic|||||10.86|2.22|<0.001
82394303|NCT03334422|164499622|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.074|TWO_SIDED|95.0|-0.57|0.03|||Mixed Models Analysis|||||0.03|-0.57|0.074
82394304|NCT03334422|164499622|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.011|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Models Analysis|||||-0.09|-0.68|0.011
82394305|NCT03334422|164499622|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.84|-0.26|||Mixed Models Analysis|||||-0.26|-0.84|<0.001
82394306|NCT03334422|164499623|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.41||0.58|TWO_SIDED|95.0|-1.05|0.59|||Mixed Models Analysis|||||0.59|-1.05|0.580
82394307|NCT03334422|164499623|SUPERIORITY||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.54|-0.96|||Mixed Models Analysis|||||-0.96|-2.54|<0.001
82394308|NCT03334422|164499623|SUPERIORITY||Mean Difference (Net)|-1.62|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.37|-0.87|||Mixed Models Analysis|||||-0.87|-2.37|<0.001
82394309|NCT03334422|164499624|SUPERIORITY||Odds Ratio (OR)|1.67||||0.094|TWO_SIDED|95.0|0.92|3.04|||Regression, Logistic|||||3.04|0.92|0.094
82394310|NCT03334422|164499624|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|1.65|5.11|||Regression, Logistic|||||5.11|1.65|<0.001
82366855|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.32|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-3.9|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.9|
82394311|NCT03334422|164499624|SUPERIORITY||Odds Ratio (OR)|3.15|||<|0.001|TWO_SIDED|95.0|1.8|5.51|||Regression, Logistic|||||5.51|1.80|<0.001
82394312|NCT03334422|164499625|SUPERIORITY||Odds Ratio (OR)|1.57||||0.528|TWO_SIDED|95.0|0.39|6.31|||Regression, Logistic|||||6.31|0.39|0.528
82394313|NCT03334422|164499625|SUPERIORITY||Odds Ratio (OR)|2.56||||0.142|TWO_SIDED|95.0|0.73|8.95|||Regression, Logistic|||||8.95|0.73|0.142
82394314|NCT03334422|164499625|SUPERIORITY||Odds Ratio (OR)|2.68||||0.123|TWO_SIDED|95.0|0.77|9.37|||Regression, Logistic|||||9.37|0.77|0.123
82394315|NCT03334422|164499626|SUPERIORITY||LSMean Difference|-6.88|STANDARD_ERROR_OF_MEAN|3.63||0.059|TWO_SIDED|95.0|-14.03|0.28|||Mixed Models Analysis|||||0.28|-14.03|0.059
82366856|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|0.56|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-2.0|3.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.2|-2.0|
82366857|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-2.6|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.6|
82394316|NCT03334422|164499626|SUPERIORITY||LSMean Difference|-14.48|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|-21.32|-7.63|||Mixed Models Analysis|||||-7.63|-21.32|<0.001
82394317|NCT03334422|164499626|SUPERIORITY||LSMean Difference|-14.15|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-20.69|-7.61|||Mixed Models Analysis|||||-7.61|-20.69|<0.001
82394318|NCT03334422|164499627|SUPERIORITY||Odds Ratio (OR)|2.55||||0.193|TWO_SIDED|95.0|0.62|10.45|||Regression, Logistic|||||10.45|0.62|0.193
82394319|NCT03334422|164499627|SUPERIORITY||Odds Ratio (OR)|4.1||||0.042|TWO_SIDED|95.0|1.05|16.03|||Mixed Models Analysis|||||16.03|1.05|0.042
82394320|NCT03334422|164499627|SUPERIORITY||Odds Ratio (OR)|3.89||||0.044|TWO_SIDED|95.0|1.04|14.57|||Regression, Logistic|||||14.57|1.04|0.044
82394321|NCT03334422|164499628|SUPERIORITY||LSMean Difference|-6.16|STANDARD_ERROR_OF_MEAN|3.23||0.058|TWO_SIDED|95.0|-12.53|0.21|||Mixed Models Analysis|||||0.21|-12.53|0.058
82394322|NCT03334422|164499628|SUPERIORITY||LSMean Difference|-9.3|STANDARD_ERROR_OF_MEAN|3.1||0.003|TWO_SIDED|95.0|-15.42|-3.18|||Mixed Models Analysis|||||-3.18|-15.42|0.003
82394323|NCT03334422|164499628|SUPERIORITY||LSMean Difference|-11.16|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-17.03|-5.3|||Mixed Models Analysis|||||-5.30|-17.03|<0.001
82394324|NCT03334422|164499629|SUPERIORITY|||||||0.189|||||||Fisher Exact|||||||0.189
82394325|NCT03334422|164499629|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82394326|NCT03334422|164499629|SUPERIORITY|||||||0.383|||||||Fisher Exact|||||||0.383
82394327|NCT03334422|164499630|SUPERIORITY||LSMean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.46||0.081|TWO_SIDED|95.0|-31.45|1.85|||Mixed Models Analysis|||||1.85|-31.45|0.081
82394328|NCT03334422|164499630|SUPERIORITY||LSMean Difference|-30.66|STANDARD_ERROR_OF_MEAN|8.11|<|0.001|TWO_SIDED|95.0|-46.62|-14.7|||Mixed Models Analysis|||||-14.70|-46.62|<0.001
82394329|NCT03334422|164499630|SUPERIORITY||LSMean Difference|-30.28|STANDARD_ERROR_OF_MEAN|7.63|<|0.001|TWO_SIDED|95.0|-45.29|-15.27|||Mixed Models Analysis|||||-15.27|-45.29|<0.001
82394330|NCT03334422|164499631|SUPERIORITY||LSMean Difference|-2.36|STANDARD_ERROR_OF_MEAN|1.32||0.075|TWO_SIDED|95.0|-4.97|0.24|||Mixed Models Analysis|||||0.24|-4.97|0.075
82394331|NCT03334422|164499631|SUPERIORITY||LSMean Difference|-5.58|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|-8.07|-3.08|||Mixed Models Analysis|||||-3.08|-8.07|<0.001
82394332|NCT03334422|164499631|SUPERIORITY||LSMean Difference|-6.07|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-8.47|-3.68|||Mixed Models Analysis|||||-3.68|-8.47|<0.001
82394333|NCT03334422|164499632|SUPERIORITY||LSMean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.13|TWO_SIDED|95.0|-0.61|0.08|||Mixed Models Analysis|||||0.08|-0.61|0.130
82394334|NCT03334422|164499632|SUPERIORITY||LSMean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.94|-0.28|||Mixed Models Analysis|||||-0.28|-0.94|<0.001
82394335|NCT03334422|164499632|SUPERIORITY||LSMean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.0|-0.38|||Mixed Models Analysis|||||-0.38|-1.00|<0.001
82394336|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.51||0.067|TWO_SIDED|95.0|-1.95|0.07|||Mixed Models Analysis|||HADS Anxiety.||0.07|-1.95|0.067
82394337|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.49||0.06|TWO_SIDED|95.0|-1.89|0.04|||Mixed Models Analysis|||HADS Anxiety.||0.04|-1.89|0.060
82394338|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.47||0.006|TWO_SIDED|95.0|-2.23|-0.38|||Mixed Models Analysis|||HADS Anxiety.||-0.38|-2.23|0.006
82366858|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.05|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-4.7|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-4.7|
82366859|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|1.3253|||TWO_SIDED|95.0|-2.2|3.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.0|-2.2|
82394339|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.321|TWO_SIDED|95.0|-1.5|0.49|||Mixed Models Analysis|||HADS Depression.||0.49|-1.50|0.321
82644055|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|2.006|||<|0.0001|TWO_SIDED|95.0|1.714|2.298|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)"||2.298|1.714|<.0001
82644056|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.143|||<|0.0001|TWO_SIDED|95.0|1.847|2.44|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)"||2.440|1.847|<.0001
82644057|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|1.987|||<|0.0001|TWO_SIDED|95.0|1.69|2.284|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)"||2.284|1.690|<.0001
82644058|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|2.261|||<|0.0001|TWO_SIDED|95.0|1.964|2.559|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)"||2.559|1.964|<.0001
82647829|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-3.4||||0.0021||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 3 (Placebo=2.5 mg=5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 3. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||0.0021
82394340|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.49||0.143|TWO_SIDED|95.0|-1.67|0.24|||Mixed Models Analysis|||HADS Depression.||0.24|-1.67|0.143
82394341|NCT03334422|164499633|SUPERIORITY||LSMean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.47||0.012|TWO_SIDED|95.0|-2.11|-0.26|||Mixed Models Analysis|||HADS Depression.||-0.26|-2.11|0.012
82394342|NCT03334422|164499634|SUPERIORITY||LSMean Difference|-1.76|STANDARD_ERROR_OF_MEAN|0.97||0.071|TWO_SIDED|95.0|-3.67|0.15|||Mixed Models Analysis|||||0.15|-3.67|0.071
82394343|NCT03334422|164499634|SUPERIORITY||LSMean Difference|-4.09|STANDARD_ERROR_OF_MEAN|0.93|<|0.001|TWO_SIDED|95.0|-5.92|-2.26|||Mixed Models Analysis|||||-2.26|-5.92|<0.001
82394344|NCT03334422|164499634|SUPERIORITY||LSMean Difference|-4.22|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.98|-2.45|||Mixed Models Analysis|||||-2.45|-5.98|<0.001
82394345|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-0.91|STANDARD_ERROR_OF_MEAN|5.17||0.861|TWO_SIDED|95.0|-11.16|9.34|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||9.34|-11.16|0.861
82394346|NCT03334422|164499635|SUPERIORITY||LSMean Difference|1.01|STANDARD_ERROR_OF_MEAN|5.03||0.841|TWO_SIDED|95.0|-8.94|10.97||Absenteeism|Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||10.97|-8.94|0.841
82394347|NCT03334422|164499635|SUPERIORITY||LSMean Difference|5.16|STANDARD_ERROR_OF_MEAN|4.6||0.264|TWO_SIDED|95.0|-3.95|14.26|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||14.26|-3.95|0.264
82448926|NCT01122849|164605162|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.81||||0.2607|TWO_SIDED|95.0|-5.02|1.39||Between treatment p-values and confidence intervals|ANCOVA|||||1.39|-5.02|0.2607
82394348|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-3.12|STANDARD_ERROR_OF_MEAN|5.63||0.58|TWO_SIDED|95.0|-14.26|8.02|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||8.02|-14.26|0.580
82394349|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-13.56|STANDARD_ERROR_OF_MEAN|5.5||0.015|TWO_SIDED|95.0|-24.45|-2.86|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-2.86|-24.45|0.015
82394350|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-13.13|STANDARD_ERROR_OF_MEAN|5.08||0.011|TWO_SIDED|95.0|-23.2|-3.06|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-3.06|-23.20|0.011
82394351|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-1.81|STANDARD_ERROR_OF_MEAN|6.71||0.788|TWO_SIDED|95.0|-15.12|11.49|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||11.49|-15.12|0.788
82394352|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-9.48|STANDARD_ERROR_OF_MEAN|6.57||0.152|TWO_SIDED|95.0|-22.51|3.55|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||3.55|-22.51|0.152
82394353|NCT03334422|164499635|SUPERIORITY|Overall Work Impairment|LSMean Difference|-9.13|STANDARD_ERROR_OF_MEAN|6.07||0.135|TWO_SIDED|95.0|-21.17|2.9|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||2.90|-21.17|0.135
82394354|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-2.26|STANDARD_ERROR_OF_MEAN|4.25||0.595|TWO_SIDED|95.0|-10.65|6.12|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||6.12|-10.65|0.595
82444409|NCT04075409|164597616|OTHER||LS means ratio|1.289|||||TWO_SIDED|90.0|1.037|1.603|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.603|1.037|
82444410|NCT04075409|164597616|OTHER||LS means ratio|1.646|||||TWO_SIDED|90.0|1.323|2.046|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.046|1.323|
82444411|NCT04075409|164597617|OTHER||LS means ratio|2.124|||||TWO_SIDED|90.0|1.709|2.639|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.639|1.709|
82644059|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.263||||0.1658|TWO_SIDED|95.0|-0.635|0.109|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)"||0.109|-0.635|0.1658
82394355|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-22.43|-6.17|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-6.17|-22.43|<0.001
82394356|NCT03334422|164499635|SUPERIORITY||LSMean Difference|-14.47|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-22.11|-6.83|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-6.83|-22.11|<0.001
82394357|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.295|TWO_SIDED|95.0|-0.02|0.07|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.07|-0.02|0.295
82394358|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.02||0.001|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.12|0.03|0.001
82394359|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||Health State Index Score (US Algorithm)||0.12|0.03|<0.001
82394360|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.334|TWO_SIDED|95.0|-0.03|0.1|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.10|-0.03|0.334
82394361|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|0.04|0.17|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.17|0.04|0.001
82394362|NCT03334422|164499636|SUPERIORITY||LSMean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.05|0.17|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.17|0.05|<0.001
82394363|NCT03334422|164499637|SUPERIORITY||LSMean Difference|0.4|STANDARD_ERROR_OF_MEAN|3.47||0.907|TWO_SIDED|95.0|-6.44|7.25|||Mixed Models Analysis|||EQ-5D-5L VAS Score||7.25|-6.44|0.907
82394364|NCT03334422|164499637|SUPERIORITY||LSMean Difference|8.19|STANDARD_ERROR_OF_MEAN|3.33||0.015|TWO_SIDED|95.0|1.63|14.76|||Mixed Models Analysis|||EQ-5D-5L VAS Score||14.76|1.63|0.015
82394365|NCT03334422|164499637|SUPERIORITY||LSMean Difference|8.82|STANDARD_ERROR_OF_MEAN|3.14||0.006|TWO_SIDED|95.0|2.62|15.01|||Mixed Models Analysis|||EQ-5D-5L VAS Score||15.01|2.62|0.006
82394366|NCT03334422|164499638|SUPERIORITY||Odds Ratio (OR)|0.93||||0.905|TWO_SIDED|95.0|0.3|2.93|||Regression, Logistic|||||2.93|0.30|0.905
82394367|NCT03334422|164499638|SUPERIORITY||Odds Ratio (OR)|2.37||||0.064|TWO_SIDED|95.0|0.95|5.92|||Regression, Logistic|||||5.92|0.95|0.064
82394368|NCT03334422|164499638|SUPERIORITY||Odds Ratio (OR)|5.14|||<|0.001|TWO_SIDED|95.0|2.25|11.74|||Regression, Logistic|||||11.74|2.25|<0.001
82394369|NCT01313221|164499639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.16|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-3.5|35.82|||||Adjusted for treatment in a mixed model|||35.82|-3.50|
82366860|NCT02037165|164444548|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.26|STANDARD_ERROR_OF_MEAN|1.3254|||TWO_SIDED|95.0|-2.9|2.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.3|-2.9|
82394370|NCT01313221|164499640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.23|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|95.0|-5.13|27.6||||||Difference in change from Week 12 to Week 16||27.60|-5.13|
82394371|NCT01313221|164499640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.56|STANDARD_ERROR_OF_MEAN|9.53|||TWO_SIDED|95.0|-2.21|35.32||||||Difference in change from Week 12 to Week 20||35.32|-2.21|
82394372|NCT05459558|164499672|SUPERIORITY||||||<|0.0001||||||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
82394373|NCT05459558|164499672|SUPERIORITY||||||<|0.0001||||||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
82394374|NCT05459558|164499673|SUPERIORITY||||||<|0.0001|||||||Mixed Models with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
82394375|NCT05459558|164499673|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Test for non-zero within group change from Baseline.||||<0.0001
82394376|NCT05459558|164499674|SUPERIORITY||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-1.88|-1.62|||Mixed Model with Repeated Measures|||Week 4||-1.62|-1.88|<0.0001
82394377|NCT05459558|164499674|SUPERIORITY||Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-1.87|-1.61|||Mixed Model with Repeated Measures|||Week 4||-1.61|-1.87|<0.0001
82394378|NCT05459558|164499674|SUPERIORITY||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|-2.08|-1.81||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.81|-2.08|<0.0001
82444412|NCT04075409|164597617|OTHER||LS means ratio|1.291|||||TWO_SIDED|90.0|1.039|1.604|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.604|1.039|
82394379|NCT05459558|164499674|SUPERIORITY||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|-2.18|-1.9||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.90|-2.18|<0.0001
82394380|NCT05459558|164499675|SUPERIORITY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-1.0|-0.62|||Mixed Model with Repeated Measures|||Week 4||-0.62|-1.00|<0.0001
82394381|NCT05459558|164499675|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.79|-0.41|||Mixed Model with Repeated Measures|||Week 4||-0.41|-0.79|<0.0001
82394382|NCT05459558|164499675|SUPERIORITY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.06|-1.31||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.31|-2.06|<0.0001
82394383|NCT05459558|164499675|SUPERIORITY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-2.19|-1.44||p-value adjusted for multiplicity using Graphical Approach.|Mixed Model with Repeated Measures|||Week 8||-1.44|-2.19|<0.0001
82394384|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-2.41|-2.05|||Mixed Model with Repeated Measures|||Gingival Sites, Week 4||-2.05|-2.41|<0.0001
82394385|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-2.41|-2.05|||Mixed Model with Repeated Measures|||Gingival Sites, Week 4||-2.05|-2.41|<0.0001
82394386|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-2.69|-2.31|||Mixed Model with Repeated Measures|||Gingival Sites, Week 8||-2.31|-2.69|<0.0001
82394387|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-2.81|-2.44|||Mixed Model with Repeated Measures|||Gingival Sites, Week 8||-2.44|-2.81|<0.0001
82394388|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001|TWO_SIDED|95.0|-2.22|-1.91|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 4||-1.91|-2.22|<0.0001
82394389|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001|TWO_SIDED|95.0|-2.2|-1.89|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 4||-1.89|-2.20|<0.0001
82394390|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-2.45|-2.13|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 8||-2.13|-2.45|<0.0001
82394391|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|0.082|<|0.0001|TWO_SIDED|95.0|-2.57|-2.25|||Mixed Model with Repeated Measures|||Interproximal Sites, Week 8||-2.25|-2.57|<0.0001
82394392|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.76|-0.5|||Mixed Model with Repeated Measures|||Body Sites, Week 4||-0.50|-0.76|<0.0001
82394393|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.77|-0.51|||Mixed Model with Repeated Measures|||Body Sites, Week 4||-0.51|-0.77|<0.0001
82394394|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.81|-0.57|||Mixed Model with Repeated Measures|||Body Sites, Week 8||-0.57|-0.81|<0.0001
82394395|NCT05459558|164499676|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.81|-0.57|||Mixed Model with Repeated Measures|||Body Sites, Week 8||-0.57|-0.81|<0.0001
82394396|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.97|-0.82|||Mixed Model with Repeated Measures|||Area, Week 4||-0.82|-0.97|<0.0001
82394397|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.95|-0.79|||Mixed Model with Repeated Measures|||Area, Week 4||-0.79|-0.95|<0.0001
82394398|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|-1.15|-1.01|||Mixed Model with Repeated Measures|||Area, Week 8||-1.01|-1.15|<0.0001
82394399|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|-1.22|-1.07|||Mixed Model with Repeated Measures|||Area, Week 8||-1.07|-1.22|<0.0001
82394400|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|-0.93|-0.8|||Mixed Model with Repeated Measures|||Intensity, Week 4||-0.80|-0.93|<0.0001
82394401|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|-0.93|-0.8|||Mixed Model with Repeated Measures|||Intensity, Week 4||-0.80|-0.93|<0.0001
82394402|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-1.04|-0.9|||Mixed Model with Repeated Measures|||Intensity, Week 8||-0.90|-1.04|<0.0001
82644060|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.659||||0.0007|TWO_SIDED|95.0|-1.036|-0.282|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)"||-0.282|-1.036|0.0007
82394403|NCT05459558|164499677|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-1.08|-0.95|||Mixed Model with Repeated Measures|||Intensity, Week 8||-0.95|-1.08|<0.0001
82394404|NCT02921750|164499691|NON_INFERIORITY|In this non-inferiority study the primary efficacy analysis included constructing a two sided 95% confidence interval, using Fisher's non-parametric permutation test, for between-treatment differences (Exufiber - Aquacel Extra) in the mean percentage area change from baseline to 6 weeks. This means that if the lower limit of this confidence interval was found to be greater than 12%, non-inferiority will be established.|Mean Difference (Final Values)|-29.4||||0.093|TWO_SIDED|95.0|-63.5|3.2|||Fisher Exact|||||3.2|-63.5|0.093
82394405|NCT03292458|164499699|SUPERIORITY|The primary efficacy outcome was analyzed using a restricted maximum likelihood (REML)-based linear mixed-effect model. The analysis included group, treatment, and treatment period as interacting fixed effects and subject as random effect. An unstructured covariance structure was used to model the within-patient errors.||||||0.01|TWO_SIDED|98.75|||||Mixed Models Analysis|||||||0.01
82394406|NCT03292458|164499700|OTHER|The minimum and average efficacy (in % symptom change) of sodium oxybate versus placebo in improving symptoms compared to the baseline was determined using binomial logistic regression.||||||0.05|TWO_SIDED|98.75|||||Regression, Logistic|||The minimum and average efficacy of sodium oxybate vs. placebo in improving symptoms compared to the baseline were determined using binomial logistic regression.||||0.05
82394407|NCT03292458|164499701|OTHER||Mean Difference (Final Values)|98.75||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82394408|NCT03292458|164499702|OTHER|||||||0.01|TWO_SIDED|98.75|||||ANOVA|||||||0.01
82394409|NCT03292458|164499703|OTHER|||||||0.01|TWO_SIDED|98.75|||||Pearson correlation|||||||0.01
82394410|NCT03292458|164499704|OTHER|||||||0.01|TWO_SIDED|98.75|||||Pearson correlation|||||||0.01
82394411|NCT04643964|164499712|SUPERIORITY|||||||0.54|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. No covariates were included.||||.54
82394412|NCT04643964|164499713|SUPERIORITY|||||||0.92|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There was one covariate in this model: QIDS at Time 1.||||.92
82394413|NCT04643964|164499714|SUPERIORITY|||||||0.37|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There were three covariates in this model: QIDS at Time 1, gender, and COVID interference.||||.37
82394414|NCT04643964|164499715|SUPERIORITY|||||||0.87|||||||ANCOVA|||In this model, the condition included the following levels: entrée, sampler, and control. There was one covariate in this model: QIDS at Time 1.||||.87
82394415|NCT00869557|164499724|NON_INFERIORITY_OR_EQUIVALENCE|"A total sample size of 75 participants randomized in a 2:1 ratio had 26% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 84% for both treatment groups and a noninferiority margin of 0.12 were assumed.~A total of 71 participants were enrolled in the study (4 fewer than planned)."|Difference in the response rates (%)|2.8|||||TWO_SIDED|95.0|-14.5|20.1|||||The 95% confidence interval was computed using normal approximation stratified by baseline HIV-1 RNA stratum (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the response rate (proportion of participants with HIV-1 RNA \< 50 copies/mL at Week 24) in the Stribild group was at least 12% worse than the response rate in Atripla group; the alternative hypothesis was that the response rate in the Stribild group was less than 12% worse than that in the Atripla group.||20.1|-14.5|
82394416|NCT01472939|164499730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.06||||0.128|TWO_SIDED|95.0|-1.743|13.862|||Mixed Models Repeated Measures Analysis|||||13.862|-1.743|0.128
82394417|NCT01472939|164499730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.42||||0.062|TWO_SIDED|95.0|-0.378|15.212|||Mixed Models Repeated Measures Analysis|||||15.212|-0.378|0.062
82366861|NCT02037165|164444549|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.2419|||TWO_SIDED|95.0|-3.4|1.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-3.4|
82366862|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-4.4|0.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.5|-4.4|
82366863|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-4.1|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-4.1|
82366864|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-3.0|1.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-3.0|
82366865|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.1|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-2.1|
82366866|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.1|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-2.1|
82366867|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.11|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-2.3|2.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.3|
82366868|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.54|STANDARD_ERROR_OF_MEAN|1.2418|||TWO_SIDED|95.0|-3.0|1.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.9|-3.0|
82394418|NCT01472939|164499730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83||||0.65|TWO_SIDED|95.0|-6.1|9.765|||Mixed Models Repeated Measures Analysis|||||9.765|-6.100|0.650
82394419|NCT01472939|164499731|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.75||||0.102|TWO_SIDED|95.0|-1.344|14.85|||Mixed Models Repeated Measures Analysis|||||14.850|-1.344|0.102
82394420|NCT01472939|164499731|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.92||||0.031|TWO_SIDED|95.0|0.814|17.021|||Mixed Models Repeated Measures Analysis|||||17.021|0.814|0.031
82647830|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.28|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 4 (Placebo\<2.5 mg\<5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 4. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82394421|NCT01472939|164499731|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.71||||0.175|TWO_SIDED|95.0|-2.54|13.957|||Mixed Models Repeated Measures Analysis|||||13.957|-2.540|0.175
82394422|NCT01472939|164499732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.47||||0.064|TWO_SIDED|95.0|-5.087|0.141|||Mixed Models Repeated Measures Analysis|||||0.141|-5.087|0.064
82394423|NCT01472939|164499732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.017|TWO_SIDED|95.0|-5.818|-0.573|||Mixed Models Repeated Measures Analysis|||||-0.573|-5.818|0.017
82394424|NCT01472939|164499732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.15||||0.114|TWO_SIDED|95.0|-4.813|0.519|||Mixed Models Repeated Measures Analysis|||||0.519|-4.813|0.114
82366869|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.12|STANDARD_ERROR_OF_MEAN|1.2419|||TWO_SIDED|95.0|-3.6|1.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.6|
82366870|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.2344|||TWO_SIDED|95.0|-3.7|1.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.1|-3.7|
82366871|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.89|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-4.3|0.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.5|-4.3|
82394425|NCT02368210|164499742|SUPERIORITY||||||<|0.001||||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||||||<0.001
82394426|NCT02368210|164499743|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: Scaling.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
82394427|NCT02368210|164499743|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: erythema.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
82394428|NCT02368210|164499743|SUPERIORITY||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05. The reported P-Value applies to the clinical sign of psoriasis: Plaque Elevation.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
82394429|NCT01492101|164499748|OTHER|Two-sided log-rank test, stratified by geographic region, prior use of eribulin, and receptor status.|Hazard Ratio, log|0.872|||=|0.0835|TWO_SIDED|95.0|0.747|1.019|||Log Rank|||||1.019|0.747|= 0.0835
82394430|NCT01492101|164499749|SUPERIORITY||Hazard Ratio (HR)|0.926|||=|0.3017|TWO_SIDED|95.0|0.798|1.075|||Log Rank|||||1.075|0.798|= 0.3017
82394431|NCT01492101|164499754|EQUIVALENCE|\[2\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.8||||0.635|TWO_SIDED|95.0|-2.65|4.33|||F-test|||Global health status/QoL: change from baseline to last assessment (Week 56)||4.33|-2.65|0.635
82394432|NCT01492101|164499754|EQUIVALENCE|\[3\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|2.1||||0.1656|TWO_SIDED|95.0|-0.88|5.14|||F-test|||||5.14|-0.88|0.1656
82644061|NCT03692078|165003987|NON_INFERIORITY|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.302||||0.1055|TWO_SIDED|95.0|-0.667|0.064|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)"||0.064|-0.667|0.1055
82394433|NCT01492101|164499754|EQUIVALENCE|\[4\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Median Difference (Final Values)|0.5||||0.8356|TWO_SIDED|95.0|-3.9|4.82|||F-test|||||4.82|-3.9|0.8356
82394434|NCT01492101|164499754|EQUIVALENCE|\[5\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.5||||0.7727|TWO_SIDED|95.0|-2.88|3.88|||F-test|||||3.88|-2.88|0.7727
82366872|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.16|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-3.6|1.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-3.6|
82366873|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.3|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.3|
82366874|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-3.1|1.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-3.1|
82366875|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.0|2.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-2.0|
82366876|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-2.3|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-2.3|
82366877|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.71|STANDARD_ERROR_OF_MEAN|1.2343|||TWO_SIDED|95.0|-4.1|0.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.7|-4.1|
82366878|NCT02037165|164444549|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.18|STANDARD_ERROR_OF_MEAN|1.2344|||TWO_SIDED|95.0|-3.6|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.6|
82366879|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.79|STANDARD_ERROR_OF_MEAN|1.1758|||TWO_SIDED|95.0|-1.5|3.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.1|-1.5|
82366880|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.51|STANDARD_ERROR_OF_MEAN|1.1755|||TWO_SIDED|95.0|-1.8|2.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-1.8|
82448927|NCT01122849|164605162|SUPERIORITY_OR_OTHER||LS Mean Difference|2.93||||0.0623|TWO_SIDED|95.0|-0.16|6.02||Between treatment p-values and confidence intervals|ANCOVA|||||6.02|-0.16|0.0623
82366881|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|2.06|STANDARD_ERROR_OF_MEAN|0.1752|||TWO_SIDED|95.0|-0.2|4.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-0.2|
82366882|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|1.33|STANDARD_ERROR_OF_MEAN|1.1751|||TWO_SIDED|95.0|-1.0|3.6|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.6|-1.0|
82366883|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|1.12|STANDARD_ERROR_OF_MEAN|1.175|||TWO_SIDED|95.0|-1.2|3.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.4|-1.2|
82366884|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.57|STANDARD_ERROR_OF_MEAN|1.1751|||TWO_SIDED|95.0|-2.9|1.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-2.9|
82366885|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.43|STANDARD_ERROR_OF_MEAN|1.1752|||TWO_SIDED|95.0|-3.7|0.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.9|-3.7|
82366886|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.24|STANDARD_ERROR_OF_MEAN|1.1755|||TWO_SIDED|95.0|-2.1|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-2.1|
82366887|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.43|STANDARD_ERROR_OF_MEAN|1.1758|||TWO_SIDED|95.0|-1.9|2.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.7|-1.9|
82366888|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.68|STANDARD_ERROR_OF_MEAN|1.1567|||TWO_SIDED|95.0|-4.0|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-4.0|
82394435|NCT01492101|164499754|EQUIVALENCE|\[6\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.5||||0.7446|TWO_SIDED|95.0|-2.56|3.59|||F-test|||||3.59|-2.56|0.7446
82394436|NCT01492101|164499754|EQUIVALENCE|\[7\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.2||||0.9169|TWO_SIDED|95.0|-4.0|4.45|||F-test|||||4.45|-4.0|0.9169
82448928|NCT01122849|164605163|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.36||||0.5278|TWO_SIDED|95.0|-18.1|9.39||Between treatment p-values and confidence intervals|ANCOVA|||||9.39|-18.1|0.5278
82366889|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.52|STANDARD_ERROR_OF_MEAN|1.1566|||TWO_SIDED|95.0|-1.8|2.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.8|-1.8|
82444413|NCT04075409|164597617|OTHER||LS means ratio|1.645|||||TWO_SIDED|90.0|1.324|2.044|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||2.044|1.324|
82644062|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.243||||0.204|TWO_SIDED|95.0|-0.617|0.132|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)"||0.132|-0.617|0.2040
82366890|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|1.89|STANDARD_ERROR_OF_MEAN|1.1565|||TWO_SIDED|95.0|-0.4|4.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.2|-0.4|
82366891|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|1.25|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-1.0|3.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.5|-1.0|
82366892|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.67|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-1.6|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-1.6|
82366893|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference of 200 mg BI mi|-0.43|STANDARD_ERROR_OF_MEAN|1.1564|||TWO_SIDED|95.0|-2.7|1.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-2.7|
82366894|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.76|STANDARD_ERROR_OF_MEAN|1.1565|||TWO_SIDED|95.0|-3.0|1.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-3.0|
82366895|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|1.1566|||TWO_SIDED|95.0|-2.2|2.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.4|-2.2|
82366896|NCT02037165|164444550|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.71|STANDARD_ERROR_OF_MEAN|1.1567|||TWO_SIDED|95.0|-3.0|1.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.6|-3.0|
82366897|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.1242|||TWO_SIDED|95.0|-2.7|1.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.7|-2.7|
82366898|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.124|||TWO_SIDED|95.0|-3.2|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.2|
82394437|NCT01492101|164499754|EQUIVALENCE|\[8\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.1||||0.9731|TWO_SIDED|95.0|-3.66|3.79|||F-test|||||3.79|-3.66|0.9731
82394438|NCT01492101|164499754|EQUIVALENCE|\[9\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|7.3|||<|0.0001|TWO_SIDED|95.0|3.88|10.67|||F-test|||||10.67|3.88|<0.0001
82366899|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.1238|||TWO_SIDED|95.0|-3.7|0.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.7|
82366900|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.06|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-3.3|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.3|
82366901|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
82394439|NCT01492101|164499754|EQUIVALENCE|\[10\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.1252|TWO_SIDED|95.0|-7.59|0.93|||F-test|||||0.93|-7.59|0.1252
82394440|NCT01492101|164499754|EQUIVALENCE|\[11\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.1717|TWO_SIDED|95.0|-6.83|1.22|||F-test|||||1.22|-6.83|0.1717
82394441|NCT01492101|164499754|EQUIVALENCE|\[12\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-1.4||||0.5513|TWO_SIDED|95.0|-5.95|3.18|||F-test|||||3.18|-5.95|0.5513
82394442|NCT01492101|164499754|EQUIVALENCE|\[13\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|8.6||||0.0009|TWO_SIDED|95.0|3.57|13.72|||F-test|||||13.72|3.57|0.0009
82394443|NCT01492101|164499754|EQUIVALENCE|\[14\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.8||||0.2337|TWO_SIDED|95.0|-7.35|1.8|||F-test|||||1.8|-7.35|0.2337
82394444|NCT01492101|164499754|EQUIVALENCE|\[15\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|10.3|||<|0.0001|TWO_SIDED|95.0|6.6|13.98|||F-test|||||13.98|6.6|<0.0001
82448929|NCT01122849|164605163|SUPERIORITY_OR_OTHER||LS Mean Difference|10.14||||0.1458|TWO_SIDED|95.0|-3.64|23.93||Between treatment p-values and confidence intervals|ANCOVA|||||23.93|-3.64|0.1458
82448930|NCT01122849|164605163|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.5||||0.037|TWO_SIDED|95.0|-28.1|-0.91||Between treatment p-values and confidence intervals.|ANCOVA|||||-0.91|-28.1|0.0370
82394445|NCT01492101|164499754|EQUIVALENCE|\[16\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-3.74|3.69|||F-test|||||3.69|-3.74|0.99
82394446|NCT01492101|164499756|EQUIVALENCE|\[17\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|0.9||||0.5833|TWO_SIDED|95.0|-2.42|4.29|||F-test|||||4.29|-2.42|0.5833
82394447|NCT01492101|164499756|EQUIVALENCE|\[18\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|1.3||||0.3098|TWO_SIDED|95.0|-1.24|3.9|||F-test|||||3.9|-1.24|0.3098
82394448|NCT01492101|164499756|EQUIVALENCE|\[19\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|1.1||||0.6264|TWO_SIDED|95.0|-3.39|5.63|||F-test|||||5.63|-3.39|0.6264
82394449|NCT01492101|164499756|EQUIVALENCE|\[20\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-4.6||||0.0003|TWO_SIDED|95.0|-7.11|-2.1|||F-test|||||-2.1|-7.11|0.0003
82394450|NCT01492101|164499756|EQUIVALENCE|\[21\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-1.4||||0.2473|TWO_SIDED|95.0|-3.84|0.99|||F-test|||||0.99|-3.84|0.2473
82394451|NCT01492101|164499756|EQUIVALENCE|\[22\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-2.9||||0.0333|TWO_SIDED|95.0|-5.54|-0.23|||F-test|||||-0.23|-5.54|0.0333
82394452|NCT01492101|164499756|EQUIVALENCE|\[23\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|-4.5||||0.2575|TWO_SIDED|95.0|-12.2|3.28|||F-test|||||3.28|-12.2|0.2575
82647831|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-4.64|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 5 (Placebo=2.5 mg\<5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 5. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82394453|NCT01492101|164499756|EQUIVALENCE|\[24\] - Analysis of variance with change from baseline in linear transformed score at the last visit as the dependent variable and treatment arm, geographic region, prior use of eribulin, and receptor status as fixed effects.|Mean Difference (Final Values)|5.6||||0.1072|TWO_SIDED|95.0|-1.22|12.34|||F-test|||||12.34|-1.22|0.1072
82394454|NCT00316914|164499761|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||A priori threshold for the p-value is 0.05 and there was no adjustment for multiple comparisons.|Chi-squared|||Comparison in Percentage of Patients With Oxaliplatin-induced Grade 2+ Chronic Neuropathic Adverse Event between Arms||||0.038
82394455|NCT00316914|164499762|SUPERIORITY_OR_OTHER|||||||0.0503||95.0|||||Log Rank|||Comparison of time to Onset of Grade 2+ Chronic Neurotoxicity between Arms||||0.0503
82394456|NCT00316914|164499763|SUPERIORITY_OR_OTHER|||||||0.4048||95.0|||||Log Rank|||Comparison of Time to Onset of Grade 3+ Chronic Neurotoxicity between Arms||||0.4048
82394457|NCT00316914|164499764|SUPERIORITY_OR_OTHER|||||||0.6556||95.0|||||Log Rank|||Comparison of Average Duration of Chronic Neuropathic Toxicity between Arms||||0.6556
82394458|NCT00316914|164499765|SUPERIORITY_OR_OTHER|||||||0.3238||95.0|||||Chi-squared|||Comparison of Percentage of patients discontinuing therapy for chronic neurotoxicity between Arms||||0.3238
82394459|NCT00316914|164499768|SUPERIORITY_OR_OTHER|||||||0.7498||95.0|||||Chi-squared|||Comparison of Percentage of Patients With Acute Neuropathic Adverse Event between Arms||||0.7498
82394460|NCT00316914|164499771|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||Kruskal-Wallis|||Comparison of Fatigue NOW between two arms||||0.2340
82394461|NCT00316914|164499771|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||Kruskal-Wallis|||Comparison of Fatigue USUAL between two arms||||0.2010
82394462|NCT00316914|164499771|SUPERIORITY_OR_OTHER|||||||0.9364||95.0|||||Kruskal-Wallis|||Comparison of Fatigue WORST between two arms||||0.9364
82394463|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.9364||95.0|||||Kruskal-Wallis|||Fatigue WORST||||0.9364
82394464|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.6275||95.0|||||Kruskal-Wallis|||Walking||||0.6275
82394465|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.6988||95.0|||||Kruskal-Wallis|||Buttoning Shirt or Tying Laces||||0.6988
82394466|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.5124||95.0|||||Kruskal-Wallis|||Diarrhea||||0.5124
82394467|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.3103||95.0|||||Kruskal-Wallis|||Constipation||||0.3103
82394468|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.8601||95.0|||||Kruskal-Wallis|||Abdominal Cramping||||0.8601
82394469|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.2439||95.0|||||Kruskal-Wallis|||Bowel Problems with Normal Activity||||0.2439
82394470|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.9283||95.0|||||Kruskal-Wallis|||Shortness of Breath (Week 2 - Baseline)||||0.9283
82394471|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.4715||95.0|||||Kruskal-Wallis|||Swallowing (Week 2 - Baseline)||||0.4715
82394472|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.5105||95.0|||||Kruskal-Wallis|||Numbness in Fingers, Toes (Week 2 - Baseline)||||0.5105
82394473|NCT00316914|164499772|SUPERIORITY_OR_OTHER|||||||0.2181||95.0|||||Kruskal-Wallis|||Tingling in Fingers, Toes (Week 2 - Baseline)||||0.2181
82448931|NCT01122849|164605164|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1||||0.4483|TWO_SIDED|95.0|-18.5|8.29|||ANCOVA|Between treatment p-values and confidence intervals||||8.29|-18.5|0.4483
82366902|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|1.1236|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
82366903|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.1238|||TWO_SIDED|95.0|-3.7|0.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.7|-3.7|
82366904|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.124|||TWO_SIDED|95.0|-3.3|1.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.3|
82366905|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.1242|||TWO_SIDED|95.0|-2.3|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-2.3|
82366906|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.35|STANDARD_ERROR_OF_MEAN|1.0986|||TWO_SIDED|95.0|-2.5|1.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-2.5|
82366907|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.0985|||TWO_SIDED|95.0|-4.5|-0.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.2|-4.5|
82366908|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.39|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.6|0.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.6|
82394474|NCT01149421|164499791|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-2.79|||<|0.001|TWO_SIDED|97.3|-4.58|-1.0||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||-1.00|-4.58|<0.001
82394475|NCT01149421|164499791|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-1.07|||<|0.001|TWO_SIDED|97.3|-2.83|0.68||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||0.68|-2.83|<0.001
82394476|NCT01149421|164499791|SUPERIORITY_OR_OTHER||||||<|0.001||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||<0.001
82394477|NCT01149421|164499791|SUPERIORITY_OR_OTHER|||||||0.149||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.149
82448932|NCT01122849|164605164|SUPERIORITY_OR_OTHER||LS Mean Difference|14.28||||0.0385|TWO_SIDED|95.0|0.79|27.77|||ANCOVA|Between treatment p-values and confidence intervals||||27.77|0.79|0.0385
82394478|NCT01149421|164499792|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-2.66|||<|0.001|TWO_SIDED|97.3|-4.53|-0.79||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||-0.79|-4.53|<0.001
82366909|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.38|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.5|0.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.8|-3.5|
82394479|NCT01149421|164499792|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|-1.71|||<|0.001|TWO_SIDED|97.3|-3.54|0.12||P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||0.12|-3.54|<0.001
82394480|NCT01149421|164499792|SUPERIORITY_OR_OTHER|||||||0.002||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.002
82394481|NCT01149421|164499792|SUPERIORITY_OR_OTHER|||||||0.36||||||Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.36
82394482|NCT01149421|164499793|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.32|||<|0.001|TWO_SIDED|97.3|-0.8|1.43||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.43|-0.80|<0.001
82394483|NCT01149421|164499793|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.42|||<|0.001|TWO_SIDED|97.3|-0.67|1.52||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.52|-0.67|<0.001
82394484|NCT01149421|164499793|SUPERIORITY_OR_OTHER|||||||0.87||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.870
82394485|NCT01149421|164499793|SUPERIORITY_OR_OTHER|||||||0.915||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.915
82394486|NCT01149421|164499793|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.5|||<|0.001|TWO_SIDED|97.3|-0.68|1.68||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.68|-0.68|<0.001
82394487|NCT01149421|164499793|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|0.16|||<|0.001|TWO_SIDED|97.3|-1.0|1.31||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||1.31|-1.00|<0.001
82394488|NCT01149421|164499793|SUPERIORITY_OR_OTHER|||||||0.929||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.929
82444414|NCT04075409|164597620|OTHER||LS means ratio|1.089|||||TWO_SIDED|90.0|0.8859|1.339|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.339|0.8859|
82644063|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"|Mean Difference (Net)|-0.244||||0.1829|TWO_SIDED|95.0|-0.603|0.116|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)"||0.116|-0.603|0.1829
82394489|NCT01149421|164499793|SUPERIORITY_OR_OTHER|||||||0.776||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.776
82394490|NCT01149421|164499794|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|2.84||||0.556|TWO_SIDED|97.3|1.52|4.16||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||4.16|1.52|0.556
82394491|NCT01149421|164499794|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|1.62||||0.018|TWO_SIDED|97.3|0.32|2.92||Treatment comparison at 16 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||2.92|0.32|0.018
82448933|NCT01122849|164605164|SUPERIORITY_OR_OTHER||LS Mean difference|-19.37||||0.0046|TWO_SIDED|95.0|-32.5|-6.23|||ANCOVA|Between treatment p-values and confidence intervals||||-6.23|-32.5|0.0046
82366910|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15|STANDARD_ERROR_OF_MEAN|1.0983|||TWO_SIDED|95.0|-3.3|1.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.0|-3.3|
82366911|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-2.8|1.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.5|-2.8|
82366912|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.53|STANDARD_ERROR_OF_MEAN|1.0984|||TWO_SIDED|95.0|-3.7|0.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.6|-3.7|
82366913|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.0985|||TWO_SIDED|95.0|-3.1|1.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.2|-3.1|
82366914|NCT02037165|164444551|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.76|STANDARD_ERROR_OF_MEAN|1.0986|||TWO_SIDED|95.0|-1.4|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-1.4|
82366915|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.13|STANDARD_ERROR_OF_MEAN|3.2064|||TWO_SIDED|95.0|-12.5|0.2|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.2|-12.5|
82394492|NCT01149421|164499794|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparison at 16 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||1.00
82394493|NCT01149421|164499794|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|3.5||||0.904|TWO_SIDED|97.3|2.1|4.91||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||4.91|2.10|0.904
82394494|NCT01149421|164499794|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Least Squares Mean Difference|1.26||||0.005|TWO_SIDED|97.3|-0.13|2.64||Treatment comparison at 26 weeks. P-value reported for non-inferior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||2.64|-0.13|0.005
82444415|NCT04075409|164597620|OTHER||LS means ratio|1.044|||||TWO_SIDED|90.0|0.8489|1.283|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.283|0.8489|
82448934|NCT01122849|164605165|SUPERIORITY_OR_OTHER||LS Mean Difference|15.24||||0.0029|TWO_SIDED|95.0|5.45|25.02||Between treatment p-values and confidence intervals|ANCOVA|||||25.02|5.45|0.0029
82644064|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"|Mean Difference (Net)|-0.248||||0.1801|TWO_SIDED|95.0|-0.612|0.115|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)"||0.115|-0.612|0.1801
82366916|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.88|STANDARD_ERROR_OF_MEAN|3.4032|||TWO_SIDED|95.0|-10.6|2.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-10.6|
82366917|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.67|STANDARD_ERROR_OF_MEAN|3.3393|||TWO_SIDED|95.0|-13.3|0.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.0|-13.3|
82366918|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.8|STANDARD_ERROR_OF_MEAN|3.5727|||TWO_SIDED|95.0|-8.9|5.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.3|-8.9|
82366919|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-4.43|STANDARD_ERROR_OF_MEAN|3.1554|||TWO_SIDED|95.0|-10.7|1.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.8|-10.7|
82394495|NCT01149421|164499794|SUPERIORITY_OR_OTHER|||||||0.996||||||Treatment comparison at 26 weeks. Since non-inferiority was confirmed, superiority analysis was pursued. P-value reported for superior to Placebo. The adjustment for multiplicity was based on a tree-gatekeeping testing strategy.|Mixed Models Analysis|||||||0.996
82394496|NCT01149421|164499795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05|||<|0.001|TWO_SIDED|95.0|-4.0|-2.09||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||-2.09|-4.00|<0.001
82394497|NCT01149421|164499795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58||||0.001|TWO_SIDED|95.0|-2.51|-0.64||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||-0.64|-2.51|0.001
82394498|NCT01149421|164499795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.1|-2.09||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-2.09|-4.10|<0.001
82394499|NCT01149421|164499795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|||<|0.001|TWO_SIDED|95.0|-2.98|-1.0||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-1.00|-2.98|<0.001
82394500|NCT01149421|164499796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.218|TWO_SIDED|95.0|-1.84|0.42||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||0.42|-1.84|0.218
82394501|NCT01149421|164499796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.931|TWO_SIDED|95.0|-1.16|1.06||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||1.06|-1.16|0.931
82394502|NCT01149421|164499796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.315|TWO_SIDED|95.0|-1.72|0.55||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||0.55|-1.72|0.315
82394503|NCT01149421|164499796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.465|TWO_SIDED|95.0|-1.54|0.7||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||0.70|-1.54|0.465
82394504|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||<|0.001|TWO_SIDED|95.0|-5.04|-1.61||Treatment comparison of mean daytime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||-1.61|-5.04|<0.001
82394505|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.153|TWO_SIDED|95.0|-2.91|0.46||Treatment comparison of mean daytime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||0.46|-2.91|0.153
82394506|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87||||0.002|TWO_SIDED|95.0|-4.66|-1.09||Treatment comparison of mean daytime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-1.09|-4.66|0.002
82394507|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.042|TWO_SIDED|95.0|-3.57|-0.07||Treatment comparison of mean daytime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-0.07|-3.57|0.042
82394508|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.221|TWO_SIDED|95.0|-3.23|0.75||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||0.75|-3.23|0.221
82394509|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.884|TWO_SIDED|95.0|-2.1|1.81||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||1.81|-2.10|0.884
82394510|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.19|TWO_SIDED|95.0|-4.31|-0.39||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||-0.39|-4.31|0.19
82394511|NCT01149421|164499797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.159|TWO_SIDED|95.0|-3.31|0.54||Treatment comparison of mean nighttime systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||0.54|-3.31|0.159
82394512|NCT01149421|164499797|SUPERIORITY_OR_OTHER|||||||0.122||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||||0.122
82394513|NCT01149421|164499797|SUPERIORITY_OR_OTHER|||||||0.601||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 16 weeks.|Mixed Models Analysis|||||||0.601
82366920|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.18|STANDARD_ERROR_OF_MEAN|2.6161|||TWO_SIDED|95.0|-6.4|4.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-6.4|
82394514|NCT01149421|164499797|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||||0.012
82394515|NCT01149421|164499797|SUPERIORITY_OR_OTHER|||||||0.274||||||Treatment comparison of mean clinic systolic blood pressure (SBP) at 26 weeks.|Mixed Models Analysis|||||||0.274
82394516|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.717|TWO_SIDED|95.0|-0.91|1.32||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||1.32|-0.91|0.717
82394517|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.427|TWO_SIDED|95.0|-0.65|1.54||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||1.54|-0.65|0.427
82394518|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.3|TWO_SIDED|95.0|-0.53|1.73||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.73|-0.53|0.300
82394519|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.788|TWO_SIDED|95.0|-0.96|1.26||Treatment comparison of mean daytime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.26|-0.96|0.788
82394520|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08||||0.098|TWO_SIDED|95.0|-0.2|2.37||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||2.37|-0.20|0.098
82394521|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.203|TWO_SIDED|95.0|-0.44|2.08||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||2.08|-0.44|0.203
82394522|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.493|TWO_SIDED|95.0|-0.88|1.82||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.82|-0.88|0.493
82394523|NCT01149421|164499798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.692|TWO_SIDED|95.0|-1.06|1.6||Treatment comparison of mean nighttime diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||1.60|-1.06|0.692
82394524|NCT01149421|164499798|SUPERIORITY_OR_OTHER|||||||0.99||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||||0.990
82394525|NCT01149421|164499798|SUPERIORITY_OR_OTHER|||||||0.173||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 16 weeks.|Mixed Models Analysis|||||||0.173
82394526|NCT01149421|164499798|SUPERIORITY_OR_OTHER|||||||0.972||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||||0.972
82394527|NCT01149421|164499798|SUPERIORITY_OR_OTHER|||||||0.904||||||Treatment comparison of mean clinic diastolic blood pressure (DBP) at 26 weeks.|Mixed Models Analysis|||||||0.904
82394528|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||<|0.001|TWO_SIDED|95.0|1.17|3.8||Treatment comparison of mean daytime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||3.80|1.17|<0.001
82394529|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.08|TWO_SIDED|95.0|-0.14|2.45||Treatment comparison of mean daytime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||2.45|-0.14|0.080
82394530|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.23|4.91||Treatment comparison of mean daytime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||4.91|2.23|<0.001
82394531|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92||||0.168|TWO_SIDED|95.0|-0.39|2.24||Treatment comparison of mean daytime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||2.24|-0.39|0.168
82394532|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|||<|0.001|TWO_SIDED|95.0|2.62|5.28||Treatment comparison of mean nighttime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||5.28|2.62|<0.001
82394533|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.78|||<|0.001|TWO_SIDED|95.0|1.47|4.09||Treatment comparison of mean nighttime heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||4.09|1.47|<0.001
82394534|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|||<|0.001|TWO_SIDED|95.0|2.49|5.47||Treatment comparison of mean nighttime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||5.47|2.49|<0.001
82394535|NCT01149421|164499799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.003|TWO_SIDED|95.0|0.78|3.7||Treatment comparison of mean nighttime heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||3.70|0.78|0.003
82394536|NCT01149421|164499799|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of mean clinic heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||||<0.001
82394537|NCT01149421|164499799|SUPERIORITY_OR_OTHER|||||||0.014||||||Treatment comparison of mean clinic heart rate (HR) at 16 weeks.|Mixed Models Analysis|||||||0.014
82394538|NCT01149421|164499799|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of mean clinic heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||||<0.001
82394539|NCT01149421|164499799|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparison of mean clinic heart rate (HR) at 26 weeks.|Mixed Models Analysis|||||||0.005
82394540|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|||<|0.001|TWO_SIDED|95.0|-4.5|-2.43||Treatment comparison of mean daytime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-2.43|-4.50|<0.001
82366921|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.35|STANDARD_ERROR_OF_MEAN|3.1849|||TWO_SIDED|95.0|-8.7|4.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-8.7|
82366922|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.78|STANDARD_ERROR_OF_MEAN|3.7688|||TWO_SIDED|95.0|-10.3|4.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.7|-10.3|
82366923|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.27|STANDARD_ERROR_OF_MEAN|2.857|||TWO_SIDED|95.0|-7.0|4.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.4|-7.0|
82366924|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-6.91|STANDARD_ERROR_OF_MEAN|3.1527|||TWO_SIDED|95.0|-13.2|-0.07|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-.07|-13.2|
82366925|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-4.22|STANDARD_ERROR_OF_MEAN|3.3457|||TWO_SIDED|95.0|-10.9|2.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.4|-10.9|
82366926|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.61|STANDARD_ERROR_OF_MEAN|3.2806|||TWO_SIDED|95.0|-10.1|2.9|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.9|-10.1|
82394541|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|||<|0.001|TWO_SIDED|95.0|-2.79|-0.75||Treatment comparison of mean daytime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-0.75|-2.79|<0.001
82394542|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|||<|0.001|TWO_SIDED|95.0|-4.52|-2.28||Treatment comparison of mean daytime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-2.28|-4.52|<0.001
82444416|NCT04075409|164597620|OTHER||LS means ratio|1.044|||||TWO_SIDED|90.0|0.8489|1.283|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.283|0.8489|
82444417|NCT04075409|164597621|OTHER||LS means ratio|1.344|||||TWO_SIDED|90.0|1.092|1.653|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.653|1.092|
82444418|NCT04075409|164597621|OTHER||LS means ratio|0.9991|||||TWO_SIDED|90.0|0.812|1.229|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.229|0.8120|
82394543|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13|||<|0.001|TWO_SIDED|95.0|-3.23|-1.03||Treatment comparison of mean daytime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-1.03|-3.23|<0.001
82366927|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|3.5078|||TWO_SIDED|95.0|-7.8|6.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.2|-7.8|
82366928|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.05|STANDARD_ERROR_OF_MEAN|3.0965|||TWO_SIDED|95.0|-6.2|6.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||6.1|-6.2|
82366929|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-1.05|STANDARD_ERROR_OF_MEAN|2.5649|||TWO_SIDED|95.0|-6.1|4.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-6.1|
82366930|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-2.59|STANDARD_ERROR_OF_MEAN|3.125|||TWO_SIDED|95.0|-8.8|3.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.7|-8.8|
82366931|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.84|STANDARD_ERROR_OF_MEAN|3.7013|||TWO_SIDED|95.0|-11.2|3.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.5|-11.2|
82366932|NCT02037165|164444552|SUPERIORITY_OR_OTHER||adjusted mean difference|-3.05|STANDARD_ERROR_OF_MEAN|2.8201|||TWO_SIDED|95.0|-8.7|2.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.6|-8.7|
82366933|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.78|STANDARD_ERROR_OF_MEAN|2.5753|||TWO_SIDED|95.0|-8.9|1.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.3|-8.9|
82394544|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|||<|0.001|TWO_SIDED|95.0|-3.43|-1.07||Treatment comparison of mean nighttime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||-1.07|-3.43|<0.001
82394545|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.113|TWO_SIDED|95.0|-2.09|0.22||Treatment comparison of mean nighttime pulse pressure (PP) at 16 weeks.|Mixed Models Analysis|||||0.22|-2.09|0.113
82394546|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74|||<|0.001|TWO_SIDED|95.0|-3.86|-1.62||Treatment comparison of mean nighttime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-1.62|-3.86|<0.001
82394547|NCT01149421|164499800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.004|TWO_SIDED|95.0|-2.72|-0.51||Treatment comparison of mean nighttime pulse pressure (PP) at 26 weeks.|Mixed Models Analysis|||||-0.51|-2.72|0.004
82394548|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.128|TWO_SIDED|95.0|-2.22|0.28||Treatment comparison of mean daytime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||0.28|-2.22|0.128
82394549|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.883|TWO_SIDED|95.0|-1.32|1.13||Treatment comparison of mean daytime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.13|-1.32|0.883
82366934|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.74|STANDARD_ERROR_OF_MEAN|2.5162|||TWO_SIDED|95.0|-9.8|0.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.3|-9.8|
82575370|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.0986|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.00|0.0986
82644065|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.622||||0.0391|TWO_SIDED|95.0|-1.225|-0.019|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.019|-1.225|0.0391
82644066|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.489||||0.1864|TWO_SIDED|95.0|-1.096|0.119|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.119|-1.096|0.1864
82644067|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.642||||0.031|TWO_SIDED|95.0|-1.246|-0.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.037|-1.246|0.0310
82644068|NCT03692078|165003987|EQUIVALENCE|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"|Mean Difference (Net)|-0.642||||0.031|TWO_SIDED|95.0|-1.246|-0.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|"Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7.~Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)"||-0.037|-1.246|0.0310
82644069|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.891|||<|0.0001|TWO_SIDED|95.0|-3.58|-2.202|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.202|-3.580|<.0001
82644070|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.291|||<|0.0001|TWO_SIDED|95.0|-3.985|-2.597|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.597|-3.985|<.0001
82644071|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.93|||<|0.0001|TWO_SIDED|95.0|-3.605|-2.255|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.255|-3.605|<.0001
82394550|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.39|TWO_SIDED|95.0|-1.84|0.72||Treatment comparison of mean daytime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||0.72|-1.84|0.390
82394551|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.463|TWO_SIDED|95.0|-1.72|0.79||Treatment comparison of mean daytime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||0.79|-1.72|0.463
82575371|NCT03054337|164860499|SUPERIORITY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.1661|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Absolute Reticulocyte Count||0.02|-0.00|0.1661
82366935|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.06|STANDARD_ERROR_OF_MEAN|2.9156|||TWO_SIDED|95.0|-11.9|-0.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-0.3|-11.9|
82366936|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.83|STANDARD_ERROR_OF_MEAN|3.4987|||TWO_SIDED|95.0|-13.8|0.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||0.1|-13.8|
82366937|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.24|STANDARD_ERROR_OF_MEAN|3.6922|||TWO_SIDED|95.0|-12.6|2.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.1|-12.6|
82366938|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.71|STANDARD_ERROR_OF_MEAN|3.6166|||TWO_SIDED|95.0|-11.9|2.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-11.9|
82366939|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.09|STANDARD_ERROR_OF_MEAN|3.7073|||TWO_SIDED|95.0|-10.5|4.3|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.3|-10.5|
82366940|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.82|STANDARD_ERROR_OF_MEAN|4.186|||TWO_SIDED|95.0|-12.1|4.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.5|-12.1|
82394552|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.671|TWO_SIDED|95.0|-1.13|1.76||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.76|-1.13|0.671
82394553|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.471|TWO_SIDED|95.0|-0.9|1.95||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 16 weeks.|Mixed Models Analysis|||||1.95|-0.90|0.471
82394554|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.543|TWO_SIDED|95.0|-1.95|1.03||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||1.03|-1.95|0.543
82394555|NCT01149421|164499801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.728|TWO_SIDED|95.0|-1.72|1.2||Treatment comparison of mean nighttime mean arterial pressure (MAP) at 26 weeks.|Mixed Models Analysis|||||1.20|-1.72|0.728
82394556|NCT01149421|164499814|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||||<0.001
82394557|NCT01149421|164499814|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparison at 16 weeks.|Mixed Models Analysis|||||||0.005
82394558|NCT01149421|164499814|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||<0.001
82394559|NCT01149421|164499814|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.012
82394560|NCT04108988|164499821|SUPERIORITY|||||||0.248|||||||Chi-squared|||P value at 4 months||||0.248
82394561|NCT04108988|164499821|SUPERIORITY|||||||0.022|||||||Chi-squared|||P value at 1 month||||0.022
82394562|NCT04108988|164499821|SUPERIORITY|||||||0.193|||||||Chi-squared|||P value at baseline||||0.193
82394563|NCT04108988|164499822|SUPERIORITY|||||||0.246|||||||Chi-squared|||P value at 4 months||||0.246
82394564|NCT04108988|164499822|SUPERIORITY|||||||0.467|||||||Chi-squared|||P value at 1 month||||0.467
82394565|NCT04108988|164499822|SUPERIORITY|||||||0.55|||||||Chi-squared|||P value at baseline||||0.550
82394566|NCT04108988|164499823|SUPERIORITY|||||||0.596|||||||Chi-squared|||P value at month 4||||0.596
82366941|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.67|STANDARD_ERROR_OF_MEAN|3.4254|||TWO_SIDED|95.0|-9.5|4.1|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.1|-9.5|
82394567|NCT04108988|164499823|SUPERIORITY|||||||0.974|||||||Chi-squared|||P value at 1 month||||0.974
82394568|NCT04108988|164499823|SUPERIORITY|||||||0.651|||||||Chi-squared|||P value at baseline.||||0.651
82394569|NCT04108988|164499824|SUPERIORITY|||||||0.089|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.089
82575372|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|0.942||0.001|TWO_SIDED|95.0|1.4|5.2|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||5.20|1.40|0.0010
82575373|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|5.3|STANDARD_ERROR_OF_MEAN|0.953|<|0.0001|TWO_SIDED|95.0|3.38|7.22|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||7.22|3.38|<0.0001
82575374|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|7.24|STANDARD_ERROR_OF_MEAN|0.93|<|0.0001|TWO_SIDED|95.0|5.37|9.11|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Hematocrit||9.11|5.37|<0.0001
82644072|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.875|||<|0.0001|TWO_SIDED|95.0|-3.559|-2.19|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.190|-3.559|<.0001
82644073|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.25|||<|0.0001|TWO_SIDED|95.0|1.604|2.896|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.896|1.604|<.0001
82644074|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.391|||<|0.0001|TWO_SIDED|95.0|1.737|3.046|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||3.046|1.737|<.0001
82644075|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.231|||<|0.0001|TWO_SIDED|95.0|1.582|2.879|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.879|1.582|<.0001
82394570|NCT04108988|164499825|SUPERIORITY|||||||0.095|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.095
82394571|NCT04108988|164499826|SUPERIORITY|||||||0.136|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.136
82394572|NCT04108988|164499827|SUPERIORITY|||||||0.133|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.133
82394573|NCT04108988|164499828|SUPERIORITY|||||||0.21|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.210
82394574|NCT04108988|164499829|SUPERIORITY|||||||0.392|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.392
82575375|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.152||0.5889|TWO_SIDED|95.0|-0.39|0.22|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.22|-0.39|0.5889
82575376|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.151||0.8074|TWO_SIDED|95.0|-0.27|0.34|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.34|-0.27|0.8074
82366942|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.64|STANDARD_ERROR_OF_MEAN|2.5461|||TWO_SIDED|95.0|-8.7|1.4|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||1.4|-8.7|
82366943|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.46|STANDARD_ERROR_OF_MEAN|2.4848|||TWO_SIDED|95.0|-7.4|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-7.4|
82366944|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.27|STANDARD_ERROR_OF_MEAN|2.8811|||TWO_SIDED|95.0|-9.0|2.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||2.5|-9.0|
82366945|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.91|STANDARD_ERROR_OF_MEAN|3.4569|||TWO_SIDED|95.0|-9.8|4.0|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.0|-9.8|
82366946|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.27|STANDARD_ERROR_OF_MEAN|3.6471|||TWO_SIDED|95.0|-7.0|7.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.5|-7.0|
82366947|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.27|STANDARD_ERROR_OF_MEAN|3.5708|||TWO_SIDED|95.0|-9.4|4.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.8|-9.4|
82366948|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.21|STANDARD_ERROR_OF_MEAN|3.6602|||TWO_SIDED|95.0|-11.5|3.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.1|-11.5|
82394575|NCT04108988|164499830|SUPERIORITY|||||||0.411|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.411
82394576|NCT04108988|164499831|SUPERIORITY|||||||0.294|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.294
82394577|NCT04108988|164499832|SUPERIORITY|||||||0.031|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.031
82394578|NCT04108988|164499833|SUPERIORITY|||||||0.262|||||||ANOVA|Test for the interaction between treatment and time||Test of interaction with treatment and time.||||0.262
82575377|NCT03054337|164860501|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.148||0.6952|TWO_SIDED|95.0|-0.36|0.24|||ANCOVA|The ANCOVA model will include treatment assignment (3 dosed groups; 1 placebo group) and pre-treatment Hb value as a covariate.||Reticulocytes||0.24|-0.36|0.6952
82394579|NCT04108988|164499834|SUPERIORITY|||||||0.116|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.116
82394580|NCT04108988|164499835|SUPERIORITY|||||||0.016|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.016
82394581|NCT04108988|164499836|SUPERIORITY|||||||0.667|||||||ANOVA|Test for the interaction between treatment and time.||Test for the interaction between treatment and time.||||0.667
82394582|NCT04108988|164499837|SUPERIORITY|||||||0.09|||||||Chi-squared|||P value at month 4||||0.09
82394583|NCT04108988|164499837|SUPERIORITY|||||||0.72|||||||Chi-squared|||P value 1 month||||0.72
82394584|NCT04108988|164499837|SUPERIORITY|||||||0.97|||||||Chi-squared|||P value at baseline||||0.97
82575378|NCT03054337|164860503|SUPERIORITY|||||||0.3702|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.3702
82528554|NCT02247804|164753051|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.39||0.3904|TWO_SIDED|95.0|-1.09|0.43|||MMRM|||Week 12, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.43|-1.09|0.3904
82366949|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54|STANDARD_ERROR_OF_MEAN|4.1389|||TWO_SIDED|95.0|-7.7|8.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||8.8|-7.7|
82366950|NCT02037165|164444553|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.04|STANDARD_ERROR_OF_MEAN|3.3835|||TWO_SIDED|95.0|-8.8|4.7|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||4.7|-8.8|
82366951|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-29.67|STANDARD_ERROR_OF_MEAN|29.5691|||TWO_SIDED|95.0|-88.3|29.0|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||29.0|-88.3|
82366952|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-16.29|STANDARD_ERROR_OF_MEAN|29.8613|||TWO_SIDED|95.0|-75.5|42.9|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||42.9|-75.5|
82366953|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|7.63|STANDARD_ERROR_OF_MEAN|25.1035|||TWO_SIDED|95.0|-42.2|57.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||57.5|-42.2|
82394585|NCT04108988|164499838|SUPERIORITY|||||||0.53|||||||Chi-squared|||P value at month 4||||0.53
82394586|NCT04108988|164499838|SUPERIORITY|||||||0.303|||||||Chi-squared|||P value at month 1||||0.303
82394587|NCT04108988|164499838|SUPERIORITY|||||||0.042|||||||Chi-squared|||P value at baseline.||||0.042
82394588|NCT04108988|164499839|SUPERIORITY|||||||0.246|||||||Chi-squared|||P value at month 4.||||0.246
82444419|NCT04075409|164597621|OTHER||LS means ratio|1.345|||||TWO_SIDED|90.0|1.093|1.655|||ANOVA|The ANOVA model included genotype group as the fixed effects. The natural logs were taken of the dependent variables and were back-transformed.||Point estimates for the geometric least squares (LS) means ratio and the respective 2-sided 90% CIs were computed using the LS means and the root mean squares of error, based on of the log-transformed data with subsequent exponential transformation.||1.655|1.093|
82444420|NCT00162266|164597625|SUPERIORITY_OR_OTHER||Point Estimate of Difference|25.6|||<|0.001|TWO_SIDED|95.0|12.8|38.4|||Chi-squared|||||38.4|12.8|<0.001
82575379|NCT03054337|164860503|SUPERIORITY|||||||0.5524|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.5524
82394589|NCT04108988|164499839|SUPERIORITY|||||||0.467|||||||Chi-squared|||P value at month 1.||||0.467
82394590|NCT04108988|164499839|SUPERIORITY|||||||0.55|||||||Chi-squared|||P value at baseline.||||0.55
82394591|NCT04108988|164499840|SUPERIORITY|||||||0.987|||||||Chi-squared|||P value at month 4.||||0.987
82394592|NCT04108988|164499840|SUPERIORITY|||||||0.898|||||||Chi-squared|||P value at month 1.||||0.898
82394593|NCT04108988|164499840|SUPERIORITY|||||||0.238|||||||Chi-squared|||P value at baseline.||||0.238
82394594|NCT04108988|164499841|SUPERIORITY|||||||0.148|||||||Chi-squared|||P value at month 4.||||0.148
82444421|NCT00162266|164597625|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.31|TWO_SIDED|95.0|-6.2|19.4|||Chi-squared|||||19.4|-6.2|0.31
82444422|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.9||||0.283|TWO_SIDED|95.0|-4.9|16.7|||Chi-squared|||Response on Day 15||16.7|-4.9|0.283
82366954|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-20.47|STANDARD_ERROR_OF_MEAN|23.311|||TWO_SIDED|95.0|-66.7|25.8|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||25.8|-66.7|
82644076|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.509|||<|0.0001|TWO_SIDED|95.0|1.857|3.162|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||3.162|1.857|<.0001
82644077|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.019||||1|TWO_SIDED|95.0|-0.743|0.705|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.705|-0.743|1.0000
82644078|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.411||||0.5639|TWO_SIDED|95.0|-1.142|0.32|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.320|-1.142|0.5639
82644079|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.058||||1|TWO_SIDED|95.0|-0.771|0.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.656|-0.771|1.0000
82644080|NCT03692078|165003987|EQUIVALENCE|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.006||||1|TWO_SIDED|95.0|-0.721|0.732|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: NNN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.732|-0.721|1.0000
82644081|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.691|||<|0.0001|TWO_SIDED|95.0|2.519|2.863|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||2.863|2.519|<.0001
82644082|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.718|||<|0.0001|TWO_SIDED|95.0|2.546|2.89|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||2.890|2.546|<.0001
82394595|NCT04108988|164499841|SUPERIORITY|||||||0.557|||||||Chi-squared|||P value at month 1.||||0.557
82366955|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-12.63|STANDARD_ERROR_OF_MEAN|23.1894|||TWO_SIDED|95.0|-58.6|33.4|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||33.4|-58.6|
82394596|NCT04108988|164499842|SUPERIORITY|||||||0.653|||||||Chi-squared|||||||0.653
82366956|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|23.7285|||TWO_SIDED|95.0|-47.8|46.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||46.5|-47.8|
82366957|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-19.27|STANDARD_ERROR_OF_MEAN|27.6359|||TWO_SIDED|95.0|-74.3|35.7|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||35.7|-74.3|
82366958|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-25.23|STANDARD_ERROR_OF_MEAN|27.5524|||TWO_SIDED|95.0|-79.9|29.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||29.5|-79.9|
82366959|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-17.19|STANDARD_ERROR_OF_MEAN|27.0135|||TWO_SIDED|95.0|-70.9|36.5|||||Adjusted mean treatment difference between 50 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||36.5|-70.9|
82366960|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-39.62|STANDARD_ERROR_OF_MEAN|29.3023|||TWO_SIDED|95.0|-97.7|18.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 0:30h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||18.5|-97.7|
82394597|NCT04108988|164499843|SUPERIORITY|||||||0.977|||||||Chi-squared|||||||0.977
82394598|NCT04108988|164499844|SUPERIORITY|||||||0.735|||||||t-test, 2 sided|||P value at month 4.||||0.735
82528555|NCT02247804|164753052|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0464||95.0|-1.4|-0.01|||MMRM|||Week 12, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.01|-1.40|0.0464
82394599|NCT04108988|164499844|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||P value at month 1.||||0.159
82394600|NCT04108988|164499845|SUPERIORITY|||||||3.19|||||||t-test, 2 sided|||P value at month 4.||||3.19
82394601|NCT04108988|164499845|SUPERIORITY|||||||0.487|||||||t-test, 2 sided|||P value at month 1.||||0.487
82575380|NCT03054337|164860503|SUPERIORITY|||||||0.1589|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Iron||||0.1589
82394602|NCT04108988|164499845|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||P value at baseline.||||0.165
82394603|NCT04108988|164499846|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||P value at month 4.||||0.473
82394604|NCT04108988|164499846|SUPERIORITY|||||||0.316|||||||t-test, 2 sided|||P value at month 1.||||0.316
82394605|NCT04108988|164499846|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||P value at baseline.||||0.345
82394606|NCT04108988|164499847|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||P value at month 4.||||0.141
82394607|NCT04108988|164499847|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||P value at month 1.||||0.314
82394608|NCT04108988|164499847|SUPERIORITY|||||||0.444|||||||t-test, 2 sided|||P value at baseline.||||0.444
82394609|NCT00355706|164499875|SUPERIORITY_OR_OTHER_LEGACY|||||||0.964||95.0|||||ANOVA|||||||0.964
82394610|NCT00355706|164499876|SUPERIORITY_OR_OTHER_LEGACY|||||||0.892||95.0|||||ANOVA|||||||0.892
82394611|NCT00355706|164499877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56||95.0|||||ANOVA|||||||0.560
82444423|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-11.6||||0.015|TWO_SIDED|95.0|-20.9|-2.3|||Chi-squared|||Response on Day 15||-2.3|-20.9|0.015
82575381|NCT03054337|164860503|SUPERIORITY|||||||0.0092|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||0.0092
82575382|NCT03054337|164860503|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||<0.0001
82575383|NCT03054337|164860503|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||TIBC||||<0.0001
82366961|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-37.06|STANDARD_ERROR_OF_MEAN|29.5797|||TWO_SIDED|95.0|-95.7|21.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 1:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||21.6|-95.7|
82366962|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-52.45|STANDARD_ERROR_OF_MEAN|24.8429|||TWO_SIDED|95.0|-101.8|-3.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 2:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-3.1|-101.8|
82366963|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-59.87|STANDARD_ERROR_OF_MEAN|23.0541|||TWO_SIDED|95.0|-105.6|-14.1|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 3:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-14.1|-105.6|
82366964|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-39.96|STANDARD_ERROR_OF_MEAN|22.9336|||TWO_SIDED|95.0|-85.5|5.5|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 4:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||5.5|-85.5|
82394612|NCT04007107|164499918|OTHER|Comparison|Estimated treatment difference|30.7|||<|0.0001|TWO_SIDED|95.0|26.6|34.8|||ANOVA|||The intensity of pain was analysed by a fixed analysis of variance model with VAS score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||34.8|26.6|<0.0001
82394613|NCT04526574|164499924|NON_INFERIORITY|Noninferiority (NI) for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|Geometric Mean Ratio (GMR)|0.74|||||TWO_SIDED|95.0|0.65|0.84||||||Serotype 1: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of least square (LS) means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.84|0.65|
82394614|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.82|||||TWO_SIDED|95.0|0.75|0.9||||||Serotype 3: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.90|0.75|
82394615|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||Serotype 4: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.02|0.77|
82528556|NCT02247804|164753052|NON_INFERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.5383||95.0|-0.9|0.47|||MMRM|||Week 12, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared non-inferior to timolol 0.5% if the upper limit of the 95% CI was ≤ 1.5 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.47|-0.90|0.5383
82528557|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.34||0.0033|TWO_SIDED|95.0|-1.68|-0.34|||MMRM|||Change from Baseline Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.34|-1.68|0.0033
82575384|NCT03054337|164860505|SUPERIORITY|||||||0.9092|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.9092
82575385|NCT03054337|164860505|SUPERIORITY|||||||0.1484|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.1484
82575386|NCT03054337|164860505|SUPERIORITY|||||||0.1313|||||||ANCOVA|test of treatment group difference based on ANCOVA model||||||0.1313
82575387|NCT03054337|164860507|SUPERIORITY|||||||0.108|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.1080
82644083|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.415|||<|0.0001|TWO_SIDED|95.0|2.252|2.577|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.577|2.252|<.0001
82366965|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-38.99|STANDARD_ERROR_OF_MEAN|23.4683|||TWO_SIDED|95.0|-85.6|7.6|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 5:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||7.6|-85.6|
82366966|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-63.69|STANDARD_ERROR_OF_MEAN|27.3484|||TWO_SIDED|95.0|-118.1|-9.3|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 6:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-9.3|-118.1|
82366967|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-61.36|STANDARD_ERROR_OF_MEAN|27.2866|||TWO_SIDED|95.0|-115.6|-7.2|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 22:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||-7.2|-115.6|
82366968|NCT02037165|164444554|SUPERIORITY_OR_OTHER||adjusted mean difference|-49.4|STANDARD_ERROR_OF_MEAN|26.7541|||TWO_SIDED|95.0|-102.6|3.8|||||Adjusted mean treatment difference between 200 mg BI 1026706 and placebo in the change from baseline. This analysis represents the results evaluated at 24:00h after the dose administration.|A repeated measures model was applied to the change from baseline of the endpoint which included the fixed effects 'period', 'treatment', 'mean of the period baselines of primary PD endpoint', 'baseline of primary PD endpoint of the respective period', and 'session', the random effect 'subject', and the interaction terms 'mean of the period baselines × session', 'baseline of the respective period × session', 'period × session', and 'treatment × session'.||3.8|-102.6|
82366969|NCT03431974|164444555|SUPERIORITY|||||||0.43|||||||Fisher Exact|||The efficacy of LD-AMT established using a step-down analysis approach with one-sided Fisher's exact tests. First, the analysis for subjects attaining PASI 75 will be performed, then, if that analysis shows a significant treatment effect, analysis for subjects attaining a sPGA success will be performed.||||0.43
82366970|NCT02220725|164444557|SUPERIORITY||Hodges-Lehman estimate of shift|-70.14|||<|0.0001|TWO_SIDED|95.0|-85.43|-65.91|||2-sided test exact Wilcoxon rank-sum tes|||||-65.91|-85.43|<0.0001
82366971|NCT02220725|164444557|SUPERIORITY||Hodges-Lehman estimate of shift|-51.87|||<|0.0001|TWO_SIDED|95.0|-57.95|-47.03|||2-sided test exact Wilcoxon rank-sum tes|||||-47.03|-57.95|<0.0001
82528558|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0187|TWO_SIDED|95.0|-1.47|-0.13|||MMRM|||Change from Baseline Week 2, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.13|-1.47|0.0187
82528559|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.31||0.0057|TWO_SIDED|95.0|-1.45|-0.25|||MMRM|||Change from Baseline Week 2, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.25|-1.45|0.0057
82528560|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.0031|TWO_SIDED|95.0|-1.5|-0.31|||MMRM|||Change from Baseline Week 2, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.31|-1.50|0.0031
82366972|NCT02220725|164444558|SUPERIORITY||Hodges-Lehman estimate of shift|-74.45|||<|0.0001|TWO_SIDED|95.0|-78.92|-64.45|||2-sided test exact Wilcoxon rank-sum tes|||||-64.45|-78.92|<0.0001
82444424|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.5||||0.067|TWO_SIDED|95.0|-0.8|23.8|||Chi-squared|||Response on Day 30||23.8|-0.8|0.067
82444425|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-9.3||||0.113|TWO_SIDED|95.0|-20.8|2.2|||Chi-squared|||Response on Day 30||2.2|-20.8|0.113
82644084|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.44|||<|0.0001|TWO_SIDED|95.0|2.276|2.603|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.603|2.276|<.0001
82366973|NCT02220725|164444560|SUPERIORITY||Hodges-Lehmann Estimate of Shift|-18.0|||<|0.0001|TWO_SIDED|95.0|-23.05|-12.73|||2-sided test exact Wilcoxon rank-sum tes|||||-12.73|-23.05|<0.0001
82366974|NCT02220725|164444561|SUPERIORITY||Hodges-Lehman estimate of shift|1142.66|||<|0.0001|TWO_SIDED|95.0|1006.1|1281.4|||2-sided test exact Wilcoxon rank-sum tes|||||1281.40|1006.10|<0.0001
82366975|NCT02220725|164444561|SUPERIORITY||Hodges-Lehman estimate of shift|1205.05|||<|0.0001|TWO_SIDED|95.0|1034.17|1400.79|||2-sided test exact Wilcoxon rank-sum tes|||||1400.79|1034.17|<0.0001
82366976|NCT01673698|164444563|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED||||||t-test, 1 sided|||||||0.0041
82366977|NCT01673698|164444564|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 1 sided|||||||<0.0001
82366978|NCT01673698|164444565|SUPERIORITY_OR_OTHER|||||||0.561|TWO_SIDED||||||Chi-squared|||||||0.5610
82366979|NCT01583218|164444574|SUPERIORITY||Relative Risk Reduction (RRR)|0.209||||0.038|TWO_SIDED|95.0|0.013|0.366|||Cochran-Mantel-Haenszel|||||0.366|0.013|0.038
82366980|NCT01583218|164444575|SUPERIORITY||Relative Risk Reduction (RRR)|0.216||||0.018|TWO_SIDED|95.0|0.041|0.359|||Cochran-Mantel-Haenszel|||||0.359|0.041|0.018
82366981|NCT01583218|164444576|SUPERIORITY||Relative Risk Reduction (RRR)|0.254||||0.003|TWO_SIDED|95.0|0.092|0.387|||Cochran-Mantel-Haenszel|||||0.387|0.092|0.003
82366982|NCT01583218|164444577|SUPERIORITY|||||||0.554|||||||Chi-squared|||||||0.554
82366983|NCT01583218|164444578|SUPERIORITY||Relative Risk Reduction (RRR)|0.326||||0.092|TWO_SIDED|95.0|-0.069|0.576|||Cochran-Mantel-Haenszel|||||0.576|-0.069|0.092
82366984|NCT01583218|164444579|SUPERIORITY||Relative Risk Reduction (RRR)|0.295||||0.11|TWO_SIDED|95.0|-0.085|0.542|||Cochran-Mantel-Haenszel|||||0.542|-0.085|0.11
82366985|NCT01583218|164444580|SUPERIORITY||Relative Risk Reduction (RRR)|0.358||||0.039|TWO_SIDED|95.0|0.02|0.58|||Cochran-Mantel-Haenszel|||||0.580|0.020|0.039
82366986|NCT01663727|164444598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0007|TWO_SIDED|99.0|0.51|0.91|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||0.91|0.51|0.0007
82366987|NCT01663727|164444598|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0046|TWO_SIDED|99.0|0.55|0.97|||Log Rank|||Unstratified Analysis.||0.97|0.55|0.0046
82366988|NCT01663727|164444598|SUPERIORITY_OR_OTHER|||||||0.4619|TWO_SIDED||||||Wald Test|||A stratified multivariate Cox regression model, including treatment, VEGF-A level, and interaction between treatment and VEGF-A level (low, high) as factors was used to estimate the interaction p-value of the treatment with VEGF-A level for PFS. Analysis for the interaction of treatment effect with the plasma VEGF-A levels was a secondary objective.||||0.4619
82366989|NCT01663727|164444600|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5877|TWO_SIDED|95.0|0.75|1.18|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.18|0.75|0.5877
82366990|NCT01663727|164444600|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8004|TWO_SIDED|95.0|0.78|1.21|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.21|0.78|0.8004
82366991|NCT01663727|164444602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2745|TWO_SIDED|95.0|0.63|1.14|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.14|0.63|0.2745
82366992|NCT01663727|164444602|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.3616|TWO_SIDED|95.0|0.65|1.17|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.17|0.65|0.3616
82366993|NCT01663727|164444603|SUPERIORITY_OR_OTHER||Difference in Response Rates|20.78|||<|0.0001|TWO_SIDED|95.0|11.45|30.11|||Fisher|||||30.11|11.45|<0.0001
82366994|NCT01663727|164444605|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0038|TWO_SIDED|96.0|0.47|0.88|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||0.88|0.47|0.0038
82366995|NCT01663727|164444605|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0101|TWO_SIDED|96.0|0.5|0.93|||Log Rank|||Unstratified analysis.||0.93|0.50|0.0101
82366996|NCT01663727|164444606|SUPERIORITY_OR_OTHER||Difference in Response Rates|21.53||||0.0017|TWO_SIDED|95.0|8.73|34.32|||Fisher|||||34.32|8.73|0.0017
82366997|NCT01663727|164444607|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2737|TWO_SIDED|95.0|0.54|1.19|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were plasma VEGF-A level (low/high), prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.19|0.54|0.2737
82444426|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|22.1|||<|0.001|TWO_SIDED|95.0|9.3|34.8|||Chi-squared|||Response on Day 60||34.8|9.3|<0.001
82444427|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-1.1||||0.86|TWO_SIDED|95.0|-13.5|11.3|||Chi-squared|||Response on Day 60||11.3|-13.5|0.86
82444428|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|18.6||||0.004|TWO_SIDED|95.0|5.9|31.4|||Chi-squared|||Response on Day 90||31.4|5.9|0.004
82366998|NCT01663727|164444607|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.2959|TWO_SIDED|95.0|0.56|1.19|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.19|0.56|0.2959
82366999|NCT01663727|164444608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.1783|TWO_SIDED|95.0|0.41|1.18|||Log Rank||Hazards ratio was estimated by Cox regression.|Stratified analysis: Stratification factors were prior adjuvant chemotherapy (yes/no) and estrogen receptor / progesterone receptor status (positive, negative).||1.18|0.41|0.1783
82367000|NCT01663727|164444608|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2429|TWO_SIDED|95.0|0.45|1.22|||Log Rank||Hazards ratio was estimated by Cox regression.|Unstratified analysis.||1.22|0.45|0.2429
82367001|NCT02307266|164444622|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3165|||||||Cochran-Mantel-Haenszel|||||||0.3165
82367002|NCT02307266|164444622|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206|||||||Cochran-Mantel-Haenszel|||||||0.0206
82367003|NCT01796912|164444715|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82367004|NCT01796912|164444716|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82367005|NCT01796912|164444717|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82367006|NCT01796912|164444718|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||||||0.016
82367007|NCT01796912|164444719|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82394616|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||Serotype 5: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.98|0.79|
82394617|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.76|||||TWO_SIDED|95.0|0.65|0.88||||||Serotype 6A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.88|0.65|
82367008|NCT01796912|164444720|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82367009|NCT01796912|164444721|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82367010|NCT01388166|164444726|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82367011|NCT01388166|164444727|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82394618|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.81|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 6B: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.94|0.71|
82444429|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.8||||0.664|TWO_SIDED|95.0|-9.8|15.4|||Chi-squared|||Response on Day 90||15.4|-9.8|0.664
82575388|NCT03054337|164860507|SUPERIORITY|||||||0.0002|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||0.0002
82367012|NCT01388166|164444728|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82367013|NCT00841906|164444729|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82367014|NCT01196078|164444738|SUPERIORITY_OR_OTHER||Difference in Percentages|13.88||||0.0388|TWO_SIDED|95.0|-0.22|26.19||Between-treatment difference computed using logistic regression with treatment and multiple factors (gender, Eastern Cooperative Oncology Group \[ECOG\] status, histology status, and smoking status) as explanatory variables.|Regression, Logistic||95% confidence interval (CI) for the difference in tumor response rate determined using Hauck-Anderson approach.|||26.19|-0.22|0.0388
82367015|NCT01196078|164444739|SUPERIORITY_OR_OTHER||Difference in Percentages|14.79||||0.1061|TWO_SIDED|95.0|-3.54|31.33||Between-treatment difference computed using logistic regression with treatment and multiple factors (gender, ECOG status, histology status, and smoking status) as explanatory variables.|Regression, Logistic||95% CI for the difference in the disease control rate determined using Hauck-Anderson approach.|||31.33|-3.54|0.1061
82367016|NCT01196078|164444740|SUPERIORITY_OR_OTHER|||||||0.9505|||||||Log Rank|||||||0.9505
82367017|NCT01196078|164444742|SUPERIORITY_OR_OTHER|||||||0.2314|||||||Log Rank|Data were stratified by gender, ECOG status, histology status, and smoking status.||||||0.2314
82367018|NCT01196078|164444744|SUPERIORITY_OR_OTHER|||||||0.9894|||||||Log Rank|Data were stratified by gender, ECOG status, histology status, and smoking status.||||||0.9894
82367019|NCT01196078|164444746|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||PWB, Baseline versus Endpoint||||0.0060
82367020|NCT01196078|164444746|SUPERIORITY_OR_OTHER|||||||0.6871|||||||ANOVA|||SWB, Baseline versus Endpoint||||0.6871
82367021|NCT01196078|164444746|SUPERIORITY_OR_OTHER|||||||0.5104|||||||ANOVA|||EWB Baseline versus Endpoint||||0.5104
82367022|NCT01196078|164444746|SUPERIORITY_OR_OTHER|||||||0.9927|||||||ANOVA|||FWB, Baseline versus Endpoint||||0.9927
82367023|NCT01196078|164444746|SUPERIORITY_OR_OTHER|||||||0.3581|||||||ANOVA|||LCS, Baseline versus Endpoint||||0.3581
82367024|NCT04397445|164444768|SUPERIORITY|||||||0.54||||||A 1-sided lower P value \<.05 was considered significant for ranitidine vs. placebo as the aim was to evaluate if ranitidine increased NDMA exposure. Comparisons were performed separately with each diet without adjustment for multiplicity.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between ranitidine and placebo is 0 (-6.9 to 0) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.54
82367025|NCT04397445|164444768|SUPERIORITY|||||||0.71||||||A 1-sided lower P value \<.05 was considered significant for ranitidine vs. placebo as the aim was to evaluate if ranitidine increased NDMA exposure. Comparisons were performed separately with each diet without adjustment for multiplicity.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between ranitidine and placebo is -1.1 (-9.1 to 11.5) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.71
82367026|NCT04397445|164444769|SUPERIORITY|||||||0.005||||||Exploratory analyses on the effect of diet used a 1-sided lower P value \<.05 for NDMA as the cured-meats diet was designed to have higher NDMA.|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between the cured-meats diet and noncured-meats diet is 9.3 (3.8 to 25.0) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.005
82367027|NCT04397445|164444769|SUPERIORITY|||||||0.007||||||Exploratory analyses on the effect of diet used a 1-sided lower P value \<.05 for NDMA as the cured-meats diet was designed to have higher NDMA|Wilcoxon (Mann-Whitney)|||A Wilcoxon signed-rank test was used for analyses, per the statistical analysis plan, as NDMA urine data were not normally distributed|The median of the paired differences (interquartile range) between the cured-meats diet and noncured-meats diet is 6.4 (0 to 23.4) ng. The median of the paired differences is calculated by first determining the difference between the two treatments for each individual participant and then determining the median of those values. The Wilcoxon signed-rank test that was used for NDMA analyses is also based on first determining the difference between the treatment groups for each individual participant.|||0.007
82367028|NCT04397445|164444770|OTHER||Geometric Mean Ratio|0.94||||0.92|TWO_SIDED|90.0|0.87|1.01||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator).|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.01|0.87|0.92
82394619|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.9|||||TWO_SIDED|95.0|0.83|0.99||||||Serotype 7F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.99|0.83|
82394620|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.8|||||TWO_SIDED|95.0|0.7|0.93||||||Serotype 8: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.93|0.70|
82444430|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|23.9|||<|0.001|TWO_SIDED|95.0|11.1|36.7|||Chi-squared|||Response on Day 120||36.7|11.1|<0.001
82644085|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.583|||<|0.0001|TWO_SIDED|95.0|2.417|2.748|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.748|2.417|<.0001
82367029|NCT04397445|164444770|OTHER||Geometric Mean Ratio|0.95||||0.74|TWO_SIDED|90.0|0.81|1.1||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator).|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.10|0.81|0.74
82367030|NCT04397445|164444770|OTHER||Geometric Mean Ratio|1.05||||0.52|TWO_SIDED|95.0|0.9|1.23||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||1.23|0.90|0.52
82367031|NCT04397445|164444770|OTHER||Geometric Mean Ratio|1.05||||0.42|TWO_SIDED|95.0|0.93|1.19||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||1.19|0.93|0.42
82444431|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.9||||0.292|TWO_SIDED|95.0|-6.0|19.9|||Chi-squared|||Response on Day 120||19.9|-6.0|0.292
82444432|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|23.0|||<|0.001|TWO_SIDED|95.0|10.2|35.8|||Chi-squared|||Response on Day 150||35.8|10.2|<0.001
82444433|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.5||||0.193|TWO_SIDED|95.0|-4.3|21.3|||Chi-squared|||Response on Day 150||21.3|-4.3|0.193
82367032|NCT04397445|164444771|OTHER||Geometric Mean Ratio|0.81||||0.001|TWO_SIDED|95.0|0.72|0.91||Exploratory analyses on the effect of diet used a 2-sided P value \<.05 for ranitidine as the diet was not expected to affect these outcomes|Mixed Models Analysis|||As ranitidine data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|0.91|0.72|0.001
82367033|NCT04397445|164444773|OTHER||Geometric Mean Ratio|1.0||||0.46|TWO_SIDED|90.0|0.91|1.11||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis||This compares the results from ranitidine (numerator) with placebo (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||1.11|0.91|0.46
82367034|NCT04397445|164444773|OTHER||Geometric Mean Ratio|1.0||||0.49|TWO_SIDED|90.0|0.8|1.25||A 1-sided lower P value \<.05 was considered significant for the exploratory analyses of ranitidine vs. placebo because the study aim was to evaluate if ranitidine increased DMA exposure.|Mixed Models Analysis|||As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from ranitidine (numerator) with placebo (denominator)|1.25|0.80|0.49
82367035|NCT04397445|164444773|OTHER||Geometric Mean Ratio|0.8||||0.02|TWO_SIDED|95.0|0.67|0.95||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence.||0.95|0.67|0.02
82367036|NCT04397445|164444773|OTHER||Geometric Mean Ratio|0.8||||0.03|TWO_SIDED|95.0|0.65|0.98||A 2-sided P value \<.05 was used for DMA as the diet was not expected to affect these outcomes|Mixed Models Analysis|||As DMA data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence|This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator)|0.98|0.65|0.03
82367037|NCT04397445|164444774|OTHER||Geometric Mean Ratio|0.77||||0.002|TWO_SIDED|95.0|0.66|0.89||Exploratory analyses on the effect of diet used a 2-sided P value \<.05 for ranitidine as the diet was not expected to affect these outcomes|Mixed Models Analysis||This compares the results from the cured-meats diet (numerator) with the noncured-meats diet (denominator).|As ranitidine data were log-normally distributed, analyses were based on a mixed-effect analysis of geometric means with terms for treatment, period, and sequence||0.89|0.66|0.002
82367038|NCT01429051|164444775|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.002|TWO_SIDED|95.0|0.41|1.179|||Mixed Models Analysis|A mixed effects model with episode baseline PI as a covariate, treatment as a fixed effect and patient as a random effect.||||1.179|0.41|0.002
82367039|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||Analysis of Variance(ANOVA)|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 45 mg||||<0.001
82367040|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 60 mg||||<0.001
82367041|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 90 mg||||<0.001
82367042|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 45 mg||||<0.001
82367043|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 60 mg||||<0.001
82367044|NCT03728634|164444871|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 90 mg||||<0.001
82367045|NCT03728634|164444871|SUPERIORITY|||||||0.036|||||||ANOVA|||Change From Baseline in Plasma TTR Levels Following Single-Dose Administration of ION-TTR-LRx at Day 29: 120 mg||||0.036
82367046|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 45 mg||||<0.001
82367047|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 60 mg||||<0.001
82367048|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 29: 90 mg||||<0.001
82367049|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 45 mg||||<0.001
82367050|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 60 mg||||<0.001
82367051|NCT03728634|164444872|SUPERIORITY||||||<|0.001|||||||ANOVA|||Change From Baseline in Plasma RBP4 Levels Following Multiple-Dose Administration of ION-TTR-LRx at Day 99: 90 mg||||<0.001
82367052|NCT03728634|164444872|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank Sum Exact Test (2-sided)|||Change From Baseline in Plasma RBP4 Levels Following Single-Dose Administration of ION-TTR-LRx at Day 29: 120 mg||||0.036
82367053|NCT04688931|164444909|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.45|||||TWO_SIDED|95.0|0.29|0.68|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.68|0.29|
82444434|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|25.6|||<|0.001|TWO_SIDED|95.0|12.8|38.4|||Chi-squared|||Response on Day 180||38.4|12.8|<0.001
82444435|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.31||95.0|-6.2|19.4|||Chi-squared|||Response on Day 180||19.4|-6.2|0.31
82367054|NCT04688931|164444910|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.46|||||TWO_SIDED|95.0|0.3|0.7|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.70|0.30|
82644086|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.591|||<|0.0001|TWO_SIDED|95.0|2.426|2.757|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.757|2.426|<.0001
82644087|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.107|||<|0.0001|TWO_SIDED|95.0|0.901|1.314|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.314|0.901|<.0001
82644088|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.017|||<|0.0001|TWO_SIDED|95.0|0.81|1.225|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.225|0.810|<.0001
82644089|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.828|||<|0.0001|TWO_SIDED|95.0|1.624|2.031|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.031|1.624|<.0001
82644090|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.782|||<|0.0001|TWO_SIDED|95.0|1.577|1.988|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.988|1.577|<.0001
82644091|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.35|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-0.350|-0.750|<.0001
82644092|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.051|-0.65|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.650|-1.051|<.0001
82644093|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.276||||0.1608|TWO_SIDED|95.0|-0.609|0.057|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.057|-0.609|0.1608
82644094|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.278||||0.1575|TWO_SIDED|95.0|-0.613|0.056|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.056|-0.613|0.1575
82444436|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|27.3|||<|0.001|TWO_SIDED|95.0|14.5|40.1|||Chi-squared|||Response on Day 240||40.1|14.5|<0.001
82444437|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.7||||0.384|TWO_SIDED|95.0|-7.1|18.4|||Chi-squared|||Response on Day 240||18.4|-7.1|0.384
82367055|NCT04688931|164444912|OTHER|The analysis is descriptive in nature.|Cox Proportional Hazard|0.46|||||TWO_SIDED|95.0|0.24|0.86|||||The hazard ratio represents the relative risk of having an event in the treatment arm (numerator) versus the control arm (denominator).|||0.86|0.24|
82367056|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.051||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups V vs VI at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group VI at α = 0.05.||||0.051
82367057|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups I vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31% response in the Group I at α = 0.05.||||0.073
82367058|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups III vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group III at α = 0.05.||||0.093
82367059|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.465||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups VII vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group VII at α = 0.05.||||0.465
82367060|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.872||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups II vs V at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the Group II at α = 0.05.||||0.872
82367061|NCT00361335|164444919|SUPERIORITY_OR_OTHER|||||||0.175||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in ACR 50 response at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance. Sample size: The sample size of 125 patients in each of the 5 randomized groups will provide at least 90 percentage power to detect a difference in the ACR 50 response rates between groups assuming 13 percentage response in Group V and \~29-31 percentage response in the combined group (I and III) at α = 0.05.||||0.175
82367062|NCT00361335|164444920|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs VI at 0.05 level of significance.||||0.002
82367063|NCT00361335|164444920|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups I vs V at 0.05 level of significance.||||0.032
82367064|NCT00361335|164444920|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups III vs V at 0.05 level of significance.||||<0.001
82367065|NCT00361335|164444920|SUPERIORITY_OR_OTHER|||||||0.795||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs VII at 0.05 level of significance.||||0.795
82367066|NCT00361335|164444920|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups II vs V at 0.05 level of significance.||||0.844
82367067|NCT00361335|164444920|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 50 response at Week 24 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.540
82367068|NCT00361335|164444921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||<0.001
82367069|NCT00361335|164444921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||<0.001
82367070|NCT00361335|164444921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||<0.001
82367071|NCT00361335|164444921|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs VII at 0.05 level of significance.||||0.002
82367072|NCT00361335|164444921|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.043
82367073|NCT00361335|164444921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||<0.001
82367074|NCT00361335|164444922|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||<0.001
82367075|NCT00361335|164444922|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||<0.001
82367076|NCT00361335|164444922|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||<0.001
82644095|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.108||||0.9728|TWO_SIDED|95.0|-0.442|0.226|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.226|-0.442|0.9728
82644096|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.127||||0.9262|TWO_SIDED|95.0|-0.461|0.208|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.208|-0.461|0.9262
82644097|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.584|||<|0.0001|TWO_SIDED|95.0|-1.963|-1.204|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.204|-1.963|<.0001
82644098|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.701|||<|0.0001|TWO_SIDED|95.0|-2.081|-1.32|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.320|-2.081|<.0001
82644099|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.863|||<|0.0001|TWO_SIDED|95.0|-1.237|-0.489|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.489|-1.237|<.0001
82644100|NCT03692078|165003989|EQUIVALENCE|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.936|||<|0.0001|TWO_SIDED|95.0|-1.312|-0.56|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: NE amount excreted (mg/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: NE amount excreted (mg/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.560|-1.312|<.0001
82644101|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.47|||<|0.0001|TWO_SIDED|95.0|3.31|3.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.630|3.310|<.0001
82367077|NCT00361335|164444922|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs VII at 0.05 level of significance.||||<0.001
82367078|NCT00361335|164444922|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||2-sided Cochran-Mantel-Haenszel|||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.003
82444438|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|29.0|||<|0.001|TWO_SIDED|95.0|16.2|41.8|||Chi-squared|||Response on Day 300||41.8|16.2|<0.001
82367079|NCT00361335|164444922|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||2-sided Cochran-Mantel-Haenszel|No adjustments were made to control for multiplicity||Hypothesis: Null hypothesis: No difference in DAS28 response using CRP at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.001
82367080|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups V vs VI at 0.05 level of significance.||||0.005
82444439|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.6||||0.476|TWO_SIDED|95.0|-8.0|17.2|||Chi-squared|||Response on Day 300||17.2|-8.0|0.476
82367081|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups I vs V at 0.05 level of significance.||||0.014
82444440|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|26.5|||<|0.001|TWO_SIDED|95.0|13.7|39.3|||Chi-squared|||Response on Day 360||39.3|13.7|<0.001
82444441|NCT00162266|164597626|SUPERIORITY_OR_OTHER||Point Estimate of Difference|5.8||||0.377|TWO_SIDED|95.0|-7.0|18.6|||Chi-squared|||Response on Day 360||18.6|-7.0|0.377
82575389|NCT03054337|164860507|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Ferritin||||<0.0001
82367082|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups III vs V at 0.05 level of significance.||||0.014
82367083|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups I and VII at 0.05 level of significance.||||0.996
82367084|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups II vs V at 0.05 level of significance.||||0.738
82367085|NCT00361335|164444923|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||No adjustments were made to control for multiplicity|2-sided ANOVA on van der Waerden|||Hypothesis: Null hypothesis: No difference in change from baseline in PCS score of SF-36 at Wk 14 comparing Groups V vs I, V vs III, V vs II, and V vs IV at 0.05 level of significance.||||0.788
82367086|NCT00251719|164444943|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 60 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|2.34||||0.234||95.0|-1.45|6.14||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||6.14|-1.45|0.234
82367087|NCT00251719|164444943|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 90 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|4.85||||0.019||95.0|1.2|8.5||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||8.50|1.20|0.019
82367088|NCT00251719|164444943|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.220
82367089|NCT00251719|164444944|SUPERIORITY_OR_OTHER|||||||0.768||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.768
82367090|NCT00251719|164444944|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.064
82367091|NCT00251719|164444944|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.034
82367092|NCT00251719|164444945|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.727
82367093|NCT00251719|164444945|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.064
82367094|NCT00251719|164444945|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.174
82367095|NCT00251719|164444946|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|1.65||||0.167||95.0|-1.65|4.96||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||4.96|-1.65|0.167
82367096|NCT00251719|164444946|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|3.39||||0.03||95.0|0.27|6.5||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||6.50|0.27|0.030
82367097|NCT00251719|164444946|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.413
82367098|NCT00251719|164444947|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.100
82444442|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-0.8||||0.679|TWO_SIDED|95.0|-4.5|2.9|||Chi-squared|||Response on Day 15||2.9|-4.5|0.679
82444443|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-2.5||||0.101|TWO_SIDED|95.0|-5.5|0.5|||Chi-squared|||Response on Day 15||0.5|-5.5|0.101
82575390|NCT03054337|164860507|SUPERIORITY|||||||0.0672|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0672
82575391|NCT03054337|164860507|SUPERIORITY|||||||0.0004|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||0.0004
82575392|NCT03054337|164860507|SUPERIORITY||||||<|0.0001|||||||ANCOVA|test of treatment group difference based on ANCOVA model||Hepcidin||||<0.0001
82575393|NCT03054337|164860514|SUPERIORITY|||||||0.0895|||||||Fisher Exact|||||||0.0895
82394621|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.94|||||TWO_SIDED|95.0|0.82|1.07||||||Serotype 9V: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.07|0.82|
82575394|NCT03054337|164860514|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82394622|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.83|||||TWO_SIDED|95.0|0.71|0.96||||||Serotype 10A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.96|0.71|
82394623|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.71|||||TWO_SIDED|95.0|0.6|0.84||||||Serotype 11A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.84|0.60|
82394624|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.82|||||TWO_SIDED|95.0|0.69|0.97||||||Serotype 12F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.97|0.69|
82394625|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.86|||||TWO_SIDED|95.0|0.76|0.96||||||Serotype 14: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.96|0.76|
82394626|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.7|||||TWO_SIDED|95.0|0.57|0.86||||||Serotype 15B: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.86|0.57|
82394627|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.9|||||TWO_SIDED|95.0|0.77|1.04||||||Serotype 18C: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.04|0.77|
82394628|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.88|||||TWO_SIDED|95.0|0.78|0.98||||||Serotype 19A: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.98|0.78|
82444444|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.0||||0.039|TWO_SIDED|95.0|0.4|15.7|||Chi-squared|||Response on Day 30||15.7|0.4|0.039
82575395|NCT03054337|164860514|SUPERIORITY|||||||0.3845|||||||Fisher Exact|||||||0.3845
82444445|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-2.1||||0.474|TWO_SIDED|95.0|-7.7|3.6|||Chi-squared|||Response on Day 30||3.6|-7.7|0.474
82444446|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.6||||0.192|TWO_SIDED|95.0|-3.3|16.5|||Chi-squared|||Response on Day 60||16.5|-3.3|0.192
82444447|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|-1.8||||0.702|TWO_SIDED|95.0|-11.0|7.4|||Chi-squared|||Response on Day 60||7.4|-11.0|0.702
82575396|NCT02838979|164860519|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.34||0.15|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.15
82575397|NCT02838979|164860520|SUPERIORITY||Mean Difference (Final Values)|-7.39|STANDARD_DEVIATION|22.18||0.86|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.86
82575398|NCT02838979|164860521|SUPERIORITY||Median Difference (Final Values)|-0.1|STANDARD_DEVIATION|1.04||0.44|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.44
82647832|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.07|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 6 (Placebo\<2.5 mg=5.0 mg\<10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 6. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82367099|NCT00251719|164444947|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.125
82367100|NCT00251719|164444947|SUPERIORITY_OR_OTHER|||||||0.993||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.993
82367101|NCT00251719|164444948|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.117
82367102|NCT00251719|164444948|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.124
82367103|NCT00251719|164444948|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.949
82367104|NCT02792959|164445027|NON_INFERIORITY|alpha=5%|Mean Difference (Net)|0.273||||0.602|TWO_SIDED||||||Kruskal-Wallis|||||||0.602
82367105|NCT02792959|164445028|SUPERIORITY|alpha=5%|Mean Difference (Net)|3.361||||0.067|TWO_SIDED||||||Kruskal-Wallis|||||||0.067
82367106|NCT02792959|164445029|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.0||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
82367107|NCT02792959|164445030|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.091||||0.296|TWO_SIDED||||||Kruskal-Wallis|||||||0.296
82367108|NCT02792959|164445031|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.068||||0.794|TWO_SIDED||||||Kruskal-Wallis|||||||0.794
82367109|NCT02792959|164445032|SUPERIORITY|alpha=5%|Mean Difference (Net)|3.361||||0.067|TWO_SIDED||||||Kruskal-Wallis|||||||0.067
82367110|NCT02792959|164445033|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.0||||0.296|TWO_SIDED||||||Kruskal-Wallis|||||||0.296
82367111|NCT02792959|164445034|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.39||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
82367112|NCT02792959|164445035|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.068||||0.794|TWO_SIDED||||||Kruskal-Wallis|||||||0.794
82367113|NCT02792959|164445036|SUPERIORITY|alpha=5%|Mean Difference (Net)|4.39||||0.036|TWO_SIDED||||||Kruskal-Wallis|||||||0.036
82367114|NCT02792959|164445037|SUPERIORITY|alpha=5%|Mean Difference (Net)|0.273||||0.602|TWO_SIDED||||||Kruskal-Wallis|||||||0.602
82367115|NCT02792959|164445038|SUPERIORITY|alpha=5%|Mean Difference (Net)|1.705||||0.192|TWO_SIDED||||||Kruskal-Wallis|||||||0.192
82367116|NCT02408068|164445043|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|77.56|||||TWO_SIDED|90.0|70.89|84.86|||ANOVA|||Results obtained using a mixed effects ANOVA with fixed effects for study period, sequence, treatment and subject (sequence) (excl. tmax).||84.86|70.89|
82367117|NCT02408068|164445044|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|108.33|||||TWO_SIDED|90.0|102.3|114.72|||ANOVA|||||114.72|102.30|
82367118|NCT02408068|164445045|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.25||||0.0005|TWO_SIDED|95.0|1.25|3.75|||Wilcoxon (Mann-Whitney)|||||3.75|1.25|0.0005
82367119|NCT02408068|164445046|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|83.27|||||TWO_SIDED|90.0|75.58|91.74||||||||91.74|75.58|
82367120|NCT02408068|164445047|SUPERIORITY_OR_OTHER_LEGACY||Geometric LSmean ratio|118.83|||||TWO_SIDED|90.0|111.58|126.54||||||||126.54|111.58|
82367121|NCT02408068|164445048|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|3.5||||0.0014|TWO_SIDED|95.0|2.25|4.38|||Wilcoxon (Mann-Whitney)|||||4.38|2.25|0.0014
82367122|NCT00886288|164445058|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82367123|NCT03127644|164445077|SUPERIORITY||Treatment difference in slopes|-0.00496|STANDARD_ERROR_OF_MEAN|0.00038|<|0.0001|TWO_SIDED|95.0|-0.00571|-0.0042|||Mixed Models Analysis|Confirmatory testing proceeded sequentially (ZS 10g TID, then ZS 5g TID).|Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 48 hours was analysed with a mixed effect model (random slope model).||-0.00420|-0.00571|<0.0001
82367124|NCT03127644|164445077|SUPERIORITY||Treatment difference in slopes|-0.00261|STANDARD_ERROR_OF_MEAN|0.000385|<|0.001|TWO_SIDED|95.0|-0.00337|-0.00185|||Mixed Models Analysis|Confirmatory testing proceeded sequentially (ZS 10g TID, then ZS 5g TID).|Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 48 hours was analysed with a mixed effect model (random slope model).||-0.00185|-0.00337|<0.001
82367125|NCT03127644|164445078|SUPERIORITY||Odds Ratio (OR)|46.495|||<|0.0001|TWO_SIDED|95.0|10.142|213.152|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||213.152|10.142|<0.0001
82367126|NCT03127644|164445078|SUPERIORITY||Odds Ratio (OR)|71.835|||<|0.0001|TWO_SIDED|95.0|13.497|382.337|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||382.337|13.497|<0.0001
82367127|NCT03127644|164445079|SUPERIORITY||Treatment difference in slopes|-0.00231|STANDARD_ERROR_OF_MEAN|0.000645||0.0004|TWO_SIDED|95.0|-0.00359|-0.00104|||Mixed Models Analysis||Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 24 hours was analysed with a mixed effect model (random slope model).||-0.00104|-0.00359|0.0004
82367128|NCT03127644|164445079|OTHER||Treatment difference in slopes|-0.00401|STANDARD_ERROR_OF_MEAN|0.000637|<|0.0001|TWO_SIDED|95.0|-0.00527|-0.00275|||Mixed Models Analysis||Negative exponential rate of change relative to placebo indicates more rapid reduction (correction) of S-K.|Exponential rate of change in S-K through to 24 hours was analysed with a mixed effect model (random slope model).||-0.00275|-0.00527|<0.0001
82367129|NCT03127644|164445080|SUPERIORITY||Odds Ratio (OR)|1.347||||0.6167|TWO_SIDED|95.0|0.419|4.329|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||4.329|0.419|0.6167
82394629|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.89|||||TWO_SIDED|95.0|0.78|1.01||||||Serotype 19F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||1.01|0.78|
82394630|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.75|||||TWO_SIDED|95.0|0.62|0.9||||||Serotype 22F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.90|0.62|
82394631|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.78|||||TWO_SIDED|95.0|0.66|0.92||||||Serotype 23F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.92|0.66|
82394632|NCT04526574|164499924|NON_INFERIORITY|NI for a serotype was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.5 (2-fold criterion) for that serotype.|GMR|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 33F: GMR (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 95% CIs were calculated by exponentiating the difference of LS means for OPA titers and corresponding CIs based on regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed OPA titers, and prior pneumococcal vaccination status.||0.83|0.62|
82394633|NCT04526574|164499925|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|1.07|||||TWO_SIDED|95.0|0.97|1.17||||||A/H1N1: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.17|0.97|
82394634|NCT04526574|164499925|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|0.98|||||TWO_SIDED|95.0|0.89|1.08||||||A/H3N2: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.08|0.89|
82394635|NCT04526574|164499925|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|1.0|||||TWO_SIDED|95.0|0.93|1.08||||||B/Victoria: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.08|0.93|
82575399|NCT02838979|164860522|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.21||0.36|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.36
82367130|NCT03127644|164445080|SUPERIORITY||Odds Ratio (OR)|15.334|||<|0.0001|TWO_SIDED|95.0|4.006|58.697|||Regression, Logistic|||Logistic regression model including treatment and baseline S-K as explanatory variables was used.||58.697|4.006|<0.0001
82367131|NCT03127644|164445084|SUPERIORITY|||||||0.0586||||||Nominal p value|Log Rank|||||||0.0586
82367132|NCT03127644|164445084|SUPERIORITY|||||||0.0006||||||Nominal p value|Log Rank|||||||0.0006
82394636|NCT04526574|164499925|NON_INFERIORITY|NI was declared if the lower bound of the 2-sided 95% CI for the GMR of the (SIIV+20vPnC)/saline group to the (SIIV+saline)/20vPnC group was greater than 0.67 (1.5-fold criterion).|GMR|0.95|||||TWO_SIDED|95.0|0.87|1.03||||||B/Phuket: GMRs (ratio of GMTs \[SIIV+20vPnC\]/saline to \[SIIV+saline\]/20vPnC) and 2-sided CIs were calculated by exponentiating the difference of LS means for the HAI titers and the corresponding CIs based on the regression model adjusted with vaccine group, sex, smoking status, age at Vaccination 1 in years, baseline log-transformed HAI titers, and prior pneumococcal vaccination status.||1.03|0.87|
82394637|NCT04679051|164499933|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||Two-tailed paired t-tests were used to compare variables between time in bed conditions.||||0.36
82394638|NCT04679051|164499934|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Paired t-test comparing the two time in bed protocols.||||0.51
82394639|NCT04679051|164499935|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Paired t-test comparing peak forearm blood flow between sleep protocols.||||0.03
82367133|NCT03127644|164445085|SUPERIORITY|||||||0.025||||||Nominal p value|Log Rank|||||||0.0250
82394640|NCT04679051|164499936|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Paired t-test used to compare carotid-femoral pulse wave velocity (index of arterial stiffness) between sleep protocols.||||0.29
82444448|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.7||||0.02|TWO_SIDED|95.0|1.8|21.7|||Chi-squared|||Response on Day 90||21.7|1.8|0.02
82367134|NCT03127644|164445085|SUPERIORITY|||||||0.0064||||||Nominal p value|Log Rank|||||||0.0064
82644102|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.508|||<|0.0001|TWO_SIDED|95.0|3.348|3.668|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.668|3.348|<.0001
82644103|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.891|||<|0.0001|TWO_SIDED|95.0|2.741|3.042|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||3.042|2.741|<.0001
82644104|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.873|||<|0.0001|TWO_SIDED|95.0|2.719|3.027|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||3.027|2.719|<.0001
82644105|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.928|||<|0.0001|TWO_SIDED|95.0|2.775|3.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||3.082|2.775|<.0001
82644106|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.896|||<|0.0001|TWO_SIDED|95.0|2.742|3.049|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||3.049|2.742|<.0001
82644107|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.864|||<|0.0001|TWO_SIDED|95.0|0.672|1.055|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.055|0.672|<.0001
82644108|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.786|||<|0.0001|TWO_SIDED|95.0|0.592|0.981|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.981|0.592|<.0001
82644109|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.641|||<|0.0001|TWO_SIDED|95.0|0.452|0.829|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.829|0.452|<.0001
82644110|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.485|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.680|0.290|<.0001
82394641|NCT04679051|164499937|SUPERIORITY||||||<|0.001||||||Null hypothesis is that there was no difference in change of spatial ability following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on Manikin throughput scores.||||<0.001
82394642|NCT04679051|164499938|SUPERIORITY|||||||0.04||||||Null hypothesis is that there was no difference in the change of executive function following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on the number of correct answers during a Stroop color-word test.||||0.04
82394643|NCT04679051|164499939|SUPERIORITY|||||||0.02||||||Null hypothesis is that there was no difference in change of spatial ability following one day of aerobic exercise. The ANOVA test was performed with a significance level of 0.05 (two-sided).|ANOVA|||A two-way repeated measures ANOVA was used to evaluate the main effect of exercise (before vs. after exercise) on throughput scores from a Switching task.||||0.02
82394644|NCT00426660|164499959|SUPERIORITY_OR_OTHER||75th percentile (median)|169.0|||||TWO_SIDED|95.0|135.0|178.0||||||||178.0|135.0|
82394645|NCT00426660|164499959|SUPERIORITY_OR_OTHER||50th percentile (median)|86.5|||||TWO_SIDED|95.0|82.0|92.0||||||||92.0|82.0|
82394646|NCT00426660|164499959|SUPERIORITY_OR_OTHER||25th percentile (median)|58.0|||||TWO_SIDED|95.0|57.0|62.0||||||||62.0|57.0|
82394647|NCT00980174|164499964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.8|||<|0.0001|TWO_SIDED|95.0|4.0|5.6|||ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||5.6|4.0|<0.0001
82394648|NCT00980174|164499965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.5|2.6||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||2.6|1.5|<0.0001
82394649|NCT00980174|164499966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|||<|0.0001|TWO_SIDED|95.0|1.3|3.0||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||3.0|1.3|<0.0001
82644111|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.747|||<|0.0001|TWO_SIDED|95.0|0.562|0.932|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.932|0.562|<.0001
82394650|NCT00980174|164499967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|1.4|3.2||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||3.2|1.4|<0.0001
82394651|NCT00980174|164499968|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.9||||0.0144|TWO_SIDED|95.0|0.2|1.6||p-value is adjusted for multiple comparisons by Hochberg method|ANCOVA|Adjusted by level of baseline bone mineral density T-score|Denosumab - Placebo|||1.6|0.2|0.0144
82394652|NCT00980174|164499969|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value is adjusted for multiple comparisons by Hochberg method|Van Elteren Rank Test|Adjusted by level of baseline bone mineral density T-score||||||<0.0001
82394653|NCT01075399|164499975|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.883|||<|0.001|TWO_SIDED|90.0|0.802|0.929||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor SUV max:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing SUV max of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in SUV values, and for establishing reproducibility within ±20% or ±25%."||0.929|0.802|<0.001
82394654|NCT01075399|164499975|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.887|||<|0.001|TWO_SIDED|90.0|0.792|0.925||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor SUV mean:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing SUV mean of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in SUV values, and for establishing reproducibility within ±20% or ±25%."||0.925|0.792|<0.001
82394655|NCT01075399|164499975|SUPERIORITY_OR_OTHER||Pearson's Correlation Coefficient|0.945|||<|0.001|TWO_SIDED|90.0|0.904|0.967||Significance of probability for no association between the first and second pre-treatment uptake.|Pearson's correlation|||"Primary Tumor to background SUV ratio:~The reproducibility of \[F-18\]HX4 uptake in primary tumors was assessed by comparing tumor to background SUV ratio (T/B) of the 1st and 2nd \[F18\]HX4 PET/CT scan.~Estimated power for a range of coefficients of variation (CVs) postulated for the paired differences in T/B values, and for establishing reproducibility within ±20% or ±25%."||0.967|0.904|<0.001
82394656|NCT00396877|164499976|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|11.1||||0.434|TWO_SIDED|95.0|-19.2|33.6||The a-priori threshold for statistical significance was \< 0.035 reflecting the adjustment for interim analyses. No other adjustment for multiplicity was made.|Log Rank|A two-sided log-rank test was used.|The Relative Risk Reduction (Clopidogrel versus placebo) and its corresponding 95% confidence interval were estimated using Cox's proportional hazards model.|"Due to the limited knowledge in this population, 3 interim analyses were performed at approximatively 40%, 60%, 80% and 100% of of the maximum number of 172 required primary efficacy events to evaluate the effect of Clopidogrel on the primary endpoint with the potential to end the trial in case of a clear efficacy advantage for Clopidogrel.~The study was designed with 80% power and an overall type I error rate of 5%."||33.6|-19.2|0.4340
82394657|NCT02945254|164499979|SUPERIORITY|||||||0.011||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.011
82394658|NCT02945254|164499980|SUPERIORITY|||||||0.13||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.13
82394659|NCT00334802|164499981|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value for Dose Level 1 Responders (Complete Response + Partial Response)|t-test, 2 sided|||||||0.169
82394660|NCT00334802|164499981|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Dose Level 2 Responders (Complete Response + Partial Response)|t-test, 2 sided|||||||0.001
82394661|NCT02470403|164499988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.7|||<|0.001|TWO_SIDED|80.0|-6.52|-4.87|||Mixed Models Analysis|||"This analysis included all subjects. The following criteria were assessed:~1. upper confidence limit of the 80% CI for treatment difference (LIK066 - placebo) was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-4.87|-6.52|<0.001
82394662|NCT02470403|164499988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.85|||<|0.001|TWO_SIDED|80.0|-7.96|-5.73|||Mixed Models Analysis|||"This analysis included dysglycemic subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-5.73|-7.96|<0.001
82394663|NCT02470403|164499988|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.55|||<|0.001|TWO_SIDED|80.0|-5.76|-3.34|||Mixed Models Analysis|||"This analysis included normoglycemic subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-3.34|-5.76|<0.001
82394664|NCT02470403|164499990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.83|||<|0.001|TWO_SIDED|80.0|-2.16|-1.51|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-1.51|-2.16|<0.001
82394665|NCT02470403|164499990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.39|||<|0.001|TWO_SIDED|80.0|-2.94|-1.84|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%."||-1.84|-2.94|<0.001
82394666|NCT02470403|164499990|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.38|||<|0.001|TWO_SIDED|80.0|-2.93|-1.83|||Mixed Models Analysis|||"This analysis on all subjects. The following criteria were assessed:~1. upper confidence limit of 80% CI for treatment difference was less than 0, and~2. estimated mean treatment difference was less than or equal to -5%. The first criterion addressed whether, with high certainty, there was superior weight loss in LIK066 treated group compared to placebo. The second criterion addressed whether observed mean reduction in body weight over placebo was at least 5%"||-1.83|-2.93|<0.001
82394667|NCT03422159|164500005|NON_INFERIORITY|Based on the results of the preliminary study of Marik et al, 5 we projected that the combination of ascorbic acid, thiamine, and hydrocortisone could reduce time to vasopressor discontinuation from 54 (+/-30 hours) vs 30 hours. For the additional primary outcome, we projected a greater change of SOFA score of 4 (+/-3) vs 2. Assuming a type 1 error of 5% (alpha of 0.05) and a power of 80%, this study would require a sample size of 94 patients.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82426357|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Eicosapentaenoic acid (20:5n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|0.0||||0.12|TWO_SIDED|95.0|0.0|0.1||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.1|0.0|0.12
82444449|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.5||||0.339|TWO_SIDED|95.0|-4.8|13.8|||Chi-squared|||Response on Day 90||13.8|-4.8|0.339
82444450|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|17.9||||0.001|TWO_SIDED|95.0|7.0|28.9|||Chi-squared|||Response on Day 120||28.9|7.0|0.001
82444451|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.0||||0.682|TWO_SIDED|95.0|-7.6|11.7|||Chi-squared|||Response on Day 120||11.7|-7.6|0.682
82528561|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.32||0.0547|TWO_SIDED|95.0|-1.26|0.01|||MMRM|||Change from Baseline Week 6, Hour 0: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.01|-1.26|0.0547
82575400|NCT02838979|164860523|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_DEVIATION|7.87||0.6|TWO_SIDED|||||P-value for the interaction of treatment and sequence|ANOVA|Two-way ANOVA was used to assess differences between the groups||||||0.60
82575401|NCT00447590|164860524|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||2-sided Exact Binomial Test|||p-Value is from a 2-sided exact binomial test to test the null hypothesis that 30% of subjects have at least 30% EWL.||||<0.0001
82444452|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|20.6|||<|0.001|TWO_SIDED|95.0|9.3|31.8|||Chi-squared|||Response on Day 150||31.8|9.3|<0.001
82444453|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|1.2||||0.813|TWO_SIDED|95.0|-8.6|10.9|||Chi-squared|||Response on Day 150||10.9|-8.6|0.813
82528562|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.32||0.0107|TWO_SIDED|95.0|-1.46|-0.19|||MMRM|||Change from Baseline Week 6, Hour 0: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.19|-1.46|0.0107
82367135|NCT04972123|164445086|SUPERIORITY|The primary end point was evaluated via a large sample Z-test for proportions. The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.||||||0.521||||||The primary end point was evaluated via a large sample Z-test for proportions. The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.|Large sample Z-test for population prop|The test statistic was compared to a Pocock monitoring boundary at both an interim analysis and at the final analysis.||Primary endpoint -- ITT primary endpoint analysis||||0.521
82367136|NCT04972123|164445087|SUPERIORITY|Time to event was compared between groups via a log-rank test.||||||0.574||||||Time to event was compared between groups via a log-rank test.|Log Rank|||Secondary endpoint -- Time to event for evaluable ITT population who had a primary event.||||0.574
82367137|NCT04972123|164445088|SUPERIORITY|Incidence of asystole were compared between groups using Fisher exact test.||||||1||||||Incidence of asystole were compared between groups using Fisher exact test.|Fisher Exact|Incidence of asystole were compared between groups using Fisher exact test.||Secondary endpoint -- Incidence of asystolic pause \> 3 seconds for evaluable ITT population who had a primary event.||||1.000
82367138|NCT04972123|164445089|SUPERIORITY|Reporting for the 1 hour fatigue score only.||||||0.732||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.732
82367139|NCT04972123|164445089|SUPERIORITY|Reporting for the 4 hour fatigue score only.||||||0.591||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.591
82367140|NCT04972123|164445089|SUPERIORITY|Reporting for the 8 hour fatigue score only.||||||0.034||||||Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.|Wilcoxon (Mann-Whitney)|Measures of fatigue were compared between groups using the Wilcoxon rank-sum test.||Secondary endpoint -- Measures of Fatigue for evaluable ITT population who had a primary event.||||0.034
82367141|NCT04700280|164445091|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|2.69||0.617|TWO_SIDED|90.0|-6.2|3.4|||Mixed Models Analysis|||||3.4|-6.2|0.617
82367142|NCT04700280|164445093|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.62||0.3089|TWO_SIDED|90.0|-1.7|0.41|||Mixed Models Analysis|||Week 4||0.41|-1.70|0.3089
82367143|NCT04700280|164445093|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.71||0.2834|TWO_SIDED|90.0|-1.97|0.43|||Mixed Models Analysis|||Week 8||0.43|-1.97|0.2834
82367144|NCT04700280|164445093|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.95||0.7109|TWO_SIDED|90.0|-2.02|1.3|||Mixed Models Analysis|||Week 12||1.30|-2.02|0.7109
82575402|NCT01028677|164860530|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 1 sided|||Analysis of fear emotion||||.61
82367145|NCT04700280|164445094|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.81||0.859|TWO_SIDED|90.0|-3.6|2.9|||Mixed Models Analysis|||Week 4||2.9|-3.6|0.859
82367146|NCT04700280|164445094|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.46||0.837|TWO_SIDED|90.0|-3.8|4.8|||Mixed Models Analysis|||Week 8||4.8|-3.8|0.837
82367147|NCT00257920|164445103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.009||0.67||95.0|-0.023|0.015||No adjustment was made for multiple comparisons. A single hypothesis was tested by the primary efficacy analysis. All hypothesis tests were two-tailed and P-values \<= 0.050 were considered statistically significant.|Mixed Models Analysis|||The null hypothesis was that there is no difference in the mean calcium absorption fraction between Zemplar Injection and Hectorol Injection. The power calculation applied to the primary efficacy analysis.||0.015|-0.023|0.670
82394668|NCT01886781|164500023|NON_INFERIORITY_OR_EQUIVALENCE|To determine an effect size of 0.64 with 80% power, a sample size of 27 for each group (D-IBS, C-IBS and controls), with a type 1 error of 5% using a two sided test was sufficient. Sample size based on expected behaviour of primary outcome measure. The minimally clinically important difference based on the primary outcome measure with the instrument used was 50 points.|||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||An intention-to -treat (ITT) analysis was performed on all patients who underwent randomization (n = 81). The results of the ITT analysis are presented. Changes in Severity Score was examined using the mixed model for analysis of variance to account for missing data. This model used group (treatment vs control) \& time as factors.||||<0.05
82575403|NCT01028677|164860531|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||Positive Symptoms||||0.008
82575404|NCT01028677|164860531|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Negative Symptoms||||0.002
82575405|NCT01028677|164860531|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||General Symptoms||||0.04
82575406|NCT01028677|164860531|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Positive Symptoms||||0.05
82575407|NCT01028677|164860531|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Negative Symptoms||||0.08
82575408|NCT01028677|164860531|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||General Symptoms||||0.025
82575409|NCT01028677|164860533|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.03
82575410|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||0.784|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||IRI-total||||.784
82575411|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||Distress analysis||||1.00
82575412|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||Perspective-Taking||||.03
82394669|NCT00987402|164500031|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||generalized estimating equation|||Power calculations assumed a 2-sided alpha error of 0.05 and a power of 80%. We performed power calculations using a statistical model for a cluster-randomized trial with 8, 10 or 12 clusters including 6 operating rooms each, with different levels of reduction (10%, 30%, 50%) in surgical site infection rates in the active intervention period. By reaching a sample size of 3133 patients, the study was powered to detect a 30% reduction effect in SSI rates, from 10% to 7%.||||<0.05
82394670|NCT03000530|164500083|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-10.2|-3.9|||Mixed Effect Model for Repeated Measures|The Mixed Effect Model for Repeated Measures (MMRM) included the change from baseline in HAM-D total score at each visit as the dependent variables.||||-3.9|-10.2|< 0.0001
82394671|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.99||0.0223|TWO_SIDED|95.0|-4.3|-0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 2||-0.3|-4.3|0.0223
82394672|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.18||0.001|TWO_SIDED|95.0|-6.4|-1.7|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 3||-1.7|-6.4|0.0010
82394673|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.27||0.0233|TWO_SIDED|95.0|-5.5|-0.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 4||-0.4|-5.5|0.0233
82394674|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.37||0.0066|TWO_SIDED|95.0|-6.6|-1.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 5||-1.1|-6.6|0.0066
82394675|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.4||0.0019|TWO_SIDED|95.0|-7.3|-1.7|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 6||-1.7|-7.3|0.0019
82394676|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.53||0.0043|TWO_SIDED|95.0|-7.6|-1.5|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 7||-1.5|-7.6|0.0043
82394677|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.54||0.0318|TWO_SIDED|95.0|-6.4|-0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 8||-0.3|-6.4|0.0318
82644112|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.833|||<|0.0001|TWO_SIDED|95.0|0.645|1.021|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.021|0.645|<.0001
82575413|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||0.135|||||||t-test, 2 sided|||Emotional empathy analysis||||.135
82644113|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.579|||<|0.0001|TWO_SIDED|95.0|-0.889|-0.268|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.268|-0.889|<.0001
82394678|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|TWO_SIDED|95.0|-10.2|-3.9|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 15||-3.9|-10.2|< 0.0001
82575414|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||0.681|TWO_SIDED||||||t-test, 2 sided|||Fantasy Analysis||||.681
82394679|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|1.76||0.0064|TWO_SIDED|95.0|-8.4|-1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 21||-1.4|-8.4|0.0064
82394680|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.77||0.0243|TWO_SIDED|95.0|-7.6|-0.5|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 28||-0.5|-7.6|0.0243
82394681|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.86||0.2285|TWO_SIDED|95.0|-6.0|1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 35||1.4|-6.0|0.2285
82394682|NCT03000530|164500150|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.86||0.212|TWO_SIDED|95.0|-6.0|1.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-D total score at each visit as the dependent variables.||Day 42||1.4|-6.0|0.2120
82444454|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|24.8|||<|0.001|TWO_SIDED|95.0|13.8|35.7|||Chi-squared|||Response on Day 180||35.7|13.8|<0.001
82575415|NCT01028677|164860535|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||Distress analysis||||1.00
82647833|NCT01244815|165011157|SUPERIORITY_OR_OTHER_LEGACY||t-statistic|-5.49|||<|0.0001||||||p-value (adjusted to control Type I error in multiple testing) for dose-response pattern 7 (Placebo\<2.5 mg\<5.0 mg=10.0 mg)|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|t-statistic associated with the contrast of the MMRM model for dose-response pattern 7. Lower value indicates pattern provides better fit to data.|Investigation of dose-response relationship of change from baseline to Day 21 in Y-MRS total score was a Secondary study endpoint. Multiple contrast testing using MMRM model (FAS population) was used to evaluate 7 pre-defined dose-response patterns.||||<0.0001
82367148|NCT00257920|164445104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.009||0.573||95.0|-0.024|0.014||No adjustment was made for multiple comparisons. A single hypothesis was tested by the primary efficacy analysis. All hypothesis tests were two-tailed and P-values \<=0.050 were considered statistically significant.|ANOVA|||The null hypothesis was that there is no difference in mean calcium absorption between Zemplar and Hectorol. Approximately 42 subjects were to be randomized assuming 36 subjects would available in the per-protocol set. A sample size of 36 subjects has 80% power to detect a mean difference of -0.018 assuming the Zemplar group mean is 0.139, the Hectorol group mean is 0.157 and the STD is 0.037. The ANOVA model included effects for sequence, subject-within-sequence, period and treatment regimen.||0.014|-0.024|0.573
82367149|NCT03629028|164445110|NON_INFERIORITY|Data compared to meta-analysis conducted in Sardo et al., 2017||||||0.05|||||||Chi-squared|Chi-squared or Fisher's test statistic was used to compare the categorical variables.||The sample size was calculated based on the study of Sardo et al. The website http://powerandsamplesize.com/Calculators was used. As a result of the sample size calculation with 90% power and 0.05 alpha error, it was planned to include 141 patients in each group.||||0.05
82367150|NCT04932941|164445117|SUPERIORITY||Common risk difference|-0.276||||0.962|TWO_SIDED|95.0|-11.634|11.081|||Mantel Haenszel||Strata-adjusted Mantel Haenszel (MH) method for difference in proportions controlling for stratification factors (COVID-19 severity: moderate, severe, and age group: less than or equal to 65 years, greater than 65 years).|||11.081|-11.634|0.962
82367151|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Sensitivity|0.85|||||TWO_SIDED|95.0|0.79|0.89|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Sensitivity = true positives/(true positives + false negatives); It indicates how likely is the test to detect the presence of a characteristic in someone with the characteristic.||0.89|0.79|
82367152|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Specificity|0.98|||||TWO_SIDED|95.0|0.93|0.99|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Specificity = true negatives/(false positives + true negatives); It indicates how likely the test is to detect the absence of a characteristic in someone without the characteristic.||0.99|0.93|
82367153|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Positive Predictive Value|0.99|||||TWO_SIDED|95.0|0.96|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Positive Predictive Value = true positives/(true positives + false positives); It indicates how likely it is that someone with a positive test result will actually have the characteristic.||1.00|0.96|
82367154|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Negative Predictive Value|0.77|||||TWO_SIDED|95.0|0.69|0.84|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Negative Predictive Value = true negatives/(true negatives + false negatives); It indicates how likely it is that someone with a negative test result will actually not have the characteristic.||0.84|0.69|
82367155|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Sensitivity|0.99|||||TWO_SIDED|95.0|0.97|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Sensitivity = true positives/(true positives + false negatives); It indicates how likely is the test to detect the presence of a characteristic in someone with the characteristic.||1.00|0.97|
82367156|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Specificity|0.91|||||TWO_SIDED|95.0|0.83|0.95|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Specificity = true negatives/(false positives + true negatives); It indicates how likely the test is to detect the absence of a characteristic in someone without the characteristic.||0.95|0.83|
82367157|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Positive Predictive Value|0.95|||||TWO_SIDED|95.0|0.9|0.98|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Positive Predictive Value = true positives/(true positives + false positives); It indicates how likely it is that someone with a positive test result will actually have the characteristic.||0.98|0.90|
82367158|NCT01366443|164445146|SUPERIORITY_OR_OTHER||Negative Predictive Value|0.99|||||TWO_SIDED|95.0|0.94|1.0|||||"The calculation for the Wilson CI is computed using the cii (confidence interval immediate) command in Stata version 11.2, with the Wilson option."|Negative Predictive Value = true negatives/(true negatives + false negatives); It indicates how likely it is that someone with a negative test result will actually not have the characteristic.||1.00|0.94|
82367159|NCT02836496|164445189|SUPERIORITY|||||||0.002||||||Cochran-Mantel-Haenszel test stratified by Baseline oral corticosteroid (OCS) (0-\<=20 mg per day and \>20mg perday prednisone or equivalent) and region|Cochran-Mantel-Haenszel|||||||0.002
82367160|NCT02836496|164445189|SUPERIORITY||Odds Ratio (OR)|0.28||||0.003|TWO_SIDED|95.0|0.12|0.64|||Regression, Logistic|Logistic regression analysis adjusted for Baseline OCS dose and region.|Treatment comparison between placebo and mepolizumab 300 mg using odds ratio and 95% confidence interval (CI) has been presented. Odds ratio \<1 indicated lower odds of HES flare with Mepolizumab compared with placebo.|||0.64|0.12|0.003
82367161|NCT02836496|164445190|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Baseline OCS (0-\<=20 mg per day and \>20mg perday prednisone or equivalent) and region||||||0.020
82577064|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.088||0.3863|TWO_SIDED|95.0|-0.25|0.1|||MMRM|||Suicide, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.25|0.3863
82528563|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.32||0.086|TWO_SIDED|95.0|-1.16|0.08|||MMRM|||Change from Baseline Week 6, Hour 2: The null hypothesis was that bimatoprost SR 15 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||0.08|-1.16|0.0860
82528564|NCT02247804|164753053|SUPERIORITY|MMRM analyses was used with response variable:IOP time-matched change from baseline;Fixed factors: Treatment,timepoint,treatment-by-timepoint interaction and baseline IOP stratification;Covariate:Time-matched baseline IOP and timepoint by time-matched baseline IOP interaction. Unstructured covariance matrix was used.|Least-squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.31||0.0362||95.0|-1.27|-0.04|||MMRM|||Change from Baseline Week 6, Hour 2: The null hypothesis was that bimatoprost SR 10 μg was to be declared superior to timolol 0.5% if the upper limit of the 95% CI was \< 0 mm Hg for all scheduled timepoints (Hours 0 and 2 at Weeks 2, 6, 12).||-0.04|-1.27|0.0362
82367162|NCT02836496|164445190|SUPERIORITY||Odds Ratio (OR)|0.33||||0.022|TWO_SIDED|95.0|0.13|0.85|||Regression, Logistic|Logistic regression analysis adjusted for Baseline OCS dose and region|Treatment comparison between placebo and mepolizumab 300 mg using odds ratio and 95% CI has been presented. Odds ratio \<1 indicated lower odds of HES flare with Mepolizumab compared with placebo.|||0.85|0.13|0.022
82367163|NCT02836496|164445191|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.002|TWO_SIDED|95.0|0.18|0.67||Cox proportional hazards regression analysis adjusted for Baseline OCS dose and region.|Regression, Cox||Treatment comparison between placebo and mepolizumab 300 mg using hazards ratio and its corresponding 95% CI has been presented. Hazard ratio \<1 indicated a lower risk of HES flare with Mepolizumab compared with Placebo.|||0.67|0.18|0.002
82367164|NCT02836496|164445192|SUPERIORITY||Rate Ratio|0.34||||0.002|TWO_SIDED|95.0|0.19|0.63|||Wilcoxon Rank Sum Test|Wilcoxon test stratified by Baseline OCS (0-\<=20 mg/day, \>20 mg/day prednisone or equivalent) and region.|Treatment comparison between placebo and mepolizumab 300 mg using rate ratio and 95% CI has been presented. Rate ratio \<1 indicates a lower flare rate with Mepolizumab compared with Placebo.|||0.63|0.19|0.002
82367165|NCT02836496|164445193|SUPERIORITY|||||||0.036|||||||Wilcoxon Rank Sum Test|P-value was calculated using Wilcoxon Rank Sum Test||||||0.036
82367166|NCT03914950|164445194|OTHER|"The calculation of power and sample size is based on a formula that selects the sample size so that the lower limit of the 95% confidence interval by the expected specificity of the new method most probably exceeds the specificity value of the current method.~Receiver operating characteristics (ROC) analysis of the values of SUVmax of the early and delayed images with and without TOF of all pancreatic lesions was done in correlation with the histopathological findings."||||||0.78|||||||DeLong-test|The threshold for statistical significance was p=0.05.||It was calculated that 118 participants would have at least 90% power to demonstrate an improvement in specificity of 25% (to 70%) with the new method assuming a specificity of the current method of 45% at a prevalence of malignant lesions of 70% (corresponding to 30% benign lesions). Assumptions included a discontinuation rate of 25%.||||0.78
82367167|NCT03914950|164445194|OTHER|||||||0.95|||||||DeLong-test|The threshold for statistical significance was p=0.05.||||||0.95
82367168|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|-10.0|||||TWO_SIDED|95.0|-29.3|9.0|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site erythema||9.0|-29.3|
82367169|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-18.1|24.6|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site erythema||24.6|-18.1|
82367170|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|16.7|||||TWO_SIDED|95.0|-7.7|39.3|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site pain||39.3|-7.7|
82367171|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|20.0|||||TWO_SIDED|95.0|-4.1|42.1|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site pain||42.1|-4.1|
82367172|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|6.7|||||TWO_SIDED|95.0|-13.2|26.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Injection site swelling||26.5|-13.2|
82367173|NCT04168190|164445212|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-16.0|22.8|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Injection site swelling||22.8|-16.0|
82367174|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-11.4|31.0|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Fatigue||31.0|-11.4|
82367175|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-11.4|31.0|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Fatigue||31.0|-11.4|
82367176|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|10.0|||||TWO_SIDED|95.0|-7.4|28.3|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Arthralgia||28.3|-7.4|
82367177|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-13.1|20.2|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Arthralgia||20.2|-13.1|
82647834|NCT01244815|165011158|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.3|-0.9|<0.001
82367178|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|13.3|||||TWO_SIDED|95.0|-7.5|33.8|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Myalgia||33.8|-7.5|
82367179|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|16.7|||||TWO_SIDED|95.0|-4.6|37.3|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Myalgia||37.3|-4.6|
82367180|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|13.3|||||TWO_SIDED|95.0|-8.5|34.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|Headache||34.5|-8.5|
82367181|NCT04168190|164445213|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.3|||||TWO_SIDED|95.0|-17.2|23.8|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|Headache||23.8|-17.2|
82367182|NCT04168190|164445214|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-11.5|11.5|||||Phase 1: V116 0.5 mL minus Phase 1: Pneumovax™23|||11.5|-11.5|
82367183|NCT04168190|164445214|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-11.5|11.5|||||Phase 1: V116 1.0 mL minus Phase 1: Pneumovax™23|||11.5|-11.5|
82367184|NCT04168190|164445215|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|2.0|||||TWO_SIDED|95.0|-2.8|6.8|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site erythema||6.8|-2.8|
82367185|NCT04168190|164445215|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|8.7|||||TWO_SIDED|95.0|0.1|17.1|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site pain||17.1|0.1|
82367186|NCT04168190|164445215|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.1|||||TWO_SIDED|95.0|-2.0|8.4|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Injection site swelling||8.4|-2.0|
82367187|NCT04168190|164445216|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|7.1|||||TWO_SIDED|95.0|0.8|13.5|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Fatigue||13.5|0.8|
82367188|NCT04168190|164445216|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-3.8|3.8|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Arthralgia||3.8|-3.8|
82367189|NCT04168190|164445216|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|1.6|||||TWO_SIDED|95.0|-3.8|7.0|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Myalgia||7.0|-3.8|
82367190|NCT04168190|164445216|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|3.5|||||TWO_SIDED|95.0|-2.7|9.9|||||Phase 2: V116 minus Phase 2: Pneumovax™23|Headache||9.9|-2.7|
82367191|NCT04168190|164445217|OTHER|Estimated difference and CI are calculated based on the Miettinen \& Nurminen method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-1.5|1.5|||||Phase 2: V116 minus Phase 2: Pneumovax™23|||1.5|-1.5|
82367192|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.82|1.22|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 3. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.22|0.82|<0.001
82367193|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|0.95|1.56|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 7F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.56|0.95|<0.001
82367194|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.9|1.41|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 19A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.41|0.90|<0.001
82367195|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.58|||<|0.001|TWO_SIDED|95.0|1.16|2.16|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 22F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.16|1.16|<0.001
82367196|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.71|1.24|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 33F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.24|0.71|<0.001
82394683|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0884|TWO_SIDED|95.0|0.8|24.1|||Generalized Estimating Equation|Statistics are from a generalized estimating equation (GEE) method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 2||24.1|0.8|0.0884
82394684|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0732|TWO_SIDED|95.0|0.9|6.4|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||6.4|0.9|0.0732
82394685|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|9.6||||0.0002|TWO_SIDED|95.0|2.9|31.6|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||31.6|2.9|0.0002
82647835|NCT01244815|165011158|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.4||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.4|-0.9|<0.001
82394686|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|6.7||||0.0006|TWO_SIDED|95.0|2.3|19.7|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||19.7|2.3|0.0006
82394687|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0379|TWO_SIDED|95.0|1.1|8.9|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||8.9|1.1|0.0379
82394688|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0468|TWO_SIDED|95.0|1.0|9.0|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||9.0|1.0|0.0468
82394689|NCT03000530|164500151|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2208|TWO_SIDED|95.0|0.7|5.6|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D response at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||5.6|0.7|0.2208
82367197|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.8|1.21|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 8. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.21|0.80|<0.001
82367198|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.87|1.47|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 9N. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.47|0.87|<0.001
82367199|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|0.93|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 10A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|0.93|<0.001
82367200|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|2.27|||<|0.001|TWO_SIDED|95.0|1.78|2.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 11A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.90|1.78|<0.001
82644114|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.635|||<|0.0001|TWO_SIDED|95.0|-0.949|-0.321|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.321|-0.949|<.0001
82367201|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|2.57|||<|0.001|TWO_SIDED|95.0|1.86|3.55|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 12F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.55|1.86|<0.001
82367202|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.64|||<|0.001|TWO_SIDED|95.0|1.24|2.16|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 17F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.16|1.24|<0.001
82367203|NCT04168190|164445218|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>0.33 (1-sided p-value \<0.025).|GMT Ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.43|2.36|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 20A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.36|1.43|<0.001
82394690|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|1.5||||0.43|TWO_SIDED|95.0|0.6|3.7|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||3.7|0.6|0.4300
82394691|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|5.3||||0.0005|TWO_SIDED|95.0|2.1|13.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||13.3|2.1|0.0005
82394692|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0172|TWO_SIDED|95.0|1.2|8.0|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||8.0|1.2|0.0172
82394693|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0221|TWO_SIDED|95.0|1.2|7.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||7.3|1.2|0.0221
82444455|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|11.1||||0.027|TWO_SIDED|95.0|1.2|20.9|||Chi-squared|||Response on Day 180||20.9|1.2|0.027
82644115|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.542|||<|0.0001|TWO_SIDED|95.0|-0.853|-0.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.231|-0.853|<.0001
82644116|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.924|-0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.301|-0.924|<.0001
82644117|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.606|||<|0.0001|TWO_SIDED|95.0|-2.959|-2.253|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.253|-2.959|<.0001
82644118|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.722|||<|0.0001|TWO_SIDED|95.0|-3.078|-2.366|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.366|-3.078|<.0001
82644119|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.829|||<|0.0001|TWO_SIDED|95.0|-3.177|-2.481|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.481|-3.177|<.0001
82644120|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.024|||<|0.0001|TWO_SIDED|95.0|-3.378|-2.669|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.669|-3.378|<.0001
82367204|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|6.03|||<|0.001|TWO_SIDED|95.0|4.23|8.62|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 6A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||8.62|4.23|<0.001
82367205|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|6.8|||<|0.001|TWO_SIDED|95.0|5.37|8.62|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||8.62|5.37|<0.001
82367206|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|3.0|||<|0.001|TWO_SIDED|95.0|2.31|3.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15C. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.90|2.31|<0.001
82394694|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|1.4||||0.4139|TWO_SIDED|95.0|0.6|3.5|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||3.5|0.6|0.4139
82394695|NCT03000530|164500152|SUPERIORITY||Odds Ratio (OR)|1.7||||0.2332|TWO_SIDED|95.0|0.7|4.3|||Generalized Estimating Equation|Statistics are from a GEE method including the HAM-D remission at each visit as the dependent variables.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||4.3|0.7|0.2332
82444456|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|15.5||||0.008|TWO_SIDED|95.0|4.0|27.0|||Chi-squared|||Response on Day 240||27.0|4.0|0.008
82444457|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|0.8||||0.885|TWO_SIDED|95.0|-9.8|11.4|||Chi-squared|||Response on Day 240||11.4|-9.8|0.885
82367207|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|18.21|||<|0.001|TWO_SIDED|95.0|12.98|25.57|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 16F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||25.57|12.98|<0.001
82367208|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|19.45|||<|0.001|TWO_SIDED|95.0|12.87|29.4|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23A. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||29.40|12.87|<0.001
82367209|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|29.88|||<|0.001|TWO_SIDED|95.0|20.72|43.09|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23B. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||43.09|20.72|<0.001
82367210|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|32.02|||<|0.001|TWO_SIDED|95.0|22.83|44.89|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 24F. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||44.89|22.83|<0.001
82367211|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|34.9|||<|0.001|TWO_SIDED|95.0|24.25|50.23|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 31. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||50.23|24.25|<0.001
82367212|NCT04168190|164445219|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMT Ratio|9.0|||<|0.001|TWO_SIDED|95.0|7.19|11.26|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 35B. Geometric mean titer (GMT) ratio and 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||11.26|7.19|<0.001
82367213|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.58|1.42|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 3||1.42|0.58|
82367214|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.71|1.76|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 3||1.76|0.71|
82367215|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.63|1.99|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 7F||1.99|0.63|
82367216|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.14|||||TWO_SIDED|95.0|1.19|3.84|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 7F||3.84|1.19|
82367217|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.27|||||TWO_SIDED|95.0|0.74|2.21|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 19A||2.21|0.74|
82394696|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.38||0.0836|TWO_SIDED|95.0|-5.1|0.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 2||0.3|-5.1|0.0836
82394697|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.32||0.0864|TWO_SIDED|95.0|-8.6|0.6|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 8||0.6|-8.6|0.0864
82367218|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.08|||||TWO_SIDED|95.0|1.19|3.63|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 19A||3.63|1.19|
82367219|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.74|||||TWO_SIDED|95.0|0.37|1.46|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 22F||1.46|0.37|
82367220|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.5|2.0|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 22F||2.00|0.50|
82394698|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|2.38||0.0021|TWO_SIDED|95.0|-12.3|-2.8|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 15||-2.8|-12.3|0.0021
82394699|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.69||0.0157|TWO_SIDED|95.0|-12.0|-1.3|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 21||-1.3|-12.0|0.0157
82394700|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.69||0.0533|TWO_SIDED|95.0|-10.6|0.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 28||0.1|-10.6|0.0533
82444458|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|24.0|||<|0.001|TWO_SIDED|95.0|12.6|35.4|||Chi-squared|||Response on Day 300||35.4|12.6|<0.001
82644121|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.144|||<|0.0001|TWO_SIDED|95.0|1.811|2.478|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.478|1.811|<.0001
82644122|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.04|||<|0.0001|TWO_SIDED|95.0|1.701|2.379|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.379|1.701|<.0001
82644123|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.181|||<|0.0001|TWO_SIDED|95.0|1.846|2.516|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.516|1.846|<.0001
82644124|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.063|||<|0.0001|TWO_SIDED|95.0|1.725|2.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||2.400|1.725|<.0001
82644125|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.117||||0.9705|TWO_SIDED|95.0|-0.256|0.49|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.490|-0.256|0.9705
82644126|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.047||||1|TWO_SIDED|95.0|-0.425|0.332|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.332|-0.425|1.0000
82644127|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.106||||0.9835|TWO_SIDED|95.0|-0.475|0.263|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.263|-0.475|0.9835
82644128|NCT03692078|165003991|EQUIVALENCE|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.348||||0.0854|TWO_SIDED|95.0|-0.725|0.029|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-AN amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.029|-0.725|0.0854
82644129|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.028|||<|0.0001|TWO_SIDED|95.0|2.901|3.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.154|2.901|<.0001
82367221|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.75|||||TWO_SIDED|95.0|0.4|1.41|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 33F||1.41|0.40|
82394701|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.87||0.2878|TWO_SIDED|95.0|-8.8|2.6|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 35||2.6|-8.8|0.2878
82394702|NCT03000530|164500153|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.7||0.4664|TWO_SIDED|95.0|-7.4|3.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in MADRS total score at each visit as the dependent variable.||Day 42||3.4|-7.4|0.4664
82528565|NCT05266963|164753077|SUPERIORITY|Statistical analysis will be performed using a paired samples Wilcoxon test to compare differences between the two groups.||||||0.43|||||||Wilcoxon (Mann-Whitney)|Wilcoxon matched-pairs||||||0.43
82528566|NCT05266963|164753078|SUPERIORITY|Statistical analysis will be performed using a standard two-tailed t test to compare differences between the two groups.||||||0.52|||||||t-test, 2 sided|||||||0.52
82647836|NCT01244815|165011158|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4||p-value is adjusted by Hochberg's method for testing three asenapine groups versus the placebo group|MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.4|-1.0|<0.001
82528567|NCT00393523|164753079|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|95.0|||<|0.001||95.2|92.1|97.1||"Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024).~Since only one group met the criteria, that group was retested at α=.012."|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||97.1|92.1|<0.001
82528568|NCT00393523|164753079|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|95.0|||<|0.001||97.6|91.6|97.3||Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024). Since only one group met the criteria, that group was retested at α=.012.|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||97.3|91.6|<0.001
82528569|NCT00393523|164753079|SUPERIORITY_OR_OTHER||Seroprotection rate (SPR)|91.6||||0.19||95.2|88.0|94.4||"Adequate SPR required the lower bound of the 95.2% CI for the SPR for subjects in both Group 1 and Group 2 to be \> 90% (P-Value \< .024).~Since only one group met the criteria, that group was retested at α=.012."|Hochberg's step up|The primary hypothesis was evaluated using Hochberg's step up approach to control multiplicity.|Seroprotection rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL|The primary purpose of this study was to show that subjects who received a primary series of RECOMBIVAX HB™ in the first year of life were adequately protected by RECOMBIVAX HB™ by measuring the immune response to a single booster dose of either a modified process vaccine or ENGERIX-B™.||94.4|88.0|0.19
82528570|NCT00393523|164753080|SUPERIORITY_OR_OTHER||Seroprotection Rate (SPR)|97.3||||||95.0|95.0|98.8|||||"Exact binomial confidence interval~Seroprotection Rate (SPR)- defined as the percentage of subjects who demonstrate antibodies to hepatitis B surface antigen ≥10 mIU/mL"|The purpose of the secondary analysis is to demonstrate that there is an adequate SPR in subjects who received a primary vaccination series of ENGERIX-B™ and a booster dose of modified process hepatitis B vaccine. An adequate response requires the lower bound of the two-sided 95% confidence interval for the SPR to exceed 90%.||98.8|95.0|
82528571|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|40.95|STANDARD_ERROR_OF_MEAN|19.38||0.035|TWO_SIDED|95.0|2.88|79.01|||random coefficient regression||The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.|The primary analysis is a restricted maximum likelihood (REML) based approach using a random slope \& intercept model. The analysis included the fixed, categorical effects of treatment, ATA status \& gender, fixed continuous effects of time \& baseline FVC (mL), age and height as well as the treatment-by time \& baseline-by-time interactions. Random effects was included for patient response for both time \& intercept.Within-patient errors are modelled by an unstructured variance-covariance matrix||79.01|2.88|0.0350
82367222|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.32|||||TWO_SIDED|95.0|0.7|2.48|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 33F||2.48|0.70|
82528572|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|43.13||||0.0378|TWO_SIDED|95.0|2.44|83.83|||random coefficient regression|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||"This is a sensitivity analysis (SA) on primary endpoint including only on-trt measurements of FVC \[mL\]. The random coefficient model was used. The analysis included fixed, categorical effects of trt, ATA status \& gender, fixed continuous effects of time \& bl. FVC (mL), age, height, trt -by time \& bl.-by-time interactions. Random effects included for patient response for both time \& intercept.~Within-patient errors were modelled by an Unstructured variance-covariance matrix."||83.83|2.44|0.0378
82394703|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.87||0.0391|TWO_SIDED|95.0|-3.6|-0.1|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 2||-0.1|-3.6|0.0391
82367223|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.64|||||TWO_SIDED|95.0|0.37|1.08|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 8||1.08|0.37|
82367224|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.58|1.69|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 8||1.69|0.58|
82367225|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.57|1.85|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 9N||1.85|0.57|
82367226|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.64|||||TWO_SIDED|95.0|0.9|2.97|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 9N||2.97|0.90|
82367227|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.25|||||TWO_SIDED|95.0|0.67|2.32|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 10A||2.32|0.67|
82367228|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.84|||||TWO_SIDED|95.0|0.98|3.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 10A||3.45|0.98|
82367229|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.42|1.38|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 11A||1.38|0.42|
82367230|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.59|||||TWO_SIDED|95.0|0.87|2.91|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 11A||2.91|0.87|
82367231|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.5|2.17|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 12F||2.17|0.50|
82367232|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.14|||||TWO_SIDED|95.0|1.02|4.5|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 12F||4.50|1.02|
82367233|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.11|||||TWO_SIDED|95.0|1.21|3.68|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 17F||3.68|1.21|
82394704|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.29||0.0516|TWO_SIDED|95.0|-5.1|0.0|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 8||0.0|-5.1|0.0516
82367234|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|2.87|||||TWO_SIDED|95.0|1.64|5.03|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 17F||5.03|1.64|
82367235|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.65|||||TWO_SIDED|95.0|0.93|2.93|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 20A||2.93|0.93|
82367236|NCT04168190|164445220|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|1.92|||||TWO_SIDED|95.0|1.07|3.43|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 20A||3.43|1.07|
82367237|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.29|||||TWO_SIDED|95.0|1.99|9.25|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 6A||9.25|1.99|
82367238|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|5.49|||||TWO_SIDED|95.0|2.53|11.91|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 6A||11.91|2.53|
82367239|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|5.05|||||TWO_SIDED|95.0|2.59|9.85|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15A||9.85|2.59|
82367240|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|8.92|||||TWO_SIDED|95.0|4.55|17.5|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15A||17.50|4.55|
82367241|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.4|||||TWO_SIDED|95.0|2.38|8.15|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15C||8.15|2.38|
82394705|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.32||0.0008|TWO_SIDED|95.0|-7.3|-2.0|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 15||-2.0|-7.3|0.0008
82394706|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.54||0.0282|TWO_SIDED|95.0|-6.5|-0.4|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 21||-0.4|-6.5|0.0282
82394707|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.56||0.1686|TWO_SIDED|95.0|-5.3|0.9|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 28||0.9|-5.3|0.1686
82394708|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.75||0.2488|TWO_SIDED|95.0|-5.5|1.5|||Mixed Effect Model for Repeated Measures|||Day 35||1.5|-5.5|0.2488
82394709|NCT03000530|164500156|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.76||0.2037|TWO_SIDED|95.0|-5.7|1.2|||Mixed Effect Model for Repeated Measures|The MMRM included the change from baseline in HAM-A total score at each visit as the dependent variable.||Day 42||1.2|-5.7|0.2037
82394710|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|5.5||||0.0048|TWO_SIDED|95.0|1.7|17.9|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 8||17.9|1.7|0.0048
82394711|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0007|TWO_SIDED|95.0|2.5|29.5|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 15||29.5|2.5|0.0007
82394712|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|4.4||||0.0113|TWO_SIDED|95.0|1.4|13.6|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 21||13.6|1.4|0.0113
82394713|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0227|TWO_SIDED|95.0|1.2|12.8|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 28||12.8|1.2|0.0227
82394714|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1516|TWO_SIDED|95.0|0.7|7.2|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 35||7.2|0.7|0.1516
82394715|NCT03000530|164500157|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0793|TWO_SIDED|95.0|0.9|8.3|||Generalized Estimating Equation|Statistics are from a GEE method including the CGI-I response at each visit as the dependent variable.|For the model parameters estimation, the exchangeable working correlation structure was used.|Day 42||8.3|0.9|0.0793
82577065|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.094||0.0209|TWO_SIDED|95.0|-0.41|-0.03|||MMRM|||Suicide, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.41|0.0209
82644130|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.034|||<|0.0001|TWO_SIDED|95.0|2.927|3.141|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.141|2.927|<.0001
82647837|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.0||||0.018|TWO_SIDED|95.0|1.2|7.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||7.6|1.2|0.018
82394716|NCT01430624|164500162|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||6 month follow-up comparison|ANOVA|df 2, 109||||||.24
82394717|NCT01430624|164500163|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||6 month follow-up comparison|ANOVA|df = 2, 111||||||.89
82394718|NCT01430624|164500164|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 150||||||.01
82394719|NCT01430624|164500164|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||3 month comparison|ANOVA|||||||.48
82394720|NCT01430624|164500164|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||6 month comparison|ANOVA|||||||.17
82394721|NCT01430624|164500165|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||6 week comparison|Chi-squared|df = 2, 154||||||.37
82394722|NCT01430624|164500165|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||3 month comparison|Chi-squared|df = 2, 135||||||.15
82394723|NCT01430624|164500165|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||6 month comparison|Chi-squared|df = 2, 121||||||.87
82394724|NCT01430624|164500166|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 150||||||.63
82394725|NCT01430624|164500166|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.25
82394726|NCT01430624|164500166|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 118||||||.59
82394727|NCT01430624|164500167|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 151||||||.83
82394728|NCT01430624|164500167|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.29
82394729|NCT01430624|164500167|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 118||||||.13
82394730|NCT01430624|164500168|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 151||||||.012
82394731|NCT01430624|164500168|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 132||||||.31
82394732|NCT01430624|164500168|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED|||||6 month comparison|ANOVA|df = 2,116||||||.35
82394733|NCT01430624|164500169|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||6 week comparison|ANOVA|df = 2, 141||||||.15
82394734|NCT01430624|164500169|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||3 month comparison|ANOVA|df = 2, 127||||||.67
82394735|NCT01430624|164500169|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|||||6 month comparison|ANOVA|df = 2, 110||||||.40
82394736|NCT00195494|164500184|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.0|||<|0.001|||||||Fisher Exact||E+M (49.8%) - M (27.8%) creates the risk difference estimated value.|||||<0.001
82644131|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.603|||<|0.0001|TWO_SIDED|95.0|2.483|2.722|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.722|2.483|<.0001
82367242|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.92|||||TWO_SIDED|95.0|2.64|9.16|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15C||9.16|2.64|
82367243|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|3.41|||||TWO_SIDED|95.0|1.97|5.91|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 16F||5.91|1.97|
82367244|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|6.58|||||TWO_SIDED|95.0|3.78|11.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 16F||11.45|3.78|
82367245|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.42|||||TWO_SIDED|95.0|4.35|20.4|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23A||20.40|4.35|
82367246|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.46|||||TWO_SIDED|95.0|4.34|20.62|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23A||20.62|4.34|
82367247|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|3.43|||||TWO_SIDED|95.0|1.95|6.05|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23B||6.05|1.95|
82367248|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|4.77|||||TWO_SIDED|95.0|2.69|8.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23B||8.45|2.69|
82367249|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|8.06|||||TWO_SIDED|95.0|3.36|19.35|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 24F||19.35|3.36|
82367250|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|16.14|||||TWO_SIDED|95.0|6.68|39.01|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 24F||39.01|6.68|
82367251|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.14|||||TWO_SIDED|95.0|4.93|16.95|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 31||16.95|4.93|
82367252|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|13.58|||||TWO_SIDED|95.0|7.28|25.32|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 31||25.32|7.28|
82367253|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|9.24|||||TWO_SIDED|95.0|5.56|15.36|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 35B||15.36|5.56|
82367254|NCT04168190|164445221|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|12.5|||||TWO_SIDED|95.0|7.49|20.87|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 35B||20.87|7.49|
82367255|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.67|1.47|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 3||1.47|0.67|
82367256|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.72|1.57|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 3||1.57|0.72|
82367257|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.88||||||95.0|0.54|1.42|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 7F||1.42|0.54|
82367258|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.68|1.8|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 7F||1.80|0.68|
82367259|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.59|1.54|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 19A||1.54|0.59|
82367260|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.32|||||TWO_SIDED|95.0|0.81|2.15|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 19A||2.15|0.81|
82367261|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.65|||||TWO_SIDED|95.0|0.85|3.23|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 22F||3.23|0.85|
82367262|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.01|||||TWO_SIDED|95.0|1.03|3.96|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 22F||3.96|1.03|
82644132|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.567|||<|0.0001|TWO_SIDED|95.0|2.465|2.67|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.670|2.465|<.0001
82367263|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.86|||||TWO_SIDED|95.0|0.44|1.67|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 33F||1.67|0.44|
82528573|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|30.0||||0.1046|TWO_SIDED|95.0|-6.22|66.22|||random coefficient regression|||In multiple imputation SA 1, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming similar rate of FVC decline as in pts from corresponding trt group who prematurely disc. trial drug but had wk 52 FVC value. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming similar rate of FVC decline as in pl. pts with wk 52 FVC value who prematurely disc. trial drug with most severe declines.The imputation model was similar to statistical model of PA.||66.22|-6.22|0.1046
82528574|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|32.93||||0.074|TWO_SIDED|95.0|-3.19|69.06|||random coefficient regression|||In multiple imputation SA 2, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming similar rate of FVC decline as in pts from pl. group who prematurely disc. trial drug but had a wk 52 FVC value. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming similar rate of FVC decline as in pl. pts with a wk 52 FVC value who prematurely disc. trial drug with most severe declines. The imputation model was similar to the statistical model of the PA||69.06|-3.19|0.0740
82367264|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.89|||||TWO_SIDED|95.0|0.97|3.69|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 33F||3.69|0.97|
82367265|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.46|1.08|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 8||1.08|0.46|
82394737|NCT00195494|164500185|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0|||<|0.001|||||||Fisher Exact||E+M (79.7%) - M (58.7%) creates the risk difference estimated value.|||||<0.001
82394738|NCT05727306|164500197|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|1.25|1.46|||||Calculated as the odds of having a depressive episode in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.46|1.25|
82394739|NCT05727306|164500198|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.32|1.58|||||Calculated as the odds of having recurrent depressive disorder in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.58|1.32|
82394740|NCT05727306|164500199|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.3|1.51|||||Calculated as the odds of having anxiety in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Odds Ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.51|1.30|
82394741|NCT05727306|164500200|OTHER||Incidence rate ratio (IRR)|1.42|||||TWO_SIDED|95.0|1.37|1.46|||||Calculated as the incidence rate of attending primary care in participants diagnosed of Alopecia Areata vs. participants without Alopecia Areata. Incidence rate ratio adjusted for sociodemographic, clinical characteristics and major comorbidities.|||1.46|1.37|
82394742|NCT05727306|164500201|OTHER||Hazard Ratio (HR)|8.26|||||TWO_SIDED|95.0|7.55|9.04|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||9.04|7.55|
82394743|NCT05727306|164500202|OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|1.17|1.57|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.57|1.17|
82394744|NCT05727306|164500203|OTHER||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|1.14|1.87|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.87|1.14|
82394745|NCT05727306|164500204|OTHER||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|1.38|1.61|||||Calculated using Cox Proportional Hazard model.Reflects a comparison of incidence rates between participants diagnosed with Alopecia Areata (AA) and those without AA. Adjusted for sociodemographic,clinical characteristics and major comorbidities.|||1.61|1.38|
82394746|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.527||||0.0211|TWO_SIDED|95.0|0.306|0.908|||Regression, Logistic|||The statistical analysis is presented for Gamma-Glutamyl Transferase (Gamma-GT) in log10 international units per liter (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week \[Wk\]12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.908|0.306|0.0211
82394747|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078|||<|0.0001|TWO_SIDED|95.0|1.065|1.092|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.092|1.065|<0.0001
82444459|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|6.8||||0.19|TWO_SIDED|95.0|-3.4|16.9|||Chi-squared|||Response on Day 300||16.9|-3.4|0.19
82444460|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|21.6|||<|0.001|TWO_SIDED|95.0|9.7|33.4|||Chi-squared|||Response on Day 360||33.4|9.7|<0.001
82394748|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0053|TWO_SIDED|95.0|1.061|1.403|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, during the first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.403|1.061|0.0053
82394749|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.464||||0.0079|TWO_SIDED|95.0|0.264|0.818|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.818|0.264|0.0079
82394750|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.737||||0.1808|TWO_SIDED|95.0|0.471|1.153|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.153|0.471|0.1808
82394751|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.082|||<|0.0001|TWO_SIDED|95.0|1.069|1.095|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.095|1.069|<0.0001
82444461|NCT00162266|164597627|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.7||||0.625|TWO_SIDED|95.0|-8.1|13.5|||Chi-squared|||Response on Day 360||13.5|-8.1|0.625
82367266|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.58|1.38|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 8||1.38|0.58|
82367267|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.62|2.15|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 9N||2.15|0.62|
82444462|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.5||||0.04||95.0|0.2|6.8|||Chi-squared|||Response on Day 30||6.8|0.2|0.04
82367268|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.58|2.04|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 9N||2.04|0.58|
82367269|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.56|||||TWO_SIDED|95.0|0.9|2.71|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 10A||2.71|0.90|
82367270|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.87|||||TWO_SIDED|95.0|1.08|3.23|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 10A||3.23|1.08|
82367271|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.53|1.49|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 11A||1.49|0.53|
82394752|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.676||||0.0005|TWO_SIDED|95.0|0.542|0.844|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kilogram (kg). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.844|0.542|0.0005
82444463|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.9||||0.063|TWO_SIDED|95.0|-0.2|5.9|||Chi-squared|||Response on Day 30||5.9|-0.2|0.063
82444464|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.7||||0.001|TWO_SIDED|95.0|3.5|13.9|||Chi-squared|||Response on Day 60||13.9|3.5|0.001
82367272|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.66|1.87|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 11A||1.87|0.66|
82367273|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.7|||||TWO_SIDED|95.0|0.89|3.27|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 12F||3.27|0.89|
82444465|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.8||||0.032|TWO_SIDED|95.0|0.3|7.3|||Chi-squared|||Response on Day 60||7.3|0.3|0.032
82444466|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|7.9||||0.005|TWO_SIDED|95.0|2.4|13.3|||Chi-squared|||Response on Day 90||13.3|2.4|0.005
82444467|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.9||||0.07|TWO_SIDED|95.0|-0.3|8.2|||Chi-squared|||Response on Day 90||8.2|-0.3|0.07
82444468|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|9.7||||0.007|TWO_SIDED|95.0|2.7|16.7|||Chi-squared|||Response on Day 120||16.7|2.7|0.007
82444469|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.4||||0.395||95.0|-3.1|7.8|||Chi-squared|||||7.8|-3.1|0.395
82444470|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|10.6||||0.004|TWO_SIDED|95.0|3.4|17.7|||Chi-squared|||Response on Day 150||17.7|3.4|0.004
82444471|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|2.4||||0.395|TWO_SIDED|95.0|-3.1|7.8|||Chi-squared|||Response on Day 150||7.8|-3.1|0.395
82444472|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|14.8|||<|0.001|TWO_SIDED|95.0|7.5|22.2|||Chi-squared|||Response on Day 180||22.2|7.5|<0.001
82444473|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.8||||0.005|TWO_SIDED|95.0|2.7|14.9|||Chi-squared|||Response on Day 180||14.9|2.7|0.005
82644133|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.716|||<|0.0001|TWO_SIDED|95.0|2.595|2.838|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.838|2.595|<.0001
82644134|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.643|||<|0.0001|TWO_SIDED|95.0|2.541|2.746|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.746|2.541|<.0001
82644135|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.235|||<|0.0001|TWO_SIDED|95.0|1.083|1.386|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.386|1.083|<.0001
82644136|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.174|||<|0.0001|TWO_SIDED|95.0|1.045|1.304|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.304|1.045|<.0001
82644137|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.219|||<|0.0001|TWO_SIDED|95.0|1.07|1.368|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||1.368|1.070|<.0001
82644138|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.176|||<|0.0001|TWO_SIDED|95.0|1.046|1.306|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.306|1.046|<.0001
82644139|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.176|||<|0.0001|TWO_SIDED|95.0|1.029|1.322|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||1.322|1.029|<.0001
82644140|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.174|||<|0.0001|TWO_SIDED|95.0|1.049|1.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.300|1.049|<.0001
82644141|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.425|||<|0.0001|TWO_SIDED|95.0|-0.669|-0.181|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.181|-0.669|<.0001
82444474|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|13.2||||0.002|TWO_SIDED|95.0|5.0|21.4|||Chi-squared|||Response on Day 240||21.4|5.0|0.002
82394753|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.573||||0.0041|TWO_SIDED|95.0|0.392|0.838|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.838|0.392|0.0041
82394754|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.094|||<|0.0001|TWO_SIDED|95.0|1.048|1.142|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.142|1.048|<0.0001
82394755|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.945||||0.0031|TWO_SIDED|95.0|2.013|31.359|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||31.359|2.013|0.0031
82394756|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.0012|TWO_SIDED|95.0|0.844|0.959|||Regression, Logistic|||The statistical analysis is presented for body mass index (BMI) in kilogram per square meter (kg/m\^2). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.959|0.844|0.0012
82394757|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.619||||0.0085|TWO_SIDED|95.0|0.433|0.885|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.885|0.433|0.0085
82394758|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||<|0.0001|TWO_SIDED|95.0|1.087|1.174|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.174|1.087|<0.0001
82394759|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.784||||0.0341|TWO_SIDED|95.0|0.626|0.982|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.982|0.626|0.0341
82644142|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.467|||<|0.0001|TWO_SIDED|95.0|-0.677|-0.256|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.256|-0.677|<.0001
82394760|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.575||||0.0443|TWO_SIDED|95.0|0.335|0.986|||Regression, Logistic|||The statistical analysis is presented for aspartate aminotransferase (AST) ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.986|0.335|0.0443
82394761|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||<|0.0001|TWO_SIDED|95.0|1.057|1.144|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.144|1.057|<0.0001
82394762|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.867||||0.0039|TWO_SIDED|95.0|2.73|191.56|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, during the first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||191.56|2.730|0.0039
82394763|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.0244|TWO_SIDED|95.0|0.628|0.968|||Regression, Logistic|||The statistical analysis is presented for Weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||0.968|0.628|0.0244
82394764|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.128|||<|0.0001|TWO_SIDED|95.0|1.086|1.172|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.172|1.086|<0.0001
82444475|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|3.5||||0.292|TWO_SIDED|95.0|-3.0|10.1|||Chi-squared|||Response on Day 240||10.1|-3.0|0.292
82575416|NCT00609947|164860539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.2|STANDARD_DEVIATION|21.8|<|0.001|ONE_SIDED|95.0||||"The null and alternative hypotheses were:~H0: µSVS ≥µM H1: µSVS \< µM where µSVS was the mean in-segment 8-month percent diameter stenosis for the SVS study and µM was the mean in-segment 6-month percent diameter stenosis for Micro-Driver."|t-test, 2 sided|The sample size was not reduced below 158 evaluable subjects in order to support the analysis of the primary safety endpoint.||The 8-month in-segment percent diameter stenosis from Endeavor SVS subjects was compared to the 6-month in-segment percent diameter stenosis from Micro Driver subjects. This study assessed the superiority of SVS against the Micro-Driver regarding in-segment percent diameter stenosis at 8 months post procedure.||||<0.001
82575417|NCT00609947|164860540|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|13.5|STANDARD_ERROR_OF_MEAN|6.5||0.0041|ONE_SIDED|95.0||20.0|||t-test, 1 sided|||"The null and alternative hypotheses of interest are:~H0: xSVS \>= 20% vs. H1: xSVS \< 20%, where x is the true SVS 12-month MACE rate.~The assessment of the null hypothesis will be carried out at the one-sided 0.05 level of significance. Rejection of the null hypothesis indicates the SVS 12-month MACE rate is significantly below 20%."||20||0.0041
82575418|NCT04079634|164860554|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82575419|NCT03812029|164860555|SUPERIORITY|||||||0.0015||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0015
82575420|NCT03812029|164860555|SUPERIORITY|||||||0.0121||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0121
82647838|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.4||||0.008|TWO_SIDED|95.0|1.4|8.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||8.6|1.4|0.008
82367274|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.4|||||TWO_SIDED|95.0|1.24|4.62|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 12F||4.62|1.24|
82367275|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.97|||||TWO_SIDED|95.0|1.16|3.34|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 17F||3.34|1.16|
82394765|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.547||||0.0453|TWO_SIDED|95.0|0.303|0.987|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.987|0.303|0.0453
82394766|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.133||||0.0184|TWO_SIDED|95.0|0.025|0.712|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.712|0.025|0.0184
82444476|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.4|29.5|||Chi-squared|||Response on Day 300||29.5|12.4|<0.001
82575421|NCT03812029|164860555|SUPERIORITY|||||||0.0371||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0371
82575422|NCT03812029|164860556|SUPERIORITY|||||||0.003||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.003
82575423|NCT03812029|164860556|SUPERIORITY|||||||0.04||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.04
82575424|NCT03812029|164860557|SUPERIORITY|||||||0.0017||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.0017
82575425|NCT03812029|164860557|SUPERIORITY|||||||0.018||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.018
82575426|NCT03812029|164860557|SUPERIORITY|||||||0.13||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.13
82575427|NCT03812029|164860558|SUPERIORITY|||||||0.001||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.001
82575428|NCT03812029|164860558|SUPERIORITY|||||||0.002||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.002
82575429|NCT03812029|164860558|SUPERIORITY|||||||0.018||||||a priori threshold for statistical significance : \<0.05.|ANCOVA|||||||0.018
82367276|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.06|||||TWO_SIDED|95.0|1.21|3.51|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 17F||3.51|1.21|
82367277|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.77|1.91|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 20A||1.91|0.77|
82367278|NCT04168190|164445222|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.56|||||TWO_SIDED|95.0|0.99|2.45|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 20A||2.45|0.99|
82444477|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|8.0||||0.014|TWO_SIDED|95.0|1.6|14.3|||Chi-squared|||Response on Day 300||14.3|1.6|0.014
82575430|NCT03812029|164860559|SUPERIORITY|||||||0.09||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.09
82575431|NCT03812029|164860559|SUPERIORITY|||||||0.47||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.47
82575432|NCT03812029|164860559|SUPERIORITY|||||||0.14||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.14
82575433|NCT03812029|164860560|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||<0.0001
82575434|NCT03812029|164860560|SUPERIORITY||||||<|0.0001||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||<0.0001
82575435|NCT03812029|164860560|SUPERIORITY|||||||0.0002||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0002
82444478|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|13.3||||0.003|TWO_SIDED|95.0|4.4|22.2|||Chi-squared|||Response on Day 360||22.2|4.4|0.003
82444479|NCT00162266|164597628|SUPERIORITY_OR_OTHER||Point Estimate of Difference|4.8||||0.227|TWO_SIDED|95.0|-3.0|12.6|||Chi-squared|||Response on Day 360||12.6|-3.0|0.227
82528575|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|33.86||||0.0644|TWO_SIDED|95.0|-2.03|69.75|||random coefficient regression|||In multiple imputation SA 3, missing FVC values at wk 52 in pts who were alive at wk 52 were imputed assuming a similar rate of FVC decline as in all pts in the pl. group who were included in the PA. Missing FVC values at wk 52 in pts who died before wk 52 were imputed assuming a similar rate of FVC decline as in all placebo patients included in the primary analysis with the most severe declines. The imputation model was similar to the statistical model of the PA.||69.75|-2.03|0.0644
82528576|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|40.95||||0.0351|TWO_SIDED|95.0|2.88|79.01|||random coefficient regression|||This is sensitivity analysis using the model similar to the primary analysis but including a different set of covariates: the fixed, categorical effects of treatment, ATA status, the fixed continuous effects of time, baseline FVC (mL), and the treatment-by-time and baseline-by-time interactions.Random effects was included for patient response for both time and intercept.||79.01|2.88|0.0351
82528577|NCT02597933|164753106|OTHER||Mean Difference (Final Values)|40.98||||0.0349|TWO_SIDED|95.0|2.92|79.04|||random coefficient regression|||This is sensitivity analysis using the model similar to the primary analysis but including a different set of covariates: the fixed, categorical effects of treatment, ATA status (Positive / Negative), gender and mycophenolate mofetil /sodium background therapy use (Yes / No), fixed continuous effects of time, age , height and baseline FVC (mL), the treatment-by-time and baseline-by-time interactions. Random effects was included for patient response for both time and intercept||79.04|2.92|0.0349
82528578|NCT02597933|164753107|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.37||0.5785|TWO_SIDED|95.0|-0.94|0.53|||MMRM|||The mixed model repeated measures (MMRM) approach was used. The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||0.53|-0.94|0.5785
82528579|NCT02597933|164753108|OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|1.24||0.1711|TWO_SIDED|95.0|-0.73|4.12|||MMRM|The MMRM model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||4.12|-0.73|0.1711
82528580|NCT02597933|164753109|OTHER||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|0.54||0.0331|TWO_SIDED|1.15|0.09|2.21|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||"Based on a random coefficient regression with fixed categorical effects of treatment, ATA status, fixed continuous effects of time, baseline FVC \[% pred\], \& including treatment-by-time and baseline-by-time interactions. Random effect was included for patient specific intercept \& time.~Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-Components variance-covariance matrix."||2.21|0.09|0.0331
82528581|NCT02597933|164753110|OTHER||Mean Difference (Final Values)|46.41|STANDARD_ERROR_OF_MEAN|19.51||0.0177|TWO_SIDED|95.0|8.09|84.73|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||84.73|8.09|0.0177
82528582|NCT02597933|164753111|OTHER||Mean Difference (Final Values)|-6.28|STANDARD_ERROR_OF_MEAN|8.39||0.4547|TWO_SIDED|95.0|-22.77|10.21|||MMRM|The model assumed that data were missing at random \& that patients who dropped out would have behaved similarly to those who remained in trial.||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||10.21|-22.77|0.4547
82528583|NCT02597933|164753112|OTHER||Hazard Ratio (HR)|1.16||||0.7535|TWO_SIDED|95.0|0.47|2.84|||Regression, Cox|Based on Cox's regression model (Wald test), stratified by ATA status.||||2.84|0.47|0.7535
82528584|NCT02597933|164753113|OTHER||Odds Ratio (OR)|1.03||||0.9115|TWO_SIDED|95.0|0.57|1.88|||Cochran-Mantel-Haenszel|||The comparison between both treatment groups was performed using a Cochran-Mantel-Haenszel test. CRISS score at Week 52 was transformed into 100 binary responder endpoints using multiple imputation. These were analyzed using a Cochran-Mantel-Haenszel test, stratified by ATA status OR and the 95% confidence interval (CI) as obtained from all 100 imputations were combined using Rubin´s rule.|Missing values were imputed using worst case, i.e. considered having disease progression.|1.88|0.57|0.9115
82528585|NCT02597933|164753114|OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.76||0.5668|TWO_SIDED|95.0|-1.94|1.06|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||1.06|-1.94|0.5668
82528586|NCT02597933|164753115|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.5914|TWO_SIDED|95.0|-0.16|0.09|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||0.09|-0.16|0.5914
82575436|NCT03812029|164860561|SUPERIORITY|||||||0.017||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.017
82575437|NCT03812029|164860561|SUPERIORITY|||||||0.0006||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0006
82575438|NCT03812029|164860561|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.006
82394767|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.103|||<|0.0001|TWO_SIDED|95.0|1.072|1.134|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in Weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.134|1.072|<0.0001
82394768|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.543||||0.0019|TWO_SIDED|95.0|0.37|0.798|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.798|0.370|0.0019
82394769|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.359||||0.0017|TWO_SIDED|95.0|0.189|0.679|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.679|0.189|0.0017
82394770|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08|||<|0.0001|TWO_SIDED|95.0|1.047|1.114|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.114|1.047|<0.0001
82394771|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.093||||0.0042|TWO_SIDED|95.0|1.029|1.162|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||1.162|1.029|0.0042
82394772|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.535||||0.0168|TWO_SIDED|95.0|0.32|0.893|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.893|0.320|0.0168
82394773|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.501||||0.0128|TWO_SIDED|95.0|0.291|0.864|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.864|0.291|0.0128
82394774|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.853||||0.4634|TWO_SIDED|95.0|0.558|1.305|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.305|0.558|0.4634
82444480|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02||||0.2676|TWO_SIDED|95.0|-1.56|5.61|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 15 Treatment Comparison||5.61|-1.56|0.2676
82444481|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.0418|TWO_SIDED|95.0|-7.46|-0.14|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 15 Treatment Comparison||-0.14|-7.46|0.0418
82394775|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.655|||<|0.0001|TWO_SIDED|95.0|9.725|39.722|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (Rapid Virological Response \[RVR\] vs No RVR/EVR \[Early Virological Response\]). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||39.722|9.725|<0.0001
82394776|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.569|||<|0.0001|TWO_SIDED|95.0|4.408|16.658|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR \[Complete Early Virological Response\] vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||16.658|4.408|<0.0001
82394777|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.519||||0.0089|TWO_SIDED|95.0|1.26|5.034|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR \[Partial Early Virological Response\] vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.034|1.260|0.0089
82444482|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.25||||0.0061|TWO_SIDED|95.0|2.08|12.41|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 30 Treatment Comparison||12.41|2.08|0.0061
82444483|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.6713|TWO_SIDED|95.0|-6.45|4.16||ANOVA model: AUC = treatment|ANOVA||Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 30 Treatment Comparison||4.16|-6.45|0.6713
82444484|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.75||||0.0002|TWO_SIDED|95.0|5.67|17.84|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 60 Treatment Comparison||17.84|5.67|0.0002
82444485|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.8495|TWO_SIDED|95.0|-5.62|6.82|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 60 Treatment Comparison||6.82|-5.62|0.8495
82575439|NCT03812029|164860562|SUPERIORITY|||||||0.16||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.16
82367279|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|13.98|||||TWO_SIDED|95.0|5.9|33.1|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 6A||33.10|5.90|
82367280|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|14.42|||||TWO_SIDED|95.0|6.05|34.35|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 6A||34.35|6.05|
82394778|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.908||||0.0037|TWO_SIDED|95.0|0.851|0.969|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.969|0.851|0.0037
82394779|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.553||||0.002|TWO_SIDED|95.0|0.379|0.805|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.805|0.379|0.0020
82394780|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.537||||0.0003|TWO_SIDED|95.0|3.654|74.849|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||74.849|3.654|0.0003
82394781|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.386||||0.0733|TWO_SIDED|95.0|0.87|22.114|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||22.114|0.870|0.0733
82394782|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.352||||0.3478|TWO_SIDED|95.0|0.394|14.031|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||14.031|0.394|0.3478
82394783|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.729||||0.0264|TWO_SIDED|95.0|0.552|0.964|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.964|0.552|0.0264
82394784|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.658||||0.0096|TWO_SIDED|95.0|1.586|27.946|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||27.946|1.586|0.0096
82394785|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.734||||0.0421|TWO_SIDED|95.0|1.057|21.203|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||21.203|1.057|0.0421
82575440|NCT03812029|164860562|SUPERIORITY|||||||0.01||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.01
82394786|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.602||||0.6004|TWO_SIDED|95.0|0.09|4.014|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.014|0.090|0.6004
82394787|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.715||||0.0418|TWO_SIDED|95.0|0.517|0.988|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.988|0.517|0.0418
82444486|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1||||0.0003|TWO_SIDED|95.0|5.63|18.56|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 90 Treatment Comparison||18.56|5.63|0.0003
82444487|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.19||||0.0003|TWO_SIDED|95.0|-2.44|10.81|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 90 Treatment Comparison||10.81|-2.44|0.0003
82575441|NCT03812029|164860562|SUPERIORITY|||||||0.57||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.57
82575442|NCT03812029|164860563|SUPERIORITY|||||||0.0017||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0017
82575443|NCT03812029|164860563|SUPERIORITY|||||||0.0093||||||a priori threshold for statistical significance : \<0.05.|Mixed Models Analysis|||||||0.0093
82367281|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|7.39||||||95.0|4.29|12.75|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15A||12.75|4.29|
82367282|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|9.4|||||TWO_SIDED|95.0|5.42|16.28|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15A||16.28|5.42|
82367283|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.13|||||TWO_SIDED|95.0|1.25|3.63|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 15C||3.63|1.25|
82367284|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|2.8|||||TWO_SIDED|95.0|1.64|4.79|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 15C||4.79|1.64|
82367285|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|3.79|||||TWO_SIDED|95.0|1.88|7.67|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 16F||7.67|1.88|
82367286|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|5.87|||||TWO_SIDED|95.0|2.88|11.94|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 16F||11.94|2.88|
82367287|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|13.76|||||TWO_SIDED|95.0|5.68|33.32|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23A||33.32|5.68|
82367288|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|19.28|||||TWO_SIDED|95.0|7.91|47.0|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23A||47.00|7.91|
82367289|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|23.85|||||TWO_SIDED|95.0|8.64|65.82|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 23B||65.82|8.64|
82367290|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|39.39|||||TWO_SIDED|95.0|14.15|109.65|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 23B||109.65|14.15|
82394788|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.198||||0.0279|TWO_SIDED|95.0|0.047|0.839|||Regression, Logistic|||The statistical analysis is presented for Gamma-GT in log10 (IU/L) at BL. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||0.839|0.047|0.0279
82394789|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|40.88|||<|0.0001|TWO_SIDED|95.0|7.474|223.61|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||223.61|7.474|<0.0001
82394790|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|42.395|||<|0.0001|TWO_SIDED|95.0|8.724|206.02|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||206.02|8.724|<0.0001
82444488|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.54||||0.0001|TWO_SIDED|95.0|7.28|21.81|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 120 Treatment Comparison||21.81|7.28|0.0001
82444489|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.3141|TWO_SIDED|95.0|-3.43|10.64|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 120 Treatment Comparison||10.64|-3.43|0.3141
82367291|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|19.88|||||TWO_SIDED|95.0|9.03|43.74|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 24F||43.74|9.03|
82367292|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|31.07|||||TWO_SIDED|95.0|13.98|69.03|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 24F||69.03|13.98|
82367293|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|57.79|||||TWO_SIDED|95.0|25.15|132.78|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 31||132.78|25.15|
82367294|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|58.07|||||TWO_SIDED|95.0|25.1|134.33|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 31||134.33|25.10|
82367295|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|6.93|||||TWO_SIDED|95.0|4.45|10.8|||||Phase 1: V116 0.5 mL/Phase 1: Pneumovax™23|Serotype 35B||10.80|4.45|
82367296|NCT04168190|164445223|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|7.82|||||TWO_SIDED|95.0|5.0|12.24|||||Phase 1: V116 1.0 mL/Phase 1: Pneumovax™23|Serotype 35B||12.24|5.00|
82367297|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 3. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.30|0.90|<0.001
82367298|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.23|||<|0.001|TWO_SIDED|95.0|0.99|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 7F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|0.99|<0.001
82367299|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.24|||<|0.001|TWO_SIDED|95.0|1.02|1.52|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 19A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.52|1.02|<0.001
82394791|NCT01066793|164500309|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.247||||0.0087|TWO_SIDED|95.0|1.704|39.908|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2b.||39.908|1.704|0.0087
82394792|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.957||||0.0002|TWO_SIDED|95.0|1.383|2.77|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.770|1.383|0.0002
82394793|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.337||||0.0007|TWO_SIDED|95.0|1.661|6.705|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.705|1.661|0.0007
82394794|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.305||||0.3611|TWO_SIDED|95.0|0.737|2.312|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.312|0.737|0.3611
82394795|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.943|||<|0.0001|TWO_SIDED|95.0|0.929|0.958|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.958|0.929|<0.0001
82394796|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.743||||0.002|TWO_SIDED|95.0|0.615|0.897|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, during the first 12 weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.897|0.615|0.0020
82394797|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.864||||0.0004|TWO_SIDED|95.0|1.322|2.628|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.628|1.322|0.0004
82394798|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.124||||0.0386|TWO_SIDED|95.0|1.04|4.338|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.338|1.040|0.0386
82647839|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1||||0.129|TWO_SIDED|95.0|0.8|5.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 4 (LOCF)||5.6|0.8|0.129
82394799|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.398||||0.0004|TWO_SIDED|95.0|1.722|6.706|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.706|1.722|0.0004
82394800|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.372||||0.2769|TWO_SIDED|95.0|0.776|2.428|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.428|0.776|0.2769
82394801|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.945|||<|0.0001|TWO_SIDED|95.0|0.931|0.96|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.960|0.931|<0.0001
82394802|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.163||||0.0001|TWO_SIDED|95.0|1.078|1.256|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.256|1.078|0.0001
82394803|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.788||||0.0213|TWO_SIDED|95.0|1.091|2.932|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.932|1.091|0.0213
82367300|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.36|||<|0.001|TWO_SIDED|95.0|1.06|1.75|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 22F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.75|1.06|<0.001
82367301|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.69|1.06|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 33F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.06|0.69|<0.001
82367302|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.78|1.18|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 8. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.18|0.78|<0.001
82367303|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.3|||<|0.001|TWO_SIDED|95.0|1.04|1.64|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 9N. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.64|1.04|<0.001
82367304|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.83|||<|0.001|TWO_SIDED|95.0|1.44|2.32|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 10A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.32|1.44|<0.001
82367305|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.27|1.86|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 11A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||1.86|1.27|<0.001
82367306|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|2.3|||<|0.001|TWO_SIDED|95.0|1.75|3.04|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 12F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||3.04|1.75|<0.001
82367307|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|1.82|||<|0.001|TWO_SIDED|95.0|1.49|2.22|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 17F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.22|1.49|<0.001
82367308|NCT04168190|164445226|NON_INFERIORITY|Non-inferiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>0.5 (1-sided p-value \<0.025).|GMC Ratio|2.27|||<|0.001|TWO_SIDED|95.0|1.81|2.83|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 20A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||2.83|1.81|<0.001
82367309|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|3.77|||<|0.001|TWO_SIDED|95.0|2.95|4.84|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 6A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||4.84|2.95|<0.001
82394804|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.0002|TWO_SIDED|95.0|0.856|0.953|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.953|0.856|0.0002
82394805|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.723||||0.0306|TWO_SIDED|95.0|0.538|0.97|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.538|0.0306
82394806|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.145||||0.0005|TWO_SIDED|95.0|1.061|1.236|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.236|1.061|0.0005
82394807|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.907||||0.0122|TWO_SIDED|95.0|1.151|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.151|0.0122
82444490|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.96||||0.0001|TWO_SIDED|95.0|8.49|25.43|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 150 Treatment Comparison||25.43|8.49|0.0001
82528587|NCT02597933|164753116|OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.034||0.3447|TWO_SIDED|95.0|-0.035|0.099|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||0.099|-0.035|0.3447
82367310|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|7.68|||<|0.001|TWO_SIDED|95.0|6.12|9.64|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||9.64|6.12|<0.001
82367311|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|3.29|||<|0.001|TWO_SIDED|95.0|2.6|4.17|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 15C. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||4.17|2.60|<0.001
82367312|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|8.65|||<|0.001|TWO_SIDED|95.0|7.19|10.41|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 16F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||10.41|7.19|<0.001
82367313|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|7.83|||<|0.001|TWO_SIDED|95.0|6.2|9.9|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23A. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model||9.90|6.20|<0.001
82367314|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|5.61|||<|0.001|TWO_SIDED|95.0|4.53|6.94|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 23B. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||6.94|4.53|<0.001
82367315|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|23.99|||<|0.001|TWO_SIDED|95.0|19.35|29.74|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 24F. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||29.74|19.35|<0.001
82367316|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|10.13|||<|0.001|TWO_SIDED|95.0|8.32|12.33|||P-value was estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 31. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||12.33|8.32|<0.001
82367317|NCT04168190|164445227|SUPERIORITY|Superiority can be concluded if the lower bound of the 95% CI for the estimated GMC ratio (V116/PPSV23) is \>1.0 (1-sided p-value \<0.025).|GMC Ratio|18.29|||<|0.001|TWO_SIDED|95.0|15.59|21.45|||P-value is estimated from a cLDA model.||Phase 2: V116/Phase 2: Pneumovax™23|Serotype 35B. Geometric mean concentration (GMC) ratio, 95% confidence interval (CI), and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||21.45|15.59|<0.001
82367318|NCT01194973|164445252|SUPERIORITY_OR_OTHER||LS mean change from baseline|117.68|||<|0.0001|TWO_SIDED|95.0|92.77|142.59|||ANOVA|||||142.59|92.77|<0.0001
82367319|NCT01194973|164445258|SUPERIORITY_OR_OTHER||LS mean change from baseline|102.49|||<|0.0001|TWO_SIDED|95.0|68.15|136.82|||ANOVA|||||136.82|68.15|<0.0001
82367320|NCT01640873|164445261|OTHER||Least Squares Mean Difference|-8.5||||0.356|TWO_SIDED|90.0|-47.4|30.4||The posterior probability that the reduction in FPG is ≥ 20 mg/dL is 0.06, and hence, the FPG hypothesis was not met.|Constrained longitudinal data analysis|||||30.4|-47.4|0.356
82367321|NCT01640873|164445263|OTHER||Geometric Mean Ratio|1.05||||0.2714|TWO_SIDED|90.0|0.92|1.19||The posterior probability that the reduction in 24h-WMG is ≥ 20 mg/dL is \< 0.01, and hence, the 24h- WMG hypothesis was not met.|Constrained longitudinal data analysis|||||1.19|0.92|0.2714
82367322|NCT01640873|164445264|OTHER|Day 1|Geometric Mean Ratio|1.22||||0.06|TWO_SIDED|95.0|0.99|1.55|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.55|0.99|0.060
82367323|NCT01640873|164445264|OTHER|Day 3|Geometric mean Ratio|1.2||||0.065|TWO_SIDED|95.0|0.98|1.47|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.47|0.98|0.065
82394808|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.175||||0.0956|TWO_SIDED|95.0|0.872|5.424|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.424|0.872|0.0956
82394809|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.267||||0.0846|TWO_SIDED|95.0|0.06|1.197|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.197|0.060|0.0846
82448935|NCT01122849|164605165|SUPERIORITY_OR_OTHER||LS Mean Difference|3.74||||0.4683|TWO_SIDED|95.0|-6.53|14.01||Between treatment p-values and confidence intervals|ANCOVA|||||14.01|-6.53|0.4683
82367324|NCT01640873|164445264|OTHER|Day 16|Geometric Mean Ratio|1.1||||0.217|TWO_SIDED|95.0|0.89|1.37|||ANOVA|Placebo-corrected (MK-8655 / placebo)||||1.37|0.89|0.217
82367325|NCT02749292|164445348|EQUIVALENCE|Using a two-sided log-rank test with an alpha level of 0.05, a projected relapse risk of 15% in the superior group and 30% in the inferior group, and an estimated enrollment time of 36 months, it was determined that 200 patients were required to detect a significant difference with a power of 0.80. Due to the coronavirus disease 2019 (COVID-19) pandemic and the deleterious impact of rituximab on vaccination efficacy, the trial was concluded before reaching the target enrollment of 200.|Hazard Ratio (HR)|0.37||||0.045|TWO_SIDED|95.0|0.15|0.9|||Log Rank|||"The difference between the two treatment strategies was assessed using the log-rank test. P values of 0.05 were considered significant. Both rows were included and combined in the statistical analysis (ANCA-PR3 and ANCA-MPO) to assess the difference in treatment strategies.~Null hypothesis: No difference in the ANCA and B-cell arm in the probability of relapses."||0.90|0.15|0.045
82367326|NCT02749292|164445349|OTHER|chi square test||||||0.87|||||||Chi-squared|||"Null hypothesis: No difference in the proportion of patients with SAEs in each arm"||||0.87
82367327|NCT02749292|164445354|OTHER||||||<|1|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: no difference in the mean number of infusions per patient in each arm.||||<0001
82367328|NCT02749292|164445355|OTHER||Mean Difference (Final Values)|-0.14||||0.17|TWO_SIDED|95.0|-0.34|-0.06|||t-test, 2 sided|||Null hypothesis: there is no difference in the mean change from baseline Vasculitis Damage Index between each arm. A t-test was used.||-0.06|-0.34|0.17
82367329|NCT02749292|164445356|OTHER|Using a two-sided log-rank test with an alpha level of 0.05, a projected relapse risk of 15% in the superior group and 30% in the inferior group, and an estimated enrollment time of 36 months, it was determined that 200 patients were required to detect a significant difference with a power of 0.80. Due to the coronavirus disease 2019 (COVID-19) pandemic and the deleterious impact of rituximab on vaccination efficacy, the trial was concluded before reaching the target enrollment of 200.|Hazard Ratio (HR)|1.64||||0.42|TWO_SIDED|95.0|0.5|5.36|||Log Rank|||"The difference between the two treatment strategies was assessed using the log-rank test. P values of 0.05 were considered significant.~Null hypothesis: No difference in the ANCA and B-cell arm in the probability of relapses"||5.36|0.50|0.42
82367330|NCT01843348|164445358|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) with tx, center, donor type factors. Raw and adjusted means were presented with one-sided p-values for un-shifted and shifted hypothesis, respectively. Significance level = 2.5% (one-sided)|Least square mean|-9.35|||<|0.0001|TWO_SIDED|95.0|-13.82|-4.88|||ANOVA|||The trial tests the null hypotheses that the treatment difference (investigational minus reference) in mean eGFR at re-assigned visit Month 12 is lower than the non-inferiority margin (Δ) of 7 mL/min per 1.73m2 versus the alternative that the treatment difference is equal to or greater than the non-inferiority margin||-4.88|-13.82|<0.0001
82367331|NCT01843348|164445358|NON_INFERIORITY_OR_EQUIVALENCE|The trial tests the null hypotheses that the treatment difference (investigational minus reference) in mean eGFR at re-assigned visit Month 12 is lower than the non-inferiority margin (Δ) of 7 mL/min per 1.73m2 versus the alternative that the treatment difference is equal to or greater than the non-inferiority margin|Least squares mean|-5.56||||0.0067|TWO_SIDED|95.0|-9.56|-1.55||Analysis of variance (ANOVA) with tx, center, donor type factors. Raw and adjusted means were presented with one-sided p-values for un-shifted and shifted hypothesis, respectively. Significance level = 2.5% (one-sided)|ANOVA|||||-1.55|-9.56|0.0067
82367332|NCT01843348|164445359|SUPERIORITY_OR_OTHER||Point estimate|0.032|||||TWO_SIDED|95.0|-0.029|0.093||||||TAC+Certican - TAC+MPA - difference between groups||0.093|-0.029|
82367333|NCT01843348|164445359|SUPERIORITY_OR_OTHER||Point estimate|0.149|||||TWO_SIDED|95.0|0.076|0.221||||||CycA+Certican -Tac+MPA - difference between groups||0.221|0.076|
82367334|NCT01843348|164445363|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.028|||<|0.001|TWO_SIDED|95.0|-0.032|0.087|||Pearson's chi-square test|||BPAR - treatment differences at Month 12||0.087|-0.032|< 0.001
82367335|NCT00534794|164445383|SUPERIORITY_OR_OTHER|||||||0.532||95.0|||||ANCOVA|||ITT (Intent to Treat)||||0.532
82444491|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.32||||0.3552|TWO_SIDED|95.0|-3.73|10.37|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 150 Treatment Comparison||10.37|-3.73|0.3552
82528588|NCT02597933|164753117|OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.58||0.2727|TWO_SIDED|95.0|-0.51|1.79|||MMRM|||Based on mixed model repeated measures (MMRM) approach was used, with fixed categorical effects of ATA status, visit, treatment-by-visit interaction and baseline-by-visit interaction. Visit was the repeated measure. Within-patient errors were modelled by unstructured variance-covariance structure.||1.79|-0.51|0.2727
82528589|NCT01097915|164753118|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
82367336|NCT00534794|164445384|SUPERIORITY_OR_OTHER|||||||0.927||95.0|||||Student's t-test|||ITT (Intent to Treat)||||0.927
82367337|NCT01635062|164445405|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.3||||0.69|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would lower plasma renin activity (PRA), when sodium restricted, when compared to placebo.||||0.69
82367338|NCT01635062|164445406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.8||||0.89|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would raise renal plasma flow, when sodium loaded, when compared to placebo.||||0.89
82367339|NCT01635062|164445407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0||||0.8|TWO_SIDED||||||ANOVA|||The hypothesis was that calcitriol therapy would lower urine protein, when sodium loaded, when compared to placebo.||||0.80
82367340|NCT02192164|164445413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.757334|STANDARD_ERROR_OF_MEAN|1.594019|||TWO_SIDED|95.0|-5.916307|0.401638||||||||0.401638|-5.916307|
82367341|NCT02192164|164445414|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.911449|STANDARD_ERROR_OF_MEAN|1.426517|||TWO_SIDED|95.0|-3.73847|1.915572||||||||1.915572|-3.73847|
82367342|NCT01929031|164445433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.738|STANDARD_ERROR_OF_MEAN|4.058|<|0.0001|TWO_SIDED|95.0|33.767|49.708|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Placebo|||49.708|33.767|<0.0001
82448936|NCT01122849|164605165|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0259|TWO_SIDED|95.0|1.44|21.55||Between treatment p-values and confidence intervals|ANCOVA|||||21.55|1.44|0.0259
82528590|NCT01097915|164753119|SUPERIORITY_OR_OTHER||||||<|0.004|||||||ANOVA|||||||<0.004
82528591|NCT01097915|164753120|SUPERIORITY_OR_OTHER||||||<|0.048|||||||ANCOVA|the three factors of the Stunkard and Messick Questionnaire were considered as covariates.||||||<0.048
82528592|NCT01097915|164753121|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82367343|NCT01929031|164445433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.467|STANDARD_ERROR_OF_MEAN|4.058|<|0.0001|TWO_SIDED|95.0|28.497|44.437|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Caffeine|||44.437|28.497|<0.0001
82367344|NCT01929031|164445433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.126|STANDARD_ERROR_OF_MEAN|2.868|<|0.0001|TWO_SIDED|95.0|6.493|17.759|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Ibuprofen|||17.759|6.493|<0.0001
82367345|NCT01929031|164445434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.525|STANDARD_ERROR_OF_MEAN|0.808|<|0.0001|TWO_SIDED|95.0|6.937|10.113|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Placebo|||10.113|6.937|<0.0001
82367346|NCT01929031|164445434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.972|STANDARD_ERROR_OF_MEAN|0.808|<|0.0001|TWO_SIDED|95.0|6.384|9.559|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Caffeine|||9.559|6.384|<0.0001
82367347|NCT01929031|164445434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.594|STANDARD_ERROR_OF_MEAN|0.571|<|0.0001|TWO_SIDED|95.0|2.472|4.716|||ANCOVA|The statistical model included baseline PI (VRS), and treatment.|Ibuprofen/Caffeine vs. Ibuprofen|||4.716|2.472|<0.0001
82367348|NCT01929031|164445435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Placebo||||<0.0001
82367349|NCT01929031|164445435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Caffeine||||<0.0001
82367350|NCT01929031|164445435|SUPERIORITY_OR_OTHER|||||||0.2389|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Ibuprofen||||0.2389
82367351|NCT01929031|164445436|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Placebo||||<0.0001
82367352|NCT01929031|164445436|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Caffeine||||<0.0001
82367353|NCT01929031|164445436|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Log Rank|Log rank test stratified for baseline pain intensity as measured on the 4-point VRS.||Ibuprofen/Caffeine vs. Ibuprofen||||0.0001
82367354|NCT00321594|164445439|OTHER||Maximum Tolerated Dose|1400.0|||||TWO_SIDED||||||||MTD was not reached and the maximum dose of 1400 mg/m2 is used in Phase II portion|MTD is defined as the dose below which \>=2 of 3 or \>= 2 of 6 patients experience DLT||||
82367355|NCT00507546|164445461|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED|95.0|||||Friedman|||||||0.70
82367356|NCT00507546|164445462|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Friedman|||||||0.35
82367357|NCT03736213|164445463|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.13|TWO_SIDED||||||paired t-test, two-tailed|df = 6|Ultrasound biofeedback treatment condition - visual-acoustic biofeedback treatment condition. Because more accurate productions have lower normalized acoustic values, a negative difference indicates an advantage for US biofeedback.|||||.13
82367358|NCT00986453|164445464|SUPERIORITY_OR_OTHER|||||||0.4697||95.0|||||t-test, 2 sided|||||||0.4697
82367359|NCT00986453|164445465|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||t-test, 2 sided|||||||0.1470
82367360|NCT00986453|164445466|SUPERIORITY_OR_OTHER|||||||0.0428||95.0|||||t-test, 2 sided|||||||0.0428
82367361|NCT00986453|164445467|SUPERIORITY_OR_OTHER|||||||0.0776||95.0|||||t-test, 2 sided|||||||0.0776
82367362|NCT00986453|164445468|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
82367363|NCT00609466|164445469|SUPERIORITY_OR_OTHER||Least square mean|70.8|||<|0.0001||95.0|35.9|105.6||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||105.6|35.9|<0.0001
82367364|NCT00609466|164445470|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Test for time (in hours) to first rescue medication use. No multiplicity adjustment.|Log Rank|Adjusted for site||||||<0.0001
82367365|NCT00609466|164445471|SUPERIORITY_OR_OTHER||Least square mean|37.5|||<|0.0001||95.0|22.7|52.2||No multiplicity adjustment used|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||52.2|22.7|<0.0001
82528593|NCT01097915|164753122|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82367366|NCT00609466|164445472|SUPERIORITY_OR_OTHER||Least square means|9.9|||<|0.0001||95.0|6.2|13.6||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||13.6|6.2|<0.0001
82367367|NCT00609466|164445473|SUPERIORITY_OR_OTHER||Least square mean|20.6|||<|0.0001||95.0|13.2|28.0||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||28.0|13.2|<0.0001
82367368|NCT00609466|164445474|SUPERIORITY_OR_OTHER||Least square mean|36.4|||<|0.0001||95.0|20.7|52.0||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||52.0|20.7|<0.0001
82367369|NCT00609466|164445475|SUPERIORITY_OR_OTHER||Least square means|108.2||||0.0002||95.0|51.9|164.5||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.||Null hypothesis of no treatment difference.||164.5|51.9|0.0002
82367370|NCT03512262|164445476|SUPERIORITY||Least Squares (LSM) Means Difference|7.3165|||<|0.0001|TWO_SIDED|99.0|5.0668|9.5663||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||9.5663|5.0668|<0.0001
82528594|NCT01097915|164753123|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Chi-squared|||||||< 0.00001
82528595|NCT02100722|164753127|NON_INFERIORITY|Noninferiority of FFR-guided PCI to CABG was prespecified as an upper boundary of less than 1.65 for the 95% confidence interval of the hazard ratio.|Hazard Ratio (HR)|1.5||||0.35|TWO_SIDED|95.0|1.1|2.2|||Regression, Cox|||A sample of 712 patients per group (1424 for the entire trial) would be required in order to achieve 90% power to claim noninferiority||2.2|1.1|0.35
82528596|NCT02100722|164753130|OTHER||Hazard Ratio (HR)|1.7|||||TWO_SIDED|95.0|0.7|4.3||||||||4.3|0.7|
82367371|NCT03512262|164445477|SUPERIORITY||LSM Difference|2.1209|||<|0.0001|TWO_SIDED|99.0|0.9948|3.2469||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||3.2469|0.9948|<0.0001
82367372|NCT03512262|164445478|SUPERIORITY||LSM Difference|2.8221|||<|0.0001|TWO_SIDED|99.0|1.3972|4.2471||Significance level of 0.01.|ANCOVA|Missing values were imputed using a multiple imputation method.||||4.2471|1.3972|<0.0001
82367373|NCT00375492|164445515|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Model Repeated Measures|||||||0.0030
82367374|NCT00375492|164445516|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Model Repeated Measures|||||||<0.0001
82367375|NCT00375492|164445518|SUPERIORITY_OR_OTHER|||||||0.1985||95.0|||||Mixed Model Repeated Measures|||||||0.1985
82367376|NCT00375492|164445519|SUPERIORITY_OR_OTHER|||||||0.1827||95.0|||||ANCOVA|||||||0.1827
82367377|NCT00375492|164445520|SUPERIORITY_OR_OTHER|||||||0.1584||95.0|||||ANCOVA|||||||0.1584
82367378|NCT00375492|164445521|SUPERIORITY_OR_OTHER|||||||0.8279||95.0|||||ANCOVA|||||||0.8279
82367379|NCT00375492|164445522|SUPERIORITY_OR_OTHER|||||||0.8334||95.0|||||ANCOVA|||||||0.8334
82367380|NCT00375492|164445523|SUPERIORITY_OR_OTHER|||||||0.2881||95.0|||||ANCOVA|||||||0.2881
82367381|NCT00375492|164445524|SUPERIORITY_OR_OTHER|||||||0.0654||95.0|||||ANCOVA|||||||0.0654
82367382|NCT00375492|164445525|SUPERIORITY_OR_OTHER|||||||0.728||95.0|||||Cochran-Mantel-Haenszel|||||||0.728
82394810|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.897|||<|0.0001|TWO_SIDED|95.0|0.852|0.945|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.945|0.852|<0.0001
82444492|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.36||||0.0001|TWO_SIDED|95.0|10.19|30.54|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 180 Treatment Comparison||30.54|10.19|0.0001
82367383|NCT00375492|164445526|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||ANOVA|||||||0.127
82367384|NCT00586482|164445533|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||A two-sided p value of less than or equal to 0.05 was considered statistically significant.||||0.12
82367385|NCT00586482|164445534|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||0.23
82367386|NCT00586482|164445535|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
82367387|NCT00586482|164445536|SUPERIORITY_OR_OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
82367388|NCT00586482|164445537|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82367389|NCT04319718|164445549|OTHER|||||||0.025|||||||Fisher Exact|||||||.025
82367390|NCT04319718|164445550|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||.47
82367391|NCT04319718|164445554|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||.67
82367392|NCT04319718|164445555|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||.51
82367393|NCT04319718|164445556|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||.09
82367394|NCT04319718|164445557|OTHER|||||||0.65|||||||Mixed Models Analysis|||||||.65
82367395|NCT04319718|164445557|OTHER|||||||0.24|||||||Mixed Models Analysis|||||||.24
82367396|NCT04319718|164445557|OTHER|||||||0.27|||||||Mixed Models Analysis|||||||.27
82367397|NCT00912093|164445577|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
82367398|NCT00912093|164445578|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
82367399|NCT00912093|164445579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||Peto Peto Wilcoxon|||||||0.012
82367400|NCT00912093|164445580|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
82367401|NCT00912093|164445581|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Peto-Peto Wilcoxon|||||||<0.001
82367402|NCT03687658|164445582|OTHER|Generalized linear mixed model (GLMM) with a binomial distribution using a logit link function||||||0.066|||||||Generalized linear mixed model|||||||0.066
82367403|NCT03687658|164445583|OTHER|Generalized linear mixed model (GLMM) with a binomial distribution using a logit link function||||||0.273|||||||Generalized linear mixed model|||||||0.273
82367404|NCT03687658|164445584|OTHER|Generalized linear mixed model (GLMM) with a Poisson distribution using a log link function||||||0.403|||||||Generalized linear mixed model|||||||0.403
82367405|NCT00450619|164445619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5019||||0.041|TWO_SIDED|95.0|||||Log Rank|||||||0.041
82367406|NCT00450619|164445619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5019||||0.046|TWO_SIDED|95.0|||||Hazard Ratio|||||||0.046
82367407|NCT00450619|164445623|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.3|TWO_SIDED|95.0|0.37|1.35|||Kaplan Meier|||||1.35|0.37|0.30
82367408|NCT04442490|164445692|SUPERIORITY||Least Squares (LS) Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0141|TWO_SIDED|95.0|-3.1|-0.3|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|||-0.3|-3.1|0.0141
82367409|NCT04442490|164445693|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.1193|TWO_SIDED|95.0|-0.4|0.0|||MMRM||Model used was the MMRM with treatment (SAGE-217 or placebo), baseline CGI-S score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|||0.0|-0.4|0.1193
82367410|NCT04442490|164445694|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|-4.0|-2.0|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 3||-2.0|-4.0|<0.0001
82367411|NCT04442490|164445694|SUPERIORITY||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.61|<|0.0001|TWO_SIDED|95.0|-3.8|-1.4|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 8||-1.4|-3.8|<0.0001
82444493|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.38||||0.0451|TWO_SIDED|95.0|0.16|14.6|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 180 Treatment Comparison||14.60|0.16|0.0451
82394811|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.996||||0.0033|TWO_SIDED|95.0|1.259|3.165|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.165|1.259|0.0033
82394812|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0095|TWO_SIDED|95.0|1.035|1.277|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.277|1.035|0.0095
82394813|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0031|TWO_SIDED|95.0|0.045|0.533|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.533|0.045|0.0031
82394814|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.0645|TWO_SIDED|95.0|0.125|1.063|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|0.125|0.0645
82644143|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.311||||0.0052|TWO_SIDED|95.0|-0.556|-0.066|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.066|-0.556|0.0052
82644144|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.391|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.182|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.182|-0.600|<.0001
82644145|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.793|||<|0.0001|TWO_SIDED|95.0|-2.07|-1.516|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.516|-2.070|<.0001
82644146|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.859|||<|0.0001|TWO_SIDED|95.0|-2.098|-1.621|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.621|-2.098|<.0001
82647840|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9||||0.003|TWO_SIDED|95.0|1.4|5.9||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||5.9|1.4|0.003
82394815|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.895||||0.0001|TWO_SIDED|95.0|0.846|0.948|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Wk 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.948|0.846|0.0001
82444494|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.63||||0.0001|TWO_SIDED|95.0|8.83|26.44|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 240 Treatment Comparison||26.44|8.83|0.0001
82394816|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.996||||0.0033|TWO_SIDED|95.0|1.259|3.165|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.165|1.259|0.0033
82444495|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.78||||0.4669|TWO_SIDED|95.0|-4.73|10.28|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 240 Treatment Comparison||10.28|-4.73|0.4669
82644147|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.809|||<|0.0001|TWO_SIDED|95.0|-2.082|-1.535|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.535|-2.082|<.0001
82644148|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.858|||<|0.0001|TWO_SIDED|95.0|-2.096|-1.621|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.621|-2.096|<.0001
82644149|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.427|||<|0.0001|TWO_SIDED|95.0|1.166|1.688|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.688|1.166|<.0001
82644150|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.393|||<|0.0001|TWO_SIDED|95.0|1.166|1.62|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.620|1.166|<.0001
82644151|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.541|||<|0.0001|TWO_SIDED|95.0|1.278|1.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.803|1.278|<.0001
82644152|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.469|||<|0.0001|TWO_SIDED|95.0|1.243|1.695|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.695|1.243|<.0001
82644153|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.059||||0.9987|TWO_SIDED|95.0|-0.233|0.351|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.351|-0.233|0.9987
82647841|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8||||0.005|TWO_SIDED|95.0|1.4|5.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||5.6|1.4|0.005
82367412|NCT04442490|164445694|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.76||0.2344|TWO_SIDED|95.0|-2.4|0.6|||MMRM||Model used was the MMRM with treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from baseline at Day 42||0.6|-2.4|0.2344
82367413|NCT04442490|164445695|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0599|TWO_SIDED|95.0|0.99|1.98|||Generalized Estimating Equation Model|||Day 15|Model used is a GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D response for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.98|0.99|0.0599
82444496|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.0||||0.0001|TWO_SIDED|95.0|10.51|31.48|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 300 Treatment Comparison||31.48|10.51|0.0001
82644154|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.253|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.254|-0.253|1.0000
82644155|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.043||||0.9999|TWO_SIDED|95.0|-0.246|0.332|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.332|-0.246|0.9999
82644156|NCT03692078|165003993|EQUIVALENCE|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.002||||1|TWO_SIDED|95.0|-0.251|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 4-ABP amount excreted (ng/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.254|-0.251|1.0000
82644157|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.407|||<|0.0001|TWO_SIDED|95.0|2.283|2.531|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||2.531|2.283|<.0001
82644158|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.398|||<|0.0001|TWO_SIDED|95.0|2.253|2.543|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||2.543|2.253|<.0001
82644159|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.303|||<|0.0001|TWO_SIDED|95.0|2.187|2.42|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.420|2.187|<.0001
82644160|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.25|||<|0.0001|TWO_SIDED|95.0|2.112|2.389|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.389|2.112|<.0001
82644161|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.285|||<|0.0001|TWO_SIDED|95.0|2.166|2.404|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.404|2.166|<.0001
82647842|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|7.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 7 (LOCF)||7.3|1.8|<0.001
82367414|NCT04442490|164445695|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0889|TWO_SIDED|95.0|0.95|1.94|||GEE Model|||Day 42|Model used is a GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure.Odds ratio was the estimate of the odds of having HAM-D response for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.94|0.95|0.0889
82644162|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.272|||<|0.0001|TWO_SIDED|95.0|2.133|2.412|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.412|2.133|<.0001
82644163|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.992|||<|0.0001|TWO_SIDED|95.0|1.844|2.14|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||2.140|1.844|<.0001
82644164|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.894|||<|0.0001|TWO_SIDED|95.0|1.719|2.069|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||2.069|1.719|<.0001
82644165|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.102|||<|0.0001|TWO_SIDED|95.0|1.955|2.248|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.248|1.955|<.0001
82367415|NCT04442490|164445696|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5495|TWO_SIDED|95.0|0.76|1.66|||GEE Model|||Day 15|Model used is GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline, assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D remission for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.66|0.76|0.5495
82367416|NCT04442490|164445696|SUPERIORITY||Odds Ratio (OR)|1.09||||0.679|TWO_SIDED|95.0|0.74|1.6|||GEE Model|||Day 42|Model used is GEE for binary response model, with factors for treatment, baseline HAM-D total score, antidepressant use at baseline, assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having HAM-D remission for participants treated with SAGE-217 relative to that for participants treated with placebo.|1.60|0.74|0.6790
82367417|NCT04442490|164445697|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0191|TWO_SIDED|95.0|1.07|2.16|||GEE Model|||Placebo, SAGE-217|Model used was a GEE for binary response model, with factors for treatment, CGI-S baseline score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction with Unstructured covariance structure. Odds ratio was the estimate of the odds of having CGI-I response for participants treated with SAGE-217 relative to that for participants treated with placebo.|2.16|1.07|0.0191
82367418|NCT04442490|164445698|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.05||0.0238|TWO_SIDED|95.0|-4.4|-0.3|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline MADRS total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure|Placebo, SAGE-217||-0.3|-4.4|0.0238
82367419|NCT04442490|164445699|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.0199|TWO_SIDED|95.0|-2.5|-0.2|||MMRM||Model used was MMRM with treatment (SAGE-217/placebo), baseline HAM-A total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Placebo, SAGE-217||-0.2|-2.5|0.0199
82367420|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.5||0.3216|TWO_SIDED|95.0|-0.5|1.5|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 8||1.5|-0.5|0.3216
82367421|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.53||0.1247|TWO_SIDED|95.0|-0.2|1.8|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 15||1.8|-0.2|0.1247
82367422|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.56||0.1111|TWO_SIDED|95.0|-0.2|2.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 28||2.0|-0.2|0.1111
82444497|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.13||||3.13|TWO_SIDED|95.0|-4.15|10.41|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 300 Treatment Comparison||10.41|-4.15|3.13
82528597|NCT02100722|164753131|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.9|2.5|||||Hazard ratio for overall number of participants experiencing MI.|||2.5|0.9|
82394817|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0095|TWO_SIDED|95.0|1.035|1.277|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.277|1.035|0.0095
82394818|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0031|TWO_SIDED|95.0|0.045|0.533|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.533|0.045|0.0031
82394819|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.0645|TWO_SIDED|95.0|0.125|1.063|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|0.125|0.0645
82394820|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.895||||0.0001|TWO_SIDED|95.0|0.846|0.948|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.948|0.846|0.0001
82394821|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.266||||0.0182|TWO_SIDED|95.0|1.041|1.541|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.541|1.041|0.0182
82367423|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.59||0.1449|TWO_SIDED|95.0|-0.3|2.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Physical Functioning Domain Score: Change from Baseline at Day 42||2.0|-0.3|0.1449
82367424|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.8242|TWO_SIDED|95.0|-1.3|1.0|||MMRM||Model used is MMRM with treatment(SAGE-217/placebo), baseline SF-36v2 domain/component score, antidepressant use at baseline(Yes/No)assessment time point and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Role-Physical Domain Score: Change from Baseline at Day 8||1.0|-1.3|0.8242
82367425|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.62||0.8329|TWO_SIDED|95.0|-1.4|1.1|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 15||1.1|-1.4|0.8329
82367426|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.8127|TWO_SIDED|95.0|-1.4|1.1|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 28||1.1|-1.4|0.8127
82394822|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.0092|TWO_SIDED|95.0|1.122|2.254|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.254|1.122|0.0092
82367427|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.64||0.5435|TWO_SIDED|95.0|-0.9|1.6|||MMRM|||Role-Physical Domain Score: Change from Baseline at Day 42||1.6|-0.9|0.5435
82367428|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.63||0.3551|TWO_SIDED|95.0|-0.7|1.8|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 8||1.8|-0.7|0.3551
82367429|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.68||0.7495|TWO_SIDED|95.0|-1.1|1.6|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 15||1.6|-1.1|0.7495
82394823|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.974||||0.002|TWO_SIDED|95.0|1.488|5.942|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.942|1.488|0.0020
82394824|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.142||||0.6524|TWO_SIDED|95.0|0.641|2.035|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\*\*9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.035|0.641|0.6524
82444498|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.38||||0.0001|TWO_SIDED|95.0|10.2|30.56|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 360 Treatment Comparison||30.56|10.20|0.0001
82528598|NCT02100722|164753132|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.4||||||||2.4|0.3|
82528599|NCT02100722|164753133|OTHER||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.9|2.3|||||Hazard ratio for overall number of participants experiencing repeat revascularization.|||2.3|0.9|
82528600|NCT02100722|164753134|OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
82647843|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2||||0.018|TWO_SIDED|95.0|1.1|4.1||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||4.1|1.1|0.018
82528601|NCT02100722|164753135|OTHER||||||<|0.04|||||||Fisher Exact|||||||<0.04
82528602|NCT02100722|164753136|OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82528603|NCT02100722|164753139|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82367430|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.6471|TWO_SIDED|95.0|-1.1|1.7|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 28||1.7|-1.1|0.6471
82367431|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.75||0.1832|TWO_SIDED|95.0|-0.5|2.5|||MMRM|||Bodily Pain Domain Score: Change from Baseline at Day 42||2.5|-0.5|0.1832
82367432|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.5||0.0168|TWO_SIDED|95.0|0.2|2.2|||MMRM|||General Health Domain Score: Change from Baseline at Day 8||2.2|0.2|0.0168
82367433|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.54||0.0787|TWO_SIDED|95.0|-0.1|2.0|||MMRM|||General Health Domain Score: Change from Baseline at Day 15||2.0|-0.1|0.0787
82367434|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.59||0.4273|TWO_SIDED|95.0|-0.7|1.6|||MMRM|||General Health Domain Score: Change from Baseline at Day 28||1.6|-0.7|0.4273
82367435|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.0938|TWO_SIDED|95.0|-0.2|2.2|||MMRM|||General Health Domain Score: Change from Baseline at Day 42||2.2|-0.2|0.0938
82367436|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.88||0.0033|TWO_SIDED|95.0|0.9|4.3|||MMRM|||Vitality Domain Score: Change from Baseline at Day 8||4.3|0.9|0.0033
82528604|NCT03573908|164753207|SUPERIORITY||Least squares (LS) mean difference|-0.715|||<|0.0001|TWO_SIDED|95.0|-0.998|-0.433|||MMRM||Least squares (LS) mean difference (linaclotide - placebo)|The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.433|-0.998|< 0.0001
82528605|NCT03573908|164753208|SUPERIORITY||Hodges-Lehman Estimated Median Threshold|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.88|-0.35|||Wilcoxon Rank Sum Test|P-value comparing change from baseline distributions by treatment using the Wilcoxon rank sum test 2-sided.|95% confidence interval (CI) for Hodges-Lehmann estimated median threshold was generated by Moses confidence limits method.|The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.35|-0.88|< 0.0001
82528606|NCT03573908|164753209|SUPERIORITY||Difference in Responder Rate|17.1|||||TWO_SIDED|95.0|9.9|24.4|||||95% confidence intervals for difference in responder rate are obtained using the normal approximation to the binomial distribution.|||24.4|9.9|
82528607|NCT03573908|164753209|SUPERIORITY||Odds Ratio (OR)|2.2|||<|0.0001|TWO_SIDED|95.0|1.55|3.12||Odds ratio, 95% CI for the Odds Ratio and p-value vs. placebo are obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for geographic region.|Cochran-Mantel-Haenszel|||The overall family-wise Type I error rate for the primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||3.12|1.55|< 0.0001
82575444|NCT00790205|164860585|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.98|||<|0.001|TWO_SIDED|95.0|0.88|1.09|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.09|0.88|<0.001
82644166|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.075|||<|0.0001|TWO_SIDED|95.0|1.9|2.25|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||2.250|1.900|<.0001
82647844|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|2.2|7.6||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||7.6|2.2|<0.001
82367437|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.03||0.0029|TWO_SIDED|95.0|1.1|5.1|||MMRM|||Vitality Domain Score: Change from Baseline at Day 15||5.1|1.1|0.0029
82367438|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.04||0.0791|TWO_SIDED|95.0|-0.2|3.9|||MMRM|||Vitality Domain Score: Change from Baseline at Day 28||3.9|-0.2|0.0791
82367439|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.12||0.0761|TWO_SIDED|95.0|-0.2|4.2|||MMRM|||Vitality Domain Score: Change from Baseline at Day 42||4.2|-0.2|0.0761
82367440|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.91||0.1568|TWO_SIDED|95.0|-0.5|3.1|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 8||3.1|-0.5|0.1568
82575445|NCT00790205|164860586|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.98|||<|0.001|TWO_SIDED|95.0|0.89|1.08|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.08|0.89|<0.001
82394825|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.108|||<|0.0001|TWO_SIDED|95.0|0.037|0.311|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.311|0.037|<0.0001
82394826|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.389||||0.0429|TWO_SIDED|95.0|0.156|0.97|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.156|0.0429
82394827|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.549|TWO_SIDED|95.0|0.523|3.38|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.380|0.523|0.5490
82367441|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.99||0.2807|TWO_SIDED|95.0|-0.9|3.0|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 15||3.0|-0.9|0.2807
82367442|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.7751|TWO_SIDED|95.0|-1.8|2.4|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 28||2.4|-1.8|0.7751
82367443|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.07||0.0913|TWO_SIDED|95.0|-0.3|3.9|||MMRM|||Social Functioning Domain Score: Change from Baseline at Day 42||3.9|-0.3|0.0913
82367444|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.05||0.2863|TWO_SIDED|95.0|-0.9|3.2|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 8||3.2|-0.9|0.2863
82394828|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.0008|TWO_SIDED|95.0|1.054|1.224|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.224|1.054|0.0008
82394829|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.855||||0.014|TWO_SIDED|95.0|1.133|3.037|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.037|1.133|0.0140
82647845|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|2.2|7.6|||Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 14 (LOCF)||7.6|2.2|<0.001
82394830|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.126||||0.0575|TWO_SIDED|95.0|0.015|1.068|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.068|0.015|0.0575
82394831|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.7128|TWO_SIDED|95.0|0.072|6.025|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.025|0.072|0.7128
82394832|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.505||||0.596|TWO_SIDED|95.0|0.04|6.318|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.318|0.040|0.5960
82394833|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.051||||0.0033|TWO_SIDED|95.0|1.27|3.311|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.311|1.270|0.0033
82394834|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.113||||0.0452|TWO_SIDED|95.0|1.002|1.236|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.236|1.002|0.0452
82367445|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.13||0.1801|TWO_SIDED|95.0|-0.7|3.7|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 15||3.7|-0.7|0.1801
82367446|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.16||0.1107|TWO_SIDED|95.0|-0.4|4.1|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 28||4.1|-0.4|0.1107
82367447|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.23||0.3274|TWO_SIDED|95.0|-1.2|3.6|||MMRM|||Role-Emotional Domain Score: Change from Baseline at Day 42||3.6|-1.2|0.3274
82367448|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.93||0.0873|TWO_SIDED|95.0|-0.2|3.4|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 8||3.4|-0.2|0.0873
82367449|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|1.05||0.0871|TWO_SIDED|95.0|-0.3|3.9|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 15||3.9|-0.3|0.0871
82394835|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.154||||0.004|TWO_SIDED|95.0|0.043|0.551|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.551|0.043|0.0040
82367450|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.12||0.3095|TWO_SIDED|95.0|-1.1|3.3|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 28||3.3|-1.1|0.3095
82575446|NCT00790205|164860587|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.11|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.11|0.89|<0.001
82367451|NCT04442490|164445701|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.17||0.1477|TWO_SIDED|95.0|-0.6|4.0|||MMRM|||Mental Health Domain Score: Change from Baseline at Day 42||4.0|-0.6|0.1477
82367452|NCT04442490|164445702|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.57||0.0828|TWO_SIDED|95.0|-2.1|0.1|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 8||0.1|-2.1|0.0828
82367453|NCT04442490|164445702|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62||0.0606|TWO_SIDED|95.0|-2.4|0.1|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 15||0.1|-2.4|0.0606
82367454|NCT04442490|164445702|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.63||0.1079|TWO_SIDED|95.0|-2.3|0.2|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 28||0.2|-2.3|0.1079
82367455|NCT04442490|164445702|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.66||0.3951|TWO_SIDED|95.0|-1.9|0.7|||MMRM||Model used was the MMRM with treatment (SAGE-217/placebo), baseline PHQ-9 total score, antidepressant use at baseline (Yes or No), assessment time point, and time point-by-treatment interaction as fixed effects with Unstructured covariance structure.|Change from Baseline at Day 42||0.7|-1.9|0.3951
82367456|NCT02618408|164445718|SUPERIORITY||Median Difference (Net)|-7.08||||0.0916|TWO_SIDED|95.0|-15.38|1.22|||Wilcoxon (Mann-Whitney)|||||1.22|-15.38|0.0916
82367457|NCT02618408|164445718|SUPERIORITY||Median Difference (Net)|-1.76||||0.7136|TWO_SIDED|95.0|-11.78|8.27|||Wilcoxon (Mann-Whitney)|||Based on the results of a prespecified interim analysis, the enrollment of the low dose SPN-810 arm was halted, and this treatment arm was dropped. Accordingly, all analysis of primary and secondary endpoints focused on the comparison of SPN-810 high dose and placebo||8.27|-11.78|0.7136
82367458|NCT02618408|164445719|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.108||0.0238|TWO_SIDED|95.0|-0.46|-0.03|||Mixed Models Analysis|||||-0.03|-0.46|0.0238
82394836|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.393||||0.0833|TWO_SIDED|95.0|0.137|1.131|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a||1.131|0.137|0.0833
82394837|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.141||||0.1439|TWO_SIDED|95.0|0.01|1.951|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.951|0.010|0.1439
82394838|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35||||0.4457|TWO_SIDED|95.0|0.024|5.194|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.194|0.024|0.4457
82448937|NCT01122849|164605166|SUPERIORITY_OR_OTHER||LS Mean Difference|7.79||||0.1764|TWO_SIDED|95.0|-3.62|19.19||Between treatment p-values and confidence intervals|ANCOVA|||||19.19|-3.62|0.1764
82367459|NCT02618408|164445719|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.123||0.0683|TWO_SIDED|95.0|-0.47|0.02|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.02|-0.47|0.0683
82367460|NCT02618408|164445719|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.136||0.0742|TWO_SIDED|95.0|-0.51|0.02|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.02|-0.51|0.0742
82367461|NCT02618408|164445720|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.105||0.3713|TWO_SIDED|95.0|-0.3|0.11|||Mixed Models Analysis|||||0.11|-0.30|0.3713
82367462|NCT02618408|164445720|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.131||0.1367|TWO_SIDED|95.0|-0.45|0.06|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.06|-0.45|0.1367
82367463|NCT02618408|164445720|SUPERIORITY||Median Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.146||0.1729|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.09|-0.49|0.1729
82367464|NCT02618408|164445721|SUPERIORITY||Mean Difference (Net)|2.15|STANDARD_ERROR_OF_MEAN|1.456||0.1407|TWO_SIDED|95.0|-0.72|5.02|||ANCOVA|||This analysis pertains to the physical functioning summary score at Visit 6.||5.02|-0.72|0.1407
82367465|NCT02618408|164445721|SUPERIORITY||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.898||0.5586|TWO_SIDED|95.0|-2.29|1.24|||ANCOVA|||This analysis pertains to the psychosocial health summary score at Visit 6||1.24|-2.29|0.5586
82367466|NCT02618408|164445722|SUPERIORITY||Median Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|2.07||0.7637|TWO_SIDED|95.0|-4.7|3.45|||ANCOVA|||This analysis pertains to the Total Stress summary score Visit 6.||3.45|-4.70|0.7637
82647846|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.042|TWO_SIDED|95.0|1.0|3.4||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||3.4|1.0|0.042
82367467|NCT02618408|164445722|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.895||0.8365|TWO_SIDED|95.0|-1.95|1.58|||ANCOVA|||This analysis pertains to the Parental Distress Domain score at Visit 6.||1.58|-1.95|0.8365
82367468|NCT02618408|164445722|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_ERROR_OF_MEAN|0.829||0.4606|TWO_SIDED|95.0|-2.24|1.02|||ANCOVA|||This analysis pertains to the Parent-Child Dysfunctional Interaction score at Visit 6.||1.02|-2.24|0.4606
82367469|NCT02618408|164445722|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.837||0.8222|TWO_SIDED|95.0|-1.84|1.46|||ANCOVA|||This analysis pertains to the Difficult Child Domain score Visit 6.||1.46|-1.84|0.8222
82367470|NCT02618408|164445723|SUPERIORITY|This analysis pertains to Visit 4|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.121||0.1031|TWO_SIDED|95.0|-0.43|0.04|||Mixed Models Analysis|||||0.04|-0.43|0.1031
82367471|NCT02618408|164445723|SUPERIORITY|This analysis pertains to Visit 5|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.132||0.025|TWO_SIDED|95.0|-0.56|-0.04|||Mixed Models Analysis|||||-0.04|-0.56|0.0250
82367472|NCT02618408|164445723|SUPERIORITY|This analysis pertains to Visit 6|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.158||0.0384|TWO_SIDED|95.0|-0.64|-0.02|||Mixed Models Analysis|||||-0.02|-0.64|0.0384
82367473|NCT02618408|164445724|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.084||0.1935|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||This analysis pertains to the inattention subscale at Visit 6.||0.06|-0.27|0.1935
82367474|NCT02618408|164445724|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.092||0.1445|TWO_SIDED|95.0|-0.32|0.05|||ANCOVA|||This analysis pertains to hyperactivity/Impulsivity subscale at Visit 6||0.05|-0.32|0.1445
82367475|NCT02618408|164445724|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.1064|TWO_SIDED|95.0|-0.36|0.03|||ANCOVA|||This analysis pertains to the oppositional defiant disorder subscale at Visit 6||0.03|-0.36|0.1064
82394839|NCT01066793|164500323|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.142||||0.6258|TWO_SIDED|95.0|0.1|45.801|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs No RVR/EVR). The logistic regression analysis for relapse was performed for association between treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||45.801|0.100|0.6258
82394840|NCT03246061|164500343|SUPERIORITY||||||<|0.001||||||Interim Analysis p-value for significance of \<0.025 for an overall alpha of 0.05|ANCOVA|||Estimates and p-value from an ANCOVA with a factor of treatment group and a covariate of baseline ODI score. Values have been adjusted for multiple imputation. Note: 3 month visit is computed as post-treatment for the RF Ablation Arm, and post-randomization for the Control Arm.||||<0.001
82394841|NCT03246061|164500344|SUPERIORITY||||||<|0.001||||||Estimates and p-value from ANCOVA with a factor of treatment group and a covariate of baseline VAS score.|ANCOVA|||||||<0.001
82394842|NCT02667587|164500374|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||||1.25|0.90|
82394843|NCT02667587|164500375|SUPERIORITY||Cox Proportional Hazard|1.12||||0.3402|TWO_SIDED|96.39|0.87|1.43|||Log Rank|||All Randomized No Baseline Corticosteroids Participants||1.43|0.87|0.3402
82394844|NCT02667587|164500375|SUPERIORITY||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|0.91|1.33||||||All Randomized Participants||1.33|0.91|
82367476|NCT02618408|164445724|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.082||0.1418|TWO_SIDED|95.0|-0.28|0.04|||ANCOVA|||This analysis pertains to the combined scale score at Visit 6||0.04|-0.28|0.1418
82367477|NCT00063635|164445725|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Since two primary comparisons are planned, a P-value of 0.025 will be considered significant, applying a Bonferroni correction for multiple comparisons.|Mantel Haenszel|||||||0.26
82367478|NCT00063635|164445725|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||Since two primary comparisons are planned, a P-value of 0.025 will be considered significant, applying a Bonferroni correction for multiple comparisons.|Mantel Haenszel|||||||0.83
82367479|NCT00063635|164445726|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||ANCOVA|||||||0.32
82367480|NCT00063635|164445726|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|||||||0.29
82367481|NCT00063635|164445727|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||||||0.02
82367482|NCT00063635|164445727|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||0.25
82367483|NCT00063635|164445728|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Chi-squared|||||||0.71
82367484|NCT00063635|164445728|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Chi-squared|||||||0.72
82367485|NCT00063635|164445729|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Chi-squared|||||||0.18
82367486|NCT00063635|164445729|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Chi-squared|||||||0.25
82367487|NCT00063635|164445730|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Chi-squared|||||||0.89
82367488|NCT00063635|164445730|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Chi-squared|||||||0.73
82367489|NCT00063635|164445731|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
82367490|NCT00063635|164445731|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
82367491|NCT00063635|164445732|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||ANCOVA|||||||0.77
82367492|NCT00063635|164445732|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||0.25
82367493|NCT00063635|164445733|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82367494|NCT00063635|164445733|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANCOVA|||||||0.44
82367495|NCT00063635|164445734|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANCOVA|||||||0.08
82367496|NCT00063635|164445734|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANCOVA|||||||0.63
82367497|NCT00063635|164445735|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANCOVA|||||||0.15
82367498|NCT00063635|164445735|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||||||0.96
82367499|NCT00894738|164445743|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||The p-value listed is for DEXA total percent fat and is not adjusted for multiple comparisons. The alpha level was set to 5%.|ANCOVA|||The null hypothesis is that mean DEXA total percent fat is similar between the two groups of interest. The primary statistical model consisted of treatment group as a 2-level factor (AP-Treated Vs Non-AP Treated) and DEXA total percent fat as a covariate. Carotid intima-media thickness (CIMT) was the dependent variable.||||0.49
82647847|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2|||<|0.001|TWO_SIDED|95.0|1.7|5.8||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||5.8|1.7|<0.001
82367500|NCT00894738|164445744|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The p-value listed is for DEXA total percent fat and is not adjusted for multiple comparisons. The alpha level was set to 5%.|ANCOVA|||The statistical analysis consisted of treatment group as a 2-level factor variable and DEXA total percent fat as a covariate. An interaction term between treatment group and DEXA total percent fat was also generated. Hepatic triglyceride content was the dependent variable. DEXA total percent fat was found to be significant while treatment group and the interaction between treatment group and DEXA total percent fat were not significant.||||<0.0001
82367501|NCT01524679|164445762|SUPERIORITY|The Fisher Test with asymptotic test statistic provided by the analysis software was used.|||||<|0.0001||||||This was the only a priori defined primary endpoint. There was no adjustment for multiple comparisons.|Fisher Exact|There was no adjustment for other variables intended for the primary analysis. Confounding variables were analysed in subsequent analyses.||Nullhypothesis was the equality of response rates of the treatment group and the control group. Treatments were compared by a two-sided Fisher test on a level of significance of 0.05. The study was appropriately powered (80%) for this analysis.||||<0.0001
82367502|NCT01524679|164445763|SUPERIORITY||Mean Difference (Final Values)|0.7525||||0.0957|TWO_SIDED|95.0|0.5382|1.0521|||ANCOVA|||||1.0521|0.5382|0.0957
82367503|NCT01524679|164445764|SUPERIORITY||Mean Difference (Final Values)|0.4621||||0.0005|TWO_SIDED|95.0|0.4621|0.7106|||ANCOVA|||||0.7106|0.4621|0.0005
82367504|NCT03801265|164445765|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||.770
82367505|NCT03801265|164445766|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||.826
82444499|NCT00162266|164597629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.06||||0.2989|TWO_SIDED|95.0|-3.61|11.72|||ANOVA|ANOVA model: AUC = treatment|Estimate= Model AUC for abatacept+methotrexate - Model AUC for placebo+methotrexate|Day 360 Treatment Comparison||11.72|-3.61|0.2989
82367506|NCT03801265|164445767|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||.859
82367507|NCT03801265|164445768|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.904|||||||Wilcoxon (Mann-Whitney)|||||||.904
82367508|NCT03801265|164445769|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||.122
82367509|NCT03801265|164445770|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.379|||||||Wilcoxon (Mann-Whitney)|||||||.379
82367510|NCT03801265|164445771|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.881|||||||Wilcoxon (Mann-Whitney)|||||||.881
82394845|NCT02667587|164500379|SUPERIORITY||Cox Proportional Hazard|1.18|||||TWO_SIDED|95.0|0.99|1.4||||||||1.40|0.99|
82394846|NCT02667587|164500380|SUPERIORITY||Cox Proportional Hazard|1.06|||||TWO_SIDED|95.0|0.89|1.26|||Log Rank|||||1.26|0.89|
82394847|NCT02696434|164500381|SUPERIORITY||Odds Ratio (OR)|0.68||||0.407|TWO_SIDED|95.0|0.28|1.68|||Regression, Logistic|||||1.68|0.28|0.407
82394848|NCT00766467|164500406|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3
82367511|NCT03801265|164445772|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.818|||||||Wilcoxon (Mann-Whitney)|||||||.818
82394849|NCT00956631|164500546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|||<|0.0001|TWO_SIDED|95.0|2.29|4.13|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used throughout. A hypothetical average improvement of zero was used.||4.13|2.29|<0.0001
82644167|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.89|||<|0.0001|TWO_SIDED|95.0|1.746|2.033|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||2.033|1.746|<.0001
82644168|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.944|||<|0.0001|TWO_SIDED|95.0|1.775|2.114|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||2.114|1.775|<.0001
82367512|NCT03801265|164445773|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.678|||||||Wilcoxon (Mann-Whitney)|||||||.678
82367513|NCT03801265|164445774|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||.002
82367514|NCT03801265|164445775|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.007|||||||Chi-squared|||||||.007
82367515|NCT03801265|164445776|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.271|||||||Wilcoxon (Mann-Whitney)|||||||.271
82367516|NCT03801265|164445777|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||.810
82367517|NCT03801265|164445778|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||.676
82367518|NCT03801265|164445779|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.908|||||||Wilcoxon (Mann-Whitney)|||||||.908
82367519|NCT03801265|164445780|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||.270
82367520|NCT03801265|164445781|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||.015
82367521|NCT03801265|164445782|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||.203
82367522|NCT03801265|164445783|NON_INFERIORITY|The margin of non-inferiority is 0.5. The true difference between the means is assumed to be -0.2. The significance level (alpha) of the test is 0.05. The data are drawn from populations with standard deviations of 0.7 and 0.3 (PASS 15 Power Analysis and Sample Size Software (2017). NCSS, LLC. Kaysville, Utah, USA, ncss.com/software/pass).||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||.672
82367523|NCT00140426|164445789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.55|TWO_SIDED|95.0|0.41|1.74|||Regression, Cox|Time to reaching ease of eating level 3 assessed using Cox regression as some patients did not reach it during the study.|The hazard ratio is for the placebo group versus the treatment group. A hazard ratio \<1 implies that the placebo group had a lower risk of achieving EOE level 3, although not statistically significant. Achieving EOE level 3 was the desired endpoint.|||1.74|0.41|0.55
82367524|NCT00140426|164445793|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.38|STANDARD_DEVIATION|3.74||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
82367525|NCT00140426|164445793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.45|STANDARD_DEVIATION|20.88|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82367526|NCT00140426|164445795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.26||0.47|TWO_SIDED|95.0|-0.71|0.33|||t-test, 2 sided||The mean difference was for placebo - risperidone.|Null hypothesis: no difference in change from baseline to end of treatment for CAPT total score||0.33|-0.71|0.47
82367527|NCT00140426|164445796|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
82367528|NCT00140426|164445797|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
82367529|NCT00140426|164445798|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
82367530|NCT00140426|164445799|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
82367531|NCT02337959|164445854|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.028
82367532|NCT02337959|164445855|SUPERIORITY_OR_OTHER|||||||0||||||level of significance (alpha) = 0.05|t-test, 1 sided|||Both the predicate and investigational images were randomized for the monitors. Predicate images could display on the left or the right and vice versa with the investigational. There were formulas in the spreadsheet that gave the preferences a numerical value, and subsequently became part of the analysis.||||0.000
82367533|NCT05070546|164445862|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of 0.67 for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 1\[Group1\] and 2 \[Group 3\])|Geometric Mean Ratio|1.41|||||TWO_SIDED|95.0|1.25|1.6|||Geometric Mean Ratio|||||1.60|1.25|
82367534|NCT05070546|164445862|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohort 2 (Group 3 in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of 0.67 for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 2 \[Group 3\])|Geometric mean ratio|1.54|||||TWO_SIDED|95.0|1.34|1.78|||Geometric Mean Ratio|||||1.78|1.34|
82367535|NCT05070546|164445863|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of -10% for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 1\[Group1\] and 2 \[Group 3\]).|Difference in Seroresponse rate|5.4|||||TWO_SIDED|95.0|0.3|10.9|||Difference in Seroresponse rate|||||10.9|0.3|
82367536|NCT05070546|164445863|NON_INFERIORITY|Non-inferiority of Cohort 3 (Group 5) versus Cohorts 1 (Group 1) and 2 (Group 3) in terms of RSV A2 Strain neutralizing antibody titers against 14 days after vaccination, using a non-inferiority margin of -10% for the GMT ratio (Cohort 3 \[Group 5\]/Cohort 2 \[Group 3\]).|Difference in Seroresponse rate|4.4|||||TWO_SIDED|95.0|-1.6|10.5|||Difference in Seroresponse rate|||||10.5|-1.6|
82367537|NCT00985712|164445906|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6692|TWO_SIDED|95.0|-0.17|0.26|||Mixed Models Analysis|The model details are given in the section of Measure Description.||Superiority criterion is met if the upper limit of Confidence Interval (CI) is below zero.||0.26|-0.17|0.6692
82367538|NCT00985712|164445907|SUPERIORITY_OR_OTHER|||||||0.3551||95.0||||P-value is for HbA1c ≤7.0%.|Chi-squared|||||||0.3551
82367539|NCT00985712|164445907|SUPERIORITY_OR_OTHER|||||||0.2026||95.0||||P-value is for HbA1c ≤7.5%.|Chi-squared|||||||0.2026
82367540|NCT00985712|164445908|SUPERIORITY_OR_OTHER|||||||0.907||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) was adjusted for baseline values.||||||0.9070
82394850|NCT00956631|164500547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.58|||<|0.0001|TWO_SIDED|95.0|12.33|22.83|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used. A hypothetical average improvement of zero was used.||22.83|12.33|<0.0001
82647848|NCT01244815|165011159|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9|||<|0.001||95.0|1.6|5.3||95% Confidence Interval and p-value are based on Wald statistic|Regression, Logistic|Model included terms of treatment and baseline Y-MRS total score|OR was adjusted for baseline. An OR of \>1 is considered to mean that asenapine has a higher probability of achieving Total Y-MRS 50% response.|Analysis is for asenapine versus placebo on Day 21 (LOCF)||5.3|1.6|<0.001
82367541|NCT00985712|164445909|SUPERIORITY_OR_OTHER|||||||0.9817||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9817
82367542|NCT00985712|164445910|SUPERIORITY_OR_OTHER|||||||0.1187||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1187
82367543|NCT00251641|164445966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|Pearson's chi-square test||The treatment comparison for this endpoint was carried at the 4.9% level of significance.||||<0.001
82367544|NCT00251641|164445967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
82367545|NCT00251641|164445968|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using the Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
82367546|NCT00251641|164445969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Multiplicity adjustment was provided using the Hochberg test.|Chi-squared|Pearson's chi-square test||||||<0.001
82367547|NCT00876018|164445970|OTHER|||||||0.004||95.0|||||Mann Whitney U test|||||||0.004
82367548|NCT00876018|164445970|OTHER|||||||0.147||95.0|||||Mann Whitney U test|||||||0.147
82367549|NCT00876018|164445971|OTHER|||||||0.002||95.0|||||Mann Whitney U test|||||||0.002
82367550|NCT00876018|164445971|OTHER|||||||0.003||95.0|||||Mann Whitney U test|||||||0.003
82367551|NCT00876018|164445972|OTHER|||||||0.153||95.0|||||Mann Whitney U test|||||||0.153
82367552|NCT00876018|164445972|OTHER|||||||0.903||95.0|||||Mann Whitney U test|||||||0.903
82367553|NCT00876018|164445973|OTHER|||||||0.143||95.0|||||Mann Whitney U test|||||||0.143
82367554|NCT00876018|164445973|OTHER|||||||0.678||95.0|||||Mann Whitney U test|||||||0.678
82367555|NCT00888459|164445987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432||95.0|||||Chi-squared|||||||.432
82367556|NCT01189500|164445998|SUPERIORITY_OR_OTHER||ratio of adjusted means|100.69|||||TWO_SIDED|90.0|96.7|104.85|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||104.85|96.70|
82367557|NCT01189500|164446000|SUPERIORITY_OR_OTHER||ratio of adjusted means|99.44|||||TWO_SIDED|90.0|94.02|105.17|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||105.17|94.02|
82367558|NCT01189500|164446005|SUPERIORITY_OR_OTHER||ratio of adjusted means|92.04|||||TWO_SIDED|90.0|84.71|100.0|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||100.00|84.71|
82367559|NCT01189500|164446011|SUPERIORITY_OR_OTHER||ratio of adjusted means|112.07|||||TWO_SIDED|90.0|107.44|116.9|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||116.90|107.44|
82528608|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.867|||<|0.0001|TWO_SIDED|95.0|-1.219|-0.515||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 12. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.515|-1.219|< 0.0001
82644169|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.104||||0.8674|TWO_SIDED|95.0|-0.345|0.137|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.137|-0.345|0.8674
82367560|NCT01189500|164446016|SUPERIORITY_OR_OTHER||ratio of adjusted means|105.6|||||TWO_SIDED|90.0|99.74|111.81|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||111.81|99.74|
82367561|NCT01189500|164446017|SUPERIORITY_OR_OTHER||ratio of adjusted means|108.47|||||TWO_SIDED|90.0|103.51|113.67|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Tamoxifen 40 mg (test) versus Tamoxifen 40 mg (reference)||113.67|103.51|
82367562|NCT01000493|164446026|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.62||||0.3624|TWO_SIDED|95.0|-17.9|6.65||The mixed effects model repeated measures (MMRM) analysis included treatment, week, Baseline total CAPS score and the treatment by week and Baseline. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between Placebo and Orvepitant 60 mg at Week 12.|||6.65|-17.9|0.3624
82367563|NCT01000493|164446027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.3156|TWO_SIDED|95.0|0.54|6.76|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||6.76|0.54|0.3156
82367564|NCT01000493|164446027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.3024|TWO_SIDED|95.0|0.27|1.5|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||1.50|0.27|0.3024
82394851|NCT01546038|164500551|OTHER||Hazard Ratio (HR)|0.569||||0.002|TWO_SIDED|80.0|0.441|0.734||1-sided p-value from the log-rank test stratified by prognosis stratum according to Interactive Voice Response System (IVRS).|Log Rank||Based on the Cox proportional hazards model stratified by prognosis stratum according to IVRS.|||0.734|0.441|0.0020
82394852|NCT01546038|164500555|OTHER||Odds Ratio (OR)|4.2755||||0.0112|TWO_SIDED|80.0|1.3057|13.9994|||Cochran-Mantel-Haenszel||Based on the Cox proportional hazards model stratified by prognosis stratum according to IVRS.|||13.9994|1.3057|0.0112
82394853|NCT04245202|164500619|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82394854|NCT04245202|164500620|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82394855|NCT04245202|164500621|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82394856|NCT04245202|164500622|OTHER||Mean Difference (Net)|-12.29|STANDARD_DEVIATION|5.72|<|0.001|TWO_SIDED|95.0|-23.53|-1.05||The p-Value of the interaction between time and groups was given. In all analyses, p values \<0·05 were considered being statistically significant.|Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||-1.05|-23.53|<0.001
82394857|NCT04245202|164500623|OTHER||Mean Difference (Net)|-12.66|STANDARD_DEVIATION|4.77|<|0.001|TWO_SIDED|95.0|-22.05|-3.28|||Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|The p-Value of the interaction between time and groups was given. In all analyses, p values \<0·05 were considered being statistically significant.||-3.28|-22.05|<0.001
82444500|NCT00162266|164597630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2132.63||||0.0001|TWO_SIDED|95.0|1067.32|3197.94||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 180||3197.94|1067.32|0.0001
82444501|NCT00162266|164597630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|353.47||||0.4393|TWO_SIDED|95.0|-544.46|1251.41||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 180||1251.41|-544.46|0.4393
82444502|NCT00162266|164597630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5641.6||||0.0001|TWO_SIDED|95.0|2823.46|8459.74||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 360||8459.74|2823.46|0.0001
82367565|NCT01000493|164446027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.1208|TWO_SIDED|95.0|0.79|7.28|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 8. Odds ratios represent the odds of improvement, relative to placebo.|||7.28|0.79|0.1208
82367566|NCT01000493|164446027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27||||0.1331|TWO_SIDED|95.0|0.7|15.4|||Logistic regression analysis|The analysis method was logistic regression adjusted for Baseline CAPS total score.|Comparison between Placebo and Orvepitant 60 mg at Week 1. Odds ratios represent the odds of improvement, relative to placebo.|||15.4|0.70|0.1331
82367567|NCT01000493|164446029|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.7015|TWO_SIDED|95.0|-5.35|3.61||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||3.61|-5.35|0.7015
82367568|NCT01000493|164446029|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.81||||0.4292|TWO_SIDED|95.0|-4.22|9.84||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||9.84|-4.22|0.4292
82367569|NCT01000493|164446029|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.64||||0.3702|TWO_SIDED|95.0|-14.9|5.62||The MMRM analysis model included treatment, week, Baseline total CAPS score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||5.62|-14.9|0.3702
82367570|NCT01000493|164446030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.5719|TWO_SIDED|95.0|0.04|5.82|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||5.82|0.04|0.5719
82367571|NCT01000493|164446030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.908||95.0|0.07|20.1|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||20.1|0.07|0.9080
82367572|NCT01000493|164446030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.9486|TWO_SIDED|95.0|0.07|12.5|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to place. Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||12.5|0.07|0.9486
82367573|NCT01000493|164446032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.5426|TWO_SIDED|95.0|-1.51|2.85||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||2.85|-1.51|0.5426
82367574|NCT01000493|164446032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.7552|TWO_SIDED|95.0|-2.73|3.75||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||3.75|-2.73|0.7552
82367575|NCT01000493|164446032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22||||0.3827|TWO_SIDED|95.0|-7.27|2.83||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||2.83|-7.27|0.3827
82367576|NCT01000493|164446032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.98||||0.4915|TWO_SIDED|95.0|-7.71|3.75||The MMRM analysis model included treatment, week, Baseline CAPS A/N subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.75|-7.71|0.4915
82394858|NCT04245202|164500624|OTHER||Mean Difference (Net)|-3.91|STANDARD_DEVIATION|2.43|<|0.001|TWO_SIDED|95.0|-8.68|0.86||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||0.86|-8.68|<0.001
82394859|NCT04245202|164500625|OTHER||Mean Difference (Net)|-2.41|STANDARD_DEVIATION|2.14||0.003|TWO_SIDED|95.0|-6.62|1.78|||Mixed Models Analysis||Treatment difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.||1.78|-6.62|0.003
82394860|NCT04245202|164500626|OTHER||Relative treatment effect difference|-0.07||||0.002|TWO_SIDED|||||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Brunner-Langer Method||Relative Treatment Effect Difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||||0.002
82394861|NCT04245202|164500627|OTHER||Relative treatment effect difference|-0.08||||0.001|TWO_SIDED|95.0||||The p-Value of the interaction between time and groups was given. In all analysis, p values \<0.05 were considered being statistically significant.|Brunner-Langer Method||Relative Treatment Effect Difference= High-Flow Nasal Cannula Oxygen Therapy (96-0 h) - Standard Face Mask Oxygen Therapy (96-0 h) (based on least-square means)|||||0.001
82394862|NCT04245202|164500629|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82394863|NCT04245202|164500630|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82394864|NCT04245202|164500631|OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
82394865|NCT04245202|164500632|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
82394866|NCT04245202|164500633|OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
82394867|NCT04245202|164500634|OTHER|||||||0.08|||||||Fisher Exact|||||||0.08
82444503|NCT00162266|164597630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1054.38||||0.3029|TWO_SIDED|95.0|-955.59|3064.35||ANOVA model: AUC = treatment|ANOVA||Estimate = Model AUC for Aripiprazole+MTX - Model AUC for PLACEBO+MTX|Comparison at Day 360||3064.35|-955.59|0.3029
82367577|NCT01000493|164446033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.919|TWO_SIDED|95.0|-1.93|1.74||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||1.74|-1.93|0.9190
82367578|NCT01000493|164446033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.3326|TWO_SIDED|95.0|-1.37|4.0||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||4.00|-1.37|0.3326
82367579|NCT01000493|164446033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.9712|TWO_SIDED|95.0|-3.91|3.77||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||3.77|-3.91|0.9712
82367580|NCT01000493|164446033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92||||0.6711|TWO_SIDED|95.0|-5.22|3.39||The MMRM analysis model included treatment, week, Baseline CAPS hyperarousal subscore and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.39|-5.22|0.6711
82367581|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.5532|TWO_SIDED|95.0|0.36|6.92||The analysis method was logistic regression adjusted for Baseline total Clinical Global Impression-Severity of Illness scales (CGI-S) score.|Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||6.92|0.36|0.5532
82367582|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.4508|TWO_SIDED|95.0|0.54|3.93|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||3.93|0.54|0.4508
82367583|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9234|TWO_SIDED|95.0|0.42|2.62|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||2.62|0.42|0.9234
82367584|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.0662|TWO_SIDED|95.0|0.94|6.53|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 1|||6.53|0.94|0.0662
82367585|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.2767|TWO_SIDED|95.0|0.61|5.48|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||5.48|0.61|0.2767
82367586|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.17||||0.0588|TWO_SIDED|95.0|0.96|10.5|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||10.5|0.96|0.0588
82367587|NCT01000493|164446034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33||||0.1032|TWO_SIDED|95.0|0.78|14.1|||Logistic regression analysis||Odds ratios represent the odds of improvement, relative to placebo. The analysis method was logistic regression adjusted for Baseline total CGI-S score. Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||14.1|0.78|0.1032
82394868|NCT03878875|164500662|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|116.044|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient = -2.153.||||||< 0.0005
82394869|NCT03878875|164500663|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|12.839|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient = 1.602.||||||< 0.0005
82394870|NCT03878875|164500664|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|8.391|||<|0.0005|TWO_SIDED||||||Regression, Linear|Group coefficient was 1.059.||||||< 0.0005
82394871|NCT03878875|164500665|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|6.416|||<|0.001|TWO_SIDED||||||Regression, Linear|Group coefficient was 0.635.||||||< 0.001
82394872|NCT03878875|164500666|SUPERIORITY|Multiple linear regressions analysed the effect of conditioning (group) on each outcome at the second time point - session 2 (after noise exposure), controlling for session 1 outcome (before noise exposure), event exposure, age, and gender. It was hypothesised those with high recent noise exposure, Group 1 (noise unit \> 0.323), would experience less temporary hearing damage than irregular attendees, Group 0.|F(5, 26)|5.805|||<|0.001|TWO_SIDED||||||Regression, Linear|Group coefficient was -0.383.||||||< 0.001
82444504|NCT00162266|164597634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.66||||0.0003|TWO_SIDED|95.0|12.67|42.66|||ANCOVA|ANCOVA: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 180||42.66|12.67|0.0003
82367588|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.1743|TWO_SIDED|95.0|-0.29|0.05||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1.|||0.05|-0.29|0.1743
82367589|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.1181|TWO_SIDED|95.0|-0.46|0.05||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||0.05|-0.46|0.1181
82367590|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.9698|TWO_SIDED|95.0|-0.35|0.34||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||0.34|-0.35|0.9698
82367591|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.1341|TWO_SIDED|95.0|-0.69|0.09||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 6.|||0.09|-0.69|0.1341
82367592|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.0064|TWO_SIDED|95.0|-1.04|-0.18||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||-0.18|-1.04|0.0064
82367593|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.1095|TWO_SIDED|95.0|-0.98|0.1||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||0.10|-0.98|0.1095
82367594|NCT01000493|164446035|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2814|TWO_SIDED|95.0|-0.9|0.27||The MMRM analysis model included treatment, week, baseline CGI-S score, and the treatment by week and baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||0.27|-0.90|0.2814
82367595|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.92||||0.0083|TWO_SIDED|95.0|-3.33|-0.5||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 1|||-0.50|-3.33|0.0083
82367596|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.94||||0.0311|TWO_SIDED|95.0|-3.71|-0.18||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 2.|||-0.18|-3.71|0.0311
82367597|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.1155|TWO_SIDED|95.0|-4.26|0.47||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 4.|||0.47|-4.26|0.1155
82367598|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.89||||0.021|TWO_SIDED|95.0|-5.33|-0.45||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 6.|||-0.45|-5.33|0.0210
82367599|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.86||||0.0582|TWO_SIDED|95.0|-5.83|0.1||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 8.|||0.10|-5.83|0.0582
82394873|NCT03878875|164500667|SUPERIORITY|A binary logistic regression was employed to assess the effect of conditioning on tinnitus change (i.e. increasing or not) at session 2, adjusting for tinnitus reported at session 1, age, gender, and event exposure.|Odds Ratio (OR)|1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.005|TWO_SIDED|95.0|1.071|1.85|||Regression, Logistic|||||1.85|1.071|< 0.005
82647849|NCT01244815|165011160|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25||||0.014|TWO_SIDED|95.0|-0.45|-0.05|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.05|-0.45|0.014
82367600|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.88||||0.0927|TWO_SIDED|95.0|-6.25|0.49||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 10.|||0.49|-6.25|0.0927
82394874|NCT01832818|164500670|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82394875|NCT01832818|164500671|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< 0.05
82394876|NCT00551161|164500676|SUPERIORITY_OR_OTHER||||||<|0.05||||||Due to the exploratory nature of these analyses, no adjustment for multiple testing was made. Although it would have been preferable to carry out an omnibus analysis, due to the small sample size, the descriptive approach described above was used.|Wilcoxon (Mann-Whitney)|||The Wilcoxon signed-rank test was used to examine whether the change between t0 and t1 differed from the change between t1 and t2 \[(t2 - t1) - (t1 - t0)\] for each of the metabolites and ratios, in order to examine whether the rate of change differed while on monotherapy as compared with combination therapy.||||<0.05
82444505|NCT00162266|164597634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.68||||0.3253|TWO_SIDED|95.0|||||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 180||||0.3253
82367601|NCT01000493|164446042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.8954|TWO_SIDED|95.0|-4.36|3.83||The MMRM analysis model included treatment, week, Baseline total HAM-D score, and the treatment by week and Baseline by week interaction terms. Week was used as the repeated effect in the model.|MMRM analysis||Comparison between placebo and orvepitant 60 mg once daily at Week 12.|||3.83|-4.36|0.8954
82376751|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|1.85|2.06||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.06|1.85|<.0001
82644170|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.148||||0.6519|TWO_SIDED|95.0|-0.429|0.133|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.133|-0.429|0.6519
82367602|NCT00899470|164446053|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 97% power to conclude BE with respect to Cmax of saxagliptin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.011|||||TWO_SIDED|90.0|0.94|1.088|||Mixed Models Analysis|Bioequivalence=90% confidence intervals (CIs) for the test|For Cmax of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: the geometric mean of the Reference formulation in fasted state|To demonstrate bioequivalence (BE) of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log(Cmax) of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.940|
82367603|NCT00899470|164446053|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 97% power to conclude BE with respect to Cmax of saxagliptin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of saxagliptin.|Geometric Mean Ratio, Test vs Reference|0.999|||||TWO_SIDED|90.0|0.929|1.075||||Bioequivalence=90% CIs for the test|For Cmax of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log(Cmax) of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.075|0.929|
82367604|NCT00899470|164446054|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.029|||||TWO_SIDED|90.0|0.993|1.066|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted and fed states, linear mixed model analysis was performed on log\[AUC(0-T)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.066|0.993|
82367605|NCT00899470|164446054|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Means Ratio|1.021|||||TWO_SIDED|90.0|0.986|1.058|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(0-T)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.058|0.986|
82367606|NCT00899470|164446055|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Mean Ratio, Test vs. Reference|1.027|||||TWO_SIDED|90.0|0.99|1.066|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(INF)\] of saxagliptin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.066|0.990|
82394877|NCT01672294|164500679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5376|||<|0.511|TWO_SIDED|95.0|-1.0776|2.1528||Between Outlook Intervention and Attention Control caregivers at 5 weeks|Mixed Models Analysis|||Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.1528|-1.0776|<0.511
82394878|NCT01672294|164500679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4275||||0.6348|TWO_SIDED|95.0|-1.3505|2.2055||Between Outlook Intervention and Attention Control caregivers at 8 weeks|Mixed Models Analysis|||Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.2055|-1.3505|0.6348
82394879|NCT01672294|164500680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6836||||0.5225|TWO_SIDED|95.0|-1.4278|2.795|||Mixed Models Analysis|||Comparison at 5 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.7950|-1.4278|0.5225
82644171|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.122||||0.7301|TWO_SIDED|95.0|-0.363|0.119|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.119|-0.363|0.7301
82644172|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.126||||0.8076|TWO_SIDED|95.0|-0.405|0.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.154|-0.405|0.8076
82644173|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.415||||0.0004|TWO_SIDED|95.0|-0.689|-0.142|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.142|-0.689|0.0004
82644174|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.504||||0.0002|TWO_SIDED|95.0|-0.822|-0.185|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.185|-0.822|0.0002
82644175|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.306||||0.0183|TWO_SIDED|95.0|-0.578|-0.034|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.034|-0.578|0.0183
82644176|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.323||||0.0443|TWO_SIDED|95.0|-0.641|-0.005|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.005|-0.641|0.0443
82644177|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.414||||0.0002|TWO_SIDED|95.0|0.155|0.672|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.672|0.155|0.0002
82644178|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.306||||0.0454|TWO_SIDED|95.0|0.004|0.608|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.608|0.004|0.0454
82394880|NCT01672294|164500680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2764||||0.1972|TWO_SIDED|95.0|-0.6728|3.2257|||Mixed Models Analysis|||Comparison at 8 weeks. Note-missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||3.2257|-0.6728|0.1972
82394881|NCT01672294|164500681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9358|||<|0.3332|TWO_SIDED|95.0|-0.9726|2.8443|||Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 5 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||2.8443|-0.9726|<0.3332
82444506|NCT00162266|164597634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.24||||0.0001|TWO_SIDED|95.0|16.14|48.33|||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 360||48.33|16.14|0.0001
82367607|NCT00899470|164446055|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of saxagliptin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed condition), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin. If 5% difference then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of saxagliptin.|Geometric Means Ratio Test vs. Reference|1.022|||||TWO_SIDED|95.0|0.985|1.06|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of saxagliptin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(INF)\] of saxagliptin and metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.060|0.985|
82367608|NCT00899470|164446057|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted and fed), then 20 subjects provided 98% power to conclude BE with respect to Cmax of metformin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of metformin, respectively.|Geometric Mean Ratio, Test vs. Reference|1.009|||||TWO_SIDED|90.0|0.939|1.084|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For Cmax of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log(Cmax) of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.084|0.939|
82367609|NCT00899470|164446057|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 98% power to conclude BE with respect to Cmax of metformin. If 5% difference then 20 subjects provided 93% power to conclude BE with respect to Cmax of metformin.|Geometric Mean Ratio, Test vs. Reference|1.034|||||TWO_SIDED|90.0|0.962|1.111|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For Cmax of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log(Cmax) of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.111|0.962|
82367610|NCT00899470|164446058|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.024|||||TWO_SIDED|90.0|0.964|1.088|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of metformin the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(0-T)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.964|
82367611|NCT00899470|164446058|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.042|||||TWO_SIDED|90.0|0.981|1.108|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(0-T) of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(0-T)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.108|0.981|
82367612|NCT00899470|164446059|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fasted ), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.029|||||TWO_SIDED|90.0|0.973|1.088|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of metformin, the point estimate and 90% CI were calculated for the ratio of the geometric mean of the Test formulation in fasted state: the geometric mean of the Reference formulation in fasted state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fasted state, linear mixed model analysis was performed on log\[AUC(INF)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.088|0.973|
82394882|NCT01672294|164500681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6929||||0.3842|TWO_SIDED|95.0|-0.8783|2.2642||Note-missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks|Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 8 weeks Note - Missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks||2.2642|-0.8783|0.3842
82394883|NCT01672294|164500682|SUPERIORITY_OR_OTHER||expected change in difference in logs|0.0593||||0.8748|TWO_SIDED|95.0|-0.6784|0.797|||Standard negative binomial with offset||The expected change in the difference of the logs of expected Days in VA inpatient care or ED.|||0.797|-0.6784|0.8748
82528609|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.719|||<|0.0001|TWO_SIDED|95.0|-1.062|-0.376||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 10. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.376|-1.062|< 0.0001
82528610|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.665||||0.0002|TWO_SIDED|95.0|-1.007|-0.322||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 8. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.322|-1.007|0.0002
82575447|NCT00790205|164860588|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hazard Ratio of Sitagliptin/Placebo: the between-treatment difference in time to the first primary composite CV outcome measure was assessed by the hazard ratio between the sitagliptin and placebo groups. The confidence interval for the hazard ratio was computed and compared to 1.30, the non-inferiority margin.|Hazard Ratio (HR)|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.1|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||1.10|0.89|<0.001
82367613|NCT00899470|164446059|NON_INFERIORITY_OR_EQUIVALENCE|If no difference between bioavailabilities of metformin from FDC tablet vs. co-administration of saxagliptin tablet and metformin (fed), then 20 subjects provided 99% power to conclude BE with respect to AUC(INF) of metformin. If 5% difference then 20 subjects provided 95% power to conclude BE with respect to AUC(INF) of metformin.|Geometric Mean Ratio, Test vs. Reference|1.042|||||TWO_SIDED|90.0|0.986|1.102|||Mixed Models Analysis|Bioequivalence=90% CIs for the test|For AUC(INF) of metformin, the point estimate and 90% confidence interval (CI) were calculated for the ratio of the geometric mean of the Test formulation in fed state: the geometric mean of the Reference formulation in fed state|To demonstrate BE of FDC tablets (Test) versus co-administration of saxagliptin and metformin IR tablets (Reference) formulations in fed state, linear mixed model analysis was performed on log\[AUC(INF)\] of metformin. Factors in the model were sequence, period and treatment as fixed effects, and participant within sequence as a random effect.||1.102|0.986|
82367614|NCT01144364|164446070|SUPERIORITY_OR_OTHER|||||||0.254|||||||Log Rank|||Difference between treatment arms||||0.254
82367615|NCT01144364|164446072|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.105|TWO_SIDED|95.0|0.31|1.12||Overall DFS|Cox proportional-hazards|Adjusted for randomization stratum and the known prognostic factors.||||1.12|0.31|0.105
82367616|NCT01144364|164446073|SUPERIORITY_OR_OTHER|||||||0.751|||||||Log Rank|||||||0.751
82367617|NCT01144364|164446074|SUPERIORITY_OR_OTHER|||||||0.751|||||||Log Rank|||||||0.751
82367618|NCT01144364|164446076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.079|TWO_SIDED|95.0|0.38|1.05|||Cox proportional-hazards|||Analysis of overall PFS with Cox proportional-hazards model adjusted for the randomization stratum and the known prognostic factors.||1.05|0.38|0.079
82647850|NCT01244815|165011160|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.17||||0.107|TWO_SIDED|95.0|-0.37|0.04|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.04|-0.37|0.107
82367619|NCT01144364|164446079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.103|TWO_SIDED|95.0|0.4|1.09||Univariate analysis|Regression, Cox|Cox model stratified for the stratification groups.||||1.09|0.40|0.103
82367620|NCT01144364|164446079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.071|TWO_SIDED|95.0|0.37|1.04||Multivariate analysis|Regression, Cox|Adjusted for stratification group, age, sex, Eastern Cooperative Oncology Group Performance Status, FL International prognostic index (FLIPI) score.||||1.04|0.37|0.071
82367621|NCT01144364|164446080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.084|TWO_SIDED|95.0|0.39|1.06||Univariate analysis|Fine and Gray model|Fine and Gray model stratified for the stratification groups.||||1.06|0.39|0.084
82367622|NCT01144364|164446080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.052|TWO_SIDED|95.0|0.38|1.0|||Fine and Gray model|Fine and Gray model adjusted for stratification group, age, sex, Eastern Cooperative Oncology Group Performance Status, and FLIPI score||||1.00|0.38|0.052
82367623|NCT03456960|164446089|EQUIVALENCE|The difference in the least square means (LSM) between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90 percent (%) confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0059|||||TWO_SIDED|90.0|-0.034|0.0458||||||||0.0458|-0.0340|
82367624|NCT03456960|164446090|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0508|||||TWO_SIDED|90.0|-0.0079|0.1096||||||||0.1096|-0.0079|
82394884|NCT01672294|164500683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01777||||0.7687|TWO_SIDED|95.0|-0.1372|0.1017||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 5 weeks|Mixed Models Analysis|||"Between Outlook Intervention caregivers and active control caregivers at 5 weeks.~Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks."||0.1017|-0.1372|0.7687
82448938|NCT01122849|164605166|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.9183|TWO_SIDED|95.0|-11.7|12.94||Between treatment p-values and confidence intervals|ANCOVA|||||12.94|-11.7|0.9183
82367625|NCT03456960|164446091|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0546|||||TWO_SIDED|90.0|-0.0941|0.2034||||||||0.2034|-0.0941|
82367626|NCT03456960|164446091|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model will include a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0912|||||TWO_SIDED|90.0|0.0399|0.1424||||||||0.1424|0.0399|
82367627|NCT03456960|164446092|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0916|||||TWO_SIDED|90.0|-0.133|0.3162||||||||0.3162|-0.1330|
82367628|NCT03456960|164446092|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.2293|||||TWO_SIDED|90.0|0.1519|0.3068||||||||0.3068|0.1519|
82367629|NCT03456960|164446093|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.01|||||TWO_SIDED|90.0|-0.0299|0.05||||||||0.0500|-0.0299|
82367630|NCT03456960|164446094|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.0281|||||TWO_SIDED|90.0|-0.1662|0.11||||||||0.1100|-0.1662|
82367631|NCT03456960|164446095|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.015|||||TWO_SIDED|90.0|-0.0448|0.0149||||||||0.0149|-0.0448|
82367632|NCT03456960|164446096|EQUIVALENCE|The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.0195|||||TWO_SIDED|90.0|-0.0676|0.0286||||||||0.0286|-0.0676|
82367633|NCT03456960|164446097|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0547|||||TWO_SIDED|90.0|-0.0937|0.2032||||||||0.2032|-0.0937|
82367634|NCT03456960|164446097|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0654|||||TWO_SIDED|90.0|0.0141|0.1167||||||||0.1167|0.0141|
82367635|NCT03456960|164446098|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.146|||||TWO_SIDED|90.0|-0.2478|-0.0443||||||||-0.0443|-0.2478|
82367636|NCT03456960|164446098|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1674|||||TWO_SIDED|90.0|-0.2084|-0.1264||||||||-0.1264|-0.2084|
82394885|NCT01672294|164500683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.00087||||0.9863|TWO_SIDED|95.0|-0.1003|0.09861||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 8 weeks|Mixed Models Analysis|||Between Outlook Intervention caregivers and active control caregivers at 8 weeks Note- missing the first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 weeks.||0.09861|-0.1003|0.9863
82394886|NCT01672294|164500684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01166||||0.9221|TWO_SIDED|95.0|-0.2475|0.2241|||Mixed Models Analysis|||At 5 weeks - Completion subscale||0.2241|-0.2475|0.9221
82394887|NCT01672294|164500684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1154||||0.3249|TWO_SIDED|95.0|-0.3466|0.1158||Between Caregiver Outlook - Caregiver and Relaxation Meditation - Caregiver at 8 weeks|Mixed Models Analysis|||Comparison at 8 week time point Note- Missing first follow up at 5 weeks did not prohibit an individual from participating at the second follow up at 8 week.||0.1158|-0.3466|0.3249
82367637|NCT03456960|164446099|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1193|||||TWO_SIDED|90.0|-0.2179|-0.0206||||||||-0.0206|-0.2179|
82528611|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.831|||<|0.0001|TWO_SIDED|95.0|-1.151|-0.511||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 6. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.511|-1.151|< 0.0001
82367638|NCT03456960|164446099|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.1366|||||TWO_SIDED|90.0|-0.173|-0.1002||||||||-0.1002|-0.1730|
82367639|NCT03456960|164446100|EQUIVALENCE|Pilot Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|0.0148|||||TWO_SIDED|90.0|-0.0734|0.103||||||||0.1030|-0.0734|
82367640|NCT03456960|164446100|EQUIVALENCE|Pivotal Study 1: The difference in the LSM between study medications (TAK-438ASA tablet - concomitant administration of TAK-438 tablet and aspirin enteric-coated tablet) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and study medication, sequence, and period as independent variables.|LSM Difference|-0.002|||||TWO_SIDED|90.0|-0.0463|0.0424||||||||0.0424|-0.0463|
82367641|NCT03456960|164446101|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2138|||||TWO_SIDED|90.0|0.1609|0.2667||||||||0.2667|0.1609|
82367642|NCT03456960|164446102|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2161|||||TWO_SIDED|90.0|0.1652|0.2671||||||||0.2671|0.1652|
82367643|NCT03456960|164446103|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.219|||||TWO_SIDED|90.0|0.1675|0.2706||||||||0.2706|0.1675|
82367644|NCT03456960|164446104|EQUIVALENCE|TAK-438F: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.3653|||||TWO_SIDED|90.0|0.218|0.5126||||||||0.5126|0.2180|
82367645|NCT03456960|164446107|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2089|||||TWO_SIDED|90.0|-0.0061|0.4239||||||||0.4239|-0.0061|
82394888|NCT03379792|164500687|OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
82394889|NCT03379792|164500687|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
82394890|NCT03379792|164500687|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
82394891|NCT01273155|164500709|OTHER|Belinostat|Kendall's Tau|0.096||||0.327|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.327
82394892|NCT01273155|164500709|OTHER|Belinostat glucuronide|Kendall's Tau|-0.178||||0.063|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.063
82394893|NCT01273155|164500709|OTHER|Methyl belinostat|Kendall's Tau|0.382|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
82394894|NCT01273155|164500709|OTHER|M21|Kendall's Tau|0.253||||0.009|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.009
82394895|NCT01273155|164500709|OTHER|M24|Kendall's Tau|-0.278||||0.004|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.004
82394896|NCT01273155|164500709|OTHER|M26|Kendall's Tau|0.098||||0.312|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.312
82394897|NCT01273155|164500710|OTHER|Belinostat|Kendall's Tau|0.215||||0.025|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.025
82394898|NCT01273155|164500710|OTHER|Methyl belinostat|Kendall's Tau|0.426|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
82444507|NCT00162266|164597634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.48||||0.0869|TWO_SIDED|95.0|-1.82|26.78|||ANCOVA|ANCOVA model: % change = pretreatment|Estimate = adjusted % change (BMS10mg/kg+MTX or BMS 2mg/kg+MTX) - adjusted change for placebo+MTX|Day 360||26.78|-1.82|0.0869
82367646|NCT03456960|164446107|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.014|||||TWO_SIDED|90.0|-0.0639|0.0918||||||||0.0918|-0.0639|
82367647|NCT03456960|164446108|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2099|||||TWO_SIDED|90.0|-0.0048|0.4246||||||||0.4246|-0.0048|
82367648|NCT03456960|164446108|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.0137|||||TWO_SIDED|90.0|-0.0712|0.0986||||||||0.0986|-0.0712|
82394899|NCT01273155|164500710|OTHER|M21|Kendall's Tau|0.337|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
82394900|NCT01273155|164500710|OTHER|M24|Kendall's Tau|-0.061||||0.524|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.524
82394901|NCT01273155|164500710|OTHER|M26|Kendall's Tau|0.246||||0.01|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.010
82394902|NCT01273155|164500711|OTHER||Kendall's Tau|0.057||||0.548|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.548
82394903|NCT01273155|164500712|OTHER|Belinostat|Kendall's Tau|0.091||||0.34|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.340
82394904|NCT01273155|164500712|OTHER|Belinostat glucuronide|Kendall's Tau|-0.216||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
82394905|NCT01273155|164500712|OTHER|Methyl belinostat|Kendall's Tau|0.268||||0.005|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.005
82448939|NCT01122849|164605166|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16||||0.2313||95.0|-4.7|19.01||Between treatment p-values and confidence intervals|ANCOVA|||||19.01|-4.70|0.2313
82394906|NCT01273155|164500712|OTHER|M21|Kendall's Tau|0.242||||0.011|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.011
82394907|NCT01273155|164500712|OTHER|M24|Kendall's Tau|-0.114||||0.231|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.231
82394908|NCT01273155|164500712|OTHER|M26|Kendall's Tau|0.22||||0.021|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.021
82367649|NCT03456960|164446109|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.2096|||||TWO_SIDED|90.0|-0.0054|0.4246||||||||0.4246|-0.0054|
82367650|NCT03456960|164446109|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.0201|||||TWO_SIDED|90.0|-0.069|0.1092||||||||0.1092|-0.0690|
82367651|NCT03456960|164446110|EQUIVALENCE|Unchanged aspirin: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.4058|||||TWO_SIDED|90.0|0.0803|0.7312||||||||0.7312|0.0803|
82367652|NCT03456960|164446110|EQUIVALENCE|Salicylic acid: The difference in the LSM between dosing condition (TAK-438ASA tablet taken in a fed \[30 minutes after starting breakfast\] - TAK-438ASA tablet taken in a fasted \[without breakfast\] condition) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included a log-transformed (natural log) analysis variable as the dependent variable, and dosing condition, sequence, and period as independent variables.|LSM Difference|0.1969|||||TWO_SIDED|90.0|0.1065|0.2873||||||||0.2873|0.1065|
82367653|NCT00532935|164446119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|1.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.28|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline A1C value.||||-0.28|-0.66|<0.001
82367654|NCT00532935|164446120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.6|STANDARD_DEVIATION|29.1|<|0.001|TWO_SIDED|95.0|-32.7|-22.4|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline FPG value.||||-22.4|-32.7|<0.001
82367655|NCT00532935|164446121|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.2|STANDARD_DEVIATION|59.7|<|0.001|TWO_SIDED|95.0|-32.1|-8.3|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline 2-hour PMG value.||||-8.3|-32.1|<0.001
82367656|NCT00532935|164446122|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.9|STANDARD_DEVIATION|40.3|<|0.001|TWO_SIDED|95.0|-19.0|-4.9|||ANCOVA|ANCOVA model included a term for treatment and a covariate for the baseline FPG value.||||-4.9|-19.0|<0.001
82367657|NCT00532935|164446123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.001|TWO_SIDED|95.0|1.3|2.8||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 32 in the Sitagliptin/Metformin 50/1000 mg b.i.d. group vs. the Pioglitazone 45 mg q.d. group.|Regression, Logistic|logistic regression model included a term for treatment and a covariate for the baseline A1C value.|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 32 in the Sitagliptin/Metformin 50/1000 mg b.i.d. group vs. the Pioglitazone 45 mg q.d. group.|||2.8|1.3|<0.001
82367658|NCT01301508|164446128|SUPERIORITY_OR_OTHER|||||||0.008||||||p-value was calculated for the statistical significant difference between greater decrease in vehicle lesion and greater decrease in active lesion for the AN2898 Topical Ointment, 1% + Ointment Vehicle group.|Two-sided sign test|||||||0.008
82367659|NCT01301508|164446128|SUPERIORITY_OR_OTHER|||||||0.017||||||p-value was calculated for the statistical significant difference between greater decrease in vehicle lesion and greater decrease in active lesion for the AN2728 Topical Ointment, 2% + Ointment Vehicle group.|Two-sided sign test|||||||0.017
82367660|NCT03123861|164446160|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82367661|NCT03123861|164446161|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82367662|NCT03123861|164446162|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82367663|NCT03123861|164446163|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82367664|NCT00922987|164446196|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||||||<0.0001
82367665|NCT00290251|164446210|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|performed on log-transformed delta change in total fibroid volume from baseline to end of treatment||||||0.43
82367666|NCT00290251|164446210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|95.0|||||ANOVA|Performed on log-transformed delta change||Ulipristal acetate groups one and two were first compared and found to be similar (see statistical analysis 1), so they were combined into a single treatment group for comparison to placebo group||||0.003
82367667|NCT00290251|164446211|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||The Delta of scores from treatment end to baseline was used to compare by ANOVA.|ANOVA|Adjustment for age||No sample size calculation was made.||||< 0.05
82367668|NCT03188666|164446226|SUPERIORITY||Least Square Mean Difference|-24.6||||0.0741|TWO_SIDED|95.0|-51.8|2.5|||ANCOVA|||||2.5|-51.8|0.0741
82367669|NCT03188666|164446227|SUPERIORITY||Least Square Mean Difference|-24.9||||0.3726|TWO_SIDED|95.0|-80.8|30.9|||Mixed Model with Repeated Measure (MMRM)|||||30.9|-80.8|0.3726
82367670|NCT03188666|164446228|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared number of new lesions per participant by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
82367671|NCT03188666|164446229|SUPERIORITY||Least Square Mean Difference|-25.6||||0.0756|TWO_SIDED|95.0|-53.9|2.8|||ANCOVA|||||2.8|-53.9|0.0756
82367672|NCT03188666|164446230|SUPERIORITY||Least Square Mean Difference|-27.8||||0.3407|TWO_SIDED|95.0|-86.1|30.5|||Mixed Model with Repeated Measure (MMRM)|||||30.5|-86.1|0.3407
82367673|NCT03188666|164446231|SUPERIORITY||Least Square Mean Difference|-0.34||||0.2656|TWO_SIDED|95.0|-0.96|0.27|||ANCOVA|||||0.27|-0.96|0.2656
82367674|NCT03188666|164446232|SUPERIORITY||Least Square Mean Difference|-0.36||||0.2651|TWO_SIDED|95.0|-1.01|0.29|||ANCOVA|||||0.29|-1.01|0.2651
82367675|NCT03188666|164446239|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared number of new lesions per participant by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
82444508|NCT01595581|164597709|OTHER|Mann-Whitney U test for continuous variables and Fisher exact test for categorical variables|Mean Difference (Net)|2.9|STANDARD_DEVIATION|1.5||0.35|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 6 weeks post operative."||||0.35
82528612|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.683|||<|0.0001|TWO_SIDED|95.0|-0.982|-0.383||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 4. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.383|-0.982|< 0.0001
82647851|NCT01244815|165011160|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21||||0.039|TWO_SIDED|95.0|-0.42|-0.01|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.01|-0.42|0.039
82367676|NCT03188666|164446240|SUPERIORITY|||||||0.0027||||||Week 56 vs. Week 28|McNemar|||Compared percent of participants with new lesions by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0027
82367677|NCT03188666|164446241|SUPERIORITY|||||||0.0047||||||Week 56 vs. Week 28|McNemar|||Compared percent of participants with new lesions by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0047
82367678|NCT03188666|164446244|SUPERIORITY|||||||0.3663||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.3663
82367679|NCT03188666|164446245|SUPERIORITY|||||||0.001||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.0010
82367680|NCT03188666|164446251|SUPERIORITY|||||||0.0039||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared total new lesion volume per participant by CT at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0039
82367681|NCT03188666|164446252|SUPERIORITY|||||||0.0273||||||Week 56 vs. Week 28|Wilcoxon signed rank test|||Compared total lesion activity per participant in new lesions by PET at week 28 (relative to baseline) and week 56 (relative to week 28).||||0.0273
82367682|NCT03188666|164446253|SUPERIORITY|||||||0.2123||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.2123
82367683|NCT03188666|164446254|SUPERIORITY|||||||0.1528||||||Period 2 vs. Period 1|Wilcoxon signed rank test|||||||0.1528
82367684|NCT01461226|164446344|OTHER|Mixed models analysis|mixed models|0.04|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82367685|NCT01461226|164446344|OTHER||mixed models|0.24||||0.64|TWO_SIDED|||||Baseline difference between groups|Mixed Models Analysis|||||||0.64
82367686|NCT01461226|164446344|OTHER|Mixed models|Slope|0.27||||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
82367687|NCT01461226|164446344|OTHER|mixed models|mixed models|4.2||||0.04|TWO_SIDED||||||Mixed Models Analysis|||change after 10 months between groups||||0.04
82367688|NCT00062010|164446347|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percentage|8.8|||||TWO_SIDED|90.0|2.4|21.3||||||The study was designed to have adequate (90%) power to distinguish a true response rate of 50% from a null rate of 35% assuming total accrual of 76 patients in two stages. The design mandated that at least 13 objective responses be observed among 34 patients in the first stage in order to continue to the second stage. These were not observed, so the study stopped after the first stage. 90% exact binomial confidence intervals are provided for the response rate.||21.3|2.4|
82367689|NCT02944383|164446350|SUPERIORITY||Median Difference (Net)|-19.02||||0.0063|TWO_SIDED|95.0|-33.07|-4.25|||Ranked ANCOVA|Randomized treatment group \& randomized baseline statin (yes or no) are included as factors, \& outcome (ranked) at baseline is included as covariate.|Estimates generated from Hodges-Lehmann method.|||-4.25|-33.07|0.0063
82367690|NCT02944383|164446350|SUPERIORITY||Median Difference (Net)|-7.63||||0.235|TWO_SIDED|95.0|-25.88|7.05|||Ranked ANCOVA|Randomized treatment group \& randomized baseline statin (yes or no) are included as factors, \& outcome (ranked) at baseline is included as covariate.|Estimates generated from Hodges-Lehmann method.|||7.05|-25.88|0.2350
82367691|NCT02944383|164446351|OTHER|||||||0.1663||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1663
82367692|NCT02944383|164446351|SUPERIORITY|||||||0.6195||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6195
82367693|NCT02944383|164446351|SUPERIORITY|||||||0.0436||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0436
82367694|NCT02944383|164446351|SUPERIORITY|||||||0.5||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.5000
82367695|NCT02944383|164446351|SUPERIORITY|||||||0.0007||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0007
82367696|NCT02944383|164446351|SUPERIORITY|||||||0.1161||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1161
82367697|NCT02944383|164446351|SUPERIORITY|||||||0.183||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1830
82367698|NCT02944383|164446351|SUPERIORITY|||||||0.8762||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8762
82367699|NCT02944383|164446352|SUPERIORITY|||||||0.178||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1780
82367700|NCT02944383|164446352|SUPERIORITY|||||||0.7615||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.7615
82367701|NCT02944383|164446352|SUPERIORITY|||||||0.0162||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0162
82367702|NCT02944383|164446352|SUPERIORITY|||||||0.371||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.3710
82367703|NCT02944383|164446352|SUPERIORITY|||||||0.001||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
82367704|NCT02944383|164446352|SUPERIORITY|||||||0.0988||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0988
82367705|NCT02944383|164446352|SUPERIORITY|||||||0.2594||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2594
82367706|NCT02944383|164446352|SUPERIORITY|||||||0.9099||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9099
82367707|NCT02944383|164446352|SUPERIORITY|||||||0.0219||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0219
82367708|NCT02944383|164446352|SUPERIORITY|||||||0.3494||||||Ranked ANCOVA results are obtained using a model where the outcome is ranked, randomized treatment group and randomized baseline statin (yes or no) are included as factors, and outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3494
82367709|NCT02944383|164446353|SUPERIORITY|||||||0.0391||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0391
82367710|NCT02944383|164446353|SUPERIORITY|||||||0.2455||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2455
82367711|NCT02944383|164446353|SUPERIORITY|||||||0.026||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0260
82367712|NCT02944383|164446353|SUPERIORITY|||||||0.5704||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.5704
82367713|NCT02944383|164446353|SUPERIORITY|||||||0.0009||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0009
82367714|NCT02944383|164446353|SUPERIORITY|||||||0.0846||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0846
82367715|NCT02944383|164446353|SUPERIORITY|||||||0.1763||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1763
82367716|NCT02944383|164446353|SUPERIORITY|||||||0.5576||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5576
82367717|NCT02944383|164446353|SUPERIORITY||Median Difference (Net)|-14.66||||0.0086|TWO_SIDED|95.0|-24.68|-4.39||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-4.39|-24.68|0.0086
82367718|NCT02944383|164446353|SUPERIORITY||Mean Difference (Net)|-5.06||||0.1516|TWO_SIDED|95.0|-15.02|3.64||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||3.64|-15.02|0.1516
82394909|NCT01273155|164500713|OTHER||Kendall's Tau|-0.216||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
82394910|NCT01273155|164500714|OTHER||Kendall's Tau|0.06||||0.531|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.531
82394911|NCT01273155|164500715|OTHER|Belinostat glucuronide/belinostat|Kendall's Tau|-0.224||||0.023|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.023
82394912|NCT01273155|164500715|OTHER|Methyl belinostat/belinostat|Kendall's Tau|0.295||||0.011|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.011
82394913|NCT01273155|164500715|OTHER|M21/belinostat|Kendall's Tau|0.335||||0.004|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.004
82367719|NCT02944383|164446354|SUPERIORITY|||||||0.0386||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0386
82367720|NCT02944383|164446354|SUPERIORITY|||||||0.1206||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1206
82394914|NCT01273155|164500715|OTHER|M24/belinostat|Kendall's Tau|-0.24||||0.037|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.037
82394915|NCT01273155|164500715|OTHER|M26/belinostat|Kendall's Tau|0.127||||0.275|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.275
82367721|NCT02944383|164446354|SUPERIORITY|||||||0.0364||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0364
82394916|NCT01273155|164500715|OTHER|M24/M26|Kendall's Tau|-0.308||||0.002|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.002
82394917|NCT01273155|164500715|OTHER|M26/M21|Kendall's Tau|-0.159||||0.095|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.095
82394918|NCT01273155|164500716|OTHER|Belinostat glucuronide/belinostat|Kendall's Tau|-0.055||||0.568|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.568
82394919|NCT01273155|164500716|OTHER|Methyl belinostat/belinostat|Kendall's Tau|0.38|||<|0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||<0.001
82394920|NCT01273155|164500716|OTHER|M21/belinostat|Kendall's Tau|0.315||||0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.001
82394921|NCT01273155|164500716|OTHER|M24/belinostat|Kendall's Tau|-0.205||||0.037|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.037
82394922|NCT01273155|164500716|OTHER|M26/belinostat|Kendall's Tau|0.218||||0.033|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.033
82394923|NCT01273155|164500716|OTHER|M24/M26|Kendall's Tau|-0.309||||0.001|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.001
82367722|NCT02944383|164446354|SUPERIORITY|||||||0.4312||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.4312
82394924|NCT01273155|164500716|OTHER|M26/M21|Kendall's Tau|-0.205||||0.032|TWO_SIDED||||||Jonckheere-Terpstra|||Effects of liver dysfunction on PK parameter values were evaluated with SPSS 22.0 for Windows (SPSS Inc., Chicago, IL), using the Jonckheere-Terpstra and Kendall's Tau test. Data were considered significantly different when p\<0.05.||||0.032
82394925|NCT01256385|164500719|SUPERIORITY_OR_OTHER|||||||0.73|||||||Log Rank|||||||0.73
82367723|NCT02944383|164446354|SUPERIORITY|||||||0.001||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
82367724|NCT02944383|164446354|SUPERIORITY|||||||0.0407||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0407
82367725|NCT02944383|164446354|SUPERIORITY|||||||0.1433||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1433
82367726|NCT02944383|164446354|SUPERIORITY|||||||0.2866||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2866
82367727|NCT02944383|164446354|SUPERIORITY|||||||0.0056||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0056
82367728|NCT02944383|164446354|SUPERIORITY|||||||0.0789||||||Results are obtained using a model where outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0789
82367729|NCT02944383|164446355|SUPERIORITY|||||||0.0277||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0277
82367730|NCT02944383|164446355|SUPERIORITY|||||||0.2502||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2502
82367731|NCT02944383|164446355|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0161
82448940|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS Mean difference|0.27||||0.1345|TWO_SIDED|95.0|-0.09|0.63||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.63|-0.09|0.1345
82367732|NCT02944383|164446355|SUPERIORITY|||||||0.6567||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.6567
82367733|NCT02944383|164446355|SUPERIORITY|||||||0.001||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0010
82367734|NCT02944383|164446355|SUPERIORITY|||||||0.1257||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1257
82367735|NCT02944383|164446355|SUPERIORITY|||||||0.144||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1440
82367736|NCT02944383|164446355|SUPERIORITY|||||||0.7642||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7642
82367737|NCT02944383|164446355|SUPERIORITY||Median Difference (Net)|-16.4||||0.0107|TWO_SIDED|95.0|-28.31|-4.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-4.51|-28.31|0.0107
82367738|NCT02944383|164446355|SUPERIORITY||Median Difference (Net)|-5.32||||0.2466|TWO_SIDED|95.0|-16.73|5.52||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.52|-16.73|0.2466
82367739|NCT02944383|164446356|SUPERIORITY|||||||0.0211||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.0211
82367740|NCT02944383|164446356|SUPERIORITY|||||||0.1304||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1304
82367741|NCT02944383|164446356|SUPERIORITY|||||||0.0318||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.0318
82394926|NCT01256385|164500720|SUPERIORITY_OR_OTHER|||||||0.87|||||||Log Rank|||||||0.87
82394927|NCT01256385|164500721|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||||||0.20
82394928|NCT01256385|164500722|SUPERIORITY|||||||0.006|||||||Chi-squared|||PFS at 4 months in Arm A was compared with a 4-month historical control rate of 21.4%, using a one-sided test at the 0.05 significant level. The historical data appear in two publications, an ASCO abstract: Abidoye, ASCO Annual Meeting 2006: 5568, and de Souza, Davis, et al, Clin Cancer Res 2012; 18(8):2336-2343 (see Figure 1).||||0.006
82394929|NCT01256385|164500722|SUPERIORITY|||||||0.037||||||1-sided.|Chi-squared|||PFS at 4 months in Arm B was compared with a 4-month historical control rate of 21.4%, using a one-sided test at the 0.05 significant level. The historical data appear in two publications, an ASCO abstract: Abidoye, ASCO Annual Meeting 2006: 5568, and de Souza, Davis, et al, Clin Cancer Res 2012; 18(8):2336-2343 (see Figure 1).||||0.037
82394930|NCT01256385|164500723|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
82394931|NCT01606202|164500745|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.708|TWO_SIDED|95.0|-0.51|0.35|||ANCOVA|||The change in the pain Numerical Rating Scale score from baseline to End of Treatment was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline Numerical Rating Scale pain mean score as a covariate.||0.35|-0.51|0.708
82394932|NCT01606202|164500746|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.57||||0.852|TWO_SIDED|95.0|-6.62|5.48|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which escape medication was used was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and percentage of days on which escape medication was used as a covariate.||5.48|-6.62|0.852
82644179|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.396||||0.0004|TWO_SIDED|95.0|0.136|0.655|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.655|0.136|0.0004
82644180|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.328||||0.0261|TWO_SIDED|95.0|0.026|0.63|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.630|0.026|0.0261
82394933|NCT01606202|164500747|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.05||||0.86|TWO_SIDED|95.0|-0.54|0.65|||ANCOVA|||The change from baseline to End of Treatment in the Spasm severity Numerical Rating Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spasm severity Numerical Rating Scale score as a covariate.||0.65|-0.54|0.860
82394934|NCT01606202|164500748|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.873|TWO_SIDED|95.0|-8.56|7.27|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which spasm was experienced was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spasm percentage of days on which spasm was experienced as a covariate.||7.27|-8.56|0.873
82394935|NCT01606202|164500749|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.07||||0.83|TWO_SIDED|95.0|-0.61|0.75|||ANCOVA|||The change from baseline to End of Treatment in the spasticity severity Numerical Rating Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the baseline spasticity severity Numerical Rating Scale score as a covariate.||0.75|-0.61|0.830
82647852|NCT01244815|165011161|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.33||||0.006|TWO_SIDED|95.0|-0.56|-0.1|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.10|-0.56|0.006
82394936|NCT01606202|164500750|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.4||||0.86|TWO_SIDED|95.0|-4.08|4.88|||ANCOVA|||The change from baseline to End of Treatment in the percentage of days on which spasticity was experienced was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the percentage of days on which spasticity was experienced as a covariate.||4.88|-4.08|0.860
82394937|NCT01606202|164500751|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.14||||0.142|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|||The change from baseline to End of Treatment in the Modified Ashworth scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Modified Ashworth scale score as a covariate.||0.05|-0.33|0.142
82394938|NCT01606202|164500752|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.824|TWO_SIDED|95.0|-1.13|0.9|||ANCOVA|||The change from baseline in the mean Short Orientation Memory Concentration score, was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Short Orientation Memory Concentration test score as a covariate.||0.90|-1.13|0.824
82394939|NCT01606202|164500753|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.04||||0.847|TWO_SIDED|95.0|-0.49|0.4|||ANCOVA|||The change from baseline to End of Treatment in the Spitzer Quality of Life Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the Spitzer Quality of Life Index score as a covariate.||0.40|-0.49|0.847
82394940|NCT01606202|164500754|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.29||||0.287|TWO_SIDED|95.0|-3.74|1.16|||ANCOVA|||The change from baseline to End of Treatment in the Caregiver Strain Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and the baseline Caregiver Strain Index score as a covariate.||1.16|-3.74|0.287
82367742|NCT02944383|164446356|SUPERIORITY|||||||0.4607||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.4607
82367743|NCT02944383|164446356|SUPERIORITY|||||||0.0012||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0012
82367744|NCT02944383|164446356|SUPERIORITY|||||||0.0592||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0592
82367745|NCT02944383|164446356|SUPERIORITY|||||||0.117||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1170
82367746|NCT02944383|164446356|SUPERIORITY|||||||0.3138||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3138
82367747|NCT02944383|164446356|SUPERIORITY|||||||0.009||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0090
82367748|NCT02944383|164446356|SUPERIORITY|||||||0.1317||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1317
82367749|NCT02944383|164446357|SUPERIORITY|||||||0.2395||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.2395
82367750|NCT02944383|164446357|SUPERIORITY|||||||0.638||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6380
82394941|NCT01606202|164500755|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|33.86|||<|0.001|TWO_SIDED|95.0|17.07|50.64|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups using Fisher's Exact Test.||50.64|17.07|<0.001
82367751|NCT02944383|164446357|SUPERIORITY|||||||0.7468||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.7468
82367752|NCT02944383|164446357|SUPERIORITY|||||||0.8483||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.8483
82367753|NCT02944383|164446357|SUPERIORITY|||||||0.0008||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0008
82367754|NCT02944383|164446357|SUPERIORITY|||||||0.0938||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0938
82394942|NCT01606202|164500756|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.93||||0.032|TWO_SIDED|95.0|-3.69|-0.16|||ANCOVA|||The change from baseline to End of Treatment in the Brief Pain Inventory score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Brief Pain Inventory score as a covariate.||-0.16|-3.69|0.032
82394943|NCT01217385|164500774|EQUIVALENCE|under the NULL, it is assume that there is no difference between a 40% decrease in TOI, and a less than 40% decrease or an increase in TOI in their ability to predict pCR+|Odds Ratio (OR)|4.667||||0.059|TWO_SIDED|95.0|0.95|23.04||5% alpha threshold for significance.|Regression, Logistic|||"This analysis will look at the ability of the % change in DOSI measured tumor Optical Index (TOI) from baseline to mid-therapy to predict pathologic response using logistic regression.~Pathologic response (dichotomized into responders and non-responders) will be used as the reference standard and %change in TOI ratio (dichotomized at -40%) will be used to estimate pCR (+/-)= alpha + beta1(%change TOI)"||23.04|0.95|0.059
82367755|NCT02944383|164446357|SUPERIORITY|||||||0.3201||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3201
82367756|NCT02944383|164446357|SUPERIORITY|||||||0.901||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9010
82367757|NCT02944383|164446357|SUPERIORITY||Median Difference (Net)|-19.31||||0.0156|TWO_SIDED|95.0|-39.06|-1.49||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.49|-39.06|0.0156
82367758|NCT02944383|164446357|SUPERIORITY||Median Difference (Net)|-5.98||||0.3456|TWO_SIDED|95.0|-28.51|17.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||17.26|-28.51|0.3456
82367759|NCT02944383|164446358|SUPERIORITY|||||||0.3714||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.3714
82367760|NCT02944383|164446358|SUPERIORITY|||||||0.4415||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.4415
82367761|NCT02944383|164446358|SUPERIORITY|||||||0.7902||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.7902
82367762|NCT02944383|164446358|SUPERIORITY|||||||0.6999||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.6999
82367763|NCT02944383|164446358|SUPERIORITY|||||||0.0015||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0015
82367764|NCT02944383|164446358|SUPERIORITY|||||||0.0796||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0796
82367765|NCT02944383|164446358|SUPERIORITY|||||||0.4225||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4225
82367766|NCT02944383|164446358|SUPERIORITY|||||||0.7687||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7687
82367767|NCT02944383|164446358|SUPERIORITY|||||||0.0437||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0437
82367768|NCT02944383|164446358|SUPERIORITY|||||||0.2735||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.2735
82367769|NCT02944383|164446359|SUPERIORITY|||||||0.1042||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1042
82394944|NCT01217385|164500775|EQUIVALENCE|test for the equivalence of %change in TOI ratio (dichotomized at \<=-40%), between PR+ and PR- groups, with interaction|Slope|0.4463|STANDARD_ERROR_OF_MEAN|1.953||0.8193|TWO_SIDED|||||significance at alpha=0.05|Regression, Logistic|p-value represents the interaction between %TOI (dichotomized at \<=-40%), and PR status|Multivariate logistic regression model using % change in TOI ratio (T/N) (baseline to mid-therapy) dichotomized at -40%, PR status, and the corresponding interaction.|The Null is that the odd ratio is the same in both the PR+ and PR- subjects fro the model including %change in TOI form baseline to mid-therapy (dichotomized at \<=-40%), PR status (+/-) and the interaction between them.||||0.8193
82448941|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.0815|TWO_SIDED|95.0|-0.68|0.04||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.04|-0.68|0.0815
82367770|NCT02944383|164446359|SUPERIORITY|||||||0.6204||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6204
82367771|NCT02944383|164446359|SUPERIORITY|||||||0.8659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.8659
82367772|NCT02944383|164446359|SUPERIORITY|||||||0.9658||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9658
82367773|NCT02944383|164446359|SUPERIORITY|||||||0.8238||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8238
82367774|NCT02944383|164446359|SUPERIORITY|||||||0.4874||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4874
82367775|NCT02944383|164446359|SUPERIORITY|||||||0.9467||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9467
82394945|NCT01217385|164500776|OTHER||Odds Ratio (OR)|16.5||||0.043|TWO_SIDED|95.0|1.09|250.15|||Regression, Logistic|||||250.15|1.09|0.043
82367776|NCT02944383|164446359|SUPERIORITY|||||||0.7467||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7467
82394946|NCT01217385|164500776|OTHER||Odds Ratio (OR)|2.86||||0.406|TWO_SIDED|95.0|0.24|33.9|||Regression, Logistic|||||33.90|0.24|0.406
82394947|NCT01362244|164500854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||Fisher Exact|||Statistical data is presented for NR||||0.003
82394948|NCT01362244|164500854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0|||||Fisher Exact|||Statistical data is presented for LOCF||||0.016
82394949|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74||||0.71|TWO_SIDED|95.0|0.15|3.64|||Regression, Logistic||Week 1|||3.64|0.15|0.710
82394950|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.674|TWO_SIDED|95.0|0.29|6.87|||Regression, Logistic||Week 2|||6.87|0.29|0.674
82394951|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.94||||0.942|TWO_SIDED|95.0|0.2|4.49|||Regression, Logistic||Week 5|||4.49|0.20|0.942
82394952|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9||||0.091|TWO_SIDED|95.0|0.8|18.96|||Regression, Logistic||Week 9|||18.96|0.80|0.091
82575448|NCT00790205|164860589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.06||||0.435|TWO_SIDED|95.0|0.91|1.24|||Cox proportional hazards model|||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in mortality due to all causes was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.24|0.91|0.435
82644181|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.102||||0.9455|TWO_SIDED|95.0|-0.187|0.392|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.392|-0.187|0.9455
82394953|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.66||||0.004|TWO_SIDED|95.0|2.18|62.33|||Regression, Logistic||Week 13|||62.33|2.18|0.004
82394954|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.74||||0.224|TWO_SIDED|95.0|0.54|13.9|||Regression, Logistic||Week 17|||13.90|0.54|0.224
82448942|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.0015|TWO_SIDED|95.0|0.24|0.94||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.94|0.24|0.0015
82367777|NCT02944383|164446359|SUPERIORITY||Median Difference (Net)|-0.41||||0.9081|TWO_SIDED|95.0|-10.77|10.75||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||10.75|-10.77|0.9081
82394955|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.85||||0.037|TWO_SIDED|95.0|1.11|30.69|||Regression, Logistic||Week 21|||30.69|1.11|0.037
82394956|NCT01362244|164500855|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.22||||0.051|TWO_SIDED|95.0|0.99|27.44|||Regression, Logistic||Week 25|||27.44|0.99|0.051
82394957|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.567|TWO_SIDED|95.0|-0.1|0.19|||repeated measures model||Week 2|||0.19|-0.10|0.567
82394958|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05||||0.495|TWO_SIDED|95.0|-0.1|0.21|||repeated measures model||Week 5|||0.21|-0.10|0.495
82394959|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.365|TWO_SIDED|95.0|-0.1|0.28|||repeated measures model||Week 9|||0.28|-0.10|0.365
82394960|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17||||0.058|TWO_SIDED|95.0|-0.01|0.34|||repeated measures model||Week 13|||0.34|-0.01|0.058
82394961|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.056|TWO_SIDED|95.0|-0.01|0.43|||repeated measures model||Week 17|||0.43|-0.01|0.056
82394962|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23||||0.028|TWO_SIDED|95.0|0.03|0.42|||repeated measures model||Week 21|||0.42|0.03|0.028
82394963|NCT01362244|164500872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16||||0.077|TWO_SIDED|95.0|-0.02|0.34|||repeated measures model||Week 25|||0.34|-0.02|0.077
82394964|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.486|TWO_SIDED|95.0|-0.1|0.22|||repeated measures model||Week 2|||0.22|-0.10|0.486
82394965|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07||||0.384|TWO_SIDED|95.0|-0.08|0.22|||repeated measures model||Week 5|||0.22|-0.08|0.384
82394966|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.546|TWO_SIDED|95.0|-0.14|0.26|||repeated measures model||Week 9|||0.26|-0.14|0.546
82394967|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.39|||repeated measures model||Week 13|||0.39|0.00|0.050
82394968|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22||||0.061|TWO_SIDED|95.0|-0.01|0.45|||repeated measures model||Week 17|||0.45|-0.01|0.061
82394969|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28||||0.016|TWO_SIDED|95.0|0.05|0.51|||repeated measures model||Week 21|||0.51|0.05|0.016
82394970|NCT01362244|164500873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18||||0.094|TWO_SIDED|95.0|-0.03|0.4|||repeated measures model||Week 25|||0.40|-0.03|0.094
82394971|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.11||||0.686|TWO_SIDED|95.0|-19.91|30.12|||repeated measures model||Week 2|||30.12|-19.91|0.686
82394972|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.55||||0.321|TWO_SIDED|95.0|-14.4|43.5|||repeated measures model||Week 5|||43.50|-14.40|0.321
82394973|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.91||||0.622|TWO_SIDED|95.0|-26.79|44.6|||repeated measures model||Week 9|||44.60|-26.79|0.622
82367778|NCT02944383|164446359|SUPERIORITY||Median Difference (Net)|-2.38||||0.548|TWO_SIDED|95.0|-11.82|6.86||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||6.86|-11.82|0.5480
82644182|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.05||||0.9999|TWO_SIDED|95.0|-0.387|0.287|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.287|-0.387|0.9999
82367779|NCT02944383|164446360|SUPERIORITY|||||||0.1485||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.1485
82367780|NCT02944383|164446360|SUPERIORITY|||||||0.6008||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 2||||0.6008
82367781|NCT02944383|164446360|SUPERIORITY|||||||0.9409||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9409
82367782|NCT02944383|164446360|SUPERIORITY|||||||0.9292||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 6||||0.9292
82367783|NCT02944383|164446360|SUPERIORITY|||||||0.8455||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8455
82367784|NCT02944383|164446360|SUPERIORITY|||||||0.5256||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5256
82367785|NCT02944383|164446360|SUPERIORITY|||||||0.9217||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9217
82367786|NCT02944383|164446360|SUPERIORITY|||||||0.7401||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7401
82367787|NCT02944383|164446360|SUPERIORITY|||||||0.9386||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9386
82367788|NCT02944383|164446360|SUPERIORITY|||||||0.6352||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6352
82394974|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.24||||0.178|TWO_SIDED|95.0|-10.75|57.22|||repeated measures model||Week 13|||57.22|-10.75|0.178
82367789|NCT02944383|164446361|SUPERIORITY|||||||0.0165||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0165
82367790|NCT02944383|164446361|SUPERIORITY|||||||0.3075||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.3075
82367791|NCT02944383|164446361|SUPERIORITY|||||||0.1069||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1069
82367792|NCT02944383|164446361|SUPERIORITY|||||||0.6101||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6101
82367793|NCT02944383|164446361|SUPERIORITY||Median Difference (Net)|-12.04||||0.0351|TWO_SIDED|95.0|-23.79|-1.08||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.08|-23.79|0.0351
82394975|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|38.16||||0.052|TWO_SIDED|95.0|-0.33|76.66|||repeated measures model||Week 17|||76.66|-0.33|0.052
82394976|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|38.72||||0.042|TWO_SIDED|95.0|1.41|76.02|||repeated measures model||Week 21|||76.02|1.41|0.042
82367794|NCT02944383|164446361|SUPERIORITY||Median Difference (Net)|-3.15||||0.3746|TWO_SIDED|95.0|-9.86|4.25||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.25|-9.86|0.3746
82367795|NCT02944383|164446362|SUPERIORITY|||||||0.0133||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0133
82367796|NCT02944383|164446362|SUPERIORITY|||||||0.2044||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2044
82367797|NCT02944383|164446362|SUPERIORITY|||||||0.0855||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0855
82367798|NCT02944383|164446362|SUPERIORITY|||||||0.5114||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5114
82367799|NCT02944383|164446362|SUPERIORITY|||||||0.0289||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0289
82367800|NCT02944383|164446362|SUPERIORITY|||||||0.295||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.2950
82367801|NCT02944383|164446363|SUPERIORITY|||||||0.1992||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1992
82367802|NCT02944383|164446363|SUPERIORITY|||||||0.9945||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9945
82367803|NCT02944383|164446363|SUPERIORITY|||||||0.5139||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5139
82367804|NCT02944383|164446363|SUPERIORITY|||||||0.8085||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8085
82367805|NCT02944383|164446363|SUPERIORITY||Median Difference (Net)|-0.77||||0.7644|TWO_SIDED|95.0|-6.31|4.85||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.85|-6.31|0.7644
82367806|NCT02944383|164446363|SUPERIORITY||Mean Difference (Net)|1.33||||0.9499|TWO_SIDED|95.0|-4.34|6.66||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||6.66|-4.34|0.9499
82367807|NCT02944383|164446364|SUPERIORITY|||||||0.1521||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1521
82367808|NCT02944383|164446364|SUPERIORITY|||||||0.8982||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8982
82367809|NCT02944383|164446364|SUPERIORITY|||||||0.6228||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6228
82367810|NCT02944383|164446364|SUPERIORITY|||||||0.9622||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.9622
82394977|NCT01362244|164500874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.13||||0.484|TWO_SIDED|95.0|-25.76|54.02|||repeated measures model||Week 25|||54.02|-25.76|0.484
82394978|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.16||||0.005|TWO_SIDED|95.0|6.49|35.83|||repeated measures model||Week 2|||35.83|6.49|0.005
82394979|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.89||||0.029|TWO_SIDED|95.0|1.77|32.01|||repeated measures model||Week 5|||32.01|1.77|0.029
82394980|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.2||||0.472|TWO_SIDED|95.0|-12.64|27.03|||repeated measures model||Week 9|||27.03|-12.64|0.472
82394981|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.71||||0.009|TWO_SIDED|95.0|7.19|48.23|||repeated measures model||Week 13|||48.23|7.19|0.009
82575449|NCT00790205|164860590|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.875|TWO_SIDED|95.0|0.9|1.14|||Cox proportional hazards model|||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in mortality due to all causes was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.14|0.90|0.875
82367811|NCT02944383|164446364|SUPERIORITY|||||||0.6643||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6643
82367812|NCT02944383|164446364|SUPERIORITY|||||||0.9071||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9071
82367813|NCT02944383|164446365|SUPERIORITY|||||||0.5647||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5647
82367814|NCT02944383|164446365|SUPERIORITY|||||||0.1073||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1073
82367815|NCT02944383|164446365|SUPERIORITY|||||||0.3858||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3858
82367816|NCT02944383|164446365|SUPERIORITY|||||||0.0916||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0916
82367817|NCT02944383|164446365|SUPERIORITY||Median Difference (Net)|0.0||||0.9473|TWO_SIDED|95.0|-5.56|5.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.26|-5.56|0.9473
82367818|NCT02944383|164446365|SUPERIORITY||Median Difference (Net)|4.54||||0.0911|TWO_SIDED|95.0|-1.83|9.95||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||9.95|-1.83|0.0911
82367819|NCT02944383|164446366|SUPERIORITY|||||||0.4623||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4623
82367820|NCT02944383|164446366|SUPERIORITY|||||||0.1678||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1678
82367821|NCT02944383|164446366|SUPERIORITY|||||||0.439||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4390
82394982|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4||||0.114|TWO_SIDED|95.0|-3.8|34.59|||repeated measures model||Week 17|||34.59|-3.80|0.114
82394983|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.51||||0.014|TWO_SIDED|95.0|6.06|52.96|||repeated measures model||Week 21|||52.96|6.06|0.014
82394984|NCT01362244|164500876|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.65||||0.027|TWO_SIDED|95.0|3.1|50.21|||repeated measures model||Week 25|||50.21|3.10|0.027
82394985|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.79|TWO_SIDED|95.0|-0.61|0.79|||repeated measures model||MNS, Week 2|||0.79|-0.61|0.790
82394986|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14||||0.008|TWO_SIDED|95.0|0.3|1.97|||repeated measures model||MNS, Week 5|||1.97|0.30|0.008
82394987|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79||||0.066|TWO_SIDED|95.0|-0.05|1.64|||repeated measures model||MNS, Week 9|||1.64|-0.05|0.066
82394988|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.73||||0.127|TWO_SIDED|95.0|-0.21|1.67|||repeated measures model||MNS, Week 13|||1.67|-0.21|0.127
82394989|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38||||0.481|TWO_SIDED|95.0|-0.69|1.46|||repeated measures model||MNS, Week 17|||1.46|-0.69|0.481
82394990|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65||||0.308|TWO_SIDED|95.0|-0.61|1.9|||repeated measures model||MNS, Week 21|||1.90|-0.61|0.308
82394991|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71||||0.233|TWO_SIDED|95.0|-0.46|1.88|||repeated measures model||MNS, Week 25|||1.88|-0.46|0.233
82394992|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28||||0.444|TWO_SIDED|95.0|-0.45|1.02|||repeated measures model||WNS, Week 2|||1.02|-0.45|0.444
82394993|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.31||||0.002|TWO_SIDED|95.0|0.5|2.12|||repeated measures model||WNS, Week 5|||2.12|0.50|0.002
82394994|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68||||0.143|TWO_SIDED|95.0|-0.24|1.6|||repeated measures model||WNS, Week 9|||1.60|-0.24|0.143
82394995|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62||||0.24|TWO_SIDED|95.0|-0.42|1.65|||repeated measures model||WNS, Week 13|||1.65|-0.42|0.240
82394996|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19||||0.75|TWO_SIDED|95.0|-0.98|1.35|||repeated measures model||WNS, Week 17|||1.35|-0.98|0.750
82367822|NCT02944383|164446366|SUPERIORITY|||||||0.129||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1290
82367823|NCT02944383|164446366|SUPERIORITY|||||||0.9627||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9627
82367824|NCT02944383|164446366|SUPERIORITY|||||||0.0911||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0911
82367825|NCT02944383|164446367|SUPERIORITY|||||||0.2882||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2882
82367826|NCT02944383|164446367|SUPERIORITY|||||||0.4474||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4474
82367827|NCT02944383|164446367|SUPERIORITY|||||||0.7875||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7875
82367828|NCT02944383|164446367|SUPERIORITY|||||||0.06||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0600
82367829|NCT02944383|164446367|SUPERIORITY||Median Difference (Net)|0.0||||0.9832|TWO_SIDED|95.0|0.0|0.0||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.00|0.00|0.9832
82367830|NCT02944383|164446367|SUPERIORITY||Median Difference (Net)|0.0||||0.1352|TWO_SIDED|95.0|0.0|0.0||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.00|0.00|0.1352
82367831|NCT02944383|164446368|SUPERIORITY|||||||0.2857||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|ranked ANCOVA|||Week 10||||0.2857
82367832|NCT02944383|164446368|SUPERIORITY|||||||0.4486||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4486
82367833|NCT02944383|164446368|SUPERIORITY|||||||0.764||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7640
82367834|NCT02944383|164446368|SUPERIORITY|||||||0.056||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0560
82367835|NCT02944383|164446368|SUPERIORITY|||||||0.9954||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.9954
82367836|NCT02944383|164446368|SUPERIORITY|||||||0.1298||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1298
82367837|NCT02944383|164446369|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 10||||0.0161
82367838|NCT02944383|164446369|SUPERIORITY|||||||0.1806||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 10||||0.1806
82367839|NCT02944383|164446369|SUPERIORITY|||||||0.2657||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 12||||0.2657
82367840|NCT02944383|164446369|SUPERIORITY|||||||0.5996||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA|||Week 12||||0.5996
82367841|NCT02944383|164446369|SUPERIORITY||Median Difference (Net)|-11.39||||0.027|TWO_SIDED|95.0|-28.81|2.08||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||2.08|-28.81|0.0270
82394997|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64||||0.324|TWO_SIDED|95.0|-0.64|1.91|||repeated measures model||WNS, Week 21|||1.91|-0.64|0.324
82367842|NCT02944383|164446369|SUPERIORITY||Median Difference (Net)|-0.92||||0.5263|TWO_SIDED|95.0|-16.88|15.5||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||15.50|-16.88|0.5263
82367843|NCT02944383|164446370|SUPERIORITY|||||||0.0345||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0345
82367844|NCT02944383|164446370|SUPERIORITY|||||||0.2709||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2709
82367845|NCT02944383|164446370|SUPERIORITY|||||||0.3255||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3255
82394998|NCT01362244|164500877|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44||||0.468|TWO_SIDED|95.0|-0.77|1.66|||repeated measures model||WNS, Week 25|||1.66|-0.77|0.468
82394999|NCT01362244|164500878|SUPERIORITY_OR_OTHER_LEGACY||Mixed effects model|-13.2||||0.005|TWO_SIDED|95.0|-22.2|-4.22|||ANCOVA|||||-4.22|-22.2|0.005
82395000|NCT01362244|164500879|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.07||||||||0.07|-0.06|
82395001|NCT01362244|164500880|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.68|||||TWO_SIDED|95.0|-1.33|12.68||||||||12.68|-1.33|
82367846|NCT02944383|164446370|SUPERIORITY|||||||0.7391||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7391
82367847|NCT02944383|164446370|SUPERIORITY|||||||0.0808||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0808
82367848|NCT02944383|164446370|SUPERIORITY|||||||0.6509||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6509
82367849|NCT02944383|164446371|SUPERIORITY|||||||0.0004||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0004
82367850|NCT02944383|164446371|SUPERIORITY|||||||0.0412||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0412
82367851|NCT02944383|164446371|SUPERIORITY|||||||0.1937||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1937
82367852|NCT02944383|164446371|SUPERIORITY|||||||0.474||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4740
82395002|NCT02407054|164500896|SUPERIORITY||Hazard Ratio (HR)|0.5871|||||TWO_SIDED|95.0|0.3967|0.869||||||||0.8690|0.3967|
82395003|NCT02407054|164500897|SUPERIORITY||Hazard Ratio (HR)|0.6515|||||TWO_SIDED|95.0|0.4123|1.0294||||||||1.0294|0.4123|
82395004|NCT00415597|164500902|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: Percent change from baseline = 0||||<0.0001
82395005|NCT00415597|164500903|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: Percent change from baseline = 0||||<0.0001
82395006|NCT01650545|164500928|SUPERIORITY|||||||0.03|||||||Log Rank|||||||0.03
82395007|NCT02172040|164500933|NON_INFERIORITY|Non-inferiority margin definition: lower limit of the 95% confidence interval (CI) for amlodipine + celecoxib arm did not cross the 50% value for the amlodipine arm.|||||=|0.001|||||||t-test, 1 sided|||A serial gatekeeping strategy was used for the primary efficacy endpoint analysis. The primary comparison was a two-sample t-test to test the one-sided hypothesis that treatment with amlodipine + celecoxib was non-inferior to half of the effect achieved with amlodipine.||||= 0.001
82395008|NCT02172040|164500933|SUPERIORITY||||||=|0.491|||||||t-test, 1 sided|||A serial gatekeeping strategy was used for the primary efficacy endpoint analysis. The secondary comparison was a two-sample t-test to test the one-sided hypothesis that treatment with placebo was superior to treatment with celecoxib. This was only to be performed if statistical significance was achieved for the primary comparison.||||= 0.491
82395009|NCT02172040|164500934|OTHER||||||=|0.166|||||||Chi-squared|||||||= 0.166
82395010|NCT02172040|164500935|SUPERIORITY|||||||0.177|||||||t-test, 1 sided|||||||0.177
82395011|NCT02172040|164500935|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395012|NCT02172040|164500935|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395013|NCT02172040|164500935|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395014|NCT02172040|164500935|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395015|NCT02172040|164500935|SUPERIORITY||||||=|0.719|||||||t-test, 1 sided|||||||= 0.719
82395016|NCT02172040|164500936|SUPERIORITY||||||=|0.069|||||||t-test, 1 sided|||||||= 0.069
82395017|NCT02172040|164500936|SUPERIORITY||||||=|0.001|||||||t-test, 1 sided|||||||= 0.001
82395018|NCT02172040|164500936|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395019|NCT02172040|164500936|SUPERIORITY||||||=|0.097|||||||t-test, 1 sided|||||||= 0.097
82395020|NCT02172040|164500936|SUPERIORITY||||||=|0.064|||||||t-test, 1 sided|||||||= 0.064
82395021|NCT02172040|164500936|SUPERIORITY||||||=|0.924|||||||t-test, 1 sided|||||||= 0.924
82395022|NCT02172040|164500937|SUPERIORITY||||||=|0.038|||||||t-test, 1 sided|||||||= 0.038
82367853|NCT02944383|164446371|SUPERIORITY||Median Difference (Net)|-14.32||||0.0116|TWO_SIDED|95.0|-34.13|3.89||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||3.89|-34.13|0.0116
82395023|NCT02172040|164500937|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395024|NCT02172040|164500937|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395025|NCT02172040|164500937|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395026|NCT02172040|164500937|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395027|NCT02172040|164500937|SUPERIORITY||||||=|0.562|||||||t-test, 1 sided|||||||= 0.562
82395028|NCT02172040|164500938|SUPERIORITY||||||=|0.104|||||||t-test, 1 sided|||||||= 0.104
82395029|NCT02172040|164500938|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395030|NCT02172040|164500938|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82575450|NCT00790205|164860591|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.858|TWO_SIDED|95.0|0.81|1.19|||Cox proportional hazards model|Model stratified by region with treatment group and history of CHF at baseline as explanatory variables.||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in CHF cases requiring hospitalization was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.19|0.81|0.858
82395031|NCT02172040|164500938|SUPERIORITY||||||=|0.002|||||||t-test, 1 sided|||||||= 0.002
82395032|NCT02172040|164500938|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395033|NCT02172040|164500938|SUPERIORITY||||||=|0.419|||||||t-test, 1 sided|||||||= 0.419
82395034|NCT02172040|164500939|SUPERIORITY||||||=|0.028|||||||t-test, 1 sided|||||||= 0.028
82395035|NCT02172040|164500939|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395036|NCT02172040|164500939|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395037|NCT02172040|164500939|SUPERIORITY||||||=|0.051|||||||t-test, 1 sided|||||||= 0.051
82395038|NCT02172040|164500939|SUPERIORITY||||||=|0.074|||||||t-test, 1 sided|||||||= 0.074
82395039|NCT02172040|164500939|SUPERIORITY||||||=|0.878|||||||t-test, 1 sided|||||||= 0.878
82395040|NCT02172040|164500940|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395041|NCT02172040|164500941|OTHER||||||=|0.977|||||||t-test, 1 sided|||||||= 0.977
82395042|NCT02172040|164500942|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395043|NCT02172040|164500943|OTHER||||||=|0.527|||||||t-test, 1 sided|||||||= 0.527
82395044|NCT02172040|164500944|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395045|NCT02172040|164500944|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395046|NCT02172040|164500944|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82395047|NCT02172040|164500944|SUPERIORITY||||||=|0.001|||||||t-test, 1 sided|||||||= 0.001
82395048|NCT00388297|164500966|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate|0.0||||0.71|TWO_SIDED|95.0|-3.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-3|0.71
82395049|NCT00388297|164500966|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate|-1.0||||0.3|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-4|0.30
82395050|NCT00388297|164500967|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82395051|NCT00388297|164500967|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82395052|NCT00388297|164500968|SUPERIORITY_OR_OTHER|||||||0.81|||||||Chi-squared|||Analysis for \< 34 weeks||||0.81
82395053|NCT00388297|164500968|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||Analysis for \<34 weeks||||0.47
82395054|NCT00388297|164500968|SUPERIORITY_OR_OTHER|||||||0.44|||||||Chi-squared|||Analysis for \<37 weeks||||0.44
82395055|NCT00388297|164500968|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||Analysis for \< 37 weeks||||0.11
82395056|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.31|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Motor (24 months)||3|0|0.31
82395057|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.3|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-II Language (24 months)||3|0|0.30
82395058|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.89|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (12 months)||0|0|0.89
82395059|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.54|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Motor (12 months)||3|0|0.54
82395060|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.92|TWO_SIDED|95.0|-3.0|3.0|||Chi-squared|||Bayley-III Language (12 months)||3|-3|0.92
82395061|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.7|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (24 months)||0|0|0.70
82395062|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.2|TWO_SIDED|95.0|-3.0|0.0|||Chi-squared|||Bayley-III Motor (24 months)||0|-3|0.20
82395063|NCT00388297|164500968|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.71|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||Bayley-II Language (24 months)||2|-3|0.71
82395064|NCT00388297|164500969|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.89|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.89
82395065|NCT00388297|164500969|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.48|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.48
82395066|NCT00388297|164500970|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.9|TWO_SIDED|95.0|-2.0|3.0|||Chi-squared|||||3|-2|0.90
82395067|NCT00388297|164500970|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.64|TWO_SIDED|95.0|-3.0|2.0|||Chi-squared|||||2|-3|0.64
82395068|NCT00388297|164500971|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.6|TWO_SIDED|95.0|-5.0|7.0|||Chi-squared|||Analysis for recall of digits forward||7|-5|0.60
82395069|NCT00388297|164500971|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.22|TWO_SIDED|95.0|-8.0|0.0|||Chi-squared|||Analysis for recall of digits forward||0|-8|0.22
82395070|NCT00388297|164500971|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.52|TWO_SIDED|95.0|-6.0|0.0|||Chi-squared|||Analysis for Recognition of Pictures||0|-6|0.52
82395071|NCT00388297|164500971|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.91|TWO_SIDED|95.0|-4.0|0.0|||Chi-squared|||Analysis for Recognition of Pictures||0|-4|0.91
82395072|NCT00388297|164500972|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.63|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley II Cognitive (12 months)||0|0|0.63
82395073|NCT00388297|164500972|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.83|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley II Motor (12 mo)||3|0|0.83
82644183|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.212||||0.2633|TWO_SIDED|95.0|-0.074|0.498|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.498|-0.074|0.2633
82644184|NCT03692078|165003995|EQUIVALENCE|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.13||||0.8769|TWO_SIDED|95.0|-0.205|0.465|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: HEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.465|-0.205|0.8769
82644185|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|5.417|||<|0.0001|TWO_SIDED|95.0|5.315|5.52|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (PP Population)||5.520|5.315|<.0001
82644186|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|5.436|||<|0.0001|TWO_SIDED|95.0|5.324|5.548|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (PP Population)||5.548|5.324|<.0001
82647853|NCT01244815|165011161|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.35||||0.003|TWO_SIDED|95.0|-0.59|-0.12|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.12|-0.59|0.003
82367854|NCT02944383|164446371|SUPERIORITY||Median Difference (Net)|-3.66||||0.1109|TWO_SIDED|95.0|-23.85|14.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||14.26|-23.85|0.1109
82367855|NCT02944383|164446372|SUPERIORITY|||||||0.0002||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0002
82367856|NCT02944383|164446372|SUPERIORITY|||||||0.0161||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0161
82448943|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS mean differnence|-1.03||||0.0292||95.0|-1.96|-0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||-0.11|-1.96|0.0292
82367857|NCT02944383|164446372|SUPERIORITY|||||||0.3043||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3043
82367858|NCT02944383|164446372|SUPERIORITY|||||||0.4639||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4639
82367859|NCT02944383|164446372|SUPERIORITY|||||||0.021||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0210
82367860|NCT02944383|164446372|SUPERIORITY|||||||0.0992||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0992
82395074|NCT00388297|164500972|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.48|TWO_SIDED|95.0|0.0|3.0|||Chi-squared|||Bayley-III Language (12 months)||3|0|0.48
82395075|NCT00388297|164500972|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.59|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Bayley-III Cognitive (24 months)||0|0|0.59
82395076|NCT00388297|164500973|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.99|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 36 months||2|-2|0.99
82395077|NCT00388297|164500973|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.96|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 60 months||2|-2|0.96
82395078|NCT00388297|164500973|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.65|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||CBCL at 36 months||2|-2|0.65
82644187|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|4.957|||<|0.0001|TWO_SIDED|95.0|4.86|5.053|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (PP Population)||5.053|4.860|<.0001
82367861|NCT02944383|164446373|SUPERIORITY|||||||0.1512||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1512
82367862|NCT02944383|164446373|SUPERIORITY|||||||0.84||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8400
82367863|NCT02944383|164446373|SUPERIORITY|||||||0.0244||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0244
82367864|NCT02944383|164446373|SUPERIORITY|||||||0.1803||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1803
82367865|NCT02944383|164446373|SUPERIORITY||Median Difference (Net)|-24.41||||0.0307|TWO_SIDED|95.0|-42.73|-9.94||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-9.94|-42.73|0.0307
82367866|NCT02944383|164446373|SUPERIORITY||Median Difference (Net)|-8.73||||0.5326|TWO_SIDED|95.0|-23.33|7.68||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.68|-23.33|0.5326
82367867|NCT02944383|164446374|SUPERIORITY|||||||0.1705||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1705
82367868|NCT02944383|164446374|SUPERIORITY|||||||0.9193||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9193
82367869|NCT02944383|164446374|SUPERIORITY|||||||0.0224||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0224
82367870|NCT02944383|164446374|SUPERIORITY|||||||0.2387||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2387
82367871|NCT02944383|164446374|SUPERIORITY|||||||0.06||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0600
82367872|NCT02944383|164446374|SUPERIORITY|||||||0.6878||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.6878
82367873|NCT02944383|164446375|SUPERIORITY|||||||0.0298||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0298
82367874|NCT02944383|164446375|SUPERIORITY|||||||0.0196||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0196
82367875|NCT02944383|164446375|SUPERIORITY|||||||0.2219||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2219
82367876|NCT02944383|164446375|SUPERIORITY|||||||0.4078||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4078
82395079|NCT00388297|164500973|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-1.0||||0.44|TWO_SIDED|95.0|-3.0|1.0|||Chi-squared|||CBCL at 60 months||1|-3|0.44
82395080|NCT00388297|164500974|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.37|TWO_SIDED|95.0|-1.0|2.0|||Chi-squared|||||2|-1|0.37
82395081|NCT00388297|164500974|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.98|TWO_SIDED|95.0|-2.0|2.0|||Chi-squared|||||2|-2|0.98
82395082|NCT00388297|164500975|SUPERIORITY_OR_OTHER|||||||0.12|||||||Chi-squared|||||||0.12
82395083|NCT00388297|164500975|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
82367877|NCT02944383|164446375|SUPERIORITY||Median Difference (Net)|-15.34||||0.0605|TWO_SIDED|95.0|-31.68|1.3||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||1.30|-31.68|0.0605
82395084|NCT00388297|164500976|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||||||0.69
82395085|NCT00388297|164500976|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
82647854|NCT01244815|165011161|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.44|||<|0.001|TWO_SIDED|95.0|-0.67|-0.21|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.21|-0.67|<0.001
82367878|NCT02944383|164446375|SUPERIORITY||Median Difference (Net)|-4.08||||0.1768|TWO_SIDED|95.0|-19.91|7.32||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.32|-19.91|0.1768
82367879|NCT02944383|164446376|SUPERIORITY|||||||0.0084||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0084
82395086|NCT00388297|164500977|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||||||0.76
82528613|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.628|||<|0.0001|TWO_SIDED|95.0|-0.888|-0.368||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 2. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.368|-0.888|< 0.0001
82367880|NCT02944383|164446376|SUPERIORITY|||||||0.0047||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0047
82367881|NCT02944383|164446376|SUPERIORITY|||||||0.1574||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1574
82367882|NCT02944383|164446376|SUPERIORITY|||||||0.3235||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3235
82367883|NCT02944383|164446376|SUPERIORITY|||||||0.0367||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0367
82367884|NCT02944383|164446376|SUPERIORITY|||||||0.0948||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0948
82367885|NCT02944383|164446377|SUPERIORITY|||||||0.0037||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0037
82367886|NCT02944383|164446377|SUPERIORITY|||||||0.1328||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1328
82395087|NCT00388297|164500977|SUPERIORITY_OR_OTHER|||||||0.64|||||||Chi-squared|||||||0.64
82395088|NCT00388297|164500978|SUPERIORITY_OR_OTHER|||||||0.66|||||||Chi-squared|||||||0.66
82395089|NCT00388297|164500978|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
82395090|NCT00388297|164500979|SUPERIORITY_OR_OTHER|||||||0.24|||||||Chi-squared|||||||0.24
82395091|NCT00388297|164500979|SUPERIORITY_OR_OTHER|||||||0.55|||||||Chi-squared|||||||0.55
82395092|NCT00388297|164500980|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.36
82395093|NCT00388297|164500980|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||||||0.28
82395094|NCT00388297|164500981|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.50
82395095|NCT00388297|164500981|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
82395096|NCT00388297|164500982|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Apgar at 1 min \< 4||||0.76
82395097|NCT00388297|164500982|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||Apgar \> 4 at 1 minute||||0.76
82395098|NCT00388297|164500982|SUPERIORITY_OR_OTHER|||||||0.69|||||||Chi-squared|||Apgar \< 7 at 5 minutes||||0.69
82395099|NCT00388297|164500982|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||Apgar \< 7 at 5 minutes||||0.45
82395100|NCT00388297|164500983|SUPERIORITY_OR_OTHER|||||||0.24|||||||Chi-squared|||||||0.24
82395101|NCT00388297|164500983|SUPERIORITY_OR_OTHER|||||||0.97|||||||Chi-squared|||||||0.97
82395102|NCT00388297|164500984|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
82395103|NCT00388297|164500984|SUPERIORITY_OR_OTHER|||||||0.68|||||||Chi-squared|||||||0.68
82395104|NCT00388297|164500985|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82395105|NCT00388297|164500985|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82367887|NCT02944383|164446377|SUPERIORITY|||||||0.4364||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4364
82528614|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.435|||<|0.0001|TWO_SIDED|95.0|-0.641|-0.228||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 1. The overall family-wise Type I error rate for primary and secondary outcome measures were controlled at the α=0.05 level by employing a fixed-sequence testing procedure. Outcome measures were tested using 10 hypotheses, each comparing linaclotide versus placebo, in the sequence of presentation of statistical analyses in this record. If the hypothesis comparing the 2 groups was statistically significant (α=0.05), then the next hypothesis was to be tested; otherwise, testing would stop.||-0.228|-0.641|< 0.0001
82367888|NCT02944383|164446377|SUPERIORITY|||||||0.8129||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.8129
82367889|NCT02944383|164446377|SUPERIORITY||Median Difference (Net)|-15.29||||0.0347|TWO_SIDED|95.0|-36.54|2.35||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||2.35|-36.54|0.0347
82367890|NCT02944383|164446377|SUPERIORITY||Median Difference (Net)|-2.14||||0.3617|TWO_SIDED|95.0|-25.78|23.62||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||23.62|-25.78|0.3617
82448944|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.2497|TWO_SIDED|95.0|-0.39|1.47||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||1.47|-0.39|0.2497
82528615|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.683|||<|0.0001|TWO_SIDED|95.0|-0.969|-0.398||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 3. Not part of the fixed-sequence testing procedure.||-0.398|-0.969|< 0.0001
82528616|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.768|||<|0.0001|TWO_SIDED|95.0|-1.076|-0.46||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 5. Not part of the fixed-sequence testing procedure.||-0.460|-1.076|< 0.0001
82575451|NCT00790205|164860592|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.983|TWO_SIDED|95.0|0.83|1.2|||Cox proportional hazards model|Model stratified by region with treatment group and history of CHF at baseline as explanatory variables.||Hazard Ratio of Sitagliptin/Placebo: The between-treatment difference in CHF cases requiring hospitalization was assessed by the hazard ratio between the Sitagliptin and Placebo groups.||1.20|0.83|0.983
82367891|NCT02944383|164446378|SUPERIORITY|||||||0.0085||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0085
82367892|NCT02944383|164446378|SUPERIORITY|||||||0.2112||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2112
82367893|NCT02944383|164446378|SUPERIORITY|||||||0.7301||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.7301
82367894|NCT02944383|164446378|SUPERIORITY|||||||0.6283||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6283
82367895|NCT02944383|164446378|SUPERIORITY|||||||0.0919||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0919
82367896|NCT02944383|164446378|SUPERIORITY|||||||0.5497||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.5497
82367897|NCT02944383|164446379|SUPERIORITY|||||||0.0009||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0009
82367898|NCT02944383|164446379|SUPERIORITY|||||||0.0351||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0351
82367899|NCT02944383|164446379|SUPERIORITY|||||||0.1561||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1561
82367900|NCT02944383|164446379|SUPERIORITY|||||||0.0268||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0268
82644188|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|4.974|||<|0.0001|TWO_SIDED|95.0|4.867|5.081|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (PP Population)||5.081|4.867|<.0001
82644189|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|4.984|||<|0.0001|TWO_SIDED|95.0|4.886|5.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (PP Population)||5.082|4.886|<.0001
82644190|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|4.975|||<|0.0001|TWO_SIDED|95.0|4.868|5.082|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (PP Population)||5.082|4.868|<.0001
82644191|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.49|||<|0.0001|TWO_SIDED|95.0|3.367|3.612|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (PP Population)||3.612|3.367|<.0001
82644192|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.347|||<|0.0001|TWO_SIDED|95.0|3.212|3.483|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (PP Population)||3.483|3.212|<.0001
82644193|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.539|||<|0.0001|TWO_SIDED|95.0|3.418|3.66|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (PP Population)||3.660|3.418|<.0001
82644194|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.419|||<|0.0001|TWO_SIDED|95.0|3.284|3.554|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (PP Population)||3.554|3.284|<.0001
82644195|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (PP Population)|Mean Difference (Net)|3.492|||<|0.0001|TWO_SIDED|95.0|3.373|3.611|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (PP Population)||3.611|3.373|<.0001
82644196|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (PP Population)|Mean Difference (Net)|3.437|||<|0.0001|TWO_SIDED|95.0|3.306|3.568|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (PP Population)||3.568|3.306|<.0001
82647855|NCT01244815|165011162|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.34||||0.011|TWO_SIDED|95.0|-0.61|-0.08|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.08|-0.61|0.011
82644197|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-0.461|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (PP Population)||-0.262|-0.660|<.0001
82395106|NCT00388297|164500986|SUPERIORITY_OR_OTHER|||||||0.45|||||||Chi-squared|||||||0.45
82644198|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-0.462|||<|0.0001|TWO_SIDED|95.0|-0.679|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (PP Population)||-0.244|-0.679|<.0001
82644199|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-0.433|||<|0.0001|TWO_SIDED|95.0|-0.633|-0.233|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (PP Population)||-0.233|-0.633|<.0001
82644200|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-0.461|||<|0.0001|TWO_SIDED|95.0|-0.678|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (PP Population)||-0.244|-0.678|<.0001
82644201|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-1.928|||<|0.0001|TWO_SIDED|95.0|-2.154|-1.701|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (PP Population)||-1.701|-2.154|<.0001
82644202|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-2.089|||<|0.0001|TWO_SIDED|95.0|-2.336|-1.842|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (PP Population)||-1.842|-2.336|<.0001
82644203|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (PP Population)|Mean Difference (Net)|-1.879|||<|0.0001|TWO_SIDED|95.0|-2.102|-1.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (PP Population)||-1.656|-2.102|<.0001
82647856|NCT01244815|165011162|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.63|||<|0.001|TWO_SIDED|95.0|-0.89|-0.36|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.36|-0.89|<0.001
82528617|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.758|||<|0.0001|TWO_SIDED|95.0|-1.086|-0.431||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 7. Not part of the fixed-sequence testing procedure.||-0.431|-1.086|< 0.0001
82395107|NCT00388297|164500986|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared|||||||0.75
82395108|NCT00388297|164500987|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82395109|NCT00388297|164500988|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82395110|NCT00388297|164500988|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
82395111|NCT00388297|164500989|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
82395112|NCT00388297|164500989|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||0.49
82395113|NCT00388297|164500990|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||||||0.99
82395114|NCT00388297|164500990|SUPERIORITY_OR_OTHER|||||||0.85|||||||Chi-squared|||||||0.85
82367901|NCT02944383|164446379|SUPERIORITY||Median Difference (Net)|-22.3||||0.0516|TWO_SIDED|95.0|-42.96|-1.67||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.67|-42.96|0.0516
82367902|NCT02944383|164446379|SUPERIORITY||Median Difference (Net)|-13.06||||0.0125|TWO_SIDED|95.0|-32.83|4.88||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||4.88|-32.83|0.0125
82395115|NCT00388297|164500991|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82395116|NCT00388297|164500991|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82395117|NCT04105010|164500999|SUPERIORITY||||||<|0.0001|||||||Binomial test against a null|||||||<0.0001
82395118|NCT01642485|164501029|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||The effect of insulin, C-peptide and glucose on QTcF was investigated using linear mixed effect concentration-response models with the double difference of QTcF (difference to time matched placebo of the change from average baseline) as dependent variable and up to two of the variables change from time matched placebo in insulin, C-peptide and glucose as covariates.||||0.05
82395119|NCT01642485|164501030|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||The relevant confirmatory null hypotheses could all be rejected on the 5% level (one sided), i.e. a difference in QTcF between continental breakfast and placebo; between FDA breakfast and placebo could be ascertained.||||0.05
82644204|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (PP Population)|Mean Difference (Net)|-2.017|||<|0.0001|TWO_SIDED|95.0|-2.262|-1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (PP Population)||-1.772|-2.262|<.0001
82647857|NCT01244815|165011162|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.61|||<|0.001|TWO_SIDED|95.0|-0.88|-0.35|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.35|-0.88|<0.001
82367903|NCT02944383|164446380|SUPERIORITY|||||||0.0023||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0023
82367904|NCT02944383|164446380|SUPERIORITY|||||||0.0356||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0356
82367905|NCT02944383|164446380|SUPERIORITY|||||||0.2284||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2284
82395120|NCT01642485|164501030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|||||TWO_SIDED|90.0|-10.4|-5.5||||||||-5.5|-10.4|
82395121|NCT01642485|164501030|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.8|||||TWO_SIDED|90.0|-9.3|-4.3||||||||-4.3|-9.3|
82395122|NCT00676572|164501038|SUPERIORITY||||||<|0.05||||||calculated p values|t-test, 2 sided|||||||<0.05
82395123|NCT03114657|164501040|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.633|||TWO_SIDED|95.0|0.0|2.6||||||||2.60|0.00|
82395124|NCT03114657|164501041|SUPERIORITY||Least Squares Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|2.028|||TWO_SIDED|95.0|-2.4|5.89||||||||5.89|-2.40|
82395125|NCT03114657|164501042|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|2.124|||TWO_SIDED|95.0|-4.03|4.68||||||||4.68|-4.03|
82395126|NCT03114657|164501043|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.2|0.39||||||||0.39|-0.20|
82395127|NCT03114657|164501044|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.985|||TWO_SIDED|95.0|-2.42|1.6||||||||1.60|-2.42|
82395128|NCT03114657|164501045|SUPERIORITY||Least Squares Mean Difference|-2.52|STANDARD_ERROR_OF_MEAN|3.052|||TWO_SIDED|95.0|-8.74|3.7||||||||3.70|-8.74|
82395129|NCT03114657|164501046|SUPERIORITY||Least Squares Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|2.501|||TWO_SIDED|95.0|-6.29|3.92||||||||3.92|-6.29|
82395130|NCT03114657|164501047|SUPERIORITY||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|-2.25|3.51||||||||3.51|-2.25|
82395131|NCT03114657|164501049|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.502|||TWO_SIDED|95.0|-1.75|0.23||||||||0.23|-1.75|
82395132|NCT03114657|164501050|SUPERIORITY||Least Squares Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|1.383|||TWO_SIDED|95.0|-3.3|2.39||||||||2.39|-3.30|
82395133|NCT03114657|164501051|SUPERIORITY||Least Squares Mean Difference|6.55|STANDARD_ERROR_OF_MEAN|5.527|||TWO_SIDED|95.0|-4.35|17.44||||||||17.44|-4.35|
82395134|NCT03114657|164501052|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|5.831|||TWO_SIDED|95.0|-12.31|11.71||||||||11.71|-12.31|
82395135|NCT03114657|164501053|SUPERIORITY||Least Squares Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|3.94|||TWO_SIDED|95.0|-11.5|4.73||||||||4.73|-11.50|
82395136|NCT03114657|164501059|SUPERIORITY||Least Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.622|||TWO_SIDED|95.0|-2.01|0.89||||||||0.89|-2.01|
82395137|NCT03114657|164501060|SUPERIORITY||Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.668|||TWO_SIDED|95.0|-1.7|4.9||||||||4.90|-1.70|
82395138|NCT03114657|164501061|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.373|||TWO_SIDED|95.0|-1.13|0.41||||||||0.41|-1.13|
82644205|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|1.465|||<|0.0001|TWO_SIDED|95.0|1.25|1.679|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (PP Population)||1.679|1.250|<.0001
82644206|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|1.537|||<|0.0001|TWO_SIDED|95.0|1.303|1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (PP Population)||1.772|1.303|<.0001
82644207|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|1.492|||<|0.0001|TWO_SIDED|95.0|1.277|1.707|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (PP Population)||1.707|1.277|<.0001
82644208|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|1.538|||<|0.0001|TWO_SIDED|95.0|1.304|1.772|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (PP Population)||1.772|1.304|<.0001
82644209|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|-0.003||||1|TWO_SIDED|95.0|-0.242|0.237|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (PP Population)||0.237|-0.242|1.0000
82644210|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|-0.09||||0.9399|TWO_SIDED|95.0|-0.351|0.172|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (PP Population)||0.172|-0.351|0.9399
82644211|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (PP Population)|Mean Difference (Net)|0.047||||0.9993|TWO_SIDED|95.0|-0.19|0.283|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (PP Population)||0.283|-0.190|0.9993
82395139|NCT00424021|164501074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|46.93|||TWO_SIDED|95.0|-8.3|17.3||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||17.3|-8.3|
82644212|NCT03692078|165003997|EQUIVALENCE|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (PP Population)|Mean Difference (Net)|-0.018||||1|TWO_SIDED|95.0|-0.278|0.242|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: CEMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (PP Population)||0.242|-0.278|1.0000
82395140|NCT00424021|164501075|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3|STANDARD_DEVIATION|73.16|||TWO_SIDED|95.0|-30.3|9.7||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||9.7|-30.3|
82448945|NCT01122849|164605167|SUPERIORITY_OR_OTHER||LS Mean difference|-1.57||||0.0011|TWO_SIDED|95.0|-2.48|-0.66||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||-0.66|-2.48|0.0011
82644213|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.805|||<|0.0001|TWO_SIDED|95.0|1.639|1.971|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.971|1.639|<.0001
82644214|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.788|||<|0.0001|TWO_SIDED|95.0|1.622|1.954|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.954|1.622|<.0001
82644215|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.29|||<|0.0001|TWO_SIDED|95.0|1.145|1.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.462|1.145|<.0001
82644216|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.304|||<|0.0001|TWO_SIDED|95.0|1.134|1.447|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.447|1.134|<.0001
82367906|NCT02944383|164446380|SUPERIORITY|||||||0.0213||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0213
82395141|NCT00424021|164501076|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_DEVIATION|83.08|||TWO_SIDED|95.0|-27.4|18.0||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||18.0|-27.4|
82395142|NCT00424021|164501077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.9|STANDARD_DEVIATION|77.04|||TWO_SIDED|95.0|-34.9|7.1||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||7.1|-34.9|
82395143|NCT00424021|164501079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_DEVIATION|1.323|||TWO_SIDED|95.0|-0.15|0.57||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.57|-0.15|
82395144|NCT00424021|164501080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_DEVIATION|1.659|||TWO_SIDED|95.0|0.01|0.92||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.92|0.01|
82395145|NCT00424021|164501081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.888|||TWO_SIDED|95.0|-0.02|1.02||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||1.02|-0.02|
82395146|NCT00424021|164501082|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|STANDARD_DEVIATION|1.721|||TWO_SIDED|95.0|-0.01|0.93||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||0.93|-0.01|
82367907|NCT02944383|164446380|SUPERIORITY|||||||0.033||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0330
82367908|NCT02944383|164446380|SUPERIORITY|||||||0.0221||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0221
82395147|NCT00424021|164501089|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|19.41|||TWO_SIDED|95.0|-5.9|4.7||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||4.7|-5.9|
82444509|NCT01595581|164597709|OTHER||Mean Difference (Net)|2.17|STANDARD_DEVIATION|2.0||0.48|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 12 weeks post operative."||||0.48
82644217|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.353|||<|0.0001|TWO_SIDED|95.0|1.194|1.513|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.513|1.194|<.0001
82644218|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.313|||<|0.0001|TWO_SIDED|95.0|1.153|1.472|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.472|1.153|<.0001
82644219|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.956|||<|0.0001|TWO_SIDED|95.0|-1.155|-0.756|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-0.756|-1.155|<.0001
82644220|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.114|||<|0.0001|TWO_SIDED|95.0|-1.315|-0.913|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-0.913|-1.315|<.0001
82644221|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.999|||<|0.0001|TWO_SIDED|95.0|-1.195|-0.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-0.803|-1.195|<.0001
82644222|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.164|||<|0.0001|TWO_SIDED|95.0|-1.364|-0.964|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-0.964|-1.364|<.0001
82644223|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.775|||<|0.0001|TWO_SIDED|95.0|-0.969|-0.582|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-0.582|-0.969|<.0001
82644224|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.795|||<|0.0001|TWO_SIDED|95.0|-0.99|-0.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.600|-0.990|<.0001
82644225|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.514||||0.0002|TWO_SIDED|95.0|-0.836|-0.193|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.193|-0.836|0.0002
82647858|NCT01244815|165011163|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.61|||<|0.001|TWO_SIDED|95.0|-0.9|-0.32|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.32|-0.90|<0.001
82367909|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|-2.67||||0.2632|TWO_SIDED|95.0|-10.17|5.67||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL||5.67|-10.17|0.2632
82644226|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.484||||0.0005|TWO_SIDED|95.0|-0.808|-0.16|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.160|-0.808|0.0005
82644227|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.452||||0.0014|TWO_SIDED|95.0|-0.775|-0.128|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.128|-0.775|0.0014
82644228|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.475||||0.0007|TWO_SIDED|95.0|-0.799|-0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.152|-0.799|0.0007
82644229|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.127|-2.394|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.394|-3.127|<.0001
82644230|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.902|||<|0.0001|TWO_SIDED|95.0|-3.271|-2.533|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.533|-3.271|<.0001
82644231|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.804|||<|0.0001|TWO_SIDED|95.0|-3.165|-2.443|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.443|-3.165|<.0001
82367910|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|2.02||||0.5382|TWO_SIDED|95.0|-6.77|9.71||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL||9.71|-6.77|0.5382
82444510|NCT01595581|164597709|OTHER||Mean Difference (Net)|1.08|STANDARD_DEVIATION|15.0||0.74|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"Power was estimated for change in lean mass of 3.0 plus or minus 1.5 kg in healthy men receiving testosterone. Using a significance level of 0.05 and a power of 0.80, a sample size of 6 participants per group was calculated.~This statistical analysis applies to lean mass in participants 24 weeks post operative."||||0.74
82367911|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|0.0||||0.1727|TWO_SIDED|95.0|-0.51|1.01||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL||1.01|-0.51|0.1727
82367912|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|0.0||||0.4567|TWO_SIDED|95.0|-0.51|0.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL||0.51|-0.51|0.4567
82367913|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|0.0||||0.6142|TWO_SIDED|95.0|-1.21|1.47||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|HDL||1.47|-1.21|0.6142
82644232|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.952|||<|0.0001|TWO_SIDED|95.0|-3.317|-2.587|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.587|-3.317|<.0001
82644233|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.066|||<|0.0001|TWO_SIDED|95.0|1.719|2.413|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.413|1.719|<.0001
82644234|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.099|||<|0.0001|TWO_SIDED|95.0|1.748|2.449|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.449|1.748|<.0001
82644235|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.129|||<|0.0001|TWO_SIDED|95.0|1.779|2.478|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.478|1.779|<.0001
82367914|NCT02944383|164446381|SUPERIORITY||Median Difference (Net)|-0.02||||0.2409|TWO_SIDED|95.0|-2.23|1.29||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|HDL||1.29|-2.23|0.2409
82367915|NCT02944383|164446382|SUPERIORITY|||||||0.2721||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL||||0.2721
82395148|NCT00424021|164501090|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.4|STANDARD_DEVIATION|25.79|||TWO_SIDED|95.0|-14.4|-0.3||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||-0.3|-14.4|
82448946|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.8063|TWO_SIDED|95.0|-0.4|0.51||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.51|-0.40|0.8063
82528618|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.703|||<|0.0001|TWO_SIDED|95.0|-1.043|-0.363||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 9. Not part of the fixed-sequence testing procedure.||-0.363|-1.043|< 0.0001
82644236|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.107|||<|0.0001|TWO_SIDED|95.0|1.756|2.459|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||2.459|1.756|<.0001
82367916|NCT02944383|164446382|SUPERIORITY|||||||0.5669||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL||||0.5669
82367917|NCT02944383|164446382|SUPERIORITY|||||||0.1686||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL||||0.1686
82367918|NCT02944383|164446382|SUPERIORITY|||||||0.4308||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL||||0.4308
82367919|NCT02944383|164446382|SUPERIORITY|||||||0.5495||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||HDL||||0.5495
82644237|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.18||||0.7678|TWO_SIDED|95.0|-0.569|0.209|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.209|-0.569|0.7678
82644238|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.319||||0.1691|TWO_SIDED|95.0|-0.711|0.073|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.073|-0.711|0.1691
82367920|NCT02944383|164446382|SUPERIORITY|||||||0.2384||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||HDL||||0.2384
82644239|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.224||||0.5178|TWO_SIDED|95.0|-0.606|0.158|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.158|-0.606|0.5178
82644240|NCT03692078|165003999|EQUIVALENCE|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.369||||0.0699|TWO_SIDED|95.0|-0.757|0.018|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: S-PMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.018|-0.757|0.0699
82644241|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.177|||<|0.0001|TWO_SIDED|95.0|6.062|6.292|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||6.292|6.062|<.0001
82644242|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.197|||<|0.0001|TWO_SIDED|95.0|6.082|6.312|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||6.312|6.082|<.0001
82647859|NCT01244815|165011163|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.75|||<|0.001|TWO_SIDED|95.0|-1.04|-0.46|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.46|-1.04|<0.001
82395149|NCT00424021|164501091|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|STANDARD_DEVIATION|25.31|||TWO_SIDED|95.0|-12.0|1.8||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||1.8|-12.0|
82367921|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-13.99||||0.0781|TWO_SIDED|95.0|-33.76|2.55||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL \& Chylomicron particles||2.55|-33.76|0.0781
82395150|NCT00424021|164501092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|23.69|||TWO_SIDED|95.0|-8.4|4.6||||||The small sample size, nonrandomized dose group assignments, and the potential for dose adjustments precluded meaningful comparisons between the dose groups. Therefore, efficacy results are only presented for the combined ambrisentan group.||4.6|-8.4|
82395151|NCT00553358|164501124|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with pCR|-4.85||||0.3416|TWO_SIDED|97.5|-17.6|8.16|||Binomial|Binomial p-value for Trastuzumab 2 mg/kg versus Lapatinib 1500 mg|Estimation Comments: Estimated value is the difference in the percentage of participants with pCR: Arm1 (Lapatinib 1500 mg) minus Arm2 (Trastuzumab 2 mg/kg).|||8.16|-17.6|0.3416
82528619|NCT03573908|164753210|SUPERIORITY||LS mean difference|-0.844|||<|0.0001|TWO_SIDED|95.0|-1.189|-0.498||LS mean difference and p-value were obtained based on an MMRM with treatment, analysis week, geographic region, and treatment-by-week interactions as fixed effects, and baseline score as a covariate.|MMRM|||Week 11. Not part of the fixed-sequence testing procedure.||-0.498|-1.189|< 0.0001
82644243|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.798|||<|0.0001|TWO_SIDED|95.0|5.69|5.906|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||5.906|5.690|<.0001
82647860|NCT01244815|165011163|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.74|||<|0.001|TWO_SIDED|95.0|-1.03|-0.45|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.45|-1.03|<0.001
82528620|NCT04006925|164753211|OTHER||Median Difference (Net)|-23.5||||0.03|TWO_SIDED|95.0|-41.0|-2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||-2.0|-41.0|0.03
82528621|NCT04006925|164753211|OTHER||Median Difference (Net)|-9.0||||0.11|TWO_SIDED|95.0|-21.5|0.0|||Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||0.0|-21.5|0.11
82528622|NCT04006925|164753211|SUPERIORITY||Median Difference (Net)|-14.5||||0.27|TWO_SIDED|95.0|-32.0|11.3||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||11.3|-32.0|0.27
82528623|NCT04006925|164753212|OTHER||Median Difference (Net)|-1.0||||0.02|TWO_SIDED|95.0|-3.0|0.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||0.0|-3.0|0.02
82528624|NCT04006925|164753212|OTHER||Median Difference (Net)|0.0||||0.83|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||1.0|-1.0|0.83
82528625|NCT04006925|164753212|SUPERIORITY||Median Difference (Net)|-1.0||||0.09|TWO_SIDED|95.0|-3.5|0.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||0.0|-3.5|0.09
82528626|NCT04006925|164753213|SUPERIORITY|||||||0.08||||||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||||0.08
82528627|NCT04006925|164753214|SUPERIORITY|||||||0.18||||||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||||0.18
82528628|NCT04006925|164753215|OTHER||Median Difference (Net)|-1.0||||0.26|TWO_SIDED|95.0|-7.0|2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||2.0|-7.0|0.26
82528629|NCT04006925|164753215|OTHER||Median Difference (Final Values)|-0.5||||0.43|TWO_SIDED|95.0|-3.5|2.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Wilcoxon Signed Rank test|||Within group analysis of change from baseline.||2.0|-3.5|0.43
82528630|NCT04006925|164753215|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.65|TWO_SIDED|95.0|-4.0|3.0||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Mann Whitney U test|||Between group analysis of change from baseline.||3.0|-4.0|0.65
82528631|NCT04006925|164753216|OTHER||Mean Difference (Net)|-6.2||||0.23|TWO_SIDED|95.0|-15.2|1.7||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Unpaired T-test|||Within group analysis of change from baseline.||1.7|-15.2|0.23
82528632|NCT04006925|164753216|OTHER||Mean Difference (Net)|0.2||||0.95|TWO_SIDED|95.0|-4.6|4.5||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Unpaired T-test|||Within group analysis of change from baseline.||4.5|-4.6|0.95
82528633|NCT04006925|164753216|SUPERIORITY||Mean Difference (Net)|-6.4||||0.22|TWO_SIDED|95.0|-16.2|3.1||All statistical tests were conducted using a 2-sided alpha level of 0.05.|Paired T-test|||Between group analysis of change from baseline.||3.1|-16.2|0.22
82528634|NCT00045435|164753218|OTHER||Percent|47.0|||||ONE_SIDED|95.0||69.0|||||The criterion for stopping was not met.|The study was to be stopped after 20 patients if the upper bound of a 1-sided 95% confidence interval for relapse-free survival was \<35%.||69||
82528635|NCT00045435|164753219|OTHER||percent|6.0|||||ONE_SIDED|80.0|1.0||||||The stopping criterion was not met.|The study was to be stopped if the lower bound of a 1-sided 80% confidence interval for NRM was greater than 15%|||1|
82528636|NCT01555164|164753231|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.11||||0.306|TWO_SIDED|95.0|-0.31|0.1||P-value from a mixed-effect model including terms for baseline HbA1c value, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.4% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||0.10|-0.31|0.306
82528637|NCT01672853|164753255|SUPERIORITY||Difference in LS Mean|-0.4|||||TWO_SIDED|95.0|-2.3|1.6||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from the 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||1.6|-2.3|
82575452|NCT00790205|164860599|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.001|TWO_SIDED|95.0|0.61|0.77|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.77|0.61|<0.001
82644244|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.82|||<|0.0001|TWO_SIDED|95.0|5.71|5.93|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||5.930|5.710|<.0001
82644245|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.863|||<|0.0001|TWO_SIDED|95.0|5.753|5.974|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||5.974|5.753|<.0001
82644246|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.816|||<|0.0001|TWO_SIDED|95.0|5.706|5.927|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||5.927|5.706|<.0001
82644247|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.947|||<|0.0001|TWO_SIDED|95.0|4.809|5.084|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||5.084|4.809|<.0001
82644248|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.913|||<|0.0001|TWO_SIDED|95.0|4.774|5.052|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||5.052|4.774|<.0001
82644249|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.862|||<|0.0001|TWO_SIDED|95.0|4.727|4.998|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||4.998|4.727|<.0001
82644250|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.938|||<|0.0001|TWO_SIDED|95.0|4.799|5.076|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||5.076|4.799|<.0001
82367922|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-2.1||||0.9901|TWO_SIDED|95.0|-19.36|19.01||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|VLDL \& Chylomicron particles||19.01|-19.36|0.9901
82395152|NCT00553358|164501124|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with pCR|21.79||||0.0001|TWO_SIDED|97.5|9.08|34.23|||Binomial|Binomial p-value for Trastuzumab 2 mg/kg versus Lapatinib 1000/750 mg + Trastuzumab 2 mg/kg|Estimation Comments: Estimated value is the difference in the percentage of participants with pCR: Arm3 (Lapatinib 1000/750 mg + Trastuzumab 2 mg/kg) minus Arm2 (Trastuzumab 2 mg/kg)|||34.23|9.08|0.0001
82367923|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-25.23||||0.0717|TWO_SIDED|95.0|-43.62|-5.1||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL Particles||-5.10|-43.62|0.0717
82395153|NCT00553358|164501132|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878||||0.548|TWO_SIDED|95.0|0.57|1.34||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.34|0.57|0.548
82644251|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.826|||<|0.0001|TWO_SIDED|95.0|4.693|4.959|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||4.959|4.693|<.0001
82644252|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.902|||<|0.0001|TWO_SIDED|95.0|4.767|5.037|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||5.037|4.767|<.0001
82644253|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.379|||<|0.0001|TWO_SIDED|95.0|-0.602|-0.156|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.156|-0.602|<.0001
82644254|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.376|||<|0.0001|TWO_SIDED|95.0|-0.601|-0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.152|-0.601|<.0001
82644255|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.314||||0.0014|TWO_SIDED|95.0|-0.537|-0.09|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.090|-0.537|0.0014
82647861|NCT01244815|165011164|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.07||||0.536|TWO_SIDED|95.0|-0.28|0.15|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.15|-0.28|0.536
82395154|NCT00553358|164501132|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.005||||0.981|TWO_SIDED|95.0|0.66|1.52||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.52|0.66|0.981
82395155|NCT00553358|164501134|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.788||||0.379|TWO_SIDED|95.0|0.46|1.34||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.34|0.46|0.379
82395156|NCT00553358|164501134|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.962||||0.88|TWO_SIDED|95.0|0.58|1.6||The two-sided stratified log-rank test was implemented as the score test from the Cox model.|Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate hazard ratios and corresponding confidence intervals for the pairwise comparisons of individual treatment arms with the trastuzumab alone arm.|||1.60|0.58|0.880
82395157|NCT00553358|164501135|SUPERIORITY||Hazard Ratio (HR)|0.481||||0.00079|TWO_SIDED|95.0|0.31|0.73|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Overall - All subjects in the EFS landmark analysis||0.73|0.31|0.00079
82395158|NCT00553358|164501135|SUPERIORITY||Hazard Ratio (HR)|0.35||||0.004|TWO_SIDED|95.0|0.16|0.71|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the lapatinib + trastuzumab arm||0.71|0.16|0.004
82395159|NCT00553358|164501135|SUPERIORITY||Hazard Ratio (HR)|0.532||||0.134|TWO_SIDED|95.0|0.21|1.16|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the lapatinib arm||1.16|0.21|0.134
82448947|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS Mean Differnence|-0.35||||0.1356|TWO_SIDED|95.0|-0.82|0.11||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.11|-0.82|0.1356
82367924|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-16.09||||0.1548|TWO_SIDED|95.0|-36.78|3.76||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|LDL Particles||3.76|-36.78|0.1548
82367925|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-47.16||||0.0428|TWO_SIDED|95.0|-119.58|-5.78||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|IDL Particles||-5.78|-119.58|0.0428
82367926|NCT02944383|164446383|SUPERIORITY||Median Difference (Net)|-26.13||||0.1836|TWO_SIDED|95.0|-121.44|19.48||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|IDL Particles||19.48|-121.44|0.1836
82367927|NCT02944383|164446384|SUPERIORITY|||||||0.1251||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL \& Chylomicron Particles||||0.1251
82367928|NCT02944383|164446384|SUPERIORITY|||||||0.9047||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||VLDL \& Chylomicron Particles||||0.9047
82395160|NCT00553358|164501135|SUPERIORITY||Hazard Ratio (HR)|0.601||||0.163|TWO_SIDED|95.0|0.28|1.2|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the EFS landmark analysis in the trastuzumab arm||1.20|0.28|0.163
82395161|NCT00553358|164501137|SUPERIORITY||Hazard Ratio (HR)|0.366||||0.00041|TWO_SIDED|95.0|0.2|0.63|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Overall - All subjects in the OS landmark analysis||0.63|0.20|0.00041
82395162|NCT00553358|164501137|SUPERIORITY||Hazard Ratio (HR)|0.223||||0.002|TWO_SIDED|95.0|0.07|0.58|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the lapatinib + trastuzumab arm||0.58|0.07|0.002
82528638|NCT01672853|164753255|SUPERIORITY||Difference in LS Mean|1.0|||||TWO_SIDED|95.0|-1.0|3.0||||||A MMRM with an unstructured variancecovariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in MQC at Week 96. With MMRM setting, all participants with available data from the 3 treatment groups with change in MQC at Week 48 and/or Week 96 contributed to the overall model.||3.0|-1.0|
82528639|NCT02969525|164753263|OTHER||Correlation statistic|4.6|||=|0.031|||||||Cochran-Mantel-Haenszel|||"Statistic and p-value were calculated using a Cochran-Mantel-Haenszel test (test for non-zero correlation statistic) based on modified ridit scores and including geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure as stratification factors.~The 160 loading dose arm was not considered in the dose-response because this is a mixed dose and the test is examining linear dose response."||||=0.031
82575453|NCT00790205|164860600|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.79|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.79|0.63|<0.001
82367929|NCT02944383|164446384|SUPERIORITY|||||||0.0788||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL Particles||||0.0788
82367930|NCT02944383|164446384|SUPERIORITY|||||||0.1222||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||LDL Particles||||0.1222
82367931|NCT02944383|164446384|SUPERIORITY|||||||0.0734||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||IDL Particles||||0.0734
82367932|NCT02944383|164446384|SUPERIORITY|||||||0.421||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||IDL Particles||||0.4210
82367933|NCT02944383|164446385|SUPERIORITY||Median Difference (Net)|0.43||||0.9672|TWO_SIDED|95.0|-8.12|9.07||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|||9.07|-8.12|0.9672
82367934|NCT02944383|164446385|SUPERIORITY||Median Difference (Net)|1.58||||0.7993|TWO_SIDED|95.0|-5.31|8.69||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|||8.69|-5.31|0.7993
82367935|NCT02944383|164446386|SUPERIORITY|||||||0.8602||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||||||0.8602
82367936|NCT02944383|164446386|SUPERIORITY|||||||0.8555||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||||||0.8555
82367937|NCT02944383|164446387|SUPERIORITY|||||||0.0583||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0583
82367938|NCT02944383|164446387|SUPERIORITY|||||||0.2289||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2289
82367939|NCT02944383|164446387|SUPERIORITY|||||||0.0416||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0416
82367940|NCT02944383|164446387|SUPERIORITY|||||||0.015||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0150
82395163|NCT00553358|164501137|SUPERIORITY||Hazard Ratio (HR)|0.433||||0.125|TWO_SIDED|95.0|0.12|1.17|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the lapatinib arm||1.17|0.12|0.125
82528640|NCT02969525|164753263|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|4.2|||=|0.032|TWO_SIDED|95.0|1.13|15.23||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||15.23|1.13|=0.032
82528641|NCT02969525|164753263|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|8.1|||=|0.001|TWO_SIDED|95.0|2.28|28.74||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||28.74|2.28|=0.001
82528642|NCT02969525|164753263|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|9.7|||<|0.001|TWO_SIDED|95.0|2.73|34.26||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||34.26|2.73|<0.001
82575454|NCT00790205|164860601|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.65|0.75|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.75|0.65|<0.001
82367941|NCT02944383|164446387|SUPERIORITY||Median Difference (Net)|-26.21||||0.0718|TWO_SIDED|95.0|-54.29|-1.26||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-1.26|-54.29|0.0718
82367942|NCT02944383|164446387|SUPERIORITY||Median Difference (Net)|-18.68||||0.1248|TWO_SIDED|95.0|-50.0|7.31||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||7.31|-50.00|0.1248
82367943|NCT02944383|164446388|SUPERIORITY|||||||0.2397||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.2397
82367944|NCT02944383|164446388|SUPERIORITY|||||||0.5399||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5399
82367945|NCT02944383|164446388|SUPERIORITY|||||||0.0409||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0409
82367946|NCT02944383|164446388|SUPERIORITY|||||||0.0073||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0073
82367947|NCT02944383|164446388|SUPERIORITY|||||||0.0976||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0976
82647862|NCT01244815|165011164|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.811|TWO_SIDED|95.0|-0.24|0.19|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.19|-0.24|0.811
82395164|NCT00553358|164501137|SUPERIORITY||Hazard Ratio (HR)|0.414||||0.058|TWO_SIDED|95.0|0.15|1.0|||Regression, Cox||Cox models (Cox, 1972), with the stratification factors entered as strata variables, were used to calculate a hazard ratio and corresponding confidence interval comparing pCR and no pCR.|Subjects in the OS landmark analysis in the trastuzumab arm||1.00|0.15|0.058
82528643|NCT02969525|164753263|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|3.7|||=|0.051|TWO_SIDED|95.0|1.0|13.68||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Factor Necrosis (TNF) inhibitor exposure.||13.68|1.00|=0.051
82528644|NCT02969525|164753264|OTHER||Odds Ratio (OR)|4.6|||=|0.002|TWO_SIDED|95.0|1.73|12.39||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||12.39|1.73|=0.002
82528645|NCT02969525|164753264|OTHER||Odds Ratio (OR)|11.0|||<|0.001|TWO_SIDED|95.0|3.91|30.95||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||30.95|3.91|<0.001
82528646|NCT02969525|164753264|OTHER||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|2.31|16.84||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||16.84|2.31|<0.001
82528647|NCT02969525|164753264|OTHER||Odds Ratio (OR)|4.2|||=|0.004|TWO_SIDED|95.0|1.59|11.35||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||11.35|1.59|=0.004
82528648|NCT02969525|164753265|OTHER||Odds Ratio (OR)|2.4|||=|0.279|TWO_SIDED|95.0|0.5|11.31||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||11.31|0.50|=0.279
82528649|NCT02969525|164753265|OTHER||Odds Ratio (OR)|4.1|||=|0.065|TWO_SIDED|95.0|0.92|17.88||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||17.88|0.92|=0.065
82528650|NCT02969525|164753265|OTHER||Odds Ratio (OR)|7.5|||=|0.006|TWO_SIDED|95.0|1.77|31.28||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||31.28|1.77|=0.006
82528651|NCT02969525|164753265|OTHER||Odds Ratio (OR)|2.9|||=|0.172|TWO_SIDED|95.0|0.63|13.39||No sequential testing procedure was used for the secondary efficacy variables. The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to Placebo: Odds Ratio, confidence interval, and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure.||13.39|0.63|=0.172
82528652|NCT03445065|164753290|SUPERIORITY||Mean Difference (Net)|-0.1||||0.341|TWO_SIDED|95.0|-0.4|0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The ANCOVA model included arm, centre, and type of diabetes as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference in HbA1c (%) at Day 180 was calculated as the Enabled group minus the Control group.|||0.1|-0.4|0.341
82528653|NCT03445065|164753291|SUPERIORITY||Mean Difference (Net)|-1.6||||0.03892|TWO_SIDED|95.0|-3.1|-0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The ANCOVA model included arm and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.1|-3.1|0.03892
82528654|NCT03445065|164753295|SUPERIORITY||Mean Difference (Net)|5.4||||0.056|TWO_SIDED|95.0|-0.1|10.9||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm, centre, and diabetes type as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||10.9|-0.1|0.056
82528655|NCT03445065|164753295|SUPERIORITY||Mean Difference (Net)|4.7||||0.01255|TWO_SIDED|95.0|1.0|8.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||8.4|1.0|0.01255
82575455|NCT00790205|164860602|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.68|0.77|||Cox proportional hazards model|Model stratified by region with treatment group only as explanatory variable.||||0.77|0.68|<0.001
82575456|NCT01441635|164860624|SUPERIORITY||LS Mean Difference|-205.9|STANDARD_ERROR_OF_MEAN|45.1|<|0.001|TWO_SIDED|95.0|-295.77|-116.01|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-116.01|-295.77|< 0.001
82575457|NCT01441635|164860624|SUPERIORITY||LS Mean Difference|-189.9|STANDARD_ERROR_OF_MEAN|44.36|<|0.001|TWO_SIDED|95.0|-278.33|-101.53|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-101.53|-278.33|< 0.001
82575458|NCT01441635|164860624|SUPERIORITY||LS Mean Difference|-138.0|STANDARD_ERROR_OF_MEAN|40.86||0.001|TWO_SIDED|95.0|-220.18|-55.76|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-55.76|-220.18|0.001
82575459|NCT01441635|164860624|SUPERIORITY||LS Mean Difference|-130.6|STANDARD_ERROR_OF_MEAN|37.68||0.001|TWO_SIDED|95.0|-206.7|-54.6|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-54.60|-206.70|0.001
82575460|NCT01441635|164860625|SUPERIORITY||LS Mean Difference|-75.6|STANDARD_ERROR_OF_MEAN|13.71|<|0.001|TWO_SIDED|95.0|-102.93|-48.28|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-48.28|-102.93|< 0.001
82575461|NCT01441635|164860625|SUPERIORITY||LS Mean Difference|-64.27|STANDARD_ERROR_OF_MEAN|13.48|<|0.001|TWO_SIDED|95.0|-91.14|-37.39|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-37.39|-91.14|< 0.001
82575462|NCT01441635|164860625|SUPERIORITY||LS Mean Difference|-67.67|STANDARD_ERROR_OF_MEAN|22.73||0.005|TWO_SIDED|95.0|-113.39|-21.96|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-21.96|-113.39|0.005
82575463|NCT01441635|164860625|SUPERIORITY||LS mean Difference|-56.84|STANDARD_ERROR_OF_MEAN|8.12|<|0.001|TWO_SIDED|95.0|-73.24|-40.45|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-40.45|-73.24|< 0.001
82575464|NCT01441635|164860626|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575465|NCT01441635|164860626|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575466|NCT01441635|164860626|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82395165|NCT00236899|164501149|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.345||95.0|0.87|1.5|||Regression, Cox|||||1.50|0.87|0.345
82575467|NCT01441635|164860626|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575468|NCT01441635|164860627|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575469|NCT01441635|164860627|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575470|NCT01441635|164860627|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575471|NCT01441635|164860627|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82395166|NCT00236899|164501150|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.885|TWO_SIDED|95.0|0.69|1.37|||Regression, Cox|||||1.37|0.69|0.885
82395167|NCT00236899|164501151|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.976|TWO_SIDED|95.0|0.71|1.42|||Regression, Cox|||||1.42|0.71|0.976
82575472|NCT01441635|164860628|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575473|NCT01441635|164860628|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82395168|NCT00236899|164501152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.442||||0.0028|TWO_SIDED|95.0|0.259|0.754|||Regression, Logistic|||||0.754|0.259|0.0028
82395169|NCT00236899|164501153|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.15|TWO_SIDED|95.0|0.93|1.62|||Regression, Cox|||||1.62|0.93|0.150
82575474|NCT01441635|164860628|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575475|NCT01441635|164860628|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82575476|NCT01441635|164860630|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|0.97|2.56|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||2.56|0.97|< 0.001
82575477|NCT01441635|164860630|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|1.0|2.56|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||2.56|1.00|< 0.001
82575478|NCT01441635|164860630|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.4||0.024|TWO_SIDED|95.0|0.13|1.75|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.75|0.13|0.024
82575479|NCT01441635|164860630|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|0.28|1.51|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.51|0.28|0.005
82575480|NCT01441635|164860631|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.14||0.011|TWO_SIDED|95.0|-0.63|-0.08|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.08|-0.63|0.011
82575481|NCT01441635|164860631|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.03|TWO_SIDED|95.0|-0.59|-0.03|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.03|-0.59|0.030
82575482|NCT01441635|164860631|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.109|TWO_SIDED|95.0|-0.59|0.06|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||0.06|-0.59|0.109
82575483|NCT01441635|164860631|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.002|TWO_SIDED|95.0|-0.8|-0.19|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.19|-0.80|0.002
82575484|NCT01441635|164860632|SUPERIORITY||LS Mean Difference|-10.29|STANDARD_ERROR_OF_MEAN|4.32||0.02|TWO_SIDED|95.0|-18.9|-1.67|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-1.67|-18.90|0.020
82575485|NCT01441635|164860632|SUPERIORITY||LS Mean Difference|-7.62|STANDARD_ERROR_OF_MEAN|4.39||0.087|TWO_SIDED|95.0|-16.36|1.13|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.13|-16.36|0.087
82575486|NCT01441635|164860632|SUPERIORITY||LS Mean Difference|-8.81|STANDARD_ERROR_OF_MEAN|4.28||0.045|TWO_SIDED|95.0|-17.43|-0.19|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-0.19|-17.43|0.045
82575487|NCT01441635|164860632|SUPERIORITY||LS Mean Difference|-13.69|STANDARD_ERROR_OF_MEAN|4.14||0.002|TWO_SIDED|95.0|-22.06|-5.32|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-5.32|-22.06|0.002
82575488|NCT01441635|164860633|SUPERIORITY||LS Mean Difference|-5.51|STANDARD_ERROR_OF_MEAN|2.03||0.008|TWO_SIDED|95.0|-9.56|-1.47|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-1.47|-9.56|0.008
82444511|NCT01073930|164597742|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the 1-sided 97.5% CI for the treatment difference (PICOPREP minus HalfLytely) was \>-9% for the percentage of responders. Superiority was demonstrated if the 1-sided 97.5% CI for treatment difference was \>0%.|Mean Difference (Net)|9.8|||||ONE_SIDED|97.5|3.4||||||||||3.4|
82528656|NCT03445065|164753296|SUPERIORITY||Mean Difference (Net)|-5.5||||0.015|TWO_SIDED|95.0|-9.9|-1.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia \>250mg/dL Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-1.1|-9.9|0.015
82528657|NCT03445065|164753296|SUPERIORITY||Mean Difference (Net)|-1.0||||0.50266|TWO_SIDED|95.0|-4.0|2.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||2.0|-4.0|0.50266
82528658|NCT03445065|164753297|SUPERIORITY||Mean Difference (Net)|-5.1||||0.08|TWO_SIDED|95.0|-10.9|0.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia \>180mg/dL Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.6|-10.9|0.080
82528659|NCT03445065|164753297|SUPERIORITY||Mean Difference (Net)|-3.3||||0.10637|TWO_SIDED|95.0|-7.3|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-7.3|0.10637
82528660|NCT03445065|164753298|SUPERIORITY||Mean Difference (Net)|-0.2||||0.671|TWO_SIDED|95.0|-1.2|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-1.2|0.671
82528661|NCT03445065|164753298|SUPERIORITY||Mean Difference (Net)|-1.8||||0.12935|TWO_SIDED|95.0|-4.1|0.5||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.5|-4.1|0.12935
82528662|NCT03445065|164753299|SUPERIORITY||Mean Difference (Net)|-0.1||||0.693|TWO_SIDED|95.0|-0.6|0.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.4|-0.6|0.693
82528663|NCT03445065|164753300|SUPERIORITY||Mean Difference (Net)|-0.9||||0.753|TWO_SIDED|95.0|-6.7|4.9||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||4.9|-6.7|0.753
82528664|NCT03445065|164753300|SUPERIORITY||Mean Difference (Net)|-0.4||||0.84307|TWO_SIDED|95.0|-4.6|3.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effect, and % time in euglycemic range (Day0-30) as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.8|-4.6|0.84307
82528665|NCT03445065|164753301|SUPERIORITY||Mean Difference (Net)|-0.9||||0.653|TWO_SIDED|95.0|-4.8|3.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.0|-4.8|0.653
82528666|NCT03445065|164753301|SUPERIORITY||Mean Difference (Net)|2.3||||0.07261|TWO_SIDED|95.0|-0.2|4.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>250mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||4.8|-0.2|0.07261
82528667|NCT03445065|164753302|SUPERIORITY||Mean Difference (Net)|1.3||||0.685|TWO_SIDED|95.0|-4.9|7.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||7.4|-4.9|0.685
82528668|NCT03445065|164753302|SUPERIORITY||Mean Difference (Net)|3.1||||0.19785|TWO_SIDED|95.0|-1.6|7.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hyperglycemia (\>180mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||7.8|-1.6|0.19785
82575489|NCT01441635|164860633|SUPERIORITY||LS Mean Difference|-4.95|STANDARD_ERROR_OF_MEAN|2.08||0.02|TWO_SIDED|95.0|-9.11|-0.8|||ANCOVA|||||-0.80|-9.11|0.020
82395170|NCT00236899|164501154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.818||||0.4567|TWO_SIDED|95.0|0.482|1.389|||Regression, Logistic|||||1.389|0.482|0.4567
82395171|NCT00236899|164501156|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||This is the p-value for Treatment Schedule (Docetaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine 3 Weekly) and Treatment Drug (Docetaxel and Gemcitabine Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.142
82448948|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS mean Difference|0.41||||0.0786|TWO_SIDED|95.0|-0.05|0.87|||ANCOVA|||Comparison for Q2 at Day 14||0.87|-0.05|0.0786
82395172|NCT00236899|164501156|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||This is the p-value for Treatment Drug (Docetaxel and Gemcitabine 3 Weekly + Docetaxel and Gemcitabine Weekly vs Paclitaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.470
82395173|NCT00236899|164501157|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||This is the p-value for Treatment Schedule (Docetaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine 3 Weekly) and Treatment Drug (Docetaxel and Gemcitabine Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.293
82575490|NCT01441635|164860633|SUPERIORITY||LS Mean Difference|-3.63|STANDARD_ERROR_OF_MEAN|2.75||0.194|TWO_SIDED|95.0|-9.18|1.91|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||1.91|-9.18|0.194
82395174|NCT00236899|164501157|SUPERIORITY_OR_OTHER|||||||0.476||95.0||||This is the p-value for Treatment Drug (Docetaxel and Gemcitabine 3 Weekly + Docetaxel and Gemcitabine Weekly vs Paclitaxel and Gemcitabine 3 Weekly + Paclitaxel and Gemcitabine Weekly).|Fisher Exact|||||||0.476
82367948|NCT02944383|164446388|SUPERIORITY|||||||0.1899||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1899
82367949|NCT02944383|164446389|SUPERIORITY|||||||0.1747||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1747
82395175|NCT00306787|164501165|NON_INFERIORITY_OR_EQUIVALENCE|The estimated power for non-inferiority test (90%) was based on the non-inferiority margin of 1.0 day.|Median Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.15|0.6|||Hodges-Lehman|||Difference in time to healing= time to healing for famciclovir- time to healing for valacyclovir.||0.60|-0.15|
82395176|NCT01438814|164501171|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test relative to 0.35|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|||||0.12|-0.13|<0.0001
82444512|NCT01073930|164597743|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|10.7|||||ONE_SIDED|97.5|4.9|||||||Ascending colon comparison|||4.9|
82575491|NCT01441635|164860633|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.04||0.001|TWO_SIDED|95.0|-11.33|-3.07|||ANCOVA|ANCOVA model with treatment as a factor and baseline as a covariate.||||-3.07|-11.33|0.001
82395177|NCT01438814|164501171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8924||95.0|-0.13|0.12|||ANCOVA|||||0.12|-0.13|0.8924
82575492|NCT01441635|164860636|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
82575493|NCT01441635|164860636|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
82575494|NCT01441635|164860636|SUPERIORITY|||||||0.052|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.052
82644256|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.381|||<|0.0001|TWO_SIDED|95.0|-0.604|-0.157|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.157|-0.604|<.0001
82367950|NCT02944383|164446389|SUPERIORITY|||||||0.4576||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4576
82575495|NCT01441635|164860636|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||< 0.001
82575496|NCT01441635|164860637|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
82575497|NCT01441635|164860637|SUPERIORITY|||||||0.016|||||||Fisher Exact|||||||0.016
82575498|NCT01441635|164860637|SUPERIORITY|||||||0.012|||||||Fisher Exact|||||||0.012
82367951|NCT02944383|164446389|SUPERIORITY|||||||0.1549||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1549
82367952|NCT02944383|164446389|SUPERIORITY|||||||0.2427||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2427
82395178|NCT01438814|164501172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8201||95.0|0.672|1.37|||Regression, Logistic|Model includes treatment and continuous baseline HbA1c||||1.370|0.672|0.8201
82395179|NCT01438814|164501173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.022||||0.9397|TWO_SIDED|95.0|0.582|1.796|||Regression, Logistic|Model includes treatment and baseline HbA1c.||||1.796|0.582|0.9397
82395180|NCT01438814|164501174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.1||0.3352||95.0|-2.1|6.1|||ANCOVA|||||6.1|-2.1|0.3352
82395181|NCT01438814|164501175|SUPERIORITY_OR_OTHER|||||||0.0308|||||||Fisher Exact|Fishers exact p-value presented due to small cell counts||||||0.0308
82395182|NCT01438814|164501176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0545||95.0|0.0|1.0|||ANCOVA|||||1.0|-0.0|0.0545
82575499|NCT01441635|164860637|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82395183|NCT01438814|164501177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.997||||0.9886||95.0|0.689|1.445|||Regression, Logistic|||||1.445|0.689|0.9886
82395184|NCT01438814|164501178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.797||||0.2108||95.0|0.558|1.137|||Regression, Logistic|||||1.137|0.558|0.2108
82395185|NCT01438814|164501179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.9972||95.0|0.712|1.402|||Regression, Logistic|||||1.402|0.712|0.9972
82395186|NCT01438814|164501180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.832||||0.2816||95.0|0.594|1.163|||Regression, Logistic|||||1.163|0.594|0.2816
82395187|NCT01438814|164501181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.19||0.0011||95.0|0.25|0.98|||ANCOVA|||||0.98|0.25|0.0011
82575500|NCT01441635|164860638|SUPERIORITY|||||||0.161|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor||||||0.161
82575501|NCT01441635|164860638|SUPERIORITY|||||||0.173|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.173
82575502|NCT01441635|164860638|SUPERIORITY|||||||0.072|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.072
82575503|NCT01441635|164860638|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|One-way Kruskal-Wallis test with treatment as a factor.||||||0.003
82575504|NCT01441635|164860639|SUPERIORITY|||||||0.203|||||||Fisher Exact|||||||0.203
82395188|NCT01438814|164501182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.951||||0.7682||95.0|0.681|1.328|||Regression, Logistic|||||1.328|0.681|0.7682
82395189|NCT02273908|164501184|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.949|||<|0.001|TWO_SIDED|95.0|-1.459|-0.439|||Mixed Models Analysis|||||-0.439|-1.459|<0.001
82395190|NCT02273908|164501185|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.259|||<|0.001|TWO_SIDED|95.0|-3.131|-1.387|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||-1.387|-3.131|<0.001
82395191|NCT02273908|164501185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.887|||<|0.001|TWO_SIDED|95.0|-2.704|-1.071|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||-1.071|-2.704|<0.001
82395192|NCT02273908|164501186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3018|||<|0.001|TWO_SIDED|95.0|1.4903|5.1133|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||5.1133|1.4903|<0.001
82395193|NCT02273908|164501186|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|2.729||||0.004|TWO_SIDED|95.0|0.9047|4.5533|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||4.5533|0.9047|0.004
82395194|NCT02273908|164501187|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.301|-0.359|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||-0.359|-1.301|<0.001
82395195|NCT02273908|164501187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.674||||0.004|TWO_SIDED|95.0|-1.125|-0.223|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||-0.223|-1.125|0.004
82395196|NCT02273908|164501188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0204||||0.175|TWO_SIDED|95.0|-0.0091|0.0499|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||0.0499|-0.0091|0.175
82395197|NCT02273908|164501188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0329||||0.017|TWO_SIDED|95.0|0.0058|0.06|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||0.0600|0.0058|0.017
82395198|NCT02273908|164501189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.697||||0.026|TWO_SIDED|95.0|0.552|8.842|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 8.||8.842|0.552|0.026
82395199|NCT02273908|164501189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.292||||0.477|TWO_SIDED|95.0|-2.282|4.866|||Mixed Models Analysis|||Analysis on the mean difference between two groups with the change from baseline at Week 4.||4.866|-2.282|0.477
82395200|NCT02273908|164501190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Modified Chi-squared|||||||<0.001
82395201|NCT02273908|164501191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Modified Chi-squared|||||||<0.001
82395202|NCT04908475|164501197|SUPERIORITY||Adjusted Difference|50.7|||<|0.001|TWO_SIDED|95.0|41.3|60.1||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\]) for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||60.1|41.3|< 0.001
82395203|NCT04908475|164501198|SUPERIORITY||Adjusted Difference|56.8|||<|0.001|TWO_SIDED|95.0|47.7|66.0||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\]) for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||66.0|47.7|< 0.001
82395204|NCT04908475|164501199|SUPERIORITY||Difference|69.7|||<|0.001|TWO_SIDED|95.0|59.5|80.0|||Chi-squared|||||80.0|59.5|< 0.001
82395205|NCT04908475|164501200|SUPERIORITY||Adjusted Difference|65.9|||<|0.001|TWO_SIDED|95.0|57.6|73.9||Adjusted for strata (baseline body weight \[≤ 100 kg, \> 100 kg\] and prior exposure to any systemic and/or biologic treatment for psoriasis \[0, ≥ 1\] for the comparison of 2 treatment groups.|Cochran-Mantel-Haenszel|||||73.9|57.6|< 0.001
82395206|NCT04908475|164501201|SUPERIORITY||Difference|71.6|||<|0.001|TWO_SIDED|95.0|60.9|82.3|||Chi-squared|||||82.3|60.9|< 0.001
82395207|NCT04908475|164501202|SUPERIORITY||Difference|69.4|||<|0.001|TWO_SIDED|95.0|58.6|80.2|||Chi-squared|||||80.2|58.6|< 0.001
82395208|NCT00337779|164501210|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0732|STANDARD_ERROR_OF_MEAN|0.1013||0.4859|TWO_SIDED|95.0|0.8799|1.309|||Regression, Poisson||980 subjects randomized into two arms provide approximately 90% power to detect significant difference between groups of 30% or more in rate of confirmed relapses.|||1.3090|0.8799|0.4859
82395209|NCT03887429|164501220|SUPERIORITY||||||=|0.009|||||||t-test, 1 sided|||It was hypothesized that treatment with SXC-2023 would reduce impulsivity as measured by SSRT in chronic cigarette smokers abstaining from nicotine for 5 days.||||=.009
82395210|NCT03887429|164501221|SUPERIORITY||||||=|0.015|||||||t-test, 1 sided|||It was hypothesized that 5 days of nicotine abstinence in chronic cigarette smokers would result in increased risk taking behavior as measured using DAVT in subjects receiving placebo as treatment.||||=.015
82395211|NCT03887429|164501221|SUPERIORITY||||||>|0.1|||||||t-test, 1 sided|||It was hypothesized that 5 days of nicotine abstinence in chronic cigarette smokers would not result in increased risk taking behavior as measured using DAVT in subjects treated with SXC-2023.||||>.1
82395212|NCT02943785|164501239|NON_INFERIORITY|The two-sided p-value (Noninferiority) was based on the noninferiority margin of 1.38.|Cox Proportional Hazard|1.05||||0.0141|TWO_SIDED|95.0|0.85|1.31|||Regression, Cox|||||1.31|0.85|0.0141
82395213|NCT02943785|164501240|NON_INFERIORITY|The two-sided p-value (Noninferiority) was based on the noninferiority margin of 1.38.|Cox Proportional Hazard|1.4||||0.9267|TWO_SIDED|95.0|1.03|1.91|||Regression, Cox|||||1.91|1.03|0.9267
82395214|NCT03313310|164501254|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.98||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.98
82444513|NCT01073930|164597743|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|6.6|||||ONE_SIDED|97.5|1.6|||||||Mid colon comparison|||1.6|
82448949|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.72||||0.1693|TWO_SIDED|95.0|-1.75|0.32||Between treatment p-values and confidence intervals|ANCOVA|||Comparisons for Q4 at Day 14||0.32|-1.75|0.1693
82528669|NCT03445065|164753303|SUPERIORITY||Mean Difference (Net)|-0.4||||0.549|TWO_SIDED|95.0|-1.5|0.8||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.8|-1.5|0.549
82528670|NCT03445065|164753303|SUPERIORITY||Mean Difference (Net)|-3.3||||0.0318|TWO_SIDED|95.0|-6.3|-0.3||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<70mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.3|-6.3|0.03180
82528671|NCT03445065|164753304|SUPERIORITY||Mean Difference (Net)|0.1||||0.859|TWO_SIDED|95.0|-0.6|0.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.7|-0.6|0.859
82528672|NCT03445065|164753304|SUPERIORITY||Mean Difference (Net)|-2.6||||0.01124|TWO_SIDED|95.0|-4.5|-0.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||-0.6|-4.5|0.01124
82528673|NCT03445065|164753305|SUPERIORITY||Mean Difference (Net)|-0.802|STANDARD_ERROR_OF_MEAN|0.391||0.045|TWO_SIDED|95.0|-1.1585|-0.018||The significance level was set to p\<0.05 (two-sided).|Mixed Models Analysis|The model included time and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled (D150-180) group minus the Enabled (D90-120) group.|||-0.018|-1.1585|0.045
82528674|NCT03445065|164753306|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|1.54||0.763|TWO_SIDED|95.0|-2.741|3.682||The significance level was set to p\<0.05 (two-sided).|Mixed Model for Repeated Measures|The model included time and centre as fixed classification effects and % time in hypoglycemia (\<54mg/dL) Day0-30 as baseline covariate.|The mean difference was calculated as the Switch to Enabled (D150-180) group minus the Control (D90-120) group.|||3.682|-2.741|0.763
82528675|NCT03445065|164753307|SUPERIORITY||Mean Difference (Net)|1.3||||0.14|TWO_SIDED|95.0|-0.4|3.0||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.0|-0.4|0.140
82528676|NCT03445065|164753307|SUPERIORITY||Mean Difference (Net)|-0.5||||0.6411|TWO_SIDED|95.0|-2.6|1.6||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||1.6|-2.6|0.64110
82528677|NCT03445065|164753308|SUPERIORITY||Mean Difference (Net)|1.0||||0.339|TWO_SIDED|95.0|-1.1|3.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|Model included arm, centre, and diabetes type as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||3.1|-1.1|0.339
82528678|NCT03445065|164753308|SUPERIORITY||Mean Difference (Net)|-0.7||||0.57677|TWO_SIDED|95.0|-3.0|1.7||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and glucose variability Day0-30 as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||1.7|-3.0|0.57677
82575505|NCT01441635|164860639|SUPERIORITY|||||||0.342|||||||Fisher Exact|||||||0.342
82367953|NCT02944383|164446389|SUPERIORITY||Median Difference (Net)|1.51||||0.1379|TWO_SIDED|95.0|-6.26|8.73||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||8.73|-6.26|0.1379
82367954|NCT02944383|164446389|SUPERIORITY||Median Difference (Net)|-6.02||||0.249|TWO_SIDED|95.0|-13.1|0.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||0.51|-13.10|0.2490
82367955|NCT02944383|164446390|SUPERIORITY|||||||0.155||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1550
82575506|NCT01441635|164860639|SUPERIORITY|||||||0.038|||||||Fisher Exact|||||||0.038
82575507|NCT01441635|164860639|SUPERIORITY|||||||0.111|||||||Fisher Exact|||||||0.111
82575508|NCT00358644|164860647|SUPERIORITY_OR_OTHER||Percentage of Participants|23.6||||||95.0|13.2|37.0||||||||37.0|13.2|
82575509|NCT00401258|164860675|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82575510|NCT00401258|164860676|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Average pain severity statistical analysis||||<.001
82575511|NCT00401258|164860676|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Average pain interference statistical analysis||||<.001
82644257|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.484|-0.977|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.977|-1.484|<.0001
82647863|NCT01244815|165011164|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.07||||0.556|TWO_SIDED|95.0|-0.15|0.28|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.28|-0.15|0.556
82367956|NCT02944383|164446390|SUPERIORITY|||||||0.6604||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.6604
82395215|NCT03313310|164501254|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.05||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.05
82395216|NCT03313310|164501255|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.39||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.39
82528679|NCT03445065|164753309|SUPERIORITY||Mean Difference (Net)|-0.1||||0.558|TWO_SIDED|95.0|-0.3|0.2||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm, centre, and diabetes type as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.2|-0.3|0.558
82528680|NCT03445065|164753309|SUPERIORITY||Mean Difference (Net)|-0.1||||0.408|TWO_SIDED|95.0|-0.3|0.1||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference was calculated as the Enabled group minus the Control group.|||0.1|-0.3|0.408
82528681|NCT03445065|164753310|SUPERIORITY||Mean Difference (Net)|0.1||||0.616|TWO_SIDED|95.0|-0.2|0.4||The significance level was set to p\<0.05 (two-sided).|ANCOVA|The model included arm and centre as fixed classification effects, and HbA1c (%) at inclusion as baseline covariate.|The mean difference in HbA1c (%) at Day 180 was calculated as the Enabled group minus the Control group.|||0.4|-0.2|0.616
82528682|NCT00524030|164753331|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald Test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||Null hypothesis (H0): Exit rate greater than or equal to (≥)74%||||<0.001
82528683|NCT00524030|164753331|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald Test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exite rate ≥68%||||<0.001
82395217|NCT03313310|164501255|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.76||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.76
82528684|NCT00524030|164753332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Wald test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exit rate ≥74%||||<0.001
82528685|NCT00524030|164753332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Wald test|2-sided 95% adjusted confidence interval constructed using KM product limit estimation and Greenwood's formula for variance with continuity correction||H0: Exit rate ≥68%||||0.001
82575512|NCT00401258|164860677|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||.001
82367957|NCT02944383|164446390|SUPERIORITY|||||||0.0952||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0952
82367958|NCT02944383|164446390|SUPERIORITY|||||||0.3006||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3006
82395218|NCT03313310|164501256|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.|||||<|0.001||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||<0.001
82395219|NCT03313310|164501256|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.02||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.02
82528686|NCT02707692|164753341|SUPERIORITY||Mean Difference (Final Values)|-988.0||||0.32|TWO_SIDED|95.0|-2996.3|1020.3|||Paired t-test, 2 sided|||Primary hypothesis: Participants will have a higher absolute difference in levels of CD4+ T cell-associated HIV RNA transcription seven days after receiving either Pneumococcal or Influenza vaccinations, when compared to seven days after receiving placebo.||1020.3|-2996.3|0.32
82575513|NCT00401258|164860678|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82575514|NCT00401258|164860680|SUPERIORITY_OR_OTHER|||||||0.031|||||||Mixed Models Analysis|||||||0.031
82575515|NCT00401258|164860681|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82575516|NCT00401258|164860682|SUPERIORITY_OR_OTHER|||||||0.004||||||Refers to work/school sub-scale|Mixed Models Analysis|||||||0.004
82367959|NCT02944383|164446390|SUPERIORITY|||||||0.0642||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0642
82575517|NCT00401258|164860682|SUPERIORITY_OR_OTHER|||||||0.087||||||Refers to social sub scale|Mixed Models Analysis|||||||0.087
82367960|NCT02944383|164446390|SUPERIORITY|||||||0.3185||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3185
82367961|NCT02944383|164446391|SUPERIORITY|||||||0.0679||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.0679
82395220|NCT03313310|164501257|OTHER|A one-sample non-parametric test for change between baseline and 8-month follow-up was conducted.||||||0.51||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.51
82395221|NCT03313310|164501257|OTHER|A one-sample non-parametric test for change between baseline and 3-month follow-up was conducted.||||||0.17||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|Wilcoxon Signed Rank|||||||0.17
82575518|NCT00401258|164860682|SUPERIORITY_OR_OTHER|||||||0.006||||||Refers to family sub scale|Mixed Models Analysis|||||||0.006
82575519|NCT03518567|164860689|SUPERIORITY||Slope|0.78||||4e-08|TWO_SIDED||||||Regression, Linear|"hits purchased on the MPT predicting hits actually purchased and smoked in the laboratory.~covariate: baseline total individual income"||||||.00000004
82575520|NCT03518567|164860690|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_DEVIATION|1.09||9e-09|TWO_SIDED||||||t-test, 2 sided|||||||.000000009
82575521|NCT03518567|164860691|SUPERIORITY||correlation|0.02||||0.87|TWO_SIDED||||||correlation|Correlation between puffs on the topography device and grams of cannabis used per week.||||||.87
82575522|NCT02614183|164860700|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.48|-1.37|||Mixed Models Analysis|||||-1.37|-2.48|<.001
82644258|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.284|||<|0.0001|TWO_SIDED|95.0|-1.539|-1.029|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.029|-1.539|<.0001
82367962|NCT02944383|164446391|SUPERIORITY|||||||0.4126||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.4126
82367963|NCT02944383|164446391|SUPERIORITY|||||||0.0095||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0095
82367964|NCT02944383|164446391|SUPERIORITY|||||||0.0172||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0172
82367965|NCT02944383|164446391|SUPERIORITY||Median Difference (Net)|-23.23||||0.0359|TWO_SIDED|95.0|-41.54|-3.64||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||-3.64|-41.54|0.0359
82367966|NCT02944383|164446391|SUPERIORITY||Median Difference (Net)|-16.06||||0.0812|TWO_SIDED|95.0|-38.62|5.61||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.61|-38.62|0.0812
82367967|NCT02944383|164446392|SUPERIORITY|||||||0.1362||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.1362
82367968|NCT02944383|164446392|SUPERIORITY|||||||0.6458||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.6458
82395222|NCT03313310|164501258|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 8-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
82395223|NCT03313310|164501258|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 3-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
82575523|NCT02614183|164860700|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.31|-1.2|||Mixed Models Analysis|||||-1.20|-2.31|<.001
82575524|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|2.05|3.37||||||Reduction from Baseline ≥50%||3.37|2.05|
82575525|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.48|||||TWO_SIDED|95.0|1.94|3.18||||||Reduction from Baseline ≥50%||3.18|1.94|
82575526|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.65|||||TWO_SIDED|95.0|2.04|3.45||||||Reduction from Baseline ≥75%||3.45|2.04|
82644259|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.315|||<|0.0001|TWO_SIDED|95.0|-1.564|-1.065|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.065|-1.564|<.0001
82395224|NCT03313310|164501259|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82395225|NCT03313310|164501259|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.5||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.50
82395226|NCT03313310|164501260|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.63||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.63
82575527|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|2.01|3.41||||||Reduction from Baseline ≥75%||3.41|2.01|
82575528|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|1.96|4.01||||||Reduction from Baseline = 100%||4.01|1.96|
82575529|NCT02614183|164860701|SUPERIORITY||Odds Ratio (OR)|2.61|||||TWO_SIDED|95.0|1.81|3.75||||||Reduction from Baseline = 100%||3.75|1.81|
82575530|NCT02614183|164860702|SUPERIORITY||Mean Difference (Final Values)|7.74|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|5.2|10.28|||Mixed Models Analysis|||||10.28|5.20|<.001
82575531|NCT02614183|164860702|SUPERIORITY||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|1.31|<|0.001|TWO_SIDED|95.0|4.83|9.97|||Mixed Models Analysis|||||9.97|4.83|<.001
82575532|NCT02614183|164860703|SUPERIORITY||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.28|-1.33|||Mixed Models Analysis|||||-1.33|-2.28|<.001
82575533|NCT02614183|164860703|SUPERIORITY||Odds Ratio (OR)|-1.61|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.09|-1.14|||Mixed Models Analysis|||||-1.14|-2.09|<.001
82644260|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.259|||<|0.0001|TWO_SIDED|95.0|-1.512|-1.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.006|-1.512|<.0001
82575534|NCT02614183|164860704|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.12|||Mixed Models Analysis|||||-0.12|-0.52|<.001
82395227|NCT03313310|164501260|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82575535|NCT02614183|164860704|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.48|-0.07|||Mixed Models Analysis|||||-0.07|-0.48|<.001
82575536|NCT02614183|164860705|SUPERIORITY||Mean Difference (Final Values)|-13.98|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|-18.99|-8.97|||Mixed Models Analysis|||||-8.97|-18.99|<.001
82395228|NCT03313310|164501261|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82395229|NCT03313310|164501261|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.25||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.25
82395230|NCT03313310|164501262|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82395231|NCT03313310|164501262|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82575537|NCT02614183|164860705|SUPERIORITY||Mean Difference (Final Values)|-13.64|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-18.68|-8.6|||Mixed Models Analysis|||||-8.60|-18.68|<.001
82575538|NCT02614183|164860706|SUPERIORITY||Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|1.61|<|0.001|TWO_SIDED|95.0|-9.45|-3.13|||Mixed Models Analysis|||||-3.13|-9.45|<.001
82575539|NCT02614183|164860706|SUPERIORITY||Mean Difference (Final Values)|-5.19|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-8.39|-1.98|||Mixed Models Analysis|||||-1.98|-8.39|<.001
82575540|NCT02614183|164860707|SUPERIORITY||||||<|0.16|||||||Fisher Exact|||TE ADA Positive.||||<.160
82575541|NCT02614183|164860707|SUPERIORITY|||||||0.02|||||||Fisher Exact|||TE ADA Positive.||||.020
82575542|NCT02614183|164860707|SUPERIORITY|||||||0.131|||||||Fisher Exact|||Neutralizing Antibodies.||||.131
82575543|NCT02614183|164860707|SUPERIORITY|||||||0.009|||||||Fisher Exact|||Neutralizing Antibodies.||||.009
82575544|NCT02726945|164860711|SUPERIORITY|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||"Data from the groups showed a strong non-normal distribution, thus non-parametric methods were used with a Bonferroni correction for multiple comparison .~Statistical significance was defined as either of the treatment groups to be superior to the placebo group."||||0.023
82575545|NCT02726945|164860711|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||"Data from the groups showed a strong non-normal distribution, thus non-parametric methods were used with a Bonferroni correction for multiple comparison .~Statistical significance was defined as either of the treatment groups to be superior to the placebo group."||||0.043
82644261|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.972|||<|0.0001|TWO_SIDED|95.0|0.732|1.211|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.211|0.732|<.0001
82528687|NCT02707692|164753341|SUPERIORITY||Mean Difference (Final Values)|-405.0||||0.31|TWO_SIDED|95.0|-1199.7|389.7|||Paired t-test, 2 sided|||Primary hypothesis: Participants will have a higher absolute difference in levels of CD4+ T cell-associated HIV RNA transcription seven days after receiving either Pneumococcal or Influenza vaccinations, when compared to seven days after receiving placebo.||389.7|-1199.7|0.31
82528688|NCT03469284|164753358|OTHER|||||||0.0034|||||||ANOVA|||||||0.0034
82644262|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.918|||<|0.0001|TWO_SIDED|95.0|0.676|1.161|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.161|0.676|<.0001
82644263|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.037|||<|0.0001|TWO_SIDED|95.0|0.797|1.278|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.278|0.797|<.0001
82528689|NCT03469284|164753359|OTHER|||||||0.0008|||||||ANOVA|||||||0.0008
82528690|NCT03469284|164753361|OTHER|||||||0.9182|||||||Fisher Exact|||||||0.9182
82528691|NCT03469284|164753362|OTHER|||||||0.1046|||||||Fisher Exact|||||||0.1046
82528692|NCT01590771|164753364|SUPERIORITY_OR_OTHER||Robust regression|-0.61|||<|0.001|TWO_SIDED|95.0|-0.77|-0.44||The ANCOVA model controlled for treatment, metformin strata (on or not on metformin), and baseline A1C value.|ANCOVA||Based on robust regression using M-estimation with terms for treatment, metformin strata (on or not on metformin), and baseline A1C value.|||-0.44|-0.77|<0.001
82528693|NCT01590771|164753365|SUPERIORITY_OR_OTHER||Difference in least squares mean|-32.9|||<|0.001|TWO_SIDED|95.0|-45.4|-20.4||The ANCOVA model controlled for treatment, metformin strata (on or not on metformin), and baseline 2-hr PMG value.|ANCOVA|||||-20.4|-45.4|<0.001
82528694|NCT01590771|164753366|SUPERIORITY_OR_OTHER||Estimate difference|-16.8|||<|0.001|TWO_SIDED|95.0|-23.3|-10.2||Based on robust regression using M-estimation with terms for treatment, metformin strata (on or not on metformin), and baseline FPG value.|Robust regression|||||-10.2|-23.3|<0.001
82528695|NCT01590771|164753367|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.41|||<|0.001|TWO_SIDED|95.0|-0.63|-0.2||The ANCOVA model controlled for treatment and baseline A1C value.|ANCOVA|||||-0.20|-0.63|<0.001
82528696|NCT01590771|164753368|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.8|||<|0.001|TWO_SIDED|95.0|-1.07|-0.53||The ANCOVA model controlled for treatment and baseline A1C value.|ANCOVA|||||-0.53|-1.07|<0.001
82528697|NCT01590771|164753369|SUPERIORITY_OR_OTHER||Estimate difference|-27.2|||<|0.001|TWO_SIDED|95.0|-41.2|-13.2||Based on robust regression using M-estimation with terms for treatment and baseline 2-hr PMG value.|Robust regression|||||-13.2|-41.2|<0.001
82367969|NCT02944383|164446392|SUPERIORITY|||||||0.0209||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0209
82528698|NCT01590771|164753370|SUPERIORITY_OR_OTHER||Difference in least squares mean|-37.7|||<|0.001|TWO_SIDED|95.0|-56.9|-18.4||The ANCOVA model controlled for treatment and baseline 2-hr PMG value.|ANCOVA|||||-18.4|-56.9|<0.001
82528699|NCT01590771|164753371|SUPERIORITY_OR_OTHER||Estimate Difference|-16.5|||<|0.001|TWO_SIDED|95.0|-25.3|-7.8||Based on robust regression using M-estimation with terms for treatment and baseline FPG value.|Robust Regression|||||-7.8|-25.3|<0.001
82528700|NCT01590771|164753372|SUPERIORITY_OR_OTHER||Estimate Difference|-17.0|||<|0.001|TWO_SIDED|95.0|-26.9|-7.1||Based on robust regression using M-estimation with terms for treatment and baseline FPG value.|Robust Regression|||||-7.1|-26.9|<0.001
82528701|NCT01486758|164753446|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANCOVA|||||||0.6
82528702|NCT01486758|164753450|SUPERIORITY_OR_OTHER|||||||0.048|||||||Log Rank|||||||0.048
82528703|NCT02608489|164753483|SUPERIORITY_OR_OTHER|||||||0.221|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.221
82528704|NCT02608489|164753483|SUPERIORITY_OR_OTHER|||||||0.015|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12 follow-up.||||0.015
82528705|NCT02608489|164753484|SUPERIORITY_OR_OTHER|||||||0.256|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.256
82528706|NCT02608489|164753484|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at Postoperative week 12 follow-up.||||0.025
82644264|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.914|||<|0.0001|TWO_SIDED|95.0|0.672|1.156|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.156|0.672|<.0001
82644265|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.121||||0.7939|TWO_SIDED|95.0|-0.147|0.388|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.388|-0.147|0.7939
82644266|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.011||||1|TWO_SIDED|95.0|-0.26|0.281|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.281|-0.260|1.0000
82644267|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.036||||1|TWO_SIDED|95.0|-0.228|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.301|-0.228|1.0000
82644268|NCT03692078|165004001|EQUIVALENCE|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.036||||1|TWO_SIDED|95.0|-0.233|0.305|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HMPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.305|-0.233|1.0000
82644269|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|7.367|||<|0.0001|TWO_SIDED|95.0|7.25|7.485|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||7.485|7.250|<.0001
82644270|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|7.368|||<|0.0001|TWO_SIDED|95.0|7.251|7.485|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||7.485|7.251|<.0001
82644271|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.883|||<|0.0001|TWO_SIDED|95.0|6.773|6.994|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||6.994|6.773|<.0001
82647864|NCT01244815|165011165|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21||||0.053|TWO_SIDED|95.0|-0.42|0.0|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.00|-0.42|0.053
82575546|NCT02473965|164860712|SUPERIORITY||Odds Ratio (OR)|0.868|||=|1|TWO_SIDED|95.0|0.27|2.787||The statistical inference was tested as 2-sided with alpha=0.05.|Fisher Exact|||An unstratified analysis using Fisher's exact test was used for treatment comparison without adjustment for stratified baseline prednisone equivalent dose level due to the small cell size. The odds ratio and confidence intervals are calculated overall (i.e. all mITT subjects).||2.787|0.270|=1.00
82528707|NCT02608489|164753485|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.080
82528708|NCT02608489|164753485|SUPERIORITY_OR_OTHER|||||||0.021|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12 follow-up.||||0.021
82575547|NCT02473965|164860713|SUPERIORITY||LS mean difference|1.58|STANDARD_ERROR_OF_MEAN|12.536|=|0.9|TWO_SIDED|95.0|-23.52|26.68|||ANCOVA|||Treatment comparison of percent change in daily CS dose from baseline to Week 39. The Analysis of Covariance model included the percent change from baseline in daily CS dose as the dependent variable, treatment as a fixed effect and baseline daily CS dose as covariate.||26.68|-23.52|=0.900
82575548|NCT01183390|164860715|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.6|||||TWO_SIDED|90.0|95.1|102.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.28|95.10|
82575549|NCT01183390|164860716|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.4|||||TWO_SIDED|90.0|96.99|101.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.80|96.99|
82575550|NCT04057573|164860717|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0004|TWO_SIDED|95.0|1.737|6.835||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.835|1.737|0.0004
82644272|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.892|||<|0.0001|TWO_SIDED|95.0|6.78|7.004|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||7.004|6.780|<.0001
82644273|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.942|||<|0.0001|TWO_SIDED|95.0|6.829|7.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||7.054|6.829|<.0001
82367970|NCT02944383|164446392|SUPERIORITY|||||||0.0822||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0822
82395232|NCT03313310|164501263|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 8-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
82528709|NCT02608489|164753486|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||<0.001
82528710|NCT02608489|164753486|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 4||||<0.001
82647865|NCT01244815|165011165|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.18||||0.094|TWO_SIDED|95.0|-0.4|0.03|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.03|-0.40|0.094
82367971|NCT02944383|164446392|SUPERIORITY|||||||0.0504||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0504
82367972|NCT02944383|164446392|SUPERIORITY|||||||0.1315||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.1315
82367973|NCT02944383|164446393|SUPERIORITY|||||||0.0843||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0843
82395233|NCT03313310|164501263|OTHER||||||||||||||||||A one-sample McNemar's test for change between baseline and 3-month follow-up was planned. The a priori threshold for statistical significance was set at 0.10. However, McNemar's test statistic could not be calculated due to small cell counts.|||
82644274|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.896|||<|0.0001|TWO_SIDED|95.0|6.784|7.008|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||7.008|6.784|<.0001
82644275|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.879|||<|0.0001|TWO_SIDED|95.0|5.739|6.019|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||6.019|5.739|<.0001
82644276|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.804|||<|0.0001|TWO_SIDED|95.0|5.662|5.946|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||5.946|5.662|<.0001
82644277|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.916|||<|0.0001|TWO_SIDED|95.0|5.778|6.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||6.054|5.778|<.0001
82644278|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.917|||<|0.0001|TWO_SIDED|95.0|5.775|6.058|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||6.058|5.775|<.0001
82644279|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|6.017|||<|0.0001|TWO_SIDED|95.0|5.881|6.153|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||6.153|5.881|<.0001
82644280|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|6.012|||<|0.0001|TWO_SIDED|95.0|5.874|6.149|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||6.149|5.874|<.0001
82647866|NCT01244815|165011165|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.15||||0.178|TWO_SIDED|95.0|-0.36|0.07|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.07|-0.36|0.178
82575551|NCT04057573|164860718|SUPERIORITY||Odds Ratio (OR)|3.99|||<|0.0001|TWO_SIDED|95.0|2.296|6.949||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.949|2.296|< 0.0001
82575552|NCT04057573|164860719|SUPERIORITY||Odds Ratio (OR)|15.29||||0.0065|TWO_SIDED|95.0|2.15|108.739||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||108.739|2.150|0.0065
82575553|NCT04057573|164860720|SUPERIORITY||Odds Ratio (OR)|4.29||||0.0006|TWO_SIDED|95.0|1.865|9.853||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||9.853|1.865|0.0006
82575554|NCT04057573|164860721|SUPERIORITY||Odds Ratio (OR)|4.86||||0.0013|TWO_SIDED|95.0|1.851|12.755||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||12.755|1.851|0.0013
82575555|NCT04057573|164860722|SUPERIORITY||Least squares mean difference|-19.5|STANDARD_ERROR_OF_MEAN|4.59|<|0.0001|TWO_SIDED|95.0|-28.46|-10.45||Response Variable = Treatment + Stratification Factors (Skin Type Fitzpatrick scale Type I, II versus Type III, IV, V, and VI, Region North America/Europe) + Baseline|ANCOVA|||||-10.45|-28.46|< 0.0001
82644281|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.484|||<|0.0001|TWO_SIDED|95.0|-0.711|-0.257|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.257|-0.711|<.0001
82644282|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.476|||<|0.0001|TWO_SIDED|95.0|-0.705|-0.248|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.248|-0.705|<.0001
82644283|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.426|||<|0.0001|TWO_SIDED|95.0|-0.654|-0.198|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.198|-0.654|<.0001
82644284|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.472|||<|0.0001|TWO_SIDED|95.0|-0.701|-0.244|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.244|-0.701|<.0001
82647867|NCT01244815|165011166|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.506|TWO_SIDED|95.0|-0.33|0.16|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.16|-0.33|0.506
82575556|NCT04057573|164860725|SUPERIORITY||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.267|6.246||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||||6.246|2.267|< 0.0001
82575557|NCT04057573|164860727|SUPERIORITY||Least squares mean difference|-28.59|STANDARD_ERROR_OF_MEAN|4.94|<|0.0001|TWO_SIDED|95.0|-38.33|-18.86|||mixed-effect model; repeated measurement|||||-18.86|-38.33|<0.0001
82575558|NCT04057573|164860730|SUPERIORITY||least squares mean difference|-19.85|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|95.0|-26.55|-13.16|||mixed-effect model; repeated measurement|||||-13.16|-26.55|<0.0001
82575559|NCT04057573|164860732|SUPERIORITY||least squares mean difference|-11.95|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-17.23|-6.67|||mixed-effect model; repeated measurement|||||-6.67|-17.23|<0.0001
82575560|NCT04057573|164860734|SUPERIORITY||Odds Ratio (OR)|3.75|||<|0.0001|TWO_SIDED|95.0|2.121|6.63||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI25||6.630|2.121|< 0.0001
82575561|NCT04057573|164860734|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0436|TWO_SIDED|95.0|1.045|20.192||The model included the treatment group (1.5% BID and vehicle) and stratification factors (skin type and region).|exact logistic regression|||T-VASI75||20.192|1.045|0.0436
82575562|NCT04057573|164860734|SUPERIORITY||Odds Ratio (OR)|1.35||||||||||The p value was not evaluable because the response rate in the vehicle group was too low.||||T-VASI90||||
82367974|NCT02944383|164446393|SUPERIORITY|||||||0.3587||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3587
82395234|NCT03313310|164501265|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82575563|NCT04057573|164860737|SUPERIORITY||least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.235|TWO_SIDED|95.0|-1.6|0.39|||mixed-effect model; repeated measurement|||||0.39|-1.60|0.2350
82575564|NCT03299049|164860756|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the two-sided 95% confidence interval (CI) for the Cochran-Mantel Haenzel (CMH) adjusted treatment difference (Q8W minus Q4W) is less than 4%.|Adjusted difference|0.8|||||TWO_SIDED|95.0|-0.6|2.2|||||Adjusted CMH estimate of the difference in the percentage of participants with Plasma HIV-1 \>=50 c/mL between each treatment group (Q8W - Q4W) and corresponding 95% CI is presented.|||2.2|-0.6|
82575565|NCT03299049|164860757|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the two-sided 95% CI for the CMH adjusted treatment difference (Q8W minus Q4W) is greater than -10%|Adjusted difference|0.8|||||TWO_SIDED|95.0|-2.1|3.7|||||Adjusted CMH estimate of the difference in the percentage of participants with Plasma HIV-1 \<50 c/mL between each treatment group (Q8W-Q4W) and corresponding 95% CI is presented.|||3.7|-2.1|
82575566|NCT01901419|164860804|SUPERIORITY|||||||0.618|||||||t-test, 2 sided|||||||0.618
82575567|NCT01901419|164860805|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.410
82575568|NCT01901419|164860806|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
82395235|NCT03313310|164501265|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82395236|NCT03313310|164501266|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82528711|NCT02608489|164753486|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12||||<0.001
82528712|NCT02608489|164753487|SUPERIORITY_OR_OTHER|||||||0.045|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.045
82528713|NCT02608489|164753488|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.001
82528714|NCT02608489|164753488|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 4||||0.002
82528715|NCT02608489|164753488|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||Linear mixed model was used to compare measurement data between the 2 groups by considering the correlation between both eyes of each patient at postoperative week 12||||0.034
82528716|NCT02608489|164753489|SUPERIORITY_OR_OTHER|||||||0.151|||||||Mixed Models Analysis|||To obtain an overall comparison between treatment responses throughout the study period considering the 2 levels of correlation in subjects and follow-up, a linear mixed model with asymmetric random effects was used.||||0.151
82528717|NCT01411501|164753491|SUPERIORITY_OR_OTHER|||||||0.352|TWO_SIDED||||||ANCOVA|||||||0.352
82528718|NCT01411501|164753492|SUPERIORITY_OR_OTHER|||||||0.968|TWO_SIDED||||||ANCOVA|||||||0.968
82528719|NCT01411501|164753493|SUPERIORITY_OR_OTHER|||||||0.841|TWO_SIDED||||||Kruskal-Wallis|||||||0.841
82528720|NCT01411501|164753494|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||||||0.005
82528721|NCT01411501|164753495|SUPERIORITY_OR_OTHER|||||||0.198|TWO_SIDED||||||ANCOVA|||||||0.198
82395237|NCT03313310|164501266|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.75||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.75
82395238|NCT03313310|164501267|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.55||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.55
82395239|NCT03313310|164501267|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||1||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||1.00
82395240|NCT03313310|164501268|OTHER|A one-sample test for change between baseline and 8-month follow-up was conducted.||||||0.45||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.45
82395241|NCT03313310|164501268|OTHER|A one-sample test for change between baseline and 3-month follow-up was conducted.||||||0.07||||||The a priori threshold for statistical significance was set at 0.10. This p-value was not adjusted for multiple comparisons.|McNemar|||||||0.07
82528722|NCT01411501|164753496|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Kruskal-Wallis|||||||0.035
82528723|NCT00708721|164753497|OTHER||Maximum Tolerated Dose|1.0|||||TWO_SIDED||||||||Based on cytopenias observed at day 10 (Phase 1 trial only), and the Phase II dose was determined to be 1 mg per day for 7 consecutive days given on a 28 day cycle.|||||
82528724|NCT04105972|164753504|SUPERIORITY||Least Squares (LS) Mean Difference|15.9|||<|0.0001|TWO_SIDED|95.0|11.7|20.1|||Mixed-effects Model for Repeated Measure|||||20.1|11.7|< 0.0001
82528725|NCT04105972|164753505|SUPERIORITY||LS Mean Difference|10.2|||<|0.0001|TWO_SIDED|95.0|8.2|12.1|||Mixed-effects Model for Repeated Measure|||||12.1|8.2|<0.0001
82528726|NCT04105972|164753506|SUPERIORITY||LS Mean Difference|-42.8|||||TWO_SIDED|95.0|-46.2|-39.3||||||||-39.3|-46.2|
82528727|NCT02687412|164753508|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
82528728|NCT02687412|164753509|SUPERIORITY||Mean Difference (Final Values)|-4041.0|STANDARD_ERROR_OF_MEAN|1831.042||0.029|TWO_SIDED|95.0|-7672.301|-411.065|||t-test, 2 sided|||||-411.065|-7672.301|0.029
82528729|NCT02687412|164753510|SUPERIORITY||Mean Difference (Final Values)|20.3739|STANDARD_ERROR_OF_MEAN|6.4198||0.002|TWO_SIDED|95.0|7.6414|33.1065|||t-test, 2 sided|||||33.1065|7.6414|0.002
82528730|NCT02687412|164753511|SUPERIORITY|||||||0.014|||||||Chi-squared|||||||0.014
82528731|NCT02687412|164753512|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||0.034
82528732|NCT02687412|164753513|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82528733|NCT02687412|164753514|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82528734|NCT02687412|164753515|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82528735|NCT02687412|164753516|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82528736|NCT02687412|164753517|SUPERIORITY||Mean Difference (Final Values)|-0.10046|STANDARD_ERROR_OF_MEAN|0.1915||0.601|TWO_SIDED|95.0|-0.4819|0.2817|||t-test, 2 sided|||||0.2817|-0.4819|0.601
82528737|NCT02687412|164753518|SUPERIORITY||Mean Difference (Final Values)|164.746|STANDARD_ERROR_OF_MEAN|317.79||0.605|TWO_SIDED|95.0|-465.0|794.0|||t-test, 2 sided|||||794|-465|0.605
82528738|NCT01161472|164753531|SUPERIORITY_OR_OTHER||Least square (LS) Mean Difference|-0.0285|STANDARD_ERROR_OF_MEAN|0.018||0.1198|TWO_SIDED|95.0|-0.0647|0.0077|||ANCOVA|||Analysis of Covariance (ANCOVA) was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0077|-0.0647|0.1198
82528739|NCT01161472|164753531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0203|STANDARD_ERROR_OF_MEAN|0.0173||0.2459|TWO_SIDED|95.0|-0.0551|0.0145|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0145|-0.0551|0.2459
82528740|NCT01161472|164753533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0037|STANDARD_ERROR_OF_MEAN|0.0115||0.7502|TWO_SIDED|95.0|-0.0268|0.0194|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0194|-0.0268|0.7502
82528741|NCT01161472|164753533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0085|STANDARD_ERROR_OF_MEAN|0.0119||0.4785|TWO_SIDED|95.0|-0.0325|0.0154|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0154|-0.0325|0.4785
82528742|NCT01161472|164753535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0035|STANDARD_ERROR_OF_MEAN|0.0265||0.8944|TWO_SIDED|95.0|-0.0569|0.0498|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0498|-0.0569|0.8944
82644285|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.489|||<|0.0001|TWO_SIDED|95.0|-1.747|-1.23|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.230|-1.747|<.0001
82644286|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Final Values)|-1.564|||<|0.0001|TWO_SIDED|95.0|-1.825|-1.304|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.304|-1.825|<.0001
82644287|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.451|||<|0.0001|TWO_SIDED|95.0|-1.706|-1.197|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.197|-1.706|<.0001
82575569|NCT01901419|164860807|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
82575570|NCT01901419|164860808|SUPERIORITY|||||||0.512|||||||t-test, 2 sided|||||||0.512
82644288|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.452|||<|0.0001|TWO_SIDED|95.0|-1.71|-1.193|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.193|-1.710|<.0001
82528743|NCT01161472|164753535|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0209|STANDARD_ERROR_OF_MEAN|0.0263||0.4308|TWO_SIDED|95.0|-0.032|0.0738|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||0.0738|-0.0320|0.4308
82395242|NCT01593254|164501302|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
82528744|NCT01161472|164753537|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6629|STANDARD_ERROR_OF_MEAN|12.4945||0.7707|TWO_SIDED|95.0|-21.4729|28.7987|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||28.7987|-21.4729|0.7707
82575571|NCT01901419|164860809|SUPERIORITY|||||||0.144|||||||t-test, 2 sided|||||||0.144
82575572|NCT01901419|164860810|SUPERIORITY|||||||0.338|||||||t-test, 2 sided|||||||0.338
82575573|NCT01901419|164860811|SUPERIORITY|||||||0.356|||||||t-test, 2 sided|||||||0.356
82575574|NCT01901419|164860812|SUPERIORITY|||||||0.478|||||||t-test, 2 sided|||||||0.478
82575575|NCT01901419|164860813|SUPERIORITY|||||||0.515|||||||t-test, 2 sided|||||||0.515
82575576|NCT01901419|164860814|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82575577|NCT01901419|164860815|SUPERIORITY|||||||0.227|||||||t-test, 2 sided|||||||0.227
82575578|NCT01901419|164860816|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
82575579|NCT01901419|164860817|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82575580|NCT01901419|164860818|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.800
82575581|NCT01901419|164860819|SUPERIORITY|||||||0.948|||||||t-test, 2 sided|||||||0.948
82575582|NCT01901419|164860820|SUPERIORITY|||||||0.682|||||||t-test, 2 sided|||||||0.682
82575583|NCT01901419|164860821|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||||||0.928
82575584|NCT01901419|164860822|SUPERIORITY|||||||0.672|||||||t-test, 2 sided|||||||0.672
82575585|NCT01901419|164860823|SUPERIORITY|||||||0.894|||||||t-test, 2 sided|||||||0.894
82575586|NCT01901419|164860824|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||||||0.135
82528745|NCT01161472|164753537|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.921|STANDARD_ERROR_OF_MEAN|12.4482||0.1162|TWO_SIDED|95.0|-44.9634|5.1215|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||5.1215|-44.9634|0.1162
82528746|NCT01161472|164753539|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0068|STANDARD_ERROR_OF_MEAN|4.8707||0.9989|TWO_SIDED|95.0|-9.8297|9.8433|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||9.8433|-9.8297|0.9989
82528747|NCT01161472|164753539|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6251|STANDARD_ERROR_OF_MEAN|5.0346||0.7485|TWO_SIDED|95.0|-11.7926|8.5425|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||8.5425|-11.7926|0.7485
82528748|NCT01161472|164753541|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2684|STANDARD_ERROR_OF_MEAN|0.8243||0.7458|TWO_SIDED|95.0|-1.3788|1.9157|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 4 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||1.9157|-1.3788|0.7458
82528749|NCT01161472|164753541|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0661|STANDARD_ERROR_OF_MEAN|0.8277||0.9366|TWO_SIDED|95.0|-1.7202|1.588|||ANCOVA|||ANCOVA was used to determine p-value for comparison of fesoterodine 8 mg vs placebo, with model terms: period and treatment as the fixed effect, participants as the random effect, and between and within participant baselines as the covariates.||1.5880|-1.7202|0.9366
82528750|NCT00798174|164753544|SUPERIORITY|The null hypothesis was that the azygos coil does not reduce the DFT. (A reduced DFT is superiority).||||||0.103||||||Threshold for significance is 0.05.|t-test, 2 sided|Paired t-test||"The null hypothesis is that there is no difference between the DFT using the azygos coil vs. the standard configuration.~Paired t-test (two-tailed), used due to construction of study with DFT determined in both configurations in each patient, yields p=0.103"||||0.103
82528751|NCT00872430|164753557|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82528752|NCT00872430|164753558|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||All data were collected and entered before the opening of the codes of blinding of researchers. We used t test for paired samples and test for repeated measures linear regression for variables with more than two measures.With an improvement of 40% in the tea group and of 20% in the placebo group, with a power (1-ß) of 80% and a alpha error 0.05, it was necessary to include 32 points of comparison, which would be achieved with at least 16 patients, since it's a crossover study.||||<0.001
82528753|NCT01872910|164753597|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.0|||||TWO_SIDED|95.0|-2.1|20.0|||||95% CrI is reported here, not the CI.|||20.0|-2.1|
82528754|NCT01872910|164753597|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.6|||||TWO_SIDED|95.0|-45.7|-23.2|||||95% CrI is reported here, not the CI.|||-23.2|-45.7|
82528755|NCT01872910|164753597|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.6|||||TWO_SIDED|95.0|32.7|54.9|||||95% CrI is reported here, not the CI.|||54.9|32.7|
82528756|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-2.9|0.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||0.2|-2.9|
82528757|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5|||||TWO_SIDED|95.0|2.9|6.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||6.0|2.9|
82528758|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-7.4|-4.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||-4.3|-7.4|
82367975|NCT02944383|164446393|SUPERIORITY||Median Difference (Net)|12.99||||0.0843|TWO_SIDED|95.0|-0.54|25.51||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||25.51|-0.54|0.0843
82528759|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-5.2|0.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||0.2|-5.2|
82528760|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|4.4|9.8|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||9.8|4.4|
82367976|NCT02944383|164446393|SUPERIORITY||Median Difference (Net)|7.98||||0.3587|TWO_SIDED|95.0|-3.7|21.39||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||21.39|-3.70|0.3587
82395243|NCT00076999|164501337|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.02
82395244|NCT00076999|164501337|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.78
82395245|NCT00076999|164501338|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
82395246|NCT00076999|164501338|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395247|NCT00076999|164501339|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.12
82395248|NCT00076999|164501339|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395249|NCT00076999|164501340|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.12
82395250|NCT00076999|164501340|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395251|NCT00076999|164501341|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.01
82395252|NCT00076999|164501341|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82647868|NCT01244815|165011166|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.19||||0.131|TWO_SIDED|95.0|-0.43|0.06|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.06|-0.43|0.131
82367977|NCT02944383|164446394|SUPERIORITY|||||||0.0768||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.0768
82395253|NCT00076999|164501342|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.06
82528761|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6|||||TWO_SIDED|95.0|-12.2|-6.9|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||-6.9|-12.2|
82528762|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-7.9|-0.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||-0.1|-7.9|
82367978|NCT02944383|164446394|SUPERIORITY|||||||0.4346||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4346
82395254|NCT00076999|164501342|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395255|NCT00076999|164501343|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.60
82528763|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|||||TWO_SIDED|95.0|5.3|13.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||13.0|5.3|
82528764|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|||||TWO_SIDED|95.0|-16.9|-9.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||-9.3|-16.9|
82528765|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|||||TWO_SIDED|95.0|-13.2|0.5|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||0.5|-13.2|
82528766|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.9|||||TWO_SIDED|95.0|6.6|19.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||19.2|6.6|
82367979|NCT02944383|164446394|SUPERIORITY|||||||0.0768||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.0768
82367980|NCT02944383|164446394|SUPERIORITY|||||||0.4346||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.4346
82367981|NCT02944383|164446395|SUPERIORITY|||||||0.5411||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.5411
82367982|NCT02944383|164446395|SUPERIORITY|||||||0.2574||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.2574
82367983|NCT02944383|164446395|SUPERIORITY||Median Difference (Net)|3.11||||0.5411|TWO_SIDED|95.0|-9.59|14.86||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||14.86|-9.59|0.5411
82395256|NCT00076999|164501343|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395257|NCT00076999|164501344|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.20
82395258|NCT00076999|164501344|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82395259|NCT00076999|164501345|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.18
82395260|NCT00076999|164501345|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||1.00
82528767|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.7|||||TWO_SIDED|95.0|-25.9|-13.5|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||-13.5|-25.9|
82528768|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.3|||||TWO_SIDED|95.0|-30.8|-2.0|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||-2.0|-30.8|
82528769|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|9.0|37.2|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||37.2|9.0|
82528770|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-39.4|||||TWO_SIDED|95.0|-53.2|-25.3|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||-25.3|-53.2|
82528771|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.5|1.6|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 4 h.|||1.6|-1.5|
82528772|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-2.9|2.4|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 6 h.|||2.4|-2.9|
82528773|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-4.7|3.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 8 h.|||3.1|-4.7|
82528774|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-8.3|4.1|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 12 h.|||4.1|-8.3|
82647869|NCT01244815|165011166|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16||||0.211|TWO_SIDED|95.0|-0.4|0.09|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.09|-0.40|0.211
82528775|NCT01872910|164753598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|||||TWO_SIDED|95.0|-21.4|7.6|||||95% CrI is reported here, not the CI. Estimation is for TOPAR 0 to 24 h.|||7.6|-21.4|
82395261|NCT00076999|164501347|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.02
82528776|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-4.2|14.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||14.5|-4.2|
82528777|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.0|||||TWO_SIDED|95.0|-41.5|-22.4|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||-22.4|-41.5|
82528778|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|27.8|46.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||46.5|27.8|
82528779|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3|||||TWO_SIDED|95.0|-2.9|17.6|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||17.6|-2.9|
82528780|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.1|||||TWO_SIDED|95.0|-45.6|-24.6|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||-24.6|-45.6|
82528781|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.5|||||TWO_SIDED|95.0|32.1|52.7|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||52.7|32.1|
82528782|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-1.0|23.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||23.0|-1.0|
82528783|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.7|||||TWO_SIDED|95.0|-45.1|-20.3|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||-20.3|-45.1|
82528784|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.5|||||TWO_SIDED|95.0|31.3|55.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||55.5|31.3|
82528785|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.4|||||TWO_SIDED|95.0|-1.6|26.2|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||26.2|-1.6|
82528786|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-30.2|||||TWO_SIDED|95.0|-44.0|-16.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||-16.0|-44.0|
82528787|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.6|||||TWO_SIDED|95.0|28.6|56.5|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||56.5|28.6|
82528788|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|-9.7|12.9|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 4 h.|||12.9|-9.7|
82528789|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|-9.8|16.8|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 6 h.|||16.8|-9.8|
82528790|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5|||||TWO_SIDED|95.0|-9.9|19.0|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 8 h.|||19.0|-9.9|
82528791|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-9.2|21.1|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 12 h.|||21.1|-9.2|
82528792|NCT01872910|164753599|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-8.4|24.2|||||95% CrI is reported here, not the CI. Estimation is for weighted mean change from baseline pain intensity for 0 to 24 h.|||24.2|-8.4|
82528793|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.9|||||95% CrI is reported here, not the CI. Estimation is SPID 0 to 4 h.|||1.9|-0.6|
82528794|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-4.1|-1.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||-1.7|-4.1|
82528795|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|||||TWO_SIDED|95.0|2.3|4.8|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||4.8|2.3|
82528796|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.9|3.2|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||3.2|-0.9|
82528797|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|||||TWO_SIDED|95.0|-6.8|-2.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||-2.7|-6.8|
82528798|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|3.8|8.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||8.0|3.8|
82528799|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-1.0|4.8|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||4.8|-1.0|
82528800|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|||||TWO_SIDED|95.0|-9.0|-3.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||-3.3|-9.0|
82528801|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|5.1|10.9|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||10.9|5.1|
82528802|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-1.3|8.1|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||8.1|-1.3|
82575587|NCT01901419|164860825|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||0.038
82575588|NCT01901419|164860826|SUPERIORITY|||||||0.852|||||||t-test, 2 sided|||||||0.852
82575589|NCT01901419|164860827|SUPERIORITY|||||||0.454|||||||t-test, 2 sided|||||||0.454
82644289|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.866|||<|0.0001|TWO_SIDED|95.0|0.622|1.11|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.110|0.622|<.0001
82644290|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.88|||<|0.0001|TWO_SIDED|95.0|0.633|1.128|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.128|0.633|<.0001
82644291|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.924|||<|0.0001|TWO_SIDED|95.0|0.68|1.169|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.169|0.680|<.0001
82644292|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.884|||<|0.0001|TWO_SIDED|95.0|0.638|1.131|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.131|0.638|<.0001
82395262|NCT00076999|164501347|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.47
82395263|NCT00076999|164501348|SUPERIORITY_OR_OTHER|||||||0||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
82444514|NCT01073930|164597743|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|5.2|||||ONE_SIDED|97.5|0.4|||||||Recto-sigmoid colon comparison|||0.4|
82395264|NCT00076999|164501348|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.81
82395265|NCT00076999|164501349|SUPERIORITY_OR_OTHER|||||||0||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.00
82448950|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS Mean difference|1.08||||0.0438|TWO_SIDED|95.0|0.03|2.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||2.13|0.03|0.0438
82395266|NCT00076999|164501349|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.69
82395267|NCT00076999|164501351|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.64
82395268|NCT00076999|164501351|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.26
82575590|NCT01901419|164860828|SUPERIORITY|||||||0.663|||||||t-test, 2 sided|||||||0.663
82575591|NCT01901419|164860829|SUPERIORITY|||||||0.872|||||||t-test, 2 sided|||||||0.872
82575592|NCT01901419|164860830|SUPERIORITY|||||||0.318|||||||t-test, 2 sided|||||||0.318
82575593|NCT01901419|164860831|SUPERIORITY|||||||0.365|||||||t-test, 2 sided|||||||0.365
82575594|NCT01901419|164860832|SUPERIORITY|||||||0.077|||||||t-test, 2 sided|||||||0.077
82575595|NCT01901419|164860833|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.640
82575596|NCT04486625|164860844|OTHER|Analysis of variance (ANOVA) was used to compare the natural log transformed AUC0-24,ss between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% confidence intervals (CIs) for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|79.48|||||TWO_SIDED|90.0|66.52|94.96||||||||94.96|66.52|
82575597|NCT04486625|164860845|OTHER|ANOVA was used to compare the natural log transformed Cmax between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|75.58|||||TWO_SIDED|90.0|66.1|86.43||||||||86.43|66.10|
82575598|NCT04486625|164860846|OTHER|ANOVA was used to compare the natural log transformed AUC0-24,ss between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of of adjusted geometric means|124.19|||||TWO_SIDED|90.0|100.18|153.97||||||||153.97|100.18|
82448951|NCT01122849|164605168|SUPERIORITY_OR_OTHER||LS Mean difference|-1.8||||0.0009|TWO_SIDED|95.0|-2.82|-0.78||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||-0.78|-2.82|0.0009
82575599|NCT04486625|164860847|OTHER|ANOVA was used to compare the natural log transformed Cmax between the normal renal function group (Reference) and the severe renal impairment group (Test). The geometric least squares mean point estimate and the associated 90% CIs for the difference of each comparison was estimated.|Ratio (%) of adjusted geometric means|102.42|||||TWO_SIDED|90.0|87.55|119.83||||||||119.83|87.55|
82575600|NCT00725270|164860876|SUPERIORITY_OR_OTHER|||||||0.812|||||||Mixed Models Analysis|||Repeated Measures ANOVA was run on the Positive Symptom Scale of the Brief Psychiatric Rating Scale, using Baseline and Day 9 ratings. Below is the medication \* time interaction.||||.812
82575601|NCT00725270|164860877|SUPERIORITY_OR_OTHER||eta sq|0.157||||0.203|TWO_SIDED||||||Mixed Models Analysis|||||||.203
82575602|NCT04024462|164860918|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8.|Geometric Mean Ratio|1.07|||||TWO_SIDED|90.0|0.99|1.15|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of pertuzumab (Arm B) relative to the pertuzumab IV dose (Arm A).|The null hypothesis was that the pertuzumab Arm B SC dose is inferior to the pertuzumab Arm A IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of pertuzumab relative to the IV dose is not greater than 0.8).||1.15|0.99|
82575603|NCT04024462|164860919|NON_INFERIORITY|The null hypothesis could be rejected and non-inferiority concluded if the lower bound of the 90% confidence interval of the geometric mean ratio was ≥0.8. Non-inferiority was tested in hierarchical order after the primary outcome measure, to adjust for multiple statistical testing and control the type I error at one sided 5% significance level.|Geometric Mean Ratio|1.55|||||TWO_SIDED|90.0|1.44|1.67|||||The CtroughSC/CtroughIV geometric mean ratio was calculated as the SC dose of trastuzumab (Arm B) relative to the trastuzumab IV dose (Arm A).|The null hypothesis was that the trastuzumab Arm B SC dose is inferior to the Arm A trastuzumab IV dose (i.e., the CtroughSC/CtroughIV geometric mean ratio of the SC dose of trastuzumab relative to the IV dose is not greater than 0.8).||1.67|1.44|
82575604|NCT04024462|164860920|OTHER|Descriptive analysis only. tpCR was analyzed outside of a hypothesis-testing framework and according to the methodology outlined in the outcome measure description.|Difference in tpCR Rate|-0.88|||||TWO_SIDED|95.0|-15.21|13.45|||||Difference in tpCR rate was calculated as Arm B: PH FDC SC minus Arm A: P+H IV.|||13.45|-15.21|
82575605|NCT04896008|164860930|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.13|0.43||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||HR and associated 95% confidence interval were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||0.43|0.13|<0.0001
82575606|NCT04896008|164860931|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0313|TWO_SIDED|95.0|0.17|1.07||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||1.07|0.17|0.0313
82575607|NCT04896008|164860932|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.0039|TWO_SIDED|95.0|0.15|0.78||One-sided p-value based on log-rank test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||0.78|0.15|0.0039
82575608|NCT04896008|164860933|SUPERIORITY||Treatment Difference|-7.29||||0.135|TWO_SIDED|95.0|-17.65|2.41||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype)|||2.41|-17.65|0.135
82575609|NCT04896008|164860934|SUPERIORITY||Treatment Difference|-3.1|||<|0.001|TWO_SIDED|95.0|-4.25|-1.88||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by a randomization stratification factor (PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by a randomization stratification factor (PAH subtype).|||-1.88|-4.25|<0.001
82644293|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.138||||0.68|TWO_SIDED|95.0|-0.411|0.134|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.134|-0.411|0.6800
82448952|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24||||0.1991|TWO_SIDED|95.0|-0.62|0.13||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 7||0.13|-0.62|0.1991
82575610|NCT04896008|164860935|SUPERIORITY||Treatment Difference|33.05|||<|0.001|TWO_SIDED|95.0|18.41|46.98||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by a randomization stratification factor (PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by a randomization stratification factors (PAH subtype).|||46.98|18.41|<0.001
82575611|NCT04896008|164860936|SUPERIORITY||Treatment Difference|-2339.1|||<|0.001|TWO_SIDED|95.0|-3378.74|-1299.44||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-1299.44|-3378.74|<0.001
82444515|NCT01073930|164597743|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|11.4|||||ONE_SIDED|97.5|5.2|||||||Overall: Ascending, mid, and recto-sigmoid colon comparison|||5.2|
82444516|NCT01073930|164597744|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82444517|NCT01073930|164597745|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82528803|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2|||||TWO_SIDED|95.0|-12.9|-3.5|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||-3.5|-12.9|
82444518|NCT01073930|164597746|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82528804|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|7.0|16.5|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||16.5|7.0|
82367984|NCT02944383|164446395|SUPERIORITY||Median Difference (Net)|-7.31||||0.2574|TWO_SIDED|95.0|-19.3|5.76||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||5.76|-19.30|0.2574
82367985|NCT02944383|164446396|SUPERIORITY|||||||0.3998||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3998
82367986|NCT02944383|164446396|SUPERIORITY|||||||0.3659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.3659
82367987|NCT02944383|164446396|SUPERIORITY|||||||0.3998||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3998
82367988|NCT02944383|164446396|SUPERIORITY|||||||0.3659||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.3659
82444519|NCT01073930|164597747|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82444520|NCT01073930|164597748|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82444521|NCT01073930|164597749|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82444522|NCT01266590|164597752|SUPERIORITY_OR_OTHER|||||||0.0664||95.0|||||Wilcoxon Signed Rank|||||||0.0664
82444523|NCT03320330|164597772|OTHER|Recommended Phase 2 dose of pepinemab (VX15/2503), administered to children with recurrent or refractory solid tumors (Part A), was determined by the rolling-6 design.|Recommended Phase 2 dose|20.0|||||TWO_SIDED||||||||Recommended Phase 2 dose of pepinemab (VX15/2503) is 20 mg/kg.|||||
82444524|NCT02198794|164597785|OTHER||Least Square (LS) Mean Difference|-0.6||||0.121|TWO_SIDED|95.0|-1.42|0.17||Threshold for significance at 0.05 level.|ANCOVA|||The statistical model was an analysis of covariance (ANCOVA) with treatment group and dopamine receptor antagonist status at the pre-withdrawal visit as fixed effects and the pre-withdrawal visit value as a covariate.||0.17|-1.42|0.121
82444525|NCT03344172|164597819|SUPERIORITY||Odds Ratio (OR)|0.52||||0.63|TWO_SIDED|95.0|0.3|6.71|||Fisher Exact|||||6.71|0.30|0.63
82444526|NCT03344172|164597820|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_DEVIATION|0.52||0.13|TWO_SIDED|95.0|-1.0|-0.25|||t-test, 2 sided|||||-0.25|-1.00|0.13
82444527|NCT02066415|164597825|SUPERIORITY|"A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the 2 erenumab doses and the primary and secondary endpoints.~This comparison was tested at a 2-sided significance level of 0.04."|Difference in LS Means|-2.46|||<|0.001|TWO_SIDED|95.0|-3.52|-1.39|||Generalized linear mixed model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.39|-3.52|<0.001
82444528|NCT02066415|164597825|SUPERIORITY|"A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the 2 erenumab doses and the primary and secondary endpoints.~This comparison was tested at a 2-sided significance level of 0.01."|Difference in LS Means|-2.45|||<|0.001|TWO_SIDED|95.0|-3.51|-1.38|||Generalized linear mixed model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.38|-3.51|<0.001
82444529|NCT02066415|164597826|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.46|3.27|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test after the missing data were imputed as non-response, stratified by stratification factors (region and medication overuse status).||3.27|1.46|<0.001
82444530|NCT02066415|164597826|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.56|3.51|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel test after the missing data were imputed as non-response, stratified by stratification factors (region and medication overuse status).||3.51|1.56|<0.001
82448953|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS Mean difference|-0.21||||0.2964|TWO_SIDED|95.0|-0.6|0.19||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q2 at Day 7||0.19|-0.60|0.2964
82528805|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-2.6|18.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||18.3|-2.6|
82575612|NCT04896008|164860937|SUPERIORITY||Treatment Difference|-21.2|||<|0.001|TWO_SIDED|95.0|-27.78|-14.59||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-14.59|-27.78|<0.001
82575613|NCT04896008|164860938|SUPERIORITY||Treatment Difference|-339.6|||<|0.001|TWO_SIDED|95.0|-511.09|-168.06||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||-168.06|-511.09|<0.001
82575614|NCT04896008|164860939|SUPERIORITY||Treatment Difference|27.41|||<|0.001|TWO_SIDED|95.0|12.85|40.98||Two-sided p-value is calculated based on Cochran-Mantel-Haenszel method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|Cochran-Mantel-Haenszel||Based on Miettinen and Nurminen method stratified by the randomization stratification factors (REVEAL Lite 2.0 risk score and PAH subtype).|||40.98|12.85|<0.001
82575615|NCT04896008|164860940|SUPERIORITY||Treatment Difference|63.0|||<|0.001|TWO_SIDED|95.0|23.22|102.73||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|||102.73|23.22|<0.001
82575616|NCT04896008|164860941|SUPERIORITY||Treatment Difference|0.5||||0.119|TWO_SIDED|95.0|-0.18|1.16||Two-sided p-value is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype)|Aligned Rank Stratified Wilcoxon||Hodges-Lehmann location shift estimate with 95% CI is provided using aligned rank stratified Wilcoxon test stratified by randomization stratification factor (REVEAL Lite 2.0 risk score and PAH subtype).|||1.16|-0.18|0.119
82575617|NCT01270828|164860952|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Kaplan-Meier method was used for the analysis.||||<0.0001
82575618|NCT01270828|164860953|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|||Kaplan-Meier method was used for the analysis.||||<0.0001
82575619|NCT01270828|164860954|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Chi-square test was used for analysis.||||<0.0001
82575620|NCT01270828|164860955|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Chi-square test was used for analysis.||||<0.0001
82575621|NCT01270828|164860956|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.26|-0.62|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an ANCOVA main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.62|-1.26|<0.0001
82575622|NCT01270828|164860956|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.21|-0.61|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an ANCOVA main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.61|-1.21|<0.0001
82575623|NCT01270828|164860957|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.47|-0.75|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.75|-1.47|<0.0001
82644294|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.208||||0.2371|TWO_SIDED|95.0|-0.483|0.068|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.068|-0.483|0.2371
82575624|NCT01270828|164860957|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.65|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.65|-1.34|<0.0001
82575625|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.0324|TWO_SIDED|95.0|-6.1|-0.3|||ANCOVA|||This ANCOVA model analysis is for Sleep Problem Index I-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.3|-6.1|0.0324
82575626|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.0223|TWO_SIDED|95.0|-6.1|-0.5|||ANCOVA|||This ANCOVA model analysis is for Sleep Problem Index I-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.5|-6.1|0.0223
82575627|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8||||0.0098|TWO_SIDED|95.0|-6.6|-0.9|||ANCOVA|||"This ANCOVA model analysis is for Sleep Problem Index II-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-0.9|-6.6|0.0098
82575628|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0||||0.0033|TWO_SIDED|95.0|-6.7|-1.4|||ANCOVA|||"This ANCOVA model analysis is for Sleep Problem Index II-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-1.4|-6.7|0.0033
82575629|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3||||0.0002|TWO_SIDED|95.0|-11.1|-3.5|||ANCOVA|||This ANCOVA model analysis is for Sleep Disturbance-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-3.5|-11.1|0.0002
82647870|NCT01244815|165011167|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.23||||0.079|TWO_SIDED|95.0|-0.49|0.03|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.03|-0.49|0.079
82528806|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-24.7|-3.6|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||-3.6|-24.7|
82367989|NCT02944383|164446397|SUPERIORITY|||||||0.8823||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.8823
82528807|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.9|||||TWO_SIDED|95.0|11.5|32.2|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||32.2|11.5|
82367990|NCT02944383|164446397|SUPERIORITY|||||||0.3788||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.3788
82367991|NCT02944383|164446397|SUPERIORITY|||||||0.1091||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1091
82367992|NCT02944383|164446397|SUPERIORITY|||||||0.6867||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.6867
82367993|NCT02944383|164446397|SUPERIORITY||Median Difference (Net)|9.07||||0.3156|TWO_SIDED|95.0|-12.22|36.34||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||36.34|-12.22|0.3156
82367994|NCT02944383|164446397|SUPERIORITY||Median Difference (Net)|-0.3||||0.9734|TWO_SIDED|95.0|-24.58|25.43||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA||Estimates generated from Hodges-Lehmann method.|EOS (average of week 10 and 12)||25.43|-24.58|0.9734
82395269|NCT00076999|164501352|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.25
82367995|NCT02944383|164446398|SUPERIORITY|||||||0.9772||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.9772
82367996|NCT02944383|164446398|SUPERIORITY|||||||0.5213||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 10||||0.5213
82367997|NCT02944383|164446398|SUPERIORITY|||||||0.1582||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.1582
82367998|NCT02944383|164446398|SUPERIORITY|||||||0.4588||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||Week 12||||0.4588
82367999|NCT02944383|164446398|SUPERIORITY|||||||0.4264||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.4264
82368000|NCT02944383|164446398|SUPERIORITY|||||||0.8107||||||Results are obtained using a model where the outcome is ranked, randomized treatment group, randomized baseline statin (yes or no), \& randomized qualifying TG stratum are included as factors, \& outcome (ranked) at baseline is included as a covariate.|Ranked ANCOVA|||EOS (average of week 10 and 12)||||0.8107
82368001|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|5.38||||0.0093|TWO_SIDED|95.0|1.51|19.08||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 10||19.08|1.51|0.0093
82395270|NCT00076999|164501352|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.70
82395271|NCT00076999|164501353|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.73
82395272|NCT00076999|164501353|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.79
82395273|NCT00076999|164501355|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.38
82528808|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.6|1.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 4 h.|||1.0|-1.6|
82528809|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.2|2.1|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 6 h.|||2.1|-2.2|
82528810|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-2.9|3.3|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 8 h.|||3.3|-2.9|
82575630|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-12.2|-5.2|||ANCOVA|||This ANCOVA model analysis is for Sleep Disturbance-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-5.2|-12.2|<0.0001
82575631|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.5264|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|||This ANCOVA model analysis is for Snoring-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.6|-2.8|0.5264
82575632|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.452|TWO_SIDED|95.0|-5.2|2.3|||ANCOVA|||This ANCOVA model analysis is for Snoring-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.3|-5.2|0.4520
82575633|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.3714|TWO_SIDED|95.0|-4.7|1.8|||ANCOVA|||"This ANCOVA model analysis is for Awaken Short of Breath or with a Headache-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||1.8|-4.7|0.3714
82575634|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.5639|TWO_SIDED|95.0|-4.2|2.3|||ANCOVA|||"This ANCOVA model analysis is for Awaken Short of Breath or with a Headache-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||2.3|-4.2|0.5639
82575635|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.3223|TWO_SIDED|95.0|-2.4|7.3|||ANCOVA|||This ANCOVA model analysis is for Sleep adequacy-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.3|-2.4|0.3223
82575636|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.7||||0.2742|TWO_SIDED|95.0|-2.2|7.6|||ANCOVA|||This ANCOVA model analysis is for Sleep adequacy-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.6|-2.2|0.2742
82575637|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9816|TWO_SIDED|95.0|-3.2|3.1|||ANCOVA|||This ANCOVA model analysis is for Somnolence-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.1|-3.2|0.9816
82368002|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|2.57||||0.107|TWO_SIDED|95.0|0.82|8.07||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 10||8.07|0.82|0.1070
82368003|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0865|TWO_SIDED|95.0|0.87|7.53||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic|||Week 12||7.53|0.87|0.0865
82368004|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|1.57||||0.399|TWO_SIDED|95.0|0.55|4.48||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|Week 12||4.48|0.55|0.3990
82368005|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0772|TWO_SIDED|95.0|0.9|8.42||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|EOS (average of week 10 and 12)||8.42|0.90|0.0772
82368006|NCT02944383|164446399|SUPERIORITY||Odds Ratio (OR)|1.54||||0.4315|TWO_SIDED|95.0|0.53|4.48||Logistic regression results are obtained using a model with randomized treatment group, randomized baseline statin (yes or no), and baseline TG value as independent factors.|Regression, Logistic||The OR is an estimate of the odds of achieving a TG value \< 500 mg/dL associated with the corresponding Gemcabene group relative to the placebo group at a given visit.|EOS (average of week 10 and 12)||4.48|0.53|0.4315
82368007|NCT02766374|164446402|SUPERIORITY||||||>|0.1|||||||GEE regression|||||||>0.1
82368008|NCT00852969|164446403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.71|TWO_SIDED|95.0|-10.79|7.41|||t-test, 2 sided|||||7.41|-10.79|0.71
82575638|NCT01270828|164860958|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9282|TWO_SIDED|95.0|-2.9|3.2|||ANCOVA|||This ANCOVA model analysis is for Somnolence-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.2|-2.9|0.9282
82575639|NCT01270828|164860959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.1635|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||0.4|-0.1|0.1635
82575640|NCT01270828|164860959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.0363||95.0|0.0|0.5|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||0.5|0.0|0.0363
82575641|NCT01270828|164860960|SUPERIORITY_OR_OTHER_LEGACY|||||||0.432|||||||Chi-squared|||This analysis is for Week 6||||0.432
82575642|NCT01270828|164860960|SUPERIORITY_OR_OTHER_LEGACY|||||||0.987|||||||Chi-squared|||This analysis is for Week 19||||0.987
82575643|NCT01270828|164860961|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85||||0.0007|TWO_SIDED|95.0|1.3|2.65|||Regression, Logistic||"Odds ratio is the probability of the event occurring in Pregabalin DB relative to the event occurring in Placebo DB.~Odds ratio \> 1 is in favor of Pregabalin DB."|This analysis is for the original score. Proportional odds Logistic regression with a term for treatment in the model.||2.65|1.30|0.0007
82644295|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||0.9133|TWO_SIDED|95.0|-0.371|0.169|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.169|-0.371|0.9133
82644296|NCT03692078|165004003|EQUIVALENCE|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.095||||0.9432|TWO_SIDED|95.0|-0.37|0.18|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 3-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.180|-0.370|0.9432
82644297|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.513|||<|0.0001|TWO_SIDED|95.0|4.383|4.643|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||4.643|4.383|<.0001
82644298|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.491|||<|0.0001|TWO_SIDED|95.0|4.371|4.61|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||4.610|4.371|<.0001
82644299|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.15|||<|0.0001|TWO_SIDED|95.0|4.027|4.272|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||4.272|4.027|<.0001
82368009|NCT00852969|164446404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.48||||0.29|TWO_SIDED|95.0|-7.2|2.24|||t-test, 2 sided|||||2.24|-7.20|0.29
82528811|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-3.9|5.7|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 12 h.|||5.7|-3.9|
82528812|NCT01872910|164753600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.1|||||TWO_SIDED|95.0|-6.8|15.0|||||95% CrI is reported here, not the CI. Estimation is for SPID 0 to 24 h.|||15.0|-6.8|
82368010|NCT02440022|164446405|SUPERIORITY|||||||0.0562|||||||Kaplan-Meier|||||||0.0562
82395274|NCT00076999|164501355|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.20
82395275|NCT00076999|164501356|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.08
82395276|NCT00076999|164501356|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.36
82395277|NCT00076999|164501357|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||Comparison of TPV OS 2-\<6 yrs versus TPV OS 6-\<12 yrs||||0.23
82395278|NCT00076999|164501357|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||Comparison of TPV OS 12-18 yrs versus TPV SEDDS 12-18 yrs||||0.23
82395279|NCT04964986|164501365|SUPERIORITY|||||||0.041|||||||paired t-test|||||||0.041
82395280|NCT04964986|164501367|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 24||||<0.001
82395281|NCT04964986|164501367|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 52||||<0.001
82395282|NCT04964986|164501371|SUPERIORITY|||||||0.002|||||||paired t-test|||Week 24||||0.002
82395283|NCT04964986|164501371|SUPERIORITY||||||<|0.001|||||||paired t-test|||Week 52||||<0.001
82395284|NCT04964986|164501373|SUPERIORITY|||||||0.294|||||||paired t-test|||Fat absorption increase at Week 4||||0.294
82395285|NCT04964986|164501373|SUPERIORITY|||||||0.155|||||||paired t-test|||Fat absorption increase at Week 48||||0.155
82395286|NCT04964986|164501373|SUPERIORITY|||||||0.26|||||||paired t-test|||Carbohydrate absorption at Week 4||||0.260
82395287|NCT04964986|164501373|SUPERIORITY|||||||0.024|||||||paired t-test|||Carbohydrate absorption at Week 48||||0.024
82395288|NCT04964986|164501373|SUPERIORITY|||||||0.096|||||||paired t-test|||Protein absorption at Week 4||||0.096
82395289|NCT04964986|164501373|SUPERIORITY|||||||0.075|||||||paired t-test|||Protein absorption at Week 48||||0.075
82395290|NCT04964986|164501374|SUPERIORITY|||||||0.063|||||||paired t-test|||Week 4||||0.063
82395291|NCT04964986|164501374|SUPERIORITY|||||||0.112|||||||paired t-test|||Week 48||||0.112
82395292|NCT04964986|164501375|SUPERIORITY|||||||0.306|||||||paired t-test|||||||0.306
82395293|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|0.3346||||0.704|TWO_SIDED|95.0|-0.7887|0.8748|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Calcium, Week 4||0.8748|-0.7887|0.704
82647871|NCT01244815|165011167|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.34||||0.01|TWO_SIDED|95.0|-0.6|-0.08|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.08|-0.60|0.010
82395294|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|-0.104||||0.488|TWO_SIDED|95.0|-2.7442|0.8896|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Calcium, Week 48||0.8896|-2.7442|0.488
82528813|NCT01872910|164753601|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.85|||||TWO_SIDED|95.0|0.99|3.46|||||Hazard ratio (HR) of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||3.46|0.99|
82528814|NCT01872910|164753601|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.34|||||TWO_SIDED|95.0|0.16|0.72|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.72|0.16|
82528815|NCT01872910|164753601|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|5.48|||||TWO_SIDED|95.0|2.69|11.16|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||11.16|2.69|
82528816|NCT01872910|164753601|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.57|2.59|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||2.59|0.57|
82528817|NCT01872910|164753602|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.78|||||TWO_SIDED|95.0|0.41|1.47|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||1.47|0.41|
82528818|NCT01872910|164753602|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|2.15|||||TWO_SIDED|95.0|1.19|3.88|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||3.88|1.19|
82528819|NCT01872910|164753602|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.36|||||TWO_SIDED|95.0|0.19|0.67|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.67|0.19|
82528820|NCT01872910|164753603|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.33|||||TWO_SIDED|95.0|0.12|0.88|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.88|0.12|
82528821|NCT01872910|164753603|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|4.16|||||TWO_SIDED|95.0|2.04|8.47|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||8.47|2.04|
82528822|NCT01872910|164753603|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.08|||||TWO_SIDED|95.0|0.03|0.21|||||HR of the treatment differences were estimated based on Cox proportional hazard model including treatment and baseline pain intensity (VAS) as fixed effects.|||0.21|0.03|
82528823|NCT02091739|164753605|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.031|=|0.004|TWO_SIDED|95.0|-0.15|0.03|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square (LS) means estimates of an mixed model repeated measurement (MMRM) model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units versus (v) Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.03|-0.15|= 0.004
82448954|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS mean difference|-0.04||||0.8495|TWO_SIDED|95.0|-0.42|0.35||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q2 at Day 7||0.35|-0.42|0.8495
82528824|NCT02091739|164753605|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.03|=|0.542|TWO_SIDED|95.0|-0.08|0.04|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.04|-0.08|= 0.542
82528825|NCT02091739|164753606|SUPERIORITY||LS mean difference|0.58|STANDARD_ERROR_OF_MEAN|0.183|=|0.002|TWO_SIDED|95.0|0.22|0.94|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.94|0.22|= 0.002
82528826|NCT02091739|164753606|SUPERIORITY||LS mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.181|=|0.055|TWO_SIDED|95.0|-0.01|0.71|||MMRM|||"A fixed sequence test procedure was used for the confirmatory analysis of the co-primary endpoints by comparing the least square means estimates of an MMRM model (2-sided, significance level alpha=0.05) between treatment groups in the following order:~1. IncobotulinumtoxinA 100 units v Placebo~2. IncobotulinumtoxinA 75 units v Placebo"||0.71|-0.01|= 0.055
82528827|NCT03469349|164753609|SUPERIORITY||Least square mean difference|29.19|STANDARD_ERROR_OF_MEAN|10.083||0.0041|TWO_SIDED|95.0|9.35|49.02|||MMRM|||Least squares means, p-values were obtained using a mixed model for repeated measures (MMRM) analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||49.02|9.35|0.0041
82528828|NCT03469349|164753610|SUPERIORITY||Least square mean difference|15.86|STANDARD_ERROR_OF_MEAN|7.814||0.0431|TWO_SIDED|95.0|0.49|31.24|||MMRM|||Week 2: Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||31.24|0.49|0.0431
82528829|NCT03469349|164753610|SUPERIORITY||Least square mean difference|35.51|STANDARD_ERROR_OF_MEAN|12.48||0.0047|TWO_SIDED|95.0|10.96|60.05|||MMRM|||Week 24: Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||60.05|10.96|0.0047
82575644|NCT01270828|164860961|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.32||||0.0009|TWO_SIDED|95.0|1.41|3.81|||Regression, Logistic||"Odds ratio is the probability of the event occurring in Pregabalin DB relative to the event occurring in Placebo DB.~Odds ratio \> 1 is in favor of Pregabalin DB."|This analysis is for the categorized score. Proportional odds Logistic regression with a term for treatment in the model.||3.81|1.41|0.0009
82575645|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.4||||0.0003|TWO_SIDED|95.0|3.4|11.5|||ANCOVA|||This ANCOVA model analysis is for Bodily pain-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||11.5|3.4|0.0003
82575646|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.7|||<|0.0001|TWO_SIDED|95.0|4.0|11.3|||ANCOVA|||This ANCOVA model analysis is for Bodily pain-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||11.3|4.0|<0.0001
82368011|NCT02440022|164446406|NON_INFERIORITY|Where δ = 10% is the non-inferiority margin, which is the range of difference that is considered not clinically important. A non-inferiority Farrington and Manning Test was used to test the primary safety hypothesis. The test is successful if the one-sided p-value is less than 0.025. In addition to the p-value of the test, the confidence intervals of the rate in each group and the difference between the two groups is calculated.||||||0.002|||||||Binary Analysis|||"H0: The primary safety rate p1 in the DCB treatment group through 30 days post index procedure is inferior to that p2 of the PTA treatment group. (i.e. p1 ≤ p2 - δ)~H1: The primary safety rate p1 in the DCB treatment group through 30 days post index procedure is non-inferior to that p2 of the PTA treatment group. (i.e. p1 \> p2 - δ)"||||0.002
82368012|NCT02440022|164446412|OTHER|||||||0.716||||||P-value was type 3 test of the interaction of treatment group and pre-dilation balloon type.|Regression, Cox|||||||0.7160
82368013|NCT02358343|164446415|SUPERIORITY|||||||0.77||||||a priori threshold for significance is 0.05.|Likelihood Ratio Test|Likelihood ratio test obtained from logistic regression analysis adjusting for site||||||0.77
82395295|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|-0.219||||0.382|TWO_SIDED|95.0|-0.896|0.313|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Magnesium, Week 4||0.313|-0.896|0.382
82395296|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|-1.566||||0.059|TWO_SIDED|95.0|-5.279|-0.165|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Magnesium, Week 48||-0.165|-5.279|0.059
82395297|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|33.116||||0.004|TWO_SIDED|95.0|5.51|51.861|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Sodium, Week 4||51.861|5.510|0.004
82395298|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|20.727||||0.337|TWO_SIDED|95.0|-27.758|55.828|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Sodium, Week 48||55.828|-27.758|0.337
82395299|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|1.618||||0.724|TWO_SIDED|95.0|-11.87|14.931|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Potassium, Week 4||14.931|-11.870|0.724
82395300|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|-9.19||||0.115|TWO_SIDED|95.0|-18.88|3.737|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Potassium, Week 48||3.737|-18.880|0.115
82395301|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|12.297||||0.707|TWO_SIDED|95.0|-39.551|52.617|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Urea, Week 4||52.617|-39.551|0.707
82575647|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2||||0.0275|TWO_SIDED|95.0|0.4|6.0|||ANCOVA|||"This ANCOVA model analysis is for General Health Perceptions-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||6.0|0.4|0.0275
82368014|NCT02358343|164446416|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.035|TWO_SIDED|95.0|-3.54|-0.13||a priori threshold for significance is 0.05.|Wald Test|The Wald test is for the week 12 comparative treatment effect from a longitudinal model of QIDS-C adjusting for clinical site.|The week 12 mean difference estimated from the longitudinal model is the difference between antidepressant drug therapy (drug) and the cognitive behavioral therapy (CBT) at 12 weeks, (drug - CBT).|All participants randomized to treatment (N=120) were included in the pre-specified longitudinal model of QIDS-C used to estimate comparative treatment effect at 12 weeks (primary outcome). The model adjustment for clinical site and included baseline, 6 week and 12 week QIDS-C scores. Week 0 (baseline) and week 6 measurements are not pre-specified primary or secondary outcomes. The Observational Cohort arm was not included in the analysis.||-0.13|-3.54|0.035
82395302|NCT04964986|164501376|SUPERIORITY||Mean Difference (Final Values)|-91.487||||0.009|TWO_SIDED|95.0|-159.956|-20.068|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Urea, Week 48||-20.068|-159.956|0.009
82368015|NCT02358343|164446417|SUPERIORITY|||||||0.96||||||a priori threshold for significance is 0.05.|Likelihood Ratio Test|Likelihood Ratio Test from logistic regression analysis adjusting for clinical site.||||||0.96
82395303|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|0.281||||0.572|TWO_SIDED|95.0|-0.649|0.96|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Creatinine, Week 4||0.960|-0.649|0.572
82395304|NCT04964986|164501376|SUPERIORITY||Median Difference (Final Values)|-0.136||||0.981|TWO_SIDED|95.0|-1.06|1.073|||paired t-test||Based on one-sample (paired) Hodges-Lehmann median estimator for non-parametric estimate of change from baseline.|Creatinine, Week 48||1.073|-1.060|0.981
82395305|NCT04964986|164501377|SUPERIORITY|||||||0.066|||||||paired t-test|||Week 24||||0.066
82395306|NCT04964986|164501377|SUPERIORITY|||||||0.015|||||||paired t-test|||Week 52||||0.015
82395307|NCT05821296|164501384|OTHER|Change of sum of total lesions at the end of the study from baseline/Day 0 to evaluate the efficacy and clinical performance of Crystal Peel for the treatment of acne.|Mean Difference (Final Values)|-14.58|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-17.31|-11.84|||ANCOVA|||||-11.84|-17.31|<0.0001
82368016|NCT02358343|164446418|SUPERIORITY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-7.4|-0.02|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||-0.02|-7.4|
82368017|NCT02358343|164446419|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-3.1|0.8|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.8|-3.1|
82368018|NCT02358343|164446420|SUPERIORITY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-6.2|-0.1|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||-0.1|-6.2|
82368019|NCT02358343|164446421|SUPERIORITY||Mean Difference (Final Values)|10.2|||||TWO_SIDED|95.0|1.3|19.0|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||19.0|1.3|
82575648|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4|||<|0.0001|TWO_SIDED|95.0|2.8|8.0|||ANCOVA|||"This ANCOVA model analysis is for General Health Perceptions-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||8.0|2.8|<0.0001
82575649|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.0735|TWO_SIDED|95.0|-0.3|6.4|||ANCOVA|||This ANCOVA model analysis is for Vitality-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.4|-0.3|0.0735
82575650|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.0684|TWO_SIDED|95.0|-0.2|6.2|||ANCOVA|||This ANCOVA model analysis is for Vitality-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.2|-0.2|0.0684
82575651|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1197|TWO_SIDED|95.0|-0.7|6.4|||ANCOVA|||This ANCOVA model analysis is for Social Functioning-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.4|-0.7|0.1197
82575652|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.1||||0.221|TWO_SIDED|95.0|-1.3|5.5|||ANCOVA|||This ANCOVA model analysis is for Social Functioning-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.5|-1.3|0.2210
82575653|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3||||0.0847|TWO_SIDED|95.0|-0.5|7.1|||ANCOVA|||This ANCOVA model analysis is for Role-Emotional-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.1|-0.5|0.0847
82368020|NCT02358343|164446422|SUPERIORITY||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.2|1.4|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||1.4|-0.2|
82395308|NCT05821296|164501385|OTHER||Mean Difference (Final Values)|1.85|STANDARD_DEVIATION|0.87|||TWO_SIDED|95.0|1.54|2.16||||||||2.16|1.54|
82368021|NCT02358343|164446423|SUPERIORITY||Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0|0.1|5.1|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||5.1|0.1|
82368022|NCT02358343|164446424|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.5|0.5|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.5|-0.5|
82368023|NCT02358343|164446426|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.5|0.7|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.7|-0.5|
82368024|NCT02358343|164446427|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.55|1.1|||||The mean difference estimate is from a negative binomial model adjusted for clinical site. It is the rate of sessions skipped/shortened in the Drug group (numerator) compared to CBT (denominator).|||1.10|0.55|
82368025|NCT02358343|164446428|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.54|0.34|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.34|-0.54|
82368026|NCT02358343|164446429|SUPERIORITY||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.25|0.75|||||The mean difference estimate is from longitudinal model adjusted for clinical site. It is the difference in scores between treatment groups (Drug - CBT) at 12 weeks. All participants are included in the longitudinal model (N=120).|||0.75|-0.25|
82368027|NCT00609518|164446451|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.1|0.28|||Linear probability model|||||0.28|-0.10|
82368028|NCT00609518|164446452|SUPERIORITY_OR_OTHER|||||||0.4902||95.0|||||Fisher Exact|||||||0.4902
82368029|NCT00609518|164446453|SUPERIORITY_OR_OTHER|||||||0.6791||95.0|||||Log Rank|||||||0.6791
82368030|NCT00609518|164446453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.54|1.49|||Regression, Cox|Treatment was the covariate included in this model.||||1.49|0.54|
82395309|NCT05821296|164501386|OTHER||Mean Difference (Final Values)|1.82|STANDARD_DEVIATION|1.07|||TWO_SIDED|95.0|1.44|2.2||||||||2.20|1.44|
82395310|NCT05821296|164501387|OTHER||Mean value in local tolerance score|2.21|STANDARD_DEVIATION|0.65|||TWO_SIDED|95.0|1.98|2.44||||||||2.44|1.98|
82368031|NCT00609518|164446454|SUPERIORITY_OR_OTHER|||||||0.587||95.0|||||Log Rank|||||||0.5870
82395311|NCT05821296|164501388|OTHER|Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.|% of patients with positive answers|79.0|||||TWO_SIDED|95.0|61.0|89.0||||||||89|61|
82368032|NCT00609518|164446454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.57|1.38|||Regression, Cox|Treatment was the covariate included in this model.||||1.38|0.57|
82368033|NCT01687478|164446455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.62|||||TWO_SIDED|95.0|-5.04|1.8|||||The Confidence Interval is based on the treatment difference LS Mean changes from baseline between Olanzapine + Fluoxetine and Placebo + Fluoxetine.|||1.80|-5.04|
82395312|NCT05821296|164501388|OTHER||% of patients with positive answers|94.0|||||TWO_SIDED|95.0|80.0|98.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||98|80|
82368034|NCT05855616|164446464|OTHER||Odds Ratio (OR)|0.533||||1|TWO_SIDED|95.0|0.048|5.892|||t-test, 1 sided|||||5.892|0.048|1.00
82368035|NCT05855616|164446465|OTHER||Odds Ratio (OR)|0.176||||0.013|TWO_SIDED|95.0|0.039|0.79|||t-test, 1 sided|||||0.790|0.039|0.013
82368036|NCT05855616|164446467|OTHER|||||||0.137|||||||Chi-squared, Corrected|||||||0.137
82368037|NCT05855616|164446468|OTHER|||||||0.764|||||||Chi-squared, Corrected|||||||0.764
82368038|NCT05855616|164446469|OTHER|||||||0.055|||||||Chi-squared, Corrected|||||||0.055
82368039|NCT00292188|164446494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.01||95.0|-1.09|-0.15|||ANCOVA|ANCOVA adjusted for treatment group, baseline mean pain score and pooled country||The study is powered to detect a clinically significant difference of 1 between treatment groups in the weekly mean pain score. Null hypothesis was that there was no difference in weekly mean pain scores between pregabalin and placebo.||-0.15|-1.09|0.010
82395313|NCT05821296|164501388|OTHER||% of patients with positive answers|88.0|||||TWO_SIDED|95.0|73.0|95.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||95|73|
82395314|NCT05821296|164501388|OTHER||% of patients with positive answers|85.0|||||TWO_SIDED|95.0|68.0|93.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||93|68|
82575654|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0||||0.0365|TWO_SIDED|95.0|0.3|7.8|||ANCOVA|||This ANCOVA model analysis is for Role-Emotional-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||7.8|0.3|0.0365
82368040|NCT00292188|164446495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.39||0.031||95.0|-1.6|-0.08|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.08|-1.60|0.031
82368041|NCT00292188|164446496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.32||0.003||95.0|-1.61|-0.33|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.33|-1.61|0.003
82368042|NCT00292188|164446497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|1.0||0.099||95.0|-3.69|0.32|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||0.32|-3.69|0.099
82368043|NCT00292188|164446498|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|1.03||0.819||95.0|-1.87|2.34|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||2.34|-1.87|0.819
82368044|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.099||95.0|-0.56|0.05|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 1||0.05|-0.56|0.099
82368045|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.18||0.15||95.0|-0.62|0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 2: FAS||0.10|-0.62|0.150
82368046|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.2||0.01||95.0|-0.93|-0.13|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 3: FAS||-0.13|-0.93|0.010
82368047|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.21||0.137||95.0|-0.74|0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 4: FAS||0.10|-0.74|0.137
82368048|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.22||0.041||95.0|-0.9|-0.02|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 5: FAS||-0.02|-0.90|0.041
82368049|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.009||95.0|-1.03|-0.15|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 6: FAS||-0.15|-1.03|0.009
82368050|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.25||0.035||95.0|-1.01|-0.04|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 7: FAS||-0.04|-1.01|0.035
82368051|NCT00292188|164446499|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.019||95.0|-1.1|-0.1|||Mixed Models Analysis|Repeated Measures Mixed Models. Adjusted for treatment, week, baseline pain score, pooled country and treatment-week.||Week 8: FAS||-0.10|-1.10|0.019
82368052|NCT00292188|164446500|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.032||95.0|1.05|3.21|||Regression, Logistic|logstic regression adjusted for treatment group, baseline pain score and pooled country.||30% responder||3.21|1.05|0.032
82368053|NCT00292188|164446500|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.78||||0.088||95.0|0.92|3.46|||Regression, Logistic|logstic regression adjusted for treatment group, baseline pain score and pooled country.||50% responder||3.46|0.92|0.088
82368054|NCT00292188|164446501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.23||0.001||95.0|-1.25|-0.34|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||||-0.34|-1.25|0.001
82368055|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|2.62||0||95.0|-15.89|-5.55|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Disturbance||-5.55|-15.89|0.000
82644300|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.128|||<|0.0001|TWO_SIDED|95.0|4.014|4.242|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||4.242|4.014|<.0001
82644301|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.176|||<|0.0001|TWO_SIDED|95.0|4.051|4.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||4.301|4.051|<.0001
82644302|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.139|||<|0.0001|TWO_SIDED|95.0|4.024|4.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||4.254|4.024|<.0001
82644303|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.997|||<|0.0001|TWO_SIDED|95.0|2.842|3.153|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||3.153|2.842|<.0001
82644304|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.994|||<|0.0001|TWO_SIDED|95.0|2.849|3.138|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||3.138|2.849|<.0001
82644305|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.317|||<|0.0001|TWO_SIDED|95.0|3.164|3.47|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||3.470|3.164|<.0001
82644306|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.342|||<|0.0001|TWO_SIDED|95.0|3.199|3.486|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||3.486|3.199|<.0001
82644307|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.036|||<|0.0001|TWO_SIDED|95.0|2.886|3.187|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||3.187|2.886|<.0001
82647872|NCT01244815|165011167|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.2||||0.139|TWO_SIDED|95.0|-0.46|0.06|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.06|-0.46|0.139
82448955|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS mean difference|1.35||||0.0381|TWO_SIDED|95.0|0.08|2.62||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 7||2.62|0.08|0.0381
82368056|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|2.71||0.7||95.0|-4.3|6.4|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Snoring||6.40|-4.30|0.700
82528830|NCT03469349|164753611|SUPERIORITY|||||||0.0227|||||||MMRM|||Week 2: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0227
82644308|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.159|||<|0.0001|TWO_SIDED|95.0|3.019|3.299|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||3.299|3.019|<.0001
82644309|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.363||||0.0008|TWO_SIDED|95.0|-0.613|-0.113|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.113|-0.613|0.0008
82644310|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.362||||0.0003|TWO_SIDED|95.0|-0.595|-0.129|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.129|-0.595|0.0003
82647873|NCT01244815|165011168|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.61||||0.004|TWO_SIDED|95.0|-4.38|-0.83|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.83|-4.38|0.004
82395315|NCT05821296|164501388|OTHER||% of patients with positive answers|91.0|||||TWO_SIDED|95.0|77.0|97.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||97|77|
82395316|NCT05821296|164501388|OTHER||% of patients with positive answers|85.0|||||TWO_SIDED|95.0|69.0|93.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||93|69|
82395317|NCT05821296|164501388|OTHER||% of patients with positive answers|78.0|||||TWO_SIDED|95.0|61.0|89.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||89|61|
82395318|NCT05821296|164501388|OTHER||% of patients with positive answers|79.0|||||TWO_SIDED|95.0|62.0|89.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||89|62|
82395319|NCT05821296|164501388|OTHER||% of patients with positive answers|76.0|||||TWO_SIDED|95.0|59.0|87.0||||||Descriptive analysis of subjects' satisfaction questionnaire assessing the Crystal Peel in the treatment of acne.||87|59|
82395320|NCT05821296|164501390|OTHER||Mean Difference (Net)|-47.24|STANDARD_DEVIATION|56.61|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at day 15 to evaluate the improvement of pores assessed by Colorface device.||||< 0.0001
82395321|NCT05821296|164501390|OTHER||Mean Difference (Final Values)|-30.85|STANDARD_DEVIATION|63.92||0.01|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.010
82395322|NCT05821296|164501390|OTHER||Mean Difference (Final Values)|-41.69|STANDARD_DEVIATION|73.69|<|0.004|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||<0.004
82395323|NCT05821296|164501390|OTHER||Mean Difference (Final Values)|-29.13|STANDARD_DEVIATION|61.45||0.013|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous number of detected pores at day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.013
82395324|NCT05821296|164501391|OTHER||Mean Difference (Final Values)|-2832.39|STANDARD_DEVIATION|3217.15|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 15 to evaluate the improvement of pores assessed by Colorface device.||||< 0.0001
82395325|NCT05821296|164501391|OTHER||Mean Difference (Final Values)|-1754.88|STANDARD_DEVIATION|4220.25||0.025|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.025
82395326|NCT05821296|164501391|OTHER||Mean Difference (Final Values)|-2763.41|STANDARD_DEVIATION|4965.84||0.004|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.004
82644311|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.337||||0.0026|TWO_SIDED|95.0|-0.588|-0.085|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.085|-0.588|0.0026
82644312|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.351||||0.0004|TWO_SIDED|95.0|-0.584|-0.118|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.118|-0.584|0.0004
82528831|NCT03469349|164753611|SUPERIORITY|||||||0.0007|||||||MMRM|||Week 12: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0007
82644313|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.515|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.23|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.230|-1.800|<.0001
82644314|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.497|||<|0.0001|TWO_SIDED|95.0|-1.762|-1.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.231|-1.762|<.0001
82368057|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.95|STANDARD_ERROR_OF_MEAN|2.88||0.04||95.0|-11.62|-0.28|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Awaken Short of Breath/Headache||-0.28|-11.62|0.040
82528832|NCT03469349|164753611|SUPERIORITY|||||||0.0023|||||||MMRM|||Week 24: p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0023
82528833|NCT03469349|164753612|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.9592||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||Week 12||||0.9592
82528834|NCT03469349|164753612|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.5823||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||Week 24||||0.5823
82528835|NCT03469349|164753613|NON_INFERIORITY|As the sample size was too small, clinically significant difference in actovegin and placebo could not be defined, the non-inferiority margin was defined as priori based on clinical reasoning.||||||0.9424||||||p-values were obtained using logistic regression adjusting for treatment.|Regression, Logistic|||||||0.9424
82528836|NCT03469349|164753614|SUPERIORITY|||||||0.3758|||||||MMRM|||Physical Health Score: Week 12; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.3758
82528837|NCT03469349|164753614|SUPERIORITY|||||||0.1412|||||||MMRM|||Physical Health Score: Week 24; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.1412
82575655|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.2749|TWO_SIDED|95.0|-1.2|4.3|||ANCOVA|||This ANCOVA model analysis is for Mental Health-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||4.3|-1.2|0.2749
82528838|NCT03469349|164753614|SUPERIORITY|||||||0.1009|||||||MMRM|||Mental Health Score: Week 12; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.1009
82528839|NCT03469349|164753614|SUPERIORITY|||||||0.0015|||||||MMRM|||Mental Health Score: Week 24; Least squares means, p-values were obtained using a MMRM analysis of covariance with treatment, center, sex, age group, smoking status, diabetic status, visit and treatment-by-visit interaction as fixed effects and baseline value as covariate.||||0.0015
82528840|NCT02912468|164753642|SUPERIORITY||LS mean difference|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.71|||ANCOVA|||Data were analyzed using a hybrid method of the worst-observation carried forward (WOCF) and multiple imputation (MI). The imputed completed data were analyzed by fitting ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.71|-1.07|<0.0001
82575656|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.0806|TWO_SIDED|95.0|-0.3|5.2|||ANCOVA|||This ANCOVA model analysis is for Mental Health-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||5.2|-0.3|0.0806
82575657|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0||||0.0082|TWO_SIDED|95.0|0.5|3.4|||ANCOVA|||This ANCOVA model analysis is for Physical component-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.4|0.5|0.0082
82575658|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.0008|TWO_SIDED|95.0|1.0|3.7|||ANCOVA|||This ANCOVA model analysis is for Physical component-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||3.7|1.0|0.0008
82575659|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.2097|TWO_SIDED|95.0|-0.8|2.5|||ANCOVA|||This ANCOVA model analysis is for Mental component-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.5|-0.8|0.2097
82575660|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.1669|TWO_SIDED|95.0|-0.5|2.8|||ANCOVA|||This ANCOVA model analysis is for Mental component-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||2.8|-0.5|0.1669
82368058|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.42||0.846||95.0|-0.92|0.76|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Quantity||0.76|-0.92|0.846
82368059|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.63|STANDARD_ERROR_OF_MEAN|3.27||0.001||95.0|4.19|17.07|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Adequacy||17.07|4.19|0.001
82528841|NCT02912468|164753643|SUPERIORITY||LS mean difference|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.43|-1.69|||ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.69|-2.43|<0.0001
82528842|NCT02912468|164753644|SUPERIORITY|Hierarchical testing procedure was used to control type I error. For regions outside of Japan, this first secondary endpoint was not tested unless both co-primary endpoints were significant at the 0.05 level. Hierarchical testing continued only when previous endpoint was statistically significant. For Japan submission, LMK was instead a co-primary endpoint which also had to be met before secondary endpoints were tested in the hierarchy. Last endpoint in hierarchy is Week 24 SNOT-22.|LS mean difference|-7.44|||<|0.0001|TWO_SIDED|95.0|-8.35|-6.53||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-6.53|-8.35|<.0001
82575661|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.1466|TWO_SIDED|95.0|-1.0|6.7|||ANCOVA|||This ANCOVA model analysis is for Physical functioning-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.7|-1.0|0.1466
82575662|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4||||0.0439|TWO_SIDED|95.0|0.1|6.7|||ANCOVA|||This ANCOVA model analysis is for Physical functioning-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||6.7|0.1|0.0439
82575663|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.9||||0.025|TWO_SIDED|95.0|0.6|9.3|||ANCOVA|||This ANCOVA model analysis is for Role Physical-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||9.3|0.6|0.0250
82575664|NCT01270828|164860962|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4||||0.0107|TWO_SIDED|95.0|1.3|9.5|||ANCOVA|||This ANCOVA model analysis is for Role Physical-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||9.5|1.3|0.0107
82575665|NCT01270828|164860963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.23|-0.64|||ANCOVA|||This ANCOVA model analysis is for SB Baseline to Week 19.Estimates and p-values are from an analysis of covariance main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.64|-1.23|<0.0001
82575666|NCT01270828|164860963|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.12|-0.58|||ANCOVA|||This ANCOVA model analysis is for DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with baseline value, pooled center decided before unblinding, and treatment in the model.||-0.58|-1.12|<0.0001
82575667|NCT01270828|164860964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0154|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Anxiety-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.2|0.0154
82575668|NCT01270828|164860964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0027|TWO_SIDED|95.0|-1.3|-0.3|||ANCOVA|||This ANCOVA model analysis is for HADS-Anxiety-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.3|-1.3|0.0027
82575669|NCT01270828|164860964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0166|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Depression-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.2|0.0166
82644315|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.196|||<|0.0001|TWO_SIDED|95.0|-1.477|-0.915|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.915|-1.477|<.0001
82647874|NCT01244815|165011168|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.17||||0.017|TWO_SIDED|95.0|-3.95|-0.39|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.39|-3.95|0.017
82528843|NCT02912468|164753645|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.61|||<|0.0001|TWO_SIDED|95.0|-3.04|-2.17||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.17|-3.04|<.0001
82528844|NCT02912468|164753646|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|10.56|||<|0.0001|TWO_SIDED|95.0|8.79|12.34||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||12.34|8.79|<.0001
82528845|NCT02912468|164753647|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.93||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.93|-1.31|<.0001
82528846|NCT02912468|164753648|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-21.12|||<|0.0001|TWO_SIDED|95.0|-25.17|-17.06||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-17.06|-25.17|<.0001
82528847|NCT00692406|164753684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0023|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528848|NCT00692406|164753685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1167|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528849|NCT00692406|164753686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0253|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528850|NCT00692406|164753687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1432|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528851|NCT00692406|164753688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0489|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528852|NCT00692406|164753689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0096|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528853|NCT00692406|164753690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0372|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82528854|NCT00692406|164753691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.001||95.0|||||ANOVA|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.001
82368060|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.31|STANDARD_ERROR_OF_MEAN|2.34||0.324||95.0|-2.3|6.92|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Somnolence||6.92|-2.30|0.324
82448956|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS mean difference|0.54||||0.4005|TWO_SIDED|95.0|-0.74|1.82||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||1.82|-0.74|0.4005
82528855|NCT01515189|164753718|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.04|TWO_SIDED|95.0|0.7|0.99||Analysis stratified by ECOG performance status (0 vs. 1), prior treatment for metastatic melanoma (yes vs. no) and M-stage (M0/M1a/M1b vs. M1c without brain metastases vs. M1c with brain metastases).|Log Rank||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg, with 2-sided 95% confidence intervals are based on a Cox proportional hazards model|||0.99|0.70|0.0400
82528856|NCT01515189|164753719|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1548|TWO_SIDED|95.0|0.76|1.04||Analysis stratified by ECOG performance status (0 vs. 1), prior treatment for metastatic melanoma (yes vs. no) and M-stage (M0/M1a/M1b vs. M1c without brain metastases vs. M1c with brain metastases).|Log Rank||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg, with 2-sided 95% confidence intervals are based on a Cox proportional hazards model|||1.04|0.76|0.1548
82368061|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.52|STANDARD_ERROR_OF_MEAN|2.63||0||95.0|-14.71|-4.33|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Problems Index-6||-4.33|-14.71|0.000
82395327|NCT05821296|164501391|OTHER||Mean Difference (Final Values)|-1742.41|STANDARD_DEVIATION|3974.21||0.021|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous area of detected pores at day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.021
82528857|NCT01515189|164753725|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.49|1.04|||||Hazard of 10 mg/kg ipilimumab over hazard of 3 mg/kg. Based on an unstratified Cox proportional hazards model for subset of participants with brain metastases.|||1.04|0.49|
82528858|NCT03500640|164753730|SUPERIORITY|||||||0.196||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.196
82528859|NCT03500640|164753731|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.800
82528860|NCT03500640|164753732|SUPERIORITY|||||||0.677|||||||t-test, 2 sided|||||||0.677
82528861|NCT03500640|164753733|SUPERIORITY|||||||0.349||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.349
82528862|NCT03500640|164753734|SUPERIORITY|||||||0.891|||||||t-test, 2 sided|||||||0.891
82528863|NCT03500640|164753735|SUPERIORITY|||||||0.14||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.140
82528864|NCT03500640|164753736|SUPERIORITY|||||||0.732|||||||t-test, 2 sided|||||||0.732
82528865|NCT03500640|164753737|SUPERIORITY|||||||0.637||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.637
82528866|NCT03500640|164753738|SUPERIORITY|||||||0.521||||||The a priori threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.521
82528867|NCT03500640|164753739|SUPERIORITY|||||||0.083||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.083
82448957|NCT01122849|164605169|SUPERIORITY_OR_OTHER||LS mean difference|0.81||||0.202|TWO_SIDED|95.0|-0.45|2.07||Between treatment p-values and confidence intervals|ANCOVA|||Comparison of Q4 at Day 7||2.07|-0.45|0.2020
82528868|NCT03500640|164753740|SUPERIORITY|||||||0.778||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.778
82368062|NCT00292188|164446502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.54|STANDARD_ERROR_OF_MEAN|2.02||0||95.0|-11.52|-3.56|||ANCOVA|ANCOVA adjusted for treatment group, baseline score and pooled country.||Sleep Problems Index-9||-3.56|-11.52|0.000
82368063|NCT00292188|164446503|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.42||||0.267||95.0|0.76|2.64|||Regression, Logistic|Logistic regression adjusted for treatment group, baseline score and pooled country.||||2.64|0.76|0.267
82368064|NCT00292188|164446511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.84|STANDARD_ERROR_OF_MEAN|2.25||0.09||95.0|-8.28|0.61|||ANCOVA|||||0.61|-8.28|0.090
82528869|NCT03500640|164753741|SUPERIORITY|||||||0.982||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.982
82528870|NCT03500640|164753742|SUPERIORITY|||||||0.081||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.081
82528871|NCT03500640|164753743|SUPERIORITY|||||||0.712||||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.712
82528872|NCT03500640|164753744|SUPERIORITY|||||||0.371||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.371
82528873|NCT03500640|164753745|SUPERIORITY|||||||0.801||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.801
82528874|NCT03500640|164753746|SUPERIORITY|||||||0.069||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.069
82528875|NCT03500640|164753747|SUPERIORITY|||||||0.193||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.193
82528876|NCT03500640|164753748|SUPERIORITY|||||||0.197||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.197
82528877|NCT03500640|164753749|SUPERIORITY|||||||0.594||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.594
82528878|NCT03500640|164753750|SUPERIORITY|||||||0.328|||||||t-test, 2 sided|||||||0.328
82528879|NCT03500640|164753751|SUPERIORITY|||||||0.398||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.398
82528880|NCT03500640|164753752|SUPERIORITY|||||||0.288||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.288
82528881|NCT03500640|164753753|SUPERIORITY|||||||0.592||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.592
82528882|NCT03500640|164753754|SUPERIORITY|||||||0.805||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.805
82528883|NCT03500640|164753755|SUPERIORITY|||||||0.421||||||The a priori threshold for significance is 0.05|t-test, 2 sided|||The p value provided here is for the physical component summary score (PCS) only||||0.421
82528884|NCT03500640|164753756|SUPERIORITY|The p value provided here is for the physical component summary score (PCS) only||||||0.16|||||||t-test, 2 sided|||||||0.160
82528885|NCT03500640|164753757|SUPERIORITY|||||||0.196||||||The a priori threshold for significance is 0.05|t-test, 2 sided|||||||0.196
82528886|NCT03500640|164753758|SUPERIORITY|||||||0.532||||||The a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.532
82528887|NCT00971750|164753763|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||Chi-squared|||||||0.763
82528888|NCT00971750|164753765|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82528889|NCT01657266|164753766|SUPERIORITY_OR_OTHER|||||||1|||||||Pearson´s Chi-square test|||||||1.00
82575670|NCT01270828|164860964|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0217|TWO_SIDED|95.0|-1.1|-0.1|||ANCOVA|||This ANCOVA model analysis is for HADS-Depression-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-0.1|-1.1|0.0217
82575671|NCT01270828|164860965|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.5|-3.0|||ANCOVA|||This ANCOVA model analysis is for Pain Severity Index-SB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-3.0|-5.5|<0.0001
82575672|NCT01270828|164860965|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.7|||ANCOVA|||This ANCOVA model analysis is for Pain Severity Index-DB Baseline to Week 19. Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model.||-2.7|-5.0|<0.0001
82575673|NCT01270828|164860965|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|||<|0.0001|TWO_SIDED|95.0|-6.5|-2.7|||ANCOVA|||"This ANCOVA model analysis is for Pain Interference Index-SB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-2.7|-6.5|<0.0001
82575674|NCT01270828|164860965|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|||<|0.0001|TWO_SIDED|95.0|-6.0|-2.4|||ANCOVA|||"This ANCOVA model analysis is for Pain Interference Index-DB Baseline to Week 19.~Estimates and p-values are from an analysis of covariance main effects model with SB baseline value, center, and treatment in the model."||-2.4|-6.0|<0.0001
82368065|NCT03716076|164446523|OTHER|mixed-effects linear regression|||||||||||||||||To compare time values to baseline, post-hoc Tukey's test was applied|||
82368066|NCT01276301|164446538|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.95|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|90.0|98.87|107.02|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||107.02|98.87|
82368067|NCT01276301|164446539|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|92.39|STANDARD_ERROR_OF_MEAN|12.7|||TWO_SIDED|90.0|85.38|99.97|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||99.97|85.38|
82368068|NCT01276301|164446540|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|102.77|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|90.0|98.87|106.83|||ANOVA|Based on ANOVA with fixed terms for sequence, period, treatment and random term for subject within sequence.|Standard error of the mean is actually the Intra-Individual geometric coefficient of variation (gCV).|Ratio calculated as empa plus verapamil divided by empa||106.83|98.87|
82368069|NCT04709835|164446576|SUPERIORITY||Difference in Adjusted Means|-0.11|STANDARD_ERROR_OF_MEAN|0.292||0.7144|TWO_SIDED|80.0|-0.49|0.27|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 3||0.27|-0.49|0.7144
82368070|NCT04709835|164446576|SUPERIORITY||Difference in Adjusted Means|0.32|STANDARD_ERROR_OF_MEAN|0.327||0.3373|TWO_SIDED|80.0|-0.11|0.74|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 5||0.74|-0.11|0.3373
82395328|NCT05821296|164501392|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|1.3|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||<0.0001
82395329|NCT05821296|164501392|OTHER||Mean Difference (Final Values)|-0.68|STANDARD_DEVIATION|1.68||0.029|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.029
82395330|NCT05821296|164501392|OTHER||Mean Difference (Final Values)|-1.07|STANDARD_DEVIATION|2.01||0.006|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.006
82395331|NCT05821296|164501392|OTHER||Mean Difference (Net)|-0.65|STANDARD_DEVIATION|1.67||0.037|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous relative area (density) of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.037
82395332|NCT05821296|164501393|OTHER||Mean Difference (Final Values)|-0.39|STANDARD_DEVIATION|0.58||0.001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||0.001
82395333|NCT05821296|164501393|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_DEVIATION|0.71||0.348|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.348
82395334|NCT05821296|164501393|OTHER||Mean Difference (Final Values)|-0.27|STANDARD_DEVIATION|0.75||0.091|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.091
82575675|NCT01270828|164860966|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.77||||0.0161|TWO_SIDED|95.0|1.34|17.0|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Benefit from treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||17.00|1.34|0.0161
82575676|NCT01270828|164860966|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.48||||0.0378|TWO_SIDED|95.0|1.05|5.85|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Satisfaction with treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||5.85|1.05|0.0378
82368071|NCT04709835|164446576|SUPERIORITY||Difference in Adjusted Means|-0.25|STANDARD_ERROR_OF_MEAN|0.315||0.426|TWO_SIDED|80.0|-0.66|0.16|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 7||0.16|-0.66|0.4260
82368072|NCT04709835|164446577|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|80.0|0.53|1.74|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||1.74|0.53|
82368073|NCT04709835|164446577|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|80.0|0.76|2.32|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||2.32|0.76|
82368074|NCT04709835|164446578|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|80.0|0.44|1.7|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||1.70|0.44|
82368075|NCT04709835|164446578|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|80.0|0.56|2.03|||||Hazard ratio (80% CI) was estimated with a Cox proportional hazards model (unadjusted).|||2.03|0.56|
82444531|NCT02066415|164597827|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Difference in LS Means|-1.86|||<|0.001|TWO_SIDED|95.0|-2.6|-1.13|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.13|-2.60|<0.001
82444532|NCT02066415|164597827|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Difference in LS Means|-2.55|||<|0.001|TWO_SIDED|95.0|-3.28|-1.82|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.82|-3.28|<0.001
82444533|NCT02066415|164597828|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.04.|Difference in LS Means|-9.54||||0.28|TWO_SIDED|95.0|-26.98|7.9|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||7.90|-26.98|0.28
82368076|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|5.0|||||TWO_SIDED|80.0|-0.16|10.16|||||Confidence interval estimated with the Farrington-Manning method.|Day 3||10.16|-0.16|
82368077|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|-1.9|||||TWO_SIDED|80.0|-9.2|5.41|||||Confidence interval estimated with the Farrington-Manning method.|Day 3||5.41|-9.20|
82368078|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|5.79|||||TWO_SIDED|80.0|-4.82|16.4|||||Confidence interval estimated with the Farrington-Manning method.|Day 5||16.40|-4.82|
82368079|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|-0.88|||||TWO_SIDED|80.0|-12.4|10.65|||||Confidence interval estimated with the Farrington-Manning method.|Day 5||10.65|-12.40|
82368080|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|2.39|||||TWO_SIDED|80.0|-10.64|15.42|||||Confidence interval estimated with the Farrington-Manning method.|Day 7||15.42|-10.64|
82368081|NCT04709835|164446579|SUPERIORITY||Difference in Percentage of Positivity|-0.26|||||TWO_SIDED|80.0|-13.39|12.88|||||Confidence interval estimated with the Farrington-Manning method.|Day 7||12.88|-13.39|
82368082|NCT04709835|164446591|SUPERIORITY||Difference in Adjusted Means|-0.1|STANDARD_ERROR_OF_MEAN|0.294||0.7351|TWO_SIDED|80.0|-0.48|0.28|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 3||0.28|-0.48|0.7351
82368083|NCT04709835|164446591|SUPERIORITY||Difference in Adjusted Means|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7524|TWO_SIDED|80.0|-0.5|0.3|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 5||0.30|-0.50|0.7524
82368084|NCT04709835|164446591|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.314||0.8083|TWO_SIDED|80.0|-0.48|0.33|||ANCOVA||A difference in adjusted means of \<0 favors RO7496998 (AT-527).|Day 7||0.33|-0.48|0.8083
82368085|NCT00903448|164446606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0||||The least squares treatment means, i.e. adjusted treatment means, and standard errors were computed from the analysis of variance models.|Mixed Models Analysis|||This study enrolled 40 subjects in order to complete a target of at least 30 evaluable subjects. For the purpose of determination of sample size, it was assumed that at least 30 subjects would have complete data for all 3 treatment periods. Assuming the true mean difference in % time that gastric pH \> 4.0 between Prilosec OTC and Prevacid was at least 6.5, it was estimated that there would be at least 80% power to detect a treatment difference in 2-sided testing at the 5% significance level.||||< 0.0001
82368086|NCT00270257|164446633|SUPERIORITY_OR_OTHER_LEGACY||Incident rate per 100 person-years|1.5|||||TWO_SIDED|95.0|0.7|2.8||||||||2.8|0.7|
82368087|NCT00270257|164446633|SUPERIORITY_OR_OTHER_LEGACY||Incident rate per 100 person-years|2.2|||||TWO_SIDED|95.0|1.2|3.7||||||||3.7|1.2|
82368088|NCT00270257|164446633|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.694||||0.3769|TWO_SIDED|95.0|0.308|1.562|||Regression, Cox|||||1.562|0.308|0.3769
82368089|NCT00270257|164446634|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.844||||0.4325|TWO_SIDED|95.0|0.553|1.289||P value applies for the comparison at visit 104.|Regression, Logistic|adjusted for site||||1.289|0.553|0.4325
82368090|NCT00270257|164446635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8||||0.2749|TWO_SIDED|95.0|0.536|1.194||P value applies for the comparison at visit 104 only.|Regression, Logistic|||||1.194|0.536|0.2749
82368091|NCT00270257|164446636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.746||||0.3446|TWO_SIDED|95.0|0.407|1.369||Analysis is done for visit 104|Regression, Logistic|Adjusted for site||||1.369|0.407|0.3446
82368092|NCT00270257|164446637|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8712||||0.362|TWO_SIDED|95.0|0.6477|1.1718||P value applies for the comparison at visit 104 only. See the estimation comments for the other visits|Generalized linear model|adjusted for site.||||1.1718|0.6477|0.3620
82368093|NCT00270257|164446638|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|22.0|||||TWO_SIDED|95.0|14.7|31.6|||||29 events over 132 person-years|||31.6|14.7|
82368094|NCT00270257|164446638|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|4.59|||||TWO_SIDED|95.0|2.0|9.0|||||8 events over 174 person-years|||9.0|2.0|
82368095|NCT00270257|164446639|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|2.7|||||TWO_SIDED|95.0|1.22|5.08|||||9 events over 336 person-years|||5.08|1.22|
82368096|NCT00270257|164446639|SUPERIORITY_OR_OTHER_LEGACY||Incident rate of 100 person-years|0.0|||||TWO_SIDED|95.0|0.0|10.1|||||0 events over 37 person-years|||10.1|0.00|
82528890|NCT01316770|164753784|SUPERIORITY|The standard deviation (SD) of the change in salivary flow was assumed to be 0.0168 for the placebo and 0.0906 for the dexamethasone parotid. The within-subject correlation between two glands was assumed to be 0.15. A total of 16 patients would be required to have 80% power to detect a one-sided 40% increase in dexamethasone-irrigated parotid glands compared with the saline irrigated parotid glands with respect to change in salivary flow from Day 0 to Day 56.||||||0.236||||||No corrections were made for multiple comparisons because there was only one primary hypothesis.|one-sided Paired t-test|||The mixed models analysis included all time points but it failed to converge. Therefore, an alternative analysis was performed using a paired t-test. Because the Satterthwaite correction \[that was specified in the statistical analysis plan (SAP) for the mixed model\] is not available for the paired t-test, it was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates, as these measures were appropriate for the model used.||||0.236
82368097|NCT02920918|164446644|SUPERIORITY|||||||0.083|||||||ANOVA|||We expected a baseline peak oxygen consumption (VO2) of 14.5 mL/kg/min. A sample size of 40 patients per group (total of 80 patients) provided sufficient power to detect a mean difference in the interval change in peak VO2 of 1.50±1.76 mL/kg/min (primary endpoint) expected with Canagliflozin compared to Sitagliptin, which we predict to have no significant effect on peak VO2 (0±1.76 mL/kg/min).||||0.083
82528891|NCT01316770|164753785|SUPERIORITY|||||||0.662|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.662
82528892|NCT01316770|164753786|SUPERIORITY|||||||0.607|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.607
82528893|NCT01316770|164753787|SUPERIORITY|||||||0.586|||||||one-sided paired t-test|||The mixed models analysis (including all time points: study days 14, 28, 42, 56) failed to converge; thus, an alternative analysis, as stated in the Statistical Analysis Plan, was performed using the paired t-test. The Satterthwaite correction (Statistical Analysis Plan) is not available for the paired t-test and was not performed on the paired t-test. The final analysis was based upon the raw non-transformed saliva flow rates since this statistical model achieved the best fit to the data.||||0.586
82528894|NCT01316770|164753801|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||0.500
82528895|NCT01316770|164753801|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
82528896|NCT01316770|164753801|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||0.500
82528897|NCT01316770|164753801|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
82528898|NCT01316770|164753803|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
82368098|NCT02920918|164446645|SUPERIORITY|||||||0.51|||||||ANOVA|||||||0.51
82368099|NCT03537274|164446646|SUPERIORITY|||||||0.078|||||||Chi-squared|||||||0.078
82395335|NCT05821296|164501393|OTHER||Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|0.65||0.19|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous depth of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.190
82368100|NCT03537274|164446646|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
82368101|NCT03537274|164446646|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82368102|NCT03537274|164446647|SUPERIORITY|||||||0.128|||||||Chi-squared|||||||0.128
82368103|NCT03537274|164446647|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82368104|NCT03537274|164446647|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82368105|NCT00974974|164446654|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<.0001
82368106|NCT00974974|164446655|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<.0001
82368107|NCT01340768|164446699|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.52||||0.028|TWO_SIDED|95.0|0.29|0.94||P-value for association between treatment groups and proportions controlling for prior therapy (monotherapy or combination therapy).|Cochran-Mantel-Haenszel|||||0.94|0.29|0.028
82368108|NCT01340768|164446700|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49||||0.006|TWO_SIDED|95.0|0.29|0.83||P-value for association between treatment groups and proportions controlling for prior therapy (monotherapy or combination therapy).|Cochran-Mantel-Haenszel|||||0.83|0.29|0.006
82368109|NCT01675661|164446720|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.985|TWO_SIDED|95.0|0.63|1.59|||Regression, Logistic|OR=1.00||For the primary outcome measure, a repeated-measures logistic regression model was used to analyze the odds of a negative urine cannabinoid test as an indicator of abstinence across all 12 weeks of treatment. A generalized estimating equations (GEEs) were used to adjust for this correlation with multiple samples per participant. The model for the primary analysis included the main effect of treatment, main effect of time, site effects, effect of smoking tobacco, and timeXtreatment interaction.||1.59|0.63|0.985
82368110|NCT03176459|164446761|SUPERIORITY||LSM treatment difference|-16.5||||0.0117|TWO_SIDED|95.0|-30.8|-2.2|||ANCOVA|||||-2.2|-30.8|0.0117
82368111|NCT03176459|164446762|NON_INFERIORITY|Pre-specified non-inferiority margin of 36|LSM treatment difference (SE)|-30.6||||0.002|TWO_SIDED|95.0|-75.9|14.7|||ANCOVA|||||14.7|-75.9|0.0020
82368112|NCT03176459|164446763|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0012|TWO_SIDED|95.0|1.557|7.906|||LSM probability from logistic regression|||||7.906|1.557|0.0012
82395336|NCT05821296|164501394|OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|3.55||0.011|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||0.011
82395337|NCT05821296|164501394|OTHER||Mean Difference (Final Values)|-0.64|STANDARD_DEVIATION|3.28||0.281|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.281
82448958|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09||||0.5741|TWO_SIDED|95.0|-0.41|0.23||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.23|-0.41|0.5741
82647875|NCT01244815|165011168|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.16||||0.017|TWO_SIDED|95.0|-3.93|-0.38|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.38|-3.93|0.017
82368113|NCT03176459|164446764|SUPERIORITY||Least squares treatment difference|-3.2||||0.0543|TWO_SIDED||||||ANCOVA|||||||.0543
82368114|NCT03176459|164446765|SUPERIORITY||Least squares treatment difference|-11.4||||0.0096|ONE_SIDED||||||ANCOVA|||||||.0096
82368115|NCT03176459|164446766|SUPERIORITY||Least squares treatment difference|-22.4||||0.0175|TWO_SIDED||||||ANCOVA|||||||.0175
82368116|NCT03176459|164446767|SUPERIORITY||Least squares treatment difference|-19.6||||0.0542|TWO_SIDED||||||ANCOVA|||||||.0542
82368117|NCT03176459|164446768|SUPERIORITY|||||||0.7536|||||||Regression, Cox|||||||0.7536
82368118|NCT03176459|164446769|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3609|TWO_SIDED||||||Regression, Logistic|||||||0.3609
82368119|NCT00807248|164446877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.96||0.6405|TWO_SIDED|95.0|-2.34|1.44|||ANCOVA|||||1.44|-2.34|0.6405
82368120|NCT00807248|164446877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.96||0.6227|TWO_SIDED|95.0|-1.41|2.35|||ANCOVA|||||2.35|-1.41|0.6227
82368121|NCT00807248|164446878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-7.98|-3.11|||ANCOVA|||||-3.11|-7.98|<0.0001
82368122|NCT00807248|164446878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-7.53|-2.66|||ANCOVA|||||-2.66|-7.53|<0.0001
82368123|NCT00807248|164446878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-8.43|-3.56|||ANCOVA|||||-3.56|-8.43|<0.0001
82368124|NCT00807248|164446879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.98|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.13|-2.84|||ANCOVA|||||-2.84|-7.13|<0.0001
82368125|NCT00807248|164446879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-6.6|-2.32|||ANCOVA|||||-2.32|-6.60|<0.0001
82368126|NCT00807248|164446879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.27|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.41|-3.13|||ANCOVA|||||-3.13|-7.41|<0.0001
82368127|NCT00807248|164446880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-4.59|-1.58|||ANCOVA|||||-1.58|-4.59|<0.0001
82368128|NCT00807248|164446880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.15|-1.14|||ANCOVA|||||-1.14|-4.15|0.0006
82368129|NCT00807248|164446880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-5.13|-2.1|||ANCOVA|||||-2.10|-5.13|<0.0001
82368130|NCT00807248|164446881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-1.85|-0.64|||ANCOVA|||||-0.64|-1.85|<0.0001
82368131|NCT00807248|164446881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|0.31||0.0004|TWO_SIDED|95.0|-1.72|-0.5|||ANCOVA|||||-0.50|-1.72|0.0004
82368132|NCT00807248|164446881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-1.87|-0.65|||ANCOVA|||||-0.65|-1.87|<0.0001
82368133|NCT00807248|164446882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.32||0.0007|TWO_SIDED|95.0|-1.72|-0.46|||ANCOVA|||||-0.46|-1.72|0.0007
82368134|NCT00807248|164446882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.33||0.0013|TWO_SIDED|95.0|-1.69|-0.41|||ANCOVA|||||-0.41|-1.69|0.0013
82368135|NCT00807248|164446882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-1.92|-0.66|||ANCOVA|||||-0.66|-1.92|<0.0001
82368136|NCT00807248|164446883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.31||0.0002|TWO_SIDED|95.0|-1.82|-0.58|||ANCOVA|||||-0.58|-1.82|0.0002
82395338|NCT05821296|164501394|OTHER||Mean Difference (Final Values)|-1.57|STANDARD_DEVIATION|4.46||0.06|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.060
82395339|NCT05821296|164501394|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_DEVIATION|3.8||0.209|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of average area of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.209
82575677|NCT01270828|164860966|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.0901|TWO_SIDED|95.0|0.93|2.81|||Regression, Logistic||Odds ratio was the probability of the event occurring in pregabalin CR DB relative to the event occurring in placebo DB. Odds ratio \> 1 was in favor of pregabalin CR.|This analysis is for 'Willingness to continue treatment'. Proportional odds logistic regression was used with a term for treatment in the model.||2.81|0.93|0.0901
82647876|NCT01244815|165011169|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.79||||0.395|TWO_SIDED|95.0|-2.62|1.04|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||1.04|-2.62|0.395
82395340|NCT05821296|164501395|OTHER||Mean Difference (Final Values)|-26495.83|STANDARD_DEVIATION|33223.6|<|0.0001|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of detected pores at Day 15 to evaluate the improvement of pores assessed by Colorface device.||||<0.0001
82395341|NCT05821296|164501395|OTHER||Mean Difference (Final Values)|-14447.02|STANDARD_DEVIATION|44054.48||0.073|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 36 to evaluate the improvement of pores assessed by Colorface device.||||0.073
82395342|NCT05821296|164501395|OTHER|If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|Mean Difference (Final Values)|-25315.34|STANDARD_DEVIATION|49884.67||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 57 to evaluate the improvement of pores assessed by Colorface device.||||0.008
82395343|NCT05821296|164501395|OTHER||Mean Difference (Final Values)|-13287.34|STANDARD_DEVIATION|39615.92||0.071|TWO_SIDED|||||If the test provides a p-value less than 0.05, there is a significant variation over time for the analyzed parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of detected pores at Day 78 to evaluate the improvement of pores assessed by Colorface device.||||0.071
82395344|NCT05821296|164501396|OTHER||Mean Difference (Final Values)|-7518.25|STANDARD_DEVIATION|13340.45||0.003|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.003
82395345|NCT05821296|164501396|OTHER||Mean Difference (Final Values)|-7230.81|STANDARD_DEVIATION|17547.6||0.041|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.041
82395346|NCT05821296|164501396|OTHER||Mean Difference (Final Values)|-9086.26|STANDARD_DEVIATION|18306.64||0.007|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.007
82395347|NCT05821296|164501396|OTHER||Mean Difference (Final Values)|64.71|STANDARD_DEVIATION|14542.17||0.931|TWO_SIDED|||||If the Wilcoxon test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous area of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.931
82444534|NCT02066415|164597828|SUPERIORITY|This comparison was tested at a 2-sided significance level of 0.01.|Difference in LS Means|-19.31||||0.03|TWO_SIDED|95.0|-36.71|-1.92|||Generalized linear mixed model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and medication overuse status), scheduled visit, and the interaction of treatment group with scheduled visit.||-1.92|-36.71|0.030
82444535|NCT01852383|164597903|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|ANCOVA|||||||<0.001
82395348|NCT05821296|164501397|OTHER||Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|0.66||0.005|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.005
82395349|NCT05821296|164501397|OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.8||0.035|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.035
82444536|NCT01852383|164597904|SUPERIORITY_OR_OTHER||||||<|0.1||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|Corrlation|||||||<0.1
82444537|NCT01852383|164597905|SUPERIORITY_OR_OTHER||||||<|0.001||||||Change from Week 0 to Week 12, not adjusted for multiple comparisons. Alpha=0.05 threshold for statistical significance.|ANCOVA|||||||<0.001
82575678|NCT02870972|164860981|SUPERIORITY||Difference in Least Square Means|-0.458|||<|0.001|TWO_SIDED|95.0|-0.703|-0.214|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.214|-0.703|<0.001
82575679|NCT02870972|164860981|SUPERIORITY||Difference in Least Square Means|-0.433||||0.006|TWO_SIDED|95.0|-0.74|-0.127|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.127|-0.740|0.006
82528899|NCT01316770|164753803|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
82528900|NCT01316770|164753804|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
82528901|NCT01316770|164753804|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
82528902|NCT01316770|164753804|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||1.000
82528903|NCT01316770|164753804|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
82575680|NCT02870972|164860981|SUPERIORITY||Difference in Least Square Means|-0.425||||0.012|TWO_SIDED|95.0|-0.755|-0.095|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.095|-0.755|0.012
82575681|NCT02870972|164860981|SUPERIORITY||Difference in Least Square Means|-0.703|||<|0.001|TWO_SIDED|95.0|-1.033|0.373|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.373|-1.033|<0.001
82575682|NCT02870972|164860981|SUPERIORITY||Difference in Least Square Means|-0.1||||0.639|TWO_SIDED|95.0|-0.52|0.32|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.32|-0.52|0.639
82575683|NCT02870972|164860982|SUPERIORITY||Difference vs placebo (%)|17.7||||0.155|TWO_SIDED|95.0|-3.4|38.8|||Fisher Exact|||||38.8|-3.4|0.155
82575684|NCT02870972|164860982|SUPERIORITY||Difference vs placebo (%)|16.9||||0.277|TWO_SIDED|95.0|-6.3|40.1|||Fisher Exact|||||40.1|-6.3|0.277
82575685|NCT02870972|164860982|SUPERIORITY||Difference vs placebo (%)|24.0||||0.064|TWO_SIDED|95.0|-1.2|49.2|||Fisher Exact|||||49.2|-1.2|0.064
82528904|NCT01316770|164753807|OTHER|||||||0.25|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||0.250
82575686|NCT02870972|164860982|SUPERIORITY||Difference vs placebo (%)|-4.5||||1|TWO_SIDED|95.0|-13.2|4.2|||Fisher Exact|||||4.2|-13.2|1.000
82575687|NCT02870972|164860982|SUPERIORITY||Difference vs placebo (%)|-16.2||||0.097|TWO_SIDED|95.0|-30.2|-2.2|||Fisher Exact|||||-2.2|-30.2|0.097
82575688|NCT02870972|164860983|SUPERIORITY||Difference in Least Square Means|-0.061||||0.439|TWO_SIDED|95.0|-0.216|0.094|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.094|-0.216|0.439
82575689|NCT02870972|164860983|SUPERIORITY||Difference in Least Square Means|-0.004||||0.968|TWO_SIDED|95.0|-0.198|0.19|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.190|-0.198|0.968
82575690|NCT02870972|164860983|SUPERIORITY||Difference in Least Square Means|-0.045||||0.667|TWO_SIDED|95.0|-0.254|0.164|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.164|-0.254|0.667
82575691|NCT02870972|164860983|SUPERIORITY||Difference in Least Square Means|-0.197||||0.065|TWO_SIDED|95.0|-0.406|0.012|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.012|-0.406|0.065
82575692|NCT02870972|164860983|SUPERIORITY||Difference in Least Square Means|0.035||||0.797|TWO_SIDED|95.0|-0.232|0.301|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.301|-0.232|0.797
82575693|NCT02870972|164860984|SUPERIORITY||Difference in Least Square Means|-0.364|||<|0.001|TWO_SIDED|95.0|-0.547|-0.181|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.181|-0.547|<0.001
82575694|NCT02870972|164860984|SUPERIORITY||Difference in Least Square Means|-0.384||||0.001|TWO_SIDED|95.0|-0.613|-0.154|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.154|-0.613|0.001
82575695|NCT02870972|164860984|SUPERIORITY||Difference in Least Square Means|-0.401||||0.002|TWO_SIDED|95.0|-0.647|-0.154|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.154|-0.647|0.002
82575696|NCT02870972|164860984|SUPERIORITY||Difference in Least Square Means|-0.445|||<|0.001|TWO_SIDED|95.0|-0.692|-0.198|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||-0.198|-0.692|<0.001
82575697|NCT02870972|164860984|SUPERIORITY||Difference in Least Square Means|-0.08||||0.614|TWO_SIDED|95.0|-0.394|0.234|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the adjusted qualifying attack rate as the covariate.||0.234|-0.394|0.614
82575698|NCT02870972|164860985|SUPERIORITY||Difference in Least Square Means|-0.326||||0.006|TWO_SIDED|95.0|-0.557|-0.095|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.095|-0.557|0.006
82575699|NCT02870972|164860985|SUPERIORITY||Difference in Least Square Means|-0.293||||0.047|TWO_SIDED|95.0|-0.582|0.004|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.004|-0.582|0.047
82395350|NCT05821296|164501397|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_DEVIATION|0.86||0.036|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.036
82395351|NCT05821296|164501397|OTHER||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.77||0.784|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|t-test, 2 sided|||Comparison of change from baseline of conspicuous depth of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.784
82395352|NCT05821296|164501398|OTHER||Mean Difference (Final Values)|-2249.72|STANDARD_DEVIATION|4466.14||0.011|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.||Comparison of change from baseline of conspicuous length of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.011
82395353|NCT05821296|164501398|OTHER||Mean Difference (Final Values)|-2315.0|STANDARD_DEVIATION|6197.86||0.074|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.074
82395354|NCT05821296|164501398|OTHER||Mean Difference (Final Values)|-2700.55|STANDARD_DEVIATION|5962.3||0.007|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.007
82395355|NCT05821296|164501398|OTHER||Mean Difference (Final Values)|430.65|STANDARD_DEVIATION|5021.2||0.779|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous length of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.779
82395356|NCT05821296|164501399|OTHER||Mean Difference (Final Values)|-75800.75|STANDARD_DEVIATION|142643.92||0.003|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 15 to evaluate the improvement of line marks assessed by Colorface device.||||0.003
82395357|NCT05821296|164501399|OTHER||Mean Difference (Final Values)|-73517.86|STANDARD_DEVIATION|197224.85||0.054|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 36 to evaluate the improvement of line marks assessed by Colorface device.||||0.054
82575700|NCT02870972|164860985|SUPERIORITY||Difference in Least Square Means|-0.327||||0.04|TWO_SIDED|95.0|-0.638|-0.016|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.016|-0.638|0.040
82647877|NCT01244815|165011169|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.44||||0.009|TWO_SIDED|95.0|-4.26|-0.63|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.63|-4.26|0.009
82395358|NCT05821296|164501399|OTHER||Mean Difference (Final Values)|-90424.89|STANDARD_DEVIATION|198264.2||0.008|TWO_SIDED|||||If the test provides a p-value less than 0.05, the variation is significant over time for the studied parameter.|Wilcoxon (Mann-Whitney)|||Comparison of change from baseline of conspicuous volume of line marks at Day 57 to evaluate the improvement of line marks assessed by Colorface device.||||0.008
82395359|NCT05821296|164501399|OTHER||Mean Difference (Final Values)|1314.03||||0.779|TWO_SIDED||||||t-test, 2 sided|||Comparison of change from baseline of conspicuous volume of line marks at Day 78 to evaluate the improvement of line marks assessed by Colorface device.||||0.779
82395360|NCT03578146|164501443|SUPERIORITY||Least Squares Means (Difference)|-73.14||||0.0121|TWO_SIDED||||||ANCOVA|||||||0.0121
82395361|NCT03578146|164501443|SUPERIORITY||Least Squares Means (Difference)|-153.99|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395362|NCT03578146|164501443|SUPERIORITY||Least Squares Means (Difference)|-189.57|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395363|NCT03578146|164501443|SUPERIORITY||Least Squares Means (Difference)|-239.3|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395364|NCT03578146|164501443|SUPERIORITY||Least Squares Means (Difference)|-231.12|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395365|NCT03578146|164501444|SUPERIORITY||Least Squares Means (Difference)|52837.94|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395366|NCT03578146|164501444|SUPERIORITY||Least Squares Means (Difference)|110388.3|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395367|NCT03578146|164501444|SUPERIORITY||Least Squares Means (Difference)|163880.7|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395368|NCT03578146|164501444|SUPERIORITY||Least Squares Means (Difference)|263236.5|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395369|NCT03578146|164501444|SUPERIORITY||Least Squares Means (Difference)|270297.2|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395370|NCT03578146|164501445|SUPERIORITY||Least Squares Means (Difference)|-9.91||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
82395371|NCT03578146|164501445|SUPERIORITY||Least Squares Means (Difference)|-15.06|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82644316|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.148|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.886|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.886|-1.410|<.0001
82395372|NCT03578146|164501445|SUPERIORITY||Least Squares Means (Difference)|-17.53|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395373|NCT03578146|164501445|SUPERIORITY||Least Squares Means (Difference)|-17.05|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395374|NCT03578146|164501445|SUPERIORITY||Least Squares Means (Difference)|-19.33|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82395375|NCT01260584|164501475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.7|STANDARD_ERROR_OF_MEAN|4.11||0.0624|TWO_SIDED|95.0|-0.4|15.8|||Mixed Models Analysis|||For the sample size calculations for the co-primary endpoints, no Type 1 error rate was adjusted and both co-primary endpoints will be tested at the 0.05 level.||15.8|-0.4|0.0624
82395376|NCT01260584|164501475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.8|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|95.0|25.1|38.4|||Mixed Models Analysis|||||38.4|25.1|<0.0001
82395377|NCT01260584|164501475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.08||0.244|TWO_SIDED|95.0|-3.3|12.8|||Mixed Models Analysis|||||12.8|-3.3|0.2440
82395378|NCT01260584|164501475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.7|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|28.4|41.0|||Mixed Models Analysis|||||41.0|28.4|<0.0001
82395379|NCT01260584|164501475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.0|STANDARD_ERROR_OF_MEAN|4.14|<|0.0001|TWO_SIDED|95.0|18.8|35.2|||Mixed Models Analysis|||||35.2|18.8|<0.0001
82395380|NCT01260584|164501476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.2|STANDARD_ERROR_OF_MEAN|12.65||0.0048|TWO_SIDED|95.0|-61.1|-11.2|||Mixed Models Analysis|||||-11.2|-61.1|0.0048
82395381|NCT01260584|164501476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-93.8|STANDARD_ERROR_OF_MEAN|11.54|<|0.0001|TWO_SIDED|95.0|-116.7|-71.0|||Mixed Models Analysis|||||-71.0|-116.7|<0.0001
82395382|NCT01260584|164501476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|STANDARD_ERROR_OF_MEAN|12.53||0.0924|TWO_SIDED|95.0|-45.9|3.5|||Mixed Models Analysis|||||3.5|-45.9|0.0924
82395383|NCT01260584|164501476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-108.8|STANDARD_ERROR_OF_MEAN|10.85|<|0.0001|TWO_SIDED|95.0|-130.3|-87.3|||Mixed Models Analysis|||||-87.3|-130.3|<0.0001
82395384|NCT01260584|164501476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.6|STANDARD_ERROR_OF_MEAN|12.73|<|0.0001|TWO_SIDED|95.0|-97.8|-47.5|||Mixed Models Analysis|||||-47.5|-97.8|<0.0001
82395385|NCT01260584|164501477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|3.72||0.0423|TWO_SIDED|95.0|-15.0|-0.3|||Mixed Models Analysis|||||-0.3|-15.0|0.0423
82395386|NCT01260584|164501477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-29.0|-16.4|||Mixed Models Analysis|||||-16.4|-29.0|<0.0001
82395387|NCT01260584|164501477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|3.7||0.1184|TWO_SIDED|95.0|-13.1|1.5|||Mixed Models Analysis|||||1.5|-13.1|0.1184
82395388|NCT01260584|164501477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.5|STANDARD_ERROR_OF_MEAN|3.02|<|0.0001|TWO_SIDED|95.0|-30.5|-18.5|||Mixed Models Analysis|||||-18.5|-30.5|<0.0001
82395389|NCT01260584|164501477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|3.76|<|0.0001|TWO_SIDED|95.0|-24.3|-9.5|||Mixed Models Analysis|||||-9.5|-24.3|<0.0001
82395390|NCT01260584|164501478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.1331|TWO_SIDED|95.0|0.8|5.32|||Regression, Logistic|||||5.32|0.80|0.1331
82395391|NCT01260584|164501478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.5813|TWO_SIDED|95.0|0.17|23.65|||Regression, Logistic|||||23.65|0.17|0.5813
82395392|NCT01260584|164501478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.54||||0.0127|TWO_SIDED|95.0|1.85|148.23|||Regression, Logistic|||||148.23|1.85|0.0127
82395393|NCT01260584|164501478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.11||||0.0013|TWO_SIDED|95.0|3.13|93.65|||Regression, Logistic|||||93.65|3.13|0.0013
82395394|NCT01260584|164501479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.5684|TWO_SIDED|95.0|0.49|3.67|||Regression, Logistic|||||3.67|0.49|0.5684
82395395|NCT01260584|164501479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.7||||0.0447|TWO_SIDED|95.0|1.05|42.92|||Regression, Logistic|||||42.92|1.05|0.0447
82395396|NCT01260584|164501479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|58.64||||0.0003|TWO_SIDED|95.0|6.8|505.58|||Regression, Logistic|||||505.58|6.80|0.0003
82395397|NCT01260584|164501479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.71||||0.0006|TWO_SIDED|95.0|2.95|46.52|||Regression, Logistic|||||46.52|2.95|0.0006
82395398|NCT01260584|164501480|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|110.7|||||TWO_SIDED|90.0|93.7|130.8|||Mixed Models Analysis|||Prasugrel active metabolite R-138727||130.8|93.7|
82395399|NCT01260584|164501480|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|118.4|||||TWO_SIDED|90.0|99.8|140.4|||Mixed Models Analysis|||active metabolite R-130964||140.4|99.8|
82395400|NCT01260584|164501481|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|117.9|||||TWO_SIDED|90.0|94.4|147.3|||Mixed Models Analysis||Estimation was based on the ratio of Geom. means between groups. Non-smoker is the denominator.|Prasugrel active metabolite R-138727||147.3|94.4|
82395401|NCT01260584|164501481|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|123.8|||||TWO_SIDED|90.0|98.6|155.4|||Mixed Models Analysis||Estimation was based on the ratio of Geom. means between groups. Non-smoker is the denominator.|Clopidogrel active metabolite R-130964||155.4|98.6|
82395402|NCT00824382|164501498|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.091|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.051|0.131|||ANCOVA|||Olodaterol 2mcg - Placebo||0.131|0.051|<0.0001
82395403|NCT00824382|164501498|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.132|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.091|0.172|||ANCOVA|||Olodaterol 5mcg - Placebo||0.172|0.091|<0.0001
82395404|NCT00824382|164501498|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.132|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.092|0.172|||ANCOVA|||Olodaterol 10mcg - Placebo||0.172|0.092|<0.0001
82395405|NCT00824382|164501499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.021||0.0002||95.0|0.039|0.124|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.124|0.039|0.0002
82395406|NCT00824382|164501499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.184|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.184|0.098|<0.0001
82395407|NCT00824382|164501499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.115|0.199|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.199|0.115|<0.0001
82395408|NCT00824382|164501500|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.138|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.095|0.182|||ANCOVA|||Olodaterol 2mcg - Placebo||0.182|0.095|<0.0001
82395409|NCT00824382|164501500|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.197|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.154|0.241|||ANCOVA|||Olodaterol 5mcg - Placebo||0.241|0.154|<0.0001
82395410|NCT00824382|164501500|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.193|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.15|0.236|||ANCOVA|||Olodaterol 10mcg - Placebo||0.236|0.150|<0.0001
82395411|NCT00824382|164501501|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.146|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.101|0.191|||ANCOVA|||Olodaterol 2mcg - Placebo||0.191|0.101|<0.0001
82395412|NCT00824382|164501501|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.202|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.157|0.247|||ANCOVA|||Olodaterol 5mcg - Placebo||0.247|0.157|<0.0001
82395413|NCT00824382|164501501|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.196|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.151|0.24|||ANCOVA|||Olodaterol 10mcg - Placebo||0.240|0.151|<0.0001
82575701|NCT02870972|164860985|SUPERIORITY||Difference in Least Square Means|-0.558|||<|0.001|TWO_SIDED|95.0|-0.87|-0.247|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-0.247|-0.870|<0.001
82395414|NCT00824382|164501502|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.191|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001||95.0|0.107|0.275|||ANCOVA|||Olodaterol 2mcg - Placebo||0.275|0.107|<0.0001
82395415|NCT00824382|164501502|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.191|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001||95.0|0.106|0.276|||ANCOVA|||Olodaterol 5mcg - Placebo||0.276|0.106|<0.0001
82444538|NCT01852383|164597906|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0||||Pearson correlation coefficient. Not adjusted for multiple comparisons. Alpha=0.05 for statistical significance threshold.|Pearson correlation|||Correlation of maximum duloxetine dose with change in Hamilton Depression Rating Scale scores from 0 Weeks to 12 Weeks.||||<.001
82395416|NCT00824382|164501502|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.187|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001||95.0|0.103|0.27|||ANCOVA|||Olodaterol 10mcg - Placebo||0.270|0.103|<0.0001
82448959|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.6935|TWO_SIDED|95.0|-0.26|0.39||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q2 at Day 14||0.39|-0.26|0.6935
82575702|NCT02870972|164860985|SUPERIORITY||Difference in Least Square Means|0.057||||0.775|TWO_SIDED|95.0|-0.339|0.454|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.454|-0.339|0.775
82395417|NCT00824382|164501503|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.253|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.16|0.345|||ANCOVA|||Olodaterol 2mcg - Placebo||0.345|0.160|<0.0001
82395418|NCT00824382|164501503|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.25|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.156|0.343|||ANCOVA|||Olodaterol 5mcg - Placebo||0.343|0.156|<0.0001
82395419|NCT00824382|164501503|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.233|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|0.141|0.325|||ANCOVA|||Olodaterol 10mcg - Placebo||0.325|0.141|<0.0001
82395420|NCT00824382|164501504|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.253|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.155|0.351|||ANCOVA|||Olodaterol 2mcg - Placebo||0.351|0.155|<0.0001
82395421|NCT00824382|164501504|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.242|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.142|0.341|||ANCOVA|||Olodaterol 5mcg - Placebo||0.341|0.142|<0.0001
82395422|NCT00824382|164501504|SUPERIORITY_OR_OTHER||Least Squares Mean for the difference|0.226|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.129|0.324|||ANCOVA|||Olodaterol 10mcg - Placebo||0.324|0.129|<0.0001
82395423|NCT00824382|164501505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.039||0.0045||95.0|0.035|0.188|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.188|0.035|0.0045
82395424|NCT00824382|164501505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.216|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.14|0.293|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.293|0.140|<0.0001
82395425|NCT00824382|164501505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.142|0.292|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.292|0.142|<0.0001
82395426|NCT00824382|164501506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.039||0.0348||95.0|0.006|0.159|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.159|0.006|0.0348
82395427|NCT00824382|164501506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.1|0.252|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.252|0.100|<0.0001
82395428|NCT00824382|164501506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.115|0.265|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.265|0.115|<0.0001
82395429|NCT00824382|164501507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.256|STANDARD_ERROR_OF_MEAN|5.476|<|0.0001||95.0|16.477|38.036|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||38.036|16.477|<0.0001
82395430|NCT00824382|164501507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.383|STANDARD_ERROR_OF_MEAN|5.574|<|0.0001||95.0|18.41|40.357|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||40.357|18.410|<0.0001
82395431|NCT00824382|164501507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.678|STANDARD_ERROR_OF_MEAN|5.431|<|0.0001||95.0|25.987|47.369|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||47.369|25.987|<0.0001
82395432|NCT00824382|164501508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.052|STANDARD_ERROR_OF_MEAN|5.534|<|0.0001||95.0|18.159|39.946|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||39.946|18.159|<0.0001
82395433|NCT00824382|164501508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.955|STANDARD_ERROR_OF_MEAN|5.635|<|0.0001||95.0|19.861|42.049|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||42.049|19.861|<0.0001
82575703|NCT02870972|164860986|SUPERIORITY||Difference in Least Square Means|-4.449||||0.209|TWO_SIDED|95.0|-11.453|2.555|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.555|-11.453|0.209
82575704|NCT02870972|164860986|SUPERIORITY||Difference in Least Square Means|-9.103||||0.019|TWO_SIDED|95.0|-16.639|-1.567|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-1.567|-16.639|0.019
82395434|NCT00824382|164501508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.191|STANDARD_ERROR_OF_MEAN|5.489|<|0.0001||95.0|26.386|47.996|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||47.996|26.386|<0.0001
82395435|NCT00824382|164501509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.191|STANDARD_ERROR_OF_MEAN|0.149||0.2016||95.0|-0.485|0.103|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.103|-0.485|0.2016
82395436|NCT00824382|164501509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.454|STANDARD_ERROR_OF_MEAN|0.151||0.0029||95.0|-0.752|-0.156|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||-0.156|-0.752|0.0029
82395437|NCT00824382|164501509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387|STANDARD_ERROR_OF_MEAN|0.148||0.0095||95.0|-0.678|-0.095|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.095|-0.678|0.0095
82395438|NCT01663857|164501543|SUPERIORITY|||||||0.4|||||||Log Rank|||||||0.4
82395439|NCT01663857|164501545|SUPERIORITY|||||||0.4686|||||||Log Rank|||||||0.4686
82395440|NCT01172808|164501548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.181|0.291|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.291|0.181|<0.0001
82395441|NCT01172808|164501548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.142|0.253|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre , week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.253|0.142|<0.0001
82395442|NCT01172808|164501549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.126|0.244|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.244|0.126|<0.0001
82395443|NCT01172808|164501549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.092|0.211|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction.||0.211|0.092|<0.0001
82395444|NCT01172808|164501550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.114|0.233|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.233|0.114|<0.0001
82395445|NCT01172808|164501550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.031||0.0008|TWO_SIDED|95.0|0.042|0.162|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model. Spatial power used as covariance structure. The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||0.162|0.042|0.0008
82448960|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.333|TWO_SIDED|95.0|-0.47|0.16||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison of Q2 at Day 14||0.16|-0.47|0.3330
82444539|NCT02636946|164597970|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0166|TWO_SIDED|95.0|-1.28|-0.13|||MMRM|||Change from Baseline at Week 4: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% CI was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||-0.13|-1.28|0.0166
82444540|NCT02636946|164597971|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.29||0.0735|TWO_SIDED|95.0|-1.09|0.05|||MMRM|||Change from Baseline at Week 12: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% CI was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||0.05|-1.09|0.0735
82444541|NCT02636946|164597972|NON_INFERIORITY|MMRM was used for IOP change from baseline. The model includes IOP change from baseline as the response variable and treatment, visit, eye, baseline IOP, treatment-by-baseline, treatment-by-eye, treatment-by-visit, visit-by-eye interactions as covariates. A Kronecker product of unstructured covariance matrix for study visit and compound symmetry covariance matrix for between eye correlation was used in the analysis.|Least-squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.3928|TWO_SIDED|95.0|-0.81|0.32|||MMRM|||Change from Baseline at Week 24: The null hypothesis was that bimatoprost SR 15 μg was to be declared non-inferior to SLT if the upper limit of the 95% confidence interval (CI) was ≤ 1.5 mmHg at all scheduled visits (Weeks 4, 12, and 24).||0.32|-0.81|0.3928
82528905|NCT01316770|164753807|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||1.000
82528906|NCT01316770|164753807|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||1.000
82528907|NCT01316770|164753807|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
82528908|NCT01316770|164753808|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 14 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 14 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 14.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 14 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 14."||||1.000
82575705|NCT02870972|164860986|SUPERIORITY||Difference in Least Square Means|-11.263||||0.004|TWO_SIDED|95.0|-18.808|-3.718|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-3.718|-18.808|0.004
82644317|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.113|||<|0.0001|TWO_SIDED|95.0|0.844|1.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.382|0.844|<.0001
82528909|NCT01316770|164753808|OTHER|||||||0.625|||||||McNemar|||"McNemar's test on the study Day 28 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 28 is equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 28 is not equal to the probability of subjects shifting their answer from no at Screening to yes at Study Day 28."||||0.625
82575706|NCT02870972|164860986|SUPERIORITY||Difference in Least Square Means|4.04||||0.405|TWO_SIDED|95.0|-5.586|13.665|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||13.665|-5.586|0.405
82575707|NCT02870972|164860987|SUPERIORITY||Difference in Least Square Means|-8.12||||0.135|TWO_SIDED|95.0|-18.826|2.584|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.584|-18.826|0.135
82575708|NCT02870972|164860987|SUPERIORITY||Difference in Least Square Means|-8.92||||0.121|TWO_SIDED|95.0|-20.26|2.41|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.410|-20.260|0.121
82575709|NCT02870972|164860987|SUPERIORITY||Difference in Least Square Means|-24.49|||<|0.001|TWO_SIDED|95.0|-35.834|-13.137|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-13.137|-35.834|<0.001
82575710|NCT02870972|164860987|SUPERIORITY||Difference in Least Square Means|-7.84||||0.284|TWO_SIDED|95.0|-22.316|6.64|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||6.640|-22.316|0.284
82575711|NCT02870972|164860988|SUPERIORITY||Difference in Least Square Means|-8.27||||0.067|TWO_SIDED|95.0|-17.132|0.592|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||0.592|-17.132|0.067
82575712|NCT02870972|164860988|SUPERIORITY||Difference in Least Square Means|-7.073||||0.136|TWO_SIDED|95.0|-16.432|2.287|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.287|-16.432|0.136
82575713|NCT02870972|164860988|SUPERIORITY||Difference in Least Square Means|-11.484||||0.015|TWO_SIDED|95.0|-20.642|-2.325|||ANOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||-2.325|-20.642|0.015
82575714|NCT02870972|164860988|SUPERIORITY||Difference in Least Square Means|-9.785||||0.114|TWO_SIDED|95.0|-22.001|2.431|||ANCOVA|||The primary analysis of treatment-effect was performed using an ANCOVA with the terms of treatment and adjusted qualifying attack rate as the covariate.||2.431|-22.001|0.114
82575715|NCT00479882|164861016|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence LDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±3%.|Difference in Least squares mean|2.4|||||TWO_SIDED|95.0|1.3|3.4|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||3.4|1.3|
82575716|NCT00479882|164861016|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence LDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±3%.|Difference in Least Squares Mean|1.4|||||TWO_SIDED|95.0|0.4|2.4|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||2.4|0.4|
82575717|NCT00479882|164861017|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence HDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±4%.|Difference in Least Squares Mean|-0.2|||||TWO_SIDED|95.0|-1.4|1.0|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||1.0|-1.4|
82395446|NCT01172808|164501551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.032||0.0001|TWO_SIDED|95.0|0.062|0.189|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.189|0.062|0.0001
82395447|NCT01172808|164501551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.033||0.02|TWO_SIDED|95.0|0.012|0.14|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.140|0.012|0.0200
82395448|NCT01172808|164501552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.171|0.278|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.278|0.171|<0.0001
82395449|NCT01172808|164501552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.141|0.249|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.249|0.141|<0.0001
82395450|NCT01172808|164501553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.1|0.215|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.215|0.100|<0.0001
82575718|NCT00479882|164861017|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence HDL-C reduction was established if the 95% CI for the difference between these two treatments in percent change from baseline in LDL-C fell within ±4%.|Difference in Least Squares Mean|-0.8|||||TWO_SIDED|95.0|-1.9|0.2|||ANOVA|Factors for sequence, participant within sequence, period and treatment||||0.2|-1.9|
82647878|NCT01244815|165011169|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.44||||0.121|TWO_SIDED|95.0|-3.27|0.38|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.38|-3.27|0.121
82575719|NCT00479882|164861018|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2||||0.685|TWO_SIDED|95.0|-1.2|0.8|||Fisher Exact||Wilson's Method|Periods I/II||0.8|-1.2|0.685
82575720|NCT00479882|164861018|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.8|1.1|||||Wilson's Method|Period III||1.1|-1.8|
82575721|NCT00479882|164861018|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3||||0.753|TWO_SIDED|95.0|-1.6|0.9|||Fisher Exact||Wilson's Method|Periods I/II||0.9|-1.6|0.753
82575722|NCT00479882|164861018|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.8|1.4|||||Wilson's Method|Period III||1.4|-0.8|
82575723|NCT00479882|164861019|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
82395451|NCT01172808|164501553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.029||0.0003|TWO_SIDED|95.0|0.049|0.164|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.164|0.049|0.0003
82528910|NCT01316770|164753808|OTHER|||||||0.5|||||||McNemar|||"McNemar's test on the study Day 42 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 42 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 42.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 42 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 42."||||0.5000
82528911|NCT01316770|164753808|OTHER|||||||1|||||||McNemar|||"McNemar's test on the study Day 56 shift table. The null hypothesis assumes the probability of subjects shifting from yes at Screening to no at Study Day 56 are equal to the probability of subjects shifting from no at Screening to yes at Study Day 56.~Alternative hypothesis is that probability of subjects shifting from yes at Screening to no at Study Day 56 is not equal to the probability of subjects shifting from no at Screening to yes at Study Day 56."||||1.000
82528912|NCT02395133|164753862|SUPERIORITY||Percent Change Difference|-14.83|||=|0.0001|TWO_SIDED|95.0|-22.34|-7.33|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-7.33|-22.34|= 0.0001
82528913|NCT02395133|164753862|SUPERIORITY||Percent Change Difference|-17.83|||<|0.0001|TWO_SIDED|95.0|-25.33|-10.34|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-10.34|-25.33|< 0.0001
82528914|NCT02395133|164753862|SUPERIORITY||Percent Change Difference|-21.61|||<|0.0001|TWO_SIDED|95.0|-28.36|-14.87|||ANCOVA|Threshold for significance at 0.05 level.||A 2-sided hierarchical testing procedure was used for the co-primary and key secondary efficacy endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level. Analysis was performed using ANCOVA method.||-14.87|-28.36|<0.0001
82528915|NCT02395133|164753863|SUPERIORITY||Percentage difference|24.5|||=|0.004|TWO_SIDED|95.0|9.7|39.29||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||39.29|9.70|= 0.0040
82528916|NCT02395133|164753863|SUPERIORITY||Percentage difference|28.0|||=|0.0004|TWO_SIDED|95.0|13.32|42.58||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||42.58|13.32|= 0.0004
82528917|NCT02395133|164753863|SUPERIORITY||Percentage difference|41.2|||<|0.0001|TWO_SIDED|95.0|28.93|53.52||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||53.52|28.93|<0.0001
82528918|NCT02395133|164753864|SUPERIORITY||Percentage difference|21.4|||=|0.013|TWO_SIDED|95.0|4.86|38.0||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||38.00|4.86|= 0.0130
82528919|NCT02395133|164753864|SUPERIORITY||Percentage difference|33.5|||=|0.0003|TWO_SIDED|95.0|17.38|49.72||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||49.72|17.38|= 0.0003
82444542|NCT00576472|164597982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.0062|<|0.0001|TWO_SIDED|95.0|-0.0452|-0.0208|||ANOVA|||||-0.0208|-0.0452|<.0001
82528920|NCT02395133|164753864|SUPERIORITY||Percentage difference|42.1|||<|0.0001|TWO_SIDED|95.0|28.36|55.76||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||55.76|28.36|<0.0001
82528921|NCT02395133|164753865|SUPERIORITY||Percentage difference|18.5|||=|0.0209|TWO_SIDED|95.0|4.14|32.91||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||32.91|4.14|= 0.0209
82528922|NCT02395133|164753865|SUPERIORITY||Percentage difference|29.7|||=|0.0007|TWO_SIDED|95.0|14.89|44.42||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||44.42|14.89|= 0.0007
82444543|NCT00576472|164597983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0285|STANDARD_ERROR_OF_MEAN|0.0046|<|0.0001|TWO_SIDED|95.0|0.019|0.038|||ANOVA|||||0.0380|0.0190|<.0001
82444544|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0144|STANDARD_ERROR_OF_MEAN|0.0064||0.025|TWO_SIDED|95.0|0.000204|0.0285|||ANOVA|||||0.0285|0.000204|0.025
82444545|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0442|STANDARD_ERROR_OF_MEAN|0.0093|<|0.0001|TWO_SIDED|95.0|0.0292|0.0591|||ANOVA|||||0.0591|0.0292|<.0001
82444546|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0491|STANDARD_ERROR_OF_MEAN|0.0064|<|0.0001|TWO_SIDED|95.0|0.0396|0.0586|||ANOVA|||||0.0586|0.0396|<.0001
82444547|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0298|STANDARD_ERROR_OF_MEAN|0.0083||0.0004|TWO_SIDED|95.0|0.00974|0.0499|||ANOVA|||||0.0499|0.00974|.0004
82528923|NCT02395133|164753865|SUPERIORITY||Percentage difference|39.7|||<|0.0001|TWO_SIDED|95.0|27.42|51.95||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||51.95|27.42|<0.0001
82528924|NCT02395133|164753866|SUPERIORITY||Percentage difference|-14.4||||0.1048|TWO_SIDED|95.0|-29.21|0.32||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||0.32|-29.21|0.1048
82575724|NCT00479882|164861019|SUPERIORITY_OR_OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-0.5|1.5|||||Wilson's Method|Period III||1.5|-0.5|
82575725|NCT00479882|164861019|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.617|TWO_SIDED|95.0|-0.6|1.1|||Fisher Exact||Wilson's Method|Periods I/II||1.1|-0.6|0.617
82644318|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.969|||<|0.0001|TWO_SIDED|95.0|0.717|1.221|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.221|0.717|<.0001
82644319|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.139|||<|0.0001|TWO_SIDED|95.0|0.869|1.41|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.410|0.869|<.0001
82444548|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0347|STANDARD_ERROR_OF_MEAN|0.0047|<|0.0001|TWO_SIDED|95.0|0.025|0.0445|||ANOVA|||||0.0445|0.0250|<.0001
82444549|NCT00576472|164597984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.00494|STANDARD_ERROR_OF_MEAN|0.0083||0.552|TWO_SIDED|95.0|-0.00865|0.0185|||ANOVA|||||0.0185|-0.00865|.552
82444550|NCT00576472|164597985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.17|STANDARD_ERROR_OF_MEAN|1.93||0.0005|TWO_SIDED|95.0|-11.0|-3.3|||ANOVA|||||-3.3|-11.0|.0005
82444551|NCT00576472|164597986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.34|STANDARD_ERROR_OF_MEAN|1.59||0.0413|TWO_SIDED|95.0|-6.5|-0.1|||ANOVA|||||-0.1|-6.5|0.0413
82444552|NCT00576472|164597987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.74|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-11.0|-6.4|||ANOVA|||||-6.4|-11.0|<.0001
82444553|NCT00576472|164597988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.56|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|-12.0|-7.0|||ANOVA|||||-7.0|-12.0|<.0001
82444554|NCT00576472|164597989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|STANDARD_ERROR_OF_MEAN|1.81|<|0.0001|TWO_SIDED|95.0|4.4|11.6|||ANOVA|||||11.6|4.4|<.0001
82444555|NCT00576472|164597990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.03||0.8425|TWO_SIDED|95.0|-2.3|1.9|||ANOVA|||||1.9|-2.3|.8425
82444556|NCT00576472|164597991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|0.73||0.0016|TWO_SIDED|95.0|-3.9|-0.9|||ANOVA|||||-0.9|-3.9|.0016
82444557|NCT00576472|164597992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|1.04||0.8329|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|||||2.3|-1.9|.8329
82444558|NCT00576472|164597994|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||t-test, 2 sided|||||||0.0077
82444559|NCT00576472|164597994|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82444560|NCT00576472|164597994|SUPERIORITY_OR_OTHER|||||||0.1408||95.0|||||t-test, 2 sided|||||||0.1408
82444561|NCT00576472|164597995|SUPERIORITY_OR_OTHER|||||||0.0428||95.0|||||t-test, 2 sided|||||||0.0428
82444562|NCT00576472|164597995|SUPERIORITY_OR_OTHER|||||||0.0058||95.0|||||t-test, 2 sided|||||||0.0058
82444563|NCT00576472|164597995|SUPERIORITY_OR_OTHER|||||||0.4258||95.0|||||t-test, 2 sided|||||||0.4258
82444564|NCT00576472|164597996|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||t-test, 2 sided|||||||0.0035
82444565|NCT00576472|164597996|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
82444566|NCT00576472|164597996|SUPERIORITY_OR_OTHER|||||||0.4086||95.0|||||t-test, 2 sided|||||||0.4086
82575726|NCT00479882|164861019|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
82575727|NCT00479882|164861020|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
82575728|NCT00479882|164861020|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.9|0.8|||||Wilson's Method|Period III||0.8|-0.9|
82575729|NCT00479882|164861020|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.7|||Fisher Exact||Wilson's Method|Periods I/II||0.7|-0.6|
82528925|NCT02395133|164753866|SUPERIORITY||Percentage difference|-20.6|||=|0.0107|TWO_SIDED|95.0|-35.32|-5.89||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||-5.89|-35.32|= 0.0107
82644320|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.98|||<|0.0001|TWO_SIDED|95.0|0.728|1.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.231|0.728|<.0001
82575730|NCT00479882|164861020|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
82575731|NCT00479882|164861021|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-0.7|
82575732|NCT00479882|164861021|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.9|0.8|||||Wilson's Method|Period III||0.8|-0.9|
82575733|NCT00479882|164861021|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.7|||Fisher Exact||Wilson's Method|Periods I/II||0.7|-0.6|
82575734|NCT00479882|164861021|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.8|0.9|||||Wilson's Method|Period III||0.9|-0.8|
82575735|NCT00479882|164861022|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2||||0.497|TWO_SIDED|95.0|-0.9|0.5|||Fisher Exact|||Periods I/II||0.5|-0.9|0.497
82575736|NCT00479882|164861023|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3||||0.449|TWO_SIDED|95.0|-1.4|0.6|||Fisher Exact||Wilson's Method|Periods I/II||0.6|-1.4|0.449
82395452|NCT01172808|164501554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.907|STANDARD_ERROR_OF_MEAN|4.994|<|0.0001|TWO_SIDED|95.0|28.113|47.7|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||47.700|28.113|<0.0001
82528926|NCT02395133|164753866|SUPERIORITY||Percentage difference|-36.1|||<|0.0001|TWO_SIDED|95.0|-48.4|-23.74||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region, baseline disease severity and Dupilumab regimen received in parent studies.||-23.74|-48.40|<0.0001
82575737|NCT00479882|164861023|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.6|0.9|||||Wilson's Method|Period III||0.9|-1.6|
82575738|NCT00479882|164861023|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.685|TWO_SIDED|95.0|-0.8|1.2|||Fisher Exact||Wilson's Method|Period I/II||1.2|-0.8|0.685
82575739|NCT00479882|164861023|SUPERIORITY_OR_OTHER||Difference in Percentage|0.3|||||TWO_SIDED|95.0|-1.0|1.6|||||Wilson's Method|Period III||1.6|-1.0|
82575740|NCT00479882|164861024|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.2||||0.02|TWO_SIDED|95.0|-2.4|-0.2|||Fisher Exact||Wilson's Method|Periods I/II||-0.2|-2.4|0.020
82575741|NCT00479882|164861024|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.3|||||TWO_SIDED|95.0|-1.6|0.9|||||Wilson's Method|Period III||0.9|-1.6|
82575742|NCT00479882|164861024|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.5||||0.452|TWO_SIDED|95.0|-1.6|0.5|||Fisher Exact||Wilson's Method|Periods I/II||0.5|-1.6|0.452
82575743|NCT00479882|164861024|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4|||||TWO_SIDED|95.0|-1.9|1.0|||||Wilson's Method|Period III||1.0|-1.9|
82575744|NCT00479882|164861025|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||||Wilson's Method|Periods I/II||0.6|-0.6|
82575745|NCT00479882|164861025|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.7|1.2|||||Wilson's Method|Period III||1.2|-0.7|
82575746|NCT00479882|164861025|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.5|0.9|||||Wilson's Method|Periods I/II||0.9|-0.5|
82575747|NCT00479882|164861025|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.6|1.3|||||Wilson's Method|Period III||1.3|-0.6|
82575748|NCT00479882|164861026|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.4|||||TWO_SIDED|95.0|-6.6|3.8|||||Wilson's Score Method|Periods I/II||3.8|-6.6|
82575749|NCT00479882|164861026|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.9|||||TWO_SIDED|95.0|-8.1|4.3|||||Wilson's Score Method|Period III||4.3|-8.1|
82575750|NCT00479882|164861026|SUPERIORITY_OR_OTHER||Difference in Percentage|0.1|||||TWO_SIDED|95.0|-5.2|5.3|||||Wilson's Score Method|Periods I/II||5.3|-5.2|
82575751|NCT00479882|164861026|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8|||||TWO_SIDED|95.0|-8.9|3.4|||||Wilson's Score Method|Period III||3.4|-8.9|
82575752|NCT00479882|164861027|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-2.5|2.1|||||Wilson's Score Method|Periods I/II||2.1|-2.5|
82575753|NCT00479882|164861027|SUPERIORITY_OR_OTHER||Difference in Percentage|2.3|||||TWO_SIDED|95.0|-0.5|5.2|||||Wilson's Score Method|Period III||5.2|-0.5|
82575754|NCT00479882|164861027|SUPERIORITY_OR_OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-1.0|4.2|||||Wilson's Score Method|Periods I/II||4.2|-1.0|
82575755|NCT00479882|164861027|SUPERIORITY_OR_OTHER||Difference in Percentage|2.0|||||TWO_SIDED|95.0|-0.8|5.0|||||Wilson's Score Method|Period III||5.0|-0.8|
82575756|NCT00479882|164861030|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2|||||TWO_SIDED|95.0|-0.5|0.9|||||Wilson's Score Method|Periods I/II||0.9|-0.5|
82575757|NCT00479882|164861030|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||||Wilson's Score Method|Periods I/II||0.5|-0.9|
82575758|NCT00479882|164861031|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.0||||0.341|TWO_SIDED|95.0|-1.1|3.1|||ANOVA|Factors for treatment, country and gender||||3.1|-1.1|0.341
82395453|NCT01172808|164501554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.677|STANDARD_ERROR_OF_MEAN|5.023|<|0.0001|TWO_SIDED|95.0|23.825|43.529|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||43.529|23.825|<0.0001
82395454|NCT01172808|164501555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.066||0.2717|TWO_SIDED|95.0|-0.057|0.203|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.203|-0.057|0.2717
82395455|NCT01172808|164501555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.067||0.2956|TWO_SIDED|95.0|-0.061|0.201|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.201|-0.061|0.2956
82395456|NCT01172808|164501556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.059||0.0007|TWO_SIDED|95.0|-0.318|-0.085|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.085|-0.318|0.0007
82395457|NCT01172808|164501556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|STANDARD_ERROR_OF_MEAN|0.06||0.0262|TWO_SIDED|95.0|-0.25|-0.016|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||-0.016|-0.250|0.0262
82395458|NCT01172808|164501557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0377|TWO_SIDED|95.0|1.02|2.11||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||2.11|1.02|0.0377
82395459|NCT01172808|164501557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.0022|TWO_SIDED|95.0|1.22|2.54||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||2.54|1.22|0.0022
82395460|NCT01172808|164501558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.591|STANDARD_ERROR_OF_MEAN|4.52|<|0.0001|TWO_SIDED|95.0|21.726|39.455|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||39.455|21.726|<0.0001
82395461|NCT01172808|164501558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.66|STANDARD_ERROR_OF_MEAN|4.533|<|0.0001|TWO_SIDED|95.0|14.772|32.549|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, country, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||32.549|14.772|<0.0001
82575759|NCT00479882|164861031|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.7||||0.004|TWO_SIDED|95.0|1.2|6.1|||ANOVA|Factors for treatment, country and gender.||||6.1|1.2|0.004
82395462|NCT01172808|164501559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.16|STANDARD_ERROR_OF_MEAN|4.447|<|0.0001|TWO_SIDED|95.0|19.44|36.88|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||36.880|19.440|<0.0001
82395463|NCT01172808|164501559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.37|STANDARD_ERROR_OF_MEAN|4.462|<|0.0001|TWO_SIDED|95.0|15.619|33.12|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||33.120|15.619|<0.0001
82395464|NCT01172808|164501560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.558|STANDARD_ERROR_OF_MEAN|0.603||0.355|TWO_SIDED|95.0|-1.74|0.624|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.624|-1.740|0.3550
82395465|NCT01172808|164501560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|0.608||0.0094|TWO_SIDED|95.0|0.388|2.771|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||2.771|0.388|0.0094
82575760|NCT00479882|164861032|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.4||||0.69|TWO_SIDED|95.0|-2.3|1.5|||ANOVA|Factors for treatment, country and gender||||1.5|-2.3|0.690
82395466|NCT01172808|164501561|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.03||0.0069|TWO_SIDED|95.0|0.022|0.139|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.139|0.022|0.0069
82395467|NCT01172808|164501561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.03||0.081|TWO_SIDED|95.0|-0.006|0.111|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.111|-0.006|0.0810
82395468|NCT01172808|164501562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.031||0.0363|TWO_SIDED|95.0|0.004|0.126|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.126|0.004|0.0363
82395469|NCT01172808|164501562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.031||0.2077|TWO_SIDED|95.0|-0.022|0.1|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.100|-0.022|0.2077
82395470|NCT01172808|164501563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.162|STANDARD_ERROR_OF_MEAN|0.14||0.2447|TWO_SIDED|95.0|-0.436|0.111|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.111|-0.436|0.2447
82395471|NCT01172808|164501563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.14||0.3046|TWO_SIDED|95.0|-0.131|0.419|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.419|-0.131|0.3046
82395472|NCT01172808|164501564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.029||0.1178|TWO_SIDED|95.0|-0.011|0.102|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R2.5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.102|-0.011|0.1178
82395473|NCT01172808|164501564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.029||0.888|TWO_SIDED|95.0|-0.061|0.053|||Mixed Models Analysis|Adjusted using a restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM).|Tio R5 - Placebo|Analyses included the fixed, categorical effects of treatment, centre, week, and treatment-by-week interaction, as well as the covariates of baseline value and baseline value-by-week interaction. Patient was included as a random effect in the model.||0.053|-0.061|0.8880
82444567|NCT00576472|164597997|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||||||0.0001
82528927|NCT01598298|164753883|OTHER|Two-sided test at the alpha=0.05 level|Coefficient for treatment term|-0.82||||0.0002|TWO_SIDED|95.0|-1.24|-0.4||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for the protocol-specified stratification factors (baseline average pain and prior taxane use)|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of BPI at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for the stratification factors.||-0.40|-1.24|0.0002
82575761|NCT00479882|164861032|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.2||||0.879|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|Factors for treatment, country and gender||||2.3|-1.9|0.879
82395474|NCT01172808|164501565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.0308|TWO_SIDED|95.0|1.03|1.72||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R2.5 / Placebo|||1.72|1.03|0.0308
82395475|NCT01172808|164501565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0348|TWO_SIDED|95.0|1.02|1.71||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|||1.71|1.02|0.0348
82395476|NCT03411902|164501629|SUPERIORITY|||||||0.048|||||||Mixed Models Analysis|||||||0.048
82395477|NCT03411902|164501630|SUPERIORITY|||||||0.745|||||||Mixed Models Analysis|||||||0.745
82444568|NCT00576472|164597997|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||t-test, 2 sided|||||||0.0007
82395478|NCT03411902|164501631|SUPERIORITY|||||||0.163|||||||Mixed Models Analysis|||||||0.163
82395479|NCT03411902|164501632|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
82444569|NCT00576472|164597997|SUPERIORITY_OR_OTHER|||||||0.7007||95.0|||||t-test, 2 sided|||||||0.7007
82444570|NCT00576472|164597998|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
82444571|NCT00576472|164597998|SUPERIORITY_OR_OTHER|||||||0.0016||95.0|||||t-test, 2 sided|||||||0.0016
82444572|NCT00576472|164597998|SUPERIORITY_OR_OTHER|||||||0.6237||95.0|||||t-test, 2 sided|||||||0.6237
82444573|NCT00576472|164597999|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
82644321|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.039||||1|TWO_SIDED|95.0|-0.34|0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.262|-0.340|1.0000
82647879|NCT01244815|165011170|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.44||||0.135|TWO_SIDED|95.0|-3.33|0.45|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.45|-3.33|0.135
82395480|NCT03411902|164501633|SUPERIORITY|||||||0.337|||||||Mixed Models Analysis|||Pertaining to Radius 33 BMD||||0.337
82395481|NCT03411902|164501633|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||Pertaining to Radius UD BMD||||0.238
82395482|NCT03411902|164501634|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.860
82395483|NCT00672841|164501641|SUPERIORITY_OR_OTHER||Sensitivity|100.0||||||95.0|||||Sensitivity %||Sensitivity \[1\] = (True positives \[n=6\]/ True positives + False negatives \[n=6\])|Clinical sensitivity of the BDG test was calculated for both study groups combined||||
82395484|NCT00672841|164501641|SUPERIORITY_OR_OTHER||Specificity|50.0||||||95.0|||||% Specificity||Specificity \[0.50\]= True negatives \[n=28\]/ True negatives + False positives \[56\])|Clinical specificity of the BDG test was calculated for the study groups combined||||
82395485|NCT00672841|164501643|SUPERIORITY_OR_OTHER||Percent Sensitivity|100.0||||||95.0|||||Sensitivity||Sensitivity = (true positives \[n=6\]/true positives + false negative \[n=6\])|The clinic sensitivity of the BDG test was calculated for both study groups combined||||
82444574|NCT00576472|164597999|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<.0001
82444575|NCT00576472|164597999|SUPERIORITY_OR_OTHER|||||||0.6071||95.0|||||t-test, 2 sided|||||||0.6071
82444576|NCT00576472|164598000|SUPERIORITY_OR_OTHER|||||||0.1386||95.0|||||t-test, 2 sided|||||||0.1386
82444577|NCT00576472|164598000|SUPERIORITY_OR_OTHER|||||||0.0905||95.0|||||t-test, 2 sided|||||||0.0905
82444578|NCT00576472|164598000|SUPERIORITY_OR_OTHER|||||||0.8039||95.0|||||t-test, 2 sided|||||||0.8039
82444579|NCT00576472|164598001|SUPERIORITY_OR_OTHER|||||||0.7496||95.0|||||t-test, 2 sided|||||||0.7496
82444580|NCT00576472|164598001|SUPERIORITY_OR_OTHER|||||||0.9489||95.0|||||t-test, 2 sided|||||||0.9489
82444581|NCT00576472|164598001|SUPERIORITY_OR_OTHER|||||||0.7021||95.0|||||t-test, 2 sided|||||||0.7021
82444582|NCT00576472|164598002|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|||||||0.0190
82444583|NCT00576472|164598002|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||t-test, 2 sided|||||||0.0003
82444584|NCT00576472|164598002|SUPERIORITY_OR_OTHER|||||||0.1622||95.0|||||t-test, 2 sided|||||||0.1622
82444585|NCT00576472|164598003|SUPERIORITY_OR_OTHER|||||||0.1202||95.0|||||t-test, 2 sided|||||||0.1202
82444586|NCT00576472|164598003|SUPERIORITY_OR_OTHER|||||||0.0103||95.0|||||t-test, 2 sided|||||||0.0103
82444587|NCT00576472|164598003|SUPERIORITY_OR_OTHER|||||||0.2831||95.0|||||t-test, 2 sided|||||||0.2831
82444588|NCT00576472|164598004|SUPERIORITY_OR_OTHER|||||||0.7027||95.0|||||t-test, 2 sided|||||||0.7027
82444589|NCT00576472|164598005|SUPERIORITY_OR_OTHER|||||||0.7493||95.0|||||t-test, 2 sided|||||||0.7493
82444590|NCT00576472|164598006|SUPERIORITY_OR_OTHER|||||||0.7339||95.0|||||t-test, 2 sided|||||||0.7339
82444591|NCT00576472|164598007|SUPERIORITY_OR_OTHER|||||||0.6148||95.0|||||t-test, 2 sided|||||||0.6148
82444592|NCT00576472|164598008|SUPERIORITY_OR_OTHER|||||||0.4456||95.0|||||t-test, 2 sided|||||||0.4456
82444593|NCT00576472|164598009|SUPERIORITY_OR_OTHER|||||||0.5866||95.0|||||t-test, 2 sided|||||||0.5866
82444594|NCT00576472|164598010|SUPERIORITY_OR_OTHER|||||||0.8918||95.0|||||t-test, 2 sided|||||||0.8918
82444595|NCT00576472|164598011|SUPERIORITY_OR_OTHER|||||||0.4427||95.0|||||t-test, 2 sided|||||||0.4427
82444596|NCT00576472|164598012|SUPERIORITY_OR_OTHER|||||||0.4203||95.0|||||t-test, 2 sided|||||||0.4203
82444597|NCT00576472|164598013|SUPERIORITY_OR_OTHER|||||||0.5754||95.0|||||t-test, 2 sided|||||||0.5754
82444598|NCT00576472|164598014|SUPERIORITY_OR_OTHER|||||||0.0251||95.0|||||t-test, 2 sided|||||||0.0251
82444599|NCT00576472|164598015|SUPERIORITY_OR_OTHER|||||||0.1049||95.0|||||t-test, 2 sided|||||||0.1049
82444600|NCT04405245|164598020|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.366||0.807|TWO_SIDED|95.0|-0.63|0.81|||ANCOVA|||||0.81|-0.63|0.8070
82444601|NCT04405245|164598020|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.365||0.013|TWO_SIDED|95.0|-1.64|-0.2|||ANCOVA|||||-0.20|-1.64|0.0130
82444602|NCT02576860|164598030|SUPERIORITY|||||||0.799|||||||ANCOVA|||||||0.799
82444603|NCT02576860|164598031|SUPERIORITY|||||||0.858|||||||Cochran-Mantel-Haenszel|||||||0.858
82444604|NCT02391961|164598061|SUPERIORITY|||||||0.842672|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: average PSR at baseline and after 3 hours on dalfampridine, and average PSR at baseline and after 3 hours on placebo.||||0.842672
82444605|NCT02391961|164598062|SUPERIORITY|||||||0.972866|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: average PTD at baseline and after 3 hours on dalfampridine, and average PTD at baseline and after 3 hours on placebo.||||0.972866
82444606|NCT02391961|164598063|SUPERIORITY|||||||0.95|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: RA at baseline and after 3 hours on dalfampridine, and RA at baseline and after 3 hours on placebo.||||0.95
82444607|NCT02391961|164598064|SUPERIORITY|||||||0.9|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: MRS at baseline and after 3 hours on dalfampridine, and MRS at baseline and after 3 hours on placebo.||||0.9
82444608|NCT02391961|164598065|SUPERIORITY|||||||0.990995|||||||ANOVA|||Statistical Analysis applies to the 4 subgroups: 25 FWT at baseline and after 3 hours on dalfampridine, and 25 FWT at baseline and after 3 hours on placebo.||||0.990995
82395486|NCT00672841|164501643|SUPERIORITY_OR_OTHER||Percent Specificity|52.0||||||95.0|||||Specificity||Specificity \[0.52\]= (True negatives \[n=30\]/True negatives + false positives \[n=58\])|The clinical specificity of the BDG test was calculated for both study groups combined||||
82395487|NCT02638259|164501645|EQUIVALENCE|A margin of 0.6 can be statistically and clinically justified based on the results Keystone et al, Arthritis and Rheumatism, p353-363, (2004) and on the EULAR response criteria. The sample size of 155 per group with 90% power is based on the common SD of 1.46 and was calculated using nQuery 7.0.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.097|||TWO_SIDED|95.0|-0.26|0.12||||||Therapeutic equivalence in terms of change from baseline in DAS28-CRP at week 24 will be concluded if the 95% confidence interval for the LS mean difference between GP2015 and Enbrel is contained within the interval \[-0.6; 0.6\]. A mixed-model repeated measures analysis was performed for DAS28-CRP change from baseline including treatment, stratification factors, time, the interaction between time (visits) and treatment all as categorical variables, and baseline DAS28-CRP as a continuous variable.||0.12|-0.26|
82395488|NCT02952872|164501709|SUPERIORITY||||||<|0.05|||||||ANOVA|Mixed Design ANOVA||||||<.05
82395489|NCT02952872|164501710|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82395490|NCT02952872|164501711|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82395491|NCT02952872|164501712|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82647880|NCT01244815|165011170|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-2.19||||0.023|TWO_SIDED|95.0|-4.08|-0.3|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||-0.30|-4.08|0.023
82395492|NCT02069093|164501722|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Incidence rate R|||A test of the incidence rate R was performed with null hypothesis H0: R\>= 0.33 and alternative hypothesis Ha: R\<0.33 with a one-sided significance level of 0.05. If the test statistic was negative (actual incidence rate was \<0.33), the one-sided p-value for the null hypothesis R\>=0.33 was presented. The null hypothesis was rejected if the statistic was negative and the corresponding p-value for the one-sided test was \<0.5.||||<0.001
82395493|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3375||||||P-value is for Physical Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an Analysis of Covariance (ANCOVA) for change from baseline. Covariates include: treatment and baseline value.||||||0.3375
82395494|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.516||||||P-value is for Physical Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.516
82395495|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.786||||||P-value is for Physical Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.786
82395496|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1496||||||P-value is for Physical Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1496
82395497|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8428||||||P-value is for Physical Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8428
82395498|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7345||||||P-value is for Physical Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7345
82395499|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8928||||||P-value is for Physical Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8928
82395500|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7343||||||P-value is for Physical Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7343
82395501|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8798||||||P-value is for Social/Family Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8798
82395502|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6837||||||P-value is for Social/Family Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.6837
82395503|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7226||||||P-value is for Social/Family Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7226
82395504|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641||||||P-value is for Social/Family Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.641
82395505|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.478||||||P-value is for Social/Family Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.478
82395506|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9367||||||P-value is for Social/Family Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.9367
82395507|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5108||||||P-value is for Social/Family Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.5108
82395508|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8976||||||P-value is for Social/Family Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8976
82395509|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8193||||||P-value is for Emotional Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8193
82395510|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1695||||||P-value is for Emotional Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1695
82528928|NCT01598298|164753884|OTHER|Two-sided test at the alpha=0.05 level|Coefficient for treatment term|-1.06|||<|0.0001|TWO_SIDED|95.0|-1.57|-0.55||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for baseline worst pain score and the protocol-specified stratification factors (baseline average pain and prior taxane use).|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of BPI at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for baseline worst pain score and the stratification factors.||-0.55|-1.57|<0.0001
82644322|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.166||||0.5184|TWO_SIDED|95.0|-0.447|0.115|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.115|-0.447|0.5184
82575762|NCT01512797|164861070|OTHER|||||||0.028||||||P-value refers to paired t-test comparing pre-intervention and post-intervention timepoints in Sitagliptin group.|t-test, 2 sided|||Power analysis. Based on the effect of DPP-4 inhibitors in non-operated subjects with type 2 diabetes, showing a significant decrease in 120' post-prandial glucose by 1.67 mmol/L ± 0.98 mmol/L after a MMT, we estimated that a sample size of 16 subjects per group will show post-prandial glucose differences between placebo and sitagliptin group with α = 0.05 for a power \> 90%.||||0.028
82575763|NCT03004404|164861076|OTHER||Slope|0.748|STANDARD_ERROR_OF_MEAN|0.0743|||TWO_SIDED|95.0|0.5959|0.9001|||||Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|In the SRD part of the trial, dose proportionality for AUC0-inf was assessed in the 25 mg to 400 mg dose groups (BI 730357 tablets administered under fasted conditions) using a power model (regression model applied to log-transformed data).||0.9001|0.5959|
82575764|NCT03004404|164861076|OTHER||Ratio T/R|118.71|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|94.57|149.03|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet 400mg fed1 (T)/400mg fed2(R), T/R.|Relative bioavailability of AUC0-inf for the SRD part was performed to test the effect of food intake on the PK of 400 mg BI 730357 tablets. The intra-individual comparison of fed conditions was done using an Analysis of Variance (ANOVA) model on the logarithmic scale.||149.03|94.57|
82575765|NCT03004404|164861076|OTHER||Geometric mean ratio T1/R (%)|124.79|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|90.0|116.858|133.255|||||Standard error of the mean is actually geometric standard error of the mean. The geometric mean ratio was calculated as: oral solution in fasted state (test treatment T1)/tablet in fasted state (reference treatment R), T1/R.|Estimation of relative bioavailability of AUC0-inf was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for Oral solution (PfOS) fasted (T1) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Auc0-inf and their two-sided 90% confidence intervals . No hypothesis was tested.|133.255|116.858|
82644323|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.28||||0.0743|TWO_SIDED|95.0|-0.017|0.578|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.578|-0.017|0.0743
82644324|NCT03692078|165004005|EQUIVALENCE|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.183||||0.3889|TWO_SIDED|95.0|-0.095|0.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-HPMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.462|-0.095|0.3889
82395511|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4021||||||P-value is for Emotional Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.4021
82395512|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3603||||||P-value is for Emotional Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3603
82647881|NCT01244815|165011170|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.28||||0.189|TWO_SIDED|95.0|-3.2|0.63|||MMRM|Model included terms of (pooled) site, treatment, visit, baseline, and the interaction of visit by treatment and baseline by visit|Estimate is asenapine versus placebo|Model uses efficacy FAS population (number of participants: placebo - 98, asenapine 2.5 mg - 101, asenapine 5.0 mg - 98, asenapine 10.0 mg - 98)||0.63|-3.20|0.189
82368137|NCT00807248|164446883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.32||0.0006|TWO_SIDED|95.0|-1.72|-0.48|||ANCOVA|||||-0.48|-1.72|0.0006
82368138|NCT00807248|164446883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-2.0|-0.76|||ANCOVA|||||-0.76|-2.00|<0.0001
82368139|NCT00807248|164446884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.89|-0.34|||ANCOVA|||||-0.34|-0.89|<0.0001
82368140|NCT00807248|164446884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.82|-0.26|||ANCOVA|||||-0.26|-0.82|0.0001
82644325|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.264|||<|0.0001|TWO_SIDED|95.0|5.155|5.373|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||5.373|5.155|<.0001
82444609|NCT02391961|164598066|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to the 2 groups, mean VFQ-25 scores on dalfampridine vs mean VFQ-25 scores on placebo||||0.71
82444610|NCT02391961|164598067|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Statistical Analysis applies to the 2 groups, mean 10-item NOS scores on dalfampridine vs mean 10-item NOS scores on placebo||||0.95
82528929|NCT01598298|164753885|OTHER|Two-sided test at the alpha=0.05 level|Coefficient fro treatment term|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.35|-0.55||Two-sided p-value; alpha=0.05|Mixed Models Analysis|Adjusted for baseline pain interference score and the protocol-specified stratification factors (baseline average pain and prior taxane use).|The estimation parameter is the model-based coefficient for the treatment term, with placebo as the reference level.|The primary analysis will rely on longitudinal measures of pain interference scores at Weeks 2, 6, and 12 for improved power. Assessment windows of +/- 7 days, +/- 14 days, and +/- 14 days will be allowed for the 2, 6, and 12 week timepoints. The analysis will be performed using mixed models, adjusted for baseline pain interference score and the stratification factors.||-0.55|-1.35|<0.0001
82368141|NCT00807248|164446884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.99|-0.44|||ANCOVA|||||-0.44|-0.99|<0.0001
82395513|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5169||||||P-value is for Emotional Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.5169
82395514|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1642||||||P-value is for Emotional Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1642
82444611|NCT01792518|164598086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.78|-0.43|||Mixed Models Analysis|The Unstructured covariance structure has been used to fit the mixed model|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change in HbA1c is analysed using mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline log10 (UACR), baseline HbA1c by visit and baseline log10 (UACR) by visit as linear covariates and treatment, visit, visit by treatment interaction as fixed effects.||-0.43|-0.78|<0.0001
82528930|NCT00186498|164753886|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||Test of within subjects contrast: CVLT Long Delay Free Recall Time 1 (baseline) vs Time 2 (30 days): Placebo (F 4.093) p= 0.071; Memantine (F 35.042) p=0.006|Regression, Linear|||||||0.006
82444612|NCT01792518|164598087|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.94||||0.1954|TWO_SIDED|95.0|0.85|1.03|||ANCOVA||Ratio of relative change for Linagliptin 5 mg over placebo is presented.|Superiority of Linagliptin 5 mg vs. placebo: change in UACR is analysed using analysis of covariance model. Model includes baseline HbA1c and baseline log10 (UACR) as linear covariates and treatment as fixed effect.||1.03|0.85|0.1954
82444613|NCT01792518|164598088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|2.7||0.3306|TWO_SIDED|95.0|-7.95|2.68|||Mixed Models Analysis|The Unstructured covariance structure has been used to fit the mixed model|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Change in eGFR is analysed using mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline log10 (UACR), baseline eGFR, baseline HbA1c by visit, baseline log10 (UACR) by visit and baseline eGFR by visit as linear covariates and treatment, visit, visit by treatment interaction as fixed effects.||2.68|-7.95|0.3306
82368142|NCT00807248|164446885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.02|-0.5|||ANCOVA|||||-0.50|-1.02|<0.0001
82368143|NCT00807248|164446885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.88|-0.36|||ANCOVA|||||-0.36|-0.88|<0.0001
82448961|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS Mean difference|1.39||||0.0434|TWO_SIDED|95.0|0.04|2.73||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||2.73|0.04|0.0434
82368144|NCT00807248|164446885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.97|-0.45|||ANCOVA|||||-0.45|-0.97|<0.0001
82368145|NCT02504671|164446931|OTHER||Odds Ratio (OR)|2.12||||0.547|TWO_SIDED|95.0|0.18|24.52|||Regression, Logistic||95% Confidence Intervals (CI) were constructed using asymptotic Wald confidence limits without correction.|||24.52|0.18|0.547
82368146|NCT02504671|164446931|OTHER||Odds Ratio (OR)|7.11||||0.077|TWO_SIDED|95.0|0.81|62.44|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||62.44|0.81|0.077
82395515|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6354||||||P-value is for Emotional Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.6354
82395516|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3517||||||P-value is for Emotional Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3517
82528931|NCT02341287|164753905|SUPERIORITY||Mean Difference (Net)|14.01|STANDARD_DEVIATION|19.4||0.023|TWO_SIDED|95.0|2.29|25.74||Paired t-test of control average sleep latency vs. heated glove average sleep latency as measured by actigraph.|t-test, 2 sided|||||25.74|2.29|.023
82528932|NCT02341287|164753906|SUPERIORITY|Paired t-test of control average sleep latency vs. heated glove average sleep latency as measured by sleep log.|Mean Difference (Net)|13.51|STANDARD_DEVIATION|16.91|<|0.014|TWO_SIDED|95.0|3.29|23.73|||t-test, 2 sided|||||23.73|3.29|<0.014
82528933|NCT02254408|164753907|SUPERIORITY||Treatment Difference|-0.33||||0.04|TWO_SIDED|95.0|-0.64|-0.02|||ANCOVA|||||-0.02|-0.64|0.040
82444614|NCT03263780|164598089|SUPERIORITY||Sensitivity|0.25||||0.056|TWO_SIDED|95.0|0.19|0.46||mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 6+)||0.46|0.19|0.056
82444615|NCT03263780|164598089|SUPERIORITY||Sensitivity|0.56||||0.56|TWO_SIDED|95.0|0.44|0.78||mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 6+)||0.78|0.44|0.56
82444616|NCT03263780|164598089|SUPERIORITY||Sensitivity|0.22||||0.06|TWO_SIDED|95.0|0.17|0.47||mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 6+)||0.47|0.17|0.060
82444617|NCT03263780|164598089|SUPERIORITY||Sensitivity|0.5||||0.083|TWO_SIDED|95.0|0.39|0.74||mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 6+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 6+)||0.74|0.39|0.083
82444618|NCT03263780|164598090|SUPERIORITY||Sensitivity|0.35||||0.096|TWO_SIDED|95.0|0.26|0.65||mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 3-5 \& Gleason 7+)||0.65|0.26|0.096
82444619|NCT03263780|164598090|SUPERIORITY||Sensitivity|0.6||||0.317|TWO_SIDED|95.0|0.46|0.9||mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 3-5 \& Gleason 7+)||0.90|0.46|0.317
82444620|NCT03263780|164598090|SUPERIORITY||Sensitivity|0.3||||0.063|TWO_SIDED|95.0|0.23|0.66||mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI and PET (PIRADS 4-5 \& Gleason 7+)||0.66|0.23|0.063
82528934|NCT02254408|164753908|SUPERIORITY||Odds Ratio (OR)|0.5||||0.11|TWO_SIDED|95.0|0.22|1.18|||Cochran-Mantel-Haenszel|||||1.18|0.22|0.11
82528935|NCT02254408|164753908|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
82444621|NCT03263780|164598090|SUPERIORITY||Sensitivity|0.6||||0.317|TWO_SIDED|95.0|0.46|0.9||mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 7+)|Durkalski's Chi-square test||We did not present standard deviation as the variability is already incorporated in the provided confidence interval.|mpMRI vs hrMRI or PET (PIRADS 4-5 \& Gleason 7+)||0.90|0.46|0.317
82444622|NCT01014455|164598095|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||t-test, 2 sided|||||||0.672
82444623|NCT00128713|164598112|SUPERIORITY_OR_OTHER|||||||0.83||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.83
82644326|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.204|||<|0.0001|TWO_SIDED|95.0|5.106|5.302|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||5.302|5.106|<.0001
82647882|NCT01244815|165011171|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.29||||0.002|TWO_SIDED|95.0|1.56|7.02|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||7.02|1.56|0.002
82444624|NCT00128713|164598112|SUPERIORITY_OR_OTHER|||||||0.83||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.83
82444625|NCT00128713|164598112|SUPERIORITY_OR_OTHER|||||||0.66||||||Three one-degree-of-freedom chi-square tests, each comparing a pair of treatment groups. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Fisher Exact|These tests were carried out at the .017 significance level to adjust for the multiple comparisons.||||||0.66
82444626|NCT00128713|164598113|SUPERIORITY_OR_OTHER|||||||0.02||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.02
82444627|NCT00128713|164598113|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82444628|NCT00128713|164598113|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses are based on intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82444629|NCT00128713|164598114|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82444630|NCT00128713|164598114|SUPERIORITY_OR_OTHER||||||<|0.001||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82444631|NCT00128713|164598114|SUPERIORITY_OR_OTHER|||||||0.16||||||All analyses were carried out using intention to treat. These tests were carried out at the .017 significance level to adjust for the multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.16
82528936|NCT02254408|164753909|SUPERIORITY||Odds Ratio (OR)|1.01||||0.98|TWO_SIDED|95.0|0.28|3.63|||Cochran-Mantel-Haenszel|||||3.63|0.28|0.98
82528937|NCT02254408|164753909|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82528938|NCT00584701|164753914|SUPERIORITY_OR_OTHER||Dfiference in exon expression|1.5|||<|0.001||||||"Expression difference \>\|1.5\| with p-value adjusted for multiple comparisons."|ANCOVA|Between-group gene expression profiles compared between high versus low responders, controlling for age, gender and batch.||||||<.001
82368147|NCT02504671|164446931|OTHER||Odds Ratio (OR)|8.39||||0.053|TWO_SIDED|95.0|0.98|72.14|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||72.14|0.98|0.053
82528939|NCT02914184|164753915|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|1.07|||||TWO_SIDED|95.0|0.79|1.44|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_A and Liq\_B groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.44|0.79|
82368148|NCT02504671|164446931|OTHER||Odds Ratio (OR)|5.69||||0.122|TWO_SIDED|95.0|0.63|51.4|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||51.40|0.63|0.122
82368149|NCT02504671|164446931|OTHER||Odds Ratio (OR)|5.4||||0.134|TWO_SIDED|95.0|0.6|48.83|||Regression, Logistic||95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.83|0.60|0.134
82368150|NCT02504671|164446932|OTHER||Mean Difference (Net)|0.46||||0.905|TWO_SIDED|95.0|-7.13|8.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|Mixed Model Repeated Measures (MMRM)||CRP, Week 12|||8.05|-7.13|0.905
82395517|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7605||||||P-value is for Functional Well-Being Cycle 1.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7605
82395518|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3747||||||P-value is for Functional Well-Being Cycle 2.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3747
82395519|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8379||||||P-value is for Functional Well-Being Cycle 3.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.8379
82528940|NCT02914184|164753915|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|0.88|||||TWO_SIDED|95.0|0.65|1.19|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_A and Liq\_C groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.19|0.65|
82647883|NCT01244815|165011171|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|6.95|||<|0.001|TWO_SIDED|95.0|4.22|9.68|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||9.68|4.22|<0.001
82368151|NCT02504671|164446932|OTHER||Mean Difference (Net)|-3.36||||0.387|TWO_SIDED|95.0|-11.0|4.28||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||4.28|-11.00|0.387
82368152|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.58||||0.495|TWO_SIDED|95.0|-10.04|4.87||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||4.87|-10.04|0.495
82368153|NCT02504671|164446932|OTHER||Mean Difference (Net)|-7.68||||0.14|TWO_SIDED|95.0|-17.92|2.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||2.55|-17.92|0.140
82368154|NCT02504671|164446932|OTHER||Mean Difference (Net)|-13.68||||0.009|TWO_SIDED|95.0|-23.85|-3.52||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-3.52|-23.85|0.009
82368155|NCT02504671|164446932|OTHER||Mean Difference (Net)|-17.4|||<|0.001|TWO_SIDED|95.0|-27.44|-7.35||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-7.35|-27.44|<0.001
82368156|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.42||||0.118|TWO_SIDED|95.0|-5.45|0.62||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.62|-5.45|0.118
82368157|NCT02504671|164446932|OTHER||Mean Difference (Net)|-3.17||||0.041|TWO_SIDED|95.0|-6.2|-0.14||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||-0.14|-6.20|0.041
82368158|NCT02504671|164446932|OTHER||Mean Difference (Net)|-4.56||||0.003|TWO_SIDED|95.0|-6.0|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.05|-6.00|0.003
82395520|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1179||||||P-value is for Functional Well-Being Cycle 4.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.1179
82395521|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7412||||||P-value is for Functional Well-Being Cycle 5.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7412
82395522|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3773||||||P-value is for Functional Well-Being Cycle 6.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.3773
82528941|NCT02914184|164753915|OTHER|The two-sided 95% CIs for the ratio of anti RV IgA antibody GMCs should be within the \[0.5; 2\] clinical limit interval.|GMC Ratio at At Month 2-4|0.82|||||TWO_SIDED|95.0|0.61|1.11|||ANOVA|||GMC Ratio of Anti-RV IgA antibody for Liq\_B and Liq\_C groups was calculated using ANOVA model with vaccine groups and country as fixed effects.||1.11|0.61|
82368159|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.3||||0.172|TWO_SIDED|95.0|-5.61|1.01||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TC28, Week 12|||1.01|-5.61|0.172
82368160|NCT02504671|164446932|OTHER||Mean Difference (Net)|-3.92||||0.02|TWO_SIDED|95.0|-7.22|-0.62||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-0.62|-7.22|0.020
82368161|NCT02504671|164446932|OTHER||Mean Difference (Net)|-5.72|||<|0.001|TWO_SIDED|95.0|-8.98|-2.45||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-2.45|-8.98|<0.001
82368162|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.51||||0.518|TWO_SIDED|95.0|-10.13|5.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||5.12|-10.13|0.518
82528942|NCT02914184|164753916|NON_INFERIORITY|Lower limit (LL) of the two-sided asymptotic standardized 95% CI for the difference in SCR for antibodies to rota virus at month 2-4 between the Liq\_Pool group and Lyo Control group should be ≥ -10%.|SCR difference at Month 2-4|-2.49|||||TWO_SIDED|95.0|-7.15|2.63||||||Non-inferiority of Liq\_Pool group compared to Lyo Control group in terms of difference in % of subjects with anti-RV IgA titer ≥ specified cut off with its 2-sided 95% CI in initially seronegative subjects||2.63|-7.15|
82528943|NCT02914184|164753918|NON_INFERIORITY|LL of the two-sided 95% CI for the ratio of anti-RV IgA antibody GMCs between the Liq\_Pool Group and Control group should be ≥ 0.67.|GMC Ratio at At Month 2-4|1.04|||||TWO_SIDED|95.0|0.82|1.33|||ANOVA|||Non-inferiority of Liq\_Pool Group as compared to Lyo Control group in terms of the GMC ratio calculated using ANOVA model with vaccine groups and country as fixed effects||1.33|0.82|
82644327|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.005|||<|0.0001|TWO_SIDED|95.0|4.902|5.108|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||5.108|4.902|<.0001
82644328|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.958|||<|0.0001|TWO_SIDED|95.0|4.864|5.051|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||5.051|4.864|<.0001
82644329|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|5.114|||<|0.0001|TWO_SIDED|95.0|5.009|5.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||5.219|5.009|<.0001
82644330|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|5.052|||<|0.0001|TWO_SIDED|95.0|4.958|5.146|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||5.146|4.958|<.0001
82644331|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.539|||<|0.0001|TWO_SIDED|95.0|4.407|4.671|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||4.671|4.407|<.0001
82644332|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.415|||<|0.0001|TWO_SIDED|95.0|4.295|4.534|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||4.534|4.295|<.0001
82644333|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.431|||<|0.0001|TWO_SIDED|95.0|4.302|4.56|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||4.560|4.302|<.0001
82644334|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.361|||<|0.0001|TWO_SIDED|95.0|4.243|4.48|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||4.480|4.243|<.0001
82647884|NCT01244815|165011171|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.11|||<|0.001|TWO_SIDED|95.0|2.31|7.91|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||7.91|2.31|<0.001
82368163|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.0||||0.599|TWO_SIDED|95.0|-9.5|5.49||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||CRP, Week 12|||5.49|-9.50|0.599
82368164|NCT02504671|164446932|OTHER||Mean Difference (Net)|-12.63||||0.015|TWO_SIDED|95.0|-22.78|-2.48||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-2.48|-22.78|0.015
82368165|NCT02504671|164446932|OTHER||Mean Difference (Net)|-17.18|||<|0.001|TWO_SIDED|95.0|-27.27|-7.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||PtGA, Week 12|||-7.10|-27.27|<0.001
82368166|NCT02504671|164446932|OTHER||Mean Difference (Net)|-2.98||||0.054|TWO_SIDED|95.0|-6.0|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||0.05|-6.00|0.054
82368167|NCT02504671|164446932|OTHER||Mean Difference (Net)|-6.04|||<|0.001|TWO_SIDED|95.0|-9.05|-3.02||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||SJC28, Week 12|||-3.02|-9.05|<0.001
82368168|NCT02504671|164446932|OTHER||Mean Difference (Net)|-3.63||||0.031|TWO_SIDED|95.0|-6.92|-0.33||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-0.33|-6.92|0.031
82528944|NCT03810313|164753939|NON_INFERIORITY|Non-inferiority was considered to be established if the lower limit of the corresponding 95% CI for the estimated between group difference (brolucizumab vs. aflibercept) on change from baseline in BCVA at Week 24 is \> -4 letters.|Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.2||0.173|TWO_SIDED|95.0|-5.2|-0.5|||ANOVA|||||-0.5|-5.2|0.173
82528945|NCT03349268|164753970|SUPERIORITY|||||||0.23|||||||Poisson regression|||||||0.23
82528946|NCT02307513|164754021|SUPERIORITY||Difference in LS Mean|-92.6|||<|0.0001|TWO_SIDED|95.0|-130.59|-54.6|||ANCOVA|ANCOVA model with AUC W0-12 as the response variables; treatment arm, sex, region as factors and the number of oral ulcers at baseline as a covariate.|Treatment difference = Apremilast - Placebo|The AUC W0-12 for oral ulcer counts was compared between the placebo treatment group and the apremilast 30 BID treatment group using a 2-tailed parametric analysis of covariance (ANCOVA) test at the 0.05 significance level.||-54.60|-130.59|<0.0001
82647885|NCT01244815|165011172|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.24||||0.05|TWO_SIDED|95.0|0.0|4.48|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||4.48|-0.00|0.050
82368169|NCT02504671|164446932|OTHER||Mean Difference (Net)|-6.32|||<|0.001|TWO_SIDED|95.0|-9.61|-3.02||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||TJC28, Week 12|||-3.02|-9.61|<0.001
82368170|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368171|NCT02504671|164446933|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
82368172|NCT02504671|164446933|OTHER||Difference|-5.4|||||TWO_SIDED|95.0|-12.7|1.9|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||1.9|-12.7|
82368173|NCT02504671|164446933|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
82368174|NCT02504671|164446933|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368175|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368176|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368177|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368178|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368179|NCT02504671|164446933|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
82368180|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368181|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368182|NCT02504671|164446933|OTHER||Difference|27.0|||||TWO_SIDED|95.0|12.7|41.3|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.3|12.7|
82368183|NCT02504671|164446933|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368184|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368185|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368186|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368187|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368188|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82528947|NCT02307513|164754022|SUPERIORITY||Difference in LS Mean|-24.8|||<|0.0001|TWO_SIDED|95.0|-32.8|-16.8|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-16.8|-32.8|<0.0001
82368189|NCT02504671|164446933|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368190|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368191|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368192|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368193|NCT02504671|164446933|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82395523|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7402||||||P-value is for Functional Well-Being Cycle 7.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.7402
82528948|NCT02307513|164754023|SUPERIORITY||Difference in LS Mean|-11.94|||<|0.0001|TWO_SIDED|95.0|-16.2|-7.67|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-7.67|-16.20|<0.0001
82647886|NCT01244815|165011172|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.35||||0.239|TWO_SIDED|95.0|-0.9|3.59|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||3.59|-0.90|0.239
82395524|NCT00586508|164501757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2671||||||P-value is for Functional Well-Being Cycle 8.|ANCOVA|P-value of treatment effect from an ANCOVA for change from baseline. Covariates include: treatment and baseline value.||||||0.2671
82395525|NCT00561470|164501773|SUPERIORITY_OR_OTHER||Stratified Hazard Ratio|0.817||||0.0032|TWO_SIDED|95.34|0.713|0.937||Stratified Log-Rank test p-value. Stratified on ECOG Performance Status and prior Bevacizumab according to IVRS using the Cox Proportional Hazard Model. Significance threshold was set to 0.0466 using the O'Brien-Fleming alpha spending function.|Stratified Log-Rank test||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS using the Cox Proportional Hazard Model. Significance threshold was set to 0.0466 using the O'Brien-Fleming alpha spending function.|||0.937|0.713|0.0032
82395526|NCT00561470|164501774|SUPERIORITY_OR_OTHER||Stratified Hazard ratio|0.758||||7e-05|TWO_SIDED|99.99|0.578|0.995||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS|Stratified Log-Rank test||Stratified on ECOG Performance Status (0 vs 1 vs 2) and prior Bevacizumab (yes vs no) according to IVRS using the Cox Proportional Hazard Model.|||0.995|0.578|0.00007
82368194|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368195|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368196|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368197|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368198|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368199|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368200|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368201|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368202|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368203|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368204|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368205|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368206|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368207|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368208|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368209|NCT02504671|164446933|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368210|NCT02504671|164446933|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368211|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368212|NCT02504671|164446933|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82395527|NCT00561470|164501775|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Stratified Cochran-Mantel-Haenszel|Stratified on ECOG Performance Status (0 vs 1 vs 2) and Prior Bevacizumab (yes vs no) according to IVRS.||||||0.0001
82528949|NCT02307513|164754024|SUPERIORITY||Difference in LS Means|-0.5||||0.0335|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.0|-1.0|0.0335
82368213|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82395528|NCT03434249|164501778|OTHER|||||||0.0001|||||||Chi-squared|||"According to the results of a previous trial that looked at a probiotic's effect on infants with CI, it was estimated that when the sample size in each group is 33, the study has 80% power to detect an absolute difference of 35% in the treatment success rate (15% in the Placebo group and 50% in the treatment group) with a 0,05 alpha level.~The number of infants that was included in the study was 80, with an expected maximum dropout rate of 20%."||||0.0001
82395529|NCT03434249|164501779|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82528950|NCT02307513|164754025|SUPERIORITY||Difference in LS Means|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.6|-1.4|<0.0001
82528951|NCT02307513|164754026|SUPERIORITY||Difference in LS Means|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-0.5|-1.3|<0.0001
82528952|NCT02307513|164754027|SUPERIORITY||Adjusted difference in percentages|25.1|||<|0.0001|TWO_SIDED|95.0|15.5|34.6|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||34.6|15.5|<0.0001
82528953|NCT02307513|164754028|SUPERIORITY||Hazard Ratio (HR)|2.4|||<|0.0001|TWO_SIDED|95.0|1.692|3.405|||Stratified Log-Rank Test|Treatment comparison is based on the stratified log-rank test, with sex and region as the stratification factors.|The HR is based on the stratified Cox model with baseline number of oral ulcers and sex and region as the stratification factors.|||3.405|1.692|<0.0001
82395530|NCT03434249|164501781|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82395531|NCT04877535|164501882|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.524|TWO_SIDED|95.0|-0.24|0.12|||t-test, 2 sided|||||0.12|-0.24|0.524
82395532|NCT04877535|164501882|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.403|TWO_SIDED|95.0|-0.4|0.16|||t-test, 2 sided|||||0.16|-0.4|0.403
82647887|NCT01244815|165011172|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.78||||0.018|TWO_SIDED|95.0|0.48|5.08|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||5.08|0.48|0.018
82395533|NCT04877535|164501883|SUPERIORITY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.47|2.38|||Fisher Exact|||||2.38|0.47|1.00
82395534|NCT04877535|164501884|SUPERIORITY||Odds Ratio (OR)|4.3|||<|0.001|TWO_SIDED|95.0|1.81|11.13|||Fisher Exact|||||11.13|1.81|<0.001
82528954|NCT02307513|164754029|SUPERIORITY||Adjusted difference in percentages|30.6|||<|0.0001|TWO_SIDED|95.0|18.1|43.1|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||43.1|18.1|<0.0001
82368214|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368215|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82395535|NCT04877535|164501884|SUPERIORITY||Odds Ratio (OR)|1.08||||1|TWO_SIDED|95.0|0.23|4.19|||Fisher Exact|||||4.19|0.23|1.00
82395536|NCT04877535|164501885|SUPERIORITY||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|1.94|39.25|||Fisher Exact|||||39.25|1.94|<0.001
82395537|NCT04877535|164501885|SUPERIORITY||Odds Ratio (OR)|1.63||||0.63|TWO_SIDED|95.0|0.13|14.86|||Fisher Exact|||||14.86|0.13|0.630
82395538|NCT05079230|164501930|SUPERIORITY||Hazard Ratio (HR)|1.178||||0.3276|TWO_SIDED|95.0|0.848|1.637|||stratified log-rank test|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI were calculated using the stratified cox proportional hazards model.|||1.637|0.848|0.3276
82395539|NCT05079230|164501931|SUPERIORITY||Stratified Odds Ratio|0.826||||0.3616|TWO_SIDED|95.0|0.545|1.251|||Stratum-adjusted Mantel-Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.251|0.545|0.3616
82395540|NCT05079230|164501932|SUPERIORITY||Stratified Odds Ratio|0.856||||0.4679|TWO_SIDED|95.0|0.56|1.307|||Stratum-adjusted Mantel-Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.307|0.560|0.4679
82395541|NCT05079230|164501933|SUPERIORITY||Stratified Hazard Ratio|0.946||||0.7903|TWO_SIDED|95.0|0.73|1.225|||Stratified Log Rank||The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|||1.225|0.730|0.7903
82368216|NCT02504671|164446933|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
82395542|NCT05079230|164501936|SUPERIORITY||Stratified Odds Ratio|1.189||||0.4873|TWO_SIDED|95.0|0.727|1.945|||Stratum-adjusted Mantel Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.945|0.727|0.4873
82395543|NCT05079230|164501937|SUPERIORITY||Stratified Odds Ratio|1.154||||0.5842|TWO_SIDED|95.0|0.69|1.932|||Stratum-adjusted Mantel Haenszel||Stratified odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for stratification factors.|||1.932|0.690|0.5842
82395544|NCT05079230|164501938|SUPERIORITY||Stratified Odds Ratio|0.783||||0.3003|TWO_SIDED|95.0|0.492|1.245|||Cochran-Mantel-Haenszel||The 2-sided P-value was based on Cochran-Mantel-Haenszel (CMH) method stratified by the stratification factors at randomization (age, genetic risk group, and geographic region).|||1.245|0.492|0.3003
82528955|NCT02307513|164754030|SUPERIORITY||Difference in LS Mean|-3.0||||0.0003|TWO_SIDED|95.0|-4.5|-1.4|||ANCOVA|Based on an ANCOVA model for the change from baseline with the treatment arm, sex, region as factors and the baseline value as a covariate.||||-1.4|-4.5|0.0003
82528956|NCT02307513|164754031|SUPERIORITY||Adjusted difference in percentages|28.4||||0.11|TWO_SIDED|95.0|-3.6|60.4|||Cochran-Mantel-Haenszel|2 sided p-value based on the CMH test adjusting for sex.|Adjusted difference was the weighted average of the treatment differences across the 2 strata of sex with the CMH weights.|||60.4|-3.6|0.1100
82395545|NCT05079230|164501939|SUPERIORITY||Stratified Odds Ratio|1.21||||0.579|TWO_SIDED|95.0|0.62|2.36||The 2-sided P-value was based on Cochran-Mantel-Haenszel (CMH) method stratified by the stratification factors at randomization (age, genetic risk group, and geographic region).|Cochran-Mantel-Haenszel|||||2.360|0.620|0.5790
82644335|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|4.486|||<|0.0001|TWO_SIDED|95.0|4.359|4.612|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||4.612|4.359|<.0001
82647888|NCT01244815|165011173|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.39||||0.001|TWO_SIDED|95.0|0.15|0.62|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.62|0.15|0.001
82368217|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
82368218|NCT02504671|164446933|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368219|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368220|NCT02504671|164446933|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368221|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395546|NCT05079230|164501940|SUPERIORITY||Stratified Hazard Ratio|1.09||||0.5796|TWO_SIDED|95.0|0.799|1.487|||Stratified Log Rank|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI are calculated using the stratified cox proportional hazards model.|||1.487|0.799|0.5796
82395547|NCT05079230|164501941|SUPERIORITY||Stratified Hazard Ratio|1.271||||0.1026|TWO_SIDED|95.0|0.948|1.704|||Stratified Log Rank|The 2-sided P-value was based on stratified log-rank test, stratified by stratification factors at randomization.|Stratified hazard ratio (HR) and its 95% CI were calculated using the stratified cox proportional hazards model.|||1.704|0.948|0.1026
82368222|NCT02504671|164446933|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368223|NCT02504671|164446933|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368224|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368225|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368226|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368227|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368228|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368229|NCT02504671|164446933|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368230|NCT02504671|164446933|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368231|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368232|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368233|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368234|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368235|NCT02504671|164446933|OTHER||Difference|24.3|||||TWO_SIDED|95.0|10.5|38.1|||||Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.1|10.5|
82368236|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368237|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368238|NCT02504671|164446933|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368239|NCT02504671|164446933|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368240|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368241|NCT02504671|164446933|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368242|NCT02504671|164446933|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368243|NCT02504671|164446933|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368244|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.32||||0.046|TWO_SIDED|95.0|-0.64|-0.01||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.01|-0.64|0.046
82368245|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.3||||0.071|TWO_SIDED|95.0|-0.62|0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||0.03|-0.62|0.071
82368246|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.37||||0.022|TWO_SIDED|95.0|-0.69|-0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.05|-0.69|0.022
82368247|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.28||||0.16|TWO_SIDED|95.0|-0.67|0.11||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||0.11|-0.67|0.160
82395548|NCT01524783|164501947|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.35|0.67|||Log Rank|||||0.67|0.35|<0.001
82395549|NCT01524783|164501948|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.259|TWO_SIDED|95.0|0.66|1.24|||Log Rank|||||1.24|0.66|0.259
82395550|NCT01524783|164501951|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.073|TWO_SIDED|95.0|0.5|1.1|||Log Rank|||||1.10|0.50|0.073
82528957|NCT02307513|164754032|SUPERIORITY||Adjusted difference in percentages|17.5||||0.0204|TWO_SIDED|95.0|4.2|30.7|||Cochran-Mantel-Haenszel|Two-sided p-value was based on the CMH test, adjusting for sex and region.|Adjusted difference was the weighted average of the treatment differences across the 4 strata of combined sex and region factors with the CMH weights.|||30.7|4.2|0.0204
82647889|NCT01244815|165011173|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.18||||0.135|TWO_SIDED|95.0|-0.06|0.41|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.41|-0.06|0.135
82395551|NCT01524783|164501954|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.539|TWO_SIDED|95.0|0.65|1.61|||Log Rank|||||1.61|0.65|0.539
82647890|NCT01244815|165011173|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.25||||0.044|TWO_SIDED|95.0|0.01|0.49|||ANCOVA|Model included terms of (pooled) site, treatment and baseline|Estimate is asenapine versus placebo|||0.49|0.01|0.044
82368248|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.32||||0.103|TWO_SIDED|95.0|-0.71|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||0.07|-0.71|0.103
82368249|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.42||||0.034|TWO_SIDED|95.0|-0.8|-0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.03|-0.80|0.034
82368250|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.4||||0.096|TWO_SIDED|95.0|-0.87|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||0.07|-0.87|0.096
82368251|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.56||||0.02|TWO_SIDED|95.0|-1.02|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.09|-1.02|0.020
82368252|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.76||||0.001|TWO_SIDED|95.0|-1.22|-0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.29|-1.22|0.001
82368253|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.42||||0.11|TWO_SIDED|95.0|-0.93|0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.10|-0.93|0.110
82368254|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.47||||0.076|TWO_SIDED|95.0|-0.98|0.05||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.05|-0.98|0.076
82368255|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.61||||0.02|TWO_SIDED|95.0|-1.11|-0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||-0.10|-1.11|0.020
82368256|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.42||||0.128|TWO_SIDED|95.0|-0.97|0.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||0.12|-0.97|0.128
82368257|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.78||||0.005|TWO_SIDED|95.0|-1.33|-0.24||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.24|-1.33|0.005
82368258|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.82||||0.003|TWO_SIDED|95.0|-1.36|-0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.29|-1.36|0.003
82368259|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.53||||0.11|TWO_SIDED|95.0|-1.17|0.12||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||0.12|-1.17|0.110
82395552|NCT02607306|164502020|NON_INFERIORITY|Non-inferiority of IDegLira vs. IDeg was confirmed if the 95% confidence interval for the mean treatment difference lies entirely below 0.3%.|Treatment contrast|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.52||p-value for non-inferiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment and pre-trial OAD as fixed factors and baseline HbA1c value as covariate.||-0.52|-0.75|<0.0001
82395553|NCT02607306|164502020|SUPERIORITY|Superiority of IDegLira vs. Lira was confirmed if the 95% confidence interval for the mean treatment difference for change from baseline in HbA1c lies entirely below 0.0%.|Treatment contrast|-0.48|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.37||p-value for superiority of IDegLira vs Lira is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment and pre-trial OAD as fixed factors and baseline HbA1c value as covariate.||-0.37|-0.60|<0.0001
82444632|NCT00128713|164598116|SUPERIORITY_OR_OTHER|||||||0.51||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.51
82368260|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.88||||0.008|TWO_SIDED|95.0|-1.53|-0.23||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.23|-1.53|0.008
82528958|NCT02307513|164754033|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.0112|TWO_SIDED|95.0|0.408|0.915|||Stratified Log Rank Test|Treatment comparison is based on the stratified log-rank test, with sex and region as the stratification factors.|The HR is based on the stratified Cox model with baseline number of oral ulcers and sex and region as the stratification factors|||0.915|0.408|0.0112
82528959|NCT02307513|164754034|SUPERIORITY||Difference in LS Means|-0.4||||0.0683|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|ANCOVA model with treatment group, sex and region as factors and the baseline ulcers number as a covariate.||||0.0|-0.9|0.0683
82368261|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.24|||<|0.001|TWO_SIDED|95.0|-1.88|-0.6||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.60|-1.88|<0.001
82395554|NCT02607306|164502021|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|-1.19||||0.0001|TWO_SIDED|95.0|-1.8|-0.59||p-value for superiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks were analysed using an ANCOVA method with treatment and pre-trial OAD treatment as fixed factors and baseline body weight as covariate.||-0.59|-1.80|0.0001
82395555|NCT02607306|164502022|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|0.48|||<|0.0001|TWO_SIDED|95.0|0.35|0.68||p-value for superiority of IDegLira vs IDeg is presented|Negative binomial regression|||The number of events is analysed using a negative binomial regression model (log link) with the logarithm of the treatment emergent exposure time (100 years) as offset. The model includes treatment and pre-trial OAD treatment as fixed factors.||0.68|0.35|<0.0001
82395556|NCT02607306|164502023|SUPERIORITY|A hierarchical testing procedure is used to control the overall type I error on a two sided 5% level. If and only if non-inferiority of IDegLira vs. IDeg and superiority of IDegLira vs. Lira are confirmed in the primary analysis (change in HbA1c), the three secondary confirmatory tests are performed for superiority of IDegLira versus IDeg with a fixed sequence (1. change in body weight, 2. number of treatment emergent severe or BG confirmed hypoglycaemic episodes and 3. change in HbA1c).|Treatment contrast|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.52||p-value for superiority of IDegLira vs IDeg is presented|ANCOVA|||The change from baseline in response after 52 weeks are analysed using an ANCOVA model with treatment, pre-trial OAD as fixed factors and corresponding baseline HbA1c value as covariate.||-0.52|-0.75|<0.0001
82395557|NCT04767529|164502076|SUPERIORITY||percent difference|22.6||||0.025|TWO_SIDED|95.0|3.8|41.4||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparison between the EFX 28 mg and placebo group|% difference from placebo (efruxifermin 28 mg - placebo)|Comparison between proportion of participants in efruxifermin 28 mg group who met the primary endpoint vs the placebo group||41.4|3.8|0.025
82448962|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS Mean difference|0.32||||0.6333|TWO_SIDED|95.0|-1.02|1.67||Between treatment p-values and confidence intervals|ANCOVA|||Comparison for Q4 at Day 14||1.67|-1.02|0.6333
82528960|NCT02307513|164754035|SUPERIORITY||Difference in LS Mean|-0.1||||0.5944|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|Based on an ANCOVA model for the change from baseline, with treatment arm, sex and region as factors and the baseline score as a covariate.||||0.3|-0.4|0.5944
82647891|NCT01427920|165011237|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for subject-driven vs. investigator driven titration would be concluded if the upper bound of the two-sided 95% CI was below or equal to 0.4%.|Estimated treatment difference, Mean|0.25||||||95.0|0.04|0.46|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline HbA1c as covariate.||FAS||0.46|0.04|
82368262|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.29||||0.5|TWO_SIDED|95.0|-1.15|0.56||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||0.56|-1.15|0.500
82368263|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.99||||0.021|TWO_SIDED|95.0|-1.83|-0.15||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.15|-1.83|0.021
82368264|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.0||||0.017|TWO_SIDED|95.0|-1.83|-0.18||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.18|-1.83|0.017
82368265|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.07||||0.871|TWO_SIDED|95.0|-0.98|0.83||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.83|-0.98|0.871
82368266|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.58||||0.19|TWO_SIDED|95.0|-1.46|0.29||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.29|-1.46|0.190
82368267|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.66||||0.13|TWO_SIDED|95.0|-1.51|0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.20|-1.51|0.130
82528961|NCT02307513|164754036|SUPERIORITY||Difference in LS Mean|-5.5||||0.6182|TWO_SIDED|95.0|-27.6|16.7|||ANCOVA|Based on an ANCOVA model for the change from baseline, with treatment arm, sex and region as factors and the baseline score as a covariate.||||16.7|-27.6|0.6182
82528962|NCT05952297|164754052|SUPERIORITY|||||||0.88|||||||mixed model|linear mixed model, time x condition effect||||||.88
82644336|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|4.588|||<|0.0001|TWO_SIDED|95.0|4.473|4.703|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||4.703|4.473|<.0001
82368268|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.22||||0.019|TWO_SIDED|95.0|-2.24|-0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.20|-2.24|0.019
82368269|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.53||||0.002|TWO_SIDED|95.0|-2.51|-0.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.55|-2.51|0.002
82368270|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.39||||0.005|TWO_SIDED|95.0|-2.34|-0.43||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.43|-2.34|0.005
82368271|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.41||||0.013|TWO_SIDED|95.0|-0.73|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.09|-0.73|0.013
82368272|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.49||||0.003|TWO_SIDED|95.0|-0.8|-0.17||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1|||-0.17|-0.80|0.003
82395558|NCT04767529|164502076|SUPERIORITY||percent difference|22.5||||0.036|TWO_SIDED|95.0|1.6|43.3||Threshold for significance was p\<0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors is used for comparison between the EFX 50 mg and placebo group|% difference from placebo (efruxifermin 50 mg - placebo)|Comparison between proportion of participants in efruxifermin 50 mg group who met the primary endpoint vs the placebo group||43.3|1.6|0.036
82395559|NCT04767529|164502077|SUPERIORITY||percent difference|21.8||||0.07|TWO_SIDED|95.0|-1.3|45.0||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo group||||45.0|-1.3|0.070
82368273|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.47||||0.017|TWO_SIDED|95.0|-0.86|-0.09||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.09|-0.86|0.017
82368274|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.52||||0.009|TWO_SIDED|95.0|-0.9|-0.13||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2|||-0.13|-0.90|0.009
82368275|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.67||||0.005|TWO_SIDED|95.0|-1.13|-0.2||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.20|-1.13|0.005
82368276|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.01|||<|0.001|TWO_SIDED|95.0|-1.48|-0.55||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4|||-0.55|-1.48|<0.001
82368277|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.47||||0.073|TWO_SIDED|95.0|-0.99|0.04||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||0.04|-0.99|0.073
82368278|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.85||||0.001|TWO_SIDED|95.0|-1.36|-0.34||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6|||-0.34|-1.36|0.001
82368279|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.89||||0.001|TWO_SIDED|95.0|-1.43|-0.35||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.35|-1.43|0.001
82368280|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.65|-0.56||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8|||-0.56|-1.65|<0.001
82395560|NCT04767529|164502077|SUPERIORITY||percent difference|51.9|||<|0.001|TWO_SIDED|95.0|31.2|72.7||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo group||Week 96||72.7|31.2|<0.001
82368281|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.68||||0.039|TWO_SIDED|95.0|-1.32|-0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.03|-1.32|0.039
82368282|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.91|-0.63||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12|||-0.63|-1.91|<0.001
82368283|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.77||||0.073|TWO_SIDED|95.0|-1.61|0.07||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||0.07|-1.61|0.073
82368284|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.11||||0.007|TWO_SIDED|95.0|-1.91|-0.3||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16|||-0.30|-1.91|0.007
82368285|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.77||||0.083|TWO_SIDED|95.0|-1.65|0.1||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.10|-1.65|0.083
82368286|NCT02504671|164446934|OTHER||Mean Difference (Net)|-0.8||||0.059|TWO_SIDED|95.0|-1.63|0.03||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20|||0.03|-1.63|0.059
82368287|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.48||||0.003|TWO_SIDED|95.0|-2.46|-0.5||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.50|-2.46|0.003
82528963|NCT01107743|164754058|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.812|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between male and female in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.812
82528964|NCT01107743|164754059|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
82528965|NCT01107743|164754060|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension. The null hypothesis is there is no difference between with Hypetension and without Hypertension in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
82528966|NCT01107743|164754061|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.112|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension severity. The null hypothesis is there is no difference among ClassⅠHypertension, ClassⅡ Hypertension, and ClassⅢ Hypertension in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.112
82368288|NCT02504671|164446934|OTHER||Mean Difference (Net)|-1.82|||<|0.001|TWO_SIDED|95.0|-2.75|-0.89||MMRM analysis adjusted for DAS28(CRP) Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24|||-0.89|-2.75|<0.001
82368289|NCT02504671|164446936|OTHER||Difference|16.2||||0.037|TWO_SIDED|95.0|1.1|31.4|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.4|1.1|0.037
82368290|NCT02504671|164446936|OTHER||Difference|10.8||||0.144|TWO_SIDED|95.0|-3.1|24.7|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|0.144
82368291|NCT02504671|164446936|OTHER||Difference|18.9||||0.033|TWO_SIDED|95.0|3.3|34.5|||Regression, Logistic||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.5|3.3|0.033
82368292|NCT02504671|164446936|OTHER||Difference|5.4||||0.437|TWO_SIDED|95.0|-11.3|22.2|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||22.2|-11.3|0.437
82528967|NCT01107743|164754062|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.093|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Angina Pectoris. The null hypothesis is there is no difference between with Angina Pectoris and without Angina Pectoris in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.093
82368293|NCT02504671|164446936|OTHER||Difference|2.7||||0.755|TWO_SIDED|95.0|-13.5|18.9|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||18.9|-13.5|0.755
82368294|NCT02504671|164446936|OTHER||Difference|24.3||||0.023|TWO_SIDED|95.0|5.2|43.4|||Regression, Logistic||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||43.4|5.2|0.023
82395561|NCT04767529|164502078|SUPERIORITY||percent difference|31.9||||0.002|TWO_SIDED|95.0|12.9|50.9||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparison between the efruxifermin 28 mg and placebo group||Week 24||50.9|12.9|0.002
82528968|NCT01107743|164754063|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia. The null hypothesis is there is no difference between with Hypercholesterolemia and without Hypercholesterolemia in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
82528969|NCT01107743|164754064|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.839|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia expression type. The null hypothesis is there is no difference among expression type Ⅰ, expression type Ⅱa, expression type Ⅱb, expression type Ⅲ, expression type, expression type Ⅳ, and expression type Ⅴ in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.839
82368295|NCT02504671|164446936|OTHER||Difference|29.7||||0.006|TWO_SIDED|95.0|9.8|49.7|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|0.006
82368296|NCT02504671|164446936|OTHER||Difference|21.6||||0.039|TWO_SIDED|95.0|2.0|41.2|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|0.039
82368297|NCT02504671|164446936|OTHER||Difference|29.7||||0.008|TWO_SIDED|95.0|9.8|49.7|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|0.008
82368298|NCT02504671|164446936|OTHER||Difference|21.6||||0.044|TWO_SIDED|95.0|0.4|42.8|||Regression, Logistic||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|0.044
82368299|NCT02504671|164446936|OTHER||Difference|18.9||||0.083|TWO_SIDED|95.0|-2.2|40.0|||Regression, Logistic||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||40.0|-2.2|0.083
82368300|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.8|48.3|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.3|5.8|
82368301|NCT02504671|164446936|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-11.2|32.8|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.Wald confidence limits without correction.|||32.8|-11.2|
82368302|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.2|48.9|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.9|5.2|
82528970|NCT01107743|164754065|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Familial Hypercholesterolemia. The null hypothesis is there is no difference between with Familial Hypercholesterolemia and without Familial Hypercholesterolemia in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
82395562|NCT04767529|164502078|SUPERIORITY||percent difference|61.7|||<|0.001|TWO_SIDED|95.0|44.1|79.4||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 24||79.4|44.1|<0.001
82528971|NCT01107743|164754066|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with Hepatic Dysfunction and without Hepatic Dysfunction in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=1.000
82644337|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.259||||0.0073|TWO_SIDED|95.0|-0.469|-0.049|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.049|-0.469|0.0073
82644338|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.246||||0.0041|TWO_SIDED|95.0|-0.438|-0.055|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.055|-0.438|0.0041
82368303|NCT02504671|164446936|OTHER||Difference|32.4|||||TWO_SIDED|95.0|10.9|54.0|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||54.0|10.9|
82368304|NCT02504671|164446936|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.9|42.4|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.4|0.9|
82368305|NCT02504671|164446936|OTHER||Difference|29.7|||||TWO_SIDED|95.0|8.9|50.6|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||50.6|8.9|
82368306|NCT02504671|164446936|OTHER||Difference|45.9|||||TWO_SIDED|95.0|25.9|66.0|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||66.0|25.9|
82647892|NCT01427920|165011238|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for subject-driven vs. investigator driven titration would be concluded if the upper bound of the two-sided 95% CI was below or equal to 0.4%.|Estimated treatment difference, Mean|0.26||||||95.0|0.05|0.48|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline HbA1c as covariate.||PP||0.48|0.05|
82368307|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-6.8|33.8|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.8|-6.8|
82368308|NCT02504671|164446936|OTHER||Difference|32.4|||||TWO_SIDED|95.0|11.6|53.3|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||53.3|11.6|
82368309|NCT02504671|164446936|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.2|58.5|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||58.5|17.2|
82368310|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|-0.5|38.4|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.4|-0.5|
82368311|NCT02504671|164446936|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
82368312|NCT02504671|164446936|OTHER||Difference|48.6|||||TWO_SIDED|95.0|29.2|68.1|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.1|29.2|
82368313|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-3.0|35.4|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.4|-3.0|
82368314|NCT02504671|164446936|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
82368315|NCT02504671|164446936|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.9|57.8|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.8|17.9|
82368316|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368317|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368318|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368319|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82395563|NCT04767529|164502078|SUPERIORITY||percent difference|38.9||||0.002|TWO_SIDED|95.0|17.2|60.7||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between efruxifermin 28 mg and placebo groups||Week 96||60.7|17.2|0.002
82528972|NCT01107743|164754067|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.644|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with Renal Dysfunction and without Renal Dysfunction in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.644
82528973|NCT01107743|164754068|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.155|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with Complications and without Complications in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.155
82528974|NCT01107743|164754069|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.305|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with Concomitant Drugs and without Concomitant Drugs in the Incidence Rate of Treatment Related Adverse Events(TRAEs)."||||=0.305
82644339|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.15||||0.308|TWO_SIDED|95.0|-0.361|0.061|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.061|-0.361|0.3080
82368320|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368321|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368322|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368323|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368324|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368325|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368326|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368327|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368328|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368329|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368330|NCT02504671|164446936|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368331|NCT02504671|164446936|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368332|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368333|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368334|NCT02504671|164446936|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368335|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368336|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368337|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368338|NCT02504671|164446936|OTHER||Difference|21.6|||||TWO_SIDED|95.0|5.6|37.7|||||Difference to placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||37.7|5.6|
82368339|NCT02504671|164446936|OTHER||Difference|18.9|||||TWO_SIDED|95.0|0.2|37.6|||||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||37.6|0.2|
82368340|NCT02504671|164446936|OTHER||Difference|24.3|||||TWO_SIDED|95.0|5.2|43.4|||||Difference to placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||43.4|5.2|
82368341|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
82528975|NCT01107743|164754070|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.234|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.234
82647893|NCT01427920|165011239|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.13||||0.659||95.0|-0.44|0.69|||Regression, Linear|Model includes treatment, strata and region as factors and relevant baseline FPG as covariate.||H0: D = 0.0% against HA: D ≠ 0.0%, where D is the mean treatment difference (subject-driven titration minus investigator-driven titration).||0.69|-0.44|0.659
82368342|NCT02504671|164446936|OTHER||Difference|51.4|||||TWO_SIDED|95.0|32.2|70.5|||||Difference to placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.5|32.2|
82368343|NCT02504671|164446936|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.4|42.8|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|
82368344|NCT02504671|164446936|OTHER||Difference|40.5|||||TWO_SIDED|95.0|19.9|61.2|||||Difference to placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||61.2|19.9|
82368345|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|5.2|48.9|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.9|5.2|
82368346|NCT02504671|164446936|OTHER||Difference|35.1|||||TWO_SIDED|95.0|13.8|56.5|||||Difference to placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.5|13.8|
82395564|NCT04767529|164502078|SUPERIORITY||percent difference|33.2||||0.006|TWO_SIDED|95.0|10.5|55.8||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo group||Week 96||55.8|10.5|0.006
82395565|NCT04767529|164502079|SUPERIORITY||percent difference|20.0||||0.053|TWO_SIDED|95.0|0.4|39.5||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo group||Week 24||39.5|0.4|0.053
82395566|NCT04767529|164502079|SUPERIORITY||percent difference|19.9||||0.069|TWO_SIDED|95.0|-1.5|41.2||Threshold for statistical significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 24||41.2|-1.5|0.069
82368347|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|6.2|47.9|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||47.9|6.2|
82368348|NCT02504671|164446936|OTHER||Difference|54.1|||||TWO_SIDED|95.0|34.9|73.2|||||Difference to placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.2|34.9|
82368349|NCT02504671|164446936|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.9|42.4|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.4|0.9|
82368350|NCT02504671|164446936|OTHER||Difference|51.4|||||TWO_SIDED|95.0|31.8|70.9|||||Difference to placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.9|31.8|
82368351|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
82368352|NCT02504671|164446936|OTHER||Difference|56.8|||||TWO_SIDED|95.0|38.2|75.4|||||Difference to placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||75.4|38.2|
82368353|NCT02504671|164446936|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.1|46.9|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.9|7.1|
82395567|NCT04767529|164502079|SUPERIORITY||percent difference|19.0||||0.123|TWO_SIDED|95.0|-4.8|42.8||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 28 mg and placebo groups||Week 96||42.8|-4.8|0.123
82395568|NCT04767529|164502079|SUPERIORITY||percent difference|49.0|||<|0.001|TWO_SIDED|95.0|27.7|70.2||Threshold for significance set at p\<0.05|Cochran-Mantel-Haenszel|A Cochran-Mantel-Haenszel test adjusting for stratification factors was used for comparisons between the efruxifermin 50 mg and placebo groups||Week 96||70.2|27.7|<0.001
82395569|NCT04767529|164502080|SUPERIORITY|Week 24|Mean Difference (Net)|-6.9|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-9.09|-4.71||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM: fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariate for comparison||Percent change from baseline in hepatic fat fraction between the EFX 28 mg and placebo groups||-4.71|-9.09|<0.001
82368354|NCT02504671|164446936|OTHER||Difference|54.1|||||TWO_SIDED|95.0|35.1|73.0|||||Difference to placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.0|35.1|
82368355|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368356|NCT02504671|164446936|OTHER||Difference|75.7|||||TWO_SIDED|95.0|61.4|89.9|||||Difference to placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||89.9|61.4|
82368357|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368358|NCT02504671|164446936|OTHER||Difference|70.3|||||TWO_SIDED|95.0|55.0|85.5|||||Difference to placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||85.5|55.0|
82368359|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368360|NCT02504671|164446936|OTHER||Difference|70.3|||||TWO_SIDED|95.0|55.0|85.5|||||Difference to placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||85.5|55.0|
82368361|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368362|NCT02504671|164446936|OTHER||Difference|62.2|||||TWO_SIDED|95.0|45.9|78.4|||||Difference to placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||78.4|45.9|
82368363|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395570|NCT04767529|164502080|SUPERIORITY|Week 24|Mean Difference (Net)|-9.2|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-11.47|-7.02||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 50 mg and placebo groups||-7.02|-11.47|<0.001
82395571|NCT04767529|164502080|SUPERIORITY|Week 96|Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.31||0.005|TWO_SIDED|95.0|-6.39|-1.18||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 28 mg and placebo groups||-1.18|-6.39|0.005
82395572|NCT04767529|164502080|SUPERIORITY|Week 96|Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|-8.38|-3.25||Threshold for significance set at p\<0.05|Mixed Models Analysis|MMRM:fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction and baseline as covariates for comparison||Percent change from baseline in hepatic fat fraction between the EFX 50 mg and placebo groups||-3.25|-8.38|<0.001
82395573|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|-51.6|STANDARD_ERROR_OF_MEAN|9.86|<|0.001|TWO_SIDED|95.0|-71.17|-32.11|||Mixed Models Analysis|||Treatment comparison of least squares (LS) mean change from baseline (EFX 28 mg - placebo) in triglycerides (mg/dL)||-32.11|-71.17|<0.001
82395574|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|-55.2|STANDARD_ERROR_OF_MEAN|9.83|<|0.001|TWO_SIDED|95.0|-74.63|-35.71|||Mixed Models Analysis|||Treatment comparison of least squares (LS) mean change from baseline (EFX 50 mg - placebo) in triglycerides (mg/dL)||-35.71|-74.63|<0.001
82395575|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|-43.0|STANDARD_ERROR_OF_MEAN|11.48|<|0.001|TWO_SIDED|95.0|-65.73|-20.27||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of least squares (LS) mean change from baseline (EFX 28 mg - placebo) in triglycerides (mg/dL)||-20.27|-65.73|<0.001
82395576|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|-47.8|STANDARD_ERROR_OF_MEAN|11.4|<|0.001|TWO_SIDED|95.0|-70.39|-25.24||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in triglycerides (mg/dL)||-25.24|-70.39|<0.001
82395577|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|11.0|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|7.92|14.17|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in HDL cholesterol (mg/dL)||14.17|7.92|<0.001
82647894|NCT04991311|165011271|SUPERIORITY||Mean Difference (Final Values)|398.4|STANDARD_DEVIATION|581.6|=|0.0585|TWO_SIDED|95.0|-17.6|814.4|||Paired t-test (2-sided, alpha=0.05)|||The participants in both comparison groups are the same.||814.4|-17.6|= 0.0585
82395578|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|12.5|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|9.35|15.57|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in HDL cholesterol (mg/dL)||15.57|9.35|<0.001
82395579|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|2.12||0.005|TWO_SIDED|95.0|1.84|10.23||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in HDL cholesterol (mg/dL)||10.23|1.84|0.005
82395580|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|9.5|STANDARD_ERROR_OF_MEAN|2.11|<|0.001|TWO_SIDED|95.0|5.3|13.65||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in HDL cholesterol (mg/dL)||13.65|5.30|<0.001
82395581|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|-14.4|STANDARD_ERROR_OF_MEAN|4.99||0.005|TWO_SIDED|95.0|-24.28|-4.53|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 28 mg - placebo) in LDL cholesterol (mg/dL)||-4.53|-24.28|0.005
82395582|NCT04767529|164502081|SUPERIORITY|Week 24|Median Difference (Net)|-13.6|STANDARD_ERROR_OF_MEAN|4.98||0.007|TWO_SIDED|95.0|-23.5|-3.76|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in LDL cholesterol (mg/dL)||-3.76|-23.50|0.007
82395583|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|7.04||0.99|TWO_SIDED|95.0|-13.86|14.04||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of change from baseline (EFX 28 mg - placebo) in LDL cholesterol (mg/dL)||14.04|-13.86|0.990
82395584|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|7.01||0.98|TWO_SIDED|95.0|-14.07|13.71||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in LDL cholesterol (mg/dL)||13.71|-14.07|0.980
82395585|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|-22.6|STANDARD_ERROR_OF_MEAN|5.52|<|0.001|TWO_SIDED|95.0|-33.58|-11.71|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in non-HDL cholesterol (mg/dL)||-11.71|-33.58|<0.001
82528976|NCT01107743|164754071|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.439|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.439
82528977|NCT01107743|164754072|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.761|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypertension severity. The null hypothesis is there is no difference among ClassⅠHypertension, ClassⅡ Hypertension, and ClassⅢ Hypertension in the participants of responders."||||=0.761
82528978|NCT01107743|164754073|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=1.000
82528979|NCT01107743|164754074|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.31|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.310
82528980|NCT01107743|164754075|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.251|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.251
82528981|NCT01107743|164754076|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.756|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=0.756
82528982|NCT01107743|164754077|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.706|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.706
82528983|NCT01107743|164754078|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.192|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.192
82528984|NCT01107743|164754079|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.005|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Angina Pectoris Severity. The null hypothesis is there is no difference among Class1, Class2, Class3, and Class4 in the participants of responders."||||=0.005
82528985|NCT01107743|164754080|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=1.000
82528986|NCT01107743|164754081|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.596|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.596
82644340|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.152||||0.1982|TWO_SIDED|95.0|-0.343|0.039|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.039|-0.343|0.1982
82528987|NCT01107743|164754082|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.252|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.252
82528988|NCT01107743|164754083|SUPERIORITY_OR_OTHER_LEGACY||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=1.000
82528989|NCT01107743|164754084|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.518|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participants of responders."||||=0.518
82368364|NCT02504671|164446936|OTHER||Difference|56.8|||||TWO_SIDED|95.0|40.1|73.4|||||Difference to placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.4|40.1|
82528990|NCT01107743|164754085|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.645|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years in the participants of responders."||||=0.645
82528991|NCT01107743|164754086|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.13|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hypercholesterolemia expression type. The null hypothesis is there is no difference among expression type Ⅰ, expression type Ⅱa, expression type Ⅱb, expression type Ⅲ, expression type, expression type Ⅳ, and expression type Ⅴ in the participants of responders."||||=0.130
82528992|NCT01107743|164754087|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.185|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the participants of responders."||||=0.185
82528993|NCT01107743|164754088|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.714|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the participants of responders."||||=0.714
82528994|NCT01107743|164754089|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.835|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Complications. The null hypothesis is there is no difference between with and without Complications in the participants of responders."||||=0.835
82528995|NCT01107743|164754090|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.252|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant Drugs. The null hypothesis is there is no difference between with and without Concomitant Drugs in the participants of responders."||||=0.252
82528996|NCT00308737|164754091|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of TI + Usual Care to Usual Care only|Mean Difference (Final Values)|0.037|||||TWO_SIDED|95.0|0.014|0.06|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site and treatment and baseline FEV1 as a covariate||0.060|0.014|
82528997|NCT00308737|164754092|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis tested was that the FEV1 change from Baseline for the TI group is no greater than 50 mL/year above the change in the usual care treatment group. Assuming SD of 100 mL/y, 80% power, and 5% (1-tailed) significance level, it was determined that 50 subjects were required for each of the diabetes treatment groups. Final sample size was selected for the incidence of a \>= 15% decrease in FEV1 end point.|Mean Difference (Final Values)|0.037|||||TWO_SIDED|95.0|0.016|0.057|||ANCOVA|||ANCOVA model with treatment site, diabetes type, and baseline FEV1||0.057|0.016|
82528998|NCT00308737|164754093|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.034|||||TWO_SIDED|95.0|0.008|0.061|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site and treatment and baseline FVC as a covariate||0.061|0.008|
82528999|NCT00308737|164754094|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|||||TWO_SIDED|95.0|-0.042|0.031|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site, and treatment and baseline TLC as a covariate||0.031|-0.042|
82395586|NCT04767529|164502081|SUPERIORITY|Week 24|Mean Difference (Net)|-22.7|STANDARD_ERROR_OF_MEAN|5.51|<|0.001|TWO_SIDED|95.0|-33.56|-11.74|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50mg - placebo) in non-HDL cholesterol (mg/dL)||-11.74|-33.56|<0.001
82395587|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|7.9||0.443|TWO_SIDED|95.0|-21.72|9.56||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in non-HDL cholesterol (mg/dL)||9.56|-21.72|0.443
82529000|NCT00308737|164754095|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.269|||||TWO_SIDED|95.0|-0.037|0.574|||Mixed Models Analysis|Repeated measures||Mixed model repeated measures with fixed effects diabetes type, visit, pooled site, and treatment and baseline TLC as a covariate||0.574|-0.037|
82529001|NCT00308737|164754096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6475|||||TWO_SIDED|95.0|0.3432|1.2219|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.2219|0.3432|
82529002|NCT00308737|164754097|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7504|||||TWO_SIDED|95.0|0.251|2.2431|||Regression, Logistic|||Logistic regression excluding non-diabetics||2.2431|0.2510|
82529003|NCT00308737|164754098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8953|||||TWO_SIDED|95.0|0.6703|1.1958|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.1958|0.6703|
82575766|NCT03004404|164861076|OTHER||Geometric mean ratio T2/R (%)|125.17|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|90.0|112.89|138.8|||||Standard error of the mean is actually geometric standard error of the mean. The geometric mean ratio was calculated as: tablet in fed state (test treatment T2)/tablet in fasted state (reference treatment R), T2/R.|Estimation of relative bioavailability of AUC0-inf was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for tablet fed (T2) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of AUC0-inf and their two-sided 90% confidence intervals . No hypothesis was tested.|138.80|112.89|
82575767|NCT03004404|164861077|OTHER||Slope|0.7065|STANDARD_ERROR_OF_MEAN|0.0587|||TWO_SIDED|95.0|0.5863|0.8267|||||Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1|In the SRD part of the trial, dose proportionality for Cmax was assessed in the 25 mg to 400 mg dose groups (BI 730357 tablets administered under fasted conditions) using a power model (regression model applied to log-transformed data).||0.8267|0.5863|
82575768|NCT03004404|164861077|OTHER||Ratio T/R|151.22|STANDARD_ERROR_OF_MEAN|1.107|||TWO_SIDED|90.0|122.781|186.248|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet 400mg fed1 (T)/400mg fed2(R), T/R.|Relative bioavailability of the Cmax for the SRD part was performed to test the effect of food intake on the PK of 400 mg BI 730357 tablets. The intra-individual comparison of fed conditions was done using an ANOVA model on the logarithmic scale.||186.248|122.781|
82644341|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.725|||<|0.0001|TWO_SIDED|95.0|-0.965|-0.486|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.486|-0.965|<.0001
82395588|NCT04767529|164502081|SUPERIORITY|Week 96|Mean Difference (Net)|-8.2|STANDARD_ERROR_OF_MEAN|7.86||0.299|TWO_SIDED|95.0|-23.77|7.36||Threshold for significance set at p\<0.05|Mixed Models Analysis||LS Means and differences, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX and placebo group|Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in non-HDL cholesterol (mg/dL)||7.36|-23.77|0.299
82529004|NCT00308737|164754099|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.8509|||||TWO_SIDED|95.0|0.6722|1.077|||Regression, Logistic|||Logistic regression excluding non-diabetics||1.0770|0.6722|
82529005|NCT00308737|164754101|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||t-test, 2 sided|||Two sample t-test||||0.112
82529006|NCT00308737|164754102|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis tested was that the difference in incidence of a decrease of ≥ 15% in FEV1 between the treatment groups not be greater than 5% for TI when compared with the usual care treatment group. Assuming an incidence rate of 15% for FEV1 and a noninferiority criterion of a 5% difference in incidence between the treatment groups, approximately 625 subjects per group were required for 80% power and an alpha of 5% (1 tailed).|Odds Ratio (OR)|-2.4767|||||TWO_SIDED|95.0|-4.5578|-0.3956|||Regression, Logistic|||Logistic regression excluding non-diabetics||-0.3956|-4.5578|
82395589|NCT04767529|164502090|SUPERIORITY|Week 24|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.18||0.75|TWO_SIDED|95.0|-1.96|2.72||Threshold for significance set at p\<0.05|Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 28 mg - placebo) in body weight (kg)||2.72|-1.96|0.750
82395590|NCT04767529|164502090|SUPERIORITY|Week 24|Mean Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|1.18||0.042|TWO_SIDED|95.0|-4.75|-0.09||Threshold for significance set at p\<0.05|Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in body weight (kg)||-0.09|-4.75|0.042
82395591|NCT04767529|164502090|SUPERIORITY|Week 96|Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|2.07||0.564|TWO_SIDED|95.0|-2.9|5.29|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (28 mg EFX - placebo) in body weight (kg)||5.29|-2.90|0.564
82395592|NCT04767529|164502090|SUPERIORITY|Week 96|Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|2.06||0.348|TWO_SIDED|95.0|-6.02|2.14|||Mixed Models Analysis|||Treatment comparison of LS mean change from baseline (EFX 50 mg - placebo) in body weight (kg)||2.14|-6.02|0.348
82395593|NCT04767529|164502091|SUPERIORITY|Week 24|Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.24||0.102|TWO_SIDED|95.0|-4.5|0.4|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 28 mg - placebo) in Liver Stiffness Measurement (kPa)||0.4|-4.5|0.102
82395594|NCT04767529|164502091|SUPERIORITY|Week 24|Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|1.26||0.009|TWO_SIDED|95.0|-5.8|-0.8|||Mixed Models Analysis|||Treatment comparison of change from baseline (EFX 50 mg - placebo) in Liver Stiffness Measurement (kPa)||-0.8|-5.8|0.009
82395595|NCT04767529|164502091|SUPERIORITY|Week 96|Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|1.43||0.021|TWO_SIDED|95.0|-6.2|-0.5||Threshold for significance set at P\<0.05|Mixed Models Analysis||LS Means, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX 28 mg and placebo group|Treatment comparison of change from baseline (EFX 28 mg - placebo) in Liver Stiffness Measurement (kPa)||-0.5|-6.2|0.021
82395596|NCT04767529|164502091|SUPERIORITY|Week 96|Mean Difference (Net)|-6.6|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|-9.4|-3.7|||Mixed Models Analysis||LS Means, SEs, and p-values are from a MMRM with fixed effects of treatment, stratification factors, post-baseline visit, treatment-by-visit interaction, and baseline as a covariate for comparisons between the EFX 50 mg and placebo group|Treatment comparison of change from baseline (EFX 50 mg - placebo) in Liver Stiffness Measurement (kPa)||-3.7|-9.4|<0.001
82529007|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.375|||<|0.0001||95.0|0.244|0.577||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.577|0.244|<0.0001
82647895|NCT01223196|165011298|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in M/I. Statistical Analysis applies to (M/I) between Pioglitazone and Placebo after 6 months.||Mann-Whitney test was used to test differences in whole body insulin sensitivity (M/I) between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences 20), Chicago, IL, USA).||||0.04
82395597|NCT01636947|164502106|SUPERIORITY_OR_OTHER|||||||0.191|||||||Pearson's chi-square test|||||||0.191
82395598|NCT01636947|164502107|SUPERIORITY_OR_OTHER|||||||0.458|||||||Pearson's chi-square test|||Overall Stage p-value||||0.458
82395599|NCT01211483|164502117|SUPERIORITY||Hazard Ratio (HR)|0.978|||||TWO_SIDED|95.0|0.674|1.42||||||||1.420|0.674|
82395600|NCT01211483|164502117|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.523|1.131||||||||1.131|0.523|
82395601|NCT01211483|164502118|SUPERIORITY||Hazard Ratio (HR)|0.369||||0.0185|TWO_SIDED|95.0|0.161|0.846|||Cox proportional hazard|||||0.846|0.161|0.0185
82395602|NCT01211483|164502118|SUPERIORITY||Hazard Ratio (HR)|0.288||||0.0034|TWO_SIDED|95.0|0.125|0.663|||Cox proportional hazard|||||0.663|0.125|0.0034
82395603|NCT01211483|164502119|SUPERIORITY||Hazard Ratio (HR)|1.006||||0.9879|TWO_SIDED|95.0|0.458|2.212|||Cox proportional hazard|||||2.212|0.458|0.9879
82395604|NCT01211483|164502119|SUPERIORITY||Hazard Ratio (HR)|1.222||||0.6276|TWO_SIDED|95.0|0.544|2.746|||Cox proportional hazard|||||2.746|0.544|0.6276
82395605|NCT02284568|164502130|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.1293||0.903|TWO_SIDED|95.0|-0.239|0.2705||significance at 0.05.|Repeated Measures ANCOVA|||The statistical model was a repeated measures analysis of covariance with treatment group, week, treatment group by week interaction, normalized brain volume at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||0.2705|-0.2390|0.903
82395606|NCT02284568|164502132|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.426|TWO_SIDED|95.0|0.48|1.37||significance at 0.05. p-value was from a log-rank test, and estimate and confidence limits were from a Cox model with treatment group as fixed effect, due to the violation of the proportionality assumption.|Log Rank||Laquinimod 0.6 mg vs placebo|The statistical model was a Cox proportional hazards regression model with treatment group, categorical EDSS at baseline (≤4.5 or \>4.5), age at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||1.37|0.48|0.426
82395607|NCT02284568|164502133|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.867|TWO_SIDED|95.0|0.68|1.59||significance at 0.05.|Regression, Cox||Laquinimod 0.6 mg vs placebo|The statistical model was a Cox proportional hazards regression model with treatment group, categorical EDSS at baseline (≤4.5 or \>4.5), age at baseline, natural logarithm of T2 lesion volume at baseline, and country as fixed effects.||1.59|0.68|0.867
82395608|NCT02284568|164502134|SUPERIORITY||Mean Difference (Final Values)|-0.325|STANDARD_ERROR_OF_MEAN|0.2679||0.248|TWO_SIDED|95.0|-0.85|0.2||significance at 0.05. The p-value for ranked change from baseline values was from a repeated measures analysis of covariance with trt group, week, treatment group by week interaction, rank of T25FW score at baseline, and country as fixed effects.|Repeated Measures ANCOVA||Laquinimod 0.6 mg vs. placebo treatment effect|placebo n=121 Laquinimod 0.6 mg n=108 The estimate of parameter, standard error, and 95% confidence intervals for change from baseline was from a Mann-Whitney-Wilcoxon Test using Hodges-Lehmann estimates.||0.2000|-0.8500|0.248
82368365|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368366|NCT02504671|164446936|OTHER||Difference|62.2|||||TWO_SIDED|95.0|45.9|78.4|||||Difference to placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||78.4|45.9|
82368367|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368368|NCT02504671|164446936|OTHER||Difference|48.6|||||TWO_SIDED|95.0|31.7|65.6|||||Difference to placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.6|31.7|
82368369|NCT02504671|164446936|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395609|NCT02284568|164502135|SUPERIORITY||Risk Ratio (RR)|0.4|STANDARD_ERROR_OF_MEAN|0.11||0.001|TWO_SIDED|95.0|0.26|0.69||significance at 0.05|negative binomial regression model||Laquinimod 0.6 mg vs. placebo risk ratio|This analysis was performed using baseline adjusted negative binomial regression model (SAS® PROC GENMOD) in which 1 contrast for comparing laquinimod 0.6 mg to placebo was constructed. In addition to the treatment group, the natural logarithm of T2 lesion volume at baseline, age at baseline and country/geographical region (CGR) were used as covariates.||0.69|0.26|0.001
82577066|NCT02942004|164864076|SUPERIORITY||LS men difference|-0.17|STANDARD_ERROR_OF_MEAN|0.092||0.0616|TWO_SIDED|95.0|-0.35|0.01|||MMRM|||Suicide, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.35|0.0616
82647896|NCT01223196|165011298|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in whole body insulin sensitivity (M/I) between groups.||||||0.05
82368370|NCT02504671|164446936|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Difference to placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
82368371|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368372|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368373|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 1, ACR20. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368374|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 1, ACR50. Difference to Placebo for Week 1 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368375|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368376|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82368377|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-3.1|24.7|||||Week 2, ACR20. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|
82368378|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368379|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368380|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 2, ACR50. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368381|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
82368382|NCT02504671|164446937|OTHER||Difference|27.0|||||TWO_SIDED|95.0|9.3|44.7|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.7|9.3|
82368383|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.9|41.8|||||Week 4, ACR20. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.8|6.9|
82368384|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
82368385|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
82368386|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 4, ACR50. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
82368387|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 4, ACR70. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368388|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-9.3|30.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.9|-9.3|
82368389|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-11.7|27.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||27.9|-11.7|
82368390|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-9.3|30.9|||||Week 6, ACR20. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.9|-9.3|
82368391|NCT02504671|164446937|OTHER||Difference|-5.4|||||TWO_SIDED|95.0|-17.8|7.0|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.0|-17.8|
82368392|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-16.0|10.6|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.6|-16.0|
82529008|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.518||||0.0015||95.0|0.344|0.778||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.778|0.344|0.0015
82395610|NCT00460265|164502137|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.873||||0.1403||95.0|0.729|1.046|||Log Rank|Stratified by IVRS randomization factors (ECOG(0:1),previously treated w/ CT/RT(yes:no),primary tumor site(oropharynx/larynx:oral cavity/hypopharynx))|Hazard ratio from Cox proportional hazards model stratified by IVRS randomization factors; hazard ratio presented as panitumumab plus chemotherapy:chemotherapy alone.|||1.046|0.729|0.1403
82529009|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.7856||95.0|0.599|1.473|||Regression, Logistic|||BIBR 1048 300 mg qd vs. BIBR 1048 150 mg bid comparison. Secondary analysis to compare once daily dosing vs. twice daily dosing. . The statistical model was a logistic regression which included treatment and centre.||1.473|0.599|0.7856
82529010|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.469||||0.0007||95.0|0.302|0.727|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.727|0.302|0.0007
82644342|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.008|-0.571|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.571|-1.008|<.0001
82368393|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||Week 6, ACR50. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-14.1|
82368394|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368395|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368396|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-10.1|26.3|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.3|-10.1|
82368397|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|4.5|44.1|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.1|4.5|
82368398|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Week 8, ACR20. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
82368399|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368400|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368401|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 8, ACR50. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368402|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82395611|NCT00460265|164502138|SUPERIORITY_OR_OTHER||Difference in percentages|10.98||||||95.0|3.13|18.68||||||||18.68|3.13|
82368403|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368404|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 8, ACR70. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368405|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.0|42.7|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.7|6.0|
82368406|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|11.0|48.4|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.4|11.0|
82368407|NCT02504671|164446937|OTHER||Difference|40.5|||||TWO_SIDED|95.0|21.6|59.5|||||Week 12, ACR20. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||59.5|21.6|
82395612|NCT00460265|164502138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||||95.0|1.15|2.44||||||||2.44|1.15|
82395613|NCT00460265|164502142|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||||95.0|0.659|0.922|||||Cox proportional hazards model stratified by IVRS randomization factors|||0.922|0.659|
82395614|NCT00568334|164502215|NON_INFERIORITY|The lower limit (LL) of the 95% confidence interval (CI) for the GMT ratio (derived from IFA) between Group Varilrix HSA-Free and (divided by) Group Varilrix is equal to or above (≥) the pre-defined clinical limit of 0.5.|GMT Ratio|1.12|||||TWO_SIDED|95.0|0.86|1.46|||ANOVA|||Non-inferiority of Varilrix™ HSA-Free vaccine as compared to Varilrix™ vaccine in terms of geometric mean titers (GMTs) of varicella zoster virus (VZV) antibodies 43-57 days after the first vaccine dose.||1.46|0.86|
82395615|NCT00568334|164502216|NON_INFERIORITY|The lower limit (LL) of the 95% confidence interval (CI) for the GMC ratio (derived from ELISA) between Group Varilrix HSA-Free and (divided by) Group Varilrix is equal to or above (≥) the pre-defined clinical limit of 0.67.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.93|1.33|||ANOVA|||Non-inferiority of Varilrix™ HSA-Free vaccine as compared to Varilrix™ vaccine in terms of geometric mean concentrations (GMCs) of varicella zoster virus (VZV) antibodies 43-57 days after the first vaccine dose.||1.33|0.93|
82395616|NCT00625404|164502242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.59|1.52||||||Hazard ratio (HR) for HIV infection based on proportional hazards model, stratified on site. Study was designed to have 90% power to reject the null hypothesis that the HR for infection is \> 0.3||1.52|0.59|
82395617|NCT00625404|164502243|SUPERIORITY_OR_OTHER|||||||0.45|||||||Log Rank|||Log-rank test for difference in rate of grade 2 or higher creatinine, based on time to first event.||||0.45
82395618|NCT00625404|164502245|SUPERIORITY_OR_OTHER|||||||0.59|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.59
82529011|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.647||||0.0401||95.0|0.427|0.98|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.98|0.427|0.0401
82529012|NCT01225822|164754103|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.2446||95.0|0.859|1.817|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||1.817|0.859|0.2446
82529013|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.375|||<|0.0001||95.0|0.244|0.577||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.577|0.244|<0.0001
82529014|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.518||||0.0015||95.0|0.344|0.778||Dose relationship tested using a hierarchical testing procedure to preserve type I error rate at 5%. 225 mg bid was compared to 50 mg bid. If a difference significant at 5% level was found, then 150 mg bid was compared to 50 mg bid|Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid comparison. The primary objective of the trial was to establish a dose relationship among BIBR 1048 doses studied in the prevention of VTE. The statistical model was a logistic regression which included treatment and centre..||0.778|0.344|0.0015
82395619|NCT00625404|164502246|SUPERIORITY_OR_OTHER|||||||0.79|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.79
82395620|NCT00625404|164502247|SUPERIORITY_OR_OTHER|||||||0.62|||||||Log Rank|||Log-rank test for difference in rates between groups||||0.62
82395621|NCT00625404|164502248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.89|||||||t-test, 2 sided|||t-test for difference on viral loads||||0.89
82395622|NCT00625404|164502249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.1||||0.82|||||||t-test, 2 sided|||t-test for difference in mean CD-4 counts||||0.82
82395623|NCT00625404|164502253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.73|||||||t-test, 2 sided|||t-test for difference in change in number of sexual partners over time||||0.73
82395624|NCT01887678|164502293|SUPERIORITY_OR_OTHER||Least Square|-6.37|STANDARD_ERROR_OF_MEAN|3.06||0.0383|TWO_SIDED|95.0|-12.4|-0.35|||ANCOVA||A negative value of the Least Square mean difference indicates a result in favor of Traumeel-Zeel.|||-0.35|-12.40|0.0383
82395625|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-2.15||||0.3715|TWO_SIDED|95.0|-6.89|2.58|||ANCOVA|||Day 8±1||2.58|-6.89|0.3715
82395626|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Square|-5.87||||0.0293|TWO_SIDED|95.0|-11.15|-0.6|||ANCOVA|||Day 15±1||-0.60|-11.15|0.0293
82395627|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-5.24||||0.0686|TWO_SIDED|95.0|-10.88|0.4|||ANCOVA|||Day 29±3||0.40|-10.88|0.0686
82395628|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-7.25||||0.015|TWO_SIDED|95.0|-13.08|-1.42|||ANCOVA|||Day 43±3||-1.42|-13.08|0.0150
82395629|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-7.56||||0.0134|TWO_SIDED|95.0|-13.54|-1.58|||ANCOVA|||Day 57±3||-1.58|-13.54|0.0134
82395630|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-7.6||||0.0121|TWO_SIDED|95.0|-13.52|-1.68|||Least Squares|||Day 71±3||-1.68|-13.52|0.0121
82395631|NCT01887678|164502294|SUPERIORITY_OR_OTHER||Least Squares|-6.32||||0.0376|TWO_SIDED|95.0|-12.28|-0.37|||ANCOVA|||Day 85±3||-0.37|-12.28|0.0376
82395632|NCT01887678|164502295|SUPERIORITY_OR_OTHER||Least Squares|-4.76||||0.1373|TWO_SIDED|95.0|-11.05|1.53|||ANCOVA|||||1.53|-11.05|0.1373
82395633|NCT01887678|164502296|SUPERIORITY_OR_OTHER||Least Squares|-4.24||||0.1715|TWO_SIDED|95.0|-10.33|1.85|||ANCOVA|||||1.85|-10.33|0.1715
82395634|NCT01887678|164502297|SUPERIORITY_OR_OTHER||Least Squares|-4.77||||0.1211|TWO_SIDED|95.0|-10.82|1.27|||ANCOVA|||||1.27|-10.82|0.1211
82395635|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-4.97||||0.1128|TWO_SIDED|95.0|-11.12|1.18|||ANCOVA|||Day 8±1||1.18|-11.12|0.1128
82395636|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-10.49||||0.0013|TWO_SIDED|95.0|-16.85|-4.13|||ANCOVA|||Day 15±1||-4.13|-16.85|0.0013
82395637|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-6.89||||0.0472|TWO_SIDED|95.0|-13.69|-0.09|||ANCOVA|||Day 29±3||-0.09|-13.69|0.0472
82395638|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-8.82||||0.0109|TWO_SIDED|95.0|-15.6|-2.05|||ANCOVA|||Day 43±3||-2.05|-15.60|0.0109
82395639|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-8.88||||0.0123|TWO_SIDED|95.0|-15.8|-1.95|||ANCOVA|||Day 57±3||-1.95|-15.80|0.0123
82368408|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-10.6|16.0|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.0|-10.6|
82368409|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
82368410|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 12, ACR50. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
82395640|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-6.88||||0.0425|TWO_SIDED|95.0|-13.52|-0.23|||ANCOVA|||Day 71±3||-0.23|-13.52|0.0425
82395641|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-5.51||||0.1199|TWO_SIDED|95.0|-12.47|1.45|||ANCOVA|||Day 85±3||1.45|-12.47|0.1199
82395642|NCT01887678|164502302|SUPERIORITY_OR_OTHER||Least Squares|-4.96||||0.1575|TWO_SIDED|95.0|-11.86|1.93|||ANCOVA|||Day 119±3||1.93|-11.86|0.1575
82368411|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
82368412|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82368413|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 12, ACR70. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82395643|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.28||||0.6346|TWO_SIDED|95.0|-1.45|0.89|||ANCOVA|||Day 8±1||0.89|-1.45|0.6346
82368414|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-5.4|32.4|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.4|-5.4|
82368415|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|9.8|49.7|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||49.7|9.8|
82368416|NCT02504671|164446937|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Week 16, ACR20. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
82395644|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.28||||0.6458|TWO_SIDED|95.0|-1.49|0.92|||ANCOVA|||Day 15±1||0.92|-1.49|0.6458
82368417|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
82368418|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
82368419|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
82368420|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
82368421|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82368422|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 16, ACR70. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368423|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-10.1|26.3|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.3|-10.1|
82395645|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.18||||0.7581|TWO_SIDED|95.0|-1.35|0.99|||ANCOVA|||Day 29±3||0.99|-1.35|0.7581
82395646|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.49||||0.335|TWO_SIDED|95.0|-1.48|0.51|||ANCOVA|||Day 43±3||0.51|-1.48|0.3350
82395647|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.4||||0.4419|TWO_SIDED|95.0|-1.44|0.63|||ANCOVA|||Day 57±3||0.63|-1.44|0.4419
82395648|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.37||||0.446|TWO_SIDED|95.0|-1.32|0.58|||ANCOVA|||Day 71±3||0.58|-1.32|0.4460
82395649|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|0.25||||0.6552|TWO_SIDED|95.0|-0.84|1.33|||ANCOVA|||Day 85±3||1.33|-0.84|0.6552
82395650|NCT01887678|164502303|SUPERIORITY_OR_OTHER||Least Squares|-0.19||||0.7443|TWO_SIDED|95.0|-1.33|0.95|||ANCOVA|||Day 119±3||0.95|-1.33|0.7443
82395651|NCT01887678|164502308|SUPERIORITY_OR_OTHER|||||||0.2164|TWO_SIDED||||||Log Rank|Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions||After first injection of study drug||||0.2164
82395652|NCT01887678|164502308|SUPERIORITY_OR_OTHER|||||||0.1651|TWO_SIDED|||||Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions|Log Rank|||After second injection of study drug||||0.1651
82395653|NCT01887678|164502308|SUPERIORITY_OR_OTHER|||||||0.222|TWO_SIDED||||||Log Rank|Results of Kaplan-Meier Analysis with p-value from 2-sided log-rank test for equality of survival functions||After third injection of study drug||||0.2220
82395654|NCT01887678|164502309|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED||||||Log Rank|For equality of survival functions||After first injection of study drug||||0.0264
82395655|NCT01887678|164502309|SUPERIORITY_OR_OTHER|||||||0.0346|TWO_SIDED||||||Log Rank|For equality of survival functions||After second injection of study drug||||0.0346
82395656|NCT01887678|164502309|SUPERIORITY_OR_OTHER|||||||0.0172|TWO_SIDED||||||Log Rank|For equality of survival functions||After third injection of study drug||||0.0172
82395657|NCT01432561|164502329|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||High-fat/calorie compared to fasted condition||||.04
82395658|NCT01432561|164502329|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANOVA|||High-protein compared to fasted condition||||.005
82368424|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|2.0|41.2|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|
82368425|NCT02504671|164446937|OTHER||Difference|37.8|||||TWO_SIDED|95.0|17.9|57.8|||||Week 20, ACR20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.8|17.9|
82529015|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.7856||95.0|0.599|1.473|||Regression, Logistic|||BIBR 1048 300 mg qd vs. BIBR 1048 150 mg bid comparison. Secondary analysis to compare once daily dosing vs. twice daily dosing. . The statistical model was a logistic regression which included treatment and centre.||1.473|0.599|0.7856
82368426|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-10.6|16.0|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.0|-10.6|
82395659|NCT01432561|164502330|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||High-fat/calorie compared to fasted condition||||.16
82395660|NCT01432561|164502330|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANOVA|||High-protein compared to fasted condition||||.036
82395661|NCT01432561|164502331|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Non-parametric Hodges-Lehmann method|||Fed high-fat/calorie compared to fasted condition.||||.30
82395662|NCT01432561|164502331|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Non-parametric Hodges-Lehmann method|||High-protein compared to fasted condition||||.05
82395663|NCT00497770|164502335|NON_INFERIORITY_OR_EQUIVALENCE|A pre-specified logistic regression was used to assess non-inferiority of DCR in African American participants compared with Caucasian participants. The DCR for African Americans was to be considered non-inferior to the DCR for Caucasians if the upper bound of the confidence interval (CI) of the odds ratio (OR) for African American versus Caucasian was \<1.78 which corresponds to a difference in proportions of approximately 14% assuming the DCR in the reference group to be 50%.|Odds Ratio (OR)|0.821|||||TWO_SIDED|95.0|0.427|1.58||Adjusted:baseline characteristics, income, marital/insurance status, comorbid, time between end of 1st line therapy and start of pemetrexed, prior platinum- or Paclitaxel-containing regimen, number of cycles and best response during 1st line therapy.|Regression, Logistic|||||1.580|0.427|
82395664|NCT01080391|164502346|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.57|0.834||Analysis was stratified by β2 microglobulin levels (\< 2.5 mg/L vs. ≥ 2.5 mg/L), prior bortezomib (no vs. yes), and prior lenalidomide (no vs. yes)|Log Rank|The stopping boundary for this analysis was 0.0127 based on 1-sided significance level (O'Brien-Fleming with Lan-DeMets spending function).||||0.834|0.570|< 0.0001
82529016|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.469||||0.0007||95.0|0.302|0.727|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.727|0.302|0.0007
82368427|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-0.2|32.6|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||32.6|-0.2|
82368428|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 20, ACR50. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
82368429|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-11.7|6.3|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||6.3|-11.7|
82368430|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-3.1|24.7|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.7|-3.1|
82368431|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 20, ACR70. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82368432|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-6.9|28.5|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.5|-6.9|
82368433|NCT02504671|164446937|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.7|46.3|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.3|7.7|
82368434|NCT02504671|164446937|OTHER||Difference|43.2|||||TWO_SIDED|95.0|23.8|62.6|||||Week 24, ACR20. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||62.6|23.8|
82368435|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-14.1|14.1|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-14.1|
82368436|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-1.2|33.7|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.7|-1.2|
82368437|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|1.1|36.7|||||Week 24, ACR50. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.7|1.1|
82368438|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||10.3|-10.3|
82426358|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Docosapentaenoic acid (22:5n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.1|0.0||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||0.0|-0.1|<0.001
82529017|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.647||||0.0401||95.0|0.427|0.98|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||0.98|0.427|0.0401
82368439|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82395665|NCT01080391|164502347|SUPERIORITY|The stopping boundary for this analysis was 0.0231 based on 1-sided significance level (O'Brien-Fleming with Lan-DeMets spending function).|Hazard Ratio (HR)|0.794||||0.0045|TWO_SIDED|95.0|0.667|0.945|||Log Rank|Analysis was stratified by β2 microglobulin levels (\< 2.5 mg/L vs. ≥ 2.5 mg/L), prior bortezomib (no vs. yes), and prior lenalidomide (no vs. yes).||The final analysis of OS was to be performed after 510 deaths occur. A total of 510 deaths would provide 85% power to detect, with a 1-sided significance level of 0.025, a hazard ratio of 0.765 corresponding to a 23.5% reduction in risk for death for CRd versus Rd (39.2 vs. 30.0 months, respectively).||0.945|0.667|0.0045
82395666|NCT01080391|164502348|SUPERIORITY||Odds Ratio (OR)|3.472|||<|0.0001|TWO_SIDED|95.0|2.411|5.001|||Cochran-Mantel Haenszel chi-square test|Cochran-Mantel Haenszel chi-square test with β2 macroglobulin level, prior bortezomib, and prior lenalidomide as stratification factors.|The odds ratio and 95% CI were estimated using the Mantel-Haenszel method.|||5.001|2.411|< 0.0001
82368440|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-5.1|21.3|||||Week 24, ACR70. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||21.3|-5.1|
82368441|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368442|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82395667|NCT01080391|164502349|SUPERIORITY||Odds Ratio (OR)|1.897||||0.0044|TWO_SIDED|95.0|1.17|3.08|||Cochran-Mantel Haenszel chi-square test|Cochran-Mantel Haenszel chi-square test with β2 macroglobulin level, prior bortezomib, and prior lenalidomide as stratification factors.|The odds ratio and 95% CI were estimated using the Mantel-Haenszel method.|||3.08|1.17|0.0044
82395668|NCT02240069|164502381|SUPERIORITY||Mean Difference (Net)|-0.11||||0.1|TWO_SIDED|95.0|-0.24|0.02|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1 for Education group relative to Placebo group||0.02|-0.24|0.10
82368443|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR20. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368444|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368445|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368446|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 28, ACR50. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368447|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368448|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368449|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368450|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368451|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368452|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR20. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368453|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368454|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368455|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR50. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368456|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82395669|NCT02240069|164502381|SUPERIORITY||Mean Difference (Net)|0.01||||0.9|TWO_SIDED|95.0|-0.11|0.13|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1 for Filtration group relative to Placebo group||0.13|-0.11|0.90
82395670|NCT02240069|164502382|SUPERIORITY||Mean Difference (Net)|-0.09||||0.28|TWO_SIDED|95.0|-0.24|0.07|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FVC for Education group relative to Placebo group||0.07|-0.24|0.28
82529018|NCT01225822|164754104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.2446||95.0|0.859|1.817|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd comparison. Secondary analysis, active control used as reference. The statistical model was a logistic regression which included treatment and centre.||1.817|0.859|0.2446
82644343|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.833|||<|0.0001|TWO_SIDED|95.0|-1.069|-0.597|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.597|-1.069|<.0001
82644344|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.843|||<|0.0001|TWO_SIDED|95.0|-1.059|-0.627|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.627|-1.059|<.0001
82644345|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.52|||<|0.0001|TWO_SIDED|95.0|0.294|0.745|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.745|0.294|<.0001
82644346|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.37|||<|0.0001|TWO_SIDED|95.0|0.163|0.577|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.577|0.163|<.0001
82644347|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.628|||<|0.0001|TWO_SIDED|95.0|0.402|0.855|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.855|0.402|<.0001
82644348|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.464|||<|0.0001|TWO_SIDED|95.0|0.257|0.67|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.670|0.257|<.0001
82368457|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82529019|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.334||||0.0373||95.0|0.199|0.938|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||0.938|0.199|0.0373
82647897|NCT01223196|165011299|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in TACE activity in skeletal muscle between groups.||Mann-Whitney test was used to test differences in TACE activity in skeletal muscle between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences, Chicago, IL, USA).||||<0.05
82368458|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32, ACR70. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368459|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368460|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82529020|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.837||||0.6659||95.0|0.374|1.875|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||1.875|0.374|0.6659
82529021|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.505||||0.1882||95.0|0.183|1.397|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as primary endpoint.||1.397|0.183|0.1882
82368461|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR20. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368462|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82529022|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.805||||0.5566||95.0|0.39|1.66|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.66|0.39|0.5566
82368463|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82395671|NCT02240069|164502382|SUPERIORITY||Mean Difference (Net)|0.01||||0.89|TWO_SIDED|95.0|-0.14|0.16|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FVC for Filter group relative to Placebo group||0.16|-0.14|0.89
82395672|NCT02240069|164502383|SUPERIORITY||Mean Difference (Net)|-0.02||||0.06|TWO_SIDED|95.0|-0.05|0.0|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1/FVC for Education group relative to Placebo group||0.00|-0.05|0.06
82395673|NCT02240069|164502383|SUPERIORITY||Mean Difference (Net)|0.0||||0.71|TWO_SIDED|95.0|-0.03|0.02|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in FEV1/FVC for Filter group relative to Placebo group||0.02|-0.03|0.71
82395674|NCT02240069|164502384|SUPERIORITY||Mean Difference (Net)|-3.46||||0.39|TWO_SIDED|95.0|-11.45|4.54|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in systolic blood pressure for Education group relative to Placebo group||4.54|-11.45|0.39
82395675|NCT02240069|164502384|SUPERIORITY||Mean Difference (Net)|0.25||||0.95|TWO_SIDED|95.0|-7.73|8.24|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in systolic blood pressure for Filter group relative to Placebo group||8.24|-7.73|0.95
82395676|NCT02240069|164502385|SUPERIORITY||Mean Difference (Net)|-1.0||||0.65|TWO_SIDED|95.0|-5.42|3.42|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in diastolic blood pressure for Education group relative to Placebo group||3.42|-5.42|0.65
82647898|NCT01223196|165011299|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Statistical Analysis applies toTNF (Tumor Necrosis Factor) alpha converting enzyme (TACE) activity between Pioglitazone and Placebo after 6 months.||Statistical analysis 2 also used 2-sided t-test similar to Statistical analysis -1||||<0.05
82368464|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 36, ACR50. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368465|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368466|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368467|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 36, ACR70. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368468|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368469|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368470|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|4.7|33.2|||||Week 40, ACR20. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.2|4.7|
82368471|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368472|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395677|NCT02240069|164502385|SUPERIORITY||Mean Difference (Net)|-0.58||||0.79|TWO_SIDED|95.0|-4.97|3.81|||Mixed Models Analysis|Linear mixed models with a fixed term for mean pre-intervention response measure, and a nested random effect to account for repeated measures.||Pre- to post-intervention change in diastolic blood pressure for Filter group relative to Placebo group||3.81|-4.97|0.79
82395678|NCT02240069|164502386|SUPERIORITY||Mean Difference (Net)|-2.9||||0.88|TWO_SIDED|95.0|-33.6|42.0|||Mixed Models Analysis|Linear mixed models adjusted for pre-intervention PM2.5. The model includes a nested random term to account for repeated measures.||Pre- to post-intervention change in indoor PM2.5 concentration for Education group relative to Placebo group||42.0|-33.6|0.88
82395679|NCT02240069|164502386|SUPERIORITY||Mean Difference (Net)|-50.5|||<|0.001|TWO_SIDED|95.0|-66.1|-27.8|||Mixed Models Analysis|Linear mixed models adjusted for pre-intervention PM2.5. The model includes a nested random term to account for repeated measures.||Pre- to post-intervention change in indoor PM2.5 concentration for Filter group relative to Placebo group||-27.8|-66.1|<0.001
82529023|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.674||||0.3253||95.0|0.307|1.48|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.48|0.307|0.3253
82368473|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR50. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368474|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368475|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368476|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR70. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368477|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368478|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82529024|NCT01225822|164754105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.269||||0.0114||95.0|0.097|0.744|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||0.744|0.097|0.0114
82529025|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.332||||0.036||95.0|0.118|0.931|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||0.931|0.118|0.036
82368479|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR20. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368480|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368481|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368482|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44, ACR50. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368483|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368484|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368485|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 44, ACR70. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82647899|NCT01223196|165011300|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney test was used to test differences in Heamoglobin A1c between groups.||Mann-Whitney test was used to test differences Haemoglobin A1C between groups. Treatment-induced changes were examined by Wilcoxon's rank test. Data were analyzed using SPSS 20 (Statistical Package for Social Sciences, Chicago, IL, USA).||||<0.05
82368486|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368487|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368488|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR20. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368489|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368490|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368491|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 48, ACR50. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368492|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368493|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368494|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Week 48, ACR70. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368495|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368496|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82529026|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.687||||0.3884||95.0|0.293|1.611|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as primary endpoint.||1.611|0.293|0.3884
82529027|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.616||||0.3674||95.0|0.215|1.766|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as primary endpoint.||1.766|0.215|0.3674
82395680|NCT00824434|164502437|SUPERIORITY_OR_OTHER||Mean In-stent Late Loss in WH Lesions|0.17|||<|0.0001|ONE_SIDED|95.0||0.22|||t-test, 1 sided|||The Student t-test was used to compare the outcome to a prespecified performance goal of 0.44 mm based on an historical TAXUS Express workhorse 9-month in-stent late loss (0.41 mm) value plus delta (0.03 mm)||0.22||<0.0001
82529028|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.809||||0.5663||95.0|0.393|1.668|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.668|0.393|0.5663
82395681|NCT00824434|164502438|SUPERIORITY_OR_OTHER||Percent Post-procedure Incomplete Apposi|5.7|||<|0.0001|ONE_SIDED|95.0||11.6|||One-sided exact binomial test|||A one-sided 95% Clopper-Pearson upper confidence bound was derived and tested to determine if the outcome was less than a prespecified performance goal based on historical XIENCE V/PROMUS post-procedure incomplete apposition data from the SPIRIT III study (34.4%).||11.6||<0.0001
82395682|NCT05153148|164502457|SUPERIORITY||Risk Difference (RD)|5.9|||=|0.446|TWO_SIDED|95.0|-9.3|21.1|||Cochran-Mantel-Haenszel||Mantel-Haenszel (MH) risk difference was summarized along with the 2-sided 95% confidence interval (CI) using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional disease-modifying antirheumatic drugs (DMARDs) and region.|21.1|-9.3|=0.446
82395683|NCT05153148|164502457|SUPERIORITY||Risk Difference (RD)|24.1|||=|0.002|TWO_SIDED|95.0|8.6|39.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|39.6|8.6|=0.002
82395684|NCT05153148|164502457|SUPERIORITY||Risk Difference (RD)|24.5|||=|0.002|TWO_SIDED|95.0|9.0|39.9|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR20 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|39.9|9.0|=0.002
82395685|NCT05153148|164502458|SUPERIORITY||Risk Difference (RD)|5.7|||=|0.312|TWO_SIDED|95.0|-5.3|16.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|16.6|-5.3|=0.312
82395686|NCT05153148|164502458|SUPERIORITY||Risk Difference (RD)|17.0|||=|0.005|TWO_SIDED|95.0|5.0|29.1|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.1|5.0|=0.005
82644349|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.053||||0.9984|TWO_SIDED|95.0|-0.2|0.306|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.306|-0.200|0.9984
82395687|NCT05153148|164502458|SUPERIORITY||Risk Difference (RD)|16.4|||=|0.009|TWO_SIDED|95.0|4.2|28.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of ACR50 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|28.6|4.2|=0.009
82395688|NCT05153148|164502459|SUPERIORITY||Risk Difference (RD)|2.9|||=|0.532|TWO_SIDED|95.0|-6.6|12.7|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||12.7|-6.6|=0.532
82395689|NCT05153148|164502459|SUPERIORITY||Risk Difference (RD)|9.1|||=|0.101|TWO_SIDED|95.0|-1.0|20.1|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||20.1|-1.0|=0.101
82395690|NCT05153148|164502459|SUPERIORITY||Risk Difference (RD)|8.3|||=|0.158|TWO_SIDED|95.0|-1.7|19.4|||Fisher Exact||Comparisons of ACR70 responder rates at Week 12 were made independently between each dose group and the placebo group using Fischer's exact Method.|||19.4|-1.7|=0.158
82395691|NCT05153148|164502460|SUPERIORITY||Treatment Difference|-1.7|||=|0.268|TWO_SIDED|95.0|-4.8|1.3|||Mixed Model Repeated Measure (MMRM)||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-4.8|=0.268
82395692|NCT05153148|164502460|SUPERIORITY||Treatment Difference|-3.0|||=|0.051|TWO_SIDED|95.0|-6.1|0.0|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.0|-6.1|=0.051
82448963|NCT01122849|164605170|SUPERIORITY_OR_OTHER||LS mean difference|1.06||||0.1091|TWO_SIDED|95.0|-0.25|2.37||Between treatment p-values and confidence intervals.|ANCOVA|||Comparison for Q4 at Day 14||2.37|-0.25|0.1091
82529029|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.556||||0.1678||95.0|0.242|1.28|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||1.28|0.242|0.1678
82368497|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368498|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368499|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368500|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395693|NCT05153148|164502460|SUPERIORITY||Treatment Difference|-2.5|||=|0.112|TWO_SIDED|95.0|-5.6|0.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.6|-5.6|=0.112
82395694|NCT05153148|164502461|SUPERIORITY||Treatment Difference|-0.9|||=|0.28|TWO_SIDED|95.0|-2.4|0.7|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.7|-2.4|=0.280
82395695|NCT05153148|164502461|SUPERIORITY||Treatment Difference|-1.1|||=|0.177|TWO_SIDED|95.0|-2.6|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-2.6|=0.177
82647900|NCT00386100|165011325|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.669|-0.305||No adjustment for multiple comparisons|ANCOVA|ANCOVA with terms for treatment, region, gender, and baseline value with LOCF from Week 32 for withdrawn participants or missing values|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.305|-0.669|<0.0001
82368501|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368502|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
82368503|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 52, ACR70. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368504|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368505|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368506|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 62 (follow-up), ACR20. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368507|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368508|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368509|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 62 (follow-up), ACR50. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368510|NCT02504671|164446937|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368511|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368512|NCT02504671|164446937|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Week 62 (follow-up), ACR70. Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368513|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 1, ACR20. Difference to Placebo is presented for Week 1. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82395696|NCT05153148|164502461|SUPERIORITY||Treatment Difference|-1.0|||=|0.196|TWO_SIDED|95.0|-2.6|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-2.6|=0.196
82395697|NCT05153148|164502462|SUPERIORITY||Treatment Difference|-1.9|||=|0.637|TWO_SIDED|95.0|-9.6|5.9|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|5.9|-9.6|=0.637
82448964|NCT01124955|164605210|SUPERIORITY_OR_OTHER||||||,|0|||||||ANOVA|||||||0,05
82368514|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 1, ACR20. Difference to Placebo is presented for Week 1. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368515|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|12.7|46.8|||||Week 2, ACR20. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.8|12.7|
82395698|NCT05153148|164502462|SUPERIORITY||Treatment Difference|-9.2|||=|0.021|TWO_SIDED|95.0|-17.0|-1.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.4|-17.0|=0.021
82395699|NCT05153148|164502462|SUPERIORITY||Treatment Difference|-8.7|||=|0.03|TWO_SIDED|95.0|-16.5|-0.9|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-0.9|-16.5|=0.030
82395700|NCT05153148|164502463|SUPERIORITY||Treatment Difference|-0.9|||=|0.812|TWO_SIDED|95.0|-8.4|6.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|6.6|-8.4|=0.812
82395701|NCT05153148|164502463|SUPERIORITY||Treatment Difference|-6.7|||=|0.079|TWO_SIDED|95.0|-14.2|0.8|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.8|-14.2|=0.079
82395702|NCT05153148|164502463|SUPERIORITY||Treatment Difference|-6.3|||=|0.102|TWO_SIDED|95.0|-13.9|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-13.9|=0.102
82395703|NCT05153148|164502464|SUPERIORITY||Treatment Difference|-8.9|||=|0.016|TWO_SIDED|95.0|-16.2|-1.7|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.7|-16.2|=0.016
82395704|NCT05153148|164502464|SUPERIORITY||Treatment Difference|-10.6|||=|0.004|TWO_SIDED|95.0|-17.8|-3.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-3.4|-17.8|=0.004
82444633|NCT00128713|164598116|SUPERIORITY_OR_OTHER|||||||0.82||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.82
82444634|NCT00128713|164598116|SUPERIORITY_OR_OTHER|||||||0.68||||||Each pair of treatment arms was compared using an exact version of the Mantel-Haenszel test for trend.|Mantel Haenszel|These tests will be carried out at the .017 significance level to adjust for the multiple comparisons||||||0.68
82644350|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.173||||0.2491|TWO_SIDED|95.0|-0.405|0.058|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.058|-0.405|0.2491
82448965|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% confidence intervals (CI) were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|105.2|||||TWO_SIDED|90.0|90.61|122.13||||||AUCtau of GS-331007 for the 12 to \< 18 Years old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||122.13|90.61|
82368516|NCT02504671|164446937|OTHER||Difference|37.8|||||TWO_SIDED|95.0|20.3|55.4|||||Week 2, ACR20. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.4|20.3|
82368517|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 2, ACR50. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368518|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 2, ACR50. Difference to Placebo is presented for Week 2. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368519|NCT02504671|164446937|OTHER||Difference|37.8|||||TWO_SIDED|95.0|19.5|56.1|||||Week 4, ACR20. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.1|19.5|
82368520|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|19.5|56.1|||||Week 4, ACR20. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||56.1|19.5|
82368521|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 4, ACR50. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
82644351|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.054||||0.9977|TWO_SIDED|95.0|-0.304|0.195|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.195|-0.304|0.9977
82529030|NCT01225822|164754106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.269||||0.0113||95.0|0.097|0.743|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as primary endpoint.||0.743|0.097|0.0113
82529031|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.818||||0.0077||95.0|2.077|120.474|||Regression, Logistic|||BIBR 1048 225 mg bid vs. BIBR 1048 50 mg bid, same methodology as for primary endpoint||120.474|2.077|0.0077
82529032|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.907||||0.0062||95.0|2.229|128.238|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 50 mg bid, same methodology as for primary endpoint||128.238|2.229|0.0062
82529033|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.136||||0.7192||95.0|0.567|2.276|||Regression, Logistic|||BIBR 1048 150 mg bid vs. BIBR 1048 300 mg qd, same methodology as for primary endpoint||2.276|0.567|0.7192
82395705|NCT05153148|164502464|SUPERIORITY||Treatment Difference|-10.9|||=|0.003|TWO_SIDED|95.0|-18.2|-3.6|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-3.6|-18.2|=0.003
82529034|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.121||||0.0472||95.0|0.015|0.974|||Regression, Logistic|||BIBR 1048 50 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||0.974|0.015|0.0472
82644352|NCT03692078|165004007|EQUIVALENCE|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.227||||0.0554|TWO_SIDED|95.0|-0.456|0.003|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: AAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.003|-0.456|0.0554
82644353|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.294|||<|0.0001|TWO_SIDED|95.0|3.208|3.379|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.379|3.208|<.0001
82644354|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.262|||<|0.0001|TWO_SIDED|95.0|3.176|3.348|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.348|3.176|<.0001
82529035|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.049||||0.1043||95.0|0.862|4.868|||Regression, Logistic|||BIBR 1048 150 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||4.868|0.862|0.1043
82529036|NCT01225822|164754107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.917||||0.1448||95.0|0.799|4.597|||Regression, Logistic|||BIBR 1048 225 mg bid vs. Enoxaparin 40 mg qd, same methodology as for primary endpoint||4.597|0.799|0.1448
82529037|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.871||||0.0063|TWO_SIDED|95.0|2.221|128.142|||Regression, Logistic|||||128.142|2.221|0.0063
82529038|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.338||||0.0025|TWO_SIDED|95.0|2.983|167.268|||Regression, Logistic|||||167.268|2.983|0.0025
82529039|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.919||||0.7973|TWO_SIDED|95.0|0.483|1.75|||Regression, Logistic|||||1.750|0.483|0.7973
82529040|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.068||||0.0097|TWO_SIDED|95.0|0.009|0.522|||Regression, Logistic|||||0.522|0.009|0.0097
82529041|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.522||||0.2375|TWO_SIDED|95.0|0.758|3.058|||Regression, Logistic|||||3.058|0.758|0.2375
82529042|NCT01225822|164754109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.7104|TWO_SIDED|95.0|0.55|2.403|||Regression, Logistic|||||2.403|0.550|0.7104
82529043|NCT02541383|164754122|SUPERIORITY||Odds Ratio (OR)|1.6||||0.001|TWO_SIDED|95.0|1.21|2.12|||Cochran-Mantel-Haenszel|||||2.12|1.21|0.0010
82529044|NCT02541383|164754123|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.42|0.68|||Log Rank|||||0.68|0.42|<0.0001
82529045|NCT02541383|164754124|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.52|0.72|||Log Rank|||||0.72|0.52|<0.0001
82529046|NCT01508013|164754130|SUPERIORITY_OR_OTHER|||||||0.633|||||||Mixed Models Analysis|||||||.633
82529047|NCT01508013|164754131|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||.001
82529048|NCT01508013|164754132|SUPERIORITY_OR_OTHER|||||||0.018|||||||Mixed Models Analysis|||||||.018
82529049|NCT01279343|164754159|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.03|TWO_SIDED|95.0|-5.9|-0.3|||t-test, 2 sided|||||-0.3|-5.9|0.03
82395706|NCT05153148|164502465|SUPERIORITY||Treatment Difference|-0.07|||=|0.357|TWO_SIDED|95.0|-0.21|0.08|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.08|-0.21|=0.357
82395707|NCT05153148|164502465|SUPERIORITY||Treatment Difference|-0.1|||=|0.195|TWO_SIDED|95.0|-0.24|0.05|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.05|-0.24|=0.195
82529050|NCT01279343|164754160|SUPERIORITY||Risk Ratio (RR)|0.99||||0.96|TWO_SIDED|95.0|0.8|1.23|||Chi-squared|||Comparison of vaginal delivery between groups.||1.23|.80|0.96
82644355|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.12|||<|0.0001|TWO_SIDED|95.0|3.039|3.202|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||3.202|3.039|<.0001
82644356|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.099|||<|0.0001|TWO_SIDED|95.0|3.017|3.181|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||3.181|3.017|<.0001
82644357|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.182|||<|0.0001|TWO_SIDED|95.0|3.1|3.264|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||3.264|3.100|<.0001
82644358|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.149|||<|0.0001|TWO_SIDED|95.0|3.066|3.231|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||3.231|3.066|<.0001
82644359|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.777|||<|0.0001|TWO_SIDED|95.0|2.673|2.881|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||2.881|2.673|<.0001
82644360|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.651|||<|0.0001|TWO_SIDED|95.0|2.546|2.756|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||2.756|2.546|<.0001
82644361|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.72|||<|0.0001|TWO_SIDED|95.0|2.618|2.823|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||2.823|2.618|<.0001
82448966|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|65.76|||||TWO_SIDED|90.0|56.62|76.37||||||AUCtau of GS-331007 for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||76.37|56.62|
82529051|NCT01279343|164754160|SUPERIORITY||Risk Ratio (RR)|1.03||||0.9|TWO_SIDED|95.0|0.57|1.9|||Chi-squared|||Cesarean deliveries were compared between the groups.||1.90|0.57|0.90
82368522|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 4, ACR50. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
82368523|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 4, ACR70. Difference to Placebo is presented for Week 4. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368524|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-6.8|33.8|||||Week 6, ACR20. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.8|-6.8|
82395708|NCT05153148|164502465|SUPERIORITY||Treatment Difference|-0.05|||=|0.467|TWO_SIDED|95.0|-0.2|0.09|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.09|-0.20|=0.467
82395709|NCT05153148|164502466|SUPERIORITY||Treatment Difference|1.3|||=|0.031|TWO_SIDED|95.0|0.1|2.4|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|2.4|0.1|=0.031
82395710|NCT05153148|164502466|SUPERIORITY||Treatment Difference|0.1|||=|0.86|TWO_SIDED|95.0|-1.1|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-1.1|=0.860
82395711|NCT05153148|164502466|SUPERIORITY||Treatment Difference|0.2|||=|0.758|TWO_SIDED|95.0|-0.9|1.3|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.3|-0.9|=0.758
82395712|NCT05153148|164502467|SUPERIORITY||Treatment Difference|-0.5|||=|0.131|TWO_SIDED|95.0|-1.2|0.2|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.2|-1.2|=0.131
82395713|NCT05153148|164502467|SUPERIORITY||Treatment Difference|-0.7|||=|0.043|TWO_SIDED|95.0|-1.3|0.0|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.0|-1.3|=0.043
82368525|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|3.5|45.2|||||Week 6, ACR20. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||45.2|3.5|
82395714|NCT05153148|164502467|SUPERIORITY||Treatment Difference|-0.1|||=|0.687|TWO_SIDED|95.0|-0.8|0.5|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.5|-0.8|=0.687
82368526|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-12.2|17.6|||||Week 6, ACR50. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.6|-12.2|
82368527|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-12.2|17.6|||||Week 6, ACR50. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.6|-12.2|
82368528|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Week 6, ACR70. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368529|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Week 6, ACR70. Difference to Placebo is presented for Week 6. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368530|NCT02504671|164446937|OTHER||Difference|32.4|||||TWO_SIDED|95.0|12.4|52.4|||||Week 8, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||52.4|12.4|
82368531|NCT02504671|164446937|OTHER||Difference|35.1|||||TWO_SIDED|95.0|15.1|55.1|||||Week 8, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||55.1|15.1|
82368532|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 8, ACR50. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
82368533|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 8, ACR50. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368534|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8, ACR70. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368535|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-4.8|15.6|||||Week 8, ACR70. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||15.6|-4.8|
82368536|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|11.0|48.4|||||Week 12, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.4|11.0|
82644362|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.649|||<|0.0001|TWO_SIDED|95.0|2.544|2.753|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||2.753|2.544|<.0001
82644363|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.751|||<|0.0001|TWO_SIDED|95.0|2.651|2.851|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||2.851|2.651|<.0001
82644364|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.819|||<|0.0001|TWO_SIDED|95.0|2.718|2.919|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||2.919|2.718|<.0001
82644365|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.173||||0.0377|TWO_SIDED|95.0|-0.34|-0.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.006|-0.340|0.0377
82644366|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.163||||0.0643|TWO_SIDED|95.0|-0.331|0.006|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.006|-0.331|0.0643
82647901|NCT00386100|165011326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.3||No adjustment for multiple comparisons|Repeated measures analysis|Repeated measures analysis with terms for baseline, region, treatment, gender, time, and treatment by time interaction|AVM mean change from baseline minus MET mean change from baseline based on repeated measures analysis model|||-0.30|-0.69|<0.0001
82368537|NCT02504671|164446937|OTHER||Difference|40.5|||||TWO_SIDED|95.0|21.6|59.5|||||Week 12, ACR20. Difference to Placebo is presented for Week 8. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||59.5|21.6|
82368538|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|4.5|38.8|||||Week 12, ACR50. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.8|4.5|
82448967|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|94.08|||||TWO_SIDED|90.0|82.51|107.27||||||AUCtau of GS-331007 for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||107.27|82.51|
82368539|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 12, ACR50. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
82368540|NCT02504671|164446937|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-8.7|14.1|||||Week 12, ACR70. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||14.1|-8.7|
82368541|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 12, ACR70. Difference to Placebo is presented for Week 12. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
82368542|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|4.5|44.1|||||Week 16, ACR20. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||44.1|4.5|
82368543|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|32.2|70.5|||||Week 16, ACR20. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.5|32.2|
82368544|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|2.1|35.7|||||Week 16, ACR50. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||35.7|2.1|
82368545|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-2.4|29.4|||||Week 16, ACR50. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.4|-2.4|
82368546|NCT02504671|164446937|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-7.0|17.8|||||Week 16, ACR70. Difference to Placebo is presented for Week 16. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||17.8|-7.0|
82395715|NCT05153148|164502468|SUPERIORITY||Risk Difference (RD)|5.6|||=|0.349|TWO_SIDED|95.0|-6.1|17.4|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|17.4|-6.1|=0.349
82395716|NCT05153148|164502468|SUPERIORITY||Risk Difference (RD)|15.5|||=|0.017|TWO_SIDED|95.0|2.8|28.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|28.3|2.8|=0.017
82529052|NCT04534114|164754169|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.94||||0.944|TWO_SIDED|95.0|0.19|4.68|||Log Rank|||||4.68|0.19|0.944
82529053|NCT04534114|164754169|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.95||||0.953|TWO_SIDED|95.0|0.19|4.72|||Log Rank|||||4.72|0.19|0.953
82529054|NCT04534114|164754169|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.63||||0.605|TWO_SIDED|95.0|0.1|3.75|||Log Rank|||||3.75|0.10|0.605
82644367|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.112||||0.3875|TWO_SIDED|95.0|-0.279|0.056|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.056|-0.279|0.3875
82395717|NCT05153148|164502468|SUPERIORITY||Risk Difference (RD)|16.3|||=|0.014|TWO_SIDED|95.0|3.3|29.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of MDA responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.3|3.3|=0.014
82395718|NCT05153148|164502469|SUPERIORITY||Treatment Difference|-3.73|||=|0.167|TWO_SIDED|95.0|-9.04|1.57|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|1.57|-9.04|=0.167
82395719|NCT05153148|164502469|SUPERIORITY||Treatment Difference|-6.43|||=|0.018|TWO_SIDED|95.0|-11.73|-1.13|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|-1.13|-11.73|=0.018
82395720|NCT05153148|164502469|SUPERIORITY||Treatment Difference|-5.23|||=|0.056|TWO_SIDED|95.0|-10.59|0.13|||MMRM||Point estimate and 95% CI were obtained from a MMRM model.||MMRM model included fixed effects for treatment group, visit, and treatment group-by-visit interaction, with baseline value and the randomization stratification factors (prior treatment with biologics or non-traditional DMARDs and region) as covariates, and the change from baseline as the dependent variable.|0.13|-10.59|=0.056
82395721|NCT05153148|164502470|SUPERIORITY||Risk Difference (RD)|11.9|||=|0.186|TWO_SIDED|95.0|-5.7|29.4|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|29.4|-5.7|=0.186
82395722|NCT05153148|164502470|SUPERIORITY||Risk Difference (RD)|14.6|||=|0.101|TWO_SIDED|95.0|-2.8|32.1|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|32.1|-2.8|=0.101
82395723|NCT05153148|164502470|SUPERIORITY||Risk Difference (RD)|29.0|||=|0.002|TWO_SIDED|95.0|10.5|47.6|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PASI-75 responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|47.6|10.5|=0.002
82644368|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.113||||0.3725|TWO_SIDED|95.0|-0.28|0.054|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.054|-0.280|0.3725
82644369|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.516|||<|0.0001|TWO_SIDED|95.0|-0.706|-0.327|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.327|-0.706|<.0001
82644370|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.611|||<|0.0001|TWO_SIDED|95.0|-0.802|-0.42|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.420|-0.802|<.0001
82644371|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.573|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.386|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.386|-0.760|<.0001
82644372|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.803|-0.423|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.423|-0.803|<.0001
82644373|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.369|||<|0.0001|TWO_SIDED|95.0|0.19|0.548|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.548|0.190|<.0001
82644374|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.28||||0.0003|TWO_SIDED|95.0|0.099|0.462|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.462|0.099|0.0003
82644375|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.431|||<|0.0001|TWO_SIDED|95.0|0.251|0.611|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.611|0.251|<.0001
82647902|NCT00386100|165011327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.0046|TWO_SIDED|95.0|1.18|2.46||Hb1AC \<= 6.5%|Regression, Logistic|Logistic reggression with terms for treatment, region, gender, and baseline Hb1AC with LOCF from Week 32.|Odds of having an HbA1c \<= 6.5% at Week 80 on Avandamet compared to Metformin.|||2.46|1.18|0.0046
82647903|NCT00386100|165011327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.59|||<|0.0001|TWO_SIDED|95.0|1.75|3.81||Hb1AC \< 7%|Regression, Logistic|Logistic reggression with terms for treatment, region, gender, and baseline Hb1AC with LOCF from Week 32|Odds of having an HbA1c \<7% at Week 80 on Avandamet compared to Metformin|||3.81|1.75|<0.0001
82368547|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|2.0|41.2|||||Week 20, ACR20. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.2|2.0|
82368548|NCT02504671|164446937|OTHER||Difference|43.2|||||TWO_SIDED|95.0|23.5|63.0|||||Week 20, ACR20. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||63.0|23.5|
82644376|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.33|||<|0.0001|TWO_SIDED|95.0|0.149|0.511|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.511|0.149|<.0001
82395724|NCT05153148|164502471|SUPERIORITY||Risk Difference (RD)|4.5|||=|0.54|TWO_SIDED|95.0|-10.0|19.0|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|19.0|-10.0|=0.540
82395725|NCT05153148|164502471|SUPERIORITY||Risk Difference (RD)|5.2|||=|0.466|TWO_SIDED|95.0|-8.8|19.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|19.3|-8.8|=0.466
82395726|NCT05153148|164502471|SUPERIORITY||Risk Difference (RD)|16.3|||=|0.034|TWO_SIDED|95.0|1.2|31.3|||Cochran-Mantel-Haenszel||MH risk difference was summarized along with the 2-sided 95% CI using MH stratum weights and the Sato variance estimator.||Comparisons of PhGA-PSO responder rates at Week 12 were made independently between each dose group and the placebo group using two-sided MH tests stratified on randomization stratification factors: prior treatment with biologics or non-traditional DMARDs and region.|31.3|1.2|=0.034
82395727|NCT01712334|164502474|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of the mean percent predicted FEV1 at the end of the eRapid treatment to the mean percent predicted FEV1 at the end of the LC Plus jet nebulizer treatment. The two nebulizers were considered equivalent if the 90% CI was within 80%-125%.|Ratio (Fieller's theorem)|100.9|||||TWO_SIDED|90.0|99.5|102.3||||||||102.3|99.5|
82395728|NCT00232596|164502476|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-parametric rank analysis of covariance adjusted for baseline 28-seizure frequency and stratified by baseline seizure frequency category and region|Non-parametric rank ANCOVA|||||||<0.001
82395729|NCT00232596|164502477|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82395730|NCT01253174|164502496|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|102.26||||||90.0|96.65|108.2||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 42 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||108.20|96.65|
82395731|NCT01253174|164502497|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|101.13||||||90.0|97.65|104.75||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 42 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.75|97.65|
82395732|NCT01253174|164502498|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|98.66||||||90.0|93.37|104.24||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.24|93.37|
82395733|NCT01253174|164502499|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.45||||||90.0|96.7|102.28||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||102.28|96.70|
82644377|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.026||||1|TWO_SIDED|95.0|-0.176|0.228|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.228|-0.176|1.0000
82647904|NCT00386100|165011328|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15|||<|0.0001||95.0|-1.54|-0.77|||Repeated measures analysis|Terms for baseline, region, treatment, pre-screening Hb1Ac strata, gender, time, and treatment by time interaction|AVM mean change from baseline minus MET mean change from baseline based on repeated measures analysis model|||-0.77|-1.54|<0.0001
82368549|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|6.9|41.8|||||Week 20, ACR50. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||41.8|6.9|
82368550|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|4.5|38.8|||||Week 20, ACR50. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||38.8|4.5|
82368551|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|3.3|34.5|||||Week 20, ACR70. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.5|3.3|
82368552|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 20, ACR70. Difference to Placebo is presented for Week 20. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368553|NCT02504671|164446937|OTHER||Difference|27.0|||||TWO_SIDED|95.0|7.7|46.3|||||Week 24, ACR20. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||46.3|7.7|
82395734|NCT01253174|164502500|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|106.19||||||90.0|99.18|113.68||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.68|99.18|
82368554|NCT02504671|164446937|OTHER||Difference|45.9|||||TWO_SIDED|95.0|26.7|65.2|||||Week 24, ACR20. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.2|26.7|
82368555|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-3.6|30.6|||||Week 24, ACR50. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||30.6|-3.6|
82368556|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|-1.2|33.7|||||Week 24, ACR50. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||33.7|-1.2|
82368557|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 24, ACR70. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368558|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|-1.1|28.1|||||Week 24, ACR70. Difference to Placebo is presented for Week 24. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|-1.1|
82368559|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR20. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368560|NCT02504671|164446937|OTHER||Difference|64.9|||||TWO_SIDED|95.0|48.9|80.8|||||Week 28, ACR20. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||80.8|48.9|
82368561|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 28, ACR50. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368562|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|6.8|36.4|||||Week 28, ACR50. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||36.4|6.8|
82368563|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 28, ACR70. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368564|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 28, ACR70. Difference to Placebo is presented for Week 28. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368565|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR20. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368566|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 32, ACR20. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
82368567|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR50. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368568|NCT02504671|164446937|OTHER||Difference|27.0|||||TWO_SIDED|95.0|11.4|42.7|||||Week 32, ACR50. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.7|11.4|
82368569|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 32, ACR70. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368570|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 32, ACR70. Difference to Placebo is presented for Week 32. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368571|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR20. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368572|NCT02504671|164446937|OTHER||Difference|56.8|||||TWO_SIDED|95.0|40.1|73.4|||||Week 36, ACR20. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||73.4|40.1|
82368573|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 36, ACR50. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82529055|NCT04534114|164754170|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|1.45||||0.612|TWO_SIDED|95.0|0.34|6.08|||Log Rank|||||6.08|0.34|0.612
82529056|NCT04534114|164754170|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|1.27||||0.757|TWO_SIDED|95.0|0.28|5.66|||Log Rank|||||5.66|0.28|0.757
82529057|NCT04534114|164754170|OTHER|Fesomersen groups were compared to the placebo group using two-sided log-rank tests. Due to the exploratory nature of these analyses, no multiplicity adjustment was done. Cause-specific hazard ratio and corresponding 2-sided 95% confidence intervals, comparing the hazards for the event-of-interest in each of the Fesomersen groups with the placebo group were estimated based on three separate cause-specific Cox proportional hazards models as exploratory analysis.|Cause specific Hazard ratio|0.91||||0.909|TWO_SIDED|95.0|0.18|4.52|||Log Rank|||||4.52|0.18|0.909
82529058|NCT03287414|164754177|SUPERIORITY||Least Squares Mean Difference|0.063|STANDARD_ERROR_OF_MEAN|0.1379||0.3248|TWO_SIDED|80.0|-0.115|0.241||1-sided p-values were obtained using MMRM Model.|MMRM|||||0.241|-0.115|0.3248
82529059|NCT03287414|164754178|OTHER|||||||0.868|||||||Log Rank|||||||0.868
82529060|NCT03287414|164754180|OTHER||Hazard Ratio (HR)|2.6||||0.921|TWO_SIDED|80.0|1.1|6.3|||Log Rank|||PFS1||6.3|1.1|0.921
82529061|NCT03287414|164754180|OTHER||Hazard Ratio (HR)|2.2||||0.863|TWO_SIDED|80.0|0.9|5.6|||Log Rank|||PFS2||5.6|0.9|0.863
82529062|NCT03287414|164754181|OTHER||Hazard Ratio (HR)|2.2||||0.863|TWO_SIDED|80.0|0.9|5.6|||Log Rank|||FVC||5.6|0.9|0.863
82529063|NCT03287414|164754181|OTHER||Hazard Ratio (HR)|0.9||||0.457|TWO_SIDED|80.0|0.4|2.0|||Log Rank|||DLCO||2.0|0.4|0.457
82395735|NCT01253174|164502501|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|97.98||||||90.0|94.19|101.93||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||101.93|94.19|
82444635|NCT00424190|164598128|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% confidence interval (CI) for the observed difference in the primary outcome measure between ceftaroline and vancomycin plus aztreonam was calculated. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10%.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.2|6.2|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Vancomycin plus Aztreonam clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in clinical cure rate of ceftaroline in comparison with vancomycin plus aztreonam in adult subjects with cSSSI.||6.2|-4.2|
82529064|NCT03287414|164754181|OTHER||Hazard Ratio (HR)|0.3||||0.019|TWO_SIDED|80.0|0.1|0.6|||Log Rank|||6MWD||0.6|0.1|0.019
82529065|NCT03287414|164754182|OTHER||Hazard Ratio (HR)|1.1||||0.611|TWO_SIDED|80.0|0.6|2.0|||Log Rank|||Composite Endpoint 1||2.0|0.6|0.611
82529066|NCT03287414|164754182|OTHER||Hazard Ratio (HR)|1.1||||0.549|TWO_SIDED|80.0|0.6|1.9|||Log Rank|||Composite Endpoint 2||1.9|0.6|0.549
82529067|NCT03287414|164754183|SUPERIORITY||Least Squares of the Mean|-0.92|STANDARD_ERROR_OF_MEAN|1.3109||0.7576|TWO_SIDED|80.0|-2.615|0.774||1-sided p-values were obtained using MMRM Model.|MMRM|||||0.774|-2.615|0.7576
82529068|NCT03287414|164754184|SUPERIORITY||Least Squares of the Mean|32.222|STANDARD_ERROR_OF_MEAN|61.8632||0.3018|TWO_SIDED|80.0|-47.572|112.015||1-sided p-values were obtained using MMRM Model.|MMRM|||||112.015|-47.572|0.3018
82529069|NCT03287414|164754185|SUPERIORITY||Least Squares of the Mean|29.166|STANDARD_ERROR_OF_MEAN|60.0143||0.314|TWO_SIDED|80.0|-48.22|106.553||1-sided p-values were obtained using MMRM Model.|MMRM|||||106.553|-48.220|0.3140
82529070|NCT03287414|164754186|SUPERIORITY||Least Squares of the mean|1.77|STANDARD_ERROR_OF_MEAN|1.5422||0.1269|TWO_SIDED|80.0|-0.219|3.759||1-sided p-values were obtained using MMRM Model.|MMRM|||||3.759|-0.219|0.1269
82529071|NCT03245255|164754198|OTHER|Correlation analysis|Pearson Correlation Coefficient|-0.8|STANDARD_DEVIATION|0.1|||TWO_SIDED|||||||||||||
82529072|NCT04765735|164754200|SUPERIORITY||||||<|0.001||||||"It is hypothesized that the proportion of subjects with a reduction in overstimulation sensation during CL compared to OL period exceeds a performance goal of 50%.~H0: p ≤ 50% HA: p \> 50%"|Binomial Exact Test|||||||<0.001
82529073|NCT01087996|164754201|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82529074|NCT01087996|164754202|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANOVA|||||||0.75
82529075|NCT01087996|164754203|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82529076|NCT01087996|164754204|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82529077|NCT01087996|164754205|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82529078|NCT01087996|164754206|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82529079|NCT01087996|164754207|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Repeated measures ANOVA|||||||0.87
82529080|NCT01087996|164754208|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Repeated measures ANOVA|||||||0.84
82529081|NCT01087996|164754209|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Chi-squared|||||||0.55
82529082|NCT01960530|164754210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To investigate the absolute and relative bioavailability of cortisol from oral Infacort®, a 20 mg dose of oral Infacort® was compared to a 20 mg dose of i.v. hydrocortisone and hydrocortisone tablets, respectively (Study Periods 3-5). These investigations were conducted in dexamethasone suppressed healthy subjects. Standard bioavailability limits of 80% to 125% were used.|Geometric LSmean ratio|60.12|||||TWO_SIDED|90.0|54.69|66.1||||||Evaluation of Cmax||66.10|54.69|
82529083|NCT01960530|164754210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To investigate the absolute and relative bioavailability of cortisol from oral Infacort®, a 20 mg dose of oral Infacort® was compared to a 20 mg dose of i.v. hydrocortisone and hydrocortisone tablets, respectively (Study Periods 3-5). These investigations were conducted in dexamethasone suppressed healthy subjects. Standard bioavailability limits of 80% to 125% were used.|Geometric LSmean ratio|106.83|||||TWO_SIDED|90.0|96.92|117.76||||||||117.76|96.92|
82644378|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.168||||0.1589|TWO_SIDED|95.0|-0.371|0.036|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.036|-0.371|0.1589
82644379|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.031||||0.9999|TWO_SIDED|95.0|-0.23|0.168|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.168|-0.230|0.9999
82644380|NCT03692078|165004009|EQUIVALENCE|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.17||||0.1453|TWO_SIDED|95.0|-0.372|0.032|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: GAMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.032|-0.372|0.1453
82644381|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.085|||<|0.0001|TWO_SIDED|95.0|0.788|1.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.382|0.788|<.0001
82644382|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.104|||<|0.0001|TWO_SIDED|95.0|0.807|1.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.400|0.807|<.0001
82644383|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.606|||<|0.0001|TWO_SIDED|95.0|0.326|0.886|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||0.886|0.326|<.0001
82644384|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.476||||0.0011|TWO_SIDED|95.0|0.192|0.76|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||0.760|0.192|0.0011
82644385|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.505||||0.0006|TWO_SIDED|95.0|0.219|0.79|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||0.790|0.219|0.0006
82647905|NCT00386100|165011329|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.07|||<|0.001|TWO_SIDED|95.0|-1.425|-0.71||No adjustment for multiple comparisons|ANCOVA|Terms for treatment, region, gender, pre-screening Hb1Ac strata, and baseline with LOCF from Week 32 for withdrawn participants or missing values|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.710|-1.425|<0.001
82368574|NCT02504671|164446937|OTHER||Difference|32.4|||||TWO_SIDED|95.0|16.2|48.7|||||Week 36, ACR50. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.7|16.2|
82368575|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||Week 36, ACR70. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
82368576|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 36, ACR70. Difference to Placebo is presented for Week 36. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82395736|NCT01253174|164502502|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|104.9||||||90.0|98.83|111.34||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||111.34|98.83|
82395737|NCT01253174|164502503|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.63||||||90.0|95.73|103.69||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|41 volunteers qualified for statistical analysis of BE whereas all 41 (EE30/DRSP/L-5-MTHF Ca) and 43 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.69|95.73|
82395738|NCT01253174|164502505|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.57||||||90.0|97.32|101.87||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE30/DRSP/L-5-MTHF Ca) / Yasmin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||101.87|97.32|
82395739|NCT02267135|164502508|SUPERIORITY_OR_OTHER_LEGACY||Difference between percentages|51.0|||<|0.001|TWO_SIDED|95.0|37.0|65.0|||Cochran-Mantel-Haenszel|adjusted for body weight (\< 90 kg, ≥ 90 kg)||||65|37|<0.001
82395740|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental,control) × 2(Activity: singing,verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, believability of thought were equivalent across time||||<0.001
82395741|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in believability of thought from baseline to post-intervention. Null hypothesis: there would be no significant difference in believability of thought from baseline to post-intervention||||<0.001
82529084|NCT01960530|164754215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|86.99|||||TWO_SIDED|90.0|79.23|95.52||||||||95.52|79.23|
82368577|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR20. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368578|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 40, ACR20. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
82368579|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 40, ACR50. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368580|NCT02504671|164446937|OTHER||Difference|29.7|||||TWO_SIDED|95.0|13.8|45.7|||||Week 40, ACR50. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||45.7|13.8|
82368581|NCT02504671|164446937|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||Week 40, ACR70. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368582|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 40, ACR70. Difference to Placebo is presented for Week 40. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368583|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 44, ACR20. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368584|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|34.5|68.2|||||Week 44, ACR20. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|34.5|
82368585|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 44, ACR50. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368586|NCT02504671|164446937|OTHER||Difference|35.1|||||TWO_SIDED|95.0|18.7|51.6|||||Week 44, ACR50. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||51.6|18.7|
82368587|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Week 44, ACR70. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368588|NCT02504671|164446937|OTHER||Difference|18.9|||||TWO_SIDED|95.0|6.3|31.5|||||Week 44, ACR70. Difference to Placebo is presented for Week 44. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||31.5|6.3|
82368589|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR20. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368590|NCT02504671|164446937|OTHER||Difference|51.4|||||TWO_SIDED|95.0|37.3|70.9|||||Week 48, ACR20. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||70.9|37.3|
82368591|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 48, ACR50. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82395742|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences from post-intervention to follow-up. Null hypothesis: there would be no significant differences in believability of thought from post-intervention to follow-up.||||<0.001
82395743|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal believability scores||||>0.05
82395744|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal believability scores||||>0.05
82395745|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in believability scores||||>0.05
82395746|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions have equivalent believability scores across time.||||>0.05
82368592|NCT02504671|164446937|OTHER||Difference|32.4|||||TWO_SIDED|95.0|16.2|48.7|||||Week 48, ACR50. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||48.7|16.2|
82368593|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 48, ACR70. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368594|NCT02504671|164446937|OTHER||Difference|21.6|||||TWO_SIDED|95.0|8.4|34.9|||||Week 48, ACR70. Difference to Placebo is presented for Week 48. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||34.9|8.4|
82368595|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR20. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368596|NCT02504671|164446937|OTHER||Difference|48.6|||||TWO_SIDED|95.0|31.7|65.6|||||Week 52, ACR20. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||65.6|31.7|
82368597|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 52, ACR50. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368598|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|9.1|39.6|||||Week 52, ACR50. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||39.6|9.1|
82368599|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 52, ACR70. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82395747|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on believability scores||||>0.05
82395748|NCT03646305|164502555|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no significant difference between 4 conditions on believability||||>0.05
82395749|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, appraisal of target thought were equivalent across time.||||<0.001
82426359|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Docosahexaenoic acid (22:6n-3) between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|1.0|1.5||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.5|1.0|<0.001
82368600|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Week 52, ACR70. Difference to Placebo is presented for Week 52. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368601|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR20. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368602|NCT02504671|164446937|OTHER||Difference|40.5|||||TWO_SIDED|95.0|23.7|57.3|||||Week 62 (follow-up), ACR20. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||57.3|23.7|
82368603|NCT02504671|164446937|OTHER||Difference|13.5|||||TWO_SIDED|95.0|0.5|26.5|||||Week 62 (follow-up), ACR50. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||26.5|0.5|
82368604|NCT02504671|164446937|OTHER||Difference|24.3|||||TWO_SIDED|95.0|9.1|39.6|||||Week 62 (follow-up), ACR50. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||39.6|9.1|
82368605|NCT02504671|164446937|OTHER||Difference|10.8|||||TWO_SIDED|95.0|-1.4|23.0|||||Week 62 (follow-up), ACR70. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||23.0|-1.4|
82368606|NCT02504671|164446937|OTHER||Difference|16.2|||||TWO_SIDED|95.0|2.6|29.9|||||Week 62 (follow-up), ACR70. Difference to Placebo is presented for Week 62 (follow-up). 95% CI were constructed using asymptotic Wald confidence limits without correction.|||29.9|2.6|
82368607|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368608|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368609|NCT02504671|164446938|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368610|NCT02504671|164446938|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368611|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368612|NCT02504671|164446938|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368613|NCT02504671|164446938|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368614|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368615|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82395750|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.005|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent across time.||||=0.005
82395751|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.002|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from baseline to post-intervention. Null hypothesis: the control conditions would have no significant difference in negativity from baseline to post-intervention||||=0.002
82368616|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368617|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368618|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368619|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368620|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368621|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368622|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368623|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368624|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368625|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368626|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368627|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368628|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368629|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368630|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368631|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368632|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82644386|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.775|||<|0.0001|TWO_SIDED|95.0|0.49|1.06|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.060|0.490|<.0001
82395752|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from post-intervention to follow-up. Null hypothesis: the control conditions would have no significant difference in negativity from post-intervention to follow-up.||||<0.001
82395753|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.025|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in negativity from baseline to post-intervention. Null hypothesis: there would be no significant difference in negativity scores from baseline to post-intervention in the experimental conditions||||>0.025
82395754|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.025|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in negativity from post-intervention to follow-up. Null hypothesis: the experimental conditions would have no significant difference in negativity scores from post-intervention to follow-up.||||>0.025
82395755|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal negativity scores||||>0.05
82395756|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal negativity scores||||>0.05
82395757|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in negativity scores||||>0.05
82426360|NCT01576783|164561730|OTHER|The reported p-value is for the comparison of the change in Total n-3 between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|0.9|1.4||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||1.4|0.9|<0.001
82644387|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.116|||<|0.0001|TWO_SIDED|95.0|-2.472|-1.761|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.761|-2.472|<.0001
82444636|NCT00351273|164598136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.8||||0.01|TWO_SIDED||||||Fisher Exact|||Difference in the percentages of participants with response between all those who received combination therapy vs. placebo||||0.01
82368633|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368634|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368635|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368636|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368637|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82395758|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on negativity scores||||>0.05
82426361|NCT01576783|164561731|OTHER|The reported p-value is for the comparison of the change in n-6:n-3 ratio between groups (DHA+AA vs. Placebo).|Mean Difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-5.5|-3.7||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||The change in erythrocyte fatty acids and the change in dietary DHA and EPA (aside from the supplement) were examined by treatment group using mixed effects regression, again with a random-effect for within-family dependence.||-3.7|-5.5|<0.001
82368638|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368639|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368640|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368641|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368642|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368643|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368644|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368645|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368646|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368647|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368648|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368649|NCT02504671|164446938|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||Index based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368650|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368651|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368652|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|12.7|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-2.5|
82368653|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|68.2|||||Index based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||68.2|-1.9|
82368654|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82529085|NCT01960530|164754215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|89.96|||||TWO_SIDED|90.0|81.72|99.04||||||||99.04|81.72|
82529086|NCT01008475|164754219|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.78|1.64||||||||1.64|0.78|
82529087|NCT01008475|164754219|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.77|1.61||||||||1.61|0.77|
82529088|NCT01008475|164754220|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.54|1.28||||||||1.28|0.54|
82529089|NCT01008475|164754220|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|0.52|1.25||||||||1.25|0.52|
82529090|NCT01008475|164754221|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||||1.65|0.75|
82529091|NCT01008475|164754221|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||||1.65|0.75|
82368655|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368656|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368657|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368658|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368659|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368660|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368661|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368662|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368663|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368664|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368665|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368666|NCT02504671|164446938|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368667|NCT02504671|164446938|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Index based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368668|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368669|NCT02504671|164446938|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Index based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368670|NCT02504671|164446938|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368671|NCT02504671|164446938|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||Index based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368672|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368673|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368674|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368675|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368676|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368677|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368678|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82395759|NCT03646305|164502556|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on negativity scores||||>0.05
82426362|NCT01576783|164561734|OTHER|The reported p-value is for the comparison of the change in Effortful Control Composite scores between groups (DHA+AA vs. Placebo).||||||0.13||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||.13
82529092|NCT01008475|164754223|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95|||||TWO_SIDED|95.0|0.67|1.34||||||||1.34|0.67|
82529093|NCT01008475|164754223|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.05|||||TWO_SIDED|95.0|0.74|1.48||||||||1.48|0.74|
82647906|NCT00386100|165011330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.47|||<|0.0001|TWO_SIDED|95.0|2.94|6.81||FPG \<=6.1 mmol/l|Regression, Logistic|Terms for treatment, region, gender, pre-screening Hb1Ac strata, and baseline with LOCF from Week 32.|Odds of having an FPG \<=6.1 mmol/l at Week 80 on Avandamet compared to Metformin|||6.81|2.94|<0.0001
82368679|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368680|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368681|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368682|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368683|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368684|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368685|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368686|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368687|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368688|NCT02504671|164446939|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368689|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368690|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368691|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82426363|NCT01576783|164561734|OTHER|The reported p-value is for the comparison of the change in Activity Level Composite scores between groups (DHA+AA vs. Placebo).||||||0.76||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|||||||.76
82529094|NCT01022073|164754231|SUPERIORITY_OR_OTHER|||||||0.808|||||||t-test, 2 sided|This analysis is based on the completers. We are working on the imputation methods to account for the missing data and will revise results later.||||||0.808
82368692|NCT02504671|164446939|OTHER||Difference|21.6|||||TWO_SIDED|95.0|0.4|42.8|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||42.8|0.4|
82368693|NCT02504671|164446939|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368694|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368695|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82529095|NCT03621202|164754254|OTHER||||||||||||||||||The EBBMS sensitivity was 100%.|||
82529096|NCT03621202|164754255|OTHER||||||||||||||||||The EBBMS specificity was 75%.|||
82395760|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at p\< .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of discomfort were equivalent across time.||||<0.001
82395761|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in levels of discomfort from baseline to post-intervention. Null hypothesis: there would have no significant differences in discomfort levels from baseline to post-intervention across samples||||<0.001
82395762|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in levels of discomfort from post-intervention to follow-up. Null hypothesis: there would be no significant differences in discomfort levels from post-intervention to follow-up across samples||||<0.001
82644388|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.016|||<|0.0001|TWO_SIDED|95.0|-2.376|-1.656|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-1.656|-2.376|<.0001
82368696|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368697|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368698|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82448968|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|127.18|||||TWO_SIDED|90.0|94.89|170.45||||||AUCtau of LDV for the 12 to \< 18 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||170.45|94.89|
82448969|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|82.25|||||TWO_SIDED|90.0|61.34|110.3||||||AUCtau of LDV for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||110.30|61.34|
82368699|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368700|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368701|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368702|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368703|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368704|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368705|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368706|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368707|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368708|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82395763|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of discomfort||||>0.05
82395764|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of discomfort||||>0.05
82395765|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of discomfort||||>0.05
82529097|NCT00926003|164754256|SUPERIORITY|||||||0.02|||||||ANCOVA|||Least Square Means from Longitudinal Model, Their Standard Errors by Trial Arm Adjusted for Age, Being on ART at Intake, Socioeconomic Score, Home Score, Recruitment Location, KABC Learning and Delayed Recall Scores at Baseline, and Outcome Score at Baseline||||0.02
82368709|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368710|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368711|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82448970|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|120.46|||||TWO_SIDED|90.0|93.18|155.73||||||AUCtau of LDV for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||155.73|93.18|
82529098|NCT00926003|164754257|SUPERIORITY|||||||0.18|||||||ANCOVA|||Least Square Means from Longitudinal Model, Their Standard Errors by Trial Arm Adjusted for Age, Being on ARV at Intake, Socioeconomic Score, Home Score, Recruitment Location, KABC Learning and Delayed Recall Scores at Baseline, and Outcome Score at Baseline||||0.18
82529099|NCT01103960|164754258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1881|STANDARD_ERROR_OF_MEAN|0.803||0.007||95.0|0.6082|3.7681||This was the first step in the closed testing procedure of multiple endpoints. The p-value was \<0.05 so this test was considered confirmatory. Proceeding to the next step was allowed, testing the same endpoint in the subgroup of Chinese patients.|ANCOVA|||A5 minus T80/A5||3.7681|0.6082|0.007
82368712|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368713|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368714|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368715|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368716|NCT02504671|164446939|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||Boolean based ACR/EULAR, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368717|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368718|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368719|NCT02504671|164446939|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82444637|NCT01378429|164598149|NON_INFERIORITY_OR_EQUIVALENCE|35 subjects per arm would have ≥90% power to demonstrate that the upper bound of a two-sided 95% confidence interval (equivalent to the upper bound of a one-sided 97.5% confidence interval) of the difference of placebo minus ciclesonide nasal aerosol would be less than 20% of the baseline value of 175 mcg•h/dL or a noninferiority limit of 35 mcg•h/dL assuming a SD of 40 and a one-sided α of 0.025. A total of 40 subjects will be randomly assigned to ensure 35 subjects complete the study per arm.|LS Mean Difference|7.6|||||TWO_SIDED|95.0|-7.4|22.6||\<0.025 for a one-sided test.|ANCOVA||Difference is calculated as Placebo - Ciclesonide.|35 subjects per arm would have ≥90% power to demonstrate that the upper bound of a two-sided 95% confidence interval (equivalent to the upper bound of a one-sided 97.5% confidence interval) of the difference of placebo minus ciclesonide nasal aerosol would be less than 20% of the baseline value of 175 mcg•h/dL or a noninferiority limit of 35 mcg•h/dL assuming a SD of 40 and a one-sided α of 0.025. A total of 40 subjects will be randomly assigned to ensure 35 subjects complete the study per arm.||22.6|-7.4|
82368720|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82444638|NCT02265796|164598187|SUPERIORITY||||||>|0.05||||||the reported p value is for all between group comparisons of the SAQ domains.|t-test, 2 sided|||between group comparison for all SAQ domains||||>0.05
82444639|NCT02265796|164598187|SUPERIORITY||||||>|0.05||||||reported p value is for the physical limitation, angina frequency and treatment satisfaction domains|paired t test|||within group comparison of change from baseline||||>0.05
82529100|NCT01103960|164754259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9195|STANDARD_ERROR_OF_MEAN|0.9015||0.034||95.0|0.1443|3.6947||This was the second step in the closed testing procedure of multiple endpoints. The p-value was again \<0.05 so this test was also considered confirmatory.|ANCOVA|||A5 minus T80/A5||3.6947|0.1443|0.034
82529101|NCT01103960|164754260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4879|STANDARD_ERROR_OF_MEAN|1.1217|<|0.001||95.0|2.2807|6.695|||ANCOVA|||A5 minus T80/A5||6.6950|2.2807|<0.001
82529102|NCT02318719|164754299|SUPERIORITY||Difference of least square mean|-0.41||||0.017|TWO_SIDED|95.0|-0.74|-0.07||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 15 mg/day at Week 14||-0.07|-0.74|0.0170
82529103|NCT02318719|164754299|SUPERIORITY||Difference of least square means|-0.47||||0.0058|TWO_SIDED|95.0|-0.81|-0.14||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 20 mg/day at Week 14||-0.14|-0.81|0.0058
82368721|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368722|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82395766|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of discomfort across time||||>0.05
82368723|NCT02504671|164446939|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368724|NCT02504671|164446939|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Boolean based ACR/EULAR, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368725|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 4, Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82395767|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of discomfort||||>0.05
82444640|NCT02265796|164598187|SUPERIORITY||||||<|0.05||||||reported p value is for the angina stability and quality of life domains|paired t test|||within group comparison of change from baseline||||<0.05
82444641|NCT02265796|164598187|SUPERIORITY||||||>|0.05||||||reported p value is for the physical limitation and treatment satisfaction domains|paired t test|||within group comparison of change from baseline||||>0.05
82529104|NCT02318719|164754299|SUPERIORITY||Difference of least square means|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.44||DS-5565 20 mg and 30 mg vs placebo were tested at level of 0.025. If both were significant, 15 mg was tested at 0.05. If neither were significant, 15 mg was no longer tested. If either 20 mg or 30 mg was significant, 15 mg was tested at 0.025.|Mixed Models Analysis|||Placebo vs DS-5565 30 mg/day at Week 14||-0.44|-1.10|<0.0001
82529105|NCT00252590|164754301|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||ANOVA|||||||0.32
82644389|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.605|||<|0.0001|TWO_SIDED|95.0|-1.958|-1.253|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-1.253|-1.958|<.0001
82644390|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.642|||<|0.0001|TWO_SIDED|95.0|-2.003|-1.282|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-1.282|-2.003|<.0001
82529106|NCT00423293|164754315|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|95.0||||One-sided p-value comparing to a rate of 78% (the historical rate was updated after the study design).|Chi-squared|||The RT+ 5-FU + Mitomycin-C arm on previous Radiation Therapy Oncology Group (RTOG) study 9811 \[NCT00003596\] had a 77% rate of \>= grade 2 GI and GU adverse events. The null hypothesis for this study design was a 15% reduction for that rate. Fifty-four evaluable patients provides 80% power to detect a 15% reduction, using a one-sided chi-squared test with a type I error rate of 0.05. (With 52 patients, the power is reduced to 78%.)||||0.50
82644391|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.578|||<|0.0001|TWO_SIDED|95.0|-1.922|-1.234|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-1.234|-1.922|<.0001
82644392|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.726|||<|0.0001|TWO_SIDED|95.0|-2.074|-1.378|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-1.378|-2.074|<.0001
82644393|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.479||||0.1579|TWO_SIDED|95.0|-1.054|0.097|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.097|-1.054|0.1579
82644394|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.628||||0.026|TWO_SIDED|95.0|-1.207|-0.048|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.048|-1.207|0.0260
82644395|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.58||||0.0483|TWO_SIDED|95.0|-1.158|-0.003|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.003|-1.158|0.0483
82647907|NCT00386100|165011330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.25|4.92||FPG \<=7 mmol/l|Regression, Logistic|Terms for treatment, region, gender, pre-screening Hb1Ac, and baseline with LOCF from Week 32.|Odds of having an FPG \<=7 mmol/l at Week 80 on Avandamet compared to Metformin|||4.92|2.25|<0.0001
82529107|NCT00423293|164754317|SUPERIORITY|||||||0.5|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with GI grade 2+ adverse events were compared to the historical rate of 73%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.5
82529108|NCT00423293|164754317|SUPERIORITY|||||||0.18|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with GU grade 2+ adverse events were compared to the historical rate of 20%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.18
82368726|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368727|NCT02504671|164446940|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368728|NCT02504671|164446940|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82395768|NCT03646305|164502557|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no significant difference between 4 conditions on discomfort levels||||>0.05
82395769|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, willingness to engage with target thought were equivalent across time||||<0.001
82444642|NCT02265796|164598187|SUPERIORITY||||||<|0.05||||||reported p value is for the angina stability, angina frequency and quality of life domains|paired t test|||within group comparison of change from baseline||||<0.05
82444643|NCT02265796|164598188|SUPERIORITY|||||||0.58|||||||Fisher Exact|||"between group comparison for the excellent/good"||||0.58
82444644|NCT02265796|164598188|SUPERIORITY|||||||0.8|||||||Fisher Exact|||"Between group analysis for fair/poor"||||0.80
82529109|NCT00423293|164754317|SUPERIORITY|||||||0.032|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with hematologic grade 2+ adverse events were compared to the historical rate of 85%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.032
82444645|NCT02265796|164598188|SUPERIORITY|||||||0.5|||||||McNemar|||within group analysis of change from baseline for excellent/good||||0.50
82444646|NCT02265796|164598188|SUPERIORITY|||||||0.48|||||||McNemar|||within group comparison of change from baseline for fair/poor||||0.48
82444647|NCT02265796|164598188|SUPERIORITY|||||||0.19|||||||McNemar|||within group analysis of change from baseline for excellent/good||||0.19
82529110|NCT00423293|164754317|SUPERIORITY|||||||0.1|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with skin grade 2+ adverse events were compared to the historical rate of 83%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.10
82444648|NCT02265796|164598188|SUPERIORITY|||||||0.067|||||||McNemar|||within group comparison of change from baseline for fair/poor||||0.067
82529111|NCT00423293|164754317|SUPERIORITY|||||||0.12|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with any grade 2+ adverse events were compared to the historical rate of 98%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.12
82368729|NCT02504671|164446940|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368730|NCT02504671|164446940|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368731|NCT02504671|164446940|OTHER||Difference|-2.7|||||TWO_SIDED|95.0|-7.9|2.5|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||2.5|-7.9|
82368732|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-3.2|19.4|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||19.4|-3.2|
82368733|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368734|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368735|NCT02504671|164446940|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
82368736|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368737|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368738|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368739|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82395770|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in willingness to engage with target thought from baseline to post-intervention. Null hypothesis: there would be no difference in willingness scores from baseline to post-intervention||||<0.001
82444649|NCT02265796|164598189|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82444650|NCT02014584|164598216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0||||0.27|TWO_SIDED|95.0|-4.7|18.8|||Fisher's Exact Test|||||18.8|-4.7|0.27
82444651|NCT02014584|164598262|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.5||||0.62|TWO_SIDED|95.0|-10.4|3.4|||Fisher's Exact Test||DB Week 4|||3.4|-10.4|0.62
82444652|NCT02014584|164598262|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.4||||0.34|TWO_SIDED|95.0|-4.7|17.6|||Fisher's Exact Test||DB Week 12|||17.6|-4.7|0.34
82444653|NCT02014584|164598262|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.3||||0.31|TWO_SIDED|95.0|-4.2|16.7|||Fisher's Exact Test||DB Week 24|||16.7|-4.2|0.31
82444654|NCT02014584|164598264|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.8||0.082|TWO_SIDED|95.0|-0.2|3.0|||t-test from general linear model||DB Week 4|||3.0|-0.2|0.082
82444655|NCT02014584|164598264|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.09||0.25|TWO_SIDED|95.0|-3.4|0.9|||t-test from general linear model||DB Week 12|||0.9|-3.4|0.25
82444656|NCT02014584|164598264|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.04||0.99|TWO_SIDED|95.0|-2.0|2.1|||t-test from general linear model||DB Week 24|||2.1|-2.0|0.99
82444657|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.46|TWO_SIDED|95.0|-0.4|0.9|||t-test from general linear model||Erectile Function DB Week 4|||0.9|-0.4|0.46
82444658|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.52||0.14|TWO_SIDED|95.0|-1.8|0.3|||t-test from general linear model||Erectile Function DB Week 12|||0.3|-1.8|0.14
82644396|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.329||||0.5842|TWO_SIDED|95.0|-0.906|0.249|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.249|-0.906|0.5842
82644397|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-3.201|||<|0.0001|TWO_SIDED|95.0|-3.856|-2.546|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.546|-3.856|<.0001
82647908|NCT00386100|165011331|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.74|||Regression, Cox|Cox proportional hazard regression with terms for treatment, region, baseline Hb1Ac strata, and gender||||0.74|0.45|<0.0001
82444659|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.61||0.27|TWO_SIDED|95.0|-1.9|0.5|||t-test from general linear model||Erectile Function DB Week 24|||0.5|-1.9|0.27
82444660|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.13|TWO_SIDED|95.0|-0.1|0.8|||t-test from general linear model||Intercourse satisfaction DB Week 4|||0.8|-0.1|0.13
82444661|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.73|TWO_SIDED|95.0|-0.8|0.5|||t-test from general linear model||Intercourse satisfaction DB Week 12|||0.5|-0.8|0.73
82444662|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.64|TWO_SIDED|95.0|-0.8|0.5|||t-test from general linear model||Intercourse satisfaction DB Week 24|||0.5|-0.8|0.64
82444663|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED|95.0|-0.1|0.5|||t-test from general linear model||Orgasmic function DB Week 4|||0.5|-0.1|0.23
82444664|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.33|TWO_SIDED|95.0|-0.5|0.2|||t-test from general linear model||Orgasmic function DB Week 12|||0.2|-0.5|0.33
82444665|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.23||0.64|TWO_SIDED|95.0|-0.6|0.3|||t-test from general linear model||Orgasmic function DB Week 24|||0.3|-0.6|0.64
82444666|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.19|TWO_SIDED|95.0|-0.1|0.7|||t-test from general linear model||Sexual desire DB Week 4|||0.7|-0.1|0.19
82444667|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.28|TWO_SIDED|95.0|-0.7|0.2|||t-test from general linear model||Sexual desire DB Week 12|||0.2|-0.7|0.28
82444668|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||1|TWO_SIDED|95.0|-0.5|0.5|||t-test from general linear model||Sexual desire DB Week 24|||0.5|-0.5|1.00
82444669|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.28|TWO_SIDED|95.0|-0.2|0.5|||t-test from general linear model||Overall sexual satisfaction DB Week 4|||0.5|-0.2|0.28
82368740|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368741|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368742|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368743|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368744|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368745|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368746|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368747|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82444670|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.64|TWO_SIDED|95.0|-0.5|0.3|||t-test from general linear model||Overall sexual satisfaction DB Week 12|||0.3|-0.5|0.64
82444671|NCT02014584|164598266|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.69|TWO_SIDED|95.0|-0.5|0.3|||t-test from general linear model||Overall sexual satisfaction DB Week 24|||0.3|-0.5|0.69
82368748|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368749|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368750|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368751|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368752|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368753|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368754|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368755|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368756|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368757|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368758|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368759|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368760|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 2. Difference to Placebo for Week 2 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368761|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 4. Difference to Placebo for Week 4 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.6|||7.9|-2.5|
82368762|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368763|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 6. Difference to Placebo for Week 6 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368764|NCT02504671|164446940|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368765|NCT02504671|164446940|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 8. Difference to Placebo for Week 8 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82368766|NCT02504671|164446940|OTHER||Difference|0.0|||||TWO_SIDED|95.0|-7.4|7.4|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.4|-7.4|
82444672|NCT02014584|164598268|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.1|STANDARD_ERROR_OF_MEAN|1.14||0.33|TWO_SIDED|95.0|-1.1|3.4|||t-test from general linear model||DB Week 12|||3.4|-1.1|0.33
82395771|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||=|0.053|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in willingness to engage with target thought from post-intervention to follow-up. Null hypothesis: there would be no significant difference in willingness scores from post-intervention to follow-up.||||=0.053
82395772|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal willingness scores||||>0.05
82395773|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal willingness to engage with the target thought||||>0.05
82395774|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in willingness to engage||||>0.05
82395775|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in willingness to engage with the target thought across time.||||>0.05
82395776|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on willingness to engage||||>0.05
82444673|NCT02014584|164598268|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.14||0.004|TWO_SIDED|95.0|1.1|5.6|||t-test from general linear model||DB Week 24|||5.6|1.1|0.004
82444674|NCT02014584|164598270|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.22|TWO_SIDED|95.0|-1.7|0.4|||t-test from general linear model||DB Week 12|||0.4|-1.7|0.22
82529112|NCT00423293|164754317|SUPERIORITY|||||||0.23|||||||Chi-squared|One-sided significance level = 0.05||Percentage of patients with any grade 3+ adverse events were compared to the historical rate of 87%. Null hypothesis: same or greater than historical rate. Alternative hypothesis: less than historical rate.||||0.23
82647909|NCT00386100|165011332|SUPERIORITY_OR_OTHER||Percent difference from metformin|5.97||||0.0006|TWO_SIDED|95.0|2.522|9.526||Total cholesterol. No adjustment for multiple comparisons. Log transformed|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||9.526|2.522|0.0006
82444675|NCT02014584|164598270|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.76||0.5|TWO_SIDED|95.0|-2.0|1.0|||t-test from general linear model||DB Week 24|||1.0|-2.0|0.50
82529113|NCT03820323|164754343|SUPERIORITY||Risk Ratio (RR)|0.99||||0.55|TWO_SIDED|95.0|0.94|1.03|||Modified Poisson regression|||||1.03|0.94|0.55
82529114|NCT03820323|164754344|SUPERIORITY||Risk Ratio (RR)|0.86||||0.28|TWO_SIDED|95.0|0.66|1.13|||Modified Poission regression|||||1.13|0.66|0.28
82529115|NCT01003639|164754370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.05|TWO_SIDED|95.0|0.0|1.43|||ANCOVA|||||1.43|0|0.05
82368767|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-6.3|11.7|||||CDAI, Week 12. Difference to Placebo for Week 12 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||11.7|-6.3|
82368768|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368769|NCT02504671|164446940|OTHER||5.4|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 16. Difference to Placebo for Week 16 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368770|NCT02504671|164446940|OTHER||Difference|2.7|||||TWO_SIDED|95.0|-2.5|7.9|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||7.9|-2.5|
82368771|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 20. Difference to Placebo for Week 20 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368772|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82425954|NCT01959932|164560545|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|41.63|||<|0.001|TWO_SIDED|95.0|37.75|45.91||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||45.91|37.75|<0.001
82529116|NCT01535274|164754511|SUPERIORITY||||||<|0.001|||||||ANOVA|||P-values represent comparison of successive set points within anesthetic type (i.e.: Set Point 1 compared to Set Point 2, Set Point 2 compared to Set Point 3, etc.). This P-value was determined for each of set points 1, 2, 3, 4, and 5.||||<0.001
82529117|NCT05408468|164754567|SUPERIORITY||Mean Difference (Net)|-5.595|STANDARD_ERROR_OF_MEAN|1.731||0.387|TWO_SIDED||||||Mixed Models Analysis||Baseline 1.731 One week 1.894|||||0.387
82529118|NCT05408468|164754567|SUPERIORITY||Mean Difference (Net)|-3.782|STANDARD_ERROR_OF_MEAN|2.048||0.387|TWO_SIDED||||||Mixed Models Analysis||Baseline 2.048 One week 2.122|||||0.387
82368773|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 24. Difference to Placebo for Week 24 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368774|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 28. Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368775|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368776|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 32. Difference to Placebo for Week 32 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368777|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368778|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 36. Difference to Placebo for Week 36 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368779|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368780|NCT02504671|164446940|OTHER||Difference|13.5|||||TWO_SIDED|95.0|2.5|24.5|||||CDAI, Week 40. Difference to Placebo for Week 40 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||24.5|2.5|
82368781|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368782|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 44. Difference to Placebo for Week 44 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368783|NCT02504671|164446940|OTHER||Difference|10.8|||||TWO_SIDED|95.0|0.8|20.8|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||20.8|0.8|
82368784|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 48. Difference to Placebo for Week 48 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368785|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368786|NCT02504671|164446940|OTHER||Difference|8.1|||||TWO_SIDED|95.0|-0.7|16.9|||||CDAI, Week 52. Difference to Placebo for Week 52 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||16.9|-0.7|
82368787|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368788|NCT02504671|164446940|OTHER||Difference|16.2|||||TWO_SIDED|95.0|4.3|28.1|||||CDAI, Week 62 (follow-up). Difference to Placebo for Week 62 (follow-up) is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||28.1|4.3|
82368789|NCT02504671|164446940|OTHER||Difference|5.4|||||TWO_SIDED|95.0|-1.9|12.7|||||Difference to Placebo for Week 28 is presented. 95% CI were constructed using asymptotic Wald confidence limits without correction.|||12.7|-1.9|
82368790|NCT02504671|164446941|OTHER||Mean Difference (Net)|-4.09||||0.05|TWO_SIDED|95.0|-8.18|0.0||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, SDAI|||0.00|-8.18|0.050
82368791|NCT02504671|164446941|OTHER||Mean Difference (Net)|-3.66||||0.086|TWO_SIDED|95.0|-7.84|0.52||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||0.52|-7.84|0.086
82368792|NCT02504671|164446941|OTHER||Mean Difference (Net)|-4.33||||0.038|TWO_SIDED|95.0|-8.43|-0.23||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-0.23|-8.43|0.038
82368793|NCT02504671|164446941|OTHER||Mean Difference (Net)|-4.06||||0.119|TWO_SIDED|95.0|-9.18|1.05||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||1.05|-9.18|0.119
82368794|NCT02504671|164446941|OTHER||Mean Difference (Net)|-4.72||||0.071|TWO_SIDED|95.0|-9.85|0.4||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||0.40|-9.85|0.071
82368795|NCT02504671|164446941|OTHER||Mean Difference (Net)|-5.48||||0.034|TWO_SIDED|95.0|-10.53|-0.42||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-0.42|-10.53|0.034
82395777|NCT03646305|164502558|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on willingness to engage||||>0.05
82444676|NCT01280695|164598332|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.0||||0.4195|TWO_SIDED|95.0|-34.0|14.0|||Wilcoxon (Mann-Whitney)|||||14.0|-34.0|0.4195
82368796|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.78||||0.023|TWO_SIDED|95.0|-12.61|-0.94||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-0.94|-12.61|0.023
82368797|NCT02504671|164446941|OTHER||Mean Difference (Net)|-7.28||||0.014|TWO_SIDED|95.0|-13.09|-1.47||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-1.47|-13.09|0.014
82368798|NCT02504671|164446941|OTHER||Mean Difference (Net)|-9.23||||0.002|TWO_SIDED|95.0|-14.99|-3.47||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-3.47|-14.99|0.002
82368799|NCT02504671|164446941|OTHER||Mean Difference (Net)|-5.65||||0.063|TWO_SIDED|95.0|-11.62|0.32||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||0.32|-11.62|0.063
82368800|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.29||||0.04|TWO_SIDED|95.0|-12.28|-0.3||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-0.30|-12.28|0.040
82368801|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.79||||0.024|TWO_SIDED|95.0|-12.69|-0.9||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-0.90|-12.69|0.024
82368802|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.58||||0.05|TWO_SIDED|95.0|-13.15|-0.01||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-0.01|-13.15|0.050
82368803|NCT02504671|164446941|OTHER||Mean Difference (Net)|-9.15||||0.006|TWO_SIDED|95.0|-15.71|-2.6||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-2.60|-15.71|0.006
82368804|NCT02504671|164446941|OTHER||Mean Difference (Net)|-8.86||||0.007|TWO_SIDED|95.0|-15.32|-2.41||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-2.41|-15.32|0.007
82368805|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.91||||0.074|TWO_SIDED|95.0|-14.49|0.68||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||0.68|-14.49|0.074
82368806|NCT02504671|164446941|OTHER||Mean Difference (Net)|-10.37||||0.008|TWO_SIDED|95.0|-17.99|-2.74||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-2.74|-17.99|0.008
82368807|NCT02504671|164446941|OTHER||Mean Difference (Net)|-14.15|||<|0.001|TWO_SIDED|95.0|-21.64|-6.67||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-6.67|-21.64|<0.001
82368808|NCT02504671|164446941|OTHER||Mean Difference (Net)|-1.88||||0.656|TWO_SIDED|95.0|-10.19|6.43||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||6.43|-10.19|0.656
82368809|NCT02504671|164446941|OTHER||Mean Difference (Net)|-7.0||||0.093|TWO_SIDED|95.0|-15.19|1.19||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||1.19|-15.19|0.093
82368810|NCT02504671|164446941|OTHER||Mean Difference (Net)|-7.26||||0.076|TWO_SIDED|95.0|-15.3|0.78||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||0.78|-15.30|0.076
82368811|NCT02504671|164446941|OTHER||Mean Difference (Net)|0.8||||0.86|TWO_SIDED|95.0|-8.14|9.74||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||9.74|-8.14|0.860
82368812|NCT02504671|164446941|OTHER||Mean Difference (Net)|-5.71||||0.196|TWO_SIDED|95.0|-14.4|2.99||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.99|-14.40|0.196
82368813|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.0||||0.164|TWO_SIDED|95.0|-14.48|2.48||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.48|-14.48|0.164
82395778|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.01|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, avoidance of target thought were equivalent across time||||<0.01
82395779|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in avoidance of target thought from baseline to post-intervention. Null hypothesis: there would be no significant differences in avoidance from baseline to post-intervention||||>0.05
82395780|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||<|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in avoidance of target thought from post-intervention to follow-up. Null hypothesis: there would be no significant differences in avoidance from post-intervention to follow-up.||||<0.05
82395781|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would show equal avoidance of target thought||||>0.05
82395782|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal avoidance of target thought||||>0.05
82368814|NCT02504671|164446941|OTHER||Mean Difference (Net)|-10.65||||0.066|TWO_SIDED|95.0|-21.99|0.69||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||0.69|-21.99|0.066
82368815|NCT02504671|164446941|OTHER||Mean Difference (Net)|-16.37||||0.003|TWO_SIDED|95.0|-27.25|-5.49||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-5.49|-27.25|0.003
82368816|NCT02504671|164446941|OTHER||Mean Difference (Net)|-15.67||||0.004|TWO_SIDED|95.0|-26.3|-5.03||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-5.03|-26.30|0.004
82368817|NCT02504671|164446941|OTHER||Mean Difference (Net)|-4.78||||0.024|TWO_SIDED|95.0|-8.91|-0.65||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-0.65|-8.91|0.024
82368818|NCT02504671|164446941|OTHER||Mean Difference (Net)|-7.77|||<|0.001|TWO_SIDED|95.0|-11.84|-3.7||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,SDAI|||-3.70|-11.84|<0.001
82368819|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.67||||0.01|TWO_SIDED|95.0|-11.74|-1.6||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-1.60|-11.74|0.010
82368820|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.85||||0.008|TWO_SIDED|95.0|-11.91|-1.78||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,SDAI|||-1.78|-11.91|0.008
82368821|NCT02504671|164446941|OTHER||Mean Difference (Net)|-8.44||||0.004|TWO_SIDED|95.0|-14.2|-2.67||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-2.67|-14.20|0.004
82529119|NCT05408468|164754568|SUPERIORITY||Mean Difference (Net)|-4.5|STANDARD_ERROR_OF_MEAN|1.693||0.062|TWO_SIDED||||||Mixed Models Analysis||Baseline 1.693 One week 1.840|||||0.062
82529120|NCT05408468|164754568|SUPERIORITY||Mean Difference (Net)|-0.764|STANDARD_ERROR_OF_MEAN|2.003||0.062|TWO_SIDED||||||Mixed Models Analysis||Baseline 2.003 One week 2.069|||||0.062
82368822|NCT02504671|164446941|OTHER||Mean Difference (Net)|-12.51|||<|0.001|TWO_SIDED|95.0|-18.26|-6.75||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,SDAI|||-6.75|-18.26|<0.001
82368823|NCT02504671|164446941|OTHER||Mean Difference (Net)|-7.0||||0.022|TWO_SIDED|95.0|-12.99|-1.01||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-1.01|-12.99|0.022
82368824|NCT02504671|164446941|OTHER||Mean Difference (Net)|-10.16|||<|0.001|TWO_SIDED|95.0|-16.07|-4.24||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,SDAI|||-4.24|-16.07|<0.001
82368825|NCT02504671|164446941|OTHER||Mean Difference (Net)|-11.18|||<|0.001|TWO_SIDED|95.0|-17.7|-4.66||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-4.66|-17.70|<0.001
82368826|NCT02504671|164446941|OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-20.57|-7.44||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,SDAI|||-7.44|-20.57|<0.001
82395783|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in avoidance of target thought||||>0.05
82529121|NCT05408468|164754570|SUPERIORITY||Median Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|2.84||0.369|TWO_SIDED||||||t-test, 2 sided|||||||0.369
82529122|NCT05408468|164754571|SUPERIORITY||Median Difference (Final Values)|2.59|STANDARD_ERROR_OF_MEAN|3.79||0.498|TWO_SIDED||||||t-test, 2 sided|||||||0.498
82368827|NCT02504671|164446941|OTHER||Mean Difference (Net)|-9.68||||0.013|TWO_SIDED|95.0|-17.26|-2.11||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-2.11|-17.26|0.013
82368828|NCT02504671|164446941|OTHER||Mean Difference (Net)|-16.86|||<|0.001|TWO_SIDED|95.0|-24.39|-9.32||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,SDAI|||-9.32|-24.39|<0.001
82368829|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.03||||0.149|TWO_SIDED|95.0|-14.24|2.18||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||2.18|-14.24|0.149
82368830|NCT02504671|164446941|OTHER||Mean Difference (Net)|-9.43||||0.019|TWO_SIDED|95.0|-17.32|-1.55||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,SDAI|||-1.55|-17.32|0.019
82368831|NCT02504671|164446941|OTHER||Mean Difference (Net)|-6.59||||0.138|TWO_SIDED|95.0|-15.32|2.14||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||2.14|-15.32|0.138
82368832|NCT02504671|164446941|OTHER||Mean Difference (Net)|-8.7||||0.04|TWO_SIDED|95.0|-16.99|-0.42||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,SDAI|||-0.42|-16.99|0.040
82368833|NCT02504671|164446941|OTHER||Mean Difference (Net)|-15.88||||0.005|TWO_SIDED|95.0|-26.77|-4.98||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-4.98|-26.77|0.005
82368834|NCT02504671|164446941|OTHER||Mean Difference (Net)|-20.87|||<|0.001|TWO_SIDED|95.0|-31.2|-10.53||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,SDAI|||-10.53|-31.20|<0.001
82368835|NCT02504671|164446942|OTHER||Mean Difference (Net)|-3.84||||0.063|TWO_SIDED|95.0|-7.89|0.2||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.20|-7.89|0.063
82368836|NCT02504671|164446942|OTHER||Mean Difference (Net)|-3.84||||0.067|TWO_SIDED|95.0|-7.95|0.28||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.28|-7.95|0.067
82368837|NCT02504671|164446942|OTHER||Mean Difference (Net)|-4.43||||0.032|TWO_SIDED|95.0|-8.46|-0.39||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||-0.39|-8.46|0.032
82368838|NCT02504671|164446942|OTHER||Mean Difference (Net)|-4.17||||0.102|TWO_SIDED|95.0|-9.17|0.84||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||0.84|-9.17|0.102
82368839|NCT02504671|164446942|OTHER||Mean Difference (Net)|-3.47||||0.17|TWO_SIDED|95.0|-8.43|1.49||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||1.49|-8.43|0.170
82368840|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.2||||0.039|TWO_SIDED|95.0|-10.13|-0.27||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-0.27|-10.13|0.039
82529123|NCT01407354|164754599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared, Corrected|||||||0.05
82529124|NCT01407354|164754599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|threshold p value for statistical significance=0.05||||||0.024
82529125|NCT00405639|164754623|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82368841|NCT02504671|164446942|OTHER||Mean Difference (Net)|-7.2||||0.012|TWO_SIDED|95.0|-12.82|-1.57||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-1.57|-12.82|0.012
82444677|NCT01280695|164598332|SUPERIORITY_OR_OTHER||Median Difference (Net)|-18.0||||0.0811|TWO_SIDED|95.0|-38.0|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|-38.0|0.0811
82529126|NCT00405639|164754624|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82395784|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in avoidance of target thought across time.||||>0.05
82395785|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on avoidance of target thought||||>0.05
82395786|NCT03646305|164502559|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on avoidance of target thought||||>0.05
82395787|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, cognitive delusion were equivalent across time||||>0.05
82395788|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of cognitive defusion||||>0.05
82444678|NCT01280695|164598332|SUPERIORITY_OR_OTHER||Median Difference (Net)|-20.0||||0.0639|TWO_SIDED|95.0|-38.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|-38.0|0.0639
82444679|NCT01280695|164598332|SUPERIORITY_OR_OTHER||Median Difference (Net)|-32.0||||0.0022|TWO_SIDED|95.0|-50.0|-12.0|||Wilcoxon (Mann-Whitney)|||||-12.0|-50.0|0.0022
82444680|NCT05011513|164598338|SUPERIORITY|||||||0.6027|||||||Log Rank|||||||0.6027
82444681|NCT05011513|164598340|SUPERIORITY|||||||0.1796||||||P-value reported for COVID-19 hospitalization and death due to any cause.|Normal approximation|||||||0.1796
82444682|NCT05011513|164598342|SUPERIORITY|||||||0.0971|||||||Negative binomial|||||||0.0971
82444683|NCT05011513|164598344|SUPERIORITY||Odds Ratio (OR)|0.819||||0.1622|TWO_SIDED|95.0|0.618|1.084|||Regression, Logistic|||Main effects of treatment, geographic region, baseline SARS-CoV-2 serology status and baseline viral load (\< 4 log10 copies/mL, \>= 4 log10 copies/mL).||1.084|0.618|0.1622
82444684|NCT05011513|164598345|SUPERIORITY|||||||0.4298|||||||Log Rank|||||||0.4298
82529127|NCT00405639|164754625|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
82529128|NCT00405639|164754626|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82529129|NCT00612534|164754631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.26|STANDARD_ERROR_OF_MEAN|7.83||0.194||95.0|-5.32|25.83|||ANCOVA|||||25.83|-5.32|0.194
82368842|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.73||||0.018|TWO_SIDED|95.0|-12.3|-1.16||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-1.16|-12.30|0.018
82368843|NCT02504671|164446942|OTHER||Mean Difference (Net)|-9.19||||0.001|TWO_SIDED|95.0|-14.73|-3.66||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-3.66|-14.73|0.001
82368844|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.48||||0.065|TWO_SIDED|95.0|-11.31|0.35||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||0.35|-11.31|0.065
82368845|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.85||||0.05|TWO_SIDED|95.0|-11.69|0.0||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-0.00|-11.69|0.050
82368846|NCT02504671|164446942|OTHER||Mean Difference (Final Values)|-6.63||||0.024|TWO_SIDED|95.0|-12.38|-0.87||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-0.87|-12.38|0.024
82368847|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.41||||0.051|TWO_SIDED|95.0|-12.84|0.02||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||0.02|-12.84|0.051
82368848|NCT02504671|164446942|OTHER||Mean Difference (Net)|-8.6||||0.008|TWO_SIDED|95.0|-14.97|-2.22||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-2.22|-14.97|0.008
82395789|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of cognitive defusion||||>0.05
82395790|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of cognitive defusion||||>0.05
82368849|NCT02504671|164446942|OTHER||Mean Difference (Net)|-8.74||||0.007|TWO_SIDED|95.0|-15.06|-2.43||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-2.43|-15.06|0.007
82368850|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.8||||0.071|TWO_SIDED|95.0|-14.19|0.58||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||0.58|-14.19|0.071
82368851|NCT02504671|164446942|OTHER||Mean Difference (Net)|-9.8||||0.009|TWO_SIDED|95.0|-17.17|-2.44||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-2.44|-17.17|0.009
82368852|NCT02504671|164446942|OTHER||Mean Difference (Net)|-13.88|||<|0.001|TWO_SIDED|95.0|-21.17|-6.59||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-6.59|-21.17|<0.001
82368853|NCT02504671|164446942|OTHER||Mean Difference (Net)|-1.68||||0.676|TWO_SIDED|95.0|-9.63|6.26||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||6.26|-9.63|0.676
82368854|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.33||||0.11|TWO_SIDED|95.0|-14.11|1.44||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||1.44|-14.11|0.110
82368855|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.44||||0.099|TWO_SIDED|95.0|-14.12|1.23||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||1.23|-14.12|0.099
82368856|NCT02504671|164446942|OTHER||Mean Difference (Net)|1.04||||0.812|TWO_SIDED|95.0|-7.61|9.69||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||9.69|-7.61|0.812
82368857|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.39||||0.204|TWO_SIDED|95.0|-13.75|2.96||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||2.96|-13.75|0.204
82368858|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.9||||0.157|TWO_SIDED|95.0|-14.09|2.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||2.30|-14.09|0.157
82368859|NCT02504671|164446942|OTHER||Mean Difference (Net)|-9.37||||0.088|TWO_SIDED|95.0|-20.15|1.42||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||1.42|-20.15|0.088
82368860|NCT02504671|164446942|OTHER||Mean Difference (Net)|-15.12||||0.004|TWO_SIDED|95.0|-25.4|-4.83||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-4.83|-25.40|0.004
82368861|NCT02504671|164446942|OTHER||Mean Difference (Net)|-14.91||||0.004|TWO_SIDED|95.0|-25.01|-4.8||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-4.80|-25.01|0.004
82368862|NCT02504671|164446942|OTHER||Mean Difference (Net)|-3.89||||0.06|TWO_SIDED|95.0|-7.96|0.17||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||0.17|-7.96|0.060
82444685|NCT05011513|164598348|SUPERIORITY||Odds Ratio (OR)|0.802||||0.1086|TWO_SIDED|95.0|0.613|1.05|||Regression, Logistic|||Main effects of treatment, geographic region, symptom onset duration (\<=3, \>3), baseline SARS-CoV-2 serology status (positive/negative), vaccination status (complete/not vaccinated) and baseline viral load (\<4 log10 copies/mL, \>=4 log10 copies/mL).||1.050|0.613|0.1086
82444686|NCT05011513|164598349|SUPERIORITY||Odds Ratio (OR)|50.333||||0.3262|TWO_SIDED|95.0|13.163|192.472|||Breslow-Day Test|||||192.472|13.163|0.3262
82529130|NCT00612534|164754631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.67|STANDARD_ERROR_OF_MEAN|7.77||0.268|TWO_SIDED|95.0|-6.78|24.11|||ANCOVA|||||24.11|-6.78|0.268
82444687|NCT05011513|164598349|SUPERIORITY||Odds Ratio (OR)|22.224|||||TWO_SIDED|95.0|8.36|59.08||||||Odds ratio for Day 5 vs Day 1||59.080|8.360|
82529131|NCT00612534|164754631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.05|STANDARD_ERROR_OF_MEAN|8.3||0.018|TWO_SIDED|95.0|3.54|36.56|||ANCOVA|||||36.56|3.54|0.018
82644398|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-3.119|||<|0.0001|TWO_SIDED|95.0|-3.779|-2.46|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.460|-3.779|<.0001
82644399|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-2.69|||<|0.0001|TWO_SIDED|95.0|-3.338|-2.043|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-2.043|-3.338|<.0001
82644400|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-2.746|||<|0.0001|TWO_SIDED|95.0|-3.402|-2.09|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-2.090|-3.402|<.0001
82644401|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.184|||<|0.0001|TWO_SIDED|95.0|1.565|2.803|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||2.803|1.565|<.0001
82644402|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.202|||<|0.0001|TWO_SIDED|95.0|1.576|2.828|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||2.828|1.576|<.0001
82644403|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|2.083|||<|0.0001|TWO_SIDED|95.0|1.461|2.704|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||2.704|1.461|<.0001
82644404|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|2.501|||<|0.0001|TWO_SIDED|95.0|1.876|3.126|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||3.126|1.876|<.0001
82644405|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.538||||0.2085|TWO_SIDED|95.0|-1.231|0.154|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.154|-1.231|0.2085
82395791|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of cognitive defusion across time.||||>0.05
82395792|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of cognitive defusion||||>0.05
82395793|NCT03646305|164502560|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on levels of cognitive defusion||||>0.05
82395794|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, weight dissatisfaction were equivalent across time.||||<0.001
82395795|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in weight dissatisfaction from baseline to post-intervention. Null hypothesis: there would be no significant differences in weight dissatisfaction from baseline to post-intervention||||<0.001
82395796|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in weight dissatisfaction from post-intervention to follow-up. Null: there would be no differences in weight dissatisfaction from post-intervention to follow-up||||<0.05
82444688|NCT04327024|164598366|OTHER||Mean Difference (Final Values)|-0.1||||0.862|TWO_SIDED|95.0|-1.28|1.08|||ANCOVA|Model included change from baseline as the dependent variable, treatment as the independent variable and baseline peak VO2 as covariate.||||1.08|-1.28|0.862
82529132|NCT01807650|164754659|SUPERIORITY_OR_OTHER||||||=|0.0232||||||2-sided, significance level = 0.05|t-test, 2 sided|||"All participants received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: δ = 0 and H1: δ ≠ 0 with δ being the difference in time to wound closure between treatments."||||=0.0232
82529133|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_DEVIATION|17.8|=|0.0005|TWO_SIDED|95.0|2.7|9.4||Day 7|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.4|2.7|=0.0005
82444689|NCT04327024|164598367|OTHER||Mean Difference (Final Values)|0.44||||0.472|TWO_SIDED|95.0|-0.76|1.64|||ANCOVA|Model included change from baseline as the dependent variable, treatment as the independent variable and baseline peak VO2 as covariate.||||1.64|-0.76|0.472
82529134|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_DEVIATION|16.9|=|0.0002|TWO_SIDED|95.0|3.0|9.4||Day 10|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.4|3.0|=0.0002
82529135|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|19.3|=|0.0028|TWO_SIDED|95.0|2.0|9.3||Day 14|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.3|2.0|=0.0028
82647910|NCT00386100|165011332|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.71||||0.056|TWO_SIDED|95.0|2.486|15.304||LDL cholesterol. No adjustment for multiple comparisons. Log transformed|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||15.304|2.486|0.056
82368863|NCT02504671|164446942|OTHER||Mean Difference (Net)|-7.39|||<|0.001|TWO_SIDED|95.0|-11.42|-3.36||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1,CDAI|||-3.36|-11.42|<0.001
82529136|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|STANDARD_DEVIATION|18.0|=|0.0009|TWO_SIDED|95.0|2.5|9.3||Day 18|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||9.3|2.5|=0.0009
82368864|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.1||||0.016|TWO_SIDED|95.0|-11.06|-1.14||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-1.14|-11.06|0.016
82368865|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.85||||0.007|TWO_SIDED|95.0|-11.78|-1.91||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2,CDAI|||-1.91|-11.78|0.007
82368866|NCT02504671|164446942|OTHER||Mean Difference (Net)|-7.92||||0.005|TWO_SIDED|95.0|-13.48|-2.37||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-2.37|-13.48|0.005
82368867|NCT02504671|164446942|OTHER||Mean Difference (Net)|-12.19|||<|0.001|TWO_SIDED|95.0|-17.74|-6.64||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4,CDAI|||-6.64|-17.74|<0.001
82368868|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.62||||0.059|TWO_SIDED|95.0|-11.45|0.21||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||0.21|-11.45|0.059
82368869|NCT02504671|164446942|OTHER||Mean Difference (Net)|-10.17|||<|0.001|TWO_SIDED|95.0|-15.97|-4.38||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6,CDAI|||-4.38|-15.97|<0.001
82368870|NCT02504671|164446942|OTHER||Mean Difference (Net)|-10.37||||0.002|TWO_SIDED|95.0|-16.75|-4.0||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-4.00|-16.75|0.002
82368871|NCT02504671|164446942|OTHER||Mean Difference (Net)|-13.79|||<|0.001|TWO_SIDED|95.0|-20.18|-7.41||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8,CDAI|||-7.41|-20.18|<0.001
82647911|NCT00386100|165011332|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.58||||0.072|TWO_SIDED|95.0|-0.232|5.47||HDL cholesterol. No adjustment for multiple comparison. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||5.470|-0.232|0.072
82368872|NCT02504671|164446942|OTHER||Mean Difference (Net)|-9.67||||0.01|TWO_SIDED|95.0|-17.03|-2.31||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-2.31|-17.03|0.010
82448971|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|159.88|||||TWO_SIDED|90.0|137.89|185.37||||||AUCtau of SOF for the 12 to \< 18 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||185.37|137.89|
82368873|NCT02504671|164446942|OTHER||Mean Difference (Net)|-16.63|||<|0.001|TWO_SIDED|95.0|-23.97|-9.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,CDAI|||-9.30|-23.97|<0.001
82368874|NCT02504671|164446942|OTHER||Mean Difference (Net)|-5.53||||0.165|TWO_SIDED|95.0|-13.37|2.3||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||2.30|-13.37|0.165
82368875|NCT02504671|164446942|OTHER||Mean Difference (Net)|-8.85||||0.022|TWO_SIDED|95.0|-16.39|-1.32||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16,CDAI|||-1.32|-16.39|0.022
82368876|NCT02504671|164446942|OTHER||Mean Difference (Net)|-6.55||||0.127|TWO_SIDED|95.0|-14.99|1.89||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||1.89|-14.99|0.127
82368877|NCT02504671|164446942|OTHER||Mean Difference (Net)|-8.67||||0.034|TWO_SIDED|95.0|-16.67|-0.67||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20,CDAI|||-0.67|-16.67|0.034
82368878|NCT02504671|164446942|OTHER||Mean Difference (Net)|-15.43||||0.004|TWO_SIDED|95.0|-25.78|-5.07||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-5.07|-25.78|0.004
82368879|NCT02504671|164446942|OTHER||Mean Difference (Net)|-19.88|||<|0.001|TWO_SIDED|95.0|-29.7|-10.06||MMRM analysis adjusted for CDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,CDAI|||-10.06|-29.70|<0.001
82368880|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.01||||0.938|TWO_SIDED|95.0|-0.14|0.16||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.16|-0.14|0.938
82368881|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.0||||0.981|TWO_SIDED|95.0|-0.15|0.15||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.15|-0.15|0.981
82368882|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.01||||0.857|TWO_SIDED|95.0|-0.16|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.14|-0.16|0.857
82368883|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.05||||0.592|TWO_SIDED|95.0|-0.13|0.22||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.22|-0.13|0.592
82368884|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.01||||0.917|TWO_SIDED|95.0|-0.16|0.18||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.18|-0.16|0.917
82368885|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.05||||0.545|TWO_SIDED|95.0|-0.23|0.12||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.12|-0.23|0.545
82368886|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.04||||0.707|TWO_SIDED|95.0|-0.16|0.24||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.24|-0.16|0.707
82395797|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal weight dissatisfaction||||>0.05
82395798|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal weight dissatisfaction scores||||>0.05
82448972|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|129.48|||||TWO_SIDED|90.0|110.79|151.32||||||AUCtau of SOF for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||151.32|110.79|
82529137|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|15.8|=|0.0003|TWO_SIDED|95.0|2.6|8.6||Day 21|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||8.6|2.6|=0.0003
82529138|NCT01807650|164754663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|15.1|=|0.0145|TWO_SIDED|95.0|0.7|6.4||Day 28|t-test, 2 sided||Mean difference in degree of epithelialization \[%\] (Oleogel-S10 and non-adhesive wound dressing minus non-adhesive wound dressing only)|||6.4|0.7|=0.0145
82529139|NCT01373450|164754672|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.87||||0.024|TWO_SIDED|90.0|0.77|0.98|||t-test, 1 sided|||||0.98|0.77|0.024
82368887|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.05||||0.603|TWO_SIDED|95.0|-0.15|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.26|-0.15|0.603
82368888|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.07||||0.473|TWO_SIDED|95.0|-0.27|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.13|-0.27|0.473
82529140|NCT01373450|164754673|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77||||0.004|TWO_SIDED|90.0|0.66|0.9|||t-test, 1 sided|||||0.90|0.66|0.004
82368889|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.21|0.22||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.22|-0.21|0.987
82529141|NCT01373450|164754674|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.014|||<|0.001|TWO_SIDED|90.0|0.008|0.019|||t-test, 1 sided|||||0.019|0.008|<0.001
82529142|NCT01373450|164754675|SUPERIORITY_OR_OTHER||Intraclass Correlation Coefficient|0.92|||||TWO_SIDED|90.0|0.72|0.98||||||||0.98|0.72|
82368890|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.04||||0.713|TWO_SIDED|95.0|-0.25|0.17||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.17|-0.25|0.713
82368891|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.1||||0.357|TWO_SIDED|95.0|-0.31|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.11|-0.31|0.357
82368892|NCT02504671|164446943|OTHER||Mean Difference (Final Values)|0.04||||0.748|TWO_SIDED|95.0|-0.19|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.26|-0.19|0.748
82368893|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.11||||0.327|TWO_SIDED|95.0|-0.34|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.11|-0.34|0.327
82368894|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.1||||0.395|TWO_SIDED|95.0|-0.32|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.13|-0.32|0.395
82368895|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.05||||0.71|TWO_SIDED|95.0|-0.3|0.21||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.21|-0.30|0.710
82368896|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.04||||0.74|TWO_SIDED|95.0|-0.3|0.21||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.21|-0.30|0.740
82368897|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.11||||0.398|TWO_SIDED|95.0|-0.36|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.14|-0.36|0.398
82529143|NCT01373450|164754676|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77||||0.003|TWO_SIDED|90.0|0.66|0.9|||t-test, 1 sided|||||0.90|0.66|0.003
82395799|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all 4 conditions were equivalent in weight dissatisfaction||||>0.05
82395800|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in weight dissatisfaction across time.||||>0.05
82395801|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on weight dissatisfaction||||>0.05
82395802|NCT03646305|164502561|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on weight dissatisfaction||||>0.05
82395803|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, appearance dissatisfaction were equivalent across time.||||<0.001
82395804|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in appearance dissatisfaction from baseline to post-intervention. Null hypothesis: the control conditions would have no significant difference in appearance dissatisfaction from baseline to post-intervention||||>0.05
82444690|NCT04327024|164598368|OTHER||Mean Difference (Final Values)|3.15||||0.287|TWO_SIDED|95.0|-2.65|8.94|||Mixed Models Analysis|Model included treatment as the independent variable and visit, visit by treatment, and baseline KCCQ-TSS as covariates.||"H0: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs placebo) = 0 Ha: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs placebo) ≠ 0~A hierarchical test sequence was used for the confirmatory analysis of the primary and secondary objectives in order to address the issue of multiple testing and control the Type I error rate at an overall two-sided 0.05 level."||8.94|-2.65|0.287
82444691|NCT04327024|164598369|OTHER||Mean Difference (Final Values)|-0.15||||0.96|TWO_SIDED|95.0|-5.9|5.61|||Mixed Models Analysis|Model included treatment as the independent variable and visit, visit by treatment, and baseline KCCQ-TSS as covariates.||"H0: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs allopurinol) = 0 Ha: Difference in mean change from baseline in KCCQ-TSS (verinurad + allopurinol vs allopurinol) ≠ 0~A hierarchical test sequence was used for the confirmatory analysis of the primary and secondary objectives in order to address the issue of multiple testing and control the Type I error rate at an overall two-sided 0.05 level."||5.61|-5.90|0.960
82368898|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.16||||0.364|TWO_SIDED|95.0|-0.19|0.52||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.52|-0.19|0.364
82368899|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.12||||0.503|TWO_SIDED|95.0|-0.23|0.46||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.46|-0.23|0.503
82368900|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.08||||0.647|TWO_SIDED|95.0|-0.42|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.26|-0.42|0.647
82368901|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.02||||0.91|TWO_SIDED|95.0|-0.37|0.33||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.33|-0.37|0.910
82368902|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.08||||0.66|TWO_SIDED|95.0|-0.42|0.26||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.26|-0.42|0.660
82368903|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.16||||0.34|TWO_SIDED|95.0|-0.5|0.17||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.17|-0.50|0.340
82368904|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.02||||0.902|TWO_SIDED|95.0|-0.34|0.39||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.39|-0.34|0.902
82395805|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in appearance dissatisfaction from post-intervention to follow-up. Null hypothesis: the control conditions would have no significant difference in appearance dissatisfaction from post-intervention to follow-up.||||<0.001
82395806|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal appearance dissatisfaction||||>0.05
82444692|NCT01885910|164598379|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.0001
82529144|NCT01373450|164754676|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.58|||<|0.001|TWO_SIDED|90.0|0.45|0.74|||t-test, 1 sided|||||0.74|0.45|<0.001
82368905|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.07||||0.687|TWO_SIDED|95.0|-0.42|0.28||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.28|-0.42|0.687
82444693|NCT02905006|164598391|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
82368906|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.09||||0.599|TWO_SIDED|95.0|-0.44|0.25||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.25|-0.44|0.599
82444694|NCT02905006|164598391|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
82529145|NCT01373450|164754676|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99||||0.473|TWO_SIDED|90.0|0.85|1.16|||t-test, 1 sided|||||1.16|0.85|0.473
82368907|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.04||||0.588|TWO_SIDED|95.0|-0.19|0.11||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.11|-0.19|0.588
82368908|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.09||||0.259|TWO_SIDED|95.0|-0.23|0.06||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, HAQ-DI|||0.06|-0.23|0.259
82368909|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.08||||0.358|TWO_SIDED|95.0|-0.26|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.09|-0.26|0.358
82368910|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.09||||0.325|TWO_SIDED|95.0|-0.26|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, HAQ-DI|||0.09|-0.26|0.325
82368911|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.07||||0.473|TWO_SIDED|95.0|-0.28|0.13||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.13|-0.28|0.473
82368912|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.18||||0.085|TWO_SIDED|95.0|-0.38|0.02||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, HAQ-DI|||0.02|-0.38|0.085
82368913|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.01||||0.897|TWO_SIDED|95.0|-0.2|0.23||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.23|-0.20|0.897
82368914|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.2||||0.065|TWO_SIDED|95.0|-0.42|0.01||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, HAQ-DI|||0.01|-0.42|0.065
82529146|NCT01373450|164754676|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.75||||0.049|TWO_SIDED|90.0|0.56|1.0|||t-test, 1 sided|||||1.00|0.56|0.049
82368915|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.14||||0.238|TWO_SIDED|95.0|-0.36|0.09||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.09|-0.36|0.238
82368916|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.21||||0.071|TWO_SIDED|95.0|-0.44|0.02||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, HAQ-DI|||0.02|-0.44|0.071
82368917|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.12||||0.34|TWO_SIDED|95.0|-0.38|0.13||MMRM analysis adjusted for SDAI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.13|-0.38|0.340
82368918|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.24||||0.059|TWO_SIDED|95.0|-0.49|0.01||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, HAQ-DI|||0.01|-0.49|0.059
82368919|NCT02504671|164446943|OTHER||Mean Difference (Net)|0.09||||0.607|TWO_SIDED|95.0|-0.26|0.44||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.44|-0.26|0.607
82368920|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.01||||0.959|TWO_SIDED|95.0|-0.34|0.32||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, HAQ-DI|||0.32|-0.34|0.959
82368921|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.15||||0.401|TWO_SIDED|95.0|-0.49|0.2||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.20|-0.49|0.401
82368922|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.21||||0.207|TWO_SIDED|95.0|-0.54|0.12||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, HAQ-DI|||0.12|-0.54|0.207
82368923|NCT02504671|164446943|OTHER||Mean Difference (Net)|-0.08||||0.637|TWO_SIDED|95.0|-0.44|0.27||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.27|-0.44|0.637
82444695|NCT02905006|164598391|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
82368924|NCT02504671|164446943|OTHER||Mean Difference (Final Values)|-0.2||||0.251|TWO_SIDED|95.0|-0.53|0.14||MMRM analysis adjusted for HAQ-DI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, HAQ-DI|||0.14|-0.53|0.251
82368925|NCT02504671|164446944|OTHER||Mean Difference (Net)|-2.45||||0.511|TWO_SIDED|95.0|-9.81|4.9||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||4.90|-9.81|0.511
82368926|NCT02504671|164446944|OTHER||Mean Difference (Net)|-2.76||||0.461|TWO_SIDED|95.0|-10.13|4.6||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||4.60|-10.13|0.461
82368927|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.71||||0.039|TWO_SIDED|95.0|-15.03|-0.39||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||-0.39|-15.03|0.039
82368928|NCT02504671|164446944|OTHER||Mean Difference (Net)|-2.92||||0.469|TWO_SIDED|95.0|-10.86|5.01||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||5.01|-10.86|0.469
82368929|NCT02504671|164446944|OTHER||Mean Difference (Net)|-5.99||||0.133|TWO_SIDED|95.0|-13.82|1.85||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||1.85|-13.82|0.133
82368930|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.58||||0.057|TWO_SIDED|95.0|-15.4|0.23||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||0.23|-15.40|0.057
82368931|NCT02504671|164446944|OTHER||Mean Difference (Net)|-3.03||||0.49|TWO_SIDED|95.0|-11.67|5.61||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||5.61|-11.67|0.490
82368932|NCT02504671|164446944|OTHER||Mean Difference (Net)|-9.38||||0.031|TWO_SIDED|95.0|-17.91|-0.86||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-0.86|-17.91|0.031
82368933|NCT02504671|164446944|OTHER||Mean Difference (Net)|-12.21||||0.005|TWO_SIDED|95.0|-20.67|-3.74||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-3.74|-20.67|0.005
82368934|NCT02504671|164446944|OTHER||Mean Difference (Net)|-4.49||||0.345|TWO_SIDED|95.0|-13.83|4.85||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||4.85|-13.83|0.345
82368935|NCT02504671|164446944|OTHER||Mean Difference (Net)|-8.02||||0.09|TWO_SIDED|95.0|-17.3|1.26||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||1.26|-17.30|0.090
82368936|NCT02504671|164446944|OTHER||Mean Difference (Net)|-8.36||||0.074|TWO_SIDED|95.0|-17.55|0.83||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||0.83|-17.55|0.074
82368937|NCT02504671|164446944|OTHER||Mean Difference (Net)|-5.61||||0.268|TWO_SIDED|95.0|-15.57|4.34||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||4.34|-15.57|0.268
82368938|NCT02504671|164446944|OTHER||Mean Difference (Net)|-14.57||||0.004|TWO_SIDED|95.0|-24.43|-4.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-4.70|-24.43|0.004
82529147|NCT01373450|164754677|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.021|||<|0.001|TWO_SIDED|90.0|0.015|0.026|||t-test, 1 sided|||||0.026|0.015|<0.001
82529148|NCT01373450|164754677|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.03|||<|0.001|TWO_SIDED|90.0|0.021|0.038|||t-test, 1 sided|||||0.038|0.021|<0.001
82368939|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.94||||0.005|TWO_SIDED|95.0|-23.72|-4.16||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-4.16|-23.72|0.005
82368940|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.02||||0.182|TWO_SIDED|95.0|-17.36|3.32||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||3.32|-17.36|0.182
82368941|NCT02504671|164446944|OTHER||Mean Difference (Net)|-14.15||||0.007|TWO_SIDED|95.0|-24.42|-3.87||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-3.87|-24.42|0.007
82368942|NCT02504671|164446944|OTHER||Mean Difference (Net)|-18.18|||<|0.001|TWO_SIDED|95.0|-28.35|-8.01||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-8.01|-28.35|<0.001
82368943|NCT02504671|164446944|OTHER||Mean Difference (Net)|-4.89||||0.527|TWO_SIDED|95.0|-20.15|10.36||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||10.36|-20.15|0.527
82368944|NCT02504671|164446944|OTHER||Mean Difference (Net)|-15.95||||0.034|TWO_SIDED|95.0|-30.72|-1.19||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||-1.19|-30.72|0.034
82368945|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.86||||0.062|TWO_SIDED|95.0|-28.42|0.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||0.70|-28.42|0.062
82368946|NCT02504671|164446944|OTHER||Mean Difference (Net)|-0.69||||0.924|TWO_SIDED|95.0|-14.85|13.47||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||13.47|-14.85|0.924
82368947|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.17||||0.058|TWO_SIDED|95.0|-26.82|0.48||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||0.48|-26.82|0.058
82368948|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.49||||0.049|TWO_SIDED|95.0|-26.91|-0.08||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.08|-26.91|0.049
82368949|NCT02504671|164446944|OTHER||Mean Difference (Net)|-6.38||||0.445|TWO_SIDED|95.0|-22.84|10.07||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||10.07|-22.84|0.445
82368950|NCT02504671|164446944|OTHER||Mean Difference (Net)|-10.14||||0.205|TWO_SIDED|95.0|-25.87|5.58||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||5.58|-25.87|0.205
82368951|NCT02504671|164446944|OTHER||Mean Difference (Net)|-12.07||||0.125|TWO_SIDED|95.0|-27.55|3.41||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||3.41|-27.55|0.125
82368952|NCT02504671|164446944|OTHER||Mean Difference (Net)|-4.93||||0.187|TWO_SIDED|95.0|-12.26|2.41||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||2.41|-12.26|0.187
82368953|NCT02504671|164446944|OTHER||Mean Difference (Net)|-5.63||||0.13|TWO_SIDED|95.0|-12.93|1.67||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 1, Pain score|||1.67|-12.93|0.130
82368954|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.85||||0.051|TWO_SIDED|95.0|-15.72|0.03||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||0.03|-15.72|0.051
82368955|NCT02504671|164446944|OTHER||Mean Difference (Net)|-10.44||||0.009|TWO_SIDED|95.0|-18.27|-2.6||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 2, Pain score|||-2.60|-18.27|0.009
82368956|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.94||||0.068|TWO_SIDED|95.0|-16.47|0.58||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||0.58|-16.47|0.068
82368957|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.96||||0.001|TWO_SIDED|95.0|-22.47|-5.44||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Pain score|||-5.44|-22.47|0.001
82368958|NCT02504671|164446944|OTHER||Mean Difference (Net)|-7.36||||0.118|TWO_SIDED|95.0|-16.62|1.89||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||1.89|-16.62|0.118
82368959|NCT02504671|164446944|OTHER||Mean Difference (Net)|-12.43||||0.009|TWO_SIDED|95.0|-21.68|-3.19||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 6, Pain score|||-3.19|-21.68|0.009
82368960|NCT02504671|164446944|OTHER||Mean Difference (Net)|-16.51||||0.001|TWO_SIDED|95.0|-26.38|-6.65||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-6.65|-26.38|0.001
82368961|NCT02504671|164446944|OTHER||Mean Difference (Net)|-20.39|||<|0.001|TWO_SIDED|95.0|-30.27|-10.52||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 8, Pain score|||-10.52|-30.27|<0.001
82368962|NCT02504671|164446944|OTHER||Mean Difference (Net)|-12.0||||0.022|TWO_SIDED|95.0|-22.27|-1.73||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-1.73|-22.27|0.022
82368963|NCT02504671|164446944|OTHER||Mean Difference (Net)|-17.94|||<|0.001|TWO_SIDED|95.0|-28.18|-7.7||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Pain score|||-7.70|-28.18|<0.001
82368964|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.2||||0.084|TWO_SIDED|95.0|-28.18|1.79||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||1.79|-28.18|0.084
82368965|NCT02504671|164446944|OTHER||Mean Difference (Net)|-11.87||||0.099|TWO_SIDED|95.0|-26.02|2.27||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 16, Pain score|||2.27|-26.02|0.099
82368966|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.91||||0.048|TWO_SIDED|95.0|-27.68|-0.14||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.14|-27.68|0.048
82368967|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.22||||0.048|TWO_SIDED|95.0|-26.32|-0.13||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 20, Pain score|||-0.13|-26.32|0.048
82368968|NCT02504671|164446944|OTHER||Mean Difference (Net)|-13.23||||0.102|TWO_SIDED|95.0|-29.11|2.64||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||2.64|-29.11|0.102
82368969|NCT02504671|164446944|OTHER||Mean Difference (Net)|-16.7||||0.03|TWO_SIDED|95.0|-31.79|-1.62||MMRM analysis adjusted for Pain Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Pain score|||-1.62|-31.79|0.030
82368970|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.6||||0.683|TWO_SIDED|95.0|-2.31|3.52||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||3.52|-2.31|0.683
82368971|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.19||||0.03|TWO_SIDED|95.0|0.31|6.07||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||6.07|0.31|0.030
82368972|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.61||||0.074|TWO_SIDED|95.0|-0.25|5.47||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||5.47|-0.25|0.074
82368973|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.46||||0.39|TWO_SIDED|95.0|-1.88|4.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||4.80|-1.88|0.390
82368974|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.42||||0.154|TWO_SIDED|95.0|-0.91|5.75||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||5.75|-0.91|0.154
82444696|NCT02905006|164598391|SUPERIORITY||||||<|0.0001||||||P-value evaluating dose response excludes the BKZ Dose 3 group; is based on a logistic regression model with fixed effects for region, prior biologic exposure, continuous treatment variable with values of -2, -1, 0, 1, 2 for the remaining groups.|Regression, Logistic|||||||<0.0001
82444697|NCT02905006|164598392|SUPERIORITY||Odds Ratio (OR)|21.43|||=|0.0001|TWO_SIDED|95.0|4.51|101.88|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||101.88|4.51|=0.0001
82368975|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.73||||0.302|TWO_SIDED|95.0|-1.56|5.02||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, PCS|||5.02|-1.56|0.302
82368976|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.69||||0.521|TWO_SIDED|95.0|-3.5|6.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.88|-3.50|0.521
82368977|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.28||||0.606|TWO_SIDED|95.0|-3.63|6.2||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.20|-3.63|0.606
82368978|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.46||||0.32|TWO_SIDED|95.0|-2.41|7.32||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||7.32|-2.41|0.320
82368979|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.5||||0.811|TWO_SIDED|95.0|-4.65|3.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||3.64|-4.65|0.811
82368980|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.45||||0.83|TWO_SIDED|95.0|-3.65|4.55||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||4.55|-3.65|0.830
82368981|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.54||||0.795|TWO_SIDED|95.0|-4.61|3.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||3.54|-4.61|0.795
82368982|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.32||||0.548|TWO_SIDED|95.0|-3.0|5.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.64|-3.00|0.548
82368983|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.46||||0.505|TWO_SIDED|95.0|-2.85|5.77||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.77|-2.85|0.505
82368984|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.12||||0.605|TWO_SIDED|95.0|-3.15|5.39||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||5.39|-3.15|0.605
82368985|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.43||||0.895|TWO_SIDED|95.0|-6.03|6.9||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||6.90|-6.03|0.895
82368986|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.29||||0.461|TWO_SIDED|95.0|-3.84|8.42||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||8.42|-3.84|0.461
82368987|NCT02504671|164446945|OTHER||Mean Difference (Net)|-1.05||||0.732|TWO_SIDED|95.0|-7.1|4.99||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||4.99|-7.10|0.732
82529149|NCT01373450|164754677|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.007||||0.0163|TWO_SIDED|90.0|0.002|0.012|||t-test, 1 sided|||||0.012|0.002|0.0163
82368988|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.11||||0.941|TWO_SIDED|95.0|-3.11|2.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||2.88|-3.11|0.941
82368989|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.73||||0.013|TWO_SIDED|95.0|0.78|6.67||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||6.67|0.78|0.013
82368990|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.92||||0.051|TWO_SIDED|95.0|-0.01|5.84||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Bodily Pain|||5.84|-0.01|0.051
82368991|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.53||||0.403|TWO_SIDED|95.0|-2.07|5.12||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||5.12|-2.07|0.403
82368992|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.82||||0.122|TWO_SIDED|95.0|-0.76|6.4||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||6.40|-0.76|0.122
82368993|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.08||||0.247|TWO_SIDED|95.0|-1.45|5.62||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Bodily Pain|||5.62|-1.45|0.247
82368994|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.85||||0.384|TWO_SIDED|95.0|-3.61|9.32||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||9.32|-3.61|0.384
82368995|NCT02504671|164446945|OTHER||Mean Difference (Net)|5.05||||0.105|TWO_SIDED|95.0|-1.07|11.16||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||11.16|-1.07|0.105
82368996|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.21||||0.29|TWO_SIDED|95.0|-2.76|9.17||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Bodily Pain|||9.17|-2.76|0.290
82368997|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.51||||0.738|TWO_SIDED|95.0|-3.52|2.5||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||2.50|-3.52|0.738
82368998|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.99||||0.513|TWO_SIDED|95.0|-1.99|3.97||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||3.97|-1.99|0.513
82368999|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.12||||0.934|TWO_SIDED|95.0|-2.83|3.08||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, General Health|||3.08|-2.83|0.934
82444698|NCT02905006|164598392|SUPERIORITY||Odds Ratio (OR)|63.21|||<|0.0001|TWO_SIDED|95.0|12.9|309.83|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||309.83|12.90|<0.0001
82444699|NCT02905006|164598392|SUPERIORITY||Odds Ratio (OR)|62.35|||<|0.0001|TWO_SIDED|95.0|12.61|308.29|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||308.29|12.61|<0.0001
82529150|NCT01373450|164754677|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.016||||0.0056|TWO_SIDED|90.0|0.006|0.026|||t-test, 1 sided|||||0.026|0.006|0.0056
82575769|NCT03004404|164861077|OTHER||Geometric mean ratio T1/R (%)|293.21|STANDARD_ERROR_OF_MEAN|1.069|||TWO_SIDED|90.0|259.044|331.891|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: oral solution in fasted state (test treatment T1)/tablet in fasted state (reference treatment R), T1/R.|Estimation of relative bioavailability of Cmax based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for Oral solution (PfOS) fasted (T1) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Cmax and their two-sided 90% confidence intervals . No hypothesis was tested.|331.891|259.044|
82369000|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.63||||0.687|TWO_SIDED|95.0|-2.43|3.68||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||3.68|-2.43|0.687
82369001|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.85||||0.233|TWO_SIDED|95.0|-1.2|4.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||4.91|-1.20|0.233
82369002|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.57||||0.708|TWO_SIDED|95.0|-2.44|3.59||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, General Health|||3.59|-2.44|0.708
82369003|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.29||||0.25|TWO_SIDED|95.0|-2.34|8.93||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||8.93|-2.34|0.250
82369004|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.76||||0.307|TWO_SIDED|95.0|-2.57|8.09||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||8.09|-2.57|0.307
82369005|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.53||||0.345|TWO_SIDED|95.0|-2.74|7.79||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, General Health|||7.79|-2.74|0.345
82369006|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.16||||0.95|TWO_SIDED|95.0|-0.19|0.52||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||0.52|-0.19|0.950
82369007|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.88||||0.664|TWO_SIDED|95.0|-3.11|4.87||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||4.87|-3.11|0.664
82369008|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.01||||0.994|TWO_SIDED|95.0|-3.99|3.96||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Mental Health|||3.96|-3.99|0.994
82369009|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.6||||0.25|TWO_SIDED|95.0|-1.84|7.03||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||7.03|-1.84|0.250
82369010|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.21||||0.154|TWO_SIDED|95.0|-1.22|7.64||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||7.64|-1.22|0.154
82369011|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.5||||0.262|TWO_SIDED|95.0|-1.88|6.89||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Mental Health|||6.89|-1.88|0.262
82369012|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.32||||0.693|TWO_SIDED|95.0|-5.28|7.93||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||7.93|-5.28|0.693
82369013|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.28||||0.302|TWO_SIDED|95.0|-2.98|9.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||9.54|-2.98|0.302
82369014|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.61||||0.844|TWO_SIDED|95.0|-5.54|6.77||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Mental Health|||6.77|-5.54|0.844
82369015|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.66||||0.698|TWO_SIDED|95.0|-2.71|4.04||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||4.04|-2.71|0.698
82369016|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.38||||0.159|TWO_SIDED|95.0|-0.94|5.7||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||5.70|-0.94|0.159
82369017|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.53||||0.36|TWO_SIDED|95.0|-1.76|4.83||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Physical Functioning|||4.83|-1.76|0.360
82369018|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.82||||0.151|TWO_SIDED|95.0|-1.04|6.69||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.69|-1.04|0.151
82369019|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.01||||0.124|TWO_SIDED|95.0|-0.83|6.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.86|-0.83|0.124
82369020|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.0||||0.12|TWO_SIDED|95.0|-0.79|6.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Physical Functioning|||6.80|-0.79|0.120
82369021|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.64||||0.814|TWO_SIDED|95.0|-5.98|4.7||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||4.70|-5.98|0.814
82444700|NCT02905006|164598392|SUPERIORITY||Odds Ratio (OR)|130.35|||<|0.0001|TWO_SIDED|95.0|24.5|693.51|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||693.51|24.50|<0.0001
82369022|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.41||||0.873|TWO_SIDED|95.0|-5.49|4.67||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||4.67|-5.49|0.873
82369023|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.23||||0.928|TWO_SIDED|95.0|-4.8|5.26||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Physical Functioning|||5.26|-4.80|0.928
82369024|NCT02504671|164446945|OTHER||Mean Difference (Net)|-1.29||||0.541|TWO_SIDED|95.0|-5.44|2.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||2.86|-5.44|0.541
82369025|NCT02504671|164446945|OTHER||Mean Difference (Net)|-1.29||||0.535|TWO_SIDED|95.0|-5.39|2.81||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||2.81|-5.39|0.535
82369026|NCT02504671|164446945|OTHER||Mean Difference (Net)|-1.03||||0.62|TWO_SIDED|95.0|-5.1|3.05||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Emotional|||3.05|-5.10|0.620
82369027|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.34||||0.881|TWO_SIDED|95.0|-4.08|4.76||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Emotional|||4.76|-4.08|0.881
82369028|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.66||||0.767|TWO_SIDED|95.0|-3.74|5.07||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,Role Emotional|||5.07|-3.74|0.767
82369029|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.24||||0.913|TWO_SIDED|95.0|-4.12|4.61||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Emotional|||4.61|-4.12|0.913
82369030|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.91||||0.79|TWO_SIDED|95.0|-5.81|7.63||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||7.63|-5.81|0.790
82369031|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.5||||0.876|TWO_SIDED|95.0|-5.86|6.87||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||6.87|-5.86|0.876
82369032|NCT02504671|164446945|OTHER||Mean Difference (Net)|-1.3||||0.684|TWO_SIDED|95.0|-7.59|4.99||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Emotional|||4.99|-7.59|0.684
82369033|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.86||||0.588|TWO_SIDED|95.0|-2.28|4.01||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||4.01|-2.28|0.588
82369034|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.9||||0.229|TWO_SIDED|95.0|-1.21|5.0||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||5.00|-1.21|0.229
82369035|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.41||||0.125|TWO_SIDED|95.0|-0.67|5.49||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Role Physical|||5.49|-0.67|0.125
82369036|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.6||||0.736|TWO_SIDED|95.0|-2.92|4.12||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||4.12|-2.92|0.736
82369037|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.72||||0.338|TWO_SIDED|95.0|-1.8|5.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||5.23|-1.80|0.338
82369038|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.92||||0.6|TWO_SIDED|95.0|-2.55|4.4||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Role Physical|||4.40|-2.55|0.600
82369039|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.26||||0.657|TWO_SIDED|95.0|-4.34|6.86||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||6.86|-4.34|0.657
82369040|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.12||||0.965|TWO_SIDED|95.0|-5.41|5.17||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||5.17|-5.41|0.965
82369041|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.12||||0.675|TWO_SIDED|95.0|-4.14|6.37||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Role Physical|||6.37|-4.14|0.675
82369042|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.32||||0.88|TWO_SIDED|95.0|-4.54|3.89||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||3.89|-4.54|0.880
82369043|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.17||||0.135|TWO_SIDED|95.0|-1.0|7.33||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||7.33|-1.00|0.135
82444701|NCT02905006|164598392|SUPERIORITY||Odds Ratio (OR)|69.4|||<|0.0001|TWO_SIDED|95.0|14.07|342.4|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||342.40|14.07|<0.0001
82444702|NCT02905006|164598393|SUPERIORITY||Odds Ratio (OR)|18.23|||=|0.0003|TWO_SIDED|95.0|3.79|87.76|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||87.76|3.79|=0.0003
82647912|NCT00386100|165011332|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.743||||0.835|TWO_SIDED|95.0|-6.056|8.035||Triglycerides. No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||8.035|-6.056|0.835
82647913|NCT00386100|165011333|SUPERIORITY_OR_OTHER||Percent difference from metformin|102.24|||<|0.0001|TWO_SIDED|95.0|79.23|128.19||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||128.19|79.23|<0.0001
82369044|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.57||||0.785|TWO_SIDED|95.0|-3.56|4.71||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Social Functioning|||4.71|-3.56|0.785
82369045|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.55||||0.797|TWO_SIDED|95.0|-3.69|4.8||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.80|-3.69|0.797
82369046|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.0|||>|0.999|TWO_SIDED|95.0|-4.23|4.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.23|-4.23|>0.999
82369047|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.28||||0.896|TWO_SIDED|95.0|-3.91|4.46||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Social Functioning|||4.46|-3.91|0.896
82369048|NCT02504671|164446945|OTHER||Mean Difference (Net)|-2.89||||0.424|TWO_SIDED|95.0|-10.02|4.24||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||4.24|-10.02|0.424
82369049|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.44||||0.898|TWO_SIDED|95.0|-7.16|6.29||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||6.29|-7.16|0.898
82369050|NCT02504671|164446945|OTHER||Mean Difference (Net)|-3.79||||0.26|TWO_SIDED|95.0|-10.42|2.84||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||2.84|-10.42|0.260
82369051|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.02||||0.603|TWO_SIDED|95.0|-2.85|4.9||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||4.90|-2.85|0.603
82369052|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.56||||0.068|TWO_SIDED|95.0|-0.26|7.39||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||7.39|-0.26|0.068
82369053|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.63||||0.174|TWO_SIDED|95.0|-1.17|6.43||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||6.43|-1.17|0.174
82369054|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.97||||0.334|TWO_SIDED|95.0|-2.04|5.98||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||5.98|-2.04|0.334
82395807|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal appearance dissatisfaction scores||||>0.05
82395808|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in appearance dissatisfaction||||>0.05
82395809|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in appearance dissatisfaction across time.||||>0.05
82395810|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on appearance dissatisfaction||||>0.05
82529151|NCT00069784|164754683|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.022||||0.6273|TWO_SIDED|95.0|0.937|1.114||For the analysis of the two coprimary efficacy outcomes, the overall Type 1 error was partitioned. The first coprimary outcome was tested at 4.4%, whereas the second coprimary outcome was tested at 1% (weighted Hochberg procedure).|Log Rank|Log-rank test stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|The total required number of first coprimary outcomes (2200) assumed that a hazard reduction of 14-16% was clinically significant and controlled the overall experiment-wise Type 1 error at 5% with a power of 80% for each outcome. The total number of participants needed to achieve this number of events within the planned enrollment and treatment periods was ultimately estimated to be 12 500 based on the CURE and HOPE study databases.||1.114|0.937|0.6273
82444703|NCT02905006|164598393|SUPERIORITY||Odds Ratio (OR)|39.6|||<|0.0001|TWO_SIDED|95.0|8.19|191.59|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||191.59|8.19|<0.0001
82369055|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.91||||0.153|TWO_SIDED|95.0|-1.09|6.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||6.91|-1.09|0.153
82369056|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.18||||0.279|TWO_SIDED|95.0|-1.78|6.13||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, Vitality|||6.13|-1.78|0.279
82369057|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.94||||0.584|TWO_SIDED|95.0|-5.04|8.91||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,Vitality|||8.91|-5.04|0.584
82369058|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.15||||0.346|TWO_SIDED|95.0|-3.44|9.73||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.73|-3.44|0.346
82369059|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.97||||0.37|TWO_SIDED|95.0|-3.55|9.48||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.48|-3.55|0.370
82369060|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.94||||0.045|TWO_SIDED|95.0|0.06|5.83||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||5.83|0.06|0.045
82369061|NCT02504671|164446945|OTHER||Mean Difference (Net)|4.11||||0.006|TWO_SIDED|95.0|1.22|7.01||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, PCS|||7.01|1.22|0.006
82369062|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.89||||0.264|TWO_SIDED|95.0|-1.44|5.23||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,PCS|||5.23|-1.44|0.264
82369063|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.55||||0.037|TWO_SIDED|95.0|0.22|6.88||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12,PCS|||6.88|0.22|0.037
82369064|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.16||||0.392|TWO_SIDED|95.0|-2.81|7.14||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||7.14|-2.81|0.392
82369065|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.65||||0.493|TWO_SIDED|95.0|-3.09|6.39||MMRM analysis adjusted for PCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, PCS|||6.39|-3.09|0.493
82369066|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.16||||0.577|TWO_SIDED|95.0|-2.94|5.26||MMRM analysis adjusted for MCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||5.26|-2.94|0.577
82395811|NCT03646305|164502562|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on appearance dissatisfaction||||>0.05
82444704|NCT02905006|164598393|SUPERIORITY||Odds Ratio (OR)|77.27|||<|0.0001|TWO_SIDED|95.0|15.19|392.93|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||392.93|15.19|<0.0001
82369067|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.1||||0.964|TWO_SIDED|95.0|-4.01|4.2||MMRM analysis adjusted for MCS Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, MCS|||4.20|-4.01|0.964
82369068|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.97||||0.37|TWO_SIDED|95.0|-2.35|6.28||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||6.28|-2.35|0.370
82369069|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.25||||0.138|TWO_SIDED|95.0|-1.05|7.54||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, MCS|||7.54|-1.05|0.138
82369070|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.36||||0.667|TWO_SIDED|95.0|-4.85|7.56||MMRM analysis adjusted for Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||7.56|-4.85|0.667
82369071|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.79||||0.203|TWO_SIDED|95.0|-4.85|7.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, MCS|||7.56|-4.85|0.203
82369072|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.45||||0.023|TWO_SIDED|95.0|0.49|6.41||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Bodily pain|||6.41|0.49|0.023
82369073|NCT02504671|164446945|OTHER||Mean Difference (Net)|5.08|||<|0.001|TWO_SIDED|95.0|2.14|8.03||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Bodily pain|||8.03|2.14|<0.001
82369074|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.11||||0.249|TWO_SIDED|95.0|-1.49|5.7||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Bodily pain|||5.70|-1.49|0.249
82369075|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.43||||0.059|TWO_SIDED|95.0|-0.13|6.99||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Bodily pain|||6.99|-0.13|0.059
82369076|NCT02504671|164446945|OTHER||Mean Difference (Net)|4.72||||0.134|TWO_SIDED|95.0|-1.47|10.9||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Bodily pain|||10.90|-1.47|0.134
82369077|NCT02504671|164446945|OTHER||Mean Difference (Net)|5.2||||0.078|TWO_SIDED|95.0|-0.58|10.97||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Bodily pain|||10.97|-0.58|0.078
82369078|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.65||||0.275|TWO_SIDED|95.0|-1.32|4.62||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, General health|||4.62|-1.32|0.275
82369079|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.94||||0.199|TWO_SIDED|95.0|-1.03|4.91||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, General health|||4.91|-1.03|0.199
82369080|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.69||||0.654|TWO_SIDED|95.0|-2.36|3.74||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, General health|||3.74|-2.36|0.654
82426364|NCT01576783|164561735|OTHER|The reported p-value is for the comparison of the change in Cognitive Composite scores between groups (DHA+AA vs. Placebo).||||||0.66||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.66
82529152|NCT00069784|164754684|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.038||||0.2692|TWO_SIDED|95.0|0.972|1.109||The second coprimary outcome was tested at 1% (see above additional information for the first coprimary outcome).|Log Rank|Log-rank test stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, stratified by double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event.|See above additional details provided for the analysis of the first coprimary outcome.||1.109|0.972|0.2692
82529153|NCT00069784|164754685|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.983|||||TWO_SIDED|95.0|0.899|1.076|||||Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, with double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event as covariates.|||1.076|0.899|
82529154|NCT00069784|164754686|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97|||||TWO_SIDED|95.0|0.9|1.047|||||Hazard ratio (glargine/standard care) estimated by Cox regression model with treatment (glargine, standard care) as factor, with double-blind treatment (omega-3 PUFA, placebo), baseline diabetes diagnosis and previous CV event as covariates.|||1.047|0.900|
82369081|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.29||||0.138|TWO_SIDED|95.0|-0.74|5.33||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, General health|||5.33|-0.74|0.138
82369082|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.77||||0.516|TWO_SIDED|95.0|-3.62|7.17||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, General health|||7.17|-3.62|0.516
82369083|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.35||||0.198|TWO_SIDED|95.0|-1.77|8.46||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, General health|||8.46|-1.77|0.198
82369084|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.15||||0.941|TWO_SIDED|95.0|-4.15|3.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Mental health|||3.84|-4.15|0.941
82369085|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.05||||0.979|TWO_SIDED|95.0|-3.94|4.05||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Mental health|||4.05|-3.94|0.979
82369086|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.4||||0.287|TWO_SIDED|95.0|-2.03|6.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Mental health|||6.84|-2.03|0.287
82369087|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.45||||0.125|TWO_SIDED|95.0|-0.96|7.85||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Mental health|||7.85|-0.96|0.125
82369088|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.15||||0.503|TWO_SIDED|95.0|-4.18|8.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Mental health|||8.49|-4.18|0.503
82369089|NCT02504671|164446945|OTHER||Mean Difference (Net)|5.01||||0.099|TWO_SIDED|95.0|-0.96|10.98||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24,Mental health|||10.98|-0.96|0.099
82369090|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.88||||0.268|TWO_SIDED|95.0|-1.45|5.21||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Physical functioning|||5.21|-1.45|0.268
82369091|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.45||||0.147|TWO_SIDED|95.0|-0.87|5.77||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Physical functioning|||5.77|-0.87|0.147
82369092|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.87||||0.145|TWO_SIDED|95.0|-0.99|6.73||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Physical functioning|||6.73|-0.99|0.145
82369093|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.54||||0.014|TWO_SIDED|95.0|0.97|8.61||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Physical functioning|||8.61|0.97|0.014
82369094|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.47||||0.856|TWO_SIDED|95.0|-4.66|5.61||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Physical functioning|||5.61|-4.66|0.856
82369095|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.65||||0.793|TWO_SIDED|95.0|-4.24|5.55||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Physical functioning|||5.55|-4.24|0.793
82369096|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.59||||0.778|TWO_SIDED|95.0|-3.51|4.69||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role emotional|||4.69|-3.51|0.778
82369097|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.6||||0.773|TWO_SIDED|95.0|-4.7|3.5||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role emotional|||3.50|-4.70|0.773
82369098|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.08||||0.631|TWO_SIDED|95.0|-3.34|5.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role emotional|||5.49|-3.34|0.631
82369099|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.68||||0.23|TWO_SIDED|95.0|-1.71|7.07||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role emotional|||7.07|-1.71|0.230
82369100|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.41||||0.901|TWO_SIDED|95.0|-6.03|6.84||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role emotional|||6.84|-6.03|0.901
82369101|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.52||||0.412|TWO_SIDED|95.0|-3.54|8.59||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role emotional|||8.59|-3.54|0.412
82369102|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.88||||0.234|TWO_SIDED|95.0|-1.22|4.98||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role physical|||4.98|-1.22|0.234
82395812|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, body state image satisfaction were equivalent across time||||<0.001
82395813|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure the difference in state body image satisfaction from baseline to post intervention. Null hypothesis: there would be no significant differences in state body image satisfaction from baseline to post intervention.||||<0.05
82395814|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure the difference in state body image satisfaction from post intervention to follow-up. Null hypothesis: there would be no significant differences in state body image satisfaction from post-intervention to follow-up.||||<0.001
82395815|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal body state image satisfaction||||>0.05
82369103|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.66||||0.094|TWO_SIDED|95.0|-0.46|5.77||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Role physical|||5.77|-0.46|0.094
82395816|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal state body satisfaction scores||||>0.05
82444705|NCT02905006|164598393|SUPERIORITY||Odds Ratio (OR)|141.99|||<|0.0001|TWO_SIDED|95.0|26.26|767.72|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||767.72|26.26|<0.0001
82369104|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.43||||0.423|TWO_SIDED|95.0|-2.08|4.94||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role physical|||4.94|-2.08|0.423
82444706|NCT02905006|164598393|SUPERIORITY||Odds Ratio (OR)|58.52|||<|0.0001|TWO_SIDED|95.0|11.89|288.0|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||288.00|11.89|<0.0001
82369105|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.35||||0.061|TWO_SIDED|95.0|-0.16|6.86||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Role physical|||6.86|-0.16|0.061
82369106|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.21||||0.657|TWO_SIDED|95.0|-4.16|6.57||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role physical|||6.57|-4.16|0.657
82369107|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.87||||0.737|TWO_SIDED|95.0|-4.22|5.95||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Role physical|||5.95|-4.22|0.737
82369108|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.95||||0.165|TWO_SIDED|95.0|-1.22|7.11||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Social Functioning|||7.11|-1.22|0.165
82369109|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.4||||0.109|TWO_SIDED|95.0|-0.77|7.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Social Functioning|||7.56|-0.77|0.109
82369110|NCT02504671|164446945|OTHER||Mean Difference (Net)|1.98||||0.359|TWO_SIDED|95.0|-2.26|6.21||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Social Functioning|||6.21|-2.26|0.359
82369111|NCT02504671|164446945|OTHER||Mean Difference (Net)|4.35||||0.043|TWO_SIDED|95.0|0.14|8.56||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Social Functioning|||8.56|0.14|0.043
82369112|NCT02504671|164446945|OTHER||Mean Difference (Net)|-0.33||||0.923|TWO_SIDED|95.0|-7.15|6.49||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Social Functioning|||6.49|-7.15|0.923
82369113|NCT02504671|164446945|OTHER||Mean Difference (Net)|0.3||||0.927|TWO_SIDED|95.0|-6.11|6.7||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Social Functioning|||6.70|-6.11|0.927
82369114|NCT02504671|164446945|OTHER||Mean Difference (Net)|4.64||||0.018|TWO_SIDED|95.0|0.82|8.46||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, Vitality|||8.46|0.82|0.018
82369115|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.34||||0.087|TWO_SIDED|95.0|-0.49|7.17||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 4, Vitality|||7.17|-0.49|0.087
82369116|NCT02504671|164446945|OTHER||Mean Difference (Net)|2.64||||0.193|TWO_SIDED|95.0|-1.35|6.64||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Vitality|||6.64|-1.35|0.193
82369117|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.97||||0.051|TWO_SIDED|95.0|-0.01|7.95||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 12, Vitality|||7.95|-0.01|0.051
82369118|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.36||||0.321|TWO_SIDED|95.0|-3.31|10.02||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions|MMRM||Week 24, Vitality|||10.02|-3.31|0.321
82369119|NCT02504671|164446945|OTHER||Mean Difference (Net)|3.13||||0.328|TWO_SIDED|95.0|-3.18|9.44||MMRM analysis adjusted for Baseline, treatment group, visit, treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, Vitality|||9.44|-3.18|0.328
82369120|NCT02504671|164446946|OTHER||Mean Difference (Net)|-0.65||||0.701|TWO_SIDED|95.0|-3.97|2.67||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||2.67|-3.97|0.701
82369121|NCT02504671|164446946|OTHER||Mean Difference (Net)|1.5||||0.37|TWO_SIDED|95.0|-1.79|4.78||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||4.78|-1.79|0.370
82369122|NCT02504671|164446946|OTHER||Mean Difference (Net)|2.55||||0.125|TWO_SIDED|95.0|-0.71|5.81||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||5.81|-0.71|0.125
82369123|NCT02504671|164446946|OTHER||Mean Difference (Net)|1.92||||0.292|TWO_SIDED|95.0|-1.66|5.5||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||5.50|-1.66|0.292
82426365|NCT01576783|164561735|OTHER|The reported p-value is for the comparison of the change in Language Composite scores between groups (DHA+AA vs. Placebo).||||||0.55||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.55
82369124|NCT02504671|164446946|OTHER||Mean Difference (Net)|6.11||||0.163|TWO_SIDED|95.0|-1.04|6.11||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT sscore|||6.11|-1.04|0.163
82369125|NCT02504671|164446946|OTHER||Mean Difference (Net)|3.08||||0.087|TWO_SIDED|95.0|-0.46|6.61||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||6.61|-0.46|0.087
82369126|NCT02504671|164446946|OTHER||Mean Difference (Net)|0.76||||0.808|TWO_SIDED|95.0|-5.4|6.92||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||6.92|-5.40|0.808
82369127|NCT02504671|164446946|OTHER||Mean Difference (Net)|-0.47||||0.874|TWO_SIDED|95.0|-6.31|5.38||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||5.38|-6.31|0.874
82369128|NCT02504671|164446946|OTHER||Mean Difference (Net)|-0.81||||0.78|TWO_SIDED|95.0|-6.58|4.95||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24,FACIT score|||4.95|-6.58|0.780
82369129|NCT02504671|164446946|OTHER||Mean Difference (Net)|3.57||||0.033|TWO_SIDED|95.0|0.29|6.85||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||6.85|0.29|0.033
82369130|NCT02504671|164446946|OTHER||Mean Difference (Net)|2.81||||0.094|TWO_SIDED|95.0|-0.48|6.1||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, FACIT score|||6.10|-0.48|0.094
82369131|NCT02504671|164446946|OTHER||Mean Difference (Net)|3.92||||0.032|TWO_SIDED|95.0|0.34|7.49||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||7.49|0.34|0.032
82529155|NCT00069784|164754687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.58|0.91|||||Odds ratio estimated using Cochran-Mantel-Haenszel (CMH) test method stratified by double-blind treatment (omega-3 PUFA or placebo) and previous cardiovascular event (yes or no).|||0.91|0.58|
82529156|NCT04466215|164754708|SUPERIORITY||Slope|-0.063|STANDARD_ERROR_OF_MEAN|0.04||0.065|TWO_SIDED|||||One-tail test of directional hypothesis.|Mixed Models Analysis|||Mixed effect model with directional hypothesis that drug reduces strength of craving (VAS). Principle predictor was drug plasma concentration. Arms were combined for this analysis.||||.065
82529157|NCT00697190|164754712|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|97.5|-0.29|0.04|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senoflicon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.04|-0.29|
82529158|NCT00697190|164754713|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|97.5|-0.1|0.06|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.06|-0.10|
82369132|NCT02504671|164446946|OTHER||Mean Difference (Net)|5.33||||0.004|TWO_SIDED|95.0|1.77|8.89||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, FACIT score|||8.89|1.77|0.004
82369133|NCT02504671|164446946|OTHER||Mean Difference (Net)|0.73||||0.808|TWO_SIDED|95.0|-5.19|6.64||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||6.64|-5.19|0.808
82369134|NCT02504671|164446946|OTHER||Mean Difference (Net)|1.87||||0.511|TWO_SIDED|95.0|-3.74|7.48||MMRM analysis adjusted for FACIT Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, FACIT score|||7.48|-3.74|0.511
82369135|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.07||||0.888|TWO_SIDED|95.0|-1.04|0.9||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.90|-1.04|0.888
82369136|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.5||||0.307|TWO_SIDED|95.0|-1.46|0.46||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.46|-1.46|0.307
82369137|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.99||||0.041|TWO_SIDED|95.0|-1.95|-0.04||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||-0.04|-1.95|0.041
82369138|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.64||||0.191|TWO_SIDED|95.0|-1.6|0.32||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||0.32|-1.60|0.191
82369139|NCT02504671|164446947|OTHER||Mean Difference (Net)|-1.2||||0.014|TWO_SIDED|95.0|-2.16|-0.24||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.24|-2.16|0.014
82369140|NCT02504671|164446947|OTHER||Mean Difference (Net)|-1.39||||0.004|TWO_SIDED|95.0|-2.34|-0.45||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.45|-2.34|0.004
82369141|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.36||||0.656|TWO_SIDED|95.0|-1.94|1.23||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.23|-1.94|0.656
82369142|NCT02504671|164446947|OTHER||Mean Difference (Net)|0.07||||0.928|TWO_SIDED|95.0|-1.43|1.57||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.57|-1.43|0.928
82369143|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.2||||0.788|TWO_SIDED|95.0|-1.68|1.28||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||1.28|-1.68|0.788
82369144|NCT02504671|164446947|OTHER||Mean Difference (Net)|-1.26||||0.01|TWO_SIDED|95.0|-2.22|-0.3||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||-0.30|-2.22|0.010
82369145|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.93||||0.059|TWO_SIDED|95.0|-1.89|0.03||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 4, BFI score|||0.03|-1.89|0.059
82369146|NCT02504671|164446947|OTHER||Mean Difference (Net)|-1.44||||0.003|TWO_SIDED|95.0|-2.4|-0.48||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.48|-2.40|0.003
82369147|NCT02504671|164446947|OTHER||Mean Difference (Net)|-1.57||||0.001|TWO_SIDED|95.0|-2.53|-0.62||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 12, BFI score|||-0.62|-2.53|0.001
82369148|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.76||||0.324|TWO_SIDED|95.0|-2.28|0.76||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||0.76|-2.28|0.324
82369149|NCT02504671|164446947|OTHER||Mean Difference (Net)|-0.58||||0.432|TWO_SIDED|95.0|-2.02|0.87||MMRM analysis adjusted for BFI Baseline score, treatment group, visit and treatment group by visit and Baseline by visit interactions.|MMRM||Week 24, BFI score|||0.87|-2.02|0.432
82369150|NCT04280705|164446954|SUPERIORITY||Cox Proportional Hazard|1.29|||<|0.001|TWO_SIDED|95.0|1.12|1.49|||Log Rank|||||1.49|1.12|<0.001
82369151|NCT04280705|164446978|SUPERIORITY|||||||0.058|||||||Barnard's Exact Test|||||||0.058
82369152|NCT04280705|164446979|SUPERIORITY|||||||0.01|||||||Barnard's Exact Test|||||||0.010
82529159|NCT00697190|164754714|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.23|0.1|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival hyperemia.||0.10|-0.23|
82529160|NCT00697190|164754715|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.25|0.04|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.04|-0.25|
82369153|NCT04280705|164446991|SUPERIORITY||Cox Proportional Hazard|1.23||||0.002|TWO_SIDED|95.0|1.08|1.41|||Log Rank|||||1.41|1.08|0.002
82369154|NCT04280705|164446992|SUPERIORITY||Cox Proportional Hazard|1.29|||<|0.001|TWO_SIDED|95.0|1.12|1.48|||Log Rank|||||1.48|1.12|<0.001
82369155|NCT04280705|164446993|SUPERIORITY||Cox Proportional Hazard|1.27|||<|0.001|TWO_SIDED|95.0|1.1|1.46|||Log Rank|||||1.46|1.10|<0.001
82369156|NCT04280705|164446994|SUPERIORITY||Cox Proportional Hazard|1.07|||||TWO_SIDED|95.0|0.73|1.58||||||This analysis is for Asian participants||1.58|0.73|
82369157|NCT04280705|164446994|SUPERIORITY||Cox Proportional Hazard|1.25|||||TWO_SIDED|95.0|0.91|1.72||||||This analysis is for Black or African American participants||1.72|0.91|
82369158|NCT04280705|164446994|SUPERIORITY||Cox Proportional Hazard|1.29|||||TWO_SIDED|95.0|1.06|1.57||||||This analysis is for White participants||1.57|1.06|
82369159|NCT04280705|164446994|SUPERIORITY||Cox Proportional Hazard|1.68|||||TWO_SIDED|95.0|1.1|2.58||||||This analysis is for Race of Other participants||2.58|1.10|
82369160|NCT04280705|164446995|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.1|1.55||||||This analysis is for Not Hispanic or Latino participants||1.55|1.10|
82369161|NCT04280705|164446995|SUPERIORITY||Cox Proportional Hazard|1.28|||||TWO_SIDED|95.0|0.94|1.73||||||This analysis is for Hispanic or Latino participants||1.73|0.94|
82395817|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in state body image satisfaction||||>0.05
82529161|NCT00697190|164754716|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|97.5|-0.16|0.07|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.07|-0.16|
82369162|NCT04280705|164446996|SUPERIORITY||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|1.09|1.56||||||This analysis is for Male participants||1.56|1.09|
82444707|NCT02905006|164598394|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
82529162|NCT00697190|164754717|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|97.5|-0.25|0.14|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in limbal hyperemia.||0.14|-0.25|
82369163|NCT04280705|164446996|SUPERIORITY||Cox Proportional Hazard|1.31|||||TWO_SIDED|95.0|1.03|1.66||||||This analysis is for Female participants||1.66|1.03|
82369164|NCT03222583|164446997|NON_INFERIORITY|The percentage of participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 96% if the lower confidence bound (LCB) of the 2-sided 95% confidence interval (CI) for the percentage was \> 90%.|Percentage of Participants with SVR12|97.2|||||TWO_SIDED|95.0|95.5|98.9||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||98.9|95.5|
82369165|NCT03222583|164446998|NON_INFERIORITY|The percentage of GT1-infected participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 97% if the LCB of the 2-sided 95% CI for the percentage was \> 91%.|Percentage of Participants with SVR12|99.4|||||TWO_SIDED|95.0|98.3|100.0||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||100.0|98.3|
82369166|NCT03222583|164446999|NON_INFERIORITY|The percentage of GT2-infected participants in Arm A with SVR12 was non-inferior to the historical SVR12 rate of 95% if the LCB of the 2-sided 95% CI for the percentage was \> 89%.|Percentage of Participants with SVR12|97.8|||||TWO_SIDED|95.0|95.4|100.0||||||In order to control the Type I error rate, a fixed sequence testing procedure was used for the 3 ranked primary efficacy endpoints. Only if success had been demonstrated for the first primary endpoint was testing to proceed to the second primary endpoint. Similarly, only if success had been demonstrated for the second primary endpoint was testing to proceed to the third primary endpoint.||100.0|95.4|
82369167|NCT01462318|164447080|SUPERIORITY_OR_OTHER||ratio|1.015|||||TWO_SIDED|90.0|0.894|1.153|||||test/reference = midazolam+DAC HYP/midazolam|Pairwise comparison: midazolam. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.153|0.894|
82369168|NCT01462318|164447080|SUPERIORITY_OR_OTHER||ratio|1.005|||||TWO_SIDED|90.0|0.951|1.063|||||test/reference = S-warfarin+DAC HYP/S-warfarin|Pairwise comparison: S-warfarin. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.063|0.951|
82369169|NCT01462318|164447080|SUPERIORITY_OR_OTHER||ratio|0.996|||||TWO_SIDED|90.0|0.88|1.127|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.127|0.880|
82529163|NCT00697190|164754718|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|0.04|0.32|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.32|0.04|
82369170|NCT01462318|164447080|SUPERIORITY_OR_OTHER||ratio|1.032|||||TWO_SIDED|90.0|0.93|1.145|||||test/reference = caffeine+DAC HYP/caffeine|Pairwise comparison: caffeine. Based on linear mixed model with fixed effect for treatment and random effect for participants. Excludes participants with high predose concentration (\>5% of maximum observed concentration \[Cmax\]).||1.145|0.930|
82369171|NCT01462318|164447081|SUPERIORITY_OR_OTHER||ratio|1.012|||||TWO_SIDED|90.0|0.764|1.342|||||test/reference = dextromethorphan+DAC HYP/dextromethorphan|Pairwise comparison: dextromethorphan. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.342|0.764|
82529164|NCT00697190|164754719|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|97.5|-0.26|0.08|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.08|-0.26|
82529165|NCT00697190|164754720|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Median Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.08||||97.5|0.02|0.33|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in corneal staining.||0.33|0.02|
82529166|NCT00697190|164754721|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|97.5|-0.27|0.26|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||0.26|-0.27|
82529167|NCT00697190|164754722|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.34|-0.08|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||-0.08|-0.34|
82529168|NCT00697190|164754723|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|97.5|-0.54|-0.15|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in conjunctival staining.||-0.15|-0.54|
82529169|NCT00697190|164754724|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.33|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.12|0.14|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.14|-0.12|
82529170|NCT00697190|164754725|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|97.5|-0.23|0.05|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.05|-0.23|
82529171|NCT00697190|164754726|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferior margin = 0.33|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|97.5|-0.2|0.02|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus galyfilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to galyfilcon A toric in papillary conjunctivitis.||0.02|-0.20|
82529172|NCT01871558|164754751|SUPERIORITY_OR_OTHER|||||||0.139|||||||Chi-squared|||||||0.139
82529173|NCT01709305|164754762|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|0.19|||||TWO_SIDED|98.34|0.02|0.36||||||Pairwise Comparison||0.36|0.02|
82647914|NCT00386100|165011334|SUPERIORITY_OR_OTHER||Percent difference from metformin|-8.2||||0.138|TWO_SIDED|95.0|-18.04|2.82||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||2.82|-18.04|0.1380
82529174|NCT01709305|164754762|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|0.03|||||TWO_SIDED|98.34|-0.15|0.21||||||Pairwise Comparison||0.21|-0.15|
82369172|NCT01462318|164447089|SUPERIORITY_OR_OTHER||ratio|1.079|||||TWO_SIDED|90.0|0.912|1.276|||||test/reference = midazolam+DAC HYP/midazolam|Pairwise comparison: midazolam. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.276|0.912|
82529175|NCT01709305|164754762|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion are met when the upper limit of the two-sided 98.34% CI for the difference in LS means is less than or equal to the pre-specified non-inferiority margin of 0.3%.|Difference in LS Means|-0.05|||||TWO_SIDED|98.34|-0.23|0.14||||||Pairwise Comparison||0.14|-0.23|
82529176|NCT01709305|164754764|SUPERIORITY_OR_OTHER||Estimate|-8.4|||<|0.001|TWO_SIDED|95.0|-11.1|-6.1|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||-6.1|-11.1|<0.001
82529177|NCT01709305|164754764|SUPERIORITY_OR_OTHER||Estimate|-2.9||||0.072|TWO_SIDED|95.0|-6.1|0.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.3|-6.1|0.072
82529178|NCT01709305|164754764|SUPERIORITY_OR_OTHER||Estimate|-5.3|||<|0.001|TWO_SIDED|95.0|-8.3|-2.5|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||-2.5|-8.3|<0.001
82529179|NCT01709305|164754765|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.158|TWO_SIDED|95.0|-0.3|1.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.3|-0.3|0.158
82529180|NCT01709305|164754765|SUPERIORITY_OR_OTHER||Estimate|0.0|||>|0.999|TWO_SIDED|95.0|-0.7|0.7|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.7|-0.7|>0.999
82529181|NCT01709305|164754765|SUPERIORITY_OR_OTHER||Estimate|0.2||||0.318|TWO_SIDED|95.0|-0.5|1.0|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.0|-0.5|0.318
82395818|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in state body image satisfaction across time.||||>0.05
82395819|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on state body image satisfaction||||>0.05
82395820|NCT03646305|164502563|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance alpha level.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between four conditions on state body image satisfaction||||>0.05
82395821|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, state body image satisfaction were equivalent across time.||||<0.001
82395822|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||A paired sample t-test was conducted to measure differences in anxious mood from baseline to post-intervention. Null hypothesis: there would be no significant difference in anxious mood from baseline to post-intervention.||||<0.001
82395823|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in anxious mood from post-intervention to follow-up. Null hypothesis: there would be no significant difference in anxious mood from post-intervention to follow-up||||>0.05
82426366|NCT01576783|164561735|OTHER|The reported p-value is for the comparison of the change in Motor Composite scores between groups (DHA+AA vs. Placebo).||||||0.88||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||A sample of 448 was planned to achieve \>80% power to detect a 4.2-point difference (0.27-standard deviation (SD)) in Bayley-III cognitive composite scores with 10% loss to follow-up.The investigational product manufacturer discontinued production once 377 were enrolled, thereby capping enrollment. That sample provided 80% power to detect a 0.29-SD difference in Bayley-III scores.||||.88
82529182|NCT01709305|164754766|SUPERIORITY_OR_OTHER||Estimate|0.0||||0.998|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.9|-0.9|0.998
82529183|NCT01709305|164754766|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.319|TWO_SIDED|95.0|-1.0|0.5|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.5|-1.0|0.319
82529184|NCT01709305|164754766|SUPERIORITY_OR_OTHER||Estimate|0.0||||0.999|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.9|-0.9|0.999
82529185|NCT01709305|164754767|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.651|TWO_SIDED|95.0|-1.3|0.8|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.8|-1.3|0.651
82529186|NCT01709305|164754767|SUPERIORITY_OR_OTHER||Estimate|-0.2||||0.66|TWO_SIDED|95.0|-1.3|0.8|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.8|-1.3|0.660
82529187|NCT01709305|164754767|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.48|TWO_SIDED|95.0|-0.8|1.6|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.6|-0.8|0.480
82529188|NCT01709305|164754768|SUPERIORITY_OR_OTHER||Estimate|0.4||||0.158|TWO_SIDED|95.0|-0.3|1.3|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.3|-0.3|0.158
82529189|NCT01709305|164754768|SUPERIORITY_OR_OTHER||Estimate|0.0|||>|0.999|TWO_SIDED|95.0|-0.7|0.7|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||0.7|-0.7|>0.999
82395824|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of anxiety||||>0.05
82395825|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of anxiety||||>0.05
82529190|NCT01709305|164754768|SUPERIORITY_OR_OTHER||Estimate|0.2||||0.318|TWO_SIDED|95.0|-0.5|1.0|||Miettinen & Nurminen|||Difference in % vs. Glimepiride||1.0|-0.5|0.318
82529191|NCT02294474|164754769|NON_INFERIORITY|Non-inferiority of SAR342434 over Humalog was demonstrated if upper bound of 2-sided 95% confidence interval(CI) of difference between SAR342434 \& Humalog was \<0.3%.Inverse non-inferiority of Humalog over SAR342434 was tested using hierarchical step-down testing procedure: if non-inferiority of SAR342434 over Humalog was demonstrated,then inverse non-inferiority of Humalog over SAR342434 was tested and demonstrated if lower bound of 2-sided 95% CI of difference between SAR342434 \& Humalog\>-0.3%.|Least Square (LS) Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.215|0.067|||||SAR342434 vs. Humalog|Analysis was performed using a MMRM approach with treatment groups, randomization strata, visit (Week 12, Week 26) and treatment-by-visit interaction as fixed categorical effects and baseline HbA1c value and baseline HbA1c value-by-visit interaction as continuous fixed covariates. An unstructured correlation matrix was used to model within-participant errors.||0.067|-0.215|
82529192|NCT05473000|164754792|SUPERIORITY|||||||0.092|||||||t-test, 2 sided|||||||0.092
82369173|NCT01462318|164447089|SUPERIORITY_OR_OTHER||ratio|1.012|||||TWO_SIDED|90.0|0.952|1.075|||||test/reference = S-warfarin+DAC HYP/S-warfarin|Pairwise comparison: S-warfarin. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.075|0.952|
82369174|NCT01462318|164447089|SUPERIORITY_OR_OTHER||ratio|1.058|||||TWO_SIDED|90.0|0.804|1.392|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.392|0.804|
82369175|NCT01462318|164447089|SUPERIORITY_OR_OTHER||ratio|1.116|||||TWO_SIDED|90.0|1.005|1.238|||||test/reference = caffeine+DAC HYP/caffeine|Pairwise comparison: caffeine. Based on linear mixed model with fixed effect for treatment and random effect for participants. Excludes participants with high predose concentration (\>5% of Cmax).||1.238|1.005|
82369176|NCT01462318|164447091|SUPERIORITY_OR_OTHER||ratio|0.878|||||TWO_SIDED|90.0|0.697|1.105|||||test/reference = omeprazole+DAC HYP/omeprazole|Pairwise comparison: omeprazole. Based on linear mixed model with fixed effect for treatment and random effect for participants.||1.105|0.697|
82369177|NCT02227147|164447095|SUPERIORITY||Difference in percentage|40.4|||=|0.006|TWO_SIDED|90.0|14.2|66.6|||Chi-squared|||||66.6|14.2|=0.006
82426367|NCT01576783|164561736|OTHER|The reported p-value is for the comparison of the change in Nocturnal Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.11||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||.11
82529193|NCT02714205|164754794|SUPERIORITY||Model generated Least Square Mean|-0.54||||0.34|TWO_SIDED|95.0|-1.66|0.58|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.58|-1.66|0.34
82529194|NCT02714205|164754795|SUPERIORITY||Model generated Least Square Mean|0.51||||0.88|TWO_SIDED|95.0|-6.15|7.18|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix.|Model generated LS Mean Differences|||7.18|-6.15|0.88
82369178|NCT02227147|164447096|SUPERIORITY||Difference in percentage|36.1|||=|0.013|TWO_SIDED|95.0|9.4|62.7|||Chi-squared|||||62.7|9.4|=0.013
82369179|NCT02227147|164447097|SUPERIORITY||difference in percentage|19.0|||=|0.191|TWO_SIDED|95.0|-9.0|47.1|||Chi-squared|||week 4 - central reviewer||47.1|-9.0|=0.191
82369180|NCT02227147|164447097|SUPERIORITY||difference in percentage|10.7|||=|0.464|TWO_SIDED|95.0|-17.7|39.1|||Chi-squared|||week 6 - central reviewer||39.1|-17.7|=0.464
82369181|NCT02227147|164447097|SUPERIORITY||difference in percentage|14.9|||=|0.308|TWO_SIDED|95.0|-13.4|43.1|||Chi-squared|||week 4 - investigator||43.1|-13.4|=0.308
82369182|NCT02227147|164447097|SUPERIORITY||difference in percentage|23.6|||=|0.106|TWO_SIDED|95.0|-4.2|51.3|||Chi-squared|||week 6 - investigator||51.3|-4.2|=0.106
82369183|NCT02227147|164447098|SUPERIORITY||difference in percentage|9.5|||=|0.255|TWO_SIDED|95.0|-6.9|25.9|||Chi-squared|||week 4||25.9|-6.9|=0.255
82369184|NCT02227147|164447098|SUPERIORITY||difference in percentage|0.8|||=|0.927|TWO_SIDED|95.0|-15.6|17.1|||Chi-squared|||week 6||17.1|-15.6|=0.927
82369185|NCT02227147|164447098|SUPERIORITY||difference in percentage|18.6|||=|0.062|TWO_SIDED|95.0|-0.7|37.8|||Chi-squared|||week 8||37.8|-0.7|=0.062
82369186|NCT02227147|164447099|SUPERIORITY||difference in least square means|1.1|||=|0.745|TWO_SIDED|95.0|-5.6|7.7|||ANCOVA|||||7.7|-5.6|=0.745
82369187|NCT02227147|164447100|SUPERIORITY||difference in percentage|-3.8|||=|0.672|TWO_SIDED|95.0|-21.3|13.7|||Chi-squared|||week 4||13.7|-21.3|=0.672
82529195|NCT02714205|164754796|SUPERIORITY||Model generated Least Square Mean|-0.2||||0.57|TWO_SIDED|95.0|-0.88|0.48|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.48|-0.88|0.57
82529196|NCT02714205|164754797|SUPERIORITY||Model generated Least Square Mean Differ|-0.09||||0.81|TWO_SIDED|95.0|-0.8|0.63|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.63|-0.8|0.81
82529197|NCT02714205|164754798|SUPERIORITY||Model generated Least Square Mean Differ|0.43||||0.3|TWO_SIDED|95.0|-0.38|1.23|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||1.23|-0.38|0.3
82575770|NCT03004404|164861077|OTHER||Geometric mean ratio T2/R (%)|180.53|STANDARD_ERROR_OF_MEAN|1.059|||TWO_SIDED|90.0|162.369|200.732|||||Standard error of the mean is the geometric standard error of the mean. The geometric mean ratio was calculated as: tablet in fed state (test treatment T2)/tablet in fasted state (reference treatment R), T2/R.|Estimation of relative bioavailability of Cmax was based on ANOVA model on the logarithmic scale, included effects: 'sequence', 'period' and 'treatment' as fixed and 'subjects within sequences' as random|Relative bioavailability of BI 730357 for tablet fasted (T2) vs. tablet fasted (R) was assessed by the point estimators (geometric means) of the intra-subject ratio of Cmax and their two-sided 90% confidence intervals . No hypothesis was tested.|200.732|162.369|
82575771|NCT02103114|164861080|EQUIVALENCE|T1 (Baseline)||||||0.982|||||||t-test, 2 sided|||||||0.982
82647915|NCT00386100|165011335|SUPERIORITY_OR_OTHER||Percent difference from metformin|-11.308||||0.0342|TWO_SIDED|95.0|-20.617|-0.899||No adjustment for multiple comparisons. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||-0.899|-20.617|0.0342
82369188|NCT02227147|164447100|SUPERIORITY||difference in percentage|0.5|||=|0.955|TWO_SIDED|95.0|-18.5|19.6|||Chi-squared|||week 6||19.6|-18.5|=0.955
82369189|NCT02227147|164447100|SUPERIORITY||difference in percentage|-3.6|||=|0.727|TWO_SIDED|95.0|-23.9|16.7|||Chi-squared|||week 8||16.7|-23.9|=0.727
82369190|NCT02227147|164447101|SUPERIORITY||least square mean difference|0.6|||=|0.207|TWO_SIDED|95.0|-0.4|1.5|||ANCOVA|||||1.5|-0.4|=0.207
82369191|NCT02227147|164447102|SUPERIORITY||difference in percentage|-13.3|||=|0.11|TWO_SIDED|95.0|-30.5|3.9|||Chi-squared|||||3.9|-30.5|=0.110
82369192|NCT03347422|164447104|SUPERIORITY||Odds Ratio (OR)|15.94|||<|0.001|TWO_SIDED|95.0|2.88|88.04||Threshold for significance was 0.05.|Cochran-Mantel-Haenszel||Stratified by baseline hemoglobin (\< median versus \>=median) and geographic region (Asia/Other, North America, and Europe).|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when primary outcome measure was statistically significant at two-sided 0.05 level.||88.04|2.88|<0.001
82369193|NCT03347422|164447106|SUPERIORITY||LS mean difference|2.56|STANDARD_ERROR_OF_MEAN|0.408|<|0.001|TWO_SIDED|95.0|1.75|3.38||Threshold of significance at 0.05 level.|Mixed model for repeated measures|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||3.38|1.75|<0.001
82369194|NCT03347422|164447107|SUPERIORITY||LS mean difference|8.93|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|4.0|13.85||Threshold of significance at 0.05 level.|Mixed model for repeated measures|||A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||13.85|4.00|<0.001
82369195|NCT03709823|164447122|SUPERIORITY||LS Mean Difference vs. Placebo|-20.48||||0.0002|TWO_SIDED|95.0|-31.141|-9.821||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-9.821|-31.141|0.0002
82529198|NCT02714205|164754799|SUPERIORITY||Model generated Least Square Mean Differ|0.4||||0.68|TWO_SIDED|95.0|-1.52|2.32|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||2.32|-1.52|0.68
82369196|NCT03709823|164447122|SUPERIORITY||LS Mean Difference vs. Placebo|-22.07|||<|0.0001|TWO_SIDED|95.0|-32.791|-11.342||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-11.342|-32.791|< 0.0001
82369197|NCT03709823|164447122|SUPERIORITY||LS Mean Difference vs. Placebo|-5.9||||0.2708|TWO_SIDED|95.0|-16.463|4.66||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||4.660|-16.463|0.2708
82444708|NCT02905006|164598394|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
82529199|NCT02714205|164754800|SUPERIORITY||Model generated Least Square Mean Differ|-0.83||||0.12|TWO_SIDED|95.0|-1.89|0.23|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.23|-1.89|0.12
82575772|NCT02103114|164861080|EQUIVALENCE|T2 (30 minutes after study drug)|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82575773|NCT02103114|164861080|EQUIVALENCE|T3 (30 minutes on CPB)||||||0.001|||||||t-test, 2 sided|||||||0.001
82575774|NCT02103114|164861080|EQUIVALENCE|T5 (Arrival in ICU)||||||0.003|||||||t-test, 2 sided|||||||0.003
82575775|NCT02103114|164861080|EQUIVALENCE|T6 (POD 2)||||||0.84|||||||t-test, 2 sided|||||||0.840
82575776|NCT02103114|164861080|EQUIVALENCE|T7 (POD 4)||||||0.475|||||||t-test, 2 sided|||||||0.475
82575777|NCT02103114|164861081|EQUIVALENCE|T4 (just prior to coming off of CPB)||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
82369198|NCT03709823|164447122|SUPERIORITY||LS Mean Difference vs. Placebo|-2.81||||0.6018|TWO_SIDED|95.0|-13.438|7.82||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||7.820|-13.438|0.6018
82529200|NCT02714205|164754801|SUPERIORITY||Model generated Least Square Mean Differ|-1.41||||0.25|TWO_SIDED|95.0|-3.81|0.99|||Mixed Models Analysis|Mixed Models adjusted for baseline value, age, race, and Hispanic ethnicity. Repeated measures mixed models, with unstructured co-variance matrix|Model generated LS Mean Differences|||0.99|-3.81|0.25
82369199|NCT03709823|164447122|SUPERIORITY||LS Mean Difference vs. Commercial Sched.|-12.17||||0.1025|TWO_SIDED|95.0|-26.869|2.535||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||2.535|-26.869|0.1025
82369200|NCT03709823|164447123|SUPERIORITY||LS Mean Difference vs. Placebo|-14.61||||0.001|TWO_SIDED|95.0|-23.216|-6.009||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-6.009|-23.216|0.0010
82369201|NCT03709823|164447123|SUPERIORITY||LS Mean Difference vs. Placebo|-16.2||||0.0003|TWO_SIDED|95.0|-24.862|-7.548||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-7.548|-24.862|0.0003
82369202|NCT03709823|164447124|SUPERIORITY||LS Mean Difference vs. Placebo|-12.41||||0.0091|TWO_SIDED|95.0|-21.695|-3.135||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||-3.135|-21.695|0.0091
82369203|NCT03709823|164447124|SUPERIORITY||LS Mean Difference vs. Placebo|-9.3||||0.0518|TWO_SIDED|95.0|-18.667|0.075||Based on analysis of variance models with percent of expected cigarettes smoked as the dependent variable, treatment and body mass index class as main fixed effects, with covariate of baseline cigarettes.|ANOVA|||||0.075|-18.667|0.0518
82369204|NCT00158600|164447142|SUPERIORITY_OR_OTHER||Difference|28.12||||0.0347||95.0|2.07|54.17||The threshold for determining statistical significance is 0.05. A fixed testing sequence procedure was used to preserve an overall error rate of 5% for the co-primary efficacy endpoints by linking the test of FVC to the result of 6MWT.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in distance walked from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||54.17|2.07|0.0347
82369205|NCT00158600|164447143|SUPERIORITY_OR_OTHER||Difference|3.4||||0.0055||95.0|1.03|5.77||The threshold for determining statistical significance is 0.05. A fixed testing sequence procedure was used to preserve an overall error rate of 5% for the co-primary efficacy endpoints by linking the test of FVC to the result of 6MWT.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in % predicted FVC from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||5.77|1.03|0.0055
82369206|NCT00158600|164447144|SUPERIORITY_OR_OTHER||Difference|3.18||||0.1093||95.0|-0.73|7.08||The threshold for determining statistical significance is 0.05. No adjustment for multiple comparison was made for secondary efficacy endpoints.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in QMT from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||7.08|-0.73|0.1093
82529201|NCT05879198|164754804|SUPERIORITY|||||||0.473|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.473
82369207|NCT00158600|164447145|SUPERIORITY_OR_OTHER||Difference|-0.37||||0.8333||95.0|-3.83|3.09||The threshold for determining statistical significance is 0.05. No adjustment for multiple comparison was made for secondary efficacy endpoints.|ANCOVA|||The difference between alglucosidase alfa and placebo treatment groups in change in PCS from baseline to last observation was estimated by ANCOVA after adjusting for baseline value and randomization strata.||3.09|-3.83|0.8333
82369208|NCT02737332|164447189|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio of treatments|1.019||||0.4879|TWO_SIDED|90.0|0.964|1.077||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.077|0.964|0.4879
82369209|NCT02737332|164447190|OTHER|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.994||||0.3642|TWO_SIDED|90.0|0.0451|2.192||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||2.192|0.0451|0.3642
82426368|NCT01576783|164561736|OTHER|The reported p-value is for the comparison of the change in daytime sleep duration between groups (DHA+AA vs. Placebo).||||||0.47||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||0.47
82529202|NCT05879198|164754805|SUPERIORITY|||||||0.469|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.469
82529203|NCT05879198|164754806|SUPERIORITY|||||||0.155|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.155
82529204|NCT05879198|164754807|SUPERIORITY|||||||0.346|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in total scale scores.||||.346
82575778|NCT02103114|164861082|EQUIVALENCE|T1 (Baseline)||||||0.855|||||||Wilcoxon (Mann-Whitney)|||||||0.855
82575779|NCT02103114|164861082|EQUIVALENCE|T5 (Arrival in ICU)||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
82575780|NCT02103114|164861082|EQUIVALENCE|T6 (POD 2)||||||0.313|||||||Wilcoxon (Mann-Whitney)|||||||0.313
82575781|NCT02103114|164861082|EQUIVALENCE|T7 (POD 4)||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82369210|NCT02737332|164447190|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.81||||0.4069|TWO_SIDED|90.0|0.338|1.939||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.939|0.338|0.4069
82369211|NCT02737332|164447190|EQUIVALENCE|One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|Geometric mean ratio|1.039||||0.7186|TWO_SIDED|90.0|0.412|2.617||The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||2.617|0.412|0.7186
82369212|NCT02737332|164447191|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82369213|NCT02737332|164447192|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|0.999||||0.9211|TWO_SIDED|90.0|0.98|1.018||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.||ANOVA-model-based Least-Square Mean|1.018|0.980|0.9211
82369214|NCT02737332|164447192|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|1.168||||0.3037|TWO_SIDED|90.0|0.9|1.515||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.515|0.900|0.3037
82369215|NCT02737332|164447192|EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.0||One-way ANOVA model with treatment as the independent variable, and the least-square means and standard error of Testosterone levels under each treatment and the between-treatment difference in LS means was reported.|ANOVA||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|||1.000|1.000|
82369216|NCT02737332|164447193|OTHER|||||||0.5495|||||||ANOVA|||||||0.5495
82369217|NCT02737332|164447193|OTHER|||||||0.2616|||||||ANOVA|||||||0.2616
82369218|NCT02737332|164447193|OTHER|||||||0.3632|||||||ANOVA|||||||0.3632
82369219|NCT02737332|164447193|OTHER|||||||0.3393|||||||ANOVA|||||||0.3393
82426369|NCT01576783|164561736|OTHER|The reported p-value is for the comparison of the change in total sleep duration between groups (DHA+AA vs. Placebo).||||||0.32||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed effects regression that leveraged maximum likelihood to include missing data.||||||0.32
82369220|NCT02737332|164447197|OTHER|||||||0.1917|||||||ANOVA|||||||0.1917
82369221|NCT02992418|164447218|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMCs between groups (Group 1/ Group 2) was greater than (\>) 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|0.848|||||TWO_SIDED|95.0|0.721|0.997||||||Anti-PT||0.997|0.721|
82369222|NCT02992418|164447218|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.892|1.18||||||Anti-FHA||1.18|0.892|
82369223|NCT02992418|164447218|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.11|||||TWO_SIDED|95.0|0.836|1.46||||||Anti-PRN||1.46|0.836|
82369224|NCT02992418|164447218|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMCs between groups (Group 1/ Group 2) was \> 1/1.5 for each antigen. Overall non-inferiority was demonstrated if the 4 antigens achieved non-inferiority.|GMC ratio|1.05|||||TWO_SIDED|95.0|0.827|1.33||||||Anti-FIM2+3||1.33|0.827|
82426370|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in weight-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.99||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.99
82369225|NCT02992418|164447219|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the percentage difference was \> -10% for all antigens.|Percentage difference|0.26|||||TWO_SIDED|95.0|-4.53|5.04||||||Anti-D||5.04|-4.53|
82369226|NCT02992418|164447219|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of all the 95% CI of the percentage difference was \> -10% for all antigens.|Percentage difference|-0.66|||||TWO_SIDED|95.0|-2.87|1.37||||||Anti-T||1.37|-2.87|
82369227|NCT02992418|164447220|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.862|1.44||||||Serotype 1||1.44|0.862|
82369228|NCT02992418|164447220|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|1.19|||||TWO_SIDED|95.0|0.97|1.47||||||Serotype 2||1.47|0.97|
82575782|NCT02103114|164861085|EQUIVALENCE|T1 (Baseline) to T5 (Arrival in ICU)||||||0.056|||||||Wilcoxon (Mann-Whitney)|||||||0.056
82529205|NCT05879198|164754809|SUPERIORITY|||||||0.075|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in AEQ-positive scale scores.||||.075
82369229|NCT02992418|164447220|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.925|||||TWO_SIDED|95.0|0.739|1.16||||||Serotype 3||1.16|0.739|
82369230|NCT02992418|164447220|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 1/Group 2) was \> 1/2 for each serotype. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.802|||||TWO_SIDED|95.0|0.644|0.999||||||Serotype 4||0.999|0.644|
82369231|NCT05472662|164447238|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|1.86||||0.113|TWO_SIDED|95.0|-0.48|4.2|||ANCOVA|||"Statistical analysis performed on the data at 15 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||4.20|-0.48|0.113
82529206|NCT05879198|164754809|SUPERIORITY|||||||0.32|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in AEQ-negative scale scores.||||.320
82644406|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.289||||0.8557|TWO_SIDED|95.0|-0.988|0.41|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.410|-0.988|0.8557
82644407|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.027||||1|TWO_SIDED|95.0|-0.713|0.658|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.658|-0.713|1.0000
82644408|NCT03692078|165004011|EQUIVALENCE|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.084||||1|TWO_SIDED|95.0|-0.612|0.78|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-MHBMA amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.780|-0.612|1.0000
82644409|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.081|||<|0.0001|TWO_SIDED|95.0|0.679|1.484|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.484|0.679|<.0001
82644410|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.309|||<|0.0001|TWO_SIDED|95.0|0.902|1.716|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.716|0.902|<.0001
82644411|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.996|||<|0.0001|TWO_SIDED|95.0|0.615|1.377|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.377|0.615|<.0001
82647916|NCT00386100|165011336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-33.7||||0.0042|TWO_SIDED|95.0|-56.666|-0.99||No adjustment for multiple comparisons.|ANCOVA|ANCOVA with terms for treatment, region, gender, pre-screening HbA1c strata, and baseline.|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.99|-56.666|0.0042
82529207|NCT05879198|164754809|SUPERIORITY|||||||0.049|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in MEEQ-positive scale scores.||||.049
82529208|NCT05879198|164754809|SUPERIORITY|||||||0.089|||||||t-test, 1 sided|||Paired samples, one-sided t-test comparing changes in MEEQ-negative scale scores.||||.089
82529209|NCT01693692|164754819|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.25||0.1683|ONE_SIDED|95.0||0.2|||ANCOVA|||||0.2||0.1683
82529210|NCT01693692|164754819|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.25||0.0277|ONE_SIDED|95.0||-0.1|||ANCOVA|||||-0.1||0.0277
82369232|NCT05472662|164447239|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|0.58||||0.483|TWO_SIDED|95.0|-1.1|2.25|||ANCOVA|||"Statistical analysis performed on the data at 5 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||2.25|-1.10|0.483
82369233|NCT05472662|164447239|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|0.23||||0.782|TWO_SIDED|95.0|-1.45|1.9|||ANCOVA|||"Statistical analysis performed on the data at 30 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||1.90|-1.45|0.782
82369234|NCT05472662|164447239|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.4||||0.599|TWO_SIDED|95.0|-1.97|1.16|||ANCOVA|||"Statistical analysis performed on the data at 1 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||1.16|-1.97|0.599
82369235|NCT05472662|164447239|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.13||||0.815|TWO_SIDED|95.0|-1.24|0.99|||ANCOVA|||"Statistical analysis performed on the data at 1.5 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||0.99|-1.24|0.815
82369236|NCT05472662|164447239|EQUIVALENCE|Equivalence was demonstrated if the 95% CI of the adjusted mean difference in relative change from baseline in FEV1 between HFA-152a and HFA-134a was within the equivalence limits \[-10% ; +10%\].|Adjusted mean difference|-0.69||||0.294|TWO_SIDED|95.0|-2.01|0.64|||ANCOVA|||"Statistical analysis performed on the data at 3 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject, and period as fixed effects and FEV1 baseline as covariate."||0.64|-2.01|0.294
82369237|NCT05472662|164447240|OTHER||Adjusted mean difference|0.015||||0.519|TWO_SIDED|95.0|-0.032|0.061|||ANCOVA|||"Statistical analysis performed on the data at 5 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.061|-0.032|0.519
82369238|NCT05472662|164447240|OTHER||Adjusted mean difference|0.061||||0.085|TWO_SIDED|95.0|-0.009|0.13|||ANCOVA|||"Statistical analysis performed on the data at 15 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.130|-0.009|0.085
82369239|NCT05472662|164447240|OTHER||Adjusted mean difference|0.004||||0.858|TWO_SIDED|95.0|-0.045|0.054|||ANCOVA|||"Statistical analysis performed on the data at 30 min post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.054|-0.045|0.858
82369240|NCT05472662|164447240|OTHER||Adjusted mean difference|-0.011||||0.632|TWO_SIDED|95.0|-0.058|0.036|||ANCOVA|||"Statistical analysis performed on the data at 1 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.036|-0.058|0.632
82369241|NCT05472662|164447240|OTHER||Adjusted mean difference|-0.003||||0.846|TWO_SIDED|95.0|-0.038|0.031|||ANCOVA|||"Statistical analysis performed on the data at 1.5 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.031|-0.038|0.846
82369242|NCT05472662|164447240|OTHER||Adjusted mean difference|-0.024||||0.282|TWO_SIDED|95.0|-0.068|0.021|||ANCOVA|||"Statistical analysis performed on the data at 3 h post-dose timepoint.~Statistical analysis was performed by means of Analysis of Covariance (ANCOVA) model including treatment group, subject and period as fixed effects and FEV1 baseline as covariate."|Assess differences between treatment groups.|0.021|-0.068|0.282
82369243|NCT02666352|164447253|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.89|2.31||||||||2.31|0.89|
82369244|NCT02666352|164447253|OTHER||Geometric least-squares mean ratio|2.15|||||TWO_SIDED|90.0|1.33|3.47||||||||3.47|1.33|
82369245|NCT02666352|164447254|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.88|2.31||||||||2.31|0.88|
82369246|NCT02666352|164447254|OTHER||Geometric least-squares mean ratio|2.15||||||90.0|1.33|3.48||||||||3.48|1.33|
82369247|NCT02666352|164447255|OTHER||Geometric least-squares mean ratio|1.43|||||TWO_SIDED|90.0|0.89|2.31||||||||2.31|0.89|
82529211|NCT01693692|164754820|SUPERIORITY||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|2.48||0.2637|ONE_SIDED|95.0||2.5|||ANCOVA|||||2.5||0.2637
82369248|NCT02666352|164447255|OTHER||Geometric least-squares mean ratio|2.15|||||TWO_SIDED|90.0|1.33|3.47||||||||3.47|1.33|
82369249|NCT02666352|164447256|OTHER||Geometric least-squares mean ratio|1.32|||||TWO_SIDED|90.0|0.81|2.15||||||||2.15|0.81|
82529212|NCT01693692|164754820|SUPERIORITY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|2.47||0.0097|ONE_SIDED|95.0||-1.7|||ANCOVA|||||-1.7||0.0097
82369250|NCT02666352|164447256|OTHER||Geometric least-squares mean ratio|1.81|||||TWO_SIDED|90.0|1.11|2.94||||||||2.94|1.11|
82529213|NCT01693692|164754821|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.16||0.0639|ONE_SIDED|95.0||0.0|||ANCOVA|||||0.0||0.0639
82529214|NCT01693692|164754821|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.007|ONE_SIDED|95.0||-0.1|||ANCOVA|||||-0.1||0.0070
82575783|NCT02103114|164861086|EQUIVALENCE|T1 (Baseline) to T5 (Arrival in ICU)||||||0.545|||||||Wilcoxon (Mann-Whitney)|||||||0.545
82575784|NCT02103114|164861088|EQUIVALENCE|Baseline (intraoperatively) (Time 1) to before termination of bypass (Time 4)||||||0.757|||||||Wilcoxon (Mann-Whitney)|||||||0.757
82529215|NCT00663117|164754849|SUPERIORITY_OR_OTHER|||||||0.009||||||The percentage of subjects achieving a 70-point drop in CDAI score in naltrexone treated subjects was the percentage acheiving the same drop in the placebo controls|Fisher Exact|||The proportion of those achieving a response with a 70-point decline in CDAI score was compared between naltrexone and placebo treated subjects using the Fisher's exact test. Analysis was performed with the intent-to-treat criteria. Clinical significance was accepted if the difference met 95% confidence (p\<0.05).||||0.009
82369251|NCT02666352|164447262|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.58|1.1||||||||1.10|0.58|
82369252|NCT02666352|164447262|OTHER||Geometric least-squares mean ratio|0.84|||||TWO_SIDED|90.0|0.61|1.16||||||||1.16|0.61|
82369253|NCT02666352|164447263|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.58|1.11||||||||1.11|0.58|
82369254|NCT02666352|164447263|OTHER||Geometric least-squares mean ratio|0.86||||||90.0|0.62|1.18||||||||1.18|0.62|
82369255|NCT02666352|164447264|OTHER||Geometric least-squares mean ratio|0.77|||||TWO_SIDED|90.0|0.57|1.05||||||||1.05|0.57|
82369256|NCT02666352|164447264|OTHER||Geometric least-squares mean ratio|0.73|||||TWO_SIDED|90.0|0.54|0.99||||||||0.99|0.54|
82369257|NCT02666352|164447265|OTHER||Geometric least-squares mean ratio|0.83|||||TWO_SIDED|90.0|0.61|1.13||||||||1.13|0.61|
82369258|NCT02666352|164447265|OTHER||Geometric least-squares mean ratio|0.75|||||TWO_SIDED|90.0|0.55|1.01||||||||1.01|0.55|
82369259|NCT02666352|164447266|OTHER||Geometric least-squares mean ratio|0.83|||||TWO_SIDED|90.0|0.6|1.15||||||||1.15|0.60|
82369260|NCT02666352|164447266|OTHER||Geometric least-squares mean ratio|0.82|||||TWO_SIDED|90.0|0.59|1.13||||||||1.13|0.59|
82369261|NCT02666352|164447270|OTHER||Geometric least-squares mean ratio|0.68|||||TWO_SIDED|90.0|0.52|0.9||||||||0.90|0.52|
82369262|NCT02666352|164447270|OTHER||Geometric least-squares mean ratio|0.66|||||TWO_SIDED|90.0|0.5|0.86||||||||0.86|0.50|
82369263|NCT02666352|164447271|OTHER||Geometric least-squares mean ratio|0.64|||||TWO_SIDED|90.0|0.48|0.86||||||||0.86|0.48|
82369264|NCT02666352|164447271|OTHER||Geometric least-squares mean ratio|0.61||||||90.0|0.46|0.82||||||||0.82|0.46|
82369265|NCT02666352|164447272|OTHER||Geometric least-squares mean ratio|0.79|||||TWO_SIDED|90.0|0.62|1.01||||||||1.01|0.62|
82369266|NCT02666352|164447272|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.63|1.02||||||||1.02|0.63|
82369267|NCT02666352|164447273|OTHER||Geometric least-squares mean ratio|0.8|||||TWO_SIDED|90.0|0.61|1.05||||||||1.05|0.61|
82369268|NCT02666352|164447273|OTHER||Geometric least-squares mean ratio|0.78|||||TWO_SIDED|90.0|0.6|1.03||||||||1.03|0.60|
82369269|NCT02666352|164447274|OTHER||Geometric least-squares mean ratio|0.71|||||TWO_SIDED|90.0|0.57|0.89||||||||0.89|0.57|
82369270|NCT02666352|164447274|OTHER||Geometric least-squares mean ratio|0.73|||||TWO_SIDED|90.0|0.58|0.91||||||||0.91|0.58|
82369271|NCT02666352|164447277|OTHER||Geometric least-squares mean ratio (GMR)|1.16|||||TWO_SIDED|90.0|0.85|1.58||||||||1.58|0.85|
82369272|NCT02666352|164447277|OTHER||Geometric least-squares mean ratio|1.36|||||TWO_SIDED|90.0|1.0|1.85||||||||1.85|1.00|
82369273|NCT02666352|164447278|OTHER||Geometric least-squares mean ratio|1.24|||||TWO_SIDED|90.0|0.91|1.68||||||||1.68|0.91|
82369274|NCT02666352|164447278|OTHER||Geometric least-squares mean ratio|1.58||||||90.0|1.17|2.14||||||||2.14|1.17|
82369275|NCT02666352|164447279|OTHER||Geometric least-squares mean ratio|0.89|||||TWO_SIDED|90.0|0.6|1.33||||||||1.33|0.60|
82369276|NCT02666352|164447279|OTHER||Geometric least-squares mean ratio|0.9|||||TWO_SIDED|90.0|0.6|1.34||||||||1.34|0.60|
82369277|NCT02666352|164447280|OTHER||Geometric least-squares mean ratio|0.77|||||TWO_SIDED|90.0|0.45|1.3||||||||1.30|0.45|
82369278|NCT02666352|164447280|OTHER||Geometric least-squares mean ratio|0.68|||||TWO_SIDED|90.0|0.4|1.14||||||||1.14|0.40|
82369279|NCT02666352|164447281|OTHER||Geometric least-squares mean ratio|1.2|||||TWO_SIDED|90.0|0.9|1.6||||||||1.60|0.90|
82369280|NCT02666352|164447281|OTHER||Geometric least-squares mean ratio|1.41|||||TWO_SIDED|90.0|1.06|1.87||||||||1.87|1.06|
82369281|NCT04988152|164447286|SUPERIORITY||Ratio of geometric least squares means|1.0724|||||TWO_SIDED|90.0|0.8519|1.35|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||1.3500|0.8519|
82369282|NCT04988152|164447287|OTHER||Ratio of geometric least squares means|1.0513|||||TWO_SIDED|90.0|0.9281|1.1908|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUC(D1-29) as the dependent variable, and ethnicity and body weight were covariates.|||1.1908|0.9281|
82369283|NCT04988152|164447290|OTHER||Ratio of geometric least squares means|1.6999|||||TWO_SIDED|90.0|1.15|2.5129|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||2.5129|1.1500|
82369284|NCT04988152|164447291|OTHER||Ratio of geometric least squares means|1.5869|||||TWO_SIDED|90.0|1.1236|2.2413|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUC(D1-29) as the dependent variable, and ethnicity and body weight were covariates.|||2.2413|1.1236|
82369285|NCT04988152|164447306|OTHER||Ratio of geometric least squares means|1.0724|||||TWO_SIDED|90.0|0.8519|1.35|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||1.3500|0.8519|
82369286|NCT04988152|164447308|OTHER||Ratio of geometric least squares means|1.0673|||||TWO_SIDED|90.0|0.9286|1.2268|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUClast as the dependent variable, and ethnicity and body weight were covariates.|||1.2268|0.9286|
82369287|NCT04988152|164447312|OTHER||Ratio of geometric least squares means|1.6999|||||TWO_SIDED|90.0|1.15|2.5129|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with Cmax as the dependent variable, and ethnicity and body weight were covariates.|||2.5129|1.1500|
82369288|NCT04988152|164447314|OTHER||Ratio of geometric least squares means|1.5766|||||TWO_SIDED|90.0|1.1777|2.1106|||||The ratio of geometric LS means and 90% confidence intervals were obtained from ANCOVA model, with AUClast as the dependent variable, and ethnicity and body weight were covariates|||2.1106|1.1777|
82369289|NCT02701413|164447355|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82369290|NCT02701413|164447359|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82369291|NCT00535587|164447364|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|2.94|<|0.02|TWO_SIDED|95.0|||||ANCOVA|||||||<0.02
82369292|NCT04795908|164447373|NON_INFERIORITY|looking for statistical significant differences between groups||||||0.1997|||||||ANOVA|||||||0.1997
82369293|NCT04795908|164447374|NON_INFERIORITY|looking for statistical significant differences between groups||||||0.076|||||||ANOVA|||||||0.076
82369294|NCT04795908|164447375|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.6228|||||||ANOVA|||||||0.6228
82369295|NCT04795908|164447376|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.8984|||||||ANOVA|||||||0.8984
82369296|NCT04795908|164447377|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.8188|||||||ANOVA|||||||0.8188
82369297|NCT04795908|164447378|NON_INFERIORITY|Looking for statistically significant differences between groups||||||0.0288|||||||ANOVA|||||||0.0288
82369298|NCT04795908|164447379|NON_INFERIORITY|looking for statistically significant differences between groups||||||0.0524|||||||ANOVA|||||||0.0524
82369299|NCT00311311|164447385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.0445|TWO_SIDED|95.0|0.001|0.07||P-value and 95% CI for least square (LS) mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|12 months post-transplant||0.070|0.001|0.0445
82395826|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of anxiety||||>0.05
82369300|NCT00311311|164447385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.0288|TWO_SIDED|95.0|0.004|0.064||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|18 months post-transplant||0.064|0.004|0.0288
82369301|NCT00311311|164447385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.0269|TWO_SIDED|95.0|0.004|0.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|24 months post-transplant||0.060|0.004|0.0269
82369302|NCT00311311|164447385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.097|TWO_SIDED|95.0|-0.005|0.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|36 months post-transplant||0.060|-0.005|0.0970
82369303|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.39|1.09||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 12 Months Post-transplant||1.09|0.39|<.0001
82369304|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.0022|TWO_SIDED|95.0|0.15|0.67||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 12 Months Post-transplant||0.67|0.15|0.0022
82395827|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of anxiety across time||||>0.05
82444709|NCT02905006|164598394|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
82369305|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.1612|TWO_SIDED|95.0|-0.03|0.19||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 12 Months Post-transplant||0.19|-0.03|0.1612
82369306|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.0005|TWO_SIDED|95.0|0.26|0.86||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 12 Months Post-transplant||0.86|0.26|0.0005
82369307|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.0006|TWO_SIDED|95.0|0.3|1.02||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 18 Months Post-transplant||1.02|0.30|0.0006
82369308|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.0126|TWO_SIDED|95.0|0.08|0.61||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 18 Months Post-transplant||0.61|0.08|0.0126
82369309|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.238|TWO_SIDED|95.0|-0.04|0.17||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 18 Months Post-transplant||0.17|-0.04|0.2380
82369310|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0003|TWO_SIDED|95.0|0.27|0.88||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 18 Months Post-transplant||0.88|0.27|0.0003
82369311|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0065|TWO_SIDED|95.0|0.17|1.0||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 24 Months Post-transplant||1.00|0.17|0.0065
82369312|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.0845|TWO_SIDED|95.0|-0.04|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 24 Months Post-transplant||0.60|-0.04|0.0845
82369313|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.3742|TWO_SIDED|95.0|-0.06|0.16||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 24 Months Post-transplant||0.16|-0.06|0.3742
82369314|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0006|TWO_SIDED|95.0|0.27|0.92||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 24 Months Post-transplant||0.92|0.27|0.0006
82369315|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.1488|TWO_SIDED|95.0|-0.16|1.03||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|TC 36 Months Post-transplant||1.03|-0.16|0.1488
82369316|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.546|TWO_SIDED|95.0|-0.33|0.62||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|LDL 36 Months Post-transplant||0.62|-0.33|0.5460
82395828|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of anxiety||||>0.05
82644412|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.728||||0.0003|TWO_SIDED|95.0|0.339|1.116|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.116|0.339|0.0003
82644413|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.987|||<|0.0001|TWO_SIDED|95.0|0.593|1.381|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.381|0.593|<.0001
82644414|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.865|||<|0.0001|TWO_SIDED|95.0|0.475|1.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.254|0.475|<.0001
82647917|NCT00386100|165011337|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.229||||0.0006|TWO_SIDED|95.0|-0.359|-0.099||No adjustment for multiple comparisons.|ANCOVA|ANCOVA with terms for treatment, region, gender, pre-screening HbA1c strata, and baseline|AVM mean change from baseline minus MET mean change from baseline based on ANCOVA model|||-0.099|-0.359|0.0006
82369317|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.7511|TWO_SIDED|95.0|-0.12|0.16||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|HDL 36 Months Post-transplant||0.16|-0.12|0.7511
82369318|NCT00311311|164447388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.0048|TWO_SIDED|95.0|0.2|1.06||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|Tg 36 Months Post-transplant||1.06|0.20|0.0048
82369319|NCT00311311|164447389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78||||0.1757|TWO_SIDED|95.0|-0.36|1.91||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||1.91|-0.36|0.1757
82369320|NCT00311311|164447389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.0509|TWO_SIDED|95.0|0.0|1.89||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.89|-0.00|0.0509
82369321|NCT00311311|164447389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.11||||0.0683|TWO_SIDED|95.0|-0.09|2.31||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||2.31|-0.09|0.0683
82369322|NCT00311311|164447390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-37.47||||0.2741|TWO_SIDED|95.0|-105.79|30.85||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||30.85|-105.79|0.2741
82369323|NCT00311311|164447390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.97||||0.4865|TWO_SIDED|95.0|-77.48|37.53||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||37.53|-77.48|0.4865
82369324|NCT00311311|164447390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.48||||0.9339|TWO_SIDED|95.0|-62.54|57.59||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||57.59|-62.54|0.9339
82369325|NCT00311311|164447391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.4892|TWO_SIDED|95.0|-0.005|0.011||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||0.011|-0.005|0.4892
82369326|NCT00311311|164447391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.0514|TWO_SIDED|95.0|0.0|0.012||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||24 months post-transplant||0.012|-0.000|0.0514
82395829|NCT03646305|164502564|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between the four conditions on levels of anxiety||||>0.05
82647918|NCT00386100|165011338|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.4||||0.7148|TWO_SIDED|95.0|-9.87|16.34||HOMA-B. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||16.34|-9.87|0.7148
82369327|NCT00311311|164447391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.009||||0.118|TWO_SIDED|95.0|-0.002|0.02||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||0.020|-0.002|0.1180
82369328|NCT00311311|164447392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56||||0.0016|TWO_SIDED|95.0|2.2|8.93||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||8.93|2.20|0.0016
82369329|NCT00311311|164447392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.91||||0.0091|TWO_SIDED|95.0|1.01|6.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||6.80|1.01|0.0091
82369330|NCT00311311|164447392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.25||||0.2468|TWO_SIDED|95.0|-1.6|6.1||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||6.10|-1.60|0.2468
82369331|NCT00311311|164447393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.95||||0.5282|TWO_SIDED|95.0|-2.05|3.94||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||3.94|-2.05|0.5282
82369332|NCT00311311|164447393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27||||0.5057|TWO_SIDED|95.0|-2.53|5.07||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||5.07|-2.53|0.5057
82395830|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of depressive mood were equivalent across time.||||<0.001
82369333|NCT00311311|164447393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59||||0.5701|TWO_SIDED|95.0|-4.0|7.18||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||7.18|-4.00|0.5701
82369334|NCT00311311|164447395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.028|TWO_SIDED|95.0|0.03|0.48||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||12 months post-transplant||0.48|0.03|0.0280
82369335|NCT00311311|164447395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.019|TWO_SIDED|95.0|0.04|0.48||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||24 months post-transplant||0.48|0.04|0.0190
82369336|NCT00311311|164447395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.1182|TWO_SIDED|95.0|-0.07|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|||36 months post-transplant||0.60|-0.07|0.1182
82369337|NCT00311311|164447396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.7361|TWO_SIDED|95.0|-2.09|1.49||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||1.49|-2.09|0.7361
82369338|NCT00311311|164447396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.5549|TWO_SIDED|95.0|-2.32|1.26||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.26|-2.32|0.5549
82369339|NCT00311311|164447396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.6058|TWO_SIDED|95.0|-3.69|2.17||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||2.17|-3.69|0.6058
82369340|NCT00311311|164447397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.5902|TWO_SIDED|95.0|-1.63|2.84||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||2.84|-1.63|0.5902
82369341|NCT00311311|164447397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.7536|TWO_SIDED|95.0|-2.68|1.95||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||1.95|-2.68|0.7536
82369342|NCT00311311|164447397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33||||0.4066|TWO_SIDED|95.0|-4.53|1.86||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||1.86|-4.53|0.4066
82647919|NCT00386100|165011338|SUPERIORITY_OR_OTHER||percent difference from metformin|31.14|||<|0.001|TWO_SIDED|95.0|14.82|49.78||HOMA-S. Log transformed.|ANCOVA|ANCOVA with log (value) minus log (baseline \[BL\]) as dependent variable. Terms for treatment, region, gender, pre-screening HbA1c strata, and log (BL)||||49.78|14.82|<0.001
82369343|NCT00311311|164447398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.47||||0.3678|TWO_SIDED|95.0|-11.46|30.4||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||30.40|-11.46|0.3678
82369344|NCT00311311|164447398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.72||||0.2179|TWO_SIDED|95.0|-6.53|27.97||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||27.97|-6.53|0.2179
82529216|NCT00663117|164754851|SUPERIORITY_OR_OTHER|||||||0.008|ONE_SIDED|95.0|||||Fisher Exact|||Percentage of patients having a 5-point decline in the endoscopic inflammation score||||0.008
82647920|NCT00386100|165011339|SUPERIORITY_OR_OTHER||Mean Difference (Net)|80.85||||0.319|TWO_SIDED|95.0|-79.035|240.744|||Repeated measures analysis|Repeated measures analysis with terms for baseline, region, treatment, gender, pre-screening Hb1AC, time, and treatment by time interaction||||240.744|-79.035|0.319
82369345|NCT00311311|164447398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.96||||0.3663|TWO_SIDED|95.0|-14.39|38.32||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||38.32|-14.39|0.3663
82369346|NCT00311311|164447399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.041|TWO_SIDED|95.0|0.0|0.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||0.8|0.0|0.0410
82369347|NCT00311311|164447399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.0275|TWO_SIDED|95.0|0.0|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||0.6|0.0|0.0275
82369348|NCT00311311|164447399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.1841|TWO_SIDED|95.0|-0.1|0.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||0.6|-0.1|0.1841
82369349|NCT00311311|164447400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.3||||0.0797|TWO_SIDED|95.0|-108.9|6.3||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||12 months post-transplant||6.3|-108.9|0.0797
82369350|NCT00311311|164447400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.3||||0.2341|TWO_SIDED|95.0|-88.7|22.2||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA|LS mean difference||24 months post-transplant||22.2|-88.7|0.2341
82369351|NCT00311311|164447400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2||||0.6854|TWO_SIDED|95.0|-90.3|59.8||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||59.8|-90.3|0.6854
82369352|NCT00311311|164447401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.8||||0.0002|TWO_SIDED|95.0|-108.6|-36.9||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|12 months post-transplant||-36.9|-108.6|0.0002
82369353|NCT00311311|164447401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.6||||0.0017|TWO_SIDED|95.0|-108.5|-26.6||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|24 months post-transplant||-26.6|-108.5|0.0017
82369354|NCT00311311|164447401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.3||||0.0293|TWO_SIDED|95.0|-118.2|-6.5||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value,treatment group,time and treatment group by time interaction as fixed effects,and subjects as random effect.ALPAH is unadjusted.|ANCOVA||LS mean difference|36 months post-transplant||-6.5|-118.2|0.0293
82395831|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in depressive mood from depressive mood from baseline to post-intervention||||<0.001
82444710|NCT02905006|164598394|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
82529217|NCT00663117|164754852|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||t-test, 1 sided|||||||0.048
82369355|NCT00311311|164447403|SUPERIORITY_OR_OTHER|||||||0.2573|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Consent to Conversion||||0.2573
82369356|NCT00311311|164447403|SUPERIORITY_OR_OTHER|||||||0.6386|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Conversion to Month 12||||0.6386
82529218|NCT01158378|164754853|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%||||||0.0049|||||||one-sided z-test|||||||0.0049
82529219|NCT01158378|164754854|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%|||||<|0.0001|||||||one-sided z-test|||||||<0.0001
82529220|NCT01158378|164754854|SUPERIORITY_OR_OTHER|||||||0.0297|||||||one-sided z-test|||Superiority Test||||0.0297
82529221|NCT01158378|164754855|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 10%|||||<|0.0001|||||||one-sided z-test|||||||<0.0001
82529222|NCT01158378|164754855|SUPERIORITY_OR_OTHER|||||||0.0561|||||||one-sided z-test|||Superiority Test||||0.0561
82647921|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0012|TWO_SIDED|95.0|-3.5|-0.9||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.9|-3.5|0.0012
82369357|NCT00311311|164447403|SUPERIORITY_OR_OTHER|||||||0.0709|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Month 12 to Month 24||||0.0709
82369358|NCT00311311|164447403|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Lipid-Lowering From Month 24 to Month 36||||1.0000
82369359|NCT00311311|164447404|SUPERIORITY_OR_OTHER|||||||0.4286|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Consent to Conversion||||0.4286
82369360|NCT00311311|164447404|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Conversion to Month 12||||1.0000
82369361|NCT00311311|164447404|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Month 12 to Month 24||||1.0000
82369362|NCT00311311|164447404|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value was calculated from 2-sided Fisher's exact test. Alpha is unadjusted.|Fisher Exact|||Use Anti-hypertension From Month 24 to Month 36||||1.0000
82369363|NCT00311311|164447405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.0||||0.2718|TWO_SIDED|95.0|-50.7|14.7||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|18 months post-transplant||14.7|-50.7|0.2718
82369364|NCT00311311|164447405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7||||0.2729|TWO_SIDED|95.0|-41.6|12.1||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|24 months post-transplant||12.1|-41.6|0.2729
82369365|NCT00311311|164447405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.2902|TWO_SIDED|95.0|-23.8|7.3||P-value and 95% CI for LS mean difference were calculated from repeated measures ANCOVA mixed model with baseline value, treatment group, time, and treatment group by time interaction as fixed effects, and subjects as random effect.|ANCOVA||LS mean difference|36 months post-transplant||7.3|-23.8|0.2902
82369366|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.17|1.88|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 1: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.88|1.17|
82369367|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.1|||||TWO_SIDED|95.0|0.91|1.35|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 3: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.35|0.91|
82369368|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.93|3.74|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 4: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||3.74|1.93|
82369369|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.55|2.63|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 5: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.63|1.55|
82369370|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|3.0|||||TWO_SIDED|95.0|2.21|4.13|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 6B: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||4.13|2.21|
82426371|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in length-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.27||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.27
82369371|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.07|2.18|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 7F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.18|1.07|
82369372|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.36|2.97|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 9V: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.||2.97|1.36|
82369373|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.73|1.33|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 14: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.33|0.73|
82395832|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in depressive mood from post-intervention to follow-up. Null hypothesis: there would be no significant differences in depressive mood from post-intervention to follow-up.||||>0.05
82395833|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of depressive mood||||>0.05
82395834|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of depressive mood||||>0.05
82395835|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of depressive mood||||>0.05
82395836|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of depressive mood across time||||>0.05
82644415|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.436||||0.0768|TWO_SIDED|95.0|-0.047|0.92|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||0.920|-0.047|0.0768
82369374|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.42|2.5|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 18C: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.50|1.42|
82369375|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.8|||||TWO_SIDED|95.0|1.43|2.2|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 19A: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.20|1.43|
82369376|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.17|2.06|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 19F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.06|1.17|
82369377|NCT00546572|164447406|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion). Statistical significance demonstrated if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 1.|ratio of geometric mean titer|3.7|||||TWO_SIDED|95.0|2.69|5.09|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|Serotype 23F: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||5.09|2.69|
82369378|NCT00546572|164447407|SUPERIORITY_OR_OTHER||difference in proportions|43.8|||||TWO_SIDED|95.0|37.4|49.9|||||Exact 2-sided CI (based on Chan and Zhang) for the difference in proportions, 13vPnC - 23vPS expressed as a percentage.|"Serotype 6A: difference in proportions, 13vPnC - 23vPS, expressed as a percentage.~Statistical significance was shown if the lower limit of the 95% CI for the difference in proportions (13vPnC - 23vPS) was \> 0."||49.9|37.4|
82395837|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of depressive mood||||>0.05
82395838|NCT03646305|164502565|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no difference between 4 conditions on levels of depressive mood||||>0.05
82395839|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of happiness were equivalent across time||||>0.05
82529223|NCT01966796|164754980|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||ANOVA|||The incidence of MDR pathogens (6.7%, 25.5%, 36.9% and 44.6% in PSI II, III, IV, and V, respectively, p=0.002) and mortality rate (0, 5.9%, 12.3%, and 23.8%, respectively, p\<0.001) increased with increasing PSI||||0.002
82369379|NCT00546572|164447408|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|9.6|||||TWO_SIDED|95.0|7.0|13.26|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).|"Serotype 6A: ratio of GMT (13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.~Statistical significance was demonstrated if the lower limit of the 2-sided 95% confidence interval for the geometric mean ratio was \>2."||13.26|7.00|
82575785|NCT02103114|164861091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2741|||||||t-test, 2 sided|24 hour postop Fresh Frozen Plasma exposures||||||0.2741
82575786|NCT02103114|164861091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0351|||||||t-test, 2 sided|24 hour postop Platelet exposures||||||0.0351
82647922|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.0031|TWO_SIDED|95.0|-2.7|-0.6||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-2.7|0.0031
82369380|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.1|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 1: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.10|0.85|
82369381|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.11|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 3: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.11|0.91|
82369382|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.68|0.92|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 4: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||0.92|0.68|
82369383|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.73|0.94|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 5: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||0.94|0.73|
82369384|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.4|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 6A: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.40|1.03|
82369385|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.02|1.35|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 6B: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.35|1.02|
82369386|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.65|1.01|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 7F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.01|0.65|
82369387|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.69|1.15|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 9V: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.69|
82395840|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of happiness||||>0.05
82426372|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in head circumference-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.39||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.39
82426373|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in mid upper arm circumference-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.25||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.25
82575787|NCT02103114|164861091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||t-test, 2 sided|24 hour postop Cryoprecipitate exposures||||||0.073
82426374|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in triceps skinfold-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.85||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.85
82369388|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.05|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 14: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.05|0.79|
82369389|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.97|1.23|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 18C: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.23|0.97|
82369390|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.89|1.07|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 19A: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.07|0.89|
82395841|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would have equal levels of happiness||||>0.05
82395842|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of happiness||||>0.05
82395843|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of happiness across time.||||>0.05
82444711|NCT02905006|164598394|SUPERIORITY||||||<|0.0001||||||The placebo treatment group contained no PASI90 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.|Fisher Exact|||||||<0.0001
82444712|NCT02905006|164598395|SUPERIORITY||Odds Ratio (OR)|32.65|||<|0.0001|TWO_SIDED|95.0|6.82|156.38|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||156.38|6.82|<0.0001
82529224|NCT03661996|164755054|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|1.063|STANDARD_ERROR_OF_MEAN|1.0216|||TWO_SIDED|95.0|1.019|1.108|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.108|1.019|
82575788|NCT02103114|164861091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196|||||||t-test, 2 sided|24 hour postop Red Blood Cell exposures||||||0.0196
82369391|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.83|1.15|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 19F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.83|
82444713|NCT02905006|164598395|SUPERIORITY||Odds Ratio (OR)|94.51|||<|0.0001|TWO_SIDED|95.0|18.54|481.86|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||481.86|18.54|<0.0001
82647923|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.0308|TWO_SIDED|95.0|-2.0|-0.1||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-2.0|0.0308
82395844|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of happiness||||>0.05
82369392|NCT00546572|164447409|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95% confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion).|geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.6|2.14|||||Confidence intervals are back transformations of a CI based on the student t distribution for the mean logarithm of the titers.|Serotype 23F: geometric mean fold rise (GMFR) \[(13vPnC / 13vPnC) / (13vPnC)\] calculated using all participants with available data from both the postvaccination 1 and postvaccination 2 blood draws.||2.14|1.60|
82369393|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|1.1|1.76|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 1: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.76|1.10|
82369394|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.1|||||TWO_SIDED|95.0|0.91|1.34|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 3: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.34|0.91|
82426375|NCT01576783|164561737|OTHER|The reported p-value is for the comparison of the change in subscapular skinfold-for-age z scores between groups (DHA+AA vs. Placebo).||||||0.82||||||Threshold for statistical significance (\<0.05)|Mixed Models Analysis|Analyses compared the change in scores between groups, using mixed-effects regression that leveraged maximum likelihood to account for missing data.||||||0.82
82426376|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.42||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.42
82426377|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.68||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.68
82426378|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.78||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.78
82426379|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.32||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.32
82426380|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.97||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.97
82426381|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.62||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.62
82426382|NCT01576783|164561738|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.69||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.69
82426383|NCT01576783|164561739|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at the end of the trial.||||||0.22||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.22
82426384|NCT01576783|164561740|OTHER|The reported p-value is for the comparison of the change in Nocturnal Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.23||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.23
82426385|NCT01576783|164561740|OTHER|The reported p-value is for the comparison of the change in Daytime Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.07||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.07
82426386|NCT01576783|164561740|OTHER|The reported p-value is for the comparison of the change in Total Sleep Duration between groups (DHA+AA vs. Placebo).||||||0.06||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|||||||0.06
82426387|NCT01576783|164561741|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.51||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Continuous scores at the end of the trial were compared using a linear mixed model.||||||0.51
82426388|NCT01576783|164561742|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.09||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.09
82644416|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.091||||0.7155|TWO_SIDED|95.0|-0.4|0.583|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.583|-0.400|0.7155
82369395|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.3|||||TWO_SIDED|95.0|1.66|3.25|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 4: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||3.25|1.66|
82369396|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.21|2.06|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 5: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.06|1.21|
82369397|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|3.8|||||TWO_SIDED|95.0|2.78|5.07|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 6B: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||5.07|2.78|
82369398|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.2|||||TWO_SIDED|95.0|0.8|1.67|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 7F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.67|0.80|
82369399|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.8|||||TWO_SIDED|95.0|1.18|2.62|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 9V: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.62|1.18|
82369400|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|0.8|||||TWO_SIDED|95.0|0.62|1.13|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 14: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.13|0.62|
82369401|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|2.0|||||TWO_SIDED|95.0|1.53|2.69|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 18C: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.69|1.53|
82369402|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.37|2.1|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 19A: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||2.10|1.37|
82395845|NCT03646305|164502566|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of happiness||||>0.05
82426389|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.29||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.29
82575789|NCT02103114|164861092|EQUIVALENCE|protamine time plus 24 hours||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82575790|NCT02103114|164861094|EQUIVALENCE|24 Hours Post-Operatively||||||0.0004|||||||Fisher Exact|||||||0.0004
82575791|NCT02103114|164861095|SUPERIORITY_OR_OTHER_LEGACY|||||||0.927|||||||t-test, 2 sided|||||||0.927
82369403|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.09|1.93|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 19F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||1.93|1.09|
82369404|NCT00546572|164447410|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 2-sided 95 % confidence interval for the geometric mean ratio (GMR) was \> 0.5 (2-fold criterion).|ratio of geometric mean titer|7.3|||||TWO_SIDED|95.0|5.36|9.82|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|Serotype 23F: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.||9.82|5.36|
82369405|NCT00546572|164447411|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|12.1|||||TWO_SIDED|95.0|8.92|16.44|||||Confidence intervals for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC / 13vPnC )- (23vPS)\].|"Serotype 6A: ratio of GMT (13vPnC / 13vPnC to 23vPS) calculated by back transforming the mean difference between vaccine groups on the logarithmic scale.~Statistical significance was demonstrated if the lower limit of the 2-sided 95% confidence interval for the geometric mean ratio was \>2."||16.44|8.92|
82369406|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-11.4|||<|0.001|TWO_SIDED|95.0|-17.3|-5.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-5.6|-17.3|<0.001
82369407|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-4.0||||0.129|TWO_SIDED|95.0|-9.1|1.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||1.1|-9.1|0.129
82369408|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-6.8||||0.002|TWO_SIDED|95.0|-11.3|-2.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-2.3|-11.3|0.002
82369409|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-3.2||||0.028|TWO_SIDED|95.0|-6.3|-0.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Redness: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.3|-6.3|0.028
82369410|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-12.7|||<|0.001|TWO_SIDED|95.0|-18.5|-7.0|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-7.0|-18.5|<0.001
82369411|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-5.1||||0.048|TWO_SIDED|95.0|-10.2|-0.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.1|-10.2|0.048
82369412|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-9.6|||<|0.001|TWO_SIDED|95.0|-14.2|-5.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-5.1|-14.2|<0.001
82369413|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-4.8|||<|0.001|TWO_SIDED|95.0|-7.9|-2.7|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Swelling: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-2.7|-7.9|<0.001
82369414|NCT00546572|164447412|SUPERIORITY_OR_OTHER||Chan & Zhang|-6.8||||0.062|TWO_SIDED|95.0|-14.0|0.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||0.4|-14.0|0.062
82426390|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.11||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.11
82426391|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.23||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.23
82444714|NCT02905006|164598395|SUPERIORITY||Odds Ratio (OR)|117.66|||<|0.0001|TWO_SIDED|95.0|22.08|626.89|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||626.89|22.08|<0.0001
82575792|NCT02103114|164861096|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738|||||||t-test, 2 sided|||||||0.738
82575793|NCT02103114|164861097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|||||||Fisher Exact|||||||0.231
82575794|NCT02103114|164861098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.661|||||||Fisher Exact|||||||0.661
82575795|NCT02103114|164861100|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||||||1.0
82575796|NCT02103114|164861101|SUPERIORITY_OR_OTHER_LEGACY|||||||0.342|||||||Fisher Exact|||||||0.342
82444715|NCT02905006|164598395|SUPERIORITY||Odds Ratio (OR)|280.76|||<|0.0001|TWO_SIDED|95.0|44.06|1789.24|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||1789.24|44.06|<0.0001
82444716|NCT02905006|164598395|SUPERIORITY||Odds Ratio (OR)|107.83|||<|0.0001|TWO_SIDED|95.0|20.82|558.57|||Regression, Logistic|Confidence intervals, odds ratios, p-values derived from a logistic regression model with fixed effects for treatment, region, prior bio-exposure.||||558.57|20.82|<0.0001
82444717|NCT02905006|164598396|SUPERIORITY||||||=|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||=0.0001
82444718|NCT02905006|164598396|SUPERIORITY||||||=|0.0002|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||=0.0002
82444719|NCT02905006|164598396|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
82575797|NCT02103114|164861102|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961|||||||t-test, 2 sided|||||||0.961
82369415|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-4.0||||0.284|TWO_SIDED|95.0|-11.3|3.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||3.3|-11.3|0.284
82369416|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-16.1|||<|0.001|TWO_SIDED|95.0|-21.7|-10.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-10.6|-21.7|<0.001
82369417|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-0.9||||0.539|TWO_SIDED|95.0|-3.5|1.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Pain: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||1.4|-3.5|0.539
82369418|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-17.1|||<|0.001|TWO_SIDED|95.0|-23.1|-11.1|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: any; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-11.1|-23.1|<0.001
82426392|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.29||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.29
82647924|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.0954|TWO_SIDED|95.0|-3.7|0.3||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.3|-3.7|0.0954
82369419|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-14.9|||<|0.001|TWO_SIDED|95.0|-20.8|-9.0|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: mild; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-9.0|-20.8|<0.001
82369420|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-2.3||||0.02|TWO_SIDED|95.0|-4.8|-0.4|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: moderate; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.4|-4.8|0.020
82369421|NCT00546572|164447412|SUPERIORITY_OR_OTHER||difference in proportions|-2.3||||0.042|TWO_SIDED|95.0|-4.9|-0.1|||Limitation of arm movement: any; differe||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Limitation of arm movement: severe; difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.1|-4.9|0.042
82369422|NCT00546572|164447417|SUPERIORITY_OR_OTHER||difference in proportions|-7.9||||0.034|TWO_SIDED|95.0|-15.2|-0.6|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|New generalized muscle pain: difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.6|-15.2|0.034
82369423|NCT00546572|164447417|SUPERIORITY_OR_OTHER||difference in proportions|-6.9||||0.039|TWO_SIDED|95.0|-13.6|-0.3|||Chan & Zhang||Exact 2-sided confidence interval and corresponding p-value (based on Chan \& Zhang) for the difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.|Aggravated generalized muscle pain: difference in proportions, \[13vPnC\] - \[23vPS\], expressed as a percentage.||-0.3|-13.6|0.039
82426393|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.06||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.06
82444720|NCT02905006|164598396|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
82444721|NCT02905006|164598396|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||The placebo treatment group contained no PASI100 responders and as such the p-values for the pairwise comparisons are based upon the Fisher's exact test.||||<0.0001
82575798|NCT03933462|164861103|SUPERIORITY|"Categorical preference endpoints that answered at the final visit (e.g., Which device do you prefer?) were analyzed with a One-sample Binomial Test that compared the observed proportion to a 50/50 split."|||||<|0.001|||||||One Sample Binomial|||||||<0.001
82647925|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.0015|TWO_SIDED|95.0|-4.7|-1.2||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.2|-4.7|0.0015
82395846|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, levels of confidence were equivalent across time.||||>0.05
82395847|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of confidence||||>0.05
82395848|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of confidence||||>0.05
82395849|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA was used to analyze Intervention x Activity interaction. Null: On average, all four conditions were equivalent in levels of confidence||||>0.05
82444722|NCT05063539|164598427|SUPERIORITY||Posterior Mean Difference|1.68|||||TWO_SIDED|95.0|-0.375|3.771|||||Posterior mean difference with 95% credible interval is reported.|||3.771|-0.375|
82369424|NCT01229735|164447425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||=|0.7007|TWO_SIDED|95.0|0.7|1.7||P-value is from likelihood ratio test of treatment group regression coefficient against 0.|Regression, Logistic|||The Odds Ratio (OR) for LEV vs TPM is based on logistic regression modeling of subject retention by treatment and center pooling category. A profile likelihood confidence interval for the OR is presented.||1.7|0.7|=0.7007
82369425|NCT02615171|164447465|OTHER|||||||0.0106|||||||t-test, 2 sided|||||||0.0106
82369426|NCT02615171|164447466|OTHER|||||||0.0027|||||||Chi-squared|||||||0.0027
82369427|NCT02615171|164447467|OTHER|||||||0.7829|||||||Wilcoxon rank sum test|||||||0.7829
82369428|NCT04764630|164447490|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.95||||0.002|ONE_SIDED|95.6|1.28|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 10-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (10, 12.5, and 15 min). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (1 every 2.5 min) compared to the 2 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.28|0.002
82376752|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|2.77|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.69|2.85||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.85|2.69|<.0001
82369429|NCT04764630|164447491|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.98||||0.018|ONE_SIDED|95.6|1.03|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 4.5-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (2 doses every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (4.5, 7, and 10 minutes). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (2 doses every 2.5 min) compared to the 2 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.03|0.018
82369430|NCT04764630|164447492|SUPERIORITY|To demonstrate an increase in naloxone concentration, the lower bound of the one-sided 97.79% interval for the geometric mean ratio must exclude 1. The results will be transformed back to the original scale by exponentiation to provide treatment geometric means.|Geometric mean ratio|1.69||||0.013|ONE_SIDED|95.6|1.06|||Testing will be conducted sequentially (i.e., start at the initial time and progress forward, stopping if success is achieved) at a 1-sided 0.0221 significance level since an increase in naloxone exposure is expected.|t-test, 1 sided||Data is shown for 4.5-minute timepoint (first time point tested where an increased was observed). This compares results from the 4 naloxone dose arm (2 doses every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Up to three different time points have been pre-specified for the comparison (4.5, 7, and 10 minutes). Time points will be evaluated from earliest to latest time. Testing will proceed until either one passes or all pre-specified time points fail. Subject-level naloxone concentrations will be log-transformed. Naloxone concentrations below the lower limit of quantification will result in that time point from that subject being removed for comparisons involving that treatment arm.|This was the first timepoint in the comparison that showed an increase in the 4 naloxone dose arm (2 doses every 2.5 min) compared to the 4 naloxone dose arm (1 every 2.5 min) and is the reported outcome for this endpoint.||1.06|0.013
82369431|NCT04764630|164447493|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.89||||0.1|TWO_SIDED|90.0|0.78|1.0|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||1.00|0.78|0.10
82369432|NCT04764630|164447493|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.77||||0.018|TWO_SIDED|90.0|0.65|0.92|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.92|0.65|0.018
82395850|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions are equivalent in levels of confidence across time.||||>0.05
82426394|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.14||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.14
82444723|NCT05063539|164598427|SUPERIORITY||Posterior Mean Difference|-3.2|||||TWO_SIDED|95.0|-5.354|-1.042|||||Posterior mean difference with 95% credible interval is reported.|||-1.042|-5.354|
82444724|NCT05063539|164598428|SUPERIORITY||Posterior Mean Difference|1.59|||||TWO_SIDED|95.0|-0.443|3.697|||||Posterior mean difference with 95% credible interval is reported.|||3.697|-0.443|
82444725|NCT05063539|164598428|SUPERIORITY||Posterior Mean Difference|-5.07|||||TWO_SIDED|95.0|-7.277|-2.862||||||||-2.862|-7.277|
82575799|NCT01937975|164861112|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.87|1.09|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.09|0.87|
82575800|NCT01937975|164861112|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.58|1.25|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.25|0.58|
82395851|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of happiness||||>0.05
82395852|NCT03646305|164502567|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of happiness||||>0.05
82395853|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to measure main effect of time. Null: Across the sample, level of self-esteem were equivalent across time.||||<0.05
82395854|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||<|0.001|||||||t-test, 2 sided|||Paired sample t-tests was conducted to measure differences in self-esteem from post-intervention to follow-up. Null hypothesis: there would be no significant differences in self-esteem from post-intervention to follow-up.||||<0.001
82395855|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Intervention. Null: On average, the experimental conditions and control conditions would have equal levels of self-esteem||||>0.05
82395856|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze main effect of Activity. Null: On average, singing and verbal repetition would result in equal levels of self-esteem||||>0.05
82395857|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||Twenty-eight participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post-intervention, follow-up) mixed ANOVA used to analyze Intervention x Activity interaction. Null: On average, all four conditions have equivalent levels of self-esteem||||>0.05
82426395|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.13||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.13
82426396|NCT01576783|164561743|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.16||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.16
82444726|NCT05063539|164598429|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.32||0.665|TWO_SIDED|95.0|-0.763|0.488|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.488|-0.763|0.665
82529225|NCT03661996|164755054|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|0.959|STANDARD_ERROR_OF_MEAN|1.0221|||TWO_SIDED|95.0|0.919|1.001|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.001|0.919|
82575801|NCT01937975|164861112|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.83|||||TWO_SIDED|90.0|0.56|1.22|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.22|0.56|
82369433|NCT04764630|164447493|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.87||||0.12|TWO_SIDED|90.0|0.75|1.01|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for Cmax will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||1.01|0.75|0.12
82369434|NCT04764630|164447494|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.83||||0.002|TWO_SIDED|90.0|0.76|0.91|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.91|0.76|0.002
82369435|NCT04764630|164447494|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.75|||<|0.001|TWO_SIDED|90.0|0.7|0.81|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.81|0.70|<0.001
82369436|NCT04764630|164447494|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.91||||0.014|TWO_SIDED|90.0|0.85|0.97|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-inf will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.97|0.85|0.014
82426397|NCT01576783|164561744|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.98|||||||Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.98
82426398|NCT01576783|164561744|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.67||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.67
82426399|NCT01576783|164561745|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.047||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups.||||||0.047
82426400|NCT01576783|164561746|OTHER|The reported p-value is for the comparison of the scores between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).||||||0.2||||||Threshold for statistical significance (\<0.05).|Mixed Models Analysis|Linear mixed models compared continuous scores at follow-up between treatment groups. Model controlled for baseline scores.||||||0.20
82426401|NCT01576783|164561747|OTHER|Results are the comparison of proportion of those with a developmental condition between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).|Odds Ratio (OR)|1.63|||||TWO_SIDED|95.0|0.8|3.32||||||||3.32|0.80|
82369437|NCT04764630|164447495|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.82||||0.001|TWO_SIDED|90.0|0.75|0.89|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (1 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.89|0.75|0.001
82369438|NCT04764630|164447495|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.74|||<|0.001|TWO_SIDED|90.0|0.69|0.8|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 2 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.80|0.69|<0.001
82369439|NCT04764630|164447495|OTHER|Treatment differences on the log-scale will be estimated for the PK parameters. Geometric mean ratio and 90% CIs will be obtained by exponentiation of the treatment effect and 90% CIs based on the log-transformed scale. Dose-proportionality will be concluded if the confidence interval includes 1. Dose-normalized comparisons were exploratory.|Geometric mean ratio|0.91||||0.014|TWO_SIDED|90.0|0.85|0.96|||Mixed Models Analysis|Dose-normalized comparisons were exploratory.|This compares results from the 4 naloxone dose arm (2 every 2.5 min) (numerator) with the 4 naloxone dose arm (1 every 2.5 min) (denominator).|Dose-adjusted values for AUC0-t will be calculated based on noncompartmental PK parameter results, normalized to per mg of naloxone administered. Using linear mixed-effects modeling, comparisons of log-transformed dose-adjusted PK parameters will be performed. Treatment will be a fixed effect. Participant will be included as a random effect on the intercept.||0.96|0.85|0.014
82369440|NCT00741936|164447505|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
82369441|NCT00741936|164447506|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline.||||||<0.05
82369442|NCT00741936|164447507|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline||||||<0.05
82369443|NCT00741936|164447508|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|T-Tests were implemented: 1) between two groups of each time frame; 2) between each treatment group of each time frame and its baseline.||||||<0.05
82395858|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect a moderate effect size (.25) at a significance level of alpha .05 in a mixed ANOVA according to a power analysis using GPower 3.1. A 2 (Intervention: experimental, control) × 3 (Time: baseline, post-intervention, follow-up) mixed ANOVA was used to measure Time x Intervention interactions. Null: experimental and control conditions have equivalent levels of self-esteem across time.||||>0.05
82426402|NCT01576783|164561748|OTHER|Results are the comparison of proportion of those with a behavioral condition between groups (DHA+AA vs. Placebo) at post-intervention follow-up (median of 8.3 months (IQR = 4.8) after trial completion and supplementation stopped).|Odds Ratio (OR)|4.5|||||TWO_SIDED|95.0|0.52|39.15||||||||39.15|0.52|
82647926|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.0045|TWO_SIDED|95.0|-3.9|-0.7||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.7|-3.9|0.0045
82369444|NCT00741936|164447509|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis was implemented between two treatment groups in each time frame.||||||<0.05
82369445|NCT00741936|164447510|SUPERIORITY_OR_OTHER|||||||0||95.0|||||simple percentage|||||||0
82369446|NCT00741936|164447511|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
82369447|NCT00741936|164447512|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-samples t-test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82369448|NCT00741936|164447513|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82369449|NCT00741936|164447514|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82369450|NCT00741936|164447515|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82369451|NCT00369382|164447516|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||two-sided alpha = 0.05|ANCOVA|Analysis of covariance (ANCOVA) with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.004
82369452|NCT00369382|164447518|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.018
82369453|NCT00369382|164447518|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<.001
82369454|NCT00369382|164447518|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.012
82369455|NCT00369382|164447518|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.072
82369456|NCT00369382|164447518|SUPERIORITY_OR_OTHER|||||||0.175|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (Cockcroft-Gault) as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.175
82369457|NCT00369382|164447519|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.031
82369458|NCT00369382|164447519|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<0.001
82395859|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Activity interaction. Null: Across time, there would be no difference between singing and verbal repetition on levels of self-esteem||||>0.05
82395860|NCT03646305|164502568|NON_INFERIORITY|This was a single-center, parallel-group study with balanced randomization of participants into one of four conditions. Condition (experimental: body-related thoughts vs control: neutral thoughts) was fully crossed with technique (singing vs verbal repetition) . This was a non-inferiority study to primarily examine whether singing is as effective as verbal repetition as a cognitive defusion strategy for body image distress.|||||>|0.05|||||||ANOVA|||28 participants per condition (N=112) would provide sufficient power (0.8) to detect moderate effect size (.25) at significance level of alpha.05 in mixed ANOVA according to power analysis using GPower 3.1. A 2(Intervention: experimental, control) × 2(Activity: singing, verbal repetition) × 3(Time: baseline, post, follow-up) mixed ANOVA was used to analyze Time x Intervention x Activity interaction. Null: Across time, there would be no differences between four conditions on levels of self-esteem||||>0.05
82395861|NCT03646305|164502569|OTHER|Mediation Analysis that examined whether greater homework adherence strengthened the relationship between condition and outcome|||||>|0.05|||||||Mediation Analyses|||All mediation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 4, which includes one outcome variable, one predictor, one mediator, and room for covariates. We examined the meditational effect of homework adherence on the relationship between intervention and each outcome measure. Null: homework adherence does not mediate any relationships between intervention condition and outcome measures.||||>0.05
82395862|NCT03646305|164502569|OTHER|Mediation Analysis that examined whether greater homework adherence strengthened the relationship between condition and outcome|||||>|0.05|||||||Mediation Analyses|||All mediation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 4, which includes one outcome variable, one predictor, one mediator, and room for covariates. We examined the meditational effect of homework adherence on the relationship between activity and each outcome measure. Null: homework adherence does not mediate any relationships between activity condition and outcome measures.||||>0.05
82395863|NCT03646305|164502570|OTHER|Thought-shape fusion was examined as a potential moderator of the relationship between intervention condition and outcome measures.|||||<|0.001||||||No other outcome measure was moderated by thought-shape fusion scores.|Moderation Analyses|||All moderation analyses were conducted using the PROCESS SPSS macro version 3.2 (Hayes, 2018). We tested model 1, which includes one outcome variable, one predictor, and one moderator. Thought-shape fusion was examined as a potential moderator of the relationship between intervention condition and outcome measures. Null: thought-shape fusion does not significantly moderate the relationship between intervention condition and state self-esteem||||<0.001
82426403|NCT01732536|164561750|SUPERIORITY|||||||0.1365|||||||ANCOVA|Based on between group comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.1365
82369459|NCT00369382|164447519|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.020
82426404|NCT01732536|164561750|SUPERIORITY|||||||0.0505||||||Based on between group comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects|ANCOVA|||The change from baseline to Day 90 in Nasal Obstruction/Congestion score in the subset of participants with higher polyp burden at baseline (grade 2 or higher polyps on each side; N=67).||||0.0505
82369460|NCT00369382|164447519|SUPERIORITY_OR_OTHER|||||||0.151|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.151
82369461|NCT00369382|164447519|SUPERIORITY_OR_OTHER|||||||0.295|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.295
82369462|NCT00369382|164447519|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline creatinine clearance (MDRD) as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.010
82369463|NCT00369382|164447521|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 4||||0.009
82369464|NCT00369382|164447521|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 16||||<0.001
82395864|NCT01554176|164502571|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.7||||0.679|TWO_SIDED|95.0|-3.8|2.5||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Number of participants included for calculation of mean ± SD baseline and mean ± SD change from baseline MADRS Total Score is 119. Constrained longitudinal data analysis (cLDA) model uses efficacy Full Analysis Set (FAS) population (number of participants: filorexant 10 mg - 64, placebo - 64; total number of participants in cLDA analysis - 128).||2.5|-3.8|0.679
82395865|NCT01554176|164502572|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.3||||0.82|TWO_SIDED|95.0|-3.2|2.5||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||2.5|-3.2|0.820
82395866|NCT01554176|164502573|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.3||||0.701|TWO_SIDED|95.0|-1.9|1.3||cLDA model included terms for treatment, time, the interaction of time by treatment, severity of disease (Hamilton Depression Rating Scale, 17-items \[HAM-D17\] ≤20, \>20) and insomnia severity index (ISI ≤14, \>14).|cLDA|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||1.3|-1.9|0.701
82395867|NCT01554176|164502574|SUPERIORITY_OR_OTHER||Estimated Odds Ratio|2.5||||0.0965|TWO_SIDED|95.0|0.8|7.3||Generalized linear mixed effects model included terms for treatment, time, treatment-by-time interaction.|Generalized Linear Mixed Effects Model|||Pairwise Comparison: Filorexant 10 mg vs. Placebo||7.3|0.8|0.0965
82395868|NCT01554176|164502575|SUPERIORITY_OR_OTHER||Difference in percentage incidence|15.6|||||TWO_SIDED|95.0|-0.9|31.4||||Between-group comparison of AE incident rate||Estimated parameter is between-group difference in percentage of participants with an AE = percentage (filorexant 10 mg) - percentage (placebo) for participants with one or more AE.||31.4|-0.9|
82444727|NCT05063539|164598429|SUPERIORITY||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.33||0.001|TWO_SIDED|95.0|0.435|1.736|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.736|0.435|0.001
82444728|NCT05063539|164598430|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.35||0.878|TWO_SIDED|95.0|-0.641|0.749|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.749|-0.641|0.878
82529226|NCT03661996|164755054|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|1.013|STANDARD_ERROR_OF_MEAN|1.0219|||TWO_SIDED|95.0|0.97|1.057|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||1.057|0.970|
82369465|NCT00369382|164447521|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 24||||0.002
82369466|NCT00369382|164447521|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 32||||0.030
82369467|NCT00369382|164447521|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 40||||0.121
82395869|NCT01554176|164502576|SUPERIORITY_OR_OTHER||Difference in percentage incidence|0.0|||||TWO_SIDED|95.0|-7.0|7.0||||Between-group comparison of incidence rate of drug discontinuation due to AE||Estimated parameter is between-group difference in percentage of participants discontinued from study drug due to an AE = percentage (filorexant 10 mg) - percentage (placebo).||7|-7|
82395870|NCT02436031|164502579|OTHER|||||||0.049|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Active Pcrit||||0.049
82369468|NCT00369382|164447521|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||alpha is unadjusted|ANCOVA|ANCOVA with baseline serum creatinine as a covariate and treatment group and center as factors||Change from baseline to Week 52||||0.001
82369469|NCT00369382|164447523|SUPERIORITY_OR_OTHER||slope difference (CNI - SRL)|-2.311||||0.126|TWO_SIDED|95.0|-5.282|0.66||alpha is unadjusted|Random coefficient model||Random coefficient model with each participant's creatinine clearance function of time on treatment; intra-subject regression coefficients considered random.|||0.660|-5.282|0.126
82369470|NCT00369382|164447525|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED|||||alpha is unadjusted|Fisher Exact|||For-cause Biopsy-Confirmed Acute Rejection compared between treatment groups||||0.206
82395871|NCT02436031|164502579|OTHER|||||||0.135|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Passive Pcrit||||0.135
82395872|NCT01653327|164502591|SUPERIORITY|||||||0.3198|||||||t-test, 2 sided|||||||0.3198
82395873|NCT01653327|164502592|SUPERIORITY|||||||0.3522|||||||t-test, 2 sided|||||||0.3522
82395874|NCT02227368|164502593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.3441|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided||Difference is Ticagrelor - Aspirin. LOCF was used for missing data imputation.|||0.1|-0.4|0.3441
82395875|NCT02227368|164502594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.6186|TWO_SIDED|95.0|-0.4|0.6|||t-test, 2 sided||Difference is Ticagrelor - Aspirin. LOCF was used for missing data imputation.|||0.6|-0.4|0.6186
82395876|NCT01160380|164502599|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment||||0.289
82395877|NCT01160380|164502599|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between Day 1 and Day 28||||<0.001
82444729|NCT05063539|164598430|SUPERIORITY||LS Mean Difference|1.33|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|0.615|2.05|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||2.050|0.615|<0.001
82444730|NCT05063539|164598431|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.99||0.252|TWO_SIDED|95.0|-3.073|0.811|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.811|-3.073|0.252
82444731|NCT05063539|164598431|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|1.03||0.825|TWO_SIDED|95.0|-2.252|1.797|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.797|-2.252|0.825
82644417|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.237||||0.3282|TWO_SIDED|95.0|-0.239|0.713|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.713|-0.239|0.3282
82369471|NCT00369382|164447525|SUPERIORITY_OR_OTHER|||||||0.476|TWO_SIDED|||||alpha is unadjusted|Fisher Exact|||Standard of Care Biopsy-Confirmed Acute Rejection compared between treatment groups||||0.476
82369472|NCT00446199|164447532|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369473|NCT00446199|164447532|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369474|NCT00446199|164447532|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0005
82529227|NCT03661996|164755054|NON_INFERIORITY|The treatment regimen is Clinically Acceptable if it is no more than 30% worse than the Breg Cooling Control Group and the lower bound of the 95% CI for Ratio of Geometric LS Means is greater than 0.7.|Ratio of Geometric LS Means|0.931|STANDARD_ERROR_OF_MEAN|1.0219|||TWO_SIDED|95.0|0.892|0.972|||||Parameter dispersion is the Standard Error of the Ratio of Geometric LS Means|Geometric LS means, ratio of geometric LS means, with Breg Cooling as control, and 95% CIs were obtained from an ANCOVA model on the natural log-transformed composite outcome with cooling and injection procedure as the main effect. Baseline K-L grade, baseline BMI category, sex, and reverse-scored and normalized index knee procedure pain were included as covariates. Estimates and CIs on the log scale were exponentiated to obtain ratios of geometric means on the original scale.||0.972|0.892|
82529228|NCT03661996|164755055|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|17.15|STANDARD_ERROR_OF_MEAN|1.396|<|0.0001|TWO_SIDED|95.0|14.4|19.9|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||19.90|14.40|<0.0001
82529229|NCT03661996|164755055|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Mean Difference (Final Values)|20.41|STANDARD_ERROR_OF_MEAN|3.692|<|0.0001|TWO_SIDED|95.0|12.79|28.03|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||28.03|12.79|<0.0001
82529230|NCT03661996|164755055|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|20.05|STANDARD_ERROR_OF_MEAN|0.819|<|0.0001|TWO_SIDED|95.0|18.44|21.66|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||21.66|18.44|<0.0001
82529231|NCT03661996|164755055|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|18.4|STANDARD_ERROR_OF_MEAN|1.011|<|0.0001|TWO_SIDED|95.0|16.41|20.38|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||20.38|16.41|<0.0001
82575802|NCT01937975|164861112|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.65|||||TWO_SIDED|90.0|1.09|2.49|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.49|1.09|
82575803|NCT01937975|164861113|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.81|1.19|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.19|0.81|
82369475|NCT00446199|164447533|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/ van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82395878|NCT01160380|164502599|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between Day 1 and day 28||||<0.002
82395879|NCT01160380|164502599|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED||||||t-test, 2 sided|||Comparison between Day 28 and Day 56 of treatment for the armodafinil arm||||0.449
82395880|NCT01160380|164502600|SUPERIORITY_OR_OTHER|||||||0.954|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment||||0.954
82369476|NCT00446199|164447533|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369477|NCT00446199|164447533|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the number of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369478|NCT00446199|164447534|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369479|NCT00446199|164447534|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369480|NCT00446199|164447534|SUPERIORITY_OR_OTHER|||||||0.0096||95.0||||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0096
82369481|NCT00446199|164447535|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82395881|NCT01160380|164502600|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm||||0.007
82369482|NCT00446199|164447535|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369483|NCT00446199|164447535|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 4 in the mean daily severity of hot flushes is identical in both arms, alternative: there is a shift in the distribution.||||0.0005
82369484|NCT00446199|164447536|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369485|NCT00446199|164447536|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82395882|NCT01160380|164502600|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm||||0.369
82647927|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.0005|TWO_SIDED|95.0|-3.3|-1.0||Female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.0|-3.3|0.0005
82369486|NCT00446199|164447536|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3 mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal pH is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369487|NCT00446199|164447537|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|stratification by center||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82395883|NCT01160380|164502600|SUPERIORITY_OR_OTHER|||||||0.973|TWO_SIDED||||||t-test, 2 sided|||Comparison between Day 28 and Day 56 of treatment for the Armodafinil arm||||0.973
82395884|NCT01160380|164502601|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms at day 28||||0.699
82395885|NCT01160380|164502601|SUPERIORITY_OR_OTHER|||||||0.984|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm||||0.984
82395886|NCT01160380|164502601|SUPERIORITY_OR_OTHER|||||||0.239|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm||||0.239
82395887|NCT01160380|164502601|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm||||0.089
82529232|NCT03661996|164755056|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.45|STANDARD_ERROR_OF_MEAN|1.478|<|0.0001|TWO_SIDED|95.0|19.54|25.37|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||25.37|19.54|<0.0001
82529233|NCT03661996|164755056|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|23.9|STANDARD_ERROR_OF_MEAN|4.613|<|0.0001|TWO_SIDED|95.0|14.38|33.42|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||33.42|14.38|<0.0001
82575804|NCT01937975|164861113|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.54|1.16|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.16|0.54|
82369488|NCT00446199|164447537|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369489|NCT00446199|164447537|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon/van Elteren|Stratification by center||Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The distribution of the change from baseline to week 12 in vaginal maturation value is identical in both arms, alternative: there is a shift in the distribution.||||<0.0001
82369490|NCT00446199|164447538|SUPERIORITY_OR_OTHER|||||||0.0314||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0314
82369491|NCT00446199|164447538|SUPERIORITY_OR_OTHER|||||||0.878||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8780
82369492|NCT00446199|164447538|SUPERIORITY_OR_OTHER|||||||0.5908||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.5908
82369493|NCT00446199|164447539|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0027
82369494|NCT00446199|164447539|SUPERIORITY_OR_OTHER|||||||0.4463||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4463
82369495|NCT00446199|164447539|SUPERIORITY_OR_OTHER|||||||0.0303||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0303
82369496|NCT00446199|164447540|SUPERIORITY_OR_OTHER|||||||0.4397||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4397
82369497|NCT00446199|164447540|SUPERIORITY_OR_OTHER|||||||0.0132||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.0132
82369498|NCT00446199|164447540|SUPERIORITY_OR_OTHER|||||||0.325||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.3250
82369499|NCT00446199|164447541|SUPERIORITY_OR_OTHER|||||||0.9555||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.9555
82369500|NCT00446199|164447541|SUPERIORITY_OR_OTHER|||||||0.1743||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.1743
82369501|NCT00446199|164447541|SUPERIORITY_OR_OTHER|||||||0.4395||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.4395
82369502|NCT00446199|164447542|SUPERIORITY_OR_OTHER|||||||0.8966||95.0||||no correction for multiplicity|Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8966
82369503|NCT00446199|164447542|SUPERIORITY_OR_OTHER|||||||0.7512||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.7512
82369504|NCT00446199|164447542|SUPERIORITY_OR_OTHER|||||||0.8751||95.0|||||Cochran-Mantel-Haenszel|Stratification by center||Comparison of active treatment arm with placebo on complete 2\*4 table||||0.8751
82369505|NCT00446199|164447543|SUPERIORITY_OR_OTHER|||||||0.1067||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.1067
82369506|NCT00446199|164447543|SUPERIORITY_OR_OTHER|||||||0.6011||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.6011
82369507|NCT00446199|164447543|SUPERIORITY_OR_OTHER|||||||0.4408||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.4408
82369508|NCT00446199|164447544|SUPERIORITY_OR_OTHER|||||||0.0144||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.0144
82369509|NCT00446199|164447544|SUPERIORITY_OR_OTHER|||||||0.5589||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.5589
82369510|NCT00446199|164447544|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.5500
82369511|NCT00446199|164447545|SUPERIORITY_OR_OTHER|||||||0.2179||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.2179
82369512|NCT00446199|164447545|SUPERIORITY_OR_OTHER|||||||0.7749||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.7749
82369513|NCT00446199|164447545|SUPERIORITY_OR_OTHER|||||||0.8307||95.0|||||Cochran-Mantel-Haenszel|Stratification for center||Comparison of active treatment arm with placebo||||0.8307
82426405|NCT01732536|164561751|SUPERIORITY|||||||0.0985|||||||ANCOVA|Based on ANCOVA model with baseline as a covariate, site and treatment as fixed effect||||||0.0985
82395888|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.636|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment for the Digit Span Test score-Forward test||||0.636
82395889|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment for the Digit Span Test score-Backward test||||0.531
82395890|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-Digit Span Test score Forward test||||0.037
82395891|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.656|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-Digit Span Test score Backward test||||0.656
82395892|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. day 28 of treatment for the Armodafinil arm-Digit Span Test score-Forward test||||0.028
82395893|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.805|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. day 28 of treatment for the Armodafinil arm-Digit Span Test score-Backward test||||0.805
82395894|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.692|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. day 56 of treatment for the Armodafinil arm-Digit Span Test score-Forward test||||0.692
82395895|NCT01160380|164502602|SUPERIORITY_OR_OTHER|||||||0.863|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. day 56 of treatment for the Armodafinil arm-Digit Span Test score-Backward test||||0.863
82644418|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.23||||0.3578|TWO_SIDED|95.0|-0.722|0.262|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.262|-0.722|0.3578
82647928|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.2363|TWO_SIDED|95.0|-4.6|1.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.2|-4.6|0.2363
82395896|NCT01160380|164502603|SUPERIORITY_OR_OTHER|||||||0.559|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for Day 28 of treatment- FACIT-F total||||0.559
82395897|NCT01160380|164502603|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm- FACIT-F total||||<0.001
82395898|NCT01160380|164502603|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Armodafinil arm- FACIT-F total||||0.192
82395899|NCT01160380|164502603|SUPERIORITY_OR_OTHER|||||||0.495|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56of treatment for the Armodafinil arm- FACIT-F total||||0.495
82395900|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.945|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment- HADS anxiety||||0.945
82395901|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.316|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at Day 28 of treatment- HADS depression||||0.316
82395902|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS anxiety||||0.005
82395903|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS depression||||0.005
82395904|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Armodafinil arm-HADS anxiety||||0.001
82395905|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-HADS depression||||0.315
82395906|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.933|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 28 vs. Day 56 of treatment for the Armodafinil arm-HADS anxiety||||0.933
82395907|NCT01160380|164502604|SUPERIORITY_OR_OTHER|||||||0.378|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm-HADS depression||||0.378
82395908|NCT01160380|164502605|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for Day 28 of treatment -ESS||||0.840
82395909|NCT01160380|164502605|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Day 1 vs. Day 28 of treatment for the Placebo-First arm-ESS||||0.050
82395910|NCT01160380|164502605|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Day 1 and Day 28 of treatment for the Armodafinil arm- ESS||||0.051
82395911|NCT01160380|164502605|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED||||||t-test, 2 sided|||Day 28 vs. Day 56 of treatment for the Armodafinil arm||||0.635
82395912|NCT03052920|164502653|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<=0.05|t-test, 2 sided|t(35) = 11.29||Mean difference in percent correct for CNC words at 6 months post-implant and pre-implant is reported.||||<0.001
82395913|NCT03052920|164502654|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<=0.05|t-test, 2 sided|t(35) = 16.947||Mean difference in Soundfield thresholds (averaged across the frequency range in dB HL) at 6 months post-implant and pre-implant is reported.||||<0.001
82395914|NCT03052920|164502655|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05|t-test, 2 sided|t(35) = 2.14||Mean difference in degrees RMS error at 6 months post-implant and pre-implant is reported.||||<0.05
82395915|NCT03052920|164502656|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 4.02||Mean difference in percentage of understanding (words correct) at 6 months post-implant and pre-implant is reported.||||<0.001
82395916|NCT03052920|164502657|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 2.58||Mean difference in AzBio sentence scores in noise at 6 months post-implant and pre-implant is reported.||||<0.05
82395917|NCT03052920|164502658|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 3.16||Mean difference in dB SNR for BKB-SIN sentences with noise to the better ear at 6-months post-implant and pre-implant is reported.||||<0.01
82644419|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.338||||0.1638|TWO_SIDED|95.0|-0.138|0.814|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.814|-0.138|0.1638
82644420|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-0.05||||0.8384|TWO_SIDED|95.0|-0.533|0.433|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||0.433|-0.533|0.8384
82369514|NCT00446199|164447546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.6|||<|0.0001||95.0|-33.2|-22.0||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-22.0|-33.2|<0.0001
82369515|NCT00446199|164447546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|||<|0.0001||95.0|-27.8|-16.6||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-16.6|-27.8|<0.0001
82369516|NCT00446199|164447546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8||||0.0007||95.0|-15.4|-4.2||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline||-4.2|-15.4|0.0007
82369517|NCT00446199|164447547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|||<|0.0001||95.0|-29.9|17.8||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||17.8|-29.9|<0.0001
82369518|NCT00446199|164447547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|||<|0.0001||95.0|-20.2|-8.1||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-8.1|-20.2|<0.0001
82395918|NCT03052920|164502659|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 10.42||Mean difference in AzBio sentence scores at 60 dB SPL for the poor ear alone at 6 months post-implant and pre-implant is reported.||||<0.001
82395919|NCT03052920|164502660|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.15||Mean difference in HHIE reported scores at 6-months post-implant and pre-implant is reported.||||<0.001
82395920|NCT03052920|164502661|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 4.34||Mean difference in HUI3 ratings at 6 months post-implant and pre-implant is reported.||||<0.001
82395921|NCT03052920|164502662|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.71||Mean difference in ratings for the SSQ total score at 6 months post-implant and pre-implant is reported.||||<0.001
82395922|NCT03052920|164502663|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 7.90||Mean difference in SSQ ratings at 12 months post-implant and pre-implant is reported.||||<0.001
82395923|NCT03052920|164502664|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(38) = 2.31||Mean difference in SADL scores at 6 months post-implant and pre-implant are reported.||||<0.05
82395924|NCT03052920|164502665|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(25) = 7.27||Mean difference in the CPHI scores at 6 months post-implant and pre-implant are reported.||||<0.001
82395925|NCT03052920|164502666|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(25) = 7.65||Mean difference in HII-SOP scores at 6 months post-implant and pre-implant is reported.||||<0.001
82395926|NCT03052920|164502667|SUPERIORITY||||||<|0.05||||||The threshold for statistical significance was \<= 0.05.|t-test, 2 sided|t(35) = 2.34||Mean difference in the dB SNR scores for BKB-SIN sentences at 6 months post-implant minus pre-implant is reported.||||<0.05
82395927|NCT03282591|164502708|SUPERIORITY||Mean Difference (Final Values)|31.4||||0.9942|ONE_SIDED|95.0||56.9|||Mixed Models Analysis|||||56.9||0.9942
82395928|NCT02509078|164502715|SUPERIORITY||Risk Difference (RD)|-0.3||||0.93|TWO_SIDED|95.0|-6.4|5.9|||Wald test for the difference of two prop||Estimated value is a percentage|||5.9|-6.4|0.93
82395929|NCT01760447|164502737|SUPERIORITY||Least Squares Mean Difference|-0.49|||=|0.018|TWO_SIDED|95.0|-0.9|-0.09|||Mixed Models Analysis|||"The Least Squares (LS) Mean for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||-0.09|-0.90|= 0.018
82395930|NCT01760447|164502738|OTHER||Difference in Percentage|-1.3|||||TWO_SIDED|95.0|-13.9|11.3|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who experienced ≥1 adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||11.3|-13.9|
82444732|NCT05063539|164598432|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.09||0.733|TWO_SIDED|95.0|-2.527|1.779|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.779|-2.527|0.733
82369519|NCT00446199|164447547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.0054||95.0|-14.6|-2.5||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-2.5|-14.6|0.0054
82369520|NCT00446199|164447548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.069|||<|0.0001||95.0|-1.28|-0.859||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.859|-1.280|<0.0001
82369521|NCT00446199|164447548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.803|||<|0.0001||95.0|-1.013|-0.593||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.593|-1.013|<0.0001
82369522|NCT00446199|164447548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.361||||0.0007||95.0|-0.57|-0.152||significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|treatment, center and baseline value used as covariate|Change in active treatment arm minus change in placebo arm|Comparison between E2 (0.3mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 12 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.152|-0.570|0.0007
82369523|NCT00446199|164447549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.635|||<|0.0001||95.0|-0.813|-0.458||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between DRSP/E2 (0.5mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.458|-0.813|<0.0001
82395931|NCT01760447|164502739|OTHER||Difference in Percentage|-0.5|||||TWO_SIDED|95.0|-6.2|5.0|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who discontinued study drug due to experiencing an adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||5.0|-6.2|
82444733|NCT05063539|164598432|SUPERIORITY||LS Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|1.13||0.143|TWO_SIDED|95.0|-0.565|3.877|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||3.877|-0.565|0.143
82444734|NCT05063539|164598433|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.0||0.86|TWO_SIDED|95.0|-1.802|2.158|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||2.158|-1.802|0.860
82444735|NCT05063539|164598433|SUPERIORITY||LS Mean Difference|-2.51|STANDARD_ERROR_OF_MEAN|1.04||0.017|TWO_SIDED|95.0|-4.567|-0.456|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-0.456|-4.567|0.017
82444736|NCT05063539|164598434|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.1||0.479|TWO_SIDED|95.0|-2.949|1.387|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.387|-2.949|0.479
82444737|NCT05063539|164598434|SUPERIORITY||LS Mean Difference|-4.01|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-6.239|-1.788|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-1.788|-6.239|<0.001
82444738|NCT05063539|164598435|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.53||0.259|TWO_SIDED|95.0|-0.445|1.642|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.642|-0.445|0.259
82444739|NCT05063539|164598435|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.55||0.324|TWO_SIDED|95.0|-1.629|0.541|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||0.541|-1.629|0.324
82444740|NCT05063539|164598436|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.57||0.749|TWO_SIDED|95.0|-0.946|1.313|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||1.313|-0.946|0.749
82444741|NCT05063539|164598436|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.59||0.029|TWO_SIDED|95.0|-2.462|-0.134|||NCS2|A NCS model with 2 degrees of freedom (NCS2) was used.||||-0.134|-2.462|0.029
82444742|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.012||0.346|TWO_SIDED|95.0|-0.01|0.03|||ANCOVA|||Frontal||0.03|-0.01|0.346
82444743|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.412|TWO_SIDED|95.0|-0.04|0.01|||ANCOVA|||Frontal||0.01|-0.04|0.412
82444744|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.421|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||Parietal||0.02|-0.04|0.421
82444745|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.014||0.08|TWO_SIDED|95.0|-0.05|0.0|||ANCOVA|||Parietal||0.00|-0.05|0.080
82444746|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.021||0.192|TWO_SIDED|95.0|-0.07|0.01|||ANCOVA|||Lateral occipital||0.01|-0.07|0.192
82395932|NCT01760447|164502740|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-8.9|14.4|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who experienced ≥1 adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||14.4|-8.9|
82395933|NCT01760447|164502741|OTHER||Difference in Percentage|-2.1|||||TWO_SIDED|95.0|-10.1|5.8|||||The Miettinen and Nurminen methodology was used to calculate the difference and 95% confidence interval.|"The percentage of participants who discontinued study drug due to experiencing an adverse event for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||5.8|-10.1|
82395934|NCT01760447|164502743|SUPERIORITY||Least Squares Mean Difference|-10.8|||=|0.159|TWO_SIDED|95.0|-25.9|4.3|||Mixed Models Analysis|||"The Least Squares (LS) Mean for the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||4.3|-25.9|= 0.159
82395935|NCT01760447|164502745|SUPERIORITY||Difference in Percentage|16.0||||0.017|TWO_SIDED|95.0|2.9|28.9|||Miettinen and Nurminen|||"The percentage of participants with A1C at the A1C goal (\<7.0%) in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled. For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method was used to impute whether the participant had met the goal."||28.9|2.9|0.017
82395936|NCT01760447|164502746|SUPERIORITY||Difference in Percentage|12.2||||0.049|TWO_SIDED|95.0|0.0|24.8|||Miettinen and Nurminen|||"The percentage of participants with A1C at the A1C goal (\<6.5%) in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled. For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method was used to impute whether the participant had met the goal."||24.8|0.0|0.049
82395937|NCT01760447|164502749|SUPERIORITY||Kaplan-Meier Difference in Percentage|-13.2||||0.002|TWO_SIDED|95.0|-21.1|-5.3|||Log-Rank Test|||"The percentage of participants initiating glycemic rescue therapy in the arm Sitagliptin/Metformin and Sitagliptin/Metformin XR Pooled is compared against that of Metformin and Metformin XR Pooled."||-5.3|-21.1|0.002
82395938|NCT02290925|164502762|OTHER|general linear model (GLM) with repeated measures|Mean Difference (Net)|0.25|||||TWO_SIDED||||||||Box's M tests was used. Mauchly's test was used to verify that the error covariance matrix of the orthonormalized-transformed dependent variables is proportional to an identity matrix.||"We used intention to treat analysis. Since the missing data were more than 5%, we examined the dataset to determine whether it shows missing completely at random (MCAR) not missing at random (NMAR) or data missing at random (MAR). A sensitivity analysis was done to determine whether multiple imputations are required. It included complete case analysis, best-worst case and worst best case scenario with group mean±1SD."|||
82369524|NCT00446199|164447549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.382|||<|0.0001||95.0|-0.56|-0.205||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between DRSP/E2 (0.25mg/0.5mg) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.205|-0.560|<0.0001
82369525|NCT00446199|164447549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.204||||0.0233||95.0|-0.381|-0.028||Significance level of 1.7% is used to adjust (Bonferroni) for the comparison of three active arms with Placebo.|ANCOVA|Treatment, Center, and Baseline value used as covariate||Comparison between E2 (0.3) and Placebo with respect to a shift in the distribution of the end point. Null hypothesis: The mean change from baseline to week 4 is identical in both arms, alternative: there is a difference in the mean change from baseline.||-0.028|-0.381|0.0233
82369526|NCT03696953|164447550|OTHER|t test comparing||||||0.05|||||||t-test, 2 sided|||||||0.05
82369527|NCT03696953|164447551|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
82395939|NCT03706469|164502766|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90 percent (%) confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of Geometric Mean Ratio (GMR)|83.6|||||TWO_SIDED|90.0|74.5|93.8||||||||93.80|74.50|
82575805|NCT01937975|164861113|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.78|||||TWO_SIDED|90.0|0.53|1.14|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.14|0.53|
82369528|NCT03696953|164447551|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
82369529|NCT03696953|164447552|OTHER|T test||||||0.01|||||||t-test, 2 sided|||Comparison of 36 week AP-GI-SA Scores between probiotic and placebo groups at 36 weeks||||0.01
82369530|NCT03696953|164447553|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
82369531|NCT03696953|164447554|OTHER|T test||||||0.05|||||||t-test, 2 sided|||||||0.05
82395940|NCT03706469|164502766|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|102.22|||||TWO_SIDED|90.0|91.1|114.7||||||||114.70|91.10|
82395941|NCT03706469|164502766|EQUIVALENCE|Bioequivalence in the AUClast will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|172.73|||||TWO_SIDED|90.0|152.55|195.58||||||||195.58|152.55|
82395942|NCT03706469|164502767|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|84.29|||||TWO_SIDED|90.0|73.92|96.11||||||||96.11|73.92|
82395943|NCT03706469|164502767|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|99.61|||||TWO_SIDED|90.0|88.88|111.63||||||||111.63|88.88|
82395944|NCT03706469|164502767|EQUIVALENCE|Bioequivalence in the AUC∞ will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|172.7|||||TWO_SIDED|90.0|149.07|200.09||||||||200.09|149.07|
82575806|NCT01937975|164861113|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.6|||||TWO_SIDED|90.0|1.06|2.42|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.42|1.06|
82369532|NCT00759902|164447606|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|123.0||||||90.0|112.9|134.1|||ANOVA|log-transformation||||134.1|112.9|
82369533|NCT00759902|164447608|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.7||||||90.0|98.5|104.9|||ANOVA|log-transformation||||104.9|98.5|
82369534|NCT00759902|164447609|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|102.9||||||90.0|99.3|106.5|||ANOVA|log-transformation||||106.5|99.3|
82369535|NCT05071313|164447633|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.14||||||A/Victoria||1.14|0.89|
82369536|NCT05071313|164447633|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.28||||||A/Tasmania||1.28|0.97|
82369537|NCT05071313|164447633|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|0.91|||||TWO_SIDED|95.0|0.79|1.05||||||B/Washington||1.05|0.79|
82369538|NCT05071313|164447633|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after vaccination with fluzone, using a non-inferiority margin of 1.5 for the GMT ratio (Group 2/Group 1).|Geometric Mean Ratio|0.97||||||95.0|0.85|1.1||||||B/Phuket||1.10|0.85|
82369539|NCT03107026|164447684|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.187||0.1187|TWO_SIDED|95.0|-0.66|0.08|||Mixed Models Analysis|||||0.08|-0.66|0.1187
82369540|NCT03107026|164447684|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.192||0.0045|TWO_SIDED|95.0|-0.93|-0.17|||Mixed Models Analysis|||||-0.17|-0.93|0.0045
82369541|NCT03107026|164447685|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.162||0.0256|TWO_SIDED|95.0|-0.68|-0.04|||Mixed Models Analysis|||||-0.04|-0.68|0.0256
82369542|NCT03107026|164447685|SUPERIORITY||Median Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.166||0.0025|TWO_SIDED|95.0|-0.83|-0.18|||Mixed Models Analysis|||||-0.18|-0.83|0.0025
82369543|NCT03107026|164447686|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5342|TWO_SIDED|95.0|0.726|1.854|||Regression, Logistic|||||1.854|0.726|0.5342
82395945|NCT03706469|164502768|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|79.14|||||TWO_SIDED|90.0|67.36|92.99||||||||92.99|67.36|
82395946|NCT03706469|164502768|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|99.8|||||TWO_SIDED|90.0|84.94|117.27||||||||117.27|84.94|
82395947|NCT03706469|164502768|EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|Percentage of GMR|173.3|||||TWO_SIDED|90.0|150.05|200.16||||||||200.16|150.05|
82426406|NCT01732536|164561751|SUPERIORITY|||||||0.049|||||||ANOVA|Based on ANCOVA model with baseline as a covariate, site and treatment as fixed effect||Bilateral polyp grade change in a subset of 67 patients with higher polyp burden at baseline (grade 2 or higher on each side confirmed by the independent panel)||||0.0490
82369544|NCT03107026|164447686|SUPERIORITY||Odds Ratio (OR)|1.179||||0.4905|TWO_SIDED|95.0|0.738|1.882|||Regression, Logistic|||||1.882|0.738|0.4905
82369545|NCT03107026|164447687|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.946||0.0154|TWO_SIDED|95.0|-4.16|-0.44|||Mixed Models Analysis|||||-0.44|-4.16|0.0154
82369546|NCT03107026|164447687|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|0.969||0.0005|TWO_SIDED|95.0|-5.31|-1.5|||Mixed Models Analysis|||||-1.50|-5.31|0.0005
82369547|NCT00824616|164447730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.745|TWO_SIDED|95.0|-0.81|0.58|||Longitudinal Data Analysis (LDA) model|||||0.58|-0.81|0.745
82369548|NCT00824616|164447731|SUPERIORITY_OR_OTHER||Proportions|5.9||||0.537|TWO_SIDED|95.0|-13.7|25.4|||Miettinen & Nurminen method|||Between-treatment difference (MK-0941 group minus Placebo group) in the percentage of participants who experienced one or more episodes of hypoglycemia.||25.4|-13.7|0.537
82369549|NCT04711902|164447732|OTHER|estimation and confidence interval|Marginal difference|39.91|||||TWO_SIDED|95.0|10.87|68.95|||Regression, Logistic|||||68.95|10.87|
82369550|NCT04711902|164447733|OTHER|estimation and confidence interval|Marginal difference|11.86|||||TWO_SIDED|95.0|-7.18|30.91|||Regression, Logistic|||||30.91|-7.18|
82369551|NCT04711902|164447734|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-1.1|||||TWO_SIDED|95.0|-1.68|-0.52|||Mixed Models Analysis|||||-0.52|-1.68|
82369552|NCT04711902|164447735|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-1.65|||||TWO_SIDED|95.0|-2.35|-0.94|||Mixed Models Analysis|||||-0.94|-2.35|
82369553|NCT04711902|164447736|OTHER|estimation and confidence interval|Mixed model repeated scores (MMRM)|4.2|||||TWO_SIDED|95.0|0.94|7.46|||Mixed Models Analysis|||||7.46|0.94|
82369554|NCT04711902|164447737|OTHER|estimation and confidence interval|Mixed model repeated measures (MMRM)|-0.4|||||TWO_SIDED|95.0|-0.58|-0.21|||Mixed Models Analysis|||||-0.21|-0.58|
82369555|NCT04870138|164447738|OTHER|||||||1||||||One-sided Fisher's Exact Test with alpha = 0.05|Fisher Exact|||||||1.000
82369556|NCT04870138|164447740|OTHER||||||<|0.0001|||||||t-test, 1 sided|One-sided single sample t-test with alpha=0.05||Null hypothesis: The proportion of the strain in the inoculum = 0.5||||<0.0001
82369557|NCT01155024|164447768|NON_INFERIORITY_OR_EQUIVALENCE|10 participants required to detect one value change in rating for the SCS scale, with 80% power.|||||>|0.4||95.0||||Two-Sided|t-test, 2 sided|||Alpha level of 0.05||||>0.4
82426407|NCT01732536|164561752|SUPERIORITY|||||||0.0099|||||||ANCOVA|||||||0.0099
82369558|NCT01383135|164447786|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||||||GraphPad (GraphPad Software, San Diego, Calif) was used for the paired two-sample t test and was performed to compare SUVmax values. P \< .05 was considered to indicate a significant difference|t-test, 2 sided|||Comparison made between baseline tumor values and tumor values 6-weeks post-bevacizumab therapy||||.034
82369559|NCT03167723|164447803|NON_INFERIORITY|15% Non-Inferiority||||||0.036|||||||Farrington-Manning|||||||0.036
82369560|NCT02397408|164447827|OTHER||||||<|0.008|||||||Wilcoxon (Mann-Whitney)|||||||<.008
82369561|NCT03397771|164447828|OTHER||Odds Ratio (OR)|1.0||||0.963|TWO_SIDED||||||Regression, Logistic|||||||0.963
82369562|NCT03397771|164447829|NON_INFERIORITY|The analysis was conducted according to the nul hypothesis, assuming no difference between treatment arms||||||0.022|||||||ANCOVA|||||||0.022
82369563|NCT04040322|164447830|SUPERIORITY||Least squares mean difference in change|-1.26||||0.421|TWO_SIDED|95.0|-4.34|1.82||Threshold for statistical significance was p \< 0.05|ANCOVA|||||1.82|-4.34|0.4210
82369564|NCT04078126|164447834|OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.0179||0.345|TWO_SIDED|95.0|-0.054|0.02|||ANCOVA|||||0.020|-0.054|0.3450
82647929|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.0161|TWO_SIDED|95.0|-5.9|-0.6||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-5.9|0.0161
82369565|NCT04078126|164447835|OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.0183||0.3675|TWO_SIDED|95.0|-0.054|0.021|||ANCOVA|||||0.021|-0.054|0.3675
82369566|NCT04078126|164447836|OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.0199||0.7563|TWO_SIDED|95.0|-0.047|0.034|||ANCOVA|||||0.034|-0.047|0.7563
82369567|NCT04078126|164447837|OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.0521||0.5419|TWO_SIDED|95.0|-0.139|0.075|||ANCOVA|||||0.075|-0.139|0.5419
82395948|NCT02635009|164502770|SUPERIORITY|||||||0.28|||||||Fisher Exact|one-sided significance level = 0.05||Proportion of participants with deterioration in HVLT-R delayed recall score at six months: Null hypothesis = No difference between the arms; Alternative hypothesis = Arm 2 will have less deterioration than Arm 1. Ninety-eight evaluable participants per arm at six months provides 80% statistical power to detect a 14.5% absolute difference between the arms in proportion of participants with deterioration at six months using a one-sided Fisher's exact test.||||0.28
82369568|NCT04078126|164447838|OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|2.334||0.1337|TWO_SIDED|95.0|-8.39|1.18|||ANCOVA|||||1.18|-8.39|0.1337
82369569|NCT04078126|164447839|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|1.269||0.0431|TWO_SIDED|95.0|-5.29|-0.09|||ANCOVA|||||-0.09|-5.29|0.0431
82369570|NCT04078126|164447840|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|1.667||0.3625|TWO_SIDED|95.0|-4.87|1.81|||ANCOVA|||||1.81|-4.87|0.3625
82369571|NCT04078126|164447841|OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.0198||0.0375|TWO_SIDED|95.0|0.003|0.084|||ANCOVA|||||0.084|0.003|0.0375
82369572|NCT04078126|164447842|OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.0443||0.9089|TWO_SIDED|95.0|-0.086|0.096|||ANCOVA|||||0.096|-0.086|0.9089
82369573|NCT03056157|164447843|SUPERIORITY||Slope|-0.236||||0.03|TWO_SIDED|95.0|-3.34|-0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1519 )= -2.19, d = 0.15.||-0.18|-3.34|0.03
82369574|NCT03056157|164447843|SUPERIORITY||Slope|-8.97|||<|0.001|TWO_SIDED|95.0|-10.12|-6.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to- treat data for SDS scores, t(160)= -15.74, d = 2.97.||-6.11|-10.12|<.001
82369575|NCT03056157|164447843|SUPERIORITY||Slope|-6.62|||<|0.001|TWO_SIDED|95.0|-8.35|-6.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(160) = -12.72, d = 1.86.||-6.11|-8.35|<0.001
82369576|NCT03056157|164447843|SUPERIORITY||Slope|-0.65||||0.49|TWO_SIDED|95.0|-2.13|0.86|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = -0.90, d = 0.05.||0.86|-2.13|0.49
82369577|NCT03056157|164447843|SUPERIORITY||Slope|1.1|||<|0.001|TWO_SIDED|95.0|0.06|2.17|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = 2.11, d = 0.11.||2.17|0.06|<0.001
82369578|NCT03056157|164447843|SUPERIORITY||Slope|1.75|||<|0.001|TWO_SIDED|95.0|0.75|2.81|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores, t(1510) = 3.45, d = 0.18||2.81|0.75|<0.001
82369579|NCT03056157|164447844|SUPERIORITY||Odds Ratio (OR)|2.35||||0.03|TWO_SIDED|95.0|1.01|5.56|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced probable recovery in SDS from baseline to post-treatment in AD-MIL versus PCT.||5.56|1.01|0.03
82369580|NCT03056157|164447844|SUPERIORITY||Odds Ratio (OR)|0.0||||0.01|TWO_SIDED|95.0|0.0|0.71|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced improvement from baseline to post-treatment in SDS in AD-MIL versus PCT.||0.71|0|0.01
82369581|NCT03056157|164447844|SUPERIORITY||Odds Ratio (OR)|0.82||||0.69|TWO_SIDED|95.0|0.35|1.87|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced no change in SDS from baseline to post-treatment in AD-MIL versus PCT.||1.87|0.35|.69
82369582|NCT03056157|164447844|SUPERIORITY||Odds Ratio (OR)|0.0||||0.5|TWO_SIDED|0.0|0.0|5.83|||Fisher Exact|||Odds ratio comparison of the proportion of participants who experienced deterioration in SDS from baseline to post-treatment in AD-MIL versus PCT.||5.83|0|0.50
82369583|NCT03056157|164447845|SUPERIORITY||Slope|-3.39||||0.35|TWO_SIDED|95.0|-10.57|3.79|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -0.93, d = 0.10.||3.79|-10.57|0.35
82369584|NCT03056157|164447845|SUPERIORITY||Slope|-8.64||||0.001|TWO_SIDED|95.0|-13.83|-3.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for BIPF scores, t(116) = -3.27, d = 0.61.||-3.44|-13.83|0.001
82369585|NCT03056157|164447845|SUPERIORITY||Slope|-5.25||||0.04|TWO_SIDED|95.0|-10.21|-0.29|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(116) = -2.08, d = 0.39.||-0.29|-10.21|0.04
82369586|NCT03056157|164447845|SUPERIORITY||Slope|-5.17||||0.08|TWO_SIDED|95.0|-10.86|0.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -1.79, d = 0.20.||0.52|-10.86|0.08
82426408|NCT01732536|164561753|SUPERIORITY|||||||0.0162||||||P-value for change from baseline to 90 days not adjusted for multiplicity|ANCOVA|ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0162
82369587|NCT03056157|164447845|SUPERIORITY||Slope|-5.64||||0.007|TWO_SIDED|95.0|-9.72|-1.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -2.72, d = 0.30.||-1.57|-9.72|0.007
82647930|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.0338|TWO_SIDED|95.0|-4.9|-0.2||Postmenopausal female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.9|0.0338
82369588|NCT03056157|164447845|SUPERIORITY||Slope|-0.47||||0.82|TWO_SIDED|95.0|-4.44|3.5|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B-IPF scores, t(326) = -0.23, d = 0.03.||3.50|-4.44|0.82
82369589|NCT03056157|164447846|SUPERIORITY||Slope|-0.6||||0.75|TWO_SIDED|95.0|-4.68|3.36|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = -0.32, d = 0.03.||3.36|-4.68|0.75
82369590|NCT03056157|164447846|SUPERIORITY||Slope|-9.12|||<|0.001|TWO_SIDED|95.0|-12.12|-6.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(37) = -6.01, d = 1.97.||-6.12|-12.12|<0.001
82369591|NCT03056157|164447846|SUPERIORITY||Slope|-8.72|||<|0.001|TWO_SIDED|95.0|-11.16|-5.76|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(37) = -6.11, d = 2.01.||-5.76|-11.16|<0.001
82369592|NCT03056157|164447846|SUPERIORITY||Slope|-2.28||||0.56|TWO_SIDED|95.0|-10.08|5.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = -0.59, d = 0.06.||5.52|-10.08|0.56
82369593|NCT03056157|164447846|SUPERIORITY||Slope|4.2||||0.22|TWO_SIDED|95.0|-0.24|10.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = 1.25, d = 0.13.||10.92|-0.24|0.22
82369594|NCT03056157|164447846|SUPERIORITY||Slope|6.6||||0.002|TWO_SIDED|95.0|2.52|10.69|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SDS scores for the COVID-19 cohort, t(373) = 3.18, d = 0.33.||10.69|2.52|0.002
82369595|NCT03056157|164447847|SUPERIORITY||Slope|0.48||||0.92|TWO_SIDED|95.0|-9.6|10.69|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(367) = 0.10, d = 0.01.||10.69|-9.60|0.92
82369596|NCT03056157|164447847|SUPERIORITY||Slope|-16.08|||<|0.001|TWO_SIDED|95.0|-23.64|-8.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -4.23, d = 1.39.||-8.52|-23.64|<0.001
82369597|NCT03056157|164447847|SUPERIORITY||Slope|-16.56|||<|0.001|TWO_SIDED|95.0|-23.4|-9.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -4.77, d = 1.57.||-9.72|-23.40|<0.001
82369598|NCT03056157|164447847|SUPERIORITY||Slope|-26.28||||0.002|TWO_SIDED|95.0|-42.6|-9.84|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(367) = -3.15, d = 0.33.||-9.84|-42.60|0.002
82369599|NCT03056157|164447847|SUPERIORITY||Slope|-18.72||||0.01|TWO_SIDED|95.0|-32.4|-4.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores for the COVID-19 cohort, t(37) = -2.67, d = 0.28.||-4.92|-32.40|0.01
82444747|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.022||0.279|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||Lateral occipital||0.02|-0.07|0.279
82369600|NCT03056157|164447847|SUPERIORITY||Slope|-5.25||||0.04|TWO_SIDED|95.0|-10.21|-0.29|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for B- IPF scores, the Pre-Post PCT Time slope was -5.25 \[95% CI = -10.21, -0.29\], p-value = 0.04, t(116) = -2.08, d = 0.39.||-0.29|-10.21|0.04
82369601|NCT03056157|164447848|SUPERIORITY||Slope|-6.38||||0.1|TWO_SIDED|95.0|-13.97|1.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = -1.69, d = 0.48.||1.22|-13.97|0.10
82369602|NCT03056157|164447848|SUPERIORITY||Slope|-13.29|||<|0.001|TWO_SIDED|95.0|-18.96|-7.62|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(32) = -4.71, d = 1.67.||-7.62|-18.96|<0.001
82369603|NCT03056157|164447848|SUPERIORITY||Slope|-6.92||||0.001|TWO_SIDED|95.0|-11.96|-1.87|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(32) = -2.75, d = 0.97.||-1.87|-11.96|0.001
82369604|NCT03056157|164447848|SUPERIORITY||Slope|5.22||||0.34|TWO_SIDED|95.0|-5.6|16.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 0.97, d = 0.28.||16.05|-5.60|0.34
82369605|NCT03056157|164447848|SUPERIORITY||Slope|5.93||||0.17|TWO_SIDED|95.0|-2.55|14.41|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 1.40, d = 0.40.||14.41|-2.55|0.17
82369606|NCT03056157|164447848|SUPERIORITY||Slope|0.7||||0.83|TWO_SIDED|95.0|-6.04|7.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores for the COVID-19 cohort, t(49) = 0.21, d = 0.06.||7.44|-6.04|0.83
82369607|NCT03056157|164447849|SUPERIORITY||Slope|0.6||||0.76|TWO_SIDED|95.0|-3.12|4.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = 0.30, d = 0.03.||4.20|-3.12|0.76
82369608|NCT03056157|164447849|SUPERIORITY||Slope|-3.12||||0.002|TWO_SIDED|95.0|-6.96|-1.56|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(37) = -3.14, d = 1.03.||-1.56|-6.96|0.002
82369609|NCT03056157|164447849|SUPERIORITY||Slope|-4.92|||<|0.001|TWO_SIDED|95.0|-7.32|-2.4|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(37) = -3.88, d = 1.27.||-2.40|-7.32|<0.001
82369610|NCT03056157|164447849|SUPERIORITY||Slope|-4.8||||0.13|TWO_SIDED|95.0|-11.16|1.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = -1.50, d = 0.16.||1.44|-11.16|0.13
82369611|NCT03056157|164447849|SUPERIORITY||Slope|-2.4||||0.38|TWO_SIDED|95.0|-7.68|3.0|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = -0.87, d = 0.09.||3.00|-7.68|0.38
82369612|NCT03056157|164447849|SUPERIORITY||Slope|2.4||||0.26|TWO_SIDED|95.0|-0.96|5.88|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores for the COVID-19 cohort, t(373) = 1.42, d = 0.15.||5.88|-0.96|0.26
82529234|NCT03661996|164755056|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.62|STANDARD_ERROR_OF_MEAN|0.865|<|0.0001|TWO_SIDED|95.0|23.92|27.32|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.32|23.92|<0.0001
82529235|NCT03661996|164755056|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.1|STANDARD_ERROR_OF_MEAN|1.053|<|0.0001|TWO_SIDED|95.0|20.03|24.17|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||24.17|20.03|<0.0001
82529236|NCT03661996|164755057|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|21.1|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|17.6|24.5|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||24.5|17.6|<0.0001
82575807|NCT01937975|164861114|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.96|||||TWO_SIDED|90.0|0.75|1.22|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.22|0.75|
82647931|NCT00386100|165011341|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.6||||0.002|TWO_SIDED|95.0|-4.1|-1.0||Postmenopausal female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-1.0|-4.1|0.0020
82369613|NCT03056157|164447850|SUPERIORITY||Slope|-6.65|||<|0.001|TWO_SIDED|95.0|-10.23|-3.07|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = -3.65, d = 0.39.||-3.07|-10.23|<0.001
82369614|NCT03056157|164447850|SUPERIORITY||Slope|-11.88|||<|0.001|TWO_SIDED|95.0|-14.43|-9.32|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(131) = -9.14, d = 1.60.||-9.32|-14.43|<0.001
82369615|NCT03056157|164447850|SUPERIORITY||Slope|-5.23|||<|0.001|TWO_SIDED|95.0|-7.74|-2.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(131) = -4.10, d = 0.72.||-2.72|-7.74|<0.001
82369616|NCT03056157|164447850|SUPERIORITY||Slope|1.36||||0.39|TWO_SIDED|95.0|-1.73|4.45|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = 0.87, d = 0.09.||4.45|-1.73|0.39
82369617|NCT03056157|164447850|SUPERIORITY||Slope|0.08||||0.94|TWO_SIDED|95.0|-2.1|2.26|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = 0.07, d = 0.001.||2.26|-2.10|0.94
82369618|NCT03056157|164447850|SUPERIORITY||Slope|-1.28||||0.25|TWO_SIDED|95.0|-3.48|0.91|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CAPS-5 scores, t(348) = -1.15, d = 0.12.||0.91|-3.48|0.25
82395949|NCT02635009|164502771|NON_INFERIORITY|Null hypothesis: Proportion of participants with relapse on Arm 2 - Arm 1 \> 20%; Alternative hypothesis: Proportion of participants with relapse on Arm 2 - Arm 1 = 4.5%. Using a non-inferiority margin of 20% and an assumed difference in proportions of 4.5% under the alternative, a 2-sample test of difference in proportions with a 1-sided alpha of 0.1 requires 164 patients to achieve 85% statistical power. (Statistically significant p-value indicates non-inferiority.)||||||0.003|||||||Test of binomial proportions|||||||0.0030
82575808|NCT01937975|164861114|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.57|1.48|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.48|0.57|
82575809|NCT01937975|164861114|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.54|1.42|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.42|0.54|
82369619|NCT03056157|164447851|SUPERIORITY||Odds Ratio (OR)|6.44||||0.01|TWO_SIDED|95.0|1.29|63.18|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced probable recovery in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||63.18|1.29|0.01
82369620|NCT03056157|164447851|SUPERIORITY||Odds Ratio (OR)|1.51||||0.4|TWO_SIDED|95.0|0.61|3.75|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced improvement in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||3.75|0.61|0.40
82369621|NCT03056157|164447851|SUPERIORITY||Odds Ratio (OR)|0.78||||0.58|TWO_SIDED|95.0|0.36|1.7|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced no change in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||1.70|0.36|0.58
82369622|NCT03056157|164447851|SUPERIORITY||Odds Ratio (OR)|0.15||||0.06|TWO_SIDED|95.0|0.003|1.2|||Fisher Exact|||Odds ratio comparison of the proportions of participants who experienced deterioration in CAPS-5 from baseline to post-treatment in AD-MIL versus PCT.||1.20|0.003|0.06
82369623|NCT03056157|164447852|SUPERIORITY||Odds Ratio (OR)|0.49||||0.07|TWO_SIDED|95.0|0.22|1.06|||Fisher Exact|||Odds ratio comparison of the proportions of participants with a PTSD Diagnosis in CAPS-5 at post-treatment in AD-MIL versus PCT.||1.06|0.22|0.07
82369624|NCT03056157|164447852|SUPERIORITY||Odds Ratio (OR)|0.66||||0.33|TWO_SIDED|95.0|0.28|1.56|||Fisher Exact|||Odds ratio comparison of the proportions of participants with PTSD Diagnosis in CAPS-5 at 3MFU in AD-MIL versus PCT.||1.56|0.28|0.33
82395950|NCT02635009|164502772|SUPERIORITY|||||||0.0598|||||||Gray's test|||||||0.0598
82395951|NCT02635009|164502773|SUPERIORITY|||||||0.78|||||||Chi-squared|||3 months||||0.78
82575810|NCT01937975|164861114|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|0.99|2.77|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.77|0.99|
82529237|NCT03661996|164755057|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.3|STANDARD_ERROR_OF_MEAN|6.06||0.0003|TWO_SIDED|95.0|12.7|37.8|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||37.8|12.7|0.0003
82369625|NCT03056157|164447852|SUPERIORITY||Odds Ratio (OR)|0.42||||0.05|TWO_SIDED|95.0|0.15|1.08|||Fisher Exact|||Odds ratio comparison of the proportions of participants with PTSD Diagnosis in CAPS-5 at 6MFU in AD-MIL versus PCT.||1.08|0.15|0.05
82369626|NCT03056157|164447853|SUPERIORITY||Slope|-4.63||||0.003|TWO_SIDED|95.0|-7.16|-2.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = -3.01, d = 0.13.||-2.10|-7.16|.003
82369627|NCT03056157|164447853|SUPERIORITY||Slope|-12.62|||<|0.001|TWO_SIDED|95.0|-14.43|-10.8|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(161) = -11.50, d = 1.81.||-10.80|-14.43|<0.001
82369628|NCT03056157|164447853|SUPERIORITY||Slope|-7.89|||<|0.001|TWO_SIDED|95.0|-9.77|-6.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(161) = -7.40, d = 1.16.||-6.20|-9.77|<0.001
82369629|NCT03056157|164447853|SUPERIORITY||Slope|-0.75||||0.65|TWO_SIDED|95.0|-4.01|2.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = -0.45, d = 0.02.||2.52|-4.01|0.65
82369630|NCT03056157|164447853|SUPERIORITY||Slope|2.3||||0.05|TWO_SIDED|95.0|-0.03|4.63|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = 1.94, d = 0.10.||4.63|-0.03|0.05
82369631|NCT03056157|164447853|SUPERIORITY||Slope|3.04||||0.001|TWO_SIDED|95.0|0.75|5.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PCL-5 scores, t(1542) = 2.61, d = 0.13.||5.34|0.75|0.001
82369632|NCT03056157|164447854|SUPERIORITY||Odds Ratio (OR)|2.39||||0.04|TWO_SIDED|95.0|1.01|5.84|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing probable recovery in PCL-5 at post-treatment in AD-MIL versus PCT.||5.84|1.01|0.04
82369633|NCT03056157|164447854|SUPERIORITY||Odds Ratio (OR)|0.7||||0.49|TWO_SIDED|95.0|0.25|1.95|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing improvement in PCL-5 at post-treatment in AD-MIL versus PCT.||1.95|0.25|0.49
82369634|NCT03056157|164447854|SUPERIORITY||Odds Ratio (OR)|0.58||||0.18|TWO_SIDED|95.0|0.25|1.32|||Fisher Exact|||Odds ratio comparison of the proportions of participants experiencing no change in PCL-5 at post-treatment in AD-MIL versus PCT.||1.32|0.25|0.18
82369635|NCT03056157|164447855|SUPERIORITY||Slope|-0.99||||0.14|TWO_SIDED|95.0|-2.29|0.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = -1.46, d = 0.07||0.34|-2.29|0.14
82369636|NCT03056157|164447855|SUPERIORITY||Slope|-5.87|||<|0.001|TWO_SIDED|95.0|-6.8|-4.9|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(161) = -12.41, d = 1.96.||-4.90|-6.80|<0.001
82529238|NCT03661996|164755057|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.85|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|95.0|23.82|27.88|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||27.88|23.82|<0.0001
82575811|NCT01937975|164861117|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.92|1.15|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.15|0.92|
82575812|NCT01937975|164861117|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.8|1.73|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.73|0.80|
82369637|NCT03056157|164447855|SUPERIORITY||Slope|-4.89|||<|0.001|TWO_SIDED|95.0|-5.82|-3.94|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(161) = -10.29, d = 1.62.||-3.94|-5.82|<0.001
82369638|NCT03056157|164447855|SUPERIORITY||Slope|0.02||||0.68|TWO_SIDED|95.0|-0.99|1.53|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 0.42, d = 0.02.||1.53|-0.99|0.68
82369639|NCT03056157|164447855|SUPERIORITY||Slope|1.36||||0.003|TWO_SIDED|95.0|0.48|2.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 3.02, d = 0.15.||2.24|0.48|0.003
82369640|NCT03056157|164447855|SUPERIORITY||Slope|1.09||||0.02|TWO_SIDED|95.0|0.19|1.99|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for PHQ-9 scores, t(1550) = 2.37, d = 0.12.||1.99|0.19|0.02
82369641|NCT03056157|164447856|SUPERIORITY||Slope|-0.2||||0.18|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(314) = -1.35, d = 0.15.||0.09|-0.49|0.18
82369642|NCT03056157|164447856|SUPERIORITY||Slope|-0.26||||0.02|TWO_SIDED|95.0|-0.47|-0.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -2.44, d = 0.46.||-0.05|-0.47|0.02
82369643|NCT03056157|164447856|SUPERIORITY||Slope|-0.06||||0.62|TWO_SIDED|95.0|-0.26|0.14|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -0.69, d = 0.12.||0.14|-0.26|0.62
82369644|NCT03056157|164447856|SUPERIORITY||Slope|0.16||||0.18|TWO_SIDED|95.0|-0.07|0.39|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(314) = 1.34, d = 0.15.||0.39|-0.07|0.18
82369645|NCT03056157|164447856|SUPERIORITY||Slope|0.13||||0.14|TWO_SIDED|95.0|-0.04|0.3|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = 1.49, d = 0.28.||0.30|-0.04|0.14
82369646|NCT03056157|164447856|SUPERIORITY||Slope|-0.03||||0.71|TWO_SIDED|95.0|-0.19|0.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Justification scores, t(113) = -0.38, d = 0.07.||0.13|-0.19|0.71
82395952|NCT02635009|164502773|SUPERIORITY|||||||0.63|||||||Chi-squared|||6 months||||0.63
82395953|NCT02635009|164502773|SUPERIORITY|||||||0.84|||||||Chi-squared|||12 months||||0.84
82395954|NCT02635009|164502775|SUPERIORITY|||||||0.56|||||||Chi-squared|||3 months||||0.56
82395955|NCT02635009|164502775|SUPERIORITY|||||||0.75|||||||Chi-squared|||12 months||||0.75
82395956|NCT02635009|164502777|SUPERIORITY|||||||0.81|||||||Chi-squared|||3 months||||0.81
82395957|NCT02635009|164502777|SUPERIORITY|||||||0.93|||||||Chi-squared|||6 months||||0.93
82395958|NCT02635009|164502777|SUPERIORITY|||||||0.35|||||||Chi-squared|||12 months||||0.35
82395959|NCT02635009|164502779|SUPERIORITY|||||||0.54|||||||Chi-squared|||3 months||||0.54
82529239|NCT03661996|164755057|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|23.34|STANDARD_ERROR_OF_MEAN|1.238|<|0.0001|TWO_SIDED|95.0|20.91|25.78|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms for pooled site group, baseline K-L grade category, baseline BMI category (\<30 kg/m2, ≥30 kg/m2), sex, study visit, and baseline KOOS subscale score as covariates. Study visit was included in the model as a categorical variable.||25.78|20.91|<0.0001
82529240|NCT03661996|164755058|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|20.86|STANDARD_ERROR_OF_MEAN|1.481|<|0.0001|TWO_SIDED|95.0|17.94|23.78|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||23.78|17.94|<0.0001
82529241|NCT03661996|164755058|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.66|STANDARD_ERROR_OF_MEAN|4.568|<|0.0001|TWO_SIDED|95.0|16.24|35.09|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||35.09|16.24|<0.0001
82575813|NCT01937975|164861117|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.21|||||TWO_SIDED|90.0|0.82|1.78|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.78|0.82|
82395960|NCT02635009|164502779|SUPERIORITY|||||||0.43|||||||Chi-squared|||6 months||||0.43
82395961|NCT02635009|164502779|SUPERIORITY|||||||0.25|||||||Chi-squared|||12 months||||0.25
82575814|NCT01937975|164861117|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.61|||||TWO_SIDED|90.0|0.4|0.92|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||0.92|0.40|
82575815|NCT01937975|164861118|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.63|1.42|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|||1.42|0.63|
82395962|NCT02635009|164502781|SUPERIORITY|||||||0.71|||||||Chi-squared|||3 months||||0.71
82395963|NCT02635009|164502781|SUPERIORITY|||||||0.079|||||||Chi-squared|||6 months||||0.079
82395964|NCT02635009|164502781|SUPERIORITY|||||||0.85|||||||Chi-squared|||12 months||||0.85
82395965|NCT02635009|164502783|SUPERIORITY|||||||0.043|||||||Chi-squared|||3 months||||0.043
82395966|NCT02635009|164502783|SUPERIORITY|||||||0.017|||||||Fisher Exact|||6 months||||0.017
82395967|NCT02635009|164502783|SUPERIORITY|||||||0.057|||||||Chi-squared|||12-month||||0.057
82395968|NCT02635009|164502786|SUPERIORITY|||||||0.1|||||||Chi-squared|||3 months||||0.10
82395969|NCT02635009|164502786|SUPERIORITY|||||||0.33|||||||Chi-squared|||6 months||||0.33
82395970|NCT02635009|164502786|SUPERIORITY|||||||0.29|||||||Chi-squared|||12 months||||0.29
82395971|NCT02635009|164502788|SUPERIORITY|||||||0.0021|||||||Chi-squared|||3 months||||0.0021
82395972|NCT02635009|164502788|SUPERIORITY|||||||0.007|||||||Chi-squared|||6 months||||0.0070
82395973|NCT02635009|164502788|SUPERIORITY|||||||0.35|||||||Chi-squared|||12 months||||0.35
82395974|NCT02635009|164502790|SUPERIORITY|||||||0.55|||||||Chi-squared|||3 months||||0.55
82395975|NCT02635009|164502790|SUPERIORITY|||||||0.062|||||||Chi-squared|||6 months||||0.062
82395976|NCT02635009|164502790|SUPERIORITY|||||||0.32|||||||Chi-squared|||12 months||||0.32
82395977|NCT02635009|164502792|SUPERIORITY|||||||0.7|||||||Chi-squared|||3 months||||0.70
82395978|NCT02635009|164502792|SUPERIORITY|||||||0.52|||||||Chi-squared|||6 months||||0.52
82395979|NCT02635009|164502792|SUPERIORITY|||||||0.73|||||||Chi-squared|||12 months||||0.73
82395980|NCT02635009|164502794|SUPERIORITY|||||||0.28|||||||Chi-squared|||3 months||||0.28
82395981|NCT02635009|164502794|SUPERIORITY|||||||0.094|||||||Chi-squared|||6 months||||0.094
82395982|NCT02635009|164502794|SUPERIORITY|||||||0.61|||||||Chi-squared|||||||0.61
82395983|NCT02635009|164502796|SUPERIORITY|||||||0.16|||||||Chi-squared|||3 months.||||0.16
82395984|NCT02635009|164502796|SUPERIORITY|||||||0.017|||||||Chi-squared|||6 months. Assuming 50% of patients experience deterioration at 6 months, based on a prior study (RTOG-0212), a sample size of 198 participants per arm provides 94% power to detect a 50% relative reduction (50% on Arm 1 vs. 25% on Arm 2) in decline at 6 months using Fisher's exact test with a two-sided alpha=0.05.||||0.017
82395985|NCT02635009|164502796|SUPERIORITY|||||||0.56|||||||Chi-squared|||12-month||||0.56
82395986|NCT02635009|164502798|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
82395987|NCT02635009|164502798|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
82395988|NCT02635009|164502798|SUPERIORITY|||||||0.25|||||||Chi-squared|||||||0.25
82395989|NCT02635009|164502800|SUPERIORITY|||||||0.35|||||||Chi-squared|||3 months||||0.35
82395990|NCT02635009|164502800|SUPERIORITY|||||||0.99|||||||Chi-squared|||6 months||||0.99
82395991|NCT02635009|164502800|SUPERIORITY|||||||0.94|||||||Chi-squared|||12 months||||0.94
82395992|NCT02635009|164502804|SUPERIORITY|||||||0.79||||||Two-side significance level = 0.05|Log Rank|||||||0.79
82395993|NCT02635009|164502805|SUPERIORITY|||||||0.93|||||||Gray's test|||||||0.93
82395994|NCT00981058|164502811|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.842||||0.012|TWO_SIDED|95.0|0.736|0.962|||Log Rank|||||0.962|0.736|0.0120
82395995|NCT00981058|164502812|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.851||||0.0201|TWO_SIDED|95.0|0.743|0.975|||Log Rank|||||0.975|0.743|0.0201
82395996|NCT00981058|164502813|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.3997|TWO_SIDED|95.0|0.86|1.45|||Cochran-Mantel-Haenszel|||||1.45|0.86|0.3997
82395997|NCT00981058|164502814|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.0061|TWO_SIDED|95.0|0.747|0.953|||Log Rank|||||0.953|0.747|0.0061
82395998|NCT01973335|164502820|SUPERIORITY||Mean Difference (Final Values)|30.0||||0.515|TWO_SIDED|95.0|-63.0|123.0||Not adjusted for multiple comparisons|t-test, 2 sided|||2x2 factorial design: both acetazolamide groups together are compared with both high-dose loop diuretic groups together||123|-63|0.515
82395999|NCT01973335|164502821|SUPERIORITY||Risk Difference (RD)|-0.2||||0.27|TWO_SIDED|||||Not adjusted for multiple comparisons|Fisher Exact|||2x2 factorial design: analysis according to spironolactone use||||0.270
82396000|NCT00904839|164502874|SUPERIORITY_OR_OTHER||Difference|-8.1|||||TWO_SIDED|95.0|-27.8|11.5|||Kaplan-Meier||Difference in Kaplan-Meier Progression-free Survival Rates at 9 Months using Peto´s variance estimate.|||11.5|-27.8|
82396001|NCT00904839|164502879|SUPERIORITY_OR_OTHER||Difference|-5.0|||||TWO_SIDED|95.0|-15.3|5.2|||Kaplan-Meier||confidence interval includes 0, meaning that the null hypothesis (no difference between the 2 groups) cannot be rejected (i.e. pvalue \> 0.05). The pvalue was not computed. Difference in Kaplan-Meier Resection Rates using Peto´s variance estimate.|||5.2|-15.3|
82396002|NCT02603107|164502926|NON_INFERIORITY|A sample size of 520 participants (260 participants per treatment group) would provide at least 90% power to establish a non-inferiority margin of 4% in the Week 48 response rate (HIV-1 RNA ≥ 50 copies/mL) between the 2 treatment groups. Sample size was based on the assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL (based on Gilead Genvoya and Stribild studies) and that the significance level of the test is at a 1-sided 0.025 level.|Difference in Percentages|0.0|||||TWO_SIDED|95.002|-2.5|2.5|||||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Week 48 in the B/F/TAF group was at least 4% higher than the rate in the SBR group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA ≥ 50 copies/mL in the B/F/TAF group was less than 4% higher than that in the SBR group.||2.5|-2.5|
82396003|NCT02603107|164502926|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82396004|NCT02603107|164502927|NON_INFERIORITY|The non-inferiority of B/F/TAF would be established if the lower bound of the 2-sided 95.002% CI of the difference between the treatment groups (B/F/TAF group - SBR group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|3.2|||||TWO_SIDED|95.002|-1.6|8.2|||||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||8.2|-1.6|
82396005|NCT02603107|164502927|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
82396006|NCT02603107|164502928|SUPERIORITY||Difference in Least Squares Means (LSM)|25.0||||0.068|TWO_SIDED|95.0|-2.0|52.0|||ANOVA|||||52|-2|0.068
82396007|NCT00187278|164502936|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.926||||0.3492|TWO_SIDED|95.0|0.789|1.0088||adjusted p|Regression, Cox|||||1.0088|0.789|0.3492
82396008|NCT00187278|164502937|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.878||||0.0882|TWO_SIDED|95.0|0.756|1.02||adjusted p|Regression, Cox|||||1.020|0.756|0.0882
82396009|NCT00187278|164502938|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.8215|TWO_SIDED|95.0|0.74|1.27|||Regression, Cox|||||1.27|0.74|0.8215
82396010|NCT00090584|164502970|SUPERIORITY_OR_OTHER||Difference in cumulative success rates|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.74|TWO_SIDED|95.0|-0.12|0.12|||Log Rank|||Kaplan Meier Lifetable analysis was used to compute the 8 month cumulative success rates.||0.12|-0.12|0.74
82396011|NCT00090584|164502971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|2.0||0.34|TWO_SIDED|95.0|-2.0|5.9||Mixed effect repeated measures analysis of variance controlling for study site.|ANOVA|||Test of hypothesis of no difference in change in episodes between the two groups.||5.9|-2.0|0.34
82396012|NCT00090584|164502972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-1.7|0.1||Repeated measures ANOVA controlling for clinical site.|ANOVA||Difference (group 1 - group 2) in change from baseline to follow-up in voids per day.|Null hypothesis of no difference between arms in change in number of voids per day from baseline to 10 weeks.||0.1|-1.7|0.08
82396013|NCT00090584|164502973|SUPERIORITY_OR_OTHER||Other|0.0||||0.0006||95.0||||Repeated measures ANOVA|Mixed Models Analysis|Main hypothesis tested by F-test for treatment by time interaction (2 and 509 degrees of freedom). No parameters estimated.||Null hypothesis is that there is no difference between treatment groups in improvement in UDI over time||||0.0006
82396014|NCT00090584|164502974|SUPERIORITY_OR_OTHER||Other|0.0||||0.0005||95.0||||P-value for test of time by treatment group interaction.|Mixed Models Analysis|Adjusted for study site||Repeated measures analysis of difference in symptom bother over time by treatment group.||||0.0005
82396015|NCT00090584|164502975|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.02|TWO_SIDED|95.0|1.09|2.92|||Regression, Logistic|Controlling for clinical site and randomization stratum|Ratio of odds of complete satisfaction in Combination therapy arm to Drug only arm.|Null hypothesis: no difference in satisfaction at 10 weeks||2.92|1.09|0.02
82396016|NCT00090584|164502976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.02|TWO_SIDED|95.0|1.11|3.7|||Regression, Logistic|Controlling for clinical site and randomization stratum|Ratio of odds of complete satisfaction in combination therapy group compared to drug only group.|Null hypothesis: No difference in satisfaction at 8 months post intervention||3.70|1.11|0.02
82396017|NCT00090584|164502977|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55||||0.008|TWO_SIDED|95.0|1.27|5.13||P-value from logistic regression analysis|Regression, Logistic|Controlling for clinical site and randomization stratum||Null hypothesis: No difference in perceived improvement between women in combination therapy group compared to those in drug only group||5.13|1.27|0.008
82426409|NCT01732536|164561753|SUPERIORITY|||||||0.0175||||||P-value for change from baseline to 6 months not adjusted for multiplicity|ANCOVA|ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0175
82396018|NCT00090584|164502978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|95.0|1.83|5.52|||Regression, Logistic|Controlling for clinical site and randomization stratum||Null hypothesis: No difference in perceived improvement at 8 months between women in combination therapy group compared to those in drug only group.||5.52|1.83|<0.0001
82396019|NCT04907227|164503030|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.32|2.46|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.46|0.32|
82396020|NCT04907227|164503031|OTHER||Hazard Ratio (HR)|1.59|||||TWO_SIDED|95.0|0.68|3.67|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.67|0.68|
82396021|NCT04907227|164503032|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.45|1.5|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.50|0.45|
82396022|NCT04907227|164503034|OTHER||Percent Difference|4.3|||||TWO_SIDED|95.0|-24.1|31.2|||||Based on Miettinen \& Nurminen method.|||31.2|-24.1|
82396023|NCT04907227|164503036|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.17|1.99|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.99|0.17|
82396024|NCT04907227|164503037|OTHER||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|0.15|18.24|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||18.24|0.15|
82396025|NCT04907227|164503038|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.41|1.46|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.46|0.41|
82444748|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.016||0.693|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||Lateral temporal||0.02|-0.04|0.693
82396026|NCT04907227|164503039|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.43|3.17|||||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.17|0.43|
82396027|NCT03053427|164503047|SUPERIORITY||LSM difference|-1.2|STANDARD_ERROR_OF_MEAN|0.7||0.088|TWO_SIDED|95.0|-2.6|0.2|||Mixed Model of Repeated Measurements|||MMRM with compound symmetry as the covariance structure was used. The explanatory variables of the model included treatment group, IRLS score at baseline, age category, estimated creatinine clearance category, time point, and interaction of treatment group and time point.||0.2|-2.6|0.088
82396028|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.051|TWO_SIDED|95.0|-2.2|0.0|||ANCOVA|Time frame: week 1||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.0|-2.2|0.051
82396029|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.02|TWO_SIDED|95.0|-2.8|-0.2|||ANCOVA|Time frame: week 2||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-2.8|0.020
82396030|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.028|TWO_SIDED|95.0|-2.9|-0.2|||ANCOVA|Time frame: week 4||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-2.9|0.028
82396031|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.043|TWO_SIDED|95.0|-2.9|0.0|||ANCOVA|Time frame: week 6||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.0|-2.9|0.043
82396032|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.184|TWO_SIDED|95.0|-2.4|0.5|||ANCOVA|Time frame: week 8||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.5|-2.4|0.184
82396033|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.027|TWO_SIDED|95.0|-3.1|-0.2|||ANCOVA|Time frame: week 10||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||-0.2|-3.1|0.027
82396034|NCT03053427|164503048|SUPERIORITY||LSM difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.087|TWO_SIDED|95.0|-3.0|0.2|||ANCOVA|Time frame: week 12||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.2|-3.0|0.087
82396035|NCT03053427|164503048|SUPERIORITY||LSM difference|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.312|TWO_SIDED|95.0|-2.4|0.8|||ANCOVA|Time frame: EoT||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in IRLS score from baseline was calculated by visit, using ANCOVA model with the baseline value as a covariate.||0.8|-2.4|0.312
82396036|NCT03053427|164503049|SUPERIORITY||difference|4.2||||0.467|TWO_SIDED|95.0|-6.4|14.8|||Fisher Exact|||||14.8|-6.4|0.467
82396037|NCT03053427|164503050|SUPERIORITY||difference|5.8||||0.3|TWO_SIDED|95.0|-4.8|16.5|||Fisher Exact|||||16.5|-4.8|0.300
82426410|NCT01732536|164561754|SUPERIORITY|||||||0.0209||||||P-value not adjusted for multiplicity.|ANCOVA|Based on between arm comparison using ANCOVA model with baseline as a covariate and site and treatment as fixed effects||||||0.0209
82426411|NCT01409096|164561756|SUPERIORITY_OR_OTHER|||||||0.9084|TWO_SIDED||||||ANCOVA|||Baseline HRSD scores used as covariate.||||0.9084
82426412|NCT01409096|164561757|SUPERIORITY_OR_OTHER|||||||0.5187|TWO_SIDED||||||ANCOVA|||Baseline IDS-SR used as a covariate.||||0.5187
82426413|NCT01409096|164561758|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED||||||ANOVA|||Baseline YMRS used as a covariate.||||0.6060
82426414|NCT01409096|164561759|SUPERIORITY_OR_OTHER|||||||0.511|TWO_SIDED||||||ANCOVA|||Baseline HRSA used as a covariate.||||0.5110
82426415|NCT00320606|164561785|OTHER||95% confidence interval using an exact b|0.6|||||TWO_SIDED|95.0|0.4|0.8|||||Proportion Success|The proportion of participants in whom immunosuppression withdrawal was attempted who are successfully withdrawn from immunosuppression are descriptively summarized with 95% confidence intervals using an exact binomial method||0.8|0.4|
82426416|NCT00320606|164561786|OTHER||Binomial Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.1684|||||95% Confidence Interval Exact Binomial|The proportion of participants in whom immunosuppression (IS) withdrawal was attempted who are successfully withdrawn from immunosuppression and experience death or graft loss are descriptively summarized with 95% confidence intervals using an exact binomial method.||0.1684|0.0|
82369647|NCT03056157|164447857|SUPERIORITY||Slope|-0.47|||<|0.001|TWO_SIDED|95.0|-0.74|-0.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(314) = -3.41, d = 0.39.||-0.20|-0.74|<0.001
82369648|NCT03056157|164447857|SUPERIORITY||Slope|-0.64|||<|0.001|TWO_SIDED|95.0|-0.83|-0.44|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -6.41, d = 1.20.||-0.44|-0.83|<0.001
82369649|NCT03056157|164447857|SUPERIORITY||Slope|-0.17||||0.07|TWO_SIDED|95.0|-0.36|0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -1.83, d = 0.34.||0.02|-0.36|0.07
82369650|NCT03056157|164447857|SUPERIORITY||Slope|0.35||||0.002|TWO_SIDED|95.0|0.13|0.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(314) = 3.13, d = 0.06.||0.57|0.13|0.002
82369651|NCT03056157|164447857|SUPERIORITY||Slope|0.18||||0.03|TWO_SIDED|95.0|0.02|0.34|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = 2.21, d = 0.42.||0.34|0.02|0.03
82369652|NCT03056157|164447857|SUPERIORITY||Slope|-0.17||||0.03|TWO_SIDED|95.0|-0.32|-0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Hindsight-Bias scores, t(113) = -2.22, d = 0.42.||-0.02|-0.32|0.03
82369653|NCT03056157|164447858|SUPERIORITY||Slope|0.32||||0.01|TWO_SIDED|95.0|0.06|0.57|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(314) = 2.46, d = 0.28.||0.57|0.06|0.01
82369654|NCT03056157|164447858|SUPERIORITY||Slope|0.001||||0.95|TWO_SIDED|95.0|-0.17|0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = 0.06, d = 0.01.||0.18|-0.17|0.95
82369655|NCT03056157|164447858|SUPERIORITY||Slope|-0.31||||0.01|TWO_SIDED|95.0|-0.5|-0.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = -3.32, d = 0.62.||-0.13|-0.50|0.01
82369656|NCT03056157|164447858|SUPERIORITY||Slope|-0.21||||0.04|TWO_SIDED|95.0|-0.41|-0.01|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(314) = -2.02, d = 0.23.||-0.01|-0.41|0.04
82369657|NCT03056157|164447858|SUPERIORITY||Slope|-0.16||||0.03|TWO_SIDED|95.0|-0.3|-0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRGI Wrongdoing scores, t(113) = -2.18, d = 0.03.||-0.02|-0.30|0.03
82396038|NCT03053427|164503051|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.877|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||LMS difference (gabapentin enacarbil group minus placebo group) of the changes in PSQI component and global scores from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.5|-0.5|0.877
82369658|NCT03056157|164447858|SUPERIORITY||Slope|0.05||||0.48|TWO_SIDED|95.0|-0.09|0.2|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for RGI Wrongdoing scores, t(113) = 0.70, d = 0.13.||0.20|-0.09|0.48
82396039|NCT03053427|164503052|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.975|TWO_SIDED|95.0|-0.7|0.7|||ANCOVA|||LSM difference (gabapentin enacarbil group minus placebo group) of the changes in total score of Athens insomnia scale from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.7|-0.7|0.975
82369659|NCT03056157|164447859|SUPERIORITY||Slope|0.7||||0.45|TWO_SIDED|95.0|-1.12|2.52|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = 0.76, d = 0.09.||2.52|-1.12|0.45
82369660|NCT03056157|164447859|SUPERIORITY||Slope|-1.2||||0.08|TWO_SIDED|95.0|-2.52|0.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(113) = -1.79, d = 0.34.||0.12|-2.52|0.08
82369661|NCT03056157|164447859|SUPERIORITY||Slope|-1.91||||0.003|TWO_SIDED|95.0|-3.15|-0.66|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(113) = -3.00, d = 0.56.||-0.66|-3.15|0.003
82369662|NCT03056157|164447859|SUPERIORITY||standardized effect size of the slope|-0.29||||0.7|TWO_SIDED|95.0|-1.75|1.17|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -0.39, d = 0.04.||1.17|-1.75|0.70
82369663|NCT03056157|164447859|SUPERIORITY||Slope|-0.59||||0.27|TWO_SIDED|95.0|-1.64|0.46|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -1.11, d = 0.12.||0.46|-1.64|0.27
82369664|NCT03056157|164447859|SUPERIORITY||Slope|-0.29||||0.57|TWO_SIDED|95.0|-1.32|0.72|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for TRSI scores, t(317) = -0.57, d = 0.06.||0.72|-1.32|0.57
82369665|NCT03056157|164447860|SUPERIORITY||Slope|3.41||||0.02|TWO_SIDED|95.0|0.56|6.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = 2.35, d = 0.26.||6.25|0.56|0.02
82369666|NCT03056157|164447860|SUPERIORITY||Slope|6.84|||<|0.001|TWO_SIDED|95.0|4.78|8.9|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(116) = -6.53, d = 1.21.||8.90|4.78|<0.001
82369667|NCT03056157|164447860|SUPERIORITY||Slope|3.43||||0.001|TWO_SIDED|95.0|1.47|5.4|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(116) = 3.44, d = 0.64.||5.40|1.47|0.001
82369668|NCT03056157|164447860|SUPERIORITY||Slope|0.76||||0.51|TWO_SIDED|95.0|-1.5|3.03|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = 0.66, d = 0.07.||3.03|-1.50|0.51
82369669|NCT03056157|164447860|SUPERIORITY||Slope|-0.27||||0.75|TWO_SIDED|95.0|-1.89|1.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = -0.32, d = 0.04.||1.35|-1.89|0.75
82369670|NCT03056157|164447860|SUPERIORITY||Slope|-1.03||||0.2|TWO_SIDED|95.0|-2.61|0.55|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SOS-10 scores, t(326) = -1.28, d = 0.14.||0.55|-2.61|0.20
82369671|NCT03056157|164447861|SUPERIORITY||Slope|0.26||||0.004|TWO_SIDED|95.0|0.08|0.43|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 2.93, d = 0.33.||0.43|0.08|0.004
82369672|NCT03056157|164447861|SUPERIORITY||Slope|0.35|||<|0.001|TWO_SIDED|95.0|0.23|0.48|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 5.56, d = 1.04.||0.48|0.23|<0.001
82369673|NCT03056157|164447861|SUPERIORITY||Slope|0.1||||0.11|TWO_SIDED|95.0|-0.02|0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 1.61, d = 0.30.||0.22|-0.02|0.11
82369674|NCT03056157|164447861|SUPERIORITY||Slope|0.007||||0.92|TWO_SIDED|95.0|-0.13|0.15|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.10, d = 0.10.||0.15|-0.13|0.92
82396040|NCT03053427|164503053|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.838|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||LSM difference (gabapentin enacarbil group minus placebo group) of the changes in RLS pain score from baseline was calculated by visit, using the ANCOVA model with the baseline value as a covariate.||0.3|-0.4|0.838
82396041|NCT03816644|164503059|SUPERIORITY||Odds Ratio (OR)|3.43|||||TWO_SIDED|95.0|2.32|5.07||||||The estimate of odds ratio, its 95% confidence interval and p-value are obtained from logistic regression models which were used to examine the difference in dementia care outcomes between the intervention and control groups at 90 days post screening visit. Models are adjusted for age, sex, and years of education.||5.07|2.32|
82396042|NCT03816644|164503060|SUPERIORITY||Odds Ratio (OR)|1.133|||||TWO_SIDED|95.0|0.837|1.534||||||The estimate of odds ratio, its 95% confidence interval and p-value are obtained from logistic regression models which were used to examine the difference in participants who were hospitalized or visited an ER 6 months post screening visit.||1.534|0.837|
82396043|NCT01801241|164503067|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
82396044|NCT03240406|164503068|SUPERIORITY||Mean Difference (Net)|-0.06||||0.259|TWO_SIDED|95.0|-0.15|0.04||Test of the between arm difference in the global composite at Burst 2, adjusted for the study arm, baseline (Burst 1) global composite, and the randomization stratification factors (baseline sex, age, and years of education)|ANCOVA|ANCOVA of Burst 2 composite adjusted for arm, Burst 1 composite, sex, age, and education. Missing/invalid data were multiply imputed using MICE|Mean Difference of MHD Arm compared to control|||0.04|-0.15|0.259
82396045|NCT03240406|164503069|SUPERIORITY||Mean Difference (Net)|-0.64||||0.001|TWO_SIDED|95.0|-1.02|-0.27||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||-0.27|-1.02|0.001
82396046|NCT03240406|164503070|SUPERIORITY||Mean Difference (Net)|-0.94|||<|0.001|TWO_SIDED|95.0|-1.34|-0.54||Estimated from ANCOVA model adjusted for baseline value, age, sex, and years of education at baseline.|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education.|Mean Difference of MHD Arm vs Comparison Arm|||-0.54|-1.34|<0.001
82396047|NCT03240406|164503071|SUPERIORITY||Mean Difference (Net)|0.24||||0.904|TWO_SIDED|95.0|-3.63|4.11||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||4.11|-3.63|0.904
82529242|NCT03661996|164755058|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.57|STANDARD_ERROR_OF_MEAN|0.861|<|0.0001|TWO_SIDED|95.0|23.88|27.26|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.26|23.88|<0.0001
82529243|NCT03661996|164755058|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.69|STANDARD_ERROR_OF_MEAN|0.853|<|0.0001|TWO_SIDED|95.0|24.02|27.37|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.37|24.02|<0.0001
82396048|NCT03240406|164503072|SUPERIORITY||Mean Difference (Net)|-0.12||||0.721|TWO_SIDED|95.0|-0.76|0.52||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, and education; tocopherol biomarker values additionally adjusted for Burst 1 and Burst 2 levels of HDL, LDL, and triglycerides|ANCOVA|Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education; Burst 1 and Burst 2 levels of HDL, LDL and triglycerides|Mean Difference of MHD Arm vs Comparison Arm|||0.52|-0.76|0.721
82396049|NCT03240406|164503073|SUPERIORITY||Mean Difference (Net)|0.0||||0.769|TWO_SIDED|95.0|-0.01|0.01||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, and education; carotenoid biomarker values additionally adjusted for Burst 1 and Burst 2 levels of HDL, LDL, and triglycerides|ANCOVA|Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education; Burst 1 and Burst 2 levels of HDL, LDL and triglycerides|Mean Difference of MHD Arm vs Comparison Arm|||0.01|-0.01|0.769
82396050|NCT03240406|164503074|SUPERIORITY||Mean Difference (Net)|-1.37||||0.978|TWO_SIDED|95.0|-100.13|97.4||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||97.4|-100.13|0.978
82396051|NCT03240406|164503075|SUPERIORITY||Mean Difference (Net)|0.15||||0.395|TWO_SIDED|95.0|-0.2|0.51||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for Monounsaturated Fat||0.51|-0.2|0.395
82396052|NCT03240406|164503075|SUPERIORITY||Mean Difference (Net)|-0.11||||0.019|TWO_SIDED|95.0|-0.21|-0.02||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for Long Chain Saturated Fat||-0.02|-0.21|0.019
82575816|NCT01937975|164861118|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.61|||||TWO_SIDED|90.0|0.39|0.94|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|||0.94|0.39|
82444749|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.04|TWO_SIDED|95.0|-0.07|0.0|||ANCOVA|||Lateral temporal||-0.00|-0.07|0.040
82444750|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.838|TWO_SIDED|95.0|-0.03|0.03|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.03|-0.03|0.838
82444751|NCT05063539|164598437|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.055|TWO_SIDED|95.0|-0.06|0.0|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.00|-0.06|0.055
82396053|NCT03240406|164503075|SUPERIORITY||Mean Difference (Net)|0.12||||0.201|TWO_SIDED|95.0|-0.07|0.31||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for EPA||0.31|-0.07|0.201
82396054|NCT03240406|164503075|SUPERIORITY||Mean Difference (Net)|0.27||||0.039|TWO_SIDED|95.0|0.01|0.53||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|Statistical Analysis results for DHA||0.53|0.01|0.039
82396055|NCT03240406|164503075|SUPERIORITY||Mean Difference (Net)|-0.01||||0.619|TWO_SIDED|95.0|-0.06|0.03||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean difference of MHD Arm vs Comparison Arm|Statistical Analysis results for n3 DPA||0.03|-0.06|0.619
82396056|NCT03240406|164503076|SUPERIORITY||Mean Difference (Net)|0.18||||0.521|TWO_SIDED|95.0|-0.37|0.73||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.73|-0.37|0.521
82369675|NCT03056157|164447861|SUPERIORITY||Slope|0.02||||0.75|TWO_SIDED|95.0|-0.08|0.12|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.31, d = 0.03.||0.12|-0.08|0.75
82369676|NCT03056157|164447861|SUPERIORITY||Slope|0.01||||0.86|TWO_SIDED|95.0|-0.09|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(319) = 0.18, d = 0.02.||0.11|-0.09|0.86
82369677|NCT03056157|164447862|SUPERIORITY||Slope|-2.56||||0.15|TWO_SIDED|95.0|-6.1|0.97|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -1.43, d = 0.16.||0.97|-6.10|0.15
82369678|NCT03056157|164447862|SUPERIORITY||Slope|-5.28|||<|0.001|TWO_SIDED|95.0|-7.83|-2.73|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(116) = -4.07, d = 0.76||-2.73|-7.83|<0.001
82369679|NCT03056157|164447862|SUPERIORITY||Slope|-2.71||||0.03|TWO_SIDED|95.0|-5.16|-0.28|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(116) = -2.19, d = 0.41.||-0.28|-5.16|0.03
82369680|NCT03056157|164447862|SUPERIORITY||Slope|-1.38||||0.33|TWO_SIDED|95.0|-4.17|1.42|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -0.97, d = 0.11.||1.42|-4.17|0.33
82369681|NCT03056157|164447862|SUPERIORITY||Slope|-1.54||||0.13|TWO_SIDED|95.0|-3.54|0.46|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -1.51, d = 0.17.||0.46|-3.54|0.13
82396057|NCT03240406|164503077|SUPERIORITY||Mean Difference (Net)|145.0||||0.101|TWO_SIDED|95.0|-27.7|317.6||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||317.6|-27.7|0.101
82396058|NCT03240406|164503078|SUPERIORITY||Mean Difference (Net)|-24.63||||0.645|TWO_SIDED|95.0|-129.16|79.89||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||79.89|-129.16|0.645
82396059|NCT03240406|164503079|SUPERIORITY||Mean Difference (Net)|3.26||||0.245|TWO_SIDED|95.0|-2.23|8.75||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||8.75|-2.23|0.245
82396060|NCT03240406|164503080|SUPERIORITY||Mean Difference (Net)|0.21||||0.032|TWO_SIDED|95.0|0.02|0.4||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.4|0.02|0.032
82444752|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.455|TWO_SIDED|95.0|-0.02|0.04|||ANCOVA|||Frontal||0.04|-0.02|0.455
82369682|NCT03056157|164447862|SUPERIORITY||Slope|-0.17||||0.87|TWO_SIDED|95.0|-2.12|1.79|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DAR scores, t(325) = -0.17, d = 0.02.||1.79|-2.12|0.87
82369683|NCT03056157|164447863|SUPERIORITY||Slope|-0.37||||0.04|TWO_SIDED|95.0|-0.72|-0.01|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -2.03, d = 0.23.||-0.01|-0.72|0.04
82369684|NCT03056157|164447863|SUPERIORITY||Slope|-0.83|||<|0.001|TWO_SIDED|95.0|-1.09|-0.58|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(116)= -6.40, d = 1.19.||-0.58|-1.09|<0.001
82369685|NCT03056157|164447863|SUPERIORITY||Slope|-0.47||||0.002|TWO_SIDED|95.0|-0.71|-0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(116) = -3.78, d = 0.70.||-0.22|-0.71|0.002
82369686|NCT03056157|164447863|SUPERIORITY||Slope|-0.08||||0.58|TWO_SIDED|95.0|-0.37|0.21|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.56, d = 0.06.||0.21|-0.37|0.58
82369687|NCT03056157|164447863|SUPERIORITY||Slope|-0.1||||0.34|TWO_SIDED|95.0|-0.31|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.96, d = 0.11.||0.11|-0.31|0.34
82369688|NCT03056157|164447863|SUPERIORITY||Slope|-0.02||||0.85|TWO_SIDED|95.0|-0.22|0.18|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Psychological Aggression scores, t(319) = -0.19, d = 0.02.||0.18|-0.22|0.85
82369689|NCT03056157|164447864|SUPERIORITY|We log-transformed CTS2 scores because they were heavily positively skewed in conjunction with zero-inflation.|Slope|-0.23||||0.07|TWO_SIDED|95.0|-0.48|0.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319)= -1.82, d = 0.20.||0.02|-0.48|0.07
82369690|NCT03056157|164447864|SUPERIORITY||Slope|-0.13||||0.17|TWO_SIDED|95.0|-0.31|-0.05|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(116) = -1.39, d = 0.16.||-0.05|-0.31|0.17
82369691|NCT03056157|164447864|SUPERIORITY||Slope|0.1||||0.24|TWO_SIDED|95.0|-0.07|0.27|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(116) = 1.18, d = 0.13.||0.27|-0.07|0.24
82369692|NCT03056157|164447864|SUPERIORITY||Slope|0.11||||0.71|TWO_SIDED|95.0|-0.23|0.15|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -0.37, d = 0.04.||0.15|-0.23|0.71
82369693|NCT03056157|164447864|SUPERIORITY||Slope|-0.07||||0.32|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -1.00, d = 0.11.||0.07|-0.21|0.32
82369694|NCT03056157|164447864|SUPERIORITY||Slope|-0.04||||0.61|TWO_SIDED|95.0|-0.17|0.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for CTS2 Physical Assault scores, t(319) = -0.51, d = 0.06.||0.10|-0.17|0.61
82369695|NCT03056157|164447865|SUPERIORITY||Slope|-0.07||||0.74|TWO_SIDED|95.0|-0.5|0.36|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(318) = -0.33, d = 0.04||0.36|-0.50|0.74
82369696|NCT03056157|164447865|SUPERIORITY||Slope|-0.12||||0.44|TWO_SIDED|95.0|-0.43|0.19|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.77, d = 0.14.||0.19|-0.43|0.44
82369697|NCT03056157|164447865|SUPERIORITY||Slope|-0.06||||0.74|TWO_SIDED|95.0|-0.35|0.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.34, d = 0.06.||0.24|-0.35|0.74
82369698|NCT03056157|164447865|SUPERIORITY||Slope|-0.1||||0.57|TWO_SIDED|95.0|-0.45|0.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.57, d = 0.11.||0.25|-0.45|0.57
82369699|NCT03056157|164447865|SUPERIORITY||Slope|-0.03||||0.82|TWO_SIDED|95.0|-0.28|0.22|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = -0.23, d = 0.04.||0.22|-0.28|0.82
82396061|NCT03240406|164503081|SUPERIORITY||Mean Difference (Net)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.26|0.08|<0.001
82369700|NCT03056157|164447865|SUPERIORITY||Slope|0.07||||0.57|TWO_SIDED|95.0|-0.17|0.31|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for DSI-SS scores, t(114) = 0.58, d = 0.11.||0.31|-0.17|0.57
82369701|NCT03056157|164447866|SUPERIORITY||Slope|-1.1||||0.16|TWO_SIDED|95.0|-2.63|0.43|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(316) = -1.42, d = 0.16.||0.43|-2.63|0.16
82369702|NCT03056157|164447866|SUPERIORITY||Slope|-0.76||||0.18|TWO_SIDED|95.0|-1.87|0.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114)= -1.35, d = 0.25.||0.35|-1.87|0.18
82369703|NCT03056157|164447866|SUPERIORITY||Slope|0.34||||0.53|TWO_SIDED|95.0|-0.71|1.39|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = 0.63, d = 0.12.||1.39|-0.71|0.53
82369704|NCT03056157|164447866|SUPERIORITY||Slope|-0.6||||0.37|TWO_SIDED|95.0|-1.93|0.73|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(316) = -0.89, d = 0.12.||0.73|-1.93|.37
82369705|NCT03056157|164447866|SUPERIORITY||Slope|-0.04||||0.94|TWO_SIDED|95.0|-1.0|0.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = -0.08, d = 0.02.||0.92|-1.00|0.94
82369706|NCT03056157|164447866|SUPERIORITY||Slope|0.57||||0.23|TWO_SIDED|95.0|-0.35|1.48|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for QDS scores, t(114) = 1.21, d = 0.23.||1.48|-0.35|0.23
82369707|NCT03056157|164447867|SUPERIORITY||Slope|3.98||||0.01|TWO_SIDED|95.0|0.83|7.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 2.49, d = 0.28.||7.13|0.83|0.01
82369708|NCT03056157|164447867|SUPERIORITY||Slope|4.84|||<|0.001|TWO_SIDED|95.0|2.55|7.13|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 4.16, d = 0.78.||7.13|2.55|<0.001
82369709|NCT03056157|164447867|SUPERIORITY||Slope|0.85||||0.44|TWO_SIDED|95.0|-1.31|3.02|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(114) = 0.78, d = 0.15.||3.02|-1.31|0.44
82369710|NCT03056157|164447867|SUPERIORITY||Slope|0.21||||0.88|TWO_SIDED|95.0|-2.32|2.75|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.17, d = 0.02.||2.75|-2.32|0.88
82369711|NCT03056157|164447867|SUPERIORITY||Slope|0.55||||0.55|TWO_SIDED|95.0|-1.27|2.37|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.60, d = 0.07.||2.37|-1.27|0.55
82369712|NCT03056157|164447867|SUPERIORITY||Slope|0.38||||0.7|TWO_SIDED|95.0|-1.42|2.1|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCS scores, t(316) = 0.38, d = 0.04.||2.10|-1.42|0.70
82369713|NCT03056157|164447868|SUPERIORITY||Slope|-0.04||||0.8|TWO_SIDED|95.0|-0.32|0.25|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(318) = -0.25, d = 0.03.||0.25|-0.32|0.80
82369714|NCT03056157|164447868|SUPERIORITY||Slope|0.04||||0.57|TWO_SIDED|95.0|-0.09|0.16|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(115) = 0.57, d = 0.11.||0.16|-0.09|0.57
82369715|NCT03056157|164447868|SUPERIORITY||Slope|-0.01||||0.82|TWO_SIDED|95.0|-0.14|0.11|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(115) = -0.23, d = 0.04.||0.11|-0.14|0.82
82369716|NCT03056157|164447868|SUPERIORITY||Slope|0.05||||0.57|TWO_SIDED|95.0|-0.13|0.23|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for SCBSC scores, t(320) = 0.57, d = 0.06.||0.23|-0.13|0.57
82369717|NCT03056157|164447869|SUPERIORITY||Slope|3.91||||0.002|TWO_SIDED|95.0|1.48|6.35|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 3.16, d = 0.32.||6.35|1.48|0.002
82369718|NCT03056157|164447869|SUPERIORITY||Slope|4.16|||<|0.001|TWO_SIDED|95.0|2.41|5.92|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(121) = 4.66, d = 0.85.||5.92|2.41|<0.001
82426417|NCT02519842|164561811|OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|-7.6|27.9|||||Mean difference in percentage of participants who experienced at least 1 tier 2 AE and received fosaprepitant regimen compared with participants who received control regimen.|||27.9|-7.6|
82396062|NCT03240406|164503082|SUPERIORITY||Mean Difference (Net)|-1.36||||0.635|TWO_SIDED|95.0|-6.95|4.24||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||4.24|-6.95|0.635
82396063|NCT03240406|164503083|SUPERIORITY||Mean Difference (Net)|-3.52||||0.019|TWO_SIDED|95.0|-6.44|0.59||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.59|-6.44|0.019
82529244|NCT03661996|164755059|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|25.17|STANDARD_ERROR_OF_MEAN|2.248|<|0.0001|TWO_SIDED|95.0|20.74|29.6|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||29.60|20.74|<0.0001
82575817|NCT01937975|164861119|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.14|||||TWO_SIDED|90.0|1.08|1.21|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.21|1.08|
82369719|NCT03056157|164447869|SUPERIORITY||Slope|0.25||||0.78|TWO_SIDED|95.0|-1.44|1.94|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(121) = 0.63, d = 0.11.||1.94|-1.44|0.78
82369720|NCT03056157|164447869|SUPERIORITY||Slope|-0.05||||0.73|TWO_SIDED|95.0|-0.34|0.24|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = -0.34, d = 0.01.||0.24|-0.34|0.73
82369721|NCT03056157|164447869|SUPERIORITY||Slope|0.06||||0.58|TWO_SIDED|95.0|-0.15|0.27|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 0.56, d = 0.06.||0.27|-0.15|0.58
82369722|NCT03056157|164447869|SUPERIORITY||Slope|0.11||||0.28|TWO_SIDED|95.0|-0.1|0.31|||Mixed Models Analysis|||In a mixed model analysis of intent-to-treat data for VLQ scores, t(408) = 1.07, d = 0.11.||0.31|-0.10|0.28
82369723|NCT02149108|164447871|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.49|0.69||Hazard ratio, confidence interval and p-value obtained from log-rank test stratified by regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomisation (less than 24 months vs 24 months or more ) and region.|Log Rank||Hazard ratio \<1 favors Nintedanib.|||0.69|0.49|<0.0001
82369724|NCT02149108|164447872|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.8659|TWO_SIDED|95.0|0.86|1.19||Hazard ratio, confidence interval and p-value obtained from log-rank test stratified by regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomisation (less than 24 months vs 24 months or more ) and region.|Log Rank||Hazard ratio below 1 favors Nintedanib.|||1.19|0.86|0.8659
82369725|NCT02149108|164447874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|2.0|4.47||Odds ratio and p-value are obtained from logistic regression model adjusted for regorafenib pre-treatment (yes vs no), time from onset metastatic disease until randomization in the trial (less than 24 months vs. 24 months or more) and region.|Regression, Logistic||An odds ratio \>1 indicates benefit to Nintedanib.|||4.47|2.00|<0.0001
82444753|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.745|TWO_SIDED|95.0|-0.03|0.02|||ANCOVA|||Frontal||0.02|-0.03|0.745
82369726|NCT01831765|164447928|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomised treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.23|-0.07||||||Change from baseline in HbA1c analysed using a mixed effect model for repeated measurements including visit 14, 18, 22, 26, 30, 34 and 36. The model included treatment, region and strata (combination of bolus adjusting method, basal treatment regimen and continuous glucose monitoring (CGM) and frequently sampled meal test subgroup) as fixed effects, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||-0.07|-0.23|
82369727|NCT01831765|164447928|NON_INFERIORITY_OR_EQUIVALENCE|The assessment was done by comparing the difference of faster aspart vs. NovoRapid®/NovoLog® in change from baseline in HbA1c after 26 weeks of randomised treatment to a non-inferiority limit of 0.4%.|Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.04|0.12||||||Change from baseline in HbA1c analysed using a mixedeffect model for repeated measurements including visit 14, 18, 22, 26, 30, 34 and 36. The model included treatment, region and strata (combination of bolus adjusting method, basal treatment regimen and continuous glucose monitoring (CGM) and frequently sampled meal test subgroup) as fixed effects, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||0.12|-0.04|
82369728|NCT04561375|164447974|SUPERIORITY||Proportional odds ratio|0.37||||0.067|TWO_SIDED|95.0|0.13|1.07|||proportional odds logistic regression|In the analysis, 100 µg and 150 µg were merged as one level since too few cases used 150 µg.||||1.07|0.13|0.067
82369729|NCT04561375|164447975|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.147|TWO_SIDED|97.5|-5.8|26.0|||Regression, Linear|||||26|-5.8|0.147
82369730|NCT04561375|164447976|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.463|TWO_SIDED|97.5|-18.0|34.0|||Regression, Linear|||||34|-18|0.463
82369731|NCT04561375|164447977|SUPERIORITY||Median Difference (Final Values)|-13.0||||0.032|TWO_SIDED|95.0|-25.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|-25|0.032
82369732|NCT02605993|164447987|OTHER||||||<|0.0001|TWO_SIDED|95.0||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|Mixed Model for Repeated Measures (MMRM)|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253. A sample size of 20 participants from the combined cohorts was required to provide approximately 95% power to detect a mean paired difference in LDH from Baseline of -40% at Day 253 for Cohorts 1 to 4, with an estimated standard deviation (SD) of 45%. This was based on a 2-sided paired t-test, with 5% type I error rate. To account for a possible 15% dropout rate, up to 26 participants were enrolled.||||<0.0001
82444754|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.015||0.676|TWO_SIDED|95.0|-0.02|0.04|||ANCOVA|||Parietal||0.04|-0.02|0.676
82396064|NCT03240406|164503084|SUPERIORITY||Mean Difference (Net)|-3.13||||0.639|TWO_SIDED|95.0|-16.18|9.92||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||9.92|-16.18|0.639
82644421|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.086||||1|TWO_SIDED|95.0|-0.869|0.698|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.698|-0.869|1.0000
82396065|NCT03240406|164503085|SUPERIORITY||Mean Difference (Net)|41.71|||<|0.001|TWO_SIDED|95.0|21.47|61.96||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||61.96|21.47|<0.001
82396066|NCT03240406|164503086|SUPERIORITY||Mean Difference (Net)|-15.37||||0.115|TWO_SIDED|95.0|-34.44|3.69||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||3.69|-34.44|0.115
82396067|NCT03240406|164503087|SUPERIORITY||Mean Difference (Net)|0.06||||0.847|TWO_SIDED|95.0|-0.53|0.64||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.64|-0.53|0.847
82396068|NCT03240406|164503088|SUPERIORITY||Mean Difference (Net)|118.57||||0.191|TWO_SIDED|95.0|-58.62|295.76||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||295.76|-58.62|0.191
82396069|NCT03240406|164503089|SUPERIORITY||Mean Difference (Net)|955.19||||0.019|TWO_SIDED|95.0|164.63|1745.74||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1745.74|164.63|0.019
82396070|NCT03240406|164503090|SUPERIORITY||Mean Difference (Net)|-15.74||||0.493|TWO_SIDED|95.0|-60.66|29.19||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||29.19|-60.66|0.493
82396071|NCT03240406|164503091|SUPERIORITY||Mean Difference (Net)|14.83||||0.18|TWO_SIDED|95.0|-6.78|36.45||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||36.45|-6.78|0.18
82647932|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0005|TWO_SIDED|95.0|-2.3|-0.7||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.7|-2.3|0.0005
82396072|NCT03240406|164503092|SUPERIORITY||Mean Difference (Net)|436.14||||0.379|TWO_SIDED|95.0|-534.05|1406.33||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1406.33|-534.05|0.379
82396073|NCT03240406|164503093|SUPERIORITY||Mean Difference (Net)|784.06||||0.083|TWO_SIDED|95.0|-99.73|1667.85||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||1667.85|-99.73|0.083
82396074|NCT03240406|164503094|SUPERIORITY||Mean Difference (Net)|1.33||||0.011|TWO_SIDED|95.0|0.32|2.35||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||2.35|0.32|0.011
82396075|NCT03240406|164503095|SUPERIORITY||Mean Difference (Net)|0.07||||0.541|TWO_SIDED|95.0|-0.16|0.31||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.31|-0.16|0.541
82396076|NCT03240406|164503096|SUPERIORITY||Mean Difference (Net)|0.01||||0.273|TWO_SIDED|95.0|-0.01|0.03||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.03|-0.01|0.273
82396077|NCT03240406|164503097|SUPERIORITY||Mean Difference (Net)|0.03||||0.116|TWO_SIDED|95.0|-0.01|0.06||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.06|-0.01|0.116
82426418|NCT02519842|164561812|OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|-5.1|17.8|||||Mean difference in percentage of participants who discontinued due to an AE and received fosaprepitant regimen compared with participants who received control regimen.|||17.8|-5.1|
82369733|NCT02605993|164447987|OTHER||||||<|0.0001|TWO_SIDED|95.0||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281. A sample size of 20 participants from the combined cohorts was required to provide approximately 95% power to detect a mean paired difference in LDH from Baseline of -40% at Day 281 for Cohort 4 only, with an estimated SD of 45%. This was based on a 2-sided paired t-test, with 5% type I error rate. To account for a possible 15% dropout rate, up to 26 participants were enrolled.||||<0.0001
82369734|NCT02605993|164447988|OTHER|||||||0.0214||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0214
82369735|NCT02605993|164447988|OTHER|||||||0.0313||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.0313
82369736|NCT02605993|164447989|OTHER|||||||0.0625||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||tatistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0625
82575818|NCT01937975|164861119|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.86|||||TWO_SIDED|90.0|0.65|1.14|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.14|0.65|
82369737|NCT02605993|164447989|OTHER|MMRM||||||0.5||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.||||0.5000
82369738|NCT02605993|164447990|OTHER|||||||0.4871||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.4871
82369739|NCT02605993|164447990|OTHER|||||||0.4688||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.4688
82369740|NCT02605993|164447991|OTHER|||||||0.0023||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0023
82369741|NCT02605993|164447992|OTHER|||||||0.0029||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0 for the combined cohorts.|MMRM|||Statistical Analysis presented is of Cohorts 1 to 4 combined at Day 253.||||0.0029
82396078|NCT03240406|164503098|SUPERIORITY||Mean Difference (Net)|0.0||||0.213|TWO_SIDED|95.0|0.0|0.01||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.01|0|0.213
82396079|NCT03240406|164503099|SUPERIORITY||Mean Difference (Net)|0.05||||0.036|TWO_SIDED|95.0|0.0|0.09||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.09|0|0.036
82647933|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.011|TWO_SIDED|95.0|-1.7|-0.2||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-1.7|0.0110
82369742|NCT02605993|164447992|OTHER|||||||0.125||||||Hypothesis testing was performed at the 0.05 level of significance. P-value tested whether the percent changes differed from 0.|MMRM|||Statistical Analysis presented is of Cohort 4 at Day 281.||||0.1250
82369743|NCT03493386|164448004|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||AUC (0-t)|||1.07|0.97|
82369744|NCT03493386|164448004|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||AUC(0-inf)|||1.07|0.97|
82369745|NCT03493386|164448005|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|1.04|||||TWO_SIDED|90.0|0.97|1.12|||||Cmax|||1.12|0.97|
82396080|NCT03240406|164503100|SUPERIORITY||Mean Difference (Net)|0.17||||0.223|TWO_SIDED|95.0|-0.1|0.43||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.43|-0.1|0.223
82575819|NCT01937975|164861119|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.75|1.3|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.30|0.75|
82369746|NCT03493386|164448012|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|0.91|||||TWO_SIDED|90.0|0.82|1.01|||||AUC (0-t)|||1.01|0.82|
82369747|NCT03493386|164448012|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geometric mean|0.91|||||TWO_SIDED|90.0|0.82|1.01|||||AUC (0-inf)|||1.01|0.82|
82369748|NCT03493386|164448013|EQUIVALENCE|If the 90% CI of the ratio of geometric mean doesn't fall within a range of 0.80 to 1.25 i.e., null hypothesis is not rejected the bioequivalence is established if the point estimate falls within a range of 0.90 to 1.11|Ratio of geomtric mean|0.89||||||90.0|0.73|1.08||||||||1.08|0.73|
82575820|NCT01937975|164861119|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.86|||||TWO_SIDED|90.0|1.38|2.51|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.51|1.38|
82647934|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.0618|TWO_SIDED|95.0|-1.1|0.0||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-1.1|0.0618
82369749|NCT00289536|164448089|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1662|||||||ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean log initial recovery will be the same in each dose group.||||0.1662
82369750|NCT00289536|164448090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0965||||||No adjustments were made for multiple comparisons.|ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean log AUC/dose will be the same in each dose group.||||0.0965
82369751|NCT00289536|164448091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5057|||||||ANOVA|Repeated measures ANOVA with dose as fixed effect||Null Hypothesis: The mean terminal half-life will be the same in each dose group.||||0.5057
82369752|NCT00289536|164448099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7048||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: Relationship of initial recovery to pre-infusion level of VWF:Rco with dose groups combined.||||0.7048
82369753|NCT00289536|164448099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0322||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of AUC/Dose to pre-infusion level of VWF:Rco with dose groups combined.||||.0322
82369754|NCT00289536|164448099|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of terminal half-life to pre-infusion level of VWF:Rco with dose groups combined.||||0.0056
82369755|NCT00289536|164448100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3696||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of initial recovery to pre-infusion level of VWF:Ag with dose groups combined.||||0.3696
82369756|NCT00289536|164448100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of AUC/Dose to pre-infusion level of VWF:Ag with dose groups combined.||||0.0001
82369757|NCT00289536|164448100|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||No adjustments were made for multiple comparisons.|Regression, Linear|||Regression analysis: relationship of terminal half-life to pre-infusion level of VWF:Ag with dose groups combined.||||<0.0001
82369758|NCT01156142|164448112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|||<|0.001|TWO_SIDED|95.0|-6.7|-2.1|||Wilcoxon (Mann-Whitney)|||||-2.1|-6.7|<0.001
82396081|NCT03240406|164503101|SUPERIORITY||Mean Difference (Net)|-0.17||||0.119|TWO_SIDED|95.0|-0.38|0.04||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.04|-0.38|0.119
82396082|NCT03240406|164503102|SUPERIORITY||Mean Difference (Net)|-0.04||||0.841|TWO_SIDED|95.0|-0.41|0.33||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.33|-0.41|0.841
82396083|NCT03240406|164503103|SUPERIORITY||Mean Difference (Net)|0.25||||0.088|TWO_SIDED|95.0|-0.04|0.53||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.53|-0.04|0.088
82575821|NCT01937975|164861120|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.24|||||TWO_SIDED|90.0|1.17|1.32|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.32|1.17|
82369759|NCT01156142|164448113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0018|TWO_SIDED|95.0|0.1|5.1|||Wilcoxon (Mann-Whitney)|||||5.1|0.1|0.0018
82369760|NCT01156142|164448114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6||||0.001|TWO_SIDED|95.0|2.9|8.3|||Wilcoxon (Mann-Whitney)|||||8.3|2.9|0.001
82369761|NCT01156142|164448115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.0297|TWO_SIDED|95.0|-1.2|4.6|||Wilcoxon (Mann-Whitney)|||||4.6|-1.2|0.0297
82369762|NCT01156142|164448116|SUPERIORITY_OR_OTHER|||||||0.1392|||||||Chi-squared|||At 2 hours after initial mouthwash||||0.1392
82369763|NCT01156142|164448116|SUPERIORITY_OR_OTHER|||||||0.6989|||||||Chi-squared|||At 4 hours after initial mouthwash||||0.6989
82369764|NCT01156142|164448117|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Chi-squared|||||||0.0018
82369765|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||Overall comparison of treatment groups for incidence of ILI|Chi-squared|||||||0.25
82369766|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Comparision of ILI incidence in subjects age 50 and older at baseline.|Chi-squared|||||||0.01
82369767|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Comparison of ILI in subjects age \< 50 at baseline|Chi-squared|||||||0.32
82369768|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Comparison of ILI incidence in subjects vaccinated against seasonal influenza prior to enrollment.|Chi-squared|||||||0.01
82369769|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Comparison of ILI incidence in subjects not vaccinated against seasonal influenza prior to enrollment|Chi-squared|||||||0.45
82369770|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Comparison of ILI incidence in male subjects|Chi-squared|||||||0.03
82369771|NCT00895947|164448157|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||Comparison of ILI incidence in female subjects|Chi-squared|||||||0.99
82369772|NCT00895947|164448158|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Proportion of subjects reporting any cold/flu symptoms during treatment|Chi-squared|||||||0.16
82369773|NCT00895947|164448158|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects reporting moderate to severe feverishness|Chi-squared|||||||0.03
82369774|NCT00895947|164448158|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Proportion of subjects reporting moderate to severe head congestion|Chi-squared|||||||0.04
82369775|NCT00895947|164448158|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||Proportion of subjects reporting moderate to severe sore throat|Chi-squared|||||||0.07
82369776|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to think clearly|Chi-squared|||||||0.39
82369777|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to sleep well|Chi-squared|||||||0.15
82369778|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to breathe easily|Chi-squared|||||||0.66
82369779|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to walk, climb stairs and exercise|Chi-squared|||||||0.48
82369780|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to perform daily activities|Chi-squared|||||||0.26
82369781|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to work outside the home|Chi-squared|||||||0.25
82369782|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to work inside the home|Chi-squared|||||||0.20
82529245|NCT03661996|164755059|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|33.11|STANDARD_ERROR_OF_MEAN|5.795|<|0.0001|TWO_SIDED|95.0|21.15|45.07|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||45.07|21.15|<0.0001
82529246|NCT03661996|164755059|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|27.8|STANDARD_ERROR_OF_MEAN|1.233|<|0.0001|TWO_SIDED|95.0|25.38|30.23|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||30.23|25.38|<0.0001
82369783|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to interact with others|Chi-squared|||||||0.20
82369784|NCT00895947|164448159|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||Proportion of subjects reporting one of more days that cold/flu symptoms impacted ability to live personal life|Chi-squared|||||||0.32
82369785|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||Proportion of subjects in each group reporting one or more days they felt sick|Chi-squared|||||||0.66
82369786|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||Proportion of subjects in each group reporting one or more days they missed work|Chi-squared|||||||0.88
82444755|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.794|TWO_SIDED|95.0|-0.03|0.03|||ANCOVA|||Parietal||0.03|-0.03|0.794
82575822|NCT01937975|164861120|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.77|||||TWO_SIDED|90.0|0.56|1.06|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.06|0.56|
82369787|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||1||95.0||||Proportion of subjects in each group reporting one or more days they visited the doctor|Chi-squared|||||||1.0
82369788|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||Proportion of subjects in each group reporting one or more days they visited the pharmacy|Chi-squared|||||||0.54
82369789|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||Proportion of subjects in each group reporting one or more days they took cold/flu medication|Chi-squared|||||||0.24
82369790|NCT00895947|164448160|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||Proportion of subjects in each group reporting one or more days they skipped a planned activity|Chi-squared|||||||0.89
82369791|NCT00895947|164448161|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||Proportion of subjects in each group with a confirmed viral respiratory infection|Chi-squared|||||||0.61
82369792|NCT00895947|164448161|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Proportion of subjects in each group with a moderate/severe viral respiratory infection|Chi-squared|||||||0.003
82369793|NCT00895947|164448161|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects in each group with a moderate/severe influenza infection|Chi-squared|||||||0.03
82369794|NCT00895947|164448161|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects in each group with a moderate/severe viral respiratory infection other than influenza|Chi-squared|||||||0.03
82369795|NCT00895947|164448162|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||Proportion of subjects meeting the definition of acute respiratory illness during treatment|Chi-squared|||||||0.54
82369796|NCT00895947|164448162|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||Proportion of subjects meeting with moderate/severe acute respiratory illness during treatment|Chi-squared|||||||0.06
82369797|NCT00895947|164448162|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Proportion of subjects with moderate/severe febrile acute respiratory illness during treatment|Chi-squared|||||||0.03
82369798|NCT00895947|164448162|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Proportion of subjects with moderate/severe afebrile acute respiratory illness during treatment|Chi-squared|||||||0.60
82369799|NCT02623348|164448163|SUPERIORITY||||||<|0.01||||||Threshold for significance: \<0.05|linear mixed modeling|||||||<0.01
82376753|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|2.49|2.67||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement - Reader 2. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.67|2.49|<.0001
82444756|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.643|TWO_SIDED|95.0|-0.05|0.03|||ANCOVA|||Lateral occipital||0.03|-0.05|0.643
82369800|NCT04620135|164448192|SUPERIORITY||The least squares (LS) mean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.221|<|1e-05|TWO_SIDED|95.0|-2.17|-1.31||Analyzed as ANCOVA with mean diurnal IOP at Week 4 as the response, baseline mean diurnal IOP as a covariate, and treatment as a main effect, using the ITT population with MCMC and regression-based multiple imputation to impute missing data.|ANCOVA||||The primary analysis of the primary endpoint employed an analysis of covariance (ANCOVA) with mean diurnal IOP at Week 4 as the response, baseline mean diurnal IOP as a covariate, and treatment as a main effect, using the ITT population with Markov Chain Monte Carlo (MCMC) and regression based multiple imputation (MI) techniques to impute missing data. The least squares (LS) mean difference (netarsudil - ripasudil) was presented with a 2-sided p-value and 95% confidence intervals (CIs). A success criterion for the superiority of netarsudil to ripasudil was defined as the 2-sided p value ≤ 0.05 for testing the difference (netarsudil QD - ripasudil BID) to 0 and the point estimate of the LS mean difference of \< 0.|-1.31|-2.17|<0.00001
82369801|NCT04647721|164448196|NON_INFERIORITY|Non-inferiority margin of 0.5. The two-sided 95% confidence interval (CI) for the treatment difference was constructed using the repeated-measures analysis of covariance (ANCOVA).|Difference in Least Squares Means|0.03|||||TWO_SIDED|95.0|-0.07|0.12||||||||0.12|-0.07|
82369802|NCT04647721|164448197|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.35|6.35||||||||6.35|-6.35|
82369803|NCT04647721|164448198|OTHER||Risk Difference (RD)|1.75|||||TWO_SIDED|95.0|-3.08|6.74||||||||6.74|-3.08|
82369804|NCT01565616|164448214|OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|10.4||0.52|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the anxiety domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.52
82369805|NCT01565616|164448214|OTHER||Mean Difference (Net)|2.7|STANDARD_DEVIATION|6.4||0.12|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the depression domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.12
82369806|NCT01565616|164448214|OTHER||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|8.5||0.54|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the fatigue domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.54
82369807|NCT01565616|164448214|OTHER||Mean Difference (Net)|-7.5|STANDARD_DEVIATION|9.3||0.006|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the pain interference domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.006
82369808|NCT01565616|164448214|OTHER||Mean Difference (Net)|5.8|STANDARD_DEVIATION|10.5||0.044|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the physical function domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.044
82369809|NCT01565616|164448214|OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|11.8||0.85|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the satisfaction with social role domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.85
82396084|NCT03240406|164503104|SUPERIORITY||Mean Difference (Net)|-0.01||||0.893|TWO_SIDED|95.0|-0.13|0.11||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||0.11|-0.13|0.893
82396085|NCT03240406|164503105|SUPERIORITY||Mean Difference (Net)|-1.43||||0.042|TWO_SIDED|95.0|-2.81|-0.06||MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|ANCOVA|MHD-Comparison difference in Burst 2 value estimated by ANCOVA, adjusted for Burst 1 value, age, sex, years of education|Mean Difference of MHD Arm vs Comparison Arm|||-0.06|-2.81|0.042
82396086|NCT03240406|164503106|SUPERIORITY||Slope|-16.0||||0.031|TWO_SIDED|95.0|-31.0|-1.5||Linear mixed-effects model adjusted for adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Mixed Models Analysis|Adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Difference in the slopes of processing speed over years between MHD Arm and Comparison Arm.|||-1.5|-31|0.031
82396087|NCT03240406|164503107|SUPERIORITY||Slope|0.12||||0.55|TWO_SIDED|95.0|-0.27|0.51||Linear mixed-effects model adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Mixed Models Analysis|Adjusted for arm, year, weekday, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), and time of day (cubic spline)|Difference in the slopes of error distance over years between MHD Arm vs Comparison Arm|||0.51|-0.27|0.55
82396088|NCT03240406|164503108|SUPERIORITY||Slope|-0.018||||0.846|TWO_SIDED|95.0|-0.09|0.054||Generalized Estimating equation Poisson model adjusted for arm, year, weekday vs weekend, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), time of day (cubic spline)|Generalized Estimating Equation|Adjusted for arm, year, wkday/wknd, season, EMA cognition, baseline age, sex, education yrs, # of sessions (cubic spline), time of day (cubic spline)|Difference in the slopes of log-transformed error rates over years between the MHD Arm and the Comparison Arm.|||0.054|-0.090|0.846
82396089|NCT00207727|164503155|SUPERIORITY_OR_OTHER|||||||0||95.0||||The p-value was non estimable because the observed trend was in the opposite direction of that stated in the one sided alternative hypothesis|Jonckheere Terpstra|Jonckheere Terpstra nonparametric trend test procedure with 5% level of significance was be used to test for the monotonic trend.||Hypothesis: The null hypothesis of no effect among the treatment groups was tested against the alternative hypothesis that the cumulative number of newly Gd-enhancing T1-weighted lesions on cranial MRIs through Week 23 would decrease monotonically with dose at a significance level of 0.05.||||0.00
82575823|NCT01937975|164861120|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.69|1.32|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.32|0.69|
82396090|NCT00207727|164503156|SUPERIORITY_OR_OTHER|||||||0.892||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.892
82396091|NCT00207727|164503156|SUPERIORITY_OR_OTHER|||||||0.599||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.599
82396092|NCT00207727|164503156|SUPERIORITY_OR_OTHER|||||||0.517||95.0|||||2-sided Wilcoxon Mann-Whitney|||||||0.517
82396093|NCT00207727|164503156|SUPERIORITY_OR_OTHER|||||||0.967||95.0|||||2-sided Wilcoxon Mann-Whitney|||Hypothesis: The null hypothesis is no difference between any ustekinumab treatment groups and placebo at a significant level of 0.05 for comparison for each treatment group.||||0.967
82396094|NCT00207727|164503157|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.720
82575824|NCT01937975|164861120|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.07|||||TWO_SIDED|90.0|1.46|2.93|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.93|1.46|
82369810|NCT01565616|164448214|OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|13.5||0.88|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in t-scores of the sleep disturbances domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.88
82369811|NCT01565616|164448214|OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.1||0.53|TWO_SIDED||||||t-test, 2 sided|||This statistical analysis is the paired difference in raw scores of the pain intensity domain of the PROMIS-57 quality of life scale. 16 participants with paired measurements of the PROMIS-57 survey (baseline and 1 year) are included in this analysis.||||0.53
82369812|NCT05011123|164448220|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-5%|Difference in percentage of participants|-1.2|||||TWO_SIDED|95.0|-3.4|1.8|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||1.8|-3.4|
82369813|NCT05011123|164448221|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-5%|Difference in percentage of participants|-0.9|||||TWO_SIDED|95.0|-4.0|3.0|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||3.0|-4.0|
82396095|NCT00207727|164503157|SUPERIORITY_OR_OTHER|||||||0.152||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.152
82396096|NCT00207727|164503157|SUPERIORITY_OR_OTHER|||||||0.431||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||||||0.431
82396097|NCT00207727|164503157|SUPERIORITY_OR_OTHER|||||||0.292||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon Mann-Whitney test (α = 0.05) used for each comparison with placebo||Hypothesis: The null hypothesis is no difference between any ustekinumab treatment groups and placebo at a significant level of 0.05 for comparison for each treatment group with placebo..||||0.292
82369814|NCT04221789|164448244|OTHER|differences in proportions|Risk Ratio (RR)|1.12||||0.049|TWO_SIDED|95.0|1.02|1.2||Statistical significance threshold p \<0.05|Chi-squared|||Ho no difference in treatment success between groups. The study was originally powered to detect a 15% difference between groups||1.20|1.02|0.049
82369815|NCT04221789|164448245|OTHER|comparison of proportions and relative risk with 95% CI|Risk Ratio (RR)|0.7|||<|0.043|TWO_SIDED|95.0|0.5|0.97||statistical significance if p value \<0.05|Chi-squared||intervention / control|Ho No difference between arms. 80% power to detect a 10% difference||0.97|0.50|<0.043
82396098|NCT02301039|164503164|SUPERIORITY|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.|Binomial estimate of response rate of PR|17.5|||||TWO_SIDED|95.0|7.3|32.8|||||Clopper-Pearson (Exact) Confidence Interval. Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||32.8|7.3|
82396099|NCT02301039|164503164|SUPERIORITY||Binomial estimate of response rate of PR|5.0|||||TWO_SIDED|95.0|1.0|16.9|||||Clopper-Pearson exact confidence interval; Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||16.9|1.0|
82396100|NCT02301039|164503164|SUPERIORITY||Binomial estimate of response rate of PR|13.0|||||TWO_SIDED|95.0|5.5|25.3|||||Clopper-Pearson (Exact) Confidence Interval Excluded from rate due to no response evaluation: Soft Tissue: 2; Bone: 2; Expansion: 7 patients|An objective response rate of 25% will be considered clinically meaningful and a response rate less than 10% will be considered lack of efficacy. The treatment will be considered a success if 8 or more of 40 enrolled patients have a PR or better by RECIST 1.1.||25.3|5.5|
82396101|NCT03046056|164503182|SUPERIORITY||Risk Difference in Proportions|8.3|||||TWO_SIDED|90.0|-16.5|32.1||||||||32.1|-16.5|
82396102|NCT03046056|164503182|SUPERIORITY||Risk Difference in Proportions|8.3|||||TWO_SIDED|90.0|-15.9|32.0||||||||32.0|-15.9|
82396103|NCT03046056|164503183|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|90.0|-5.3|0.7||||||Difference in least squared means (Diff in LSM), and its 90% confidence interval (CI) were from analysis of covariance (ANCOVA) model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||0.7|-5.3|
82396104|NCT03046056|164503183|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.72|||TWO_SIDED|90.0|-2.7|3.1||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||3.1|-2.7|
82575825|NCT01937975|164861121|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|1.0|1.26|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||1.26|1.00|
82369816|NCT04732221|164448259|SUPERIORITY||Treatment difference|-9.2||||0.068|TWO_SIDED|95.0|-21.3|2.9||A 1-sided p-value was obtained from fitting a Robust regression estimate based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||2.9|-21.3|0.068
82369817|NCT04732221|164448259|SUPERIORITY||Treatment difference|-22.0|||<|0.001|TWO_SIDED|95.0|-33.7|-10.3||based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||-10.3|-33.7|<0.001
82369818|NCT04732221|164448259|SUPERIORITY||Treatment difference|-19.9||||0.002|TWO_SIDED|95.0|-33.4|-6.4||A 1-sided p-value was obtained from fitting a Robust regression estimate based on a Huber-type M estimator including terms for treatment and WHO-FC (Class II and Class III/IV) at baseline|Robust Regression|Missing data at week 12 due to death were imputed using the worst observed value and other missingness were imputed using J2R method|Least Square Mean of the overall treatment difference with 95% confidence interval (CI) was reported|||-6.4|-33.4|0.002
82369819|NCT00461253|164448278|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.88|1.12|||||Breast cancer OR for ever use of LNG-IUD vs. Cu-IUD; adjusted for BMI, family history of breast cancer, age at first birth, age at menarche and physical activity (primary analysis)|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.12|0.88|
82369820|NCT00461253|164448278|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.93|1.17|||||Breast cancer OR for ever use of LNG-IUD vs. Cu-IUD, crude|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.17|0.93|
82369821|NCT00461253|164448278|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.52|1.39|||||"Breast cancer OR for current use of LNG-IUD vs. Cu-IUD at time of breast cancer diagnosis; adjusted for BMI, family history of breast cancer, age at first birth, age at first menarche, physical activity (primary analysis)"|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.39|0.52|
82369822|NCT00461253|164448278|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a prevalence of current Mirena use among fertile women of 8% in Finland and 2% in Germany, it was estimated that 3,500 cases and 14,000 controls would be needed to exclude a 1.5-fold breast cancer risk for Mirena users compared with users of copper IUDs.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.58|1.41|||||"Breast cancer OR for current use of LNG-IUD vs. Cu-IUD at time of breast cancer diagnosis, crude"|In this matched case-control study, conditional logistic regression was used to investigate the relationship between a woman being a breast cancer case or a control (dichotomous dependent variable), and a set of actual or potential prognostic factors (covariates) for breast cancer (incl. the use of Mirena). Conditional logistic regression uses a maximum likelihood approach for estimating the covariates; data are stratified and the likelihoods are computed relative to each stratum.||1.41|0.58|
82369823|NCT02297438|164448300|SUPERIORITY||Hazard Ratio (HR)|0.677||||0.0012|TWO_SIDED|95.0|0.529|0.867||1-sided p-value from the adjusted log-rank test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral vs. non-visceral) per Randomization.||0.867|0.529|0.0012
82369824|NCT02297438|164448301|SUPERIORITY||Hazard Ratio (HR)|0.861||||0.14778|TWO_SIDED|95.0|0.651|1.139||1-sided p-value from the log-rank test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.139|0.651|0.14778
82369825|NCT02297438|164448302|SUPERIORITY||Odds Ratio (OR)|1.301||||0.154|TWO_SIDED|95.0|0.805|2.1||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.100|0.805|0.154
82369826|NCT02297438|164448303|SUPERIORITY||Odds Ratio (OR)|1.255||||0.206|TWO_SIDED|95.0|0.762|2.066||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.066|0.762|0.206
82396105|NCT03046056|164503184|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|90.0|-3.9|0.7||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||0.7|-3.9|
82369827|NCT02297438|164448304|SUPERIORITY||Odds Ratio (OR)|1.315||||0.135|TWO_SIDED|95.0|0.825|2.095||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.095|0.825|0.135
82369828|NCT02297438|164448305|SUPERIORITY||Odds Ratio (OR)|1.392||||0.117|TWO_SIDED|95.0|0.825|2.346||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.346|0.825|0.117
82369829|NCT02297438|164448308|SUPERIORITY||Odds Ratio (OR)|0.945||||0.471|TWO_SIDED|95.0|0.533|1.673||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.673|0.533|0.471
82369830|NCT02297438|164448309|SUPERIORITY||Odds Ratio (OR)|0.878||||0.383|TWO_SIDED|95.0|0.474|1.621||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.621|0.474|0.383
82396106|NCT03046056|164503184|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|-3.2|1.2||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||1.2|-3.2|
82396107|NCT03046056|164503185|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|90.0|-2.2|2.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||2.0|-2.2|
82396108|NCT03046056|164503185|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.9|2.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||2.0|-1.9|
82396109|NCT03046056|164503186|SUPERIORITY||Risk Difference in Proportions|-1.7|||||TWO_SIDED|90.0|-28.6|25.5||||||||25.5|-28.6|
82396110|NCT03046056|164503186|SUPERIORITY||Risk Difference in Proportions|0.4|||||TWO_SIDED|90.0|-24.5|26.2||||||||26.2|-24.5|
82396111|NCT03046056|164503187|SUPERIORITY||Risk Difference in Proportions|-6.7|||||TWO_SIDED|90.0|-47.3|37.0||||||||37.0|-47.3|
82396112|NCT03046056|164503187|SUPERIORITY||Risk Difference in Proportions|-16.7|||||TWO_SIDED|90.0|-58.2|30.0||||||||30.0|-58.2|
82396113|NCT03046056|164503188|SUPERIORITY||Risk Difference in Proportions|33.3|||||TWO_SIDED|90.0|-32.4|86.5||||||||86.5|-32.4|
82396114|NCT03046056|164503189|SUPERIORITY||Risk Difference in Proportions|-2.3|||||TWO_SIDED|90.0|-28.6|24.3||||||||24.3|-28.6|
82396115|NCT03046056|164503189|SUPERIORITY||Risk Difference in Proportions|-15.0|||||TWO_SIDED|90.0|-39.4|11.3||||||||11.3|-39.4|
82396116|NCT03046056|164503190|SUPERIORITY||Risk Difference in Proportions|3.3|||||TWO_SIDED|90.0|-38.9|45.7||||||||45.7|-38.9|
82396117|NCT03046056|164503190|SUPERIORITY||Risk Difference in Proportions|-4.2|||||TWO_SIDED|90.0|-47.5|40.8||||||||40.8|-47.5|
82369831|NCT02297438|164448310|SUPERIORITY||Odds Ratio (OR)|1.227||||0.248|TWO_SIDED|95.0|0.725|2.082||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.082|0.725|0.248
82396118|NCT03046056|164503191|SUPERIORITY||Risk Difference in Proportions|50.0|||||TWO_SIDED|90.0|-16.8|89.5||||||||89.5|-16.8|
82396119|NCT03046056|164503191|SUPERIORITY||Risk Difference in Proportions|12.5|||||TWO_SIDED|90.0|-46.1|63.3||||||||63.3|-46.1|
82396120|NCT03046056|164503192|SUPERIORITY||Risk Difference in Proportions|8.0|||||TWO_SIDED|90.0|-17.2|32.6||||||||32.6|-17.2|
82396121|NCT03046056|164503192|SUPERIORITY||Risk Difference in Proportions|6.3|||||TWO_SIDED|90.0|-18.1|30.2||||||||30.2|-18.1|
82396122|NCT03046056|164503193|SUPERIORITY||Risk Difference in Proportions|3.3|||||TWO_SIDED|90.0|-22.1|28.1||||||||28.1|-22.1|
82396123|NCT03046056|164503193|SUPERIORITY||Risk Difference in Proportions|-4.2|||||TWO_SIDED|90.0|-28.1|20.3||||||||20.3|-28.1|
82396124|NCT03046056|164503194|SUPERIORITY||Risk Difference in Proportions|17.1|||||TWO_SIDED|90.0|-7.6|40.4||||||||40.4|-7.6|
82396125|NCT03046056|164503194|SUPERIORITY||Risk Difference in Proportions|2.8|||||TWO_SIDED|90.0|-21.2|26.5||||||||26.5|-21.2|
82396126|NCT03046056|164503195|SUPERIORITY||Least Squares Mean Difference|-48.0|STANDARD_ERROR_OF_MEAN|28.1|||TWO_SIDED|90.0|-95.0|-1.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||-1|-95|
82396127|NCT03046056|164503195|SUPERIORITY||Least Squares Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|27.4|||TWO_SIDED|90.0|-76.0|15.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||15|-76|
82396128|NCT03046056|164503196|SUPERIORITY||Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|28.7|||TWO_SIDED|90.0|-68.0|28.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||28|-68|
82396129|NCT03046056|164503196|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|28.0|||TWO_SIDED|90.0|-52.0|42.0||||||Diff in LSM, and its 90% CI were from ANCOVA model adjusted by baseline segmental MaRIA score, concomitant use of oral, systemically absorbed corticosteroids at baseline, concomitant use of immunomodulators at baseline, prior exposure to biologics, and treatment group.||42|-52|
82444757|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.021||0.88|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||Lateral occipital||0.04|-0.05|0.880
82444758|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.017||0.844|TWO_SIDED|95.0|-0.04|0.03|||ANCOVA|||Lateral temporal||0.03|-0.04|0.844
82369832|NCT02297438|164448311|SUPERIORITY||Odds Ratio (OR)|1.349||||0.189|TWO_SIDED|95.0|0.731|2.509||1-sided p-value was from exact test.|Fisher Exact||An Odds Ratio \>1 means better response in favor of Palbociclib + Letrozole group.|Stratified by disease site (visceral versus non-visceral) per Randomization.||2.509|0.731|0.189
82369833|NCT02297438|164448312|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.36502|TWO_SIDED|95.0|0.698|1.286||1-sided p-value was from exact test.|Log Rank||Assuming Cox proportional hazards, hazard ratio less than 1 indicates reduction in hazard rate in favor of Palbociclib + Letrozole.|Stratified by disease site (visceral versus non-visceral) per Randomization.||1.286|0.698|0.36502
82369834|NCT02297438|164448319|SUPERIORITY||Mean|0.031||||0.1914|TWO_SIDED|95.0|-0.02|0.08|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.08|-0.02|0.1914
82369835|NCT02297438|164448320|SUPERIORITY||Mean|3.358||||0.0078|TWO_SIDED|95.0|0.88|5.83|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||5.83|0.88|0.0078
82396130|NCT02913105|164503198|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (Body Mass Index (BMI) group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.7489|TWO_SIDED|90.0|0.83|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||||1.13|0.83|0.7489
82396131|NCT02913105|164503198|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.72||||0.0005|TWO_SIDED|90.0|0.62|0.84|||ANCOVA|An unstructured variance-covariance structure was used.||||0.84|0.62|0.0005
82396132|NCT02913105|164503198|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.74||||0.0005|TWO_SIDED|90.0|0.65|0.85|||ANCOVA|An unstructured variance-covariance structure was used.||||0.85|0.65|0.0005
82396133|NCT02913105|164503203|OTHER|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.95||||0.5354|TWO_SIDED|90.0|0.83|1.09|||ANCOVA|||||1.09|0.83|0.5354
82396134|NCT02913105|164503203|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.68|||<|0.0001|TWO_SIDED|90.0|0.59|0.78|||ANCOVA|||||0.78|0.59|<.0001
82396135|NCT02913105|164503203|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.71|||<|0.0001|TWO_SIDED|90.0|0.63|0.8|||ANCOVA|||||0.80|0.63|<.0001
82396136|NCT02913105|164503204|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.389||0.8402|TWO_SIDED|90.0|-0.724|0.567|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.567|-0.724|0.8402
82529247|NCT03661996|164755059|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|24.8|STANDARD_ERROR_OF_MEAN|1.598|<|0.0001|TWO_SIDED|95.0|21.66|27.94|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||27.94|21.66|<0.0001
82575826|NCT01937975|164861121|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.84|||||TWO_SIDED|90.0|0.62|1.13|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.13|0.62|
82369836|NCT02297438|164448321|SUPERIORITY||Mean|0.476||||0.7862|TWO_SIDED|95.0|-2.97|3.92|||Mixed effects model||A positive change indicates improvement from baseline and a negative change indicates deterioration.|The analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||3.92|-2.97|0.7862
82369837|NCT01951885|164448333|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|47 patients per arm were needed to detect a 25% improvement in mucositis based on a one-sided test with 5% significance and 80% power.||||||0.05
82369838|NCT01951885|164448336|NON_INFERIORITY|Cumulative incidence methods are compared using the Gray test with a p-value \<0.05|||||<|0.05|||||||Log Rank|||||||<0.05
82575827|NCT01937975|164861121|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.7|1.27|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.27|0.70|
82369839|NCT01951885|164448337|NON_INFERIORITY|Hospital stay will be compared between groups using the Wilcoxon rank sum test with a p value of 0.05.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82369840|NCT01951885|164448338|NON_INFERIORITY|TPN use will be compared using the Chi-square test.|||||<|0.05|||||||Chi-squared|||||||<0.05
82369841|NCT01951885|164448339|NON_INFERIORITY|Overall survival was estimated using the Kaplan-Meier method and compared between patients receiving Tac/MTX versus Tac/mini-MTX/MMF using the log-rank test|||||<|0.05|||||||Log Rank|||||||<0.05
82369842|NCT01951885|164448340|NON_INFERIORITY|Progression-free survival was estimated using the Kaplan-Meier method and compared between patients receiving Tac/MTX versus Tac/mini-MTX/MMF using the log-rank test|||||<|0.05|||||||Log Rank|||||||<0.05
82369843|NCT01951885|164448343|NON_INFERIORITY|Infusion times will be compared using the Wilcoxon rank sum test|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82369844|NCT01951885|164448344|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82369845|NCT01951885|164448345|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82369846|NCT01951885|164448346|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Chi-squared|||||||<0.05
82369847|NCT01951885|164448347|NON_INFERIORITY|100-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82369848|NCT01951885|164448349|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82396137|NCT02913105|164503204|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.144|STANDARD_ERROR_OF_MEAN|0.472||0.7607|TWO_SIDED|90.0|-0.927|0.639|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.639|-0.927|0.7607
82396138|NCT02913105|164503204|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.228|STANDARD_ERROR_OF_MEAN|0.487||0.6406|TWO_SIDED|90.0|-1.037|0.581|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.581|-1.037|0.6406
82396139|NCT02913105|164503204|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.685||0.8185|TWO_SIDED|90.0|-1.294|0.979|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.979|-1.294|0.8185
82444759|NCT05063539|164598438|SUPERIORITY|Lateral temporal|LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.017||0.388|TWO_SIDED|95.0|-0.05|0.02|||ANCOVA|||||0.02|-0.05|0.388
82369849|NCT01951885|164448350|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82369850|NCT01951885|164448351|NON_INFERIORITY|180-day incidence of complications will be compared using the Gray test.|||||<|0.05|||||||Gray Test|||||||<0.05
82369851|NCT00368979|164448396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.003||95.0|-2.7|-0.5|||ANCOVA|||||-0.5|-2.7|0.003
82369852|NCT01971970|164448446|EQUIVALENCE|The number of genes with a 1.5 fold change (FDR value ≤ 0.05; paired t-test) from week 0 to week 8 were assessed for pediatric IBD or adult IBD patients.|||||<|0.05|||||||Paired t-test,FDR 1.5fold,FDRvalue≤ 0.05|||The number of genes with a 1.5 fold change (FDR value ≤ 0.05; paired t-test) from week 0 to week 8 were assessed for pediatric IBD or adult IBD patients.||||< 0.05
82369853|NCT01971970|164448447|OTHER|||||||0.2616||||||Kaplan-Meier curve comparing the percentage of children and adults on continued anti-TNF therapy over the course of study duration|gehan-breslow-wilcoxon test|||Kaplan-Meier curves were produced by dividing the population in the following groups i) paediatric versus adult patients.These groups were used to statistically compare the proportions of patients over time regarding continued anti-TNF therapy, reflecting maintenance of response at 12 and 18 months.||||0.2616
82369854|NCT01971970|164448448|OTHER|||||||0.0177||||||Kaplan-Meier curve comparing the percentage of children and adults with therapy intensification over the course of study duration|gehan-breslow-wilcoxon test|||Kaplan-Meier curves were produced by dividing the population in the following groups i) paediatric versus adult patients.These groups were used to statistically compare the proportions of patients over time regarding the escalation of anti-TNF therapy (dose increase above 5 mg/kg and/or interval shortening to less than 8 weeks)||||0.0177
82369855|NCT00271154|164448466|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Null hypothesis: mean 12-month change in LVESVi in group 1 = mean 12-month change in LVESVi in group 2.||||<0.0001
82369856|NCT00271154|164448467|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Chi-squared|||Null hypothesis: Percentage worsened in CRT OFF group = Percentage worsened in CRT ON group||||0.10
82369857|NCT01992523|164448468|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||Continuous data were expressed as mean ± standard deviation or medians (quartiles) as appropriate, and categorical data as proportions (%). Data were compared by means of the chi-2 test or Fisher exact test for categorical variables and unpaired t test or Mann-Whitney U-test for continuous variables, as appropriate. A P value \< .05 was considered statistically significant. All tests were two-sided.||||0.006
82369858|NCT04536935|164448472|SUPERIORITY|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the PHQ-9 and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.|Slope|-1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.8|-1.1|||Mixed Models Analysis|||||-1.1|-1.8|<.001
82369859|NCT04536935|164448473|OTHER|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the GAD-7 and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.|Slope|-1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.6|-1.0|||Mixed Models Analysis|||||-1.0|-1.6|<.001
82529248|NCT03661996|164755060|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|22.1|STANDARD_ERROR_OF_MEAN|1.898|<|0.0001|TWO_SIDED|95.0|18.37|25.84|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||25.84|18.37|<0.0001
82529249|NCT03661996|164755060|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|16.75|STANDARD_ERROR_OF_MEAN|6.255|<|0.0001|TWO_SIDED|95.0|3.84|29.66|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||29.66|3.84|<0.0001
82575828|NCT01937975|164861121|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|1.21|2.28|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||2.28|1.21|
82575829|NCT01937975|164861124|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.83|0.92|||||Geometric Mean Ratio = ESRD HD Day 10 / ESRD Non-HD Day 9|ESRD Non-HD Day 9 versus ESRD HD Day 10||0.92|0.83|
82575830|NCT01937975|164861124|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.16|||||TWO_SIDED|90.0|0.88|1.53|||||Geometric Mean Ratio = ESRD Non-HD Day 9 / Healthy Day 10|ESRD Non-HD Day 9 versus Healthy Participants Day 10||1.53|0.88|
82647935|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3||||0.011|TWO_SIDED|95.0|-2.3|-0.3||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-2.3|0.0110
82369860|NCT04536935|164448474|OTHER|A series of mixed effects models using restricted maximum likelihood estimation were built to test linear time change on the DERS and to test for condition differences at follow-up and change slope. Models were built in an outwardly nested fashion, such that an initial null model was computed, followed by models that added a random intercept, random time component, condition assignment, and condition x time interaction effects.||||||0.73|||||||Mixed Models Analysis|||||||.73
82369861|NCT04536935|164448475|OTHER|||||||0.25|||||||Mixed Models Analysis|||||||.25
82369862|NCT04536935|164448476|SUPERIORITY|||||||0.22|||||||ANOVA|||||||.22
82369863|NCT04536935|164448477|SUPERIORITY|||||||0.48|||||||ANOVA|||||||.48
82396140|NCT02913105|164503204|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.214|STANDARD_ERROR_OF_MEAN|0.766||0.7804|TWO_SIDED|90.0|-1.485|1.057|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||1.057|-1.485|0.7804
82396141|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.598|STANDARD_ERROR_OF_MEAN|0.402||0.1403|TWO_SIDED|90.0|-1.265|0.07|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.070|-1.265|0.1403
82444760|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.016||0.815|TWO_SIDED|95.0|-0.03|0.04|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.04|-0.03|0.815
82575831|NCT01937975|164861124|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|0.77|1.34|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|ESRD HD Day 10 versus Healthy Participants Day 10||1.34|0.77|
82575832|NCT01937975|164861124|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.54|||||TWO_SIDED|90.0|0.4|0.72|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|SRI Participants Day 10 versus Healthy Participants Day 10||0.72|0.40|
82575833|NCT01937975|164861125|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.7|1.3|||||Geometric Mean Ratio = ESRD HD Day 10 / Healthy Day 10|||1.30|0.70|
82575834|NCT01937975|164861125|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.63|||||TWO_SIDED|90.0|0.45|0.89|||||Geometric Mean Ratio = SRI Day 10 / Healthy Day 10|||0.89|0.45|
82369864|NCT04536935|164448478|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<.0001
82369865|NCT00117325|164448497|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.335||||0.05|TWO_SIDED|95.0|-0.67|0.0|||ANCOVA|Analysis of covariance (ANCOVA) method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.00|-0.67|0.050
82369866|NCT00117325|164448498|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.393||||0.027|TWO_SIDED|95.0|-0.74|-0.05||Week 1-4|ANCOVA|ANCOVA method was used adjusting for baseline iTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||-0.05|-0.74|0.027
82369867|NCT00117325|164448499|SUPERIORITY_OR_OTHER|||||||0.184|||||||Regression, Logistic|logistic regression adjusting for age, gender, investigator, and treatment.||Placebo versus Fluticasone Furoate 110 mcg QD up to Week 4 analysis.|Effectiveness of study medication for relieving non-allergic rhinitis symptoms over the entire treatment period (Total response) was analyzed.|||0.184
82369868|NCT00117325|164448500|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.348||||0.051|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.00|-0.70|0.051
82369869|NCT00117325|164448501|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.304||||0.076|TWO_SIDED|95.0|-0.64|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD up to Week 4 analysis||0.03|-0.64|0.076
82369870|NCT00117325|164448502|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.51||||0.093|TWO_SIDED|95.0|-9.77|0.75|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||0.75|-9.77|0.093
82369871|NCT00117325|164448503|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.372||||0.023|TWO_SIDED|95.0|-11.8|-0.9|||ANCOVA|ANCOVA method was used adjusting for baseline iTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD Week 1-4 analysis.||-0.90|-11.8|0.023
82396142|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.49||0.0603|TWO_SIDED|90.0|-1.743|-0.117|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.117|-1.743|0.0603
82369872|NCT00117325|164448504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.118||||0.061|TWO_SIDED|95.0|-0.24|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.01|-0.24|0.061
82369873|NCT00117325|164448504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.061|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for Nasal Congestion||0.01|-0.25|0.061
82369874|NCT00117325|164448504|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.095||||0.138|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.03|-0.22|0.138
82369875|NCT00117325|164448505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.113||||0.087|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.02|-0.24|0.087
82369876|NCT00117325|164448505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.015|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for nasal congestion||-0.03|-0.30|0.015
82369877|NCT00117325|164448505|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.112||||0.106|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.02|-0.25|0.106
82369878|NCT00117325|164448506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.132||||0.048|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rhinorrhea||-0.00|-0.26|0.048
82369879|NCT00117325|164448506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.076|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Nasal congestion||0.01|-0.26|0.076
82444761|NCT05063539|164598438|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.017||0.562|TWO_SIDED|95.0|-0.04|0.02|||ANCOVA|||AD neocortical signature (measured using MUBADA)||0.02|-0.04|0.562
82369880|NCT00117325|164448506|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093||||0.164|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg for post-nasal drip||0.04|-0.22|0.164
82369881|NCT00117325|164448507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096||||0.136|TWO_SIDED|95.0|-0.22|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for Rhinorrhea||0.03|-0.22|0.136
82369882|NCT00117325|164448507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.1||95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for nasal congestion||0.02|-0.24|0.100
82369883|NCT00117325|164448507|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.1|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for post-nasal drip||0.02|-0.24|0.100
82369884|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.011|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 1||-0.10|-0.80|0.011
82369885|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.325||||0.089|TWO_SIDED|95.0|-0.7|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 2||0.05|-0.70|0.089
82369886|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.393||||0.052|TWO_SIDED|95.0|-0.79|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 3||0.00|-0.79|0.052
82369887|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262||||0.187|TWO_SIDED|95.0|-0.65|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 4||0.13|-0.65|0.187
82369888|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.298||||0.164|TWO_SIDED|95.0|-0.72|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 5||0.12|-0.72|0.164
82369889|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.573||||0.008|TWO_SIDED|95.0|-1.0|-0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 6||-0.15|-1.00|0.008
82369890|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.376||||0.082|TWO_SIDED|95.0|-0.8|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 7||0.05|-0.80|0.082
82369891|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.296|TWO_SIDED|95.0|-0.67|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 8||0.20|-0.67|0.296
82369892|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.191||||0.383|TWO_SIDED|95.0|-0.62|0.24|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 9||0.24|-0.62|0.383
82369893|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.464||||0.048|TWO_SIDED|95.0|-0.92|0.0|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 10||-0.00|-0.92|0.048
82396143|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.344|STANDARD_ERROR_OF_MEAN|0.505||0.009|TWO_SIDED|90.0|-2.182|-0.506|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.506|-2.182|0.0090
82644422|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.581||||0.2808|TWO_SIDED|95.0|-1.377|0.214|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.214|-1.377|0.2808
82396144|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.787|STANDARD_ERROR_OF_MEAN|0.71||0.0134|TWO_SIDED|90.0|-2.965|-0.609|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.609|-2.965|0.0134
82396145|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-2.123|STANDARD_ERROR_OF_MEAN|0.793||0.0087|TWO_SIDED|90.0|-3.439|-0.807|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.807|-3.439|0.0087
82396146|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.519|STANDARD_ERROR_OF_MEAN|0.368||0.1609|TWO_SIDED|90.0|-1.13|0.091|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.091|-1.130|0.1609
82396147|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.786|STANDARD_ERROR_OF_MEAN|0.444||0.0797|TWO_SIDED|90.0|-1.524|-0.049|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.049|-1.524|0.0797
82396148|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.116|STANDARD_ERROR_OF_MEAN|0.455||0.0159|TWO_SIDED|90.0|-1.872|-0.36|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.360|-1.872|0.0159
82396149|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.63|STANDARD_ERROR_OF_MEAN|0.635||0.0118|TWO_SIDED|90.0|-2.684|-0.575|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.575|-2.684|0.0118
82396150|NCT02913105|164503204|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-1.909|STANDARD_ERROR_OF_MEAN|0.7||0.0076|TWO_SIDED|90.0|-3.072|-0.746|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.746|-3.072|0.0076
82575835|NCT01266161|164861133|SUPERIORITY||Mean Difference (Final Values)|23.76|||<|0.001|TWO_SIDED|95.0|16.45|31.07||p-Value from analysis of variance (ANOVA) model, with treatment, baseline PSR, gender terms. To protect type I error at 5% significance, 2 primary parameters tested sequentially: SPRID 8-12 not declared significant unless SPRID 0-12 was significant.|ANOVA|||||31.07|16.45|<0.001
82369894|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.172||||0.469|TWO_SIDED|95.0|-0.64|0.29|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 11||0.29|-0.64|0.469
82369895|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.151|TWO_SIDED|95.0|-0.8|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 12||0.12|-0.80|0.151
82369896|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.344||||0.145|TWO_SIDED|95.0|-0.81|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 13||0.12|-0.81|0.145
82369897|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.235||||0.297|TWO_SIDED|95.0|-0.68|0.21|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 14||0.21|-0.68|0.297
82369898|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.094|TWO_SIDED|95.0|-0.82|0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 15||0.07|-0.82|0.094
82369899|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.064|TWO_SIDED|95.0|-0.89|0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 16||0.03|-0.89|0.064
82396151|NCT02913105|164503205|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.137||0.8127|TWO_SIDED|90.0|-0.26|0.195|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.195|-0.260|0.8127
82396152|NCT02913105|164503205|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.166||0.8901|TWO_SIDED|90.0|-0.298|0.252|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.252|-0.298|0.8901
82396153|NCT02913105|164503205|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.088|STANDARD_ERROR_OF_MEAN|0.177||0.6209|TWO_SIDED|90.0|-0.381|0.205|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.205|-0.381|0.6209
82396154|NCT02913105|164503205|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.238||0.8398|TWO_SIDED|90.0|-0.444|0.347|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.347|-0.444|0.8398
82396155|NCT02913105|164503205|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.073|STANDARD_ERROR_OF_MEAN|0.266||0.7839|TWO_SIDED|90.0|-0.515|0.369|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.369|-0.515|0.7839
82396156|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.241|STANDARD_ERROR_OF_MEAN|0.141||0.0911|TWO_SIDED|90.0|-0.476|-0.006|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||-0.006|-0.476|0.0911
82396157|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.338|STANDARD_ERROR_OF_MEAN|0.172||0.052|TWO_SIDED|90.0|-0.623|-0.053|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.053|-0.623|0.0520
82644423|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.095||||1|TWO_SIDED|95.0|-0.887|0.698|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.698|-0.887|1.0000
82647936|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.0272|TWO_SIDED|95.0|-1.9|-0.1||Male population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-1.9|0.0272
82369900|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.563||||0.019|TWO_SIDED|95.0|-1.03|-0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 17||-0.09|-1.03|0.019
82369901|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.457||||0.044|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 18||-0.01|-0.90|0.044
82369902|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.633||||0.007|TWO_SIDED|95.0|-1.09|-0.17|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 19||-0.17|-1.09|0.007
82369903|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222||||0.348|TWO_SIDED|95.0|-0.69|0.24|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 20||0.24|-0.69|0.348
82369904|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.281||||0.243|TWO_SIDED|95.0|-0.76|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 21||0.19|-0.76|0.243
82369905|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.595||||0.014|TWO_SIDED|95.0|-1.07|-0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 22||-0.12|-1.07|0.014
82369906|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.474||||0.055|TWO_SIDED|95.0|-0.96|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 23||0.01|-0.96|0.055
82369907|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.464||||0.062|TWO_SIDED|95.0|-0.95|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 24||0.02|-0.95|0.062
82369908|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.079|TWO_SIDED|95.0|-0.91|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 25||0.05|-0.91|0.079
82369909|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.576||||0.019|TWO_SIDED|95.0|-1.06|-0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 26||-0.10|-1.06|0.019
82369910|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.056|TWO_SIDED|95.0|-0.97|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 27||0.01|-0.97|0.056
82369911|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.659||||0.018|TWO_SIDED|95.0|-1.2|-0.11|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM iTNSS at Day 28||-0.11|-1.20|0.018
82369912|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222||||0.194|TWO_SIDED|95.0|-0.56|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 1||0.1|-0.56|0.194
82396158|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.183||0.0085|TWO_SIDED|90.0|-0.793|-0.187|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.187|-0.793|0.0085
82396159|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.657|STANDARD_ERROR_OF_MEAN|0.247||0.0091|TWO_SIDED|90.0|-1.067|-0.247|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.247|-1.067|0.0091
82396160|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.759|STANDARD_ERROR_OF_MEAN|0.275||0.007|TWO_SIDED|90.0|-1.216|-0.302|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.302|-1.216|0.0070
82396161|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.208|STANDARD_ERROR_OF_MEAN|0.129||0.1092|TWO_SIDED|90.0|-0.423|0.006|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.006|-0.423|0.1092
82396162|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.315|STANDARD_ERROR_OF_MEAN|0.156||0.0457|TWO_SIDED|90.0|-0.574|-0.056|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||-0.056|-0.574|0.0457
82444762|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.024|<|0.001|TWO_SIDED|95.0|0.04|0.14|||Mixed Models Analysis|||Bilateral Hippocampus||0.14|0.04|<0.001
82647937|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.0337|TWO_SIDED|95.0|-1.6|-0.1||Male population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.1|-1.6|0.0337
82369913|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.263||||0.134|TWO_SIDED|95.0|-0.61|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 2||0.08|-0.61|0.134
82369914|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.091|TWO_SIDED|95.0|-0.67|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 3||0.05|-0.67|0.091
82369915|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.278||||0.131|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 4||0.08|-0.64|0.131
82444763|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.08|0.18|||Mixed Models Analysis|||Bilateral Hippocampus||0.18|0.08|<0.001
82647938|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.7||||0.0152|TWO_SIDED|95.0|-3.1|-0.3||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-3.1|0.0152
82369916|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.483|TWO_SIDED|95.0|-0.49|0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 5||0.23|-0.49|0.483
82369917|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.301||||0.137|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 6||0.10|-0.70|0.137
82369918|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.297||||0.142|TWO_SIDED|95.0|-0.69|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 7||0.10|-0.69|0.142
82369919|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245||||0.22|TWO_SIDED|95.0|-0.64|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 8||0.15|-0.64|0.220
82369920|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.373||||0.081|TWO_SIDED|95.0|-0.79|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 9||0.05|-0.79|0.081
82369921|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.453||||0.034|TWO_SIDED|95.0|-0.87|-0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 10||-0.04|-0.87|0.034
82369922|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.314||||0.15|TWO_SIDED|95.0|-0.74|0.11|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 11||0.11|-0.74|0.150
82369923|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.333||||0.111|TWO_SIDED|95.0|-0.74|0.08|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 12||0.08|-0.74|0.111
82369924|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.261|TWO_SIDED|95.0|-0.69|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 13||0.19|-0.69|0.261
82369925|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.342||||0.123|TWO_SIDED|95.0|-0.78|0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 14||0.09|-0.78|0.123
82369926|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.415||||0.056|TWO_SIDED|95.0|-0.84|0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 15||0.01|-0.84|0.056
82369927|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.566||||0.011|TWO_SIDED|95.0|-1.0|-0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 16||-0.13|-1.00|0.011
82369928|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.009|TWO_SIDED|95.0|-1.03|-0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 17||-0.15|-1.03|0.009
82369929|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.301||||0.175|TWO_SIDED|95.0|-0.74|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 18||0.13|-0.74|0.175
82369930|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.449||||0.039|TWO_SIDED|95.0|-0.87|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 19||-0.02|-0.87|0.039
82369931|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.315||||0.152|TWO_SIDED|95.0|-0.75|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 20||0.12|-0.75|0.152
82369932|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.424||||0.063|TWO_SIDED|95.0|-0.87|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 21||0.02|-0.87|0.063
82444764|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.587|<|0.001|TWO_SIDED|95.0|-3.53|-1.21|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-1.21|-3.53|<0.001
82369933|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.454||||0.044|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 22||-0.01|-0.90|0.044
82369934|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.312||||0.179|TWO_SIDED|95.0|-0.77|0.14|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 23||0.14|-0.77|0.179
82369935|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.479||||0.034|TWO_SIDED|95.0|-0.92|-0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 24||-0.04|-0.92|0.034
82444765|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.611||0.008|TWO_SIDED|95.0|-2.84|-0.43|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-0.43|-2.84|0.008
82396163|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.165||0.0162|TWO_SIDED|90.0|-0.676|-0.129|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||-0.129|-0.676|0.0162
82396164|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.608|STANDARD_ERROR_OF_MEAN|0.221||0.007|TWO_SIDED|90.0|-0.975|-0.242|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||-0.242|-0.975|0.0070
82396165|NCT02913105|164503205|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.686|STANDARD_ERROR_OF_MEAN|0.244||0.006|TWO_SIDED|90.0|-1.091|-0.281|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||-0.281|-1.091|0.0060
82396166|NCT02913105|164503206|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.009||0.9927|TWO_SIDED|90.0|-0.015|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.014|-0.015|0.9927
82396167|NCT02913105|164503206|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.2794|TWO_SIDED|90.0|-0.007|0.035|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.035|-0.007|0.2794
82396168|NCT02913105|164503206|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.007||0.9032|TWO_SIDED|90.0|-0.012|0.013|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.013|-0.012|0.9032
82396169|NCT02913105|164503206|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.011||0.4163|TWO_SIDED|90.0|-0.009|0.027|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.027|-0.009|0.4163
82396170|NCT02913105|164503206|OTHER|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.011||0.7001|TWO_SIDED|90.0|-0.022|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.014|-0.022|0.7001
82647939|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.057|TWO_SIDED|95.0|-2.4|0.0||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-2.4|0.0570
82396171|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.009||0.5367|TWO_SIDED|90.0|-0.009|0.021|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.021|-0.009|0.5367
82396172|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5496|TWO_SIDED|90.0|-0.014|0.03|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.030|-0.014|0.5496
82396173|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.008||0.6844|TWO_SIDED|90.0|-0.01|0.016|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.016|-0.010|0.6844
82396174|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.011||0.5695|TWO_SIDED|90.0|-0.025|0.012|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.012|-0.025|0.5695
82369936|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.157||||0.505|TWO_SIDED|95.0|-0.62|0.31|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 25||0.31|-0.62|0.505
82369937|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.317||||0.186|TWO_SIDED|95.0|-0.79|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 26||0.15|-0.79|0.186
82369938|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.283||||0.234|TWO_SIDED|95.0|-0.75|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 27||0.18|-0.75|0.234
82369939|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.645||||0.017|TWO_SIDED|95.0|-1.17|-0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for rTNSS at Day 28||-0.12|-1.17|0.017
82369940|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.095|TWO_SIDED|95.0|-0.7|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 1||0.06|-0.70|0.095
82369941|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.236|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 2||0.15|-0.61|0.236
82369942|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.255||||0.205|TWO_SIDED|95.0|-0.65|0.14|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 3||0.14|-0.65|0.205
82369943|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.343||||0.084|TWO_SIDED|95.0|-0.73|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 4||0.05|-0.73|0.084
82369944|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.146||||0.475|TWO_SIDED|95.0|-0.55|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 5||0.26|-0.55|0.475
82369945|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.296||||0.178|TWO_SIDED|95.0|-0.73|0.14|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 6||0.14|-0.73|0.178
82369946|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.406||||0.071|TWO_SIDED|95.0|-0.85|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 7||0.04|-0.85|0.071
82369947|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.111||||0.621|TWO_SIDED|95.0|-0.55|0.33|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 8||0.33|-0.55|0.621
82369948|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.206||||0.372|TWO_SIDED|95.0|-0.66|0.25|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 9||0.25|-0.66|0.372
82369949|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.452||||0.046|TWO_SIDED|95.0|-0.9|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 10||-0.01|-0.90|0.046
82369950|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.302||||0.183|TWO_SIDED|95.0|-0.75|0.14|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 11||0.14|-0.75|0.183
82369951|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.226||||0.32|TWO_SIDED|95.0|-0.67|0.22|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 12||0.22|-0.67|0.320
82575836|NCT01266161|164861134|SUPERIORITY||Mean Difference (Final Values)|8.42|||<|0.001|TWO_SIDED|95.0|4.13|12.71||p-Value from ANOVA model, with treatment, baseline PSR, and gender terms. To protect type I error at 5% significance, 2 primary parameters tested sequentially: SPRID 8-12 not declared significant unless SPRID 0-12 was significant.|ANOVA|||||12.71|4.13|<0.001
82369952|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.188||||0.431|TWO_SIDED|95.0|-0.66|0.28|||ANCOVA|||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 13||0.28|-0.66|0.431
82369953|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.299||||0.191|TWO_SIDED|95.0|-0.75|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 14||0.15|-0.75|0.191
82369954|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.475||||0.043|TWO_SIDED|95.0|-0.94|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 15||-0.02|-0.94|0.043
82369955|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.619||||0.009|TWO_SIDED|95.0|-1.08|-0.16|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 16||-0.16|-1.08|0.009
82369956|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.495||||0.04|TWO_SIDED|95.0|-0.97|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 17||-0.02|-0.97|0.040
82369957|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262||||0.249|TWO_SIDED|95.0|-0.71|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 18||0.18|-0.71|0.249
82575837|NCT01266161|164861135|SUPERIORITY||Least-squares means|8.95|||<|0.001|TWO_SIDED|95.0|5.94|11.95||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 0-12.||11.95|5.94|<0.001
82575838|NCT01266161|164861135|SUPERIORITY||Least-squares means|3.15|||<|0.001|TWO_SIDED|95.0|1.45|4.85||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 8-12.||4.85|1.45|<0.001
82644424|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.444||||0.6018|TWO_SIDED|95.0|-1.237|0.349|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.349|-1.237|0.6018
82644425|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.645||||0.2935|TWO_SIDED|95.0|-1.536|0.246|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||0.246|-1.536|0.2935
82644426|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.218||||0.0023|TWO_SIDED|95.0|-2.12|-0.315|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.315|-2.120|0.0023
82396175|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.011||0.8015|TWO_SIDED|90.0|-0.021|0.016|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.016|-0.021|0.8015
82396176|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.008||0.4923|TWO_SIDED|90.0|-0.008|0.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 28||0.020|-0.008|0.4923
82396177|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.012||0.62|TWO_SIDED|90.0|-0.025|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||0.014|-0.025|0.6200
82396178|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.007||0.7423|TWO_SIDED|90.0|-0.009|0.014|||ANCOVA|An unstructured variance-covariance structure was used.||Day 56||0.014|-0.009|0.7423
82396179|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.01||0.1272|TWO_SIDED|90.0|-0.032|0.001|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||0.001|-0.032|0.1272
82396180|NCT02913105|164503206|SUPERIORITY|Change from baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), baseline and baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.01||0.8883|TWO_SIDED|90.0|-0.015|0.017|||ANCOVA|An unstructured variance-covariance structure was used.||Day 112 (EOS)||0.017|-0.015|0.8883
82396181|NCT02913105|164503207|OTHER|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|1.01||||0.9514|TWO_SIDED|90.0|0.84|1.21|||ANCOVA|||||1.21|0.84|0.9514
82396182|NCT02913105|164503207|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.93||||0.5168|TWO_SIDED|90.0|0.78|1.12|||ANCOVA|||||1.12|0.78|0.5168
82444766|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|8.17|STANDARD_ERROR_OF_MEAN|1.715|<|0.001|TWO_SIDED|95.0|4.79|11.56|||Mixed Models Analysis|||Bilateral Whole Brain||11.56|4.79|<0.001
82575839|NCT01266161|164861135|SUPERIORITY||Least-squares means|6.56|||<|0.001|TWO_SIDED|95.0|2.84|10.27||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 12-24.||10.27|2.84|<0.001
82644427|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.844||||0.0669|TWO_SIDED|95.0|-1.723|0.035|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||0.035|-1.723|0.0669
82647940|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.2||||0.0296|TWO_SIDED|95.0|-4.3|-0.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.3|0.0296
82369958|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.536||||0.023|TWO_SIDED|95.0|-1.0|-0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 19||-0.07|-1.00|0.023
82369959|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.321|TWO_SIDED|95.0|-0.71|0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 20||0.23|-0.71|0.321
82369960|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.568||||0.019|TWO_SIDED|95.0|-1.04|-0.09|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 21||-0.09|-1.04|0.019
82369961|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.419||||0.092|TWO_SIDED|95.0|-0.91|0.07|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 22||0.07|-0.91|0.092
82369962|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.206||||0.404|TWO_SIDED|95.0|-0.69|0.28|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 23||0.28|-0.69|0.404
82369963|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.546||||0.027|TWO_SIDED|95.0|-1.03|-0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 24||-0.06|-1.03|0.027
82396183|NCT02913105|164503207|SUPERIORITY|Log transformed ratio to baseline was analyzed using an ANCOVA model which included effects for treatment, log-transformed baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian =30 and Non-Asian=35).|Geometric Mean Ratios|0.93||||0.374|TWO_SIDED|90.0|0.8|1.07|||ANCOVA|||||1.07|0.80|0.3740
82396184|NCT02913105|164503208|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9453|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.9453
82369964|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.227||||0.357|TWO_SIDED|95.0|-0.71|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 25||0.26|-0.71|0.357
82369965|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.403||||0.114|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 26||0.10|-0.90|0.114
82369966|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.307||||0.228|TWO_SIDED|95.0|-0.81|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 27||0.19|-0.81|0.228
82369967|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.725||||0.012|TWO_SIDED|95.0|-1.29|-0.16|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for AM rTNSS at Day 28||-0.16|-1.29|0.012
82369968|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093||||0.643|TWO_SIDED|95.0|-0.49|0.3|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 1||0.30|-0.49|0.643
82369969|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.279||||0.15|TWO_SIDED|95.0|-0.66|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 2||0.10|-0.66|0.150
82369970|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.291||||0.162|TWO_SIDED|95.0|-0.7|0.12|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 3||0.12|-0.70|0.162
82369971|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.244||||0.242|TWO_SIDED|95.0|-0.65|0.17|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 4||0.17|-0.65|0.242
82369972|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.223||||0.278|TWO_SIDED|95.0|-0.63|0.18|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 5||0.18|-0.63|0.278
82444767|NCT05063539|164598439|SUPERIORITY||LS Mean Difference|9.37|STANDARD_ERROR_OF_MEAN|1.804|<|0.001|TWO_SIDED|95.0|5.81|12.92|||Mixed Models Analysis|||Bilateral Whole Brain||12.92|5.81|<0.001
82444768|NCT05063539|164598440|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.023|<|0.001|TWO_SIDED|95.0|0.04|0.13|||Mixed Models Analysis|||Bilateral Hippocampus||0.13|0.04|<0.001
82647941|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.0155|TWO_SIDED|95.0|-4.4|-0.5||Premenopausal female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.5|-4.4|0.0155
82369973|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.282||||0.2|TWO_SIDED|95.0|-0.71|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 6||0.15|-0.71|0.200
82369974|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.456|TWO_SIDED|95.0|-0.6|0.27|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 7||0.27|-0.60|0.456
82369975|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.385||||0.076|TWO_SIDED|95.0|-0.81|0.04|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 8||0.04|-0.81|0.076
82369976|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.396||||0.084|TWO_SIDED|95.0|-0.85|0.05|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 9||0.05|-0.85|0.084
82369977|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.481||||0.04|TWO_SIDED|95.0|-0.94|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 10||-0.02|-0.94|0.040
82369978|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.405||||0.09|TWO_SIDED|95.0|-0.87|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 11||0.06|-0.87|0.090
82369979|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.432||||0.06|TWO_SIDED|95.0|-0.88|0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 12||0.02|-0.88|0.060
82369980|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.277||||0.252|TWO_SIDED|95.0|-0.75|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 13||0.20|-0.75|0.252
82369981|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.229|TWO_SIDED|95.0|-0.79|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 14||0.19|-0.79|0.229
82369982|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.373||||0.109|TWO_SIDED|95.0|-0.83|0.08|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 15||0.08|-0.83|0.109
82396185|NCT02913105|164503208|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.4344|TWO_SIDED|90.0|0.96|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.01|0.96|0.4344
82444769|NCT05063539|164598440|SUPERIORITY|Bilateral Hippocampus|LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.023|<|0.001|TWO_SIDED|95.0|0.08|0.17|||Mixed Models Analysis|||||0.17|0.08|<0.001
82369983|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.484|||||TWO_SIDED|95.0|-0.96|-0.01|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 16||-0.01|-0.96|
82369984|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.003|TWO_SIDED|95.0|-1.17|-0.23|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 17||-0.23|-1.17|0.003
82369985|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.326||||0.182|TWO_SIDED|95.0|-0.81|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 18||0.15|-0.81|0.182
82369986|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.299||||0.194|TWO_SIDED|95.0|-0.75|0.15|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 19||0.15|-0.75|0.194
82369987|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.348||||0.129|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 20||0.10|-0.80|0.129
82369988|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.292||||0.232|TWO_SIDED|95.0|-0.77|0.19|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 21||0.19|-0.77|0.232
82444770|NCT05063539|164598440|SUPERIORITY||LS Mean Difference|-2.21|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.33|-1.08|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-1.08|-3.33|<0.001
82444771|NCT05063539|164598440|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.582||0.015|TWO_SIDED|95.0|-2.57|-0.28|||Mixed Models Analysis|||Bilateral Whole Lateral Ventricles||-0.28|-2.57|0.015
82444772|NCT05063539|164598440|SUPERIORITY||LS Mean Difference|7.17|STANDARD_ERROR_OF_MEAN|1.635|<|0.001|TWO_SIDED|95.0|3.95|10.4|||Mixed Models Analysis|||Bilateral Whole Brain||10.40|3.95|<0.001
82444773|NCT05063539|164598440|SUPERIORITY||LS Mean Difference|8.16|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|4.85|11.47|||Mixed Models Analysis|||Bilateral Whole Brain||11.47|4.85|<0.001
82575840|NCT01266161|164861135|SUPERIORITY||Least-squares means|2.02||||0.091|TWO_SIDED|95.0|-0.33|4.37||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 20-24.||4.37|-0.33|0.091
82396186|NCT02913105|164503208|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.639|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.6390
82396187|NCT02913105|164503208|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.6329|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.02|0.97|0.6329
82396188|NCT02913105|164503208|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.664|TWO_SIDED|90.0|0.97|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||Day 42||1.02|0.97|0.6640
82396189|NCT02913105|164503208|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.7517|TWO_SIDED|90.0|0.98|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Day 84||1.03|0.98|0.7517
82396190|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.739|TWO_SIDED|90.0|0.77|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.19|0.77|0.7390
82396191|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.3086|TWO_SIDED|90.0|0.72|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.08|0.72|0.3086
82396192|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.288|TWO_SIDED|90.0|0.69|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.08|0.69|0.2880
82396193|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.4446|TWO_SIDED|90.0|0.73|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.12|0.73|0.4446
82396194|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.4127|TWO_SIDED|90.0|0.73|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 42||1.11|0.73|0.4127
82396195|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.8074|TWO_SIDED|90.0|0.85|1.25|||ANCOVA|An unstructured variance-covariance structure was used.||HA: Day 84||1.25|0.85|0.8074
82396196|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6935|TWO_SIDED|90.0|0.88|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.08|0.88|0.6935
82444774|NCT04736628|164598464|OTHER||Mean Difference (Net)|-0.228||||0.0179|TWO_SIDED|95.0|-0.417|-0.04|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 1 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.040|-0.417|0.0179
82575841|NCT01266161|164861135|SUPERIORITY||Least-squares means|14.95|||<|0.001|TWO_SIDED|95.0|9.12|20.79||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 0-24.||20.79|9.12|<0.001
82369989|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.499||||0.042|TWO_SIDED|95.0|-0.98|-0.02|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 22||-0.02|-0.98|0.042
82369990|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.356||||0.15|TWO_SIDED|95.0|-0.84|0.13|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 23||0.13|-0.84|0.150
82369991|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.398||||0.09|TWO_SIDED|95.0|-0.86|0.06|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 24||0.06|-0.86|0.090
82369992|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.028||||0.909|TWO_SIDED|95.0|-0.52|0.46|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 25||0.46|-0.52|0.909
82369993|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.233||||0.354|TWO_SIDED|95.0|-0.73|0.26|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 26||0.26|-0.73|0.354
82369994|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.245|TWO_SIDED|95.0|-0.78|0.2|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 27||0.20|-0.78|0.245
82369995|NCT00117325|164448508|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.601||||0.038|TWO_SIDED|95.0|-1.17|-0.03|||ANCOVA|ANCOVA method was used adjusting for baseline rTNSS, country, age, and gender, in addition to treatment effect.||Placebo versus Fluticasone Furoate 110 mcg QD for PM rTNSS at Day 28||-0.03|-1.17|0.038
82369996|NCT04380090|164448509|SUPERIORITY||Odds Ratio (OR)|1.37||||0.41|TWO_SIDED|95.0|0.65|2.86|||Regression, Logistic||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||2.86|0.65|0.41
82396197|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.9145|TWO_SIDED|90.0|0.9|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.09|0.90|0.9145
82396198|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.9131|TWO_SIDED|90.0|0.91|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.12|0.91|0.9131
82396199|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9988|TWO_SIDED|90.0|0.91|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.10|0.91|0.9988
82396200|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.5873|TWO_SIDED|90.0|0.94|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 42||1.13|0.94|0.5873
82444775|NCT04736628|164598464|OTHER||Mean Difference (Net)|-0.209||||0.0307|TWO_SIDED|95.0|-0.398|-0.02|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 2 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.020|-0.398|0.0307
82369997|NCT04380090|164448510|SUPERIORITY||Odds Ratio (OR)|0.79||||0.66|TWO_SIDED|95.0|0.28|2.24|||ordinal regression model||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||2.24|0.28|0.66
82369998|NCT04380090|164448511|SUPERIORITY||Odds Ratio (OR)|1.28||||0.65|TWO_SIDED|95.0|0.45|3.63|||ordinal regression model||OR for Propylene Glycol use (vs Docusate Sodium), adjusted for operative time and sex (female vs. male)|||3.63|0.45|0.65
82369999|NCT04380090|164448512|EQUIVALENCE|Equivalence is defined as a p-value greater or equal to 0.05 (no difference between groups)||||||0.47|||||||Chi-squared|||||||0.47
82370000|NCT04380090|164448513|EQUIVALENCE|Equivalence is defined as a p-value greater or equal to 0.05 (no difference between groups)||||||0.99|||||||Fisher Exact|||||||0.99
82370001|NCT01974440|164448514|SUPERIORITY||Hazard Ratio (HR)|0.806||||0.0922|TWO_SIDED|95.0|0.626|1.037|||Log Rank|||||1.037|0.626|0.0922
82370002|NCT01974440|164448515|SUPERIORITY||Hazard Ratio (HR)|0.725||||0.4505|TWO_SIDED|95.0|0.312|1.682|||Log Rank|||||1.682|0.312|0.4505
82370003|NCT03979820|164448530|OTHER||Ratio of geometric mean TSFs|544.36|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|340.57|870.09|||ANOVA||"The arm Phenelzine/Phenelzine + Tyramine represented the numerator. The arm Placebo/Placebo + Tyramine represented the denominator."|"The statistical model used for the analysis of the primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale for each treatment relative to placebo.~TSF was log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the fixed effects 'treatment'."||870.09|340.57|
82396201|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.905|TWO_SIDED|90.0|0.92|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||PIIINP: Day 84||1.10|0.92|0.9050
82396202|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.1458|TWO_SIDED|90.0|0.99|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.11|0.99|0.1458
82396203|NCT02913105|164503209|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.2048|TWO_SIDED|90.0|0.98|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.12|0.98|0.2048
82396204|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.1051|TWO_SIDED|90.0|1.0|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.12|1.00|0.1051
82396205|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.0717|TWO_SIDED|90.0|1.01|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.15|1.01|0.0717
82396206|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.8083|TWO_SIDED|90.0|0.96|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 42||1.06|0.96|0.8083
82396207|NCT02913105|164503209|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.5361|TWO_SIDED|90.0|0.96|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||TIMP-1: Day 84||1.09|0.96|0.5361
82396208|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.0858|TWO_SIDED|90.0|0.92|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.00|0.92|0.0858
82396209|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.0096|TWO_SIDED|90.0|0.88|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||0.97|0.88|0.0096
82444776|NCT04736628|164598464|OTHER||Mean Difference (Net)|-0.235||||0.0151|TWO_SIDED|95.0|-0.425|-0.046|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 3 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.046|-0.425|0.0151
82444777|NCT04736628|164598464|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0053|||||||MCP-Mod E-max model fit|Model assumption: 80% of the maximum effect is achieved at 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0053
82644428|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.539|||<|0.0001|TWO_SIDED|95.0|-2.438|-0.64|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.640|-2.438|<.0001
82396210|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.0284|TWO_SIDED|90.0|0.88|0.98|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||0.98|0.88|0.0284
82396211|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.133|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.01|0.89|0.1330
82396212|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.2032|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.01|0.89|0.2032
82396213|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1141|TWO_SIDED|90.0|0.87|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.00|0.87|0.1141
82396214|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1342|TWO_SIDED|90.0|0.88|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.01|0.88|0.1342
82396215|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.0771|TWO_SIDED|90.0|0.92|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.00|0.92|0.0771
82396216|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.151|TWO_SIDED|90.0|0.91|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||1.01|0.91|0.1510
82396217|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.0744|TWO_SIDED|90.0|0.89|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||1.00|0.89|0.0744
82396218|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.99||||0.8365|TWO_SIDED|90.0|0.93|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.06|0.93|0.8365
82396219|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6091|TWO_SIDED|90.0|0.92|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.05|0.92|0.6091
82396220|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.3621|TWO_SIDED|90.0|0.9|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.03|0.90|0.3621
82448973|NCT02249182|164605214|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|187.76|||||TWO_SIDED|90.0|143.41|245.82||||||AUCtau of SOF for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||245.82|143.41|
82575842|NCT01266161|164861135|SUPERIORITY||Least-squares means|5.87||||0.01|TWO_SIDED|95.0|1.42|10.33||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 24-36.||10.33|1.42|0.010
82575843|NCT01266161|164861135|SUPERIORITY||Least-squares means|3.48||||0.004|TWO_SIDED|95.0|1.13|5.83||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 32-36.||5.83|1.13|0.004
82370004|NCT03979820|164448530|OTHER||Ratio of geometric mean TSFs|123.22|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|90.0|77.09|196.95|||ANOVA||"The arm 10 mg BI 1467335/10 mg BI 1467335 + Tyramine represented the numerator.~The arm Placebo/Placebo + Tyramine represented the denominator."|"The statistical model used for the analysis of the primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale for each treatment relative to placebo.~TSF was log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included the fixed effects 'treatment'."||196.95|77.09|
82370005|NCT00988065|164448531|SUPERIORITY_OR_OTHER||Difference in event rates|0.7||||||95.0|-1.8|3.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||3.7|-1.8|
82370006|NCT00988065|164448531|SUPERIORITY_OR_OTHER||Difference in event rates|4.7||||||95.0|2.1|9.3|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||9.3|2.1|
82370007|NCT00988065|164448532|SUPERIORITY_OR_OTHER||Difference in event rates|0.7||||||95.0|-1.8|3.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||3.7|-1.8|
82370008|NCT00988065|164448532|SUPERIORITY_OR_OTHER||Difference in event rates|0.0||||||95.0|-2.5|2.5|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|||2.5|-2.5|
82370009|NCT00988065|164448533|SUPERIORITY_OR_OTHER||Difference in event rates|2.0||||||95.0|-0.5|5.7|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|Comparison of participants who had Level 1 or Level 2 diagnostic certainty.||5.7|-0.5|
82370010|NCT00988065|164448533|SUPERIORITY_OR_OTHER||Difference in event rates|0.0||||||95.0|-2.5|2.5|||||95% confidence interval for the difference in event rates (treatment group minus placebo) according to Miettinen and Nurminen (Statistics in Medicine 1985; 4:213-226).|Comparison of participants who had Level 1 or Level 2 diagnostic certainty.||2.5|-2.5|
82370011|NCT01355159|164448552|SUPERIORITY||Risk Ratio (RR)|1.1||||0.37|TWO_SIDED|95.0|0.9|1.34|||Chi-squared|||||1.34|0.90|0.37
82370012|NCT01355159|164448554|SUPERIORITY||Risk Ratio (RR)|1.29||||0.37|TWO_SIDED|95.0|0.74|2.28|||Chi-squared|||||2.28|0.74|0.37
82370013|NCT01355159|164448555|SUPERIORITY||Risk Ratio (RR)|0.64||||0.21|TWO_SIDED|95.0|0.31|1.31|||Chi-squared|||||1.31|0.31|0.21
82448974|NCT03274518|164605234|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.4534|||||||t-test, 2 sided|||||||0.4534
82448975|NCT03274518|164605235|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.1179|||||||t-test, 2 sided|||||||0.1179
82575844|NCT01266161|164861135|SUPERIORITY||Least-squares means|6.09||||0.006|TWO_SIDED|95.0|1.82|10.36||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 36-48.||10.36|1.82|0.006
82370014|NCT01355159|164448556|SUPERIORITY||Risk Ratio (RR)|0.97||||0.71|TWO_SIDED|95.0|0.82|1.15|||Chi-squared|||||1.15|0.82|0.71
82370015|NCT01355159|164448557|SUPERIORITY||Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.86|1.13|||Chi-squared|||||1.13|0.86|0.87
82370016|NCT01355159|164448558|SUPERIORITY||Risk Ratio (RR)|1.21||||0.75|TWO_SIDED|95.0|0.37|3.96|||Chi-squared|||||3.96|0.37|0.75
82370017|NCT01355159|164448559|SUPERIORITY||Risk Ratio (RR)|1.52||||0.19|TWO_SIDED|95.0|0.81|2.84|||Chi-squared|||||2.84|0.81|0.19
82370018|NCT01355159|164448560|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|7.0||0.61|TWO_SIDED|95.0|-0.96|1.63|||t-test, 2 sided|||||1.63|-0.96|0.61
82370019|NCT01355159|164448561|SUPERIORITY||Risk Ratio (RR)|0.6||||0.14|TWO_SIDED|95.0|0.3|1.19|||Chi-squared|||||1.19|0.30|0.14
82370020|NCT01355159|164448562|SUPERIORITY||Risk Ratio (RR)|0.76||||0.37|TWO_SIDED|95.0|0.41|1.39|||Chi-squared|||||1.39|0.41|0.37
82370021|NCT01355159|164448563|SUPERIORITY||Risk Ratio (RR)|1.03||||0.82|TWO_SIDED|95.0|0.81|1.3|||Chi-squared|||||1.30|0.81|0.82
82370022|NCT01355159|164448564|SUPERIORITY||Risk Ratio (RR)|0.87||||0.79|TWO_SIDED|95.0|0.31|2.44|||Chi-squared|||||2.44|0.31|0.79
82370023|NCT01355159|164448565|SUPERIORITY||Risk Ratio (RR)|0.63||||0.07|TWO_SIDED|95.0|0.37|1.05|||Chi-squared|||||1.05|0.37|0.07
82370024|NCT01355159|164448566|SUPERIORITY||Risk Ratio (RR)|1.2||||0.65|TWO_SIDED|95.0|0.54|2.66|||Chi-squared|||||2.66|0.54|0.65
82370025|NCT01355159|164448567|SUPERIORITY||Risk Ratio (RR)|0.34||||0.1|TWO_SIDED|95.0|0.09|1.23|||Chi-squared|||||1.23|0.09|0.10
82370026|NCT01355159|164448568|SUPERIORITY||Risk Ratio (RR)|2.04||||0.33|TWO_SIDED|95.0|0.49|8.57|||Chi-squared|||||8.57|0.49|0.33
82370027|NCT01355159|164448569|SUPERIORITY||Risk Ratio (RR)|0.97||||0.94|TWO_SIDED|95.0|0.47|2.0|||Chi-squared|||||2.00|0.47|0.94
82370028|NCT01355159|164448570|SUPERIORITY||Risk Ratio (RR)|1.61||||0.06|TWO_SIDED|95.0|0.97|2.66|||Chi-squared|||||2.66|0.97|0.06
82370029|NCT01355159|164448571|SUPERIORITY||Risk Ratio (RR)|2.37||||0.21|TWO_SIDED|95.0|0.61|9.14|||Chi-squared|||||9.14|0.61|0.21
82370030|NCT01355159|164448572|SUPERIORITY||Risk Ratio (RR)|1.2||||0.38|TWO_SIDED|95.0|0.8|1.8|||Chi-squared|||||1.80|0.80|0.38
82370031|NCT01355159|164448573|SUPERIORITY||Mean Difference (Net)|-1.6||||46|TWO_SIDED|95.0|-5.84|2.64|||t-test, 2 sided|||||2.64|-5.84|046
82370032|NCT01355159|164448574|SUPERIORITY||Risk Ratio (RR)|0.87||||0.79|TWO_SIDED|95.0|0.31|2.44|||Chi-squared|||||2.44|0.31|0.79
82370033|NCT01355159|164448575|SUPERIORITY||Risk Ratio (RR)|2.0||||0.42|TWO_SIDED|95.0|0.37|10.92|||Chi-squared|||||10.92|0.37|0.42
82370034|NCT01941940|164448577|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370035|NCT01941940|164448583|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370036|NCT01941940|164448585|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82575845|NCT01266161|164861135|SUPERIORITY||Least-squares means|2.41||||0.042|TWO_SIDED|95.0|0.09|4.73||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 44-48.||4.73|0.09|0.042
82370037|NCT01941940|164448585|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370038|NCT01941940|164448585|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370039|NCT01941940|164448586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370040|NCT01941940|164448586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370041|NCT01941940|164448586|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370042|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370043|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370044|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-68: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370045|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82396221|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.5031|TWO_SIDED|90.0|0.91|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.04|0.91|0.5031
82444778|NCT04736628|164598464|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0102|||||||MCP-Mod quadratic model fit|Model assumption: 50 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0102
82448976|NCT03274518|164605236|NON_INFERIORITY|The non-inferiority margin was defined as difference within 20% in comparison to reference method (olHDF)||||||0.3054|||||||t-test, 2 sided|||||||0.3054
82370046|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370047|NCT01941940|164448589|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||TJC-28: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370048|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370049|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82448977|NCT03274518|164605237|NON_INFERIORITY|The lower the ECW/TBW ratio, the lower pre-dialysis excess fluid. A non-inferiority margin was defined as difference within 10% from reference method (olHDF)||||||0.045|||||||t-test, 2 sided|||||||0.045
82575846|NCT01266161|164861135|SUPERIORITY||Least-squares means|10.97||||0.004|TWO_SIDED|95.0|3.49|18.45||p-Value from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||For SPID 24-48.||18.45|3.49|0.004
82370050|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-66: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370051|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370052|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370053|NCT01941940|164448590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||SJC-28: Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370054|NCT01941940|164448591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 2||||<0.0001
82370055|NCT01941940|164448591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 24||||<0.0001
82370056|NCT01941940|164448591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and CDAI at Week 52||||<0.0001
82370057|NCT01941940|164448592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 2||||<0.0001
82370058|NCT01941940|164448592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 24||||<0.0001
82370059|NCT01941940|164448592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and SDAI at Week 52||||<0.0001
82647942|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.4||||0.587|TWO_SIDED|95.0|-1.7|1.0||Premenopausal female population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-1.7|0.5870
82396222|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9244|TWO_SIDED|90.0|0.96|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 7||1.04|0.96|0.9244
82396223|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.236|TWO_SIDED|90.0|0.99|1.08|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 14||1.08|0.99|0.2360
82396224|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.699|TWO_SIDED|90.0|0.96|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 28||1.07|0.96|0.6990
82396225|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.05||||0.159|TWO_SIDED|90.0|0.99|1.11|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 42||1.11|0.99|0.1590
82396226|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.4256|TWO_SIDED|90.0|0.97|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 56||1.09|0.97|0.4256
82396227|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.4901|TWO_SIDED|90.0|0.96|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 84||1.09|0.96|0.4901
82444779|NCT04736628|164598464|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.023|||||||MCP-Mod linear model fit|Model assumption: no assumption is needed.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0230
82575847|NCT01266161|164861136|SUPERIORITY||Hazard Ratio (HR)|0.18|||<|0.001||95.0|0.1|0.34|||proportional hazards model|||||0.34|0.10|<0.001
82396228|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.3648|TWO_SIDED|90.0|0.97|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Cholesterol: Day 112 (EOS)||1.09|0.97|0.3648
82396229|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.8891|TWO_SIDED|90.0|0.91|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||1.12|0.91|0.8891
82575848|NCT01266161|164861137|SUPERIORITY||Treatment Difference|-48.01|||<|0.001||95.0|-64.46|-31.56||p-Values from the Cochran-Mantel-Haenszel (CMH) test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the first dosing interval (0 to 12 hours).||-31.56|-64.46|<0.001
82370060|NCT01941940|164448593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 2||||<0.0001
82370061|NCT01941940|164448593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 24||||<0.0001
82370062|NCT01941940|164448593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and SDAI at Week 52||||<0.0001
82370063|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 2||||<0.0001
82575849|NCT01266161|164861137|SUPERIORITY||Treatment Difference|-25.53|||<|0.001||95.0|-39.78|-11.28||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the second dosing interval (12 to 24 hours).||-11.28|-39.78|<0.001
82575850|NCT01266161|164861137|SUPERIORITY||Treatment Difference|-24.05||||0.002||95.0|-38.93|-9.18||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the third dosing interval (24 to 36 hours).||-9.18|-38.93|0.002
82575851|NCT01266161|164861137|SUPERIORITY||Treatment Difference|-13.6||||0.035||95.0|-26.41|-0.79||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the fourth dosing interval (36 to 48 hours).||-0.79|-26.41|0.035
82575852|NCT01266161|164861137|SUPERIORITY||Treatment Difference|-48.01|||<|0.001||95.0|-64.42|-31.6||p-Values from the CMH test, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||During the study overall (0 to 48 hours).||-31.60|-64.42|<0.001
82575853|NCT01266161|164861137|SUPERIORITY||Cox proportional hazard models|0.086||||0.011|TWO_SIDED|95.0|0.01|0.57|||Andersen-Gill (AG)|||Time to First Dose Rescue Medication Over Entire Study Period (0-48 Hours)||0.57|0.01|0.011
82575854|NCT01266161|164861138|SUPERIORITY||Least squares means|0.84|||<|0.001||95.0|0.5|1.19||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||1.19|0.50|<0.001
82644429|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.658||||0.212|TWO_SIDED|95.0|-0.192|1.509|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.509|-0.192|0.2120
82396230|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.4817|TWO_SIDED|90.0|0.85|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||1.07|0.85|0.4817
82575855|NCT01266161|164861138|SUPERIORITY||Least squares means|1.53|||<|0.001||95.0|1.11|1.94||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||1.94|1.11|<0.001
82575856|NCT01266161|164861138|SUPERIORITY||Least squares means|2.0|||<|0.001||95.0|1.56|2.44||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||2.44|1.56|<0.001
82575857|NCT01266161|164861138|SUPERIORITY||Least squares means|2.29|||<|0.001||95.0|1.86|2.73||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||2.73|1.86|<0.001
82575858|NCT01266161|164861138|SUPERIORITY||Least squares means|2.18|||<|0.001||95.0|1.69|2.68||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||2.68|1.69|<0.001
82575859|NCT01266161|164861138|SUPERIORITY||Least squares means|0.92|||<|0.001||95.0|0.46|1.38||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA||Treatment difference (ibuprofen minus placebo) and corresponding 95% CI were calculated based on least-squares means from the ANOVA model.|Ibuprofen versus placebo at 6 hours.||1.38|0.46|<0.001
82575860|NCT01266161|164861138|SUPERIORITY||Least squares means|1.04|||<|0.001||95.0|0.54|1.54||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||1.54|0.54|<0.001
82575861|NCT01266161|164861138|SUPERIORITY||Least squares means|1.1|||<|0.001||95.0|0.59|1.6||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||1.60|0.59|<0.001
82647943|NCT00386100|165011342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.1854|TWO_SIDED|95.0|-3.6|0.7||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.7|-3.6|0.1854
82396231|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.6022|TWO_SIDED|90.0|0.84|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.09|0.84|0.6022
82575862|NCT01266161|164861138|SUPERIORITY||Least squares means|0.5||||0.052||95.0|0.0|1.01||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||1.01|-0.00|0.052
82575863|NCT01266161|164861139|SUPERIORITY||Least squares means|0.37|||<|0.001||95.0|0.16|0.59||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||0.59|0.16|<0.001
82575864|NCT01266161|164861139|SUPERIORITY||Least squares means|0.9|||<|0.001||95.0|0.63|1.18||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||1.18|0.63|<0.001
82575865|NCT01266161|164861139|SUPERIORITY||Least squares means|1.22|||<|0.001||95.0|0.91|1.52||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||1.52|0.91|<0.001
82575866|NCT01266161|164861139|SUPERIORITY||Least squares means|1.4|||<|0.001||95.0|1.1|1.71||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||1.71|1.10|<0.001
82575867|NCT01266161|164861139|SUPERIORITY||Least squares means|1.32|||<|0.001||95.0|0.97|1.67||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||1.67|0.97|<0.001
82370064|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 2||||<0.0001
82370065|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 2||||<0.0001
82370066|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 24||||<0.0001
82370067|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 24||||<0.0001
82370068|NCT01941940|164448594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 24||||<0.0001
82396232|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.447|TWO_SIDED|90.0|0.83|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.07|0.83|0.4470
82529250|NCT03661996|164755060|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|21.52|STANDARD_ERROR_OF_MEAN|1.062|<|0.0001|TWO_SIDED|95.0|19.43|23.6|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||23.60|19.43|<0.0001
82529251|NCT03661996|164755060|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|19.4|STANDARD_ERROR_OF_MEAN|1.365|<|0.0001|TWO_SIDED|95.0|16.72|22.09|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The KOOS subscale scores are derived and normalized. Higher scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline subscale score as covariates.||22.09|16.72|<0.0001
82529252|NCT03661996|164755061|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.48|STANDARD_ERROR_OF_MEAN|0.191|<|0.0001|TWO_SIDED|95.0|-3.86|-3.1|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.10|-3.86|<0.0001
82644430|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.778||||0.0993|TWO_SIDED|95.0|-0.087|1.642|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.642|-0.087|0.0993
82370069|NCT01941940|164448594|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR20 at Week 52||||0.0004
82575868|NCT01266161|164861139|SUPERIORITY||Least squares means|0.61|||<|0.001||95.0|0.3|0.91||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 6 hours.||0.91|0.30|<0.001
82575869|NCT01266161|164861139|SUPERIORITY||Least squares means|0.64|||<|0.001||95.0|0.31|0.97||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||0.97|0.31|<0.001
82647944|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.9||||0.0038|TWO_SIDED|95.0|-3.2|-0.6||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.6|-3.2|0.0038
82370070|NCT01941940|164448594|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR50 at Week 52||||0.0004
82370071|NCT01941940|164448594|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|||Analysis for association between DAS28-ESR and ACR70 at Week 52||||0.0004
82370072|NCT01941940|164448595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 2||||<0.0001
82370073|NCT01941940|164448595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 24||||<0.0001
82370074|NCT01941940|164448595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between DAS28-ESR and EULAR at Week 52||||<0.0001
82370075|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 2||||<0.0001
82370076|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 2||||<0.0001
82370077|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 2||||<0.0001
82370078|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 24||||<0.0001
82370079|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 24||||<0.0001
82370080|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 24||||<0.0001
82370081|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR20 at Week 52||||<0.0001
82370082|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR50 at Week 52||||<0.0001
82370083|NCT01941940|164448596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and ACR70 at Week 52||||<0.0001
82370084|NCT01941940|164448597|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 2||||<0.0001
82370085|NCT01941940|164448597|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 24||||<0.0001
82370086|NCT01941940|164448597|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between CDAI and EULAR at Week 52||||<0.0001
82370087|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 2||||<0.0001
82370088|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 2||||<0.0001
82370089|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 2||||<0.0001
82370090|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 24||||<0.0001
82370091|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 24||||<0.0001
82370092|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 24||||<0.0001
82370093|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR20 at Week 52||||<0.0001
82396233|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.4342|TWO_SIDED|90.0|0.83|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.07|0.83|0.4342
82529253|NCT03661996|164755061|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.52|STANDARD_ERROR_OF_MEAN|0.416|<|0.0001|TWO_SIDED|95.0|-4.38|-2.67|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-2.67|-4.38|<0.0001
82647945|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0134|TWO_SIDED|95.0|-2.7|-0.3||Overall population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.3|-2.7|0.0134
82575870|NCT01266161|164861139|SUPERIORITY||Least squares means|0.66|||<|0.001||95.0|0.36|0.97||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||0.97|0.36|<0.001
82370094|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR50 at Week 52||||<0.0001
82370095|NCT01941940|164448598|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and ACR70 at Week 52||||<0.0001
82370096|NCT01941940|164448599|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 2||||<0.0001
82370097|NCT01941940|164448599|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 24||||<0.0001
82370098|NCT01941940|164448599|SUPERIORITY_OR_OTHER|||||||0.0016|||||||ANOVA|||Analysis for association between SDAI and EULAR at Week 52||||0.0016
82370099|NCT01941940|164448602|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370100|NCT01941940|164448602|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370101|NCT01941940|164448602|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370102|NCT01941940|164448603|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370103|NCT01941940|164448603|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370104|NCT01941940|164448603|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370105|NCT01941940|164448604|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370106|NCT01941940|164448604|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370107|NCT01941940|164448604|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370108|NCT01941940|164448605|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370109|NCT01941940|164448605|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370110|NCT01941940|164448605|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370111|NCT01941940|164448607|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 2 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82396234|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85||||0.0891|TWO_SIDED|90.0|0.73|0.99|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||0.99|0.73|0.0891
82396235|NCT02913105|164503210|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.226|TWO_SIDED|90.0|0.77|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.04|0.77|0.2260
82396236|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.87||||0.0324|TWO_SIDED|90.0|0.78|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||0.97|0.78|0.0324
82529254|NCT03661996|164755061|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-4.02|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-4.25|-3.79|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.79|-4.25|<0.0001
82644431|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.649||||0.2347|TWO_SIDED|95.0|-0.211|1.509|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.509|-0.211|0.2347
82644432|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.915||||0.032|TWO_SIDED|95.0|0.052|1.778|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.778|0.052|0.0320
82644433|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.099||||1|TWO_SIDED|95.0|-0.849|1.047|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||1.047|-0.849|1.0000
82644434|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.141||||0.9999|TWO_SIDED|95.0|-0.82|1.103|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||1.103|-0.820|0.9999
82370112|NCT01941940|164448607|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370113|NCT01941940|164448607|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||<0.0001
82370114|NCT01941940|164448608|SUPERIORITY_OR_OTHER|||||||0.0045|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 24 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||0.0045
82370115|NCT01941940|164448608|SUPERIORITY_OR_OTHER|||||||0.1992|||||||Wilcoxon Rank Sum and Signed Rank Tests|||Analysis for change from baseline to Week 52 was performed using Wilcoxon Rank Sum and Signed Rank Tests for dependent sample.||||0.1992
82370116|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.11|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||0.09|-0.11|
82370117|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.27|||||TWO_SIDED|95.0|-0.38|-0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.17|-0.38|
82370118|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.27|||||TWO_SIDED|95.0|-0.37|-0.16|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.16|-0.37|
82370119|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.3|||||TWO_SIDED|95.0|0.13|0.46|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.46|0.13|
82396237|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85||||0.0291|TWO_SIDED|90.0|0.76|0.96|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||0.96|0.76|0.0291
82529255|NCT03661996|164755061|SUPERIORITY|A within-group analysis of change at Week 8 from baseline.|Least Squares Mean Change From Baseline|-3.72|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-3.96|-3.48|||Mixed Models Analysis|LS means, 95% CIs, and P values were obtained from a mixed model for repeated measures (MMRM)||Results are summarized by subject type and the injected knee. The NPRS was collected during the last study visit. Lower scores indicate improvement. Model terms included pooled site group, baseline K-L grade category, baseline BMI category, sex, study visit, and baseline pain score as covariates.||-3.48|-3.96|<0.0001
82370120|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.13|||||TWO_SIDED|95.0|-0.04|0.29|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.29|-0.04|
82370121|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.17|||||TWO_SIDED|95.0|-0.33|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||-0.01|-0.33|
82370122|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.16|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.04|-0.16|
82370123|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.16|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.04|-0.16|
82370124|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.10|-0.10|
82396238|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.5755|TWO_SIDED|90.0|0.84|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.09|0.84|0.5755
82529256|NCT03029247|164755075|SUPERIORITY||LS Mean Difference|-0.17||||0.9694|TWO_SIDED|95.0|-8.8|8.47||p-value for the difference between treatment groups were presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% confidence interval (CI) has been presented.|||8.47|-8.80|0.9694
82575871|NCT01266161|164861139|SUPERIORITY||Least squares means|0.27||||0.089||95.0|-0.04|0.59||p-Values from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||0.59|-0.04|0.089
82647946|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.0967|TWO_SIDED|95.0|-1.5|0.1||Overall population, Week 20. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.1|-1.5|0.0967
82370125|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.15|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.09|-0.15|
82370126|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.16|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.08|-0.16|
82444780|NCT04736628|164598464|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0292|||||||MCP-Mod Sigmoid Emax model fit|Model assumption: 30 % of the maximum effect is achieved at a dose of 3 mg. 90 % of the maximum effect is achieved at a dose of 6 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0292
82575872|NCT01266161|164861139|SUPERIORITY||Least squares means|1.0|||<|0.001||95.0|0.7|1.29||Ibuprofen versus placebo at 0.5 hours.|ANOVA|||Ibuprofen versus placebo at 16 hours.||1.29|0.70|<0.001
82396239|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.307|TWO_SIDED|90.0|0.8|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.05|0.80|0.3070
82396240|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7752|TWO_SIDED|90.0|0.86|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.12|0.86|0.7752
82396241|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.1803|TWO_SIDED|90.0|0.75|1.03|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||1.03|0.75|0.1803
82396242|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.2414|TWO_SIDED|90.0|0.76|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.05|0.76|0.2414
82396243|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.0179|TWO_SIDED|90.0|0.77|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 7||0.95|0.77|0.0179
82396244|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.1125|TWO_SIDED|90.0|0.8|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 14||1.00|0.80|0.1125
82396245|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9572|TWO_SIDED|90.0|0.88|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 28||1.12|0.88|0.9572
82396246|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7372|TWO_SIDED|90.0|0.87|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 42||1.10|0.87|0.7372
82575873|NCT01266161|164861139|SUPERIORITY||Least squares means|0.47||||0.004||95.0|0.15|0.78||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 20 hours.||0.78|0.15|0.004
82575874|NCT01266161|164861139|SUPERIORITY||Least squares means|0.04||||0.821||95.0|-0.28|0.35||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 24 hours.||0.35|-0.28|0.821
82644435|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||1|TWO_SIDED|95.0|-1.038|0.837|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.837|-1.038|1.0000
82644436|NCT03692078|165004013|EQUIVALENCE|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.18||||0.9995|TWO_SIDED|95.0|-1.139|0.779|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-OHFLe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.779|-1.139|0.9995
82644437|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|3.12|||<|0.0001|TWO_SIDED|95.0|2.964|3.276|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||3.276|2.964|<.0001
82644438|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|3.141|||<|0.0001|TWO_SIDED|95.0|2.953|3.328|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||3.328|2.953|<.0001
82644439|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.658|||<|0.0001|TWO_SIDED|95.0|2.511|2.806|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||2.806|2.511|<.0001
82644440|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.638|||<|0.0001|TWO_SIDED|95.0|2.458|2.817|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||2.817|2.458|<.0001
82644441|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|2.754|||<|0.0001|TWO_SIDED|95.0|2.604|2.903|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||2.903|2.604|<.0001
82644442|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|2.652|||<|0.0001|TWO_SIDED|95.0|2.471|2.832|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||2.832|2.471|<.0001
82644443|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.703|||<|0.0001|TWO_SIDED|95.0|1.517|1.889|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||1.889|1.517|<.0001
82370127|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.13|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.11|-0.13|
82370128|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.13|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.07|-0.13|
82370129|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.13|||||TWO_SIDED|95.0|-0.23|-0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.03|-0.23|
82370130|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.1|||||TWO_SIDED|95.0|-0.2|0.0|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.00|-0.20|
82370131|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.11|||||TWO_SIDED|95.0|-0.22|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.01|-0.22|
82370132|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.34|||||TWO_SIDED|95.0|-0.44|-0.23|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.23|-0.44|
82370133|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.22|||||TWO_SIDED|95.0|-0.33|-0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.11|-0.33|
82370134|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.16|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.11|-0.16|
82396247|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.6015|TWO_SIDED|90.0|0.92|1.17|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 56||1.17|0.92|0.6015
82370135|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.18|||||TWO_SIDED|95.0|0.04|0.31|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.31|0.04|
82396248|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.03||||0.7261|TWO_SIDED|90.0|0.89|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 84||1.19|0.89|0.7261
82396249|NCT02913105|164503210|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9892|TWO_SIDED|90.0|0.87|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||Triglycerides: Day 112 (EOS)||1.15|0.87|0.9892
82370136|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.2|||||TWO_SIDED|95.0|0.07|0.34|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.34|0.07|
82370137|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.11|||||TWO_SIDED|95.0|-0.23|0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.01|-0.23|
82370138|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.16|||||TWO_SIDED|95.0|-0.28|-0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||-0.04|-0.28|
82370139|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.17|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.06|-0.17|
82370140|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.19|0.02|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.02|-0.19|
82644444|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.637|||<|0.0001|TWO_SIDED|95.0|1.41|1.865|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||1.865|1.410|<.0001
82644445|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.656|||<|0.0001|TWO_SIDED|95.0|1.472|1.839|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||1.839|1.472|<.0001
82644446|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.485|||<|0.0001|TWO_SIDED|95.0|1.259|1.711|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||1.711|1.259|<.0001
82647947|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.0512|TWO_SIDED|95.0|-3.0|0.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-3.0|0.0512
82370141|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.18|||||TWO_SIDED|95.0|-0.28|-0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||-0.07|-0.28|
82370142|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.19|0.02|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.02|-0.19|
82370143|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.25|||||TWO_SIDED|95.0|0.13|0.37|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.37|0.13|
82370144|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.0|||||TWO_SIDED|95.0|-0.12|0.12|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.12|-0.12|
82370145|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.25|||||TWO_SIDED|95.0|-0.37|-0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||-0.13|-0.37|
82370146|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.14|||||TWO_SIDED|95.0|0.02|0.25|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.25|0.02|
82370147|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.12|||||TWO_SIDED|95.0|0.01|0.24|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.24|0.01|
82370148|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.01|||||TWO_SIDED|95.0|-0.13|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.11|-0.13|
82370149|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.01|||||TWO_SIDED|95.0|-0.09|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.10|-0.09|
82370150|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.14|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.04|-0.14|
82370151|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.15|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.04|-0.15|
82396250|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0005|TWO_SIDED|90.0|0.87|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.95|0.87|0.0005
82647948|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.033|TWO_SIDED|95.0|-4.6|-0.2||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||-0.2|-4.6|0.0330
82370152|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.08|||||TWO_SIDED|95.0|-0.19|0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.03|-0.19|
82370153|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.12|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.09|-0.12|
82370154|NCT00444457|164448631|NON_INFERIORITY_OR_EQUIVALENCE|The 3 lots were considered equivalent if the maximum difference between any 2 lots is less than 0.693 and greater than -0.693 using the equivalence testing procedure for 3 vaccine groups given by Wiens and Iglewicz, for all 13 serotypes.|Difference in log-transformed GM|0.06|||||TWO_SIDED|95.0|-0.05|0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.17|-0.05|
82396251|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.89||||0.0005|TWO_SIDED|90.0|0.84|0.94|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||0.94|0.84|0.0005
82396252|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0062|TWO_SIDED|90.0|0.86|0.96|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.96|0.86|0.0062
82396253|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1214|TWO_SIDED|90.0|0.89|1.0|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||1.00|0.89|0.1214
82396254|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.9||||0.0043|TWO_SIDED|90.0|0.84|0.95|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.95|0.84|0.0043
82396255|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.2615|TWO_SIDED|90.0|0.89|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||1.02|0.89|0.2615
82396256|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.1331|TWO_SIDED|90.0|0.88|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.01|0.88|0.1331
82396257|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.85|||<|0.0001|TWO_SIDED|90.0|0.81|0.89|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.89|0.81|<.0001
82396258|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.0001|TWO_SIDED|90.0|0.83|0.93|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||0.93|0.83|0.0001
82644447|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.713|||<|0.0001|TWO_SIDED|95.0|1.532|1.895|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||1.895|1.532|<.0001
82644448|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.617|||<|0.0001|TWO_SIDED|95.0|1.397|1.837|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||1.837|1.397|<.0001
82644449|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.462||||0.0003|TWO_SIDED|95.0|-0.766|-0.158|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.158|-0.766|0.0003
82396259|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.83|||<|0.0001|TWO_SIDED|90.0|0.79|0.88|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.88|0.79|<.0001
82529257|NCT03029247|164755076|SUPERIORITY||LS Mean Difference|-1.32||||0.7745|TWO_SIDED|95.0|-10.46|7.83||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of SBP and its corresponding 95% CI has been presented.|||7.83|-10.46|0.7745
82370155|NCT00444457|164448632|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|-0.1|||||TWO_SIDED|95.0|-3.3|3.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Tetanus toxoid: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||3.0|-3.3|
82370156|NCT00444457|164448633|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 1: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.0|-2.1|
82370157|NCT00444457|164448633|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|-0.6|||||TWO_SIDED|95.0|-3.4|2.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 2: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.0|-3.4|
82370158|NCT00444457|164448633|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.5|||||TWO_SIDED|95.0|-1.5|3.0|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Poliovirus type 3: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||3.0|-1.5|
82370159|NCT00444457|164448634|NON_INFERIORITY_OR_EQUIVALENCE|For each of the 5 concomitant antigens (tetanus toxoid, poliovirus Type 1, 2, and 3, and hepatitis b antibodies), non-inferiority was shown if the lower limit of the 2-sided 95% CI, computed using the Chan and Zhang procedure for the difference in proportions, is greater than -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.4|2.2|||||Exact 2-sided CI for difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.|Hepatitis B: Difference in proportions (combined 13vPnC, 7vPnC) expressed as a percentage.||2.2|-2.4|
82370160|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.0|||||TWO_SIDED|95.0|-0.51|4.75||||||Common serotypes - serotype 4||4.75|-0.51|
82396260|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.86||||0.0002|TWO_SIDED|90.0|0.81|0.92|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||0.92|0.81|0.0002
82370161|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.9|||||TWO_SIDED|95.0|-3.09|1.1||||||Common serotypes - serotype 4||1.10|-3.09|
82370162|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.9|||||TWO_SIDED|95.0|-5.58|-0.58||||||Common serotypes - serotype 4||-0.58|-5.58|
82370163|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|5.3|||||TWO_SIDED|95.0|1.55|9.19||||||Common serotypes - serotype 6B||9.19|1.55|
82370164|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.4|||||TWO_SIDED|95.0|-2.77|3.66||||||Common serotypes - serotype 6B||3.66|-2.77|
82370165|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-4.9|||||TWO_SIDED|95.0|-8.82|-1.1||||||Common serotypes - serotype 6B||-1.10|-8.82|
82370166|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-3.13|2.83||||||Common serotypes - serotype 9V||2.83|-3.13|
82370167|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.1|||||TWO_SIDED|95.0|-3.97|1.73||||||Common serotypes - serotype 9V||1.73|-3.97|
82370168|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.9|||||TWO_SIDED|95.0|-3.81|1.88||||||Common serotypes - serotype 9V||1.88|-3.81|
82370169|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.27|1.95||||||Common serotypes - serotype 14||1.95|-1.27|
82370170|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|1.1|||||TWO_SIDED|95.0|-0.6|3.01||||||Common serotypes - serotype 14||3.01|-0.60|
82529258|NCT03029247|164755076|SUPERIORITY||LS Mean Difference|-1.95||||0.291|TWO_SIDED|95.0|-5.62|1.71||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of DBP and its corresponding 95% CI has been presented.|||1.71|-5.62|0.2910
82644450|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.503||||0.0018|TWO_SIDED|95.0|-0.867|-0.139|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.139|-0.867|0.0018
82644451|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.366||||0.0089|TWO_SIDED|95.0|-0.67|-0.062|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.062|-0.670|0.0089
82644452|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.489||||0.0025|TWO_SIDED|95.0|-0.851|-0.126|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.126|-0.851|0.0025
82644453|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.417|||<|0.0001|TWO_SIDED|95.0|-1.762|-1.072|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.072|-1.762|<.0001
82647949|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.0547|TWO_SIDED|95.0|-3.7|0.0||Female population, Week 56. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.0|-3.7|0.0547
82529259|NCT03029247|164755076|SUPERIORITY||LS Mean Difference|-2.4||||0.4611|TWO_SIDED|95.0|-8.88|4.07||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of MAP and its corresponding 95% CI has been presented.|||4.07|-8.88|0.4611
82370171|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-1.04|2.76||||||Common serotypes - serotype 14||2.76|-1.04|
82370172|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.1|||||TWO_SIDED|95.0|-0.38|4.74||||||Common serotypes - serotype 18C||4.74|-0.38|
82370173|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-2.33|1.99||||||Common serotypes - serotype 18C||1.99|-2.33|
82529260|NCT03029247|164755077|SUPERIORITY||LS Mean Difference|-2.95||||0.1648|TWO_SIDED|95.0|-7.14|1.24||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% CI has been presented.|||1.24|-7.14|0.1648
82529261|NCT03029247|164755078|SUPERIORITY||LS Mean Difference|-13.42||||0.9142|TWO_SIDED|95.0|-261.75|234.92||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of SBP and its corresponding 95% CI has been presented.|||234.92|-261.75|0.9142
82370174|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.2|||||TWO_SIDED|95.0|-4.89|0.23||||||Common serotypes - serotype 18C||0.23|-4.89|
82370175|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.93|2.6||||||Common serotypes - serotype 19F||2.60|-1.93|
82529262|NCT03029247|164755078|SUPERIORITY||LS Mean Difference|-71.7||||0.2266|TWO_SIDED|95.0|-189.21|45.8||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of DBP and its corresponding 95% CI has been presented.|||45.80|-189.21|0.2266
82370176|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.5|||||TWO_SIDED|95.0|-3.46|0.28||||||Common serotypes - serotype 19F||0.28|-3.46|
82370177|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.8|||||TWO_SIDED|95.0|-3.87|0.02||||||Common serotypes - serotype 19F||0.02|-3.87|
82370178|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|3.2|||||TWO_SIDED|95.0|-1.03|7.46||||||Common serotypes - serotype 23F||7.46|-1.03|
82396261|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.82|||<|0.0001|TWO_SIDED|90.0|0.77|0.88|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.88|0.77|<.0001
82396262|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.84||||0.0002|TWO_SIDED|90.0|0.78|0.9|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||0.90|0.78|0.0002
82396263|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.228|TWO_SIDED|90.0|0.89|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.02|0.89|0.2280
82396264|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.009|TWO_SIDED|90.0|0.89|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 7||0.97|0.89|0.0090
82396265|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.6237|TWO_SIDED|90.0|0.93|1.04|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 14||1.04|0.93|0.6237
82370179|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|4.0|||||TWO_SIDED|95.0|-0.27|8.39||||||Common serotypes - serotype 23F||8.39|-0.27|
82396266|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.008|TWO_SIDED|90.0|0.87|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 28||0.97|0.87|0.0080
82396267|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0105|TWO_SIDED|90.0|0.86|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 42||0.97|0.86|0.0105
82529263|NCT03029247|164755078|SUPERIORITY||LS Mean Difference|-54.24||||0.5246|TWO_SIDED|95.0|-223.99|115.51||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of MAP and its corresponding 95% CI has been presented.|||115.51|-223.99|0.5246
82529264|NCT03029247|164755079|SUPERIORITY||LS Mean Difference|-74.4||||0.1563|TWO_SIDED|95.0|-178.15|29.34||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of HR and its corresponding 95% CI has been presented.|||29.34|-178.15|0.1563
82575875|NCT01266161|164861139|SUPERIORITY||Least squares means|0.56||||0.001||95.0|0.23|0.9||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 28 hours.||0.90|0.23|0.001
82370180|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-3.75|5.46||||||Common serotypes - serotype 23F||5.46|-3.75|
82370181|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-1.48|3.18||||||Additional serotypes - serotype 1||3.18|-1.48|
82575876|NCT01266161|164861139|SUPERIORITY||Least squares means|0.62|||<|0.001||95.0|0.3|0.94||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 32 hours.||0.94|0.30|<0.001
82575877|NCT01266161|164861139|SUPERIORITY||Least squares means|0.25||||0.127||95.0|-0.07|0.57||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 36 hours.||0.57|-0.07|0.127
82575878|NCT01266161|164861139|SUPERIORITY||Least squares means|0.67|||<|0.001||95.0|0.35|1.0||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 40 hours.||1.00|0.35|<0.001
82444781|NCT04736628|164598464|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||||||0.0468|||||||MCP-Mod Exponential model fit|Model assumption: 20% of the maximum effect is achieved at 3 mg.||"A flat vs. non-flat dose-response relationship across the 3 doses of avenciguat and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (Emax, exponential, linear, quadratic, sigmoid emax) while protecting the overall probability of type I error (one-sided alpha of 0.050).~The total daily dose was considered for MCP-Mod analysis (placebo, active avenciguat 3 mg, 6 mg, and 9 mg)."||||0.0468
82444782|NCT04736628|164598465|OTHER||Mean Difference (Net)|-0.217||||0.0327|TWO_SIDED|95.0|-0.416|-0.018|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 1 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.018|-0.416|0.0327
82575879|NCT01266161|164861139|SUPERIORITY||Least squares means|0.34||||0.036||95.0|0.02|0.67||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 44 hours.||0.67|0.02|0.036
82575880|NCT01266161|164861139|SUPERIORITY||Least squares means|0.26||||0.091||95.0|-0.04|0.56||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 48 hours.||0.56|-0.04|0.091
82575881|NCT01266161|164861140|SUPERIORITY||Least squares means|1.22|||<|0.001||95.0|0.69|1.74||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0.5 hours.||1.74|0.69|<0.001
82575882|NCT01266161|164861140|SUPERIORITY||Least squares means|2.43|||<|0.001||95.0|1.77|3.09||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1 hour.||3.09|1.77|<0.001
82575883|NCT01266161|164861140|SUPERIORITY||Least squares means|3.22|||<|0.001||95.0|2.49|3.95||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 1.5 hours.||3.95|2.49|<0.001
82370182|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.78|1.34||||||Additional serotypes - serotype 1||1.34|-2.78|
82370183|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.5|||||TWO_SIDED|95.0|-3.77|0.67||||||Additional serotypes - serotype 1||0.67|-3.77|
82647950|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1||||0.0613|TWO_SIDED|95.0|-6.3|0.2||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.2|-6.3|0.0613
82370184|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-3.9|||||TWO_SIDED|95.0|-10.27|2.45||||||Additional serotypes - serotype 3||2.45|-10.27|
82370185|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-10.7|||||TWO_SIDED|95.0|-16.8|-4.57||||||Additional serotypes - serotype 3||-4.57|-16.80|
82370186|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-6.8|||||TWO_SIDED|95.0|-12.76|-0.74||||||Additional serotypes - serotype 3||-0.74|-12.76|
82575884|NCT01266161|164861140|SUPERIORITY||Least squares means|3.7|||<|0.001||95.0|2.98|4.42||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 2 hours.||4.42|2.98|<0.001
82575885|NCT01266161|164861140|SUPERIORITY||Least squares means|3.5|||<|0.001||95.0|2.67|4.33||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 4 hours.||4.33|2.67|<0.001
82575886|NCT01266161|164861140|SUPERIORITY||Least squares means|1.53|||<|0.001||95.0|0.79|2.27||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 6 hours.||2.27|0.79|<0.001
82575887|NCT01266161|164861140|SUPERIORITY||Least squares means|1.67|||<|0.001||95.0|0.87|2.48||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 8 hours.||2.48|0.87|<0.001
82575888|NCT01266161|164861140|SUPERIORITY||Least squares means|1.76|||<|0.001||95.0|0.97|2.54||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 10 hours.||2.54|0.97|<0.001
82575889|NCT01266161|164861140|SUPERIORITY||Least squares means|0.78||||0.056||95.0|-0.02|1.58||p-Values from ANOVA model with treatment, baseline PSR, and gender terms.|ANOVA|||Ibuprofen versus placebo at 12 hours.||1.58|-0.02|0.056
82575890|NCT01266161|164861141|SUPERIORITY||Least squares means|14.82|||<|0.001|TWO_SIDED|95.0|10.38|19.25||p-Value from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo at 0 to 12 hours.||19.25|10.38|<0.001
82370187|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|3.9|||||TWO_SIDED|95.0|0.15|7.69||||||Additional serotypes - serotype 5||7.69|0.15|
82644454|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.504|||<|0.0001|TWO_SIDED|95.0|-1.916|-1.091|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.091|-1.916|<.0001
82644455|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.464|||<|0.0001|TWO_SIDED|95.0|-1.804|-1.125|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.125|-1.804|<.0001
82647951|NCT00386100|165011343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.5||||0.1369|TWO_SIDED|95.0|-3.9|1.7||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.7|-3.9|0.1369
82370188|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-3.52|3.09||||||Additional serotypes - serotype 5||3.09|-3.52|
82370189|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-4.1|||||TWO_SIDED|95.0|-7.92|-0.36||||||Additional serotypes - serotype 5||-0.36|-7.92|
82370190|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|2.5|||||TWO_SIDED|95.0|0.12|5.23||||||Additional serotypes - serotype 6A||5.23|0.12|
82396268|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.0217|TWO_SIDED|90.0|0.86|0.98|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 56||0.98|0.86|0.0217
82396269|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.88||||0.0031|TWO_SIDED|90.0|0.82|0.94|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 84||0.94|0.82|0.0031
82370191|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.2|||||TWO_SIDED|95.0|-2.22|1.86||||||Additional serotypes - serotype 6A||1.86|-2.22|
82370192|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-2.7|||||TWO_SIDED|95.0|-5.39|-0.27||||||Additional serotypes - serotype 6A||-0.27|-5.39|
82370193|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.8|||||TWO_SIDED|95.0|-0.47|2.3||||||Additional serotypes - serotype 7F||2.30|-0.47|
82370194|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-1.12|1.18||||||Additional serotypes - serotype 7F||1.18|-1.12|
82370195|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.3|0.52||||||Additional serotypes - serotype 7F||0.52|-2.30|
82370196|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.0|||||TWO_SIDED|95.0|-2.91|0.8||||||Additional serotypes - serotype 19A||0.80|-2.91|
82370197|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-0.7|||||TWO_SIDED|95.0|-2.69|1.19||||||Additional serotypes - serotype 19A||1.19|-2.69|
82370198|NCT00444457|164448635|NON_INFERIORITY_OR_EQUIVALENCE|Exact, unconditional 2-sided 95% CI on the pairwise difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.3|||||TWO_SIDED|95.0|-1.4|2.04||||||Additional serotypes - serotype 19A||2.04|-1.40|
82370199|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.1|||||TWO_SIDED|95.0|-1.61|1.81|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||1.81|-1.61|
82370200|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.8|||||TWO_SIDED|95.0|-2.39|0.23|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||0.23|-2.39|
82396270|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.01||||0.774|TWO_SIDED|90.0|0.95|1.07|||ANCOVA|An unstructured variance-covariance structure was used.||HDL Cholesterol: Day 112 (EOS)||1.07|0.95|0.7740
82396271|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.95||||0.1783|TWO_SIDED|90.0|0.89|1.01|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.01|0.89|0.1783
82396272|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.91||||0.0219|TWO_SIDED|90.0|0.84|0.97|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||0.97|0.84|0.0219
82396273|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.92||||0.0719|TWO_SIDED|90.0|0.85|0.99|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||0.99|0.85|0.0719
82396274|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.93||||0.2199|TWO_SIDED|90.0|0.85|1.02|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.02|0.85|0.2199
82444783|NCT04736628|164598465|OTHER||Mean Difference (Net)|-0.206||||0.0447|TWO_SIDED|95.0|-0.408|-0.005|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 2 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||-0.005|-0.408|0.0447
82529265|NCT03029247|164755080|SUPERIORITY||LS Mean Difference|-2.06||||0.3247|TWO_SIDED|95.0|-6.23|2.1||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of DBP and its corresponding 95% CI has been presented.|||2.10|-6.23|0.3247
82370201|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-2.54|0.2|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||0.20|-2.54|
82370202|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.02|1.11|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.11|-1.02|
82370203|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.03|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.04|-1.03|
82370204|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.13|1.06|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.06|-1.13|
82370205|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.25|1.37|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||1.37|-1.25|
82370206|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.76|2.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||2.18|-0.76|
82370207|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-0.87|2.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||2.18|-0.87|
82370208|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.74|1.62|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.62|-0.74|
82370209|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.03|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.04|-1.03|
82370210|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.61|0.76|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||0.76|-1.61|
82370211|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.4|||||TWO_SIDED|95.0|-1.52|2.39|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||2.39|-1.52|
82370212|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.3|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||1.04|-2.30|
82396275|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.96||||0.4928|TWO_SIDED|90.0|0.87|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.06|0.87|0.4928
82575891|NCT01266161|164861141|SUPERIORITY||Least squares means|5.27|||<|0.001|TWO_SIDED|95.0|2.57|7.98||p-Value from ANOVA model with treatment, baseline pain severity, and gender terms.|ANOVA|||Ibuprofen versus placebo from 8 to 12 hours.||7.98|2.57|<0.001
82647952|NCT00386100|165011344|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.126|TWO_SIDED|95.0|-1.7|0.2||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.2|-1.7|0.1260
82370213|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-2.87|0.74|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.74|-2.87|
82370214|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.55|1.5|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||1.50|-2.55|
82370215|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-1.1|||||TWO_SIDED|95.0|-3.06|0.57|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||0.57|-3.06|
82370216|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.6|||||TWO_SIDED|95.0|-2.44|1.0|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||1.00|-2.44|
82370217|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.21|2.05|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||2.05|-1.21|
82370218|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.1|||||TWO_SIDED|95.0|-0.52|3.16|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||3.16|-0.52|
82370219|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-1.05|2.87|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||2.87|-1.05|
82370220|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.9|||||TWO_SIDED|95.0|-0.17|2.53|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||2.53|-0.17|
82370221|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-0.2|2.44|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||2.44|-0.20|
82370222|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.79|1.66|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||1.66|-1.79|
82370223|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|2.8|||||TWO_SIDED|95.0|-2.85|8.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||8.55|-2.85|
82644456|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.656|||<|0.0001|TWO_SIDED|95.0|-2.065|-1.247|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.247|-2.065|<.0001
82644457|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.945|||<|0.0001|TWO_SIDED|95.0|0.617|1.273|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.273|0.617|<.0001
82644458|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.021|||<|0.0001|TWO_SIDED|95.0|0.628|1.413|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.413|0.628|<.0001
82644459|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|1.041|||<|0.0001|TWO_SIDED|95.0|0.712|1.369|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.369|0.712|<.0001
82644460|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.035|||<|0.0001|TWO_SIDED|95.0|0.644|1.426|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.426|0.644|<.0001
82644461|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.01||||1|TWO_SIDED|95.0|-0.376|0.355|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.355|-0.376|1.0000
82644462|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.02||||1|TWO_SIDED|95.0|-0.417|0.457|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.457|-0.417|1.0000
82644463|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.058||||0.9999|TWO_SIDED|95.0|-0.418|0.303|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.303|-0.418|0.9999
82370224|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.9|||||TWO_SIDED|95.0|-9.99|0.21|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||0.21|-9.99|
82370225|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-7.7|||||TWO_SIDED|95.0|-13.14|-2.37|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||-2.37|-13.14|
82644464|NCT03692078|165004015|EQUIVALENCE|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.132||||0.9669|TWO_SIDED|95.0|-0.566|0.301|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 2-Naphthol amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.301|-0.566|0.9669
82644465|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.442|||<|0.0001|TWO_SIDED|95.0|-1.604|-1.279|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||-1.279|-1.604|<.0001
82644466|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.413|||<|0.0001|TWO_SIDED|95.0|-1.576|-1.251|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||-1.251|-1.576|<.0001
82644467|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.754|||<|0.0001|TWO_SIDED|95.0|-1.907|-1.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||-1.600|-1.907|<.0001
82644468|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.816|||<|0.0001|TWO_SIDED|95.0|-1.972|-1.659|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||-1.659|-1.972|<.0001
82644469|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.654|||<|0.0001|TWO_SIDED|95.0|-1.81|-1.498|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||-1.498|-1.810|<.0001
82644470|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.829|||<|0.0001|TWO_SIDED|95.0|-1.986|-1.673|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||-1.673|-1.986|<.0001
82644471|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.184|||<|0.0001|TWO_SIDED|95.0|-2.379|-1.989|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.989|-2.379|<.0001
82396276|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.94||||0.3419|TWO_SIDED|90.0|0.85|1.05|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.05|0.85|0.3419
82529266|NCT03029247|164755080|SUPERIORITY||LS Mean Difference|-2.51||||0.4235|TWO_SIDED|95.0|-8.76|3.74||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) of MAP and its corresponding 95% CI has been presented.|||3.74|-8.76|0.4235
82370226|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.0|1.84|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.84|-1.00|
82370227|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.27|1.3|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.30|-1.27|
82370228|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.84|1.02|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.02|-1.84|
82396277|NCT02913105|164503211|OTHER|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.98||||0.7281|TWO_SIDED|90.0|0.88|1.09|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.09|0.88|0.7281
82396278|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.318|TWO_SIDED|90.0|0.97|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.12|0.97|0.3180
82396279|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.6576|TWO_SIDED|90.0|0.95|1.1|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||1.10|0.95|0.6576
82396280|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|0.97||||0.6035|TWO_SIDED|90.0|0.9|1.06|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||1.06|0.90|0.6035
82396281|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.3261|TWO_SIDED|90.0|0.96|1.17|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.17|0.96|0.3261
82647953|NCT00386100|165011344|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.7||||0.3117|TWO_SIDED|95.0|-2.2|0.7||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.7|-2.2|0.3117
82444784|NCT04736628|164598465|OTHER||Mean Difference (Net)|-0.187||||0.0654|TWO_SIDED|95.0|-0.387|0.012|||Mixed-effect Model repeat Measurement||"Least Squares Mean of Avenciguat 3 mg TID - Least Squares Mean of Placebo."|Least Squares Mean differences and 95% confidence intervals were estimated by restricted maximum likelihood (REML)-based mixed-effect model for repeated measures (MMRM) including the fixed, categorical effects of treatment at each visit (baseline, Week 6, Week 12 and Week 20), and the continuous effect of baseline at each visit (Week 6, Week 12, and Week 20) as well as random effects of patient.||0.012|-0.387|0.0654
82444785|NCT04736628|164598466|OTHER||Odds Ratio (OR)|2.2||||0.0476|TWO_SIDED|95.0|1.01|4.79||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 1 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.79|1.01|0.0476
82370229|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.04|1.08|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.08|-1.04|
82370230|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.76|1.56|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.56|-0.76|
82370231|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.83|1.56|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.56|-0.83|
82370232|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.47|2.09|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||2.09|-0.47|
82370233|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.48|2.0|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||2.00|-0.48|
82370234|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.59|1.49|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||1.49|-1.59|
82370235|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.04|1.09|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.09|-1.04|
82370236|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.05|1.04|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.04|-1.05|
82370237|NCT00444457|164448636|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.09|1.07|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.07|-1.09|
82370238|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-1.4|||||TWO_SIDED|95.0|-6.52|3.63|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||3.63|-6.52|
82370239|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-6.7|||||TWO_SIDED|95.0|-11.3|-2.15|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||-2.15|-11.30|
82396282|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.04||||0.5246|TWO_SIDED|90.0|0.94|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.15|0.94|0.5246
82396283|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.7519|TWO_SIDED|90.0|0.92|1.14|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.14|0.92|0.7519
82575892|NCT01266161|164861142|SUPERIORITY||CMH-adjusted proportion|-0.73|||<|0.001|TWO_SIDED|95.0|-0.91|-0.55||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the first dosing interval.||-0.55|-0.91|<0.001
82370240|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-5.2|||||TWO_SIDED|95.0|-9.85|-0.79|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 4||-0.79|-9.85|
82370241|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.19|2.07|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||2.07|-1.19|
82370242|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.69|1.06|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||1.06|-1.69|
82370243|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.6|||||TWO_SIDED|95.0|-2.27|0.75|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 6B||0.75|-2.27|
82370244|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.8|||||TWO_SIDED|95.0|-9.46|1.82|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||1.82|-9.46|
82370245|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.7|||||TWO_SIDED|95.0|-10.24|0.76|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||0.76|-10.24|
82370246|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-6.3|4.41|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 9V||4.41|-6.30|
82370247|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.2|||||TWO_SIDED|95.0|-2.14|1.73|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||1.73|-2.14|
82370248|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-1.69|2.39|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||2.39|-1.69|
82370249|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-1.46|2.59|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 14||2.59|-1.46|
82370250|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-5.5|||||TWO_SIDED|95.0|-11.17|0.2|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.20|-11.17|
82396284|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.0||||0.9577|TWO_SIDED|90.0|0.89|1.12|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.12|0.89|0.9577
82644472|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.27|||<|0.0001|TWO_SIDED|95.0|-2.468|-2.071|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-2.071|-2.468|<.0001
82644473|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.413|||<|0.0001|TWO_SIDED|95.0|-2.607|-2.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-2.219|-2.607|<.0001
82644474|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.349|||<|0.0001|TWO_SIDED|95.0|-2.549|-2.149|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-2.149|-2.549|<.0001
82644475|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-2.227|||<|0.0001|TWO_SIDED|95.0|-2.416|-2.038|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-2.038|-2.416|<.0001
82644476|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-2.154|||<|0.0001|TWO_SIDED|95.0|-2.345|-1.962|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-1.962|-2.345|<.0001
82370251|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-10.0|||||TWO_SIDED|95.0|-15.31|-4.7|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||-4.70|-15.31|
82370252|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.5|||||TWO_SIDED|95.0|-9.55|0.46|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 18C||0.46|-9.55|
82370253|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.8|||||TWO_SIDED|95.0|-4.23|2.52|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||2.52|-4.23|
82370254|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.3|||||TWO_SIDED|95.0|-6.35|-0.4|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||-0.40|-6.35|
82370255|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.4|||||TWO_SIDED|95.0|-5.44|0.33|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 19F||0.33|-5.44|
82370256|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-3.67|4.8|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||4.80|-3.67|
82370257|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.9|||||TWO_SIDED|95.0|-2.38|6.28|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||6.28|-2.38|
82370258|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.4|||||TWO_SIDED|95.0|-3.06|5.82|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Common serotypes - serotype 23F||5.82|-3.06|
82370259|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.8|||||TWO_SIDED|95.0|-3.34|5.08|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||5.08|-3.34|
82370260|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.6|||||TWO_SIDED|95.0|-6.39|1.18|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||1.18|-6.39|
82370261|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-3.4|||||TWO_SIDED|95.0|-7.45|0.46|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 1||0.46|-7.45|
82370262|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.6|||||TWO_SIDED|95.0|-5.2|8.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||8.55|-5.20|
82370263|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-4.8|||||TWO_SIDED|95.0|-11.79|2.16|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||2.16|-11.79|
82370264|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-6.5|||||TWO_SIDED|95.0|-13.51|0.54|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 3||0.54|-13.51|
82370265|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|3.1|||||TWO_SIDED|95.0|-0.84|7.13|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||7.13|-0.84|
82370266|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.5|||||TWO_SIDED|95.0|-3.14|4.11|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||4.11|-3.14|
82370267|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.6|||||TWO_SIDED|95.0|-6.72|1.4|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 5||1.40|-6.72|
82370268|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.9|||||TWO_SIDED|95.0|-0.87|3.02|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||3.02|-0.87|
82370269|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.0|||||TWO_SIDED|95.0|-1.62|1.71|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||1.71|-1.62|
82370270|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.9|||||TWO_SIDED|95.0|-3.0|0.92|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 6A||0.92|-3.00|
82370271|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|1.9|||||TWO_SIDED|95.0|-0.62|4.67|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||4.67|-0.62|
82370272|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.5|||||TWO_SIDED|95.0|-2.67|1.55|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||1.55|-2.67|
82370273|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-2.4|||||TWO_SIDED|95.0|-5.11|-0.01|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 7F||-0.01|-5.11|
82370274|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.6|||||TWO_SIDED|95.0|-0.45|2.1|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||2.10|-0.45|
82370275|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|0.3|||||TWO_SIDED|95.0|-0.75|1.58|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.58|-0.75|
82370276|NCT00444457|164448638|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence test of Wiens and Iglewicz used to evaluate consistency among the three 13vPnC lots.|Difference|-0.3|||||TWO_SIDED|95.0|-1.86|1.05|||||Exact unconditional 2-sided 95% CI on the pairwise difference in proportions; expressed as a percentage.|Additional serotypes - serotype 19A||1.05|-1.86|
82370277|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.1|0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||0.13|-0.10|
82370278|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.29|||||TWO_SIDED|95.0|-0.41|-0.17|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.17|-0.41|
82370279|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.31|||||TWO_SIDED|95.0|-0.43|-0.19|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 4||-0.19|-0.43|
82370280|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.18|||||TWO_SIDED|95.0|0.06|0.3|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.30|0.06|
82370281|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.12|||||TWO_SIDED|95.0|0.0|0.23|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.23|-0.00|
82370282|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.18|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 6B||0.06|-0.18|
82370283|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.13|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.09|-0.13|
82396285|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.1||||0.016|TWO_SIDED|90.0|1.03|1.18|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 7||1.18|1.03|0.0160
82396286|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.13||||0.0052|TWO_SIDED|90.0|1.05|1.21|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 14||1.21|1.05|0.0052
82396287|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.06||||0.1822|TWO_SIDED|90.0|0.99|1.15|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 28||1.15|0.99|0.1822
82426419|NCT00859833|164561824|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for equivalence: SD for adenosine = 0.59, SD for regadenoson = 0.92, true difference between groups = 0.19. With n=28, DOF = 46. Power for equivalence (with alpha = 0.05) = 0.98585.|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.7||0.3617|TWO_SIDED|95.0|-0.6041|0.2241|||t-test, 2 sided|||Null hypothesis is that myocardial perfusion reserve (MPR) is not different when measured with adenosine or regadenoson in patients across a broad range of body sizes.||0.2241|-0.6041|0.3617
82370284|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.15|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.07|-0.15|
82370285|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.13|0.09|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 9V||0.09|-0.13|
82370286|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.19|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.06|-0.19|
82370287|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.04|||||TWO_SIDED|95.0|-0.17|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.08|-0.17|
82370288|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.11|0.15|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 14||0.15|-0.11|
82370289|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.12|||||TWO_SIDED|95.0|-0.25|0.0|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.00|-0.25|
82370290|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.24|||||TWO_SIDED|95.0|-0.37|-0.12|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||-0.12|-0.37|
82370291|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.12|||||TWO_SIDED|95.0|-0.25|0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 18C||0.01|-0.25|
82370292|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.18|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||0.11|-0.18|
82370293|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.37|||||TWO_SIDED|95.0|-0.51|-0.22|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.22|-0.51|
82370294|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.33|||||TWO_SIDED|95.0|-0.47|-0.2|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 19F||-0.20|-0.47|
82370295|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.17|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.11|-0.17|
82370296|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.08|||||TWO_SIDED|95.0|-0.07|0.22|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.22|-0.07|
82370297|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.11|||||TWO_SIDED|95.0|-0.03|0.25|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Common serotypes - serotype 23F||0.25|-0.03|
82370298|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.07|||||TWO_SIDED|95.0|-0.2|0.06|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.06|-0.20|
82396288|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.14||||0.0159|TWO_SIDED|90.0|1.04|1.24|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 42||1.24|1.04|0.0159
82396289|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.1524|TWO_SIDED|90.0|0.99|1.19|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 56||1.19|0.99|0.1524
82426420|NCT01816295|164561825|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82529267|NCT03029247|164755081|SUPERIORITY||LS Mean Difference|-0.13||||0.9353|TWO_SIDED|95.0|-3.41|3.14||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) and its corresponding 95% CI has been presented.|||3.14|-3.41|0.9353
82529268|NCT03029247|164755082|SUPERIORITY||LS Mean Difference|-144.97||||0.2573|TWO_SIDED|95.0|-399.71|109.76||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of SBP and its corresponding 95% CI has been presented.|||109.76|-399.71|0.2573
82370299|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.09|||||TWO_SIDED|95.0|-0.21|0.03|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.03|-0.21|
82370300|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.15|0.11|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 1||0.11|-0.15|
82370301|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.06|||||TWO_SIDED|95.0|-0.06|0.18|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.18|-0.06|
82370302|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.07|||||TWO_SIDED|95.0|-0.18|0.04|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||0.04|-0.18|
82370303|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.13|||||TWO_SIDED|95.0|-0.25|-0.01|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 3||-0.01|-0.25|
82370304|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.17|||||TWO_SIDED|95.0|0.05|0.28|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.28|0.05|
82370305|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.1|||||TWO_SIDED|95.0|0.0|0.21|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.21|-0.00|
82370306|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.06|||||TWO_SIDED|95.0|-0.17|0.05|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 5||0.05|-0.17|
82370307|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.08|||||TWO_SIDED|95.0|-0.04|0.19|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.19|-0.04|
82370308|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.1|||||TWO_SIDED|95.0|-0.02|0.21|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.21|-0.02|
82396290|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.08||||0.1749|TWO_SIDED|90.0|0.98|1.2|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 84||1.20|0.98|0.1749
82396291|NCT02913105|164503211|SUPERIORITY|Log transformed ratio to baseline was analyzed using a repeated measures model which included effects for treatment, visit, treatment by visit interaction, stratification factor (BMI group), log-transformed baseline and log-transformed baseline by visit interaction. BMI was separated into two groups low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Geometric Mean Ratios|1.02||||0.7503|TWO_SIDED|90.0|0.92|1.13|||ANCOVA|An unstructured variance-covariance structure was used.||LDL Cholesterol Friedwald: Day 112 (EOS)||1.13|0.92|0.7503
82529269|NCT03029247|164755082|SUPERIORITY||LS Mean Difference|-117.49||||0.045|TWO_SIDED|95.0|-232.26|-2.72||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of DBP and its corresponding 95% CI has been presented.|||-2.72|-232.26|0.0450
82644477|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.312||||0.0552|TWO_SIDED|95.0|-0.628|0.004|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.004|-0.628|0.0552
82644478|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.402||||0.0055|TWO_SIDED|95.0|-0.722|-0.083|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.083|-0.722|0.0055
82644479|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.212||||0.3834|TWO_SIDED|95.0|-0.53|0.105|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.105|-0.530|0.3834
82644480|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.416||||0.0033|TWO_SIDED|95.0|-0.734|-0.099|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.099|-0.734|0.0033
82644481|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.743|||<|0.0001|TWO_SIDED|95.0|-1.103|-0.382|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.382|-1.103|<.0001
82644482|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.857|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.493|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.493|-1.220|<.0001
82644483|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.971|||<|0.0001|TWO_SIDED|95.0|-1.327|-0.616|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.616|-1.327|<.0001
82370309|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.02|||||TWO_SIDED|95.0|-0.1|0.14|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 6A||0.14|-0.10|
82529270|NCT03029247|164755082|SUPERIORITY||LS Mean Difference|-131.94||||0.1341|TWO_SIDED|95.0|-306.24|42.36||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of MAP and its corresponding 95% CI has been presented.|||42.36|-306.24|0.1341
82529271|NCT03029247|164755083|SUPERIORITY||LS Mean Difference|-97.67||||0.1119|TWO_SIDED|95.0|-219.05|23.71||p-value for the difference between treatment groups was presented from ANCOVA model for the superiority assessment.|ANCOVA||LS Mean treatment difference (daprodustat minus recombinant human erythropoietin) for AUEC of HR and its corresponding 95% CI has been presented.|||23.71|-219.05|0.1119
82529272|NCT00999661|164755155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.8|STANDARD_DEVIATION|25.12|<|0.0001||95.0|36.6|43.1||One-sample t-test for change from baseline|t-test, 2 sided|||||43.1|36.6|<0.0001
82529273|NCT00999661|164755156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.6|STANDARD_DEVIATION|19.79|<|0.0001||95.0|34.0|39.2|||t-test, 2 sided|||||39.2|34.0|<0.0001
82529274|NCT00999661|164755157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|STANDARD_DEVIATION|5.233|<|0.0001||95.0|-8.65|-7.29|||t-test, 2 sided|||||-7.29|-8.65|<0.0001
82529275|NCT00917267|164755158|NON_INFERIORITY_OR_EQUIVALENCE|Superiority of exenatide once weekly to exenatide twice daily concluded if upper limit of the 2-sided 95% confidence interval for treatment difference is \<0; noninferiority concluded if upper limit is \<0.4%.|Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||Mixed Models Analysis|||MMRM analysis of covariance (ANCOVA) model includes treatment, baseline HbA1c, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects. Power: 306 patients per treatment group provides approximately 98% power to detect a true difference between treatments of 0.4% in change in HbA1c from baseline with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||-0.14|-0.49|<.001
82529276|NCT00917267|164755159|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c target \<=7% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which country and background OAD served as the stratification factors.||||0.003
82529277|NCT00917267|164755160|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c target \<=6.5% at Week 26 were compared between treatments using a CMH test, in which country and background OAD served as the stratification factors.||||<.001
82529278|NCT00917267|164755161|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.67|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-22.5|-10.83|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline FSG, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||-10.83|-22.50|<.001
82529279|NCT00917267|164755162|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.39|1.25|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline BW, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.25|0.39|<.001
82529280|NCT00917267|164755163|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|2.56||0.609|TWO_SIDED|95.0|-6.33|3.71|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline TC, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||3.71|-6.33|0.609
82529281|NCT00917267|164755164|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.52||0.476|TWO_SIDED|95.0|-0.65|1.38|||Mixed Models Analysis|||MMRM ANCOVA model includes treatment, baseline HDL, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.38|-0.65|0.476
82396292|NCT02913105|164503212|OTHER|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|7.01|STANDARD_ERROR_OF_MEAN|5.52||0.2073|TWO_SIDED|90.0|-2.161|16.178|||ANCOVA|||||16.178|-2.161|0.2073
82529282|NCT00917267|164755165|SUPERIORITY_OR_OTHER||Geometic Least Squares Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.807|TWO_SIDED|95.0|0.93|1.06|||Mixed Models Analysis|||TG data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using a MMRM ANCOVA model with treatment, baseline TG, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects; and patient and error as random effects.||1.06|0.93|0.807
82529283|NCT02960763|164755174|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.01||||||Equivalence of group|ANOVA|||||||0.010
82370310|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.03|||||TWO_SIDED|95.0|-0.1|0.15|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.15|-0.10|
82370311|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.05|||||TWO_SIDED|95.0|-0.17|0.07|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.07|-0.17|
82575893|NCT01266161|164861142|SUPERIORITY||CMH-adjusted proportions|-0.72|||<|0.001|TWO_SIDED|95.0|-1.05|-0.4||Treatment difference (ibuprofen minus placebo) and corresponding 95% CI were calculated based on CMH-adjusted proportions and corresponding standard errors.|Cochran-Mantel-Haenszel|||For the second dosing interval.||-0.40|-1.05|<0.001
82370312|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.08|||||TWO_SIDED|95.0|-0.2|0.05|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 7F||0.05|-0.20|
82370313|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|0.01|||||TWO_SIDED|95.0|-0.11|0.13|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.13|-0.11|
82370314|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.02|||||TWO_SIDED|95.0|-0.14|0.1|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.10|-0.14|
82370315|NCT00444457|164448639|SUPERIORITY_OR_OTHER||Difference in log-transformed GM|-0.03|||||TWO_SIDED|95.0|-0.15|0.08|||||2-sided 95% CI were constructed by back transformation of the CI for the mean of the logarithmically transformed assay results computed using the Student t distribution.|Additional serotypes - serotype 19A||0.08|-0.15|
82370316|NCT03118570|164448672|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.644||||||Analysis is based on a log transformed analysis of covariance (ANCOVA) model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.644
82370317|NCT03118570|164448672|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.485||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.485
82396293|NCT02913105|164503212|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|7.23|STANDARD_ERROR_OF_MEAN|5.62||0.2014|TWO_SIDED|90.0|-2.106|16.563|||ANCOVA|||||16.563|-2.106|0.2014
82396294|NCT02913105|164503212|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model which included effects for treatment, baseline and stratification factor (BMI group). BMI was separated into two groups, low BMI (Asian\<30 and Non-Asian\<35) and high BMI (Asian \>=30 and Non-Asian\>=35).|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|4.93||0.9645|TWO_SIDED|90.0|-7.974|8.414|||ANCOVA|||||8.414|-7.974|0.9645
82396295|NCT04114656|164503222|OTHER||Posterior Ratio to placebo|0.993|||||TWO_SIDED|95.0|0.968|1.02|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.020|0.968|
82575894|NCT01266161|164861142|SUPERIORITY||CMH-adjusted proportions|-0.48||||0.002|TWO_SIDED|95.0|-0.9|-0.06||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the third dosing interval.||-0.06|-0.90|0.002
82370318|NCT03118570|164448672|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.404||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.404
82370319|NCT03118570|164448673|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.006
82370320|NCT03118570|164448673|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.190
82370321|NCT03118570|164448673|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.704||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.704
82370322|NCT03118570|164448674|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.011
82370323|NCT03118570|164448674|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.047||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.047
82370324|NCT03118570|164448674|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.756||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||||||0.756
82370325|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.329||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.329
82370326|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.953||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.953
82370327|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.795||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.795
82370328|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.644||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.644
82644484|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.936|||<|0.0001|TWO_SIDED|95.0|-1.298|-0.574|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.574|-1.298|<.0001
82644485|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.473||||0.0016|TWO_SIDED|95.0|0.133|0.813|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.813|0.133|0.0016
82644486|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.338||||0.0582|TWO_SIDED|95.0|-0.007|0.683|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.683|-0.007|0.0582
82644487|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.573|||<|0.0001|TWO_SIDED|95.0|0.232|0.914|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.914|0.232|<.0001
82644488|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.324||||0.0745|TWO_SIDED|95.0|-0.02|0.668|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.668|-0.020|0.0745
82644489|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.043||||1|TWO_SIDED|95.0|-0.337|0.422|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.422|-0.337|1.0000
82396296|NCT04114656|164503223|OTHER||Posterior ratio to placebo|1.0|||||TWO_SIDED|95.0|0.89|1.12|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.12|0.89|
82396297|NCT04114656|164503224|OTHER||Posterior ratio to placebo|0.98|||||TWO_SIDED|95.0|0.91|1.05|||||Treatment comparison ratio of GSK3858279 and placebo using posterior median ratio and 95% credible interval is presented. Analysis was performed using Bayesian Mixed Repeated measures Analysis of Covariance (ANCOVA) model.|||1.05|0.91|
82396298|NCT00135356|164503279|SUPERIORITY_OR_OTHER||Difference in Means|0.03||||0.48||95.0|-0.06|0.12||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||LOCF||0.12|-0.06|0.48
82396299|NCT00135356|164503279|SUPERIORITY_OR_OTHER||Difference in Means|0.07||||0.57||95.0|-0.07|12.0||P-value not adjusted for multiple testing. 2-sided 95% CI|t-test, 2 sided|||OC||12.0|-0.07|0.57
82396300|NCT00135356|164503280|SUPERIORITY_OR_OTHER||Difference in Means|0.02||||0.73||95.0|-0.1|0.14||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||LOCF||0.14|-0.10|0.73
82396301|NCT00135356|164503280|SUPERIORITY_OR_OTHER||Difference in Means|-0.01||||0.91||95.0|-0.14|0.13||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||OC||0.13|-0.14|0.91
82396302|NCT00135356|164503281|SUPERIORITY_OR_OTHER||Difference in Mean|5.2||||0.27||95.0|-3.9|15.1||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 VAT LOCF||15.1|-3.9|0.27
82396303|NCT00135356|164503281|SUPERIORITY_OR_OTHER||Difference in Mean|1.8||||0.68||95.0|-6.7|11.2||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||VAT, Week 96 LOCF||11.2|-6.7|0.68
82396304|NCT00135356|164503281|SUPERIORITY_OR_OTHER||Difference in Means|4.4||||0.14||95.0|-1.4|10.6||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 Trunk Fat LOCF||10.6|-1.4|0.14
82396305|NCT00135356|164503281|SUPERIORITY_OR_OTHER||Difference in Means|5.3||||0.14||95.0|-1.7|12.9||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 Trunk Fat LOCF||12.9|-1.7|0.14
82644490|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.116||||0.9759|TWO_SIDED|95.0|-0.501|0.268|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.268|-0.501|0.9759
82644491|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.186||||0.7128|TWO_SIDED|95.0|-0.565|0.192|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.192|-0.565|0.7128
82644492|NCT03692078|165004017|EQUIVALENCE|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.195||||0.6816|TWO_SIDED|95.0|-0.582|0.192|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHPhe amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.192|-0.582|0.6816
82644493|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-0.948|||<|0.0001|TWO_SIDED|95.0|-1.146|-0.75|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||-0.750|-1.146|<.0001
82644494|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.019|||<|0.0001|TWO_SIDED|95.0|-1.242|-0.796|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||-0.796|-1.242|<.0001
82370329|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.485||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.485
82396306|NCT00135356|164503282|SUPERIORITY_OR_OTHER||Difference in Means|4.0||||0.16||95.0|-1.6|10.0||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||SAT, Week 48, LOCF||10.0|-1.6|0.16
82396307|NCT00135356|164503282|SUPERIORITY_OR_OTHER||Difference in Mean|6.8||||0.06||95.0|-0.2|14.2||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 SAT||14.2|-0.2|0.06
82396308|NCT00135356|164503282|SUPERIORITY_OR_OTHER||Difference in Means|4.6||||0.15||95.0|-1.7|11.4||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48, Limb Fat||11.4|-1.7|0.15
82396309|NCT00135356|164503282|SUPERIORITY_OR_OTHER||Difference in Means|5.7||||0.17||95.0|-2.3|14.4||P-value not adjusted for multiple testing, 2-sided 95% CI|t-test, 2 sided|||Week 96, Limb Fat||14.4|-2.3|0.17
82396310|NCT00135356|164503283|SUPERIORITY_OR_OTHER||DIfference in Means|3.6||||0.19||95.0|-1.8|9.4||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 TAT||9.4|-1.8|0.19
82370330|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.404||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.404
82370331|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.827||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.827
82396311|NCT00135356|164503283|SUPERIORITY_OR_OTHER||DIfference in Means|4.3||||0.16||95.0|-1.7|10.7||P-value not adjusted for multiple testing, 2-sided 95% CI.|Wilcoxon (Mann-Whitney)|||Week 96 TAT||10.7|-1.7|0.16
82396312|NCT00135356|164503283|SUPERIORITY_OR_OTHER||Difference in Means|5.0||||0.0385||95.0|0.3|9.7||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 48 Total Body Fat||9.7|0.3|0.0385
82396313|NCT00135356|164503283|SUPERIORITY_OR_OTHER||Difference in Means|5.9||||0.1||95.0|-1.0|13.2||P-value not adjusted for multiple testing, 2-sided 95% CI.|t-test, 2 sided|||Week 96 Total Body Fat||13.2|-1.0|0.10
82396314|NCT00135356|164503295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.3|3.72||||||||3.72|0.3|
82396315|NCT04591015|164503311|SUPERIORITY|||||||0.0626|||||||Fisher Exact|||||||0.0626
82396316|NCT04591015|164503312|SUPERIORITY|||||||0.0496|||||||t-test, 2 sided|||Only includes participants who completed a 90-day lab||||0.0496
82396317|NCT04591015|164503313|SUPERIORITY|||||||0.0651|||||||t-test, 2 sided|||Only includes participants who completed a 180-day lab||||0.0651
82396318|NCT04591015|164503314|SUPERIORITY|||||||0.8739|||||||Fisher Exact|||||||0.8739
82370332|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.459||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.459
82370333|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.022||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.022
82370334|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.821||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.821
82644495|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.172|||<|0.0001|TWO_SIDED|95.0|-1.358|-0.986|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||-0.986|-1.358|<.0001
82644496|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.196|||<|0.0001|TWO_SIDED|95.0|-1.409|-0.983|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||-0.983|-1.409|<.0001
82644497|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.049|||<|0.0001|TWO_SIDED|95.0|-1.239|-0.859|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||-0.859|-1.239|<.0001
82644498|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.414|-0.986|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||-0.986|-1.414|<.0001
82644499|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.337|||<|0.0001|TWO_SIDED|95.0|-1.574|-1.099|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||-1.099|-1.574|<.0001
82647954|NCT00386100|165011344|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.1776|TWO_SIDED|95.0|-2.2|0.4||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.4|-2.2|0.1776
82370335|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.911||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.911
82370336|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.152||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.152
82370337|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.668||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.668
82370338|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.109||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.109
82370339|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.358||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.358
82396319|NCT04591015|164503315|SUPERIORITY|||||||0.4702|||||||t-test, 2 sided|||||||0.4702
82396320|NCT04591015|164503316|SUPERIORITY|||||||0.1258|||||||t-test, 2 sided|||||||0.1258
82370340|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.742||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.742
82370341|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.567||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.567
82370342|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.43||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.430
82370343|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.634||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.634
82370344|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.146||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.146
82370345|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.521||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.521
82370346|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.991||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.991
82370347|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.069||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.069
82370348|NCT03118570|164448675|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.625||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.625
82370349|NCT03118570|164448676|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.615||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.615
82370350|NCT03118570|164448676|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.376||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.376
82370351|NCT03118570|164448676|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.259||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.259
82370352|NCT03118570|164448676|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.253||||||Analysis is based on a log transformed ANCOVA model with change from baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.253
82396321|NCT04591015|164503317|SUPERIORITY|||||||0.8635|||||||t-test, 2 sided|||||||0.8635
82370353|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.064||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.064
82370354|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.019||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.019
82396322|NCT04591015|164503318|SUPERIORITY|||||||0.0471|||||||t-test, 2 sided|||||||0.0471
82370355|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.845||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.845
82370356|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.006
82396323|NCT04591015|164503319|SUPERIORITY|||||||0.0218|||||||t-test, 2 sided|||||||0.0218
82396324|NCT04591015|164503320|SUPERIORITY|||||||0.509|||||||t-test, 2 sided|||||||0.5090
82396325|NCT04591015|164503321|SUPERIORITY|||||||0.4034|||||||t-test, 2 sided|||||||0.4034
82396326|NCT04591015|164503322|SUPERIORITY|||||||0.0175|||||||t-test, 2 sided|||||||0.0175
82396327|NCT04591015|164503323|SUPERIORITY|||||||0.4435|||||||Fisher Exact|||||||0.4435
82396328|NCT04591015|164503324|SUPERIORITY|||||||0.7417|||||||Fisher Exact|||||||0.7417
82396329|NCT04591015|164503325|SUPERIORITY|||||||0.5779|||||||t-test, 2 sided|||||||0.5779
82396330|NCT04591015|164503326|SUPERIORITY|||||||0.0493|||||||t-test, 2 sided|||||||0.0493
82396331|NCT04591015|164503327|SUPERIORITY|||||||0.0773|||||||t-test, 2 sided|||||||0.0773
82396332|NCT04591015|164503328|SUPERIORITY|||||||0.0921|||||||t-test, 2 sided|||||||0.0921
82644500|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.345|||<|0.0001|TWO_SIDED|95.0|-1.616|-1.075|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||-1.075|-1.616|<.0001
82644501|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.452|||<|0.0001|TWO_SIDED|95.0|-1.685|-1.219|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||-1.219|-1.685|<.0001
82644502|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.339|||<|0.0001|TWO_SIDED|95.0|-1.608|-1.071|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||-1.071|-1.608|<.0001
82644503|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|-1.348|||<|0.0001|TWO_SIDED|95.0|-1.577|-1.118|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||-1.118|-1.577|<.0001
82644504|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|-1.227|||<|0.0001|TWO_SIDED|95.0|-1.488|-0.966|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is equal to zero on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||-0.966|-1.488|<.0001
82644505|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.224||||0.5646|TWO_SIDED|95.0|-0.607|0.16|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||0.160|-0.607|0.5646
82644506|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.177||||0.8765|TWO_SIDED|95.0|-0.609|0.254|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||0.254|-0.609|0.8765
82644507|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.101||||0.9954|TWO_SIDED|95.0|-0.488|0.287|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||0.287|-0.488|0.9954
82370357|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.190
82370358|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.704||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.704
82370359|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.002||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.002
82396333|NCT04591015|164503329|SUPERIORITY|||||||0.2404|||||||t-test, 2 sided|||||||0.2404
82644508|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.181||||0.8665|TWO_SIDED|95.0|-0.613|0.252|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||0.252|-0.613|0.8665
82644509|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.389||||0.1165|TWO_SIDED|95.0|-0.829|0.052|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||0.052|-0.829|0.1165
82644510|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.326||||0.3896|TWO_SIDED|95.0|-0.821|0.168|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||0.168|-0.821|0.3896
82644511|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.504||||0.0122|TWO_SIDED|95.0|-0.934|-0.074|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.074|-0.934|0.0122
82644512|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.32||||0.3938|TWO_SIDED|95.0|-0.807|0.167|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||0.167|-0.807|0.3938
82644513|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.176||||0.8501|TWO_SIDED|95.0|-0.237|0.589|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||0.589|-0.237|0.8501
82644514|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.031||||1|TWO_SIDED|95.0|-0.435|0.496|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||0.496|-0.435|1.0000
82370360|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.021||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.021
82370361|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.504||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.504
82370362|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.462||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.462
82396334|NCT04591015|164503330|SUPERIORITY|||||||0.8955|||||||t-test, 2 sided|||||||0.8955
82370363|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.134||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.134
82426421|NCT01816295|164561826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.1|STANDARD_ERROR_OF_MEAN|1.42|<|0.001|TWO_SIDED|99.5|1.05|9.07|||ANCOVA|||||9.07|1.05|<0.001
82644515|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.299||||0.2928|TWO_SIDED|95.0|-0.117|0.715|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||0.715|-0.117|0.2928
82644516|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.027||||1|TWO_SIDED|95.0|-0.439|0.493|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||0.493|-0.439|1.0000
82644517|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.011||||1|TWO_SIDED|95.0|-0.453|0.475|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.475|-0.453|1.0000
82644518|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.118||||0.9966|TWO_SIDED|95.0|-0.64|0.403|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.403|-0.640|0.9966
82644519|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.104||||0.9976|TWO_SIDED|95.0|-0.56|0.352|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.352|-0.560|0.9976
82647955|NCT00386100|165011344|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.2||||0.2259|TWO_SIDED|95.0|-3.2|0.8||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.8|-3.2|0.2259
82370364|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.086
82370365|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.199||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.199
82370366|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.219||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 8||||0.219
82370367|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.112||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.112
82370368|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.086
82370369|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.245||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.245
82396335|NCT02686814|164503346|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-0.9||||0.7646|TWO_SIDED||||||Wilcoxon signed-rank test|||3-6 Month compared to Baseline||||0.7646
82426422|NCT01816295|164561827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_ERROR_OF_MEAN|1.25||0.019|TWO_SIDED|99.5|-0.59|6.45|||ANCOVA|||||6.45|-0.59|0.019
82370370|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.232||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.232
82370371|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.237||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.237
82370372|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.088
82370373|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.302||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.302
82370374|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.626||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.626
82370375|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.517||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 8||||0.517
82370376|NCT03118570|164448677|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.262||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.262
82370377|NCT03118570|164448678|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||< 0.001
82370378|NCT03118570|164448678|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.004||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.004
82370379|NCT03118570|164448678|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.08||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.080
82370380|NCT03118570|164448678|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.031||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.031
82370381|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.06||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.060
82370382|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.015||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.015
82370383|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.795||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.795
82370384|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.011
82370385|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.047||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.047
82370386|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.756||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.756
82396336|NCT02686814|164503346|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|3.9||||0.8984|TWO_SIDED||||||Wilcoxon signed-rank test|||1 Year compared to Baseline||||0.8984
82426423|NCT01816295|164561828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.34||0.442|TWO_SIDED|95.0|-0.94|0.41|||ANCOVA|||Change from Baseline to Week 12||0.41|-0.94|0.442
82370387|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.006
82370388|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.137||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.137
82370389|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.639||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.639
82396337|NCT02686814|164503346|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|0.0||||0.8457|TWO_SIDED||||||Wilcoxon signed-rank test|||2 Year compared to Baseline||||0.8457
82644520|NCT03692078|165004019|EQUIVALENCE|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-0.112||||0.9976|TWO_SIDED|95.0|-0.628|0.404|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: 1-OHP amount excreted (ug/24 hour) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.404|-0.628|0.9976
82644521|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|180.0|||<|0.0001|TWO_SIDED|95.0|164.9|195.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||195.2|164.9|<.0001
82644522|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|181.1|||<|0.0001|TWO_SIDED|95.0|165.9|196.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||196.2|165.9|<.0001
82644523|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|132.3|||<|0.0001|TWO_SIDED|95.0|117.2|147.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||147.5|117.2|<.0001
82644524|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|137.3|||<|0.0001|TWO_SIDED|95.0|122.1|152.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||152.5|122.1|<.0001
82644525|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|136.8|||<|0.0001|TWO_SIDED|95.0|122.0|151.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||151.7|122.0|<.0001
82644526|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|150.8|||<|0.0001|TWO_SIDED|95.0|136.0|165.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||165.7|136.0|<.0001
82396338|NCT02686814|164503346|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-7.7||||0.1309|TWO_SIDED||||||Wilcoxon signed-rank test|||3 Year compared to Baseline||||0.1309
82396339|NCT02686814|164503346|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|-15.2||||0.5|TWO_SIDED||||||Wilcoxon signed-rank test|||4 Year compared to Baseline||||0.5000
82396340|NCT02686814|164503347|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|1.5||||0.2783|TWO_SIDED||||||Wilcoxon signed-rank test|||3-6 Month compared to Baseline||||0.2783
82644527|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|43.2|||<|0.0001|TWO_SIDED|95.0|25.1|61.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||61.4|25.1|<.0001
82647956|NCT00386100|165011344|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.384|TWO_SIDED|95.0|-2.8|1.1||postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.1|-2.8|0.3840
82370390|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.325||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.325
82370391|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.108||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.108
82370392|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.078||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.078
82370393|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.106||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.106
82370394|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.236||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.236
82370395|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.164||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.164
82370396|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.031||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.031
82370397|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.224||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.224
82370398|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.291||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.291
82370399|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.324||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.324
82370400|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.188||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.188
82370401|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.503||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.503
82370402|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.385||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.385
82370403|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.727||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.727
82370404|NCT03118570|164448679|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.338||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.338
82370405|NCT03118570|164448680|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||< 0.001
82370406|NCT03118570|164448680|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||< 0.001
82426424|NCT01816295|164561828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.905|TWO_SIDED|95.0|-0.82|0.72|||ANCOVA|||Change from Baseline to Week 36||0.72|-0.82|0.905
82644528|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|61.7|||<|0.0001|TWO_SIDED|95.0|43.2|80.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||80.1|43.2|<.0001
82644529|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|36.9|||<|0.0001|TWO_SIDED|95.0|18.6|55.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||55.1|18.6|<.0001
82644530|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|35.5||||0.0002|TWO_SIDED|95.0|16.7|54.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||54.3|16.7|0.0002
82370407|NCT03118570|164448680|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||< 0.001
82370408|NCT03118570|164448680|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||< 0.001
82370409|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370410|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370411|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.08||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.080
82370412|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.238||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.238
82370413|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.238||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.238
82370414|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.035||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.035
82370415|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.687||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.687
82370416|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.107||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.107
82370417|NCT03118570|164448682|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.128||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.128
82370418|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370419|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370420|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.088
82426425|NCT00945659|164561837|SUPERIORITY||Mean Difference (Net)|-0.003|STANDARD_DEVIATION|0.2||0.86|TWO_SIDED|95.0|-0.43|0.36|||Generalized Estimating Equation|||||0.36|-0.43|0.86
82370421|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.184||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.184
82370422|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.144||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.144
82370423|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.028||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.028
82370424|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.694||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.694
82370425|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.143||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.143
82370426|NCT03118570|164448683|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.111||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.111
82370427|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370428|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370429|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.026||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.026
82370430|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.007||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.007
82370431|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.004||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.004
82370432|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.085||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.085
82370433|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.04||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.040
82370434|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.061||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.061
82370435|NCT03118570|164448684|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.189||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.189
82370436|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370437|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||< 0.001
82370438|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.035||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lumbar||||0.035
82370439|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.003
82370440|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.003
82370441|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.088||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Total body||||0.088
82426426|NCT00945659|164561837|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.03|TWO_SIDED|95.0|-0.78|-0.04|||Generalized Estimating Equation|||||-0.04|-0.78|0.03
82644531|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|38.8|||<|0.0001|TWO_SIDED|95.0|19.9|57.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||57.6|19.9|<.0001
82644532|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|44.9|||<|0.0001|TWO_SIDED|95.0|26.0|63.8|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||63.8|26.0|<.0001
82644533|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-47.7||||0.0002|TWO_SIDED|95.0|-78.0|-17.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-17.4|-78.0|0.0002
82644534|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-43.8||||0.0009|TWO_SIDED|95.0|-74.1|-13.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-13.4|-74.1|0.0009
82644535|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-43.2||||0.0009|TWO_SIDED|95.0|-73.2|-13.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-13.3|-73.2|0.0009
82644536|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-30.2||||0.0466|TWO_SIDED|95.0|-60.2|-0.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.3|-60.2|0.0466
82644537|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-136.8|||<|0.0001|TWO_SIDED|95.0|-170.4|-103.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-103.3|-170.4|<.0001
82370442|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.016||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.016
82370443|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.068||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.068
82370444|NCT03118570|164448685|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.16||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Femoral neck||||0.160
82370445|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.065||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.065
82370446|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.405||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.405
82370447|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.966||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.966
82370448|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.003
82370449|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.229||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.229
82370450|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.807||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.807
82575895|NCT01266161|164861142|SUPERIORITY||CMH-adjusted proportion|-0.68||||0.021|TWO_SIDED|95.0|-1.02|-0.35||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the fourth dosing interval.||-0.35|-1.02|0.021
82644538|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-119.4|||<|0.0001|TWO_SIDED|95.0|-153.3|-85.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-85.5|-153.3|<.0001
82370451|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.042||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.042
82370452|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.283||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.283
82370453|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.536||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.536
82370454|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.765||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.765
82370455|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.247||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.247
82370456|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.050
82396341|NCT02686814|164503347|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|6.4||||0.0674|TWO_SIDED||||||Wilcoxon signed-rank test|||1 Year compared to Baseline||||0.0674
82426427|NCT00945659|164561838|SUPERIORITY||Mean Difference (Net)|-10.05|STANDARD_DEVIATION|4.72||0.03|TWO_SIDED|95.0|-19.3|-0.81|||Generalized Estimating Equation|||||-0.81|-19.30|0.03
82370457|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.037
82370458|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.174||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.174
82370459|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.558||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.558
82370460|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.02||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.020
82575896|NCT01266161|164861142|SUPERIORITY||CMH-adjusted proportion|-0.7|||<|0.001|TWO_SIDED|95.0|-0.89|-0.51||p-Values from the CMH test with modified ridit scores, controlling for baseline PSR and gender.|Cochran-Mantel-Haenszel|||For the overall study duration.||-0.51|-0.89|<0.001
82370461|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.346||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.346
82370462|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.387||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.387
82370463|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.093||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.093
82370464|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.156||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.156
82370465|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.324||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.324
82644539|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-143.2|||<|0.0001|TWO_SIDED|95.0|-176.6|-109.7|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-109.7|-176.6|<.0001
82370466|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.92||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.920
82647957|NCT00386100|165011345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.6102|TWO_SIDED|95.0|-1.9|1.1||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.1|-1.9|0.6102
82396342|NCT02686814|164503347|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|6.4||||0.0371|TWO_SIDED||||||Wilcoxon signed-rank test|||2 Year compared to Baseline||||0.0371
82396343|NCT02686814|164503347|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|0.8||||0.6953|TWO_SIDED||||||Wilcoxon signed-rank test|||3 Year compared to Baseline||||0.6953
82396344|NCT02686814|164503347|EQUIVALENCE|Each of the scales, for each follow-up time compared to baseline, the null hypothesis that the median paired difference is zero will be tested against the two-sided alternative that the median is not zero. Wilcoxon signed-rank test will be used.|Median Difference (Final Values)|1.0|||>|0.9999|TWO_SIDED||||||Wilcoxon signed-rank test|||4 Year compared to Baseline||||>0.9999
82575897|NCT01266161|164861145|SUPERIORITY||Gamma statistic|0.85|||<|0.001|TWO_SIDED|95.0|0.74|0.95||p-Value from the CMH test with modified ridit scores, controlling for baseline PSR score and gender.|Cochran-Mantel-Haenszel|||Ibuprofen versus placebo at 24 hours||0.95|0.74|<0.001
82370467|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.04||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.040
82396345|NCT04997265|164503356|OTHER|Given the small sample size, simple descriptive were used. Between-group differences were performed using a Fisher exact test.|||||<|0.05|||||||Fisher Exact|||||||<0.05
82426428|NCT00945659|164561838|SUPERIORITY||Mean Difference (Net)|-0.82|STANDARD_DEVIATION|5.47||0.88|TWO_SIDED|95.0|-11.54|9.9|||Generalized Estimating Equation|||||9.9|-11.54|0.88
82426429|NCT00945659|164561839|SUPERIORITY||Generalized Estimating Equation|-3.45|STANDARD_DEVIATION|4.98||0.49|TWO_SIDED|95.0|-13.21|6.32|||Generalized Estimating Equation|||||6.32|-13.21|0.49
82370468|NCT03118570|164448686|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.643||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.643
82370469|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.285||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.285
82370470|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.544||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.544
82575898|NCT01266161|164861145|SUPERIORITY||Gamma statistic|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.92|||Cochran-Mantel-Haenszel|p-Value from the CMH test with modified ridit scores, controlling for baseline PSR score and gender.||Ibuprofen versus placebo at 48 hours||0.92|0.66|<0.001
82575899|NCT00594022|164861211|SUPERIORITY_OR_OTHER|||||||0.1275|||||||t-test, 1 sided|||||||.1275
82370471|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.615||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 6||||0.615
82370472|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.179||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.179
82370473|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.513||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.513
82370474|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.849||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 12||||0.849
82370475|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.037
82370476|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.88||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.880
82370477|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.153||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 18||||0.153
82370478|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.073||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.073
82370479|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.007||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.007
82396346|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|||<|0.001|TWO_SIDED|95.0|0.085|0.157||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 milliliters (mL) at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.157|0.085|<0.001
82396347|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|||<|0.001|TWO_SIDED|95.0|0.1|0.171||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to UMEC=responders to UMEC or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.171|0.100|<0.001
82370480|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.791||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Radial, Month 24||||0.791
82370481|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.01||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.010
82370482|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.553||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.553
82396348|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.11|0.174||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.174|0.110|<0.001
82370483|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.652||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 6||||0.652
82370484|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||< 0.001
82370485|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.482||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.482
82370486|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.685||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 12||||0.685
82644540|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-145.6|||<|0.0001|TWO_SIDED|95.0|-179.7|-111.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-111.4|-179.7|<.0001
82644541|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|93.6|||<|0.0001|TWO_SIDED|95.0|60.0|127.2|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||127.2|60.0|<.0001
82644542|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|92.4|||<|0.0001|TWO_SIDED|95.0|58.8|126.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||126.1|58.8|<.0001
82644543|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|98.1|||<|0.0001|TWO_SIDED|95.0|64.6|131.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||131.5|64.6|<.0001
82644544|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|106.0|||<|0.0001|TWO_SIDED|95.0|72.5|139.4|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||139.4|72.5|<.0001
82647958|NCT00386100|165011345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.3445|TWO_SIDED|95.0|-2.9|1.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-2.9|0.3445
82370487|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.002||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.002
82370488|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.672||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.672
82370489|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.377||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 18||||0.377
82396349|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|||<|0.001|TWO_SIDED|95.0|0.067|0.13||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to VI=responders to VI or to both monotherapies, as defined by a participant with an increase from Baseline of \>=12% and 200 mL at \>=1 time point over 0-6 hours post-dose in FEV1 on Day 1.|||0.130|0.067|<0.001
82396350|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052||||0.047|TWO_SIDED|95.0|0.001|0.104||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.104|0.001|0.047
82370490|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.015||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.015
82370491|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.086||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.086
82644545|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|4.5||||1|TWO_SIDED|95.0|-32.0|40.9|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||40.9|-32.0|1.0000
82647959|NCT00386100|165011345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9735|TWO_SIDED|95.0|-2.4|2.3||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||2.3|-2.4|0.9735
82370492|NCT03118570|164448687|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.712||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Tibial, Month 24||||0.712
82370493|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.045||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.045
82370494|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.101||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.101
82370495|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.482||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 6||||0.482
82370496|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.011||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.011
82370497|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.508||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.508
82370498|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.563||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Lean, Month 12||||0.563
82370499|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.917||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.917
82370500|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.789||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.789
82370501|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.262||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 6||||0.262
82529284|NCT02960763|164755174|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.004||||||augment with aripiprazole vs switch to bupropion|ANOVA|||||||0.004
82370502|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.426||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.426
82370503|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.871||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.871
82370504|NCT03118570|164448689|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.113||||||Analysis is based on a log transformed ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Fat, Month 12||||0.113
82370505|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
82370506|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
82370507|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.984||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||0.984
82370508|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||< 0.001
82370509|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.050
82370510|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.857||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.857
82370511|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.001
82370512|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.079||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.079
82370513|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.912||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.912
82370514|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.054||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.054
82370515|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.95||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.950
82370516|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.555||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.555
82370517|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.221||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.221
82370518|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.393||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.393
82370519|NCT03118570|164448690|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.385||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.385
82370520|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
82529285|NCT02960763|164755174|SUPERIORITY|Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||||0.017||||||augment with bupropion vs switch to bupropion|ANOVA|||||||0.017
82370521|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
82370522|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline|||||<|0.001||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 1||||< 0.001
82370523|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.003||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.003
82370524|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.05||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.050
82370525|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.006||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 3||||0.006
82396351|NCT01716520|164503370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.006|TWO_SIDED|95.0|0.021|0.124||Analysis was performed using an Analysis of Covariance (ANCOVA) model with covariates of treatment, period, mean Baseline, period Baseline, response type and treatment by response type interaction.|ANCOVA||Responders to Neither=responders to neither UMEC nor VI, as defined by a participant with at least one FEV1 assessment over 0-6 hours post-dose on Day 1 but no increase from Baseline of \>=12% and 200 mL at any assessment(s).|||0.124|0.021|0.006
82396352|NCT00253370|164503374|SUPERIORITY_OR_OTHER||proportion of participants|0.409||||0.0012|TWO_SIDED|90.0|0.284|0.544|||one-sample binomial test|||The study was designed to distinguish a response rate of 40% from 20%, the null hypothesis. With the planned sample size of 36 eligible patients, the study has 91% power based on a 0.09 level one-sided test.||0.544|0.284|0.0012
82575900|NCT03519204|164861235|SUPERIORITY||Responder Rate Difference|84.7|||<|0.0001|TWO_SIDED|95.0|68.2|94.2||P-value was based on 2-sided Fisher's exact test comparing responder rate between treatment group and no-treated control group.|Fisher Exact|||||94.2|68.2|<0.0001
82575901|NCT03519204|164861237|SUPERIORITY||Median Difference|0.558|STANDARD_ERROR_OF_MEAN|0.109492|<|0.0001|TWO_SIDED|95.0|0.3447|0.7739||P-value was computed using Wilcoxon test with normal approximation.|Wilcoxon Rank-sum Test||The median difference (the location shift) and its 95% CI were computed using Hodges-Lehmann estimation associated with Wilcoxon statistics.|||0.77390|0.34470|<0.0001
82575902|NCT03519204|164861238|SUPERIORITY||Median Difference|13.04|STANDARD_ERROR_OF_MEAN|2.122|<|0.0001|TWO_SIDED|95.0|8.861|17.18||P-value was computed using Wilcoxon test with normal approximation.|Wilcoxon Rank-sum Test||The median difference (the location shift) and its 95% CI were computed using Hodges-Lehmann estimation associated with Wilcoxon statistics.|||17.180|8.861|<0.0001
82575903|NCT01721954|164861245|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.43|TWO_SIDED|95.0|||||Log Rank|||The null hypothesis tested for the primary efficacy endpoint is overall survival (months) of SIRT/FOLFOX treatment versus FOLFOX is equal for both groups. The two-sided alternative hypothesis tested with 95% confidence is OS time for SIRT/FOLFOX treatment lower to that of FOLFOX.||||0.43
82575904|NCT01721954|164861246|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED||||||Log Rank|||A sample size of at least 209 patients for the SIRFLOX study was estimated to be needed to detect an increase in the median PFS at any site from 9.4 months to 14.5 months with 80% power and 95% confidence. Taking into account the number of patients who might receive the alternative treatment or lack of imaging data, the sample size was increased to 209. The Null hypothesis is no difference between the treatment arms with respect to PFS.||||<0.05
82647960|NCT00386100|165011345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.4861|TWO_SIDED|95.0|-5.8|2.9||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||2.9|-5.8|0.4861
82370526|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.519||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.519
82370527|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.226||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.226
82370528|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.19||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.190
82370529|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.388||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.388
82370530|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.109||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.109
82370531|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.204||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 9||||0.204
82370532|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.119||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.119
82370533|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.925||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.925
82370534|NCT03118570|164448691|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.204||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.204
82370535|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.588||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.588
82370536|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.697||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.697
82370537|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.283||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.283
82396353|NCT00419159|164503415|OTHER||Odds Ratio (OR)|1.8||||0.253|TWO_SIDED|95.0|0.657|4.929|||Unadjusted Logistic Regression|||||4.929|0.657|0.253
82396354|NCT00419159|164503416|OTHER||Odds Ratio (OR)|0.382||||0.07|TWO_SIDED|95.0|0.135|1.083|||Unadjusted Logistic Regression|||||1.083|0.135|0.070
82575905|NCT03392168|164861262|SUPERIORITY||Least squares mean difference|-28.5||||0.0007|TWO_SIDED|95.0|-44.6|-12.4|||Mixed Models Analysis|||LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-12.4|-44.6|0.0007
82370538|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.354||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.354
82370539|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.43||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.430
82370540|NCT03118570|164448692|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.091||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.091
82370541|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.527||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.527
82370542|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.738||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.738
82370543|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.465||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.465
82370544|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.068||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.068
82370545|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.328||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.328
82370546|NCT03118570|164448693|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.277||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.277
82370547|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.092||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.092
82396355|NCT00419159|164503417|OTHER||Hazard Ratio (HR)|0.814||||0.399|TWO_SIDED|95.0|0.505|1.312|||Unadjusted Logistic Regression|||||1.312|0.505|0.399
82396356|NCT00419159|164503417|OTHER||Hazard Ratio, log|1.001||||0.995|TWO_SIDED|95.0|0.62|1.617|||Unadjusted Logistic Regression|||||1.617|0.620|0.995
82396357|NCT00419159|164503418|OTHER||Hazard Ratio, log|1.203||||0.441|TWO_SIDED|95.0|0.752|1.923|||Unadjusted Logistic Regression|||||1.923|0.752|0.441
82370548|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.31||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.310
82370549|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.304||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.304
82370550|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.155||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.155
82370551|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.392||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.392
82370552|NCT03118570|164448694|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.464||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.464
82370553|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.15||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.150
82370554|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.468||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.468
82370555|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.8||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.800
82370556|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.563||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.563
82396358|NCT00419159|164503418|OTHER||Hazard Ratio, log|1.547||||0.126|TWO_SIDED|95.0|0.884|2.708|||Unadjusted Logistic Regression|||||2.708|0.884|0.126
82396359|NCT00419159|164503419|OTHER||Odds Ratio (OR)|0.529||||0.238|TWO_SIDED|95.0|0.184|1.523|||Unadjusted Logistic Regression|||||1.523|0.184|0.238
82396360|NCT00419159|164503420|OTHER||Odds Ratio (OR)|1.044||||0.938|TWO_SIDED|95.0|0.352|3.099|||Unadjusted Logistic Regression|||||3.099|0.352|0.938
82396361|NCT00419159|164503421|OTHER||Hazard Ratio (HR)|1.474||||0.145|TWO_SIDED|95.0|0.875|2.484|||Unadjusted Cox Model|||||2.484|0.875|0.145
82529286|NCT02960763|164755174|SUPERIORITY|||||||0.65|||||||ANOVA|||Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||0.650
82529287|NCT02960763|164755174|SUPERIORITY|||||||0.003||||||augmentation versus switch|ANOVA|||Repeated measure of 2\*2\*3 ANOVA with age (60 - 70, \> 70), time (baseline, end of Active phase of Step 1) by treatment group (3 levels). Tests were conducted with a Hochberg Step-down procedure. If the comparison with the lowest p-value \< 0.05/3 it is significant. If the second lowest p-value is also \< 0.05/2 then it also will be significant and if the third p-value is \< 0.05 then it also will be significant.||||0.003
82529288|NCT02960763|164755174|SUPERIORITY|For those who proceed to Step 2, analogous repeated measures 2\*2\*2 ANOVA will be used with a significance level of .05 for the time\*treatment group comparison.||||||0.385|||||||ANOVA|||||||0.385
82529289|NCT02960763|164755175|SUPERIORITY|||||||0.038||||||Group effect|generalized linear model with logistic l|||||||0.038
82370557|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.839||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.839
82370558|NCT03118570|164448695|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.186||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.186
82370559|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.278||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.278
82370560|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.292||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.292
82396362|NCT00419159|164503421|OTHER||Hazard Ratio, log|1.151||||0.583|TWO_SIDED|95.0|0.696|1.903|||Unadjusted Cox Model|||||1.903|0.696|0.583
82529290|NCT02960763|164755175|SUPERIORITY|||||||0.021||||||augmentation with aripiprazole vs switch to bupropion|generalized linear model with logistic l|||||||0.021
82529291|NCT02960763|164755175|SUPERIORITY|||||||0.027||||||augmentation with bupropion vs switch to bupropion|generalized linear model with logistic l|||||||0.027
82575906|NCT03392168|164861262|SUPERIORITY||Least squares mean difference|-27.8||||0.0011|TWO_SIDED|95.0|-44.2|-11.5|||Mixed Models Analysis|||LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-11.5|-44.2|0.0011
82396363|NCT00419159|164503422|OTHER||Hazard Ratio (HR)|0.868||||0.588|TWO_SIDED|95.0|0.521|1.447|||Unadjusted Cox Model|||||1.447|0.521|0.588
82529292|NCT02960763|164755175|SUPERIORITY|||||||0.934||||||Augmentation with aripiprazole v augmentation with bupropion|generalized linear model with logistic l|||||||0.934
82647961|NCT00386100|165011345|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.877|TWO_SIDED|95.0|-3.5|4.0||Postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||4.0|-3.5|0.8770
82370561|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.115||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.115
82370562|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.356||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.356
82370563|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.205||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.205
82370564|NCT03118570|164448696|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.078||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.078
82396364|NCT00419159|164503422|OTHER||Hazard Ratio (HR)|0.611||||0.148|TWO_SIDED|95.0|0.314|1.191|||Unadjusted Cox Model|||||1.191|0.314|0.148
82396365|NCT01017601|164503428|OTHER|||||||0.5|||||||Wilcoxon Rank Sum|||||||0.50
82529293|NCT02960763|164755175|SUPERIORITY|||||||0.011||||||augmentation versus switch|generalized linear model with logistic l|||||||0.011
82529294|NCT02960763|164755175|SUPERIORITY|||||||0.5|||||||generalized linear model with logistic l|||||||0.500
82529295|NCT02960763|164755176|SUPERIORITY|||||||0.164||||||Cox models time to event comparing treatment arms.|Regression, Cox|||||||0.164
82529296|NCT02960763|164755176|SUPERIORITY|||||||0.103|||||||Regression, Cox|||||||0.103
82529297|NCT02960763|164755176|SUPERIORITY|||||||0.127|||||||Regression, Cox|||||||0.127
82529298|NCT02960763|164755176|SUPERIORITY|||||||0.524||||||Cox models to examine time to event comparing treatment arms.|Regression, Cox|||||||0.524
82575907|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-3.2||||0.5493|TWO_SIDED|95.0|-13.7|7.3|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||7.3|-13.7|0.5493
82370565|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.037||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.037
82370566|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.342||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.342
82370567|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.515||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 6||||0.515
82370568|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.786||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.786
82370569|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.212||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.212
82370570|NCT03118570|164448697|SUPERIORITY|Comparison is between the Visit and Baseline||||||0.655||||||Analysis is based on an ANCOVA model with Change from Baseline as outcome parameter; including categorical effects of treatment and randomization stratum as well as the associated baseline value as a covariate.|ANCOVA|||Month 12||||0.655
82370571|NCT01822574|164448700|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||0.001
82370572|NCT01822574|164448701|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||<0.001
82370573|NCT01822574|164448702|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||ANOVA|||A p-value less than 0.05 was considered statistically significant.||||0.240
82370574|NCT00321737|164448715|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82396366|NCT01017601|164503429|OTHER|||||||0.96|||||||Wilcoxon Rank Sum|||||||0.96
82396367|NCT01017601|164503430|OTHER|||||||0.54|||||||Fisher Exact|||||||0.54
82370575|NCT00321737|164448715|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82370576|NCT00321737|164448715|SUPERIORITY_OR_OTHER||||||>|0.99999||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||>0.99999
82370577|NCT00321737|164448716|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82370578|NCT00321737|164448716|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82370579|NCT00321737|164448716|SUPERIORITY_OR_OTHER|||||||0.0673||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.06730
82370580|NCT00321737|164448718|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82370581|NCT00321737|164448718|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82370582|NCT00321737|164448718|SUPERIORITY_OR_OTHER|||||||0.13932||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.13932
82396368|NCT01017601|164503431|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82396369|NCT02117713|164503436|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant; null hypothesis is that the mean change from baseline is equal to zero.|Mean Difference (Net)|-28.59|STANDARD_DEVIATION|89.456||0.1157|TWO_SIDED|95.0|-64.72|7.54|||Student's t-test||Difference is only calculated in participants who had baseline and week 48 values for n= 26|||7.54|-64.72|0.1157
82370583|NCT00321737|164448719|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82370584|NCT00321737|164448719|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparison of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82370585|NCT00321737|164448719|SUPERIORITY_OR_OTHER|||||||0.11257||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.11257
82370586|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.308|||||||t-test, 2 sided|||4 hrs: Visit 3 versus Visit 2||||0.308
82370587|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.415|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 2||||0.415
82370588|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.335|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 3||||0.335
82370589|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 2||||0.120
82396370|NCT02117713|164503437|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant; null hypothesis is that the mean change from baseline is equal to zero.|Mean Difference (Net)|-45.15|STANDARD_DEVIATION|89.934||0.1469|TWO_SIDED|95.0|-109.48|19.19|||Student's t-test||||Difference is only calculated in participants who had baseline and week 216 values for n=10|19.19|-109.48|0.1469
82426430|NCT00945659|164561839|SUPERIORITY||Mean Difference (Net)|2.53|STANDARD_DEVIATION|5.76||0.66|TWO_SIDED|95.0|||||Generalized Estimating Equation|||||||0.66
82370590|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.061|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 3||||0.061
82370591|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.031|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 5||||0.031
82370592|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.131|||||||t-test, 2 sided|||20 hrs: Visit 3 versus Visit 2||||0.131
82370593|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.202|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 2||||0.202
82529299|NCT00312858|164755188|NON_INFERIORITY_OR_EQUIVALENCE|Similarity (non-inferiority) based on lower bound of the 2-sided 95% CI on the risk difference of seroresponse rates excluding a decrease of 10 percentage points or more (lower bound \>-10.0).|Risk Difference (RD)|0.7|||<|0.001||95.0|-1.4|3.8||Similarity (non-inferiority) indicated that the risk difference was statistically significantly greater than the pre-specified clinically relevant difference of -10 percentage points at the 1-sided α=0.025 level.|Miettinen and Nurminen|For testing the non-inferiority of 2 proportions. Stratified by investigator.|Difference in estimated response rates of Arm 1 - Arm 2.|Comparison of the difference (percentage points) in estimated response rates of Arm 1 - Arm 2.||3.8|-1.4|<0.001
82370594|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.484|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 3||||0.484
82370595|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 2||||0.047
82370596|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.285|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 3||||0.285
82370597|NCT01195272|164448730|SUPERIORITY_OR_OTHER|||||||0.315|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 5||||0.315
82370598|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.288|||||||t-test, 2 sided|||4 hrs: Visit 3 versus Visit 2||||0.288
82370599|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.318|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 2||||0.318
82370600|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||4 hrs: Visit 5 versus Visit 3||||0.400
82370601|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.317|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 2||||0.317
82370602|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.137|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 3||||0.137
82370603|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.052|||||||t-test, 2 sided|||4 hrs: Visit 8 versus Visit 5||||0.052
82370604|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.354|||||||t-test, 2 sided|||20 hrs: Visit 3 versus Visit 2||||0.354
82370605|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.266|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 2||||0.266
82370606|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.378|||||||t-test, 2 sided|||20 hrs: Visit 5 versus Visit 3||||0.378
82370607|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.422|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 2||||0.422
82370608|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.444|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 3||||0.444
82370609|NCT01195272|164448731|SUPERIORITY_OR_OTHER|||||||0.345|||||||t-test, 2 sided|||20 hrs: Visit 8 versus Visit 5||||0.345
82370610|NCT01195272|164448732|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANOVA|||Visit 3 versus Visit 2||||0.39
82370611|NCT01195272|164448732|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||Visit 5 versus Visit 3||||0.08
82370612|NCT01195272|164448732|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANOVA|||Visit 5 versus Visit 3||||0.18
82370613|NCT01195272|164448733|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||Visit 3 versus Visit 2||||0.48
82370614|NCT01195272|164448733|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||Visit 5 versus Visit 2||||0.30
82370615|NCT01195272|164448733|SUPERIORITY_OR_OTHER|||||||0.34|||||||ANOVA|||Visit 5 versus Visit 3||||0.34
82370616|NCT01195272|164448734|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Visit 3 versus Visit 2||||0.22
82370617|NCT01195272|164448734|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Visit 5 versus Visit 2||||0.44
82370618|NCT01195272|164448734|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANOVA|||Visit 5 versus Visit 3||||0.23
82370619|NCT01195272|164448735|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANOVA|||Visit 3 versus Visit 2||||0.22
82370620|NCT01195272|164448735|SUPERIORITY_OR_OTHER|||||||0.46|||||||ANOVA|||Visit 5 versus Visit 2||||0.46
82370621|NCT01195272|164448735|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||Visit 5 versus Visit 3||||0.24
82370622|NCT01195272|164448736|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Visit 3 versus Visit 2||||0.05
82370623|NCT01195272|164448736|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|||Visit 5 versus Visit 2||||0.01
82370624|NCT01195272|164448736|SUPERIORITY_OR_OTHER|||||||0.18|||||||ANOVA|||Visit 5 versus Visit 3||||0.18
82575908|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-4.9||||0.365|TWO_SIDED|95.0|-15.7|5.9|||Mixed Models Analysis|||At week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.9|-15.7|0.3650
82370625|NCT01195272|164448737|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||Visit 3 versus Visit 2||||0.48
82370626|NCT01195272|164448737|SUPERIORITY_OR_OTHER|||||||0.43|||||||ANOVA|||Visit 5 versus Visit 2||||0.43
82370627|NCT01195272|164448737|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Visit 5 versus Visit 3||||0.44
82370628|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.313|||||||ANOVA|||Visit 3 versus Visit 2||||0.313
82370629|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.083|||||||ANOVA|||Visit 5 versus Visit 2||||0.083
82370630|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANOVA|||Visit 5 versus Visit 3||||0.092
82370631|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.145|||||||ANOVA|||Visit 8 versus Visit 2||||0.145
82370632|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.398|||||||ANOVA|||Visit 8 versus Visit 3||||0.398
82370633|NCT01195272|164448738|SUPERIORITY_OR_OTHER|||||||0.138|||||||ANOVA|||Visit 8 versus Visit 5||||0.138
82370634|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.467|||||||ANOVA|||Visit 3 versus Visit 2||||0.467
82370635|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|||Visit 5 versus Visit 2||||0.250
82370636|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||Visit 5 versus Visit 3||||0.060
82370637|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.149|||||||ANOVA|||Visit 8 versus Visit 2||||0.149
82370638|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.061|||||||ANOVA|||Visit 8 versus Visit 3||||0.061
82370639|NCT01195272|164448739|SUPERIORITY_OR_OTHER|||||||0.047|||||||ANOVA|||Visit 8 versus Visit 5||||0.047
82370640|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.169|||||||ANOVA|||Visit 3 versus Visit 2||||0.169
82370641|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.165|||||||ANOVA|||Visit 5 versus Visit 2||||0.165
82370642|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.471|||||||ANOVA|||Visit 5 versus Visit 3||||0.471
82370643|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.243|||||||ANOVA|||Visit 8 versus Visit 2||||0.243
82370644|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.396|||||||ANOVA|||Visit 8 versus Visit 3||||0.396
82370645|NCT01195272|164448740|SUPERIORITY_OR_OTHER|||||||0.375|||||||ANOVA|||Visit 8 versus Visit 5||||0.375
82370646|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.496|||||||ANOVA|||Visit 3 versus Visit 2||||0.496
82370647|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.122|||||||ANOVA|||Visit 5 versus Visit 2||||0.122
82370648|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANOVA|||Visit 5 versus Visit 3||||0.070
82396371|NCT02117713|164503438|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-2.353|STANDARD_DEVIATION|0.7124||0.005|TWO_SIDED|95.0|-3.101|-1.606|||Student's t-test||Difference is only calculated in participants who had baseline and week 218 values for n=6|||-1.606|-3.101|0.005
82575909|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-18.3||||0.0064|TWO_SIDED|95.0|-31.3|-5.3|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-5.3|-31.3|0.0064
82647962|NCT00386100|165011346|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.2||||0.7015|TWO_SIDED|95.0|-1.5|1.0||Overall population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-1.5|0.7015
82370649|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.135|||||||ANOVA|||Visit 8 versus Visit 2||||0.135
82370650|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.082|||||||ANOVA|||Visit 8 versus Visit 3||||0.082
82370651|NCT01195272|164448741|SUPERIORITY_OR_OTHER|||||||0.461|||||||ANOVA|||Visit 8 versus Visit 5||||0.461
82370652|NCT01769339|164448746|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82370653|NCT01106014|164448788|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|99.0|0.46|0.78||one-sided p-value|Log Rank|||The primary analysis was performed on the Full Analysis Set by a one-sided unstratified log-rank test||0.78|0.46|<0.0001
82370654|NCT01106014|164448789|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|12.0||||0.0027|TWO_SIDED|99.0|1.0|24.0||One-sided p-value of the nonparametric ANCOVA, adjusted for 6-minute walk distance at baseline|ANCOVA||Point estimate and 2-sided 99% CI for location shift using the HodgesLehmann method|Non-parametric ANCOVA with 6MWD as covariate at baseline. Missing values were imputed based on the following imputation rules: 1) if patient was unable to walk at week 26, 0 meter was imputed, 2) if rule 1 did not apply, the second lowest observed 6MWD value (10 meters) at Week 26 was imputed. Missing values were imputed for 21.6% of the subjects.||24|1|0.0027
82370655|NCT01106014|164448790|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|It was assumed that the probabilities for absence of worsening in WHO FC at Week 26 were the same for both treatment groups|Odds Ratio, log|1.161||||0.2843|TWO_SIDED|99.0|0.811|1.664||Cochran-Mantel-Haenszel test stratified by WHO FC at baseline. For patients with missing NYHA/WHO FC at Week 26, the NYHA/WHO FC is considered as having worsened from baseline at Week 26. Missing values were imputed for 18.3% of subjects .|Cochran-Mantel-Haenszel|||||1.664|0.811|0.2843
82370656|NCT04763564|164448801|SUPERIORITY||||||<|0.03||||||A priori threshold for significance was \< 0.05. Significance level liraglutide vs. placebo in percent reduction of bowel frequency at week 4 vs. baseline.|Mixed Models Analysis|||The 2 treatment modalities, Liraglutide and Placebo, were compared. A repeated-measures mixed model was fitted to the data, with treatment (liraglutide or placebo), period, and treatment sequence as fixed effects and the repeated measures within the subject as a random effect.||||<0.03
82370657|NCT04763564|164448804|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||The 2 treatment modalities, Liraglutide and Placebo, were compared. A repeated-measures mixed model was fitted to the data, with treatment (liraglutide or placebo), period, and treatment sequence as fixed effects and the repeated measures within the subject as a random effect.||||0.01
82370658|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.46|1.6||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.60|1.46|< 0.0001
82370659|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.36|0.58||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||0.58|0.36|<0.0001
82529300|NCT00312858|164755189|NON_INFERIORITY_OR_EQUIVALENCE|Similarity (non-inferiority) based on lower bound of the 2-sided 95% CI on the risk difference seroresponse rates excluding a decrease of 10 percentage points or more (lower bound \>-10.0).|Risk Difference (RD)|-5.1||||0.013||95.0|-9.3|-1.4||Similarity (non-inferiority) indicated that the risk difference was statistically significantly greater than the pre-specified clinically relevant difference of -10 percentage points at the 1-sided multiplicity-adjusted α=0.025 level.|Miettinen and Nurminen|For testing the non-inferiority of 2 proportions. Stratified by investigator.|Difference in estimated response rates of Arm 1 - Arm 2.|Comparison of the difference (percentage points) in estimated response rates of Arm 1 - Arm 2 for participants with initial serostatus \<1.25 gpELISA units/mL||-1.4|-9.3|0.013
82529301|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 4||1.3|0.9|<0.001
82370660|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|1.71|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.65|1.78||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Border delineation; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.78|1.65|<0.0001
82370661|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|1.76|1.87||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.87|1.76|<0.0001
82396372|NCT02117713|164503439|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|56.0|STANDARD_DEVIATION|119.32||0.2607|TWO_SIDED|95.0|-54.4|166.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||166.4|-54.4|0.2607
82396373|NCT02117713|164503440|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-141.6|STANDARD_DEVIATION|216.25||0.134|TWO_SIDED|95.0|-341.6|58.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||58.4|-341.6|0.1340
82396374|NCT02117713|164503441|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|47.6|STANDARD_DEVIATION|75.68||0.1474|TWO_SIDED|95.0|-22.4|117.6|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||117.6|-22.4|0.1474
82396375|NCT02117713|164503442|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.58||1|TWO_SIDED|95.0|-0.5|0.5|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.5|-0.5|1.00
82396376|NCT02117713|164503443|EQUIVALENCE|Student's t-test used to test if mean change is statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-1.7|STANDARD_DEVIATION|1.38||0.0167|TWO_SIDED|95.0|-3.0|-0.4|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||-0.4|-3|0.0167
82396377|NCT02117713|164503444|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|10.9|STANDARD_DEVIATION|245.92||0.9108|TWO_SIDED|95.0|-216.6|238.3|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||238.3|-216.6|0.9108
82529302|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.0|||<|0.001|TWO_SIDED|95.0|0.8|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 6B||1.2|0.8|<0.001
82647963|NCT00386100|165011346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.6767|TWO_SIDED|95.0|-0.7|1.0||Male population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.0|-0.7|0.6767
82396378|NCT02117713|164503445|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant(null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|0.1207|STANDARD_DEVIATION|1.882||0.1207|TWO_SIDED|95.0|-3.03|0.45|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.45|-3.03|0.1207
82396379|NCT02117713|164503446|EQUIVALENCE|Student's t-test was used to test if mean change was statistically significant (null hypothesis is that the mean change from baseline is equal to zero).|Mean Difference (Net)|-0.943|STANDARD_DEVIATION|1.2488||0.0927|TWO_SIDED|95.0|-2.098|0.212|||Student's t-test||Difference is only calculated in participants who had baseline and week 216 values for n=7|||0.212|-2.098|0.0927
82647964|NCT00386100|165011346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.4199|TWO_SIDED|95.0|-3.4|1.5||Female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||1.5|-3.4|0.4199
82370662|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.42|0.64||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||0.64|0.42|<0.0001
82370663|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|2.03|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|1.95|2.11||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Internal morphology; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.11|1.95|<0.0001
82370664|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.56|2.72||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.72|2.56|<0.0001
82370665|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|1.68|1.96||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||1.96|1.68|<0.0001
82370666|NCT03986138|164448815|SUPERIORITY||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|2.26|2.41||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3. The null hypothesis for primary objective was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error set at 0.025. To conclude the superiority, the null hypothesis had to be rejected for all co-criteria simultaneously and for at least 2 out of 3 readers.||2.41|2.26|<0.0001
82370667|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.05|0.05||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.05|-0.05|<0.0001
82376754|NCT03996447|164459859|SUPERIORITY||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|2.84|2.95||To demonstrate the superiority, a statistically significant (one-sided p-value ≤0.025) positive difference in mean scores in border delineation, internal morphology and degree of contrast enhancement of lesions had to be met for 2 out of 3 readers.|t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3. The null hypothesis was that the difference in mean scores between Paired images and Pre-contrast images for each of the 3 co-primary criteria was equal to 0. The Null hypothesis was rejected if the difference was significantly different from zero with a type 1 error at 0.025. To conclude the superiority of gadopiclenol-enhanced MRI, the null hypothesis had to be rejected for all co-criteria simultaneously.||2.95|2.84|<.0001
82396380|NCT00678470|164503453|OTHER||Correlation|1.0||||0.0003|TWO_SIDED||||||Fisher Exact||||Using Fisher's non-parametric test of associations, correlations were determined between the patients who were intralesional responders with their response at ‡70% change in PASI score.|||0.0003
82396381|NCT01969084|164503495|SUPERIORITY_OR_OTHER||||||>|0.05||||||A p-value of \< 0.05 was considered statistically significant|Wilcoxon (Mann-Whitney)|||Data were expressed as the median (25th:75th percentiles) for non-normally distributed data. The mean±sd for the groups was not analyzed as per the statistical plan.||||>0.05
82370668|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.05|0.1||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.10|-0.05|<0.0001
82370669|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.1|0.01||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 3. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.01|-0.10|<0.0001
82396382|NCT00862459|164503500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_DEVIATION|1.49||0.003|||||||t-test, 2 sided|||2 sample t-test between the dose groups||||0.003
82396383|NCT00862459|164503500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_DEVIATION|1.59||0.844|||||||t-test, 2 sided|||||||0.844
82396384|NCT00862459|164503501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|STANDARD_DEVIATION|2.92||||95.0|-0.825|0.69|||confidence interval using t-distribution|||||0.69|-0.825|
82396385|NCT00862459|164503501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|3.18||||95.0|-0.9|0.79|||confidence interval using t-distribution|||||0.79|-0.90|
82396386|NCT00862459|164503502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|1.42||||95.0|-1.17|-0.42|||confidence interval using t-distribution|||||-0.42|-1.17|
82396387|NCT00862459|164503502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|1.57||||95.0|-0.44|0.41|||confidence interval using t-distribution|||||0.41|-0.44|
82396388|NCT00862459|164503503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|0.86||||95.0|-0.619|-0.17|||confidence interval using t-distribution|||||-0.17|-0.619|
82396389|NCT00862459|164503503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|1.01||||95.0|-0.25|0.22|||confidence interval using t-distribution|||||0.22|-0.25|
82396390|NCT00862459|164503504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_DEVIATION|0.76||||95.0|-0.58|-0.18|||confidence interval using t-distribution|||||-0.18|-0.58|
82396391|NCT00862459|164503504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.76||||95.0|-0.1|0.31|||confidence interval using t-distribution|||||0.31|-0.10|
82396392|NCT00862459|164503505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.54|STANDARD_DEVIATION|76.45||||95.0|-37.11|2.02|||confidence interval using t-distribution|||difference in CNR between doses and confidence interval||2.02|-37.11|
82396393|NCT00862459|164503505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.74|STANDARD_DEVIATION|77.11||||95.0|-15.86|25.35|||confidence interval using t-distribution|||||25.35|-15.86|
82396394|NCT00862459|164503506|SUPERIORITY_OR_OTHER||accuracy difference|1.66|STANDARD_ERROR_OF_MEAN|6.29||0.8||95.0|-10.93|14.24|||Chi-squared|Adjusted for clustering||||14.24|-10.93|0.80
82396395|NCT00862459|164503506|SUPERIORITY_OR_OTHER||difference in accuracies|-10.75|STANDARD_ERROR_OF_MEAN|6.83||0.13||95.0|-24.41|2.9|||Chi-squared|adjusted for clustering||||2.90|-24.41|0.13
82396396|NCT00862459|164503507|SUPERIORITY_OR_OTHER||difference in accuracy|13.43||||0.03||95.0|1.53|25.33|||Chi-squared|adjusted for clustering||||25.33|1.53|0.03
82396397|NCT00862459|164503507|SUPERIORITY_OR_OTHER||difference in accuracies|-13.58||||0.02||95.0|-25.07|-2.09|||Chi-squared|adjusted for clustering||||-2.09|-25.07|0.02
82396398|NCT00862459|164503508|SUPERIORITY_OR_OTHER||difference in accuracy|-6.13||||0.11||95.0|-13.73|1.48|||Chi-squared|adjusted for clustering||||1.48|-13.73|0.11
82396399|NCT00862459|164503508|SUPERIORITY_OR_OTHER||difference in accuracies|2.87||||0.55||95.0|-6.59|12.32|||Chi-squared|adjusted for clustering||||12.32|-6.59|0.55
82396400|NCT00862459|164503509|SUPERIORITY_OR_OTHER||difference in accuracy|24.63||||0.02||95.0|5.39|43.86|||Chi-squared|adjusted for clustering||||43.86|5.39|0.02
82396401|NCT00862459|164503509|SUPERIORITY_OR_OTHER||difference in accuracy|-10.75||||0.13||95.0|-24.41|2.9|||Chi-squared|adjusted for clustering||||2.90|-24.41|0.13
82396402|NCT00862459|164503510|SUPERIORITY_OR_OTHER||difference in accuracy|12.91||||0.07||95.0|-1.44|27.26|||Chi-squared|adjusted for clustering||||27.26|-1.44|0.07
82396403|NCT00862459|164503510|SUPERIORITY_OR_OTHER||difference in accuracy|-18.37||||0.02||95.0|-33.6|-1.35|||Chi-squared|adjusted for clustering||||-1.35|-33.60|0.02
82396404|NCT00862459|164503511|SUPERIORITY_OR_OTHER||difference in accuracy|18.46||||0.02||95.0|3.15|33.77|||Chi-squared|adjusted for clustering||||33.77|3.15|0.02
82396405|NCT00862459|164503511|SUPERIORITY_OR_OTHER||difference in accuracy|-5.29||||0.45||95.0|-18.83|8.24|||Chi-squared|adjusted for clustering||||8.24|-18.83|0.45
82396406|NCT00477607|164503563|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.89|TWO_SIDED|95.0|0.4|11.4|||Fisher Exact|No adjustments. Right one-sided p-value.||H0: pr(Hearing loss arm 1) = pr(Hearing loss arm 2)||11.4|0.4|0.89
82396407|NCT00477607|164503564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.195|STANDARD_ERROR_OF_MEAN|0.3999||0.63|TWO_SIDED|95.0|-1.03|0.64|||t-test, 2 sided|||H0: mean (MDA arm 1) = mean (MDA Arm 2)||0.64|-1.03|0.63
82396408|NCT00477607|164503565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.2|STANDARD_ERROR_OF_MEAN|32.7||0.15|TWO_SIDED|95.0|-18.1|114.6|||t-test, 2 sided|||H0: mean(max dose arm 1) = mean(max dose arm 2)||114.6|-18.1|0.15
82370670|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.06|0.05|||t-test, 2 sided|||Criterion: Internal morphology; Reader 1||0.05|-0.06|<0.0001
82370671|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.07|0.07|||t-test, 2 sided|||Criterion: Internal morphology; Reader 2||0.07|-0.07|<0.0001
82370672|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.08|0.02|||t-test, 2 sided|||Criterion: Internal morphology; Reader 3||0.02|-0.08|<0.0001
82370673|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.06|0.09|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1||0.09|-0.06|<0.0001
82370674|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.07|0.12|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2||0.12|-0.07|<0.0001
82370675|NCT03986138|164448816|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.08|0.04|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3||0.04|-0.08|<0.0001
82370676|NCT00667810|164448853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.83||||0.057|TWO_SIDED|95.0|-3.71|0.05||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in ADAS-Cog/11 total score was analyzed using a restricted maximum likelihood (REML) based mixed model for repeated-measures (MMRM). The number of participants in each group provided approximately 90% power to detect a 2.65 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||0.05|-3.71|0.057
82370677|NCT00667810|164448853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.848|TWO_SIDED|95.0|-1.73|2.1||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in ADAS-Cog/11 total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 2.65 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||2.10|-1.73|0.848
82370678|NCT00667810|164448854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.459|TWO_SIDED|95.0|-2.48|5.49||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in DAD total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 6.56 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||5.49|-2.48|0.459
82370679|NCT00667810|164448854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.623|TWO_SIDED|95.0|-3.04|5.07||The p-value is not adjusted for multiple comparison. The Hochberg approach is used to control for multiplicity between the two dose levels (0.5 mg/kg and 1.0 mg/kg) of bapineuzumab.|Mixed Models Analysis|||Change from baseline in DAD total score was analyzed using a REML based MMRM. The number of participants in each group provided approximately 90% power to detect a 6.56 point advantage at Week 78. This calculation was based on a 2-sided test with alpha set at 0.05, the use of the Hochberg procedure to control for multiplicity.||5.07|-3.04|0.623
82370680|NCT00667810|164448855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.654|TWO_SIDED|95.0|-0.15|0.09|||Mixed Models Analysis|||The analysis is based on the pooled bapineuzumab (with subjects in the bapineuzumab 0.5 and 1.0 mg/kg groups combined) treatment difference estimated at Week 71. The number of participants gave 90% power to detect a 0.186 unit advantage for a bapineuzumab dose group over placebo for PiB PET binding at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||0.09|-0.15|0.654
82370681|NCT00667810|164448856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.18||||0.085|TWO_SIDED|95.0|-15.38|1.02|||ANCOVA|||The analysis is based on the pooled bapineuzumab (with subjects in the bapineuzumab 0.5 and 1.0 mg/kg groups combined) treatment difference estimated at Week 71. The number of participants gave 90% power to detect a 15 ng/L advantage in p-tau for a bapineuzumab dose group over placebo at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||1.02|-15.38|0.085
82370682|NCT00667810|164448857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.437|TWO_SIDED|95.0|-1.55|3.57|||Mixed Models Analysis|||Change in MRI BBSI was analyzed using a REML based MMRM. The number of participants gave 90% power to detect a 5.05-cm3 advantage for a bapineuzumab dose group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||3.57|-1.55|0.437
82370683|NCT00667810|164448857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.423|TWO_SIDED|95.0|-1.54|3.66|||Mixed Models Analysis|||Change in MRI BBSI was analyzed using a REML based MMRM. The number of participants gave 90% power to detect a 5.05-cm3 advantage for a bapineuzumab dose group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05 and the use of the Hochberg procedure to control for multiplicity for 2 individual doses.||3.66|-1.54|0.423
82370684|NCT00667810|164448858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.212|TWO_SIDED|95.0|-3.4|0.76|||Mixed Models Analysis|||||0.76|-3.40|0.212
82370685|NCT00667810|164448858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.725|TWO_SIDED|95.0|-1.76|2.52|||Mixed Models Analysis|||||2.52|-1.76|0.725
82370686|NCT00667810|164448859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.149|TWO_SIDED|95.0|-1.15|7.56|||Mixed Models Analysis|||||7.56|-1.15|0.149
82370687|NCT00667810|164448859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.01||||0.375|TWO_SIDED|95.0|-2.44|6.46|||Mixed Models Analysis|||||6.46|-2.44|0.375
82370688|NCT00667810|164448860|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||Not specifed.|Log Rank|||||||0.030
82370689|NCT00667810|164448860|SUPERIORITY_OR_OTHER|||||||0.567|TWO_SIDED||||||Log Rank|||||||0.567
82647965|NCT00386100|165011346|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.5||||0.2526|TWO_SIDED|95.0|-16.4|5.4||Premenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||5.4|-16.4|0.2526
82370690|NCT00667810|164448861|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED||||||Log Rank|||||||0.079
82370691|NCT00667810|164448861|SUPERIORITY_OR_OTHER|||||||0.675|TWO_SIDED||||||Log Rank|||||||0.675
82370692|NCT00667810|164448862|SUPERIORITY_OR_OTHER|||||||0.846|TWO_SIDED||||||Log Rank|||Not spsecified.||||0.846
82370693|NCT00667810|164448862|SUPERIORITY_OR_OTHER|||||||0.797|TWO_SIDED||||||Log Rank|||||||0.797
82370694|NCT00667810|164448863|SUPERIORITY_OR_OTHER|||||||0.933|TWO_SIDED||||||Log Rank|||||||0.933
82370695|NCT00667810|164448863|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Log Rank|||||||0.714
82370696|NCT00667810|164448865|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.277
82370697|NCT00667810|164448865|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.996
82370698|NCT00667810|164448867|SUPERIORITY_OR_OTHER|||||||0.855|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.855
82370699|NCT00667810|164448867|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.423
82370700|NCT00667810|164448868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.516|TWO_SIDED|95.0|-0.65|0.33|||Mixed Models Analysis|||Change in DS score was analyzed using a REML based MMRM.||0.33|-0.65|0.516
82370701|NCT00667810|164448868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.257|TWO_SIDED|95.0|-0.79|0.21|||Mixed Models Analysis|||Change in DS score was analyzed using a REML based MMRM.||0.21|-0.79|0.257
82529303|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|0.9|||<|0.001|TWO_SIDED|95.0|0.8|1.0|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 9V||1.0|0.8|<0.001
82370702|NCT00667810|164448869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.238|TWO_SIDED|95.0|-0.96|0.24|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a REML based MMRM.||0.24|-0.96|0.238
82370703|NCT00667810|164448869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.564|TWO_SIDED|95.0|-0.78|0.43|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a REML based MMRM.||0.43|-0.78|0.564
82529304|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 14||1.2|0.9|<0.001
82370704|NCT03514641|164448893|SUPERIORITY||LS Means difference|-2.72||||0.0025|TWO_SIDED|95.0|-4.47|-0.96|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.96|-4.47|0.0025
82370705|NCT03514641|164448894|SUPERIORITY||Mean Difference (Final Values)|-2.43||||0.0117|TWO_SIDED|95.0|-4.32|-0.54|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.54|-4.32|0.0117
82370706|NCT03514641|164448895|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1317|TWO_SIDED|95.0|0.92|1.83||Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP|Covariance|||||1.83|0.92|0.1317
82370707|NCT03514641|164448896|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0113|TWO_SIDED|95.0|1.11|2.3|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.30|1.11|0.0113
82370708|NCT03514641|164448897|SUPERIORITY||Mean Difference (Final Values)|-4.63|||<|0.0001|TWO_SIDED|95.0|-6.83|-2.42|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-2.42|-6.83|<0.0001
82370709|NCT03514641|164448898|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0004|TWO_SIDED|95.0|1.32|2.62|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.62|1.32|0.0004
82370710|NCT03514641|164448899|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.0863|TWO_SIDED|95.0|-1.79|0.12|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.12|-1.79|0.0863
82370711|NCT03514641|164448900|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0232|TWO_SIDED|95.0|1.06|2.08|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.08|1.06|0.0232
82370712|NCT03514641|164448901|SUPERIORITY||Odds Ratio (OR)|1.81||||0.014|TWO_SIDED|95.0|1.13|2.91|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.91|1.13|0.0140
82370713|NCT03514641|164448902|SUPERIORITY||Mean Difference (Final Values)|-2.31||||0.0011|TWO_SIDED|95.0|-3.7|-0.92|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.92|-3.70|0.0011
82370714|NCT03514641|164448903|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0094|TWO_SIDED|95.0|1.13|2.35|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||2.35|1.13|0.0094
82370715|NCT03514641|164448904|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.0083|TWO_SIDED|95.0|-5.57|-0.83|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||-0.83|-5.57|0.0083
82370716|NCT03514641|164448905|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.1085|TWO_SIDED|95.0|-1.87|0.19|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.19|-1.87|0.1085
82370717|NCT03514641|164448906|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0837|TWO_SIDED|95.0|-2.67|0.17|||Covariance|Covariance model diabetes status, eGFR at screening, pre-treatment status, treatment, and baseline 24-hour mean SBP||||0.17|-2.67|0.0837
82396409|NCT01953432|164503570|OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED||||||||Probability of 0.75 that the OR exceeded 1.00 (OR = 1.01, 95% CI = 0.98-1.05)|||||
82396410|NCT01953432|164503570|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED||||||||Probability of 0.96 that the odds ratio exceeded 1.00 (OR = 1.03, 95% CI = 1.00-1.07)|||||
82644546|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|16.8||||0.7714|TWO_SIDED|95.0|-20.0|53.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||53.5|-20.0|0.7714
82370718|NCT00505375|164448909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.0014
82370719|NCT01055132|164448931|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve 80% power with 0.05 type I error.|Least-square mean difference|-0.037|STANDARD_ERROR_OF_MEAN|0.0072|||TWO_SIDED|95.0|-0.041|-0.0013|||linear mixed model|Sequence of wear, period and lens were included as fixed effects; site, patient, eye\*patient, period\*patient and period\*eye\*patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference(test minus control). The non-inferiority was concluded if the upper limit of the confidence limit is below 0.05 LogMAR.|Ho:The test lens is non-inferior to the active comparator lens for monocular visual performance on logMAR scale at 1-week follow-up. A non-inferiority margin of 0.05 logMAR was used.||-0.0013|-0.041|
82370720|NCT01055132|164448932|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|Least-square mean difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0062|||TWO_SIDED|95.0|-0.027|-0.003|||linear mixed model|Sequence of wear,lens period and lens were included in the model as fixed effects; site, patient, period\*patient were included as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the upper limit of the confidence limit is below 0.05 LogMAR.|Ho:The test lens is non-inferior to the active comparator lens for Binocular visual performance on logMAR scale at 1-week follow-up. A non-inferiority margin of 0.05 logMAR was used.||-0.003|-0.027|
82370721|NCT01055132|164448933|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|Least-square mean difference|11.9|STANDARD_ERROR_OF_MEAN|3.93|||TWO_SIDED|95.0|4.05|19.79|||linear mixed model|Sequence of lens wear, lens period and lens type were included in the model as fixed effects; and Site and patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the lower limit of the confidence interval is higher than -5.|Ho:The test lens is non-inferior to the active comparator lens for comfort at 1-week follow-up. A non-inferiority margin of -5 units was used.||19.79|4.05|
82370722|NCT01055132|164448934|NON_INFERIORITY_OR_EQUIVALENCE|Based on historical data, a minimum of 42 subjects is needed to achieve a minimum of 80% power with 0.05 type I error.|least-square mean difference|7.7|STANDARD_ERROR_OF_MEAN|3.55|||TWO_SIDED|95.0|0.58|14.8|||linear mixed model|Sequence of lens wear, lens period and lens type were included in the model as fixed effects; and site and patient as random effects.|Comparison between study lenses was carried out using 2-sided 95% confidence interval of the least-square mean difference (test minus control). The non-inferiority was concluded if the lower limit of the confidence interval is higher than -5.|Ho:The test lens is non-inferior to the active comparator lens for overall quality of vision at 1-week follow-up. A non-inferiority margin of -5 units was used.||14.80|0.58|
82370723|NCT01659866|164448956|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82370724|NCT02633488|164448984|EQUIVALENCE|equivalence defined as less that 2 SD in FMD between 2 treatments|||||>|0.05||||||FMD % change exceeded the threshold of our statistical significance test, i.e. the null hypothesis that there was no effect of metformin remained tenable.|t-test, 2 sided|||||||>0.05
82370725|NCT00415194|164448997|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.082|TWO_SIDED|95.0|0.75|1.02|||Stratified Log Rank|||||1.02|0.75|0.082
82370726|NCT00415194|164448998|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.166|TWO_SIDED|95.0|0.76|1.03|||Stratified Log Rank|||||1.03|0.76|0.166
82370727|NCT00415194|164448999|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Unadjusted normal distribution|p-value is based on an unadjusted, normal distribution approximation for differences in rates.||||||0.061
82396411|NCT00474786|164503571|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.1933|TWO_SIDED|95.0|0.71|1.07||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and Memorial Sloan Kettering Cancer Center (MSKCC) prognostic group.|Log Rank||Hazard ratio less than (\<) 1 means temsirolimus (TEMSR) is at lower risk.|||1.07|0.71|0.1933
82396412|NCT00474786|164503572|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.1888|TWO_SIDED|95.0|0.7|1.07||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and Memorial Sloan Kettering Cancer Center (MSKCC) prognostic group.|Log Rank||Hazard ratio less than (\<) 1 means temsirolimus (TEMSR) is at lower risk.|||1.07|0.70|0.1888
82396413|NCT00474786|164503574|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.31||||0.0144|TWO_SIDED|95.0|1.05|1.63||Stratified for nephrectomy status, duration of response to sunitinib therapy, tumor histology, and MSKCC prognostic group.|Log Rank||Hazard ratio \<1 means temsirolimus (TEMSR) is at lower risk.|||1.63|1.05|0.0144
82370728|NCT00415194|164449000|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.811|TWO_SIDED|95.0|0.56|1.53|||Stratified Log Rank|||||1.53|0.56|0.811
82396414|NCT02892513|164503578|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82426431|NCT00945659|164561840|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|0.86||0.64|TWO_SIDED|95.0|-1.29|2.08|||Generalized Estimating Equation|||||2.08|-1.29|0.64
82370729|NCT00415194|164449001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.2|TWO_SIDED|95.0|0.69|1.07|||Stratified Log Rank|||||1.07|0.69|0.20
82370730|NCT01297465|164449003|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.947|||TWO_SIDED|95.0|-3.15|0.59|||ANOVA|ANOVA model adjusted for treatment and country|The primary efficacy variable was to be analyzed using an analysis of variance (ANOVA) model, adjusted for treatment and country.|The null hypothesis was that the difference between the mean number of oocytes is less than (-3) or greater than (+3) between the two treatment arm. The alternate hypothesis was that the difference is between (-3) and (+3). The study had 80% power to show that the group randomized to Pergoveris® has an absolute difference of no more than 3 oocytes retrieved in comparison to the group randomized to GONAL-f®/Pergoveris®||0.59|-3.15|
82370731|NCT00988442|164449038|SUPERIORITY_OR_OTHER|||||||1||||||Two-sided 5% significance level.|Fisher Exact|||A Fisher's exact test was used to compare the proportion of participants with virologic suppression, defined as HIV-1 RNA less than 200 copies/mL at week 48 between the standard of care and standard of care + enhanced telephone support groups.||||1.000
82370732|NCT02731326|164449074|EQUIVALENCE|The study was designed to have 80% power to detect a hazard ratio of 2 for recurrence detection (α = .05).|Hazard Ratio (HR)|1.56||||0.05|TWO_SIDED|95.0|1.06|2.3|||Regression, Cox||Treatment arm equals numerator. Control arm=denominator.|The study was designed to have 80% power to detect a hazard ratio of 2 for recurrence detection (α = .05). Kaplan-Meier curves were created for recurrence detection in the intervention and control groups over the 6-month follow-up period. Differences in time to recurrence between groups were assessed using a Cox proportional hazards model. Baseline variables that differed significantly between groups were included as covariates and adjusted Kaplan-Meier curves were constructed.||2.30|1.06|0.05
82370733|NCT02731326|164449075|EQUIVALENCE|The study was designed to have 80% power to detect a hazard ratio of 2 (α = .05).|Hazard Ratio (HR)|0.33||||0.05|TWO_SIDED|95.0|0.09|0.58|||Regression, Cox||Treatment arm equals numerator. Control arm=denominator.|Kaplan-Meier curves were created for assessing time to treatment for intervention and control groups. Time to treatment was defined as the time interval from detection of a recurrent arrhythmia to treatment for that arrhythmia.||0.58|0.09|0.05
82370734|NCT02731326|164449076|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.19|0.58|||Regression, Cox|||||0.58|0.19|<.0001
82370735|NCT02731326|164449077|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82370736|NCT02731326|164449078|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
82370737|NCT00302081|164449085|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority for SVR was concluded if the lower limit of the one-sided 95% CI was greater than -10%. Otherwise, noninferiority was concluded for both dose and treatment duration comparisons if the lower limits of the two-sided 95% CIs were greater than -10%.|Risk Difference (RD)|-0.02||||0.041||95.0|-0.1|1.0||The Hochberg procedure was used to adjust for the multiple comparisons (\[PEG2b 1.0/R(24 weeks)\] - \[PEG2b 1.5/R(24 weeks\]) and (\[PEG2b 1.5/R(16 weeks)\]-\[PEG2b 1.5/R(24 weeks)\]).|z-test (non-inferiority margin=-0.1)|SVR rates are 0.665 (153/230 subjects) in the 1.5-dose group and 0.643 (144/224 subjects) in the 1.0-dose group, for a risk difference of -0.02.||This is an evaluation of the effect of the peginterferon alfa-2b dose (1.0 vs 1.5 micrograms/kg/week) on the primary outcome measure.||1|-0.10|0.041
82370738|NCT00302081|164449085|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority for SVR was concluded if the lower limit of the one-sided 95% CI was greater than -10%. Otherwise, noninferiority was concluded for both dose and treatment duration comparisons if the lower limits of the two-sided 95% CIs were greater than -10%.|Risk Difference (RD)|-0.1||||0.495||95.0|-0.17|1.0||The Hochberg procedure was used to adjust for the multiple comparisons (\[PEG2b 1.0/R(24 weeks)\] - \[PEG2b 1.5/R(24 weeks\]) and (\[PEG2b 1.5/R(16 weeks\]-\[PEG2b 1.5/R(24 weeks\]).|z-test (non-inferiority margin=-0.1)|SVR rates are 0.665 (153/230 subjects) in the 24-week group and 0.566 (129/228 subjects) in the 16-week group, for a risk difference of -0.10.||This is an evaluation of the effect of treatment duration (24 weeks vs 16 weeks) on the primary outcome measure.||1|-0.17|0.495
82370739|NCT01568320|164449176|SUPERIORITY_OR_OTHER_LEGACY||Freedom from Major adverse events (%)|71.6|||||TWO_SIDED|95.0|59.0|82.0|||||Clopper-Pearson (Exact) Method|||82|59|
82370740|NCT01568320|164449177|SUPERIORITY_OR_OTHER_LEGACY||Survival rate (%)|95.5|||||TWO_SIDED|95.0|87.0|99.0|||||Clopper-Pearson (Exact) Method|||99|87|
82370741|NCT01394952|164449200|SUPERIORITY|"Superiority was declared if the upper limit of the 2-sided 95.33% confidence interval (CI) of the hazard ratio was below 1.0 (after adjustment for the interim analysis).~Once superiority was achieved for the primary endpoint, multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467."|Hazard Ratio (HR)|0.88||||0.026|TWO_SIDED|95.33|0.79|0.99|||Regression, Cox|||Primary CV endpoint||0.99|0.79|0.026
82370742|NCT01394952|164449201|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.91||||0.211|TWO_SIDED|95.0|0.78|1.06|||Regression, Cox|||Death from CV causes||1.06|0.78|0.211
82370743|NCT01394952|164449201|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.96||||0.652|TWO_SIDED|95.0|0.79|1.16|||Regression, Cox|||Nonfatal MI||1.16|0.79|0.652
82396415|NCT00432276|164503579|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.|LS mean difference|-0.47|||||ONE_SIDED|97.5||-0.35|||ANCOVA||Least squares means are from an ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.||-0.35||
82426432|NCT00945659|164561840|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_DEVIATION|0.92||0.65|TWO_SIDED|95.0|-2.22|1.39|||Generalized Estimating Equation|||||1.39|-2.22|0.65
82426433|NCT00945659|164561841|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_DEVIATION|63.4||0.99|TWO_SIDED|95.0|-123.56|124.97|||Generalized Estimating Equation|||||124.97|-123.56|0.99
82426434|NCT00945659|164561841|SUPERIORITY||Mean Difference (Net)|-1.22|STANDARD_DEVIATION|13.81||0.93|TWO_SIDED|95.0|-28.26|25.83|||Generalized Estimating Equation|||||25.83|-28.26|0.93
82370744|NCT01394952|164449201|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.76||||0.017|TWO_SIDED|95.0|0.61|0.95|||Regression, Cox|||Nonfatal stroke||0.95|0.61|0.017
82370745|NCT01394952|164449202|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.9||||0.067|TWO_SIDED|95.0|0.8|1.01|||Regression, Cox|||Time to all cause mortality||1.01|0.80|0.067
82370746|NCT01394952|164449203|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.93|||Regression, Cox|||microvascular endpoint||0.93|0.79|<0.001
82370747|NCT01394952|164449204|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|0.93||||0.456|TWO_SIDED|95.0|0.77|1.12|||Regression, Cox|||Heart failure requiring hospitalization or an urgent heart failure clinic visit||1.12|0.77|0.456
82370748|NCT01394952|164449205|SUPERIORITY|Multiplicity adjustments using the graphical approach were performed for secondary efficacy endpoints in order to control the overall Type I error rate at a 2-sided alpha level of 0.0467.|Hazard Ratio (HR)|1.14||||0.413|TWO_SIDED|95.0|0.84|1.54|||Regression, Cox|||Hospitalization for unstable angina||1.54|0.84|0.413
82370749|NCT01986010|164449213|OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|0.8|2.6||||||GMT Ratio: GMT V160/GMT placebo||2.6|0.8|
82370750|NCT01986010|164449213|OTHER||GMT Ratio|1.9|||||TWO_SIDED|95.0|1.1|3.2||||||GMT Ratio: GMT V160/GMT placebo||3.2|1.1|
82370751|NCT01986010|164449213|OTHER||GMT Ratio|3.5|||||TWO_SIDED|95.0|1.6|7.4||||||GMT Ratio: GMT V160/GMT placebo||7.4|1.6|
82370752|NCT01986010|164449213|OTHER||GMT Ratio|2.6|||||TWO_SIDED|95.0|1.4|4.6||||||GMT Ratio: GMT V160/GMT placebo||4.6|1.4|
82370753|NCT01986010|164449213|OTHER||GMT Ratio|1.6|||||TWO_SIDED|95.0|0.9|3.0||||||GMT Ratio: GMT V160/GMT placebo||3.0|0.9|
82396416|NCT00432276|164503579|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted at the 1-sided 0.025 significance level. Non-inferiority was demonstrated if the upper confidence limit for the LS mean difference was less than +0.3%.|LS mean difference|-0.42|||||ONE_SIDED|97.5||-0.28|||ANCOVA||Least squares means are from an ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.|Comparison of Change from Baseline at Week 52. The null hypothesis was that the average change from Baseline in HbA1c at Week 52 for the alogliptin 25 mg addition group is inferior to the average change for the pioglitazone titration group. The alternative hypothesis was that the change from Baseline in HbA1c for the alogliptin 25 mg addition group was non-inferior to the change for the pioglitazone titration group for at Week 52.||-0.28||
82426435|NCT00945659|164561842|SUPERIORITY||Mean Difference (Net)|1.17|STANDARD_DEVIATION|1.47||0.43|TWO_SIDED|95.0|-1.7|4.04|||Generalized Estimating Equation|||||4.04|-1.70|0.43
82370754|NCT01986010|164449213|OTHER||GMT Ratio|3.9|||||TWO_SIDED|95.0|2.2|7.0||||||GMT Ratio: GMT V160/GMT placebo||7.0|2.2|
82370755|NCT01986010|164449213|OTHER||GMT Ratio|16.4|||<|0.001|TWO_SIDED|95.0|9.5|28.4||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||28.4|9.5|<0.001
82370756|NCT01986010|164449213|OTHER||GMT Ratio|76.6|||<|0.001|TWO_SIDED|95.0|49.5|118.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||118.6|49.5|<0.001
82370757|NCT01986010|164449213|OTHER||GMT Ratio|68.1|||<|0.001|TWO_SIDED|95.0|40.1|115.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||115.6|40.1|<0.001
82370758|NCT01986010|164449213|OTHER||GMT Ratio|41.0|||<|0.001|TWO_SIDED|95.0|23.8|70.7||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||70.7|23.8|<0.001
82370759|NCT01986010|164449213|OTHER||GMT Ratio|128.6|||<|0.001|TWO_SIDED|95.0|87.0|190.3||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||190.3|87.0|<0.001
82370760|NCT01986010|164449213|OTHER||GMT Ratio|62.0|||<|0.001|TWO_SIDED|95.0|30.5|126.1||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||126.1|30.5|<0.001
82370761|NCT01986010|164449213|OTHER||GMT Ratio|63.0|||<|0.001|TWO_SIDED|95.0|31.9|124.6||Hypothesis is GMT Ratio \>1|Two sample t-test|||GMT Ratio: GMT V160/GMT placebo||124.6|31.9|<0.001
82370762|NCT00536263|164449228|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.008||||0.86|TWO_SIDED|95.0|-0.063|0.079||P-values are unadjusted; Hochberg's adjustment for multiple comparisons was used to maintain the overall 0.05 significance level in test of superiority using the Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by genotype||"Null hypothesis: no difference in the proportion with HBeAg loss.~Based on the targeted sample size, there was 80% statistical power (2-sided 0.05 alpha) to detect a true 36% HBeAg loss rate in this treatment arm versus a true rate of 23% in the control arm."||0.079|-0.063|0.860
82370763|NCT00536263|164449228|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.139|||<|0.001|TWO_SIDED|95.0|0.061|0.217||P-values are unadjusted; Hochberg's adjustment for multiple comparisons was used to maintain the overall 0.05 significance level in test of superiority using the Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by genotype||"Null hypothesis: no difference in the proportion with HBeAg loss.~Based on the targeted sample size, there was 80% statistical power (2-sided 0.05 alpha) to detect a true 36% HBeAg loss rate in this treatment arm versus a true rate of 23% in the control arm."||0.217|0.061|<0.001
82370764|NCT00536263|164449228|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority of PEG 1.5 mcg/kg\*24 weeks with respect to PEG 1.5 mcg/kg\*48 weeks was to be concluded if the lower bound of the one-sided 95% confidence interval of the difference of the rates (PEG 1.5 mcg/kg\*24 weeks minus PEG 1.5 mcg/kg\*48 weeks) was greater than the noninferiority margin of -10%.|Pairwise rate difference|-0.132|||||TWO_SIDED|90.0|-0.198|-0.065||||||||-0.065|-0.198|
82370765|NCT00536263|164449229|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.011||||0.7|TWO_SIDED|95.0|-0.074|0.052|||Cochran-Mantel-Haenszel|Stratified by genotype||||0.052|-0.074|0.700
82370766|NCT00536263|164449229|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.054||||0.125|TWO_SIDED|95.0|-0.014|0.123|||Cochran-Mantel-Haenszel|Stratified by genotype||||0.123|-0.014|0.125
82370767|NCT00536263|164449229|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.065|||||TWO_SIDED|90.0|-0.122|-0.008||||||||-0.008|-0.122|
82370768|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.016||||0.598|TWO_SIDED|95.0|-0.078|0.047|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.047|-0.078|0.598
82370769|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.041||||0.24|TWO_SIDED|95.0|-0.027|0.108|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.108|-0.027|0.24
82370770|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.056|||||TWO_SIDED|90.0|-0.112|-0.001||||||End of treatment||-0.001|-0.112|
82396417|NCT00432276|164503580|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|||<|0.001|TWO_SIDED|95.0|-0.57|-0.31||Statistical tests and resulting P-values are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule, and geographic region as class variables, and baseline metformin dose and baseline HbA1c as covariates.||Comparison of change from Baseline in HbA1c at Week 42.||-0.31|-0.57|<0.001
82529305|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 18C||1.3|0.9|<0.001
82529306|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.2|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 19F||1.2|0.9|<0.001
82575910|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-19.8||||0.0039|TWO_SIDED|95.0|-33.0|-6.5|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-6.5|-33.0|0.0039
82575911|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-28.9||||0.0001|TWO_SIDED|95.0|-42.9|-14.8|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-14.8|-42.9|0.0001
82426436|NCT00945659|164561842|SUPERIORITY||Mean Difference (Net)|-2.59|STANDARD_DEVIATION|1.87||0.08|TWO_SIDED|95.0|-5.5|0.32|||Generalized Estimating Equation|||||0.32|-5.50|0.08
82529307|NCT00312858|164755190|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion is met if the lower bound of the 95% confidence interval of the response ratio is \>0.5, excluding a decrease of 2-fold or more|Response ratio (Arm 1 / Arm 2)|1.1|||<|0.001|TWO_SIDED|95.0|1.0|1.3|||ANCOVA||Response ratio is based on statistical models adjusting the GMT for combined study center and prevaccination titer|Serotype 23F||1.3|1.0|<0.001
82575912|NCT03392168|164861263|SUPERIORITY||Least squares mean difference|-23.0||||0.0019|TWO_SIDED|95.0|-37.3|-8.7|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-8.7|-37.3|0.0019
82575913|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-4.3||||0.3626|TWO_SIDED|95.0|-13.6|5.0|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.0|-13.6|0.3626
82575914|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-8.1||||0.1011|TWO_SIDED|95.0|-17.8|1.6|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||1.6|-17.8|0.1011
82575915|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-15.5||||0.0017|TWO_SIDED|95.0|-25.1|-6.0|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-6.0|-25.1|0.0017
82370771|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.006||||0.83|TWO_SIDED|95.0|-0.075|0.063|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.063|-0.075|0.830
82370772|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.13||||0.001|TWO_SIDED|95.0|0.053|0.208|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.208|0.053|0.001
82370773|NCT00536263|164449230|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.136||||||90.0|-0.201|-0.071||||||24 weeks after EOT||-0.071|-0.201|
82370774|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.072||||0.076|TWO_SIDED|95.0|-0.007|0.151|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.151|-0.007|0.076
82370775|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.135||||0.001|TWO_SIDED|95.0|0.053|0.216|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.216|0.053|0.001
82370776|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.063|||||TWO_SIDED|90.0|-0.135|0.009||||||End of treatment||0.009|-0.135|
82370777|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.017||||0.662|TWO_SIDED|95.0|-0.058|0.092|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.092|-0.058|0.662
82370778|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.139|||<|0.001|TWO_SIDED|95.0|0.059|0.22|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.220|0.059|<0.001
82370779|NCT00536263|164449231|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.122|||||TWO_SIDED|90.0|-0.191|-0.053||||||24 weeks after EOT||-0.053|-0.191|
82370780|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.019||||0.373|TWO_SIDED|95.0|-0.023|0.061|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.061|-0.023|0.373
82426437|NCT00945659|164561843|SUPERIORITY||Mean Difference (Net)|1.32|STANDARD_DEVIATION|1.66||0.43|TWO_SIDED|95.0|-1.94|4.56|||Generalized Estimating Equation|||||4.56|-1.94|0.43
82529308|NCT01200030|164755301|OTHER|The effect size of the intervention was adopted from a mate-analysis . The showed an average effect size of 0.59 in improving the motor control of limbs in people with stroke. A sample size for each group was set at 11 . Presuming that there would be a drop-out rate of 10% during the course of study, an extra 1 subject was recruited in each group. the sample size was 36. The statistical significance was set at 5% (alpha \< 0.05) with power equal to 80%|||||<|0.001||||||Post-hoc pairwise comparisons have been conducted. Please refer to subsequent data analyses.|Kruskal-Wallis|||Null hypothesis: No significant differences existed between the percentage of change in Trunk Impairment Scale (TIS) score among the three groups.||||<0.001
82370781|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.049||||0.04|TWO_SIDED|95.0|0.003|0.096|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.096|0.003|0.040
82370782|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.03|||||TWO_SIDED|90.0|-0.072|0.011||||||End of treatment||0.011|-0.072|
82370783|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.001||||0.969|TWO_SIDED|95.0|-0.041|0.043|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.043|-0.041|0.969
82370784|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.045||||0.074|TWO_SIDED|95.0|-0.004|0.094|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.094|-0.004|0.074
82370785|NCT00536263|164449232|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.044|||||TWO_SIDED|90.0|-0.085|-0.003||||||24 weeks after EOT||-0.003|-0.085|
82370786|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004||||0.724|TWO_SIDED|95.0|-0.027|0.019|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.019|-0.027|0.724
82396418|NCT00432276|164503588|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-16.2|-5.7||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and FPG as covariates.||Comparison of change from Baseline at Week 52.||-5.7|-16.2|<0.001
82426438|NCT00945659|164561843|SUPERIORITY||Mean Difference (Net)|-3.71|STANDARD_DEVIATION|1.36||0.007|TWO_SIDED|95.0|-6.38|-1.04|||Generalized Estimating Equation|||||-1.04|-6.38|.007
82529309|NCT01200030|164755301|OTHER|||||||1||||||The p-value was adjusted for multiple comparisons. A p-value smaller than 0.05 indicated statistical significance.|Wilcoxon (Mann-Whitney)|||Post-Hoc pairwise comparison comparing the effects of electrical stimulation with exercises group and placebo stimulation with exercises group. Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups.||||1.00
82529310|NCT01200030|164755301|OTHER|||||||0.002||||||The p-value was adjusted for multiple comparisons. A p-value smaller than 0.05 indicated statistical significance.|Wilcoxon (Mann-Whitney)|||"Post-Hoc pairwise comparison comparing the effects of electrical stimulation with exercises group and control group.~Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups."||||0.002
82370787|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.018||||0.243|TWO_SIDED|95.0|-0.012|0.048|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.048|-0.012|0.243
82370788|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.022|||||TWO_SIDED|90.0|-0.046|0.002||||||End of treatment||0.002|-0.046|
82370789|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004||||0.724|TWO_SIDED|95.0|-0.027|0.019|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.019|-0.027|0.724
82370790|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.018||||0.232|TWO_SIDED|95.0|-0.012|0.048|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.048|-0.012|0.232
82370791|NCT00536263|164449233|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.022|||||TWO_SIDED|90.0|-0.046|0.002||||||24 weeks after EOT||0.002|-0.046|
82370792|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.056||||0.219|TWO_SIDED|95.0|-0.033|0.145|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.145|-0.033|0.219
82370793|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.126||||0.006|TWO_SIDED|95.0|0.037|0.216|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.216|0.037|0.006
82370794|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.071|||||TWO_SIDED|90.0|-0.148|0.006||||||End of treatment||0.006|-0.148|
82370795|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.082||||0.067|TWO_SIDED|95.0|-0.004|0.168|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.168|-0.004|0.067
82370796|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.18|||<|0.001|TWO_SIDED|95.0|0.092|0.268|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.268|0.092|<0.001
82370797|NCT00536263|164449234|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.098|||||TWO_SIDED|90.0|-0.174|-0.021||||||24 weeks after EOT||-0.021|-0.174|
82370798|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.001||||0.995|TWO_SIDED|95.0|-0.039|0.041|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.041|-0.039|0.995
82370799|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.054||||0.031|TWO_SIDED|95.0|0.005|0.103|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.103|0.005|0.031
82370800|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.053|||||TWO_SIDED|90.0|-0.094|-0.012||||||End of treatment||-0.012|-0.094|
82370801|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.024||||0.389|TWO_SIDED|95.0|-0.03|0.078|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.078|-0.030|0.389
82370802|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.121|||<|0.001|TWO_SIDED|95.0|0.058|0.184|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.184|0.058|<0.001
82370803|NCT00536263|164449235|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.097|||||TWO_SIDED|90.0|-0.152|-0.041||||||24 weeks after EOT||-0.041|-0.152|
82370804|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0||||0.991|TWO_SIDED|95.0|-0.012|0.012|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.012|-0.012|0.991
82370805|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.013||||0.181|TWO_SIDED|95.0|-0.006|0.033|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.033|-0.006|0.181
82370806|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.013|||||TWO_SIDED|90.0|-0.03|0.003||||||End of treatment||0.003|-0.030|
82396419|NCT00432276|164503589|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|Extended Mantel Haenszel Test|Treatment comparison was performed using nonparametric, covariance-adjusted, extended Mantel-Haenszel test.||Comparison of incidence of marked hyperglycemia through Week 52.||||<0.001
82396420|NCT00432276|164503590|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|Extended Mantel Haenszel Test|Treatment comparison was performed using nonparametric, covariance-adjusted, extended Mantel-Haenszel test.||Comparison of incidence of hyperglycemic rescue through Week 52.||||<0.001
82396421|NCT00432276|164503591|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.116|TWO_SIDED|95.0|-3.7|0.4||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and proinsulin as covariates.||Comparison of change from Baseline at Week 52.||0.4|-3.7|0.116
82396422|NCT00432276|164503592|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.276|TWO_SIDED|95.0|-0.58|2.04||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|ANCOVA model with treatment, study schedule and geographic region as class variables, and baseline metformin dose and fasting insulin as covariates.||Comparison of change from Baseline at Week 52.||2.04|-0.58|0.276
82396423|NCT00432276|164503593|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.041|||<|0.001|TWO_SIDED|95.0|-0.063|-0.018||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline proinsulin/insulin ratio as covariates.||Comparison of change from Baseline at Week 52.||-0.018|-0.063|<0.001
82644547|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-1.9||||1|TWO_SIDED|95.0|-38.3|34.5|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||34.5|-38.3|1.0000
82644548|NCT03692078|165004021|EQUIVALENCE|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|-9.4||||0.9926|TWO_SIDED|95.0|-46.4|27.6|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Urine Mutagenicity (revertants/24 hours) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||27.6|-46.4|0.9926
82644549|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.872|||<|0.0001|TWO_SIDED|95.0|1.81|1.935|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 5. (mITT Population)||1.935|1.810|<.0001
82370807|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0||||0.971|TWO_SIDED|95.0|-0.012|0.012|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.012|-0.012|0.971
82370808|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.013||||0.179|TWO_SIDED|95.0|-0.006|0.033|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.033|-0.006|0.179
82396424|NCT00432276|164503594|SUPERIORITY_OR_OTHER||LS Mean Difference|0.073||||0.23|TWO_SIDED|95.0|-0.047|0.193||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline fasting C-peptide as covariates.||Comparison of change from Baseline at Week 52.||0.193|-0.047|0.230
82426439|NCT00945659|164561844|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.23||0.75|TWO_SIDED|95.0|-2.02|2.79|||Generalized Estimating Equation|||||2.79|-2.02|0.75
82529311|NCT01200030|164755301|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||"Post-Hoc pairwise comparison comparing the effects of placebo stimulation with exercises group and control group.~Null hypothesis: There was no significant difference existed on the changes of the Trunk Impairment Scale score between the two groups."||||0.003
82529312|NCT01200030|164755302|OTHER|||||||0.055|||||||Kruskal-Wallis|||Null hypothesis: No significant differences existed between the percentage of change in reaching distance between the three groups.||||0.055
82370809|NCT00536263|164449236|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.013|||||TWO_SIDED|90.0|-0.03|0.003||||||24 weeks after EOT||0.003|-0.030|
82370810|NCT00536263|164449237|SUPERIORITY_OR_OTHER|||||||0.991|||||||Cochran-Mantel-Haenszel|"Stratified by genotype~Due to zero responses in the 2 arms, pairwise rate difference \& corresponding 95% confidence interval were not applicable."||End of treatment||||0.991
82370811|NCT00536263|164449237|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.004||||0.322|TWO_SIDED|95.0|-0.004|0.013|||Cochran-Mantel-Haenszel|Stratified by genotype||End of treatment||0.013|-0.004|0.322
82370812|NCT00536263|164449237|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.004|||||TWO_SIDED|90.0|-0.012|0.003||||||End of treatment||0.003|-0.012|
82370813|NCT00536263|164449237|SUPERIORITY_OR_OTHER|||||||0.991||95.0|||||Cochran-Mantel-Haenszel|"Stratified by genotype~Due to zero responses in the 2 arms, pairwise rate difference \& corresponding 95% confidence interval were not applicable."||24 weeks after EOT||||0.991
82370814|NCT00536263|164449237|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.009||||0.157|TWO_SIDED|95.0|-0.003|0.021|||Cochran-Mantel-Haenszel|Stratified by genotype||24 weeks after EOT||0.021|-0.003|0.157
82370815|NCT00536263|164449237|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.009|||||TWO_SIDED|90.0|-0.019|0.001||||||24 weeks after EOT||0.001|-0.019|
82370816|NCT00536263|164449238|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||0.014
82370817|NCT00536263|164449238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||<0.001
82370818|NCT00536263|164449238|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|comparison of post-treatment versus baseline values||||||0.010
82370819|NCT00536263|164449238|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.2||||0.631|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA|Treatment group and genotype were the fixed effects and baseline was the covariate.||||0.8|-1.2|0.631
82370820|NCT00536263|164449238|SUPERIORITY_OR_OTHER||Pairwise rate difference|-0.3||||0.617|TWO_SIDED|95.0|-1.4|0.8|||ANCOVA|Treatment group and genotype were the fixed effects and baseline was the covariate.||||0.8|-1.4|0.617
82370821|NCT00536263|164449238|SUPERIORITY_OR_OTHER||Pairwise rate difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||||1.1|-1.1|
82370822|NCT02994940|164449243|SUPERIORITY||Hodges Lehman estimator|21.3||||0.127|TWO_SIDED|95.0|-2.5|44.2|||Wilcoxon (Mann-Whitney)|||||44.2|-2.5|0.127
82396425|NCT00432276|164503595|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.188||||0.567|TWO_SIDED|95.0|-0.83|0.455||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HOMA insulin resistance as covariates.||Comparison of change from Baseline at Week 52.||0.455|-0.830|0.567
82396426|NCT00432276|164503596|SUPERIORITY_OR_OTHER||LS Mean Difference|12.963|||<|0.001|TWO_SIDED|95.0|5.333|20.592||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HOMA beta cell function as covariates.||Comparison of change from Baseline at Week 52.||20.592|5.333|<0.001
82370823|NCT02994940|164449244|SUPERIORITY|||||||0.851|||||||Chi-squared|||||||0.851
82370824|NCT02994940|164449245|SUPERIORITY||Hodges Lehman estimator|2.0||||0.109|TWO_SIDED|95.0|-1.0|6.0|||Wilcoxon (Mann-Whitney)|||||6.0|-1.0|0.109
82370825|NCT02994940|164449246|SUPERIORITY||Hodges Lehman estimator|7.0||||0.0001|TWO_SIDED|95.0|4.0|8.0|||Wilcoxon (Mann-Whitney)|||||8.0|4.0|0.0001
82370826|NCT00975286|164449269|SUPERIORITY_OR_OTHER||[Least squares (LS) mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED|95.0|-0.463|-0.171||Statistical testing: 2-sided at significance level=0.05. Analysis of covariance (ANCOVA) included treatment arms; randomization strata of Week -1 HbA1c (\<8.0,\>=8.0%) and TZD use (yes/no); country as fixed effects; baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 225 patients in each arm would provide a power of 98% (or 90%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.171|-0.463|<0.0001
82370827|NCT01674647|164449285|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.15|1.73|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.51% (0.20% - 1.17%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 1.02% (0.40% - 2.34%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||1.73|0.15|
82370828|NCT01674647|164449286|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.21|2.67|||no test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.61% (0.26% - 1.27%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.80% (0.27% - 2.00%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||2.67|0.21|
82370829|NCT01674647|164449287|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.34|||||TWO_SIDED|95.0|0.06|2.0|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.20% (0.04% - 0.71%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.61% (0.17% - 1.72%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||2.00|0.06|
82370830|NCT01674647|164449288|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.16|1.55|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.61% (0.27% - 1.29%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 1.22% (0.53% - 2.51%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||1.55|0.16|
82370831|NCT01674647|164449293|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.18|5.47|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.41% (0.14% - 1.02%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.41% (0.07% - 1.41%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||5.47|0.18|
82370832|NCT01674647|164449294|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.2|3.49|||no statistical test performed||Crude estimate of the cumulative incidence for rivaroxaban (Xarelto, BAY59-7939): 0.51% (0.20% - 1.17%). Crude estimate of the cumulative incidence for Vitamin K antagonist (VKA): 0.61% (0.17% - 1.72%).|Descriptive comparison of crude estimates of the cumulative incidence and estimation of risk ratio, all with 95% confidence intervals||3.49|0.20|
82370833|NCT01150890|164449430|SUPERIORITY|||||||0.1941|||||||Overall Trend test|||The primary null hypothesis was tested sequentially using a linear trend test at the significance level of 0.05 (two-sided) using logistic regression modeling.||||0.1941
82370834|NCT01150890|164449430|SUPERIORITY||Difference in Response Rate|0.0||||1|TWO_SIDED|95.0|-0.09|0.09|||Chi-squared|||||0.09|-0.09|1.0000
82370835|NCT01150890|164449430|SUPERIORITY||Difference in Response Rate|0.1203||||0.0966|TWO_SIDED|95.0|-0.02|0.26|||Chi-squared|||||0.26|-0.02|0.0966
82370836|NCT01150890|164449430|SUPERIORITY||Difference in Response Rate|0.0597||||0.3208|TWO_SIDED|95.0|-0.06|0.17|||Chi-squared|||||0.17|-0.06|0.3208
82370837|NCT01150890|164449431|SUPERIORITY||Difference in Response Rate|0.0363||||0.6831|TWO_SIDED|95.0|-0.14|0.21|||Chi-squared|||||0.21|-0.14|0.6831
82370838|NCT01150890|164449431|SUPERIORITY||Difference in Response Rate|0.1477||||0.1396|TWO_SIDED|95.0|-0.04|0.34|||Chi-squared|||||0.34|-0.04|0.1396
82575916|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-19.3||||0.0002|TWO_SIDED|95.0|-29.1|-9.4|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-9.4|-29.1|0.0002
82575917|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-21.3||||0.0003|TWO_SIDED|95.0|-32.4|-10.2|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.2|-32.4|0.0003
82575918|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-21.8||||0.0003|TWO_SIDED|95.0|-33.2|-10.4|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.4|-33.2|0.0003
82575919|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-18.7||||0.001|TWO_SIDED|95.0|-29.5|-7.8|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-7.8|-29.5|0.0010
82644550|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.913|||<|0.0001|TWO_SIDED|95.0|1.851|1.976|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 1 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 1 is NOT equal to zero on Day 7. (mITT Population)||1.976|1.851|<.0001
82370839|NCT01150890|164449431|SUPERIORITY||Difference in Response Rate|0.0265||||0.7588|TWO_SIDED|95.0|-0.14|0.19|||Chi-squared|||||0.19|-0.14|0.7588
82370840|NCT01150890|164449432|SUPERIORITY|||||||0.4161|||||||ANCOVA|Analysis of covariance (ANCOVA) model adjusted for baseline CDAI score.||||||0.4161
82370841|NCT01150890|164449432|SUPERIORITY|||||||0.8094|||||||ANCOVA|ANCOVA model adjusted for baseline CDAI score.||||||0.8094
82396427|NCT00432276|164503597|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.071|TWO_SIDED|95.0|-1.03|0.04||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline body weight as covariates.||Comparison of change from Baseline at Week 52.||0.04|-1.03|0.071
82426440|NCT00945659|164561844|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_DEVIATION|1.38||0.78|TWO_SIDED|95.0|-3.09|2.32|||Generalized Estimating Equation|||||2.32|-3.09|0.78
82575920|NCT03392168|164861264|SUPERIORITY||Least squares mean difference|-21.8||||0.0002|TWO_SIDED|95.0|-32.9|-10.6|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-10.6|-32.9|0.0002
82575921|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|2.67||||0.3209|TWO_SIDED|95.0|-2.65|7.99|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||7.99|-2.65|0.3209
82370842|NCT01150890|164449432|SUPERIORITY|||||||0.304|||||||ANCOVA|ANCOVA model adjusted for baseline CDAI score.||||||0.3040
82370843|NCT00006721|164449438|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.11|TWO_SIDED|95.0|0.6|1.05|||Regression, Cox|adjusting for the stratification factor (serum beta-2 microglobulin level)|CHOP + Tositumomab versus CHOP + Rituximab|||1.05|0.6|0.11
82370844|NCT00006721|164449442|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.55||||0.08|TWO_SIDED|95.0|0.95|2.54|||Regression, Cox|adjusting for the stratification factor (serum beta-2 microglobulin level)|CHOP + Tositumomab versus CHOP + Rituximab|||2.54|0.95|0.08
82370845|NCT05091307|164449465|NON_INFERIORITY|The criterion for non-inferiority (NI) was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.28|||||TWO_SIDED|95.0|1.09|1.53|||ANOVA|||A/Victoria (H1N1): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.53|1.09|
82575922|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|3.6||||0.1947|TWO_SIDED|95.0|-1.88|9.08|||Mixed Models Analysis|||At Week 1; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||9.08|-1.88|0.1947
82575923|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-4.58||||0.3561|TWO_SIDED|95.0|-14.4|5.24|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||5.24|-14.40|0.3561
82370846|NCT05091307|164449465|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.23|||||TWO_SIDED|95.0|1.05|1.45|||ANOVA|||A/Cambodia (H3N2): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.45|1.05|
82370847|NCT05091307|164449465|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.84|1.19|||ANOVA|||B/Victoria (B/Victoria): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.19|0.84|
82370848|NCT05091307|164449465|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.88|1.21|||ANOVA|||B/Phuket (B/Yamagata): Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.21|0.88|
82370849|NCT05091307|164449466|NON_INFERIORITY|The criterion for NI was the upper bound of the 2-sided 95% CI for the GMR was below 1.5.|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.26|||ANOVA|||Based on analysis of variance (ANOVA) models, CIs around the difference (Group 2 \[control group\] minus Group 1 \[CoAd group\]) was calculated and back-transformed (by exponentiation: 2\^CI) to CIs around a geometric mean ratio (GMR: GMTControl/GMTCoAd).||1.26|0.97|
82396428|NCT00432276|164503598|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2||||0.058|TWO_SIDED|95.0|-8.6|0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline total cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.1|-8.6|0.058
82396429|NCT00432276|164503599|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.228|TWO_SIDED|95.0|-1.7|0.4||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline HDL cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.4|-1.7|0.228
82396430|NCT00432276|164503600|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8||||0.132|TWO_SIDED|95.0|-6.5|0.9||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline LDL cholesterol as covariates.||Comparison of change from Baseline at Week 52.||0.9|-6.5|0.132
82396431|NCT00432276|164503601|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.6||||0.08|TWO_SIDED|95.0|-18.3|1.0||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline triglycerides as covariates.||Comparison of change from Baseline at Week 52.||1.0|-18.3|0.080
82396432|NCT00432276|164503602|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0314||||0.059|TWO_SIDED|95.0|-0.064|0.0012||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline free fatty acid as covariates.||Comparison of change from Baseline at Week 52.||0.0012|-0.0640|0.059
82396433|NCT00432276|164503603|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.934|TWO_SIDED|95.0|-2.9|2.6||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein A1 as covariates.||Comparison of change from Baseline at Week 52.||2.6|-2.9|0.934
82396434|NCT00432276|164503604|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.07|TWO_SIDED|95.0|-1.3|0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein A2 as covariates.||Comparison of change from Baseline at Week 52.||0.1|-1.3|0.070
82396435|NCT00432276|164503605|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9||||0.064|TWO_SIDED|95.0|-5.9|0.2||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein B as covariates.||Comparison of change from Baseline at Week 52.||0.2|-5.9|0.064
82396436|NCT00432276|164503606|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.022|TWO_SIDED|95.0|-1.0|-0.1||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline apolipoprotein C-III as covariates.||Comparison of change from Baseline at Week 52.||-0.1|-1.0|0.022
82396437|NCT00432276|164503607|SUPERIORITY_OR_OTHER||LS Mean Difference|1.78||||0.308|TWO_SIDED|95.0|-1.65|5.22||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline PAI-1 as covariates.||Comparison of change from Baseline at Week 52.||5.22|-1.65|0.308
82644551|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.467|||<|0.0001|TWO_SIDED|95.0|1.408|1.525|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 5. (mITT Population)||1.525|1.408|<.0001
82370850|NCT03611543|164449479|SUPERIORITY||||||<|0.0001||||||Information related to the INVESTIGATIONAL group.|Wilcoxon Rank-Sum test|||||||<0.0001
82370851|NCT04394351|164449482|SUPERIORITY||Odds Ratio (OR)|53.8|||<|0.0001|TWO_SIDED|95.0|7.37|392.82|||Cochran-Mantel-Haenszel|p-value was derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline weight group.|Odds ratio and corresponding Confidence Interval (CI) are based on CMH test stratified by baseline weight group.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||392.82|7.37|<0.0001
82370852|NCT04394351|164449482|SUPERIORITY||Odds Ratio (OR)|46.7|||<|0.0001|TWO_SIDED|95.0|5.47|399.54|||Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group.|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||399.54|5.47|<0.0001
82396438|NCT00432276|164503608|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8209||||0.283|TWO_SIDED|95.0|-2.3209|0.679||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline hsCRP as covariates.||Comparison of change from Baseline at Week 52.||0.6790|-2.3209|0.283
82396439|NCT00432276|164503609|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.92|||<|0.001|TWO_SIDED|95.0|-4.57|-1.27||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|Treatment, study schedule and geographic region as class variables, and baseline metformin dose and baseline adiponectin as covariates.||Comparison of change from Baseline at Week 52.||-1.27|-4.57|<0.001
82396440|NCT00432276|164503610|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1||||0.197|TWO_SIDED|95.0|-15.4|3.2||Statistical test and resulting P-value are 2-sided and was evaluated at the 0.05 significance level.|ANCOVA|||Comparison of change from Baseline at Week 52.||3.2|-15.4|0.197
82396441|NCT03168919|164503646|OTHER|Comparison||||||||||||||||The baseline and the end of therapy MRI parameters are compared.|Due to very small accrual, the statistical analysis couln't be performed.|||
82396442|NCT01085136|164503651|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61||||0.003|TWO_SIDED|95.0|0.44|0.85||P-value is calculated from two-sided stratified log-rank test|stratified log-rank test|||Hazard ratio is calculated from Cox proportional hazard model with treatment as the only factor, stratified by gender and maximum duration of erlotinib or gefitinib (\<6 months vs \>=6 months).||0.85|0.44|0.0030
82396443|NCT01085136|164503653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.7905|TWO_SIDED|95.0|0.76|1.44|||Stratified log-rank test.|P-value is calculated from two-sided stratified log-rank test.||Hazard ratio was calculated from Cox proportional hazard model with treatment as the only factor, stratified by gender and maximum duration of erlotinib or gefitinib (\<6 months vs \>=6 months).||1.44|0.76|0.7905
82396444|NCT01085136|164503655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.98||||0.0065|TWO_SIDED|95.0|1.357|6.543|||Regression, Logistic|||Odds ratio, 95% Confidence Interval (CI) and p-value (two-sided) from logistic regression stratified for maximum treatment duration of prior erlotinib or gefitinib (\>=6 months vs \<6 months) and gender.||6.543|1.357|0.0065
82396445|NCT00386425|164503657|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||p-value is for change to Day 7|t-test, 2 sided|||||||0.011
82396446|NCT00386425|164503658|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||p-value is for the moderate Protein C Deficiency (difference in change of pc between alt and standard groups)|t-test, 2 sided|||||||0.047
82396447|NCT00386425|164503658|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||p-value is for the severe Protein C Deficiency (difference in change of pc between alt and standard groups)|t-test, 2 sided|||||||0.063
82370853|NCT04394351|164449483|SUPERIORITY||Odds Ratio (OR)|178.0|||<|0.0001|TWO_SIDED|95.0|18.84|1682.4|||Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||1682.4|18.84|<0.0001
82396448|NCT00386425|164503659|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||p-value is for Day 28 mortality|Fisher Exact|||||||0.030
82575924|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-5.82||||0.249|TWO_SIDED|95.0|-15.79|4.16|||Mixed Models Analysis|||At Week 2; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||4.16|-15.79|0.2490
82396449|NCT00386425|164503660|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||p-value is for Day 90 mortality|Fisher Exact|||||||0.090
82396450|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||p-value is for total SOFA difference between alternative and standard therapy|t-test, 2 sided|||||||0.190
82396451|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||p-value is for difference in cardiovascular SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.268
82396452|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||p-value is for difference in respiratory SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.082
82396453|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||p-value is for difference in renal SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.367
82396454|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||p-value is for difference in hematology SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.274
82396455|NCT00386425|164503661|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||p-value is for difference in liver SOFA between alternative and standard therapy|t-test, 2 sided|||||||0.341
82396456|NCT00386425|164503663|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for difference between participants normalizing protein C and not normalizing protein C.|Fisher Exact|||||||<0.0001
82396457|NCT00386425|164503664|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||p-value is for 28-Day Mortality, Dead at Day 28 vs. Alive at Day 28|Pearson's chi-square test|||||||0.622
82370854|NCT04394351|164449483|SUPERIORITY||Odds Ratio (OR)|55.3|||<|0.0001|TWO_SIDED|95.0|7.45|410.23||P-value is not adjusted for multiple comparisons|Cochran-Mantel-Haenszel|p-value was derived by CMH test stratified by baseline weight group|Odds ratio and corresponding CI are based on CMH test stratified by baseline weight group|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||410.23|7.45|<0.0001
82396458|NCT00386425|164503664|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value is for Hospital Mortality|Fisher Exact|||||||0.815
82396459|NCT00734656|164503703|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||null hypothesis - dutasteride does not affect blood alcohol following standardized dose of alcohol (0.8 gr/kg)||||0.28
82396460|NCT00734656|164503704|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||null hypothesis: dutasteride pre-treatment does not reduce the sedative effect of alcohol||||0.010
82370855|NCT04394351|164449484|SUPERIORITY||LS mean difference|-107.07|||<|0.0001|TWO_SIDED|95.0|-139.249|-74.9|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-74.900|-139.249|<0.0001
82370856|NCT04394351|164449484|SUPERIORITY||LS mean difference|-98.92|||<|0.0001|TWO_SIDED|95.0|-132.463|-65.37||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-65.370|-132.463|<0.0001
82396461|NCT00734656|164503705|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Mixed Models Analysis|||null hypothesis: dutasteride pre-treatment does not reduce the stimulating effect of alcohol||||0.17
82396462|NCT00734656|164503706|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||null hypothesis - A single 4 mg dose of dutasteride does not reduce serum 3a-androstanediol glucuronide levels||||<0.001
82396463|NCT03214679|164503707|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<.001
82396464|NCT02368886|164503726|SUPERIORITY||Risk Difference (RD)|0.17||||0.0434|TWO_SIDED|95.0|0.0|0.34||1-sided|Fisher Exact|||||0.34|0.00|0.0434
82396465|NCT02368886|164503727|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.1241|TWO_SIDED|95.0|0.47|1.1|||Log Rank|||||1.10|0.47|0.1241
82396466|NCT02368886|164503728|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.3797|TWO_SIDED|95.0|0.57|1.24|||Log Rank|||||1.24|0.57|0.3797
82396467|NCT02368886|164503729|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.4614|TWO_SIDED|95.0|0.55|1.31|||Log Rank|||||1.31|0.55|0.4614
82396468|NCT02368886|164503734|SUPERIORITY|||||||0.7319|||||||Kruskal-Wallis|||||||0.7319
82396469|NCT02173379|164503747|NON_INFERIORITY|One-sided p-value by using Farrington-Manning non-inferiority test statistic with non-inferiority margin of 2.9%, to be compared with a one-sided significance level of 0.025.||||||0.0244|ONE_SIDED|97.5|||||Farrington-Manning|||"The hypothesis test is designed to show non-inferiority of Absorb BVS to XIENCE for the primary endpoint with a one-sided alpha of 0.025. The null (H0) and alternative (HA) hypotheses are:~H0: TLFAbsorb - TLFXIENCE ≥ ∆TLF HA: TLFAbsorb - TLFXIENCE \< ∆TLF."||||0.0244
82396470|NCT02173379|164503748|NON_INFERIORITY|One-sided p-value by using Farrington-Manning non-inferiority test statistic with non-inferiority margin of 4.8%, to be compared with a one-sided significance level of 0.025.||||||0.0006|||||||Farrington-Manning|||||||0.0006
82396471|NCT04278924|164503917|SUPERIORITY||Risk Difference (RD)|43.59|||=|0.056|TWO_SIDED|95.0|0.81|73.35|||Barnard's test||95% confidence interval (CI) of the difference in percentage was calculated using Miettinen-Nurminen method.|||73.35|0.81|=0.056
82396472|NCT04278924|164503917|SUPERIORITY||Risk Difference (RD)|39.42|||=|0.088|TWO_SIDED|95.0|-4.24|71.38|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||71.38|-4.24|=0.088
82396473|NCT04278924|164503917|SUPERIORITY||Risk Difference (RD)|67.83|||=|0.001|TWO_SIDED|95.0|29.21|87.29|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||87.29|29.21|=0.001
82396474|NCT04278924|164503918|SUPERIORITY||Risk Difference (RD)|55.56|||=|0.001|TWO_SIDED|95.0|25.11|81.51|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||81.51|25.11|=0.001
82396475|NCT04278924|164503918|SUPERIORITY||Risk Difference (RD)|50.0|||=|0.004|TWO_SIDED|95.0|19.63|78.95|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||78.95|19.63|=0.004
82396476|NCT04278924|164503918|SUPERIORITY||Risk Difference (RD)|81.82|||<|0.001|TWO_SIDED|95.0|51.24|94.99|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||94.99|51.24|<0.001
82396477|NCT04278924|164503919|SUPERIORITY||Risk Difference (RD)|35.9|||=|0.12|TWO_SIDED|95.0|-7.22|67.75|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||67.75|-7.22|=0.120
82575925|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-12.68||||0.0276|TWO_SIDED|95.0|-23.992|-1.44|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-1.44|-23.992|0.0276
82370857|NCT04394351|164449485|SUPERIORITY||LS mean difference|-0.902|||<|0.0001|TWO_SIDED|95.0|-1.0325|-0.7714|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-0.7714|-1.0325|<0.0001
82396478|NCT04278924|164503919|SUPERIORITY||Risk Difference (RD)|44.23|||=|0.06|TWO_SIDED|95.0|-0.83|73.77|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||73.77|-0.83|=0.060
82396479|NCT04278924|164503919|SUPERIORITY||Risk Difference (RD)|60.14|||=|0.003|TWO_SIDED|95.0|21.33|82.42|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||82.42|21.33|=0.003
82396480|NCT04278924|164503920|SUPERIORITY||Risk Difference (RD)|40.0|||=|0.187|TWO_SIDED|95.0|-16.28|78.17|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||78.17|-16.28|=0.187
82396481|NCT04278924|164503920|SUPERIORITY||Risk Difference (RD)|25.0|||=|0.315|TWO_SIDED|95.0|-28.85|71.78|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||71.78|-28.85|=0.315
82396482|NCT04278924|164503920|SUPERIORITY||Risk Difference (RD)|100.0|||=|0.004|TWO_SIDED|95.0|35.12|100.0|||Barnard's test||95% CI of the difference in percentage was calculated using Miettinen-Nurminen method.|||100.00|35.12|=0.004
82396483|NCT05600036|164503929|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||||||0.0025
82396484|NCT05600036|164503929|SUPERIORITY|||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
82396485|NCT05600036|164503929|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82396486|NCT05600036|164503929|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82396487|NCT05600036|164503929|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82396488|NCT01937884|164503986|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82396489|NCT01937884|164503987|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82396490|NCT01937884|164503988|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|Student's t-test on log-transformed change in IFABP.||||||0.27
82396491|NCT01937884|164503989|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|Student's t-test on log-transformed citrulline concentration on study day 5, by treatment group||||||0.04
82396492|NCT01937884|164503990|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|Student's t-test on log-transformed percent change of claudin 3||||||0.43
82529313|NCT02265224|164755305|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|89.81||||0.0136|TWO_SIDED|94.12|82.82|97.4||p value for treatment effect|ANOVA|||||97.40|82.82|0.0136
82529314|NCT02265224|164755306|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|90.79||||0.0047|TWO_SIDED|94.12|85.25|96.69|||ANOVA|p value for treatment effect||||96.69|85.25|0.0047
82529315|NCT02265224|164755307|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.|Geometric means ratio|91.86||||0.0095|TWO_SIDED|94.12|86.45|97.61||p value for treatment effect|ANOVA|||||97.61|86.45|0.0095
82529316|NCT02265224|164755308|EQUIVALENCE|The statistical analysis took into account treatment, period, sequence and subject (sequence) as sources of variation. Acceptance criterion for bioequivalence was that the 94.12% confidence interval for the ratio between test and reference of the geometric means of the parameters under consideration fell within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies and to the Pocock α spending function.||||||0.505|||||||Friedman test|||||||0.5050
82529317|NCT00136812|164755312|OTHER|We used all available observations in a GEE analysis and did not impute missing data or drop observations.|Odds Ratio (OR)|3.15||||0.018|TWO_SIDED|95.0|1.22|8.14||P-value of \<0.05 is considered statistically significant.|generalized estimating equation model|||To test the primary hypothesis, we ran a generalized estimating equation model with logit link function (PROC GENMOD in SAS version 9.2), to examine abstinence versus smoking status at the 3- through 18-month follow-ups by condition.||8.14|1.22|0.018
82575926|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-7.04||||0.2223|TWO_SIDED|95.0|-18.44|4.36|||Mixed Models Analysis|||At Week 3; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||4.36|-18.44|0.2223
82370858|NCT04394351|164449485|SUPERIORITY||LS mean difference|-0.78|||<|0.0001|TWO_SIDED|95.0|-0.917|-0.644||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-0.6440|-0.9170|<0.0001
82370859|NCT04394351|164449486|SUPERIORITY||LS mean difference|-0.883|||<|0.0001|TWO_SIDED|95.0|-1.0095|-0.7568|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-0.7568|-1.0095|<0.0001
82370860|NCT04394351|164449486|SUPERIORITY||LS mean difference|-0.769|||<|0.0001|TWO_SIDED|95.0|-0.9013|-0.6362||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-0.6362|-0.9013|<0.0001
82370861|NCT04394351|164449487|SUPERIORITY||Hodges-Lehmann estimator|-2.22|||<|0.0001|TWO_SIDED|95.0|-2.44|-1.95|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-1.9500|-2.4400|<0.0001
82370862|NCT04394351|164449487|SUPERIORITY||Hodges-Lehmann estimator|-2.19|||<|0.0001|TWO_SIDED|95.0|-2.45|-1.82||P-value is not adjusted for multiple comparisons|Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-1.8200|-2.4500|<0.0001
82370863|NCT04394351|164449488|SUPERIORITY||Hodges-Lehmann estimator|-2.84|||<|0.0001|TWO_SIDED|95.0|-3.35|-1.96|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-1.9600|-3.3500|<0.0001
82396493|NCT01937884|164503991|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82396494|NCT01937884|164503992|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.43
82396495|NCT01937884|164503993|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
82396496|NCT03924505|164504005|SUPERIORITY||Incidence Rate Ratio|2.15|||<|0.01|TWO_SIDED|95.0|1.42|2.35||A priori threshold for statistical significance set at p\<0.05|Negative Binomial Regression|We adjusted for baseline rate due to baseline differences.|The incidence rate ratio estimates the effect of facilitation for implementation effectiveness and dissemination of best practice recommendations, as compared to dissemination of best practice recommendations.|||2.35|1.42|<0.01
82396497|NCT03924505|164504006|SUPERIORITY||Incidence Rate Ratio|1.97||||0.01|TWO_SIDED|95.0|1.18|3.3||A priori threshold for statistical signicance is p\<0.05|Negative Binomial Regression||The incidence rate ratio estimates the effect of facilitation for implementation effectiveness and dissemination of best practice recommendations, as compared to dissemination of best practice recommendations.|||3.30|1.18|0.01
82396498|NCT03924505|164504007|OTHER|Testing for differences in means|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.68|TWO_SIDED|95.0|-0.7|1.0|||t-test, 2 sided|||||1.0|-0.7|0.68
82396499|NCT00911586|164504008|OTHER|Part 1 of piecewise linear regression model.|Slope|-4.077|STANDARD_ERROR_OF_MEAN|16.02||0.806|TWO_SIDED||||||Regression, Linear|Part 1 of piecewise linear regression model.|Part 1 of piecewise linear regression model.|||||0.8060
82370864|NCT04394351|164449488|SUPERIORITY||Hodges-Lehmann estimator|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.31|-1.62||P-value is not adjusted for multiple comparisons|Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-1.6200|-3.3100|<0.0001
82370865|NCT04394351|164449489|SUPERIORITY||LS mean difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.94|-2.63|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||-2.63|-4.94|<0.0001
82370866|NCT04394351|164449489|SUPERIORITY||LS mean difference|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.59|-2.1||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||-2.10|-4.59|<0.0001
82644552|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.493|||<|0.0001|TWO_SIDED|95.0|1.434|1.551|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to zero on Day 7. (mITT Population)||1.551|1.434|<.0001
82647966|NCT00386100|165011346|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.4153|TWO_SIDED|95.0|-1.8|0.8||postmenopausal female population, Week 80. No adjustment for multiple comparisons. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||0.8|-1.8|0.4153
82370867|NCT04394351|164449490|SUPERIORITY||LS mean difference|-0.1||||0.1526|TWO_SIDED|95.0|-0.244|0.038|||ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.038|-0.244|0.1526
82370868|NCT04394351|164449490|SUPERIORITY||LS mean difference|0.0||||0.9533|TWO_SIDED|95.0|-0.155|0.146||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.146|-0.155|0.9533
82370869|NCT04394351|164449491|SUPERIORITY||LS mean difference|1.45||||0.1507|TWO_SIDED|95.0|-0.527|3.422||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||3.422|-0.527|0.1507
82370870|NCT04394351|164449491|SUPERIORITY||LS mean difference|0.0||||0.9965|TWO_SIDED|95.0|-2.107|2.117||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||2.117|-2.107|0.9965
82396500|NCT00911586|164504009|OTHER|Part 2 of piecewise linear regression model.|Slope|4.114|STANDARD_ERROR_OF_MEAN|18.456||0.8286|TWO_SIDED||||||Regression, Linear|Part 2 of piecewise linear regression model.|Part 2 of piecewise linear regression model.|||||0.8286
82396501|NCT02638051|164504041|SUPERIORITY_OR_OTHER|||||||0.014|||||||Chi-squared|||"Applies to Objective Response Rate (ORR)"||||0.0140
82396502|NCT02638051|164504042|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Chi-squared|||"Applies to All Adverse Events rate"||||0.0016
82575927|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-20.27||||0.0108|TWO_SIDED|95.0|-35.72|-4.82|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-4.82|-35.72|0.0108
82370871|NCT04394351|164449492|SUPERIORITY||LS mean difference|-0.05||||0.2064|TWO_SIDED|95.0|-0.139|0.03||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.030|-0.139|0.2064
82370872|NCT04394351|164449492|SUPERIORITY||LS mean difference|0.02||||0.6361|TWO_SIDED|95.0|-0.069|0.112||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.112|-0.069|0.6361
82370873|NCT04394351|164449493|SUPERIORITY||LS mean difference|0.13||||0.2086|TWO_SIDED|95.0|-0.072|0.33||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.330|-0.072|0.2086
82396503|NCT02638051|164504042|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Abdominal pain rate"||||>0.05
82396504|NCT02638051|164504042|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Gastrointestinal reactions"||||>0.05
82396505|NCT02638051|164504042|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Damage of hepatic or renal function"||||>0.05
82396506|NCT02638051|164504042|SUPERIORITY_OR_OTHER|||||||0.0215|||||||Chi-squared|||"Applies to Bone marrow depression"||||0.0215
82396507|NCT02638051|164504043|SUPERIORITY_OR_OTHER|||||||0.0053|||||||Chi-squared|||"Applies to Better QoL"||||0.0053
82396508|NCT02638051|164504043|SUPERIORITY_OR_OTHER|||||||0.0527|||||||Chi-squared|||"Applies to No Change"||||0.0527
82529318|NCT02567825|164755321|SUPERIORITY||Risk Ratio (RR)|0.97||||0.66|TWO_SIDED|95.0|0.84|1.12|||Generalized linear model|The p-value is adjusted for site, age at enrollment, and exposure or nonexposure to other children.|The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2-year follow-up period.||1.12|0.84|0.66
82529319|NCT02567825|164755322|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.67|1.01|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2 year follow-up among children considered at low risk of AOM recurrences at enrollment..||1.01|0.67|
82529320|NCT02567825|164755322|SUPERIORITY||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.86|1.33|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|Null hypothesis: There is no difference between the two groups in the rate of occurrence of AOM per child-year during the 2 year follow-up among children considered at high risk of AOM recurrences at enrollment.||1.33|0.86|
82529321|NCT02567825|164755322|OTHER|||||||0.08|||||||Generalized linear models|||Null hypothesis: There is no interaction between comparison group (Surgical Management, Non-Surgical Management) and risk group (children considered at low risk of AOM recurrences at enrollment, children considered at high risk of AOM recurrences at enrollment).||||0.08
82575928|NCT03392168|164861265|SUPERIORITY||Least squares mean difference|-16.67||||0.0372|TWO_SIDED|95.0|-32.34|-1.01|||Mixed Models Analysis|||At Week 4; LS mean difference from vehicle; Estimates for LS means and accompanying 95% confidence intervals and P values are from a mixed model for repeated measures (MMRM) with center within country, treatment, study visit, and treatment-by-study visit interaction as fixed effects, and baseline value as a covariate.||-1.01|-32.34|0.0372
82575929|NCT01727505|164861295|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon signed rank test|||||||0.44
82396509|NCT02638051|164504043|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||"Applies to Worse QoL"||||>0.05
82396510|NCT00508157|164504072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.28|||||TWO_SIDED|95.0|-19.14|-2.66|||ANCOVA|ANCOVA model: log of on-treatment to baseline ratio = log of baseline value, treatment, previous antipsychotic.|Relative difference of Aripiprazole vs. Control Group in terms of (mean % change from baseline/100)+1.|Null hypothesis: no difference in mean percent change from baseline in fasting non-HDLC between aripiprazole and the control group at Week 16||-2.66|-19.14|
82396511|NCT00508157|164504073|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.54|1.06|||Cochran-Mantel-Haenszel|A relative risk \< 1 favors Aripiprazole over Control Group.||null hypothesis: no difference between Aripiprazole and Control Group||1.06|0.54|
82396512|NCT02028169|164504091|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396513|NCT02028169|164504092|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396514|NCT02028169|164504093|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline Vs. Month 9||||< 0.001
82396515|NCT02028169|164504094|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82529322|NCT02567825|164755323|SUPERIORITY|||||||0.48|||||||Chi-squared|||"Null hypothesis: There is no difference between the two groups in the proportion of children completing the study with 0, 1 or 2, 3 or 4, greater than or equal to 5 episodes of AOM.~."||||0.48
82529323|NCT02567825|164755324|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.58|0.92|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children experiencing treatment failure.||0.92|0.58|
82529324|NCT02567825|164755325|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.52|0.9|||||The Surgical Management group represents the numerator for the hazard ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the time to the first episode of AOM.||0.90|0.52|
82575930|NCT01727505|164861296|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon signed rank test|||||||.75
82396516|NCT02028169|164504095|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396517|NCT02028169|164504095|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396518|NCT02028169|164504095|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396519|NCT02028169|164504098|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396520|NCT02028169|164504098|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396521|NCT02028169|164504098|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396522|NCT02028169|164504099|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396523|NCT02028169|164504099|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396524|NCT02028169|164504099|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396525|NCT02028169|164504100|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396526|NCT02028169|164504101|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396527|NCT02028169|164504101|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396528|NCT02028169|164504101|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82575931|NCT01727505|164861297|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon signed rank test|||||||0.2
82575932|NCT01727505|164861298|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon signed rank test|||||||0.02
82575933|NCT01727505|164861299|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon signed rank test|||||||.049
82396529|NCT02028169|164504103|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396530|NCT02028169|164504105|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396531|NCT02028169|164504105|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396532|NCT02028169|164504105|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396533|NCT02028169|164504106|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82529325|NCT02567825|164755326|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.76|1.09|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of episodes categorized as probably severe.||1.09|0.76|
82529326|NCT02567825|164755327|SUPERIORITY||Risk Ratio (RR)|0.34|||||TWO_SIDED|95.0|0.26|0.44||||||Null hypothesis: There is no difference between the two groups in the proportion of episodes presenting with tympanic membrane bulging rather than otorrhea|The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|0.44|0.26|
82575934|NCT01727505|164861300|SUPERIORITY_OR_OTHER|||||||0.006|||||||Paired t-test|||||||0.006
82575935|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82575936|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82644553|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|1.55|||<|0.0001|TWO_SIDED|95.0|1.49|1.609|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 5. (mITT Population)||1.609|1.490|<.0001
82396534|NCT02028169|164504106|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396535|NCT02028169|164504106|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82575937|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82575938|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82396536|NCT02028169|164504107|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396537|NCT02028169|164504107|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396538|NCT02028169|164504107|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396539|NCT02028169|164504108|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396540|NCT02028169|164504108|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396541|NCT02028169|164504108|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396542|NCT02028169|164504109|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 3||||< 0.001
82396543|NCT02028169|164504109|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 6||||< 0.001
82396544|NCT02028169|164504109|SUPERIORITY||||||<|0.001|||||||Friedman test|||Baseline vs. Month 9||||< 0.001
82396545|NCT01782352|164504125|SUPERIORITY||Hazard Ratio (HR)|1.02|||<|0.05|TWO_SIDED|95.0|0.82|1.27|||Regression, Cox|||||1.27|0.82|<0.05
82396546|NCT01782352|164504125|SUPERIORITY||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.76|1.17|||Regression, Cox|||||1.17|0.76|<0.05
82396547|NCT01782352|164504126|SUPERIORITY||Hazard Ratio (HR)|1.21|||<|0.05|TWO_SIDED|95.0|0.86|1.7|||Regression, Cox|||||1.70|0.86|<0.05
82396548|NCT01782352|164504126|SUPERIORITY||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.59|1.17|||Regression, Cox|||||1.17|0.59|<0.05
82396549|NCT01782352|164504127|SUPERIORITY||Hazard Ratio (HR)|1.23|||<|0.05|TWO_SIDED|95.0|0.81|1.84|||Regression, Cox|||||1.84|0.81|<0.05
82396550|NCT01782352|164504127|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.05|TWO_SIDED|95.0|0.48|1.09|||Regression, Cox|||||1.09|0.48|<0.05
82396551|NCT01782352|164504128|SUPERIORITY||Hazard Ratio (HR)|1.09|||<|0.05|TWO_SIDED|95.0|0.86|1.37|||Regression, Cox|||||1.37|0.86|<0.05
82396552|NCT01782352|164504128|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.73|1.17|||Regression, Cox|||||1.17|0.73|<0.05
82396553|NCT01782352|164504129|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.05|TWO_SIDED|95.0|0.33|1.21|||Regression, Cox|||||1.21|0.33|<0.05
82396554|NCT01782352|164504129|SUPERIORITY||Hazard Ratio (HR)|1.05|||<|0.05|TWO_SIDED|95.0|0.56|1.97|||Regression, Cox|||||1.97|0.56|<0.05
82396555|NCT01782352|164504130|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.69|1.25|||Regression, Cox|||||1.25|0.69|<0.05
82396556|NCT01782352|164504130|SUPERIORITY||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.67|1.21|||Regression, Cox|||||1.21|0.67|<0.05
82426441|NCT00945659|164561845|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_DEVIATION|1.31||0.58|TWO_SIDED|95.0|-1.86|3.29|||Generalized Estimating Equation|||||3.29|-1.86|0.58
82575939|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82370874|NCT04394351|164449493|SUPERIORITY||LS mean difference|0.1||||0.2975|TWO_SIDED|95.0|-0.088|0.286||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.286|-0.088|0.2975
82529327|NCT02567825|164755328|SUPERIORITY||Difference of least-squares means|5.21|||||TWO_SIDED|95.0|2.6|7.82|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children experience tube otorrhea. The analysis uses a weighted regression model with weights equal to the length of follow-up.||7.82|2.60|
82529328|NCT02567825|164755329|SUPERIORITY||Difference of least-squares means|-6.32|||||TWO_SIDED|95.0|-7.55|-5.1|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children experience AOM symptoms with an intact TM. The analysis uses a weighted regression model with weights equal to the length of follow-up.||-5.10|-7.55|
82575940|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82370875|NCT04394351|164449494|SUPERIORITY||LS mean difference|-1.8||||0.2085|TWO_SIDED|95.0|-4.615|1.007||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||1.007|-4.615|0.2085
82370876|NCT04394351|164449494|SUPERIORITY||LS mean difference|-1.36||||0.3098|TWO_SIDED|95.0|-3.972|1.26||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||1.260|-3.972|0.3098
82370877|NCT04394351|164449495|SUPERIORITY||LS mean difference|0.07||||0.236|TWO_SIDED|95.0|-0.046|0.186||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab High Dose versus Part A: Pooled Placebo||0.186|-0.046|0.2360
82396557|NCT02195427|164504169|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA Global Action and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|97.5|-0.17|0.11|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 97.5% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Global Action versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Ultra Deep compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline."||0.11|-0.17|
82396558|NCT02195427|164504169|NON_INFERIORITY|"A WSRS change of 1 grade is considered to be clinically significant. A difference of ≤0.5 grade between the two treatment groups (i.e., half of the clinically significant difference) = non-inferiority margin.~The primary efficacy endpoint uses a paired-design and is analyzed by calculating two-sided confidence intervals of the mean difference between TEOSYAL® RHA Deep Lines and the control device, between the V1 enrollment visit (baseline) and V7 (24 weeks after baseline)."|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|97.5|-0.25|0.06|||||The decision is based on the upper limit of the 2-sided confidence interval for the difference for the change from baseline, between test and comparator treatment. For achieving non-inferiority, the upper confidence limit of a 97.5% CI must be ≤0.5|"Efficacy of TEOSYAL® RHA Deep Lines versus control is analyzed in a non-inferiority statistical model using the 5-grade Wrinkle Severity Rating Scale (WSRS) as rated by the Blinded Live Evaluator at 24 weeks after baseline.~The primary endpoint is the aesthetic improvement from pre-injection of the NLF at the side of the face treated with TEOSYAL® RHA Deep Lines compared to the one at the side of the face treated with the control device, as assessed by the BLE at 24 weeks after baseline"||0.06|-0.25|
82396559|NCT03759366|164504233|SUPERIORITY||Least Square Mean|-5.8||||0.0004|TWO_SIDED|95.0|-8.4|-3.13|||Repeated Measures Model||The least square mean change from baseline in QMG total score at Week 26 was calculated.|The observed change in QMG was analyzed with baseline QMG score and visits as covariates.||-3.13|-8.40|0.0004
82396560|NCT03759366|164504247|SUPERIORITY||Least Square Mean|-4.3||||0.0033|TWO_SIDED|95.0|-6.93|-1.65|||Repeated Measures Model||The least square mean change from baseline in QMG total score at Week 52 was calculated.|The observed change in QMG was analyzed with baseline QMG score and visits as covariates.||-1.65|-6.93|0.0033
82575941|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82370878|NCT04394351|164449495|SUPERIORITY||LS mean difference|0.07||||0.1939|TWO_SIDED|95.0|-0.037|0.181||P-value is not adjusted for multiple comparisons|ANCOVA||CI was based on treatment difference (Dupilumab group vs. placebo) of the LS mean change using ANCOVA model with baseline measurement as covariate and the treatment, baseline weight group strata as fixed factors.|Part A: Dupilumab Low Dose versus Part A: Pooled Placebo||0.181|-0.037|0.1939
82370879|NCT03653507|164449551|SUPERIORITY||Hazard Ratio (HR)|0.689||||0.0005|TWO_SIDED|95.0|0.552|0.86|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||0.860|0.552|0.0005
82370880|NCT03653507|164449552|SUPERIORITY||Hazard Ratio (HR)|0.763||||0.0047|TWO_SIDED|95.0|0.622|0.936|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||0.936|0.622|0.0047
82575942|NCT01299480|164861330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82575943|NCT01299480|164861332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB80 \[A22\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82370881|NCT03653507|164449553|SUPERIORITY||Hazard Ratio (HR)|1.012||||0.4654|TWO_SIDED|95.0|0.772|1.328|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.328|0.772|0.4654
82370882|NCT03653507|164449554|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.4478|TWO_SIDED|95.0|0.673|1.577|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.577|0.673|0.4478
82370883|NCT03653507|164449555|SUPERIORITY||Hazard Ratio (HR)|0.869||||0.167|TWO_SIDED|95.0|0.655|1.153|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.153|0.655|0.1670
82370884|NCT03653507|164449556|SUPERIORITY|||||||0.2219||||||Based on 1-sided Cochran-Mantel-Haenszel (CMH) test. Stratification factors were Region, Number of Metastatic Sites and Prior Gastrectomy.|Cochran-Mantel-Haenszel|||||||0.2219
82370885|NCT03653507|164449557|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.0826|TWO_SIDED|95.0|0.552|1.105|||Log Rank||Log-rank test stratified by:\* Region (Asia vs Non-Asia), \* Number of organs with metastatic sites (0 to 2 vs \>= 3), \* Prior gastrectomy (Yes or No)|||1.105|0.552|0.0826
82370886|NCT05205772|164449566|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82396561|NCT00435019|164504250|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis for the non-inferiority test was that the mean HbA1c with insulin detemir was greater than or equal to the mean HbA1c with NPH insulin plus 0.4%. A sample size of 344 subjects, in total, with a drop-out rate of 20 percent would yield 274 subjects for evaluation of HbA1c. This would give 85 percent power to detect a difference in means of HbA1c of 0.4 percentage points assuming that the standard deviation was 1.1 using a two-sided t-test with a 0.05 significance level.|Mean Difference (Final Values)|0.12||||||95.0|-0.12|0.36|||ANCOVA|||||0.36|-0.12|
82396562|NCT01093651|164504269|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for CD4+ T-cell count over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|Study subject was included in these models as a random variable to account for within-participant correlation.||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in CD4+ T-cell count between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
82575944|NCT01299480|164861332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2001 \[A56\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82370887|NCT05205772|164449566|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82370888|NCT05205772|164449566|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82370889|NCT05205772|164449566|SUPERIORITY|||||||0.98|||||||ANOVA|||||||0.98
82370890|NCT05205772|164449566|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
82370891|NCT05205772|164449566|SUPERIORITY|||||||0.63|||||||ANOVA|||||||0.63
82370892|NCT05205772|164449567|OTHER|||||||0.38||||||Adjusted for age.|Regression, Linear|||||||0.38
82370893|NCT05205772|164449568|OTHER|||||||0.67||||||Adjusted for age.|Regression, Linear|||||||0.67
82370894|NCT05205772|164449569|OTHER|||||||0.156|||||||Regression, Linear|||||||0.156
82370895|NCT03182244|164449592|SUPERIORITY||Hazard Ratio (HR)|0.612||||0.00152|TWO_SIDED|95.0|0.451|0.832|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per interactive response technology (IRT).|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||0.832|0.451|0.00152
82370896|NCT03182244|164449593|SUPERIORITY||Hazard Ratio (HR)|0.589||||5e-05|TWO_SIDED|95.0|0.438|0.792|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||0.792|0.438|0.00005
82370897|NCT03182244|164449594|SUPERIORITY||Treatment difference|8.9||||0.04256|TWO_SIDED|95.0|0.3|17.5|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||17.5|0.3|0.04256
82370898|NCT03182244|164449595|SUPERIORITY||Hazard Ratio (HR)|1.163||||0.8871|TWO_SIDED|95.0|0.131|10.338|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||10.338|0.131|0.88710
82370899|NCT03182244|164449596|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.55969|TWO_SIDED|95.0|0.209|2.414|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||2.414|0.209|0.55969
82370900|NCT03182244|164449597|SUPERIORITY||Hazard Ratio (HR)|1.583||||0.66261|TWO_SIDED|95.0|0.192|13.048|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||13.048|0.192|0.66261
82370901|NCT03182244|164449598|SUPERIORITY||Hazard Ratio (HR)|0.756||||0.55731|TWO_SIDED|95.0|0.286|1.999|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||1.999|0.286|0.55731
82370902|NCT03182244|164449599|SUPERIORITY||Treatment difference|17.7||||0.00049|TWO_SIDED|95.0|7.9|27.5|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||27.5|7.9|0.00049
82396563|NCT01093651|164504270|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for plasma HIV RNA copy number/mL over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in plasma HIV RNA copy number/mL between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
82396564|NCT01093651|164504271|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for serum TNFR2 levels over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum TNFR2 levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
82396565|NCT01093651|164504272|SUPERIORITY_OR_OTHER||||||<|0.0002||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for SDF1-alpha levels over time and between the 2 groups achieved p\<0.0002.|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum SDF1α levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||<0.0002
82396566|NCT01093651|164504273|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for serum RANTES levels over time and between the 2 groups did not achieve p\<0.05 (not statistically significant).|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in serum RANTES levels between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||>0.05
82396567|NCT01093651|164504274|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||The a priori threshold for statistical significance was p\<0.05. The main effect analysis for area under the glucose tolerance curve over time and between the 2 groups achieved p\<0.04.|Mixed Models Analysis|||The main effect analysis was applied to both rows (timepoint) and categories (groups). It used linear mixed models to simultaneously assess differences in area under the glucose tolerance curves between the DPP4 inhibitor and placebo groups (categories) over time (rows). Pairwise post-hoc contrasts were performed to assess the between and within group differences in outcome measures at each time point.||||<0.04
82396568|NCT01093651|164504275|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was p\<0.05. The non-paramteric test for adverse event cummulative frequency between the 2 groups did not achieve p\<0.05 (not statistically significant)|Kruskal-Wallis|||Kruskal-Wallis non-parametric test of cell frequencies||||>0.05
82396569|NCT04459598|164504276|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|55.24|||||TWO_SIDED|90.0|45.24|67.46|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||67.46|45.24|
82396570|NCT04459598|164504276|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|32.37|||||TWO_SIDED|90.0|23.79|44.05|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||44.05|23.79|
82396571|NCT04459598|164504278|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|11.11|||||TWO_SIDED|90.0|8.47|14.56|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||14.56|8.47|
82426442|NCT00945659|164561845|SUPERIORITY||Mean Difference (Net)|-0.93|STANDARD_DEVIATION|1.14||0.41|TWO_SIDED|95.0|-3.17|1.3|||Generalized Estimating Equation|||||1.3|-3.17|0.41
82370903|NCT03182244|164449601|SUPERIORITY||Hazard Ratio (HR)|0.857||||0.56944|TWO_SIDED|95.0|0.494|1.487|||Log Rank|Stratification factors were response to first-line AML therapy and preselected salvage chemotherapy per IRT.|Based on Cox proportional hazard model. Assuming proportional hazards, an HR \< 1 indicates a reduction in hazard rate where the numerator is the Gilteritinib arm and the denominator is the Salvage chemotherapy arm.|||1.487|0.494|0.56944
82370904|NCT03182244|164449602|SUPERIORITY||Treatment difference|31.2|||<|1e-05|TWO_SIDED|95.0|20.2|42.3|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||42.3|20.2|<0.00001
82529329|NCT02567825|164755330|SUPERIORITY||Difference of least-squares means|-4.5|||||TWO_SIDED|95.0|-6.82|-2.18|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean days per year children receive systemic antimicrobials for AOM. The analysis uses a weighted regression model with weights equal to the length of follow-up.||-2.18|-6.82|
82529330|NCT02567825|164755331|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||The Surgical Management group represents the numerator for the hazard ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom PDD was reported.||1.03|0.44|
82529331|NCT02567825|164755332|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.51|1.22|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom diaper dermatitis was reported.||1.22|0.51|
82529332|NCT02567825|164755333|SUPERIORITY||Risk Ratio (RR)|2.57|||||TWO_SIDED|95.0|1.91|3.48|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups regarding the proportion of children for whom tube otorrhea was reported.||3.48|1.91|
82529333|NCT02567825|164755334|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.74|1.24|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children with no pathogens at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.24|0.74|
82529334|NCT02567825|164755334|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.83|1.72|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children positive only for at least 1 penicillin-susceptible pathogen at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.72|0.83|
82529335|NCT02567825|164755334|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.94|1.29|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of children positive for at least 1 penicillin nonsusceptible pathogen at enrollment having a penicillin-nonsusceptible nasopharyngeal or throat isolate at some follow-up visit.||1.29|0.94|
82426443|NCT00945659|164561846|SUPERIORITY||Mean Difference (Net)|1.95|STANDARD_DEVIATION|2.66||0.46|TWO_SIDED|95.0|-3.26|7.15|||Generalized Estimating Equation|||||7.15|-3.26|0.46
82529336|NCT02567825|164755335|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.84|1.55|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of episodes of AOM at which a nonsusceptible pathogen is recovered.||1.55|0.84|
82529337|NCT02567825|164755336|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.84|1.41|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of routine non-illness visits at which a nonsusceptible pathogen is recovered.||1.41|0.84|
82529338|NCT02567825|164755337|SUPERIORITY|The analysis was ITT. The participants are randomized children with at least one episode of AOM late during the respiratory season at which a nasopharyngeal or throat culture is obtained.|Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.69|1.95|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator.|||1.95|0.69|
82529339|NCT02567825|164755338|SUPERIORITY||Difference of least-squares means|0.25|||||TWO_SIDED|95.0|-0.06|0.56|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean parental satisfaction score||0.56|-0.06|
82529340|NCT02567825|164755339|SUPERIORITY||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.98|1.18|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating at least one health care encounter since the previous study visit.||1.18|0.98|
82529341|NCT02567825|164755340|SUPERIORITY|Reports for which the parent did not answer the question were excluded from the analysis.|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.88|1.41|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating a parent missed work due to child's illness.||1.41|0.88|
82575945|NCT01299480|164861332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2948 \[B24\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82575946|NCT01299480|164861332|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Binomial Distribution|||PMB2707 \[B44\]: Response rate was compared with 50%, using 1-sided exact test based on binomial distribution. p-Value \<0.0125 was considered significant.||||<0.001
82396572|NCT04459598|164504278|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|3.67|||||TWO_SIDED|90.0|2.47|5.45|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||5.45|2.47|
82396573|NCT04459598|164504279|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|10.29|||||TWO_SIDED|90.0|7.73|13.7|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||13.70|7.73|
82396574|NCT04459598|164504279|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|3.88|||||TWO_SIDED|90.0|2.62|5.76|||||For the comparison, the Efavirenz + Quizartinib treatment group represents the numerator and Quizartinib only treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||5.76|2.62|
82396575|NCT01907217|164504285|NON_INFERIORITY_OR_EQUIVALENCE|"The prespecified noninferiority margin was no more than a -4 point difference at the end of treatment between the bilateral and unilateral groups.~The predicted difference at the end of treatment was 1.08 (95% confidence interval \[CI\] = -1.67 to 3.84."|Mean Difference (Final Values)|1.08|||<|0.05|TWO_SIDED|95.0|-1.67|3.84||Primary statistical analysis was assessment of difference in HAM-D scores between arms at end-of-treatment, supplemented by 95% CIs and this interval compared with the pre-specified noninferiority threshold (-4 points). The p-value was calculated.|Regression, Linear|A regression model was fitted to end-of-treatment HAM-D measures, with baseline HAM-D scores, trial arm, randomization stratifiers as covariates.|The prespecified noninferiority margin was no more than a -4-point difference at the end of treatment between bitemporal and unilateral groups. The predicted difference at the end of treatment was 1.08 (95% confidence interval \[CI\]=-1.67 to 3.84).|Based on a large bitemporal ECT series, we estimated that 69 patients were required per group to have 80% power to demonstrate, using a one-sided equivalence t test at 5% level, that the mean reduction in the 24-item HAM-D score following high-dose unilateral ECT was no more than 4 points (i.e., equivalent to 3 points on the 17-item HAM-D, deemed to be clinically relevant \[30\]) less than that achieved using bitemporal ECT.||3.84|-1.67|<0.05
82396576|NCT01907217|164504286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.001|TWO_SIDED|95.0|0.51|0.85||As above|generalized linear models with a binomia|||"The AMI-SF at end of treatment was analyzed using generalized linear models with a binomial distribution and logit-link. Post treatment AMI-SF measures provide the number of baseline items recalled after ECT; such number of items recalled variables were therefore modeled as arising from binomial distributions, with maximum number of possible recalls set to the number of items obtained at baseline."||0.85|0.51|0.001
82575947|NCT01430468|164861346|EQUIVALENCE|With use of previously established criteria for a malpositioned glenoid, deviations of greater than 10 degrees of version from the planned placement were considered relevant.||||||0.11||||||P-value was calculated. Threshold for statistical significance (p\<0.05)|t-test, 2 sided|||The absolute difference between the actual outcome and the planned outcome was compared between the standard surgical group and the glenoid positioning system group with use of a Student t test. Results were considered to be significant at p \< 0.05.||||0.11
82575948|NCT01281839|164861348|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|43.8|||<|0.001|TWO_SIDED|95.0|34.6|53.0|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR12 between the treatment groups.||53.0|34.6|<0.001
82644554|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|1.594|||<|0.0001|TWO_SIDED|95.0|1.533|1.654|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to zero on Day 7. (mITT Population)||1.654|1.533|<.0001
82396577|NCT01907217|164504287|SUPERIORITY||Odds Ratio (OR)|0.59||||0.001|TWO_SIDED|95.0|0.45|0.78|||Regression, Linear|Analyzed using a generalized linear models with a binomial distribution and logit-link.||||0.78|0.45|0.001
82396578|NCT01907217|164504288|SUPERIORITY||Odds Ratio (OR)|0.59||||0.001|TWO_SIDED|95.0|0.45|0.79|||Regression, Linear|generalized linear models with a binomial distribution and logit-link||||0.79|0.45|0.001
82396579|NCT02669082|164504357|OTHER|||||||0.2955|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.2955
82396580|NCT02669082|164504358|OTHER|||||||0.1358|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1358
82396581|NCT02669082|164504359|OTHER||Median|||||0.1706|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1706
82396582|NCT02669082|164504360|OTHER|||||||0.1969|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.1969
82396583|NCT02669082|164504361|OTHER|||||||0.0534|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0534
82396584|NCT02669082|164504362|OTHER|||||||0.4125|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.4125
82396585|NCT02669082|164504363|OTHER|||||||0.022|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0220
82396586|NCT02669082|164504364|OTHER|||||||0.042|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.0420
82396587|NCT02669082|164504365|OTHER|||||||0.8166|||||||t-test, 2 sided|||Data at Baseline compared to the data at the end of the Treatment Period.||||0.8166
82396588|NCT00703326|164504386|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.077|TWO_SIDED|95.0|0.75|1.01|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.01|0.75|0.077
82529342|NCT02567825|164755341|SUPERIORITY|Reports indicating the parent did not answer the question were excluded from the analysis.|Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.89|1.48|||||The Surgical Management group represents the numerator for the risk ratio and the Non-Surgical Management group represents the denominator. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the proportion of parent reports indicating the need for special childcare arrangements due to child's illness.||1.48|0.89|
82529343|NCT02567825|164755342|SUPERIORITY||Difference of least-square means|-0.05|||||TWO_SIDED|95.0|-0.13|0.02|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean OM-6 survey score||0.02|-0.13|
82575949|NCT01281839|164861349|SUPERIORITY_OR_OTHER||Difference in proportions of SVR72|43.3|||<|0.001|TWO_SIDED|95.0|34.1|52.5|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR72 between the treatment groups.||52.5|34.1|<0.001
82396589|NCT00703326|164504387|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.487|TWO_SIDED|95.0|0.81|1.1||The gate-keeping strategy used to control overall type 1 error 0.05 (2-sided) or 0.025 (1-sided) to analyze progression-free survival (PFS) and OS. At final PFS analysis only if primary PFS test was significant would analysis of OS be inferential.|Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.10|0.81|0.487
82575950|NCT01281839|164861350|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|44.1|||<|0.001|TWO_SIDED|95.0|34.9|53.2|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||53.2|34.9|<0.001
82575951|NCT01281839|164861351|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|41.0|||<|0.001|TWO_SIDED|95.0|32.1|49.9|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||49.9|32.1|<0.001
82575952|NCT05672771|164861412|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.355|TWO_SIDED||||||ANOVA|||||||0.355
82396590|NCT00703326|164504388|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.033|TWO_SIDED|95.0|0.73|0.99|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||0.99|0.73|0.033
82396591|NCT00703326|164504389|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.33||||0.027|TWO_SIDED|95.0|1.03|1.71|||Stratified Cochran-Mantel-Haenszel(SCMH)|SCMH used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|Stratified odds ratio was calculated considering the IWRS stratification factors.|||1.71|1.03|0.027
82396592|NCT00703326|164504390|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.15|TWO_SIDED|95.0|0.67|1.06|||Stratified Log Rank (SLR)|SLR used Interactive Web Response System (IWRS) factors: prior taxane therapy, visceral metastasis, hormone receptor status and geographical regions.|HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors.|||1.06|0.67|0.150
82396593|NCT00703326|164504391|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||||||P-value is for end of therapy. Analysis of covariance (ANCOVA) adjusted for baseline score was used to compare the 2 treatment arms.|ANCOVA|||||||0.539
82396594|NCT03041467|164504401|SUPERIORITY||||||<|0.001|||||||One-sided Z-test|||||||<0.001
82396595|NCT03041467|164504402|NON_INFERIORITY|Non-inferiority p-values for the primary safety endpoint was based on the Farrington-Manning non-inferiority test with a margin of 7.5%.||||||0.002|||||||Farrington-Manning Test|||||||0.002
82575953|NCT05672771|164861413|SUPERIORITY||Mean Difference (Final Values)|0.56|||<|0.02|TWO_SIDED||||||ANOVA||This is the difference between the Different Mixed and Placebo Control conditions.|||||<.02
82575954|NCT05672771|164861414|OTHER||||||<|0.05||||||for contrasts of DM, DS, and ST groups relative to the PC group.|Mixed Models Analysis|||||||<.05
82575955|NCT04855734|164861419|SUPERIORITY||Mean ratio|0.962||||0.835|TWO_SIDED|95.0|0.661|1.396||Threshold for significance was \<0.05.|Mixed Models Analysis|||||1.396|0.661|0.835
82396596|NCT03041467|164504403|SUPERIORITY||||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|Log Rank|||Kaplan-Meier method was used to estimate access circuit primary patency.||||<0.001
82396597|NCT03041467|164504404|OTHER|There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months. Survival analysis was performed using Kaplan-Meier method.|Log Rank|||Kaplan-Meier method was used to estimate target lesion primary patency.|Survival analysis was performed using Kaplan-Meier method.|||<0.001
82396598|NCT03041467|164504405|SUPERIORITY||||||<|0.001||||||There is no planned hypothesis test other than at 6 months time point. P-value listed is at 6 months.|Chi-squared|||||||<0.001
82396599|NCT03041467|164504409|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
82396600|NCT03041467|164504410|SUPERIORITY|||||||0.482|||||||Chi-squared|||||||0.482
82396601|NCT03041467|164504411|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
82396602|NCT05206734|164504428|OTHER||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|1.12|1.46|||||HR was calculated using a Cox Proportional Hazard model adjusted for age,sex,socioeconomic status, ethnicity and common childhood conditions. Reflects a comparison of the incidence rates between participants diagnosed with IBD and those without IBD.|||1.46|1.12|
82370905|NCT03182244|164449608|SUPERIORITY||Treatment difference|14.7||||0.00055|TWO_SIDED|95.0|6.5|22.8|||Cochran-Mantel-Haenszel|Stratification factors: first-line AML therapy \& preselected salvage chemotherapy/IRT response. Treatment difference based on stratification factors.||||22.8|6.5|0.00055
82396603|NCT05206734|164504429|OTHER||Risk Ratio (RR)|1.82|||||TWO_SIDED|95.0|1.33|2.52|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.52|1.33|
82396604|NCT05206734|164504430|OTHER||Hazard Ratio (HR)|1.63|||||TWO_SIDED|95.0|1.02|2.62|||||HR calculated using Cox regression models adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.62|1.02|
82396605|NCT05206734|164504431|OTHER||Risk Ratio (RR)|2.78|||||TWO_SIDED|95.0|1.76|4.43|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||4.43|1.76|
82396606|NCT05206734|164504433|OTHER||Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|1.12|1.58|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||1.58|1.12|
82396607|NCT05206734|164504434|OTHER||Risk Ratio (RR)|1.87|||||TWO_SIDED|95.0|1.29|2.75|||||RR calculated using negative binomial model adjusted for age,sex,socioeconomic status,ethnicity,IBD type and comorbidities.Reflects a comparison of the incidence rate ratio between IBD participants diagnosed with and without mental health conditions.|||2.75|1.29|
82396608|NCT02330172|164504437|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82396609|NCT02330172|164504438|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82396610|NCT01601067|164504446|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||.002
82396611|NCT01601067|164504447|SUPERIORITY|||||||0.91||||||heavy drinking days|Mixed Models Analysis|||||||.91
82396612|NCT05025332|164504461|OTHER|||||||0.0039|||||||Wilcoxon Signed rank|null median = 4, not 0||Descriptive statistics were used to summarize the data. For total scores, waterfall plots and histograms/bar charts were created at the EOT visit with plots for all participants.||||.0039
82396613|NCT05025332|164504462|OTHER|||||||0.0234|||||||Wilcoxon Signed rank|null median = 4, not 0||Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants.||||0.0234
82396614|NCT05025332|164504463|OTHER|Change from baseline||||||0.0313|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.0313
82396615|NCT05025332|164504464|OTHER|Change from baseline||||||0.0039|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.0039
82396616|NCT05025332|164504465|OTHER|change from baseline||||||0.1934|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.1934
82396617|NCT05025332|164504466|OTHER|Change from baseline||||||0.748|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7480
82396618|NCT05025332|164504467|OTHER|Change from baseline||||||0.3203|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3203
82396619|NCT05025332|164504468|OTHER|change from baseline||||||0.3574|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3574
82396620|NCT05025332|164504469|OTHER|Change from baseline||||||0.4131|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.4131
82396621|NCT05025332|164504470|OTHER|change from baseline||||||0.9063|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.9063
82396622|NCT05025332|164504471|OTHER|Change from baseline||||||1|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||1.00
82426444|NCT00945659|164561846|SUPERIORITY||Mean Difference (Net)|-3.01|STANDARD_DEVIATION|2.54||0.24|TWO_SIDED|95.0|-7.99|1.96|||Generalized Estimating Equation|||||1.96|-7.99|0.24
82370906|NCT03182244|164449609|SUPERIORITY||Least square mean difference|0.6||||0.14841||||||Analysis of covariance (ANCOVA) including treatment as a fixed factor, baseline score, response to first-line AML therapy and preselected salvage chemotherapy per IRT as covariates. LS Mean difference was estimated using chemotherapy as control.|ANCOVA|||||||0.14841
82644555|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.557|||<|0.0001|TWO_SIDED|95.0|0.482|0.631|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 5. (mITT Population)||0.631|0.482|<.0001
82370907|NCT02752906|164449617|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non- inferiority assumption was rejected.|Percentage Difference|5.0|||||TWO_SIDED|95.0|0.735|9.38||||||Serogroup A||9.38|0.735|
82370908|NCT02752906|164449617|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|5.4|||||TWO_SIDED|95.0|2.16|8.76||||||Serogroup C||8.76|2.16|
82370909|NCT02752906|164449617|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|1.8|||||TWO_SIDED|95.0|-0.907|4.55||||||Serogroup Y||4.55|-0.907|
82370910|NCT02752906|164449617|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. If the lower limit of the 2-sided 95% CI of the difference between the 2 percentage was \> -10%, the non-inferiority assumption was rejected.|Percentage Difference|7.4|||||TWO_SIDED|95.0|4.3|10.9||||||Serogroup W||10.9|4.30|
82370911|NCT00792935|164449638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|4.4||0.847|TWO_SIDED|95.0|-7.9|9.6|||Constrained longitudinal analysis|||Using a standard deviation of 23.5 mg/dL, a sample size of at least 65 participants per treatment group would be required to have an 80% power to detect a true difference of 12.5 mg/dL between MK-0941 and glimepiride as measured by change from baseline in 24-hour WMG at Week 6.||9.6|-7.9|0.847
82370912|NCT00792935|164449639|SUPERIORITY_OR_OTHER||Proportions|-7.7||||0.361|TWO_SIDED|95.0|-23.6|8.7|||Miettinen & Nurminen method.||The estimated value represents the difference in percentages, MK-0941 minus Glimepiride.|||8.7|-23.6|0.361
82370913|NCT04492020|164449664|SUPERIORITY||Odds Ratio (OR)|2.09|||<|0.0001|TWO_SIDED|95.0|1.63|2.69|||generalized linear mixed model (GLMM)|||||2.69|1.63|<.0001
82370914|NCT04492020|164449665|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.0001|TWO_SIDED|95.0|1.63|2.78|||generalized linear mixed model (GLMM)|||||2.78|1.63|<.0001
82396623|NCT05025332|164504472|OTHER|Change from baseline||||||0.7002|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7002
82396624|NCT05025332|164504473|OTHER|Change from baseline||||||0.375|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.3750
82426445|NCT00945659|164561847|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_DEVIATION|3.37||0.93|TWO_SIDED|95.0|-6.33|6.91|||Generalized Estimating Equation|||||6.91|-6.33|0.93
82370915|NCT04492020|164449666|SUPERIORITY||Geometric Mean Odds Ratio|1.66|||<|0.0001|TWO_SIDED|95.0|1.4|1.96|||generalized estimating equation (GEE)|||||1.96|1.40|<.0001
82370916|NCT04492020|164449667|SUPERIORITY||Odds Ratio (OR)|1.93|||<|0.0001|TWO_SIDED|95.0|1.39|2.66|||generalized linear mixed model (GLMM)|||||2.66|1.39|<.0001
82370917|NCT01175811|164449723|SUPERIORITY_OR_OTHER||LSmean difference|0.01|||||TWO_SIDED|95.0|-0.14|0.16||||||||0.16|-0.14|
82370918|NCT01175811|164449724|SUPERIORITY_OR_OTHER||LSmean Difference|0.0|||||TWO_SIDED|95.0|-0.15|0.16||||||||0.16|-0.15|
82370919|NCT01175811|164449725|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value is for the comparison of participants achieving \<=6.5% HbA1c at 12 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.344
82370920|NCT01175811|164449725|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||P-value is for the comparison of participants achieving \<=7.0% HbA1c at 12 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.822
82370921|NCT01175811|164449725|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||P-value is for the comparison of participants achieving \<=6.5% HbA1c at 24 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.417
82370922|NCT01175811|164449725|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||P-value is for the comparison of participants achieving \<=7.0% HbA1c at 24 weeks. P-value was not adjusted for multiplicity and should be interpreted as nominal.|Fisher Exact|||||||0.392
82370923|NCT02109419|164449733|OTHER||Pearson Test-retest reliability coeff.|0.8|||<|0.0001|TWO_SIDED||||||Pearson Test-retest reliability coeff.|||HHT-D reliability was evaluated via test-retest reliability coefficients. The dataset included participants from all groups.||||<0.0001
82370924|NCT02109419|164449733|OTHER||Pearson test-retest reliability coeff|0.87|||<|0.0001|TWO_SIDED||||||Pearson test-retest reliability coeff|||HHT-G reliability was evaluated via test-retest reliability coefficients. The dataset included participants from all groups.||||<0.0001
82370925|NCT02109419|164449733|OTHER||Pearson correlation coefficient|0.6|||<|0.0001|TWO_SIDED||||||Pearson correlation coefficient|||Validity of the HHT-D was tested by Pearson correlation coefficients between HHT-D and Geriatric Depression Scale (GDS) scores. The dataset included participants from all groups.||||<.0001
82370926|NCT02109419|164449733|OTHER||Pearson correlation coefficient|0.71||||0.0001|TWO_SIDED||||||Pearson correlation coefficient|||Validity of the HHT-G was tested by Pearson correlation coefficients between HHT-G and Mini-Mental State Examination (MMSE) scores. The dataset included participants from all groups.||||0.0001
82370927|NCT02109419|164449733|OTHER||Chronbach's alpha|0.73|||||TWO_SIDED|||||||||Internal consistency reliability of the HHT-D was assessed with Chronbach's alpha. The dataset included participants from all groups.||||
82370928|NCT02109419|164449733|OTHER||Chronbach's alpha|0.7|||||TWO_SIDED|||||||||Internal consistency reliability of the HHT-G was assessed with Chronbach's alpha. The dataset included participants from all groups.||||
82370929|NCT00655876|164449769|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.47|TWO_SIDED|95.0|0.7|1.16|||Log Rank|||The sample size was based on the primary hypothesis of a 29% reduction in the hazard rate of death with cetuximab, corresponding to an increase in 2-year overall survival (OS) from 41% to 53% and a hazard ratio (λ\[exp\]/λ\[cont\]) of 0.71 in favor of the cetuximab arm. Assuming an exponential distribution and constant hazards, 400 patients were required to reach 281 OS events, with 80% statistical power, a 1-sided α of 0.025, 4.5 years of accrual, 2 years of follow-up, and 4 interim analyses.||1.16|0.70|0.47
82370930|NCT00655876|164449770|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.65|TWO_SIDED|95.0|0.66|1.28|||Log Rank|One-sided significance level = 0.025||||1.28|0.66|0.65
82370931|NCT00655876|164449772|SUPERIORITY|||||||0.66|||||||Fisher Exact|One-sided significance level = 0.025||||||0.66
82370932|NCT00655876|164449773|SUPERIORITY|||||||0.04|||||||Chi-squared|Two-sided significance level = 0.05||6-8 weeks post-treatment||||0.04
82370933|NCT00655876|164449773|SUPERIORITY|||||||0.77|||||||Chi-squared|Two-sided significance level = 0.05||1 year||||0.77
82370934|NCT00655876|164449773|SUPERIORITY|||||||0.17|||||||Chi-squared|Two-sided significance level = 0.05||2 years||||0.17
82426446|NCT00945659|164561847|SUPERIORITY||Mean Difference (Net)|-2.21|STANDARD_DEVIATION|2.95||0.45|TWO_SIDED|95.0|-8.01|3.57|||Generalized Estimating Equation|||||3.57|-8.01|0.45
82529344|NCT02567825|164755342|SUPERIORITY||Difference of least-square means|0.06|||||TWO_SIDED|95.0|-0.13|0.24|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean OM-6 survey--children's overall QOL score.||0.24|-0.13|
82529345|NCT02567825|164755343|SUPERIORITY||Difference of least-square means|-0.04|||||TWO_SIDED|95.0|-1.55|1.47|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean caregiver impact questionnaire score.||1.47|-1.55|
82370935|NCT00759187|164449792|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Two way Anova general linear model (subject and treatment as factors)|ANOVA|||||||<0.05
82370936|NCT00296231|164449802|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||Paired Student's t-test was used to compare pre and post intervention pCO2 values.||||0.011
82370937|NCT00643565|164449857|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.7189|TWO_SIDED|95.0|0.61|1.41|||Log Rank|||The HR was calculated based on a stratified Cox proportional hazards model, with stratification factors of age and histology/disease risk.||1.41|0.61|0.7189
82370938|NCT00643565|164449858|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.3211|TWO_SIDED|95.0|0.51|1.25|||Log Rank|||The HR was calculated based on a stratified Cox proportional hazards model, with stratification factors of age and histology/disease risk.||1.25|0.51|0.3211
82370939|NCT04305496|164449870|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Stratified log rank test|||||0.71|0.51|<0.001
82370940|NCT04305496|164449871|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Stratified log rank test|||||0.71|0.51|<0.001
82370941|NCT04305496|164449872|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Stratified log-rank test|||||0.65|0.38|<0.001
82370942|NCT04305496|164449873|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.65|||Stratified log-rank test|||||0.65|0.38|<0.001
82370943|NCT04305496|164449874|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.34|0.76|||Stratified log rank test|||||0.76|0.34|<0.001
82370944|NCT04305496|164449875|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001|TWO_SIDED|95.0|0.34|0.76|||Stratified log rank test|||||0.76|0.34|<0.001
82370945|NCT04305496|164449876|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.016|TWO_SIDED|95.0|0.19|0.85|||Stratified log rank test|||||0.85|0.19|0.016
82370946|NCT04305496|164449877|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.016|TWO_SIDED|95.0|0.19|0.85|||Stratified log rank test|||||0.85|0.19|0.016
82370947|NCT02912650|164449886|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|30.08|||<|0.001|TWO_SIDED|95.0|24.14|36.02|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on LS Mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical pain severity rating (PSR) as classification variables and baseline numerical PSR used as a continuous covariate.||36.02|24.14|<0.001
82370948|NCT02912650|164449886|SUPERIORITY_OR_OTHER||LS Mean Difference|5.66||||0.008|TWO_SIDED|95.0|1.51|9.8|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||9.80|1.51|0.008
82370949|NCT02912650|164449886|SUPERIORITY_OR_OTHER||LS Mean Difference|14.76|||<|0.001|TWO_SIDED|95.0|10.55|18.97|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||18.97|10.55|<0.001
82370950|NCT02912650|164449886|SUPERIORITY_OR_OTHER||LS Mean Difference|24.42|||<|0.001|TWO_SIDED|95.0|18.5|30.35|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||30.35|18.50|<0.001
82370951|NCT02912650|164449886|SUPERIORITY_OR_OTHER||LS Mean Difference|15.32|||<|0.001|TWO_SIDED|95.0|9.35|21.29|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||21.29|9.35|<0.001
82370952|NCT02912650|164449886|SUPERIORITY_OR_OTHER||LS Mean Difference|9.1|||<|0.001|TWO_SIDED|95.0|4.9|13.31|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||13.31|4.90|<0.001
82370953|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|9.26|||<|0.001|TWO_SIDED|95.0|6.59|11.94|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||11.94|6.59|<0.001
82370954|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|1.84||||0.053|TWO_SIDED|95.0|-0.03|3.71|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.71|-0.03|0.053
82370955|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|5.59|||<|0.001|TWO_SIDED|95.0|3.69|7.49|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.49|3.69|<0.001
82370956|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|7.42|||<|0.001|TWO_SIDED|95.0|4.75|10.09|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.09|4.75|<0.001
82370957|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|3.67||||0.008|TWO_SIDED|95.0|0.98|6.36|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||6.36|0.98|0.008
82529346|NCT02567825|164755343|SUPERIORITY||Difference of least-square means|0.03|||||TWO_SIDED|95.0|-0.14|0.2|||||The Surgical Management group represents the first number in the subtraction and the Non-Surgical Management group represents the second. The estimates are adjusted for site, age at enrollment, and exposure or nonexposure to other children.|Null hypothesis: There is no difference between the two groups in the mean caregiver impact questionnaire--caregiver's overall QOL score.||0.20|-0.14|
82370958|NCT02912650|164449887|SUPERIORITY_OR_OTHER||LS Mean Difference|3.75|||<|0.001|TWO_SIDED|95.0|1.85|5.64|||ANCOVA|||Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.64|1.85|<0.001
82370959|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|13.05|||<|0.001|TWO_SIDED|95.0|10.39|15.71|||ANOVA|||0-8 hours: Treatment difference and 95% CI were based on LS Mean from analysis of variance (ANOVA) with treatment, gender and baseline categorical PSR.||15.71|10.39|<0.001
82396625|NCT05025332|164504474|OTHER|||||||0.7695|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.7695
82426447|NCT00945659|164561848|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_DEVIATION|3.26||0.81|TWO_SIDED|95.0|-7.15|5.62|||Generalized Estimating Equestion|||||5.62|-7.15|0.81
82529347|NCT01381874|164755368|SUPERIORITY||Hazard Ratio (HR)|1.143||||0.437|TWO_SIDED|95.0|0.816|1.603|||stratified log-rank test|||||1.603|0.816|0.437
82529348|NCT01381874|164755368|SUPERIORITY||Hazard Ratio (HR)|0.958||||0.794|TWO_SIDED|95.0|0.695|1.32|||stratified log-rank test|||||1.320|0.695|0.794
82529349|NCT01381874|164755369|SUPERIORITY||Hazard Ratio (HR)|1.074||||0.807|TWO_SIDED|95.0|0.608|1.896|||stratified log-rank test|||||1.896|0.608|0.807
82575956|NCT04855734|164861420|SUPERIORITY||Mean ratio|0.826||||0.032|TWO_SIDED|95.0|0.75|0.986||\<0.05 was threshold for significance level.|Mixed Models Analysis|||Meaning/Peace subscale which was a primary outcome.||0.986|0.75|0.032
82370960|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|3.01||||0.002|TWO_SIDED|95.0|1.15|4.86|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.86|1.15|0.002
82370961|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|6.94|||<|0.001|TWO_SIDED|95.0|5.06|8.83|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.83|5.06|<0.001
82370962|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|10.05|||<|0.001|TWO_SIDED|95.0|7.39|12.7|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.70|7.39|<0.001
82370963|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|6.11|||<|0.001|TWO_SIDED|95.0|3.44|8.78|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.78|3.44|<0.001
82370964|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|3.94|||<|0.001|TWO_SIDED|95.0|2.06|5.81|||ANOVA|||0 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.81|2.06|<0.001
82370965|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|3.84|||<|0.001|TWO_SIDED|95.0|2.63|5.05|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.05|2.63|<0.001
82370966|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.013|TWO_SIDED|95.0|0.23|1.92|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.92|0.23|0.013
82370967|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|2.69|||<|0.001|TWO_SIDED|95.0|1.83|3.55|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.55|1.83|<0.001
82370968|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|1.56|3.98|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.98|1.56|<0.001
82370969|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15||||0.064|TWO_SIDED|95.0|-0.07|2.37|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.37|-0.07|0.064
82370970|NCT02912650|164449888|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62|||<|0.001|TWO_SIDED|95.0|0.76|2.47|||ANOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.47|0.76|<0.001
82370971|NCT02912650|164449889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370972|NCT02912650|164449889|SUPERIORITY_OR_OTHER|||||||0.069|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.069
82370973|NCT02912650|164449889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370974|NCT02912650|164449889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370975|NCT02912650|164449889|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370976|NCT02912650|164449889|SUPERIORITY_OR_OTHER|||||||0.005|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.005
82370977|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-45.27|||<|0.001|TWO_SIDED|95.0|-58.96|-31.58|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-31.58|-58.96|<0.001
82396626|NCT05025332|164504475|OTHER|||||||0.2402|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period.||||0.2402
82529350|NCT01381874|164755369|SUPERIORITY||Hazard Ratio (HR)|1.183||||0.542|TWO_SIDED|95.0|0.688|2.036|||stratified log-rank test|||||2.036|0.688|0.542
82529351|NCT01381874|164755370|SUPERIORITY||Risk Ratio (RR)|0.909||||1|TWO_SIDED|95.0|0.213|3.878|||Fisher Exact|||||3.878|0.213|1.000
82370978|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.88||||0.064|TWO_SIDED|95.0|-18.27|0.5|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||0.50|-18.27|0.064
82426448|NCT00945659|164561848|SUPERIORITY||Mean Difference (Net)|0.99|STANDARD_DEVIATION|2.63||0.72|TWO_SIDED|95.0|-4.11|6.08|||Generalized Estimating Equation|||||6.08|-4.11|0.72
82426449|NCT00945659|164561849|SUPERIORITY||Mean Difference (Net)|0.99|STANDARD_DEVIATION|2.6||0.71|TWO_SIDED|95.0|-4.11|6.08|||Generalized Estimating Equation|||||6.08|-4.11|0.71
82426450|NCT00945659|164561849|SUPERIORITY||Mean Difference (Net)|-1.16|STANDARD_DEVIATION|2.85||0.68|TWO_SIDED|95.0|-6.74|4.43|||Generalized Estimating Equation|||||4.43|-6.74|0.68
82529352|NCT01381874|164755370|SUPERIORITY||Risk Ratio (RR)|1.909||||0.366|TWO_SIDED|95.0|0.605|6.026|||Fisher Exact|||||6.026|0.605|0.366
82370979|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.98|||<|0.001|TWO_SIDED|95.0|-36.91|-17.05|||ANOVA|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-17.05|-36.91|<0.001
82370980|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.26|||<|0.001|TWO_SIDED|95.0|-50.45|-22.07|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-22.07|-50.45|<0.001
82370981|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.58||||0.01|TWO_SIDED|95.0|-32.64|-4.52|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-4.52|-32.64|0.010
82370982|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.17|||<|0.001|TWO_SIDED|95.0|-28.44|-7.9|||Cochran-Mantel-Haenszel|||At 8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-7.90|-28.44|<0.001
82370983|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-57.58|||<|0.001|TWO_SIDED|95.0|-70.44|-44.72|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-44.72|-70.44|<0.001
82529353|NCT01381874|164755371|SUPERIORITY||Risk Ratio (RR)|0.757||||0.603|TWO_SIDED|95.0|0.264|2.175|||Chi-squared|||||2.175|0.264|0.603
82529354|NCT01381874|164755371|SUPERIORITY||Risk Ratio (RR)|1.79||||0.137|TWO_SIDED|95.0|0.816|3.926|||Chi-squared|||||3.926|0.816|0.137
82370984|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.28||||0.004|TWO_SIDED|95.0|-18.99|-3.57|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-3.57|-18.99|0.004
82370985|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-28.06|||<|0.001|TWO_SIDED|95.0|-36.77|-19.35|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-19.35|-36.77|<0.001
82370986|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-46.01|||<|0.001|TWO_SIDED|95.0|-59.98|-32.04|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-32.04|-59.98|<0.001
82370987|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-29.7|||<|0.001|TWO_SIDED|95.0|-43.65|-15.75|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-15.75|-43.65|<0.001
82370988|NCT02912650|164449890|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.94|||<|0.001|TWO_SIDED|95.0|-26.59|-7.29|||Cochran-Mantel-Haenszel|||At 6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions, controlling for baseline categorical PSR and gender using table scores.||-7.29|-26.59|<0.001
82370989|NCT02912650|164449891|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370990|NCT02912650|164449891|SUPERIORITY_OR_OTHER|||||||0.003|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.003
82370991|NCT02912650|164449891|SUPERIORITY_OR_OTHER|||||||0.031|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.031
82370992|NCT02912650|164449891|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370993|NCT02912650|164449891|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370994|NCT02912650|164449891|SUPERIORITY_OR_OTHER|||||||0.631|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.631
82370995|NCT02912650|164449892|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370996|NCT02912650|164449892|SUPERIORITY_OR_OTHER|||||||0.088|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.088
82370997|NCT02912650|164449892|SUPERIORITY_OR_OTHER|||||||0.133|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.133
82370998|NCT02912650|164449892|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82370999|NCT02912650|164449892|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||<0.001
82371000|NCT02912650|164449892|SUPERIORITY_OR_OTHER|||||||0.887|||||||Gehan-Wilcoxon test|||p-value was calculated by using Gehan-Wilcoxon test, stratified by gender and baseline categorical PSR terms.||||0.887
82529355|NCT01003184|164755386|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.6|||<|0.0001|TWO_SIDED|95.0|3.17|13.73|||Regression, Logistic|Logistic regression model includes treatment group, use of SU (yes/no), baseline HbA1c and baseline weight as main factors.||"Primary objective: to test hypothesis that the percentage of patients with HbA1c ≤7.0% with weight loss (≥1.0 kg) after exenatide QW is superior to insulin detemir.~Sample size estimation: based on the test for difference in percentage between Exenatide QW and insulin detemir. Assuming: common drop-out rate 20%, response rate at endpoint 50% in the exenatide QW group and 25% in the insulin detemir group; 5% significance. 214 patients will provide 90% power to detect a difference."||13.73|3.17|<.0001
82529356|NCT01003184|164755387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.06|||<|0.0001|TWO_SIDED|95.0|3.64|13.7|||Regression, Logistic|Logistic regression model includes the independent variables treatment group, use of SU (yes/no), baseline HbA1c and baseline weight.||||13.70|3.64|<.0001
82371001|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.14|0.52|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|0.14|<0.001
82529357|NCT01003184|164755388|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.104||0.0001|TWO_SIDED|95.0|-0.62|-0.2|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-0.20|-0.62|0.0001
82575957|NCT04855734|164861426|SUPERIORITY||Mean ratio|1.052||||0.284|TWO_SIDED|95.0|0.959|1.157||\<0.05 threshold for significance level.|Mixed Models Analysis|||Caregiver strain subscale scores at 3 months post-intervention comparing intervention to TAU, controlling for baseline levels.||1.157|0.959|0.284
82575958|NCT04855734|164861426|SUPERIORITY||Mean ratioj|0.931||||0.228|TWO_SIDED|95.0|0.827|1.048||\<0.05 threshold for significance level.|Mixed Models Analysis|||Caregiver distress subscale controlling for baseline levels.||1.048|0.827|0.228
82371002|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.034|TWO_SIDED|95.0|0.01|0.28|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|0.01|0.034
82371003|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.963|TWO_SIDED|95.0|-0.13|0.14|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.14|-0.13|0.963
82371004|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.062|TWO_SIDED|95.0|-0.01|0.37|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.37|-0.01|0.062
82371005|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.001|TWO_SIDED|95.0|0.13|0.52|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|0.13|0.001
82371006|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.04|TWO_SIDED|95.0|-0.28|-0.01|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||-0.01|-0.28|0.040
82371007|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|||<|0.001|TWO_SIDED|95.0|0.7|1.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.70|<0.001
82371008|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.095|TWO_SIDED|95.0|-0.03|0.37|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.37|-0.03|0.095
82371009|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.414|TWO_SIDED|95.0|-0.12|0.29|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.29|-0.12|0.414
82371010|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81|||<|0.001|TWO_SIDED|95.0|0.52|1.1|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.52|<0.001
82371011|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.61|1.19|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|0.61|<0.001
82371012|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.406|TWO_SIDED|95.0|-0.29|0.12|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.12|-0.29|0.406
82371013|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|1.4|2.09|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.09|1.40|<0.001
82371014|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.006|TWO_SIDED|95.0|0.1|0.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.58|0.10|0.006
82371015|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33||||0.009|TWO_SIDED|95.0|0.08|0.57|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.57|0.08|0.009
82371016|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41|||<|0.001|TWO_SIDED|95.0|1.07|1.75|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.75|1.07|<0.001
82371017|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|1.08|1.77|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.77|1.08|<0.001
82371018|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.908|TWO_SIDED|95.0|-0.26|0.23|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.23|-0.26|0.908
82371019|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.99|||<|0.001|TWO_SIDED|95.0|1.64|2.35|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.35|1.64|<0.001
82371020|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.002|TWO_SIDED|95.0|0.15|0.64|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|0.15|0.002
82371021|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|||<|0.001|TWO_SIDED|95.0|0.32|0.82|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.82|0.32|<0.001
82371022|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|1.25|1.95|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.95|1.25|<0.001
82371023|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|1.07|1.78|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.78|1.07|<0.001
82371024|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.157|TWO_SIDED|95.0|-0.07|0.43|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.07|0.157
82371025|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|||<|0.001|TWO_SIDED|95.0|1.73|2.48|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.48|1.73|<0.001
82371026|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.005|TWO_SIDED|95.0|0.11|0.63|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.63|0.11|0.005
82396627|NCT01306214|164504476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|97.5|-0.61|-0.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 18 was the first step in each hierarchical sequence.|ANCOVA|ANCOVA Model includes baseline HbA1c as a covariate and baseline eGFR, geographic region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of Empagliflozin 10 mg - Adjusted mean of placebo.|"For the primary endpoint, the testing of the superiority hypothesis versus placebo was:~Hypothesis test:~H0: No difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 10 mg and placebo Ha: A difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 10 mg and placebo"||-0.27|-0.61|<0.0001
82371027|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|||<|0.001|TWO_SIDED|95.0|0.52|1.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.52|<0.001
82371028|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|||<|0.001|TWO_SIDED|95.0|1.36|2.1|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.10|1.36|<0.001
82371029|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.31|||<|0.001|TWO_SIDED|95.0|0.94|1.69|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.94|<0.001
82371030|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.002|TWO_SIDED|95.0|0.15|0.68|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.68|0.15|0.002
82371031|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|2.06|||<|0.001|TWO_SIDED|95.0|1.67|2.45|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.45|1.67|<0.001
82371032|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.004|TWO_SIDED|95.0|0.13|0.67|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|0.13|0.004
82371033|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.82|1.37|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.37|0.82|<0.001
82371034|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|||<|0.001|TWO_SIDED|95.0|1.27|2.04|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.04|1.27|<0.001
82371035|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|||<|0.001|TWO_SIDED|95.0|0.58|1.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.36|0.58|<0.001
82371036|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.42|0.96|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.96|0.42|<0.001
82371037|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.001|TWO_SIDED|95.0|1.6|2.4|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.40|1.60|<0.001
82444786|NCT04736628|164598466|OTHER||Odds Ratio (OR)|2.72||||0.0119|TWO_SIDED|95.0|1.25|5.94||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 2 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||5.94|1.25|0.0119
82529358|NCT01003184|164755389|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.67|STANDARD_ERROR_OF_MEAN|0.488|<|0.0001|TWO_SIDED|95.0|-4.63|-2.71|||Mixed Models Analysis|||Mixed model repeated measures MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-2.71|-4.63|<.0001
82371038|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.002|TWO_SIDED|95.0|0.16|0.72|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.72|0.16|0.002
82529359|NCT01003184|164755390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0497|TWO_SIDED|95.0|1.0|3.18|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||3.18|1.00|0.0497
82529360|NCT01003184|164755391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.0074|TWO_SIDED|95.0|1.24|3.96|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||3.96|1.24|0.0074
82529361|NCT01003184|164755392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.89||||0.0002|TWO_SIDED|95.0|2.1|11.35|||Regression, Logistic|||Logistic regression model includes independent variables treatment group, use of SU (yes/no), and baseline HbA1c.||11.35|2.10|0.0002
82529362|NCT01003184|164755393|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.257||0.6993|TWO_SIDED|95.0|-0.41|0.61|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.61|-0.41|0.6993
82529363|NCT01003184|164755394|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.72|STANDARD_ERROR_OF_MEAN|1.853||0.0116|TWO_SIDED|95.0|-8.37|-1.07|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||-1.07|-8.37|0.0116
82529364|NCT01003184|164755395|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|1.179||0.7034|TWO_SIDED|95.0|-2.77|1.88|||Mixed Models Analysis|||Mixed model repeated measures (MMRM) includes baseline value as covariate, study treatment, use of SU (yes/no), baseline HbA1c stratum, week of visit and treatment-by-week interaction as fixed effects and patient and error as random effects.||1.88|-2.77|0.7034
82529365|NCT01003184|164755396|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.1061|TWO_SIDED|95.0|-0.32|0.03|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.03|-0.32|0.1061
82529366|NCT01003184|164755397|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.4638|TWO_SIDED|95.0|-0.05|0.02|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.02|-0.05|0.4638
82529367|NCT01003184|164755398|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.107||0.4967|TWO_SIDED|95.0|-0.14|0.28|||ANCOVA|||ANCOVA model includes treatment group, baseline value, use of SU (yes/no) and baseline HbA1c stratum as factors.||0.28|-0.14|0.4967
82529368|NCT01003184|164755399|SUPERIORITY_OR_OTHER||Ratio|0.58|STANDARD_ERROR_OF_MEAN|0.322||0.3247|TWO_SIDED|95.0|0.19|1.72|||Poisson regression|||The number of episodes by patient were compared between treatment groups using a poisson model with effects for treatment and baseline HbA1c and the logarithm of the days of exposure as the offset variable.||1.72|0.19|0.3247
82529369|NCT03662997|164755419|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.046||||||Five-layer vs Hydrocellular arm, Weeks 1 \& 3|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.046
82575959|NCT04855734|164861426|SUPERIORITY||Mean ratio|0.984||||0.504|TWO_SIDED|95.0|0.94|1.032||\<0.05 significance level.|Mixed Models Analysis|||Family well-being subscale controlling for baseline levels.||1.032|0.94|0.504
82371039|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.16|||<|0.001|TWO_SIDED|95.0|0.88|1.44|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.44|0.88|<0.001
82371040|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|1.16|1.96|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.96|1.16|<0.001
82371041|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84|||<|0.001|TWO_SIDED|95.0|0.44|1.24|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.24|0.44|<0.001
82444787|NCT04736628|164598466|OTHER||Odds Ratio (OR)|3.43||||0.0019|TWO_SIDED|95.0|1.58|7.45||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 3 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||7.45|1.58|0.0019
82575960|NCT04855734|164861426|SUPERIORITY||Mean ratio|0.995||||0.741|TWO_SIDED|95.0|0.967|1.024||\<0.05 significance level.|Mixed Models Analysis|||Positive Caregiving Appraisals subscale at 3 month follow up, controlling for baseline levels.||1.024|0.967|0.741
82444788|NCT04736628|164598467|OTHER||Odds Ratio (OR)|2.13||||0.0497|TWO_SIDED|95.0|1.0|4.55||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 1 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.55|1.00|0.0497
82444789|NCT04736628|164598467|OTHER||Odds Ratio (OR)|2.15||||0.0502|TWO_SIDED|95.0|1.0|4.61||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 2 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.61|1.00|0.0502
82575961|NCT04535544|164861434|SUPERIORITY||Difference of percentage|23.7||||0.011|TWO_SIDED|95.0|3.52|43.96|||Mantel-Haenszel|||Stratum-adjusted Mantel-Haenszel (MH) test was used to assess the difference of percentage based on stratification factor: HBeAg status at screening (positive vs negative).||43.96|3.52|0.011
82444790|NCT04736628|164598467|OTHER||Odds Ratio (OR)|2.09||||0.0572|TWO_SIDED|95.0|0.98|4.49||Nominal p-value.|Regression, Logistic||Odds ratio (Avenciguat 3 mg TID vs. Placebo).|Treatment and sodium-glucose co-transporter-2 inhibitor (SGLT2i) use at randomization were used as covariates in the logistic regression model.||4.49|0.98|0.0572
82444791|NCT04908280|164598479|SUPERIORITY|||||||0.0308|||||||ANOVA|||||||0.0308
82444792|NCT03242252|164598524|SUPERIORITY||Difference in Least Squares (LS) Means|-0.1|STANDARD_ERROR_OF_MEAN|0.076||0.2095|TWO_SIDED|95.0|-0.245|0.054|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of Chronic Kidney Disease (CKD) stage (3A, 3B) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.054|-0.245|0.2095
82444793|NCT03242252|164598524|SUPERIORITY||Difference in LS Means|-0.24|STANDARD_ERROR_OF_MEAN|0.077||0.0021|TWO_SIDED|95.0|-0.386|-0.085|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.085|-0.386|0.0021
82444794|NCT03242252|164598525|SUPERIORITY||Difference in LS Means|-0.587|STANDARD_ERROR_OF_MEAN|0.2397||0.0144|TWO_SIDED|95.0|-1.0564|-0.1169|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline FPG as a covariate.||-0.1169|-1.0564|0.0144
82575962|NCT04535544|164861435|SUPERIORITY||Difference of percentage|26.8||||0.003|TWO_SIDED|95.0|7.38|46.21|||Mantel-Haenszel|||Stratum-adjusted MH test was used to assess the difference of percentage based on stratification factor: HBeAg status at screening (positive vs negative).||46.21|7.38|0.003
82575963|NCT05131477|164861450|SUPERIORITY||LS Mean Difference|-32.1|STANDARD_ERROR_OF_MEAN|6.01|<|0.0001|TWO_SIDED|95.0|-43.9|-20.3|||ANCOVA||LS Mean Difference|||-20.3|-43.9|<0.0001
82575964|NCT05131477|164861450|SUPERIORITY||LS Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|5.98|<|0.0001|TWO_SIDED|95.0|-39.1|-15.6|||ANCOVA||LS Mean Difference|||-15.6|-39.1|<0.0001
82575965|NCT05131477|164861450|SUPERIORITY||LS Mean Difference|-22.2|STANDARD_ERROR_OF_MEAN|6.01||0.0002|TWO_SIDED|95.0|-34.0|-10.4|||ANCOVA||LS Mean Difference|||-10.4|-34.0|0.0002
82575966|NCT05131477|164861450|SUPERIORITY||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|5.95|<|0.0001|TWO_SIDED|95.0|-41.9|-18.5|||ANCOVA|||||-18.5|-41.9|<0.0001
82371042|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.44|1.0|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.00|0.44|<0.001
82371043|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|||<|0.001|TWO_SIDED|95.0|1.5|2.31|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.31|1.50|<0.001
82371044|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.001|TWO_SIDED|95.0|0.18|0.74|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.74|0.18|0.001
82371045|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.14|||<|0.001|TWO_SIDED|95.0|0.85|1.43|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.85|<0.001
82371046|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|1.04|1.85|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.85|1.04|<0.001
82371047|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.77|||<|0.001|TWO_SIDED|95.0|0.36|1.17|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.17|0.36|<0.001
82371048|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.39|0.97|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.97|0.39|<0.001
82371049|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55|||<|0.001|TWO_SIDED|95.0|1.13|1.98|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.98|1.13|<0.001
82371050|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.017|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.017
82371051|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07|||<|0.001|TWO_SIDED|95.0|0.77|1.37|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.37|0.77|<0.001
82371052|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|||<|0.001|TWO_SIDED|95.0|0.78|1.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.62|0.78|<0.001
82371053|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.026|TWO_SIDED|95.0|0.06|0.91|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.91|0.06|0.026
82529370|NCT03662997|164755419|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.56||||||Five-layer vs Hydrocellular arm; Weeks 2 \& 4|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.56
82575967|NCT05131477|164861451|SUPERIORITY||LS Mean Difference|-36.8|STANDARD_ERROR_OF_MEAN|6.62|<|0.0001|TWO_SIDED|95.0|-49.8|-23.8|||ANCOVA||LS Mean Difference|||-23.8|-49.8|<0.0001
82647967|NCT00386100|165011347|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.168||||0.7895|TWO_SIDED|95.0|-1.066|1.417||Overall population, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.417|-1.066|0.7895
82371054|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.42|1.01|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.01|0.42|<0.001
82371055|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.27|||<|0.001|TWO_SIDED|95.0|0.84|1.69|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.84|<0.001
82371056|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.017|TWO_SIDED|95.0|0.07|0.66|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.07|0.017
82371057|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.6|1.2|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.60|<0.001
82371058|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|||<|0.001|TWO_SIDED|95.0|0.48|1.33|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.33|0.48|<0.001
82371059|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.089|TWO_SIDED|95.0|-0.06|0.8|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.80|-0.06|0.089
82371060|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|||<|0.001|TWO_SIDED|95.0|0.24|0.83|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.83|0.24|<0.001
82371061|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|1.02|||<|0.001|TWO_SIDED|95.0|0.6|1.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.44|0.60|<0.001
82371062|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.018|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.018
82371063|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|||<|0.001|TWO_SIDED|95.0|0.42|1.02|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.02|0.42|<0.001
82371064|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67||||0.002|TWO_SIDED|95.0|0.25|1.09|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.25|0.002
82371065|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.163|TWO_SIDED|95.0|-0.12|0.72|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.72|-0.12|0.163
82371066|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.016|TWO_SIDED|95.0|0.07|0.66|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.07|0.016
82371067|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68||||0.002|TWO_SIDED|95.0|0.26|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.26|0.002
82371068|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.496|TWO_SIDED|95.0|-0.19|0.4|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.19|0.496
82371069|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.003|TWO_SIDED|95.0|0.16|0.76|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.16|0.003
82371070|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.008|TWO_SIDED|95.0|0.15|1.0|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.00|0.15|0.008
82371071|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.315|TWO_SIDED|95.0|-0.21|0.64|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|-0.21|0.315
82371072|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.019|TWO_SIDED|95.0|0.06|0.66|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|0.06|0.019
82371073|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45||||0.038|TWO_SIDED|95.0|0.02|0.87|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.87|0.02|0.038
82371074|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.918|TWO_SIDED|95.0|-0.28|0.31|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.31|-0.28|0.918
82371075|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.105|TWO_SIDED|95.0|-0.05|0.55|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.55|-0.05|0.105
82371076|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.045|TWO_SIDED|95.0|0.01|0.85|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.85|0.01|0.045
82371077|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.355|TWO_SIDED|95.0|-0.22|0.62|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.22|0.355
82371078|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.127|TWO_SIDED|95.0|-0.07|0.53|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.07|0.127
82371079|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.171|TWO_SIDED|95.0|-0.12|0.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.70|-0.12|0.171
82371080|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.79|TWO_SIDED|95.0|-0.25|0.33|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.33|-0.25|0.790
82371081|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.235|TWO_SIDED|95.0|-0.12|0.47|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.47|-0.12|0.235
82371082|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.236|TWO_SIDED|95.0|-0.16|0.66|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.66|-0.16|0.236
82371083|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.599|TWO_SIDED|95.0|-0.3|0.53|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.30|0.599
82371084|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.353|TWO_SIDED|95.0|-0.15|0.43|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.15|0.353
82371085|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.293|TWO_SIDED|95.0|-0.19|0.62|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.19|0.293
82371086|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.986|TWO_SIDED|95.0|-0.28|0.28|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.28|0.986
82371087|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.459|TWO_SIDED|95.0|-0.18|0.39|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.39|-0.18|0.459
82371088|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.287|TWO_SIDED|95.0|-0.18|0.62|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.62|-0.18|0.287
82371089|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.6|TWO_SIDED|95.0|-0.3|0.51|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.30|0.600
82371090|NCT02912650|164449893|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.447|TWO_SIDED|95.0|-0.17|0.4|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.17|0.447
82371091|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.59||||0.001|TWO_SIDED|95.0|0.23|0.96|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.96|0.23|0.001
82371092|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.297|TWO_SIDED|95.0|-0.12|0.39|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.39|-0.12|0.297
82371093|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.457|TWO_SIDED|95.0|-0.35|0.16|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.16|-0.35|0.457
82371094|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.012|TWO_SIDED|95.0|0.1|0.82|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.82|0.10|0.012
82371095|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.33|1.06|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.06|0.33|<0.001
82371096|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23||||0.076|TWO_SIDED|95.0|-0.49|0.02|||ANCOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.02|-0.49|0.076
82371097|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.03|||<|0.001|TWO_SIDED|95.0|1.42|2.63|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.63|1.42|<0.001
82371098|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.016|TWO_SIDED|95.0|0.1|0.93|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.93|0.10|0.016
82371099|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.33|TWO_SIDED|95.0|-0.21|0.64|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.64|-0.21|0.330
82371100|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|||<|0.001|TWO_SIDED|95.0|0.91|2.11|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.11|0.91|<0.001
82575968|NCT05131477|164861451|SUPERIORITY||LS Mean Difference|-24.6|STANDARD_ERROR_OF_MEAN|6.67||0.0002|TWO_SIDED|95.0|-37.7|-11.6|||ANCOVA||LS Mean Difference|||-11.6|-37.7|0.0002
82529371|NCT03662997|164755419|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.01||||||Five-layer vs Hydropolymer arm; Weeks 1 \& 3|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.010
82529372|NCT03662997|164755419|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.25||||||Five-layer vs Hydropolymer arm; Weeks 2 \& 4|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.25
82529373|NCT03662997|164755420|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.046||||||Five-layer vs Hydrocellular; End of Weeks 1 and 3.|Chi-squared, Corrected||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||0.046
82529374|NCT03662997|164755420|SUPERIORITY|In this superiority study the primary efficacy analysis included constructing a two sided 5% significance level, using Fisher's non-parametric permutation test for ordered categorical variables and dichotomous variables for the differences. Numbers, percentages improved, not changed, worsened were analyzed with Mantel-Haenszel Exact Chi square over the course of 4 weeks in a 2x2 weeks treatment period inferiority will be established.||||||0.01||||||Five-layer vs Hydropolymer; End of Weeks 1 \& 3|Chi-squared, Corrected||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups|||0.010
82529375|NCT03662997|164755428|SUPERIORITY|This secondary outcome measure was not planned for at the initiation of the study. Compliance rates were calculated by combining the number incidences that dressings were worn for the full 7 days and when the dressings do not have strike-through during first the week of treatment.|||||<|0.05||||||Five-layer vs Hydrocellular arm, first week of treatment|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||<0.05
82529376|NCT03662997|164755428|SUPERIORITY|This secondary outcome measure was not planned for at the initiation of the study. Compliance rates were calculated by combining the number incidences that dressings were worn for the full 7 days and when the dressings do not have strike-through during the first week of treatment.|||||<|0.05||||||Five-layer vs Hydropolymer, first week of treatment.|Chi-squared||||All data presented on the performance of the dressings reflect the FAS populations for the study comparison groups.|||<0.05
82529377|NCT00007475|164755429|SUPERIORITY_OR_OTHER||Proportion with reduced proteinuria|0.6363|STANDARD_ERROR_OF_MEAN|0.0698|<|0.0001|TWO_SIDED|95.0|0.3079|0.8907||Exact binomial test of proportion of participants exhibiting reduction in proteinuria (see definition below), under null hypothesis that the overall proportion is zero.|Exact binomial test|Tested under null hypothesis that the overall proportion is zero.|Proportion event definition: exhibiting reduction in proteinuria post-cyclophosphamide (complete- \[urine protein {UP} \<0.3\] or or partial-remission \[between 0.3 \& 2.0, inclusive\], limited response \[UP between 2.0 \& 3.5\] yet no relapse \[UP 3.5+\]).|No groups compared, yet null hypothesis: pooled proportion = 0, tested using counts pooled across baseline FPF assay-availability groups (7 across 3 arms) excluding 4 non-completers (yielding 7/11 with event below). Given the modest group-specific sample sizes and tendency for zero outcomes to be observed in a group, we employ exact binomial 95% confidence intervals using the method of Clopper and Pearson (1934; calculated along with corresponding tests using Michael Fay's exactci package in R).||0.8907|0.3079|<0.0001
82529378|NCT01121484|164755463|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||Null hypothesis: no difference between treatment groups||||0.004
82529379|NCT01121484|164755464|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CGI-I analyzed as a categorical variable by Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores, controlling for the effect of region; p-value obtained from the alternative hypothesis of Row Mean Score Differences.|Cochran-Mantel-Haenszel|||||||<0.001
82529380|NCT01121484|164755465|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.002
82647968|NCT00386100|165011347|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.745||||0.4155|TWO_SIDED|95.0|-1.064|2.587||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||2.587|-1.064|0.4155
82371101|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.81|||<|0.001|TWO_SIDED|95.0|1.21|2.42|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.42|1.21|<0.001
82529381|NCT01121484|164755466|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.002
82529382|NCT01121484|164755467|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||0.158
82529383|NCT01121484|164755468|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Analysis of Covariance used change from baseline at Week 8 as a response variable, site and treatment as factors, and baseline score as a covariate.|ANCOVA|||||||<0.001
82396628|NCT01306214|164504476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.69|-0.35||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 18 was the first step in each hierarchical sequence.|ANCOVA|ANCOVA Model includes baseline HbA1c as a covariate and baseline eGFR, geographic region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of Empagliflozin 25 mg - Adjusted mean of placebo|"For the primary endpoint, the testing of the superiority hypothesis versus placebo was:~H0: No difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 25 mg and placebo Ha: A difference in change from baseline to Week 18 in HbA1c (%) between Empagliflozin 25 mg and placebo"||-0.35|-0.69|<0.0001
82371102|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.163|TWO_SIDED|95.0|-0.73|0.12|||ANCOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.12|-0.73|0.163
82371103|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.91|||<|0.001|TWO_SIDED|95.0|3.18|4.65|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.65|3.18|<0.001
82371104|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.001|TWO_SIDED|95.0|0.35|1.38|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.38|0.35|0.001
82371105|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.003|TWO_SIDED|95.0|0.26|1.31|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.31|0.26|0.003
82371106|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.05|||<|0.001|TWO_SIDED|95.0|2.32|3.79|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.79|2.32|<0.001
82371107|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.13|||<|0.001|TWO_SIDED|95.0|2.39|3.87|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.87|2.39|<0.001
82371108|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.769|TWO_SIDED|95.0|-0.6|0.44|||ANCOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.44|-0.60|0.769
82371109|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.65|||<|0.001|TWO_SIDED|95.0|3.88|5.42|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.42|3.88|<0.001
82371110|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.002|TWO_SIDED|95.0|0.32|1.4|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.40|0.32|0.002
82371111|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|||<|0.001|TWO_SIDED|95.0|0.83|1.93|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.93|0.83|<0.001
82371112|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.79|||<|0.001|TWO_SIDED|95.0|3.02|4.56|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.56|3.02|<0.001
82371113|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.27|||<|0.001|TWO_SIDED|95.0|2.49|4.04|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.04|2.49|<0.001
82371114|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.062|TWO_SIDED|95.0|-0.03|1.06|||ANCOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.06|-0.03|0.062
82371115|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.83|||<|0.001|TWO_SIDED|95.0|4.01|5.64|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.64|4.01|<0.001
82371116|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76||||0.009|TWO_SIDED|95.0|0.19|1.33|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.33|0.19|0.009
82371117|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|1.17|2.33|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.33|1.17|<0.001
82371118|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.06|||<|0.001|TWO_SIDED|95.0|3.25|4.88|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.88|3.25|<0.001
82529384|NCT00152971|164755492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2% on the absolute risk difference scale|Risk Difference (Percentage)|5.8||||0.0234||95.0|0.8|10.8||Hierarchical testing procedure: first non-inferiority, second superiority|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||10.8|0.8|0.0234
82396629|NCT01306214|164504477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.83|STANDARD_ERROR_OF_MEAN|3.05||0.004|TWO_SIDED|97.5|-15.69|-1.97||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in insulin dose at week 52 was the second step in hierarchical sequence.|ANCOVA|Model - Covariates: baseline insulin daily dose,baseline HbA1c Fixed effects: baseline eGFR, region, baseline background medication, treatment|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 10 mg and placebo Ha: A difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 10 mg and placebo"||-1.97|-15.69|0.004
82396630|NCT01306214|164504477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.22|STANDARD_ERROR_OF_MEAN|3.05||0.0003|TWO_SIDED|97.5|-18.09|-4.36||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in insulin dose at week 52 was the second step in hierarchical sequence.|ANCOVA|Model - Covariates: baseline insulin daily dose,baseline HbA1c Fixed effects: baseline eGFR, region, baseline background medication, treatment|Estimated value = Adjusted mean of Empagliflozin 25 mg - Adjusted mean of placebo.|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 25 mg and placebo Ha : A difference in change from baseline to Week 52 in insulin dose (IU/day) between Empagliflozin 25 mg and placebo"||-4.36|-18.09|0.0003
82396631|NCT01306214|164504478|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.39|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|97.5|-3.54|-1.24||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in body weight at week 52 was the third step in hierarchical sequence.|ANCOVA|Model includes baseline weight, baseline HbA1c as covariates and baseline eGFR, region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 10 mg and placebo Ha : A difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 10 mg and placebo"||-1.24|-3.54|<0.0001
82426451|NCT04067011|164561850|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of AUC0-12h.|Ratio of AUC|0.9764|||||TWO_SIDED|90.0|0.8895|1.0718||||||Analysis of Geometric mean ratio of area under the curve from 0 to 12 hours (AUC0-12h) for ciprofloxacin on Days 8 and 35||1.0718|0.8895|
82371119|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08|||<|0.001|TWO_SIDED|95.0|2.26|3.9|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.90|2.26|<0.001
82371120|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.41|1.56|||ANCOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.56|0.41|<0.001
82371121|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.67|||<|0.001|TWO_SIDED|95.0|3.82|5.52|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.52|3.82|<0.001
82371122|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.01|TWO_SIDED|95.0|0.19|1.38|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.38|0.19|0.010
82371123|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.41|||<|0.001|TWO_SIDED|95.0|1.81|3.01|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.01|1.81|<0.001
82371124|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.89|||<|0.001|TWO_SIDED|95.0|3.04|4.74|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.74|3.04|<0.001
82575969|NCT05131477|164861451|SUPERIORITY||LS Mean Difference|-26.2|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|-39.2|-13.1|||ANCOVA||LS Mean Difference|||-13.1|-39.2|<0.0001
82371125|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.4|3.11|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.11|1.40|<0.001
82371126|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63|||<|0.001|TWO_SIDED|95.0|1.02|2.23|||ANCOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.23|1.02|<0.001
82371127|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.53|||<|0.001|TWO_SIDED|95.0|3.65|5.4|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.40|3.65|<0.001
82371128|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82||||0.009|TWO_SIDED|95.0|0.21|1.43|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.43|0.21|0.009
82575970|NCT05131477|164861451|SUPERIORITY||LS Mean Difference|-26.8|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|-39.7|-13.9|||ANCOVA||LS Mean Difference|||-13.9|-39.7|<0.0001
82371129|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.42|||<|0.001|TWO_SIDED|95.0|1.79|3.04|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.04|1.79|<0.001
82371130|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.71|||<|0.001|TWO_SIDED|95.0|2.83|4.58|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.58|2.83|<0.001
82371131|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|||<|0.001|TWO_SIDED|95.0|1.23|2.99|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.99|1.23|<0.001
82371132|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|0.97|2.22|||ANCOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.22|0.97|<0.001
82371133|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|4.27|||<|0.001|TWO_SIDED|95.0|3.37|5.17|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||5.17|3.37|<0.001
82371134|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.012|TWO_SIDED|95.0|0.18|1.44|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.44|0.18|0.012
82396632|NCT01306214|164504478|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.48|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|97.5|-3.63|-1.33||Hierarchical testing adjusted for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empagliflozin versus placebo change from baseline in body weight at week 52 was the third step in hierarchical sequence.|ANCOVA|Model includes baseline weight, baseline HbA1c as covariates and baseline eGFR, region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|hypothesis test: H0: No difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 25 mg and placebo Ha: A difference in change from baseline to Week 52 in body weight (kg) between Empagliflozin 25 mg and placebo||-1.33|-3.63|<0.0001
82371135|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.36|||<|0.001|TWO_SIDED|95.0|1.72|3.0|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.00|1.72|<0.001
82371136|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.47|||<|0.001|TWO_SIDED|95.0|2.57|4.36|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.36|2.57|<0.001
82371137|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91|||<|0.001|TWO_SIDED|95.0|1.0|2.82|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.82|1.00|<0.001
82396633|NCT01306214|164504479|NON_INFERIORITY_OR_EQUIVALENCE|The non- inferiority margin was 0.3%, one-sided.|Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.62|-0.13||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|H0: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 10 mg and placebo \>0.3 Ha: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 10 mg and placebo ≤0.3||-0.13|-0.62|<0.0001
82529385|NCT00152971|164755492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 9.2% on the absolute risk difference scale|Risk Difference (Percentage)|8.4||||0.0009||95.0|3.4|13.3||Hierarchical testing procedure: first non-inferiority, second superiority|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||13.3|3.4|0.0009
82371138|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.55|||<|0.001|TWO_SIDED|95.0|0.92|2.19|||ANCOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.19|0.92|<0.001
82371139|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.68|||<|0.001|TWO_SIDED|95.0|2.76|4.6|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.60|2.76|<0.001
82371140|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.055|TWO_SIDED|95.0|-0.01|1.27|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.27|-0.01|0.055
82371141|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.19|||<|0.001|TWO_SIDED|95.0|1.54|2.84|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.84|1.54|<0.001
82529386|NCT00152971|164755493|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.2||||0.2139||95.0|-0.7|3.0|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||3.0|-0.7|0.2139
82529387|NCT00152971|164755493|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.8||||0.3628||95.0|-0.9|2.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.5|-0.9|0.3628
82529388|NCT00152971|164755494|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.9||||0.2309||95.0|-0.6|2.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.5|-0.6|0.2309
82575971|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.42|||Cochran-Mantel-Haenszel|||Week 16||0.42|0.16|< 0.0001
82396634|NCT01306214|164504479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.11||0.0005|TWO_SIDED|97.5|-0.62|-0.13||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 10 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 10 mg and placebo Ha : A difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 10 mg and placebo"||-0.13|-0.62|0.0005
82396635|NCT01306214|164504479|NON_INFERIORITY_OR_EQUIVALENCE|The non- inferiority margin was 0.3%, one-sided.|Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.7|-0.22||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|H013: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 25 mg and placebo \>0.3 Ha13: Difference in change from baseline to Week 52 in HbA1c (%) between empagliflozin 25 mg and placebo ≤0.3||-0.22|-0.70|<0.0001
82396636|NCT01306214|164504479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.7|-0.22||Hierarchical testing adjusted for multiple comparisons within each dose, alpha split between the doses (2.5%). Empagliflozin versus placebo change from baseline in HbA1c at week 52 was the 4th step (non-inferiority) and 5th step (superiority).|ANCOVA|Model includes baseline HbA1c as covariate and baseline eGFR, geographical region, baseline background medication, treatment as fixed effects.|Estimated value = Adjusted mean of empagliflozin 25 mg - Adjusted mean of placebo|"Hypothesis test:~H0: No difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 25 mg and placebo Ha : A difference in change from baseline to Week 52 in HbA1c (%) between Empagliflozin 25 mg and placebo"||-0.22|-0.70|<0.0001
82396637|NCT01026818|164504480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.675|TWO_SIDED|95.0|0.63|2.06||The Type I error was controlled for multiplicity using a Bonferroni-Hommel procedure. First the largest p-value for the odds ratio to placebo was tested at the 5% level and in case of no rejection the second p-value was tested at the 2.5% level.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||A sample size of 412 randomized participants provided 84% power to detect a 20% difference in the proportions for the 3 treatment groups. The sample size allowed for a 20% withdrawal during the study.||2.06|0.63|0.675
82396638|NCT01026818|164504480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.704|TWO_SIDED|95.0|0.48|1.65||The Type I error was controlled for multiplicity using a Bonferroni-Hommel procedure. First the largest p-value for the odds ratio to placebo was tested at the 5% level and in case of no rejection the second p-value was tested at the 2.5% level.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||A sample size of 412 randomized participants provided 84% power to detect a 20% difference in the proportions for the 3 treatment groups. The sample size allowed for a 20% withdrawal during the study.||1.65|0.48|0.704
82396639|NCT01026818|164504481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.016|TWO_SIDED|95.0|1.16|3.99||P-value is for Month 9.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||3.99|1.16|0.016
82396640|NCT01026818|164504481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.21|TWO_SIDED|95.0|0.79|2.85||P-value is for Month 9.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.85|0.79|0.210
82396641|NCT01026818|164504481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.273|TWO_SIDED|95.0|0.79|2.28||P-value is for Month 13.5.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.28|0.79|0.273
82396642|NCT01026818|164504481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.259|TWO_SIDED|95.0|0.8|2.29||P-value is for Month 13.5.|Regression, Logistic|The logistic regression model included terms for treatment group, country, and age group.||||2.29|0.80|0.259
82396643|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean Differences|2.8|STANDARD_ERROR_OF_MEAN|1.03||0.007|TWO_SIDED|95.0|0.76|4.83||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.83|0.76|0.007
82396644|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean differences|1.59|STANDARD_ERROR_OF_MEAN|1.02||0.118|TWO_SIDED|95.0|-0.41|3.6||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.60|-0.41|0.118
82396645|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean Differences|0.26|STANDARD_ERROR_OF_MEAN|1.04||0.802|TWO_SIDED|95.0|-1.79|2.31||P-value is for Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.31|-1.79|0.802
82396646|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.22|STANDARD_ERROR_OF_MEAN|1.02||0.83|TWO_SIDED|95.0|-2.23|1.79||P-value is for Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.79|-2.23|0.830
82396647|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean Differences|1.62|STANDARD_ERROR_OF_MEAN|1.22||0.184|TWO_SIDED|95.0|-0.78|4.03||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.03|-0.78|0.184
82396648|NCT01026818|164504482|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81|STANDARD_ERROR_OF_MEAN|1.2||0.5|TWO_SIDED|95.0|-1.54|3.16||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.16|-1.54|0.500
82529389|NCT00152971|164755494|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.5||||0.0602||95.0|-0.1|3.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||3.2|-0.1|0.0602
82529390|NCT00152971|164755495|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|5.9||||0.0194||95.0|1.0|10.9|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||10.9|1.0|0.0194
82529391|NCT00152971|164755495|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|8.9||||0.0004||95.0|4.0|13.9|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||13.9|4.0|0.0004
82529392|NCT00152971|164755496|SUPERIORITY_OR_OTHER|||||||0.5774||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.5774
82529393|NCT00152971|164755496|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82644556|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.589|||<|0.0001|TWO_SIDED|95.0|0.514|0.665|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to zero on Day 7. (mITT Population)||0.665|0.514|<.0001
82371142|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.05|||<|0.001|TWO_SIDED|95.0|2.14|3.97|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.97|2.14|<0.001
82371143|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.49||||0.002|TWO_SIDED|95.0|0.57|2.42|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.42|0.57|0.002
82396649|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.37|STANDARD_ERROR_OF_MEAN|0.39||0.34||95.0|-0.39|1.14||P-value is for orgasmic function - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.14|-0.39|0.340
82396650|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.09|STANDARD_ERROR_OF_MEAN|0.38||0.821|TWO_SIDED|95.0|-0.67|0.84||P-value is for orgasmic function - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.84|-0.67|0.821
82396651|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.46|STANDARD_ERROR_OF_MEAN|0.42||0.268|TWO_SIDED|95.0|-0.36|1.28||P-value is for orgasmic function - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.28|-0.36|0.268
82396652|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.998|TWO_SIDED|95.0|-0.8|0.8||P-value is for orgasmic function - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.80|-0.80|0.998
82396653|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|0.42||0.728|TWO_SIDED|95.0|-0.68|0.97||P-value is for orgasmic function - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.97|-0.68|0.728
82396654|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.52|STANDARD_ERROR_OF_MEAN|0.41||0.203|TWO_SIDED|95.0|-1.33|0.28||P-value is for orgasmic function - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.28|-1.33|0.203
82396655|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.24||0.95|TWO_SIDED|95.0|-0.46|0.49||P-value is for sexual desire - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.49|-0.46|0.950
82396656|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.01|STANDARD_ERROR_OF_MEAN|0.24||0.95|TWO_SIDED|95.0|-0.45|0.48||P-value is for sexual desire - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.48|-0.45|0.950
82396657|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.06|STANDARD_ERROR_OF_MEAN|0.23||0.792|TWO_SIDED|95.0|-0.39|0.51||P-value is for sexual desire - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.51|-0.39|0.792
82396658|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.11|STANDARD_ERROR_OF_MEAN|0.23||0.631|TWO_SIDED|95.0|-0.34|0.55||P-value is for sexual desire - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.55|-0.34|0.631
82396659|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.691|TWO_SIDED|95.0|-0.38|0.58||P-value is for sexual desire - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.58|-0.38|0.691
82396660|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.801|TWO_SIDED|95.0|-0.53|0.41||P-value is for sexual desire - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.41|-0.53|0.801
82529394|NCT00152971|164755497|SUPERIORITY_OR_OTHER|||||||0.7724||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.7724
82529395|NCT00152971|164755497|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0308
82529396|NCT00152971|164755498|SUPERIORITY_OR_OTHER|||||||0.4968||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4968
82644557|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.533|||<|0.0001|TWO_SIDED|95.0|0.461|0.605|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 5. (mITT Population)||0.605|0.461|<.0001
82644558|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.588|||<|0.0001|TWO_SIDED|95.0|0.514|0.662|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to zero on Day 7. (mITT Population)||0.662|0.514|<.0001
82644559|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 5. (mITT Population)|Mean Difference (Net)|0.58|||<|0.0001|TWO_SIDED|95.0|0.508|0.652|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 5. (mITT Population)||0.652|0.508|<.0001
82644560|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 7. (mITT Population)|Mean Difference (Net)|0.58|||<|0.0001|TWO_SIDED|95.0|0.507|0.653|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 6 is equal to zero on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 6 is NOT equal to zero on Day 7. (mITT Population)||0.653|0.507|<.0001
82644561|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.406|||<|0.0001|TWO_SIDED|95.0|-0.526|-0.285|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.285|-0.526|<.0001
82644562|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.421|||<|0.0001|TWO_SIDED|95.0|-0.541|-0.3|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.300|-0.541|<.0001
82644563|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-0.323|||<|0.0001|TWO_SIDED|95.0|-0.444|-0.201|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 5. (mITT Population)||-0.201|-0.444|<.0001
82371144|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.56|||<|0.001|TWO_SIDED|95.0|0.91|2.21|||ANCOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.21|0.91|<0.001
82371145|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1|||<|0.001|TWO_SIDED|95.0|2.17|4.03|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||4.03|2.17|<0.001
82371146|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.049|TWO_SIDED|95.0|0.0|1.3|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.30|0.00|0.049
82371147|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.93|||<|0.001|TWO_SIDED|95.0|1.27|2.59|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.59|1.27|<0.001
82371148|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.44|||<|0.001|TWO_SIDED|95.0|1.52|3.37|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.37|1.52|<0.001
82647969|NCT00386100|165011347|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.452||||0.6223|TWO_SIDED|95.0|-2.253|1.382||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.382|-2.253|0.6223
82371149|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.015|TWO_SIDED|95.0|0.23|2.1|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.10|0.23|0.015
82371150|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|||<|0.001|TWO_SIDED|95.0|0.62|1.94|||ANCOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.94|0.62|<0.001
82371151|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48|||<|0.001|TWO_SIDED|95.0|1.56|3.4|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||3.40|1.56|<0.001
82529397|NCT00152971|164755498|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||1.0000
82371152|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.087|TWO_SIDED|95.0|-0.08|1.2|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.20|-0.08|0.087
82371153|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.47|||<|0.001|TWO_SIDED|95.0|0.82|2.12|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.12|0.82|<0.001
82371154|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.92|||<|0.001|TWO_SIDED|95.0|1.0|2.84|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.84|1.00|<0.001
82396661|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.93|STANDARD_ERROR_OF_MEAN|0.5||0.065|TWO_SIDED|95.0|-0.06|1.92||P-value is for intercourse satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.92|-0.06|0.065
82396662|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.54|STANDARD_ERROR_OF_MEAN|0.49||0.274|TWO_SIDED|95.0|-0.43|1.51||P-value is for intercourse satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.51|-0.43|0.274
82396663|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.48|STANDARD_ERROR_OF_MEAN|0.53||0.359|TWO_SIDED|95.0|-0.55|1.52||P-value is for intercourse satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.52|-0.55|0.359
82396664|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.09|STANDARD_ERROR_OF_MEAN|0.52||0.863|TWO_SIDED|95.0|-0.93|1.11||P-value is for intercourse satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.11|-0.93|0.863
82371155|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01||||0.032|TWO_SIDED|95.0|0.09|1.94|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.94|0.09|0.032
82371156|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.006|TWO_SIDED|95.0|0.26|1.56|||ANCOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.56|0.26|0.006
82371157|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.75|||<|0.001|TWO_SIDED|95.0|0.85|2.66|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.66|0.85|<0.001
82371158|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.669|TWO_SIDED|95.0|-0.49|0.77|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.77|-0.49|0.669
82396665|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.56|STANDARD_ERROR_OF_MEAN|0.56||0.314|TWO_SIDED|95.0|-0.53|1.66||P-value is for intercourse satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.66|-0.53|0.314
82396666|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.06|STANDARD_ERROR_OF_MEAN|0.54||0.91|TWO_SIDED|95.0|-1.13|1.01||P-value is for intercourse satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.01|-1.13|0.910
82529398|NCT00152971|164755500|SUPERIORITY_OR_OTHER|||||||0.1416||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1416
82529399|NCT00152971|164755500|SUPERIORITY_OR_OTHER|||||||0.0942||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0942
82575972|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.27|||<|0.0001|TWO_SIDED|95.0|0.14|0.4|||Cochran-Mantel-Haenszel|||Week 16||0.40|0.14|< 0.0001
82575973|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.31|||<|0.0001|TWO_SIDED|95.0|0.18|0.44|||Cochran-Mantel-Haenszel|||Week 16||0.44|0.18|<0.0001
82575974|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.42|||Cochran-Mantel-Haenszel|||Week 16||0.42|0.16|<0.0001
82575975|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.36|||<|0.0001|TWO_SIDED|95.0|0.23|0.5|||Cochran-Mantel-Haenszel|||Week 24||0.5|0.23|<0.0001
82535306|NCT00783718|164768646|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.5|||<|0.0001|TWO_SIDED|95.0|16.7|40.3||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||40.3|16.7|< 0.0001
82644564|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.442|-0.198|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 1 on Day 7. (mITT Population)||-0.198|-0.442|<.0001
82644565|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.315|||<|0.0001|TWO_SIDED|95.0|-1.453|-1.178|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.178|-1.453|<.0001
82647970|NCT00386100|165011347|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.638||||0.5908|TWO_SIDED|95.0|-3.043|1.826||Premenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||1.826|-3.043|0.5908
82371159|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.89||||0.007|TWO_SIDED|95.0|0.24|1.53|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.53|0.24|0.007
82371160|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.61|||<|0.001|TWO_SIDED|95.0|0.71|2.52|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.52|0.71|<0.001
82371161|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.063|TWO_SIDED|95.0|-0.05|1.78|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.78|-0.05|0.063
82371162|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75||||0.022|TWO_SIDED|95.0|0.11|1.39|||ANCOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.39|0.11|0.022
82371163|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22||||0.008|TWO_SIDED|95.0|0.32|2.12|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.12|0.32|0.008
82371164|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.876|TWO_SIDED|95.0|-0.58|0.68|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.68|-0.58|0.876
82396667|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.19|STANDARD_ERROR_OF_MEAN|0.3||0.532|TWO_SIDED|95.0|-0.4|0.78||P-value is for overall satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.78|-0.40|0.532
82396668|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|0.3||0.62|TWO_SIDED|95.0|-0.43|0.73||P-value is for overall satisfaction - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.73|-0.43|0.620
82371165|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49||||0.134|TWO_SIDED|95.0|-0.15|1.13|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.13|-0.15|0.134
82396669|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.08|STANDARD_ERROR_OF_MEAN|0.3||0.792|TWO_SIDED|95.0|-0.67|0.51||P-value is for overall satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.51|-0.67|0.792
82396670|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.24|STANDARD_ERROR_OF_MEAN|0.29||0.41|TWO_SIDED|95.0|-0.82|0.34||P-value is for overall satisfaction - Month 10.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.34|-0.82|0.410
82396671|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.02|STANDARD_ERROR_OF_MEAN|0.34||0.955||95.0|-0.68|0.65||P-value is for overall satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.65|-0.68|0.955
82575976|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.21||||0.004|TWO_SIDED|95.0|0.07|0.34|||Cochran-Mantel-Haenszel|||Week 24||0.34|0.07|0.0040
82575977|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.31|||<|0.0001|TWO_SIDED|95.0|0.17|0.45|||Cochran-Mantel-Haenszel|||||0.45|0.17|<0.0001
82647971|NCT00386100|165011347|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.155||||0.9154|TWO_SIDED|95.0|-3.037|2.814||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||2.814|-3.037|0.9154
82371166|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.011|TWO_SIDED|95.0|0.27|2.07|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.07|0.27|0.011
82575978|NCT05131477|164861452|SUPERIORITY||Proportion Difference|0.23||||0.0016|TWO_SIDED|95.0|0.09|0.36|||Cochran-Mantel-Haenszel|||||0.36|0.09|0.0016
82371167|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.112|TWO_SIDED|95.0|-0.17|1.64|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.64|-0.17|0.112
82371168|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.179|TWO_SIDED|95.0|-0.2|1.08|||ANCOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.08|-0.20|0.179
82371169|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97||||0.032|TWO_SIDED|95.0|0.09|1.85|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.85|0.09|0.032
82371170|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.85|TWO_SIDED|95.0|-0.56|0.67|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.67|-0.56|0.850
82371171|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.311|TWO_SIDED|95.0|-0.3|0.95|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.95|-0.30|0.311
82371172|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.043|TWO_SIDED|95.0|0.03|1.79|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.79|0.03|0.043
82371173|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.154||95.0|-0.24|1.53|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.53|-0.24|0.154
82371174|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.408|TWO_SIDED|95.0|-0.36|0.89|||ANCOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.89|-0.36|0.408
82371175|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.065|TWO_SIDED|95.0|-0.05|1.68|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.68|-0.05|0.065
82371176|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.862|TWO_SIDED|95.0|-0.66|0.55|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.55|-0.66|0.862
82371177|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.352|TWO_SIDED|95.0|-0.32|0.9|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.90|-0.32|0.352
82371178|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.87||||0.049|TWO_SIDED|95.0|0.0|1.73|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.73|0.00|0.049
82371179|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.239|TWO_SIDED|95.0|-0.35|1.39|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.39|-0.35|0.239
82371180|NCT02912650|164449894|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.27|TWO_SIDED|95.0|-0.27|0.96|||ANCOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||0.96|-0.27|0.270
82371181|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.031|TWO_SIDED|95.0|0.01|0.28|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|0.01|0.031
82371182|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.527|TWO_SIDED|95.0|-0.06|0.12|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.12|-0.06|0.527
82371183|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.386|TWO_SIDED|95.0|-0.14|0.05|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.05|-0.14|0.386
82575979|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.17||||0.0022|TWO_SIDED|95.0|0.06|0.27|||Cochran-Mantel-Haenszel|||Week 16||0.27|0.06|0.0022
82575980|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.09||||0.0562|TWO_SIDED|95.0|0.0|0.18|||Cochran-Mantel-Haenszel|||Week 16||0.18|0|0.0562
82575981|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.14||||0.0054|TWO_SIDED|95.0|0.04|0.24|||Cochran-Mantel-Haenszel|||Week 16||0.24|0.04|0.0054
82371184|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.084|TWO_SIDED|95.0|-0.02|0.25|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.25|-0.02|0.084
82371185|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.006|TWO_SIDED|95.0|0.06|0.32|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|0.06|0.006
82371186|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.135|TWO_SIDED|95.0|-0.17|0.02|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.02|-0.17|0.135
82371187|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|||<|0.001|TWO_SIDED|95.0|0.34|0.73|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.34|<0.001
82371188|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.062|TWO_SIDED|95.0|-0.01|0.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.27|-0.01|0.062
82371189|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.977|TWO_SIDED|95.0|-0.14|0.14|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.14|-0.14|0.977
82371190|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.6|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.60|0.21|<0.001
82371191|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|||<|0.001|TWO_SIDED|95.0|0.34|0.73|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.34|<0.001
82371192|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.069|TWO_SIDED|95.0|-0.27|0.01|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.01|-0.27|0.069
82371193|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.14|||<|0.001|TWO_SIDED|95.0|0.9|1.38|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.90|<0.001
82371194|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29|||<|0.001|TWO_SIDED|95.0|0.12|0.46|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.46|0.12|<0.001
82371195|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.011|TWO_SIDED|95.0|0.05|0.39|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.39|0.05|0.011
82371196|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.85|||<|0.001|TWO_SIDED|95.0|0.61|1.09|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.61|< 0.001
82371197|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|||<|0.001|TWO_SIDED|95.0|0.67|1.16|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.16|0.67|<0.001
82396672|NCT01026818|164504483|SUPERIORITY_OR_OTHER||LS Mean Differences|0.05|STANDARD_ERROR_OF_MEAN|0.33||0.868|TWO_SIDED|95.0|-0.59|0.7||P-value is for overall satisfaction - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.70|-0.59|0.868
82647972|NCT00386100|165011348|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.467||||0.8682|TWO_SIDED|95.0|-14.785|20.818||Overall population, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||20.818|-14.785|0.8682
82371198|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.427|TWO_SIDED|95.0|-0.24|0.1|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.10|-0.24|0.427
82371199|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|||<|0.001|TWO_SIDED|95.0|1.11|1.6|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.60|1.11|<0.001
82371200|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.002|TWO_SIDED|95.0|0.1|0.44|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|0.10|0.002
82371201|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.23|0.58|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.58|0.23|<0.001
82371202|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.84|1.33|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.33|0.84|<0.001
82371203|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.95|||<|0.001|TWO_SIDED|95.0|0.7|1.2|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.70|<0.001
82371204|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.123|TWO_SIDED|95.0|-0.04|0.31|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.31|-0.04|0.123
82371205|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|||<|0.001|TWO_SIDED|95.0|1.14|1.67|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.67|1.14|<0.001
82371206|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.012|TWO_SIDED|95.0|0.05|0.42|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|0.05|0.012
82371207|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.38|0.75|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.75|0.38|<0.001
82371208|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17|||<|0.001|TWO_SIDED|95.0|0.9|1.43|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.90|<0.001
82529400|NCT03017235|164755514|NON_INFERIORITY|The NI margin for the difference between treatments (NaP/MC Oral Solution minus PREPOPIK) was pre-specified at -8% (absolute). If NI was demonstrated for both the primary efficacy endpoint and the secondary efficacy endpoint for the right colon, and if the lower bound of the CI was above 0%, then superiority was declared for the primary endpoint. Thus, the pre-specified superiority analysis was conducted at a one-sided significance level of 2.5%.|Difference in percentage|6.3||||0.0067|TWO_SIDED|95.0|1.8|10.9||The above p-value was calculated for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran-Mantel-Haenszel-weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in the percentage of subjects on NaP/MC or PREPOPIK (NaP/MC - PREPOPIK)|Lower limit of 95% CI \> 0% for the primary efficacy endpoint combined with outcome of secondary efficacy endpoint for the right colon allowed for superiority analysis.|10.9|1.8|0.0067
82529401|NCT03017235|164755515|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to right colon cleansing in preparation for colonoscopy.|Difference in percentage|4.6||||0.0099|TWO_SIDED|95.0|1.1|8.0||The p-value was calculated for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran-Mantel-Haenszel-weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in the percentage of subjects on NaP/MC or PREPOPIK (NaP/MC - PREPOPIK)||8.0|1.1|0.0099
82529402|NCT03017235|164755516|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to right colon cleansing in preparation for colonoscopy.|Difference in percentage|1.9||||0.1781|TWO_SIDED|95.0|-0.9|4.7||The above p-value was tested for superiority and was based on the stratified percentage difference test, where the stratification weight is based on Cochran Mantel Haenszel weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in percentage of subjects on NaP/MC Oral Solution or PREPOPIK® (NaP/MC - PREPOPIK)||4.7|-0.9|0.1781
82529403|NCT03017235|164755517|NON_INFERIORITY|If the lower limit of the 95% CI was greater than the margin (-8%), the null hypothesis was rejected and NaP/MC Oral Solution was claimed as non-inferior to PREPOPIK with respect to colon cleansing in preparation for colonoscopy.|Difference in percentage|3.5||||0.0391|TWO_SIDED|95.0|0.2|6.7||The above p-value was for superiority and was based on the stratified percentage difference, where the stratification weight is based on Cochran-Mantel-Haenszel weight.|Weighted Percentage Difference|CIs (treatment difference) were calculated using stratified (by site) percentage difference where, weights= Cochran-Mantel-Haenszel weights for site||Difference in percentage of subjects on NaP/MC Oral Solution or PREPOPIK® (NaP/MC-PREPOPIK®)||6.7|0.2|0.0391
82529404|NCT00437125|164755537|SUPERIORITY_OR_OTHER||Percentage|8.6|||||ONE_SIDED|95.0||13.3||||||||13.3||
82529405|NCT00437125|164755538|SUPERIORITY_OR_OTHER|||||||0.5553||95.0||||p-value is for total UDPRS score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total UDPRS score from baseline to 12-week endpoint.||||0.5553
82529406|NCT00437125|164755539|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for psychic subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total psychic subscale score from baseline to 12-week endpoint.||||<0.0001
82575982|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.2||||0.0003|TWO_SIDED|95.0|0.1|0.31|||Cochran-Mantel-Haenszel|||Week 16||0.31|0.1|0.0003
82644566|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.324|||<|0.0001|TWO_SIDED|95.0|-1.463|-1.186|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.186|-1.463|<.0001
82647973|NCT00386100|165011348|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.328||||0.974|TWO_SIDED|95.0|-18.308|23.214||Males, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||23.214|-18.308|0.9740
82371209|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84|||<|0.001|TWO_SIDED|95.0|0.57|1.11|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.11|0.57|<0.001
82371210|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.14|0.51|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|0.14|<0.001
82371211|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.38|||<|0.001|TWO_SIDED|95.0|1.11|1.65|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.65|1.11|<0.001
82371212|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.002|TWO_SIDED|95.0|0.11|0.48|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.48|0.11|0.002
82371213|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.56|0.95|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.95|0.56|<0.001
82371214|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.82|1.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.36|0.82|<0.001
82444795|NCT03242252|164598525|SUPERIORITY||Difference in LS Means|-0.478|STANDARD_ERROR_OF_MEAN|0.2368||0.0436|TWO_SIDED|95.0|-0.942|-0.0136|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline FPG as a covariate.||-0.0136|-0.942|0.0436
82444796|NCT03242252|164598526|SUPERIORITY||Difference in LS Means|-2.28|STANDARD_ERROR_OF_MEAN|2.034||0.2627|TWO_SIDED|95.0|-6.265|1.709|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline SBP as a covariate.||1.709|-6.265|0.2627
82444797|NCT03242252|164598526|SUPERIORITY||Difference in LS Means|-2.53|STANDARD_ERROR_OF_MEAN|1.799||0.1602|TWO_SIDED|95.0|-6.052|1.0|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization stratum of CKD stage (3A, 3B) at screening, and country as fixed effects, and baseline SBP as a covariate.||1|-6.052|0.1602
82647974|NCT00386100|165011348|SUPERIORITY_OR_OTHER||Percent difference from metformin|2.986||||0.8378|TWO_SIDED|95.0|-22.997|37.735||Females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||37.735|-22.997|0.8378
82371215|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63|||<|0.001|TWO_SIDED|95.0|0.35|0.9|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|0.35|<0.001
82371216|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|||<|0.001|TWO_SIDED|95.0|0.27|0.65|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.27|<0.001
82371217|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|||<|0.001|TWO_SIDED|95.0|1.06|1.61|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|1.06|<0.001
82371218|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.003|TWO_SIDED|95.0|0.1|0.49|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.49|0.10|0.003
82371219|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|||<|0.001|TWO_SIDED|95.0|0.58|0.98|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.98|0.58|<0.001
82371220|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04|||<|0.001|TWO_SIDED|95.0|0.76|1.32|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.32|0.76|<0.001
82371221|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.28|0.84|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.84|0.28|<0.001
82371222|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.29|0.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.68|0.29|<0.001
82371223|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|||<|0.001|TWO_SIDED|95.0|1.0|1.57|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.57|1.00|<0.001
82371224|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.50|0.10|0.003
82371225|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.51|0.91|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.91|0.51|<0.001
82371226|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.7|1.27|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.70|<0.001
82371227|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|||<|0.001|TWO_SIDED|95.0|0.29|0.86|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.29|<0.001
82371228|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.61|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.21|<0.001
82371229|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||<|0.001|TWO_SIDED|95.0|0.81|1.38|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.81|<0.001
82371230|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.014|TWO_SIDED|95.0|0.05|0.45|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|0.05|0.014
82371231|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66|||<|0.001|TWO_SIDED|95.0|0.45|0.86|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.45|<0.001
82371232|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.85|||<|0.001|TWO_SIDED|95.0|0.56|1.13|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.13|0.56|<0.001
82371233|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.003|TWO_SIDED|95.0|0.15|0.73|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|0.15|0.003
82371234|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.001|TWO_SIDED|95.0|0.21|0.61|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.21|<0.001
82575983|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||Cochran-Mantel-Haenszel|||Week 24||0.47|0.21|<0.0001
82529407|NCT00437125|164755539|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for neurological subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total neurological subscale score from baseline to 12-week endpoint.||||<0.0001
82529408|NCT00437125|164755539|SUPERIORITY_OR_OTHER|||||||0.0014||95.0||||p-value is for autonomic subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total autonomic subscale score from baseline to 12-week endpoint.||||0.0014
82371235|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91|||<|0.001|TWO_SIDED|95.0|0.62|1.2|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.62|<0.001
82371236|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.041|TWO_SIDED|95.0|0.01|0.42|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|0.01|0.041
82371237|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.35|0.76|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.35|<0.001
82371238|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.41|0.99|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.99|0.41|<0.001
82371239|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.018|TWO_SIDED|95.0|0.06|0.65|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.06|0.018
82371240|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.001|TWO_SIDED|95.0|0.14|0.55|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.55|0.14|0.001
82371241|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.48|1.05|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.48|<0.001
82371242|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.045|TWO_SIDED|95.0|0.0|0.4|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|0.00|0.045
82371243|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44|||<|0.001|TWO_SIDED|95.0|0.24|0.64|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|0.24|<0.001
82396673|NCT01026818|164504484|SUPERIORITY_OR_OTHER||LS Mean Differences|0.33|STANDARD_ERROR_OF_MEAN|0.12||0.005|TWO_SIDED|95.0|0.1|0.56||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.56|0.10|0.005
82529409|NCT00437125|164755539|SUPERIORITY_OR_OTHER|||||||0.5586||95.0||||p-value is for other subscale. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the total other subscale score from baseline to 12-week endpoint.||||0.5586
82529410|NCT00437125|164755539|SUPERIORITY_OR_OTHER|||||||0.0848||95.0||||p-value is for global assessment by paticipant. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the global assessment by paticipant subscale score from baseline to 12-week endpoint.||||0.0848
82647975|NCT00386100|165011348|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.19||||0.7889|TWO_SIDED|95.0|-43.839|108.422||Pre-menopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||108.422|-43.839|0.7889
82371244|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56|||<|0.001|TWO_SIDED|95.0|0.28|0.84|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.84|0.28|< 0.001
82371245|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.027|TWO_SIDED|95.0|0.04|0.61|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.61|0.04|0.027
82371246|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.02|TWO_SIDED|95.0|0.04|0.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|0.04|0.020
82371247|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57|||<|0.001|TWO_SIDED|95.0|0.29|0.85|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.85|0.29|<0.001
82371248|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.374|TWO_SIDED|95.0|-0.11|0.28|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.11|0.374
82371249|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34|||<|0.001|TWO_SIDED|95.0|0.14|0.54|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.54|0.14|<0.001
82371250|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.2|0.76|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.76|0.20|<0.001
82371251|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.106|TWO_SIDED|95.0|-0.05|0.51|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.05|0.106
82371252|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.013|TWO_SIDED|95.0|0.05|0.45|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|0.05|0.013
82396674|NCT01026818|164504484|SUPERIORITY_OR_OTHER||LS Mean Differences|0.23|STANDARD_ERROR_OF_MEAN|0.11||0.041|TWO_SIDED|95.0|0.01|0.45||P-value is for Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.45|0.01|0.041
82529411|NCT00437125|164755539|SUPERIORITY_OR_OTHER|||||||0.0263||95.0||||p-value is for global assessment by doctor. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the global assessment by doctor subscale score from baseline to 12-week endpoint.||||0.0263
82371253|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39||||0.006|TWO_SIDED|95.0|0.11|0.67|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|0.11|0.006
82371254|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.796|TWO_SIDED|95.0|-0.17|0.22|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.22|-0.17|0.796
82371255|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.104|TWO_SIDED|95.0|-0.03|0.36|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.36|-0.03|0.104
82529412|NCT00437125|164755540|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 4 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 4-week endpoint.||||<0.0001
82529413|NCT00437125|164755540|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 8 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 8-week endpoint.||||<0.0001
82529414|NCT00437125|164755540|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for 12 weeks change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Pittsburgh Sleep Quality Index from baseline to 12-week endpoint.||||<0.0001
82529415|NCT00437125|164755541|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for the HAMD-17 total score. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the HAMD-17 total score from baseline to 12-week endpoint.||||<0.0001
82644567|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)|Mean Difference (Net)|-1.339|||<|0.0001|TWO_SIDED|95.0|-1.473|-1.205|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 5. (mITT Population)||-1.205|-1.473|<.0001
82529416|NCT00437125|164755542|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Clinical Global Impression-Severity scale - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change on the Clinical Global Impression-Severity scale score from baseline to end of week 12 of treatment.||||<0.0001
82529417|NCT00437125|164755544|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for BDI score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no difference between baseline and post-baseline in BDI scores||||<0.0001
82647976|NCT00386100|165011348|SUPERIORITY_OR_OTHER||Percent difference from metformin|3.344||||0.88|TWO_SIDED|95.0|-34.853|63.935||Postmenopausal females, Week 80. Log transformed.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||63.935|-34.853|0.8800
82371256|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.01|TWO_SIDED|95.0|0.09|0.65|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.65|0.09|0.010
82529418|NCT00437125|164755545|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||p-value is for VAS overall pain score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS overall pain scores.||||0.0027
82529419|NCT00437125|164755545|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||p-value is for VAS Headaches score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS headaches scores.||||0.0002
82371257|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.114|TWO_SIDED|95.0|-0.05|0.51|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.51|-0.05|0.114
82371258|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.168|TWO_SIDED|95.0|-0.06|0.34|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.34|-0.06|0.168
82371259|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.022|TWO_SIDED|95.0|0.05|0.59|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.59|0.05|0.022
82371260|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.62|TWO_SIDED|95.0|-0.14|0.24|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.24|-0.14|0.620
82371261|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.164|TWO_SIDED|95.0|-0.06|0.33|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.33|-0.06|0.164
82371262|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.052|TWO_SIDED|95.0|0.0|0.54|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.54|-0.00|0.052
82529420|NCT00437125|164755545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS back ache score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS back ache scores.||||<0.0001
82529421|NCT00437125|164755545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS shoulder pain score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS shoulder pain score.||||<0.0001
82529422|NCT00437125|164755545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS interference score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS interference score.||||<0.0001
82575984|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.22||||0.0008|TWO_SIDED|95.0|0.1|0.34|||Cochran-Mantel-Haenszel|||Week 24||0.34|0.1|0.0008
82444798|NCT03242252|164598527|SUPERIORITY||Difference in LS Means|-1.59|STANDARD_ERROR_OF_MEAN|1.301||0.2212|TWO_SIDED|95.0|-4.142|0.958|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline SBP as a covariate.||0.958|-4.142|0.2212
82444799|NCT03242252|164598527|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|1.297||0.2089|TWO_SIDED|95.0|-4.171|0.912|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline SBP as a covariate.||0.912|-4.171|0.2089
82444800|NCT03242252|164598528|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|0.326|<|0.0001|TWO_SIDED|95.0|-1.92|-0.644|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline body weight as a covariate.||-0.644|-1.92|< 0.0001
82444801|NCT03242252|164598528|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|0.339||0.0155|TWO_SIDED|95.0|-1.487|-0.156|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and baseline body weight as a covariate.||-0.156|-1.487|0.0155
82444802|NCT03242252|164598529|SUPERIORITY||Percent Difference|-30.72||||0.0015|TWO_SIDED|95.0|-44.78|-13.07|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and and log-transformed baseline UACR as a covariate.||-13.07|-44.78|0.0015
82444803|NCT03242252|164598529|SUPERIORITY||Percent Difference|-36.18||||0.0003|TWO_SIDED|95.0|-49.91|-18.68|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization stratum of CKD stage (3A, 3B) at screening, country as fixed effects, and and log-transformed baseline UACR as a covariate.||-18.68|-49.91|0.0003
82444804|NCT03242252|164598530|SUPERIORITY||Percentage Difference|1.5||||0.4328|TWO_SIDED|95.0|-2.23|5.21|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||5.21|-2.23|0.4328
82444805|NCT03242252|164598530|SUPERIORITY||Percentage Difference|1.5||||0.4328|TWO_SIDED|95.0|-2.2|5.17|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||5.17|-2.2|0.4328
82444806|NCT03242252|164598531|SUPERIORITY||Percentage Difference|6.0||||0.0614|TWO_SIDED|95.0|-0.23|12.21|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||12.21|-0.23|0.0614
82444807|NCT03242252|164598531|SUPERIORITY||Percentage Difference|7.4||||0.023|TWO_SIDED|95.0|1.08|13.65|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening and randomization strata of CKD stage (3A, 3B) at screening.||13.65|1.08|0.023
82444808|NCT01116427|164598534|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED|||||Analysis was stratified on the presence or absence of subclinical activity as demonstrated by a Gd-enhanced lesion on one MRI in the past year prior to enrollment.|Wilcoxon (Mann-Whitney)|||||||0.87
82444809|NCT01116427|164598535|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Wilcoxon rank sum test in which the total number of new lesions were converted to ranks and then compared between groups|Wilcoxon (Mann-Whitney)|||||||0.36
82444810|NCT01116427|164598536|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED|||||Rank sum test in which the lesion volume change values per participant were converted to ranks and compared between the treatment groups|Wilcoxon (Mann-Whitney)|||||||0.93
82444811|NCT01116427|164598537|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED|||||Wilcoxon rank sum test in which percent brain volume change values per participant were converted to ranks and the ranks were compared between groups|Wilcoxon (Mann-Whitney)|||||||0.68
82444812|NCT01116427|164598538|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED|||||Wilcoxon rank sum test in which mean numbers of new lesions per participant were converted to ranks and compared between groups|Wilcoxon (Mann-Whitney)|||||||0.21
82529423|NCT00437125|164755545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for VAS pain while awake score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in VAS pain while awake score.||||<0.0001
82529424|NCT00437125|164755546|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for PDQ-39 total score - change. A priori threshold for p-values was 0.05.|t-test, 2 sided|||Tested was the null hypothesis that there would be no change from baseline to 12 weeks in PDQ-39 total score.||||<0.0001
82575985|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.16|0.41|||Cochran-Mantel-Haenszel|||Week 24||0.41|0.16|<0.0001
82575986|NCT05131477|164861453|SUPERIORITY||Proportion Difference|0.18||||0.0046|TWO_SIDED|95.0|0.06|0.3|||Cochran-Mantel-Haenszel|||Week 24||0.3|0.06|0.0046
82575987|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.19||||0.0006|TWO_SIDED|95.0|0.09|0.3|||Cochran-Mantel-Haenszel|||Week 16||0.3|0.09|0.0006
82575988|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.14||||0.0057|TWO_SIDED|95.0|0.04|0.24|||Cochran-Mantel-Haenszel|||Week 16||0.24|0.04|0.0057
82575989|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.16||||0.0038|TWO_SIDED|95.0|0.05|0.26|||Cochran-Mantel-Haenszel|||Week 16||0.26|0.05|0.0038
82444813|NCT01116427|164598539|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Fisher Exact|||||||0.65
82644568|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)|Mean Difference (Net)|-1.325|||<|0.0001|TWO_SIDED|95.0|-1.461|-1.19|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 1 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 1 on Day 7. (mITT Population)||-1.190|-1.461|<.0001
82644569|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.887|||<|0.0001|TWO_SIDED|95.0|0.757|1.016|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 5. (mITT Population)||1.016|0.757|<.0001
82644570|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.912|||<|0.0001|TWO_SIDED|95.0|0.782|1.043|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 2 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 2 is NOT equal to Group 6 on Day 7. (mITT Population)||1.043|0.782|<.0001
82647977|NCT00386100|165011349|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.2168||||0.9069|TWO_SIDED|95.0|-17.6057|24.3392||Overall population, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||24.3392|-17.6057|0.9069
82647978|NCT00386100|165011349|SUPERIORITY_OR_OTHER||Percent difference from metformin|-10.1648||||0.5118|TWO_SIDED|95.0|-35.6298|25.3742||Males, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||25.3742|-35.6298|0.5118
82371263|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.196|TWO_SIDED|95.0|-0.09|0.45|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.45|-0.09|0.196
82371264|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.364|TWO_SIDED|95.0|-0.1|0.28|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.28|-0.10|0.364
82371265|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.071|TWO_SIDED|95.0|-0.02|0.52|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|-0.02|0.071
82371266|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.865||95.0|-0.2|0.17|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.17|-0.20|0.865
82371267|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.238|TWO_SIDED|95.0|-0.08|0.3|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.30|-0.08|0.238
82371268|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.054|TWO_SIDED|95.0|0.0|0.53|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.53|-0.00|0.054
82371269|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.335|TWO_SIDED|95.0|-0.14|0.4|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.40|-0.14|0.335
82444814|NCT01116427|164598541|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||Wilcoxon rank sum test in which the change from baseline scores per subject were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.13
82371270|NCT02912650|164449895|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.176|TWO_SIDED|95.0|-0.06|0.32|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|-0.06|0.176
82371271|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.002|TWO_SIDED|95.0|0.18|0.77|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.77|0.18|0.002
82371272|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.098|TWO_SIDED|95.0|-0.03|0.38|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.38|-0.03|0.098
82371273|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.719|TWO_SIDED|95.0|-0.25|0.17|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.17|-0.25|0.719
82371274|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.048|TWO_SIDED|95.0|0.0|0.6|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.60|0.00|0.048
82371275|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|||<|0.001|TWO_SIDED|95.0|0.21|0.81|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.81|0.21|<0.001
82371276|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.046|TWO_SIDED|95.0|-0.42|0.0|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||-0.00|-0.42|0.046
82444815|NCT01116427|164598542|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED|||||Analysis was stratified on the presence or absence of subclinical activity as demonstrated by a Gd-enhanced lesion on one MRI in the past year prior to enrollment.|Wilcoxon (Mann-Whitney)|||||||0.06
82529425|NCT02248961|164755553|OTHER|It was calculated that at least 140 patients (70 patients per group) must be enrolled into the study to achieve 80% power. With regard to 20% of patients withdrawn prematurely or data not suitable for analysis, it was necessary to include at least 176 patients (88 per group) into the study.|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|1.0|=|0.39|ONE_SIDED|95.0||1.47|||Mixed Models Analysis|||"The null hypothesis (H0) is that there is a decrease in SBP on the background treatment with Kanarb (fimasartan), that is at least 5.5 mmHg lower compared to Cozaar® (losartan).~Test of the hypotheses was performed using mixed linear models, where the site effect was considered a random effect, and the treatment group effect was considered a fixed effect. Baseline SBP on the study arm was included into the model as a covariate (a fixed effect) in all cases."||1.47||=0.390
82575990|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.18||||0.0011|TWO_SIDED|95.0|0.07|0.28|||Cochran-Mantel-Haenszel|||Week 16||0.28|0.07|0.0011
82575991|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.23||||0.0002|TWO_SIDED|95.0|0.11|0.35|||Cochran-Mantel-Haenszel|||Week 24||0.35|0.11|0.0002
82644571|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|0.97|||<|0.0001|TWO_SIDED|95.0|0.839|1.1|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 5. (mITT Population)||1.100|0.839|<.0001
82396675|NCT01026818|164504484|SUPERIORITY_OR_OTHER||LS Mean Differences|0.28|STANDARD_ERROR_OF_MEAN|0.13||0.035||95.0|0.02|0.54||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.54|0.02|0.035
82644572|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|1.013|||<|0.0001|TWO_SIDED|95.0|0.882|1.145|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 3 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 3 is NOT equal to Group 6 on Day 7. (mITT Population)||1.145|0.882|<.0001
82644573|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.023||||0.9999|TWO_SIDED|95.0|-0.168|0.122|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 5. (mITT Population)||0.122|-0.168|0.9999
82644574|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.009||||1|TWO_SIDED|95.0|-0.138|0.155|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 4 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 4 is NOT equal to Group 6 on Day 7. (mITT Population)||0.155|-0.138|1.0000
82644575|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)|Mean Difference (Net)|-0.047||||0.9577|TWO_SIDED|95.0|-0.189|0.095|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 5. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 5. (mITT Population)||0.095|-0.189|0.9577
82647979|NCT00386100|165011349|SUPERIORITY_OR_OTHER||Percent difference from metformin|8.8777||||0.5816|TWO_SIDED|95.0|-20.2636|48.6692||Females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||48.6692|-20.2636|0.5816
82647980|NCT00386100|165011349|SUPERIORITY_OR_OTHER||Percent difference from metformin|-1.0031||||0.9587|TWO_SIDED|95.0|-35.928|52.959||Pre-menopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||52.9590|-35.9280|0.9587
82396676|NCT01026818|164504484|SUPERIORITY_OR_OTHER||LS Mean Differences|0.13|STANDARD_ERROR_OF_MEAN|0.13||0.316|TWO_SIDED|95.0|-0.12|0.38||P-value is for Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.38|-0.12|0.316
82575992|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.17||||0.0038|TWO_SIDED|95.0|0.06|0.28|||Cochran-Mantel-Haenszel|||Week 24||0.28|0.06|0.0038
82396677|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|1.75|STANDARD_ERROR_OF_MEAN|1.02||0.086|TWO_SIDED|95.0|-0.25|3.76||P-value is for sexual relationship - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.76|-0.25|0.086
82575993|NCT05131477|164861454|SUPERIORITY||Proportion Difference|0.21||||0.0006|TWO_SIDED|95.0|0.09|0.32|||Cochran-Mantel-Haenszel|||Week 24||0.32|0.09|0.0006
82575994|NCT05131477|164861454|SUPERIORITY||Proportion Difference|20.0||||0.0008|TWO_SIDED|95.0|9.0|32.0|||Cochran-Mantel-Haenszel|||Week 24||32|9|0.0008
82444816|NCT01116427|164598543|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Rank sum test in which the lesion volume change values per participant were converted to ranks and compared between the treatment groups|Wilcoxon (Mann-Whitney)|||||||0.07
82575995|NCT02356705|164861568|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82575996|NCT02356705|164861569|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82575997|NCT02356705|164861570|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||0.88
82575998|NCT02356705|164861572|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82647981|NCT00386100|165011349|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.7614||||0.8337|TWO_SIDED|95.0|-34.4741|67.4901||Postmenopausal females, Week 80. Log transformed.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||67.4901|-34.4741|0.8337
82371277|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.52|||<|0.001|TWO_SIDED|95.0|1.05|1.99|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.99|1.05|<0.001
82371278|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.069|TWO_SIDED|95.0|-0.02|0.63|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.63|-0.02|0.069
82371279|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.604|TWO_SIDED|95.0|-0.24|0.42|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.42|-0.24|0.604
82371280|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|||<|0.001|TWO_SIDED|95.0|0.75|1.69|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.69|0.75|<0.001
82371281|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|||<|0.001|TWO_SIDED|95.0|0.96|1.9|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.90|0.96|<0.001
82371282|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.2|TWO_SIDED|95.0|-0.54|0.11|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.11|-0.54|0.200
82371283|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.89|||<|0.001|TWO_SIDED|95.0|2.32|3.46|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.46|2.32|<0.001
82371284|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.002|TWO_SIDED|95.0|0.23|1.03|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.03|0.23|0.002
82371285|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55||||0.008|TWO_SIDED|95.0|0.14|0.95|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.95|0.14|0.008
82371286|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.69|2.83|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.83|1.69|<0.001
82371287|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.34|||<|0.001|TWO_SIDED|95.0|1.77|2.91|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.91|1.77|<0.001
82371288|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.685|TWO_SIDED|95.0|-0.49|0.32|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.32|-0.49|0.685
82371289|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|3.35|||<|0.001|TWO_SIDED|95.0|2.77|3.93|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.93|2.77|<0.001
82371290|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.001|TWO_SIDED|95.0|0.26|1.07|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.07|0.26|0.001
82371291|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.98|||<|0.001|TWO_SIDED|95.0|0.57|1.39|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.39|0.57|<0.001
82371292|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.69|||<|0.001|TWO_SIDED|95.0|2.11|3.27|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.27|2.11|<0.001
82371293|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.37|||<|0.001|TWO_SIDED|95.0|1.79|2.96|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.96|1.79|<0.001
82371294|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.132|TWO_SIDED|95.0|-0.1|0.73|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.73|-0.10|0.132
82371295|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|||<|0.001|TWO_SIDED|95.0|2.88|4.13|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.13|2.88|<0.001
82371296|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.007|TWO_SIDED|95.0|0.17|1.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|0.17|0.007
82371297|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.35|||<|0.001|TWO_SIDED|95.0|0.91|1.8|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.80|0.91|<0.001
82371298|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.27|3.52|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.52|2.27|<0.001
82529426|NCT02248961|164755554|OTHER||||||=|0.018|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.018
82529427|NCT02248961|164755555|OTHER||||||=|0.579|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.579
82371299|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|||<|0.001|TWO_SIDED|95.0|1.52|2.79|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.79|1.52|<0.001
82371300|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74||||0.001|TWO_SIDED|95.0|0.3|1.19|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|0.30|0.001
82371301|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|3.44|||<|0.001|TWO_SIDED|95.0|2.79|4.09|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.09|2.79|<0.001
82371302|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.003|TWO_SIDED|95.0|0.24|1.15|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.15|0.24|0.003
82371303|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.85|||<|0.001|TWO_SIDED|95.0|1.39|2.31|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.31|1.39|<0.001
82396678|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.47|STANDARD_ERROR_OF_MEAN|1.0||0.637|TWO_SIDED|95.0|-1.5|2.45||P-value is for sexual relationship - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.45|-1.50|0.637
82396679|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.17|STANDARD_ERROR_OF_MEAN|1.2||0.885|TWO_SIDED|95.0|-2.18|2.53||P-value is for sexual relationship - Month 13.5|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.53|-2.18|0.885
82529428|NCT02248961|164755556|OTHER||||||=|0.466|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.466
82529429|NCT02248961|164755557|OTHER||||||=|0.118|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.118
82371304|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.74|||<|0.001|TWO_SIDED|95.0|2.1|3.39|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.39|2.10|<0.001
82371305|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|||<|0.001|TWO_SIDED|95.0|0.94|2.24|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.24|0.94|< 0.001
82371306|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15|||<|0.001|TWO_SIDED|95.0|0.69|1.61|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|0.69|<0.001
82371307|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|3.33|||<|0.001|TWO_SIDED|95.0|2.67|4.0|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.00|2.67|<0.001
82444817|NCT01116427|164598544|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|||||Wilcoxon rank sum test in which the percent brain volume change values per participant were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.88
82529430|NCT02248961|164755558|OTHER||||||=|0.662|||||||Mixed Models Analysis|The investigational site was included as random effect. The baseline levels of SBP and the treatment group were included as fixed effects.||||||=0.662
82529431|NCT02248961|164755559|OTHER||||||=|0.143|||||||Mantel Haenszel|||||||=0.143
82371308|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74||||0.002|TWO_SIDED|95.0|0.27|1.2|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.20|0.27|0.002
82371309|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.94|||<|0.001|TWO_SIDED|95.0|1.47|2.41|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.41|1.47|<0.001
82371310|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|||<|0.001|TWO_SIDED|95.0|1.93|3.26|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.26|1.93|<0.001
82371311|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|||<|0.001|TWO_SIDED|95.0|0.73|2.07|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.07|0.73|<0.001
82371312|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|||<|0.001|TWO_SIDED|95.0|0.73|1.67|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.67|0.73|<0.001
82371313|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|3.19|||<|0.001|TWO_SIDED|95.0|2.51|3.87|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.87|2.51|<0.001
82371314|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76||||0.002|TWO_SIDED|95.0|0.29|1.23|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.23|0.29|0.002
82396680|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.04|STANDARD_ERROR_OF_MEAN|1.17||0.972|TWO_SIDED|95.0|-2.34|2.25||P-value is for sexual relationship - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.25|-2.34|0.972
82529432|NCT03518658|164755560|SUPERIORITY||Mean Difference (Final Values)|34.7|||<|0.001|TWO_SIDED|95.0|32.4|37.0||The threshold for statistical significance was 0.025.|Generalized estimating equation model|||||37.0|32.4|<0.001
82529433|NCT03518658|164755560|SUPERIORITY||Mean Difference (Final Values)|38.3|||<|0.001|TWO_SIDED|95.0|34.8|41.9||The threshold for statistical significance was 0.025.|Generalized estimating equation model|||||41.9|34.8|<0.001
82529434|NCT00649389|164755567|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82644576|NCT03692078|165004023|EQUIVALENCE|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)|Mean Difference (Net)|0.008||||1|TWO_SIDED|95.0|-0.136|0.152|||Mixed Models Analysis||LSM calculated from the mixed model for repeated measures that includes study group, day, group by day interaction, and gender as fixed effects, log transformed baseline value as covariate, with a covariance matrix based on the AIC value.|Null hypothesis: Whole Blood COHB (% Saturation) in Group 5 is equal to Group 6 on Day 7. Alternate hypothesis: Whole Blood COHB (% Saturation) in Group 5 is NOT equal to Group 6 on Day 7. (mITT Population)||0.152|-0.136|1.0000
82644577|NCT03395197|165004080|SUPERIORITY||Hazard Ratio (HR)|0.627|||<|0.0001|TWO_SIDED|95.0|0.506|0.777||1-sided|Log Rank||Hazard ratio was based on Cox proportional hazards model; under proportional hazards, if hazard ratio \< 1, it indicates reduction in hazard rate in favor of Talazoparib+Enzalutamide compared to Placebo+Enzalutamide.|The following statistical hypotheses was tested to address the primary objectives: H01: HRrPFS ≥1 vs H11: HRrPFS \<1, where HRrPFS and HRrPFS+ are the hazard ratios (talazoparib in combination with enzalutamide vs. placebo in combination with enzalutamide) of rPFS based on BICR assessment in the all-comers population for Part 2 Cohort 1.||0.777|0.506|<0.0001
82371315|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.85|||<|0.001|TWO_SIDED|95.0|1.37|2.33|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.33|1.37|< 0.001
82371316|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.43|||<|0.001|TWO_SIDED|95.0|1.75|3.11|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.11|1.75|<0.001
82529435|NCT00649389|164755567|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82644578|NCT03395197|165004081|SUPERIORITY||Hazard Ratio (HR)|0.447|||<|0.0001|TWO_SIDED|95.0|0.328|0.61||1-sided|Log Rank||Hazard ratio was based on Cox proportional hazards model; under proportional hazards, hazard ratio \< 1 indicates reduction in hazard rate in favor of Talazoparib+Enzalutamide compared to Placebo+Enzalutamide.|The following statistical hypotheses was tested to address the primary objectives: H02: HRrPFS+ ≥1 vs H12: HRrPFS+ \<1, where HRrPFS and HRrPFS+ are the hazard ratios (talazoparib in combination with enzalutamide vs. placebo in combination with enzalutamide) of rPFS based on BICR assessment in the DDR deficient population for Part 2 Cohort 2.||0.610|0.328|<0.0001
82644579|NCT04101721|165004094|NON_INFERIORITY|Non-inferiority margin is 5%|Adjusted difference|1.81|||||TWO_SIDED|95.1|-15.71|19.33||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status.||19.33|-15.71|
82644580|NCT04101721|165004095|SUPERIORITY||Adjusted difference|-3.66|||||TWO_SIDED|95.1|-19.86|12.54||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status.||12.54|-19.86|
82644581|NCT04101721|165004096|SUPERIORITY||Adjusted difference|10.1|||||TWO_SIDED|95.1|-9.83|30.02||||||Difference with confidence interval (CI) is calculated using Mantel-Haenszel weighting scheme adjusted by baseline ROP status||30.02|-9.83|
82644582|NCT01215955|165004103|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|||||TWO_SIDED|95.0|-0.15|0.22|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||0.22|-0.15|
82644583|NCT01215955|165004103|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|||||TWO_SIDED|95.0|-0.12|0.24|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||0.24|-0.12|
82644584|NCT01215955|165004104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.128|TWO_SIDED|95.0|0.52|1.09||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.09|0.520|0.128
82644585|NCT01215955|165004104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.625|TWO_SIDED|95.0|0.58|1.39||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.39|0.580|0.625
82644586|NCT01215955|165004104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.162|TWO_SIDED|95.0|0.53|1.11||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.11|0.53|0.162
82644587|NCT01215955|165004104|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.723|TWO_SIDED|95.0|0.61|1.4||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Linear|||||1.40|0.61|0.723
82644588|NCT01215955|165004105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.701|TWO_SIDED|95.0|0.52|2.67||P-value is for HbA1c ≤7.0% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||2.67|0.520|0.701
82371317|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|||<|0.001|TWO_SIDED|95.0|0.66|2.03|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.03|0.66|<0.001
82371318|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.61|1.56|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.56|0.61|<0.001
82444818|NCT01116427|164598545|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Fisher Exact|||||||0.29
82575999|NCT02356705|164861573|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
82529436|NCT00649389|164755567|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529437|NCT00649389|164755568|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
82529438|NCT00649389|164755568|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
82529439|NCT00649389|164755568|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Each p-value was obtained from individual Cochran-Mantel-Haenszel tests stratified by age group, race group, and diabetic status comparing the triple combination therapy to each dual combination.||||<0.0001
82529440|NCT00649389|164755569|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529441|NCT00649389|164755569|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529442|NCT00649389|164755569|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||Diastolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||0.0001
82644589|NCT01215955|165004105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.249|TWO_SIDED|95.0|0.71|3.7||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||3.70|0.710|0.249
82644590|NCT01215955|165004105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.015|TWO_SIDED|95.0|0.13|0.8||P-value is for HbA1c ≤7% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|Included treatment and effects for baseline stratification variables: Baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use.||||0.80|0.13|0.015
82371319|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.65|||<|0.001|TWO_SIDED|95.0|1.95|3.35|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.35|1.95|<0.001
82529443|NCT00649389|164755569|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529444|NCT00649389|164755569|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529445|NCT00649389|164755569|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Systolic blood pressure: All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529446|NCT00649389|164755570|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82529447|NCT00649389|164755570|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82371320|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.015|TWO_SIDED|95.0|0.12|1.09|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.12|0.015
82371321|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|||<|0.001|TWO_SIDED|95.0|1.24|2.22|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.22|1.24|<0.001
82529448|NCT00649389|164755570|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||All treatment comparisons were calculated as OM40/AML10/HCTZ25 minus the respective dual combination treatment group. Least-squares mean differences, SEs, and 2-sided p-values were obtained from an ANCOVA model with baseline blood pressure as a covariate, and fixed effects of treatment, age group, race group, and diabetic status.||||<0.0001
82576000|NCT00789360|164861604|OTHER||Maximum LS mean change difference|0.0917|||||TWO_SIDED|90.0|-0.028|0.212|||||Maximum difference occurred at 10 hours|The largest treatment difference (Loxapine - Placebo) in change in FEV1 from baseline by spirometry||0.212|-0.028|
82371322|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.05|||<|0.001|TWO_SIDED|95.0|1.35|2.74|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.74|1.35|<0.001
82371323|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92||||0.01|TWO_SIDED|95.0|0.22|1.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.62|0.22|0.010
82371324|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12|||<|0.001|TWO_SIDED|95.0|0.63|1.61|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.61|0.63|<0.001
82371325|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|||<|0.001|TWO_SIDED|95.0|1.47|2.88|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.88|1.47|<0.001
82371326|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.022|TWO_SIDED|95.0|0.08|1.06|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.06|0.08|0.022
82529449|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.05|TWO_SIDED|95.0|0.8|2.44|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the past 3 months as a risk factor for used (injected/snorted/smoked) heroin in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.44|0.80|0.05
82371327|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|0.95|1.95|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.95|0.95|<0.001
82396681|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.27|STANDARD_ERROR_OF_MEAN|0.55||0.621|TWO_SIDED|95.0|-0.81|1.36||P-value is for self-esteem - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.36|-0.81|0.621
82396682|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.29|STANDARD_ERROR_OF_MEAN|0.54||0.598|TWO_SIDED|95.0|-0.78|1.35||P-value is for self-esteem - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.35|-0.78|0.598
82396683|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.06|STANDARD_ERROR_OF_MEAN|0.59||0.923|TWO_SIDED|95.0|-1.1|1.21||P-value is for self-esteem - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.21|-1.10|0.923
82529450|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.01|TWO_SIDED|95.0|1.12|2.76|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the past 3 months as a risk factor for having Used (injected/snorted/smoked) powder cocaine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.76|1.12|0.01
82644591|NCT01215955|165004105|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.078|TWO_SIDED|95.0|0.17|1.1||P-value is for HbA1c ≤6.5% at endpoint (LOCF). Logistic regression included treatment and effects for baseline stratification variables: baseline HbA1c (≤8% or \>8%), country and sulfonylurea/meglitinide use. Comparison calculated as Q3D versus Q1D.|Regression, Logistic|||||1.10|0.17|0.078
82371328|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|||<|0.001|TWO_SIDED|95.0|0.9|2.3|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.30|0.90|<0.001
82371329|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72||||0.045|TWO_SIDED|95.0|0.02|1.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.43|0.02|0.045
82444819|NCT01116427|164598547|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||Wilcoxon rank sum test in which the change from baseline scores per participant were converted to ranks and compared between treatment groups|Wilcoxon (Mann-Whitney)|||||||0.67
82371330|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.88|||<|0.001|TWO_SIDED|95.0|0.38|1.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.38|0.38|<0.001
82371331|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.78|||<|0.001|TWO_SIDED|95.0|1.09|2.47|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.47|1.09|<0.001
82371332|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.024|TWO_SIDED|95.0|0.07|1.04|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.04|0.07|0.024
82371333|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.16|||<|0.001|TWO_SIDED|95.0|0.67|1.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.65|0.67|<0.001
82371334|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.23|||<|0.001|TWO_SIDED|95.0|0.54|1.92|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.92|0.54|<0.001
82371335|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62||||0.079|TWO_SIDED|95.0|-0.07|1.32|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.32|-0.07|0.079
82371336|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.015|TWO_SIDED|95.0|0.12|1.09|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.09|0.12|0.015
82371337|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25|||<|0.001|TWO_SIDED|95.0|0.56|1.94|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.94|0.56|<0.001
82396684|NCT01026818|164504485|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.857|TWO_SIDED|95.0|-1.03|1.24||P-value is for self-esteem - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.24|-1.03|0.857
82644592|NCT01215955|165004106|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81||||0.014|TWO_SIDED|95.0|0.17|1.46||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||1.46|0.17|0.014
82644593|NCT01215955|165004106|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.5||||0.108|TWO_SIDED|95.0|-1.12|0.11||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.11|-1.12|0.108
82644594|NCT01215955|165004107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.182|TWO_SIDED|95.0|0.57|1.11||Comparison is calculated as Q3D versus Q1D.|Regression, Cox|Cox Regression model with effects for treatment and baseline stratification variables (HbA1c, country, sulfonylurea/meglitinide use) was used.||||1.11|0.57|0.182
82644595|NCT01215955|165004107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.46|TWO_SIDED|95.0|0.65|1.22||Comparison is calculated as Q3D versus Q1D.|Regression, Cox|Cox Regression model with effects for treatment and baseline stratification variables (HbA1c, country, sulfonylurea/meglitinide use) was used.||||1.22|0.65|0.460
82644596|NCT01215955|165004108|SUPERIORITY_OR_OTHER||LS Mean Differences|0.29|||||TWO_SIDED|95.0|-0.19|0.77|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|||0.77|-0.19|
82644597|NCT01215955|165004108|SUPERIORITY_OR_OTHER||LS Mean Differences|0.81|||||TWO_SIDED|95.0|0.3|1.31|||||No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|||1.31|0.30|
82644598|NCT01215955|165004109|SUPERIORITY_OR_OTHER||LS Mean Differences|0.59||||0.242|TWO_SIDED|95.0|-0.4|1.58||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model.|||1.58|-0.40|0.242
82644599|NCT01215955|165004109|SUPERIORITY_OR_OTHER||LS Mean Differences|1.13||||0.082|TWO_SIDED|95.0|-0.15|2.41||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without 24-week values were handled by the statistical model.|||2.41|-0.15|0.082
82644600|NCT01215955|165004110|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.15||||0.723|TWO_SIDED|95.0|-0.95|0.66||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model|||0.66|-0.95|0.723
82644601|NCT01215955|165004110|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.28||||0.495|TWO_SIDED|95.0|-1.08|0.52||Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis||No imputation was performed. Participants without a 24-week value were handled by the statistical model|||0.52|-1.08|0.495
82644602|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|3.32||||0.245|TWO_SIDED|95.0|-2.28|8.93||P-value is for Morning Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||8.93|-2.28|0.245
82644603|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71||||0.842|TWO_SIDED|95.0|-7.71|6.29||P-value is for Morning 2-HR PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||6.29|-7.71|0.842
82644604|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42||||0.626||95.0|-4.32|7.16||P-value is for Midday Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||7.16|-4.32|0.626
82644605|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.48||||0.358|TWO_SIDED|95.0|-10.91|3.95||P-value is for Midday 2-Hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||3.95|-10.91|0.358
82644606|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|3.38||||0.322|TWO_SIDED|95.0|-3.32|10.07||P-value is for Evening Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||10.07|-3.32|0.322
82644607|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.25||||0.617|TWO_SIDED|95.0|-11.08|6.58||P-value is for Bed Time. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||6.58|-11.08|0.617
82644608|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|2.37||||0.519|TWO_SIDED|95.0|-4.86|9.6||P-value is for 0300 hours. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||9.60|-4.86|0.519
82644609|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.415|TWO_SIDED|95.0|-2.96|7.15||P-value is for Morning Pre-meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||7.15|-2.96|0.415
82644610|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|4.38||||0.198|TWO_SIDED|95.0|-2.3|11.06||P-value is for Morning 2-hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||11.06|-2.30|0.198
82644611|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|6.22||||0.045|TWO_SIDED|95.0|0.14|12.29||P-value is for Midday Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||12.29|0.14|0.045
82644612|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|3.07||||0.426|TWO_SIDED|95.0|-4.5|10.64||P-value is for Midday 2-hr PP. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||10.64|-4.50|0.426
82644613|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|5.66||||0.14|TWO_SIDED|95.0|-1.86|13.17||P-value is for Evening Pre-Meal. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||13.17|-1.86|0.140
82576001|NCT00789360|164861605|OTHER||Maximum LS mean change difference|-0.154|||||TWO_SIDED|90.0|-0.29|-0.019|||||Greatest difference occurred at 9 hours after Dose 1|||-0.019|-0.290|
82371338|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.438|TWO_SIDED|95.0|-0.29|0.67|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.67|-0.29|0.438
82371339|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.001|TWO_SIDED|95.0|0.31|1.29|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.29|0.31|0.001
82371340|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06||||0.003|TWO_SIDED|95.0|0.37|1.75|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.75|0.37|0.003
82371341|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.45||||0.204|TWO_SIDED|95.0|-0.25|1.14|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.14|-0.25|0.204
82371342|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.014|TWO_SIDED|95.0|0.12|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.10|0.12|0.014
82371343|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.018|TWO_SIDED|95.0|0.15|1.53|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.53|0.15|0.018
82371344|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.867|TWO_SIDED|95.0|-0.44|0.52|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.52|-0.44|0.867
82371345|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.099|TWO_SIDED|95.0|-0.08|0.9|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|-0.08|0.099
82396685|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|14.87|STANDARD_ERROR_OF_MEAN|5.57||0.008|TWO_SIDED|95.0|3.92|25.83||P-value is for Q1 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||25.83|3.92|0.008
82396686|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.34|STANDARD_ERROR_OF_MEAN|5.45||0.038|TWO_SIDED|95.0|0.63|22.04||P-value is for Q1 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||22.04|0.63|0.038
82371346|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.024|TWO_SIDED|95.0|0.11|1.49|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.49|0.11|0.024
82371347|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.228|TWO_SIDED|95.0|-0.27|1.12|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.12|-0.27|0.228
82371348|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.136|TWO_SIDED|95.0|-0.12|0.86|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|-0.12|0.136
82396687|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|8.91|STANDARD_ERROR_OF_MEAN|6.15||0.148|TWO_SIDED|95.0|-3.18|21.0||P-value is for Q1 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||21.00|-3.18|0.148
82371349|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.078|TWO_SIDED|95.0|-0.07|1.28|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.28|-0.07|0.078
82371350|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.716|TWO_SIDED|95.0|-0.38|0.56|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.56|-0.38|0.716
82371351|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31||||0.197|TWO_SIDED|95.0|-0.16|0.79|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.79|-0.16|0.197
82371352|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.131|TWO_SIDED|95.0|-0.15|1.19|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.19|-0.15|0.131
82371353|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.29||||0.399|TWO_SIDED|95.0|-0.39|0.97|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.97|-0.39|0.399
82371354|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.349|TWO_SIDED|95.0|-0.25|0.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.70|-0.25|0.349
82371355|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.169|TWO_SIDED|95.0|-0.2|1.12|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.12|-0.20|0.169
82371356|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.937|TWO_SIDED|95.0|-0.48|0.44|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.44|-0.48|0.937
82371357|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.351|TWO_SIDED|95.0|-0.25|0.69|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.69|-0.25|0.351
82371358|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48||||0.151|TWO_SIDED|95.0|-0.18|1.14|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.14|-0.18|0.151
82371359|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.476|TWO_SIDED|95.0|-0.42|0.9|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.90|-0.42|0.476
82396688|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|5.37|STANDARD_ERROR_OF_MEAN|6.03||0.373|TWO_SIDED|95.0|-6.48|17.23||P-value is for Q1 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.23|-6.48|0.373
82396689|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|10.9|STANDARD_ERROR_OF_MEAN|4.96||0.029|TWO_SIDED|95.0|1.14|20.66||P-value is for Q1 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.66|1.14|0.029
82396690|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|4.53|STANDARD_ERROR_OF_MEAN|4.91||0.357|TWO_SIDED|95.0|-5.12|14.17||P-value is for Q1 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||14.17|-5.12|0.357
82396691|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|16.33|STANDARD_ERROR_OF_MEAN|5.42||0.003|TWO_SIDED|95.0|5.68|26.98||P-value is for Q2 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||26.98|5.68|0.003
82396692|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|6.62|STANDARD_ERROR_OF_MEAN|5.3||0.212|TWO_SIDED|95.0|-3.8|17.04||P-value is for Q2 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.04|-3.80|0.212
82396693|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|4.55|STANDARD_ERROR_OF_MEAN|6.17||0.461|TWO_SIDED|95.0|-7.58|16.68||P-value is for Q2 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||16.68|-7.58|0.461
82396694|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.26|STANDARD_ERROR_OF_MEAN|6.05||0.835|TWO_SIDED|95.0|-13.16|10.63||P-value is for Q2 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||10.63|-13.16|0.835
82396695|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|13.36|STANDARD_ERROR_OF_MEAN|6.15||0.03|TWO_SIDED|95.0|1.27|25.46||P-value is for Q2 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||25.46|1.27|0.030
82396696|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|5.96|STANDARD_ERROR_OF_MEAN|6.07||0.326|TWO_SIDED|95.0|-5.97|17.89||P-value is for Q2 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.89|-5.97|0.326
82396697|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|12.06|STANDARD_ERROR_OF_MEAN|5.13||0.019||95.0|1.98|22.15||P-value is for Q3 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||22.15|1.98|0.019
82396698|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|2.48|STANDARD_ERROR_OF_MEAN|5.02||0.621|TWO_SIDED|95.0|-7.38|12.35||P-value is for Q3 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.35|-7.38|0.621
82396699|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|0.23|STANDARD_ERROR_OF_MEAN|5.73||0.968||95.0|-11.03|11.49||P-value is for Q3 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||11.49|-11.03|0.968
82396700|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-5.51|STANDARD_ERROR_OF_MEAN|5.62||0.327|TWO_SIDED|95.0|-16.55|5.54||P-value is for Q3 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.54|-16.55|0.327
82396701|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.67|STANDARD_ERROR_OF_MEAN|6.32||0.066|TWO_SIDED|95.0|-0.76|24.09||P-value is for Q3 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||24.09|-0.76|0.066
82396702|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|5.09|STANDARD_ERROR_OF_MEAN|6.23||0.415|TWO_SIDED|95.0|-7.17|17.34||P-value is for Q3 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.34|-7.17|0.415
82529451|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.05|TWO_SIDED|95.0|1.0|2.44|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for having Used (injected and/or snorted) crack cocaine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||2.44|1.00|0.05
82396703|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.87|STANDARD_ERROR_OF_MEAN|4.61||0.011|TWO_SIDED|95.0|2.79|20.94||P-value is for Q4 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.94|2.79|0.011
82396704|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|3.85|STANDARD_ERROR_OF_MEAN|4.51||0.394|TWO_SIDED|95.0|-5.03|12.72||P-value is for Q4 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.72|-5.03|0.394
82396705|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.94|STANDARD_ERROR_OF_MEAN|4.75||0.684|TWO_SIDED|95.0|-11.28|7.41||P-value is for Q4 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||7.41|-11.28|0.684
82444820|NCT03344640|164598550|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.875|TWO_SIDED|90.0|-8.84|7.3|||LS mean|LS mean change from baseline in WORC total percentage score||All Patients at day 99||7.30|-8.84|0.875
82529452|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.03|TWO_SIDED|95.0|0.35|0.98|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for having Used (injected/snorted/smoked) methamphetamine in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||0.98|0.35|0.03
82576002|NCT03559062|164861606|OTHER||||||<|0.0001|||||||Mixed-effects model for repeated measure|||||||<0.0001
82644614|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|11.18||||0.02|TWO_SIDED|95.0|1.74|20.63||P-value is for Bed Time. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||20.63|1.74|0.020
82644615|NCT01215955|165004111|SUPERIORITY_OR_OTHER||LS Mean Difference|9.01||||0.037|TWO_SIDED|95.0|0.53|17.49||P-value is for 0300 hours. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||17.49|0.53|0.037
82644616|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15||||0.543|TWO_SIDED|95.0|-2.55|4.84||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||4.84|-2.55|0.543
82644617|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|6.72||||0.095|TWO_SIDED|95.0|-1.17|14.6||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||14.60|-1.17|0.095
82644618|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|8.86||||0.059|TWO_SIDED|95.0|-0.35|18.06||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||18.06|-0.35|0.059
82644619|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09||||0.497|TWO_SIDED|95.0|-2.05|4.23||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||4.23|-2.05|0.497
82644620|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37||||0.156|TWO_SIDED|95.0|-2.06|12.79||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||12.79|-2.06|0.156
82371360|NCT02912650|164449896|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.31|TWO_SIDED|95.0|-0.22|0.71|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.71|-0.22|0.310
82371361|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|7.35|||<|0.001|TWO_SIDED|95.0|6.09|8.61|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||8.61|6.09|<0.001
82371362|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41||||0.002|TWO_SIDED|95.0|0.53|2.28|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.28|0.53|0.002
82371363|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|1.98|||<|0.001|TWO_SIDED|95.0|1.09|2.88|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||2.88|1.09|<0.001
82371364|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|5.94|||<|0.001|TWO_SIDED|95.0|4.69|7.2|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.20|4.69|<0.001
82529453|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99|||<|0.01|TWO_SIDED|95.0|1.11|3.59|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for poly-substance use in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||3.59|1.11|<0.01
82396706|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-7.14|STANDARD_ERROR_OF_MEAN|4.66||0.126|TWO_SIDED|95.0|-16.3|2.02||P-value is for Q4 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.02|-16.30|0.126
82371365|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37|||<|0.001|TWO_SIDED|95.0|4.1|6.63|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||6.63|4.10|<0.001
82371366|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58||||0.203|TWO_SIDED|95.0|-0.31|1.47|||ANCOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||1.47|-0.31|0.203
82371367|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.001|TWO_SIDED|95.0|20.1|28.9|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||28.90|20.10|<0.001
82444821|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|3.97||||0.19|TWO_SIDED|90.0|-1.03|8.97|||LS mean|LS mean change from baseline in WORC total percentage score||All patientts at day 15||8.97|-1.03|0.190
82576003|NCT03559062|164861607|OTHER||||||<|0.0001|||||||Mixed-effects model for repeated measure|||||||<0.0001
82576004|NCT03559062|164861608|OTHER|||||||0.0546|||||||Mixed-effects model for repeated measure|||||||0.0546
82644621|NCT01215955|165004112|SUPERIORITY_OR_OTHER||LS Mean Difference|6.05||||0.222|TWO_SIDED|95.0|-3.67|15.76||P-value of for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||15.76|-3.67|0.222
82644622|NCT01215955|165004113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.442|TWO_SIDED|95.0|-0.02|0.05||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|LS Mean Difference|||||0.05|-0.02|0.442
82644623|NCT01215955|165004113|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.037|TWO_SIDED|95.0|0.0|0.14||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.14|0.00|0.037
82371368|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|4.44||||0.005|TWO_SIDED|95.0|1.37|7.52|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||7.52|1.37|0.005
82444822|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|3.97|||||TWO_SIDED|90.0|-3.39|9.11|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 29||9.11|-3.39|
82444823|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|0.761||||0.761|TWO_SIDED|90.0|-8.81|6.08|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 57||6.08|-8.81|0.761
82444824|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|0.765||||0.765|TWO_SIDED|90.0|-6.27|9.03|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 85||9.03|-6.27|0.765
82444825|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|0.491||||0.491|TWO_SIDED|90.0|-4.73|11.45|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at day 127||11.45|-4.73|0.491
82444826|NCT03344640|164598551|SUPERIORITY||Difference and 90% CI versus placebo|2.44||||0.639|TWO_SIDED|90.0|-6.19|11.07|||LS Mean|LS mean change from baseline in WORC total percentage score||All patients at end of study||11.07|-6.19|0.639
82444827|NCT03344640|164598552|SUPERIORITY||Difference and 90% CI versus Placebo|1.23||||0.735|TWO_SIDED|90.0|-4.81|7.28||Difference and 90% CI versus placebo|LS Mean|LS mean change from baseline in QuickDASH total score||Statistical analysis results of QuickDASH total score (PD Analysis Set) at day 99||7.28|-4.81|0.735
82529454|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.87|||<|0.01|TWO_SIDED|95.0|3.84|12.28|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Odds for travel in the prior 3 months as a risk factor for Heavy drinking (\>14 and \>21 drinks/week for women and men respectively) in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||12.28|3.84|<0.01
82576005|NCT05646719|164861610|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.01|TWO_SIDED|95.0|1.23|4.2|||t-test, 2 sided|||||4.20|1.23|<0.01
82371369|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|11.36|||<|0.001|TWO_SIDED|95.0|8.23|14.48|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||14.48|8.23|<0.001
82371370|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|20.06|||<|0.001|TWO_SIDED|95.0|15.66|24.45|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||24.45|15.66|<0.001
82371371|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|13.14|||<|0.001|TWO_SIDED|95.0|8.71|17.57|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||17.57|8.71|<0.001
82371372|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|6.92|||<|0.001|TWO_SIDED|95.0|3.8|10.04|||ANCOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.04|3.80|<0.001
82371373|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|34.83|||<|0.001|TWO_SIDED|95.0|26.09|43.57|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||43.57|26.09|<0.001
82371374|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|5.85||||0.06|TWO_SIDED|95.0|-0.25|11.95|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||11.95|-0.25|0.060
82444828|NCT03344640|164598552|SUPERIORITY||Difference and 90% CI versus Placebo|1.51||||0.689|TWO_SIDED|90.0|-4.76|7.79|||LS Mean|LS mean change from baseline in QuickDASH total score||Statistical analysis results of QuickDASH total score (PD analysis set) at End of Study||7.79|-4.76|0.689
82444829|NCT03344640|164598553|SUPERIORITY||Difference and 90% CI vesus placebo|3.5||||0.411|TWO_SIDED|90.0|-3.54|10.54|||LS Mean|LS mean change from baseline in ASES total percentage score||Statistical analysis results of ASES total score (PD analysis) at day 99||10.54|-3.54|0.411
82444830|NCT03344640|164598553|SUPERIORITY||Difference and 90% CI versus placebo|1.14||||0.804|TWO_SIDED|90.0|-6.5|8.78|||LS Mean|LS mean change from baseline in ASES total percentage score||Statistical analysis results of ASES total score (PD analysis) at End of Study set)||8.78|-6.50|0.804
82444831|NCT03344640|164598554|SUPERIORITY||Difference and 90% CI versus placebo|-1.26||||0.706|TWO_SIDED|90.0|-6.81|4.29|||LS Mean|LS Mean change from baseline in Your Health Today Score at day 99||Statistical analysis results of Your Health Today EQ-5D-5L Index score at day 99 (PD Analysis Set)||4.29|-6.81|0.706
82444832|NCT03344640|164598554|SUPERIORITY||Difference and 90% CI versus placebo|-1.9||||0.647|TWO_SIDED|90.0|-8.79|4.99|||LS Mean|LS mean change from baseline in Your Health Today score||Statistical analysis results of Your Health Today EQ-5D-5L Index score at End of Study||4.99|-8.79|0.647
82371375|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|16.75|||<|0.001|TWO_SIDED|95.0|10.54|22.95|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||22.95|10.54|<0.001
82371376|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|28.98|||<|0.001|TWO_SIDED|95.0|20.26|37.71|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||37.71|20.26|<0.001
82371377|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|18.08|||<|0.001||95.0|9.29|26.88|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||26.88|9.29|<0.001
82576006|NCT05646719|164861610|SUPERIORITY||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0||||||||||||
82644624|NCT01215955|165004113|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|||<|0.001|TWO_SIDED|95.0|0.05|0.16||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.16|0.05|<0.001
82529455|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.01|TWO_SIDED|95.0|2.02|6.5|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Drank until blacked out in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||6.50|2.02|<0.01
82371378|NCT02912650|164449897|SUPERIORITY_OR_OTHER||LS Mean Difference|10.9|||<|0.001|TWO_SIDED|95.0|4.7|17.1|||ANCOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||17.10|4.70|<0.001
82529456|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.04|TWO_SIDED|95.0|0.33|0.93|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Injected daily, past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||0.93|0.33|0.04
82529457|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16|||<|0.01|TWO_SIDED|95.0|1.37|3.4|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in the prior 3 months as a risk factor for Median number of injected partners \>= 5 in the past 30 days|Adjusted odds with 95% confidence intervals for travel as a risk factor for each behavior.||3.40|1.37|<0.01
82644625|NCT01215955|165004113|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.275|TWO_SIDED|95.0|-0.01|0.05||P-value is for basal insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|LS Mean Difference|||||0.05|-0.01|0.275
82371379|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.12|||<|0.001|TWO_SIDED|95.0|1.72|2.51|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.51|1.72|<0.001
82371380|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|0.44||||0.002|TWO_SIDED|95.0|0.16|0.71|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.71|0.16|0.002
82371381|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|||<|0.001|TWO_SIDED|95.0|0.3|0.86|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.86|0.30|<0.001
82371382|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.68|||<|0.001|TWO_SIDED|95.0|1.29|2.08|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.08|1.29|<0.001
82371383|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.53|||<|0.001|TWO_SIDED|95.0|1.14|1.93|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.93|1.14|<0.001
82396707|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.52|STANDARD_ERROR_OF_MEAN|6.13||0.061|TWO_SIDED|95.0|-0.53|23.57||P-value is for Q4 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||23.57|-0.53|0.061
82396708|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|5.06|STANDARD_ERROR_OF_MEAN|6.05||0.403|TWO_SIDED|95.0|-6.83|16.95||P-value is for Q4 - Month13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||16.95|-6.83|0.403
82396709|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.38|STANDARD_ERROR_OF_MEAN|4.58||0.013||95.0|2.38|20.38||P-value is for Q5 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||20.38|2.38|0.013
82396710|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|3.69|STANDARD_ERROR_OF_MEAN|4.47||0.41|TWO_SIDED|95.0|-5.11|12.49||P-value is for Q5 - Month 9.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||12.49|-5.11|0.410
82396711|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-2.85|STANDARD_ERROR_OF_MEAN|4.61||0.537|TWO_SIDED|95.0|-11.92|6.22||P-value is for Q5 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||6.22|-11.92|0.537
82444833|NCT03344640|164598555|SUPERIORITY||Difference and 90% CI versus placebo|0.01||||0.613|TWO_SIDED|90.0|-0.03|0.06|||LS Mean|LS mean change from baseline in EQ-5D-5L Index score||Statistical analysis results of of EQ-5D-5L Index score at day 99 (PD Analysis Set)||0.06|-0.03|0.613
82371384|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.303|TWO_SIDED|95.0|-0.13|0.43|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.43|-0.13|0.303
82371385|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|7.22|||<|0.001|TWO_SIDED|95.0|5.86|8.58|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.58|5.86|<0.001
82371386|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.58||||0.001|TWO_SIDED|95.0|0.63|2.53|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.53|0.63|0.001
82396712|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|-8.59|STANDARD_ERROR_OF_MEAN|4.52||0.058|TWO_SIDED|95.0|-17.48|0.3||P-value is for Q5 - Month 10.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||0.30|-17.48|0.058
82396713|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|11.44|STANDARD_ERROR_OF_MEAN|6.09||0.061|TWO_SIDED|95.0|-0.54|23.41||P-value is for Q5 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||23.41|-0.54|0.061
82529458|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.19|TWO_SIDED|95.0|0.81|1.97|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Lent a needle/syringe in the past 30 days|Adjusted odds with 95% confidence interval for travel in the prior 3 months as a risk factor for having Lent a needle/syringe in the past 30 days||1.97|0.81|0.19
82529459|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||<|0.01|TWO_SIDED|95.0|1.01|2.55|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Injected with someone else's used needle/syringe in the past 30 days|Adjusted odds ratio with 95 % confidence interval for travel in prior 3 months as a risk factor for having injected with someone else's used needle/syringe in the past 30 days||2.55|1.01|<0.01
82529460|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.07|||<|0.01|TWO_SIDED|95.0|1.79|5.27|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Pooled money to buy drugs in the past 30 days|Adjusted odds with 95% confidence interval for travel in the prior 3 months as a risk factor for having Pooled money to buy drugs in the past 30 days||5.27|1.79|<0.01
82529461|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.01|TWO_SIDED|95.0|1.34|3.32|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Shared cooker/spook to prepare drugs in the past 30 days|Adjusted odds ratios with 95% confidence interval for travel in prior 3 months as risk factor for risk behaviors||3.32|1.34|<0.01
82576007|NCT03322540|164861611|SUPERIORITY||Difference in Percentages|-6.5||||0.8|TWO_SIDED|95.0|-21.5|8.7|||Stratified Miettinen and Nurminen method|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Point estimate was assessed based on Miettinen \& Nurminen method stratified by predominant tumor histology (squamous vs non-squamous).|||8.7|-21.5|0.8000
82576008|NCT03445533|164861617|SUPERIORITY|||||||0.9394||||||p-value was calculated for percentage difference (B-A) using a Cochran-Mantel-Haenszel (CMH) test stratified by metastasis stage and BRAF mutation.|Cochran-Mantel-Haenszel|ORR and OS comprise a primary endpoint family; both have a priori hypotheses and were tested for statistical significance.||The ORR was defined as a percentage of subjects meeting criteria of CR and PR to calculate the p-value.||||0.9394
82644626|NCT01215955|165004113|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.194|TWO_SIDED|95.0|-0.02|0.08||P-value is for bolus insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.08|-0.02|0.194
82529462|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87|||<|0.01|TWO_SIDED|95.0|1.19|2.95|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having used Backloaded Syringe in the past 30 days|Adjusted odds with 95 % confidence interval for travel as a risk factor for risk behaviors||2.95|1.19|<0.01
82529463|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.13|TWO_SIDED|95.0|0.83|2.1|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|"Adjusted odds for travel in prior 3 months as a risk factor for having done Someone's rinse in the past 30 days"|Adjusted odds with 95% confidence interval for travel in prior 3 months as a risk factor for risk behavior in past 30 days||2.10|0.83|0.13
82529464|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21|||<|0.01|TWO_SIDED|95.0|1.4|3.49|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for Median number of sexual partners \>=2 in the past 30 days|Adjusted odds ratios and 95% confidence intervals for travel in prior 3 months as a risk factor for risk behaviors in past 30 days||3.49|1.40|<0.01
82529465|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.86|TWO_SIDED|95.0|0.45|1.85|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for having Traded sex for money or drugs in the past 30 days|Adjusted odds and 95% confidence interval for travel in prior 3 months as a risk factor for risk behaviors in past 30 days||1.85|0.45|0.86
82529466|NCT00244374|164755598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.73|TWO_SIDED|95.0|0.59|2.02|||Regression, Logistic|Odds ratios adjusted for age, race, sex, years injecting.|Adjusted odds for travel in prior 3 months as a risk factor for condom use \>90% (if sexually active)|Adjusted odds and 95% confidence interval for travel in prior 3 months as a risk factor for engaging in risk behavior during the past 30 days||2.02|0.59|0.73
82529467|NCT02105636|164755601|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0101|TWO_SIDED|95.0|0.53|0.92||Log-rank Test stratified by prior treatment with cetuximab (yes, no) as entered into the Interactive Voice Response System (IVRS). For OS the boundary for statistical significance requires the p-value to be less than 0.0227.|Log Rank||Hazard ratio (HR) and the corresponding Confidence Interval (CI) were estimated in a stratified Cox proportional hazards model for distribution of OS in each randomized arm.|Stratified Cox proportional hazard model. HR = Nivolumab over investigator's choice therapy (Cetuximab, Methotrexate, or Docetaxel)||0.92|0.53|0.0101
82529468|NCT02105636|164755602|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.68|1.1|||||Number of responders (CR +PR) over number of participants|||1.10|0.68|
82529469|NCT02105636|164755603|SUPERIORITY||Difference in ORR|7.6|||||TWO_SIDED|95.0|1.5|13.6|||||Stratum adjusted difference in response rates (Nivolumab - Investigators Choice) based on the Cochran-Mantel-Haenszel method of weighting.|||13.6|1.5|
82529470|NCT02105636|164755603|SUPERIORITY||CMH Estimate of Common Odds Ratio|2.49|||||TWO_SIDED|95.0|1.07|5.82|||||Stratified by Prior Cetuximab (yes, no) as recorded in the IVRS. Stratum adjusted odds ratio (Nivolumab - Investigators Choice) using Mantel-Haenszel Method.|||5.82|1.07|
82644627|NCT01215955|165004113|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.245|TWO_SIDED|95.0|-0.04|0.15||P-value is for total insulin dose. No imputation was performed. Participants without a 24-week value were handled by the statistical model. Comparison is calculated as Q3D versus Q1D.|Mixed Models Analysis|||||0.15|-0.04|0.245
82644628|NCT01215955|165004114|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.435
82644629|NCT01215955|165004114|SUPERIORITY_OR_OTHER|||||||0.351||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.351
82644630|NCT01215955|165004115|SUPERIORITY_OR_OTHER|||||||0.802||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.802
82396714|NCT01026818|164504496|SUPERIORITY_OR_OTHER||LS Mean Differences|5.59|STANDARD_ERROR_OF_MEAN|6.01||0.353|TWO_SIDED|95.0|-6.23|17.4||P-value is for Q5 - Month 13.5.|Mixed Models Analysis|The MMRM model included terms for treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||17.40|-6.23|0.353
82396715|NCT01026818|164504497|SUPERIORITY_OR_OTHER||LS Mean Differences|-5.12|STANDARD_ERROR_OF_MEAN|3.66||0.162|TWO_SIDED|95.0|-12.32|2.08|||ANCOVA|ANCOVA model included treatment, baseline, age group, and country.||||2.08|-12.32|0.162
82396716|NCT01026818|164504497|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.88|STANDARD_ERROR_OF_MEAN|3.61||0.603||95.0|-8.99|5.24|||ANCOVA|ANCOVA model included treatment, baseline, age group, and country.||||5.24|-8.99|0.603
82396717|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|3.49|STANDARD_ERROR_OF_MEAN|2.7||0.196|TWO_SIDED|95.0|-1.82|8.8||P-value is for Urinary Incontinence - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||8.80|-1.82|0.196
82396718|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|0.53|STANDARD_ERROR_OF_MEAN|2.65||0.841|TWO_SIDED|95.0|-4.69|5.75||P-value is for Urinary Incontinence - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.75|-4.69|0.841
82396719|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.98|STANDARD_ERROR_OF_MEAN|2.76||0.474|TWO_SIDED|95.0|-3.45|7.4||P-value is for Urinary Incontinence - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||7.40|-3.45|0.474
82396720|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|2.7||0.971|TWO_SIDED|95.0|-5.21|5.41||P-value is for Urinary Incontinence - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.41|-5.21|0.971
82444834|NCT03344640|164598555|SUPERIORITY||Difference and 90% CI versus placebo|0.02||||0.74|TWO_SIDED|90.0|-0.04|0.06|||LS Mean|LS mean change from baseline in EQ-5D-5L Index score||Statistical analysis results of of EQ-5D-5L Index score at End of Study (PD Analysis Set)||0.06|-0.04|0.740
82396721|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.57|STANDARD_ERROR_OF_MEAN|1.32||0.236|TWO_SIDED|95.0|-1.03|4.17||P-value is for Urinary Irritative/Obstructive - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.17|-1.03|0.236
82396722|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.02|STANDARD_ERROR_OF_MEAN|1.29||0.429|TWO_SIDED|95.0|-1.52|3.56||P-value is for Urinary Irritative/Obstructive - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||3.56|-1.52|0.429
82444835|NCT03344640|164598556|SUPERIORITY||Difference and 90% CI versus placebo|-5.55||||0.281|TWO_SIDED|90.0|-14.07|2.97|||LS Mean|LS MMean CFB (90% CI)||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at day 99||2.97|-14.07|0.281
82444836|NCT03344640|164598556|SUPERIORITY||Difference and 90% CI versus placebo|-1.49||||0.78|TWO_SIDED|90.0|-10.33|7.35|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at End of Study||7.35|-10.33|0.780
82444837|NCT03344640|164598557|SUPERIORITY||Difference and 90% CI versus placebo|-3.32||||0.489|TWO_SIDED|90.0|-11.28|4.64|||LS Mean|LS Mean change from baseline in VAS score||Statistical analysis results of pain score using VAS scale (PD Analysis Set) at day 99||4.64|-11.28|0.489
82529471|NCT02105636|164755604|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.54|0.85|||||Stratified Cox proportional hazards model. Hazard ratio of nivolumab to investigator's choice therapy.|||0.85|0.54|
82529472|NCT00474929|164755605|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose (MTD) Level|1.0|||||TWO_SIDED||||||||Dose Level 1 was chosen as the MTD due to PI concerns about adverse events and frequent dose reductions seen on later cycles at dose level 2. For the best interest of the patients, dose level 1 was chosen as the MTD and the dose level for Phase II.|The Maximum Tolerated Dose (MTD) is defined as the dose level below the lowest dose that induces dose-limiting toxicity (DLT) in at least one-third of patients (at least 2 of a maximum of 6 new patients).||||
82444838|NCT03344640|164598557|SUPERIORITY||Difference and 90% CI versus placebo|-8.29||||0.087|TWO_SIDED|90.0|-16.26|-0.32|||LS Mean|LS Mean change from baseline in VAS score||Statistical analysis results of pain score using VAS scale at End of Study||-0.32|-16.26|0.087
82444839|NCT03344640|164598558|SUPERIORITY||Difference and 99% CL versus placebo|6.1||||0.21|TWO_SIDED|90.0|-1.9|13.91|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of PhGA score using VAS scale at day 99||13.91|-1.90|0.210
82444840|NCT03344640|164598558|SUPERIORITY||Difference and 90% CI versus placebo|-0.37||||0.942|TWO_SIDED|90.0|-8.86|8.11|||LS Mean|LS Mean CFB (90% CI)||Statistical analysis results of PhGA score using VAS scale at End of Study||8.11|-8.86|0.942
82396723|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.56|STANDARD_ERROR_OF_MEAN|1.36||0.252|TWO_SIDED|95.0|-1.12|4.24||P-value is for Urinary Irritative/Obstructive - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.24|-1.12|0.252
82396724|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.52|STANDARD_ERROR_OF_MEAN|1.32||0.251|TWO_SIDED|95.0|-1.08|4.11||P-value is for Urinary Irritative/Obstructive - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.11|-1.08|0.251
82396725|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.54|STANDARD_ERROR_OF_MEAN|1.27||0.671|TWO_SIDED|95.0|-3.03|1.95||P-value is for Bowel - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||1.95|-3.03|0.671
82644631|NCT01215955|165004115|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.205
82644632|NCT01215955|165004116|SUPERIORITY_OR_OTHER||Q3D vs Q1D Ratio of Negative Binomial|1.06||||0.586|TWO_SIDED|95.0|0.86|1.3||Comparison is calculated as Q3D versus Q1D.|Negative Binomial Regression|||||1.30|0.86|0.586
82529473|NCT01993017|164755611|SUPERIORITY|||||||0.98||||||A 2-step gatekeeping test procedure was used. An omnibus F test using ANOVA comparing the 3 groups was first performed. Pairwise comparisons using a 2-sided t test at 5% nominal significance were planned only if the omnibus F test had a P value \<.05.|ANOVA|||We determined that a sample size per group of 500, assuming 5% loss to follow-up, would yield 80% power for a 2-sided t test at the 5% level. These calculations were based on an assumed SD for QALYs of 0.17, expected prevalence of screening-detected depression of 20%, and assumed net improvement in QALYs of 0.155 over 18 months for individuals with depression who received treatment for depression in the Screen, Notify, and Treat group.||||0.98
82529474|NCT01976364|164755624|OTHER||Least Squares (LS) Mean difference|0.0255|||||TWO_SIDED|95.0|-0.0513|0.1022||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Analysis was based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1022|-0.0513|
82529475|NCT01976364|164755625|OTHER||LS mean difference|0.091|||||TWO_SIDED|95.0|-0.131|0.313||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.313|-0.131|
82529476|NCT01976364|164755659|OTHER||LS Mean Difference|0.0486|||||TWO_SIDED|95.0|-0.0192|0.1163||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1163|-0.0192|
82371387|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|3.48|||<|0.001|TWO_SIDED|95.0|2.52|4.45|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.45|2.52|<0.001
82529477|NCT01976364|164755659|OTHER||LS Mean Difference|0.0325|||||TWO_SIDED|95.0|-0.0372|0.1021||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1021|-0.0372|
82529478|NCT01976364|164755659|OTHER||LS Mean Difference|-0.0058|||||TWO_SIDED|95.0|-0.0941|0.0825||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0825|-0.0941|
82529479|NCT01976364|164755659|OTHER||LS Mean Difference|0.0096|||||TWO_SIDED|95.0|-0.0734|0.0927||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0927|-0.0734|
82529480|NCT01976364|164755660|OTHER||LS Mean Difference|0.032|||||TWO_SIDED|95.0|-0.163|0.227||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.227|-0.163|
82529481|NCT01976364|164755660|OTHER||LS Mean Difference|-0.024|||||TWO_SIDED|95.0|-0.266|0.219||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.219|-0.266|
82529482|NCT01976364|164755660|OTHER||LS Mean Difference|0.213|||||TWO_SIDED|95.0|-0.045|0.47||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.470|-0.045|
82529483|NCT01976364|164755660|OTHER||LS Mean Difference|-0.061|||||TWO_SIDED|95.0|-0.309|0.188||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.188|-0.309|
82529484|NCT01976364|164755661|OTHER||Difference in percentage of participants|-0.14|||||TWO_SIDED|95.0|-9.76|9.48||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||9.48|-9.76|
82576009|NCT03445533|164861618|SUPERIORITY||Cox Proportional Hazard|0.955||||0.6775|TWO_SIDED|95.0|0.77|1.186||The p-value was calculated using the log rank test stratified by metastasis stage and BRAF mutation.|Log Rank|ORR and OS comprise a primary endpoint family; both have a priori hypotheses. ORR will be tested first followed by OS.|Hazard ratio and 95% CI (B/A) are estimated using a Cox proportional hazards model stratified by metastasis stage and BRAF mutation.|||1.186|0.770|0.6775
82576010|NCT03926195|164861657|OTHER||Difference in Percentage|5.8|||||TWO_SIDED|95.0|-7.5|19.2|||||Difference in percentage and 95% confidence interval (CI) was based on a stratified Mantel-Haenszel test.|||19.2|-7.5|
82529485|NCT01976364|164755661|OTHER||Difference in percentage of participants|-4.57|||||TWO_SIDED|95.0|-12.91|3.77||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||3.77|-12.91|
82576011|NCT03926195|164861659|OTHER||Median Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-6.4|3.5|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||3.5|-6.4|
82576012|NCT03926195|164861661|OTHER||Median Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-37.1|36.8|||||Difference in medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||36.8|-37.1|
82576013|NCT03926195|164861663|OTHER||Median Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-6.0|20.8|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||20.8|-6.0|
82371388|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|||<|0.001|TWO_SIDED|95.0|4.28|6.99|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.99|4.28|<0.001
82371389|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|3.73|||<|0.001|TWO_SIDED|95.0|2.37|5.1|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.10|2.37|<0.001
82529486|NCT01976364|164755661|OTHER||Difference in percentage of participants|-5.69|||||TWO_SIDED|95.0|-14.26|2.87||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||2.87|-14.26|
82529487|NCT01976364|164755661|OTHER||Difference in percentage of participants|-2.36|||||TWO_SIDED|95.0|-11.59|6.87||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||6.87|-11.59|
82529488|NCT01976364|164755661|OTHER||Difference in percentage of participants|-10.15|||||TWO_SIDED|95.0|-18.16|-2.14||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||-2.14|-18.16|
82576014|NCT03926195|164861665|OTHER||Median Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.6|0.1|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||0.1|-0.6|
82576015|NCT03926195|164861667|OTHER||Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.0|1.0|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||1|-3|
82576016|NCT01762904|164861669|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82576017|NCT01762904|164861670|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82576018|NCT01762904|164861671|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82576019|NCT00874731|164861697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|||||TWO_SIDED|90.0|-2.8|3.76|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|3.76|-2.80|
82644633|NCT01215955|165004116|SUPERIORITY_OR_OTHER||Q3D vs Q1D Ratio Negative Binomial|1.05||||0.689|TWO_SIDED|95.0|0.84|1.3||Comparison is calculated as Q3D versus Q1D.|Negative Binomial|||||1.30|0.84|0.689
82644634|NCT01215955|165004117|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.258
82644635|NCT01215955|165004117|SUPERIORITY_OR_OTHER|||||||0.856||95.0||||Comparison is calculated as Q3D versus Q1D.|Regression, Logistic|||||||0.856
82644636|NCT00038467|165004118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||3e-05|TWO_SIDED|95.0|0.58|0.82|||Log Rank|||||0.82|0.58|0.00003
82371390|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|||<|0.001|TWO_SIDED|95.0|0.95|2.86|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.86|0.95|<0.001
82371391|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|8.89|||<|0.001|TWO_SIDED|95.0|7.08|10.71|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.71|7.08|<0.001
82371392|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.002|TWO_SIDED|95.0|0.73|3.26|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.26|0.73|0.002
82644637|NCT00038467|165004119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.913||||0.15737|TWO_SIDED|95.0|0.806|1.036|||Log Rank|||||1.036|0.806|0.15737
82371393|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|4.48|||<|0.001|TWO_SIDED|95.0|3.2|5.77|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.77|3.20|<0.001
82371394|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9|||<|0.001|TWO_SIDED|95.0|5.08|8.71|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.71|5.08|<0.001
82371395|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|4.41|||<|0.001|TWO_SIDED|95.0|2.58|6.24|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.24|2.58|<0.001
82371396|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.49|||<|0.001|TWO_SIDED|95.0|1.21|3.77|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.77|1.21|<0.001
82371397|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|10.42|||<|0.001|TWO_SIDED|95.0|7.76|13.08|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||13.08|7.76|<0.001
82371398|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.14||||0.024|TWO_SIDED|95.0|0.28|4.0|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.00|0.28|0.024
82371399|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|5.24|||<|0.001|TWO_SIDED|95.0|3.35|7.12|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.12|3.35|<0.001
82371400|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|8.28|||<|0.001|TWO_SIDED|95.0|5.62|10.93|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.93|5.62|<0.001
82371401|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|5.18|||<|0.001|TWO_SIDED|95.0|2.51|7.86|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.86|2.51|<0.001
82371402|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1||||0.001|TWO_SIDED|95.0|1.22|4.97|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.97|1.22|0.001
82371403|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|1.95|3.59|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.59|1.95|<0.001
82371404|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.023|TWO_SIDED|95.0|0.09|1.24|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.24|0.09|0.023
82371405|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.66|||<|0.001|TWO_SIDED|95.0|1.07|2.24|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.24|1.07|<0.001
82529489|NCT01976364|164755662|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.1|
82644638|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|||<|0.0001|TWO_SIDED|95.0|1.63|3.23|||t-test, 2 sided|||6 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||3.23|1.63|<0.0001
82644639|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18||||0.0002|TWO_SIDED|95.0|0.57|1.79|||t-test, 2 sided|||6 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||1.79|0.57|0.0002
82371406|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|||<|0.001|TWO_SIDED|95.0|1.29|2.92|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.92|1.29|<0.001
82529490|NCT01976364|164755662|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-0.1|
82644640|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.79|||<|0.0001|TWO_SIDED|95.0|1.77|3.81|||t-test, 2 sided|||12 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||3.81|1.77|<0.0001
82644641|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|||<|0.0001|TWO_SIDED|95.0|1.12|2.46|||t-test, 2 sided|||12 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||2.46|1.12|<0.0001
82371407|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|1.11||||0.008|TWO_SIDED|95.0|0.29|1.94|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.94|0.29|0.008
82371408|NCT02912650|164449898|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|||<|0.001|TWO_SIDED|95.0|0.41|1.57|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.57|0.41|<0.001
82371409|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|||<|0.001|TWO_SIDED|95.0|2.68|3.82|||ANOVA|||0 to 2 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.82|2.68|<0.001
82371410|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|0.63||||0.002|TWO_SIDED|95.0|0.23|1.03|||ANOVA|||0-2 hour:Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.03|0.23|0.002
82371411|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|||<|0.001|TWO_SIDED|95.0|0.46|1.27|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.27|0.46|<0.001
82371412|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|2.62|||<|0.001|TWO_SIDED|95.0|2.05|3.19|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.19|2.05|<0.001
82371413|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|2.39|||<|0.001|TWO_SIDED|95.0|1.81|2.96|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.96|1.81|<0.001
82371414|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.258|TWO_SIDED|95.0|-0.17|0.64|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||0.64|-0.17|0.258
82371415|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|10.77|||<|0.001|TWO_SIDED|95.0|8.79|12.74|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.74|8.79|<0.001
82371416|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|2.29||||0.001|TWO_SIDED|95.0|0.91|3.67|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.67|0.91|0.001
82371417|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|5.33|||<|0.001|TWO_SIDED|95.0|3.93|6.73|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.73|3.93|<0.001
82371418|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|8.48|||<|0.001|TWO_SIDED|95.0|6.51|10.44|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.44|6.51|<0.001
82371419|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|5.44|||<|0.001|TWO_SIDED|95.0|3.46|7.42|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.42|3.46|<0.001
82371420|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|3.04|||<|0.001|TWO_SIDED|95.0|1.65|4.43|||ANOVA|||0 to 6 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.43|1.65|<0.001
82371421|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|14.68|||<|0.001|TWO_SIDED|95.0|10.74|18.62|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||18.62|10.74|<0.001
82371422|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|3.16||||0.024|TWO_SIDED|95.0|0.41|5.91|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.91|0.41|0.024
82371423|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|7.94|||<|0.001|TWO_SIDED|95.0|5.15|10.73|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.73|5.15|<0.001
82371424|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|11.52|||<|0.001|TWO_SIDED|95.0|7.59|15.45|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||15.45|7.59|<0.001
82371425|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|6.75|||<|0.001||95.0|2.79|10.71|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||10.71|2.79|<0.001
82644642|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|||<|0.0001|TWO_SIDED|95.0|2.1|4.35|||t-test, 2 sided|||24 months on-treatment (lumbar spine): p-value was estimated using 2-sided t-test.||4.35|2.10|<0.0001
82371426|NCT02912650|164449899|SUPERIORITY_OR_OTHER||LS Mean Difference|4.78|||<|0.001|TWO_SIDED|95.0|2.0|7.56|||ANOVA|||0 to 12 hours: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.56|2.0|<0.001
82371427|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|5.37|||<|0.001|TWO_SIDED|95.0|4.42|6.32|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.32|4.42|<0.001
82371428|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.002|TWO_SIDED|95.0|0.4|1.74|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.74|0.40|0.002
82371429|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|1.45|||<|0.001|TWO_SIDED|95.0|0.77|2.13|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||2.13|0.77|<0.001
82371430|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|||<|0.001|TWO_SIDED|95.0|3.35|5.25|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.25|3.35|<0.001
82371431|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|||<|0.001|TWO_SIDED|95.0|2.96|4.88|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.88|2.96|<0.001
82371432|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.268|TWO_SIDED|95.0|-0.29|1.05|||ANOVA|||0-2 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||1.05|-0.29|0.268
82371433|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|17.99|||<|0.001|TWO_SIDED|95.0|14.69|21.28|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||21.28|14.69|<0.001
82371434|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|||<|0.001|TWO_SIDED|95.0|1.57|6.17|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.17|1.57|<0.001
82396726|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.21|STANDARD_ERROR_OF_MEAN|1.24||0.868|TWO_SIDED|95.0|-2.64|2.23||P-value is for Bowel - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.23|-2.64|0.868
82371435|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|8.81|||<|0.001|TWO_SIDED|95.0|6.48|11.15|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||11.15|6.48|<0.001
82444841|NCT00110461|164598562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.99|||<|0.0001|TWO_SIDED|95.0|-8.49|-3.5|||t-test, 2 sided|||The change scores were analyzed by using ANCOVA model with treatment as a factor and baseline Y-MRS total score as a covariate. For comparing YMRS-Total score in treatment groups at baseline, only treatment was included in the ANOVA model with baseline values as the dependent variable. The LS means obtained from a type III analysis using SAS were used for the treatment comparisons. Two-tailed student's t-tests were used to test differences between the LS means within the ANCOVA or ANOVA model.||-3.5|-8.49|<0.0001
82529491|NCT01976364|164755662|OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.0|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|0.0|
82644643|NCT00038467|165004121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.0001|TWO_SIDED|95.0|1.1|2.69|||t-test, 2 sided|||24 months on-treatment (total hip): p-value was estimated using 2-sided t-test.||2.69|1.10|<0.0001
82371436|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|14.12|||<|0.001|TWO_SIDED|95.0|10.83|17.4|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||17.40|10.83|<0.001
82371437|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|9.17|||<|0.001|TWO_SIDED|95.0|5.86|12.48|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.48|5.86|<0.001
82371438|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|4.94|||<|0.001|TWO_SIDED|95.0|2.62|7.27|||ANOVA|||0-6 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||7.27|2.62|<0.001
82371439|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|21.94|||<|0.001|TWO_SIDED|95.0|17.52|26.37|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||26.37|17.52|<0.001
82371440|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0||||0.002|TWO_SIDED|95.0|1.91|8.09|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.09|1.91|0.002
82371441|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|11.43|||<|0.001|TWO_SIDED|95.0|8.29|14.56|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||14.56|8.29|<0.001
82371442|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|16.94|||<|0.001|TWO_SIDED|95.0|12.53|21.36|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||21.36|12.53|<0.001
82371443|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|10.52|||<|0.001|TWO_SIDED|95.0|6.07|14.97|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||14.97|6.07|<0.001
82396727|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|0.1|STANDARD_ERROR_OF_MEAN|1.25||0.938|TWO_SIDED|95.0|-2.37|2.57||P-value is for Bowel - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.57|-2.37|0.938
82396728|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.29|STANDARD_ERROR_OF_MEAN|1.22||0.813|TWO_SIDED|95.0|-2.69|2.12||P-value is for Bowel - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.12|-2.69|0.813
82396729|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|9.55|STANDARD_ERROR_OF_MEAN|3.28||0.004|TWO_SIDED|95.0|3.1|15.99||P-value is for Sexual - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||15.99|3.10|0.004
82396730|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|2.69|STANDARD_ERROR_OF_MEAN|3.21||0.403|TWO_SIDED|95.0|-3.63|9.0||P-value is for Sexual - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||9.00|-3.63|0.403
82396731|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|3.18|STANDARD_ERROR_OF_MEAN|3.82||0.406|TWO_SIDED|95.0|-4.34|10.69||P-value is for Sexual - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||10.69|-4.34|0.406
82396732|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.79|STANDARD_ERROR_OF_MEAN|3.72||0.832|TWO_SIDED|95.0|-8.11|6.53||P-value is for Sexual - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||6.53|-8.11|0.832
82396733|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|1.9|STANDARD_ERROR_OF_MEAN|1.47||0.197|TWO_SIDED|95.0|-0.99|4.79||P-value is for Hormonal - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||4.79|-0.99|0.197
82396734|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|2.89|STANDARD_ERROR_OF_MEAN|1.44||0.045|TWO_SIDED|95.0|0.06|5.72||P-value is for Hormonal - Month 9.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||5.72|0.06|0.045
82396735|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.53|STANDARD_ERROR_OF_MEAN|1.34||0.692|TWO_SIDED|95.0|-3.16|2.1||P-value is for Hormonal - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.10|-3.16|0.692
82529492|NCT01976364|164755662|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|0.1|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|0.1|
82529493|NCT01976364|164755662|OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-0.1|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-0.1|
82396736|NCT01026818|164504501|SUPERIORITY_OR_OTHER||LS Mean Differences|-0.09|STANDARD_ERROR_OF_MEAN|1.3||0.943|TWO_SIDED|95.0|-2.65|2.46||P-value is for Hormonal - Month 13.5.|Mixed Models Analysis|The MMRM model included baseline, treatment, country, visit, visit-by-treatment, age group, and age group-by-treatment (if significant at p\<0.10).||||2.46|-2.65|0.943
82396737|NCT01026818|164504502|SUPERIORITY_OR_OTHER||LS Mean Differences|4.2|STANDARD_ERROR_OF_MEAN|1.89||0.028|TWO_SIDED|95.0|0.47|7.93||P-value is for length.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||7.93|0.47|0.028
82396738|NCT01026818|164504502|SUPERIORITY_OR_OTHER||LS Mean Differences|-1.53|STANDARD_ERROR_OF_MEAN|1.87||0.413|TWO_SIDED|95.0|-5.2|2.14||P-value is for length.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||2.14|-5.20|0.413
82396739|NCT01026818|164504502|SUPERIORITY_OR_OTHER||LS Mean Differences|2.37|STANDARD_ERROR_OF_MEAN|1.49||0.112|TWO_SIDED|95.0|-0.55|5.3||P-value is for girth.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||5.30|-0.55|0.112
82396740|NCT01026818|164504502|SUPERIORITY_OR_OTHER||LS Mean Differences|3.16|STANDARD_ERROR_OF_MEAN|1.46||0.031|TWO_SIDED|95.0|0.29|6.03||P-value is for girth.|ANCOVA|ANCOVA model included terms for treatment, baseline, age group and country.||||6.03|0.29|0.031
82396741|NCT02634801|164504503|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|4.08|||<|0.0001|TWO_SIDED|95.0|2.46|6.77|||Fisher Exact|||||6.77|2.46|<.0001
82396742|NCT02634801|164504503|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.29||||0.0137|TWO_SIDED|95.0|1.06|1.56|||Fisher Exact|||||1.56|1.06|0.0137
82396743|NCT00564278|164504629|SUPERIORITY_OR_OTHER_LEGACY||GEE model Beta|17.46||||0.26|TWO_SIDED|95.0|-16.61|51.53||All analyses presented are at 9 months.|t-test, 2 sided|t(193) = -1.14, p=.26||"We also conducted an analysis using a Generalized Estimating Equations model adjusting for a number of covariates.~We will conduct a three-part regression analysis assessing early/middle/late effects of MPT on retention. We will also conduct moderator analyses, as described in the original study grant, to determine whether there are specific patient groups for whom a significant difference in days in treatment is found."||51.53|-16.61|0.26
82396744|NCT00564278|164504630|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|-0.28|||||TWO_SIDED|95.0|-1.57|1.01||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline depressive symptoms and time to assess the effect of MADT vs. SADT on mean depressive symptoms over follow-up.|||1.01|-1.57|
82396745|NCT00564278|164504631|SUPERIORITY_OR_OTHER_LEGACY||Work - Mixed Model Beta for MADT vs SADT|0.22|||||TWO_SIDED|95.0|-0.5|0.95||See under Method of Estimation, below|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline work-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the work domain over follow-up.|||0.95|-0.50|
82529494|NCT01976364|164755663|OTHER||LS mean difference|-19.43|||||TWO_SIDED|95.0|-58.06|19.21||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||19.21|-58.06|
82644644|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.5|TWO_SIDED|95.0|-1.76|0.86|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.86|-1.76|0.500
82644645|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.009|TWO_SIDED|95.0|-3.67|-0.52|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.52|-3.67|0.009
82644646|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.079|TWO_SIDED|95.0|-2.86|0.16|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.16|-2.86|0.079
82371444|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|6.43|||<|0.001|TWO_SIDED|95.0|3.3|9.55|||ANOVA|||0-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||9.55|3.30|<0.001
82529495|NCT01976364|164755663|OTHER||LS mean difference|-30.11|||||TWO_SIDED|95.0|-83.58|23.37||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||23.37|-83.58|
82644647|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.729|TWO_SIDED|95.0|-1.24|1.77|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||1.77|-1.24|0.729
82644648|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.302|TWO_SIDED|95.0|-2.43|0.75|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.75|-2.43|0.302
82644649|NCT00038467|165004130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.187|TWO_SIDED|95.0|-2.76|0.54|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.54|-2.76|0.187
82371445|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|25.1|||<|0.001|TWO_SIDED|95.0|18.57|31.63|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||31.63|18.57|<0.001
82371446|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3||||0.023|TWO_SIDED|95.0|0.74|9.86|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||9.86|0.74|0.023
82371447|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|13.17|||<|0.001|TWO_SIDED|95.0|8.55|17.8|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||17.80|8.55|<0.001
82371448|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.28|26.31|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||26.31|13.28|<0.001
82371449|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|11.93|||<|0.001|TWO_SIDED|95.0|5.36|18.49|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||18.49|5.36|<0.001
82371450|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|7.87|||<|0.001|TWO_SIDED|95.0|3.27|12.48|||ANOVA|||0-12 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||12.48|3.27|<0.001
82371451|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|6.61|||<|0.001|TWO_SIDED|95.0|4.61|8.62|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||8.62|4.61|<0.001
82371452|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|1.74||||0.015|TWO_SIDED|95.0|0.34|3.14|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||3.14|0.34|0.015
82371453|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|4.34|||<|0.001|TWO_SIDED|95.0|2.92|5.76|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||5.76|2.92|<0.001
82371454|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|4.87|||<|0.001|TWO_SIDED|95.0|2.87|6.88|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||6.88|2.87|<0.001
82371455|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|2.27||||0.028|TWO_SIDED|95.0|0.25|4.28|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.28|0.25|0.028
82371456|NCT02912650|164449900|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61|||<|0.001|TWO_SIDED|95.0|1.19|4.02|||ANOVA|||6-8 hour: Treatment difference and 95% CI were based on LS Mean from ANOVA with treatment, gender and baseline categorical PSR.||4.02|1.19|<0.001
82371457|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.56|||<|0.001|TWO_SIDED|95.0|-49.41|-23.71|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-23.71|-49.41|<0.001
82371458|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.95||||0.086|TWO_SIDED|95.0|-8.45|0.56|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.56|-8.45|0.086
82371459|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.71||||0.112|TWO_SIDED|95.0|-8.28|0.86|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.86|-8.28|0.112
82644650|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.26|TWO_SIDED|95.0|-1.8|0.49|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.49|-1.80|0.260
82644651|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.209|TWO_SIDED|95.0|-2.02|0.44|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.44|-2.02|0.209
82644652|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.698|TWO_SIDED|95.0|-1.38|0.92|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.92|-1.38|0.698
82644653|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.192|TWO_SIDED|95.0|-0.42|2.09|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||2.09|-0.42|0.192
82644654|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.813|TWO_SIDED|95.0|-1.46|1.15|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||1.15|-1.46|0.813
82644655|NCT00038467|165004131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.537|TWO_SIDED|95.0|-0.91|1.75|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||1.75|-0.91|0.537
82396746|NCT00564278|164504631|SUPERIORITY_OR_OTHER_LEGACY||Social-Mixed Model Beta for MADT vs SADT|0.22|||||TWO_SIDED|95.0|-0.49|0.92||See under Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline social-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the social domain over follow-up.|||0.92|-0.49|
82444842|NCT00110461|164598562|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-10.7|-5.77|||t-test, 2 sided|||The change scores were analyzed by using ANCOVA model with treatment as a factor and baseline Y-MRS total score as a covariate. For comparing YMRS-Total score in treatment groups at baseline, only treatment was included in the ANOVA model with baseline values as the dependent variable. The LS means obtained from a type III analysis using SAS were used for the treatment comparisons. Two-tailed student's t-tests were used to test differences between the LS means within the ANCOVA or ANOVA model.||-5.77|-10.7|<0.0001
82444843|NCT00110461|164598563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.89|||<|0.0001|TWO_SIDED|95.0|-8.7|-3.08|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.08|-8.7|<0.0001
82444844|NCT00110461|164598563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.51|||<|0.0001|TWO_SIDED|95.0|7.99|15.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||15.03|7.99|<0.0001
82444845|NCT00110461|164598564|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|9.3|||<|0.0001|TWO_SIDED|95.0|5.77|12.84|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||12.84|5.77|<0.0001
82444846|NCT00110461|164598564|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.51|||<|0.0001|TWO_SIDED|95.0|7.99|15.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||15.03|7.99|<0.0001
82444847|NCT00110461|164598565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.48|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.48|-1.15|<0.0001
82644656|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.727|TWO_SIDED|95.0|-3.46|2.42|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||2.42|-3.46|0.727
82644657|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08||||0.047|TWO_SIDED|95.0|-6.12|-0.05|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.05|-6.12|0.047
82644658|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.553|TWO_SIDED|95.0|-3.88|2.08|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||2.08|-3.88|0.553
82644659|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.563|TWO_SIDED|95.0|-2.17|3.99|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||3.99|-2.17|0.563
82644660|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.643|TWO_SIDED|95.0|-3.83|2.36|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||2.36|-3.83|0.643
82644661|NCT00038467|165004132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.91||||0.126|TWO_SIDED|95.0|-6.63|0.82|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.82|-6.63|0.126
82444848|NCT00110461|164598565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001||95.0|-1.59|-0.93|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.93|-1.59|<0.0001
82644662|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.265|TWO_SIDED|95.0|-0.83|0.23|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.23|-0.83|0.265
82644663|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.0002|TWO_SIDED|95.0|-1.84|-0.57|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||-0.57|-1.84|0.0002
82644664|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.132|TWO_SIDED|95.0|-1.0|0.13|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.13|-1.00|0.132
82644665|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.635|TWO_SIDED|95.0|-0.7|0.43|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.43|-0.70|0.635
82644666|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.449|TWO_SIDED|95.0|-0.75|0.33|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.33|-0.75|0.449
82644667|NCT00038467|165004133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.454|TWO_SIDED|95.0|-0.81|0.36|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.36|-0.81|0.454
82644668|NCT00038467|165004134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.712|TWO_SIDED|95.0|-0.53|0.335|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.335|-0.53|0.712
82396747|NCT00564278|164504631|SUPERIORITY_OR_OTHER_LEGACY||Family-Mixed Model Beta for MADT vs SADT|0.55|||||TWO_SIDED|95.0|-0.08|1.18||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline family-related disability score and time to assess the effect of MADT vs. SADT on mean disability score in the family domain over follow-up.|||1.18|-0.08|
82371460|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-32.52|||<|0.001|TWO_SIDED|95.0|-45.86|-19.17|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.17|-45.86|<0.001
82371461|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-32.88|||<|0.001|TWO_SIDED|95.0|-46.22|-19.55|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.55|-46.22|<0.001
82644669|NCT00038467|165004134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.899|TWO_SIDED|95.0|-0.65|0.356|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.356|-0.65|0.899
82371462|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|0.11||||0.968|TWO_SIDED|95.0|-5.2|5.42|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||5.42|-5.20|0.968
82371463|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.88|||<|0.001|TWO_SIDED|95.0|-61.18|-34.58|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-34.58|-61.18|<0.001
82371464|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.23||||0.023|TWO_SIDED|95.0|-11.61|-0.84|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.84|-11.61|0.023
82371465|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.23||||0.026|TWO_SIDED|95.0|-11.73|-0.73|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.73|-11.73|0.026
82396748|NCT00564278|164504632|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|0.02|||||TWO_SIDED|95.0|-3.61|3.64||See Method of Estimation, below|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline QOL score and time to assess the effect of MADT vs. SADT on mean percent of quality of life over follow-up.|||3.64|-3.61|
82371466|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-41.51|||<|0.001|TWO_SIDED|95.0|-55.51|-27.52|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-27.52|-55.51|<0.001
82371467|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-41.77|||<|0.001|TWO_SIDED|95.0|-55.65|-27.89|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-27.89|-55.65|<0.001
82371468|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.16||||0.96|TWO_SIDED|95.0|-6.56|6.23|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||6.23|-6.56|0.960
82371469|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-55.73|||<|0.001|TWO_SIDED|95.0|-68.81|-42.65|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-42.65|-68.81|<0.001
82371470|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.16||||0.055|TWO_SIDED|95.0|-12.46|0.13|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.13|-12.46|0.055
82371471|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.7||||0.001|TWO_SIDED|95.0|-18.7|-4.7|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-4.70|-18.70|0.001
82396749|NCT00564278|164504633|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|-0.04|||||TWO_SIDED|95.0|-0.74|0.66||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician adjusted for baseline patient satisfaction and time to assess the effect of MADT vs. SADT on mean patient satisfaction over follow-up.|||0.66|-0.74|
82396750|NCT00564278|164504634|SUPERIORITY_OR_OTHER_LEGACY||Mixed Model Beta for MADT vs SADT|9.14|||||TWO_SIDED|95.0|2.71|15.57||See Method of Estimation below.|||A Generalized Linear Mixed Model was used with random intercept for clinician to model the effect of MPT vs. SADT on the mean proportion of fully adherent days over the study period. We used an exchangeable covariance structure.|||15.57|2.71|
82396751|NCT00560703|164504635|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power calculation for this endpoint was driven by the assumptions made for the OSDI analysis||||||0.578||95.0|||||ANCOVA|||||||0.578
82396752|NCT00560703|164504636|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293||95.0|||||ANCOVA|||It was anticipated that the difference between the treatment groups in mean reduction from baseline in OSDI scores will be approximately 7 points. A pooled standard deviation of 9.0 for the mean change from baseline OSDI score is expected. Under those assumptions a total of approximately 63 evaluable patients (42 COL-101 patients and 21 placebo patients) is sufficient to provide 80% power. The planned enrolment should provide enough evaluable patients to meet these assumptions.||||0.293
82396753|NCT04348500|164504669|SUPERIORITY|||||||0.1||||||P-value was not adjusted.|Chi-squared|||The null hypothesis is that there is no difference in the use of clazakizumab as a treatment compared to placebo in reducing or eliminating the incidence of severe adverse events among patients with COVID-19.||||0.10
82396754|NCT04348500|164504675|SUPERIORITY|||||||0.1||||||P-value was not adjusted.|Fisher Exact|||Null hypothesis is that there is no change in the need for mechanical ventilation and/or ECMO at 14 days after the first administered dose in comparison to placebo.||||0.10
82396755|NCT01410240|164504676|SUPERIORITY_OR_OTHER|||||||0.453|||||||one-sided, two-sample t-test|||||||0.453
82644670|NCT00038467|165004134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.882|TWO_SIDED|95.0|-0.76|0.359|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.359|-0.76|0.882
82644671|NCT00038467|165004134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.604|TWO_SIDED|95.0|-0.54|0.37|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.37|-0.54|0.604
82371472|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-49.41|||<|0.001|TWO_SIDED|95.0|-63.21|-35.6|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-35.60|-63.21|<0.001
82371473|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-44.3|||<|0.001|TWO_SIDED|95.0|-58.04|-30.55|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-30.55|-58.04|<0.001
82371474|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-5.69||||0.151|TWO_SIDED|95.0|-13.46|2.08|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.08|-13.46|0.151
82371475|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-56.94|||<|0.001|TWO_SIDED|95.0|-69.96|-43.91|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-43.91|-69.96|<0.001
82371476|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-9.0||||0.01|TWO_SIDED|95.0|-15.8|-2.19|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.19|-15.80|0.010
82371477|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.11|||<|0.001|TWO_SIDED|95.0|-27.97|-12.24|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-12.24|-27.97|<0.001
82371478|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.73|||<|0.001|TWO_SIDED|95.0|-61.64|-33.83|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-33.83|-61.64|<0.001
82396756|NCT01410240|164504677|SUPERIORITY_OR_OTHER|||||||0.708|||||||one-sided, two-sample t-test|||||||0.708
82644672|NCT00038467|165004134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.562|TWO_SIDED|95.0|-1.16|0.454|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.454|-1.16|0.562
82371479|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-37.18|||<|0.001|TWO_SIDED|95.0|-50.96|-23.4|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-23.40|-50.96|<0.001
82371480|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.19||||0.013|TWO_SIDED|95.0|-20.02|-2.36|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.36|-20.02|0.013
82371481|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-58.14|||<|0.001|TWO_SIDED|95.0|-71.03|-45.26|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-45.26|-71.03|<0.001
82371482|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.15||||0.005|TWO_SIDED|95.0|-17.24|-3.06|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.06|-17.24|0.005
82396757|NCT01410240|164504678|SUPERIORITY_OR_OTHER|||||||0.527|||||||one-sided, two-sample t-test|||||||0.527
82396758|NCT01410240|164504679|SUPERIORITY_OR_OTHER|||||||0.561|||||||one-sided Wilcoxon rank sum test|||||||0.561
82396759|NCT01410240|164504680|SUPERIORITY_OR_OTHER|||||||0.356|||||||one-sided Wilcoxon rank sum test|||||||0.356
82396760|NCT01410240|164504681|SUPERIORITY_OR_OTHER|||||||0.533|||||||one-sided Wilcoxon rank sum test|||||||0.533
82396761|NCT01410240|164504682|SUPERIORITY_OR_OTHER|||||||0.734|||||||two-sided Wilcoxon rank sum test|||||||0.734
82396762|NCT01410240|164504685|SUPERIORITY_OR_OTHER|||||||0.314|||||||two-sided Wilcoxon rank sum test|||||||0.314
82396763|NCT01410240|164504686|SUPERIORITY_OR_OTHER|||||||0.063|||||||two-sided Wilcoxon rank sum test|||||||0.063
82396764|NCT01410240|164504689|SUPERIORITY_OR_OTHER|||||||0.058|||||||two-sided Wilcoxon rank sum test|||||||0.058
82529496|NCT01976364|164755663|OTHER||LS mean difference|-24.33|||||TWO_SIDED|95.0|-83.35|34.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||34.69|-83.35|
82529497|NCT01976364|164755663|OTHER||LS mean difference|-11.64|||||TWO_SIDED|95.0|-60.87|37.58||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||37.58|-60.87|
82396765|NCT01410240|164504690|SUPERIORITY_OR_OTHER|||||||0.421|||||||two-sided Wilcoxon rank sum test|||||||0.421
82396766|NCT01410240|164504691|SUPERIORITY_OR_OTHER|||||||0.161|||||||two-sided Wilcoxon rank sum test|||||||0.161
82396767|NCT01410240|164504692|SUPERIORITY_OR_OTHER|||||||0.016|||||||two-sided Wilcoxon rank sum test|||||||0.016
82396768|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.534|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Pain||||0.534
82529498|NCT01976364|164755663|OTHER||LS mean difference|7.02|||||TWO_SIDED|95.0|-49.73|63.77||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: At Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||63.77|-49.73|
82371483|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.77|||<|0.001|TWO_SIDED|95.0|-35.1|-18.44|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-18.44|-35.10|<0.001
82371484|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-47.74|||<|0.001|TWO_SIDED|95.0|-61.76|-33.72|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-33.72|-61.76|<0.001
82644673|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.892|TWO_SIDED|95.0|-0.2|0.18|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.18|-0.20|0.892
82396769|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.269|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Stiffness||||0.269
82396770|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.693|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Physical Functioning||||0.693
82396771|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.343|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Average Score||||0.343
82396772|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.343|||||||two-sided Wilcoxon rank sum test|||Change Day 3: Total Score||||0.343
82396773|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.978|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Pain||||0.978
82529499|NCT01976364|164755665|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
82644674|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.881|TWO_SIDED|95.0|-0.21|0.24|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.24|-0.21|0.881
82644675|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.883|TWO_SIDED|95.0|-0.18|0.21|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.21|-0.18|0.883
82371485|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-31.69|||<|0.001|TWO_SIDED|95.0|-45.61|-17.76|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.76|-45.61|<0.001
82396774|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.709|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Stiffness||||0.709
82396775|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.594|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Functioning||||0.594
82396776|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.501|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Average Score||||0.501
82396777|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.501|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Total Score||||0.501
82644676|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.604|TWO_SIDED|95.0|-0.16|0.27|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.27|-0.16|0.604
82644677|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.118|TWO_SIDED|95.0|-0.05|0.41|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.41|-0.05|0.118
82644678|NCT00038467|165004135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.307|TWO_SIDED|95.0|-0.11|0.34|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.34|-0.11|0.307
82396778|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.171|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Pain||||0.171
82396779|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.077|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Stiffness||||0.077
82396780|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.026|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Functioning||||0.026
82396781|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.012|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Average Score||||0.012
82396782|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.012|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Total Score||||0.012
82396783|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.126|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Pain||||0.126
82396784|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.044|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Stiffness||||0.044
82396785|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.153||||||Change Week 6: Physical Functioning|two-sided Wilcoxon rank sum test|||||||0.153
82396786|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.134|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Average Score||||0.134
82396787|NCT01410240|164504694|SUPERIORITY_OR_OTHER|||||||0.134|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Total Score||||0.134
82396788|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.962|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Functioning||||0.962
82396789|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.714|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Role-Physical||||0.714
82396790|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.668|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Bodily Pain||||0.668
82396791|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.556|||||||two-sided Wilcoxon rank sum test|||Change Week 1: General Health||||0.556
82396792|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.705|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Vitality||||0.705
82396793|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.122|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Social Functioning||||0.122
82396794|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.254|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Role-Emotional||||0.254
82396795|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.5|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Mental Health||||0.500
82396796|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.849|||||||two-sided Wilcoxon rank sum test|||Change Week 1: Physical Component Summary||||0.849
82644679|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.792|TWO_SIDED|95.0|-0.42|0.56|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.56|-0.42|0.792
82644680|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.405|TWO_SIDED|95.0|-0.76|0.31|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.31|-0.76|0.405
82371486|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.76|||<|0.001|TWO_SIDED|95.0|-26.1|-7.42|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.42|-26.10|<0.001
82371487|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-57.58|||<|0.001|TWO_SIDED|95.0|-70.44|-44.72|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-44.72|-70.44|<0.001
82371488|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.28||||0.004|TWO_SIDED|95.0|-18.99|-3.57|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.57|-18.99|0.004
82371489|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-28.06|||<|0.001|TWO_SIDED|95.0|-36.77|-19.35|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-19.35|-36.77|<0.001
82371490|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-46.01|||<|0.001|TWO_SIDED|95.0|-59.98|-32.04|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-32.04|-59.98|<0.001
82371491|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-29.7|||<|0.001|TWO_SIDED|95.0|-43.65|-15.75|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-15.75|-43.65|<0.001
82371492|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-16.94|||<|0.001|TWO_SIDED|95.0|-26.59|-7.29|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.29|-26.59|<0.001
82371493|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-52.9|||<|0.001|TWO_SIDED|95.0|-66.06|-39.75|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-39.75|-66.06|<0.001
82371494|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.93||||0.042|TWO_SIDED|95.0|-17.53|-0.34|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.34|-17.53|0.042
82371495|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-27.25|||<|0.001|TWO_SIDED|95.0|-36.65|-17.86|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.86|-36.65|<0.001
82371496|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-43.78|||<|0.001|TWO_SIDED|95.0|-57.83|-29.72|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-29.72|-57.83|<0.001
82371497|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-25.75|||<|0.001|TWO_SIDED|95.0|-39.93|-11.57|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-11.57|-39.93|<0.001
82371498|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.49|||<|0.001|TWO_SIDED|95.0|-28.39|-8.59|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-8.59|-28.39|<0.001
82371499|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-45.27|||<|0.001|TWO_SIDED|95.0|-58.96|-31.58|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-31.58|-58.96|<0.001
82371500|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.88||||0.064|TWO_SIDED|95.0|-18.27|0.5|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.50|-18.27|0.064
82371501|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-26.98|||<|0.001|TWO_SIDED|95.0|-36.91|-17.05|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-17.05|-36.91|<0.001
82371502|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-36.26|||<|0.001|TWO_SIDED|95.0|-50.45|-22.07|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-22.07|-50.45|<0.001
82396797|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||Change Week 1: Mental Component Summary||||0.959
82396798|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.574|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Functioning||||0.574
82396799|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.524|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Role-Physical||||0.524
82576020|NCT00874731|164861700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||||TWO_SIDED|95.0|-3.83|2.74|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|2.74|-3.83|
82644681|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.484|TWO_SIDED|95.0|-0.75|0.36|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.36|-0.75|0.484
82371503|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.58||||0.01|TWO_SIDED|95.0|-32.64|-4.52|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-4.52|-32.64|0.010
82644682|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.229|TWO_SIDED|95.0|-0.19|0.8|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.80|-0.19|0.229
82644683|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.381|TWO_SIDED|95.0|-0.84|0.32|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.32|-0.84|0.381
82644684|NCT00038467|165004136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.405|TWO_SIDED|95.0|-0.82|0.33|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.33|-0.82|0.405
82644685|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.648|TWO_SIDED|95.0|-0.77|0.48|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.48|-0.77|0.648
82371504|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-18.17|||<|0.001|TWO_SIDED|95.0|-28.44|-7.9|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-7.90|-28.44|<0.001
82371505|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-34.21|||<|0.001|TWO_SIDED|95.0|-48.21|-20.21|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-20.21|-48.21|<0.001
82371506|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.97||||0.179|TWO_SIDED|95.0|-17.12|3.19|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.19|-17.12|0.179
82371507|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.7|||<|0.001|TWO_SIDED|95.0|-31.04|-10.35|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-10.35|-31.04|<0.001
82644686|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.366|TWO_SIDED|95.0|-1.08|0.4|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.40|-1.08|0.366
82371508|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-27.2|||<|0.001|TWO_SIDED|95.0|-41.44|-12.96|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-12.96|-41.44|<0.001
82371509|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.9||||0.051|TWO_SIDED|95.0|-27.84|0.04|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.04|-27.84|0.051
82371510|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.76||||0.01|TWO_SIDED|95.0|-24.21|-3.31|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-3.31|-24.21|0.010
82396800|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.049|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Bodily Pain||||0.049
82396801|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.447|||||||two-sided Wilcoxon rank sum test|||Change Week 2: General Health||||0.447
82396802|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.823|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Vitality||||0.823
82396803|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.661|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Social Functioning||||0.661
82396804|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.086|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Role-Emotional||||0.086
82396805|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.635|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Mental Health||||0.635
82396806|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.481|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Physical Component Summary||||0.481
82396807|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.14|||||||two-sided Wilcoxon rank sum test|||Change Week 2: Mental Component Summary||||0.140
82396808|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.107|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Physical Functioning||||0.107
82396809|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.298|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Role-Physical||||0.298
82396810|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.071|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Bodily Pain||||0.071
82396811|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.94|||||||two-sided Wilcoxon rank sum test|||Change Week 6: General Health||||0.940
82396812|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.293|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Vitality||||0.293
82396813|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.265|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Social Functioning||||0.265
82396814|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.036|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Role-Emotional||||0.036
82396815|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.307|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Mental Health||||0.307
82396816|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.448|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Physical Component Summary||||0.448
82644687|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.062|TWO_SIDED|95.0|-1.33|0.03|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.03|-1.33|0.062
82371511|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-23.25||||0.001|TWO_SIDED|95.0|-37.31|-9.2|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-9.20|-37.31|0.001
82371512|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-2.22||||0.676|TWO_SIDED|95.0|-12.63|8.19|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.19|-12.63|0.676
82371513|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-13.15||||0.013|TWO_SIDED|95.0|-23.57|-2.74|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-2.74|-23.57|0.013
82371514|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-20.94||||0.004|TWO_SIDED|95.0|-35.18|-6.69|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-6.69|-35.18|0.004
82371515|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.39||||0.14|TWO_SIDED|95.0|-24.19|3.4|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.40|-24.19|0.140
82371516|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.06||||0.038|TWO_SIDED|95.0|-21.51|-0.61|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.61|-21.51|0.038
82371517|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-17.9||||0.013||95.0|-32.13|-3.79|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||-3.79|-32.13|0.013
82371518|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.85||||0.467||95.0|-14.23|6.53|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||6.53|-14.23|0.467
82371519|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-10.38||||0.049||95.0|-20.73|-0.02|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.02|-20.73|0.049
82396817|NCT01410240|164504696|SUPERIORITY_OR_OTHER|||||||0.255|||||||two-sided Wilcoxon rank sum test|||Change Week 6: Mental Component Summary||||0.255
82396818|NCT01410240|164504698|SUPERIORITY_OR_OTHER|||||||0.052|||||||two-sided Wilcoxon rank sum test|||||||0.052
82396819|NCT02776670|164504710|NON_INFERIORITY|Noninferiority was deemed established if the lower limit of the 95% CI (equivalent to the 1-sided 97.5% CI) for the adjusted estimate of the difference (Systane Balance-Refresh Optive Advanced/Optive Plus) was above the noninferiority margin of -1.0 second.|Mean Difference (Final Values)|0.13|||<|0.0001|TWO_SIDED|95.0|-0.341|0.601||p-value for testing noninferiority of Systane Balance with respect to Refresh Optive Advanced/Refresh Optive Plus is calculated for predefined noninferiority margin of -1.0 second.|Mixed model repeated measures (MMRM)|||||0.601|-0.341|<0.0001
82444849|NCT00110461|164598566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28||||0.0767|TWO_SIDED|95.0|-4.81|0.25|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.25|-4.81|0.0767
82644688|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.545|TWO_SIDED|95.0|-0.53|1.0|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||1.00|-0.53|0.545
82371520|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-14.1||||0.05||95.0|-28.22|0.02|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.02|-28.22|0.050
82371521|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-7.99||||0.255||95.0|-21.73|5.76|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||5.76|-21.73|0.255
82396820|NCT02776670|164504711|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.31|TWO_SIDED|95.0|-0.349|0.585|||MMRM|||||0.585|-0.349|0.310
82396821|NCT02776670|164504713|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.618|TWO_SIDED|95.0|-6.4|4.7|||MMRM|||||4.7|-6.4|0.618
82396822|NCT02636699|164504722|OTHER||Difference in Response Rates (%)|21.7|||<|0.001|TWO_SIDED|95.0|12.4|29.8|||Wald|||Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% confidence interval (CI). P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates ≥15%.||29.8|12.4|<0.001
82396823|NCT02636699|164504723|OTHER||Difference in Response Rates (%)|19.0||||0.105|TWO_SIDED|95.0|-6.4|38.4|||Wald|||"Screening ED subgroup 1:~Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% CI. P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates \>0."||38.4|-6.4|0.105
82576021|NCT00874731|164861701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-4.5|2.14|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|2.14|-4.50|
82576022|NCT00874731|164861702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-2.85|3.79|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|3.79|-2.85|
82576023|NCT00874731|164861703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|||||TWO_SIDED|95.0|-2.1|4.47|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|4.47|-2.10|
82444850|NCT00110461|164598566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.3515|TWO_SIDED|95.0|-3.69|1.32|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.32|-3.69|0.3515
82576024|NCT00874731|164861704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||||TWO_SIDED|95.0|-0.79|5.78|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|5.78|-0.79|
82576025|NCT00874731|164861705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||||TWO_SIDED|95.0|-0.8|5.76|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|5.76|-0.80|
82576026|NCT00874731|164861706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.89|||||TWO_SIDED|95.0|0.6|7.17|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|7.17|0.60|
82576027|NCT00874731|164861707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-4.85|1.86|||||Mean Difference in CFB = Ridaforolimus - Placebo||Mean difference and 90% confidence interval generated using a repeated measures mixed model that included treatment, time and treatment-by-time interaction as fixed factors and subject as random factor.|1.86|-4.85|
82576028|NCT01016262|164861719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0047||||||Statistical significance was assessed at the two-sided 5% level. As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Cochran-Mantel-Haenszel|||The comparison between MAX-002 and placebo during the DB phase with respect to the primary outcome measure was the single pre-specified primary analysis, and the null hypothesis was that the percentages were equal between the two groups.||||0.0047
82576029|NCT01016262|164861719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0346||||||Statistical significance was assessed at the two-sided 5% level. As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Cochran-Mantel-Haenszel|||The comparison between Canasa® and placebo during the DB phase with respect to the primary outcome measure was a pre-specified tertiary analysis only.||||0.0346
82644689|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.932|TWO_SIDED|95.0|-0.77|0.7|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.70|-0.77|0.932
82644690|NCT00038467|165004137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.244|TWO_SIDED|95.0|-1.24|0.32|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.32|-1.24|0.244
82444851|NCT00110461|164598567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||<|0.0001|TWO_SIDED|95.0|-8.02|-3.73|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.73|-8.02|<0.0001
82444852|NCT00110461|164598567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.46|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.32|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.32|-7.40|<0.0001
82576030|NCT00755417|164861786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.38||0.0117|TWO_SIDED|97.5|-1.81|-0.11||Based on F test of type III analysis for pairwise comparison at 0.025 level.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 4||-0.11|-1.81|0.0117
82576031|NCT00755417|164861786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|97.5|-2.35|-0.66||Based on F test of type III analysis|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 4.||-0.66|-2.35|<0.0001
82576032|NCT00755417|164861787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.42||0.183|TWO_SIDED|97.5|-1.49|0.38||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 12||0.38|-1.49|0.1830
82644691|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.876|TWO_SIDED|95.0|-0.62|0.73|||t-test, 2 sided|||3 months: p-value was estimated using 2-sided t-test.||0.73|-0.62|0.876
82644692|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.195|TWO_SIDED|95.0|-1.25|0.26|||t-test, 2 sided|||6 months: p-value was estimated using 2-sided t-test.||0.26|-1.25|0.195
82371522|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-6.57||||0.212||95.0|-16.89|3.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.75|-16.89|0.212
82444853|NCT00110461|164598568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.86|||<|0.0001|TWO_SIDED|95.0|-12.3|-5.43|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-5.43|-12.3|<0.0001
82444854|NCT00110461|164598568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.23|||<|0.0001|TWO_SIDED|95.0|-11.6|-4.83|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-4.83|-11.6|<0.0001
82444855|NCT00110461|164598569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.23|||<|0.0001|TWO_SIDED|95.0|5.07|13.93|||t-test, 2 sided|||||13.93|5.07|<0.0001
82444856|NCT00110461|164598569|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.0|||<|0.0001|TWO_SIDED|95.0|5.87|14.14|||t-test, 2 sided|||||14.14|5.87|<0.0001
82444857|NCT00110461|164598570|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.7||||0.0003|TWO_SIDED|95.0|-1.08|-0.33|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.33|-1.08|0.0003
82444858|NCT00110461|164598570|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.66|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.66|-1.41|<0.0001
82444859|NCT00110461|164598571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0878|TWO_SIDED|95.0|-0.54|0.04|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.04|-0.54|0.0878
82444860|NCT00110461|164598571|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.26||||0.0752|TWO_SIDED|95.0|-0.55|0.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.03|-0.55|0.0752
82444861|NCT00110461|164598572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.2553|TWO_SIDED|95.0|-0.51|0.13|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.13|-0.51|0.2553
82444862|NCT00110461|164598572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0166|TWO_SIDED|95.0|-0.71|-0.07|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.07|-0.71|0.0166
82444863|NCT00110461|164598573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.51|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.51|-1.16|<0.0001
82444864|NCT00110461|164598573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.51|-0.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.86|-1.51|<0.0001
82371523|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-15.68||||0.027||95.0|-29.59|-1.77|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||-1.77|-29.59|0.027
82576033|NCT00755417|164861787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.41||0.1975|TWO_SIDED|97.5|-1.46|0.4||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at stable dosing Week 12.||0.40|-1.46|0.1975
82371524|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-4.39||||0.399|TWO_SIDED|95.0|-14.59|5.82|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||5.82|-14.59|0.399
82444865|NCT00110461|164598574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.4|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.40|-1.13|<0.0001
82644693|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.63|TWO_SIDED|95.0|-0.92|0.55|||t-test, 2 sided|||9 months: p-value was estimated using 2-sided t-test.||0.55|-0.92|0.630
82371525|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-7.5||||0.152||95.0|-17.76|2.77|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.77|-17.76|0.152
82371526|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-11.32||||0.106|TWO_SIDED|95.0|-25.05|2.4|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.40|-25.05|0.106
82371527|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.59||||0.21||95.0|-22.0|4.83|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||4.83|-22.00|0.210
82371528|NCT02912650|164449901|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-3.13||||0.545||95.0|-13.26|7.0|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||7.00|-13.26|0.545
82396824|NCT02636699|164504723|OTHER||Difference in Response Rates (%)|22.3|||<|0.001|TWO_SIDED|95.0|12.1|30.8|||Wald|||"Screening ED subgroup 2:~Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Newcombe 95% CI. P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Newcombe 95% CI of the difference in response rates \>0."||30.8|12.1|<0.001
82396825|NCT02636699|164504724|OTHER||Difference in Median CRD|297.0|||<|0.001|TWO_SIDED|95.0|130.0|317.0|||Wilcoxon rank-sum test|||The treatment effect was estimated using the Hodges-Lehmann estimate of the difference in median CRDs at Month 12.||317.0|130.0|<0.001
82396826|NCT02867202|164504730|OTHER||||||<|0.05|||||||t-test, 2 sided|||Data analysis was performed with SPSS version 22.0, using two-sided test, and a p value \< 0.05 was considered statistically significant.||||<0.05
82444866|NCT00110461|164598574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.6|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.60|-1.33|<0.0001
82444867|NCT00110461|164598575|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.92||||0.1729|TWO_SIDED|95.0|-4.69|0.85|||t-test, 2 sided|||||0.85|-4.69|0.1729
82444868|NCT00110461|164598575|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.43||||0.75586|TWO_SIDED|95.0|-3.17|2.31|||t-test, 2 sided|||||2.31|-3.17|0.75586
82444869|NCT00110461|164598576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||<|0.0001|TWO_SIDED|95.0|-6.9|-2.61|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.61|-6.90|<0.0001
82529500|NCT01976364|164755665|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
82371529|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|20.74|||<|0.001|TWO_SIDED|95.0|10.54|30.94|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||30.94|10.54|<0.001
82371530|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.52||||0.342|TWO_SIDED|95.0|-4.81|13.86|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.86|-4.81|0.342
82371531|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|3.62||||0.459|TWO_SIDED|95.0|-5.98|13.22|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.22|-5.98|0.459
82371532|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|16.2||||0.001|TWO_SIDED|95.0|6.24|26.17|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||26.17|6.24|0.001
82371533|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|17.37|||<|0.001|TWO_SIDED|95.0|7.42|27.31|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||27.31|7.42|<0.001
82396827|NCT03292471|164504738|SUPERIORITY|Dependent variable: PNT T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Pre-treatment, Post-treatment) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions (PNT raw score converted to T-score scale with m = 50, sd = 10 based on sample estimates from Fergadiotis, Hula, \& Kellough, 2015)|Highest Density Interval of Posterior Di|0.284|||||TWO_SIDED|95.0|-2.07|2.92|||||Direction of comparison: Group A (Standard Protocol) and post-treatment timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.92|-2.07|
82529501|NCT01976364|164755665|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
82396828|NCT03292471|164504738|SUPERIORITY|Dependent variable: PNT T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Pre-treatment, Follow-up) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions (PNT raw score converted to T-score scale with m = 50, sd = 10 based on sample estimates from Fergadiotis, Hula, \& Kellough, 2015)|Highest Density Interval of Posterior Di|0.02|||||TWO_SIDED|95.0|-2.38|2.46|||||Direction of comparison: Group A (Standard Protocol) and follow-up (2 months post-treatment) timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.46|-2.38|
82371534|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.91||||0.849|TWO_SIDED|95.0|-10.2|8.42|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.42|-10.2|0.849
82371535|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.08|||<|0.001|TWO_SIDED|95.0|39.53|62.62|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||62.62|39.53|<0.001
82371536|NCT02912650|164449902|SUPERIORITY_OR_OTHER||Cumulative Percentage of Participants wi|5.16||||0.318|TWO_SIDED|95.0|-4.97|15.3|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.30|-4.97|0.318
82371537|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.86||||0.062|TWO_SIDED|95.0|-0.49|20.21|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||20.21|-0.49|0.062
82371538|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|45.6|||<|0.001|TWO_SIDED|95.0|33.45|57.76|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.76|33.45|<0.001
82396829|NCT03292471|164504739|SUPERIORITY|Dependent variable: CAT Mean-modality T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time point (Entry, Exit) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions|Highest Density Interval of Posterior Di|0.997|||||TWO_SIDED|95.0|-0.0719|2.25|||||Direction of comparison: Group A (Standard Protocol) and post-treatment timepoint were set as reference values|Baysian Multivariate Analysis of Variance||2.25|-0.0719|
82396830|NCT03292471|164504739|SUPERIORITY|Dependent variable: CAT Mean-modality T-score Fixed Effects: Group Assignment (A = Standard, B= Priming), Time-point (Pre-treatment, Post-treatment) Random Effects: Participant (intercept and slope) Priors for slope and intercept were set as t-distributions|Highest Density Interval of Posterior Di|0.443|||||TWO_SIDED|95.0|-0.596|1.58|||||Direction of comparison: Group A (Standard Protocol) and follow-up (2 months post-treatment) timepoint were set as reference values|Baysian Multivariate Analysis of Variance||1.58|-0.596|
82444870|NCT00110461|164598576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.64|||<|0.0001|TWO_SIDED|95.0|-6.78|-2.5|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.50|-6.78|<0.0001
82371539|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|41.07|||<|0.001|TWO_SIDED|95.0|28.76|53.38|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||53.38|28.76|<0.001
82444871|NCT00110461|164598577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.0468|TWO_SIDED|95.0|-3.67|-0.03|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.03|-3.67|0.0468
82444872|NCT00110461|164598577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03||||0.0296|TWO_SIDED|95.0|-3.85|-0.2|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.20|-3.85|0.0296
82371540|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.74||||0.374|TWO_SIDED|95.0|-5.7|15.17|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.17|-5.70|0.374
82371541|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.09|||<|0.001|TWO_SIDED|95.0|47.93|72.26|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.26|47.93|<0.001
82371542|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|4.3||||0.323|TWO_SIDED|95.0|-4.22|12.81|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||12.81|-4.22|0.323
82371543|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.86||||0.032|TWO_SIDED|95.0|0.86|18.86|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.86|0.86|0.032
82371544|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|55.66|||<|0.001|TWO_SIDED|95.0|43.11|68.2|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||68.20|43.11|<0.001
82396831|NCT03743402|164504764|EQUIVALENCE|The null hypothesis was a point null of exactly 0 expected difference in MME/day between arms.|Mean Difference (Final Values)|-2.54||||0.58|TWO_SIDED|95.0|-10.55|5.88|||Regression, Linear||mean difference=(pain self-management)-(usual care)|A priori power calculations indicated 90% power to detect an average 24 MME/day difference between arms.||5.88|-10.55|0.58
82444873|NCT00110461|164598578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.1309|TWO_SIDED|95.0|-3.31|0.43|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.43|-3.31|0.1309
82396832|NCT03743402|164504765|EQUIVALENCE|The null hypothesis was a point null of exactly 0 expected difference in PEG score between arms.|Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-0.51|0.52|||Regression, Linear||mean difference = (pain self-management)-(usual care)|A priori power calculations indicated 90% power to detect a 1.2-point average difference in PEG score between arms.||0.52|-0.51|0.98
82396833|NCT03743402|164504766|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in average MME/day between arms.|Mean Difference (Final Values)|1.3||||0.72|TWO_SIDED|95.0|-5.69|8.29|||Regression, Linear||mean difference=(pain self-management)-(usual care)|||8.29|-5.69|0.72
82396834|NCT03743402|164504767|EQUIVALENCE|The null hypothesis is a point null of exactly 0 difference in expected PEG score between arms.|Mean Difference (Final Values)|-0.53||||0.07|TWO_SIDED|95.0|-1.11|0.05|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.05|-1.11|0.07
82396835|NCT03743402|164504768|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|2.11||||0.8|TWO_SIDED|95.0|-13.83|18.04|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||18.04|-13.83|0.80
82396836|NCT03743402|164504769|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|4.33||||0.02|TWO_SIDED|95.0|0.56|8.09|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||8.09|0.56|0.02
82396837|NCT03743402|164504770|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PHQ-8 score between arms.|Mean Difference (Final Values)|-0.35||||0.75|TWO_SIDED|95.0|-2.53|1.82|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.82|-2.53|0.75
82396838|NCT03743402|164504771|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PHQ-8 score between arms.|Mean Difference (Final Values)|-0.5||||0.48|TWO_SIDED|95.0|-1.87|0.87|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.87|-1.87|0.48
82396839|NCT03743402|164504772|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in GAD-7 score between arms.|Mean Difference (Final Values)|-0.25||||0.64|TWO_SIDED|95.0|-1.31|0.81|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.81|-1.31|0.64
82396840|NCT03743402|164504773|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in GAD-7 score between arms.|Mean Difference (Final Values)|0.28||||0.65|TWO_SIDED|95.0|-0.94|1.51|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.51|-0.94|0.65
82444874|NCT00110461|164598578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64||||0.0058|TWO_SIDED|95.0|-4.51|-0.77|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.77|-4.51|0.0058
82396841|NCT03743402|164504774|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PGIC score between arms.|Mean Difference (Final Values)|0.61||||0.02|TWO_SIDED|95.0|0.12|1.1|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.10|0.12|0.02
82396842|NCT03743402|164504775|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PGIC score between arms.|Mean Difference (Final Values)|1.33|||<|0.01|TWO_SIDED|95.0|0.77|1.88|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||1.88|0.77|<0.01
82396843|NCT03743402|164504776|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in POMI score between arms.|Mean Difference (Final Values)|0.09||||0.42|TWO_SIDED|95.0|-0.13|0.31|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.31|-0.13|0.42
82396844|NCT03743402|164504777|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in POMI score between arms.|Mean Difference (Final Values)|0.13||||0.26|TWO_SIDED|95.0|-0.1|0.36|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.36|-0.10|0.26
82396845|NCT03743402|164504778|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PODS score between arms.|Mean Difference (Final Values)|1.6||||0.54|TWO_SIDED|95.0|-3.47|6.66|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||6.66|-3.47|0.54
82396846|NCT03743402|164504779|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PODS score between arms.|Mean Difference (Final Values)|0.48||||0.59|TWO_SIDED|95.0|-1.26|2.21|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||2.21|-1.26|0.59
82396847|NCT03743402|164504780|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in opioid craving score between arms.|Mean Difference (Final Values)|-0.04||||0.9|TWO_SIDED|95.0|-0.66|0.57|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.57|-0.66|0.90
82396848|NCT03743402|164504781|EQUIVALENCE|The null hypothesis is a point null of exactly 0 expected difference in PSEQ score between arms.|Mean Difference (Final Values)|-0.35||||0.3|TWO_SIDED|95.0|-1.03|0.32|||Regression, Linear||mean difference = (pain self-management) - (usual care)|||0.32|-1.03|0.30
82396849|NCT03743402|164504782|EQUIVALENCE|The null hypothesis is a point null of the relative risk of 30% reduction from baseline equal exactly to 1.|Risk Ratio (RR)|2.1||||0.2|TWO_SIDED|95.0|0.68|6.53|||Regression, Poison||relative risk = (pain self-management)/(usual care)|||6.53|0.68|0.20
82396850|NCT03743402|164504783|EQUIVALENCE|The null hypothesis is a point null of the relative risk of 30% reduction from baseline equal exactly to 1.|Risk Ratio (RR)|1.34||||0.53|TWO_SIDED|95.0|0.54|3.32|||Regression, Poison||relative risk = (pain self-management)/(usual care)|||3.32|0.54|0.53
82396851|NCT02191046|164504785|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Final Values)|4.38|STANDARD_DEVIATION|2.89|<|0.05|TWO_SIDED|95.0|3.41|5.37|||t-test, 2 sided|||compare the mean 5S-score between before and after treatment in syringe group||5.37|3.41|<0.05
82396852|NCT02191046|164504785|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Net)|0.93|STANDARD_DEVIATION|0.42|<|0.05|TWO_SIDED|95.0|0.094|1.76|||t-test, 2 sided|||compare the mean 5S-score between 2 groups at 2 weeks after treatment||1.76|0.094|<0.05
82396853|NCT02191046|164504785|NON_INFERIORITY_OR_EQUIVALENCE|power of study = 90%|Mean Difference (Net)|-0.47|STANDARD_DEVIATION|0.17|<|0.05|TWO_SIDED|95.0|-0.82|-0.12|||t-test, 2 sided|||satisfaction score between two groups at 2 weeks after treatment||-0.12|-0.82|<0.05
82644694|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.53|TWO_SIDED|95.0|-0.5|0.98|||t-test, 2 sided|||12 months: p-value was estimated using 2-sided t-test.||0.98|-0.50|0.530
82644695|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.147|TWO_SIDED|95.0|-1.43|0.21|||t-test, 2 sided|||18 months: p-value was estimated using 2-sided t-test.||0.21|-1.43|0.147
82396854|NCT02191046|164504785|NON_INFERIORITY_OR_EQUIVALENCE|power fo study = 90%|Mean Difference (Final Values)|5.66|STANDARD_DEVIATION|3.16|<|0.05|TWO_SIDED|95.0|4.62|6.69|||t-test, 2 sided|||compare the mean 5s-score between before and after treatment in squeezable bottle group||6.69|4.62|<0.05
82396855|NCT03763058|164504805|SUPERIORITY||Mean Difference (Final Values)|-2.8|STANDARD_DEVIATION|4.19||0.012|TWO_SIDED|95.0|||||Sign test|||||||0.012
82396856|NCT03763058|164504806|SUPERIORITY||Mean Difference (Final Values)|-5.45|STANDARD_DEVIATION|15.52||0.002|TWO_SIDED|95.0|||||Sign test|||||||0.002
82396857|NCT03763058|164504807|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|2.71||0.045|TWO_SIDED|95.0|||||Sign test|||||||0.045
82644696|NCT00038467|165004138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.389|TWO_SIDED|95.0|-1.18|0.46|||t-test, 2 sided|||24 months: p-value was estimated using 2-sided t-test.||0.46|-1.18|0.389
82396858|NCT03763058|164504808|SUPERIORITY||Mean Difference (Final Values)|-3.65|STANDARD_DEVIATION|4.59|<|0.001|TWO_SIDED|95.0|||||Sign test|||||||<0.001
82396859|NCT03763058|164504809|SUPERIORITY||Mean Difference (Final Values)|-4.15|STANDARD_DEVIATION|5.1|<|0.001|TWO_SIDED|95.0|||||Sign test|||Total HAD score||||<0.001
82396860|NCT01490697|164504810|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-18.0|16.0|||||Placebo plus Placebo - Mifepristone plus d-Cycloserine (DCS)|||16|-18|
82529502|NCT01976364|164755665|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
82644697|NCT00038467|165004140|SUPERIORITY_OR_OTHER|||||||0.0174|TWO_SIDED||||||Chi-squared|||6 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0174
82644698|NCT00038467|165004140|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||Chi-squared|||12 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0059
82644699|NCT00038467|165004140|SUPERIORITY_OR_OTHER|||||||0.0037|TWO_SIDED||||||Chi-squared|||24 months: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.0037
82644700|NCT00038467|165004140|SUPERIORITY_OR_OTHER|||||||0.8084|TWO_SIDED||||||Chi-squared|||12 months post-treatment: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.8084
82396861|NCT01490697|164504811|SUPERIORITY||Mean Difference (Net)|3.9|||||TWO_SIDED|95.0|-6.9|14.7|||||Placebo plus Placebo - Mifepristone plus d-Cycloserine (DCS)|||14.7|-6.9|
82396862|NCT00379808|164504812|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.22|||||||Wilcoxon sign rank test|||Statistical power was calculated using G\*Power (Dusseldorf, Germany). Based on previously observed effects of statin drugs on hsCRP levels, 22 subjects provided 80% power to detect a moderate effect on hsCRP levels.||||0.22
82396863|NCT00379808|164504813|SUPERIORITY_OR_OTHER||percent difference|3.8||||0.57|||||||Wilcoxon sign rank|||Null hypothesis is that montelukast does not affect HDL. Not powered for this endpoint||||0.57
82396864|NCT00379808|164504814|SUPERIORITY_OR_OTHER||percent difference|7.4||||0.33|||||||wilcoxon sign rank|||The null hypothesis is that montelukast does not affect triglycerides. The study was not powered to this outcome measure.||||0.33
82396865|NCT00379808|164504815|SUPERIORITY_OR_OTHER||percent difference|11.9||||0.12|||||||Wilcoxon|||null hypothesis is that montelukast does not affect MCP-1. Study not powered to the biomarker.||||0.12
82396866|NCT00379808|164504816|SUPERIORITY_OR_OTHER||percent difference|13.3||||0.03|||||||wilcoxon sign rank test|||null hypothesis is that montelukast does not affect IL1ra.||||0.03
82396867|NCT00379808|164504817|SUPERIORITY_OR_OTHER||percent difference|16.5||||0.09|||||||wilcoxon sign rank|||null hypothesis is that montelukast does not affect ENA-78. The study is not powered to this biomarker||||0.09
82396868|NCT03409120|164504818|SUPERIORITY||||||<|0.001|||||||linear mixed effects model|||We tested the equivalence of Burke-Fahn-Marsden scores over time (at baseline and at two time periods following DBS surgery) using a repeated measures ANOVA.||||<0.001
82396869|NCT03725033|164504832|SUPERIORITY|||||||0.0028|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.0028
82396870|NCT03725033|164504833|SUPERIORITY|||||||0.0805|||||||Fisher Exact|||||||0.0805
82396871|NCT03725033|164504834|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.99
82396872|NCT03725033|164504835|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.79
82396873|NCT01625689|164504852|SUPERIORITY_OR_OTHER||||||>=|0.498|TWO_SIDED|||||No comparison between the LAIV and placebo groups by type of solicited reaction had a p-value below 0.498.|Fisher Exact|||||||>=0.498
82396874|NCT02134353|164504886|SUPERIORITY||Mean Difference (Net)|54.0||||0.02|TWO_SIDED|95.0|8.0|100.0|||Mixed Models Analysis||Missing data for withdrawals related to safety or efficacy imputed using BOCF (baseline observation carried forward). Data collected at 6, 14 and 26 weeks.|||100|8|0.020
82396875|NCT02134353|164504887|SUPERIORITY||Mean Difference (Net)|40.0||||0.128|TWO_SIDED|95.0|-12.0|92.0||Missing data for withdrawals due to safety/efficacy imputed using BOCF. Data collected at 6,14 and 26 weeks.|Mixed Models Analysis||Missing data for withdrawals related to safety or efficacy imputed using BOCF. Data collected at 6, 14 and 26 weeks.|||92|-12|0.128
82396876|NCT02134353|164504888|SUPERIORITY||Cox Proportional Hazard|1.14||||0.629|TWO_SIDED|95.0|0.671|1.936|||Regression, Cox|||||1.936|0.671|0.629
82396877|NCT02134353|164504889|SUPERIORITY||Rate ratio|0.75||||0.673|TWO_SIDED|95.0|0.198|2.846|||Negative binomial model|||||2.846|0.198|0.673
82396878|NCT02134353|164504890|SUPERIORITY||Rate ratio|1.273||||0.735|TWO_SIDED|95.0|0.315|5.154|||Negative binomial model|||||5.154|0.315|0.735
82396879|NCT02134353|164504891|SUPERIORITY||Rate ratio|1.545||||0.055|TWO_SIDED|95.0|0.99|2.411|||Negative binomial model|||Patients withdrawing early without an exacerbation had rate imputed based on number of exacerbations in 12 months prior to screening.||2.411|0.990|0.055
82396880|NCT02134353|164504891|SUPERIORITY||Rate ratio|1.357||||0.246|TWO_SIDED|95.0|0.81|2.275|||Negative binomial model|||Sensitivity analysis with no imputation of missing data.||2.275|0.810|0.246
82644701|NCT00038467|165004140|SUPERIORITY_OR_OTHER|||||||0.6449|TWO_SIDED||||||Chi-squared|||24 months post-treatment: p-value for percentage of participants with an endometrial thickness of \>=5 mm was analyzed using Chi-squared test.||||0.6449
82644702|NCT01787188|165004146|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.84|STANDARD_ERROR_OF_MEAN|3.097||0.0005|TWO_SIDED|95.0|-16.93|-4.75|||Mixed Models Analysis|||||-4.75|-16.93|0.0005
82644703|NCT01787188|165004146|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.74|STANDARD_ERROR_OF_MEAN|3.154||0.0059|TWO_SIDED|95.0|-14.94|-2.53|||Mixed Models Analysis|||||-2.53|-14.94|0.0059
82644704|NCT01787188|165004147|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.61|STANDARD_ERROR_OF_MEAN|2.641||0.0003|TWO_SIDED|95.0|-14.8|-4.42|||Mixed Models Analysis|||||-4.42|-14.80|0.0003
82644705|NCT01787188|165004147|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.9|STANDARD_ERROR_OF_MEAN|2.696||0.1486|TWO_SIDED|95.0|-9.2|1.4|||Mixed Models Analysis|||||1.40|-9.20|0.1486
82644706|NCT01787188|165004148|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.33|STANDARD_ERROR_OF_MEAN|2.865||0.0004|TWO_SIDED|95.0|-15.97|-4.7|||Mixed Models Analysis|||||-4.70|-15.97|0.0004
82396881|NCT02134353|164504892|SUPERIORITY||Odds Ratio (OR)|1.009||||0.976|TWO_SIDED|95.0|0.555|1.836|||Regression, Logistic|||||1.836|0.555|0.976
82396882|NCT02134353|164504893|SUPERIORITY||Mean Difference (Net)|0.259||||0.083|TWO_SIDED|95.0|-0.034|0.551|||Mixed Models Analysis|Missing values due to withdrawal related to safety/efficacy imputed using BOCF||||0.551|-0.034|0.083
82396883|NCT02134353|164504894|SUPERIORITY||Mean Difference (Net)|0.87||||0.453|TWO_SIDED|95.0|-1.406|3.145|||Mixed Models Analysis||Missing values due to withdrawal related to safety/efficacy imputed using BOCF|||3.145|-1.406|0.453
82644707|NCT01787188|165004148|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.84|STANDARD_ERROR_OF_MEAN|2.917||0.0008|TWO_SIDED|95.0|-15.58|-4.1|||Mixed Models Analysis|||||-4.10|-15.58|0.0008
82444875|NCT00110461|164598579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.043|TWO_SIDED|95.0|-4.2|-0.07|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-0.07|-4.20|0.0430
82644708|NCT01787188|165004149|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.44|STANDARD_ERROR_OF_MEAN|2.521|<|0.0001|TWO_SIDED|95.0|-15.4|-5.48|||ANCOVA|||||-5.48|-15.40|<0.0001
82644709|NCT01787188|165004149|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-7.82|STANDARD_ERROR_OF_MEAN|2.561||0.0024|TWO_SIDED|95.0|-12.85|-2.78|||ANCOVA|||||-2.78|-12.85|0.0024
82644710|NCT01787188|165004150|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.34|STANDARD_ERROR_OF_MEAN|2.623|<|0.0001|TWO_SIDED|95.0|-15.49|-5.18|||Mixed Models Analysis|||||-5.18|-15.49|<0.0001
82644711|NCT01787188|165004150|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.39|STANDARD_ERROR_OF_MEAN|2.662||0.0997|TWO_SIDED|95.0|-9.63|0.84|||Mixed Models Analysis|||||0.84|-9.63|0.0997
82644712|NCT01787188|165004151|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.83|STANDARD_ERROR_OF_MEAN|2.905||0.0008|TWO_SIDED|95.0|-15.54|-4.11|||Mixed Models Analysis|||||-4.11|-15.54|0.0008
82644713|NCT01787188|165004151|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.42|STANDARD_ERROR_OF_MEAN|2.951||0.0015|TWO_SIDED|95.0|-15.22|-3.62|||Mixed Models Analysis|||||-3.62|-15.22|0.0015
82396884|NCT02134353|164504895|SUPERIORITY||Mean Difference (Net)|87.0||||0.012|TWO_SIDED|95.0|20.0|155.0|||Mixed Models Analysis||Missing data due to withdrawals for reasons related to safety/efficacy imputed using BOCF|||155|20|0.012
82396885|NCT03611582|164504898|SUPERIORITY||Treatment difference|-10.27|||<|0.0001|TWO_SIDED|95.0|-11.97|-8.57|||ANCOVA|||Treatment policy estimand||-8.57|-11.97|<.0001
82396886|NCT03611582|164504898|SUPERIORITY||Treatment difference|-12.67|||<|0.0001|TWO_SIDED|95.0|-14.34|-11.0|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||-11.00|-14.34|<0.0001
82396887|NCT03611582|164504899|SUPERIORITY||Odds Ratio (OR)|6.11|||<|0.0001|TWO_SIDED|95.0|4.04|9.26|||Regression, Logistic|||Treatment policy estimand||9.26|4.04|<0.0001
82396888|NCT03611582|164504899|SUPERIORITY||Odds Ratio (OR)|11.67|||<|0.0001|TWO_SIDED|95.0|7.64|17.81|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||17.81|7.64|<0.0001
82396889|NCT01783821|164504929|SUPERIORITY_OR_OTHER|||||||0.02|||||||Type 3 Wald Test|||Overall p-value of the day by treatment interaction from the random effects model using a type 3 Wald test.||||0.02
82396890|NCT01783821|164504930|SUPERIORITY_OR_OTHER|||||||0.01|||||||Fisher Exact|||Comparison between the two arms for the 3 categories.||||0.01
82396891|NCT01783821|164504931|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.01
82396892|NCT01783821|164504932|SUPERIORITY_OR_OTHER|||||||0.01|||||||Fisher Exact|||||||0.01
82396893|NCT01783821|164504933|SUPERIORITY_OR_OTHER|||||||0.02|||||||Cox Proportional Hazard, Fine/Gray adj.|||||||0.02
82396894|NCT01783821|164504934|SUPERIORITY_OR_OTHER|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82644714|NCT01787188|165004152|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.13|STANDARD_ERROR_OF_MEAN|3.147||0.0014|TWO_SIDED|95.0|-16.32|-3.94|||Mixed Models Analysis|||||-3.94|-16.32|0.0014
82644715|NCT01787188|165004152|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.98|STANDARD_ERROR_OF_MEAN|3.198||0.0019|TWO_SIDED|95.0|-16.27|-3.69|||Mixed Models Analysis|||||-3.69|-16.27|0.0019
82644716|NCT01787188|165004153|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.47|STANDARD_ERROR_OF_MEAN|2.593|<|0.0001|TWO_SIDED|95.0|-15.57|-5.37|||ANCOVA|||||-5.37|-15.57|<0.0001
82644717|NCT01787188|165004153|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.16|STANDARD_ERROR_OF_MEAN|2.627||0.002|TWO_SIDED|95.0|-13.33|-2.99|||ANCOVA|||||-2.99|-13.33|0.0020
82644718|NCT01787188|165004154|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.45|STANDARD_ERROR_OF_MEAN|2.686||0.0001|TWO_SIDED|95.0|-15.73|-5.17|||Mixed Models Analysis|||||-5.17|-15.73|0.0001
82644719|NCT01787188|165004154|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.41|STANDARD_ERROR_OF_MEAN|2.725||0.1065|TWO_SIDED|95.0|-9.77|0.95|||Mixed Models Analysis|||||0.95|-9.77|0.1065
82644720|NCT01787188|165004155|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.68|STANDARD_ERROR_OF_MEAN|2.961||0.0012|TWO_SIDED|95.0|-15.5|-3.85|||Mixed Models Analysis|||||-3.85|-15.50|0.0012
82644721|NCT01787188|165004155|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.65|STANDARD_ERROR_OF_MEAN|3.006||0.0014|TWO_SIDED|95.0|-15.56|-3.74|||Mixed Models Analysis|||||-3.74|-15.56|0.0014
82396895|NCT02440854|164504941|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.002
82396896|NCT02440854|164504941|OTHER|||||||0.014|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.014
82396897|NCT02440854|164504941|OTHER|||||||0.246|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.246
82396898|NCT02440854|164504941|OTHER|||||||0.103|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.103
82396899|NCT02440854|164504941|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.004
82396900|NCT02440854|164504941|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82396901|NCT02440854|164504941|OTHER|||||||0.012|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.012
82396902|NCT02440854|164504941|OTHER|||||||0.024|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.024
82396903|NCT02440854|164504941|OTHER|||||||0.009|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.009
82396904|NCT02440854|164504941|OTHER|||||||0.008|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.008
82396905|NCT02440854|164504942|OTHER|||||||0.027|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.027
82396906|NCT02440854|164504942|OTHER|||||||0.03|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.030
82396907|NCT02440854|164504942|OTHER|||||||0.351|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.351
82396908|NCT02440854|164504942|OTHER|||||||0.143|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.143
82396909|NCT02440854|164504942|OTHER|||||||0.163|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.163
82396910|NCT02440854|164504942|OTHER|||||||0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.001
82396911|NCT02440854|164504942|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.003
82396912|NCT02440854|164504942|OTHER|||||||0.036|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.036
82396913|NCT02440854|164504942|OTHER|||||||0.043|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.043
82396914|NCT02440854|164504942|OTHER|||||||0.04|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.040
82396915|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82396916|NCT02440854|164504943|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.003
82396917|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
82396918|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
82396919|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
82396920|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82396921|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
82396922|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
82396923|NCT02440854|164504943|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
82396924|NCT02440854|164504943|OTHER|||||||0.163|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.163
82396925|NCT02440854|164504944|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.003
82396926|NCT02440854|164504944|OTHER|||||||0.009|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.009
82396927|NCT02440854|164504944|OTHER|||||||0.012|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.012
82396928|NCT02440854|164504944|OTHER|||||||0.332|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.332
82396929|NCT02440854|164504944|OTHER|||||||0.029|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.029
82396930|NCT02440854|164504944|OTHER|||||||0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.001
82396931|NCT02440854|164504944|OTHER|||||||0.177|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.177
82396932|NCT02440854|164504944|OTHER|||||||0.436|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.436
82396933|NCT02440854|164504944|OTHER|||||||0.302|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.302
82396934|NCT02440854|164504944|OTHER|||||||0.291|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.291
82396935|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82396936|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
82396937|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
82396938|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
82396939|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
82396940|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82396941|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
82396942|NCT02440854|164504945|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
82396943|NCT02440854|164504945|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.002
82396944|NCT02440854|164504945|OTHER|||||||0.025|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.025
82396945|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82396946|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
82371545|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.38|||<|0.001|TWO_SIDED|95.0|37.71|63.05|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||63.05|37.71|<0.001
82644722|NCT01787188|165004156|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.26|STANDARD_ERROR_OF_MEAN|3.194||0.0014|TWO_SIDED|95.0|-16.54|-3.97|||Mixed Models Analysis|||||-3.97|-16.54|0.0014
82371546|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.61||||0.232|TWO_SIDED|95.0|-3.58|14.8|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.80|-3.58|0.232
82371547|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|59.92|||<|0.001|TWO_SIDED|95.0|47.39|72.46|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.46|47.39|<0.001
82371548|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.51||||0.179|TWO_SIDED|95.0|-2.52|13.53|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||13.53|-2.52|0.179
82371549|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.37||||0.003|TWO_SIDED|95.0|4.65|22.1|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.10|4.65|0.003
82371550|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|54.32|||<|0.001|TWO_SIDED|95.0|41.36|67.29|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||67.29|41.36|<0.001
82371551|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|33.5|59.99|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.99|33.50|<0.001
82371552|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371553|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.51|||<|0.001|TWO_SIDED|95.0|47.99|73.03|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||73.03|47.99|<0.001
82371554|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.08||||0.135|TWO_SIDED|95.0|-1.89|14.05|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.89|0.135
82371555|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.97||||0.002|TWO_SIDED|95.0|5.3|22.64|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.64|5.30|0.002
82371556|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|54.32|||<|0.001|TWO_SIDED|95.0|41.36|67.29|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||67.29|41.36|<0.001
82371557|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|33.5|59.99|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.99|33.50|<0.001
82371558|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82396947|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
82396948|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
82396949|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
82644723|NCT01787188|165004156|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.45|STANDARD_ERROR_OF_MEAN|3.24||0.0014|TWO_SIDED|95.0|-16.82|-4.08|||Mixed Models Analysis|||||-4.08|-16.82|0.0014
82644724|NCT01787188|165004157|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.52|STANDARD_ERROR_OF_MEAN|2.646|<|0.0001|TWO_SIDED|95.0|-15.72|-5.31|||ANCOVA|||||-5.31|-15.72|<0.0001
82396950|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82396951|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
82396952|NCT02440854|164504946|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
82396953|NCT02440854|164504946|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.003
82396954|NCT02440854|164504946|OTHER|||||||0.025|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.025
82396955|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82529503|NCT01976364|164755665|OTHER||Difference in percentage of participants|6.25|||||TWO_SIDED|95.0|-59.58|72.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||72.08|-59.58|
82644725|NCT01787188|165004157|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.44|STANDARD_ERROR_OF_MEAN|2.68||0.0018|TWO_SIDED|95.0|-13.71|-3.17|||ANCOVA|||||-3.17|-13.71|0.0018
82644726|NCT01787188|165004158|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.98|STANDARD_ERROR_OF_MEAN|2.831||0.0001|TWO_SIDED|95.0|-16.55|-5.41|||Mixed Models Analysis|||||-5.41|-16.55|0.0001
82644727|NCT01787188|165004158|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.02|STANDARD_ERROR_OF_MEAN|2.89||0.0379|TWO_SIDED|95.0|-11.71|-0.34|||Mixed Models Analysis|||||-0.34|-11.71|0.0379
82644728|NCT01787188|165004159|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.22|STANDARD_ERROR_OF_MEAN|3.152||0.0001|TWO_SIDED|95.0|-18.42|-6.02|||Mixed Models Analysis|||||-6.02|-18.42|0.0001
82644729|NCT01787188|165004159|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.1|STANDARD_ERROR_OF_MEAN|3.21||0.0049|TWO_SIDED|95.0|-15.41|-2.78|||Mixed Models Analysis|||||-2.78|-15.41|0.0049
82644730|NCT01787188|165004160|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.94|STANDARD_ERROR_OF_MEAN|3.359||0.0012|TWO_SIDED|95.0|-17.55|-4.33|||Mixed Models Analysis|||||-4.33|-17.55|0.0012
82644731|NCT01787188|165004160|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.36|STANDARD_ERROR_OF_MEAN|3.422||0.0066|TWO_SIDED|95.0|-16.09|-2.63|||Mixed Models Analysis|||||-2.63|-16.09|0.0066
82644732|NCT01787188|165004161|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-11.67|STANDARD_ERROR_OF_MEAN|2.751|<|0.0001|TWO_SIDED|95.0|-17.08|-6.26|||ANCOVA|||||-6.26|-17.08|<0.0001
82644733|NCT01787188|165004161|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.24|STANDARD_ERROR_OF_MEAN|2.795||0.0034|TWO_SIDED|95.0|-13.74|-2.74|||ANCOVA|||||-2.74|-13.74|0.0034
82371559|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371560|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371561|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371562|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82529504|NCT01976364|164755666|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.9|
82644734|NCT02643394|165004205|SUPERIORITY|||||||0.252|TWO_SIDED|80.0|||||Wilcoxon (Mann-Whitney)|||||||0.252
82644735|NCT02643394|165004206|SUPERIORITY|||||||0.402|||||||Wilcoxon (Mann-Whitney)|||||||0.402
82644736|NCT01238172|165004261|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.76|TWO_SIDED|95.0|0.75|1.24|||Log Rank|||||1.24|0.75|0.76
82644737|NCT01238172|165004262|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.71|TWO_SIDED|95.0|0.23|8.41|||Log Rank|||||8.41|0.23|0.71
82644738|NCT01238172|165004263|SUPERIORITY|||||||0.995|||||||Wilcoxon (Mann-Whitney)|||||||0.995
82644739|NCT01238172|165004264|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Two-sided||||||<0.001
82644740|NCT01209234|165004281|SUPERIORITY||Cox Proportional Hazard|0.7|STANDARD_ERROR_OF_MEAN|0.024||0.026|TWO_SIDED|95.0|0.52|0.96|||Regression, Cox||This is the estimated standard error of the log hazard ratio|||0.96|0.52|0.026
82644741|NCT01209234|165004282|SUPERIORITY||Cox Proportional Hazard|0.84|STANDARD_ERROR_OF_MEAN|0.009||0.061|TWO_SIDED|95.0|0.7|1.01||Not adjusted for multiple comparisons|Regression, Cox||CDC-defined all-cause infection secondary outcome This is the estimated standard error of the log hazard ratio|||1.01|0.70|0.061
82644742|NCT01209234|165004282|SUPERIORITY||Cox Proportional Hazard|0.83|STANDARD_ERROR_OF_MEAN|0.008||0.035|TWO_SIDED|95.0|0.7|0.99||Not adjusted for multiple comparisons|Regression, Cox||Clinical criteria for all-cause infection This is the estimated standard error of the log hazard ratio|||0.99|0.70|0.035
82644743|NCT05257109|165004297|OTHER|Mixed effects models with water concentration as the within subject factor and irritation as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Median Difference (Final Values)|0.67||||0.0014|TWO_SIDED|||||Significant p-value set at \<0.05|Mixed Models Analysis|||||||0.0014
82396956|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
82647982|NCT00386100|165011350|SUPERIORITY_OR_OTHER||Percent difference from metformin|7.527||||0.7041|TWO_SIDED|95.0|-26.773|57.892||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||57.892|-26.773|0.7041
82396957|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
82396958|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
82396959|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
82396960|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82644744|NCT05257109|165004298|OTHER|Mixed effects models with water concentration as the within subject factor and LHS as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Mean Difference (Final Values)|1.55|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82371563|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371564|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371565|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371566|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371567|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371568|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371569|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371570|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371571|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371572|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371573|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371574|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371575|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371576|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82444876|NCT00110461|164598579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.7696|TWO_SIDED|95.0|-2.37|1.76|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.76|-2.37|0.7696
82371577|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371578|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82396961|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
82396962|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
82396963|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
82396964|NCT02440854|164504947|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||<0.001
82444877|NCT00110461|164598580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.9418|TWO_SIDED|95.0|-1.73|1.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.86|-1.73|0.9418
82444878|NCT00110461|164598580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.19|TWO_SIDED|95.0|-1.67|1.98|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.98|-1.67|0.19
82444879|NCT00110461|164598581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.9418|TWO_SIDED|95.0|-1.73|1.86|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.86|-1.73|0.9418
82444880|NCT00110461|164598581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.8377|TWO_SIDED|95.0|-1.61|1.98|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.98|-1.61|0.8377
82444881|NCT00110461|164598582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.3969|TWO_SIDED|95.0|-2.71|1.08|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||1.08|-2.71|0.3969
82529505|NCT01976364|164755666|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-0.9|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.9|
82396965|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82396966|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
82396967|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||<0.001
82396968|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||<0.001
82396969|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||<0.001
82396970|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82396971|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||<0.001
82396972|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||<0.001
82396973|NCT02440854|164504948|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||<0.001
82396974|NCT02440854|164504948|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.002
82396975|NCT02440854|164504949|OTHER|||||||0.022|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.022
82396976|NCT02440854|164504949|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||<0.001
82396977|NCT02440854|164504949|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.004
82396978|NCT02440854|164504949|OTHER|||||||0.032|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.032
82396979|NCT02440854|164504949|OTHER|||||||0.066|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.066
82396980|NCT02440854|164504949|OTHER|||||||0.042|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.042
82396981|NCT02440854|164504949|OTHER|||||||0.045|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.045
82396982|NCT02440854|164504949|OTHER|||||||0.014|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.014
82444882|NCT00110461|164598582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.2101|TWO_SIDED|95.0|-3.09|0.68|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||0.68|-3.09|0.2101
82444883|NCT00110461|164598583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||<|0.0001|TWO_SIDED|95.0|-10.5|-3.64|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-3.64|-10.5|<0.0001
82444884|NCT00110461|164598583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.55||||0.0014|TWO_SIDED|95.0|-8.94|-2.16|||t-test, 2 sided|||Analyses were performed by fitting an ANCOVA model with treatment as factor, and baseline score as covariate. Two pair-wise comparisons, aripiprazole 10 mg target dose versus placebo and aripiprazole 30 mg target dose versus placebo, were performed within the ANCOVA or ANOVA model.||-2.16|-8.94|0.0014
82444885|NCT00110461|164598584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.7||||0.0074|TWO_SIDED|95.0|5.01|32.4|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||32.40|5.01|0.0074
82396983|NCT02440854|164504949|OTHER|||||||0.015|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.015
82396984|NCT02440854|164504949|OTHER|||||||0.462|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.462
82396985|NCT02440854|164504950|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||<0.001
82396986|NCT02440854|164504950|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.004
82396987|NCT02440854|164504950|OTHER|||||||0.008|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.008
82396988|NCT02440854|164504950|OTHER|||||||0.315|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.315
82396989|NCT02440854|164504950|OTHER|||||||0.237|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.237
82576034|NCT00755417|164861788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.0016|TWO_SIDED|97.5|-0.44|-0.08||Based on F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 4.||-0.08|-0.44|0.0016
82644745|NCT05257109|165004299|OTHER|Mixed effects models with water concentration as the within subject factor and DEQ as outcome. Outcome analyses will be intent-to-treat and using mixed-effects models. If model assumptions will appear to be violated, we will transform the data or fit more flexible generalized linear or nonparametric mixed models. A significant main effect of condition will be considered supportive of our hypothesis. Formal power analyses were not conducted for this pilot study.|Mean Difference (Final Values)|3.28|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82644746|NCT01052038|165004344|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|||||||<0.001
82396990|NCT02440854|164504950|OTHER||||||<|0.001|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||<0.001
82644747|NCT01052038|165004344|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
82396991|NCT02440854|164504950|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.002
82396992|NCT02440854|164504950|OTHER|||||||0.004|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.004
82396993|NCT02440854|164504950|OTHER|||||||0.01|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.010
82396994|NCT02440854|164504950|OTHER|||||||0.683|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.683
82396995|NCT02440854|164504951|OTHER|||||||0.062|||||||t-test, 2 sided|Paired t-test.||Baseline vs 2-month post-baseline.||||0.062
82396996|NCT02440854|164504951|OTHER|||||||0.062|||||||t-test, 2 sided|Paired t-test.||Baseline vs 4-month post-baseline.||||0.062
82396997|NCT02440854|164504951|OTHER|||||||0.027|||||||t-test, 2 sided|Paired t-test.||Baseline vs 6-month post-baseline.||||0.027
82396998|NCT02440854|164504951|OTHER|||||||0.17|||||||t-test, 2 sided|Paired t-test.||Baseline vs 8-month post-baseline.||||0.170
82396999|NCT02440854|164504951|OTHER|||||||0.271|||||||t-test, 2 sided|Paired t-test.||Baseline vs 10-month post-baseline.||||0.271
82397000|NCT02440854|164504951|OTHER|||||||0.002|||||||t-test, 2 sided|Paired t-test.||Baseline vs 12-month post-baseline.||||0.002
82397001|NCT02440854|164504951|OTHER|||||||0.003|||||||t-test, 2 sided|Paired t-test.||Baseline vs 18-month post-baseline.||||0.003
82397002|NCT02440854|164504951|OTHER|||||||0.157|||||||t-test, 2 sided|Paired t-test.||Baseline vs 24-month post-baseline.||||0.157
82397003|NCT02440854|164504951|OTHER|||||||0.064|||||||t-test, 2 sided|Paired t-test.||Baseline vs 30-month post-baseline.||||0.064
82397004|NCT02440854|164504951|OTHER|||||||0.439|||||||t-test, 2 sided|Paired t-test||Baseline vs 36-month post-baseline.||||0.439
82397005|NCT02440854|164504952|OTHER|||||||0.388|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.388
82397006|NCT02440854|164504952|OTHER|||||||0.006|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||0.006
82397007|NCT02440854|164504952|OTHER|||||||0.077|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.077
82397008|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
82397009|NCT02440854|164504952|OTHER|||||||0.508|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.508
82397010|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
82397011|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
82397012|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
82397013|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
82397014|NCT02440854|164504952|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
82397015|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||>0.999
82397016|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||>0.999
82644748|NCT01052038|165004344|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
82644749|NCT01052038|165004345|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|Dunn's post hoc-test corrected for 12 comparisons.||||||<0.001
82644750|NCT01052038|165004345|SUPERIORITY_OR_OTHER||Median Difference (Net)|22.0||||0.005|TWO_SIDED|95.0|14.0|29.0|||Wilcoxon (Mann-Whitney)|||||29|14|0.005
82644751|NCT01052038|165004345|SUPERIORITY_OR_OTHER||Median Difference (Net)|14.0||||0.004|TWO_SIDED|95.0|7.0|22.0|||Wilcoxon (Mann-Whitney)|||||22|7|0.004
82644752|NCT01052038|165004346|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared, Corrected|||||||0.004
82644753|NCT01052038|165004347|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Kruskal-Wallis|Post hoc test using Dunn's test corrected for 12 comparisons||||||0.01
82371579|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371580|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371581|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371582|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371583|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371584|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371585|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371586|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371587|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371588|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371589|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371590|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371591|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371592|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001||95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371593|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001||95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|< 0.001
82371594|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087||95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82397017|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||>0.999
82397018|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
82397019|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||>0.999
82397020|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
82397021|NCT02440854|164504953|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
82644754|NCT01052038|165004347|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.0||||0.003||95.0|0.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|0|0.003
82371595|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001||95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||71.00|45.24|< 0.001
82371596|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371597|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001||95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|< 0.001
82371598|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||64.09|37.39|<0.001
82371599|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371600|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087||95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||16.97|-1.15|0.087
82371601|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371602|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82397022|NCT02440854|164504954|OTHER|||||||0.774|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.774
82371603|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371604|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371605|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001||95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371606|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371607|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371608|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071||95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82397023|NCT02440854|164504954|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||>0.999
82397024|NCT02440854|164504954|OTHER|||||||0.607|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.607
82397025|NCT02440854|164504954|OTHER|||||||0.774|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||0.774
82397026|NCT02440854|164504954|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||>0.999
82397027|NCT02440854|164504954|OTHER|||||||0.453|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||0.453
82397028|NCT02440854|164504954|OTHER|||||||0.688|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||0.688
82397029|NCT02440854|164504954|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
82397030|NCT02440854|164504954|OTHER|||||||0.25|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||0.250
82397031|NCT02440854|164504954|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
82397032|NCT02440854|164504955|OTHER|||||||0.077|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.077
82644755|NCT01052038|165004348|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared, Corrected|||||||0.04
82644756|NCT00602641|165004363|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Presuming the control over the experimental arm (MPT-T/mPR-R), the inferiority of mPR-R was defined as a PFS treatment hazard ratio (HR) of less than or equal to 0.82 corresponding to median PFS on the mPR-R arm of 20.5 months (mos) vs. 25 mos on the MPT-T arm. With 304 patients and 221 PFS events, there was 86% power to detect non-inferiority of mPR-R at a 1-sided 0.05 significance level assuming a superiority alternative of HR=1.2 corresponding to median PFS on the mPR-R arm of 30 mos.|Hazard Ratio (HR)|0.84|||||TWO_SIDED|90.0|0.67|1.045|||||Analysis based on stratified cox regression by ISS stage (I-II vs. III) and age (\< 65y vs. ≥ 65y). The fact that the lower-bound was less than 0.82 and the upper bound was above 1.0 indicates that results were inconclusive for the primary objective.|Since mPR-R was expected to be considerably less toxic and to confer slightly longer PFS, a non-inferiority design with superiority alternative was used.||1.045|0.67|
82644757|NCT00602641|165004364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.476|TWO_SIDED||||||Log Rank|Analysis was based on stratified cox regression by ISS stage (I-II vs. III) and age (\< 65y vs. ≥ 65y).||||||0.476
82371609|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001||95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82371610|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001||95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371611|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371612|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371613|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.12|||<|0.001|TWO_SIDED|95.0|45.24|71.0|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.00|45.24|<0.001
82371614|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.23||||0.071|TWO_SIDED|95.0|-0.63|15.1|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.10|-0.63|0.071
82371615|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.12|||<|0.001|TWO_SIDED|95.0|6.55|23.69|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.69|6.55|<0.001
82644758|NCT00602641|165004365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204|TWO_SIDED||||||Fisher Exact|||||||0.204
82371616|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371617|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371618|NCT02912650|164449902|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371619|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.16||||0.156|TWO_SIDED|95.0|-0.44|2.75|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.75|-0.44|0.156
82371620|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.16||||0.155|TWO_SIDED|95.0|-0.44|2.76|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||2.76|-0.44|0.155
82371621|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.68||||0.605|TWO_SIDED|95.0|-3.27|1.9|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||1.90|-3.27|0.605
82397033|NCT02440854|164504955|OTHER||||||<|0.001|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||<0.001
82397034|NCT02440854|164504955|OTHER|||||||0.006|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||0.006
82397035|NCT02440854|164504955|OTHER|||||||0.344|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||0.344
82397036|NCT02440854|164504955|OTHER|||||||0.146|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.146
82644759|NCT00602641|165004366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
82371622|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.84||||0.079|TWO_SIDED|95.0|-0.21|3.89|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||3.89|-0.21|0.079
82371623|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-1.85||||0.078|TWO_SIDED|95.0|-3.9|0.21|||Cochran-Mantel-Haenszel|||0.25 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||0.21|-3.90|0.078
82397037|NCT02440854|164504955|OTHER|||||||0.18|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||0.180
82529506|NCT01976364|164755666|OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-1.1|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-1.1|
82529507|NCT01976364|164755666|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.6|1.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.1|-0.6|
82529508|NCT01976364|164755666|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.6|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-0.6|
82529509|NCT01976364|164755668|OTHER||Difference in percentage of participants|11.67|||||TWO_SIDED|95.0|-15.65|38.98||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||38.98|-15.65|
82529510|NCT01976364|164755668|OTHER||Difference in percentage of participants|30.42|||||TWO_SIDED|95.0|0.64|60.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||60.20|0.64|
82529511|NCT01976364|164755668|OTHER||Difference in percentage of participants|29.58|||||TWO_SIDED|95.0|-3.46|62.62||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||62.62|-3.46|
82529512|NCT01976364|164755668|OTHER||Difference in percentage of participants|24.17|||||TWO_SIDED|95.0|-5.14|53.47||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||53.47|-5.14|
82529513|NCT01976364|164755668|OTHER||Difference in percentage of participants|17.08|||||TWO_SIDED|95.0|-15.96|50.12||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||50.12|-15.96|
82529514|NCT01976364|164755669|OTHER||Difference in percentage of participants|4.99|||||TWO_SIDED|95.0|-9.61|19.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 1: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||19.60|-9.61|
82529515|NCT01976364|164755669|OTHER||Difference in percentage of participants|3.88|||||TWO_SIDED|95.0|-10.74|18.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 3: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||18.50|-10.74|
82529516|NCT01976364|164755669|OTHER||Difference in percentage of participants|2.82|||||TWO_SIDED|95.0|-11.8|17.45||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 6: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||17.45|-11.80|
82529517|NCT01976364|164755669|OTHER||Difference in percentage of participants|3.97|||||TWO_SIDED|95.0|-10.58|18.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 9: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||18.52|-10.58|
82529518|NCT01976364|164755669|OTHER||Difference in percentage of participants|2.87|||||TWO_SIDED|95.0|-11.63|17.37||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Month 12: Two-sided 95% CI was based on the normal approximation for the difference in binomial proportions.||17.37|-11.63|
82529519|NCT01976364|164755670|OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-1.5|
82529520|NCT01976364|164755670|OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.6|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-1.6|
82529521|NCT01976364|164755670|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-1.0|
82529522|NCT01976364|164755670|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.9|-0.9|
82529523|NCT01976364|164755670|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.7|1.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.1|-0.7|
82529524|NCT01976364|164755671|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.3|
82444886|NCT00110461|164598584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.55|||<|0.0001|TWO_SIDED|95.0|23.41|51.68|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||51.68|23.41|<0.0001
82644760|NCT03901352|165004372|SUPERIORITY||Difference of LSM vs placebo|-0.71|STANDARD_ERROR_OF_MEAN|0.187||0.0001|TWO_SIDED|95.0|-1.08|-0.34|||ANCOVA||"The multiple imputation (MI) was based on a nonfuture dependence model using the pattern mixture model (PMM) approach with shifting parameters under the missing not at random (MNAR0 mechanism for the missing weekly ADPS."|||-0.34|-1.08|0.0001
82644761|NCT03901339|165004439|OTHER||Hazard Ratio (HR)|0.653||||0.0001|TWO_SIDED|95.0|0.526|0.812||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.812|0.526|0.0001
82644762|NCT03901339|165004440|OTHER||Hazard Ratio (HR)|0.788||||0.0133|TWO_SIDED|95.0|0.652|0.952||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.952|0.652|0.0133
82644763|NCT03901339|165004441|OTHER||Odds Ratio (OR)|1.662||||0.0268|TWO_SIDED|95.0|1.058|2.609|||Cochran-Mantel-Haenszel|||ORR by BICR Assessment||2.609|1.058|0.0268
82644764|NCT03901339|165004441|OTHER||Odds Ratio (OR)|1.989||||0.0098|TWO_SIDED|95.0|1.174|3.369|||Cochran-Mantel-Haenszel|||ORR by LIR Assessment||3.369|1.174|0.0098
82644765|NCT03901339|165004443|OTHER||Odds Ratio (OR)|1.796||||0.0025|TWO_SIDED|95.0|1.227|2.628|||Cochran-Mantel-Haenszel|||CBR by BICR Assessment||2.628|1.227|0.0025
82371624|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|21.47|||<|0.001|TWO_SIDED|95.0|15.33|27.62|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||27.62|15.33|<0.001
82371625|NCT02912650|164449903|SUPERIORITY_OR_OTHER||Cumulative Percentage of Participants wi|7.79||||0.056|TWO_SIDED|95.0|-0.19|15.77|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.77|-0.19|0.056
82644766|NCT03901339|165004443|OTHER||Odds Ratio (OR)|1.834||||0.0024|TWO_SIDED|95.0|1.237|2.717|||Cochran-Mantel-Haenszel|||CBR by LIR Assessment||2.717|1.237|0.0024
82644767|NCT03901339|165004444|OTHER||Hazard Ratio (HR)|0.728||||0.001|TWO_SIDED|95.0|0.602|0.881||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.881|0.602|0.0010
82644768|NCT03901339|165004445|OTHER||Hazard Ratio (HR)|0.751||||0.0059|TWO_SIDED|95.0|0.612|0.922||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.922|0.612|0.0059
82644769|NCT03901339|165004446|OTHER||Hazard Ratio (HR)|0.918||||0.4151|TWO_SIDED|95.0|0.748|1.126||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||1.126|0.748|0.4151
82644770|NCT03901339|165004447|OTHER||Hazard Ratio (HR)|0.732||||0.0021|TWO_SIDED|95.0|0.598|0.894||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: prior chemotherapy regimens for metastatic disease, presence of visceral metastasis, and endocrine therapy in the metastatic setting for at least 6 months.|Log Rank|||||0.894|0.598|0.0021
82644771|NCT04971226|165004460|SUPERIORITY||Risk Difference (RD)|18.88|||<|0.001|TWO_SIDED|95.0|9.59|28.17|||Mantel Haenszel||The Estimate Value is a percentage.||The Confidence Interval are percentages.|28.17|9.59|<0.001
82644772|NCT04971226|165004492|SUPERIORITY||Risk Difference (RD)|29.55|||<|0.001|TWO_SIDED|95.0|16.91|42.18|||Mantel Haenszel||The Estimate Value is a percentage.||The Confidence Interval are percentages.|42.18|16.91|<0.001
82644773|NCT05919823|165004499|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.835||0.0014|TWO_SIDED|95.0|-14.8|-3.6|||Mixed model repeated measure|MMRM includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline.|Numerator=KarXT/KarXT, denominator =Placebo/KarXT|||-3.6|-14.8|0.0014
82644774|NCT05919823|165004500|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.952||0.0474|TWO_SIDED|95.0|-3.8|0.0|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.|Numerator=KarXT/KarXT, denominator =Placebo/KarXT|||0|-3.8|0.0474
82371626|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-0.37||||0.934|TWO_SIDED|95.0|-9.18|8.43|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||8.43|-9.18|0.934
82444887|NCT00110461|164598585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4||||0.0009|TWO_SIDED|95.0|9.57|37.24|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||37.24|9.57|0.0009
82644775|NCT05919823|165004501|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.887||0.0062|TWO_SIDED|95.0|-4.2|-0.7|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.7|-4.2|0.0062
82644776|NCT05919823|165004502|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.906||0.0056|TWO_SIDED|95.0|-4.3|-0.8|||Mixed model for Repeated measures|includes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.8|-4.3|0.0056
82644777|NCT05919823|165004503|SUPERIORITY|Least-squares mean difference|Least-squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.165||0.0208|TWO_SIDED|95.0|-0.7|-0.1|||Mixed model for repeated measures|ncludes PANSS change at Weeks 2-5; fixed effects: treatment, visit, interaction; covariates: site, age, sex, baseline PANSS positive symptom score.||||-0.1|-0.7|0.0208
82644778|NCT05919823|165004504|SUPERIORITY||Percentage difference|15.8||||0.0402|TWO_SIDED|95.0|0.7|29.9|||Chi-squared|||||29.9|0.7|0.0402
82644779|NCT00285012|165004552|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.4|||<|0.0001||95.0|4.99|14.14||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Primary endpoint was based on a CO confirmed 4-week CQR (weeks 4 through 12 inclusive). Intent was to evaluate the alternative hypothesis that varenicline is superior to placebo for smoking cessation after 12 weeks of treatment in subjects with mild to moderate COPD.||14.14|4.99|<0.0001
82644780|NCT00285012|165004553|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.88|||<|0.0001||95.0|2.75|8.65||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline versus (vs) placebo at Week 24||8.65|2.75|<0.0001
82644781|NCT00285012|165004553|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.04|||<|0.0001||95.0|2.13|7.67||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||7.67|2.13|<0.0001
82644782|NCT00285012|165004554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.17|||<|0.0001||95.0|2.96|9.02||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 24||9.02|2.96|<0.0001
82644783|NCT00285012|165004554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.0001||95.0|2.18|7.07||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||7.07|2.18|<0.0001
82371627|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.67|||<|0.001|TWO_SIDED|95.0|8.58|18.77|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.77|8.58|<0.001
82371628|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|21.96|||<|0.001|TWO_SIDED|95.0|15.64|28.28|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||28.28|15.64|<0.001
82371629|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-8.21||||0.05|TWO_SIDED|95.0|-16.4|-0.01|||Cochran-Mantel-Haenszel|||0.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||-0.01|-16.40|0.050
82371630|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|55.89|||<|0.001|TWO_SIDED|95.0|47.05|64.73|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.73|47.05|<0.001
82371631|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|12.99||||0.015|TWO_SIDED|95.0|2.5|23.49|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.49|2.50|0.015
82397038|NCT02440854|164504955|OTHER|||||||0.289|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||0.289
82397039|NCT02440854|164504955|OTHER|||||||0.125|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||0.125
82397040|NCT02440854|164504955|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
82397041|NCT02440854|164504955|OTHER|||||||0.5|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||0.500
82397042|NCT02440854|164504956|OTHER|||||||0.21|||||||McNemar|||Shift in patient distribution between baseline and Month 2 post-baseline, according to problems/no problems.||||0.210
82397043|NCT02440854|164504956|OTHER|||||||0.263|||||||McNemar|||Shift in patient distribution between baseline and Month 4 post-baseline, according to problems/no problems.||||0.263
82397044|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 6 post-baseline, according to problems/no problems.||||>0.999
82397045|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 8 post-baseline, according to problems/no problems.||||>0.999
82397046|NCT02440854|164504956|OTHER|||||||0.629|||||||McNemar|||Shift in patient distribution between baseline and Month 10 post-baseline, according to problems/no problems.||||0.629
82397047|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 12 post-baseline, according to problems/no problems.||||>0.999
82397048|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 18 post-baseline, according to problems/no problems.||||>0.999
82397049|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 24 post-baseline, according to problems/no problems.||||>0.999
82397050|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 30 post-baseline, according to problems/no problems.||||>0.999
82397051|NCT02440854|164504956|OTHER||||||>|0.999|||||||McNemar|||Shift in patient distribution between baseline and Month 36 post-baseline, according to problems/no problems.||||>0.999
82644784|NCT00285012|165004555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.99|||<|0.0001||95.0|4.39|11.11||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 12||11.11|4.39|<0.0001
82644785|NCT00285012|165004555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001||95.0|1.79|4.54|||Regression, Logistic|p-value obtained from a logistic regression model including the main effects of treatment and pooled center|odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 24||4.54|1.79|<0.0001
82644786|NCT00285012|165004555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0008||95.0|1.37|3.48||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||3.48|1.37|0.0008
82371632|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.16||||0.188|TWO_SIDED|95.0|-3.51|17.82|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.82|-3.51|0.188
82371633|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.61|||<|0.001|TWO_SIDED|95.0|33.85|51.38|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||51.38|33.85|<0.001
82371634|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|48.58|||<|0.001|TWO_SIDED|95.0|39.63|57.54|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.54|39.63|<0.001
82371635|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-5.98||||0.266|TWO_SIDED|95.0|-16.51|4.55|||Cochran-Mantel-Haenszel|||1 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||4.55|-16.51|0.266
82371636|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|59.77|||<|0.001|TWO_SIDED|95.0|49.63|69.9|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.90|49.63|<0.001
82371637|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.62||||0.094|TWO_SIDED|95.0|-1.46|18.69|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.69|-1.46|0.094
82371638|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.43||||0.047|TWO_SIDED|95.0|0.15|20.72|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||20.72|0.15|0.047
82371639|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.95|||<|0.001|TWO_SIDED|95.0|40.5|61.4|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||61.40|40.50|<0.001
82397052|NCT02440854|164504957|OTHER|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 2-month post-baseline.||||0.098
82644787|NCT00285012|165004556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.0002||95.0|1.52|3.95||p-value obtained from a logistic regression model including the main effects of treatment and pooled center|Regression, Logistic||odds ratio obtained from a logistic regression model including the main effects of treatment and pooled center|Varenicline vs placebo at Week 52||3.95|1.52|0.0002
82644788|NCT00285012|165004557|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 12 \[LOCF\] pre-bronchodilator||||0.140
82371640|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|49.34|||<|0.001|TWO_SIDED|95.0|38.79|59.89|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||59.89|38.79|<0.001
82371641|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.79||||0.734|TWO_SIDED|95.0|-8.56|12.14|||Cochran-Mantel-Haenszel|||1.5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||12.14|-8.56|0.734
82371642|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.46|||<|0.001|TWO_SIDED|95.0|46.88|70.03|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||70.03|46.88|<0.001
82371643|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.01||||0.152|TWO_SIDED|95.0|-2.57|16.59|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.59|-2.57|0.152
82397053|NCT02440854|164504957|OTHER|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 4-month post-baseline.||||0.359
82397054|NCT02440854|164504957|OTHER|||||||0.393|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 6-month post-baseline.||||0.393
82397055|NCT02440854|164504957|OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 8-month post-baseline.||||0.055
82397056|NCT02440854|164504957|OTHER|||||||0.124|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 10-month post-baseline.||||0.124
82397057|NCT02440854|164504957|OTHER|||||||0.376|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 12-month post-baseline.||||0.376
82397058|NCT02440854|164504957|OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 18-month post-baseline.||||0.033
82397059|NCT02440854|164504957|OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 24-month post-baseline.||||0.048
82397060|NCT02440854|164504957|OTHER|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 30-month post-baseline.||||0.071
82397061|NCT02440854|164504957|OTHER|||||||0.848|||||||Wilcoxon (Mann-Whitney)|||Baseline vs 36-month post-baseline.||||0.848
82397062|NCT02243046|164504982|SUPERIORITY_OR_OTHER|||||||0.091|||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.091
82397063|NCT02243046|164504983|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82397064|NCT02243046|164504984|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
82397065|NCT02243046|164504985|SUPERIORITY_OR_OTHER|||||||0.571|||||||ANOVA|||The null hypothesis states that there is no difference between groups||||0.571
82397066|NCT02243046|164504986|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
82397067|NCT02243046|164504987|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||The null hypothesis states that there is no difference between groups||||< 0.001
82444888|NCT00110461|164598585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.96|||<|0.0001|TWO_SIDED|95.0|15.05|42.87|||Chi-squared|||Analyzed using a Chi-square test. Ninety five percent confidence intervals for difference in the responder rates are derived from the normal approximation to binomial.||42.87|15.05|<0.0001
82644789|NCT00285012|165004557|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 12 \[LOCF\] post-bronchodilator||||0.007
82644790|NCT00285012|165004557|SUPERIORITY_OR_OTHER|||||||0.684||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 52 \[LOCF\] pre-bronchodilator||||0.684
82644791|NCT00285012|165004557|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||ANCOVA|p-value based on ANCOVA model with treatment and center as factors and baseline value as covariate.||Varenicline vs placebo at Week 52 \[LOCF\] post-bronchodilator||||0.901
82397068|NCT04607980|164504988|EQUIVALENCE|Clinical equivalence of the primary endpoint was evaluated by comparing the 2-sided 95% confidence interval (CI) of the mean difference of PASI percent improvement from Baseline to Week 12 between ABP 654 versus (vs) ustekinumab with an equivalence margin of (-15, +15).|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-3.16|3.43||||||Multiple imputation was applied for the point estimate and CI of the mean difference between the 2 groups.||3.43|-3.16|
82397069|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using analysis of covariance (ANCOVA) model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.95|||||TWO_SIDED|95.0|-2.05|5.94||||||"Week 4: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||5.94|-2.05|
82397070|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-2.97|3.31||||||"Week 16: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||3.31|-2.97|
82397071|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the initial randomized groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|-1.39|4.07||||||"Week 28: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||4.07|-1.39|
82397072|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|-5.46|7.98||||||"Week 36: Treatment Group A vs Treatment Group B.~Observed data was used."||7.98|-5.46|
82397073|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-3.71|||||TWO_SIDED|95.0|-10.71|3.28||||||"Week 44: Treatment Group A vs Treatment Group B.~Observed data was used."||3.28|-10.71|
82397074|NCT04607980|164504989|EQUIVALENCE|The mean differences and 95% CIs of PASI percent improvement between the dose intensification groups (ABP 654 vs ustekinumab) at other scheduled visits was estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-8.45|7.13||||||"Week 52: Treatment Group A vs Treatment Group B.~Observed data was used."||7.13|-8.45|
82397075|NCT04607980|164504989|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ABP 654/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-1.41|||||TWO_SIDED|95.0|-3.42|0.59||||||"Week 40: ABP 654 vs Ustekinumab.~LOCF imputation was used."||0.59|-3.42|
82397076|NCT04607980|164504989|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ustekinumab/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-3.17|1.48||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||1.48|-3.17|
82444889|NCT00110461|164598586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.66|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.66|-1.29|<0.0001
82644792|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Mental State||||0.078
82644793|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Mental State||||0.109
82644794|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Mental State||||0.281
82644795|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Functional State||||0.581
82644796|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Functional State||||0.290
82644797|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Functional State||||0.063
82644798|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Respiratory Symptoms||||0.002
82644799|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.081||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Respiratory Symptoms||||0.081
82371644|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.0||||0.073|TWO_SIDED|95.0|-0.83|19.82|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||19.82|-0.83|0.073
82371645|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.3|||<|0.001|TWO_SIDED|95.0|39.38|63.21|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||63.21|39.38|<0.001
82371646|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|49.49|||<|0.001|TWO_SIDED|95.0|37.5|61.47|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||61.47|37.50|<0.001
82371647|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.99||||0.694|TWO_SIDED|95.0|-7.91|11.89|||Cochran-Mantel-Haenszel|||2 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||11.89|-7.91|0.694
82371648|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.61|||<|0.001|TWO_SIDED|95.0|48.37|72.84|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.84|48.37|<0.001
82444890|NCT00110461|164598586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.39|-0.7|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.70|-1.39|<0.0001
82371649|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.58||||0.135|TWO_SIDED|95.0|-2.05|15.2|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||15.20|-2.05|0.135
82644800|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Respiratory Symptoms||||0.016
82644801|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 12 Total Score||||0.033
82644802|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 24 Total Score||||0.078
82644803|NCT00285012|165004558|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|p-value obtained from ANCOVA model with fixed effect terms for center and treatment, and baseline score as a covariate.||Week 52 Total Score||||0.023
82644804|NCT05631093|165004624|NON_INFERIORITY|Doravirine/Islatravir (DOR/ISL) - Baseline Antiretroviral Therapy (ART). Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 4 percentage points.|Estimated difference|-3.58|||<|0.001|TWO_SIDED|95.0|-7.81|-0.77|||Miettinen and Nurminen|The Miettinen and Nurminen method was stratified by corrected baseline ART regimen with Cochran-Mantel-Haenszel (CMH) weights.||||-0.77|-7.81|<0.001
82644805|NCT05631093|165004625|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-4.3|||||TWO_SIDED|95.0|-10.7|2.8|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||2.8|-10.7|
82644806|NCT05631093|165004626|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-1.6||||||95.0|-4.9|0.2|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||0.2|-4.9|
82644807|NCT05631093|165004627|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|-0.08||||||95.0|-3.49|4.21|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||4.21|-3.49|
82644808|NCT05631093|165004628|OTHER|Difference in percentage versus Baseline Antiretroviral Therapy (ART). Type of statistical test 'other' denotes no hypothesis testing was conducted.|Estimated difference|3.75||||||95.0|-0.31|8.89|||||Difference in percentage versus (vs) Baseline ART was based on Miettinen \& Nurminen method.|||8.89|-0.31|
82644809|NCT05631093|165004635|OTHER|Difference in mean change from baseline versus Baseline Antiretroviral Therapy (ART)|Estimated difference|-15.43||||||95.0|-46.32|15.47|||||Difference in percentage versus (vs) Baseline ART was based on a cDLA model.|||15.47|-46.32|
82397077|NCT04607980|164504989|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ABP 654/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.56|||||TWO_SIDED|95.0|-3.29|2.17||||||"Week 52: ABP 654 vs Ustekinumab.~LOCF imputation was used."||2.17|-3.29|
82644810|NCT05631093|165004641|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|-2.21||||0.834|TWO_SIDED|95.0|-24.91|20.49|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|PI-containing regimens (including PI- + InSTI-containing regimens)||20.49|-24.91|0.8340
82644811|NCT05631093|165004641|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.44||||0.425|TWO_SIDED|95.0|-5.08|11.97|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|non-PI- and non-InSTI-containing regimens||11.97|-5.08|0.4250
82397078|NCT04607980|164504989|EQUIVALENCE|The differences for the mean percent change from baseline and the corresponding CIs were for ustekinumab/ABP 654 minus ustekinumab/ustekinumab. Estimated using ANCOVA model adjusted for baseline PASI value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.46|3.86||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||3.86|-2.46|
82397079|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.2|||||TWO_SIDED|95.0|-4.02|6.42||||||"Week 4: Treatment Group A vs Treatment Group B.~NRI was used."||6.42|-4.02|
82397080|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-0.32|||||TWO_SIDED|95.0|-7.87|7.23||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||7.23|-7.87|
82397081|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|0.82|||||TWO_SIDED|95.0|-5.75|7.37||||||"Week 16: Treatment Group A vs Treatment Group B.~NRI was used."||7.37|-5.75|
82397082|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.75|||||TWO_SIDED|95.0|-2.37|9.84||||||"Week 28: Treatment Group A vs Treatment Group B.~NRI was used."||9.84|-2.37|
82397083|NCT04607980|164504990|EQUIVALENCE|Response difference in dose intensification participants (ABP 654 - ustekinumab) was estimated by the generalized linear model adjusted for the baseline PASI and the stratification factors with an identity link was used to obtain the point estimate and 95% CI for the risk difference of PASI 75 response rate at each scheduled timepoint.|Response difference|-3.19|||||TWO_SIDED|95.0|-28.15|21.76||||||"Week 36: Treatment Group A vs Treatment Group B.~Observed data was used."||21.76|-28.15|
82529525|NCT01976364|164755671|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.6|0.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.6|-0.6|
82529526|NCT01976364|164755671|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.4|0.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.5|-0.4|
82397084|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.1|||||TWO_SIDED|95.0|-3.74|7.54||||||"Week 40: ABP 654 vs Ustekinumab.~NRI was used."||7.54|-3.74|
82397085|NCT04607980|164504990|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.85|||||TWO_SIDED|95.0|-4.89|8.39||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||8.39|-4.89|
82397086|NCT04607980|164504990|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-2.75|||||TWO_SIDED|95.0|-8.61|4.41||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||4.41|-8.61|
82397087|NCT04607980|164504990|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|0.14|||||TWO_SIDED|95.0|-7.32|7.43||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||7.43|-7.32|
82444891|NCT00110461|164598587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||0.002|TWO_SIDED|95.0|-1.04|-0.24|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.24|-1.04|0.0020
82529527|NCT01976364|164755671|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-0.3|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-0.3|
82397088|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-0.34|||||TWO_SIDED|95.0|-3.16|3.21||||||"Week 4: Treatment Group A vs Treatment Group B.~NRI was used."||3.21|-3.16|
82529528|NCT01976364|164755671|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.3|-0.5|
82644812|NCT05631093|165004641|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.72||||0.1618||95.0|-1.5|8.95|||ANCOVA||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|InSTI-containing regimens (non-PI-containing regimens)||8.95|-1.50|0.1618
82644813|NCT05631093|165004642|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|-7.02|||||TWO_SIDED|95.0|-29.8|15.77|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|PI-containing regimens (including PI- + InSTI-containing regimens)||15.77|-29.80|
82397089|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|1.58|||||TWO_SIDED|95.0|-5.03|8.18||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||8.18|-5.03|
82397090|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.81|||||TWO_SIDED|95.0|-3.62|11.17||||||"Week 16: Treatment Group A vs Treatment Group B.~NRI was used."||11.17|-3.62|
82397091|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|3.07|||||TWO_SIDED|95.0|-4.68|10.78||||||"Week 28: Treatment Group A vs Treatment Group B.~NRI was used."||10.78|-4.68|
82397092|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-1.93|||||TWO_SIDED|95.0|-12.85|8.89||||||"Week 40: ABP 654 vs Ustekinumab.~NRI was used."||8.89|-12.85|
82444892|NCT00110461|164598587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.0001|TWO_SIDED|95.0|-1.19|-0.41|||Cochran-Mantel-Haenszel|||||-0.41|-1.19|0.0001
82444893|NCT00110461|164598588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.001|TWO_SIDED|95.0|-0.96|-0.26|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.26|-0.96|0.0010
82529529|NCT01976364|164755672|OTHER||LS mean difference|0.26|||||TWO_SIDED|95.0|-2.51|3.02||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.02|-2.51|
82529530|NCT01976364|164755672|OTHER||LS mean difference|0.77|||||TWO_SIDED|95.0|-2.64|4.18||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||4.18|-2.64|
82529531|NCT01976364|164755672|OTHER||LS mean difference|0.47|||||TWO_SIDED|95.0|-2.26|3.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.20|-2.26|
82529532|NCT01976364|164755672|OTHER||LS mean difference|2.18|||||TWO_SIDED|95.0|-1.46|5.81||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.81|-1.46|
82529533|NCT01976364|164755672|OTHER||LS mean difference|-0.12|||||TWO_SIDED|95.0|-3.25|3.01||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.01|-3.25|
82444894|NCT00110461|164598588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0053|TWO_SIDED|95.0|-0.85|-0.16|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.16|-0.85|0.0053
82529534|NCT01976364|164755673|OTHER||LS mean difference|-2.03|||||TWO_SIDED|95.0|-5.58|1.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.52|-5.58|
82529535|NCT01976364|164755673|OTHER||LS mean difference|-0.43|||||TWO_SIDED|95.0|-4.69|3.84||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.84|-4.69|
82529536|NCT01976364|164755673|OTHER||LS mean difference|1.29|||||TWO_SIDED|95.0|-3.48|6.06||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||6.06|-3.48|
82529537|NCT01976364|164755673|OTHER||LS mean difference|0.64|||||TWO_SIDED|95.0|-4.03|5.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.32|-4.03|
82371650|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|14.74||||0.002|TWO_SIDED|95.0|5.5|23.97|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.97|5.50|0.002
82371651|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.82|||<|0.001|TWO_SIDED|95.0|41.31|66.32|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||66.32|41.31|<0.001
82397093|NCT04607980|164504991|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-4.93|||||TWO_SIDED|95.0|-17.39|7.73||||||"Week 40: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||7.73|-17.39|
82397094|NCT04607980|164504991|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|2.55|||||TWO_SIDED|95.0|-8.42|13.3||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||13.30|-8.42|
82397095|NCT04607980|164504991|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-2.41|||||TWO_SIDED|95.0|-14.91|10.19||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~NRI was used."||10.19|-14.91|
82397096|NCT04607980|164504992|EQUIVALENCE|Response difference (ABP 654 - ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|2.55|||||TWO_SIDED|95.0|-5.65|10.71||||||"Week 12: Treatment Group A vs Treatment Group B.~NRI was used."||10.71|-5.65|
82397097|NCT04607980|164504992|EQUIVALENCE|Response difference (ABP 654/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-6.57|||||TWO_SIDED|95.0|-15.41|3.29||||||"Week 52: ABP 654 vs Ustekinumab.~NRI was used."||3.29|-15.41|
82397098|NCT04607980|164504992|EQUIVALENCE|Response difference (ustekinumab/ABP 654 - ustekinumab/ustekinumab) was estimated by the Mantel-Haenszel estimate, and the 95% CIs were estimated by the stratified Newcombe confidence limits, adjusting for actual stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Response difference|-7.46|||||TWO_SIDED|95.0|-18.41|3.74||||||"Week 52: ABP 654/Ustekinumab vs Ustekinumab.~NRI was used."||3.74|-18.41|
82397099|NCT04607980|164504993|EQUIVALENCE|Mean difference estimated for treatment group A and treatment group B using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-1.15|2.1||||||"Week 12: Treatment Group A vs Treatment Group B.~LOCF imputation was used."||2.10|-1.15|
82371652|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|45.93|||<|0.001|TWO_SIDED|95.0|33.21|58.66|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||58.66|33.21|<0.001
82371653|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.18||||0.091|TWO_SIDED|95.0|-1.32|17.69|||Cochran-Mantel-Haenszel|||3 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.69|-1.32|0.091
82397100|NCT04607980|164504993|EQUIVALENCE|Mean difference estimated in dose intensification participants (treatment group A and treatment group B) using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|1.39|||||TWO_SIDED|95.0|-0.9|3.67||||||"Week 52: Treatment Group A vs Treatment Group B.~Observed data was used."||3.67|-0.90|
82397101|NCT04607980|164504993|EQUIVALENCE|Mean difference estimated for ABP 654/ ABP 654 and ustekinumab/ ustekinumab using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|-0.13|||||TWO_SIDED|95.0|-0.99|0.74||||||"Week 52: ABP 654 vs Ustekinumab.~LOCF imputation was used."||0.74|-0.99|
82397102|NCT04607980|164504993|EQUIVALENCE|Mean difference estimated for ustekinumab/ABP 654 and ustekinumab/ ustekinumab using ANCOVA model adjusted for baseline BSA value, and the stratification factors of prior biologic use for psoriasis, baseline BW group, and geographic region.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.9|1.1||||||"Week 52: Ustekinumab/ABP 654 vs Ustekinumab.~LOCF imputation was used."||1.10|-0.90|
82397103|NCT04494425|164505008|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.75|||Log Rank|The analysis was performed using the stratified log-rank test.|HR and CI were calculated using a stratified Cox proportional hazards model, adjusting for prior cyclin-dependent kinase (CDK)4/6 inhibitor use (yes versus no) and HER2 IHC expression (IHC 1+ versus IHC 2+/ISH-) and ties handled by Efron approach.|||0.75|0.52|<0.0001
82397104|NCT02242019|164505045|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82397105|NCT02242019|164505046|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82397106|NCT04575584|164505068|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.562|TWO_SIDED|95.0|0.68|1.45|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.45|0.68|0.5620
82397107|NCT04575584|164505068|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.3145|TWO_SIDED|95.0|0.78|1.65|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.65|0.78|0.3145
82529538|NCT01976364|164755673|OTHER||LS mean difference|-0.13|||||TWO_SIDED|95.0|-4.64|4.38||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||4.38|-4.64|
82529539|NCT01976364|164755674|OTHER||LS mean difference|-1.11|||||TWO_SIDED|95.0|-4.96|2.74||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.74|-4.96|
82529540|NCT01976364|164755674|OTHER||LS mean difference|-1.23|||||TWO_SIDED|95.0|-5.11|2.65||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.65|-5.11|
82529541|NCT01976364|164755674|OTHER||LS mean difference|0.95|||||TWO_SIDED|95.0|-3.78|5.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.69|-3.78|
82529542|NCT01976364|164755674|OTHER||LS mean difference|2.01|||||TWO_SIDED|95.0|-2.92|6.93||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||6.93|-2.92|
82576035|NCT00755417|164861788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|97.5|-0.51|-0.14||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 4.||-0.14|-0.51|<0.0001
82576036|NCT00755417|164861789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0433|TWO_SIDED|97.5|-0.43|0.02||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 12.||0.02|-0.43|0.0433
82644814|NCT05631093|165004642|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|3.99||||||95.0|-5.22|13.21|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|non-PI- and non-InSTI-containing regimens||13.21|-5.22|
82644815|NCT05631093|165004642|SUPERIORITY|Treatment difference versus baseline ART|Estimated Difference|1.02|||||TWO_SIDED|95.0|-6.83|8.87|||||The multiplicity adjusted 95% CIs for treatment difference were calculated from ANCOVA models with terms for baseline measurement and treatment.|InSTI-containing regimens (non-PI-containing regimens)||8.87|-6.83|
82644816|NCT00417859|165004651|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||FB group was designated the control group. We determined a sample size based in clinical criteria. Using an α of 0.05 and β of 0.8, the required sample size was calculated to be 24 patients in each group to achieve a power of 80%. Descriptive analysis was completed on demographic information and clinical and radiological outcomes. Nonparametric tests (Wilcoxon's signed ranks or rank sum tests) were used for comparison of scores. The chi-squared test was used for dichotomous variables.||||0.05
82644817|NCT05734014|165004666|OTHER||||||||||||||||||Qualitative Analysis of arts-based reflections. Thematic analysis and count of whether the participant drew or mentioned Crow stories related to relationality.|||
82576037|NCT00755417|164861789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0468|TWO_SIDED|97.5|-0.42|0.03||Based on the F test of type III analysis.|ANCOVA|Included treatment and center factors and baseline value as a covariate, tested at the pairwise 0.025 level.||Null hypothesis was that there were no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at stable dosing Week 12.||0.03|-0.42|0.0468
82644818|NCT03229941|165004675|SUPERIORITY||Odds Ratio (OR)|0.89||||0.515|TWO_SIDED|95.0|0.62|1.27|||Chi-squared||Liberal vs. restrictive arm comparison.|||1.27|0.62|0.515
82644819|NCT03229941|165004676|SUPERIORITY||Odds Ratio (OR)|1.09||||0.587|TWO_SIDED|99.0|0.73|1.61|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.61|0.73|0.587
82644820|NCT03229941|165004677|SUPERIORITY||Odds Ratio (OR)|0.57||||0.007|TWO_SIDED|99.0|0.33|0.98|||Chi-squared||Liberal vs. Restrictive arm comparison|||0.98|0.33|0.007
82529543|NCT01976364|164755674|OTHER||LS mean difference|0.66|||||TWO_SIDED|95.0|-4.03|5.35||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||5.35|-4.03|
82529544|NCT01976364|164755675|OTHER||LS mean difference|-0.1535|||||TWO_SIDED|95.0|-2.1444|1.8374||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.8374|-2.1444|
82529545|NCT01976364|164755675|OTHER||LS mean difference|-0.566|||||TWO_SIDED|95.0|-1.9054|0.7735||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7735|-1.9054|
82529546|NCT01976364|164755675|OTHER||LS mean difference|-0.7991|||||TWO_SIDED|95.0|-3.0053|1.4071||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.4071|-3.0053|
82529547|NCT01976364|164755675|OTHER||LS mean difference|0.0626|||||TWO_SIDED|95.0|-1.5767|1.7018||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.7018|-1.5767|
82397108|NCT04575584|164505068|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.4894|TWO_SIDED|95.0|0.69|1.47|||Log Rank||Based on Cox regression model with Efron's method of tie handling|||1.47|0.69|0.4894
82397109|NCT04575584|164505071|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1642|TWO_SIDED|95.0|-2.3|12.1|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||12.1|-2.3|0.1642
82397110|NCT04575584|164505071|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.09|TWO_SIDED|95.0|-1.1|13.9|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||13.9|-1.1|0.0900
82397111|NCT04575584|164505071|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.1594|TWO_SIDED|95.0|-2.3|12.3|||Miettinen and Nurminen method||Miettinen and Nurminen method. Unknown Day 29 survival status treated as failure.|||12.3|-2.3|0.1594
82397112|NCT04575584|164505072|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3623|TWO_SIDED|95.0|0.73|2.35|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. Confidence intervals (CIs) are based on Wald Chi-Square Test.|||2.35|0.73|0.3623
82397113|NCT04575584|164505072|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5714|TWO_SIDED|95.0|0.66|2.12|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.12|0.66|0.5714
82397114|NCT04575584|164505072|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9313|TWO_SIDED|95.0|0.54|1.75|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.54|0.9313
82397115|NCT04575584|164505073|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4398|TWO_SIDED|95.0|0.7|2.3|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.30|0.70|0.4398
82529548|NCT01976364|164755675|OTHER||LS mean difference|0.3672|||||TWO_SIDED|95.0|-1.8107|2.545||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.5450|-1.8107|
82529549|NCT01976364|164755676|OTHER||LS mean difference|0.33|||||TWO_SIDED|95.0|-0.85|1.51||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.51|-0.85|
82644821|NCT03229941|165004678|SUPERIORITY||Odds Ratio (OR)|0.93||||0.634|TWO_SIDED|99.0|0.63|1.38|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.38|0.63|0.634
82397116|NCT04575584|164505073|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6277|TWO_SIDED|95.0|0.47|1.57|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.57|0.47|0.6277
82397117|NCT04575584|164505073|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7069|TWO_SIDED|95.0|0.49|1.62|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.62|0.49|0.7069
82397118|NCT04575584|164505074|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2422|TWO_SIDED|95.0|0.77|2.85|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.85|0.77|0.2422
82397119|NCT04575584|164505074|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4789|TWO_SIDED|95.0|0.66|2.44|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.44|0.66|0.4789
82397120|NCT04575584|164505074|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6052|TWO_SIDED|95.0|0.45|1.59|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.59|0.45|0.6052
82397121|NCT04575584|164505075|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2644|TWO_SIDED|95.0|0.75|2.88|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.75|0.2644
82397122|NCT04575584|164505075|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2184|TWO_SIDED|95.0|0.77|3.14|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.14|0.77|0.2184
82397123|NCT04575584|164505075|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9771|TWO_SIDED|95.0|0.53|1.94|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.94|0.53|0.9771
82397124|NCT04575584|164505076|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9945|TWO_SIDED|95.0|0.46|2.06|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.06|0.46|0.9945
82397125|NCT04575584|164505076|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3227|TWO_SIDED|95.0|0.67|3.37|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.37|0.67|0.3227
82397126|NCT04575584|164505076|SUPERIORITY||Odds Ratio (OR)|0.79||||0.52|TWO_SIDED|95.0|0.39|1.61|||Wald Chi-Square||Based on the proportional odds model with Pulmonary score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.39|0.5200
82529550|NCT01976364|164755676|OTHER||LS mean difference|0.33|||||TWO_SIDED|95.0|-1.04|1.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.69|-1.04|
82529551|NCT01976364|164755676|OTHER||LS mean difference|-0.77|||||TWO_SIDED|95.0|-2.09|0.55||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.55|-2.09|
82529552|NCT01976364|164755676|OTHER||LS mean difference|-0.77|||||TWO_SIDED|95.0|-2.44|0.91||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.91|-2.44|
82529553|NCT01976364|164755676|OTHER||LS mean difference|0.52|||||TWO_SIDED|95.0|-0.96|2.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.00|-0.96|
82529554|NCT01976364|164755677|OTHER||LS mean difference|-0.47|||||TWO_SIDED|95.0|-2.22|1.29||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.29|-2.22|
82529555|NCT01976364|164755677|OTHER||LS mean difference|-0.86|||||TWO_SIDED|95.0|-2.65|0.92||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.92|-2.65|
82529556|NCT01976364|164755677|OTHER||LS mean difference|-0.66|||||TWO_SIDED|95.0|-2.68|1.36||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.36|-2.68|
82576038|NCT02362503|164861791|SUPERIORITY||Mean Difference (Net)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.81|-0.441||Hypothesis test:µfostemsavir=µPlacebo where µ is a common intercept.|ANCOVA||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||-0.441|-0.810|<0.0001
82576039|NCT02362503|164861792|OTHER||Mean Difference (Net)|45.69|||||TWO_SIDED|95.0|32.95|55.45|||||Difference between treatment groups (fostemsavir 600 mg BID-Placebo) and 95% confidence interval using Newcombe method is presented for \>0.5 log10 c/mL.|||55.45|32.95|
82644822|NCT03229941|165004679|SUPERIORITY||Odds Ratio (OR)|0.75||||0.212|TWO_SIDED|99.0|0.41|1.37|||Chi-squared||Liberal vs. Restrictive arm comparison|||1.37|0.41|0.212
82644823|NCT03229941|165004680|SUPERIORITY|||||||0.786|||||||Wilcoxon (Mann-Whitney)|||||||0.786
82576040|NCT02362503|164861792|OTHER||Mean Difference (Net)|35.67|||||TWO_SIDED|95.0|24.16|44.25|||||Difference between treatment groups (fostemsavir 600 mg BID-Placebo) and 95% confidence interval using Newcombe method is presented for \>1.0 log10 c/mL.|||44.25|24.16|
82576041|NCT02362503|164861798|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-16.8|16.0|||||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||16.0|-16.8|
82576042|NCT02362503|164861799|OTHER||Mean Difference (Net)|0.617|||||TWO_SIDED|95.0|0.082|1.151|||||Difference in covariate-adjusted least squares means between treatment groups (Fostemsavir 600 mg BID-Placebo) is presented.|||1.151|0.082|
82576043|NCT01993849|164861816|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.69|TWO_SIDED|95.0|-3.81|2.59||The p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||||2.59|-3.81|0.69
82644824|NCT00391092|165004681|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0775|TWO_SIDED|95.0|0.65|1.02|||Log Rank (unstratified)|||||1.02|0.65|0.0775
82644825|NCT00391092|165004682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9543|TWO_SIDED|95.0|0.74|1.38|||Log Rank|||||1.38|0.74|0.9543
82644826|NCT00391092|165004683|SUPERIORITY_OR_OTHER||Difference in Response rates|4.43||||0.3492|TWO_SIDED|95.0|-5.2|14.0|||Chi-squared||95% CI for the difference in response rates using Hauck-Anderson method.|||14.0|-5.2|0.3492
82529557|NCT01976364|164755677|OTHER||LS mean difference|0.76|||||TWO_SIDED|95.0|-1.31|2.83||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.83|-1.31|
82529558|NCT01976364|164755677|OTHER||LS mean difference|-0.09|||||TWO_SIDED|95.0|-2.01|1.84||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.84|-2.01|
82529559|NCT01976364|164755678|OTHER||LS mean difference|0.22|||||TWO_SIDED|95.0|-1.09|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-1.09|
82529560|NCT01976364|164755678|OTHER||LS mean difference|0.17|||||TWO_SIDED|95.0|-1.39|1.73||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.73|-1.39|
82529561|NCT01976364|164755678|OTHER||LS mean difference|-0.53|||||TWO_SIDED|95.0|-2.15|1.08||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.08|-2.15|
82529562|NCT01976364|164755678|OTHER||LS mean difference|0.32|||||TWO_SIDED|95.0|-1.49|2.13||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.13|-1.49|
82576044|NCT03443414|164861842|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.139|||<|0.001|TWO_SIDED|95.0|0.069|0.21|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo).||0.210|0.069|<0.001
82644827|NCT00391092|165004684|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.56|0.98||||||||0.98|0.56|
82644828|NCT00391092|165004685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5392|TWO_SIDED|95.0|0.76|1.15|||Log Rank|||||1.15|0.76|0.5392
82371654|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|60.0|||<|0.001|TWO_SIDED|95.0|47.59|72.42|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||72.42|47.59|<0.001
82371655|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.03||||0.159|TWO_SIDED|95.0|-2.36|14.43|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.43|-2.36|0.159
82371656|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.32|||<|0.001|TWO_SIDED|95.0|6.23|24.41|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.41|6.23|<0.001
82371657|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.79|||<|0.001|TWO_SIDED|95.0|41.08|66.5|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||66.50|41.08|<0.001
82371658|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|44.76|||<|0.001|TWO_SIDED|95.0|31.72|57.81|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.81|31.72|<0.001
82371659|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.28||||0.052|TWO_SIDED|95.0|-0.08|18.64|||Cochran-Mantel-Haenszel|||4 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.64|-0.08|0.052
82529563|NCT01976364|164755678|OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-1.89|1.86||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.86|-1.89|
82371660|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.57|||<|0.001|TWO_SIDED|95.0|44.75|70.39|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||70.39|44.75|<0.001
82644829|NCT03610646|165004688|EQUIVALENCE|An equivalence margin of \[-3, 3\] letters was used to demonstrate equivalence for the difference of mean change in BCVA, from baseline to Week 8.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|90.0|-1.16|1.24||||||||1.24|-1.16|
82371661|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.06||||0.147|TWO_SIDED|95.0|-2.13|14.25|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.25|-2.13|0.147
82371662|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.3|||<|0.001|TWO_SIDED|95.0|6.39|24.21|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.21|6.39|<0.001
82371663|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.32|||<|0.001|TWO_SIDED|95.0|38.16|64.48|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.48|38.16|<0.001
82371664|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.28|||<|0.001|TWO_SIDED|95.0|28.74|55.82|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||55.82|28.74|<0.001
82371665|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.27||||0.049|TWO_SIDED|95.0|0.04|18.49|||Cochran-Mantel-Haenszel|||5 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.49|0.04|0.049
82371666|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001|TWO_SIDED|95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
82371667|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
82371668|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.86|||<|0.001|TWO_SIDED|95.0|7.08|24.63|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.63|7.08|<0.001
82371669|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
82529564|NCT01976364|164755679|OTHER||LS mean difference|0.48|||||TWO_SIDED|95.0|-1.08|2.05||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.05|-1.08|
82371670|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.94|||<|0.001|TWO_SIDED|95.0|29.44|56.44|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.44|29.44|<0.001
82371671|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.23||||0.048|TWO_SIDED|95.0|0.06|18.4|||Cochran-Mantel-Haenszel|||6 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.40|0.06|0.048
82371672|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001|TWO_SIDED|95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
82371673|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
82371674|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.86|||<|0.001|TWO_SIDED|95.0|7.08|24.63|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||24.63|7.08|<0.001
82371675|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
82371676|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|42.94|||<|0.001|TWO_SIDED|95.0|29.44|56.44|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.44|29.44|<0.001
82371677|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.23||||0.048|TWO_SIDED|95.0|0.06|18.4|||Cochran-Mantel-Haenszel|||7 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||18.40|0.06|0.048
82397127|NCT04575584|164505077|SUPERIORITY||Odds Ratio (OR)|1.25||||0.4472|TWO_SIDED|95.0|0.7|2.25|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.25|0.70|0.4472
82397128|NCT04575584|164505077|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5714|TWO_SIDED|95.0|0.66|2.12|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.12|0.66|0.5714
82529565|NCT01976364|164755679|OTHER||LS mean difference|1.25|||||TWO_SIDED|95.0|-0.49|2.99||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.99|-0.49|
82371678|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001||95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||71.49|45.93|<0.001
82371679|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores||14.67|-1.38|0.105
82371680|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|15.23|||<|0.001|TWO_SIDED|95.0|6.48|23.97|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||23.97|6.48|<0.001
82371681|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001||95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
82371682|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.61|||<|0.001|TWO_SIDED|95.0|30.15|57.07|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||57.07|30.15|<0.001
82371683|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|8.61||||0.065|TWO_SIDED|95.0|-0.55|17.76|||Cochran-Mantel-Haenszel|||8 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||17.76|-0.55|0.065
82397129|NCT04575584|164505077|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9313|TWO_SIDED|95.0|0.54|1.75|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.54|0.9313
82397130|NCT04575584|164505078|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5222|TWO_SIDED|95.0|0.67|2.21|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.21|0.67|0.5222
82444895|NCT00110461|164598589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.1726|TWO_SIDED|95.0|-0.64|0.11|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||0.11|-0.64|0.1726
82397131|NCT04575584|164505078|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6277|TWO_SIDED|95.0|0.47|1.57|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.57|0.47|0.6277
82397132|NCT04575584|164505078|SUPERIORITY||Odds Ratio (OR)|0.89||||0.7069|TWO_SIDED|95.0|0.49|1.62|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.62|0.49|0.7069
82397133|NCT04575584|164505079|SUPERIORITY||Odds Ratio (OR)|1.46||||0.2627|TWO_SIDED|95.0|0.75|2.8|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.80|0.75|0.2627
82397134|NCT04575584|164505079|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4789|TWO_SIDED|95.0|0.66|2.44|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.44|0.66|0.4789
82397135|NCT04575584|164505079|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5938|TWO_SIDED|95.0|0.45|1.58|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.58|0.45|0.5938
82397136|NCT04575584|164505080|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2644|TWO_SIDED|95.0|0.75|2.88|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.75|0.2644
82397137|NCT04575584|164505080|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2184|TWO_SIDED|95.0|0.77|3.14|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.14|0.77|0.2184
82529566|NCT01976364|164755679|OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.91|2.31||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.31|-0.91|
82397138|NCT04575584|164505080|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9771|TWO_SIDED|95.0|0.53|1.94|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.94|0.53|0.9771
82397139|NCT04575584|164505081|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9445|TWO_SIDED|95.0|0.46|2.06|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.06|0.46|0.9445
82397140|NCT04575584|164505081|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3227|TWO_SIDED|95.0|0.67|3.37|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.37|0.67|0.3227
82397141|NCT04575584|164505081|SUPERIORITY||Odds Ratio (OR)|0.79||||0.52|TWO_SIDED|95.0|0.39|1.61|||Wald Chi-Square||Based on the proportional odds model with Pulmonary+ score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.39|0.5200
82397142|NCT04575584|164505082|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8732|TWO_SIDED|95.0|0.46|2.47|||Wald Chi-Square||Proportional odds model with National Early Warning Score (NEWS) categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.47|0.46|0.8732
82397143|NCT04575584|164505082|SUPERIORITY||Odds Ratio (OR)|0.54||||0.1277|TWO_SIDED|95.0|0.25|1.19|||Wald Chi-square||Proportional odds model with NEWS categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.19|0.25|0.1277
82397144|NCT04575584|164505082|SUPERIORITY||Odds Ratio (OR)|0.73||||0.4326|TWO_SIDED|95.0|0.33|1.61|||Wald Chi-Square||Proportional odds model with NEWS categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.61|0.33|0.4326
82397145|NCT04575584|164505083|SUPERIORITY||Odds Ratio (OR)|1.2||||0.683|TWO_SIDED|95.0|0.5|2.88|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.88|0.50|0.6830
82397146|NCT04575584|164505083|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.42|2.39|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.39|0.42|1.000
82397147|NCT04575584|164505083|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8244|TWO_SIDED|95.0|0.37|2.2|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.20|0.37|0.8244
82397148|NCT04575584|164505084|SUPERIORITY||Odds Ratio (OR)|0.77||||0.5022|TWO_SIDED|95.0|0.36|1.64|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.64|0.36|0.5022
82397149|NCT04575584|164505084|SUPERIORITY||Odds Ratio (OR)|0.78||||0.5204|TWO_SIDED|95.0|0.37|1.64|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.64|0.37|0.5204
82397150|NCT04575584|164505084|SUPERIORITY||Odds Ratio (OR)|0.52||||0.0991|TWO_SIDED|95.0|0.24|1.13|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.13|0.24|0.0991
82644830|NCT04071366|165004699|SUPERIORITY||Difference in CRS rate|-0.39||||0.003|TWO_SIDED|95.0|-0.6463|-0.1363|||One-sided Z-test|||||-0.1363|-0.6463|0.0030
82444896|NCT00110461|164598589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0113|TWO_SIDED|95.0|-0.89|-0.12|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.12|-0.89|0.0113
82444897|NCT00110461|164598590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.67|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.67|-1.31|<0.0001
82529567|NCT01976364|164755679|OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-1.57|1.96||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.96|-1.57|
82444898|NCT00110461|164598590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.39|-0.72|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.72|-1.39|<0.0001
82444899|NCT00110461|164598591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.003|TWO_SIDED|95.0|-1.04|-0.22|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.22|-1.04|0.0030
82529568|NCT01976364|164755679|OTHER||LS mean difference|1.73|||||TWO_SIDED|95.0|-0.06|3.52||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.52|-0.06|
82371684|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.71|||<|0.001||95.0|45.93|71.49|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||71.49|45.93|<0.001
82371685|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.64||||0.105|TWO_SIDED|95.0|-1.38|14.67|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.67|-1.38|0.105
82371686|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
82397151|NCT04575584|164505085|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6346|TWO_SIDED|95.0|0.6|2.29|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.29|0.60|0.6346
82371687|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.9|||<|0.001|TWO_SIDED|95.0|38.76|65.04|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||65.04|38.76|<0.001
82371688|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|44.89|||<|0.001||95.0|31.51|58.26|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||58.26|31.51|<0.001
82371689|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.36||||0.113|TWO_SIDED|95.0|-1.73|16.45|||Cochran-Mantel-Haenszel|||9 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.45|-1.73|0.113
82397152|NCT04575584|164505085|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7596|TWO_SIDED|95.0|0.46|1.75|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.75|0.46|0.7596
82397153|NCT04575584|164505085|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8879|TWO_SIDED|95.0|0.49|1.84|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.84|0.49|0.8879
82444900|NCT00110461|164598591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.0001|TWO_SIDED|95.0|-1.18|-0.4|||Cochran-Mantel-Haenszel|||Analyzed using the Cochran-Mantel-Haenszel row mean score statistic by week.||-0.40|-1.18|0.0001
82444901|NCT01943552|164598606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|154.9|STANDARD_ERROR_OF_MEAN|32.32|<|0.0001|TWO_SIDED|95.0|91.08|218.63|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of FEV1 from pre-bronchodilator at baseline to post-nebulization on treatment day 3 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||218.63|91.08|<0.0001
82444902|NCT01943552|164598607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|51.0|STANDARD_ERROR_OF_MEAN|54.48||0.3509|TWO_SIDED|95.0|-56.55|158.46|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of forced vital capacity (FVC) from pre-bronchodilator at baseline to post-nebulization on treatment day 3 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||158.46|-56.55|0.3509
82529569|NCT01976364|164755680|OTHER||LS mean difference|0.71|||||TWO_SIDED|95.0|-1.01|2.42||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.42|-1.01|
82529570|NCT01976364|164755680|OTHER||LS mean difference|0.34|||||TWO_SIDED|95.0|-1.49|2.18||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.18|-1.49|
82644831|NCT04071366|165004699|OTHER||Difference in CRS rate|-0.37|||||TWO_SIDED|95.0|-0.6073|-0.1231||||||||-0.1231|-0.6073|
82529571|NCT01976364|164755680|OTHER||LS mean difference|-1.81|||||TWO_SIDED|95.0|-3.7|0.09||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.09|-3.70|
82397154|NCT04575584|164505086|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6002|TWO_SIDED|95.0|0.55|2.82|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.82|0.55|0.6002
82397155|NCT04575584|164505086|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4733|TWO_SIDED|95.0|0.58|3.21|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.21|0.58|0.4733
82444903|NCT01943552|164598608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|2.18||0.2069|TWO_SIDED|95.0|-1.54|7.07|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for PaO2 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||7.07|-1.54|0.2069
82529572|NCT01976364|164755680|OTHER||LS mean difference|-1.76|||||TWO_SIDED|95.0|-3.99|0.48||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.48|-3.99|
82529573|NCT01976364|164755680|OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-2.3|1.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.69|-2.30|
82529574|NCT01976364|164755681|OTHER||LS mean difference|-0.68|||||TWO_SIDED|95.0|-2.05|0.69||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.69|-2.05|
82529575|NCT01976364|164755681|OTHER||LS mean difference|-1.13|||||TWO_SIDED|95.0|-2.57|0.31||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.31|-2.57|
82529576|NCT01976364|164755681|OTHER||LS mean difference|-0.81|||||TWO_SIDED|95.0|-2.17|0.56||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.56|-2.17|
82529577|NCT01976364|164755681|OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-1.54|1.57||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.57|-1.54|
82644832|NCT04071366|165004699|OTHER||Difference in CRS rate|0.03|||||TWO_SIDED|95.0|-0.1778|0.2299||||||||0.2299|-0.1778|
82397156|NCT04575584|164505086|SUPERIORITY||Odds Ratio (OR)|0.82||||0.622|TWO_SIDED|95.0|0.38|1.78|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||1.78|0.38|0.6220
82397157|NCT04575584|164505087|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7871|TWO_SIDED|95.0|0.28|2.6|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.60|0.28|0.7871
82529578|NCT01976364|164755681|OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-1.46|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-1.46|
82529579|NCT01976364|164755682|OTHER||LS mean difference|-0.36|||||TWO_SIDED|95.0|-2.06|1.35||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.35|-2.06|
82529580|NCT01976364|164755682|OTHER||LS mean difference|-0.86|||||TWO_SIDED|95.0|-2.51|0.79||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.79|-2.51|
82529581|NCT01976364|164755682|OTHER||LS mean difference|-1.71|||||TWO_SIDED|95.0|-3.66|0.23||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.23|-3.66|
82529582|NCT01976364|164755682|OTHER||LS mean difference|-0.47|||||TWO_SIDED|95.0|-2.25|1.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.32|-2.25|
82529583|NCT01976364|164755682|OTHER||LS mean difference|0.95|||||TWO_SIDED|95.0|-0.82|2.73||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.73|-0.82|
82529584|NCT01976364|164755683|OTHER||LS mean difference|0.78|||||TWO_SIDED|95.0|-1.27|2.82||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.82|-1.27|
82371690|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
82371691|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
82371692|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
82371693|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371694|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371695|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||10 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82576045|NCT03443414|164861842|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.2|||<|0.001|TWO_SIDED|95.0|0.131|0.27|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo).||0.270|0.131|<0.001
82644833|NCT02239692|165004713|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed by examining whether the upper limit of the 95% confidence interval is less than the specified non-inferiority margin of 1.5 points.|Adjusted estimated mean difference|-3.93|||<|0.0001|TWO_SIDED|95.0|-4.99|-2.87||p-value corresponds to a two-sided test of superiority.|ANCOVA|ANCOVA with treatment, country and time of colonoscopy (AM/PM) as factors.|Treatment difference in mean total Ottawa Scale score was calculated as PICOPREP tailored dosing schedule minus PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||-2.87|-4.99|<0.0001
82647983|NCT00386100|165011350|SUPERIORITY_OR_OTHER||Percent difference from metformin|30.211||||0.6403|TWO_SIDED|95.0|-61.586|341.371||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||341.371|-61.586|0.6403
82371696|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
82371697|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
82371698|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
82371699|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371700|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82371701|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||11 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371702|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|56.94|||<|0.001|TWO_SIDED|95.0|43.95|69.94|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||69.94|43.95|<0.001
82371703|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|6.07||||0.136|TWO_SIDED|95.0|-1.91|14.05|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||14.05|-1.91|0.136
82371704|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.98||||0.002|TWO_SIDED|95.0|5.3|22.67|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||22.67|5.30|0.002
82644834|NCT02239692|165004714|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed by examining whether the upper limit of the 95% confidence interval is less than the specified non-inferiority margin of 1.5 points.|Adjusted estimated mean difference|-4.38|||<|0.0001|TWO_SIDED|95.0|-5.34|-3.41||p-value corresponds to a two-sided test of superiority.|ANCOVA|ANCOVA with treatment, country and time of colonoscopy (AM/PM) as factors.|Treatment difference in mean total Ottawa Scale score was calculated as PICOPREP tailored dosing schedule minus PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||-3.41|-5.34|<0.0001
82644835|NCT02239692|165004715|SUPERIORITY_OR_OTHER||Adjusted estimated odds ratio|9.18|||<|0.0001|TWO_SIDED|95.0|4.36|19.32||p-value corresponds to a two-sided test of superiority.|Regression, Logistic|Logistic regression with the failure/success status as dependent variable, and treatment, country and timing of colonoscopy as factors.|The estimated odds ratio compares the odds of being a responder in the PICOPREP tailored dosing schedule vs. the PICOPREP day-before dosing schedule.|Null hypothesis was no treatment difference between the two dosing schedules.||19.32|4.36|<0.0001
82644836|NCT00858234|165004721|OTHER|Accumulation Ratio (Day 11 AUC0-24hr/Day 1 AUC0-24hr)|Accumulation ratio|1.08|||||TWO_SIDED|90.0|0.8|1.45|||||Back-transformed least squares mean difference and 90% confidence interval from mixed effects model performed on natural log-transformed values.|||1.45|0.80|
82644837|NCT04256759|165004851|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||Week 12||||0.018
82371705|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.74|||<|0.001|TWO_SIDED|95.0|37.39|64.09|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||64.09|37.39|<0.001
82371706|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|43.16|||<|0.001|TWO_SIDED|95.0|29.56|56.75|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||56.75|29.56|<0.001
82644838|NCT04256759|165004851|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||Week 18||||0.021
82371707|NCT02912650|164449903|SUPERIORITY_OR_OTHER||CMH adjusted proportions|7.91||||0.087|TWO_SIDED|95.0|-1.15|16.97|||Cochran-Mantel-Haenszel|||12 hour: Treatment difference and its associated 95% CI were calculated based on CMH adjusted proportions and the corresponding standard errors, controlling for baseline categorical PSR and gender using table scores.||16.97|-1.15|0.087
82371708|NCT02912650|164449904|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
82371709|NCT02912650|164449904|SUPERIORITY_OR_OTHER|||||||0.004|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||0.004
82371710|NCT02912650|164449904|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
82397158|NCT04575584|164505087|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9598|TWO_SIDED|95.0|0.31|3.06|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||3.06|0.31|0.9598
82444904|NCT01943552|164598609|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1899|TWO_SIDED|95.0|-0.19|0.93|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for Oxygen saturation between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||0.93|-0.19|0.1899
82529585|NCT01976364|164755683|OTHER||LS mean difference|-0.38|||||TWO_SIDED|95.0|-2.46|1.71||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.71|-2.46|
82371711|NCT02912650|164449904|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
82644839|NCT04256759|165004852|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82644840|NCT04256759|165004853|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82371712|NCT02912650|164449904|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||<0.001
82371713|NCT02912650|164449904|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||p-value was calculated from CMH test with modified ridit scores, controlling for baseline categorical PSR and gender.||||0.003
82371714|NCT01791153|164449907|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|42.0|||<|0.0001|TWO_SIDED|99.5|18.0|66.0|||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (less than or equal to \[\</=\] 30 mg/day, greater than \[\>\] 30 mg/day).||66.00|18.00|<0.0001
82371715|NCT01791153|164449907|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|39.06|||<|0.0001|TWO_SIDED|99.5|12.46|65.66|||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||65.66|12.46|< 0.0001
82371716|NCT01791153|164449908|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||||< 0.0001
82397159|NCT04575584|164505087|SUPERIORITY||Odds Ratio (OR)|0.79||||0.667|TWO_SIDED|95.0|0.27|2.31|||Wald Chi-Square||Based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|||2.31|0.27|0.6670
82397160|NCT04847232|164505101|OTHER|Test of HR = 1|Hazard Ratio (HR)|0.98||||0.867|TWO_SIDED|95.0|0.76|1.26|||Regression, Cox||SZC relative to Placebo|||1.26|0.76|0.867
82397161|NCT04847232|164505102|OTHER|Test of OR = 1|Odds Ratio (OR)|3.36|||<|0.0001|TWO_SIDED|95.0|2.64|4.26|||Regression, Logistic||SZC relative to Placebo|||4.26|2.64|<.0001
82444905|NCT01943552|164598610|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.57||0.4758|TWO_SIDED|95.0|-0.72|1.55|||ANCOVA||The Mean Difference; nebulized ipratropium minus placebo was estimated by the difference of their adjusted means.|The analysis of covariance (ANCOVA) method was used to compare the change of blood gas analyses from pre-bronchodilator at baseline to post-nebulization on treatment day 3 for PaCO2 between the active arm and the placebo arm, with baseline value as covariate and two stratification factors based on acute bronchodilator responsiveness at baseline and age as main effects.||1.55|-0.72|0.4758
82444906|NCT01943552|164598611|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel Test Statistic|1.82||||0.1779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||For main post-operative pulmonary complications, the Cochran-Mantel-Haenszel analysis was performed on the SCS. Mantel-Haenszel test with strata based on acute bronchodilator responsiveness at baseline and age was used to compare the number of patients with main post-operative pulmonary complications between the two arms.||||0.1779
82529586|NCT01976364|164755683|OTHER||LS mean difference|-0.57|||||TWO_SIDED|95.0|-2.72|1.57||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.57|-2.72|
82529587|NCT01976364|164755683|OTHER||LS mean difference|0.28|||||TWO_SIDED|95.0|-1.81|2.36||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.36|-1.81|
82529588|NCT01976364|164755683|OTHER||LS mean difference|0.53|||||TWO_SIDED|95.0|-1.58|2.63||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.63|-1.58|
82529589|NCT01976364|164755684|OTHER||LS mean difference|-1.67|||||TWO_SIDED|95.0|-3.67|0.32||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.32|-3.67|
82529590|NCT01976364|164755684|OTHER||LS mean difference|-0.61|||||TWO_SIDED|95.0|-2.86|1.63||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.63|-2.86|
82644841|NCT03809000|165004854|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0671|TWO_SIDED|80.0|0.61|0.96|||Log Rank|One-sided significance level = 0.10|Reference level = standard ADT|After protocol amendments, the 3-year PFS rate of the standard arm was expected to be 24%. Assuming a hazard ratio of 0.65 (treatment/control) results in a hypothesized 3-year PFS rate of 39.5% on the enhanced ADT arm. A one-sided log-rank test with alpha=0.10 at 80% statistical power was calculated to require 101 events from 170 patients, taking into account expected accrual rate and follow-up time.||0.96|0.61|0.0671
82644842|NCT03809000|165004855|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.116|TWO_SIDED|95.0|0.53|1.07|||Gray's||Reference level = SRT + Standard ADT|||1.07|0.53|0.1160
82644843|NCT03809000|165004856|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.1618|TWO_SIDED|95.0|0.5|1.12|||Gray's||Reference level = SRT + Standard ADT|||1.12|0.50|0.1618
82397162|NCT04847232|164505103|OTHER|Test of HR = 1|Hazard Ratio (HR)|1.12||||0.51|TWO_SIDED|95.0|0.8|1.56|||Regression, Cox||SZC relative to Placebo|||1.56|0.80|0.510
82397163|NCT04401202|164505145|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82397164|NCT01006590|164505163|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.26|TWO_SIDED|95.0|-0.26|0.07|||ANCOVA|With baseline value as covariate and treatment group as factor; comparison of LSmeans for treatment||The null hypothesis H0: µt-µC=0, where μT denotes the mean absolute change in HbA1c from baseline to Week 24 in the group of patients treated with saxagliptin (test medication, T) and μC the mean absolute change in HbA1c from baseline to Week 24 in the group of patients with uptitration of metformin (comparator, C) A sample size of 120 randomized and treated patients per treatment group yielded 80% power under the assumption of a true treatment difference of 0.4% and a standard deviation of 1.1%||0.07|-0.26|0.26
82444907|NCT02715726|164598614|SUPERIORITY||LS mean difference|-35.6|||<|0.0001|TWO_SIDED|95.0|-40.6|-30.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-30.7|-40.6|<0.0001
82529591|NCT01976364|164755684|OTHER||LS mean difference|-0.09|||||TWO_SIDED|95.0|-2.27|2.09||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.09|-2.27|
82529592|NCT01976364|164755684|OTHER||LS mean difference|0.73|||||TWO_SIDED|95.0|-1.49|2.95||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.95|-1.49|
82529593|NCT01976364|164755684|OTHER||LS mean difference|-0.79|||||TWO_SIDED|95.0|-3.1|1.53||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.53|-3.10|
82529594|NCT01976364|164755685|OTHER||LS mean difference|0.93|||||TWO_SIDED|95.0|-0.95|2.81||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.81|-0.95|
82529595|NCT01976364|164755685|OTHER||LS mean difference|0.11|||||TWO_SIDED|95.0|-1.72|1.95||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.95|-1.72|
82529596|NCT01976364|164755685|OTHER||LS mean difference|-0.25|||||TWO_SIDED|95.0|-2.4|1.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.90|-2.40|
82371717|NCT01791153|164449908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The tocilizumab group was to be considered as non-inferior to the placebo group if the lower limit of the two-sided 99.5% confidence interval was \>/= -22.5%.|Difference in Response Rates|38.35|||||TWO_SIDED|99.5|17.89|58.81||||||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||58.81|17.89|
82371718|NCT01791153|164449908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||Cochran-Mantel-Haenszel|||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||||0.0002
82371719|NCT01791153|164449908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The tocilizumab group was to be considered as non-inferior to the placebo group if the lower limit of the two-sided 99.5% confidence interval was \>/= -22.5%.|Difference in Response Rates|35.41|||||TWO_SIDED|99.5|10.41|60.41||||||The treatment groups were compared using a Cochran-Mantel-Haenszel model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||60.41|10.41|
82397165|NCT01006590|164505164|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.8|STANDARD_ERROR_OF_MEAN|5.79||0.3202|TWO_SIDED|95.0|-5.6|17.1|||Regression, Logistic|||||17.1|-5.6|0.3202
82397166|NCT01006590|164505165|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|4.58||0.6203|TWO_SIDED|95.0|-6.7|11.3|||Regression, Logistic|||||11.3|-6.7|0.6203
82397167|NCT01006590|164505166|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.23||0.7627|TWO_SIDED|95.0|-0.38|0.52|||ANCOVA|||||0.52|-0.38|0.7627
82397168|NCT01006590|164505167|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.19||0.7701|TWO_SIDED|95.0|-2.0|2.7|||ANCOVA|||||2.7|-2.0|0.7701
82397169|NCT01006590|164505168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|4.34||0.5882|TWO_SIDED|95.0|-6.22|10.93|||ANCOVA|||||10.93|-6.22|0.5882
82644844|NCT03809000|165004861|SUPERIORITY|||||||0.7184|||||||t-test, 2 sided|||||||0.7184
82644845|NCT03809000|165004862|SUPERIORITY|||||||0.5934|||||||t-test, 2 sided|||||||0.5934
82644846|NCT03809000|165004863|SUPERIORITY|||||||0.7129|||||||t-test, 2 sided|||||||0.7129
82371720|NCT01791153|164449909|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|99.0|0.11|0.46|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.46|0.11|<0.0001
82371721|NCT01791153|164449909|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39||||0.0011|TWO_SIDED|99.0|0.18|0.82|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.82|0.18|0.0011
82371722|NCT01791153|164449909|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28||||0.0001|TWO_SIDED|99.0|0.12|0.66|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||0.66|0.12|0.0001
82371723|NCT01791153|164449909|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48||||0.0316|TWO_SIDED|99.0|0.2|1.16|||Cox proportional hazards model|||The treatment groups were compared using a Cox proportional hazards model adjusted for the stratification factor of starting prednisone dose (\</=30 mg/day, \>30 mg/day).||1.16|0.20|0.0316
82397170|NCT00703118|164505220|SUPERIORITY_OR_OTHER||Difference in percentage of response|46.8|||<|0.001|TWO_SIDED|95.0|36.8|56.7||Overall significance level was set at 5% (two-sided). Adjustment of significance level for multiple comparisons was carried out using the Hochberg procedure|Regression, Logistic|Included: treatment, type of prior response (relapser, partial responder, null-responder) and their interaction, and baseline HCV RNA as a covariate|Difference in percentage of response was estimated through the logistic regression model.|Null hypothesis: Assuming a 55% response rate in the groups receiving Treatment T12/PR48, a 29% response rate in the group receiving Treatment Pbo/PR48, a 2-sided continuity corrected Chi-squared test, with an overall significance level of 5% and a 2:2:1 randomization, a sample size of 140 patients receiving Treatment T12/PR48 and 70 patients in receiving Treatment Pbo/PR48 provided a power of approximately 90% to demonstrate a statistically significant difference.||56.7|36.8|<0.001
82397171|NCT00703118|164505220|SUPERIORITY_OR_OTHER||Difference in percentage of response|49.8|||<|0.001|TWO_SIDED|95.0|39.9|59.7||Overall significance level was set at 5% (two-sided). Adjustment of significance level for multiple comparisons was carried out using the Hochberg procedure|Regression, Logistic|Included: treatment, type of prior response (relapser, partial responder, null-responder) and their interaction, and baseline HCV RNA as a covariate|Difference in percentage of response was estimated through the logistic regression model.|Null hypothesis: Assuming a 55% response rate in the groups receiving Treatment T12/PR48 or T12(DS)/PR48, a 29% response rate in the group receiving Treatment Pbo/PR48, a 2-sided continuity corrected Chi-squared test, with an overall significance level of 5% and a 2:2:1 randomization, a sample size of 140 patients receiving Treatment T12(DS)/PR48 and 70 patients in receiving Treatment Pbo/PR48 provided a power of approximately 90% to demonstrate a statistically significant difference.||59.7|39.9|<0.001
82397172|NCT04165135|164505228|OTHER|||||||0.763|||||||Kruskal-Wallis|||Heart zone minutes: Comparison among the age groups was performed by means of a Kruskal-Wallis test.||||0.7630
82397173|NCT04165135|164505228|OTHER|||||||0.0913|||||||Kruskal-Wallis|||Active zone minutes: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0913
82397174|NCT04165135|164505228|OTHER|||||||0.0956|||||||Kruskal-Wallis|||MVPA minutes: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0956
82397175|NCT04165135|164505229|OTHER|||||||0.0649|||||||Kruskal-Wallis|||||||0.0649
82397176|NCT04165135|164505230|OTHER|||||||0.0026|||||||Kruskal-Wallis|||||||0.0026
82397177|NCT04165135|164505231|OTHER|||||||0.9493|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9493
82397178|NCT04165135|164505231|OTHER|||||||0.8305|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.8305
82644847|NCT03809000|165004864|SUPERIORITY|||||||0.006258|||||||t-test, 2 sided|||||||0.006258
82644848|NCT03809000|165004865|SUPERIORITY|||||||0.0263|||||||t-test, 2 sided|||||||0.0263
82371724|NCT01791153|164449910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
82371725|NCT01791153|164449910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
82371726|NCT01791153|164449910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30mg/day, \>30mg/day).||||0.0003
82371727|NCT01791153|164449910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren's test|||The treatment groups were compared using a Van Elteren's test stratified by starting prednisone dose (\<=30 mg/day, \> 30 mg/day).||||<0.0001
82371728|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|0.61||||0.8067|TWO_SIDED|99.0|-5.86|7.07|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||7.07|-5.86|0.8067
82371729|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.44||||0.0252|TWO_SIDED|99.0|-0.69|9.56|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.56|-0.69|0.0252
82529597|NCT01976364|164755685|OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-0.93|3.07||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||3.07|-0.93|
82371730|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-0.56||||0.8374|TWO_SIDED|99.0|-7.64|6.53|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||6.53|-7.64|0.8374
82371731|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|3.27||||0.1468|TWO_SIDED|99.0|-2.59|9.14|||Repeated measures model|||MCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.14|-2.59|0.1468
82371732|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.38||||0.057|TWO_SIDED|99.0|-1.58|10.34|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||10.34|-1.58|0.0570
82371733|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|5.59||||0.0024|TWO_SIDED|99.0|0.86|10.32|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||10.32|0.86|0.0024
82371734|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|3.04||||0.2218|TWO_SIDED|99.0|-3.43|9.51|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.51|-3.43|0.2218
82371735|NCT01791153|164449911|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|4.25||||0.0412|TWO_SIDED|99.0|-1.14|9.64|||Repeated measures model|||PCS: Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||9.64|-1.14|0.0412
82371736|NCT01791153|164449912|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-15.6||||0.0312|TWO_SIDED|99.0|-34.3|3.1|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||3.1|-34.3|0.0312
82371737|NCT01791153|164449912|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-11.8||||0.0476|TWO_SIDED|99.0|-27.2|3.6|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||3.6|-27.2|0.0476
82371738|NCT01791153|164449912|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-21.9||||0.0059|TWO_SIDED|99.0|-42.4|-1.4|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||-1.4|-42.4|0.0059
82371739|NCT01791153|164449912|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Square Means|-18.2||||0.0081|TWO_SIDED|99.0|-35.8|-0.5|||Repeated measures model|||Change at Week 52: Repeated measures model used for analysis included the following covariates and interactions: treatment, starting prednisone dose (\<=30mg/day, \>30mg/day), visit, treatment-by-visit interaction, starting dose-by-visit interaction, baseline score and baseline score-by-visit interaction.||-0.5|-35.8|0.0081
82644849|NCT03809000|165004866|SUPERIORITY|||||||0.4599|||||||t-test, 2 sided|||||||0.4599
82644850|NCT03809000|165004868|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3138|TWO_SIDED|95.0|0.62|4.41|||Regression, Logistic||Reference level = SRT + Standard ADT|||4.41|0.62|0.3138
82371740|NCT04135196|164449948|OTHER|||||||0.119|||||||Regression, Linear|||"The power analysis for the overall study was based on 12-month change in UD iBMC. The power calculation, based on pilot data, determined that 20 participants per group would have 80% power to detect a 1.0±1.1% change.~The null hypothesis was that change in UD iBMC was not proportional to strain magnitude. Raw change in iBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group."|"Overall model fit: R\^2=0.101, F=2.244, df1=2, df2=40, p=0.119~Contrast between the low strain magnitude group and the control group: B=0.015, Std. Error of estimate of B=0.007, Beta=0.374, t=2.114, p=0.041, 95% CI of B: \[0.001, 0.030\]~Contrast between the high strain magnitude group and the control group: B=0.009, Std. Error of estimate of B=0.007, Beta=0.221, t=1.247, p=0.220, 95% CI of B: \[-0.005, 0.022\]"|||0.119
82371741|NCT04135196|164449948|OTHER||||||<|0.01|||||||Regression, Linear|||The null hypothesis was that change in UD iBMC was not proportional to strain rate. Raw change in iBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.438, F=12.836, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.036, Std. Error of estimate of B=0.009, Beta=0.599, t=4.050, p=\<0.001, 95% CI of B: \[0.018, 0.055\]~Contrast between the high strain rate group and the control group: B=0.041, Std. Error of estimate of B=0.009, Beta=0.678, t=4.589, p=\<0.001, 95% CI of B: \[0.023, 0.060\]"|||<0.01
82371742|NCT04135196|164449949|OTHER|||||||0.809|||||||Regression, Linear|||The null hypothesis was that change in UD cBMC was not proportional to strain magnitude. Raw change in cBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.011, F=0.213, df1=2, df2=40, p=0.809~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.006, Beta=0.039, t=0.209, p=0.836, 95% CI of B: \[-0.012, 0.014\]~Contrast between the high strain magnitude group and the control group: B=-0.002, Std. Error of estimate of B=0.006, Beta=-0.077, t=-0.412, p=0.682, 95% CI of B: \[-0.015, 0.010\]"|||0.809
82371743|NCT04135196|164449949|OTHER|||||||0.155|||||||Regression, Linear|||The null hypothesis was that change in UD cBMC was not proportional to strain rate. Raw change in cBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.107, F=1.971, df1=2, df2=33, p=0.155~Contrast between the low strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.008, Beta=0.284, t=1.526, p=0.137, 95% CI of B: \[-0.004, 0.027\]~Contrast between the high strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.008, Beta=0.342, t=1.837, p=0.075, 95% CI of B: \[-0.002, 0.030\]"|||0.155
82371744|NCT04135196|164449950|OTHER|||||||0.991|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMC was not proportional to strain magnitude. Raw change in ecBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=\<0.001, F=0.009, df1=2, df2=40, p=0.991~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.009, Beta=0.025, t=0.133, p=0.894, 95% CI of B: \[-0.016, 0.018\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.008, Beta=0.012, t=0.063, p=0.950, 95% CI of B: \[-0.016, 0.017\]"|||0.991
82371745|NCT04135196|164449950|OTHER|||||||0.018|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMC was not proportional to strain rate. Raw change in ecBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.216, F=4.548, df1=2, df2=33, p=0.018~Contrast between the low strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.011, Beta=0.455, t=2.607, p=0.014, 95% CI of B: \[0.006, 0.052\]~Contrast between the high strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.011, Beta=0.447, t=2.563, p=0.015, 95% CI of B: \[0.006, 0.052\]"|||0.018
82371746|NCT04135196|164449951|OTHER|||||||0.153|||||||Regression, Linear|||The null hypothesis was that change in UD tBMC was not proportional to strain magnitude. Raw change in tBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.090, F=1.968, df1=2, df2=40, p=0.153~Contrast between the low strain magnitude group and the control group: B=0.007, Std. Error of estimate of B=0.003, Beta=0.352, t=1.973, p=0.055, 95% CI of B: \[0.000, 0.013\]~Contrast between the high strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.003, Beta=0.156, t=0.874, p=0.387, 95% CI of B: \[-0.004, 0.009\]"|||0.153
82371747|NCT04135196|164449951|OTHER|||||||0.001|||||||Regression, Linear|||The null hypothesis was that change in UD tBMC was not proportional to strain rate. Raw change in tBMC was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.331, F=8.152, df1=2, df2=33, p=0.001~Contrast between the low strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.004, Beta=0.473, t=2.930, p=0.006, 95% CI of B: \[0.004, 0.020\]~Contrast between the high strain rate group and the control group: B=0.016, Std. Error of estimate of B=0.004, Beta=0.617, t=3.828, p=0.001, 95% CI of B: \[0.008, 0.025\]"|||0.001
82371748|NCT04135196|164449952|OTHER|||||||0.84|||||||Regression, Linear|||The null hypothesis was that change in UD iBMD was not proportional to strain magnitude. Raw change in iBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.009, F=0.176, df1=2, df2=40, p=0.840~Contrast between the low strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.001, Beta=0.091, t=0.489, p=0.628, 95% CI of B: \[-0.002, 0.003\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.001, Beta=0.101, t=0.544, p=0.589, 95% CI of B: \[-0.002, 0.003\]"|||0.840
82397179|NCT04165135|164505231|OTHER|||||||0.8725|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.8725
82397180|NCT04165135|164505231|OTHER|||||||0.338|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.3380
82397181|NCT04165135|164505231|OTHER|||||||0.9706|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9706
82644851|NCT03809000|165004869|SUPERIORITY|||||||0.0344|||||||Chi-squared|||||||0.0344
82371749|NCT04135196|164449952|OTHER||||||<|0.001|||||||Regression, Linear|||The null hypothesis was that change in UD iBMD was not proportional to strain rate. Raw change in iBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.563, F=21.225, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.009, Std. Error of estimate of B=0.002, Beta=0.739, t=5.669, p=\<0.001, 95% CI of B: \[0.005, 0.012\]~Contrast between the high strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.002, Beta=0.716, t=5.495, p=\<0.001, 95% CI of B: \[0.005, 0.012\]"|||<0.001
82371750|NCT04135196|164449953|OTHER|||||||0.202|||||||Regression, Linear|||The null hypothesis was that change in UD cBMD was not proportional to strain magnitude. Raw change in cBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.077, F=1.665, df1=2, df2=40, p=0.202~Contrast between the low strain magnitude group and the control group: B=-0.005, Std. Error of estimate of B=0.003, Beta=-0.303, t=-1.689, p=0.099, 95% CI of B: \[-0.012, 0.001\]~Contrast between the high strain magnitude group and the control group: B=-0.004, Std. Error of estimate of B=0.003, Beta=-0.266, t=-1.484, p=0.146, 95% CI of B: \[-0.010, 0.002\]"|||0.202
82371751|NCT04135196|164449953|OTHER|||||||0.381|||||||Regression, Linear|||The null hypothesis was that change in UD cBMD was not proportional to strain rate. Raw change in cBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.057, F=0.995, df1=2, df2=33, p=0.381~Contrast between the low strain rate group and the control group: B=0.004, Std. Error of estimate of B=0.003, Beta=0.254, t=1.327, p=0.194, 95% CI of B: \[-0.002, 0.011\]~Contrast between the high strain rate group and the control group: B=0.001, Std. Error of estimate of B=0.003, Beta=0.038, t=0.200, p=0.843, 95% CI of B: \[-0.006, 0.008\]"|||0.381
82371752|NCT04135196|164449954|OTHER|||||||0.697|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMD was not proportional to strain magnitude. Raw change in ecBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.018, F=0.365, df1=2, df2=40, p=0.697~Contrast between the low strain magnitude group and the control group: B=-0.004, Std. Error of estimate of B=0.004, Beta=-0.158, t=-0.854, p=0.398, 95% CI of B: \[-0.012, 0.005\]~Contrast between the high strain magnitude group and the control group: B=-0.002, Std. Error of estimate of B=0.004, Beta=-0.078, t=-0.423, p=0.675, 95% CI of B: \[-0.010, 0.006\]"|||0.697
82371753|NCT04135196|164449954|OTHER|||||||0.018|||||||Regression, Linear|||The null hypothesis was that change in UD ecBMD was not proportional to strain rate. Raw change in ecBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.215, F=4.516, df1=2, df2=33, p=0.018~Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.005, Beta=0.484, t=2.773, p=0.009, 95% CI of B: \[0.004, 0.0524\]~Contrast between the high strain rate group and the control group: B=0.012, Std. Error of estimate of B=0.005, Beta=0.406, t=2.325, p=0.026, 95% CI of B: \[0.001, 0.022\]"|||0.018
82371754|NCT04135196|164449955|OTHER|||||||0.073|||||||Regression, Linear|||The null hypothesis was that change in UD tBMD was not proportional to strain magnitude. Raw change in tBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.123, F=2.799, df1=2, df2=40, p=0.073~Contrast between the low strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.001, Beta=0.413, t=2.361, p=0.023, 95% CI of B: \[0.000, 0.006\]~Contrast between the high strain magnitude group and the control group: B=0.002, Std. Error of estimate of B=0.001, Beta=0.198, t=1.129, p=0.265, 95% CI of B: \[-0.001, 0.004\]"|||0.073
82371755|NCT04135196|164449955|OTHER||||||<|0.001|||||||Regression, Linear|||The null hypothesis was that change in UD tBMD was not proportional to strain rate. Raw change in tBMD was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.480, F=15.256, df1=2, df2=33, p=\<0.001~Contrast between the low strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.002, Beta=0.590, t=4.153, p=\<0.001, 95% CI of B: \[0.004, 0.012\]~Contrast between the high strain rate group and the control group: B=0.001, Std. Error of estimate of B=0.002, Beta=0.734, t=5.164, p=\<0.001, 95% CI of B: \[0.006, 0.014\]"|||<0.001
82371756|NCT04135196|164449956|OTHER|||||||0.101|||||||Regression, Linear|||The null hypothesis was that change in UD iBV was not proportional to strain magnitude. Raw change in iBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.108, F=2.428, df1=2, df2=40, p=0.101~Contrast between the low strain magnitude group and the control group: B=0.053, Std. Error of estimate of B=0.024, Beta=0.388, t=2.200, p=0.034, 95% CI of B: \[0.004, 0.101\]~Contrast between the high strain magnitude group and the control group: B=0.029, Std. Error of estimate of B=0.022, Beta=0.226, t=1.280, p=0.208, 95% CI of B: \[-0.017, 0.074\]"|||0.101
82397182|NCT04165135|164505231|OTHER|||||||0.1727|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1727
82397183|NCT04165135|164505231|OTHER|||||||0.0099|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0099
82397184|NCT04165135|164505232|OTHER|||||||0.6151|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.6151
82397185|NCT04165135|164505232|OTHER|||||||0.9332|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.9332
82397186|NCT04165135|164505232|OTHER|||||||0.4726|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4726
82397187|NCT04165135|164505232|OTHER|||||||0.4111|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4111
82397188|NCT04165135|164505232|OTHER|||||||0.0892|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0892
82644852|NCT03809000|165004870|SUPERIORITY|||||||0.0461|||||||t-test, 2 sided|||Hot Flashes Frequency||||0.0461
82644853|NCT03809000|165004870|SUPERIORITY|||||||0.0181|||||||t-test, 2 sided|||Hot Flashes Severity||||0.0181
82371757|NCT04135196|164449956|OTHER|||||||0.344|||||||Regression, Linear|||The null hypothesis was that change in UD iBV was not proportional to strain rate. Raw change in iBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.063, F=01.103, df1=2, df2=33, p=0.344~Contrast between the low strain rate group and the control group: B=0.015, Std. Error of estimate of B=0.025, Beta=0.113, t=0.595, p=0.556, 95% CI of B: \[-0.036, 0.065\]~Contrast between the high strain rate group and the control group: B=0.038, Std. Error of estimate of B=0.025, Beta=0.283, t=1.481, p=0.148, 95% CI of B: \[-0.014, 0.089\]"|||0.344
82529598|NCT01976364|164755685|OTHER||LS mean difference|0.38|||||TWO_SIDED|95.0|-1.62|2.38||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.38|-1.62|
82529599|NCT01976364|164755686|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.9|2.5||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.5|-0.9|
82644854|NCT04075292|165004882|SUPERIORITY||Hazard Ratio (HR)|0.08|||<|0.0001|TWO_SIDED|95.0|0.03|0.18|||Log Rank|The analysis was performed using the unstratified log-rank test.|HR was calculated using an unstratified Cox model with treatment as the only covariate. The CI for HR was calculated using the profile likelihood method.|||0.18|0.03|<0.0001
82644855|NCT03829462|165004893|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5334|TWO_SIDED|95.0|0.7|1.98||The threshold for statistical significance was p=0.05|Log Rank|||To show an increase of median overall survival from 7 to 15 months (30% to 57% rates, respectively), with a HR=0.47 and a power of 80% and alpha=5%, 55 events are required for the 78 patients to be randomized considering 15% additional patients for lost to follow-up.||1.98|0.7|0.5334
82371758|NCT04135196|164449957|OTHER|||||||0.676|||||||Regression, Linear|||The null hypothesis was that change in UD cBV was not proportional to strain magnitude. Raw change in cBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.019, F=0.395, df1=2, df2=40, p=0.676~Contrast between the low strain magnitude group and the control group: B=0.012, Std. Error of estimate of B=0.015, Beta=0.146, t=0.787, p=0.436, 95% CI of B: \[-0.019, 0.042\]~Contrast between the high strain magnitude group and the control group: B=0.001, Std. Error of estimate of B=0.014, Beta=0.013, t=0.070, p=0.945, 95% CI of B: \[-0.028, 0.029\]"|||0.676
82397189|NCT04165135|164505232|OTHER|||||||0.1642|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1642
82397190|NCT04165135|164505232|OTHER|||||||0.7256|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.7256
82397191|NCT04165135|164505233|OTHER|||||||0.0745|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0745
82397192|NCT04165135|164505233|OTHER|||||||0.2177|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2177
82397193|NCT04165135|164505233|OTHER|||||||0.2121|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2121
82397194|NCT04165135|164505233|OTHER|||||||0.2336|||||||Kruskal-Wallis|||Gym weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2336
82397195|NCT04165135|164505233|OTHER|||||||0.419|||||||Kruskal-Wallis|||Exercises at intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.4190
82397196|NCT04165135|164505233|OTHER|||||||0.0252|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0252
82397197|NCT04165135|164505233|OTHER|||||||0.2143|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2143
82397198|NCT04165135|164505234|OTHER|||||||0.0085|||||||Kruskal-Wallis|||Running: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0085
82397199|NCT04165135|164505234|OTHER|||||||0.1098|||||||Kruskal-Wallis|||Swimming: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1098
82397200|NCT04165135|164505234|OTHER|||||||0.2703|||||||Kruskal-Wallis|||Tapis Roulant: Comparison among age groups was performed using Kruskal-Wallis test.||||0.2703
82397201|NCT04165135|164505234|OTHER|||||||0.3366|||||||Kruskal-Wallis|||Gym Weights: Comparison among age groups was performed using Kruskal-Wallis test.||||0.3366
82397202|NCT04165135|164505234|OTHER|||||||0.0992|||||||Kruskal-Wallis|||Exercises at Intervals: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0992
82397203|NCT04165135|164505234|OTHER|||||||0.1194|||||||Kruskal-Wallis|||General: Comparison among age groups was performed using Kruskal-Wallis test.||||0.1194
82397204|NCT04165135|164505234|OTHER|||||||0.0549|||||||Kruskal-Wallis|||Walk: Comparison among age groups was performed using Kruskal-Wallis test.||||0.0549
82397205|NCT04165135|164505235|OTHER|||||||0.0088|||||||Chi-squared|||Comparison among age groups was performed using Chi-squared test.||||0.0088
82397206|NCT03714776|164505302|SUPERIORITY||||||<|0.001||||||P-value of analysis of variance (ANOVA) with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||||||<0.001
82397207|NCT03714776|164505303|SUPERIORITY|||||||0.454||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 3||||0.454
82397208|NCT03714776|164505303|SUPERIORITY|||||||0.909||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 8||||0.909
82397209|NCT03714776|164505303|SUPERIORITY|||||||0.132||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 15||||0.132
82397210|NCT03714776|164505303|SUPERIORITY|||||||0.659||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 22||||0.659
82397211|NCT03714776|164505303|SUPERIORITY|||||||0.474||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 29||||0.474
82397212|NCT03714776|164505303|SUPERIORITY|||||||0.483||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 36||||0.483
82397213|NCT03714776|164505304|SUPERIORITY|||||||0.064||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 3||||0.064
82644856|NCT03829462|165004893|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8894|TWO_SIDED|95.0|0.59|1.82|||Chi-squared|||||1.82|0.59|0.8894
82644857|NCT03829462|165004894|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.1104|TWO_SIDED|95.0|0.4|1.11|||Log Rank|The threshold for statistical significance was p=0.05||||1.11|0.4|0.1104
82371759|NCT04135196|164449957|OTHER|||||||0.289|||||||Regression, Linear|||The null hypothesis was that change in UD cBV was not proportional to strain rate. Raw change in cBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|Overall model fit: R\^2=0.072, F=1.288, df1=2, df2=33, p=0.289 Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.018, Beta=0.154, t=0.814, p=0.422, 95% CI of B: \[-0.022, 0.051\] Contrast between the high strain rate group and the control group: B=0.029, Std. Error of estimate of B=0.018, Beta=0.304, t=1.604, p=0.118, 95% CI of B: \[-0.008, 0.066\]|||0.289
82371760|NCT04135196|164449958|OTHER|||||||0.096|||||||Regression, Linear|||The null hypothesis was that change in UD ecBV was not proportional to strain magnitude. Raw change in ecBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.111, F=2.491, df1=2, df2=40, p=0.096~Contrast between the low strain magnitude group and the control group: B=0.026, Std. Error of estimate of B=0.012, Beta=0.391, t=2.222, p=0.032, 95% CI of B: \[0.032, 0.049\]~Contrast between the high strain magnitude group and the control group: B=0.015, Std. Error of estimate of B=0.011, Beta=0.240, t=1.362, p=0.181, 95% CI of B: \[-0.007, 0.037\]"|||0.096
82371761|NCT04135196|164449958|OTHER|||||||0.344|||||||Regression, Linear|||The null hypothesis was that change in UD ecBV was not proportional to strain rate. Raw change in ecBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.063, F=1.103, df1=2, df2=33, p=0.344~Contrast between the low strain rate group and the control group: B=0.014, Std. Error of estimate of B=0.015, Beta=0.113, t=0.595, p=0.556, 95% CI of B: \[-0.036, 0.065\]~Contrast between the high strain rate group and the control group: B=0.038, Std. Error of estimate of B=0.025, Beta=0.283, t=1.481, p=0.148, 95% CI of B: \[-0.014, 0.089\]"|||0.344
82371762|NCT04135196|164449959|OTHER|||||||0.332|||||||Regression, Linear|||The null hypothesis was that change in UD tBV was not proportional to strain magnitude. Raw change in tBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.054, F=1.132, df1=2, df2=40, p=0.332~Contrast between the low strain magnitude group and the control group: B=0.016, Std. Error of estimate of B=0.011, Beta=0.271, t=1.493, p=0.143, 95% CI of B: \[-0.006, 0.039\]~Contrast between the high strain magnitude group and the control group: B=0.007, Std. Error of estimate of B=0.010, Beta=0.115, t=635, p=0.529, 95% CI of B: \[-0.014, 0.028\]"|||0.332
82371763|NCT04135196|164449959|OTHER|||||||0.399|||||||Regression, Linear|||The null hypothesis was that change in UD tBV was not proportional to strain rate. Raw change in tBV was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"Overall model fit: R\^2=0.054, F=0.946, df1=2, df2=33, p=0.399~Contrast between the low strain rate group and the control group: B=0.008, Std. Error of estimate of B=0.012, Beta=0.119, t=0.619, p=0.540, 95% CI of B: \[-0.017, 0.032\]~Contrast between the high strain rate group and the control group: B=0.017, Std. Error of estimate of B=0.012, Beta=0.264, t=1.375, p=0.178, 95% CI of B: \[-0.008, 0.042\]"|||0.399
82371764|NCT04135196|164449960|OTHER|||||||||||||||||The null hypothesis was that change in cortical thickness was not proportional to strain magnitude. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~There were no significant relationships found between change in cortical thickness and strain magnitude group at any time point (p\>0.05)."|||
82371765|NCT04135196|164449960|OTHER|||||||||||||||||The null hypothesis was that change in cortical thickness was not proportional to strain rate. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~At 3 months, there was a significant overall linear relationship between change in cortical thickness and strain rate group. Additionally, the coefficient representing the contrast between the control group and the high strain rate group was also significant. All other comparisons were not statistically significant (p\>0.05).~Stats for 3 months:~Overall model fit: R\^2=0.258, F=4.519, df1=2, df2=26, p=0.021~Contrast between the high strain rate group and the control group: B=0.036, Std. Error of estimate of B=0.012, Beta=0.574, t=2.967, p=0.006, 95% CI of B: \[0.011, 0.061\]"|||
82397214|NCT03714776|164505304|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 8||||<0.001
82397215|NCT03714776|164505304|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 15||||<0.001
82529600|NCT01976364|164755686|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-1.1|2.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.2|-1.1|
82644858|NCT03829462|165004894|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.1165|TWO_SIDED|95.0|0.4|1.11|||Chi-squared|||||1.11|0.4|0.1165
82644859|NCT03829462|165004895|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.2425|TWO_SIDED|95.0|0.26|1.42||The threshold for statistical significance was p=0.05|Log Rank|||||1.42|0.26|0.2425
82644860|NCT03829462|165004895|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.2519|TWO_SIDED|95.0|0.26|1.42|||Chi-squared|||||1.42|0.26|0.2519
82644861|NCT03829462|165004896|SUPERIORITY||Percent difference|46.5||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
82644862|NCT03829462|165004897|SUPERIORITY||Percent difference|7.4||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
82371766|NCT04135196|164449961|OTHER|||||||||||||||||The null hypothesis was that change in bone volume fraction (BV/TV) was not proportional to strain magnitude. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|"At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.~At 9 months, there was a significant overall linear relationship between change in BV/TV and strain magnitude group. Additionally, the coefficient representing the contrast between the control group and the low strain magnitude group was also significant. All other comparisons were not statistically significant (p\>0.05).~Stats for 9 months:~Overall model fit: R\^2=0.240, F=5.057, df1=2, df2=32, p=0.012~Contrast between the low strain magnitude group and the control group: B=0.003, Std. Error of estimate of B=0.001, Beta=0.562, t=3.180, p=0.003, 95% CI of B: \[0.001, 0.006\]"|||
82371767|NCT04135196|164449961|OTHER||||||>|0.05|||||||Regression, Linear|||The null hypothesis was that change in bone volume fraction (BV/TV) was not proportional to strain rate. At each time point, raw change relative to baseline was analyzed as the dependent variable in a linear regression model with coefficients representing contrasts between the two experimental groups and the control group.|At each time point, the overall fit of the linear regression model was assessed with an F-test of overall significance. Additionally, the significance of each coefficient representing contrasts between each experimental group and the control group was assessed using t-tests.|||>0.05
82371768|NCT01121666|164449962|NON_INFERIORITY_OR_EQUIVALENCE|This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.||||||0.0003|TWO_SIDED|||||This study was powered to test equivalence using a two one-sided test (TOST) with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.|Shuirmann's TOST|||This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved.||||0.0003
82371769|NCT01121666|164449963|SUPERIORITY_OR_OTHER|||||||0.2357|TWO_SIDED|||||Follicles of 12 mm|Wilcoxon (Mann-Whitney)|||||||0.2357
82371770|NCT01121666|164449963|SUPERIORITY_OR_OTHER|||||||0.1395|TWO_SIDED|||||Follicles of 15 mm|Wilcoxon (Mann-Whitney)|||||||0.1395
82371771|NCT01121666|164449963|SUPERIORITY_OR_OTHER|||||||0.3992|TWO_SIDED|||||Follicles of 17 mm|Wilcoxon (Mann-Whitney)|||||||0.3992
82371772|NCT01121666|164449965|SUPERIORITY_OR_OTHER|||||||0.9638|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9638
82371773|NCT01121666|164449970|SUPERIORITY_OR_OTHER|||||||0.8926|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8926
82371774|NCT01121666|164449977|NON_INFERIORITY_OR_EQUIVALENCE|This study was powered to test equivalence using a two one-sided test (TOST) of the number of oocytes retrieved with a power of 90%, an alpha error of 2.5% and a pre-determined clinical equivalence margin of +/-2.9 oocytes for the relevant population.||||||0.0003|TWO_SIDED||||||Shuirmann's TOST|||||||0.0003
82371775|NCT03801382|164450012|EQUIVALENCE|Validity and test-retest reliability were explored|Mean Difference (Final Values)|0.05|||>|0.05|TWO_SIDED||||||t-test, 2 sided||||Validity and test-retest reliability were explored|||>.05
82371776|NCT02213510|164450091|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82371777|NCT02213510|164450092|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED||||||t-test, 2 sided|||||||0.655
82371778|NCT02213510|164450093|SUPERIORITY_OR_OTHER|||||||0.811|TWO_SIDED||||||t-test, 2 sided|||||||0.811
82371779|NCT02213510|164450094|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||||||1.00
82371780|NCT02213510|164450095|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||t-test, 2 sided|||||||0.462
82371781|NCT02213510|164450096|SUPERIORITY_OR_OTHER|||||||0.646|TWO_SIDED||||||t-test, 2 sided|||||||0.646
82371782|NCT02213510|164450097|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||||||0.510
82371783|NCT02213510|164450098|SUPERIORITY_OR_OTHER|||||||0.651|TWO_SIDED||||||t-test, 2 sided|||||||0.651
82371784|NCT02213510|164450099|SUPERIORITY_OR_OTHER|||||||0.588|TWO_SIDED||||||t-test, 2 sided|||||||0.588
82371785|NCT02213510|164450100|SUPERIORITY_OR_OTHER|||||||0.858|TWO_SIDED||||||t-test, 2 sided|||||||0.858
82371786|NCT02213510|164450101|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||t-test, 2 sided|||||||1.00
82371787|NCT03954834|164450102|SUPERIORITY||LS Mean Difference|-1.91|||<|0.001|TWO_SIDED|95.0|-2.18|-1.63|||Mixed Models Analysis|||||-1.63|-2.18|<0.001
82371788|NCT03954834|164450102|SUPERIORITY||LS Mean Difference|-1.93|||<|0.001|TWO_SIDED|95.0|-2.21|-1.65|||Mixed Models Analysis|||||-1.65|-2.21|<0.001
82371789|NCT03954834|164450102|SUPERIORITY||LS Mean Difference|-2.11|||<|0.001|TWO_SIDED|95.0|-2.39|-1.83|||Mixed Models Analysis|||||-1.83|-2.39|<0.001
82371790|NCT03954834|164450103|SUPERIORITY||LS Mean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-7.8|-4.7|||Mixed Models Analysis|||||-4.7|-7.8|<0.001
82371791|NCT03954834|164450103|SUPERIORITY||LS Mean Difference|-7.1|||<|0.001|TWO_SIDED|95.0|-8.6|-5.5|||Mixed Models Analysis|||||-5.5|-8.6|<0.001
82371792|NCT03954834|164450103|SUPERIORITY||LS Mean Difference|-8.8|||<|0.001|TWO_SIDED|95.0|-10.3|-7.2|||Mixed Models Analysis|||||-7.2|-10.3|<0.001
82371793|NCT03954834|164450104|SUPERIORITY||Odds Ratio (OR)|49.0|||<|0.001|TWO_SIDED|95.0|21.12|113.67|||Regression, Logistic|||||113.67|21.12|<0.001
82371794|NCT03954834|164450104|SUPERIORITY||Odds Ratio (OR)|80.39|||<|0.001|TWO_SIDED|95.0|31.8|203.19|||Regression, Logistic|||||203.19|31.80|<0.001
82371795|NCT03954834|164450104|SUPERIORITY||Odds Ratio (OR)|52.95|||<|0.001|TWO_SIDED|95.0|22.3|125.73|||Regression, Logistic|||||125.73|22.30|<0.001
82371796|NCT03954834|164450105|SUPERIORITY||LS Mean Difference|-1.5||||0.776|TWO_SIDED|95.0|-11.9|8.9|||Mixed Models Analysis|||||8.9|-11.9|0.776
82371797|NCT03954834|164450105|SUPERIORITY||LS Mean Difference|-2.6||||0.622|TWO_SIDED|95.0|-13.0|7.8|||Mixed Models Analysis|||||7.8|-13.0|0.622
82371798|NCT03954834|164450105|SUPERIORITY||LS Mean Difference|-0.6||||0.908|TWO_SIDED|95.0|-11.1|9.8|||Mixed Models Analysis|||||9.8|-11.1|0.908
82371799|NCT03954834|164450106|SUPERIORITY||Odds Ratio (OR)|40.28|||<|0.001|TWO_SIDED|95.0|7.74|209.71|||Regression, Logistic|||||209.71|7.74|<0.001
82371800|NCT03954834|164450106|SUPERIORITY||Odds Ratio (OR)|34.12|||<|0.001|TWO_SIDED|95.0|6.53|178.19|||Regression, Logistic|||||178.19|6.53|<0.001
82371801|NCT03954834|164450106|SUPERIORITY||Odds Ratio (OR)|85.13|||<|0.001|TWO_SIDED|95.0|16.36|443.13|||Regression, Logistic|||||443.13|16.36|<0.001
82371802|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-37.7|||<|0.001|TWO_SIDED|95.0|-44.1|-31.2|||Mixed Models Analysis|||Morning Premeal - Fasting||-31.2|-44.1|<0.001
82576046|NCT03443414|164861842|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.153|||<|0.001|TWO_SIDED|95.0|0.083|0.222|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo).||0.222|0.083|<0.001
82576047|NCT03443414|164861842|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.146|||<|0.001|TWO_SIDED|95.0|0.075|0.216|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo).||0.216|0.075|<0.001
82576048|NCT03443414|164861843|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.002|||=|0.953|TWO_SIDED|95.0|-0.061|0.065|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo).||0.065|-0.061|=0.953
82576049|NCT03443414|164861843|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.068|||=|0.032|TWO_SIDED|95.0|0.006|0.13|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo).||0.130|0.006|=0.032
82644863|NCT00569127|165004914|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.55|TWO_SIDED|95.0|0.73|1.18||Central-review based progression-free survival was analyzed using the stratified log rank test (which is the score test from the stratified Cox-model) using stratification factors as defined in Section 6.0.|Regression, Cox||The reported hazard ratio estimate is for the comparison of the Octreotide, Bevacizumab arm to the Octreotide, Interferon Alpha-2b arm.|According to the intent-to-treat principle, all eligible patients were included in the analysis according to the randomized treatment assignment, regardless of actual treatments received.||1.18|0.73|0.55
82644864|NCT04803214|165004919|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
82644865|NCT04803214|165004920|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82371803|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-38.6|||<|0.001|TWO_SIDED|95.0|-45.1|-32.2|||Mixed Models Analysis|||Morning Premeal - Fasting||-32.2|-45.1|<0.001
82371804|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-36.5|||<|0.001|TWO_SIDED|95.0|-43.1|-29.8|||Mixed Models Analysis|||Morning Premeal - Fasting||-29.8|-43.1|<0.001
82371805|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-57.9|||<|0.001|TWO_SIDED|95.0|-68.4|-47.4|||Mixed Models Analysis|||Morning 2-hour Postmeal||-47.4|-68.4|<0.001
82644866|NCT04803214|165004921|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82647984|NCT00386100|165011350|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.929||||0.8474|TWO_SIDED|95.0|-17.015|25.198||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline.||||25.198|-17.015|0.8474
82371806|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-49.7|||<|0.001|TWO_SIDED|95.0|-60.3|-39.2|||Mixed Models Analysis|||Morning 2-hour Postmeal||-39.2|-60.3|<0.001
82371807|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-57.3|||<|0.001|TWO_SIDED|95.0|-68.1|-46.4|||Mixed Models Analysis|||Morning 2-hour Postmeal||-46.4|-68.1|<0.001
82371808|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-40.9|||<|0.001|TWO_SIDED|95.0|-49.6|-32.2|||Mixed Models Analysis|||Midday Premeal||-32.2|-49.6|<0.001
82371809|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-39.9|||<|0.001|TWO_SIDED|95.0|-48.6|-31.2|||Mixed Models Analysis|||Midday Premeal||-31.2|-48.6|<0.001
82371810|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-40.0|||<|0.001|TWO_SIDED|95.0|-49.0|-31.1|||Mixed Models Analysis|||Midday Premeal||-31.1|-49.0|<0.001
82576050|NCT03443414|164861843|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.009|||=|0.773|TWO_SIDED|95.0|-0.053|0.072|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo).||0.072|-0.053|=0.773
82576051|NCT03443414|164861843|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.035|||=|0.272|TWO_SIDED|95.0|-0.028|0.099|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo).||0.099|-0.028|=0.272
82371811|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-51.4|||<|0.001|TWO_SIDED|95.0|-62.5|-40.4|||Mixed Models Analysis|||Midday 2-hour Postmeal||-40.4|-62.5|<0.001
82371812|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-47.3|||<|0.001|TWO_SIDED|95.0|-58.4|-36.2|||Mixed Models Analysis|||Midday 2-hour Postmeal||-36.2|-58.4|<0.001
82371813|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-50.7|||<|0.001|TWO_SIDED|95.0|-62.1|-39.3|||Mixed Models Analysis|||Midday 2-hour Postmeal||-39.3|-62.1|<0.001
82371814|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-39.0|||<|0.001|TWO_SIDED|95.0|-47.6|-30.4|||Mixed Models Analysis|||Evening Premeal||-30.4|-47.6|<0.001
82371815|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-39.2|||<|0.001|TWO_SIDED|95.0|-47.9|-30.6|||Mixed Models Analysis|||Evening Premeal||-30.6|-47.9|<0.001
82371816|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-36.4|||<|0.001|TWO_SIDED|95.0|-45.3|-27.5|||Mixed Models Analysis|||Evening Premeal||-27.5|-45.3|<0.001
82371817|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-51.7|||<|0.001|TWO_SIDED|95.0|-63.2|-40.1|||Mixed Models Analysis|||Evening 2-hour Postmeal||-40.1|-63.2|<0.001
82644867|NCT00644228|165004922|SUPERIORITY||Hazard Ratio (HR)|0.712||||0.0018|TWO_SIDED|96.0|0.56|0.906||The p-value is from a one-sided, stratified log-rank test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Log Rank||The hazard ratio compares Bortezomib/Lenalidomide/Dexamethasone against Lenalidomide/Dexamethasone.|With four years of patient accrual and two and a half years of follow-up, 220 patients per arm yields 87% power to detect an increase of PFS of 50%, from a median of 3 years to 4.5 years, which corresponds to a hazard ratio of 1.5. These calculations are based on a one-sided stratified log-rank test at level 0.025 with two interim analyses. The final analysis will be carried out at the 0.02 significance level to allow for two interim analyses at the 0.0025 significance level.||0.906|0.560|0.0018
82644868|NCT00644228|165004923|SUPERIORITY||Hazard Ratio (HR)|0.709||||0.025|TWO_SIDED|95.0|0.524|0.959||The p-value is based on a two-sided, stratified log rank test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Log Rank||The hazard ratio compares Bortezomib/Lenalidomide/Dexamethasone against Lenalidomide/Dexamethasone.|Overall survival will be compared between the two treatment arms using a stratified log-rank test.||0.959|0.524|0.0250
82644869|NCT00644228|165004924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||The p-value is based on a stratified Cochran-Mantel-Haenszel test. Stratification factors include those factors by which patients were randomized: intent to transplant (yes vs no) and ISS Stage (I vs II vs III).|Cochran-Mantel-Haenszel|||||||0.20
82644870|NCT04223193|165004952|SUPERIORITY||LS Mean of Difference|-9.1|STANDARD_ERROR_OF_MEAN|1.31|<|0.0001|TWO_SIDED|95.0|-11.7|-6.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-6.5|-11.7|<0.0001
82644871|NCT04223193|165004953|SUPERIORITY||LS Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44||0.0007|TWO_SIDED|95.0|-2.4|-0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-0.6|-2.4|0.0007
82644872|NCT04223193|165004954|SUPERIORITY||Odds Ratio (OR)|3.942|||<|0.0001|TWO_SIDED|95.0|2.209|7.037|||Mixed Models Analysis|||||7.037|2.209|<0.0001
82644873|NCT04223193|165004955|SUPERIORITY||LS Mean of Difference|-9.1|STANDARD_ERROR_OF_MEAN|1.31|<|0.0001|TWO_SIDED|95.0|-11.7|-6.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-6.5|-11.7|<0.0001
82371818|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-52.5|||<|0.001|TWO_SIDED|95.0|-64.1|-40.9|||Mixed Models Analysis|||Evening 2-hour Postmeal||-40.9|-64.1|<0.001
82371819|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-53.2|||<|0.001|TWO_SIDED|95.0|-65.1|-41.3|||Mixed Models Analysis|||Evening 2-hour Postmeal||-41.3|-65.1|<0.001
82371820|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-48.0|||<|0.001|TWO_SIDED|95.0|-58.6|-37.4|||Mixed Models Analysis|||Bedtime||-37.4|-58.6|<0.001
82371821|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-50.7|||<|0.001|TWO_SIDED|95.0|-61.3|-40.1|||Mixed Models Analysis|||Bedtime||-40.1|-61.3|<0.001
82371822|NCT03954834|164450107|SUPERIORITY||LS Mean Difference|-51.7|||<|0.001|TWO_SIDED|95.0|-62.6|-40.9|||Mixed Models Analysis|||||-40.9|-62.6|<0.001
82371823|NCT03954834|164450108|SUPERIORITY||Odds Ratio (OR)|12.4|||<|0.001|TWO_SIDED|95.0|6.43|23.94|||Regression, Logistic|||||23.94|6.43|<0.001
82371824|NCT03954834|164450108|SUPERIORITY||Odds Ratio (OR)|21.13|||<|0.001|TWO_SIDED|95.0|10.59|42.18|||Regression, Logistic|||||42.18|10.59|<0.001
82371825|NCT03954834|164450108|SUPERIORITY||Odds Ratio (OR)|20.1|||<|0.001|TWO_SIDED|95.0|10.09|40.04|||Regression, Logistic|||||40.04|10.09|<0.001
82371826|NCT00372411|164450114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.17||||0.08|TWO_SIDED|95.0|-0.23|4.58||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is of change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline FM value.||Because randomization to usual care was stopped after 15 months as specified by the protocol, comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||4.58|-0.23|0.08
82371827|NCT00372411|164450114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.88||||0.02|TWO_SIDED|95.0|0.57|5.18||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||5.18|0.57|0.02
82371828|NCT00372411|164450114|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.92|TWO_SIDED|95.0|-2.94|2.65||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is of change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline FM value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||2.65|-2.94|0.92
82371829|NCT00372411|164450114|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.58||||0.63|TWO_SIDED|95.0|-2.97|1.81||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||1.81|-2.97|0.63
82397216|NCT03714776|164505304|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 22||||<0.001
82397217|NCT03714776|164505304|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 29||||<0.001
82644874|NCT04223193|165004956|SUPERIORITY||LS Mean of Difference|-8.3|STANDARD_ERROR_OF_MEAN|1.52|<|0.0001|TWO_SIDED|95.0|-11.3|-5.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-5.3|-11.3|<0.0001
82371830|NCT00372411|164450115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.64||||0.009|TWO_SIDED|95.0|2.03|13.24||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses|ANCOVA|Analysis is change at 12 weeks minus baseline, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline SIS value.||Because randomization to usual care was stopped after 15 months as specified by the protocol, comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||13.24|2.03|0.009
82529601|NCT01976364|164755686|OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-2.4|1.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.0|-2.4|
82371831|NCT00372411|164450115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.95||||0.04|TWO_SIDED|95.0|0.34|11.56||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||11.56|0.34|0.04
82371832|NCT00372411|164450115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.81|TWO_SIDED|95.0|-3.87|4.94||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline SIS value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||4.94|-3.87|0.81
82371833|NCT00372411|164450115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19||||0.55|TWO_SIDED|95.0|-2.74|5.12||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||5.12|-2.74|0.55
82371834|NCT00372411|164450116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.41||||0.22|TWO_SIDED|95.0|-11.52|2.7||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline WMFT value.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||2.70|-11.52|0.22
82371835|NCT00372411|164450116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.1||||0.005|TWO_SIDED|95.0|-13.61|-2.6||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||-2.60|-13.61|0.005
82371836|NCT00372411|164450116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.93||||0.82|TWO_SIDED|95.0|-7.03|8.89||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis is change at 12 weeks minus baseline adjusted for the study site as a fixed effect, the Comorbidity Disease Index, and baseline WMFT value.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||8.89|-7.03|0.82
82371837|NCT00372411|164450116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.13||||0.55|TWO_SIDED|95.0|-9.2|4.93||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|Mixed Models Analysis|Secondary analysis used longitudinal methods to assess the effect of treatment on outcomes over 36 weeks with visits at 6, 12, 24, and 36 weeks.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||4.93|-9.20|0.55
82371838|NCT00372411|164450117|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.08|TWO_SIDED|95.0|-1.73|0.11||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||0.11|-1.73|0.08
82397218|NCT03714776|164505304|SUPERIORITY||||||<|0.001||||||P-value of ANOVA with treatment and screening AGT concentration stratification factor was used for analysis.|ANOVA|||Day 36||||<0.001
82529602|NCT01976364|164755686|OTHER||LS mean difference|1.1|||||TWO_SIDED|95.0|-0.8|2.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.9|-0.8|
82529603|NCT01976364|164755686|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-1.1|2.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.6|-1.1|
82529604|NCT01976364|164755687|OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.4|1.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.2|-0.4|
82397219|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.92|||<|0.001||90.0|-63.84|-35.99|||Mixed Effects Model Analysis|P-value is for Day 43.||||-35.99|-63.84|<0.001
82397220|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.85|||<|0.001||90.0|-48.78|-20.93|||Mixed Effects Model Analysis|P-value is for Day 57.||||-20.93|-48.78|<0.001
82397221|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-47.72|||<|0.001||90.0|-62.1|-33.34|||Mixed Effects Model Analysis|P-value is for Day 43.||||-33.34|-62.10|<0.001
82397222|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.26|||<|0.001||90.0|-46.69|-17.82|||Mixed Effects Model Analysis|P-value is for Day 57.||||-17.82|-46.69|<0.001
82397223|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.36|||<|0.001||90.0|-60.07|-30.64|||Mixed Effects Model Analysis|P-value is for Day 43.||||-30.64|-60.07|<0.001
82397224|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.04|||<|0.001||90.0|-46.76|-17.32|||Mixed Effects Model Analysis|P-value is for Day 57.||||-17.32|-46.76|<0.001
82397225|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.8|||<|0.001||90.0|-61.12|-32.49|||Mixed Effects Model Analysis|P-value is for Day 43.||||-32.49|-61.12|<0.001
82397226|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-44.64|||<|0.001||90.0|-58.95|-30.32|||Mixed Effects Model Analysis|P-value is for Day 57.||||-30.32|-58.95|<0.001
82397227|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.53||||0.44||90.0|-20.51|7.44|||Mixed Effect Model Analysis|P-value is for Day 127||||7.44|-20.51|0.440
82529605|NCT01976364|164755687|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-1.0|0.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.7|-1.0|
82397228|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.1||||0.108||90.0|-28.53|0.33|||Mixed Effect Model Analysis|P-value is for Day 127.||||0.33|-28.53|0.108
82397229|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.41||||0.013||90.0|-37.13|-7.69|||Mixed Effect Model Analysis|P-value is for Day 127.||||-7.69|-37.13|0.013
82397230|NCT01618916|164505322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.93||||0.042||90.0|-32.42|-3.44|||Mixed Effect Model Analysis|P-value is for Day 127.||||-3.44|-32.42|0.042
82397231|NCT03004924|164505325|SUPERIORITY||Difference in response rate|7.7||||0.127|TWO_SIDED|95.0|-1.6|16.9|||Fisher Exact|||||16.9|-1.6|0.127
82397232|NCT03004924|164505326|SUPERIORITY||Difference in response rate|-3.5||||0.5|TWO_SIDED|95.0|-12.8|5.9|||Fisher Exact|||||5.9|-12.8|0.500
82397233|NCT02005627|164505341|SUPERIORITY||||||<|0.05||||||calculated|t-test, 2 sided|||||||<0.05
82397234|NCT02005627|164505344|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82397235|NCT02005627|164505345|SUPERIORITY|||||||||||||||||Null Hypothesis was no difference between Grazax and Placebo treatment at 12 months. 80% power to detect 30% difference in total nasal symptom score (TNSS) after nasal challenge|Comparison of nasal symptom score at 0-60 mins after nasal challenge after 12 months treatment with Grazax compared to Placebo treatment. Mixed model analysis. 80% power to detect a 30% difference at p\<0.05.|||
82397236|NCT04000360|164505346|SUPERIORITY||Difference in slopes.|-3.62|STANDARD_ERROR_OF_MEAN|0.91|<|0.0001|TWO_SIDED|95.0|-5.4|-1.85||This was the sole primary outcome. The test was conducted with a priori p-value threshold of α=0.05, with no multiple comparison adjustment.|Mixed Models Analysis|Test of equality of slopes with time (change in points/year) between aerobic exercise (AE) and usual and customary care (UCC) treatment arms.|Higher MDS-UPDRS III score reflects worse Parkinson's symptoms; increases reflect PD progression. The reported effect is the estimated difference between annual rates of change in scores of AE and UCC patients.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and AR(1) covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX.||-1.85|-5.40|<0.0001
82397237|NCT04000360|164505347|SUPERIORITY|Equality of annual slopes in squared 10 Meter Walk Test Comfortable Pace Velocity for the AE and UCC groups.|Difference in squared velocity slopes|12.07|STANDARD_ERROR_OF_MEAN|4.65||0.043|TWO_SIDED|95.0|3.1|21.32||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 Meter Walk Test fast pace velocity, TUG duration \& turning velocity, Manual Dexterity Test.|Mixed Models Analysis||The reported effect is the difference in annual slope of meters\^2/second, in 100ths of meters\^2/second/year. The confidence interval is not multiple comparison adjusted. Parkinson's progression limits mobility; higher slope reflects less progression.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test velocity was squared ((meters/second)\^2) for modeling. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||21.32|3.10|0.043
82397238|NCT04000360|164505348|SUPERIORITY|Equality of annual slopes in 10 Meter Walk Test Fast Pace Velocity for the AE and UCC groups.|Difference in slopes|3.16|STANDARD_ERROR_OF_MEAN|2.68||0.48|TWO_SIDED|95.0|-2.1|8.42||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable pace, Timed Up and Go Test duration and turning velocity, Manual Dexterity Test.|Mixed Models Analysis||The reported effect is the difference in annual slopes of the AE and UCC treatment arms, in 100ths of meters/second/year. The confidence interval is not multiple comparison adjusted. Higher slope reflects less Parkinson's disease progression.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and heterogeneous compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX.||8.42|-2.10|0.48
82426452|NCT04067011|164561850|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of Cmax.|Ratio of Cmax|0.9706|||||TWO_SIDED|90.0|0.8693|1.0838||||||Analysis of Geometric mean ration of Cmax for ciprofloxacin on Days 8 and 35||1.0838|0.8693|
82397239|NCT04000360|164505349|SUPERIORITY|Equality of annual slopes of inverse Timed Up and Go Test duration, i.e., of TUG completions/second, the speed of completing the test.|Difference in slopes|4.04|STANDARD_ERROR_OF_MEAN|1.96||0.16|TWO_SIDED|95.0|0.2|7.89||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable \& fast pace, Timed Up and Go Test turning velocity, and Manual Dexterity Test.|Mixed Models Analysis|Difference between estimated annual slopes in TUG completions/second/year for the AE and UCC groups.|Timed Up and Go test speed is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes for the AE and UCC groups in 1000ths of a TUG completion/second/year.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was inverted to TUG completions/second. Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||7.89|0.20|0.16
82397240|NCT04000360|164505350|SUPERIORITY|Test of equality of average turning velocities.|Difference in slopes.|1.85|STANDARD_ERROR_OF_MEAN|1.54||0.69|TWO_SIDED|95.0|-1.17|4.88||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: 10 meter walk test comfortable \& fast pace, Timed Up and Go Test duration, and Manual Dexterity Test.|Mixed Models Analysis||Timed Up and Go test speed is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes of average turning velocity for the AE and UCC groups in degrees/second/year.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||4.88|-1.17|0.69
82397241|NCT04000360|164505351|SUPERIORITY|Test of equality of slopes of test performance speed (peg transfers/second/year) for AE and UCC groups.|Difference in slopes.|-3.62|STANDARD_ERROR_OF_MEAN|10.23||0.72|TWO_SIDED|95.0|-23.68|16.45||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other motor domain secondary outcomes: Timed Up and Go Test (TUG) duration \& turning velocity and 10 meter walk test comfortable \& fast pace.|Mixed Models Analysis||Manual dexterity expressed as peg transfers/second is expected to decline with Parkinson's progression. The reported effect is the difference between estimated annual slopes for the AE and UCC groups in 1000ths of a peg transfer/second/year.|Linear mixed model for baseline, 6 and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was transformed for modeling to peg transfers/second (18/seconds). Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||16.45|-23.68|0.72
82397242|NCT04000360|164505352|SUPERIORITY|Test of equality of slopes of squared match scores (matches\^2/year) between AE and UCC groups.|Difference in slopes.|-96.91|STANDARD_ERROR_OF_MEAN|69.12||0.48|TWO_SIDED|95.0|-232.41|38.6||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Visual Memory Test and Trail Making Test B to A duration ratio.|Mixed Models Analysis||Processing speed is expected to decline with Parkinson's, hence duration of the test to increase. The reported effect is the difference in annual slopes (matches\^2/year) between the AE and UCC treatment arms.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and heterogeneous compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, test duration was squared (matches\^2) for analysis. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||38.60|-232.41|0.48
82397243|NCT04000360|164505353|SUPERIORITY|Test of equality of annual slopes of log(TMT B to TMT A duration ratio) for AE and UCC groups.|Difference in slopes|-3.42|STANDARD_ERROR_OF_MEAN|6.06||1|TWO_SIDED|95.0|-15.31|8.46||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Processing Speed Test and Visual Memory Test.|Mixed Models Analysis||Visual attention and set switching speed decline with Parkinson's, hence duration of Trail Making Test B increases. The reported effect is the difference in annual slopes of (log TMT B/TMT A), i.e., change/year, between AE and UCC treatment arms.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, the ratios were transformed to their natural logarithms for modeling. Study sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||8.46|-15.31|1.00
82426453|NCT04067011|164561851|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of AUC0-12h.|Ratio of AUC|0.9173|||||TWO_SIDED|90.0|0.8187|1.0278||||||Analysis of Geometric mean ratio of Area under the curve from 0 to 12 hours (AUC0-12h) for doxycycline on Days 8 and 38||1.0278|0.8187|
82371839|NCT00372411|164450117|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84||||0.03|TWO_SIDED|95.0|-1.62|-0.06||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||-0.06|-1.62|0.03
82371840|NCT00372411|164450118|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.95|TWO_SIDED|95.0|-0.25|0.26||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Because randomization to usual care was stopped after 15 months as specified by the protocol comparisons of robot-assisted therapy with usual care included only patients who were recruited during this period.||0.26|-0.25|0.95
82529606|NCT01976364|164755687|OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-1.6|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-1.6|
82644875|NCT04223193|165004957|SUPERIORITY||LS Mean of Difference|0.7|STANDARD_ERROR_OF_MEAN|0.42||0.0766|TWO_SIDED|95.0|-0.1|1.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||1.6|-0.1|0.0766
82371841|NCT00372411|164450118|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.1|TWO_SIDED|95.0|-0.42|0.04||All p-values are 2-sided with a significance level of 0.022 to adjust for multiple comparisons and interim analyses.|ANCOVA|Analysis of covariance at 12 weeks, adjusted for study site as a fixed effect, Comorbidity Disease Index, and the baseline value of the outcome.||Comparisons between robot-assisted therapy and intensive comparison therapy included all patients who underwent randomization and were evaluated.||0.04|-0.42|0.10
82371842|NCT01059344|164450119|SUPERIORITY_OR_OTHER|||||||0.069|||||||Chi-squared|||||||0.069
82371843|NCT01059344|164450120|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82371844|NCT01059344|164450121|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82371845|NCT01059344|164450122|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
82371846|NCT01059344|164450123|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82371847|NCT01059344|164450124|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82371848|NCT01059344|164450125|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
82371849|NCT01739348|164450126|SUPERIORITY||Difference in Least Squares Mean|0.2||||0.6287|TWO_SIDED|97.51|-0.9|1.3|||Longitudinal ANCOVA|||||1.3|-0.9|0.6287
82371850|NCT01739348|164450126|SUPERIORITY||Difference in Least Squares Mean|0.4||||0.4625|TWO_SIDED|97.51|-0.8|1.5|||Longitudinal ANCOVA|||||1.5|-0.8|0.4625
82371851|NCT01739348|164450127|SUPERIORITY||Difference in Least Squares Means|0.5||||0.4925|TWO_SIDED|97.51|-1.1|2.1|||Longitudinal ANCOVA|||||2.1|-1.1|0.4925
82371852|NCT01739348|164450127|SUPERIORITY||Difference in Least Squares Means|0.7||||0.3221|TWO_SIDED|97.51|-0.9|2.3|||Longitudinal ANCOVA|||||2.3|-0.9|0.3221
82371853|NCT01739348|164450134|SUPERIORITY||Difference in Least Squares Means|0.0||||0.8426|TWO_SIDED|97.51|-0.4|0.3|||Longitudinal ANCOVA|||||0.3|-0.4|0.8426
82371854|NCT01739348|164450134|SUPERIORITY||Difference in Least Squares Means|0.0||||0.8264|TWO_SIDED|97.51|-0.3|0.4|||Longitudinal ANCOVA|||||0.4|-0.3|0.8264
82371855|NCT01739348|164450135|SUPERIORITY||Difference in Least Squares Means|-0.6||||0.0005|TWO_SIDED|97.51|-1.0|-0.2|||Longitudinal ANCOVA|||||-0.2|-1.0|0.0005
82371856|NCT01739348|164450135|SUPERIORITY||Difference in Least Squares Means|-0.7||||0.0002|TWO_SIDED|97.51|-1.1|-0.3|||Longitudinal ANCOVA|||||-0.3|-1.1|0.0002
82371857|NCT01739348|164450136|SUPERIORITY||Ratio of Fold Change from Baseline|0.95||||0.2138|TWO_SIDED|95.0|0.87|1.04|||Longitudinal ANCOVA|||||1.04|0.87|0.2138
82371858|NCT01739348|164450136|SUPERIORITY||Ratio of Fold Change from Baseline|0.97||||0.433|TWO_SIDED|95.0|0.9|1.05|||Longitudinal ANCOVA|||||1.05|0.90|0.4330
82371859|NCT01739348|164450137|SUPERIORITY||Difference in Least Squares Means|-0.03||||0.0066|TWO_SIDED|95.0|-0.05|0.0|||Longitudinal ANCOVA|||||0.00|-0.05|0.0066
82371860|NCT01739348|164450137|SUPERIORITY||Difference in Least Squares Means|-0.04|||<|0.0001|TWO_SIDED|95.0|-0.06|-0.02|||Longitudinal ANCOVA|||||-0.02|-0.06|<0.0001
82371861|NCT01739348|164450139|SUPERIORITY||Difference in Least Squares Means|0.7||||0.2949|TWO_SIDED|95.0|-0.6|2.1|||Longitudinal ANCOVA|||||2.1|-0.6|0.2949
82371862|NCT01739348|164450139|SUPERIORITY||Difference in Least Squares Means|1.1||||0.1372|TWO_SIDED|95.0|-0.4|2.6|||Longitudinal ANCOVA|||||2.6|-0.4|0.1372
82371863|NCT01739348|164450140|SUPERIORITY||Difference in Least Squares Means|0.2||||0.4721|TWO_SIDED|95.0|-0.3|0.7|||Longitudinal ANCOVA|||||0.7|-0.3|0.4721
82371864|NCT01739348|164450140|SUPERIORITY||Difference in Least Squares Means|0.5||||0.0599|TWO_SIDED|95.0|0.0|1.0|||Longitudinal ANCOVA|||||1.0|0.0|0.0599
82371865|NCT01447420|164450144|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Chi-squared|Participants without measurement at the end of the 24 week untreated follow-up period were considered as non-responders.||IL28B Genotypes (CC, CT or TT)||||0.0007
82371866|NCT01447420|164450147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.69|4.14|||||Odds Ratio for SVR estimated from the logistic regression model.|Anemia after the first month of treatment vs No anemia||4.14|0.69|
82371867|NCT01447420|164450147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.28|2.59|||||Odds Ratio for SVR estimated from the logistic regression model.|Anemia in the first month of treatment vs No anemia||2.59|0.28|
82371868|NCT01447420|164450147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.45|||||TWO_SIDED|95.0|2.27|13.12|||||Odds Ratio for SVR estimated from the logistic regression model.|IL28B - CC vs CT||13.12|2.27|
82371869|NCT01447420|164450147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||||TWO_SIDED|95.0|1.19|13.61|||||Odds Ratio for SVR estimated from the logistic regression model.|IL28B - CC vs TT||13.61|1.19|
82371870|NCT04562155|164450154|SUPERIORITY||||||=|0.0345||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: Emax model (ED50=30) Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0345
82371871|NCT04562155|164450154|SUPERIORITY||||||=|0.0376||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: Emax model (ED50=50) Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0376
82529607|NCT01976364|164755687|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-0.9|
82371872|NCT04562155|164450154|SUPERIORITY||||||=|0.0319||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: sigm. Emax model (ED50=30, h=3) sigm = sigmoidal h = hill parameter Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0319
82371873|NCT04562155|164450154|SUPERIORITY||||||=|0.0603||||||Adjusted p-value|MCP-Mod method|||Detection of dose-response: sigm. Emax model (ED50=60, h=5) sigm = sigmoidal h = hill parameter Dose response relationship was assessed using the MCP-Mod method combining multiple comparison procedures (MCP) principles with modeling techniques. A generalized MCP approach (with adjustment for baseline cough count and geographic region) was applied to calculate the adjusted one-sided p-values of the contrast test. Pre-specified overall Type one error at alpha level of 0.1 (one-sided).||||= 0.0603
82371874|NCT02699060|164450166|SUPERIORITY||Median Difference (Net)|-1.76|STANDARD_DEVIATION|0.8||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
82529608|NCT01976364|164755687|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.9|0.8||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.8|-0.9|
82644876|NCT04223193|165004957|SUPERIORITY||LS Mean of Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44||0.0007|TWO_SIDED|95.0|-2.4|-0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-0.6|-2.4|0.0007
82644877|NCT04223193|165004957|SUPERIORITY||LS Mean of Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-9.7|-5.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-5.6|-9.7|<0.0001
82371875|NCT01442688|164450249|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.995|1.04|||ANOVA|||||1.04|0.995|
82371876|NCT01442688|164450250|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.94|1.04|||ANOVA|||||1.04|0.940|
82371877|NCT04558918|164450266|SUPERIORITY||Odds Ratio (OR)|338.25|||<|0.0001|TWO_SIDED|95.0|25.07|4564.14||two sided unadjusted p-value|Regression, Logistic|Logistic regression model using Firth||||4564.14|25.07|<0.0001
82371878|NCT04558918|164450266|SUPERIORITY||Difference in marginal proportion|80.2|||||TWO_SIDED|95.0|71.2|87.6||||||||87.6|71.2|
82371879|NCT04558918|164450267|SUPERIORITY||Odds Ratio (OR)|495.74|||<|0.0001|TWO_SIDED|95.0|24.41|10066.53||two sided unadjusted p-value|Regression, Logistic|Logistic regression model using Firth||||10066.53|24.41|<0.0001
82371880|NCT04558918|164450267|SUPERIORITY||Diff. in marginal proportion|67.0|||||TWO_SIDED|95.0|56.4|76.9||||||||76.9|56.4|
82371881|NCT04558918|164450270|OTHER||Adjusted mean difference|-0.01|||||TWO_SIDED|95.0|-0.53|0.51||||||||0.51|-0.53|
82371882|NCT04558918|164450271|OTHER||Adjusted mean difference|-1.17|||||TWO_SIDED|95.0|-4.01|1.68||||||||1.68|-4.01|
82371883|NCT04558918|164450272|SUPERIORITY||Odds Ratio (OR)|108.41|||<|0.0001|TWO_SIDED|95.0|17.25|681.24||two sided unadjusted p-value|Conditional logistic regression|||||681.24|17.25|<0.0001
82647985|NCT00386100|165011351|SUPERIORITY_OR_OTHER||Percent difference from metformin|5.7||||0.486|TWO_SIDED|95.0|-9.6|23.6||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||23.6|-9.6|0.4860
82371884|NCT04558918|164450272|SUPERIORITY||Diff. in marginal proportion|68.9|||||TWO_SIDED|95.0|51.4|83.9||||||logistic regression model||83.9|51.4|
82371885|NCT04558918|164450273|SUPERIORITY||Adjusted mean diff.|3.66|||<|0.0001|TWO_SIDED|95.0|3.2|4.12||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||4.12|3.20|<0.0001
82371886|NCT04558918|164450274|SUPERIORITY||Mean Difference (Net)|8.29|||<|0.0001|TWO_SIDED|95.0|5.28|11.29||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||11.29|5.28|<0.0001
82371887|NCT04558918|164450275|SUPERIORITY||Mean Difference (Net)|-116.15|||<|0.0001|TWO_SIDED|95.0|-132.04|-100.26||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||-100.26|-132.04|<0.0001
82371888|NCT04558918|164450276|SUPERIORITY||Geometric mean ratio|0.99||||0.8361|TWO_SIDED|95.0|0.89|1.1||two sided unadjusted p-value|Mixed Model of Repeated Measures (MMRM)|||||1.10|0.89|0.8361
82371889|NCT04558918|164450277|SUPERIORITY||Rate ratio|0.1||||0.01183|TWO_SIDED|95.0|0.02|0.61||two sided unadjusted p-value|Negative binomial model|||||0.61|0.02|0.01183
82371890|NCT04558918|164450277|SUPERIORITY||Rate difference|-0.6|||||TWO_SIDED|95.0|-1.24|0.04||||||||0.04|-1.24|
82371891|NCT04558918|164450278|SUPERIORITY||rate difference|0.03||||0.31731|TWO_SIDED|95.0|-0.03|0.1||two sided unadjusted p-value|Poisson model|||||0.10|-0.03|0.31731
82371892|NCT04558918|164450279|OTHER||Adjusted mean difference|1.69|||||TWO_SIDED|95.0|-16.86|20.23||||||||20.23|-16.86|
82371893|NCT04558918|164450280|OTHER||Geometric mean ratio|1.12|||||TWO_SIDED|95.0|0.97|1.3||||||||1.30|0.97|
82371894|NCT05187013|164450286|SUPERIORITY||Mean Difference (Net)|-7.16|STANDARD_ERROR_OF_MEAN|2.72||0.006|TWO_SIDED|95.0|-12.59|-1.73|||t-test, 1 sided|||Null Hypothesis: No improvement between baseline and final SBP, i.e., Final SBP - Baseline SBP \>= 0 Alternative Hypothesis: Final SBP - Baseline SBP \<0 Power calculation: Based on the data, the mean and SD of the change in SBP are -7.16 and 21.40, respectively. Using a one-sided paired t-test with a significance level of 0.05, we should have a power of 83.16%||-1.73|-12.59|0.006
82529609|NCT01976364|164755688|OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-0.6|1.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.6|-0.6|
82529610|NCT01976364|164755688|OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.3|1.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.7|-0.3|
82644878|NCT04223193|165004958|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.5|-0.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Wek 26||-0.2|-0.5|<0.0001
82397244|NCT04000360|164505354|SUPERIORITY|Test of equality of annual slopes of squared test score.|Difference in slopes|0.16|STANDARD_ERROR_OF_MEAN|1.4||0.91|TWO_SIDED|95.0|-2.58|2.91||Family-wise error controlled at α=0.05 by Holm-Bonferroni adjustment for other non-motor domain secondary outcomes: Processing Speed Test and Trail Making Test Ratio.|Mixed Models Analysis||Visual memory declines with Parkinson's, hence the score declines. The reported effect is the difference in annual slopes, i.e., changes in mean score\^2/year, for AE and UCC treatment arms, shown in hundreds. Higher slope indicates slower decline.|Linear mixed model for baseline, 6 month, and 12 month data, with fixed effects of clinical site, treatment, and linear time nested in treatment arm, and compound symmetry covariance structure, fit by residual pseudolikelihood maximization (RSPL) in SAS PROC GLIMMIX. To reduce skew and better meet modeling assumptions, the score was squared for statistical modeling. Sample size was based on the primary outcome, and power was not calculated for this and other outcomes.||2.91|-2.58|0.91
82397245|NCT03003000|164505355|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.3446|TWO_SIDED|95.0|-0.168|0.48||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeated Measurement||Adjusted mean change from baseline ibuprofen and caffeine - Adjusted mean change from baseline placebo. A positive result favors the treatment with ibuprofen and caffeine|Superiority of ibuprofen and caffeine versus ibuprofen as well as ibuprofen and caffeine versus placebo had to be shown to reject the overall null hypothesis that there is no difference in change in POMWP between baseline and Day 2 (morning, 2 h after drug intake) between patients treated with ibuprofen/caffeine and patients treated with placebo.|Mixed effect model for repeated measures analysis (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time, treatment-by-stratum-by-time, treatment-by-stratum and stratum-by-time interaction, as well as the continuous fixed covariates of baseline POMwp and baseline-by-time interaction, using unstructured covariance matrix.|0.480|-0.168|0.3446
82397246|NCT03003000|164505355|SUPERIORITY||Mean Difference (Final Values)|-0.129||||0.3358|TWO_SIDED|95.0|-0.392|0.134||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeat Measurement||Adjusted mean change from baseline ibuprofen and caffeine - Adjusted mean change from baseline ibuprofen. A positive result favors the treatment with ibuprofen and caffeine|Superiority of ibuprofen and caffeine versus ibuprofen as well as ibuprofen and caffeine versus placebo had to be shown to reject the overall null hypothesis that there is no difference in change in POMWP between baseline and Day 2 (morning, 2 h after drug intake) between patients treated with ibuprofen/caffeine and patients treated with ibuprofen.|Mixed effect model for repeated measures analysis (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time, treatment-by-stratum-by-time, treatment-by-stratum and stratum-by-time interaction, as well as the continuous fixed covariates of baseline POMwp and baseline-by-time interaction, using unstructured covariance matrix|0.134|-0.392|0.3358
82397247|NCT03003000|164505356|SUPERIORITY||Mean Difference (Final Values)|-0.288||||0.0474|TWO_SIDED|95.0|-0.572|-0.003||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean placebo. A negative result favors ibuprofen and caffeine|||-0.003|-0.572|0.0474
82397248|NCT03003000|164505356|SUPERIORITY||Mean Difference (Final Values)|0.051||||0.6658|TWO_SIDED|95.0|-0.18|0.282||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean ibuprofen. A negative result favors ibuprofen and caffeine.|||0.282|-0.180|0.6658
82397249|NCT03003000|164505357|SUPERIORITY||Mean Difference (Final Values)|-0.399||||0.0091|TWO_SIDED|95.0|-0.698|-0.1||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean placebo. A negative result favors ibuprofen and caffeine|||-0.100|-0.698|0.0091
82397250|NCT03003000|164505357|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.6387|TWO_SIDED|95.0|-0.185|0.302||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|ANCOVA|The ANCOVA included treatment, country, and worst procedure site as fixed effects and baseline POMwp as a continuous covariate.|Adjusted mean ibuprofen and caffeine - Adjusted mean ibuprofen. A negative result favors ibuprofen and caffeine|||0.302|-0.185|0.6387
82529611|NCT01976364|164755688|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-1.0|1.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.2|-1.0|
82529612|NCT01976364|164755688|OTHER||LS mean difference|1.2|||||TWO_SIDED|95.0|0.0|2.3||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.3|0.0|
82529613|NCT01976364|164755688|OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.3|1.9||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.9|-0.3|
82397251|NCT03003000|164505358|SUPERIORITY||Mean Difference (Final Values)|0.559||||0.4398|TWO_SIDED|95.0|-0.861|1.979||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect model for repeated measures||Adjusted mean change ibuprofen and caffeine - Adjusted mean change placebo. A negative result favors ibuprofen and caffeine.|Mixed effect model for repeated measures (MMRM) includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time as well as the continuous fixed covariates of baseline pressure algometry and baseline-by-time interaction, using unstructured covariance matrix.||1.979|-0.861|0.4398
82529614|NCT01976364|164755689|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82644879|NCT04223193|165004959|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.3|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.3|<0.0001
82644880|NCT04223193|165004960|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.3|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.3|<0.0001
82644881|NCT04223193|165004961|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9795|TWO_SIDED|95.0|-0.6|0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.6|-0.6|0.9795
82644882|NCT04223193|165004962|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.45||0.8916|TWO_SIDED|95.0|-0.9|0.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.8|-0.9|0.8916
82644883|NCT03193190|165004966|SUPERIORITY||Difference in ORR|18.06|||||TWO_SIDED|95.0|-25.6|61.71||||||||61.71|-25.60|
82644884|NCT03193190|165004966|SUPERIORITY||Difference in ORR|10.5|||||TWO_SIDED|95.0|-18.85|39.85||||||||39.85|-18.85|
82644885|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-10.83|||||TWO_SIDED|95.0|-43.7|22.03||||||||22.03|-43.70|
82644886|NCT03193190|165004966|SUPERIORITY||Difference in Overall Response Rates|-5.79|||||TWO_SIDED|95.0|-30.58|18.99||||||||18.99|-30.58|
82644887|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-7.5|||||TWO_SIDED|95.0|-34.19|19.19||||||||19.19|-34.19|
82644888|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-8.7|||||TWO_SIDED|95.0|-25.96|8.57||||||||8.57|-25.96|
82644889|NCT03193190|165004966|SUPERIORITY||Difference in Overall Response Rates|-8.7|||||TWO_SIDED|95.0|-25.96|8.57||||||||8.57|-25.96|
82644890|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-2.64|||||TWO_SIDED|95.0|-18.44|13.17||||||||13.17|-18.44|
82644891|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-8.7|||||TWO_SIDED|95.0|-25.72|8.33||||||||8.33|-25.72|
82644892|NCT03193190|165004966|SUPERIORITY||Difference in ORR|-1.55|||||TWO_SIDED|95.0|-25.04|21.93||||||||21.93|-25.04|
82644893|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.48|2.64||||||||2.64|0.48|
82644894|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.66|2.08||||||||2.08|0.66|
82644895|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.29|1.23||||||||1.23|0.29|
82644896|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.67|1.89||||||||1.89|0.67|
82644897|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.61|1.87||||||||1.87|0.61|
82644898|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|2.13|||||TWO_SIDED|95.0|0.96|4.75||||||||4.75|0.96|
82644899|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|3.63|||||TWO_SIDED|95.0|1.54|8.57||||||||8.57|1.54|
82644900|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.68|1.92||||||||1.92|0.68|
82644901|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|0.72|3.05||||||||3.05|0.72|
82644902|NCT03193190|165004968|SUPERIORITY||Hazard Ratio (HR)|1.74|||||TWO_SIDED|95.0|0.84|3.06||||||||3.06|0.84|
82644903|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.59|3.0||||||||3.00|0.59|
82644904|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.71|2.29||||||||2.29|0.71|
82644905|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.45|1.74||||||||1.74|0.45|
82644906|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.58|1.68||||||||1.68|0.58|
82644907|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.59|1.84||||||||1.84|0.59|
82644908|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|2.04|||||TWO_SIDED|95.0|0.87|4.77||||||||4.77|0.87|
82644909|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.6|2.94||||||||2.94|0.60|
82644910|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.48|1.6||||||||1.60|0.48|
82644911|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|1.51|||||TWO_SIDED|95.0|0.68|3.36||||||||3.36|0.68|
82644912|NCT03193190|165004969|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.44|2.02||||||||2.02|0.44|
82644913|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-31.51|||||TWO_SIDED|95.0|-66.07|3.04||||||||3.04|-66.07|
82644914|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-3.59|||||TWO_SIDED|95.0|-22.55|15.37||||||||15.37|-22.55|
82644915|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-7.07|||||TWO_SIDED|95.0|-30.52|16.38||||||||16.38|-30.52|
82644916|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-14.52|||||TWO_SIDED|95.0|-32.72|3.68||||||||3.68|-32.72|
82644917|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-0.4|||||TWO_SIDED|95.0|-17.38|16.57||||||||16.57|-17.38|
82644918|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-50.98|||||TWO_SIDED|95.0|-83.51|-18.46||||||||-18.46|-83.51|
82397252|NCT03003000|164505358|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.7911|TWO_SIDED|95.0|-1.002|1.314||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Mixed effect Model Repeat Measurement||Adjusted mean change ibuprofen and caffeine - Adjusted mean change ibuprofen. A negative result favors ibuprofen and caffeine.|MMRM includes fixed, categorical effects of treatment, country, worst procedure site, time and interaction terms for treatment-by-time as well as the continuous fixed covariates of baseline pressure algometry and baseline-by-time interaction, using unstructured covariance matrix.||1.314|-1.002|0.7911
82397253|NCT03003000|164505359|SUPERIORITY||Odds Ratio (OR)|1.777||||0.0045|TWO_SIDED|95.0|1.195|2.642||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Regression, Logistic|An ordinal logistic regression model adjusting for country and worst procedure site.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator|||2.642|1.195|0.0045
82397254|NCT03003000|164505359|SUPERIORITY||Odds Ratio (OR)|1.008||||0.9603|TWO_SIDED|95.0|0.732|1.389||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Regression, Logistic|An ordinal logistic regression model adjusting for country and worst procedure site.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator|||1.389|0.732|0.9603
82576052|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.087|||<|0.001|TWO_SIDED|95.0|0.045|0.129|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo) at Day 1.||0.129|0.045|<0.001
82371895|NCT05187013|164450286|SUPERIORITY||Mean Difference (Net)|-2.15|STANDARD_ERROR_OF_MEAN|1.32||0.056|TWO_SIDED|95.0|-4.79|0.49|||t-test, 1 sided|||Null Hypothesis: No improvement between baseline and final DBP, i.e., Final DBP - Baseline DBP \>= 0 Alternative Hypothesis: Final DBP - Baseline DBP \<0 Power calculation: Based on the data, the mean and SD of the change in SBP are -2.15 and 10.49, respectively. Using a one-sided paired t-test with a significance level of 0.05, we should have a power of 51.48%||0.49|-4.79|0.056
82371896|NCT05187013|164450286|EQUIVALENCE|The margin was considered to be 0.|Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|4.13||0.87|TWO_SIDED|95.0|-8.76|7.42|||ANCOVA|Adjusted for baseline SBP and follow-up time|The parameter was defined as the change in SBP for the general health education arm - the change in SBP for the HTN specific education arm adjusted for follow-up time and baseline SBP|"Null hypothesis: No difference between the change in SBP between the two arms~Power calculation: With our sample size, we expect to have 80% power as long as the effect size is at least 0.72 at a 5% level."||7.42|-8.76|0.87
82371897|NCT05187013|164450286|EQUIVALENCE|The margin was taken to be 0|Mean Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|2.04||0.63|TWO_SIDED|95.0|-3.02|4.98|||ANCOVA|Adjusted for baseline DBP and follow-up time|The parameter was defined as the change in DBP for the general health education arm - the change in DBP for the HTN specific education arm adjusted for follow-up time and baseline SBP|"Null hypothesis: No difference between the change in DBP between the two arms~Power calculation: With our sample size, we expect to have 80% power as long as the effect size is at least 0.72 at a 5% level."||4.98|-3.02|0.63
82397255|NCT03003000|164505360|SUPERIORITY||Odds Ratio (OR)|1.028||||0.9022|TWO_SIDED|95.0|0.663|1.592||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥30%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator.||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.592|0.663|0.9022
82397256|NCT03003000|164505360|SUPERIORITY||Odds Ratio (OR)|0.834||||0.3129|TWO_SIDED|95.0|0.586|1.187||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥30%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator.||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.187|0.586|0.3129
82397257|NCT03003000|164505360|SUPERIORITY||Odds Ratio (OR)|1.354||||0.3301|TWO_SIDED|95.0|0.736|2.494||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥50%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|2.494|0.736|0.3301
82444908|NCT02715726|164598615|SUPERIORITY||LS mean difference|-37.3|||<|0.0001|TWO_SIDED|95.0|-42.1|-32.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|A hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-32.6|-42.1|<0.0001
82397258|NCT03003000|164505360|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0864|TWO_SIDED|95.0|0.437|1.057||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|likelihood-ratio test|The likelihood-ratio test was used to test treatment differences for patients with a decrease of ≥50%.|An odds ratio \>1 indicates better efficacy for ibuprofen and caffeine than for the comparator||Results are based on the Logistic regression. Logistic regression model was adjusted for the categorical covariates country and worst procedure site.|1.057|0.437|0.0864
82576053|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.095|||<|0.001|TWO_SIDED|95.0|0.053|0.137|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo) at Day 1.||0.137|0.053|<0.001
82397259|NCT03003000|164505361|SUPERIORITY|||||||0.9384||||||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Log Rank|p-value based on a stratified log-rank test||||||0.9384
82397260|NCT03003000|164505361|SUPERIORITY|||||||0.3534||||||No adjustment for multiplicity issues was made for this comparison. The level of significance was 0.05.|Log Rank|p-value based on a stratified log-rank test||||||0.3534
82529615|NCT01976364|164755689|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82644919|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-36.8|||||TWO_SIDED|95.0|-70.43|-3.18||||||||-3.18|-70.43|
82644920|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-26.79|||||TWO_SIDED|95.0|-49.39|-4.2||||||||-4.20|-49.39|
82371898|NCT05187013|164450287|EQUIVALENCE|The margin is taken to be 0|Odds Ratio, log|0.89|STANDARD_ERROR_OF_MEAN|0.61||0.14|TWO_SIDED|95.0|-0.26|2.29|||Regression, Logistic|A mixed effect model with study arm as a fixed effect and subject-specific random effect.|For OR: the general education arm was taken as the baseline (denominator)|Null hypothesis: There is no difference in medicine adherence between the two groups||2.29|-0.26|0.14
82371899|NCT05187013|164450288|EQUIVALENCE|The margin was taken to be 0.|Odds Ratio, log|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.32|TWO_SIDED|95.0|-0.58|0.19|||Regression, Logistic|Binomial regression for appointment attended/appointment scheduled.|The baseline (denominator) was taken to be the general education arm.|Null hypothesis: No difference in appointment adherence between the study arms||0.19|-0.58|0.32
82371900|NCT01096368|164450314|SUPERIORITY||Hazard Ratio (HR)|0.866||||0.229|TWO_SIDED|90.46|0.627|1.197||P-value is one-sided. After adjusting for interim analyses, the a priori threshold for significance for the final analysis is one-sided alpha=0.031.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III. Confidence interval is stage-wise adjusted for multiple interim analyses.|The study was designed to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 1-sided log-rank test. The planned sample size was 160 subjects per arm. 85 EFS events were needed, which were expected after 8 years of accrual and 2 years of follow-up. At 5% type 1 error, the study had 93% power to detect an increase in 2-year EFS from 75% (RT alone) to 87% (RT+maintenance). The design also incorporated interim analyses for futility and efficacy.||1.197|0.627|0.229
82371901|NCT01096368|164450315|SUPERIORITY||Hazard Ratio (HR)|0.757||||0.172|TWO_SIDED|90.46|0.463|1.238||P-value is one-sided. After adjusting for interim analyses, the a priori threshold for significance for the final analysis is one-sided alpha=0.031.|Log Rank||Hazard ratio is based on hazard of death for Arm II over hazard of death for Arm III. Confidence interval is stage-wise adjusted for multiple interim analyses.|It was planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 1-sided log-rank test using the planned sample size of 160 subjects per arm which was optimized for the EFS outcome. A one-sided significance threshold of 5% was planned for this comparison as well.||1.238|0.463|0.172
82371902|NCT01096368|164450316|SUPERIORITY||Hazard Ratio (HR)|0.701||||0.096|TWO_SIDED|95.0|0.461|1.068||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III.|In stratum 1, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||1.068|0.461|0.096
82371903|NCT01096368|164450317|SUPERIORITY||Hazard Ratio (HR)|2.684||||0.041|TWO_SIDED|95.0|1.004|7.175||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of events for Arm II over hazard of events for Arm III.|In stratum 2, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by EFS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||7.175|1.004|0.041
82371904|NCT01096368|164450318|SUPERIORITY||Hazard Ratio (HR)|0.547||||0.067|TWO_SIDED|95.0|0.284|1.053||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of death for Arm II over death of events for Arm III.|In stratum 1, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||1.053|0.284|0.067
82426454|NCT04067011|164561851|EQUIVALENCE|The equivalence testing was constructed using paired two one-sided t-tests (TOST) with natural log transformation of PK parameters. Results obtained from transformed analyses were back-transformed by exponentiation for presentation of the point estimates and 90% CIs for geometric mean ratio of Cmax.|Ratio of Cmax|0.8974|||||TWO_SIDED|90.0|0.7841|1.0271||||||Analysis of Geometric mean ration of Cmax for doxycycline on Days 8 and 38||1.0271|0.7841|
82529616|NCT01976364|164755689|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82529617|NCT01976364|164755689|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82529618|NCT01976364|164755689|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
82529619|NCT01976364|164755690|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|0.0|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|0.0|
82529620|NCT01976364|164755690|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
82644921|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-35.43|||||TWO_SIDED|95.0|-67.44|-3.42||||||||-3.42|-67.44|
82644922|NCT03193190|165004970|SUPERIORITY||Difference in Event Free Rate|-28.76|||||TWO_SIDED|95.0|-60.94|3.42||||||||3.42|-60.94|
82644923|NCT03193190|165004971|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.24|3.51||||||||3.51|0.24|
82371905|NCT01096368|164450319|SUPERIORITY||Hazard Ratio (HR)|3.601||||0.094|TWO_SIDED|95.0|0.724|17.902||P-value is two-sided and not adjusted for multiple comparisons for this exploratory subgroup comparison.|Log Rank||Hazard ratio is based on hazard of death for Arm II over hazard of death for Arm III.|In stratum 2, it was also planned to test the superiority of RT+maintenance vs. RT alone as measured by OS using the hazard ratio via a 2-sided log-rank test. A two-sided significance threshold of 5% was planned for this comparison.||17.902|0.724|0.094
82371906|NCT06354998|164450329|OTHER||Geometric Mean Ratio (GMR)|0.908|||||TWO_SIDED|95.0|0.662|1.245|||||GMR was a secondary endpoint.|GMR (mRNA-1273.815 versus licensed Spikevax) at Day 15 and its 95% CI was calculated based on the t-distribution for the mean difference of log-transformed antibody values and then back transformed to the original scale for presentation.||1.245|0.662|
82644924|NCT03193190|165004971|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.23|1.6||||||||1.60|0.23|
82529621|NCT01976364|164755690|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
82371907|NCT02500641|164450347|SUPERIORITY|||||||0.5298|||||||ANCOVA|||||||0.5298
82371908|NCT01948986|164450348|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|103.07|||||TWO_SIDED|90.0|80.32|132.27|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||132.27|80.32|
82371909|NCT01948986|164450348|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|156.34|||||TWO_SIDED|90.0|127.83|191.23|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||191.23|127.83|
82371910|NCT01948986|164450348|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|170.04|||||TWO_SIDED|90.0|139.02|207.98|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||207.98|139.02|
82529622|NCT01976364|164755690|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82529623|NCT01976364|164755690|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82397261|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-3.4|1.2||||||Serotype 1: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.2|-3.4|
82397262|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-3.7|1.6||||||Serotype 3: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.6|-3.7|
82529624|NCT01976364|164755691|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82529625|NCT01976364|164755691|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82371911|NCT01948986|164450348|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|155.26|||||TWO_SIDED|90.0|124.38|193.8|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||193.80|124.38|
82371912|NCT01948986|164450349|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|103.42|||||TWO_SIDED|90.0|80.66|132.61|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||132.61|80.66|
82397263|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-2.3|2.4||||||Serotype 4: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.4|-2.3|
82529626|NCT01976364|164755691|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|0.0|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|0.0|
82529627|NCT01976364|164755691|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82529628|NCT01976364|164755691|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82644925|NCT03193190|165004971|SUPERIORITY||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.44|5.47||||||||5.47|0.44|
82644926|NCT03193190|165004971|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.35|2.44||||||||2.44|0.35|
82644927|NCT03193190|165004971|SUPERIORITY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.24|1.93||||||||1.93|0.24|
82529629|NCT01976364|164755692|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82529630|NCT01976364|164755692|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82529631|NCT01976364|164755692|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.1|
82644928|NCT03732677|165004988|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0005|TWO_SIDED|95.0|1.227|2.084|||Regression, Logistic|Strata adjusted odds ratio by the logistic regression method adjusting for stratification factors: renal function , tumor stage and PDL1 status .||||2.084|1.227|0.0005
82644929|NCT03732677|165004989|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.877|0.554|824.0||Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)||95% CI for hazard ratio: 0.558 - 0.817|0824|0.554|<0.0001
82644930|NCT03732677|165004990|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0021|TWO_SIDED|95.0|0.62|0.9|||Chi-squared|P-value is based on a chi-squared test with one degree of freedom.|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.90|0.62|0.0021
82644931|NCT03732677|165004991|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0265|TWO_SIDED|95.0|1.047|2.095|||Regression, Logistic|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|Strata adjusted odds ratio by the logistic regression method. Stratified by adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative).|||2.095|1.047|0.0265
82644932|NCT03732677|165004992|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0106|TWO_SIDED|98.457|0.563|0.985|||Log Rank|Stratified by renal function (adequate vs borderline),tumor stage(T2N0vs \>T2N0), PDL1 status(high vs low/negative)|||95% CI: 0.594 to 0.934|0.985|0.563|0.0106
82371913|NCT01948986|164450349|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|151.63|||||TWO_SIDED|90.0|124.05|185.34|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||185.34|124.05|
82371914|NCT01948986|164450349|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|168.11|||||TWO_SIDED|90.0|137.53|205.49|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||205.49|137.53|
82397264|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-1.2|||||TWO_SIDED|97.5|-5.4|2.8||||||Serotype 5: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-5.4|
82397265|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-1.2|||||TWO_SIDED|97.5|-5.3|2.6||||||Serotype 6A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.6|-5.3|
82371915|NCT01948986|164450349|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|151.8|||||TWO_SIDED|90.0|121.69|189.36|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||189.36|121.69|
82371916|NCT01948986|164450351|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|101.57|||||TWO_SIDED|90.0|78.83|130.87|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||130.87|78.83|
82397266|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-4.7|4.7||||||Serotype 6B: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.7|-4.7|
82426455|NCT04067011|164561852|NON_INFERIORITY|Non-inferiority margin is 0.5.|Ratio of GMT (Group 1/Group 3)|1.13|||||TWO_SIDED|95.0|0.78|1.64||||||||1.64|0.78|
82529632|NCT01976364|164755692|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82529633|NCT01976364|164755692|OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-0.1|
82529634|NCT01976364|164755693|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
82529635|NCT01976364|164755693|OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
82371917|NCT01948986|164450351|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|143.74|||||TWO_SIDED|90.0|117.15|176.37|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||176.37|117.15|
82371918|NCT01948986|164450351|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|140.37|||||TWO_SIDED|90.0|114.4|172.23|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||172.23|114.40|
82371919|NCT01948986|164450351|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|90.18|||||TWO_SIDED|90.0|71.99|112.96|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||112.96|71.99|
82371920|NCT01948986|164450358|SUPERIORITY_OR_OTHER||Ratio (Heathy Normal/T2DM Normal)|80.39|||||TWO_SIDED|90.0|59.41|108.76|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||108.76|59.41|
82371921|NCT01948986|164450358|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./Pooled Norm.)|53.46|||||TWO_SIDED|90.0|41.64|68.63|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||68.63|41.64|
82371922|NCT01948986|164450358|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./Pooled Norm.)|43.45|||||TWO_SIDED|90.0|33.85|55.78|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||55.78|33.85|
82371923|NCT01948986|164450358|SUPERIORITY_OR_OTHER||Ratio (Severe Renal Impair./Pooled Norm.|29.02|||||TWO_SIDED|90.0|22.04|38.21|||||The model was an ANOVA model with renal function group as a fixed effect. The ratios (and 90% CIs) are expressed as percentages.|||38.21|22.04|
82397267|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.4|||||TWO_SIDED|97.5|-2.7|1.6||||||Serotype 7F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.6|-2.7|
82529636|NCT01976364|164755693|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.1|-0.2|
82529637|NCT01976364|164755693|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0|-0.3|
82529638|NCT01976364|164755693|OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.2|0.0||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.0|-0.2|
82371924|NCT01948986|164450375|SUPERIORITY_OR_OTHER||Ratio: Mild Ren. Impa./T2DM Norm. Renal|76.73|||||TWO_SIDED|95.0|48.58|121.19|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||121.19|48.58|
82371925|NCT01948986|164450375|SUPERIORITY_OR_OTHER||Ratio: Mod. Ren. Impa./T2DM Norm. Renal|86.52|||||TWO_SIDED|95.0|54.78|136.65|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||136.65|54.78|
82371926|NCT01948986|164450375|SUPERIORITY_OR_OTHER||Ratio: Sev. Ren. Impa./T2DM Norm. Renal|72.74|||||TWO_SIDED|95.0|44.63|118.58|||||Adjusted geometrics mean values were used. The model was an ANOVA model with renal function group as a fixed effect.|||118.58|44.63|
82371927|NCT01948986|164450377|SUPERIORITY_OR_OTHER||Ratio (Mild Renal Impair./T2DM Norm. Ren|49.75|||||TWO_SIDED|90.0|27.22|90.93|||||The model was an ANOVA model with renal function group as a fixed effect.|||90.93|27.22|
82371928|NCT01948986|164450377|SUPERIORITY_OR_OTHER||Ratio (Mod. Renal Impair./T2DM Norm. Ren|38.1|||||TWO_SIDED|90.0|20.85|69.64|||||The model was an ANOVA model with renal function group as a fixed effect.|||69.64|20.85|
82371929|NCT01948986|164450377|SUPERIORITY_OR_OTHER||Ratio (Sev. Renal Impair./T2DM Norm. Ren|13.95|||||TWO_SIDED|90.0|7.32|26.58|||||The model was an ANOVA model with renal function group as a fixed effect.|||26.58|7.32|
82371930|NCT02283983|164450402|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82371931|NCT03055650|164450424|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change from Baseline in Meibomian Gland Secretion Total Score at Week 1||||<0.0001
82371932|NCT03055650|164450424|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change from Baseline in Meibomian Gland Secretion Total Score at Month 1||||<0.0001
82371933|NCT03055650|164450425|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change From Baseline in Tear Break-Up Time (TBUT) at Week 1||||<0.0001
82371934|NCT03055650|164450425|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.05.||Change From Baseline in Tear Break-Up Time (TBUT) at Month 1||||<0.0001
82426456|NCT04067011|164561852|NON_INFERIORITY|Non-inferiority margin is 0.5.|Ratio of GMT (Group 2/Group 3)|1.14|||||TWO_SIDED|95.0|0.81|1.6||||||||1.6|0.81|
82426457|NCT05209386|164561853|OTHER||||||||||||||||||Permutation-based clustering analysis was used to identify channels that significantly encode change in acoustic dimensions. For each channel, a sliding-window encoding model was built comparing evoked responses (z-scored voltages) to Canonical Block stimuli across varying F0 with fixed VOT. This analysis identified the n = 17 channels and time windows where neural responses differed according to change in F0.|||
82426458|NCT05209386|164561854|OTHER||||||<|0.0001|||||||t-test, 2 sided|t(20.45) = -5.8||||||<0.0001
82529639|NCT01976364|164755694|OTHER||LS mean difference|-2.9|||||TWO_SIDED|95.0|-6.2|0.4||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 1: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.4|-6.2|
82529640|NCT01976364|164755694|OTHER||LS mean difference|-1.5|||||TWO_SIDED|95.0|-5.8|2.7||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 3: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||2.7|-5.8|
82371935|NCT03055650|164450426|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||Change From Baseline in Standard Patient Evaluation of Eye Dryness (SPEED) Total Score at Week 1||||<0.0001
82529641|NCT01976364|164755694|OTHER||LS mean difference|-6.3|||||TWO_SIDED|95.0|-10.2|-2.4||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 6: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||-2.4|-10.2|
82529642|NCT01976364|164755694|OTHER||LS mean difference|-2.8|||||TWO_SIDED|95.0|-7.3|1.6||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 9: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||1.6|-7.3|
82371936|NCT03055650|164450426|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||Change From Baseline in Standard Patient Evaluation of Eye Dryness (SPEED) Total Score at Month 1||||<0.0001
82371937|NCT03055650|164450427|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Statistical significance is set at α = 0.025.||||||<0.0001
82371938|NCT03276221|164450455|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.215|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the paired associates learning module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.215
82397268|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.4|||||TWO_SIDED|97.5|-3.8|2.8||||||Serotype 9V: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-3.8|
82397269|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|-0.8|||||TWO_SIDED|97.5|-4.3|2.5||||||Serotype 14: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.5|-4.3|
82397270|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|1.2|||||TWO_SIDED|97.5|-1.6|4.5||||||Serotype 18C: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.5|-1.6|
82397271|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.8|||||TWO_SIDED|97.5|-1.6|3.6||||||Serotype 19A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||3.6|-1.6|
82397272|NCT01964716|164505367|SUPERIORITY_OR_OTHER||percentage difference|-0.4|||||TWO_SIDED|97.5|-4.4|3.5||||||Serotype 19F: Exact 2-sided confidence interval (based on Chan \& Zhang) for the difference in proportions, 13vPnC multidose vial (MDV) - 13vPnC single-dose syringe (SDS), expressed as a percentage was analyzed.||3.5|-4.4|
82529643|NCT01976364|164755694|OTHER||LS mean difference|-4.9|||||TWO_SIDED|95.0|-9.9|0.2||||||Tofacitinib 5 mg BID + Placebo Vs Tofacitinib 5 mg BID +MTX: Change at Month 12: Results were based on a repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline value; a common unstructured covariance matrix was used.||0.2|-9.9|
82397273|NCT01964716|164505367|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody was demonstrated if the lower bound of the 2-sided, 97.5% confidence interval, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC MDV - 13vPnC SDS) was greater than -0.10.|percent difference|0.0|||||TWO_SIDED|97.5|-4.3|4.4||||||Serotype 23F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.4|-4.3|
82397274|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.87|1.22||||||Serotype 1: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.87|
82397275|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.79|||||TWO_SIDED|97.5|0.71|0.9||||||Serotype 3: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||0.90|0.71|
82529644|NCT01118455|164755791|SUPERIORITY_OR_OTHER|||||||0.507|||||||Cochran-Mantel-Haenszel|||||||0.507
82529645|NCT01118455|164755791|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Cochran-Mantel-Haenszel|||||||0.220
82529646|NCT01118455|164755791|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Cochran-Mantel-Haenszel|||||||0.168
82529647|NCT01118455|164755791|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Cochran-Mantel-Haenszel|||||||0.620
82529648|NCT01118455|164755792|SUPERIORITY_OR_OTHER|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||||||0.727
82529649|NCT01118455|164755792|SUPERIORITY_OR_OTHER|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
82371939|NCT03276221|164450456|SUPERIORITY||Slope|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.495|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the paired associates learning module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of picking the correct box for the abstinence group above and beyond the monitoring group (positive values indicate better memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.495
82397276|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.0|||||TWO_SIDED|97.5|0.86|1.18||||||Serotype 4: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.18|0.86|
82397277|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.01|||||TWO_SIDED|97.5|0.85|1.19||||||Serotype 5: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.19|0.85|
82397278|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.86|1.22||||||Serotype 6A: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.86|
82397279|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.06|||||TWO_SIDED|97.5|0.82|1.36||||||Serotype 6B: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.36|0.82|
82397280|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.94|||||TWO_SIDED|97.5|0.82|1.08||||||Serotype 7F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.08|0.82|
82397281|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.03|||||TWO_SIDED|97.5|0.87|1.21||||||Serotype 9V: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.21|0.87|
82397282|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|0.96|||||TWO_SIDED|97.5|0.75|1.24||||||Serotype 14: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.24|0.75|
82444909|NCT02715726|164598616|SUPERIORITY||LS mean difference|-34.9|||<|0.0001|TWO_SIDED|95.0|-39.5|-30.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.2|-39.5|<0.0001
82529650|NCT01118455|164755792|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
82529651|NCT01118455|164755792|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
82529652|NCT01118455|164755793|SUPERIORITY_OR_OTHER|||||||0.448||95.0|||||t-test, 2 sided|||||||0.448
82529653|NCT01118455|164755793|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||t-test, 2 sided|||||||0.025
82529654|NCT01118455|164755793|SUPERIORITY_OR_OTHER|||||||0.799|||||||t-test, 2 sided|||||||0.799
82529655|NCT01118455|164755793|SUPERIORITY_OR_OTHER|||||||0.142|||||||t-test, 2 sided|||||||0.142
82529656|NCT01118455|164755794|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||t-test, 2 sided|||||||0.714
82529657|NCT01118455|164755794|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||t-test, 2 sided|||||||0.426
82529658|NCT01118455|164755794|SUPERIORITY_OR_OTHER|||||||0.467|||||||t-test, 2 sided|||||||0.467
82529659|NCT01118455|164755794|SUPERIORITY_OR_OTHER|||||||0.654|||||||t-test, 2 sided|||||||0.654
82529660|NCT01118455|164755795|SUPERIORITY_OR_OTHER|||||||0.691|||||||ANOVA|||||||0.691
82529661|NCT01118455|164755795|SUPERIORITY_OR_OTHER|||||||0.494|||||||ANOVA|||||||0.494
82397283|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.28|||||TWO_SIDED|97.5|1.09|1.49||||||Serotype 18C: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.49|1.09|
82397284|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.01|||||TWO_SIDED|97.5|0.82|1.24||||||Serotype 19A: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.24|0.82|
82397285|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.04|||||TWO_SIDED|97.5|0.85|1.26||||||Serotype 19F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.26|0.85|
82397286|NCT01964716|164505368|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given antibody serotype was declared if lower bound of the 2-sided, 97.5% confidence interval for the geometric mean concentration ratio (GMC MDV /GMC SDS) was greater than 0.5 (2-fold criterion).|GMC Ratio|1.2|||||TWO_SIDED|97.5|0.98|1.48||||||Serotype 23F: Ratio of GMCs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale; CIs for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.48|0.98|
82397287|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-7.7|||||TWO_SIDED|95.0|-17.2|1.9||||||Serotype 1: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.9|-17.2|
82444910|NCT02715726|164598617|SUPERIORITY||LS mean difference|-35.4|||<|0.0001|TWO_SIDED|95.0|-40.0|-30.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.7|-40.0|<0.0001
82444911|NCT02715726|164598618|SUPERIORITY|Threshold for significance at 0.05 level.|LS mean difference|-27.4|||<|0.0001|TWO_SIDED|95.0|-30.8|-23.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.9|-30.8|<0.0001
82529662|NCT01118455|164755795|SUPERIORITY_OR_OTHER|||||||0.343|||||||ANOVA|||||||0.343
82529663|NCT01118455|164755795|SUPERIORITY_OR_OTHER|||||||0.295|||||||ANOVA|||||||0.295
82397288|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-1.2|||||TWO_SIDED|95.0|-4.4|1.1||||||Serotype 3: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||1.1|-4.4|
82397289|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.3|2.3||||||Serotype 4: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.3|-2.3|
82397290|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-2.4|||||TWO_SIDED|95.0|-10.6|5.7||||||Serotype 5: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||5.7|-10.6|
82444912|NCT02715726|164598619|SUPERIORITY||LS mean difference|-27.8|||<|0.0001|TWO_SIDED|95.0|-31.2|-24.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.4|-31.2|<0.0001
82444913|NCT02715726|164598620|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-31.8|-23.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.6|-31.8|<0.0001
82529664|NCT01863043|164755814|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|||||||0.27
82529665|NCT01863043|164755815|SUPERIORITY|||||||0.12|||||||Mixed Models Analysis|||||||0.12
82529666|NCT01863043|164755816|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||||||0.28
82529667|NCT01863043|164755817|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
82529668|NCT01863043|164755818|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82529669|NCT01863043|164755819|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82529670|NCT01863043|164755820|SUPERIORITY|||||||0.59|||||||Accelerated failure time regression mode|||||||0.59
82529671|NCT01863043|164755821|SUPERIORITY|||||||0.64|||||||Accelerated failure time regression mode|||||||0.64
82529672|NCT01863043|164755822|SUPERIORITY|||||||0.95|||||||Accelerated failure time regression mode|||||||0.95
82529673|NCT01863043|164755823|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82529674|NCT01863043|164755824|SUPERIORITY|||||||0.23|||||||Accelerated failure time regression mode|||||||0.23
82529675|NCT01863043|164755825|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
82529676|NCT01863043|164755826|SUPERIORITY|||||||0.01|||||||Accelerated failure time regression mode|||||||0.01
82529677|NCT01863043|164755827|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82529678|NCT01863043|164755828|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82529679|NCT01863043|164755830|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82371940|NCT03276221|164450457|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.14||0.05|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial span module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of reaching a longer span for the abstinence group above and beyond the monitoring group (positive values indicate higher span lengths for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.050
82371941|NCT03276221|164450458|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.12||0.532|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial span module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of reaching a longer span for the abstinence group above and beyond the monitoring group (positive values indicate higher span lengths for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.532
82371942|NCT03276221|164450459|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.07||0.226|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.226
82371943|NCT03276221|164450460|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.369|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.369
82371944|NCT03276221|164450461|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.647|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.647
82371945|NCT03276221|164450462|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.511|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the verbal recognition memory module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct choice for the abstinence group above and beyond the monitoring group (positive values indicate higher memory performance for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.511
82371946|NCT03276221|164450463|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.312|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.312
82529680|NCT01863043|164755831|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
82529681|NCT01863043|164755832|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
82529682|NCT01863043|164755833|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
82529683|NCT01863043|164755834|SUPERIORITY|||||||0.694|||||||Wilcoxon (Mann-Whitney)|||||||0.694
82529684|NCT01863043|164755835|SUPERIORITY|||||||0.97|||||||Accelerated failure time regression mode|||||||0.97
82397291|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.9|2.8||||||Serotype 6A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.8|-2.9|
82397292|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6||||||Serotype 6B: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.6|-4.5|
82397293|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.3|2.3||||||Serotype 7F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.3|-2.3|
82397294|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|4.7|||||TWO_SIDED|95.0|-4.5|14.1||||||Serotype 9V: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||14.1|-4.5|
82397295|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-7.8|||||TWO_SIDED|95.0|-15.8|0.0||||||Serotype 14: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||-0.0|-15.8|
82397296|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|0.0|||||TWO_SIDED|95.0|-2.9|2.9||||||Serotype 18C: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.9|-2.9|
82397297|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-1.9|||||TWO_SIDED|95.0|-6.6|2.4||||||Serotype 19A: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||2.4|-6.6|
82397298|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-0.7|||||TWO_SIDED|95.0|-6.3|4.9||||||Serotype 19F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||4.9|-6.3|
82444914|NCT02715726|164598621|SUPERIORITY||LS mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-32.6|-24.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.7|-32.6|<0.0001
82397299|NCT01964716|164505377|SUPERIORITY_OR_OTHER||percent difference|-1.3|||||TWO_SIDED|95.0|-5.8|3.0||||||Serotype 23F: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC MDV - 13vPnC SDS, expressed as a percentage was analyzed.||3.0|-5.8|
82397300|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.7|1.2||||||Serotype 1: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.20|0.70|
82397301|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.69|0.93||||||Serotype 3: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||0.93|0.69|
82397302|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.89|1.39||||||Serotype 4: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.39|0.89|
82397303|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.22||||||Serotype 5: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.22|0.80|
82397304|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.7|1.06||||||Serotype 6A: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.06|0.70|
82397305|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.74|1.33||||||Serotype 6B: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.33|0.74|
82397306|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.7|1.0||||||Serotype 7F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.00|0.70|
82397307|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.79|1.27||||||Serotype 9V: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.27|0.79|
82444915|NCT02715726|164598622|SUPERIORITY||LS mean difference|-20.2|||<|0.0001|TWO_SIDED|95.0|-23.1|-17.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17.2|-23.1|<0.0001
82529685|NCT01863043|164755836|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||||||0.60
82529686|NCT01863043|164755837|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82529687|NCT01863043|164755838|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82529688|NCT01863043|164755839|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82529689|NCT01863043|164755840|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82644933|NCT03732677|165004993|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0002|TWO_SIDED|95.0|0.541|0.826|||Log Rank|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.826|0.541|0.0002
82644934|NCT03732677|165004994|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0081|TWO_SIDED|95.0|0.516|0.907|||Log Rank|Stratified by renal function(adequate vs borderline),tumor stage(T2N0 vs \>T2N0), PDL1 status(high vs low/negative)|The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for renal function (adequate vs borderline), tumor stage (T2N0 vs \>T2N0) and PDL1 status (high vs low/negative)|||0.907|0.516|0.0081
82644935|NCT03131817|165005009|OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82644936|NCT03131817|165005010|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82444916|NCT02715726|164598623|SUPERIORITY||LS mean difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-29.8|-23.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.2|-29.8|<0.0001
82444917|NCT02715726|164598624|SUPERIORITY||LS mean difference|-26.7|||<|0.0001|TWO_SIDED|95.0|-30.5|-22.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.8|-30.5|<0.0001
82444918|NCT02715726|164598625|SUPERIORITY||LS mean difference|-19.3|||<|0.0001|TWO_SIDED|95.0|-22.1|-16.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-16.5|-22.1|<0.0001
82444919|NCT02715726|164598626|SUPERIORITY||Odds Ratio (OR)|11.2|||<|0.0001|TWO_SIDED|95.0|7.1|17.7||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||17.7|7.1|<0.0001
82444920|NCT02715726|164598627|SUPERIORITY||Odds Ratio (OR)|13.6|||<|0.0001|TWO_SIDED|95.0|8.3|22.3||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||22.3|8.3|<0.0001
82444921|NCT02715726|164598628|SUPERIORITY||Adjusted Mean Difference|-34.273|||<|0.0001|TWO_SIDED|95.0|-39.262|-29.285||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.285|-39.262|<0.0001
82529690|NCT01863043|164755841|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
82529691|NCT01863043|164755842|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|||||||0.59
82644937|NCT03131817|165005011|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||"This statistical analysis corresponds to the first outcome row, Reward magnitude effect (higher reward, higher acceptance). The generalized linear mixed model examined the effect of reward magnitude on the probability of accepting offers."||||<0.0001
82444922|NCT02715726|164598629|SUPERIORITY||LS mean difference|1.9||||0.228|TWO_SIDED|95.0|-1.2|4.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/up to 150 mg Q2W vs. Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.9|-1.2|0.2280
82444923|NCT02855944|164598662|SUPERIORITY||Cox Proportional Hazard|0.639||||0.001|TWO_SIDED|95.0|0.489|0.835|||Regression, Cox|||||0.835|0.489|0.0010
82444924|NCT02855944|164598663|SUPERIORITY||Cox Proportional Hazard|0.665||||0.0017|TWO_SIDED|95.0|0.516|0.858|||Regression, Cox|||||0.858|0.516|0.0017
82444925|NCT02855944|164598666|SUPERIORITY||Cox Proportional Hazard|0.589||||0.0401|TWO_SIDED|95.0|0.356|0.976|||Regression, Cox|||||0.976|0.356|0.0401
82444926|NCT02855944|164598667|SUPERIORITY||Cox Proportional Hazard|0.564||||0.024|TWO_SIDED|95.0|0.343|0.927|||Regression, Cox|||||0.927|0.343|0.0240
82444927|NCT02358044|164598676|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of 95% CIs was compared to pre-specified non-inferiority margin, -10% to evaluate non-inferiority. The Missing=Failure (M=F) approach was used to handle missing values.|Adjusted Difference in Percentage|8.8|||<|0.001|TWO_SIDED|95.0|3.6|15.3|||Miettinen & Nurminen Method|||"Primary Analysis Approach: Non-Inferiority~Analyses of the percentage of participants achieving SVR12 was conducted using the Miettinen \& Nurminen (M\&N) method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir+elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% confidence intervals (CIs) and p-values were provided."||15.3|3.6|<0.001
82444928|NCT02358044|164598676|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentage|8.8||||0.001|TWO_SIDED|95.0|3.6|15.3|||Miettinen & Nurminen Method|The lower bound of 95% CIs was compared to zero to evaluate superiority. The M=F approach was used to handle missing values.||"Secondary Analysis Approach: Superiority~Analyses of the percentage of participants achieving SVR12 was conducted using the M\&N method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir +elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% CIs and p-values were provided."||15.3|3.6|0.001
82529692|NCT01863043|164755843|SUPERIORITY|||||||0.888|||||||Mixed Models Analysis|||||||0.888
82529693|NCT01863043|164755844|SUPERIORITY|||||||0.694|||||||Regression, Linear|||||||0.694
82529694|NCT01863043|164755845|SUPERIORITY|||||||0.248|||||||general linear mixed model|||||||0.248
82529695|NCT01863043|164755846|SUPERIORITY|||||||0.694|||||||general linear mixed model|||||||0.694
82529696|NCT01863043|164755847|SUPERIORITY|||||||0.195|||||||Regression, Linear|||||||0.195
82529697|NCT03377790|164755848|SUPERIORITY||||||<|0.0001||||||Differences between treatments arms are compared using a chi-square test.|Chi-squared|||||||<0.0001
82529698|NCT03377790|164755849|SUPERIORITY|||||||0.0067|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0067
82397308|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.48|1.08||||||Serotype 14: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.08|0.48|
82397309|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|1.38|2.19||||||Serotype 18C: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||2.19|1.38|
82397310|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.16||||||Serotype 19A: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.16|0.74|
82397311|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.71|1.18||||||Serotype 19F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.18|0.71|
82397312|NCT01964716|164505378|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.67|1.25||||||Serotype 23F: Ratio of GMTs, MDV to SDS, was calculated by back transforming the mean difference between the vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC MDV - 13vPnC SDS).||1.25|0.67|
82397313|NCT01119846|164505384|SUPERIORITY_OR_OTHER||Slope|0.5782|||||TWO_SIDED|90.0|0.523|0.6335|||||Dose Proportionality for GSK1292263 Using the Power Model.|||0.6335|0.5230|
82397314|NCT01119846|164505386|SUPERIORITY_OR_OTHER||Slope|0.5828|||||TWO_SIDED|90.0|0.5282|0.6375|||||Dose Proportionality for GSK1292263 Using the Power Model for AUC0-24.|||0.6375|0.5282|
82444929|NCT02358044|164598677|SUPERIORITY_OR_OTHER||Difference in Percentage|-41.7|||||TWO_SIDED|95.0|-51.1|-31.9||||||The percentage of participants with an event were assessed via point estimates with 95% CIs provided for between-group comparisons.||-31.9|-51.1|
82444930|NCT02358044|164598679|SUPERIORITY_OR_OTHER||Difference in Percentage|-27.0|||<|0.001|TWO_SIDED|95.0|-35.5|-19.6||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Total Tier 1 AEs:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-19.6|-35.5|<0.001
82644938|NCT03131817|165005011|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||"This statistical analysis corresponds to the second outcome row, Effort cost effect (higher effort, lower acceptance). The generalized linear mixed model examined the effect of effort cost on the probability of accepting offers."||||<0.0001
82397315|NCT01119846|164505386|SUPERIORITY_OR_OTHER||Slope|0.5808|||||TWO_SIDED|90.0|0.5325|0.6291|||||Dose Proportionality for GSK1292263 Using the Power Model for AUC0-last.|||0.6291|0.5325|
82397316|NCT01119846|164505401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.036|||||TWO_SIDED|95.0|-1.17|1.1||||||||1.10|-1.17|
82397317|NCT01119846|164505401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.225|||||TWO_SIDED|95.0|-0.9|1.35||||||||1.35|-0.90|
82397318|NCT01119846|164505401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|||||TWO_SIDED|95.0|-1.1|1.19||||||||1.19|-1.10|
82397319|NCT01119846|164505401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.679|||||TWO_SIDED|95.0|-1.8|0.45||||||||0.45|-1.80|
82397320|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|||||TWO_SIDED|95.0|-1.8|2.33|||||Comparison of AUC(0-24)|||2.33|-1.80|
82397321|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.614|||||TWO_SIDED|95.0|-1.53|2.76|||||Comparison of AUC(0-24)|||2.76|-1.53|
82397322|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.451|||||TWO_SIDED|95.0|-1.64|2.54|||||Comparison of AUC(0-24)|||2.54|-1.64|
82397323|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.469|||||TWO_SIDED|95.0|-1.39|2.33|||||Comparison of AUC(0-24)|||2.33|-1.39|
82397324|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-2.53|1.95|||||Comparison of AUC(0-13)|||1.95|-2.53|
82397325|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|||||TWO_SIDED|95.0|-2.35|2.3|||||Comparison of AUC(0-13)|||2.30|-2.35|
82397326|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.163|||||TWO_SIDED|95.0|-2.48|2.15|||||Comparison of AUC(0-13)|||2.15|-2.48|
82397327|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|||||TWO_SIDED|95.0|-1.88|2.21|||||Comparison of AUC(0-13)|||2.21|-1.88|
82397328|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|||||TWO_SIDED|95.0|-1.58|0.87|||||Comparison of iAUC(0-13)|||0.87|-1.58|
82397329|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.136|||||TWO_SIDED|95.0|-1.41|1.13|||||Comparison of iAUC(0-13)|||1.13|-1.41|
82397330|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.091|||||TWO_SIDED|95.0|-1.36|1.18|||||Comparison of iAUC(0-13)|||1.18|-1.36|
82397331|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.206|||||TWO_SIDED|95.0|-1.33|0.91|||||Comparison of iAUC(0-13)|||0.91|-1.33|
82397332|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.499|||||TWO_SIDED|95.0|-1.68|0.68|||||Comparison of iAUC(0-24)|||0.68|-1.68|
82529699|NCT03377790|164755850|SUPERIORITY|||||||0.0152|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0152
82529700|NCT03377790|164755851|SUPERIORITY|||||||0.0302|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0302
82529701|NCT03377790|164755852|SUPERIORITY|||||||0.5921|||||||ANCOVA|Differences between Tx arms are compared using an ANCOVA with treatment as the independent factor and baseline CDLQI composite score as the covariate.||||||0.5921
82397333|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|||||TWO_SIDED|95.0|-1.24|1.21|||||Comparison of iAUC(0-24)|||1.21|-1.24|
82397334|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|||||TWO_SIDED|95.0|-1.44|0.95|||||Comparison of iAUC(0-24)|||0.95|-1.44|
82397335|NCT01119846|164505402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.661|||||TWO_SIDED|95.0|-1.72|0.4|||||Comparison of iAUC(0-24)|||0.40|-1.72|
82529702|NCT03377790|164755853|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Differences between treatment arms are compared using an ANCOVA, with treatment as the independent factor and baseline lesion count as the covariate.||||||<0.0001
82397336|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.898|||||TWO_SIDED|95.0|-479.74|379.94|||||Comparison of C-peptide, AUC 0-12|||379.94|-479.74|
82397337|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.642|||||TWO_SIDED|95.0|-507.32|384.04|||||Comparison of C-peptide, AUC 0-12|||384.04|-507.32|
82397338|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-85.849|||||TWO_SIDED|95.0|-530.07|358.37|||||Comparison of C-peptide, AUC 0-12|||358.37|-530.07|
82397339|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.422|||||TWO_SIDED|95.0|-494.09|291.25|||||Comparison of C-peptide, AUC 0-12|||291.25|-494.09|
82397340|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.239|||||TWO_SIDED|95.0|-340.32|261.85|||||Comparison of C-peptide, iAUC 0-12|||261.85|-340.32|
82448978|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% confidence intervals (CIs) for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.97|||||TWO_SIDED|95.0|0.871|1.08|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.080|0.871|
82397341|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-117.435|||||TWO_SIDED|95.0|-429.61|194.74|||||Comparison of C-peptide, iAUC 0-12|||194.74|-429.61|
82397342|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-121.982|||||TWO_SIDED|95.0|-433.14|189.18|||||Comparison of C-peptide, iAUC 0-12|||189.18|-433.14|
82397343|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-81.016|||||TWO_SIDED|95.0|-356.07|194.03|||||Comparison of C-peptide, iAUC 0-12|||194.03|-356.07|
82397344|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.812|||||TWO_SIDED|95.0|-8.08|13.7|||||Comparison of GIP total, AUC 0-12|||13.70|-8.08|
82397345|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.023|||||TWO_SIDED|95.0|-8.27|14.32|||||Comparison of GIP total, AUC 0-12|||14.32|-8.27|
82397346|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.483|||||TWO_SIDED|95.0|0.23|22.74|||||Comparison of GIP total, AUC 0-12|||22.74|0.23|
82397347|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.093|||||TWO_SIDED|95.0|-17.04|2.86|||||Comparison of GIP total, AUC 0-12|||2.86|-17.04|
82397348|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-7.28|12.28|||||Comparison of GIP total, iAUC 0-12|||12.28|-7.28|
82397349|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.526|||||TWO_SIDED|95.0|-6.61|13.67|||||Comparison of GIP total, iAUC 0-12|||13.67|-6.61|
82397350|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.934|||||TWO_SIDED|95.0|-2.17|18.04|||||Comparison of GIP total, iAUC 0-12|||18.04|-2.17|
82397351|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.055|||||TWO_SIDED|95.0|-15.99|1.88|||||Comparison of GIP total, iAUC 0-12|||1.88|-15.99|
82397352|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|||||TWO_SIDED|95.0|-0.79|0.76|||||Comparison of GLP-1 active, AUC 0-12|||0.76|-0.79|
82397353|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|||||TWO_SIDED|95.0|-0.78|0.82|||||Comparison of GLP-1 active, AUC 0-12|||0.82|-0.78|
82397354|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||||TWO_SIDED|95.0|-0.78|0.85|||||Comparison of GLP-1 active, AUC 0-12|||0.85|-0.78|
82397355|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.454|||||TWO_SIDED|95.0|2.74|4.17|||||Comparison of GLP-1 active, AUC 0-12|||4.17|2.74|
82397356|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.78|0.75|||||Comparison of GLP-1 active, iAUC 0-12|||0.75|-0.78|
82397357|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|||||TWO_SIDED|95.0|-0.79|0.8|||||Comparison of GLP-1 active, iAUC 0-12|||0.80|-0.79|
82397358|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|||||TWO_SIDED|95.0|-0.79|0.83|||||Comparison of GLP-1 active, iAUC 0-12|||0.83|-0.79|
82397359|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.399|||||TWO_SIDED|95.0|2.69|4.11|||||Comparison of GLP-1 active, iAUC 0-12|||4.11|2.69|
82397360|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|||||TWO_SIDED|95.0|-2.06|2.17|||||Comparison of GLP-1 total, AUC 0-12|||2.17|-2.06|
82397361|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|||||TWO_SIDED|95.0|-1.97|2.42|||||Comparison of GLP-1 total, AUC 0-12|||2.42|-1.97|
82397362|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.835|||||TWO_SIDED|95.0|-0.35|4.02|||||Comparison of GLP-1 total, AUC 0-12|||4.02|-0.35|
82397363|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.629|||||TWO_SIDED|95.0|-3.56|0.3|||||Comparison of GLP-1 total, AUC 0-12|||0.30|-3.56|
82397364|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|||||TWO_SIDED|95.0|-1.7|1.86|||||Comparison of GLP-1 total, iAUC 0-12|||1.86|-1.70|
82397365|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|||||TWO_SIDED|95.0|-1.56|2.13|||||Comparison of GLP-1 total, iAUC 0-12|||2.13|-1.56|
82397366|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764|||||TWO_SIDED|95.0|-1.08|2.6|||||Comparison of GLP-1 total, iAUC 0-12|||2.60|-1.08|
82397367|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.336|||||TWO_SIDED|95.0|-2.96|0.29|||||Comparison of GLP-1 total, iAUC 0-12|||0.29|-2.96|
82529703|NCT03377790|164755854|SUPERIORITY||||||<|0.0001|||||||ANCOVA|Differences between treatment arms are compared using an ANCOVA, with treatment as the independent factor and baseline lesion count as the covariate.||||||<0.0001
82397368|NCT01119846|164505403|SUPERIORITY||Mean Difference (Final Values)|0.962|||||TWO_SIDED|95.0|-4.26|6.18|||||Comparison of Glucagon, AUC 0-12|||6.18|-4.26|
82397369|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.067|||||TWO_SIDED|95.0|-2.56|8.69|||||Comparison of Glucagon, AUC 0-12|||8.69|-2.56|
82397370|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.517|||||TWO_SIDED|95.0|-2.98|8.01|||||Comparison of Glucagon, AUC 0-12|||8.01|-2.98|
82397371|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.714|||||TWO_SIDED|95.0|-5.56|4.13|||||Comparison of Glucagon, AUC 0-12|||4.13|-5.56|
82397372|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.866|||||TWO_SIDED|95.0|-6.4|0.67|||||Comparison of Glucagon, iAUC 0-12|||0.67|-6.40|
82397373|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.865|||||TWO_SIDED|95.0|-4.68|2.95|||||Comparison of Glucagon, iAUC 0-12|||2.95|-4.68|
82397374|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.436|||||TWO_SIDED|95.0|-4.16|3.29|||||Comparison of Glucagon, iAUC 0-12|||3.29|-4.16|
82397375|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.573|||||TWO_SIDED|95.0|-4.86|1.71|||||Comparison of Glucagon, iAUC 0-12|||1.71|-4.86|
82397376|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.74|||||TWO_SIDED|95.0|-168.38|118.9|||||Comparison of Insulin, AUC 0-13|||118.90|-168.38|
82397377|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.229|||||TWO_SIDED|95.0|-161.16|136.7|||||Comparison of Insulin, AUC 0-13|||136.70|-161.16|
82397378|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.628|||||TWO_SIDED|95.0|-158.07|138.81|||||Comparison of Insulin, AUC 0-13|||138.81|-158.07|
82397379|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.936|||||TWO_SIDED|95.0|-198.15|64.28|||||Comparison of Insulin, AUC 0-13|||64.28|-198.15|
82397380|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.042|||||TWO_SIDED|95.0|-150.57|78.48|||||Comparison of Insulin, iAUC 0-13|||78.48|-150.57|
82397381|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.525|||||TWO_SIDED|95.0|-141.27|96.22|||||Comparison of Insulin, iAUC 0-13|||96.22|-141.27|
82397382|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.0|||||TWO_SIDED|95.0|-140.36|96.36|||||Comparison of Insulin, iAUC 0-13|||96.36|-140.36|
82397383|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.324|||||TWO_SIDED|95.0|-170.95|38.3|||||Comparison of Insulin, iAUC 0-13|||38.30|-170.95|
82397384|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.982|||||TWO_SIDED|95.0|-2.66|14.62|||||Comparison of PYY total, AUC 0-12|||14.62|-2.66|
82397385|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.908|||||TWO_SIDED|95.0|-0.05|17.86|||||Comparison of PYY total, AUC 0-12|||17.86|-0.05|
82397386|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.317|||||TWO_SIDED|95.0|5.39|23.24|||||Comparison of PYY total, AUC 0-12|||23.24|5.39|
82397387|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-13.33|2.45|||||Comparison of PYY total, AUC 0-12|||2.45|-13.33|
82397388|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.999|||||TWO_SIDED|95.0|-1.87|11.87|||||Comparison of PYY total, iAUC 0-12|||11.87|-1.87|
82397389|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.909|||||TWO_SIDED|95.0|-0.22|14.03|||||Comparison of PYY total, iAUC 0-12|||14.03|-0.22|
82397390|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.036|||||TWO_SIDED|95.0|1.93|16.14|||||Comparison of PYY total, iAUC 0-12|||16.14|1.93|
82397391|NCT01119846|164505403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.39|||||TWO_SIDED|95.0|-12.67|-0.11|||||Comparison of PYY total, iAUC 0-12|||-0.11|-12.67|
82397392|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.564|||||TWO_SIDED|95.0|-2.69|1.56|||||Comparison of AUC 0-3|||1.56|-2.69|
82397393|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.846|||||TWO_SIDED|95.0|-3.05|1.36|||||Comparison of AUC 0-3|||1.36|-3.05|
82397394|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.175|||||TWO_SIDED|95.0|-3.37|1.02|||||Comparison of AUC 0-3|||1.02|-3.37|
82397395|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.617|||||TWO_SIDED|95.0|-2.56|1.33|||||Comparison of AUC 0-3|||1.33|-2.56|
82397396|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.626|||||TWO_SIDED|95.0|-1.64|0.39|||||Comparison of iAUC 0-3|||0.39|-1.64|
82397397|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.956|||||TWO_SIDED|95.0|-2.01|0.09|||||Comparison of iAUC 0-3|||0.09|-2.01|
82397398|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.103|||||TWO_SIDED|95.0|-2.15|-0.06|||||Comparison of iAUC 0-3|||-0.06|-2.15|
82397399|NCT01119846|164505404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|||||TWO_SIDED|95.0|-1.91|-0.07|||||Comparison of iAUC 0-3|||-0.07|-1.91|
82397400|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|152.962|||||TWO_SIDED|95.0|-200.57|506.49|||||Comparison of C-peptide, AUC 0-2|||506.49|-200.57|
82397401|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.866|||||TWO_SIDED|95.0|-252.69|480.42|||||Comparison of C-peptide, AUC 0-2|||480.42|-252.69|
82397402|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|114.474|||||TWO_SIDED|95.0|-250.89|479.83|||||Comparison of C-peptide, AUC 0-2|||479.83|-250.89|
82397403|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|136.638|||||TWO_SIDED|95.0|-186.32|459.6|||||Comparison of C-peptide, AUC 0-2|||459.60|-186.32|
82397404|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|163.622|||||TWO_SIDED|95.0|-127.31|454.55|||||Comparison of C-peptide, iAUC 0-2|||454.55|-127.31|
82397405|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.074|||||TWO_SIDED|95.0|-243.57|359.72|||||Comparison of C-peptide, iAUC 0-2|||359.72|-243.57|
82397406|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.341|||||TWO_SIDED|95.0|-222.32|379.0|||||Comparison of C-peptide, iAUC 0-2|||379.00|-222.32|
82397407|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|157.044|||||TWO_SIDED|95.0|-108.73|422.82|||||Comparison of C-peptide, iAUC 0-2|||422.82|-108.73|
82397408|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.539|||||TWO_SIDED|95.0|-4.79|17.87|||||Comparison of GIP total, AUC 0-2|||17.87|-4.79|
82397409|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.095|||||TWO_SIDED|95.0|-7.65|15.84|||||Comparison of GIP total, AUC 0-2|||15.84|-7.65|
82397410|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.033|||||TWO_SIDED|95.0|1.33|24.74|||||Comparison of GIP total, AUC 0-2|||24.74|1.33|
82529704|NCT03377790|164755855|SUPERIORITY||||||<|0.0001|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||<0.0001
82529705|NCT03377790|164755856|SUPERIORITY||||||<|0.0001|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||<0.0001
82529706|NCT03377790|164755857|SUPERIORITY|||||||0.052|||||||Chi-squared|Differences between treatments arms are compared using a chi-square test.||||||0.0520
82644939|NCT05838755|165005015|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Posterior Mean Difference|-0.65|||||TWO_SIDED|95.0|-1.47|0.18|||||Posterior mean difference with 95% credible interval is reported using Bayesian mixed model repeated measures analysis.|||0.18|-1.47|
82529707|NCT01987596|164755859|SUPERIORITY|||||||1|||||||McNemar|||||||1.00
82529708|NCT01987596|164755860|SUPERIORITY||||||<|0.0001|||||||ANOVA|||two-period crossover design analysis||||<0.0001
82529709|NCT01987596|164755861|SUPERIORITY||||||<|0.0001|||||||ANOVA|||2 treatment, 2 periiod cross-over analysis||||<0.0001
82529710|NCT02632786|164755862|SUPERIORITY||Risk Ratio (RR)|0.82||||0.319|TWO_SIDED|95.0|0.55|1.21|||Cochran-Mantel-Haenszel|||||1.21|0.55|0.3190
82529711|NCT02632786|164755863|SUPERIORITY||Mean Difference (Net)|-0.78||||0.5563|TWO_SIDED|95.0|-3.37|1.81|||Mixed Models Analysis|||||1.81|-3.37|0.5563
82644940|NCT05838755|165005015|OTHER|Analysis performed using a Bayesian mixed model repeated measures adjusting for treatment, week, baseline, region and the treatment by week and baseline by week interactions using vague priors.|Posterior Mean Difference|-0.22|||||TWO_SIDED|95.0|-1.04|0.61|||||Posterior mean difference with 95% credible interval is reported using Bayesian mixed model repeated measures analysis.|||0.61|-1.04|
82644941|NCT04647253|165005042|SUPERIORITY||Rate difference between treatment groups|-10.8||||0.0025|TWO_SIDED|95.0|-18.4|-3.3||a priori threshold for statistical significance was 0.025|z-test with unpooled variance|||||-3.3|-18.4|0.0025
82397411|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.824|||||TWO_SIDED|95.0|-13.17|7.52|||||Comparison of GIP total, AUC 0-2|||7.52|-13.17|
82397412|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.227|||||TWO_SIDED|95.0|-3.47|15.93|||||Comparison of GIP total, iAUC 0-2|||15.93|-3.47|
82397413|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.598|||||TWO_SIDED|95.0|-5.46|14.65|||||Comparison of GIP total, iAUC 0-2|||14.65|-5.46|
82397414|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.484|||||TWO_SIDED|95.0|-0.54|19.51|||||Comparison of GIP total, iAUC 0-2|||19.51|-0.54|
82397415|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.786|||||TWO_SIDED|95.0|-11.65|6.08|||||Comparison of GIP total, iAUC 0-2|||6.08|-11.65|
82397416|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|||||TWO_SIDED|95.0|-0.38|0.52|||||Comparison of GLP-1 active, AUC 0-2|||0.52|-0.38|
82397417|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.256|||||TWO_SIDED|95.0|-0.21|0.72|||||Comparison of GLP-1 active, AUC 0-2|||0.72|-0.21|
82397418|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|||||TWO_SIDED|95.0|-0.42|0.51|||||Comparison of GLP-1 active, AUC 0-2|||0.51|-0.42|
82397419|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.694|||||TWO_SIDED|95.0|2.28|3.11|||||Comparison of GLP-1 active, AUC 0-2|||3.11|2.28|
82397420|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|||||TWO_SIDED|95.0|-0.36|0.5|||||Comparison of GLP-1 active, iAUC 0-2|||0.50|-0.36|
82397421|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|||||TWO_SIDED|95.0|-0.2|0.69|||||Comparison of GLP-1 active, iAUC 0-2|||0.69|-0.20|
82397422|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|||||TWO_SIDED|95.0|-0.41|0.47|||||Comparison of GLP-1 active, iAUC 0-2|||0.47|-0.41|
82397423|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.643|||||TWO_SIDED|95.0|2.25|3.04|||||Comparison of GLP-1 active, iAUC 0-2|||3.04|2.25|
82397424|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||||TWO_SIDED|95.0|-1.44|1.55|||||Comparison of GLP-1 total, AUC 0-2|||1.55|-1.44|
82529712|NCT02632786|164755864|SUPERIORITY||Mean Difference (Net)|5.0||||0.8992|TWO_SIDED|95.0|-11.5|23.0|||ANCOVA|||||23.00|-11.50|0.8992
82529713|NCT02632786|164755865|SUPERIORITY||Risk Ratio (RR)|1.54||||0.3529|TWO_SIDED|95.0|0.6|3.94|||Cochran-Mantel-Haenszel|||||3.94|0.60|0.3529
82529714|NCT02632786|164755866|SUPERIORITY||Mean Difference (Net)|-0.6||||0.757|TWO_SIDED|95.0|-4.2|3.0|||Mixed Models Analysis|||||3.0|-4.2|0.7570
82529715|NCT02632786|164755867|SUPERIORITY||Slope|-71.97||||0.0729|TWO_SIDED|95.0|-150.72|6.79|||Mixed Models Analysis|||||6.79|-150.72|0.0729
82529716|NCT02632786|164755868|SUPERIORITY|||||||0.4142|||||||Cochran-Mantel-Haenszel|||||||0.4142
82529717|NCT01928225|164755869|SUPERIORITY||Risk Ratio (RR)|1.18||||0.29|TWO_SIDED|95.0|0.87|1.6||\<0.05 was considered statistically significant.|Chi-squared|||||1.6|.87|.29
82529718|NCT01928225|164755870|SUPERIORITY||Risk Ratio (RR)|1.26||||0.22|TWO_SIDED|95.0|0.85|1.95|||Chi-squared|||||1.95|.85|.22
82529719|NCT02674490|164755889|SUPERIORITY|||||||0.54||||||Threshold for significance is two-sided alpha of 0.05.|Regression, Linear|The primary analysis was adjusted for aphasia type (Anomia, Broca, or other type), baseline aphasia severity (AQ), and age.||Sample Size Determination If sample size in each group is 20, we will have 89% power to detect a difference in means of 23 (the difference between A-tDCS mean change in accuracy of 33 and a sham mean change in accuracy of 10) assuming that the SD of change for both groups is 22.2 using a two group t-test with a two-sided alpha of 0.05.||||0.54
82529720|NCT03154359|164755903|OTHER|||||||0.197|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.197
82529721|NCT03154359|164755903|OTHER|||||||0.562|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.562
82529722|NCT03154359|164755904|OTHER|||||||0.558|||||||t-test, 2 sided|||||||0.558
82529723|NCT03154359|164755905|OTHER|||||||0.147|||||||t-test, 2 sided|||||||0.147
82529724|NCT03154359|164755906|OTHER|||||||0.495|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.495
82529725|NCT03154359|164755906|OTHER|||||||0.955|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.955
82529726|NCT03154359|164755907|OTHER|||||||0.991|||||||t-test, 2 sided|||||||0.991
82371947|NCT03276221|164450464|SUPERIORITY||Slope|1.92|STANDARD_ERROR_OF_MEAN|9.27||0.836|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median response latency for the abstinence group above and beyond the monitoring group (positive values indicate higher slower responses for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.836
82371948|NCT03276221|164450465|SUPERIORITY||Slope|-0.5|STANDARD_ERROR_OF_MEAN|3.93||0.898|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median incongruency cost for the abstinence group above and beyond the monitoring group (positive values indicate higher costs for incongruent trials for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.898
82397425|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|||||TWO_SIDED|95.0|-1.28|1.82|||||Comparison of GLP-1 total, AUC 0-2|||1.82|-1.28|
82397426|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.894|||||TWO_SIDED|95.0|-0.65|2.44|||||Comparison of GLP-1 total, AUC 0-2|||2.44|-0.65|
82397427|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.483|||||TWO_SIDED|95.0|-2.85|-0.12|||||Comparison of GLP-1 total, AUC 0-2|||-0.12|-2.85|
82397428|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|||||TWO_SIDED|95.0|-1.18|1.34|||||Comparison of GLP-1 total, iAUC 0-2|||1.34|-1.18|
82397429|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|||||TWO_SIDED|95.0|-0.97|1.63|||||Comparison of GLP-1 total, iAUC 0-2|||1.63|-0.97|
82397430|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.177|||||TWO_SIDED|95.0|-1.48|1.12|||||Comparison of GLP-1 total, iAUC 0-2|||1.12|-1.48|
82444931|NCT02358044|164598679|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.4||||0.078|TWO_SIDED|95.0|-6.8|0.6||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Serious drug-related AEs:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||0.6|-6.8|0.078
82529727|NCT03154359|164755908|OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
82529728|NCT03154359|164755909|OTHER|||||||0.456|||||||t-test, 2 sided|||Comparing 6-week responders and 6-week non-responders||||0.456
82529729|NCT03154359|164755909|OTHER|||||||0.822|||||||t-test, 2 sided|||Comparing 18-week responders and 18-week non-responders||||0.822
82397431|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.19|||||TWO_SIDED|95.0|-2.34|-0.04|||||Comparison of GLP-1 total, iAUC 0-2|||-0.04|-2.34|
82397432|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.235|||||TWO_SIDED|95.0|-1.51|3.98|||||Comparison of Glucagon, AUC 0-2|||3.98|-1.51|
82397433|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.877|||||TWO_SIDED|95.0|0.04|5.71|||||Comparison of Glucagon, AUC 0-2|||5.71|0.04|
82397434|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.473|||||TWO_SIDED|95.0|-1.21|4.16|||||Comparison of Glucagon, AUC 0-2|||4.16|-1.21|
82397435|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.274|||||TWO_SIDED|95.0|-2.2|2.74|||||Comparison of Glucagon, AUC 0-2|||2.74|-2.20|
82397436|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.177|||||TWO_SIDED|95.0|-4.92|0.56|||||Comparison of Glucagon, iAUC 0-2|||0.56|-4.92|
82397437|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.909|||||TWO_SIDED|95.0|-4.74|0.93|||||Comparison of Glucagon, iAUC 0-2|||0.93|-4.74|
82397438|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.053|||||TWO_SIDED|95.0|-3.74|1.63|||||Comparison of Glucagon, iAUC 0-2|||1.63|-3.74|
82397439|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.249|||||TWO_SIDED|95.0|-3.72|1.22|||||Comparison of Glucagon, iAUC 0-2|||1.22|-3.72|
82397440|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.389|||||TWO_SIDED|95.0|-95.82|122.59|||||Comparison of Insulin, AUC 0-3|||122.59|-95.82|
82397441|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|||||TWO_SIDED|95.0|-103.25|123.21|||||Comparison of Insulin, AUC 0-3|||123.21|-103.25|
82397442|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.426|||||TWO_SIDED|95.0|-80.43|145.28|||||Comparison of Insulin, AUC 0-3|||145.28|-80.43|
82397443|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.994|||||TWO_SIDED|95.0|-76.77|122.76|||||Comparison of Insulin, AUC 0-3|||122.76|-76.77|
82397444|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.088|||||TWO_SIDED|95.0|-86.79|90.97|||||Comparison of Insulin, iAUC 0-3|||90.97|-86.79|
82397445|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||||TWO_SIDED|95.0|-92.47|91.84|||||Comparison of Insulin, iAUC 0-3|||91.84|-92.47|
82397446|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.053|||||TWO_SIDED|95.0|-71.8|111.91|||||Comparison of Insulin, iAUC 0-3|||111.91|-71.80|
82529730|NCT03154359|164755910|OTHER|||||||0.343|||||||t-test, 2 sided|||||||0.343
82529731|NCT03154359|164755911|OTHER|||||||0.539|||||||t-test, 2 sided|||||||0.539
82529732|NCT03154359|164755912|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.130
82529733|NCT03154359|164755913|OTHER|||||||0.652|||||||t-test, 2 sided|||||||0.652
82529734|NCT04250337|164755919|SUPERIORITY||Risk Difference (RD)|18.3||||0.011|TWO_SIDED|95.0|5.1|31.5|||Cochran-Mantel-Haenszel|||||31.5|5.1|0.011
82529735|NCT04250337|164755920|SUPERIORITY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|12.1|40.8|||Cochran-Mantel-Haenszel|||||40.8|12.1|<.001
82529736|NCT04250337|164755921|SUPERIORITY||Risk Difference (RD)|18.9||||0.008|TWO_SIDED|95.0|6.1|31.7|||Cochran-Mantel-Haenszel|||||31.7|6.1|0.008
82529737|NCT04250337|164755922|SUPERIORITY||LS Mean Difference (Final Values)|-15.21|STANDARD_ERROR_OF_MEAN|6.373||0.017263|TWO_SIDED|95.0|-27.7|-2.7|||ANCOVA|||||-2.7|-27.7|0.017263
82529738|NCT04250337|164755923|SUPERIORITY||Risk Difference (RD)|19.2||||0.017|TWO_SIDED|95.0|4.3|34.1|||Cochran-Mantel-Haenszel|||||34.1|4.3|0.017
82529739|NCT04250337|164755924|SUPERIORITY||Risk Difference (RD)|21.6||||0.007|TWO_SIDED|95.0|7.1|36.1|||Cochran-Mantel-Haenszel|||||36.1|7.1|0.007
82529740|NCT04250337|164755925|SUPERIORITY||LS Mean Difference (Final Values)|-23.64|STANDARD_ERROR_OF_MEAN|5.074||3e-06|TWO_SIDED|95.0|-33.6|-13.7|||ANCOVA|||||-13.7|-33.6|0.000003
82529741|NCT04250337|164755926|SUPERIORITY||LS Mean Difference (Final Values)|-12.28|STANDARD_ERROR_OF_MEAN|2.428|<|0.001|TWO_SIDED|95.0|-17.07|-7.49|||Mixed Models Analysis|||||-7.49|-17.07|<0.001
82529742|NCT04250337|164755927|SUPERIORITY||Risk Difference (RD)|3.5||||0.454|TWO_SIDED|95.0|-4.9|11.8|||Cochran-Mantel-Haenszel|||||11.8|-4.9|0.454
82529743|NCT04250337|164755928|SUPERIORITY||Markov Chain Monte Carlo (MCMC)|-20.14|STANDARD_ERROR_OF_MEAN|12.81||0.117607|TWO_SIDED|95.0|-45.4|5.1|||ANCOVA|||||5.1|-45.4|0.117607
82529744|NCT04250337|164755929|SUPERIORITY||Markov Chain Monte Carlo (MCMC)|-0.3|STANDARD_ERROR_OF_MEAN|0.134||0.025293|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.025293
82529745|NCT04250337|164755930|SUPERIORITY||Risk Difference (RD)|14.2||||0.022|TWO_SIDED|95.0|3.8|24.7|||Cochran-Mantel-Haenszel|||||24.7|3.8|0.022
82529746|NCT04250337|164755931|SUPERIORITY||Risk Difference (RD)|1.2||||0.764|TWO_SIDED|95.0|-7.3|9.7|||Cochran-Mantel-Haenszel|||||9.7|-7.3|0.764
82529747|NCT04250337|164755932|SUPERIORITY||Risk Difference (RD)|1.9||||0.498|TWO_SIDED|95.0|-2.9|6.7|||Cochran-Mantel-Haenszel|||||6.7|-2.9|0.498
82529748|NCT04250337|164755933|SUPERIORITY||Risk Difference (RD)|15.6||||0.014|TWO_SIDED|95.0|5.3|25.9|||Cochran-Mantel-Haenszel|||||25.9|5.3|0.014
82529749|NCT04250337|164755934|SUPERIORITY||Risk Difference (RD)|1.1||||0.818|TWO_SIDED|95.0|-8.0|10.2|||Cochran-Mantel-Haenszel|||||10.2|-8.0|0.818
82529750|NCT04250337|164755935|SUPERIORITY||Risk Difference (RD)|2.0||||0.499|TWO_SIDED|95.0|-3.1|7.1|||Cochran-Mantel-Haenszel|||||7.1|-3.1|0.499
82529751|NCT04250337|164755936|SUPERIORITY||LS Mean Difference (Final Values)|7.29|STANDARD_ERROR_OF_MEAN|5.104||0.155|TWO_SIDED|95.0|-2.78|17.36|||Mixed Models Analysis|||||17.36|-2.78|0.155
82529752|NCT04250337|164755938|SUPERIORITY||LS Mean Difference (Final Values)|-17.69|STANDARD_ERROR_OF_MEAN|4.403|<|0.001|TWO_SIDED|95.0|-26.37|-9.01|||ANCOVA|||||-9.01|-26.37|<0.001
82529753|NCT04250337|164755939|SUPERIORITY||LS Mean Difference (Final Values)|-3.33|STANDARD_ERROR_OF_MEAN|1.014||0.001031|TWO_SIDED|95.0|-5.3|-1.3|||ANCOVA|||||-1.3|-5.3|0.001031
82529754|NCT04250337|164755940|SUPERIORITY||Risk Difference (RD)|17.2||||0.036|TWO_SIDED|95.0|0.1|34.3|||Cochran-Mantel-Haenszel|||||34.3|0.1|0.036
82529755|NCT04250337|164755941|SUPERIORITY||LS Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.06|0.16|||ANCOVA|||Health State Index UK||0.16|0.06|<0.001
82529756|NCT04250337|164755941|SUPERIORITY||LS Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.018|<|0.001|TWO_SIDED|95.0|0.04|0.11|||ANCOVA|||Health State Index US||0.11|0.04|<0.001
82529757|NCT04250337|164755942|SUPERIORITY||LS Mean Difference (Final Values)|3.62|STANDARD_ERROR_OF_MEAN|2.386||0.131|TWO_SIDED|95.0|-1.08|8.32|||ANCOVA|||||8.32|-1.08|0.131
82529758|NCT04250337|164755943|SUPERIORITY||LS Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|1.145|<|0.001|TWO_SIDED|95.0|-6.26|-1.74|||Mixed Models Analysis|||||-1.74|-6.26|<0.001
82529759|NCT04250337|164755944|SUPERIORITY||LS Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.407||0.571|TWO_SIDED|95.0|-3.58|1.98|||ANCOVA|||||1.98|-3.58|0.571
82529760|NCT04250337|164755945|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.127||0.882|TWO_SIDED|95.0|-2.4|2.06|||ANCOVA|||||2.06|-2.40|0.882
82529761|NCT04250337|164755946|SUPERIORITY||LS Mean Difference (Final Values)|3.46|STANDARD_ERROR_OF_MEAN|2.48||0.171|TWO_SIDED|95.0|-1.56|8.48|||ANCOVA|||||8.48|-1.56|0.171
82529762|NCT04250337|164755947|SUPERIORITY||LS Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|2.697||0.109|TWO_SIDED|95.0|-1.03|9.89|||ANCOVA|||||9.89|-1.03|0.109
82529763|NCT04250337|164755948|SUPERIORITY||LS Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.116||0.922|TWO_SIDED|95.0|-0.22|0.24|||ANCOVA|||||0.24|-0.22|0.922
82529764|NCT04250337|164755949|SUPERIORITY||LS Mean Difference (Final Values)|-4.62|STANDARD_ERROR_OF_MEAN|1.271||0.001|TWO_SIDED|95.0|-7.22|-2.03|||Mixed Models Analysis|||||-2.03|-7.22|0.001
82529765|NCT01678820|164755984|SUPERIORITY_OR_OTHER||Difference in least squares means|0.19||||0.267|TWO_SIDED|95.0|-0.14|0.52|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment||||0.52|-0.14|0.267
82529766|NCT01678820|164755985|SUPERIORITY_OR_OTHER||Difference in percents|-0.4|||||TWO_SIDED|95.0|-10.2|9.3|||||Based on Miettinen \& Nurminen method|||9.3|-10.2|
82529767|NCT01678820|164755985|SUPERIORITY_OR_OTHER||Difference in percents|-4.3|||||TWO_SIDED|95.0|-14.7|5.8|||||Based on Miettinen \& Nurminen method|||5.8|-14.7|
82529768|NCT01678820|164755987|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62|||<|0.001|TWO_SIDED|95.0|-0.95|-0.28|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-0.28|-0.95|<0.001
82529769|NCT01678820|164755988|SUPERIORITY_OR_OTHER||Difference in least squares means|1.7||||0.856|TWO_SIDED|95.0|-17.1|20.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||20.6|-17.1|0.856
82529770|NCT01678820|164755988|SUPERIORITY_OR_OTHER||Difference in least squares means|-29.2||||0.002|TWO_SIDED|95.0|-47.9|-10.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-10.6|-47.9|0.002
82397447|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.606|||||TWO_SIDED|95.0|-57.59|104.8|||||Comparison of Insulin, iAUC 0-3|||104.80|-57.59|
82397448|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.506|||||TWO_SIDED|95.0|-3.13|10.14|||||Comparison of PYY total, AUC 0-2|||10.14|-3.13|
82397449|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.295|||||TWO_SIDED|95.0|0.41|14.18|||||Comparison of PYY total, AUC 0-2|||14.18|0.41|
82397450|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.006|||||TWO_SIDED|95.0|0.15|13.87|||||Comparison of PYY total, AUC 0-2|||13.87|0.15|
82397451|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.555|||||TWO_SIDED|95.0|-8.62|3.51|||||Comparison of PYY total, AUC 0-2|||3.51|-8.62|
82397452|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.523|||||TWO_SIDED|95.0|-2.13|7.17|||||Comparison of PYY total, iAUC 0-2|||7.17|-2.13|
82397453|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.296|||||TWO_SIDED|95.0|0.47|10.12|||||Comparison of PYY total, iAUC 0-2|||10.12|0.47|
82644942|NCT03703297|165005064|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.01608|TWO_SIDED|95.0|0.606|0.95|||Log Rank|The analysis was performed using the stratified log-rank test.|Hazard ratio and CI calculated using stratified Cox proportional hazards model,adjusting for tumor,node and metastasis(TNM) stage, receipt of prophylactic cranial irradiation(PCI),with treatment as only covariate and ties handled by Efron approach.|||0.950|0.606|0.01608
82397454|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.726|||||TWO_SIDED|95.0|-3.08|6.53|||||Comparison of PYY total, iAUC 0-2|||6.53|-3.08|
82529771|NCT01678820|164755989|SUPERIORITY_OR_OTHER||Difference in least squares means|-25.6|||<|0.001|TWO_SIDED|95.0|-35.6|-15.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-15.6|-35.6|<0.001
82529772|NCT01678820|164755989|SUPERIORITY_OR_OTHER||Difference in least squares means|5.3||||0.286|TWO_SIDED|95.0|-4.5|15.2|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||15.2|-4.5|0.286
82397455|NCT01119846|164505405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.506|||||TWO_SIDED|95.0|-7.75|0.74|||||Comparison of PYY total, iAUC 0-2|||0.74|-7.75|
82397456|NCT01119846|164505406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|||||TWO_SIDED|95.0|-0.84|1.32||||||||1.32|-0.84|
82397457|NCT01119846|164505406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.523|||||TWO_SIDED|95.0|-0.6|1.64||||||||1.64|-0.60|
82397458|NCT01119846|164505406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|||||TWO_SIDED|95.0|-1.17|1.06||||||||1.06|-1.17|
82397459|NCT01119846|164505406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||||TWO_SIDED|95.0|-0.81|1.16||||||||1.16|-0.81|
82397460|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.08|0.06|||||Comparison of G/I ratio|||0.06|-0.08|
82397461|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|||||TWO_SIDED|95.0|-0.07|0.07|||||Comparison of G/I ratio|||0.07|-0.07|
82397462|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-0.07|0.07|||||Comparison of G/I ratio|||0.07|-0.07|
82397463|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.04|0.08|||||Comparison of G/I ratio|||0.08|-0.04|
82397464|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.269|||||TWO_SIDED|95.0|-8.31|12.85|||||Comparison of I/G ratio|||12.85|-8.31|
82397465|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.959|||||TWO_SIDED|95.0|-8.01|13.93|||||Comparison of I/G ratio|||13.93|-8.01|
82397466|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.053|||||TWO_SIDED|95.0|-4.88|16.99|||||Comparison of I/G ratio|||16.99|-4.88|
82397467|NCT01119846|164505407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.017|||||TWO_SIDED|95.0|-5.65|13.68|||||Comparison of I/G ratio|||13.68|-5.65|
82397468|NCT01119846|164505408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|||||TWO_SIDED|95.0|-0.28|0.22|||||Comparison of insulin glucose index|||0.22|-0.28|
82397469|NCT01119846|164505408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|||||TWO_SIDED|95.0|-0.2|0.31|||||Comparison of insulin glucose index|||0.31|-0.20|
82397470|NCT01119846|164505408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028|||||TWO_SIDED|95.0|-0.29|0.23|||||Comparison of insulin glucose index|||0.23|-0.29|
82397471|NCT01119846|164505408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.041|||||TWO_SIDED|95.0|-0.27|0.19|||||Comparison of insulin glucose index|||0.19|-0.27|
82397472|NCT01119846|164505409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|||||TWO_SIDED|95.0|-2.06|1.37||||||||1.37|-2.06|
82397473|NCT01119846|164505409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||||TWO_SIDED|95.0|-1.82|1.73||||||||1.73|-1.82|
82397474|NCT01119846|164505409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.388|||||TWO_SIDED|95.0|-2.16|1.38||||||||1.38|-2.16|
82397475|NCT01119846|164505409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|||||TWO_SIDED|95.0|-1.43|1.7||||||||1.70|-1.43|
82397476|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.523|||||TWO_SIDED|95.0|-3.04|2.0|||||Comparison of Day 7, 1 Hour|||2.00|-3.04|
82397477|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.569|||||TWO_SIDED|95.0|-3.07|1.94|||||Comparison of Day 7, 1 Hour|||1.94|-3.07|
82397478|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.064|||||TWO_SIDED|95.0|-0.45|4.57|||||Comparison of Day 7, 1 Hour|||4.57|-0.45|
82397479|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.316|||||TWO_SIDED|95.0|-2.19|2.82|||||Comparison of Day 7, 1 Hour|||2.82|-2.19|
82397480|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.484|||||TWO_SIDED|95.0|-3.99|1.02|||||Comparison of Day 7, 1 Hour|||1.02|-3.99|
82397481|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.795|||||TWO_SIDED|95.0|-3.27|1.68|||||Comparison of Day 7, 2 Hours|||1.68|-3.27|
82397482|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.313|||||TWO_SIDED|95.0|-2.78|2.15|||||Comparison of Day 7, 2 Hours|||2.15|-2.78|
82397483|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.441|||||TWO_SIDED|95.0|-0.03|4.91|||||Comparison of Day 7, 2 Hours|||4.91|-0.03|
82397484|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.884|||||TWO_SIDED|95.0|-1.58|3.34|||||Comparison of Day 7, 2 Hours|||3.34|-1.58|
82397485|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.222|||||TWO_SIDED|95.0|-3.69|1.24|||||Comparison of Day 7, 2 Hours|||1.24|-3.69|
82371949|NCT03276221|164450466|SUPERIORITY||Slope|16.54|STANDARD_ERROR_OF_MEAN|9.05||0.068|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the multitasking test module. The a priori threshold for statistical significance was 0.0125.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the multitasking cost for the abstinence group above and beyond the monitoring group (positive values indicate higher costs for multitasking trials for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.068
82371950|NCT03276221|164450467|SUPERIORITY||Slope|0.15|STANDARD_ERROR_OF_MEAN|0.1||0.15|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the one touch stockings of Cambridge module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making a correct response for the abstinence group above and beyond the monitoring group (positive values indicate higher accuracy for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.150
82371951|NCT03276221|164450468|SUPERIORITY||Slope|179.11|STANDARD_ERROR_OF_MEAN|281.76||0.525|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the one touch stockings of Cambridge module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.525
82371952|NCT03276221|164450469|SUPERIORITY||Slope|-10.86|STANDARD_ERROR_OF_MEAN|5.24||0.038|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the stop signal task module. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the inhibition latency for the abstinence group above and beyond the monitoring group (positive values indicate slower inhibition for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.038
82371953|NCT03276221|164450470|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.576|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial working memory module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of making an error for the abstinence group above and beyond the monitoring group (positive values indicate higher error commission for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.576
82397486|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.017|||||TWO_SIDED|95.0|-2.06|2.03|||||Comparison of Day 7, 4 Hours|||2.03|-2.06|
82397487|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-1.56|2.51|||||Comparison of Day 7, 4 Hours|||2.51|-1.56|
82397488|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.512|||||TWO_SIDED|95.0|-0.53|3.55|||||Comparison of Day 7, 4 Hours|||3.55|-0.53|
82644943|NCT03703297|165005065|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.01042|TWO_SIDED|95.0|0.569|0.928|||Log Rank|The analysis was performed using the stratified log-rank test.|Hazard ratio and CI were calculated using stratified Cox proportional hazards model, adjusting for receipt of PCI, with treatment as only covariate and ties handled by Efron approach.|||0.928|0.569|0.01042
82397489|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.233|||||TWO_SIDED|95.0|-0.8|3.26|||||Comparison of Day 7, 4 Hours|||3.26|-0.80|
82397490|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.011|||||TWO_SIDED|95.0|-3.05|1.02|||||Comparison of Day 7, 4 Hours|||1.02|-3.05|
82397491|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.189|||||TWO_SIDED|95.0|-3.05|2.67|||||Comparison of Day 7, 6 Hours|||2.67|-3.05|
82397492|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.456|||||TWO_SIDED|95.0|-2.39|3.3|||||Comparison of Day 7, 6 Hours|||3.30|-2.39|
82397493|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.706|||||TWO_SIDED|95.0|-0.14|5.56|||||Comparison of Day 7, 6 Hours|||5.56|-0.14|
82529773|NCT01678820|164755990|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.1|||<|0.001|TWO_SIDED|95.0|-24.2|-12.0|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-12.0|-24.2|<0.001
82529774|NCT01678820|164755990|SUPERIORITY_OR_OTHER||Difference in least squares means|0.0||||0.99|TWO_SIDED|95.0|-6.0|6.0|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||6.0|-6.0|0.990
82644944|NCT02038959|165005090|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANCOVA|||||||>0.05
82397494|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.062|||||TWO_SIDED|95.0|-1.78|3.91|||||Comparison of Day 7, 6 Hours|||3.91|-1.78|
82397495|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.708|||||TWO_SIDED|95.0|-5.55|0.14|||||Comparison of Day 7, 6 Hours|||0.14|-5.55|
82397496|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|||||TWO_SIDED|95.0|-2.41|2.7|||||Comparison of Day 7, 10 Hours|||2.70|-2.41|
82397497|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.452|||||TWO_SIDED|95.0|-2.09|2.99|||||Comparison of Day 7, 10 Hours|||2.99|-2.09|
82397498|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.418|||||TWO_SIDED|95.0|-0.13|4.96|||||Comparison of Day 7, 10 Hours|||4.96|-0.13|
82397499|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.063|||||TWO_SIDED|95.0|-1.47|3.6|||||Comparison of Day 7, 10 Hours|||3.60|-1.47|
82444932|NCT02358044|164598679|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.8||||0.312|TWO_SIDED|95.0|-4.4|2.1||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"DC due to drug-related AE:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||2.1|-4.4|0.312
82444933|NCT02358044|164598679|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.7|||<|0.001|TWO_SIDED|95.0|-19.7|-8.0||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Neutrophil count \<0.75 x 10\^9/L:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-8.0|-19.7|<0.001
82529775|NCT01678820|164755991|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.2|||<|0.001|TWO_SIDED|95.0|-28.3|-12.2|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-12.2|-28.3|<0.001
82529776|NCT01678820|164755991|SUPERIORITY_OR_OTHER||Difference in least squares means|2.9||||0.469|TWO_SIDED|95.0|-5.0|10.7|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||10.7|-5.0|0.469
82529777|NCT01678820|164755992|SUPERIORITY_OR_OTHER||Difference in least squares means|-24.4|||<|0.001|TWO_SIDED|95.0|-32.6|-16.3|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-16.3|-32.6|<0.001
82371954|NCT03276221|164450471|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.296|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the spatial working memory module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the log probability of trials with strategic responding for the abstinence group above and beyond the monitoring group (positive values indicate higher rates of strategic responding for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.296
82397500|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.509|||||TWO_SIDED|95.0|-4.05|1.03|||||Comparison of Day 7, 10 Hours|||1.03|-4.05|
82644945|NCT02038959|165005095|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82397501|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-4.2|1.6|||||Comparison of Day 7, 12 Hours|||1.60|-4.20|
82397502|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.325|||||TWO_SIDED|95.0|-4.21|1.56|||||Comparison of Day 7, 12 Hours|||1.56|-4.21|
82397503|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|-1.89|3.89|||||Comparison of Day 7, 12 Hours|||3.89|-1.89|
82397504|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.265|||||TWO_SIDED|95.0|-3.14|2.62|||||Comparison of Day 7, 12 Hours|||2.62|-3.14|
82397505|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.516|||||TWO_SIDED|95.0|-3.4|2.37|||||Comparison of Day 7, 12 Hours|||2.37|-3.40|
82397506|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.515|||||TWO_SIDED|95.0|-2.29|1.26|||||Comparison of Day 14, 24 Hours|||1.26|-2.29|
82397507|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.225|||||TWO_SIDED|95.0|-1.99|1.55|||||Comparison of Day 14, 24 Hours|||1.55|-1.99|
82397508|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.501|||||TWO_SIDED|95.0|-1.28|2.28|||||Comparison of Day 14, 24 Hours|||2.28|-1.28|
82397509|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.168|||||TWO_SIDED|95.0|-1.98|1.65|||||Comparison of Day 14, 24 Hours|||1.65|-1.98|
82397510|NCT01119846|164505410|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.043|||||TWO_SIDED|95.0|-2.81|0.73|||||Comparison of Day 14, 24 Hours|||0.73|-2.81|
82397511|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-70.457|||||TWO_SIDED|95.0|-214.72|73.8|||||Day 7, 1 Hour|||73.80|-214.72|
82397512|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-151.722|||||TWO_SIDED|95.0|-295.98|-7.46|||||Day 7, 1 Hour|||-7.46|-295.98|
82397513|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-69.113|||||TWO_SIDED|95.0|-213.48|75.25|||||Day 7, 1 Hour|||75.25|-213.48|
82397514|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-104.468|||||TWO_SIDED|95.0|-248.72|39.78|||||Day 7, 1 Hour|||39.78|-248.72|
82397515|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-118.462|||||TWO_SIDED|95.0|-263.93|27.01|||||Day 7, 1 Hour|||27.01|-263.93|
82397516|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-114.34|||||TWO_SIDED|95.0|-264.78|36.1|||||Day 7, 2 Hours|||36.10|-264.78|
82397517|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-116.462|||||TWO_SIDED|95.0|-266.9|33.98|||||Day 7, 2 Hours|||33.98|-266.90|
82397518|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.201|||||TWO_SIDED|95.0|-154.75|146.35|||||Day 7, 2 Hours|||146.35|-154.75|
82397519|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.27|||||TWO_SIDED|95.0|-198.7|102.16|||||Day 7, 2 Hours|||102.16|-198.70|
82644946|NCT00819091|165005122|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-0.7|-0.24|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||-0.24|-0.70|< 0.0001
82371955|NCT03276221|164450472|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.65|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the rapid visual information processing module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the discriminability measure for the abstinence group above and beyond the monitoring group (positive values indicate higher discriminability rates for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.650
82371956|NCT03276221|164450473|SUPERIORITY||Slope|-11.64|STANDARD_ERROR_OF_MEAN|9.55||0.223|TWO_SIDED|||||The p-value was adjusted for multiple comparisons by the Bonferroni correction across outcomes for the rapid visual information processing module. The a priori threshold for statistical significance was 0.025.|Mixed Models Analysis|Estimates were obtained using generalized estimating equations (GEE) with robust standard errors obtained by the sandwich estimator.|The estimate is the mean difference in the median response latency for the abstinence group above and beyond the monitoring group (positive values indicate slower responses for the abstinence group).|The mean difference in scale scores between the abstinence and monitoring groups was estimated via a binomial model with a dummy-coded contrast (0 for monitoring, 1 for abstinence). The model adjusted for change at weeks 2, 3, and 4 of the study, and for a subject's scale scores at baseline.||||0.223
82371957|NCT00513682|164450509|SUPERIORITY_OR_OTHER|||||||0.0013||95.0|||||t-test, 1 sided|||||||0.0013
82371958|NCT00513682|164450510|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||t-test, 1 sided|||||||0.0009
82371959|NCT04156620|164450511|SUPERIORITY||Marginal difference|17.91|||<|0.0001|TWO_SIDED|95.0|10.12|25.71|||Regression, Logistic|||Week 16||25.71|10.12|<0.0001
82371960|NCT04156620|164450512|SUPERIORITY||Marginal difference|20.45|||<|0.0001|TWO_SIDED|95.0|14.45|26.44|||Regression, Logistic|||||26.44|14.45|<0.0001
82371961|NCT04156620|164450513|SUPERIORITY||LS mean change|-1.01|STANDARD_ERROR_OF_MEAN|0.189|<|0.0001|TWO_SIDED|95.0|-1.38|-0.64|||Mixed Models Analysis|||Week 16||-0.64|-1.38|<0.0001
82371962|NCT04156620|164450514|SUPERIORITY||Marginal difference|22.15|||<|0.0001|TWO_SIDED|95.0|14.36|29.95|||Regression, Logistic|||||29.95|14.36|<0.0001
82371963|NCT04156620|164450515|SUPERIORITY||LS mean change|-0.94|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|-1.33|-0.56|||Mixed Models Analysis|||Week 16||-0.56|-1.33|<0.0001
82371964|NCT04156620|164450516|SUPERIORITY||LS mean change|3.01|STANDARD_ERROR_OF_MEAN|0.615|<|0.0001|TWO_SIDED|95.0|1.8|4.22|||Mixed Models Analysis|||Week 16||4.22|1.80|<0.0001
82397520|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-50.605|||||TWO_SIDED|95.0|-202.31|101.1|||||Day 7, 2 Hours|||101.10|-202.31|
82397521|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.231|||||TWO_SIDED|95.0|-40.84|26.38|||||Day 7, 4 Hours|||26.38|-40.84|
82397522|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.025|||||TWO_SIDED|95.0|-38.63|28.58|||||Day 7, 4 Hours|||28.58|-38.63|
82397523|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.523|||||TWO_SIDED|95.0|-24.11|43.16|||||Day 7, 4 Hours|||43.16|-24.11|
82644947|NCT00819091|165005123|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|5.5||0.2406||95.0|-17.2|4.3|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||4.3|-17.2|0.2406
82371965|NCT04156620|164450517|SUPERIORITY||LS mean change|-1.77|STANDARD_ERROR_OF_MEAN|0.373|<|0.0001|TWO_SIDED|95.0|-2.51|-1.04|||Mixed Models Analysis|||Week 16||-1.04|-2.51|<0.0001
82397524|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.618|||||TWO_SIDED|95.0|-36.22|30.99|||||Day 7, 4 Hours|||30.99|-36.22|
82397525|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.8|||||TWO_SIDED|95.0|-13.09|54.69|||||Day 7, 4 Hours|||54.69|-13.09|
82397526|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-58.864|||||TWO_SIDED|95.0|-156.11|38.38|||||Day 7, 6 Hours|||38.38|-156.11|
82397527|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-77.9|||||TWO_SIDED|95.0|-175.15|19.35|||||Day 7, 6 Hours|||19.35|-175.15|
82397528|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.323|||||TWO_SIDED|95.0|-69.0|125.65|||||Day 7, 6 Hours|||125.65|-69.00|
82397529|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.499|||||TWO_SIDED|95.0|-121.74|72.74|||||Day 7, 6 Hours|||72.74|-121.74|
82397530|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-59.755|||||TWO_SIDED|95.0|-157.82|38.31|||||Day 7, 6 Hours|||38.31|-157.82|
82397531|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222|||||TWO_SIDED|95.0|-69.85|69.4|||||Day 7, 10 Hours|||69.40|-69.85|
82397532|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.222|||||TWO_SIDED|95.0|-77.28|61.98|||||Day 7, 10 Hours|||61.98|-77.28|
82397533|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.148|||||TWO_SIDED|95.0|-62.55|76.85|||||Day 7, 10 Hours|||76.85|-62.55|
82397534|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.734|||||TWO_SIDED|95.0|-36.89|102.36|||||Day 7, 10 Hours|||102.36|-36.89|
82397535|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.76|||||TWO_SIDED|95.0|-81.01|61.49|||||Day 7, 10 Hours|||61.49|-81.01|
82397536|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.594|||||TWO_SIDED|95.0|-123.36|84.18|||||Day 7, 12 Hours|||84.18|-123.36|
82397537|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.924|||||TWO_SIDED|95.0|-150.69|56.85|||||Day 7, 12 Hours|||56.85|-150.69|
82397538|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.715|||||TWO_SIDED|95.0|-79.16|128.59|||||Day 7, 12 Hours|||128.59|-79.16|
82397539|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.966|||||TWO_SIDED|95.0|-111.73|95.8|||||Day 7, 12 Hours|||95.80|-111.73|
82397540|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.108|||||TWO_SIDED|95.0|-103.08|109.29|||||Day 7, 12 Hours|||109.29|-103.08|
82371966|NCT04156620|164450518|SUPERIORITY||Relative LS mean change|0.44|||<|0.0001|TWO_SIDED|95.0|0.37|0.51|||Mixed Models Analysis|||Week 16||0.51|0.37|<0.0001
82371967|NCT04156620|164450519|SUPERIORITY||Marginal difference|23.41|||<|0.0001|TWO_SIDED|95.0|15.61|31.66|||Regression, Logistic|||||31.66|15.61|<0.0001
82371968|NCT04156620|164450520|SUPERIORITY||Marginal difference|12.58|||<|0.0001|TWO_SIDED|95.0|7.96|17.19|||Regression, Logistic|||Week 16||17.19|7.96|<0.0001
82371969|NCT04156620|164450521|SUPERIORITY||Marginal difference|10.56|||<|0.0001|TWO_SIDED|95.0|5.64|15.47|||Regression, Logistic|||||15.47|5.64|<0.0001
82371970|NCT04156620|164450522|SUPERIORITY||LS mean change|-0.66|STANDARD_ERROR_OF_MEAN|0.292||0.0234|TWO_SIDED|95.0|-1.24|-0.09|||Regression, Logistic|||||-0.09|-1.24|0.0234
82371971|NCT02980874|164450523|SUPERIORITY||Difference in percentages|-6.1||||0.187|TWO_SIDED|95.0|-15.2|3.0||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between RVO strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the type of retinal vein occlusion, i.e., branch vs. central.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|Based on a Pearson chi-square test, a total sample size of approximately 460 subjects provided 90% power to detect a difference of 15% between the Active and Control arms assuming the Control arm showed a proportion of 0.50 at 8 weeks. The primary analysis was a test of superiority of the Active arm over the Control arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by type of retinal vein occlusion.||3.0|-15.2|0.187
82371972|NCT02450526|164450526|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|94.3|||<|0.0001|TWO_SIDED|95.0|90.8|97.7||The test is two-sided at the significance level of 0.025.|Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||97.7|90.8|<0.0001
82371973|NCT02450526|164450527|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|87.5|||<|0.0001|TWO_SIDED|95.0|82.5|92.4||The test is two-sided at the significance level of 0.025.|Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||92.4|82.5|<0.0001
82371974|NCT02450526|164450528|NON_INFERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment Difference|-2.4|||||TWO_SIDED|95.0|-6.7|1.9||||||The non-inferiority of Dysport® to Botox on the ILA at maximum frown was tested using a multivariate logistic regression model||1.9|-6.7|
82371975|NCT02450526|164450529|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|73.8|||<|0.0001|TWO_SIDED|95.0|59.1|88.4|||Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||88.4|59.1|<0.0001
82371976|NCT02450526|164450530|SUPERIORITY|The comparison between mean scores of SGA at Treatment Cycle 1, Day 29 is based on 2 separate linear mixed models, adjusting on the two stratification parameters, gender and baseline ILA severity score, and the centre.|Treatment Difference|2.603|||<|0.0001|TWO_SIDED|95.0|2.327|2.878||The test was two-sided at the significance level of 0.05|Mixed Models Analysis|||Superiority analysis of Dysport® to placebo was tested using a linear mixed model.||2.878|2.327|<0.0001
82371977|NCT02450526|164450531|SUPERIORITY|The model includes treatment group, stratification factors, gender and baseline severity score of glabellar lines at maximum frown measured by the ILA, and centre as explanatory variables and responder (Yes or No) as response variable.|Treatment difference|83.7|||<|0.0001|TWO_SIDED|95.0|78.7|88.7|||Regression, Logistic|||Superiority analysis of Dysport® to placebo was tested using a multivariate logistic regression model.||88.7|78.7|<0.0001
82371978|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0|STANDARD_DEVIATION|8.94|||TWO_SIDED|95.0|-9.79|-6.28||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 is presented.||-6.28|-9.79|
82371979|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|STANDARD_DEVIATION|11.68|||TWO_SIDED|95.0|-7.36|-2.68||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 is presented.||-2.68|-7.36|
82371980|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.9|STANDARD_DEVIATION|7.29|||TWO_SIDED|95.0|-7.42|-4.47||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 is presented.||-4.47|-7.42|
82371981|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|7.49|||TWO_SIDED|95.0|-3.37|-0.27||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 is presented.||-0.27|-3.37|
82371982|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_DEVIATION|9.03|||TWO_SIDED|95.0|-5.99|-2.2||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||-2.20|-5.99|
82397541|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.114|||||TWO_SIDED|95.0|-25.12|4.89|||||Day 14, 24 Hours|||4.89|-25.12|
82397542|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.718|||||TWO_SIDED|95.0|-23.71|6.28|||||Day 14, 24 Hours|||6.28|-23.71|
82397543|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.622|||||TWO_SIDED|95.0|-15.63|14.38|||||Day 14, 24 Hours|||14.38|-15.63|
82397544|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.454|||||TWO_SIDED|95.0|-27.78|2.88|||||Day 14, 24 Hours|||2.88|-27.78|
82397545|NCT01119846|164505411|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.681|||||TWO_SIDED|95.0|-24.02|6.66|||||Day 14, 24 Hours|||6.66|-24.02|
82397546|NCT00048997|164505425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.2853|TWO_SIDED|95.0|0.84|1.38||One-sided significance level of 0.025.|Log Rank||Prophylactic cranial irradiation (PCI) is the reference arm for the hazard ratio.|This study was designed to detect a 20% relative improvement in hazard rate: null hypothesis (observation): MST (median survival time) = 23.5 mo.; alternative hypothesis (PCI): MST= 29.4 mo. A one-sided log-rank test at a significance level of 0.025 would have 80% power to detect this difference with a sample size of 1007 patients (527 deaths were required for the final analysis).||1.38|0.84|0.2853
82529778|NCT01678820|164755992|SUPERIORITY_OR_OTHER||Difference in least squares means|0.3||||0.937|TWO_SIDED|95.0|-7.7|8.3|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||8.3|-7.7|0.937
82397547|NCT00048997|164505426|SUPERIORITY|||||||0.01|||||||Z-test, 2-sided|2-sided significance level = 0.05||||||0.01
82397548|NCT00048997|164505427|SUPERIORITY|||||||0.008|||||||Z-test, 2-sided|Significance level = 0.05||||||0.008
82397549|NCT00048997|164505428|SUPERIORITY|||||||0.2|||||||Z-test, 2-sided|Significance level = 0.05||||||0.20
82397550|NCT00048997|164505429|SUPERIORITY|||||||0.14|||||||Z-test, 2-sided|Significance level = 0.05||||||0.14
82397551|NCT00048997|164505430|SUPERIORITY|||||||0.52|||||||Z-test, 2-sided|Significance level = 0.05||||||0.52
82397552|NCT00048997|164505431|SUPERIORITY|||||||0.51|||||||Z-test, 2-sided|Significance level = 0.05||||||0.51
82397553|NCT00048997|164505432|SUPERIORITY|||||||0.11|||||||Other [Z-test, 2-sided]|Significance level = 0.05||||||0.11
82529779|NCT01678820|164755993|SUPERIORITY_OR_OTHER||Difference in estimated means|-15.5||||0.068|TWO_SIDED|95.0|-32.2|1.2|||Robust regression|Using M-estimation with treatment, region, and a covariate for baseline triglycerides (mg/dL). Missing data were imputed by multiple imputations.||||1.2|-32.2|0.068
82529780|NCT01678820|164755993|SUPERIORITY_OR_OTHER||Difference in estimated means|-10.3||||0.365|TWO_SIDED|95.0|-33.6|13.0|||Robust regression|Using M-estimation with treatment, region, and a covariate for baseline triglycerides (mg/dL). Missing data were imputed by multiple imputations.||||13.0|-33.6|0.365
82576054|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.07|||=|0.001|TWO_SIDED|95.0|0.028|0.112|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo) at Day 1.||0.112|0.028|=0.001
82397554|NCT00048997|164505433|SUPERIORITY||Odds Ratio (OR)|2.52||||0.005|TWO_SIDED|95.0|1.32|4.8|||Regression, Logistic|2-sided significance level = 0.05|Reference level = PCI arm|The development of CNS metastases was assessed using logistic regression modeling comparing presence vs. absence of brain metastases at 1 year.||4.80|1.32|0.005
82397555|NCT00048165|164505434|SUPERIORITY_OR_OTHER||percent mean difference|-12.0||||0.007|TWO_SIDED|95.0|-20.9|-3.3|||Cochran-Mantel-Haenszel|||||-3.3|-20.9|0.007
82397556|NCT00048165|164505435|SUPERIORITY_OR_OTHER||percent mean difference|-8.6||||0.063|TWO_SIDED|95.0|-17.7|0.5|||Cochran-Mantel-Haenszel|||||0.5|-17.7|0.063
82397557|NCT00048165|164505438|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Cochran-Mantel-Haenszel|||Comparison of Daclizumab and Placebo for 6 months were presented||||0.0005
82397558|NCT00048165|164505438|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Cochran-Mantel-Haenszel|||Comparison of Daclizumab and Placebo for 12 months were presented||||0.0008
82397559|NCT01370616|164505448|NON_INFERIORITY_OR_EQUIVALENCE|If the 95% confidence interval for the estimated difference between the two groups has a lower bound greater than -15%, then ertapenem sodium will be considered at least as effective as piperacillin/tazobactam sodium.|Estimated Difference|-3.8|||||TWO_SIDED|95.0|-8.3|0.0|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||0.0|-8.3|
82397560|NCT01370616|164505449|SUPERIORITY_OR_OTHER||Estimated Difference|-1.7|||||TWO_SIDED|95.0|-5.5|1.8|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||1.8|-5.5|
82397561|NCT01370616|164505450|SUPERIORITY_OR_OTHER||Estimated Difference|-2.3|||||TWO_SIDED|95.0|-7.7|2.8|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||2.8|-7.7|
82397562|NCT01370616|164505451|SUPERIORITY_OR_OTHER||Estimated Difference|-4.1|||||TWO_SIDED|95.0|-11.9|3.4|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||3.4|-11.9|
82397563|NCT01370616|164505452|SUPERIORITY_OR_OTHER||Estimated Difference|-4.3|||||TWO_SIDED|95.0|-12.1|3.3|||||Ertapenem minus Piperacillin/tazobactam. Based on Miettinen \& Nurminen method stratified by the severity of diabetes foot infection.|||3.3|-12.1|
82397564|NCT01370616|164505453|SUPERIORITY_OR_OTHER||Estimated Difference|7.3|||||TWO_SIDED|95.0|-0.9|15.4|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||15.4|-0.9|
82397565|NCT01370616|164505454|SUPERIORITY_OR_OTHER||Estimated Difference|-2.5|||||TWO_SIDED|95.0|-8.5|3.4|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||3.4|-8.5|
82397566|NCT01370616|164505455|SUPERIORITY_OR_OTHER||Estimated Difference|1.8|||||TWO_SIDED|95.0|-2.0|5.8|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||5.8|-2.0|
82397567|NCT01370616|164505456|SUPERIORITY_OR_OTHER||Estimated Difference|-1.8|||||TWO_SIDED|95.0|-5.7|1.9|||||Ertapenem minus Piperacillin/tazobactam group. Based on Miettinen \& Nurminen method without adjusting strata.|||1.9|-5.7|
82397568|NCT02412878|164505563|SUPERIORITY||Odds Ratio (OR)|2.485|||<|0.0001|TWO_SIDED|95.0|1.716|3.598||Progression-free survival, overall response, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Cochran-Mantel-Haenszel|One-sided p-value from CMH test stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Odds ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was calculated using the Mantel-Haenszel method stratified by the randomization stratification factors.|||3.598|1.716|< 0.0001
82397569|NCT02412878|164505563|SUPERIORITY||Odds Ratio (OR)|2.466|||<|0.0001|TWO_SIDED|95.0|1.707|3.563|||Fisher Exact||Odds ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was calculated using the Mantel-Haenszel method.|||3.563|1.707|<0.0001
82371983|NCT01753336|164450546|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_DEVIATION|9.42|||TWO_SIDED|95.0|-3.11|0.81||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS total scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.81|-3.11|
82371984|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|STANDARD_DEVIATION|9.74|||TWO_SIDED|95.0|-13.38|-9.56||||||Pretreatment baseline vs Cycle 1-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 1 is presented.||-9.56|-13.38|
82397570|NCT02412878|164505564|SUPERIORITY||Hazard Ratio (HR)|0.693||||0.0014|TWO_SIDED|95.0|0.544|0.883||Progression-free survival, overall response rate, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Log Rank|One-sided stratified log-rank test, stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using a Cox proportional hazards model stratified by the randomization stratification factors.|To ensure proper control of type I error, analysis of PFS was performed under a group sequential design framework with the stopping boundaries constructed using the Lan-DeMets spending function with an O'Brien-Fleming approach. The inferential comparison between the 2 treatment groups for PFS used the 1-sided log-rank test stratified by the randomization stratification factors. A 1-sided p-value was compared against the prespecified adjusted alpha value of 0.011 to determine significance.||0.883|0.544|0.0014
82397571|NCT02412878|164505564|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0033|TWO_SIDED|95.0|0.567|0.913|||Log Rank|One-sided unstratified log-rank test|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using an unstratified Cox proportional hazards model.|||0.913|0.567|0.0033
82397572|NCT02412878|164505565|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.107|TWO_SIDED|95.0|0.563|1.138||Progression-free survival, overall response, and overall survival were tested using a fixed sequence hierarchical testing procedure to control the family-wise type I error rate below one-sided 0.025 level.|Log Rank|One-sided stratified log-rank test, stratified by the randomization factors (ISS stage at study entry, refractory to bortezomib treatment, and age).|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using a Cox proportional hazards model stratified by the randomization stratification factors.|||1.138|0.563|0.1070
82397573|NCT02412878|164505565|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.1326|TWO_SIDED|95.0|0.578|1.164|||Log Rank|One-sided unstratified log-rank test|Hazard ratio (once weekly carfilzomib 20/70 mg/m²/ twice weekly carfilzomib 20/27 mg/m²) was estimated using an unstratified Cox proportional hazards model.|||1.164|0.578|0.1326
82397574|NCT02081014|164505626|SUPERIORITY_OR_OTHER||Point estimate ratio|0.62|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82644948|NCT00819091|165005124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.466||||0.0065||95.0|1.684|24.825|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||24.825|1.684|0.0065
82529781|NCT01678820|164755994|SUPERIORITY_OR_OTHER||Difference in least squares means|0.5||||0.857|TWO_SIDED|95.0|-4.8|5.8|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.8|-4.8|0.857
82644949|NCT00819091|165005125|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.653||||0.2431||95.0|0.515|13.652|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||13.652|0.515|0.2431
82371985|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9|STANDARD_DEVIATION|10.89|||TWO_SIDED|95.0|-11.08|-6.71||||||Pretreatment baseline vs Cycle 1-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for treatment Cycle 1 is presented.||-6.71|-11.08|
82371986|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.4|STANDARD_DEVIATION|11.43|||TWO_SIDED|95.0|-16.74|-12.11||||||Pretreatment baseline vs Cycle 2-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 2 is presented.||-12.11|-16.74|
82371987|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.6|STANDARD_DEVIATION|11.33|||TWO_SIDED|95.0|-12.92|-8.22||||||Pretreatment baseline vs Cycle 2-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for Treatment Cycle 2 is presented.||-8.22|-12.92|
82397575|NCT02081014|164505626|SUPERIORITY_OR_OTHER||Point estimate ratio|0.35|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397576|NCT02081014|164505626|SUPERIORITY_OR_OTHER||Point estimate ratio|0.57|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397577|NCT02081014|164505627|SUPERIORITY_OR_OTHER||Point estimate ratio|0.74|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397578|NCT02081014|164505627|SUPERIORITY_OR_OTHER||Point estimate ratio|0.44|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397579|NCT02081014|164505627|SUPERIORITY_OR_OTHER||Point estimate ratio|0.59|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397580|NCT02081014|164505628|SUPERIORITY_OR_OTHER||Point point ratio|0.68|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397581|NCT02081014|164505628|SUPERIORITY_OR_OTHER||Point estimate ratio|0.36|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397582|NCT02081014|164505628|SUPERIORITY_OR_OTHER||Point estimate ratio|0.53|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82529782|NCT01678820|164755994|SUPERIORITY_OR_OTHER||Difference in least squares means|0.4||||0.879|TWO_SIDED|95.0|-4.8|5.6|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.6|-4.8|0.879
82397583|NCT02081014|164505629|SUPERIORITY_OR_OTHER||Point estimate ratio|0.72|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397584|NCT02081014|164505629|SUPERIORITY_OR_OTHER||Point estimate ratio|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82444934|NCT02358044|164598679|SUPERIORITY_OR_OTHER||Difference in Percentage|-13.5|||<|0.001|TWO_SIDED|95.0|-20.8|-7.9||% of participants with ≥1 Tier 1 event = total number participants with ≥1 Tier 1 event ÷ total number ASaT participants within each treatment arm. M\&N method used to calculate a 2-sided 95% CI for the treatment difference and corresponding p-value.|Miettinen & Nurminen Method|||"Hemoglobin \<10 g/dL:~If, and only if the primary efficacy null hypothesis was rejected, the Tier 1 safety superiority hypothesis was tested at the 2-sided 5% alpha level. The safety superiority hypothesis was that the percentage of grazoprevir+elbasvir participants with ≥1 Tier 1 event is lower than the percentage of SOF+PR participants with ≥1 Tier 1 event."||-7.9|-20.8|<0.001
82444935|NCT02358044|164598680|NON_INFERIORITY_OR_EQUIVALENCE|The lower bound of 95% CIs was compared to pre-specified non-inferiority margin, -10% to evaluate non-inferiority. The Missing=Failure (M=F) approach was used to handle missing values.|Adjusted Difference in Percentage|8.8|||||TWO_SIDED|95.0|3.3|15.7||||||Analyses of the percentage of participants achieving SVR24 was conducted using the Miettinen \& Nurminen (M\&N) method. The analysis was adjusted for genotype (1a vs. non-1a) and fibrosis stage (cirrhotic vs. non-cirrhotic). The adjusted differences (grazoprevir+elbasvir arm minus SOF+PR arm) in percentages along with the corresponding 95% confidence intervals (CIs) and p-values were provided.||15.7|3.3|
82444936|NCT04728594|164598682|SUPERIORITY||Odds Ratio (OR)|2.11|||<|0.001|TWO_SIDED|95.0|1.65|2.69||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||2.69|1.65|<.001
82529783|NCT01678820|164755995|SUPERIORITY_OR_OTHER||Difference in least squares means|-30.4||||0.004|TWO_SIDED|95.0|-51.0|-9.7|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||-9.7|-51.0|0.004
82529784|NCT01678820|164755995|SUPERIORITY_OR_OTHER||Difference in least squares means|-15.3||||0.141|TWO_SIDED|95.0|-35.8|5.1|||Longitudinal Data Analysis Model|Based on a longitudinal model including terms for region, treatment, time, and the interaction of time by treatment.||||5.1|-35.8|0.141
82397585|NCT02081014|164505629|SUPERIORITY_OR_OTHER||Point estimate ratio|0.6|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397586|NCT02081014|164505630|SUPERIORITY_OR_OTHER||Point esimate ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397587|NCT02081014|164505630|SUPERIORITY_OR_OTHER||Point estimate ratio|0.78|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82529785|NCT01678820|164755996|SUPERIORITY_OR_OTHER||Difference in percents|0.3|||||TWO_SIDED|95.0|-12.2|12.9|||||Based on Miettinen \& Nurminen method. Missing data were imputed by multiple impuattions.|||12.9|-12.2|
82529786|NCT01678820|164755996|SUPERIORITY_OR_OTHER||Difference in percents|12.3|||||TWO_SIDED|95.0|0.7|24.0|||||Based on Miettinen \& Nurminen method. Missing data were imputed by multiple imputations.|||24.0|0.7|
82397588|NCT02081014|164505630|SUPERIORITY_OR_OTHER||Point estimate ratio|0.79|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397589|NCT02081014|164505631|SUPERIORITY_OR_OTHER||Point estimate ratio|0.75|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397590|NCT02081014|164505631|SUPERIORITY_OR_OTHER||Point estimate ratio|0.73|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397591|NCT02081014|164505631|SUPERIORITY_OR_OTHER||Point estimate ratio|0.96|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397592|NCT02081014|164505632|SUPERIORITY_OR_OTHER||Point estimate ratio|0.82|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397593|NCT02081014|164505632|SUPERIORITY_OR_OTHER||Point estimate ratio|0.7|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397594|NCT02081014|164505632|SUPERIORITY_OR_OTHER||Point estimate ratio|0.85|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397595|NCT02081014|164505633|SUPERIORITY_OR_OTHER||Point estimate ratio|0.96|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397596|NCT02081014|164505633|SUPERIORITY_OR_OTHER||Point estimate ratio|0.83|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||<0.05
82397597|NCT02081014|164505633|SUPERIORITY_OR_OTHER||Point estimate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397598|NCT02081014|164505634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3693.2|STANDARD_ERROR_OF_MEAN|1520.1|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82397599|NCT02081014|164505634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7548.05|STANDARD_ERROR_OF_MEAN|1542.93||0.05|TWO_SIDED||||||Mixed Models Analysis|||||||0.05
82397600|NCT02081014|164505634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3854.86|STANDARD_ERROR_OF_MEAN|1533.95|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82397601|NCT02081014|164505635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-144.9|STANDARD_ERROR_OF_MEAN|741.24|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>0.05
82397602|NCT02081014|164505635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1665.32|STANDARD_ERROR_OF_MEAN|696.97|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82397603|NCT02081014|164505635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1520.39|STANDARD_ERROR_OF_MEAN|700.92|>|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||>0.05
82444937|NCT04728594|164598682|SUPERIORITY||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.77|2.87||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||2.87|1.77|<.001
82529787|NCT00936221|164756014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.3873|TWO_SIDED|80.0|0.67|1.28||1-sided p-value|Regression, Cox|Cox model adjusting for treatment, WHO performance status, LDH, M status and tumour sub-type.||If the true hazard ratio (HR) is 0.57, 58 deaths provides at least 80% power to demonstrate a statistically significant difference for OS, assuming a 1-sided 10% significance level.||1.28|0.67|0.3873
82371988|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.6|STANDARD_DEVIATION|12.19|||TWO_SIDED|95.0|-17.18|-12.1||||||Pretreatment baseline vs Cycle 3-Week 4. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 4 visit for Treatment Cycle 3 is presented.||-12.10|-17.18|
82371989|NCT01753336|164450547|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.7|STANDARD_DEVIATION|11.17|||TWO_SIDED|95.0|-14.02|-9.39||||||Pretreatment baseline vs Cycle 3-Week 12. The mean difference in the TWSTRS total scores from baseline (pretreatment measurement before receiving Dysport® in Study 169 or for subjects who received placebo in Study 169, baseline was Day 1 of Cycle 1 of Study 170) at the Week 12 visit for Treatment Cycle 3 is presented.||-9.39|-14.02|
82371990|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_DEVIATION|4.95|||TWO_SIDED|95.0|-4.46|-2.52||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-2.52|-4.46|
82371991|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|5.24|||TWO_SIDED|95.0|-2.81|-0.7||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.70|-2.81|
82371992|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_DEVIATION|3.77|||TWO_SIDED|95.0|-3.75|-2.23||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-2.23|-3.75|
82371993|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.86|||TWO_SIDED|95.0|-1.33|0.27||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||0.27|-1.33|
82371994|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_DEVIATION|4.32|||TWO_SIDED|95.0|-3.64|-1.83||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||-1.83|-3.64|
82371995|NCT01753336|164450549|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|4.77|||TWO_SIDED|95.0|-2.0|-0.02||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS severity subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||-0.02|-2.00|
82371996|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|STANDARD_DEVIATION|3.86|||TWO_SIDED|95.0|-3.64|-2.12||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-2.12|-3.64|
82397604|NCT02081014|164505636|SUPERIORITY_OR_OTHER||Point estimate ratio|0.41|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82444938|NCT04728594|164598682|SUPERIORITY||Odds Ratio (OR)|1.07|||<|0.001|TWO_SIDED|95.0|0.88|1.3||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression with the two experimental conditions as dummy variables with delayed contact as the reference group.||1.30|0.88|<.001
82371997|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|4.82|||TWO_SIDED|95.0|-2.79|-0.86||||||Cycle 1-Day 1 vs Cycle 1-Week 12.The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.86|-2.79|
82371998|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|3.47|||TWO_SIDED|95.0|-2.44|-1.04||||||Cycle 2-Day 1 vs Cycle 2-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-1.04|-2.44|
82371999|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|3.46|||TWO_SIDED|95.0|-1.55|-0.12||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||-0.12|-1.55|
82372000|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|3.75|||TWO_SIDED|95.0|-1.45|0.12||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||0.12|-1.45|
82372001|NCT01753336|164450550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|3.73|||TWO_SIDED|95.0|-0.85|0.7||||||Cycle 3-Day 1 vs Cycle 3-Week 12.The mean difference in the TWSTRS disability subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.70|-0.85|
82372002|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|3.74|||TWO_SIDED|95.0|-2.39|-0.92||||||Cycle 1-Day 1 vs Cycle 1-Week 4. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 1 was determined.||-0.92|-2.39|
82372003|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|3.88|||TWO_SIDED|95.0|-2.22|-0.66||||||Cycle 1-Day 1 vs Cycle 1-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 1 was determined.||-0.66|-2.22|
82444939|NCT04881747|164598704|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.875|||||TWO_SIDED|90.0|0.834|0.919||||||||0.919|0.834|
82397605|NCT02081014|164505636|SUPERIORITY_OR_OTHER||Point estimate ratio|0.43|STANDARD_ERROR_OF_MEAN|0.34|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397606|NCT02081014|164505636|SUPERIORITY_OR_OTHER||Point estimate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.81|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82397607|NCT02081014|164505637|SUPERIORITY_OR_OTHER||Point estimate ratio|0.23|STANDARD_ERROR_OF_MEAN|0.29|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82444940|NCT04881747|164598704|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.889|||||TWO_SIDED|90.0|0.846|0.934||||||||0.934|0.846|
82372004|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|3.12|||TWO_SIDED|95.0|-1.84|-0.58||||||Cycle 2-Day 1 vs Cycle 2-Week 4.The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 2 was determined.||-0.58|-1.84|
82372005|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|3.04|||TWO_SIDED|95.0|-1.08|0.18||||||Cycle 2-Day 1 vs Cycle 2-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 2 was determined.||0.18|-1.08|
82576055|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.08|||<|0.001|TWO_SIDED|95.0|0.038|0.122|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo) at Day 1.||0.122|0.038|<0.001
82372006|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|4.2|||TWO_SIDED|95.0|-1.57|0.19||||||Cycle 3-Day 1 vs Cycle 3-Week 4. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 4 visit for Treatment Cycle 3 was determined.||0.19|-1.57|
82372007|NCT01753336|164450551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|3.78|||TWO_SIDED|95.0|-0.85|0.73||||||Cycle 3-Day 1 vs Cycle 3-Week 12. The mean difference in the TWSTRS pain subscale scores from treatment cycle baseline (Day 1) at the Week 12 visit for Treatment Cycle 3 was determined.||0.73|-0.85|
82372008|NCT01629966|164450565|SUPERIORITY||Least Squares Mean Difference|-1.27||||0.083|TWO_SIDED|95.0|-2.71|0.17|||MMRM|||||0.17|-2.71|0.0830
82372009|NCT01629966|164450565|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.0156|TWO_SIDED|95.0|-3.26|-0.34|||MMRM|||||-0.34|-3.26|0.0156
82372010|NCT01629966|164450566|SUPERIORITY||Least Squares Mean Difference|-1.37||||0.0536|TWO_SIDED|95.0|-2.75|0.02|||MMRM|||||0.02|-2.75|0.0536
82372011|NCT01629966|164450566|SUPERIORITY||Least Squares Mean Difference|-1.52||||0.0349|TWO_SIDED|95.0|-2.94|-0.11|||MMRM|||||-0.11|-2.94|0.0349
82397608|NCT02081014|164505637|SUPERIORITY_OR_OTHER||Point estimate ratio|0.73|STANDARD_ERROR_OF_MEAN|0.88|>|0.05|TWO_SIDED||||||Mixed Models Analysis||Geometric means|||||>0.05
82444941|NCT04881747|164598705|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.944|||||TWO_SIDED|90.0|0.914|0.976||||||||0.976|0.914|
82372012|NCT03970837|164450578|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.87|3.53|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.53|1.87|<0.0001
82372013|NCT03970837|164450578|SUPERIORITY||Odds Ratio (OR)|2.55|||<|0.0001|TWO_SIDED|95.0|1.85|3.5|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.50|1.85|<0.0001
82372014|NCT03970837|164450578|SUPERIORITY||Odds Ratio (OR)|5.38|||<|0.0001|TWO_SIDED|95.0|3.66|7.9|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 05mg dose of Tofacitinib and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 05mg dose of Tofacitinib differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||7.90|3.66|<0.0001
82372015|NCT03970837|164450578|SUPERIORITY||Odds Ratio (OR)|0.48|||<|0.0001|TWO_SIDED|95.0|0.34|0.66|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90 mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90 mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.66|0.34|<0.0001
82372016|NCT03970837|164450578|SUPERIORITY||Odds Ratio (OR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.34|0.66|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.66|0.34|<0.0001
82372017|NCT03970837|164450582|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 95% Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Difference in Percentage|-14.7|||||TWO_SIDED|95.0|-21.3|-8.1|||Regression, Logistic|Difference in proportion and 95% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-8.1|-21.3|
82397609|NCT02081014|164505637|SUPERIORITY_OR_OTHER||Point estimate ratio|3.23|STANDARD_ERROR_OF_MEAN|3.84|>|0.05|TWO_SIDED||||||Regression, Linear||Geometric means|||||>0.05
82397610|NCT03300050|164505657|OTHER||GMT Ratio|2.73|||<|0.0001|TWO_SIDED|95.0|1.73|4.29|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted Geometric Mean Titer (GMT) Ratio 28 Days Post-Boost Dose||4.29|1.73|<0.0001
82444942|NCT04881747|164598705|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.946|||||TWO_SIDED|90.0|0.914|0.978||||||||0.978|0.914|
82444943|NCT04881747|164598706|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.941|||||TWO_SIDED|90.0|0.91|0.972||||||||0.972|0.910|
82644950|NCT00819091|165005126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.125||||0.0001||95.0|2.747|9.562|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||9.562|2.747|0.0001
82372018|NCT03970837|164450582|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 95% Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Difference in Percentage|-17.2|||||TWO_SIDED|95.0|-23.9|-10.6|||Regression, Logistic|Difference in proportion and 95% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-10.6|-23.9|
82372019|NCT02304991|164450767|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Intent to treat; participants not completing the DBPCFC considered to have challenge score of zero||||0.002
82372020|NCT02304991|164450768|SUPERIORITY|||||||0.0005|||||||t-test, 2 sided|||Intent to treat; participants not completing the DBPCFC considered to have challenge score of zero||||0.0005
82372021|NCT02304991|164450769|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82372022|NCT02304991|164450770|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Per protocol analysis of patients with available samples.||||0.01
82372023|NCT02304991|164450771|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Per protocol analysis of patients with available samples.||||<0.0001
82372024|NCT02304991|164450772|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
82372025|NCT04568031|164450773|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82372026|NCT04568031|164450773|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82372027|NCT04568031|164450778|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82529788|NCT04362137|164756029|SUPERIORITY||Odds Ratio (OR)|0.91||||0.769|TWO_SIDED|95.0|0.48|1.73|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|||1.73|0.48|0.769
82372028|NCT04568031|164450778|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82372029|NCT04568031|164450781|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82372030|NCT04568031|164450781|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82372031|NCT00786994|164450826|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Mantel Haenszel|||A vs C/D||||0.60
82372032|NCT00786994|164450826|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Mantel Haenszel|||B vs. C/D||||0.83
82372033|NCT06378749|164450898|OTHER|||||||0.029|||||||t-test, 2 sided|||||||.029
82372034|NCT06378749|164450899|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82372035|NCT06378749|164450900|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82372036|NCT06378749|164450901|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82372037|NCT06378749|164450902|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82372038|NCT01404923|164450927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4||||0.0008|TWO_SIDED||||||ANCOVA|||||||0.0008
82372039|NCT03786718|164450933|OTHER||||||<|0.001|||||||One sample median test|||Due to nonnormality, we used nonparametric tests to analyze the data. This analysis is a one sample median test of participants' median SUS score compared to the threshold score of 68 indicative of 'above average' usability.||||<0.001
82372040|NCT03786718|164450937|OTHER|||||||0.77|||||||Wilcoxon Signed Rank Sum test|||||||0.77
82372041|NCT03786718|164450938|OTHER|||||||0.02|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in General Diet sub-scale score||||0.02
82372042|NCT03786718|164450938|OTHER|||||||0.13|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Specific Diet sub-scale score||||0.13
82372043|NCT03786718|164450938|OTHER|||||||0.35|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Exercise sub-scale score||||0.35
82372044|NCT03786718|164450938|OTHER|||||||0.67|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Blood-glucose Testing sub-scale score||||0.67
82372045|NCT03786718|164450938|OTHER|||||||0.65|||||||Wilcoxon Signed Rank Sum test|||Analysis for pre-post change in Foot Care sub-scale score||||0.65
82372046|NCT03786718|164450939|OTHER|||||||0.001|||||||Wilcoxon Signed Rank Sum test|||||||0.001
82372047|NCT03786718|164450940|OTHER|||||||0.86|||||||Wilcoxon Signed Rank Sum test|||||||0.86
82372048|NCT03786718|164450941|OTHER|||||||0.3|||||||McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||0.30
82372049|NCT03786718|164450941|OTHER|||||||1|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||1.00
82372050|NCT03786718|164450941|OTHER|||||||0.63|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.63
82372051|NCT03786718|164450941|OTHER|||||||0.02|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.02
82372052|NCT03786718|164450941|OTHER|||||||0.55|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.55
82372053|NCT03786718|164450941|OTHER|||||||0.0009|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.0009
82372054|NCT03786718|164450941|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of flu vaccine||||1.00
82372055|NCT03786718|164450941|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of recommended frequency of flu vaccination||||1.00
82372056|NCT03786718|164450942|OTHER|||||||0.15|||||||Wilcoxon Signed Rank Sum test|||||||0.15
82372057|NCT03786718|164450943|OTHER|||||||0.23|||||||McNemar|||Analysis of pre-post change in interest in information about how my diabetes health data compares to other patients like me (i.e., social comparison information)||||0.23
82372058|NCT03786718|164450943|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in interest in information about how their diabetes health data compares to the goal range (i.e., goal-based comparison information)||||1.00
82372059|NCT03786718|164450943|OTHER|||||||0.51|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to other patients like me \[social comparison information\] is useful.'||||0.51
82444944|NCT04881747|164598706|EQUIVALENCE|Model: Log(PK) = Treatment + Sequence + Period + Participant(Sequence) + Random Error, where participant within sequence is fitted as a random effect.|Ratio of Geometric least squares mean|0.944|||||TWO_SIDED|90.0|0.913|0.977||||||||0.977|0.913|
82444945|NCT03449433|164598712|SUPERIORITY||Ratio of LS Means|1.04|||||TWO_SIDED|95.0|0.985|1.1||||||||1.10|0.985|
82444946|NCT01345682|164598720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.792||||0.0257|TWO_SIDED|95.0|0.643|0.977||Log-rank test stratified by baseline Eastern Cooperative Oncology Group (ECOG) Performance score (PS)(0 or 1) and prior use of Epidermal Growth Factor Receptor (EGFR)-targeted antibody in the Recurrent and/or Metastatic (R/M) setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.977|0.643|0.0257
82372060|NCT03786718|164450943|OTHER|||||||0.63|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to the goals range \[goal-based comparison information\] is useful.||||0.63
82372061|NCT03786718|164450944|OTHER|||||||0.01|||||||Wilcoxon Signed Rank Sum test|||||||0.01
82372062|NCT00945100|164450948|SUPERIORITY_OR_OTHER||Risk difference (unadjusted)|22.0||||0.003|TWO_SIDED|95.0|8.0|35.0|||Regression, Logistic|The logistic regression model included amblyopic eye visual acuity at randomization as an adjustment covariate.||||35|8|0.003
82372063|NCT00945100|164450949|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.01|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|The ANCOVA model included interocular difference at randomization as an adjustment covariate.||||1.0|0.1|0.01
82372064|NCT00945100|164450951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.002|TWO_SIDED|95.0|0.3|1.0|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The primary analysis was a treatment group comparison of the masked 10-week amblyopic eye visual acuity using an analysis of covariance (ANCOVA) model, adjusting for visual acuity at randomization. The analysis was a 2-sided test for efficacy to test the null hypothesis of no treatment difference, assuming 90% power and a type I error rate of 5%.||1.0|0.3|0.002
82372065|NCT00945100|164450955|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within gender was assessed by including an interaction term between treatment group and gender in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.04
82372066|NCT00945100|164450955|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within race/ethnicity was assessed by including an interaction term between treatment group and race/ethnicity in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.89
82372067|NCT00945100|164450955|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within age at randomization was assessed by including an interaction term between treatment group and age in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.49
82372068|NCT00945100|164450955|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANCOVA|||The treatment effect within amblyopic eye visual acuity at randomization was assessed by including an interaction term between treatment group and visual acuity in the ANCOVA model, adjusting for the main effects corresponding to the interaction term.||||0.37
82444947|NCT01345682|164598721|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958||||0.6755|TWO_SIDED|95.0|0.786|1.169||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||1.169|0.786|0.6755
82372069|NCT00945100|164450955|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||The treatment effect within cause of amblyopia was assessed by including an interaction term between treatment group and amblyopia cause in the ANCOVA model, adjusting for amblyopic eye visual acuity at randomization and main effects corresponding to the interaction term.||||0.50
82372070|NCT00945100|164450957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|0.04|1.0|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.||||1.0|0.04|
82372071|NCT00945100|164450965|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the proportion of participants in each treatment group with a loss of 2 or more lines in the better of the initial test and retest (if indicated) fellow eye visual acuities at the 10-week exam.||||>0.99
82372072|NCT00945100|164450967|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the proportion of participants in each treatment group with a loss of 2 or more lines in the better of the initial test and retest (if indicated) fellow eye visual acuities at the final exam.||||0.12
82372073|NCT00945100|164450971|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Wilcoxon (Mann-Whitney)|||An Exact Wilcoxon rank sum test was used for the difference between treatment groups in the distribution of levels of change in Randot Preschool Stereoacuity from randomization to 10 weeks.||||0.28
82372074|NCT00945100|164450974|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Wilcoxon (Mann-Whitney)|||An Exact Wilcoxon rank sum test was used for the difference between treatment groups in the distribution of levels of change in Randot Preschool Stereoacuity from randomization to 10 weeks.||||0.45
82372075|NCT03244644|164450980|SUPERIORITY||Treatment Difference|13.1|||||TWO_SIDED|95.0|2.3|24.0|||||The Bayesian posterior probability of superiority was 0.99136. This value exceeded the pre-specified threshold of 0.9750338 (nominal 0.025 one-sided level).|A hierarchical, closed-testing procedure (Bayesian hierarchical model) was utilized for the primary endpoint. The Bayesian hierarchical model formally incorporated data from the previous Phase 2B study (NCT02299570) of RBX2660. This analysis tested the hypothesis that the response rate of RBX2660 was superior to Placebo and was performed at the nominal 0.00125 and 0.025 one-sided levels.||24.0|2.3|
82372076|NCT03244644|164450981|SUPERIORITY|||||||0.156||||||P-value for secondary outcome evaluated from baseline through 6 months|Chi-squared|||||||0.156
82372077|NCT01781481|164450982|SUPERIORITY_OR_OTHER||Inter-rater reliability|0.87|||||TWO_SIDED||||||||Inter rater reliability for a subset of 40 patients whose Pediatric INTERMED was scored by two trained raters. The median inter-rater reliability coefficient was .87.|||||
82372078|NCT01781481|164450982|SUPERIORITY_OR_OTHER||Cronbach's Alpha|0.91|||||TWO_SIDED||||||||Overall internal consistency of the overall Pediatric INTERMED scale (34 items).|||||
82372079|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.05||||||Correlation between the biological and psychological domain scores on the Pediatric INTERMED. The threshold for significance is p\< .05.|Pearson Correlation Coefficients|||||||<0.05
82372080|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between the Biological and Social domain scores on the Pediatric INTERMED.||||<0.01
82372081|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between the Biological and Family/Caregiver Pediatric INTERMED domain scores.||||<0.01
82372082|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Biological and Health Service Pediatric INTERMED domain scores.||||<0.01
82372083|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Psychology and Social Pediatric INTERMED domain scores.||||<0.01
82372084|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||||||<0.01
82397611|NCT03300050|164505657|OTHER||GMT Ratio|1.06||||0.9411|TWO_SIDED|95.0|0.68|1.66|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.66|0.68|0.9411
82444948|NCT01345682|164598722|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.101|TWO_SIDED|95.0|0.88|4.14|||Regression, Logistic||"Odds ratio, 95% Confidence Interval (CI) and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||4.14|0.88|0.1010
82444949|NCT01345682|164598723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0353|TWO_SIDED|95.0|1.03|2.26|||Regression, Logistic||"Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||2.26|1.03|0.0353
82444950|NCT01345682|164598725|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.4|STANDARD_ERROR_OF_MEAN|2.01||0.03|TWO_SIDED|95.0|-8.31|-0.42||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG performance score (PS) and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||-0.42|-8.31|0.0300
82529789|NCT04362137|164756031|SUPERIORITY||Odds Ratio (OR)|0.89||||0.647|TWO_SIDED|95.0|0.55|1.46|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.46|0.55|0.647
82529790|NCT04362137|164756031|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.52|1.92|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||1.92|0.52|0.997
82372085|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological and Health Service Pediatric INTERMED domain scores.||||<0.01
82372086|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Social and Family/Caregiver Pediatric INTERMED domain scores.||||<0.01
82372087|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Social and Health Service Pediatric INTERMED domain scores.||||<0.01
82372088|NCT01781481|164450983|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Family/Caregiver and Health Service Pediatric INTERMED domain scores.||||<0.01
82372089|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and IBD Disease Severity at Diagnosis||||>0.05
82372090|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and IBD Disease Severity (at time of Study Participation).||||<0.01
82372091|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\< .05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Functional Disability Index (child rating).||||<0.01
82372092|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Functional Disability Index (parent rating).||||<0.01
82372093|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Impact Quality of Life: General Well Being scale.||||<0.01
82372094|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Number of Surgeries.||||>0.05
82372095|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Number of Courses of Prednisone.||||>0.05
82397612|NCT03300050|164505657|OTHER||GMT Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.24|0.62|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||0.62|0.24|<0.0001
82444951|NCT01345682|164598726|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|2.16||0.9773|TWO_SIDED|95.0|-4.3|4.18||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG PS and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||4.18|-4.30|0.9773
82444952|NCT01345682|164598727|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.95||0.7767|TWO_SIDED|95.0|-3.28|4.39||Adjusted for baseline ECOG performance score (0 or 1) and prior use of EGFR-targeted antibody for R/M HNSCC (Yes or No).|longitudinal models||Afatinib (BIBW 2992) vs Methotrexate|Changes in scores over time were assessed using longitudinal models, i.e. mixed effects growth curve models with the average profile over time for each endpoint described by a piecewise linear model adjusted for the fixed effects baseline ECOG PS and prior use of EGFR-targeted antibody for recurrent and/or metastatic head and neck squamous cell carcinoma (R/M HNSCC).||4.39|-3.28|0.7767
82444953|NCT01345682|164598728|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.494|TWO_SIDED|95.0|0.717|1.99|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.990|0.717|0.494
82529791|NCT04362137|164756032|SUPERIORITY||Odds Ratio (OR)|0.98||||0.946|TWO_SIDED|95.0|0.51|1.87|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.87|0.51|0.946
82529792|NCT04362137|164756032|SUPERIORITY||Odds Ratio (OR)|0.79||||0.573|TWO_SIDED|95.0|0.35|1.79|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||1.79|0.35|0.573
82372096|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Use of Immunomodulators.||||>0.05
82372097|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Biological Domain Score and Use of ant-TNFa medications.||||>0.05
82372098|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Disease Severity at Diagnosis.||||>0.05
82372099|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Disease Severity at time of study participation (Pediatric INTERMED interview).||||>0.05
82372100|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Functional Disability Index (Child Report)||||>0.05
82372101|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Functional Disability Index (Parent)||||<0.01
82372102|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Impact Quality of Life: General Well-Being.||||>0.05
82372103|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Number of Surgeries.||||>0.05
82529793|NCT04362137|164756033|SUPERIORITY||Odds Ratio (OR)|0.75||||0.532|TWO_SIDED|95.0|0.31|1.83|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 15||1.83|0.31|0.532
82372104|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Number of Courses of Prednisone.||||>0.05
82372105|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\< 0.05.|Spearman Correlation Coefficent|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and Use of Immunomodulators (azathioprine or methotrexate)||||<0.05
82372106|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||Correlation between Pediatric INTERMED Chronicity Item (Historical Biological) and use of anti-TNFa medications.||||>0.05
82372107|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Disease Severity at Diagnosis."||||>0.05
82372108|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and IBD Disease Severity at time of study participation."||||<0.01
82372109|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Functional Disability Index (child rating)."||||<0.01
82372110|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Functional Disability Index (Parent Rating)"||||<0.01
82372111|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current Biological) and Impact Quality of Life: General Well-Being Scale"||||<0.01
82444954|NCT01345682|164598729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.584|TWO_SIDED|95.0|0.687|1.95|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.950|0.687|0.584
82372112|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Number of Surgeries"||||>0.05
82372113|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Number of Courses of Prednisone."||||>0.05
82372114|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Use of Immunomodulators."||||>0.05
82372115|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Symptom Severity Item (Current/Biological) and Use of anti-TNFa Medications."||||>0.05
82372116|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05. The P-Value indicated above was found for all the correlations which were examined.|Spearman Correlation Coefficient|||"Correlations between Pediatric INTERMED Diagnostic Dilemma Item (Historical Biological) and Functional Disability Index (Parent) and each of the following variables: Disease Severity at Diagnosis, Disease Severity at Interview, Functional Disability Index - Child, Functional Disability Index- Parent, Impact Quality of Life: General Well Being, Number of Surgeries, Number of Courses of Prednisone, Use of Immunomodulators, Use of Anti-TNFa Medications."||||>0.05
82372117|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and IBD Disease Severity at Diagnosis."||||>0.05
82372118|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and IBD Disease Severity at time of study participation."||||<0.05
82397613|NCT03300050|164505658|OTHER||Difference|59.6||||0.0025|TWO_SIDED|95.0|23.59|81.02|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||81.02|23.59|0.0025
82644951|NCT00819091|165005127|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|||<|0.0001||95.0|-0.585|-0.23|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.230|-0.585|<0.0001
82529794|NCT04362137|164756033|SUPERIORITY||Odds Ratio (OR)|1.18||||0.764|TWO_SIDED|95.0|0.4|3.49|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 29||3.49|0.40|0.764
82372119|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Functional Disability Index (Child Rating)"||||<0.05
82372120|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Functional Disability Index (parent rating)."||||>0.05
82372121|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Impact Quality of LIfe: General Well-Being Scale"||||<0.01
82372122|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Number of Surgeries."||||>0.05
82372123|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Number of Courses of Prednisone."||||>0.05
82372124|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Use of Immunomodulators. ."||||>0.05
82372125|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Diagnostic/Therapeutic Challenge Item (Current Biological) and Use of anti-TNFa Medications"||||>0.05
82372126|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Disease Severity at Diagnosis."||||>0.05
82372127|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Disease Severity at time of study participation (Pediatric INTERMED interview)."||||>0.05
82372128|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Functional Disability Index (Child Rating)."||||>0.05
82372129|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Functional Disability Index (Parent Rating)"||||>0.05
82372130|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Impact Quality of Life: General Well-Being"||||>0.05
82397614|NCT03300050|164505658|OTHER||Difference|17.9||||0.4421|TWO_SIDED|95.0|-16.24|49.0|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||49.00|-16.24|0.4421
82397615|NCT03300050|164505658|OTHER||Difference|-41.8||||0.0461|TWO_SIDED|95.0|-68.75|-4.8|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||-4.80|-68.75|0.0461
82529795|NCT04362137|164756034|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.33|TWO_SIDED|95.0|0.9|1.37|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.37|0.90|0.330
82397616|NCT03300050|164505662|OTHER||GMT Ratio|1.71||||0.1665|TWO_SIDED|95.0|0.84|3.48|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgA (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.48|0.84|0.1665
82397617|NCT03300050|164505662|OTHER||GMT Ratio|1.1||||0.9377|TWO_SIDED|95.0|0.55|2.2|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgA (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.20|0.55|0.9377
82397618|NCT03300050|164505662|OTHER||GMT Ratio|0.64||||0.3088|TWO_SIDED|95.0|0.31|1.33|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.33|0.31|0.3088
82397619|NCT03300050|164505663|OTHER||Difference|16.3||||0.4667|TWO_SIDED|95.0|-19.85|48.88|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||48.88|-19.85|0.4667
82397620|NCT03300050|164505663|OTHER||Difference|-1.8|||>|0.9999|TWO_SIDED|95.0|-34.76|32.17|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||32.17|-34.76|>0.9999
82397621|NCT03300050|164505663|OTHER||Difference|-18.1||||0.4495|TWO_SIDED|95.0|-51.15|19.37|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Serum) Humoral Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||19.37|-51.15|0.4495
82444955|NCT01345682|164598730|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.816|TWO_SIDED|95.0|0.657|1.705|||Regression, Logistic||Odds ratio, 95% CI and p-value (two-sided) from logistic regression stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No). Afatinib (BIBW 2992) vs Methotrexate|||1.705|0.657|0.816
82444956|NCT01345682|164598731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0217|TWO_SIDED|95.0|0.55|0.96||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|||0.96|0.55|0.0217
82644952|NCT00819091|165005128|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||<|0.0001||95.0|-0.72|-0.276|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.276|-0.720|<0.0001
82397622|NCT03300050|164505667|OTHER||GMT Ratio|1.61||||0.0928|TWO_SIDED|95.0|0.94|2.77|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.77|0.94|0.0928
82397623|NCT03300050|164505667|OTHER||GMT Ratio|1.32||||0.4198|TWO_SIDED|95.0|0.77|2.26|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.26|0.77|0.4198
82397624|NCT03300050|164505667|OTHER||GMT Ratio|0.82||||0.6754|TWO_SIDED|95.0|0.47|1.45|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.45|0.47|0.6754
82397625|NCT03300050|164505668|OTHER||Difference|19.2||||0.4515|TWO_SIDED|95.0|-17.19|50.49|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||50.49|-17.19|0.4515
82397626|NCT03300050|164505668|OTHER||Difference|14.3||||0.4837|TWO_SIDED|95.0|-21.22|46.19|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||46.19|-21.22|0.4837
82397627|NCT03300050|164505668|OTHER||Difference|-4.9|||>|0.9999|TWO_SIDED|95.0|-38.8|30.46|||Fisher Exact|||Comparison of Anti-H1 HA-stalk MN (Serum) Assay: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||30.46|-38.80|>0.9999
82397628|NCT03300050|164505671|OTHER||Difference|2.93||||0.0031|TWO_SIDED|95.0|1.56|7.49|||Wilcoxon (Mann-Whitney)||Based on log10 AUC, using the Hodges-Lehmann location parameter difference back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||7.49|1.56|0.0031
82397629|NCT03300050|164505671|OTHER||Difference|1.25||||0.2048|TWO_SIDED|95.0|0.73|2.23|||Wilcoxon (Mann-Whitney)||Based on log10 AUC, using the Hodges-Lehmann location parameter difference back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||2.23|0.73|0.2048
82397630|NCT03300050|164505671|OTHER||Difference|0.43||||0.0392|TWO_SIDED|95.0|0.18|1.0|||Wilcoxon (Mann-Whitney)|||Comparison of Serum cH6/1 - ADCC Activity: AUC at 28 Days Post-Boost||1.00|0.18|0.0392
82444957|NCT01345682|164598732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.004|TWO_SIDED|95.0|0.5|0.89||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.89|0.50|0.0040
82529796|NCT04362137|164756035|SUPERIORITY||Least squares (LS) mean|-0.03|STANDARD_ERROR_OF_MEAN|0.144||0.831|TWO_SIDED|95.0|-0.31|0.25|||ANCOVA|||Day 15||0.25|-0.31|0.831
82529797|NCT04362137|164756035|SUPERIORITY||LS Mean|0.08|STANDARD_ERROR_OF_MEAN|0.155||0.624|TWO_SIDED|95.0|-0.23|0.38|||ANCOVA|||Day 29||0.38|-0.23|0.624
82529798|NCT04362137|164756036|SUPERIORITY||Odds Ratio (OR)|0.94||||0.944|TWO_SIDED|95.0|0.2|5.57|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 15||5.57|0.20|0.944
82529799|NCT04362137|164756036|SUPERIORITY||Odds Ratio (OR)|1.21||||0.775|TWO_SIDED|95.0|0.35|5.11|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|Day 29||5.11|0.35|0.775
82444958|NCT01345682|164598733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0268|TWO_SIDED|95.0|0.56|0.97||Log-rank test stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).|Stratified Log-rank test||"Hazard ratio from Cox proportional hazards model stratified by baseline ECOG PS (0 or 1) and prior use of EGFR-targeted antibody in the R/M setting (Yes or No).~Afatinib (BIBW 2992) vs Methotrexate"|||0.97|0.56|0.0268
82444959|NCT03907033|164598760|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Hydrocodone use||||1.000
82444960|NCT03907033|164598760|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Oxycodone use||||0.010
82444961|NCT03907033|164598761|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Ibuprofen use||||0.248
82444962|NCT03907033|164598761|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm for Tylenol use||||1.000
82444963|NCT03907033|164598763|SUPERIORITY|||||||0.846|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 24 hours post-surgery||||0.846
82444964|NCT03907033|164598763|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 48 hours post-surgery||||0.490
82444965|NCT03907033|164598763|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm 72 hours post-surgery||||0.564
82444966|NCT03907033|164598764|SUPERIORITY|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 24 hours post-surgery||||0.264
82444967|NCT03907033|164598764|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 48 hours post-surgery||||0.970
82444968|NCT03907033|164598764|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine arm at 72 hours post-surgery||||0.536
82444969|NCT03907033|164598765|SUPERIORITY|||||||0.957|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 24 hours post-surgery||||0.957
82644953|NCT00819091|165005129|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47||||0.0002||95.0|-0.716|-0.226|||Mixed Models Analysis|MMRM with treatment, number oral anti-diabetic drugs, week within patients, week-treatment interaction and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.226|-0.716|0.0002
82444970|NCT03907033|164598765|SUPERIORITY|||||||0.353|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 48 hours post-surgery||||0.353
82444971|NCT03907033|164598765|SUPERIORITY|||||||0.165|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 72 hours post-surgery||||0.165
82444972|NCT03907033|164598767|SUPERIORITY|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 72 hours post-surgery||||0.802
82444973|NCT03907033|164598767|SUPERIORITY|||||||0.656|||||||Wilcoxon (Mann-Whitney)|||Standard Bupivacaine study arm compared to Liposomal Bupivacaine study arm at 7-10 days post-surgery||||0.656
82444974|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.17||||1|TWO_SIDED|95.0|0.083|0.359|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.359|0.083|1.000
82444975|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.23||||0.9999|TWO_SIDED|95.0|0.111|0.492|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.492|0.111|0.9999
82444976|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.26||||0.9997|TWO_SIDED|95.0|0.121|0.568|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.568|0.121|0.9997
82372131|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Number of Surgeries."||||>0.05
82372132|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Number of Courses of Prednisone since diagnosis."||||<0.05
82372133|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significiance is p\<0.01.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Use of Immunomodulators (azathioprine or methotrexate)."||||<0.01
82372134|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The Threshold for significance is p\<0.05)|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Therapeutic Complexity Item (Current Biological) and Use of ant-TNFa Medications (infliximab or adalimumab)."||||<0.01
82372135|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Disease Severity at diagnosis."||||>0.05
82372136|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Disease Severity at study participation."||||<0.05
82444977|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9997|TWO_SIDED|95.0|0.136|0.66|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.660|0.136|0.9997
82444978|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.133|0.632|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.632|0.133|0.9991
82444979|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.46||||0.9631|TWO_SIDED|95.0|0.213|1.081|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.081|0.213|0.9631
82444980|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.33||||0.9941||95.0|0.157|0.789|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.789|0.157|0.9941
82444981|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.38||||0.9875|TWO_SIDED|95.0|0.179|0.891|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.891|0.179|0.9875
82644954|NCT00819091|165005130|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|4.6||0.197||95.0|-14.9|3.1|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||3.1|-14.9|0.197
82372137|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Functional Disability Index (Child Rating)."||||<0.01
82372138|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.01.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Functional Disability Index (parent rating)."||||<0.01
82372139|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Impact Quality of Life: General Well Being Scale."||||<0.05
82372140|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Number of Surgeries."||||>0.05
82372141|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Number of Courses of Prednisone."||||>0.05
82372142|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Use of Immunomodulators (azathioprine or methotrexate)."||||<0.05
82372143|NCT01781481|164450997|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Complications and Life Threat Item (Vulnerability Biological) and Use of anti-TNFa Medications."||||>0.05
82372144|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
82372145|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
82372146|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Children's Depression Inventory: Total Score||||<0.01
82372147|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Multidimensional Anxiety Scale for Children: Total Score.||||<0.05
82372148|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Emotional Scale||||<0.01
82372149|NCT01781481|164450998|SUPERIORITY_OR_OTHER|||||||0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Social Competence Scale (Child Behaviour Checklist).||||0.01
82372150|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.05
82372151|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
82372152|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Social Scale||||<0.01
82372153|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.05
82372154|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Life Events (family stress measure).||||<0.01
82372155|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
82372156|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
82372157|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
82372158|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Children's Depression Inventory: Total Score||||<0.01
82372159|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Multidimensional Anxiety Scale for Children: Total Score.||||<0.05
82372160|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Impact Quality of Life: Emotional Scale||||<0.01
82444982|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.33||||0.9956|TWO_SIDED|95.0|0.151|0.759|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.759|0.151|0.9956
82529800|NCT04362137|164756037|SUPERIORITY||Odds Ratio (OR)|0.99||||0.987|TWO_SIDED|95.0|0.45|2.21|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \< 1 favors the ruxolitinib 5 mg arm|||2.21|0.45|0.987
82529801|NCT04362137|164756038|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.738|TWO_SIDED|95.0|0.84|1.28|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.28|0.84|0.738
82529802|NCT04362137|164756039|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.869|TWO_SIDED|95.0|0.84|1.23|||Proportional hazards model||Between group comparison using competing risk framework. A hazard ratio \> 1 favors the ruxolitinib 5 mg arm|||1.23|0.84|0.869
82529803|NCT04362137|164756042|SUPERIORITY||Odds Ratio (OR)|0.61||||0.325|TWO_SIDED|95.0|0.23|1.63|||Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 15||1.63|0.23|0.325
82529804|NCT04362137|164756042|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.25|5.4||P-value was not estimable because \>97% patients fall into one category (responders) in both groups, and very few patients fall into the other one (non-responders), which made the logistic regression model fail to converge even with Firth's correction|Regression, Logistic||Comparison is ruxolitinib 5 mg/placebo. An odds ratio \> 1 favors the ruxolitinib 5 mg arm|Day 29||5.40|0.25|
82372161|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Social Competence Scale (Child Behaviour Checklist).||||<0.01
82372162|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.01
82372163|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
82372164|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Impact Quality of Life: Social Scale||||<0.01
82372165|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.01
82372166|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Family Inventory of Life Events (family stress measure).||||<0.01
82372167|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Social Domain Score (social needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
82372168|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Internalizing Problems (Child Behaviour Checklist).||||<0.01
82372169|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Externalizing Problems (Child Behaviour Checklist).||||<0.01
82372170|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Children's Depression Inventory: Total Score||||<0.01
82372171|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Multidimensional Anxiety Scale for Children: Total Score.||||>0.05
82372172|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Impact Quality of Life: Emotional Scale||||<0.01
82372173|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Social Competence Scale (Child Behaviour Checklist).||||<0.01
82372174|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Activities Competence Scale (Child Behaviour Checklist).||||<0.01
82372175|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Academic Competence Scale (Child Behaviour Checklist).||||<0.01
82372176|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Impact Quality of Life: Social Scale||||<0.01
82372177|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Pediatric Inventory for Parents: Difficulty Score (parenting stress).||||<0.01
82372178|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Psychological Domain Score (psychological needs) and Family Inventory of Life Events (family stress measure).||||<0.01
82372179|NCT01781481|164450998|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Caregiver/Family Domain Score (caregiver/family needs) and Family Inventory of Resources for Management (family resources measure).||||<0.01
82644955|NCT00819091|165005131|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|5.6||0.0105||95.0|-25.5|-3.4|||ANCOVA|ANCOVA model includes treatment and number of prior oral anti-diabetic drug as fixed classification effects and baseline HbA1c as a linear covariate||Linagliptin 5.0 mg versus placebo||-3.4|-25.5|0.0105
82372180|NCT01781481|164450999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.33|||||TWO_SIDED|95.0|2.02|34.47||||||||34.47|2.02|
82372181|NCT01781481|164451000|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.52|||||TWO_SIDED|95.0|1.7|43.02||||||||43.02|1.70|
82372182|NCT01781481|164451001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.27|||||TWO_SIDED|95.0|2.17|24.36||||||||24.36|2.17|
82372183|NCT01781481|164451002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.79|||||TWO_SIDED|95.0|5.0|122.84||||||||122.84|5.00|
82372184|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Hospital Services involved in the child's care.||||<0.01
82372185|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Inpatient Hospitalizations since IBD diagnosis.||||<0.01
82372186|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Number of Surgeries since IBD diagnosis.||||<0.01
82372187|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Pearson Correlation Coefficient|||Correlation between Pediatric INTERMED Health System Domain Score (health system needs/complexity) and Family Financial Well Being||||<0.01
82372188|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Hospital Services Involved in the Child's Care."||||>0.05
82372189|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||<0.01
82372190|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Number of Surgeries since Diagnosis."||||<0.01
82372191|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Access to Health Care Item (historical/health system) and Family Financial Well-Being."||||<0.01
82372192|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
82372193|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||>0.05
82372194|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Number of Surgeries since child's diagnosis."||||>0.05
82372195|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Treatment Experience Item (historical/health system) and Family Financial Well-Being."||||>0.05
82372196|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
82372197|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Hospitalizations since IBD Diagnosis."||||>0.05
82372198|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Number of Surgeries since Child's IBD Diagnosis."||||>0.05
82372199|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Organization of Care Item (current/health system) and Family Financial Well-Being."||||<0.01
82372200|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Hospital Services Involved in the Child's Care."||||<0.01
82372201|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Hospitalizations since Child's IBD Diagnosis."||||>0.05
82372202|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Number of Surgeries Child's IBD Diagnosis."||||>0.05
82372203|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Coordination of Care Item (current/health system) and Family Financial Well Being."||||>0.05
82372204|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Hospital Services Involved in the Child's Care."||||>0.05
82372205|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Hospitalizations since Child's IBD Diagnosis. Services Involved in the Child's Care."||||<0.01
82444983|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9964|TWO_SIDED|95.0|0.157|0.747|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.747|0.157|0.9964
82444984|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9999|TWO_SIDED|95.0|0.114|0.532|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.532|0.114|0.9999
82444985|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.13|0.647|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.647|0.130|0.9991
82444986|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.36||||0.9852|TWO_SIDED|0.9852|0.137|0.906|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||0.906|0.137|0.9852
82444987|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.51||||0.9719|TWO_SIDED|95.0|0.23|1.014|||Bayesian repeated measures model|||AngII, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.014|0.230|0.9719
82444988|NCT01597635|164598825|SUPERIORITY||Ratio of Active/Placebo|3.98||||1|TWO_SIDED|95.0|2.263|6.919|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||6.919|2.263|1.0000
82444989|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.46||||1|TWO_SIDED|95.0|1.976|6.052|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||6.052|1.976|1.000
82444990|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.59||||1|TWO_SIDED|95.0|2.06|6.345|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||6.345|2.060|1.0000
82644956|NCT04318535|165005152|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of Cmax falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.157|||||TWO_SIDED|90.0|1.103|1.213|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.213|1.103|
82372206|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Number of Surgeries since Child's IBD Diagnosis."||||>0.05
82372207|NCT01781481|164451003|SUPERIORITY_OR_OTHER||||||<|0.01||||||The threshold for significance is p\<0.05.|Spearman Correlation Coefficient|||"Correlation between Pediatric INTERMED Health System Impediments Item (vulnerability/health system) and Family Financial Well-Being."||||<0.01
82372208|NCT01781481|164451004|SUPERIORITY_OR_OTHER||Rsquare change statistic|0.08|||<|0.01|TWO_SIDED|||||p\<0.05 Threshold for statistical significance|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of hospital services involved in child's care. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
82372209|NCT01781481|164451005|SUPERIORITY_OR_OTHER||R2Change|0.05|||<|0.01|TWO_SIDED|||||Threshold for statistical significance is p\<0.01|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of calls to the IBD Nurse. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
82372210|NCT01781481|164451006|SUPERIORITY_OR_OTHER||Rsquare change statistic|0.05|||<|0.01|TWO_SIDED|||||p\<.05 threshold for statistical significance|Regression, Linear|Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of extra appointments with the IBD team. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3).||||<0.01
82372211|NCT01781481|164451007|SUPERIORITY_OR_OTHER||R2Change|0.03|||<|0.05|TWO_SIDED|||||Threshold for statistical significance is p \<0.05.|Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of ER Visits. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.05
82372212|NCT01781481|164451008|SUPERIORITY_OR_OTHER||R2Change|0.07|||<|0.01|TWO_SIDED||||||Regression, Linear|||A hierarchical multiple (linear) regression analysis was conducted to determine the predictive relation between the Pediatric INTERMED indicator of case complexity and the number of hospital services involved in child's care. Gender, and time since diagnosis were entered as covariates (Step 1), followed by current disease severity (Step 2) and the Pediatric INTERMED Complexity Index (Step 3). Diagnostic tests for collinearity were conducted and all assumptions for the analysis were met.||||<0.01
82372213|NCT00642694|164451058|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82372214|NCT03688282|164451067|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82444991|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.82||||0.9806|TWO_SIDED|95.0|1.031|3.17|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||3.170|1.031|0.9806
82444992|NCT01597635|164598825|SUPERIORITY||Ratio of Active/Placebo|1.5||||0.9129|TWO_SIDED|95.0|0.828|2.636|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||2.636|0.828|0.9129
82444993|NCT01597635|164598825|SUPERIORITY||Ratio of Active/Placebo|1.92||||0.9891|TWO_SIDED|95.0|1.098|3.349|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||3.349|1.098|0.9891
82444994|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.29||||0.9983|TWO_SIDED|95.0|1.316|3.974|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||3.974|1.316|0.9983
82444995|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.94||||0.99|TWO_SIDED|95.0|1.112|3.359|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||3.359|1.112|0.9900
82372215|NCT02906930|164451068|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.3|<0.0001
82372216|NCT02906930|164451068|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.1|<0.0001
82644957|NCT04318535|165005153|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of AUC(0-t) falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.032|||||TWO_SIDED|90.0|0.974|1.094|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.094|0.974|
82397631|NCT03300050|164505672|OTHER||Difference|1.16||||0.8243|TWO_SIDED|95.0|0.14|4.95|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||4.95|0.14|0.8243
82397632|NCT03300050|164505672|OTHER||Difference|1.74||||0.253|TWO_SIDED|95.0|0.67|6.06|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||6.06|0.67|0.2530
82397633|NCT03300050|164505672|OTHER||Difference|1.83||||0.5654|TWO_SIDED|95.0|0.47|39.92|||Wilcoxon (Mann-Whitney)||Based on the Hodges-Lehmann location parameter difference on the log scale then back-transformed to the original scale.|Comparison of Serum cH6/1 - ADCC Activity: Fold Increase in AUC at 28 Days Post-Boost||39.92|0.47|0.5654
82397634|NCT03300050|164505676|OTHER||GMT Ratio|1.21||||0.883|TWO_SIDED|95.0|0.45|3.27|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.27|0.45|0.8830
82397635|NCT03300050|164505676|OTHER||GMT Ratio|0.86||||0.9238|TWO_SIDED|95.0|0.33|2.26|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.26|0.33|0.9238
82397636|NCT03300050|164505676|OTHER||GMT Ratio|0.71||||0.6926|TWO_SIDED|95.0|0.26|1.97|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||1.97|0.26|0.6926
82397637|NCT03300050|164505677|OTHER||Difference|11.7||||0.7036|TWO_SIDED|95.0|-25.72|45.82|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||45.82|-25.72|0.7036
82397638|NCT03300050|164505677|OTHER||Difference|-3.8|||>|0.9999|TWO_SIDED|95.0|-37.9|31.31|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||31.31|-37.90|>0.9999
82397639|NCT03300050|164505677|OTHER||Difference|-15.5||||0.6951|TWO_SIDED|95.0|-49.56|22.79|||Fisher Exact|||Comparison of Anti-H1 HA-stalk IgG (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||22.79|-49.56|0.6951
82397640|NCT03300050|164505681|OTHER||GMT Ratio|0.65||||0.3203|TWO_SIDED|95.0|0.32|1.33|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||1.33|0.32|0.3203
82397641|NCT03300050|164505681|OTHER||GMT Ratio|0.72||||0.5009|TWO_SIDED|95.0|0.35|1.47|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||1.47|0.35|0.5009
82397642|NCT03300050|164505681|OTHER||GMT Ratio|1.1||||0.9542|TWO_SIDED|95.0|0.51|2.37|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days post-Boost Dose||2.37|0.51|0.9542
82397643|NCT03300050|164505682|OTHER||Difference|-1.7|||>|0.9999|TWO_SIDED|95.0|-30.62|23.79|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||23.79|-30.62|>0.9999
82397644|NCT03300050|164505682|OTHER||Difference|6.7|||>|0.9999|TWO_SIDED|95.0|-16.24|30.34|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||30.34|-16.24|>0.9999
82397645|NCT03300050|164505682|OTHER||Difference|8.3||||0.4615|TWO_SIDED|95.0|-19.94|36.04|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Secretory IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days post-Boost Dose||36.04|-19.94|0.4615
82644958|NCT04318535|165005154|EQUIVALENCE|Bioequivalence was to be determined if the 90% confidence interval of the geometric least square mean ratio of AUC(0-inf) falls within the 0.80-1.25 range.|Ratio of geometric least square mean|1.03|||||TWO_SIDED|90.0|0.971|1.093|||||T1 versus R was the primary interest of comparison for this outcome measure.|||1.093|0.971|
82372217|NCT02906930|164451068|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.4|-0.8|<0.0001
82372218|NCT02906930|164451068|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 3 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.5|-0.9|<0.0001
82372219|NCT02906930|164451068|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 7 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.0|-1.5|<0.0001
82372220|NCT02906930|164451068|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 14 mg - placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.2|-1.7|<0.0001
82372221|NCT02906930|164451069|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.5||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.5|-3.1|<0.0001
82372222|NCT02906930|164451069|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.9||||0.0866|TWO_SIDED|95.0|-1.9|0.1||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 7 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.1|-1.9|0.0866
82372223|NCT02906930|164451069|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any additional anti-diabetic medication for all randomised subjects regardless of premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.1||||0.8692|TWO_SIDED|95.0|-0.9|0.8||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixed model||Oral Semaglutide 3 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to impute missing data for week 26, assuming that the missing data mechanism was missing at random within the groups used for the imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.8|-0.9|0.8692
82397646|NCT03300050|164505686|OTHER||GMT Ratio|1.2||||0.9164|TWO_SIDED|95.0|0.38|3.8|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||3.80|0.38|0.9164
82576056|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.065|||=|0.048|TWO_SIDED|95.0|0.001|0.129|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 6.0 mg - Placebo) at Week 4.||0.129|0.001|=0.048
82576057|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.119|||<|0.001|TWO_SIDED|95.0|0.055|0.183|||LS mean difference|||Placebo-corrected treatment effect: LS mean difference (RPL554 3.0 mg - Placebo) at Week 4.||0.183|0.055|<0.001
82644959|NCT02675426|165005169|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|28.1|||<|0.001|TWO_SIDED|95.0|19.1|37.0||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||37.0|19.1|<0.001
82372224|NCT02906930|164451069|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-0.2||||0.7075|TWO_SIDED|95.0|-1.0|0.6|||MMRM||Oral Semaglutide 3 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.6|-1.0|0.7075
82372225|NCT02906930|164451069|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-1.0||||0.0138|TWO_SIDED|95.0|-1.8|-0.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 7 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.2|-1.8|0.0138
82372226|NCT02906930|164451069|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication (hypothetical estimand).|Mean treatment difference|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral Semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.8|-3.4|<0.0001
82372227|NCT02906930|164451092|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.45||||0.0043|TWO_SIDED|95.0|0.26|0.78||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 3 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.78|0.26|0.0043
82372228|NCT02906930|164451092|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.33||||0.0002|TWO_SIDED|95.0|0.18|0.59||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 7 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.59|0.18|0.0002
82372229|NCT02906930|164451092|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.33||||0.0002|TWO_SIDED|95.0|0.19|0.6||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox||Oral Semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.60|0.19|0.0002
82372230|NCT02906930|164451093|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.48||||0.03|TWO_SIDED|95.0|0.25|0.93||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 3 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.93|0.25|0.0300
82372231|NCT02906930|164451093|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.13||||0.0001|TWO_SIDED|95.0|0.04|0.36||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 7 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.36|0.04|0.0001
82397647|NCT03300050|164505686|OTHER||GMT Ratio|0.76||||0.8642|TWO_SIDED|95.0|0.21|2.79|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.79|0.21|0.8642
82372232|NCT02906930|164451093|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.06||||0.0001|TWO_SIDED|95.0|0.01|0.26||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide 14 mg /Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.26|0.01|0.0001
82372233|NCT04796779|164451116|SUPERIORITY||||||<|0.001|||||||Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
82372234|NCT04796779|164451117|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Robust regression using M-estimation|The model was adjusted for baseline value of the metric, age, prior CGM and pump use, and site as a fixed effect.||||||<0.001
82372235|NCT04796779|164451118|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
82372236|NCT04796779|164451119|SUPERIORITY||||||<|0.001||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Direct likelihood model|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a random effect.||||||<0.001
82372237|NCT04796779|164451120|SUPERIORITY|||||||0.57||||||To preserve the overall type I error for the multiple secondary outcomes, a hierarchical gatekeeping approach was used.|Robust regression using M-estimation|The model was adjusted for the baseline value of the metric, age, prior CGM and pump use, and site as a fixed effect.||||||0.57
82372238|NCT00910091|164451174|SUPERIORITY_OR_OTHER|||||||0.1895|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.1895
82372239|NCT00910091|164451175|SUPERIORITY_OR_OTHER|||||||0.0203|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.0203
82397648|NCT03300050|164505686|OTHER||GMT Ratio|0.63||||0.6545|TWO_SIDED|95.0|0.18|2.27|||ANCOVA||GMT ratio computed after fitting an analysis of covariance (ANCOVA) model on the log10 transformed titers, including vaccine group as fixed effect and the pre-vaccination titer as covariate.|Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Adjusted GMT Ratio 28 Days Post-Boost Dose||2.27|0.18|0.6545
82372240|NCT00910091|164451177|SUPERIORITY_OR_OTHER|||||||0.698|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.6980
82372241|NCT00910091|164451178|SUPERIORITY_OR_OTHER|||||||0.3078|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.3078
82372242|NCT00910091|164451179|SUPERIORITY_OR_OTHER|||||||0.0484|TWO_SIDED||||||Kaplan-Meier Analysis|||||||0.0484
82372243|NCT01007942|164451195|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0067|TWO_SIDED|95.0|0.65|0.95|||Log Rank|||||0.95|0.65|0.0067
82372244|NCT04715932|164451222|SUPERIORITY||Odds Ratio (OR)|1.49||||0.3849|TWO_SIDED|95.0|0.6|3.69|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression).||||3.69|0.60|0.3849
82372245|NCT04715932|164451223|SUPERIORITY||Odds Ratio (OR)|1.43||||0.3139|TWO_SIDED|95.0|0.71|2.88|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.88|0.71|0.3139
82372246|NCT04715932|164451224|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5886|TWO_SIDED|95.0|0.65|2.14|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.14|0.65|0.5886
82372247|NCT04715932|164451225|SUPERIORITY||Odds Ratio (OR)|0.69||||0.2328|TWO_SIDED|95.0|0.38|1.27|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.27|0.38|0.2328
82372248|NCT04715932|164451226|SUPERIORITY||Rate Ratio|1.14||||0.156|TWO_SIDED|95.0|0.95|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression).||||1.37|0.95|0.1560
82372249|NCT04715932|164451227|SUPERIORITY||Rate Ratio|1.06||||0.6233|TWO_SIDED|95.0|0.84|1.33|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.33|0.84|0.6233
82372250|NCT04715932|164451228|SUPERIORITY||Rate Ratio|1.03||||0.829|TWO_SIDED|95.0|0.78|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.37|0.78|0.8290
82372251|NCT04715932|164451229|SUPERIORITY||Rate Ratio|0.98||||0.9222|TWO_SIDED|95.0|0.69|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated poisson regression)||||1.40|0.69|0.9222
82372252|NCT04715932|164451230|SUPERIORITY|||||||0.8834|||||||Log Rank|||||||0.8834
82372253|NCT04715932|164451231|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9416|TWO_SIDED|95.0|0.59|1.77|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.77|0.59|0.9416
82372254|NCT04715932|164451232|SUPERIORITY||Odds Ratio (OR)|0.87||||0.6296|TWO_SIDED|95.0|0.49|1.55|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.55|0.49|0.6296
82372255|NCT04715932|164451233|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3711|TWO_SIDED|95.0|0.41|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.40|0.41|0.3711
82372256|NCT04715932|164451234|SUPERIORITY||Odds Ratio (OR)|0.82||||0.5696|TWO_SIDED|95.0|0.42|1.61|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.61|0.42|0.5696
82372257|NCT04715932|164451235|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7583|TWO_SIDED|95.0|0.26|2.67|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.67|0.26|0.7583
82372258|NCT04715932|164451236|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8091|TWO_SIDED|95.0|0.2|3.58|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.58|0.20|0.8091
82372259|NCT04715932|164451237|SUPERIORITY||Odds Ratio (OR)|1.67||||0.5591|TWO_SIDED|95.0|0.3|9.42|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||9.42|0.30|0.5591
82372260|NCT04715932|164451238|SUPERIORITY|||||||0.9983|||||||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||||0.9983
82372261|NCT04715932|164451239|SUPERIORITY||Odds Ratio (OR)|1.6||||0.1068|TWO_SIDED|95.0|0.9|2.82|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.82|0.90|0.1068
82397649|NCT03300050|164505687|OTHER||Difference|7.7|||>|0.9999|TWO_SIDED|95.0|-27.1|40.96|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (\>4-Fold) Rate 28 Days Post-Boost Dose||40.96|-27.10|>0.9999
82397650|NCT03300050|164505687|OTHER||Difference|30.8||||0.1045|TWO_SIDED|95.0|-1.76|58.19|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||58.19|-1.76|0.1045
82372262|NCT04715932|164451240|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8382|TWO_SIDED|95.0|0.57|1.98|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.98|0.57|0.8382
82397651|NCT03300050|164505687|OTHER||Difference|23.1||||0.2292|TWO_SIDED|95.0|-8.62|50.86|||Fisher Exact|||Comparison of Anti-H1 HA-stalk Total IgA (Saliva), Mucosal Response: Seroresponse (≥4-fold) Rate 28 Days Post-Boost Dose||50.86|-8.62|0.2292
82397652|NCT06010732|164505736|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.986|TWO_SIDED|95.0|-5.5|5.4||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||5.4|-5.5|0.986
82397653|NCT06010732|164505736|SUPERIORITY||Mean Difference (Final Values)|27.2|||<|0.001|TWO_SIDED|95.0|21.7|32.6||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||32.6|21.7|<0.001
82397654|NCT06010732|164505736|SUPERIORITY||Mean Difference (Final Values)|27.2|||<|0.001|TWO_SIDED|95.0|21.7|32.7||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|Based on previous studies we estimate the standard deviation of the differences between treatments in the crossover model to be 20 for % SMH recovery. With a sample size of 58 subjects completing the study, the study had 80% power to detect a difference between any two treatments of 7.5 for % SMH recovery, assuming two-sided tests each conducted at a 5% significance level.||32.7|21.7|<0.001
82397655|NCT06010732|164505737|SUPERIORITY||Ratio of Means|1.11||||0.23|TWO_SIDED|95.0|0.93|1.32||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(EFU)||1.32|0.93|0.230
82397656|NCT06010732|164505737|SUPERIORITY||Ratio of Means|5.77|||<|0.001|TWO_SIDED|95.0|4.86|6.85||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(EFU)||6.85|4.86|<0.001
82397657|NCT06010732|164505737|SUPERIORITY||Ratio of Means|5.2|||<|0.001|TWO_SIDED|95.0|4.37|6.18||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(EFU)||6.18|4.37|<0.001
82372263|NCT04715932|164451241|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5912|TWO_SIDED|95.0|0.59|2.51|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.51|0.59|0.5912
82372264|NCT04715932|164451243|SUPERIORITY||Odds Ratio (OR)|0.78||||0.3686|TWO_SIDED|95.0|0.45|1.35|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.35|0.45|0.3686
82372265|NCT04715932|164451244|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8711|TWO_SIDED|95.0|0.59|1.86|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.86|0.59|0.8711
82372266|NCT04715932|164451245|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9124|TWO_SIDED|95.0|0.57|1.87|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.87|0.57|0.9124
82372267|NCT04715932|164451246|SUPERIORITY||Odds Ratio (OR)|0.7||||0.2952|TWO_SIDED|95.0|0.36|1.37|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.37|0.36|0.2952
82372268|NCT04715932|164451247|SUPERIORITY||Odds Ratio (OR)|1.2||||0.5894|TWO_SIDED|95.0|0.62|2.34|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.34|0.62|0.5894
82397658|NCT06010732|164505738|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.272|TWO_SIDED|95.0|-2.5|8.6||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|||8.6|-2.5|0.272
82397659|NCT06010732|164505738|SUPERIORITY||Mean Difference (Final Values)|34.8|||<|0.001|TWO_SIDED|95.0|29.3|40.3||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|||40.3|29.3|<0.001
82397660|NCT06010732|164505738|SUPERIORITY||Mean Difference (Final Values)|31.7|||<|0.001|TWO_SIDED|95.0|26.2|37.3||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|||37.3|26.2|<0.001
82397661|NCT06010732|164505739|SUPERIORITY||Ratio of Means|1.11||||0.191|TWO_SIDED|95.0|0.93|1.32||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(%CAR+100)||1.32|0.93|0.191
82444996|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.27||||0.7996|TWO_SIDED|95.0|0.729|2.163|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||2.163|0.729|0.7996
82372269|NCT04715932|164451248|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7887|TWO_SIDED|95.0|0.45|2.89|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.89|0.45|0.7887
82372270|NCT04715932|164451249|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6348|TWO_SIDED|95.0|0.2|2.7|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.70|0.20|0.6348
82372271|NCT04715932|164451250|SUPERIORITY||Odds Ratio (OR)|0.39||||0.4257|TWO_SIDED|95.0|0.04|3.92|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.92|0.04|0.4257
82372272|NCT04715932|164451251|SUPERIORITY||Odds Ratio (OR)|1.66||||0.1113|TWO_SIDED|95.0|0.89|3.11|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.11|0.89|0.1113
82372273|NCT04715932|164451252|SUPERIORITY||Odds Ratio (OR)|1.57||||0.2613|TWO_SIDED|95.0|0.71|3.47|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.47|0.71|0.2613
82372274|NCT04715932|164451253|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7273|TWO_SIDED|95.0|0.27|2.49|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.49|0.27|0.7273
82372275|NCT04715932|164451254|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8909|TWO_SIDED|95.0|0.19|4.19|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.19|0.19|0.8909
82372276|NCT04715932|164451255|SUPERIORITY||Odds Ratio (OR)|1.52||||0.1438|TWO_SIDED|95.0|0.87|2.67|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.67|0.87|0.1438
82372277|NCT04715932|164451256|SUPERIORITY||Odds Ratio (OR)|1.38||||0.344|TWO_SIDED|95.0|0.71|2.68|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.68|0.71|0.3440
82372278|NCT04715932|164451257|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5968|TWO_SIDED|95.0|0.58|2.56|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.56|0.58|0.5968
82372279|NCT04715932|164451258|SUPERIORITY||Odds Ratio (OR)|1.52||||0.362|TWO_SIDED|95.0|0.62|3.76|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.76|0.62|0.3620
82372280|NCT04715932|164451259|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0875|TWO_SIDED|95.0|0.91|4.27|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.27|0.91|0.0875
82372281|NCT04715932|164451260|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8397|TWO_SIDED|95.0|0.36|2.32|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.32|0.36|0.8397
82372282|NCT04715932|164451261|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6265|TWO_SIDED|95.0|0.4|4.65|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.65|0.40|0.6265
82372283|NCT04715932|164451262|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8528|TWO_SIDED|95.0|0.16|8.91|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||8.91|0.16|0.8528
82444997|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.7778|TWO_SIDED|95.0|0.718|2.087|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||2.087|0.718|0.7778
82444998|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.24||||0.773|TWO_SIDED|95.0|0.705|2.113|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||2.113|0.705|0.7730
82372284|NCT04715932|164451263|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2983|TWO_SIDED|95.0|0.77|2.35|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.35|0.77|0.2983
82372285|NCT04715932|164451264|SUPERIORITY||Odds Ratio (OR)|1.19||||0.5611|TWO_SIDED|95.0|0.66|2.16|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.16|0.66|0.5611
82372286|NCT04715932|164451265|SUPERIORITY||Odds Ratio (OR)|1.29||||0.4643|TWO_SIDED|95.0|0.65|2.58|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.58|0.65|0.4643
82372287|NCT04715932|164451266|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5063|TWO_SIDED|95.0|0.53|3.62|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.62|0.53|0.5063
82372288|NCT04715932|164451267|SUPERIORITY||Odds Ratio (OR)|1.41||||0.2292|TWO_SIDED|95.0|0.8|2.47|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.47|0.80|0.2292
82372289|NCT04715932|164451268|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6097|TWO_SIDED|95.0|0.65|2.07|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.07|0.65|0.6097
82372290|NCT04715932|164451269|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8389|TWO_SIDED|95.0|0.54|2.16|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.16|0.54|0.8389
82372291|NCT04715932|164451270|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9764|TWO_SIDED|95.0|0.45|2.17|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.17|0.45|0.9764
82372292|NCT04715932|164451271|SUPERIORITY||Odds Ratio (OR)|0.8||||0.4403|TWO_SIDED|95.0|0.46|1.4|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.40|0.46|0.4403
82372293|NCT04715932|164451272|SUPERIORITY||Odds Ratio (OR)|0.79||||0.5112|TWO_SIDED|95.0|0.39|1.6|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.60|0.39|0.5112
82372294|NCT04715932|164451273|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9306|TWO_SIDED|95.0|0.46|2.36|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.36|0.46|0.9306
82372295|NCT04715932|164451274|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6046|TWO_SIDED|95.0|0.23|2.36|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.36|0.23|0.6046
82372296|NCT04715932|164451275|SUPERIORITY||Odds Ratio (OR)|1.15||||0.6963|TWO_SIDED|95.0|0.57|2.34|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||2.34|0.57|0.6963
82444999|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.45||||0.8951|TWO_SIDED|95.0|0.814|2.604|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.604|0.814|0.8951
82397662|NCT06010732|164505739|SUPERIORITY||Ratio of Means|0.94||||0.003|TWO_SIDED|95.0|0.91|0.98||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(%CAR+100)||0.98|0.91|0.003
82397663|NCT06010732|164505739|SUPERIORITY||Ratio of Means|0.97||||0.092|TWO_SIDED|95.0|0.93|1.01||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(%CAR+100)||1.01|0.93|0.092
82397664|NCT06010732|164505740|SUPERIORITY||Ratio of Means|1.01||||0.905|TWO_SIDED|95.0|0.9|1.13||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(∆Z)||1.13|0.90|0.905
82397665|NCT06010732|164505740|SUPERIORITY||Ratio of Means|0.71|||<|0.001|TWO_SIDED|95.0|0.63|0.8||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(∆Z)||0.80|0.63|<0.001
82397666|NCT06010732|164505740|SUPERIORITY||Ratio of Means|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.79||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(∆Z)||0.79|0.63|<0.001
82397667|NCT06010732|164505741|SUPERIORITY||Ratio of Means|0.98||||0.721|TWO_SIDED|95.0|0.88|1.09||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Positive Control|analyzed as log(lesion depth)||1.09|0.88|0.721
82397668|NCT06010732|164505741|SUPERIORITY||Ratio of Means|0.75|||<|0.001|TWO_SIDED|95.0|0.68|0.84||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Test/Placebo|analyzed as log(lesion depth)||0.84|0.68|<0.001
82397669|NCT06010732|164505741|SUPERIORITY||Ratio of Means|0.77|||<|0.001|TWO_SIDED|95.0|0.69|0.86||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Ratio calculated as Positive Control/Placebo|analyzed as log(lesion depth)||0.86|0.69|<0.001
82397670|NCT06010732|164505742|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.647|TWO_SIDED|95.0|-2.95|1.84||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Positive Control|||1.84|-2.95|0.647
82445000|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.57||||0.9324|TWO_SIDED|95.0|0.276|1.183|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||1.183|0.276|0.9324
82397671|NCT06010732|164505742|SUPERIORITY||Mean Difference (Final Values)|6.35|||<|0.001|TWO_SIDED|95.0|3.95|8.75||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Test-Placebo|||8.75|3.95|<0.001
82397672|NCT06010732|164505742|SUPERIORITY||Mean Difference (Final Values)|6.9|||<|0.001|TWO_SIDED|95.0|4.49|9.31||No alpha-level adjustments for multiple comparisons adjustments were applied.|Mixed Models Analysis|Analysis of variance models (ANOVA) suitable for a crossover study, with random effect for subject and fixed effects for study period and product.|Difference calculated as Positive Control-Placebo|||9.31|4.49|<0.001
82397673|NCT04942210|164505747|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-5%|Difference in percentage of participants|0.3|||||TWO_SIDED|95.0|-1.2|3.2|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|||3.2|-1.2|
82397674|NCT02722746|164505774|SUPERIORITY||percent difference|20.8||||0.165|TWO_SIDED|95.0|-8.9|47.3|||Z-test for proportions|||||47.3|-8.9|0.165
82397675|NCT02722746|164505774|SUPERIORITY||percent difference|14.4||||0.353|TWO_SIDED|95.0|-15.9|42.2|||Z-test for proportions|||||42.2|-15.9|0.353
82397676|NCT02722746|164505775|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||For PACU spread||||0.06
82397677|NCT02722746|164505775|SUPERIORITY|||||||0.22|||||||Kruskal-Wallis|||For Pre-op spread||||0.22
82397678|NCT02722746|164505775|SUPERIORITY|||||||0.74|||||||Kruskal-Wallis|||For POD 1||||0.74
82397679|NCT02722746|164505776|SUPERIORITY|||||||0.551|||||||ANOVA|||||||0.551
82397680|NCT02722746|164505777|SUPERIORITY|||||||0.349|||||||Mixed Models Analysis|||||||0.349
82397681|NCT02722746|164505778|SUPERIORITY|||||||0.18|||||||Fisher Exact|||For Pruritis||||0.18
82397682|NCT02722746|164505778|SUPERIORITY|||||||0.44|||||||Fisher Exact|||For Nausea/Vomiting||||0.44
82397683|NCT02722746|164505778|SUPERIORITY|||||||0.74|||||||Fisher Exact|||For Respirartory Depression||||0.74
82397684|NCT02722746|164505782|SUPERIORITY|||||||0.524|||||||ANOVA|||For SBP||||0.524
82397685|NCT02722746|164505782|SUPERIORITY|||||||0.585|||||||ANOVA|||For DBP||||0.585
82397686|NCT02722746|164505782|SUPERIORITY|||||||0.199|||||||ANOVA|||For MAP||||0.199
82397687|NCT02722746|164505783|SUPERIORITY|||||||0.231|||||||Mixed Models Analysis|||||||0.231
82397688|NCT02722746|164505784|SUPERIORITY|||||||0.016|||||||ANOVA|||||||0.016
82397689|NCT02722746|164505785|SUPERIORITY|||||||0.055|||||||ANOVA|||||||0.055
82397690|NCT02722746|164505786|SUPERIORITY|||||||0.567|||||||ANOVA|||||||0.567
82445001|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.63||||0.8982|TWO_SIDED|95.0|0.351|1.257|||Bayesian repeated measures model|||Ang1-5 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.257|0.351|0.8982
82397691|NCT04677387|164505804|SUPERIORITY||Mean Difference (Final Values)|-0.00325||||0.473|TWO_SIDED||||||Regression, Linear|Linear regression using a Generalized Estimating Equation (GEE) model clustering on pharmacy.||||||0.473
82397692|NCT04677387|164505805|SUPERIORITY|||||||0.007|||||||Regression, Linear|Linear regression with Generalized Estimating Equation (GEE) model.||||||.007
82397693|NCT04677387|164505806|SUPERIORITY|||||||0.002|||||||Regression, Linear|Linear regression with a Generalized Estimating Equation (GEE) model.||||||.002
82397694|NCT04677387|164505807|SUPERIORITY|||||||0.169|||||||Regression, Linear|Linear regression with Generalized Estimating Equation (GEE) model.||||||0.169
82397695|NCT02651688|164505848|SUPERIORITY|||||||0.7103|||||||Wilcoxon rank-sum test|||||||0.7103
82397696|NCT02651688|164505848|SUPERIORITY|||||||0.4529|||||||Wilcoxon rank-sum test|||||||0.4529
82397697|NCT02651688|164505849|SUPERIORITY|||||||0.9302|||||||Wilcoxon rank-sum test|||||||0.9302
82397698|NCT02651688|164505849|SUPERIORITY|||||||0.7509|||||||Wilcoxon rank-sum test|||||||0.7509
82397699|NCT02651688|164505850|SUPERIORITY|||||||0.5095|||||||Wilcoxon rank-sum test|||||||0.5095
82445002|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|4.22||||0.9998|TWO_SIDED|95.0|1.91|8.905|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||8.905|1.910|0.9998
82397700|NCT02651688|164505850|SUPERIORITY|||||||0.623|||||||Wilcoxon rank-sum test|||||||0.6230
82397701|NCT02651688|164505851|SUPERIORITY|||||||0.296|||||||Wilcoxon rank-sum test|||||||0.2960
82397702|NCT02651688|164505851|SUPERIORITY|||||||0.2723|||||||Wilcoxon rank-sum test|||||||0.2723
82397703|NCT02651688|164505852|SUPERIORITY|||||||0.0034|||||||Wilcoxon rank-sum test|||||||0.0034
82397704|NCT02651688|164505852|SUPERIORITY|||||||0.0027|||||||Wilcoxon rank-sum test|||||||0.0027
82397705|NCT02651688|164505853|SUPERIORITY|||||||0.0146|||||||Wilcoxon rank-sum test|||||||0.0146
82397706|NCT02651688|164505853|SUPERIORITY|||||||0.0018|||||||Wilcoxon rank-sum test|||||||0.0018
82397707|NCT02651688|164505854|SUPERIORITY|||||||0.1524|||||||Wilcoxon rank-sum test|||||||0.1524
82397708|NCT02651688|164505854|SUPERIORITY|||||||0.0227|||||||Wilcoxon rank-sum test|||||||0.0227
82397709|NCT02651688|164505855|SUPERIORITY|||||||0.5873|||||||Wilcoxon rank-sum test|||||||0.5873
82397710|NCT02651688|164505855|SUPERIORITY|||||||0.9509|||||||Wilcoxon rank-sum test|||||||0.9509
82397711|NCT02651688|164505856|SUPERIORITY|||||||0.4341|||||||Wilcoxon rank-sum test|||||||0.4341
82397712|NCT02651688|164505856|SUPERIORITY|||||||1|||||||Wilcoxon rank-sum test|||||||1.0000
82397713|NCT02651688|164505857|SUPERIORITY|||||||0.022|||||||Wilcoxon rank-sum test|||||||0.0220
82397714|NCT02651688|164505857|SUPERIORITY|||||||0.3677|||||||Wilcoxon rank-sum test|||||||0.3677
82397715|NCT02651688|164505858|SUPERIORITY|||||||0.9074|||||||Wilcoxon rank-sum test|||||||0.9074
82397716|NCT02651688|164505858|SUPERIORITY|||||||0.4517|||||||Wilcoxon rank-sum test|||||||0.4517
82397717|NCT02651688|164505859|SUPERIORITY|||||||0.2962|||||||Wilcoxon rank-sum test|||||||0.2962
82397718|NCT02651688|164505859|SUPERIORITY|||||||0.3261|||||||Wilcoxon rank-sum test|||||||0.3261
82397719|NCT02651688|164505860|SUPERIORITY|||||||0.045|||||||Wilcoxon rank-sum test|||||||0.0450
82397720|NCT02651688|164505860|SUPERIORITY|||||||0.2235|||||||Wilcoxon rank-sum test|||||||0.2235
82397721|NCT02651688|164505861|SUPERIORITY|||||||0.826|||||||Wilcoxon rank-sum test|||||||0.8260
82397722|NCT02651688|164505861|SUPERIORITY|||||||0.4183|||||||Wilcoxon rank-sum test|||||||0.4183
82397723|NCT02651688|164505862|SUPERIORITY|||||||0.1144|||||||Wilcoxon rank-sum test|||||||0.1144
82397724|NCT02651688|164505862|SUPERIORITY|||||||0.3263|||||||Wilcoxon rank-sum test|||||||0.3263
82397725|NCT02651688|164505863|SUPERIORITY|||||||0.1546|||||||Wilcoxon rank-sum test|||||||0.1546
82397726|NCT02651688|164505863|SUPERIORITY|||||||0.5732|||||||Wilcoxon rank-sum test|||||||0.5732
82397727|NCT02651688|164505864|SUPERIORITY|||||||0.5581|||||||Wilcoxon rank-sum test|||||||0.5581
82397728|NCT02651688|164505864|SUPERIORITY|||||||0.5833|||||||Wilcoxon rank-sum test|||||||0.5833
82397729|NCT02651688|164505865|SUPERIORITY|||||||0.0168|||||||Wilcoxon rank-sum test|||||||0.0168
82397730|NCT02651688|164505865|SUPERIORITY|||||||0.0364|||||||Wilcoxon rank-sum test|||||||0.0364
82397731|NCT02651688|164505866|SUPERIORITY|||||||0.0992|||||||Wilcoxon rank-sum test|||||||0.0992
82397732|NCT02651688|164505866|SUPERIORITY|||||||0.1333|||||||Wilcoxon rank-sum|||||||0.1333
82397733|NCT02651688|164505867|SUPERIORITY|||||||0.0139|||||||Wilcoxon rank-sum test|||||||0.0139
82397734|NCT02651688|164505867|SUPERIORITY|||||||0.0225|||||||Wilcoxon rank-sum test|||||||0.0225
82397735|NCT01693185|164505879|SUPERIORITY_OR_OTHER||||||<|0.001||||||We wished to be able to distinguish a difference of 7.5 min,|Wilcoxon (Mann-Whitney)|||Recovery time in patients administered remifentanil alone will be significantly shorter than that in patients administered midazolam-meperidine combination for colonoscopy.||||< 0.001
82397736|NCT00212264|164505889|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||.001
82397737|NCT00212264|164505890|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 1 sided|Note that the no-treatment control group completed the study after 2 months and was not included in this analysis of treatment effect durability.||||||.32
82397738|NCT02051335|164505891|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.556||0.573|TWO_SIDED|95.0|-1.4|0.8||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||0.8|-1.4|0.573
82397739|NCT02051335|164505891|SUPERIORITY_OR_OTHER||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.55||0.21|TWO_SIDED|95.0|-1.8|0.4||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||0.4|-1.8|0.210
82397740|NCT02051335|164505891|SUPERIORITY_OR_OTHER||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.547||0.821|TWO_SIDED|95.0|-1.0|1.2||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.2|-1.0|0.821
82397741|NCT02051335|164505891|SUPERIORITY_OR_OTHER||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.549||0.426|TWO_SIDED|95.0|-0.7|1.5||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.5|-0.7|0.426
82445003|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|3.67||||0.9993|TWO_SIDED|95.0|1.689|7.97|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||7.970|1.689|0.9993
82397742|NCT02051335|164505891|SUPERIORITY_OR_OTHER||LS mean difference|0.82|STANDARD_ERROR_OF_MEAN|0.53||0.126|TWO_SIDED|95.0|-0.2|1.9||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.9|-0.2|0.126
82397743|NCT02051335|164505892|SUPERIORITY_OR_OTHER||LS mean difference|1.93|STANDARD_ERROR_OF_MEAN|0.992||0.057|TWO_SIDED|95.0|-0.1|3.9||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||3.9|-0.1|0.057
82397744|NCT02051335|164505892|SUPERIORITY_OR_OTHER||LS mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.981||0.394|TWO_SIDED|95.0|-2.8|1.1||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||1.1|-2.8|0.394
82397745|NCT02051335|164505892|SUPERIORITY_OR_OTHER||LS mean difference|2.01|STANDARD_ERROR_OF_MEAN|0.972||0.042|TWO_SIDED|95.0|0.1|4.0||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||4.0|0.1|0.042
82397746|NCT02051335|164505892|SUPERIORITY_OR_OTHER||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.974||0.928|TWO_SIDED|95.0|-1.9|2.0||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||2.0|-1.9|0.928
82397747|NCT02051335|164505892|SUPERIORITY_OR_OTHER||LS mean difference|2.86|STANDARD_ERROR_OF_MEAN|0.943||0.004|TWO_SIDED|95.0|1.0|4.7||P-values were obtained using an ANOVA model with sequence, period, and treatment as fixed effects and participant nested within sequence as a random effect.|ANOVA|||||4.7|1.0|0.004
82397748|NCT00803205|164505911|SUPERIORITY|||||||0.3264|||||||ANOVA|||||||0.3264
82397749|NCT00803205|164505912|SUPERIORITY||Mean Difference (Final Values)|2.754|STANDARD_ERROR_OF_MEAN|1.78124||0.1235|TWO_SIDED|95.0|-0.756|6.264||The p-value is the LS-mean for the comparison between active treatment and placebo. The level of significance was 0.04998.|Mixed Models Analysis|||Least squares (LS) mean estimates based on mixed model for repeated measures (Weeks 8, 16, 24, 32, 40 and 48) of relative change in percent-predicted FEV1 as the dependent variable; independent variables including Baseline percent-predicted FEV1, treatment, visit, interactions between treatment and visit and between Baseline percent-predicted FEV1 and visit; and stratification factors of Baseline age, Baseline inhaled antibiotics, and Baseline percent-predicted FEV1.||6.2640|-0.7560|0.1235
82397750|NCT02503254|164505986|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|82.82|||<|0.001|TWO_SIDED|95.0|78.79|86.09||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively."||86.09|78.79|<.001
82397751|NCT02503254|164505987|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|63.53|||<|0.001|TWO_SIDED|95.0|59.55|67.12||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively"||67.12|59.55|<0.001
82397752|NCT02503254|164505988|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Reduction|88.14|||<|0.001|TWO_SIDED|95.0|86.46|89.62||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at a two-sided alpha level of 5%.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC, respectively."||89.62|86.46|<.001
82397753|NCT02503254|164505989|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|58.83|||<|0.001|TWO_SIDED|95.0|49.3|66.56||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|"Geometric LS Mean Reduction = 100 - (CHTP 1.0 : CC ratio)~Expressed as %"|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for CHTP 1.0 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for CHTP 1.0 and CC respectively."||66.56|49.30|<.001
82397754|NCT00094536|164506009|SUPERIORITY_OR_OTHER|||||||0.271|||||||1-sided z-test|1-sided z-test with continuity correction (pooled)||||||.271
82445004|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|5.26||||1|TWO_SIDED|95.0|2.392|11.754|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||11.754|2.392|1.0000
82372297|NCT04715932|164451276|SUPERIORITY||Odds Ratio (OR)|0.65||||0.425|TWO_SIDED|95.0|0.22|1.88|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||1.88|0.22|0.4250
82397755|NCT01900431|164506070|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2354|TWO_SIDED|90.0|0.8|5.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using combined estimate for odds ratio obtained by combining the log-transformation of odds ratio from Cochran Mantel-Haenszel (CMH) analyses of the different imputed datasets, using Rubin's formulae, and then by back-transforming the combined estimate. The CMH analyses were adjusted for randomization stratification factor VH level (VH \>= 4 versus VH \<4).||5.6|0.8|0.2354
82445005|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.25||||0.9713|TWO_SIDED|95.0|0.972|5.136|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||5.136|0.972|0.9713
82445006|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|2.19||||0.9649|TWO_SIDED|95.0|0.94|4.975|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||4.975|0.940|0.9649
82529805|NCT00930943|164756046|SUPERIORITY||||||<|0.001||||||repeated-measure ANOVA tested time-post-dose effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA|||The a priori sample-size estimation for a power of 80% with alpha = 0.05 was based on the primary-outcome measure, the rapid visual information processing (RVP) sensitivity (A') score. Using a repeated-measure ANOVA for the food effect (fed versus fasting) and assuming an effect size of f =0.26 generated a required sample size of 32 participants. However, only 30 subjects completed both testing visits, generating a power of 78.2%.|(F\[1,28\] = 22.71; η2 = 0.45)|||<0.001
82529806|NCT00930943|164756046|SUPERIORITY|||||||0.01||||||repeated-measure ANOVA tested food x time-post-dose effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA||||F\[1,28\]=6.88; η2=0.20|||0.01
82576058|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.085|||=|0.008|TWO_SIDED|95.0|0.022|0.149|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 1.5 mg - Placebo) at Week 4.||0.149|0.022|=0.008
82372298|NCT04715932|164451277|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8797|TWO_SIDED|95.0|0.27|4.65|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.65|0.27|0.8797
82372299|NCT04715932|164451278|SUPERIORITY||Odds Ratio (OR)|3.71||||0.2634|TWO_SIDED|95.0|0.37|37.03|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||37.03|0.37|0.2634
82372300|NCT04715932|164451279|SUPERIORITY||Odds Ratio (OR)|1.5||||0.271|TWO_SIDED|95.0|0.73|3.06|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.06|0.73|0.2710
82372301|NCT04715932|164451280|SUPERIORITY||Odds Ratio (OR)|1.82||||0.1748|TWO_SIDED|95.0|0.77|4.3|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||4.30|0.77|0.1748
82372302|NCT04715932|164451281|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8513|TWO_SIDED|95.0|0.34|3.63|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||3.63|0.34|0.8513
82372303|NCT04715932|164451282|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7906|TWO_SIDED|95.0|0.29|5.07|||Mixed Models Analysis|Generalized linear mixed model (repeated binary logistic regression)||||5.07|0.29|0.7906
82372304|NCT02393248|164451295|SUPERIORITY|||||||0.2841|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2841
82445007|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.59||||0.8749|TWO_SIDED|95.0|0.711|3.473|||Mixed Models Analysis|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||3.473|0.711|0.8749
82372305|NCT02393248|164451295|SUPERIORITY|||||||0.3042|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.3042
82372306|NCT02393248|164451295|SUPERIORITY|||||||0.1259|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1259
82372307|NCT02393248|164451295|SUPERIORITY|||||||0.8214|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.8214
82372308|NCT02393248|164451295|SUPERIORITY|||||||0.4315|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.4315
82372309|NCT02393248|164451295|SUPERIORITY|||||||0.2595|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2595
82372310|NCT02393248|164451299|SUPERIORITY|||||||0.8577|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.8577
82372311|NCT02393248|164451299|SUPERIORITY|||||||0.7238|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.7238
82372312|NCT02393248|164451299|SUPERIORITY|||||||0.5923|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.5923
82372313|NCT02393248|164451299|SUPERIORITY|||||||0.7634|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.7634
82372314|NCT02393248|164451299|SUPERIORITY|||||||0.5749|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.5749
82372315|NCT02393248|164451299|SUPERIORITY|||||||0.6877|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.6877
82372316|NCT02393248|164451303|SUPERIORITY|||||||0.143|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.143
82372317|NCT02393248|164451304|SUPERIORITY|||||||0.0013|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.0013
82372318|NCT02393248|164451305|SUPERIORITY|||||||0.319|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.319
82372319|NCT02393248|164451306|SUPERIORITY|||||||0.128|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.128
82445008|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.99||||0.9566|TWO_SIDED|95.0|0.899|4.342|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||4.342|0.899|0.9566
82445009|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.91||||0.9549|TWO_SIDED|95.0|0.862|4.173|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||4.173|0.862|0.9549
82372320|NCT02393248|164451307|SUPERIORITY|||||||0.305|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.305
82372321|NCT02393248|164451308|SUPERIORITY|||||||0.305|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.305
82372322|NCT02393248|164451309|SUPERIORITY|||||||0.772|||||||ANOVA|crossover ANOVA of log-transformed data||||||0.772
82372323|NCT03560986|164451322|SUPERIORITY||Mean Difference (Net)|0.43|STANDARD_ERROR_OF_MEAN|0.372||0.2522|TWO_SIDED|95.0|-0.31|1.17||2-sided p-value for testing superiority of neridronic acid 400 mg compared to placebo.|Mixed Models Analysis|The degrees of freedom of the denominator are estimated using the Kenward-Roger approximation.|The primary endpoint estimate was the least squares mean differences of change from baseline in pain NRS (electronic diary) at Week 12 between neridronate and Placebo.|Mixed-effects model for repeated measures (MMRM) defined with baseline pain intensity as covariate, the factors geographic region, week, treatment and treatment-by-week as fixed effects, and an unstructured covariance matrix to model the covariance structure of the repeated measurements.||1.17|-0.31|0.2522
82372324|NCT01783548|164451342|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.66||||0.002|TWO_SIDED|95.0|-1.08|-0.24||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||Based on other studies, the standard deviation for the change from baseline over the first 6 weeks of treatment in the average of AM and PM rTNSS is assumed to be 2.0. Using this standard deviation, 450 subjects aged 6 to 11 years (300 on active treatment of BDP and 150 on placebo) provide approximately 90% power to detect a difference of 0.65 in rTNSS change from baseline between treatment groups with a two-sided alpha level of 0.05.||-0.24|-1.08|0.002
82372325|NCT01783548|164451343|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.58||||0.004|TWO_SIDED|95.0|-0.99|-0.18||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.18|-0.99|0.004
82372326|NCT01783548|164451344|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.62||||0.002|TWO_SIDED|95.0|-1.0|-0.23||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.23|-1.00|0.002
82372327|NCT01783548|164451345|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.54||||0.004|TWO_SIDED|95.0|-0.91|-0.17||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.17|-0.91|0.004
82445010|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.81||||0.9275|TWO_SIDED|95.0|0.816|4.005|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||4.005|0.816|0.9275
82372328|NCT04091659|164451390|EQUIVALENCE|To determine if the two training approaches were comparable to one another a margin of +/- 1 was used in differences of both OOKS and OOAS scale scores based on previously established literature. An equivalence test of differences using two one-sided tests on data from a cluster-randomized design was conducted using structural equation modeling. Sample sizes of 35 and 57 in group two, obtained by sampling 9 clusters, achieve 85% power to detect equivalence. The significance level is 0.05.|Mean Difference (Final Values)|-0.18||||0.65|TWO_SIDED|95.0|-0.85|0.49|||SEM||||The control group, standard education was the reference for this model.|0.49|-0.85|0.65
82372329|NCT04091659|164451391|EQUIVALENCE|To determine if the two training approaches were comparable to one another a margin of +/- 1 was used in differences of both OOKS and OOAS scale scores based on previously established literature. An equivalence test of differences using two one-sided tests on data from a cluster-randomized design was conducted using structural equation modeling. Sample sizes of 35 and 57 in group two, obtained by sampling 9 clusters, achieve 85% power to detect equivalence. The significance level is 0.05.|Mean Difference (Final Values)|0.26||||0.02|TWO_SIDED|95.0|0.02|0.5|||SEM||The control group, standard education, was the reference|||0.50|0.02|0.02
82445011|NCT01597635|164598825|SUPERIORITY||Ratio of Active/Placebo|1.32||||0.7483|TWO_SIDED|95.0|0.584|3.007|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||3.007|0.584|0.7483
82529807|NCT00930943|164756046|SUPERIORITY||||||>|0.05||||||repeated-measure ANOVA testing food effect for Rapid Visual Information Processing (RVP): sensitivity (A')|ANOVA|||||||>0.05
82372330|NCT01243112|164451394|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||ANOVA|||Null Hypothesis is that no difference would be measured between treatment arms.||||0.359
82372331|NCT01243112|164451395|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANOVA|||||||0.490
82372332|NCT00123474|164451441|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% confidence interval (CI) for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-6.0|11.6||||||6 Month Analysis||11.6|-6.0|
82372333|NCT00123474|164451442|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-6.8|10.6||||||||10.6|-6.8|
82372334|NCT00123474|164451442|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg total daily dose relative to 140 mg total daily dose was deduced if the lower bound of the 95% CI for the difference was greater than or equal to -15%.|Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-8.9|8.5||||||||8.5|-8.9|
82372335|NCT00123474|164451453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-11.7|15.3||||||6 Month Analysis||15.3|-11.7|
82372336|NCT00123474|164451453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg QD Total Daily Dose relative to 140 mg QD Total Daily Dose was deduced if the lower bound of the 95% CI difference was greater than or equal to -15%.|Risk Difference (RD)|4.2|||||TWO_SIDED|95.0|-9.3|17.6||||||6 Month Analysis||17.6|-9.3|
82445012|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.648|TWO_SIDED|95.0|0.516|2.675|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||2.675|0.516|0.6480
82529808|NCT00930943|164756047|SUPERIORITY||||||<|0.001||||||Repeated-measure ANOVA testing time-post-dose effect for Rapid Visual Information Processing (RVP): response latency|ANOVA||||(F\[1,28\] = 14.05; η2 = 0.33)|||<0.001
82529809|NCT00930943|164756047|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food and food x time post dose effect for Rapid Visual Information Processing (RVP): response latency"|ANOVA|||||||>0.05
82644960|NCT02675426|165005169|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|30.5|||<|0.001|TWO_SIDED|95.0|21.6|39.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.4|21.6|<0.001
82372337|NCT00123474|164451453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was deduced if the lower bound of the 95% CI for the MCyRRQD minus MCyRRBID difference was greater than or equal to -15%.|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-11.2|14.1||||||24 Month Analysis||14.1|-11.2|
82372338|NCT00123474|164451453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of 100 mg QD Total Daily Dose relative to 140 mg QD Total Daily Dose was deduced if the lower bound of the 95% CI difference was greater than or equal to -15%.|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-11.2|14.1||||||24 Month Analysis||14.1|-11.2|
82372339|NCT00790335|164451477|SUPERIORITY||Risk Ratio (RR)|0.96||||0.56|TWO_SIDED|95.0|0.82|1.11|||Cochran-Mantel-Haenszel|Adjusted for extent of DVT and for clinical center|Numerator: PCDT Arm; Denominator: Control Arm. Primary outcome = no statistically significant difference between the two arms.|||1.11|0.82|0.56
82372340|NCT00790335|164451478|SUPERIORITY||Risk Ratio (RR)|0.58||||0.38|TWO_SIDED|95.0|0.17|1.98|||Cochran-Mantel-Haenszel|Adjusted by extent of thrombus and clinical center|Numerator: PCDT Arm; Denominator: Control Arm. No statistically significant difference was seen.|||1.98|0.17|0.38
82372341|NCT00790335|164451479|SUPERIORITY||Risk Ratio (RR)|0.94||||0.39|TWO_SIDED|95.0|0.8|1.09|||Cochran-Mantel-Haenszel|Adjusted for thrombus extent and clinical center|No statistically significant difference was seen.|||1.09|0.80|0.39
82372342|NCT00790335|164451480|SUPERIORITY||Risk Ratio (RR)|0.73||||0.04|TWO_SIDED|95.0|0.54|0.98|||Cochran-Mantel-Haenszel|Adjusted by extent of DVT and clinical center|Numerator: PCDT Arm; Denominator: Control Arm|||0.98|0.54|0.04
82372343|NCT00790335|164451481|SUPERIORITY||Risk Ratio (RR)|6.18||||0.049|TWO_SIDED|95.0|0.78|49.2|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm. More major bleeding was observed in the PCDT Arm.|||49.2|0.78|0.049
82372344|NCT00790335|164451482|SUPERIORITY||Risk Ratio (RR)|1.52||||0.23|TWO_SIDED|95.0|0.76|3.01|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||3.01|0.76|0.23
82372345|NCT00790335|164451483|SUPERIORITY||Risk Ratio (RR)|2.64||||0.03|TWO_SIDED|95.0|1.04|6.68|||Cochran-Mantel-Haenszel||Numerator = PCDT Arm; Denominator = Control Arm. Bleeding was more frequent in the PCDT Arm.|||6.68|1.04|0.03
82372346|NCT00790335|164451484|SUPERIORITY||Risk Ratio (RR)|1.26||||0.25|TWO_SIDED|95.0|0.85|1.89|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||1.89|0.85|0.25
82372347|NCT00790335|164451485|SUPERIORITY||Risk Ratio (RR)|1.53||||0.5|TWO_SIDED|95.0|0.44|5.28|||Cochran-Mantel-Haenszel||Numerator = PCDT Arm; Denominator = Control Arm|||5.28|0.44|0.50
82372348|NCT00790335|164451486|SUPERIORITY||Risk Ratio (RR)|1.47||||0.09|TWO_SIDED|95.0|0.94|2.29|||Cochran-Mantel-Haenszel||Numerator: PCDT Arm; Denominator: Control Arm|||2.29|0.94|0.09
82372349|NCT00790335|164451488|SUPERIORITY||Risk Ratio (RR)|0.89||||0.83|TWO_SIDED|95.0|0.33|2.44|||Cochran-Mantel-Haenszel|||||2.44|0.33|0.83
82372350|NCT00790335|164451489|SUPERIORITY||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
82372351|NCT00790335|164451490|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
82372352|NCT00790335|164451491|SUPERIORITY||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
82372353|NCT00790335|164451492|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.38||0.005|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.005
82372354|NCT00790335|164451493|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
82372355|NCT00790335|164451494|SUPERIORITY||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.23||0.01|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.01
82529810|NCT00930943|164756048|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SRM percentage of correct hits"|ANOVA|||||||>0.05
82529811|NCT00930943|164756049|SUPERIORITY||||||<|0.001||||||Repeated-measure ANOVA testing time-post-dose effect for Spatial Recognition Memory (SRM) response latency|ANOVA||||(F\[1,28\] = 31.26; η2 = 0.53)|||<0.001
82529812|NCT00930943|164756049|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food and food x time-post-dose effect for SRM response latency"|ANOVA|||||||>0.05
82529813|NCT00930943|164756050|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SWM total errors"|ANOVA|||||||>0.05
82529814|NCT00930943|164756051|SUPERIORITY||||||>|0.05||||||"repeated-measure ANOVA testing food, time-post-dose, and food x time-post-dose effect for SWM strategy score"|ANOVA|||||||>0.05
82372356|NCT00790335|164451495|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||< 0.001
82372357|NCT00790335|164451496|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.26||0.03|TWO_SIDED||||||Regression, Linear|Piecewise linear-regression growth-curve models with adjustment for extent of DVT, clinical center) and pre-specified baseline co-variates|Lower (better) mean scores in the PCDT Arm|||||0.03
82372358|NCT00790335|164451497|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|1.26||0.37|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No significant difference was seen in the degree of change from baseline to 24 months between the two treatment arms.|||||0.37
82372359|NCT00790335|164451498|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.16||0.99|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No difference was observed in the degree of change from baseline to 24 months in the two treatment groups.|||||0.99
82372360|NCT00790335|164451499|SUPERIORITY||Mean Difference (Net)|4.2|STANDARD_ERROR_OF_MEAN|2.39||0.08|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center|No significant difference in the change from baseline to 24 months between the two treatment arms.|||||0.08
82372361|NCT00790335|164451500|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.14||0.02|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.02
82372362|NCT00790335|164451501|SUPERIORITY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.15||0.03|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.03
82372363|NCT00790335|164451502|SUPERIORITY||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.23||0.02|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.02
82372364|NCT00790335|164451503|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.23||0.05|TWO_SIDED||||||Regression, Linear|Adjusted by extent of thrombus and clinical center||||||0.05
82644961|NCT02675426|165005170|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|23.0|39.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.5|23.0|<0.001
82372365|NCT04005352|164451504|SUPERIORITY||||||<|0.0001|ONE_SIDED|||||with significance level of 0.025|Wilcoxon (Mann-Whitney)|||||||<0.0001
82372366|NCT04005352|164451505|NON_INFERIORITY|4 letter margin (1-sided)|Difference|0.1|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-1.3|1.5|||ANOVA|||||1.5|-1.3|<0.0001
82445013|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.76||||0.9038|TWO_SIDED|95.0|0.741|4.17|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||4.170|0.741|0.9038
82372367|NCT04005352|164451506|SUPERIORITY||||||<|0.0001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82372368|NCT04005352|164451507|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82372369|NCT04005352|164451508|SUPERIORITY|Week 14|Odds Ratio (OR)|1.6||||0.051|TWO_SIDED|95.0|0.9|2.7|||likelihood ratio test|Assessed at one-sided 0.025 significance level||||2.7|0.9|0.0510
82372370|NCT04005352|164451508|SUPERIORITY|Week 16|Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.7|3.9|||likelihood ratio test|Assessed at one-sided 0.025 significance level||||3.9|1.7|<0.0001
82372371|NCT04005352|164451511|SUPERIORITY||Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.84||0.8137|TWO_SIDED|95.0|-1.9|1.5||p-value for treatment difference|ANOVA|||||1.5|-1.9|0.8137
82372372|NCT04005352|164451512|SUPERIORITY|Week 32|Odds Ratio (OR)|1.0||||0.4106|TWO_SIDED|95.0|0.7|1.3|||likelihood ratio test|adjusting for baseline BCVA categories (\<55, 55-\<73, ≥73 letters).||||1.3|0.7|0.4106
82372373|NCT04005352|164451512|SUPERIORITY|Week 64|Odds Ratio (OR)|1.0||||0.4667|TWO_SIDED|95.0|0.7|1.4|||likelihood ratio test|adjusting for baseline BCVA categories (\<55, 55-\<73, ≥73 letters).||||1.4|0.7|0.4667
82372374|NCT04005352|164451513|SUPERIORITY|Week 32|Odds Ratio (OR)|1.1||||0.2397|TWO_SIDED|95.0|0.8|1.7|||likelihood ratio test|assessed at the 0.025 significance level||||1.7|0.8|0.2397
82372375|NCT04005352|164451513|SUPERIORITY|Week 64|Odds Ratio (OR)|1.2||||0.115|TWO_SIDED|95.0|0.9|1.8|||likelihood ratio test|assessed at the 0.025 significance level||||1.8|0.9|0.1150
82372376|NCT04005352|164451514|SUPERIORITY|Weeks 28 and 32|Difference|-26.9|STANDARD_ERROR_OF_MEAN|9.87||0.0066|TWO_SIDED|95.0|-46.3|-7.5|||ANOVA|||||-7.5|-46.3|0.0066
82372377|NCT04005352|164451514|SUPERIORITY|Weeks 60 and 64|Difference|-15.4|STANDARD_ERROR_OF_MEAN|11.26||0.1714|TWO_SIDED|95.0|-37.6|6.7|||ANOVA|||||6.7|-37.6|0.1714
82372378|NCT04005352|164451517|SUPERIORITY|Week 32|LS Mean Difference|0.37||||0.193|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||||0.9|-0.2|0.193
82372379|NCT04005352|164451517|SUPERIORITY|Week 64|LS Mean Difference|-2.0||||0.052|TWO_SIDED|95.0|-3.9|0.0|||ANCOVA|||||0.0|-3.9|0.052
82372380|NCT04005352|164451518|SUPERIORITY|Week 32|LS Mean Difference|2.16||||0.081|TWO_SIDED|95.0|-0.3|4.6|||ANCOVA|||||4.6|-0.3|0.081
82372381|NCT04005352|164451518|SUPERIORITY|Week 64|LS Mean Difference|-0.7||||0.59|TWO_SIDED|95.0|-3.2|1.8|||ANCOVA|||||1.8|-3.2|0.590
82372382|NCT04005352|164451519|SUPERIORITY|Week 32|LS Mean Difference|0.77||||0.558|TWO_SIDED|95.0|-1.8|3.4|||ANCOVA|||||3.4|-1.8|0.558
82372383|NCT04005352|164451519|SUPERIORITY|Week 64|LS Mean Difference|-1.9||||0.138|TWO_SIDED|95.0|-4.5|0.6|||ANCOVA|||||0.6|-4.5|0.138
82372384|NCT04005352|164451520|SUPERIORITY|Week 32|LS Mean Difference|1.6||||0.287|TWO_SIDED|95.0|-1.4|4.6|||ANCOVA|||||4.6|-1.4|0.287
82372385|NCT04005352|164451520|SUPERIORITY|Week 64|LS Mean Difference|-3.0||||0.07|TWO_SIDED|95.0|-6.2|0.2|||ANCOVA|||||0.2|-6.2|0.070
82372386|NCT04005352|164451521|SUPERIORITY|Week 32|LS Mean Difference|-0.71||||0.602|TWO_SIDED|95.0|-3.4|2.0|||ANCOVA|||||2.0|-3.4|0.602
82445014|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.38||||0.7339|TWO_SIDED|95.0|0.49|3.915|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||3.915|0.490|0.7339
82445015|NCT01597635|164598825|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.38||||0.7714|TWO_SIDED|95.0|0.651|3.321|||Bayesian repeated measures model|||Ang1-7 , Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||3.321|0.651|0.7714
82445016|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.07||||1|TWO_SIDED|95.0|0.032|0.14|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.140|0.032|1.0000
82445017|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.1||||1|TWO_SIDED|95.0|0.048|0.209|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.209|0.048|1.0000
82445018|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.11||||1|TWO_SIDED|95.0|0.054|0.243|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.243|0.054|1.0000
82445019|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9996|TWO_SIDED|95.0|0.113|0.547|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.547|0.113|0.9996
82445020|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.29||||0.9991|TWO_SIDED|95.0|0.13|0.634|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.634|0.130|0.9991
82445021|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.32||||0.9979|TWO_SIDED|95.0|0.149|0.682|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||0.682|0.149|0.9979
82445022|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.19||||1||95.0|0.091|0.417|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.417|0.091|1.0000
82445023|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9998|TWO_SIDED|95.0|0.119|0.539|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.539|0.119|0.9998
82445024|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9985|TWO_SIDED|95.0|0.141|0.666|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.666|0.141|0.9985
82445025|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9977|TWO_SIDED|95.0|0.162|0.73|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.730|0.162|0.9977
82445026|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.22||||0.9999|TWO_SIDED|95.0|0.105|0.468|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.468|0.105|0.9999
82445027|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.26||||0.9996|TWO_SIDED|95.0|0.119|0.57|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.570|0.119|0.9996
82372387|NCT04005352|164451521|SUPERIORITY|Week 64|LS Mean Difference|-2.5||||0.086|TWO_SIDED|95.0|-5.3|0.4|||ANCOVA|||||0.4|-5.3|0.086
82372388|NCT04005352|164451522|SUPERIORITY|Week 32|LS Mean Difference|1.55||||0.174|TWO_SIDED|95.0|-0.7|3.8|||ANCOVA|||||3.8|-0.7|0.174
82372389|NCT04005352|164451522|SUPERIORITY|Week 64|LS Mean Difference|-1.5||||0.21|TWO_SIDED|95.0|-3.8|0.8|||ANCOVA|||||0.8|-3.8|0.210
82372390|NCT04005352|164451523|SUPERIORITY|Week 32|LS Mean Difference|-0.96||||0.499|TWO_SIDED|95.0|-3.8|1.8|||ANCOVA|||||1.8|-3.8|0.499
82372391|NCT04005352|164451523|SUPERIORITY|Week 64|LS Mean Difference|-2.3||||0.147|TWO_SIDED|95.0|-5.4|0.8|||ANCOVA|||||0.8|-5.4|0.147
82372392|NCT04005352|164451524|SUPERIORITY|Week 32|LS Mean Difference|0.88||||0.643|TWO_SIDED|95.0|-2.8|4.6|||ANCOVA|||||4.6|-2.8|0.643
82372393|NCT04005352|164451524|SUPERIORITY|Week 64|LS Mean Difference|-1.3||||0.507|TWO_SIDED|95.0|-5.0|2.5|||ANCOVA|||||2.5|-5.0|0.507
82372394|NCT04005352|164451525|SUPERIORITY|Week 32|LS Mean Difference|0.49||||0.7|TWO_SIDED|95.0|-2.0|3.0|||ANCOVA|||||3.0|-2.0|0.700
82372395|NCT04005352|164451525|SUPERIORITY|Week 64|LS Mean Difference|-2.9||||0.07|TWO_SIDED|95.0|-6.0|0.2|||ANCOVA|||||0.2|-6.0|0.070
82372396|NCT04005352|164451526|SUPERIORITY|Week 32|LS Mean Difference|0.73||||0.741|TWO_SIDED|95.0|-3.6|5.1|||ANCOVA|||||5.1|-3.6|0.741
82372397|NCT04005352|164451526|SUPERIORITY|Week 64|LS Mean Difference|-1.7||||0.494|TWO_SIDED|95.0|-6.6|3.2|||ANCOVA|||||3.2|-6.6|0.494
82372398|NCT04005352|164451527|SUPERIORITY|Week 32|LS Mean Difference|1.76||||0.054|TWO_SIDED|95.0|0.0|3.5|||ANCOVA|||||3.5|-0.0|0.054
82445028|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.82||||0.6621|TWO_SIDED|95.0|0.319|2.136|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||2.136|0.319|0.6621
82445029|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.79||||0.7085|TWO_SIDED|95.0|0.324|1.847|||Bayesian repeated measures model|||Ang II/Ang1-5, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.847|0.324|0.7085
82445030|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.06||||1|TWO_SIDED|95.0|0.028|0.14|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||0.140|0.028|1.0000
82445031|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.1||||1|TWO_SIDED|95.0|0.043|0.216|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||0.216|0.043|1.0000
82372399|NCT04005352|164451527|SUPERIORITY|Week 64|LS Mean Difference|-1.1||||0.331|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|||||1.2|-3.4|0.331
82372400|NCT04005352|164451528|SUPERIORITY|Week 32|LS Mean Difference|1.24||||0.394|TWO_SIDED|95.0|-1.6|4.1|||ANCOVA|||||4.1|-1.6|0.394
82372401|NCT04005352|164451528|SUPERIORITY|Week 64|LS Mean Difference|-0.5||||0.728|TWO_SIDED|95.0|-3.6|2.5|||ANCOVA|||||2.5|-3.6|0.728
82372402|NCT04420273|164451537|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||1-month survey||||<0.001
82372403|NCT04420273|164451537|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||2- months||||<0.001
82372404|NCT04420273|164451537|OTHER||||||<|0.001|||||||McNemar|McNemar's chi-square with continuity correction||3-months||||<0.001
82372405|NCT04420273|164451538|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82445032|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.08||||1|TWO_SIDED|95.0|0.034|0.177|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||0.177|0.034|1.0000
82445033|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.2||||0.9998|TWO_SIDED|95.0|0.086|0.453|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||0.453|0.086|0.9998
82576059|NCT03443414|164861844|OTHER|A fixed-sequence testing approach was used, starting with the highest dose versus placebo. If a statistically significant difference was found at the 2-sided alpha level of 5%, the testing proceeded to the next highest dose.|LS mean difference|0.072|||=|0.028|TWO_SIDED|95.0|0.008|0.137|||MMRM|||Placebo-corrected treatment effect: LS mean difference (RPL554 0.75 mg - Placebo) at Week 4.||0.137|0.008|=0.028
82647986|NCT00386100|165011351|SUPERIORITY_OR_OTHER||Percent difference from metformin|12.3||||0.3791|TWO_SIDED|95.0|-13.7|46.1||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||46.1|-13.7|0.3791
82372406|NCT04420273|164451539|OTHER||||||<|0.1|||||||Chi-squared|||||||< 0.1
82372407|NCT04420273|164451540|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82372408|NCT04420273|164451541|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82372409|NCT04420273|164451542|OTHER|||||||0.459|||||||Chi-squared|||||||0.459
82372410|NCT04420273|164451542|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82372411|NCT04420273|164451543|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82372412|NCT02737748|164451546|OTHER|||||||0.2217|||||||Cochran-Mantel-Haenszel|||||||0.2217
82372413|NCT02737748|164451547|OTHER|||||||0.0324|||||||Cochran-Mantel-Haenszel|||||||0.0324
82372414|NCT02737748|164451548|OTHER|||||||0.3975|||||||Log Rank|||||||0.3975
82372415|NCT02970318|164451574|OTHER||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.2|0.49||Stratified by randomization stratification factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.49|0.20|<0.0001
82372416|NCT02970318|164451575|OTHER||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.2|0.38||Stratified by randomization stratification factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.38|0.20|<0.0001
82372417|NCT02970318|164451576|OTHER||Risk Difference (RD)|5.8||||0.2248|TWO_SIDED|95.0|-3.3|14.9|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|Risk difference (% Arm A - Arm B) based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|||14.9|-3.3|0.2248
82372418|NCT02970318|164451577|OTHER||Risk Difference (RD)|-1.3||||0.734|TWO_SIDED|95.0|-9.6|7.0|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|Risk difference (% Arm A - Arm B) based on Cochran-Mantel-Haenszel test with adjustment for randomization stratification factors as recorded in IXRS.|||7.0|-9.6|0.7340
82372419|NCT02970318|164451578|OTHER||Hazard Ratio (HR)|0.69||||0.0783|TWO_SIDED|95.0|0.46|1.04|||Log Rank|Log-Rank Analysis stratified by factors recorded in IXRS data: presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).|Cox proportional hazard analysis stratified (Arm A vs. Arm B) by factors recorded in IXRS data including presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).|Analysis stratified by factors recorded in IXRS data including presence of deletion 17 p (yes / no), ECOG (0-1/2), # of prior therapies (1-3/4+).||1.04|0.46|0.0783
82372420|NCT02970318|164451579|OTHER||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.19|0.59||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.59|0.19|<0.0001
82372421|NCT02970318|164451580|OTHER||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.16|0.33||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.33|0.16|<0.0001
82372422|NCT02970318|164451581|OTHER||Hazard Ratio (HR)|0.29|||<|0.0001|TWO_SIDED|95.0|0.21|0.4||Log Rank Test stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|Log Rank||Cox Proportional Hazard Model (Arm A vs. Arm B) stratified by factors as recorded in IXRS, i.e., presence of del17p (Yes/No), ECOG (0-1/2), # of prior therapies (1-3/4+).|||0.40|0.21|<0.0001
82372423|NCT04188301|164451608|SUPERIORITY||Odds Ratio (OR)|1.41||||0.192|TWO_SIDED|95.0|0.84|2.38||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA for living female O. volvulus worms in nodules after treatment.||2.38|0.84|0.192
82372424|NCT04188301|164451608|SUPERIORITY||Odds Ratio (OR)|1.45||||0.107|TWO_SIDED|95.0|0.92|2.29||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for living female O. volvulus worms in nodules after treatment.||2.29|0.92|0.107
82372425|NCT04188301|164451608|SUPERIORITY|IA vs IDA treatment groups for living female O. volvulus worms in nodules after treatment.|Odds Ratio (OR)|1.44||||0.068|TWO_SIDED|95.0|0.97|2.15||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||||2.15|0.97|0.068
82372426|NCT04188301|164451608|SUPERIORITY||Odds Ratio (OR)|1.03||||0.918|TWO_SIDED|95.0|0.59|1.79||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA vs IDA3 for living female O. volvulus worms in nodules after treatment.||1.79|0.59|0.918
82372427|NCT04188301|164451611|SUPERIORITY||Odds Ratio (OR)|1.41||||0.192|TWO_SIDED|95.0|0.84|2.38||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA for living female O. volvulus worms in nodules after treatment.||2.38|0.84|0.192
82397756|NCT01900431|164506071|SUPERIORITY||Least Square (LS) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0127|TWO_SIDED|90.0|-1.223|-0.262||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using mixed effect model with repeated measures (MMRM) with treatment groups, visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline adjudicated VH.||-0.262|-1.223|0.0127
82397757|NCT01900431|164506072|SUPERIORITY||Odds Ratio (OR)|0.95||||1|TWO_SIDED|90.0|0.11|6.093||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using common odds ratio which came from CMH analysis adjusted for randomization stratification factor VH level (VH \>=4 versus VH \<4).||6.093|0.11|1
82445034|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.17||||0.9999|TWO_SIDED|95.0|0.075|0.4|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||0.400|0.075|0.9999
82445035|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.4||||0.9863|TWO_SIDED|95.0|0.173|0.901|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||0.901|0.173|0.9863
82445036|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9998|TWO_SIDED|95.0|0.103|0.529|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||0.529|0.103|0.9998
82445037|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.28||||0.9992|TWO_SIDED|95.0|0.119|0.626|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||0.626|0.119|0.9992
82445038|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9995|TWO_SIDED|95.0|0.102|0.561|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||0.561|0.102|0.9995
82445039|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.31||||0.9964|TWO_SIDED|95.0|0.131|0.729|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||0.729|0.131|0.9964
82445040|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.25||||0.9995|TWO_SIDED|95.0|0.107|0.584|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||0.584|0.107|0.9995
82445041|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.24||||0.9993|TWO_SIDED|95.0|0.098|0.578|||Ratio of Active/Placebo|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||0.578|0.098|0.9993
82529815|NCT03556358|164756075|EQUIVALENCE|"Two one-sided hypothesis tests were performed for pCR in order to show that TX05 is equivalent to Herceptin:~* TEST 1: H0a: θ1 / θ2 \> 1.325 vs. H1a: θ1 / θ2 \< 1.325~* TEST 2: H0b: θ1 / θ2 \< 0.755 vs. H1b: θ1 / θ2 \> 0.755~Where θ1 is the proportion of pCR for subjects randomized to TX05 group, θ2 is the proportion of pCR for subjects randomized to Herceptin. Equivalence was concluded if the 95% CI of the risk ratio is completely contained within the pre-defined interval \[0.755, 1.325\]."|Risk Ratio (RR)|1.0783|||||TWO_SIDED|95.0|0.9185|1.2659||||||||1.2659|0.9185|
82445042|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.34||||0.9781|TWO_SIDED|95.0|0.119|0.969|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 96 hours||0.969|0.119|0.9781
82445043|NCT01597635|164598826|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.38||||0.9375|TWO_SIDED|95.0|0.154|1.341|||Bayesian repeated measures model|||Ang II/Ang1-7, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.341|0.154|0.9375
82445044|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2598|TWO_SIDED|95.0|0.752|1.215|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.215|0.752|0.2598
82397758|NCT01900431|164506073|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|2.26||0.0153|TWO_SIDED|90.0|1.99|9.67||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline BCVA.||9.67|1.99|0.0153
82445045|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3949|TWO_SIDED|95.0|0.783|1.273|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.273|0.783|0.3949
82445046|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4175|TWO_SIDED|95.0|0.791|1.294|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.294|0.791|0.4175
82445047|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.442|TWO_SIDED|95.0|0.806|1.292|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.292|0.806|0.4420
82445048|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4432|TWO_SIDED|95.0|0.811|1.262|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.262|0.811|0.4432
82445049|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4578|TWO_SIDED|95.0|0.818|1.229|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.229|0.818|0.4578
82445050|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3365|TWO_SIDED|95.0|0.79|1.167|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.167|0.790|0.3365
82445051|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.3339|TWO_SIDED|95.0|0.77|1.163|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.163|0.770|0.3339
82397759|NCT01900431|164506074|SUPERIORITY||LS Mean Difference|-26.5|STANDARD_ERROR_OF_MEAN|14.2||0.0683|TWO_SIDED|90.0|-50.41|-2.68||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline CRT (Automatic measurement from SD-OCT).||-2.68|-50.41|0.0683
82397760|NCT01900431|164506075|SUPERIORITY||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|3.55||0.0825|TWO_SIDED|90.0|-12.374|-0.35||Threshold for significance at 0.05 level.|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using MMRM model with treatment groups, randomization strata of VH level (\<4, \>=4), visits and visit-by-treatment groups interaction as fixed categorical effects, as well as, fixed continuous covariate of baseline CRT (Automatic measurement from SD-OCT).||-0.35|-12.374|0.0825
82397761|NCT01900431|164506078|SUPERIORITY||Odds Ratio (OR)|1.07||||1|TWO_SIDED|90.0|0.306|3.845||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel||Sarilumab 200 mg q2w vs Placebo|Analysis was performed using common odds ratio which came from CMH analysis adjusted for randomization stratification factor VH level (VH \>=4 versus VH \<4).||3.845|0.306|1
82397762|NCT03403621|164506096|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.42
82397763|NCT03403621|164506096|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.72
82397764|NCT03403621|164506096|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.51
82397765|NCT03403621|164506096|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.58
82372428|NCT04188301|164451611|SUPERIORITY||Odds Ratio (OR)|1.45||||0.107|TWO_SIDED|95.0|0.92|2.29||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for living female O. volvulus worms in nodules after treatment.||2.29|0.92|0.107
82372429|NCT04188301|164451611|SUPERIORITY||Odds Ratio (OR)|1.44||||0.068|TWO_SIDED|95.0|0.97|2.15||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA groups for living female O. volvulus worms in nodules after treatment.||2.15|0.97|0.068
82372430|NCT04188301|164451611|SUPERIORITY||Odds Ratio (OR)|1.03||||0.918|TWO_SIDED|95.0|0.59|1.79||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA vs IDA3 for living female O. volvulus worms in nodules after treatment.||1.79|0.59|0.918
82397766|NCT03403621|164506097|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.03
82397767|NCT03403621|164506097|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.08
82397768|NCT03403621|164506097|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.02
82397769|NCT03403621|164506097|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.007
82445052|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3608|TWO_SIDED|95.0|0.786|1.166|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.166|0.786|0.3608
82445053|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3584|TWO_SIDED|95.0|0.788|1.168|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.168|0.788|0.3584
82397770|NCT03403621|164506098|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.21
82397771|NCT03403621|164506098|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.18
82397772|NCT03403621|164506098|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Baseline versus 2 weeks||||0.33
82397773|NCT03403621|164506098|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||Baseline versus 4 weeks||||0.5
82397774|NCT01687283|164506117|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval for the treatment difference (FP minus BUD) in the mean change from baseline in daily AM PEF averaged over the 12 week treatment period was greater than -12 L/min.|Mean Difference (Net)|-1.8||||0.733|TWO_SIDED|95.0|-12.19|8.59||Analysis performed using ANCOVA with covariates of baseline, center, sex, age and treatment|ANCOVA||The analysis only included participants who had at least 4 days of non-missing AM PEF data in the baseline week prior to randomization and at least 4 days of non-missing AM PEF data after randomization.|||8.59|-12.19|0.733
82397775|NCT01687283|164506118|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval for the treatment difference (FP minus BUD) in the mean change from baseline in daily AM PEF averaged over the 12 week treatment period was greater than -12 L/min.|Mean Difference (Net)|-2.28||||0.674|TWO_SIDED|95.0|-12.95|8.38|||ANCOVA|||||8.38|-12.95|0.674
82397776|NCT01687283|164506119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.77||||0.579|TWO_SIDED|95.0|-12.57|7.04|||ANCOVA|||||7.04|-12.57|0.579
82397777|NCT01687283|164506120|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62||||0.854|TWO_SIDED|95.0|-6.0|7.24|||ANCOVA|||||7.24|-6.00|0.854
82397778|NCT01687283|164506121|SUPERIORITY_OR_OTHER|||||||0.123|||||||Wilcoxon rank sum test|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in median day-time symptom score||||0.123
82397779|NCT01687283|164506121|SUPERIORITY_OR_OTHER|||||||0.949|||||||Wilcoxon rank sum test.|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in median night-time symptom score||||0.949
82397780|NCT01687283|164506122|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.74||||0.204|TWO_SIDED|95.0|-12.07|2.59|||ANCOVA|||||2.59|-12.07|0.204
82397781|NCT01687283|164506123|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon Rank sum|||||||0.170
82397782|NCT01687283|164506124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.039||||0.337|TWO_SIDED|95.0|-0.118|0.041||Repeated Measures analysis adjusted for baseline, centre, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 2||0.041|-0.118|0.337
82372431|NCT04188301|164451614|SUPERIORITY||Odds Ratio (OR)|1.66||||0.134|TWO_SIDED|95.0|0.85|3.21||Adjusted p values were model-adjusted for repeated measurements per person. Participant level random effects were included in the model to adjust for multiple worms/person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA in fertile female O. volvulus worms in nodules after treatment.||3.21|0.85|0.134
82372432|NCT04188301|164451614|SUPERIORITY||Odds Ratio (OR)|2.23||||0.023|TWO_SIDED|95.0|1.12|4.44||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA3 for fertile female O. volvulus worms in nodules after treatment.||4.44|1.12|0.023
82372433|NCT04188301|164451614|SUPERIORITY||Odds Ratio (OR)|1.32||||0.43|TWO_SIDED|95.0|0.64|2.85||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IDA1 vs IDA3 for fertile female O. volvulus worms in nodules after treatment.||2.85|.64|0.430
82372434|NCT04188301|164451614|SUPERIORITY||Odds Ratio (OR)|1.91||||0.023|TWO_SIDED|95.0|1.09|3.34||Participant level random effects were included in the model to adjust for multiple worms/person. Adjusted P values were model-adjusted for repeated measurements per person.|Regression, Logistic|Mixed-effects logistic regression model where study participant was included as a random effect to adjust for multiple worms per person.||IA vs IDA treatment groups for fertile female O. volvulus worms in nodules after treatment.||3.34|1.09|0.023
82372435|NCT01770392|164451615|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|50.12|STANDARD_DEVIATION|12.7||1|TWO_SIDED|90.0|47.155|53.275||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)"|||53.275|47.155|1.0000
82372436|NCT01770392|164451616|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|59.76|STANDARD_DEVIATION|21.9||1|TWO_SIDED|90.0|53.829|66.348||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)."|||66.348|53.829|1.0000
82372437|NCT01770392|164451617|SUPERIORITY_OR_OTHER||Geometric Mean Ratio in percentage|49.98|STANDARD_DEVIATION|13.3||1|TWO_SIDED|90.0|46.886|53.286||p-value for ratio outside interval 0.8 - 1.25|ANOVA|"The model includes fixed effect for treatment and effect subjects was considered as random"|"The standard deviation is actually the geometric coefficient of variation (in %).~The ratio has been calculated as (nintedanib+ rifampicin) divided by nintedanib (in %)."|||53.286|46.886|1.0000
82372438|NCT02352779|164451635|OTHER||Mean Difference (Final Values)|0.6763|STANDARD_ERROR_OF_MEAN|0.4843||0.1666|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||BFI-SF||||0.1666
82397783|NCT01687283|164506124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.008||||0.866|TWO_SIDED|95.0|-0.101|0.085||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction.|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 4||0.085|-0.101|0.866
82445054|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.1219|TWO_SIDED|95.0|0.725|1.073|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.073|0.725|0.1219
82372439|NCT02352779|164451635|OTHER||Mean Difference (Final Values)|0.6936|STANDARD_ERROR_OF_MEAN|0.4567||0.1329|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||BFI-SF||||0.1329
82372440|NCT02352779|164451635|OTHER||Mean Difference (Final Values)|0.0831|STANDARD_ERROR_OF_MEAN|3.8065||0.9826|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||MFSI-SF||||0.9826
82372441|NCT02352779|164451635|OTHER||Mean Difference (Final Values)|2.9898|STANDARD_ERROR_OF_MEAN|3.5448||0.4016|TWO_SIDED||||||ANCOVA|Based on a contrast using the three-arm ANCOVA.||MFSI-SF||||0.4016
82372442|NCT01540773|164451650|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82372443|NCT01540773|164451651|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82372444|NCT03753763|164451654|SUPERIORITY||Least square mean difference|0.1||||0.9697|TWO_SIDED|95.0|-6.3|6.5|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in anterior and lateral displacement from baseline||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||6.5|-6.3|0.9697
82372445|NCT03753763|164451655|SUPERIORITY||least square mean difference|0.5||||0.7751|TWO_SIDED|95.0|-3.1|4.1||A mixed-model repeated measures (MMRM) was used to analyze the change in anterior and lateral displacement from baseline.|Mixed Models Analysis|||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate||4.1|-3.1|0.7751
82372446|NCT03753763|164451656|SUPERIORITY||least square mean difference|0.2||||0.9076|TWO_SIDED|95.0|-3.3|3.7|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in UMSARS Part II||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||3.7|-3.3|0.9076
82372447|NCT03753763|164451657|SUPERIORITY||least square mean difference|-1.1||||0.5386|TWO_SIDED|95.0|-4.8|2.6|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in UMSARS Part II.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||2.6|-4.8|0.5386
82445055|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4662|TWO_SIDED|95.0|0.814|1.21|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.210|0.814|0.4662
82445056|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5748|TWO_SIDED|95.0|0.828|1.247|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.247|0.828|0.5748
82372448|NCT03753763|164451658|SUPERIORITY||Least square mean difference|6.0||||0.3364|TWO_SIDED|95.0|-6.5|18.6|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change in from baseline in MSA-QoL scale.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||18.6|-6.5|0.3364
82372449|NCT03753763|164451659|SUPERIORITY||Least square mean difference|0.2||||0.7574|TWO_SIDED|95.0|-1.1|1.5|||ANCOVA|||The ANCOVA included change from baseline as the response variable, treatment group as a factor, and baseline score as a covariate||1.5|-1.1|0.7574
82372450|NCT03753763|164451660|SUPERIORITY||Least square mean difference|0.8||||0.6393|TWO_SIDED|95.0|-2.5|4.0|||Mixed Models Analysis|A mixed-model repeated measures (MMRM) was used to analyze the change from baseline in UDRS.||The model included treatment, week of visit, and treatment-by-visit interaction as fixed effects and baseline score as a covariate.||4.0|-2.5|0.6393
82397784|NCT01687283|164506124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025||||0.566|TWO_SIDED|95.0|-0.113|0.062||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 8||0.062|-0.113|0.566
82397785|NCT01687283|164506124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017||||0.727|TWO_SIDED|95.0|-0.078|0.112||Repeated Measures analysis adjusted for baseline, center, sex, age, visit, treatment, visit by treatment interaction and visit by baseline interaction.|ANCOVA|||This statistical analysis is for comparison of FP 1 mg BID and BUD 2 mg BID in Change of clinical lung function measurement FEV1 at Week 12||0.112|-0.078|0.727
82397786|NCT01153009|164506139|SUPERIORITY_OR_OTHER||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.21||0.224|TWO_SIDED|95.0|-3.86|0.91||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops for this dose and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 15 mg and 20 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in a sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||0.91|-3.86|0.224
82397787|NCT01153009|164506139|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.21||0.023|TWO_SIDED|95.0|-5.12|-0.38||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.025, hierarchical testing continues for this dose.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-0.38|-5.12|0.023
82397788|NCT01153009|164506139|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-6.46|-1.69|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-1.69|-6.46|<0.001
82445057|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.4104|TWO_SIDED|95.0|0.786|1.204|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.204|0.786|0.4104
82445058|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5114|TWO_SIDED|95.0|0.817|1.246|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.246|0.817|0.5114
82644962|NCT02675426|165005170|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|30.8|||<|0.001|TWO_SIDED|95.0|22.5|39.0||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||39.0|22.5|<0.001
82644963|NCT02675426|165005171|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Least Squares (LS) Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.42|-0.94||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.94|-1.42|<0.001
82372451|NCT01104779|164451661|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0029|TWO_SIDED|95.0|-11.3|-2.4|||ANCOVA||Cariprazine 3-6 mg/day vs Placebo|||-2.4|-11.3|0.0029
82372452|NCT01104779|164451661|SUPERIORITY||Mean Difference (Final Values)|-9.9|||<|0.0001|TWO_SIDED|95.0|-14.5|-5.3|||ANCOVA||Cariprazine 6-9 mg/day vs Placebo|||-5.3|-14.5|<0.0001
82372453|NCT01104779|164451662|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0115|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Cariprazine 3-6 mg/day vs Placebo|||-0.1|-0.6|0.0115
82372454|NCT01104779|164451662|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||ANCOVA||Cariprazine 6-9 mg/day vs Placebo|||-0.3|-0.8|<0.0001
82397789|NCT01153009|164506140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.249||||0.348|TWO_SIDED|95.0|0.786|1.984|||Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.984|0.786|0.348
82397790|NCT01153009|164506140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.257||||0.332|TWO_SIDED|95.0|0.792|1.994||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops for this dose and for subsequent endpoints in the sequence a nominal p-value is provided.|Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.994|0.792|0.332
82397791|NCT01153009|164506140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.991||||0.004|TWO_SIDED|95.0|1.25|3.171|||Regression, Logistic|P-value is from logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.171|1.250|0.004
82397792|NCT01153009|164506141|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.4|TWO_SIDED|95.0|-0.39|0.16|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.16|-0.39|0.400
82372455|NCT03867097|164451663|SUPERIORITY||LS mean difference in change|-0.77|STANDARD_ERROR_OF_MEAN|4.047||0.8498|TWO_SIDED|95.0|-9.04|7.49|||ANCOVA||The Shapiro-Wilk normality test of residuals indicated that the data did not have a normal distribution (p-value 0.0108).|"Treatment comparison of change versus placebo. LS mean difference in change. When a subject had no RP attacks in the past 24 hours, the frequency was considered as zero for that day.~The LS means, SEs, CIs, and p-values came from an ANCOVA model with randomized treatment group and use of phosphodiesterase inhibitors at screening (yes, no) as factors and baseline as a covariate."||7.49|-9.04|0.8498
82372456|NCT03867097|164451663|SUPERIORITY||Median Difference (Final Values)|-0.24||||0.9729|TWO_SIDED|95.0|-9.97|9.32|||Wilcoxon (Mann-Whitney)|||"Change in the Weekly Frequency of Symptomatic Raynaud's Phenomenon Attacks From Baseline to the Double-Blind Endpoint Using Nonparametric Analysis - Modified Intent-to-Treat Population.~Treatment comparison of change versus placebo."||9.32|-9.97|0.9729
82372457|NCT01372774|164451664|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.35|0.63|||Log Rank|||||0.63|0.35|<0.0001
82372458|NCT01372774|164451665|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.7|TWO_SIDED|95.0|0.76|1.5|||Log Rank|||||1.50|0.76|0.70
82372459|NCT01372774|164451666|SUPERIORITY|||||||0.00068||||||Intracranial Brain Control Rates estimated via 1-Cumulative Incidence Rate from Competing Risk survival analysis of time to the specific recurrence type. Deaths without recurrence are censored at time of death.|Gray's K-sample|||||||0.00068
82397793|NCT01153009|164506141|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.139||0.177|TWO_SIDED|95.0|-0.46|0.08|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.08|-0.46|0.177
82397794|NCT01153009|164506141|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.139||0.014|TWO_SIDED|95.0|-0.61|-0.07|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||-0.07|-0.61|0.014
82397795|NCT01153009|164506142|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|2.286||0.684|TWO_SIDED|95.0|-3.58|5.45|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||5.45|-3.58|0.684
82397796|NCT01153009|164506142|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|2.419||0.797|TWO_SIDED|95.0|-5.4|4.15|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||4.15|-5.40|0.797
82529816|NCT01351025|164756081|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in log10 IL-6||||0.94
82576060|NCT03325777|164861848|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.29|=|0.014|TWO_SIDED|95.0|0.14|1.27||a priori threshold is p\<.05|Mixed Models Analysis|Generalized Linear Mixed Models||||1.27|.14|=.014
82372460|NCT01372774|164451668|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82372461|NCT01398943|164451671|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82372462|NCT01398943|164451671|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82372463|NCT01398943|164451672|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82372464|NCT01398943|164451672|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82372465|NCT02603393|164451702|NON_INFERIORITY|Non-inferiority will be demonstrated if the 95% confidence interval of the treatment difference lies entirely to the right of (higher than) -50 mL.|Mean Difference (Final Values)|-0.026||||0.0404||95.0|-0.053|0.001||1 sided|Mixed Model for Repeated Measures Analys|||||0.001|-0.053|0.0404
82372466|NCT02603393|164451703|SUPERIORITY||Ratio of rates|1.08||||0.5802||95.0|0.83|1.4||2 sided|Generalized Linear Model Analysis|||||1.40|0.83|0.5802
82372467|NCT02603393|164451704|SUPERIORITY||Ratio of rates|1.08||||0.5651|TWO_SIDED|95.0|0.82|1.43||2-sided|Generalized Linear Model Analysis|||||1.43|0.82|0.5651
82372468|NCT02603393|164451705|SUPERIORITY||Ratio of rates|1.02||||0.9665|TWO_SIDED|95.0|0.44|2.34||2-sided|Generalized Linear Model Analysis|||||2.34|0.44|0.9665
82372469|NCT02603393|164451706|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.0573||95.0|-0.053|0.001||2-Sided|Mixed Model for Repeated Measures Analys|||||0.001|-0.053|0.0573
82372470|NCT02603393|164451707|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.0022||95.0|0.7|3.0||2-Sided|Mixed Model for Repeated Measures Analys|||||3.0|0.7|0.0022
82372471|NCT02603393|164451708|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.0221|TWO_SIDED|95.0|0.2|2.6||2-Sided|Mixed Model for Repeated measures Analys|||||2.6|0.2|0.0221
82372472|NCT02603393|164451709|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.1724||95.0|-0.587|0.105|||Mixed Model for Repeated Measures Analys|||||0.105|-0.587|0.1724
82397797|NCT01153009|164506142|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.05|STANDARD_ERROR_OF_MEAN|2.278||0.078|TWO_SIDED|95.0|-8.54|0.45|||Mixed model for repeated mesurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||0.45|-8.54|0.078
82397798|NCT01153009|164506143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.053||||0.845|TWO_SIDED|95.0|0.625|1.775|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.775|0.625|0.845
82397799|NCT01153009|164506143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.192||||0.503|TWO_SIDED|95.0|0.713|1.994|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.994|0.713|0.503
82397800|NCT01153009|164506143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.098||||0.728|TWO_SIDED|95.0|0.648|1.86|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.860|0.648|0.728
82397801|NCT01153009|164506144|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|1.111||0.962|TWO_SIDED|95.0|-2.24|2.13|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||2.13|-2.24|0.962
82397802|NCT01153009|164506144|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|1.103||0.427|TWO_SIDED|95.0|-3.05|1.29|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||1.29|-3.05|0.427
82372473|NCT02603393|164451710|SUPERIORITY||Mean Difference (Final Values)|-0.288||||0.1055||95.0|-0.638|0.061||2-Sided|Mixed Model for Repated Measures Analysi|||||0.061|-0.638|0.1055
82372474|NCT02603393|164451711|SUPERIORITY||Mean Difference (Final Values)|0.177||||0.0641||95.0|-0.01|0.365||2-Sided|Linear Mixed Model Analysis|||||0.365|-0.010|0.0641
82372475|NCT02603393|164451712|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.4107|TWO_SIDED|95.0|-0.025|0.061||2-Sided|Mixed Model for Repeated Measures Analys|||||0.061|-0.025|0.4107
82372476|NCT00699374|164451713|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.9993|TWO_SIDED|95.0|1.14|1.5||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior transarterial chemoembolization (TACE) and tumor invasion condition.|Log Rank|||||1.50|1.14|0.9993
82372477|NCT00699374|164451714|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8857|TWO_SIDED|95.0|0.99|1.3||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior TACE, and tumor invasion condition|Log Rank|||||1.30|0.99|0.8857
82372478|NCT00699374|164451715|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.8459|TWO_SIDED|95.0|0.98|1.31||One-sided p-value based on stratified log-rank test controlling the effects of geographic region, prior TACE and tumor invasion condition|Log Rank|||||1.31|0.98|0.8459
82372479|NCT00593736|164451730|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|Least Squares (LS) means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the analysis of covariance (ANCOVA) model.||||0.646
82372480|NCT00593736|164451730|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.084
82372481|NCT00593736|164451730|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.929
82372482|NCT00593736|164451731|SUPERIORITY_OR_OTHER|||||||0.854||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.854
82372483|NCT00593736|164451731|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.383
82372484|NCT00593736|164451731|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.883
82372485|NCT00593736|164451732|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS Means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.365
82372486|NCT00593736|164451732|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.121
82372487|NCT00593736|164451732|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.269
82372488|NCT00593736|164451733|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.920
82372489|NCT00593736|164451733|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.382
82372490|NCT00593736|164451733|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.439
82576061|NCT03325777|164861849|SUPERIORITY||Mean Difference (Final Values)|172.0|STANDARD_ERROR_OF_MEAN|33.2|<|0.001|TWO_SIDED|95.0|106.0|238.0||a priori threshold for significance was p\<.05|Mixed Models Analysis|||||238|106|<.001
82372491|NCT00593736|164451734|SUPERIORITY_OR_OTHER|||||||0.973||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.973
82372492|NCT00593736|164451734|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.117
82372493|NCT00593736|164451734|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.816
82397803|NCT01153009|164506144|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|1.123||0.078|TWO_SIDED|95.0|-4.19|0.22|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||0.22|-4.19|0.078
82397804|NCT00410072|164506145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||0.0882|TWO_SIDED|95.0|-1.0|14.9|||Cochran-Mantel-Haenszel|||Week 96||14.9|-1.0|0.0882
82397805|NCT00410072|164506146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.5|||||TWO_SIDED|95.0|2.3|24.8|||NC=F|||||24.8|2.3|
82397806|NCT00410072|164506146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-7.7|12.0|||NC=F|||||12.0|-7.7|
82397807|NCT00410072|164506146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.6||||0.046|TWO_SIDED|95.0|0.2|21.0|||Cochran-Mantel-Haenszel|||||21.0|0.2|0.0460
82397808|NCT00410072|164506146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-12.0|9.5|||NC=F|||||9.5|-12.0|
82397809|NCT00410072|164506147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-1.8|16.0|||NC=F|||Analysis at week 48. The stratified analysis was based on HBeAg strata at randomization.||16.0|-1.8|
82644964|NCT02675426|165005171|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-1.32|||<|0.001|TWO_SIDED|95.0|-1.56|-1.08||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.08|-1.56|<0.001
82372494|NCT00593736|164451735|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.661
82372495|NCT00593736|164451735|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.341
82372496|NCT00593736|164451735|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.853
82372497|NCT00593736|164451736|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.365
82372498|NCT00593736|164451736|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.121
82397810|NCT00410072|164506147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-1.1|15.2|||NC=F|||Analysis at week 96. The stratified analysis was based on HBeAg strata at randomization.||15.2|-1.1|
82397811|NCT00410072|164506148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|-1.5|17.1|||NC=F|||Analysis at Week 48. The stratified analysis was based on HBeAg strata at randomization.||17.1|-1.5|
82397812|NCT00410072|164506148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|||||TWO_SIDED|95.0|-0.2|17.3|||NC=F|||Analysis at Week 96. The stratified analysis was based on HBeAg strata at randomization.||17.3|-0.2|
82397813|NCT00410072|164506150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||||TWO_SIDED|95.0|-18.8|-2.0|||NC+F|||Analysis at Week 48. The stratified analysis is based on HBeAg strata at randomization.||-2.0|-18.8|
82397814|NCT00410072|164506150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-21.5|-4.1|||NC=F|||Analysis at Week 96. The stratified analysis is based on HBeAg strata at randomization.||-4.1|-21.5|
82397815|NCT00410072|164506151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|||||TWO_SIDED|95.0|-15.9|4.2|||NC=F|||Analysis at Week 48||4.2|-15.9|
82397816|NCT00410072|164506151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0|-20.6|2.3|||NC=F|||Analysis at Week 96||2.3|-20.6|
82397817|NCT00410072|164506152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|||||TWO_SIDED|95.0|-13.8|5.6|||NC=F|||Analysis at Week 48||5.6|-13.8|
82397818|NCT00410072|164506152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||||TWO_SIDED|95.0|-21.5|-0.1|||NC=F|||Analysis at Week 96||-0.1|-21.5|
82397819|NCT00410072|164506153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||||TWO_SIDED|95.0|-5.3|1.9|||NC=F|||Analysis at Week 48||1.9|-5.3|
82397820|NCT00410072|164506153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-3.9|6.1|||NC=F|||Analysis at Week 96||6.1|-3.9|
82397821|NCT00410072|164506154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.2|2.0|||NC=F|||Analysis at Week 48||2.0|-2.2|
82397822|NCT00410072|164506154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.3|4.9|||NC=F|||Analysis at Week 96||4.9|-2.3|
82397823|NCT01212159|164506163|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED|||||Comparison of mean reduction in LDL cholesterol between no monitor (control) and monitor (intervention) groups|t-test, 2 sided|||Paired t-test analysis of 6 month change in LDL cholesterol for no monitor and self monitor groups Independent sample t-test to compare ldl change between groups||||0.391
82397824|NCT03539484|164506187|OTHER|A Bayesian approach is used to estimate the maximum tolerated dose (MTD).|Posterior probability at dose 1.8 mg|10.6|||||TWO_SIDED|95.0|2.1|26.5||There is no p-value derived; logistic regression is used to estimate the probability of DLT.|Regression, Logistic|||||26.5|2.10|
82397825|NCT00571103|164506208|SUPERIORITY_OR_OTHER||Mean Slope|-0.985|STANDARD_ERROR_OF_MEAN|0.158||0.05|TWO_SIDED|95.0|-1.0|1.0|||Linear mixed effects|||||1|-1|0.05
82445059|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4213|TWO_SIDED|95.0|0.783|1.2|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.200|0.783|0.4213
82445060|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2663|TWO_SIDED|95.0|0.731|1.132|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.132|0.731|0.2663
82372499|NCT00593736|164451736|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.268
82372500|NCT00593736|164451737|SUPERIORITY_OR_OTHER|||||||0.9||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.900
82372501|NCT00593736|164451737|SUPERIORITY_OR_OTHER|||||||0.525||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.525
82372502|NCT00593736|164451737|SUPERIORITY_OR_OTHER|||||||0.418||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.418
82372503|NCT00593736|164451738|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.051
82372504|NCT00593736|164451738|SUPERIORITY_OR_OTHER|||||||0.926||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.926
82372505|NCT00593736|164451738|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.166
82372506|NCT00593736|164451739|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.511
82372507|NCT00593736|164451739|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.082
82372508|NCT00593736|164451739|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.188
82372509|NCT00593736|164451740|SUPERIORITY_OR_OTHER|||||||0.691||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.691
82372510|NCT00593736|164451740|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.323
82372511|NCT00593736|164451740|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.324
82372512|NCT00593736|164451741|SUPERIORITY_OR_OTHER|||||||0.197||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.197
82372513|NCT00593736|164451741|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.871
82372514|NCT00593736|164451741|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.737
82372515|NCT00593736|164451742|SUPERIORITY_OR_OTHER|||||||0.972||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.972
82372516|NCT00593736|164451742|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.117
82372517|NCT00593736|164451742|SUPERIORITY_OR_OTHER|||||||0.811||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.811
82372518|NCT00593736|164451743|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.659
82372519|NCT00593736|164451743|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.337
82372520|NCT00593736|164451743|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.853
82372521|NCT00593736|164451744|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.206
82644965|NCT02675426|165005172|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.43|-0.24||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.24|-0.43|<0.001
82372522|NCT00593736|164451744|SUPERIORITY_OR_OTHER|||||||0.495||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.495
82372523|NCT00593736|164451744|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.800
82372524|NCT00593736|164451745|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.194
82372525|NCT00593736|164451745|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.134
82372526|NCT00593736|164451745|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.130
82372527|NCT00593736|164451746|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.063
82372528|NCT00593736|164451746|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.156
82372529|NCT00593736|164451746|SUPERIORITY_OR_OTHER|||||||0.521||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.521
82372530|NCT00593736|164451747|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.675
82372531|NCT00593736|164451747|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.566
82372532|NCT00593736|164451747|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.205
82372533|NCT00593736|164451748|SUPERIORITY_OR_OTHER|||||||0.643||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.643
82372534|NCT00593736|164451748|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.032
82372535|NCT00593736|164451748|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.875
82372536|NCT00593736|164451749|SUPERIORITY_OR_OTHER|||||||0.286||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.286
82372537|NCT00593736|164451749|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.318
82372538|NCT00593736|164451749|SUPERIORITY_OR_OTHER|||||||0.483||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.483
82372539|NCT00593736|164451750|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.040
82372540|NCT00593736|164451750|SUPERIORITY_OR_OTHER|||||||0.61||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.610
82397826|NCT02131233|164506251|NON_INFERIORITY_OR_EQUIVALENCE|Reformulated Raltegravir is concluded non-inferior to Raltegravir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Estimated Difference|0.51|||||TWO_SIDED|95.0|-4.204|5.223|||||Reformulated Raltegravir minus Raltegravir|The 95% Confidence Interval (CI) for the treatment differences in percent response were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA \<=100,000 copies/mL or HIV-1 RNA \>100,000 copies/mL)||5.223|-4.204|
82397827|NCT02131233|164506252|NON_INFERIORITY_OR_EQUIVALENCE|Reformulated Raltegravir is concluded non-inferior to Raltegravir if the lower bound of the 95% CI for the difference in percent response is above -10 percentage points.|Estimated Difference|1.449|||||TWO_SIDED|95.0|-4.41|7.308|||||Reformulated Raltegravir minus Raltegravir|The 95% Confidence Interval (CI) for the treatment differences in percent response were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA \<=100,000 copies/mL or HIV-1 RNA \>100,000 copies/mL)||7.308|-4.410|
82397828|NCT02131233|164506253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-30.9|26.7|||||Reformulated Raltegravir minus Raltegravir|The 95% CI for mean difference in CD4 change was based on t-distribution.||26.7|-30.9|
82397829|NCT02131233|164506254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-32.8|31.6|||||Reformulated Raltegravir minus Raltegravir|The 95% CI for mean difference in CD4 change was based on t-distribution.||31.6|-32.8|
82644966|NCT02675426|165005172|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.38|-0.18||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment, prior bDMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.18|-0.38|<0.001
82397830|NCT02095197|164506269|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||0.23
82445061|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2373|TWO_SIDED|95.0|0.72|1.142|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.142|0.720|0.2373
82372541|NCT00593736|164451750|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.368
82372542|NCT00593736|164451751|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.352
82372543|NCT00593736|164451751|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.860
82372544|NCT00593736|164451751|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.297
82397831|NCT02095197|164506270|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||||||0.47
82397832|NCT02095197|164506271|SUPERIORITY_OR_OTHER|||||||0.3|||||||Chi-squared|||||||0.30
82397833|NCT02095197|164506272|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||||||0.41
82397834|NCT05460078|164506276|SUPERIORITY||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|95.0|1.16|1.68|||Mixed Models Analysis|||||1.68|1.16|<0.001
82397835|NCT05460078|164506277|SUPERIORITY||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|95.0|1.18|1.65|||Mixed Models Analysis|||||1.65|1.18|<0.001
82397836|NCT05460078|164506278|SUPERIORITY||Odds Ratio (OR)|1.96|||<|0.001|TWO_SIDED|95.0|1.54|2.48|||Mixed Models Analysis|||||2.48|1.54|<0.001
82397837|NCT05460078|164506279|SUPERIORITY||Odds Ratio (OR)|1.4|||<|0.001|TWO_SIDED|95.0|1.17|1.66|||Mixed Models Analysis|||||1.66|1.17|<0.001
82397838|NCT02759835|164506366|OTHER|||||||0.56|||||||Kaplan-Meier|||||||0.56
82397839|NCT02759835|164506368|OTHER|||||||0.4|||||||Kaplan-Meier|||||||0.40
82397840|NCT00002525|164506387|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178||||||one-sided log-rank test p value|Log Rank|||||||0.178
82397841|NCT00002525|164506388|SUPERIORITY_OR_OTHER_LEGACY|||||||0.847||||||two-sided log rank test|Log Rank|||||||0.847
82397842|NCT01505179|164506391|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
82397843|NCT01505179|164506392|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82397844|NCT01505179|164506393|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.74
82397845|NCT01505179|164506394|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||||||0.49
82445062|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2575|TWO_SIDED|95.0|0.721|1.149|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.149|0.721|0.2575
82445063|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2173|TWO_SIDED|95.0|0.708|1.127|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.127|0.708|0.2173
82372545|NCT00593736|164451752|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.053
82372546|NCT00593736|164451752|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.837
82372547|NCT00593736|164451752|SUPERIORITY_OR_OTHER|||||||0.783||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.783
82372548|NCT00593736|164451753|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.566
82372549|NCT00593736|164451753|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.543
82372550|NCT00593736|164451753|SUPERIORITY_OR_OTHER|||||||0.847||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.847
82372551|NCT00593736|164451754|SUPERIORITY_OR_OTHER|||||||0.356||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.356
82372552|NCT00593736|164451754|SUPERIORITY_OR_OTHER|||||||0.964||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.964
82372553|NCT00593736|164451754|SUPERIORITY_OR_OTHER|||||||0.799||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.799
82372554|NCT00593736|164451755|SUPERIORITY_OR_OTHER|||||||0.698||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.698
82372555|NCT00593736|164451755|SUPERIORITY_OR_OTHER|||||||0.385||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.385
82372556|NCT00593736|164451755|SUPERIORITY_OR_OTHER|||||||0.641||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.641
82372557|NCT00593736|164451756|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.979
82397846|NCT00435188|164506398|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Omnibus p value for group difference between groups at the end of the study and group by time interaction|Mixed Models Analysis|||||||<0.001
82529817|NCT01351025|164756082|SUPERIORITY_OR_OTHER_LEGACY|||||||0.495|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|exact Wilcoxon rank sun test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in CD4+ T-cell activation percent (% CD38+/DR+ of CD4)||||0.495
82372558|NCT00593736|164451756|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.194
82372559|NCT00593736|164451756|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.004
82372560|NCT00593736|164451757|SUPERIORITY_OR_OTHER|||||||0.975||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.975
82372561|NCT00593736|164451757|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.639
82397847|NCT00435188|164506401|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value reporting overall differences between groups for group and group by time interaction with two degrees of freedom||||0.47
82397848|NCT00435188|164506404|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value for overall difference between groups at the end of the study and group by time interaction on two degrees of freedom||||0.04
82397849|NCT00435188|164506405|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value provides the overall differences between groups at the end of the study||||<0.001
82397850|NCT00435188|164506408|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Mixed Models Analysis|||Omnibus P value provides the overall difference between groups at the end of the study||||0.29
82397851|NCT00435188|164506411|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Mixed Models Analysis|||P value provides overall differences between groups at the end of the study||||0.35
82372562|NCT00593736|164451757|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.109
82372563|NCT00593736|164451758|SUPERIORITY_OR_OTHER|||||||0.823||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.823
82372564|NCT00593736|164451758|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.004
82372565|NCT00593736|164451758|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.296
82372566|NCT00593736|164451759|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.092
82372567|NCT00593736|164451759|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.025
82372568|NCT00593736|164451759|SUPERIORITY_OR_OTHER|||||||0.732||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.732
82372569|NCT00593736|164451760|SUPERIORITY_OR_OTHER|||||||0.298||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.298
82372570|NCT00593736|164451760|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.276
82372571|NCT00593736|164451760|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.430
82372572|NCT00593736|164451761|SUPERIORITY_OR_OTHER|||||||0.349||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.349
82372573|NCT00593736|164451761|SUPERIORITY_OR_OTHER|||||||0.203||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.203
82372574|NCT00593736|164451761|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.444
82372575|NCT00593736|164451762|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.581
82372576|NCT00593736|164451762|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.257
82397852|NCT00435188|164506414|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||P value provides the overall differences between groups at the end of the study||||0.08
82397853|NCT00055497|164506434|SUPERIORITY_OR_OTHER|||||||0.142|||||||Log Rank|||||||0.142
82397854|NCT00055497|164506435|SUPERIORITY_OR_OTHER|||||||0.029|||||||Fisher Exact|||||||0.029
82397855|NCT00055497|164506436|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||Week 24||||0.330
82397856|NCT00055497|164506436|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||Week 24||||0.001
82397857|NCT00055497|164506436|SUPERIORITY_OR_OTHER|||||||0.508|||||||Fisher Exact|||Week 56||||0.508
82397858|NCT00055497|164506436|SUPERIORITY_OR_OTHER|||||||0.044|||||||Fisher Exact|||Week 56||||0.044
82397859|NCT00055497|164506437|SUPERIORITY_OR_OTHER|||||||0.191|||||||Fisher Exact|||Week 24||||0.191
82397860|NCT00055497|164506437|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||Week 24||||0.003
82397861|NCT00055497|164506437|SUPERIORITY_OR_OTHER|||||||0.508|||||||Fisher Exact|||Week 56||||0.508
82397862|NCT00055497|164506437|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||Week 56||||0.004
82397863|NCT00055497|164506438|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
82644967|NCT02675426|165005173|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.55|||<|0.001|TWO_SIDED|95.0|3.13|5.98||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.98|3.13|<0.001
82644968|NCT02675426|165005173|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.98|||<|0.001|TWO_SIDED|95.0|3.54|6.42||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.42|3.54|<0.001
82644969|NCT02675426|165005174|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|20.8|||<|0.001|TWO_SIDED|95.0|13.6|28.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||28.1|13.6|<0.001
82644970|NCT02675426|165005174|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|18.4|||<|0.001|TWO_SIDED|95.0|11.2|25.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||25.5|11.2|<0.001
82644971|NCT02675426|165005175|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|21.3|||<|0.001|TWO_SIDED|95.0|13.0|29.5||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||29.5|13.0|<0.001
82644972|NCT02675426|165005175|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|Response Rate Difference|23.0|||<|0.001|TWO_SIDED|95.0|14.7|31.3||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||31.3|14.7|<0.001
82644973|NCT02675426|165005176|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-51.01|||<|0.001|TWO_SIDED|95.0|-78.14|-23.87||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.87|-78.14|<0.001
82644974|NCT02675426|165005176|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|-50.86|||<|0.001|TWO_SIDED|95.0|-78.19|-23.53||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.53|-78.19|<0.001
82644975|NCT02675426|165005177|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.95|||<|0.001|TWO_SIDED|95.0|3.31|6.6||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.60|3.31|<0.001
82372577|NCT00593736|164451762|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.688
82372578|NCT00593736|164451763|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.561
82372579|NCT00593736|164451763|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.595
82372580|NCT00593736|164451763|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.795
82397864|NCT02620384|164506472|SUPERIORITY||Mean Difference (Final Values)|2439.511|STANDARD_ERROR_OF_MEAN|646.2707|<|0.0001|TWO_SIDED|95.0|1160.8485|3718.1734|||t-test, 2 sided|||||3718.1734|1160.8485|<0.0001
82372581|NCT00593736|164451764|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.655
82372582|NCT00593736|164451764|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.177
82372583|NCT00593736|164451764|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.044
82372584|NCT00593736|164451765|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.475
82372585|NCT00593736|164451765|SUPERIORITY_OR_OTHER|||||||0.635||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.635
82372586|NCT00593736|164451765|SUPERIORITY_OR_OTHER|||||||0.782||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.782
82372587|NCT00593736|164451766|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.192
82372588|NCT00593736|164451766|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.618
82372589|NCT00593736|164451766|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.152
82372590|NCT00593736|164451767|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.379
82372591|NCT00593736|164451767|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.057
82372592|NCT00593736|164451767|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.808
82372593|NCT00593736|164451768|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.284
82372594|NCT00593736|164451768|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.344
82372595|NCT00593736|164451768|SUPERIORITY_OR_OTHER|||||||0.558||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.558
82372596|NCT00593736|164451769|SUPERIORITY_OR_OTHER|||||||0.867||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.867
82372597|NCT00593736|164451769|SUPERIORITY_OR_OTHER|||||||0.244||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.244
82372598|NCT00593736|164451769|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.620
82372599|NCT00593736|164451770|SUPERIORITY_OR_OTHER|||||||0.206||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.206
82397865|NCT02620384|164506473|SUPERIORITY||Mean Difference (Final Values)|-2249.3294|STANDARD_ERROR_OF_MEAN|608.2782|<|0.0001|TWO_SIDED|95.0|-3454.4999|-1044.1589|||t-test, 2 sided|||||-1044.1589|-3454.4999|<0.0001
82529818|NCT01351025|164756083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.704|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in log10 D-dimer||||0.704
82397866|NCT02620384|164506474|SUPERIORITY||Mean Difference (Final Values)|-2.717121|STANDARD_ERROR_OF_MEAN|0.586647|<|0.0001|TWO_SIDED|95.0|-3.8637732|-1.54651|||t-test, 2 sided|||||-1.546510|-3.8637732|<0.0001
82397867|NCT02620384|164506475|SUPERIORITY||Mean Difference (Final Values)|-0.6955|STANDARD_ERROR_OF_MEAN|0.2806||0.014|TWO_SIDED|95.0|-1.2506|-0.1403||Represents BORG\_48\_hours|t-test, 2 sided||Method of estimation is for 48 hour measure.|||-.1403|-1.2506|.014
82397868|NCT02620384|164506476|SUPERIORITY||Mean Difference (Final Values)|3.6903|STANDARD_ERROR_OF_MEAN|72.4074||0.959|TWO_SIDED|95.0|-1395694.0|147.1545|||t-test, 2 sided|||||147.1545|-1395694|.959
82397869|NCT02620384|164506477|SUPERIORITY|||||||0.144|||||||Chi-squared|||||||.144
82397870|NCT02620384|164506478|SUPERIORITY|||||||0.171|||||||Chi-squared|||||||.171
82397871|NCT02620384|164506479|SUPERIORITY||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.734||0.885|TWO_SIDED|95.0|-1.346|1.558|||t-test, 2 sided|||||1.558|-1.346|.885
82445064|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2406|TWO_SIDED|95.0|0.717|1.143|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.143|0.717|0.2406
82529819|NCT01351025|164756084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.508|TWO_SIDED|||||Two-sided p-values of \< 0.05 without adjustments for multiple testing were considered statistically significant.|Wilcoxon (Mann-Whitney)|Exact Wilcoxon rank sum test was used||The null hypothesis is that there is no difference between arm A and arm B in the differences of the changes (\[week 44 - week 24\] - \[week 20 - baseline\]) in CD8+ T-cell activation percent (% CD38+/DR+ of CD8+)||||0.508
82644976|NCT02675426|165005177|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure.|LS Mean Difference|4.78|||<|0.001|TWO_SIDED|95.0|3.12|6.44||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.44|3.12|<0.001
82644977|NCT02675426|165005178|SUPERIORITY||Response Rate Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.0||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||31.0|15.1|<0.001
82397872|NCT02620384|164506480|SUPERIORITY|||||||0.804|||||||Chi-squared|||||||.804
82397873|NCT02620384|164506481|SUPERIORITY|||||||0.403|||||||Chi-squared|||||||.403
82397874|NCT02620384|164506482|SUPERIORITY|||||||0.08|||||||Chi-squared|||||||.080
82397875|NCT02620384|164506483|SUPERIORITY|||||||0.559|||||||Chi-squared|||||||.559
82397876|NCT03782974|164506510|SUPERIORITY||Least Square Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.104|<|0.0001|TWO_SIDED|95.0|-0.77|-0.37||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||-0.37|-0.77|<0.0001
82397877|NCT03782974|164506511|SUPERIORITY||Risk Difference (RD)|0.27|||<|0.0001|TWO_SIDED|95.0|0.1|0.59||The threshold for statistical significance was p=0.05.|Chi-squared|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||0.59|0.10|<0.0001
82397878|NCT03782974|164506512|SUPERIORITY||Least Square Mean Difference|6.35|||<|0.001|TWO_SIDED|95.0|3.93|8.77||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||8.77|3.93|<0.001
82397879|NCT03782974|164506513|SUPERIORITY||Least Square Mean Difference|4.049|||<|0.05|TWO_SIDED|95.0|1.08|7.01||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||7.01|1.08|<0.05
82397880|NCT03782974|164506514|SUPERIORITY|||||||0.6||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.6
82397881|NCT03782974|164506515|SUPERIORITY|||||||0.054||||||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||||0.054
82397882|NCT03782974|164506516|SUPERIORITY|||||||0.13||||||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||||0.13
82397883|NCT03782974|164506517|SUPERIORITY||Least Square Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.102|<|0.0001|TWO_SIDED|95.0|-0.96|-0.56||The threshold for statistical significance was p=0.05.|Mixed Models Analysis|||It was calculated that 138 participants randomized in a 1:1 ratio between the 2 arms would have a least 90% power to detect a difference of a big effect size between Proglucamune Treatment and Placebo from baseline to week 12.||-0.56|-0.96|<0.0001
82397884|NCT02993354|164506518|SUPERIORITY||Relative Rate|0.95||||0.75|TWO_SIDED|95.0|0.69|1.31|||t-test, 2 sided|||||1.31|0.69|0.75
82445065|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2471|TWO_SIDED|95.0|0.721|1.151|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.151|0.721|0.2471
82529820|NCT02066896|164756093|OTHER|ANOVA repeated measures||||||0.05|||||||ANOVA|ANOVA repeated measures||||||0.05
82529821|NCT05067933|164756110|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.953|||||||Wilcoxon rank sum tests|||||||0.953
82529822|NCT05067933|164756111|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.5|||||||Wilcoxon rank sum tests|||||||0.500
82529823|NCT05067933|164756112|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.912|||||||Wilcoxon rank sum tests|||||||0.912
82529824|NCT05067933|164756113|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.678|||||||Wilcoxon rank sum tests|||||||0.678
82644978|NCT02675426|165005178|SUPERIORITY||Response Rate Difference|28.4|||<|0.001|TWO_SIDED|95.0|20.4|36.5||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||36.5|20.4|<0.001
82372600|NCT00593736|164451770|SUPERIORITY_OR_OTHER|||||||0.559||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.559
82372601|NCT00593736|164451770|SUPERIORITY_OR_OTHER|||||||0.074||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.074
82372602|NCT00593736|164451771|SUPERIORITY_OR_OTHER|||||||0.796||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.796
82372603|NCT00593736|164451771|SUPERIORITY_OR_OTHER|||||||0.546||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.546
82372604|NCT00593736|164451771|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.479
82372605|NCT00593736|164451772|SUPERIORITY_OR_OTHER|||||||0.766||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.766
82644979|NCT02675426|165005179|SUPERIORITY||Response Rate Difference|14.9|||<|0.001|TWO_SIDED|95.0|8.7|21.1||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||21.1|8.7|<0.001
82372606|NCT00593736|164451772|SUPERIORITY_OR_OTHER|||||||0.912||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.912
82372607|NCT00593736|164451772|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.952
82372608|NCT00593736|164451773|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.722
82372609|NCT00593736|164451773|SUPERIORITY_OR_OTHER|||||||0.262||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.262
82372610|NCT00593736|164451773|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.717
82372611|NCT00593736|164451774|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.498
82372612|NCT00593736|164451774|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.664
82372613|NCT00593736|164451774|SUPERIORITY_OR_OTHER|||||||0.428||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.428
82372614|NCT00593736|164451775|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.519
82372615|NCT00593736|164451775|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.179
82372616|NCT00593736|164451775|SUPERIORITY_OR_OTHER|||||||0.935||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.935
82529825|NCT05067933|164756114|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.257|||||||Wilcoxon rank sum tests|||||||0.257
82529826|NCT05067933|164756115|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.748|||||||Wilcoxon rank sum tests|||||||0.748
82529827|NCT05067933|164756116|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.946|||||||Wilcoxon rank sum tests|||||||0.946
82397885|NCT01078298|164506522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.35|||<|0.0001|TWO_SIDED|95.0|2.16|5.21|||Regression, Logistic|||Odds Ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||5.21|2.16|<0.0001
82372617|NCT00593736|164451776|SUPERIORITY_OR_OTHER|||||||0.425||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.425
82372618|NCT00593736|164451776|SUPERIORITY_OR_OTHER|||||||0.406||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.406
82445066|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2585|TWO_SIDED|95.0|0.727|1.157|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.157|0.727|0.2585
82445067|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.3101|TWO_SIDED|95.0|0.737|1.17|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.170|0.737|0.3101
82372619|NCT00593736|164451776|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.720
82372620|NCT00593736|164451777|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.294
82372621|NCT00593736|164451777|SUPERIORITY_OR_OTHER|||||||0.474||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.474
82372622|NCT00593736|164451777|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.999
82576062|NCT04692467|164861861|SUPERIORITY||Mean Difference (Final Values)|-5.88|||<|0.0001|TWO_SIDED|95.0|-8.77|-3.01|||Mixed Models Analysis||The mean difference reflects the difference in mean change (i.e., mean change = 12 months minus baseline for each arm) between the intervention arm and SOC arm (direction = intervention arm minus SOC arm).|||-3.01|-8.77|<0.0001
82644980|NCT02675426|165005179|SUPERIORITY||Response Rate Difference|20.6|||<|0.001|TWO_SIDED|95.0|14.0|27.2||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||27.2|14.0|<0.001
82372623|NCT00593736|164451778|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.655
82372624|NCT00593736|164451778|SUPERIORITY_OR_OTHER|||||||0.331||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.331
82372625|NCT00593736|164451778|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.362
82372626|NCT00593736|164451779|SUPERIORITY_OR_OTHER|||||||0.684||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.684
82372627|NCT00593736|164451779|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.399
82372628|NCT00593736|164451779|SUPERIORITY_OR_OTHER|||||||0.611||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.611
82372629|NCT00593736|164451780|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.157
82372630|NCT00593736|164451780|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.463
82397886|NCT01078298|164506523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53||||0.0001|TWO_SIDED|95.0|1.56|4.1|||Regression, Logistic|||For Week 9 through 24, odds ratio and p-value were calculated from logistic regression model including the main effects of treatment, pooled center and cohort.||4.10|1.56|0.0001
82445068|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2476|TWO_SIDED|95.0|0.727|1.16|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.160|0.727|0.2476
82644981|NCT02675426|165005180|SUPERIORITY||Response Rate Difference|13.6|||<|0.001|TWO_SIDED|95.0|7.0|20.2||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use.|Response Rate Difference = Upadacitinib - Placebo|||20.2|7.0|<0.001
82644982|NCT02675426|165005180|SUPERIORITY||Response Rate Difference|19.7|||<|0.001|TWO_SIDED|95.0|12.7|26.7||Unadjusted p-value|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological disease-modifying anti-rheumatoid drug use|Response Rate Difference = Upadacitinib - Placebo|||26.7|12.7|<0.001
82644983|NCT00080288|165005230|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.0001||95.0|1.67|3.69|||ANCOVA|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||3.69|1.67|<0.0001
82372631|NCT00593736|164451780|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.774
82372632|NCT00593736|164451781|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.413
82372633|NCT00593736|164451781|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.093
82372634|NCT00593736|164451781|SUPERIORITY_OR_OTHER|||||||0.982||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.982
82372635|NCT00593736|164451782|SUPERIORITY_OR_OTHER|||||||0.441||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.441
82372636|NCT00593736|164451782|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.082
82372637|NCT00593736|164451782|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.549
82372638|NCT00593736|164451783|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.860
82372639|NCT00593736|164451783|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.997
82372640|NCT00593736|164451783|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.834
82397887|NCT01078298|164506523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0011|TWO_SIDED|95.0|1.4|3.98|||Regression, Logistic|||For Week 9 through 52, odds ratio and p-value were calculated from logistic regression model including the main effects of treatment, pooled center and cohort.||3.98|1.40|0.0011
82372641|NCT00593736|164451784|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.837
82372642|NCT00593736|164451784|SUPERIORITY_OR_OTHER|||||||0.321||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.321
82372643|NCT00593736|164451784|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.978
82372644|NCT00593736|164451785|SUPERIORITY_OR_OTHER|||||||0.513||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.513
82372645|NCT00593736|164451785|SUPERIORITY_OR_OTHER|||||||0.751||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.751
82397888|NCT01078298|164506524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.53|5.78|||Regression, Logistic|||For Week 12, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||5.78|2.53|<0.0001
82445069|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3887|TWO_SIDED|95.0|0.767|1.222|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.222|0.767|0.3887
82529828|NCT05067933|164756119|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.356|||||||Wilcoxon rank sum tests|||||||0.356
82644984|NCT00080288|165005231|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|The p value for each treatment group is for the comparison of that treatment group to the placebo treatment group. Adjusted for country.||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||||0.0010
82529829|NCT05067933|164756120|OTHER|Comparison between immunogenicity assay results between treatment groups on Day 57.||||||0.267|||||||Wilcoxon rank sum tests|||||||0.267
82529830|NCT01065350|164756121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.87|||<|0.001|TWO_SIDED|95.0|2.07|26.15||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 5 minutes post induction was compared between treatment groups.||26.15|2.07|<0.001
82644985|NCT02253654|165005232|SUPERIORITY_OR_OTHER||Treatment difference|0.39|STANDARD_ERROR_OF_MEAN|3.53||0.46|ONE_SIDED|97.5|-6.58||||t-test, 1 sided|||The difference between treatment groups for the percent of hemoglobin measurements within 10.0 to 11.0 g/dL during the evaluation period was tested using a 1-sided t-test with a significance level of 0.025.|||-6.58|0.46
82644986|NCT00069160|165005242|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>.05
82372646|NCT00593736|164451785|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.242
82372647|NCT00593736|164451786|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.307
82372648|NCT00593736|164451786|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.765
82372649|NCT00593736|164451786|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.727
82397889|NCT01078298|164506524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.0004|TWO_SIDED|95.0|1.4|3.33|||Regression, Logistic|||For Week 24, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.33|1.40|0.0004
82445070|NCT01597635|164598827|SUPERIORITY||Ratio of Active/Placebo|0.92||||0.2294|TWO_SIDED|95.0|0.749|1.146|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.146|0.749|0.2294
82529831|NCT01065350|164756121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.01|TWO_SIDED|95.0|1.21|8.75||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 10 minutes post induction was compared between treatment groups.||8.75|1.21|<0.01
82529832|NCT01065350|164756121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.39|TWO_SIDED|95.0|0.52|4.55||A p value of \< 0.005 was considered to indicate statistical significance.|Chi-squared|||Systolic Blood Pressure (SBP) from baseline to 30 minutes post induction was compared between treatment groups||4.55|0.52|0.39
82372650|NCT00593736|164451787|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.902
82372651|NCT00593736|164451787|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.590
82372652|NCT00593736|164451787|SUPERIORITY_OR_OTHER|||||||0.29||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.290
82372653|NCT00593736|164451788|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.685
82397890|NCT01078298|164506524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.002|TWO_SIDED|95.0|1.28|3.08|||Regression, Logistic|||For Week 52, odds ratio and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.08|1.28|0.0020
82397891|NCT01078298|164506525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97||||0.0027|TWO_SIDED|95.0|1.26|3.08|||Regression, Logistic|||Odds Ratios and p-values were obtained from a logistic regression model including the main effects of treatment, pooled center and cohort.||3.08|1.26|0.0027
82529833|NCT01065350|164756122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.64|||<|0.01|TWO_SIDED|95.0|1.54|14.92||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 5 minutes post induction was compared between treatment groups.||14.92|1.54|<0.01
82529834|NCT01065350|164756122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.05|TWO_SIDED|95.0|0.91|6.29||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 10 minutes post induction was compared between treatment groups.||6.29|0.91|0.05
82529835|NCT01065350|164756122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.11|TWO_SIDED|95.0|0.68|13.19||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Diastolic Blood Pressure (DBP) from baseline to 30 minutes post induction was compared between treatment groups.||13.19|0.68|0.11
82644987|NCT02576054|165005302|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.0|1.57|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 6||1.57|1.00|<0.001
82397892|NCT03704948|164506533|SUPERIORITY||Mean Difference (Net)|0.82|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82397893|NCT02379273|164506547|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||A Friedman repeated-measures ANOVA on ranks was applied to the unilateral CNC data with follow-up pairwise comparisons based on the Tukey Test.||||<0.001
82397894|NCT02379273|164506547|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the bilateral CNC data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
82397895|NCT02379273|164506548|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the unilateral AzBio data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
82397896|NCT02379273|164506548|SUPERIORITY|A Friedman repeated-measures ANOVA on ranks was applied to the bilateral AzBio data with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|||||||<0.001
82397897|NCT02379273|164506549|SUPERIORITY|A one-way repeated-measures analysis of variance was applied to the data, with follow-up pairwise comparisons based on the Holm-Sidak method.|||||<|0.001||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||<0.001
82445071|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.8522|TWO_SIDED|95.0|0.916|1.234|||Bayesian repeated measures model|||PEEP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.234|0.916|0.8522
82445072|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5885|TWO_SIDED|95.0|0.89|1.164|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.164|0.890|0.5885
82644988|NCT02576054|165005302|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% confidence interval (CI) of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|2.3|||<|0.001|TWO_SIDED|95.0|1.89|2.78|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio = GMT PN200 divided by GMT PN122|Anti-HPV 11||2.78|1.89|<0.001
82644989|NCT02576054|165005302|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% CI of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|1.69|||<|0.001|TWO_SIDED|95.0|1.35|2.11|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 16||2.11|1.35|<0.001
82644990|NCT02576054|165005302|NON_INFERIORITY|The statistical criterion for success requires that the lower bound of two-sided 95% CI of GMT ratio between boys enrolled in V501-200 and men enrolled in the Phase III study V501-122 be greater than 0.5% for each HPV type|GMT Ratio|3.05|||<|0.001|TWO_SIDED|95.0|2.33|3.99|||ANOVA|Log-transformed data using an analysis of variance model with a term for age-group|GMT Ratio= GMT PN200 divided by GMT PN122|Anti-HPV 18||3.99|2.33|<0.001
82644991|NCT04604496|165005335|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|133.17|||||TWO_SIDED|90.0|81.97|216.37||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||216.37|81.97|
82644992|NCT04604496|165005335|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|219.98|||||TWO_SIDED|90.0|135.39|357.41||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||357.41|135.39|
82397898|NCT02379273|164506550|SUPERIORITY|A one-way repeated-measures analysis of variance was applied to the data, with follow-up pairwise comparisons based on the Holm-Sidak method.|||||<|0.001|||||||ANOVA|The threshold for statistical significance was p=0.05.||||||<0.001
82397899|NCT02379273|164506551|SUPERIORITY|Pre- and postoperative mean scores were compared based on Friedman repeated-measures analysis of variance with follow-up pairwise comparisons based on the Tukey Test.|||||<|0.001||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||<0.001
82397900|NCT01421147|164506556|SUPERIORITY_OR_OTHER||LS Mean Difference|0.108||||0.055|TWO_SIDED|95.0|-0.002|0.219|||ANCOVA|||||0.219|-0.002|0.055
82397901|NCT01421147|164506557|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.205|TWO_SIDED|95.0|-0.23|1.05||P-value is for change at 6 weeks.|ANCOVA|||||1.05|-0.23|0.205
82397902|NCT01421147|164506557|SUPERIORITY_OR_OTHER||LS Mean difference|0.4||||0.32|TWO_SIDED|95.0|-0.4|1.21||P-value is for change at 12 weeks.|ANCOVA|||||1.21|-0.40|0.320
82397903|NCT01421147|164506557|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.373|TWO_SIDED|95.0|-0.46|1.21||P-value is for change at Endpoint, up to 24 weeks.|ANCOVA|||||1.21|-0.46|0.373
82397904|NCT01421147|164506557|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.131|TWO_SIDED|95.0|-0.25|1.86||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||1.86|-0.25|0.131
82397905|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.007||||0.86|TWO_SIDED|95.0|-0.087|0.072||P-value is for change at 6 weeks.|ANCOVA|||||0.072|-0.087|0.860
82397906|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.113||||0.03|TWO_SIDED|95.0|0.011|0.215||P-value is for change at 12 weeks.|ANCOVA|||||0.215|0.011|0.030
82397907|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.098||||0.08|TWO_SIDED|95.0|-0.012|0.208||P-value is for change at 24 weeks.|ANCOVA|||||0.208|-0.012|0.080
82397908|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.314|TWO_SIDED|95.0|-0.057|0.177||P-value is for change at 36 weeks.|ANCOVA|||||0.177|-0.057|0.314
82397909|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.004||||0.948|TWO_SIDED|95.0|-0.119|0.127||P-value is for change at 52 weeks.|ANCOVA|||||0.127|-0.119|0.948
82397910|NCT01421147|164506558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.737|TWO_SIDED|95.0|-0.099|0.14||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||0.140|-0.099|0.737
82397911|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18||||0.489|TWO_SIDED|95.0|-0.33|0.69||P-value is for Baseline-AM Pre-Meal.|ANCOVA|||||0.69|-0.33|0.489
82397912|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.066|TWO_SIDED|95.0|-1.0|0.03||P-value is for Baseline-AM 2 hrs PP.|ANCOVA|||||0.03|-1.00|0.066
82397913|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28||||0.209|TWO_SIDED|95.0|-0.71|0.16||P-value is for Baseline-MD Pre-Meal.|ANCOVA|||||0.16|-0.71|0.209
82397914|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31||||0.232|TWO_SIDED|95.0|-0.2|0.82||P-value is for Baseline-MD 2 hrs PP.|ANCOVA|||||0.82|-0.20|0.232
82397915|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.856|TWO_SIDED|95.0|-0.49|0.58||P-value is for Baseline-EV Pre-Meal.|ANCOVA|||||0.58|-0.49|0.856
82397916|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11||||0.693|TWO_SIDED|95.0|-0.66|0.44||P-value is for Baseline-Bed Time.|ANCOVA|||||0.44|-0.66|0.693
82397917|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.7|TWO_SIDED|95.0|-0.61|0.41||P-value is for Baseline-0300 hrs.|ANCOVA|||||0.41|-0.61|0.700
82397918|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.399|TWO_SIDED|95.0|-0.23|0.58||P-value is for Endpoint, up to 24 wk-AM Pre-Meal.|ANCOVA|||||0.58|-0.23|0.399
82397919|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.248|TWO_SIDED|95.0|-0.18|0.68||P-value is for Endpoint, up to 24 wk-AM 2 hrs PP.|ANCOVA|||||0.68|-0.18|0.248
82397920|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.883|TWO_SIDED|95.0|-0.44|0.38||P-value is for Endpoint, up to 24 wk-MD Pre-Meal.|ANCOVA|||||0.38|-0.44|0.883
82397921|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.687|TWO_SIDED|95.0|-0.34|0.52||P-value is for Endpoint, up to 24 wk-MD 2 hrs PP.|ANCOVA|||||0.52|-0.34|0.687
82644993|NCT04604496|165005335|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|334.21|||||TWO_SIDED|90.0|205.7|543.0||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||543.00|205.70|
82445073|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.8558|TWO_SIDED|95.0|0.94|1.23|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.230|0.940|0.8558
82644994|NCT04604496|165005336|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|122.7|||||TWO_SIDED|90.0|61.33|245.49||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||245.49|61.33|
82397922|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.364|TWO_SIDED|95.0|-0.24|0.65||P-value is for Endpoint, up to 24 wk-EV Pre-Meal.|ANCOVA|||||0.65|-0.24|0.364
82397923|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.03|TWO_SIDED|95.0|-0.95|-0.05||P-value is for Endpoint, up to 24 wk- Bed Time.|ANCOVA|||||-0.05|-0.95|0.030
82397924|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45||||0.033|TWO_SIDED|95.0|-0.86|-0.04||P-value is for Endpoint, up to 24 wk-0300 hrs.|ANCOVA|||||-0.04|-0.86|0.033
82397925|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.23|TWO_SIDED|95.0|-0.68|0.16||P-value is for Endpoint, up to 52 wk-AM Pre-Meal.|ANCOVA|||||0.16|-0.68|0.230
82397926|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.148|TWO_SIDED|95.0|-0.76|0.11||P-value is for Endpoint, up to 52 wk-AM 2 hrs PP.|ANCOVA|||||0.11|-0.76|0.148
82397927|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.866|TWO_SIDED|95.0|-0.43|0.36||P-value is for Endpoint, up to 52 wk-MD Pre-Meal.|ANCOVA|||||0.36|-0.43|0.866
82397928|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.545|TWO_SIDED|95.0|-0.56|0.3||P-value is for Endpoint, up to 52 wk-MD 2 hrs PP.|ANCOVA|||||0.30|-0.56|0.545
82397929|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.955|TWO_SIDED|95.0|-0.44|0.42||P-value is for Endpoint, up to 52 wk-EV Pre-Meal.|ANCOVA|||||0.42|-0.44|0.955
82397930|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.031|TWO_SIDED|95.0|-0.92|-0.04||P-value is for Endpoint, up to 52 wk-Bed Time.|ANCOVA|||||-0.04|-0.92|0.031
82397931|NCT01421147|164506559|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.355|TWO_SIDED|95.0|-0.65|0.23||P-vale is for Endpoint, up to 52 wk-0300 hrs.|ANCOVA|||||0.23|-0.65|0.355
82397932|NCT01421147|164506560|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.32|TWO_SIDED|95.0|-0.52|0.17||P-value is for Baseline.|ANCOVA|||||0.17|-0.52|0.320
82397933|NCT01421147|164506560|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.781|TWO_SIDED|95.0|-0.33|0.25||P-value is for Endpoint, up to 24 weeks.|ANCOVA|||||0.25|-0.33|0.781
82397934|NCT01421147|164506560|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.06|TWO_SIDED|95.0|-0.53|0.01||P-value is for Endpoint, up to 52 weeks.|ANCOVA|||||0.01|-0.53|0.060
82397935|NCT01421147|164506561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.823|TWO_SIDED|95.0|-0.23|0.29||P-value is for change at 6 weeks.|ANCOVA|||||0.29|-0.23|0.823
82397936|NCT01421147|164506561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.541|TWO_SIDED|95.0|-0.25|0.47||P-value is for change at 12 weeks.|ANCOVA|||||0.47|-0.25|0.541
82397937|NCT01421147|164506561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.435|TWO_SIDED|95.0|-0.25|0.59||P-value is for change at 18 weeks.|ANCOVA|||||0.59|-0.25|0.435
82397938|NCT01421147|164506561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.32|TWO_SIDED|95.0|-0.23|0.71||P-value is for change at Endpoint, up to 24 weeks.|ANCOVA|||||0.71|-0.23|0.320
82397939|NCT01421147|164506561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.253|TWO_SIDED|95.0|-0.25|0.93||P-value is for change at Endpoint, up to 52 weeks.|ANCOVA|||||0.93|-0.25|0.253
82397940|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|0.64||||0.401|TWO_SIDED|95.0|-0.86|2.15||P-value is for Baseline-Behavior TS.|ANCOVA|||||2.15|-0.86|0.401
82397941|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.778|TWO_SIDED|95.0|-1.16|1.55||P-value is for 24 weeks-Behavior TS|ANCOVA|||||1.55|-1.16|0.778
82397942|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.804|TWO_SIDED|95.0|-1.12|1.45||P-value is for Endpoint, up to 52 weeks-Behavior TS.|ANCOVA|||||1.45|-1.12|0.804
82397943|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21||||0.304||95.0|-1.1|3.51||P-value is for Baseline-Worry TS.|ANCOVA|||||3.51|-1.10|0.304
82397944|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|1.12||||0.323|TWO_SIDED|95.0|-1.1|3.34||P-value is for 24 weeks-Worry TS.|ANCOVA|||||3.34|-1.10|0.323
82397945|NCT01421147|164506562|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.824||95.0|-1.92|2.41||P-value is for Endpoint, up to 52 weeks-Worry TS.|ANCOVA|||||2.41|-1.92|0.824
82577067|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.099||0.186|TWO_SIDED|95.0|-0.33|0.06|||MMRM|||Suicide, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.33|0.1860
82644995|NCT04604496|165005336|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|282.73|||||TWO_SIDED|90.0|141.32|565.66||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||565.66|141.32|
82644996|NCT04604496|165005336|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|640.78|||||TWO_SIDED|90.0|320.27|1282.0||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||1282.00|320.27|
82397946|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.77||||0.681|TWO_SIDED|95.0|-4.42|2.89||P-value is for IR-Baseline.|ANCOVA|||||2.89|-4.42|0.681
82644997|NCT04604496|165005337|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|122.89|||||TWO_SIDED|90.0|61.51|245.51||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||245.51|61.51|
82644998|NCT04604496|165005337|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|283.88|||||TWO_SIDED|90.0|142.1|567.13||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||567.13|142.10|
82397947|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.56||||0.744|TWO_SIDED|95.0|-2.79|3.9||P-value is for IR-24 weeks.|ANCOVA|||||3.90|-2.79|0.744
82397948|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.94||||0.582|TWO_SIDED|95.0|-4.29|2.41||P-value is for IR-Endpoint, up to 52 weeks.|ANCOVA|||||2.41|-4.29|0.582
82397949|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82||||0.694|TWO_SIDED|95.0|-3.26|4.89||P-value is for LF-Baseline.|ANCOVA|||||4.89|-3.26|0.694
82397950|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.84||||0.673|TWO_SIDED|95.0|-3.08|4.77||P-value is for LF-24 weeks.|ANCOVA|||||4.77|-3.08|0.673
82397951|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91||||0.645|TWO_SIDED|95.0|-4.79|2.97||P-value is for LF-Endpoint, up to 52 weeks.|ANCOVA|||||2.97|-4.79|0.645
82644999|NCT04604496|165005337|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|636.32|||||TWO_SIDED|90.0|318.51|1271.24||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||1271.24|318.51|
82645000|NCT04604496|165005338|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|85.19|||||TWO_SIDED|90.0|63.6|114.1||||||Test: the mild hepatic impairment group; Reference: the without hepatic impairment group||114.10|63.60|
82397952|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.961|TWO_SIDED|95.0|-3.62|3.81||P-value is for GC-Baseline.|ANCOVA|||||3.81|-3.62|0.961
82397953|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25||||0.463|TWO_SIDED|95.0|-2.1|4.61||P-value is for GC-24 weeks.|ANCOVA|||||4.61|-2.10|0.463
82397954|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.91||||0.609|TWO_SIDED|95.0|-2.59|4.41||P-value is for GC-Endpoint, up to 52 weeks.|ANCOVA|||||4.41|-2.59|0.609
82397955|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61||||0.708|TWO_SIDED|95.0|-3.81|2.59||P-value is for HC-Baseline.|ANCOVA|||||2.59|-3.81|0.708
82397956|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03||||0.51|TWO_SIDED|95.0|-4.09|2.03||P-value is for HC-24 weeks.|ANCOVA|||||2.03|-4.09|0.510
82397957|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26||||0.422|TWO_SIDED|95.0|-4.34|1.82||P-value is for HC-Endpoint, up to 52 weeks.|ANCOVA|||||1.82|-4.34|0.422
82397958|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.53||||0.367|TWO_SIDED|95.0|-4.85|1.8||P-value is for IDD-Baseline.|ANCOVA|||||1.80|-4.85|0.367
82397959|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41||||0.786|TWO_SIDED|95.0|-2.54|3.35||P-value is for IDD-24 weeks.|ANCOVA|||||3.35|-2.54|0.786
82397960|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.845|TWO_SIDED|95.0|-3.16|2.59||P-value is for IDD-Endpoint, up to 52 weeks.|ANCOVA|||||2.59|-3.16|0.845
82397961|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59||||0.676|TWO_SIDED|95.0|-3.36|2.18||P-value is for ITSQ Total-Baseline.|ANCOVA|||||2.18|-3.36|0.676
82397962|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.862|TWO_SIDED|95.0|-2.33|2.78||P-value is for ITSQ Total-24 weeks.|ANCOVA|||||2.78|-2.33|0.862
82397963|NCT01421147|164506563|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.685|TWO_SIDED|95.0|-3.15|2.07||P-value is for ITSQ Total-Endpoint, up to 52 weeks.|ANCOVA|||||2.07|-3.15|0.685
82397964|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.014||||0.235|TWO_SIDED|95.0|-0.009|0.036||P-value is for Endpoint, up to 24 wk-Basal Insulin.|ANCOVA|||||0.036|-0.009|0.235
82397965|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.006||||0.726|TWO_SIDED|95.0|-0.026|0.038||P-value is for Endpoint, up to 24 wk-Bolus Insulin.|ANCOVA|||||0.038|-0.026|0.726
82397966|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.019||||0.377|TWO_SIDED|95.0|-0.023|0.062||P-value is for Endpoint, up to 24 wk-Total Insulin.|ANCOVA|||||0.062|-0.023|0.377
82397967|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.018||||0.159|TWO_SIDED|95.0|-0.007|0.042||P-value is for Endpoint, up to 52 wk-Basal Insulin.|ANCOVA|||||0.042|-0.007|0.159
82397968|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.001||||0.957|TWO_SIDED|95.0|-0.034|0.032||P-value is for Endpoint, up to 52 wk-Bolus Insulin.|ANCOVA|||||0.032|-0.034|0.957
82397969|NCT01421147|164506564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.017||||0.45|TWO_SIDED|95.0|-0.028|0.062||P-value is for Endpoint, up to 52 wk-Total Insulin.|ANCOVA|||||0.062|-0.028|0.450
82372654|NCT00593736|164451788|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.214
82372655|NCT00593736|164451788|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.055
82372656|NCT00593736|164451789|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.589
82372657|NCT00593736|164451789|SUPERIORITY_OR_OTHER|||||||0.156||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.156
82372658|NCT00593736|164451789|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||Statistical significance was determined at the 0.05 level.|ANCOVA|LS means were estimated using an ANCOVA model with treatment and pooled center as class effects and baseline value as a covariate.||The comparison between the 2 treatment groups was made using the ANCOVA model.||||0.041
82372659|NCT01853930|164451794|SUPERIORITY|The purpose of the superiority test is to show if laboratory based training is superior to an independent home-based training option.||||||0.876|||||||t-test, 2 sided|t= -0.157 df= 30||||||0.876
82372660|NCT00110136|164451795|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_DEVIATION|2.02||0.2629|TWO_SIDED|95.0|-2.36|0.74||Paired t-test; no adjustments for multiple comparisons|paired t-test||The difference is post minus pre so negative values represents fewer hot flashes after treatment.|Analysis of the change in hot flash frequency from baseline to four weeks; null hypothesis is no change.||0.74|-2.36|0.2629
82372661|NCT00110136|164451796|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.37|STANDARD_DEVIATION|7.91||0.1365|TWO_SIDED|95.0|-10.45|1.72||Paired t-test; unadjusted for multiple comparisons.|paired t-test||Difference in hot flash score is post minus pre so a negative value represents a decrease in the frequency and/or severity of the hot flashes.|Assessment of the change in the hot flash score over time||1.72|-10.45|0.1365
82372662|NCT00110136|164451798|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_DEVIATION|7.0||0.832|TWO_SIDED|95.0|-4.84|5.92||Paired t-test; unadjusted for multiple comparisons.|paired t-test||This is the change in MCS from baseline to four weeks (post minus pre) so values greater than zero reflect improvement in QOL.|Assess the change in MCS from baseline to four weeks in patients receiving St. John's wort.||5.92|-4.84|0.8320
82372663|NCT00110136|164451799|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|7.43||0.9995|TWO_SIDED|95.0|-5.71|5.71||Paired t-test on the change in PCS from baseline to four weeks; unadjusted for multiple comparisons.|paired t-test||This is the change in PCS from baseline to four weeks (post minus pre), so positive numbers represent improvement in QOL.|Assess the change in PCS from baseline to four weeks; null hypothesis is no change.||5.71|-5.71|0.9995
82372664|NCT00110136|164451800|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.35|STANDARD_DEVIATION|7.12||0.1042|TWO_SIDED|95.0|-1.12|9.822||Paired t-test; unadjusted for multiple comparisons.|paired t-test||This is the change in mood from baseline to four weeks (post minus pre). Mood is scored so that higher numbers represent better mood so positive changes represent an improvement in mood.|Assess the change in mood from baseline to four weeks. Null hypothesis is no change.||9.822|-1.12|0.1042
82372665|NCT00265395|164451833|SUPERIORITY_OR_OTHER||SVR Rate Difference|-4.9||||0.6445||95.0|-20.4|10.6|||Asymptotic Z-test|||||10.6|-20.4|0.6445
82372666|NCT04540406|164451839|OTHER|We employed covariate-adjusted Principal Coordinates Analysis and a subject-stratified PERMANOVA test to assess the overall gut microbiota structural change. These tests are generally neither superiority, non-inferiority, nor equivalence tests. Instead, they are used to detect and evaluate overall differences in the microbial community structure between groups or conditions.||||||||||||||||PCoA (Principal Coordinates Analysis) + PERMANOVA (Permutational Multivariate Analysis of Variance) are exploratory multivariate techniques commonly used in microbiome research to assess and visualize differences in community composition. The null hypothesis for PERMANOVA is that there are no differences in the centroids (multivariate means) of the groups being compared. The microbial communities in different groups or conditions are not significantly different from each other.|To assess the overall structural changes in gut microbiota, we employed covariate-adjusted Principal Coordinates Analysis (PCoA) and a subject-stratified PERMANOVA test. PCoA, an exploratory multivariate technique, helps visualize and interpret patterns in complex microbiome data by reducing dimensionality, with the first principal coordinate (PC1) capturing the largest variation among samples. PERMANOVA, which does not rely on standard parametric assumptions, was used to determine if there are statistically significant differences in the overall composition of microbial communities between groups based on a chosen distance metric. Our analysis aimed to explore whether microbial community compositions differed significantly between Day 0 and Day 28 within the Treatment group, accounting for inter-individual variability. Similarly, we investigated if such differences existed over the same time points in the Control group. The unit of measure was distance metrics.|||
82397970|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|1.724||||0.096|TWO_SIDED|95.0|-0.308|3.755||P-value is for Endpoint, up to 24 wk-Basal Insulin.|ANCOVA|||||3.755|-0.308|0.096
82372667|NCT01955837|164451852|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.035|TWO_SIDED|95.0|0.62|0.99|||Log Rank|||||0.99|0.62|0.035
82372668|NCT01955837|164451853|SUPERIORITY||Hazard Ratio (HR)|0.43|||<|0.001|TWO_SIDED|95.0|0.34|0.54|||Log Rank|||||0.54|0.34|<0.001
82397971|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|1.267||||0.374|TWO_SIDED|95.0|-1.531|4.065||P-value is for Endpoint, up to 24 wk-Bolus Insulin.|ANCOVA|||||4.065|-1.531|0.374
82397972|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|2.964||||0.151|TWO_SIDED|95.0|-1.081|7.01||P-value is for Endpoint, up to 24 wk-Total Insulin.|ANCOVA|||||7.010|-1.081|0.151
82397973|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|2.059||||0.072|TWO_SIDED|95.0|-0.187|4.305||P-value is for Endpoint, up to 52 wk-Basal Insulin.|ANCOVA|||||4.305|-0.187|0.072
82529836|NCT01065350|164756123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.12|||<|0.001|TWO_SIDED|95.0|1.98|31.64||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 5 minutes post induction was compared between treatment groups.||31.64|1.98|<0.001
82645001|NCT04604496|165005338|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|96.37|||||TWO_SIDED|90.0|71.95|129.07||||||Test: the moderate hepatic impairment Group; Reference: the without hepatic impairment group||129.07|71.95|
82645002|NCT04604496|165005338|OTHER|The adjusted ratio and 90% confidence interval from the analysis of variance (ANOVA) model were expressed as percentages.|Ratio of adjusted geometric means|135.2|||||TWO_SIDED|90.0|100.94|181.1||||||Test: the severe hepatic impairment group; Reference: the without hepatic impairment group||181.10|100.94|
82372669|NCT01955837|164451854|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.37|0.58|||Log Rank|||||0.58|0.37|<0.001
82372670|NCT01955837|164451855|SUPERIORITY||Difference in ORR|1.1||||0.554|TWO_SIDED|95.0|-0.1|2.4|||Fisher Exact|||||2.4|-0.1|0.554
82372671|NCT01955837|164451856|SUPERIORITY||Difference in DCR|29.4|||<|0.001|TWO_SIDED|95.0|20.9|38.0|||Fisher Exact|||||38.0|20.9|<0.001
82372672|NCT01955837|164451857|SUPERIORITY||Odds Ratio (OR)|29.4|||<|0.001|TWO_SIDED|95.0|20.9|38.0|||Fisher Exact|||||38.0|20.9|<0.001
82372673|NCT01955837|164451860|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.083|TWO_SIDED|95.0|0.57|1.04|||Log Rank|||||1.04|0.57|0.083
82372674|NCT01955837|164451861|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.228|TWO_SIDED|95.0|0.57|1.2|||Log Rank|||||1.20|0.57|0.228
82372675|NCT01955837|164451862|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.32|0.59||||||||0.59|0.32|
82372676|NCT01955837|164451863|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.31|0.65||||||||0.65|0.31|
82372677|NCT00552578|164451864|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17||||0.523||95.0|0.0098|2.8215|||Fisher Exact|||Intent to treat||2.8215|0.0098|0.523
82372678|NCT00552578|164451866|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||No adjustment|Fisher Exact|||Fisher exact test was used and tested the hypothesis that neither group would be more likely to complete the study protocol.||||0.015
82372679|NCT02563106|164451868|OTHER|The analysis of the primary endpoint was based on the mITT analysis set. Per-protocol and worse case analyses were performed as sensitivity analyses.The P-value was based on a one-sided z-test for the comparison of the treatment difference between the SYN-004 group and the Placebo group.|Relative Risk Reduction (%)|71.4||||0.045|TWO_SIDED|95.0|-35.9|94.0||Study was designed to provide 80% power to detect treatment effect with one-sided alpha = 0.05 on the primary endpoint. Based on the pre-specified z-test the one-sided P=0.045.|z-test|1-sided P=0.045.|Relative Risk Reduction in SYN-004 group compared to Placebo group.|The Modified Intent-to-Treat (mITT) analysis set included randomized subjects who received at least 1 dose of study drug. Number of subjects with CDI, imputing early termination without CDI as not being treatment failures.||94.0|-35.9|0.045
82372680|NCT05084716|164451919|SUPERIORITY||Odds Ratio (OR)|5.03|||<|0.0001|TWO_SIDED|95.0|2.08|12.13|||Regression, Logistic|||||12.13|2.08|<.0001
82372681|NCT05084716|164451919|SUPERIORITY||Odds Ratio (OR)|7.6|||<|0.0001|TWO_SIDED|95.0|3.48|16.59|||Regression, Logistic|||||16.59|3.48|<.0001
82372682|NCT05084716|164451920|SUPERIORITY||Odds Ratio (OR)|12.88|||<|0.0001|TWO_SIDED|95.0|5.96|27.85|||Regression, Logistic|||||27.85|5.96|<.0001
82372683|NCT05084716|164451920|SUPERIORITY||Odds Ratio (OR)|1.78||||0.001|TWO_SIDED|95.0|1.26|2.52|||Regression, Logistic|||||2.52|1.26|.001
82372684|NCT05084716|164451921|SUPERIORITY||Cohen's d for difference in proportions|1.28|||<|0.0001|TWO_SIDED|||||Odds Ratio is undefined and p-value from Fisher's Exact test is reported because 0% of PrEP users had ≥80% medication coverage pre-intervention.|Fisher Exact|||||||<.0001
82372685|NCT05084716|164451921|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.34|||Regression, Logistic|||||0.34|0.16|<.0001
82372686|NCT01517373|164451925|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.145||0.4468|TWO_SIDED|80.0|-0.21|0.17||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80 percent (%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment,duration of type 2 diabetes mellitus (T2DM),time and treatment-by-time interaction as fixed effects,baseline as the covariate,time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||0.17|-0.21|0.4468
82372687|NCT01517373|164451925|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.146||0.0218|TWO_SIDED|80.0|-0.48|-0.11||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.11|-0.48|0.0218
82372688|NCT01517373|164451925|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.144||0.0006|TWO_SIDED|80.0|-0.65|-0.28||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.28|-0.65|0.0006
82529837|NCT01065350|164756123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.02|TWO_SIDED|95.0|1.07|7.65||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 10 minutes post induction was compared between treatment groups.||7.65|1.07|0.02
82397974|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|0.702||||0.617|TWO_SIDED|95.0|-2.058|3.462||P-value is for Endpoint, up to 52 wk-Bolus Insulin.|ANCOVA|||||3.462|-2.058|0.617
82529838|NCT01065350|164756123|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.33|TWO_SIDED|95.0|0.51|5.97||A p value of \< 0.05 was considered to indicate statistical significance.|Chi-squared|||Mean Arterial Pressure (MAP) from baseline to 30 minutes post induction was compared between treatment groups.||5.97|0.51|0.33
82372689|NCT01517373|164451925|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.144|<|0.0001|TWO_SIDED|80.0|-1.02|-0.65||p-value was 1-sided.|t-test, 1 sided|No adjustments were made for multiple comparisons among treatment groups.||Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant. Null hypothesis stated there was no difference between PF 04937319 and placebo, alternative hypothesis stated PF 04937319 was superior to placebo.||-0.65|-1.02|<0.0001
82529839|NCT01065350|164756124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.19|TWO_SIDED|95.0|-0.1|0.5|||t-test, 2 sided|||Average change in Cardiac Output (CO) from baseline to 5 minutes post induction was compared between treatment groups.||0.5|-0.1|0.19
82529840|NCT01065350|164756124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.6|TWO_SIDED|95.0|-0.3|0.5|||t-test, 2 sided|||Average change in Cardiac Output (CO) from baseline to 10 minutes post induction was compared between treatment groups.||0.5|-0.3|0.6
82372690|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.087||0.6112|TWO_SIDED|80.0|-0.09|0.14||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.14|-0.09|0.6112
82372691|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.088||0.055|TWO_SIDED|80.0|-0.25|-0.03||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.03|-0.25|0.0550
82397975|NCT01421147|164506565|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8||||0.188|TWO_SIDED|95.0|-1.37|6.971||P-value is for Endpoint, up to 52 wk-Total Insulin.|ANCOVA|||||6.971|-1.370|0.188
82529841|NCT01065350|164756125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.26|TWO_SIDED|95.0|-0.1|0.3|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 5 minutes post induction was compared between treatment groups.||0.3|-0.1|0.26
82529842|NCT01065350|164756125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.71|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 10 minutes post induction was compared between treatment groups.||0.3|-0.2|0.71
82529843|NCT01065350|164756126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.61|TWO_SIDED|95.0|-2.9|1.7|||t-test, 2 sided|||Average heart rate from baseline to 5 minutes post induction was compared between treatment groups.||1.7|-2.9|0.61
82529844|NCT01065350|164756126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.22|TWO_SIDED|95.0|-4.8|1.1|||t-test, 2 sided|||Average heart rate from baseline to 10 minutes post induction was compared between treatment groups.||1.1|-4.8|0.22
82645003|NCT02756078|165005392|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Posterior Mean Difference|5.0|STANDARD_DEVIATION|1.796|||TWO_SIDED|98.0|1.3|8.73|||Bayesian hierarchical model|A 98% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as Test (senofilcon A) minus Control (samfilcon A)|||8.73|1.30|
82529845|NCT01065350|164756127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.7|||<|0.001|TWO_SIDED|95.0|7.5|20.0|||t-test, 2 sided|||Average change in Systolic Blood Pressure from baseline to 5 minutes post induction was compared between treatment groups.||20.0|7.5|<0.001
82372692|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.086||0.0032|TWO_SIDED|80.0|-0.35|-0.13||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80%CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.13|-0.35|0.0032
82397976|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.015||||||P-value is for HbA1c- at Baseline \<7.0 %.|Fisher Exact|||||||0.015
82397977|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.606||||||P-value is for HbA1c- at Baseline ≤6.5%.|Fisher Exact|||||||0.606
82397978|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.012||||||P-value is for HbA1c- at 6 weeks \<7.0%.|Fisher Exact|||||||0.012
82397979|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.053||||||P-value is for HbA1c- at 6 weeks ≤6.5%.|Fisher Exact|||||||0.053
82529846|NCT01065350|164756127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8||||0.017|TWO_SIDED|95.0|0.2|9.5|||t-test, 2 sided|||Average change in Systolic Blood Pressure from baseline to 10 minutes post induction was compared between treatment groups.||9.5|0.2|0.017
82529847|NCT01065350|164756128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||<|0.01|TWO_SIDED|95.0|2.7|11.5|||t-test, 2 sided|||Average change in Diastolic Blood Pressure from baseline to 5 minutes post induction was compared between treatment groups.||11.5|2.7|<0.01
82529848|NCT01065350|164756128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.042|TWO_SIDED|95.0|0.2|9.5|||t-test, 2 sided|||Average change in Diastolic Blood Pressure from baseline to 10 minutes post induction was compared between treatment groups.||9.5|0.2|0.042
82529849|NCT01065350|164756129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|||<|0.001|TWO_SIDED|95.0|4.8|13.9|||t-test, 2 sided|||Average change in Mean Arterial Pressure (MAP) from baseline to 5 minutes post induction was compared between treatment groups.||13.9|4.8|<0.001
82529850|NCT01065350|164756129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.013|TWO_SIDED|95.0|1.4|11.3|||t-test, 2 sided|||Average change in Mean Arterial Pressure from baseline to 10 minutes post induction was compared between treatment groups.||11.3|1.4|0.013
82529851|NCT01065350|164756130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|113.6|||<|0.01|TWO_SIDED|95.0|28.1|199.1|||t-test, 2 sided|||Average change in Total Peripheral Resistance (TPR) from baseline to 5 minutes post induction was compared between treatment groups.||199.1|28.1|<0.01
82372693|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.086|<|0.0001|TWO_SIDED|80.0|-0.55|-0.33||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.33|-0.55|<0.0001
82529852|NCT01065350|164756130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.8||||0.12|TWO_SIDED|95.0|-21.7|195.3|||t-test, 2 sided|||Average change in Total Peripheral Resistance (TPR) from baseline to 10 minutes post induction was compared between treatment groups.||195.3|-21.7|0.12
82372694|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.101||0.6146|TWO_SIDED|80.0|-0.1|0.16||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.16|-0.10|0.6146
82372695|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.2606|TWO_SIDED|80.0|-0.19|0.06||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.06|-0.19|0.2606
82372696|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.099||0.0006|TWO_SIDED|80.0|-0.45|-0.2||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.20|-0.45|0.0006
82372697|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|80.0|-0.7|-0.44||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.44|-0.70|<0.0001
82372698|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.118||0.6618|TWO_SIDED|80.0|-0.1|0.2||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.20|-0.10|0.6618
82372699|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.119||0.0878|TWO_SIDED|80.0|-0.31|-0.01||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.01|-0.31|0.0878
82397980|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.398||||||P-value is for HbA1c- at 12 weeks \<7.0%.|Fisher Exact|||||||0.398
82445074|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.8374|TWO_SIDED|95.0|0.932|1.224|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hour||1.224|0.932|0.8374
82529853|NCT01065350|164756131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|182.6||||0.017|TWO_SIDED|95.0|33.8|331.3|||t-test, 2 sided|||Average change in Total Peripheral Resistance Index (TPRI) from baseline to 5 minutes post induction was compared between treatment groups.||331.3|33.8|0.017
82647987|NCT00386100|165011351|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.0||||0.7065|TWO_SIDED|95.0|-15.3|27.6||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||27.6|-15.3|0.7065
82372700|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.117||0.0022|TWO_SIDED|80.0|-0.49|-0.19||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.19|-0.49|0.0022
82372701|NCT01517373|164451926|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.117|<|0.0001|TWO_SIDED|80.0|-0.81|-0.51||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.51|-0.81|<0.0001
82372702|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|5.222||0.3446|TWO_SIDED|80.0|-8.8|4.62||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.62|-8.80|0.3446
82397981|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for HbA1c- at 12 weeks ≤6.5%.|Fisher Exact|||||||0.170
82397982|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.926||||||P-value is for HbA1c- at 24 weeks \<7.0%.|Fisher Exact|||||||0.926
82397983|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.824||||||P-value is for HbA1c- at 24 weeks ≤6.5%.|Fisher Exact|||||||0.824
82397984|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.385||||||P-value is for HbA1c- at 36 weeks \<7.0%.|Fisher Exact|||||||0.385
82397985|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.408||||||P-value is for HbA1c- at 36 weeks ≤6.5%.|Fisher Exact|||||||0.408
82397986|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.551||||||P-value is for HbA1c- at 52 weeks \<7.0%.|Fisher Exact|||||||0.551
82397987|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.9||||||P-value is for HbA1c- at 52 weeks ≤6.5%.|Fisher Exact|||||||0.900
82529854|NCT01065350|164756131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|128.7||||0.17|TWO_SIDED|95.0|-58.1|315.5|||t-test, 2 sided|||Average change in Total Peripheral Resistance Index (TPRI) from baseline to 10 minutes post induction was compared between treatment groups.||315.5|-58.1|0.17
82529855|NCT01065350|164756132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.029|TWO_SIDED|95.0|0.5|8.4|||t-test, 2 sided|||Average change in Stroke Volume (SV) from baseline to 5 minutes post induction was compared between treatment groups.||8.4|0.5|0.029
82397988|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.646||||||P-value is for HbA1c- Endpoint, up to 24 weeks \<7.0%.|Fisher Exact|||||||0.646
82397989|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.661||||||P-value is for HbA1c- Endpoint, up to 24 weeks ≤6.5%.|Fisher Exact|||||||0.661
82397990|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.209||||||P-value is for HbA1c- Endpoint, up to 52 weeks \<7.0%.|Fisher Exact|||||||0.209
82397991|NCT01421147|164506566|SUPERIORITY_OR_OTHER|||||||0.54||||||P-value is for HbA1c- Endpoint, up to 52 weeks ≤6.5%.|Fisher Exact|||||||0.540
82397992|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.703||||||P-value is for Total Events with BG ≤70 mg/dL,if available-24 wk.|Fisher Exact|||||||0.703
82397993|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.495||||||P-value is for Total Events with BG ≤70 mg/dL,if available-52-wk.|Fisher Exact|||||||0.495
82397994|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.174||||||P-value is for Severe Events-24 wk.|Fisher Exact|||||||0.174
82397995|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.828||||||P-value is for Severe Events-52 wk.|Fisher Exact|||||||0.828
82645004|NCT02756078|165005393|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE score.|Posterior Mean Difference|13.7|STANDARD_DEVIATION|1.701|||TWO_SIDED|95.0|10.34|17.05|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as Test (senofilcon A) minus Control (samfilcon A)|||17.05|10.34|
82645005|NCT02756078|165005394|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.37|STANDARD_DEVIATION|0.313|||TWO_SIDED|95.0|-1.0|0.25|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|||Mean difference was calculated as senofilcon A minus samfilcon A.|0.25|-1.00|
82397996|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.661||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-24 wk.|Fisher Exact|||||||0.661
82397997|NCT01421147|164506567|SUPERIORITY_OR_OTHER|||||||0.606||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-52 wk.|Fisher Exact|||||||0.606
82397998|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.717||||||P-value is for Total Events with BG ≤70 mg/dL, if available-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.717
82397999|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.163||||||P-value is for Severe Events-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.163
82398000|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.669||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-24 wk.|Wilcoxon (Mann-Whitney)|||||||0.669
82398001|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.738||||||P-value is for Total Events with BG ≤70 mg/dL, if available-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.738
82398002|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.826||||||P-value is for Severe Events-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.826
82398003|NCT01421147|164506568|SUPERIORITY_OR_OTHER|||||||0.25||||||P-value is for Nocturnal Events with BG ≤70 mg/dL-52 wk.|Wilcoxon (Mann-Whitney)|||||||0.250
82398004|NCT00904917|164506585|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||||||.015
82398005|NCT00904917|164506587|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Linear|||||||.037
82398006|NCT00762034|164506589|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.94896|TWO_SIDED|95.0|0.86|1.16|||Log Rank|||||1.16|0.86|0.94896
82398007|NCT00762034|164506590|SUPERIORITY_OR_OTHER|||||||0.72997||95.0|||||Fisher Exact|||||||0.72997
82398008|NCT00762034|164506591|SUPERIORITY_OR_OTHER|||||||0.20892|||||||Fisher Exact|||||||0.20892
82398009|NCT00762034|164506592|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.01206|TWO_SIDED|95.0|0.71|0.96|||Log Rank|||||0.96|0.71|0.01206
82398010|NCT00762034|164506593|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.006|TWO_SIDED|95.0|0.67|0.94|||Log Rank|||||0.94|0.67|0.006
82398011|NCT00762034|164506598|SUPERIORITY_OR_OTHER|||||||0.667||95.0||||Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.667
82398012|NCT00762034|164506599|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value for FACT-L Total; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.815
82398013|NCT00762034|164506599|SUPERIORITY_OR_OTHER|||||||0.978||95.0||||p-value for FACT-L TOI; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||0.978
82398014|NCT00762034|164506600|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for FACT/GOG-Ntx Total; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82398015|NCT00762034|164506600|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for FACT/GOG-Ntx TOI; Mixed Model Analysis has treatment, baseline, time point, and treatment by timepoint interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82398016|NCT00762034|164506614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.338|0.681||p-value was not adjusted for multiple comparisons.|Regression, Cox|||||0.681|0.338|<0.001
82398017|NCT00762034|164506615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.673|TWO_SIDED|95.0|0.654|1.316||p-value is for TS Cytoplasm Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.316|0.654|0.673
82398018|NCT00762034|164506615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.521||||0.287|TWO_SIDED|95.0|0.157|1.729||p-value is for TS Cytoplasm Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.729|0.157|0.287
82398019|NCT00762034|164506615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.759||||0.2|TWO_SIDED|95.0|0.498|1.157||p-value is for TS Nucleus Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.157|0.498|0.2
82398020|NCT00762034|164506615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.969||||0.915|TWO_SIDED|95.0|0.54|1.738||p-value is for TS Nucleus Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.738|0.540|0.915
82398021|NCT00762034|164506616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.891|TWO_SIDED|95.0|0.622|1.511||p-value for FR-α Cytoplasm Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.511|0.622|0.891
82372703|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.12|STANDARD_ERROR_OF_MEAN|5.21||0.1204|TWO_SIDED|80.0|-12.81|0.57||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.57|-12.81|0.1204
82372704|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.74|STANDARD_ERROR_OF_MEAN|5.166||0.0041|TWO_SIDED|80.0|-20.37|-7.1||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.10|-20.37|0.0041
82372705|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.34|STANDARD_ERROR_OF_MEAN|5.192|<|0.0001|TWO_SIDED|80.0|-28.01|-14.67||P-value was 1-sided.|t-test, 1 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-14.67|-28.01|<0.0001
82398022|NCT00762034|164506616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.592||||0.06|TWO_SIDED|95.0|0.342|1.023||p-value for FR-α Cytoplasm Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.023|0.342|0.060
82398023|NCT00762034|164506616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.905|TWO_SIDED|95.0|0.49|1.88||p-value for FR-α Membrane Positive (H score \> 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.880|0.490|0.905
82398024|NCT00762034|164506616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.859||||0.455|TWO_SIDED|95.0|0.575|1.281||p-value for FR-α Membrane Negative (H score = 0) comparing treatment arms and was not adjusted for multiple comparisons.|Regression, Cox|||||1.281|0.575|0.455
82398025|NCT02442206|164506617|SUPERIORITY||Mean Difference (Net)|10.27|||<|0.0001|TWO_SIDED|95.0|6.209|14.331|||ANOVA|||||14.331|6.209|<0.0001
82398026|NCT02442206|164506618|SUPERIORITY||Mean Difference (Net)|0.42|||<|0.0001|TWO_SIDED|95.0|0.36|0.49|||ANOVA|||||0.49|0.36|<0.0001
82398027|NCT02442206|164506619|SUPERIORITY||Mean Difference (Net)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.8|||ANOVA|||||0.80|0.55|<0.0001
82445075|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5886|TWO_SIDED|95.0|0.887|1.152|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.152|0.887|0.5886
82445076|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.7532|TWO_SIDED|95.0|0.918|1.18|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.180|0.918|0.7532
82529856|NCT01065350|164756132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.051|TWO_SIDED|95.0|0.0|9.7|||t-test, 2 sided|||Average change in Cardiac Index (CI) from baseline to 10 minutes post induction was compared between treatment groups.||9.7|-0.0|0.051
82529857|NCT01065350|164756133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.027|TWO_SIDED|95.0|0.3|4.7|||t-test, 2 sided|||Average change in Stroke Volume Index (SVI) from baseline to 5 minutes post induction was compared between treatment groups.||4.7|0.3|0.027
82529858|NCT01065350|164756133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.052|TWO_SIDED|95.0|0.0|5.2|||t-test, 2 sided|||Average change in Stroke Volume Index (SVI) from baseline to 10 minutes post induction was compared between treatment groups.||5.2|-0.0|0.052
82398028|NCT02442206|164506620|SUPERIORITY||Mean Difference (Net)|0.446|||<|0.0001|TWO_SIDED|95.0|0.352|0.541|||ANOVA|||||0.541|0.352|<0.0001
82398029|NCT02442206|164506621|SUPERIORITY||Mean Difference (Net)|-0.177||||0.0017|TWO_SIDED|95.0|-0.285|-0.07|||ANOVA|||||-0.070|-0.285|0.0017
82398030|NCT02442206|164506622|SUPERIORITY||Mean Difference (Net)|-0.751|||<|0.0001|TWO_SIDED|95.0|-0.925|-0.577|||ANOVA|||||-0.577|-0.925|<0.0001
82398031|NCT02442206|164506623|SUPERIORITY||Mean Difference (Net)|-1.639|||<|0.0001|TWO_SIDED|95.0|-1.945|-1.332|||ANOVA|||||-1.332|-1.945|<0.0001
82398032|NCT02442206|164506624|SUPERIORITY||Mean Difference (Net)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.761|-0.489|||ANOVA|||||-0.489|-0.761|<0.0001
82398033|NCT02442206|164506625|SUPERIORITY||Mean Difference (Net)|1.209||||0.142|TWO_SIDED|95.0|-0.419|2.836|||ANOVA|||LV EF||2.836|-0.419|0.1420
82398034|NCT02442206|164506625|SUPERIORITY||Mean Difference (Net)|1.131||||0.1732|TWO_SIDED|95.0|-0.512|2.774|||ANOVA|||RV EF||2.774|-0.512|0.1732
82398035|NCT02442206|164506626|SUPERIORITY||Mean Difference (Net)|2.241||||0.0437|TWO_SIDED|95.0|0.066|4.417|||ANOVA|||LV ESV||4.417|0.066|0.0437
82398036|NCT02442206|164506626|SUPERIORITY||Mean Difference (Net)|2.095||||0.1236|TWO_SIDED|95.0|-0.591|4.782|||ANOVA|||RV ESV||4.782|-0.591|0.1236
82398037|NCT02442206|164506627|SUPERIORITY||Mean Difference (Net)|9.357||||0.0002|TWO_SIDED|95.0|4.649|14.065|||ANOVA|||||14.065|4.649|0.0002
82398038|NCT02442206|164506628|SUPERIORITY||Mean Difference (Net)|0.337||||0.0032|TWO_SIDED|95.0|0.118|0.555|||ANOVA|||LVCO||0.555|0.118|0.0032
82398039|NCT02442206|164506628|SUPERIORITY||Mean Difference (Net)|0.281||||0.0182|TWO_SIDED|95.0|0.05|0.512|||ANOVA|||RVCO||0.512|0.050|0.0182
82398040|NCT01031004|164506656|SUPERIORITY_OR_OTHER|||||||0.0466||95.0|||||Fisher Exact|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.0466
82398041|NCT01031004|164506657|SUPERIORITY_OR_OTHER|||||||0.1069||95.0|||||Fisher Exact|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.1069
82398042|NCT01031004|164506658|SUPERIORITY_OR_OTHER|||||||0.4605||95.0|||||Chi-squared|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.4605
82398043|NCT01031004|164506659|SUPERIORITY_OR_OTHER|||||||0.5774||95.0|||||Chi-squared|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.5774
82398044|NCT01031004|164506660|SUPERIORITY_OR_OTHER|||||||0.6403||95.0|||||t-test, 2 sided|||The hypothesis is that narafilcon B will not be statistically different from etafilcon A.||||0.6403
82398045|NCT01031004|164506661|SUPERIORITY_OR_OTHER|||||||0.7217||95.0|||||t-test, 2 sided|||The hypothesis is that narafilcon B is not statistically different from etafilcon A.||||0.7217
82445077|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7108|TWO_SIDED|95.0|0.906|1.179|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.179|0.906|0.7108
82445078|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7445|TWO_SIDED|95.0|0.918|1.19|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.190|0.918|0.7445
82445079|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.3759|TWO_SIDED|95.0|0.863|1.115|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.115|0.863|0.3759
82445080|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.398|TWO_SIDED|95.0|0.859|1.118|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.118|0.859|0.3980
82445081|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3231|TWO_SIDED|95.0|0.849|1.103|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.103|0.849|0.3231
82529859|NCT01065350|164756134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.44|TWO_SIDED|95.0|-1.4|0.6|||t-test, 2 sided|||Average change in Stroke Volume Variation (SVV) from baseline to 5 minutes post induction was compared between treatment groups.||0.6|-1.4|0.44
82529860|NCT01065350|164756134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.37|TWO_SIDED|95.0|-1.6|0.6|||t-test, 2 sided|||Average change in Stroke Volume Variation (SVV) from baseline to 10 minutes post induction was compared between treatment groups.||0.6|-1.6|0.37
82645006|NCT02756078|165005395|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.06|STANDARD_DEVIATION|0.107|||TWO_SIDED|95.0|-0.27|0.16|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A|||0.16|-0.27|
82645007|NCT02756078|165005396|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|0.05|STANDARD_DEVIATION|0.261|||TWO_SIDED|95.0|-0.47|0.57|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A|||0.57|-0.47|
82445082|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.1245|TWO_SIDED|95.0|0.812|1.056|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.056|0.812|0.1245
82445083|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4631|TWO_SIDED|95.0|0.87|1.134|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.134|0.870|0.4631
82445084|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.1026|TWO_SIDED|95.0|0.801|1.047|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.047|0.801|0.1026
82445085|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.97||||0.3152|TWO_SIDED|95.0|0.85|1.101|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.101|0.850|0.3152
82445086|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.0762|TWO_SIDED|95.0|0.803|1.035|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.035|0.803|0.0762
82372706|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.14|STANDARD_ERROR_OF_MEAN|5.191||0.1616|TWO_SIDED|80.0|-11.8|1.53||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.53|-11.80|0.1616
82372707|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.45|STANDARD_ERROR_OF_MEAN|5.219||0.1974|TWO_SIDED|80.0|-11.15|2.26||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.26|-11.15|0.1974
82445087|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.0274||95.0|0.763|1.003|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.003|0.763|0.0274
82372708|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.62|STANDARD_ERROR_OF_MEAN|5.14||0.0122|TWO_SIDED|80.0|-18.22|-5.02||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.02|-18.22|0.0122
82372709|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.79|STANDARD_ERROR_OF_MEAN|5.129|<|0.0001|TWO_SIDED|80.0|-31.37|-18.2||P-value was 1-sided.|t-test, 1 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-18.20|-31.37|<0.0001
82445088|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.3594|TWO_SIDED|95.0|0.853|1.112|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.112|0.853|0.3594
82529861|NCT02875834|164756138|OTHER||Mean Difference (Final Values)|0.904|||<|0.001|TWO_SIDED|95.0|0.876|0.933|||Mixed Models Analysis|||Results derived from a mixed effects model of log-transformed S-K levels. Fixed effects are: treatment group; visit; treatment-by-visit interaction; baseline S-K values (OLP and RTP); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses. Patient is a random effect. p-values given are for differences of LSMEANS. The back-transformation is to the original scale of the S-K measurement.||0.933|0.876|<0.001
82529862|NCT02875834|164756138|OTHER||Mean Difference (Final Values)|0.823|||<|0.001|TWO_SIDED|95.0|0.797|0.85|||Mixed Models Analysis|||||0.850|0.797|<0.001
82645008|NCT02756078|165005397|NON_INFERIORITY|A non-inferiority margin of -2 hour was used.|Posterior mean difference|-0.05|STANDARD_DEVIATION|0.159|||TWO_SIDED|95.0|-0.36|0.26|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Mean difference was calculated as senofilcon A minus samfilcon A.|||0.26|-0.36|
82645009|NCT02756078|165005398|NON_INFERIORITY|A non-inferiority margin of 0.67 was used.|Posterior odds ratio|1.35|STANDARD_DEVIATION|0.203|||TWO_SIDED|95.0|0.99|1.79|||Bayesian multinomial model|A 95% credible interval for the posterior odds ratio was used to demonstrate non-inferiority between the senofilcon A and samfilcon A lenses.|Odds ratio was calculated as senofilcon A over samfilcon A.|||1.79|0.99|
82645010|NCT02268045|165005399|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The RR, with the corresponding 95% CI, was calculated for each treatment arm and compared using Fisher's exact test at a one-sided 0.025 type I error rate. A non-inferiority margin of 13% was assumed with ≥ 80% power to detect treatment differences. Non-inferiority was concluded if the one-sided 95% CI was above the -13% margin set for the study.|Percentage difference|0.7|||||ONE_SIDED|95.0|-13.0||||||For the ITT population||||-13|
82372710|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|5.674||0.3645|TWO_SIDED|80.0|-9.26|5.32||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.32|-9.26|0.3645
82372711|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.93|STANDARD_ERROR_OF_MEAN|5.676||0.3672|TWO_SIDED|80.0|-9.22|5.36||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.36|-9.22|0.3672
82372712|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|5.598||0.0906|TWO_SIDED|80.0|-14.69|-0.31||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.31|-14.69|0.0906
82372713|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.69|STANDARD_ERROR_OF_MEAN|5.624||0.0003|TWO_SIDED|80.0|-26.91|-12.46||P-value was 1-sided.|t-test, 1 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-12.46|-26.91|0.0003
82372714|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.18|STANDARD_ERROR_OF_MEAN|5.534||0.1748|TWO_SIDED|80.0|-12.29|1.93||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.93|-12.29|0.1748
82372715|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.54|STANDARD_ERROR_OF_MEAN|5.566||0.0297|TWO_SIDED|80.0|-17.69|-3.38||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.38|-17.69|0.0297
82372716|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.44|STANDARD_ERROR_OF_MEAN|5.469||0.0118|TWO_SIDED|80.0|-19.47|-5.41||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-5.41|-19.47|0.0118
82445089|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.7027|TWO_SIDED|95.0|0.906|1.197|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.197|0.906|0.7027
82372717|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.0|STANDARD_ERROR_OF_MEAN|5.48|<|0.0001|TWO_SIDED|80.0|-34.04|-19.96||P-value was 1-sided.|t-test, 1 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-19.96|-34.04|<0.0001
82372718|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.03|STANDARD_ERROR_OF_MEAN|6.281||0.1012|TWO_SIDED|80.0|-16.1|0.04||P-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.04|-16.10|0.1012
82645011|NCT02268045|165005399|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The RR, with the corresponding 95% CI, was calculated for each treatment arm and compared using Fisher's exact test at a one-sided 0.025 type I error rate. A non-inferiority margin of 13% was assumed with ≥ 80% power to detect treatment differences. Non-inferiority was concluded if the one-sided 95% CI was above the -13% margin set for the study.|percentage difference|3.0|||||ONE_SIDED|95.0|-13.0||||||For the PP population||||-13|
82372719|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.99|STANDARD_ERROR_OF_MEAN|6.287||0.0409|TWO_SIDED|80.0|-19.07|-2.91|||t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.91|-19.07|0.0409
82372720|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.87|STANDARD_ERROR_OF_MEAN|6.232||0.0089|TWO_SIDED|80.0|-22.88|-6.86|||t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-6.86|-22.88|0.0089
82372721|NCT01517373|164451927|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.93|STANDARD_ERROR_OF_MEAN|6.233|<|0.0001|TWO_SIDED|80.0|-33.93|-17.92||P-value was 1-sided.|t-test, 1 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-17.92|-33.93|<0.0001
82372722|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.196||0.0898|TWO_SIDED|80.0|0.08|0.59||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80 percent(%) confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, duration of type 2 diabetes mellitus (T2DM), time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|0.08|0.0898
82372723|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.195||0.0555|TWO_SIDED|80.0|0.12|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|0.12|0.0555
82398046|NCT01240902|164506666|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|26.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED|95.0|22.3|30.1|||z-test, 1 sided||Kaplan-Meier Event Rate Greenwood Standard Error|TAVR with the Medtronic CoreValve System meets the Performance Goal in the 12 month rate of all-cause mortality or major stroke H0: = πMCS TAVI ≥ 43.0% HA: = πMCS TAVI \< 43.0% In the above expressions πMCS TAVI denotes the rate of all-cause mortality or major stroke during a fixed follow-up of 1 year.||30.1|22.3|<0.0001
82398047|NCT01240902|164506666|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|39.3|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED||||||||Kaplan-Meier Event Rate Greenwood Standard Error|No performance goal created, only descriptive statistics are provided.||||
82445090|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8661|TWO_SIDED|95.0|0.941|1.246|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.246|0.941|0.8661
82445091|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.8084|TWO_SIDED|95.0|0.924|1.228|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.228|0.924|0.8084
82445092|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.9504|TWO_SIDED|95.0|0.976|1.3|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.300|0.976|0.9504
82445093|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.53|TWO_SIDED|95.0|0.871|1.164|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.164|0.871|0.5300
82372724|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.193||0.0585|TWO_SIDED|80.0|0.12|0.61||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.61|0.12|0.0585
82372725|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.194||0.0454|TWO_SIDED|80.0|0.14|0.64||P-value was 2-sided.|t-test, 2 sided|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.64|0.14|0.0454
82372726|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.235||0.2819|TWO_SIDED|80.0|-0.05|0.55||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.55|-0.05|0.2819
82445094|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8595|TWO_SIDED|95.0|0.942|1.243|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.243|0.942|0.8595
82445095|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.8802|TWO_SIDED|95.0|0.943|1.261|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.261|0.943|0.8802
82445096|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.11||||0.9232|TWO_SIDED|95.0|0.958|1.278|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.278|0.958|0.9232
82445097|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.07||||0.7911|TWO_SIDED|95.0|0.902|1.256|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.256|0.902|0.7911
82445098|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.28||||0.9946|TWO_SIDED|95.0|1.059|1.514|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.514|1.059|0.9946
82445099|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.983|TWO_SIDED|95.0|1.019|1.444|||Bayesian repeated measures model|||Peak ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.444|1.019|0.9830
82445100|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.8024|TWO_SIDED|95.0|0.91|1.261|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.261|0.910|0.8024
82445101|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4806|TWO_SIDED|95.0|0.843|1.166|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.166|0.843|0.4806
82445102|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.6658|TWO_SIDED|95.0|0.869|1.223|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.223|0.869|0.6658
82372727|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|0.235||0.0319|TWO_SIDED|80.0|0.2|0.81||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.81|0.20|0.0319
82445103|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.03||||0.6131|TWO_SIDED|95.0|0.856|1.212|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.212|0.856|0.6131
82445104|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5795|TWO_SIDED|95.0|0.856|1.197|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.197|0.856|0.5795
82398048|NCT01240902|164506666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 12 month all-cause mortality estimated rate was 20% for each group with a noninferiority margin of 7.5 percentage points. Assuming a 1:1 ratio in the treatment assignments, we estimated that a total of 355 patients were required in each group for the study to have power of 80% at a one-sided alpha level of 0.05. Accounting for a 10% loss to follow-up, we calculated that we would need to enroll 790 patients.|||||<|0.0001|TWO_SIDED||||||z-test, 1 sided|||||||<0.0001
82445105|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.0209|TWO_SIDED|95.0|0.716|0.993|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||0.993|0.716|0.0209
82445106|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4823|TWO_SIDED|95.0|0.83|1.187|||Mixed Models Analysis|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.187|0.830|0.4823
82372728|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.231||0.1835|TWO_SIDED|80.0|0.01|0.6||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.60|0.01|0.1835
82372729|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|0.231||0.0001|TWO_SIDED|80.0|0.63|1.22||P-value was 2-sided.|t-test, 2 sided|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.22|0.63|0.0001
82372730|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.266||0.9689|TWO_SIDED|80.0|-0.35|0.33||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.33|-0.35|0.9689
82372731|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.265||0.2221|TWO_SIDED|80.0|-0.02|0.67||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.67|-0.02|0.2221
82372732|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.261||0.2774|TWO_SIDED|80.0|-0.05|0.62||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.62|-0.05|0.2774
82372733|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.263|<|0.0001|TWO_SIDED|80.0|0.76|1.43||P-value was 2-sided.|t-test, 2 sided|||Week 6: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.43|0.76|<0.0001
82372734|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.314||0.0667|TWO_SIDED|80.0|0.17|0.98||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.98|0.17|0.0667
82372735|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.314||0.0133|TWO_SIDED|80.0|0.38|1.19||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.19|0.38|0.0133
82372736|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.308||0.026|TWO_SIDED|80.0|0.29|1.08||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.08|0.29|0.0260
82372737|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|1.63|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|80.0|1.23|2.02||P-value was 2-sided.|t-test, 2 sided|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.02|1.23|<0.0001
82372738|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.374||0.0335|TWO_SIDED|80.0|0.32|1.28||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.28|0.32|0.0335
82372739|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.373||0.1557|TWO_SIDED|80.0|0.05|1.01||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.01|0.05|0.1557
82372740|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.92|STANDARD_ERROR_OF_MEAN|0.368||0.0132|TWO_SIDED|80.0|0.45|1.39||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.39|0.45|0.0132
82372741|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|2.68|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|80.0|2.2|3.15||P-value was 2-sided.|t-test, 2 sided|||Week 12: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.15|2.20|<0.0001
82372742|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.394||0.0158|TWO_SIDED|80.0|0.45|1.46||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.46|0.45|0.0158
82445107|NCT01597635|164598827|SUPERIORITY_OR_OTHER||0.0406|0.85||||0.0406|TWO_SIDED|95.0|0.703|1.021|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.021|0.703|0.0406
82445108|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5186|TWO_SIDED|95.0|0.844|1.169|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.169|0.844|0.5186
82445109|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.387|TWO_SIDED|95.0|0.824|1.132|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.132|0.824|0.3870
82445110|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.1281|TWO_SIDED|95.0|0.77|1.065|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.065|0.770|0.1281
82445111|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4754|TWO_SIDED|95.0|0.837|1.181|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.181|0.837|0.4754
82445112|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5627|TWO_SIDED|95.0|0.856|1.217|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.217|0.856|0.5627
82445113|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5552|TWO_SIDED|95.0|0.848|1.22|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.220|0.848|0.5552
82445114|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.503|TWO_SIDED|95.0|0.843|1.201|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.201|0.843|0.5030
82445115|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5558|TWO_SIDED|95.0|0.84|1.218|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.218|0.840|0.5558
82445116|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.2709|TWO_SIDED|95.0|0.769|1.135|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.135|0.769|0.2709
82445117|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4143|TWO_SIDED|95.0|0.795|1.208|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.208|0.795|0.4143
82445118|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.7886|TWO_SIDED|95.0|0.891|1.348|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.348|0.891|0.7886
82529863|NCT02875834|164756143|OTHER||Odds Ratio (OR)|6.3436|||<|0.001|TWO_SIDED|95.0|2.6866|14.9782|||Regression, Logistic|||Treatment group comparisons were made using a logistic regression model containing the following covariates: treatment group; both baseline S-K values (48-hours open-label initial phase and double-blind randomized phase); baseline eGFR (during 48-hour open-label initial phase); age category (\<55, 55-64, \>=65 years); country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||14.9782|2.6866|<0.001
82529864|NCT02875834|164756143|OTHER||Odds Ratio (OR)|18.1876|||<|0.001|TWO_SIDED|95.0|7.1591|46.2054|||Regression, Logistic|||||46.2054|7.1591|<0.001
82372743|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.392||0.2132|TWO_SIDED|80.0|-0.01|0.99||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.99|-0.01|0.2132
82445119|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.08||||0.7607|TWO_SIDED|95.0|0.885|1.353|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.353|0.885|0.7607
82445120|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.8677|TWO_SIDED|95.0|0.922|1.4|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.400|0.922|0.8677
82445121|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.7012|TWO_SIDED|95.0|0.847|1.302|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.302|0.847|0.7012
82445122|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5156|TWO_SIDED|95.0|0.805|1.23|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.230|0.805|0.5156
82445123|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3524|TWO_SIDED|95.0|0.783|1.178|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.178|0.783|0.3524
82445124|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.638|TWO_SIDED|95.0|0.845|1.292|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.292|0.845|0.6380
82445125|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.4003|TWO_SIDED|95.0|0.743|1.241|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.241|0.743|0.4003
82445126|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.16||||0.8817|TWO_SIDED|95.0|0.907|1.502|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.502|0.907|0.8817
82445127|NCT01597635|164598827|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.14||||0.8145|TWO_SIDED|95.0|0.804|1.505|||Bayesian repeated measures model|||Plateau ventilatory pressure, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.505|0.804|0.8145
82529865|NCT02875834|164756145|OTHER||Mean Difference (Final Values)|7.266|||<|0.001|TWO_SIDED|95.0|4.318|10.214|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||10.214|4.318|<0.001
82529866|NCT02875834|164756145|OTHER||Mean Difference (Final Values)|12.079|||<|0.001|TWO_SIDED|95.0|9.118|15.04|||Regression, Linear|||||15.040|9.118|<0.001
82398049|NCT01240902|164506667|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1033|TWO_SIDED|||||Hierarchical test item #5, MACCE at 30 days or hospital discharge; whichever was longer. K-M rates TAVR 8.21%, SAVR 10.93%, Difference -2.73%, Standard Error 2.16%, and Upper 95% CI 1.5%.|Kaplan-Meier Point Estimate|Using Greenwood formula||"Powered Secondary Hypothesis: TAVR with the Medtronic CoreValve System was superior to SAVR in binary rate of MACCE at 30 days or hospital discharge, whichever was longer:~H0: πMCS TAVR = πSAVR HA: πMCS TAVR \< πSAVR In the above expression πMCS TAVR and πSAVR denoted rates of MACCE at 30 days or hospital discharge, whichever was longer.~Assumptions:~1:1 treatment allocation ratio One-sided alpha=0.025 SAVR = 20.0% MCS TAVI = 12.1% Power = \>80%"||||0.1033
82398050|NCT01240902|164506671|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.6|STANDARD_DEVIATION|0.9|<|0.0001|TWO_SIDED|||||Hierarchical test item #3, change from baseline to 1 year.|t-test, 2 sided|||Change in NYHA classification from baseline to 1 year from secondary objective #5. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero.||||<0.0001
82398051|NCT01240902|164506671|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin= 0.375. For subjects with NYHA categories at both baseline and 1 year visit, the NYHA classification improvements were calculated as NYHAbaseline - NYHA1year.|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #3, change from baseline to 1 year.|t-test, 1 sided|||"Change in NYHA classification from baseline to 1 year: TAVR vs. SAVR from secondary objective #5. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -0.375 HA: µ MCS TAVR \> µ SAVR -0.375 In the above expression µ MCS TAVR and µ SAVR denoted the mean number of classification improvements in NYHA from baseline to 1 year."||||<0.0001
82398052|NCT01240902|164506674|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #4|t-test, 2 sided|||Change in Kansas City Cardiomyopathy Questionnaire (KCCQ) score from baseline to 1 year from secondary objective #8. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero.||||<0.0001
82398053|NCT01240902|164506674|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 5||||||0.0063|TWO_SIDED|||||Hierarchical test item #4|t-test, 1 sided|||"Change in Kansas City Cardiomyopathy Questionnaire (KCCQ) score from baseline to 1 year: TAVR vs. SAVR from secondary objective #8. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -5 HA: µ MCS TAVR \> µ SAVR -5 In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in the KCCQ score from baseline to 1 year."||||0.0063
82398054|NCT01240902|164506674|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #6. Item #5 failed, therefore, item #6 also fails. Nominal p- value provided.|t-test, 2 sided|||"Change in SF-12 Physical Summary Scale from baseline to 30 days: TAVR vs. SAVR from secondary objective #8. The two-sided two-sample t-test was used to test at a level 0.05 the hypotheses:~H0: µ MCS TAVR = µ SAVR HA: µ MCS TAVR ≠ µ SAVR In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in the SF-12 Physical Summary Scale from baseline to 30 days."||||<0.0001
82372744|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.387||0.0263|TWO_SIDED|80.0|0.37|1.36||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.36|0.37|0.0263
82372745|NCT01517373|164451935|SUPERIORITY_OR_OTHER||LS Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|80.0|2.12|3.12||P-value was 2-sided.|t-test, 2 sided|||Week 14 (Follow-up): Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, duration of T2DM, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.12|2.12|<0.0001
82372746|NCT02695537|164451947|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure frequency over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure frequency between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure frequency was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure frequency outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure frequency relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
82398055|NCT01240902|164506675|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #2|t-test, 2 sided|||"EOA:~Change in effective orifice area from Baseline to 1 year from secondary objective #9. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero."||||<0.0001
82398056|NCT01240902|164506675|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 0.375|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #2|t-test, 1 sided|||"EOA:~Change in effective orifice area from Baseline to 1 year: TAVR vs.SAVR from secondary objective #9. The one-sided two-sample t-test was used to test non-inferiority at a level 0.05 the hypotheses:~H0: µ MCS TAVR ≤ µ SAVR -0.375 HA: µ MCS TAVR \> µ SAVR -0.375 In the above expression µ MCS TAVR and µ SAVR denoted the mean improvements in effective orifice area from Baseline to 1 year measured in cm2."||||<0.0001
82398057|NCT01240902|164506676|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Hierarchical test item #1|t-test, 2 sided|||"Transvalvular Mean Gradient:~Change in transvalvular mean gradient from baseline to 1 year from secondary objective #9. The paired t-test will be used to test the null hypothesis that the mean paired difference is zero versus the two-sided alternative that the mean is not zero."||||<0.0001
82445128|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6468|TWO_SIDED|95.0|0.765|1.321|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.321|0.765|0.6468
82445129|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.1965|TWO_SIDED|95.0|0.658|1.136|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||1.136|0.658|0.1965
82372747|NCT02695537|164451948|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure severity scores over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure severity scores between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure severity scores was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure severity score outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure severity relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
82372748|NCT02792699|164451949|OTHER||Geometric LS Mean|152371.4|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372749|NCT02792699|164451949|OTHER||LS Geometric Mean|159236.0|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372750|NCT02792699|164451949|OTHER||LS Geometric Mean|172213.2|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372751|NCT02792699|164451949|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9569|||||TWO_SIDED|90.0|0.887|1.0323||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0323|0.8870|
82372752|NCT02792699|164451949|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.8848|||||TWO_SIDED|90.0|0.8204|0.9542||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9542|0.8204|
82372753|NCT02792699|164451949|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUCinf was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9246|||||TWO_SIDED|90.0|0.8575|0.997||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9970|0.8575|
82372754|NCT02792699|164451950|OTHER||Geometric LS Mean|368.43|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372755|NCT02792699|164451950|OTHER||LS Geometric Mean|374.44|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372756|NCT02792699|164451950|OTHER||LS Geometric Mean|393.29|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372757|NCT02792699|164451950|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.984|||||TWO_SIDED|90.0|0.9356|1.0348||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0348|0.9356|
82372758|NCT02792699|164451950|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9368|||||TWO_SIDED|90.0|0.8912|0.9848||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9848|0.8912|
82372759|NCT02792699|164451950|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9521|||||TWO_SIDED|90.0|0.9055|1.001||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0010|0.9055|
82372760|NCT02792699|164451951|OTHER||Geometric LS Mean|42203.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372761|NCT02792699|164451951|OTHER||LS Geometric Mean|43378.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372762|NCT02792699|164451951|OTHER||LS Geometric Mean|44925.3|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82445130|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.1681|TWO_SIDED|95.0|0.694|1.129|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.129|0.694|0.1681
82372763|NCT02792699|164451951|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9729|||||TWO_SIDED|90.0|0.9174|1.0318||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0318|0.9174|
82372764|NCT02792699|164451951|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9394|||||TWO_SIDED|90.0|0.8863|0.9958||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9958|0.8863|
82372765|NCT02792699|164451951|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUC0-14day was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9656|||||TWO_SIDED|90.0|0.9104|1.024||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0240|0.9104|
82372766|NCT02792699|164451952|OTHER||Geometric LS Mean|149590.5|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372767|NCT02792699|164451952|OTHER||LS Geometric Mean|155778.7|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372768|NCT02792699|164451952|OTHER||LS Geometric Mean|166811.0|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372769|NCT02792699|164451952|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9603|||||TWO_SIDED|90.0|0.895|1.0303||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance (ANCOVA) model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0303|0.8950|
82372770|NCT02792699|164451952|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.8968|||||TWO_SIDED|90.0|0.8363|0.9616||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an analysis of covariance ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9616|0.8363|
82372771|NCT02792699|164451952|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for AUC0-12wk was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9339|||||TWO_SIDED|90.0|0.8707|1.0016||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0016|0.8707|
82372772|NCT02792699|164451953|OTHER||Geometric LS Mean|304.04|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372773|NCT02792699|164451953|OTHER||LS Geometric Mean|305.8|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82445131|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.0877|TWO_SIDED|95.0|0.669|1.075|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.075|0.669|0.0877
82372774|NCT02792699|164451953|OTHER||LS Geometric Mean|320.87|||||||||||||Estimated using an analysis of covariance model adjusted for weight and geographic region.|||||
82372775|NCT02792699|164451953|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[US\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9942|||||TWO_SIDED|90.0|0.9461|1.0448||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0448|0.9461|
82372776|NCT02792699|164451953|EQUIVALENCE|PK similarity between the test (ABP 798) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9475|||||TWO_SIDED|90.0|0.9021|0.9953||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||0.9953|0.9021|
82372777|NCT02792699|164451953|EQUIVALENCE|PK similarity between the test (rituximab \[US\]) and reference (rituximab \[EU\]) for Cmax was demonstrated if the 90% CI for the GMR following the second infusion of the first dose was within the bioequivalence criteria of 0.8 to 1.25.|Geometric Mean Ratio|0.9531|||||TWO_SIDED|90.0|0.907|1.0015||||||The geometric mean ratio (GMR) and confidence interval (CI) was estimated from an ANCOVA model adjusted for weight and geographic region. The GMR was obtained by exponentiating the difference of the means on the natural log scale. The CI was obtained by exponentiating the CI for the difference between the means on the log scale.||1.0015|0.9070|
82445132|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2011|TWO_SIDED|95.0|0.715|1.159|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.159|0.715|0.2011
82372778|NCT02792699|164451962|EQUIVALENCE|Clinical equivalence was tested by comparing the 2-sided 90% CI of the change from baseline at week 24 of DAS28-CRP between ABP 798 and rituximab with an equivalence margin of (-0.6, 0.6).|LS Mean Difference|0.02|||||TWO_SIDED|90.0|-0.225|0.264||||||If PK similarity was established between rituximab (US) and rituximab (EU), the 2 rituximab arms were to be combined into a single reference group for the primary assessment of clinical equivalence of DAS28-CRP change from baseline at week 24 using a repeated measures analysis with DAS28-CRP change from baseline as the response and the stratification variables, visit, treatment, treatment-by-visit interaction and baseline DAS28-CRP as predictors, and unstructured covariance matrix in the model.||0.264|-0.225|
82372779|NCT02792699|164451962|OTHER||LS Mean Difference|-0.07|||||TWO_SIDED|90.0|-0.353|0.213||||||||0.213|-0.353|
82372780|NCT02792699|164451962|OTHER||LS Mean Difference|0.11|||||TWO_SIDED|90.0|-0.171|0.392||||||||0.392|-0.171|
82372781|NCT02792699|164451963|OTHER||LS Mean Difference|0.064|||||TWO_SIDED|90.0|-0.203|0.33||||||Analysis of change from baseline at week 8, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.330|-0.203|
82372782|NCT02792699|164451963|OTHER||LS Mean Difference|-0.147|||||TWO_SIDED|90.0|-0.411|0.117||||||Analysis of change from baseline at week 8, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.117|-0.411|
82372783|NCT02792699|164451963|OTHER||LS Mean Difference|0.502|||||TWO_SIDED|90.0|0.233|0.772||||||Analysis of change from baseline at week 12, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.772|0.233|
82372784|NCT02792699|164451963|OTHER||LS Mean Difference|0.27|||||TWO_SIDED|90.0|0.0|0.539||||||Analysis of change from baseline at week 12, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.539|0.000|
82372785|NCT02792699|164451963|OTHER||LS Mean Difference|0.255|||||TWO_SIDED|90.0|-0.04|0.55||||||Analysis of change from baseline at week 40, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.550|-0.040|
82372786|NCT02792699|164451963|OTHER||LS Mean Difference|0.16|||||TWO_SIDED|90.0|-0.135|0.455||||||Analysis of change from baseline at week 40, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.455|-0.135|
82372787|NCT02792699|164451963|OTHER||LS Mean Difference|0.262|||||TWO_SIDED|90.0|-0.04|0.564||||||Analysis of change from baseline at week 48, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.564|-0.040|
82372788|NCT02792699|164451963|OTHER||LS Mean Difference|0.08|||||TWO_SIDED|90.0|-0.216|0.376||||||Analysis of change from baseline at week 48, based on an ANCOVA model adjusted for baseline DAS28-CRP and the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.376|-0.216|
82372789|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.9339|||||TWO_SIDED|90.0|0.7696|1.1332||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1332|0.7696|
82372790|NCT02792699|164451964|OTHER||Risk Difference (RD)|-0.036|||||TWO_SIDED|90.0|-0.1495|0.0775||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0775|-0.1495|
82372791|NCT02792699|164451964|OTHER||Risk Ratio (RR)|1.0392|||||TWO_SIDED|90.0|0.8436|1.2801||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2801|0.8436|
82372792|NCT02792699|164451964|OTHER||Risk Difference (RD)|0.0246|||||TWO_SIDED|90.0|-0.091|0.1402||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1402|-0.0910|
82372793|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.878|||||TWO_SIDED|90.0|0.7573|1.0179||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0179|0.7573|
82372794|NCT02792699|164451964|OTHER||Risk Difference (RD)|-0.0794|||||TWO_SIDED|90.0|-0.1834|0.0247||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0247|-0.1834|
82372795|NCT02792699|164451964|OTHER||Risk Ratio (RR)|1.0426|||||TWO_SIDED|90.0|0.877|1.2394||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2394|0.8770|
82372796|NCT02792699|164451964|OTHER||Risk Difference (RD)|0.0348|||||TWO_SIDED|90.0|-0.0758|0.1454||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1454|-0.0758|
82372797|NCT02792699|164451964|OTHER||Risk Ratio (RR)|1.0102|||||TWO_SIDED|90.0|0.8743|1.1671||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1671|0.8743|
82372798|NCT02792699|164451964|OTHER||Risk Difference (RD)|0.0199|||||TWO_SIDED|90.0|-0.0835|0.1234||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1234|-0.0835|
82445133|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6855|TWO_SIDED|95.0|0.842|1.345|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.345|0.842|0.6855
82372799|NCT02792699|164451964|OTHER||Risk Ratio (RR)|1.0793|||||TWO_SIDED|90.0|0.9244|1.2601||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2601|0.9244|
82372800|NCT02792699|164451964|OTHER||Risk Difference (RD)|0.0561|||||TWO_SIDED|90.0|-0.0493|0.1615||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1615|-0.0493|
82372801|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.8848|||||TWO_SIDED|90.0|0.7759|1.0091||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0091|0.7759|
82372802|NCT02792699|164451964|OTHER||Risk Difference (RD)|-0.0776|||||TWO_SIDED|90.0|-0.1789|0.0237||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0237|-0.1789|
82372803|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.9982|||||TWO_SIDED|90.0|0.8585|1.1605||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.1605|0.8585|
82372804|NCT02792699|164451964|OTHER||Risk Difference (RD)|0.0008|||||TWO_SIDED|90.0|-0.1038|0.1054||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1054|-0.1038|
82372805|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.7862|||||TWO_SIDED|90.0|0.6722|0.9196||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.9196|0.6722|
82372806|NCT02792699|164451964|OTHER||Risk Difference (RD)|-0.2004|||||TWO_SIDED|90.0|-0.3066|-0.0941||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||-0.0941|-0.3066|
82372807|NCT02792699|164451964|OTHER||Risk Ratio (RR)|0.8804|||||TWO_SIDED|90.0|0.7587|1.0215||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0215|0.7587|
82372808|NCT02792699|164451964|OTHER||Risk Difference (RD)|-0.1037|||||TWO_SIDED|90.0|-0.2066|-0.0007||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||-0.0007|-0.2066|
82372809|NCT02792699|164451965|OTHER||Risk Ratio (RR)|0.9256|||||TWO_SIDED|90.0|0.64|1.3388||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3388|0.6400|
82372810|NCT02792699|164451965|OTHER||Risk Difference (RD)|-0.0181|||||TWO_SIDED|90.0|-0.1209|0.0847||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0847|-0.1209|
82372811|NCT02792699|164451965|OTHER||Risk Ratio (RR)|1.0868|||||TWO_SIDED|90.0|0.7328|1.6119||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.6119|0.7328|
82372812|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.0201|||||TWO_SIDED|90.0|-0.0803|0.1205||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1205|-0.0803|
82372813|NCT02792699|164451965|OTHER||Risk Ratio (RR)|0.7095|||||TWO_SIDED|90.0|0.5387|0.9346||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.9346|0.5387|
82372814|NCT02792699|164451965|OTHER||Risk Difference (RD)|-0.1109|||||TWO_SIDED|90.0|-0.2231|0.0013||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0013|-0.2231|
82372815|NCT02792699|164451965|OTHER||Risk Ratio (RR)|1.0882|||||TWO_SIDED|90.0|0.7829|1.5127||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.5127|0.7829|
82372816|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.0441|||||TWO_SIDED|90.0|-0.0626|0.1508||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1508|-0.0626|
82372817|NCT02792699|164451965|OTHER||Risk Ratio (RR)|0.9612|||||TWO_SIDED|90.0|0.7273|1.2705||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2705|0.7273|
82372818|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.002|||||TWO_SIDED|90.0|-0.1081|0.1122||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1122|-0.1081|
82445134|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.04||||0.6093|TWO_SIDED|95.0|0.8|1.325|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.325|0.800|0.6093
82529867|NCT02875834|164756148|OTHER||Hazard Ratio (HR)|0.443|||<|0.001|TWO_SIDED|95.0|0.2954|0.6631|||Regression, Cox|||Results derived from a Cox Proportional Hazards model with the following covariates: treatment group, both baseline S-K values (48-hours open-label initial phase and double-blind randomized phase), baseline eGFR, age category (\<55, 55-64, \>=65 years), country, baseline RAAS inhibitor, chronic kidney, disease heart failure, and diabetes mellitus statuses.||0.6631|0.2954|<0.001
82372819|NCT02792699|164451965|OTHER||Risk Ratio (RR)|1.0029|||||TWO_SIDED|90.0|0.756|1.3305||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3305|0.7560|
82372820|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.0039|||||TWO_SIDED|90.0|-0.1056|0.1135||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1135|-0.1056|
82372821|NCT02792699|164451965|OTHER||Risk Ratio (RR)|0.8373|||||TWO_SIDED|90.0|0.6797|1.0316||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0316|0.6797|
82372822|NCT02792699|164451965|OTHER||Risk Difference (RD)|-0.0863|||||TWO_SIDED|90.0|-0.2029|0.0302||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0302|-0.2029|
82372823|NCT02792699|164451965|OTHER||Risk Ratio (RR)|1.1191|||||TWO_SIDED|90.0|0.878|1.4264||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4264|0.8780|
82372824|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.0288|||||TWO_SIDED|90.0|-0.0827|0.1402||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1402|-0.0827|
82372825|NCT02792699|164451965|OTHER||Risk Ratio (RR)|0.8376|||||TWO_SIDED|90.0|0.6807|1.0307||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0307|0.6807|
82372826|NCT02792699|164451965|OTHER||Risk Difference (RD)|-0.0781|||||TWO_SIDED|90.0|-0.2014|0.0452||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0452|-0.2014|
82372827|NCT02792699|164451965|OTHER||Risk Ratio (RR)|1.0548|||||TWO_SIDED|90.0|0.8351|1.3321||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3321|0.8351|
82372828|NCT02792699|164451965|OTHER||Risk Difference (RD)|0.0141|||||TWO_SIDED|90.0|-0.1021|0.1303||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1303|-0.1021|
82372829|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.5926|||||TWO_SIDED|90.0|0.2818|1.2462||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.2462|0.2818|
82372830|NCT02792699|164451966|OTHER||Risk Difference (RD)|-0.0574|||||TWO_SIDED|90.0|-0.1285|0.0136||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0136|-0.1285|
82372831|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.7476|||||TWO_SIDED|90.0|0.3383|1.6519||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.6519|0.3383|
82372832|NCT02792699|164451966|OTHER||Risk Difference (RD)|-0.0327|||||TWO_SIDED|90.0|-0.0962|0.0308||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0308|-0.0962|
82372833|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.6346|||||TWO_SIDED|90.0|0.3704|1.0872||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0872|0.3704|
82372834|NCT02792699|164451966|OTHER||Risk Difference (RD)|-0.0569|||||TWO_SIDED|90.0|-0.1448|0.031||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0310|-0.1448|
82372835|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.7857|||||TWO_SIDED|90.0|0.445|1.3874||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.3874|0.4450|
82529868|NCT02875834|164756148|OTHER||Hazard Ratio (HR)|0.158|||<|0.001|TWO_SIDED|95.0|0.0992|0.2508|||Regression, Cox|||||0.2508|0.0992|<0.001
82372836|NCT02792699|164451966|OTHER||Risk Difference (RD)|-0.0417|||||TWO_SIDED|90.0|-1237.0|0.0403||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0403|-1237|
82445135|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.435|TWO_SIDED|95.0|0.765|1.253|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||1.253|0.765|0.4350
82529869|NCT05200936|164756152|SUPERIORITY|||||||0.7145||||||p-value is 1-sided|Mixed Models Analysis|||||||0.7145
82372837|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.9254|||||TWO_SIDED|90.0|0.5772|1.4838||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4838|0.5772|
82372838|NCT02792699|164451966|OTHER||Risk Difference (RD)|0.0156|||||TWO_SIDED|90.0|-0.078|0.1092||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1092|-0.0780|
82372839|NCT02792699|164451966|OTHER||Risk Ratio (RR)|1.112|||||TWO_SIDED|90.0|0.6722|1.8398||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.8398|0.6722|
82372840|NCT02792699|164451966|OTHER||Risk Difference (RD)|0.0244|||||TWO_SIDED|90.0|-0.063|0.1119||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1119|-0.0630|
82372841|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.9798|||||TWO_SIDED|90.0|0.6675|1.4384||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.4384|0.6675|
82372842|NCT02792699|164451966|OTHER||Risk Difference (RD)|0.0375|||||TWO_SIDED|90.0|-0.0707|0.1456||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1456|-0.0707|
82372843|NCT02792699|164451966|OTHER||Risk Ratio (RR)|1.1831|||||TWO_SIDED|90.0|0.7833|1.787||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.7870|0.7833|
82398058|NCT01240902|164506676|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin 15|||||<|0.0001|TWO_SIDED|||||Hierarchical test item #1|t-test, 1 sided|||"Transvalvular Mean Gradient:~Change in transvalvular mean gradient from baseline to 1 year: TAVR vs.SAVR from secondary objective #9. The one-sided two-sample t-test was used to test non-inferiority at a level of 0.05 the hypotheses: H0: μ MCS TAVR ≤ μ SAVR -15 HA: μ MCS TAVR \> μ SAVR -15 In the above expression μ MCS TAVR and μ SAVR denoted the mean improvements in mean gradient from Baseline to 1 year measured in mmHg."||||<0.0001
82372844|NCT02792699|164451966|OTHER||Risk Difference (RD)|0.0752|||||TWO_SIDED|90.0|-0.0297|0.1802||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1802|-0.0297|
82372845|NCT02792699|164451966|OTHER||Risk Ratio (RR)|0.7027|||||TWO_SIDED|90.0|0.493|1.0017||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.0017|0.4930|
82372846|NCT02792699|164451966|OTHER||Risk Difference (RD)|-0.0908|||||TWO_SIDED|90.0|-0.211|0.0294||||||Risk difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.0294|-0.2110|
82372847|NCT02792699|164451966|OTHER||Risk Ratio (RR)|1.1449|||||TWO_SIDED|90.0|0.7601|1.7246||||||Risk ratio (ABP 798/ABP 798 versus Rituximab \[US\]/ABP 798\]) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||1.7246|0.7601|
82372848|NCT02792699|164451966|OTHER||Risk Difference (RD)|0.0277|||||TWO_SIDED|90.0|-0.0804|0.1357||||||Risk difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on a generalized linear model adjusted for the stratification factors geographic region, seropositivity, and number of prior biologic therapies used for RA as covariates.||0.1357|-0.0804|
82372849|NCT02792699|164451967|OTHER||LS Mean Difference|-1.999|||||TWO_SIDED|90.0|-7.673|3.675||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 8, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.675|-7.673|
82372850|NCT02792699|164451967|OTHER||LS Mean Difference|0.544|||||TWO_SIDED|90.0|-5.185|6.274||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 8, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||6.274|-5.185|
82372851|NCT02792699|164451967|OTHER||LS Mean Difference|-8.224|||||TWO_SIDED|90.0|-14.102|-2.346||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 12, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||-2.346|-14.102|
82372852|NCT02792699|164451967|OTHER||LS Mean Difference|-2.06|||||TWO_SIDED|90.0|-8.052|3.933||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 12, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.933|-8.052|
82372853|NCT02792699|164451967|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|90.0|-7.62|4.979||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 24, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||4.979|-7.620|
82529870|NCT05200936|164756153|SUPERIORITY|||||||0.9613|||||||ANCOVA|||||||0.9613
82398059|NCT02815267|164506700|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|1.06||0.0083|TWO_SIDED|95.0|0.72|4.88|||ANCOVA|||Change from baseline in inflammatory lesion count was analyzed using an analysis of covariance (ANCOVA) model, which included treatment, Baseline inflammatory lesion count and pooled investigational site as a blocking factor.||4.88|0.72|0.0083
82372854|NCT02792699|164451967|OTHER||LS Mean Difference|0.73|||||TWO_SIDED|90.0|-5.691|7.15||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 24, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||7.150|-5.691|
82372855|NCT02792699|164451967|OTHER||LS Mean Difference|-2.207|||||TWO_SIDED|90.0|-8.562|1.417||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 40, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||1.417|-8.562|
82372856|NCT02792699|164451967|OTHER||LS Mean Difference|-0.036|||||TWO_SIDED|90.0|-6.497|6.424||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 40, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||6.424|-6.497|
82372857|NCT02792699|164451967|OTHER||LS Mean Difference|-6.629|||||TWO_SIDED|90.0|-13.455|0.197||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[EU\]/Rituximab \[EU\]) at week 48, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||0.197|-13.455|
82372858|NCT02792699|164451967|OTHER||LS Mean Difference|-3.096|||||TWO_SIDED|90.0|-9.883|3.691||||||Analysis of the LS mean difference (ABP 798/ABP 798 - Rituximab \[US\]/ABP 798) at week 48, based on an ANCOVA model adjusted for the stratification variables geographic region, seropositivity, and number of prior biologic therapies used for RA.||3.691|-9.883|
82372859|NCT02792699|164451968|OTHER||Risk Difference (RD)|-0.0245|||||TWO_SIDED|90.0|-0.1083|0.0593|||||Based on a generalized linear model adjusted for geographic region, seropositivity and prior biologic use as covariates in the model.|||0.0593|-0.1083|
82372860|NCT02792699|164451968|OTHER||Risk Difference (RD)|0.0187|||||TWO_SIDED|90.0|-0.061|0.0984|||||Based on a generalized linear model adjusted for geographic region, seropositivity and prior biologic use as covariates in the model.|||0.0984|-0.0610|
82372861|NCT00555152|164451979|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
82372862|NCT03233230|164451986|SUPERIORITY||Odds Ratio (OR)|1.48||||0.1746|TWO_SIDED|95.0|0.84|2.61|||Regression, Logistic|||||2.61|0.84|0.1746
82372863|NCT03233230|164451986|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8283|TWO_SIDED|95.0|0.61|1.87|||Regression, Logistic|||||1.87|0.61|0.8283
82398060|NCT02815267|164506701|SUPERIORITY||Risk Difference (RD)|3.33|STANDARD_ERROR_OF_MEAN|2.48||0.1805|TWO_SIDED|95.0|-1.54|8.19||P-value is for the null hypothesis that the combined risk difference equals 0.|Cochran-Mantel-Haenszel|||||8.19|-1.54|0.1805
82398061|NCT02815267|164506702|SUPERIORITY|Percent change from baseline was analyzed using an ANCOVA model, which included treatment, baseline non-inflammatory lesion counts and pooled investigational site as a blocking factor. For the superiority comparison between FMX101 4% and vehicle.|Mean Difference (Final Values)|12.73|STANDARD_ERROR_OF_MEAN|4.42||0.004|TWO_SIDED|95.0|4.07|21.39|||ANCOVA|||||21.39|4.07|0.0040
82372864|NCT03233230|164451986|SUPERIORITY||Odds Ratio (OR)|1.55||||0.1298|TWO_SIDED|95.0|0.88|2.74|||Regression, Logistic|||||2.74|0.88|0.1298
82372865|NCT03233230|164451987|SUPERIORITY||Response rate difference|0.13||||0.0077|TWO_SIDED|95.0|0.04|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.04|0.0077
82372866|NCT03233230|164451987|SUPERIORITY||Response rate difference|0.17||||0.0013|TWO_SIDED|95.0|0.07|0.27|||Cochran-Mantel-Haenszel|||||0.27|0.07|0.0013
82372867|NCT03233230|164451987|SUPERIORITY||Response rate difference|0.13||||0.008|TWO_SIDED|95.0|0.04|0.23|||Cochran-Mantel-Haenszel|||||0.23|0.04|0.0080
82372868|NCT03233230|164451988|SUPERIORITY||Response rate difference|0.09||||0.0056|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0056
82372869|NCT03233230|164451988|SUPERIORITY||Response rate difference|0.09||||0.005|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0050
82372870|NCT03233230|164451988|SUPERIORITY||Response rate difference|0.09||||0.0053|TWO_SIDED|95.0|0.03|0.17|||Cochran-Mantel-Haenszel|||||0.17|0.03|0.0053
82372871|NCT03233230|164451989|SUPERIORITY||Response rate difference|0.09||||0.1419|TWO_SIDED|95.0|-0.03|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.03|0.1419
82372872|NCT03233230|164451989|SUPERIORITY||Response rate difference|0.07||||0.2202|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.05|0.2202
82372873|NCT03233230|164451989|SUPERIORITY||Response rate difference|0.07||||0.2328|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.05|0.2328
82372874|NCT03233230|164451990|SUPERIORITY||Response rate difference|0.06||||0.1232|TWO_SIDED|95.0|-0.02|0.15|||Cochran-Mantel-Haenszel|||||0.15|-0.02|0.1232
82372875|NCT03233230|164451990|SUPERIORITY||Response rate difference|0.05||||0.1725|TWO_SIDED|95.0|-0.03|0.14|||Cochran-Mantel-Haenszel|||||0.14|-0.03|0.1725
82372876|NCT03233230|164451990|SUPERIORITY||Response rate difference|0.05||||0.1795|TWO_SIDED|95.0|-0.03|0.13|||Cochran-Mantel-Haenszel|||||0.13|-0.03|0.1795
82372877|NCT03233230|164451998|SUPERIORITY||Response rate difference|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||||0.04|-0.04|
82372878|NCT03233230|164451998|SUPERIORITY||Response rate difference|0.01|||||TWO_SIDED|95.0|-0.03|0.06||||||||0.06|-0.03|
82372879|NCT03233230|164451998|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
82372880|NCT03233230|164451999|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.02|0.09||||||||0.09|-0.02|
82372881|NCT03233230|164451999|SUPERIORITY||Response rate difference|0.05|||||TWO_SIDED|95.0|0.0|0.12||||||||0.12|-0.00|
82372882|NCT03233230|164451999|SUPERIORITY||Response rate difference|0.02|||||TWO_SIDED|95.0|-0.03|0.08||||||||0.08|-0.03|
82372883|NCT03233230|164452000|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
82372884|NCT03233230|164452000|SUPERIORITY||Response rate difference|0.04|||||TWO_SIDED|95.0|0.0|0.1||||||||0.10|0.00|
82398062|NCT02815267|164506703|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 6 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.86|STANDARD_ERROR_OF_MEAN|1.03||0.0002|TWO_SIDED|95.0|1.85|5.87|||ANCOVA|||||5.87|1.85|0.0002
82398063|NCT02815267|164506703|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 9 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|2.38|6.4|||ANCOVA|||||6.40|2.38|<.0001
82372885|NCT03233230|164452000|SUPERIORITY||Response rate difference|0.03|||||TWO_SIDED|95.0|-0.01|0.09||||||||0.09|-0.01|
82372886|NCT03233230|164452001|SUPERIORITY||Response rate difference|0.11|||||TWO_SIDED|95.0|-0.03|0.24||||||||0.24|-0.03|
82372887|NCT03233230|164452001|SUPERIORITY||Response rate difference|0.12|||||TWO_SIDED|95.0|-0.02|0.25||||||||0.25|-0.02|
82372888|NCT03233230|164452001|SUPERIORITY||Response rate difference|0.18|||||TWO_SIDED|95.0|0.05|0.31||||||||0.31|0.05|
82372889|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.83||||0.091|TWO_SIDED|95.0|-21.81|2.14||LSD=Least Significant Difference|Fisher LSD method|||||2.14|-21.81|0.091
82372890|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.08||||0.338|TWO_SIDED|95.0|-20.39|8.23|||Fisher LSD method|||||8.23|-20.39|0.338
82372891|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75||||0.524|TWO_SIDED|95.0|-9.83|17.33|||Fisher LSD method|||||17.33|-9.83|0.524
82372892|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.85||||0.031|TWO_SIDED|95.0|-24.46|-1.24|||Fisher LSD method|||||-1.24|-24.46|0.031
82372893|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.72||||0.005|TWO_SIDED|95.0|-28.06|-5.38|||Fisher LSD method|||||-5.38|-28.06|0.005
82372894|NCT01584843|164452023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.87||||0.49|TWO_SIDED|95.0|-15.21|7.47|||Fisher LSD method|||||7.47|-15.21|0.490
82372895|NCT00392236|164452040|SUPERIORITY_OR_OTHER|||||||0.083|||||||ANOVA|||||||0.083
82372896|NCT03275064|164452114|SUPERIORITY||Mean Difference (Net)|0.48|||||TWO_SIDED|90.0|-30.73|31.69|||Mixed Models Analysis|||Week 16||31.69|-30.73|
82372897|NCT03275064|164452114|SUPERIORITY||Mean Difference (Net)|3.68|||||TWO_SIDED|90.0|-27.04|34.4|||Mixed Models Analysis|||Week 28||34.40|-27.04|
82372898|NCT03275064|164452115|SUPERIORITY||Mean Difference (Final Values)|1.69|||||TWO_SIDED|90.0|-27.7|31.08|||Mixed Models Analysis|||Week 16||31.08|-27.70|
82372899|NCT03275064|164452115|SUPERIORITY||Mean Difference (Net)|5.97|||||TWO_SIDED|90.0|-23.03|34.97|||Mixed Models Analysis|||Week 28||34.97|-23.03|
82372900|NCT03275064|164452116|SUPERIORITY||Mean Difference (Net)|0.88|||||TWO_SIDED|90.0|-47.27|49.04|||Mixed Models Analysis|||Week 16||49.04|-47.27|
82372901|NCT03275064|164452116|SUPERIORITY||Mean Difference (Net)|2.27|||||TWO_SIDED|90.0|-43.11|47.65|||Mixed Models Analysis|||Week 28||47.65|-43.11|
82372902|NCT03275064|164452117|SUPERIORITY|Week 29|Mean Difference (Net)|200.18||||0.0131|TWO_SIDED|90.0|54.53|345.83|||Mixed Models Analysis|||||345.83|54.53|0.0131
82372903|NCT03275064|164452117|SUPERIORITY||Mean Difference (Net)|141.87||||0.0544|TWO_SIDED|90.0|-3.83|287.56|||Mixed Models Analysis|||Week 29||287.56|-3.83|0.0544
82372904|NCT03275064|164452117|SUPERIORITY||Mean Difference (Net)|228.27||||0.0067|TWO_SIDED|90.0|80.87|375.67|||Mixed Models Analysis|||Week 53||375.67|80.87|0.0067
82372905|NCT03275064|164452117|SUPERIORITY||Mean Difference (Net)|116.21||||0.0931|TWO_SIDED|90.0|-29.52|261.94|||Mixed Models Analysis|||Week 53||261.94|-29.52|0.0931
82372906|NCT03275064|164452118|SUPERIORITY||Mean Difference (Net)|0.05||||0.0574|TWO_SIDED|90.0|0.0|0.1|||Mixed Models Analysis|||Week 29||0.10|-0.00|0.0574
82372907|NCT03275064|164452118|SUPERIORITY||Mean Difference (Net)|0.06||||0.0248|TWO_SIDED|90.0|0.01|0.11|||Mixed Models Analysis|||Week 29||0.11|0.01|0.0248
82372908|NCT03275064|164452118|SUPERIORITY||Mean Difference (Net)|0.01||||0.3864|TWO_SIDED|90.0|-0.05|0.07|||Mixed Models Analysis|||Week 53||0.07|-0.05|0.3864
82372909|NCT03275064|164452118|SUPERIORITY||Mean Difference (Net)|0.02||||0.329|TWO_SIDED|90.0|-0.05|0.08|||Mixed Models Analysis|||Week 53||0.08|-0.05|0.3290
82372910|NCT03275064|164452119|SUPERIORITY||Mean Difference (Net)|4.75||||0.6184|TWO_SIDED|90.0|-21.36|30.85|||Mixed Models Analysis|||Week 16||30.85|-21.36|0.6184
82372911|NCT03275064|164452119|OTHER||Mean Difference (Net)|-7.32||||0.3194|TWO_SIDED|90.0|-33.16|18.53|||Mixed Models Analysis|||Week 28||18.53|-33.16|0.3194
82372912|NCT03275064|164452120|SUPERIORITY||Mean Difference (Net)|3.38|||||TWO_SIDED|90.0|-1.72|8.47|||Mixed Models Analysis|||Week 29||8.47|-1.72|
82372913|NCT03275064|164452120|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|90.0|-5.22|5.01|||Mixed Models Analysis|||Week 29||5.01|-5.22|
82372914|NCT03275064|164452120|SUPERIORITY||Mean Difference (Net)|-1.14|||||TWO_SIDED|90.0|-6.42|4.15|||Mixed Models Analysis|||Week 53||4.15|-6.42|
82372915|NCT03275064|164452120|SUPERIORITY||Mean Difference (Net)|-7.44|||||TWO_SIDED|90.0|-12.68|-2.2|||Mixed Models Analysis|||Week 53||-2.20|-12.68|
82372916|NCT03275064|164452121|SUPERIORITY||Mean Difference (Net)|2.09|||||TWO_SIDED|90.0|-3.49|7.66|||Mixed Models Analysis|||Week 29||7.66|-3.49|
82372917|NCT03275064|164452121|SUPERIORITY||Mean Difference (Net)|0.82|||||TWO_SIDED|90.0|-4.82|6.45|||Mixed Models Analysis|||Week 29||6.45|-4.82|
82372918|NCT03275064|164452121|SUPERIORITY||Mean Difference (Net)|2.29|||||TWO_SIDED|90.0|-3.54|8.11|||Mixed Models Analysis|||Week 53||8.11|-3.54|
82372919|NCT03275064|164452121|SUPERIORITY||Mean Difference (Net)|-5.96|||||TWO_SIDED|90.0|-11.81|-0.1|||Mixed Models Analysis|||Week 53||-0.10|-11.81|
82372920|NCT03275064|164452122|SUPERIORITY||Mean Difference (Net)|3.47|||||TWO_SIDED|90.0|-2.21|9.15|||Mixed Models Analysis|||Week 29||9.15|-2.21|
82372921|NCT03275064|164452122|SUPERIORITY||Mean Difference (Net)|-0.63|||||TWO_SIDED|90.0|-6.31|5.04|||Mixed Models Analysis|||Week 29||5.04|-6.31|
82372922|NCT03275064|164452122|SUPERIORITY||Mean Difference (Net)|-2.63|||||TWO_SIDED|90.0|-8.07|2.82|||Mixed Models Analysis|||Week 53||2.82|-8.07|
82372923|NCT03275064|164452122|SUPERIORITY||Mean Difference (Net)|-8.16|||||TWO_SIDED|90.0|-13.61|-2.72|||Mixed Models Analysis|||Week 53||-2.72|-13.61|
82372924|NCT01898650|164452171|SUPERIORITY|||||||0.004||||||no adjustments for multiple comparisons were made. the threshold for significance was set a priori at 0.05.|t-test, 1 sided|||Null hypothesis was that blood flow would be equivalent on the unaffected and affected sides.||||0.004
82372925|NCT03923530|164452174|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.12
82372926|NCT03923530|164452175|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.49
82372927|NCT03923530|164452176|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.03
82372928|NCT03923530|164452177|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.27
82372929|NCT03923530|164452178|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.18
82372930|NCT03923530|164452179|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.8
82372931|NCT03923530|164452180|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Change from baseline to 8 weeks||||0.76
82398064|NCT02815267|164506704|SUPERIORITY|P-value is for null hypothesis that the combined risk difference equals 0. Percentage of participants achieving IGA treatment success at Week 6|Risk Difference (RD)|2.71|STANDARD_ERROR_OF_MEAN|1.32||0.0395|TWO_SIDED|95.0|0.13|5.3|||Cochran-Mantel-Haenszel|||||5.3|0.13|0.0395
82398065|NCT02815267|164506704|SUPERIORITY|P-value is for null hypothesis that the combined risk difference equals 0. Percentage of participants achieving IGA treatment success at Week 9.|Risk Difference (RD)|2.76|STANDARD_ERROR_OF_MEAN|1.55||0.0748|TWO_SIDED|95.0|-0.28|5.8|||Cochran-Mantel-Haenszel|||||5.80|-0.28|0.0748
82398066|NCT02178358|164506732|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.837|TWO_SIDED|95.0|0.434|1.226|||Bayesian exponential-likelihood model|||||1.226|0.434|0.837
82398067|NCT02178358|164506732|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.704|TWO_SIDED|95.0|0.633|1.266|||Bayesian exponential-likelihood model|||||1.266|0.633|0.704
82398068|NCT00482170|164506758|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test was performed using the 95 percent (%) confidence interval (CI) of the difference of mean participant satisfaction (alpha = 2.5%). Non-inferiority was demonstrated if the lower limit of the 2-sided CI is greater than -1.|Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|0.87|1.77||Statistical testing, one-sided, was done at 2.5% significance level.|ANOVA|||Analysis of variance (ANOVA) using mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||1.77|0.87|<0.001
82445136|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.2232|TWO_SIDED|95.0|0.722|1.195|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.195|0.722|0.2232
82445137|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2716|TWO_SIDED|95.0|0.733|1.2|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.200|0.733|0.2716
82445138|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.93||||0.2866|TWO_SIDED|95.0|0.726|1.19|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.190|0.726|0.2866
82445139|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.5033|TWO_SIDED|95.0|0.78|1.27|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.270|0.780|0.5033
82645012|NCT02268045|165005400|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|99.2|||||TWO_SIDED|90.0|93.6|105.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||105|93.6|
82645013|NCT02268045|165005401|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|103.0|||||TWO_SIDED|90.0|98.5|107.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||107|98.5|
82645014|NCT02268045|165005402|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|99.6|||||TWO_SIDED|90.0|93.9|105.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||105|93.9|
82645015|NCT02268045|165005403|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 80%-125%.|ratio RTXM83 to Mabthera|104.0|||||TWO_SIDED|90.0|99.5|109.0|||||For the ratio: RTXM83 represents the numerator and Mabthera the denominator|||109|99.5|
82398069|NCT00482170|164506759|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority test was performed using the 95% CI of the difference of mean participant satisfaction (alpha = 2.5%). Non-inferiority was demonstrated if the lower limit of the 2-sided CI is greater than -1.|Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|0.95|1.87||Statistical testing, one-sided, was done at 2.5% significance level.|ANOVA|||ANOVA using a mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||1.87|0.95|<0.001
82398070|NCT00482170|164506760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.12||||0.008|TWO_SIDED|95.0|2.05|126.9||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: Generalized Estimating Equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||126.9|2.05|0.008
82398071|NCT00482170|164506760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.25||||0.002|TWO_SIDED|95.0|2.44|51.83||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||51.83|2.44|0.002
82398072|NCT00482170|164506760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.88||||0.001|TWO_SIDED|95.0|2.26|27.44||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment group, visit and the interaction between treatment group and visit as fixed factors was used for the analysis.||27.44|2.26|0.001
82445140|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.1493|TWO_SIDED|95.0|0.684|1.12|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.120|0.684|0.1493
82445141|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4947|TWO_SIDED|95.0|0.759|1.301|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.301|0.759|0.4947
82445142|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.89||||0.1951|TWO_SIDED|95.0|0.678|1.161|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.161|0.678|0.1951
82445143|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.8||||0.0512|TWO_SIDED|95.0|0.612|1.05|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.050|0.612|0.0512
82645016|NCT02268045|165005407|OTHER|||||||0.457|||||||Log Rank|||||||0.4570
82445144|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.47|TWO_SIDED|95.0|0.775|1.279|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.279|0.775|0.4700
82645017|NCT01211613|165005463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|14.0||0.009|TWO_SIDED|95.0||||The p value above relates to the comparison of differences in baseline/4-week Oswestry change scores between manual and mechanical manipulation methods (primary hypothesis). A priori threshold for statistical significance was set at p \< 0.05.|Regression, Linear|Linear regression model was adjusted for these covariates: baseline Oswestry score, age, and treatment expectancy.||||||0.009
82645018|NCT01211613|165005464|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||The p value above relates to the comparison of differences in baseline/4-week Numeric pain change scores between manual and mechanical manipulation methods (secondary hypothesis). A priori threshold for statistical significance was set at p \< 0.05.|Regression, Linear|Linear regression model was adjusted for these covariates: baseline Numeric pain score, age, and treatment expectancy.||||||0.002
82645019|NCT01020773|165005465|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82645020|NCT03853213|165005466|SUPERIORITY||Mean difference (in change score)|2.54||||0.698|TWO_SIDED|95.0|-11.62|16.71|||t-test, 2 sided|The p-value is adjusted using the Satterthwaite correction due to unequal variances between the two groups.|A higher value of the estimation parameter of mean difference in change score indicates a greater reduction in the measure for the intervention group relative to the attention control group.|||16.71|-11.62|0.698
82398073|NCT00482170|164506760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.73|||<|0.001|TWO_SIDED|95.0|2.59|29.47||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used for the analysis.||29.47|2.59|<0.001
82398074|NCT00482170|164506761|SUPERIORITY_OR_OTHER||Regression coefficient|0.17||||0.045|TWO_SIDED|95.0|0.0|0.34||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.34|0.00|0.045
82398075|NCT00482170|164506762|SUPERIORITY_OR_OTHER||Regression coefficient|-0.09||||0.707|TWO_SIDED|95.0|-0.58|0.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, female and male (reference).||0.39|-0.58|0.707
82398076|NCT00482170|164506763|SUPERIORITY_OR_OTHER||Regression coefficient|-0.38||||0.195|TWO_SIDED|95.0|-0.89|0.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, high school or baccalaureate level and reading or writing capacity (reference).||0.14|-0.89|0.195
82398077|NCT00482170|164506763|SUPERIORITY_OR_OTHER||Regression coefficient|-0.55||||0.195|TWO_SIDED|95.0|-1.21|0.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, university level and reading or writing capacity (reference).||0.11|-1.21|0.195
82398078|NCT00482170|164506764|SUPERIORITY_OR_OTHER||Regression coefficient|-0.09||||0.493|TWO_SIDED|95.0|-0.36|0.17||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, HAD-A: =\< 4, HAD-A: \> 4 to 7, HAD-A: \> 7 to 10 and HAD-A: \> 10; by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.17|-0.36|0.493
82398079|NCT00482170|164506764|SUPERIORITY_OR_OTHER||Regression coefficient|-0.16||||0.287|TWO_SIDED|95.0|-0.46|0.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, HAD-D: =\< 3, HAD-D: \> 3 to 5, HAD-D: \> 5 to 8 and HAD-A: \> 8; by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.14|-0.46|0.287
82398080|NCT00482170|164506765|SUPERIORITY_OR_OTHER||Regression coefficient|0.13||||0.123|TWO_SIDED|95.0|-0.04|0.3||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.30|-0.04|0.123
82398081|NCT00482170|164506766|SUPERIORITY_OR_OTHER||Regression coefficient|-0.24||||0.359|TWO_SIDED|95.0|-0.76|0.28||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||0.28|-0.76|0.359
82398082|NCT00482170|164506767|SUPERIORITY_OR_OTHER||Regression coefficient|0.02||||0.693|TWO_SIDED|95.0|-0.08|0.12|||Regression, Linear|||Statistical analysis was carried out between all categories, by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.12|-0.08|0.693
82398083|NCT00482170|164506768|SUPERIORITY_OR_OTHER||Regression coefficient|0.22||||0.17|TWO_SIDED|95.0|-0.09|0.53||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 1 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.53|-0.09|0.170
82398084|NCT00482170|164506769|SUPERIORITY_OR_OTHER||Regression coefficient|0.02||||0.211|TWO_SIDED|95.0|-0.01|0.04||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 1 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.04|-0.01|0.211
82398085|NCT00482170|164506770|SUPERIORITY_OR_OTHER||Regression coefficient|0.09||||0.045|TWO_SIDED|95.0|0.0|0.18||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.18|0.00|0.045
82398086|NCT00482170|164506771|SUPERIORITY_OR_OTHER||Regression coefficient|-0.01||||0.913|TWO_SIDED|95.0|-0.12|0.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 10 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.11|-0.12|0.913
82398087|NCT00482170|164506772|SUPERIORITY_OR_OTHER||Regression coefficient|0.0||||0.968|TWO_SIDED|95.0|-0.17|0.17||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between all categories, by 5 unit increment. Univariate model in which all continuous variables were considered continuous and mean centered was used.||0.17|-0.17|0.968
82398088|NCT00482170|164506773|SUPERIORITY_OR_OTHER||Regression coefficient|-0.15||||0.531|TWO_SIDED|95.0|-0.61|0.32||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, current tobacco usage: yes and current tobacco usage: no (reference).||0.32|-0.61|0.531
82398089|NCT00482170|164506773|SUPERIORITY_OR_OTHER||Regression coefficient|0.44||||0.061|TWO_SIDED|95.0|-0.02|0.9||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, current alcohol usage: yes and current alcohol usage: no (reference).||0.90|-0.02|0.061
82398090|NCT00482170|164506774|SUPERIORITY_OR_OTHER||Regression coefficient|-0.73||||0.759|TWO_SIDED|95.0|-5.37|3.92||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||3.92|-5.37|0.759
82398091|NCT00482170|164506775|SUPERIORITY_OR_OTHER||Regression coefficient|0.09||||0.713|TWO_SIDED|95.0|-0.37|0.55||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Linear|||Statistical analysis was carried out between categories, yes and no (reference).||0.55|-0.37|0.713
82398092|NCT00482170|164506776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.001|TWO_SIDED|95.0|1.63|3.49||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.49|1.63|<0.001
82445145|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.634|TWO_SIDED|95.0|0.811|1.368|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.368|0.811|0.6340
82445146|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2129|TWO_SIDED|95.0|0.689|1.183|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.183|0.689|0.2129
82647988|NCT00386100|165011351|SUPERIORITY_OR_OTHER||Percent difference from metformin|32.1||||0.1381|TWO_SIDED|95.0|-9.5|92.7||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||92.7|-9.5|0.1381
82445147|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6418|TWO_SIDED|95.0|0.798|1.411|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.411|0.798|0.6418
82445148|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4797|TWO_SIDED|95.0|0.754|1.315|||Ratio of Active/Placebo|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.315|0.754|0.4797
82445149|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.2659|TWO_SIDED|95.0|0.703|1.199|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.199|0.703|0.2659
82445150|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.2102|TWO_SIDED|95.0|0.687|1.159|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.159|0.687|0.2102
82445151|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.3623|TWO_SIDED|95.0|0.74|1.24|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.240|0.740|0.3623
82445152|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.3499|TWO_SIDED|95.0|0.73|1.225|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.225|0.730|0.3499
82445153|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.6494|TWO_SIDED|95.0|0.787|1.377|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.377|0.787|0.6494
82398093|NCT00482170|164506776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.61|3.67||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4:A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.67|1.61|<0.001
82398094|NCT00482170|164506776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74|||<|0.001|TWO_SIDED|95.0|1.78|4.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.21|1.78|<0.001
82398095|NCT00482170|164506776|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.66|3.8||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.80|1.66|<0.001
82398096|NCT00482170|164506777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.004|TWO_SIDED|95.0|1.22|2.89||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.89|1.22|0.004
82398097|NCT00482170|164506777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.017|TWO_SIDED|95.0|1.1|2.72||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.72|1.10|0.017
82445154|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5567|TWO_SIDED|95.0|0.766|1.358|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.358|0.766|0.5567
82445155|NCT01597635|164598828|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.85||||0.1095|TWO_SIDED|95.0|0.615|1.073|||Bayesian repeated measures model|||PaO2/FiO2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.073|0.615|0.1095
82445156|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6098|TWO_SIDED|95.0|0.721|1.644|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 0.5 hours||1.644|0.721|0.6098
82445157|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.35||||0.9441|TWO_SIDED|95.0|0.931|2.068|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 1 hour||2.068|0.931|0.9441
82445158|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.7173|TWO_SIDED|95.0|0.749|1.621|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 2 hours||1.621|0.749|0.7173
82445159|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.8292|TWO_SIDED|95.0|0.81|1.949|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 4 hours||1.949|0.810|0.8292
82372932|NCT04430855|164452244|SUPERIORITY||Response Rate Difference|13.3||||0.018|TWO_SIDED|95.0|-0.6|27.2|||Chi-squared||Response rate difference compared to historical placebo = upadacitinib 30 mg - historical placebo|The primary analysis compared the percentage of participants in the upadacitinib 30 mg treatment group who achieved HiSCR response to that of a prespecified, single historical placebo rate (25%). The historical placebo rate of 25% was assumed based on the corresponding response rates of placebo participants satisfying the same key eligibility criteria from the 2 adalimumab HS Phase 3 studies, Study M11-313 (NCT01468207) and Study M11-810 (NCT01468233).||27.2|-0.6|0.018
82445160|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.8008|TWO_SIDED|95.0|0.775|1.832|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 6 hours||1.832|0.775|0.8008
82445161|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.2||||0.7905|TWO_SIDED|95.0|0.776|1.799|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 8 hours||1.799|0.776|0.7905
82645021|NCT03853213|165005467|SUPERIORITY||Mean Difference (Final Values)|-3.88||||0.123|TWO_SIDED|95.0|-9.0|1.24|||t-test, 2 sided||A lower value of the estimation parameter of mean difference indicates lower extent of medication nonadherence for the intervention relative to the control group.|Note that the measure of extent of medication nonadherence used the older 5-item version of the scale rather than the newer 3-item version of the scale because the IRB modification to change the measure took effect after the majority of participants who provided data for Visit 2 had completed the measure.||1.24|-9.00|0.123
82372933|NCT04430855|164452244|SUPERIORITY||Adjusted Response Rate Difference|9.2||||0.142|TWO_SIDED|95.0|-7.6|25.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo (in-trial + synthetic)|As a supplemental analysis, the percentage of participants who achieved HiSCR at Week 12 was further analyzed by comparing upadacitinib with in-trial placebo participants combined with subjects with historical placebo HiSCR data pre-selected using propensity score matching from adalimumab studies M11-313 and M11-810 and risankizumab study M16-833 (NCT03926169), whose study populations, entry criteria and study designs were similar to this study. The placebo in-trial + synthetic HiSCR was 29.2%.||25.9|-7.6|0.142
82372934|NCT04430855|164452244|SUPERIORITY||Adjusted Response Rate Difference|14.7||||0.087|TWO_SIDED|95.0|-6.6|36.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo|As an additional supplemental analysis, the percentage of participants who achieved HiSCR at Week 12 was also analyzed by comparing upadacitinib 30 mg with in-trial placebo participants.||36.0|-6.6|0.087
82372935|NCT04430855|164452245|SUPERIORITY||Response Rate Difference|13.9||||0.028|TWO_SIDED|95.0|-2.5|30.3|||Chi-squared||Response rate difference compared to historical placebo (upadacitinib 30 mg - historical placebo)|The primary analysis compared the percentage of participants in the upadacitinib 30 mg treatment group who achieved NRS30 response to that of a prespecified, single historical placebo rate (22.5%). The historical placebo rate of 22.5% was assumed based on the corresponding response rates of placebo participants satisfying the same key eligibility criteria from the 2 adalimumab HS Phase 3 studies, Study M11-313 (NCT01468207) and Study M11-810 (NCT01468233).||30.3|-2.5|0.028
82445162|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.7566|TWO_SIDED|95.0|0.737|1.958|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.958|0.737|0.7566
82445163|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.25||||0.8349|TWO_SIDED|95.0|0.812|2.05|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 18 hours||2.050|0.812|0.8349
82445164|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.4739|TWO_SIDED|95.0|0.713|1.527|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.527|0.713|0.4739
82445165|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6291|TWO_SIDED|95.0|0.763|1.647|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24.5 hours||1.647|0.763|0.6291
82445166|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.18||||0.8032|TWO_SIDED|95.0|0.83|1.814|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 25 hours||1.814|0.830|0.8032
82445167|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.325|TWO_SIDED|95.0|0.626|1.416|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 26 hours||1.416|0.626|0.3250
82445168|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.5828|TWO_SIDED|95.0|0.687|1.63|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 28 hours||1.630|0.687|0.5828
82645022|NCT03853213|165005468|SUPERIORITY||Mean difference (in change score)|66.29||||0.965|TWO_SIDED|95.0|-3081.7|3214.3|||t-test, 2 sided|||||3214.3|-3081.7|0.965
82398098|NCT00482170|164506777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.47|3.73||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.73|1.47|<0.001
82398099|NCT00482170|164506777|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.001|TWO_SIDED|95.0|1.32|3.21||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.21|1.32|0.001
82398100|NCT00482170|164506778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.025|TWO_SIDED|95.0|1.07|2.64||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.64|1.07|0.025
82398101|NCT00482170|164506778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.936|TWO_SIDED|95.0|0.63|1.64||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.64|0.63|0.936
82398102|NCT00482170|164506778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.42|TWO_SIDED|95.0|0.75|1.99||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.99|0.75|0.420
82398103|NCT00482170|164506778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.625|TWO_SIDED|95.0|0.71|1.79||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.79|0.71|0.625
82398104|NCT00482170|164506779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.21|TWO_SIDED|95.0|0.86|1.94||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.94|0.86|0.210
82445169|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.4546|TWO_SIDED|95.0|0.661|1.512|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 30 hours||1.512|0.661|0.4546
82445170|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.06||||0.6158|TWO_SIDED|95.0|0.719|1.639|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 32 hours||1.639|0.719|0.6158
82645023|NCT03853213|165005469|SUPERIORITY||Mean difference (in change score)|-6.17||||0.29|TWO_SIDED|95.0|-18.15|5.81|||t-test, 2 sided||A higher value of the estimation parameter of mean difference in change score indicates a greater increase in context sensitivity for the intervention group relative to the attention control group.|||5.81|-18.15|0.290
82577068|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.095||0.773|TWO_SIDED|95.0|-0.22|0.16|||MMRM|||Suicide, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.22|0.7730
82398105|NCT00482170|164506779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.227|TWO_SIDED|95.0|0.85|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.85|0.227
82398106|NCT00482170|164506779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.22|TWO_SIDED|95.0|0.84|2.08||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.08|0.84|0.220
82398107|NCT00482170|164506779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.249|TWO_SIDED|95.0|0.84|2.0||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.00|0.84|0.249
82398108|NCT00482170|164506780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.48|3.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.21|1.48|<0.001
82445171|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.7748|TWO_SIDED|95.0|0.752|1.77|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 36 hours||1.770|0.752|0.7748
82445172|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.6565|TWO_SIDED|95.0|0.686|1.714|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 42 hours||1.714|0.686|0.6565
82398109|NCT00482170|164506780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.62|3.62||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.62|1.62|<0.001
82398110|NCT00482170|164506780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35|||<|0.001|TWO_SIDED|95.0|1.58|3.51||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.51|1.58|<0.001
82398111|NCT00482170|164506780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.64|3.59||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.59|1.64|<0.001
82445173|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.87||||0.2773|TWO_SIDED|95.0|0.566|1.38|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.380|0.566|0.2773
82645024|NCT03853213|165005470|SUPERIORITY||Mean difference (in change score)|-5.07||||0.434|TWO_SIDED|95.0|-18.51|8.38|||t-test, 2 sided||A higher value of the estimation parameter of mean difference in change score indicates a greater increase in future time perspective for the intervention group relative to the attention control group.|||8.38|-18.51|0.434
82398112|NCT00482170|164506781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34|||<|0.001|TWO_SIDED|95.0|1.5|3.65||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.65|1.50|<0.001
82645025|NCT03853213|165005471|SUPERIORITY||Mean Difference (Final Values)|17.05||||0.293|TWO_SIDED|95.0|-19.07|53.17|||t-test, 2 sided||A higher value of the estimation parameter of mean difference indicates a lower extent of objectively measured medication adherence for the intervention relative to the control group.|||53.17|-19.07|0.293
82372936|NCT04430855|164452245|SUPERIORITY||Adjusted Response Rate Difference|4.5||||0.323|TWO_SIDED|95.0|-14.6|23.5||Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Cochran-Mantel-Haenszel||Response rate difference = upadacitinib 30 mg - placebo (in-trial + synthetic)|As a supplemental analysis, the percentage of participants who achieved NRS30 at Week 12 was further analyzed by comparing upadacitinib with in-trial placebo participants combined with subjects with historical placebo NRS30 data pre-selected using propensity score matching from adalimumab studies M11-313 and M11-810 and risankizumab study M16-833 (NCT03926169), whose study populations, entry criteria and study designs were similar to this study. The placebo in-trial + synthetic NRS30 was 31.3%.||23.5|-14.6|0.323
82372937|NCT04430855|164452245|SUPERIORITY||Adjusted Response Rate Difference|2.2||||0.421|TWO_SIDED|95.0|-19.6|24.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline Hurley Stage \[Stage \< III, Stage III\] and prior TNF use \[Yes or No\])|Response rate difference = upadacitinib 30 mg - placebo|As an additional supplemental analysis, the percentage of participants who achieved NRS30 at Week 12 was also analyzed by comparing upadacitinib 30 mg with in-trial placebo participants.||24.0|-19.6|0.421
82398113|NCT00482170|164506781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001|TWO_SIDED|95.0|1.83|4.77||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.77|1.83|<0.001
82372938|NCT04874636|164452253|SUPERIORITY||Posterior Mean Difference|0.08|||||TWO_SIDED|95.0|-0.59|0.75|||||Posterior mean difference with 95% credible interval is reported.|||0.75|-0.59|
82372939|NCT04874636|164452254|SUPERIORITY||Posterior Mean Difference|0.49|||||TWO_SIDED|95.0|-1.02|2.0|||||Posterior mean difference with 95% credible interval is reported.|||2.00|-1.02|
82398114|NCT00482170|164506781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58|||<|0.001|TWO_SIDED|95.0|1.62|4.12||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||4.12|1.62|<0.001
82398115|NCT00482170|164506781|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45|||<|0.001|TWO_SIDED|95.0|1.55|3.86||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.86|1.55|<0.001
82445174|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.3606|TWO_SIDED|95.0|0.61|1.467|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48.5 hours||1.467|0.610|0.3606
82398116|NCT00482170|164506782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.681|TWO_SIDED|95.0|0.73|1.62||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.62|0.73|0.681
82445175|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.83||||0.2211|TWO_SIDED|95.0|0.555|1.317|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 49 hours||1.317|0.555|0.2211
82645026|NCT03302299|165005474|SUPERIORITY||Odds Ratio (OR)|1.59|||<|0.01|TWO_SIDED|95.0|0.94|2.71||global p-value for 3-category alcohol use variable in a multivariable generalized estimating equation logistic regression model of sub-optimal INH adherence.|Regression, Logistic||OR for participants with moderate alcohol use in the prior 3 months, compared to those with no alcohol use in the prior 3 months.|||2.71|0.94|<0.01
82645027|NCT03302299|165005474|SUPERIORITY||Odds Ratio (OR)|2.78|||<|0.01|TWO_SIDED|95.0|1.62|4.76||global p-value for 3-category alcohol use variable in a multivariable generalized estimating equation logistic regression model of sub-optimal INH adherence.|Regression, Logistic||OR is for participants with unhealthy alcohol use in the prior 3 months, compared to those with no alcohol use in the prior 3 months.|||4.76|1.62|<0.01
82645028|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|81.1237||||0.0001||||||Histology: Adenocarcinoma vs Non-adenocarcinoma|Regression stepwise|10% significance level for entry criteria||||||0.0001
82372940|NCT04874636|164452255|SUPERIORITY||Posterior Mean Difference|0.14|||||TWO_SIDED|95.0|-0.27|0.55|||||Posterior mean difference with 95% credible interval is reported.|||0.55|-0.27|
82372941|NCT04874636|164452256|SUPERIORITY||Posterior Mean Difference|0.29|||||TWO_SIDED|95.0|-0.43|1.02|||||Posterior mean difference with 95% credible interval is reported.|||1.02|-0.43|
82372942|NCT04874636|164452257|SUPERIORITY||Posterior Mean Difference|7.9|||||TWO_SIDED|95.0|-0.32|16.14|||||Posterior mean difference with 95% credible interval is reported.|||16.14|-0.32|
82372943|NCT04874636|164452258|SUPERIORITY||Posterior Mean Difference|-0.17|||||TWO_SIDED|95.0|-0.65|0.3|||||Posterior mean difference with 95% credible interval is reported.|||0.30|-0.65|
82372944|NCT04874636|164452259|SUPERIORITY||Posterior Mean Difference|-34.98|||||TWO_SIDED|95.0|-176.34|106.69|||||Posterior mean difference with 95% credible interval is reported.|||106.69|-176.34|
82372945|NCT04874636|164452260|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.1|0.09|||||Posterior mean difference with 95% credible interval is reported.|||0.09|-0.10|
82372946|NCT04682730|164452267|SUPERIORITY||Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.13||0.18|TWO_SIDED|95.0|0.58|1.11|||Mixed Models Analysis|||||1.11|0.58|0.18
82372947|NCT04682730|164452269|OTHER|single intervention group across 16 clinics|mean total program costs in 2021 dollars|7845.0|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|6378.0|9312.0|||||An opportunity cost approach was used. Costs estimated: Develop workbook- guideline, EHR data analyses, survey, evidence review- \& print; facilitator training/delivery/program tailoring; staff time; implemented strategies; dental sealant placements.|Mean Total Program costs per clinic for the KPNW Dental system.||9312|6378|
82372948|NCT04682730|164452273|OTHER|single intervention group across 16 clinics|mean total costs/per clinic per sealant|1321.0|STANDARD_DEVIATION|1245.0|||TWO_SIDED|95.0|845.0|3208.0|||||Total cost per sealant calculated as quotient of total intervention costs ($125,521) \& total sealants placed (95), is = to mean cost/sealant across each clinic ($7845/5.938).|Mean Total Program costs per sealant per clinic for the KPNW Dental system.||3208|845|
82372949|NCT04682730|164452275|OTHER|descriptive analysis|percentage|100.0|||||TWO_SIDED||||||||||89/89 treatment plans completed by the end of the period.|||
82372950|NCT00620659|164452328|SUPERIORITY_OR_OTHER|||||||0.615||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.615
82372951|NCT00620659|164452329|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 minutes. If the lower bound of the one-sided 95% confidence interval for MK0249 minus modafinil 200 mg was greater than -1.5 minutes, non-inferiority would be established.|Difference in Least Squares Mean|-4.11|||||TWO_SIDED|90.0|-5.92|-2.3||||||||-2.30|-5.92|
82372952|NCT00620659|164452330|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 minutes. If the lower bound of the one-sided 95% confidence interval for MK0249 minus modafinil 200 mg was greater than -1.5 minutes, non-inferiority would be established.|Difference in Least Squares Mean|-3.8|||||TWO_SIDED|90.0|-5.23|-2.38||||||||-2.38|-5.23|
82372953|NCT00620659|164452331|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.079
82372954|NCT00620659|164452332|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|The mixed model included terms for period and treatment.||||||0.003
82372955|NCT01193127|164452333|SUPERIORITY_OR_OTHER||least-squares mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.1||0||95.0|0.6|1.1||Repeated measures model includes treatment (OMS302, ketorolac tromethamine, and vehicle), time-point and LOCS II grade as covariates|repeated measures model|All data time points collected used in the analysis.|OMS302 - Vehicle (BSS)|||1.1|0.6|0.0000
82372956|NCT01193127|164452333|SUPERIORITY_OR_OTHER||least-squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.1||0||95.0|0.5|0.9||Repeated measures model includes treatment (OMS302, ketorolac tromethamine, and vehicle), time-point and LOCS II grade as covariates.|repeated measures model|OMS302 - ketorolac tromethamine||||0.9|0.5|0.0000
82372957|NCT01193127|164452334|SUPERIORITY_OR_OTHER||least-squares mean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.2||0.0421||95.0|-8.9|-0.2||Repeated measures model includes treatment (OMS302, PE and vehicle), time point and LOCS II grade as covariates|repeated measures model||OMS302 - Vehicle (BSS)|||-0.2|-8.9|0.0421
82372958|NCT01193127|164452334|SUPERIORITY_OR_OTHER||least-squares mean difference|-5.9|STANDARD_ERROR_OF_MEAN|2.2||0.0093||95.0|-10.3|-1.5||Repeated measures model includes treatment (OMS302, PE and vehicle), time point and LOCS II grade as covariates.|repeated measures model||OMS302 - PE|||-1.5|-10.3|0.0093
82372959|NCT01193127|164452335|SUPERIORITY_OR_OTHER|||||||0.63||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.630
82372960|NCT01193127|164452335|SUPERIORITY_OR_OTHER|||||||0.769||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.769
82372961|NCT01193127|164452335|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.025
82372962|NCT01193127|164452336|SUPERIORITY_OR_OTHER|||||||0.229||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.229
82372963|NCT01193127|164452336|SUPERIORITY_OR_OTHER|||||||0.162||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.162
82372964|NCT01193127|164452336|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
82398117|NCT00482170|164506782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.947|TWO_SIDED|95.0|0.67|1.54||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.54|0.67|0.947
82576063|NCT00422734|164861876|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
82576064|NCT00422734|164861877|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Subject. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. To adjust for multiplicity, statistical significance at 0.025 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
82576065|NCT00422734|164861877|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Partner. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. To adjust for multiplicity, statistical significance at 0.025 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
82576066|NCT00422734|164861878|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82576067|NCT00422734|164861879|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82576068|NCT00422734|164861880|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for subject scores|ANCOVA|ANCOVA included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82576069|NCT00422734|164861880|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for partner scores|ANCOVA|ANCOVA included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82576070|NCT00422734|164861881|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for SEP Question 2. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
82372965|NCT01193127|164452337|SUPERIORITY_OR_OTHER|||||||0.177||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.177
82576071|NCT00422734|164861881|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for SEP Question 3. Hypotheses were tested in a sequential fashion using a gatekeeping strategy and adjusted for multiplicity. Statistical significance at 0.05 level was required for this variable.|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||The null hypotheses (no treatment effect with respect to IIEF EF domain or SEP2 or SEP3) were each tested at a specified level of 0.05. In order to pass a serial gatekeeper, it was necessary to reject all three hypotheses. The two null hypotheses (no treatment effect with respect to subject SLQQ-SQoL domain and no treatment effect with respect to partner SLQQ-SQoL domain) were then each tested at a significance level of 0.025.||||<0.001
82576072|NCT00422734|164861882|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for SEP Question 4|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82372966|NCT01193127|164452337|SUPERIORITY_OR_OTHER|||||||0.051||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.051
82372967|NCT01193127|164452337|SUPERIORITY_OR_OTHER|||||||0.497||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.497
82445176|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.286|TWO_SIDED|95.0|0.587|1.348|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 50 hours||1.348|0.587|0.2860
82445177|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.4079|TWO_SIDED|95.0|0.609|1.51|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 52 hours||1.510|0.609|0.4079
82445178|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.02||||0.5284|TWO_SIDED|95.0|0.614|1.663|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 54 hours||1.663|0.614|0.5284
82372968|NCT01193127|164452338|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.480
82372969|NCT01193127|164452338|SUPERIORITY_OR_OTHER|||||||0.09||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.090
82372970|NCT01193127|164452338|SUPERIORITY_OR_OTHER|||||||0.439||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.439
82372971|NCT01193127|164452339|SUPERIORITY_OR_OTHER|||||||0.812||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.812
82372972|NCT01193127|164452339|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.480
82372973|NCT01193127|164452339|SUPERIORITY_OR_OTHER|||||||0.16||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.160
82372974|NCT01193127|164452340|SUPERIORITY_OR_OTHER|||||||0.085||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.085
82372975|NCT01193127|164452340|SUPERIORITY_OR_OTHER|||||||0.742||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.742
82372976|NCT01193127|164452340|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.021
82372977|NCT01193127|164452341|SUPERIORITY_OR_OTHER|||||||0.081||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.081
82372978|NCT01193127|164452341|SUPERIORITY_OR_OTHER|||||||0.202||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.202
82372979|NCT01193127|164452341|SUPERIORITY_OR_OTHER|||||||0.606||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel-Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.606
82372980|NCT01193127|164452342|SUPERIORITY_OR_OTHER|||||||0.893||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.893
82372981|NCT01193127|164452342|SUPERIORITY_OR_OTHER|||||||0.553||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.553
82372982|NCT01193127|164452342|SUPERIORITY_OR_OTHER|||||||0.412||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.412
82372983|NCT01193127|164452343|SUPERIORITY_OR_OTHER|||||||0.186||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.186
82372984|NCT01193127|164452343|SUPERIORITY_OR_OTHER|||||||0.191||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.191
82372985|NCT01193127|164452343|SUPERIORITY_OR_OTHER|||||||0.167||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.167
82372986|NCT01193127|164452344|SUPERIORITY_OR_OTHER|||||||0.663||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.663
82372987|NCT01193127|164452344|SUPERIORITY_OR_OTHER|||||||0.326||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.326
82372988|NCT01193127|164452344|SUPERIORITY_OR_OTHER|||||||0.045||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.045
82372989|NCT01193127|164452345|SUPERIORITY_OR_OTHER|||||||0.106||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.106
82372990|NCT01193127|164452345|SUPERIORITY_OR_OTHER|||||||0.519||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.519
82372991|NCT01193127|164452345|SUPERIORITY_OR_OTHER|||||||0.039||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.039
82372992|NCT01193127|164452346|SUPERIORITY_OR_OTHER|||||||0.1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.100
82372993|NCT01193127|164452346|SUPERIORITY_OR_OTHER|||||||0.029||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.029
82445179|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.3586|TWO_SIDED|95.0|0.568|1.458|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 56 hours||1.458|0.568|0.3586
82445180|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.13||||0.6768|TWO_SIDED|95.0|0.672|1.853|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 60 hours||1.853|0.672|0.6768
82445181|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.77||||0.1574|TWO_SIDED|95.0|0.488|1.39|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 66 hours||1.390|0.488|0.1574
82445182|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.39|TWO_SIDED|95.0|0.521|1.584|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.584|0.521|0.3900
82445183|NCT01597635|164598829|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.05||||0.5915|TWO_SIDED|95.0|0.748|1.516|||Bayesian repeated measures model|||Oxygenation index, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 168 hours||1.516|0.748|0.5915
82445184|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.06828|TWO_SIDED|95.0|0.528|1.501|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.501|0.528|0.06828
82445185|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.96||||0.5674|TWO_SIDED|95.0|0.57|1.609|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.609|0.570|0.5674
82445186|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.66||||0.8855|TWO_SIDED|95.0|0.321|1.316|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.316|0.321|0.8855
82445187|NCT01597635|164598832|SUPERIORITY||Ratio of Active/Placebo|0.97||||0.5358|TWO_SIDED|95.0|0.531|1.76|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.760|0.531|0.5358
82529871|NCT00405353|164756178|OTHER||||||<|0.05|||||||Mixed Models Analysis|Linear regressions were used to determine slopes of brain volume changes. Statistical software package SAS was used to perform the analysis.||Percent change in brain volume against time scatter plot with a Loess regression curve was produced and a first-degree spline model was developed. This model fitted line pieces for pre-treatment and early treatment periods (month -6 to month 3) and treatment response period (months 3-12), and these pieces were joined together to achieve continuity. Slopes of these lines were estimated and compared. A random intercept was set in the model to allow the difference among subjects.||||<0.05
82529872|NCT02906683|164756180|SUPERIORITY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|6.8||0.329|TWO_SIDED|95.0|-20.1|6.7|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||6.7|-20.1|0.329
82372994|NCT01193127|164452346|SUPERIORITY_OR_OTHER|||||||0.525||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.525
82445188|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.17||||0.699|TWO_SIDED|95.0|0.622|2.155|||Bayesian repeated measures model|||CXCL-8 (IL-8), Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.155|0.622|0.6990
82445189|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.513|TWO_SIDED|95.0|0.549|1.721|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.721|0.549|0.5130
82445190|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.73||||0.7696|TWO_SIDED|95.0|0.3|1.731|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.731|0.300|0.7696
82445191|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.51||||0.9254|TWO_SIDED|95.0|0.203|1.289|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.289|0.203|0.9254
82445192|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.72||||0.7088|TWO_SIDED|95.0|0.216|2.419|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.419|0.216|0.7088
82445193|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.47||||0.8787|TWO_SIDED|95.0|0.112|1.69|||Bayesian repeated measures model|||IL-6, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.690|0.112|0.8787
82445194|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.7338|TWO_SIDED|95.0|0.714|1.197|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.197|0.714|0.7338
82445195|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.0||||0.4955|TWO_SIDED|95.0|0.703|1.415|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.415|0.703|0.4955
82445196|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.5264|TWO_SIDED|95.0|0.541|1.788|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.788|0.541|0.5264
82445197|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.91||||0.6183|TWO_SIDED|95.0|0.454|1.742|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.742|0.454|0.6183
82445198|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.03||||0.5291|TWO_SIDED|95.0|0.483|2.118|||Bayesian repeated measures model|||RAGE, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.118|0.483|0.5291
82529873|NCT02906683|164756180|SUPERIORITY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|6.84||0.285|TWO_SIDED|95.0|-20.9|6.2|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||6.2|-20.9|0.285
82372995|NCT01193127|164452347|SUPERIORITY_OR_OTHER|||||||0.642||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.642
82445199|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.09||||0.74|TWO_SIDED|95.0|0.828|1.448|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.448|0.828|0.7400
82529874|NCT02906683|164756182|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|6.48||0.082|TWO_SIDED|95.0|-24.1|1.5|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||1.5|-24.1|0.082
82445200|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.25||||0.9375|TWO_SIDED|95.0|0.937|1.683|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.683|0.937|0.9375
82445201|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.9118|TWO_SIDED|95.0|0.896|1.771|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.771|0.896|0.9118
82445202|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.43||||0.9217|TWO_SIDED|95.0|0.866|2.382|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.382|0.866|0.9217
82445203|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.48||||0.8676|TWO_SIDED|95.0|0.73|3.064|||Bayesian repeated measures model|||MPO, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||3.064|0.730|0.8676
82445204|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.83||||0.8835|TWO_SIDED|95.0|0.609|1.135|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.135|0.609|0.8835
82445205|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.98||||0.5446|TWO_SIDED|95.0|0.723|1.33|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.330|0.723|0.5446
82445206|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.95||||0.6267|TWO_SIDED|95.0|0.679|1.333|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.333|0.679|0.6267
82445207|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.88||||0.7668|TWO_SIDED|95.0|0.612|1.26|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.260|0.612|0.7668
82445208|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.94||||0.61|TWO_SIDED|95.0|0.588|1.509|||Bayesian repeated measures model|||Angiopoietin-2, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.509|0.588|0.6100
82445209|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.68||||0.8159|TWO_SIDED|95.0|0.291|1.623|||Bayesian repeated measures model|||Renin, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.623|0.291|0.8159
82445210|NCT01597635|164598832|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.53||||0.7988|TWO_SIDED|95.0|0.106|2.657|||Bayesian repeated measures model|||Aldosterone, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.657|0.106|0.7988
82445211|NCT01597635|164598833|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.6536|TWO_SIDED|95.0|0.626|2.024|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||2.024|0.626|0.6536
82445212|NCT01597635|164598833|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.3||||0.9066|TWO_SIDED|95.0|0.876|1.955|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.955|0.876|0.9066
82445213|NCT01597635|164598833|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.23||||0.7859|TWO_SIDED|95.0|0.723|2.066|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||2.066|0.723|0.7859
82445214|NCT01597635|164598833|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.9||||0.6058|TWO_SIDED|95.0|0.413|1.963|||Bayesian repeated measures model|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.963|0.413|0.6058
82445215|NCT01597635|164598833|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.29||||0.6921|TWO_SIDED|95.0|0.456|3.632|||Ratio of Active/Placebo|||CRP, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||3.632|0.456|0.6921
82445216|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.92||||0.7934|TWO_SIDED|95.0|0.737|1.14|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.140|0.737|0.7934
82445217|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.01||||0.5205|TWO_SIDED|95.0|0.782|1.317|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.317|0.782|0.5205
82445218|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.12||||0.6682|TWO_SIDED|95.0|0.673|1.865|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||1.865|0.673|0.6682
82372996|NCT01193127|164452347|SUPERIORITY_OR_OTHER|||||||0.442||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.442
82445219|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.99||||0.5304|TWO_SIDED|95.0|0.744|1.315|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||1.315|0.744|0.5304
82445220|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|0.81||||0.9078|TWO_SIDED|95.0|0.582|1.112|||Bayesian repeated measures model|||CCP-16, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||1.112|0.582|0.9078
82445221|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.26||||0.9907|TWO_SIDED|95.0|1.042|1.526|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 12 hours||1.526|1.042|0.9907
82445222|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.27||||0.9973|TWO_SIDED|95.0|1.005|1.606|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 24 hours||1.606|1.005|0.9973
82372997|NCT01193127|164452347|SUPERIORITY_OR_OTHER|||||||0.467||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.467
82445223|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.61||||0.9954|TWO_SIDED|95.0|1.13|2.331|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 48 hours||2.331|1.130|0.9954
82445224|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.65||||0.983|TWO_SIDED|95.0|1.045|2.588|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 72 hours||2.588|1.045|0.9830
82445225|NCT01597635|164598834|SUPERIORITY_OR_OTHER||Ratio of Active/Placebo|1.52||||0.9312|TWO_SIDED|95.0|0.867|2.737|||Bayesian repeated measures model|||SP-D, Part B (Placebo BID) Vs Part B (GSK2586881 BID) at 120 hours||2.737|0.867|0.9312
82445226|NCT01192568|164598837|SUPERIORITY||Mean Difference (Final Values)|14.22|STANDARD_ERROR_OF_MEAN|4.612||0.0928|TWO_SIDED|95.0|-2.45|30.9|||ANCOVA|||||30.90|-2.45|0.0928
82445227|NCT01192568|164598838|SUPERIORITY||Mean Difference (Final Values)|34.92|STANDARD_ERROR_OF_MEAN|8.089||0.0054|TWO_SIDED|95.0|11.13|58.7|||ANCOVA|||||58.70|11.13|0.0054
82372998|NCT01193127|164452348|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.695
82372999|NCT01193127|164452348|SUPERIORITY_OR_OTHER|||||||0.355||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.355
82373000|NCT01193127|164452348|SUPERIORITY_OR_OTHER|||||||0.369||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.369
82373001|NCT01193127|164452349|SUPERIORITY_OR_OTHER|||||||0.124||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.124
82373002|NCT01193127|164452349|SUPERIORITY_OR_OTHER|||||||0.298||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.298
82373003|NCT01193127|164452349|SUPERIORITY_OR_OTHER|||||||0.291||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.291
82373004|NCT01193127|164452350|SUPERIORITY_OR_OTHER|||||||0.825||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.825
82373005|NCT01193127|164452350|SUPERIORITY_OR_OTHER|||||||0.211||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.211
82373006|NCT01193127|164452350|SUPERIORITY_OR_OTHER|||||||0.589||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.589
82373007|NCT01193127|164452351|SUPERIORITY_OR_OTHER|||||||0.401||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.401
82373008|NCT01193127|164452351|SUPERIORITY_OR_OTHER|||||||0.2||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Chi-squared, Corrected|||||||0.200
82373009|NCT01193127|164452351|SUPERIORITY_OR_OTHER|||||||0.478||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.478
82373010|NCT01193127|164452352|SUPERIORITY_OR_OTHER|||||||0.758||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.758
82373011|NCT01193127|164452352|SUPERIORITY_OR_OTHER|||||||0.521||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.521
82373012|NCT01193127|164452352|SUPERIORITY_OR_OTHER|||||||0.432||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.432
82445228|NCT01192568|164598839|SUPERIORITY||Mean Difference (Final Values)|32.59|STANDARD_ERROR_OF_MEAN|13.215||0.1739|TWO_SIDED|95.0|-14.89|80.07|||ANCOVA|||||80.07|-14.89|0.1739
82529875|NCT02906683|164756182|SUPERIORITY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.34||0.057|TWO_SIDED|95.0|-24.7|0.4|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||0.4|-24.7|0.057
82529876|NCT02906683|164756184|SUPERIORITY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|7.38||0.019|TWO_SIDED|95.0|-32.2|-3.0|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||-3.0|-32.2|0.019
82529877|NCT02906683|164756184|SUPERIORITY||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|7.36||0.023|TWO_SIDED|95.0|-31.5|-2.3|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 4||-2.3|-31.5|0.023
82373013|NCT01193127|164452353|SUPERIORITY_OR_OTHER|||||||0.148||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.148
82373014|NCT01193127|164452353|SUPERIORITY_OR_OTHER|||||||0.156||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.156
82373015|NCT01193127|164452353|SUPERIORITY_OR_OTHER|||||||0.381||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.381
82373016|NCT01193127|164452354|SUPERIORITY_OR_OTHER|||||||0.646||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.646
82373017|NCT01193127|164452354|SUPERIORITY_OR_OTHER|||||||0.95||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.950
82373018|NCT01193127|164452354|SUPERIORITY_OR_OTHER|||||||0.16||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.160
82373019|NCT01193127|164452355|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
82373020|NCT01193127|164452355|SUPERIORITY_OR_OTHER|||||||0.667||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.667
82373021|NCT01193127|164452355|SUPERIORITY_OR_OTHER|||||||0.303||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.303
82373022|NCT01193127|164452356|SUPERIORITY_OR_OTHER|||||||0.789||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.789
82373023|NCT01193127|164452356|SUPERIORITY_OR_OTHER|||||||0.977||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.977
82373024|NCT01193127|164452356|SUPERIORITY_OR_OTHER|||||||0.336||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.336
82373025|NCT01193127|164452357|SUPERIORITY_OR_OTHER|||||||0.632||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.632
82373026|NCT01193127|164452357|SUPERIORITY_OR_OTHER|||||||0.778||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.778
82373027|NCT01193127|164452357|SUPERIORITY_OR_OTHER|||||||0.336||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.336
82373028|NCT01193127|164452358|SUPERIORITY_OR_OTHER|||||||0.528||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.528
82373029|NCT01193127|164452358|SUPERIORITY_OR_OTHER|||||||0.362||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.362
82373030|NCT01193127|164452358|SUPERIORITY_OR_OTHER|||||||0.353||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.353
82373031|NCT01193127|164452359|SUPERIORITY_OR_OTHER|||||||0.463||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.463
82373032|NCT01193127|164452359|SUPERIORITY_OR_OTHER|||||||0.406||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.406
82373033|NCT01193127|164452359|SUPERIORITY_OR_OTHER|||||||0.245||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.245
82373034|NCT01193127|164452360|SUPERIORITY_OR_OTHER|||||||0.945||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.945
82373035|NCT01193127|164452360|SUPERIORITY_OR_OTHER|||||||0.438||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.438
82373036|NCT01193127|164452360|SUPERIORITY_OR_OTHER|||||||0.596||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.596
82373037|NCT01193127|164452361|SUPERIORITY_OR_OTHER|||||||0.811||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.811
82373038|NCT01193127|164452361|SUPERIORITY_OR_OTHER|||||||0.552||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.552
82445229|NCT01192568|164598840|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.117||0.266|TWO_SIDED|95.0|-0.53|0.15|||ANCOVA|||Results from a pre-specified test (Kolmogorov-Smirnov test p \<= 0.05) determined that the Pre-Am3 and Post-Am3 OTG data should be analyzed separately for the primary analysis.||0.15|-0.53|0.2660
82373039|NCT01193127|164452361|SUPERIORITY_OR_OTHER|||||||0.549||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.549
82373040|NCT01193127|164452362|SUPERIORITY_OR_OTHER|||||||0.173||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.173
82373041|NCT01193127|164452362|SUPERIORITY_OR_OTHER|||||||0.362||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.362
82373042|NCT01193127|164452362|SUPERIORITY_OR_OTHER|||||||0.559|||||||Cochran-Mantel-Haenszel|||||||0.559
82373043|NCT01193127|164452363|SUPERIORITY_OR_OTHER|||||||0.681||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.681
82373044|NCT01193127|164452363|SUPERIORITY_OR_OTHER|||||||0.429||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.429
82373045|NCT01193127|164452363|SUPERIORITY_OR_OTHER|||||||0.306||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.306
82373046|NCT01193127|164452364|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
82373047|NCT01193127|164452364|SUPERIORITY_OR_OTHER|||||||0.602||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.602
82373048|NCT01193127|164452364|SUPERIORITY_OR_OTHER|||||||0.29|||||||Cochran-Mantel-Haenszel|||||||0.290
82373049|NCT01193127|164452365|SUPERIORITY_OR_OTHER|||||||0.244||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.244
82373050|NCT01193127|164452365|SUPERIORITY_OR_OTHER|||||||0.122||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.122
82373051|NCT01193127|164452365|SUPERIORITY_OR_OTHER|||||||0.79||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.790
82373052|NCT01193127|164452366|SUPERIORITY_OR_OTHER|||||||0.752||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.752
82373053|NCT01193127|164452366|SUPERIORITY_OR_OTHER|||||||0.355||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.355
82398118|NCT00482170|164506782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.604|TWO_SIDED|95.0|0.59|1.36||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.36|0.59|0.604
82398119|NCT00482170|164506782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.43|TWO_SIDED|95.0|0.57|1.27||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.27|0.57|0.430
82398120|NCT00482170|164506783|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.072|TWO_SIDED|95.0|0.48|1.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.03|0.48|0.072
82398121|NCT00482170|164506783|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.205|TWO_SIDED|95.0|0.86|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.86|0.205
82445230|NCT01192568|164598840|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.007|TWO_SIDED|95.0|-1.13|-0.21|||t-test, 2 sided|||||-0.21|-1.13|0.0070
82445231|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% confidence interval (CI) of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 1.|GMC ratio|0.89|||||TWO_SIDED|95.0|0.74|1.07|||ANOVA|||The 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 1.||1.07|0.74|
82529878|NCT02906683|164756186|SUPERIORITY||Mean Difference (Final Values)|-11.4|STANDARD_ERROR_OF_MEAN|7.36||0.125|TWO_SIDED|95.0|-25.9|3.2|||t-test, 2 sided|||TAS-303 3 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||3.2|-25.9|0.125
82373054|NCT01193127|164452366|SUPERIORITY_OR_OTHER|||||||0.292||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.292
82373055|NCT01193127|164452367|SUPERIORITY_OR_OTHER|||||||0.228||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.228
82373056|NCT01193127|164452367|SUPERIORITY_OR_OTHER|||||||0.564||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.564
82373057|NCT01193127|164452367|SUPERIORITY_OR_OTHER|||||||0.755||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.755
82373058|NCT01193127|164452368|SUPERIORITY_OR_OTHER|||||||0.018||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.018
82373059|NCT01193127|164452368|SUPERIORITY_OR_OTHER|||||||0.292||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.292
82373060|NCT01193127|164452368|SUPERIORITY_OR_OTHER|||||||0.298||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.298
82373061|NCT01193127|164452369|SUPERIORITY_OR_OTHER|||||||0.271||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.271
82373062|NCT01193127|164452369|SUPERIORITY_OR_OTHER|||||||0.345||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.345
82398122|NCT00482170|164506783|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.434|TWO_SIDED|95.0|0.78|1.78||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.78|0.78|0.434
82398123|NCT00482170|164506783|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.857|TWO_SIDED|95.0|0.69|1.55||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.55|0.69|0.857
82373063|NCT01193127|164452369|SUPERIORITY_OR_OTHER|||||||0.096||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.096
82373064|NCT01193127|164452370|SUPERIORITY_OR_OTHER|||||||0.32||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.320
82398124|NCT00482170|164506784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.837|TWO_SIDED|95.0|0.7|1.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.56|0.70|0.837
82398125|NCT00482170|164506784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.172|TWO_SIDED|95.0|0.87|2.15||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.15|0.87|0.172
82398126|NCT00482170|164506784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.096|TWO_SIDED|95.0|0.94|2.24||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.24|0.94|0.096
82398127|NCT00482170|164506784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.164|TWO_SIDED|95.0|0.88|2.08||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.08|0.88|0.164
82398128|NCT00482170|164506785|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.356|TWO_SIDED|95.0|0.83|1.69||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.69|0.83|0.356
82398129|NCT00482170|164506785|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.737|TWO_SIDED|95.0|0.73|1.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.56|0.73|0.737
82398130|NCT00482170|164506785|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.156|TWO_SIDED|95.0|0.9|1.91||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.91|0.90|0.156
82529879|NCT02906683|164756186|SUPERIORITY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|7.8||0.221|TWO_SIDED|95.0|-25.1|5.9|||t-test, 2 sided|||TAS-303 6 mg group vs. Placebo group for the mean percentage changes in IEF per 24 hours from baseline to Week 8||5.9|-25.1|0.221
82529880|NCT00574990|164756255|SUPERIORITY_OR_OTHER||chi square|12.99|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|||||Differences between roles and communication event content were assessed by Chi squared|Chi-squared|||Descriptive counts and chi squared were done on the observation data.||||0.01
82373065|NCT01193127|164452370|SUPERIORITY_OR_OTHER|||||||0.39||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.390
82373066|NCT01193127|164452370|SUPERIORITY_OR_OTHER|||||||0.23||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.230
82373067|NCT01193127|164452371|SUPERIORITY_OR_OTHER|||||||0.778||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.778
82398131|NCT00482170|164506785|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.29|TWO_SIDED|95.0|0.85|1.76||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.76|0.85|0.290
82398132|NCT00482170|164506786|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.065|TWO_SIDED|95.0|0.5|1.02||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.02|0.50|0.065
82398133|NCT00482170|164506786|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.1|TWO_SIDED|95.0|0.5|1.06||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.06|0.50|0.100
82398134|NCT00482170|164506786|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.298|TWO_SIDED|95.0|0.54|1.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.21|0.54|0.298
82373068|NCT01193127|164452371|SUPERIORITY_OR_OTHER|||||||0.348||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.348
82373069|NCT01193127|164452371|SUPERIORITY_OR_OTHER|||||||0.477||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.477
82373070|NCT01193127|164452372|SUPERIORITY_OR_OTHER|||||||0.374||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.374
82373071|NCT01193127|164452372|SUPERIORITY_OR_OTHER|||||||0.265||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.265
82373072|NCT01193127|164452372|SUPERIORITY_OR_OTHER|||||||0.555||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.555
82373073|NCT01193127|164452373|SUPERIORITY_OR_OTHER|||||||0.031||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.031
82373074|NCT01193127|164452373|SUPERIORITY_OR_OTHER|||||||0.059||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.059
82373075|NCT01193127|164452373|SUPERIORITY_OR_OTHER|||||||0.472||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.472
82373076|NCT01193127|164452374|SUPERIORITY_OR_OTHER|||||||0.476||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.476
82373077|NCT01193127|164452374|SUPERIORITY_OR_OTHER|||||||0.169||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.169
82373078|NCT01193127|164452374|SUPERIORITY_OR_OTHER|||||||0.31||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.310
82373079|NCT01193127|164452375|SUPERIORITY_OR_OTHER|||||||0.075||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.075
82445232|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 4.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.84|1.23|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 4.||1.23|0.84|
82529881|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.86|||||TWO_SIDED|90.0|0.68|1.08|||||Ratio of Geometric Means: 50mg SC over 125mg IV|||1.08|0.68|
82373080|NCT01193127|164452375|SUPERIORITY_OR_OTHER|||||||0.005||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.005
82373081|NCT01193127|164452375|SUPERIORITY_OR_OTHER|||||||0.078||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.078
82373082|NCT01193127|164452376|SUPERIORITY_OR_OTHER|||||||0.226||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.226
82373083|NCT01193127|164452376|SUPERIORITY_OR_OTHER|||||||0.357||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.357
82373084|NCT01193127|164452376|SUPERIORITY_OR_OTHER|||||||0.291||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.291
82373085|NCT01193127|164452377|SUPERIORITY_OR_OTHER|||||||0.172||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.172
82373086|NCT01193127|164452377|SUPERIORITY_OR_OTHER|||||||0.547||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.547
82373087|NCT01193127|164452377|SUPERIORITY_OR_OTHER|||||||0.921||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wicoxon rank-sum test|||||||0.921
82373088|NCT01193127|164452378|SUPERIORITY_OR_OTHER|||||||0.701||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.701
82373089|NCT01193127|164452378|SUPERIORITY_OR_OTHER|||||||0.089||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.089
82373090|NCT01193127|164452378|SUPERIORITY_OR_OTHER|||||||0.095||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.095
82373091|NCT01193127|164452379|SUPERIORITY_OR_OTHER|||||||0.086||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.086
82373092|NCT01193127|164452379|SUPERIORITY_OR_OTHER|||||||0.092||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wicoxon rank-sum test|||||||0.092
82373093|NCT01193127|164452379|SUPERIORITY_OR_OTHER|||||||0.12||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.120
82373094|NCT01193127|164452380|SUPERIORITY_OR_OTHER|||||||0.626||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.626
82398135|NCT00482170|164506786|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.148|TWO_SIDED|95.0|0.51|1.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.11|0.51|0.148
82398136|NCT00482170|164506787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.098|TWO_SIDED|95.0|0.94|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.94|0.098
82398137|NCT00482170|164506787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.311|TWO_SIDED|95.0|0.82|1.87||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.87|0.82|0.311
82445233|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 5.|GMC ratio|0.98|||||TWO_SIDED|95.0|0.83|1.15|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 5.||1.15|0.83|
82529882|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.61|||||TWO_SIDED|90.0|0.48|0.77|||||Ratio of Geometric Means: 100mg SC over 125mg IV|||0.77|0.48|
82529883|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.78|||||TWO_SIDED|90.0|0.62|0.99|||||Ratio of Geometric Means: 125mg SC over 125mg IV|||0.99|0.62|
82529884|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.89|||||TWO_SIDED|90.0|0.71|1.13|||||Ratio of Geometric Means: 150mg SC over 125mg IV|||1.13|0.71|
82373095|NCT01193127|164452380|SUPERIORITY_OR_OTHER|||||||0.736||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.736
82373096|NCT01193127|164452380|SUPERIORITY_OR_OTHER|||||||0.725||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.725
82373097|NCT01193127|164452381|SUPERIORITY_OR_OTHER|||||||0.22||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.220
82373098|NCT01193127|164452381|SUPERIORITY_OR_OTHER|||||||0.903||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.903
82373099|NCT01193127|164452381|SUPERIORITY_OR_OTHER|||||||0.463||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.463
82373100|NCT01193127|164452382|SUPERIORITY_OR_OTHER|||||||0.675||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.675
82373101|NCT01193127|164452382|SUPERIORITY_OR_OTHER|||||||0.825||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|WIlcoxon rank-sum test|||||||0.825
82373102|NCT01193127|164452382|SUPERIORITY_OR_OTHER|||||||0.668||||||Treatment comparisons between OMS302 and each of the other three groups are based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test|||||||0.668
82373103|NCT01193127|164452383|SUPERIORITY_OR_OTHER|||||||0.2066||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2066
82373104|NCT01193127|164452383|SUPERIORITY_OR_OTHER|||||||0.2066||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2066
82373105|NCT01193127|164452383|SUPERIORITY_OR_OTHER|||||||0.5263||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.5263
82373106|NCT01193127|164452384|SUPERIORITY_OR_OTHER|||||||0.4222||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.4222
82373107|NCT01193127|164452384|SUPERIORITY_OR_OTHER|||||||0.2712||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.2712
82373108|NCT01193127|164452384|SUPERIORITY_OR_OTHER|||||||0.8819||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.8819
82373109|NCT01193127|164452385|SUPERIORITY_OR_OTHER|||||||0.051||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0510
82373110|NCT01193127|164452385|SUPERIORITY_OR_OTHER|||||||0.8084||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.8084
82373111|NCT01193127|164452385|SUPERIORITY_OR_OTHER|||||||0.1495||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.1495
82398138|NCT00482170|164506787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.376|TWO_SIDED|95.0|0.79|1.85||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.85|0.79|0.376
82398139|NCT00482170|164506787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.299|TWO_SIDED|95.0|0.83|1.86||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.86|0.83|0.299
82529885|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.88|||||TWO_SIDED|90.0|0.69|1.11|||||Ratio of Geometric Means: 200mg SC over 125mg IV|||1.11|0.69|
82373112|NCT01193127|164452386|SUPERIORITY_OR_OTHER|||||||0.4099||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.4099
82373113|NCT01193127|164452386|SUPERIORITY_OR_OTHER|||||||0.6499||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.6499
82373114|NCT01193127|164452386|SUPERIORITY_OR_OTHER|||||||0.0765||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0765
82373115|NCT01193127|164452387|SUPERIORITY_OR_OTHER|||||||0.0688||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0688
82373116|NCT01193127|164452387|SUPERIORITY_OR_OTHER|||||||0.0314||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0314
82373117|NCT01193127|164452387|SUPERIORITY_OR_OTHER|||||||0.0775||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.0775
82445234|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 6B.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.69|1.26|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 6B.||1.26|0.69|
82529886|NCT00569803|164756261|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.73|||||TWO_SIDED|90.0|0.57|0.92|||||Ratio of Geometric Means: 250mg SC over 125mg IV|||0.92|0.57|
82529887|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.87|||||TWO_SIDED|90.0|0.69|1.1|||||Ratio of Geometric Means: 50mg SC over 125mg IV|||1.10|0.69|
82373118|NCT01193127|164452388|SUPERIORITY_OR_OTHER|||||||0.5369||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.5369
82373119|NCT01193127|164452388|SUPERIORITY_OR_OTHER|||||||0.3763||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.3763
82373120|NCT01193127|164452388|SUPERIORITY_OR_OTHER|||||||0.6144||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.6144
82373121|NCT01193127|164452389|SUPERIORITY_OR_OTHER|||||||0.1374||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.1374
82373122|NCT01193127|164452389|SUPERIORITY_OR_OTHER|||||||0.9146||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.9146
82373123|NCT01193127|164452389|SUPERIORITY_OR_OTHER|||||||0.7599||||||Treatment comparisons between OMS302 and each of the other three groups are based on ANOVA model with covariates treatment group and the LOCS II grade group.|ANOVA|||||||0.7599
82373124|NCT01193127|164452390|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
82373125|NCT01193127|164452390|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
82373126|NCT01193127|164452390|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
82529888|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.61|||||TWO_SIDED|90.0|0.48|0.77|||||Ratio of Geometric Means: 100mg SC over 125mg IV|||0.77|0.48|
82529889|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.79|||||TWO_SIDED|90.0|0.62|1.0|||||Ratio of Geometric Means: 125mg SC over 125mg IV|||1.00|0.62|
82529890|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.71|1.14|||||Ratio of Geometric Means: 150mg SC over 125mg IV|||1.14|0.71|
82529891|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.88|||||TWO_SIDED|90.0|0.69|1.12|||||Ratio of Geometric Means: 200mg SC over 125mg IV|||1.12|0.69|
82529892|NCT00569803|164756262|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.73|||||TWO_SIDED|90.0|0.57|0.92|||||Ratio of Geometric Means: 250mg SC over 125mg IV|||0.92|0.57|
82529893|NCT00569803|164756268|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.75|1.07|||||AUC(0-T) Ratio of Geometric Means: 1 injection site over 2 injection sites|||1.07|0.75|
82529894|NCT00569803|164756268|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|0.9|||||TWO_SIDED|90.0|0.75|1.07|||||AUC(INF) Ratio of Geometric Means: 1 injection site over 2 injection sites|||1.07|0.75|
82529895|NCT01355419|164756280|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||A power analysis conducted prior to the study predicted that a sample of 144 patients would provide an 80% power to detect a mean difference in sleep time of 40 minutes, assuming a standard deviation of 85 minutes and using a two-sided significance level of 5%.||||<0.05
82529896|NCT01355419|164756281|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Multiple regression modelling was used to determine whether actigraphic or polysomnographic data were predictors for physical activity, independently from age and BMI, stepwise forward selection of variables was performed.|Regression, Linear|||Multiple regression modelling was used to determine whether actigraphic or polysomnographic data were predictors for physical activity, independently from age and BMI, stepwise forward selection of variables was performed.||||<0.05
82529897|NCT02006420|164756296|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|Unequal variance assumption||This is the p value for the mean skin thickness of the forearm.||||0.005
82373127|NCT01193127|164452391|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
82373128|NCT01193127|164452391|SUPERIORITY_OR_OTHER|||||||0.647||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.647
82373129|NCT01193127|164452391|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
82373130|NCT01193127|164452392|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
82373131|NCT01193127|164452392|SUPERIORITY_OR_OTHER|||||||0.335||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.335
82373132|NCT01193127|164452392|SUPERIORITY_OR_OTHER|||||||0.317||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.317
82373133|NCT01193127|164452393|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
82373134|NCT01193127|164452393|SUPERIORITY_OR_OTHER|||||||0.559||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.559
82373135|NCT01193127|164452393|SUPERIORITY_OR_OTHER|||||||1||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||1.000
82373136|NCT01193127|164452394|SUPERIORITY_OR_OTHER|||||||0.824||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.824
82373137|NCT01193127|164452394|SUPERIORITY_OR_OTHER|||||||0.476||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.476
82373138|NCT01193127|164452394|SUPERIORITY_OR_OTHER|||||||0.281||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.281
82373139|NCT01193127|164452395|SUPERIORITY_OR_OTHER|||||||0.842||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.842
82373140|NCT01193127|164452395|SUPERIORITY_OR_OTHER|||||||0.619||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.619
82373141|NCT01193127|164452395|SUPERIORITY_OR_OTHER|||||||0.711||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.711
82398140|NCT00482170|164506788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.494|TWO_SIDED|95.0|0.6|1.28||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.28|0.60|0.494
82529898|NCT02006420|164756296|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|Unequal variance assumption||This is the p value for the mean skin stiffness of the thigh||||0.71
82373142|NCT01193127|164452396|SUPERIORITY_OR_OTHER|||||||0.773||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.773
82373143|NCT01193127|164452396|SUPERIORITY_OR_OTHER|||||||0.592||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.592
82373144|NCT01193127|164452396|SUPERIORITY_OR_OTHER|||||||0.787||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.787
82373145|NCT01193127|164452397|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.695
82373146|NCT01193127|164452397|SUPERIORITY_OR_OTHER|||||||0.166||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.166
82373147|NCT01193127|164452397|SUPERIORITY_OR_OTHER|||||||0.987||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.987
82373148|NCT01193127|164452398|SUPERIORITY_OR_OTHER|||||||0.134||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.134
82373149|NCT01193127|164452398|SUPERIORITY_OR_OTHER|||||||0.71||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.710
82529899|NCT02006420|164756297|SUPERIORITY|||||||0.002|||||||Pearson correlation|||This is the p-value for the forearm||||0.002
82529900|NCT02006420|164756297|SUPERIORITY|||||||0.007|||||||Pearson correlation|||This is the p-value for the thigh||||0.007
82529901|NCT02006420|164756298|SUPERIORITY|||||||0.002|||||||Pearson correlation|||This is the p value for the forearm.||||0.002
82645029|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.973||||0.0001||||||Histology: Adenocarcinoma vs Non-adenocarcinoma|Regression stepwise|10% significance level for model entry||||||0.0001
82645030|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|7.1526||||0.0075||||||Gender: Male vs. Female|Regression Stepwise|10% significance level for entry criteria||||||0.0075
82645031|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.409||||0.0075||||||Gender: Male vs. Female|Regression Stepwise|10% Significance Level for model entry||||||0.0075
82645032|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|51.8456||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% significance level for entry criteria||||||0.0001
82645033|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.515||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for model entry||||||0.0001
82645034|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|98.1065||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
82645035|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.929||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for model entry||||||0.0001
82645036|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|2.8589||||0.0909||||||Number of organs with metastasis|Regression Stepwise|10% significance level for entry criteria||||||0.0909
82645037|NCT01788163|165005497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.086||||0.0909||||||Number of organs with metastasis|Regression Stepwise|10% significance level for model entry||||||0.0909
82373150|NCT01193127|164452398|SUPERIORITY_OR_OTHER|||||||0.31||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.310
82373151|NCT01193127|164452399|SUPERIORITY_OR_OTHER|||||||0.086||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.086
82373152|NCT01193127|164452399|SUPERIORITY_OR_OTHER|||||||0.183||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.183
82373153|NCT01193127|164452399|SUPERIORITY_OR_OTHER|||||||0.029||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.029
82373154|NCT01193127|164452400|SUPERIORITY_OR_OTHER|||||||0.206||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.206
82373155|NCT01193127|164452400|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.021
82373156|NCT01193127|164452400|SUPERIORITY_OR_OTHER|||||||0.026||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.026
82373157|NCT01193127|164452401|SUPERIORITY_OR_OTHER|||||||0.822||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.822
82373158|NCT01193127|164452401|SUPERIORITY_OR_OTHER|||||||0.424||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.424
82373159|NCT01193127|164452401|SUPERIORITY_OR_OTHER|||||||0.695||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.695
82373160|NCT01193127|164452402|SUPERIORITY_OR_OTHER|||||||0.489||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.489
82373161|NCT01193127|164452402|SUPERIORITY_OR_OTHER|||||||0.459||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.459
82373162|NCT01193127|164452402|SUPERIORITY_OR_OTHER|||||||0.99||||||Treatment comparisons between OMS302 and each of the other three groups were based on Wilcoxon rank-sum test. For subjects with mean count \> 30, the mean count was imputed as 45 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.990
82373163|NCT01193127|164452404|SUPERIORITY_OR_OTHER|||||||0.4575||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.4575
82373164|NCT01193127|164452404|SUPERIORITY_OR_OTHER|||||||0.8318||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.8318
82373165|NCT01193127|164452404|SUPERIORITY_OR_OTHER|||||||0.8946||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.8946
82373166|NCT01193127|164452405|SUPERIORITY_OR_OTHER|||||||0.157||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.1570
82529902|NCT02006420|164756298|SUPERIORITY|||||||0.007|||||||Pearson correlation|||This is the p value for the thigh||||0.007
82645038|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|11.106||||0.0009||||||Age: \<=65 vs. \>65|Regression Stepwise|10% Significance Level for entry criteria||||||0.0009
82576073|NCT00422734|164861882|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for SEP Question 5|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373167|NCT01193127|164452405|SUPERIORITY_OR_OTHER|||||||0.0839||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.0839
82576074|NCT00422734|164861883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373168|NCT01193127|164452405|SUPERIORITY_OR_OTHER|||||||0.092||||||Ocular pain medications will be identified by reviewing concomitant medications. Subject incidence of ocular pain medication use at day 1 and post day 1 will be presented. Treatment comparisons will be performed using methodology 1.|Cochran-Mantel-Haenszel|||||||0.0920
82373169|NCT01193127|164452406|SUPERIORITY_OR_OTHER|||||||0.711||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.711
82373170|NCT01193127|164452406|SUPERIORITY_OR_OTHER|||||||0.253||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.253
82373171|NCT01193127|164452406|SUPERIORITY_OR_OTHER|||||||0.104||||||Treatment comparisons between OMS302 and each of the other three groups are based on Cochran-Mantel- Haenszel test adjusting for the LOCS II grade group.|Cochran-Mantel-Haenszel|||||||0.104
82373172|NCT03564444|164452407|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.7|1.9||||||||1.9|-6.7|
82398141|NCT00482170|164506788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.036|TWO_SIDED|95.0|0.44|0.97||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.97|0.44|0.036
82448979|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.961|||||TWO_SIDED|95.0|0.863|1.07|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.070|0.863|
82576075|NCT00422734|164861884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82645039|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.561||||0.0009||||||Age: \<=65 vs. \>65|Regression Stepwise|10% Significance Level for model entry||||||0.0009
82645040|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|34.1075||||0.0001||||||Number of Organs with Metastisis|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
82373173|NCT03246646|164452413|SUPERIORITY||Z test of proportions|0.66|||>|0.05|ONE_SIDED||||||Z test of independent proportions|||||||>.05
82373174|NCT02569112|164452414|SUPERIORITY|A significant improvement in skin laxity reduction is defined as a mean average increase in grade of 1 as per the GAIS.|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Used Wilcoxon Matched-Pairs Signed-Ranks test||The null hypothesis was that the addition of the multipolar radiofrequency with varipulse technology treatment to the cryolipolysis treatment would not show visual improvement.||||<0.01
82576076|NCT00422734|164861885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 1|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82373175|NCT02081209|164452419|OTHER||sucess percentage|82.4|||||TWO_SIDED|95.0|76.4|87.3||||||||87.3|76.4|
82373176|NCT02081209|164452419|OTHER||sucess percentage|77.4|||||TWO_SIDED|95.0|68.1|85.1||||||||85.1|68.1|
82576077|NCT00422734|164861885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 2|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82576078|NCT00422734|164861886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 1|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82645041|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.386||||0.0001||||||Number of Organs with Metastisis|Regression Stepwise|10% significance level for model entry||||||0.0001
82373177|NCT02081209|164452419|OTHER||sucess percentage|79.2|||||TWO_SIDED|95.0|65.0|89.5||||||||89.5|65.0|
82373178|NCT02081209|164452419|OTHER||sucess percentage|94.0|||||TWO_SIDED|95.0|84.6|98.8||||||||98.8|84.6|
82373179|NCT02081209|164452420|OTHER||Mean Difference (Net)|2.3|STANDARD_DEVIATION|1.9|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82373180|NCT02081209|164452420|OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|0.5|2.1||||||||2.1|0.5|
82373181|NCT02081209|164452420|OTHER||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|2.0|4.1||||||||4.1|2.0|
82398142|NCT00482170|164506788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.079|TWO_SIDED|95.0|0.45|1.04||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.04|0.45|0.079
82576079|NCT00422734|164861886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GAQ Question 2|Regression, Logistic|Model included:treatment, baseline value of IIEF EF Domain, pooled site. Baseline-value-by-treatment interaction included if interaction at p\<0.10||||||<0.001
82645042|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|14.0806||||0.0002||||||Histology: Adenocarcinoma vs. Non-adenocarcinoma|Regression Stepwise|10% Significance Level for entry criteria||||||0.0002
82645043|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.955||||0.0002||||||Histology: Adenocarcinoma vs. Non-adenocarcinoma|Regression Stepwise|10% Significance Level for model entry||||||0.0002
82373182|NCT02081209|164452421|OTHER||||||||||||||||||Data from the 16-week follow-up questionnaire were tabulated for all subjects with completed questionnaires.. All confidence intervals were calculated at 95%. Alpha was calculated to be 0.05, critical probability (p\*) was calculated to be 0.975. Assuming normal distribution of survey recipients, a standard deviation of 1.96 is used to calculate the standard margin of error.|||
82373183|NCT02022748|164452424|OTHER||Ratio of Geometric Least Square Means|151.13|||||TWO_SIDED|90.0|112.03|203.86|||||Treatment H is the reference treatment.|||203.86|112.03|
82373184|NCT02022748|164452424|OTHER||Ratio of Geometric Least Square Means|161.38|||||TWO_SIDED|90.0|122.52|212.58|||||Treatment H is the reference treatment.|||212.58|122.52|
82373185|NCT02022748|164452424|OTHER||Ratio of Geometric Least Square Means|90.1|||||TWO_SIDED|90.0|78.07|103.98|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||103.98|78.07|
82373186|NCT02022748|164452425|OTHER||Ratio of Geometric Least Square Means|117.09|||||TWO_SIDED|90.0|84.51|162.22|||||Treatment H is the reference treatment.|||162.22|84.51|
82373187|NCT02022748|164452425|OTHER||Ratio of Geometric Least Square Means|136.27|||||TWO_SIDED|90.0|95.38|194.7|||||Treatment H is the reference treatment.|||194.70|95.38|
82373188|NCT02022748|164452425|OTHER||Ratio of Geometric Least Square Means|82.29|||||TWO_SIDED|90.0|68.43|98.96|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||98.96|68.43|
82373189|NCT02022748|164452426|OTHER||Ratio of Geometric Least Square Means|137.75|||||TWO_SIDED|90.0|105.7|179.52|||||Treatment H is the reference treatment.|||179.52|105.70|
82373190|NCT02022748|164452426|OTHER||Ratio of Geometric Least Square Means|148.76|||||TWO_SIDED|90.0|115.07|192.32|||||Treatment H is the reference treatment.|||192.32|115.07|
82373191|NCT02022748|164452426|OTHER||Ratio of Geometric Least Square Means|90.35|||||TWO_SIDED|90.0|77.55|105.27|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||105.27|77.55|
82398143|NCT00482170|164506788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.063|TWO_SIDED|95.0|0.46|1.02||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.02|0.46|0.063
82398144|NCT00482170|164506789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.628|TWO_SIDED|95.0|0.62|1.33||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.33|0.62|0.628
82373192|NCT02022748|164452427|OTHER||Ratio of Geometric Least Square Means|112.73|||||TWO_SIDED|90.0|88.61|143.42|||||Treatment H is the reference treatment.|||143.42|88.61|
82373193|NCT02022748|164452427|OTHER||Ratio of Geometric Least Square Means|114.37|||||TWO_SIDED|90.0|91.19|143.45|||||Treatment H is the reference treatment.|||143.45|91.19|
82529903|NCT02006420|164756300|SUPERIORITY||||||<|0.0001|||||||Pearson correlation|||This is the p-value for the forearm||||<.0001
82529904|NCT02006420|164756300|SUPERIORITY||||||<|0.0001|||||||Pearson correlation|||This is the p-value for the thigh||||<0.0001
82373194|NCT02022748|164452427|OTHER||Ratio of Geometric Least Square Means|93.13|||||TWO_SIDED|90.0|80.31|108.0|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment B is the reference treatment.|||108.00|80.31|
82373195|NCT02022748|164452428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|90.0|-0.97|0.75|||||Treatment A - Treatment H.|||0.75|-0.97|
82373196|NCT02022748|164452428|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|90.0|-0.96|1.52|||||Treatment B - Treatment H.|||1.52|-0.96|
82373197|NCT02022748|164452428|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.36|||||TWO_SIDED|90.0|-1.73|1.02|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment A - Treatment B.|||1.02|-1.73|
82373198|NCT02022748|164452429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||||TWO_SIDED|90.0|-2.62|0.48|||||Treatment A - Treatment H.|||0.48|-2.62|
82373199|NCT02022748|164452429|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05|||||TWO_SIDED|90.0|-2.46|0.37|||||Treatment B - Treatment H.|||0.37|-2.46|
82373200|NCT02022748|164452429|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.5|||||TWO_SIDED|90.0|-1.27|0.27|||||A linear mixed model with sequence, period, and treatment as fixed effects, and subject-within-sequence as a random effect, was used to analyze the natural log-transformed values of the PK parameters. Treatment A - Treatment B.|||0.27|-1.27|
82398145|NCT00482170|164506789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.203|TWO_SIDED|95.0|0.51|1.15||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.15|0.51|0.203
82398146|NCT00482170|164506789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.222|TWO_SIDED|95.0|0.51|1.17||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.17|0.51|0.222
82529905|NCT02006420|164756302|SUPERIORITY|||||||0.01|||||||Pearson correlation|||This is the p-value for the forearm||||0.01
82529906|NCT02006420|164756302|SUPERIORITY|||||||0.1|||||||Pearson correlation|||This is the p-value for the thigh||||0.10
82645044|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|33.8574||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
82645045|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.077||||0.0001||||||Smoking Status: Never-smoker vs. Ever-smoker|Regression Stepwise|10% Significance Level for model entry||||||0.0001
82373201|NCT05538065|164452430|SUPERIORITY||Risk Ratio (RR)|1.4||||0.002|TWO_SIDED|95.0|1.1|1.78||Adjusted for multiple comparisons|Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and binary errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||1.78|1.10|0.002
82373202|NCT05538065|164452430|SUPERIORITY||Risk Ratio (RR)|1.26||||0.039|TWO_SIDED|95.0|1.01|1.57||Adjusted for multiple comparisons|Regression, Logistic|||Outcomes were evaluated using generalized estimating equations with a log link and binary errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||1.57|1.01|0.039
82373203|NCT05538065|164452431|SUPERIORITY||Mean Difference (Final Values)|29.0||||0.386|TWO_SIDED|95.0|-36.6|94.6||Adjusted for multiple testing|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||94.6|-36.6|0.386
82373204|NCT05538065|164452431|SUPERIORITY||Mean Difference (Final Values)|38.1||||272|TWO_SIDED|95.0|-29.9|106.1||Adjusted for multiple comparisons|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||106.1|-29.9|272
82373205|NCT05538065|164452432|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.657|TWO_SIDED|95.0|-74.5|47.0||Adjusted for multiple testing|Regression, Linear|||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||47.0|-74.5|0.657
82373206|NCT05538065|164452432|SUPERIORITY||Mean Difference (Final Values)|15.1||||0.696|TWO_SIDED|95.0|-60.7|91.0|||Regression, Linear|Adjusted for multiple testing||Outcomes were evaluated using generalized estimating equations with an identity link and normally-distributed errors, adjusting for provider-level clustering and Holm-Bonferroni multiple comparisons.||91.0|-60.7|0.696
82373207|NCT02585934|164452472|SUPERIORITY||least square mean difference|-0.36||||0.2249|TWO_SIDED|95.0|-0.95|0.22||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.22|-0.95|0.2249
82529907|NCT02951351|164756303|NON_INFERIORITY|By non-inferiority analysis, proparacaine was inferior to povidone iodine with a 5% margin for non-inferiority. To detect non-inferiority with one positive culture in the proparacaine group, 45 patients would be required in the proparacaine group with a 5% margin.||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
82645046|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Wald Chi Square Statistic|21.2537||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for entry criteria||||||0.0001
82645047|NCT01788163|165005500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.084||||0.0001||||||Region: Asia Pacific vs. Russia|Regression Stepwise|10% Significance Level for model entry||||||0.0001
82373208|NCT02585934|164452473|SUPERIORITY||least square mean difference|-0.09||||0.826|TWO_SIDED|95.0|-0.9|0.72||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.72|-0.90|0.8260
82373209|NCT02585934|164452474|SUPERIORITY||least square mean difference|-0.12||||0.0234|TWO_SIDED|95.0|-0.22|-0.02||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||-0.02|-0.22|0.0234
82373210|NCT02585934|164452475|SUPERIORITY||least square mean difference|0.12||||0.2096|TWO_SIDED|95.0|-0.07|0.32||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.32|-0.07|0.2096
82373211|NCT02585934|164452476|SUPERIORITY||least square mean difference|-0.14||||0.765|TWO_SIDED|95.0|-1.09|0.8||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.80|-1.09|0.7650
82373212|NCT02585934|164452477|SUPERIORITY||least square mean difference|-0.38||||0.2472|TWO_SIDED|95.0|-1.03|0.27||the threshold for statistical significance was p=0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||0.27|-1.03|0.2472
82529908|NCT02951351|164756304|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82373213|NCT02338193|164452479|SUPERIORITY||||||<|0.032|||||||ANOVA|||One Way ANOVA with Bonferroni contrast if p\>0.05||||<0.032
82645048|NCT00545441|165005505|NON_INFERIORITY_OR_EQUIVALENCE|Alpha = 0.05 and power = 0.8, a non-inferiority margin of 10%.||||||0.59|TWO_SIDED||||||Fisher Exact|||||||0.59
82645049|NCT02007369|165005529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21||||0.033|TWO_SIDED|95.0|0.05|0.89|||Regression, Logistic|||||0.89|0.05|0.033
82373214|NCT02338193|164452480|SUPERIORITY||||||<|0.05|||||||ANOVA|One Way ANOVA with Bonferoni contrast test||||||<0.05
82373215|NCT02338193|164452481|SUPERIORITY||||||<|0.01|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.01
82373216|NCT02338193|164452482|SUPERIORITY||||||<|0.012|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.012
82373217|NCT02338193|164452483|SUPERIORITY|||||||0.007|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.007
82373218|NCT02338193|164452484|SUPERIORITY|||||||0.023|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||0.023
82373219|NCT02338193|164452485|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||>0.05
82373220|NCT02338193|164452486|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||>0.05
82373221|NCT02338193|164452487|SUPERIORITY||||||<|0.001|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast||||<0.001
82373222|NCT02338193|164452488|SUPERIORITY||||||<|0.001|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.001
82529909|NCT02951351|164756305|SUPERIORITY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
82645050|NCT02007369|165005529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.934|TWO_SIDED|95.0|0.36|3.01|||Regression, Logistic|||||3.01|0.36|0.934
82645051|NCT02007369|165005530|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|||||||0.002
82645052|NCT02007369|165005530|SUPERIORITY_OR_OTHER|||||||0.199|||||||Fisher Exact|||||||0.199
82398147|NCT00482170|164506789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.263|TWO_SIDED|95.0|0.53|1.19||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.19|0.53|0.263
82398148|NCT00482170|164506790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.914|TWO_SIDED|95.0|0.7|1.5||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.50|0.70|0.914
82398149|NCT00482170|164506790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.827|TWO_SIDED|95.0|0.7|1.57||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.57|0.70|0.827
82398150|NCT00482170|164506790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.712|TWO_SIDED|95.0|0.61|1.4||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.40|0.61|0.712
82445235|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group Group), was lower than 2 for the pneumococcal vaccine serotype 7F.|GMC ratio|0.96|||||TWO_SIDED|95.0|0.82|1.13|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel Group groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 7F.||1.13|0.82|
82529910|NCT02951351|164756306|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82529911|NCT02951351|164756307|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82645053|NCT02007369|165005531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.285|TWO_SIDED|95.0|0.25|1.5|||Regression, Logistic|||||1.50|0.25|0.285
82645054|NCT02007369|165005531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.597|TWO_SIDED|95.0|0.31|1.97|||Regression, Logistic|||||1.97|0.31|0.597
82645055|NCT02007369|165005532|SUPERIORITY_OR_OTHER|||||||0.023|||||||Fisher Exact|||||||0.023
82373223|NCT02338193|164452489|SUPERIORITY||||||<|0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.004
82373224|NCT02338193|164452490|SUPERIORITY||||||<|0.02|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.02
82373225|NCT02338193|164452491|SUPERIORITY||||||<|0.012|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.012
82373226|NCT02338193|164452492|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||>0.05
82373227|NCT02338193|164452493|SUPERIORITY||||||<|0.028|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<0.028
82373228|NCT02338193|164452494|SUPERIORITY||||||<|0.03|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||<.03
82373229|NCT02885181|164452517|SUPERIORITY||Least Squares (LS) Means of Differences|0.01||||0.978|TWO_SIDED|95.0||0.76|||Cochran-Mantel-Haenszel|||||0.76|- 0.74|0.978
82373230|NCT02885181|164452517|SUPERIORITY||LS Means of Differences|0.4||||0.3|TWO_SIDED|95.0||1.16|||Cochran-Mantel-Haenszel|||||1.16|- 0.36|0.300
82373231|NCT02885181|164452517|SUPERIORITY||LS Means of Differences|0.0||||0.002|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||- 0.43|- 1.92|0.002
82373232|NCT02885181|164452518|SUPERIORITY||Difference in Response Rates|-5.9||||0.66|TWO_SIDED|95.0|-36.0|24.0|||Cochran-Mantel-Haenszel|||||24.0|-36.0|0.660
82373233|NCT02885181|164452518|SUPERIORITY||Difference in Response Rates|-15.9||||0.277|TWO_SIDED|95.0|-44.7|13.8|||Cochran-Mantel-Haenszel|||||13.8|-44.7|0.277
82373234|NCT02885181|164452518|SUPERIORITY||Difference in Response Rates|40.0||||0.009|TWO_SIDED|95.0|10.7|65.6|||Cochran-Mantel-Haenszel|||||65.6|10.7|0.009
82373235|NCT02885181|164452519|SUPERIORITY||Difference in Response Rates|-2.7||||0.853|TWO_SIDED|95.0|-32.0|27.5|||Cochran-Mantel-Haenszel|||||27.5|-32.0|0.853
82373236|NCT02885181|164452519|SUPERIORITY||Difference in Response Rates|-2.7||||0.852|TWO_SIDED|95.0|-32.0|27.5|||Cochran-Mantel-Haenszel|||||27.5|-32.0|0.852
82373237|NCT02885181|164452519|SUPERIORITY||Difference in Response Rates|24.9||||0.092|TWO_SIDED|95.0|-6.6|51.5|||Cochran-Mantel-Haenszel|||||51.5|-6.6|0.092
82373238|NCT02885181|164452520|SUPERIORITY||Difference in Response Rates|-8.6||||0.36|TWO_SIDED|95.0|-37.9|22.5|||Cochran-Mantel-Haenszel|||||22.5|-37.9|0.360
82398151|NCT00482170|164506790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.733|TWO_SIDED|95.0|0.62|1.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.39|0.62|0.733
82398152|NCT00482170|164506791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.95||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.95|0.95|0.090
82529912|NCT02951351|164756308|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82529913|NCT02951351|164756309|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82529914|NCT02951351|164756310|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
82645056|NCT02007369|165005532|SUPERIORITY_OR_OTHER|||||||0.527|||||||Fisher Exact|||||||0.527
82645057|NCT00883740|165005549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.15|||<|0.0001|TWO_SIDED|95.0|-26.69|-11.61||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-11.61|-26.69|<0.0001
82645058|NCT00883740|165005550|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.54|||<|0.0001|TWO_SIDED|95.0|-23.29|-11.8||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-11.80|-23.29|<0.0001
82645059|NCT00883740|165005551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81||||0.3841|TWO_SIDED|95.0|-5.92|2.3||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||2.30|-5.92|0.3841
82373239|NCT02885181|164452520|SUPERIORITY||Difference in Response Rates|1.4||||0.896|TWO_SIDED|95.0|-28.0|31.7|||Cochran-Mantel-Haenszel|||||31.7|-28.0|0.896
82373240|NCT02885181|164452520|SUPERIORITY||Difference in Response Rates|24.5||||0.072|TWO_SIDED|95.0|-6.6|50.1|||Cochran-Mantel-Haenszel|||||50.1|-6.6|0.072
82373241|NCT02885181|164452521|SUPERIORITY||LS Means of Differences|-0.12||||0.528|TWO_SIDED|95.0|-0.49|0.25|||Cochran-Mantel-Haenszel|||||0.25|-0.49|0.528
82373242|NCT02885181|164452521|SUPERIORITY||LS Means of Differences|0.2||||0.293|TWO_SIDED|95.0|-0.17|0.57|||Cochran-Mantel-Haenszel|||||0.57|-0.17|0.293
82373243|NCT02885181|164452521|SUPERIORITY||LS Means of Differences|-0.33||||0.072|TWO_SIDED|95.0|-0.7|0.03|||Cochran-Mantel-Haenszel|||||0.03|-0.70|0.072
82398153|NCT00482170|164506791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.154|TWO_SIDED|95.0|0.9|1.91||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.91|0.90|0.154
82398154|NCT00482170|164506791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.037|TWO_SIDED|95.0|1.02|2.22||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.22|1.02|0.037
82398155|NCT00482170|164506791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.028|TWO_SIDED|95.0|1.05|2.24||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.24|1.05|0.028
82398156|NCT00482170|164506792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.022|TWO_SIDED|95.0|1.06|2.21||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.21|1.06|0.022
82398157|NCT00482170|164506792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.005|TWO_SIDED|95.0|1.17|2.41||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.41|1.17|0.005
82373244|NCT04228783|164452530|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
82373245|NCT04228783|164452530|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
82373246|NCT04228783|164452530|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.9|1.2||||||||1.2|0.9|
82373247|NCT04228783|164452531|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.2||||||||1.2|0.8|
82373248|NCT04228783|164452531|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||||1.3|0.8|
82373249|NCT04228783|164452531|EQUIVALENCE|An equivalence margin of 0.5 to 2.0 was considered relevant to demonstrate the equivalence of the two products.|Ratio of GMCs|1.0|||||TWO_SIDED|95.0|0.8|1.3||||||||1.3|0.8|
82398158|NCT00482170|164506792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.076|TWO_SIDED|95.0|0.97|2.03||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.03|0.97|0.076
82398159|NCT00482170|164506792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.049|TWO_SIDED|95.0|1.0|2.11||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.11|1.00|0.049
82398160|NCT00482170|164506793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.001|TWO_SIDED|95.0|1.32|2.83||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.83|1.32|<0.001
82529915|NCT00791921|164756333|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Regression, Logistic|||For ACR20 responder rate at Week 12, comparison between the CDP870 200 mg group and the placebo group was performed.||||<0.05
82645060|NCT00883740|165005552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.54|||<|0.0001|TWO_SIDED|95.0|17.48|33.61||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||33.61|17.48|<0.0001
82645061|NCT00883740|165005553|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.42|||<|0.0001|TWO_SIDED|95.0|3.74|7.11||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||7.11|3.74|<0.0001
82645062|NCT00883740|165005554|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.41||||0.0135|TWO_SIDED|95.0|-4.31|-0.51||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.51|-4.31|0.0135
82645063|NCT00883740|165005555|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.53||||0.0008|TWO_SIDED|95.0|-2.41|-0.66||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.66|-2.41|0.0008
82645064|NCT00883740|165005556|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.18||||0.0447|TWO_SIDED|95.0|-14.18|-0.17||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||-0.17|-14.18|0.0447
82645065|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||0.3613|TWO_SIDED|95.0|-1.07|0.39||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 1||0.39|-1.07|0.3613
82645066|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0686|TWO_SIDED|95.0|-2.29|0.09||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 2||0.09|-2.29|0.0686
82373250|NCT00626392|164452536|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Cochran-Mantel-Haenszel|||||||0.010
82373251|NCT03151811|164452540|SUPERIORITY|||||||0.0311|||||||Log Rank|||||||0.0311
82373252|NCT01081834|164452549|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.091|<|0.001|TWO_SIDED|95.0|-1.088|-0.729|||ANCOVA|||||-0.729|-1.088|<0.001
82373253|NCT01081834|164452549|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.091|<|0.001|TWO_SIDED|95.0|-1.342|-0.985|||ANCOVA|||||-0.985|-1.342|<0.001
82373254|NCT01081834|164452551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.34|||<|0.001|TWO_SIDED|95.0|3.1|9.23|||Regression, Logistic|||||9.23|3.10|<0.001
82373255|NCT01081834|164452551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.61|||<|0.001|TWO_SIDED|95.0|8.14|26.25|||Regression, Logistic|||||26.25|8.14|<0.001
82373256|NCT01081834|164452552|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-35.5|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-42.22|-28.78|||ANCOVA|||||-28.78|-42.22|<0.001
82373257|NCT01081834|164452552|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-43.4|STANDARD_ERROR_OF_MEAN|3.402|<|0.001|TWO_SIDED|95.0|-50.06|-36.69|||ANCOVA|||||-36.69|-50.06|<0.001
82373258|NCT01081834|164452553|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-49.1|STANDARD_ERROR_OF_MEAN|5.629|<|0.001|TWO_SIDED|95.0|-59.12|-36.99|||ANCOVA|||||-36.99|-59.12|<0.001
82373259|NCT01081834|164452553|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-64.0|STANDARD_ERROR_OF_MEAN|5.616|<|0.001|TWO_SIDED|95.0|-75.02|-52.94|||ANCOVA|||||-52.94|-75.02|<0.001
82373260|NCT01081834|164452554|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.9|-1.6|||ANCOVA|||||-1.6|-2.9|<0.001
82373261|NCT01081834|164452554|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-4.0|-2.6|||ANCOVA|||||-2.6|-4.0|<0.001
82373262|NCT01081834|164452555|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.71|STANDARD_ERROR_OF_MEAN|1.093|<|0.001|TWO_SIDED|95.0|-5.86|-1.568|||ANCOVA|||||-1.568|-5.860|<0.001
82373263|NCT01081834|164452555|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.42|STANDARD_ERROR_OF_MEAN|1.088|<|0.001|TWO_SIDED|95.0|-7.556|-3.28|||ANCOVA|||||-3.280|-7.556|<0.001
82373264|NCT01081834|164452556|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|4.8||0.267|TWO_SIDED|95.0|-14.8|4.1|||ANCOVA|||||4.1|-14.8|0.267
82373265|NCT01081834|164452556|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|4.8||0.034|TWO_SIDED|95.0|-19.6|-0.8|||ANCOVA|||||-0.8|-19.6|0.034
82373266|NCT01081834|164452557|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|2.9|10.6|||ANCOVA|||||10.6|2.9|<0.001
82373267|NCT01081834|164452557|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.9||0.002|TWO_SIDED|95.0|2.2|9.9|||ANCOVA|||||9.9|2.2|0.002
82373268|NCT03149445|164452591|SUPERIORITY||LS Mean Difference|-5.4||||0.1045|TWO_SIDED|95.0|-12.3|1.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||1.5|-12.3|0.1045
82373269|NCT03149445|164452591|SUPERIORITY||LS Mean Difference|0.7||||0.7422|TWO_SIDED|95.0|-4.0|5.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||5.3|-4.0|0.7422
82373270|NCT03149445|164452591|SUPERIORITY||LS Mean Difference|5.6||||0.046|TWO_SIDED|95.0|0.1|11.0||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||11.0|0.1|0.0460
82529916|NCT00791921|164756334|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Regression, Logistic|||||||<0.05
82645067|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.44||||0.0009|TWO_SIDED|95.0|-3.85|-1.03||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 3||-1.03|-3.85|0.0009
82398161|NCT00482170|164506793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||<|0.001|TWO_SIDED|95.0|1.78|3.87||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.87|1.78|<0.001
82398162|NCT00482170|164506793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.42|3.19||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||3.19|1.42|<0.001
82398163|NCT00482170|164506793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.001|TWO_SIDED|95.0|1.52|3.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||3.39|1.52|<0.001
82398164|NCT00482170|164506794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.057|TWO_SIDED|95.0|0.99|2.11||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.11|0.99|0.057
82398165|NCT00482170|164506794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.151|TWO_SIDED|95.0|0.9|1.96||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.96|0.90|0.151
82398166|NCT00482170|164506794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.024|TWO_SIDED|95.0|1.06|2.44||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||2.44|1.06|0.024
82398167|NCT00482170|164506794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.025|TWO_SIDED|95.0|1.06|2.39||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||2.39|1.06|0.025
82445236|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 9V.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.78|1.16|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 9V.||1.16|0.78|
82529917|NCT01965158|164756354|SUPERIORITY_OR_OTHER||Difference|13.0|STANDARD_ERROR_OF_MEAN|4.19||0.002|TWO_SIDED|95.0|4.8|21.3||To control the overall type I error rate to be ≤ 0.05 for the primary and secondary efficacy endpoints, a fixed-sequence (hierarchical) testing approach was applied.|Cochran-Mantel-Haenszel|P-value was calculated by Cochran-Mantel-Haenszel test adjusted by the opioid dose strata.||||21.3|4.8|0.0020
82529918|NCT01965158|164756355|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.271|<|0.0001|TWO_SIDED|95.0|0.77|1.83|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.83|0.77|<0.0001
82398168|NCT00482170|164506795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.24|0.49||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.49|0.24|<0.001
82398169|NCT00482170|164506795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26|||<|0.001|TWO_SIDED|95.0|0.18|0.37||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.37|0.18|<0.001
82398170|NCT00482170|164506795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||<|0.001|TWO_SIDED|95.0|0.21|0.45||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.45|0.21|<0.001
82398171|NCT00482170|164506795|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32|||<|0.001|TWO_SIDED|95.0|0.23|0.47||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.47|0.23|<0.001
82529919|NCT01965158|164756356|SUPERIORITY_OR_OTHER||LS Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.6|2.63|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||2.63|1.60|<0.0001
82529920|NCT01965158|164756357|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.54|1.48|||ANCOVA|ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.48|0.54|<0.0001
82398172|NCT00482170|164506796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38|||<|0.001|TWO_SIDED|95.0|0.27|0.54||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.54|0.27|<0.001
82398173|NCT00482170|164506796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31|||<|0.001|TWO_SIDED|95.0|0.21|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.21|<0.001
82398174|NCT00482170|164506796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.24|0.5||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.50|0.24|<0.001
82398175|NCT00482170|164506796|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||<|0.001|TWO_SIDED|95.0|0.24|0.5||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.50|0.24|<0.001
82398176|NCT00482170|164506797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33|||<|0.001|TWO_SIDED|95.0|0.24|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the training: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.24|<0.001
82398177|NCT00482170|164506797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32|||<|0.001|TWO_SIDED|95.0|0.22|0.46||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.46|0.22|<0.001
82398178|NCT00482170|164506797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38|||<|0.001|TWO_SIDED|95.0|0.26|0.56||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||0.56|0.26|<0.001
82398179|NCT00482170|164506797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41|||<|0.001|TWO_SIDED|95.0|0.28|0.58||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||0.58|0.28|<0.001
82529921|NCT01965158|164756358|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.198||0.0003|TWO_SIDED|95.0|0.34|1.12|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.12|0.34|0.0003
82529922|NCT00474175|164756359|SUPERIORITY_OR_OTHER||Treatment difference|16.46|||<|0.001|TWO_SIDED|95.0|7.2|25.7||Alternative hypotheses tested in the study was that benzocaine 20% was significantly (p less than or equal to \[=\<\] 0.05) more effective than placebo.|Cochran-Mantel-Haenszel|||P-value was calculated using Cochran-Mantel-Haenszel (CMH) test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and its associated confidence interval (C.I.) was calculated based on CMH weighted percentages and the corresponding standard error.||25.7|7.2|<0.001
82645068|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.52||||0.0002|TWO_SIDED|95.0|-5.33|-1.71||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 4||-1.71|-5.33|0.0002
82398180|NCT00482170|164506798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.47|TWO_SIDED|95.0|0.6|1.26||Statistical testing, 2-sided, was done at 5% significance level.|Generalized estimating equations|||Baseline- after the first injection: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.26|0.60|0.470
82398181|NCT00482170|164506798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.325|TWO_SIDED|95.0|0.57|1.2||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 4: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.20|0.57|0.325
82398182|NCT00482170|164506798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.197|TWO_SIDED|95.0|0.55|1.13||Statistical testing, 2-sided, was done at 5% significance level.|Generalized Estimating Equations|||Week 12: A GEE model, using a cumulative logit link, a multinomial distribution and an independent correlation structure, with device group, visit and the interaction between device group and visit as fixed factors, was used to analyze individual concepts and questions measuring participant perception.||1.13|0.55|0.197
82398183|NCT00482170|164506798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.212|TWO_SIDED|95.0|0.56|1.14||Statistical testing, 2-sided, was done at 5% significance level.|Regression, Logistic|||Last observation: Logistic regression was used to analyze individual concepts and questions measuring participant perception.||1.14|0.56|0.212
82398184|NCT00482170|164506799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.35||0.515|TWO_SIDED|95.0|-0.91|0.46||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Baseline- after the training: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an auto-regressive correlation structure was used to calculate 95% CI.||0.46|-0.91|0.515
82373271|NCT03149445|164452591|SUPERIORITY||LS Mean Difference|4.3||||0.3847|TWO_SIDED|95.0|-9.2|17.8||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||17.8|-9.2|0.3847
82373272|NCT03149445|164452592|SUPERIORITY||LS Mean Difference|-6.2||||0.1326|TWO_SIDED|95.0|-14.9|2.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||2.5|-14.9|0.1326
82373273|NCT03149445|164452592|SUPERIORITY||LS Mean Difference|1.2||||0.5148|TWO_SIDED|95.0|-2.9|5.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||5.3|-2.9|0.5148
82373274|NCT03149445|164452592|SUPERIORITY||LS Mean Difference|4.5||||0.0605|TWO_SIDED|95.0|-0.3|9.4||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||9.4|-0.3|0.0605
82373275|NCT03149445|164452592|SUPERIORITY||LS Mean Difference|2.6||||0.5198|TWO_SIDED|95.0|-8.8|14.0||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||14.0|-8.8|0.5198
82373276|NCT03149445|164452593|SUPERIORITY||LS Mean Difference|-8.1||||0.0058|TWO_SIDED|95.0|-12.5|-3.6||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||-3.6|-12.5|0.0058
82373277|NCT03149445|164452593|SUPERIORITY||LS Mean Difference|2.1||||0.5142|TWO_SIDED|95.0|-5.3|9.5||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||9.5|-5.3|0.5142
82373278|NCT03149445|164452593|SUPERIORITY||LS Mean Difference|3.1||||0.3794|TWO_SIDED|95.0|-5.1|11.3||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||11.3|-5.1|0.3794
82373279|NCT03149445|164452593|SUPERIORITY||LS Mean Difference|1.0||||0.685|TWO_SIDED|95.0|-6.1|8.1||P-value from an ANCOVA with treatment as factor and baseline as covariate|ANCOVA|||||8.1|-6.1|0.6850
82373280|NCT04916444|164452615|SUPERIORITY|||||||0.691|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the TWSTRS scores.||||0.691
82373281|NCT04916444|164452616|SUPERIORITY|||||||0.816|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the BDI scores.||||0.816
82373282|NCT04916444|164452617|SUPERIORITY|||||||0.167|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the time to complete the TMT-A task.||||0.167
82398185|NCT00482170|164506799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.34||0.842|TWO_SIDED|95.0|-0.74|0.6||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Week 4: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||0.60|-0.74|0.842
82373283|NCT04916444|164452618|SUPERIORITY|||||||0.507|||||||ANOVA|Two-way repeated measures ANOVA||Null hypothesis is that there was no interaction between the intervention and time factors on the time to complete the TMT-A task.||||0.507
82373284|NCT04916444|164452619|SUPERIORITY|||||||0.056|||||||ANOVA|Two-way repeated measures ANOVA||||||0.056
82373285|NCT04916444|164452620|SUPERIORITY|||||||0.646|||||||ANOVA|Two-way repeated measures ANOVA||||||0.646
82373286|NCT06017479|164452621|OTHER|"Chi-square test as the study used chi-square analysis to compare the incidence of UTIs between the groups (p = 0.660) For this non-inferiority analysis, the study demonstrated that the odds ratio (OR) between the two groups was 0.8 (95% CI: 0.4-1.95), indicating no significant difference. Further details are provided in the study's discussion section."|Odds Ratio (OR)|0.8|STANDARD_DEVIATION|18.125||0.66|TWO_SIDED|95.0|0.4|1.95||The p-value was not adjusted for multiple comparisons as there were no multiple outcome measures being compared in this analysis. The significance threshold (alpha) was set at 0.05.|Chi-squared||"The standard deviations (SD) for the groups are as follows:~For the group receiving 3g fosfomycin: 19.08 For the group receiving 500mg levofloxacin: 17.17"|This randomized controlled trial compared the incidence of UTI between two groups: patients receiving a single dose of 500 mg levofloxacin and patients receiving a single dose of 3 g fosfomycin one hour before a urodynamic study. The null hypothesis is that there is no significant difference in UTI incidence between the two groups. The power calculation was based on a sample size of 126 patients.|A chi-square test was performed to compare the incidence of UTIs between the two groups: patients receiving a single dose of 500 mg levofloxacin and those receiving a single dose of 3 g fosfomycin, both administered one hour before the urodynamic study (UDS). The result showed no statistically significant difference between the two groups (p = 0.660). An odds ratio was also calculated (OR = 0.8, 95% CI: 0.4-1.95), indicating a slightly lower likelihood of UTI in the fosfomycin group, but the difference was not significant.|1.95|0.4|0.660
82373287|NCT00936897|164452622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.8|||ANCOVA||Denosumab - Ibandronate|||1.8|1.0|<0.0001
82373288|NCT00936897|164452623|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82373289|NCT00936897|164452624|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|||<|0.0001|TWO_SIDED|95.0|0.7|1.7|||ANCOVA||Denosumab - Ibandronate|||1.7|0.7|<0.0001
82373290|NCT00936897|164452625|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.5|2.5|||ANCOVA||Denosumab - Ibandronate|||2.5|1.5|<0.0001
82373291|NCT04058067|164452626|SUPERIORITY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.2||0.013|TWO_SIDED|95.0|-3.7|1.1|||ANOVA|||||1.1|-3.7|0.013
82373292|NCT04058067|164452627|SUPERIORITY||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.15||0.035|TWO_SIDED|95.0|-4.2|0.4|||ANOVA|||||0.4|-4.2|0.035
82373293|NCT04058067|164452629|SUPERIORITY||Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-3.0|0.8|||ANOVA|||||0.8|-3.0|
82373294|NCT04058067|164452630|SUPERIORITY||Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-4.0|0.2|||ANOVA|||||0.2|-4.0|
82373295|NCT04058067|164452631|SUPERIORITY||Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-4.3|0.2|||ANOVA|||||0.2|-4.3|
82373296|NCT04058067|164452634|SUPERIORITY||DIfference|-3.0|||||TWO_SIDED|95.0|-13.7|6.7|||Regression, Logistic|||Proportion of subjects with ≥5 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||6.7|-13.7|
82373297|NCT04058067|164452634|SUPERIORITY||Difference|-2.6|||||TWO_SIDED|95.0|-14.7|9.4|||Regression, Logistic|||Proportion of subjects with ≥10 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||9.4|-14.7|
82576080|NCT00422734|164861887|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEP Question 1|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373298|NCT04058067|164452634|SUPERIORITY||Difference|-3.8|||||TWO_SIDED|95.0|-15.5|6.9|||Regression, Logistic|||Proportion of subjects with ≥15 letters gain from baseline or reached BCVA of ≥84 letters at Week 52||6.9|-15.5|
82576081|NCT00422734|164861887|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEP Question 2|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373299|NCT04058067|164452638|SUPERIORITY||DIfference|0.1|||||TWO_SIDED|95.0|-4.2|4.4|||Regression, Logistic|||Proportion of subjects with ≥5 letters loss from baseline at Week 52||4.4|-4.2|
82373300|NCT04058067|164452638|SUPERIORITY||Difference|0.8|||||TWO_SIDED|95.0|-1.6|3.8|||Regression, Logistic|||Proportion of subjects with ≥10 letters loss from baseline at Week 52||3.8|-1.6|
82373301|NCT04058067|164452638|SUPERIORITY||Difference|0.0|||||TWO_SIDED|95.0|-2.2|2.3|||Regression, Logistic|||Proportion of subjects with ≥15 letters loss from baseline at Week 52||2.3|-2.2|
82373302|NCT04058067|164452639|OTHER|Descriptive, Week 4|Difference - %|0.4|||||TWO_SIDED|95.0|-7.9|8.6|||Clopper-Pearson exact method|||Week 4||8.6|-7.9|
82373303|NCT04058067|164452639|OTHER|Descriptive, Week 6|Difference - %|-5.1|||||TWO_SIDED|95.0|-14.3|2.9|||Clopper-Pearson exact method|||Week 6||2.9|-14.3|
82373304|NCT04058067|164452639|OTHER|Descriptive, Week 8|Difference - %|-4.0||||||95.0|-13.3|4.4|||Clopper-Pearson exact method|||Week 8||4.4|-13.3|
82373305|NCT04058067|164452639|OTHER|Descriptive, Week 12|Difference - %|-7.0|||||TWO_SIDED|95.0|-16.4|2.3|||Clopper-Pearson exact method|||Week 12||2.3|-16.4|
82373306|NCT04058067|164452639|OTHER|Descriptive, Week 16|Difference - %|-9.8|||||TWO_SIDED|95.0|-19.2|0.0|||Clopper-Pearson exact method|||Week 16||-0.0|-19.2|
82373307|NCT04058067|164452639|OTHER|Descriptive, Week 18|Difference - %|-9.8|||||TWO_SIDED|95.0|-19.0|0.0|||Clopper-Pearson exact method|||Week 18||-0.0|-19.0|
82398186|NCT00482170|164506799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.33||0.928|TWO_SIDED|95.0|-0.67|0.61||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Week 12: Mixed linear model with participant as random effect, treatment group, visit and the interaction between treatment group and visit as fixed factors and with an unstructured correlation was used for the analysis.||0.61|-0.67|0.928
82373308|NCT04058067|164452639|OTHER|Descriptive, Week 20|Difference - %|-5.7|||||TWO_SIDED|95.0|-15.8|3.9|||Clopper-Pearson exact method|||Week 20||3.9|-15.8|
82373309|NCT04058067|164452639|OTHER|Descriptive, Week 24|Difference - %|-13.4|||||TWO_SIDED|95.0|-23.9|-3.1|||Clopper-Pearson exact method|||Week 24||-3.1|-23.9|
82373310|NCT04058067|164452639|OTHER|Descriptive, Week 28|Difference - %|-12.4|||||TWO_SIDED|95.0|-22.0|-2.1|||Clopper-Pearson exact method|||Week 28||-2.1|-22.0|
82373311|NCT04058067|164452639|OTHER|Descriptive, Week 32|Difference - %|-15.4|||||TWO_SIDED|95.0|-26.0|-4.8|||Clopper-Pearson exact method|||Week 32||-4.8|-26.0|
82398187|NCT00482170|164506799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.32||0.974|TWO_SIDED|95.0|-0.62|0.64||Statistical testing, 2-sided, was done at 5% significance level.|ANOVA|||Last observation: ANOVA method was used for the analysis.||0.64|-0.62|0.974
82373312|NCT04058067|164452639|OTHER|Descriptive, Week 36|Difference - %|-18.8|||||TWO_SIDED|95.0|-29.5|-8.9|||Clopper-Pearson exact method.|||Week 36||-8.9|-29.5|
82373313|NCT04058067|164452639|OTHER|Descriptive, Week 40|Difference - %|-18.4|||||TWO_SIDED|95.0|-28.7|-8.6|||Clopper-Pearson exact method|||Week 40||-8.6|-28.7|
82373314|NCT04058067|164452639|OTHER|Descriptive, Week 44|Difference - %|-14.9|||||TWO_SIDED|95.0|-25.6|-4.4|||Clopper-Pearson exact method|||Week 44||-4.4|-25.6|
82373315|NCT04058067|164452639|OTHER|Descriptive, Week 48|Difference - %|-13.3|||||TWO_SIDED|95.0|-23.6|-3.4|||Clopper-Pearson exact method|||Week 48||-3.4|-23.6|
82373316|NCT04058067|164452639|OTHER|Descriptive, Week 52|Difference - %|-12.6|||||TWO_SIDED|95.0|-23.5|-2.9|||Clopper-Pearson exact method|||Week 52||-2.9|-23.5|
82373317|NCT04058067|164452640|SUPERIORITY||Difference|-1.3|||||TWO_SIDED|95.0|-13.6|11.2|||Clopper-Pearson exact method|||||11.2|-13.6|
82373318|NCT04058067|164452642|SUPERIORITY||Difference|-10.2|STANDARD_ERROR_OF_MEAN|13.79|||TWO_SIDED|95.0|-37.3|17.0|||ANOVA|||||17.0|-37.3|
82373319|NCT04058067|164452643|SUPERIORITY||Difference|-2.5|STANDARD_ERROR_OF_MEAN|12.34|||TWO_SIDED|95.0|-26.8|21.9|||ANOVA|||||21.9|-26.8|
82373320|NCT04058067|164452644|SUPERIORITY||Difference|-8.5|STANDARD_ERROR_OF_MEAN|11.03|||TWO_SIDED|95.0|-30.3|13.2|||ANOVA|||||13.2|-30.3|
82373321|NCT04058067|164452645|SUPERIORITY||Difference - %|5.3|||||TWO_SIDED|95.0|-3.3|13.5|||Clopper-Pearson exact method|||Week 4||13.5|-3.3|
82373322|NCT04058067|164452645|SUPERIORITY||Difference - %|10.8|||||TWO_SIDED|95.0|1.4|20.6|||Clopper-Pearson exact method|||Week 6||20.6|1.4|
82373323|NCT04058067|164452645|SUPERIORITY||Difference - %|14.1|||||TWO_SIDED|95.0|3.9|25.3|||Clopper-Pearson exact method|||Week 8||25.3|3.9|
82373324|NCT04058067|164452645|SUPERIORITY||Difference - %|14.1|||||TWO_SIDED|95.0|2.8|24.9|||Clopper-Pearson exact method||Proportion estimates (%) = 39.3|Week 12||24.9|2.8|
82373325|NCT04058067|164452645|SUPERIORITY||Difference - %|16.8||||||95.0|5.1|28.6|||Clopper-Pearson exact method|||Week 16||28.6|5.1|
82373326|NCT04058067|164452645|SUPERIORITY||Difference - %|15.4|||||TWO_SIDED|95.0|3.1|26.6|||Clopper-Pearson exact method|||Week 18||26.6|3.1|
82373327|NCT04058067|164452645|SUPERIORITY||Difference - %|15.7|||||TWO_SIDED|95.0|3.5|27.1|||Clopper-Pearson exact method|||Week 20||27.1|3.5|
82373328|NCT04058067|164452645|SUPERIORITY||Difference - %|19.1|||||TWO_SIDED|95.0|7.2|30.2|||Clopper-Pearson exact method|||Week 24||30.2|7.2|
82373329|NCT04058067|164452645|SUPERIORITY||Difference - %|16.4|||||TWO_SIDED|95.0|4.9|27.9|||Clopper-Pearson exact method|||Week 28||27.9|4.9|
82373330|NCT04058067|164452645|SUPERIORITY||Difference - %|12.1|||||TWO_SIDED|95.0|0.4|24.4|||Clopper-Pearson exact method|||Week 32||24.4|0.4|
82398188|NCT00482170|164506800|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated using ANOVA.||||0.030
82398189|NCT00482170|164506800|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated using ANOVA.||||0.010
82398190|NCT00482170|164506801|SUPERIORITY_OR_OTHER|||||||0.984||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.984
82529923|NCT00474175|164756359|SUPERIORITY_OR_OTHER||Treatment difference|9.8||||0.038|TWO_SIDED|95.0|0.3|19.3||Alternative hypotheses tested in the study was that benzocaine 10% was significantly (p=\<0.05) more effective than placebo provided that benzocaine 20% was more effective than placebo.|Cochran-Mantel-Haenszel|||P-value was calculated using CMH test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and its associated C.I. was calculated based on CMH weighted percentages and the corresponding standard error.||19.3|0.3|0.038
82645069|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01||||0.0065|TWO_SIDED|95.0|-5.16|-0.86||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 5||-0.86|-5.16|0.0065
82645070|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.89||||0.0024|TWO_SIDED|95.0|-6.36|-1.41||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 6||-1.41|-6.36|0.0024
82645071|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.59||||0.0366|TWO_SIDED|95.0|-5.01|-0.16||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 7||-0.16|-5.01|0.0366
82645072|NCT00883740|165005557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85||||0.0593|TWO_SIDED|95.0|-5.82|0.11||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Hour 8||0.11|-5.82|0.0593
82645073|NCT00883740|165005558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25||||0.1106|TWO_SIDED|95.0|-2.79|0.29||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 1||0.29|-2.79|0.1106
82645074|NCT00883740|165005558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.0|||<|0.0001|TWO_SIDED|95.0|-8.49|-3.51||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 2||-3.51|-8.49|<0.0001
82645075|NCT00883740|165005558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.83||||0.0004|TWO_SIDED|95.0|-10.53|-3.13||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 3||-3.13|-10.53|0.0004
82645076|NCT00883740|165005558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.44||||0.0199|TWO_SIDED|95.0|-10.0|-0.88||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Quarter 4||-0.88|-10.00|0.0199
82645077|NCT00883740|165005559|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.14||||0.0024|TWO_SIDED|95.0|0.78|3.5||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||||3.50|0.78|0.0024
82645078|NCT00883740|165005560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.13||||0.0591|TWO_SIDED|95.0|-16.59|0.32||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 5||0.32|-16.59|0.0591
82645079|NCT00883740|165005560|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.81|||<|0.0001|TWO_SIDED|95.0|-27.43|-10.2||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 11||-10.20|-27.43|<0.0001
82645080|NCT00883740|165005561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.47||||0.1101|TWO_SIDED|95.0|-12.2|1.26||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 5||1.26|-12.20|0.1101
82645081|NCT00883740|165005561|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.39||||0.0002|TWO_SIDED|95.0|-20.36|-6.42||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 11||-6.42|-20.36|0.0002
82645082|NCT00883740|165005562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.24||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||1.24|0.58|<0.0001
82645083|NCT00883740|165005562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.14|||<|0.0001|TWO_SIDED|95.0|0.76|1.53||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||1.53|0.76|<0.0001
82576082|NCT00422734|164861888|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Total Score|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82645084|NCT00883740|165005562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.46|1.28||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||1.28|0.46|<0.0001
82645085|NCT00883740|165005562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|||<|0.0001|TWO_SIDED|95.0|0.51|1.26||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||1.26|0.51|<0.0001
82373331|NCT04058067|164452645|SUPERIORITY||Difference - %|6.0|||||TWO_SIDED|95.0|-5.9|18.0|||Clopper-Pearson exact method|||Week 36||18.0|-5.9|
82398191|NCT00482170|164506801|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.549
82398192|NCT00482170|164506802|SUPERIORITY_OR_OTHER|||||||0.158||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.158
82398193|NCT00482170|164506802|SUPERIORITY_OR_OTHER|||||||0.808||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.808
82398194|NCT00482170|164506803|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-A, satisfied: HAD-A and less satisfied: HAD-A, in the etanercept 50 mg auto-injector group was calculated.||||0.029
82398195|NCT00482170|164506803|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-A, satisfied: HAD-A and less satisfied: HAD-A, in the etanercept 50 mg prefilled syringe group was calculated.||||0.005
82398196|NCT00482170|164506803|SUPERIORITY_OR_OTHER|||||||0.411||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-D, satisfied: HAD-D and less satisfied: HAD-D, in the etanercept 50 mg auto-injector group was calculated.||||0.411
82398197|NCT00482170|164506803|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Kruskal-Wallis|||p-value for statistical difference between categories, very satisfied: HAD-D, satisfied: HAD-D and less satisfied: HAD-D, in the etanercept 50 mg prefilled syringe group was calculated.||||0.005
82398198|NCT00482170|164506804|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.039
82398199|NCT00482170|164506804|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.006
82529924|NCT00474175|164756359|SUPERIORITY_OR_OTHER||Treatment difference|6.72||||0.047|TWO_SIDED|95.0|0.2|13.3|||Cochran-Mantel-Haenszel|Dose response was considered established if the percentage of responders between the 20% and 10% was greater than or equal to 5%.||P-value was calculated using CMH test which was adjusted for site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and its associated C.I. was calculated based on CMH weighted percentages and the corresponding standard error.||13.3|0.2|0.047
82398200|NCT00482170|164506805|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.752
82398201|NCT00482170|164506805|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.700
82398202|NCT00482170|164506806|SUPERIORITY_OR_OTHER|||||||0.697||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.697
82398203|NCT00482170|164506806|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Chi-squared|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.159
82398204|NCT00482170|164506807|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.004
82398205|NCT00482170|164506807|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.024
82398206|NCT00482170|164506808|SUPERIORITY_OR_OTHER|||||||0.652||95.0|||||Kruskal-Wallis|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.652
82398207|NCT00482170|164506808|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Kruskal-Wallis|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.024
82398208|NCT00482170|164506809|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.560
82398209|NCT00482170|164506809|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.474
82398210|NCT00482170|164506810|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.023
82398211|NCT00482170|164506810|SUPERIORITY_OR_OTHER|||||||0.089||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.089
82398212|NCT00482170|164506811|SUPERIORITY_OR_OTHER|||||||0.494||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.494
82398213|NCT00482170|164506811|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.782
82398214|NCT00482170|164506812|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg auto-injector group was calculated.||||0.444
82398215|NCT00482170|164506812|SUPERIORITY_OR_OTHER|||||||0.947||95.0|||||ANOVA|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.947
82398216|NCT00482170|164506813|SUPERIORITY_OR_OTHER|||||||0.787||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: tobacco usage- yes, very satisfied: tobacco usage- no, satisfied: tobacco usage- yes, satisfied: tobacco usage- no, less satisfied: tobacco usage- yes and less satisfied: tobacco usage- no, in the etanercept 50 mg auto-injector group was calculated.||||0.787
82398217|NCT00482170|164506813|SUPERIORITY_OR_OTHER|||||||0.379||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: tobacco usage- yes, very satisfied: tobacco usage- no, satisfied: tobacco usage- yes, satisfied: tobacco usage- no, less satisfied: tobacco usage- yes and less satisfied: tobacco usage- no, in the etanercept 50 mg prefilled syringe group was calculated.||||0.379
82398218|NCT00482170|164506813|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: alcohol usage- yes, very satisfied: alcohol usage- no, satisfied: alcohol usage- yes, satisfied: alcohol usage- no, less satisfied: alcohol usage- yes and less satisfied: alcohol usage- no, in the etanercept 50 mg auto-injector group was calculated.||||0.098
82576083|NCT00422734|164861888|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Sexual Relationship|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373332|NCT04058067|164452645|SUPERIORITY||Difference - %|15.2|||||TWO_SIDED|95.0|3.3|26.1|||Clopper-Pearson exact method|||Week 40||26.1|3.3|
82373333|NCT04058067|164452645|SUPERIORITY||Difference - %|13.2|||||TWO_SIDED|95.0|1.9|25.7|||Clopper-Pearson exact method|||Week 44||25.7|1.9|
82373334|NCT04058067|164452645|SUPERIORITY||Difference - %|11.9|||||TWO_SIDED|95.0|-0.8|23.6|||Clopper-Pearson exact method|||Week 48||23.6|-0.8|
82373335|NCT04058067|164452645|SUPERIORITY||Difference - %|17.9|||||TWO_SIDED|95.0|5.8|30.5|||Clopper-Pearson exact method|||Week 52||30.5|5.8|
82373336|NCT04058067|164452646|SUPERIORITY||Difference|0.9|||||TWO_SIDED|95.0|0.8|3.6|||Clopper-Pearson exact method|||||3.6|0.8|
82373337|NCT04058067|164452647|SUPERIORITY||Difference|-4.3|||||TWO_SIDED|95.0|-13.2|4.6|||Clopper-Pearson exact method|||||4.6|-13.2|
82373338|NCT04058067|164452648|SUPERIORITY||Difference|1.0|||||TWO_SIDED|95.0|-10.5|12.4|||Clopper-Pearson exact method|||||12.4|-10.5|
82373339|NCT04058067|164452653|OTHER|Descriptive, Week 28|Difference - %|-2.4|||||TWO_SIDED|95.0|-13.9|8.8|||Clopper-Pearson exact method|||Week 28||8.8|-13.9|
82373340|NCT04058067|164452653|OTHER|Descriptive, Week 52|Difference - %|-2.8|||||TWO_SIDED|95.0|-14.1|9.0|||Clopper-Pearson exact method|||Week 52||9.0|-14.1|
82373341|NCT04058067|164452655|OTHER|Descriptive, Week 28|Difference - %|4.2|||||TWO_SIDED|95.0|-4.1|12.6|||Clopper-Pearson exact method|||Week 28||12.6|-4.1|
82576084|NCT00422734|164861888|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Confidence|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82645086|NCT00883740|165005563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.66||||0.0001|TWO_SIDED|95.0|-11.44|-3.89||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-3.89|-11.44|0.0001
82373342|NCT04058067|164452655|OTHER|Descriptive, Week 52|Difference - %|-0.5|||||TWO_SIDED|95.0|-10.5|9.3|||Clopper-Pearson exact method|||Week 52||9.3|-10.5|
82373343|NCT04058067|164452657|OTHER|Descriptive, Week 28|Difference - %|0.8|||||TWO_SIDED|95.0|0.7|2.9|||Clopper-Pearson exact method|||Week 28||2.9|0.7|
82373344|NCT04058067|164452659|OTHER|Descriptive, Week 28|Difference - %|0.8|||||TWO_SIDED|95.0|0.7|2.9|||Clopper-Pearson exact method|||Week 28||2.9|0.7|
82373345|NCT04058067|164452660|SUPERIORITY||LS mean difference|-0.9||||||95.0|-4.1|2.3|||ANCOVA|||Week 28||2.3|-4.1|
82373346|NCT04058067|164452660|SUPERIORITY||LS mean difference|0.1|||||TWO_SIDED|95.0|-3.1|3.3|||ANCOVA|||Week 52||3.3|-3.1|
82645087|NCT00883740|165005563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.67||||0.0077|TWO_SIDED|95.0|-13.27|-2.07||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-2.07|-13.27|0.0077
82373347|NCT05005312|164452682|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|101.96|||||TWO_SIDED|90.0|74.2|140.11|||ANOVA|||||140.11|74.20|
82373348|NCT05005312|164452683|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|99.29|||||TWO_SIDED|90.0|70.81|139.21|||ANOVA|||||139.21|70.81|
82373349|NCT05005312|164452684|OTHER|The ratio and 90% CI were expressed as percentages|Ratio of Adjusted Geometric Means|98.78|||||TWO_SIDED|90.0|70.65|138.12|||ANOVA|||||138.12|70.65|
82373350|NCT05502081|164452700|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373351|NCT05502081|164452700|SUPERIORITY|||||||0.176|||||||Kruskal-Wallis|||||||0.176
82373352|NCT05502081|164452700|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373353|NCT05502081|164452700|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373354|NCT05502081|164452701|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
82373355|NCT05502081|164452701|SUPERIORITY|||||||0.021|||||||Kruskal-Wallis|||||||0.021
82373356|NCT05502081|164452701|SUPERIORITY|||||||0.42|||||||Kruskal-Wallis|||||||0.42
82373357|NCT05502081|164452701|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
82373358|NCT05502081|164452702|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
82373359|NCT05502081|164452703|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
82373360|NCT05502081|164452703|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
82373361|NCT05502081|164452703|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373362|NCT05502081|164452703|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373363|NCT05502081|164452704|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373364|NCT05502081|164452704|SUPERIORITY|||||||0.119|||||||Kruskal-Wallis|||||||0.119
82373365|NCT05502081|164452704|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373366|NCT05502081|164452704|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373367|NCT05502081|164452705|SUPERIORITY|||||||0.933|||||||Kruskal-Wallis|||||||0.933
82373368|NCT05502081|164452706|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
82373369|NCT05502081|164452706|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
82373370|NCT05502081|164452706|SUPERIORITY|||||||0.185|||||||Kruskal-Wallis|||||||0.185
82373371|NCT05502081|164452706|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82373372|NCT05502081|164452707|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373373|NCT05502081|164452707|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373374|NCT05502081|164452707|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373375|NCT05502081|164452707|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373376|NCT05502081|164452708|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373377|NCT05502081|164452708|SUPERIORITY|||||||0.758|||||||Kruskal-Wallis|||||||0.758
82373378|NCT05502081|164452708|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373379|NCT05502081|164452708|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373380|NCT05502081|164452709|SUPERIORITY|||||||0.412|||||||Kruskal-Wallis|||||||0.412
82373381|NCT05502081|164452710|SUPERIORITY|||||||0.106|||||||Kruskal-Wallis|||||||0.106
82373382|NCT05502081|164452711|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82373383|NCT05502081|164452711|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||||||0.06
82373384|NCT05502081|164452711|SUPERIORITY|||||||0.156|||||||Kruskal-Wallis|||||||0.156
82373385|NCT05502081|164452711|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373386|NCT05502081|164452712|SUPERIORITY|||||||0.219|||||||Kruskal-Wallis|||||||0.219
82373387|NCT05502081|164452713|SUPERIORITY|||||||0.298|||||||Kruskal-Wallis|||||||0.298
82373388|NCT05502081|164452714|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82373389|NCT05502081|164452714|SUPERIORITY|||||||0.232|||||||Kruskal-Wallis|||||||0.232
82373390|NCT05502081|164452714|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82373391|NCT05502081|164452714|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
82373392|NCT05502081|164452715|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
82373393|NCT05502081|164452715|SUPERIORITY|||||||0.232|||||||Kruskal-Wallis|||||||0.232
82373394|NCT05502081|164452715|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82398219|NCT00482170|164506813|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||Chi-squared|||p-value for statistical difference between categories, very satisfied: alcohol usage- yes, very satisfied: alcohol usage- no, satisfied: alcohol usage- yes, satisfied: alcohol usage- no, less satisfied: alcohol usage- yes and less satisfied: alcohol usage- no, in the etanercept 50 mg prefilled syringe group was calculated.||||0.166
82576085|NCT00422734|164861889|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Self-Esteem|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82645088|NCT00883740|165005563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.68||||0.2196|TWO_SIDED|95.0|-14.81|3.44||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||3.44|-14.81|0.2196
82373395|NCT05502081|164452715|SUPERIORITY|||||||0.054|||||||Kruskal-Wallis|||||||0.054
82373396|NCT05502081|164452716|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
82373397|NCT05502081|164452716|SUPERIORITY|||||||0.557|||||||Kruskal-Wallis|||||||0.557
82373398|NCT05502081|164452716|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373399|NCT05502081|164452716|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82373400|NCT05502081|164452717|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373401|NCT05502081|164452717|SUPERIORITY|||||||0.51|||||||Kruskal-Wallis|||||||0.51
82373402|NCT05502081|164452717|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373403|NCT05502081|164452717|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373404|NCT05502081|164452718|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373405|NCT05502081|164452718|SUPERIORITY|||||||0.891|||||||Kruskal-Wallis|||||||0.891
82373406|NCT05502081|164452718|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373407|NCT05502081|164452718|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373408|NCT05502081|164452719|SUPERIORITY|||||||0.516|||||||Kruskal-Wallis|||||||0.516
82373409|NCT05502081|164452720|SUPERIORITY|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||||||0.264
82373410|NCT05502081|164452721|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373411|NCT05502081|164452721|SUPERIORITY|||||||0.256|||||||Kruskal-Wallis|||||||0.256
82373412|NCT05502081|164452721|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373413|NCT05502081|164452721|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373414|NCT05502081|164452722|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
82373415|NCT05502081|164452722|SUPERIORITY|||||||0.797|||||||Kruskal-Wallis|||||||0.797
82373416|NCT05502081|164452722|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373417|NCT05502081|164452722|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82373418|NCT05502081|164452723|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373419|NCT05502081|164452724|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373420|NCT05502081|164452724|SUPERIORITY|||||||0.982|||||||Kruskal-Wallis|||||||0.982
82373421|NCT05502081|164452724|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373422|NCT05502081|164452724|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373423|NCT05502081|164452725|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82373424|NCT05502081|164452725|SUPERIORITY|||||||0.136|||||||Kruskal-Wallis|||||||0.136
82373425|NCT05502081|164452725|SUPERIORITY|||||||0.062|||||||Kruskal-Wallis|||||||0.062
82373426|NCT05502081|164452725|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
82373427|NCT05502081|164452726|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
82373428|NCT05502081|164452727|SUPERIORITY|||||||0.687|||||||Kruskal-Wallis|||||||0.687
82373429|NCT05502081|164452728|SUPERIORITY|||||||0.278|||||||Kruskal-Wallis|||||||0.278
82373430|NCT05502081|164452729|SUPERIORITY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||||||0.99
82373431|NCT05502081|164452730|SUPERIORITY|||||||0.574|||||||Kruskal-Wallis|||||||0.574
82373432|NCT05502081|164452731|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
82373433|NCT05502081|164452731|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
82373434|NCT05502081|164452731|SUPERIORITY|||||||0.041|||||||Kruskal-Wallis|||||||0.041
82373435|NCT05502081|164452731|SUPERIORITY|||||||0.616|||||||Kruskal-Wallis|||||||0.616
82373436|NCT05502081|164452732|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||||||0.99
82373437|NCT05502081|164452733|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373438|NCT05502081|164452733|SUPERIORITY|||||||0.208|||||||Kruskal-Wallis|||||||0.208
82373439|NCT05502081|164452733|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373440|NCT05502081|164452733|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373441|NCT05502081|164452734|SUPERIORITY|||||||0.088|||||||Kruskal-Wallis|||||||0.088
82373442|NCT05502081|164452735|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373443|NCT05502081|164452736|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
82373444|NCT05502081|164452736|SUPERIORITY|||||||0.151|||||||Kruskal-Wallis|||||||0.151
82398220|NCT00482170|164506814|SUPERIORITY_OR_OTHER|||||||0.535||95.0|||||Fisher Exact|||p-value for statistical difference between all categories in the etanercept 50 mg prefilled syringe group was calculated.||||0.535
82529925|NCT00474175|164756360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.02|||<|0.001|TWO_SIDED|95.0|1.55|2.64||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. Hazard Ratio (HR) of Benzocaine 20% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.64|1.55|<0.001
82645089|NCT00883740|165005563|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.18||||0.0081|TWO_SIDED|95.0|-10.73|-1.64||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-1.64|-10.73|0.0081
82373445|NCT05502081|164452736|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373446|NCT05502081|164452736|SUPERIORITY|||||||0.035|||||||Kruskal-Wallis|||||||0.035
82373447|NCT05502081|164452737|SUPERIORITY|||||||0.037|||||||Kruskal-Wallis|||||||0.037
82373448|NCT05502081|164452737|SUPERIORITY|||||||0.997|||||||Kruskal-Wallis|||||||0.997
82373449|NCT05502081|164452737|SUPERIORITY|||||||0.016|||||||Kruskal-Wallis|||||||0.016
82373450|NCT05502081|164452737|SUPERIORITY|||||||0.014|||||||Kruskal-Wallis|||||||0.014
82373451|NCT05502081|164452738|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82373452|NCT05502081|164452739|SUPERIORITY|||||||0.047|||||||Kruskal-Wallis|||||||0.047
82373453|NCT05502081|164452739|SUPERIORITY|||||||0.04|||||||Kruskal-Wallis|||||||0.04
82373454|NCT05502081|164452739|SUPERIORITY|||||||0.036|||||||Kruskal-Wallis|||||||0.036
82373455|NCT05502081|164452739|SUPERIORITY|||||||0.67|||||||Kruskal-Wallis|||||||0.67
82373456|NCT05502081|164452740|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82373457|NCT05502081|164452740|SUPERIORITY|||||||0.027|||||||Kruskal-Wallis|||||||0.027
82373458|NCT05502081|164452740|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||||||0.008
82576086|NCT00422734|164861889|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for SEAR Overall Relationship|ANCOVA|Change from baseline ANCOVA model: treatment group, baseline value, pooled site. Baseline-by-treatment interaction included if interaction at p\<0.10.||||||<0.001
82373459|NCT05502081|164452740|SUPERIORITY|||||||0.38|||||||Kruskal-Wallis|||||||0.38
82373460|NCT05502081|164452741|SUPERIORITY|||||||0.814|||||||Kruskal-Wallis|||||||0.814
82373461|NCT05502081|164452742|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373462|NCT05502081|164452743|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373463|NCT05502081|164452743|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373464|NCT05502081|164452743|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373465|NCT05502081|164452743|SUPERIORITY|||||||0.971|||||||Kruskal-Wallis|||||||0.971
82373466|NCT05502081|164452744|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373467|NCT05502081|164452744|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373468|NCT05502081|164452745|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
82373469|NCT05502081|164452745|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
82373470|NCT05502081|164452745|SUPERIORITY|||||||0.452|||||||Kruskal-Wallis|||||||0.452
82373471|NCT05502081|164452745|SUPERIORITY|||||||0.237|||||||Kruskal-Wallis|||||||0.237
82373472|NCT05502081|164452746|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373473|NCT05502081|164452747|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82373474|NCT05502081|164452747|SUPERIORITY|||||||0.223|||||||Kruskal-Wallis|||||||0.223
82373475|NCT05502081|164452747|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82373476|NCT05502081|164452747|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
82373477|NCT05502081|164452748|SUPERIORITY|||||||0.423|||||||Kruskal-Wallis|||||||0.423
82373478|NCT05502081|164452749|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||||||0.429
82373479|NCT05502081|164452750|SUPERIORITY|||||||0.089|||||||Kruskal-Wallis|||||||0.089
82373480|NCT05502081|164452751|SUPERIORITY|||||||0.222|||||||Kruskal-Wallis|||||||0.222
82373481|NCT05502081|164452752|SUPERIORITY|||||||0.252|||||||Kruskal-Wallis|||||||0.252
82373482|NCT05502081|164452753|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373483|NCT05502081|164452754|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||0.007
82373484|NCT05502081|164452754|SUPERIORITY|||||||0.382|||||||Kruskal-Wallis|||||||0.382
82373485|NCT05502081|164452754|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||||||0.017
82373486|NCT05502081|164452754|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
82373487|NCT05502081|164452755|SUPERIORITY|||||||0.457|||||||Kruskal-Wallis|||||||0.457
82373488|NCT05502081|164452756|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82373489|NCT05502081|164452757|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82373490|NCT05502081|164452757|SUPERIORITY|||||||0.605|||||||Kruskal-Wallis|||||||0.605
82373491|NCT05502081|164452757|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373492|NCT05502081|164452757|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82373493|NCT05502081|164452758|SUPERIORITY|||||||0.293|||||||Kruskal-Wallis|||||||0.293
82373494|NCT05502081|164452759|SUPERIORITY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82373495|NCT05502081|164452760|SUPERIORITY|||||||0.36|||||||Kruskal-Wallis|||||||0.36
82373496|NCT05502081|164452761|SUPERIORITY|||||||0.404|||||||Kruskal-Wallis|||||||0.404
82373497|NCT05502081|164452762|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373498|NCT05502081|164452762|SUPERIORITY|||||||0.234|||||||Kruskal-Wallis|||||||0.234
82373499|NCT05502081|164452762|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373500|NCT05502081|164452762|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373501|NCT05502081|164452763|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373502|NCT05502081|164452763|SUPERIORITY|||||||0.223|||||||Kruskal-Wallis|||||||0.223
82373503|NCT05502081|164452763|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373504|NCT05502081|164452763|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373505|NCT05502081|164452764|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373506|NCT05502081|164452764|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||||||0.002
82373507|NCT05502081|164452764|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373508|NCT05502081|164452764|SUPERIORITY|||||||0.213|||||||Kruskal-Wallis|||||||0.213
82373509|NCT05502081|164452765|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373510|NCT05502081|164452765|SUPERIORITY|||||||0.478|||||||Kruskal-Wallis|||||||0.478
82373511|NCT05502081|164452765|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373512|NCT05502081|164452765|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373513|NCT05502081|164452766|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373514|NCT05502081|164452766|SUPERIORITY|||||||0.413|||||||Kruskal-Wallis|||||||0.413
82373515|NCT05502081|164452766|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373516|NCT05502081|164452766|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373517|NCT05502081|164452767|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||||||0.005
82373518|NCT05502081|164452767|SUPERIORITY|||||||0.155|||||||Kruskal-Wallis|||||||0.155
82373519|NCT05502081|164452767|SUPERIORITY|||||||0.022|||||||Kruskal-Wallis|||||||0.022
82373520|NCT05502081|164452767|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82373521|NCT05502081|164452768|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82529926|NCT00474175|164756360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.63|||<|0.001|TWO_SIDED|95.0|1.26|2.12||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 10% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.12|1.26|<0.001
82373522|NCT05502081|164452769|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373523|NCT05502081|164452769|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82373524|NCT05502081|164452769|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82373525|NCT05502081|164452769|SUPERIORITY|||||||0.011|||||||Kruskal-Wallis|||||||0.011
82373526|NCT05502081|164452770|SUPERIORITY|||||||0.189|||||||Kruskal-Wallis|||||||0.189
82373527|NCT05502081|164452771|SUPERIORITY|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||||||0.414
82373528|NCT03464630|164452775|SUPERIORITY|||||||0.503||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.503
82373529|NCT03464630|164452776|SUPERIORITY||||||<|0.001||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||<0.001
82373530|NCT03464630|164452777|SUPERIORITY|||||||0.059||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.059
82373531|NCT03464630|164452778|SUPERIORITY|||||||0.702||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.702
82373532|NCT03464630|164452779|SUPERIORITY|||||||0.08||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.08
82373533|NCT03464630|164452780|SUPERIORITY|||||||0.09||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.09
82373534|NCT03464630|164452781|SUPERIORITY|||||||0.898||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.898
82373535|NCT03464630|164452782|SUPERIORITY|||||||0.349||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||0.349
82373536|NCT03464630|164452783|SUPERIORITY||||||<|0.001||||||P-value is Bonferroni correction adjusted at 0.05|GLM Repeated Measures|||||||<0.001
82373537|NCT02256436|164452791|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.41648|TWO_SIDED|95.0|0.81|1.19||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - All Participants||1.19|0.81|0.41648
82373538|NCT02256436|164452792|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.00224|TWO_SIDED|95.0|0.59|0.91||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - All Participants (Note: ECOG PS=Eastern Cooperative Oncology Group Performance Status)||0.91|0.59|0.00224
82373539|NCT02256436|164452793|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.26443|TWO_SIDED|95.0|0.68|1.24||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - PD-L1 positive participants||1.24|0.68|0.26443
82373540|NCT02256436|164452794|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61||||0.00239|TWO_SIDED|95.0|0.43|0.86||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - PD-L1 positive participants||0.86|0.43|0.00239
82373541|NCT02256436|164452795|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.23958|TWO_SIDED|95.0|0.61|1.28||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS - Strongly PD-L1 positive participants||1.28|0.61|0.23958
82373542|NCT02256436|164452796|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.00483|TWO_SIDED|95.0|0.37|0.88||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||OS - Strongly PD-L1 positive participants||0.88|0.37|0.00483
82373543|NCT02256436|164452799|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|17.2||||0.00061|TWO_SIDED|95.0|6.8|29.4||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - Strongly PD-L1 Positive Participants||29.4|6.8|0.00061
82373544|NCT02256436|164452800|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|15.6||||0.00049|TWO_SIDED|95.0|6.5|25.7||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - PD-L1 Positive Participants||25.7|6.5|0.00049
82373545|NCT02256436|164452801|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|10.0||||0.00068|TWO_SIDED|95.0|3.9|16.2||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per RECIST 1.1 - All Participants||16.2|3.9|0.00068
82373546|NCT02256436|164452802|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.07066|TWO_SIDED|95.0|0.53|1.11||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - Strongly PD-L1 Positive Participants||1.11|0.53|0.07066
82373547|NCT02256436|164452803|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.08745|TWO_SIDED|95.0|0.6|1.1||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - PD-L1 Positive Participants||1.10|0.60|0.08745
82373548|NCT02256436|164452804|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.05328|TWO_SIDED|95.0|0.71|1.04||One-sided p-value based on stratified log-rank test|Regression, Cox|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||PFS per mRECIST - All Participants||1.04|0.71|0.05328
82373549|NCT02256436|164452805|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|21.5||||9e-05|TWO_SIDED|95.0|10.1|34.2||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - Strongly PD-L1 Positive Participants||34.2|10.1|0.00009
82373550|NCT02256436|164452806|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|21.0||||2e-05|TWO_SIDED|95.0|11.1|31.5||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - PD-L1 Positive Participants||31.5|11.1|0.00002
82373551|NCT02256436|164452807|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|13.8||||1e-05|TWO_SIDED|95.0|7.4|20.3||One-sided p-value for testing H0: difference in %=0; H1: difference in %\>0|Miettinen & Nurminen method|Treatment as a covariate stratified by ECOG PS, presence/absence of liver metastases, hemoglobin and time from completion of most recent chemotherapy||ORR per mRECIST - All Participants||20.3|7.4|0.00001
82373552|NCT06077149|164452811|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.14|||||||t-test, 2 sided|||||||0.14
82373553|NCT06077149|164452812|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.17|||||||t-test, 2 sided|||||||0.17
82373554|NCT06077149|164452813|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.32|||||||t-test, 2 sided|||||||0.32
82373555|NCT06077149|164452814|NON_INFERIORITY|The primary outcome of the study was to demonstrate the noninferiority in antibody response at 30 days for any RSV vaccine between the LTCF group and the community group. A sample size of 152 participants (76 per group) was expected to provide 80% power to demonstrate noninferiority of 1 month GMT to within a relative noninferiority margin of 1.5-fold using a 1-sided 0.05-level linear model-based t test comparing log (1-month titer) by population, adjusted for vaccine and log (baseline titer).||||||0.82|||||||t-test, 2 sided|||||||0.82
82373556|NCT04154631|164452815|SUPERIORITY||Time by treatment interaction coeff.|-10.91|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Immediate TranS-C (Standard/Adapted combined) versus UC-DT on change in sleep disturbance from pre to post.||||<0.001
82373557|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|0.17||||0.95|TWO_SIDED|95.0|-4.62|4.95|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||4.95|-4.62|0.95
82373558|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|0.09||||0.95|TWO_SIDED|95.0|-2.39|2.56|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.56|-2.39|0.95
82373559|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|-0.16||||0.88|TWO_SIDED|95.0|-2.31|1.98|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||1.98|-2.31|0.88
82373560|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|-0.13||||0.88|TWO_SIDED|95.0|-3.1|2.31|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||2.31|-3.10|0.88
82576087|NCT00848484|164861894|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.277
82398221|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.055|||||TWO_SIDED|95.0|-0.067|0.178||||||Dengue Virus Serotype 1: Phase III Lot 1 vs Lot 2||0.178|-0.067|
82398222|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.024|||||TWO_SIDED|95.0|-0.102|0.151||||||Dengue Virus Serotype 1: Phase III Lot 2 vs Lot 3||0.151|-0.102|
82645090|NCT00883740|165005564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-1.02|-0.37||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-0.37|-1.02|<0.0001
82398223|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.08|||||TWO_SIDED|95.0|-0.204|0.045||||||Dengue Virus Serotype 1: Phase III Lot 3 vs Lot 1||0.045|-0.204|
82398224|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.174|||||TWO_SIDED|95.0|0.009|0.34||||||Dengue Virus Serotype 2: Phase III Lot 1 vs Lot 2||0.340|0.009|
82398225|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.12|||||TWO_SIDED|95.0|-0.297|0.056||||||Dengue Virus Serotype 2: Phase III Lot 2 vs Lot 3||0.056|-0.297|
82398226|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.054|||||TWO_SIDED|95.0|-0.225|0.117||||||Dengue Virus Serotype 2: Phase III Lot 3 vs Lot 1||0.117|-0.225|
82445237|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 14.|GMC ratio|1.01|||||TWO_SIDED|95.0|0.85|1.21|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 14.||1.21|0.85|
82645091|NCT00883740|165005564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.0001|TWO_SIDED|95.0|-1.06|-0.36||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-0.36|-1.06|0.0001
82645092|NCT00883740|165005564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59||||0.0014|TWO_SIDED|95.0|-0.95|-0.24||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||-0.24|-0.95|0.0014
82645093|NCT00883740|165005564|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52||||0.0084|TWO_SIDED|95.0|-0.9|-0.14||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-0.14|-0.90|0.0084
82645094|NCT00883740|165005565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.27|||<|0.0001|TWO_SIDED|95.0|-27.02|-9.52||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||-9.52|-27.02|<0.0001
82398227|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.058|||||TWO_SIDED|95.0|-0.068|0.184||||||Dengue Virus Serotype 3: Phase III Lot 1 vs Lot 2||0.184|-0.068|
82398228|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.042|||||TWO_SIDED|95.0|-0.167|0.082||||||Dengue Virus Serotype 3: Phase III Lot 2 vs Lot 3||0.082|-0.167|
82398229|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.016|||||TWO_SIDED|95.0|-0.144|0.113||||||Dengue Virus Serotype 3: Phase III Lot 3 vs Lot 1||0.113|-0.144|
82398230|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.144|||||TWO_SIDED|95.0|-0.006|0.295||||||Dengue Virus Serotype 4: Phase III Lot 1 vs Lot 2||0.295|-0.006|
82398231|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.06|||||TWO_SIDED|95.0|-0.207|0.088||||||Dengue Virus Serotype 4: Phase III Lot 2 vs Lot 3||0.088|-0.207|
82398232|NCT01134263|164506815|EQUIVALENCE|Lot consistency for each pair of lots was demonstrated if, for each pair of lots and each serotype the lower limit of the 95% CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.085|||||TWO_SIDED|95.0|-0.242|0.073||||||Dengue Virus Serotype 4: Phase III Lot 3 vs Lot 1||0.073|-0.242|
82398233|NCT01134263|164506816|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.091|||||TWO_SIDED|95.0|-0.009|0.192||||||Dengue Virus Serotype 1||0.192|-0.009|
82398234|NCT01134263|164506816|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|0.334|||||TWO_SIDED|95.0|0.202|0.466||||||Dengue Virus Serotype 2||0.466|0.202|
82398235|NCT01134263|164506816|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.076|||||TWO_SIDED|95.0|-0.173|0.021||||||Dengue Virus Serotype 3||0.021|-0.173|
82398236|NCT01134263|164506816|EQUIVALENCE|Equivalence between the pooled Phase III and Phase II was demonstrated if, for each serotype the lower limit of the 95%CI was \> -0.301 and the upper limit was \< 0.301.|Difference of Log10 GMT|-0.017|||||TWO_SIDED|95.0|-0.137|0.103||||||Dengue Virus Serotype 4||0.103|-0.137|
82398237|NCT03517449|164506822|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.47|0.66|||Log Rank||Regression, Cox method|||0.66|0.47|<0.0001
82445238|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 18C.|GMC ratio|1.61|||||TWO_SIDED|95.0|1.28|2.03|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over ), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 18C.||2.03|1.28|
82529927|NCT00474175|164756360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.03|TWO_SIDED|95.0|1.02|1.51||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Benzocaine 10% was calculated. C.I. was based on the Wald statistic.||1.51|1.02|0.030
82373561|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|-0.5||||0.79|TWO_SIDED|95.0|-2.18|1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.66|-2.18|0.79
82373562|NCT04154631|164452815|SUPERIORITY||Coefficient of indirect effect|-0.26||||0.79|TWO_SIDED|95.0|-2.18|1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep disturbance (PROMIS-SD) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.66|-2.18|0.79
82373563|NCT04154631|164452816|SUPERIORITY||time by treatment interaction coeff.|-0.03||||0.77|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Acceptability Intervention Measure (AIM) from baseline (post-training) to post-treatment.||||0.77
82373564|NCT04154631|164452817|SUPERIORITY||Time by treatment interaction coeff.|-9.52|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in sleep-related impairment from pre to post.||||<0.001
82373565|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|0.26||||0.92|TWO_SIDED|95.0|-5.04|5.56|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||5.56|-5.04|0.92
82373566|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|0.1||||0.92|TWO_SIDED|95.0|-2.04|2.24|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.24|-2.04|0.92
82373567|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|-0.39||||0.78|TWO_SIDED|95.0|-3.1|2.31|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||2.31|-3.10|0.78
82373568|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|-0.3||||0.78|TWO_SIDED|95.0|-2.35|1.75|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||1.75|-2.35|0.78
82373569|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|-0.43||||0.84|TWO_SIDED|95.0|-4.66|3.8|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||3.80|-4.66|0.84
82373570|NCT04154631|164452817|SUPERIORITY||Coefficient of indirect effect|-0.18||||0.84|TWO_SIDED|95.0|-1.94|1.58|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and sleep-related impairment (PROMIS-SRI) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.58|-1.94|0.84
82398238|NCT03517449|164506823|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.75|||Log Rank||Regression, Cox method|||0.75|0.51|<0.0001
82398239|NCT03517449|164506824|SUPERIORITY||Difference in Percent|17.2|||<|0.0001|TWO_SIDED|95.0|11.5|22.9|||Miettinen & Nurminen method|||||22.9|11.5|<0.0001
82398240|NCT00548249|164506838|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.0||||0.999|TWO_SIDED|95.0|0.3|3.32||p-value not adjusted for multiple comparisons|Log Rank|||Hazard ratio with 95% confidence intervals comparing each SFP treatment group to placebo, and p-value from cox proportional hazards model||3.32|0.30|0.999
82398241|NCT00548249|164506838|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.17||||0.807|TWO_SIDED|95.0|0.33|4.09|||Log Rank|||||4.09|0.33|0.807
82398242|NCT00548249|164506838|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.8||||0.748|TWO_SIDED|95.0|0.21|3.02|||Log Rank|||||3.02|0.21|0.748
82398243|NCT00548249|164506838|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.77||||0.299|TWO_SIDED|95.0|0.6|5.19|||Log Rank|||||5.19|0.60|0.299
82398244|NCT00548249|164506839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.234||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect.||||0.234
82529928|NCT00474175|164756361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.04|||<|0.001|TWO_SIDED|95.0|1.57|2.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.66|1.57|<0.001
82645095|NCT00883740|165005565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.06||||0.0002|TWO_SIDED|95.0|-24.24|-7.87||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||-7.87|-24.24|0.0002
82373571|NCT04154631|164452818|SUPERIORITY||Time by treatment interaction coeff.|1.63|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in Composite Sleep Health Score from pre to post.||||<0.001
82373572|NCT04154631|164452819|SUPERIORITY||Time by treatment interaction coeff.|-5.12|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in functional impairment from pre to post.||||<0.001
82373573|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|-3.12|||<|0.001|TWO_SIDED|95.0|-4.58|-1.66|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-1.66|-4.58|<0.001
82373574|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|-3.81|||<|0.001|TWO_SIDED|95.0|-5.41|-2.22|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and functional impairment (Sheehan Disability Scale) at post was mediated by sleep-related impairment (PROMIS-SRI). The parameter of interest was the indirect effect at post||-2.22|-5.41|<0.001
82373575|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|0.07||||0.94|TWO_SIDED|95.0|-1.78|1.92|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||1.92|-1.78|0.94
82373576|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|0.05||||0.94|TWO_SIDED|95.0|-1.16|1.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||1.25|-1.16|0.94
82373577|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|0.03||||0.85|TWO_SIDED|95.0|-0.3|0.37|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.37|-0.30|0.85
82373578|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|-0.23||||0.7|TWO_SIDED|95.0|-1.41|0.95|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.95|-1.41|0.70
82373579|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|0.01||||0.92|TWO_SIDED|95.0|-0.23|0.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.25|-0.23|0.92
82373580|NCT04154631|164452819|SUPERIORITY||Coefficient of indirect effect|-0.07||||0.82|TWO_SIDED|95.0|-0.68|0.54|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (Sheehan Disability Scale) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.54|-0.68|0.82
82373581|NCT04154631|164452820|SUPERIORITY||Time by treatment interaction coeff.|-6.72|||<|0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment condition (Standard/Adapted TranS-C versus UC-DT) on change in psychiatric symptoms from pre to post.||||<0.001
82373582|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|-1.86||||0.08|TWO_SIDED|95.0|-3.93|-0.21|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep disturbance (PROMIS-SD) at post. The parameter of interest was the indirect effect.||-0.21|-3.93|0.08
82645096|NCT00883740|165005565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.23||||0.0085|TWO_SIDED|95.0|-23.01|-3.46||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||-3.46|-23.01|0.0085
82373583|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|-2.51||||0.02|TWO_SIDED|95.0|-4.58|-0.44|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between TranS-C condition (Immediate vs. UC-DT) and psychiatric symptoms (Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by sleep-related impairment (PROMIS-SRI) at post. The parameter of interest was the indirect effect.||-0.44|-4.58|0.02
82373584|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|0.05||||0.97|TWO_SIDED|95.0|-1.99|2.08|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||2.08|-1.99|0.97
82645097|NCT00883740|165005565|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.25||||0.0102|TWO_SIDED|95.0|-18.01|-2.48||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||-2.48|-18.01|0.0102
82398245|NCT00548249|164506839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.049
82398246|NCT00548249|164506839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.375||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.375
82645098|NCT00883740|165005566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.82|||<|0.0001|TWO_SIDED|95.0|13.25|36.4||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 1||36.40|13.25|<0.0001
82398247|NCT00548249|164506839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625||95.0||||Threshold for statistical significance p \< 0.05|ANOVA|||Each dose was compared to placebo using an ANOVA model with treatment as the effect||||0.625
82398248|NCT00938587|164506844|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.291||0.0141|TWO_SIDED|90.0|-1.21|-0.24|||MMRM|||Day 14: Treatment difference and its corresponding 90 percent (%) confidence interval (CI) was based on least squares (LS) mean difference using mixed-model repeated measure (MMRM) where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and compound symmetry (CS) as covariance structure.||-0.24|-1.21|0.0141
82398249|NCT00938587|164506844|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.283|<|0.0001|TWO_SIDED|90.0|-1.73|-0.79|||MMRM|||Day 14: Treatment difference and its corresponding 90 % CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.79|-1.73|<0.0001
82398250|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.865||0.437|TWO_SIDED|90.0|-4.54|1.63|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.63|-4.54|0.4370
82529929|NCT00474175|164756361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73|||<|0.001|TWO_SIDED|95.0|1.34|2.25||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 10% relative to the Placebo was calculated. C.I. was based on the Wald statistic.||2.25|1.34|<0.001
82529930|NCT00474175|164756361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.1|TWO_SIDED|95.0|0.97|1.43||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Regression, Cox|||P-value was calculated using Cox proportional hazard regression model which was adjusted for treatment, site and baseline DPS. HR of Benzocaine 20% relative to the Benzocaine 10% was calculated. C.I. was based on the Wald statistic.||1.43|0.97|0.100
82645099|NCT00883740|165005566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.4|||<|0.0001|TWO_SIDED|95.0|18.59|40.21||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 2||40.21|18.59|<0.0001
82645100|NCT00883740|165005566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.79|||<|0.0001|TWO_SIDED|95.0|15.37|38.21||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 3||38.21|15.37|<0.0001
82529931|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.035|TWO_SIDED|95.0|0.03|0.95||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using Analysis of Variance (ANOVA) which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.95|0.03|0.035
82398251|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.858||0.1802|TWO_SIDED|90.0|-5.58|0.57|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.57|-5.58|0.1802
82398252|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|1.832||0.6012|TWO_SIDED|90.0|-3.99|2.07|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.07|-3.99|0.6012
82398253|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.834||0.2753|TWO_SIDED|90.0|-5.04|1.03|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.03|-5.04|0.2753
82398254|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.49|STANDARD_ERROR_OF_MEAN|1.844||0.7892|TWO_SIDED|90.0|-2.56|3.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.55|-2.56|0.7892
82398255|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|1.937||0.3765|TWO_SIDED|90.0|-4.92|1.49|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.49|-4.92|0.3765
82398256|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.59|STANDARD_ERROR_OF_MEAN|1.873||0.0571|TWO_SIDED|90.0|-6.69|-0.49|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.49|-6.69|0.0571
82373585|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|0.004||||0.97|TWO_SIDED|95.0|-0.18|0.19|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of acceptability (AIM) at post. The parameter of interest was the indirect effect.||0.19|-0.18|0.97
82373586|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|0.02||||0.9|TWO_SIDED|95.0|-0.27|0.3|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.30|-0.27|0.90
82373587|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|0.01||||0.94|TWO_SIDED|95.0|-0.19|0.2|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of appropriateness (IAM) at post. The parameter of interest was the indirect effect.||0.20|-0.19|0.94
82373588|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|-0.19||||0.8|TWO_SIDED|95.0|-1.67|1.28|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at post was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||1.28|-1.67|0.80
82373589|NCT04154631|164452820|SUPERIORITY||Coefficient of indirect effect|-0.04||||0.77|TWO_SIDED|95.0|-0.33|0.25|||SEM|||Structural equation modeling (SEM) was used to test whether the relationship between treatment condition (Standard vs. Adapted) and functional impairment (The Diagnostic and Statistical Manual of Mental Disorders Cross-Cutting Symptom Measure) at 6-month follow-up was mediated by provider ratings of feasibility (FIM) at post. The parameter of interest was the indirect effect.||0.25|-0.33|0.77
82373590|NCT04154631|164452821|SUPERIORITY||time by treatment interaction coeff.|-0.01||||0.94|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Intervention Appropriateness Measure (IAM) from baseline (post-training) to post-treatment.||||0.94
82373591|NCT04154631|164452822|SUPERIORITY||Time by treatment interaction coeff.|-0.11||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|||Treatment effect (Standard versus Adapted TranS-C) on change in Feasibility of Intervention Measure (FIM) from baseline (post-training) to post-treatment.||||0.34
82373592|NCT02800213|164452871|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.280
82373593|NCT04159935|164452872|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
82373594|NCT04159935|164452873|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||||||0.057
82445239|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 19F.|GMC ratio|1.06|||||TWO_SIDED|95.0|0.82|1.36|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 19F.||1.36|0.82|
82373595|NCT04159935|164452874|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82373596|NCT04159935|164452876|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
82373597|NCT04159935|164452877|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
82373598|NCT04159935|164452878|OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
82373599|NCT04159935|164452879|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82373600|NCT04159935|164452880|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.400
82373601|NCT04159935|164452882|OTHER|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||||||0.343
82373602|NCT04159935|164452883|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.700
82373603|NCT04159935|164452884|OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
82373604|NCT02036775|164452898|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|110.68|STANDARD_DEVIATION|20.42|||TWO_SIDED|90.0|99.84|122.69|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||122.69|99.84|
82373605|NCT02036775|164452898|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|103.39|STANDARD_DEVIATION|13.52|||TWO_SIDED|90.0|96.54|110.74|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||110.74|96.54|
82373606|NCT02036775|164452898|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the area under the curve (AUCss 0-24) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|106.93|STANDARD_DEVIATION|12.65|||TWO_SIDED|90.0|100.29|114.02|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||114.02|100.29|
82373607|NCT02036775|164452899|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|84.72|STANDARD_DEVIATION|19.01|||TWO_SIDED|90.0|76.96|93.25|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||93.25|76.96|
82645101|NCT00883740|165005566|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.44|||<|0.0001|TWO_SIDED|95.0|15.03|35.86||P-value is based on a linear mixed effects model including sequence, period, and treatment as fixed factors and participant within sequence and within participant error as random factors.|linear mixed effects model|||Week 4||35.86|15.03|<0.0001
82373608|NCT02036775|164452899|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|103.87|STANDARD_DEVIATION|17.19|||TWO_SIDED|90.0|95.22|113.31|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||113.31|95.22|
82373609|NCT02036775|164452899|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) of the peak concentration (Cmax ss) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|80.94|STANDARD_DEVIATION|17.95|||TWO_SIDED|90.0|73.92|88.62|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||88.62|73.92|
82373610|NCT02036775|164452900|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|88.54|STANDARD_DEVIATION|20.42|||TWO_SIDED|90.0|79.87|98.15|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||98.15|79.87|
82373611|NCT02036775|164452900|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|103.39|STANDARD_DEVIATION|13.52|||TWO_SIDED|90.0|96.54|110.74|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||110.74|96.54|
82373612|NCT02036775|164452900|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the dose-adjusted total exposure (AUCss 0-24 norm) using an acceptance range of 80%-125%.|Adjusted Geometric Mean Ratio (%)|85.55|STANDARD_DEVIATION|12.65|||TWO_SIDED|90.0|80.23|91.22|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||91.22|80.23|
82373613|NCT02036775|164452901|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|76.55|STANDARD_DEVIATION|14.55|||TWO_SIDED|90.0|71.1|82.4|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||82.40|71.10|
82373614|NCT02036775|164452901|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|100.46|STANDARD_DEVIATION|11.65|||TWO_SIDED|90.0|94.69|106.58|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||106.58|94.69|
82373615|NCT02036775|164452901|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of relative bioavailability without molar mass adjustment (dose adjustment) was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test divided by reference) for the rate of absorption at steady state (Cmax ss/AUCss 0-24) using an acceptance range of 75%-133%.|Adjusted Geometric Mean Ratio (%)|75.69|STANDARD_DEVIATION|15.64|||TWO_SIDED|90.0|69.92|81.93|||||The standard deviation is actually the intra-individual geometric coefficient of variation (gCV(%))|||81.93|69.92|
82373616|NCT00206323|164452950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0259|||||||t-test, 2 sided|||"Primary variable change of TTS/YGTSS at the BSL to Day 70. Changes of YGTSS compared using analysis of covariance with score at day 1 as a covariate. Groups compared for incidence of AE's and of AESI based on Fisher's Exact Test. All tests were two-sided at the 5% level of significance.~The Total Tic Score is a summation of the Total Motor Tic and Total Phonic Tic Scores. The Overall Impairment Rating is rated on a 50-point scale anchored by 0 (No impairment) and 50 (Severe impairment)"||||0.0259
82373617|NCT03657342|164452962|SUPERIORITY||LS Mean Difference|-0.095||||0.731|TWO_SIDED|95.0|-0.405|0.214||1-sided p value.|Mixed Models Analysis|||at V9.||0.214|-0.405|0.7310
82398257|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|1.896||0.6553|TWO_SIDED|90.0|-3.99|2.29|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.29|-3.99|0.6553
82529932|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.32||||0.173|TWO_SIDED|95.0|-0.14|0.78||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.78|-0.14|0.173
82645102|NCT01818414|165005567|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82398258|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.72|STANDARD_ERROR_OF_MEAN|1.847||0.1427|TWO_SIDED|90.0|-5.78|0.33|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.33|-5.78|0.1427
82645103|NCT01818414|165005568|SUPERIORITY_OR_OTHER|||||||0.052|||||||t-test, 2 sided|||||||0.052
82645104|NCT00450177|165005586|OTHER|||||||0.03|||||||Chi-squared|||||||0.03
82645105|NCT04840901|165005661|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.09|||||TWO_SIDED|90.0|1.03|1.16|||ANCOVA|||||1.16|1.03|
82373618|NCT03657342|164452963|SUPERIORITY||least suare mean difference|-0.064||||0.8041|TWO_SIDED|95.0|-0.212|0.084||1-sided p value|Mixed Models Analysis|||Estimates were from a Linear Mixed Model on the response variable change from baseline in FEV1/FVC with factors for time splines, treatment, the interactions of time splines by treatment, baseline FEV1/FVC, the interactions of time splines with baseline FEV1/FVC, region (North America versus all other countries together), underlying indication for lung transplant (COPD versus all others), use of azithromycin at randomization, and time as random effect.||0.084|-0.212|0.8041
82373619|NCT03657342|164452964|SUPERIORITY||adjusted hazard ratio|2.601||||0.1559|TWO_SIDED|95.0|0.408|16.585||1-sided p value. Adjusted Hazard Ratio calculated using Cox proportional hazards model with covariates of Treatment, Baseline FEV1, with Efron's method of tie handling.|Regression, Cox|||||16.585|0.408|0.1559
82373620|NCT00911807|164452969|SUPERIORITY_OR_OTHER||Mean Square (Factor Treatment)|19.59||||0.6348||||||ANCOVA F-test. The study was designed to show significant differences in each of the two primary variables. No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|ANCOVA|ANCOVA with the week 28 ADAS-cog+ change score as dependent variable and the ADAS-cog+ baseline score as a covariate.||The null-hypothesis stated no differences between the three treatment groups regarding the mean change from baseline in ADAS-cog+ at week 28. A sample size of approximately 60 evaluable patients per treatment arm was estimated to allow for the detection of a significant group difference of two points in ADAS-cog+ week 28 change score (standard deviation \[SD\] 3.3) between the three groups with a power of \> 80% and a probability level of alpha = 0.05 (two-sided).||||0.6348
82373621|NCT00911807|164452969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.583||95.0|-2.891|1.63||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'||1.630|-2.891|0.5830
82373622|NCT00911807|164452969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.3434||95.0|-3.324|1.163||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'.||1.163|-3.324|0.3434
82373623|NCT00911807|164452969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.6962||95.0|-2.719|1.819||No adjustment for multiple testing was needed and all tests were done with retention of the full two-sided alpha-level of 0.05.|t-test, 2 sided|Comparisons between all pair of means were performed with two-sample t-tests within the ANCOVA model.||Multiple testing of individual null hypotheses that control for the overall significance level alpha = 0.05 were performed by using the 'closed testing procedure'.||1.819|-2.719|0.6962
82373624|NCT01672970|164452996|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical analysis at Month 3||||0.000
82373625|NCT01672970|164452996|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
82373626|NCT01672970|164452997|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.001
82373627|NCT01672970|164452997|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.005
82373628|NCT01672970|164452998|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
82373629|NCT01672970|164452998|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
82373630|NCT01672970|164452999|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
82373631|NCT01672970|164452999|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.001
82373632|NCT01672970|164453002|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
82529933|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.358|TWO_SIDED|95.0|-0.2|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 60: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.20|0.358
82576088|NCT00848484|164861895|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
82645106|NCT04840901|165005662|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.07|||||TWO_SIDED|90.0|1.02|1.14|||ANCOVA|||||1.14|1.02|
82645107|NCT04840901|165005663|EQUIVALENCE|PK parameters were powered to test equivalence with a power of 90% that the 90% confidence interval (CI) of the geometric mean ratio fall within 0.8 to 1.25 equivalence margin.|Ratio of Geometric LS Mean|1.09|||||TWO_SIDED|90.0|1.03|1.14|||ANCOVA|||||1.14|1.03|
82373633|NCT01672970|164453002|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
82373634|NCT01672970|164453003|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
82373635|NCT01672970|164453003|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
82373636|NCT01672970|164453008|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
82373637|NCT01672970|164453008|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
82373638|NCT01672970|164453009|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
82373639|NCT01672970|164453009|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
82373640|NCT01672970|164453010|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 3||||0.000
82373641|NCT01672970|164453010|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Ranks Test|||Statistical Analysis at Month 6||||0.000
82373642|NCT01672970|164453011|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
82373643|NCT01672970|164453011|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
82373644|NCT01672970|164453012|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
82373645|NCT01672970|164453012|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
82373646|NCT01672970|164453013|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 3||||0.000
82373647|NCT01672970|164453013|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Statistical Analysis at Month 6||||0.000
82373648|NCT03258853|164453021|SUPERIORITY|||||||0.001|||||||paired 2-sided t-test|||||||0.001
82373649|NCT03258853|164453022|SUPERIORITY|||||||1||||||Secondary outcomes were adjusted for multiple comparisons|Wilcoxon signed rank test|||||||1.0
82373650|NCT03258853|164453023|SUPERIORITY|||||||0.04||||||Secondary outcomes are adjusted for multiple comparisons|paired 2-sided t-test|||||||0.04
82373651|NCT03258853|164453024|SUPERIORITY|||||||1||||||Adjusted for multiple comparisons|Wicoxon signed rank test|||||||1.0
82373652|NCT03258853|164453025|SUPERIORITY|||||||0.014||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.014
82373653|NCT03258853|164453026|SUPERIORITY|||||||0.014||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.014
82373654|NCT03258853|164453027|SUPERIORITY|||||||0.14||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||0.14
82373655|NCT03258853|164453028|SUPERIORITY|||||||1||||||Adjusted for multiple comparisons|Wilcoxon signed rank test|||||||1.0
82373656|NCT03258853|164453029|SUPERIORITY|||||||0.01|||||||Wilcoxon signed rank test|||||||0.01
82373657|NCT03258853|164453030|SUPERIORITY|||||||0.08|||||||McNemar|||||||0.08
82373658|NCT03258853|164453031|SUPERIORITY|||||||0.56|||||||McNemar|||||||0.56
82645108|NCT01988493|165005724|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.46||||0.0087|TWO_SIDED|90.0|0.28|0.76|||Log Rank|||||0.76|0.28|0.0087
82373659|NCT03258853|164453032|SUPERIORITY|||||||0.56|||||||McNemar|||||||0.56
82373660|NCT03258853|164453033|SUPERIORITY|||||||0.15|||||||McNemar|||||||0.15
82373661|NCT01565850|164453048|NON_INFERIORITY_OR_EQUIVALENCE|A total sample size of 150 HIV-1 infected participants, randomized in a 2:1 ratio to 2 groups, would achieve 56% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 0.88 for both arms, a noninferiority margin of 0.12, and the significance level of the test at a one-sided 0.025 level were assumed.|Difference in proportions|3.3||||0.64|TWO_SIDED|95.0|-11.4|18.1||The p-value for the superiority test comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel test stratified by baseline HIV-1 RNA and race strata.|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel proportion.|The null hypothesis was that the D/C/F/TAF group is at least 12% worse than the DRV+COBI+FTC/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 24; the alternative hypothesis was that the response rate in the D/C/F/TAF group is less than 12% worse than that in the DRV+COBI +FTC/TDF group.||18.1|-11.4|0.64
82373662|NCT01565850|164453049|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the D/C/F/TAF group is at least 12% worse than the DRV+COBI+FTC/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (response rate as defined by the snapshot analysis algorithm) at Week 48; the alternative hypothesis was that the response rate in the D/C/F/TAF group is less than 12% worse than that in the DRV+COBI +FTC/TDF group.|Difference in proportions|-6.2||||0.35|TWO_SIDED|95.0|-19.9|7.4||The p-value for the superiority test comparing the percentages of virologic success was from the Cochran-Mantel-Haenszel test stratified by baseline HIV-1 RNA and race strata.|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% CI were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel proportion.|||7.4|-19.9|0.35
82373663|NCT01565850|164453050|SUPERIORITY_OR_OTHER||Difference in LSM|0.04||||0.67|TWO_SIDED|95.0|-0.14|0.21||The p-value, difference in least squares mean (LSM), and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||0.21|-0.14|0.67
82373664|NCT01565850|164453051|SUPERIORITY_OR_OTHER||Difference in LSM|0.06||||0.5|TWO_SIDED|95.0|-0.11|0.23||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||0.23|-0.11|0.50
82373665|NCT01565850|164453052|SUPERIORITY_OR_OTHER||Difference in LSM|45.0||||0.11|TWO_SIDED|95.0|-10.0|101.0||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||101|-10|0.11
82373666|NCT01565850|164453053|SUPERIORITY_OR_OTHER||Difference in LSM|18.0||||0.5|TWO_SIDED|95.0|-35.0|72.0||The p-value, difference in LSM, and its 95% CI were from ANOVA model with baseline HIV-1 RNA level (≤ 100,000 or \> 100,000 copies/mL) and race (Black or non-Black) as fixed effects in the model.|ANOVA|||||72|-35|0.50
82398259|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.87|STANDARD_ERROR_OF_MEAN|1.873||0.643|TWO_SIDED|90.0|-2.23|3.97|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.97|-2.23|0.6430
82373667|NCT04994483|164453097|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.4308|TWO_SIDED|95.0|-1.37|0.59|||Mixed Models Analysis|||||0.59|-1.37|0.4308
82373668|NCT04994483|164453098|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.4034|TWO_SIDED|95.0|-0.68|1.7|||Mixed Models Analysis|||||1.70|-0.68|0.4034
82373669|NCT04086407|164453122|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
82373670|NCT04086407|164453123|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
82373671|NCT04086407|164453124|OTHER||||||||||||||||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||
82373672|NCT04086407|164453125|OTHER||||||<|0.05|||||||t-test, 2 sided||||All statistical tests were completed with a significance of p \< 0.05 and 95% confidence intervals. Sample sets were statistically compared and analyzed by using two-tailed, unpaired Student t test analyses of means.|||<.05
82373673|NCT01555671|164453126|OTHER||Mean Difference (Net)|30.0||||0.029|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.029
82373674|NCT02684630|164453133|OTHER|A procedure is a success if the donor's post-procedure platelet count is ≥ 100,000 platelets/μL, lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple sample proportion|1.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|0.951||||||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"Sample Size Determination:~Up to 160 participants were to be enrolled in this study to ensure 60 evaluable single platelet product collections and 60 evaluable double platelet product collections. This number was chosen to meet the FDA requirements of 95% of postprocedure participant platelet count of ≥ 100,000 platelets/μL with 95% confidence."|||0.951|
82373675|NCT02684630|164453134|OTHER|A procedure is a success if the donor's post-procedure platelet count is ≥ 100,000 platelets/μL, lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple sample proportion|1.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|0.951||||||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"Sample Size Determination:~Up to 160 participants were to be enrolled in this study to ensure 60 evaluable single platelet product collections and 60 evaluable double platelet product collections. This number was chosen to meet the FDA requirements of 95% of postprocedure participant platelet count of ≥ 100,000 platelets/μL with 95% confidence."|||0.951|
82373676|NCT00631657|164453139|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|48.7|||<|0.0001|TWO_SIDED|95.0|35.0|62.5|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline TST as covariate.|||62.5|35.0|<0.0001
82373677|NCT00631657|164453142|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.9||||0.2145|TWO_SIDED|95.0|-12.6|2.8|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline SL as covariate.|||2.8|-12.6|0.2145
82529934|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.75||||0.135|TWO_SIDED|95.0|-0.23|1.72||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.72|-0.23|0.135
82373678|NCT00631657|164453143|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.0|||<|0.0001|TWO_SIDED|95.0|-34.5|-15.4|||ANCOVA||ANCOVA performed with fixed effects for treatment and (pooled) center as factors and baseline WASO as covariate.|||-15.4|-34.5|<0.0001
82373679|NCT01284361|164453158|SUPERIORITY_OR_OTHER||Proportion|91.5|||||TWO_SIDED|95.0|84.5|97.5|||||Seventy five of the 82 subjects (91.5%) preferred the longer commercially available catheter over the experimental 30 cm catheter.|The sample size of 81 subjects provides a 10.8% margin of error.||97.5|84.5|
82373680|NCT00325195|164453205|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82373681|NCT00325195|164453205|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82373682|NCT00325195|164453206|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||Fisher Exact|||||||<0.002
82373683|NCT00325195|164453206|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Fisher Exact|||||||0.200
82529935|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.48||||0.332|TWO_SIDED|95.0|-0.49|1.46||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.46|-0.49|0.332
82576089|NCT00848484|164861896|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.933
82373684|NCT00325195|164453207|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Fisher Exact|||% of pegloticase q2 participants reporting flares compared to placebo pts during Months 4-6 treatment period||||0.007
82373685|NCT00325195|164453207|SUPERIORITY_OR_OTHER|||||||0.321||95.0|||||Fisher Exact|||% of pegloticase q4 participants reporting flares compared to placebo pts during Months 4-6 treatment period||||0.321
82373686|NCT00325195|164453208|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||t-test, 2 sided|||||||0.166
82373687|NCT00325195|164453208|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||||||0.170
82373688|NCT00325195|164453209|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
82373689|NCT00325195|164453209|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||||||0.024
82373690|NCT00806286|164453218|SUPERIORITY||Mean Difference (Final Values)|-23.2|||<|0.0001|TWO_SIDED|||||Two-sided p-value is calculated by dividing the square of the treatment group difference on the log-log scale by the standard error of the difference and referring the result to the standard normal distribution.|Z-test||The estimated value represents the difference in treatments (%).|||||<0.0001
82373691|NCT00806286|164453218|SUPERIORITY||Cox Proportional Hazard|1.579||||0.0499|TWO_SIDED|95.0|1.0|2.5|||Regression, Cox|||||2.5|1.0|0.0499
82398260|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|1.918||0.5868|TWO_SIDED|90.0|-2.13|4.22|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.22|-2.13|0.5868
82398261|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|1.873||0.586|TWO_SIDED|90.0|-4.12|2.08|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.08|-4.12|0.5860
82398262|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.84|STANDARD_ERROR_OF_MEAN|1.879||0.3288|TWO_SIDED|90.0|-1.27|4.95|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.95|-1.27|0.3288
82398263|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|1.846||0.9027|TWO_SIDED|90.0|-3.28|2.83|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.83|-3.28|0.9027
82398264|NCT00938587|164506845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|1.871||0.671|TWO_SIDED|90.0|-2.3|3.89|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.89|-2.30|0.6710
82398265|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|1.123||0.837|TWO_SIDED|90.0|-1.63|2.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.09|-1.63|0.8370
82398266|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.96|STANDARD_ERROR_OF_MEAN|1.12||0.0819|TWO_SIDED|90.0|-3.81|-0.11|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.11|-3.81|0.0819
82373692|NCT00806286|164453219|SUPERIORITY|Two-sided p-value is calculated by dividing the square of the treatment group difference on the log-log scale by the standard error of the difference and referring the result to the standard normal distribution.|Mean Difference (Final Values)|-25.5|||<|0.0001|TWO_SIDED||||||Z-test||The estimated value represents the difference in treatments (%).|||||<0.0001
82373693|NCT03469336|164453223|OTHER|Ratio|Mean Ratio (Test/Reference)|1.0109|STANDARD_ERROR_OF_MEAN|0.732||0.9883|TWO_SIDED|95.0|0.2364|4.3226|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.3226|0.2364|0.9883
82373694|NCT03469336|164453223|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9979|STANDARD_ERROR_OF_MEAN|0.732||0.9977|TWO_SIDED|95.0|0.2334|4.2671|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.2671|0.2334|0.9977
82398267|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|1.106||0.8892|TWO_SIDED|90.0|-1.98|1.67|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.67|-1.98|0.8892
82576090|NCT00848484|164861897|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among 5 secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
82398268|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.35|STANDARD_ERROR_OF_MEAN|1.106||0.0353|TWO_SIDED|90.0|-4.17|-0.52|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.52|-4.17|0.0353
82398269|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.108||0.7283|TWO_SIDED|90.0|-2.22|1.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.45|-2.22|0.7283
82398270|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|1.174||0.9083|TWO_SIDED|90.0|-1.81|2.08|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.08|-1.81|0.9083
82398271|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.132||0.1641|TWO_SIDED|90.0|-3.45|0.29|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.29|-3.45|0.1641
82398272|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|1.155||0.817|TWO_SIDED|90.0|-1.64|2.18|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.18|-1.64|0.8170
82529936|NCT00474175|164756363|SUPERIORITY_OR_OTHER||Treatment difference|0.26||||0.517|TWO_SIDED|95.0|-0.53|1.06||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||SPRID 120: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.06|-0.53|0.517
82529937|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.35||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.35|0.50|<0.001
82373695|NCT03469336|164453223|OTHER|Ratio|Mean Ratio (Test/Reference)|1.1382|STANDARD_ERROR_OF_MEAN|0.732||0.86|TWO_SIDED|95.0|0.2662|4.867|||Mixed Models Analysis|||The efficacy assessment of PF-06763809 was performed for the change from baseline in log of the psoriatic skin infiltrate thickness/EPB on Day 19 using a longitudinal analysis of covariance model, with treatment, visit, treatment by visit interaction as main effects and the log of the psoriatic skin infiltrate thickness/EPB at baseline as covariate.||4.8670|0.2662|0.8600
82373696|NCT03469336|164453228|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9979|STANDARD_ERROR_OF_MEAN|0.071||0.9763|TWO_SIDED|95.0|0.8588|1.1594|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.1594|0.8588|0.9763
82373697|NCT03469336|164453228|OTHER|Ratio|Mean Ratio (Test/Reference)|0.9664|STANDARD_ERROR_OF_MEAN|0.051||0.5081|TWO_SIDED|95.0|0.8686|1.0752|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.0752|0.8686|0.5081
82373698|NCT03469336|164453228|OTHER|Ratio|Mean Ratio (Test/Reference)|1.1155|STANDARD_ERROR_OF_MEAN|0.044||0.0249|TWO_SIDED|95.0|1.0157|1.2252|||Mixed Models Analysis|||To evaluate the AUC of psoriatic skin infiltrate thickness/EPB for PF-06763809 compared to vehicle.||1.2252|1.0157|0.0249
82373699|NCT03469336|164453229|OTHER|Ratio|Mean Ratio (Test/Reference)|0.7946|STANDARD_ERROR_OF_MEAN|0.732||0.754|TWO_SIDED|95.0|0.1858|3.3977|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.3977|0.1858|0.7540
82373700|NCT03469336|164453229|OTHER|Ratio|Mean Ratio (Test/Reference)|0.7844|STANDARD_ERROR_OF_MEAN|0.732||0.7407|TWO_SIDED|95.0|0.1834|3.354|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.3540|0.1834|0.7407
82373701|NCT03469336|164453229|OTHER|Ratio|Mean Ratio (Test/Reference)|0.8946|STANDARD_ERROR_OF_MEAN|0.732||0.8793|TWO_SIDED|95.0|0.2092|3.8256|||Mixed Models Analysis|||The effect of PF-06763809 compared to calcipotriene/calcipotriol solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||3.8256|0.2092|0.8793
82373702|NCT03469336|164453230|OTHER|Ratio|Mean Ratio (Test/Reference)|1.081321|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.25287|4.623941|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||4.623941|0.25287|<0.0001
82373703|NCT03469336|164453230|OTHER|Ratio|Mean Ratio (Test/Reference)|1.067453|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.249631|4.564555|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||4.564555|0.249631|<0.0001
82373704|NCT03469336|164453230|OTHER|Ratio|Mean Ratio (Test/Reference)|1.217483|STANDARD_ERROR_OF_MEAN|0.732|<|0.0001|TWO_SIDED|95.0|0.284708|5.206258|||Mixed Models Analysis|||The effect of PF-06763809 compared to betamethasone solution in the change of psoriatic skin infiltrate thickness/EPB on Day 19.||5.206258|0.284708|<0.0001
82373705|NCT02740699|164453251|SUPERIORITY|||||||0.0256|||||||Wilcoxon Signed Rank Tests|||||||0.0256
82373706|NCT02740699|164453252|SUPERIORITY|||||||0.0254|||||||Wilcoxon Signed Rank Tests|||||||0.0254
82373707|NCT02740699|164453253|SUPERIORITY|||||||0.58|||||||Regression, Linear|||||||0.58
82373708|NCT02740699|164453254|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
82373709|NCT02740699|164453255|SUPERIORITY|||||||0.69|||||||Regression, Linear|||||||0.69
82373710|NCT02740699|164453256|SUPERIORITY|||||||0.006|||||||Regression, Linear|||||||0.006
82373711|NCT04713553|164453259|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% confidence interval (CI) for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|1.01|||||TWO_SIDED|95.0|0.91|1.13|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.13|0.91|
82373712|NCT04713553|164453259|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.04|0.83|
82373713|NCT04713553|164453259|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.92|||||TWO_SIDED|95.0|0.82|1.03|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.03|0.82|
82373714|NCT04713553|164453260|EQUIVALENCE|Equivalence was to be achieved if the 2-sided 95% CI for GMR falls within the interval (0.67, 1.5).|Geometric mean ratio|0.95|||||TWO_SIDED|95.0|0.84|1.07|||||GMRs and corresponding 2-sided 95% CIs were calculated by exponentiating difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group.|||1.07|0.84|
82529938|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.55||||0.011|TWO_SIDED|95.0|0.13|0.97||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.97|0.13|0.011
82645109|NCT01988493|165005725|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.53||||0.0229||90.0|0.33|0.84|||Log Rank|||||0.84|0.33|0.0229
82645110|NCT01988493|165005726|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.71||||0.2333||90.0|0.45|1.14|||Log Rank|||||1.14|0.45|0.2333
82529939|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.38||||0.031|TWO_SIDED|95.0|0.03|0.72||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||5 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.72|0.03|0.031
82529940|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.78|||<|0.001|TWO_SIDED|95.0|0.33|1.23||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.23|0.33|<0.001
82529941|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.031|TWO_SIDED|95.0|0.04|0.94||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.94|0.04|0.031
82529942|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.29||||0.119|TWO_SIDED|95.0|-0.07|0.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||10 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.66|-0.07|0.119
82529943|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.77||||0.002|TWO_SIDED|95.0|0.28|1.25||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.25|0.28|0.002
82529944|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.46||||0.061|TWO_SIDED|95.0|-0.02|0.95||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.95|-0.02|0.061
82529945|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.3||||0.131|TWO_SIDED|95.0|-0.09|0.7||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||15 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.70|-0.09|0.131
82529946|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.52||||0.044|TWO_SIDED|95.0|0.01|1.03||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.03|0.01|0.044
82529947|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.43||||0.099|TWO_SIDED|95.0|-0.08|0.93||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.93|-0.08|0.099
82529948|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.1||||0.647|TWO_SIDED|95.0|-0.32|0.51||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||20 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.51|-0.32|0.647
82529949|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.6||||0.023|TWO_SIDED|95.0|0.08|1.11||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.11|0.08|0.023
82529950|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.47||||0.072|TWO_SIDED|95.0|-0.04|0.98||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.98|-0.04|0.072
82529951|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.13||||0.551|TWO_SIDED|95.0|-0.29|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||25 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.29|0.551
82645111|NCT01988493|165005727|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.45||||0.0059||90.0|0.28|0.73|||Log Rank|||||0.73|0.28|0.0059
82645112|NCT01988493|165005740|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|1.04||||0.8915||90.0|0.62|1.77|||Log Rank|||||1.77|0.62|0.8915
82645113|NCT01988493|165005741|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.||||||0.0438|||||||Cochran-Mantel-Haenszel|||||||0.0438
82645114|NCT01988493|165005743|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.|Hazard Ratio (HR)|0.59||||0.0496|TWO_SIDED|90.0|0.38|0.92|||Log Rank|||||0.92|0.38|0.0496
82373715|NCT04713553|164453261|NON_INFERIORITY|Noninferiority of the 20 mcg dose to the corresponding 30 mcg dose was said to be achieved if the lower limit of the 2-sided 95% CI for the GMR is \>0.67.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.02|||||GMRs were calculated by exponentiating the difference in LS means and corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of age and vaccine group|||1.02|0.84|
82373716|NCT03783039|164453313|NON_INFERIORITY|10% margin|Risk Difference (RD)|0.0605|||<|0.0001|ONE_SIDED|97.5|-0.0189|||Testing whether the group difference in proportion of successes is \>-0.1 (Test Group - Control Group)|Farrington-Manning method||||||-0.0189|<0.0001
82373717|NCT03783039|164453314|OTHER||Difference in proportion of successes|0.0992|||||TWO_SIDED|95.0|0.0078|0.1906|||Farrington-Manning Method|Difference in proportion of successes (Test Group - Control Group)||||0.1906|0.0078|
82373718|NCT03783039|164453315|OTHER||Difference in proportion of successes|0.0275|||||TWO_SIDED|95.0|-0.0312|0.0863|||Farrington-Manning Method|Difference in proportion of successes (Test Group - Control Group)||||0.0863|-0.0312|
82373719|NCT00918138|164453319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|7.01||0.1278|TWO_SIDED|95.0|-24.8|3.2||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg|With at least 36 participants per treatment group (72 total), there is 90% power to detect a difference of 18 mg/dL between the two treatment groups. Assuming approximately 20% of participants will discontinue without any valid post-randomization assessment at Week 4, a total of 90 participants (45 participants per treatment group) needed to be randomized.||3.2|-24.8|0.1278
82373720|NCT00918138|164453320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1|STANDARD_ERROR_OF_MEAN|11.8|||TWO_SIDED|95.0|-54.6|-7.7||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure.|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg.|||-7.7|-54.6|
82373721|NCT00918138|164453321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|7.18|||TWO_SIDED|95.0|-20.0|8.5||Comparison between saxagliptin 5 mg + metformin 1500 mg and metformin 2000 mg significant at alpha =0.05 according to sequential testing procedure.|ANCOVA|Change from baseline to week 4 was analyzed with ANCOVA including treatment group, baseline value and country in the model.|Estimate = adjusted mean change for saxagliptin 5 mg + metformin 1500 mg - adjusted mean change for metformin 2000 mg|||8.5|-20.0|
82373722|NCT03400943|164453327|SUPERIORITY||Risk Difference (RD)|0.56|||<|0.0001|TWO_SIDED|95.0|0.33|0.78|||Cochran-Mantel-Haenszel||Number of subjects per treatment: 41 (Vilaprisan) / 20 (Placebo).|Vilaprisan (A1) and Vilaprisan+Placebo (B2) combined vs. Placebo+Vilaprisan (B1) in treatment period 1||0.78|0.33|<.0001
82373723|NCT03839823|164453334|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.003|TWO_SIDED|95.0|0.429|0.87|||one-sided stratified logrank test|||||0.870|0.429|0.003
82373724|NCT03839823|164453335|SUPERIORITY||Hazard Ratio (HR)|0.497||||||95.0|0.363|0.68||||||||0.680|0.363|
82373725|NCT03839823|164453336|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
82373726|NCT03839823|164453337|SUPERIORITY|||||||0.255|||||||Cochran-Mantel-Haenszel|||||||0.255
82373727|NCT03839823|164453338|SUPERIORITY|||||||0.116|||||||Cochran-Mantel-Haenszel|||||||0.116
82373728|NCT03839823|164453339|SUPERIORITY||Hazard Ratio (HR)|0.762|||||TWO_SIDED|95.0|0.546|1.064||||||||1.064|0.546|
82373729|NCT04516759|164453356|SUPERIORITY||Risk Ratio (RR)|1.09||||0.1854|TWO_SIDED|95.0|0.9|1.32|||Chi-squared|Chi-squared test on the one-sided significance level of 2.5%||||1.32|0.9|0.1854
82373730|NCT04516759|164453357|OTHER|||||||0.0286||||||Baseline p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.0286
82373731|NCT04516759|164453357|OTHER|||||||0.0786||||||Day 7 p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.0786
82373732|NCT04516759|164453357|OTHER|||||||0.2169||||||Day 14 p-value|Wilcoxon (Mann-Whitney)|one-side significance level of 2.5%||||||0.2169
82373733|NCT04516759|164453357|OTHER|||||||0.186||||||Day 21 p-value|Wilcoxon (Mann-Whitney)|one-sided significance level of 2.5%||||||0.1860
82373734|NCT04516759|164453357|OTHER|||||||0.2256||||||Study Drug Discontinuation (SDD) p-value|Wilcoxon (Mann-Whitney)|one-sided significance level of 2.5%||||||0.2256
82373735|NCT04516759|164453358|OTHER|||||||0.4006||||||Increase in Diabetic Medication needed equal or more than 3 days|Fisher Exact|||||||0.4006
82373736|NCT04516759|164453358|OTHER|||||||0.7482||||||Diabetic Medication is stable/reduced equal or more than 3 days|Fisher Exact|||||||0.7482
82645115|NCT01988493|165005744|EQUIVALENCE|Sample size required 100 TTP events to ensure 80% power with a two-sided significance level of 10% for rejecting the null hypothesis of equal treatment effect between treatment arms.||||||0.0527|||||||Cochran-Mantel-Haenszel|||||||0.0527
82647989|NCT00386100|165011351|SUPERIORITY_OR_OTHER||Percent difference from metformin|-4.3||||0.7195|TWO_SIDED|95.0|-25.4|22.7||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||22.7|-25.4|0.7195
82645116|NCT02494583|165005746|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.03918|TWO_SIDED|95.0|0.7|1.02||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|PFS in CPS ≥1 participants of the pembro combo arm was compared to PFS in CPS ≥1 participants of the SOC arm to address the first primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and fluoropyrimidine treatment.||1.02|0.70|0.03918
82373737|NCT04516759|164453358|OTHER|||||||0.6949||||||Increase in Diabetic Medication needed at any time during the study|Fisher Exact|||||||0.6949
82373738|NCT04516759|164453358|OTHER|||||||0.5521||||||Diabetic Medication is stable/reduced at any time during the study|Fisher Exact|||||||0.5521
82373739|NCT04516759|164453359|OTHER|||||||0.5875|||||||Fisher Exact|||||||0.5875
82373740|NCT04516759|164453360|OTHER|||||||0.1129|||||||Fisher Exact|||||||0.1129
82373741|NCT04516759|164453361|SUPERIORITY|||||||0.1556|||||||Log Rank|||||||0.1556
82373742|NCT04516759|164453362|OTHER||Risk Ratio (RR)|0.41||||0.0903|TWO_SIDED|95.0|0.13|1.26|||Fisher Exact|The p-value is assessed by means of an Fisher's exact test on the one-sided significance level of 2.5%||||1.26|0.13|0.0903
82373743|NCT04516759|164453363|OTHER|||||||0.6144|||||||Fisher Exact|One-sided significance level of 2.5%||||||0.6144
82373744|NCT04516759|164453364|OTHER|||||||0.0105|||||||Fisher Exact|one-sided significance level of 2.5%||||||0.0105
82373745|NCT04516759|164453365|OTHER|||||||0.062|||||||Fisher Exact|one-sided significance level of 2.5%||||||0.062
82373746|NCT00176423|164453375|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82373747|NCT00176423|164453376|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82373748|NCT00176423|164453377|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82373749|NCT00176423|164453378|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82373750|NCT01775189|164453398|SUPERIORITY_OR_OTHER||Least Squares (LS) mean Difference|9.5||||0.0001|TWO_SIDED|95.0|4.8|14.2||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.2|4.8|0.0001
82373751|NCT01775189|164453398|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.3|||<|0.0001|TWO_SIDED|95.0|-37.0|-27.6||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-27.6|-37.0|<0.0001
82373752|NCT01775189|164453398|SUPERIORITY_OR_OTHER||LS Mean Difference|9.1||||0.0002|TWO_SIDED|95.0|4.5|13.8||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.8|4.5|0.0002
82373753|NCT01775189|164453398|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.8806|TWO_SIDED|95.0|-5.0|4.3||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.3|-5.0|0.8806
82373754|NCT01775189|164453398|SUPERIORITY_OR_OTHER||LS Mean Difference|41.4|||<|0.0001|TWO_SIDED|95.0|36.8|46.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.1|36.8|<0.0001
82373755|NCT01775189|164453398|SUPERIORITY_OR_OTHER||LS Mean Difference|41.8|||<|0.0001|TWO_SIDED|95.0|37.1|46.4||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.4|37.1|<0.0001
82373756|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|6.6||||0.2176|TWO_SIDED|95.0|-4.0|17.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.1|-4.0|0.2176
82373757|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.6|||<|0.0001|TWO_SIDED|95.0|-65.1|-44.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-44.1|-65.1|<0.0001
82373758|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0||||0.3502|TWO_SIDED|95.0|-5.6|15.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.5|-5.6|0.3502
82373759|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.7624|TWO_SIDED|95.0|-12.1|8.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.9|-12.1|0.7624
82373760|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|59.6|||<|0.0001|TWO_SIDED|95.0|49.0|70.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||70.1|49.0|<0.0001
82373761|NCT01775189|164453399|SUPERIORITY_OR_OTHER||LS Mean Difference|61.2|||<|0.0001|TWO_SIDED|95.0|50.6|71.7||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.7|50.6|<0.0001
82373762|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.0001|TWO_SIDED|95.0|13.8|35.3||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.3|13.8|<0.0001
82373763|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.7|||<|0.0001|TWO_SIDED|95.0|-72.6|-50.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-50.9|-72.6|<0.0001
82398273|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.116||0.1958|TWO_SIDED|90.0|-3.29|0.4|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.40|-3.29|0.1958
82398274|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.13||0.907|TWO_SIDED|90.0|-1.74|2.0|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.00|-1.74|0.9070
82398275|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.58|STANDARD_ERROR_OF_MEAN|1.16||0.0023|TWO_SIDED|90.0|1.67|5.5|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.50|1.67|0.0023
82398276|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.62|STANDARD_ERROR_OF_MEAN|1.132||0.1531|TWO_SIDED|90.0|-0.25|3.49|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.49|-0.25|0.1531
82398277|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.65|STANDARD_ERROR_OF_MEAN|1.141||0.1506|TWO_SIDED|90.0|-0.24|3.53|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.53|-0.24|0.1506
82398278|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|1.116||0.78|TWO_SIDED|90.0|-2.16|1.53|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.53|-2.16|0.7800
82398279|NCT00938587|164506846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|1.13||0.0883|TWO_SIDED|90.0|-3.8|-0.07|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.07|-3.80|0.0883
82529952|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.54||||0.047|TWO_SIDED|95.0|0.01|1.08||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.08|0.01|0.047
82398280|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.47|STANDARD_ERROR_OF_MEAN|4.48||0.0599|TWO_SIDED|90.0|-15.87|-1.07|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-1.07|-15.87|0.0599
82529953|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.27||||0.316|TWO_SIDED|95.0|-0.26|0.81||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.81|-0.26|0.316
82398281|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.29|STANDARD_ERROR_OF_MEAN|4.436||0.003|TWO_SIDED|90.0|-20.61|-5.96|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.96|-20.61|0.0030
82398282|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.63|STANDARD_ERROR_OF_MEAN|4.483||0.0053|TWO_SIDED|90.0|-20.03|-5.22|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.22|-20.03|0.0053
82398283|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.44|STANDARD_ERROR_OF_MEAN|4.445||0.0001|TWO_SIDED|90.0|-24.78|-10.1|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-10.10|-24.78|0.0001
82398284|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.15|STANDARD_ERROR_OF_MEAN|4.427||0.3492|TWO_SIDED|90.0|-11.46|3.16|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.16|-11.46|0.3492
82398285|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.68|STANDARD_ERROR_OF_MEAN|4.661||0.0389|TWO_SIDED|90.0|-17.38|-1.98|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure||-1.98|-17.38|0.0389
82398286|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.1|STANDARD_ERROR_OF_MEAN|4.49||0.0142|TWO_SIDED|90.0|-18.51|-3.68|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-3.68|-18.51|0.0142
82445240|NCT00652951|164598841|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group Group over Synflorix + Pediacel Group), was lower than 2 for the pneumococcal vaccine serotype 23F.|GMC ratio|0.92|||||TWO_SIDED|95.0|0.7|1.23|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa Group and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns pneumococcal vaccine serotype 23F.||1.23|0.7|
82445241|NCT00652951|164598842|NON_INFERIORITY|Non-inferiority criteria: The upper limit (UL) of the 2-sided 95% CI of the GMC ratio for between groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), was lower than 2 for protein D.|GMC ratio|0.91|||||TWO_SIDED|95.0|0.77|1.06|||ANOVA|||The 2-sided 95% CI of the geometric mean concentration (GMC) ratio between the Synflorix + Infanrix hexa and Synflorix + Pediacel groups (Synflorix + Infanrix hexa Group over Synflorix + Pediacel Group), at one month after Dose 3 of pneumococcal vaccine, was computed for each of the 10 pneumococcal vaccine serotypes and protein D. This statistical method concerns protein D.||1.06|0.77|
82529954|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.27||||0.224|TWO_SIDED|95.0|-0.17|0.71||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||30 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.71|-0.17|0.224
82645117|NCT02494583|165005747|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.04611|TWO_SIDED|95.0|0.7|1.03||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro combo arm was compared to OS in CPS ≥1 participants of the SOC arm to address the second primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.03|0.70|0.04611
82645118|NCT02494583|165005748|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.15804|TWO_SIDED|95.0|0.62|1.17||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥10 participants of the pembro combo arm was compared to OS in CPS ≥10 participants of the SOC arm to address the third primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.17|0.62|0.15804
82645119|NCT02494583|165005749|NON_INFERIORITY|Pre-specified non-inferiority margin: if the upper bound of the confidence interval (based on the alpha level allocated to the analysis) for the hazard ratio (\[HR\], pembro mono arm vs SOC) is \< 1.2, the pembro mono arm could be considered as non-inferior to the SOC arm in terms of OS.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|99.2|0.69|1.18|||||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the SOC arm to address the fourth primary hypothesis (non-inferiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.18|0.69|
82645120|NCT02494583|165005749|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.16205|TWO_SIDED|95.0|0.74|1.1||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the SOC arm to address the fifth primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||1.10|0.74|0.16205
82645121|NCT02494583|165005750|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.01491|TWO_SIDED|95.0|0.49|0.97||One-sided p-value based on log-rank test with stratification.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|OS in CPS ≥10 participants of the pembro mono arm was compared to OS in CPS ≥10 participants of the SOC arm to address the sixth primary hypothesis (superiority to SOC). The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and Fluoropyrimidine treatment.||0.97|0.49|0.01491
82645122|NCT02494583|165005751|OTHER||Difference in ORR Percentage|11.5||||0.00447|TWO_SIDED|95.0|2.9|20.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|ORR in CPS ≥1 participants of the pembro combo arm was compared to ORR in CPS ≥1 participants of the SOC arm based on Miettinen \& Nurminen method stratified by geographic region, disease status, and Fluoropyrimidine treatment.||20.0|2.9|0.00447
82645123|NCT02494583|165005753|OTHER||Difference in ORR Percentage|-22.3|||>|0.99999|TWO_SIDED|95.0|-29.6|-14.9||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|ORR in CPS ≥1 participants of the pembro mono arm was compared to ORR in CPS ≥1 participants of the SOC arm based on Miettinen \& Nurminen method stratified by geographic region, disease status, and Fluoropyrimidine treatment.||-14.9|-29.6|>0.99999
82373764|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|18.2||||0.0012|TWO_SIDED|95.0|7.4|29.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.1|7.4|0.0012
82373765|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.2507|TWO_SIDED|95.0|-17.2|4.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.5|-17.2|0.2507
82373766|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|79.9|||<|0.0001|TWO_SIDED|95.0|69.2|90.7||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.7|69.2|<0.0001
82373767|NCT01775189|164453400|SUPERIORITY_OR_OTHER||LS Mean Difference|86.3|||<|0.0001|TWO_SIDED|95.0|75.4|97.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||97.1|75.4|<0.0001
82373768|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.0015|TWO_SIDED|95.0|10.6|43.1||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.1|10.6|0.0015
82373769|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.3|||<|0.0001|TWO_SIDED|95.0|-125.7|-93.0||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-93.0|-125.7|<0.0001
82373770|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|21.4||||0.0109|TWO_SIDED|95.0|5.1|37.8||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.8|5.1|0.0109
82373771|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.4||||0.5117|TWO_SIDED|95.0|-21.8|10.9||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.9|-21.8|0.5117
82373772|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|130.8|||<|0.0001|TWO_SIDED|95.0|114.5|147.0||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||147.0|114.5|<0.0001
82373773|NCT01775189|164453401|SUPERIORITY_OR_OTHER||LS Mean Difference|136.2|||<|0.0001|TWO_SIDED|95.0|119.8|152.5||P-value was adjusted using Benjamini-Hochberg method.|Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||152.5|119.8|<0.0001
82373774|NCT01755767|164453456|SUPERIORITY|||||||0.8006|||||||Log Rank|Stratified log rank between treatment arms adjusted for stratification factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||||0.8006
82373775|NCT01755767|164453456|SUPERIORITY||Hazard Ratio (HR)|0.9682||||0.8061|TWO_SIDED|95.0|0.7483|1.2529|||Regression, Cox|Stratified Cox Regression between treatment arms adjusted for factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||1.2529|0.7483|0.8061
82373776|NCT01755767|164453458|SUPERIORITY|||||||0.7509|||||||Log Rank|Stratified log rank between treatment arms adjusted for stratification factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||||0.7509
82373777|NCT01755767|164453458|SUPERIORITY||Hazard Ratio (HR)|0.9557||||0.716|TWO_SIDED|95.0|0.7487|1.22|||Regression, Cox|Stratified Cox regression between treatment arms adjusted for factors: vascular invasion, extra-hepatic spread, and alpha fetoprotein level.||||1.2200|0.7487|0.7160
82373778|NCT04623086|164453461|OTHER|Comparison of two groups|Mean Difference (Net)|8.1||||0.14|TWO_SIDED||||||t-test, 2 sided|||For our power calculations, we assumed the true change in TIR to be 0% for the bridging group and 15% for the direct-conversion group, and we assumed a common standard deviation of 15% (meaning the distributions of change in TIR are separated by 1 standard-deviation unit), and thereby obtained that 20 patients in each group would provide 87% power to observe a statistically significant (at the two-sided level of .05) difference in mean change of TIR.||||0.14
82373779|NCT04623086|164453462|OTHER|Comparison of two groups|Mean Difference (Net)|4.1||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
82373780|NCT04623086|164453463|OTHER|Comparison of two groups|Mean Difference (Net)|12.1||||0.29|TWO_SIDED||||||t-test, 2 sided|||||||0.29
82373781|NCT04623086|164453464|OTHER|Comparison of two groups|Mean Difference (Net)|-11.9||||0.015|TWO_SIDED||||||t-test, 2 sided|||||||0.015
82373782|NCT04623086|164453465|OTHER||Mean Difference (Net)|0.3||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
82373783|NCT04623086|164453466|OTHER|Comparison of two groups|Mean Difference (Net)|2.6||||0.031|TWO_SIDED||||||t-test, 2 sided|||||||0.031
82373784|NCT04623086|164453467|OTHER|Comparison of two groups|Mean Difference (Net)|1.1||||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.27
82373785|NCT04623086|164453468|OTHER|Comparison of two groups|Mean Difference (Net)|0.0|||>|0.99|TWO_SIDED||||||t-test, 2 sided|||||||>0.99
82373786|NCT00191165|164453469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45||||0.34||95.0|-0.5|1.4|||ANOVA||Mean Difference = High Dose - Label Dose|||1.40|-0.50|0.340
82373787|NCT00191165|164453470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.388||95.0|-0.21|0.53||P-value for 12-Month Height SDS Change|ANOVA||Mean Difference = High Dose - Label Dose|||0.53|-0.21|0.388
82373788|NCT00191165|164453470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.061||95.0|-0.02|0.99||P-value for 24-Month Height SDS Change|ANOVA||Mean Difference = High Dose - Label Dose|||0.99|-0.02|0.061
82373789|NCT00191165|164453471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.13||||0.088||95.0|-0.18|2.44|||ANOVA||Mean Difference = High Dose - Label Dose|||2.44|-0.18|0.088
82398287|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.51|STANDARD_ERROR_OF_MEAN|4.612||0.0037|TWO_SIDED|90.0|-21.13|-5.89|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.89|-21.13|0.0037
82373790|NCT00715624|164453472|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.096||0.0002|TWO_SIDED|95.0|-0.55|-0.174||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|To control type I error, a step-down procedure described by Hochberg and Tomhane was applied.||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 300 patients in lixisenatide arm and 150 in placebo arm would provide a power of 96% (or 86%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.174|-0.550|0.0002
82373791|NCT03200912|164453484|EQUIVALENCE|Primary Efficacy Endpoint - AK Complete Clearance Rates at Day 57 (PP and mITT Populations)|Mean Difference (Net)|2.29|||||TWO_SIDED|90.0|-7.55|12.14||||||||12.14|-7.55|
82373792|NCT00998309|164453499|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the participatns of responders."||||=0.001
82373793|NCT00998309|164453500|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the participatns of responders."||||=1.000
82373794|NCT00998309|164453501|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was type of infection. The null hypothesis is there is no difference amang Skin and Soft Tissue Infection, Sexual Transmitted Infection, and Dental and Oral Surgery Infection in the participatns of responders."||||<0.001
82373795|NCT00998309|164453502|SUPERIORITY_OR_OTHER||||||=|0.556|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Infection severity. The null hypothesis is there is no difference amang mild infection, moderate infection, and severe infection in the participatns of responders."||||=0.556
82373796|NCT00998309|164453503|SUPERIORITY_OR_OTHER||||||=|0.074|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was hepatic dysfunction. The null hypothesis is there is no difference between with and without hepatic dysfunction in the participatns of responders."||||=0.074
82373797|NCT00998309|164453504|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal dysfunction. The null hypothesis is there is no difference between with and without Renal dysfunction in the participatns of responders."||||=1.000
82373798|NCT00998309|164453505|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past medical history. The null hypothesis is there is no difference between with and without past medical history in the participatns of responders."||||=1.000
82373799|NCT00998309|164453506|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications  in the participatns of responders."||||=1.000
82373800|NCT00998309|164453507|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was previous antibiotic treatment history. The null hypothesis is there is no difference between with and without previous antibiotic treatment history in the participatns of responders."||||=1.000
82373801|NCT00998309|164453508|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was comcomittant drugs. The null hypothesis is there is no difference between with and without comcomittant drugs in the participatns of responders."||||=0.470
82373802|NCT00998309|164453509|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was non-drug therapy. The null hypothesis is there is no difference between with and without non-drug therapy in the participatns of responders."||||=1.000
82373803|NCT00998309|164453512|SUPERIORITY_OR_OTHER||||||=|0.657|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.657
82373804|NCT00998309|164453513|SUPERIORITY_OR_OTHER||||||=|0.145|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years or \>=65 in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.145
82373805|NCT00998309|164453514|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Type of Infection. The null hypothesis is there is no difference amang Skin and Soft Tissue Infection, Sexual Transmitted Infection, and Dental or Oral Surgery Infection in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.005
82373806|NCT00998309|164453515|SUPERIORITY_OR_OTHER||||||=|0.213|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Infection severity. The null hypothesis is there is no difference amang mild infection, moderate infection, or severe infection in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.213
82373807|NCT00998309|164453516|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic Dysfunction. The null hypothesis is there is no difference between with and without Hepatic Dysfunction in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=1.000
82373808|NCT00998309|164453517|SUPERIORITY_OR_OTHER||||||=|0.116|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without Renal Dysfunction in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.116
82373809|NCT00998309|164453518|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past Medical History. The null hypothesis is there is no difference between with and without Past Medical History in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||<0.001
82373810|NCT00998309|164453519|SUPERIORITY_OR_OTHER||||||=|0.645|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was complications. The null hypothesis is there is no difference between with and without complications in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.645
82373811|NCT00998309|164453520|SUPERIORITY_OR_OTHER||||||=|0.679|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was previous antibiotic treatment history (PATH). The null hypothesis is there is no difference between with and without previous antibiotic treatment history (PTH) in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.679
82373812|NCT00998309|164453521|SUPERIORITY_OR_OTHER||||||=|0.234|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was comcomittant drugs. The null hypothesis is there is no difference between with and without comcomittant drugs in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.234
82373813|NCT00998309|164453522|SUPERIORITY_OR_OTHER||||||=|0.039|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was non-drug therapy. The null hypothesis is there is no difference between with and without non-drug therapy in the Incidence Rate of Treatment Related Adverse Events (TRAEs)."||||=0.039
82576091|NCT00848484|164861898|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among five secondary cognition endpoints.|Wilcoxon (Mann-Whitney)|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
82576092|NCT00848484|164861899|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.1 was used to adjust p-Values among 5 secondary cognition endpoints.|constrained Longitudinal Data Analysis|The repeated measures model included the terms site and sequence \* time with a restriction of the same baseline mean across treatment sequences.||||||0.686
82645124|NCT02494583|165005755|OTHER||Hazard Ratio (HR)|1.64||||1|TWO_SIDED|95.0|1.36|1.98||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|PFS in CPS ≥1 participants of the pembro mono arm was compared to PFS in CPS ≥1 participants of the SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification according to geographic region, disease status, and fluoropyrimidine treatment.||1.98|1.36|1.00000
82645125|NCT02494583|165005756|OTHER||Difference in LS Means|-0.16||||0.948|TWO_SIDED|95.0|-5.01|4.69||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Stratified analyses could be based on collapsing strata with insufficient number of participants or events; strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro mono arm and the SOC arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||4.69|-5.01|0.948
82373814|NCT00998309|164453523|SUPERIORITY_OR_OTHER||||||=|0.605|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Pregnancy in Female. The null hypothesis is there is no difference between with and without Pregnancy in the Incidence Rate of Treatment Related Adverse Events (TRAEs) in Female."||||=0.605
82373815|NCT00724048|164453612|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.078|TWO_SIDED|95.0|-2.47|0.13|||ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||0.13|-2.47|0.078
82645126|NCT02494583|165005757|OTHER||Difference in LS Means|1.98||||0.368|TWO_SIDED|95.0|-2.34|6.31||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||6.31|-2.34|0.368
82645127|NCT02494583|165005758|OTHER||Difference in LS Means|2.35||||0.308|TWO_SIDED|95.0|-2.18|6.89||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-STO22 Pain symptom subscale score was compared between all participants of the pembro mono arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||6.89|-2.18|0.308
82645128|NCT02494583|165005759|OTHER||Difference in LS Means|-6.56||||0.001|TWO_SIDED|95.0|-10.55|-2.58||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|cLDA||Since stratified analyses could be based on collapsing strata with insufficient number of participants or events, strata were pooled in some cases based on clinical judgement and actual counts.|Change from baseline to Week 18 in EORTC-QLQ-STO22 Pain symptom subscale score was compared between all participants of the pembro combo arm and the SOC arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction and stratification factors (geographic region, disease status, and fluoropyrimidine treatment) as covariates.||-2.58|-10.55|0.001
82645129|NCT00639158|165005762|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The treatment group comparisons for both primary efficacy variables must have demonstrated superiority of ABT-335 + atorvastatin + ezetimibe to declare this arm successful. Thus, no adjustments were made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||A sample size of 212 per arm provided 90% power and \> 99% power with a 2-sided alpha = 0.05 level to detect differences between treatment arms of 6% and 17% in the percent change in HDL-C and TG, respectively, assuming an SD of 19% and 30%, respectively. This sample size provided an overall power of approximately 90% for the 2 primary comparisons. If a loss to follow-up rate of 8% was assumed, the sample size needed to be increased to 230 per arm to maintain the above power.||||< 0.001
82645130|NCT00639158|165005763|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||0.004
82647990|NCT00386100|165011352|SUPERIORITY_OR_OTHER||Percent difference from metformin|-3.0||||0.5595|TWO_SIDED|95.0|-12.3|7.4||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||7.4|-12.3|0.5595
82645131|NCT00639158|165005764|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The treatment group comparisons for both primary efficacy variables must have demonstrated superiority of ABT-335 + atorvastatin + ezetimibe to declare this arm successful. Thus, no adjustments were made for multiple comparisons.|ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||A sample size of 212 per arm provided 90% power and \> 99% power with a 2-sided alpha = 0.05 level to detect differences between treatment arms of 6% and 17% in the percent change in HDL-C and TG, respectively, assuming an SD of 19% and 30%, respectively. This sample size provided an overall power of approximately 90% for the 2 primary comparisons. If a loss to follow-up rate of 8% was assumed, the sample size needed to be increased to 230 per arm to maintain the above power.||||< 0.001
82645132|NCT00639158|165005765|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
82373816|NCT00724048|164453612|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.084|TWO_SIDED|95.0|-2.53|0.16||Hypothesis testing was completed only if ACR16 45 mg BID (90 mg) vs. placebo was significant.|ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||0.16|-2.53|0.084
82373817|NCT00724048|164453612|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.982|TWO_SIDED|95.0|-1.35|1.32||Hypothesis testing was completed only if ACR16 22.5 mg BID (45 mg) vs. placebo was significant.|ANCOVA|||The ANCOVA model included a term for treatment, as well as covariates for baseline mMS, and age at entry to the study.||1.32|-1.35|0.982
82373818|NCT02304458|164453645|OTHER|Maximum Tolerate Dose Level was determined by the rolling-6 design.|Maximum Tolerate Dose Level|3.0|||||TWO_SIDED||||||||Maximum Tolerate Dose Level is 3 mg/kg Nivolumab|||||
82373819|NCT00390221|164453655|SUPERIORITY_OR_OTHER||Rate Ratio|0.461|||<|0.0001|TWO_SIDED|95.0|0.318|0.668||adjusted for the number of relapses in the 1 year prior to study entry, baseline Expanded Disability Status Scale (\<=2.5 vs \> 2.5), and age (\<=35 vs \>35)|Negative Binomial Regression|||||0.668|0.318|<0.0001
82373820|NCT00390221|164453655|SUPERIORITY_OR_OTHER||Rate Ratio|0.503||||0.0002|TWO_SIDED|95.0|0.352|0.721||adjusted for the number of relapses in the 1 year prior to study entry, baseline Expanded Disability Status Scale (\<=2.5 vs \> 2.5), and age (\<=35 vs \>35)|Negative Binomial Regression|||||0.721|0.352|0.0002
82373821|NCT00390221|164453656|SUPERIORITY_OR_OTHER||Percent Reduction|78.44|||<|0.0001|TWO_SIDED|95.0|65.97|86.35|||Negative Binomial Regression|adjusted for the baseline number of Gd-enhancing lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||86.35|65.97|<0.0001
82373822|NCT00390221|164453656|SUPERIORITY_OR_OTHER||Percent Reduction|69.47|||<|0.0001|TWO_SIDED|95.0|52.4|80.41|||Negative Binomial Regression|adjusted for the baseline number of Gd-enhancing lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||80.41|52.40|<0.0001
82373823|NCT00390221|164453657|SUPERIORITY_OR_OTHER||Percent Reduction|78.73|||<|0.0001|TWO_SIDED|95.0|71.33|84.22|||Negative Binomial Regression|adjusted for baseline number of T2 lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||84.22|71.33|<0.0001
82373824|NCT00390221|164453657|SUPERIORITY_OR_OTHER||Percent Reduction|70.23|||<|0.0001|TWO_SIDED|95.0|59.94|77.88|||Negative Binomial Regression|adjusted for baseline number of T2 lesions||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||77.88|59.94|<0.0001
82529955|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.46||||0.099|TWO_SIDED|95.0|-0.09|1.01||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||1.01|-0.09|0.099
82373825|NCT00390221|164453658|SUPERIORITY_OR_OTHER||Hazard Ratio|0.49||||0.0003|TWO_SIDED|95.0|0.33|0.72||Covariates included were number of relapses in the 1 year prior to study entry (p=0.001), baseline Expanded Disability Status Scale (\<=2.5 versus \>2.5, p=0.449), and age (\<=35 versus \>35, p=0.026).|Cox Proportional Hazard|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.72|0.33|0.0003
82645133|NCT00639158|165005766|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
82645134|NCT00639158|165005767|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
82645135|NCT00639158|165005768|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Corresponding baseline lipid value as the covariate and with effect for treatment group.||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
82373826|NCT00390221|164453658|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.3|0.67||Covariates included were number of relapses in the 1 year prior to study entry (p=0.001), baseline Expanded Disability Status Scale (\<=2.5 versus \>2.5, p=0.449), and age (\<=35 versus \>35, p=0.026).|Cox Proportional Hazard|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.67|0.30|<0.0001
82373827|NCT00390221|164453659|SUPERIORITY_OR_OTHER||Relative Mean Change|-1.93||||0.1284|TWO_SIDED|95.0|-4.42|0.56||Analysis of variance for difference between treatment groups, controlling for baseline score.|Analysis of Variance|||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||0.56|-4.42|0.1284
82373828|NCT00390221|164453659|SUPERIORITY_OR_OTHER||Relative Mean Change|-4.27||||0.0008|TWO_SIDED|95.0|-6.76|-1.78|||Analysis of Variance|Analysis of variance for difference between treatment groups, controlling for baseline score.||For each of the secondary endpoints, a sequential closed testing procedure was used, with the first comparison (the DAC HYP 300 mg group versus placebo) and the second comparison (the DAC HYP 150 mg group versus placebo). Secondary endpoints were rank prioritized, in the order presented. If statistical significance was not achieved for an endpoint, all endpoints(s) of a lower rank were not considered statistically significant.||-1.78|-6.76|0.0008
82373829|NCT03433755|164453692|SUPERIORITY||Treatment difference|-70.73|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|-77.98|-63.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-63.48|-77.98|< 0.0001
82373830|NCT03433755|164453692|SUPERIORITY||Treatment difference|-69.74|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-76.51|-62.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-62.97|-76.51|< 0.0001
82373831|NCT03433755|164453693|SUPERIORITY||Treatment difference|-70.87|STANDARD_ERROR_OF_MEAN|4.33|<|0.0001|TWO_SIDED|95.0|-79.47|-62.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-62.27|-79.47|< 0.0001
82373832|NCT03433755|164453693|SUPERIORITY||Treatment difference|-65.81|STANDARD_ERROR_OF_MEAN|4.11|<|0.0001|TWO_SIDED|95.0|-73.97|-57.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-57.66|-73.97|< 0.0001
82373833|NCT03433755|164453694|SUPERIORITY||Treatment difference|-76.5|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|95.0|-86.6|-66.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-66.4|-86.6|< 0.0001
82373834|NCT03433755|164453694|SUPERIORITY||Treatment difference|-77.2|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001|TWO_SIDED|95.0|-87.7|-66.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-66.7|-87.7|< 0.0001
82373835|NCT03433755|164453695|SUPERIORITY||Treatment difference|-75.9|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-87.1|-64.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-64.7|-87.1|< 0.0001
82576093|NCT03355209|164861906|SUPERIORITY||Median Difference (A-P)|-19.88||||0.0008|TWO_SIDED|95.0|-31.02|-8.74|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann (HL) method|||-8.74|-31.02|0.0008
82645136|NCT00639158|165005769|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|Rank-sum test||Secondary endpoints were tested in fixed sequence. If superiority of ABT-335 + atorvastatin + ezetimibe treatment was demonstrated for primary endpoints, secondary endpoints were tested in ranked order of apoA1, VLDL-C, apoC3, non-HDL-C, apoB, and hsCRP at alpha = 0.05 level until 1 secondary endpoint failed to reach statistical significance.||||< 0.001
82645137|NCT03332212|165005824|OTHER||Mean Difference (Final Values)|-0.247|STANDARD_ERROR_OF_MEAN|0.164||0.1418|TWO_SIDED|95.0|-0.582|0.087|||ANOVA|||ANOVA on the PCr/ATP ratio absolute change using treatment (empagliflozin vs. placebo), history of diabetes (yes vs, no) and history of atrial fibrillation (yes vs no) as between subjects factor.||0.087|-0.582|0.1418
82373836|NCT03433755|164453695|SUPERIORITY||Treatment difference|-73.0|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-84.1|-61.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-61.8|-84.1|< 0.0001
82373837|NCT03433755|164453696|SUPERIORITY||Treatment difference|-61.2|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|95.0|-68.04|-54.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-54.37|-68.04|< 0.0001
82373838|NCT03433755|164453696|SUPERIORITY||Treatment difference|-62.15|STANDARD_ERROR_OF_MEAN|2.94|<|0.0001|TWO_SIDED|95.0|-67.97|-56.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-56.32|-67.97|< 0.0001
82373839|NCT03433755|164453697|SUPERIORITY||Treatment difference|-61.45|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-69.25|-53.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-53.65|-69.25|< 0.0001
82373840|NCT03433755|164453697|SUPERIORITY||Treatment difference|-56.65|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-63.66|-49.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-49.63|-63.66|< 0.0001
82373841|NCT03433755|164453698|SUPERIORITY||Treatment Difference|-56.26|STANDARD_ERROR_OF_MEAN|3.12|<|0.0001|TWO_SIDED|95.0|-62.44|-50.07||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-50.07|-62.44|< 0.0001
82373842|NCT03433755|164453698|SUPERIORITY||Treatment Difference|-57.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-62.35|-51.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-51.65|-62.35|< 0.0001
82398288|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-14.93|STANDARD_ERROR_OF_MEAN|4.447||0.0009|TWO_SIDED|90.0|-22.27|-7.58|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-7.58|-22.27|0.0009
82398289|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.83|STANDARD_ERROR_OF_MEAN|4.484||0.3939|TWO_SIDED|90.0|-11.23|3.57|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.57|-11.23|0.3939
82398290|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.54|STANDARD_ERROR_OF_MEAN|4.595||0.0127|TWO_SIDED|90.0|3.95|19.13|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||19.13|3.95|0.0127
82398291|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|4.49||0.9425|TWO_SIDED|90.0|-7.09|7.74|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.74|-7.09|0.9425
82398292|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.08|STANDARD_ERROR_OF_MEAN|4.544||0.0155|TWO_SIDED|90.0|3.58|18.59|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||18.59|3.58|0.0155
82398293|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|4.447||0.9757|TWO_SIDED|90.0|-7.48|7.21|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.21|-7.48|0.9757
82398294|NCT00938587|164506847|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|4.484||0.9184|TWO_SIDED|90.0|-7.86|6.94|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||6.94|-7.86|0.9184
82398295|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.2403|TWO_SIDED|90.0|-0.38|0.06|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.06|-0.38|0.2403
82398296|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.134||0.027|TWO_SIDED|90.0|-0.52|-0.08|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.08|-0.52|0.0270
82576094|NCT03355209|164861909|SUPERIORITY||Median Difference (A-P)|-10.5||||0.146|TWO_SIDED|95.0|-24.99|3.99|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann (HL) method|||3.99|-24.99|0.1460
82398297|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.133||0.3139|TWO_SIDED|90.0|-0.36|0.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.09|-0.36|0.3139
82398298|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.134||0.0415|TWO_SIDED|90.0|-0.5|-0.05|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.05|-0.50|0.0415
82398299|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.134||0.8585|TWO_SIDED|90.0|-0.2|0.25|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.25|-0.20|0.8585
82398300|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.7284|TWO_SIDED|90.0|-0.28|0.18|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.18|-0.28|0.7284
82398301|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.135||0.0171|TWO_SIDED|90.0|-0.55|-0.1|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.10|-0.55|0.0171
82398302|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.2277|TWO_SIDED|90.0|-0.39|0.06|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.06|-0.39|0.2277
82398303|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.134||0.0013|TWO_SIDED|90.0|-0.67|-0.22|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.22|-0.67|0.0013
82398304|NCT00938587|164506848|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.135||0.3908|TWO_SIDED|90.0|-0.34|0.11|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.11|-0.34|0.3908
82398305|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.66|STANDARD_ERROR_OF_MEAN|7.093||0.6067|TWO_SIDED|90.0|-15.43|8.1|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.10|-15.43|0.6067
82576095|NCT03355209|164861910|SUPERIORITY||Odds Ratio (OR)|3.3||||0.0051|TWO_SIDED|95.0|1.43|7.59|||Regression, Logistic|||||7.59|1.43|0.0051
82398306|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.55|STANDARD_ERROR_OF_MEAN|7.101||0.1816|TWO_SIDED|90.0|-21.32|2.23|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.23|-21.32|0.1816
82398307|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.84|STANDARD_ERROR_OF_MEAN|7.029||0.6873|TWO_SIDED|90.0|-14.5|8.82|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.82|-14.50|0.6873
82398308|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.72|STANDARD_ERROR_OF_MEAN|7.052||0.2188|TWO_SIDED|90.0|-20.42|2.98|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.98|-20.42|0.2188
82398309|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.83|STANDARD_ERROR_OF_MEAN|7.024||0.9067|TWO_SIDED|90.0|-10.82|12.47|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||12.47|-10.82|0.9067
82398310|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.02|STANDARD_ERROR_OF_MEAN|7.254||0.5803|TWO_SIDED|90.0|-16.05|8.0|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.00|-16.05|0.5803
82398311|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.29|STANDARD_ERROR_OF_MEAN|7.156||0.249|TWO_SIDED|90.0|-20.16|3.57|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.57|-20.16|0.2490
82398312|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.62|STANDARD_ERROR_OF_MEAN|7.178||0.1081|TWO_SIDED|90.0|-23.52|0.28|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.28|-23.52|0.1081
82576096|NCT03355209|164861910|SUPERIORITY||Odds Ratio (OR)|2.87||||0.015|TWO_SIDED|95.0|1.23|6.7|||Regression, Logistic|||||6.70|1.23|0.0150
82576097|NCT03355209|164861911|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1565|TWO_SIDED|95.0|0.84|2.97|||Cochran-Mantel-Haenszel|||Visit 12||2.97|0.84|0.1565
82576098|NCT03355209|164861911|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0567|TWO_SIDED|95.0|0.98|3.52|||Cochran-Mantel-Haenszel|||Visit 12||3.52|0.98|0.0567
82373843|NCT03433755|164453699|SUPERIORITY||Treatment difference|-55.69|STANDARD_ERROR_OF_MEAN|3.67|<|0.0001|TWO_SIDED|95.0|-62.98|-48.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-48.41|-62.98|< 0.0001
82373844|NCT03433755|164453699|SUPERIORITY||Treatment difference|-51.21|STANDARD_ERROR_OF_MEAN|3.45|<|0.0001|TWO_SIDED|95.0|-58.06|-44.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-44.37|-58.06|< 0.0001
82373845|NCT03433755|164453700|SUPERIORITY||Treatment difference|-42.74|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-48.06|-37.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-37.41|-48.06|< 0.0001
82373846|NCT03433755|164453700|SUPERIORITY||Treatment difference|-44.3|STANDARD_ERROR_OF_MEAN|2.38|<|0.0001|TWO_SIDED|95.0|-49.02|-39.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-39.58|-49.02|< 0.0001
82373847|NCT03433755|164453701|SUPERIORITY||Treatment difference|-43.05|STANDARD_ERROR_OF_MEAN|3.05|<|0.0001|TWO_SIDED|95.0|-49.09|-37.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-37.00|-49.09|< 0.0001
82373848|NCT03433755|164453701|SUPERIORITY||Treatment difference|-40.42|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-45.98|-34.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-34.87|-45.98|< 0.0001
82373849|NCT03433755|164453702|SUPERIORITY||Treatment difference|87.2|||<|0.0001|TWO_SIDED|95.0|72.6|92.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||92.8|72.6|< 0.0001
82373850|NCT03433755|164453702|SUPERIORITY||Treatment difference|91.5|||<|0.0001|TWO_SIDED|95.0|76.9|96.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||96.1|76.9|< 0.0001
82373851|NCT03433755|164453703|SUPERIORITY||Treatment difference|90.6|||<|0.0001|TWO_SIDED|95.0|76.6|95.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||95.6|76.6|< 0.0001
82373852|NCT03433755|164453703|SUPERIORITY||Treatment difference|85.7|||<|0.0001|TWO_SIDED|95.0|68.2|91.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||91.9|68.2|< 0.0001
82373853|NCT03433755|164453704|SUPERIORITY||Treatment difference|87.0|||<|0.0001|TWO_SIDED|95.0|73.3|93.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||93.0|73.3|< 0.0001
82373854|NCT03433755|164453704|SUPERIORITY||Treatment difference|88.7|||<|0.0001|TWO_SIDED|95.0|73.5|94.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||94.0|73.5|< 0.0001
82373855|NCT03433755|164453705|SUPERIORITY||Treatment difference|82.8|||<|0.0001|TWO_SIDED|95.0|67.8|90.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||90.1|67.8|< 0.0001
82373856|NCT03433755|164453705|SUPERIORITY||Treatment difference|82.7|||<|0.0001|TWO_SIDED|95.0|64.8|89.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test adjusted by the stratification factor.|Treatment difference = Evolocumab QM - Placebo QM|||89.7|64.8|< 0.0001
82373857|NCT03433755|164453706|SUPERIORITY||Treatment difference|-48.45|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-57.78|-39.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-39.11|-57.78|< 0.0001
82373858|NCT03433755|164453706|SUPERIORITY||Treatment difference|-40.43|STANDARD_ERROR_OF_MEAN|4.13|<|0.0001|TWO_SIDED|95.0|-48.62|-32.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-32.24|-48.62|< 0.0001
82576099|NCT02567708|164861951|OTHER||Posterior median difference.|0.007|STANDARD_DEVIATION|0.0468||0.57|TWO_SIDED|95.0|-0.083|0.102||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.102|-0.083|0.57
82373859|NCT03433755|164453707|SUPERIORITY||Treatment difference|-44.7|STANDARD_ERROR_OF_MEAN|5.07|<|0.0001|TWO_SIDED|95.0|-54.76|-34.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-34.65|-54.76|< 0.0001
82645138|NCT03332212|165005824|OTHER||Mean Difference (Final Values)|-0.159|STANDARD_ERROR_OF_MEAN|0.213||0.465|TWO_SIDED|95.0|-0.604|0.286|||ANOVA|||ANOVA on the PCr/ATP ratio absolute change using treatment (empagliflozin vs. placebo), history of diabetes (yes vs, no) and history of atrial fibrillation (yes vs no) as between subjects factor.||0.286|-0.604|0.4650
82645139|NCT00609115|165005825|SUPERIORITY||Effect size|0.65||||0.01|TWO_SIDED|97.5|||||ANCOVA|||||||0.010
82645140|NCT00609115|165005825|SUPERIORITY||Effect|0.71||||0.003|TWO_SIDED|95.0|||||ANCOVA|||||||0.003
82645141|NCT00609115|165005826|SUPERIORITY||Effect Size|0.0||||1|TWO_SIDED|95.0||||The reported p-value was calculated.|ANCOVA|||||||1.00
82645142|NCT00609115|165005826|SUPERIORITY||Effect Size|-0.29||||0.06|TWO_SIDED|95.0|||||ANCOVA|||||||0.06
82645143|NCT00609115|165005827|SUPERIORITY||Effect Size|0.33||||0.17|TWO_SIDED|95.0|||||ANCOVA|||||||0.17
82645144|NCT00609115|165005827|SUPERIORITY||Effect Size|0.4||||0.17|TWO_SIDED|95.0|||||ANCOVA|||||||0.17
82373860|NCT03433755|164453707|SUPERIORITY||Treatment difference|-38.26|STANDARD_ERROR_OF_MEAN|5.88|<|0.0001|TWO_SIDED|95.0|-49.94|-26.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-26.59|-49.94|< 0.0001
82645145|NCT00609115|165005828|SUPERIORITY||Effect Size|0.05||||0.83|TWO_SIDED|95.0|||||ANCOVA|||||||0.83
82645146|NCT00609115|165005828|SUPERIORITY||Effect Size|-0.27||||0.83|TWO_SIDED|95.0|||||ANCOVA|||||||0.83
82645147|NCT00609115|165005829|SUPERIORITY||Effect Size|0.25||||0.28|TWO_SIDED|95.0|||||ANCOVA|||||||0.28
82645148|NCT00609115|165005829|SUPERIORITY||Effect Size|0.38||||0.09|TWO_SIDED|95.0|||||ANCOVA|||||||0.09
82645149|NCT00609115|165005830|SUPERIORITY||Effect Size|0.23||||0.18|TWO_SIDED|95.0|||||ANCOVA|||||||0.18
82645150|NCT00609115|165005830|SUPERIORITY||Effect Size|0.37||||0.1|TWO_SIDED|95.0|||||ANCOVA|||||||0.10
82645151|NCT00609115|165005831|SUPERIORITY||Effect Size|0.18||||0.45|TWO_SIDED|95.0|||||ANCOVA|||||||0.45
82645152|NCT00609115|165005831|SUPERIORITY||Effect Size|0.71||||0.003|TWO_SIDED|95.0|||||ANCOVA|||||||0.003
82645153|NCT00609115|165005832|SUPERIORITY||Effect Size|-0.17||||0.47|TWO_SIDED|95.0|||||ANCOVA|||||||0.47
82645154|NCT00609115|165005832|SUPERIORITY||Effect Size|0.77||||0.015|TWO_SIDED|95.0|||||ANCOVA|||||||0.015
82645155|NCT00609115|165005833|SUPERIORITY||Effect Size|0.48||||0.05|TWO_SIDED|95.0|||||ANCOVA|||||||0.05
82645156|NCT00609115|165005833|SUPERIORITY||Effect Size|0.56||||0.002|TWO_SIDED|95.0|||||ANCOVA|||||||0.002
82645157|NCT00609115|165005834|SUPERIORITY||Effect Size|0.26||||0.27|TWO_SIDED|95.0|||||ANCOVA|||||||0.27
82645158|NCT00609115|165005834|SUPERIORITY||Effect Size|0.45||||0.045|TWO_SIDED|95.0|||||ANCOVA|||||||0.045
82645159|NCT02125734|165005835|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.081||||0.0017|TWO_SIDED|95.0|0.031|0.13|||ANCOVA|||||0.130|0.031|0.0017
82645160|NCT02617446|165005840|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.029|TWO_SIDED|95.0|-5.68|-0.32||Alpha set at 0.05.|ANOVA|Treatment term included in the model||Null hypothesis: No difference in E/Ea ratio between istaroxime and placebo||-0.32|-5.68|0.029
82645161|NCT02617446|165005840|SUPERIORITY||Mean Difference (Final Values)|-2.08||||0.009|TWO_SIDED|95.0|-3.61|-0.55||Alpha set at 0.05.|ANOVA|Treatment term included in the model||Null hypothesis: No difference in E/Ea ratio between istaroxime and placebo||-0.55|-3.61|0.009
82645162|NCT02617446|165005841|SUPERIORITY||Mean Difference (Final Values)|1.7632||||0.089|TWO_SIDED|95.0|-0.2751|3.8014||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term included in the model||Null hypothesis: No difference in LVEF % between istaroxime and placebo participants.||3.8014|-0.2751|0.089
82645163|NCT02617446|165005841|SUPERIORITY||Mean Difference (Final Values)|0.9848||||0.423|TWO_SIDED|95.0|-1.4668|3.4365||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term included in the model||Null hypothesis: No difference in LVEF % between istaroxime and placebo participants.||3.4365|-1.4668|0.423
82645164|NCT02617446|165005842|SUPERIORITY||Mean Difference (Final Values)|3.684||||0.034|TWO_SIDED|95.0|0.285|7.083||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model.||Null hypothesis: No difference in SVI between istaroxime and placebo participants.||7.083|0.285|0.034
82645165|NCT02617446|165005842|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.09|TWO_SIDED|95.0|-0.373|4.992||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||4.992|-0.373|0.090
82645166|NCT02617446|165005843|SUPERIORITY||Mean Difference (Final Values)|-0.777||||0.042|TWO_SIDED|95.0|-1.522|-0.032||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is included in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||-0.032|-1.522|0.042
82645167|NCT02617446|165005843|SUPERIORITY||Mean Difference (Final Values)|-0.829||||0.029|TWO_SIDED|95.0|-1.568|-0.091||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||-0.091|-1.568|0.029
82645168|NCT02617446|165005844|SUPERIORITY||Mean Difference (Final Values)|-5.368||||0.11|TWO_SIDED|95.0|-11.999|1.262||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in LVESV between istaroxime and placebo participants.||1.262|-11.999|0.110
82645169|NCT02617446|165005844|SUPERIORITY||Mean Difference (Final Values)|0.439||||0.931|TWO_SIDED|95.0|-9.735|10.614||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model||Null hypothesis: No difference in LVEDV between istaroxime and placebo participants.||10.614|-9.735|0.931
82645170|NCT02617446|165005845|SUPERIORITY||Mean Difference (Final Values)|-1.657||||0.589|TWO_SIDED|95.0|-7.777|4.461||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term in the model||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||4.461|-7.777|0.589
82529956|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.37||||0.186|TWO_SIDED|95.0|-0.18|0.92||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.92|-0.18|0.186
82373861|NCT03433755|164453708|SUPERIORITY||Treatment difference|-15.09|STANDARD_ERROR_OF_MEAN|4.71||0.008|TWO_SIDED|95.0|-24.44|-5.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-5.75|-24.44|0.008
82373862|NCT03433755|164453708|SUPERIORITY||Treatment difference|-19.67|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-28.3|-11.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-11.05|-28.30|< 0.0001
82373863|NCT03433755|164453709|SUPERIORITY||Treatment difference|-17.56|STANDARD_ERROR_OF_MEAN|5.98||0.008|TWO_SIDED|95.0|-29.42|-5.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-5.69|-29.42|0.008
82373864|NCT03433755|164453709|SUPERIORITY||Treatment difference|-12.35|STANDARD_ERROR_OF_MEAN|5.38|<|0.0001|TWO_SIDED|95.0|-23.04|-1.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-1.67|-23.04|< 0.0001
82373865|NCT03433755|164453710|SUPERIORITY||Treatment difference|8.44|STANDARD_ERROR_OF_MEAN|2.56||0.008|TWO_SIDED|95.0|3.35|13.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||13.52|3.35|0.008
82373866|NCT03433755|164453710|SUPERIORITY||Treatment difference|6.8|STANDARD_ERROR_OF_MEAN|2.37||0.017|TWO_SIDED|95.0|2.1|11.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||11.50|2.10|0.017
82373867|NCT03433755|164453711|SUPERIORITY||Treatment difference|7.94|STANDARD_ERROR_OF_MEAN|2.91||0.008|TWO_SIDED|95.0|2.18|13.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||13.71|2.18|0.008
82645171|NCT02617446|165005845|SUPERIORITY||Mean Difference (Final Values)|3.944||||0.424|TWO_SIDED|95.0|-5.886|13.774||Alpha set at 0.05. No adjustment for multiple comparisons|ANOVA|Treatment term is in the model.||Null hypothesis: No difference in E to A ratio between istaroxime and placebo participants.||13.774|-5.886|0.424
82373868|NCT03433755|164453711|SUPERIORITY||Treatment difference|6.17|STANDARD_ERROR_OF_MEAN|0.036||0.017|TWO_SIDED|95.0|0.42|11.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||11.92|0.42|0.017
82373869|NCT03433755|164453712|SUPERIORITY||Treatment difference|-22.96|STANDARD_ERROR_OF_MEAN|4.44||0.0002|TWO_SIDED|95.0|-33.12|-12.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-12.81|-33.12|0.0002
82373870|NCT03433755|164453712|SUPERIORITY||Treatment difference|-27.81|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|-36.6|-19.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-19.02|-36.60|< 0.0001
82373871|NCT03433755|164453713|SUPERIORITY||Treatment difference|-21.78|STANDARD_ERROR_OF_MEAN|6.32||0.0002|TWO_SIDED|95.0|-34.31|-9.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-9.25|-34.31|0.0002
82373872|NCT03433755|164453713|SUPERIORITY||Treatment difference|-15.74|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|95.0|-26.31|-5.18||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Treatment difference = Evolocumab QM - Placebo QM|||-5.18|-26.31|< 0.0001
82373873|NCT04036799|164453749|OTHER|Categorical variables were summarized using frequencies and proportions.|Cumulative proportion of events at 5 yrs|9.1|||||TWO_SIDED|95.0||||||||||||
82373874|NCT03589768|164453750|OTHER|N/A, Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-11.9|10.3|||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|||10.3|-11.9|
82373875|NCT03589768|164453751|SUPERIORITY||Risk Difference (RD)|4.62||||0.559|TWO_SIDED|95.0|-6.25|15.5|||Fisher Exact||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|||15.5|-6.25|0.559
82373876|NCT03589768|164453752|OTHER|Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-9.3|9.8|||||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|9.8|-9.3|
82373877|NCT03589768|164453753|SUPERIORITY||Risk Difference (RD)|6.06||||0.29|TWO_SIDED|95.0|-3.82|15.9|||Fisher Exact||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|15.9|-3.82|0.290
82373878|NCT03589768|164453755|OTHER|Only risk difference estimated and 95% CI reported.|Risk Difference (RD)|1.5|||||TWO_SIDED|95.0|-6.4|7.3|||||||Difference is calculated as the proportion in the BOOSTRIX group minus the proportion in the Td group.|7.3|-6.4|
82373879|NCT03589768|164453756|SUPERIORITY||Ratio|7.0|||<|0.0001|TWO_SIDED|95.0|4.6|10.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth day timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|10.7|4.6|<0.0001
82373880|NCT03589768|164453756|SUPERIORITY||Ratio|4.8|||<|0.0001|TWO_SIDED|95.0|3.2|7.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for Prior to receipt of first dose of DTwP (approximately 6 weeks of age) timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|7.3|3.2|<0.0001
82373881|NCT03589768|164453756|SUPERIORITY||Ratio|2.9|||<|0.0001|TWO_SIDED|95.0|1.8|4.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for One month after receipt of first dose of DTwP (approximately 10 weeks of age) timepoint|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|4.8|1.8|<0.0001
82373882|NCT03589768|164453756|SUPERIORITY||Ratio|0.3||||0.0068|TWO_SIDED|95.0|0.1|0.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for One month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.7|0.1|0.0068
82373883|NCT03589768|164453756|SUPERIORITY||Ratio|0.3||||0.0003|TWO_SIDED|95.0|0.1|0.5|||t-test, 2 sided|Test compares differences in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.5|0.1|0.0003
82373884|NCT03589768|164453757|SUPERIORITY||Ratio|0.9||||0.7102|TWO_SIDED|95.0|0.7|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.7|0.7102
82373885|NCT03589768|164453757|SUPERIORITY||Ratio|8.7|||<|0.0001|TWO_SIDED|95.0|6.2|12.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|12.0|6.2|<0.0001
82373886|NCT03589768|164453757|SUPERIORITY||Ratio|4.7|||<|0.0001|TWO_SIDED|95.0|3.3|6.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|6.6|3.3|<0.0001
82529957|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.09||||0.684|TWO_SIDED|95.0|-0.35|0.54||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||40 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.54|-0.35|0.684
82373887|NCT03589768|164453757|SUPERIORITY||Ratio|3.3|||<|0.0001|TWO_SIDED|95.0|2.1|5.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|5.2|2.1|<0.0001
82373888|NCT03589768|164453758|SUPERIORITY||Ratio|1.1||||0.7039|TWO_SIDED|95.0|0.8|1.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.4|0.8|0.7039
82373889|NCT03589768|164453758|SUPERIORITY||Ratio|18.5|||<|0.0001|TWO_SIDED|95.0|14.0|24.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|24.3|14.0|<0.0001
82373890|NCT03589768|164453758|SUPERIORITY||Ratio|10.5|||<|0.0001|TWO_SIDED|95.0|8.1|13.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|13.7|8.1|<0.0001
82373891|NCT03589768|164453758|SUPERIORITY||Ratio|7.4|||<|0.0001|TWO_SIDED|95.0|5.0|11.1|||t-test, 2 sided|Difference in log values back transformed into ratio.||Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|11.1|5.0|<0.0001
82373892|NCT03589768|164453759|SUPERIORITY||Ratio|1.2||||0.2897|TWO_SIDED|95.0|0.8|1.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.8|0.8|0.2897
82373893|NCT03589768|164453759|SUPERIORITY||Ratio|54.2|||<|0.0001|TWO_SIDED|95.0|35.6|82.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|82.4|35.6|<0.0001
82373894|NCT03589768|164453759|SUPERIORITY||Ratio|32.0|||<|0.0001|TWO_SIDED|95.0|20.6|49.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|49.7|20.6|<0.0001
82373895|NCT03589768|164453759|SUPERIORITY||Ratio|18.9|||<|0.0001|TWO_SIDED|95.0|10.4|34.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|34.2|10.4|<0.0001
82373896|NCT03589768|164453760|SUPERIORITY||Ratio|1.0||||0.837|TWO_SIDED|95.0|0.6|1.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.5|0.6|0.8370
82373897|NCT03589768|164453760|SUPERIORITY||Ratio|0.6|||<|0.0001|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.8|0.5|<0.0001
82373898|NCT03589768|164453760|SUPERIORITY||Ratio|0.7||||0.005|TWO_SIDED|95.0|0.6|0.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.9|0.6|0.0050
82373899|NCT03589768|164453760|SUPERIORITY||Ratio|0.8||||0.0689|TWO_SIDED|95.0|0.6|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.6|0.0689
82373900|NCT03589768|164453761|SUPERIORITY||Ratio|1.0||||0.8361|TWO_SIDED|95.0|0.7|1.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for pre-vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.6|0.7|0.8361
82529958|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.452|TWO_SIDED|95.0|-0.34|0.76||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.76|-0.34|0.452
82645172|NCT02617446|165005846|SUPERIORITY|Linear mixed model with treatment, center, timepoint, gender, baseline cTnT value, atrial fibrillation, and treatment\*timepoint interaction included in the model.|Mean Difference (Final Values)|-0.041||||0.987|TWO_SIDED|95.0|-5.216|5.133||Unadjusted alpha of 0.05 is the threshold for statistical significance.|Mixed Models Analysis|Kenward-Roger adjustment used for the degrees of freedom.||Null hypothesis: no difference between treatment groups||5.133|-5.216|0.987
82645173|NCT02617446|165005846|SUPERIORITY|Linear mixed model with treatment, center, timepoint, gender, baseline cTnT value, atrial fibrillation, and treatment\*timepoint interaction included in the model.|Mean Difference (Final Values)|3.015||||0.251|TWO_SIDED|95.0|-2.168|8.198||Unadjusted alpha of 0.05 is the threshold for statistical significance.|Mixed Models Analysis|Kenward-Roger adjustment used for the degrees of freedom.||Null hypothesis: no difference between treatment groups.||8.198|-2.168|0.251
82645174|NCT01556490|165005872|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4552|TWO_SIDED|95.0|0.89|1.31|||Log Rank|||||1.31|0.89|0.4552
82373901|NCT03589768|164453761|SUPERIORITY||Ratio|0.9||||0.5136|TWO_SIDED|95.0|0.6|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after vaccination time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.6|0.5136
82373902|NCT03589768|164453761|SUPERIORITY||Ratio|0.9||||0.4237|TWO_SIDED|95.0|0.6|1.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.2|0.6|0.4237
82373903|NCT03589768|164453761|SUPERIORITY||Ratio|0.7||||0.1607|TWO_SIDED|95.0|0.4|1.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months after delivery time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.2|0.4|0.1607
82373904|NCT03589768|164453762|SUPERIORITY||Ratio|13.7|||<|0.0001|TWO_SIDED|95.0|10.2|18.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|18.3|10.2|<0.0001
82373905|NCT03589768|164453762|SUPERIORITY||Ratio|10.8|||<|0.0001|TWO_SIDED|95.0|8.0|14.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|14.5|8.0|<0.0001
82448980|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.991|||||TWO_SIDED|95.0|0.89|1.103|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of diphtheria toxoid (D) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.103|0.890|
82645175|NCT01556490|165005873|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0626|TWO_SIDED|95.0|0.61|1.01|||Log Rank|||||1.01|0.61|0.0626
82645176|NCT01556490|165005874|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0227|TWO_SIDED|95.0|0.59|0.96|||Log Rank|||||.96|.59|0.0227
82645177|NCT01556490|165005875|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0043|TWO_SIDED|95.0|0.52|0.89|||Log Rank|||||.89|.52|0.0043
82645178|NCT01556490|165005876|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.0001|TWO_SIDED|95.0|8.6|22.3|||2 sided calculated using continuity|2 sided calculated using continuity adjusted Wald Approach||||22.3|8.6|0.0001
82373906|NCT03589768|164453762|SUPERIORITY||Ratio|10.2|||<|0.0001|TWO_SIDED|95.0|6.9|15.2|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio. Test compares difference in log values.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|15.2|6.9|<0.0001
82373907|NCT03589768|164453762|SUPERIORITY||Ratio|2.1||||0.0002|TWO_SIDED|95.0|1.4|3.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|3.0|1.4|0.0002
82373908|NCT03589768|164453762|SUPERIORITY||Ratio|1.2||||0.4828|TWO_SIDED|95.0|0.8|1.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.7|0.8|0.4828
82373909|NCT03589768|164453763|SUPERIORITY||Ratio|46.4|||<|0.0001|TWO_SIDED|95.0|26.6|81.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|81.0|26.6|<0.0001
82373910|NCT03589768|164453763|SUPERIORITY||Ratio|39.5|||<|0.0001|TWO_SIDED|95.0|24.0|65.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|65.0|24.0|<0.0001
82398313|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-15.89|STANDARD_ERROR_OF_MEAN|7.098||0.0271|TWO_SIDED|90.0|-27.66|-4.12|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-4.12|-27.66|0.0271
82398314|NCT00938587|164506849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|7.121||0.2881|TWO_SIDED|90.0|-19.41|4.21|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||4.21|-19.41|0.2881
82398315|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.52|STANDARD_ERROR_OF_MEAN|7.059||0.3579|TWO_SIDED|90.0|-18.23|5.19|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.19|-18.23|0.3579
82398316|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.55|STANDARD_ERROR_OF_MEAN|7.046||0.2274|TWO_SIDED|90.0|-20.24|3.14|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.14|-20.24|0.2274
82373911|NCT03589768|164453763|SUPERIORITY||Ratio|10.4|||<|0.0001|TWO_SIDED|95.0|6.1|17.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|17.9|6.1|<0.0001
82373912|NCT03589768|164453763|SUPERIORITY||Ratio|0.6||||0.0746|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.3|0.0746
82373913|NCT03589768|164453763|SUPERIORITY||Ratio|0.7||||0.1532|TWO_SIDED|95.0|0.5|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.5|0.1532
82373914|NCT03589768|164453764|SUPERIORITY||Ratio|0.7||||0.0022|TWO_SIDED|95.0|0.6|0.9|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.9|0.6|0.0022
82373915|NCT03589768|164453764|SUPERIORITY||Ratio|0.7||||0.0008|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|0.8|0.5|0.0008
82373916|NCT03589768|164453764|SUPERIORITY||Ratio|0.7||||0.0261|TWO_SIDED|95.0|0.5|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.5|0.0261
82398317|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.15|STANDARD_ERROR_OF_MEAN|6.973||0.1482|TWO_SIDED|90.0|-21.72|1.41|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.41|-21.72|0.1482
82398318|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-12.19|STANDARD_ERROR_OF_MEAN|6.962||0.0828|TWO_SIDED|90.0|-23.74|-0.64|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.64|-23.74|0.0828
82398319|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.64|STANDARD_ERROR_OF_MEAN|6.953||0.6021|TWO_SIDED|90.0|-15.17|7.9|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||7.90|-15.17|0.6021
82398320|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|7.213||0.7528|TWO_SIDED|90.0|-14.24|9.68|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||9.68|-14.24|0.7528
82448981|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.975|||||TWO_SIDED|95.0|0.866|1.097|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.097|0.866|
82576100|NCT02567708|164861952|OTHER||Posterior median difference.|0.013|STANDARD_DEVIATION|0.0501||0.61|TWO_SIDED|95.0|-0.084|0.113||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.113|-0.084|0.61
82373917|NCT03589768|164453764|SUPERIORITY||Ratio|0.6||||0.0532|TWO_SIDED|95.0|0.3|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.3|0.0532
82373918|NCT03589768|164453764|SUPERIORITY||Ratio|0.9||||0.5587|TWO_SIDED|95.0|0.5|1.4|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.4|0.5|0.5587
82373919|NCT03589768|164453765|SUPERIORITY||Ratio|0.9||||0.5056|TWO_SIDED|95.0|0.6|1.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.3|0.6|0.5056
82373920|NCT03589768|164453765|SUPERIORITY||Ratio|1.0||||0.9466|TWO_SIDED|95.0|0.7|1.5|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.5|0.7|0.9466
82373921|NCT03589768|164453765|SUPERIORITY||Ratio|1.1||||0.6911|TWO_SIDED|95.0|0.6|2.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.0|0.6|0.6911
82373922|NCT03589768|164453765|SUPERIORITY||Ratio|0.6||||0.0952|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.3|0.0952
82373923|NCT03589768|164453765|SUPERIORITY||Ratio|1.2||||0.4134|TWO_SIDED|95.0|0.8|2.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.0|0.8|0.4134
82373924|NCT03589768|164453766|SUPERIORITY||Ratio|1.6||||0.0859|TWO_SIDED|95.0|0.9|2.6|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for birth time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.6|0.9|0.0859
82373925|NCT03589768|164453766|SUPERIORITY||Ratio|1.4||||0.204|TWO_SIDED|95.0|0.8|2.3|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for prior to receipt of first dose of DTwP (approximately 6 weeks of age)|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.3|0.8|0.2040
82373926|NCT03589768|164453766|SUPERIORITY||Ratio|1.6||||0.0763|TWO_SIDED|95.0|1.0|2.7|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of first dose of DTwP (approximately 10 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|2.7|1.0|0.0763
82373927|NCT03589768|164453766|SUPERIORITY||Ratio|0.5||||0.0836|TWO_SIDED|95.0|0.2|1.1|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for one month after receipt of last dose of DTwP (approximately 18 weeks of age) time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.1|0.2|0.0836
82373928|NCT03589768|164453766|SUPERIORITY||Ratio|0.6||||0.0672|TWO_SIDED|95.0|0.3|1.0|||t-test, 2 sided|Test compares difference in log values.|Difference in log values back transformed into ratio.|Statistical analysis for 6 months of age time point|The ratio is calculated as the GMC of the BOOSTRIX group divided by the GMC of the Td group.|1.0|0.3|0.0672
82373929|NCT04663295|164453768|SUPERIORITY||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|3.3|7.9||One-sided test at significant level of 0.025.|Wilcoxon (Mann-Whitney)|Wilcoxon Signed rank test comparing baseline and study period.||||7.9|3.3|<0.001
82373930|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<0.001
82398321|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.17|STANDARD_ERROR_OF_MEAN|7.1||0.2523|TWO_SIDED|90.0|-19.94|3.6|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||3.60|-19.94|0.2523
82448982|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.878|||||TWO_SIDED|95.0|0.78|0.988|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||0.988|0.780|
82645179|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.069|TWO_SIDED|95.0|-0.06|1.65||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 3.|||1.65|-0.06|0.069
82645180|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.43|TWO_SIDED|95.0|-0.55|1.29||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 6.|||1.29|-0.55|0.43
82645181|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.76|TWO_SIDED|95.0|-1.05|0.77||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means.|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 9.|||0.77|-1.05|0.76
82645182|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.41|TWO_SIDED|95.0|-1.27|0.53||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg + Tam 0.2 mg versus Placebo + Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 12.|||0.53|-1.27|0.41
82645183|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.039|TWO_SIDED|95.0|-1.85|-0.05||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 15.|||-0.05|-1.85|0.039
82645184|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.15|TWO_SIDED|95.0|-1.65|0.26||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 18.|||0.26|-1.65|0.15
82645185|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.15|TWO_SIDED|95.0|-1.68|0.25||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 21.|||0.25|-1.68|0.15
82645186|NCT02058368|165005878|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.004|TWO_SIDED|95.0|-2.4|-0.46||Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut 0.5 mg+Tam 0.2 mg versus Placebo+ Tam 0.2 mg are based on t-tests from the general linear model. Reported means are model based adjusted means|General linear model||Estimates are based on adjusted means from the general linear model. The adjusted mean difference was based on combination minus tamsulosin monotherapy for Month 24.|||-0.46|-2.40|0.004
82645187|NCT02058368|165005879|SUPERIORITY||Mean Difference (Final Values)|-23.0|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-25.9|-20.1||Estimates are based on the adjusted means from the general linear model: Log(Post-Baseline Prostate Volume / Baseline Prostate Volume) = Log(Baseline Prostate Volume) + Treatment + Country. P-values are based on t-tests from the general linear model.|General linear model||The adjusted mean estimates, adjusted mean differences, and confidence intervals are expressed in terms of percentage change from Baseline for Month 12.|||-20.1|-25.9|<.001
82645188|NCT02058368|165005879|SUPERIORITY|Estimates are based on the adjusted means from the general linear model: Log(Post-Baseline Prostate Volume / Baseline Prostate Volume) = Log(Baseline Prostate Volume) + Treatment + Country. P-values are based on t-tests from the general linear model.|Mean Difference (Final Values)|-28.4|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|-31.7|-25.2|||General linear model||The adjusted mean estimates, adjusted mean differences, and confidence intervals are expressed in terms of percentage change from Baseline for Month 24|||-25.2|-31.7|<.001
82645189|NCT02058368|165005880|SUPERIORITY|||||||0.91||||||P-value for IPSS improvement \>= 3 units has been presented for Month 3|Mantel Haenszel|||||||0.91
82645190|NCT02058368|165005880|SUPERIORITY|||||||0.31||||||P-value for IPSS improvement \>= 2 units has been presented for Month 3|Mantel Haenszel|||||||0.31
82645191|NCT02058368|165005880|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 3|Mantel Haenszel|||||||0.42
82645192|NCT02058368|165005880|SUPERIORITY|||||||0.92||||||P-value for IPSS improvement \>= 3 units has been presented for Month 6|Mantel Haenszel|||||||0.92
82645193|NCT02058368|165005880|SUPERIORITY|||||||0.89||||||P-value for IPSS improvement \>= 2 units has been presented for Month 6|Mantel Haenszel|||||||0.89
82645194|NCT02058368|165005880|SUPERIORITY|||||||0.81||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 6|Mantel Haenszel|||||||0.81
82645195|NCT02058368|165005880|SUPERIORITY|||||||0.08||||||P-value for IPSS improvement \>= 3 units has been presented for Month 9|Mantel Haenszel|||||||0.080
82645196|NCT02058368|165005880|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 2 units has been presented for Month 9|Mantel Haenszel|||||||0.42
82645197|NCT02058368|165005880|SUPERIORITY|||||||0.06||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 9|Mantel Haenszel|||||||0.060
82645198|NCT02058368|165005880|SUPERIORITY|||||||0.14||||||P-value for IPSS improvement \>= 3 units has been presented for Month 12|Mantel Haenszel|||||||0.14
82645199|NCT02058368|165005880|SUPERIORITY|||||||0.26||||||P-value for IPSS improvement \>= 2 units has been presented for Month 12|Mantel Haenszel|||||||0.26
82645200|NCT02058368|165005880|SUPERIORITY|||||||0.048||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 12|Mantel Haenszel|||||||0.048
82645201|NCT02058368|165005880|SUPERIORITY|||||||0.17||||||P-value for IPSS improvement \>= 3 units has been presented for Month 15|Mantel Haenszel|||||||0.17
82373931|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome.The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<0.001
82373932|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
82373933|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.1|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.10
82373934|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.01
82373935|NCT05958888|164453778|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.2||0.25|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.25
82373936|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
82645202|NCT02058368|165005880|SUPERIORITY|||||||0.11||||||P-value for IPSS improvement \>= 2 units has been presented for Month 15|Mantel Haenszel|||||||0.11
82645203|NCT02058368|165005880|SUPERIORITY|||||||0.022||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 15|Mantel Haenszel|||||||0.022
82373937|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
82373938|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
82645204|NCT02058368|165005880|SUPERIORITY|||||||0.18||||||P-value for IPSS improvement \>= 3 units has been presented for Month 18|Mantel Haenszel|||||||0.18
82645205|NCT02058368|165005880|SUPERIORITY|||||||0.19||||||P-value for IPSS improvement \>= 2 units has been presented for Month 18|Mantel Haenszel|||||||0.19
82645206|NCT02058368|165005880|SUPERIORITY|||||||0.28||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 18|Mantel Haenszel|||||||0.28
82645207|NCT02058368|165005880|SUPERIORITY|||||||0.39||||||P-value for IPSS improvement \>= 3 units has been presented for Month 21|Mantel Haenszel|||||||0.39
82645208|NCT02058368|165005880|SUPERIORITY|||||||0.42||||||P-value for IPSS improvement \>= 2 units has been presented for Month 21|Mantel Haenszel|||||||0.42
82645209|NCT02058368|165005880|SUPERIORITY|||||||0.084||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 21|Mantel Haenszel|||||||0.084
82645210|NCT02058368|165005880|SUPERIORITY|||||||0.016||||||P-value for IPSS improvement \>= 3 units has been presented for Month 24|Mantel Haenszel|||||||0.016
82645211|NCT02058368|165005880|SUPERIORITY|||||||0.047||||||P-value for IPSS improvement \>= 2 units has been presented for Month 24|Mantel Haenszel|||||||0.047
82645212|NCT02058368|165005880|SUPERIORITY|||||||0.007||||||P-value for IPSS improvement \>= 25 percent has been presented for Month 24|Mantel Haenszel|||||||0.007
82645213|NCT02058368|165005881|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.33||0.006|TWO_SIDED|95.0|0.26|1.56||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||1.56|0.26|0.006
82645214|NCT02058368|165005881|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.35||0.005|TWO_SIDED|95.0|0.3|1.69||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||1.69|0.30|0.005
82645215|NCT02058368|165005881|SUPERIORITY||Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|0.63|2.29||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 18|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||2.29|0.63|<.001
82645216|NCT02058368|165005881|SUPERIORITY||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|95.0|0.54|2.15||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||2.15|0.54|0.001
82645217|NCT02058368|165005882|SUPERIORITY|||||||0.13||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 6|Mantel Haenszel|||||||0.13
82645218|NCT02058368|165005882|SUPERIORITY|||||||0.15||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 6|Mantel Haenszel|||||||0.15
82645219|NCT02058368|165005882|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 12|Mantel Haenszel|||||||<.001
82645220|NCT02058368|165005882|SUPERIORITY|||||||0.003||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 12|Mantel Haenszel|||||||0.003
82645221|NCT02058368|165005882|SUPERIORITY|||||||0.002||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 18|Mantel Haenszel|||||||0.002
82645222|NCT02058368|165005882|SUPERIORITY|||||||0.009||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 18|Mantel Haenszel|||||||0.009
82645223|NCT02058368|165005882|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 3 mL/sec for Month 24|Mantel Haenszel|||||||<.001
82373939|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.85||0.12|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.12
82373940|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||<.001
82373941|NCT05958888|164453779|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.85||0.04|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.04
82373942|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||.01
82373943|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.23|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||.23
82373944|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||.01
82373945|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.58
82373946|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.85|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.85
82373947|NCT05958888|164453780|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.58
82373948|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||>.99
82373949|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||>.99
82645224|NCT02058368|165005882|SUPERIORITY||||||<|0.001||||||P-value for Dut+Tam vs. Tam is based on a Mantel-Haenszel test controlling for country for \>= 30 % for Month 24|Mantel Haenszel|||||||<.001
82645225|NCT02058368|165005883|SUPERIORITY||Cox Proportional Hazard|0.27||||0.012|TWO_SIDED|95.0|0.09|0.81||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||0.81|0.09|0.012
82645226|NCT02058368|165005884|SUPERIORITY||Cox Proportional Hazard|0.15||||0.005|TWO_SIDED|95.0|0.03|0.68||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||0.68|0.03|0.005
82645227|NCT02058368|165005885|SUPERIORITY||Cox Proportional Hazard|0.69||||0.68|TWO_SIDED|95.0|0.11|4.11||Relative Risk (hazard ratio) for Dut+Tam vs. Tam is based on the Cox Proportional Hazards Model with stratification by country.|Log Rank|||||4.11|0.11|0.68
82645228|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.1||0.83|TWO_SIDED|95.0|-0.17|0.21||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 3|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.21|-0.17|0.83
82645229|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|-0.04|0.36||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.36|-0.04|0.11
82645230|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.21|TWO_SIDED|95.0|-0.07|0.34||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 9|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.34|-0.07|0.21
82529959|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.2||||0.479|TWO_SIDED|95.0|-0.35|0.75||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.75|-0.35|0.479
82645231|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.1||0.8|TWO_SIDED|95.0|-0.23|0.18||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.18|-0.23|0.80
82373950|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.47|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||.47
82373951|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.1|>|0.99|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||>.99
82373952|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.1||0.45|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.45
82373953|NCT05958888|164453781|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.7|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.70
82373954|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
82373955|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
82373956|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
82373957|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||<.001
82373958|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||<.001
82373959|NCT05958888|164453782|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.72|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.72
82529960|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.01||||0.955|TWO_SIDED|95.0|-0.44|0.46||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||50 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.46|-0.44|0.955
82373960|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
82373961|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|2.39|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
82373962|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|2.11|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
82373963|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||<.001
82529961|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.465|TWO_SIDED|95.0|-0.36|0.79||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.79|-0.36|0.465
82645232|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.37|TWO_SIDED|95.0|-0.3|0.11||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 15|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.11|-0.30|0.37
82645233|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11||0.44|TWO_SIDED|95.0|-0.3|0.13||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 18|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.13|-0.30|0.44
82398322|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-11.63|STANDARD_ERROR_OF_MEAN|7.118||0.1049|TWO_SIDED|90.0|-23.43|0.17|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.17|-23.43|0.1049
82398323|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.53|STANDARD_ERROR_OF_MEAN|7.006||0.0138|TWO_SIDED|90.0|-29.14|-5.91|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-5.91|-29.14|0.0138
82398324|NCT00938587|164506850|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.36|STANDARD_ERROR_OF_MEAN|7.052||0.1873|TWO_SIDED|90.0|-21.05|2.34|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.34|-21.05|0.1873
82398325|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.54|STANDARD_ERROR_OF_MEAN|5.339||0.509|TWO_SIDED|90.0|-12.4|5.32|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||5.32|-12.40|0.5090
82529962|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.992|TWO_SIDED|95.0|-0.57|0.58||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.58|-0.57|0.992
82645234|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.6|TWO_SIDED|95.0|-0.16|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 21|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.28|-0.16|0.60
82645235|NCT02058368|165005886|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.16|TWO_SIDED|95.0|-0.37|0.06||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam|||0.06|-0.37|0.16
82645236|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.18||0.17|TWO_SIDED|95.0|-0.11|0.62||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 3|||0.62|-0.11|0.17
82645237|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.2|0.59||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 6|||0.59|-0.20|0.33
82645238|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.2||0.15|TWO_SIDED|95.0|-0.1|0.68||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 9|||0.68|-0.10|0.15
82645239|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.21||0.46|TWO_SIDED|95.0|-0.25|0.55||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 12|||0.55|-0.25|0.46
82645240|NCT02058368|165005887|SUPERIORITY||Median Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.59|TWO_SIDED|95.0|-0.51|0.29||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 15|||0.29|-0.51|0.59
82398326|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.89|STANDARD_ERROR_OF_MEAN|5.354||0.0998|TWO_SIDED|90.0|-17.78|-0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.01|-17.78|0.0998
82398327|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|5.282||0.8866|TWO_SIDED|90.0|-9.52|8.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||8.01|-9.52|0.8866
82398328|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.11|STANDARD_ERROR_OF_MEAN|5.28||0.2499|TWO_SIDED|90.0|-14.88|2.66|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.66|-14.88|0.2499
82373964|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.14||0.01|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.01
82373965|NCT05958888|164453783|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.04
82373966|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Text vs. Control||||<.001
82373967|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Control||||<.001
82373968|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Control||||<.001
82373969|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.15||0.43|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Icon vs. Text||||.43
82373970|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.15||0.81|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Text||||.81
82373971|NCT05958888|164453784|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.81|TWO_SIDED|||||p-values were adjusted for multiple comparisons using the Bonferroni-Holm method, correcting for six tests within each outcome. The a priori threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Graphic vs. Icon||||.81
82373972|NCT00537303|164453845|NON_INFERIORITY_OR_EQUIVALENCE|The two treatments are declared equivalent if the 95% Confidence Interval for the estimated difference in means between the two treatment groups is included in the interval from -0.4 to 0.4 for both the full analysis set and the per protocol set|Mean Difference (Final Values)|0.06||||0.606||95.0|-0.17|0.29||P-value for test of difference between treatments.|ANCOVA|Regimen, country and previous oral antidiabetic drug (OAD) use as factors and baseline HbA1c as covariate.||Equivalence analysis with a null hypothesis stating that there is a difference between Advanced and Basic treatment groups of more than 0.4%.||0.29|-0.17|0.606
82373973|NCT00537303|164453846|NON_INFERIORITY_OR_EQUIVALENCE|The two treatments are declared equivalent if the 95% Confidence Interval for the estimated difference in means between the two treatment groups is included in the interval from -0.4 to 0.4 for both the Full Analysis Set and the Per Protocol set.|Mean Difference (Final Values)|0.03||||0.816||95.0|-0.21|0.26||P-value for test of difference between treatments.|ANCOVA|||Equivalence analysis with a null hypothesis stating that there is a difference between Advanced and Basic treatment groups of more than 0.4%.||0.26|-0.21|0.816
82373974|NCT02704403|164453864|SUPERIORITY||Mean Difference (Net)|0.043||||0.0659|TWO_SIDED|95.0|-0.003|0.09|||Regression, Logistic|test is 2-sided, alpha=0.01||The null hypothesis was that there was no difference in response rates between the elafibranor and placebo treatment groups. The alternative hypothesis was that there was a difference in the response rates between the elafibranor and placebo treatment groups.||0.090|-0.003|0.0659
82373975|NCT02704403|164453865|SUPERIORITY||Cox Proportional Hazard|0.95|||||TWO_SIDED|95.0|0.619|1.457|||||No formal test due to the early termination of the study.|||1.457|0.619|
82373976|NCT02309138|164453897|SUPERIORITY||Risk Ratio (RR)|0.903||||0.668|TWO_SIDED|97.5|0.538|1.516||Each co-primary hypothesis was tested at the 2.5% significance level.|Regression, Logistic|In the ITT, logistic regression was used to quantify the probability of large-for-gestational age as a function of the study arm and clinic type.|A relative risk \< 1 represents a benefit in the direction of the IADPSG group, while a value \> 1 represents a benefit towards the CC group.|Co-primary hypotheses #1: women diagnosed using the IADPSG criteria will have lower rates of large-for-gestational age infants compared to those diagnosed using the Carpenter-Coustan criteria.||1.516|0.538|0.668
82373977|NCT02309138|164453897|SUPERIORITY||Risk Ratio (RR)|0.853||||0.853|TWO_SIDED|97.5|0.493|1.475||Each co-primary hypothesis was tested at the 2.5% significance level.|Regression, Logistic|In the ITT, logistic regression was used to quantify the probability of large-for-gestational age as a function of the study arm and clinic type.||"Co-primary hypothesis #2: women classified as no gestational diabetes by the IADPSG criteria will have lower rates of large-for-gestational age infants compared to those classified in the Carpenter-Coustan criteria."||1.475|0.493|0.853
82373978|NCT02309138|164453898|SUPERIORITY||Risk Ratio (RR)|1.046||||0.6669|TWO_SIDED|95.0|0.847|1.291|||Regression, Logistic|||||1.291|0.847|0.6669
82398329|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.78|STANDARD_ERROR_OF_MEAN|5.283||0.5995|TWO_SIDED|90.0|-5.99|11.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||11.55|-5.99|0.5995
82373979|NCT02309138|164453898|SUPERIORITY||Risk Ratio (RR)|1.033||||0.8394|TWO_SIDED|95.0|0.816|1.307|||Regression, Logistic|||||1.307|0.816|0.8394
82373980|NCT02309138|164453899|SUPERIORITY||Risk Ratio (RR)|0.987||||0.9335|TWO_SIDED|95.0|0.74|1.318|||Regression, Logistic|||||1.318|0.740|0.9335
82373981|NCT02309138|164453899|SUPERIORITY||Risk Ratio (RR)|1.022||||0.926|TWO_SIDED|95.0|0.742|1.407|||Regression, Logistic|||||1.407|0.742|0.9260
82645241|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.56|TWO_SIDED|95.0|-0.52|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 18|||0.28|-0.52|0.56
82645242|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.21||0.51|TWO_SIDED|95.0|-0.56|0.28||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 21|||0.28|-0.56|0.51
82645243|NCT02058368|165005887|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.21||0.034|TWO_SIDED|95.0|-0.88|-0.03||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model.|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam for Month 24|||-0.03|-0.88|0.034
82645244|NCT02058368|165005888|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.54|-0.5||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Country + Baseline Value.P-values for Dut+Tam versus Tam are based on t-tests from the general linear model for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-0.50|-1.54|<.001
82645245|NCT02058368|165005888|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.27||0.009|TWO_SIDED|95.0|-1.23|-0.18||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Country + Baseline Value. P-values for Dut+Tam versus Tam are based on t-tests from the general linear model for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-0.18|-1.23|0.009
82645246|NCT02058368|165005893|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-2.1|-1.6||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Baseline Value for Month 6|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-1.6|-2.1|<.001
82645247|NCT02058368|165005893|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-2.3|-1.9||Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Baseline Value for Month 12|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-1.9|-2.3|<.001
82645248|NCT02058368|165005893|SUPERIORITY||Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-3.1|-2.2||Estimates are based on the adjusted means from the general linear model: Change from Baseline =Treatment + Baseline Value for Month 24|General linear model||The adjusted mean difference was based on Dut+Tam minus Tam.|||-2.2|-3.1|<.001
82645249|NCT02058368|165005895|SUPERIORITY|||||||0.77||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 6|Van Elteren test|||||||0.77
82645250|NCT02058368|165005895|SUPERIORITY|||||||0.84||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 12|Van Elteren test|||||||0.84
82645251|NCT02058368|165005895|SUPERIORITY|||||||0.98||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 18|Van Elteren test|||||||0.98
82645252|NCT02058368|165005895|SUPERIORITY|||||||0.28||||||P-value for Dut+Tam vs. Tam is based on a van Elteren test with stratification by country for Month 24|Van Elteren test|||||||0.28
82645253|NCT01652872|165005901|OTHER||Treatment Difference|-0.27|||||TWO_SIDED|95.0|-6.39|5.85|||||Difference is fixed dose - titration.|||5.85|-6.39|
82645254|NCT01652872|165005901|OTHER||Risk Ratio (RR)|0.998|||||TWO_SIDED|95.0|0.776|1.285|||Cochran-Mantel-Haenszel|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology).|A risk ratio \< 1.0 indicates a lower event rate for the fixed dose group relative to Hb-based titration group.|||1.285|0.776|
82645255|NCT01652872|165005902|OTHER|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology) and accounting for participant exposure time.|Least Squares Mean (LSM) Ratio|1.28|||||TWO_SIDED|95.0|0.81|2.05|||Negative binomial regression model||Least Squares Mean (LSM) ratio is fixed dose relative to titration.|||2.05|0.81|
82645256|NCT01652872|165005903|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.76|1.35|||Cox Proportional Hazard Model|Stratified by RBC transfusion received within 12 months prior to randomization (yes/no) and site practice setting (nephrology/non-nephrology).|Hazard ratio is fixed dose relative to titration.|||1.35|0.76|
82645257|NCT01652872|165005904|OTHER||Median of the difference|-0.34|||||TWO_SIDED|95.0|-0.46|-0.22|||Hodges-Lehmann estimate||Difference is fixed dose - titration.||The 2-sided 95% confidence intervals were obtained using a non-parametric Wilcoxon rank-sum statistic.|-0.22|-0.46|
82645258|NCT01652872|165005905|OTHER||Median of the difference|-22.1|||||TWO_SIDED|95.0|-26.1|-18.1|||Hodges-Lehmann estimate||Difference is fixed dose - titration.||The 2-sided 95% confidence intervals were obtained using a non-parametric Wilcoxon rank-sum statistic.|-18.1|-26.1|
82645259|NCT03985293|165005909|SUPERIORITY||Difference in LS Mean|-0.47||||0.0071|TWO_SIDED|90.0|-0.76|-0.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.18|-0.76|0.0071
82645260|NCT03985293|165005909|SUPERIORITY||Difference in LS Mean|-0.9|||<|0.0001|TWO_SIDED|90.0|-1.18|-0.62|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.62|-1.18|<.0001
82645261|NCT03985293|165005909|SUPERIORITY||Difference in LS Mean|-1.01|||<|0.0001|TWO_SIDED|90.0|-1.3|-0.73|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.73|-1.30|<.0001
82645262|NCT03985293|165005909|SUPERIORITY||Difference in LS Mean|-0.94|||<|0.0001|TWO_SIDED|90.0|-1.24|-0.65|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.65|-1.24|<.0001
82645263|NCT03985293|165005909|SUPERIORITY||Difference in LS Mean|-1.16|||<|0.0001|TWO_SIDED|90.0|-1.47|-0.86|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.86|-1.47|<.0001
82645264|NCT03985293|165005910|SUPERIORITY||Odds Ratio (OR)|5.11|||||TWO_SIDED|90.0|1.84|14.18|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||14.18|1.84|
82373982|NCT02309138|164453900|SUPERIORITY||Risk Ratio (RR)|1.4||||0.0322|TWO_SIDED|95.0|1.027|1.909|||Regression, Logistic|||||1.909|1.027|0.0322
82373983|NCT02309138|164453900|SUPERIORITY||Risk Ratio (RR)|1.233||||0.2643|TWO_SIDED|95.0|0.864|1.76|||Regression, Logistic|||||1.760|0.864|0.2643
82373984|NCT03421730|164453913|OTHER||Geometric mean ratio (%)|8.69|||||TWO_SIDED||||||||A: n=6; D: n=5||The intra-subject coefficient of variation was 25.33%.|||
82373985|NCT03421730|164453913|OTHER||Geometric mean ratio (%)|28.18|||||TWO_SIDED||||||||B: n=6, D: n=5||The intra-subject coefficient of variation was 25.33%.|||
82373986|NCT03421730|164453913|OTHER||Geometric mean ratio (%)|59.51|||||TWO_SIDED||||||||C: n=6, D: n=5||The intra-subject coefficient of variation was 25.33%.|||
82373987|NCT03421730|164453914|OTHER||Geometric mean ratio (%)|13.35|||||TWO_SIDED||||||||A: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%.|||
82373988|NCT03421730|164453914|OTHER||Geometric mean ratio (%)|35.97|||||TWO_SIDED||||||||B: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%|||
82373989|NCT03421730|164453914|OTHER||Geometric mean ratio (%)|76.98|||||TWO_SIDED||||||||C: n=4, D: n=4||The intra-subject coefficient of variation was 22.05%|||
82373990|NCT03421730|164453915|OTHER||Geometric mean ratio (%)|9.55|||||TWO_SIDED||||||||A: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
82373991|NCT03421730|164453915|OTHER||Geometric mean ratio (%)|32.42|||||TWO_SIDED||||||||B: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
82373992|NCT03421730|164453915|OTHER||Geometric mean ratio (%)|59.75|||||TWO_SIDED||||||||C: n=6, D: n=5||The intra-subject coefficient of variation was 33.04%.|||
82373993|NCT01338870|164453933|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.145||0.7606|TWO_SIDED|80.0|-0.08|0.29|||Mixed Models Analysis|||Treatment difference and 80% confidence interval (CI) were based on least squares (LS) mean. A mixed model repeated measure (MMRM) analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.29|-0.08|0.7606
82373994|NCT01338870|164453933|SUPERIORITY_OR_OTHER||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0266|TWO_SIDED|80.0|-0.46|-0.09|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.46|0.0266
82373995|NCT01338870|164453933|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.141||0.044|TWO_SIDED|80.0|-0.42|-0.06|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.06|-0.42|0.0440
82373996|NCT01338870|164453933|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.137||0.0001|TWO_SIDED|80.0|-0.71|-0.36|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.36|-0.71|0.0001
82373997|NCT01338870|164453933|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.139||0.0013|TWO_SIDED|80.0|-0.6|-0.25|||Mixed Models Analysis|||Treatment difference and 80% CI were based on LS mean. A MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.25|-0.60|0.0013
82373998|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-5.21|STANDARD_ERROR_OF_MEAN|5.7||0.3611|TWO_SIDED|95.0|-16.4|5.98|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||5.98|-16.40|0.3611
82373999|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-9.45|STANDARD_ERROR_OF_MEAN|5.686||0.0969|TWO_SIDED|95.0|-20.61|1.71|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.71|-20.61|0.0969
82374000|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-8.1|STANDARD_ERROR_OF_MEAN|5.71||0.1566|TWO_SIDED|95.0|-19.3|3.11|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||3.11|-19.30|0.1566
82374001|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-15.92|STANDARD_ERROR_OF_MEAN|5.678||0.0052|TWO_SIDED|95.0|-27.06|-4.77|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-4.77|-27.06|0.0052
82374002|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-21.09|STANDARD_ERROR_OF_MEAN|5.712||0.0002|TWO_SIDED|95.0|-32.3|-9.88|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-9.88|-32.30|0.0002
82374003|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|5.852||0.9893|TWO_SIDED|95.0|-11.41|11.56|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||11.56|-11.41|0.9893
82374004|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-4.14|STANDARD_ERROR_OF_MEAN|5.814||0.4767|TWO_SIDED|95.0|-15.55|7.27|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||7.27|-15.55|0.4767
82645265|NCT03985293|165005910|SUPERIORITY||Odds Ratio (OR)|16.85|||||TWO_SIDED|90.0|6.18|45.93|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||45.93|6.18|
82374005|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-2.87|STANDARD_ERROR_OF_MEAN|5.816||0.6222|TWO_SIDED|95.0|-14.28|8.55|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||8.55|-14.28|0.6222
82374006|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-13.88|STANDARD_ERROR_OF_MEAN|5.744||0.0159|TWO_SIDED|95.0|-25.16|-2.61|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-2.61|-25.16|0.0159
82576101|NCT02567708|164861953|OTHER|The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Posterior median difference|0.05|STANDARD_DEVIATION|0.0818||0.731|TWO_SIDED|95.0|-0.111|0.21|||Bayesian model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.210|-0.111|0.731
82374007|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-18.69|STANDARD_ERROR_OF_MEAN|5.735||0.0012|TWO_SIDED|95.0|-29.95|-7.44|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.44|-29.95|0.0012
82374008|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|3.86|STANDARD_ERROR_OF_MEAN|5.895||0.5125|TWO_SIDED|95.0|-7.71|15.43|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||15.43|-7.71|0.5125
82374009|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-8.47|STANDARD_ERROR_OF_MEAN|5.815||0.1455|TWO_SIDED|95.0|-19.89|2.94|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.94|-19.89|0.1455
82374010|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|0.94|STANDARD_ERROR_OF_MEAN|5.794||0.8712|TWO_SIDED|95.0|-10.43|12.31|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.31|-10.43|0.8712
82374011|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-19.57|STANDARD_ERROR_OF_MEAN|5.707||0.0006|TWO_SIDED|95.0|-30.77|-8.36|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-8.36|-30.77|0.0006
82374012|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-19.08|STANDARD_ERROR_OF_MEAN|5.696||0.0008|TWO_SIDED|95.0|-30.26|-7.9|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.90|-30.26|0.0008
82374013|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|6.99|STANDARD_ERROR_OF_MEAN|6.055||0.2488|TWO_SIDED|95.0|-4.9|18.87|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||18.87|-4.90|0.2488
82374014|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-7.56|STANDARD_ERROR_OF_MEAN|6.004||0.2084|TWO_SIDED|95.0|-19.34|4.23|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||4.23|-19.34|0.2084
82374015|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|5.971||0.9053|TWO_SIDED|95.0|-11.01|12.43|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||12.43|-11.01|0.9053
82645266|NCT03985293|165005910|SUPERIORITY||Odds Ratio (OR)|18.79|||||TWO_SIDED|90.0|7.03|50.21|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||50.21|7.03|
82374016|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|5.853||0.0091|TWO_SIDED|95.0|-26.79|-3.81|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.81|-26.79|0.0091
82374017|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-18.62|STANDARD_ERROR_OF_MEAN|5.875||0.0016|TWO_SIDED|95.0|-30.15|-7.09|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-7.09|-30.15|0.0016
82374018|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|6.5|STANDARD_ERROR_OF_MEAN|6.217||0.2963|TWO_SIDED|95.0|-5.71|18.7|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||18.70|-5.71|0.2963
82374019|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-9.71|STANDARD_ERROR_OF_MEAN|6.17||0.1159|TWO_SIDED|95.0|-21.82|2.4|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||2.40|-21.82|0.1159
82374020|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|6.103||0.4413|TWO_SIDED|95.0|-7.28|16.68|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||16.68|-7.28|0.4413
82374021|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|5.918||0.0099|TWO_SIDED|95.0|-26.91|-3.68|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.68|-26.91|0.0099
82645267|NCT03985293|165005910|SUPERIORITY||Odds Ratio (OR)|23.97|||||TWO_SIDED|90.0|8.66|66.39|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||66.39|8.66|
82374022|NCT01338870|164453934|SUPERIORITY_OR_OTHER||LS mean difference|-14.95|STANDARD_ERROR_OF_MEAN|5.981||0.0126|TWO_SIDED|95.0|-26.69|-3.21|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-3.21|-26.69|0.0126
82374023|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.058||0.1797|TWO_SIDED|80.0|-0.13|0.02|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.13|0.1797
82374024|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.058||0.0234|TWO_SIDED|95.0|-0.19|-0.04|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.04|-0.19|0.0234
82374025|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.058||0.04|TWO_SIDED|80.0|-0.18|-0.03|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.03|-0.18|0.0400
82374026|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.057||0.1568|TWO_SIDED|80.0|-0.13|0.02|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.02|-0.13|0.1568
82374027|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.058||0.001|TWO_SIDED|80.0|-0.25|-0.11|||Mixed Models Analysis|||Week 1: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.11|-0.25|0.0010
82374028|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.0695|TWO_SIDED|80.0|-0.19|-0.01|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.01|-0.19|0.0695
82374029|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.069||0.0636|TWO_SIDED|80.0|-0.2|-0.02|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.20|0.0636
82374030|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.069||0.0512|TWO_SIDED|80.0|-0.2|-0.02|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.20|0.0512
82374031|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.068||0.0051|TWO_SIDED|80.0|-0.26|-0.09|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.09|-0.26|0.0051
82374032|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.069||0.0009|TWO_SIDED|80.0|-0.3|-0.13|||Mixed Models Analysis|||Week 2: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.13|-0.30|0.0009
82374033|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.2392|TWO_SIDED|80.0|-0.19|0.05|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.05|-0.19|0.2392
82645268|NCT03985293|165005910|SUPERIORITY||Odds Ratio (OR)|24.46|||||TWO_SIDED|90.0|8.72|68.57|||Regression, Logistic||The Odds ratio model included multiple imputation. PF-06882961 = Test Placebo = Reference|||68.57|8.72|
82645269|NCT03985293|165005911|SUPERIORITY||Difference in LS Mean|-0.09||||0.1578|TWO_SIDED|90.0|-0.19|0.01|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.01|-0.19|0.1578
82645270|NCT03985293|165005911|SUPERIORITY||Difference in LS Mean|-0.22||||0.0003|TWO_SIDED|90.0|-0.32|-0.12|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.12|-0.32|0.0003
82374034|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.091||0.0308|TWO_SIDED|80.0|-0.29|-0.05|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.05|-0.29|0.0308
82374035|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.091||0.0019|TWO_SIDED|80.0|-0.38|-0.15|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.15|-0.38|0.0019
82374036|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.089||0.0034|TWO_SIDED|80.0|-0.36|-0.13|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.13|-0.36|0.0034
82374037|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0002|TWO_SIDED|80.0|-0.44|-0.21|||Mixed Models Analysis|||Week 4: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.44|0.0002
82374038|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.126||0.7854|TWO_SIDED|80.0|-0.06|0.26|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||0.26|-0.06|0.7854
82374039|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.123||0.0778|TWO_SIDED|80.0|-0.33|-0.02|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.02|-0.33|0.0778
82374040|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.122||0.0065|TWO_SIDED|80.0|-0.46|-0.15|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.15|-0.46|0.0065
82374041|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.119||0.0011|TWO_SIDED|80.0|-0.52|-0.21|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.52|0.0011
82374042|NCT01338870|164453935|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.121||0.0013|TWO_SIDED|80.0|-0.52|-0.21|||Mixed Models Analysis|||Week 8: Treatment difference and 80% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline, baseline-by-time interaction, baseline-by-treatment interaction, baseline-by-treatment-by-time interaction as the covariates, time was repeated for participant.||-0.21|-0.52|0.0013
82374043|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.272||0.5636|TWO_SIDED|95.0|-0.69|0.38|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.38|-0.69|0.5636
82374044|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.271||0.4889|TWO_SIDED|95.0|-0.35|0.72|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.72|-0.35|0.4889
82374045|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.272||0.5849|TWO_SIDED|95.0|-0.68|0.39|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.39|-0.68|0.5849
82374046|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.268||0.5104|TWO_SIDED|95.0|-0.7|0.35|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.35|-0.70|0.5104
82374047|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.269||0.264|TWO_SIDED|95.0|-0.83|0.23|||Mixed Models Analysis|||Week 1: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.23|-0.83|0.2640
82374048|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.357||0.0464|TWO_SIDED|95.0|-1.42|-0.01|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||-0.01|-1.42|0.0464
82374049|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.353||0.7107|TWO_SIDED|95.0|-0.83|0.56|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.56|-0.83|0.7107
82445242|NCT02593825|164598884|SUPERIORITY|Significance was based on α = .05. Hedges' g, corrected for small sample bias, was calculated as a measure of effect size using the model-predicted group differences in rate of change in the numerator and the pooled standard deviation estimated from the 3 or 12 month assessment (for short- and long-term effects, respectively) in the denominator.|Slope|1.14|||<|0.05|TWO_SIDED|||||Piecewise linear mixed modeling (LMM) was performed to address the study questions. LMM was necessary to account for repeated measures nested within children.|Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5 Standard Deviations below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5 Standard Deviations below the mean on motor Bayley score at baseline)|Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months) and post-intervention (3 to 12 months) phases, and accounted for variation in the time between assessments across children. All models controlled for intercept-level differences by site, as well as intercept- and slope-level differences by baseline-adjusted age and motor severity. Intervention effects were derived via intervention by slope interaction terms. Three-way interaction terms were subsequently added to the models to obtain intervention effects stratified by severity.|||<0.05
82445243|NCT02593825|164598885|SUPERIORITY||Mean Difference (Final Values)|0.192||||0.05|TWO_SIDED||||||Linear piecewise modeling|||||||.05
82445244|NCT02593825|164598886|SUPERIORITY||Slope|0.92|STANDARD_ERROR_OF_MEAN|0.47|<|0.05|TWO_SIDED||||||Mixed Models Analysis||data shown is for the 12 month time point for the severely delayed group comparison|Also examined these groups in sub-groups of mildly delayed (\<2.5 Standard Deviations below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5 Standard Deviations below the mean on motor Bayley score at baseline)||||<0.05
82445245|NCT02593825|164598888|SUPERIORITY||Slope|1.02|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5SD below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5SD below the mean on motor Bayley score at baseline)|LMM was necessary to account for repeated measures nested within children. Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months).|||<0.05
82445246|NCT02593825|164598889|SUPERIORITY||Slope|8.7|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||Also examined these groups in sub-groups of mildly delayed (\<2.5SD below the mean on motor Bayley score at baseline) and significantly motor delayed (\>2.5SD below the mean on motor Bayley score at baseline)|Piecewise modeling, using individually-varying timepoints, allowed separate slopes to be estimated across the intervention (baseline to 3 months)|||<0.05
82445247|NCT02593825|164598890|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.417|TWO_SIDED||||||Mixed Models Analysis|||||||0.417
82445248|NCT02100969|164598892|SUPERIORITY||"proportion of successes"|0.864||||0.0179|TWO_SIDED|95.0|0.72|1.0||No adjustment is required as we are not doing multiple comparisons for the primary outcome analyses.|One sample Z test of proportions||One sample Z test of proportions is used. Method of handling missing data (as per protocol) is Last Observation Carried Forward (LOCF). Only 2 participants had missing values and in our case the LOCF results reflect a 'best-case' scenario.|"Sample size/power calculations are mentioned in the study protocol.~The study hypotheses are as follows:~H0: Proportion of patients whose QMG scores are increased by no more than 3 points at the end of the SCIg treatment phase ≤ 0.65 HA: Proportion of patients whose QMG scores are increased by no more than 3 points at the end of the SCIg treatment phase \> 0.65"||1.000|0.720|0.0179
82445249|NCT02100969|164598893|SUPERIORITY||Median Difference (Net)|0.0||||0.113|TWO_SIDED||||||Wilcoxon Signed Rank for paired data||The value of the signed rank test statistic is 44.50.|||||0.113
82445250|NCT02100969|164598894|SUPERIORITY||Median Difference (Net)|6.0||||0.612|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.612
82645271|NCT03985293|165005911|SUPERIORITY||Difference in LS Mean|-0.2||||0.0013|TWO_SIDED|90.0|-0.3|-0.1|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.10|-0.30|0.0013
82374050|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.352||0.1564|TWO_SIDED|95.0|-1.19|0.19|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.19|-1.19|0.1564
82374051|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.345||0.3834|TWO_SIDED|95.0|-0.98|0.38|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.38|-0.98|0.3834
82445251|NCT02100969|164598895|SUPERIORITY||Median Difference (Net)|2.0||||0.047|TWO_SIDED||||||Wilcoxon Signed Rank for paired data||The value of the signed-rank test statistic is 53.|||||0.047
82445252|NCT02100969|164598896|SUPERIORITY||Median Difference (Net)|5.6||||0.901|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.901
82445253|NCT02100969|164598897|SUPERIORITY||Median Difference (Net)|4.2||||0.51|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.510
82645272|NCT03985293|165005911|SUPERIORITY||Difference in LS Mean|-0.24||||0.0001|TWO_SIDED|90.0|-0.34|-0.14|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.14|-0.34|0.0001
82374052|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.346||0.1279|TWO_SIDED|95.0|-1.21|0.15|||Mixed Models Analysis|||Week 2: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.15|-1.21|0.1279
82445254|NCT02100969|164598898|SUPERIORITY||Median Difference (Net)|8.3||||0.289|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.289
82445255|NCT02100969|164598899|SUPERIORITY||Median Difference (Net)|715.0||||0.0028|TWO_SIDED||||||Wilcoxon Signed Rank for paired data|||||||0.0028
82445256|NCT06359080|164598901|EQUIVALENCE|The difference between post treatment CARS scores and pre treatment CARS scores will be statistically significant as measured by independent sample t-test with p\<.05|Mean Difference (Net)|6.77|STANDARD_DEVIATION|5.5|<|0.05|TWO_SIDED|95.0|5.36|8.19||It's a calculated p-value.|t-test, 2 sided|||||8.19|5.36|<0.05
82645273|NCT03985293|165005911|SUPERIORITY||Difference in LS Mean|-0.26|||<|0.0001|TWO_SIDED|90.0|-0.36|-0.16|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.16|-0.36|<.0001
82645274|NCT03985293|165005912|SUPERIORITY||Difference in LS Mean|-0.3||||0.0013|TWO_SIDED|90.0|-0.46|-0.15|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.15|-0.46|0.0013
82374053|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.339||0.252|TWO_SIDED|95.0|-1.06|0.28|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.28|-1.06|0.2520
82374054|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.336||0.2772|TWO_SIDED|95.0|-0.3|1.03|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.03|-0.30|0.2772
82374055|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.335||0.7038|TWO_SIDED|95.0|-0.79|0.53|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.53|-0.79|0.7038
82374056|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.329||0.2031|TWO_SIDED|95.0|-1.07|0.23|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.23|-1.07|0.2031
82374057|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.33||0.6948|TWO_SIDED|95.0|-0.78|0.52|||Mixed Models Analysis|||Week 4: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.52|-0.78|0.6948
82374058|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.421||0.5691|TWO_SIDED|95.0|-1.07|0.59|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|-1.07|0.5691
82374059|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.415||0.3447|TWO_SIDED|95.0|-0.42|1.21|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.21|-0.42|0.3447
82374060|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.413||0.5769|TWO_SIDED|95.0|-1.04|0.58|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.58|-1.04|0.5769
82374061|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.402||0.3599|TWO_SIDED|95.0|-1.16|0.42|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.42|-1.16|0.3599
82374062|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.407||0.46|TWO_SIDED|95.0|-1.1|0.5|||Mixed Models Analysis|||Week 8: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.50|-1.10|0.4600
82398330|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|5.429||0.9117|TWO_SIDED|90.0|-8.4|9.61|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||9.61|-8.40|0.9117
82398331|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.91|STANDARD_ERROR_OF_MEAN|5.381||0.0684|TWO_SIDED|90.0|-18.84|-0.98|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.98|-18.84|0.0684
82374063|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.504||0.4253|TWO_SIDED|95.0|-1.39|0.59|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.59|-1.39|0.4253
82374064|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.497||0.4349|TWO_SIDED|95.0|-0.59|1.37|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||1.37|-0.59|0.4349
82374065|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.492||0.6697|TWO_SIDED|95.0|-1.18|0.76|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.76|-1.18|0.6697
82398332|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.49|STANDARD_ERROR_OF_MEAN|5.366||0.2292|TWO_SIDED|90.0|-15.39|2.42|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||2.42|-15.39|0.2292
82398333|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.0|STANDARD_ERROR_OF_MEAN|5.308||0.0018|TWO_SIDED|90.0|-25.81|-8.19|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-8.19|-25.81|0.0018
82645275|NCT03985293|165005912|SUPERIORITY||Difference in LS Mean|-0.43|||<|0.0001|TWO_SIDED|90.0|-0.58|-0.28|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.28|-0.58|<.0001
82374066|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.476||0.5501|TWO_SIDED|95.0|-1.22|0.65|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.65|-1.22|0.5501
82374067|NCT01338870|164453937|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.484||0.4081|TWO_SIDED|95.0|-1.35|0.55|||Mixed Models Analysis|||Week 12: Treatment difference and 95% CI were based on LS mean. MMRM analysis was performed with treatment, time and treatment-by-time interaction as fixed effects, baseline as the covariate, time was repeated for participant.||0.55|-1.35|0.4081
82374068|NCT01955083|164453940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|STANDARD_DEVIATION|16.0|<|0.05|TWO_SIDED|95.0|-14.4|48.4|||Wilcoxon (Mann-Whitney)|||We hypothesized that pillar implant provide a better efficacy in the treatment of snoring than radiofrequency surgery. The sample size was estimated using the primary outcome effects (VAS) in two previously published studies (Friedman 2008; Fang 2004). Using a two-tailed Wilcoxon signed-rank test (normal parent distribution; effect size, 1.0; type I error, 0.05; power, 80%), we got a sample size of 11. For considering a 20% drop-out rate, we needed at least 14 participants.||48.4|-14.4|<0.05
82374069|NCT01955083|164453941|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374070|NCT01955083|164453942|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374071|NCT01955083|164453943|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374072|NCT01955083|164453944|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374073|NCT01955083|164453945|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374074|NCT01955083|164453946|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374075|NCT01955083|164453947|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374076|NCT01955083|164453948|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374077|NCT01955083|164453949|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374078|NCT01955083|164453950|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374079|NCT01955083|164453951|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82374080|NCT01955083|164453952|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
82374081|NCT01559389|164453962|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_DEVIATION|2.5||0.16|TWO_SIDED|95.0|-1.23|0.21||P-values less than 0.05 were considered statistically significant.|t-test, 2 sided|The method was a paired t-test||The null hypothesis is that there is no difference in the overall GRISS score between females with UUI and their male partners||0.21|-1.23|.16
82374082|NCT01559389|164453963|SUPERIORITY||z-score|2.97||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Exact test|The z-score is a standardized Wilcoxon statistic. In this study, z-scores with an absolute value exceeding 1.96 indicate a significant difference in the GRISS change score between responders and non-responders of solifenacin treatment|The null hypothesis is that there is no difference in the overall GRISS change score between those who respond and do not respond to treatment with solifenacin.||||.003
82374083|NCT01559389|164453964|SUPERIORITY||z-score|0.89||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized Wilcoxon statistic. In this study, z-scores with an absolute value exceeding 1.96 indicate a significant difference in the GRISS change score between the two groups|The null hypothesis is that there is no difference in the overall GRISS change score between male partners of female participants who respond to solifenacin and male partners of female participants who do not respond to solifenacin||||.37
82374084|NCT02871492|164453965|SUPERIORITY|||||||0.4294|||||||Cochran-Mantel-Haenszel|||||||0.4294
82374085|NCT02922738|164453981|SUPERIORITY||Cox Proportional Hazard|0.92||||0.54|TWO_SIDED|95.0|0.7|1.21|||Regression, Cox|||||1.21|0.70|0.54
82374086|NCT02922738|164453982|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82374087|NCT03201445|164454014|OTHER||Difference in Percentage|-7.8|||||TWO_SIDED|95.0|-16.3|0.7|||||Difference in percentage and 95% confidence interval (CI) was based on a stratified Mantel-Haenszel test.|||0.7|-16.3|
82374088|NCT03201445|164454016|OTHER||Median Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.1|1.8|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||1.8|-2.1|
82374089|NCT03201445|164454018|OTHER||Median Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-13.4|24.7|||||Difference in medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||24.7|-13.4|
82374090|NCT03201445|164454020|OTHER||Median Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||4.9|-2.8|
82645276|NCT03985293|165005912|SUPERIORITY||Difference in LS Mean|-0.55|||<|0.0001|TWO_SIDED|90.0|-0.7|-0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.40|-0.70|<.0001
82374091|NCT03201445|164454022|OTHER||Median Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.1|0.3|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||0.3|-0.1|
82374092|NCT03201445|164454024|OTHER||Median Difference (Final Values)|2.0|||||TWO_SIDED|95.0|0.0|4.0|||||Difference in Medians and 95% CI for change from baseline at Week 13 was based on quantile regression.|||4|0|
82374093|NCT01346293|164454040|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% Confidence intervals (CIs) of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Anti-Pertussis toxoid antigen between groups were \> -10%.|Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|0.7|10.2||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||10.2|0.7|
82374094|NCT01346293|164454040|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Anti-Filamentous Haemagglutinin between groups were \> -10%.|Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|2.5|21.5||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||21.5|2.5|
82529963|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.21||||0.376|TWO_SIDED|95.0|-0.26|0.68||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||60 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.68|-0.26|0.376
82645277|NCT03985293|165005912|SUPERIORITY||Difference in LS Mean|-0.5|||<|0.0001|TWO_SIDED|90.0|-0.66|-0.35|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.35|-0.66|<.0001
82374095|NCT01346293|164454040|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for the Pertactin antigens between groups were \> -10%.|Mean Difference (Final Values)|3.7|||||TWO_SIDED|3.7|-0.2|7.9||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||7.9|-0.2|
82374096|NCT01346293|164454040|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the difference (DTaP-IPV minus DAPTACEL® + IPOL®) in post-vaccination booster response rates for Fimbriae types 2 and 3 antigens between groups were \> -10%.|Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|0.9|9.1||||||Non-inferiority comparison of post-vaccination anti-pertussis booster response rates in the Per-protocol Analysis Set. The hypothesis was based on testing the difference between 2 proportion parameters.||9.1|0.9|
82374097|NCT01346293|164454041|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Pertussis Toxoid antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.68|2.31||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each Pertussis antigen and their 2-sided 95% Confidence Intervals.||2.31|1.68|
82374098|NCT01346293|164454041|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Filamentous Haemagglutinin antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.56|||||TWO_SIDED|95.0|1.3|1.88||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.88|1.30|
82374099|NCT01346293|164454041|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL®) in post-vaccination GMCs for the Pertactin antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.51|||||TWO_SIDED|95.0|1.27|1.79||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.79|1.27|
82374100|NCT01346293|164454041|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTaP-IPV was demonstrated if the lower limits of the 2-sided 95% CIs of the ratio (DTaP-IPV / DAPTACEL® + IPOL® ) in post-vaccination GMCs for the Fimbriae types 2 and 3 antigens between groups were \> 2/3.|Mean Difference (Final Values)|1.33|||||TWO_SIDED|95.0|1.12|1.6||||||Hypothesis was based on testing the ratio between the 2 post-vaccination GMCs (GMCQ / GMCD) for each pertussis antigen and their 2-sided 95% Confidence Intervals.||1.60|1.12|
82374101|NCT02687217|164454051|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82374102|NCT02687217|164454052|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.5
82374103|NCT02687217|164454053|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||||||0.5
82374104|NCT01844505|164454054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|99.5|0.43|0.76|||Stratified Log Rank test||Stratified Cox proportional hazard model. Ratio of Nivolumab over Ipimlimumab.|||0.76|0.43|<0.0001
82374105|NCT01844505|164454054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|99.5|0.31|0.57|||Stratified Log Rank test||Stratified Cox proportional hazard model. Ratio of Nivolumab+Ipilimumab over Ipilimumab.|||0.57|0.31|<0.0001
82529964|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.36||||0.229|TWO_SIDED|95.0|-0.22|0.93||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.93|-0.22|0.229
82529965|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.16||||0.581|TWO_SIDED|95.0|-0.41|0.74||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.74|-0.41|0.581
82374106|NCT01844505|164454055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|98.0|0.5|0.78|||Log Rank|Log-rank Test stratified by PD-L1 status, BRAF status, and M stage at screening as entered into the Interactive Voice Response System (IVRS).|Stratified Cox proportional hazard model. Ratio of Nivolumab over Ipilimumab|||0.78|0.50|<0.0001
82529966|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.19||||0.422|TWO_SIDED|95.0|-0.28|0.66||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||70 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.66|-0.28|0.422
82645278|NCT03985293|165005912|SUPERIORITY||Difference in LS Mean|-0.56|||<|0.0001|TWO_SIDED|90.0|-0.71|-0.41|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.41|-0.71|<.0001
82645279|NCT03985293|165005913|SUPERIORITY||Difference in LS Mean|-0.4||||0.0004|TWO_SIDED|90.0|-0.59|-0.22|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.22|-0.59|0.0004
82645280|NCT03985293|165005913|SUPERIORITY||Difference in LS Mean|-0.64|||<|0.0001|TWO_SIDED|90.0|-0.81|-0.46|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.46|-0.81|<.0001
82374107|NCT01844505|164454055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|98.0|0.42|0.72|||Log Rank|Log-rank Test stratified by PD-L1 status, BRAF status, and M stage at screening as entered into the IVRS.|Stratified Cox proportional hazard model. Ratio of Nivolumab+Ipilimumab over Ipilimumab.|||0.72|0.42|<0.0001
82374108|NCT01844505|164454058|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.65|0.96|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||0.96|0.65|
82529967|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.33||||0.271|TWO_SIDED|95.0|-0.26|0.91||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.91|-0.26|0.271
82374109|NCT01844505|164454059|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.05|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.05|0.69|
82374110|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.49|5.16|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab over Ipilimumab.|||5.16|2.49|<0.0001
82374111|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.35|||<|0.0001|TWO_SIDED|95.0|4.38|9.22|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab + Ipilimumab over Ipilimumab.|||9.22|4.38|<0.0001
82374112|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|26.0|||||TWO_SIDED|95.0|19.1|32.8|||||Difference in ORR and corresponding 95% CI is based on Cochran-Mantel-Haenszel (CMH) method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab - Ipilimumab.|||32.8|19.1|
82374113|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|39.0|||||TWO_SIDED|95.0|32.2|45.9|||||Difference in ORR and corresponding 95% CI is based on CMH method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab and Ipilimumab - Ipilimumab.|||45.9|32.2|
82398334|NCT00938587|164506851|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.09|STANDARD_ERROR_OF_MEAN|5.337||0.1867|TWO_SIDED|90.0|-15.95|1.76|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.76|-15.95|0.1867
82576102|NCT02567708|164861954|OTHER||Posterior median difference|-0.009|STANDARD_DEVIATION|0.0712||0.44|TWO_SIDED|95.0|-0.151|0.131||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.131|-0.151|0.44
82374114|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|1.26|2.42|||||Cochran-Mantel-Haenszel Test Stratified by PD-L1 Status, BRAF Status and M stage at screening as entered into the IVRS. Ratio of Nivolumab + Ipilimumab over Nivolumab|||2.42|1.26|
82374115|NCT01844505|164454060|SUPERIORITY_OR_OTHER_LEGACY||Difference of Objective Response Rates|13.2|||||TWO_SIDED|95.0|5.7|20.7|||||Difference in ORR and corresponding 95% CI is based on CMH method of weighting, adjusting for PD-L1 Status, BRAF Mutation Status and M-stage at screening as entered into the IVRS. Difference of Nivolumab and Ipilimumab - Nivolumab.|||20.7|5.7|
82445257|NCT00511134|164598902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Descriptive data|||It was hypothesized that the Zyban+Lunesta group would report lower ISI scores at end of trial than the Zyban+Placebo group.||||<0.05
82374116|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.46|0.85|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.85|0.46|
82374117|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.28|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.54|0.28|
82374118|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.45|0.87|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 1%|||0.87|0.45|
82374119|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.34|0.59|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.59|0.34|
82374120|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.3|0.53|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.53|0.30|
82374121|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.66|1.21|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 1%|||1.21|0.66|
82374122|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.45|0.71|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.71|0.45|
82374123|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.33|0.53|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.53|0.33|
82374124|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.57|0.94|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 5%|||0.94|0.57|
82374125|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.27|0.6|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.60|0.27|
82445258|NCT00511134|164598903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Fisher Exact|Degrees of freedom=1||It is predicted that subjects taking eszopiclone will be more likely to report abstinence at trial endpoint than those taking placebo.||||<0.05
82445259|NCT00599755|164598941|SUPERIORITY_OR_OTHER||Proportion|0.4|||||TWO_SIDED|80.0|0.27|0.55||||||||0.55|0.27|
82445260|NCT00599755|164598942|SUPERIORITY_OR_OTHER||Concordance correlation coefficient|0.88|||||TWO_SIDED|80.0|0.85|0.92||||||||0.92|0.85|
82445261|NCT00599755|164598946|SUPERIORITY_OR_OTHER||Proportion|0.125|||||TWO_SIDED|80.0|0.06|0.23||||||||0.23|0.06|
82445262|NCT01364740|164598958|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
82445263|NCT01364740|164598959|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
82445264|NCT01364740|164598960|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
82445265|NCT01364740|164598961|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Sign test|||Patient data from one night with the PMP-300E compared to In-Lab PSG data||||>0.05
82445266|NCT01023672|164598980|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||The analysis was done per protocol (n=17)||||0.003
82445267|NCT00448747|164598982|OTHER||ROC AUC|0.923|||||ONE_SIDED|99.0|0.85|||||||Summary of ROC Analyses following macimorelin administration.|||0.850|
82445268|NCT00448747|164598982|OTHER|Sensitivity|sensitivity (percent)|82.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
82445269|NCT00448747|164598982|OTHER|Specificity|Specificity (percent)|92.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
82445270|NCT00448747|164598982|OTHER|Misclassification|misclassification (percent)|13.0|||||TWO_SIDED|||||||||ROC analysis on peak GH concentrations in response to macimorelin: GH cut point of 2.7 ng/mL.||||
82445271|NCT00448747|164598983|OTHER||Mean Difference (Final Values)|-5.1|STANDARD_DEVIATION|9.57|||TWO_SIDED|||||||||Summary of IGF-1 before and after AEZS-130 administration: post - pre differences||||
82645281|NCT03985293|165005913|SUPERIORITY||Difference in LS Mean|-0.77|||<|0.0001|TWO_SIDED|90.0|-0.95|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-0.95|<.0001
82645282|NCT03985293|165005913|SUPERIORITY||Difference in LS Mean|-0.72|||<|0.0001|TWO_SIDED|90.0|-0.91|-0.53|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.53|-0.91|<.0001
82445272|NCT00448747|164598983|OTHER||Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|16.25|||TWO_SIDED|||||||||||||
82445273|NCT00789672|164599013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_DEVIATION|4.7|||TWO_SIDED|95.0|-6.0|1.0||||||Given this was pilot study, no formal sample size estimates were calculated.||1|-6|
82445274|NCT04473664|164599019|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|95.1|||||TWO_SIDED|90.0|77.1|117.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||117|77.1|
82445275|NCT04473664|164599021|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|109.0|||||TWO_SIDED|90.0|59.5|201.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for Quizartinib.||201|59.5|
82445276|NCT04473664|164599021|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean]|109.0|||||TWO_SIDED|90.0|57.9|207.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for Quizartinib.||207|57.9|
82445277|NCT04473664|164599025|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|74.4|||||TWO_SIDED|90.0|32.0|173.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for AC886.||173|32.0|
82445278|NCT04473664|164599027|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|62.5|||||TWO_SIDED|90.0|35.3|111.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for AC886.||111|35.3|
82529968|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.15||||0.612|TWO_SIDED|95.0|-0.43|0.73||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.73|-0.43|0.612
82645283|NCT03985293|165005913|SUPERIORITY||Difference in LS Mean|-0.77|||<|0.0001|TWO_SIDED|90.0|-0.95|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-0.95|<.0001
82645284|NCT03985293|165005914|SUPERIORITY||Difference in LS Mean|-0.37||||0.0054|TWO_SIDED|90.0|-0.59|-0.15|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.15|-0.59|0.0054
82645285|NCT03985293|165005914|SUPERIORITY||Difference in LS Mean|-0.65|||<|0.0001|TWO_SIDED|90.0|-0.86|-0.44|||Mixed Models Analysis||PF-06882961 = Test Placebo = Reference|||-0.44|-0.86|<.0001
82645286|NCT03985293|165005914|SUPERIORITY||Difference in LS Mean|-0.84|||<|0.0001|TWO_SIDED|90.0|-1.06|-0.63|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.63|-1.06|<.0001
82374126|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.22|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.54|0.22|
82374127|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.54|1.38|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 5%|||1.38|0.54|
82374128|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.43|0.67|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.67|0.43|
82374129|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.34|0.54|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.54|0.34|
82374130|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.63|1.01|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 10%|||1.01|0.63|
82374131|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.28|0.73|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.73|0.28|
82374132|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.16|0.49|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.49|0.16|
82398335|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|2.708||0.9624|TWO_SIDED|90.0|-4.64|4.38|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using analysis of covariance (ANCOVA) where treatment as fixed effect, baseline as the covariate.||4.38|-4.64|0.9624
82398336|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|2.65||0.9493|TWO_SIDED|90.0|-4.24|4.58|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.58|-4.24|0.9493
82398337|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.46|STANDARD_ERROR_OF_MEAN|2.738||0.21|TWO_SIDED|90.0|-1.1|8.02|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.02|-1.10|0.2100
82398338|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.76|STANDARD_ERROR_OF_MEAN|2.651||0.1602|TWO_SIDED|90.0|-0.66|8.18|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.18|-0.66|0.1602
82398339|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.59|STANDARD_ERROR_OF_MEAN|2.71||0.1892|TWO_SIDED|90.0|-0.92|8.1|||ANCOVA|||Physical functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.10|-0.92|0.1892
82398340|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.74|STANDARD_ERROR_OF_MEAN|2.781||0.7899|TWO_SIDED|90.0|-3.89|5.38|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.38|-3.89|0.7899
82398341|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.96|STANDARD_ERROR_OF_MEAN|2.719||0.149|TWO_SIDED|90.0|-0.56|8.49|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.49|-0.56|0.1490
82398342|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|2.766||0.6238|TWO_SIDED|90.0|-5.97|3.24|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.24|-5.97|0.6238
82398343|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.86|STANDARD_ERROR_OF_MEAN|2.699||0.4933|TWO_SIDED|90.0|-2.64|6.35|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.35|-2.64|0.4933
82398344|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.11|STANDARD_ERROR_OF_MEAN|2.739||0.4445|TWO_SIDED|90.0|-6.67|2.46|||ANCOVA|||Role physical at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.46|-6.67|0.4445
82398345|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.51|STANDARD_ERROR_OF_MEAN|2.897||0.2288|TWO_SIDED|90.0|-1.31|8.34|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.34|-1.31|0.2288
82398346|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.77|STANDARD_ERROR_OF_MEAN|2.844||0.098|TWO_SIDED|90.0|0.03|9.5|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate||9.50|0.03|0.0980
82398347|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.54|STANDARD_ERROR_OF_MEAN|2.941||0.0637|TWO_SIDED|90.0|0.64|10.43|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate||10.43|0.64|0.0637
82398348|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.79|STANDARD_ERROR_OF_MEAN|2.831||0.019|TWO_SIDED|90.0|2.07|11.5|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||11.50|2.07|0.0190
82398349|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.02|STANDARD_ERROR_OF_MEAN|2.903||0.4886|TWO_SIDED|90.0|-2.81|6.86|||ANCOVA|||Bodily pain at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.86|-2.81|0.4886
82398350|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.879||0.9951|TWO_SIDED|90.0|-3.12|3.14|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.14|-3.12|0.9951
82374133|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.34|1.09|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 10%|||1.09|0.34|
82374134|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.49|1.52|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||1.52|0.49|
82374135|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.3|0.89|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||0.89|0.30|
82374136|NCT01844505|164454061|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.33|1.09|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression not evaluable at baseline|||1.09|0.33|
82374137|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.57|1.05|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||1.05|0.57|
82374138|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.43|0.81|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 1%|||0.81|0.43|
82374139|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||||95.0|0.55|1.04|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 1%|||1.04|0.55|
82374140|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.39|0.68|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.68|0.39|
82374141|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.38|0.67|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 1%|||0.67|0.38|
82374142|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.72|1.31|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 1%|||1.31|0.72|
82374143|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.49|0.78|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.78|0.49|
82374144|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.41|0.66|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 5%|||0.66|0.41|
82374145|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.66|1.08|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 5%|||1.08|0.66|
82374146|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.41|0.91|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.91|0.41|
82374147|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.38|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 5%|||0.91|0.38|
82374148|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.62|1.53|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 5%|||1.53|0.62|
82398351|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|1.818||0.4721|TWO_SIDED|90.0|-1.71|4.34|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.34|-1.71|0.4721
82374149|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.48|0.75|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.75|0.48|
82374150|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.43|0.68|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \< 10%|||0.68|0.43|
82374151|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.71|1.14|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \< 10%|||1.14|0.71|
82374152|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.44|1.1|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||1.10|0.44|
82374153|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.32|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression \>= 10%|||0.91|0.32|
82374154|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.45|1.32|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression \>= 10%|||1.32|0.45|
82374155|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.37|1.34|||||HR of Nivolumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||1.34|0.37|
82374156|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.26|0.91|||||HR of Nivolumab+Ipilimumab vs. Ipilimumab in participants with PD-L1 expression not evaluable at baseline|||0.91|0.26|
82374157|NCT01844505|164454062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.34|1.39|||||HR of Nivolumab+Ipilimumab vs. Nivolumab in participants with PD-L1 expression not evaluable at baseline|||1.39|0.34|
82374158|NCT02730351|164454079|OTHER||Mean Difference (Final Values)|-1.69||||0.109|TWO_SIDED|95.0|-3.76|0.39||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis|||||0.39|-3.76|0.109
82374159|NCT02730351|164454080|OTHER||Mean Difference (Final Values)|-2.15||||0.051|TWO_SIDED|95.0|-4.31|0.01||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis|||||0.01|-4.31|0.051
82374160|NCT02730351|164454081|OTHER||Odds Ratio (OR)|1.34||||0.266|TWO_SIDED|95.0|0.8|2.26||Repeated measures logistic regression model with parameters estimated using the Generalized Estimating Equation method. Covariates of treatment, sex, age, treatment period, and period baseline FEV1 were included.|Regression, Logistic||12 hrs: modeling the odds of having FEV1 \>/=95% of pre exercise FEV1 at each of the two time points.|||2.26|0.80|0.266
82374161|NCT02730351|164454081|OTHER||Odds Ratio (OR)|1.37||||0.322|TWO_SIDED|95.0|0.73|2.58||Repeated measures logistic regression model with parameters estimated using the Generalized Estimating Equation method|Regression, Logistic||23 hrs: modeling the odds of having FEV1 \>/=95% of pre exercise FEV1 at each of the two time points.|||2.58|0.73|0.322
82398352|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|1.879||0.6835|TWO_SIDED|90.0|-3.9|2.36|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.36|-3.90|0.6835
82398353|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|1.818||0.7701|TWO_SIDED|90.0|-2.49|3.56|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.56|-2.49|0.7701
82398354|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.78|STANDARD_ERROR_OF_MEAN|1.831||0.671|TWO_SIDED|90.0|-3.83|2.27|||ANCOVA|||General health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||2.27|-3.83|0.6710
82398355|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.02|STANDARD_ERROR_OF_MEAN|2.827||0.2886|TWO_SIDED|90.0|-1.69|7.73|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.73|-1.69|0.2886
82398356|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.22|STANDARD_ERROR_OF_MEAN|2.784||0.134|TWO_SIDED|90.0|-0.42|8.86|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.86|-0.42|0.1340
82398357|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.24|STANDARD_ERROR_OF_MEAN|2.83||0.2563|TWO_SIDED|90.0|-1.48|7.95|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.95|-1.48|0.2563
82398358|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.43|STANDARD_ERROR_OF_MEAN|2.771||0.1138|TWO_SIDED|90.0|-0.18|9.05|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.05|-0.18|0.1138
82398359|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|2.793||0.9386|TWO_SIDED|90.0|-4.44|4.87|||ANCOVA|||Vitality at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.87|-4.44|0.9386
82398360|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|2.701||0.8814|TWO_SIDED|90.0|-4.09|4.9|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.90|-4.09|0.8814
82398361|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.98|STANDARD_ERROR_OF_MEAN|2.64||0.1363|TWO_SIDED|90.0|-0.42|8.37|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.37|-0.42|0.1363
82398362|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.73|STANDARD_ERROR_OF_MEAN|2.682||0.7864|TWO_SIDED|90.0|-3.74|5.2|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.20|-3.74|0.7864
82398363|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.3|STANDARD_ERROR_OF_MEAN|2.619||0.1048|TWO_SIDED|90.0|-0.06|8.66|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.66|-0.06|0.1048
82398364|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.33|STANDARD_ERROR_OF_MEAN|2.643||0.9024|TWO_SIDED|90.0|-4.08|4.73|||ANCOVA|||Social functioning at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.73|-4.08|0.9024
82398365|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.62|STANDARD_ERROR_OF_MEAN|3.819||0.4954|TWO_SIDED|90.0|-3.74|8.98|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.98|-3.74|0.4954
82398366|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.14|STANDARD_ERROR_OF_MEAN|3.735||0.1729|TWO_SIDED|90.0|-1.08|11.36|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||11.36|-1.08|0.1729
82645287|NCT03985293|165005914|SUPERIORITY||Difference in LS Mean|-0.8|||<|0.0001|TWO_SIDED|90.0|-1.02|-0.57|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.57|-1.02|<.0001
82445279|NCT04473664|164599027|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|69.9|||||TWO_SIDED|90.0|46.8|104.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for AC886.||104|46.8|
82398367|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.21|STANDARD_ERROR_OF_MEAN|3.82||0.565|TWO_SIDED|90.0|-4.15|8.57|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.57|-4.15|0.5650
82398368|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.73|STANDARD_ERROR_OF_MEAN|3.73||0.2087|TWO_SIDED|90.0|-1.48|10.94|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||10.94|-1.48|0.2087
82398369|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|3.771||0.9139|TWO_SIDED|90.0|-6.69|5.87|||ANCOVA|||Role emotional at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.87|-6.69|0.9139
82374162|NCT02730351|164454082|OTHER||Mean Difference (Final Values)|-0.65||||0.342|TWO_SIDED|95.0|-2.01|0.71||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values. Subject is fitted as a random effect.|Mixed Models Analysis||12 hrs post-dose|||0.71|-2.01|0.342
82374163|NCT02730351|164454082|OTHER||Mean Difference (Final Values)|-1.75||||0.041|TWO_SIDED|95.0|-3.42|-0.07||Mixed model repeated measures analysis adjusted for fixed effects of treatment, sex, age, treatment period, smoking history, period Baseline FEV1 and the mean of the two period Baseline FEV1 values.|Mixed Models Analysis||23 hrs post-dose|||-0.07|-3.42|0.041
82374164|NCT00311402|164454083|NON_INFERIORITY_OR_EQUIVALENCE|The non-event rates after 1 year in the Aggrenox group and ASA group are estimated at 94.0% and 91.5%, respectively. The non-inferiority margin was set to 2%. Under these conditions, 500 patients per group were supposed to be enough to detect the non-inferiority of Aggrenox with over 80% power.|Cox Proportional Hazard|1.47||||0.097||95.0|0.93|2.31|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.31|0.93|0.097
82374165|NCT00311402|164454084|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.79||||0.223||95.0|0.7|4.54|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||4.54|0.70|0.223
82374166|NCT00311402|164454085|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.0||||0.998|ONE_SIDED|95.0|0.0||||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.|||0|0.998
82374167|NCT00311402|164454086|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.02||||0.977||95.0|0.21|5.07|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||5.07|0.21|0.977
82374168|NCT00311402|164454087|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.58||||0.192||95.0|0.26|1.31|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.31|0.26|0.192
82374169|NCT00311402|164454088|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.88||||0.215||95.0|0.69|5.07|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||5.07|0.69|0.215
82374170|NCT00311402|164454089|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.16||||0.443||95.0|0.79|1.69|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.69|0.79|0.443
82374171|NCT00311402|164454090|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.52||||0.043||95.0|1.01|2.29|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.29|1.01|0.043
82374172|NCT00311402|164454091|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.919||95.0|0.48|2.25|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||2.25|0.48|0.919
82374173|NCT00311402|164454092|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.34||||0.101||95.0|0.94|1.91|||Regression, Cox|||Non-event rate was calculated by using the Kaplan-Meier method and the comparison of groups was made by using the Cox proportional hazard regression model.||1.91|0.94|0.101
82374174|NCT00838435|164454093|OTHER|Coefficient estimates from a random coefficient model and associated p-values.|Slope|-0.5768|||||TWO_SIDED|95.0|-1.6004|0.4468|||||The slope shown above is based on a 2-year window.|A random coefficient model was used to calculate the slope (per year) of FSIQ over the entire study period. Factors in the model included visit and testing sequence, with change in FSIQ score as the dependent variable. Random terms include both intercept and visit. The treatment was considered successful if the lower 95% confidence limit of the mean change excluded a decline of greater than 5 points over a 2-year window.||0.4468|-1.6004|
82374175|NCT02472223|164454105|SUPERIORITY||Median Difference (Final Values)|90.0||||0.02|TWO_SIDED|||||p-value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.02
82374176|NCT01798316|164454134|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82374177|NCT00678886|164454141|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.813|TWO_SIDED|95.0|-0.06|0.08|||Mixed effects repeated measures model|||Mixed meal-stimulated C-peptide AUC, Placebo Vs Otelixizumab at Month 12||0.08|-0.06|0.813
82374178|NCT00678886|164454142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.737|TWO_SIDED|95.0|0.47|1.7|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Week 12||1.70|0.47|0.737
82374179|NCT00678886|164454142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.737|TWO_SIDED|95.0|0.42|1.39|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Month 6||1.39|0.42|0.737
82398370|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.51|STANDARD_ERROR_OF_MEAN|3.371||0.6559|TWO_SIDED|90.0|-4.11|7.12|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.12|-4.11|0.6559
82374180|NCT00678886|164454142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.481|TWO_SIDED|95.0|0.45|1.46|||Hochberg adjusted|||Percentage of responders, Placebo Vs Otelixizumab at Month 12||1.46|0.45|0.481
82374181|NCT00678886|164454143|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.281|TWO_SIDED|95.0|-0.07|0.01|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Week 12||0.01|-0.07|0.281
82374182|NCT00678886|164454143|SUPERIORITY||Mean Difference (Net)|0.0||||0.969|TWO_SIDED|95.0|-0.05|0.05|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Month 6||0.05|-0.05|0.969
82398371|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.15|STANDARD_ERROR_OF_MEAN|3.315||0.7304|TWO_SIDED|90.0|-4.37|6.67|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.67|-4.37|0.7304
82374183|NCT00678886|164454143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.272|TWO_SIDED|95.0|-0.08|0.02|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||Mean insulin use, Placebo Vs Otelixizumab at Month 12||0.02|-0.08|0.272
82374184|NCT00678886|164454144|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.18||||0.289|TWO_SIDED|95.0|-0.16|0.52|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Month 12||0.52|-0.16|0.289
82398372|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.64|STANDARD_ERROR_OF_MEAN|3.369||0.1729|TWO_SIDED|90.0|-0.98|10.25|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||10.25|-0.98|0.1729
82398373|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.27|STANDARD_ERROR_OF_MEAN|3.335||0.2038|TWO_SIDED|90.0|-1.28|9.83|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.83|-1.28|0.2038
82398374|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.13|STANDARD_ERROR_OF_MEAN|3.328||0.3503|TWO_SIDED|90.0|-2.41|8.67|||ANCOVA|||Mental health at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.67|-2.41|0.3503
82398375|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.29|STANDARD_ERROR_OF_MEAN|2.01||0.8875|TWO_SIDED|90.0|-3.06|3.63|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||3.63|-3.06|0.8875
82398376|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.97|STANDARD_ERROR_OF_MEAN|1.971||0.3203|TWO_SIDED|90.0|-1.31|5.25|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||5.25|-1.31|0.3203
82398377|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|2.046||0.5232|TWO_SIDED|90.0|-2.09|4.72|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.72|-2.09|0.5232
82398378|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|1.971||0.1324|TWO_SIDED|90.0|-0.28|6.28|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.28|-0.28|0.1324
82398379|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.03|STANDARD_ERROR_OF_MEAN|2.024||0.6134|TWO_SIDED|90.0|-2.34|4.4|||ANCOVA|||Physical component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||4.40|-2.34|0.6134
82398380|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.26|STANDARD_ERROR_OF_MEAN|3.387||0.5059|TWO_SIDED|90.0|-3.38|7.91|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||7.91|-3.38|0.5059
82398381|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.44|STANDARD_ERROR_OF_MEAN|3.329||0.3042|TWO_SIDED|90.0|-2.1|8.99|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.99|-2.10|0.3042
82398382|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.18|STANDARD_ERROR_OF_MEAN|3.39||0.3519|TWO_SIDED|90.0|-2.47|8.82|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||8.82|-2.47|0.3519
82398383|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.36|STANDARD_ERROR_OF_MEAN|3.342||0.1966|TWO_SIDED|90.0|-1.21|9.92|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||9.92|-1.21|0.1966
82398384|NCT00938587|164506852|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.91|STANDARD_ERROR_OF_MEAN|3.345||0.786|TWO_SIDED|90.0|-4.66|6.48|||ANCOVA|||Mental component at D14: Treatment difference and its corresponding 90% CI was based on LS mean difference using ANCOVA where treatment as fixed effect, baseline as the covariate.||6.48|-4.66|0.7860
82398385|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.286||0.109|TWO_SIDED|90.0|-0.93|0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.01|-0.93|0.1090
82398386|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.282||0.0014|TWO_SIDED|90.0|-1.38|-0.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.45|-1.38|0.0014
82398387|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.284||0.0506|TWO_SIDED|90.0|-1.03|-0.09|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.09|-1.03|0.0506
82645288|NCT03985293|165005914|SUPERIORITY||Difference in LS Mean|-0.89|||<|0.0001|TWO_SIDED|90.0|-1.11|-0.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.67|-1.11|<.0001
82645289|NCT03985293|165005915|SUPERIORITY||Difference in LS Mean|-0.44||||0.0061|TWO_SIDED|90.0|-0.71|-0.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.18|-0.71|0.0061
82374185|NCT00678886|164454144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.538|TWO_SIDED|95.0|-0.15|0.49|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Month 6||0.49|-0.15|0.538
82576103|NCT02567708|164861954|OTHER||Posterior median difference|0.024|STANDARD_DEVIATION|0.057||0.66|TWO_SIDED|95.0|-0.087|0.137||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.137|-0.087|0.66
82374186|NCT00678886|164454144|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.538|TWO_SIDED|95.0|-0.19|0.36|||Mixed effects repeated measures model|Mixed effects repeated measures models was adjusted for age, continent, and baseline parameter value.||HbA1c levels, Placebo Vs Otelixizumab at Week 12||0.36|-0.19|0.538
82374187|NCT00678886|164454153|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.12||||0.54|TWO_SIDED|95.0|-0.88|3.11|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Week 12||3.11|-0.88|0.540
82374188|NCT00678886|164454153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.83||||0.546|TWO_SIDED|95.0|-1.89|3.56|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Month 6||3.56|-1.89|0.546
82374189|NCT00678886|164454153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.462|TWO_SIDED|95.0|-1.56|3.42|||Mixed effects repeated measures model|||ADRR, Placebo Vs Otelixizumab at Month 12||3.42|-1.56|0.462
82374190|NCT00678886|164454154|SUPERIORITY_OR_OTHER|||||||0.957|||||||Hochberg-adjusted|||Composite Rank Summary for HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 6||||0.957
82374191|NCT00678886|164454154|SUPERIORITY_OR_OTHER|||||||0.957|||||||Hochberg-adjusted|||Composite Rank Summary for HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 12||||0.957
82374192|NCT00678886|164454155|SUPERIORITY_OR_OTHER|||||||0.653|||||||Hochberg-adjusted|||Composite Rank Summary for C-Peptide AUC, HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 6||||0.653
82374193|NCT00678886|164454155|SUPERIORITY_OR_OTHER|||||||0.653|||||||Hochberg-adjusted|||Composite Rank Summary for C-Peptide AUC, HbA1c and Exogenous Insulin Use, Placebo Vs Otelixizumab at Month 12||||0.653
82374194|NCT03496610|164454170|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed given non-normal distribution of data by Shapiro Wilks Test. Null hypothesis is that there is no difference in oral morphine equivalent consumption between the two groups in the first 24hrs after surgery. Original sample size calculation based on α=0.05, β=0.8, difference in means=2, and effect size of 1.0.||||0.81
82398388|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.28||0.0004|TWO_SIDED|90.0|-1.48|-0.55|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.55|-1.48|0.0004
82398389|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.281||0.7272|TWO_SIDED|90.0|-0.56|0.37|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.37|-0.56|0.7272
82374195|NCT03496610|164454171|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed with α=0.05. The null hypothesis is that there is no difference between the two groups in pain on postoperative day 7.||||0.40
82374196|NCT03496610|164454172|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test performed with α=0.05. The null hypothesis is that there is no difference in bloating severity between the two groups.||||0.74
82374197|NCT03496610|164454173|OTHER|||||||0.38|||||||Chi-squared|Degrees of freedom = 1||Compared using the Likelihood ratio test with α=0.05. The null hypothesis was that there is no difference between the groups.||||0.38
82374198|NCT01997229|164454184|SUPERIORITY||Mean Difference (Net)|-11.7||||0.0698|TWO_SIDED|95.0|-24.33|0.96|||ANCOVA|||||0.96|-24.33|0.0698
82374199|NCT01197755|164454262|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.17||||0.004|TWO_SIDED|95.0|0.05|0.28||Week 24|Mantel Haenszel|Treatment difference in proportion of responders at Week 24 with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.28|0.05|0.004
82374200|NCT01197755|164454262|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.07||||0.168|TWO_SIDED|95.0|-0.03|0.18||Week 24|Mantel Haenszel|Treatment difference in proportion of responders at Week 24 with a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|-0.03|0.168
82374201|NCT01197755|164454263|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.22|||<|0.001|TWO_SIDED|95.0|0.16|0.29|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.29|0.16|<0.001
82374202|NCT01197755|164454264|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.1||||0.014|TWO_SIDED|95.0|0.02|0.19|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.19|0.02|0.014
82374203|NCT01197755|164454264|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.05||||0.18|TWO_SIDED|95.0|-0.02|0.12||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|-0.02|0.180
82374204|NCT01197755|164454265|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.12|||<|0.001|TWO_SIDED|95.0|0.06|0.19|||Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.19|0.06|<0.001
82374205|NCT01197755|164454265|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.0||||0.891|TWO_SIDED|95.0|-0.04|0.04||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel-Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.04|-0.04|0.891
82374206|NCT01197755|164454266|SUPERIORITY_OR_OTHER||Treatment difference|||||0.01||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.010
82374207|NCT01197755|164454266|SUPERIORITY_OR_OTHER|||||||0.019||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|P-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.019
82374208|NCT01197755|164454267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.023|TWO_SIDED|95.0|1.21|13.91|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||13.91|1.21|0.023
82374209|NCT01197755|164454267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.197|TWO_SIDED|95.0|0.65|8.23||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.23|0.65|0.197
82374210|NCT01197755|164454268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.005|TWO_SIDED|95.0|1.54|10.92|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||10.92|1.54|0.005
82398390|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.296||0.0604|TWO_SIDED|90.0|-1.05|-0.07|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.07|-1.05|0.0604
82398391|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.285||0.0003|TWO_SIDED|90.0|-1.53|-0.59|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.59|-1.53|0.0003
82445280|NCT04473664|164599030|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|44.7|||||TWO_SIDED|90.0|18.0|111.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|Statistical comparison was analyzed for Quizartinib.||111|18.0|
82374211|NCT01197755|164454268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7||||0.002|TWO_SIDED|95.0|1.79|12.3||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio of \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||12.30|1.79|0.002
82374212|NCT01197755|164454269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.86|5.76||Nominal p value only. This was not included in the pre-defined multiplicity testing procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data||5.76|1.86|<0.001
82374213|NCT01197755|164454269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.028|TWO_SIDED|95.0|1.07|3.31||Nominal p-value only. This was not included in the pre-defined multiplicity testing procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data||3.31|1.07|0.028
82398392|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.291||0.0377|TWO_SIDED|90.0|-1.09|-0.13|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.13|-1.09|0.0377
82398393|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.28||0.0001|TWO_SIDED|90.0|-1.57|-0.65|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.65|-1.57|0.0001
82398394|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.284||0.8612|TWO_SIDED|90.0|-0.52|0.42|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.42|-0.52|0.8612
82398395|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.44|STANDARD_ERROR_OF_MEAN|0.292||0.133|TWO_SIDED|90.0|-0.04|0.93|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.93|-0.04|0.1330
82398396|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.285||0.8542|TWO_SIDED|90.0|-0.52|0.42|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.42|-0.52|0.8542
82398397|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.288||0.2339|TWO_SIDED|90.0|-0.13|0.82|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.82|-0.13|0.2339
82398398|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5927|TWO_SIDED|90.0|-0.61|0.31|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.31|-0.61|0.5927
82398399|NCT00938587|164506853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.284||0.7304|TWO_SIDED|90.0|-0.57|0.37|||MMRM|||Day 42: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.37|-0.57|0.7304
82398400|NCT00938587|164506854|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.29||0.0956|TWO_SIDED|90.0|-0.97|-0.01|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.01|-0.97|0.0956
82398401|NCT00938587|164506854|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.93|STANDARD_ERROR_OF_MEAN|0.286||0.0016|TWO_SIDED|90.0|-1.4|-0.45|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.45|-1.40|0.0016
82398402|NCT00938587|164506854|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.287||0.0258|TWO_SIDED|90.0|-1.13|-0.17|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.17|-1.13|0.0258
82645290|NCT03985293|165005915|SUPERIORITY||Difference in LS Mean|-0.79|||<|0.0001|TWO_SIDED|90.0|-1.05|-0.54|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.54|-1.05|<.0001
82374214|NCT01197755|164454270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.004|TWO_SIDED|95.0|1.33|4.45|||Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using logistic regression with treatment and pooled country as factors|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||4.45|1.33|0.004
82374215|NCT01197755|164454270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.186|TWO_SIDED|95.0|0.82|2.79||Nominal p-value presented for Group B comparison. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (primary variable comparison of Group B versus Group C was non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using logistic regression with treatment and pooled country as factors|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.79|0.82|0.186
82374216|NCT01197755|164454271|SUPERIORITY_OR_OTHER|||||||0.729||||||Nominal p-value only. This was not included in the pre-defined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|ANCOVA|This was performed on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as covariate.||||||0.729
82645291|NCT03985293|165005915|SUPERIORITY||Difference in LS Mean|-0.98|||<|0.0001|TWO_SIDED|90.0|-1.24|-0.72|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.72|-1.24|<.0001
82645292|NCT03985293|165005915|SUPERIORITY||Difference in LS Mean|-0.83|||<|0.0001|TWO_SIDED|90.0|-1.1|-0.56|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.56|-1.10|<.0001
82645293|NCT03985293|165005915|SUPERIORITY||Difference in LS Mean|-1.03|||<|0.0001|TWO_SIDED|90.0|-1.3|-0.75|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.75|-1.30|<.0001
82374217|NCT01197755|164454271|SUPERIORITY_OR_OTHER|||||||0.019||||||Nominal p-value only. This was not included in the pre-defined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|ANCOVA|This was performed on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as covariate.||||||0.019
82398403|NCT00938587|164506854|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.283||0.0002|TWO_SIDED|90.0|-1.56|-0.62|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||-0.62|-1.56|0.0002
82398404|NCT00938587|164506854|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.284||0.5692||90.0|-0.63|0.31|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.31|-0.63|0.5692
82398405|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.146|TWO_SIDED|90.0|-8.65|35.98|||Barnard exact test|||Day 7||35.98|-8.65|0.1460
82398406|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|38.1||||0.0052|TWO_SIDED|90.0|12.25|59.46|||Barnard exact test|||Day 7||59.46|12.25|0.0052
82398407|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.3||||0.5094|TWO_SIDED|90.0|-22.0|24.66|||Barnard exact test|||Day 7||24.66|-22.00|0.5094
82398408|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|25.11||||0.0551|TWO_SIDED|90.0|-0.69|48.34|||Barnard exact test|||Day 7||48.34|-0.69|0.0551
82398409|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-12.99||||0.9999|TWO_SIDED|90.0|-34.09|8.78|||Barnard exact test|||Day 7||8.78|-34.09|0.9999
82398410|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|10.56||||0.3027|TWO_SIDED|90.0|-17.18|37.67|||Barnard-Exact test|||Day 14||37.67|-17.18|0.3027
82398411|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|21.67||||0.1074|TWO_SIDED|90.0|-6.24|46.16|||Barnard-Exact test|||Day 14||46.16|-6.24|0.1074
82398412|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.46||||0.234|TWO_SIDED|90.0|-10.08|43.7|||Barnard-Exact test|||Day 14||43.70|-10.08|0.2340
82398413|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|28.57||||0.0442|TWO_SIDED|90.0|0.91|53.07|||Barnard-Exact test|||Day 14||53.07|0.91|0.0442
82398414|NCT00938587|164506855|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.9||||0.3813|TWO_SIDED|90.0|-19.82|32.92|||Barnard-Exact test|||Day 14||32.92|-19.82|0.3813
82398415|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|9.52||||0.1017|TWO_SIDED|90.0|-3.9|27.09|||Barnard exact test|||Day 7||27.09|-3.90|0.1017
82645294|NCT03985293|165005916|SUPERIORITY||Difference in LS Mean|-17.13||||0.0014|TWO_SIDED|90.0|-25.94|-8.33|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-8.33|-25.94|0.0014
82398416|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.05||||0.0218|TWO_SIDED|90.0|4.49|38.44|||Barnard exact test|||Day 7||38.44|4.49|0.0218
82398417|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|9.52||||0.1082|TWO_SIDED|90.0|-3.71|27.06|||Barnard exact test|||Day 7||27.06|-3.71|0.1082
82398418|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.05||||0.0166|TWO_SIDED|90.0|4.81|38.44|||Barnard exact test|||Day 7||38.44|4.81|0.0166
82398419|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22||||0.4776|TWO_SIDED|90.0|-21.61|25.87|||Barnard exact test|||Day 14||25.87|-21.61|0.4776
82398420|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|27.62||||0.0347|TWO_SIDED|90.0|2.53|50.78|||Barnard exact test|||Day 14||50.78|2.53|0.0347
82645295|NCT03985293|165005916|SUPERIORITY||Difference in LS Mean|-16.38||||0.0021|TWO_SIDED|90.0|-25.08|-7.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|Difference in LS Mean|||-7.67|-25.08|0.0021
82374218|NCT01197755|164454272|SUPERIORITY_OR_OTHER||Treatment difference|2.6||||0.009||95.0|0.65|4.56|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||4.56|0.65|0.009
82645296|NCT03985293|165005916|SUPERIORITY||Difference in LS Mean|-22.2|||<|0.0001|TWO_SIDED|90.0|-30.88|-13.53|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-13.53|-30.88|<.0001
82645297|NCT03985293|165005916|SUPERIORITY||Difference in LS Mean|-18.59||||0.0006|TWO_SIDED|90.0|-27.43|-9.76|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-9.76|-27.43|0.0006
82645298|NCT03985293|165005916|SUPERIORITY||Difference in LS Mean|-25.33|||<|0.0001|TWO_SIDED|90.0|-34.0|-16.67|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-16.67|-34.00|<.0001
82645299|NCT03985293|165005917|SUPERIORITY||Difference in LS Mean|-11.79||||0.0468|TWO_SIDED|90.0|-21.55|-2.04|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.04|-21.55|0.0468
82645300|NCT03985293|165005917|SUPERIORITY||Difference in LS Mean|-18.68||||0.0012|TWO_SIDED|90.0|-28.12|-9.25|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-9.25|-28.12|0.0012
82645301|NCT03985293|165005917|SUPERIORITY||Difference in LS Mean|-27.44|||<|0.0001|TWO_SIDED|90.0|-37.03|-17.85|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.85|-37.03|<.0001
82529969|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.18||||0.465|TWO_SIDED|95.0|-0.3|0.65||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||80 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.65|-0.30|0.465
82529970|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.32||||0.29|TWO_SIDED|95.0|-0.27|0.91||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.91|-0.27|0.290
82529971|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.25||||0.412|TWO_SIDED|95.0|-0.34|0.83||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.83|-0.34|0.412
82529972|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.07||||0.769|TWO_SIDED|95.0|-0.41|0.55||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||90 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.55|-0.41|0.769
82529973|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.15||||0.61|TWO_SIDED|95.0|-0.43|0.74||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.74|-0.43|0.610
82374219|NCT01197755|164454272|SUPERIORITY_OR_OTHER||Treatment difference|1.53||||0.118|TWO_SIDED|95.0|-0.39|3.44|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.44|-0.39|0.118
82374220|NCT01197755|164454273|SUPERIORITY_OR_OTHER||Treatment difference|0.67||||0.487||95.0|-1.23|2.58|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.58|-1.23|0.487
82374221|NCT01197755|164454273|SUPERIORITY_OR_OTHER||Treatment difference|0.62||||0.516|TWO_SIDED|95.0|-1.26|2.51|||ANCOVA|Improvement from baseline, including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.51|-1.26|0.516
82374222|NCT03582826|164454282|SUPERIORITY|Paired Wilcoxon Signed-Rank Tests|Median Difference (Final Values)|79.0||||0.02|TWO_SIDED|95.0|26.0|163.0||Original p-value for dermatological bacteria was 6e-05. It was adjusted first by applying centered log-ratio (CLR) transformation approach then by false discovery rate (FDR) correction for multiple comparisons by using Benjamini-Hochberg Procedure.|Wilcoxon (Mann-Whitney)|||||163|26|0.02
82374223|NCT03982199|164454307|SUPERIORITY||Event Rate|80.0||||4e-05|TWO_SIDED|94.211|52.2|92.9|||Poisson regression|||Case Definition 1||92.9|52.2|0.00004
82374224|NCT03982199|164454307|SUPERIORITY||Event Rate|75.0||||1e-05|TWO_SIDED|94.211|50.1|88.5|||Poisson regression|||Case Definition 2||88.5|50.1|0.00001
82374225|NCT03982199|164454307|SUPERIORITY||Event Rate|69.8||||4e-05|TWO_SIDED|94.211|43.7|84.7|||Poisson regression|||Case Definition 3||84.7|43.7|0.00004
82374226|NCT04240392|164454329|SUPERIORITY||Odds Ratio (OR)|1.369||||0.534|TWO_SIDED|95.0|0.462|4.055|||Mixed Models Analysis|Generalized Linear Mixed Model||||4.055|0.462|0.5340
82529974|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.2||||0.511|TWO_SIDED|95.0|-0.39|0.78||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.78|-0.39|0.511
82529975|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.859|TWO_SIDED|95.0|-0.52|0.43||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||100 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.43|-0.52|0.859
82374227|NCT04240392|164454330|SUPERIORITY||Odds Ratio (OR)|0.803||||0.6|TWO_SIDED|95.0|0.326|1.979|||Mixed Models Analysis|Generalized Linear Mixed Model||At delivery||1.979|0.326|0.600
82374228|NCT04240392|164454330|SUPERIORITY||Odds Ratio (OR)|0.709||||0.471|TWO_SIDED|95.0|0.254|1.975|||Mixed Models Analysis|Generalized Linear Mixed Model||At 3 months post partum||1.975|0.254|0.471
82529976|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.26||||0.386|TWO_SIDED|95.0|-0.33|0.84||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.84|-0.33|0.386
82645302|NCT03985293|165005917|SUPERIORITY||Difference in LS Mean|-27.36|||<|0.0001|TWO_SIDED|90.0|-37.22|-17.51|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.51|-37.22|<.0001
82529977|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.563|TWO_SIDED|95.0|-0.41|0.76||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.76|-0.41|0.563
82645303|NCT03985293|165005917|SUPERIORITY||Difference in LS Mean|-28.09|||<|0.0001|TWO_SIDED|90.0|-37.72|-18.45|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-18.45|-37.72|<.0001
82398421|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|7.94||||0.3343|TWO_SIDED|90.0|-13.71|31.59|||Barnard exact test|||Day 14||31.59|-13.71|0.3343
82398422|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|33.33||||0.0117|TWO_SIDED|90.0|8.35|55.0|||Barnard exact test|||Day 14||55.00|8.35|0.0117
82374229|NCT04240392|164454331|SUPERIORITY||Beta-coefficient|1.53||||0.518|TWO_SIDED|95.0|-3.13|6.19|||Mixed Models Analysis|Repeated Measures Linear Mixed Model|Beta-coefficient for treatment for time interaction term|At week 36||6.19|-3.13|0.518
82374230|NCT04240392|164454331|SUPERIORITY||Beta-coefficient|0.32||||0.893|TWO_SIDED|95.0|-4.41|5.06|||Mixed Models Analysis|Repeated Measures Linear Mixed Model|Beta-coefficient for treatment for time interaction term|At 3 months post partum||5.06|-4.41|0.893
82374231|NCT00191113|164454340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001||95.0|0.7|1.1|||ANCOVA|Model includes baseline height SDS, baseline age, treatment, and interactions. Age and interaction terms removed when not significant.|"Effect direction is As-Randomized Humatrope minus As-Randomized Control"|This component of the primary analysis is inferential i.e. to ascertain definitively whether Humatrope treatment affects change in Height SDS (NCHS). Null hypothesis is no effect of Humatrope treatment.||1.1|0.7|<0.001
82374232|NCT00191113|164454341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.001||95.0|0.9|1.2|||ANCOVA|Model includes baseline height SDS, baseline age, treatment, and interactions. Age and interactions terms removed when not significant.|"Effect direction is As-Treated Growth Hormone minus As-Treated No Growth Hormone"|Estimation analysis of the magnitude of effect of treatment with growth hormone upon Final Height. Null hypothesis is no effect of growth hormone upon attained height standard deviation score (National Center for Health Statistics).||1.2|0.9|<0.001
82374233|NCT00191113|164454342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||<|0.001||95.0|0.9|1.3|||ANCOVA|||||1.3|0.9|<0.001
82374234|NCT00191113|164454343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9|||<|0.001||95.0|5.7|8.1|||ANCOVA|||||8.1|5.7|<0.001
82374235|NCT00191113|164454344|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
82398423|NCT00938587|164506856|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.71||||0.372|TWO_SIDED|90.0|-15.86|27.04|||Barnard exact test|||Day 14||27.04|-15.86|0.3720
82398424|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.263|TWO_SIDED|90.0|-8.61|20.67|||Barnard exact test|||Day 7||20.67|-8.61|0.2630
82374236|NCT00191113|164454345|SUPERIORITY_OR_OTHER|||||||0.744||95.0|||||Fisher Exact|||||||0.744
82374237|NCT00191113|164454346|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||Fisher Exact|||||||0.073
82374238|NCT00191113|164454347|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||Comparison of proportion of patients with any category of hearing loss between As-Treated Growth Hormone group and As-Treated No Growth Hormone.||||>0.999
82374239|NCT00191113|164454348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.492||||0.419||95.0|-8.631|3.646|||ANOVA||Direction of estimated treatment effect is Humatrope minus Control|||3.646|-8.631|0.419
82374240|NCT00191113|164454350|SUPERIORITY_OR_OTHER|||||||0.545||95.0|||||Fisher Exact|||||||0.545
82374241|NCT00191113|164454352|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
82374242|NCT00191113|164454354|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
82374243|NCT00191113|164454355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.945||95.0|-0.199|0.186|||ANOVA||Direction of estimated treatment effect is Humatrope minus Control|||0.186|-0.199|0.945
82374244|NCT00191113|164454357|SUPERIORITY_OR_OTHER|||||||||95.0||||P-value cannot be computed since no patients had abnormal result in either comparison group.|Fisher Exact|||||||
82374245|NCT05307510|164454358|SUPERIORITY|Statistical analysis is under powered. N is too low.||||||0.135||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain at rest||||0.135
82374246|NCT05307510|164454358|SUPERIORITY|Statistical analysis is underpowered. N is too low||||||0.716||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain at Night||||.716
82374247|NCT05307510|164454358|SUPERIORITY|Statistical Analysis underpowered. N is too small.||||||0.509||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Pain in use||||.509
82374248|NCT05307510|164454359|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82374249|NCT05307510|164454360|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.635||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Palmar abduction of surgical hand||||.635
82374250|NCT05307510|164454360|SUPERIORITY|Statistical analysis is underpowered. N is too low.|Mean Difference (Net)|-3.1||||0.521|TWO_SIDED|95.0|-13.6|7.4|||t-test, 2 sided|||Radial Abduction Surgical Hand||7.4|-13.6|.521
82374251|NCT05307510|164454361|SUPERIORITY|Statistical analysis is underpowered. N is too low.|Mean Difference (Net)|7.42||||0.495|TWO_SIDED|95.0|-16.16|32.0|||t-test, 2 sided|||||32.0|-16.16|.495
82374252|NCT05307510|164454362|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.953||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Buttoning Buttons||||.953
82374253|NCT05307510|164454362|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.947||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Lacing and tying a shoe||||.947
82374254|NCT05307510|164454362|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.828||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Opening and closing safety pins||||.828
82374255|NCT05307510|164454362|SUPERIORITY|Statistical analysis is underpowered. N is too low.||||||0.169||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||Managing coins||||.169
82374256|NCT05307510|164454363|SUPERIORITY|Statistical analysis underpowered. N too small.||||||0.917||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||||||.917
82374257|NCT05307510|164454363|SUPERIORITY|Statistical analysis is underpowered. N is too small||||||0.837||||||The threshold for statistical significance was p \< 0.6|t-test, 2 sided|||||||.837
82374258|NCT03610516|164454366|OTHER|A repeated measures mixed model was fitted with factors for treatment group (CFZ533 or placebo) and visit.|Ratio of geometric means CFZ533/placebo|0.579||||0.0788|TWO_SIDED|95.0|0.267|1.256||one-sided p-value|Repeated measures Mixed Model|||||1.256|0.267|0.0788
82374259|NCT03047330|164454387|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
82374260|NCT03047330|164454387|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82374261|NCT03047330|164454388|SUPERIORITY|||||||0.048|||||||Mixed Models Analysis|||||||0.048
82374262|NCT03047330|164454388|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||0.58
82374263|NCT00000378|164454389|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||actual calculation|Regression, Logistic|||logistic regression and mixed effects model||||<0.05
82374264|NCT05773794|164454403|SUPERIORITY|||||||0.968|||||||t-test, 2 sided|||||||0.968
82374265|NCT05773794|164454403|SUPERIORITY|||||||0.366|||||||t-test, 2 sided|||||||0.366
82374266|NCT05773794|164454403|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82374267|NCT05773794|164454404|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|||||||0.016
82374268|NCT05773794|164454404|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82374269|NCT05773794|164454404|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82374270|NCT05773794|164454405|SUPERIORITY|||||||0.0196|||||||t-test, 2 sided|||||||0.0196
82374271|NCT05773794|164454405|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82374272|NCT05773794|164454405|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82374273|NCT04314648|164454474|SUPERIORITY||Odds Ratio (OR)|6.26|||<|0.001|TWO_SIDED|95.0|2.38|16.48|||Regression, Logistic|||||16.48|2.38|<.001
82374274|NCT04314648|164454475|SUPERIORITY||Odds Ratio, log|5.76|||<|0.01|TWO_SIDED|95.0|1.86|17.86|||Regression, Logistic|||||17.86|1.86|<.01
82374275|NCT04314648|164454476|SUPERIORITY||Odds Ratio (OR)|0.74||||0.64|TWO_SIDED|95.0|0.21|2.64|||Regression, Logistic||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a logistic regression model, adjusted for baseline use.|||2.64|.21|.64
82374276|NCT04314648|164454477|SUPERIORITY||Odds Ratio (OR)|2.67||||0.35|TWO_SIDED|95.0|0.35|20.51|||Regression, Logistic||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a logistic regression model, adjusted for baseline use.|||20.51|.35|.35
82374277|NCT04314648|164454478|SUPERIORITY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|2.32||0.43|TWO_SIDED||||||Regression, Linear||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a linear regression model, adjusted for baseline use.|||||.43
82374278|NCT04314648|164454479|SUPERIORITY||Mean Difference (Net)|2.35|STANDARD_ERROR_OF_MEAN|3.0||0.44|TWO_SIDED||||||Regression, Linear||Main effects of the intervention on this outcome were compared between arms by fitting follow-up values to a liner regression model, adjusted for baseline use.|||||.44
82374279|NCT04314648|164454480|SUPERIORITY||Odds Ratio (OR)|1.19||||0.77|TWO_SIDED|95.0|0.39|3.62|||Regression, Logistic|||||3.62|.39|.77
82374280|NCT00492024|164454497|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value is adjusted for study center; p-value applies to percentage of subjects with success (clinical cure)|Cochran-Mantel-Haenszel|Adjusted for study center||Null hypothesis is that the success rate for moxifloxacin = the success rate for placebo||||0.189
82374281|NCT00492024|164454502|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||p-value adjusted for study center; p-value applies to percentage of subjects with success (clinical cure)|Cochran-Mantel-Haenszel|adjusted for study center||Null hypothesis is that the success rate for moxifloxacin = the success rate for placebo||||0.075
82374282|NCT04040192|164454539|OTHER|||||||0.0034||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||||||0.0034
82374283|NCT04040192|164454541|OTHER|Analysis of covariance (ANCOVA) model included fixed effects of treatment group, age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Least square mean difference|34.59|STANDARD_ERROR_OF_MEAN|16.274||0.0346|TWO_SIDED|95.0|2.53|66.64|||ANCOVA|||||66.64|2.53|0.0346
82374284|NCT04040192|164454542|OTHER||Median Difference (Final Values)|-0.5||||0.0042|TWO_SIDED|95.0|-1.0|0.0||p-value was estimated by Wilcoxon rank sum test stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Wilcoxon (Mann-Whitney)||Median difference and 95%CI were estimated using Hodges-Lehmann method.|||0.00|-1.00|0.0042
82374285|NCT04040192|164454543|OTHER|||||||0.6815||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Baseline PP NRS \>=3 and \>=3 point reduction in PP NRS||||0.6815
82374286|NCT04040192|164454543|OTHER|||||||0.1518||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Baseline PP NRS \>=4 and \>=4 point reduction in PP NRS||||0.1518
82374287|NCT04040192|164454544|OTHER|||||||0.1933||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization|Log Rank|||||||0.1933
82374288|NCT04040192|164454545|OTHER|p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization||||||0.3778|||||||Log Rank|||Baseline ORIS Scale \>=3 and \>=3 point reduction||||0.3778
82374289|NCT04040192|164454545|OTHER|p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization||||||0.487|||||||Log Rank|||Baseline ORIS Scale \>=4 and \>=4 point reduction||||0.4870
82374290|NCT04040192|164454546|OTHER|||||||0.1159||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||||||0.1159
82374291|NCT04040192|164454547|OTHER|||||||0.6973||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||DLQI for participants \>=16 years of age||||0.6973
82374292|NCT04040192|164454547|OTHER|||||||0.7456||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Children's DLQI: participants 4-\<16 yrs of age||||0.7456
82374293|NCT04040192|164454548|OTHER|||||||0.0513||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||POEM||||0.0513
82374294|NCT04040192|164454548|OTHER|||||||0.0217||||||p-value was estimated by the log-rank test, stratified by age group, duration of the BID treatment in OL period, and ISGA score at randomization.|Log Rank|||Proxy POEM||||0.0217
82374295|NCT00469144|164454641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||100 Days, Between Arms: Participants in CR||||0.9
82374296|NCT00469144|164454641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||100 Days, Between Arms: Participants not in CR||||0.4
82374297|NCT00469144|164454641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1 Year, Between Arms: Participants in CR||||0.7
82374298|NCT00469144|164454641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1 Year, Between Arms: Participants not in CR||||0.05
82374299|NCT01994291|164454643|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.32|STANDARD_ERROR_OF_MEAN|1.52||0.1271|TWO_SIDED|80.0|-4.27|-0.37|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.37|-4.27|0.1271
82374300|NCT01994291|164454643|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.48|STANDARD_ERROR_OF_MEAN|1.36||0.0699|TWO_SIDED|80.0|-4.24|-0.73|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.73|-4.24|0.0699
82374301|NCT01994291|164454643|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was to be declared if the lower limit of the confidence interval for the mean difference at Week 12 is greater than -3.0 letters.|Difference in LS means|-2.41|STANDARD_ERROR_OF_MEAN|1.17||0.0399|TWO_SIDED|80.0|-3.91|-0.91|||Mixed Models Analysis|||The null hypothesis was that the difference, in the mean change from baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||-0.91|-3.91|0.0399
82374302|NCT01994291|164454644|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1416||||0.0218|TWO_SIDED|80.0|-0.2483|-0.0467|||Barnard test|||||-0.0467|-0.2483|0.0218
82374303|NCT01994291|164454644|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0442||||0.4209|TWO_SIDED|80.0|-0.1217|0.0261|||Barnard test.|||baseline in BCVA in the PF-04634817 group,and the control group is less than or equal to -3 letters.||0.0261|-0.1217|0.4209
82374304|NCT01994291|164454644|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0849||||0.0778|TWO_SIDED|80.0|-0.1516|-0.0168|||Barnard test.|||||-0.0168|-0.1516|0.0778
82374305|NCT01994291|164454645|SUPERIORITY_OR_OTHER||Difference in LS means|114.07|STANDARD_ERROR_OF_MEAN|19.84|<|0.0001|TWO_SIDED|80.0|88.56|139.59|||Mixed Models Analysis|||||139.59|88.56|<0.0001
82374306|NCT01994291|164454645|SUPERIORITY_OR_OTHER||Difference in LS means|65.81|STANDARD_ERROR_OF_MEAN|18.36||0.0004|TWO_SIDED|80.0|42.2|89.43|||Mixed Models Analysis|||||89.43|42.20|0.0004
82374307|NCT01994291|164454645|SUPERIORITY_OR_OTHER||Difference in LS means|87.32|STANDARD_ERROR_OF_MEAN|15.44|<|0.0001|TWO_SIDED|80.0|67.45|107.19|||Mixed Models Analysis|||||107.19|67.45|<0.0001
82374308|NCT01994291|164454646|SUPERIORITY_OR_OTHER||Difference in LS means|7.98|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|80.0|6.13|9.83|||ANCOVA|||||9.83|6.13|<0.0001
82374309|NCT01994291|164454646|SUPERIORITY_OR_OTHER||Difference in LS means|6.34|STANDARD_ERROR_OF_MEAN|1.28|<|0.0001|TWO_SIDED|80.0|4.7|7.98|||ANCOVA|||||7.98|4.70|<0.0001
82374310|NCT01994291|164454646|SUPERIORITY_OR_OTHER||Difference in LS means|7.07|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|80.0|5.66|8.48|||ANCOVA|||||8.48|5.66|<0.0001
82374311|NCT01994291|164454647|SUPERIORITY_OR_OTHER||Difference in LS means|0.34|STANDARD_ERROR_OF_MEAN|0.17||0.0423|TWO_SIDED|80.0|0.13|0.55|||ANCOVA|||||0.55|0.13|0.0423
82374312|NCT01994291|164454647|SUPERIORITY_OR_OTHER||Difference in LS means|0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|80.0|0.36|0.75|||ANCOVA|||||0.75|0.36|0.0004
82374313|NCT01994291|164454647|SUPERIORITY_OR_OTHER||Difference in LS means|0.46|STANDARD_ERROR_OF_MEAN|0.13||0.0004|TWO_SIDED|80.0|0.3|0.63|||ANCOVA|||||0.63|0.30|0.0004
82374314|NCT00856375|164454656|OTHER|Hazard Ratio and 95% CI from univariate Cox regression model|Hazard Ratio (HR)|0.645|||=|0.07|TWO_SIDED|95.0|0.4|1.041|||Log Rank|||||1.041|0.4|= 0.07
82374315|NCT00856375|164454657|OTHER|Hazard ratio and 95% CI from univariate Cox regression model.|Hazard Ratio (HR)|0.91|||=|0.706|TWO_SIDED|95.0|0.557|1.486|||Log Rank|||||1.486|0.557|= 0.706
82374316|NCT00856375|164454658|OTHER|ORR 95% CI based on Exact (Clopper-Pearson) confidence limits. Odds ratio 95% CI based on asymptotic confidence limits.|Odds Ratio (OR)|2.054|||=|0.676|TWO_SIDED|95.0|0.355|11.9|||Fisher Exact|||||11.9|0.355|= 0.676
82374317|NCT00856375|164454659|SUPERIORITY||||||=|0.018|||||||Log Rank|||||||= 0.018
82398425|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.263|TWO_SIDED|90.0|-8.61|20.67|||Barnard exact test|||Day 7||20.67|-8.61|0.2630
82398426|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.2539|TWO_SIDED|90.0|-7.51|20.67|||Barnard exact test|||Day 7||20.67|-7.51|0.2539
82398427|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.76||||0.2539|TWO_SIDED|90.0|-7.51|20.67|||Barnard exact test|||Day 7||20.67|-7.51|0.2539
82374318|NCT00118534|164454680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.007|TWO_SIDED|95.0|1.22|3.59|||Regression, Logistic|||The target sample size (n=1400)was designed to have 90% power to detect the difference between 6% and 11% prolonged abstinence rates in SCC and IC, respectively, using a 2-sided .05 level Chi-square test. Final enrollment was 943. The recruitment period was not extended because the achieved sample size provided 78% power to detect the hypothesized prolonged abstinence rates, and the study continued to the end of planned follow-up.||3.59|1.22|0.007
82374319|NCT00118534|164454681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.58|3.74|||Regression, Logistic|||||3.74|1.58|<0.001
82374320|NCT02640053|164454760|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82374321|NCT02640053|164454761|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82374322|NCT02640053|164454762|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82529978|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.09||||0.721|TWO_SIDED|95.0|-0.39|0.56||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||110 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.56|-0.39|0.721
82374323|NCT02640053|164454763|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82374324|NCT02640053|164454764|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82398428|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.0477|TWO_SIDED|90.0|0.23|32.92|||Barnard exact test|||Day 14||32.92|0.23|0.0477
82374325|NCT02640053|164454765|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82374326|NCT02640053|164454766|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
82374327|NCT02640053|164454767|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.67
82374328|NCT02348723|164454772|SUPERIORITY_OR_OTHER||Risk Difference (RD) %|-5.3||||0.0009|TWO_SIDED|95.0|-8.4|-2.2|||Chi-squared|||The risk difference between dabigatran etexilate vs. warfarin, its 2-sided 95% CI, and corresponding p-value are presented.||-2.2|-8.4|0.0009
82374329|NCT02151877|164454777|OTHER||||||>|0.05||||||This test applies to the first marker, cardiac troponin I.|t-test, 2 sided|||Null: mean cardiac troponin I changes in the NO group = mean cardiac troponin I changes in the control||||>0.05
82374330|NCT02151877|164454778|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Null: NO group fluid balances are the same as the control||||>0.05
82374331|NCT00073021|164454818|SUPERIORITY_OR_OTHER||Difference in Success Rates|12.543||||0.0357|TWO_SIDED|95.0|0.96|24.12|||Chi-squared|||It was assumed that true rate of improvement for 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with 2-sided test, type I error of 0.05 (alpha = 0.05), and power of 80%, 120 patients with moderately active ulcerative colitis were required per group to complete the study.||24.12|0.96|0.0357
82374332|NCT00073021|164454819|SUPERIORITY_OR_OTHER||Difference Between Means|-0.5||||0.1594|TWO_SIDED|95.0|-1.28|0.21|||ANOVA|||||0.21|-1.28|0.1594
82374333|NCT00073021|164454819|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|The 2-sample t-test will be used to examine the treatment effect.||||||<0.0001
82398429|NCT00938587|164506857|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.29||||0.0442|TWO_SIDED|90.0|0.65|32.92|||Barnard exact test|||Day 14||32.92|0.65|0.0442
82529979|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.1||||0.725|TWO_SIDED|95.0|-0.48|0.69||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.69|-0.48|0.725
82645304|NCT03985293|165005918|SUPERIORITY||Difference in LS Mean|-15.9||||0.0091|TWO_SIDED|90.0|-25.9|-5.9|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-5.90|-25.90|0.0091
82374334|NCT00073021|164454819|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|Teh 2-sample t-test will be used to examine the treatment effect.||||||<0.0001
82374335|NCT00073021|164454820|SUPERIORITY_OR_OTHER||Difference in Success Rates|3.75||||0.5774|TWO_SIDED|95.0|-9.43|16.93|||Chi-squared|||||16.93|-9.43|0.5774
82374336|NCT00073021|164454821|SUPERIORITY_OR_OTHER||Difference in Success Rates|6.19||||0.2991|TWO_SIDED|95.0|-5.47|17.86|||Chi-squared|||||17.86|-5.47|0.2991
82374337|NCT00073021|164454822|SUPERIORITY_OR_OTHER||Difference in Success Rates|2.74||||0.6543|TWO_SIDED|95.0|-9.25|14.73|||Chi-squared|||||14.73|-9.25|0.6543
82374338|NCT00073021|164454823|SUPERIORITY_OR_OTHER||Difference in Success Rates|1.05||||0.8542|TWO_SIDED|95.0|-10.19|12.29|||Chi-squared|||||12.29|-10.19|0.8542
82374339|NCT00073021|164454824|SUPERIORITY_OR_OTHER||Difference in Success Rates|-0.96||||0.8859|TWO_SIDED|95.0|-14.09|12.17|||Chi-squared|||||12.17|-14.09|0.8859
82374340|NCT00073021|164454825|SUPERIORITY_OR_OTHER||Difference in Success Rates|9.73||||0.0758|TWO_SIDED|95.0|-0.94|20.4|||Chi-squared|||||20.40|-0.94|0.0758
82374341|NCT00073021|164454826|SUPERIORITY_OR_OTHER|||||||0.8308||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8308
82374342|NCT00073021|164454826|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
82374343|NCT00073021|164454826|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline.|t-test, 2 sided|||||||<0.0001
82374344|NCT00073021|164454827|SUPERIORITY_OR_OTHER|||||||0.534||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5340
82374345|NCT00073021|164454827|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
82374346|NCT00073021|164454827|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Compared to baseline|t-test, 2 sided|||||||<0.0001
82374347|NCT00073021|164454828|SUPERIORITY_OR_OTHER||Difference in Success Rates|11.1||||0.0966|TWO_SIDED|95.0|-1.87|24.14|||Chi-squared|||||24.14|-1.87|0.0966
82374348|NCT00073021|164454829|SUPERIORITY_OR_OTHER||Difference in Success Rates|9.75||||0.1173|TWO_SIDED|95.0|-2.39|21.89|||Chi-squared|||||21.89|-2.39|0.1173
82374349|NCT01094886|164454843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.5||0.008|TWO_SIDED|95.0|-0.05|0.34|||t-test, 2 sided|||||0.34|-0.05|.008
82374350|NCT01094886|164454844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91|STANDARD_DEVIATION|-1.1||0.111|TWO_SIDED|95.0|-2.048|0.219|||t-test, 2 sided|||||0.219|-2.048|0.111
82374351|NCT01094886|164454845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|6.977||0.87|TWO_SIDED|95.0|-2.77|2.35|||t-test, 2 sided|||||2.35|-2.77|0.87
82374352|NCT01094886|164454846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.13|STANDARD_DEVIATION|36.316|<|0.001|TWO_SIDED|95.0|-48.01|-22.26|||t-test, 2 sided|||||-22.26|-48.01|<0.001
82374353|NCT01282723|164454847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0093|TWO_SIDED|95.0|1.1|1.95|||Mixed Models Analysis|||"Estimation of Odds Ratio of True Positive Fraction between SureCALL® and TOCO~Null hypothesis: There is no difference between the True Positive Fraction of SureCALL® and of TOCO or the SureCALL® is significantly greater than TOCO.~Alternative hypothesis: There is a difference between the True Positive Fraction of SureCALL® and of TOCO and the TOCO is significantly greater than SureCALL®."||1.95|1.10|0.0093
82529980|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.06||||0.839|TWO_SIDED|95.0|-0.52|0.64||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 10% - Placebo) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.64|-0.52|0.839
82374354|NCT01282723|164454847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.3204|TWO_SIDED|95.0|0.61|1.17|||Mixed Models Analysis|||"Estimation of Odds Ratio of False Positive Fraction between SureCALL® and TOCO~Null hypothesis: There is no difference between the False Positive Fraction of SureCALL® and of TOCO or the SureCALL® is significantly less than TOCO.~Alternative hypothesis: There is a difference between the False Positive Fraction of SureCALL® and of TOCO and the TOCO is significantly less than SureCALL®."||1.17|0.61|0.3204
82374355|NCT00324649|164454922|SUPERIORITY_OR_OTHER|||||||0.0014||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0014
82374356|NCT00324649|164454923|SUPERIORITY_OR_OTHER|||||||0.9713||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9713
82374357|NCT00324649|164454924|SUPERIORITY_OR_OTHER|||||||0.9725||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9725
82374358|NCT00324649|164454925|SUPERIORITY_OR_OTHER|||||||0.0078||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0078
82374359|NCT00324649|164454926|SUPERIORITY_OR_OTHER|||||||0.6984||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: percentages of days with compliance in the two treatment groups are equal. Alternative Hypothesis: percentages of days with compliance in the two treatment groups are different (two sided).||||0.6984
82374360|NCT00324649|164454927|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.3||||0.1165||95.0|-0.9|29.4||No adjustments for multiple comparisons were made.|Fisher Exact|No adjustments were made.|The difference is for Truvada minus zidovudine/lamivudine. The 95% confidence interval on the mean difference between treatment groups is based on the normal approximation.|"Null Hypothesis: treatment is not associated with the observed virologic response.~Alternative Hypothesis: treatment is associated with the observed virologic response."||29.4|-0.9|0.1165
82374361|NCT00324649|164454930|SUPERIORITY_OR_OTHER|||||||0.0789||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0789
82374362|NCT00324649|164454931|SUPERIORITY_OR_OTHER|||||||0.9633||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9633
82374363|NCT00324649|164454932|SUPERIORITY_OR_OTHER|||||||0.9686||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.9686
82374364|NCT00324649|164454933|SUPERIORITY_OR_OTHER|||||||0.6638||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.6638
82374365|NCT00324649|164454934|SUPERIORITY_OR_OTHER|||||||0.2907||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.2907
82374366|NCT00324649|164454935|SUPERIORITY_OR_OTHER|||||||0.0072||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0072
82374367|NCT00324649|164454936|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.0006
82374368|NCT00324649|164454937|SUPERIORITY_OR_OTHER|||||||0.1785||95.0||||No adjustments for multiple comparisons were made.|Wilcoxon Rank Sum test|No adjustments were made.||Null Hypothesis: changes from baseline in the two treatment groups are equal. Alternative Hypothesis: changes from baseline in the two treatment groups are different (two sided).||||0.1785
82398430|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.5403|TWO_SIDED|90.0|-0.34|0.75|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.75|-0.34|0.5403
82398431|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.8374|TWO_SIDED|90.0|-0.61|0.48|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.48|-0.61|0.8374
82645305|NCT03985293|165005918|SUPERIORITY||Difference in LS Mean|-25.53|||<|0.0001|TWO_SIDED|90.0|-35.18|-15.89|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-15.89|-35.18|<.0001
82374369|NCT01635218|164454957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.05|TWO_SIDED|95.0|3.1|7.0||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||7.0|3.1|<0.05
82374370|NCT01635218|164454957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|0.81|<|0.05|TWO_SIDED|95.0|1.31|5.25||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||5.25|1.31|<0.05
82374371|NCT01635218|164454958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|1.71||0.14|TWO_SIDED|95.0|-0.73|7.61||The statistical significant ANOVA result (p\<0.05) suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||7.61|-0.73|0.14
82374372|NCT01635218|164454958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|1.73||0.99|TWO_SIDED|95.0|-2.93|5.5||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||5.5|-2.93|0.99
82374373|NCT01635218|164454959|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.11|||<|0.05|TWO_SIDED|95.0|0.03|0.34|||Chi-squared|||||0.34|0.03|<0.05
82374374|NCT01635218|164454959|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.05|TWO_SIDED|95.0|0.06|0.56|||Chi-squared|||||0.56|0.06|<0.05
82374375|NCT01635218|164454960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|2.42||0.002|TWO_SIDED|95.0|2.72|14.52||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||14.52|2.72|0.002
82374376|NCT01635218|164454960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6|STANDARD_ERROR_OF_MEAN|2.37||0.424|TWO_SIDED|95.0|-2.33|9.6||The ANOVA result (p\<0.05)suggests rejecting the global null hypothesis.Bonferroni post-hoc test was used to determine which means differ among groups.|ANOVA|||||9.6|-2.33|0.424
82374377|NCT01635218|164454961|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||0.1||95.0|0.05|1.32|||Chi-squared|||||1.32|0.05|0.10
82374378|NCT01635218|164454961|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.11|TWO_SIDED|95.0|0.05|1.39|||Chi-squared|||||1.39|0.05|0.11
82374379|NCT03257865|164455025|SUPERIORITY||Treatment difference|-1.62|||=|0.1011|TWO_SIDED|95.0|-3.56|0.32|||mixed-effect model repeated measure||"Comparison between treatment groups was carried out using MMRM, with study center, treatment group, visit, and treatment group-by-visit interaction as factor and baseline-by-visit interaction as a covariate. An unstructured covariance was used."|||0.32|-3.56|=0.1011
82374380|NCT01292226|164455047|SUPERIORITY_OR_OTHER|||||||0.4505||||||Free MPA, time 0 \[trough\]|ANOVA|Analysis of variance (ANOVA)||||||0.4505
82374381|NCT01292226|164455047|SUPERIORITY_OR_OTHER|||||||0.7322||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.7322
82374382|NCT01292226|164455047|SUPERIORITY_OR_OTHER|||||||0.6798||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.6798
82374383|NCT01292226|164455047|SUPERIORITY_OR_OTHER|||||||0.541||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.5410
82374384|NCT01292226|164455048|SUPERIORITY_OR_OTHER|||||||0.3892||||||Free MPA, time 0 \[trough\]|ANOVA|||||||0.3892
82398432|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.329||0.4305|TWO_SIDED|90.0|-0.28|0.8|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.80|-0.28|0.4305
82645306|NCT03985293|165005918|SUPERIORITY||Difference in LS Mean|-30.01|||<|0.0001|TWO_SIDED|90.0|-39.8|-20.21|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.21|-39.80|<.0001
82374385|NCT01292226|164455048|SUPERIORITY_OR_OTHER|||||||0.6564||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.6564
82374386|NCT01292226|164455048|SUPERIORITY_OR_OTHER|||||||0.7772||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.7772
82374387|NCT01292226|164455048|SUPERIORITY_OR_OTHER|||||||0.0958||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.0958
82374388|NCT01292226|164455049|SUPERIORITY_OR_OTHER|||||||0.5796||||||Time 0 \[trough\]|ANOVA|||||||0.5796
82374389|NCT01292226|164455049|SUPERIORITY_OR_OTHER|||||||0.3428||||||Time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3428
82374390|NCT01292226|164455050|SUPERIORITY_OR_OTHER|||||||0.9372||||||Free MPA, time 0 \[trough\]|ANOVA|||||||0.9372
82374391|NCT01292226|164455050|SUPERIORITY_OR_OTHER|||||||0.9904||||||Total MPA, time 0 \[trough\]|ANOVA|||||||0.9904
82374392|NCT01292226|164455050|SUPERIORITY_OR_OTHER|||||||0.3658||||||Free MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3658
82374393|NCT01292226|164455050|SUPERIORITY_OR_OTHER|||||||0.2987||||||Total MPA, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.2987
82374394|NCT01292226|164455051|SUPERIORITY_OR_OTHER|||||||0.7455||||||time 0 \[trough\]|ANOVA|||||||0.7455
82374395|NCT01292226|164455051|SUPERIORITY_OR_OTHER|||||||0.8504||||||Time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.8504
82374396|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.6847||||||IMPDH I, time 0 \[trough\]|ANOVA|||||||0.6847
82374397|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.3184||||||IMPDH I, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.3184
82374398|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.3862||||||IMPDH II, time 0 \[trough\]|ANOVA|||||||0.3862
82374399|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.904||||||IMPDH II, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.9040
82374400|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.0907||||||IMPDH activity, time 0 \[trough\]|ANOVA|||||||0.0907
82374401|NCT01292226|164455052|SUPERIORITY_OR_OTHER|||||||0.963||||||IMPDH activity, time 120 \[2 hours after administration at Week 12\]|ANOVA|||||||0.9630
82374402|NCT01292226|164455053|SUPERIORITY_OR_OTHER|||||||0.413||||||IMPDH I|ANOVA|||||||0.4130
82374403|NCT01292226|164455053|SUPERIORITY_OR_OTHER|||||||0.3823||||||IMPDH II|ANOVA|||||||0.3823
82374404|NCT01292226|164455054|SUPERIORITY_OR_OTHER|||||||0.0316||||||IMPDH I|ANOVA|||||||0.0316
82374405|NCT01292226|164455054|SUPERIORITY_OR_OTHER|||||||0.944||||||IMPDH II|ANOVA|||||||0.9440
82374406|NCT01292226|164455055|SUPERIORITY_OR_OTHER|||||||0.1328||||||IMPDH I|ANOVA|||||||0.1328
82398433|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.325||0.9733|TWO_SIDED|90.0|-0.55|0.53|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.53|-0.55|0.9733
82398434|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.325||0.8613|TWO_SIDED|90.0|-0.48|0.6|||MMRM|||Day 7: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.60|-0.48|0.8613
82398435|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.341||0.5245|TWO_SIDED|90.0|-0.35|0.78|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.78|-0.35|0.5245
82398436|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.334||0.8917|TWO_SIDED|90.0|-0.6|0.51|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.51|-0.60|0.8917
82398437|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.339||0.1695|TWO_SIDED|90.0|-0.09|1.03|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||1.03|-0.09|0.1695
82398438|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.329||0.5339|TWO_SIDED|90.0|-0.34|0.75|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.75|-0.34|0.5339
82398439|NCT00938587|164506860|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|0.332||0.452|TWO_SIDED|90.0|-0.3|0.8|||MMRM|||Day 14: Treatment difference and its corresponding 90% CI was based on LS mean difference using MMRM where treatment, time, treatment-by-time interaction were fixed effects, participant as random effect, baseline as the covariate and CS as covariance structure.||0.80|-0.30|0.4520
82398440|NCT04006509|164506937|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||||||0.985
82398441|NCT04006509|164506938|SUPERIORITY|||||||0.539|||||||Marginal Two-Part Model|||||||0.539
82445281|NCT04473664|164599031|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|51.5|||||TWO_SIDED|90.0|16.0|165.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUClast statistical comparison was analyzed for Quizartinib.||165|16.0|
82445282|NCT04473664|164599031|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|51.5|||||TWO_SIDED|90.0|15.8|168.0|||||For the comparison, the Moderate Hepatic Impairment treatment group represents the numerator and Normal Hepatic Function treatment group represents the denominator.|AUCinf statistical comparison was analyzed for Quizartinib.||168|15.8|
82374407|NCT01292226|164455055|SUPERIORITY_OR_OTHER|||||||0.576||||||IMPDH II|ANOVA|||||||0.5760
82398442|NCT04006509|164506939|SUPERIORITY|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||||||0.959
82398443|NCT04006509|164506940|SUPERIORITY|||||||0.743|||||||Marginal Two-Part Model|||||||0.743
82374408|NCT01292226|164455056|SUPERIORITY_OR_OTHER|||||||0.7332||||||Free MPA|ANOVA|||||||0.7332
82374409|NCT01292226|164455056|SUPERIORITY_OR_OTHER|||||||0.2681||||||Total MPA|ANOVA|||||||0.2681
82398444|NCT04006509|164506941|SUPERIORITY|||||||0.886|||||||Marginalized Two-Part Model|||||||0.886
82398445|NCT04006509|164506942|SUPERIORITY|||||||0.107|||||||Marginalized Two-Part Model|||||||0.107
82398446|NCT04006509|164506943|SUPERIORITY|||||||0.687|||||||Marginalized Two-Part Model|||||||0.687
82398447|NCT04006509|164506944|SUPERIORITY|||||||0.871|||||||Marginalized Two-Part Model|||||||0.871
82398448|NCT04006509|164506945|SUPERIORITY|||||||0.376|||||||Marginalized Two-Part Model|||||||0.376
82398449|NCT04006509|164506946|SUPERIORITY|||||||0.77|||||||Marginalized Two-Part Model|||||||0.770
82398450|NCT04006509|164506947|SUPERIORITY|||||||0.237|||||||Marginalized Two-Part Model|||||||0.237
82398451|NCT00795769|164506964|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 1 sided|||18% n=9 of the patients vomited compared to the FHCRC historic rate of 28%. p=0.03. PMID: 21372706 reference for historical data at FHCRC.||||0.03
82374410|NCT01292226|164455056|SUPERIORITY_OR_OTHER|||||||0.7087||||||AUC MPA|ANOVA|||||||0.7087
82374411|NCT01292226|164455057|SUPERIORITY_OR_OTHER|||||||0.9432||||||Free MPA|ANOVA|||||||0.9432
82374412|NCT01292226|164455057|SUPERIORITY_OR_OTHER|||||||0.5177||||||Total MPA|ANOVA|||||||0.5177
82374413|NCT01292226|164455057|SUPERIORITY_OR_OTHER|||||||0.6398||||||AUC MPA|ANOVA|||||||0.6398
82374414|NCT01292226|164455058|SUPERIORITY_OR_OTHER|||||||0.0656||||||Free MPA|ANOVA|||||||0.0656
82374415|NCT01292226|164455058|SUPERIORITY_OR_OTHER|||||||0.0131||||||Total MPA|ANOVA|||||||0.0131
82374416|NCT01292226|164455058|SUPERIORITY_OR_OTHER|||||||0.0515||||||AUC MPA|ANOVA|||||||0.0515
82374417|NCT04181723|164455060|SUPERIORITY||LSM difference|-3.1|STANDARD_ERROR_OF_MEAN|1.3||0.0175|TWO_SIDED|95.0|-5.7|-0.6|||Mixed-effects model for repeated measure|||||-0.6|-5.7|0.0175
82374418|NCT04181723|164455061|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.003|TWO_SIDED|95.0|-0.5|-0.1|||Mixed-effects model for repeated measure|||||-0.1|-0.5|0.0030
82374419|NCT04181723|164455062|SUPERIORITY||LSM difference|1.0|STANDARD_ERROR_OF_MEAN|0.37||0.0064|TWO_SIDED|95.0|0.3|1.7|||Mixed-effects model for repeated measure|||||1.7|0.3|0.0064
82374420|NCT04181723|164455063|SUPERIORITY||LSM difference|-4.5|STANDARD_ERROR_OF_MEAN|4.67||0.3376|TWO_SIDED|95.0|-13.8|4.8|||ANCOVA|||||4.8|-13.8|0.3376
82374421|NCT04181723|164455064|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3649|TWO_SIDED|95.0|-0.3|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.3|0.3649
82374422|NCT04181723|164455065|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2114|TWO_SIDED|95.0|-0.3|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.3|0.2114
82374423|NCT04181723|164455066|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.0257|TWO_SIDED|95.0|-0.6|0.0|||Mixed-effects model for repeated measure|||||0.0|-0.6|0.0257
82374424|NCT04181723|164455067|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.9799|TWO_SIDED|95.0|-0.2|0.2|||Mixed-effects model for repeated measure|||||0.2|-0.2|0.9799
82374425|NCT04181723|164455068|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5304|TWO_SIDED|95.0|-0.1|0.1|||Mixed-effects model for repeated measure|||||0.1|-0.1|0.5304
82374426|NCT04181723|164455069|SUPERIORITY||LSM difference|-0.8|STANDARD_ERROR_OF_MEAN|1.4||0.5855|TWO_SIDED|95.0|-3.5|2.0|||ANCOVA|||||2.0|-3.5|0.5855
82374427|NCT04181723|164455070|SUPERIORITY||LSM difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.2507|TWO_SIDED|95.0|-0.1|0.4|||Mixed-effects model for repeated measure|||||0.4|-0.1|0.2507
82374428|NCT04693416|164455110|OTHER|||||||0.252|||||||t-test, 2 sided|||Pre/post scores within arm||||0.252
82374429|NCT04693416|164455111|OTHER|||||||0.546|||||||t-test, 2 sided|||Pre/post score within arm||||0.546
82374430|NCT04693416|164455112|OTHER|||||||0.005|||||||t-test, 2 sided|||Pre/post scores within arm||||0.005
82445283|NCT01177969|164599071|SUPERIORITY_OR_OTHER|||||||0.04||||||This analysis applies to the post-treatment assessment (16 weeks after baseline)|ANCOVA|||||||.04
82374431|NCT04693416|164455113|OTHER|||||||0.188|||||||t-test, 2 sided|||Pre/post scores within arm||||0.188
82374432|NCT04693416|164455114|OTHER|||||||0.049|||||||t-test, 2 sided|||Pre/post score within arm||||0.049
82374433|NCT04693416|164455115|OTHER|||||||0.036|||||||t-test, 2 sided|||Pre/post scores within arm||||0.036
82374434|NCT00474266|164455117|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|2.2|||||TWO_SIDED|95.0|0.29|6.78||||||||6.78|0.29|
82374435|NCT00474266|164455117|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%|Difference in percentage|0.28|||||TWO_SIDED|95.0|-0.78|1.58||||||||1.58|-0.78|
82374436|NCT00474266|164455117|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.28|||||TWO_SIDED|95.0|-0.79|1.58||||||||1.58|-0.79|
82374437|NCT00474266|164455117|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|1.07||||||||1.07|-1.06|
82374438|NCT00474266|164455118|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|3.17||||||||3.17|-1.06|
82374439|NCT00474266|164455119|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|4.06|||||TWO_SIDED|95.0|-2.82|12.46||||||||12.46|-2.82|
82445284|NCT01177969|164599072|SUPERIORITY_OR_OTHER|||||||0.25||||||This analysis applies to the post-treatment assessment (16 weeks after baseline)|ANCOVA|||||||.25
82645307|NCT03985293|165005918|SUPERIORITY||Difference in LS Mean|-27.48|||<|0.0001|TWO_SIDED|90.0|-37.63|-17.33|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-17.33|-37.63|<.0001
82374440|NCT00474266|164455120|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥ -10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.06|3.18||||||||3.18|-1.06|
82374441|NCT00474266|164455121|NON_INFERIORITY|Non-inferiority criterion: Lower limit \[LL\] of the 2-sided standardized asymptotic 95% confidence interval \[CI\] ≥-10%.|Difference in percentage|3.36|||||TWO_SIDED|95.0|-0.28|9.5||||||||9.5|-0.28|
82374442|NCT01695863|164455161|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.0001|TWO_SIDED|95.0|0.269|0.816|||t-test, 2 sided|||Right Colon||0.816|0.269|<0.0001
82374443|NCT01695863|164455161|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.005|TWO_SIDED|95.0|0.122|0.655|||t-test, 2 sided|||Transverse Colon||0.655|0.122|0.005
82374444|NCT01695863|164455161|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.08|TWO_SIDED|95.0|-0.029|0.484|||t-test, 2 sided|||Left Colon||0.484|-0.029|0.08
82374445|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.093|TWO_SIDED||||||t-test, 2 sided|||Calcium||||0.093
82374446|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|2.03||||0.801|TWO_SIDED||||||t-test, 2 sided|||Glucose||||0.801
82374447|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.599|TWO_SIDED||||||t-test, 2 sided|||Blood Urea Nitrogen||||0.599
82374448|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.696|TWO_SIDED||||||t-test, 2 sided|||Creatinine||||0.696
82374449|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.042|TWO_SIDED||||||t-test, 2 sided|||Sodium||||.042
82374450|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.596|TWO_SIDED||||||t-test, 2 sided|||Potassium||||0.596
82374451|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.107|TWO_SIDED||||||t-test, 2 sided|||Chloride||||0.107
82374452|NCT01695863|164455162|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.351|TWO_SIDED||||||t-test, 2 sided|||Bicarbonate||||0.351
82374453|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|-0.0438||||0.772|TWO_SIDED||||||t-test, 2 sided|||Nausea||||0.772
82374454|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|-0.2821||||0.028|TWO_SIDED||||||t-test, 2 sided|||Vomiting||||0.028
82374455|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|-0.2102||||0.235|TWO_SIDED||||||t-test, 2 sided|||Bloating||||0.235
82374456|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|-0.0547||||0.707|TWO_SIDED||||||t-test, 2 sided|||Abdominal pain or cramping||||0.707
82529981|NCT00474175|164756365|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.855|TWO_SIDED|95.0|-0.43|0.52||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|ANOVA|||120 minutes: P-value was calculated using ANOVA which was adjusted for treatment, site and baseline DPS. Treatment difference (Benzocaine 20% - Benzocaine 10%) and corresponding 95% C.I. were calculated based on least-squares means from the ANOVA model with treatment, site, and baseline DPS effects.||0.52|-0.43|0.855
82529982|NCT00474175|164756366|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.035|TWO_SIDED|95.0|0.01|0.33||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 20% versus Placebo) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.33|0.01|0.035
82374457|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|-0.0269||||0.773|TWO_SIDED||||||t-test, 2 sided|||Ability to complete entire prep||||0.773
82374458|NCT01695863|164455163|SUPERIORITY||Mean Difference (Final Values)|0.0498||||0.766|TWO_SIDED||||||t-test, 2 sided|||Difficulty/Inconvenience in completing prep||||0.766
82645308|NCT03985293|165005918|SUPERIORITY||Difference in LS Mean|-31.77|||<|0.0001|TWO_SIDED|90.0|-41.77|-21.78|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-21.78|-41.77|<.0001
82398452|NCT00795769|164506964|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|||Twelve patients (24%) had a greater than two-point increase in MAT score for nausea from baseline by the end of their infusion. That rate compares to the FHCRC historic rate of 58% (p \<0.0001). PMID: 21372706 reference for historical data at FHCRC||||<0.0001
82398453|NCT03230838|164506965|OTHER|The Miettinen \& Nurminen method was used.|Percentage Difference|-1.6|||||TWO_SIDED|95.0|-19.7|17.9|||||Ceftolozane/Tazobactam (C/T) minus Meropenem (Mero)|Difference in Percentage (C/T minus Mero)||17.9|-19.7|
82398454|NCT03230838|164506966|OTHER|The Miettinen \& Nurminen method was used.|Percentage Difference|1.0|||||TWO_SIDED|95.0|-9.5|5.5|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||5.5|-9.5|
82398455|NCT03230838|164506967|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-7.3|||||TWO_SIDED|95.0|-17.99|10.05|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||10.05|-17.99|
82398456|NCT03230838|164506968|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-5.6|||||TWO_SIDED|95.0|-14.09|8.88|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||8.88|-14.09|
82398457|NCT03230838|164506969|OTHER|The Miettinen \& Nurminen method stratified by age group with Cochran- Mantel-Haenszel (CMH) weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-3.0|||||TWO_SIDED|95.0|-17.13|17.4|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||17.40|-17.13|
82398458|NCT03230838|164506970|OTHER|The Miettinen \& Nurminen method stratified by age group with CMH weights was used. If there was a zero count in any class of the stratum, the groups with the lower count were pooled with its near age group stratum in the model.|Percentage Difference|-3.4|||||TWO_SIDED|95.0|-12.67|13.41|||||C/T minus Mero|Difference in Percentage (C/T minus Mero)||13.41|-12.67|
82398459|NCT03304184|164506971|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in global base changes scores between the two treatment groups (Photac and Biodentine)|Mean Difference (Final Values)|3.0||||0.0001|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0001
82398460|NCT03304184|164506971|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in global base changes scores between the two treatment groups (Photac and Biodentine) over timepoints|Mean Difference (Final Values)|3.0||||0.0005|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0005
82398461|NCT03304184|164506972|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in 49 questions on oral health related quality of life scores between the two treatment groups (Photac and Biodentine).|Mean Difference (Final Values)|3.0||||0.091|TWO_SIDED|95.0||||Comparison between two groups for treatment|ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0910
82398462|NCT03304184|164506972|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in 49 questions on oral health related quality of life scores between the two treatment groups (Photac and Biodentine) over time points|Mean Difference (Final Values)|3.0||||0.0262|TWO_SIDED|95.0||||Comparison between the two arms for treatment time points with analysis|ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0262
82645309|NCT03985293|165005919|SUPERIORITY||Difference in LS Mean|-3.63||||0.5449|TWO_SIDED|90.0|-13.51|6.25|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||6.25|-13.51|0.5449
82374459|NCT01687244|164455187|SUPERIORITY_OR_OTHER||HGRF survival at 12 months|33.3|||||TWO_SIDED|90.0|16.8|53.6||Not applicable: the primary analysis was a calculation of a confidence interval||||The primary efficacy endpoint was the incidence of high-grade recurrence-free survival at 12 months. The proportion of patients achieving high-grade recurrence-free survival at 12 months was reported for each dose group, together with an exact 90% confidence interval for the proportion||53.6|16.8|
82374460|NCT01687244|164455187|SUPERIORITY_OR_OTHER||HGRF survival at 12 months|36.8|||||TWO_SIDED|90.0|18.8|58.2|||||The proportion of subjects achieving high-grade recurrence-free survival at 12 months|The primary efficacy endpoint was the incidence of high-grade recurrence-free survival at 12 months. The proportion of patients achieving high-grade recurrence-free survival at 12 months was reported for each dose group, together with an exact 90% confidence interval for the proportion.||58.2|18.8|
82576104|NCT02567708|164861955|OTHER||Posterior median difference|-0.021|STANDARD_DEVIATION|0.0609||0.35|TWO_SIDED|95.0|-0.14|0.099||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.099|-0.140|0.35
82374461|NCT01330420|164455200|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.001
82374462|NCT01330420|164455201|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.001
82374463|NCT01330420|164455202|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.01
82374464|NCT01330420|164455204|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon signed-ranked test|||Due to the small sample size, the Wilcoxon signed-ranked test, a non-parametric statistical test, was used to detect outcome measure changes from pre-intervention to post-intervention||||<.01
82374465|NCT02373189|164455228|SUPERIORITY|||||||0.05||||||The P-value indicated above is calculated.|paired t-test|means at pre and post treatment were compared within subject.||||||0.05
82374466|NCT02373189|164455229|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82398463|NCT03304184|164506973|EQUIVALENCE|In this analysis, the null hypothesis was that there was no significant difference in brief pain inventory scores between the two treatment groups (Photac and Biodentine) over different time points.|Mean Difference (Final Values)|3.0||||0.0289|TWO_SIDED|95.0|||||ANOVA||The estimation values were from an average of all values in each arm.|Power was limited sample size between the groups a superiority analysis was not able to be completed, so an equivalence test was used.||||.0289
82398464|NCT01578499|164506993|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|42.2|||<|0.001|TWO_SIDED|95.0|27.5|56.8||P-value was stratified by baseline disease diagnosis (pcALCL and MF).|Cochran-Mantel-Haenszel|||Based on a two-sided Χ² test with a significance level of 0.05, and a 10% dropout rate, a sample size of approximately 124 participants was calculated to provide 90% power to detect a 30% improvement in ORR4 in the brentuximab vedotin group.||56.8|27.5|<0.001
82398465|NCT01578499|164506994|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|15.6||||0.0002|TWO_SIDED|95.0|-2.5|33.0||P-value was stratified by baseline disease diagnosis (pcALCL and MF).|Cochran-Mantel-Haenszel|||||33.0|-2.5|0.0002
82398466|NCT01578499|164506995|OTHER||Hazard Ratio (HR)|0.378|||<|0.001|TWO_SIDED|95.0|0.247|0.577|||Log Rank||||Hazard ratio brentuximab vedotin/ comparator (methotrexate or bexarotene) with the 95% CI from a stratified Cox regression model with treatment as the explanatory variable and baseline disease diagnosis (MF or pcALCL) as stratification factor.|0.577|0.247|<0.001
82398467|NCT01578499|164506996|SUPERIORITY_OR_OTHER_LEGACY||Estimate of difference|-19.0|||<|0.001|TWO_SIDED|95.0|-26.7|-11.4|||ANCOVA|||P-value is calculated using the analysis of covariance (ANCOVA) model controlling for baseline symptom domain score, eastern cooperative oncology group (ECOG) performance status score (=0 and ≥1), and disease diagnosis (pcALCL and MF) between the brentuximab vedotin and comparator (methotrexate or bexarotene) arms.||-11.4|-26.7|<0.001
82398468|NCT02033200|164507008|SUPERIORITY_OR_OTHER||LS mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.335||0.8216|TWO_SIDED|95.0|-0.592|0.744|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.744|-0.592|0.8216
82398469|NCT02033200|164507008|SUPERIORITY_OR_OTHER||LS means difference|0.257|STANDARD_ERROR_OF_MEAN|0.258||0.324|TWO_SIDED|95.0|-0.258|0.771|||ANCOVA|||The sample size had adequate power to detect a meaningful difference between treatment groups in the left eye.||0.771|-0.258|0.324
82398470|NCT02033200|164507009|SUPERIORITY_OR_OTHER||LS means difference|0.004|STANDARD_ERROR_OF_MEAN|0.014||0.7864|TWO_SIDED|95.0|-0.024|0.031|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the right eye.||0.031|-0.024|0.7864
82398471|NCT02033200|164507009|SUPERIORITY_OR_OTHER||LS Means difference|-0.022|STANDARD_ERROR_OF_MEAN|0.017||0.1953|TWO_SIDED|95.0|-0.056|0.012|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the left eye.||0.012|-0.056|0.1953
82398472|NCT02033200|164507010|SUPERIORITY_OR_OTHER||LS means difference|-0.16|STANDARD_ERROR_OF_MEAN|0.061||0.0101|TWO_SIDED|95.0|-0.28|-0.039|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the right eye.||-0.039|-0.280|0.0101
82398473|NCT02033200|164507010|SUPERIORITY_OR_OTHER||LS means difference|-0.087|STANDARD_ERROR_OF_MEAN|0.061||0.1583|TWO_SIDED|95.0|-0.209|0.035|||ANCOVA|||The sample size provided enough power to detect any meaningful difference between the two treatment groups in the left eye.||0.035|-0.209|0.1583
82398474|NCT02033200|164507011|SUPERIORITY_OR_OTHER||LS means difference|-0.031|STANDARD_ERROR_OF_MEAN|0.359||0.9324|TWO_SIDED|95.0|-0.746|0.685|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in Intraocular Pressure between the two treatment groups in the right eye.||0.685|-0.746|0.9324
82398475|NCT02033200|164507011|SUPERIORITY_OR_OTHER||LS means difference|0.751|STANDARD_ERROR_OF_MEAN|0.348||0.0343|TWO_SIDED|95.0|0.057|1.44|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in intraocular pressure between the two treatment groups in the left eye.||1.44|0.057|0.0343
82398476|NCT02033200|164507012|SUPERIORITY_OR_OTHER||LS Means difference|0.017|STANDARD_ERROR_OF_MEAN|0.017||0.3139|TWO_SIDED|95.0|-0.017|0.051|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.051|-0.017|0.3139
82398477|NCT02033200|164507012|SUPERIORITY_OR_OTHER||LS means difference|-0.002|STANDARD_ERROR_OF_MEAN|0.022||0.9334|TWO_SIDED|95.0|-0.045|0.042|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.042|-0.045|0.9334
82398478|NCT02033200|164507013|SUPERIORITY_OR_OTHER||LS means difference|0.016|STANDARD_ERROR_OF_MEAN|0.055||0.7723|TWO_SIDED|95.0|-0.093|0.125|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.125|-0.093|0.7723
82374467|NCT03095638|164455235|OTHER||Ratio|1.0084|||||TWO_SIDED|90.0|0.8626|1.1789||||||||1.1789|0.8626|
82374468|NCT03095638|164455236|OTHER||Ratio|1.0121|||||TWO_SIDED|90.0|0.8648|1.1845||||||||1.1845|0.8648|
82374469|NCT03095638|164455237|OTHER||Ration|1.0329|||||TWO_SIDED|90.0|0.8623|1.2373||||||||1.2373|0.8623|
82374470|NCT03095638|164455238|OTHER||Ratio|1.6242|||||TWO_SIDED|90.0|1.4986|1.7604||||||||1.7604|1.4986|
82374471|NCT03095638|164455238|OTHER||Ratio|1.5448|||||TWO_SIDED|90.0|1.4253|1.6743||||||||1.6743|1.4253|
82374472|NCT03095638|164455239|OTHER||Ratio|1.6292|||||TWO_SIDED|90.0|1.503|1.7661||||||||1.7661|1.5030|
82374473|NCT03095638|164455239|OTHER||Ratio|1.5519|||||TWO_SIDED|90.0|1.4317|1.6822||||||||1.6822|1.4317|
82374474|NCT03095638|164455240|OTHER||Ratio|1.7933|||||TWO_SIDED|90.0|1.6226|1.9819||||||||1.9819|1.6226|
82374475|NCT03095638|164455240|OTHER||Ratio|1.7974|||||TWO_SIDED|90.0|1.6263|1.9865||||||||1.9865|1.6263|
82374476|NCT06281171|164455291|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82374477|NCT06281171|164455292|SUPERIORITY|||||||0.996|||||||t-test, 2 sided|||||||.996
82374478|NCT06281171|164455293|SUPERIORITY|||||||0.782|||||||t-test, 2 sided|||||||.782
82374479|NCT06281171|164455294|SUPERIORITY|||||||0.54|||||||Regression, Linear|||||||0.54
82374480|NCT06281171|164455295|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
82374481|NCT06281171|164455296|SUPERIORITY|||||||0.3|||||||Regression, Linear|||||||0.30
82374482|NCT06281171|164455297|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
82374483|NCT01158573|164455298|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Hypothesis that leptin levels in OA is not different from the other 3 groups.|ANOVA|||||||<0.0001
82374484|NCT01158573|164455299|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||||||0.002
82374485|NCT01158573|164455300|SUPERIORITY_OR_OTHER|||||||0.725|||||||ANOVA|||||||0.725
82374486|NCT01158573|164455301|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANOVA|||||||0.16
82374487|NCT02288182|164455309|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Student's t-test comparing the group means was planned and performed (successfully). However, due to some outliers, the central tendencies have been reported as medians (instead of arithmetic means). Therefore an additional non-parameteric test (Mann-Whitney U-test) was performed.||||0.001
82374488|NCT02823652|164455313|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
82374489|NCT02823652|164455314|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82374490|NCT02823652|164455315|SUPERIORITY|||||||0.312|||||||t-test, 2 sided|||||||0.312
82374491|NCT02823652|164455316|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82374492|NCT00319982|164455331|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value. p\<0.05 considered statistically significant.|Generalized estimating equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||Change in E' Velocity comparing baseline and final study visits||||0.75
82374493|NCT00319982|164455332|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Fisher Exact|||Adverse Events||||0.99
82374494|NCT00319982|164455333|SUPERIORITY_OR_OTHER||||||>|0.06|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value. p\<0.05 considered statistically significant.|Generalized Estimating Equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||||||>0.06
82374495|NCT00319982|164455334|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value|Generalized Estimating Equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||Change in LV End-Diastolic Diameter z-score from baseline to final visit||||<0.001
82374496|NCT00319982|164455336|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Percentage adherent to study medication||||0.08
82374497|NCT00319982|164455337|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|||||Adjusted for age, sex, genotype, family relations, and baseline value|Generalized estimating equation|Generalized estimating equation approach accounting for an exchangeable correlation structure within families||||||0.15
82374498|NCT03480386|164455349|SUPERIORITY|||||||0.0788|||||||t-test, 2 sided|||Daily Light Physical Activity||||0.0788
82374499|NCT03480386|164455349|SUPERIORITY|||||||0.0742|||||||t-test, 2 sided|||Daily Moderate Physical Activity||||0.0742
82374500|NCT03480386|164455350|SUPERIORITY|||||||0.0113|||||||t-test, 2 sided|||||||0.0113
82374501|NCT03480386|164455351|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
82374502|NCT03480386|164455352|SUPERIORITY|||||||0.2216|||||||t-test, 2 sided|||||||0.2216
82374503|NCT03480386|164455353|SUPERIORITY|||||||0.4762|||||||t-test, 2 sided|||||||0.4762
82374504|NCT03480386|164455354|SUPERIORITY|||||||0.0068|||||||t-test, 2 sided|||||||0.0068
82374505|NCT03480386|164455355|SUPERIORITY|||||||0.1548|||||||t-test, 2 sided|||||||0.1548
82374506|NCT00574912|164455357|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82374507|NCT00469911|164455359|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82374508|NCT02629354|164455384|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|113.77|||||TWO_SIDED|90.0|98.99|130.75|||ANOVA||Analysis of variance (ANOVA) with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% confidence interval (CI) was provided.||130.75|98.99|
82374509|NCT02629354|164455385|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|110.16|||||TWO_SIDED|90.0|96.32|125.97|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||125.97|96.32|
82374510|NCT02629354|164455386|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|112.69|||||TWO_SIDED|90.0|98.49|128.94|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||128.94|98.49|
82374511|NCT02629354|164455387|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.36|||||TWO_SIDED|90.0|94.61|100.19|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.19|94.61|
82529983|NCT00474175|164756366|SUPERIORITY_OR_OTHER||Treatment difference|0.16||||0.039|TWO_SIDED|95.0|0.0|0.33||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 10% versus Placebo) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.33|-0.00|0.039
82529984|NCT00474175|164756366|SUPERIORITY_OR_OTHER||Treatment difference|-0.01||||0.944|TWO_SIDED|95.0|-0.15|0.13||The a priori threshold p-value was specified as 0.05, and no adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|||P-value was calculated from the CMH test with modified ridit scores, adjusted for site baseline pain intensity. Treatment difference (Benzocaine 20% versus Benzocaine 10%) and the associated confidence interval were calculated based on the weighted Gamma statistic.||0.13|-0.15|0.944
82645310|NCT03985293|165005919|SUPERIORITY||Difference in LS Mean|-17.12||||0.0031|TWO_SIDED|90.0|-26.62|-7.63|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-7.63|-26.62|0.0031
82374512|NCT02629354|164455388|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|96.47|||||TWO_SIDED|90.0|93.74|99.28|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||99.28|93.74|
82374513|NCT02629354|164455389|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.55|||||TWO_SIDED|90.0|92.57|102.8|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||102.80|92.57|
82374514|NCT02629354|164455390|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.57|||||TWO_SIDED|90.0|94.5|100.73|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.73|94.50|
82374515|NCT02629354|164455391|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|97.21|||||TWO_SIDED|90.0|92.22|102.46|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||102.46|92.22|
82374516|NCT02629354|164455392|SUPERIORITY_OR_OTHER||Percent Ratio Test/Ref|96.83|||||TWO_SIDED|90.0|93.75|100.01|||ANOVA||ANOVA with fixed effects for sequence, subject nested within sequence, period and product after logarithmic transformation of the data.|Relative bioavailability \[%\] was estimated by the ratios of the geometric means (100\*test/reference \[T/R\]). Additionally, it's two-sided 90% CI was provided.||100.01|93.75|
82374517|NCT00371397|164455400|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.75||||0.009||95.0|||||Regression, Logistic|||hsCRP dichotomized as undetectable/detectable. Logistic regression w/generalized estimating equations(GEE)s to determine odds ratio. Assessed hsCRP at baseline at each of the three visits; 43% of the values (n = 65) were below the assay's detectable lower bound of .3 mg/dL, and thus hsCRP was dichotomized as undetectable/detectable.||||.009
82374518|NCT03395405|164455445|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.459|TWO_SIDED|95.0|0.33|1.64||No adjustment for multiple comparisons was made. The a priori threshold for statistical significant is 0.05.|Likelihood Ratio Test|The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.|HR estimated from a Cox model|The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.||1.64|0.33|0.459
82374519|NCT03395405|164455447|SUPERIORITY|||||||0.735||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significant is 0.05.|ANCOVA|Titer values were log-transformed||Includes participants in the Norovirus GII subgroup. The null hypothesis is that there is no difference in time until clinical resolution between study arms, with a two-sided alternative.||||0.735
82645311|NCT03985293|165005919|SUPERIORITY||Difference in LS Mean|-20.64||||0.0005|TWO_SIDED|90.0|-30.31|-10.96|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-10.96|-30.31|0.0005
82374520|NCT03395405|164455451|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.873|TWO_SIDED|95.0|0.19|4.06||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Likelihood Ratio Test|||Includes participants in the Norovirus GII subgroup. The null hypothesis is that there is no difference in time until first negative viral load between study arms, with a two-sided alternative.||4.06|0.19|0.873
82374521|NCT04308226|164455452|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82374522|NCT04308226|164455454|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82374523|NCT00213135|164455460|SUPERIORITY_OR_OTHER||Relative Risk|0.43|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.35|0.54|||Wald Chi-square test|||||0.54|0.35|<0.001
82398479|NCT02033200|164507013|SUPERIORITY_OR_OTHER||LS means difference|0.007|STANDARD_ERROR_OF_MEAN|0.058||0.9107|TWO_SIDED|95.0|-0.109|0.122|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.122|-0.109|0.9107
82374524|NCT00213135|164455460|SUPERIORITY_OR_OTHER||Relative Risk|0.43|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.34|0.54|||Wald Chi-square test|||||0.54|0.34|<0.001
82529985|NCT04542226|164756369|OTHER||||||<|1e-07||||||the a priori threshold for statistical significance p\<0.05|Wilcoxon (Mann-Whitney)|Wilcoxon signed-rank test for repeated measures was used to compare with baseline.||||||<0.0000001
82529986|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|5.596|||TWO_SIDED|95.0|-12.68|10.75|||||Comparison of SBP Day 1.|||10.75|-12.68|
82529987|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|4.215|||TWO_SIDED|95.0|-12.92|4.72|||||Comparison of SBP Day 7.|||4.72|-12.92|
82645312|NCT03985293|165005919|SUPERIORITY||Difference in LS Mean|-24.12|||<|0.0001|TWO_SIDED|90.0|-34.2|-14.04|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.04|-34.20|<.0001
82645313|NCT03985293|165005919|SUPERIORITY||Difference in LS Mean|-25.21|||<|0.0001|TWO_SIDED|90.0|-35.44|-14.97|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.97|-35.44|<.0001
82374525|NCT01328379|164455464|SUPERIORITY_OR_OTHER||least squares mean|0.054|STANDARD_ERROR_OF_MEAN|0.0724||0.457|TWO_SIDED|95.0|-0.088|0.196||To demonstrate study sensitivity with respect to efficacy and maintain an overall alpha level ≤ 0.05, a stepwise procedure was performed.|ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.196|-0.088|0.457
82445285|NCT00903331|164599088|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.9631|TWO_SIDED|95.0|-0.09|0.08|||Wilcoxon Rank Sum|||The null hypothesis was that there was no difference between ACT-064922 and placebo for the change in FVC from baseline to the end of Period 1. The aim was to detect a placebo-corrected change in FVC of ≥ 0.1 L (Standard Deviation = 0.2 L) at a two-sided 0.05 type 1 error level and 80% power.||0.08|-0.09|0.9631
82374526|NCT01328379|164455464|SUPERIORITY_OR_OTHER||least squares mean|0.118|STANDARD_ERROR_OF_MEAN|0.0732||0.107|TWO_SIDED|95.0|-0.026|0.262|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.262|-0.026|0.107
82374527|NCT01328379|164455464|SUPERIORITY_OR_OTHER||least squares mean|0.064|STANDARD_ERROR_OF_MEAN|0.0724||0.375|TWO_SIDED|95.0|-0.078|0.207|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in walking speed at Approximately CmaxSS at Visit 3||0.207|-0.078|0.375
82374528|NCT01328379|164455465|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.014|STANDARD_ERROR_OF_MEAN|0.0666||0.832|TWO_SIDED|95.0|-0.145|0.117||To demonstrate study sensitivity with respect to efficacy and maintain an overall alpha level ≤ 0.05, a stepwise procedure was performed.|ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.117|-0.145|0.832
82374529|NCT01328379|164455465|SUPERIORITY_OR_OTHER||Least Squares Mean|0.093|STANDARD_ERROR_OF_MEAN|0.0674||0.167|TWO_SIDED|95.0|-0.039|0.226|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.226|-0.039|0.167
82374530|NCT01328379|164455465|SUPERIORITY_OR_OTHER||Least Squares Mean|0.107|STANDARD_ERROR_OF_MEAN|0.0666||0.108|TWO_SIDED|95.0|-0.024|0.238|||ANOVA|ANOVA Model: Change from Baseline in Walking Speed - dependent variable and Baseline Walking Speed and Treatment - independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in walking speed at Approximately CminSS at Visit 3||0.238|-0.024|0.108
82374531|NCT01328379|164455466|SUPERIORITY_OR_OTHER||Lease Squares Mean|-0.4|STANDARD_ERROR_OF_MEAN|2.367||0.866|TWO_SIDED|95.0|-5.05|4.25|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 3||4.25|-5.05|0.866
82374532|NCT01328379|164455466|SUPERIORITY_OR_OTHER||Least Squares Mean|-2.56|STANDARD_ERROR_OF_MEAN|2.393||0.286|TWO_SIDED|95.0|-7.26|2.15|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 3||2.15|-7.26|0.286
82374533|NCT01328379|164455466|SUPERIORITY_OR_OTHER||Least Squares Mean|-2.16|STANDARD_ERROR_OF_MEAN|2.366||0.362|TWO_SIDED|95.0|-6.81|2.49|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in MSWS-12 at visit 3||2.49|-6.81|0.362
82374534|NCT01328379|164455467|SUPERIORITY_OR_OTHER||Least Squares Mean|0.84|STANDARD_ERROR_OF_MEAN|2.237||0.708|TWO_SIDED|95.0|-3.56|5.24|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 2||5.24|-3.56|0.708
82374535|NCT01328379|164455467|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.38|STANDARD_ERROR_OF_MEAN|2.258||0.868|TWO_SIDED|95.0|-4.81|4.06|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in MSWS-12 at visit 2||4.06|-4.81|0.868
82374536|NCT01328379|164455467|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.21|STANDARD_ERROR_OF_MEAN|2.236||0.588|TWO_SIDED|95.0|-5.61|3.18|||ANOVA|ANOVA model with change from baseline in MSWS-12 Score as the dependent variable and baseline MSWS-12 Score and treatment as the independent variables||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in MSWS-12 at visit 2||3.18|-5.61|0.588
82374537|NCT01328379|164455468|SUPERIORITY_OR_OTHER||Least Squares Mean|35.4|STANDARD_ERROR_OF_MEAN|34.57||0.308|TWO_SIDED|95.0|-33.0|103.7|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||103.7|-33.0|0.308
82374538|NCT01328379|164455468|SUPERIORITY_OR_OTHER||Least Squares Mean|87.1|STANDARD_ERROR_OF_MEAN|34.9||0.014|TWO_SIDED|95.0|18.2|156.1|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||156.1|18.2|0.014
82374539|NCT01328379|164455468|SUPERIORITY_OR_OTHER||Least Squares Mean|51.7|STANDARD_ERROR_OF_MEAN|34.21||0.133|TWO_SIDED|95.0|-15.9|119.3|||ANOVA|Change from Baseline in Six-Minute Walk Distance as dependent variable and Baseline Six-Minute Walk Distance and Treatment as independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in Six-Minute Walk Distance at visit 2||119.3|-15.9|0.133
82445286|NCT00903331|164599089|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.118||||0.7056|TWO_SIDED|95.0|0.626|1.996|||Log Rank|||||1.996|0.626|0.7056
82374540|NCT01328379|164455469|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.32|TWO_SIDED|95.0|0.0|0.1|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.1|-0.0|0.320
82374541|NCT01328379|164455469|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.734|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.0|-0.1|0.734
82374542|NCT01328379|164455469|SUPERIORITY_OR_OTHER||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.185|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in Average EQ-5D score at Visit 3||0.0|-0.1|0.185
82374543|NCT01328379|164455470|SUPERIORITY_OR_OTHER||Least Squares Mean|-3.4|STANDARD_ERROR_OF_MEAN|1.79||0.055|TWO_SIDED|95.0|-7.0|0.1|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. placebo twice daily: Change from baseline in EQ-5D VAS score at Visit 3||0.1|-7.0|0.055
82374544|NCT01328379|164455470|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.2|STANDARD_ERROR_OF_MEAN|1.83||0.53|TWO_SIDED|95.0|-4.7|2.4|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 10mg twice daily vs. placebo twice daily: Change from baseline in EQ-5D VAS score at Visit 3||2.4|-4.7|0.530
82374545|NCT01328379|164455470|SUPERIORITY_OR_OTHER||Least Squares Mean|2.3|STANDARD_ERROR_OF_MEAN|1.8||0.203|TWO_SIDED|95.0|-1.2|5.8|||ANOVA|ANOVA model with change from baseline score as the dependant variable and baseline score and treatment as the independent variables.||dalfampridine-ER 5mg twice daily vs. dalfampridine-ER 10mg twice daily: Change from baseline in EQ-5D VAS score at Visit 3||5.8|-1.2|0.203
82374546|NCT01908907|164455471|SUPERIORITY_OR_OTHER||Median Difference (Net)|13.5|STANDARD_ERROR_OF_MEAN|6.5||0.07|TWO_SIDED|95.0|0.2|28.7|||Regression, Linear|Outcome was transformed using a natural logarithm transformation. Models included gestational age group since the randomization was blocked.|Since analyzed on the log scale, estimates provide are % change rather than absolute change between group.|All analyses used the intent-to-treat study population. A linear mixed model was used to assess differences in time to full feeds, days on study drug, and gestational age at discharge. These models included a random effect for multiples, which was maintained in the model after testing. Fixed effects included treatment and GA group for time to full feeds and days on study drug and treatment effect for gestational age at discharge.||28.7|0.2|0.07
82374547|NCT01908907|164455472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.008||0.048|TWO_SIDED||||||Regression, Linear|This is a complex regression model including linear and quadratic growth and interactions as specified above.||Linear mixed models were used to explore growth over time (weight, length and head circumference). These models included a random effect for intercepts and slopes to account for subject specific growth over time as well as a random effect for possible correlation between twins and triplets present in the data set. Fixed effects included both a linear and quadratic time effect, GA at birth, treatment group, full feeds (yes/no), and interactions. Non-significant interactions were eliminated.||||0.048
82374548|NCT00660907|164455479|NON_INFERIORITY_OR_EQUIVALENCE|non-inferior margin delta = 0.35|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0569|<|0.0001|TWO_SIDED|95.0|-0.11|0.11||Significant at alpha=0.025 (1-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||The null hypothesis is given as H0: mean(treat) minus mean(reference) \>= delta versus the alternative HA: mean(treat) minus mean(reference) \< delta (with alpha = 0.025, one-sided)||0.11|-0.11|<0.0001
82374549|NCT00660907|164455480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.65|STANDARD_ERROR_OF_MEAN|0.2483|<|0.0001|TWO_SIDED|95.0|-5.14|-4.17||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(reference) = 0 versus the alternative HA: mean(treat) minus mean(reference) =/= 0||-4.17|-5.14|<0.0001
82374550|NCT00660907|164455481|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-37.2|STANDARD_ERROR_OF_MEAN|2.578|<|0.0001|TWO_SIDED|95.0|-42.3|-32.2||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(reference) = 0 versus the alternative HA: proportion(treat) minus proportion(reference) =/= 0||-32.2|-42.3|<0.0001
82374551|NCT00660907|164455482|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.8|STANDARD_ERROR_OF_MEAN|2.48|<|0.0001|TWO_SIDED|95.0|26.0|35.7||Significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(reference) = 0 versus the alternative HA: proportion(treat) minus proportion(reference) =/= 0||35.7|26.0|<0.0001
82374552|NCT00618332|164455495|SUPERIORITY_OR_OTHER|||||||0.372||95.0|||||t-test, 2 sided|||||||0.372
82374553|NCT00618332|164455496|SUPERIORITY_OR_OTHER|||||||0.775||95.0|||||t-test, 2 sided|||||||0.775
82374554|NCT00618332|164455497|SUPERIORITY_OR_OTHER|||||||0.737||95.0|||||t-test, 2 sided|||||||0.737
82374555|NCT00618332|164455498|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||t-test, 2 sided|||||||0.117
82445287|NCT03426631|164599090|SUPERIORITY||Median Difference (Final Values)|-11.7||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.47
82374556|NCT00618332|164455499|SUPERIORITY_OR_OTHER|||||||0.676||95.0|||||t-test, 2 sided|||||||0.676
82374557|NCT00618332|164455500|SUPERIORITY_OR_OTHER|||||||0.795||95.0|||||t-test, 2 sided|||||||0.795
82374558|NCT00618332|164455501|SUPERIORITY_OR_OTHER|||||||0.638||95.0|||||t-test, 2 sided|||||||0.638
82374559|NCT00618332|164455502|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||||||0.800
82374560|NCT00618332|164455503|SUPERIORITY_OR_OTHER|||||||0.968||95.0|||||t-test, 2 sided|||||||0.968
82529988|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.21|STANDARD_ERROR_OF_MEAN|5.727|||TWO_SIDED|95.0|-5.78|18.19|||||Comparison of SBP Day 1.|||18.19|-5.78|
82374561|NCT01056289|164455528|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|1.16|||||TWO_SIDED|95.0|-0.51|2.83|||ANCOVA|||Difference: Placebo versus DVS SR 50 mg||2.83|-0.51|
82374562|NCT01056289|164455528|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-1.03|2.35|||ANCOVA|||Difference: DVS SR 25 mg versus DVS SR 50 mg||2.35|-1.03|
82374563|NCT01056289|164455528|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: absolute difference between the 2 discontinuation regimens in DESS total scores was \>2.5. Alternative hypothesis: absolute difference was ≤2.5; tested by calculating 95% 2-sided confidence intervals (CIs) on the mean difference between the 2 regimens. If absolute values of both confidence limits were ≤2.5, then the regimens were declared equivalent.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.88|1.89|||ANCOVA|||Difference: Placebo versus DVS SR 25 mg||1.89|-0.88|
82374564|NCT04684238|164455535|OTHER|Least square means of the difference between the treatment groups, including a 2-sided 95% confidence interval was reported in the statistical analysis. The noninferiority criterion was a relative difference of less than 15% between treatment groups.|Least square means|6.57|||||TWO_SIDED|95.0|-8.99|22.13||Noninferiority was defined as the entire 95% CI for the difference being above the noninferiority margin for the relative difference of -15%. Testing the hypothesis of no difference between isoflurane and midazolam.|Mixed Models Analysis|||||22.13|-8.99|
82374565|NCT04684238|164455536|NON_INFERIORITY|The non-inferiority margin was set to a relative difference of -15%.|Least square means|5.34|||||TWO_SIDED|95.0|-10.48|21.17||Testing the hypothesis of no difference between isoflurane and midazolam.||||||21.17|-10.48|
82374566|NCT04684238|164455537|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0004|TWO_SIDED|95.0|-3.8|-1.1|||ANCOVA|||||-1.1|-3.8|0.0004
82374567|NCT04684238|164455538|SUPERIORITY|Results display comparison between isoflurane and midazolam and are based on an analysis of variance model with treatment group as fixed effect and baseline opioid dose as covariate.|Mean Difference (Final Values)|-0.77||||0.096|TWO_SIDED|95.0|-1.69|0.14|||ANCOVA|||||0.14|-1.69|0.096
82374568|NCT04684238|164455539|SUPERIORITY||Hazard Ratio (HR)|3.3||||0.0021|TWO_SIDED|95.0|1.54|7.07|||Regression, Cox|||Time to extubation||7.07|1.54|0.0021
82374569|NCT04684238|164455540|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.636|TWO_SIDED|95.0|-0.15|0.25|||ANOVA|||Spontaneous breathing efforts. Results display a comparison between isoflurane and midazolam and are based on a mixed effects analysis of variance model with treatment group as fixed effect.||0.25|-0.15|0.636
82374570|NCT04684238|164455541|SUPERIORITY|Results display comparison between isoflurane and midazolam and are based on a Wilcoxon ranksum test.||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Need for inotropic/vasopressor agent at ≤24 hours.||||0.55
82374571|NCT04684238|164455541|SUPERIORITY|||||||0.637|||||||Wilcoxon (Mann-Whitney)|||Need for inotropic/vasopressor agent at \>24 hours.||||0.637
82374572|NCT01564537|164455556|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.742||||0.012|TWO_SIDED|95.0|0.587|0.939|||Log Rank||HR is estimated from Cox Regression.|||0.939|0.587|0.012
82374573|NCT01564537|164455557|SUPERIORITY||Hazard Ratio (HR)|0.939|||=|0.495|TWO_SIDED|95.0|0.784|1.125|||Log Rank||HR:estimated from Cox Regression with stratification factors: prior therapies, proteasome inhibitor, and ISS Stage at Screening with treatment as factor in model. \<1 hazard ratio for treatment=better prevention of death in drug arm vs control.|||1.125|0.784|=0.495
82374574|NCT01564537|164455558|SUPERIORITY||Hazard Ratio (HR)|0.916|||=|0.764|TWO_SIDED|95.0|0.516|1.626|||Log Rank||HR:estimated from Cox Regression with stratification factors: prior therapies, proteasome inhibitor, and ISS Stage at Screening with treatment as factor in model. \<1 hazard ratio for treatment=better prevention of death in drug arm vs control.|||1.626|0.516|=0.764
82398480|NCT02033200|164507014|SUPERIORITY_OR_OTHER||LS Means difference|-0.078|STANDARD_ERROR_OF_MEAN|0.278||0.7787|TWO_SIDED|95.0|-0.632|0.475|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the right eye.||0.475|-0.632|0.7787
82529989|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.76|STANDARD_ERROR_OF_MEAN|4.314|||TWO_SIDED|95.0|-13.79|4.27|||||Comparison of SBP Day 7.|||4.27|-13.79|
82529990|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|2.138|||TWO_SIDED|95.0|-3.89|5.06|||||Comparison of DBP Day 1.|||5.06|-3.89|
82374575|NCT01564537|164455570|SUPERIORITY||Odds Ratio (OR)|1.3|||=|0.332|TWO_SIDED|95.0|0.69|2.45||P-value is from Cochran-Mantel-Haenszel stratified by: prior therapies (1, 2 or 3), proteasome inhibitor (exposed, naïve), and ISS Stage at Screening (I or II, III).|Cochran-Mantel-Haenszel||Odds ratio is from logistic regression model with prognostic factors: prior therapies (1, 2 or 3), proteasome inhibitor (exposed, naïve),and ISS Stage at Screening (I or II, III). Odds ratio \> 1 favors Ixazomib.|||2.45|0.69|=0.332
82374576|NCT03151408|164455585|SUPERIORITY|||||||0.8275||||||P-value stratified by cytogenetic risk factor and ECOG performance status|Log Rank|||||||0.8275
82374577|NCT03151408|164455586|OTHER|||||||0.1244|||||||Cochran-Mantel-Haenszel|||||||0.1244
82374578|NCT03151408|164455587|OTHER|||||||0.143|||||||Cochran-Mantel-Haenszel|||||||0.1430
82374579|NCT03151408|164455588|SUPERIORITY|||||||0.9977|||||||Cochran-Mantel-Haenszel|||||||0.9977
82374580|NCT03151408|164455589|OTHER|||||||0.9959|||||||Cochran-Mantel-Haenszel|||||||0.9959
82374581|NCT03151408|164455590|OTHER|||||||0.3502|||||||Cochran-Mantel-Haenszel|||||||0.3502
82374582|NCT03151408|164455591|OTHER|||||||0.0502|||||||Log Rank|||||||0.0502
82374583|NCT03151408|164455593|OTHER|||||||0.4656|||||||Log Rank|||||||0.4656
82374584|NCT03151408|164455594|OTHER|||||||0.7063|||||||Log Rank|||||||0.7063
82374585|NCT03151408|164455595|OTHER|||||||0.0592|||||||Log Rank|||||||0.0592
82529991|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.64|STANDARD_ERROR_OF_MEAN|2.382|||TWO_SIDED|95.0|-11.62|-1.65|||||Comparison of DBP Day 7.|||-1.65|-11.62|
82529992|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|2.248|||TWO_SIDED|95.0|-3.73|5.68|||||Comparison of DBP Day 1.|||5.68|-3.73|
82529993|NCT00453479|164756391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.81|STANDARD_ERROR_OF_MEAN|2.504|||TWO_SIDED|95.0|-16.05|-5.57|||||Comparison of DBP Day 7.|||-5.57|-16.05|
82529994|NCT00453479|164756392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|3.745|||TWO_SIDED|95.0|-5.58|10.1|||||Comparison at Day 1.|||10.10|-5.58|
82529995|NCT00453479|164756392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.62|STANDARD_ERROR_OF_MEAN|3.785|||TWO_SIDED|95.0|-5.3|10.54|||||Comparison at Day 7.|||10.54|-5.30|
82529996|NCT00453479|164756392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|3.979|||TWO_SIDED|95.0|-8.17|8.48|||||Comparison at Day 1.|||8.48|-8.17|
82529997|NCT00453479|164756392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.44|STANDARD_ERROR_OF_MEAN|4.021|||TWO_SIDED|95.0|-13.86|2.97|||||Comparison at Day 7.|||2.97|-13.86|
82374586|NCT03151408|164455596|OTHER|||||||0.3835|||||||Log Rank|||||||0.3835
82374587|NCT03151408|164455597|OTHER|||||||0.7099|||||||Cochran-Mantel-Haenszel|||||||0.7099
82374588|NCT02784444|164455598|SUPERIORITY||Odds Ratio (OR)|0.89||||0.747|TWO_SIDED|95.0|0.44|1.81||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||1.81|0.44|0.747
82374589|NCT02784444|164455598|SUPERIORITY||Odds Ratio (OR)|1.22||||0.575|TWO_SIDED|95.0|0.6|2.48||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.48|0.60|0.575
82374590|NCT02784444|164455598|SUPERIORITY||Odds Ratio (OR)|1.64||||0.158|TWO_SIDED|95.0|0.83|3.27||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.27|0.83|0.158
82374591|NCT02784444|164455599|SUPERIORITY||Odds Ratio (OR)|1.09||||0.828|TWO_SIDED|95.0|0.49|2.42||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.42|0.49|0.828
82374592|NCT02784444|164455599|SUPERIORITY||Odds Ratio (OR)|1.5||||0.299|TWO_SIDED|95.0|0.7|3.21||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.21|0.70|0.299
82374593|NCT02784444|164455599|SUPERIORITY||Odds Ratio (OR)|1.82||||0.116|TWO_SIDED|95.0|0.86|3.82||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.82|0.86|0.116
82374594|NCT02784444|164455600|SUPERIORITY||Odds Ratio (OR)|1.19||||0.657|TWO_SIDED|95.0|0.55|2.55||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||2.55|0.55|0.657
82374595|NCT02784444|164455600|SUPERIORITY||Odds Ratio (OR)|1.45||||0.332|TWO_SIDED|95.0|0.69|3.06||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.06|0.69|0.332
82374596|NCT02784444|164455600|SUPERIORITY||Odds Ratio (OR)|1.51||||0.27|TWO_SIDED|95.0|0.72|3.16||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|Regression, Logistic|Models are adjusted for presence of diabetes mellitus, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in response rates between the MSDC-0602K dose and placebo.||3.16|0.72|0.270
82398481|NCT02033200|164507014|SUPERIORITY_OR_OTHER||LS means difference|-0.18|STANDARD_ERROR_OF_MEAN|0.344||0.6013|TWO_SIDED|95.0|-0.865|0.504|||ANCOVA|||The sample size had enough power to detect any meaningful difference between treatment groups in the left eye.||0.504|-0.865|0.6013
82398482|NCT02033200|164507015|SUPERIORITY_OR_OTHER||LS means difference|0.091|STANDARD_ERROR_OF_MEAN|0.4||0.8209|TWO_SIDED|95.0|-0.705|0.887|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in IOP between the two treatment groups in the right eye.||0.887|-0.705|0.8209
82398483|NCT02033200|164507015|SUPERIORITY_OR_OTHER||LS means difference|0.227|STANDARD_ERROR_OF_MEAN|0.33||0.4931|TWO_SIDED|95.0|-0.43|0.884|||ANCOVA|||The sample size should provide approximately 90% power to detect a 1.6 mmHg difference in the mean change in IOP between the two treatment groups in the left eye.||0.884|-0.430|0.4931
82398484|NCT02670382|164507016|SUPERIORITY||mean values, log transformed|||||0.33|||||||Mixed Models Analysis|||||||0.33
82398485|NCT02670382|164507016|SUPERIORITY||mean difference, log transformed values|||||0.92|||||||Mixed Models Analysis|||||||0.92
82398486|NCT02670382|164507016|SUPERIORITY||mean difference, log transformed values|||||0.44|||||||Mixed Models Analysis|||||||0.44
82398487|NCT02670382|164507017|SUPERIORITY||mean difference, log transformed values|||||0.34|||||||Mixed Models Analysis|||||||0.34
82398488|NCT02670382|164507017|SUPERIORITY||mean difference, log transformed values|||||0.5|||||||Mixed Models Analysis|||||||0.50
82398489|NCT02670382|164507017|SUPERIORITY||mean differences, log transformed values|||||0.83|||||||Mixed Models Analysis|||||||0.83
82398490|NCT02670382|164507018|EQUIVALENCE|primary hypothesis is that EPA will not differ from placebo|mean differences|||||0.1|||||||Mixed Models Analysis|||||||0.10
82529998|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.78|STANDARD_ERROR_OF_MEAN|4.611|||TWO_SIDED|95.0|-12.43|6.87|||||Comparison of SBP Day 1.|||6.87|-12.43|
82529999|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.88|STANDARD_ERROR_OF_MEAN|3.913|||TWO_SIDED|95.0|-10.07|6.31|||||Comparison of SBP Day 7.|||6.31|-10.07|
82530000|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.01|STANDARD_ERROR_OF_MEAN|4.718|||TWO_SIDED|95.0|-6.87|12.88|||||Comparison of SBP Day 1.|||12.88|-6.87|
82530001|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|4.005|||TWO_SIDED|95.0|-11.88|4.89|||||Comparison of SBP Day 7.|||4.89|-11.88|
82530002|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|1.822|||TWO_SIDED|95.0|-4.09|3.54|||||Comparison of DBP Day 1.|||3.54|-4.09|
82530003|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.89|STANDARD_ERROR_OF_MEAN|2.116|||TWO_SIDED|95.0|-8.32|0.54|||||Comparison of DBP Day 7.|||0.54|-8.32|
82374597|NCT02784444|164455601|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.392|TWO_SIDED|95.0|-0.7|0.3||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.3|-0.7|0.392
82374598|NCT02784444|164455601|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.023|TWO_SIDED|95.0|-1.1|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-1.1|0.023
82374599|NCT02784444|164455601|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.028|TWO_SIDED|95.0|-1.0|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline NAS (0-8).||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-1.0|0.028
82374600|NCT02784444|164455602|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.224|TWO_SIDED|95.0|-0.4|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.4|0.224
82374601|NCT02784444|164455602|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.096|TWO_SIDED|95.0|-0.4|0.0||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.0|-0.4|0.096
82374602|NCT02784444|164455602|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.007|TWO_SIDED|95.0|-0.6|-0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline steatosis.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||-0.1|-0.6|0.007
82374603|NCT02784444|164455603|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.488|TWO_SIDED|95.0|-0.1|0.2||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.2|-0.1|0.488
82374604|NCT02784444|164455603|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.291|TWO_SIDED|95.0|-0.3|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.3|0.291
82374605|NCT02784444|164455603|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.595|TWO_SIDED|95.0|-0.2|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline inflammation.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.2|0.595
82374606|NCT02784444|164455604|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.416|TWO_SIDED|95.0|-0.4|0.2||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.2|-0.4|0.416
82398491|NCT02670382|164507018|SUPERIORITY||mean difference|||||0.005|||||||Mixed Models Analysis|||||||0.005
82398492|NCT02670382|164507018|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
82530004|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|1.916|||TWO_SIDED|95.0|-5.76|2.26|||||Comparison of DBP Day 1.|||2.26|-5.76|
82530005|NCT00453479|164756393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.39|STANDARD_ERROR_OF_MEAN|2.224|||TWO_SIDED|95.0|-14.04|-4.73|||||Comparison of DBP Day 7.|||-4.73|-14.04|
82530006|NCT00453479|164756394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.52|5.79|||||Comparison at Day 1.|||5.79|-5.52|
82530007|NCT00453479|164756394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.39|STANDARD_ERROR_OF_MEAN|2.813|||TWO_SIDED|95.0|-3.5|8.28|||||Comparison at Day 7.|||8.28|-3.50|
82530008|NCT00453479|164756394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.67|STANDARD_ERROR_OF_MEAN|2.869|||TWO_SIDED|95.0|-8.67|3.34|||||Comparison at Day 1.|||3.34|-8.67|
82530009|NCT00453479|164756394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.84|STANDARD_ERROR_OF_MEAN|2.989|||TWO_SIDED|95.0|-10.1|2.41|||||Comparison at Day 7.|||2.41|-10.10|
82374607|NCT02784444|164455604|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.056|TWO_SIDED|95.0|-0.5|0.0||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.0|-0.5|0.056
82374608|NCT02784444|164455604|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, presence of diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 versus F2/F3, and baseline ballooning.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.4|0.220
82374609|NCT02784444|164455605|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.928|TWO_SIDED|95.0|-0.3|0.3||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.3|-0.3|0.928
82530010|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.42|STANDARD_ERROR_OF_MEAN|8.157|||TWO_SIDED|95.0|-12.66|21.49|||||Comparison of QTcB Day 1.|||21.49|-12.66|
82374610|NCT02784444|164455605|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.244|TWO_SIDED|95.0|-0.5|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.5|0.244
82374611|NCT02784444|164455605|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.228|TWO_SIDED|95.0|-0.5|0.1||Statistical testing was two-sided using a significance (alpha) level of 0.05. No adjustment for multiple comparisons.|ANCOVA|Model adjusted by age, sex, diabetes mellitus, Vitamin E ≥ 400 IU, baseline fibrosis F1 vs. F2/F3, and baseline CRN fibrosis staging score.||The null hypothesis is that there is no difference in changes between the MSDC-0602K dose and placebo.||0.1|-0.5|0.228
82374612|NCT03262038|164455606|SUPERIORITY|||||||0.412|||||||Chi-squared|||||||.412
82374613|NCT03262038|164455607|SUPERIORITY|||||||0.633|||||||Chi-squared|||||||.633
82374614|NCT03262038|164455608|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||.007
82374615|NCT03262038|164455609|SUPERIORITY|||||||0.634|||||||Chi-squared|||||||.634
82374616|NCT03323437|164455616|OTHER|two way anova|||||<|0.01|||||||ANOVA|||||||<0.01
82374617|NCT03323437|164455617|OTHER|two way anova||||||0.68|||||||ANOVA|||||||.68
82398493|NCT03244618|164507020|SUPERIORITY||Mean Difference (Final Values)|-0.544|||<|0.001|TWO_SIDED|95.0|-0.712|-0.377|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours first named toothpaste.|||-0.377|-0.712|<0.001
82398494|NCT03244618|164507021|SUPERIORITY||Mean Difference (Final Values)|10.8|||<|0.001|TWO_SIDED|95.0|7.5|14.0|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first names toothpaste minus second named toothpaste such that a positive difference favours the first named toothpaste.|||14.0|7.5|<0.001
82374618|NCT03323437|164455618|OTHER|two way anova||||||0.03|||||||ANOVA|||||||.03
82374619|NCT03323437|164455619|OTHER|two way anova||||||0.01|||||||ANOVA|||||||.01
82374620|NCT03323437|164455620|OTHER|two sided t test||||||0.59|||||||t-test, 2 sided|||||||.59
82374621|NCT03323437|164455621|OTHER|two sided t test||||||0.45|||||||t-test, 2 sided|||||||.45
82374622|NCT03323437|164455622|OTHER|two way anova||||||0.32|||||||ANOVA|||||||.32
82374623|NCT03323437|164455623|OTHER|two way anova||||||0.6|||||||ANOVA|||||||.60
82374624|NCT03323437|164455624|OTHER|two way anova||||||0.34|||||||ANOVA|||||||.34
82374625|NCT03323437|164455625|OTHER|two way anova||||||0.35|||||||ANOVA|||||||.35
82374626|NCT03323437|164455626|OTHER|fisher's exact||||||0.66|||||||Fisher Exact|||||||.66
82374627|NCT03323437|164455627|OTHER|two sided t test||||||0.04|||||||t-test, 2 sided|||||||.04
82374628|NCT03323437|164455628|OTHER|fisher's exact test||||||1|||||||Fisher Exact|||||||1
82398495|NCT03244618|164507022|SUPERIORITY||Mean Difference (Final Values)|-11.0|||<|0.001|TWO_SIDED|95.0|-16.4|-5.5|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours the first named toothpaste.|||-5.5|-16.4|<0.001
82398496|NCT03244618|164507023|SUPERIORITY||Mean Difference (Final Values)|-0.67|||<|0.001|TWO_SIDED|95.0|-0.85|-0.489|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative value favours the first named toothpaste.|||-0.489|-0.850|<0.001
82398497|NCT03244618|164507024|SUPERIORITY||Mean Difference (Final Values)|11.9|||<|0.001|TWO_SIDED|95.0|8.6|15.1|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a positive difference favours first named toothpaste|||15.1|8.6|<0.001
82398498|NCT03244618|164507025|SUPERIORITY||Mean Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-16.6|-5.2|||ANOVA|ANOVA model had treatment and gender as factors.|Difference is first named toothpaste minus second named toothpaste such that a negative difference favours the first named toothpaste.|||-5.2|-16.6|<0.001
82398499|NCT00603382|164507133|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.101||||0.095|TWO_SIDED|95.0|-0.018|0.221|||ANCOVA|||||0.221|-0.018|0.095
82398500|NCT00603382|164507133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129||||0.033|TWO_SIDED|95.0|0.011|0.247|||ANCOVA|||||0.247|0.011|0.033
82398501|NCT00603382|164507133|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.204|||<|0.001|TWO_SIDED|95.0|0.089|0.319|||ANCOVA|||||0.319|0.089|<0.001
82398502|NCT00603382|164507133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|95.0|0.111|0.349|||ANCOVA|||||0.349|0.111|<0.001
82398503|NCT00603382|164507133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106||||0.074|TWO_SIDED|95.0|-0.01|0.223|||ANCOVA|||||0.223|-0.010|0.074
82398504|NCT00136214|164507175|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.08
82530011|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.02|STANDARD_ERROR_OF_MEAN|6.76|||TWO_SIDED|95.0|-5.13|23.17|||||Comparison of QTcB Day 7.|||23.17|-5.13|
82530012|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.57|STANDARD_ERROR_OF_MEAN|8.51|||TWO_SIDED|95.0|-7.24|28.38|||||Comparison of QTcB Day 1.|||28.38|-7.24|
82530013|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.5|STANDARD_ERROR_OF_MEAN|7.052|||TWO_SIDED|95.0|1.74|31.26|||||Comparison of QTcB Day 7.|||31.26|1.74|
82645314|NCT03985293|165005920|SUPERIORITY||Difference in LS Mean|-7.7||||0.294|TWO_SIDED|90.0|-19.78|4.38|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||4.38|-19.78|0.2940
82398505|NCT00136214|164507175|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of Mi/Cr at time points 1,2 and 3||||0.3
82398506|NCT00136214|164507175|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in basal ganglia Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.9
82398507|NCT00136214|164507175|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.7
82398508|NCT00136214|164507175|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of MI/Cr at time points 1,2 and 3||||0.4
82398509|NCT00136214|164507175|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in frontal cortex. Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.6
82398510|NCT00136214|164507175|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy of Cho/Cr at time points 1,2 and 3||||0.3
82398511|NCT00136214|164507175|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy ofMI/Cr at time points 1,2 and 3||||0.3
82398512|NCT00136214|164507175|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of IFN group for metabolites in DLPFC. Comparison on MR spectroscopy of NAA/Cr at time points 1,2 and 3||||0.3
82398513|NCT00136214|164507175|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.4
82398514|NCT00136214|164507175|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.9
82398515|NCT00136214|164507175|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in Basal ganglia. Comparison on MR spectroscopy of NAA/Cr at time points 1 and 2||||0.6
82398516|NCT00136214|164507175|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.7
82398517|NCT00136214|164507175|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.1
82398518|NCT00136214|164507175|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in frontal cortex. Comparison on MR spectroscopy of NAA/Cr at time points 1 and 2||||0.6
82398519|NCT00136214|164507175|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of Cho/Cr at time points 1 and 2||||0.5
82398520|NCT00136214|164507175|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of MI/Cr at time points 1 and 2||||0.4
82398521|NCT00136214|164507175|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Within group comparison of control group for metabolites in DLPFC. Comparison on MR spectroscopy of NAA/Crat time points 1 and 2||||0.9
82398522|NCT00136214|164507176|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 1 on change between scores for HVLT||||>0.05
82398523|NCT00136214|164507176|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 1 on change between scores for ROCF||||< 0.05
82398524|NCT00136214|164507176|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 2 on change between scores for HVLT||||>0.05
82398525|NCT00136214|164507176|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Comparison between controls and IFN treated at time point 2 on change between scores for ROCF||||>0.05
82398526|NCT02757352|164507183|SUPERIORITY||Odds Ratio (OR)|2.36||||0.009|TWO_SIDED|95.0|1.23|4.51|||Regression, Logistic|||||4.51|1.23|0.009
82398527|NCT02757352|164507183|SUPERIORITY||Odds Ratio (OR)|2.78||||0.002|TWO_SIDED|95.0|1.48|5.25|||Regression, Logistic|||||5.25|1.48|0.002
82398528|NCT02757352|164507184|SUPERIORITY||Odds Ratio (OR)|2.82||||0.004|TWO_SIDED|95.0|1.38|5.77|||Regression, Logistic|||||5.77|1.38|0.004
82398529|NCT02757352|164507184|SUPERIORITY||Odds Ratio (OR)|2.85||||0.004|TWO_SIDED|95.0|1.4|5.77|||Regression, Logistic|||||5.77|1.40|0.004
82398530|NCT02757352|164507185|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.81|-0.28|||Mixed Models Analysis|||||-0.28|-0.81|<0.001
82398531|NCT02757352|164507185|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.134|<|0.001|TWO_SIDED|95.0|-0.94|-0.41|||Mixed Models Analysis|||||-0.41|-0.94|<0.001
82398532|NCT02757352|164507186|SUPERIORITY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.179|<|0.001|TWO_SIDED|95.0|-0.96|-0.26|||Mixed Models Analysis|||||-0.26|-0.96|<0.001
82530014|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.13|STANDARD_ERROR_OF_MEAN|8.908|||TWO_SIDED|95.0|-16.51|20.78|||||Comparison of QTcF Day 1.|||20.78|-16.51|
82530015|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.29|STANDARD_ERROR_OF_MEAN|5.298|||TWO_SIDED|95.0|1.2|23.38|||||Comparison of QTcF Day 7.|||23.38|1.20|
82645315|NCT03985293|165005920|SUPERIORITY||Difference in LS Mean|-23.77||||0.0008|TWO_SIDED|90.0|-35.37|-12.17|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-12.17|-35.37|0.0008
82374629|NCT01235195|164455629|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|104.86|||||TWO_SIDED|90.0|100.12|109.83|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed AUC (0-72) analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||109.83|100.12|
82398533|NCT02757352|164507186|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||Mixed Models Analysis|||||-0.34|-1.05|<0.001
82398534|NCT02757352|164507188|SUPERIORITY||LS Mean Difference|2.8509|STANDARD_ERROR_OF_MEAN|1.139||0.013|TWO_SIDED|95.0|0.6092|5.0926|||Mixed Models Analysis|||||5.0926|0.6092|0.013
82374630|NCT01235195|164455630|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|105.34|||||TWO_SIDED|90.0|98.46|112.69|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed Cmax analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% CIs were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||112.69|98.46|
82374631|NCT01235195|164455632|SUPERIORITY_OR_OTHER_LEGACY||Ratio (%) of adjusted means|106.1|||||TWO_SIDED|90.0|100.16|112.39|||||Reference treatment=Sertraline hydrochloride 50 mg hard gelatin capsule. Test treatment=sertraline hydrochloride 50 mg film-coated tablet.|Natural log-transformed AUC (0-∞) analyzed using a mixed effect model with sequence, period, treatment as fixed effects; subject within sequence as a random effect. Estimates of adjusted mean differences (Test minus Reference) and corresponding 90% CIs were obtained from the model. Adjusted mean differences and 90% CIs for differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test divided by Reference) and 90% CIs for the ratios.||112.39|100.16|
82374632|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16||0.459|TWO_SIDED|90.0|-1.05|-0.52|||Bayesian|||||-0.52|-1.05|0.459
82374633|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.16||0.511|TWO_SIDED|90.0|-1.07|-0.54|||Bayesian|||||-0.54|-1.07|0.511
82374634|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.16||0.988|TWO_SIDED|90.0|-1.41|-0.89|||Bayesian|||||-0.89|-1.41|0.988
82374635|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.16||0.934|TWO_SIDED|90.0|-1.3|-0.78|||Bayesian|||||-0.78|-1.30|0.934
82374636|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.16||0.373|TWO_SIDED|90.0|0.08|0.61|||Bayesian|||||0.61|0.08|0.373
82374637|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.433|TWO_SIDED|90.0|0.07|0.59|||Bayesian|||||0.59|0.07|0.433
82374638|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.978|TWO_SIDED|90.0|-0.28|0.24|||Bayesian|||||0.24|-0.28|0.978
82374639|NCT02119819|164455635|SUPERIORITY||Posterior Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.904|TWO_SIDED|90.0|-0.17|0.35|||Bayesian|||||0.35|-0.17|0.904
82374640|NCT02045147|164455651|OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|3.82||0.463|TWO_SIDED|95.0|-4.98|10.65|||t-test, 2 sided|||||10.65|-4.98|0.463
82374641|NCT02045147|164455651|OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|3.4||0.634|TWO_SIDED|95.0|-5.23|8.49|||t-test, 2 sided|||||8.49|-5.23|0.634
82374642|NCT02045147|164455651|OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.15||0.259|TWO_SIDED|95.0|-3.74|13.32|||t-test, 2 sided|||||13.32|-3.74|0.259
82374643|NCT02045147|164455651|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|2.5||0.472|TWO_SIDED|95.0|-3.21|6.84|||t-test, 2 sided|||||6.84|-3.21|0.472
82374644|NCT02045147|164455652|OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.15||0.532|TWO_SIDED|95.0|-8.5|4.5|||t-test, 2 sided|||||4.5|-8.5|0.532
82374645|NCT02045147|164455652|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|2.9||0.574|TWO_SIDED|95.0|-7.5|4.2|||t-test, 2 sided|||||4.2|-7.5|0.574
82374646|NCT02045147|164455652|OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.254|TWO_SIDED|95.0|-12.3|3.4|||t-test, 2 sided|||||3.4|-12.3|0.254
82374647|NCT02045147|164455652|OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.7||0.759|TWO_SIDED|95.0|-6.3|4.6|||t-test, 2 sided|||||4.6|-6.3|0.759
82374648|NCT02045147|164455653|OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|3.6||0.153|TWO_SIDED|95.0|-2.1|12.7|||t-test, 2 sided|||||12.7|-2.1|0.153
82374649|NCT02045147|164455653|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|3.3||0.729|TWO_SIDED|95.0|-7.9|5.5|||t-test, 2 sided|||||5.5|-7.9|0.729
82374650|NCT02045147|164455653|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|3.5||0.886|TWO_SIDED|95.0|-6.6|7.6|||t-test, 2 sided|||||7.6|-6.6|0.886
82374651|NCT02045147|164455653|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|3.1||0.446|TWO_SIDED|95.0|-8.7|3.9|||t-test, 2 sided|||||3.9|-8.7|0.446
82374652|NCT02045147|164455654|OTHER||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|4.1||0.521|TWO_SIDED|95.0|-5.7|11.1|||t-test, 2 sided|||||11.1|-5.7|0.521
82374653|NCT02045147|164455654|OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|2.7||0.146|TWO_SIDED|95.0|-1.5|9.5|||t-test, 2 sided|||||9.5|-1.5|0.146
82374654|NCT02045147|164455654|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|4.3||0.926|TWO_SIDED|95.0|-8.5|9.3|||t-test, 2 sided|||||9.3|-8.5|0.926
82374655|NCT02045147|164455654|OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|2.4||0.526|TWO_SIDED|95.0|-6.4|3.3|||t-test, 2 sided|||||3.3|-6.4|0.526
82398535|NCT02757352|164507188|SUPERIORITY||LS Mean Difference|2.7497|STANDARD_ERROR_OF_MEAN|1.1278||0.015|TWO_SIDED|95.0|0.5299|4.9694|||Mixed Models Analysis|||||4.9694|0.5299|0.015
82398536|NCT02757352|164507189|SUPERIORITY||LS Mean Difference|4.2001|STANDARD_ERROR_OF_MEAN|1.6467||0.012|TWO_SIDED|95.0|0.9525|7.4477|||Mixed Models Analysis|||||7.4477|0.9525|0.012
82530016|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.66|STANDARD_ERROR_OF_MEAN|9.171|||TWO_SIDED|95.0|-1.53|36.85|||||Comparison of QTcF Day 1.|||36.85|-1.53|
82576105|NCT02567708|164861955|OTHER||Posterior median difference|0.04|STANDARD_DEVIATION|0.0578||0.76|TWO_SIDED|95.0|-0.071|0.156||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.156|-0.071|0.76
82576106|NCT02567708|164861955|OTHER||Posterior median difference|0.038|STANDARD_DEVIATION|0.0559||0.76|TWO_SIDED|95.0|-0.073|0.148||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||0.148|-0.073|0.76
82530017|NCT00453479|164756396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.32|STANDARD_ERROR_OF_MEAN|5.454|||TWO_SIDED|95.0|10.9|33.73|||||Comparison of QTcF Day 7.|||33.73|10.90|
82645316|NCT03985293|165005920|SUPERIORITY||Difference in LS Mean|-33.23|||<|0.0001|TWO_SIDED|90.0|-45.05|-21.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-21.40|-45.05|<.0001
82374656|NCT02045147|164455655|OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|3.9||0.776|TWO_SIDED|95.0|-9.2|6.9|||t-test, 2 sided|||||6.9|-9.2|0.776
82374657|NCT02045147|164455655|OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|3.3||0.135|TWO_SIDED|95.0|-1.6|11.7|||t-test, 2 sided|||||11.7|-1.6|0.135
82374658|NCT02045147|164455655|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.1||0.556|TWO_SIDED|95.0|-10.9|6.0|||t-test, 2 sided|||||6.0|-10.9|0.556
82374659|NCT02045147|164455655|OTHER||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|2.7||0.361|TWO_SIDED|95.0|-2.9|7.9|||t-test, 2 sided|||||7.9|-2.9|0.361
82374660|NCT02045147|164455656|OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|4.4||0.564|TWO_SIDED|95.0|-6.4|11.6|||t-test, 2 sided|||||11.6|-6.4|0.564
82374661|NCT02045147|164455656|OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|3.1||0.307|TWO_SIDED|95.0|-3.0|9.3|||t-test, 2 sided|||||9.3|-3.0|0.307
82374662|NCT02045147|164455656|OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.8||0.768|TWO_SIDED|95.0|-6.7|8.9|||t-test, 2 sided|||||8.9|-6.7|0.768
82374663|NCT02045147|164455656|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.785|TWO_SIDED|95.0|-4.2|5.5|||t-test, 2 sided|||||5.5|-4.2|0.785
82374664|NCT02045147|164455657|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|3.5||0.917|TWO_SIDED|95.0|-7.5|6.8|||t-test, 2 sided|||||6.8|-7.5|0.917
82374665|NCT02045147|164455657|OTHER||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|3.3||0.181|TWO_SIDED|95.0|-2.2|11.3|||t-test, 2 sided|||||11.3|-2.2|0.181
82374666|NCT02045147|164455657|OTHER||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.6||0.772|TWO_SIDED|95.0|-6.3|8.3|||t-test, 2 sided|||||8.3|-6.3|0.772
82374667|NCT02045147|164455657|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|2.8||0.526|TWO_SIDED|95.0|-3.8|7.3|||t-test, 2 sided|||||7.3|-3.8|0.526
82374668|NCT02045147|164455658|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.42||0.872|TWO_SIDED|95.0|-0.8|0.9|||t-test, 2 sided|||||.9|-.8|0.872
82374669|NCT02045147|164455658|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.387|TWO_SIDED|95.0|-0.87|0.34|||t-test, 2 sided|||||.34|-.87|0.387
82374670|NCT02045147|164455658|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.916|TWO_SIDED|95.0|-0.37|0.81|||t-test, 2 sided|||||.81|-.37|0.916
82374671|NCT02045147|164455658|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.189|TWO_SIDED|95.0|-0.19|0.94|||t-test, 2 sided|||||.94|-.19|0.189
82374672|NCT02045147|164455659|OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.627|TWO_SIDED|95.0|-0.21|0.13|||t-test, 2 sided|||||.13|-.21|0.627
82374673|NCT02045147|164455659|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.84|TWO_SIDED|95.0|-0.11|0.09|||t-test, 2 sided|||||.09|-.11|0.840
82374674|NCT02045147|164455659|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.049|TWO_SIDED|95.0|-0.22|0.0|||t-test, 2 sided|||||-.00|-.22|0.049
82374675|NCT02045147|164455659|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.952|TWO_SIDED|95.0|-0.06|0.06|||t-test, 2 sided|||||.06|-.06|0.952
82374676|NCT02045147|164455660|OTHER||Mean Difference (Final Values)|6.9||||0.436|TWO_SIDED|95.0|-11.07|25.0|||t-test, 2 sided|||||25.00|-11.07|.436
82374677|NCT02045147|164455660|OTHER||Mean Difference (Final Values)|-11.8|STANDARD_ERROR_OF_MEAN|6.71||0.088|TWO_SIDED|95.0|-25.24|1.8|||t-test, 2 sided|||||1.80|-25.24|.088
82374678|NCT02045147|164455660|OTHER||Median Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|7.45||0.169|TWO_SIDED|95.0|-25.86|4.77|||t-test, 2 sided|||||4.77|-25.86|0.169
82374679|NCT02045147|164455660|OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|4.52||0.416|TWO_SIDED|95.0|-12.79|5.37|||t-test, 2 sided|||||5.37|-12.79|0.416
82530018|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.55|STANDARD_ERROR_OF_MEAN|5.262|||TWO_SIDED|95.0|-1.46|20.57|||||Comparison of QTcB Day 1.|||20.57|-1.46|
82530019|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.39|STANDARD_ERROR_OF_MEAN|5.902|||TWO_SIDED|95.0|-3.97|20.74|||||Comparison of QTcB Day 7.|||20.74|-3.97|
82530020|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.47|STANDARD_ERROR_OF_MEAN|5.49|||TWO_SIDED|95.0|-0.02|22.96|||||Comparison of QTcB Day 1.|||22.96|-0.02|
82530021|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.28|STANDARD_ERROR_OF_MEAN|6.157|||TWO_SIDED|95.0|2.39|28.17|||||Comparison of QTcB Day 7.|||28.17|2.39|
82530022|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.32|STANDARD_ERROR_OF_MEAN|4.622|||TWO_SIDED|95.0|-1.35|18.0|||||Comparison of QTcF Day 1.|||18.00|-1.35|
82530023|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.75|STANDARD_ERROR_OF_MEAN|5.239|||TWO_SIDED|95.0|-2.21|19.72|||||Comparison of QTcF Day 7.|||19.72|-2.21|
82576107|NCT02567708|164861956|OTHER||Posterior median difference|0.083|STANDARD_DEVIATION|0.6175||0.56|TWO_SIDED|95.0|-1.102|1.346||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.346|-1.102|0.56
82576108|NCT02567708|164861956|OTHER||Posterior median difference|0.014|STANDARD_DEVIATION|0.6672||0.51|TWO_SIDED|95.0|-1.271|1.341||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.341|-1.271|0.51
82576109|NCT02567708|164861956|OTHER||Posterior median difference|-0.113|STANDARD_DEVIATION|0.5148||0.41|TWO_SIDED|95.0|-1.125|0.908||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo..|||0.908|-1.125|0.41
82398537|NCT02757352|164507189|SUPERIORITY||LS Mean Difference|4.6081|STANDARD_ERROR_OF_MEAN|1.6455||0.006|TWO_SIDED|95.0|1.3629|7.8533|||Mixed Models Analysis|||||7.8533|1.3629|0.006
82398538|NCT02757352|164507190|SUPERIORITY||Odds Ratio (OR)|2.73||||0.008|TWO_SIDED|95.0|1.3|5.76|||Regression, Logistic|||||5.76|1.30|0.008
82398539|NCT02757352|164507190|SUPERIORITY||Odds Ratio (OR)|3.43|||<|0.001|TWO_SIDED|95.0|1.66|7.08|||Regression, Logistic|||||7.08|1.66|<0.001
82398540|NCT02757352|164507191|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.02|10.41|||Regression, Logistic|||||10.41|2.02|<0.001
82398541|NCT02757352|164507191|SUPERIORITY||Odds Ratio (OR)|3.99|||<|0.001|TWO_SIDED|95.0|1.76|9.05|||Regression, Logistic|||||9.05|1.76|<0.001
82398542|NCT02757352|164507192|SUPERIORITY||LS Means Square Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.308||0.031|TWO_SIDED|95.0|-1.28|-0.06|||Mixed Models Analysis|||||-0.06|-1.28|0.031
82398543|NCT02757352|164507192|SUPERIORITY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.305||0.001|TWO_SIDED|95.0|-1.61|-0.41|||Mixed Models Analysis|||||-0.41|-1.61|0.001
82398544|NCT02757352|164507193|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.404||0.006|TWO_SIDED|95.0|-1.92|-0.33|||Mixed Models Analysis|||||-0.33|-1.92|0.006
82398545|NCT02757352|164507193|SUPERIORITY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.404||0.002|TWO_SIDED|95.0|-2.08|-0.49|||Mixed Models Analysis|||||-0.49|-2.08|0.002
82398546|NCT02757352|164507194|SUPERIORITY||LS Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|0.764|<|0.001|TWO_SIDED|95.0|-4.58|-1.57|||ANCOVA|||||-1.57|-4.58|<0.001
82398547|NCT02757352|164507194|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|0.751|<|0.001|TWO_SIDED|95.0|-5.68|-2.72|||ANCOVA|||||-2.72|-5.68|<0.001
82398548|NCT02757352|164507195|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.621||0.849|TWO_SIDED|95.0|-1.35|1.11|||Mixed Models Analysis|||||1.11|-1.35|0.849
82398549|NCT02757352|164507195|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.608||0.648|TWO_SIDED|95.0|-1.48|0.93|||Mixed Models Analysis|||||0.93|-1.48|0.648
82398550|NCT02757352|164507196|SUPERIORITY||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.443||0.018|TWO_SIDED|95.0|-1.93|-0.18|||Mixed Models Analysis|||||-0.18|-1.93|0.018
82398551|NCT02757352|164507196|SUPERIORITY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.442||0.008|TWO_SIDED|95.0|-2.05|-0.31|||Mixed Models Analysis|||||-0.31|-2.05|0.008
82398552|NCT02757352|164507197|SUPERIORITY||Odds Ratio (OR)|5.33||||0.0011|TWO_SIDED|96.0|1.47|19.4|||Regression, Logistic|||||19.40|1.47|0.0011
82398553|NCT02757352|164507197|SUPERIORITY||Odds Ratio (OR)|4.22||||0.031|TWO_SIDED|95.0|1.14|15.66|||Regression, Logistic|||||15.66|1.14|0.031
82398554|NCT02757352|164507198|SUPERIORITY||LS Mean Difference|-3.807|STANDARD_ERROR_OF_MEAN|2.8507||0.183|TWO_SIDED|95.0|-9.418|1.804|||Mixed Models Analysis|||||1.804|-9.418|0.183
82398555|NCT02757352|164507198|SUPERIORITY||LS Mean Difference|-2.743|STANDARD_ERROR_OF_MEAN|2.8202||0.331|TWO_SIDED|95.0|-8.294|2.807|||Mixed Models Analysis|||||2.807|-8.294|0.331
82398556|NCT02757352|164507199|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.148||0.008|TWO_SIDED|95.0|-0.69|-0.1|||Mixed Models Analysis|||||-0.10|-0.69|0.008
82398557|NCT02757352|164507199|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.148||0.038|TWO_SIDED|95.0|-0.6|-0.02|||Mixed Models Analysis|||||-0.02|-0.60|0.038
82398558|NCT02757352|164507200|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.325||0.871|TWO_SIDED|95.0|-0.59|0.7|||Mixed Models Analysis|||||0.70|-0.59|0.871
82398559|NCT02757352|164507200|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.327||0.295|TWO_SIDED|95.0|-0.3|0.99|||Mixed Models Analysis|||||0.99|-0.30|0.295
82398560|NCT02757352|164507201|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.406||0.257|TWO_SIDED|95.0|-1.26|0.34|||Mixed Models Analysis|||||0.34|-1.26|0.257
82398561|NCT02757352|164507201|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.402||0.057|TWO_SIDED|95.0|-1.56|0.02|||Mixed Models Analysis|||||0.02|-1.56|0.057
82398562|NCT02757352|164507202|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.496||0.082|TWO_SIDED|95.0|-1.85|0.11|||Mixed Models Analysis|||||0.11|-1.85|0.082
82398563|NCT02757352|164507202|SUPERIORITY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.493||0.088|TWO_SIDED|95.0|-1.82|0.13|||Mixed Models Analysis|||||0.13|-1.82|0.088
82398564|NCT02757352|164507203|SUPERIORITY||LS Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|1.442||0.219|TWO_SIDED|95.0|-4.66|1.09|||Mixed Models Analysis|||TJC||1.09|-4.66|0.219
82398565|NCT02757352|164507203|SUPERIORITY||LS Mean Difference|-3.53|STANDARD_ERROR_OF_MEAN|1.388||0.013|TWO_SIDED|95.0|-6.3|-0.76|||Mixed Models Analysis|||TJC||-0.76|-6.30|0.013
82398566|NCT02757352|164507203|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.355||0.009|TWO_SIDED|95.0|-1.68|-0.26|||Mixed Models Analysis|||SJC||-0.26|-1.68|0.009
82398567|NCT02757352|164507203|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.348||0.034|TWO_SIDED|95.0|-1.46|-0.06|||Mixed Models Analysis|||SJC||-0.06|-1.46|0.034
82645317|NCT03985293|165005920|SUPERIORITY||Difference in LS Mean|-31.66|||<|0.0001|TWO_SIDED|90.0|-44.14|-19.19|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-19.19|-44.14|<.0001
82645318|NCT03985293|165005920|SUPERIORITY||Difference in LS Mean|-33.59|||<|0.0001|TWO_SIDED|90.0|-46.67|-20.51|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.51|-46.67|<.0001
82398568|NCT02757352|164507205|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.5||0.325|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||||0.5|-1.5|0.325
82398569|NCT02757352|164507205|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.206|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||||0.4|-1.6|0.206
82398570|NCT02757352|164507206|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.601||0.33|TWO_SIDED|95.0|-1.77|0.6|||Mixed Models Analysis|||||0.60|-1.77|0.330
82398571|NCT02757352|164507206|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.602||0.11|TWO_SIDED|95.0|-2.15|0.22|||Mixed Models Analysis|||||0.22|-2.15|0.110
82398572|NCT02757352|164507207|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.81||0.348|TWO_SIDED|95.0|-2.4|0.8|||Mixed Models Analysis|||||0.8|-2.4|0.348
82398573|NCT02757352|164507207|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.82||0.386|TWO_SIDED|95.0|-2.3|0.9|||Mixed Models Analysis|||||0.9|-2.3|0.386
82398574|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-13.76|STANDARD_ERROR_OF_MEAN|4.835||0.005|TWO_SIDED|95.0|-23.32|-4.2|||ANCOVA|||Overall Impairment Score||-4.20|-23.32|0.005
82398575|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-6.29|STANDARD_ERROR_OF_MEAN|4.697||0.183|TWO_SIDED|95.0|-15.58|3.0|||ANCOVA|||Overall Impairment Score||3.00|-15.58|0.183
82398576|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|3.114||0.06|TWO_SIDED|95.0|-12.05|0.26|||ANCOVA|||Percentage of absenteeism||0.26|-12.05|0.060
82398577|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-4.15|STANDARD_ERROR_OF_MEAN|3.098||0.182|TWO_SIDED|95.0|-10.27|1.97|||ANCOVA|||Percentage of absenteeism||1.97|-10.27|0.182
82398578|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-13.61|STANDARD_ERROR_OF_MEAN|4.558||0.003|TWO_SIDED|95.0|-22.62|-4.6|||ANCOVA|||Percentage of presentism||-4.60|-22.62|0.003
82398579|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-6.21|STANDARD_ERROR_OF_MEAN|4.446||0.164|TWO_SIDED|95.0|-15.0|2.58|||ANCOVA|||Percentage of presentism||2.58|-15.00|0.164
82398580|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-10.63|STANDARD_ERROR_OF_MEAN|3.669||0.004|TWO_SIDED|95.0|-17.85|-3.41|||LS Mean Difference|||Percentage of Impairment in Activities Performed Outside of Work||-3.41|-17.85|0.004
82398581|NCT02757352|164507208|SUPERIORITY||LS Mean Difference|-9.99|STANDARD_ERROR_OF_MEAN|3.621||0.006|TWO_SIDED|95.0|-17.12|-2.86|||ANCOVA|||Percentage of Impairment in Activities Performed Outside of Work||-2.86|-17.12|0.006
82398582|NCT00497146|164507225|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Mixed Models Analysis|Mixed model includes treatment, visit, gender, baseline RAAS inhibitor use, country, baseline value, and treatment by visit interaction.||||||0.145
82398583|NCT01441245|164507247|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.04|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.04
82398584|NCT01441245|164507248|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|||||<|0.01|TWO_SIDED||||||Chi-squared|||Qualitative variables are expressed as percentage and compared with chi-square test. p values \<0.05 were considered significant.||||<0.01
82398585|NCT01441245|164507249|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82398586|NCT01441245|164507250|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
82398587|NCT01441245|164507251|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
82398588|NCT01441245|164507251|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|Risk Ratio (RR)|2.06||||0.01|TWO_SIDED|95.0|1.65|2.57|||Regression, Linear||BNP levels at discharge \>500 pg/ml (RR: 2.06 \[1.65-2.57\];).|||2.57|1.65|0.01
82530024|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.83|STANDARD_ERROR_OF_MEAN|4.759|||TWO_SIDED|95.0|6.87|26.79|||||Comparison of QTcF Day 1.|||26.79|6.87|
82645319|NCT03985293|165005921|SUPERIORITY||Difference in LS Mean|-14.12||||0.0464|TWO_SIDED|90.0|-25.77|-2.47|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.47|-25.77|0.0464
82645320|NCT03985293|165005921|SUPERIORITY||Difference in LS Mean|-25.84||||0.0002|TWO_SIDED|90.0|-37.05|-14.62|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-14.62|-37.05|0.0002
82374680|NCT02383810|164455664|SUPERIORITY|The overall hypothesis system was represented by the following pool of partial hypothesis systems: Hok: πGi = πGj i = 1 to 3, and j = 2 to 4, and k = 1 to 6, and i ≠ j HAk: πGi ≠πGj i = 1 to 3, and j = 2 to 4, and k = 1 to 6, and i ≠ j where πG is the probability of absence of Grade ≥2 CID for the Group. Each Ho involved 2 groups.|||||<|0.1||||||Overall alpha level 0.10 was maintained by correction for multiplicity according to Hommel's procedure.|Chi-squared|||Overall null hypothesis: All elsiglutide dose groups had equal proportion of subjects with max Grade≥2 diarrhea and this was equal to the one in the placebo group. This includes 6 individual hypotheses (i.e., 3 to compare each dose group vs. placebo and 3 to compare dose groups vs. each other). Raw p-values from Chi square tests were corrected for multiplicity according to the Hommel's procedure. Each of 6 hypotheses was then evaluated based on corrected p-value at alpha 0.10 (two-sided).||||<0.1
82374681|NCT01917214|164455697|SUPERIORITY_OR_OTHER|||||||0.0308|||||||Log Rank|||||||0.0308
82374682|NCT00926783|164455728|SUPERIORITY_OR_OTHER|||||||0.048||||||The p-value was based on Fisher's exact test. There were no adjustments for multiple comparisons.|Fisher Exact|||The null hypothesis is that rates of free from atrial arrhythmia for the two arms, Targeted and Generalized, are the same. The alternative hypothesis is that the rates are not the same. Due to the lack of literature data comparing these endpoints between two randomization groups, the sample size is not statistically powered to support statistical inferences.||||0.048
82374683|NCT00926783|164455729|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||The null hypothesis is that the total RF delivery times for both arms are equal. The alternative hypothesis is that the total RF delivery times are not equal. Due to the lack of literature data comparing these endpoints between two randomization groups, the sample size is not statistically powered to support statistical inferences.||||0.002
82374684|NCT03857750|164455734|OTHER||Mean Difference (Final Values)|82.0|||<|0.001|TWO_SIDED|95.0|40.0|124.0|||t-test, 2 sided|||Comparing onset time of rocuronium||124|40|<0.001
82398589|NCT01441245|164507252|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.03|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.03
82398590|NCT01441245|164507253|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant.||||0.01
82398591|NCT01441245|164507254|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Continuous variables are expressed as mean ± standard deviation (SD) and compared with t test for independent groups. p values \<0.05 were considered significant||||0.05
82398592|NCT01441245|164507255|NON_INFERIORITY_OR_EQUIVALENCE|The sample size used was preliminarily calculated from each co-primary endpoint. We included the following assumptions: (1) a 30 % or more effect size in the difference between mean paired changes in continuous co-primary endpoints (eGFR, creatinine, BNP and diuresis); standard variation of each group data not exceeding 20 %; (2) alpha = 0.05 two-tailed and (3) power (1-beta) = 80 %.|||||<|0.01|TWO_SIDED||||||Chi-squared|||Qualitative variables are expressed as percentage of partecipants and compared with chi-square test. p-value equal or lower than 0.05 are considered statistically significant.||||<0.01
82398593|NCT03543176|164507257|OTHER|||||||0.448||||||P-value for low impact of COPD is presented|Fisher Exact|||||||0.448
82398594|NCT03543176|164507257|OTHER|||||||0.033||||||P-value for medium impact of COPD is presented|Fisher Exact|||||||0.033
82374685|NCT03857750|164455734|OTHER||Odds|19.48|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon Mann-Whitney odd||95 % confidence interval is 7.63 to infinity|82||||<0.001
82374686|NCT03857750|164455736|OTHER||Mean Difference (Final Values)|31.0|||<|0.001|TWO_SIDED|95.0|14.0|48.0|||t-test, 2 sided|||Comparing duration of action of rocuronium||48|14|<0.001
82374687|NCT03857750|164455736|OTHER||Odds|6.35||||0.001|TWO_SIDED||||||Wilcoxon Mann-Whitney odd||95% Confidence interval is 2.59 to infinity.|Comparing duration of action of rocuronium||||0.001
82374688|NCT01696058|164455737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.078|0.135|||Mixed Model Repeated Measure|||Results are from an mixed model repeated measure (MMRM) model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563).||0.135|0.078|<.0001
82398595|NCT03543176|164507257|OTHER|||||||0.172||||||P-value for high impact of COPD is presented|Fisher Exact|||||||0.172
82398596|NCT03543176|164507257|OTHER|||||||0.01||||||P-value for very high impact of COPD is presented|Fisher Exact|||||||0.010
82398597|NCT03543176|164507258|OTHER|||||||0.176||||||P-value for breathlessness reported in COPD assessed using mMRC is presented|Fisher Exact|||||||0.176
82398598|NCT03543176|164507259|OTHER|||||||0.732||||||P-value for Baseline comorbidity burden score was calculated.|t-test, 2 sided|||||||0.732
82530025|NCT00453479|164756397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.46|STANDARD_ERROR_OF_MEAN|5.394|||TWO_SIDED|95.0|9.17|31.75|||||Comparison of QTcF Day 7.|||31.75|9.17|
82374689|NCT01696058|164455738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.013||0.0029|TWO_SIDED|95.0|0.014|0.065|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (555), Tio+Olo 5ug (550).||0.065|0.014|0.0029
82374690|NCT01696058|164455739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.854|STANDARD_ERROR_OF_MEAN|0.461|<|0.0001|TWO_SIDED|95.0|-2.757|-0.951|||ANCOVA|||"Results are from ANCOVA model. Fixed effects include study, treatment and baseline.~Number of patients contributing to models: Tio+Placebo (1055), Tio+Olo 5ug (1039)."||-0.951|-2.757|<.0001
82374691|NCT01696058|164455740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.071|0.129|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.129|0.071|<.0001
82374692|NCT01696058|164455741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.072|0.164|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.164|0.072|<.0001
82374693|NCT01696058|164455742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.057|0.152|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (566), Tio+Olo 5ug (563)."||0.152|0.057|<.0001
82374694|NCT01696058|164455743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034|STANDARD_ERROR_OF_MEAN|0.022||0.1156|TWO_SIDED|95.0|-0.008|0.076|||Mixed Model Repeated Measure|||"Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used.~Number of patients contributing to models: Tio+Placebo (555), Tio+Olo 5ug (550)."||0.076|-0.008|0.1156
82374695|NCT01696058|164455744|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|7.237|STANDARD_ERROR_OF_MEAN|2.145||0.0008|TWO_SIDED|95.0|3.028|11.446|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (552)."||11.446|3.028|0.0008
82374696|NCT01696058|164455745|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.568|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-0.8|-0.336|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.336|-0.800|<.0001
82374697|NCT01696058|164455746|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 1|-0.09|STANDARD_ERROR_OF_MEAN|0.045||0.0467|TWO_SIDED|95.0|-0.178|-0.001|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.001|-0.178|0.0467
82374698|NCT01696058|164455747|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.483|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.668|-0.298|||ANCOVA|||"Week 12 - Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (559), Tio+Olo 5ug (555)."||-0.298|-0.668|<.0001
82374699|NCT01934335|164455748|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
82398599|NCT03543176|164507260|OTHER|||||||0.013||||||P-value for count of unique medications was calculated.|t-test, 2 sided|||||||0.013
82398600|NCT03543176|164507261|OTHER|||||||0.178||||||P-value for total number of medications dispensing was calculated.|t-test, 2 sided|||||||0.178
82398601|NCT03543176|164507267|OTHER|||||||0.692||||||P-value for count of unique COPD medications was calculated|t-test, 2 sided|||||||0.692
82645321|NCT03985293|165005921|SUPERIORITY||Difference in LS Mean|-31.78|||<|0.0001|TWO_SIDED|90.0|-43.2|-20.35|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.35|-43.20|<.0001
82374700|NCT01934335|164455749|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
82398602|NCT03543176|164507268|OTHER||||||<|0.001||||||P-value for total number of COPD medications dispensing was calculated|t-test, 2 sided|||||||<0.001
82398603|NCT01964989|164507276|SUPERIORITY|Relative vaccine efficacy (rVE; ≥6 to \<72 months) rVE = (1-HR) is the relative vaccine efficacy of aQIV and HR is defined as hazard ratio between aQIV and non adjuvanted comparator.|Cox Proportional Hazard|-0.67|||||TWO_SIDED|95.0|-19.81|15.41||||||||15.41|-19.81|
82398604|NCT01964989|164507283|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% confidence interval (CI) on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|1.91|||||TWO_SIDED|95.0|1.8|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H1N1, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.8|
82374701|NCT01934335|164455750|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82374702|NCT01421511|164455751|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the early clinical response rates at 48 to 72 Hours after the first infusion of study drug using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10%.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-3.0|8.2|||||Risk difference corresponds to the tedizolid responder rate minus the linezolid responder rate.|||8.2|-3.0|
82398605|NCT01964989|164507283|OTHER||GMT ratio|1.86|||||TWO_SIDED|95.0|1.7|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H1N1, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.7|
82398606|NCT01964989|164507283|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|1.71|||||TWO_SIDED|95.0|1.6|1.8||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H3N2, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||1.8|1.6|
82645322|NCT03985293|165005921|SUPERIORITY||Difference in LS Mean|-27.02||||0.0002|TWO_SIDED|90.0|-39.03|-15.01|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-15.01|-39.03|0.0002
82398607|NCT01964989|164507283|OTHER||GMT ratio|1.57|||||TWO_SIDED|95.0|1.4|1.7||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for A/H3N2, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||1.7|1.4|
82398608|NCT01964989|164507283|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|2.19|||||TWO_SIDED|95.0|2.0|2.4||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/YAM, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.4|2.0|
82398609|NCT01964989|164507283|OTHER||GMT ratio|1.86|||||TWO_SIDED|95.0|1.7|2.0||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/YAM, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.0|1.7|
82398610|NCT01964989|164507283|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the adjusted ratio of GMTs for HI antibody titer exceeds 1.|GMT ratio|2.27|||||TWO_SIDED|95.0|2.0|2.6||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/VIC, D22/50 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.6|2.0|
82398611|NCT01964989|164507283|OTHER||GMT ratio|1.8|||||TWO_SIDED|95.0|1.6|2.1||||||GMT ratio (aQIV/Comparator \[TIV/QIV\]) for B/VIC, D181/209 (Pooled Naïve \& Non-naïve). An adjusted analysis GMT model (log-transformed postvaccination HI titer = log-transformed prevaccination HI titer+treatment group+ age group, health status+ season + country) was used for analysis.||2.1|1.6|
82398612|NCT01964989|164507285|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.8|1.0||||||aQIV GMT ratio (High risk/Healthy) for A/H1N1 at D22/50 (Pooled Naïve \& Non-naïve).||1.0|0.8|
82398613|NCT01964989|164507285|OTHER||GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.1||||||aQIV GMT ratio (High risk/Healthy) for A/H3N2 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.9|
82398614|NCT01964989|164507285|OTHER||GMT ratio|0.98|||||TWO_SIDED|95.0|0.8|1.1||||||aQIV GMT ratio (High risk/Healthy) for B/YAM at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
82398615|NCT01964989|164507285|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.8|1.1||||||aQIV GMT ratio (High risk/Healthy) for B/VIC at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
82398616|NCT01964989|164507285|OTHER||GMT ratio|0.95|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for A/H1N1 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
82398617|NCT01964989|164507285|OTHER||GMT ratio|0.98|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for A/H3N2 at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
82398618|NCT01964989|164507285|OTHER||GMT ratio|0.95|||||TWO_SIDED|95.0|0.8|1.1||||||TIV/QIV GMT ratio (High risk/Healthy) for B/YAM at D22/50 (Pooled Naïve \& Non-naïve).||1.1|0.8|
82398619|NCT01964989|164507285|OTHER||GMT ratio|0.92|||||TWO_SIDED|95.0|0.7|1.2||||||TIV/QIV GMT ratio (High risk/Healthy) for B/VIC at D22/50 (Pooled Naïve \& Non-naïve).||1.2|0.7|
82398620|NCT01964989|164507287|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|8.2|||||TWO_SIDED|95.0|5.0|11.3||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for A/H1N1.||11.3|5.0|
82398621|NCT01964989|164507287|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|5.2|||||TWO_SIDED|95.0|1.9|8.4||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for A/H3N2.||8.4|1.9|
82398622|NCT01964989|164507287|SUPERIORITY||Seroconversion difference|21.3|||||TWO_SIDED|95.0|18.1|24.5||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for B/YAM.||24.5|18.1|
82398623|NCT01964989|164507287|SUPERIORITY|Superiority criterion: The lower bound of the two-sided 95% CI on the unadjusted difference of percentages of subjects seroconverted for HI antibody exceeds 0%.|Seroconversion difference|13.6|||||TWO_SIDED|95.0|10.0|17.3||||||Seroconversion difference (aQIV - Comparator \[TIV/QIV\]) for B/VIC.||17.3|10.0|
82398624|NCT01964989|164507288|OTHER||Mean Difference (Final Values)|11.5|||||TWO_SIDED|95.0|9.4|13.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for A/H1N1.||13.7|9.4|
82398625|NCT01964989|164507288|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|6.1|9.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for A/H3N2.||9.7|6.1|
82398626|NCT01964989|164507288|OTHER||Mean Difference (Final Values)|21.9|||||TWO_SIDED|95.0|18.1|25.6||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for B/YAM.||25.6|18.1|
82398627|NCT01964989|164507288|OTHER||Mean Difference (Final Values)|20.9|||||TWO_SIDED|95.0|15.9|25.7||||||Difference in HI titers ≥ 1:40 (aQIV - Comparator \[TIV/QIV\]) for B/VIC.||25.7|15.9|
82398628|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|5.9|9.7||||||Difference in HI titers ≥ 1:110 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.7|5.9|
82398629|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|7.8|11.9||||||Difference in HI Titers ≥ 1:151 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||11.9|7.8|
82398630|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|16.1|||||TWO_SIDED|95.0|13.5|18.7||||||Difference in HI Titers ≥ 1:215 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||18.7|13.5|
82398631|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|19.8|26.4||||||Difference in HI Titers ≥ 1:330 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||26.4|19.8|
82398632|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|24.1|||||TWO_SIDED|95.0|20.6|27.6||||||Difference in HI Titers ≥ 1:629 for A/H1N1 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||27.6|20.6|
82398633|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|4.5|7.5||||||Difference in HI Titers ≥ 1:110 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||7.5|4.5|
82645323|NCT03985293|165005921|SUPERIORITY||Difference in LS Mean|-33.24|||<|0.0001|TWO_SIDED|90.0|-45.63|-20.84|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-20.84|-45.63|<.0001
82374703|NCT01421511|164455752|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the programmatic clinical response at the EOT visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-6.1|4.1||Hierarchical testing procedure of Westfall and Krishen used to control for inflation of the overall type I error rate. If NI is declared for the primary, NI will be tested for the secondary outcomes in this order: Secondary Outcomes Measures 2 to 5.|||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||4.1|-6.1|
82374704|NCT01421511|164455753|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the EOT Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-8.8|0.3|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||0.3|-8.8|
82374705|NCT01421511|164455754|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-4.8|5.3|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||5.3|-4.8|
82374706|NCT01421511|164455755|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE Visit using the method of Miettinen and Nurminen without stratification. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-3.7|||||TWO_SIDED|95.0|-7.7|0.2|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||0.2|-7.7|
82374707|NCT01421511|164455756|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-3.3|5.6|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the 48-72 Hour Visit using the method of Miettinen and Nurminen without stratification.||5.6|-3.3|
82374708|NCT01421511|164455757|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-3.2|4.9|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the Day 7 Visit using the method of Miettinen and Nurminen without stratification.||4.9|-3.2|
82374709|NCT00423319|164455788|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.22|0.54||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||0.54|0.22|<0.0001
82374710|NCT00423319|164455788|SUPERIORITY_OR_OTHER||Risk Difference|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.54|1.5||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||1.50|-3.54|<0.0001
82374711|NCT00423319|164455789|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.15|0.8||Statistically significant at the 1-sided 0.025 level|Farrington-Manning test||Apixaban-enoxaparin|||0.80|0.15|<0.0001
82374712|NCT00423319|164455789|SUPERIORITY_OR_OTHER||Risk difference|-0.68||||0.0054|TWO_SIDED|95.0|-1.27|-0.17||Statistically significant at the 1-sided 0.025 level|Chi-squared||Apixaban-enoxaparin|||-0.17|-1.27|0.0054
82398634|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|7.8|||||TWO_SIDED|95.0|6.1|9.6||||||Difference in HI Titers ≥ 1:151 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.6|6.1|
82398635|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|11.7|||||TWO_SIDED|95.0|9.6|13.9||||||Difference in HI Titers ≥ 1:215 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||13.9|9.6|
82398636|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|19.0|||||TWO_SIDED|95.0|16.1|22.0||||||Difference in HI Titers ≥ 1:330 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||22.0|16.1|
82374713|NCT00423319|164455791|SUPERIORITY_OR_OTHER||Difference in event rates|0.15||||0.54|TWO_SIDED|95.0|-0.33|0.64||2-sided P-Value|Chi-squared||Major bleeding. Apixaban-enoxaparin|||0.64|-0.33|0.54
82374714|NCT00423319|164455791|SUPERIORITY_OR_OTHER||Difference in event rates|-0.44||||0.43|TWO_SIDED|95.0|-1.53|0.66||2-sided P-Value|Chi-squared||CRNM. Apixaban-enoxaparin|||0.66|-1.53|0.43
82398637|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|21.1|||||TWO_SIDED|95.0|17.8|24.3||||||Difference in HI Titers ≥ 1:629 for A/H3N2 (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||24.3|17.8|
82398638|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|28.8|||||TWO_SIDED|95.0|25.1|32.3||||||Difference in HI Titers ≥ 1:110 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||32.3|25.1|
82398639|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|26.3|||||TWO_SIDED|95.0|22.6|29.9||||||Difference in HI Titers ≥ 1:151 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||29.9|22.6|
82398640|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|21.8|||||TWO_SIDED|95.0|18.3|25.3||||||Difference in HI Titers ≥ 1:215 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||25.3|18.3|
82398641|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|8.6|14.5||||||Difference in HI Titers ≥ 1:330 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||14.5|8.6|
82398642|NCT01964989|164507289|OTHER||Mean Difference (Final Values)|6.8|||||TWO_SIDED|95.0|4.3|9.4||||||Difference in HI Titers ≥ 1:629 for B/YAM (aQIV - Comparator \[TIV/QIV\]) at Day 22/50.||9.4|4.3|
82398643|NCT02769312|164507300|OTHER||Effect size (cohen's d)|0.16||||0.46|TWO_SIDED||||||ANCOVA|||||||0.46
82398644|NCT02769312|164507301|SUPERIORITY||Effect size (cohen's d)|0.12||||0.61|TWO_SIDED||||||ANCOVA|||||||0.61
82398645|NCT02769312|164507302|SUPERIORITY||Effect size (cohen's d)|0.39||||0.04|TWO_SIDED||||||ANCOVA|||||||.04
82398646|NCT00519584|164507331|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.39|||Log Rank||Ropivacaine/dex vs. Ropivacaine/saline|||0.39|0.08|<0.001
82374715|NCT00423319|164455791|SUPERIORITY_OR_OTHER||Difference in event rates|-0.21||||0.72|TWO_SIDED|95.0|-1.38|0.95||2-sided P-Value|Chi-squared||Major or CRNM. Apixaban-enoxaparin|||0.95|-1.38|0.72
82398647|NCT00519584|164507331|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.23|0.83|||Log Rank||bupivacaine/dex vs. bupivacaine/Saline|||0.83|0.23|<0.001
82374716|NCT00423319|164455791|SUPERIORITY_OR_OTHER||Difference in event rate|-0.85||||0.34|TWO_SIDED|95.0|-2.61|0.9||2-sided P-Value|Chi-squared||Any bleeding. Apixaban-enoxaparin|||0.90|-2.61|0.34
82374717|NCT00423319|164455801|SUPERIORITY_OR_OTHER||Difference in event rates|-0.04|||||TWO_SIDED|95.0|-0.34|0.26|||||Apixaban-enoxaparin. MI/stroke|||0.26|-0.34|
82374718|NCT00423319|164455801|SUPERIORITY_OR_OTHER||Difference in event rates|0.07|||||TWO_SIDED|95.0|-0.17|0.34|||||Apixaban-enoxaparin. MI|||0.34|-0.17|
82374719|NCT00423319|164455801|SUPERIORITY_OR_OTHER||Difference in event rates|-0.11|||||TWO_SIDED|95.0|-0.35|0.07|||||Apixaban-enoxaparin. Stroke|||0.07|-0.35|
82374720|NCT00423319|164455801|SUPERIORITY_OR_OTHER||Difference in event rates|-0.04|||||TWO_SIDED|95.0|-0.26|0.17|||||Apixaban-enoxaparin. Thrombocytopenia|||0.17|-0.26|
82374721|NCT02639052|164455802|SUPERIORITY_OR_OTHER|||||||0.9704||||||Significance defined a priori as p\<0.05. P-values not adjusted for multiple comparisons.|ANOVA with Repeated Measures|||Baseline assessment of itch VAS after itch induction but prior to Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||0.9704
82374722|NCT02639052|164455803|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|||1 week (Visit 2) was the first assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||<0.0001
82374723|NCT02639052|164455804|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Statistically significant difference in mean itch VAS between the two treatments (Botox mean=2.45 versus saline mean=3.20, p\<0.0001). Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|||1 month (Visit 3) was the second assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||<0.0001
82374724|NCT02639052|164455805|SUPERIORITY_OR_OTHER|||||||0.0004||||||Statistical significance defined a priori as p\<0.05. P-values have not been adjusted for multiple comparisons.|ANOVA with Repeated Measures|Analyzed using ANOVA with repeated measures to compare treatment (Botox vs saline), time, and interaction effect between treatment \& time||3 months (Visit 4) was the third assessment of itch VAS after itch induction after Botox or saline application. Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and time, and interaction effect between treatment and time.||||0.0004
82374725|NCT02639052|164455806|SUPERIORITY_OR_OTHER|||||||0.1306||||||Statistical significance defined a priori as p\<0.05.|ANOVA with Repeated Measures|||Analyzed using ANOVA with repeated measures to compare main effects of treatment (Botox vs saline) and visit, and interaction effect between treatment and visit.||||0.1306
82374726|NCT03316378|164455850|SUPERIORITY||Mean Difference (Final Values)|73.8||||0.44|TWO_SIDED|||||Adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||0.44
82374727|NCT03316378|164455850|SUPERIORITY||Mean Difference (Final Values)|31.7||||0.08|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||0.08
82374728|NCT03316378|164455851|SUPERIORITY||Mean Difference (Final Values)|6.9|||<|0.001|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||<0.001
82374729|NCT03316378|164455851|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.012|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||0.012
82374730|NCT03316378|164455852|SUPERIORITY||Mean Difference (Final Values)|0.15||||1|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 1: Between groups||||1.0
82374731|NCT03316378|164455852|SUPERIORITY||Mean Difference (Final Values)|0.05||||1|TWO_SIDED|||||P-value adjusted for multiple comparisons|ANOVA|||Specific Aim 2: Effect of time||||1.0
82374732|NCT00960115|164455886|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.828|TWO_SIDED|95.0|0.614|1.479||This trial was not powered to demonstrate statistical significance of treatment differences with respect to a statistical test, i.e., the p value being lower than a significance level of alpha (α) = 0.05.|Log Rank||Cox proportional hazards regression model|||1.479|0.614|0.828
82374733|NCT04428333|164455892|SUPERIORITY|Other|Hazard Ratio (HR)|2.16||||0.74|TWO_SIDED|95.0|0.2|23.87||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and Human Papilloma Virus (HPV) status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||23.87|0.20|0.740
82374734|NCT04428333|164455893|SUPERIORITY|Other|Hazard Ratio (HR)|2.16||||0.74|TWO_SIDED|95.0|0.2|23.87||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥ 20 vs 1≤ CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||23.87|0.20|0.740
82398648|NCT00519584|164507332|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82398649|NCT00519584|164507332|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82398650|NCT00519584|164507333|SUPERIORITY||||||<|0.001||||||adjusted significance level is 0.025|Wilcoxon (Mann-Whitney)|||||||<0.001
82398651|NCT00519584|164507333|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82398652|NCT00519584|164507334|SUPERIORITY|||||||0.29||||||adjusted significance level = 0.025|Wilcoxon (Mann-Whitney)|||||||0.29
82374735|NCT04428333|164455894|SUPERIORITY|Other|Hazard Ratio (HR)|0.7||||0.284|TWO_SIDED|95.0|0.2|2.43||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.43|0.20|0.284
82398653|NCT00519584|164507334|SUPERIORITY|||||||0.15||||||adjusted significance level = 0.025|Wilcoxon (Mann-Whitney)|||||||0.15
82398654|NCT05259917|164507335|SUPERIORITY||||||<|0.0001|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||<0.0001
82398655|NCT05259917|164507335|SUPERIORITY|||||||0.0013|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||0.0013
82398656|NCT05259917|164507336|SUPERIORITY|||||||0.0036|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||0.0036
82398657|NCT05259917|164507336|SUPERIORITY|||||||0.0032|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||0.0032
82398658|NCT05259917|164507337|SUPERIORITY|||||||0.0022|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 300 mg vs Placebo"||||0.0022
82398659|NCT05259917|164507337|SUPERIORITY||||||<|0.0001|||||||Gehan score transformation test|||"Gehan score transformation test:~KVD900 600 mg vs Placebo"||||<0.0001
82398660|NCT00592592|164507338|OTHER||Cumulative incidence|10.9|||||TWO_SIDED|95.0|5.7|18.0||||||||18.0|5.7|
82398661|NCT00592592|164507340|OTHER||% hypothalamus normal tissue spared|88.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
82398662|NCT00592592|164507340|OTHER||% pituitary normal tissue spared|73.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
82398663|NCT00592592|164507340|OTHER||% lens (contra) normal tissue spared|100.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.01
82398664|NCT00592592|164507340|OTHER||% maxilla normal tissue spared|42.0||||0.02|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.02
82398665|NCT00592592|164507341|OTHER||Percent Survival, Local Control|80.9|||||TWO_SIDED|95.0|73.0|87.7||||||||87.7|73.0|
82398666|NCT03585712|164507371|OTHER|Is the overall mean change from baseline different from zero? Or did the infringement of schedule regardless the type of infringement lead to a change in mucus score?||||||0.26||||||P value from model testing intercept (does infringement change mucus score?) P-value from a repeated measures mixed model with the period, intervention, sequence and time (visit) as covariates. P-values ≤0.050 are considered significant|Mixed Models Analysis|||"Mixed model for repeated measures using as response delta to Day41, delta to Day42, delta to Day70 and delta to Day71.~Covariates: period, intervention (missed pill or delayed pill), sequence of intervention (missed pill then delayed pill and vice versa), time and subject.~Subject as random effect + time repeated effect within each combination subject\* period"||||0.26
82398667|NCT03585712|164507372|OTHER||||||>|0.999||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Absence of risk increase||||>0.999
82398668|NCT03585712|164507372|OTHER|||||||0.655||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Transient risk increase||||0.655
82398669|NCT03585712|164507372|OTHER|||||||0.317||||||p values \> 0.050 (Not Statistically significant)|McNemar|McNemar test comparing agreement in the missed and delayed periods||Prolonged risk increase||||0.317
82530026|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|95.0|-0.035|0.328|||||Comparison of FEV1, Day 1, 1 hour|||0.328|-0.035|
82530027|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.171|STANDARD_ERROR_OF_MEAN|0.0944|||TWO_SIDED|95.0|-0.015|0.357|||||Comparison of FEV1, Day 1, 2 hour|||0.357|-0.015|
82398670|NCT03585712|164507373|OTHER||||||<|0.001||||||Indicates significance at the 0.05 level (p-value ≤ 0.05)|McNemar|P-value from an exact kappa test comparing agreement of ovarian status vs the reported perfect use period||A stratified McNemar test (stratification on the site, AGREE option in SAS) was used to compare the distribution of ovarian activity classification in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use). The worst (meaning most risk of ovulation) ovarian activity category in the period was used for the analyses.||||<0.001
82398671|NCT03585712|164507373|OTHER||||||<|0.001||||||Indicates significance at the 0.05 level (p-value ≤ 0.05)|McNemar|P-value from an exact kappa test comparing agreement of ovarian status vs the reported perfect use period.||A stratified McNemar test (stratification on the site, AGREE option in SAS) was used to compare the distribution of ovarian activity classification in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use). The worst (meaning most risk of ovulation) ovarian activity category in the period was used for the analyses.||||<0.001
82398672|NCT03585712|164507374|OTHER|||||||0.127|||||||McNemar|P-value from an exact kappa test comparing agreement of cervical mucus score classification vs the reported perfect use period||Stratified McNemar test (stratification on the site, AGREE option in SAS) to compare the distribution of cervical mucus scores in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use).||||0.127
82398673|NCT03585712|164507374|OTHER|||||||0.018||||||\* Indicates significance at the 0.05 level (p-value ≤ 0.05).|McNemar|P-value from an exact kappa test comparing agreement of cervical mucus score classification vs the reported perfect use period.||Stratified McNemar test (stratification on the site, AGREE option in SAS) to compare the distribution of cervical mucus scores in the perfect use period to the delayed and missed pill periods (pairwise vs perfect use).||||0.018
82398674|NCT02007278|164507382|NON_INFERIORITY_OR_EQUIVALENCE|Power=95%; significance level=5%, characteristic operation curves were used with a non-central F distribution for the calculation of the sample size||||||0.451|||||||Wilcoxon (Mann-Whitney)|||||||0.4510
82398675|NCT04475718|164507392|OTHER|Preliminary Efficacy|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82398676|NCT00497055|164507403|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.41||95.0|0.66|1.16|||Generalized estimating equation|||||1.16|.66|.41
82398677|NCT00497055|164507404|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
82530028|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|95.0|-0.107|0.228|||||Comparison of FEV1, Day 1, 4 hour|||0.228|-0.107|
82374736|NCT04428333|164455895|SUPERIORITY|Other|Hazard Ratio (HR)|0.7||||0.284|TWO_SIDED|95.0|0.2|2.43||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.43|0.20|0.284
82374737|NCT04428333|164455898|OTHER||Difference in Percentage|-4.8|||||TWO_SIDED|95.0|-20.8|11.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||11.3|-20.8|
82374738|NCT04428333|164455899|OTHER||Difference in Percentage|-5.1|||||TWO_SIDED|95.0|-21.4|11.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||11.3|-21.4|
82374739|NCT04428333|164455900|OTHER||Difference in Percentage|-4.8|||||TWO_SIDED|95.0|-22.2|13.1||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||13.1|-22.2|
82374740|NCT04428333|164455901|OTHER||Difference in Percentage|-5.1|||||TWO_SIDED|95.0|-22.8|13.3||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||13.3|-22.8|
82398678|NCT00497055|164507405|SUPERIORITY_OR_OTHER||||||>=|0.99|||||||Fisher Exact|||||||>=0.99
82398679|NCT04333225|164507434|OTHER|Other: estimating risk reduction|Risk Ratio (RR)|2.0718||||0.0112|TWO_SIDED|95.0|1.15|3.72|||Chi-squared|||||3.72|1.15|0.0112
82398680|NCT04333225|164507435|OTHER|Other: Estimating hazard ratio|Hazard Ratio (HR)|0.35||||0.0105|TWO_SIDED|95.0|0.17|0.75|||Log Rank|||||0.75|0.17|0.0105
82398681|NCT04424914|164507449|OTHER|||||||0.3006|||||||Chi-squared|p-values for comparison of proportions of CLASS I+II vs CLASS III+IV were based on a Chi-square test.||||||0.3006
82398682|NCT04424914|164507450|OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
82398683|NCT01215435|164507475|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval for the mean HbA1c treatment difference was below or equal to 0.4%. This is equivalent to using a one-sided test of size 2.5%.|Estimated treatment difference, Mean|-0.14|||<|0.001||95.0|-0.4|0.13|||Regression, Linear|||H0: D \> 0.4% against H1: D ≤ 0.4% where D is the mean treatment difference for change in HbA1c (pre-breakfast OD minus pre-dinner OD)||0.13|-0.40|<0.001
82445288|NCT04971941|164599099|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|2.17||0.001|TWO_SIDED|95.0|0.4|2.1||This P value applies to comparison of IAN with and without DentalVibe|t-test, 2 sided|df =58||Sample size estimation from Nanitsos 2010: Using the P value from the paired T test with 61 degrees of freedom the T statistic calculated at 4.365. From mean difference 9.3 SD was calculated as 16.66 for an effect size of 0.558. This generated a sample size of 44 subjects, receiving 2 injections (1 with DV3 and 1 without), is necessary to attain 95% power for a paired t-test comparing the 2 pain measures at a two-tailed alpha level of 0.05. P value for IAN||2.1|0.4|0.001
82645324|NCT03985293|165005922|SUPERIORITY||Difference in LS Mean|0.06||||0.8011|TWO_SIDED|90.0|-0.33|0.44|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.44|-0.33|0.8011
82398684|NCT01215435|164507476|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-3.14||||0.6215||95.0|-15.65|9.37|||Regression, Linear|||||9.37|-15.65|0.6215
82398685|NCT05811026|164507493|SUPERIORITY||Median Difference (Net)|5.0||||0.075|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.075
82398686|NCT05811026|164507494|SUPERIORITY||Median Difference (Net)|0.17||||0.4727|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.4727
82398687|NCT05811026|164507495|SUPERIORITY||Median Difference (Net)|-1.5||||0.7326|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.7326
82398688|NCT05811026|164507496|SUPERIORITY||Median Difference (Net)|0.61||||0.0757|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0757
82398689|NCT05811026|164507497|SUPERIORITY||Median Difference (Net)|37.75||||0.0376|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0376
82398690|NCT05811026|164507498|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.3123|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.3123
82398691|NCT05811026|164507499|SUPERIORITY||Median Difference (Final Values)|1.0||||0.1009|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.1009
82398692|NCT05811026|164507500|SUPERIORITY||Mean Difference (Net)|5.5||||0.0088|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0088
82645325|NCT03985293|165005922|SUPERIORITY||Difference in LS Mean|0.02||||0.9149|TWO_SIDED|90.0|-0.35|0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.40|-0.35|0.9149
82398693|NCT05811026|164507501|SUPERIORITY||Median Difference (Net)|-0.03||||0.4274|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.4274
82398694|NCT05811026|164507502|SUPERIORITY||Mean Difference (Net)|1.75||||0.6497|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6497
82398695|NCT05811026|164507503|SUPERIORITY||Median Difference (Net)|0.54||||0.0006|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0006
82398696|NCT05811026|164507504|SUPERIORITY||Median Difference (Net)|34.5||||0.0002|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0002
82398697|NCT05811026|164507505|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6231|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6231
82398698|NCT05811026|164507506|SUPERIORITY||Median Difference (Final Values)|0.0||||0.3327|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.3327
82398699|NCT05811026|164507507|SUPERIORITY||Median Difference (Net)|7.25||||0.0752|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0752
82398700|NCT05811026|164507508|SUPERIORITY||Median Difference (Net)|-0.94||||0.0982|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0982
82398701|NCT05811026|164507509|SUPERIORITY||Median Difference (Net)|-0.5||||0.8541|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.8541
82398702|NCT05811026|164507510|SUPERIORITY||Median Difference (Net)|0.63||||0.0758|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0758
82530029|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.1195|||TWO_SIDED|95.0|-0.085|0.386|||||Comparison of FEV1, Day 1, 9 hour|||0.386|-0.085|
82645326|NCT03985293|165005922|SUPERIORITY||Difference in LS Mean|-0.08||||0.7216|TWO_SIDED|90.0|-0.46|0.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.30|-0.46|0.7216
82398703|NCT05811026|164507511|SUPERIORITY||Median Difference (Net)|41.75||||0.066|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.066
82398704|NCT05811026|164507512|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.6961|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.6961
82398705|NCT05811026|164507513|SUPERIORITY||Median Difference (Final Values)|1.0||||0.0067|TWO_SIDED|||||Statistical significance was defined as a p-value \< 0.05.|Wilcoxon (Mann-Whitney)||Differece = (2-week interval group) - (4-week interval group)|||||0.0067
82398706|NCT02870205|164507515|SUPERIORITY||||||<|0.001||||||GSP 301 NS vs GSP 301 placebo NS comparison for rTNSS was tested at 0.05 significance level.|ANCOVA|||||||<0.001
82398707|NCT02870205|164507515|SUPERIORITY|||||||0.028|||||||ANCOVA|||||||0.028
82398708|NCT02870205|164507515|SUPERIORITY|||||||0.019|||||||ANCOVA|||||||0.019
82398709|NCT02870205|164507515|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82398710|NCT02870205|164507515|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82398711|NCT01945294|164507523|SUPERIORITY_OR_OTHER||Difference in SVR12 percentage|-11.4|||||TWO_SIDED|95.0|-23.2|0.4||||||||0.4|-23.2|
82398712|NCT01156051|164507531|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||Null hypothesis: no difference in total sleep time (TST) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.005
82398713|NCT01156051|164507532|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Null hypothesis: no difference in ADHD Rating Scales - IV total scores from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||<0.001
82398714|NCT01156051|164507533|SUPERIORITY_OR_OTHER|||||||0.392|||||||ANOVA|||Null hypothesis: no difference in latency to persistent sleep (LPS) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.392
82398715|NCT01156051|164507534|SUPERIORITY_OR_OTHER|||||||0.059|||||||ANOVA|||Null hypothesis: no difference in total sleep time (TST) from baseline to termination. ANOVA single measure, two-tailed, Type II analysis was completed using SPSS.||||0.059
82398716|NCT01180049|164507561|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.731|||||TWO_SIDED|80.0|0.52|1.027||||||||1.027|0.520|
82398717|NCT01180049|164507562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.778|||||TWO_SIDED|80.0|0.568|1.064||||||||1.064|0.568|
82445289|NCT04971941|164599099|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_DEVIATION|1.75||0.02|TWO_SIDED|95.0|-1.7|-1.5|||t-test, 2 sided|df= 58||||-1.5|-1.7|0.02
82445290|NCT04971941|164599099|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.74||0.004|TWO_SIDED|95.0|0.4|2.1|||t-test, 2 sided|||||2.1|0.4|0.004
82530030|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.124|STANDARD_ERROR_OF_MEAN|0.1107|||TWO_SIDED|95.0|-0.094|0.343|||||Comparison of FEV1, Day 1, 12 hour|||0.343|-0.094|
82398718|NCT01180049|164507563|SUPERIORITY_OR_OTHER||Difference in arms|6.7|||||TWO_SIDED|80.0|-6.9|20.3||||||Independent assessment- Difference (%) TEMSR 175/75 mg - TEMSR 75 mg (80% CI)||20.3|-6.9|
82398719|NCT01180049|164507564|SUPERIORITY_OR_OTHER||Difference between arms|13.3|||||TWO_SIDED|80.0|-0.4|26.7||||||Investigator's assessment- Difference (%)TEMSR 175/75 mg - TEMSR 75 mg (80% CI)||26.7|-0.4|
82398720|NCT01180049|164507565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.646|||||TWO_SIDED|80.0|0.453|0.922||||||||0.922|0.453|
82530031|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.163|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.077|0.404|||||Comparison of FEV1, Day 1, 24 hour|||0.404|-0.077|
82530032|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.236|STANDARD_ERROR_OF_MEAN|0.1057|||TWO_SIDED|95.0|0.027|0.444|||||Comparison of FEV1, Day 7, Baseline|||0.444|0.027|
82645327|NCT03985293|165005922|SUPERIORITY||Difference in LS Mean|-0.42||||0.0758|TWO_SIDED|90.0|-0.8|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.03|-0.80|0.0758
82374741|NCT04428333|164455918|SUPERIORITY|Other|Hazard Ratio (HR)|0.85||||0.329|TWO_SIDED|95.0|0.42|1.71||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.71|0.42|0.329
82445291|NCT04971941|164599100|SUPERIORITY||Mean Difference (Net)|4.0||||0.001|TWO_SIDED|14.0|0.4|4.8||This P value applies to comparing IAN with or with DV as measured by SSI tolerability/ability to endure|t-test, 2 sided|||||4.8|0.4|0.001
82645328|NCT03985293|165005922|SUPERIORITY||Difference in LS Mean|-0.4||||0.086|TWO_SIDED|90.0|-0.77|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.02|-0.77|0.0860
82374742|NCT04428333|164455919|SUPERIORITY|Other|Hazard Ratio (HR)|0.82||||0.302|TWO_SIDED|95.0|0.4|1.69||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.69|0.40|0.302
82374743|NCT04428333|164455920|SUPERIORITY|Other|Hazard Ratio (HR)|0.96||||0.472|TWO_SIDED|95.0|0.44|2.11||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20 vs. CPS \<1) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||2.11|0.44|0.472
82374744|NCT04428333|164455921|SUPERIORITY|Other|Hazard Ratio (HR)|0.83||||0.335|TWO_SIDED|95.0|0.36|1.9||Nominal p-value was calculated based on the one sided log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and corresponding 2-sided 95% confidence interval was calculated from the cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by PD-L1 expression (CPS≥20 vs 1≤CPS\<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.90|0.36|0.335
82374745|NCT04853992|164455922|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.5||0.277|TWO_SIDED|95.0|-1.69|0.53|||Mixed Models Analysis|||The primary endpoint, change from baseline in post-provocation Urticaria Activity Score (UASprovo) to the end of the treatment period, was compared between treatments with the null hypothesis that they are equal against the alternative that they are different. The primary efficacy endpoint was analysed using a linear mixed model, containing treatment, period and carryover effects, the factor site and additionally the value of UASprovo at baseline as a covariate.||0.53|-1.69|0.277
82374746|NCT00758680|164455927|SUPERIORITY_OR_OTHER||LS Mean Difference on Last Dosing Day|37.63||||0.015|TWO_SIDED|95.0|12.58|62.68|||Mixed Effect Model|||||62.68|12.58|0.015
82374747|NCT00758680|164455927|SUPERIORITY_OR_OTHER||LS Mean Difference on Last Dosing Day|92.3|||<|0.001|TWO_SIDED|95.0|67.56|117.04|||Mixed Effect Model|||||117.04|67.56|<0.001
82374748|NCT01284621|164455929|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by empa alone|Geometric mean ratio|96.55|STANDARD_DEVIATION|7.1|||TWO_SIDED|90.0|93.05|100.18|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||100.18|93.05|
82374749|NCT01284621|164455930|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by empa alone|Geometric mean ratio|104.47|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|97.65|111.77|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||111.77|97.65|
82374750|NCT01284621|164455931|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone|Geometric mean ratio|108.14|STANDARD_DEVIATION|14.0|||TWO_SIDED|90.0|100.51|116.35|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||116.35|100.51|
82374751|NCT01284621|164455932|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone.|Geometric mean ratio|103.61|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|89.73|119.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||119.64|89.73|
82374752|NCT01284621|164455933|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone|Geometric mean ratio|98.67|STANDARD_DEVIATION|5.2|||TWO_SIDED|90.0|96.0|101.42|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||101.42|96.00|
82374753|NCT01284621|164455934|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability. Ratio calculated as empa plus ramipril divided by ramipril alone.|Geometric mean ratio|98.29|STANDARD_DEVIATION|11.3|||TWO_SIDED|90.0|92.67|104.25|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV|||104.25|92.67|
82445292|NCT04971941|164599100|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82445293|NCT04971941|164599100|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82445294|NCT04971941|164599100|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
82374754|NCT02293863|164455991|OTHER||Hazard Ratio (HR)|1.08||||0.605|TWO_SIDED|80.0|0.83|1.4|||Wilcoxon (Mann-Whitney)|||||1.40|0.83|0.6050
82374755|NCT02293863|164455991|OTHER||Hazard Ratio (HR)|1.13||||0.2028|TWO_SIDED|80.0|0.85|1.51|||Wilcoxon (Mann-Whitney)|||||1.51|0.85|0.2028
82374756|NCT02293863|164455993|OTHER||Difference in event rates|10.19||||0.1905|TWO_SIDED|80.0|-0.15|20.52|||Cochran-Mantel-Haenszel|||||20.52|-0.15|0.1905
82374757|NCT02293863|164455993|OTHER||Difference in event rates|7.91||||0.3168|TWO_SIDED|80.0|-2.64|18.47|||Cochran-Mantel-Haenszel|||||18.47|-2.64|0.3168
82374758|NCT02293863|164455994|OTHER||Difference in event rates|-7.92||||0.6043|TWO_SIDED|80.0|-27.5|11.66|||Cochran-Mantel-Haenszel|||||11.66|-27.50|0.6043
82374759|NCT02293863|164455994|OTHER||Difference in event rates|-14.58||||0.3865|TWO_SIDED|80.0|-36.13|6.97|||Cochran-Mantel-Haenszel|||||6.97|-36.13|0.3865
82374760|NCT02293863|164455995|OTHER||Difference in event rates|1.99||||0.5379|TWO_SIDED|80.0|-5.57|9.56|||Cochran-Mantel-Haenszel|||Day 14||9.56|-5.57|0.5379
82374761|NCT02293863|164455995|OTHER||Difference in event rates|4.97||||0.2189|TWO_SIDED|80.0|-3.12|13.05|||Cochran-Mantel-Haenszel|||Day 14||13.05|-3.12|0.2189
82374762|NCT02293863|164455995|OTHER||Difference in event rates|2.14||||0.6594|TWO_SIDED|80.0|-6.04|10.31|||Cochran-Mantel-Haenszel|||Day 30||10.31|-6.04|0.6594
82374763|NCT02293863|164455995|OTHER||Difference in event rates|3.54||||0.5013|TWO_SIDED|80.0|-5.24|12.31|||Cochran-Mantel-Haenszel|||Day 30||12.31|-5.24|0.5013
82374764|NCT02293863|164455995|OTHER||Difference in event rates|2.21||||0.6849|TWO_SIDED|80.0|-6.28|10.69|||Cochran-Mantel-Haenszel|||Day 60||10.69|-6.28|0.6849
82374765|NCT02293863|164455995|OTHER||Difference in event rates|1.68||||0.7633|TWO_SIDED|80.0|-7.38|10.74|||Cochran-Mantel-Haenszel|||Day 60||10.74|-7.38|0.7633
82374766|NCT02293863|164455996|OTHER||Mean Difference (Final Values)|-3.73||||0.2407|TWO_SIDED|80.0|-6.41|-1.06|||ANOVA|||||-1.06|-6.41|0.2407
82374767|NCT02293863|164455996|OTHER||Mean Difference (Final Values)|-0.7||||0.8339|TWO_SIDED|80.0|-3.49|2.1|||ANOVA|||||2.10|-3.49|0.8339
82374768|NCT02293863|164455997|OTHER||Mean Difference (Final Values)|-0.33||||0.279|TWO_SIDED|80.0|-0.6|-0.07|||ANOVA|||||-0.07|-0.60|0.2790
82374769|NCT02293863|164455997|OTHER||Mean Difference (Final Values)|-0.42||||0.1909|TWO_SIDED|80.0|-0.7|-0.15|||ANOVA|||||-0.15|-0.70|0.1909
82374770|NCT02293863|164455998|OTHER||Hazard Ratio (HR)|1.01||||0.7413|TWO_SIDED|80.0|0.77|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.77|0.7413
82374771|NCT02293863|164455998|OTHER||Hazard Ratio (HR)|1.32||||0.4763|TWO_SIDED|80.0|0.99|1.77|||Wilcoxon (Mann-Whitney)|||||1.77|0.99|0.4763
82374772|NCT02293863|164455999|OTHER||Hazard Ratio (HR)|1.01||||0.8806|TWO_SIDED|80.0|0.78|1.32|||Wilcoxon (Mann-Whitney)|||||1.32|0.78|0.8806
82374773|NCT02293863|164455999|OTHER||Hazard Ratio (HR)|1.05||||0.5447|TWO_SIDED|80.0|0.8|1.38|||Wilcoxon (Mann-Whitney)|||||1.38|0.80|0.5447
82374774|NCT02293863|164456000|OTHER||Hazard Ratio (HR)|0.7||||0.4171|TWO_SIDED|80.0|0.47|1.03|||Wilcoxon (Mann-Whitney)|||||1.03|0.47|0.4171
82374775|NCT02293863|164456000|OTHER||Hazard Ratio (HR)|0.9||||0.8322|TWO_SIDED|80.0|0.61|1.34|||Wilcoxon (Mann-Whitney)|||||1.34|0.61|0.8322
82374776|NCT02293863|164456001|OTHER||Difference in event rates|-1.42||||0.824|TWO_SIDED|80.0|-10.61|7.76|||Cochran-Mantel-Haenszel|||||7.76|-10.61|0.8240
82374777|NCT02293863|164456001|OTHER||Difference in event rates|-1.6||||0.8111|TWO_SIDED|80.0|-11.48|8.28|||Cochran-Mantel-Haenszel|||||8.28|-11.48|0.8111
82374778|NCT02293863|164456002|OTHER||Difference in event rates|2.42||||0.7219|TWO_SIDED|80.0|-6.96|11.8|||Cochran-Mantel-Haenszel|||||11.80|-6.96|0.7219
82374779|NCT02293863|164456002|OTHER||Difference in event rates|0.67||||0.9225|TWO_SIDED|80.0|-9.29|10.64|||Cochran-Mantel-Haenszel|||||10.64|-9.29|0.9225
82374780|NCT02293863|164456003|OTHER||Difference in event rates|1.99||||0.5379|TWO_SIDED|80.0|-5.57|9.56|||Cochran-Mantel-Haenszel|||||9.56|-5.57|0.5379
82374781|NCT02293863|164456003|OTHER||Difference in event rates|-1.85||||0.3667|TWO_SIDED|80.0|-9.88|6.18|||Cochran-Mantel-Haenszel|||||6.18|-9.88|0.3667
82374782|NCT02293863|164456004|OTHER||Hazard Ratio (HR)|0.66||||0.7827|TWO_SIDED|80.0|0.41|1.07|||Wilcoxon (Mann-Whitney)|||||1.07|0.41|0.7827
82374783|NCT02293863|164456004|OTHER||Hazard Ratio (HR)|0.58||||0.2522|TWO_SIDED|80.0|0.36|0.96|||Wilcoxon (Mann-Whitney)|||||0.96|0.36|0.2522
82374784|NCT00761657|164456057|OTHER|||||||0.2073||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.2073
82374785|NCT00761657|164456057|OTHER|||||||0.0046||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0046
82374786|NCT00761657|164456057|OTHER|||||||0.086||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0860
82374787|NCT00761657|164456057|OTHER|||||||0.4005||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.4005
82374788|NCT00761657|164456057|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is presented for Day 26-29 timepoint. P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374789|NCT00761657|164456057|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374790|NCT00761657|164456057|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374791|NCT00761657|164456057|OTHER||||||<|0.0001|||||||t-test, 2 sided|Threshold for significance at 0.05 level.||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374792|NCT00761657|164456058|OTHER|||||||0.0507||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0507
82374793|NCT00761657|164456058|OTHER|||||||0.4502||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.4502
82374794|NCT00761657|164456058|OTHER|Threshold for significance at 0.05 level.||||||0.1603|||||||t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.1603
82374795|NCT00761657|164456058|OTHER|||||||0.9816||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.9816
82374796|NCT00761657|164456058|OTHER|||||||0.0139||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0139
82374797|NCT00761657|164456058|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374798|NCT00761657|164456058|OTHER|||||||0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||0.0001
82374799|NCT00761657|164456058|OTHER||||||<|0.0001||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||P-value is from inter-group 2-sample t-tests comparing roxadustat change from baseline with placebo change from baseline.||||<0.0001
82374800|NCT00826007|164456078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.18|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|0.09|0.18|||Regression, Logistic|||||.18|.09|<0.001
82374801|NCT02657928|164456107|SUPERIORITY|||||||0.5004|||||||Log Rank|||||||0.5004
82374802|NCT02657928|164456108|SUPERIORITY|||||||0.9127|||||||Log Rank|||||||0.9127
82374803|NCT01988129|164456114|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||Analysis for 'sick' days||||0.66
82374804|NCT01988129|164456114|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||t-test, 2 sided|||Analysis for 'disability/injury' days||||0.033
82374805|NCT01988129|164456114|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|Mixed model analysis with nested random effects for possible station-level and station-pairing correlation (3-level hierarchical linear model)||Mixed model analysis was conducted for 'disability/injury' days||||0.003
82374806|NCT01988129|164456115|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
82374807|NCT01988129|164456116|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.31|TWO_SIDED|95.0|0.6|0.98|||t-test, 2 sided||The Odds Ratio analyses compared the odds of reporting at least one injury during the study between those who did (n=560) and did not (n=629) attend the education sessions, regardless of station assignment (intervention or control).|||0.98|0.60|0.31
82374808|NCT01988129|164456117|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Paired t-test|||Of the 100 participants who completed both the pre- and post-study survey (see Patient Flow), only 62 completed answered the question about sleep duration at both time points||||0.22
82374809|NCT01988129|164456118|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||paired t-test|||||||0.65
82374810|NCT01988129|164456119|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||paired t-test|||||||0.71
82445295|NCT04971941|164599100|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82374811|NCT01988129|164456121|SUPERIORITY_OR_OTHER||Percentage of firefighters screened|41.5|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of any sleep disorders; there is no comparison group||||
82374812|NCT01988129|164456121|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|31.3|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of obstructive sleep apnea only; there is no comparison group||||
82374813|NCT01988129|164456121|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|7.7|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of insomnia; there is no comparison group||||
82374814|NCT01988129|164456121|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|3.5|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of restless legs syndrome only; there is no comparison group||||
82374815|NCT01988129|164456121|SUPERIORITY_OR_OTHER||Percentage of firefighters screene|9.3|||||TWO_SIDED|||||||||This analysis describes the prevalence of the risk of shiftwork disorder only; there is no comparison group||||
82374816|NCT01988129|164456122|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||paired t-test|||||||0.31
82374817|NCT01988129|164456123|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Paired t-test, 2-sided|||Sleeping while stopped in traffic||||0.16
82374818|NCT01988129|164456124|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Paired t-test, 2-sided|||||||0.46
82374819|NCT02500043|164456126|OTHER||Hazard Ratio (HR)|0.6917||||0.0003|TWO_SIDED|95.0|0.5597|0.8548||One-sided P-Value.|Log Rank|||TAS-102+BSC and Placebo+BSC were compared using the stratified log-rank test using the 3 randomization stratification factors (region, ECOG performance status, and prior treatment with ramucirumab). The hazard ratio was estimated using a stratified Cox's proportional hazard (CPH) model and survival was summarized using Kaplan Meier estimates.||0.8548|0.5597|0.0003
82374820|NCT02500043|164456127|OTHER||Hazard Ratio (HR)|0.5723|||||TWO_SIDED|95.0|0.4674|0.7008||||||TAS-102+BSC and Placebo+BSC were compared using the stratified log-rank test using the 3 randomization stratification factors (region, ECOG performance status, and prior treatment with ramucirumab). The hazard ratio was estimated using a stratified CPH model and survival was summarized using Kaplan Meier estimates.||0.7008|0.4674|
82374821|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374822|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374823|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374824|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374825|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374826|NCT01371747|164456134|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374827|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374828|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82445296|NCT04971941|164599100|SUPERIORITY|||||||0.044|||||||t-test, 2 sided|||||||0.044
82445297|NCT04971941|164599100|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||||||0.023
82445298|NCT04971941|164599100|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
82445299|NCT04971941|164599100|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||0.053
82445300|NCT04971941|164599101|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||The null hypothesis is that there is no relation between use of DV and numb times. There were no studies from which to perform a power calculation for this outcome measure||||0.459
82445301|NCT01264770|164599104|SUPERIORITY_OR_OTHER||Treatment difference|0.56||||0.006|TWO_SIDED|90.0|0.23|0.9|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.90|0.23|0.006
82445302|NCT01264770|164599104|SUPERIORITY_OR_OTHER||Treatment difference|0.49||||0.022|TWO_SIDED|90.0|0.14|0.84|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.84|0.14|0.022
82445303|NCT01264770|164599104|SUPERIORITY_OR_OTHER||Treatment difference|0.22||||0.28|TWO_SIDED|90.0|-0.12|0.56|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 6. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||0.56|-0.12|0.280
82445304|NCT01264770|164599105|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.72||||0.005|TWO_SIDED|80.0|-1.04|-0.4|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.40|-1.04|0.005
82445305|NCT01264770|164599105|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.61||||0.02|TWO_SIDED|80.0|-0.94|-0.27|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.27|-0.94|0.020
82445306|NCT01264770|164599105|NON_INFERIORITY_OR_EQUIVALENCE|For the comparison with adalimumab a non-inferiority margin of -0.6 in the mean change from baseline in DAS28-CRP at Week 24 was defined. The lower 80% confidence interval for treatment difference was below this value so non-inferiority could not be concluded. A p-value is also provided for a 2-sided test of superiority.|Treatment difference|-0.72||||0.004|TWO_SIDED|80.0|-1.04|-0.4|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country as factors.||Change from baseline at Week 24. Non-responder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data.||-0.40|-1.04|0.004
82445307|NCT01264770|164599106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.05||||0.005|TWO_SIDED|90.0|1.59|5.86|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||5.86|1.59|0.005
82445308|NCT01264770|164599106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.11|||<|0.001|TWO_SIDED|90.0|2.1|8.05|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||8.05|2.10|<0.001
82445309|NCT01264770|164599106|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.335|TWO_SIDED|90.0|0.76|2.83|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.83|0.76|0.335
82445310|NCT01264770|164599107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.007|TWO_SIDED|90.0|0.2|0.68|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.68|0.20|0.007
82445311|NCT01264770|164599107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48||||0.051|TWO_SIDED|90.0|0.26|0.89|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.89|0.26|0.051
82530033|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.229|STANDARD_ERROR_OF_MEAN|0.1292|||TWO_SIDED|95.0|-0.026|0.483|||||Comparison of FEV1, Day 7, 1 hour|||0.483|-0.026|
82374829|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82530034|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.1309|||TWO_SIDED|95.0|-0.163|0.353|||||Comparison of FEV1, Day 7, 2 hour|||0.353|-0.163|
82530035|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.173|STANDARD_ERROR_OF_MEAN|0.1243|||TWO_SIDED|95.0|-0.072|0.418|||||Comparison of FEV1, Day 7, 4 hour|||0.418|-0.072|
82530036|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.205|STANDARD_ERROR_OF_MEAN|0.1499|||TWO_SIDED|95.0|-0.09|0.501|||||Comparison of FEV1, Day 7, 9 hour|||0.501|-0.090|
82398721|NCT01738191|164507569|SUPERIORITY|||||||0.25||||||two sided|Global Statistical Test|df=28||The primary comparison between ATM and placebo used O'Brien's Global Statistical Test (GST) to analyze change from baseline to 10 weeks for the set of neuropsychological measures included in the primary efficacy outcome.||||0.25
82398722|NCT02798354|164507581|SUPERIORITY||Risk Difference (RD)|3.9|||<|0.0001|TWO_SIDED|95.0|2.4|5.3|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||5.3|2.4|<0.0001
82398723|NCT02798354|164507582|SUPERIORITY||Risk Difference (RD)|16.0|||<|0.0001|TWO_SIDED|95.0|12.3|20.0|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||20|12.3|<0.0001
82398724|NCT02798354|164507583|SUPERIORITY||Risk Difference (RD)|1.1||||0.302|TWO_SIDED|95.0|-1.0|3.1|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, lab test sent, and wave|||3.1|-1.0|0.302
82398725|NCT02798354|164507584|SUPERIORITY||Risk Difference (RD)|26.6|||<|0.0001|TWO_SIDED|95.0|22.4|30.7|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||30.7|22.4|<0.0001
82398726|NCT02798354|164507585|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|16.2|24.1|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||24.1|16.2|<0.0001
82398727|NCT02798354|164507586|SUPERIORITY||Risk Difference (RD)|14.0|||<|0.0001|TWO_SIDED|95.0|10.3|17.7|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, and wave|||17.7|10.3|<0.0001
82398728|NCT02798354|164507587|SUPERIORITY||Risk Difference (RD)|0.1||||0.922|TWO_SIDED|95.0|-1.8|1.9|||Mixed Models Analysis||Fitted by generalized mixed-effects model with potential clustering effects of practices and months taken into account; adjusted for age, sex, insurance, lab test sent, and wave|||1.9|-1.8|0.922
82398729|NCT00350779|164507591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72|STANDARD_DEVIATION|0.87|<|0.001||95.0|-0.95|-0.49|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-0.49|-0.95|<0.001
82398730|NCT00350779|164507592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.0|STANDARD_DEVIATION|31.3|<|0.001||95.0|-27.2|-10.9|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-10.9|-27.2|<0.001
82398731|NCT00350779|164507593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.9|STANDARD_DEVIATION|43.7|<|0.001||95.0|-50.2|-25.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-25.5|-50.2|<0.001
82398732|NCT00350779|164507594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|STANDARD_DEVIATION|1.04|<|0.001||95.0|-1.04|-0.5|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-0.50|-1.04|<0.001
82398733|NCT00350779|164507595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.4|STANDARD_DEVIATION|34.6|<|0.001||95.0|-26.4|-8.4|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-8.4|-26.4|<0.001
82445312|NCT01264770|164599107|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.004|TWO_SIDED|90.0|0.2|0.65|||Proportional odds model||An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.65|0.20|0.004
82398734|NCT00350779|164507596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.1|STANDARD_DEVIATION|51.0|<|0.001||95.0|-48.4|-19.9|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic therapy||||-19.9|-48.4|<0.001
82398735|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.1522||0.0207||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0207
82398736|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1541||0.0005||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0005
82398737|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.1518|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
82398738|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Difference from placebo|-0.61|STANDARD_ERROR_OF_MEAN|0.1536|||TWO_SIDED|95.0|-0.91|-0.3||||||||-0.30|-0.91|
82398739|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Difference from placebo|-0.56|STANDARD_ERROR_OF_MEAN|0.1527|||TWO_SIDED|95.0|-0.86|-0.26||||||||-0.26|-0.86|
82398740|NCT00528372|164507597|SUPERIORITY_OR_OTHER||Difference from placebo|-0.56|STANDARD_ERROR_OF_MEAN|0.1474|||TWO_SIDED|95.0|-0.85|-0.27||||||||-0.27|-0.85|
82398741|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|STANDARD_ERROR_OF_MEAN|5.734||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|||Week 24|||||
82398742|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|STANDARD_ERROR_OF_MEAN|5.806||0.0007||||||Statistically significant according to hierarchical testing procedure (p\<0.05)|ANCOVA||Week 24|||||0.0007
82398743|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.7|STANDARD_ERROR_OF_MEAN|5.626|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05)|ANCOVA||Week 24|||||<0.0001
82398744|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Difference from placebo|-21.5|STANDARD_ERROR_OF_MEAN|5.686|||TWO_SIDED|95.0|-32.6|-10.3||||||||-10.3|-32.6|
82398745|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Difference from placebo|-23.3|STANDARD_ERROR_OF_MEAN|5.711|||TWO_SIDED|95.0|-34.4|-12.0||||||||-12.0|-34.4|
82398746|NCT00528372|164507598|SUPERIORITY_OR_OTHER||Difference from placebo|-25.5|STANDARD_ERROR_OF_MEAN|5.567|||TWO_SIDED|95.0|-36.4|-14.5||||||||-14.5|-36.4|
82398747|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.6307||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.||||||||
82398748|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.6388||0.3101||||||Tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||||0.3101
82530037|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|-0.062|0.502|||||Comparison of FEV1, Day 7, 12 hour|||0.502|-0.062|
82445313|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.29|||<|0.001|TWO_SIDED|90.0|0.17|0.4||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.40|0.17|<0.001
82445314|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.3|||<|0.001|TWO_SIDED|90.0|0.18|0.43||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.43|0.18|<0.001
82445315|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.19||||0.007|TWO_SIDED|90.0|0.07|0.31||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.31|0.07|0.007
82445316|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.16||||0.049|TWO_SIDED|90.0|-0.3|-0.03||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.03|-0.30|0.049
82445317|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.02||||0.803|TWO_SIDED|90.0|-0.16|0.12||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|-0.16|0.803
82398749|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.6223||0.1189||||||Tested following a sequential testing procedure at alpha=0.05.|ANCOVA|||||||0.1189
82398750|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Difference from placebo|-1.63|STANDARD_ERROR_OF_MEAN|0.6254|||TWO_SIDED|95.0|-2.86|-0.41||||||||-0.41|-2.86|
82398751|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Difference from placebo|-1.36|STANDARD_ERROR_OF_MEAN|0.6279|||TWO_SIDED|95.0|-2.6|-0.13||||||||-0.13|-2.60|
82398752|NCT00528372|164507600|SUPERIORITY_OR_OTHER||Difference from placebo|-0.87|STANDARD_ERROR_OF_MEAN|0.6103|||TWO_SIDED|95.0|-2.06|0.33||||||||0.33|-2.06|
82398753|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|4.324||||||||||||||||
82530038|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.206|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|95.0|-0.093|0.506|||||Comparison of FEV1, Day 7, 24 hour|||0.506|-0.093|
82530039|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.206|STANDARD_ERROR_OF_MEAN|0.097|||TWO_SIDED|95.0|0.015|0.397|||||Comparison of FEV1, Day 1, 1 hour|||0.397|0.015|
82398754|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|4.342||||||||||||||||
82398755|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|4.176||||||||||||||||
82398756|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Difference from placebo|-12.0|STANDARD_ERROR_OF_MEAN|4.223|||TWO_SIDED|95.0|-20.3|-3.7||||||||-3.7|-20.3|
82530040|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.329|STANDARD_ERROR_OF_MEAN|0.0994|||TWO_SIDED|95.0|0.133|0.525|||||Comparison of FEV1, Day 1, 2 hour|||0.525|0.133|
82530041|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.266|STANDARD_ERROR_OF_MEAN|0.0895|||TWO_SIDED|95.0|0.09|0.443|||||Comparison of FEV1, Day 1, 4 hour|||0.443|0.090|
82530042|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.1258|||TWO_SIDED|95.0|0.072|0.568|||||Comparison of FEV1, Day 1, 9 hour|||0.568|0.072|
82398757|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Difference from placebo|-16.2|STANDARD_ERROR_OF_MEAN|4.321|||TWO_SIDED|95.0|-24.7|-7.7||||||||-7.7|-24.7|
82398758|NCT00528372|164507602|SUPERIORITY_OR_OTHER||Difference from placebo|-17.9|STANDARD_ERROR_OF_MEAN|4.228|||TWO_SIDED|95.0|-26.2|-9.5||||||||-9.5|-26.2|
82398759|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percentage difference|9.7||||||||||||||||||
82398760|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percentage difference|12.6||||||||||||||||||
82398761|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percentage difference|19.2||||||||||||||||||
82398762|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percent difference from placebo|19.8|||||TWO_SIDED|95.0|4.9|34.7||||||||34.7|4.9|
82398763|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percent difference from placebo|12.4|||||TWO_SIDED|95.0|-2.5|27.3||||||||27.3|-2.5|
82398764|NCT00528372|164507604|SUPERIORITY_OR_OTHER||Percent difference from placebo|19.9|||||TWO_SIDED|95.0|5.3|34.5||||||||34.5|5.3|
82398765|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.6979||||||||||||||||
82398766|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.6828||||||||||||||||
82398767|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|0.6404||||||||||||||||
82398768|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Difference from placebo|-1.55|STANDARD_ERROR_OF_MEAN|0.7394|||TWO_SIDED|95.0|-3.33|-0.42||||||||-0.42|-3.33|
82398769|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Difference from placebo|-1.27|STANDARD_ERROR_OF_MEAN|0.7257|||TWO_SIDED|95.0|-2.69|0.16||||||||0.16|-2.69|
82398770|NCT00528372|164507605|SUPERIORITY_OR_OTHER||Difference from placebo|-0.87|STANDARD_ERROR_OF_MEAN|0.6103|||TWO_SIDED|95.0|-2.06|0.33||||||||0.33|-2.06|
82398771|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.175||||||||||||||||
82398772|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.175||||||||||||||||
82398773|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.1708||||||||||||||||
82398774|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Difference from placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.1798|||TWO_SIDED|95.0|-0.95|-0.25||||||||-0.25|-0.95|
82398775|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Difference from placebo|-0.55|STANDARD_ERROR_OF_MEAN|0.1741|||TWO_SIDED|95.0|-0.89|-0.21||||||||-0.21|-0.89|
82398776|NCT00528372|164507606|SUPERIORITY_OR_OTHER||Difference from placebo|-0.58|STANDARD_ERROR_OF_MEAN|0.1704|||TWO_SIDED|95.0|-0.92|-0.25||||||||-0.25|-0.92|
82398777|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_ERROR_OF_MEAN|6.526||||||||||||||||
82398778|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|6.761||||||||||||||||
82398779|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|6.334||||||||||||||||
82530043|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.172|STANDARD_ERROR_OF_MEAN|0.1165|||TWO_SIDED|95.0|-0.058|0.402|||||Comparison of FEV1, Day 1, 12 hour|||0.402|-0.058|
82645329|NCT03985293|165005923|SUPERIORITY||Difference in LS Mean|-0.08||||0.7898|TWO_SIDED|90.0|-0.59|0.42|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.42|-0.59|0.7898
82398780|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Percent difference from placebo|18.8|||||TWO_SIDED|95.0|5.5|32.1||||||||32.1|5.5|
82398781|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Percent difference from placebo|11.3|||||TWO_SIDED|95.0|-1.8|24.4||||||||24.4|-1.8|
82398782|NCT00528372|164507607|SUPERIORITY_OR_OTHER||Percent difference from placebo|11.4|||||TWO_SIDED|95.0|-1.0|23.9||||||||23.9|-1.0|
82398783|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.736||||||||||||||||
82398784|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.7371||||||||||||||||
82398785|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.7078||||||||||||||||
82398786|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Difference from placebo|-1.87|STANDARD_ERROR_OF_MEAN|0.7394|||TWO_SIDED|95.0|-3.33|-0.42||||||||-0.42|-3.33|
82398787|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Difference from placebo|-1.27|STANDARD_ERROR_OF_MEAN|0.7257|||TWO_SIDED|95.0|-2.69|0.16||||||||0.16|-2.69|
82398788|NCT00528372|164507608|SUPERIORITY_OR_OTHER||Difference from placebo|-0.97|STANDARD_ERROR_OF_MEAN|0.7135||||95.0|-2.37|0.44||||||||0.44|-2.37|
82398789|NCT02432144|164507630|SUPERIORITY||LS Mean|-62.28|STANDARD_ERROR_OF_MEAN|4.946|<|0.0001|TWO_SIDED|95.0|-71.98|-52.59||P-values are from generalized estimating equation (GEE) model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 0||-52.59|-71.98|< 0.0001
82398790|NCT02432144|164507630|SUPERIORITY||LS Mean|-67.18|STANDARD_ERROR_OF_MEAN|3.224|<|0.0001|TWO_SIDED|95.0|-73.49|-60.86||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 12||-60.86|-73.49|< 0.0001
82398791|NCT02432144|164507630|SUPERIORITY||LS Mean|-64.12|STANDARD_ERROR_OF_MEAN|4.016|<|0.0001|TWO_SIDED|95.0|-71.99|-56.24||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 24||-56.24|-71.99|< 0.0001
82398792|NCT02432144|164507630|SUPERIORITY||LS Mean|-60.8|STANDARD_ERROR_OF_MEAN|5.992|<|0.0001|TWO_SIDED|95.0|-72.54|-49.06||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 36||-49.06|-72.54|< 0.0001
82398793|NCT02432144|164507630|SUPERIORITY||LS Mean|-57.85|||<|0.0001|TWO_SIDED|95.0|-71.87|-43.82||P-values are from a GEE model including baseline value and visit (in this study) as a categorical variable. The covariance structure within subjects is assumed to be exchangeable.|GEE model|||Week 48||-43.82|-71.87|< 0.0001
82398794|NCT01483599|164507631|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (less than or equal to (\<=) 90 kilogram (kg), greater than (\>) 90 kg).||||0.002
82398795|NCT01483599|164507631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398796|NCT01483599|164507631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398797|NCT01483599|164507631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398798|NCT01483599|164507631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398799|NCT01483599|164507631|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398800|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398801|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82530044|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.1285|||TWO_SIDED|95.0|-0.099|0.407|||||Comparison of FEV1, Day 1, 24 hour|||0.407|-0.099|
82645330|NCT03985293|165005923|SUPERIORITY||Difference in LS Mean|0.16||||0.5829|TWO_SIDED|90.0|-0.33|0.66|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.66|-0.33|0.5829
82374830|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374831|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374832|NCT01371747|164456135|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374833|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374834|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-Value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82398802|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398803|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398804|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82398805|NCT01483599|164507632|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p-value was based on the Cochran-Mantel-Haenszel chi-square test stratified by baseline weight (\<=90 kg, \>90 kg).||||< 0.001
82530045|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.256|STANDARD_ERROR_OF_MEAN|0.1113|||TWO_SIDED|95.0|0.036|0.475|||||Comparison of FEV1, Day 7, Baseline|||0.475|0.036|
82374835|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374836|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82398806|NCT01483599|164507633|SUPERIORITY_OR_OTHER||Difference in Percentage|-24.0|||||TWO_SIDED|95.0|-44.0|-4.0||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||-4.0|-44.0|
82374837|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82398807|NCT01483599|164507633|SUPERIORITY_OR_OTHER||Difference in Percentage|2.8|||||TWO_SIDED|95.0|-17.9|23.5||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||23.5|-17.9|
82398808|NCT01483599|164507633|SUPERIORITY_OR_OTHER||Difference in Percentage|20.4|||||TWO_SIDED|95.0|1.5|39.3||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||39.3|1.5|
82398809|NCT01483599|164507633|SUPERIORITY_OR_OTHER||Difference in Percentage|27.7|||||TWO_SIDED|95.0|9.8|45.6||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||45.6|9.8|
82374838|NCT01371747|164456136|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||P-value \<0.001|ANCOVA|||Each starting dose group was compared to its baseline.||||<0.001
82374839|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.54|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374840|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374841|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.5|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374842|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.0|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82398810|NCT01483599|164507633|SUPERIORITY_OR_OTHER||Difference in Percentage|25.4|||||TWO_SIDED|95.0|7.2|43.6||||||||43.6|7.2|
82374843|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.96|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374844|NCT01371747|164456137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.17|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374845|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.36|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82398811|NCT01483599|164507634|SUPERIORITY_OR_OTHER||Difference in Percentage|-15.4|||||TWO_SIDED|95.0|-37.7|6.9||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||6.9|-37.7|
82398812|NCT01483599|164507634|SUPERIORITY_OR_OTHER||Difference in Percentage|10.8|||||TWO_SIDED|95.0|-10.7|32.4||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||32.4|-10.7|
82530046|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.296|STANDARD_ERROR_OF_MEAN|0.1361|||TWO_SIDED|95.0|0.027|0.564|||||Comparison of FEV1, Day 7, 1 hour|||0.564|0.027|
82530047|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.202|STANDARD_ERROR_OF_MEAN|0.1378|||TWO_SIDED|95.0|-0.069|0.474|||||Comparison of FEV1, Day 7, 2 hour|||0.474|-0.069|
82530048|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.207|STANDARD_ERROR_OF_MEAN|0.1309|||TWO_SIDED|95.0|-0.051|0.465|||||Comparison of FEV1, Day 7, 4 hour|||0.465|-0.051|
82530049|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.1579|||TWO_SIDED|95.0|-0.032|0.591|||||Comparison of FEV1, Day 7, 9 hour|||0.591|-0.032|
82530050|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.193|STANDARD_ERROR_OF_MEAN|0.1506|||TWO_SIDED|95.0|-0.104|0.49|||||Comparison of FEV1, Day 7, 12 hour|||0.490|-0.104|
82374846|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.22|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374847|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.3|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374848|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.41|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374849|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.39|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374850|NCT01371747|164456138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.58|||||TWO_SIDED||||||||Estimated values were based on summary statistics.|Each starting dose group was compared to its baseline.||||
82374851|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.3|100.0|||||2-sided 95% exact binomial CI|||100.0|94.3|
82374852|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.5|100.0|||||2-sided 95% exact binomial CI|||100|94.5|
82374853|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|98.4|||||TWO_SIDED|95.0|91.6|100.0|||||2-sided 95% exact binomial CI|||100|91.6|
82374854|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|91.7|||||TWO_SIDED|95.0|73.0|99.0|||||2-sided 95% exact binomial CI|||99|73|
82374855|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.8|||||TWO_SIDED|95.0|78.9|99.9|||||2-sided 95% exact binomial CI|||99.9|78.9|
82374856|NCT01371747|164456139|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.5|||||TWO_SIDED|95.0|77.2|99.9|||||2-sided 95% exact binomial CI|||99.9|77.2|
82374857|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|95.2|||||TWO_SIDED|95.0|86.7|99.0|||||2-sided 95% exact binomial CI|||99.0|86.7|
82374858|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.8|||||TWO_SIDED|95.0|81.0|96.5|||||2-sided 95% exact binomial CI|||96.5|81.0|
82374859|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|81.3|||||TWO_SIDED|95.0|69.5|89.9|||||2-sided 95% exact binomial CI|||89.9|69.5|
82374860|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|79.2|||||TWO_SIDED|95.0|57.8|92.9|||||2-sided 95% exact binomial CI|||92.9|57.8|
82374861|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|91.7|||||TWO_SIDED|95.0|73.0|99.0|||||2-sided 95% exact binomial CI|||99|73|
82374862|NCT01371747|164456140|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|77.3|||||TWO_SIDED|95.0|54.6|92.2|||||2-sided 95% exact binomial CI|||92.2|54.6|
82374863|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|86.3|||||TWO_SIDED|95.0|73.7|94.3|||||2-sided 95% exact binomial CI|||94.3|73.7|
82374864|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|81.6|||||TWO_SIDED|95.0|68.0|91.2|||||2-sided 95% exact binomial CI|||91.2|68.0|
82374865|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|88.9|||||TWO_SIDED|95.0|75.9|96.3|||||2-sided 95% exact binomial CI|||96.3|75.9|
82374866|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|86.7|||||TWO_SIDED|95.0|59.5|98.3|||||2-sided 95% exact binomial CI|||98.3|59.5|
82374867|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|89.5|||||TWO_SIDED|95.0|66.9|98.7|||||2-sided 95% exact binomial CI|||98.7|66.9|
82374868|NCT01371747|164456142|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|93.3|||||TWO_SIDED|95.0|68.1|99.8|||||2-sided 95% exact binomial CI|||99.8|68.1|
82374869|NCT00843479|164456150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82374870|NCT00843479|164456151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
82374871|NCT00843479|164456152|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
82374872|NCT00843479|164456153|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
82374873|NCT00843479|164456154|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
82374874|NCT00843479|164456155|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.05
82374875|NCT01473524|164456156|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 10 mg OCA. H1: The response rates are different between placebo and 10 mg OCA.||||<0.0001
82374876|NCT01473524|164456158|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 10 mg OCA. H1: The response rates are different between placebo and 10 mg OCA.||||<0.0001
82374877|NCT01473524|164456159|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 5-10 mg OCA. H1: The response rates are different between placebo and 5-10 mg OCA.||||<0.0001
82374878|NCT01473524|164456160|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) General Association test stratified by randomization strata factor.||H0: The response rates are equal between placebo and 5-10 mg OCA. H1: The response rates are different between placebo and 5-10 mg OCA.||||<0.0001
82374879|NCT01473524|164456161|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374880|NCT01473524|164456161|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374881|NCT01473524|164456162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||0.0004
82374882|NCT01473524|164456162|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374883|NCT01473524|164456163|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82645331|NCT03985293|165005923|SUPERIORITY||Difference in LS Mean|-0.52||||0.0827|TWO_SIDED|90.0|-1.02|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.03|-1.02|0.0827
82374884|NCT01473524|164456163|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374885|NCT01473524|164456164|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374886|NCT01473524|164456164|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374887|NCT01473524|164456165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||0.0003
82374888|NCT01473524|164456165|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor||||||<0.0001
82398813|NCT01483599|164507634|SUPERIORITY_OR_OTHER||Difference in Percentage|22.7|||||TWO_SIDED|95.0|1.8|43.6||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||43.6|1.8|
82398814|NCT01483599|164507634|SUPERIORITY_OR_OTHER||Difference in Percentage|28.7|||||TWO_SIDED|95.0|8.5|49.0||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||49.0|8.5|
82398815|NCT01483599|164507634|SUPERIORITY_OR_OTHER||Difference in Percentage|32.9|||||TWO_SIDED|95.0|13.0|52.8||||||The difference in percentage was calculated as the percentage of CNTO 1959 participants achieving a PGA score of cleared (0) or minimal (1) minus percentage of adalimumab participants achieving a PGA score of cleared (0) or minimal (1).||52.8|13.0|
82398816|NCT01483599|164507635|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANOVA on the van Der Waerden score|||||||0.008
82645332|NCT03985293|165005923|SUPERIORITY||Difference in LS Mean|-0.8||||0.0101|TWO_SIDED|90.0|-1.31|-0.29|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.29|-1.31|0.0101
82374889|NCT01473524|164456166|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374890|NCT01473524|164456166|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|ANCOVA model with baseline value as a covariate and fixed effects for treatment and randomization strata factor.||||||<0.0001
82374891|NCT01544179|164456170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.273|TWO_SIDED|95.0|0.65|1.13|||Cox Proportional Hazards|||||1.13|0.65|0.273
82398817|NCT01483599|164507635|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
82398818|NCT01483599|164507635|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
82530051|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.1601|||TWO_SIDED|95.0|-0.136|0.495|||||Comparison of FEV1, Day 7, 24 hour|||0.495|-0.136|
82374892|NCT01544179|164456173|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.62||||0.029|TWO_SIDED|95.0|1.05|2.52|||Cox Proportional Hazards|||||2.52|1.05|0.029
82374893|NCT01544179|164456174|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.76|TWO_SIDED|95.0|0.55|1.55|||Regression, Logistic|||||1.55|0.55|0.760
82374894|NCT01544179|164456175|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.39||||0.308|TWO_SIDED|95.0|0.74|2.62|||Regression, Logistic|||||2.62|0.74|0.308
82398819|NCT01483599|164507635|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
82645333|NCT03985293|165005923|SUPERIORITY||Difference in LS Mean|-1.09||||0.0004|TWO_SIDED|90.0|-1.59|-0.59|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.59|-1.59|0.0004
82645334|NCT03985293|165005924|SUPERIORITY||Difference in LS Mean|-0.1||||0.7985|TWO_SIDED|90.0|-0.75|0.55|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.55|-0.75|0.7985
82645335|NCT03985293|165005924|SUPERIORITY||Difference in LS Mean|-0.23||||0.5484|TWO_SIDED|90.0|-0.86|0.4|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.40|-0.86|0.5484
82374895|NCT01544179|164456176|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.77|TWO_SIDED|95.0|0.53|1.59|||Regression, Logistic|||||1.59|0.53|0.770
82374896|NCT01544179|164456177|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.507|TWO_SIDED|95.0|0.68|1.21|||Cox Proportional Hazards|||||1.21|0.68|0.507
82374897|NCT01544179|164456178|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.725|TWO_SIDED|95.0|0.54|1.53|||Regression, Logistic|||||1.53|0.54|0.725
82374898|NCT01544179|164456179|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.575|TWO_SIDED|95.0|0.69|1.23|||Cox Proportional Hazards|||||1.23|0.69|0.575
82374899|NCT01544179|164456180|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||0.959|TWO_SIDED|95.0|0.61|1.68|||Regression, Logistic|||||1.68|0.61|0.959
82374900|NCT01544179|164456181|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.437|TWO_SIDED|95.0|0.66|1.2|||Cox Proportional Hazards|||||1.20|0.66|0.437
82398820|NCT01483599|164507635|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
82398821|NCT01483599|164507635|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on the van Der Waerden score|||||||< 0.001
82398822|NCT04227405|164507674|SUPERIORITY||Slope|0.24|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change between pre-test and post-test for the Positive Conflict Management subscale using multilevel modeling||||>.05
82530052|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.137|STANDARD_ERROR_OF_MEAN|0.2029|||TWO_SIDED|95.0|-0.263|0.537|||||Comparison of FVC, Day 1, 1 hour|||0.537|-0.263|
82645336|NCT03985293|165005924|SUPERIORITY||Difference in LS Mean|-0.75||||0.0541|TWO_SIDED|90.0|-1.38|-0.11|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.11|-1.38|0.0541
82398823|NCT04227405|164507674|SUPERIORITY||Slope|1.59|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change between pre-test and post-test for the Positive Conflict Management subscale using multilevel modeling||||<.001
82398824|NCT04227405|164507674|SUPERIORITY||Slope|1.35|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Positive Conflict Management subscale||||<.001
82445318|NCT01264770|164599108|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.24||||0.003|TWO_SIDED|90.0|-0.37|-0.1||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.10|-0.37|0.003
82398825|NCT04227405|164507674|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in Negative Conflict Management for the Control Group||||>.05
82445319|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.059|TWO_SIDED|90.0|0.01|0.18||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.01|0.059
82530053|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.1965|||TWO_SIDED|95.0|-0.257|0.518|||||Comparison of FVC, Day 1, 2 hour|||0.518|-0.257|
82530054|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.038|STANDARD_ERROR_OF_MEAN|0.1908|||TWO_SIDED|95.0|-0.414|0.338|||||Comparison of FVC, Day 1, 4 hour|||0.338|-0.414|
82530055|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.2013|||TWO_SIDED|95.0|-0.337|0.457|||||Comparison of FVC, Day 1, 9 hour|||0.457|-0.337|
82530056|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.2322|||TWO_SIDED|95.0|-0.343|0.572|||||Comparison of FVC, Day 1, 12 hour|||0.572|-0.343|
82530057|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.1988|||TWO_SIDED|95.0|-0.277|0.507|||||Comparison of FVC, Day 1, 24 hour|||0.507|-0.277|
82645337|NCT03985293|165005924|SUPERIORITY||Difference in LS Mean|-1.6|||<|0.0001|TWO_SIDED|90.0|-2.26|-0.95|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.95|-2.26|<.0001
82398826|NCT04227405|164507674|SUPERIORITY||Slope|-1.48|STANDARD_ERROR_OF_MEAN|0.29|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in the Negative Conflict Management subscale||||<.01
82530058|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.362|STANDARD_ERROR_OF_MEAN|0.2801|||TWO_SIDED|95.0|-0.19|0.914|||||Comparison of FVC, Day 7, Baseline|||0.914|-0.190|
82530059|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.269|STANDARD_ERROR_OF_MEAN|0.2696|||TWO_SIDED|95.0|-0.263|0.8|||||Comparison of FVC, Day 7, 1 hour|||0.800|-0.263|
82530060|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.2648|||TWO_SIDED|95.0|-0.501|0.543|||||Comparison of FVC, Day 7, 2 hour|||0.543|-0.501|
82530061|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.177|STANDARD_ERROR_OF_MEAN|0.2606|||TWO_SIDED|95.0|-0.337|0.691|||||Comparison of FVC, Day 7, 4 hour|||0.691|-0.337|
82530062|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.266|STANDARD_ERROR_OF_MEAN|0.2684|||TWO_SIDED|95.0|-0.263|0.795|||||Comparison of FVC, Day 7, 9 hour|||0.795|-0.263|
82530063|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.2923|||TWO_SIDED|95.0|-0.209|0.943|||||Comparison of FVC, Day 7, 12 hour|||0.943|-0.209|
82530064|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.242|STANDARD_ERROR_OF_MEAN|0.2665|||TWO_SIDED|95.0|-0.283|0.768|||||Comparison of FVC, Day 7, 24 hour|||0.768|-0.283|
82530065|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.152|STANDARD_ERROR_OF_MEAN|0.2106|||TWO_SIDED|95.0|-0.263|0.567|||||Comparison of FVC, Day 1, 1 hour|||0.567|-0.263|
82530066|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.321|STANDARD_ERROR_OF_MEAN|0.2039|||TWO_SIDED|95.0|-0.081|0.723|||||Comparison of FVC, Day 1, 2 hour|||0.723|-0.081|
82530067|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.311|STANDARD_ERROR_OF_MEAN|0.1981|||TWO_SIDED|95.0|-0.079|0.701|||||Comparison of FVC, Day 1, 4 hour|||0.701|-0.079|
82530068|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.348|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|95.0|-0.064|0.76|||||Comparison of FVC, Day 1, 9 hour|||0.760|-0.064|
82530069|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.245|STANDARD_ERROR_OF_MEAN|0.241|||TWO_SIDED|95.0|-0.23|0.72|||||Comparison of FVC, Day 1, 12 hour|||0.720|-0.230|
82530070|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.162|STANDARD_ERROR_OF_MEAN|0.2063|||TWO_SIDED|95.0|-0.245|0.569|||||Comparison of FVC, Day 1, 24 hour|||0.569|-0.245|
82530071|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.535|STANDARD_ERROR_OF_MEAN|0.2907|||TWO_SIDED|95.0|-0.038|1.108|||||Comparison of FVC, Day 7, Baseline|||1.108|-0.038|
82445320|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.071|TWO_SIDED|90.0|0.01|0.17||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.17|0.01|0.071
82445321|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.01||||0.758|TWO_SIDED|90.0|-0.05|0.07||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|-0.05|0.758
82445322|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.12||||0.114|TWO_SIDED|90.0|-0.24|0.0||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.00|-0.24|0.114
82445323|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.14||||0.078|TWO_SIDED|90.0|-0.26|-0.01||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.01|-0.26|0.078
82445324|NCT01264770|164599109|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.21||||0.003|TWO_SIDED|90.0|-0.32|-0.09||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.09|-0.32|0.003
82374901|NCT01386983|164456182|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.406||||0.0128|TWO_SIDED|95.0|1.297|8.941|||Regression, Cox|||||8.941|1.297|0.0128
82374902|NCT01386983|164456183|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Generalized linear model|Gamma distribution with log-link function was used.||||||0.0002
82374903|NCT00049530|164456195|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||bionomial proportion test|||It is of interest to test the null hypothesis of 10% plasma b-FGF response rate versus the alternative hypothesis of 30% response rate. Based on the sample size of 30 eligible patients, there will be 84% power to detect this 20% difference in b-FGF response rates. This was based on a two-sided type I error of .05, using the one-sample binomial test.||||<0.001
82374904|NCT02549027|164456220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.24|||||TWO_SIDED|90.0|0.12|0.47|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% confidence interval (CI) were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.47|0.12|
82374905|NCT02549027|164456220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.21|||||TWO_SIDED|90.0|0.1|0.41|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.41|0.10|
82374906|NCT02549027|164456220|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.15|||||TWO_SIDED|90.0|0.08|0.3|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing LPS was supported if the CI lies below 1 for at least one dose.||0.30|0.08|
82374907|NCT02549027|164456221|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.05|||||TWO_SIDED|90.0|0.02|0.11|||||Ratio is MK-6096/placebo|Mean log treatment difference of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for LPS treatment ratio.||0.11|0.02|
82530072|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.623|STANDARD_ERROR_OF_MEAN|0.2798|||TWO_SIDED|95.0|0.072|1.175|||||Comparison of FVC, Day 7, 1 hour|||1.175|0.072|
82374908|NCT02549027|164456224|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.67|1.07|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||1.07|0.67|
82530073|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.459|STANDARD_ERROR_OF_MEAN|0.2748|||TWO_SIDED|95.0|-0.083|1.0|||||Comparison of FVC, Day 7, 2 hour|||1.000|-0.083|
82530074|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.464|STANDARD_ERROR_OF_MEAN|0.2705|||TWO_SIDED|95.0|-0.069|0.997|||||Comparison of FVC, Day 7, 4 hour|||0.997|-0.069|
82645338|NCT03985293|165005924|SUPERIORITY||Difference in LS Mean|-2.25|||<|0.0001|TWO_SIDED|90.0|-2.9|-1.6|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.60|-2.90|<.0001
82645339|NCT03985293|165005925|SUPERIORITY||Difference in LS Mean|0.31||||0.4692|TWO_SIDED|90.0|-0.4|1.03|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.03|-0.40|0.4692
82374909|NCT02549027|164456224|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.68|||||TWO_SIDED|90.0|0.54|0.86|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||0.86|0.54|
82374910|NCT02549027|164456224|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.75|||||TWO_SIDED|90.0|0.6|0.95|||||Ratio is MK-1064/placebo|Analysis used a step-down approach. Mean log treatment difference of the highest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio. If the CI lies completely below 1, testing continued to next lower MK-1064 dose. The hypothesis that MK-1064 is superior to placebo in decreasing WASO was supported if the CI lies below 1 for at least one dose.||0.95|0.60|
82374911|NCT02549027|164456225|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.63|||||TWO_SIDED|90.0|0.5|0.79|||||Ratio is MK-6096/placebo|Mean log treatment difference of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed and back-transformed to obtain the 90% CI interval for WASO treatment ratio.||0.79|0.50|
82445325|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.02||||0.46|TWO_SIDED|90.0|-0.07|0.03||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.03|-0.07|0.460
82374912|NCT02549027|164456226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||||TWO_SIDED|90.0|-12.01|17.2|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||17.20|-12.01|
82374913|NCT02549027|164456226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.28|||||TWO_SIDED|90.0|-9.33|19.88|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||19.88|-9.33|
82374914|NCT02549027|164456226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.38|||||TWO_SIDED|90.0|-8.23|20.98|||||Difference is MK-1064 - placebo|Analysis used a step-up approach. Mean treatment difference in change from baseline of the lowest MK-1064 dose versus placebo (MK-1064 - placebo) and 90% CI were computed. If the CI lies completely below 25 milliseconds, testing continued to the next higher MK-1064 dose. The hypothesis that at least one dose of MK-1064 does not produce psychomotor impairment versus placebo as assessed by CRT will be supported if the CI lies below 25 milliseconds for at least one dose.||20.98|-8.23|
82374915|NCT02549027|164456227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3|||||TWO_SIDED|90.0|-7.1|25.7|||||Difference is MK-6096 - placebo|Mean treatment difference in change from baseline of MK-6096 versus placebo (MK-6096 - placebo) and 90% CI were computed.||25.70|-7.10|
82374916|NCT05384171|164456237|SUPERIORITY||Partial Eta Squared (effect size)|0.02||||0.617|TWO_SIDED||||||ANCOVA|||||||.617
82374917|NCT05384171|164456239|SUPERIORITY||Partial Eta Squared (effect size)|0.089||||0.214|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group intention follow-up means are equal when controlling for covariates (i.e., baseline intention scores and age)||||.214
82374918|NCT05384171|164456239|SUPERIORITY||Partial Eta Squared (effect size)|0.001||||0.894|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group attitude follow-up means are equal when controlling for covariates (i.e., baseline attitude scores and age)||||.894
82374919|NCT05384171|164456239|SUPERIORITY||Partial Eta Squared (Effect Size)|0.053||||0.359|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group social norms follow-up means are equal when controlling for covariates (i.e., baseline social norms scores and age)||||.359
82374920|NCT05384171|164456239|SUPERIORITY||Partial Eta Squared (Effect Size)|0.058||||0.322|TWO_SIDED||||||ANCOVA|||Null hypothesis: Intervention and active control group perceived behavioral control follow-up means are equal when controlling for covariates (i.e., baseline perceived behavioral control scores and age)||||.322
82374921|NCT05384171|164456240|SUPERIORITY||Partial Eta Squared (effect size)|0.001||||0.891|TWO_SIDED||||||ANCOVA|||||||.891
82374922|NCT00106964|164456275|SUPERIORITY_OR_OTHER|||||||0.044|||||||Chi-squared|||||||0.0440
82530075|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.445|STANDARD_ERROR_OF_MEAN|0.2786|||TWO_SIDED|95.0|-0.104|0.994|||||Comparison of FVC, Day 7, 9 hour|||0.994|-0.104|
82645340|NCT03985293|165005925|SUPERIORITY||Difference in LS Mean|0.09||||0.8274|TWO_SIDED|90.0|-0.6|0.78|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.78|-0.60|0.8274
82645341|NCT03985293|165005925|SUPERIORITY||Difference in LS Mean|-0.72||||0.0887|TWO_SIDED|90.0|-1.42|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.02|-1.42|0.0887
82374923|NCT00106964|164456275|SUPERIORITY_OR_OTHER|||||||0.0157|||||||Chi-squared|||||||0.0157
82374924|NCT00106964|164456279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.5822||95.0|||||Regression, Cox|||||||0.5822
82374925|NCT00106964|164456279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.8698||95.0|||||Regression, Cox|||||||0.8698
82530076|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.284|STANDARD_ERROR_OF_MEAN|0.3034|||TWO_SIDED|95.0|-0.314|0.882|||||Comparison of FVC, Day 7, 12 hour|||0.882|-0.314|
82530077|NCT00453479|164756398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.384|STANDARD_ERROR_OF_MEAN|0.2766|||TWO_SIDED|95.0|-0.162|0.929|||||Comparison of FVC, Day 7, 24 hour|||0.929|-0.162|
82530078|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.233|STANDARD_ERROR_OF_MEAN|3.3333|||TWO_SIDED|95.0|-4.743|9.21|||||Comparison of maximum heart rate Day 1.|||9.210|-4.743|
82645342|NCT03985293|165005925|SUPERIORITY||Difference in LS Mean|-1.61||||0.0003|TWO_SIDED|90.0|-2.33|-0.88|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-0.88|-2.33|0.0003
82645343|NCT03985293|165005925|SUPERIORITY||Difference in LS Mean|-2.95|||<|0.0001|TWO_SIDED|90.0|-3.67|-2.22|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.22|-3.67|<.0001
82374926|NCT00106964|164456280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.29||||0.0853|TWO_SIDED|95.0|0.07|1.19|||Regression, Logistic||Adjusted odds ratio (OR) Odds ratio depends on CD4 count resulting from interaction. For example, OR=0.29 for CD4 count = 0; OR= 2.91 for CD4 count = 460 (median CD4 count for the evaluable study population).|||1.19|0.07|0.0853
82374927|NCT00106964|164456280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.0244|TWO_SIDED|95.0|1.09|3.63|||Regression, Logistic||Adjusted odds ratio|||3.63|1.09|0.0244
82374928|NCT04746794|164456281|SUPERIORITY|||||||0.0074|||||||Chi-squared|||||||0.0074
82374929|NCT04746794|164456282|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82374930|NCT00168818|164456295|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%. This results from the null-hypotheses of non-inferiority testing, where the rate difference has to be below 7.7%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|-0.7||||0.5648||95.0|-2.9|1.6||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.6|-2.9|0.5648
82374931|NCT00168818|164456295|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Analysis with NI margin 7.7%. This results from the null-hypotheses of non-inferiority testing, where the rate difference has to be below 7.7%. Non-inferiority can only be shown with CI.|Risk Difference (Percentage)|1.9||||0.1339||95.0|-0.6|4.4||p-value is for superiority testing|Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.4|-0.6|0.1339
82374932|NCT00168818|164456296|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.8||||0.3256||95.0|-2.5|0.8|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||0.8|-2.5|0.3256
82374933|NCT00168818|164456296|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.4||||0.7052||95.0|-1.5|2.2|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.2|-1.5|0.7052
82374934|NCT00168818|164456297|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.1||||0.1863||95.0|-2.7|0.5|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||0.5|-2.7|0.1863
82374935|NCT00168818|164456297|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.702||95.0|-1.4|2.1|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||2.1|-1.4|0.7020
82374936|NCT00168818|164456298|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-1.1||||0.3173||95.0|-3.3|1.1|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||1.1|-3.3|0.3173
82374937|NCT00168818|164456298|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|1.9||||0.1274||95.0|-0.5|4.3|||Normal approximation|Normal approximation of independent binomial distribution without stratification||Risk difference versus Enoxaparin||4.3|-0.5|0.1274
82374938|NCT00168818|164456299|SUPERIORITY_OR_OTHER|||||||0.0694||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0694
82374939|NCT00168818|164456299|SUPERIORITY_OR_OTHER|||||||0.0212||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.0212
82374940|NCT00168818|164456300|SUPERIORITY_OR_OTHER|||||||0.5062||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.5062
82374941|NCT00168818|164456300|SUPERIORITY_OR_OTHER|||||||0.3717||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.3717
82374942|NCT00168818|164456301|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.1240
82374943|NCT00168818|164456301|SUPERIORITY_OR_OTHER|||||||0.2497||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.2497
82374944|NCT00168818|164456303|SUPERIORITY_OR_OTHER|||||||0.4352||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.4352
82374945|NCT00168818|164456303|SUPERIORITY_OR_OTHER|||||||0.6037||95.0|||||Fisher Exact|||Comparison versus Enoxaparin||||0.6037
82374946|NCT00875797|164456354|NON_INFERIORITY_OR_EQUIVALENCE|t-test||||||0.05|TWO_SIDED|95.0||||p\<0.05|t-test, 2 sided|||||||0.05
82374947|NCT00875797|164456355|NON_INFERIORITY_OR_EQUIVALENCE|χ2 test|percentage of infection|20.0|STANDARD_DEVIATION|10.0||0.05|TWO_SIDED|95.0||||p\<0.05|Chi-squared|2 degrees of freedom||||||0.05
82374948|NCT00875797|164456356|SUPERIORITY_OR_OTHER||percentage of survivers|80.0|||<|0.05||95.0||||p\<0.05|Chi-squared, Corrected|2-degrees of freedom||Chi-square||||<0.05
82374949|NCT01590797|164456361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.5|-0.19|||Robust Regression|Robust regression using M-estimation with terms for treatment and the metformin stratum and type of insulin, and baseline A1C (%) as a covariate.||||-0.19|-0.50|<0.001
82374950|NCT01590797|164456362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.002|TWO_SIDED|95.0|-0.61|-0.14|||Robust Regression|Robust regression using M-estimation with terms for treatment and type of insulin, and baseline A1C (%) as a covariate.||||-0.14|-0.61|0.002
82374951|NCT01590797|164456363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.5|||<|0.001|TWO_SIDED|95.0|-38.4|-14.7|||ANCOVA|ANCOVA model with terms for treatment and the metformin stratum and type of insulin, and baseline 2-hr Post- Meal Glucose (mg/dL) as a covariate.||||-14.7|-38.4|<0.001
82374952|NCT00811928|164456413|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the 95% Confidence Interval for the difference in incidence defined as (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100% (posaconazole minus fluconazole) had to be \< 4 in order to be considered non-inferior. IFI occurred: proven+probable|Difference for the incidence|-5.88|||||TWO_SIDED|95.0|-12.21|0.25|||||Posaconazole minus fluconazole|||0.25|-12.21|
82530079|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|8.0907|||TWO_SIDED|95.0|-11.2|22.664|||||Comparison of maximum heart rate Day 7.|||22.664|-11.200|
82530080|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.272|STANDARD_ERROR_OF_MEAN|3.239|||TWO_SIDED|95.0|-8.051|5.507|||||Comparison of maximum heart rate Day 1.|||5.507|-8.051|
82576110|NCT02567708|164861957|OTHER||Posterior median difference|0.5|STANDARD_DEVIATION|0.59||0.81|TWO_SIDED|95.0|-0.6|1.7||The data entered for the p-value represents the posterior probability that the true treatment difference is greater than zero.|Bayesian model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median difference is calculated as GSK2269557 1000 μg minus Placebo.|||1.7|-0.6|0.81
82645344|NCT03985293|165005926|SUPERIORITY||Difference in LS Mean|0.15||||0.7758|TWO_SIDED|90.0|-0.7|0.99|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.99|-0.70|0.7758
82645345|NCT03985293|165005926|SUPERIORITY||Difference in LS Mean|0.23||||0.6367|TWO_SIDED|90.0|-0.58|1.05|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.05|-0.58|0.6367
82576111|NCT02567708|164861960|OTHER||Posterior median ratio|0.89|STANDARD_DEVIATION|0.063||0.97|TWO_SIDED|95.0|0.78|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 7. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.00|0.78|0.97
82576112|NCT02567708|164861960|OTHER||Posterior median ratio|0.95|STANDARD_DEVIATION|0.071||0.76|TWO_SIDED|95.0|0.83|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 14. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.09|0.83|0.76
82576113|NCT02567708|164861960|OTHER||Posterior median ratio|1.0|STANDARD_DEVIATION|0.085||0.51|TWO_SIDED|95.0|0.84|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than one.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted.|Day 28. The data entered as the 95% confidence interval represents the 95% equi-tailed credible interval. The posterior median ratio is calculated as GSK2269557 1000 μg/ Placebo.|||1.18|0.84|0.51
82576114|NCT00706654|164861969|NON_INFERIORITY_OR_EQUIVALENCE|The test of non-inferiority of was performed using a 95% confidence interval (CI, 2-sided) for the difference in the estimated percentage of patients meeting exacerbation of psychotic symptoms/impending relapse criteria by the end of Week 26. Non-inferiority was considered confirmed if the upper bound of the 2-sided 95% CI was below the predefined margin, 11.5%.|Mean Difference (Final Values)|-0.64||||0.7871|TWO_SIDED|95.0|-5.26|3.99|||z-statistics||The 95% CI of the difference in proportions of subjects with impending relapse events between aripiprazole IM depot 300 or 400 mg mg and oral aripiprazole were provided using the pooled SE with assumption of normality of the estimated difference.|Sample sizes were estimated to achieve 93% power for the primary non-inferiority 2-sided comparison at 0.05 significance using large sample normal approximations for the distribution of the difference in binomial proportions. The assumed proportion of impending relapse at or before Week 26 for the oral aripiprazole 10-30 mg arm was 18% and the predefined non-inferiority margin was 11.5%. The sample size was projected to be 260 each for the IM depot 300 or 400 mg and oral 10-30 mg arms.||3.99|-5.26|0.7871
82576115|NCT00706654|164861969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.68||||0.0006|TWO_SIDED|95.0|-23.09|-6.27||Once non-inferiority was declared, superiority of depot 300/400 mg over depot 25/50 mg was tested by the difference between the proportion of subjects experiencing impending relapse by the end of Week 26 (2-sided 0.05 significance level z-statistic).|z-statistics|The same method was used to compare IM depot 300 or 400 mg with IM depot 25 or 50 mg in the estimated proportion of subjects with impending relapse.||For the superiority comparison (assay sensitivity analysis) of IM depot 300 or 400 mg to IM depot 25 or 50 mg, on a 2:1 randomization, sample sizes of 260 and 130, respectively, were calculated to provide about 95% power at the 0.05 significance level (2-sided). A superiority margin of 17% was assumed.||-6.27|-23.09|0.0006
82645346|NCT03985293|165005926|SUPERIORITY||Difference in LS Mean|-0.81||||0.1082|TWO_SIDED|90.0|-1.63|0.02|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.02|-1.63|0.1082
82645347|NCT03985293|165005926|SUPERIORITY||Difference in LS Mean|-2.28|||<|0.0001|TWO_SIDED|90.0|-3.14|-1.42|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.42|-3.14|<.0001
82374953|NCT00811928|164456414|SUPERIORITY_OR_OTHER||Percentage of Participants|4.27|||||TWO_SIDED|95.0|1.4|9.7|||||IFI Incidence for the Posaconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||9.7|1.4|
82645348|NCT03985293|165005926|SUPERIORITY||Difference in LS Mean|-3.57|||<|0.0001|TWO_SIDED|90.0|-4.44|-2.7|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-2.70|-4.44|<.0001
82374954|NCT00811928|164456414|SUPERIORITY_OR_OTHER||Percentage of Participants|13.68|||||TWO_SIDED|95.0|8.0|21.3|||||IFI Incidence for the Fluconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||21.3|8.0|
82530081|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.988|STANDARD_ERROR_OF_MEAN|7.8616|||TWO_SIDED|95.0|-15.47|17.443|||||Comparison of maximum heart rate Day 7.|||17.443|-15.470|
82530082|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.734|STANDARD_ERROR_OF_MEAN|3.441|||TWO_SIDED|95.0|-4.468|9.936|||||Comparison of mean heart rate Day 1.|||9.936|-4.468|
82530083|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.783|STANDARD_ERROR_OF_MEAN|2.9409|||TWO_SIDED|95.0|-1.372|10.938|||||Comparison of mean heart rate Day 7.|||10.938|-1.372|
82530084|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.074|STANDARD_ERROR_OF_MEAN|3.3103|||TWO_SIDED|95.0|-8.003|5.854|||||Comparison of mean heart rate Day 1.|||5.854|-8.003|
82645349|NCT03985293|165005927|SUPERIORITY||Difference in LS Mean|0.45||||0.4325|TWO_SIDED|90.0|-0.5|1.41|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.41|-0.50|0.4325
82645350|NCT03985293|165005927|SUPERIORITY||Difference in LS Mean|0.38||||0.4978|TWO_SIDED|90.0|-0.54|1.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||1.30|-0.54|0.4978
82374955|NCT00811928|164456417|SUPERIORITY_OR_OTHER||Percentage of Participants|31.62|||||TWO_SIDED|95.0|23.3|40.9|||||IFI Incidence for the Posaconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%.|||40.9|23.3|
82374956|NCT00811928|164456417|SUPERIORITY_OR_OTHER||Percentage of Participants|41.88|||||TWO_SIDED|95.0|32.8|51.4|||||IFI Incidence for the Fluconazole group = (# of participants affected with proven or probable IFI/ # of participants in the FAS population at risk)\*100%|||51.4|32.8|
82374957|NCT00811928|164456418|SUPERIORITY_OR_OTHER||Percentage of Participants|2.56|||||TWO_SIDED|95.0|0.5|7.3|||||All-Cause Mortality Rate is the percentage of participants with mortality from any cause.|||7.3|0.5|
82374958|NCT00811928|164456418|SUPERIORITY_OR_OTHER||Percentage of Participants|5.98|||||TWO_SIDED|95.0|2.4|11.9|||||All-Cause Mortality Rate is the percentage of participants with mortality from any cause.|||11.9|2.4|
82374959|NCT00314951|164456420|NON_INFERIORITY_OR_EQUIVALENCE|The point estimate of the difference and the 2-sided 95% confidence interval (CI) for the difference between treatment groups were computed. If the lower limit of the CI was greater than -10%, the clinical non-inferiority of fidaxomicin was demonstrated. CIs for the difference of cure rates were calculated using the method recommended by Agresti and Caffo.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-2.9|8.0||||||H0: C(fidaxomicin) - C(Vancomycin) \<= -10% Power calculation is based on cure rate of 85% in both treatment groups, non-inferiority margin of 10%, 2.5% (1-sided) type I error rate with approximately 90% power gives a total of 530 subjects.||8.0|-2.9|
82374960|NCT00314951|164456421|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.4||||0.008|TWO_SIDED|95.0|-16.2|-2.5|||Chi-squared|||||-2.5|-16.2|0.008
82374961|NCT00314951|164456422|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.2||||0.007|TWO_SIDED|95.0|2.8|17.5|||Chi-squared|||||17.5|2.8|0.007
82374962|NCT00468650|164456431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.96|STANDARD_DEVIATION|5.19|<|0.001||95.0|10.0|11.93||"Statistical significance will be declared if the p-value is \<0.05.~Change from Baseline: Week 6 (LOCF) minus Baseline"|t-test, 2 sided|single sample t-test||Primary hypothesis to be tested is whether there is a significant improvement in the IIEF EF domain at the end of the 100 mg period, as compared to the baseline (Week 0) score. Sample size (N=115) provides more than 90% power to detect a change from baseline of 10 in the primary efficacy variable, assuming a standard deviation of 9, using the two-sided, single-sample t-test with significance level (alpha) of 0.05.||11.93|10.00|<0.001
82374963|NCT00468650|164456432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.14|STANDARD_DEVIATION|5.21|<|0.001||95.0|6.17|8.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||8.11|6.17|<0.001
82374964|NCT00468650|164456432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.57|STANDARD_DEVIATION|5.43|<|0.001||95.0|9.56|11.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||11.59|9.56|<0.001
82374965|NCT00468650|164456432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.93|STANDARD_DEVIATION|5.26|<|0.001||95.0|9.93|11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||11.92|9.93|<0.001
82374966|NCT00468650|164456432|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.95|STANDARD_DEVIATION|5.21|<|0.001||95.0|9.97|11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 endpoint minus baseline||11.92|9.97|<0.001
82374967|NCT00468650|164456433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.48|STANDARD_DEVIATION|3.97|<|0.001||95.0|2.74|4.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.23|2.74|<0.001
82374968|NCT00468650|164456433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.88|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.05|4.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.71|3.05|<0.001
82374969|NCT00468650|164456433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.86|STANDARD_DEVIATION|4.35|<|0.001||95.0|3.04|4.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.67|3.04|<0.001
82374970|NCT00468650|164456433|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.86|STANDARD_DEVIATION|4.35|<|0.001||95.0|3.04|4.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2 For the secondary outcome, the change in IIEF-EF domain from the end of 50 mg period (Week 2) to the end of 100 mg period (Week 6), the sample size (N=115) provides more than 80% power to detect a mean change of 1.75 points, assuming a standard deviation of 6, using the two-sided, single sample t-test with significance level (alpha) of 0.05||4.67|3.04|<0.001
82374971|NCT00468650|164456434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.89|STANDARD_DEVIATION|2.4|<|0.001||95.0|1.45|2.34||p-value not adjusted for multiple comparisons. Threshold for significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||2.34|1.45|<0.001
82374972|NCT00468650|164456434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.46|STANDARD_DEVIATION|2.32|<|0.001||95.0|2.02|2.89||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||2.89|2.02|<0.001
82374973|NCT00468650|164456434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.59|STANDARD_DEVIATION|2.44|<|0.001||95.0|2.13|3.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||3.05|2.13|<0.001
82530085|NCT00453479|164756403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.569|STANDARD_ERROR_OF_MEAN|2.8291|||TWO_SIDED|95.0|-4.353|7.49|||||Comparison of mean heart rate Day 7.|||7.490|-4.353|
82374974|NCT00468650|164456434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.63|STANDARD_DEVIATION|2.45|<|0.001||95.0|2.17|3.08||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||3.08|2.17|<0.001
82374975|NCT00468650|164456434|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.59|STANDARD_DEVIATION|2.42|<|0.001||95.0|2.14|3.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||3.04|2.14|<0.001
82374976|NCT00468650|164456435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.61|STANDARD_DEVIATION|1.51|<|0.001||95.0|0.32|0.89||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||0.89|0.32|<0.001
82374977|NCT00468650|164456435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.75|STANDARD_DEVIATION|1.46|<|0.001||95.0|0.47|1.02||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.02|0.47|<0.001
82374978|NCT00468650|164456435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.74|STANDARD_DEVIATION|1.45|<|0.001||95.0|0.47|1.01||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.01|0.47|<0.001
82374979|NCT00468650|164456435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.74|STANDARD_DEVIATION|1.45|<|0.001||95.0|0.47|1.01||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.01|0.47|<0.001
82374980|NCT00468650|164456436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.43|STANDARD_DEVIATION|1.87|<|0.001||95.0|1.09|1.78||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||1.78|1.09|<0.001
82374981|NCT00468650|164456436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.86|<|0.001||95.0|1.65|2.35||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||2.35|1.65|<0.001
82374982|NCT00468650|164456436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.25|STANDARD_DEVIATION|1.91|<|0.001||95.0|1.89|2.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||2.62|1.89|<0.001
82374983|NCT00468650|164456436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.26|STANDARD_DEVIATION|1.94|<|0.001||95.0|1.9|2.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||2.62|1.90|<0.001
82374984|NCT00468650|164456436|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.28|STANDARD_DEVIATION|1.93|<|0.001||95.0|1.91|2.64||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||2.64|1.91|<0.001
82374985|NCT00468650|164456437|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.55|STANDARD_DEVIATION|1.41|<|0.001||95.0|0.29|0.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||0.82|0.29|<0.001
82374986|NCT00468650|164456437|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.81|STANDARD_DEVIATION|1.47|<|0.001||95.0|0.53|1.09||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.09|0.53|<0.001
82374987|NCT00468650|164456437|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83|STANDARD_DEVIATION|1.49|<|0.001||95.0|0.55|1.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.11|0.55|<0.001
82374988|NCT00468650|164456437|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.83|STANDARD_DEVIATION|1.49|<|0.001||95.0|0.55|1.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.11|0.55|<0.001
82374989|NCT00468650|164456438|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.18|STANDARD_DEVIATION|2.42|<|0.001||95.0|2.73|3.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.63|2.73|<0.001
82374990|NCT00468650|164456438|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.38|STANDARD_DEVIATION|2.39|<|0.001||95.0|3.94|4.83||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.83|3.94|<0.001
82374991|NCT00468650|164456438|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.73|STANDARD_DEVIATION|2.53|<|0.001||95.0|4.25|5.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||5.21|4.25|<0.001
82374992|NCT00468650|164456438|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.7|STANDARD_DEVIATION|2.52|<|0.001||95.0|4.23|5.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||5.17|4.23|<0.001
82374993|NCT00468650|164456438|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.72|STANDARD_DEVIATION|2.52|<|0.001||95.0|4.25|5.19||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||5.19|4.25|<0.001
82374994|NCT00468650|164456439|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.1|<|0.001||95.0|0.8|1.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.59|0.80|<0.001
82374995|NCT00468650|164456439|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.2|<|0.001||95.0|1.12|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.95|1.12|<0.001
82374996|NCT00468650|164456439|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.19|<|0.001||95.0|1.13|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.95|1.13|<0.001
82576116|NCT00706654|164861971|SUPERIORITY_OR_OTHER|||||||0.875||95.0|||||z-statistics|||||||0.8750
82398827|NCT04227405|164507674|SUPERIORITY||Slope|-1.0|STANDARD_ERROR_OF_MEAN|0.36|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Negative Conflict Management subscale||||<.01
82398828|NCT04227405|164507674|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes in the Relationship Quality subscale from Pre-test to post-test in the control group||||<.05
82398829|NCT04227405|164507674|SUPERIORITY||Slope|0.86|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes in the Relationship Quality Subscale from pretest to posttest in the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
82398830|NCT04227405|164507674|SUPERIORITY||Slope|0.53|STANDARD_ERROR_OF_MEAN|0.22|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Qualitty subscale|The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.05
82398831|NCT04227405|164507674|SUPERIORITY||Slope|-0.32|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Emotional Abuse subscale for the control group||||<.05
82398832|NCT04227405|164507674|SUPERIORITY||Slope|-0.71|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to posttest in the Emotional Abuse subscale for the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
82398833|NCT04227405|164507674|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Emotional Abuse subscale|The expected decrease from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.05
82398834|NCT04227405|164507674|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to posttest in the Relationship Satisfaction subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
82398835|NCT04227405|164507674|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Changes from pre-test to posttest in the Relationship satisfaction subscale for the intervention group||||<.001
82398836|NCT04227405|164507674|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Satisfactionn subscale||||<.001
82398837|NCT04227405|164507674|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Relationship Commitment subscale for the control group||||>.05
82398838|NCT04227405|164507674|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Relationship Commitment subscale for the intervention group||||<.001
82645351|NCT03985293|165005927|SUPERIORITY||Difference in LS Mean|-0.73||||0.197|TWO_SIDED|90.0|-1.66|0.2|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||0.20|-1.66|0.1970
82645352|NCT03985293|165005927|SUPERIORITY||Difference in LS Mean|-2.04||||0.0006|TWO_SIDED|90.0|-3.01|-1.07|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-1.07|-3.01|0.0006
82374997|NCT00468650|164456439|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.54|STANDARD_DEVIATION|2.19|<|0.001||95.0|1.13|1.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.95|1.13|<0.001
82374998|NCT00468650|164456440|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.73|STANDARD_DEVIATION|2.38|<|0.001||95.0|2.28|3.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.17|2.28|<0.001
82374999|NCT00468650|164456440|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.67|STANDARD_DEVIATION|2.49|<|0.001||95.0|3.2|4.14||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.14|3.20|<0.001
82375000|NCT00468650|164456440|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.92|STANDARD_DEVIATION|2.52|<|0.001||95.0|3.44|4.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||4.40|3.44|<0.001
82375001|NCT00468650|164456440|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|2.53|<|0.001||95.0|3.44|4.38||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||4.38|3.44|<0.001
82375002|NCT00468650|164456440|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.89|STANDARD_DEVIATION|2.53|<|0.001||95.0|3.42|4.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||4.37|3.42|<0.001
82375003|NCT00468650|164456441|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.97|STANDARD_DEVIATION|1.88|<|0.001||95.0|0.62|1.32||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.32|0.62|<0.001
82375004|NCT00468650|164456441|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.21|STANDARD_DEVIATION|1.92|<|0.001||95.0|0.85|1.57||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||1.57|0.85|<0.001
82398839|NCT04227405|164507674|SUPERIORITY||Slope|0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Relationship Commitment subscale||||<.001
82375005|NCT00468650|164456441|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.9|<|0.001||95.0|0.84|1.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.55|0.84|<0.001
82398840|NCT04227405|164507674|SUPERIORITY||Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Depression subscale for the control group||||<.001
82398841|NCT04227405|164507674|SUPERIORITY||Slope|-0.81|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Changes from pre-test to posttest in the Depression subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
82445326|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.0||||0.903|TWO_SIDED|90.0|-0.05|0.06||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.06|-0.05|0.903
82375006|NCT00468650|164456441|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|1.9|<|0.001||95.0|0.84|1.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.55|0.84|<0.001
82398842|NCT04227405|164507674|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Depression subscale||||>.05
82398843|NCT04227405|164507674|SUPERIORITY||Slope|-0.26|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Anxiety subscale for the control group||||>.05
82576117|NCT00706654|164861971|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||z-statistics|||||||0.0001
82576118|NCT00706654|164861972|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||z-statistics|||||||0.3700
82375007|NCT00468650|164456442|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|32.71|STANDARD_DEVIATION|25.36|<|0.001||95.0|27.98|37.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||37.43|27.98|<0.001
82375008|NCT00468650|164456442|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|46.21|STANDARD_DEVIATION|26.27|<|0.001||95.0|41.29|51.12||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||51.12|41.29|<0.001
82375009|NCT00468650|164456442|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.53|STANDARD_DEVIATION|26.96|<|0.001||95.0|40.44|50.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||50.63|40.44|<0.001
82375010|NCT00468650|164456442|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.28|STANDARD_DEVIATION|27.01|<|0.001||95.0|40.25|50.31||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||50.31|40.25|<0.001
82375011|NCT00468650|164456442|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.05|STANDARD_DEVIATION|27.02|<|0.001||95.0|39.99|50.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||50.11|39.99|<0.001
82530086|NCT00453479|164756407|SUPERIORITY_OR_OTHER||Ratio|1.139|STANDARD_ERROR_OF_MEAN|0.1939|||TWO_SIDED|90.0|0.811|1.601|||||SE logs is presented as standard error of mean. Comparison of GSK233705 50 µg twice daily Day 7 versus Day 1.|||1.601|0.811|
82530087|NCT00453479|164756407|SUPERIORITY_OR_OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.2057|||TWO_SIDED|90.0|0.739|1.52|||||SE logs is presented as standard error of mean. Comparison of GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.520|0.739|
82530088|NCT00453479|164756408|SUPERIORITY_OR_OTHER||Ratio|1.408|STANDARD_ERROR_OF_MEAN|0.234|||TWO_SIDED|90.0|0.934|2.122|||||SE logs is presented as standard error of mean. Comparison of Cmax AM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||2.122|0.934|
82576119|NCT00706654|164861972|SUPERIORITY_OR_OTHER|||||||0.1097||95.0|||||z-statistics|||||||0.1097
82375012|NCT00468650|164456443|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.84|STANDARD_DEVIATION|21.1|<|0.001||95.0|9.89|17.79||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||17.79|9.89|<0.001
82375013|NCT00468650|164456443|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.07|STANDARD_DEVIATION|24.25|<|0.001||95.0|8.49|17.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||17.65|8.49|<0.001
82375014|NCT00468650|164456443|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.69|STANDARD_DEVIATION|24.26|<|0.001||95.0|8.14|17.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||17.23|8.14|<0.001
82375015|NCT00468650|164456443|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.69|STANDARD_DEVIATION|24.26|<|0.001||95.0|8.14|17.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||17.23|8.14|<0.001
82375016|NCT00468650|164456444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.41|STANDARD_DEVIATION|4.4|<|0.001||95.0|4.59|6.23||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||6.23|4.59|<0.001
82375017|NCT00468650|164456444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.85|STANDARD_DEVIATION|4.96|<|0.001||95.0|7.92|9.78||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||9.78|7.92|<0.001
82375018|NCT00468650|164456444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.21|STANDARD_DEVIATION|5.19|<|0.001||95.0|8.23|10.19||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||10.19|8.23|<0.001
82375019|NCT00468650|164456444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.28|STANDARD_DEVIATION|5.14|<|0.001||95.0|8.32|10.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||10.24|8.32|<0.001
82375020|NCT00468650|164456444|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.25|STANDARD_DEVIATION|5.15|<|0.001||95.0|8.28|10.22||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||10.22|8.28|<0.001
82375021|NCT00468650|164456445|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.51|STANDARD_DEVIATION|3.89|<|0.001||95.0|2.78|4.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.24|2.78|<0.001
82375022|NCT00468650|164456445|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.41|<|0.001||95.0|3.08|4.74||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||4.74|3.08|<0.001
82375023|NCT00468650|164456445|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.09|4.73||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||4.73|3.09|<0.001
82375024|NCT00468650|164456445|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.91|STANDARD_DEVIATION|4.38|<|0.001||95.0|3.09|4.73||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||4.73|3.09|<0.001
82375025|NCT00468650|164456446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.68|STANDARD_DEVIATION|4.86|<|0.001||95.0|5.77|7.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||7.59|5.77|<0.001
82375026|NCT00468650|164456446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.94|STANDARD_DEVIATION|5.21|<|0.001||95.0|8.96|10.91||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||10.91|8.96|<0.001
82375027|NCT00468650|164456446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.59|STANDARD_DEVIATION|5.08|<|0.001||95.0|9.62|11.56||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||11.56|9.62|<0.001
82375028|NCT00468650|164456446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.63|STANDARD_DEVIATION|5.03|<|0.001||95.0|9.68|11.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||11.58|9.68|<0.001
82375029|NCT00468650|164456446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.64|STANDARD_DEVIATION|5.06|<|0.001||95.0|9.68|11.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||11.59|9.68|<0.001
82375030|NCT00468650|164456447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.29|STANDARD_DEVIATION|4.1|<|0.001||95.0|2.52|4.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.05|2.52|<0.001
82645353|NCT03985293|165005927|SUPERIORITY||Difference in LS Mean|-4.17|||<|0.0001|TWO_SIDED|90.0|-5.15|-3.18|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|PF-06882961 = Test Placebo = Reference|||-3.18|-5.15|<.0001
82645354|NCT01488071|165005932|NON_INFERIORITY_OR_EQUIVALENCE|"Mixed model for repeated measurements (MMRM), using all available data, with a freely varying mean and covariance structures and with treatment, week, and site group as fixed factors and the baseline score as a covariate. The model also included interaction between week and baseline score, as well as interaction between week and treatment.~Non-inferiority, upper limit of Confidence Interval should not exceed 2."|Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.69||0.0018|TWO_SIDED|95.0|-3.51|-0.81||Under established non-inferiority the p-value is not adjusted.|Mixed Models Analysis|MMRM||||-0.81|-3.51|0.0018
82645355|NCT01488071|165005933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|0.72||0.0054|TWO_SIDED|95.0|-3.45|-0.6||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.60|-3.45|0.0054
82645356|NCT01488071|165005934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.56||0.0008|TWO_SIDED|95.0|-2.98|-0.8||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.80|-2.98|0.0008
82375031|NCT00468650|164456447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.03|STANDARD_DEVIATION|5.09|<|0.001||95.0|3.06|5.0||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||5.00|3.06|<0.001
82645357|NCT01488071|165005935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.57||0.0007|TWO_SIDED|95.0|-3.04|-0.81||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.81|-3.04|0.0007
82645358|NCT01488071|165005936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0023|TWO_SIDED|95.0|-0.48|-0.11||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.11|-0.48|0.0023
82645359|NCT01488071|165005937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.0075|TWO_SIDED|95.0|-0.47|-0.07||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.07|-0.47|0.0075
82645360|NCT01488071|165005938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0048|TWO_SIDED|95.0|-0.42|-0.08||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.08|-0.42|0.0048
82645361|NCT01488071|165005939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.0055|TWO_SIDED|95.0|-0.42|-0.07||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.07|-0.42|0.0055
82645362|NCT01488071|165005940|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0012|TWO_SIDED|95.0|1.26|2.6||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.60|1.26|0.0012
82375032|NCT00468650|164456447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|5.04|<|0.001||95.0|3.06|4.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||4.96|3.06|<0.001
82375033|NCT00468650|164456447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.01|STANDARD_DEVIATION|5.04|<|0.001||95.0|3.06|4.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||4.96|3.06|<0.001
82576120|NCT02097303|164861975|OTHER||||||<|1e-05||||||Comparison of ALP levels before and after treatment|t-test, 2 sided|||||||<.00001
82645363|NCT01488071|165005941|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0014|TWO_SIDED|95.0|1.26|2.65||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.65|1.26|0.0014
82645364|NCT01488071|165005942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0054|TWO_SIDED|95.0|1.17|2.52||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.52|1.17|0.0054
82645365|NCT01488071|165005943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0002|TWO_SIDED|95.0|1.39|2.9||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||2.90|1.39|0.0002
82645366|NCT01488071|165005944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.72||0.0021|TWO_SIDED|95.0|-3.63|-0.81||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.81|-3.63|0.0021
82645367|NCT01488071|165005945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|0.75||0.0209|TWO_SIDED|95.0|-3.23|-0.27||No adjustments for multiple comparisons were made.|Mixed Models Analysis|The same MMRM methodology as for the primary endpoint was used.||||-0.27|-3.23|0.0209
82645368|NCT02913261|165005973|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.65|4.22|||Stratified Cochran-Mantel-Haenszel|||||4.22|1.65|<.0001
82645369|NCT02913261|165005974|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0005|TWO_SIDED|95.0|1.43|3.94|||Stratified Cochran-Mantel-Haenszel|||||3.94|1.43|0.0005
82645370|NCT02913261|165005975|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0029|TWO_SIDED|95.0|1.24|3.17|||Stratified Cochran-Mantel-Haenszel|||||3.17|1.24|0.0029
82645371|NCT02913261|165005987|SUPERIORITY||Odds Ratio (OR)|3.07|||<|0.0001|TWO_SIDED|95.0|1.8|5.25|||Stratified Cochran-Mantel-Haenszel|||||5.25|1.80|<.0001
82645372|NCT03594175|165006000|SUPERIORITY||Mean difference of proportions, Wald|29.51||||0.003|TWO_SIDED|95.0|10.76|48.26|||2-sample Z test for proportions|||CUSA-081 vs Placebo Dwell Time Up To 90 Min -- FAS||48.26|10.76|0.003
82645373|NCT03594175|165006001|NON_INFERIORITY|Non-inferiority was assessed based on the constructed 95% confidence interval (CI) for the difference in the rate of treatment success between CUSA-081 vs alteplase, with non-inferiority considered as demonstrated if the lower limit of the 95% CI for the difference in rate of success is greater than -10%.|Mean difference of proportions, Wald|-10.31||||0.03|TWO_SIDED|95.0|-19.38|-1.24|||2-sample Z test for proportions|||||-1.24|-19.38|0.030
82375034|NCT00468650|164456448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.79|STANDARD_DEVIATION|2.44|<|0.001||95.0|2.33|3.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||3.24|2.33|<0.001
82530089|NCT00453479|164756408|SUPERIORITY_OR_OTHER||Ratio|1.19|STANDARD_ERROR_OF_MEAN|0.2482|||TWO_SIDED|90.0|0.77|1.838|||||SE logs is presented as standard error of mean. Comparison of Cmax AM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.838|0.770|
82576121|NCT02097303|164861975|OTHER|||||||0.487||||||Comparison of PSA levels before and after treatment|t-test, 2 sided|||||||0.4870
82375035|NCT00468650|164456448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.23|STANDARD_DEVIATION|2.56|<|0.001||95.0|3.74|4.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Baseline||4.71|3.74|<0.001
82375036|NCT00468650|164456448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.74|STANDARD_DEVIATION|2.84|<|0.001||95.0|4.2|5.28||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Baseline||5.28|4.20|<0.001
82375037|NCT00468650|164456448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.78|STANDARD_DEVIATION|2.81|<|0.001||95.0|4.25|5.31||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Baseline||5.31|4.25|<0.001
82375038|NCT00468650|164456448|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.76|STANDARD_DEVIATION|2.82|<|0.001||95.0|4.23|5.3||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Baseline||5.30|4.23|<0.001
82375039|NCT00468650|164456449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.49|STANDARD_DEVIATION|1.91|<|0.001||95.0|1.13|1.85||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.85|1.13|<0.001
82375040|NCT00468650|164456449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.96|STANDARD_DEVIATION|2.08|<|0.001||95.0|1.57|2.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||2.36|1.57|<0.001
82375041|NCT00468650|164456449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.98|STANDARD_DEVIATION|2.07|<|0.001||95.0|1.59|2.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||2.37|1.59|<0.001
82398844|NCT04227405|164507674|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Anxiety subscale for the intervention group||||<.001
82398845|NCT04227405|164507674|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test and post-test in the intervention group were not significantly different from the change from pre-test and post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Anxiety subscale||||>.05
82645374|NCT03594175|165006002|SUPERIORITY||Mean difference of proportions, Wald|24.13||||0.017|TWO_SIDED|95.0|5.84|42.41|||2-sample Z test for proportions|||||42.41|5.84|0.017
82645375|NCT03594175|165006003|SUPERIORITY||Mean difference of proportions, Wald|41.08|||<|0.001|TWO_SIDED|95.0|21.94|60.21|||2-sample Z test for proportions|||||60.21|21.94|<0.001
82375042|NCT00468650|164456449|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.98|STANDARD_DEVIATION|2.07|<|0.001||95.0|1.59|2.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||2.37|1.59|<0.001
82398846|NCT04227405|164507674|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.04|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Budgeting subscale for the control group||||<.05
82398847|NCT04227405|164507674|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Budgeting subscale for the intervention group||||<.001
82645376|NCT03594175|165006004|SUPERIORITY||Mean difference of proportions, Wald|-10.96||||0.019|TWO_SIDED|95.0|-19.89|-2.04|||2-sample Z test for proportions|||||-2.04|-19.89|0.019
82645377|NCT03594175|165006005|SUPERIORITY||Probability Re-Occlusion Free at Day 30|0.948|||||TWO_SIDED|95.0|0.126|7.121||||||Time to first re-occlusion.||7.121|0.126|
82375043|NCT00468650|164456450|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|8.84|STANDARD_DEVIATION|28.7||0.0016||95.0|3.42|14.26||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||14.26|3.42|0.0016
82375044|NCT00468650|164456450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.18|STANDARD_DEVIATION|27.51|<|0.001||95.0|4.93|15.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||15.43|4.93|<0.001
82375045|NCT00468650|164456450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12.29|STANDARD_DEVIATION|28.88|<|0.001||95.0|6.7|17.88||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||17.88|6.70|<0.001
82530090|NCT00453479|164756408|SUPERIORITY_OR_OTHER||Ratio|0.979|STANDARD_ERROR_OF_MEAN|0.2269|||TWO_SIDED|90.0|0.658|1.457|||||SE logs is presented as standard error of mean. Comparison of Cmax PM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||1.457|0.658|
82530091|NCT00453479|164756408|SUPERIORITY_OR_OTHER||Ratio|1.028|STANDARD_ERROR_OF_MEAN|0.2407|||TWO_SIDED|90.0|0.674|1.568|||||SE logs is presented as standard error of mean. Comparison of Cmax PM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||1.568|0.674|
82530092|NCT00453479|164756410|SUPERIORITY_OR_OTHER||Ratio|2.556|STANDARD_ERROR_OF_MEAN|0.131|||TWO_SIDED|90.0|2.033|3.213|||||SE logs is presented as standard error of mean. Comparison of Ae AM dose for GSK233705 50 µg twice daily Day 7 versus Day 1.|||3.213|2.033|
82645378|NCT03594175|165006005|OTHER||Cox Proportional Hazard|0.654|||||TWO_SIDED|95.0|0.337|1.27||||||Time to first re-occlusion.||1.270|0.337|
82375046|NCT00468650|164456450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.96|STANDARD_DEVIATION|28.33|<|0.001||95.0|6.61|17.32||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||17.32|6.61|<0.001
82375047|NCT00468650|164456450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|11.95|STANDARD_DEVIATION|28.55|<|0.001||95.0|6.51|17.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||17.40|6.51|<0.001
82375048|NCT00468650|164456451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.37|STANDARD_DEVIATION|14.85||0.3324||95.0|-1.42|4.17||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||4.17|-1.42|0.3324
82375049|NCT00468650|164456451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.12|STANDARD_DEVIATION|14.26||0.0249||95.0|0.4|5.84||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||5.84|0.40|0.0249
82375050|NCT00468650|164456451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.98|STANDARD_DEVIATION|13.95||0.0249||95.0|0.37|5.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||5.58|0.37|0.0249
82375051|NCT00468650|164456451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.04|STANDARD_DEVIATION|14.07||0.0249||95.0|0.39|5.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||5.68|0.39|0.0249
82375052|NCT00468650|164456452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|15.37|STANDARD_DEVIATION|30.51|<|0.001||95.0|9.38|21.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||21.36|9.38|<0.001
82375053|NCT00468650|164456452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.15|STANDARD_DEVIATION|32.22|<|0.001||95.0|10.76|23.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||23.55|10.76|<0.001
82375054|NCT00468650|164456452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.22|STANDARD_DEVIATION|32.44|<|0.001||95.0|11.68|24.76||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||24.76|11.68|<0.001
82375055|NCT00468650|164456452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.33|STANDARD_DEVIATION|31.87|<|0.001||95.0|11.07|23.59||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||23.59|11.07|<0.001
82375056|NCT00468650|164456452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.68|STANDARD_DEVIATION|32.1|<|0.001||95.0|11.31|24.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||24.04|11.31|<0.001
82375057|NCT00468650|164456453|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.46|STANDARD_DEVIATION|9.41||0.1061||95.0|-0.32|3.24||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||3.24|-0.32|0.1061
82576122|NCT05262751|164861980|OTHER||gMean Ratio|16.69|||||TWO_SIDED|90.0|7.28|38.24|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 34.1|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||38.24|7.28|
82375058|NCT00468650|164456453|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.18|STANDARD_DEVIATION|12.33||0.3237||95.0|-1.18|3.54||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||3.54|-1.18|0.3237
82398848|NCT04227405|164507674|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Budgeting subscale||||<.10
82398849|NCT04227405|164507674|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Difficulties to Pay Bills subscale for the control group||||<.10
82375059|NCT00468650|164456453|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.13|STANDARD_DEVIATION|12.05||0.3236||95.0|-1.13|3.38||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||3.38|-1.13|0.3236
82375060|NCT00468650|164456453|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.15|STANDARD_DEVIATION|12.16||0.3236||95.0|-1.15|3.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||3.45|-1.15|0.3236
82375061|NCT00468650|164456454|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|56.96|STANDARD_DEVIATION|38.93|<|0.001||95.0|49.31|64.6||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||64.60|49.31|<0.001
82375062|NCT00468650|164456454|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.78|STANDARD_DEVIATION|35.46|<|0.001||95.0|63.74|77.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||77.81|63.74|<0.001
82375063|NCT00468650|164456454|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.23|STANDARD_DEVIATION|35.79|<|0.001||95.0|64.02|78.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.45|64.02|<0.001
82375064|NCT00468650|164456454|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.15|STANDARD_DEVIATION|35.41|<|0.001||95.0|65.2|79.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.11|65.20|<0.001
82375065|NCT00468650|164456454|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.6|STANDARD_DEVIATION|35.55|<|0.001||95.0|64.54|78.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||78.65|64.54|<0.001
82375066|NCT00468650|164456455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.56|STANDARD_DEVIATION|30.89|<|0.001||95.0|7.72|19.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||19.40|7.72|<0.001
82375067|NCT00468650|164456455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.25|STANDARD_DEVIATION|31.31|<|0.001||95.0|8.25|20.25||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.25|8.25|<0.001
82375068|NCT00468650|164456455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.51|STANDARD_DEVIATION|31.77|<|0.001||95.0|8.56|20.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||20.46|8.56|<0.001
82375069|NCT00468650|164456455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.77|STANDARD_DEVIATION|32.0|<|0.001||95.0|8.72|20.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||20.82|8.72|<0.001
82375070|NCT00468650|164456456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|58.58|STANDARD_DEVIATION|41.24|<|0.001||95.0|50.48|66.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||66.68|50.48|<0.001
82375071|NCT00468650|164456456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|76.29|STANDARD_DEVIATION|37.21|<|0.001||95.0|68.9|83.67||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||83.67|68.90|<0.001
82375072|NCT00468650|164456456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|77.69|STANDARD_DEVIATION|37.26|<|0.001||95.0|70.18|85.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||85.21|70.18|<0.001
82375073|NCT00468650|164456456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|78.79|STANDARD_DEVIATION|36.65|<|0.001||95.0|71.59|85.99||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||85.99|71.59|<0.001
82375074|NCT00468650|164456456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|78.36|STANDARD_DEVIATION|36.89|<|0.001||95.0|71.04|85.68||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||85.68|71.04|<0.001
82375075|NCT00468650|164456457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.9|STANDARD_DEVIATION|36.63|<|0.001||95.0|10.98|24.83||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||24.83|10.98|<0.001
82375076|NCT00468650|164456457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.5|STANDARD_DEVIATION|36.84|<|0.001||95.0|12.44|26.56||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||26.56|12.44|<0.001
82375077|NCT00468650|164456457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.52|STANDARD_DEVIATION|36.99|<|0.001||95.0|12.59|26.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||26.45|12.59|<0.001
82375078|NCT00468650|164456457|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.88|STANDARD_DEVIATION|37.23|<|0.001||95.0|12.84|26.91||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||26.91|12.84|<0.001
82530093|NCT00453479|164756410|SUPERIORITY_OR_OTHER||Ratio|1.644|STANDARD_ERROR_OF_MEAN|0.138|||TWO_SIDED|90.0|1.29|2.095|||||SE logs is presented as standard error of mean. Comparison of Ae AM dose for GSK233705 100 µg twice daily Day 7 versus Day 1.|||2.095|1.290|
82530094|NCT01580098|164756414|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.025
82375079|NCT00468650|164456458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|57.34|STANDARD_DEVIATION|42.6|<|0.001||95.0|48.93|65.75||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||65.75|48.93|<0.001
82375080|NCT00468650|164456458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.72|STANDARD_DEVIATION|40.3|<|0.001||95.0|62.72|78.71||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||78.71|62.72|<0.001
82375081|NCT00468650|164456458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.63|STANDARD_DEVIATION|40.78|<|0.001||95.0|62.41|78.85||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.85|62.41|<0.001
82375082|NCT00468650|164456458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.07|STANDARD_DEVIATION|40.27|<|0.001||95.0|64.16|79.98||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.98|64.16|<0.001
82375083|NCT00468650|164456458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.51|STANDARD_DEVIATION|40.48|<|0.001||95.0|63.48|79.55||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||79.55|63.48|<0.001
82530095|NCT01580098|164756415|SUPERIORITY_OR_OTHER|||||||0.182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Blood pressure: diastolic||||0.182
82530096|NCT03029780|164756422|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|0.0|||||TWO_SIDED|95.0|-12.3|12.3||||||||12.3|-12.3|
82530097|NCT03029780|164756422|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.30|
82530098|NCT03029780|164756423|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.00|0.00|
82530099|NCT03029780|164756424|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|5.8|||||TWO_SIDED|95.0|-13.3|24.8||||||||24.8|-13.3|
82530100|NCT03029780|164756424|SUPERIORITY||Odds Ratio (OR)|1.27|||||TWO_SIDED|95.0|0.58|2.78|||Cochran-Mantel-Haenszel|||||2.78|0.58|
82530101|NCT03029780|164756425|SUPERIORITY||DIFFERENCE IN INCIDENCE RATES|7.7|||||TWO_SIDED|95.0|-10.1|25.5||||||||25.5|-10.1|
82445327|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.03||||0.172|TWO_SIDED|90.0|-0.08|0.01||Week 6|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.01|-0.08|0.172
82530102|NCT03029780|164756425|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.62|3.24|||Cochran-Mantel-Haenszel|||||3.24|0.62|
82645379|NCT03594175|165006005|OTHER||Cox Proportional Hazard|1.448|||||TWO_SIDED|95.0|0.193|10.848||||||Time to first re-occlusion.||10.848|0.193|
82375084|NCT00468650|164456459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.1|STANDARD_DEVIATION|29.11|<|0.001||95.0|7.58|18.63||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||18.63|7.58|<0.001
82375085|NCT00468650|164456459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.11|STANDARD_DEVIATION|32.53|<|0.001||95.0|7.84|20.37||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.37|7.84|<0.001
82375086|NCT00468650|164456459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.47|STANDARD_DEVIATION|31.92|<|0.001||95.0|7.47|19.47||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||19.47|7.47|<0.001
82375087|NCT00468650|164456459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.72|STANDARD_DEVIATION|32.16|<|0.001||95.0|7.61|19.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||19.82|7.61|<0.001
82375088|NCT00468650|164456460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|56.96|STANDARD_DEVIATION|38.93|<|0.001||95.0|49.31|64.6||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus Baseline||64.60|49.31|<0.001
82375089|NCT00468650|164456460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|70.78|STANDARD_DEVIATION|35.46|<|0.001||95.0|63.74|77.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||77.81|63.74|<0.001
82375090|NCT00468650|164456460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.23|STANDARD_DEVIATION|35.79|<|0.001||95.0|64.02|78.45||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||78.45|64.02|<0.001
82375091|NCT00468650|164456460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|72.15|STANDARD_DEVIATION|35.41|<|0.001||95.0|65.2|79.11||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||79.11|65.20|<0.001
82375092|NCT00468650|164456460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|71.6|STANDARD_DEVIATION|35.55|<|0.001||95.0|64.54|78.65||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||78.65|64.54|<0.001
82530103|NCT01763788|164756454|SUPERIORITY||Stratified Hazard Ratio|0.656||||0.0161|TWO_SIDED|95.0|0.465|0.926|||Stratified Log Rank|||||0.926|0.465|0.0161
82645380|NCT01901146|165006107|EQUIVALENCE|The clinical equivalence between ABP 980 and trastuzumab was first evaluated by comparing the 2-sided 90% CI of the risk difference of pCR between ABP 980 and trastuzumab with a fixed margin of (-13%, 13%).|Risk Difference (RD)|7.3||||0.0508|TWO_SIDED|90.0|1.2|13.4|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The clinical equivalence between ABP 980 and trastuzumab was first evaluated by comparing the 2-sided 90% confidence interval (CI) of the Risk Difference (RD; ABP 980 - Trastuzumab) of pCR between ABP 980 and trastuzumab with a fixed margin of (-13%, 13%), estimated using a generalized linear model adjusted for stratification factors tumor (T)-stage, nodal status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||13.4|1.2|0.0508
82375093|NCT00468650|164456461|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.56|STANDARD_DEVIATION|30.89|<|0.001||95.0|7.72|19.4||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||19.40|7.72|<0.001
82375094|NCT00468650|164456461|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.25|STANDARD_DEVIATION|31.31|<|0.001||95.0|8.25|20.25||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||20.25|8.25|<0.001
82375095|NCT00468650|164456461|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.51|STANDARD_DEVIATION|31.77|<|0.001||95.0|8.56|20.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||20.46|8.56|<0.001
82530104|NCT01622543|164756480|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.046|TWO_SIDED|95.0|1.0|2.53|||Log Rank|||||2.53|1.00|0.046
82530105|NCT01622543|164756481|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.45
82530106|NCT01622543|164756482|SUPERIORITY||Odds Ratio (OR)|2.09||||0.06|TWO_SIDED|95.0|0.96|4.55|||Cochran-Mantel-Haenszel|||||4.55|0.96|0.06
82530107|NCT01622543|164756483|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.36|TWO_SIDED|95.0|0.78|1.98|||Log Rank|||||1.98|0.78|0.36
82530108|NCT00345384|164756484|SUPERIORITY_OR_OTHER||Precentage Difference|41.0||||0.03|TWO_SIDED|95.0|||||t-test, 2 sided||The percentage in opioid use by the dexmedetomidine group in comparison to the placebo for the period of time on study drug is calculated as follows: numerator = 29, denominator = 49.|||||0.03
82530109|NCT00345384|164756484|SUPERIORITY_OR_OTHER||Percentage difference|35.0||||0.04|TWO_SIDED|95.0|||||t-test, 2 sided||A measure of opioid use, weighted for total time on study drug. This is examined by a comparison of the dexmedetomidine group to the placebo group: numerator = 35, denominator = 54.|||||0.04
82530110|NCT00345384|164756485|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||The p-value reported in this table corresponds with the 6 to 16 hour time frame.||||0.02
82530111|NCT00365378|164756489|SUPERIORITY_OR_OTHER||Vaccine Efficacy|94.3||||||95.0|87.8|97.7|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||97.7|87.8|
82530112|NCT00365378|164756490|SUPERIORITY_OR_OTHER||Vaccine Efficacy|100.0||||||95.0|84.0|100.0|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||100.0|84.0|
82375096|NCT00468650|164456461|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.77|STANDARD_DEVIATION|32.0|<|0.001||95.0|8.72|20.82||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||20.82|8.72|<0.001
82375097|NCT00468650|164456462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.58|STANDARD_DEVIATION|37.77||0.001||95.0|-19.96|-5.2||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||-5.20|-19.96|0.0010
82375098|NCT00468650|164456462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.55|STANDARD_DEVIATION|35.04|<|0.001||95.0|-27.47|-13.64||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-13.64|-27.47|<0.001
82375099|NCT00468650|164456462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.53|STANDARD_DEVIATION|36.64|<|0.001||95.0|-29.88|-15.18||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-15.18|-29.88|<0.001
82375100|NCT00468650|164456462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.44|STANDARD_DEVIATION|36.06|<|0.001||95.0|-28.49|-14.39||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-14.39|-28.49|<0.001
82375101|NCT00468650|164456462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.86|STANDARD_DEVIATION|36.29|<|0.001||95.0|-29.03|-14.7||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-14.70|-29.03|<0.001
82375102|NCT00468650|164456463|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.79|STANDARD_DEVIATION|22.58||0.0021||95.0|-11.06|-2.52||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||-2.52|-11.06|0.0021
82375103|NCT00468650|164456463|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.85|STANDARD_DEVIATION|23.02||0.0027||95.0|-11.26|-2.43||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||-2.43|-11.26|0.0027
82375104|NCT00468650|164456463|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.43|STANDARD_DEVIATION|24.2||0.0015||95.0|-11.97|-2.9||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||-2.90|-11.97|0.0015
82375105|NCT00468650|164456463|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.57|STANDARD_DEVIATION|24.4||0.0015||95.0|-12.18|-2.96||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||-2.96|-12.18|0.0015
82375106|NCT00468650|164456464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.87|STANDARD_DEVIATION|34.44||0.0045||95.0|-16.6|-3.14||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||-3.14|-16.60|0.0045
82375107|NCT00468650|164456464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.74|STANDARD_DEVIATION|32.8|<|0.001||95.0|-18.22|-5.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-5.27|-18.22|<0.001
82375108|NCT00468650|164456464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.78|STANDARD_DEVIATION|33.56|<|0.001||95.0|-19.51|-6.05||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-6.05|-19.51|<0.001
82375109|NCT00468650|164456464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.13|STANDARD_DEVIATION|33.94|<|0.001||95.0|-19.76|-6.5||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-6.50|-19.76|<0.001
82398850|NCT04227405|164507674|SUPERIORITY||Slope|-0.21|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Difficulties to Pay Bills subscale for the intervention group||||<.001
82375110|NCT00468650|164456464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.4|STANDARD_DEVIATION|33.13|<|0.001||95.0|-18.94|-5.86||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-5.86|-18.94|<0.001
82375111|NCT00468650|164456465|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.39|STANDARD_DEVIATION|22.0||0.2567||95.0|-6.55|1.77||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||1.77|-6.55|0.2567
82375112|NCT00468650|164456465|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.91|STANDARD_DEVIATION|20.73||0.3435||95.0|-5.88|2.07||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||2.07|-5.88|0.3435
82375113|NCT00468650|164456465|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.71|STANDARD_DEVIATION|22.28||0.2||95.0|-6.89|1.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||1.46|-6.89|0.2000
82375114|NCT00468650|164456465|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.76|STANDARD_DEVIATION|22.48||0.2||95.0|-7.01|1.48||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||1.48|-7.01|0.2000
82375115|NCT00468650|164456466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.82|STANDARD_DEVIATION|56.75||0.0558||95.0|-21.91|0.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||0.27|-21.91|0.0558
82398851|NCT04227405|164507674|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Difficulties to Pay Bills subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|||>.05
82576123|NCT05262751|164861980|OTHER||gMean Ratio|13.54|||||TWO_SIDED|90.0|8.1|22.64|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 34.1|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||22.64|8.10|
82647991|NCT00386100|165011352|SUPERIORITY_OR_OTHER||Percent difference from metformin|1.0||||0.9125|TWO_SIDED|95.0|-15.3|20.4||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||20.4|-15.3|0.9125
82375116|NCT00468650|164456466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-29.16|STANDARD_DEVIATION|59.81|<|0.001||95.0|-40.96|-17.35||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||-17.35|-40.96|<0.001
82375117|NCT00468650|164456466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.79|STANDARD_DEVIATION|60.9|<|0.001||95.0|-43.0|-18.58||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||-18.58|-43.00|<0.001
82375118|NCT00468650|164456466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.27|STANDARD_DEVIATION|61.7|<|0.001||95.0|-42.33|-18.21||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||-18.21|-42.33|<0.001
82375119|NCT00468650|164456466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-30.87|STANDARD_DEVIATION|60.54|<|0.001||95.0|-42.82|-18.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||-18.92|-42.82|<0.001
82375120|NCT00468650|164456467|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-18.36|STANDARD_DEVIATION|46.03|<|0.001||95.0|-27.05|-9.66||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||-9.66|-27.05|<0.001
82375121|NCT00468650|164456467|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.16|STANDARD_DEVIATION|45.24|<|0.001||95.0|-30.84|-13.49||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||-13.49|-30.84|<0.001
82375122|NCT00468650|164456467|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.28|STANDARD_DEVIATION|45.86|<|0.001||95.0|-28.87|-11.69||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||-11.69|-28.87|<0.001
82375123|NCT00468650|164456467|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-20.65|STANDARD_DEVIATION|46.2|<|0.001||95.0|-29.38|-11.92||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||-11.92|-29.38|<0.001
82375124|NCT00468650|164456468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|33.27|STANDARD_DEVIATION|41.43|<|0.001||95.0|25.17|41.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||41.36|25.17|<0.001
82375125|NCT00468650|164456468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|61.45|STANDARD_DEVIATION|44.77|<|0.001||95.0|52.61|70.29||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||70.29|52.61|<0.001
82375126|NCT00468650|164456468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|66.1|STANDARD_DEVIATION|45.15|<|0.001||95.0|57.05|75.16||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||75.16|57.05|<0.001
82398852|NCT04227405|164507674|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Time with Partner subscale for the control group||||>.05
82398853|NCT04227405|164507674|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in Time with Partner subscale for the intervention group||||<.05
82398854|NCT04227405|164507674|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.17|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to pos-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Time with Partner subscale||||>.05
82375127|NCT00468650|164456468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|64.84|STANDARD_DEVIATION|45.7|<|0.001||95.0|55.91|73.77||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||73.77|55.91|<0.001
82375128|NCT00468650|164456468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|65.13|STANDARD_DEVIATION|45.56|<|0.001||95.0|56.14|74.12||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||74.12|56.14|<0.001
82375129|NCT00468650|164456469|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|27.53|STANDARD_DEVIATION|40.19|<|0.001||95.0|19.94|35.13||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||35.13|19.94|<0.001
82375130|NCT00468650|164456469|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.92|STANDARD_DEVIATION|41.9|<|0.001||95.0|22.89|38.95||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||38.95|22.89|<0.001
82398855|NCT04227405|164507674|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Positive values indicate an increase whereas a negative value indicates a decrease|Change from pre-test to post-test in banking subscale for control group||||>.05
82530113|NCT03560258|164756500|SUPERIORITY|||||||0.137|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.137
82576124|NCT05262751|164861980|OTHER||gMean Ratio|41.8|||||TWO_SIDED|90.0|34.24|51.04|||||gMean Ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 28.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||51.04|34.24|
82375131|NCT00468650|164456469|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.43|STANDARD_DEVIATION|41.88|<|0.001||95.0|22.59|38.27||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||38.27|22.59|<0.001
82375132|NCT00468650|164456469|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.98|STANDARD_DEVIATION|42.06|<|0.001||95.0|23.04|38.93||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||38.93|23.04|<0.001
82375133|NCT00468650|164456470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|22.45|STANDARD_DEVIATION|46.1|<|0.001||95.0|13.44|31.46||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 2 minus baseline||31.46|13.44|<0.001
82375134|NCT00468650|164456470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|32.3|STANDARD_DEVIATION|42.15|<|0.001||95.0|23.97|40.62||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus baseline||40.62|23.97|<0.001
82375135|NCT00468650|164456470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|35.31|STANDARD_DEVIATION|43.52|<|0.001||95.0|26.59|44.04||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus baseline||44.04|26.59|<0.001
82375136|NCT00468650|164456470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.57|STANDARD_DEVIATION|43.48|<|0.001||95.0|26.07|43.07||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus baseline||43.07|26.07|<0.001
82375137|NCT00468650|164456470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.26|STANDARD_DEVIATION|43.29|<|0.001||95.0|25.72|42.81||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus baseline||42.81|25.72|<0.001
82375138|NCT00468650|164456471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.18|STANDARD_DEVIATION|29.45||0.0014||95.0|3.61|14.74||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 4 minus Week 2||14.74|3.61|0.0014
82375139|NCT00468650|164456471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.75|STANDARD_DEVIATION|29.26||0.0025||95.0|3.15|14.36||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 minus Week 2||14.36|3.15|0.0025
82375140|NCT00468650|164456471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.15|STANDARD_DEVIATION|31.11|<|0.001||95.0|4.32|15.97||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 LOCF minus Week 2||15.97|4.32|<0.001
82375141|NCT00468650|164456471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.33|STANDARD_DEVIATION|31.36|<|0.001||95.0|4.41|16.26||p-value not adjusted for multiple comparisons. Threshold for statistical significance p\<0.05|t-test, 2 sided|single sample t-test||Week 6 Endpoint minus Week 2||16.26|4.41|<0.001
82398856|NCT04227405|164507674|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in banking subscale for the intervention group||||>.05
82398857|NCT04227405|164507674|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in Banking subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|||>.05
82576125|NCT05262751|164861980|OTHER||gMean Ratio|42.91|||||TWO_SIDED|90.0|34.9|52.76|||||gMean Ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 28.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||52.76|34.90|
82375142|NCT03322930|164456475|OTHER||||||<|0.05||||||calculated from data|t-test, 2 sided||||mean sensitivity for group; Coefficient of Repeatability for multiple tests per patient|||<0.05
82375143|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.747|-0.148||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.148|-0.747|<0.001
82375144|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.804|-0.207||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.207|-0.804|<0.001
82375145|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.841|-0.244||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.244|-0.841|<0.001
82375146|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-1.006|-0.405||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.405|-1.006|<0.001
82530114|NCT03560258|164756500|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.014
82375147|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-1.029|-0.432||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.432|-1.029|<0.001
82375148|NCT00642278|164456476|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.862|-0.265||Adjusted using Dunnett's procedure.|ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.265|-0.862|<0.001
82375149|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|95.0|-1.39|-0.34|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.34|-1.39|0.001
82375150|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.98|-0.92|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.92|-1.98|<0.001
82375151|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.33|-1.27|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.27|-2.33|<0.001
82375152|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.32|-1.26|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.26|-2.32|<0.001
82375153|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.25|-1.19|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.19|-2.25|<0.001
82445328|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.11||||0.082|TWO_SIDED|90.0|-0.21|-0.01||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.01|-0.21|0.082
82445329|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.11||||0.092|TWO_SIDED|90.0|-0.21|0.0||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.00|-0.21|0.092
82375154|NCT00642278|164456477|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.51|-0.46|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.46|-1.51|<0.001
82375155|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|36.1|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|26.07|46.13|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||46.13|26.07|<0.001
82375156|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|49.3|STANDARD_ERROR_OF_MEAN|5.13|<|0.001|TWO_SIDED|95.0|39.17|59.34|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||59.34|39.17|<0.001
82375157|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|48.2|STANDARD_ERROR_OF_MEAN|5.2|<|0.001|TWO_SIDED|95.0|37.98|58.42|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||58.42|37.98|<0.001
82445330|NCT01264770|164599110|SUPERIORITY_OR_OTHER||Weighted difference in proportions|-0.17||||0.002|TWO_SIDED|90.0|-0.27|-0.08||Week 24|Mantel Haenszel|p-values are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|90% confidence intervals are calculated using a Mantel-Haenszel approach stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.|Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.08|-0.27|0.002
82530115|NCT03560258|164756500|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 or CD8 T cell response from week 0 to week 26.||||0.100
82375158|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|49.0|STANDARD_ERROR_OF_MEAN|5.11|<|0.001|TWO_SIDED|95.0|38.91|59.01|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||59.01|38.91|<0.001
82375159|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|60.3|STANDARD_ERROR_OF_MEAN|5.13|<|0.001|TWO_SIDED|95.0|50.17|70.35|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||70.35|50.17|<0.001
82375160|NCT00642278|164456479|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|5.09||0.513|TWO_SIDED|95.0|-13.33|6.67|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||6.67|-13.33|0.513
82375161|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.5||0.009|TWO_SIDED|95.0|-2.2|-0.3|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.3|-2.2|0.009
82375162|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.5||0.002|TWO_SIDED|95.0|-2.5|-0.6|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-0.6|-2.5|0.002
82647992|NCT00386100|165011352|SUPERIORITY_OR_OTHER||Percent difference from metformin|-0.8||||0.9122|TWO_SIDED|95.0|-14.0|14.5||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||14.5|-14.0|0.9122
82375163|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.6|-0.7|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and mixed meal tolerance test.||||-0.7|-2.6|<0.001
82375164|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.3|-1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.4|-3.3|<0.001
82375165|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.3|-1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||-1.4|-3.3|<0.001
82398858|NCT04227405|164507674|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in parenting stress subscale for the control group||||>.05
82398859|NCT04227405|164507674|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in parenting stress subscale for the intervention group||||>.05
82398860|NCT04227405|164507674|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.11|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Parenting stresss subscale||||>.05
82398861|NCT04227405|164507674|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in conflict management satisfaction subscale for the control group||||<.001
82398862|NCT04227405|164507674|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in conflict management satisfaction subscale for the intervention group||||<.001
82398863|NCT04227405|164507674|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||The increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Conflict Management Satisfaction subscale||||<.001
82375166|NCT00642278|164456481|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.371|TWO_SIDED|95.0|-0.5|1.4|||ANCOVA|ANCOVA model included terms for treatment, baseline value, and stratification factor (participation in mixed meal tolerance test).||||1.4|-0.5|0.371
82398864|NCT04227405|164507675|SUPERIORITY||Slope|0.18|STANDARD_ERROR_OF_MEAN|0.28|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Positive Conflict Management subscale for the control group||||>.05
82398865|NCT04227405|164507675|SUPERIORITY||Slope|1.53|STANDARD_ERROR_OF_MEAN|0.35|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Positive Conflict Management subscale for the intervention group||||<.001
82398866|NCT04227405|164507675|SUPERIORITY||Slope|1.35|STANDARD_ERROR_OF_MEAN|0.44|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Positive Conflict Management subscale|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Positive Conflict Management subscale||||<.01
82398867|NCT04227405|164507675|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.28|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Negative Conflict subscale for the control group||||>.05
82530116|NCT03560258|164756502|SUPERIORITY|||||||0.222|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||0.222
82375167|NCT01758588|164456487|OTHER||||||||||||||||||A statistical comparison and analysis of the clinical improvement (CI) proportions cannot be made because the sample size (n=5 in treatment arm, n=3 in observation arm) is too small|||
82375168|NCT03713619|164456490|SUPERIORITY||Odds Ratio, log|1.75||||0.007|TWO_SIDED|95.0|1.12|2.73|||Regression, Logistic|||Logistic regression analysis of HiSCR50 response at Week 16 (multiple imputation)||2.73|1.12|0.0070
82375169|NCT03713619|164456490|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0418|TWO_SIDED|95.0|0.95|2.32|||Regression, Logistic|||Logistic regression analysis of HiSCR50 response at Week 16 (multiple imputation)||2.32|0.95|0.0418
82398868|NCT04227405|164507675|SUPERIORITY||Slope|-1.4|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Changes from pre-test to Follow-up in the Negative Conflict Manageement subscale for the intervention group|A positive value indicates an increase while a negative value indicates a decrease|||<.001
82398869|NCT04227405|164507675|SUPERIORITY||Slope|-0.99|STANDARD_ERROR_OF_MEAN|0.44|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to follow-i\[in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Negative Conflict Management subscale||||<.01
82398870|NCT04227405|164507675|SUPERIORITY||Slope|0.41|STANDARD_ERROR_OF_MEAN|0.17|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Quality subscale for the control group||||>.05
82398871|NCT04227405|164507675|SUPERIORITY||Slope|0.91|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Quality subscale for the intervention group||||<.001
82398872|NCT04227405|164507675|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.26|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables. Pvalue set at \<.05|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is not significantly (p \> .05) different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up n the Relationship Quality subscale||||<.10
82398873|NCT04227405|164507675|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|0.13|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Emotional Abuse subscale for the control group||||<.10
82398874|NCT04227405|164507675|SUPERIORITY||Slope|-0.71|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Emotional Abuse subscale for the intervention group||||<.001
82398875|NCT04227405|164507675|SUPERIORITY||Slope|-0.41|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected decrease from pre-test to follow-up in the intervention group is not significantly (p \> .05) different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Emotional Abuse subscale||||<.10
82398876|NCT04227405|164507675|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship subscale for the control group||||>.05
82398877|NCT04227405|164507675|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Satisfaction subscale for the intervention group||||<.001
82398878|NCT04227405|164507675|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Relationship Satisfaction subscale||||<.001
82445331|NCT01264770|164599111|SUPERIORITY_OR_OTHER||Treatment difference|23.39|||<|0.001|TWO_SIDED|90.0|9.57|40.0|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||40.00|9.57|<0.001
82445332|NCT01264770|164599111|SUPERIORITY_OR_OTHER||Treatment difference|22.97||||0.006|TWO_SIDED|90.0|7.84|38.34|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||38.34|7.84|0.006
82375170|NCT03713619|164456491|SUPERIORITY||Least square Mean Difference|-23.05|||<|0.0001|TWO_SIDED|95.0|-33.9|-12.21|||ANCOVA|||Analysis of covariance of percentage change from baseline in AN count at Week 16 (multiple imputation)||-12.21|-33.90|<0.0001
82375171|NCT03713619|164456491|SUPERIORITY||Least Square Mean difference|-18.46||||0.0004|TWO_SIDED|95.0|-29.32|-7.6|||ANCOVA|||Analysis of covariance of percentage change from baseline in AN count at Week 16 (multiple imputation)||-7.60|-29.32|0.0004
82375172|NCT03713619|164456492|SUPERIORITY||Odds Ratio, log|0.42||||0.001|TWO_SIDED|95.0|0.25|0.73|||Regression, Logistic|||Logistic regression analysis of Flare over 16 weeks (multiple imputation)||0.73|0.25|0.0010
82375173|NCT03713619|164456492|SUPERIORITY||Odds Ratio (OR)|0.71||||0.0926|TWO_SIDED|95.0|0.43|1.17|||Regression, Logistic|||Logistic regression analysis of Flare over 16 weeks (multiple imputation)||1.17|0.43|0.0926
82375174|NCT03713619|164456493|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0248|TWO_SIDED|95.0|1.0|3.4|||Regression, Logistic|||Logistic regression analysis of skin pain/NRS30 response at Week 16 (pooled data, multiple imputation)||3.40|1.00|0.0248
82375175|NCT03713619|164456493|SUPERIORITY||Odds Ratio, log|1.77||||0.0044|TWO_SIDED|95.0|1.15|2.0|||Regression, Logistic|||Logistic regression analysis of skin pain/NRS30 response at Week 16 (pooled data, multiple imputation)||2.0|1.15|0.0044
82375176|NCT03344861|164456494|OTHER|No comparator arm.|Clopper-Pearson (binomial proportion)|0.05|||<|0.05|TWO_SIDED||||||exact Clopper-Pearson binomial method|One-sided 95% upper confidence limit for the event percentage was calculated using exact (Clopper-Pearson) method for binomial proportion.|One-sided 95% upper confidence limit for the event percentage was calculated using exact (Clopper-Pearson) method for binomial proportion|Adverse events will be listed, coded by MedDRA, by system organ class and preferred term.||||<0.05
82375177|NCT03344861|164456519|OTHER||||||<|0.05|||||||exact Clopper-Pearson binomial method|One-sided 95% upper confidence limit for the event percentage, calculated using exact (Clopper-Pearson) method for binomial proportion.||"All adverse event terms are coded using MedDRA Dictionary version 21.1. NCS (Non-Clinical Significant) events were not included in the summary because their CTCAE grade and relationship were not collected. Subjects are counted once within each system organ class and each preferred term. An AE is defined as treatment related if its relationship to the study drug is recorded as reasonable possibility on the CRF (Case Report Form)."||||<0.05
82375178|NCT00673387|164456543|SUPERIORITY_OR_OTHER||||||<|0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||<0.0001
82375179|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.0002||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.0002
82375180|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.0004||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.0004
82375181|NCT00673387|164456543|SUPERIORITY_OR_OTHER||||||<|0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||||||<0.0001
82375182|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.0001||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||||||0.0001
82375183|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.251||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2510
82398879|NCT04227405|164507675|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Commitment subscale for the control group||||>.05
82375184|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.3433||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3433
82375185|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.4503||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.4503
82398880|NCT04227405|164507675|SUPERIORITY||Slope|0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Relationship Commitment subscale for the intervention group||||<.001
82398881|NCT04227405|164507675|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Relationship Commitment subscale||||<.001
82398882|NCT04227405|164507675|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Positive Conflict Management subscale for the control group||||>.05
82398883|NCT04227405|164507675|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Positive Conflict Management subscale for th eintervention group||||>.05
82398884|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Positive Conflict Management subscale||||>.05
82398885|NCT04227405|164507675|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Negative Conflict Management subscale for the control group||||>.05
82398886|NCT04227405|164507675|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Negative Conflict Management subscale for the intervention group||||>.05
82398887|NCT04227405|164507675|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.14|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Negative Conflict Management subscale||||>.05
82398888|NCT04227405|164507675|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Quality subscale for the control group||||>.05
82398889|NCT04227405|164507675|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Quality subscale for the intervention group||||>.05
82398890|NCT04227405|164507675|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship Quality subscale||||>.05
82398891|NCT04227405|164507675|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group||||>.05
82576126|NCT05262751|164861981|OTHER||gMean Ratio|9.36|||||TWO_SIDED|90.0|5.91|14.8|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 44.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||14.80|5.91|
82445333|NCT01264770|164599111|SUPERIORITY_OR_OTHER||Treatment difference|5.72||||0.234|TWO_SIDED|90.0|-3.2|21.68|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||21.68|-3.20|0.234
82530117|NCT03560258|164756502|SUPERIORITY|||||||0.222|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||0.222
82576127|NCT05262751|164861981|OTHER||gMean Ratio|12.41|||||TWO_SIDED|90.0|7.93|19.43|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 44.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||19.43|7.93|
82375186|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.2122||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2122
82375187|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.2232||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.2232
82375188|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.4207||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.4207
82375189|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.5375||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%||||0.5375
82375190|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.6633||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%||||0.6633
82375191|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.3667||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3667
82398892|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Emotional Abuse subscale for the intervention group||||>.05
82398893|NCT04227405|164507675|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Emotional Abuse subscale||||>.05
82398894|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.01|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Satisfaction subscale for the control group||||>.05
82398895|NCT04227405|164507675|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Satisfaction subscale for the interventionn group||||>.05
82530118|NCT03560258|164756502|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD4 T cell response at week 26 from baseline.||||1.00
82445334|NCT01264770|164599112|SUPERIORITY_OR_OTHER||Treatment difference|-13.72||||0.03|TWO_SIDED|90.0|-25.01|0.0|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.00|-25.01|0.030
82445335|NCT01264770|164599112|SUPERIORITY_OR_OTHER||Treatment difference|-9.49||||0.207|TWO_SIDED|90.0|-25.0|6.96|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||6.96|-25.00|0.207
82445336|NCT01264770|164599112|SUPERIORITY_OR_OTHER||Treatment difference|-19.53||||0.002|TWO_SIDED|90.0|-30.01|-6.25|||Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant) and pooled country.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-6.25|-30.01|0.002
82445337|NCT01264770|164599113|SUPERIORITY_OR_OTHER||Treatment difference|0.24||||0.007|TWO_SIDED|90.0|0.09|0.38|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.38|0.09|0.007
82445338|NCT01264770|164599113|SUPERIORITY_OR_OTHER||Treatment difference|0.22||||0.016|TWO_SIDED|90.0|0.07|0.37|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.37|0.07|0.016
82445339|NCT01264770|164599113|SUPERIORITY_OR_OTHER||Treatment difference|0.14||||0.094|TWO_SIDED|90.0|0.0|0.29|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.29|0.00|0.094
82645381|NCT01901146|165006107|EQUIVALENCE|If the test of equivalence on the RD of pCR was successful, then equivalence was tested on the risk ratio of pCR at a 2-sided significance level of 0.05 by comparing the 2-sided 90% CI of the RR of pCR between ABP 980 and trastuzumab estimated using a generalized linear model adjusted for stratification factors, with the margin of (0.7586, 1/0.7586). If the test of equivalence on the RD was not successful, the RR of pCR and 90% CI were considered to be descriptive.|Risk Ratio (RR)|1.1877||||0.043|TWO_SIDED|90.0|1.0327|1.366|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||If the test of equivalence on the RD of pCR was successful, then equivalence was tested on the Risk Ratio (RR; ABP 980 / Trastuzumab) of pCR at a 2-sided significance level of 0.05 by comparing the 2-sided 90% CI of the RR of pCR between ABP 980 and trastuzumab, estimated using a generalized linear model adjusted for stratification factors: tumor (T)-stage, nodal status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.3660|1.0327|0.0430
82645382|NCT01901146|165006108|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Difference (RD)|6.0||||0.1086|TWO_SIDED|90.0|-0.2|12.2|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk difference (ABP 980 - Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||12.2|-0.2|0.1086
82445340|NCT01264770|164599114|SUPERIORITY_OR_OTHER||Treatment difference|-0.2||||0.043|TWO_SIDED|90.0|-0.36|-0.04|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.04|-0.36|0.043
82445341|NCT01264770|164599114|SUPERIORITY_OR_OTHER||Treatment difference|-0.14||||0.158|TWO_SIDED|90.0|-0.31|0.02|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.02|-0.31|0.158
82445342|NCT01264770|164599114|SUPERIORITY_OR_OTHER||Treatment difference|-0.32||||0.001|TWO_SIDED|90.0|-0.47|-0.16|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.16|-0.47|0.001
82445343|NCT01264770|164599115|SUPERIORITY_OR_OTHER||Treatment difference|-2.77||||0.05|TWO_SIDED|90.0|-5.08|-0.45|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.45|-5.08|0.050
82445344|NCT01264770|164599115|SUPERIORITY_OR_OTHER||Treatment difference|-1.33||||0.36|TWO_SIDED|90.0|-3.73|1.06|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.06|-3.73|0.360
82445345|NCT01264770|164599115|SUPERIORITY_OR_OTHER||Treatment difference|-2.99||||0.032|TWO_SIDED|90.0|-5.29|-0.7|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||-0.70|-5.29|0.032
82398896|NCT04227405|164507675|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship satisfaction subscale||||>.05
82398897|NCT04227405|164507675|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to Follow-up in the Emotional Abuse subscale for the control group|Changes from post-test to Follow-up in the Relationship Commitment subscale for the control group||||>.05
82398898|NCT04227405|164507675|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Relationship Commitment subscale for the intervention group||||>.05
82398899|NCT04227405|164507675|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Relationship Commitment subscale||||>.05
82398900|NCT04227405|164507675|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in banking subscale for the control group||||>.05
82398901|NCT04227405|164507675|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in banking subscale for the intervention group||||>.05
82398902|NCT04227405|164507675|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Banking subscale||||>.05
82398903|NCT04227405|164507675|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the control group||||<.001
82398904|NCT04227405|164507675|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the intervention group||||<.001
82398905|NCT04227405|164507675|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.03|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Banking subscale|Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|||<.10
82398906|NCT04227405|164507675|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Difficulty to Pay Bills for the control group||||>.05
82398907|NCT04227405|164507675|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Difficulties to Pay Bills subscale for the intervention group||||<.05
82398908|NCT04227405|164507675|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Difficulties to pay bills subscale||||>.05
82398909|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Difficulty to Pay Bills subscale for the control group||||>.05
82398910|NCT04227405|164507675|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Difficulties to Pay Bills subscale for the intervention group||||>.05
82645383|NCT01901146|165006108|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Ratio (RR)|1.1463||||0.0807|TWO_SIDED|90.0|1.008|1.3035|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk ratio (ABP 980 / Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.3035|1.0080|0.0807
82398911|NCT04227405|164507675|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in Difficulty to Pay Bills subscale||||>.05
82375192|NCT00673387|164456543|SUPERIORITY_OR_OTHER|||||||0.372||||||unadjusted for multiple comparisons; significance level of 0.0492 based on the Haybittle-Peto Criterion.|t-test, 2 sided|||When multiplicity not considered, sample size of 50 participants per arm (after dropouts) was considered adequate to detect a difference of 4.5% in mean body weight change from baseline to Week 28 between one effective pramlintide + metreleptin combination treatment group versus the placebo, Pramlintide 360 mcg BID + Placebo-M, or Metreleptin 5.0 mg BID + Placebo-P treatment arms with approximately 90% power, assuming a common within-treatment standard deviation of 6.858%.||||0.3720
82375193|NCT00673387|164456547|SUPERIORITY_OR_OTHER|||||||0.0404|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate||||0.0404
82375194|NCT00673387|164456547|SUPERIORITY_OR_OTHER|||||||0.0265|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0265
82375195|NCT00673387|164456547|SUPERIORITY_OR_OTHER|||||||0.1357|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.1357
82375196|NCT00673387|164456547|SUPERIORITY_OR_OTHER|||||||0.0409|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0409
82398912|NCT04227405|164507675|SUPERIORITY||Slope|-0.69|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|||||No adjustment to p vallue|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in depression subscale for the control group||||<.001
82398913|NCT04227405|164507675|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in depression subscale for the intervention group||||<.001
82398914|NCT04227405|164507675|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Depression subscale||||>.05
82530119|NCT03560258|164756503|SUPERIORITY|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.678
82375197|NCT00673387|164456547|SUPERIORITY_OR_OTHER|||||||0.0082|||||||t-test, 2 sided|||Change at Week 28 based on a general linear model with factors for treatment group, sex, baseline BMI category, and baseline value as a covariate.||||0.0082
82375198|NCT00673387|164456551|SUPERIORITY_OR_OTHER|||||||0.0464|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0464
82375199|NCT00673387|164456551|SUPERIORITY_OR_OTHER|||||||0.0647|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0647
82375200|NCT00673387|164456551|SUPERIORITY_OR_OTHER|||||||0.069|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0690
82375201|NCT00673387|164456551|SUPERIORITY_OR_OTHER|||||||0.3717|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.3717
82375202|NCT00673387|164456551|SUPERIORITY_OR_OTHER|||||||0.0327|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0327
82398915|NCT04227405|164507675|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in depression subscale for the control group||||>.05
82398916|NCT04227405|164507675|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in depression subscale for the intervention group||||>.05
82375203|NCT00673387|164456552|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0049
82375204|NCT00673387|164456552|SUPERIORITY_OR_OTHER|||||||0.0047|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0047
82375205|NCT00673387|164456552|SUPERIORITY_OR_OTHER|||||||0.0046|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0046
82375206|NCT00673387|164456552|SUPERIORITY_OR_OTHER|||||||0.0257|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0257
82375207|NCT00673387|164456552|SUPERIORITY_OR_OTHER|||||||0.0014|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0014
82375208|NCT00673387|164456553|SUPERIORITY_OR_OTHER|||||||0.0222|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0222
82375209|NCT00673387|164456553|SUPERIORITY_OR_OTHER|||||||0.0128|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0128
82375210|NCT00673387|164456553|SUPERIORITY_OR_OTHER|||||||0.0122|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0122
82398917|NCT04227405|164507675|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in depression subscale||||>.05
82398918|NCT04227405|164507675|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Change from pre-test to follow-up in the Anxiety subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.05
82398919|NCT04227405|164507675|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the Anxiety subscale for the intervention group||||<.05
82398920|NCT04227405|164507675|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.32|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Anxiety subscale||||>.05
82398921|NCT04227405|164507675|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in anxiety subscale for the control group||||>.05
82398922|NCT04227405|164507675|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in anxiety subscale for the control group||||>.05
82398923|NCT04227405|164507675|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in the Anxiety subscale||||>.05
82375211|NCT00673387|164456553|SUPERIORITY_OR_OTHER|||||||0.0073|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0073
82375212|NCT00673387|164456553|SUPERIORITY_OR_OTHER|||||||0.0034|||||||t-test, 2 sided|||Based on a general linear model general linear model that includes baseline value and factors for treatment group, sex, baseline BMI category (\<35 kg/m2, 35 to \<40 kg/m2, ≥40 kg/m2).||||0.0034
82375213|NCT01917916|164456604|OTHER||Slope|2.4386|STANDARD_ERROR_OF_MEAN|0.3417|||TWO_SIDED|95.0|1.7504|3.1267|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter Cmax, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.1267|1.7504|
82375214|NCT01917916|164456605|OTHER||Slope|2.6033|STANDARD_ERROR_OF_MEAN|0.2499|||TWO_SIDED|95.0|2.0993|3.1073|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter AUC0-∞, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.1073|2.0993|
82375215|NCT01917916|164456606|OTHER||Slope|3.1291|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|95.0|2.3395|3.9187|||||Perfect dose proportionality would correspond to a slope of 1. Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of BI 655064 was to be assessed based on the exposure parameter AUC0-tz, determined for the 4 subcutaneous dose levels. This analysis is for the overall population.||3.9187|2.3395|
82375216|NCT00270855|164456608|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group (i.e, baseline vs. post-intervention in ARE)||||>0.05
82375217|NCT00270855|164456608|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group (i.e, baseline vs. post-intervention in FESLCE)||||>0.05
82375218|NCT00270855|164456609|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82398924|NCT04227405|164507675|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in parenting stress subscale for the control group||||>.05
82375219|NCT00270855|164456609|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375220|NCT00270855|164456610|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.||||||0.519|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group.||||0.519
82375221|NCT00270855|164456610|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375222|NCT00270855|164456611|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.||||||0.615|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||0.615
82375223|NCT00270855|164456611|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375224|NCT00270855|164456612|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375225|NCT00270855|164456612|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375226|NCT00270855|164456613|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375227|NCT00270855|164456614|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375228|NCT00270855|164456615|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375229|NCT00270855|164456616|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375230|NCT00270855|164456617|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375231|NCT00270855|164456618|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375232|NCT00270855|164456618|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82647993|NCT00386100|165011352|SUPERIORITY_OR_OTHER||Percent difference from metformin|4.6||||0.7435|TWO_SIDED|95.0|-21.2|38.7||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||38.7|-21.2|0.7435
82375233|NCT00270855|164456619|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375234|NCT00270855|164456619|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375235|NCT00270855|164456620|NON_INFERIORITY_OR_EQUIVALENCE|Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375236|NCT00270855|164456620|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375237|NCT00270855|164456621|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375238|NCT00270855|164456621|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375239|NCT00270855|164456622|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375240|NCT00270855|164456622|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375241|NCT00270855|164456623|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375242|NCT00270855|164456623|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375243|NCT00270855|164456624|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375244|NCT00270855|164456624|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375245|NCT00270855|164456625|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375246|NCT00270855|164456626|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375247|NCT00270855|164456627|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375248|NCT00270855|164456628|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney-u test was performed|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375249|NCT00270855|164456629|OTHER|A Mann-Whitney U test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82530120|NCT03560258|164756503|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.037
82645384|NCT01901146|165006109|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Difference (RD)|8.0||||0.0253|TWO_SIDED|90.0|2.1|13.9|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk difference (ABP 980 - Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||13.9|2.1|0.0253
82375250|NCT00270855|164456630|NON_INFERIORITY_OR_EQUIVALENCE|We used a Mann-Whitney U test.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||we evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375251|NCT00270855|164456631|NON_INFERIORITY_OR_EQUIVALENCE|A mann-whitney u test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375252|NCT00270855|164456632|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the ACE group||||>0.05
82375253|NCT00270855|164456632|NON_INFERIORITY_OR_EQUIVALENCE|A Wilcoxon signed-rank test was performed.|||||>|0.05|||||||t-test, 2 sided|||We evaluated differences between baseline and following the 16-week exercise intervention in the FESLCE group||||>0.05
82375254|NCT00270855|164456633|NON_INFERIORITY_OR_EQUIVALENCE|A Mann-Whitney U test was performed.|||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||We evaluated differences in the above variable between the ACE and FESLCE following the the 16-week exercise intervention||||>0.05
82375255|NCT02618759|164456652|SUPERIORITY|||||||0.0745|||||||Cochran-Mantel-Haenszel|||||||0.0745
82375256|NCT02618759|164456653|SUPERIORITY|||||||0.231|||||||Cochran-Mantel-Haenszel|||||||0.2310
82375257|NCT02618759|164456654|SUPERIORITY|||||||0.1059|||||||Cochran-Mantel-Haenszel|||||||0.1059
82375258|NCT02618759|164456655|SUPERIORITY|||||||0.6962|||||||Cochran-Mantel-Haenszel|||||||0.6962
82375259|NCT02618759|164456656|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
82398925|NCT04227405|164507675|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.1|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in parenting stress subscale for the intervention group||||>.05
82398926|NCT04227405|164507675|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in parenting stress subscale|Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|||>.05
82530121|NCT03560258|164756503|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in additional number of CEs with a CD8 T cell response from week 0 to week 26.||||0.100
82530122|NCT03560258|164756504|SUPERIORITY|||||||0.303|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.303
82375260|NCT02618759|164456657|SUPERIORITY|||||||0.1044|||||||Cochran-Mantel-Haenszel|||||||0.1044
82375261|NCT02152605|164456658|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.03|||<|0.001|TWO_SIDED|95.0|-6.28|-1.79|||Mixed Models Analysis|||||-1.79|-6.28|<0.001
82375262|NCT02152605|164456659|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.122|||<|0.001|TWO_SIDED|95.0|0.071|0.172|||Mixed Models Analysis|||||0.172|0.071|<0.001
82375263|NCT02152605|164456660|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
82375264|NCT00580788|164456666|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time for the PTHrP 2 and PTHrP 5 pmol groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82375265|NCT00580788|164456666|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p value corresponds to a decrease by Day 8 compared to baseline in the PTHrP 4 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.01
82375266|NCT00580788|164456668|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.61|TWO_SIDED|||||The reported p-value corresponds to all Arms/Groups at all time points compared to baseline|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.61
82375267|NCT00580788|164456669|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTHrP 4 pmol group.|Mixed Models Analysis|Value The level of statistical significance was set at .05 (two-tailed)||||||<0.0001
82530123|NCT03560258|164756504|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm C: Placebo in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.457
82530124|NCT03560258|164756504|SUPERIORITY|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm B: Full-length Gag DNA and Arm C: Placebo in change in the magnitude of CD4 T cell responses from week 0 to week 26.||||0.678
82530125|NCT03560258|164756505|SUPERIORITY|||||||0.755|||||||Wilcoxon (Mann-Whitney)|||Under the null hypothesis, it was assumed there was no difference between Arm A: p24CE/full-length Gag DNA and Arm B: Full-length Gag DNA in change in the magnitude of CD8 T cell responses from week 0 to week 26.||||0.755
82530126|NCT03560258|164756505|SUPERIORITY|||||||0.867|||||||Wilcoxon (Mann-Whitney)|||||||0.867
82530127|NCT03560258|164756505|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
82645385|NCT01901146|165006109|OTHER|Analyses of secondary endpoints were prespecified to be considered descriptive only.|Risk Ratio (RR)|1.2746||||0.0245|TWO_SIDED|90.0|1.0673|1.5222|||Generalized linear model|Generalized linear model adjusted for the randomization stratification factors.||The analysis of risk ratio (ABP 980 / Trastuzumab) estimated using a generalized linear model adjusted for the randomization stratification factors T-stage, node status, hormone receptor status, planned paclitaxel dosing schedule, and geographic region.||1.5222|1.0673|0.0245
82530128|NCT01460160|164756506|SUPERIORITY||Estimate of Difference|16.86||||0.032|TWO_SIDED|90.0|3.9|29.8||Superiority test versus AIEOP-BFM 2000|Chi-squared||Treatment difference (CA180372 - AIEOP-BFM 2000)|Difference in 3-year binomial EFS rate in all treated participants (dasatinib plus chemotherapy) vs. chemotherapy alone in AIEOP-BFM 2000 historical control||29.8|3.9|0.032
82530129|NCT01460160|164756506|NON_INFERIORITY|non-inferiority margin = 5%. One-sided type I error rate of 0.05|Estimate of difference|6.91||||0.271|TWO_SIDED|90.0|-3.3|17.2||Superiority test versus EsPhALL|Chi-squared||Treatment difference (CA180372 - EsPhALL) Test if lower confidence limit is above -5%|Difference in 3-year binomial EFS rate for all treated participants (dasatinib plus chemotherapy) vs. continuous imatinib plus chemotherapy in the Amended EsPhALL Trial Historical Control||17.2|-3.3|0.271
82530130|NCT01460160|164756506|SUPERIORITY|Difference in 3-year binomial EFS rate in all treated participants (dasatinib plus chemotherapy) vs. chemotherapy alone in COG AALL0031 historical control|Estimate of difference|-10.75||||0.157|TWO_SIDED|90.0|-22.7|1.2|||Chi-squared||Treatment difference (CA180372 - COG AALL0031)|||1.2|-22.7|0.157
82530131|NCT02006121|164756524|SUPERIORITY|||||||0.0047|||||||Mixed Models Analysis|||||||0.0047
82645386|NCT00297492|165006110|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Statistical significance was determined by a two-sided p value less than 0.05.|Chi-squared|Degrees of freedom = 2||"Null hypothesis: prolonged abstinence from smoking is the same for the three groups at 6 month follow-up~Sample size was based on an assumption of 6 month abstinence of 25% in the gradual group, 15% in the abrupt group, and 10% in the minimal group. Sample sizes of 300, 300, and 150 for gradual, abrupt, and minimal provides 97% to detect a difference between the groups, with 2-sided alpha = 0.05."||||0.30
82375268|NCT00580788|164456670|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to the increase over time for the PTHrP 4 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<0.0001
82375269|NCT00580788|164456671|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to change over time from baseline for all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>.05
82375270|NCT00580788|164456672|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.008|TWO_SIDED|||||The reported p-value corresponds to the % increase compared to baseline in all Arms/groups on Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.008
82375271|NCT00580788|164456672|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds the the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82398927|NCT04227405|164507675|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in banking subscale for the control group||||<.05
82398928|NCT04227405|164507675|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in parenting stress subscale for the control group||||>.05
82530132|NCT02006121|164756525|SUPERIORITY|||||||0.0022|||||||Mixed Models Analysis|||||||0.0022
82530133|NCT02006121|164756526|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82530134|NCT02006121|164756527|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
82530135|NCT02006121|164756528|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82530136|NCT02354859|164756533|SUPERIORITY||Difference in Proportions|5.9||||0.811|TWO_SIDED|95.0|-11.2|22.4|||Cochran-Mantel-Haenszel||The estimate is adjusted for baseline FEV1 % predicted strata (\<50% of predicted, between 50% and 70% of predicted, and \>70% of predicted).|||22.4|-11.2|0.811
82530137|NCT02354859|164756534|SUPERIORITY||Difference in Proportions-SAE inicidence|3.1||||0.807|TWO_SIDED|95.0|-10.6|16.6|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson method without continuity correction.|||16.6|-10.6|0.807
82530138|NCT02354859|164756535|SUPERIORITY||Rate Ratio|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks of all participants (not per participant) in the trial was as follows: in the IV Gallium group was 486.86 and in the Placebo group was 473.57.||0.93|0.71|0.002
82375272|NCT00580788|164456673|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||The reported p-value corresponds to % change (increase) from baseline in all Arms/groups at Days 2-8.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82375273|NCT00580788|164456673|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||>|0.05|TWO_SIDED|||||The reported p-value corresponds to the % change from baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||>0.05
82375274|NCT00580788|164456674|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.0001|TWO_SIDED|||||the reported p-value corresponds to % decrease compared to baseline at Days 2-8 in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<.0001
82398929|NCT04227405|164507675|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in Parenting Stress subscale||||>.05
82398930|NCT04227405|164507675|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.13|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Time with Partner subscale for the control group||||<.10
82398931|NCT04227405|164507675|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Time with Parter subscale for the intervention group||||>.05
82398932|NCT04227405|164507675|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.2|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up inn Time with Partner subscale||||>.05
82398933|NCT04227405|164507675|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Time with Partner subscale for the control group||||<.001
82398934|NCT04227405|164507675|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Time with Partner subscale for the intervention group||||>.05
82398935|NCT04227405|164507675|SUPERIORITY||Slope|0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Time with Partner subscale|Changes from post-test to follow-up in the intervention group were significantly different from the change from post-test to follow-up in the control group|||<.001
82398936|NCT04227405|164507675|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Conflict Management Satisfaction subscale for the control group||||<.05
82398937|NCT04227405|164507675|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Conflict Management Satisfaction subscale for the control group||||<.001
82398938|NCT04227405|164507675|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up in Conflict Management Satisfaction subscale||||<.05
82398939|NCT04227405|164507675|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in Conflict Management Satisfaction subscale for the control group||||>.05
82398940|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in conflict management satisfaction subscale for the intervention group||||>.05
82398941|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Difference between the control and the intervention group in the change from post-test to follow-up in Conflict Management Satisfaction subscale|Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|||>.05
82398942|NCT04227405|164507675|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.05|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in budgeting subscale for the control group||||<.10
82530139|NCT02354859|164756535|SUPERIORITY||Rate Ratio|0.89||||0.783|TWO_SIDED|95.0|0.39|2.03|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the IV Gallium group was 486.86 and in the Placebo group was 473.57.||2.03|0.39|0.783
82375275|NCT00580788|164456674|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p-value corresponds to % change from baseline at the follow-up visit in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.01
82375276|NCT00580788|164456675|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.001|TWO_SIDED|||||the reported p-value correspond to the decrease compared to baseline over time in the PTHrP 4 pmol group.|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||0.001
82375277|NCT00580788|164456675|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.01|TWO_SIDED|||||the reported p=value corresponds to % change compared to baseline at follow-up in all Arms/groups|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.01
82375278|NCT00580788|164456676|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.|||||<|0.05|TWO_SIDED|||||the reported p-values correspond to the decrease compared to baseline in all arms/groups at Days 2-8|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||<0.05
82375279|NCT00580788|164456677|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed as a standard dose-escalation study, dose-finding pilot study. The primary outcome measures were safety (hypercalcemia, hypophosphatemia and symptoms/hemodynamic measurements). A modified Fibronacci dose-escalation scheme was employed.||||||0.002|TWO_SIDED|||||the reported p-value corresponds to the increase comapred to baseline over time (days 2-8) in the PTHrP 4 pmol group|Mixed Models Analysis|The level of statistical significance was set at .05 (two-tailed)||||||.002
82375280|NCT03301649|164456681|EQUIVALENCE|Therapeutic equivalence was demonstrated if 90% CI of percentage difference between generic ivermectin lotion and sklice (ivermectin) lotion group was within the range (-20%, +20%).|Difference in percentage of participants|1.9|||||TWO_SIDED|90.0|-3.9|7.8||||||If the 90% confidence interval (CI) for the absolute difference between the percentage of participants who were considered a treatment success in the generic ivermectin lotion and sklice (ivermectin) lotion was contained within the range (-20%, +20%) then therapeutic equivalence of the generic ivermectin lotion and sklice (ivermectin) lotion was considered to have been demonstrated.||7.8|-3.9|
82375281|NCT03301649|164456682|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using last observation carried forward \[LOCF\] method).||||<0.0001
82375282|NCT03301649|164456682|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
82375283|NCT03301649|164456683|EQUIVALENCE|Therapeutic equivalence was demonstrated if 90% CI of percentage difference between generic ivermectin lotion and sklice (ivermectin) lotion group was within the range (-20%, +20%).|Difference in percentage of participants|0.9|||||TWO_SIDED|90.0|-2.6|4.5||||||If the 90% CI for the absolute difference between the percentage of participants who were considered a treatment success in the generic ivermectin lotion and sklice (ivermectin) lotion was contained within the range (-20%, +20%) then therapeutic equivalence of the generic ivermectin lotion and sklice (ivermectin) lotion was considered to have been demonstrated.||4.5|-2.6|
82375284|NCT03301649|164456684|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
82375285|NCT03301649|164456684|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was performed using Cochran- Mantel-Haenszel test, stratified by clinical site in mITT population (using LOCF method).||||<0.0001
82375286|NCT02932306|164456691|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
82375287|NCT02932306|164456692|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using ANCOVA with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
82375288|NCT02932306|164456693|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|Regression, Logistic|||Analysis was performed using a logistic regression test (using Firth's Penalized Likelihood) with factors of treatment group and analysis center.||||<0.001
82445346|NCT01264770|164599116|SUPERIORITY_OR_OTHER||Treatment difference|-1.02||||0.568|TWO_SIDED|90.0|-3.95|1.92|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.92|-3.95|0.568
82375289|NCT00696787|164456727|SUPERIORITY_OR_OTHER||Adjusted mean|-0.38||||0.471|TWO_SIDED|95.0|-1.42|0.66|||ANCOVA|||||0.66|-1.42|0.471
82375290|NCT00696787|164456727|SUPERIORITY_OR_OTHER||Adjusted mean|-0.28||||0.604|TWO_SIDED|95.0|-1.33|0.77|||ANCOVA|||||0.77|-1.33|0.604
82375291|NCT00696787|164456728|SUPERIORITY_OR_OTHER||Adjusted mean|-0.35||||0.51|TWO_SIDED|95.0|-1.42|0.71|||ANCOVA|||||0.71|-1.42|0.510
82375292|NCT00696787|164456728|SUPERIORITY_OR_OTHER||Adjusted mean|-0.55||||0.317|TWO_SIDED|95.0|-1.64|0.54|||ANCOVA|||||0.54|-1.64|0.317
82375293|NCT03207243|164456732|OTHER||Median Rate Ratio|0.82|||||TWO_SIDED|95.0|0.66|0.99|||||Median rate ratio (Placebo - GSK3772847) and its 95% Credible Interval has been presented|||0.99|0.66|
82375294|NCT03207243|164456737|OTHER||Median Rate Ratio|0.71|||||TWO_SIDED|95.0|0.44|1.01|||||Median rate ratio (Placebo - GSK3772847) and its 95% Credible Interval has been presented|||1.01|0.44|
82375295|NCT03207243|164456738|OTHER|||||||0.044|||||||Log Rank|||||||0.044
82375296|NCT03207243|164456782|OTHER||Percent change|-93.4|||<|0.001|TWO_SIDED|95.0|-94.9|-91.7||Week 4|mixed model repeated measures analysis|||||-91.7|-94.9|<0.001
82375297|NCT03207243|164456782|OTHER||Percent change|-92.9|||<|0.001|TWO_SIDED|95.0|-94.8|-90.3||Week 8|mixed model repeated measures analysis|||||-90.3|-94.8|<0.001
82375298|NCT03207243|164456782|OTHER||Percent change|-93.2|||<|0.001|TWO_SIDED|95.0|-95.4|-90.0||Week 12|mixed model repeated measures analysis|||||-90.0|-95.4|<0.001
82375299|NCT03207243|164456782|OTHER||Percent change|-93.3|||<|0.001|TWO_SIDED|95.0|-95.3|-90.4||Week 16|mixed model repeated measures analysis|||||-90.4|-95.3|<0.001
82375300|NCT03207243|164456783|OTHER||Percent change|2300.4|||<|0.001|TWO_SIDED|95.0|1833.9|2879.3||Week 4|mixed model repeated measures analysis|||||2879.3|1833.9|<0.001
82375301|NCT03207243|164456783|OTHER||Percent change|2507.7|||<|0.001|TWO_SIDED|95.0|1924.2|3259.4||Week 8|mixed model repeated measures analysis|||||3259.4|1924.2|<0.001
82375302|NCT03207243|164456783|OTHER||Percent change|2162.2|||<|0.001|TWO_SIDED|95.0|1489.1|3120.3||Week 12|mixed model repeated measures analysis|||||3120.3|1489.1|<0.001
82375303|NCT03207243|164456783|OTHER||Percent change|2663.0|||<|0.001|TWO_SIDED|95.0|1994.6|3544.8||Week 16|mixed model repeated measures analysis|||||3544.8|1994.6|<0.001
82375304|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 20 U Vs Placebo||||<0.0001
82375305|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 50 U Vs Placebo||||<0.0001
82375306|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||ILA - Dysport NG 75 U Vs Placebo||||<0.0001
82398943|NCT04227405|164507675|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.06|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in Budgeting subscale for the intervention group||||<.05
82398944|NCT04227405|164507675|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.07|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in Budgeting subscale|Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|||<.01
82398945|NCT04227405|164507675|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in budgeting subscale for the control group||||<.001
82375307|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 20 U Vs Placebo||||<0.0001
82375308|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 50 U Vs Placebo||||<0.0001
82375309|NCT01333397|164456819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||SSA - Dysport NG 75 U Vs Placebo||||<0.0001
82375310|NCT04411914|164456857|SUPERIORITY|||||||0.0009|||||||Spearman Correlation Coefficient|||||||0.0009
82375311|NCT04411914|164456858|OTHER|||||||0.0053|||||||Spearman Correlation Coefficient|"Spearman Correlation Coefficient, N=9 Prob \> \|r\| under H0: Rho=0"||||||0.0053
82375312|NCT02552212|164456890|OTHER||Odds Ratio (OR)|15.231|||<|0.001|TWO_SIDED|95.0|7.336|31.623|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and Magnetic Resonance Imaging/C- Reactive Protein (MRI/CRP) classification.||31.623|7.336|<0.001
82375313|NCT02552212|164456891|OTHER||Odds Ratio (OR)|7.436|||<|0.001|TWO_SIDED|95.0|4.127|13.401|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||13.401|4.127|<0.001
82375314|NCT02552212|164456901|OTHER||Odds Ratio (OR)|7.359|||<|0.001|TWO_SIDED|95.0|4.286|12.636|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region MRI/CRP classification.||12.636|4.286|<0.001
82375315|NCT02552212|164456902|OTHER||Difference|-1.696|||<|0.001|TWO_SIDED|95.0|-2.11|-1.282|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.282|-2.110|<0.001
82375316|NCT02552212|164456903|OTHER||Difference|-1.585|||<|0.0001|TWO_SIDED|95.0|-2.132|-1.038|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.038|-2.132|<0.0001
82375317|NCT02552212|164456904|OTHER||Difference|-1.819|||<|0.001|TWO_SIDED|95.0|-2.25|-1.388|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.388|-2.250|<0.001
82375318|NCT02552212|164456905|OTHER||Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.909|-0.672|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-0.672|-1.909|<0.001
82375319|NCT02552212|164456906|OTHER||Difference|-4.8687|||<|0.001|TWO_SIDED|95.0|-6.4014|-3.336|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-3.3360|-6.4014|<0.001
82375320|NCT02552212|164456907|OTHER||Odds Ratio (OR)|6.223|||<|0.001|TWO_SIDED|95.0|3.8|10.191|||Regression, Logistic|||Odds ratio: CZP/Placebo and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||10.191|3.800|<0.001
82375321|NCT02552212|164456908|OTHER||Difference|-0.183|||<|0.001|TWO_SIDED|95.0|-0.25|-0.117|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-0.117|-0.250|<0.001
82375322|NCT02552212|164456916|OTHER||Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.62|-1.18|||ANCOVA|||From an ANCOVA model including scores at Baseline, treatment group, region and MRI/CRP classification.||-1.18|-2.62|<0.001
82375323|NCT02552212|164456917|OTHER||Odds Ratio (OR)|0.484|||=|0.247|TWO_SIDED|95.0|0.142|1.653|||Regression, Logistic|||Odds ratio: CZP/PBO and p-value were calculated using logistic regression with factors for treatment, region and MRI/CRP classification.||1.653|0.142|=0.247
82375324|NCT02728843|164456921|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375325|NCT02728843|164456922|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375326|NCT02728843|164456923|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375327|NCT02728843|164456924|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375328|NCT02728843|164456925|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375329|NCT02728843|164456926|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82375330|NCT02728843|164456927|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82398946|NCT04227405|164507675|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up in budgeting subscale for the intervention group||||<.001
82375331|NCT04080544|164456938|OTHER|Null-hypothesis significance testing|Slope|-1.42|STANDARD_ERROR_OF_MEAN|0.81||0.081|TWO_SIDED|95.0|-3.03|0.18||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to episodic memory.||0.18|-3.03|.081
82375332|NCT04080544|164456938|OTHER|Null-hypothesis significance test|Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.604|TWO_SIDED|95.0|-0.32|0.19||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of episodic memory.||0.19|-0.32|.604
82398947|NCT04227405|164507675|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from pre-test to follow-up in Budgeting subscale|Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|||<.001
82375333|NCT04080544|164456939|OTHER|Null-hypothesis significance test|Slope|1.77|STANDARD_ERROR_OF_MEAN|0.81||0.033|TWO_SIDED|95.0|0.15|3.39||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for baseline age, sex, and years of education.||Regression testing the relationship between amyloid accumulation (annualized change score for amyloid SUVR) to temporal tau SUVR.||3.39|0.15|.033
82375334|NCT04080544|164456940|OTHER|Null-hypothesis significance testing|Slope|0.272|STANDARD_ERROR_OF_MEAN|0.7||0.699|TWO_SIDED|95.0|-1.12|1.66||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to speed of processing.||1.66|-1.12|.699
82375335|NCT04080544|164456940|OTHER|Null-hypothesis significance test|Slope|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.154|TWO_SIDED|95.0|-0.06|0.38||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in the prediction of speed of processing.||0.38|-0.06|.154
82375336|NCT04080544|164456941|OTHER|Null-hypothesis significance testing|Slope|-1.11|STANDARD_ERROR_OF_MEAN|0.74||0.137|TWO_SIDED|95.0|-2.58|0.36||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to reasoning function.||0.36|-2.58|.137
82375337|NCT04080544|164456941|OTHER|Null-hypothesis significance test|Slope|0.11|STANDARD_ERROR_OF_MEAN|0.13||0.428|TWO_SIDED|95.0|-0.16|0.37||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of reasoning.||0.37|-0.16|.428
82375338|NCT04080544|164456942|OTHER|Null-hypothesis significance test|Slope|-0.7|STANDARD_ERROR_OF_MEAN|0.78||0.376|TWO_SIDED|95.0|-2.25|0.86||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to working memory.||0.86|-2.25|.376
82375339|NCT04080544|164456942|OTHER|Null-hypothesis significance test|Slope|0.27|STANDARD_ERROR_OF_MEAN|0.13||0.039|TWO_SIDED|95.0|0.01|0.53||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the interaction of temporal tau SUVR and amyloid SUVR in prediction of working memory.||0.53|0.01|.039
82375340|NCT04080544|164456942|OTHER|Null-hypothesis significance test|Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.27||0.091|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at 1SD below the mean for amyloid||||.091
82375341|NCT04080544|164456942|OTHER|Null-hypothesis significance test|Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.296|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at the mean for amyloid SUVR||||.296
82375342|NCT04080544|164456942|OTHER|Null-hypothesis significance test|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.695|TWO_SIDED|||||A priori threshold was two-sided 0.017 after Bonferroni correction for multiple comparisons (3 post hoc tests).|sim_slopes (R interactions package)|||Post hoc simple slopes test of the amyloid x tau interaction (Statistical Analysis #2) at 1SD above the mean for amyloid SUVR||||.695
82375343|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.012|TWO_SIDED|95.0|0.0004|0.004||A prior threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to inferior temporal SUVR.||0.004|0.0004|.012
82375344|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|-0.000005|STANDARD_ERROR_OF_MEAN|0.00004||0.905|TWO_SIDED|95.0|-0.000009|0.00008||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to inferior temporal SUVR.||0.00008|-0.000009|.905
82445347|NCT01264770|164599116|SUPERIORITY_OR_OTHER||Treatment difference|-1.66||||0.368|TWO_SIDED|90.0|-4.69|1.38|||ANCOVA|Including terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||1.38|-4.69|0.368
82375345|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.006|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to inferior temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.006
82375346|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.018|TWO_SIDED|95.0|0.0003|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to middle temporal gyrus SUVR.||0.003|0.0003|.018
82375347|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|-0.00002|STANDARD_ERROR_OF_MEAN|0.00004||0.579|TWO_SIDED|95.0|-0.0001|0.00006||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustment for multiple comparisons.||Regression testing the relationship of age(quadratic) to middle temporal SUVR.||0.00006|-0.0001|.579
82375348|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.008|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to middle temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.008
82375349|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.00006|STANDARD_ERROR_OF_MEAN|0.0004||0.897|TWO_SIDED|95.0|-0.001|0.001||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age to superior temporal SUVR.||0.001|-0.001|.897
82375350|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|-0.00002|STANDARD_ERROR_OF_MEAN|0.00003||0.539|TWO_SIDED|95.0|-0.00007|0.00003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to superior temporal SUVR.||0.00003|-0.00007|.539
82375351|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|-0.00001|STANDARD_ERROR_OF_MEAN|0.0004||0.973|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to superior temporal SUVR. Growth modeling was performed using SPSS curve estimation.||||.973
82375352|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.2|TWO_SIDED|95.0|-0.001|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to entorhinal SUVR.||0.003|-0.001|.200
82375353|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.00005|STANDARD_ERROR_OF_MEAN|0.00005||0.346|TWO_SIDED|95.0|-0.00005|0.0001||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to entorhinal SUVR.||0.0001|-0.00005|.346
82375354|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.283|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing relationship of age(growth model) to entorhinal SUVR. Growth modeling was performed using SPSS curve estimation.||||.283
82375355|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.001||0.011|TWO_SIDED|95.0|0.0004|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to parahippocampal SUVR.||0.003|0.0004|.011
82375356|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.00002|STANDARD_ERROR_OF_MEAN|0.00003||0.536|TWO_SIDED|95.0|-0.00004|0.00009||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to parahippocampal SUVR.||0.00009|-0.00004|.536
82375357|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.001||0.013|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to parahippocampal SUVR. Growth modeling was performed using SPSS curve estimation.||||.013
82375358|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.002|STANDARD_ERROR_OF_MEAN|0.0005|<|0.001|TWO_SIDED|95.0|0.001|0.003||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(linear) to fusiform SUVR.||0.003|0.001|<.001
82375359|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.00001|STANDARD_ERROR_OF_MEAN|0.00003||0.692|TWO_SIDED|95.0|-0.00004|0.00006||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(quadratic) to fusiform SUVR.||0.00006|-0.00004|.692
82375360|NCT04080544|164456943|OTHER|Null-hypothesis significance test|Slope|0.001|STANDARD_ERROR_OF_MEAN|0.0004|<|0.001|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|No adjustments were made.||Regression testing the relationship of age(growth model) to fusiform SUVR. Growth modeling was performed using SPSS curve estimation.||||<.001
82375361|NCT04080544|164456944|OTHER|Null-hypothesis significance testing|Slope|0.18|STANDARD_ERROR_OF_MEAN|0.18||0.331|TWO_SIDED|95.0|-0.18|0.53||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to inferior temporal gyrus cortical thickness.||0.53|-0.18|.331
82445348|NCT01264770|164599116|SUPERIORITY_OR_OTHER||Treatment difference|-2.48||||0.16|TWO_SIDED|90.0|-5.38|0.43|||ANCOVA|Includes terms for baseline as a continuous covariate \& treatment, DMARD naivety (DMARD naive vs DMARD-IR/intolerant) \& pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.43|-5.38|0.160
82445349|NCT01325714|164599117|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset over a 1-year period, assuming 80% power and T1 error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group versus 19% for the treatment group. Given this, our goal was to include 220 total participants (after 10% attrition: N = 198).|Hazard Ratio (HR)|0.71||||0.13|TWO_SIDED|95.0|0.45|1.11||This is the p value from the discrete-time Cox regression time-to-event analyses|Regression, Cox|DF = 1|The enhanced usual care arm is the comparison group.|"Univariate time-to-event analyses, using discrete-time Cox regression models to evaluate differences between PAVeD and EU-PC in the primary outcome of incidence of aggression over time.~We expected that patients with dementia among dyads randomized to PAVeD arm would be less likely to develop aggression compared to those randomized to the enhanced usual care arm."||1.11|0.45|0.13
82445350|NCT01325714|164599117|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset over a 1-year period, assuming 80% power and T1 error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group versus 19% for the treatment group. Given this, our goal was to include 220 total participants (after 10% attrition: N = 198).|Hazard Ratio (HR)|0.77||||0.39|TWO_SIDED|95.0|0.43|1.39||From discrete time-cox regression time-to-event analysis.|Regression, Cox|df = 1|The enhanced usual care arm is the reference group.|Comparison of incidence of non-verbal aggression between treatment groups.||1.39|0.43|0.39
82445351|NCT01325714|164599117|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the ability to detect a small-to-moderate difference (Cohen's h = .4) between treatment groups in rate of aggression onset (the primary outcome) over a 1-year period, assuming 80% power and type I error rate of 5%. This differential rate in aggression onset is comparable to a 37% rate of aggression onset over a 1 year period for the control group (anticipated based on estimated rates from prior work) versus 19% for the treatment group|Hazard Ratio (HR)|0.84||||0.84|TWO_SIDED|95.0|0.51|1.37||From discrete-time Cox regression time-to-event analyses|Regression, Cox|df = 1|The usual care arm is the reference group.|Examination of group differences in incidence of verbal aggression. We expected those in paved to have lower incidence of verbal aggression relative to those in enhanced usual care.||1.37|0.51|0.84
82445352|NCT01325714|164599118|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.86||||0.46|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 455) = 0.86||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported worst pain over time.||||0.46
82445353|NCT01325714|164599119|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.43||||0.23|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported worst pain over time.||||0.23
82445354|NCT01325714|164599120|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.45||||0.23|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 455) = 1.45||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported overall pain over time.||||0.23
82445355|NCT01325714|164599121|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.86||||0.62|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 409) = 0.59||Growth curve models were conducted to examine whether there were differences between treatment groups in change in patient-reported overall pain over time.||||0.62
82445356|NCT01325714|164599122|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.94||||0.42|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 453) = 0.94.||Growth curve models were conducted to examine whether there were differences between treatment groups in change in depression over time.||||0.42
82445357|NCT01325714|164599123|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|1.1||||0.35|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 457) = 1.10||Growth curve models were conducted to examine whether there were differences between treatment groups in change in pleasant events over time.||||0.35
82445358|NCT01325714|164599124|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|0.11||||0.11|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 456) = 2.00||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver burden over time.||||0.11
82645387|NCT00297492|165006110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.28|1.22|||||The reported odds ratio represents the odds of 6 month prolonged abstinence in the gradual reduction group divided by the odds of 6 month prolonged abstinence in the abrupt cessation group.|||1.22|0.28|
82645388|NCT02437890|165006138|SUPERIORITY||||||=|0.526||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: linear model"||||= 0.526
82645389|NCT02437890|165006138|SUPERIORITY||||||=|0.504||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: Emax model"||||= 0.504
82375362|NCT04080544|164456944|OTHER|Null-hypothesis significance testing|Slope|0.07|STANDARD_ERROR_OF_MEAN|0.16||0.636|TWO_SIDED|95.0|-0.24|0.39||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education||Regression testing the relationship between temporal tau SUVR to middle temporal gyrus cortical thickness.||0.39|-0.24|.636
82398948|NCT04227405|164507677|SUPERIORITY||Slope|-0.35|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Acceptance subscale for the control group||||<.05
82645390|NCT02437890|165006138|SUPERIORITY||||||=|0.548||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: logistic model"||||= 0.548
82375363|NCT04080544|164456944|OTHER|Null-hypothesis significance testing|Slope|0.38|STANDARD_ERROR_OF_MEAN|0.16||0.024|TWO_SIDED|95.0|0.05|0.7||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to superior temporal gyrus cortical thickness.||0.70|0.05|.024
82375364|NCT04080544|164456944|OTHER|Null-hypothesis significance testing|Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.23||0.235|TWO_SIDED|95.0|-0.73|0.18||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to parahippocampal gyrus cortical thickness.||0.18|-0.73|.235
82375365|NCT04080544|164456944|OTHER|Null-hypothesis significance testing|Slope|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.639|TWO_SIDED|95.0|-0.63|1.01||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship between temporal tau SUVR to entorhinal gyrus cortical thickness.||1.01|-0.63|.639
82375366|NCT04080544|164456944|OTHER|Null-hypothesis significance test|Slope|0.19|STANDARD_ERROR_OF_MEAN|0.16||0.252|TWO_SIDED|95.0|-0.13|0.5||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to fusiform gyrus cortical thickness.||0.50|-0.13|.252
82375367|NCT04080544|164456945|OTHER|Null-hypothesis significance test|Slope|-233.74|STANDARD_ERROR_OF_MEAN|469.31||0.619|TWO_SIDED|95.0|-1163.28|695.79||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to hippocampal volume.||695.79|-1163.28|.619
82375368|NCT04080544|164456946|OTHER|Null-hypothesis significance test|Slope|9260.01|STANDARD_ERROR_OF_MEAN|3836.92||0.017|TWO_SIDED|95.0|1660.52|16859.51||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to volume of white matter hypointensities.||16859.51|1660.52|.017
82375369|NCT04080544|164456947|OTHER|Null-hypothesis significance test|Slope|0.29|STANDARD_ERROR_OF_MEAN|0.35||0.411|TWO_SIDED|95.0|-0.41|0.99||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to activation of inferior frontal gyrus (beta) on the semantic judgment fMRI task.||0.99|-0.41|.411
82375370|NCT04080544|164456947|OTHER|Null-hypothesis significance test|Slope|0.24|STANDARD_ERROR_OF_MEAN|0.29||0.412|TWO_SIDED|95.0|-0.34|0.81||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to middle temporal gyrus activation (beta) on the semantic judgment fMRI task.||0.81|-0.34|.412
82375371|NCT04080544|164456947|OTHER|Null-hypothesis significance test|Slope|0.31|STANDARD_ERROR_OF_MEAN|0.4||0.438|TWO_SIDED|95.0|-0.48|1.09||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to precuneus gyrus activation (beta) on the semantic judgment fMRI task.||1.09|-0.48|.438
82398949|NCT04227405|164507677|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Acceptance subscale for the intervention group||||<.05
82398950|NCT04227405|164507677|SUPERIORITY||Slope|0.68|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Acceptance subscale||||<.001
82375372|NCT04080544|164456948|OTHER|Null-hypothesis significance test|Slope|-1.13|STANDARD_ERROR_OF_MEAN|0.5||0.026|TWO_SIDED|95.0|-2.12|-0.14||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Regression, Linear|Adjusted for age, sex, and years of education.||Regression testing the relationship of temporal tau SUVR to resting-state system segregation.||-0.14|-2.12|.026
82375373|NCT01175031|164456960|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||signed-rank tests|||||||0.003
82375374|NCT02056392|164456964|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|90.0|-1.8|1.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.5|-1.8|
82398951|NCT04227405|164507677|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the control group||||<.05
82398952|NCT04227405|164507677|SUPERIORITY||Slope|0.38|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the intervention group||||<.05
82375375|NCT02056392|164456964|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|6.1|||||TWO_SIDED|90.0|4.4|7.7|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||7.7|4.4|
82375376|NCT02056392|164456965|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|90.0|-2.0|1.3|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.3|-2.0|
82375377|NCT02056392|164456965|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|9.2|||||TWO_SIDED|90.0|7.6|10.8|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.8|7.6|
82375378|NCT02056392|164456966|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|0.9|||||TWO_SIDED|90.0|-0.7|2.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||2.5|-0.7|
82375379|NCT02056392|164456966|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|9.9|||||TWO_SIDED|90.0|8.3|11.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||11.5|8.3|
82375380|NCT02056392|164456967|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|90.0|-1.2|2.0|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||2.0|-1.2|
82375381|NCT02056392|164456967|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|10.1|||||TWO_SIDED|90.0|8.5|11.8|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||11.8|8.5|
82375382|NCT02056392|164456968|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|90.0|-1.8|1.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||1.5|-1.8|
82398953|NCT04227405|164507677|SUPERIORITY||Slope|0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Active Coping subscale|The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|||<.001
82398954|NCT04227405|164507677|SUPERIORITY||Slope|-0.32|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the control group||||<.05
82398955|NCT04227405|164507677|SUPERIORITY||Slope|0.44|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the intervention group||||<.01
82375383|NCT02056392|164456968|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|11.9||||||90.0|10.3|13.6|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||13.6|10.3|
82375384|NCT02056392|164456969|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.5|||||TWO_SIDED|90.0|-3.1|0.2|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||0.2|-3.1|
82398956|NCT04227405|164507677|SUPERIORITY||Slope|0.76|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Planning subscale||||<.001
82398957|NCT04227405|164507677|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the control group||||>.05
82398958|NCT04227405|164507677|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the intervention group||||>.05
82375385|NCT02056392|164456969|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|10.8|||||TWO_SIDED|90.0|9.2|12.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||12.5|9.2|
82375386|NCT02056392|164456970|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|90.0|-3.4|-0.1|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-0.1|-3.4|
82375387|NCT02056392|164456970|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|8.8|||||TWO_SIDED|90.0|7.1|10.4|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.4|7.1|
82375388|NCT02056392|164456971|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|90.0|-2.9|0.4|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||0.4|-2.9|
82375389|NCT02056392|164456971|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|8.9|||||TWO_SIDED|90.0|7.2|10.5|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||10.5|7.2|
82375390|NCT02056392|164456972|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-4.7|||||TWO_SIDED|90.0|-6.4|-3.1|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-3.1|-6.4|
82398959|NCT04227405|164507677|SUPERIORITY||Slope|0.12|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Instrumental Support subscale||||>.05
82398960|NCT04227405|164507678|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.14|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the control group||||<.10
82398961|NCT04227405|164507678|SUPERIORITY||Slope|0.41|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the intervention group||||<.05
82398962|NCT04227405|164507678|SUPERIORITY||Slope|0.77|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Aceptance subscale||||<.001
82398963|NCT04227405|164507678|SUPERIORITY||Slope|-0.36|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the control group||||<.10
82398964|NCT04227405|164507678|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the intervention group||||<.05
82398965|NCT04227405|164507678|SUPERIORITY||Slope|0.76|STANDARD_ERROR_OF_MEAN|0.22|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Active Coping subscale||||<.01
82398966|NCT04227405|164507678|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the control group||||<.10
82398967|NCT04227405|164507678|SUPERIORITY||Slope|0.59|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the intervention group||||<.05
82530140|NCT02354859|164756536|SUPERIORITY||Mean Difference (Final Values)|2.05||||0.479|TWO_SIDED|95.0|-3.66|7.77|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 6, Day 14, Day 28, and Day 56. Mixed-effects repeated measures model includes terms for the baseline FEV1 (liters), treatment, visit and a visit-by-visit interaction.|||7.77|-3.66|0.479
82530141|NCT02354859|164756537|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.054|TWO_SIDED|95.0|-1.49|0.01|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 28 and Day 56. Mixed-effects repeated measures model includes terms for the baseline Pa density (log10 (CFU)), treatment, visit and a visit-by-visit interaction.|||0.01|-1.49|0.054
82530142|NCT02354859|164756538|SUPERIORITY||Mean Difference (Final Values)|4.23||||0.053|TWO_SIDED|95.0|-0.06|8.53|||Mixed Models Analysis||Analysis includes all data for relative change from baseline at Day 6, Day 14, Day 28, and Day 56. Mixed-effects repeated measures model includes terms for the baseline CFRSD-CRISS score, treatment, visit and a visit-by-visit interaction.|||8.53|-0.06|0.053
82375391|NCT02056392|164456972|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|7.6|||||TWO_SIDED|90.0|6.0|9.3|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||9.3|6.0|
82375392|NCT02056392|164456973|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|-2.5|||||TWO_SIDED|90.0|-4.1|-0.9|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||-0.9|-4.1|
82375393|NCT02056392|164456973|NON_INFERIORITY_OR_EQUIVALENCE|All one-sided 95% confidence intervals at each time point for the selumetinib difference versus placebo (2-sided 90% CIs) should be less than 10ms.|Mean Difference (Final Values)|4.0|||||TWO_SIDED|90.0|2.4|5.7|||Mixed Models Analysis|||47 evaluable volunteers gives 90% power to show non-inferiority of selumetinib versus placebo across all 10 post-dose time points, using paired T-test, 1-sided alpha=0.05 and assuming a true difference of 3 msec.||5.7|2.4|
82375394|NCT02092467|164457004|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate Cox proportional hazard model with treatment \[All Tofacitinib (ie, tofacitinib 5 mg BID and tofacitinib 10 mg BID combined) and TNFi\] as covariate.|Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|1.04|2.09|||||Primary comparison. Non-inferiority was to be claimed between All Tofacitinib and TNFi if the upper limit of the 95% CI for HR was \< 1.8 (non-inferiority criterion).|All Tofacitinib versus TNFi||2.09|1.04|
82375395|NCT02092467|164457004|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.7|1.43|||||Secondary comparison. Non-inferiority was to be claimed between tofacitinib 10 mg BID and tofacitinib 5 mg BID if the upper limit of the 95% CI for HR was \< 2.0 (non-inferiority criterion).|Tofacitinib 10 mg BID versus Tofacitinib 5 mg BID||1.43|0.70|
82375396|NCT02092467|164457004|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|1.0|2.18|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 5 mg BID versus TNFi||2.18|1.00|
82375397|NCT02092467|164457004|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.48|||||TWO_SIDED|95.0|1.0|2.19|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 10 mg BID versus TNFi||2.19|1.00|
82375398|NCT02092467|164457005|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate Cox proportional hazard model with treatment \[All Tofacitinib (ie, tofacitinib 5 mg BID and tofacitinib 10 mg BID combined) and TNFi\] as covariate.|Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.91|1.94|||||Primary comparison. Non-inferiority was to be claimed between All Tofacitinib and TNFi if the upper limit of the 95% CI for HR was \< 1.8 (non-inferiority criterion).|All Tofacitinib versus TNFi||1.94|0.91|
82375399|NCT02092467|164457005|NON_INFERIORITY|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.77|1.71|||||Secondary Comparison. Non-inferiority was to be claimed between tofacitinib 10 mg BID and tofacitinib 5 mg BID if the upper limit of the 95% CI for HR was \<2.0 (non-inferiority criterion).|Tofacitinib 10 mg BID versus Tofacitinib 5 mg BID||1.71|0.77|
82375400|NCT02092467|164457005|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.81|1.91|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 5 mg BID versus TNFi||1.91|0.81|
82398968|NCT04227405|164507678|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Planning subscale||||<.001
82375401|NCT02092467|164457005|OTHER|Hazard ratio (95% CI) was based on a univariate cox proportional hazard model with treatment (tofacitinib 5 mg BID, tofacitinib 10 mg BID and TNFi) as covariate.|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.94|2.18|||||Supportive analysis to the primary comparison between All Tofacitinib vs TNFi.|Tofacitinib 10 mg BID versus TNFi||2.18|0.94|
82375402|NCT01595386|164457028|NON_INFERIORITY_OR_EQUIVALENCE|Study sample size was powered to detect a 60% difference in LCOS between groups at α 0.05 and β 0.70, assuming the prevalence of LCOS after neonatal bypass of 65% (based on retrospective data of patients who died, required rescue steroids, ECMO, or epinephrine \> 0.1 μg/kg/min).||||||0.049|TWO_SIDED|||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||||||0.049
82375403|NCT01595386|164457029|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.44|TWO_SIDED|95.0|||||Chi-squared|||||||0.44
82375404|NCT01595386|164457030|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.62|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.62
82375405|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82375406|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.01|TWO_SIDED|95.0||||interleukin-6 at 12, 24, and 48 hour. A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.01
82375407|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.01|TWO_SIDED|95.0||||TNF-alpha at 12, 24, and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.01
82398969|NCT04227405|164507678|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
82645391|NCT02437890|165006138|SUPERIORITY||||||=|0.985||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: 1st Beta model"||||= 0.985
82375408|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0||||Interleukin1-beta at 24 and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.05
82375409|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.05|TWO_SIDED|95.0||||Interleukin-8 at 24 and 48 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||<0.05
82375410|NCT01595386|164457031|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.03|TWO_SIDED|95.0||||IL-10 at 4 hours.A p-value of \<0.05 is the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.03
82375411|NCT01595386|164457032|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.|||||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82375412|NCT01595386|164457033|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.04|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
82375413|NCT01595386|164457034|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82375414|NCT01595386|164457035|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.7|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7
82375415|NCT01595386|164457036|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.76|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
82375416|NCT01595386|164457037|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.23|TWO_SIDED|95.0|||||Fisher Exact|||||||0.23
82398970|NCT04227405|164507678|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the Intervention group||||>.05
82375417|NCT01595386|164457038|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.|||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
82375418|NCT01595386|164457038|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic|||||<|0.001|TWO_SIDED|95.0||||post-operative cortisol.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||<0.001
82375419|NCT01595386|164457038|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.004|TWO_SIDED|95.0||||Adrenal Insufficiency after bypass.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||0.004
82375420|NCT01595386|164457038|NON_INFERIORITY_OR_EQUIVALENCE|There was not a power calculation for this statistic||||||0.02|TWO_SIDED|95.0||||Development of Low cardiac output syndrome in subjects with Adrenal Insufficiency.A p-value of \<0.05 is the threshold for statistical significance.|Fisher Exact|||||||0.02
82375421|NCT02952898|164457045|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||Two-sided, continuity-corrected Chi-square tests was used to evaluate the superiority of GDC 695 gel's complete clearance proportion over that of the Vehicle treatment in the mITT population using LOCF.||||<0.0001
82375422|NCT02952898|164457045|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||Two-sided, continuity-corrected Chi-square tests was used to evaluate the superiority of Diclofenac sodium gel's complete clearance proportion over that of the Vehicle treatment in the mITT population using LOCF.||||<0.0001
82375423|NCT04400682|164457065|EQUIVALENCE|0.80-1.25 margins for equivalence|Mean ratio|1.015||||0|TWO_SIDED|90.0|0.9897|1.041|||ANOVA||||Ln(AUClast) : 0.989- 1.0410|1.0410|0.9897|0.0000
82375424|NCT04400682|164457066|EQUIVALENCE|0.80 - 1.25 equivalence margin is required.|Mean ratio|1.0361||||0.0033|TWO_SIDED|90.0|0.9294|1.1551|||ANOVA||||Ln(Cmax) : 0.9294 - 1.1551|1.1551|0.9294|0.0033
82375425|NCT04400682|164457067|EQUIVALENCE|0.80 - 1.25 equivalence margin is not required.|Mean ratio|1.0108||||0|TWO_SIDED|90.0|0.9856|1.0366|||ANOVA||||Ln(Cmax) : 0.9856 - 1.0366|1.0366|0.9856|0.0000
82375426|NCT02105974|164457069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034||||0.001|TWO_SIDED|95.0|0.014|0.055|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.055|0.014|0.001
82375427|NCT02105974|164457070|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.62||||0.084|TWO_SIDED|95.0|-0.35|5.59|||ANCOVA|||||5.59|-0.35|0.084
82375428|NCT02105974|164457071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.43|0.78||Nominal p-value|Regression, Cox|||||0.78|0.43|<0.001
82375429|NCT02968849|164457075|OTHER||Hazard Ratio (HR)|1.02||||0.84|TWO_SIDED|95.0|0.81|1.3|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.30|0.81|0.84
82398971|NCT04227405|164507678|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Instrumental Support subscale||||>.05
82375430|NCT02968849|164457075|OTHER||Hazard Ratio (HR)|1.03||||0.83|TWO_SIDED|95.0|0.81|1.31|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.31|0.81|0.83
82375431|NCT02968849|164457086|OTHER||Hazard Ratio (HR)|1.05||||0.66|TWO_SIDED|95.0|0.85|1.28|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.28|0.85|0.66
82375432|NCT02968849|164457086|OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.81|1.23|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.23|0.81|0.98
82530143|NCT00192023|164756545|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change to Week 8 Endpoint. Change = Endpoint minus baseline. Model: Change to Week 8=score at Week 8+treatment+site+treatment-by-site interaction. If treatment-by-site interaction isn't significant it will be removed from model.|ANCOVA|||Using an estimate of the common standard deviation of 13 points, the planned sample size will give about 80% power to detect a difference between the groups of 8 points on the SNAP-IV. The sample size was determined using a two-sided test with p=0.05, and assumes that up to 10% of patients will discontinue the study without providing post-baseline efficacy data in Study Period III.||||<0.001
82375433|NCT02968849|164457088|OTHER||Hazard Ratio (HR)|1.15||||0.39|TWO_SIDED|95.0|0.84|1.58|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.58|0.84|0.39
82375434|NCT02968849|164457088|OTHER||Hazard Ratio (HR)|1.12||||0.5|TWO_SIDED|95.0|0.81|1.54|||Wald||The hazard ratio was estimated using Nelson-Aalen cumulative hazard estimates. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator..|||1.54|0.81|0.50
82375435|NCT02968849|164457099|OTHER||Hazard Ratio (HR)|1.03||||0.82|TWO_SIDED|95.0|0.8|1.33|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.33|0.80|0.82
82375436|NCT02968849|164457100|OTHER||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED|95.0|0.5|1.98|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.98|0.50|0.98
82375437|NCT02968849|164457101|OTHER||Hazard Ratio (HR)|1.08||||0.6|TWO_SIDED|95.0|0.8|1.47|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.47|0.80|0.60
82375438|NCT02968849|164457102|OTHER||Hazard Ratio (HR)|0.92||||0.71|TWO_SIDED|95.0|0.58|1.46|||Log Rank|The hazard ratio was tested using a sex-stratified log rank test.|The hazard ratio was estimated using a sex-stratified Cox proportional hazards model. The vaccine group (ALVAC-HIV + subtype C gp120/MF59) represents the numerator and the placebo group represents the denominator.|||1.46|0.58|0.71
82375439|NCT03785600|164457110|OTHER||||||<|0.02||||||a priori threshold is \<0.05.|t-test, 2 sided|||||||<0.02
82375440|NCT01392963|164457128|OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82375441|NCT02755649|164457152|SUPERIORITY||Difference in Percentages|29.5|||<|0.0001|TWO_SIDED|95.0|16.87|42.05||Threshold for significance at 0.05 level. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by disease severity (IGA 3 vs IGA 4) and prior Cyclosporine A (CSA) use (Yes, No).|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across 2 dose regimens. Difference is Dupilumab minus placebo. Confidence Interval (CI) calculated using normal approximation. Participants with missing values at Week 16 were categorized as non-responders at Week 16. Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated.||42.05|16.87|< 0.0001
82375442|NCT02755649|164457152|SUPERIORITY||difference in percentages|33.0|||<|0.0001|TWO_SIDED|95.0|20.41|45.57||Threshold for significance at 0.05 level. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by disease severity (IGA 3 vs IGA 4) and prior Cyclosporine A (CSA) use (Yes, No).|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across 2 dose regimens. Difference is Dupilumab minus placebo. Confidence Interval (CI) calculated using normal approximation. Participants with missing values at Week 16 were categorized as non-responders at Week 16. Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated.||45.57|20.41|< 0.0001
82375443|NCT02755649|164457153|SUPERIORITY||Least square (LS) mean difference|-31.6|||<|0.0001|TWO_SIDED|95.0|-38.85|-24.3||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach to control Type-1 error rate at 0.05 across 2 dose regimens.CI w/p-value based on treatment difference(dupilumab vs placebo) of LS mean percent change using multiple imputation (MI) w/ANCOVA model w/baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use\[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-24.3|-38.85|< 0.0001
82398972|NCT04227405|164507678|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the control group||||>.05
82398973|NCT04227405|164507678|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the intervention group||||>.05
82398974|NCT04227405|164507678|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Positive Conflict Management subscale||||>.05
82398975|NCT04227405|164507678|SUPERIORITY|Changes from post-test to Follow-up in the Active Coping subscale for the control group|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|||||>.05
82398976|NCT04227405|164507678|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping subscale for the intervention group||||>.05
82375444|NCT02755649|164457153|SUPERIORITY||LS Mean Difference|-33.1|||<|0.0001|TWO_SIDED|95.0|-40.42|-25.88||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue \& then imputed by MI.||-25.88|-40.42|< 0.0001
82375445|NCT02755649|164457154|SUPERIORITY||LS mean difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-35.07|-17.41||Threshold for significance at 0.05 level.|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-17.41|-35.07|< 0.0001
82375446|NCT02755649|164457154|SUPERIORITY||LS Mean Difference]|-28.5|||<|0.0001|TWO_SIDED|95.0|-37.34|-19.68||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-19.68|-37.34|< 0.0001
82375447|NCT02755649|164457155|SUPERIORITY||LS Mean Difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.56|-21.93||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-21.93|-35.56|< 0.0001
82398977|NCT04227405|164507678|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Active Copinng subscale||||>.05
82398978|NCT04227405|164507678|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Plannning subscale for the control group||||>.05
82398979|NCT04227405|164507678|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.06|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the intervention group||||<.10
82398980|NCT04227405|164507678|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Planning subscale||||>.05
82398981|NCT04227405|164507678|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
82398982|NCT04227405|164507678|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the intervention group||||>.05
82398983|NCT04227405|164507678|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Instrumental Support subscale||||>.05
82398984|NCT04227405|164507680|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to Follow-up in the Emotional Abuse subscale for the control group|Changes from pre-test to posttest in the Acceptance subscale for the control group||||<.05
82398985|NCT04227405|164507680|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.16|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Emotional Abuse subscale for the control group||||<.01
82398986|NCT04227405|164507680|SUPERIORITY||Slope|0.77|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Acceptance subscale||||<.001
82398987|NCT04227405|164507680|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.13|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the control group||||>.05
82398988|NCT04227405|164507680|SUPERIORITY||Slope|0.3|STANDARD_ERROR_OF_MEAN|0.17|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Active Coping subscale for the intervention group||||<.10
82398989|NCT04227405|164507680|SUPERIORITY||Slope|0.47|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Active Coping subscale||||<.05
82530144|NCT00192023|164756546|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
82645392|NCT02437890|165006138|SUPERIORITY||||||=|0.524||||||Threshold for statistical significance: p = 0.05|Multiple Contrast Test|||"A multiple contrast test was used to establish evidence of a drug effect by testing for a statistically significant dose-response signal for clinical endpoint and patient population investigated in the study. Candidate dose-response models were selected amongst the following types of parametric models: linear model, Emax model, logistic model, a 1st Beta model, and a 2nd Beta model.~Model tested: 2nd Beta model"||||= 0.524
82645393|NCT01190098|165006196|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: there is a non-inferiority region of 4 points.||||||0.027|||||||t-test, 1 sided|||||||0.027
82645394|NCT01190098|165006197|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.7||||0.23|TWO_SIDED||||||t-test, 2 sided|||||||0.23
82645395|NCT01190098|165006198|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.84|TWO_SIDED||||||t-test, 2 sided|||||||0.84
82645396|NCT01190098|165006199|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.37|TWO_SIDED||||||t-test, 2 sided|||||||0.37
82398990|NCT04227405|164507680|SUPERIORITY||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the control group||||<.05
82398991|NCT04227405|164507680|SUPERIORITY||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Planning subscale for the Intervention group||||<.05
82398992|NCT04227405|164507680|SUPERIORITY||Slope|0.74|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Planning subscale||||<.001
82398993|NCT04227405|164507680|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the control group||||>.05
82398994|NCT04227405|164507680|SUPERIORITY||Slope|0.49|STANDARD_ERROR_OF_MEAN|0.16|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest in the Instrumental Support subscale for the intervention group||||<.01
82398995|NCT04227405|164507680|SUPERIORITY||Slope|0.6|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to post-test in the intervention group is significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in the Instrumental Support subscale||||<.01
82398996|NCT04227405|164507681|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.15|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the control group||||>.05
82398997|NCT04227405|164507681|SUPERIORITY||Slope|0.52|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Acceptance subscale for the intervention group||||<.01
82398998|NCT04227405|164507681|SUPERIORITY||Slope|0.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.01|TWO_SIDED||||||Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Acceptance subscale|The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|||<.01
82398999|NCT04227405|164507681|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the control group||||>.05
82399000|NCT04227405|164507681|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Active Coping subscale for the intervention group||||<.10
82399001|NCT04227405|164507681|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.1|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Active Coping subscale||||<.10
82399002|NCT04227405|164507681|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|0.15|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the control group||||<.10
82399003|NCT04227405|164507681|SUPERIORITY||Slope|0.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Planning subscale for the intervention group||||<.05
82645397|NCT01190098|165006200|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.8||||0.33|TWO_SIDED||||||t-test, 2 sided|||||||0.33
82645398|NCT01190098|165006201|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.92|TWO_SIDED||||||t-test, 2 sided|||||||0.92
82645399|NCT01190098|165006202|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.69
82645400|NCT01190098|165006203|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
82645401|NCT00545181|165006210|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Chi-squared, Corrected|||||||0.75
82645402|NCT03870737|165006211|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Time: F = 24.81, df = 1/40.||Outcomes fitted via a mixed effects model with time as predictor.||||<.0001
82645403|NCT03870737|165006213|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|Time: F = 5.78, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.02
82645404|NCT03870737|165006214|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|Time: F = 14.28, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.0005
82645405|NCT03870737|165006215|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|Time: F = .19, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.67
82645406|NCT03870737|165006216|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|Time: F = .08, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.76
82399004|NCT04227405|164507681|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.23|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Planning subscale||||<.01
82399005|NCT04227405|164507681|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.16|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
82375448|NCT02755649|164457155|SUPERIORITY||LS Mean Difference|-32.9|||<|0.0001|TWO_SIDED|95.0|-39.7|-26.06||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-26.06|-39.7|< 0.0001
82375449|NCT02755649|164457156|SUPERIORITY||difference in percentages|26.1|||<|0.0001|TWO_SIDED|95.0|13.89|38.39||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||38.39|13.89|< 0.0001
82375450|NCT02755649|164457156|SUPERIORITY||difference in percentages|31.5|||<|0.0001|TWO_SIDED|95.0|19.08|43.83||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||43.83|19.08|< 0.0001
82375451|NCT02755649|164457157|SUPERIORITY||LS Mean Difference|-17.95|||<|0.0001|TWO_SIDED|95.0|-22.706|-13.197||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value is based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment,randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI||-13.197|-22.706|< 0.0001
82375452|NCT02755649|164457157|SUPERIORITY||LS Mean Difference|-19.66|||<|0.0001|TWO_SIDED|95.0|-24.431|-14.895||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-14.895|-24.431|< 0.0001
82375453|NCT02755649|164457158|SUPERIORITY||Difference in Percentages|25.2|||<|0.0001|TWO_SIDED|95.0|13.99|36.41||Threshold for significance at 0.05 level|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||36.41|13.99|< 0.0001
82375454|NCT02755649|164457158|SUPERIORITY||Difference in Percentages|26.3|||<|0.0001|TWO_SIDED|95.0|14.95|37.65||Threshold for significance at 0.05 level|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||37.65|14.95|< 0.0001
82375455|NCT02755649|164457159|SUPERIORITY||LS Mean Difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-5.6|-3.04||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.04|-5.6|< 0.0001
82375456|NCT02755649|164457159|SUPERIORITY||LS Mean Difference|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.31|-3.74||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.74|-6.31|< 0.0001
82375457|NCT02755649|164457160|SUPERIORITY||LS Mean Difference|-7.1|||<|0.0001|TWO_SIDED|95.0|-8.78|-5.47||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.47|-8.78|< 0.0001
82445359|NCT01325714|164599125|SUPERIORITY_OR_OTHER||Results of F value of growth curve model|3.84||||0.01|TWO_SIDED|||||P value of the interaction between treatment group and time (time coded as 0, 3, 6, 12).|Mixed Models Analysis|F (3, 456) = 3.84||Growth curve models were conducted to examine whether there were differences between treatment groups in change in caregiver reported mutuality over time.||||0.01
82445360|NCT03002454|164599192|EQUIVALENCE|"Control: 99mTc MDP Injection:fission Investigation: 99mTc MDP Injection:neutron-bombardment~Anticipated sample size of 50 participants with sample size parameters of:~Alpha 0.05 Power 80% Kappa of significance 0.7 - 0.8 Prevalence of abnormal bone scans 30%~Actual study population of 4 participants with 4 out of 4 demonstrating gross abnormal biodistribution therefore the study was terminated and no statistical analysis was conducted."|||||||||||||||||No statistical analysis - insufficient study population|||
82530145|NCT00192023|164756547|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.001
82576128|NCT05262751|164861981|OTHER||gMean Ratio|37.9|||||TWO_SIDED|90.0|29.25|49.11|||||gMean Ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 40.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||49.11|29.25|
82576129|NCT05262751|164861981|OTHER||gMean Ratio|35.89|||||TWO_SIDED|90.0|27.66|46.55|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 40.4|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||46.55|27.66|
82645407|NCT03870737|165006217|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Time: F = .06, df = 1/39.||Outcome was fitted using a mixed model with time as predictor.||||.80
82645408|NCT00390949|165006229|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjustments for community pair, age-group and value of variable at baseline||||||<0.05
82375458|NCT02755649|164457160|SUPERIORITY||LS Mean Difference|-7.6|||<|0.0001|TWO_SIDED|95.0|-9.29|-5.97||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\])as fixed factors. Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.97|-9.29|< 0.0001
82530146|NCT00192023|164756548|SUPERIORITY_OR_OTHER|||||||0.836||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.836
82375459|NCT02755649|164457161|SUPERIORITY||Difference in Percentages|30.1|||=|0.0002|TWO_SIDED|95.0|14.63|45.64||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||45.64|14.63|= 0.0002
82375460|NCT02755649|164457161|SUPERIORITY||Difference in Percentages|31.6|||=|0.0001|TWO_SIDED|95.0|16.11|47.05||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||47.05|16.11|= 0.0001
82375461|NCT02755649|164457162|SUPERIORITY||LS Mean Difference|-7.6|||=|0.0003|TWO_SIDED|95.0|-11.64|-3.51||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.51|-11.64|= 0.0003
82375462|NCT02755649|164457162|SUPERIORITY||LS Mean Difference|-10.1|||<|0.0001|TWO_SIDED|95.0|-14.15|-5.95||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-5.95|-14.15|< 0.0001
82445361|NCT00849108|164599203|SUPERIORITY_OR_OTHER||sensitivity|0.769||||0.02|TWO_SIDED|95.0|0.655|0.884||P-Value for sensitivity comparison of PET MPI for the same reader|McNemar|two-sided McNemar test with 1 degree of freedom.|No standard deviation can be calculated for PET sensitivity|||0.884|0.655|0.02
82530147|NCT00192023|164756549|SUPERIORITY_OR_OTHER|||||||0.87||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.870
82530148|NCT00192023|164756550|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Oppositional Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.002
82530149|NCT00192023|164756550|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Cognitive Problems Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
82530150|NCT00192023|164756550|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Hyperactivity Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.022
82530151|NCT00192023|164756550|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Index Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||<0.001
82530152|NCT00192023|164756551|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.071
82375463|NCT02755649|164457163|SUPERIORITY||LS Mean Difference|-2.9|||=|0.0001|TWO_SIDED|95.0|-4.41|-1.43||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-1.43|-4.41|= 0.0001
82375464|NCT02755649|164457163|SUPERIORITY||LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.38|-2.4||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-2.4|-5.38|< 0.0001
82375465|NCT02755649|164457164|SUPERIORITY||Difference in Percentages|29.5|||<|0.0001|TWO_SIDED|95.0|17.1|41.96||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||41.96|17.1|< 0.0001
82375466|NCT02755649|164457164|SUPERIORITY||Difference in Percentages|40.4|||<|0.0001|TWO_SIDED|95.0|28.24|52.61||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||52.61|28.24|< 0.0001
82375467|NCT02755649|164457165|SUPERIORITY||LS Mean Difference|-24.3|||<|0.0001|TWO_SIDED|95.0|-31.63|-16.88||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab group vs. placebo)of LS mean percent change using MI with ANCOVA with baseline measurement as covariate \& treatment,randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use\[Yes,No\])as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-16.88|-31.63|< 0.0001
82375468|NCT02755649|164457165|SUPERIORITY||LS Mean Difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-33.49|-18.86||Threshold for significance at 0.05 level.|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata (disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-18.86|-33.49|< 0.0001
82399006|NCT04227405|164507681|SUPERIORITY||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up in the Instrumental Support subscale for the intervention group||||<.01
82399007|NCT04227405|164507681|SUPERIORITY||Slope|0.66|STANDARD_ERROR_OF_MEAN|0.24|<|0.01|TWO_SIDED||||||Multilevel modeling||The expected increase from pre-test to follow-up in the intervention group is significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up in the Instrumental Support subscale||||<.01
82399008|NCT04227405|164507681|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the control group||||>.05
82399009|NCT04227405|164507681|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Acceptance subscale for the interventionn group||||>.05
82399010|NCT04227405|164507681|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Acceptance subscale||||>.05
82530153|NCT00192023|164756552|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Oppositional Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.002
82530154|NCT00192023|164756552|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Cognitive Problems Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.113
82530155|NCT00192023|164756552|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Hyperactivity Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.051
82576130|NCT05262751|164861982|OTHER||gMean Ratio|12.09|||||TWO_SIDED|90.0|6.73|21.71|||||gMean Ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 58.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||21.71|6.73|
82645409|NCT00390949|165006230|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value of variable at baseline||||||<0.05
82375469|NCT02755649|164457166|SUPERIORITY||LS Mean Difference|-9.7|||=|0.0017|TWO_SIDED|95.0|-15.8|-3.66||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens. CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-3.66|-15.8|= 0.0017
82399011|NCT04227405|164507681|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping subscale for the control group||||>.05
82399012|NCT04227405|164507681|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Active Coping in the intervention group||||>.05
82375470|NCT02755649|164457166|SUPERIORITY||LS Mean Difference|-7.2|||=|0.0214|TWO_SIDED|95.0|-13.31|-1.06||Threshold for significance at 0.05 level|ANCOVA|||Hierarchical testing approach was used to control Type-1 error rate at 0.05 across 2 dose regimens.CI with p-value based on treatment difference(dupilumab vs. placebo) of LS mean percent change using MI with ANCOVA model with baseline measurement as covariate \& treatment, randomization strata(disease severity\[IGA 3 vs IGA 4\] \& prior CSA use \[Yes,No\]) as fixed factors.Efficacy data from participants who received rescue treatment were set to missing after timepoint of rescue, then imputed by MI.||-1.06|-13.31|= 0.0214
82375471|NCT02755649|164457167|SUPERIORITY||Difference in Percentages|-4.7|||=|0.1486|TWO_SIDED|95.0|-10.97|1.58|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||1.58|-10.97|= 0.1486
82375472|NCT02755649|164457167|SUPERIORITY||Difference in Percentages|-6.5|||=|0.0319|TWO_SIDED|95.0|-12.27|-0.65|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||-0.65|-12.27|= 0.0319
82375473|NCT02755649|164457168|SUPERIORITY||difference in percentages|0.0|||=|0.9829|TWO_SIDED|95.0|-3.6|3.53|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.53|-3.6|= 0.9829
82375474|NCT02755649|164457168|SUPERIORITY||difference in percentages|0.0|||=|1|TWO_SIDED|95.0|-3.6|3.63|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.63|-3.6|= 1
82375475|NCT02755649|164457169|SUPERIORITY||difference in percentages|0.9|||=|0.5619|TWO_SIDED|95.0|-2.19|3.97|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||3.97|-2.19|= 0.5619
82375476|NCT02755649|164457169|SUPERIORITY||difference in percentages|-0.9|||=|0.3241|TWO_SIDED|95.0|-2.73|0.88|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||0.88|-2.73|= 0.3241
82375477|NCT02755649|164457170|SUPERIORITY||difference in percentages|-0.4|||=|0.9518|TWO_SIDED|95.0|-12.6|11.9|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||11.9|-12.6|= 0.9518
82445362|NCT00849108|164599203|SUPERIORITY_OR_OTHER||Sensitivity|0.596||||0.02|TWO_SIDED|95.0|0.463|0.73||p-value for sensitivity comparison for SPECT MPI for the same reader|McNemar||No standard deviation can be calculated for SPECT sensitivity|||0.730|0.463|0.02
82445363|NCT00849108|164599205|SUPERIORITY_OR_OTHER||PET specificity|0.877||||0.317|TWO_SIDED|95.0|0.801|0.952||p-value for comparison of PET specificity for same reader|McNemar||no standard deviation for PET specficity|||0.952|0.801|0.317
82445364|NCT00849108|164599205|SUPERIORITY_OR_OTHER||SPECT specificity|0.836||||0.317|TWO_SIDED|95.0|0.751|0.921||p-value for comparison of SPECT specificity for same reader|McNemar||no standard deviation for SPECT specificity|||0.921|0.751|0.317
82445365|NCT02963701|164599206|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%|T/R Ratio (%)|99.16|STANDARD_DEVIATION|8.49|||TWO_SIDED|90.0|96.52|101.89|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||101.89|96.52|
82445366|NCT02963701|164599207|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%|T/R Ratio (%)|89.16|STANDARD_DEVIATION|19.28|||TWO_SIDED|90.0|83.88|94.76|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||94.76|83.88|
82445367|NCT02963701|164599208|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|99.75|STANDARD_DEVIATION|12.96|||TWO_SIDED|90.0|95.73|103.95|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios \[%\] of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation \[%\].|||103.95|95.73|
82445368|NCT02963701|164599209|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|102.16|STANDARD_DEVIATION|15.37|||TWO_SIDED|90.0|97.3|107.27|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios \[%\] of Test and Reference products. The parameter dispersion type \[SD\] was actually the intra-individual geometric coefficient of variation \[%\].|||107.27|97.30|
82445369|NCT02963701|164599210|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|98.97|STANDARD_DEVIATION|8.13|||TWO_SIDED|90.0|96.44|101.57|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%)of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||101.57|96.44|
82445370|NCT02963701|164599211|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|99.67|STANDARD_DEVIATION|13.5|||TWO_SIDED|90.0|95.48|104.04|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||104.04|95.48|
82445371|NCT02963701|164599212|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|95.96|STANDARD_DEVIATION|14.27|||TWO_SIDED|90.0|91.7|100.4|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||100.40|91.70|
82445372|NCT02963701|164599213|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|96.12|STANDARD_DEVIATION|14.06|||TWO_SIDED|90.0|91.92|100.51|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||100.51|91.92|
82445373|NCT02963701|164599214|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|90.83|STANDARD_DEVIATION|21.49|||TWO_SIDED|90.0|84.87|97.21|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||97.21|84.87|
82530156|NCT00192023|164756552|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-value for ADHD Index Change to 8 Week Endpoint. Change = Endpoint minus baseline. Model: Change to 8 Week Endpoint=Score at 8 weeks+treatment+site.|ANCOVA|||||||0.061
82530157|NCT00058019|164756588|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||||||0.022
82530158|NCT00058019|164756589|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82530159|NCT00058019|164756591|SUPERIORITY_OR_OTHER|||||||0.695|TWO_SIDED|95.0|||||Log Rank|||||||0.695
82530160|NCT00058019|164756592|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED|95.0|||||Log Rank|||||||0.55
82375478|NCT02755649|164457170|SUPERIORITY||difference in percentages|2.5|||=|0.6833|TWO_SIDED|95.0|-9.64|14.68|||Cochran-Mantel-Haenszel|||A hierarchical testing approach was used to control Type-1 error at 0.05 across the 2 dose regimens. Difference is dupilumab minus placebo. CI calculated using normal approximation. P-values were derived by CMH test stratified by disease severity (IGA 3 vs IGA 4) and prior CSA use (Yes,No). Participants who used rescue treatment were categorized as non-responders from time rescue treatment was initiated. Participants with missing values at Week 16 were categorized as non-responders at Week 16.||14.68|-9.64|= 0.6833
82399013|NCT04227405|164507681|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Active Coping subscale||||>.05
82399014|NCT04227405|164507681|SUPERIORITY||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the control group||||>.05
82399015|NCT04227405|164507681|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Planning subscale for the intervention group||||>.05
82399016|NCT04227405|164507681|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in Planning subscale||||>.05
82399017|NCT04227405|164507681|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the control group||||>.05
82399018|NCT04227405|164507681|SUPERIORITY||Slope|-0.15|STANDARD_ERROR_OF_MEAN|0.06|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up in the Instrumental Support subscale for the intervention group||||<.10
82530161|NCT00985543|164756593|NON_INFERIORITY_OR_EQUIVALENCE|Results are considered statistically significant at p\<0.05 or when 90% confidence intervals do not cross the value 1. No adjustments are made for multiple comparisons.|||||<|0.05|TWO_SIDED|90.0|||||maximum likelihood regression|||Dosing regimens lopinavir/ritonavir 200/150mg BID (Phase 2) and lopinavir/ritonavir 200/50mg BID (Phase 3) will be considered equivalent to lopinavir/ritonavir 400/100mg BID (Phase 1) if the 90% confidence interval (CI) for the mean AUC0-12h ratio and maximum concentration (Cmax) ratio lie between 0.80 and 1.25.||||<0.05
82375479|NCT02089659|164457171|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.72|1.35|||||Moderate hepatic insufficiency / Healthy controls|||1.35|0.72|
82375480|NCT02089659|164457172|OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.66|1.24|||||Moderate hepatic insufficiency / Healthy controls|||1.24|0.66|
82375481|NCT02089659|164457173|OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|90.0|0.74|1.18|||||Moderate hepatic insufficiency / Healthy controls|||1.18|0.74|
82375482|NCT02089659|164457174|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.74|1.33|||||Moderate hepatic insufficiency / Healthy controls|||1.33|0.74|
82375483|NCT01403051|164457175|SUPERIORITY_OR_OTHER|||||||0.001||||||2-sided test with type I error rate of 5%, not adjusted for multiple comparisons.|Stratified Wilcoxon rank sum test|Stratified Wilcoxon rank sum test for differences between the two treatment groups, stratified by the screening 25-OH vitamin (\<=20 vs. \>20 ng/mL)||The study was sized to have 80% power to detect a 2 % difference in BMD of the hip from baseline to week 48.||||0.001
82375484|NCT03022084|164457189|NON_INFERIORITY|The probability that Desyncra is non-inferior to CBT, defined by the sponsor as the event that mean TQ score change from baseline in the Desyncra arm is no more than 3.5 points worse than the mean TQ change in the CBT arm.|||||||||||||Bayesian|Data collected to date were analyzed using a Bayesian approach.|||Data collected to date were analyzed using a Bayesian approach.|||
82375485|NCT01701011|164457190|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Mixed Models Analysis|||IBM SPSS Statistics 20 was used to perform the statistical analysis. A mixed model for repeated measures was used to examine the differences between the three groups over time for the primary outcome, anxiety. All models were estimated by the method of restricted maximum likelihood (REML) and the Compound Symmetry covariance structure was chosen for the repeated measures. The analysiswas performed according to the intention to treat.||||<0.05
82375486|NCT01701011|164457190|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||To test the difference in psychological well-being between three groups with a power of 95%,a ¼ 0.05 and a medium effect size ( f ¼ 0.25), a total of 297 participants were required (99 patients per group). Taking into account a 20% attrition rate, at least 124 women had to be recruited in each group.||||<0.05
82375487|NCT01701011|164457191|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||IBM SPSS Statistics 20 was used to perform the statistical analysis. A mixed model for repeated measures was used to examine the differences between the three groups over time for the secondary outcome, depression. All models were estimated by the method of restricted maximum likelihood (REML) and the Compound Symmetry covariance structure was chosen for the repeated measures. The analysiswas performed according to the intention to treat.||||<0.05
82375488|NCT00603837|164457210|SUPERIORITY_OR_OTHER|||||||0.445||95.0|||||t-test, 1 sided|||||||0.445
82375489|NCT04414345|164457211|SUPERIORITY||Disease Rate Ratio|0.98|STANDARD_DEVIATION|0.1|||TWO_SIDED|95.0|0.797|1.188||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. CNM-Au8 slowed progression) was 0.59059. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by CNM-Au8 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||"The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality.~The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes."|1.188|0.797|
82576131|NCT05262751|164861982|OTHER||gMean Ratio|23.94|||||TWO_SIDED|90.0|13.51|42.42|||||gMean Ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 58.8|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||42.42|13.51|
82576132|NCT05262751|164861982|OTHER||gMean Ratio|68.55|||||TWO_SIDED|90.0|50.07|93.86|||||gMean ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 50.0|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||93.86|50.07|
82399019|NCT04227405|164507681|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.08|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up in the Instrumental Supportt subscale||||>.05
82399020|NCT04227405|164507683|SUPERIORITY||Slope|-1.41|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED||||||Multilevel modeling|||Changes from pre-test to posttest for the control group|A positive value indicates an increase while a negative value indicates a decrease|||<.05
82399021|NCT04227405|164507683|SUPERIORITY||Slope|2.02|STANDARD_ERROR_OF_MEAN|0.69|<|0.01|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to posttest for the intervention group||||<.01
82399022|NCT04227405|164507683|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.83|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to post-test t in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||>.05
82399023|NCT04227405|164507684|SUPERIORITY||Slope|-1.48|STANDARD_ERROR_OF_MEAN|0.6|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up for the control group||||>.05
82399024|NCT04227405|164507684|SUPERIORITY||Slope|-1.5|STANDARD_ERROR_OF_MEAN|0.82|<|0.1|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from pre-test to Follow-up for the intervention group||||<.10
82399025|NCT04227405|164507684|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|1.01|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from Pre-test to Follow-up||||>.05
82399026|NCT04227405|164507684|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.02|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up for the control group||||>.05
82399027|NCT04227405|164507684|SUPERIORITY||Slope|-0.52|STANDARD_ERROR_OF_MEAN|0.23|>|0.05|TWO_SIDED||||||Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Changes from post-test to Follow-up for the control group||||>.05
82399028|NCT04227405|164507684|SUPERIORITY||Slope|-0.6|STANDARD_ERROR_OF_MEAN|0.03|>|0.05|TWO_SIDED||||||Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from Post-test to Follow-up||||>.05
82399029|NCT04227405|164507686|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|1.16|>|0.05|TWO_SIDED|||||No adjustment for p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in Difficulties in Emotion Regulation for the control group||||>.05
82399030|NCT04227405|164507686|SUPERIORITY||Slope|-3.07|STANDARD_ERROR_OF_MEAN|1.51|<|0.05|TWO_SIDED|||||No adjustment for p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.05
82399031|NCT04227405|164507686|SUPERIORITY||Slope|-2.74|STANDARD_ERROR_OF_MEAN|1.85|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||>.05
82399032|NCT04227405|164507687|SUPERIORITY||Slope|-0.7|STANDARD_ERROR_OF_MEAN|1.41|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling|||Change from pre-test to follow-up for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
82399033|NCT04227405|164507687|SUPERIORITY||Slope|-2.74|STANDARD_ERROR_OF_MEAN|1.79|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group||||>.05
82399034|NCT04227405|164507687|SUPERIORITY||Slope|-2.04|STANDARD_ERROR_OF_MEAN|2.24|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up||||>.05
82399035|NCT04227405|164507687|SUPERIORITY||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.46|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
82399036|NCT04227405|164507687|SUPERIORITY||Slope|-0.33|STANDARD_ERROR_OF_MEAN|0.5|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
82399037|NCT04227405|164507687|SUPERIORITY||Slope|-0.69|STANDARD_ERROR_OF_MEAN|0.68|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
82445374|NCT02963701|164599215|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|101.86|STANDARD_DEVIATION|7.89|||TWO_SIDED|90.0|99.33|104.46|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||104.46|99.33|
82445375|NCT02963701|164599216|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|101.65|STANDARD_DEVIATION|7.01|||TWO_SIDED|90.0|99.4|103.95|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||103.95|99.40|
82530162|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.4|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.4
82399038|NCT04227405|164507689|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in psychological agggression subscale for the control group||||<.001
82399039|NCT04227405|164507689|SUPERIORITY||Slope|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in psychological aggression subscale for the intervention group||||<.001
82399040|NCT04227405|164507689|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.17|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Psychological Aggression subscale||||<.10
82399041|NCT04227405|164507689|SUPERIORITY||Slope|0.0|STANDARD_ERROR_OF_MEAN|0.09|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling|||Change from pre-test to post-test in physical assault subscale for the control group|A positive value indicates an increase while a negative value indicates a decrease|||>.05
82399042|NCT04227405|164507689|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test in the physical assault subscale for the intervention group||||<.001
82399043|NCT04227405|164507689|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Physical Assault subscale||||<.05
82399044|NCT04227405|164507690|SUPERIORITY||Slope|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the psychological aggression subscale for the control group||||<.001
82530163|NCT01614847|164756595|EQUIVALENCE|two-tailed, alpha = 0.05||||||0.109|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.109
82399045|NCT04227405|164507690|SUPERIORITY||Slope|-0.77|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up in the Psychological Aggression subscale for the intervention group||||<.001
82399046|NCT04227405|164507690|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|0.21|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up inn the psychological aggression subscale||||>.05
82399047|NCT04227405|164507690|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04|<|0.1|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group in the psychological aggression subscale||||<.10
82399048|NCT04227405|164507690|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the intervention group for the psychological aggresssion subscale||||>.05
82399049|NCT04227405|164507690|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up in the psychological aggression subscale||||>.05
82399050|NCT04227405|164507690|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.12|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the physical assault subscale||||>.05
82399051|NCT04227405|164507690|SUPERIORITY||Slope|-0.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the Physical Assault Subscale||||<.05
82530164|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.779|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.779
82399052|NCT04227405|164507690|SUPERIORITY||Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up for the Physical Assault subscale||||<.05
82399053|NCT04227405|164507690|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group for the Physical Assault subscale||||>.05
82399054|NCT04227405|164507690|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.04|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the intervention group for the Physical Assault subscale||||>.05
82399055|NCT04227405|164507690|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.06|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
82399056|NCT04227405|164507692|SUPERIORITY||Slope|-2.12|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group||||<.001
82399057|NCT04227405|164507692|SUPERIORITY||Slope|-4.46|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.001
82399058|NCT04227405|164507692|SUPERIORITY||Slope|-2.34|STANDARD_ERROR_OF_MEAN|0.89|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to pos-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test in Time||||<.05
82399059|NCT04227405|164507693|SUPERIORITY||Slope|-1.96|STANDARD_ERROR_OF_MEAN|0.7|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group||||<.05
82399060|NCT04227405|164507693|SUPERIORITY||Slope|-4.48|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the intervention group||||<.001
82399061|NCT04227405|164507693|SUPERIORITY||Slope|-2.52|STANDARD_ERROR_OF_MEAN|1.1|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up||||<.05
82399062|NCT04227405|164507693|SUPERIORITY||Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.24|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
82399063|NCT04227405|164507693|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from post-test to follow-up for the control group||||>.05
82399064|NCT04227405|164507693|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.35|>|0.05|TWO_SIDED|||||No adjustment to p value|Multilevel modeling||Changes from post-test to follow-up in the intervention group were not significantly different from the change from post-test to follow-up in the control group|Difference between the control and the intervention group in the change from post-test to follow-up||||>.05
82399065|NCT04227405|164507695|SUPERIORITY||Slope|0.37|STANDARD_ERROR_OF_MEAN|0.24|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for Supportive Dyadic Coping subscale||||>.05
82399066|NCT04227405|164507695|SUPERIORITY||Slope|0.71|STANDARD_ERROR_OF_MEAN|0.31|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group||||<.05
82399067|NCT04227405|164507695|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.38|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling|||Difference between the control and the intervention group in the change from Pre-test to Post-test in the Supportive Dyadic Coping subscale|Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|||>.05
82399068|NCT04227405|164507695|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.3|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the common dyadic coping subscale||||>.05
82530165|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.262|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.262
82530166|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.15|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.150
82399069|NCT04227405|164507695|SUPERIORITY||Slope|1.21|STANDARD_ERROR_OF_MEAN|0.39|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Common Dyadic Coping subscale||||<.01
82399070|NCT04227405|164507695|SUPERIORITY||Slope|0.97|STANDARD_ERROR_OF_MEAN|0.47|<|0.1|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test for the Common Dyadic Coping Subscale||||<.10
82645410|NCT00390949|165006231|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|||||||<0.05
82645411|NCT00390949|165006232|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value at baseline||||||<0.05
82645412|NCT00390949|165006233|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair and age-group||||||<0.05
82399071|NCT04227405|164507695|SUPERIORITY||Slope|-0.74|STANDARD_ERROR_OF_MEAN|0.37|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group in the Negative Dyadic Coping Subscale||||<.10
82399072|NCT04227405|164507695|SUPERIORITY||Slope|-1.14|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group for the Negative Dyadic Coping subscale||||<.05
82399073|NCT04227405|164507695|SUPERIORITY||Slope|-0.39|STANDARD_ERROR_OF_MEAN|0.6|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test inn the Negative Dyadic Coping Scale||||>.05
82399074|NCT04227405|164507696|SUPERIORITY||Slope|0.57|STANDARD_ERROR_OF_MEAN|0.29|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the control group for the Supportive Dyadic Coping Subscale||||>.05
82399075|NCT04227405|164507696|SUPERIORITY||Slope|0.7|STANDARD_ERROR_OF_MEAN|0.37|<|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to follow-up for the intervention group for the Supportive Dyadic Coping Subscale||||<.05
82399076|NCT04227405|164507696|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.46|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to follow-up in the intervention group were not significantly different from the change from pre-test to follow-up in the control group|Difference between the control and the intervention group in the change from pre-test to follow-up for the Supportive Dyadic Coping Subscale||||>.05
82645413|NCT00390949|165006234|SUPERIORITY||||||<|0.05||||||The p-value reported above is not simply a statement of the threshold for significance used in the study. The p-value for this comparison was calculated at the time of the study and was found to be less than 0.5.|Regression, Logistic|Adjusted for community pair, age-group and value at baseline||||||<0.05
82399077|NCT04227405|164507698|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.26|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group in the Supportive Dyadic Coping Subcale||||>.05
82399078|NCT04227405|164507698|SUPERIORITY||Slope|1.45|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Supportive Dyadic Coping Scale||||<.001
82530167|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.726|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.726
82645414|NCT01227954|165006263|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||To detect a minimum relative 50% improvement leading to an absolute 15% mean relative decline (MRD) in HVLT-R DR, 51 analyzable patients were required to ensure 80% statistical power with 0.05 alpha. Assuming a death rate of 40% before 4 months (based on trial NCT00003563) and a 10% nonevaluable rate, the target sample size was 102. The target MRD was determined from NCT00003563 which demonstrated 30% MRD in HVLT-R DR score from baseline to 4 months, with a standard deviation of 41%.||||<0.001
82530168|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.055|||||||Wilcoxon (Mann-Whitney)|df=7||Drop A: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.055
82375490|NCT04414345|164457213|SUPERIORITY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.766||0.657|TWO_SIDED|95.0|-4.25|2.68|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|CNM-Au8 24-week change from baseline relative to placebo 24-week change from baseline.|||2.68|-4.25|0.6570
82375491|NCT04414345|164457214|SUPERIORITY||Mean Difference (Net)|-3.1|STANDARD_ERROR_OF_MEAN|3.403||0.3621|TWO_SIDED|95.0|-9.78|3.58|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|CNM-Au8 24-week change from baseline relative to placebo 24-week change from baseline.|||3.58|-9.78|0.3621
82375492|NCT04414345|164457215|SUPERIORITY|||||||0.7398|||||||Log Rank|||||||0.7398
82375493|NCT00741286|164457216|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||A linear mixed model for a repeated measures covariance pattern model with unstructured covariances within subjects was used. Two fixed effects were included: 1 between-subjects treatment effect (group: cilostazol, control) and 1 within-subject time effect (time: baseline, 14 days, 90 days). A possible difference in treatment across 14- and 90-day follow-up was analyzed by time x treatment interactions.||||<0.05
82375494|NCT00741286|164457216|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||To determine between-group differences of changes in the PIs at 14 and 90 days from the baseline study.||||<0.05
82375495|NCT00741286|164457217|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82375496|NCT02960490|164457223|SUPERIORITY||Difference from Placebo|-4.7||||0.621|TWO_SIDED|95.0|-25.85|16.46|||Regression, Logistic|||||16.46|-25.85|0.621
82375497|NCT02667067|164457244|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82375498|NCT01651793|164457325|SUPERIORITY|||||||0.05||||||P value reference to the beverage x time interaction effect|ANCOVA|||Hypotheses were tested using a series (all outcome variables) of 2 Treatment x 4 Time point, repeated measures ANCOVAs that controlled for the prior night's sleep. Primary interests were the presence of statistically significant interactions of time and either cocoa versus placebo, cocoa + caffeine versus cocoa, or cocoa + caffeine versus caffeine-only. Significant interactions were decomposed using one-way ANOVAs and t-tests with familywise error controlled using LSD post-hoc tests.||||0.05
82375499|NCT03898908|164457365|SUPERIORITY|||||||0.015||||||pValues below 0.05 are considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison between baseline and Week 8||||0.015
82375500|NCT03898908|164457366|SUPERIORITY|||||||0.754||||||pValues below 0.05 are considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison between baseline and W24||||0.754
82375501|NCT03203564|164457373|OTHER||Mean Difference (Final Values)|7.4|||||TWO_SIDED|90.0|0.68|14.12|||||Parameter estimate is done for Placebo-corrected change-from baseline QTcF (ΔΔQTcF) for Modufolin 500 mg/m2 at end of infusion.|"The primary analysis of QTcF was based on a linear mixed-effects model with change-from-baseline QTcF as the dependent variable, time (categorical), treatment, and time-by-treatment interaction as fixed effects, and baseline QTcF as a covariate. The least-squares (LS) mean and 2-sided 90 % CIs have been calculated for the contrast Modufolin® versus placebo at each dose of Modufolin® and each post-dose time point."||14.12|0.68|
82375502|NCT00789737|164457399|SUPERIORITY_OR_OTHER|||||||0.0369||95.0|||||ANCOVA|||least squares mean; 80% power to detect a 0.3% change||||0.0369
82375503|NCT00789737|164457400|SUPERIORITY_OR_OTHER|||||||0.0373||95.0|||||ANCOVA|||||||0.0373
82375504|NCT00789737|164457405|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0|||||ANCOVA|||||||<0.00001
82375505|NCT04630158|164457417|SUPERIORITY||Least Square (LS) mean difference|1.6|STANDARD_ERROR_OF_MEAN|5.1||0.93|TWO_SIDED|95.0|-8.5|11.7||Reporting the adjusted p-value derived based on Dunett procedure.|Mixed Models Analysis|mixed-model repeated measures (MMRM) analysis||||11.7|-8.5|0.930
82375506|NCT04630158|164457417|SUPERIORITY||Least Square (LS) mean difference|3.7|STANDARD_ERROR_OF_MEAN|5.11||0.699|TWO_SIDED|95.0|-6.4|13.8||Reporting the adjusted p-value derived based on Dunett procedure.|Mixed Models Analysis|mixed-model repeated measures (MMRM) analysis||||13.8|-6.4|0.699
82375507|NCT05162014|164457434|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|Cox proportional hazards regression models based on time-to-first acute pancreatitis used to estimate the hazard ratios.||||1.02|0.76|
82375508|NCT03485365|164457443|OTHER|Bayesian Repeated Measures Model|Median Difference (Net)|-1.18|STANDARD_DEVIATION|0.494|||TWO_SIDED|95.0|-2.15|-0.2|||||Posterior median difference (GSK3858279 - Placebo) and 95% credible interval is presented.|||-0.20|-2.15|
82375509|NCT03485365|164457444|OTHER|Bayesian Repeated Measures Model|Median Difference (Net)|-1.09|STANDARD_DEVIATION|0.612|||TWO_SIDED|95.0|-2.29|0.12|||||Posterior median difference (GSK3858279 - Placebo) and 95% credible interval is presented.|||0.12|-2.29|
82375510|NCT05147324|164457500|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82375511|NCT05147324|164457501|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82375512|NCT05147324|164457509|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82375513|NCT01943994|164457544|SUPERIORITY||Odds Ratio (OR)|6.12||||0.003|TWO_SIDED|95.0|1.99|23.26|||Regression, Logistic|||||23.26|1.99|0.003
82375514|NCT03020589|164457554|SUPERIORITY||Risk Ratio (RR)|1.27||||0.58|TWO_SIDED|95.0|0.67|2.05|||Fisher Exact|||||2.05|0.67|0.58
82375515|NCT03020589|164457555|SUPERIORITY||Risk Ratio (RR)|1.26||||0.46|TWO_SIDED|95.0|0.72|2.02|||Fisher Exact|||||2.02|0.72|0.46
82375516|NCT00351533|164457566|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.37
82375517|NCT00351533|164457567|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
82375518|NCT00351533|164457568|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.16
82375519|NCT00351533|164457569|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
82375520|NCT00351533|164457570|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.34
82375521|NCT00351533|164457571|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||t-test, 2 sided|||||||0.26
82375522|NCT00351533|164457572|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
82399079|NCT04227405|164507698|SUPERIORITY||Slope|1.42|STANDARD_ERROR_OF_MEAN|0.41|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test||||<.01
82530169|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.945|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.945
82399080|NCT04227405|164507698|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.35|>|0.05|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the Common Dyadic Coping Subscale||||>.05
82399081|NCT04227405|164507698|SUPERIORITY||Slope|2.12|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group in the Common Dyadic Coping Subscale||||<.001
82530170|NCT01614847|164756595|EQUIVALENCE|Alpha = 0.05||||||0.844|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.844
82576133|NCT05262751|164861982|OTHER||gMean Ratio|66.85|||||TWO_SIDED|90.0|48.77|91.64|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 50.0|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||91.64|48.77|
82645415|NCT01227954|165006266|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and recursive partitioning analysis class (RPA) (I vs. II). Explanatory variables are reported separately and only if in the final model (p\< 0.10, except time forced in the model.). Intercept is reported here.||||<0.0001
82645416|NCT01227954|165006266|SUPERIORITY|||||||0.1961|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Time is reported here.||||0.1961
82645417|NCT01227954|165006266|SUPERIORITY|||||||0.0715|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Primary site (lung) is reported here.||||0.0715
82530171|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.945||||||df=7|Wilcoxon (Mann-Whitney)|||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.945
82530172|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.383||||||Alpha = 0.05|Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.383
82530173|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.383|||||||Wilcoxon (Mann-Whitney)|df=7||Mean change in osmolarity from baseline. H0: No change (e.g. mean change = 0) H1: Significant change (mean change ≠ 0)||||0.383
82375523|NCT00351533|164457573|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.89
82375524|NCT00351533|164457574|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82375525|NCT00351533|164457575|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
82375526|NCT00351533|164457576|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.20
82375527|NCT00351533|164457577|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
82375528|NCT00351533|164457578|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||t-test, 2 sided|||||||0.56
82375529|NCT00351533|164457579|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||t-test, 2 sided|||||||0.69
82375530|NCT00351533|164457580|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
82375531|NCT00351533|164457581|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||||||0.27
82375532|NCT00351533|164457582|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Chi-squared|||||||0.65
82375533|NCT00351533|164457583|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Chi-squared|||||||0.49
82375534|NCT00351533|164457584|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.55
82375535|NCT00351533|164457585|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.38
82375536|NCT00351533|164457586|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
82375537|NCT00351533|164457587|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.74
82645418|NCT01227954|165006266|SUPERIORITY|||||||0.0554|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model with FACT-Br total score (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Neurologic status (no symptoms) is reported here.||||0.0554
82375538|NCT00351533|164457588|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
82375539|NCT00351533|164457589|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.71
82375540|NCT00351533|164457590|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.08
82375541|NCT00351533|164457591|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
82375542|NCT00351533|164457592|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.89
82375543|NCT00351533|164457593|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.34
82375544|NCT03185013|164457594|SUPERIORITY|Superiority was concluded if the one-sided p-value was \<0.025 and the corresponding lower bound of the 95% CI exceeded zero (0).|Difference in percentage|11.4||||0.029|TWO_SIDED|95.0|-0.4|21.2|||Miettinen and Nurminen method|||||21.2|-0.4|0.029
82375545|NCT03185013|164457596|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|12.8|||||TWO_SIDED|95.0|-0.6|24.5||||||||24.5|-0.6|
82375546|NCT03185013|164457597|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|18.2|||||TWO_SIDED|95.0|5.1|29.4||||||||29.4|5.1|
82375547|NCT03185013|164457598|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|13.5|||||TWO_SIDED|95.0|1.7|23.5||||||||23.5|1.7|
82375548|NCT03185013|164457599|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|11.8|||||TWO_SIDED|95.0|1.5|20.3||||||||20.3|1.5|
82375549|NCT03185013|164457600|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|-1.7|||||TWO_SIDED|95.0|-11.5|10.3||||||||10.3|-11.5|
82375550|NCT03185013|164457601|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in percentage|10.8|||||TWO_SIDED|95.0|-0.5|20.1||||||||20.1|-0.5|
82375551|NCT03185013|164457602|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|224.0|||||TWO_SIDED|95.0|24.0|224.0||||||Week 15: HPV-16 E7||224.0|24.0|
82375552|NCT03185013|164457602|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 36: HPV-16 E7||0.0|0.0|
82375553|NCT03185013|164457602|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location Shift|2024.0|||||TWO_SIDED|95.0|2000.0|6050.0||||||Week 15: HPV-18 E7||6050.0|2000.0|
82375554|NCT03185013|164457602|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location Shift|224.0|||||TWO_SIDED|95.0|74.0|674.0||||||Week 36: HPV-18 E7||674.0|74.0|
82375555|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Location shift|11.67|||||TWO_SIDED|95.0|8.33|20.0||||||HPV-16 E6: Week 15||20.00|8.33|
82375556|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|8.33|||||TWO_SIDED|95.0|3.33|11.67||||||HPV-16 E6: Week 36||11.67|3.33|
82375557|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|10.83|||||TWO_SIDED|95.0|5.0|15.0||||||HPV-16 E7: Week 15||15.00|5.00|
82375558|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|7.5|||||TWO_SIDED|95.0|1.67|10.0||||||HPV-16 E7: Week 36||10.00|1.67|
82375559|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|50.83|||||TWO_SIDED|95.0|31.67|66.67||||||HPV-18 E6: Week 15||66.67|31.67|
82375560|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|38.33|||||TWO_SIDED|95.0|18.33|51.67||||||HPV-18 E6: Week 36||51.67|18.33|
82375561|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|14.17|||||TWO_SIDED|95.0|6.67|18.33||||||HPV-18 E7: Week 15||18.33|6.67|
82375562|NCT03185013|164457603|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|10.0|||||TWO_SIDED|95.0|5.0|15.0||||||HPV-18 E7: Week 36||15.00|5.00|
82375563|NCT03185013|164457604|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.025|||||TWO_SIDED|95.0|0.002|0.046||||||Parameter: CD8+CD137+Perforin+||0.046|0.002|
82375564|NCT03185013|164457604|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.011|||||TWO_SIDED|95.0|0.0|0.014||||||Parameter: CD8+CD38+Perforin+||0.014|0.000|
82375565|NCT03185013|164457604|SUPERIORITY|Superiority was concluded if the lower bound of the 95% CI exceeded 0.|Difference in median|0.044|||||TWO_SIDED|95.0|0.017|0.058||||||Parameter: CD8+CD69+Perforin+||0.058|0.017|
82375566|NCT00197496|164457606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.3|||<|0.05|TWO_SIDED|95.0|-72.1|19.6|||Regression, Linear|||||19.6|-72.1|<0.05
82375567|NCT00197496|164457609|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.4|TWO_SIDED|95.0|-3.6|9.2|||Regression, Linear|||||9.2|-3.6|0.40
82375568|NCT02203331|164457678|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.1483|STANDARD_ERROR_OF_MEAN|0.2925||0.3875|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3875
82375569|NCT02203331|164457678|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.2484|STANDARD_ERROR_OF_MEAN|0.2975||0.2676|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.2676
82375570|NCT02203331|164457678|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.1995|STANDARD_ERROR_OF_MEAN|0.2922||0.3211|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3211
82375571|NCT02203331|164457678|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.3467|STANDARD_ERROR_OF_MEAN|0.2994||0.1721|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1721
82375572|NCT02203331|164457679|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.2736|STANDARD_ERROR_OF_MEAN|0.2878||0.231|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.231
82375573|NCT02203331|164457679|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.3234|STANDARD_ERROR_OF_MEAN|0.2927||0.1865|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1865
82375574|NCT02203331|164457679|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.3081|STANDARD_ERROR_OF_MEAN|0.2875||0.1955|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1955
82375575|NCT02203331|164457679|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.3781|STANDARD_ERROR_OF_MEAN|0.2944||0.1416|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.1416
82375576|NCT02203331|164457680|SUPERIORITY_OR_OTHER_LEGACY||Emax|0.0081|STANDARD_ERROR_OF_MEAN|0.2832||0.5794|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.5794
82375577|NCT02203331|164457680|SUPERIORITY_OR_OTHER_LEGACY||Linear|0.1148|STANDARD_ERROR_OF_MEAN|0.288||0.4301|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.4301
82375578|NCT02203331|164457680|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 1|0.0401|STANDARD_ERROR_OF_MEAN|0.2829||0.5337|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.5337
82375579|NCT02203331|164457680|SUPERIORITY_OR_OTHER_LEGACY||Sigmoidal Emax 2|0.1835|STANDARD_ERROR_OF_MEAN|0.2899||0.3396|||||||Contrast tests for dose-response model|||The analysis was performed by using MCP-Mod method using pre-defined candidate dose-response model.||||0.3396
82375580|NCT02091466|164457685|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Analysis of covariance for repeated measures (ANCOVA), adjusted for baseline values, compared tympanic temperatures between the groups. Statistical significance was established at p \< 0.05, and the statistical analysis was performed using SPSS (Statistical Package for the Social Sciences) software version 20.||||<0.05
82375581|NCT03462459|164457690|EQUIVALENCE|Proportional tests (Chi-squared) compared the episodes of C. difficile. Log-rank tests (Kaplan-Meier) were conducted to compare the non-recurrence proportions within the eight-week period. Multivariate Cox proportional hazard regression determined if treatment, age, and number of previous C. difficile episodes were predictors of recurrence.|See comments|-0.11||||0.22|TWO_SIDED|95.0|-35.1|8.0|||Chi-squared||Proportional tests compared episodes of C. difficile recurrence in eight weeks (vancomycin vs. placebo) using Chi-squared test. Log-rank tests compared the non-recurrence proportions within 8 weeks with the Kaplan-Meier method.||"Statistical analyses are primarily reported for the population who were randomized in the study (as randomized). The secondary statistical analyses are reported for the population who completed all three visits (as completed treatment). Proportional tests were conducted to compare the episodes of C. difficile recurrence in eight weeks following the completion of the study intervention in patients receiving vancomycin versus placebo using the Chi-squared test. Log-rank tests were conducted to compare the non-recurrence proportions within the eight-week period in patients receiving vancomycin versus placebo with the Kaplan-Meier method. A nonparametric Wilcoxon rank sum test was used to compare distributions of the number of days to the first recurrence of CDI after starting oral vancomycin or placebo. The significance level was set to be ≤0.05. All statistical analyses were conducted in R statistical software (version 4.4.0; R Core Team, 2024)"|8.0|-35.1|0.22
82375582|NCT03462459|164457692|EQUIVALENCE|Proportional difference tests comparing the proportion of patients with VRE colonization at Visit 3, compared to baseline. Significance level was set to 0.10.||||||0.1|||||||Proportional difference test|||||||0.10
82375583|NCT00070499|164457723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0|||||Fisher Exact|||||||0.073
82375584|NCT00070499|164457723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Fisher Exact|||||||0.31
82375585|NCT00070499|164457725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0|||||Log Rank|||Log-rank test of overall survival||||0.29
82375586|NCT00070499|164457725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||Log Rank|||Log-rank test of overall survival||||0.55
82375587|NCT00070499|164457726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074||95.0|||||Log Rank|||Log-rank test of relapse-free survival||||0.074
82375588|NCT00070499|164457726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||95.0|||||Log Rank|||Log-rank test of relapse-free survival||||0.29
82375589|NCT03452137|164457767|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6804|TWO_SIDED|95.0|0.7|1.26|||Log Rank||HR was estimated by Cox regression.|Stratified Analysis: The stratification factors were response to definitive local therapy, human papillomavirus (HPV) status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.26|0.70|0.6804
82375590|NCT03452137|164457768|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.8371|TWO_SIDED|95.0|0.68|1.36|||Log Rank||HR was estimated by Cox regression.|Stratified Analysis: The stratification factors were response to definitive local therapy, HPV status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.36|0.68|0.8371
82375591|NCT03452137|164457769|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9115|TWO_SIDED|95.0|0.73|1.32|||Log Rank||HR was estimated by Cox regression|Stratified Analysis: The stratification factors were response to definitive local therapy, HPV status and type of definitive local therapy as per interactive voice or web-based response system (IxRS).||1.32|0.73|0.9115
82375592|NCT03452137|164457770|SUPERIORITY||Difference in Event Free Rate|-0.67||||0.8816|TWO_SIDED|95.0|-9.45|8.11|||Z test|||Difference in EFS Event-Free Rates at 1 year||8.11|-9.45|0.8816
82375593|NCT03452137|164457770|SUPERIORITY||Difference in Event Free Rate|0.46||||0.9234|TWO_SIDED|95.0|-8.86|9.78|||Z test|||Difference in EFS Event-Free Rates at 2 years||9.78|-8.86|0.9234
82375594|NCT03452137|164457770|SUPERIORITY||Difference in Event Free Rate|1.19||||0.809|TWO_SIDED|95.0|-8.49|10.88|||Z test|||Difference in EFS Event-Free Rates at 3 years||10.88|-8.49|0.8090
82375595|NCT03452137|164457770|SUPERIORITY||Difference in Event Free Rate|0.01||||0.9985|TWO_SIDED|95.0|-10.17|10.19|||Z test|||Difference in EFS Event-Free Rates at 4 years||10.19|-10.17|0.9985
82375596|NCT03452137|164457771|SUPERIORITY||Difference in Event Free Rate|5.17||||0.2393|TWO_SIDED|95.0|-3.44|13.79|||Z test|||Difference in EFS Event-Free Rates at 1 year||13.79|-3.44|0.2393
82576134|NCT05262751|164861983|OTHER||gMean Ratio|11.96|||||TWO_SIDED|90.0|8.88|16.11|||||gMean ratio: MR1-1/R. Intra-individual Geometric coefficient of variation \[%\] = 23.5|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||16.11|8.88|
82375597|NCT03452137|164457771|SUPERIORITY||Difference in Event Free Rate|3.61||||0.4472|TWO_SIDED|95.0|-5.69|12.9|||Z test|||Difference in EFS Event-Free Rates at 2 years||12.90|-5.69|0.4472
82375598|NCT03452137|164457771|SUPERIORITY||Difference in Event Free Rate|3.14||||0.5222|TWO_SIDED|95.0|-6.49|12.77|||Z test|||Difference in EFS Event-Free Rates at 3 years||12.77|-6.49|0.5222
82375599|NCT03452137|164457771|SUPERIORITY||Difference in Event Free Rate|1.31||||0.7967|TWO_SIDED|95.0|-8.64|11.26|||Z test|||Difference in EFS Event-Free Rates at 4 years||11.26|-8.64|0.7967
82375600|NCT03452137|164457772|SUPERIORITY||Difference in Event Free Rate|2.77||||0.4819|TWO_SIDED|95.0|-4.95|10.49|||Z test|||Difference in OS Event-Free Rates at 2 years||10.49|-4.95|0.4819
82375601|NCT03452137|164457772|SUPERIORITY||Difference in Event Free Rate|-1.25||||0.7783|TWO_SIDED|95.0|-9.97|7.47|||Z test|||Difference in OS Event-Free Rates at 3 years||7.47|-9.97|0.7783
82375602|NCT03452137|164457772|SUPERIORITY||Difference in Event Free Rate|-1.07||||0.8924|TWO_SIDED|95.0|-16.56|14.42|||Z test|||Difference in OS Event-Free Rates at 5 years||14.42|-16.56|0.8924
82375603|NCT02856802|164457805|NON_INFERIORITY|Assumption that 15% of placebo and 42% of DFN 02 10 mg (treated) subjects would be pain-free at 2 hours. A sample size of 50 subjects in each DB1 dosing arm provided 86% power to detect this assumed difference between placebo and DFN-02 10 mg at a 5% (2-sided) level of significance.|Odds Ratio (OR)|2.68||||0.044|TWO_SIDED|95.0|1.05|6.83|||Fisher Exact|||Statistical testing and confidence intervals (CIs) were 2 sided and performed using a significance (alpha) level of 0.05. All statistical analyses were conducted with the statistical analysis system (SAS)® software package (version 9.3).||6.83|1.05|0.044
82375604|NCT02856802|164457806|NON_INFERIORITY|Non-inferiority conducted as specified in the statistical analysis plan (SAP).||||||0.007||||||The corresponding p-values from Fisher's exact test were computed for the comparison between treatment groups.|Fisher Exact|||||||0.007
82375605|NCT02856802|164457807|NON_INFERIORITY|No assumptions made.|Odds Ratio (OR)|1.31||||0.642|TWO_SIDED|95.0|0.52|3.3|||Fisher Exact|||Statistical testing and confidence intervals (CIs) were 2 sided and performed using a significance (alpha) level of 0.05. All statistical analyses were conducted with the SAS® software package (version 9.3).||3.30|0.52|0.642
82375606|NCT00261443|164457816|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.544||||0.014|TWO_SIDED|95.0|0.332|0.893||Stratified Log-rank Test, controlling for type of mood stabilizer and type of mood episode|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||0.893|0.332|0.014
82375607|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.01||||0.911|TWO_SIDED|95.0|-0.16|0.15||ANOVA model, controlling for treatment, mood stabilizer, and index mood episode used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value used for mean change from baseline.|ANOVA/ANCOVA|Means, difference in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.15|-0.16|0.911
82375608|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.557|TWO_SIDED|95.0|-0.09|0.18||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.18|-0.09|0.557
82375609|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.04||||0.596|TWO_SIDED|95.0|-0.18|0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.10|-0.18|0.596
82375610|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.05||||0.522|TWO_SIDED|95.0|-0.22|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.11|-0.22|0.522
82375611|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.13||||0.142|TWO_SIDED|95.0|-0.3|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.04|-0.30|0.142
82375612|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.16||||0.092|TWO_SIDED|95.0|-0.35|0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.03|-0.35|0.092
82375613|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.2||||0.039|TWO_SIDED|95.0|-0.4|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.01|-0.40|0.039
82530174|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.672|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.672
82530175|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.107|||||||Wilcoxon (Mann-Whitney)|df=7||Drop B: Mean change in osmolarity from baseline H0: No osmolarity change from baseline (e.g. mean change = 0) H1: Significant osmolarity change from baseline (mean change ≠ 0)||||0.107
82530176|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.64|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.64
82645419|NCT01227954|165006267|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Intercept is reported here.||||<0.0001
82399082|NCT04227405|164507698|SUPERIORITY||Slope|1.91|STANDARD_ERROR_OF_MEAN|0.55|<|0.01|TWO_SIDED|||||The Benjamini-Hochberg method (1995) was used for adjusting p values for multiple comparisons as recommended by What Works Clearinghouse for controlling the false discovery rate for studies that have multiple outcome variables.|Multilevel modeling||Changes from pre-test to post-test in the intervention group were significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test inn the Common Dyadic Coping subscale||||<.01
82399083|NCT04227405|164507698|SUPERIORITY||Slope|-0.68|STANDARD_ERROR_OF_MEAN|0.42|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the control group for the Negative Dyadic Coping Scale||||>.05
82399084|NCT04227405|164507698|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.53|<|0.1|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||A positive value indicates an increase while a negative value indicates a decrease|Change from pre-test to post-test for the intervention group for the Negative Dyadic Coping Scale||||<.10
82530177|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.04|||||||Wilcoxon (Mann-Whitney)|df=14||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.040
82530178|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.2|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.20
82530179|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.15|||||||Wilcoxon (Mann-Whitney)|df-=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.150
82530180|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.73|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.730
82530181|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.89|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.89
82530182|NCT01614847|164756595|EQUIVALENCE|Two tailed, alpha = 0.05||||||0.89|||||||Wilcoxon (Mann-Whitney)|df=12||Comparison of Drop A versus Drop B change in osmolarity at this point in time. H0: No difference in osmolarity change between Drop A and B (Drop A = Drop B) H1: Significant difference in osmolarity change between Drop A and Drop B||||0.89
82530183|NCT02693834|164756597|OTHER|Paired t test||||||0.293|||||||t-test, 2 sided|||In order to test the difference in gait endurance,between the two AFO conditions at baseline, a paired t-test was analyzed||||.293
82530184|NCT02693834|164756598|OTHER|Repeated measures ANOVA||||||0.077||||||The above value was the interaction between the type of AFO and practice time.|repeated measures ANOVA|||A repeated measures ANOVA was calculated to find the differences in gait endurance between the type of AFO and practice time.||||0.077
82530185|NCT02693834|164756598|OTHER|Repeated measures ANOVA||||||0.046||||||main effect of the type of AFO: F(1, 19) = 4.58, ηp2= .194|repeated measures ANOVA|||The main effect of type of AFO||||.046
82530186|NCT02693834|164756598|OTHER|Repeated measures ANOVA|||||<|0.001||||||main effect of practice: F(1, 19) = 43.94, ηp2 = .698|repeated measures ANOVA|||Main effect of practice||||<.001
82530187|NCT02693834|164756599|OTHER|paired t test||||||0.688|||||||t-test, 2 sided|||The significance of differences in gait symmetry, between the two AFO conditions at baseline were analyzed using a paired t test for self selected velocity||||.688
82530188|NCT02693834|164756599|OTHER|repeated measures MANOVA||||||0.397||||||The above p value is for the interaction effects between type of AFO and practice time for gait symmetry at the self selected velocity F(1, 19)= 0.75, ηp2 = .038|repeated measures MANOVA|||The significance of differences in gait symmetry at self select velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.397
82530189|NCT02693834|164756599|OTHER|A repeated measures MANOVA||||||0.95||||||Main effect of AFO on gait symmetry at SSV: F(1, 19) = 0.004, ηp2 =.00|Repeated measures MANOVA|||Main effect of AFO on gait symmetry was analyzed at self selected velocity||||.950
82530190|NCT02693834|164756599|OTHER|Repeated measures MANOVA||||||0.111||||||The main effect of practice on gait symmetry at self selected velocity F(1, 19) = 2.79, ηp2 = .128|repeated measures MANOVA|||Main effect of practice on gait symmetry at Self selected velocity||||.111
82530191|NCT02693834|164756599|OTHER|||||||0.26|||||||t-test, 2 sided|||The significance of differences in gait symmetry, between the two AFO conditions at baseline were analyzed using a paired t test for fast paced velocity||||.260
82645420|NCT01227954|165006267|SUPERIORITY|||||||0.1579|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Time is reported here.||||0.1579
82645421|NCT01227954|165006267|SUPERIORITY|||||||0.0559|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Neurologic function status (some symptoms) is reported here.||||0.0559
82645422|NCT01227954|165006267|SUPERIORITY|||||||0.0749|||||||Mixed Models Analysis|Each explanatory variable in the final model is reported separately.||A general linear fixed effects model was run with ADL (baseline, 2, 4, 6 mo. from end of treatment) as outcome of interest. Explanatory variables in the model: Age (\>= 60 vs. \<60), primary site (lung,breast,colon each vs. other), neurologic function status (no vs. some symptoms), and RPA class(I vs. II). Explanatory variables are reported separately and only if they are in the final model (p\< 0.10, except time forced in the model.). Age (\>= 60) is reported here.||||0.0749
82645423|NCT01875991|165006291|SUPERIORITY_OR_OTHER|||||||0.501|||||||Van Elteren test|P-value for 'All subjects' from Van Elteren test adjusting for strata (RA or PsO)||||||0.501
82645424|NCT02216214|165006299|SUPERIORITY||Least Squares Mean (LSM) Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.33||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.33|-1.05|<0.001
82645425|NCT02216214|165006300|SUPERIORITY||LSM Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.82|-0.27||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.27|-0.82|<0.001
82645426|NCT02216214|165006301|SUPERIORITY||LSM Difference|13.68|STANDARD_ERROR_OF_MEAN|4.45||0.002|TWO_SIDED|95.0|4.95|22.42||P-value compares the Mirabegron group to the placebo group.|stratified rank ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the stratified rank ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||22.42|4.95|0.002
82645427|NCT02216214|165006302|SUPERIORITY||LSM Difference|-5.15|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|95.0|-7.84|-2.46||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-2.46|-7.84|<0.001
82645428|NCT02216214|165006303|SUPERIORITY||LSM Difference|2.72|STANDARD_ERROR_OF_MEAN|1.07||0.011|TWO_SIDED|95.0|0.62|4.83||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||4.83|0.62|0.011
82647994|NCT00386100|165011352|SUPERIORITY_OR_OTHER||Percent difference from metformin|-7.5||||0.3897|TWO_SIDED|95.0|-23.0|11.0||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||11.0|-23.0|0.3897
82375614|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.21||||0.05|TWO_SIDED|95.0|-0.43|0.0||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.00|-0.43|0.050
82399085|NCT04227405|164507698|SUPERIORITY||Slope|-0.34|STANDARD_ERROR_OF_MEAN|0.65|>|0.05|TWO_SIDED|||||No adjustment in p value|Multilevel modeling||Changes from pre-test to post-test in the intervention group were not significantly different from the change from pre-test to post-test in the control group|Difference between the control and the intervention group in the change from Pre-test to Post-test for the Negative Dyadic Coping Subscale||||>.05
82399086|NCT04985942|164507727|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|-6.38|-3.44|||Mixed Effects Model for Repeated Measure|MMRM Analysis Based on Hypothetical Estimand Strategy||||-3.44|-6.38|<0.0001
82399087|NCT04985942|164507728|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.85|-0.48|||Mixed Effects Model for Repeated Measure|MMRM Analysis Based on Hypothetical Estimand Strategy||||-0.48|-0.85|<0.0001
82399088|NCT03252145|164507731|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
82399089|NCT03252145|164507732|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
82399090|NCT03252145|164507733|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
82399091|NCT03252145|164507734|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
82399092|NCT03252145|164507735|OTHER|||||||0.552|||||||t-test, 2 sided|||||||0.552
82399093|NCT03252145|164507736|OTHER|||||||0.498|||||||t-test, 2 sided|||||||0.498
82399094|NCT03252145|164507737|OTHER|||||||0.264|||||||t-test, 2 sided|||Affected Arm Only||||0.264
82399095|NCT03252145|164507737|OTHER|||||||0.224|||||||t-test, 2 sided|||Unaffected arm||||0.224
82399096|NCT03252145|164507738|OTHER|||||||0.125|||||||t-test, 2 sided|||Affected arm||||0.125
82399097|NCT03252145|164507738|OTHER|||||||0.241|||||||t-test, 2 sided|||Unaffected arm||||0.241
82399098|NCT03252145|164507739|OTHER|||||||0.261|||||||t-test, 2 sided|||Affected Arm||||0.261
82530192|NCT02693834|164756599|OTHER|repeated measures MANOVA||||||0.113||||||The above p value is for the interaction effects between type of AFO and practice time for gait symmetry at fast paced velocity FPV F(1, 19) = 2.76,, ηp2 = .127|repeated measures MANOVA|||The significance of differences in gait symmetry at fast paced velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA||||.113
82530193|NCT02693834|164756599|OTHER|Repeated measures MANOVA||||||0.918||||||The main effect of AFO on gait symmetry at fast paced velocity: F(1, 19) = 0.01, ηp2 = 0.001|repeated measures MANOVA|||The main effect of AFO on gait symmetry at fast paced velocity walk was assessed with repeated measures MANOVA||||.918
82399099|NCT03252145|164507739|OTHER|||||||0.597|||||||t-test, 2 sided|||Unaffected Arm||||0.597
82399100|NCT03252145|164507740|OTHER|||||||0.596|||||||t-test, 2 sided|||Affected arm||||0.596
82399101|NCT03252145|164507740|OTHER|||||||0.219|||||||t-test, 2 sided|||Unaffected arm||||0.219
82399102|NCT03252145|164507741|OTHER|||||||0.842|||||||t-test, 2 sided|||||||0.842
82399103|NCT03252145|164507742|OTHER|||||||0.772|||||||t-test, 2 sided|||||||0.772
82399104|NCT03252145|164507743|OTHER|||||||0.3|||||||t-test, 2 sided|||||||0.300
82399105|NCT03252145|164507744|OTHER|||||||0.3|||||||t-test, 2 sided|||||||0.300
82399106|NCT03252145|164507745|OTHER|||||||0.679|||||||t-test, 2 sided|||||||0.679
82530194|NCT02693834|164756599|OTHER|Repeated measures MANOVA||||||0.077||||||The main effect of practice on gait symmetry at fast paced velocity: F(1, 19) = 3.50, ηp2 = .155|repeated measures MANOVA|||The main effect of practice on gait symmetry at fast paced velocity walk was assessed with repeated measures MANOVA||||.077
82530195|NCT02693834|164756600|OTHER|A repeated measures MANOVA||||||0.209||||||The above p value is for the interaction effects between the type of AFO and practice time at self selected velocity: F(1, 19) = 1.69, ηp2 = .082|Repeated measures MANOVA|||The significance of differences in gait velocity at self select velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.209
82399107|NCT03252145|164507746|OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.120
82399108|NCT03252145|164507747|OTHER|||||||0.138|||||||t-test, 2 sided|||||||0.138
82399109|NCT03252145|164507748|OTHER|||||||0.096|||||||t-test, 2 sided|||||||0.096
82399110|NCT03252145|164507749|OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
82399111|NCT03252145|164507751|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.080
82399112|NCT03252145|164507752|OTHER|||||||0.068|||||||t-test, 2 sided|||Physical Function Domain||||0.068
82399113|NCT03252145|164507752|OTHER|||||||0.808|||||||t-test, 2 sided|||Anxiety Domain||||0.808
82399114|NCT03252145|164507752|OTHER|||||||0.557|||||||t-test, 2 sided|||Depression Domain||||0.557
82399115|NCT03252145|164507752|OTHER|||||||0.049|||||||t-test, 2 sided|||Fatigue Domain||||0.049
82399116|NCT03252145|164507752|OTHER|||||||0.279|||||||t-test, 2 sided|||Sleep Disturbance Domain||||0.279
82399117|NCT03252145|164507752|OTHER|||||||0.02|||||||t-test, 2 sided|||Roles/Activity Domain||||0.020
82399118|NCT03252145|164507752|OTHER|||||||0.009|||||||t-test, 2 sided|||Pain Interference Domain||||0.009
82399119|NCT03252145|164507753|OTHER|||||||0.038|||||||t-test, 2 sided|||Physical Function Domain||||0.038
82399120|NCT03252145|164507753|OTHER|||||||0.108|||||||t-test, 2 sided|||Anxiety Domain||||0.108
82399121|NCT03252145|164507753|OTHER|||||||0.467|||||||t-test, 2 sided|||Depression Domain||||0.467
82399122|NCT03252145|164507753|OTHER|||||||0.078|||||||t-test, 2 sided|||Fatigue Domain||||0.078
82399123|NCT03252145|164507753|OTHER|||||||0.147|||||||t-test, 2 sided|||Sleep Disturbance Domain||||0.147
82399124|NCT03252145|164507753|OTHER|||||||0.004|||||||t-test, 2 sided|||Roles/Activity Domain||||0.004
82399125|NCT03252145|164507753|OTHER|||||||0.032|||||||t-test, 2 sided|||Pain Interference Domain||||0.032
82399126|NCT03252145|164507754|OTHER|||||||0.938|||||||t-test, 2 sided|||||||0.938
82399127|NCT03252145|164507755|OTHER|||||||0.603|||||||t-test, 2 sided|||||||0.603
82399128|NCT03252145|164507756|OTHER|||||||0.837|||||||t-test, 2 sided|||||||0.837
82399129|NCT03252145|164507757|OTHER|||||||0.511|||||||t-test, 2 sided|||||||0.511
82399130|NCT03252145|164507758|OTHER|||||||0.326|||||||t-test, 2 sided|||||||0.326
82399131|NCT01088711|164507771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.76|||||TWO_SIDED|90.0|82.7|99.37|||Difference in geometric means (GMs)|||||99.37|82.70|
82399132|NCT01088711|164507773|SUPERIORITY_OR_OTHER||Ratio of geometric least-squares means|1.92|||||TWO_SIDED|90.0|1.55|2.38|||||GMR is ratio of active GLP-1 levels in omarigliptin:placebo groups.|||2.38|1.55|
82399133|NCT01088711|164507774|SUPERIORITY_OR_OTHER||Ratio of geometric least-squares means|0.91|||||TWO_SIDED|90.0|0.72|1.17|||||GMR is ratio of total GLP-1 levels in omarigliptin:placebo groups.|||1.17|0.72|
82399134|NCT02085070|164507811|SUPERIORITY|A response of \> 10% of patients was defined as superior.|% response|29.7|||||TWO_SIDED|95.0|15.9|47.0||||||Each group was assessed individually. The primary goal of this study is to determine the efficacy of MK-3475 in patients with untreated brain metastases from NSCLC. The primary endpoint is the brain metastasis response rate (BMRR). A drug with minimal activity would be expected to have a BMRR of 10%.||47.0|15.9|
82399135|NCT02085070|164507811|SUPERIORITY|A response of \> 10% of patients was defined as superior.|% of patients|26.0|||||TWO_SIDED|95.0|10.0|48.0||||||Each group was assessed individually. The primary goal of this study is to determine the efficacy of MK-3475 in patients with untreated brain metastases from melanoma. The primary endpoint is the brain metastasis response rate (BMRR). A drug with minimal activity would be expected to have a BMRR of 10%.||48.0|10.0|
82399136|NCT01579669|164507857|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED||||||t-test, 2 sided|||Pre-post comparison||||0.0269
82399137|NCT01579669|164507858|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pre-post intervention comparison||||<0.0001
82399138|NCT01579669|164507859|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||Pre-post intervention comparison||||0.016
82399139|NCT03441685|164507860|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.73||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.73
82399140|NCT03441685|164507860|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.69||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.69
82399141|NCT03441685|164507860|OTHER|Accuracy identifying taught verbs in syntactic vs semantic condition (receptive)||||||0.79||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.79
82399142|NCT03441685|164507860|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.002||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.002
82645429|NCT02216214|165006304|SUPERIORITY||LSM Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.46|-0.16||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and baseline value as a covariate.||-0.16|-0.46|<0.001
82399143|NCT03441685|164507860|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.049||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.049
82399144|NCT03441685|164507860|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.016||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.016
82645430|NCT02216214|165006305|SUPERIORITY||||||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||<0.001
82645431|NCT02216214|165006306|SUPERIORITY||Rate Ratio|0.68|||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||The rate ratio for the number of urgency incontinence episodes reported during 3-day diary prior to each visit between mirabegron total group vs placebo group was calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and number of valid diary days as the offset variable.||||<0.001
82645432|NCT02216214|165006307|SUPERIORITY||Rate Ratio|0.84||||0.432||||||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||The rate ratio for the number of nocturia episodes reported during 3-day diary prior to each visit between mirabegron total group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as fixed factors and number of valid diary days as the offset variable.||||0.432
82645433|NCT02216214|165006308|SUPERIORITY|||||||0.317||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.317
82645434|NCT02216214|165006309|SUPERIORITY|||||||0.165||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.165
82645435|NCT02216214|165006310|SUPERIORITY||||||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||<0.001
82645436|NCT02216214|165006311|SUPERIORITY|||||||0.019||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Coping Subscale Score||||0.019
82645437|NCT02216214|165006311|SUPERIORITY|||||||0.01||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Concern Subscale Score||||0.010
82645438|NCT02216214|165006311|SUPERIORITY|||||||0.006||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Sleep Subscale Score||||0.006
82645439|NCT02216214|165006311|SUPERIORITY|||||||0.614||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||Social Subscale Score||||0.614
82645440|NCT02216214|165006312|SUPERIORITY|||||||0.002||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.002
82645441|NCT02216214|165006313|SUPERIORITY|||||||0.755||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.755
82399145|NCT03441685|164507861|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||0.76||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.76
82399146|NCT03441685|164507861|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||0.79||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.79
82645442|NCT02216214|165006314|SUPERIORITY||Rate Ratio|0.8||||0.014|TWO_SIDED|95.0|0.67|0.96||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||Week 4: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.96|0.67|0.014
82399147|NCT03441685|164507861|OTHER|Accuracy identifying taught verbs in semantic vs combined condition (receptive)||||||1||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||1.00
82399148|NCT03441685|164507861|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.003||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.003
82399149|NCT03441685|164507861|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.029||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.029
82399150|NCT03441685|164507861|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.027||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.027
82645443|NCT02216214|165006314|SUPERIORITY||Rate Ratio|0.81||||0.043|TWO_SIDED|95.0|0.66|0.99||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||Week 8: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.99|0.66|0.043
82645444|NCT02216214|165006314|SUPERIORITY||Rate Ratio|0.69||||0.002|TWO_SIDED|95.0|0.54|0.87||P-value compares the Mirabegron group to the placebo group.|Negative Binomial Regression Model|||EOT: Rate ratio for the number of incontinence episodes reported during 3-day diary prior to each visit between mirabegron group vs placebo group is calculated from a negative binomial regression model including treatment group, sex, age group (\<75, \>=75 years) and country as factors and number of valid diary days as the offset variable.||0.87|0.54|0.002
82645445|NCT02216214|165006316|SUPERIORITY||Odds Ratio (OR)|1.5||||0.005||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.005
82645446|NCT02216214|165006317|SUPERIORITY||Odds Ratio (OR)|1.775|||<|0.001||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||<0.001
82645447|NCT02216214|165006318|SUPERIORITY||Odds Ratio (OR)|1.501||||0.012||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.012
82645448|NCT02216214|165006319|SUPERIORITY||Odds Ratio (OR)|1.39||||0.034||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Coping. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.034
82399151|NCT03441685|164507862|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.72||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.72
82399152|NCT03441685|164507862|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.46||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.46
82399153|NCT03441685|164507862|OTHER|Accuracy identifying taught verbs in syntactic vs combined condition (receptive)||||||0.89||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.89
82399154|NCT03441685|164507862|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
82399155|NCT03441685|164507862|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.018||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.018
82399156|NCT03441685|164507862|OTHER|One-sample Wilcoxon signed rank test with comparison value of 6.||||||0.027||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.027
82399157|NCT03441685|164507863|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.64||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.64
82399158|NCT03441685|164507863|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.16||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.16
82530196|NCT02693834|164756600|OTHER|Repeated measures MANOVA||||||0.32||||||Main effect of AFO on gait velocity at self selected velocity: F(1, 19) = 1.05, ηp2 = .05|repeated measures MANOVA|||Main effect of AFO on gait velocity was analyzed at self selected velocity||||.32
82530197|NCT02693834|164756600|OTHER|Repeated measures MANOVA||||||0.001||||||Main effect of practice on gait velocity at self selected velocity:F(1, 19) = 14.38, ηp2 = .431|repeated measures MANOVA|||Main effect of Practice on gait velocity was analyzed at self selected velocity||||.001
82530198|NCT02693834|164756600|OTHER|repeated measures MANOVA||||||0.28||||||The above p value is for the interaction effects between the type of AFO and practice time at fast paced velocity: F( 1, 19) = 1.24, ηp2 = .61|repeated measures MANOVA|||The significance of differences in gait velocity at fast paced velocity, between the two AFO conditions and two practice conditions were analyzed using repeated measures MANOVA.||||.280
82399159|NCT03441685|164507863|OTHER|Accuracy labeling taught verbs in syntactic vs semantic condition (expressive)||||||0.18||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.18
82399160|NCT03441685|164507863|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
82399161|NCT03441685|164507863|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.034||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.034
82399162|NCT03441685|164507863|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.063||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.063
82399163|NCT03441685|164507864|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.35||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.35
82399164|NCT03441685|164507864|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.18||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.18
82399165|NCT03441685|164507864|OTHER|Accuracy labeling taught verbs in semantic vs combined condition (expressive)||||||0.58|||||||Wilcoxon Signed Ranks Test|||||||0.58
82399166|NCT03441685|164507864|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.006||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.006
82399167|NCT03441685|164507864|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.02||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.02
82399168|NCT03441685|164507864|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.18||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.18
82399169|NCT03441685|164507865|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.56||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.56
82399170|NCT03441685|164507865|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.1||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.10
82399171|NCT03441685|164507865|OTHER|Accuracy labeling taught verbs in syntactic vs combined condition (expressive)||||||0.71||||||Asymptotic p-value|Wilcoxon Signed Ranks Test|||||||0.71
82399172|NCT03441685|164507865|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0|||||<|0.001||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||<.001
82399173|NCT03441685|164507865|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.024||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.024
82399174|NCT03441685|164507865|OTHER|One-sample Wilcoxon signed rank test with comparison value of 0||||||0.1||||||Asymptotic p-value|One-sample Wilcoxon signed rank test|||||||0.10
82399175|NCT00527124|164507891|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907|STANDARD_ERROR_OF_MEAN|0.2973||0.7428|TWO_SIDED|95.0|0.506|1.624|||Regression, Cox|||||1.624|0.506|0.7428
82399176|NCT00527124|164507891|SUPERIORITY_OR_OTHER|||||||0.7425|TWO_SIDED|95.0|||||Log Rank|||||||0.7425
82399177|NCT00424593|164507896|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Model included treatment, non-steriodal anti-inflammatory drug (NSAID) use (Yes/No), investigator, visit, treatment-by-visit interaction, baseline pain severity, and baseline-by-visit interaction.|Repeated Measures Analysis|||||||0.004
82399178|NCT00424593|164507897|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||ANCOVA|||||||0.014
82399179|NCT00424593|164507898|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value is for 13 Week Change from Baseline.|ANCOVA|||||||0.009
82399180|NCT00424593|164507899|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Average Pain Score Change from Baseline.|ANCOVA|||||||0.002
82530199|NCT02693834|164756600|OTHER|repeated measures MANOVA||||||0.072||||||Main effect of AFO on gait velocity was analyzed at self selected velocity:FPV F(1, 19) = 3.63, ηp2 =.16|repeated measures MANOVA|||Main effect of AFO on gait velocity was analyzed for self selected velocity||||.072
82530200|NCT02693834|164756600|OTHER|Repeated measures MANOVA|||||<|0.001||||||Main effect of Practice on gait velocity for fast paced velocity: F(1, 19) = 23.73, ηp2 = .555|repeated measures MANOVA|||Main effect of Practice on gait velocity was analyzed for fast paced velocity||||<.001
82530201|NCT00759772|164756625|SUPERIORITY||||||<|0.01||||||Calculated p-value.|t-test, 2 sided|||||||< 0.01
82645449|NCT02216214|165006319|SUPERIORITY||Odds Ratio (OR)|1.327||||0.07||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Concern. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.070
82530202|NCT02761629|164756627|SUPERIORITY_OR_OTHER||Difference in Response Rates|12.7||||0.0536|TWO_SIDED|95.0|-0.01|26.6|||Fisher Exact||Exact 95% confidence interval was from the binomial distribution for response rate.|||26.6|-0.01|0.0536
82530203|NCT02761629|164756630|SUPERIORITY_OR_OTHER|||||||0.0175|||||||Fisher Exact|||||||0.0175
82530204|NCT02340520|164756636|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82530205|NCT02340520|164756637|OTHER||||||>|0.1|||||||ANOVA|||||||>0.1
82530206|NCT04195880|164756640|SUPERIORITY||||||<|0.05|TWO_SIDED|5.0|||||negative-binomial regression coefficient|||We assumed the average monthly pre-intervention hospitalization rates of intervention and control CLCs were equal, so only average monthly post-intervention hospitalization rates might diverge. Each CLC had its own start month and contributed 18 months pre-intervention and 18 months post-intervention. Hospitalizations rates were modeled using a multilevel negative-binomial regression because it allows for over-dispersion, which is commonly observed with medical events such as a count.||||<.05
82645450|NCT02216214|165006319|SUPERIORITY||Odds Ratio (OR)|1.452||||0.012||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Sleep. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.012
82530207|NCT01288781|164756648|SUPERIORITY_OR_OTHER|||||||0.98||||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
82530208|NCT01288781|164756649|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.63
82530209|NCT01288781|164756650|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.20
82530210|NCT01288781|164756651|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||<0.01
82530211|NCT01288781|164756651|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Step down Holm Bonferroni correction was applied|t-test, 2 sided|||Post hoc follow up test. T test between acetazolamide and placebo on data at 24 hr time point.||||<0.01
82645451|NCT02216214|165006319|SUPERIORITY||Odds Ratio (OR)|1.116||||0.602||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||HRQL Subscale - Social. Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.602
82399181|NCT00424593|164507899|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for Worst Pain Score Change from Baseline.|ANCOVA|||||||0.014
82530212|NCT01288781|164756652|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
82399182|NCT00424593|164507899|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Night Pain Score Change from Baseline.|ANCOVA|||||||0.007
82399183|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Worst Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.011
82530213|NCT01288781|164756653|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
82576135|NCT05262751|164861983|OTHER||gMean Ratio|13.98|||||TWO_SIDED|90.0|10.59|18.46|||||gMean ratio: MR1-2/R. Intra-individual Geometric coefficient of variation \[%\] = 23.5|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||18.46|10.59|
82645452|NCT02216214|165006320|SUPERIORITY||Odds Ratio (OR)|1.634||||0.001||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.001
82645453|NCT02216214|165006321|SUPERIORITY||Odds Ratio (OR)|1.597||||0.003||||||P-value compares the Mirabegron group to the placebo group.|Regression, Logistic|||Odds Ratio: Logistic regression was performed with treatment group, sex, age group (\<75, \>=75 years), and country as fixed factors and baseline value as a covariate.||||0.003
82645454|NCT02216214|165006323|SUPERIORITY|||||||0.471||||||P-value compares the Mirabegron group to the placebo group.|ANCOVA|||||||0.471
82375615|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.064|TWO_SIDED|95.0|-0.4|0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.01|-0.40|0.064
82375616|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.25||||0.017|TWO_SIDED|95.0|-0.46|-0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.05|-0.46|0.017
82375617|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.039|TWO_SIDED|95.0|-0.43|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.01|-0.43|0.039
82375618|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.27||||0.015|TWO_SIDED|95.0|-0.48|-0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.05|-0.48|0.015
82375619|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.009|TWO_SIDED|95.0|-0.5|-0.07||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.07|-0.50|0.009
82375620|NCT00261443|164457817|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.28||||0.013|TWO_SIDED|95.0|-0.5|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.06|-0.50|0.013
82375621|NCT00261443|164457818|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.348||||0.013|TWO_SIDED|95.0|0.146|0.829||Stratified Log-rank Test, controlling for type of mood stabilizer and type of index mood episode.|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||0.829|0.146|0.013
82375622|NCT00261443|164457819|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.733||||0.384|TWO_SIDED|95.0|0.364|1.479||Stratified Log-rank Test P-value for Equality of Survival Curves|Stratified Log-rank Test||Cox proportional hazards model, with type of mood stabilizer and type of index mood episode as stratification factors, and treatment group as covariate.|||1.479|0.364|0.384
82375623|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.02||||0.955|TWO_SIDED|95.0|-0.73|0.77||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.77|-0.73|0.955
82375624|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.06||||0.895|TWO_SIDED|95.0|-0.83|0.95||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.95|-0.83|0.895
82375625|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.69||||0.144|TWO_SIDED|95.0|-1.61|0.24||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.24|-1.61|0.144
82375626|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.1||||0.047|TWO_SIDED|95.0|-2.19|-0.01||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||-0.01|-2.19|0.047
82375627|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.39||||0.017|TWO_SIDED|95.0|-2.52|-0.25||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||-0.25|-2.52|0.017
82399184|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Least Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.001
82399185|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Average Pain Score Week 13 Change from Baseline.|ANCOVA|||||||0.019
82399186|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pain Right Now Score Week 13 Change from Baseline.|ANCOVA|||||||0.002
82399187|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for General Activity Week 13 Change from Baseline.|ANCOVA|||||||0.068
82399188|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Mood Week 13 Change from Baseline.|ANCOVA|||||||0.009
82445376|NCT02963701|164599217|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|T/R Ratio (%)|86.53|STANDARD_DEVIATION|16.85|||TWO_SIDED|90.0|82.03|91.28|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||91.28|82.03|
82445377|NCT02963701|164599218|EQUIVALENCE|A claim of bioequivalence was made if the 90% confidence interval (CI) of the geometric means of T/R ratio was contained in the pre-defined acceptance range of 80.00% to 125.00%.|Ratio (%)|106.17|STANDARD_DEVIATION|14.77|||TWO_SIDED|90.0|101.3|111.26|||ANOVA|Results are based on ANOVA model on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment.|The estimated parameter was the adjusted geometric mean ratios (%) of Test and Reference products. The parameter dispersion type (Standard Deviation) was actually the intra-individual geometric coefficient of variation (%).|||111.26|101.30|
82445378|NCT03480009|164599219|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||.20
82647995|NCT00386100|165011353|SUPERIORITY_OR_OTHER||Percent difference from metformin|-2.83||||0.5176|TWO_SIDED|95.0|-10.97|6.06||Overall, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||6.06|-10.97|0.5176
82399189|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Walking Ability Week 13 Change from Baseline.|ANCOVA|||||||0.006
82399190|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for Normal Work Week 13 Change from Baseline.|ANCOVA|||||||0.024
82530214|NCT01288781|164756654|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P \< 0.05 considered statistically significant.|ANOVA|Adjustments to the degrees of freedom were made when assumptions of sphericity were violated.||Omnibus analysis was performed. 2 (drug: Acetazolamide versus placebo) \* 2 (susceptibility: high altitude headache resistant versus high altitude headache susceptible) \* 6 (time: sea level, 3 \& 12; high altitude, 3, 12, 24 \& 36 hours) analysis of variance with repeated measures on the third factor. Data presented here are for the drug \* time interaction.||||0.98
82530215|NCT01811563|164756673|EQUIVALENCE|Main effect for implant independent of time||||||0.661|||||||ANOVA|||||||0.661
82399191|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Relations With People Week 13 Change from Baseline.|ANCOVA|||||||0.005
82399192|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Sleep Week 13 Change from Baseline.|ANCOVA|||||||0.051
82399193|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Enjoyment of Life Week 13 Change from Baseline.|ANCOVA|||||||0.013
82399194|NCT00424593|164507900|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Average Interference Week 13 Change from Baseline.|ANCOVA|||||||0.005
82399195|NCT00424593|164507901|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.092
82399196|NCT00424593|164507902|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||||||0.060
82399197|NCT00424593|164507903|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||Fisher Exact|||||||0.087
82399198|NCT00424593|164507904|SUPERIORITY_OR_OTHER|||||||0.329||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.329
82399199|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for Mental Component Summary Change from Baseline.|ANCOVA|||||||0.051
82399200|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||P-value for Physical Component Summary Change from Baseline.|ANCOVA|||||||0.220
82399201|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Bodily Pain Change from Baseline.|ANCOVA|||||||0.038
82399202|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value for General Health Change from Baseline.|ANCOVA|||||||0.041
82399203|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for Mental Health Change from Baseline.|ANCOVA|||||||0.093
82399204|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||P-value for Physical Functioning Change from Baseline.|ANCOVA|||||||0.210
82399205|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||P-value for Role-Emotional Change from Baseline.|ANCOVA|||||||0.170
82399206|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value for Role-Physical Change from Baseline.|ANCOVA|||||||0.306
82399207|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for Social Functioning Change from Baseline.|ANCOVA|||||||0.053
82399208|NCT00424593|164507905|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value for Vitality Change from Baseline.|ANCOVA|||||||0.040
82399209|NCT00424593|164507906|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.117
82399210|NCT00424593|164507907|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||P-value for Absenteeism Week 13 Change from Baseline.|ANCOVA|||||||0.063
82445379|NCT03480009|164599219|OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||.20
82445380|NCT03480009|164599220|OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Ibuprofen||||.81
82445381|NCT03480009|164599220|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||acetaminophen||||.24
82445382|NCT03480009|164599220|OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||oxycodone||||.54
82445383|NCT03480009|164599220|OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Ibuprofen||||.61
82530216|NCT01811563|164756673|EQUIVALENCE|Main effect for time independent of implant|||||<|0.001|||||||ANOVA|||||||<0.001
82530217|NCT01811563|164756673|EQUIVALENCE|Interaction between implant and time||||||0.27|||||||ANOVA|||||||0.270
82399211|NCT00424593|164507907|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||P-value for Presenteeism Week 13 Change from Baseline.|ANCOVA|||||||0.452
82399212|NCT00424593|164507907|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Work Productivity Loss Week 13 Change from Baseline.|ANCOVA|||||||0.736
82399213|NCT00424593|164507907|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Work Activity Impairment Week 13 Change from Baseline.|ANCOVA|||||||0.002
82399214|NCT00424593|164507908|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||P-value for Week 13 Change from Baseline.|ANCOVA|||||||0.177
82399215|NCT00424593|164507909|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for Anxiety Subscale Change from Baseline.|ANCOVA|||||||0.122
82399216|NCT00424593|164507909|SUPERIORITY_OR_OTHER|||||||0.262||95.0||||P-value for Depression Subscale Change from Baseline.|ANCOVA|||||||0.262
82399217|NCT00424593|164507910|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Change from Baseline.|ANOVA|ANOVA based on rank transformation.||||||0.046
82399218|NCT00424593|164507911|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Change from Baseline.|ANOVA|ANOVA based on rank transformation.||||||0.008
82399219|NCT00424593|164507912|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-value for Week 13 Change from Baseline.|ANOVA|||||||0.028
82399220|NCT00424593|164507913|SUPERIORITY_OR_OTHER|||||||0.764||95.0||||P-value for SBP Week 13 Change from Baseline.|ANOVA|||||||0.764
82530218|NCT01811563|164756674|EQUIVALENCE|Main effect for implant independent of time||||||0.856|||||||ANOVA|Main effect for implant, LQ-YBT Baseline to 52 weeks||||||0.856
82530219|NCT01811563|164756674|EQUIVALENCE|Time independent of implant, Baseline to 52 Weeks|||||<|0.001|||||||ANOVA|||||||<0.001
82399221|NCT00424593|164507913|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for DBP Week 13 Change from Baseline.|ANOVA|||||||0.093
82399222|NCT00424593|164507914|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Week 13 Change from Baseline.|ANOVA|||||||0.008
82399223|NCT04957212|164507991|EQUIVALENCE|We used an equivalence margin of 0.2 for the primary endpoint.|Risk Difference (RD)|-0.04||||0.54|TWO_SIDED|95.0|-0.16|0.09|||Chi-squared|||||0.09|-0.16|0.54
82399224|NCT04957212|164507992|OTHER||Risk Difference (RD)|-0.07||||0.26|TWO_SIDED|95.0|-0.21|0.06|||Chi-squared|||||0.06|-0.21|0.26
82399225|NCT04957212|164507993|OTHER|||||||0.99|||||||Fisher Exact|||||||0.99
82399226|NCT04957212|164507994|OTHER|||||||0.56|||||||Chi-squared|||||||0.56
82399227|NCT02087943|164508019|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-15.01||||0.1308|TWO_SIDED|95.0|-34.52|4.5||Based on an analysis of covariance model with the percentage change from baseline as the response variable and the treatment group and Baseline EASI score stratification (≤ 20, \> 20) as factors.|ANCOVA|||||4.50|-34.52|0.1308
82399228|NCT02087943|164508019|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.6||||0.0347|TWO_SIDED|95.0|-39.7|-1.5||Based on an analysis of covariance model with the percentage change from Baseline as the response variable and the treatment group and Baseline EASI score stratification (≤ 20, \> 20) as factors.|ANCOVA|||||-1.50|-39.70|0.0347
82399229|NCT02087943|164508020|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|-2.7||||0.4938|TWO_SIDED|95.0|-10.2|4.8||Adjusted treatment differences in proportions using the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with, Cochran-Mantel-Haenszel (CMH) weights.|Cochran-Mantel-Haenszel||2-sided 95% Confidence Intervals (CI) is based on a normal approximation to the weighted average.|||4.8|-10.2|0.4938
82399230|NCT02087943|164508020|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|8.0||||0.1368|TWO_SIDED|95.0|-2.3|18.2||Adjusted treatment differences in proportions using the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with, CMH weights.|Cochran-Mantel-Haenszel||2-sided 95% Confidence Intervals (CI) is based on a normal approximation to the weighted average.|||18.2|-2.3|0.1368
82399231|NCT02087943|164508021|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|-1.5||||0.8589|TWO_SIDED|95.0|-18.0|14.9|||Cochran-Mantel-Haenszel||Adjusted differences in proportions was the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with the CMH weights.|||14.9|-18.0|0.8589
82399232|NCT02087943|164508021|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Proportion|9.9||||0.2476|TWO_SIDED|95.0|-6.7|26.6|||Cochran-Mantel-Haenszel||Adjusted differences in proportions was the weighted average of the treatment differences across the stratum of baseline EASI score stratification (≤ 20, \> 20) with the CMH weights.|||26.6|-6.7|0.2476
82399233|NCT02087943|164508022|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.17||||0.5286|TWO_SIDED|95.0|-21.34|10.99|||ANCOVA||Based on an analysis of covariance model with the percentage change from baseline as the response variable, treatment group and baseline EASI stratification (≤ 20, \> 20) as factors, and the baseline average weekly pruritus NRS score as a covariate.|||10.99|-21.34|0.5286
82399234|NCT02087943|164508022|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.17||||0.6092|TWO_SIDED|95.0|-20.22|11.88|||ANCOVA||Based on an analysis of covariance model with the percentage change from baseline as the response variable, treatment group and baseline EASI stratification (≤ 20, \> 20) as factors, and the baseline average weekly pruritus NRS score as a covariate.|||11.88|-20.22|0.6092
82399235|NCT01461473|164508027|SUPERIORITY_OR_OTHER|||||||0.2067|||||||Analysis of covariance (GLM)|||These data were analyzed using an analysis of covariance via general linear model (GLM). The GLM has an indicator variable for PAP vs. OA plus covariates for baseline apnea-hypopnea index, gender, site and baseline NMAP. The primary hypothesis tested is that the 2-month means differ between study arms, after adjustment for the above covariates. A Wald statistic was constructed for hypothesis testing.||||0.2067
82530220|NCT01811563|164756674|EQUIVALENCE|Implant by Time interaction, Baseline to 52 Weeks between Zimmer and Stryker||||||0.822|||||||ANOVA|||||||0.822
82530221|NCT01811563|164756675|EQUIVALENCE|Main effect for implant, Baseline to 52 weeks||||||0.158|||||||ANOVA|||||||.158
82530222|NCT01811563|164756675|EQUIVALENCE|Main effect for time, Baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
82530223|NCT01811563|164756675|EQUIVALENCE|Interaction of time by implant, Baseline to 52 weeks||||||0.365|||||||ANOVA|||||||0.365
82530224|NCT01811563|164756677|EQUIVALENCE|Main effect for implant, baseline to 52 weeks||||||0.416|||||||ANOVA|||||||.416
82399236|NCT01461473|164508028|SUPERIORITY_OR_OTHER|||||||0.3902|||||||GLMM|||Generalized linear mixed model (GLMM) was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.3902
82399237|NCT01461473|164508029|SUPERIORITY_OR_OTHER|||||||0.9319|||||||GLMM|||A GLMM was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.9319
82399238|NCT01461473|164508030|SUPERIORITY_OR_OTHER|||||||0.3895|||||||GLMM|||A GLMM was fit in which the outcome was regressed on an indicator variable for PAP vs. OA, baseline apnea-hypopnea index, gender, site and baseline value of the outcome. A Wald statistic was constructed for hypothesis testing.||||0.3895
82399239|NCT01461473|164508031|SUPERIORITY_OR_OTHER|||||||0.3449|||||||see Comments|Analysis of covariance with robust MM regression due to extreme residuals from initial fit showing strong departure from normal distribution.||Using analysis of covariance (robust MM regression), the outcome was regressed on an indicator variable for PAP vs. OA, baseline outcome, baseline apnea-hypopnea index, gender, site, baseline brachial-artery diameter, body mass index, age, and the interaction of gender and study arm. The latter allows for the possibility that treatment effect may differ between males and females. A Wald statistic was constructed for hypothesis testing.||||0.3449
82399240|NCT01461473|164508032|SUPERIORITY_OR_OTHER|||||||0.1531|||||||see Comments|Analysis of covariance with robust MM regression due to extreme residuals from initial fit showing strong departure from normal distribution.||Using analysis of covariance (robust MM regression), the outcome was regressed on an indicator variable for PAP vs. OA, baseline outcome, baseline apnea-hypopnea index, gender, site, baseline brachial-artery diameter, body mass index, age, and the interaction of gender and study arm. The latter allows for the possibility that treatment effect may differ between males and females. A Wald statistic was constructed for hypothesis testing.||||0.1531
82399241|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|||<|0.0001|TWO_SIDED|95.0|5.0|10.9|||Mixed Models Analysis|||||10.9|5.0|<0.0001
82399242|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.6|||<|0.0001|TWO_SIDED|95.0|10.2|15.0|||Mixed Models Analysis|||||15.0|10.2|<0.0001
82399243|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0|||<|0.0001|TWO_SIDED|95.0|11.7|16.2|||Mixed Models Analysis|||||16.2|11.7|<0.0001
82399244|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.3|||<|0.0001|TWO_SIDED|95.0|9.9|14.7|||Mixed Models Analysis|||||14.7|9.9|<0.0001
82399245|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3||||0.0014|TWO_SIDED|95.0|-6.9|-1.8|||Mixed Models Analysis|||||-1.8|-6.9|0.0014
82399246|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.7601|TWO_SIDED|95.0|-1.5|2.1|||Mixed Models Analysis|||||2.1|-1.5|0.7601
82530225|NCT01811563|164756677|EQUIVALENCE|Main effect for time, Baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
82399247|NCT01096680|164508065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.7||||0.0351|TWO_SIDED|95.0|0.1|3.2|||Mixed Models Analysis|||||3.2|0.1|0.0351
82399248|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1123|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||||0.1|-1.1|0.1123
82399249|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0002|TWO_SIDED|95.0|-1.8|-0.6|||Mixed Models Analysis|||||-0.6|-1.8|0.0002
82530226|NCT01811563|164756677|EQUIVALENCE|Implant by time interaction, baseline to 52 weeks||||||0.917|||||||ANOVA|||||||0.917
82530227|NCT01811563|164756679|EQUIVALENCE|Main effect by implant, Baseline to 52 weeks||||||0.83|||||||ANOVA|||||||0.830
82530228|NCT01811563|164756679|EQUIVALENCE|Main effect by time, baseline to 52 weeks|||||<|0.001|||||||ANOVA|||||||<0.001
82399250|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.0|||Mixed Models Analysis|||||-1.0|-2.2|<0.0001
82399251|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0947|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||||0.1|-1.1|0.0947
82399252|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9393|TWO_SIDED|95.0|-0.6|0.6|||Mixed Models Analysis|||||0.6|-0.6|0.9393
82399253|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0297|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis|||||-0.1|-1.3|0.0297
82399254|NCT01096680|164508066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0004|TWO_SIDED|95.0|-1.7|-0.5|||Mixed Models Analysis|||||-0.5|-1.7|0.0004
82399255|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.7758|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||7:50pm||0.6|-0.5|0.7758
82399256|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.1798|TWO_SIDED|95.0|-0.2|0.9|||Mixed Models Analysis|||7:50pm||0.9|-0.2|0.1798
82399257|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.609|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||7:50pm||0.7|-0.4|0.6090
82399258|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.1169|TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis|||7:50pm||1.0|-0.1|0.1169
82399259|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3028|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||7:50pm||0.3|-0.8|0.3028
82399260|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9831|TWO_SIDED|95.0|-0.5|0.5|||Mixed Models Analysis|||7:50pm||0.5|-0.5|0.9831
82445384|NCT03480009|164599220|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Acetaminophen||||.24
82530229|NCT01811563|164756679|EQUIVALENCE|Interaction between implant and time, baseline to 52 weeks||||||0.728|||||||ANOVA|||||||0.728
82530230|NCT01811563|164756680|EQUIVALENCE|Between implants at 6 weeks||||||0.319|||||||t-test, 2 sided|||||||0.319
82530231|NCT04424290|164756689|OTHER||Adjusted mean difference|-0.0234|STANDARD_ERROR_OF_MEAN|0.0157|||TWO_SIDED|95.0|-0.0558|0.0089|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.0089|-0.0558|
82399261|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2887|TWO_SIDED|95.0|-0.8|0.2|||Mixed Models Analysis|||7:50pm||0.2|-0.8|0.2887
82399262|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.4395|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.4395
82399263|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9019|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||8:50pm||0.6|-0.5|0.9019
82399264|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3419|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.3419
82399265|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9581|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||8:50pm||0.5|-0.6|0.9581
82399266|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2572|TWO_SIDED|95.0|-0.9|0.2|||Mixed Models Analysis|||8:50pm||0.2|-0.9|0.2572
82399267|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8085|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||8:50pm||0.5|-0.6|0.8085
82399268|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3678|TWO_SIDED|95.0|-0.8|0.3|||Mixed Models Analysis|||8:50pm||0.3|-0.8|0.3678
82530232|NCT04424290|164756690|OTHER||Adjusted mean difference|0.0215|STANDARD_ERROR_OF_MEAN|0.0429|||TWO_SIDED|95.0|-0.067|0.11|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.1100|-0.0670|
82399269|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3732|TWO_SIDED|95.0|-0.9|0.4|||Mixed Models Analysis|||9:50pm||0.4|-0.9|0.3732
82399270|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.4924|TWO_SIDED|95.0|-0.9|0.4|||Mixed Models Analysis|||9:50pm||0.4|-0.9|0.4924
82399271|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9798|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||9:50pm||0.6|-0.7|0.9798
82645455|NCT05354206|165006326|SUPERIORITY||Mean Difference (Final Values)|0.405|STANDARD_DEVIATION|0.285|<|0.05|TWO_SIDED|||||p-values have not been adjusted for multiple comparisons|t-test, 2 sided||Difference of RST from 1 for hip range of motion task without stimulation.|"Reticulospinal tract (RST) contribution computed as RST = (visual - startle)/(visual - auditory) reaction times, where a RST value greater than 1 would indicate a significant contribution of the reticulospinal tract for a given task.~A one sample t-test (or Wilcoxon signed-rank test for non-normally distributed data) was used to test the hypothesis that the RST contribution for a given movement was significantly greater than 1."||||<0.05
82645456|NCT04936334|165006336|SUPERIORITY||McNemar|0.03|||<|0.05|TWO_SIDED||||||McNemar|||||||<0.05
82399272|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.8557|TWO_SIDED|95.0|-0.6|0.7|||Mixed Models Analysis|||9:50pm||0.7|-0.6|0.8557
82399273|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.0998|TWO_SIDED|95.0|-1.2|0.1|||Mixed Models Analysis|||9:50pm||0.1|-1.2|0.0998
82399274|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1479|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||9:50pm||0.2|-1.1|0.1479
82399275|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8358|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||9:50pm||0.6|-0.7|0.8358
82399276|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0199|TWO_SIDED|95.0|-1.6|-0.1|||Mixed Models Analysis|||10:50pm||-0.1|-1.6|0.0199
82399277|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.7625|TWO_SIDED|95.0|-0.9|0.6|||Mixed Models Analysis|||10:50pm||0.6|-0.9|0.7625
82399278|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.1936|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||10:50pm||0.3|-1.2|0.1936
82399279|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.4534|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||10:50pm||1.0|-0.5|0.4534
82399280|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0012|TWO_SIDED|95.0|-2.0|-0.5|||Mixed Models Analysis|||10:50pm||-0.5|-2.0|0.0012
82399281|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.2072|TWO_SIDED|95.0|-1.2|0.3|||Mixed Models Analysis|||10:50pm||0.3|-1.2|0.2072
82399282|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0413|TWO_SIDED|95.0|-1.5|0.0|||Mixed Models Analysis|||10:50pm||0.0|-1.5|0.0413
82399283|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1086|TWO_SIDED|95.0|-1.5|0.1|||Mixed Models Analysis|||11:50pm||0.1|-1.5|0.1086
82399284|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.5843|TWO_SIDED|95.0|-1.0|0.6|||Mixed Models Analysis|||11:50pm||0.6|-1.0|0.5843
82399285|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0571|TWO_SIDED|95.0|-1.6|0.0|||Mixed Models Analysis|||11:50pm||0.0|-1.6|0.0571
82399286|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.3965|TWO_SIDED|95.0|-1.2|0.5|||Mixed Models Analysis|||11:50pm||0.5|-1.2|0.3965
82399287|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0009|TWO_SIDED|95.0|-2.2|-0.6|||Mixed Models Analysis|||11:50pm||-0.6|-2.2|0.0009
82399288|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0211|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||11:50pm||-0.1|-1.8|0.0211
82399289|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.2863|TWO_SIDED|95.0|-1.2|0.4|||Mixed Models Analysis|||11:50pm||0.4|-1.2|0.2863
82399290|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0428|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||12:50am||0.0|-1.7|0.0428
82399291|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3757|TWO_SIDED|95.0|-0.5|1.2|||Mixed Models Analysis|||12:50am||1.2|-0.5|0.3757
82399292|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0002|TWO_SIDED|95.0|-2.4|-0.8|||Mixed Models Analysis|||12:50am||-0.8|-2.4|0.0002
82399293|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.3535|TWO_SIDED|95.0|-1.2|0.4|||Mixed Models Analysis|||12:50am||0.4|-1.2|0.3535
82399294|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.1|||Mixed Models Analysis|||12:50am||-1.1|-2.7|<0.0001
82399295|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1131|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|||12:50am||0.2|-1.5|0.1131
82399296|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0039|TWO_SIDED|95.0|-2.0|-0.4|||Mixed Models Analysis|||12:50am||-0.4|-2.0|0.0039
82399297|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.1302|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|||1:50am||0.2|-1.5|0.1302
82399298|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.6138|TWO_SIDED|95.0|-0.6|1.1|||Mixed Models Analysis|||1:50am||1.1|-0.6|0.6138
82399299|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.0008|TWO_SIDED|95.0|-2.3|-0.6|||Mixed Models Analysis|||1:50am||-0.6|-2.3|0.0008
82399300|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.1643|TWO_SIDED|95.0|-1.5|0.3|||Mixed Models Analysis|||1:50am||0.3|-1.5|0.1643
82399301|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0002|TWO_SIDED|95.0|-2.5|-0.8|||Mixed Models Analysis|||1:50am||-0.8|-2.5|0.0002
82399302|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.0782|TWO_SIDED|95.0|-1.6|0.1|||Mixed Models Analysis|||1:50am||0.1|-1.6|0.0782
82399303|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0441|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||1:50am||0.0|-1.7|0.0441
82399304|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0193|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||2:50am||-0.2|-2.2|0.0193
82399305|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7071|TWO_SIDED|95.0|-1.2|0.8|||Mixed Models Analysis|||2:50am||0.8|-1.2|0.7071
82399306|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0002|TWO_SIDED|95.0|-2.9|-0.9|||Mixed Models Analysis|||2:50am||-0.9|-2.9|0.0002
82399307|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0611|TWO_SIDED|95.0|-1.9|0.0|||Mixed Models Analysis|||2:50am||0.0|-1.9|0.0611
82399308|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.2|||Mixed Models Analysis|||2:50am||-1.2|-3.2|<0.0001
82399309|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.016|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||2:50am||-0.2|-2.2|0.0160
82399310|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.048|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||2:50am||0.0|-2.0|0.0480
82399311|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0234|TWO_SIDED|95.0|-2.2|-0.2|||Mixed Models Analysis|||3:50am||-0.2|-2.2|0.0234
82399312|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.5624|TWO_SIDED|95.0|-1.3|0.7|||Mixed Models Analysis|||3:50am||0.7|-1.3|0.5624
82399313|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Mixed Models Analysis|||3:50am||-1.5|-3.5|<0.0001
82399314|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0022|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|||3:50am||-0.6|-2.6|0.0022
82399315|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.7|-1.6|||Mixed Models Analysis|||3:50am||-1.6|-3.7|<0.0001
82399316|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.0008|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|||3:50am||-0.8|-2.8|0.0008
82399317|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.0883|TWO_SIDED|95.0|-1.9|0.1|||Mixed Models Analysis|||3:50am||0.1|-1.9|0.0883
82399318|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.3093|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||4:50am||0.5|-1.5|0.3093
82399319|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.8871|TWO_SIDED|95.0|-0.9|1.1|||Mixed Models Analysis|||4:50am||1.1|-0.9|0.8871
82399320|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.2|||Mixed Models Analysis|||4:50am||-1.2|-3.2|<0.0001
82399321|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0022|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|||4:50am||-0.6|-2.6|0.0022
82399322|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.4|-1.4|||Mixed Models Analysis|||4:50am||-1.4|-3.4|<0.0001
82399323|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.0006|TWO_SIDED|95.0|-2.8|-0.8|||Mixed Models Analysis|||4:50am||-0.8|-2.8|0.0006
82399324|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.2462|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||4:50am||0.4|-1.6|0.2462
82399325|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.4427|TWO_SIDED|95.0|-1.4|0.6|||Mixed Models Analysis|||5:50am||0.6|-1.4|0.4427
82399326|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.4405|TWO_SIDED|95.0|-0.6|1.4|||Mixed Models Analysis|||5:50am||1.4|-0.6|0.4405
82399327|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.0003|TWO_SIDED|95.0|-3.0|-0.9|||Mixed Models Analysis|||5:50am||-0.9|-3.0|0.0003
82399328|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0279|TWO_SIDED|95.0|-2.2|-0.1|||Mixed Models Analysis|||5:50am||-0.1|-2.2|0.0279
82399329|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Mixed Models Analysis|||5:50am||-1.5|-3.5|<0.0001
82399330|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7||||0.0015|TWO_SIDED|95.0|-2.7|-0.7|||Mixed Models Analysis|||5:50am||-0.7|-2.7|0.0015
82399331|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.1246|TWO_SIDED|95.0|-1.8|0.2|||Mixed Models Analysis|||5:50am||0.2|-1.8|0.1246
82399332|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.3067|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||6:50am||0.5|-1.6|0.3067
82399333|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.894|TWO_SIDED|95.0|-1.0|1.1|||Mixed Models Analysis|||6:50am||1.1|-1.0|0.8940
82399334|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0034|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||6:50am||-0.5|-2.7|0.0034
82399335|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0708|TWO_SIDED|95.0|-2.0|0.1|||Mixed Models Analysis|||6:50am||0.1|-2.0|0.0708
82399336|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||6:50am||-1.4|-3.6|<0.0001
82399337|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0006|TWO_SIDED|95.0|-2.9|-0.8|||Mixed Models Analysis|||6:50am||-0.8|-2.9|0.0006
82399338|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.2476|TWO_SIDED|95.0|-1.7|0.4|||Mixed Models Analysis|||6:50am||0.4|-1.7|0.2476
82399339|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.231|TWO_SIDED|95.0|-1.8|0.4|||Mixed Models Analysis|||7:50am||0.4|-1.8|0.2310
82399340|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.8369|TWO_SIDED|95.0|-1.2|1.0|||Mixed Models Analysis|||7:50am||1.0|-1.2|0.8369
82399341|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0035|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||7:50am||-0.5|-2.7|0.0035
82399342|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0498|TWO_SIDED|95.0|-2.2|0.0|||Mixed Models Analysis|||7:50am||0.0|-2.2|0.0498
82399343|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||7:50am||-1.4|-3.6|<0.0001
82399344|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9||||0.0007|TWO_SIDED|95.0|-3.0|-0.8|||Mixed Models Analysis|||7:50am||-0.8|-3.0|0.0007
82399345|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.3198|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||7:50am||0.5|-1.6|0.3198
82399346|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.375|TWO_SIDED|95.0|-0.6|1.7|||Mixed Models Analysis|||8:50am||1.7|-0.6|0.3750
82399347|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7978|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||8:50am||1.0|-1.3|0.7978
82576136|NCT05262751|164861983|OTHER||gMean Ratio|32.13|||||TWO_SIDED|90.0|26.46|39.01|||||gMean ratio: MR2-1/R. Intra-individual Geometric coefficient of variation \[%\] = 29.3.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||39.01|26.46|
82399348|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.5197|TWO_SIDED|95.0|-1.5|0.8|||Mixed Models Analysis|||8:50am||0.8|-1.5|0.5197
82399349|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0751|TWO_SIDED|95.0|-2.2|0.1|||Mixed Models Analysis|||8:50am||0.1|-2.2|0.0751
82399350|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.1079|TWO_SIDED|95.0|-2.1|0.2|||Mixed Models Analysis|||8:50am||0.2|-2.1|0.1079
82399351|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6||||0.0065|TWO_SIDED|95.0|-2.8|-0.5|||Mixed Models Analysis|||8:50am||-0.5|-2.8|0.0065
82399352|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.2529|TWO_SIDED|95.0|-0.5|1.8|||Mixed Models Analysis|||8:50am||1.8|-0.5|0.2529
82399353|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.6364|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||9:50am||0.8|-1.3|0.6364
82399354|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9417|TWO_SIDED|95.0|-1.1|1.0|||Mixed Models Analysis|||9:50am||1.0|-1.1|0.9417
82399355|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.02|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|||9:50am||-0.2|-2.3|0.0200
82399356|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1||||0.0527|TWO_SIDED|95.0|-2.1|0.0|||Mixed Models Analysis|||9:50am||0.0|-2.1|0.0527
82399357|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0107|TWO_SIDED|95.0|-2.5|-0.3|||Mixed Models Analysis|||9:50am||-0.3|-2.5|0.0107
82399358|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0303|TWO_SIDED|95.0|-2.2|-0.1|||Mixed Models Analysis|||9:50am||-0.1|-2.2|0.0303
82399359|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.6889|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||9:50am||0.8|-1.3|0.6889
82399360|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9552|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|||10:50am||1.1|-1.2|0.9552
82399361|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.7558|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|||10:50am||1.3|-1.0|0.7558
82399362|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.1824|TWO_SIDED|95.0|-1.9|0.4|||Mixed Models Analysis|||10:50am||0.4|-1.9|0.1824
82399363|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.3323|TWO_SIDED|95.0|-1.7|0.6|||Mixed Models Analysis|||10:50am||0.6|-1.7|0.3323
82399364|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0413|TWO_SIDED|95.0|-2.4|0.0|||Mixed Models Analysis|||10:50am||0.0|-2.4|0.0413
82399365|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.0925|TWO_SIDED|95.0|-2.2|0.2|||Mixed Models Analysis|||10:50am||0.2|-2.2|0.0925
82399366|NCT01096680|164508067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.7133|TWO_SIDED|95.0|-1.4|0.9|||Mixed Models Analysis|||10:50am||0.9|-1.4|0.7133
82399367|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-36.6|-16.5|||Mixed Models Analysis|||||-16.5|-36.6|<0.0001
82445385|NCT03480009|164599221|OTHER|||||||0.99|||||||Wald Chi Square|Wald Chi Square from mixed effects linear regression||||||.99
82399368|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.4|||<|0.0001|TWO_SIDED|95.0|-45.5|-25.4|||Mixed Models Analysis|||||-25.4|-45.5|<0.0001
82399369|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.7|||<|0.0001|TWO_SIDED|95.0|-36.7|-16.6|||Mixed Models Analysis|||||-16.6|-36.7|<0.0001
82399370|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-36.6|-16.5|||Mixed Models Analysis|||||-16.5|-36.6|<0.0001
82399371|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9945|TWO_SIDED|95.0|-10.1|10.0|||Mixed Models Analysis|||||10.0|-10.1|0.9945
82399372|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9||||0.0814|TWO_SIDED|95.0|-18.9|1.1|||Mixed Models Analysis|||||1.1|-18.9|0.0814
82399373|NCT01096680|164508068|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.9743|TWO_SIDED|95.0|-10.2|9.9|||Mixed Models Analysis|||||9.9|-10.2|0.9743
82399374|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6||||0.0544|TWO_SIDED|95.0|-19.4|0.2|||Mixed Models Analysis|||9:15pm||0.2|-19.4|0.0544
82399375|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8||||0.441|TWO_SIDED|95.0|-13.6|6.0|||Mixed Models Analysis|||9:15pm||6.0|-13.6|0.4410
82399376|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1||||0.1046|TWO_SIDED|95.0|-17.9|1.7|||Mixed Models Analysis|||9:15pm||1.7|-17.9|0.1046
82399377|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.6467|TWO_SIDED|95.0|-12.0|7.5|||Mixed Models Analysis|||9:15pm||7.5|-12.0|0.6467
82399378|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4||||0.1971|TWO_SIDED|95.0|-16.2|3.4|||Mixed Models Analysis|||9:15pm||3.4|-16.2|0.1971
82399379|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.9052|TWO_SIDED|95.0|-10.4|9.2|||Mixed Models Analysis|||9:15pm||9.2|-10.4|0.9052
82399380|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8||||0.242|TWO_SIDED|95.0|-15.6|4.0|||Mixed Models Analysis|||9:15pm||4.0|-15.6|0.2420
82530233|NCT04424290|164756691|OTHER||Adjusted mean difference|-0.0109|STANDARD_ERROR_OF_MEAN|0.0145|||TWO_SIDED|95.0|-0.0412|0.0195|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.0195|-0.0412|
82530234|NCT04424290|164756692|OTHER||Adjusted mean difference|-0.0228|STANDARD_ERROR_OF_MEAN|0.0603|||TWO_SIDED|95.0|-0.1477|0.1021|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||0.1021|-0.1477|
82576137|NCT05262751|164861983|OTHER||gMean Ratio|31.38|||||TWO_SIDED|90.0|25.71|38.3|||||gMean ratio: MR2-2/R. Intra-individual Geometric coefficient of variation \[%\] = 29.3.|Analysis of Variance (ANOVA) model (logarithmic scale) with the effects: sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||38.30|25.71|
82645457|NCT03583931|165006340|SUPERIORITY|||||||0.61|||||||ANOVA|||||||0.61
82399381|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.7||||0.0001|TWO_SIDED|95.0|-25.1|-8.3|||Mixed Models Analysis|||11:15pm||-8.3|-25.1|0.0001
82399382|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.3||||0.4321|TWO_SIDED|95.0|-5.0|11.6|||Mixed Models Analysis|||11:15pm||11.6|-5.0|0.4321
82399383|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.4|||<|0.0001|TWO_SIDED|95.0|-26.7|-10.1|||Mixed Models Analysis|||11:15pm||-10.1|-26.7|<0.0001
82399384|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.6999|TWO_SIDED|95.0|-6.7|9.9|||Mixed Models Analysis|||11:15pm||9.9|-6.7|0.6999
82399385|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.1|||<|0.0001|TWO_SIDED|95.0|-26.4|-9.8|||Mixed Models Analysis|||11:15pm||-9.8|-26.4|<0.0001
82399386|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9||||0.6566|TWO_SIDED|95.0|-6.4|10.2|||Mixed Models Analysis|||11:15pm||10.2|-6.4|0.6566
82399387|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|||<|0.0001|TWO_SIDED|95.0|-28.3|-11.7|||Mixed Models Analysis|||11:15pm||-11.7|-28.3|<0.0001
82399388|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.2|||<|0.0001|TWO_SIDED|95.0|-36.1|-14.3|||Mixed Models Analysis|||1:15am||-14.3|-36.1|<0.0001
82399389|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.7824|TWO_SIDED|95.0|-12.4|9.4|||Mixed Models Analysis|||1:15am||9.4|-12.4|0.7824
82399390|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.1|||<|0.0001|TWO_SIDED|95.0|-36.0|-14.3|||Mixed Models Analysis|||1:15am||-14.3|-36.0|<0.0001
82399391|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.7867|TWO_SIDED|95.0|-12.4|9.4|||Mixed Models Analysis|||1:15am||9.4|-12.4|0.7867
82399392|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.5|||<|0.0001|TWO_SIDED|95.0|-37.4|-15.6|||Mixed Models Analysis|||1:15am||-15.6|-37.4|<0.0001
82399393|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9||||0.6029|TWO_SIDED|95.0|-13.7|8.0|||Mixed Models Analysis|||1:15am||8.0|-13.7|0.6029
82399394|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.6|||<|0.0001|TWO_SIDED|95.0|-34.5|-12.8|||Mixed Models Analysis|||1:15am||-12.8|-34.5|<0.0001
82399395|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.1|||<|0.0001|TWO_SIDED|95.0|-50.1|-24.1|||Mixed Models Analysis|||3:15am||-24.1|-50.1|<0.0001
82399396|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.8684|TWO_SIDED|95.0|-11.9|14.1|||Mixed Models Analysis|||3:15am||14.1|-11.9|0.8684
82399397|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.3|||<|0.0001|TWO_SIDED|95.0|-66.3|-40.3|||Mixed Models Analysis|||3:15am||-40.3|-66.3|<0.0001
82399398|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.1||||0.0228|TWO_SIDED|95.0|-28.1|-2.1|||Mixed Models Analysis|||3:15am||-2.1|-28.1|0.0228
82399399|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.0|||<|0.0001|TWO_SIDED|95.0|-53.0|-27.0|||Mixed Models Analysis|||3:15am||-27.0|-53.0|<0.0001
82399400|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.7852|TWO_SIDED|95.0|-14.8|11.2|||Mixed Models Analysis|||3:15am||11.2|-14.8|0.7852
82399401|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.2|||<|0.0001|TWO_SIDED|95.0|-51.2|-25.2|||Mixed Models Analysis|||3:15am||-25.2|-51.2|<0.0001
82399402|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.2|||<|0.0001|TWO_SIDED|95.0|-51.3|-25.1|||Mixed Models Analysis|||5:15am||-25.1|-51.3|<0.0001
82399403|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.9||||0.5528|TWO_SIDED|95.0|-9.1|17.0|||Mixed Models Analysis|||5:15am||17.0|-9.1|0.5528
82399404|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.9|||<|0.0001|TWO_SIDED|95.0|-67.0|-40.9|||Mixed Models Analysis|||5:15am||-40.9|-67.0|<0.0001
82399405|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.8||||0.0747|TWO_SIDED|95.0|-24.9|1.2|||Mixed Models Analysis|||5:15am||1.2|-24.9|0.0747
82399406|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.2|||<|0.0001|TWO_SIDED|95.0|-62.2|-36.1|||Mixed Models Analysis|||5:15am||-36.1|-62.2|<0.0001
82399407|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1||||0.2868|TWO_SIDED|95.0|-20.1|6.0|||Mixed Models Analysis|||5:15am||6.0|-20.1|0.2868
82399408|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.1|||<|0.0001|TWO_SIDED|95.0|-55.2|-29.1|||Mixed Models Analysis|||5:15am||-29.1|-55.2|<0.0001
82399409|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.6||||0.0007|TWO_SIDED|95.0|-59.1|-16.2|||Mixed Models Analysis|||7:15am||-16.2|-59.1|0.0007
82399410|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.9089|TWO_SIDED|95.0|-22.7|20.2|||Mixed Models Analysis|||7:15am||20.2|-22.7|0.9089
82399411|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.9|||<|0.0001|TWO_SIDED|95.0|-74.3|-31.4|||Mixed Models Analysis|||7:15am||-31.4|-74.3|<0.0001
82399412|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5||||0.1307|TWO_SIDED|95.0|-37.9|5.0|||Mixed Models Analysis|||7:15am||5.0|-37.9|0.1307
82399413|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.3||||0.0011|TWO_SIDED|95.0|-57.7|-14.8|||Mixed Models Analysis|||7:15am||-14.8|-57.7|0.0011
82399414|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9903|TWO_SIDED|95.0|-21.3|21.6|||Mixed Models Analysis|||7:15am||21.6|-21.3|0.9903
82645458|NCT03583931|165006341|SUPERIORITY|||||||0.84|||||||ANOVA|||||||0.84
82399415|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.4||||0.001|TWO_SIDED|95.0|-57.8|-14.9|||Mixed Models Analysis|||7:15am||-14.9|-57.8|0.0010
82399416|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.4||||0.1655|TWO_SIDED|95.0|-51.7|9.0|||Mixed Models Analysis|||9:15am||9.0|-51.7|0.1655
82399417|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.8975|TWO_SIDED|95.0|-32.4|28.5|||Mixed Models Analysis|||9:15am||28.5|-32.4|0.8975
82399418|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.2||||0.0199|TWO_SIDED|95.0|-66.5|-5.8|||Mixed Models Analysis|||9:15am||-5.8|-66.5|0.0199
82399419|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.8||||0.2785|TWO_SIDED|95.0|-47.2|13.7|||Mixed Models Analysis|||9:15am||13.7|-47.2|0.2785
82399420|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3||||0.5048|TWO_SIDED|95.0|-40.6|20.1|||Mixed Models Analysis|||9:15am||20.1|-40.6|0.5048
82399421|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1||||0.5533|TWO_SIDED|95.0|-21.3|39.6|||Mixed Models Analysis|||9:15am||39.6|-21.3|0.5533
82399422|NCT01096680|164508069|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.4||||0.2098|TWO_SIDED|95.0|-49.9|11.1|||Mixed Models Analysis|||9:15am||11.1|-49.9|0.2098
82399423|NCT02697734|164508070|SUPERIORITY||Odds Ratio (OR)|43.4|||<|0.0001|TWO_SIDED|95.0|7.06|343.19|||Cochran-Mantel-Haenszel|||||343.19|7.06|<.0001
82399424|NCT01778751|164508168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.012|TWO_SIDED|95.0|-1.7|-0.2|||Mixed Models Analysis|||Comparison at 3 months||-0.2|-1.7|0.012
82399425|NCT01778751|164508168|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.05|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||Comparison at 6 months||-0.0|-2.0|0.050
82399426|NCT01778751|164508169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.303|TWO_SIDED|95.0|-2.7|8.4|||Mixed Models Analysis|||Comparison at 3 months, Scale is 0-100 where a higher score is a better outcome.||8.4|-2.7|0.303
82399427|NCT01778751|164508169|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.7||||0.027|TWO_SIDED|95.0|0.9|14.4|||Mixed Models Analysis|||Comparison at 6 months, Scale is 0-100 where a higher score is a better outcome.||14.4|0.9|0.027
82399428|NCT01778751|164508170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.83|TWO_SIDED|95.0|0.35|2.34|||Generalized estimating equation (GEE)|||||2.34|0.35|0.830
82399429|NCT01778751|164508170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.97|TWO_SIDED|95.0|0.33|3.19|||Generalized Estimating Equation (GEE)|||Comparison at 6 months||3.19|0.33|0.970
82399430|NCT01778751|164508171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.428|TWO_SIDED|95.0|-3.3|1.4|||Mixed Models Analysis|||Comparison at 3 months. Scale is 0-27 where a lower score is a better outcome, values were dichotomized to indicate whether or not the patient was depressed.||1.4|-3.3|0.428
82399431|NCT01778751|164508171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1||||0.397|TWO_SIDED|95.0|-1.4|3.6|||Mixed Models Analysis|||Comparison at 6 months. Scale is 0-27 where a lower score is a better outcome, values were dichotomized to indicate whether or not the patient was depressed.||3.6|-1.4|0.397
82399432|NCT00822328|164508172|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Bacterial colonies were counted for study group and placebo group on week 0, 1, 2, 3, 4, 5, 6. Significant differences between both experimental groups at the same time were determined with one-way ANOVA (significance level p = 0.05).||||<0.05
82645459|NCT03583931|165006346|SUPERIORITY|||||||0.48|||||||ANOVA|||||||0.48
82645460|NCT03583931|165006347|SUPERIORITY|||||||0.25|||||||ANOVA|||||||0.25
82399433|NCT00822328|164508174|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Bacterial colonies were counted for study group and placebo group on week 0, 1, 2, 3, 4, 5, 6. Significant differences between both experimental groups at the same time were determined with one-way ANOVA (significance level p = 0.05).||||<0.05
82399434|NCT01420016|164508195|EQUIVALENCE|The analysis used a time-by-condition mixed model to estimate the annual rate of change in post-index CV risk values by treatment group. The models included fixed effects for study arm (CDS vs. UC), time (years since index), and study-arm-by-time comparing the rate of change in CDS versus UC and a random clinic intercept. The intervention effect was the difference in rate of change in CDS versus UC clinics, with the study-arm-by-time interaction assessing statistical significance (P\<0.05).|Slope Difference (Net)|-2.25|||<|0.05|TWO_SIDED|95.0|-3.45|-1.04||A priori power analysis (power=.80, α2=.05) estimated detectable group difference in CVR at 1 year of \~2-3%, assuming 18 clinics, 1000 patients per clinic (actual 400), 3 CVR per patient (actual 2.3), and ICC=.01-03 (actual .019). p-value calculated.|Mixed Models Analysis||The intervention effect was the difference in annualized rates of change (slope) in CV risk in CDS versus UC clinics, with the study-arm-by-time interaction assessing statistical significance (P\<0.05).|||-1.04|-3.45|<0.05
82399435|NCT00727090|164508217|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence|||||<|0.05|||||||t-test, 2 sided|||Null Hypothesis: Change in serum sodium from baseline is not different between groups||||<0.05
82399436|NCT03077607|164508288|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant % coefficient of variation (CV) of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|139.92|||||TWO_SIDED|90.0|113.26|172.87||||||Confidence interval (CI): 90 percent (%) CI on geometric least squares (LS) mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using analysis of variance (ANOVA)||172.87|113.26|
82399437|NCT03077607|164508289|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|150.71|||||TWO_SIDED|90.0|136.47|166.43||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||166.43|136.47|
82399438|NCT03077607|164508290|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|156.24|||||TWO_SIDED|90.0|137.58|177.42||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with itraconazole and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||177.42|137.58|
82399439|NCT03077607|164508291|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|136.62|||||TWO_SIDED|90.0|103.2|180.87||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||180.87|103.20|
82399440|NCT03077607|164508292|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|105.37|||||TWO_SIDED|90.0|98.04|113.24||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in Combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||113.24|98.04|
82399441|NCT03077607|164508293|EQUIVALENCE|Sample size of 15 participants was selected based on the estimated within participant %CV of 42% and precision/half width of 90% CI for Test Reference comparison on log scale of 0.259.|Geometric LS Mean Ratio|102.04|||||TWO_SIDED|90.0|94.02|110.74||||||CI: 90% CI on geometric LS mean ratio (Test/Reference), test is talazoparib in Combination with rifampin and reference is talazoparib alone. Statistical data was calculated by using ANOVA.||110.74|94.02|
82399442|NCT03836209|164508324|SUPERIORITY||Proportion Difference|-0.071||||0.366|TWO_SIDED|90.0|-0.205|0.062||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.062|-0.205|0.366
82399443|NCT03836209|164508325|SUPERIORITY||Proportion Difference|-0.059||||0.446|TWO_SIDED|90.0|-0.191|0.073||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.073|-0.191|0.446
82399444|NCT03836209|164508326|SUPERIORITY||Proportion Difference|0.047||||0.539|TWO_SIDED|90.0|-0.084|0.178||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.178|-0.084|0.539
82399445|NCT03836209|164508327|SUPERIORITY||Proportion Difference|0.131||||0.042|TWO_SIDED|90.0|0.02|0.242||The threshold for statistical significance was p = 0.10.|Fisher Exact||Treatment Difference = Arm A - Arm B|||0.242|0.020|0.042
82399446|NCT01753115|164508332|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margin is 0.80 - 1.25.|Ratio of AUC|0.887|||||TWO_SIDED|90.0|0.831|0.948||||||Analysis of Ciprofloxacin Area Under the Curve at Day 5 and Day 44.||0.948|0.831|
82399447|NCT01753115|164508332|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margin is 0.80 - 1.25.|Ratio of Cmax|0.944|||||TWO_SIDED|90.0|0.852|1.046||||||Analysis of Cmax at Day 5 and Day 44||1.046|0.852|
82399448|NCT01753115|164508333|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin is 0.67.|Ratio of GMT|1.267|||||TWO_SIDED|95.0|0.898|1.787||||||||1.787|0.898|
82399449|NCT03224624|164508407|EQUIVALENCE|Comparing baseline-\>12month SBP change (mean difference) between the two groups.|Mean Difference (Net)|-1.35|STANDARD_ERROR_OF_MEAN|3.8||0.72|TWO_SIDED|||||p\<0.05 considered significant.|t-test, 2 sided||direction of comparison: (self-management change over 12 months) - (usual care change over 12 months) in SBP|t- tests were done to compare group mean differences between self-management and usual care and within groups Mean differences were calculated by subtracting 12-month blood pressure from baseline blood pressure for each participant. t-tests were done to compare mean differences between the two groups.||||0.72
82399450|NCT03224624|164508407|EQUIVALENCE|Comparing baseline-\>12month DBP change (mean difference) between the two groups.|Mean Difference (Net)|-3.75|STANDARD_ERROR_OF_MEAN|2.55||0.15|TWO_SIDED||||||t-test, 2 sided||direction of comparison: (self-management change over 12 months) - (usual care change over 12 months) in DBP|Mean differences were calculated by subtracting 12-month blood pressure from baseline blood pressure for each participant. t-tests were done to compare mean differences between the two groups.||||0.15
82530235|NCT04424290|164756693|OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-8.1|5.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||5.5|-8.1|
82530236|NCT04424290|164756694|OTHER||Adjusted mean difference|4.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-7.3|16.2|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||16.2|-7.3|
82530237|NCT04424290|164756695|OTHER||Adjusted mean difference|-3.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-9.6|3.0|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||3.0|-9.6|
82399451|NCT03224624|164508407|EQUIVALENCE|Comparing baseline-\>12month SBP change within self-management group (null hypothesis no change).|Mean Difference (Net)|-6.95||||0.01|TWO_SIDED||||||t-test, 2 sided||(12-month SBP)-(baseline SBP) for self-management group (as given in table)|change in SBP from baseline to 12-months within self-management group.||||0.01
82399452|NCT03224624|164508407|EQUIVALENCE|Comparing baseline-\>12month SBP change within usual care group (null hypothesis no change).|Mean Difference (Net)|-5.59|||<|0.05|TWO_SIDED||||||t-test, 2 sided||(12-month SBP)-(baseline SBP) for usual care group (as given in table)|Comparing baseline-\>12month SBP change within usual care group.||||<0.05
82399453|NCT03224624|164508407|EQUIVALENCE|Comparing baseline-\>12month DBP change within self-management group (null hypothesis no change).|Mean Difference (Net)|-5.51|||<|0.01|TWO_SIDED||||||t-test, 2 sided||(12-month DBP)-(baseline DBP) for self-management group (as given in table)|change in DBP from baseline to 12-months within self-management group.||||<0.01
82399454|NCT03224624|164508407|EQUIVALENCE|change in DBP from baseline to 12-months within usual care group.|Mean Difference (Net)|-1.76||||0.34|TWO_SIDED||||||t-test, 2 sided||(12-month DBP)-(baseline DBP) for usual care group (as given in table)|||||0.34
82399455|NCT01884545|164508410|SUPERIORITY|||||||0.1073|||||||Regression, Linear|||||||0.1073
82399456|NCT01884545|164508410|SUPERIORITY|||||||0.0615|||||||Regression, Linear|||||||0.0615
82399457|NCT01884545|164508411|SUPERIORITY|||||||0.6732|||||||Regression, Linear|||||||0.6732
82399458|NCT01884545|164508411|SUPERIORITY|||||||0.3754|||||||Regression, Linear|||||||0.3754
82399459|NCT01884545|164508412|SUPERIORITY||Odds Ratio (OR)|2.853||||0.0073|TWO_SIDED|95.0|1.326|6.139|||Regression, Logistic|||||6.139|1.326|0.0073
82399460|NCT01884545|164508412|SUPERIORITY||Odds Ratio (OR)|1.045||||0.9068|TWO_SIDED|95.0|0.5|2.183|||Regression, Logistic|||||2.183|0.5|0.9068
82530238|NCT04424290|164756696|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|-7.3|6.1|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||6.1|-7.3|
82530239|NCT04424290|164756697|OTHER||Adjusted mean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-8.7|3.1|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||3.1|-8.7|
82530240|NCT04424290|164756698|OTHER||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|2.5|||TWO_SIDED|95.0|-4.9|5.4|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||5.4|-4.9|
82645461|NCT03583931|165006348|SUPERIORITY|||||||0.45|||||||ANOVA|||||||0.45
82645462|NCT03583931|165006349|SUPERIORITY|||||||0.87|||||||ANOVA|||||||0.87
82399461|NCT01884545|164508413|SUPERIORITY||Odds Ratio (OR)|1.333||||0.7822|TWO_SIDED|95.0|0.173|10.254|||Regression, Logistic|||||10.254|0.173|0.7822
82399462|NCT01884545|164508413|SUPERIORITY||Odds Ratio (OR)|1.333||||0.7822|TWO_SIDED|95.0|0.173|10.254|||Regression, Logistic|||||10.254|0.173|0.7822
82399463|NCT01884545|164508414|SUPERIORITY|||||||0.7985|||||||Regression, Linear|||||||0.7985
82399464|NCT01884545|164508414|SUPERIORITY|||||||0.1642|||||||Regression, Linear|||||||0.1642
82399465|NCT01884545|164508415|SUPERIORITY|||||||0.8027|||||||Regression, Linear|||||||0.8027
82399466|NCT01884545|164508415|SUPERIORITY|||||||0.7751|||||||Regression, Linear|||||||0.7751
82445386|NCT03480009|164599221|OTHER|||||||0.56|||||||Wald Chi Square|P-value from Wald chi-square from mixed effects linear regression||||||.56
82399467|NCT01884545|164508416|SUPERIORITY|||||||0.5557|||||||Regression, Linear|||||||0.5557
82399468|NCT01884545|164508416|SUPERIORITY|||||||0.7834|||||||Regression, Linear|||||||0.7834
82399469|NCT01884545|164508417|SUPERIORITY|||||||0.1439|||||||Regression, Linear|||||||0.1439
82399470|NCT01884545|164508417|SUPERIORITY|||||||0.2275|||||||Regression, Linear|||||||0.2275
82399471|NCT01884545|164508418|SUPERIORITY|||||||0.7639|||||||Regression, Linear|||||||0.7639
82399472|NCT01884545|164508418|SUPERIORITY|||||||0.9999|||||||Regression, Linear|||||||0.9999
82399473|NCT01884545|164508419|SUPERIORITY|||||||0.4673|||||||Regression, Linear|||||||0.4673
82399474|NCT01884545|164508419|SUPERIORITY|||||||0.2297|||||||Regression, Linear|||||||0.2297
82399475|NCT01884545|164508420|SUPERIORITY|||||||0.2192|||||||Regression, Linear|||||||0.2192
82399476|NCT01884545|164508420|SUPERIORITY|||||||0.9062|||||||Regression, Linear|||||||0.9062
82399477|NCT01884545|164508421|SUPERIORITY|||||||0.1466|||||||Regression, Linear|||||||0.1466
82399478|NCT01884545|164508421|SUPERIORITY|||||||0.207|||||||Regression, Linear|||||||0.2070
82399479|NCT01884545|164508422|SUPERIORITY|||||||0.6289|||||||Regression, Linear|||||||0.6289
82399480|NCT01884545|164508422|SUPERIORITY|||||||0.9631|||||||Regression, Linear|||||||0.9631
82399481|NCT01884545|164508423|SUPERIORITY|||||||0.2313|||||||Regression, Linear|||||||0.2313
82399482|NCT01884545|164508423|SUPERIORITY|||||||0.8029|||||||Regression, Linear|||||||0.8029
82399483|NCT01884545|164508424|SUPERIORITY|||||||0.071|||||||Regression, Linear|||||||0.0710
82399484|NCT01884545|164508424|SUPERIORITY|||||||0.8069|||||||Regression, Linear|||||||0.8069
82399485|NCT01884545|164508425|SUPERIORITY|||||||0.0512|||||||Chi-squared|||||||0.0512
82399486|NCT01884545|164508425|SUPERIORITY|||||||0.4478|||||||Chi-squared|||||||0.4478
82399487|NCT01884545|164508428|SUPERIORITY|||||||0.7923|||||||Regression, Linear|||Perceived Risk for CHD, Consequences subscale||||0.7923
82399488|NCT01884545|164508428|SUPERIORITY|||||||0.0636|||||||Regression, Linear|||Perceived Risk for CHD, Personal control||||0.0636
82399489|NCT01884545|164508428|SUPERIORITY|||||||0.2063|||||||Regression, Linear|||Perceived Risk for CHD, Treatment control||||0.2063
82399490|NCT01884545|164508428|SUPERIORITY|||||||0.2529|||||||Regression, Linear|||Perceived Risk for CHD, Emotional representations||||0.2529
82399491|NCT01884545|164508428|SUPERIORITY|||||||0.1085|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), Consequences subscale||||0.1085
82399492|NCT01884545|164508428|SUPERIORITY|||||||0.337|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), personal control subscale||||0.3370
82645463|NCT00663039|165006360|SUPERIORITY|||||||0.758|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Affect Scores between Oxytocin and Placebo Arms||||0.758
82645464|NCT00663039|165006360|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Social Skill scores between Oxytocin and Placebo arms||||0.779
82399493|NCT01884545|164508428|SUPERIORITY|||||||0.3483|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), treatment control subscale||||0.3483
82399494|NCT01884545|164508428|SUPERIORITY|||||||0.5384|||||||Regression, Linear|||Perceived Risk for coronary heart disease (CHD), emotional representations||||0.5384
82399495|NCT01884545|164508429|SUPERIORITY|||||||0.7447|||||||Regression, Linear|||Perceived Risk for T2D, Consequences subscale||||0.7447
82399496|NCT01884545|164508429|SUPERIORITY|||||||0.6378|||||||Regression, Linear|||Perceived Risk for T2D, Personal control||||0.6378
82399497|NCT01884545|164508429|SUPERIORITY|||||||0.3209|||||||Regression, Linear|||Perceived Risk for T2D, Treatment control||||0.3209
82399498|NCT01884545|164508429|SUPERIORITY|||||||0.0058|||||||Regression, Linear|||Perceived Risk for T2D, Emotional representations||||0.0058
82399499|NCT01884545|164508429|SUPERIORITY|||||||0.3769|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), Consequences subscale||||0.3769
82399500|NCT01884545|164508429|SUPERIORITY|||||||0.0872|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), personal control||||0.0872
82399501|NCT01884545|164508429|SUPERIORITY|||||||0.4302|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), treatment control||||0.4302
82399502|NCT01884545|164508429|SUPERIORITY|||||||0.4133|||||||Regression, Linear|||Perceived Risk for type 2 diabetes (T2D), emotional representations||||0.4133
82399503|NCT01884545|164508430|SUPERIORITY|||||||0.3106|||||||Regression, Linear|||||||0.3106
82399504|NCT01884545|164508430|SUPERIORITY|||||||0.7087|||||||Regression, Linear|||||||0.7087
82399505|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|1.034||||0.9259|TWO_SIDED|95.0|0.511|2.094|||Regression, Logistic|||Stages of Change, Weight reduction||2.094|0.511|0.9259
82399506|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|2.252||||0.0082|TWO_SIDED|95.0|1.234|4.111|||Regression, Logistic|||Stages of Change, Exercise behavior||4.111|1.234|0.0082
82399507|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|0.423||||0.2954|TWO_SIDED|95.0|0.084|2.12|||Regression, Logistic|||Stages of Change, Smoking behavior||2.120|0.084|0.2954
82399508|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|1.216||||0.5669|TWO_SIDED|95.0|0.622|2.376|||Regression, Logistic|||Stages of Change, Healthier eating behavior||2.376|0.622|0.5669
82399509|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|0.622||||0.121|TWO_SIDED|95.0|0.341|1.134|||Regression, Logistic|||Stages of Change, Stress behavior||1.134|0.341|0.1210
82399510|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|0.928||||0.8355|TWO_SIDED|95.0|0.461|1.872|||Regression, Logistic|||Weight reduction||1.872|0.461|0.8355
82399511|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0459|TWO_SIDED|95.0|1.011|3.311|||Regression, Logistic|||Exercise behavior||3.311|1.011|0.0459
82399512|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|0.563||||0.465|TWO_SIDED|95.0|0.121|2.629|||Regression, Logistic|||Smoking behavior||2.629|0.121|0.4650
82399513|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8303|TWO_SIDED|95.0|0.478|1.808|||Regression, Logistic|||Healthier eating behavior||1.808|0.478|0.8303
82399514|NCT01884545|164508431|SUPERIORITY||Odds Ratio (OR)|1.347||||0.3254|TWO_SIDED|95.0|0.744|2.439|||Regression, Logistic|||Stress behavior||2.439|0.744|0.3254
82399515|NCT01884545|164508432|SUPERIORITY|||||||0.0174|||||||Regression, Linear|||||||0.0174
82399516|NCT01884545|164508432|SUPERIORITY|||||||0.8694|||||||Regression, Linear|||||||0.8694
82399517|NCT01884545|164508433|SUPERIORITY|||||||0.4768|||||||Regression, Linear|||||||0.4768
82399518|NCT01884545|164508433|SUPERIORITY|||||||0.8452|||||||Regression, Linear|||||||0.8452
82399519|NCT01884545|164508434|SUPERIORITY||Odds Ratio (OR)|1.591||||0.5589|TWO_SIDED|95.0|0.335|7.544|||Regression, Logistic|||||7.544|0.335|0.5589
82399520|NCT01424241|164508435|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|300.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||None available.||||<0.05
82399521|NCT01424241|164508435|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<.05
82399522|NCT00073008|164508455|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|34.5||||||95.0|13.7|55.4|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||55.4|13.7|
82445387|NCT03480009|164599222|OTHER|||||||0.07|||||||Fisher Exact|||||||.07
82445388|NCT03480009|164599222|OTHER|||||||0.5|||||||Fisher Exact|||||||.50
82399523|NCT00073008|164508455|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|19.7||||||95.0|2.9|36.4|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||36.4|2.9|
82399524|NCT00073008|164508456|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|27.1||||||95.0|11.9|42.3|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||42.3|11.9|
82399525|NCT00073008|164508456|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate|18.3||||||95.0|3.9|32.6|||||Percentage of surviving participants who were progression free 4 months after the date of randomization|||32.6|3.9|
82399526|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.58|||||||t-test, 2 sided|||15 minutes after exposure||||0.58
82530241|NCT04424290|164756699|OTHER||Adjusted mean difference|2.6|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|-2.7|7.9|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||7.9|-2.7|
82530242|NCT04424290|164756700|OTHER||Adjusted mean difference|7.7|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-1.2|16.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||16.5|-1.2|
82530243|NCT04424290|164756701|OTHER||Adjusted mean difference|13.8|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-2.3|29.8|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||29.8|-2.3|
82530244|NCT04424290|164756702|OTHER||Adjusted mean difference|6.8|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-0.9|14.5|||||Difference calculated as \[BI\]-\[Sham\].|The Mixed model with repeated measurements (MMRM) model included the fixed, categorical effects of treatment at each visit and the fixed continuous effects of baseline at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors.||14.5|-0.9|
82530245|NCT02444988|164756716|SUPERIORITY||Odds Ratio (OR)|0.87|||<|0.05|TWO_SIDED|95.0|0.77|0.99|||Regression, Logistic|||||0.99|0.77|<0.05
82530246|NCT02444988|164756717|SUPERIORITY||Odds Ratio (OR)|0.84|||<|0.05|TWO_SIDED|95.0|0.73|0.97|||Regression, Logistic|||||0.97|0.73|<0.05
82530247|NCT02791490|164756718|SUPERIORITY||Difference in Least Squares Means|-0.41|||<|0.001|TWO_SIDED|95.0|-0.59|-0.23|||Longitudinal Data Analysis|||||-0.23|-0.59|<0.001
82530248|NCT02791490|164756719|OTHER|95% CI|Difference in % vs Placebo|-1.7|||||TWO_SIDED|95.0|-10.8|7.4|||Miettinen and Nurminen method|||||7.4|-10.8|
82530249|NCT02791490|164756721|SUPERIORITY||Relative Risk|1.7||||0.002|TWO_SIDED|95.0|1.2|2.5|||Miettinen and Nurminen method|||||2.5|1.2|0.002
82399527|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||1 hour and 15 minutes after exposure||||0.39
82530250|NCT02791490|164756722|SUPERIORITY||Difference in Least Squares Means|-12.4||||0.002|TWO_SIDED|95.0|-20.2|-4.6|||Longitudinal Data Analysis|||||-4.6|-20.2|0.002
82576138|NCT00760747|164861996|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|-0.7|STANDARD_ERROR_OF_MEAN|1.7||0.692|TWO_SIDED|95.0|-4.0|2.6|||Mixed Models Analysis|||||2.6|-4.0|0.692
82399528|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.51|||||||t-test, 2 sided|||2 Hours 15 minutes after exposure||||.51
82399529|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||3 hours, 15 minutes after exposure||||.36
82399530|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||1 day after exposure||||.86
82399531|NCT00808470|164508471|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||1 week after exposure||||.24
82445389|NCT00752726|164599282|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.263|STANDARD_ERROR_OF_MEAN|0.115||0.0244|TWO_SIDED|95.0|0.035|0.491||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for treatment, baseline VAT and center effect using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined. For this primary analysis, only one statistical test was performed and therefore, no multiple comparison adjustment was done.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||0.491|0.035|0.0244
82530251|NCT01189890|164756725|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.4%.|Difference in LS Means|0.19|||||TWO_SIDED|95.0|0.03|0.34|||ANCOVA|Controlled for treatment, estimated glomerular filtration rate (eGFR) stratum, age stratum, and baseline HbA1C.||||0.34|0.03|
82530252|NCT01189890|164756726|SUPERIORITY_OR_OTHER||Difference in Percent Incidence|-3.9||||0.009|TWO_SIDED|95.0|-7.5|-1.2|||Miettinen & Nurminen|Stratified by estimated glomerular filtration rate (eGFR) stratum and age stratum.||||-1.2|-7.5|0.009
82530253|NCT01189890|164756729|SUPERIORITY_OR_OTHER||Difference in LS Means|6.7|||||TWO_SIDED|95.0|0.7|12.7|||ANCOVA|Controlled for treatment, eGFR stratum, age stratum, and baseline FPG.||||12.7|0.7|
82530254|NCT01189890|164756730|SUPERIORITY_OR_OTHER||Relative Risk|0.7|||||TWO_SIDED|95.0|0.6|0.9|||Miettinen & Nurminen|Stratified by eGFR stratum and age stratum.||||0.9|0.6|
82530255|NCT01189890|164756731|SUPERIORITY_OR_OTHER||Relative Risk|0.4|||||TWO_SIDED|95.0|0.3|0.7|||Miettinen & Nurminen|Stratified by eGFR stratum and age stratum.||||0.7|0.3|
82530256|NCT01189890|164756732|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.7||||0.011|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|Controlled for treatment, eGFR stratum, age stratum, and baseline body weight.||||-0.2|-1.3|0.011
82576139|NCT00760747|164861997|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.456|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|0.456
82576140|NCT00760747|164861998|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.517|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|0.517
82645465|NCT00663039|165006361|SUPERIORITY|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 1 scores between Oxytocin and Placebo Arms||||0.578
82645466|NCT00663039|165006361|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 2 scores between Oxytocin and Placebo Arms||||0.28
82645467|NCT00663039|165006361|SUPERIORITY|||||||0.707|||||||Wilcoxon (Mann-Whitney)|||Comparison of HVLT Trial 3 scores between Oxytocin and Placebo Arms||||0.707
82645468|NCT00663039|165006362|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||Comparison of the total amount of money offered during the trust game between the Oxytocin and Placebo arms||||0.391
82645469|NCT00663039|165006363|SUPERIORITY|||||||0.559|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Reaction Time between Oxytocin and Placebo arms.||||0.559
82645470|NCT00663039|165006363|SUPERIORITY|||||||0.858|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Reaction Time between Oxytocin and Placebo arms.||||0.858
82645471|NCT00663039|165006363|SUPERIORITY|||||||0.514|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms Reaction Time between Oxytocin and Placebo arms||||0.514
82645472|NCT00663039|165006363|SUPERIORITY|||||||0.088|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms Reaction Time between Oxytocin and Placebo arms||||0.088
82645473|NCT00663039|165006364|SUPERIORITY|||||||0.296|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Hits between Oxytocin and Placebo arms.||||0.296
82645474|NCT00663039|165006364|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Oxytocin and Placebo arms.||||0.136
82645475|NCT00663039|165006364|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms between Oxytocin and Placebo arms.||||0.47
82645476|NCT00663039|165006364|SUPERIORITY|||||||0.702|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Oxytocin and Placebo arms.||||0.702
82645477|NCT00663039|165006365|SUPERIORITY|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||Comparison of Brief Assessments of Cognition for Schizophrenia scores between the Oxytocin and Placebo arms.||||0.451
82645478|NCT00663039|165006366|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.9
82445390|NCT00752726|164599283|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.172|STANDARD_ERROR_OF_MEAN|0.0834||0.0415|TWO_SIDED|95.0|0.007|0.337||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline VAT and center effects using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 12 between the two treatment groups.||0.337|0.007|0.0415
82645479|NCT00663039|165006367|SUPERIORITY|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||Comparison of Reading the Mind in the Eyes total scores between Oxytocin and Placebo arms||||0.946
82645480|NCT00663039|165006368|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition Total scores between Oxytocin and Placebo arms||||0.016
82645481|NCT00663039|165006368|SUPERIORITY|||||||0.185|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition Hits between Oxytocin and Placebo arms||||0.185
82645482|NCT00663039|165006368|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||Comparison the Facial Affect Recognition False Alarms between Oxytocin and Placebo arms||||0.404
82645483|NCT05016765|165006375|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|paired t-test||||||<0.001
82645484|NCT05016765|165006375|OTHER|Pearson correlation test|Pearson's R|0.21||||0.33|TWO_SIDED|95.0|-0.22|0.56|||Regression, Linear|Pearson's R||Correlation of this Outcome measure (change in tic frequency with stimulation during this study) with the change in tic frequency (measured as the number of 10-second tic-free intervals) during active, rhythmic stimulation in the randomized, controlled trial of MNS that all participants had previously completed.||0.56|-0.22|0.33
82645485|NCT05016765|165006376|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Paired Samples Wilcoxon Test||||||<0.001
82645486|NCT05016765|165006376|OTHER|Pearson's R|Pearson's R|0.36||||0.08|TWO_SIDED|95.0|-0.05|0.66|||Regression, Linear|Pearson's R||Correlation of this Outcome measure (change in tic intensity during this study) with change in tic intensity during active, rhythmic stimulation during the randomized, controlled trial that all participants had previously completed.||0.66|-0.05|0.08
82645487|NCT05016765|165006381|OTHER|Traditional comparative||||||0.84|||||||Paired Sample t-Test, 2-Sided|||||||0.84
82645488|NCT03747939|165006383|SUPERIORITY||Adjusted difference in proportions|18.5||||0.0008|TWO_SIDED|95.0|8.9|28.1|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per Interactive Web Response System (IWRS) data, using Cochran-Mantel-Haenszel (CMH) weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||28.1|8.9|0.0008
82645489|NCT03747939|165006384|SUPERIORITY||Adjusted difference in proportions|18.6||||0.0017|TWO_SIDED|95.0|7.0|30.2|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||30.2|7.0|0.0017
82645490|NCT03747939|165006385|SUPERIORITY||Adjusted difference in proportions|5.1||||0.3539|TWO_SIDED|95.0|-5.8|16.0|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||16.0|-5.8|0.3539
82647996|NCT00386100|165011353|SUPERIORITY_OR_OTHER||Percent difference from metformin|-6.26||||0.362|TWO_SIDED|95.0|-18.62|7.97||Males, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||7.97|-18.62|0.3620
82399532|NCT01454414|164508480|SUPERIORITY_OR_OTHER_LEGACY||Protective effectiveness= 1 - rate ratio|0.646||||0.004|TWO_SIDED|95.0|0.288|0.824|||Poisson regression|||Protective effectiveness (1 - the incidence rate ratio) and 95% CIs for comparing reported tick bites between the treatment and control groups were calculated using a GEE model with a Poisson distribution and log link, and included terms for treatment, year of follow-up, and the interaction of treatment and year of follow-up, with an offset variable for log outdoor work hours.||0.824|0.288|0.004
82399533|NCT00856843|164508509|SUPERIORITY_OR_OTHER||Difference in success rates|8.8||||0.038|TWO_SIDED|95.0|0.9|16.8|||Chi-squared|||||16.8|0.9|0.038
82530257|NCT00077636|164756733|NON_INFERIORITY_OR_EQUIVALENCE|These results indicated that sustained virological response achieved with 16 weeks of treatment was not equivalent to that achieved with 24 week of treatment.|Odds Ratio (OR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.76|||Cochran-Mantel-Haenszel|stratified by country and HCV genotype.||||0.76|0.46|<.0001
82645491|NCT03747939|165006386|SUPERIORITY||Adjusted difference in proportions|22.1||||0.0003|TWO_SIDED|95.0|10.4|33.7|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||33.7|10.4|0.0003
82645492|NCT03747939|165006387|SUPERIORITY||Adjusted difference in proportions|11.8||||0.0286|TWO_SIDED|95.0|1.7|22.0|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||22.0|1.7|0.0286
82645493|NCT03747939|165006388|SUPERIORITY||Adjusted difference in proportions|16.3||||0.0022|TWO_SIDED|95.0|6.9|25.8|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||25.8|6.9|0.0022
82645494|NCT03747939|165006389|SUPERIORITY||Difference in LS means|-1.03|||<|0.0001|TWO_SIDED|95.0|-1.48|-0.59|||MMRM||Apremilast - Placebo|Difference in LS means is based MMRM of the change from baseline.||-0.59|-1.48|<0.0001
82399534|NCT00856843|164508510|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
82399535|NCT00856843|164508511|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.020
82399536|NCT00856843|164508512|SUPERIORITY_OR_OTHER|||||||0.644|||||||Chi-squared|||||||0.644
82399537|NCT00856843|164508513|SUPERIORITY_OR_OTHER|||||||0.763|||||||Chi-squared|||||||0.763
82530258|NCT00077636|164756734|NON_INFERIORITY_OR_EQUIVALENCE|In the analysis based on the standard population, end of treatment virological response was equivalent in the two treatment arms (94% in the 16-week arm and 92% in the 24-week arm).|Odds Ratio (OR)|1.32||||0.1941|TWO_SIDED|95.0|0.86|2.03|||Cochran-Mantel-Haenszel|stratified by country.||||2.03|0.86|0.1941
82647997|NCT00386100|165011353|SUPERIORITY_OR_OTHER||Percent difference from metformin|0.72||||0.9115|TWO_SIDED|95.0|-11.39|14.48||Females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||14.48|-11.39|0.9115
82399538|NCT00856843|164508514|SUPERIORITY_OR_OTHER|||||||0.173|||||||Chi-squared|||||||0.173
82399539|NCT00856843|164508515|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||||||0.004
82530259|NCT00077636|164756735|NON_INFERIORITY_OR_EQUIVALENCE|These results indicated that sustained virological response achieved with 16 weeks of treatment was not equivalent to that achieved with 24 week of treatment.|Odds Ratio (OR)|0.65||||0.0003|TWO_SIDED|95.0|0.52|0.82|||Cochran-Mantel-Haenszel|stratified by country and HCV genotype.||||0.82|0.52|0.0003
82399540|NCT00856843|164508516|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82399541|NCT00856843|164508517|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82399542|NCT00856843|164508518|SUPERIORITY_OR_OTHER|||||||0.013|||||||Chi-squared|||||||0.013
82399543|NCT00856843|164508519|SUPERIORITY_OR_OTHER|||||||0.283|||||||Chi-squared|||||||0.283
82399544|NCT02179749|164508523|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.2||0.51|TWO_SIDED||||||ANOVA|||||||0.51
82399545|NCT02179749|164508523|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.038|TWO_SIDED||||||Mixed Models Analysis|||Latent growth model includes one week on study drug and two weeks after the last dose of study drug. Principal predictors were drug plasma concentration and baseline treatment goal of abstinence or non abstinence. Arms were combined for this analysis.||||0.038
82399546|NCT02179749|164508524|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|36.7||0.5|TWO_SIDED||||||ANOVA|411 and 102 degrees of freedom||||||0.50
82399547|NCT02685072|164508579|SUPERIORITY||Odds Ratio (OR)|0.5818||||0.3253|TWO_SIDED|95.0|0.1968|1.7202|||Chi-squared|degrees of freedom =1|Odds ratio represents odds of smoking abstinence in TPN + progesterone group versus TPN + placebo group|||1.7202|0.1968|0.3253
82399548|NCT02685072|164508580|SUPERIORITY||Odds Ratio (OR)|1.0781||||0.8944|TWO_SIDED|95.0|0.355|3.2744|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 (negative for smoking) in TPN + progesterone versus TPN + placebo groups|||3.2744|0.3550|0.8944
82399549|NCT02685072|164508581|SUPERIORITY||Odds Ratio (OR)|0.7619||||0.662|TWO_SIDED|95.0|0.2247|2.5838|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.5838|0.2247|0.6620
82530260|NCT01017120|164756743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for ILs|ANCOVA|||||||<0.001
82530261|NCT01017120|164756743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for NILs|ANCOVA|||||||<0.001
82399550|NCT02685072|164508582|SUPERIORITY||Odds Ratio (OR)|0.913||||0.8661|TWO_SIDED|95.0|0.3171|2.6287|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.6287|0.3171|0.8661
82399551|NCT02685072|164508583|SUPERIORITY||Mean Difference (Final Values)|-9.1|STANDARD_DEVIATION|31.7||0.31|TWO_SIDED|95.0|-27.1|9.0|||t-test, 2 sided||(Placebo + TPN) - (Progesterone + TPN)|||9.0|-27.1|0.31
82399552|NCT02685072|164508584|SUPERIORITY||Mean Difference (Final Values)|0.148||||0.791|TWO_SIDED|95.0|-0.9747|1.2707|||t-test, 2 sided||(placebo + TPN) - (progesterone + TPN)|||1.2707|-0.9747|0.7910
82399553|NCT02685072|164508585|SUPERIORITY||Mean Difference (Final Values)|9.26||||0.0065|TWO_SIDED|95.0|2.71|15.81|||t-test, 2 sided|||||15.81|2.71|0.0065
82399554|NCT02685072|164508596|SUPERIORITY||Odds Ratio (OR)|0.7172||||0.6449|TWO_SIDED|95.0|0.1738|2.9594|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of CO \< 10 ppm (negative for smoking) in TPN + progesterone versus TPN + placebo.|||2.9594|0.1738|.6449
82399555|NCT02685072|164508597|SUPERIORITY||Odds Ratio (OR)|0.7172||||0.6449|TWO_SIDED|95.0|0.1738|2.9594|||Chi-squared|degrees of freedom = 1|Odds ratio represents odds of prolonged abstinence in TPN + progesterone versus TPN + placebo.|||2.9594|0.1738|0.6449
82399556|NCT01249833|164508613|SUPERIORITY_OR_OTHER||LS Means Difference|-30.4||||0.0492|TWO_SIDED|95.0|-60.7|-0.1|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||-0.1|-60.7|.0492
82399557|NCT01249833|164508614|SUPERIORITY_OR_OTHER||LS Means Difference|3.8||||0.0054|TWO_SIDED|95.0|1.14|6.42|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||6.42|1.14|0.0054
82399558|NCT01249833|164508615|SUPERIORITY_OR_OTHER||LS Means Difference|3.9||||0.9685|TWO_SIDED|95.0|-190.1|197.9|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|||197.9|-190.1|.9685
82399559|NCT01249833|164508616|SUPERIORITY_OR_OTHER||LS Means Difference|1.9||||0.3195|TWO_SIDED|95.0|-1.9|5.7|||ANCOVA||The LS means for Standard of Care Alone was subtracted from that of Oseltamivir.|Alertness: the higher the value, the greater the alertness.||5.7|-1.9|.3195
82399560|NCT01249833|164508616|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6||||0.7219|TWO_SIDED|95.0|-4.1|2.9|||ANCOVA||The LS means for Standard of Care AL one was subtracted from that of Oseltamivir.|Calmness: the higher the value, the greater the calmness.||2.9|-4.1|.7219
82399561|NCT01249833|164508616|SUPERIORITY_OR_OTHER||LS Means Difference|3.3||||0.1162|TWO_SIDED|95.0|-0.8|7.4|||ANCOVA||The LS means of Standard of Care Alone was subtracted from that of Oseltamivir.|Contentedness: the higher the value, the greater the contentedness.||7.4|-.8|.1162
82399562|NCT03796676|164508617|SUPERIORITY||Estimate of difference|16.7||||0.0147|TWO_SIDED|95.0|3.5|29.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||29.9|3.5|0.0147
82399563|NCT03796676|164508617|SUPERIORITY||Estimate of difference|20.6||||0.003|TWO_SIDED|95.0|7.3|33.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||33.9|7.3|0.0030
82399564|NCT03796676|164508618|SUPERIORITY||Estimate of difference|26.5||||0.0002|TWO_SIDED|95.0|13.1|39.8|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||39.8|13.1|0.0002
82399565|NCT03796676|164508618|SUPERIORITY||Estimate of difference|29.4|||<|0.0001|TWO_SIDED|95.0|16.3|42.5|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||42.5|16.3|<0.0001
82399566|NCT03796676|164508619|SUPERIORITY||Estimate of difference|14.7||||0.0119||95.0|3.5|25.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 2 was calculated by PF-04965842 100 mg minus placebo|||25.9|3.5|0.0119
82399567|NCT03796676|164508619|SUPERIORITY||Estimate of difference|26.1|||<|0.0001|TWO_SIDED|95.0|13.9|38.3|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 2 was calculated by PF-04965842 200 mg minus placebo|||38.3|13.9|<0.0001
82399568|NCT03796676|164508619|SUPERIORITY||Estimate of difference|10.9||||0.0971|TWO_SIDED|95.0|-1.8|23.6|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 4 was calculated by PF-04965842 100 mg minus placebo|||23.6|-1.8|0.0971
82576141|NCT00760747|164861999|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.526|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||||0.6|-0.3|0.526
82399569|NCT03796676|164508619|SUPERIORITY||Estimate of difference|29.4|||<|0.0001|TWO_SIDED|95.0|16.0|42.9|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 4 was calculated by PF-04965842 200 mg minus placebo|||42.9|16.0|<0.0001
82399570|NCT03796676|164508619|SUPERIORITY||Estimate of difference|22.8||||0.0035|TWO_SIDED|95.0|8.0|37.7|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 100 mg minus placebo|||37.7|8.0|0.0035
82399571|NCT03796676|164508619|SUPERIORITY||Estimate of difference|25.6||||0.0013|TWO_SIDED|95.0|10.6|40.6|||Cochran-Mantel-Haenszel||Estimate of the difference in percentages of response at Week 12 was calculated by PF-04965842 200 mg minus placebo|||40.6|10.6|0.0013
82399572|NCT03796676|164508620|SUPERIORITY||Mean Difference (Net)|-0.5||||0.0664|TWO_SIDED|95.0|-1.1|0.0|||Mixed Models Analysis||The least squares mean difference at Week 12 was calculated by PF-04965842 100 mg minus placebo|||0.0|-1.1|0.0664
82399573|NCT03796676|164508620|SUPERIORITY||Mean Difference (Net)|-0.7||||0.0142|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis||The least squares mean difference at Week 12 was calculated by PF-04965842 200 mg minus placebo|||-0.1|-1.3|0.0142
82399574|NCT03951753|164508693|OTHER||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.107|<|0.001|TWO_SIDED|95.0|0.87|1.29|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||1.29|0.87|<0.001
82399575|NCT03951753|164508693|OTHER||Least Squares Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|0.166|<|0.001|TWO_SIDED|95.0|1.59|2.24|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||2.24|1.59|<0.001
82399576|NCT03951753|164508693|OTHER||Least Squares Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.192|<|0.001|TWO_SIDED|95.0|0.46|1.21|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||1.21|0.46|<0.001
82399577|NCT03951753|164508694|OTHER||Least Squares Mean Difference|-38.1|||<|0.001|TWO_SIDED|95.0|-45.4|-30.7|||ANCOVA|||||-30.7|-45.4|<0.001
82399578|NCT03951753|164508694|OTHER||Least Squares Mean Difference|-47.1|||<|0.001|TWO_SIDED|95.0|-54.6|-39.5|||ANCOVA|||||-39.5|-54.6|<0.001
82399579|NCT03951753|164508694|OTHER||Least Squares Mean Difference|-9.0||||0.006|TWO_SIDED|95.0|-15.4|-2.6|||ANCOVA|||||-2.6|-15.4|0.006
82399580|NCT03951753|164508695|OTHER||Least Squares Mean Difference|-14696.1|||<|0.001|TWO_SIDED|95.0|-17045.0|-12347.3|||ANCOVA|||||-12347.3|-17045.0|<0.001
82399581|NCT03951753|164508695|OTHER||Least Squares Mean Difference|-17873.2|||<|0.001|TWO_SIDED|95.0|-20239.0|-15507.4|||ANCOVA|||||-15507.4|-20239.0|<0.001
82399582|NCT03951753|164508695|OTHER||Least Squares Mean Difference|-3177.1||||0.002|TWO_SIDED|95.0|-5194.3|-1159.8|||ANCOVA|||||-1159.8|-5194.3|0.002
82399583|NCT03951753|164508696|OTHER||Least Squares Mean Difference|-1.93|||<|0.001|TWO_SIDED|95.0|-2.18|-1.67|||Mixed Models Analysis|||||-1.67|-2.18|<0.001
82399584|NCT03951753|164508696|OTHER||Least Squares Mean Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-2.58|-2.08|||Mixed Models Analysis|||||-2.08|-2.58|<0.001
82399585|NCT03951753|164508696|OTHER||Least Squares Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.63|-0.19|||Mixed Models Analysis|||||-0.19|-0.63|<0.001
82399586|NCT03951753|164508697|OTHER||Least Squares Mean Difference|279.14|STANDARD_ERROR_OF_MEAN|17.366|<|0.001|TWO_SIDED|95.0|245.1|313.18|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||313.18|245.10|<0.001
82399587|NCT03951753|164508697|OTHER||Least Squares Mean Difference|381.23|STANDARD_ERROR_OF_MEAN|21.399|<|0.001|TWO_SIDED|95.0|339.29|423.17|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||423.17|339.29|<0.001
82399588|NCT03951753|164508697|OTHER||Least Squares Mean Difference|102.09|STANDARD_ERROR_OF_MEAN|25.635|<|0.001|TWO_SIDED|95.0|51.84|152.33|||ANCOVA|Data were analysed with ANCOVA in log transformed data.|Data were analysed with ANCOVA in log transformed data. Results were converted back to original scale.|||152.33|51.84|<0.001
82399589|NCT03951753|164508698|OTHER||Least Squares Mean Difference|11.3|||<|0.001|TWO_SIDED|95.0|4.9|17.7|||ANCOVA|||||17.7|4.9|<0.001
82399590|NCT03951753|164508698|OTHER||Least Squares Mean Difference|19.8|||<|0.001|TWO_SIDED|95.0|13.4|26.1|||ANCOVA|||||26.1|13.4|<0.001
82399591|NCT03951753|164508698|OTHER||Least Squares Mean Difference|8.5||||0.003|TWO_SIDED|95.0|3.0|14.0|||ANCOVA|||||14.0|3.0|0.003
82399592|NCT03951753|164508699|OTHER||Least Squares Mean Difference|-3.6|||<|0.001|TWO_SIDED|95.0|-5.5|-1.8|||ANCOVA|||||-1.8|-5.5|<0.001
82399593|NCT03951753|164508699|OTHER||Least Squares Mean Difference|-4.5|||<|0.001|TWO_SIDED|95.0|-6.3|-2.6|||ANCOVA|||||-2.6|-6.3|<0.001
82399594|NCT03951753|164508699|OTHER||Least Squares Mean Difference|-0.8||||0.277|TWO_SIDED|95.0|-2.4|0.7|||ANCOVA|||||0.7|-2.4|0.277
82399595|NCT03951753|164508700|OTHER||Slope|-296.1||||0.044|TWO_SIDED|95.0|-584.8|-7.5|||ANCOVA|||||-7.5|-584.8|0.044
82399596|NCT03951753|164508700|OTHER||Least Squares Mean Difference|-637.7|||<|0.001|TWO_SIDED|95.0|-925.2|-350.2|||ANCOVA|||||-350.2|-925.2|<0.001
82399597|NCT03951753|164508700|OTHER||Least Squares Mean Difference|-341.6||||0.006|TWO_SIDED|95.0|-585.2|-97.9|||ANCOVA|||||-97.9|-585.2|0.006
82399598|NCT03951753|164508701|OTHER||Least Squares Mean Difference|-245.5|||<|0.001|TWO_SIDED|95.0|-357.7|-133.3|||Mixed Models Analysis|||||-133.3|-357.7|<0.001
82399599|NCT03951753|164508701|OTHER||Least Squares Mean Difference|-309.8|||<|0.001|TWO_SIDED|95.0|-423.0|-196.6|||Mixed Models Analysis|||||-196.6|-423.0|<0.001
82399600|NCT03951753|164508701|OTHER||Least Squares Mean Difference|-64.3||||0.187|TWO_SIDED|95.0|-160.3|31.7|||Mixed Models Analysis|||||31.7|-160.3|0.187
82399601|NCT04633291|164508702|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard Male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|0.04||||0.88|TWO_SIDED|95.0|-0.5|0.58||The threshold for statistical significance was set at 0.05|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.58|-0.50|0.88
82399602|NCT04633291|164508703|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|-0.14||||0.62|TWO_SIDED|95.0|-0.72|0.44||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.44|-0.72|0.62
82530262|NCT01017120|164756743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for TLs|ANCOVA|||||||<0.001
82530263|NCT01017120|164756744|SUPERIORITY_OR_OTHER||Percentage of participants|32.2|||<|0.001|TWO_SIDED|95.0|27.4|36.9|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||36.9|27.4|<0.001
82399603|NCT04633291|164508704|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|0.11||||0.63|TWO_SIDED|95.0|-0.36|0.57||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.57|-0.36|0.63
82399604|NCT04633291|164508705|NON_INFERIORITY|Based on previous studies, the weighted average VAS discomfort level in healthy subjects using SpeediCath®Standard male was estimated at 2.3 cm, with 50% increase in VAS was considered clinically relevant. The mean difference non-inferiority margin between catheter coatings was therefore set to 1.2 cm, and non-inferiority was demonstrated if the mean difference was not above 1.2 cm.|Mean Difference (Final Values)|-0.15||||0.19|TWO_SIDED|95.0|-0.38|0.08||The threshold for statistical significance was set at 0.05.|Mixed Models Analysis|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.||At a 85% power level, the sample size needed to demonstrate non-inferiority of the novel coating to the original the coating was 18 subjects (participants). This was based on a standard deviation of 1.6 cm, a within subject correlation of 0.5 cm, and an assumption of same VAS distribution for the investigational device as for the comparator. With an expected drop-out rate of 20%, 22 subjects were included.||0.08|-0.38|0.19
82399605|NCT04633291|164508706|SUPERIORITY||Odds Ratio (OR)|1.76||||0.381|TWO_SIDED|95.0|0.47|6.6||The threshold for statistical significance was set at 0.05.|Proportional odds model|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is evaluated easier than the comparator. OR \<1 means that the comparator device is evaluated easier than the investigational device.|Null hypothesis: No difference between the devices.||6.60|0.47|0.381
82399606|NCT04633291|164508707|SUPERIORITY||Odds Ratio (OR)|7.8||||0.541|TWO_SIDED|95.0|-18.4|34.0||The threshold for statistical significance was set at 0.05.|Proportional odds model|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|"OR=1 corresponds to exact equality. OR \>1 means that the investigational device is evaluated easier than the comparator. OR \<1 means that the comparator device is evaluated easier than the investigational device.~Of note: Log transformed estimates."|Null hypothesis: No difference between the devices.||34.00|-18.40|0.541
82399607|NCT04633291|164508708|SUPERIORITY||Odds Ratio (OR)|7.17||||0.269|TWO_SIDED|95.0|0.19|265.95||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||265.95|0.19|0.269
82399608|NCT04633291|164508709|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.02|64.83||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||64.83|0.02|1.0
82399609|NCT04633291|164508710|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.08|12.87||The threshold for statistical significance was set at 0.05.|Regression, Logistic|Random effect: 'Subject'. Fixed effect: 'Visit' (Visit 1 and 2) and 'Treatment' (original coating and novel coating). Age was included as covariate.|OR=1 corresponds to exact equality. OR \>1 means that the investigational device is in favor compared to the comparator. OR \<1 means that the comparator device is in favor compared to the investigational device.|Null hypothesis: No difference between the devices.||12.87|0.08|1.0
82399610|NCT04679948|164508743|OTHER||Ratio of GLSMs [%]|112.06|||||TWO_SIDED|90.0|101.02|124.3|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + caffeine/GLSM of caffeine). Intra-individual geometric coefficient of variation (gCV \[%\]) =16.2."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||124.30|101.02|
82399611|NCT04679948|164508744|OTHER||Ratio of GLSMs [%]|96.74|||||TWO_SIDED|90.0|91.55|102.23|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + caffeine/GLSM of caffeine). Intra-individual geometric coefficient of variation (gCV \[%\]) = 8.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||102.23|91.55|
82445391|NCT00752726|164599284|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.99|STANDARD_ERROR_OF_MEAN|0.881||0.026|TWO_SIDED|95.0|0.25|3.74||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline weight and center effects, using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.74|0.25|0.026
82576142|NCT00760747|164862000|SUPERIORITY_OR_OTHER||Least square mean differences at week 10|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.898|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|||||0.4|-0.4|0.898
82399612|NCT04679948|164508745|OTHER||Ratio of GLSMs [%]|110.38|||||TWO_SIDED|90.0|107.15|113.71|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + warfarin/GLSM of Warfarin). Intra-individual geometric coefficient of variation (gCV \[%\]) =4.8."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.71|107.15|
82399613|NCT04679948|164508746|OTHER||Ratio of GLSMs [%]|108.47|||||TWO_SIDED|90.0|104.11|113.01|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + warfarin/GLSM of Warfarin). Intra-individual geometric coefficient of variation (gCV \[%\]) = 6.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.01|104.11|
82399614|NCT04679948|164508747|OTHER||Ratio of GLSM [%]|99.74|||||TWO_SIDED|90.0|89.66|110.95|||||"Ratio of Geometric Least Squares Means (GLSM) was calculated as (GLSM of BI 730357 + omeprazole/GLSM of Omeprazole). Intra-individual geometric coefficient of variation (gCV \[%\]) =12.3."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||110.95|89.66|
82399615|NCT04679948|164508748|OTHER||Ratio of GLSMs [%]|71.32|||||TWO_SIDED|90.0|44.64|113.96|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + omeprazole/GLSM of Omeprazole). Intra-individual geometric coefficient of variation (gCV \[%\]) =87.8."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||113.96|44.64|
82399616|NCT04679948|164508749|OTHER||Ratio of GLSMs [%]|126.85|||||TWO_SIDED|90.0|119.15|135.05|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + midazolam/GLSM of Midazolam). Intra-individual geometric coefficient of variation (gCV \[%\]) =10.1."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||135.05|119.15|
82399617|NCT04679948|164508750|OTHER||Ratio of GLSMs [%]|130.25|||||TWO_SIDED|90.0|121.25|139.92|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of BI 730357 + midazolam/GLSM of Midazolam). Intra-individual geometric coefficient of variation (gCV \[%\]) =11.6."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs for each endpoint. This model included effects accounting for the following sources of variation: subjects (random effect) and treatment (fixed effect).||139.92|121.25|
82399618|NCT02636439|164508751|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.21|TWO_SIDED|95.0|-25.0|112.0|||ANCOVA|adjusted for baseline value, age, and sex.||||112|-25|0.21
82399619|NCT02636439|164508752|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.8|-1.0|0.86
82445392|NCT00752726|164599285|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.642|STANDARD_ERROR_OF_MEAN|0.7174||0.0242|TWO_SIDED|95.0|0.219|3.065||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline total fat mass and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.065|0.219|0.0242
82530264|NCT01017120|164756744|SUPERIORITY_OR_OTHER||Percentage of participants|18.2|||||TWO_SIDED|95.0|14.2|22.1|||||The estimated value represents the percentage of participants receiving vehicle foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||22.1|14.2|
82530265|NCT01017120|164756745|SUPERIORITY_OR_OTHER||Percentage of participants|27.6|||<|0.001|TWO_SIDED|95.0|23.1|32.2|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with an ISGA score of 0 or 1 at Week 12.|||32.2|23.1|<0.001
82530266|NCT01017120|164756745|SUPERIORITY_OR_OTHER||Percentage of participants|13.3|||||TWO_SIDED|95.0|9.8|16.7|||||The estimated value represents the percentage of participants receiving vehicle foam with an ISGA score of 0 or 1 at Week 12.|||16.7|9.8|
82647998|NCT00386100|165011353|SUPERIORITY_OR_OTHER||Percent difference from metformin|-13.51||||0.1956|TWO_SIDED|95.0|-30.35|8.31||Pre-menopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||8.31|-30.35|0.1956
82530267|NCT01087723|164756768|SUPERIORITY_OR_OTHER||Relative risk|0.6||||0.0014|TWO_SIDED|95.0|0.43|0.82|||Chi-squared|||||0.82|0.43|0.0014
82530268|NCT00806624|164756790|SUPERIORITY_OR_OTHER||difference in percentages|-3.5|||||TWO_SIDED|95.0|-16.2|9.4||||||||9.4|-16.2|
82530269|NCT00806624|164756790|SUPERIORITY_OR_OTHER||difference in percentages|-9.1|||||TWO_SIDED|95.0|-22.4|4.5||||||||4.5|-22.4|
82576143|NCT00760747|164862005|SUPERIORITY_OR_OTHER||Least square mean differences at week 2|-0.1|STANDARD_ERROR_OF_MEAN|1.4||0.927|TWO_SIDED|95.0|-2.9|2.6|||Mixed Models Analysis|||||2.6|-2.9|0.927
82399620|NCT02636439|164508753|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.77|TWO_SIDED|95.0|-2.8|3.8|||ANCOVA|Adjusted for baseline value, age, and sex.||||3.8|-2.8|0.77
82399621|NCT02636439|164508754|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.85|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.2|-0.3|0.85
82399622|NCT02636439|164508755|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.053|TWO_SIDED|95.0|-0.1|12.9|||ANCOVA|Adjusted for baseline value, age, and sex.||||12.9|-0.1|0.053
82399623|NCT02636439|164508756|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.043|TWO_SIDED|95.0|0.0|0.13|||ANCOVA|Adjusted for baseline value, age, and sex.||||0.13|0.00|0.043
82399624|NCT02636439|164508757|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.07|TWO_SIDED|95.0|-10.0|0.0|||ANCOVA|Adjusted for baseline value, age, and sex.||||0|-10|0.07
82399625|NCT02636439|164508758|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.79|TWO_SIDED|95.0|-4.4|3.3|||ANCOVA|Adjusted for baseline value, age, and sex.||||3.3|-4.4|0.79
82399626|NCT04378569|164508767|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5788|TWO_SIDED|95.0|0.49|2.53|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.53|0.49|0.5788
82399627|NCT04378569|164508767|SUPERIORITY||Odds Ratio (OR)|0.84||||0.6488|TWO_SIDED|95.0|0.33|2.17|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.17|0.33|0.6488
82399628|NCT04378569|164508767|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5653|TWO_SIDED|95.0|0.32|2.25|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation used to handle missing data|||2.25|0.32|0.5653
82399629|NCT04378569|164508768|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5033|TWO_SIDED|95.0|0.25|2.78|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.78|0.25|0.5033
82399630|NCT04378569|164508768|SUPERIORITY||Odds Ratio (OR)|0.83||||0.4975|TWO_SIDED|95.0|0.25|2.79|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.79|0.25|0.4975
82399631|NCT04378569|164508768|SUPERIORITY||Odds Ratio (OR)|0.33|||||TWO_SIDED|95.0|0.04|2.55||P value was not evaluable|Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|Stratified by pooled site group and baseline IGA score with multiple imputation to handle missing data|||2.55|0.04|
82399632|NCT04378569|164508769|SUPERIORITY||Odds Ratio (OR)|0.75||||0.7237|TWO_SIDED|95.0|0.23|2.44|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.44|0.23|0.7237
82399633|NCT04378569|164508769|SUPERIORITY||Odds Ratio (OR)|0.59||||0.838|TWO_SIDED|95.0|0.17|2.1|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.10|0.17|0.8380
82399634|NCT04378569|164508769|SUPERIORITY||Odds Ratio (OR)|0.33|||||TWO_SIDED|95.0|0.04|2.55||p-value was unevaluable||Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|||2.55|0.04|
82399635|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9604|TWO_SIDED|95.0|0.31|3.07|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.07|0.31|0.9604
82399636|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9752|TWO_SIDED|95.0|0.32|3.25|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.25|0.32|0.9752
82399637|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.57||||0.5077|TWO_SIDED|95.0|0.11|3.03|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 2||3.03|0.11|0.5077
82399638|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.74||||0.5916|TWO_SIDED|95.0|0.26|2.15|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||2.15|0.26|0.5916
82530270|NCT00806624|164756790|SUPERIORITY_OR_OTHER||difference in percentage|-5.6|||||TWO_SIDED|95.0|-19.3|8.2||||||||8.2|-19.3|
82399639|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.65||||0.332|TWO_SIDED|95.0|0.27|1.57|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||1.57|0.27|0.3320
82399640|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1922|TWO_SIDED|95.0|0.14|1.57|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 4||1.57|0.14|0.1922
82399641|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.65||||0.4188|TWO_SIDED|95.0|0.23|1.81|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||1.81|0.23|0.4188
82399642|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.74||||0.552|TWO_SIDED|95.0|0.29|1.92|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||1.92|0.29|0.5520
82576144|NCT00455741|164862017|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||effect of age on estrogen negative feedback ( nadir LH as % of baseline LH)||||0.90
82576145|NCT00455741|164862017|SUPERIORITY||||||<|0.03||||||a priori threshold for significance is p\<0.05|ANOVA|||positive feedback||||<0.03
82399643|NCT04378569|164508770|SUPERIORITY||Odds Ratio (OR)|0.69||||0.69|TWO_SIDED|95.0|0.21|2.2|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Stratified by pooled site group and baseline IGA score, with multiple imputation of missing data|Week 8||2.20|0.21|0.69
82399644|NCT04378569|164508771|SUPERIORITY|Week 2|Mean Difference (Net)|-0.06||||0.6464|TWO_SIDED|95.0|-0.33|0.21|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|||0.21|-0.33|0.6464
82445393|NCT00752726|164599286|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.47|STANDARD_ERROR_OF_MEAN|0.704||0.039|TWO_SIDED|95.0|0.07|2.87||P-value was not adjusted for multiple comparisons|ANCOVA|Mean was adjusted for the treatment, baseline total fat mass and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||2.87|0.07|0.039
82530271|NCT00919893|164756896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||"Null hypothesis: Cernilton compared to placebo induces a better or the same outcome of symptomatic improvement in the pain domain of symptomatic Pelvic Pain Syndrome verified by the National Institutes of Health-Chronic Prostatitis Symptom Index (NIH-CPSI).~Power calculation: A power of 1-beta=0.8 was calculated."||||<0.05
82645495|NCT03747939|165006390|SUPERIORITY||Adjusted difference in proportions|17.7||||0.0043|TWO_SIDED|95.0|5.7|29.7|||Cochran-Mantel-Haenszel|Two-sided p-value adjusted for prior/concomitant use of csDMARD and baseline glucocorticosteroid use, normalized via Wilson-Hilferty transformation.|Apremilast - Placebo|Adjusted difference in proportions is the weighted average of the treatment differences across strata formed by two stratification factors, prior/concomitant use of csDMARD and baseline glucocorticosteroid use per IWRS data, using CMH weights. Two-sided 95% CI is based on a normal approximation to the weighted average.||29.7|5.7|0.0043
82645496|NCT00535301|165006391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24|STANDARD_DEVIATION|2.0||0.005|TWO_SIDED|95.0|0.1|0.6|||Chi-squared|||Sample size was calculated based on previously-published anatomic success rates of standard anterior colporrhaphy (50%) and polypropylene mesh-reinforced anterior vaginal repair (85%) (1-10). Assuming a 2-sided hypothesis test with 5% type I error and 80% power, 33 patients in each group would be required to detect an absolute difference of 35% or more in recurrent stage II prolapse. Assuming a 15% drop-out rate, we sought to enroll 76 patients into the clinical trial.||0.6|0.1|0.005
82645497|NCT00535301|165006392|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5
82645498|NCT00535301|165006393|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82645499|NCT01447628|165006394|SUPERIORITY|||||||0.6039|||||||Mixed Models Analysis|||||||0.6039
82645500|NCT01447628|165006395|SUPERIORITY|||||||0.0747|||||||Mixed Models Analysis|||||||0.0747
82645501|NCT01447628|165006395|SUPERIORITY|||||||0.799|||||||Mixed Models Analysis|||||||0.7990
82645502|NCT01447628|165006395|SUPERIORITY|||||||0.2111|||||||Mixed Models Analysis|||This is a combination of the p-values from the separate analyses of each data set.||||0.2111
82645503|NCT01447628|165006396|SUPERIORITY|||||||0.6583|||||||Mixed Models Analysis|||||||0.6583
82645504|NCT01447628|165006396|SUPERIORITY|||||||0.9166|||||||Mixed Models Analysis|||||||0.9166
82530272|NCT00708305|164756952|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0||||0.9762||95.0|-0.21|0.2||No adjustment was made for multiple comparisons as the primary comparison was predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments in comparison. Tests were 2-sided at 5% significance levels.||0.20|-0.21|0.9762
82576146|NCT00455741|164862018|SUPERIORITY||||||=|0.03||||||a priori significance level p\<0.05|ANOVA|||||||=0.03
82645505|NCT01447628|165006396|SUPERIORITY|||||||0.6631|||||||Mixed Models Analysis|||||||0.6631
82645506|NCT01447628|165006397|SUPERIORITY|||||||0.4039|||||||Mixed Models Analysis|||||||0.4039
82645507|NCT01447628|165006397|SUPERIORITY|||||||0.9144|||||||Mixed Models Analysis|||||||0.9144
82645508|NCT01447628|165006397|SUPERIORITY|||||||0.9959|||||||Mixed Models Analysis|||||||0.9959
82399645|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8881|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 2||0.25|-0.29|0.8881
82399646|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.436|TWO_SIDED|95.0|-0.2|0.46|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 2||0.46|-0.20|0.4360
82576147|NCT00455741|164862019|SUPERIORITY|||||||0.49||||||threshold for significance p\<0.05|t-test, 2 sided|||||||0.49
82576148|NCT00455741|164862020|SUPERIORITY||||||<|0.02||||||a priori threshold for significance p\<0.05|t-test, 2 sided|||||||<0.02
82576149|NCT00455741|164862021|SUPERIORITY||||||<|0.03|||||||t-test, 2 sided|||||||<0.03
82645509|NCT01447628|165006398|SUPERIORITY|||||||0.1788|||||||Mixed Models Analysis|||||||0.1788
82645510|NCT01447628|165006398|SUPERIORITY|||||||0.7795|||||||Mixed Models Analysis|||||||0.7795
82645511|NCT01447628|165006398|SUPERIORITY|||||||0.414|||||||Mixed Models Analysis|||||||0.414
82645512|NCT01447628|165006399|SUPERIORITY|||||||0.8688|||||||Mixed Models Analysis|||||||0.8688
82645513|NCT01447628|165006399|SUPERIORITY|||||||0.9999|||||||Mixed Models Analysis|||||||0.9999
82645514|NCT01447628|165006399|SUPERIORITY|||||||0.991|||||||Mixed Models Analysis|||||||0.991
82645515|NCT01447628|165006400|SUPERIORITY|||||||0.5465|||||||Mixed Models Analysis|||||||0.5465
82645516|NCT01447628|165006400|SUPERIORITY|||||||0.4298|||||||Mixed Models Analysis|||||||0.4298
82645517|NCT01447628|165006400|SUPERIORITY|||||||0.5451|||||||Mixed Models Analysis|||||||0.5451
82645518|NCT01447628|165006401|SUPERIORITY|||||||0.6241|||||||Mixed Models Analysis|||Note that Endurance CPET was not done in China, hence only European data provided.||||0.6241
82645519|NCT01447628|165006402|SUPERIORITY|||||||0.4758|||||||Mixed Models Analysis|||||||0.4758
82645520|NCT01447628|165006403|SUPERIORITY|||||||0.205|||||||Mixed Models Analysis|||||||0.2050
82399647|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.8196|TWO_SIDED|95.0|-0.29|0.36|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 4||0.36|-0.29|0.8196
82399648|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.9217|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 4||0.34|-0.31|0.9217
82399649|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.4783|TWO_SIDED|95.0|-0.25|0.53|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|||0.53|-0.25|0.4783
82399650|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.7725|TWO_SIDED|95.0|-0.32|0.43|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.43|-0.32|0.7725
82399651|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.7861|TWO_SIDED|95.0|-0.43|0.33|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.33|-0.43|0.7861
82399652|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.3521|TWO_SIDED|95.0|-0.24|0.68|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 8||0.68|-0.24|0.3521
82399653|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.2166|TWO_SIDED|95.0|-0.62|0.14|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.14|-0.62|0.2166
82399654|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5262|TWO_SIDED|95.0|-0.52|0.27|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.27|-0.52|0.5262
82399655|NCT04378569|164508771|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.7575|TWO_SIDED|95.0|-0.39|0.54|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Treatment group, pooled site group, and baseline IGA were independent variables, with multiple imputation of missing data|Week 12||0.54|-0.39|0.7575
82399656|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|1.73||||0.2662|TWO_SIDED|95.0|0.64|4.7|||Cochran-Mantel-Haenszel|Stratified|Stratified|Week 2||4.70|0.64|0.2662
82399657|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|1.54||||0.3798|TWO_SIDED|95.0|0.59|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.00|0.59|0.3798
82399658|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0611|TWO_SIDED|95.0|0.9|11.17|||Cochran-Mantel-Haenszel|||Week 2||11.17|0.90|0.0611
82445394|NCT00752726|164599287|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.974||0.085|TWO_SIDED|95.0|-0.24|3.63||P-value was not adjusted for multiple comparisons|ANCOVA|Mean change was adjusted for the treatment, baseline waist circumference and center effects, using an ANCOVA model.|Adjusted mean difference between Placebo group and Orlistat group was determined.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||3.63|-0.24|0.085
82399659|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3129|TWO_SIDED|95.0|0.64|3.93|||Cochran-Mantel-Haenszel|||Week 4||3.93|0.64|0.3129
82445395|NCT00752726|164599289|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.023|STANDARD_ERROR_OF_MEAN|0.0232||0.3235|TWO_SIDED|95.0|-0.069|0.023||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean change was adjusted for the treatment, baseline liver fat and center effects, using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||0.023|-0.069|0.3235
82399660|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9586|TWO_SIDED|95.0|0.35|2.74|||Cochran-Mantel-Haenszel|||Week 4||2.74|0.35|0.9586
82399661|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0643|TWO_SIDED|95.0|0.87|15.29|||Cochran-Mantel-Haenszel|||Week 4||15.29|0.87|0.0643
82399662|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0932|TWO_SIDED|95.0|0.84|6.88|||Cochran-Mantel-Haenszel|||Week 8||6.88|0.84|0.0932
82399663|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|1.42||||0.573|TWO_SIDED|95.0|0.44|4.59|||Cochran-Mantel-Haenszel|||Week 8||4.59|0.44|0.5730
82399664|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|4.96||||0.0389|TWO_SIDED|95.0|0.96|25.66|||Cochran-Mantel-Haenszel|||Week 8||25.66|0.96|0.0389
82399665|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2813|TWO_SIDED|95.0|0.6|5.53|||Cochran-Mantel-Haenszel|||Week 12||5.53|0.60|0.2813
82399666|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|0.72||||0.6841|TWO_SIDED|95.0|0.17|3.03|||Cochran-Mantel-Haenszel|||Week 12||3.03|0.17|0.6841
82399667|NCT04378569|164508773|SUPERIORITY||Odds Ratio (OR)|2.13||||0.3113|TWO_SIDED|95.0|0.49|9.21|||Cochran-Mantel-Haenszel|||Week 12||9.21|0.49|0.3113
82399668|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.21||||0.2674|TWO_SIDED|95.0|0.46|10.67|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||10.67|0.46|0.2674
82576150|NCT00455741|164862022|SUPERIORITY|||||||0.07||||||a priori significance set at p\<0.05|t-test, 2 sided|||||||0.07
82399669|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.78||||0.285|TWO_SIDED|95.0|0.44|17.54|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||17.54|0.44|0.2850
82399670|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.63||||0.3086|TWO_SIDED|95.0|0.42|16.52|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 2||16.52|0.42|0.3086
82399671|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|4.33||||0.1655|TWO_SIDED|95.0|0.46|40.83|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||40.83|0.46|0.1655
82399672|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|1.41||||0.7154|TWO_SIDED|95.0|0.26|7.67|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||7.67|0.26|0.7154
82399673|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.0||||0.5371|TWO_SIDED|95.0|0.27|14.64|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 4||14.64|0.27|0.5371
82399674|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|5.0||||0.217|TWO_SIDED|95.0|0.43|57.83|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||57.83|0.43|0.2170
82399675|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.74||||0.3408|TWO_SIDED|95.0|0.41|18.22|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||18.22|0.41|0.3408
82399676|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.4||||0.327|TWO_SIDED|95.0|0.41|14.2|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade|Stratified by pooled site group and baseline IGA grade|Week 8||14.20|0.41|0.3270
82399677|NCT04378569|164508776|SUPERIORITY|||||||0.0719|||||||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||||0.0719
82399678|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|0.78||||0.8527|TWO_SIDED|95.0|0.07|8.43|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||8.43|0.07|0.8527
82399679|NCT04378569|164508776|SUPERIORITY||Odds Ratio (OR)|2.2||||0.3545|TWO_SIDED|95.0|0.37|13.11|||Cochran-Mantel-Haenszel|Stratified by pooled site group and baseline IGA grade||Week 12||13.11|0.37|0.3545
82399680|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.0725|TWO_SIDED|95.0|-9.2|0.4|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||0.4|-9.2|0.0725
82399681|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-5.8||||0.0183|TWO_SIDED|95.0|-10.7|-1.0|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||-1.0|-10.7|0.0183
82399682|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.5701|TWO_SIDED|95.0|-7.7|4.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables||Week 2||4.3|-7.7|0.5701
82399683|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.2116|TWO_SIDED|95.0|-10.4|2.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||2.3|-10.4|0.2116
82399684|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.1235|TWO_SIDED|95.0|-11.5|1.4|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||1.4|-11.5|0.1235
82399685|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.6334|TWO_SIDED|95.0|-9.7|5.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 4||5.9|-9.7|0.6334
82576151|NCT00475228|164862028|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82399686|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-4.6||||0.1788|TWO_SIDED|95.0|-11.4|2.1|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||2.1|-11.4|0.1788
82399687|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-7.6||||0.0292|TWO_SIDED|95.0|-14.4|-0.8|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||-0.8|-14.4|0.0292
82399688|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-8.8||||0.0371|TWO_SIDED|95.0|-17.1|-0.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 8||-0.5|-17.1|0.0371
82399689|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.2971|TWO_SIDED|95.0|-11.3|3.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||3.5|-11.3|0.2971
82399690|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-9.5||||0.015|TWO_SIDED|95.0|-17.2|-1.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||-1.9|-17.2|0.0150
82399691|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.1245|TWO_SIDED|95.0|-15.8|1.9|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 12||1.9|-15.8|0.1245
82399692|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-5.3||||0.1591|TWO_SIDED|95.0|-12.7|2.1|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||2.1|-12.7|0.1591
82399693|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-7.3||||0.06|TWO_SIDED|95.0|-14.8|0.3|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||0.3|-14.8|0.0600
82399694|NCT04378569|164508777|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.464|TWO_SIDED|95.0|-12.0|5.5|||ANCOVA|Treatment group, pooled site group, and baseline IGA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 13||5.5|-12.0|0.4640
82576152|NCT02209181|164862031|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.38|STANDARD_ERROR_OF_MEAN|2.522|<|0.001|TWO_SIDED|95.0|11.42|21.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.35|11.42|<0.001
82645521|NCT01447628|165006403|SUPERIORITY|||||||0.1993|||||||Mixed Models Analysis|||||||0.1993
82530273|NCT00708305|164756953|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|0.49|||<|0.0001|TWO_SIDED|95.0|0.28|0.7||No adjustment was made for multiple comparisons as the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments being compared. Tests were 2 sided at 5% significance levels.||0.70|0.28|<0.0001
82530274|NCT00708305|164756953|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.44|||<|0.0001||95.0|1.23|1.65||No adjustment was made for multiple comparisons because the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.65|1.23|<0.0001
82530275|NCT00708305|164756953|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49|||<|0.0001||95.0|0.28|0.7||No adjustment was made for multiple comparisons because the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||0.70|0.28|<0.0001
82645522|NCT01447628|165006403|SUPERIORITY|||||||0.1993|||||||Mixed Models Analysis|||||||0.1993
82576153|NCT02209181|164862031|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.58|STANDARD_ERROR_OF_MEAN|2.503||0.068|TWO_SIDED|95.0|-0.35|9.51||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||9.51|-0.35|0.068
82645523|NCT01447628|165006404|SUPERIORITY|||||||0.061|||||||Mixed Models Analysis|||||||0.0610
82645524|NCT01447628|165006404|SUPERIORITY|||||||0.0641|||||||Mixed Models Analysis|||||||0.0641
82645525|NCT01447628|165006405|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
82645526|NCT01447628|165006405|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82645527|NCT01447628|165006405|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82645528|NCT01447628|165006406|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82645529|NCT01447628|165006407|SUPERIORITY|||||||0.8093|||||||Mixed Models Analysis|||||||0.8093
82645530|NCT01447628|165006407|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|||||||0.6300
82645531|NCT01447628|165006407|SUPERIORITY|||||||0.8533|||||||Mixed Models Analysis|||||||0.8533
82399695|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.066||||0.3184|TWO_SIDED|95.0|-0.196|0.064|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, and baseline IGA were independent variables|Week 2||0.064|-0.196|0.3184
82645532|NCT01447628|165006408|SUPERIORITY|||||||0.0725|||||||Mixed Models Analysis|||||||0.0725
82645533|NCT01447628|165006408|SUPERIORITY|||||||0.8572|||||||Mixed Models Analysis|||||||0.8572
82645534|NCT01447628|165006408|SUPERIORITY|||||||0.2348|||||||Mixed Models Analysis|||||||0.2348
82645535|NCT01447628|165006409|SUPERIORITY|||||||0.1115|||||||Mixed Models Analysis|||||||0.1115
82645536|NCT01447628|165006410|SUPERIORITY|||||||0.979|||||||Mixed Models Analysis|||||||0.9790
82645537|NCT01447628|165006411|SUPERIORITY|||||||0.7702|||||||Mixed Models Analysis|||||||0.7702
82645538|NCT01447628|165006412|SUPERIORITY|||||||0.2219|||||||Mixed Models Analysis|||||||0.2219
82645539|NCT01447628|165006413|SUPERIORITY|||||||0.1777|||||||Mixed Models Analysis|||||||0.1777
82645540|NCT01447628|165006413|SUPERIORITY|||||||0.7889|||||||Mixed Models Analysis|||||||0.7889
82645541|NCT01447628|165006413|SUPERIORITY|||||||0.4156|||||||Mixed Models Analysis|||||||0.4156
82645542|NCT01447628|165006414|SUPERIORITY|||||||0.7625|||||||Mixed Models Analysis|||||||0.7625
82645543|NCT01447628|165006414|SUPERIORITY|||||||0.2262|||||||Mixed Models Analysis|||||||0.2262
82645544|NCT01447628|165006414|SUPERIORITY|||||||0.4756|||||||Mixed Models Analysis|||||||0.4756
82645545|NCT01447628|165006415|SUPERIORITY|||||||0.7711|||||||Mixed Models Analysis|||||||0.7711
82645546|NCT01447628|165006415|SUPERIORITY|||||||0.7806|||||||Mixed Models Analysis|||||||0.7806
82645547|NCT01447628|165006415|SUPERIORITY|||||||0.9074|||||||Mixed Models Analysis|||||||0.9074
82645548|NCT01447628|165006416|SUPERIORITY|||||||0.9504|||||||Mixed Models Analysis|||||||0.9504
82645549|NCT01447628|165006416|SUPERIORITY|||||||0.8666|||||||Mixed Models Analysis|||||||0.8666
82645550|NCT01447628|165006416|SUPERIORITY|||||||0.8104|||||||Mixed Models Analysis|||||||0.8104
82645551|NCT01447628|165006417|SUPERIORITY|||||||0.4478|||||||Mixed Models Analysis|||||||0.4478
82645552|NCT01447628|165006418|SUPERIORITY|||||||0.459|||||||Mixed Models Analysis|||||||0.4590
82645553|NCT01447628|165006419|SUPERIORITY|||||||0.8086|||||||Mixed Models Analysis|||||||0.8086
82645554|NCT01447628|165006420|SUPERIORITY|||||||0.6944|||||||Mixed Models Analysis|||||||0.6944
82645555|NCT01447628|165006421|SUPERIORITY|||||||0.585|||||||Mixed Models Analysis|||||||0.585
82645556|NCT01447628|165006422|SUPERIORITY|||||||0.4619|||||||Mixed Models Analysis|||||||0.4619
82645557|NCT01447628|165006423|SUPERIORITY|||||||0.7721|||||||Mixed Models Analysis|||||||0.7721
82645558|NCT01447628|165006424|SUPERIORITY|||||||0.8332|||||||Mixed Models Analysis|||||||0.8332
82645559|NCT01447628|165006425|SUPERIORITY|||||||0.2651|||||||Mixed Models Analysis|||||||0.2651
82645560|NCT00396981|165006435|NON_INFERIORITY_OR_EQUIVALENCE|This study used a non-inferiority design to demonstrate that the Matrix Coil is non-inferior to the GDC Coil, with a clinically acceptable non-inferiority margin set at 10%. Non-inferiority was used to establish the baseline estimate, which future superiority studies could be conducted. Non-inferiority was shown with a one-sided 95% CI of the difference less than the pre-specified 10% margin||||||0.76|||||||Log Rank|||Intent-to-Treat, All Subjects (N=626) GDC (N=315) Matrix (N=311) All Subjects (N=626) Subjects Who Met Primary Endpoint 35 (11.1%) 34 (10.9%) 69 (11.0%)||||0.76
82645561|NCT05144477|165006442|OTHER|Proportion of referrals who provided consent and enrolled into the study was calculated.|Proportion|0.64|||||TWO_SIDED|95.0|0.425|0.82||||||||0.820|0.425|
82399696|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.013||||0.8514|TWO_SIDED|95.0|-0.149|0.123|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 2||0.123|-0.149|0.8514
82399697|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|0.091||||0.2603|TWO_SIDED|95.0|-0.068|0.249|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 2||0.249|-0.068|0.2603
82399698|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.171||||0.0273|TWO_SIDED|95.0|-0.323|-0.019|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||-0.019|-0.323|0.0273
82399699|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0266|TWO_SIDED|95.0|-0.339|-0.021|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||-0.021|-0.339|0.0266
82399700|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.9023|TWO_SIDED|95.0|-0.196|0.173|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 4||0.173|-0.196|0.9023
82399701|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.096||||0.3298|TWO_SIDED|95.0|-0.291|0.098|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.098|-0.291|0.3298
82399702|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6205|TWO_SIDED|95.0|-0.251|0.15|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.150|-0.251|0.6205
82399703|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.018||||0.8817|TWO_SIDED|95.0|-0.253|0.217|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 8||0.217|-0.253|0.8817
82399704|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.122||||0.1837|TWO_SIDED|95.0|-0.302|0.058|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 12||0.058|-0.302|0.1837
82399705|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|-0.102||||0.2896|TWO_SIDED|95.0|-0.293|0.088|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|||0.088|-0.293|0.2896
82399706|NCT04378569|164508778|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.919|TWO_SIDED|95.0|-0.205|0.227|||ANCOVA|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Treatment group, pooled site group, baseline IGA grade, and baseline % BSA were independent variables|Week 12||0.227|-0.205|0.9190
82399707|NCT02207400|164508782|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.612|||<|0.0001|TWO_SIDED|95.0|-13.191|-10.033|||ANCOVA||Difference is Sodium Bicarbonate and Sodium Fluoride Dentifrice minus Sodium Fluoride Dentifrice such that a negative difference favors the first named treatment.|||-10.033|-13.191|<0.0001
82399708|NCT02207400|164508783|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.652|||<|0.0001|TWO_SIDED|95.0|-0.738|-0.566|||ANCOVA||Difference is Sodium Bicarbonate and Sodium Fluoride Dentifrice minus Sodium Fluoride Dentifrice such that a negative difference favors the first named treatment.|||-0.566|-0.738|<0.0001
82399709|NCT01128400|164508844|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82399710|NCT01128400|164508845|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82399711|NCT02362425|164508846|SUPERIORITY|An a priori power calculation, with power at 80% and a two-sided α of 0·05, determined that n=76 participants (n=38 per group) would be required to detect a statistically significant post-intervention difference in plasma glutathione (GSH) concentration between NAC and placebo groups. After the primary endpoint was changed, re-evaluation of the sample size determined that a larger sample (total n=182) would be required. As per protocol, the study was completed at this time.|Mean Difference (Final Values)|0.1||||0.88|TWO_SIDED|95.0|-1.4|1.6|||Regression, Linear|Model comparing 12 m corrected 15-F2t-isoprostane conc. controlling for pre-intervention value. Investigated covariates: smoking and drinking status.||Null Hypothesis: In RYR1-RM myopathy patients, there will be no statistically significant difference in corrected 15-F2t-isoprostane concentration and/or corrected 15=f2t-Isop:PGR2alpha ratio between NAC and placebo groups at month 12, after controlling for established a priori confounders.||1.6|-1.4|0.88
82399712|NCT02362425|164508847|SUPERIORITY||Mean Difference (Final Values)|23.9||||0.11|TWO_SIDED|95.0|-5.5|53.4||Model controlled for six-month(pre-intervention) distance and treatment group. Investigated covariates: height|Regression, Linear|||In RYR1-RM myopathy patients, there will be no statistically significant difference in 6MWT (six minute walk test) total distance between NAC and placebo groups at month 12, after controlling for established a priori confounders.||53.4|-5.5|.11
82399713|NCT02362425|164508848|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.14|TWO_SIDED|95.0|-3.6|0.7|||Regression, Linear|||||0.7|-3.6|0.14
82399714|NCT02362425|164508849|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.62|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||||0.3|-0.5|0.62
82399715|NCT02362425|164508850|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.05|TWO_SIDED|95.0|-1.1|0.0|||t-test, 2 sided|||||0.0|-1.1|0.05
82399716|NCT02362425|164508851|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.25|TWO_SIDED|95.0|-2.1|0.6|||t-test, 2 sided|||||0.6|-2.1|0.25
82399717|NCT02362425|164508852|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.05|TWO_SIDED|95.0|-2.1|0.0|||t-test, 2 sided|||||0.0|-2.1|0.05
82399718|NCT02362425|164508853|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.09|TWO_SIDED|95.0|-0.6|7.3|||t-test, 2 sided|||||7.3|-0.6|0.09
82645562|NCT05144477|165006443|OTHER|Proportion of enrolled participants who remained in the study at 30 days after the end of hospital care was calculated.|Proportion|0.875|||||TWO_SIDED|95.0|0.617|0.985||||||||0.985|0.617|
82399719|NCT02362425|164508854|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.69|TWO_SIDED|95.0|-1.3|2.0|||t-test, 2 sided|||||2.0|-1.3|0.69
82399720|NCT02362425|164508855|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.31|TWO_SIDED|95.0|-3.5|1.1|||t-test, 2 sided|||||1.1|-3.5|0.31
82399721|NCT02362425|164508856|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.22|TWO_SIDED|95.0|-0.8|3.0|||t-test, 2 sided|||||3.0|-0.8|0.22
82399722|NCT02362425|164508857|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.93|TWO_SIDED|95.0|-2.6|2.4|||t-test, 2 sided|||||2.4|-2.6|0.93
82399723|NCT02362425|164508858|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.66|TWO_SIDED|95.0|-1.3|0.8|||t-test, 2 sided|||||0.8|-1.3|0.66
82399724|NCT02362425|164508859|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.09|TWO_SIDED|95.0|-0.4|4.6|||t-test, 2 sided|||||4.6|-0.4|0.09
82399725|NCT02362425|164508860|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.09|TWO_SIDED|95.0|-0.7|9.0|||t-test, 2 sided|||||9.0|-0.7|0.09
82399726|NCT02362425|164508861|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.15|TWO_SIDED|95.0|-13.4|2.4|||t-test, 2 sided|||||2.4|-13.4|0.15
82399727|NCT02362425|164508862|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.08|TWO_SIDED|95.0|-13.7|1.0|||t-test, 2 sided|||||1.0|-13.7|0.08
82399728|NCT02362425|164508863|SUPERIORITY||Mean Difference (Final Values)|-16.27||||0.39|TWO_SIDED|95.0|-80.1|47.5|||t-test, 2 sided|||||47.5|-80.1|0.39
82399729|NCT02362425|164508864|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.57|TWO_SIDED|95.0|-59.5|39.5|||t-test, 2 sided|||||39.5|-59.5|0.57
82399730|NCT02362425|164508865|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.12|TWO_SIDED|95.0|-5.0|0.6|||t-test, 2 sided|||||0.6|-5.0|0.12
82399731|NCT02362425|164508866|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.76|TWO_SIDED|95.0|-3.6|2.7|||t-test, 2 sided|||||2.7|-3.6|0.76
82399732|NCT02362425|164508867|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.72|TWO_SIDED|95.0|-2.5|3.5|||t-test, 2 sided|||||3.5|-2.5|0.72
82399733|NCT02362425|164508868|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.7|TWO_SIDED|95.0|-1.8|2.7|||t-test, 2 sided|||||2.7|-1.8|0.70
82399734|NCT02362425|164508869|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.88|TWO_SIDED|95.0|-2.8|3.3|||t-test, 2 sided|||||3.3|-2.8|0.88
82399735|NCT02362425|164508870|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.61|TWO_SIDED|95.0|-10.3|15.2|||t-test, 2 sided|||||15.2|-10.3|0.61
82399736|NCT02362425|164508871|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.87|TWO_SIDED|95.0|-7.4|8.5|||t-test, 2 sided|||||8.5|-7.4|0.87
82399737|NCT02362425|164508872|SUPERIORITY||Mean Difference (Final Values)|-12.5||||0.28|TWO_SIDED|95.0|-38.9|13.9|||t-test, 2 sided|||||13.9|-38.9|0.28
82399738|NCT02771860|164508908|SUPERIORITY||Mean Difference (Final Values)|8.9||||0.024|TWO_SIDED|95.0|1.0|16.9|||GEE|||Comparison between groups was done by Generalized Estimation Equations at joint level, accounting for within-patient clustering and adjusted for baseline unbalances. Missing values were imputed according to a predefined imputation model, including randomization group, baseline value and values at other time points available, presence of baseline inflammation, baseline number of affected joints.||16.9|1.0|0.024
82399739|NCT02771860|164508909|SUPERIORITY||Odds Ratio (OR)|0.23|||<|0.001|TWO_SIDED|95.0|0.11|0.5|||Regression, Logistic|||||0.50|0.11|<0.001
82399740|NCT02771860|164508910|SUPERIORITY||Mean Difference (Final Values)|14.3||||0.003|TWO_SIDED|95.0|4.6|24.0|||GEE|||Comparison between groups was done by Generalized Estimation Equations at joint level, accounting for within-patient clustering and adjusted for baseline unbalances. Missing values were imputed according to a predefined imputation model, including randomization group, baseline value and values at other time points available, presence of baseline inflammation, baseline number of affected joints.||24.0|4.6|0.003
82399741|NCT04304508|164508917|OTHER|Dose-response test by using multiple comparison procedures (MCP) Mod.||||||0.7976|||||||MCP Mod|||Dose-response test||||0.7976
82399742|NCT04304508|164508917|OTHER||Crude incidence ratio|1.044|||||TWO_SIDED|90.0|0.8105|1.3478||||||Comparison of the Asundexian 10 mg group versus Placebo group.||1.3478|0.8105|
82399743|NCT04304508|164508917|OTHER||Crude incidence ratio|1.1963|||||TWO_SIDED|90.0|0.9281|1.5428||||||Comparison of the Asundexian 20 mg group versus Placebo group.||1.5428|0.9281|
82399744|NCT04304508|164508917|OTHER||Crude incidence ratio|1.0485|||||TWO_SIDED|90.0|0.8082|1.3619||||||Comparison of the Asundexian 50 mg group versus Placebo group.||1.3619|0.8082|
82399745|NCT04304508|164508925|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.724|||=|0.1507|TWO_SIDED|90.0|0.924|3.215|||Log Rank|||Comparison of the Asundexian 10 mg group versus Placebo group||3.215|0.924|= 0.1507
82399746|NCT04304508|164508925|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.285|||=|0.5339|TWO_SIDED|90.0|0.662|2.494|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||2.494|0.662|= 0.5339
82399747|NCT04304508|164508925|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.749|||=|0.1401|TWO_SIDED|90.0|0.938|3.262|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||3.262|0.938|= 0.1401
82399748|NCT04304508|164508925|OTHER|Cause specific HRs were only calculated if at least 3 events occurred in 1 of the compared groups and at least 1 event in each of the compared treatment groups.|Cox Proportional Hazard|1.585|||=|0.1653|TWO_SIDED|90.0|0.918|2.736|||Log Rank|||Comparison of the Total Asundexian group versus Placebo group||2.736|0.918|= 0.1653
82399749|NCT02688764|164508940|SUPERIORITY|||||||0.1465||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.1465
82399750|NCT02688764|164508943|SUPERIORITY|||||||0.0872||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects||||0.0872
82445396|NCT00752726|164599290|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|783.8|STANDARD_ERROR_OF_MEAN|726.54||0.28|TWO_SIDED|95.0|-657.3|2224.9||P-value was not adjusted for multiple comparisons|ANCOVA|Mean change was adjusted for the treatment, baseline total calories expended and center effects using an ANCOVA model.|Adjusted mean difference between placebo group and Orlistat group was evaluated.|The null hypothesis considered no difference in the change from baseline to week 24 between the two treatment groups.||2224.9|-657.3|0.28
82399751|NCT02688764|164508944|SUPERIORITY|||||||0.6207||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 2 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.6207
82399752|NCT02688764|164508944|SUPERIORITY|||||||0.3226||||||0.05 level of significance|t-test, 2 sided|||Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 2 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects.||||0.3226
82399753|NCT02688764|164508962|SUPERIORITY|||||||0.5682||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=2 years to \<6 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.5682
82399754|NCT02688764|164508962|SUPERIORITY|||||||0.2271||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=6 years to \<12 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.2271
82399755|NCT02688764|164508962|SUPERIORITY|||||||0.022||||||0.05 level of significance|t-test, 2 sided|||"Age group of \>=12 years to \<=18 years~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.0220
82399756|NCT02688764|164508963|SUPERIORITY|||||||0.0058||||||0.05 level of significance|t-test, 2 sided|||"Group of SP at baseline above Age Related Normal Range~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.0058
82399757|NCT02688764|164508963|SUPERIORITY|||||||0.5801||||||0.05 level of significance|t-test, 2 sided|||"Group of SP at baseline below or within Age Related Normal Range~Results are obtained from a linear mixed model which includes change in serum phosphorus levels from baseline to the end of Stage 1 as dependent variable and treatment, baseline serum phosphorus, age (in categories) at randomisation, region (Non-US/US) and gender as fixed effects."||||0.5801
82399758|NCT00885378|164508967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.51|STANDARD_ERROR_OF_MEAN|6.162||0.1248|TWO_SIDED|95.0|-21.68|2.66|||ANCOVA|ANCOVA model: post - pre = pretreatment.|Estimate = adjusted mean change for Saxagliptin - adjusted mean change for Placebo.|||2.66|-21.68|0.1248
82399759|NCT00885378|164508968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|||||TWO_SIDED|95.0|1.1|25.4|||||Adjusted for baseline.|||25.4|1.1|
82399760|NCT00885378|164508969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|||||TWO_SIDED|95.0|3.0|24.7|||||Adjusted for baseline.|||24.7|3.0|
82399761|NCT00885378|164508976|SUPERIORITY_OR_OTHER||Standard Error of the Mean|-0.34||||0.0063|TWO_SIDED|95.0|-0.58|-0.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo at Week 12(LOCF) was adjusted for baseline.|difference between week t value - baseline value = baseline value + treatment.|||-0.10|-0.58|0.0063
82399762|NCT05725824|164509004|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
82399763|NCT05725824|164509005|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
82445397|NCT00752726|164599291|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|STANDARD_ERROR_OF_MEAN|1.542||0.2847|TWO_SIDED|95.0|-1.4|4.72||P-value was not adjusted for multiple comparisons.|ANCOVA|Mean difference was adjusted for the treatment, baseline value and center effects using an ANCOVA model.|Adjusted mean difference was calculated as placebo minus orlistat.|The null hypothesis considered no difference in the change from baseline to week 24 between the treatment groups.||4.72|-1.40|0.2847
82399764|NCT05725824|164509006|SUPERIORITY||||||<|0.05||||||Arms/Groups were collapsed for RM-ANOVA to compare between various earmold types. A post-hoc paired t-test w/ Bonferroni correction was utilized to compare ear mold material types.|Repeated Measure Analysis of Variance|||||||<0.05
82399765|NCT05725824|164509007|SUPERIORITY||||||<|0.05|||||||Repeated Measure Analysis of Variance|||||||<0.05
82399766|NCT03026283|164509021|OTHER|||||||1||||||In order to evaluate the significance of sensitivity and specificity findings, we implement McNemar's test comparing sensitivity and specificity for CCTA alone and FFR-CT, assuming conditional dependence.|Chi-squared|||Reference test is positive (test of sensitivity).||||1.00
82399767|NCT03026283|164509021|OTHER||||||<|0.0047||||||In order to evaluate the significance of sensitivity and specificity findings, we implement Mcnemar's test comparing sensitive and pscificity for CCTA and FFR-CT assuming dependence.|Chi-squared|McNemar's chi-squared = 8.00||Reference test is Negative||||<0.0047
82399768|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|99.1|-4.0|7.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 1 - Control|Testing equivalence with respect to microsphere clearance rate.||7.4|-4.0|
82399769|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|3.01|||TWO_SIDED|99.1|-4.0|13.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Control|Testing equivalence with respect to microsphere clearance rate.||13.4|-4.0|
82645563|NCT05144477|165006444|OTHER|Proportion of participants randomized to the FAID Fear Diary Intervention who wrote in the diary at least twice per week up until the end of hospital care was calculated.|Proportion|0.636|||||TWO_SIDED|95.0|0.308|0.891||||||||0.891|0.308|
82399770|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|8.2|STANDARD_ERROR_OF_MEAN|3.78|||TWO_SIDED|99.1|-2.7|19.1|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Control|Testing equivalence with respect to microsphere clearance rate.||19.1|-2.7|
82399771|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|99.1|-2.6|15.5|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 1|Testing equivalence with respect to microsphere clearance rate.||15.5|-2.6|
82399772|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|99.1|-2.0|8.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 2|Testing equivalence with respect to microsphere clearance rate.||8.9|-2.0|
82399773|NCT03782571|164509059|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|99.1|-4.3|10.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Test 1|Testing equivalence with respect to microsphere clearance rate.||10.3|-4.3|
82399774|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|3.24|||TWO_SIDED|99.1|-1.0|17.8|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 1 - Control|Testing equivalence with respect to microsphere uptake rate.||17.8|-1.0|
82399775|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|4.95|||TWO_SIDED|99.1|-7.8|20.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Control|Testing equivalence with respect to microsphere uptake rate.||20.9|-7.8|
82399776|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|6.22|||TWO_SIDED|99.1|-15.1|20.9|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Control|Testing equivalence with respect to microsphere uptake rate.||20.9|-15.1|
82399777|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|5.13|||TWO_SIDED|99.1|-20.4|9.4|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 1|Testing equivalence with respect to microsphere uptake rate.||9.4|-20.4|
82399778|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|99.1|-12.6|5.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 3 - Test 2|Testing equivalence with respect to microsphere uptake rate.||5.3|-12.6|
82399779|NCT03782571|164509060|EQUIVALENCE|Equivalence is concluded if the upper limit is less than 10% and the lower limit is greater than -10%.|Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|4.18|||TWO_SIDED|99.1|-13.9|10.3|||Mixed Models Analysis|Kenward and Roger method was used for denominator degrees of freedom. Adjustment was made using a simulation-based approach.|Test 2 - Test 1|Testing equivalence with respect to microsphere uptake rate.||10.3|-13.9|
82399780|NCT01267929|164509069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.14||0.34|TWO_SIDED|95.0|-2.3|6.5||Statistical analysis was conducted using STATA. Analysis of Covariance (ANCOVA) was used to compare mean score of GMFM at the second month between two groups.|ANCOVA|||A sample size of 30 children, 15 for each group, was needed to obtain 80% power at 0.05 level of significance (two-sided) to test that the successful event rate (increasing GMFM scores at least 30% from baseline at the end of 2 months) in experimental group and control group of 0.3 and 0.8 respectively. The mean changes of GMFM total scores in the experimental group at the second month compared to those in the control group after adjusted for the baseline level.||6.5|-2.3|0.34
82399781|NCT01267929|164509069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|2.7||0.78|TWO_SIDED|95.0|-6.3|4.7||Statistical analysis was conducted using STATA. Analysis of Covariance (ANCOVA) was used to compare mean score of GMFM at the sixth month between two groups.|ANCOVA|||A sample size of 30 children, 15 for each group, was needed to obtain 80% power at 0.05 level of significance (two-sided) to test that the successful event rate (increasing GMFM scores at least 30% from baseline at the end of 2 months) in experimental group and control group of 0.3 and 0.8 respectively. The mean changes of GMFM total scores in the experimental group at the sixth month compared to those in the control group after adjusted for the baseline level.||4.7|-6.3|0.78
82399782|NCT04727528|164509079|SUPERIORITY||Odds Ratio (OR)|56.2||||0.001|TWO_SIDED|95.0|5.6|563.6|||Wald Chi-Squared test||Logistic regression model included response status (response / non-response) as the dependent variable and randomized treatment as an independent factor.|||563.6|5.6|0.001
82645564|NCT05144477|165006445|OTHER|Proportion of enrolled participants who provided complete data for at least 90% of all study assessments was calculated.|Proportion|0.875|||||TWO_SIDED|95.0|0.617|0.985||||||||0.985|0.617|
82645565|NCT05144477|165006446|OTHER|Proportion of intervention participants who agreed that the ICU diary was acceptable for reducing fear about their loved one's heart was calculated.|Proportion|0.8|||||TWO_SIDED|95.0|0.444|0.975||||||||0.975|0.444|
82645566|NCT05144477|165006447|OTHER|Proportion of intervention participants who agreed that the ICU diary was feasible for reducing fear about their loved one's heart was calculated.|Proportion|0.9|||||TWO_SIDED|95.0|0.555|0.998||||||||0.998|0.555|
82530276|NCT00708305|164756953|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.44|||<|0.0001|TWO_SIDED|95.0|1.23|1.65||No adjustment was made for multiple comparisons because the comparison was predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.65|1.23|<0.0001
82399783|NCT04727528|164509080|SUPERIORITY||Least-squares mean|1.64|STANDARD_ERROR_OF_MEAN|0.81||0.05|TWO_SIDED|95.0|0.0|3.29|||t-test, 2 sided|||Difference between groups||3.29|-0.00|0.050
82399784|NCT04727528|164509081|SUPERIORITY||Odds Ratio (OR)|3.2||||0.153|TWO_SIDED|95.0|0.6|15.8|||Wald Chi-Squared test|||Comparison between groups||15.8|0.6|0.153
82399785|NCT04727528|164509082|SUPERIORITY||Odds Ratio (OR)|57008.6||||0.94|TWO_SIDED|95.0|0.0||The upper limit of the 95% confidence interval = 13124060000000000000000000000||Wald Chi-Squared test|||Comparison between groups|||0.0|0.940
82399786|NCT04727528|164509083|SUPERIORITY||Odds Ratio (OR)|2.2||||0.271|TWO_SIDED|95.0|0.5|8.6|||Wald Chi-Squared test|||Comparison between groups||8.6|0.5|0.271
82399787|NCT04727528|164509084|SUPERIORITY||Odds Ratio (OR)|10.8||||0.039|TWO_SIDED|95.0|1.1|102.8|||Wald Chi-Squared test|||Comparison between groups||102.8|1.1|0.039
82399788|NCT04727528|164509085|SUPERIORITY||Odds Ratio (OR)|57008.6||||0.94|TWO_SIDED|95.0|0.0||The upper limit of the 95% confidence interval = 13124060000000000000000000000||Wald Chi-Squared test|||Comparison between groups|||0.0|0.940
82576154|NCT02209181|164862031|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.2|STANDARD_ERROR_OF_MEAN|2.531|<|0.001|TWO_SIDED|95.0|11.21|21.18||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.18|11.21|<0.001
82399789|NCT01649362|164509087|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||||||0.63
82399790|NCT01649362|164509088|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
82399791|NCT01649362|164509089|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
82399792|NCT04656301|164509090|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|degrees of freedom = 1.92||||||<0.001
82399793|NCT01393522|164509128|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED||||||ANCOVA|||||||0.1
82399794|NCT01393522|164509128|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
82399795|NCT01393522|164509129|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|TWO_SIDED||||||t-test, 2 sided|||||||0.33
82399796|NCT01393522|164509130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|TWO_SIDED||||||ANCOVA|||||||0.75
82399797|NCT01393522|164509130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||t-test, 2 sided|||||||0.24
82399798|NCT01393522|164509131|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
82399799|NCT01393522|164509132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|TWO_SIDED||||||t-test, 2 sided|||||||0.41
82399800|NCT01393522|164509133|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.09
82399801|NCT01393522|164509134|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
82576155|NCT02209181|164862031|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.81|STANDARD_ERROR_OF_MEAN|2.503|<|0.001|TWO_SIDED|95.0|-16.73|-6.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-6.88|-16.73|<0.001
82576156|NCT02209181|164862031|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|2.531||0.941|TWO_SIDED|95.0|-5.17|4.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.80|-5.17|0.941
82399802|NCT03479008|164509135|OTHER||||||<|0.0001||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||This presents the p value for the thigh comparison baseline to during stimulation||||<0.0001
82399803|NCT03479008|164509135|SUPERIORITY||||||<|0.0001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||This presents the p value for the calf comparisons between baseline and during stimulation.||||<0.0001
82399804|NCT03479008|164509135|OTHER||||||<|0.001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||This statistical analysis presents the data for the biceps comparisons between baseline and during stimulation.||||<0.001
82399805|NCT03479008|164509136|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||The P value below applies to the VO2||||<0.0001
82399806|NCT03479008|164509136|SUPERIORITY||||||<|0.001|||||||post-hoc analysis|with Bonferroni correction||This p value applies to the VCO2||||<0.001
82399807|NCT03479008|164509137|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||||||<0.0001
82399808|NCT03479008|164509138|SUPERIORITY||||||<|0.0001|||||||post-hoc analysis|with Bonferroni correction||||||<0.0001
82399809|NCT03479008|164509139|SUPERIORITY|||||||0.094|||||||post-hoc analysis|with Bonferroni correction||||||0.094
82399810|NCT03479008|164509140|SUPERIORITY|||||||0.011||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for Muscle bellies of Soleus (SO)||||0.011
82399811|NCT03479008|164509140|SUPERIORITY|||||||0.012|||||||ANOVA|Statistical significance level was set at p \< 0.05 for all tests.||Comparison of Vibration to Baseline for tibialis anterior (TA)||||0.012
82399812|NCT03479008|164509140|SUPERIORITY|||||||0.003||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for gastrocnemius lateralis (GL)||||0.003
82399813|NCT03479008|164509140|SUPERIORITY||||||<|0.001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for vastus medialis (VM)||||<0.001
82399814|NCT03479008|164509140|SUPERIORITY||||||<|0.0001||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for vastus lateralis (VL)||||<0.0001
82399815|NCT03479008|164509140|SUPERIORITY|||||||0.59||||||Statistical significance level was set at p \<0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for rectus femoris (RF)||||0.59
82399816|NCT03479008|164509140|SUPERIORITY|||||||0.86||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for semitendinosus (ST)||||0.86
82530277|NCT00708305|164756953|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.95|||<|0.0001|TWO_SIDED|95.0|0.74|1.16||No adjustment was made for multiple comparisons as the comparisons were predefined.|ANCOVA|The model included mean baseline fluoride level for treatment period (covariate), treatment and period as fixed and subject was random factor.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||1.16|0.74|<0.0001
82530278|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.83||||0.0151|TWO_SIDED|95.0|0.12|1.72||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.72|0.12|0.0151
82375628|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.91||||0.003|TWO_SIDED|95.0|-3.15|-0.68||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||-0.68|-3.15|0.003
82375629|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.18|||<|0.001|TWO_SIDED|95.0|-3.47|-0.89||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.89|-3.47|<0.001
82375630|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.62|||<|0.001|TWO_SIDED|95.0|-4.06|-1.19||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-1.19|-4.06|<0.001
82375631|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-3.7|-0.95||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.95|-3.70|<0.001
82375632|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.78|||<|0.001|TWO_SIDED|95.0|-4.19|-1.37||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-1.37|-4.19|<0.001
82375633|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.71|||<|0.001|TWO_SIDED|95.0|-4.13|-1.29||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-1.29|-4.13|<0.001
82375634|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.92|||<|0.001|TWO_SIDED|95.0|-4.38|-1.46||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-1.46|-4.38|<0.001
82375635|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-3.08|||<|0.001|TWO_SIDED|95.0|-4.59|-1.57||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-1.57|-4.59|<0.001
82375636|NCT00261443|164457821|SUPERIORITY_OR_OTHER_LEGACY||Difference|-3.04|||<|0.001|TWO_SIDED|95.0|-4.55|-1.54||Mean change from baseline: ANOVA model, controlling for treatment, mood stabilizer, index mood episode, and baseline value. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-1.54|-4.55|<0.001
82375637|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.2||||0.59|TWO_SIDED|95.0|-0.54|0.94||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.94|-0.54|0.590
82375638|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.5||||0.371|TWO_SIDED|95.0|-1.59|0.6||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.60|-1.59|0.371
82399817|NCT03479008|164509140|SUPERIORITY|||||||0.006||||||Statistical significance level was set at p \< 0.05 for all tests.|ANOVA|||Comparison of Vibration to Baseline for deltoideus medius||||0.006
82530279|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.36|||<|0.0001|TWO_SIDED|95.0|0.69|2.36||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||2.36|0.69|<0.0001
82375639|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.04||||0.113|TWO_SIDED|95.0|-2.33|0.25||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.25|-2.33|0.113
82576157|NCT02209181|164862032|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.15||0.448|TWO_SIDED|95.0|-0.19|0.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.42|-0.19|0.448
82375640|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.0||||0.128|TWO_SIDED|95.0|-2.28|0.29||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.29|-2.28|0.128
82375641|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.85||||0.205|TWO_SIDED|95.0|-2.16|0.47||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.47|-2.16|0.205
82375642|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.13||||0.125|TWO_SIDED|95.0|-2.59|0.32||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.32|-2.59|0.125
82375643|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.43||||0.061|TWO_SIDED|95.0|-2.92|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.06|-2.92|0.061
82375644|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.51||||0.06|TWO_SIDED|95.0|-3.07|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.06|-3.07|0.060
82375645|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.62||||0.046|TWO_SIDED|95.0|-3.21|-0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.03|-3.21|0.046
82375646|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.15||||0.164|TWO_SIDED|95.0|-2.77|0.47||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.47|-2.77|0.164
82375647|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.53||||0.066|TWO_SIDED|95.0|-3.16|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.10|-3.16|0.066
82375648|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-1.57||||0.066|TWO_SIDED|95.0|-3.24|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.10|-3.24|0.066
82375649|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.08||||0.014|TWO_SIDED|95.0|-3.73|-0.43||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.43|-3.73|0.014
82375650|NCT00261443|164457823|SUPERIORITY_OR_OTHER_LEGACY||Difference|-2.01||||0.019|TWO_SIDED|95.0|-3.68|-0.34||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.34|-3.68|0.019
82375651|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.05||||0.597|TWO_SIDED|95.0|-0.13|0.22||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.22|-0.13|0.597
82375652|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.02||||0.838|TWO_SIDED|95.0|-0.17|0.21||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.21|-0.17|0.838
82399818|NCT01796301|164509141|SUPERIORITY|A two-step, step-down, fixed-sequential testing procedure was used to test the primary and key secondary efficacy endpoints for the comparison of romosozumab to teriparatide in the order presented for multiplicity adjustment to maintain the overall significance level at 0.05. The Key Secondary Efficacy Endpoints are the first 8 secondary endpoints reported below.|Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.7|3.8|||Linear mixed effects repeated measures|||The primary analysis to assess the treatment difference (Romosozumab - Teriparatide) employed a linear mixed effects model for repeated measures. The model included main effects for treatment group, visit (categorical), baseline sCTX, baseline hip DXA BMD value, machine type (categorical), and machine type-by-baseline value interaction (to adjust for the effect of machine type on baseline DXA BMD value) as fixed main effects using an unstructured within-subject variance-covariance structure.||3.8|2.7|< 0.0001
82399819|NCT01796301|164509142|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.5|3.7|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||3.7|2.5|< 0.0001
82530280|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.01|||<|0.0001|TWO_SIDED|95.0|2.06|4.05||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis is no difference between treatments. Tests were 2-sided.||4.05|2.06|<0.0001
82576158|NCT02209181|164862032|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.15||0.618|TWO_SIDED|95.0|-0.38|0.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.22|-0.38|0.618
82375653|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.291|TWO_SIDED|95.0|-0.32|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.10|-0.32|0.291
82375654|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.219|TWO_SIDED|95.0|-0.37|0.08||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.08|-0.37|0.219
82375655|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.18||||0.133|TWO_SIDED|95.0|-0.41|0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.05|-0.41|0.133
82375656|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.21||||0.092|TWO_SIDED|95.0|-0.46|0.04||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.04|-0.46|0.092
82375657|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.018|TWO_SIDED|95.0|-0.56|-0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||-0.05|-0.56|0.018
82375658|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.029|TWO_SIDED|95.0|-0.56|-0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.03|-0.56|0.029
82375659|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.024|TWO_SIDED|95.0|-0.57|-0.04||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.04|-0.57|0.024
82375660|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.035|TWO_SIDED|95.0|-0.56|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.02|-0.56|0.035
82375661|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.038|TWO_SIDED|95.0|-0.56|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.02|-0.56|0.038
82399820|NCT01796301|164509143|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.8|4.0|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.0|2.8|< 0.0001
82399821|NCT01796301|164509144|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.8|4.0|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.0|2.8|< 0.0001
82399822|NCT01796301|164509145|SUPERIORITY||Treatment difference|4.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|3.9|5.3|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||5.3|3.9|< 0.0001
82399823|NCT01796301|164509146|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.5|3.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.6|2.5|< 0.0001
82399824|NCT01796301|164509147|SUPERIORITY||Treatment difference|3.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.9|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.2|2.9|< 0.0001
82399825|NCT01796301|164509148|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.4|3.8|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.8|2.4|< 0.0001
82399826|NCT01796301|164509149|SUPERIORITY||Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|2.1|4.3|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.3|2.1|< 0.0001
82399827|NCT01796301|164509150|SUPERIORITY||Treatment difference|3.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.6|3.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||3.6|2.6|< 0.0001
82399828|NCT01796301|164509151|SUPERIORITY||Treatment difference|3.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|2.9|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, parameter baseline value, treatment-by visit interaction, and using an unstructured variance covariance structure.||4.2|2.9|< 0.0001
82399829|NCT01796301|164509152|SUPERIORITY||Treatment difference|3.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.5|3.9|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||3.9|2.5|< 0.0001
82399830|NCT01796301|164509153|SUPERIORITY||Treatment difference|3.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.6|4.2|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.2|2.6|< 0.0001
82399831|NCT01796301|164509154|SUPERIORITY||Treatment difference|3.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.9|4.6|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||4.6|2.9|< 0.0001
82399832|NCT01796301|164509155|SUPERIORITY||Treatment difference|4.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|3.4|5.4|||Linear mixed effects repeated measures|||Treatment difference (Romosozumab - Teriparatide) was analyzed using a linear mixed effects model for repeated measures adjusting for treatment, visit, baseline serum type 1 collagen C-telopeptide value, baseline BMD value, machine type, baseline BMD value-by machine type interaction, treatment-by-visit interaction, and using an unstructured variance covariance structure.||5.4|3.4|< 0.0001
82426459|NCT05209386|164561855|OTHER||||||<|0.0001|||||||Mixed Models Analysis|For interaction term (effect of interest): t(1016) = -2.7|||Time-averaged neural responses across respective windows of significance were averaged for all stimuli with ambiguous VOT (Canonical and Reverse blocks) to provide trial-averaged responses. A single linear mixed-effects model was built with fixed effects of F0, condition/listening context (block), and their interaction, as well as a random effect (intercept only) of patient+channel. The effect of interest was the interaction term, indicating that neural responses to F0 varied according to listening context (block).|||<0.0001
82399833|NCT01704755|164509156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 12-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 43% to achieve noninferiority.|Percentage of Participants|91.8|||||TWO_SIDED|97.5|87.6|96.1||||||The study planned to enroll 380 subjects to a 12- or 24-week treatment arm. The primary efficacy endpoint (SVR12) was assessed for each arm. With a total sample size of 380 and assuming that 68% of the subjects in each arm would achieve SVR12, the study had greater than 90% power to demonstrate non-inferiority and superiority with a 2-sided 97.5% lower confidence bound greater than 43% and 54%, respectively, based on the normal approximation of a single binomial proportion.||96.1|87.6|
82399834|NCT01704755|164509156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The superiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 12-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 54% to achieve superiority.|Percentage of Participants|91.8|||||TWO_SIDED|97.5|87.6|96.1||||||The primary efficacy endpoints were the SVR12 rates in each arm. The overall 2-sided significance level of 0.05 was split between the arms using a Bonferroni correction of 0.025. A 2-sided 97.5% CI of the SVR12 rate per arm was computed using the normal approximation to the binomial distribution. A gatekeeping testing procedure was used to control the Type I error rate at 0.05, and the primary endpoints for Arm A were tested separately from Arm B in a pre-specified order.||96.1|87.6|
82399835|NCT01704755|164509156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 24-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 43% to achieve noninferiority.|Percentage of Participants|96.5|||||TWO_SIDED|97.5|93.4|99.7||||||||99.7|93.4|
82530281|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.75|||<|0.0001|TWO_SIDED|95.0|0.41|1.27||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.27|0.41|<0.0001
82399836|NCT01704755|164509156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The superiority of the rate of sustained virologic response for the ABT-450/r/ABT-333 plus ribavirin 24-week treatment group as compared with the historical rate for telaprevir plus peginterferon-ribavirin. The lower confidence bound of the 2-sided 97.5% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must have exceeded 54% to achieve superiority.|Percentage of Participants|96.5|||||TWO_SIDED|97.5|93.4|99.7||||||||99.7|93.4|
82399837|NCT01704755|164509157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|TWO_SIDED||||||Regression, Logistic|||To test the hypothesis that the percentages of participants who achieved sustained virologic response 12 weeks after treatment was different between the two treatment groups, the percentages were compared using a logistic regression model with treatment group, baseline log(subscript)10(subscript) HCV RNA level, HCV subgenotype (1a, non-1a), IL28B genotype (CC, non CC), and peginterferon-ribavirin treatment history (treatment-naïve or treatment-experienced) as predictors.||||0.051
82399838|NCT00264290|164509187|OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
82399839|NCT01537835|164509201|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||p-value is adjusted for multiple comparisons|Kruskal-Wallis|||||||0.17
82399840|NCT02620683|164509214|OTHER||Median Difference (Final Values)|-15.0||||0.006|TWO_SIDED|95.0|-34.6|-5.86|||Wilcoxon (Mann-Whitney)||for a cross over design difference in blood level was calculate buffered lidocaine minus non-buffered lidocaine|The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using Wilcoxon signed rank tests (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||-5.86|-34.6|0.006
82399841|NCT02620683|164509215|OTHER||Mean Difference (Final Values)|-0.66||||0.096|TWO_SIDED|95.0|-1.46|0.13|||t-test, 2 sided|||The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using ProcTTEST (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||0.13|-1.46|0.096
82399842|NCT02620683|164509216|OTHER||Median Difference (Final Values)|-1.0||||0.23|TWO_SIDED|95.0|-4.0|1.0|||Wilcoxon (Mann-Whitney)|||The difference between injection type- 95% confidence intervals for the difference between injection types was calculated. For the outcome variable, an assessment of treatment difference by subject, calculated as 1% Buffered minus 2% Non-Buffered, was performed using Wilcoxon signed rank tests (SAS v 9.3). Statistical significance was set as P \< 0.05 for all outcomes.||1|-4|0.23
82399843|NCT02774005|164509255|SUPERIORITY||Odds Ratio (OR)|2.286||||0.0021|TWO_SIDED|95.0|1.352|3.884|||Wald Chi-square|||||3.884|1.352|0.0021
82399844|NCT02774005|164509256|SUPERIORITY||Odds Ratio (OR)|1.646||||0.0873|TWO_SIDED|95.0|0.929|2.918|||Waldi-Chi-Square|||||2.918|0.929|0.0873
82530282|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.1|||<|0.0001|TWO_SIDED|95.0|1.5|2.74||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||2.74|1.50|<0.0001
82530283|NCT00708305|164756954|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.01|||<|0.0001|TWO_SIDED|95.0|0.73|1.35||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.35|0.73|<0.0001
82645567|NCT05144477|165006448|OTHER|Proportion of intervention participants who agreed that the ICU diary was appropriate for reducing fear about their loved one's heart was calculated.|Proportion|0.7|||||TWO_SIDED|95.0|0.348|0.933||||||||0.933|0.348|
82399845|NCT02774005|164509257|SUPERIORITY||Odds Ratio (OR)|7.323||||0.0005|TWO_SIDED|95.0|2.339|25.912|||Waldi-Chi-Square|||||25.912|2.339|0.0005
82645568|NCT05144477|165006449|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.63|TWO_SIDED|95.0|-0.83|1.32|||t-test, 2 sided|||Outcome analysis at the end of hospital care.||1.32|-0.83|.63
82645569|NCT05144477|165006449|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.86|TWO_SIDED|95.0|-0.92|1.08|||t-test, 2 sided|||Outcome analysis for 30 days after the end of hospital care.||1.08|-0.92|.86
82399846|NCT01289574|164509261|SUPERIORITY_OR_OTHER|||||||0.1919|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) row mean score statistics, adjusting for investigational site||||||0.1919
82399847|NCT01289574|164509262|SUPERIORITY_OR_OTHER|||||||0.061|||||||Cochran-Mantel-Haenszel|||||||0.0610
82399848|NCT01289574|164509263|SUPERIORITY_OR_OTHER|||||||0.0857|||||||Cochran-Mantel-Haenszel|||||||0.0857
82399849|NCT02494401|164509291|SUPERIORITY|||||||0.87||||||p value of baseline comparison.|Wilcoxon (Mann-Whitney)|||||||0.87
82645570|NCT05144477|165006450|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.86|TWO_SIDED|95.0|-1.43|1.21|||t-test, 2 sided|||Outcome analysis for the end of hospital care.||1.21|-1.43|.86
82645571|NCT05144477|165006450|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.75|TWO_SIDED|95.0|-1.1|1.58|||t-test, 2 sided|||Outcome analysis for 30 days after the end of hospital care.||1.58|-1.10|.75
82645572|NCT05144477|165006451|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.22|TWO_SIDED|95.0|-23.26|5.86|||t-test, 2 sided|||||5.86|-23.26|.22
82645573|NCT05144477|165006451|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)||||χ2(1) = 1.29|||.26
82399850|NCT02494401|164509291|SUPERIORITY|||||||0.32||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.32
82399851|NCT02494401|164509291|SUPERIORITY|||||||0.3||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.3
82399852|NCT02494401|164509292|SUPERIORITY|||||||0.08||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.08
82399853|NCT02494401|164509292|SUPERIORITY|||||||0.05||||||p value 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.05
82399854|NCT02494401|164509292|SUPERIORITY|||||||0.008||||||p value 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.008
82399855|NCT02494401|164509293|SUPERIORITY|||||||0.68||||||p value baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.68
82399856|NCT02494401|164509293|SUPERIORITY|||||||0.83||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.83
82645574|NCT05144477|165006451|SUPERIORITY|||||||1|||||||Fisher Exact|||A Fisher's Exact Test was conducted to compare the number of participants with a positive screen for PTSD symptoms (score \>=33) to those who did not have a positive screen for PTSD symptoms (score \< 33).||||1.00
82399857|NCT02494401|164509293|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
82399858|NCT02494401|164509294|SUPERIORITY|||||||0.96||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.96
82399859|NCT02494401|164509294|SUPERIORITY|||||||0.69||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.69
82399860|NCT02494401|164509294|SUPERIORITY|||||||0.6||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.6
82399861|NCT02494401|164509295|SUPERIORITY|||||||0.89||||||p value baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.89
82399862|NCT02494401|164509295|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82399863|NCT02494401|164509295|SUPERIORITY|||||||0.56||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.56
82399864|NCT02494401|164509296|SUPERIORITY|||||||0.69||||||p value for baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.69
82399865|NCT02494401|164509296|SUPERIORITY|||||||0.29||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.29
82399866|NCT02494401|164509296|SUPERIORITY|||||||0.07||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.07
82399867|NCT02494401|164509297|SUPERIORITY|||||||0.28||||||p value for baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.28
82399868|NCT02494401|164509297|SUPERIORITY|||||||0.16||||||p value for 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.16
82645575|NCT04529096|165006466|SUPERIORITY||Posterior Mean Difference|0.52|||||TWO_SIDED|95.0|-0.1|1.14|||Bayesian Mixed Model Analysis|||||1.14|-0.10|
82645576|NCT04529096|165006467|SUPERIORITY||Posterior Mean Difference|1.05|||||TWO_SIDED|95.0|-0.46|2.56|||Bayesian Mixed Model Analysis|||||2.56|-0.46|
82645577|NCT04529096|165006468|SUPERIORITY||Posterior Mean Difference|0.16|||||TWO_SIDED|95.0|-0.25|0.58|||Bayesian Mixed Model Analysis|||||0.58|-0.25|
82645578|NCT04529096|165006469|SUPERIORITY||Posterior Mean Difference|0.48|||||TWO_SIDED|95.0|-0.19|1.17|||Bayesian Mixed Model Analysis|||||1.17|-0.19|
82645579|NCT04529096|165006470|SUPERIORITY||Posterior Mean Difference|4.63|||||TWO_SIDED|95.0|-3.51|12.59|||Bayesian Mixed Model Analysis|||||12.59|-3.51|
82645580|NCT04529096|165006471|SUPERIORITY||Posterior Mean Difference|0.05|||||TWO_SIDED|95.0|-0.4|0.51|||Bayesian Mixed Model Analysis|||||0.51|-0.40|
82645581|NCT04529096|165006472|SUPERIORITY||Posterior Mean Difference|-15.18|||||TWO_SIDED|95.0|-206.43|175.8|||Bayesian Mixed Model Analysis|||||175.80|-206.43|
82645582|NCT04529096|165006473|SUPERIORITY||Posterior Mean Difference|-0.05|||||TWO_SIDED|95.0|-0.11|0.01|||Bayesian Mixed Model Analysis|||||0.01|-0.11|
82645583|NCT02139306|165006507|SUPERIORITY||Mean Difference (Net)|0.597|STANDARD_ERROR_OF_MEAN|0.957||0.5336|TWO_SIDED|95.0|-1.2881|2.4813|||Mixed-model, repeated-measures|||||2.4813|-1.2881|0.5336
82645584|NCT02139306|165006508|SUPERIORITY||Rate ratio|0.8567|STANDARD_ERROR_OF_MEAN|0.1577||0.4008|TWO_SIDED|95.0|0.5973|1.2288|||Negative binomial regression|||||1.2288|0.5973|0.4008
82645585|NCT02139306|165006509|SUPERIORITY||Mean Difference (Net)|0.272|STANDARD_ERROR_OF_MEAN|1.93||0.8881|TWO_SIDED|95.0|-3.5292|4.0731|||Mixed-model, repeated measures|||||4.0731|-3.5292|0.8881
82645586|NCT02139306|165006510|SUPERIORITY||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.1312||0.6208|TWO_SIDED|95.0|-0.3233|0.1934|||Mixed-model, repeated measures|||||0.1934|-0.3233|0.6208
82645587|NCT02304302|165006526|SUPERIORITY||Mean Difference (Net)|0.34||||0.61|TWO_SIDED|95.0|-0.98|1.67|||Mixed Models Analysis|||||1.67|-0.98|0.61
82645588|NCT02304302|165006527|SUPERIORITY||Mean Difference (Net)|-0.32||||0.57|TWO_SIDED|95.0|-1.43|0.8|||Mixed Models Analysis|||||0.80|-1.43|0.57
82645589|NCT02304302|165006528|SUPERIORITY||Median Difference (Net)|-0.04||||0.91|TWO_SIDED|95.0|-0.74|0.66|||Mixed Models Analysis|||||0.66|-0.74|0.91
82399869|NCT02494401|164509297|SUPERIORITY|||||||0.23||||||p value for 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.23
82399870|NCT02494401|164509298|SUPERIORITY|||||||0.93||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.93
82399871|NCT02494401|164509298|SUPERIORITY|||||||0.54||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.54
82399872|NCT02494401|164509298|SUPERIORITY|||||||0.33||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.33
82399873|NCT02494401|164509299|SUPERIORITY|||||||0.59||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.59
82399874|NCT02494401|164509299|SUPERIORITY|||||||0.25||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.25
82399875|NCT02494401|164509299|SUPERIORITY|||||||0.12||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.12
82399876|NCT02494401|164509300|SUPERIORITY|||||||0.51||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.51
82399877|NCT02494401|164509300|SUPERIORITY|||||||0.93||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.93
82399878|NCT02494401|164509300|SUPERIORITY|||||||0.84||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.84
82399879|NCT02494401|164509301|SUPERIORITY|||||||0.83||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.83
82399880|NCT02494401|164509301|SUPERIORITY|||||||0.27||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.27
82399881|NCT02494401|164509301|SUPERIORITY|||||||0.18||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.18
82399882|NCT02494401|164509302|SUPERIORITY|||||||0.64||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.64
82399883|NCT02494401|164509302|SUPERIORITY|||||||0.8||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.8
82399884|NCT02494401|164509302|SUPERIORITY|||||||0.09||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.09
82399885|NCT02494401|164509303|SUPERIORITY|||||||0.73||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.73
82399886|NCT02494401|164509303|SUPERIORITY|||||||0.82||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.82
82530284|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.5545|TWO_SIDED|95.0|-0.22|0.47||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.47|-0.22|0.5545
82399887|NCT02494401|164509303|SUPERIORITY|||||||0.04||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.04
82399888|NCT02494401|164509304|SUPERIORITY|||||||0.95||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.95
82399889|NCT02494401|164509304|SUPERIORITY|||||||0.87||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.87
82399890|NCT02494401|164509304|SUPERIORITY|||||||0.63||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.63
82399891|NCT02494401|164509305|SUPERIORITY|||||||0.05||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.05
82399892|NCT02494401|164509305|SUPERIORITY|||||||0.62||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.62
82399893|NCT02494401|164509305|SUPERIORITY|||||||0.7||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.7
82399894|NCT02494401|164509306|SUPERIORITY|||||||0.29||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.29
82399895|NCT02494401|164509306|SUPERIORITY|||||||0.58||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.58
82399896|NCT02494401|164509306|SUPERIORITY|||||||0.49||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.49
82399897|NCT02494401|164509307|SUPERIORITY|||||||0.87||||||p value of baseline comparison|Wilcoxon (Mann-Whitney)|||||||0.87
82399898|NCT02494401|164509307|SUPERIORITY|||||||0.89||||||p value of 16 week comparison|Wilcoxon (Mann-Whitney)|||||||0.89
82399899|NCT02494401|164509307|SUPERIORITY|||||||0.82||||||p value of 6 month comparison|Wilcoxon (Mann-Whitney)|||||||0.82
82399900|NCT01037816|164509308|SUPERIORITY|||||||0.137|||||||ANCOVA|||The treatment effect of the FS-67 patch was estimated by computing the difference in LS means of the FS-67 and placebo patches from the ANCOVA model||||0.137
82399901|NCT01037816|164509309|SUPERIORITY|||||||0.044|||||||ANCOVA|||||||0.044
82399902|NCT02371668|164509310|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82399903|NCT02371668|164509311|SUPERIORITY|||||||0.114|||||||Fisher Exact|||||||0.114
82399904|NCT02371668|164509312|SUPERIORITY|||||||0.4989|||||||Wilcoxon (Mann-Whitney)|||||||0.4989
82399905|NCT02371668|164509313|SUPERIORITY|||||||0.1412|||||||Wilcoxon (Mann-Whitney)|||||||0.1412
82399906|NCT02371668|164509314|SUPERIORITY|||||||0.137|||||||Fisher Exact|||||||0.137
82399907|NCT02371668|164509315|SUPERIORITY|||||||0.2445|||||||Wilcoxon (Mann-Whitney)|||||||0.2445
82399908|NCT02371668|164509316|SUPERIORITY|||||||0.045|||||||Fisher Exact|||||||0.045
82399909|NCT02371668|164509317|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.230
82399910|NCT02371668|164509318|SUPERIORITY|||||||0.646|||||||Fisher Exact|||||||0.646
82399911|NCT01048944|164509319|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values are adjusted for multiple comparisons except for specific a priori directional predictions.|Mixed Models Analysis|||Mixed-model repeated measures multivariate analyses of variance assessed Treatment x Day of abstinence (days 3, 24, 45, and 66) based on changes from pre-quit baseline to values of the four post-quit time points (days 3, 24, 45, and 66).||||<0.05
82399912|NCT01133704|164509323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.719|TWO_SIDED|95.0|0.69|1.7|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable, stratified by bisphosphonate use (placebo/sipuleucel-T)|||1.70|0.69|0.719
82399913|NCT01133704|164509324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.331|TWO_SIDED|95.0|0.78|2.07|||Log Rank||Obtained from a Cox proportional hazards model with treatment as the independent variable, and stratified by bisphosphonate use (placebo/sipuleucel-T).|||2.07|0.78|0.331
82399914|NCT03746405|164509330|SUPERIORITY||Mean Difference (Final Values)|1.15|||=|0.03|TWO_SIDED|||||Give the limited sample size, this p-value was not adjusted for multiple comparisons. The threshold for statistical significant was p \< 0.05|t-test, 2 sided|||Hypothesis: Active rTMS applied over the node in the medial prefrontal cortex the most strongly negatively connected to the right amygdala will decrease amygdala BOLD activation compared to sham rTMS||||= 0.03
82399915|NCT00112918|164509334|SUPERIORITY_OR_OTHER|||||||0.2024||95.0|||||Closed test procedure|||Adjustments for multiplicity was done using a closed test procedure which tests for differences between all three treatment groups at the 5% alpha level first. Only in case of a significant result, the pair-wise comparison between the control arm and each of the bevacizumab arm will be tested, again at the 5% alpha level.||||0.2024
82399916|NCT04472494|164509350|SUPERIORITY||Odds Ratio (OR)|1.07||||0.9297|TWO_SIDED|95.0|0.26|4.49|||Cochran-Mantel-Haenszel Chi-Square test|||||4.49|0.26|0.9297
82399917|NCT04472494|164509351|SUPERIORITY||Adjusted mean difference from Placebo|0.64||||0.74|TWO_SIDED|95.0|-0.55|1.82|||Cochran-Mantel-Haenszel|||||1.82|-0.55|0.7400
82399918|NCT04472494|164509352|SUPERIORITY||Estimate of Difference|-0.1||||0.9684|TWO_SIDED|95.0|-20.55|20.34|||Cochran-Mantel-Haenszel Chi-Square test||Estimate of Difference is based on minimum risk weights|||20.34|-20.55|0.9684
82399919|NCT04472494|164509353|SUPERIORITY||Odds Ratio (OR)|0.85||||0.8504|TWO_SIDED|95.0|0.18|3.97|||Cochran-Mantel-Haenszel|||||3.97|0.18|0.8504
82399920|NCT04472494|164509354|SUPERIORITY||Odds Ratio (OR)|2.29||||0.2724|TWO_SIDED|95.0|0.53|9.82|||Cochran-Mantel-Haenszel|||||9.82|0.53|0.2724
82576159|NCT02209181|164862032|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15||0.621|TWO_SIDED|95.0|-0.23|0.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.23|0.621
82645590|NCT02304302|165006529|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.48|TWO_SIDED|95.0|-1.91|0.91|||Mixed Models Analysis|||||0.91|-1.91|0.48
82645591|NCT02304302|165006530|SUPERIORITY||Mean Difference (Net)|-1.31||||0.5|TWO_SIDED|95.0|-5.14|2.53|||Mixed Models Analysis|||||2.53|-5.14|0.50
82645592|NCT02304302|165006531|SUPERIORITY||Mean Difference (Net)|-0.1||||0.62|TWO_SIDED|95.0|-0.52|0.32|||Mixed Models Analysis|||||0.32|-0.52|0.62
82645593|NCT02304302|165006532|SUPERIORITY||Mean Difference (Net)|2.94||||0.84|TWO_SIDED|95.0|-25.32|31.2|||Mixed Models Analysis|||||31.20|-25.32|0.84
82645594|NCT02304302|165006533|SUPERIORITY||Mean Difference (Net)|-3.04||||0.24|TWO_SIDED|95.0|||||ANOVA|||QTc interval duration was the independent variable, treatment and time were the categorical factors.||||0.24
82399921|NCT04472494|164509354|SUPERIORITY||Estimate of difference|12.78|||||TWO_SIDED|95.0|-10.61|36.17|||||||Estimate of difference is based on minimum risk weights|36.17|-10.61|
82399922|NCT04472494|164509355|SUPERIORITY||Odds Ratio (OR)|2.03||||0.4734|TWO_SIDED|95.0|0.33|12.64|||Cochran-Mantel-Haenszel|||||12.64|0.33|0.4734
82399923|NCT04472494|164509355|SUPERIORITY||Estimate of difference|5.43|||||TWO_SIDED|95.0|-16.71|27.57|||||Estimate of difference is based on minimum risk weights|||27.57|-16.71|
82399924|NCT01462305|164509370|SUPERIORITY_OR_OTHER|||||||0.74||||||interaction effect and week of treatment condition|ANOVA|||To test the hypothesis that depressed SAD patients would demonstrate greater antidepressant therapeutic benefit from the \~465nm (shorter wavelength) source compared with the \~595nm (longer wavelength) source, we conducted a repeated-measures ANOVA using PROC MIXED in SAS 9.3 with treatment (\~465nm vs. \~595nm) as a between-subject factor and time (treatment visit 1, treatment visit 2, treatment visit 3, phone assessment 1, phone assessment 2, and treatment visit 4) as a within-subject factor.||||0.74
82576160|NCT02209181|164862032|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.207|TWO_SIDED|95.0|-0.49|0.11||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.11|-0.49|0.207
82399925|NCT01462305|164509370|SUPERIORITY_OR_OTHER|||||||0.9||||||A repeated-measures ANOVA on the 29 subjects revealed no significant effect or interaction effect|ANOVA|||||||0.9
82399926|NCT01462305|164509370|SUPERIORITY_OR_OTHER||||||<|0.0001||||||A repeated-measures ANOVA on the 29 subjects revealed significant effect of treatment week|ANOVA|||||||<0.0001
82399927|NCT01462305|164509372|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||||||0.20
82645595|NCT02304302|165006534|SUPERIORITY||Mean Difference (Net)|1.91||||0.28|TWO_SIDED|95.0|-1.57|5.39|||Mixed Models Analysis|||||5.39|-1.57|0.28
82399928|NCT00368459|164509378|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||For this pilot trial, we did not anticipate power to detect significant, clinically-meaningful between-group differences of the magnitude provided by FDA-approved AD therapies over a 12 month treatment period, but we specified that we would report trends (alpha \<0.1) as a guide to future effectiveness studies.||||>0.1
82399929|NCT00368459|164509379|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399930|NCT00368459|164509380|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399931|NCT00368459|164509381|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82645596|NCT02304302|165006535|SUPERIORITY||Mean Difference (Net)|0.4||||0.51|TWO_SIDED|95.0|-0.8|1.61|||Mixed Models Analysis|||||1.61|-0.80|0.51
82645597|NCT02304302|165006536|SUPERIORITY||Mean Difference (Net)|1.17||||0.63|TWO_SIDED|95.0|-3.6|5.94|||Mixed Models Analysis|||||5.94|-3.6|0.63
82645598|NCT02304302|165006537|SUPERIORITY||Mean Difference (Net)|-3.65||||0.17|TWO_SIDED|95.0|-8.91|1.61|||Mixed Models Analysis|||||1.61|-8.91|0.17
82645599|NCT01892020|165006550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.27|<|0.001||95.0|-1.66|-0.58||The 2-h PPG increment was analyzed using a normal linear mixed model with period and treatment as fixed effects and subject as a random effect.|Mixed Models Analysis|||Let D be the treatment difference (BIAsp 50 BID + metformin minus BHI 50 BID + metformin) of 2-h PPG increment after a 4-week treatment. The null hypothesis was D = 0 mmol/L. The alternative hypothesis was D ≠ 0 mmol/L. Sample size was determined using a two-sided one sample t-test at a = 0.05 under the assumption of 0.8 mmol/L mean treatment different and 80% power.||-0.58|-1.66|< 0.001
82645600|NCT03078192|165006598|OTHER|Detecting pre-capillary PH was tested with a cohort of 32 patients. True PH status was based on RHC. A diagnosis of PH was established from mPAP \>20mmHg, while pre-capillary PH required PCWP ≤ 15mmHg and PVR ≥ 3 Woods Units, and post capillary PH required PCWP \> 15mmH and PVR \< 3 Woods Units \[21\]. Patients with both high PVR and PCWP \> 15mmHg were classified as combined pre- and post-capillary PH (CpcPH). Subjects with CpcPH were treated as positive for both pre- and post-capillary PH.|positive predictive value|0.86|||||TWO_SIDED|||||Positive predictive value for Precapillary Pulmonary Hypertension: 86%|calculation of PPV|||||||
82645601|NCT02873195|165006599|SUPERIORITY||Hazard Ratio (HR)|0.725||||0.051|TWO_SIDED|95.0|0.491|1.07|||Log Rank|||||1.07|0.491|0.051
82445398|NCT04232215|164599305|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.64|TWO_SIDED|95.0|-10.2|6.1|||Regression, Linear|A generalized linear model adjusting by intervention group and the order of randomization was conducted.||Difference in ease of use between our standard fetal Doppler and HeraBEAT™ device, as measured by the System Usability Survey (SUS) will be the primary outcome. We aim to recruit 50 participants (50 per arm, with cross-over) for a 99.7% power to detect a 10-point difference in SUS, as this accounts for a withdraw / post-randomization exclusion as high as 10% (assuming a proportion of expectant mothers to withdraw participation after being enrolled or found to not meet criteria after the fact).||6.1|-10.2|0.64
82445399|NCT04232215|164599306|SUPERIORITY||Risk Ratio (RR)|1.2||||0.63|TWO_SIDED|95.0|0.57|2.53|||Chi-squared|||||2.53|0.57|0.63
82445400|NCT02409342|164599308|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.595||||0.0106|TWO_SIDED|95.0|0.398|0.89|||Log Rank|||TC3 or IC3-WT Population||0.890|0.398|0.0106
82445401|NCT02409342|164599309|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.868||||0.3091|TWO_SIDED|95.0|0.661|1.14|||Log Rank|||TC2/3 or IC2/3-WT Population||1.140|0.661|0.3091
82445402|NCT02409342|164599309|SUPERIORITY|Stratified analysis. OS was tested hierarchically in the efficacy analysis populations.|Hazard Ratio (HR)|0.845||||0.107|TWO_SIDED|95.0|0.688|1.037||P-value is descriptive as it was not formally tested.|Log Rank|||TC1/2/3 or IC/1/2/3-WT||1.037|0.688|0.1070
82445403|NCT02409342|164599310|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.63||||0.007|TWO_SIDED|95.0|0.449|0.884||P-value is descriptive as it was not formally tested.|Log Rank|||TC3 or IC3-WT Population||0.884|0.449|0.0070
82445404|NCT02409342|164599311|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.641||||0.0004|TWO_SIDED|95.0|0.501|0.82||P-value is descriptive as it was not formally tested.|Log Rank|||TC2/3 or IC2/3-WT Population||0.820|0.501|0.0004
82445405|NCT02409342|164599311|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.716||||0.0004|TWO_SIDED|95.0|0.595|0.863||P-value is descriptive as it was not formally tested.|Log Rank|||TC1/2/3 or IC1/2/3-WT Population||0.863|0.595|0.0004
82445406|NCT02409342|164599312|SUPERIORITY|Stratified Analysis|Difference in ORR|9.75|||||TWO_SIDED|95.0|-4.07|23.56||||||TC3 or IC3-WT Population||23.56|-4.07|
82530285|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.4||||0.0003|TWO_SIDED|95.0|0.15|0.71||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.71|0.15|0.0003
82530286|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.56||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.56|0.58|<0.0001
82375662|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.34||||0.015|TWO_SIDED|95.0|-0.62|-0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.07|-0.62|0.015
82445407|NCT02409342|164599313|SUPERIORITY|Stratified analysis|Difference in ORR|1.64|||||TWO_SIDED|95.0|-9.14|12.42||||||TC2/3 or IC2/3-WT Population||12.42|-9.14|
82530287|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.36|||<|0.0001|TWO_SIDED|95.0|0.15|0.68||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signal Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.68|0.15|<0.0001
82645602|NCT02873195|165006600|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4|TWO_SIDED|95.0|0.56|1.56|||Log Rank|||||1.56|0.56|0.40
82645603|NCT02873195|165006601|SUPERIORITY|||||||0.4876|||||||Fisher Exact|||||||0.4876
82445408|NCT02409342|164599313|SUPERIORITY|Stratified analysis|Difference in ORR|-0.72|||||TWO_SIDED|95.0|-8.84|7.39||||||TC1/2/3 or IC1/2/3-WT Population||7.39|-8.84|
82445409|NCT02409342|164599314|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.365|||||TWO_SIDED|95.0|0.166|0.8||||||TC3 or IC3-WT Population||0.800|0.166|
82445410|NCT02409342|164599315|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.235|||||TWO_SIDED|95.0|0.135|0.409||||||TC2/3 or IC2/3-WT Population||0.409|0.135|
82445411|NCT02409342|164599315|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.284|||||TWO_SIDED|95.0|0.19|0.424||||||TC1/2/3 or IC1/2/3-WT Population||0.424|0.190|
82445412|NCT02409342|164599316|SUPERIORITY||Difference in Event Free Rate|14.26|||||TWO_SIDED|95.0|-0.03|28.55||||||1-Year TC3 or IC3-WT Population||28.55|-0.03|
82445413|NCT02409342|164599317|SUPERIORITY||Difference in Event Free Rate|20.7|||||TWO_SIDED|95.0|2.94|38.47||||||2-Years TC3 or IC3-WT Population||38.47|2.94|
82445414|NCT02409342|164599318|SUPERIORITY||Difference in Event Free Rate|4.74|||||TWO_SIDED|95.0|-5.93|15.4||||||1-Year TC2/3 or IC2/3-WT Population||15.40|-5.93|
82445415|NCT02409342|164599318|SUPERIORITY||Difference in Event Free Rate|5.06|||||TWO_SIDED|95.0|-3.27|13.4||||||1-Year TC1/2/3 or IC1/2/3-WT Population||13.40|-3.27|
82445416|NCT02409342|164599319|SUPERIORITY||Difference in Event Free Rate|8.73|||||TWO_SIDED|95.0|-1.99|19.45||||||2-Years TC2/3 or IC2/3-WT Population||19.45|-1.99|
82445417|NCT02409342|164599319|SUPERIORITY||Difference in Event Free Rate|10.94|||||TWO_SIDED|95.0|2.83|19.04||||||2-Years TC1/2/3 or IC1/2/3-WT Population||19.04|2.83|
82445418|NCT02409342|164599320|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|1.142|||||TWO_SIDED|95.0|0.657|1.984||||||Cough in TC3 or IC3-WT Populations||1.984|0.657|
82445419|NCT02409342|164599320|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.891|||||TWO_SIDED|95.0|0.555|1.43||||||Dyspnoea in TC3 or IC3-WT Populations||1.430|0.555|
82445420|NCT02409342|164599320|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|1.229|||||TWO_SIDED|95.0|0.737|2.049||||||Chest pain in TC3 or IC3-WT Populations||2.049|0.737|
82445421|NCT02409342|164599322|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.984|||||TWO_SIDED|95.0|0.477|2.03||||||Cough for TC3 or IC3-WT Populations||2.030|0.477|
82399932|NCT00368459|164509382|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399933|NCT00368459|164509383|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82530288|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.91|||<|0.0001|TWO_SIDED|95.0|0.58|1.35||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||1.35|0.58|<0.0001
82645604|NCT02508649|165006603|SUPERIORITY||Treatment difference|0.55||||0.3015|TWO_SIDED|95.0|-1.34|2.43|||van Elteren test|||The primary endpoint was analyzed using a van Elteren test. The analysis included a test of superiority using a two-sided 5% significance level.||2.43|-1.34|0.3015
82399934|NCT00368459|164509384|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399935|NCT00368459|164509385|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Favoring placebo, unadjusted for multiple comparisons|ANCOVA|||||||<0.01
82399936|NCT00368459|164509386|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399937|NCT00368459|164509387|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||ANCOVA|||||||>0.1
82399938|NCT01188668|164509397|SUPERIORITY_OR_OTHER||ratio of adjusted means|105.97|||||TWO_SIDED|90.0|101.39|110.76|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||110.76|101.39|
82530289|NCT00708305|164756955|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.37|||<|0.0001|TWO_SIDED|95.0|0.26|0.56||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.56|0.26|<0.0001
82399939|NCT01188668|164509398|SUPERIORITY_OR_OTHER||ratio of adjusted means|101.05|||||TWO_SIDED|90.0|92.94|109.87|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||109.87|92.94|
82530290|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.6865|TWO_SIDED|95.0|-0.13|0.08||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.08|-0.13|0.6865
82530291|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.1756|TWO_SIDED|95.0|-0.02|0.12||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.12|-0.02|0.1756
82530292|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.38||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.38|0.16|<0.0001
82530293|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.11||||0.0023|TWO_SIDED|95.0|0.04|0.22||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.22|0.04|0.0023
82645605|NCT02508649|165006604|SUPERIORITY||Odds Ratio (OR)|1.049||||0.7694|TWO_SIDED|95.0|0.762|1.445|||Regression, Logistic||An odds ratio \< 1 in proportion of subjects dying indicates lower mortality in the selepressin group.|Mortality was analyzed using a logistic regression model with the individual sequential organ failure assessment (SOFA) scores and age as covariates and treatment arm as factor.||1.445|0.762|0.7694
82399940|NCT01188668|164509403|SUPERIORITY_OR_OTHER||ratio of adjusted means|102.93|||||TWO_SIDED|90.0|94.21|112.46|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||112.46|94.21|
82399941|NCT01188668|164509404|SUPERIORITY_OR_OTHER||ratio of adjusted means|106.27|||||TWO_SIDED|90.0|100.97|111.85|||||Values have been back-transformed from the log scale.|DVS SR 100 mg + Aripiprazole 5 mg (test) versus Aripiprazole 5 mg (reference)||111.85|100.97|
82399942|NCT02488018|164509428|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|99.0|||||ANOVA|Degree of freedom for the model (treatment) was 8.||Hypothesis Ho: Honey plant origin does not affects the glycemic index of human subjects. Ha: Honey plant origin affects the glycemic index of human subjects.||||<0.01
82399943|NCT00351936|164509429|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||||||0.003
82445422|NCT02409342|164599322|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|0.955|||||TWO_SIDED|95.0|0.569|1.604||||||Dyspnea for TC3 or IC3-WT Populations||1.604|0.569|
82399944|NCT00351936|164509430|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||||||0.003
82399945|NCT00351936|164509431|SUPERIORITY_OR_OTHER|||||||0.747||95.0|||||ANCOVA|||||||0.747
82399946|NCT00351936|164509432|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||ANCOVA|||||||0.208
82399947|NCT00351936|164509433|SUPERIORITY_OR_OTHER|||||||0.665||95.0|||||ANCOVA|||||||0.665
82399948|NCT00351936|164509434|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||ANCOVA|||||||0.999
82399949|NCT00351936|164509435|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
82399950|NCT02937636|164509445|OTHER||Least square (LS) mean difference|-0.09|||<|0.0001|TWO_SIDED|95.0|-0.12|-0.07|||ANCOVA|From ANCOVA with treatment, gender, smoking status and baseline MGI stratification as factors and baseline as covariate.|Difference is the first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.07|-0.12|<.0001
82399951|NCT00583011|164509463|EQUIVALENCE||Median Difference (Final Values)|0.02|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82399952|NCT04208412|164509464|SUPERIORITY|||||||0.001|||||||Wilcoxon Test (Gehan's Generalized)|||||||0.0010
82399953|NCT04208412|164509465|SUPERIORITY|||||||0.0045|||||||Prescott's Test|||||||0.0045
82399954|NCT04208412|164509466|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||"Gehan's Generalized Wilcoxon Test:~600 mg KVD900 vs Placebo"||||<0.0001
82399955|NCT04208412|164509467|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||||||<0.0001
82399956|NCT04208412|164509468|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Test (Gehan's Generalized)|||||||<0.0001
82399957|NCT02259699|164509480|SUPERIORITY|||||||0.582|||||||t-test, 2 sided|||Difference between arms at T1||||0.582
82399958|NCT02259699|164509480|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||Difference between arms at T3||||0.053
82399959|NCT02259699|164509480|SUPERIORITY|||||||0.288|||||||t-test, 2 sided|||Difference between arms at T4||||0.288
82399960|NCT02259699|164509481|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||Difference between arms at T3||||0.087
82399961|NCT02259699|164509481|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Difference between arms at T4||||0.910
82399962|NCT02259699|164509482|SUPERIORITY|||||||0.807|||||||t-test, 2 sided|||||||0.807
82399963|NCT02259699|164509483|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||Difference between arms at T3||||0.071
82399964|NCT02259699|164509483|SUPERIORITY|||||||0.332|||||||t-test, 2 sided|||Difference between arms at T4||||0.332
82399965|NCT02259699|164509484|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||Difference between arms at T3||||0.177
82399966|NCT02259699|164509484|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||Difference between arms at T4||||0.745
82399967|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399968|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399969|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 4000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399970|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399971|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82576161|NCT02209181|164862032|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.794|TWO_SIDED|95.0|-0.34|0.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.26|-0.34|0.794
82399972|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 6000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82445423|NCT02409342|164599322|SUPERIORITY|Stratified analysis|Hazard Ratio (HR)|1.024|||||TWO_SIDED|95.0|0.472|2.222||||||Chest pain for TC3 or IC3-WT Populations||2.222|0.472|
82645606|NCT02508649|165006605|SUPERIORITY||Treatment difference|0.29||||0.8458|TWO_SIDED|95.0|-2.07|2.65|||van Elteren test|||This endpoint was analyzed using a van Elteren test. The analysis was a test of superiority using a two-sided 5% significance level.||2.65|-2.07|0.8458
82399973|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399974|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399975|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 8000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399976|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 1-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399977|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 3-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399978|NCT00524680|164509503|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in Serum 25(OH) D3 Levels at 6-Month for dose level 10000 IU. Statistical analysis was done using one sample t-test.||||<.0001
82399979|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.8244|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 4000 IU. Statistical analysis was done using one sample t-test.||||0.8244
82399980|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.1025|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 4000 IU. Statistical analysis was done using one sample t-test.||||0.1025
82399981|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.1744|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-Month for dose level 4000 IU.||||0.1744
82399982|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.1281|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 6000 IU. Statistical analysis was done using one sample t-test.||||0.1281
82399983|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.9688|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 6000 IU. Statistical analysis was done using one sample t-test.||||0.9688
82399984|NCT00524680|164509504|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 6000 IU. Statistical analysis was done using one sample t-test.||||<0.0001
82399985|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.8241|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.8241
82399986|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.1828|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.1828
82399987|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.1348|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 8000 IU. Statistical analysis was done using one sample t-test.||||0.1348
82645607|NCT02508649|165006606|SUPERIORITY||Treatment difference|0.49||||0.4124|TWO_SIDED|95.0|-1.22|2.19|||van Elteren test|||This endpoint was analyzed using a van Elteren test. The analysis was a test of superiority using a two-sided 5% significance level.||2.19|-1.22|0.4124
82645608|NCT02508649|165006613|OTHER||Treatment difference|-0.51||||0.2009|TWO_SIDED|95.0|-1.3|0.27|||ANCOVA|||Overall score using a modified version of the SOFA on Day 1||0.27|-1.30|0.2009
82645609|NCT02508649|165006613|OTHER||Treatment difference|0.11||||0.7894|TWO_SIDED|95.0|-0.68|0.9|||ANCOVA|||Overall score using a modified version of the SOFA on Day 3||0.90|-0.68|0.7894
82645610|NCT02508649|165006613|OTHER||Treatment difference|0.55||||0.1888|TWO_SIDED|95.0|-0.27|1.37|||ANCOVA|||Overall score using a modified version of the SOFA on Day 7||1.37|-0.27|0.1888
82645611|NCT02508649|165006613|OTHER||Treatment difference|-0.08||||0.2997|TWO_SIDED|95.0|-0.24|0.07|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 1||0.07|-0.24|0.2997
82645612|NCT02508649|165006613|OTHER||Treatment difference|-0.03||||0.6796|TWO_SIDED|95.0|-0.19|0.12|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 3||0.12|-0.19|0.6796
82645613|NCT02508649|165006613|OTHER||Treatment difference|0.03||||0.7467|TWO_SIDED|95.0|-0.14|0.19|||ANCOVA|||Individual organ (respiratory) score using a modified version of the SOFA on Day 7||0.19|-0.14|0.7467
82399988|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.2214|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 1-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.2214
82399989|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.0079|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 3-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.0079
82399990|NCT00524680|164509504|SUPERIORITY_OR_OTHER|||||||0.0631|TWO_SIDED||||||t-test, 2 sided|||Change from Baseline in PTH Levels at 6-month for 10000 IU. Statistical analysis was done using one sample t-test.||||0.0631
82399991|NCT04485637|164509512|SUPERIORITY||Odds Ratio (OR)|1.67|||=|0.05|TWO_SIDED|95.0|1.0|2.79|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced table \> Basic table||2.79|1.00|=0.05
82399992|NCT04485637|164509512|SUPERIORITY||Odds Ratio (OR)|1.66|||=|0.05|TWO_SIDED|95.0|1.0|2.76|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced graph \> Basic table||2.76|1.00|=0.05
82399993|NCT04485637|164509513|SUPERIORITY|Enhanced table \> Basic table|Odds Ratio (OR)|1.52|||=|0.29|TWO_SIDED|95.0|0.71|3.26|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||||3.26|0.71|=0.29
82399994|NCT04485637|164509513|SUPERIORITY|Enhanced graph \> Basic table|Odds Ratio (OR)|0.96|||=|0.9|TWO_SIDED|95.0|0.48|1.93|||Regression, Logistic|Adjusted for respondent characteristics as described in statistical analysis plan.||||1.93|0.48|=0.90
82445424|NCT02409342|164599323|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.707|||||TWO_SIDED|95.0|0.5|1.0||||||SP263 \>=50%-WT Population||1.000|0.500|
82399995|NCT04485637|164509514|SUPERIORITY||Unst|-0.14|||=|0.13|TWO_SIDED|95.0|-0.32|0.04|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced table \> Basic table||0.04|-0.32|=0.13
82445425|NCT02409342|164599323|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.693|||||TWO_SIDED|95.0|0.502|0.956||||||SP263 \>=25%-WT Population||0.956|0.502|
82445426|NCT02409342|164599323|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.768|||||TWO_SIDED|95.0|0.579|1.018||||||SP263 \>=1%-WT Population||1.018|0.579|
82645614|NCT02508649|165006613|OTHER||Treatment difference|-0.42||||0.0003|TWO_SIDED|95.0|-0.65|-0.19|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 1||-0.19|-0.65|0.0003
82399996|NCT04485637|164509514|SUPERIORITY||Unstandardized B|-0.14|||=|0.12|TWO_SIDED|95.0|-0.32|0.04|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||Enhanced graph \> Basic table||0.04|-0.32|=0.12
82445427|NCT02409342|164599324|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.674|||||TWO_SIDED|95.0|0.511|0.89||||||SP263 \>=50%-WT Population||0.890|0.511|
82399997|NCT04485637|164509515|SUPERIORITY|Enhanced table \> Basic table|Unstandardized B|-0.08|||=|0.33|TWO_SIDED|95.0|-0.25|0.08|||Regression, Linear|||||0.08|-0.25|=0.33
82645615|NCT02508649|165006613|OTHER||Treatment difference|-0.25||||0.0349|TWO_SIDED|95.0|-0.49|-0.02|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 3||-0.02|-0.49|0.0349
82645616|NCT02508649|165006613|OTHER||Treatment difference|-0.14||||0.2787|TWO_SIDED|95.0|-0.39|0.11|||ANCOVA|||Individual organ (cardiovascular) score using a modified version of the SOFA on Day 7||0.11|-0.39|0.2787
82645617|NCT02508649|165006613|OTHER||Treatment difference|-0.05||||0.6476|TWO_SIDED|95.0|-0.26|0.16|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 1||0.16|-0.26|0.6476
82645618|NCT02508649|165006613|OTHER||Treatment difference|0.08||||0.4313|TWO_SIDED|95.0|-0.13|0.29|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 3||0.29|-0.13|0.4313
82645619|NCT02508649|165006613|OTHER||Treatment difference|0.17||||0.1334|TWO_SIDED|95.0|-0.05|0.39|||ANCOVA|||Individual organ (renal) score using a modified version of the SOFA on Day 7||0.39|-0.05|0.1334
82645620|NCT02508649|165006613|OTHER||Treatment difference|0.12||||0.2126|TWO_SIDED|95.0|-0.07|0.3|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 1||0.30|-0.07|0.2126
82645621|NCT02508649|165006613|OTHER||Treatment Difference|0.23||||0.0174|TWO_SIDED|95.0|0.04|0.41|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 3||0.41|0.04|0.0174
82645622|NCT02508649|165006613|OTHER||Treatment difference|0.23||||0.0194|TWO_SIDED|95.0|0.04|0.43|||ANCOVA|||Individual organ (coagulation) score using a modified version of the SOFA on Day 7||0.43|0.04|0.0194
82645623|NCT02508649|165006613|OTHER||Treatment difference|-0.15||||0.1284|TWO_SIDED|95.0|-0.35|0.04|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 1||0.04|-0.35|0.1284
82645624|NCT02508649|165006613|OTHER||Treatment difference|-0.05||||0.6542|TWO_SIDED|95.0|-0.25|0.15|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 3||0.15|-0.25|0.6542
82645625|NCT02508649|165006613|OTHER||Treatment difference|0.17||||0.1079|TWO_SIDED|95.0|-0.04|0.38|||ANCOVA|||Individual organ (liver) score using a modified version of the SOFA on Day 7||0.38|-0.04|0.1079
82645626|NCT02508649|165006614|OTHER||Odds Ratio (OR)|1.4||||0.063|TWO_SIDED|95.0|0.98|2.0|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ dysfunction up to Day 7||2.00|0.98|0.0630
82445428|NCT02409342|164599324|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.698|||||TWO_SIDED|95.0|0.539|0.904||||||SP263 \>=25%-WT Population||0.904|0.539|
82445429|NCT02409342|164599324|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.725|||||TWO_SIDED|95.0|0.577|0.91||||||SP263 \>=1%-WT Population||0.910|0.577|
82445430|NCT02409342|164599325|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.867|||||TWO_SIDED|95.0|0.578|1.301||||||bTMB \>=10-WT Population||1.301|0.578|
82445431|NCT02409342|164599325|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.748|||||TWO_SIDED|95.0|0.414|1.351||||||bTMB \>=16-WT Population||1.351|0.414|
82445432|NCT02409342|164599325|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.362|1.638||||||bTMB \>=20-WT Population||1.638|0.362|
82445433|NCT02409342|164599326|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.743|||||TWO_SIDED|95.0|0.525|1.052||||||bTMB \>=10-WT Population||1.052|0.525|
82445434|NCT02409342|164599326|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.553|||||TWO_SIDED|95.0|0.331|0.924||||||bTMB \>=16-WT Population||0.924|0.331|
82530294|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.34|||<|0.0001|TWO_SIDED|95.0|0.22|0.51||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.51|0.22|<0.0001
82530295|NCT00708305|164756956|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.18|||<|0.0001|TWO_SIDED|95.0|0.12|0.25||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.25|0.12|<0.0001
82530296|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.0783|TWO_SIDED|95.0|-0.08|0.0||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.00|-0.08|0.0783
82576162|NCT02209181|164862033|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|0.82|1.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.86|0.82|<0.001
82445435|NCT02409342|164599326|SUPERIORITY|Unstratified analysis|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.295|1.062||||||bTMB \>=20-WT Population||1.062|0.295|
82445436|NCT00279812|164599331|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82445437|NCT00279812|164599332|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82530297|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0531|TWO_SIDED|95.0|0.0|0.07||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.07|0.00|0.0531
82445438|NCT00279812|164599333|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82445439|NCT01439373|164599336|OTHER||Mean posterior difference|0.46|STANDARD_DEVIATION|0.119|||||||||Bayesian probability model|"P1= P(p805 \>pPLC +0.3 \| data)= 0.905. A probability of 95% (P1 \> 0.95) or greater was to be considered 'substantial evidence of superiority."|Posterior Distribution of Difference= p805 - pPLC, where, p805 is the RVR rate for GSK2336805 and pPLC is the RVR rate for Placebo. 95% credible set was defined as the 2.5 and 97.5 percentiles. 95% credible interval for the estimate was 0.22 to 0.68.|||||
82445440|NCT01439373|164599337|OTHER||Mean posterior difference|0.41|STANDARD_DEVIATION|0.122|||||||||Bayesian probability model|"P1= P(p805 \>pPLC +0.3 \| data)= 0.822. A probability of 95% (P1 \> 0.95) or greater was to be considered 'substantial evidence of superiority."|Posterior Distribution of Difference= p805 - pPLC, where, p805 is the RVR rate for GSK2336805 and pPLC is the RVR rate for Placebo. 95% credible set was defined as the 2.5 and 97.5 percentiles. 95% credible interval for the estimate was 0.17 to 0.6|||||
82445441|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.33|0.75|
82445442|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.24|1.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.94|1.24|
82445443|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.0|||||TWO_SIDED|95.0|0.74|1.41|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.41|0.74|
82445444|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|1.01|2.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.00|1.01|
82645627|NCT02508649|165006614|OTHER||Odds Ratio (OR)|1.28||||0.1875|TWO_SIDED|95.0|0.89|1.86|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ dysfunction up to Day 30||1.86|0.89|0.1875
82399998|NCT04485637|164509515|SUPERIORITY||Unstandardized B|-0.09|||=|0.29|TWO_SIDED|95.0|-0.26|0.08|||Regression, Linear|Adjusted for respondent characteristics as described in statistical analysis plan.||||0.08|-0.26|=0.29
82399999|NCT04399538|164509527|SUPERIORITY||Difference in least square (LS) mean|-52.36|||<|0.0001||80.0|-60.07|-43.17|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-43.17|-60.07|<0.0001
82400000|NCT04399538|164509527|SUPERIORITY||Difference in LS mean|-56.58|||<|0.0001||80.0|-63.88|-47.8|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-47.80|-63.88|<0.0001
82400001|NCT04399538|164509527|SUPERIORITY||Difference in LS mean|-58.8|||<|0.0001||80.0|-65.66|-50.57|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. Relative change was converted to percent change as follows: Percent change = 100\*(RC-1). 80% CI was calculated based on difference in LS mean between groups.||-50.57|-65.66|<0.0001
82400002|NCT04399538|164509527|SUPERIORITY||Difference in LS mean|-45.8||||0.0003||80.0|-55.86|-33.46|||ANCOVA|||Natural log-transformed individual relative change (RC) from baseline to Week 6 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline % liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale.||-33.46|-55.86|0.0003
82400003|NCT02756364|164509536|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.537|TWO_SIDED|95.0|0.47|1.26|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original interactive response technology (IRT) stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.26|0.47|0.537
82400004|NCT02756364|164509536|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.849|TWO_SIDED|95.0|0.53|1.45|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.45|0.53|0.849
82400005|NCT02756364|164509537|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.276|TWO_SIDED|95.0|0.36|1.4|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.40|0.36|0.276
82400006|NCT02756364|164509537|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.47|TWO_SIDED|95.0|0.47|1.68|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.68|0.47|0.470
82400007|NCT02756364|164509538|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.495|TWO_SIDED|95.0|0.46|1.25|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.25|0.46|0.495
82400008|NCT02756364|164509538|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.646|TWO_SIDED|95.0|0.49|1.38|||Log Rank||HR obtained by stratified Cox proportional hazard model with treatment arm, original IRT stratification factors as covariates. A hazard ratio of \<1 was considered statistically significant.|||1.38|0.49|0.646
82400009|NCT02756364|164509539|SUPERIORITY||Odds Ratio (OR)|2.23|||||TWO_SIDED|95.0|0.68|7.29|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||7.29|0.68|
82400010|NCT02756364|164509539|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.34|4.39|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||4.39|0.34|
82400011|NCT02756364|164509540|SUPERIORITY||Odds Ratio (OR)|2.56|||||TWO_SIDED|95.0|0.94|6.94|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||6.94|0.94|
82400012|NCT02756364|164509540|SUPERIORITY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|0.69|4.44|||||The odds ratio and 95% CIs were obtained using a stratified Cochran-Mantel-Haenszel model with the original IRT stratification factors (visceral metastases, previous sensitivity to hormonal therapy, and previous exposure to CDK4/6 inhibitors).|||4.44|0.69|
82400013|NCT02223364|164509542|SUPERIORITY|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||||||0.144
82400014|NCT02223364|164509542|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82400015|NCT02223364|164509542|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
82400016|NCT02223364|164509543|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82400017|NCT02223364|164509543|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82400018|NCT02223364|164509543|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82400019|NCT02223364|164509544|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82400020|NCT02223364|164509544|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82400021|NCT02223364|164509544|SUPERIORITY|||||||0.257|||||||Wilcoxon (Mann-Whitney)|||||||0.257
82400022|NCT02223364|164509545|SUPERIORITY|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||||||0.059
82400023|NCT02223364|164509545|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82576163|NCT02209181|164862033|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.26||0.42|TWO_SIDED|95.0|-0.3|0.72||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.72|-0.30|0.420
82645628|NCT02508649|165006614|OTHER||Odds Ratio (OR)|1.14||||0.4382|TWO_SIDED|95.0|0.82|1.58|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ failure up to Day 7||1.58|0.82|0.4382
82530298|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1|||<|0.0001|TWO_SIDED|95.0|0.07|0.14||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.14|0.07|<0.0001
82400024|NCT02223364|164509545|SUPERIORITY|||||||0.214|||||||Wilcoxon (Mann-Whitney)|||||||0.214
82400025|NCT02223364|164509546|SUPERIORITY|||||||0.189|||||||Wilcoxon (Mann-Whitney)|||||||0.189
82400026|NCT02223364|164509546|SUPERIORITY|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.043
82400027|NCT02223364|164509546|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
82400028|NCT02223364|164509547|SUPERIORITY|||||||0.958|||||||Wilcoxon (Mann-Whitney)|||||||0.958
82400029|NCT02223364|164509547|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
82400030|NCT02223364|164509547|SUPERIORITY|||||||0.132|||||||Wilcoxon (Mann-Whitney)|||||||0.132
82400031|NCT02223364|164509548|SUPERIORITY|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||||||0.493
82400032|NCT02223364|164509548|SUPERIORITY|||||||0.299|||||||Wilcoxon (Mann-Whitney)|||||||0.299
82400033|NCT02223364|164509548|SUPERIORITY|||||||0.797|||||||Wilcoxon (Mann-Whitney)|||||||0.797
82400034|NCT02223364|164509549|SUPERIORITY|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||||||0.571
82400035|NCT02223364|164509549|SUPERIORITY|||||||0.991|||||||Wilcoxon (Mann-Whitney)|||||||0.991
82400036|NCT02223364|164509549|SUPERIORITY|||||||0.496|||||||Wilcoxon (Mann-Whitney)|||||||0.496
82400037|NCT02223364|164509550|SUPERIORITY|||||||0.807|||||||Wilcoxon (Mann-Whitney)|||||||0.807
82530299|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.0005|TWO_SIDED|95.0|0.03|0.15||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.15|0.03|0.0005
82400038|NCT02223364|164509550|SUPERIORITY|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||||||0.171
82400039|NCT02223364|164509550|SUPERIORITY|||||||0.104|||||||Wilcoxon (Mann-Whitney)|||||||0.104
82400040|NCT02223364|164509552|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82400041|NCT02223364|164509552|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82400042|NCT02223364|164509552|SUPERIORITY|||||||0.293|||||||Wilcoxon (Mann-Whitney)|||||||0.293
82400043|NCT02223364|164509553|SUPERIORITY|||||||0.202|||||||Wilcoxon (Mann-Whitney)|||||||0.202
82400044|NCT02223364|164509553|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82400045|NCT02223364|164509553|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||||||0.148
82400046|NCT02223364|164509554|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
82400047|NCT02223364|164509554|SUPERIORITY|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
82400048|NCT02223364|164509554|SUPERIORITY|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
82400049|NCT02223364|164509555|SUPERIORITY|||||||0.768|||||||Kruskal-Wallis|||||||0.768
82400050|NCT02223364|164509556|SUPERIORITY|||||||0.623|||||||Regression, Cox|||Within group comparison of baseline and 3 months (approximately 12 weeks)||||0.623
82400051|NCT02223364|164509556|SUPERIORITY|||||||0.001|||||||Regression, Cox|||Within group comparison of baseline and 3 months (approximately 12 weeks)||||0.001
82400052|NCT02223364|164509556|SUPERIORITY|||||||0.048|||||||Regression, Cox|||Within group comparison of baseline and three months (approximately 12 weeks)||||0.048
82400053|NCT04811664|164509562|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|52.6|||||TWO_SIDED|95.0|-14.1|80.3|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||80.3|-14.1|
82400054|NCT04811664|164509565|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|71.0|||||TWO_SIDED|95.0|-9.5|92.3|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||92.3|-9.5|
82400055|NCT04811664|164509566|SUPERIORITY||Vaccine efficacy, (1-HR) *100%|41.2|||||TWO_SIDED|95.0|-37.7|74.9|||||"Immediate Vaccination compared to Standard of care (reference). Wald 95% CI."|Cox model on the calendar time scale, stratified by site and adjusted for sex, residence, team sport participation, mask wearing and SARS-CoV-2 exposure risk score. Outside vaccination censoring.||74.9|-37.7|
82400056|NCT02717442|164509580|SUPERIORITY||Risk Ratio (RR)|0.658|||=|0.029|TWO_SIDED|95.0|0.453|0.957||Study week was based on each 4-week interval and was modeled as a categorical variable, and an offset for the log of the number of diary entries recorded for each 4-week interval post-baseline was included for each subject.|Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||0.957|0.453|=0.029
82400057|NCT02717442|164509581|SUPERIORITY||Risk Ratio (RR)|0.59|||=|0.014|TWO_SIDED|95.0|0.388|0.896|||Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||0.896|0.388|=0.014
82400058|NCT05052697|164509638|OTHER||Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.34|2.2|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: A1||2.20|0.34|
82400059|NCT05052697|164509638|OTHER||Geometric Mean Ratio|1.53|||||TWO_SIDED|95.0|0.86|2.7|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: A2||2.70|0.86|
82400060|NCT05052697|164509638|OTHER||Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.4|2.28|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: B1||2.28|0.40|
82400061|NCT05052697|164509638|OTHER||Geometric Mean Ratio|0.54|||||TWO_SIDED|95.0|0.25|1.18|||||GMRs and the corresponding 2-sided 95% CIs were calculated by exponentiating the mean logarithm of the difference (qIRV group minus QIV group) and the corresponding CIs (based on the Student t distribution).|Strain: B2||1.18|0.25|
82400062|NCT05052697|164509639|OTHER||Difference in percentage of participants|26.2|||||TWO_SIDED|95.0|-4.5|53.5|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: A1||53.5|-4.5|
82645629|NCT02508649|165006614|OTHER||Odds Ratio (OR)|1.01||||0.9529|TWO_SIDED|95.0|0.73|1.39|||Regression, Logistic||Odds ratio is equal to Selepressin pooled/Placebo.|Percentage of subjects with new organ failure up to Day 30||1.39|0.73|0.9529
82400063|NCT05052697|164509639|OTHER||Difference in percentage of participants|17.1|||||TWO_SIDED|95.0|-19.2|49.4|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: A2||49.4|-19.2|
82400064|NCT05052697|164509639|OTHER||Difference in percentage of participants|-12.4|||||TWO_SIDED|95.0|-41.7|19.1|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: B1||19.1|-41.7|
82400065|NCT05052697|164509639|OTHER||Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-29.2|32.5|||||Difference in percentage of participants achieving seroconversion, qIRV group - Licensed QIV group as reference, expressed as a percentage.|Strain: B2||32.5|-29.2|
82400066|NCT02724410|164509658|OTHER|Chi Square test of independence||||||0.7188|||||||Chi-squared|||||||0.7188
82400067|NCT02724410|164509659|OTHER|Chi Square test of independence||||||0.5933|||||||Chi-squared|||||||.5933
82400068|NCT02724410|164509660|OTHER|Chi Square test of independence|||||>|0.99|||||||Chi-squared|||||||>.99
82400069|NCT02724410|164509661|OTHER|T-test for difference between groups|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<.0001
82400070|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.462||0.6797||95.0|-0.83|1.22|||ANOVA|||Difference from placebo (including Baseline), Day 1: 0.5 hours post-dose.||1.22|-0.83|0.6797
82400071|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.528||0.4811||95.0|-1.54|0.77|||ANOVA|||Difference from placebo (including Baseline), Day 1: 1 hour post-dose.||0.77|-1.54|0.4811
82400072|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.454||0.1693||95.0|-1.67|0.33|||ANOVA|||Difference from placebo (including Baseline), Day 1: 2 hours post-dose.||0.33|-1.67|0.1693
82400073|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.487||0.4034||95.0|-1.78|0.87|||ANOVA|||Difference from placebo (including Baseline) , Day 1: 3 hours post-dose.||0.87|-1.78|0.4034
82400074|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.694||0.1935||95.0|-2.36|0.5|||ANOVA|||Difference from placebo (including Baseline), Day 1: 4 hours post-dose.||0.50|-2.36|0.1935
82645630|NCT01966107|165006778|SUPERIORITY||Rate ratio|0.65||||0.006|TWO_SIDED|95.0|0.48|0.89|||Negative Binomial Regression model||||A rate ratio \<1 represents a favorable outcome for aclidinium bromide 400 μg.|0.89|0.48|0.006
82400075|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.715||0.0694||95.0|-2.83|0.12|||ANOVA|||Difference from placebo (including Baseline), Day 1: 5 hours post-dose.||0.12|-2.83|0.0694
82400076|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.713||0.0396||95.0|-3.02|-0.08|||ANOVA|||Difference from placebo (including Baseline), Day 1: 6 hours post-dose.||-0.08|-3.02|0.0396
82400077|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.319||0.1531||95.0|-1.25|0.24|||ANOVA|||Difference from placebo (including Baseline), Day 1: 8 hours post-dose.||0.24|-1.25|0.1531
82400078|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.637||0.0951||95.0|-2.79|0.29|||ANOVA|||Difference from placebo (including Baseline), Day 1: 10 hours post-dose.||0.29|-2.79|0.0951
82400079|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.615||0.0614||95.0|-2.84|0.09|||ANOVA|||Difference from placebo (including Baseline), Day 1: 12 hours post-dose.||0.09|-2.84|0.0614
82400080|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.619||0.1946||95.0|-2.29|0.54|||ANOVA|||Difference from placebo (including Baseline), Day 8: pre-dose.||0.54|-2.29|0.1946
82400081|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.553||0.2843||95.0|-2.2|0.84|||ANOVA|||Difference from placebo (including Baseline), Day 8: 0.5 hours post-dose.||0.84|-2.20|0.2843
82400082|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.82||0.215||95.0|-2.75|0.65|||ANOVA|||Difference from placebo (including Baseline), Day 8: 1 hour post-dose.||0.65|-2.75|0.2150
82400083|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.189||0.9601||95.0|-0.44|0.42|||ANOVA|||Difference from placebo (including Baseline), Day 8: 2 hours post-dose.||0.42|-0.44|0.9601
82400084|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.311||0.867||95.0|-0.64|0.74|||ANOVA|||Difference from placebo (including baseline), Day 8: 3 hours post-dose.||0.74|-0.64|0.8670
82400085|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.393||0.9024||95.0|-0.94|0.84|||ANOVA|||Difference from placebo (including baseline), Day 8: 4 hours post-dose.||0.84|-0.94|0.9024
82426460|NCT05209386|164561856|OTHER||||||<|0.0001|||||||Mixed Models Analysis|t(48) = -4.50||The null hypothesis is that there is no effect of change in listening context on behavioral responses of participants.||||<0.0001
82645631|NCT01966107|165006780|NON_INFERIORITY|Estimate of the hazard ratio and its 95% CI for comparing aclidinium bromide 400 μg versus placebo were derived using the Cox proportional hazard model. A hazard ratio \<1 represents a favorable outcome for aclidinium bromide 400 μg.|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.64|1.23||||||Composite MACE||1.23|0.64|
82400086|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.293||0.9708||95.0|-0.67|0.65|||ANOVA|||Difference from placebo (including Baseline), Day 8: 5 hours post-dose.||0.65|-0.67|0.9708
82400087|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.395||0.1078||95.0|-1.62|0.19|||ANOVA|||Difference from placebo (including Baseline), Day 8: 6 hours post-dose.||0.19|-1.62|0.1078
82400088|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.419||0.446||95.0|-1.28|0.61|||ANOVA|||Difference from placebo (including Baseline), Day 8: 8 hours post-dose.||0.61|-1.28|0.4460
82400089|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.394||0.5266||95.0|-1.13|0.62|||ANOVA|||Difference from placebo (including Baseline), Day 8: 10 hours post-dose.||0.62|-1.13|0.5266
82400090|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.273||0.029||95.0|-1.29|-0.08|||ANOVA|||Difference from placebo (including Baseline), Day 8: 12 hours post-dose.||-0.08|-1.29|0.0290
82445445|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.18|2.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.51|1.18|
82445446|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.07|2.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.47|1.07|
82445447|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.3|||||TWO_SIDED|95.0|0.79|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.12|0.79|
82445448|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|0.8|||||TWO_SIDED|95.0|0.58|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.25|0.58|
82530300|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.20|0.08|<0.0001
82530301|NCT00708305|164756957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.07|||<|0.0001|TWO_SIDED|95.0|0.04|0.1||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.10|0.04|<0.0001
82400091|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.531||0.183||95.0|-2.01|0.45|||ANOVA|||Difference from placebo (including Baseline), Day 8: 24 hours post-dose.||0.45|-2.01|0.1830
82530302|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.01||||0.4309|TWO_SIDED|95.0|-0.03|0.01||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.01|-0.03|0.4309
82530303|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.0726|TWO_SIDED|95.0|0.0|0.04||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.04|0.00|0.0726
82400092|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.406||0.9884||95.0|-0.9|0.91|||ANOVA|||Difference from placebo (including Baseline), Day 8: 36 hours post-dose.||0.91|-0.90|0.9884
82400093|NCT00978341|164509688|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.354||0.8082||95.0|-0.87|0.69|||ANOVA|||Difference from placebo (including Baseline), Day 8: 48 hours post-dose.||0.69|-0.87|0.8082
82400094|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.714||0.2101||95.0|-2.39|0.55|||ANOVA|||Difference from placebo (including baseline); Day 2. Combined analysis: values for the two patient groups were analyzed together using ANOVA and/or mixed models.||0.55|-2.39|0.2101
82400095|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.623||0.1065||95.0|-2.33|0.24|||ANOVA|||Difference from placebo (including baseline); Day 3.||0.24|-2.33|0.1065
82400096|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.254||0.0697||95.0|-1.11|0.05|||ANOVA|||Difference from placebo (including baseline); Day 4.||0.05|-1.11|0.0697
82530304|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04|||<|0.0001|TWO_SIDED|95.0|0.03|0.06||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.06|0.03|<0.0001
82530305|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0107|TWO_SIDED|95.0|0.01|0.06||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.06|0.01|0.0107
82400097|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.65||0.4589||95.0|-1.83|0.85|||ANOVA|||Difference from placebo; Day 5.||0.85|-1.83|0.4589
82400098|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.742||0.1326||95.0|-2.69|0.38|||ANOVA|||Difference from placebo; Day 6.||0.38|-2.69|0.1326
82400099|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.638||0.282||95.0|-2.45|0.9|||ANOVA|||Difference from placebo (including baseline); Day 7.||0.90|-2.45|0.2820
82400100|NCT00978341|164509689|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.356||0.0108||95.0|-2.21|-0.44|||ANOVA|||Difference from placebo (including baseline); Day 8.||-0.44|-2.21|0.0108
82400101|NCT00978341|164509690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.26|STANDARD_ERROR_OF_MEAN|19.06||0.9068||95.0|-41.78|37.27|||ANOVA|||Difference from placebo; Day 1: 4 hours post-dose (including Baseline).||37.27|-41.78|0.9068
82400102|NCT00978341|164509690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|15.813||0.7807||95.0|-30.53|39.57|||ANOVA|||Difference from placebo; Day 8: pre-dose (including Baseline).||39.57|-30.53|0.7807
82400103|NCT00978341|164509690|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.51|STANDARD_ERROR_OF_MEAN|17.526||0.2293||95.0|-61.79|16.78|||ANOVA|||Difference from placebo; Day 8: 4 hours post-dose (including Baseline).||16.78|-61.79|0.2293
82400104|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.386||0.3774||95.0|-0.54|1.27|||ANOVA|||Difference from placebo (including Baseline); Day 1: 0.5 hours post-dose.||1.27|-0.54|0.3774
82400105|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.215||0.4153||95.0|-0.33|0.7|||ANOVA|||Difference from placebo (including Baseline); Day 1: 1 hour post-dose.||0.70|-0.33|0.4153
82400106|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48||||0.147||95.0|-0.23|1.2|||ANOVA|||Difference from placebo (including Baseline); Day 1: 2 hours post-dose.||1.20|-0.23|0.1470
82400107|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.3||0.1862||95.0|-1.18|0.29|||ANOVA|||Difference from placebo (including Baseline); Day 1: 3 hours post-dose.||0.29|-1.18|0.1862
82400108|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.22||0.8321||95.0|-0.45|0.55|||ANOVA|||Difference from placebo (including Baseline); Day 1: 4 hours post-dose.||0.55|-0.45|0.8321
82400109|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.269||0.4251||95.0|-0.42|0.88|||ANOVA|||Difference from placebo (including Baseline); Day 1: 5 hours post-dose.||0.88|-0.42|0.4251
82400110|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.269||0.6394||95.0|-0.53|0.8|||ANOVA|||Difference from placebo (including Baseline); Day 1: 6 hours post-dose.||0.80|-0.53|0.6394
82400111|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.302||0.9964||95.0|-0.68|0.68|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||0.68|-0.68|0.9964
82400112|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.324||0.3638||95.0|-0.47|1.11|||ANOVA|||Difference from placebo (including Baseline); Day 8: 0.5 hours post-dose.||1.11|-0.47|0.3638
82400113|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.223||0.1202||95.0|-0.15|0.99|||ANOVA|||Difference from placebo (including Baseline); Day 8: 1 hour post-dose.||0.99|-0.15|0.1202
82400114|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.355||0.1204||95.0|-0.19|1.39|||ANOVA|||Difference from placebo (including Baseline); Day 8: 2 hours post-dose.||1.39|-0.19|0.1204
82400115|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.289||0.4213||95.0|-0.44|0.93|||ANOVA|||Difference from placebo (including Baseline); Day 8: 3 hours post-dose.||0.93|-0.44|0.4213
82400116|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.205||0.6028||95.0|-0.34|0.56|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||0.56|-0.34|0.6028
82400117|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.491||0.3624||95.0|-0.68|1.64|||ANOVA|||Difference from placebo (including Baseline); Day 8: 5 hours post-dose.||1.64|-0.68|0.3624
82400118|NCT00978341|164509691|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.461||0.3163||95.0|-0.52|1.49|||ANOVA|||Difference from placebo (including Baseline); Day 8: 6 hours post-dose.||1.49|-0.52|0.3163
82400119|NCT00978341|164509692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|9.738||0.5919||95.0|-16.26|27.04|||ANOVA|||Difference from placebo (including Baseline); Day 1.||27.04|-16.26|0.5919
82400120|NCT00978341|164509692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.58|STANDARD_ERROR_OF_MEAN|14.603||0.3981||95.0|-17.7|42.87|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||42.87|-17.70|0.3981
82445449|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.3|||||TWO_SIDED|95.0|0.94|1.93|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.93|0.94|
82530306|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|||<|0.0001|TWO_SIDED|95.0|0.03|0.07|||Wilcoxon Signed Rank Test|No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.07|0.03|<0.0001
82400121|NCT00978341|164509692|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|12.123||0.8314||95.0|-24.0|29.28|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||29.28|-24.00|0.8314
82400122|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.054||0.7569||95.0|-0.14|0.1|||ANOVA|||Difference from placebo (including Baseline); Day 1: 2 hours post-dose.||0.10|-0.14|0.7569
82400123|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4814||95.0|-0.26|0.13|||ANOVA|||Difference from placebo (including Baseline); Day 1: 4 hours post-dose.||0.13|-0.26|0.4814
82400124|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.143||0.6222||95.0|-0.37|0.23|||ANOVA|||Difference from placebo (including Baseline); Day 1: 6 hours post-dose.||0.23|-0.37|0.6222
82400125|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.113||0.3035||95.0|-0.35|0.12|||ANOVA|||Difference from placebo (including Baseline); Day 8: pre-dose.||0.12|-0.35|0.3035
82400126|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.122||0.1881||95.0|-0.42|0.09|||ANOVA|||Difference from placebo (including Baseline); Day 8: 2 hours post-dose.||0.09|-0.42|0.1881
82400127|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.072||0.3159||95.0|-0.09|0.24|||ANOVA|||Difference from placebo (including Baseline); Day 8: 4 hours post-dose.||0.24|-0.09|0.3159
82400128|NCT00978341|164509693|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.103||0.8203||95.0|-0.22|0.27|||ANOVA|||Difference from placebo (including Baseline); Day 8: 6 hours post-dose.||0.27|-0.22|0.8203
82400129|NCT03035916|164509696|OTHER|||||||0.454|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.454
82400130|NCT03035916|164509696|OTHER|||||||0.402|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.402
82400131|NCT03035916|164509696|OTHER|||||||0.901|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.901
82400132|NCT03035916|164509696|OTHER|||||||0.54|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.540
82400133|NCT03035916|164509696|OTHER|||||||0.523|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.523
82576164|NCT02209181|164862033|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.26||0.083|TWO_SIDED|95.0|-0.06|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-0.06|0.083
82400134|NCT03035916|164509696|OTHER|||||||0.26|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.260
82400135|NCT03035916|164509696|OTHER|||||||0.139|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.139
82400136|NCT03035916|164509696|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400137|NCT03035916|164509696|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400138|NCT03035916|164509696|OTHER|||||||0.464|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.464
82400139|NCT03035916|164509696|OTHER|||||||0.007|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.007
82400140|NCT03035916|164509696|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400141|NCT03035916|164509696|OTHER|||||||0.411|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.411
82400142|NCT03035916|164509696|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400143|NCT03035916|164509696|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of norepinephrine(NE) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400144|NCT03035916|164509697|OTHER|||||||0.412|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.412
82400145|NCT03035916|164509697|OTHER|||||||0.592|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.592
82400146|NCT03035916|164509697|OTHER|||||||0.796|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to Baseline row."||||0.796
82400147|NCT03035916|164509697|OTHER|||||||0.576|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.576
82400148|NCT03035916|164509697|OTHER|||||||0.427|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.427
82400149|NCT03035916|164509697|OTHER|||||||0.201|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 0 hour after surgery row."||||0.201
82400150|NCT03035916|164509697|OTHER|||||||0.872|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.872
82400151|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400152|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400153|NCT03035916|164509697|OTHER|||||||0.165|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.165
82400154|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400155|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400156|NCT03035916|164509697|OTHER|||||||0.305|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.305
82400157|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400158|NCT03035916|164509697|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of epinephrine (E) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400159|NCT03035916|164509698|OTHER|||||||0.673|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.673
82400160|NCT03035916|164509698|OTHER|||||||0.824|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.824
82400161|NCT03035916|164509698|OTHER|||||||0.547|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.547
82400162|NCT03035916|164509698|OTHER|||||||0.303|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.303
82400163|NCT03035916|164509698|OTHER|||||||0.026|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.026
82400164|NCT03035916|164509698|OTHER|||||||0.002|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.002
82445450|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.2|||||TWO_SIDED|95.0|0.96|1.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.61|0.96|
82400165|NCT03035916|164509698|OTHER|||||||0.057|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.057
82400166|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400167|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400168|NCT03035916|164509698|OTHER|||||||0.069|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.069
82400169|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400170|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400171|NCT03035916|164509698|OTHER|||||||0.561|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.561
82400172|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400173|NCT03035916|164509698|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of cortisol (Cor) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400174|NCT03035916|164509699|OTHER|||||||0.249|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.249
82400175|NCT03035916|164509699|OTHER|||||||0.091|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.091
82400176|NCT03035916|164509699|OTHER|||||||0.493|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.493
82400177|NCT03035916|164509699|OTHER|||||||0.067|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.067
82400178|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.001
82400179|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 0 hour after surgery row."||||0.001
82576165|NCT02209181|164862033|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.64|-0.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.62|-1.64|<0.001
82400180|NCT03035916|164509699|OTHER|||||||0.079|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.079
82400181|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400182|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400183|NCT03035916|164509699|OTHER|||||||0.314||||||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."|t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.314
82400184|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400185|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400186|NCT03035916|164509699|OTHER|||||||0.087|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.087
82400187|NCT03035916|164509699|OTHER|||||||0.023|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.023
82400188|NCT03035916|164509699|OTHER|||||||0.001|||||||t-test, 2 sided|||"The plasma level of glucose (Glu) were detected from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400189|NCT03035916|164509700|OTHER|||||||0.384|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.384
82400190|NCT03035916|164509700|OTHER|||||||0.53|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.530
82400191|NCT03035916|164509700|OTHER|||||||0.819|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.819
82400192|NCT03035916|164509700|OTHER|||||||0.108|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.108
82400193|NCT03035916|164509700|OTHER|||||||0.667|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.667
82400194|NCT03035916|164509700|OTHER|||||||0.046|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.046
82400195|NCT03035916|164509700|OTHER|||||||0.006|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.006
82400196|NCT03035916|164509700|OTHER|||||||0.406|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.406
82400197|NCT03035916|164509700|OTHER|||||||0.042|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.042
82400198|NCT03035916|164509700|OTHER|||||||0.655|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.655
82400199|NCT03035916|164509700|OTHER|||||||0.262|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.262
82400200|NCT03035916|164509700|OTHER|||||||0.143|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.143
82400201|NCT03035916|164509700|OTHER|||||||0.494|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.494
82400202|NCT03035916|164509700|OTHER|||||||0.001|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
82400203|NCT03035916|164509700|OTHER|||||||0.001|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
82400204|NCT03035916|164509700|OTHER|||||||0.555|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.555
82400205|NCT03035916|164509700|OTHER|||||||0.411|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.411
82400206|NCT03035916|164509700|OTHER|||||||0.167|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.167
82400207|NCT03035916|164509700|OTHER|||||||0.445|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.445
82400208|NCT03035916|164509700|OTHER|||||||0.489|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.489
82400209|NCT03035916|164509700|OTHER|||||||0.159|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.159
82400210|NCT03035916|164509700|OTHER|||||||0.72|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.720
82400211|NCT03035916|164509700|OTHER|||||||0.026|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.026
82375663|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.39||||0.006|TWO_SIDED|95.0|-0.67|-0.12||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.12|-0.67|0.006
82530307|NCT00708305|164756958|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.0012|TWO_SIDED|95.0|0.01|0.04||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|Wilcoxon Signed Rank Test||Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments, being compared. Statistical tests were 2-sided at 5% significance level.||0.04|0.01|0.0012
82530308|NCT00550550|164756972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|||=|0.001|TWO_SIDED|95.0|-2.6|-0.66|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.66|-2.60|=0.001
82530309|NCT00550550|164756973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.005|TWO_SIDED|95.0|-1.95|-0.45|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.45|-1.95|=0.005
82375664|NCT00261443|164457825|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.35||||0.015|TWO_SIDED|95.0|-0.62|-0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.07|-0.62|0.015
82375665|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.588|TWO_SIDED|95.0|-0.09|0.16||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Baseline Comparison||0.16|-0.09|0.588
82375666|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.01||||0.922|TWO_SIDED|95.0|-0.18|0.16||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.16|-0.18|0.922
82375667|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.266|TWO_SIDED|95.0|-0.3|0.08||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.08|-0.30|0.266
82375668|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.159|TWO_SIDED|95.0|-0.34|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.06|-0.34|0.159
82375669|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.11||||0.305|TWO_SIDED|95.0|-0.31|0.1||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.10|-0.31|0.305
82375670|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.13||||0.251|TWO_SIDED|95.0|-0.35|0.09||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.09|-0.35|0.251
82375671|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.17||||0.135|TWO_SIDED|95.0|-0.4|0.05||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.05|-0.40|0.135
82375672|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.073|TWO_SIDED|95.0|-0.46|0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.02|-0.46|0.073
82375673|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.26||||0.034|TWO_SIDED|95.0|-0.5|-0.02||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||-0.02|-0.50|0.034
82375674|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.17||||0.174|TWO_SIDED|95.0|-0.41|0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.07|-0.41|0.174
82375675|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.132|TWO_SIDED|95.0|-0.43|0.06||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.06|-0.43|0.132
82530310|NCT00550550|164756974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||=|0.066|TWO_SIDED|95.0|-0.88|0.03|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||0.03|-0.88|=0.066
82530311|NCT00550550|164756975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|||=|0.042|TWO_SIDED|95.0|-0.6|-0.03|||ANOVA|Asthma status, treatment group, and site were fixed effects.||||-0.03|-0.60|=0.042
82530312|NCT01302938|164756983|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-3.9|0.6||||||Change at Week 12: Analysis was performed using an analysis of covariance (ANCOVA) with term for treatment with baseline value as a covariate.||0.6|-3.9|
82530313|NCT01302938|164756984|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|29.4|STANDARD_ERROR_OF_MEAN|35.4|||TWO_SIDED|95.0|-47.8|106.6||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||106.6|-47.8|
82375676|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.18||||0.152|TWO_SIDED|95.0|-0.42|0.07||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.07|-0.42|0.152
82375677|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.23||||0.06|TWO_SIDED|95.0|-0.48|0.01||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||0.01|-0.48|0.060
82375678|NCT00261443|164457827|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.085|TWO_SIDED|95.0|-0.46|0.03||Baseline: ANOVA model, controlling for treatment, mood stabilizer, and index mood episode. Mean change from baseline: ANCOVA model, controlling for treatment, mood stabilizer, index mood episode, baseline value.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.03|-0.46|0.085
82375679|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.04||||0.774|TWO_SIDED|95.0|-0.25|0.33||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.33|-0.25|0.774
82375680|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.19||||0.213|TWO_SIDED|95.0|-0.49|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.11|-0.49|0.213
82375681|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.465|TWO_SIDED|95.0|-0.43|0.2||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.20|-0.43|0.465
82375682|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.068|TWO_SIDED|95.0|-0.59|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.02|-0.59|0.068
82375683|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.27||||0.095|TWO_SIDED|95.0|-0.58|0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.05|-0.58|0.095
82375684|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.082|TWO_SIDED|95.0|-0.62|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.04|-0.62|0.082
82375685|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.36||||0.033|TWO_SIDED|95.0|-0.69|-0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.03|-0.69|0.033
82375686|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.31||||0.062|TWO_SIDED|95.0|-0.64|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.02|-0.64|0.062
82375687|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.43||||0.011|TWO_SIDED|95.0|-0.76|-0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||-0.10|-0.76|0.011
82576166|NCT02209181|164862033|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.4|-0.37||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.37|-1.40|<0.001
82576167|NCT02209181|164862034|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.93|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|2.28|3.59||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.59|2.28|<0.001
82400212|NCT03035916|164509700|OTHER|||||||0.011|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.011
82400213|NCT03035916|164509700|OTHER|||||||0.763|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.763
82400214|NCT03035916|164509700|OTHER|||||||0.187|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.187
82400215|NCT03035916|164509700|OTHER|||||||0.112|||||||t-test, 2 sided|||"The Heart rate was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.112
82400216|NCT03035916|164509701|OTHER|||||||0.645|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.645
82400217|NCT03035916|164509701|OTHER|||||||0.645|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.645
82400218|NCT03035916|164509701|OTHER|||||||0.314|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Baseline row."||||0.314
82400219|NCT03035916|164509701|OTHER|||||||0.003|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.003
82400220|NCT03035916|164509701|OTHER|||||||0.367|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.367
82400221|NCT03035916|164509701|OTHER|||||||0.031|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Before induction row."||||0.031
82400222|NCT03035916|164509701|OTHER|||||||0.009|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.009
82400223|NCT03035916|164509701|OTHER|||||||0.873|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.873
82400224|NCT03035916|164509701|OTHER|||||||0.026|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Induction row."||||0.026
82400225|NCT03035916|164509701|OTHER|||||||0.411|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.411
82400226|NCT03035916|164509701|OTHER|||||||0.787|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.787
82576168|NCT02209181|164862034|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.33||0.058|TWO_SIDED|95.0|-0.02|1.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.29|-0.02|0.058
82400227|NCT03035916|164509701|OTHER|||||||0.306|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Intubation row."||||0.306
82400228|NCT03035916|164509701|OTHER|||||||0.921|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.921
82400229|NCT03035916|164509701|OTHER|||||||0.001|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
82400230|NCT03035916|164509701|OTHER|||||||0.001|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Incision row."||||0.001
82400231|NCT03035916|164509701|OTHER|||||||0.555|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.555
82400232|NCT03035916|164509701|OTHER|||||||0.058|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.058
82400233|NCT03035916|164509701|OTHER|||||||0.166|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to Extubation row."||||0.166
82530314|NCT01302938|164756984|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|28.0|STANDARD_ERROR_OF_MEAN|38.9|||TWO_SIDED|95.0|-55.4|111.4||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||111.4|-55.4|
82400234|NCT03035916|164509701|OTHER|||||||0.288|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.288
82400235|NCT03035916|164509701|OTHER|||||||0.299|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.299
82400236|NCT03035916|164509701|OTHER|||||||0.051|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 6 hours after surgery row."||||0.051
82400237|NCT03035916|164509701|OTHER|||||||0.186|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.186
82400238|NCT03035916|164509701|OTHER|||||||0.555|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.555
82400239|NCT03035916|164509701|OTHER|||||||0.065|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 24 hours after surgery row."||||0.065
82400240|NCT03035916|164509701|OTHER|||||||0.168|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.168
82400241|NCT03035916|164509701|OTHER|||||||0.739|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.739
82400242|NCT03035916|164509701|OTHER|||||||0.079|||||||t-test, 2 sided|||"The mean arterial pressure(MAP) was measured from baseline to 48hours after surgery. The row Baseline is the preoperative level as the blank control.This Statistical Analysis applied to 48 hours after surgery row."||||0.079
82400243|NCT03035916|164509702|OTHER|||||||0.056|||||||t-test, 2 sided|||||||0.056
82400244|NCT03035916|164509702|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82400245|NCT03035916|164509702|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82400246|NCT03035916|164509703|OTHER|||||||0.056||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.056
82400247|NCT03035916|164509703|OTHER|||||||0.009||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.009
82400248|NCT03035916|164509703|OTHER|||||||0.001||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.001
82400249|NCT03035916|164509703|OTHER|||||||0.198|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.198
82400250|NCT03035916|164509703|OTHER|||||||0.047|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.047
82400251|NCT03035916|164509703|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.002
82400252|NCT03035916|164509703|OTHER|||||||0.102|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.102
82400253|NCT03035916|164509703|OTHER|||||||0.005|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.005
82400254|NCT03035916|164509703|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
82400255|NCT03035916|164509703|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400256|NCT03035916|164509703|OTHER|||||||0.023|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.023
82400257|NCT03035916|164509703|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400258|NCT03035916|164509703|OTHER|||||||0.425|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.425
82400259|NCT03035916|164509703|OTHER|||||||0.124|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.124
82400260|NCT03035916|164509703|OTHER|||||||0.052|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.052
82400261|NCT03035916|164509704|OTHER|||||||0.176||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.176
82530315|NCT01302938|164756984|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|43.0|STANDARD_ERROR_OF_MEAN|31.4|||TWO_SIDED|95.0|-24.2|110.3||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||110.3|-24.2|
82530316|NCT01302938|164756985|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.67|1.67||||||Change at Week 1: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95 percent (%) confidence intervals (CI).||1.67|-0.67|
82530317|NCT01302938|164756985|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-1.0|1.83||||||Change at Week 4: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||1.83|-1.00|
82530318|NCT01302938|164756985|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-3.0|1.0||||||Change at Week 12: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||1.00|-3.00|
82530319|NCT01302938|164756986|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.3|1.8||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||1.8|-1.3|
82530320|NCT01302938|164756986|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.2|0.9||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.9|-2.2|
82576169|NCT02209181|164862034|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.23|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|0.57|1.89||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.89|0.57|<0.001
82576170|NCT02209181|164862034|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-2.96|-1.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.65|-2.96|<0.001
82375688|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.37||||0.027|TWO_SIDED|95.0|-0.7|-0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||-0.04|-0.70|0.027
82400262|NCT03035916|164509704|OTHER|||||||0.001||||||p\<0.05 indicates that the data difference is statistically significant.|t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 1 hour after surgery row."||||0.001
82530321|NCT01302938|164756989|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-0.8|1.9||||||Change at Week 1: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||1.9|-0.8|
82530322|NCT01302938|164756989|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-3.7|0.8||||||Change at Week 4: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.8|-3.7|
82530323|NCT01302938|164756989|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-6.3|0.4||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||0.4|-6.3|
82530324|NCT01302938|164756992|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.0|STANDARD_ERROR_OF_MEAN|10.8|||TWO_SIDED|95.0|-33.2|13.2||||||Change at Week 12: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||13.2|-33.2|
82530325|NCT01302938|164756993|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|11.7|STANDARD_ERROR_OF_MEAN|8.6|||TWO_SIDED|95.0|-6.9|30.3||||||Change at Week 12; Coping Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||30.3|-6.9|
82530326|NCT01302938|164756993|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.0|STANDARD_ERROR_OF_MEAN|11.4|||TWO_SIDED|95.0|-16.7|32.7||||||Change at Week 12; Concern Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||32.7|-16.7|
82530327|NCT01302938|164756993|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|10.3|STANDARD_ERROR_OF_MEAN|10.9|||TWO_SIDED|95.0|-13.3|33.8||||||Change at Week 12; Sleep Subscale: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||33.8|-13.3|
82530328|NCT01302938|164756993|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.0|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-11.0|29.0||||||Change at Week 12; Total HRQL Score: Analysis was performed using an ANCOVA with term for treatment with baseline value as a covariate.||29.0|-11.0|
82530329|NCT01302938|164756994|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|4.0|||||TWO_SIDED|95.0|-20.0|20.0||||||Change at Week 12; Social Subscale: Non-parametric Hodges-Lehmann's method was used to obtain median difference and 95% CI.||20.00|-20.00|
82576171|NCT02209181|164862034|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.37|-1.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.04|-2.37|<0.001
82375689|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.37||||0.029|TWO_SIDED|95.0|-0.71|-0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||-0.04|-0.71|0.029
82375690|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.4||||0.022|TWO_SIDED|95.0|-0.74|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.06|-0.74|0.022
82375691|NCT00261443|164457830|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.4||||0.023|TWO_SIDED|95.0|-0.75|-0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||-0.06|-0.75|0.023
82445451|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.09|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.12|1.09|
82445452|NCT00574548|164599367|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.8|||||TWO_SIDED|95.0|1.86|4.35|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||4.35|1.86|
82445453|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.43|2.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.57|1.43|
82530330|NCT02708433|164757044|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|49.0||0.74|TWO_SIDED|95.0|-0.49|0.57|||Wilcoxon (Mann-Whitney)|||||0.57|-0.49|0.74
82400263|NCT03035916|164509704|OTHER|||||||0.228|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.228
82400264|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400265|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 6 hours after surgery row."||||0.001
82400266|NCT03035916|164509704|OTHER|||||||0.057|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.057
82400267|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
82400268|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 12 hours after surgery row."||||0.001
82400269|NCT03035916|164509704|OTHER|||||||0.004|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.004
82400270|NCT03035916|164509704|OTHER|||||||0.005|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.005
82400271|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 24 hours after surgery row."||||0.001
82400272|NCT03035916|164509704|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.002
82400273|NCT03035916|164509704|OTHER|||||||0.002|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.002
82400274|NCT03035916|164509704|OTHER|||||||0.001|||||||t-test, 2 sided|||"The pain score were measured from 1 hour to 48hours after surgery. This Statistical Analysis applied to 48 hours after surgery row."||||0.001
82400275|NCT03035916|164509705|OTHER|||||||0.585|||||||t-test, 2 sided|||||||0.585
82400276|NCT03035916|164509705|OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
82400277|NCT03035916|164509705|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
82400278|NCT03035916|164509706|OTHER|||||||0.644|||||||t-test, 2 sided|||||||0.644
82400279|NCT03035916|164509706|OTHER|||||||0.045|||||||t-test, 2 sided|||||||0.045
82530331|NCT02708433|164757045|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|48.0||0.5|TWO_SIDED|95.0|-0.89|0.52|||Wilcoxon (Mann-Whitney)|||||0.52|-0.89|0.5
82530332|NCT01518946|164757053|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|521.0||||0.0131|TWO_SIDED|95.0|124.2|917.7|||ANOVA|||||917.7|124.2|0.0131
82400280|NCT03035916|164509706|OTHER|||||||0.031|||||||t-test, 2 sided|||||||0.031
82400281|NCT03035916|164509707|OTHER|||||||0.421|||||||t-test, 2 sided|||||||0.421
82400282|NCT03035916|164509707|OTHER|||||||0.046|||||||t-test, 2 sided|||||||0.046
82400283|NCT03035916|164509707|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
82400284|NCT03035916|164509708|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.910
82400285|NCT03035916|164509708|OTHER|||||||0.864|||||||t-test, 2 sided|||||||0.864
82400286|NCT03035916|164509708|OTHER|||||||0.785|||||||t-test, 2 sided|||||||0.785
82400287|NCT03035916|164509709|OTHER|||||||0.972|||||||t-test, 2 sided|||||||0.972
82400288|NCT03035916|164509709|OTHER|||||||0.987|||||||t-test, 2 sided|||||||0.987
82400289|NCT03035916|164509709|OTHER|||||||0.518|||||||t-test, 2 sided|||||||0.518
82400290|NCT01451554|164509710|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||2 tailed t-test|t-test, 2 sided|||Data were compared between groups using the 2 sample T-test.||||0.06
82400291|NCT01451554|164509711|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||Data were compared between groups using a 2 sample T-test.||||0.31
82400292|NCT01402986|164509712|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.709|TWO_SIDED|95.0|0.67|1.31|||Poisson regression|||The 95 percent (%) confidence interval (CI) for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 versus \[vs\] more than \[\>\] 2 but less than or equal to \[=\<\] 6), atopic asthma status (atopic/non-atopic), chronic oral corticosteroid (OCS) use (presence vs absence) and geographical region as the covariates.||1.31|0.67|0.709
82645632|NCT00689273|165006781|SUPERIORITY||Least Square (LS) Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.57||0.39|TWO_SIDED|80.0|-1.23|0.24|||Mixed Models Analysis|||Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect. One-sided alpha of 0.1 was used for the analysis.||0.24|-1.23|0.39
82400293|NCT01402986|164509712|SUPERIORITY_OR_OTHER||Rate Ratio|1.02||||0.904|TWO_SIDED|95.0|0.71|1.46|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \> 2 but =\< 6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.46|0.71|0.904
82400294|NCT01402986|164509729|SUPERIORITY_OR_OTHER||Rate Ratio|0.62||||0.293|TWO_SIDED|95.0|0.26|1.51|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.51|0.26|0.293
82400295|NCT01402986|164509729|SUPERIORITY_OR_OTHER||Rate Ratio|0.62||||0.27|TWO_SIDED|95.0|0.27|1.44|||Poisson regression|||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status (atopic/non-atopic), chronic OCS use (presence vs absence) and geographical region as the covariates.||1.44|0.27|0.270
82400296|NCT01402986|164509730|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.257|TWO_SIDED|95.0|0.57|1.16|||Regression, Cox|||||1.16|0.57|0.257
82400297|NCT01402986|164509730|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.225|TWO_SIDED|95.0|0.56|1.15|||Regression, Cox|||||1.15|0.56|0.225
82400298|NCT01402986|164509731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.538|TWO_SIDED|95.0|0.37|1.68|||Regression, Cox|||||1.68|0.37|0.538
82530333|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.8|3.9||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||3.9|-3.8|
82400299|NCT01402986|164509731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.561|TWO_SIDED|95.0|0.37|1.71|||Regression, Cox|||||1.71|0.37|0.561
82400300|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.73||||0.19|TWO_SIDED|95.0|0.46|1.17|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= median||1.17|0.46|0.190
82400301|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.856|TWO_SIDED|95.0|0.56|1.61|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= median||1.61|0.56|0.856
82400302|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|1.13||||0.602|TWO_SIDED|95.0|0.71|1.81|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< median||1.81|0.71|0.602
82400303|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.703|TWO_SIDED|95.0|0.55|1.5|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< median||1.50|0.55|0.703
82400304|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.86||||0.455|TWO_SIDED|95.0|0.58|1.28|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 25th Percentile||1.28|0.58|0.455
82530334|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.5||||||95.0|-7.1|3.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||3.7|-7.1|
82400305|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|1.02||||0.929|TWO_SIDED|95.0|0.66|1.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 25th Percentile||1.57|0.66|0.929
82400306|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|1.26||||0.507|TWO_SIDED|95.0|0.63|2.51|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 25th Percentile||2.51|0.63|0.507
82400307|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.805|TWO_SIDED|95.0|0.44|1.89|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 25th Percentile||1.89|0.44|0.805
82530335|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.1||||||95.0|-13.4|5.1||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||5.1|-13.4|
82530336|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.3||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.3|-3.2|
82400308|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.88||||0.716|TWO_SIDED|95.0|0.44|1.75|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 75th Percentile||1.75|0.44|0.716
82400309|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|1.51||||0.328|TWO_SIDED|95.0|0.66|3.43|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \>= 75th Percentile||3.43|0.66|0.328
82400310|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.804|TWO_SIDED|95.0|0.64|1.41|||Poission regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 75th Percentile||1.41|0.64|0.804
82400311|NCT01402986|164509732|SUPERIORITY_OR_OTHER||Rate Ratio|0.7||||0.088|TWO_SIDED|95.0|0.47|1.05|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline serum periostin \< 75th Percentile||1.05|0.47|0.088
82400312|NCT01402986|164509733|SUPERIORITY_OR_OTHER||Rate Ratio|0.8||||0.365|TWO_SIDED|95.0|0.5|1.29|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.29|0.50|0.365
82400313|NCT01402986|164509733|SUPERIORITY_OR_OTHER||Rate Ratio|0.97||||0.922|TWO_SIDED|95.0|0.56|1.68|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.68|0.56|0.922
82400314|NCT01402986|164509733|SUPERIORITY_OR_OTHER||Rate Ratio|1.11||||0.685|TWO_SIDED|95.0|0.67|1.84|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.84|0.67|0.685
82400315|NCT01402986|164509733|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.813|TWO_SIDED|95.0|0.66|1.7|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.70|0.66|0.813
82445454|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.95|3.16|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.16|1.95|
82400316|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|0.82||||0.335|TWO_SIDED|95.0|0.56|1.22|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=150 cells/mcgL||1.22|0.56|0.335
82400317|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|0.88||||0.586|TWO_SIDED|95.0|0.54|1.41|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=150 cells/mcgL||1.41|0.54|0.586
82400318|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|1.36||||0.331|TWO_SIDED|95.0|0.73|2.52|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<150 cells/mcgL||2.52|0.73|0.331
82400319|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|1.41||||0.311|TWO_SIDED|95.0|0.73|2.71|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<150 cells/mcgL||2.71|0.73|0.311
82400320|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|0.81||||0.414|TWO_SIDED|95.0|0.48|1.35|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.35|0.48|0.414
82400321|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|1.26||||0.463|TWO_SIDED|95.0|0.68|2.36|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||2.36|0.68|0.463
82400322|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.793|TWO_SIDED|95.0|0.67|1.68|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||1.68|0.67|0.793
82530337|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.1||||||95.0|-4.5|7.1||||||For Pertussis PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 17 EU/mL threshold was calculated||7.1|-4.5|
82400323|NCT01402986|164509734|SUPERIORITY_OR_OTHER||Rate Ratio|0.77||||0.264|TWO_SIDED|95.0|0.49|1.22|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||1.22|0.49|0.264
82400324|NCT01402986|164509735|SUPERIORITY_OR_OTHER||Rate Ratio|0.66||||0.245|TWO_SIDED|95.0|0.33|1.32|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||1.32|0.33|0.245
82400325|NCT01402986|164509735|SUPERIORITY_OR_OTHER||Rate Ratio|0.76||||0.438|TWO_SIDED|95.0|0.37|1.54|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||1.54|0.37|0.438
82400326|NCT01402986|164509735|SUPERIORITY_OR_OTHER||Rate Ratio|1.01||||0.947|TWO_SIDED|95.0|0.66|1.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.57|0.66|0.947
82645633|NCT00689273|165006782|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.52||0.63|TWO_SIDED|80.0|-0.92|0.42|||Mixed Models Analysis|||Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.42|-0.92|0.63
82645634|NCT00689273|165006783|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.27||0.54|TWO_SIDED|80.0|-0.51|0.18|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.18|-0.51|0.54
82645635|NCT00689273|165006783|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|80.0|-0.51|0.21|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.21|-0.51|0.60
82645636|NCT00689273|165006784|SUPERIORITY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|1.8||0.44|TWO_SIDED|80.0|-3.69|0.94|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.94|-3.69|0.44
82645637|NCT00689273|165006784|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|2.0||0.23|TWO_SIDED|80.0|-5.0|0.16|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.16|-5.00|0.23
82645638|NCT00689273|165006785|SUPERIORITY||LS Mean Difference|-1.76|STANDARD_ERROR_OF_MEAN|2.46||0.48|TWO_SIDED|80.0|-4.94|1.41|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||1.41|-4.94|0.48
82645639|NCT00689273|165006785|SUPERIORITY||LS Mean Difference|-3.02|STANDARD_ERROR_OF_MEAN|2.79||0.28|TWO_SIDED|80.0|-6.61|0.57|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.57|-6.61|0.28
82645640|NCT00689273|165006786|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.91||0.48|TWO_SIDED|80.0|-1.81|0.52|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.52|-1.81|0.48
82400327|NCT01402986|164509735|SUPERIORITY_OR_OTHER||Rate Ratio|0.97||||0.916|TWO_SIDED|95.0|0.59|1.59|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.59|0.59|0.916
82375692|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.09||||0.486|TWO_SIDED|95.0|-0.17|0.36||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.36|-0.17|0.486
82375693|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.04||||0.793|TWO_SIDED|95.0|-0.3|0.23||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.23|-0.30|0.793
82375694|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.06||||0.665|TWO_SIDED|95.0|-0.34|0.22||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.22|-0.34|0.665
82400328|NCT01402986|164509736|SUPERIORITY_OR_OTHER||Rate Ratio|0.91||||0.723|TWO_SIDED|95.0|0.52|1.56|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=60%||1.56|0.52|0.723
82400329|NCT01402986|164509736|SUPERIORITY_OR_OTHER||Rate Ratio|1.06||||0.852|TWO_SIDED|95.0|0.6|1.86|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=60%||1.86|0.60|0.852
82400330|NCT01402986|164509736|SUPERIORITY_OR_OTHER||Rate Ratio|0.86||||0.409|TWO_SIDED|95.0|0.6|1.23|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=80%||1.23|0.60|0.409
82400331|NCT01402986|164509736|SUPERIORITY_OR_OTHER||Rate Ratio|1.07||||0.744|TWO_SIDED|95.0|0.72|1.58|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1% predicted \<=80%||1.58|0.72|0.744
82400332|NCT01402986|164509737|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.802|TWO_SIDED|95.0|0.58|1.52|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|2 asthma exacerbations in the past year||1.52|0.58|0.802
82400333|NCT01402986|164509737|SUPERIORITY_OR_OTHER||Rate Ratio|0.6||||0.05|TWO_SIDED|95.0|0.36|1.0|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|2 asthma exacerbations in the past year||1.00|0.36|0.050
82400334|NCT01402986|164509737|SUPERIORITY_OR_OTHER||Rate Ratio|0.93||||0.792|TWO_SIDED|95.0|0.56|1.56|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|\> 2 but \< 6 asthma exacerbations in the past year||1.56|0.56|0.792
82400335|NCT01402986|164509737|SUPERIORITY_OR_OTHER||Rate Ratio|1.39||||0.231|TWO_SIDED|95.0|0.81|2.38|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|\> 2 but \< 6 asthma exacerbations in the past year||2.38|0.81|0.231
82400336|NCT01402986|164509738|SUPERIORITY_OR_OTHER||Rate Ratio|0.25||||0.046|TWO_SIDED|95.0|0.06|0.98|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \>=Median||0.98|0.06|0.046
82400337|NCT01402986|164509738|SUPERIORITY_OR_OTHER||Rate Ratio|0.47||||0.197|TWO_SIDED|95.0|0.15|1.48|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \>=Median||1.48|0.15|0.197
82400338|NCT01402986|164509738|SUPERIORITY_OR_OTHER||Rate Ratio|1.18||||0.708|TWO_SIDED|95.0|0.5|2.79|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \< Median||2.79|0.50|0.708
82400339|NCT01402986|164509738|SUPERIORITY_OR_OTHER||Rate Ratio|1.31||||0.594|TWO_SIDED|95.0|0.48|3.57|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline Serum Periostin \< Median||3.57|0.48|0.594
82400340|NCT01402986|164509739|SUPERIORITY_OR_OTHER||Rate Ratio|1.03||||0.975|TWO_SIDED|95.0|0.14|7.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||7.67|0.14|0.975
82400341|NCT01402986|164509739|SUPERIORITY_OR_OTHER||Rate Ratio|1.66||||0.473|TWO_SIDED|95.0|0.41|6.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \>=12%||6.67|0.41|0.473
82400342|NCT01402986|164509739|SUPERIORITY_OR_OTHER||Rate Ratio|0.49||||0.099|TWO_SIDED|95.0|0.21|1.14|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.14|0.21|0.099
82400343|NCT01402986|164509739|SUPERIORITY_OR_OTHER||Rate Ratio|0.42||||0.148|TWO_SIDED|95.0|0.13|1.36|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline FEV1 reversibility \<12%||1.36|0.13|0.148
82400344|NCT01402986|164509740|SUPERIORITY_OR_OTHER||Rate Ratio|0.82||||0.698|TWO_SIDED|95.0|0.31|2.19|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||2.19|0.31|0.698
82400345|NCT01402986|164509740|SUPERIORITY_OR_OTHER||Rate Ratio|0.55||||0.299|TWO_SIDED|95.0|0.18|1.7|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 high||1.70|0.18|0.299
82400346|NCT01402986|164509740|SUPERIORITY_OR_OTHER||Rate Ratio|0.25||||0.105|TWO_SIDED|95.0|0.05|1.34|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||1.34|0.05|0.105
82400347|NCT01402986|164509740|SUPERIORITY_OR_OTHER||Rate Ratio|0.7||||0.576|TWO_SIDED|95.0|0.2|2.47|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Th2 Low||2.47|0.20|0.576
82400348|NCT01402986|164509741|SUPERIORITY_OR_OTHER||Rate Ratio|0.48||||0.133|TWO_SIDED|95.0|0.19|1.25|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.25|0.19|0.133
82400349|NCT01402986|164509741|SUPERIORITY_OR_OTHER||Rate Ratio|0.46||||0.241|TWO_SIDED|95.0|0.13|1.67|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \>=300 cells/mcgL||1.67|0.13|0.241
82400350|NCT01402986|164509741|SUPERIORITY_OR_OTHER||Rate Ratio|0.59||||0.51|TWO_SIDED|95.0|0.12|2.84|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||2.84|0.12|0.510
82400351|NCT01402986|164509741|SUPERIORITY_OR_OTHER||Rate Ratio|0.74||||0.661|TWO_SIDED|95.0|0.19|2.85|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Baseline eosinophil count \<300 cells/mcgL||2.85|0.19|0.661
82400352|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.79||||0.057|TWO_SIDED|95.0|-0.21|13.79|||Repeated measure model|||Baseline serum periostin \>= median||13.79|-0.21|0.057
82400353|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.57||||0.874|TWO_SIDED|95.0|-6.54|7.68|||Repeated measure model|||Baseline serum periostin \>= median||7.68|-6.54|0.874
82400354|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.37||||0.028|TWO_SIDED|95.0|0.8|13.95|||Repeated measure model|||Baseline serum periostin \< median||13.95|0.80|0.028
82400355|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.09||||0.745|TWO_SIDED|95.0|-5.48|7.66|||Repeated measure model|||Baseline serum periostin \< median||7.66|-5.48|0.745
82400356|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.12||||0.011|TWO_SIDED|95.0|1.66|12.58|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||12.58|1.66|0.011
82400357|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.48||||0.863|TWO_SIDED|95.0|-5.93|4.97|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||4.97|-5.93|0.863
82400358|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.24||||0.221|TWO_SIDED|95.0|-3.8|16.27|||Repeated measure model|||Baseline serum periostin \< 25th percentile||16.27|-3.80|0.221
82400359|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.58||||0.108|TWO_SIDED|95.0|-1.91|19.07|||Repeated measure model|||Baseline serum periostin \< 25th percentile||19.07|-1.91|0.108
82400360|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|9.89||||0.09|TWO_SIDED|95.0|-1.57|21.35|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||21.35|-1.57|0.090
82530338|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.2|-3.2|
82400361|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.7||||0.908|TWO_SIDED|95.0|-11.19|12.59|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||12.59|-11.19|0.908
82400362|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.52||||0.013|TWO_SIDED|95.0|1.41|11.64|||Repeated measure model|||Baseline serum periostin \< 75th percentile||11.64|1.41|0.013
82400363|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.23||||0.635|TWO_SIDED|95.0|-3.84|6.29|||Repeated measure model|||Baseline serum periostin \< 75th percentile||6.29|-3.84|0.635
82400364|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.89||||0.014|TWO_SIDED|95.0|1.84|15.94|||Repeated measure model|||Th2 high||15.94|1.84|0.014
82400365|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|3.91||||0.28|TWO_SIDED|95.0|-3.19|11.02|||Repeated measure model|||Th2 high||11.02|-3.19|0.280
82400366|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|3.22||||0.292|TWO_SIDED|95.0|-2.78|9.22|||Repeated measure model|||Th2 low||9.22|-2.78|0.292
82400367|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|-1.18||||0.691|TWO_SIDED|95.0|-6.99|4.64|||Repeated measure model|||Th2 low||4.64|-6.99|0.691
82400368|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|8.83||||0.004|TWO_SIDED|95.0|2.85|14.81|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||14.81|2.85|0.004
82400369|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|4.25||||0.177|TWO_SIDED|95.0|-1.92|10.43|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||10.43|-1.92|0.177
82400370|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.05||||0.159|TWO_SIDED|95.0|-2.39|14.5|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||14.50|-2.39|0.159
82400371|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.72||||0.857|TWO_SIDED|95.0|-8.63|7.18|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||7.18|-8.63|0.857
82530339|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||3.2|-3.2|
82375695|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.65|TWO_SIDED|95.0|-0.35|0.22||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.22|-0.35|0.650
82400372|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|13.75||||0.002|TWO_SIDED|95.0|5.28|22.22|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||22.22|5.28|0.002
82400373|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|5.23||||0.243|TWO_SIDED|95.0|-3.56|14.02|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||14.02|-3.56|0.243
82400374|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|4.37||||0.144|TWO_SIDED|95.0|-1.5|10.24|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||10.24|-1.50|0.144
82400375|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.72||||0.804|TWO_SIDED|95.0|-5.01|6.46|||Baseline peripheral blood eosinophil cou|||Baseline peripheral blood eosinophil count \< 300 cells/μ||6.46|-5.01|0.804
82400376|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|11.19||||0.029|TWO_SIDED|95.0|1.15|21.23|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||21.23|1.15|0.029
82400377|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.72||||0.887|TWO_SIDED|95.0|-9.19|10.62|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||10.62|-9.19|0.887
82530340|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.5||||||95.0|-7.9|4.8||||||For Pertussis FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 20 EU/mL threshold was calculated||4.8|-7.9|
82530341|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-3.2|3.2||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||3.2|-3.2|
82530342|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-3.1||||||95.0|-10.0|3.4||||||For Pertussis PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 15 EU/mL threshold was calculated||3.4|-10.0|
82530343|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.7||||||95.0|-0.5|7.6||||||For Pertussis FIM the difference in percentage between the two groups (13vPnC - 7vPnC) at 2.2 EU/mL threshold was calculated||7.6|-0.5|
82530344|NCT00384059|164757055|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.0||||||95.0|-4.1|6.5||||||For Pertussis FIM the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||6.5|-4.1|
82530345|NCT00384059|164757056|SUPERIORITY_OR_OTHER||Difference|-5.3||||||95.0|-19.7|8.8||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||8.8|-19.7|
82530346|NCT00384059|164757056|SUPERIORITY_OR_OTHER||Difference|-0.1||||||95.0|-8.0|8.1||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 titer was calculated||8.1|-8.0|
82375696|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.06||||0.705|TWO_SIDED|95.0|-0.34|0.23||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.23|-0.34|0.705
82375697|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.08||||0.572|TWO_SIDED|95.0|-0.38|0.21||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.21|-0.38|0.572
82375698|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.418|TWO_SIDED|95.0|-0.43|0.18||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||0.18|-0.43|0.418
82375699|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.2||||0.185|TWO_SIDED|95.0|-0.51|0.1||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.10|-0.51|0.185
82375700|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.1||||0.536|TWO_SIDED|95.0|-0.41|0.21||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.21|-0.41|0.536
82530347|NCT00384059|164757057|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-3.5|3.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||3.8|-3.5|
82530348|NCT00384059|164757057|SUPERIORITY_OR_OTHER||Difference|-1.0||||||95.0|-5.3|2.8||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||2.8|-5.3|
82530349|NCT00384059|164757058|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.89||||||95.0|0.68|1.16||||||For Meningococcal C the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.68|
82645641|NCT00689273|165006786|SUPERIORITY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|1.03||0.28|TWO_SIDED|80.0|-2.45|0.2|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.20|-2.45|0.28
82400378|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.67||||0.002|TWO_SIDED|95.0|2.76|12.59|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||12.59|2.76|0.002
82400379|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|2.79||||0.268|TWO_SIDED|95.0|-2.15|7.74|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||7.74|-2.15|0.268
82400380|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.82||||0.003|TWO_SIDED|95.0|2.64|13.01|||Repeated measure model|||2 asthma exacerbations in the past year||13.01|2.64|0.003
82400381|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|2.42||||0.361|TWO_SIDED|95.0|-2.78|7.62|||Repeated measure model|||2 asthma exacerbations in the past year||7.62|-2.78|0.361
82400382|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|6.34||||0.185|TWO_SIDED|95.0|-3.06|15.75|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||15.75|-3.06|0.185
82400383|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.08||||0.986|TWO_SIDED|95.0|-9.5|9.34|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||9.34|-9.50|0.986
82400384|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.87||||0.912|TWO_SIDED|95.0|-14.7|16.44|||Repeated measure model|||Chronic OCS use||16.44|-14.70|0.912
82400385|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|-1.46||||0.86|TWO_SIDED|95.0|-17.76|14.84|||Repeated measure model|||Chronic OCS use||14.84|-17.76|0.860
82400386|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|7.56||||0.002|TWO_SIDED|95.0|2.76|12.36|||Repeated measure model|||Without chronic OCS use||12.36|2.76|0.002
82400387|NCT01402986|164509742|SUPERIORITY_OR_OTHER||Difference of LS-mean|1.28||||0.601|TWO_SIDED|95.0|-3.51|6.06|||Repeated measure model|||Without chronic OCS use||6.06|-3.51|0.601
82400388|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.24||||0.145|TWO_SIDED|95.0|-0.57|0.08|||Repeated measure model|||Baseline serum periostin \>= median||0.08|-0.57|0.145
82400389|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.05||||0.759|TWO_SIDED|95.0|-0.28|0.38|||Repeated measure model|||Baseline serum periostin \>= median||0.38|-0.28|0.759
82400390|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.936|TWO_SIDED|95.0|-0.38|0.35|||Repeated measure model|||Baseline serum periostin \< median||0.35|-0.38|0.936
82400391|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.28||||0.127|TWO_SIDED|95.0|-0.64|0.08|||Repeated measure model|||Baseline serum periostin \< median||0.08|-0.64|0.127
82400392|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.13||||0.343|TWO_SIDED|95.0|-0.41|0.14|||Repeated measure model|||Baseline serum periostin\>= 25th percentile||0.14|-0.41|0.343
82400393|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.928|TWO_SIDED|95.0|-0.29|0.27|||Repeated measure model|||Baseline serum periostin\>= 25th percentile||0.27|-0.29|0.928
82530350|NCT00384059|164757059|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.77||||||95.0|0.54|1.08||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.54|
82530351|NCT00384059|164757060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.82|1.16||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.82|
82530352|NCT00384059|164757060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.83|1.17||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.83|
82530353|NCT00384059|164757060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.8|1.26||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.26|0.80|
82530354|NCT00384059|164757060|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.81|1.23||||||For Pertussis FIM the GMC ratio (13vPnC/7vPnC) was calculated||1.23|0.81|
82400394|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.23||||0.374|TWO_SIDED|95.0|-0.74|0.28|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.28|-0.74|0.374
82400395|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.29||||0.259|TWO_SIDED|95.0|-0.81|0.22|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.22|-0.81|0.259
82400396|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.127|TWO_SIDED|95.0|-0.84|0.11|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||0.11|-0.84|0.127
82645642|NCT00689273|165006787|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.19||0.28|TWO_SIDED|80.0|-0.46|0.04|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.04|-0.46|0.28
82645643|NCT00689273|165006787|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.28||0.14|TWO_SIDED|80.0|-0.78|-0.06|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.06|-0.78|0.14
82645644|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.28||0.55|TWO_SIDED|80.0|-0.52|0.19|||Mixed Models Analysis|||Day 1: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.19|-0.52|0.55
82645645|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.28||0.11|TWO_SIDED|80.0|-0.81|-0.09|||Mixed Models Analysis|||Day 2: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.09|-0.81|0.11
82645646|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.28||0.2|TWO_SIDED|80.0|-0.71|0.0|||Mixed Models Analysis|||Day 3: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.00|-0.71|0.20
82645647|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.23|TWO_SIDED|80.0|-0.69|0.02|||Mixed Models Analysis|||Day 4: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.02|-0.69|0.23
82645648|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_DEVIATION|0.28||0.41|TWO_SIDED|80.0|-0.58|0.13|||Mixed Models Analysis|||Day 5: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.13|-0.58|0.41
82645649|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.28||0.62|TWO_SIDED|80.0|-0.49|0.22|||Mixed Models Analysis|||Day 6: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.22|-0.49|0.62
82645650|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.28||0.49|TWO_SIDED|80.0|-0.55|0.16|||Mixed Models Analysis|||Day 7: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.16|-0.55|0.49
82645651|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_DEVIATION|0.28||0.1|TWO_SIDED|80.0|-0.81|-0.1|||Mixed Models Analysis|||Day 8: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.10|-0.81|0.10
82645652|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.24|TWO_SIDED|80.0|-0.69|0.03|||Mixed Models Analysis|||Day 9: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.03|-0.69|0.24
82645653|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.02|TWO_SIDED|80.0|-1.01|-0.28|||Mixed Models Analysis|||Day 10: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.28|-1.01|0.02
82400397|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.775|TWO_SIDED|95.0|-0.56|0.42|||Repeated measure model|||Baseline serum periostin \>= 75th percentile||0.42|-0.56|0.775
82400398|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.1||||0.512|TWO_SIDED|95.0|-0.38|0.19|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.19|-0.38|0.512
82400399|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.404|TWO_SIDED|95.0|-0.4|0.16|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.16|-0.40|0.404
82400400|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.24||||0.181|TWO_SIDED|95.0|-0.59|0.11|||Repeated measure model|||Th2 high||0.11|-0.59|0.181
82400401|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.25||||0.161|TWO_SIDED|95.0|-0.6|0.1|||Repeated measure model|||Th2 high||0.10|-0.60|0.161
82645654|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.28||0.04|TWO_SIDED|80.0|-0.93|-0.21|||Mixed Models Analysis|||Day 11: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.21|-0.93|0.04
82645655|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.28||0.04|TWO_SIDED|80.0|-0.95|-0.23|||Mixed Models Analysis|||Day 12: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.23|-0.95|0.04
82645656|NCT00689273|165006788|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.24|TWO_SIDED|80.0|-0.7|0.03|||Mixed Models Analysis|||Day 13: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.03|-0.70|0.24
82645657|NCT00689273|165006788|SUPERIORITY||Slope|-0.45|STANDARD_ERROR_OF_MEAN|0.28||0.11|TWO_SIDED|80.0|-0.82|-0.09|||Mixed Models Analysis|||Day 14: Results were obtained from a mixed effect repeated measure model using compound symmetry covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||-0.09|-0.82|0.11
82400402|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.11||||0.54|TWO_SIDED|95.0|-0.47|0.25|||Repeated measure model|||Th2 low||0.25|-0.47|0.540
82400403|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.674|TWO_SIDED|95.0|-0.42|0.27|||Repeated measure model|||Th2 low||0.27|-0.42|0.674
82400404|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.22||||0.154|TWO_SIDED|95.0|-0.52|0.08|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μL||0.08|-0.52|0.154
82400405|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.17||||0.271|TWO_SIDED|95.0|-0.48|0.13|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 150 cells/μ||0.13|-0.48|0.271
82400406|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.08||||0.725|TWO_SIDED|95.0|-0.51|0.36|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.36|-0.51|0.725
82400407|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.559|TWO_SIDED|95.0|-0.53|0.28|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.28|-0.53|0.559
82400408|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.47||||0.019|TWO_SIDED|95.0|-0.87|-0.08|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||-0.08|-0.87|0.019
82400409|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.2||||0.348|TWO_SIDED|95.0|-0.61|0.21|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.21|-0.61|0.348
82400410|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.03||||0.855|TWO_SIDED|95.0|-0.35|0.29|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.29|-0.35|0.855
82400411|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.2||||0.203|TWO_SIDED|95.0|-0.5|0.11|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.11|-0.50|0.203
82400412|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.44||||0.055|TWO_SIDED|95.0|-0.89|0.01|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.01|-0.89|0.055
82400413|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.104|TWO_SIDED|95.0|-0.82|0.08|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.08|-0.82|0.104
82400414|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.652|TWO_SIDED|95.0|-0.37|0.23|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.23|-0.37|0.652
82400415|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.02||||0.905|TWO_SIDED|95.0|-0.28|0.32|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.32|-0.28|0.905
82400416|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.19||||0.198|TWO_SIDED|95.0|-0.49|0.1|||Repeated measure model|||2 asthma exacerbations in the past year||0.10|-0.49|0.198
82530355|NCT00384059|164757061|SUPERIORITY_OR_OTHER||Ratio|1.13||||||95.0|0.83|1.53||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.53|0.83|
82400417|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.18||||0.226|TWO_SIDED|95.0|-0.47|0.11|||Repeated measure model|||2 asthma exacerbations in the past year||0.11|-0.47|0.226
82400418|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.14||||0.513|TWO_SIDED|95.0|-0.56|0.28|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.28|-0.56|0.513
82400419|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.01||||0.974|TWO_SIDED|95.0|-0.43|0.42|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.42|-0.43|0.974
82400420|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.226|TWO_SIDED|95.0|-0.97|0.23|||Repeated measure model|||Chronic OCS use||0.23|-0.97|0.226
82400421|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.15||||0.613|TWO_SIDED|95.0|-0.44|0.75|||Repeated measure model|||Chronic OCS use||0.75|-0.44|0.613
82400422|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.17||||0.198|TWO_SIDED|95.0|-0.43|0.09|||Repeated measure model|||Without chronic OCS use||0.09|-0.43|0.198
82400423|NCT01402986|164509743|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.19||||0.165|TWO_SIDED|95.0|-0.45|0.08|||Repeated measure model|||Without chronic OCS use||0.08|-0.45|0.165
82400424|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.23||||0.211|TWO_SIDED|95.0|-0.13|0.6|||Repeated measure model|||Baseline serum periostin \>= median||0.60|-0.13|0.211
82400425|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.16||||0.397|TWO_SIDED|95.0|-0.21|0.53|||Repeated measure model|||Baseline serum periostin \>= median||0.53|-0.21|0.397
82400426|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.19||||0.315|TWO_SIDED|95.0|-0.18|0.56|||Repeated Measure Model|||Baseline serum periostin \< median||0.56|-0.18|0.315
82400427|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.26||||0.166|TWO_SIDED|95.0|-0.11|0.63|||Repeated measure model|||Baseline serum periostin \< median||0.63|-0.11|0.166
82400428|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.262||95.0|-0.13|0.47|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||0.47|-0.13|0.262
82400429|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.14||||0.379|TWO_SIDED|95.0|-0.17|0.44|||Repeated measure model|||Baseline serum periostin \>= 25th percentile||0.44|-0.17|0.379
82400430|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.25||||0.387|TWO_SIDED|95.0|-0.32|0.81|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.81|-0.32|0.387
82400431|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.29||||0.303|TWO_SIDED|95.0|-0.26|0.84|||Repeated measure model|||Baseline serum periostin \< 25th percentile||0.84|-0.26|0.303
82400432|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.37||||0.127|TWO_SIDED|95.0|-0.84|0.11|||Repeated measure model|||Baseline serum periostin \>=75th percentile||0.11|-0.84|0.127
82400433|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.775|TWO_SIDED|95.0|-0.56|0.42|||Repeated measure model|||Baseline serum periostin \>=75th percentile||0.42|-0.56|0.775
82400434|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.1||||0.512|TWO_SIDED|95.0|-0.38|0.19|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.19|-0.38|0.512
82645658|NCT00689273|165006789|SUPERIORITY|||||||0.22|||||||Cochran-Mantel-Haenszel|||30% Reduction||||0.22
82530356|NCT00384059|164757066|SUPERIORITY_OR_OTHER||Ration|0.85||||||95.0|0.48|1.49||||||For Meningococcal C the GMC ratio (13vPnC/7vPnC) was calculated||1.49|0.48|
82530357|NCT00381641|164757067|SUPERIORITY|"Null (historical) response rate for iodine refractory subgroup is 10%. Power=90% for 30% alternative.~Null (historical) response rate for metastatic medullary subgroup is 5%. Power=88% for 25% alternative."|||||<|0.1||||||"For iodine refractory subgroup, null hypothesis could be rejected if 6 or more responses were observed.~For metastatic medullary subgroup, null hypothesis could be rejected if 3 or more responses were observed."|Simon, two-stage design|||Note. The objective was not to compare the two arms (subgroups), but to compare each with historical data.||||<0.10
82645659|NCT00689273|165006789|SUPERIORITY|||||||0.38|||||||Cochran-Mantel-Haenszel|||50% Reduction||||0.38
82400435|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.12||||0.404|TWO_SIDED|95.0|-0.4|0.16|||Repeated measure model|||Baseline serum periostin \< 75th percentile||0.16|-0.40|0.404
82400436|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.31||||0.102|TWO_SIDED|95.0|-0.06|0.69|||Repeated measure model|||Th2 high||0.69|-0.06|0.102
82400437|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.3||||0.116|TWO_SIDED|95.0|-0.08|0.68|||Repeated measure model|||Th2 high||0.68|-0.08|0.116
82400438|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.11||||0.54|TWO_SIDED|95.0|-0.47|0.25|||Repeated measure model|||Th2 low||0.25|-0.47|0.540
82400439|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.07||||0.674|TWO_SIDED|95.0|-0.42|0.27|||Repeated measure model|||Th2 low||0.27|-0.42|0.674
82400440|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.295|TWO_SIDED|95.0|-0.15|0.49|||Repeated measure model|||Baseline peripheral blood eosinophil count \>=150 cells/μL||0.49|-0.15|0.295
82400441|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.16||||0.342|TWO_SIDED|95.0|-0.17|0.49|||Repeated measure model|||Baseline peripheral blood eosinophil count \>=150 cells/μL||0.49|-0.17|0.342
82400442|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.18||||0.406|TWO_SIDED|95.0|-0.24|0.6|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.60|-0.24|0.406
82400443|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.38||||0.069|TWO_SIDED|95.0|-0.03|0.79|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 150 cells/μL||0.79|-0.03|0.069
82530358|NCT04921969|164757072|SUPERIORITY||Odds Ratio (OR)|4.74||||0.0001|TWO_SIDED|95.0|1.951|13.315||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.315|1.951|0.0001
82530359|NCT04921969|164757072|SUPERIORITY||Odds Ratio (OR)|10.72|||<|0.0001|TWO_SIDED|95.0|4.429|30.042||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||30.042|4.429|<0.0001
82530360|NCT04921969|164757073|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4198|TWO_SIDED|95.0|0.61|3.268||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.268|0.610|0.4198
82645660|NCT00689273|165006790|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.45|TWO_SIDED|80.0|-0.27|0.07|||Mixed Models Analysis|||Week 1: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.07|-0.27|0.45
82645661|NCT00689273|165006790|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.37|TWO_SIDED|80.0|-0.29|0.05|||Mixed Models Analysis|||Week 2: Results were obtained from a mixed effect repeated measure model using unstructured covariance matrix. The model included random-effect terms for participant, and fixed-effect terms for baseline response, treatment group, time, treatment-by-time interaction, and country effect.||0.05|-0.29|0.37
82645662|NCT01336608|165006807|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.01||||0.969|TWO_SIDED|95.0|-0.71|0.74|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.74|-0.71|0.969
82400444|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.19||||0.371|TWO_SIDED|95.0|-0.23|0.62|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.62|-0.23|0.371
82400445|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.07||||0.766|TWO_SIDED|95.0|-0.37|0.51|||Repeated measure model|||Baseline peripheral blood eosinophil count \>= 300 cells/μL||0.51|-0.37|0.766
82400446|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.24||||0.147|TWO_SIDED|95.0|-0.09|0.57|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.57|-0.09|0.147
82400447|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.35||||0.031|TWO_SIDED|95.0|0.03|0.68|||Repeated measure model|||Baseline peripheral blood eosinophil count \< 300 cells/μL||0.68|0.03|0.031
82400448|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.59||||0.02|TWO_SIDED|95.0|0.1|1.09|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||1.09|0.10|0.020
82400449|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.29||||0.226|TWO_SIDED|95.0|-0.18|0.77|||Repeated measure model|||Baseline FEV1 reversibility \>= 12%||0.77|-0.18|0.226
82400450|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.01||||0.964|TWO_SIDED|95.0|-0.31|0.33|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.33|-0.31|0.964
82400451|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.1||||0.533|TWO_SIDED|95.0|-0.22|0.42|||Repeated measure model|||Baseline FEV1 reversibility \< 12%||0.42|-0.22|0.533
82400452|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.17||||0.292|TWO_SIDED|95.0|-0.15|0.5|||Repeated measure model|||2 asthma exacerbations in the past year||0.50|-0.15|0.292
82400453|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.27||||0.097|TWO_SIDED|95.0|-0.05|0.59|||Repeated measure model|||2 asthma exacerbations in the past year||0.59|-0.05|0.097
82400454|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.24||||0.26|TWO_SIDED|95.0|-0.18|0.67|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.67|-0.18|0.260
82576172|NCT02209181|164862035|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|3.01|4.46||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.46|3.01|<0.001
82400455|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.1||||0.648|TWO_SIDED|95.0|-0.33|0.53|||Repeated measure model|||\> 2 but \< 6 asthma exacerbations in the past year||0.53|-0.33|0.648
82400456|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.28||||0.398|TWO_SIDED|95.0|-0.37|0.93|||Repeated measure model|||Chronic OCS use||0.93|-0.37|0.398
82400457|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|-0.32||||0.327|TWO_SIDED|95.0|-0.95|0.32|||Repeated measure model|||Chronic OCS use||0.32|-0.95|0.327
82400458|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.23||||0.105|TWO_SIDED|95.0|-0.05|0.52|||Repeated measure model|||Without chronic OCS use||0.52|-0.05|0.105
82400459|NCT01402986|164509744|SUPERIORITY_OR_OTHER||Difference of LS-mean|0.31||||0.03|TWO_SIDED|95.0|0.03|0.6|||Repeated measure model|||Without chronic OCS use||0.60|0.03|0.030
82400460|NCT01402986|164509745|SUPERIORITY_OR_OTHER||Rate Ratio|0.95||||0.803|TWO_SIDED|95.0|0.62|1.44|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Atopic asthma||1.44|0.62|0.803
82400461|NCT01402986|164509745|SUPERIORITY_OR_OTHER||Rate Ratio|0.83||||0.457|TWO_SIDED|95.0|0.52|1.35|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Atopic asthma||1.35|0.52|0.457
82400462|NCT01402986|164509745|SUPERIORITY_OR_OTHER||Rate Ratio|0.71||||0.25|TWO_SIDED|95.0|0.4|1.27|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Non-atopic asthma||1.27|0.40|0.250
82400463|NCT01402986|164509745|SUPERIORITY_OR_OTHER||Rate Ratio|1.07||||0.794|TWO_SIDED|95.0|0.66|1.74|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Non-atopic asthma||1.74|0.66|0.794
82400464|NCT01402986|164509746|SUPERIORITY_OR_OTHER||Rate Ratio|1.2||||0.614|TWO_SIDED|95.0|0.59|2.46|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|With chronic OCS use||2.46|0.59|0.614
82400465|NCT01402986|164509746|SUPERIORITY_OR_OTHER||Rate Ratio|1.29||||0.506|TWO_SIDED|95.0|0.61|2.74|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|With chronic OCS use||2.74|0.61|0.506
82400466|NCT01402986|164509746|SUPERIORITY_OR_OTHER||Rate Ratio|0.79||||0.243||95.0|0.53|1.18|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Without chronic OCS use||1.18|0.53|0.243
82400467|NCT01402986|164509746|SUPERIORITY_OR_OTHER||Rate Ratio|0.87||||0.531|TWO_SIDED|95.0|0.57|1.34|||Poisson regression||The 95% CI for rate ratio were estimated from the Poisson regression with treatment group, age, gender, number of exacerbations in past year (2 vs \>2 but =\<6), atopic asthma status, chronic OCS use and geographical region as the covariates.|Without chronic OCS use||1.34|0.57|0.531
82400468|NCT02634983|164509761|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.11||0.0254|TWO_SIDED|90.0|1.4|8.6|||t-test, 2 sided|||Global Ventilated Lung Volume||8.60|1.40|0.0254
82400469|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.77|STANDARD_ERROR_OF_MEAN|2.15||0.035|TWO_SIDED|90.0|1.11|8.44|||t-test, 2 sided|||Lung, Left Ventilation||8.44|1.11|0.0350
82400470|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.96|STANDARD_ERROR_OF_MEAN|2.86||0.0946|TWO_SIDED|90.0|0.08|9.84|||t-test, 2 sided|||Lung, Left Lower Lobe Ventilation||9.84|0.08|0.0946
82400471|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|4.97|STANDARD_ERROR_OF_MEAN|2.41||0.0486|TWO_SIDED|90.0|0.87|9.07|||t-test, 2 sided|||Lung, Left Upper Lobe Ventilation||9.07|0.87|0.0486
82400472|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|2.33||0.0286|TWO_SIDED|90.0|1.42|9.35|||t-test, 2 sided|||Lung, Right Ventilation||9.35|1.42|0.0286
82400473|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|3.27|STANDARD_ERROR_OF_MEAN|2.29||0.165|TWO_SIDED|90.0|-0.63|7.17|||t-test, 2 sided|||Lung, Right Lower Lobe Ventilation||7.17|-0.63|0.1650
82400474|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|3.71||0.1421|TWO_SIDED|90.0|-0.71|11.94|||t-test, 2 sided|||Lung, Right Middle Lobe Ventilation||11.94|-0.71|0.1421
82645663|NCT01336608|165006807|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.22||||0.568|TWO_SIDED|95.0|-0.53|0.96|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.96|-0.53|0.568
82400475|NCT02634983|164509762|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|7.73|STANDARD_ERROR_OF_MEAN|2.78||0.0099|TWO_SIDED|90.0|2.98|12.47|||t-test, 2 sided|||Lung, Right Upper Lobe Ventilation||12.47|2.98|0.0099
82400476|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.92||0.323|TWO_SIDED|90.0|-0.64|2.5|||t-test, 2 sided|||Lung Perfusion||2.50|-0.64|0.3230
82400477|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|0.95||0.1717|TWO_SIDED|90.0|-0.29|2.97|||t-test, 2 sided|||Lung, Left Perfusion||2.97|-0.29|0.1717
82445455|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.12|1.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.96|1.12|
82400478|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|1.02||0.5031|TWO_SIDED|90.0|-1.05|2.43|||t-test, 2 sided|||Lung, Left Lower Lobe Perfusion||2.43|-1.05|0.5031
82400479|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|1.03||0.076|TWO_SIDED|90.0|0.15|3.65|||t-test, 2 sided|||Lung, Left Upper Lobe Perfusion||3.65|0.15|0.0760
82400480|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.93||0.5465|TWO_SIDED|90.0|-1.02|2.16|||t-test, 2 sided|||Lung, Right Perfusion||2.16|-1.02|0.5465
82400481|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|1.08||0.9913|TWO_SIDED|90.0|-1.85|1.87|||t-test, 2 sided|||Lung, Right Lower Lobe Perfusion||1.87|-1.85|0.9913
82400482|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|1.7||0.3837|TWO_SIDED|90.0|-1.39|4.4|||t-test, 2 sided|||Lung, Right Middle Lobe Perfusion||4.40|-1.39|0.3837
82400483|NCT02634983|164509763|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.94||0.3624|TWO_SIDED|90.0|-0.73|2.48|||t-test, 2 sided|||Lung, Right Upper Lobe Perfusion||2.48|-0.73|0.3624
82400484|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|90.0|0.11|0.18|||t-test, 2 sided|||FEV1 Day 1 (0.25 hrs post-dose)||0.18|0.11|<0.0001
82400485|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.15|0.25|||t-test, 2 sided|||FEV1 Day 1 (1 hrs post-dose)||0.25|0.15|<0.0001
82400486|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.13|0.24|||t-test, 2 sided|||FEV1 Day 1 (2 hrs post-dose)||0.24|0.13|<0.0001
82400487|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.16|0.27|||t-test, 2 sided|||FEV1 Day 8 (-0.75 hrs post-dose)||0.27|0.16|<0.0001
82400488|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.16|0.28|||t-test, 2 sided|||FEV1 Day 8 (-0.25 hrs post-dose)||0.28|0.16|<0.0001
82530361|NCT04921969|164757073|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1685|TWO_SIDED|95.0|0.779|4.174||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||4.174|0.779|0.1685
82530362|NCT04249336|164757097|SUPERIORITY||Mean Difference (Net)|36.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
82530363|NCT04249336|164757097|SUPERIORITY||Mean Difference (Net)|33.0|||<|0.05|TWO_SIDED|95.0||||Threshold P\<0.05|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
82576173|NCT02209181|164862035|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.36||0.035|TWO_SIDED|95.0|0.06|1.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.49|0.06|0.035
82576174|NCT02209181|164862035|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.94|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|1.21|2.67||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.67|1.21|<0.001
82576175|NCT02209181|164862035|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.96|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-3.68|-2.24||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.24|-3.68|<0.001
82576176|NCT02209181|164862035|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.52|-1.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.07|-2.52|<0.001
82576177|NCT02209181|164862036|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.99|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|3.21|4.77||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.77|3.21|<0.001
82576178|NCT02209181|164862036|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.39||0.028|TWO_SIDED|95.0|0.09|1.64||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.64|0.09|0.028
82576179|NCT02209181|164862036|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.48|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.7|3.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.26|1.70|<0.001
82576180|NCT02209181|164862036|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-3.9|-2.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.35|-3.90|<0.001
82576181|NCT02209181|164862036|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.29|-0.73||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.73|-2.29|<0.001
82576182|NCT02209181|164862037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|2.92|4.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.65|2.92|<0.001
82576183|NCT02209181|164862037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.44||0.021|TWO_SIDED|95.0|0.16|1.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.88|0.16|0.021
82530364|NCT04249336|164757097|SUPERIORITY||Mean Difference (Net)|23.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
82576184|NCT02209181|164862037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|2.19|3.93||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.93|2.19|<0.001
82576185|NCT02209181|164862037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.63|-1.91||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.91|-3.63|<0.001
82576186|NCT02209181|164862037|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.44||0.104|TWO_SIDED|95.0|-1.59|0.15||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.15|-1.59|0.104
82530365|NCT04249336|164757098|SUPERIORITY||Mean Difference (Net)|32.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANCOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
82576187|NCT02209181|164862038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|2.18|4.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.07|2.18|<0.001
82645664|NCT01336608|165006807|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.2||||0.566|TWO_SIDED|95.0|-0.49|0.89|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.89|-0.49|0.566
82530366|NCT04249336|164757098|SUPERIORITY||Mean Difference (Net)|39.0|||<|0.05|TWO_SIDED|||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
82645665|NCT01336608|165006808|SUPERIORITY_OR_OTHER||Least squares mean difference|0.082||||0.007|TWO_SIDED|95.0|0.023|0.141||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.141|0.023|0.007
82645666|NCT01336608|165006808|SUPERIORITY_OR_OTHER||Least squares mean difference|0.155|||<|0.001|TWO_SIDED|95.0|0.095|0.215||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.215|0.095|<0.001
82400489|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.23|0.33|||t-test, 2 sided|||FEV1 Day 8 (0.25 hrs post-dose)||0.33|0.23|<0.0001
82400490|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|90.0|0.26|0.37|||t-test, 2 sided|||FEV1 Day 8 (1 hrs post-dose)||0.37|0.26|<0.0001
82400491|NCT02634983|164509764|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|90.0|0.26|0.38|||t-test, 2 sided|||FEV1 Day 8 (2 hrs post-dose)||0.38|0.26|<0.0001
82400492|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|90.0|0.15|0.33|||t-test, 2 sided|||FVC Day 1 (0.25 hrs post-dose)||0.33|0.15|<0.0001
82400493|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.25|0.45|||t-test, 2 sided|||FVC Day 1 (1 hrs post-dose)||0.45|0.25|<0.0001
82400494|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|90.0|0.2|0.42|||t-test, 2 sided|||FVC Day 1 (2 hrs post-dose)||0.42|0.20|<0.0001
82400495|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|90.0|0.25|0.45|||t-test, 2 sided|||FVC Day 8 (-0.75 hrs post-dose)||0.45|0.25|<0.001
82400496|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.19|0.37|||t-test, 2 sided|||FVC Day 8 (-0.25 hrs post-dose)||0.37|0.19|<0.0001
82445456|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.4|||||TWO_SIDED|95.0|1.67|3.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.31|1.67|
82530367|NCT04249336|164757098|SUPERIORITY||Mean Difference (Net)|30.0|||<|0.05|TWO_SIDED|||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
82530368|NCT04249336|164757099|SUPERIORITY||Median Difference (Net)|36.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANCOVA||Treatment difference in percent = BioMin F- Colgate Total|It was calculated that 140 participants randomized in a 1:1:1:1 fashion between the four arms would have at least 80 % power to detect a difference of 0.20 mean scores between four treatments from baseline to week 4. Sample size was determined using PAS V.11, two independent sample t-test with 95% confidence interval.||||<0.05
82530369|NCT04249336|164757099|SUPERIORITY||Mean Difference (Net)|28.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Colgate Sensitive Pro relief - Colgate Total|||||<0.05
82645667|NCT01336608|165006808|SUPERIORITY_OR_OTHER||Least squares mean difference|0.074||||0.012|TWO_SIDED|95.0|0.016|0.131||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.131|0.016|0.012
82645668|NCT01336608|165006809|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.22||Nominal p-value|ANCOVA|||||-0.22|-0.72|<0.001
82645669|NCT01336608|165006809|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.76|-0.24||Nominal p-value|ANCOVA|||||-0.24|-0.76|<0.001
82645670|NCT01336608|165006809|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03||||0.803|TWO_SIDED|95.0|-0.29|0.22|||ANCOVA|||||0.22|-0.29|0.803
82400497|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.33|0.53|||t-test, 2 sided|||FVC Day 8 (0.25 hrs post-dose)||0.53|0.33|<0.0001
82400498|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.36|0.54|||t-test, 2 sided|||FVC Day 8 (1 hrs post-dose)||0.54|0.36|<0.0001
82400499|NCT02634983|164509765|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|90.0|0.33|0.55|||t-test, 2 sided|||FVC Day 8 (2 hrs post-dose)||0.55|0.33|<0.0001
82400500|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.17|STANDARD_ERROR_OF_MEAN|0.56||0.0006|TWO_SIDED|90.0|1.21|3.12|||t-test, 2 sided|||FEV1/FVC Day 1 (0.25 hrs post-dose)||3.12|1.21|0.0006
82400501|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|0.75||0.0106|TWO_SIDED|90.0|0.78|3.33|||t-test, 2 sided|||FEV1/FVC Day 1 (1 hrs post-dose)||3.33|0.78|0.0106
82400502|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|0.66||0.0013|TWO_SIDED|90.0|1.2|3.44|||t-test, 2 sided|||FEV1/FVC Day 1 (2 hrs post-dose)||3.44|1.20|0.0013
82400503|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|2.82|STANDARD_ERROR_OF_MEAN|0.83||0.0017|TWO_SIDED|90.0|1.41|4.23|||t-test, 2 sided|||FEV1/FVC Day 8 (-0.75 hrs post-dose)||4.23|1.41|0.0017
82400504|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|90.0|2.51|5.09|||t-test, 2 sided|||FEV1/FVC Day 8 (-0.25 hrs post-dose)||5.09|2.51|<0.0001
82400505|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|3.74|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|90.0|2.45|5.02|||t-test, 2 sided|||FEV1/FVC Day 8 (0.25 hrs post-dose)||5.02|2.45|<0.0001
82400506|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|90.0|3.16|6.03|||t-test, 2 sided|||FEV1/FVC Day 8 (1 hrs post-dose)||6.03|3.16|<0.0001
82400507|NCT02634983|164509766|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment, time and treatment\*Day\*time interaction term as fixed factors and patient factor as random factor. Day\*time was repeated within each patient\*period interaction and subject average baseline and period adjusted baseline were included as covariates.|Mean Difference (Final Values)|4.98|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|90.0|3.56|6.39|||t-test, 2 sided|||FEV1/FVC Day 8 (2 hrs post-dose)||6.39|3.56|<0.0001
82400508|NCT02634983|164509767|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.36||0.982|TWO_SIDED|90.0|-0.62|0.6|||t-test, 2 sided|||Lung Clearance Index||0.60|-0.62|0.9820
82400509|NCT02634983|164509768|NON_INFERIORITY|Parameters were analyzed using mixed effects model including sequence, period, treatment as fixed factors and patient as random factor.|Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.36||0.0821|TWO_SIDED|90.0|0.04|1.27|||t-test, 2 sided|||Diffusion Capacity of Lung for CO||1.27|0.04|0.0821
82400510|NCT00076258|164509783|SUPERIORITY_OR_OTHER_LEGACY||Remission rate|29.5|||<|0.05|TWO_SIDED||||||Generalized Linear Mixed Model|Both unadjusted and adjusted rates (for significant covariates) were reported||||||<0.05
82400511|NCT00076258|164509783|SUPERIORITY_OR_OTHER_LEGACY||Remission Rate|28.3|||<|0.05|TWO_SIDED||||||Generalized Linear Mixed Model|||For the covariate adjusted GLMM the remission rates were 15.5 for the LD and 28.3 for the PHD with a p \< 0.06 and the NNT of 7.8 for the PHD versus the LD.||||<0.05
82530370|NCT04249336|164757099|SUPERIORITY||Mean Difference (Net)|25.0|||<|0.05|TWO_SIDED|95.0||||Threshold for statistical significance was p \<0.05.|ANOVA||Treatment difference in percent = Sensodyne Rapid Action - Colgate Total|||||<0.05
82375701|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.637|TWO_SIDED|95.0|-0.39|0.24||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.24|-0.39|0.637
82445457|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.7|||||TWO_SIDED|95.0|1.19|2.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.47|1.19|
82576188|NCT02209181|164862038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.98|STANDARD_ERROR_OF_MEAN|0.48||0.041|TWO_SIDED|95.0|0.04|1.92||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.92|0.04|0.041
82375702|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.03||||0.875|TWO_SIDED|95.0|-0.34|0.29||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.29|-0.34|0.875
82375703|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.14||||0.378|TWO_SIDED|95.0|-0.46|0.17||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||0.17|-0.46|0.378
82375704|NCT00261443|164457832|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.12||||0.474|TWO_SIDED|95.0|-0.43|0.2||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.20|-0.43|0.474
82375705|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.1||||0.488|TWO_SIDED|95.0|-0.19|0.4||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 4 Comparison||0.40|-0.19|0.488
82375706|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.15||||0.349|TWO_SIDED|95.0|-0.46|0.16||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 8 Comparison||0.16|-0.46|0.349
82375707|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.07||||0.653|TWO_SIDED|95.0|-0.39|0.25||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 12 Comparison||0.25|-0.39|0.653
82375708|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.24||||0.141|TWO_SIDED|95.0|-0.56|0.08||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 16 Comparison||0.08|-0.56|0.141
82375709|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.22||||0.196|TWO_SIDED|95.0|-0.54|0.11||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 20 Comparison||0.11|-0.54|0.196
82375710|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.088|TWO_SIDED|95.0|-0.62|0.04||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 24 Comparison||0.04|-0.62|0.088
82375711|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.34||||0.047|TWO_SIDED|95.0|-0.68|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 28 Comparison||-0.01|-0.68|0.047
82375712|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.057|TWO_SIDED|95.0|-0.67|0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 32 Comparison||0.01|-0.67|0.057
82530371|NCT01242176|164757100|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.67|STANDARD_DEVIATION|6.7|||TWO_SIDED|90.0|98.1|105.37|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV).|Ratio calculated as empa final formulation divided by empa trial formulation 2||105.37|98.10|
82530372|NCT01242176|164757101|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|99.46|STANDARD_DEVIATION|18.7|||TWO_SIDED|90.0|90.18|109.68|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV.|Ratio calculated as empa final formulation divided by empa trial formulation 2||109.68|90.18|
82576189|NCT02209181|164862038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.14|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|2.19|4.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.09|2.19|<0.001
82400512|NCT03372382|164509831|EQUIVALENCE|We prespecified an equivalence margin of -10 to 10mm. We would consider non-opioid analgesia to be equivalent to opioid analgesia if the pain score mean difference between the groups and it's 95% confidence interval (CI) were within the prespecified margin. Pain score mean difference or 95% CI boundaries outside this range would be considered a clinically important difference between treatments|Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-2.1|11.9|||||The upper boundary of the CI is out of pre-specified limits.|Sample size calculations were based on VAS pain score at 2-4 weeks, assuming a mean of 10mm and standard deviation (SD) of 20 mm in the opioid group Assuming a two-sided alpha level of 0.05 and 80% power to detect equivalence, a total of 138 participants would be needed. To account for a 25% expected attrition rate and crossover, a total of 170 participants would be needed.||11.9|-2.1|
82400513|NCT02849704|164509833|SUPERIORITY||||||<|0.001||||||a priori threshold for significance: \<0.05|t-test, 2 sided|||||||<0.001
82400514|NCT02849704|164509834|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
82400515|NCT02849704|164509835|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||<0.01
82400516|NCT02849704|164509836|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
82400517|NCT02849704|164509837|SUPERIORITY||||||<|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||<0.05
82400518|NCT02849704|164509838|SUPERIORITY||||||>|0.05||||||a priori threshold for statistical significance \<0.05|t-test, 2 sided|||||||>0.05
82400519|NCT04336475|164509887|SUPERIORITY|||||||0.564||||||The threshold for statistical significance was p=0.05. p value stands for the comparison of final oral aperture measurements between two groups. (after 2 months' period)|ANOVA|Repeated Measures ANOVA||||||0.564
82400520|NCT01990573|164509889|OTHER|ANOVA|F statistic|0.002||||0.002|TWO_SIDED||||||ANOVA|||||||.002
82400521|NCT01990573|164509890|OTHER|ANOVA|F statistic|0.962||||0.962|TWO_SIDED||||||ANOVA|||||||.962
82400522|NCT03188523|164509892|SUPERIORITY||Posterior Mean Difference|-1.03|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8504 and placebo at least 0.5 log10 copies/mL was \>98%|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).||||
82400523|NCT03188523|164509892|SUPERIORITY||Posterior Mean Difference|-0.92|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8504 and placebo at least 0.5 log10 copies/mL was \>95%|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).||||
82400524|NCT03188523|164509908|OTHER||Posterior Probability (percentage)|99.0|||||||||||||Posterior Probability (percentage) of true geometric mean (GM) C168hr TFV-DP level in PBMCs ≥0.1 μM|PBMC TFV-DP C168hr values pooled, natural log transformed and analyzed based on a linear model containing a fixed effect for dose level. The posterior probability that the true GM of PBMC TFV-DP C168hr level was ≥0.1 μM was calculated for the dose level using flat priors under a normal likelihood assumption. An 80% posterior probability for a dose level that also exhibits acceptable safety and tolerability would satisfy the secondary PK hypothesis.||||
82576190|NCT02209181|164862038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.15|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.09|-1.21||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.21|-3.09|<0.001
82576191|NCT02209181|164862038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.48||0.973|TWO_SIDED|95.0|-0.93|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-0.93|0.973
82576192|NCT02209181|164862039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.87|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.87|3.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.87|1.87|<0.001
82400525|NCT03188523|164509908|OTHER||Posterior Probability (percentage)|99.0|||||||||||||Posterior Probability (percentage) of true geometric mean (GM) C168hr TFV-DP level in PBMCs ≥0.1 μM|PBMC TFV-DP C168hr values pooled, natural log transformed and analyzed based on a linear model containing a fixed effect for dose level. The posterior probability that the true GM of PBMC TFV-DP C168hr level was ≥0.1 μM was calculated for the dose level using flat priors under a normal likelihood assumption. An 80% posterior probability for a dose level that also exhibits acceptable safety and tolerability would satisfy the secondary PK hypothesis.||||
82400526|NCT01763827|164509915|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.14|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-61.14|-53.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.14|-61.14|<0.001
82400527|NCT01763827|164509915|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.78|STANDARD_ERROR_OF_MEAN|1.87|<|0.001|TWO_SIDED|95.0|-58.46|-51.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.10|-58.46|<0.001
82400528|NCT01763827|164509915|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.29|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-43.28|-35.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.31|-43.28|<0.001
82400529|NCT01763827|164509915|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.55|STANDARD_ERROR_OF_MEAN|1.88|<|0.001|TWO_SIDED|95.0|-41.24|-33.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.86|-41.24|<0.001
82400530|NCT01763827|164509916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.5|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-59.95|-53.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-53.04|-59.95|<0.001
82400531|NCT01763827|164509916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.4|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-60.66|-54.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.14|-60.66|<0.001
82400532|NCT01763827|164509916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.41|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-42.87|-35.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.94|-42.87|<0.001
82400533|NCT01763827|164509916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.69|STANDARD_ERROR_OF_MEAN|1.66|<|0.001|TWO_SIDED|95.0|-42.97|-36.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-36.42|-42.97|<0.001
82400534|NCT01763827|164509917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.6|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-85.0|-74.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-74.2|-85.0|<0.001
82400535|NCT01763827|164509917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-81.9|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-87.0|-76.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-76.9|-87.0|<0.001
82445458|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|4.3|||||TWO_SIDED|95.0|2.76|6.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||6.61|2.76|
82576193|NCT02209181|164862039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.89|STANDARD_ERROR_OF_MEAN|0.5||0.079|TWO_SIDED|95.0|-0.1|1.88||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.88|-0.10|0.079
82400536|NCT01763827|164509917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-60.7|-49.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-49.9|-60.7|<0.001
82400537|NCT01763827|164509917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-61.1|-51.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-51.0|-61.1|<0.001
82400538|NCT01763827|164509918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-80.4|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-86.4|-74.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-74.3|-86.4|<0.001
82400539|NCT01763827|164509918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.8|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-83.4|-72.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-72.2|-83.4|<0.001
82400540|NCT01763827|164509918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-61.1|-49.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe was the reference|||-49.0|-61.1|<0.001
82400541|NCT01763827|164509918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-58.5|-47.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe was the reference|||-47.3|-58.5|<0.001
82400542|NCT01763827|164509919|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|73.6|||<|0.001|TWO_SIDED|95.0|64.4|80.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||80.2|64.4|<0.001
82400543|NCT01763827|164509919|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.3|||<|0.001|TWO_SIDED|95.0|62.2|78.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.0|62.2|<0.001
82400544|NCT01763827|164509919|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|72.2|||<|0.001|TWO_SIDED|95.0|62.4|78.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.9|62.4|<0.001
82576194|NCT02209181|164862039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.27|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|2.27|4.27||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.27|2.27|<0.001
82400545|NCT01763827|164509919|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|68.6|||<|0.001|TWO_SIDED|95.0|58.3|75.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||75.5|58.3|<0.001
82400546|NCT01763827|164509920|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.5|||<|0.001|TWO_SIDED|95.0|61.2|78.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.4|61.2|<0.001
82400547|NCT01763827|164509920|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|65.4|||<|0.001|TWO_SIDED|95.0|55.6|72.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||72.9|55.6|<0.001
82400548|NCT01763827|164509920|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|71.5|||<|0.001|TWO_SIDED|95.0|61.3|78.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||78.4|61.3|<0.001
82400549|NCT01763827|164509920|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.0|||<|0.001|TWO_SIDED|95.0|53.5|71.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on CMH test stratified by Baseline LDL-C level. For testing, non-achievement was imputed for participants with a missing value.||||71.6|53.5|<0.001
82400550|NCT01763827|164509921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.81|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-52.01|-45.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.61|-52.01|<0.001
82400551|NCT01763827|164509921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.28|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-56.23|-50.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-50.33|-56.23|<0.001
82645671|NCT01160198|165006833|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Baseline Hb vs. Hb at Week 8 for Ferrous bisglycinate chelate 60 mg 1 once-daily||||<0.0001
82645672|NCT01160198|165006833|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||Baseline Hb vs. Hb at Week 8 for Ferrous bisglycinate chelate 60 mg 1 twice-daily||||<0.0001
82645673|NCT01160198|165006835|SUPERIORITY_OR_OTHER|||||||0.788|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily||||0.788
82645674|NCT01160198|165006835|SUPERIORITY_OR_OTHER|||||||0.911|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100mg 1 once-daily||||0.911
82400552|NCT01763827|164509921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.58|STANDARD_ERROR_OF_MEAN|1.63|<|0.001|TWO_SIDED|95.0|-38.79|-32.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.38|-38.79|<0.001
82400553|NCT01763827|164509921|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.49|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-38.44|-32.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.53|-38.44|<0.001
82400554|NCT01763827|164509922|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.81|STANDARD_ERROR_OF_MEAN|1.79|<|0.001|TWO_SIDED|95.0|-53.34|-46.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-46.27|-53.34|<0.001
82400555|NCT01763827|164509922|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-51.19|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|-54.49|-47.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-47.90|-54.49|<0.001
82400556|NCT01763827|164509922|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.23|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-38.74|-31.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.71|-38.74|<0.001
82400557|NCT01763827|164509922|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.21|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-36.51|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.90|-36.51|<0.001
82400558|NCT01763827|164509923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.09|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-50.67|-43.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-43.51|-50.67|<0.001
82400559|NCT01763827|164509923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.93|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-54.27|-47.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-47.59|-54.27|<0.001
82400560|NCT01763827|164509923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.57|STANDARD_ERROR_OF_MEAN|1.82|<|0.001|TWO_SIDED|95.0|-37.15|-29.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.99|-37.15|<0.001
82400561|NCT01763827|164509923|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.64|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-37.99|-31.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.28|-37.99|<0.001
82400562|NCT01763827|164509924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.81|STANDARD_ERROR_OF_MEAN|1.91|<|0.001|TWO_SIDED|95.0|-51.56|-44.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-44.05|-51.56|<0.001
82400563|NCT01763827|164509924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.43|STANDARD_ERROR_OF_MEAN|1.85|<|0.001|TWO_SIDED|95.0|-52.07|-44.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-44.79|-52.07|<0.001
82576195|NCT02209181|164862039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.98|-1.0||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.00|-2.98|<0.001
82645675|NCT01160198|165006835|SUPERIORITY_OR_OTHER|||||||0.7|||||||Chi-squared|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100mg 1 once-daily||||0.700
82645676|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.29|0.17|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 2||0.17|-0.29|1
82645677|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1||95.0|-0.57|0.31|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 4||0.31|-0.57|1
82400564|NCT01763827|164509924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.04|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-37.78|-30.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-30.30|-37.78|<0.001
82645678|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.75|0.46|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 6||0.46|-0.75|1
82645679|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||1|TWO_SIDED|95.0|-1.05|0.53|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous bisglycinate chelate 60 mg 1 twice-daily at Week 8||0.53|-1.05|1
82400565|NCT01763827|164509924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.57|STANDARD_ERROR_OF_MEAN|1.85|<|0.001|TWO_SIDED|95.0|-36.21|-28.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-28.92|-36.21|<0.001
82400566|NCT01763827|164509925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.93|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-42.0|-35.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-35.86|-42.00|<0.001
82400567|NCT01763827|164509925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.83|STANDARD_ERROR_OF_MEAN|1.81|<|0.001|TWO_SIDED|95.0|-49.39|-42.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-42.27|-49.39|<0.001
82400568|NCT01763827|164509925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.36|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-32.43|-26.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-26.28|-32.43|<0.001
82400569|NCT01763827|164509925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.51|STANDARD_ERROR_OF_MEAN|1.81|<|0.001|TWO_SIDED|95.0|-31.08|-23.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-23.94|-31.08|<0.001
82400570|NCT01763827|164509926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.63|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|-42.97|-36.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-36.30|-42.97|<0.001
82400571|NCT01763827|164509926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.67|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-48.66|-40.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-40.68|-48.66|<0.001
82400572|NCT01763827|164509926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.42|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-31.73|-25.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-25.10|-31.73|<0.001
82400573|NCT01763827|164509926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.31|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-29.31|-21.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-21.31|-29.31|<0.001
82400574|NCT01763827|164509927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.12|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-53.12|-45.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.12|-53.12|<0.001
82400575|NCT01763827|164509927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.95|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-59.12|-50.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-50.78|-59.12|<0.001
82400576|NCT01763827|164509927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.73|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|-38.73|-30.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-30.73|-38.73|<0.001
82645680|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.49|TWO_SIDED|95.0|-0.35|0.09|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100mg 1 once-daily at Week 2||0.09|-0.35|0.490
82645681|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||1|TWO_SIDED|95.0|-0.58|0.29|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 4||0.29|-0.58|1
82645682|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.68|0.51|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 6||0.51|-0.68|1
82530373|NCT01242176|164757102|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability|Geometric Mean Ratio|101.8|STANDARD_DEVIATION|6.7|||TWO_SIDED|90.0|98.26|105.48|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the gCV.|Ratio calculated as empa final formulation divided by empa trial formulation 2||105.48|98.26|
82530374|NCT00871351|164757103|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.6|||<|0.0001|TWO_SIDED|95.0|-15.4|-5.8|||Hochberg's method|||||-5.8|-15.4|<0.0001
82400577|NCT01763827|164509927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.62|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-40.81|-32.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-32.42|-40.81|<0.001
82400578|NCT01763827|164509928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.57|STANDARD_ERROR_OF_MEAN|2.14|<|0.001|TWO_SIDED|95.0|-53.78|-45.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-45.36|-53.78|<0.001
82400579|NCT01763827|164509928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.77|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-57.28|-48.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-48.26|-57.28|<0.001
82400580|NCT01763827|164509928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.76|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-39.95|-31.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-31.57|-39.95|<0.001
82400581|NCT01763827|164509928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.97|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-38.48|-29.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit.|Ezetimibe is the reference|||-29.45|-38.48|<0.001
82400582|NCT01763827|164509929|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-18.48|||<|0.001|TWO_SIDED|95.0|-25.28|-11.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.68|-25.28|<0.001
82400583|NCT01763827|164509929|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-19.24|||<|0.001|TWO_SIDED|95.0|-23.2|-15.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-15.28|-23.20|<0.001
82445459|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|3.3|||||TWO_SIDED|95.0|1.97|5.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||5.45|1.97|
82530375|NCT00871351|164757103|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-26.5|||<|0.0001|TWO_SIDED|95.0|-31.8|-21.2|||Hochberg's method|||||-21.2|-31.8|<0.0001
82530376|NCT00871351|164757104|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Hochberg's method|||||||0.0003
82530377|NCT00871351|164757104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Hochberg's method|||||||<0.0001
82530378|NCT02291289|164757112|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.872|TWO_SIDED|95.0|0.5|1.82|||Log Rank|||||1.82|0.50|= 0.872
82530379|NCT02291289|164757112|SUPERIORITY||Hazard Ratio (HR)|0.95|||=|0.666|TWO_SIDED|95.0|0.77|1.18|||Log Rank|||||1.18|0.77|= 0.666
82400584|NCT01763827|164509929|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-18.37|||<|0.001|TWO_SIDED|95.0|-24.39|-12.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-12.35|-24.39|<0.001
82400585|NCT01763827|164509929|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.15|||<|0.001|TWO_SIDED|95.0|-23.23|-11.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.08|-23.23|<0.001
82400586|NCT01763827|164509930|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.41|||<|0.001|TWO_SIDED|95.0|-27.76|-13.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-13.06|-27.76|<0.001
82445460|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.4|||||TWO_SIDED|95.0|0.98|2.1|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.10|0.98|
82530380|NCT02291289|164757112|SUPERIORITY||Hazard Ratio (HR)|1.44|||=|0.128|TWO_SIDED|95.0|0.9|2.29|||Log Rank|||||2.29|0.90|= 0.128
82530381|NCT02291289|164757113|SUPERIORITY||Hazard Ratio (HR)|0.71|||=|0.276|TWO_SIDED|95.0|0.39|1.32|||Log Rank|||||1.32|0.39|= 0.276
82530382|NCT02291289|164757113|SUPERIORITY||Hazard Ratio (HR)|0.81|||=|0.076|TWO_SIDED|95.0|0.64|1.02|||Log Rank|||||1.02|0.64|= 0.076
82530383|NCT02291289|164757113|SUPERIORITY||||||=|0.157|||||||Log Rank|||||||= 0.157
82530384|NCT02291289|164757113|SUPERIORITY||Hazard Ratio (HR)|1.25|||=|0.415|TWO_SIDED|95.0|0.73|2.14|||Log Rank|||||2.14|0.73|= 0.415
82530385|NCT02291289|164757115|SUPERIORITY||||||=|0.064|||||||Chi-squared|||||||= 0.064
82400587|NCT01763827|164509930|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.82|||<|0.001|TWO_SIDED|95.0|-24.51|-11.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-11.12|-24.51|<0.001
82400588|NCT01763827|164509930|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.41|||<|0.001|TWO_SIDED|95.0|-28.13|-12.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-12.69|-28.13|<0.001
82400589|NCT01763827|164509930|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-15.77|||<|0.001|TWO_SIDED|95.0|-24.39|-7.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-7.14|-24.39|<0.001
82400590|NCT01763827|164509931|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-5.27||||0.72|TWO_SIDED|95.0|-13.27|2.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.73|-13.27|0.72
82400591|NCT01763827|164509931|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.59|||<|0.001|TWO_SIDED|95.0|-30.98|-10.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-10.20|-30.98|<0.001
82400592|NCT01763827|164509931|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-7.71||||0.027|TWO_SIDED|95.0|-16.86|1.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||1.45|-16.86|0.027
82400593|NCT01763827|164509931|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-11.73||||0.044|TWO_SIDED|95.0|-21.19|-2.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-2.27|-21.19|0.044
82400594|NCT01763827|164509932|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-6.23||||0.72|TWO_SIDED|95.0|-16.41|3.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||3.95|-16.41|0.72
82400595|NCT01763827|164509932|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-17.65|||<|0.001|TWO_SIDED|95.0|-26.67|-8.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm|||-8.63|-26.67|<0.001
82400596|NCT01763827|164509932|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-8.14||||0.027|TWO_SIDED|95.0|-17.54|1.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||1.26|-17.54|0.027
82400597|NCT01763827|164509932|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-13.23||||0.044|TWO_SIDED|95.0|-21.69|-4.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-4.77|-21.69|0.044
82400598|NCT01763827|164509933|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-4.59||||0.072|TWO_SIDED|95.0|-11.3|2.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.12|-11.30|0.072
82400599|NCT01763827|164509933|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-20.39|||<|0.001|TWO_SIDED|95.0|-30.11|-10.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-10.68|-30.11|<0.001
82400600|NCT01763827|164509933|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-5.71||||0.082|TWO_SIDED|95.0|-14.13|2.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.71|-14.13|0.082
82400601|NCT01763827|164509933|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-12.84||||0.044|TWO_SIDED|95.0|-22.14|-3.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baselie value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-3.54|-22.14|0.044
82400602|NCT01763827|164509934|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-7.94||||0.72|TWO_SIDED|95.0|-18.81|2.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||2.92|-18.81|0.72
82400603|NCT01763827|164509934|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-16.33|||<|0.001|TWO_SIDED|95.0|-25.64|-7.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-7.02|-25.64|<0.001
82400604|NCT01763827|164509934|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-8.58||||0.082|TWO_SIDED|95.0|-18.1|0.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||0.94|-18.10|0.082
82400605|NCT01763827|164509934|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|-12.72||||0.044|TWO_SIDED|95.0|-20.89|-4.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|The model includes treatment group, Baseline LDL-C level, scheduled visit and the interaction of treatment with scheduled visit as covariates.|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||-4.54|-20.89|0.044
82530386|NCT02291289|164757115|SUPERIORITY||||||=|0.658|||||||Chi-squared|||||||= 0.658
82530387|NCT02291289|164757115|SUPERIORITY|||||||0.093|||||||Chi-squared|||||||0.093
82530388|NCT02291289|164757116|SUPERIORITY||||||=|0.125|||||||Chi-squared|||||||= 0.125
82530389|NCT02291289|164757116|SUPERIORITY||||||=|0.739|||||||Chi-squared|||||||= 0.739
82530390|NCT02291289|164757116|SUPERIORITY|||||||0.362|||||||Chi-squared|||||||0.362
82400606|NCT01763827|164509935|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.53||||0.007|TWO_SIDED|95.0|2.23|8.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.84|2.23|0.007
82530391|NCT02291289|164757118|SUPERIORITY||||||=|0.421|||||||Log Rank|||||||= 0.421
82530392|NCT02291289|164757118|SUPERIORITY||||||=|0.495|||||||Log Rank|||||||= 0.495
82530393|NCT02291289|164757118|SUPERIORITY|||||||0.357|||||||Log Rank|||||||0.357
82530394|NCT04711460|164757146|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.003|STANDARD_DEVIATION|5.59||0.003|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||||0.003
82576196|NCT02209181|164862039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.51||0.44|TWO_SIDED|95.0|-0.61|1.4||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.40|-0.61|0.440
82400607|NCT01763827|164509935|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|8.48|||<|0.001|TWO_SIDED|95.0|5.53|11.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||11.43|5.53|<0.001
82400608|NCT01763827|164509935|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|4.81||||0.013|TWO_SIDED|95.0|0.85|8.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.78|0.85|0.013
82400609|NCT01763827|164509935|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|3.81||||0.044|TWO_SIDED|95.0|-0.77|8.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline visit|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.39|-0.77|0.044
82400610|NCT01763827|164509936|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.91||||0.007|TWO_SIDED|95.0|1.67|10.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||10.16|1.67|0.007
82400611|NCT01763827|164509936|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|9.33|||<|0.001|TWO_SIDED|95.0|5.32|13.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||13.34|5.32|<0.001
82400612|NCT01763827|164509936|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|7.56||||0.013|TWO_SIDED|95.0|3.11|12.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||12.00|3.11|0.013
82400613|NCT01763827|164509936|SUPERIORITY_OR_OTHER_LEGACY||Median Treatment Difference|5.53||||0.044|TWO_SIDED|95.0|2.22|8.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Quade test|Adjusted for Baseline value|Median difference and 95% CI were obtained from McKean-Schrader algorithm.|||8.84|2.22|0.044
82400614|NCT02179047|164509939|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.002|TWO_SIDED||||||ANOVA|||||||0.002
82400615|NCT02179047|164509940|SUPERIORITY||Hazard Ratio (HR)|1.05|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|95.0|||||ANOVA|||||||0.002
82400616|NCT02179047|164509941|SUPERIORITY||Hazard Ratio (HR)|1.39|STANDARD_DEVIATION|0.005||0.001|TWO_SIDED||||||ANCOVA|||||||0.001
82400617|NCT00412932|164509942|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments|one-sample t-test|||The sample size of this study was not based on the statistical power consideration and was considered as sufficient for the evaluation of the efficacy and safety of the proposed olmesartan medoxomil-based treatment regimen.||||<0.0001
82400618|NCT00412932|164509943|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sample t-test|||||||<0.0001
82400619|NCT00412932|164509944|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments. This P-Value applies to both the daytime and nighttime periods.|one-sample t-test|||||||<0.0001
82530395|NCT04711460|164757146|SUPERIORITY|The threshold for statistical significance was set at p=0.05. No power analysis was conducted.|Mean Difference (Final Values)|0.009|STANDARD_DEVIATION|5.59||0.009|ONE_SIDED|95.0||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||0.009
82530396|NCT04711460|164757146|SUPERIORITY|The Tukey Kramer Post Hoc Test q value = 0.05 threshold|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.609|<|0.05|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Tukey Kramer Post-Hoc|Threshold of statistically significance was set at p=0.05.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||<0.05
82530397|NCT04711460|164757146|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.13||0.003|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.003
82530398|NCT04711460|164757146|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.07||0.454|ONE_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.454
82645683|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.84|0.72|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 once-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 8||0.72|-0.84|1
82400620|NCT00412932|164509945|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No multiplicity adjustments. The P-Value of \<0.0001 applies to both daytime and nighttime periods.|one-sample t-test|||||||<0.0001
82445461|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.9|||||TWO_SIDED|95.0|1.32|2.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.69|1.32|
82445462|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.27|2.07|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.07|1.27|
82445463|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.96|3.74|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.74|1.96|
82445464|NCT00574548|164599368|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean ratio greater than 0.5 (2-fold criterion).|ratio of geometric mean titer|1.6|||||TWO_SIDED|95.0|1.05|2.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC / 23vPS\] - \[23vPS / 13vPnC\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.45|1.05|
82445465|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.54|0.82|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 1: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.82|0.54|
82445466|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|0.99|1.49|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 3: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.49|0.99|
82445467|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.43|0.68|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 4: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.68|0.43|
82445468|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.43|0.77|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 5: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.77|0.43|
82400621|NCT01703169|164509951|OTHER||||||||||||||||||The proportion of platelet response in a previous study (PMID:22762314) was 0.36 (9/25). The null hypothesis of no difference between the platelet response rate in this study and that of the previous study was tested using a two-sided exact test of binomial proportions. A p-value of 0.40 was obtained. The threshold for significance was 0.05.|||
82400622|NCT02259400|164509959|NON_INFERIORITY_OR_EQUIVALENCE|For the calculation of sample size we used the duration of ventilation as the main primary outcome. As no basic data are available for this population, we were able to retrieve from the database of our two NICUs the duration of ventilation on NIV. We assumed a difference of 24-h between the two groups in the duration of NIV as clinically relevant. We used a confidence level α=0.05; the power level desired was 0.80 and consequently we needed 62 patients for each group.|||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82445469|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.67|1.08|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.08|0.67|
82445470|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.71|1.12|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6B: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.12|0.71|
82445471|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.24|0.49|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 7F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.49|0.24|
82645684|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.29|0.15|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100mg 1 once-daily at Week 2||0.15|-0.29|1
82400623|NCT03498313|164509977|SUPERIORITY||Slope|-0.25|STANDARD_ERROR_OF_MEAN|0.082||0.002|TWO_SIDED|95.0|-0.41|-0.08|||Mixed Models Analysis|This is the p-value for the Treatment X Cycle Phase Interaction. Kenward-Roger Method was utilized for degrees of freedom.|Placebo represents the reference treatment.|Fixed interaction effect of treatment (0=Placebo, 1=E2) by cycle phase (0=Lower-Risk Early Luteal Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||-.08|-.41|.002
82400624|NCT03498313|164509977|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.083||0.46|TWO_SIDED|95.0|-0.22|0.1|||Mixed Models Analysis|This is the p-value for the Treatment X Cycle Phase Interaction. Kenward-Roger Method was utilized for degrees of freedom.|Placebo Represents the Reference Condition.|Fixed interaction effect of treatment (0=Placebo, 1=P4) by cycle phase (0=Lower-Risk Early Luteal Baseline, 1=Higher-Risk Perimenstrual Phase) predicting SI severity in a multilevel model (with daily observations nested within conditions nested within participants over time).||.10|-.22|.46
82400625|NCT00929994|164509992|OTHER||||||=|0.06||||||A Bonferroni correction for multiple testing was used for post hoc contrasts. Assumption of sphericity was met for all analyses determined by the Mauchley test of sphericity (all \>.05).|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance of 6MWD, was utilized between the 3 test times 0, 3, and 6 months). A Bonferroni correction for multiple testing was used for post hoc contrasts.||||=0.06
82400626|NCT00929994|164509992|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82400627|NCT00929994|164509993|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82400628|NCT00929994|164509994|SUPERIORITY|||||||0.04||||||A Bonferroni correction for multiple testing was used for post-hoc contrasts.|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance with pairwise comparisons of CES-D was utilized between the 3 test times baseline, 3 and 6 months.||||0.04
82400629|NCT00929994|164509995|SUPERIORITY||||||>|0.05||||||A Bonferroni correction for multiple testing was used for post-hoc contrasts|ANOVA|||With 1 group and 3 test times, a repeated measures analysis of variance with pairwise comparisons of MoCA was utilized between the 3 test times (-3, 0 and 6 months). A Bonferroni correction for multiple testing was used for post-hoc contrasts.||||>0.05
82400630|NCT05076604|164509996|SUPERIORITY|||||||0.354|||||||t-test, 2 sided|||Intraoperative packed red blood cell transfusion||||0.354
82400631|NCT05076604|164509996|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||Postoperative red blood cell transfusion||||0.314
82400632|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|3.02||||0.028|TWO_SIDED|90.0|0.78|5.25|||ANCOVA|||Analysis was based on analysis of covariance (ANCOVA) model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.25|0.78|0.028
82400633|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.73|||<|0.001|TWO_SIDED|90.0|2.5|6.96|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.96|2.50|<0.001
82400634|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.56|||<|0.001|TWO_SIDED|90.0|4.33|8.79|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.79|4.33|<0.001
82400635|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.78|||<|0.001|TWO_SIDED|90.0|3.6|7.95|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.95|3.60|<0.001
82445472|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.26|0.51|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 9V: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.51|0.26|
82400636|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.06|||<|0.001|TWO_SIDED|90.0|2.74|7.37|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.37|2.74|<0.001
82400637|NCT00572455|164510024|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.02|||<|0.001|TWO_SIDED|90.0|3.79|8.25|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.25|3.79|<0.001
82645685|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.45|0.42|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 4||0.42|-0.45|1
82400638|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.06||||0.171|TWO_SIDED|90.0|-0.21|2.32|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.32|-0.21|0.171
82400639|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.45||||0.553|TWO_SIDED|90.0|-0.8|1.7|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.70|-0.80|0.553
82400640|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.45||||0.555|TWO_SIDED|90.0|-0.8|1.7|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.70|-0.80|0.555
82400641|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.48||||0.053|TWO_SIDED|90.0|0.22|2.73|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.73|0.22|0.053
82645686|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||1|TWO_SIDED|95.0|-0.53|0.65|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 6||0.65|-0.53|1
82445473|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.6|1.02|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 14: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.02|0.60|
82445474|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.54|0.87|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 18C: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.87|0.54|
82445475|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.53|0.82|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.82|0.53|
82445476|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.69|1.15|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.69|
82445477|NCT00574548|164599369|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.15|2.13|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 23F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||2.13|1.15|
82445478|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.55|0.75|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 1: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.75|0.55|
82445479|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.52|2.01|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 3: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||2.01|1.52|
82445480|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.66|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 4: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.66|0.49|
82445481|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|1.03|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 5: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.03|0.67|
82445482|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.79|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 6B: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.79|0.57|
82445483|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.52|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 7F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.52|0.35|
82530399|NCT04711460|164757147|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|7.194||0.002|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|||||0.002
82530400|NCT04711460|164757147|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.09||0.054|ONE_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.054
82576197|NCT02209181|164862040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.55|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.52|3.57||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.57|1.52|<0.001
82400642|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.54|||<|0.001|TWO_SIDED|90.0|1.29|3.8|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.80|1.29|<0.001
82400643|NCT00572455|164510025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.81||||0.018|TWO_SIDED|90.0|0.56|3.07|||ANCOVA|||Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to Latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.07|0.56|0.018
82400644|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.62||||0.011|TWO_SIDED|90.0|1.34|5.9|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.90|1.34|0.011
82400645|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.19||||0.004|TWO_SIDED|90.0|1.91|6.47|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.47|1.91|0.004
82400646|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.47|||<|0.001|TWO_SIDED|90.0|4.19|8.75|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.75|4.19|<0.001
82400647|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.32|||<|0.001|TWO_SIDED|90.0|3.11|7.54|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.54|3.11|<0.001
82400648|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.0|||<|0.001|TWO_SIDED|90.0|3.66|8.33|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.33|3.66|<0.001
82400649|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.8|||<|0.001|TWO_SIDED|90.0|3.52|8.08|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.08|3.52|<0.001
82400650|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.44||||0.12|TWO_SIDED|90.0|-0.14|5.02|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.02|-0.14|0.120
82400651|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.55||||0.005|TWO_SIDED|90.0|1.97|7.14|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.14|1.97|0.005
82400652|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.17|||<|0.001|TWO_SIDED|90.0|3.58|8.75|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.75|3.58|<0.001
82400653|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.03|||<|0.001|TWO_SIDED|90.0|3.52|8.54|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.54|3.52|<0.001
82400654|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.31|||<|0.001|TWO_SIDED|90.0|4.66|9.95|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.95|4.66|<0.001
82400655|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.5|||<|0.001|TWO_SIDED|90.0|2.91|8.08|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its Vehicle with treatment and baseline IOP as covariates.||8.08|2.91|<0.001
82400656|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.04||||0.009|TWO_SIDED|90.0|1.56|6.53|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.53|1.56|0.009
82400657|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.0|||<|0.001|TWO_SIDED|90.0|4.49|9.5|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.50|4.49|<0.001
82400658|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.61|||<|0.001|TWO_SIDED|90.0|5.11|10.11|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||10.11|5.11|<0.001
82645687|NCT01160198|165006836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||1|TWO_SIDED|95.0|-0.58|0.98|||Repeated Measure ANOVA model|||Ferrous bisglycinate chelate 60 mg 1 twice-daily vs. Ferrous ascorbate 100 mg 1 once-daily at Week 8||0.98|-0.58|1
82400659|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.08|||<|0.001|TWO_SIDED|90.0|4.64|9.53|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.53|4.64|<0.001
82400660|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.01|||<|0.001|TWO_SIDED|90.0|3.4|8.62|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.62|3.40|<0.001
82400661|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|8.7|||<|0.001|TWO_SIDED|90.0|6.11|11.3|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||11.30|6.11|<0.001
82400662|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.66||||0.066|TWO_SIDED|90.0|0.29|5.02|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.02|0.29|0.066
82400663|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.13||||0.006|TWO_SIDED|90.0|1.76|6.5|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.50|1.76|0.006
82400664|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.13|||<|0.001|TWO_SIDED|90.0|3.76|8.49|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.49|3.76|<0.001
82530401|NCT04711460|164757147|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.93||0.019|TWO_SIDED|0.05||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|t-test, 2 sided|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.019
82530402|NCT04711460|164757147|SUPERIORITY|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|6.04||0.101|ONE_SIDED|95.0||||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.|ANOVA|Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||Threshold of statistically significance was set at p=0.05. No power calculation was conducted.||||0.101
82400665|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.81|||<|0.001|TWO_SIDED|90.0|3.51|8.11|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.11|3.51|<0.001
82400666|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.02||||0.01|TWO_SIDED|90.0|1.53|6.5|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.50|1.53|0.010
82400667|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.48|||<|0.001|TWO_SIDED|90.0|3.03|7.93|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.93|3.03|<0.001
82400668|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.55||||0.006|TWO_SIDED|90.0|1.91|7.19|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.19|1.91|0.006
82400669|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.3||||0.002|TWO_SIDED|90.0|2.66|7.94|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.94|2.66|0.002
82400670|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.51|||<|0.001|TWO_SIDED|90.0|4.87|10.16|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||10.16|4.87|<0.001
82400671|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.14|||<|0.001|TWO_SIDED|90.0|6.57|11.71|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||11.71|6.57|<0.001
82400672|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.69||||0.002|TWO_SIDED|90.0|2.94|8.44|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.44|2.94|0.002
82400673|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.89|||<|0.001|TWO_SIDED|90.0|4.16|9.62|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.62|4.16|<0.001
82400674|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83||||0.269|TWO_SIDED|90.0|-0.91|4.58|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||4.58|-0.91|0.269
82400675|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.49||||0.009|TWO_SIDED|90.0|1.75|7.24|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.24|1.75|0.009
82400676|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.83|||<|0.001|TWO_SIDED|90.0|4.08|9.57|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.57|4.08|<0.001
82576198|NCT02209181|164862040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.52||0.118|TWO_SIDED|95.0|-0.21|1.83||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.83|-0.21|0.118
82400677|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.18|||<|0.001|TWO_SIDED|90.0|3.52|8.84|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.84|3.52|<0.001
82576199|NCT02209181|164862040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.13|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.1|4.16||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.16|2.10|<0.001
82645688|NCT02016755|165006846|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||Overall (LOCF)||||0.331
82645689|NCT02016755|165006846|SUPERIORITY|||||||0.362|||||||t-test, 2 sided|||Activity (LOCF)||||0.362
82400678|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.52||||0.002|TWO_SIDED|90.0|2.71|8.33|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.33|2.71|0.002
82400679|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.76|||<|0.001|TWO_SIDED|90.0|4.01|9.5|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.50|4.01|<0.001
82400680|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.36||||0.024|TWO_SIDED|90.0|0.95|5.76|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||5.76|0.95|0.024
82400681|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.24|||<|0.001|TWO_SIDED|90.0|2.82|7.66|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.66|2.82|<0.001
82400682|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.64|||<|0.001|TWO_SIDED|90.0|4.23|9.06|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.06|4.23|<0.001
82400683|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.22|||<|0.001|TWO_SIDED|90.0|2.87|7.58|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.58|2.87|<0.001
82400684|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.88||||0.012|TWO_SIDED|90.0|1.39|6.37|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.37|1.39|0.012
82400685|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.98|||<|0.001|TWO_SIDED|90.0|4.48|9.48|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.48|4.48|<0.001
82400686|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.41||||0.003|TWO_SIDED|90.0|2.11|6.72|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.72|2.11|0.003
82400687|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.02|||<|0.001|TWO_SIDED|90.0|2.72|7.33|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.33|2.72|<0.001
82400688|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.58|||<|0.001|TWO_SIDED|90.0|4.27|8.88|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.88|4.27|<0.001
82400689|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.54|||<|0.001|TWO_SIDED|90.0|3.31|7.78|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||7.78|3.31|<0.001
82400690|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.44||||0.003|TWO_SIDED|90.0|2.06|6.82|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.82|2.06|0.003
82400691|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|7.08|||<|0.001|TWO_SIDED|90.0|4.7|9.47|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||9.47|4.70|<0.001
82400692|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.41||||0.103|TWO_SIDED|90.0|-0.02|4.84|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||4.84|-0.02|0.103
82400693|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.75||||0.013|TWO_SIDED|90.0|1.32|6.18|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||6.18|1.32|0.013
82400694|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.96|||<|0.001|TWO_SIDED|90.0|3.53|8.39|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.39|3.53|<0.001
82400695|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.87|||<|0.001|TWO_SIDED|90.0|3.5|8.23|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.23|3.50|<0.001
82400696|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.65|||<|0.001|TWO_SIDED|90.0|3.18|8.11|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.11|3.18|<0.001
82400697|NCT00572455|164510029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.97|||<|0.001|TWO_SIDED|90.0|3.46|8.48|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag compared to its vehicle with treatment and baseline IOP as covariates.||8.48|3.46|<0.001
82400698|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.72||||0.377|TWO_SIDED|90.0|-0.63|2.08|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.08|-0.63|0.377
82400699|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.68||||0.039|TWO_SIDED|90.0|-3.01|-0.35|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||-0.35|-3.01|0.039
82400700|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34||||0.668|TWO_SIDED|90.0|-1.67|0.98|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.98|-1.67|0.668
82645690|NCT02016755|165006846|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||Emotional (LOCF)||||0.159
82400701|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.26||||0.121|TWO_SIDED|90.0|-0.07|2.59|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.59|-0.07|0.121
82400702|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.67||||0.039|TWO_SIDED|90.0|0.34|2.99|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.99|0.34|0.039
82400703|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.99||||0.22|TWO_SIDED|90.0|-0.34|2.31|||ANCOVA|||Change at Day 1 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.31|-0.34|0.220
82645691|NCT02016755|165006846|SUPERIORITY|||||||0.468|||||||t-test, 2 sided|||Pain (LOCF)||||0.468
82645692|NCT02016755|165006846|SUPERIORITY|||||||0.197|||||||t-test, 2 sided|||Social (LOCF)||||0.197
82400704|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.3||||0.098|TWO_SIDED|90.0|0.01|2.59|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.59|0.01|0.098
82400705|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.519|TWO_SIDED|90.0|-0.77|1.77|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.77|-0.77|0.519
82530403|NCT01421589|164757150|SUPERIORITY_OR_OTHER|||||||0.02|||||||Regression, Linear|||Univariate regression analyses was performed to assess the relationship between change in skeletal muscle IGF-1 mRNA expression after 12 weeks treatment with rhGH and change in ViPCr.||||0.02
82530404|NCT01421589|164757151|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82530405|NCT01421589|164757152|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82530406|NCT01421589|164757153|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82400706|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.724|TWO_SIDED|90.0|-1.0|1.55|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.55|-1.00|0.724
82530407|NCT01421589|164757154|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82530408|NCT01421589|164757155|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82530409|NCT01421589|164757156|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82400707|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.46||||0.059|TWO_SIDED|90.0|0.19|2.74|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.74|0.19|0.059
82400708|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.71|||<|0.001|TWO_SIDED|90.0|1.43|3.98|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.98|1.43|<0.001
82400709|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.09||||0.008|TWO_SIDED|90.0|0.82|3.37|||ANCOVA|||Change at Day 7 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.37|0.82|0.008
82400710|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.32||||0.068|TWO_SIDED|90.0|0.13|2.51|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.51|0.13|0.068
82400711|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01||||0.994|TWO_SIDED|90.0|-1.16|1.18|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.18|-1.16|0.994
82400712|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.494|TWO_SIDED|90.0|-0.7|1.69|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.69|-0.70|0.494
82400713|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.39||||0.063|TWO_SIDED|90.0|0.16|2.62|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.62|0.16|0.063
82530410|NCT01275196|164757210|NON_INFERIORITY_OR_EQUIVALENCE|This trial was powered to detect an odds ratio of at least 2.333 which corresponds, for example, to increases of 18% (from 22% to 40%) and increases of 20% (from 30% to 50%).||||||0.0001|||||||Cochran-Mantel-Haenszel|||||||0.0001
82530411|NCT01027364|164757264|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.17|||<|0.001|TWO_SIDED|95.0|0.11|0.24||A hierarchical approach was applied to the comparison of the annualized bleeding rates between the prophylaxis arms and the episodic arm.|negative binomial model|||The null hypothesis for the primary endpoint is no difference between any prevention regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations. However it was projected to have \> 95% power at the 2-sided 0.05 level of significance, based upon this hypothesis test.||0.24|0.11|<0.001
82530412|NCT01027364|164757264|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.2||A hierarchical approach was applied to the comparison of the annualized bleeding rates between the prophylaxis arms and the episodic arm.|negative binomial model|||The null hypothesis for the primary endpoint is no difference between any prevention regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations.||0.20|0.08|<0.001
82530413|NCT00114634|164757282|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
82530414|NCT02223065|164757299|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|0.975||||0.495|TWO_SIDED|90.0|0.915|1.038|||ANOVA|||||1.038|0.915|0.4950
82645693|NCT02016755|165006846|SUPERIORITY|||||||0.448|||||||t-test, 2 sided|||Symptom (LOCF)||||0.448
82530415|NCT02223065|164757300|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|0.993||||0.865|TWO_SIDED|90.0|0.932|1.06|||ANOVA|||||1.060|0.932|0.8650
82530416|NCT02223065|164757301|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.022||||0.2344|TWO_SIDED|90.0|0.991|1.054|||ANOVA|||||1.054|0.991|0.2344
82530417|NCT02223065|164757302|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.016||||0.2458|TWO_SIDED|90.0|0.993|1.038|||ANOVA|||||1.038|0.993|0.2458
82530418|NCT02223065|164757303|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.024||||0.1947|TWO_SIDED|90.0|0.993|1.056|||ANOVA|||||1.056|0.993|0.1947
82645694|NCT02016755|165006847|SUPERIORITY|||||||0.939|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.939
82400714|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.15||||0.004|TWO_SIDED|90.0|0.95|3.34|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.34|0.95|0.004
82400715|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.17||||0.004|TWO_SIDED|90.0|0.97|3.38|||ANCOVA|||Change at Day 7 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.38|0.97|0.004
82400716|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.55||||0.038|TWO_SIDED|90.0|0.32|2.77|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.77|0.32|0.038
82400717|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.48||||0.512|TWO_SIDED|90.0|-0.72|1.68|||ANCOVA|||Change at Day 7 1 PM : Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.68|-0.72|0.512
82400718|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.66||||0.373|TWO_SIDED|90.0|-0.56|1.89|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.89|-0.56|0.373
82400719|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31||||0.088|TWO_SIDED|90.0|0.05|2.56|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.56|0.05|0.088
82400720|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.21||||0.004|TWO_SIDED|90.0|0.98|3.44|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.44|0.98|0.004
82400721|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.33||||0.003|TWO_SIDED|90.0|1.09|3.57|||ANCOVA|||Change at Day 7 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.57|1.09|0.003
82400722|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.87||||0.01|TWO_SIDED|90.0|0.69|3.04|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.04|0.69|0.010
82530419|NCT02223065|164757304|NON_INFERIORITY_OR_EQUIVALENCE|The specified bioequivalence limits (0.80, 1.25) for PK measures|Geometric mean ratio|1.013||||0.3191|TWO_SIDED|90.0|0.992|1.034|||ANOVA|||||1.034|0.992|0.3191
82530420|NCT00249496|164757317|SUPERIORITY||Odds Ratio (OR)|3.73||||0.004|TWO_SIDED|95.0|1.6|8.69|||General Estimating Equation (GEE)|||||8.69|1.60|.004
82530421|NCT00249496|164757319|SUPERIORITY||Odds Ratio (OR)|0.8|||=|0.57|TWO_SIDED|95.0|0.26|2.43|||General Estimating Equation (GEE)|||||2.43|0.26|=0.57
82530422|NCT00249496|164757321|SUPERIORITY||Odds Ratio (OR)|0.0||||0.046|TWO_SIDED|95.0|0.0|0.0|||General Estimating Equation (GEE)||The Odds Ratio and Confidence Intervals could not be calculated because one of the groups was at 0.|||0|0|0.046
82530423|NCT04548531|164757343|SUPERIORITY||Mean Difference (Final Values)|0.67|||<|0.001|TWO_SIDED|95.0|0.41|0.94|||t-test, 2 sided|||||0.94|0.41|<.001
82530424|NCT04548531|164757344|SUPERIORITY||Risk Difference (RD)|21.0||||0.003|TWO_SIDED|95.0|7.0|35.0|||Chi-squared|||||35|7|0.003
82530425|NCT04548531|164757345|SUPERIORITY||Risk Difference (RD)|3.0||||0.75|TWO_SIDED|95.0|-10.0|16.0|||Chi-squared|||We tested for a clear preference for screening, if a patient chose a colonoscopy or a stool-based test vs. the other response options.||16|-10|.75
82530426|NCT04548531|164757346|SUPERIORITY||Risk Difference (RD)|11.0||||0.14|TWO_SIDED|95.0|-3.0|26.0|||Chi-squared|||We categorized for likelihood to follow through with screening. We reported on results from patients who indicated 'Very Likely' on their response option vs. the other options (likely, unsure, unlikely, very unlikely)||26|-3|0.14
82530427|NCT04548531|164757347|SUPERIORITY||Risk Difference (RD)|13.0|||<|0.001|TWO_SIDED|95.0|6.0|18.0|||Chi-squared|||Assessed how many patients completed any colorectal cancer screening test within 6-months after randomization.||18|6|<.001
82530428|NCT00737061|164757352|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.9||||||95.0|97.9|100.0||||||1-sided confidence interval. No statistical hypothesis testing was performed. Confidence interval represents a 1-sided confidence interval for the pregnancy prevention rate in the EASE Trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment).||100|97.9|
82530429|NCT00737061|164757352|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.9||||||95.0|97.6|99.5||||||2-sided confidence interval. No statistical hypothesis testing was performed. Confidence interval represents a 2-sided confidence interval for the pregnancy prevention rate in the EASE Trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment).||99.5|97.6|
82530430|NCT00737061|164757362|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.4||||||95.0|97.2|100.0||||No statistical hypothesis testing was performed.||"1-sided Confidence Interval.~No hypothesis testing was performed. Confidence interval represents a 1-sided confidence interval for the pregnancy prevention rate in the EASE trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment)."||100|97.2|
82530431|NCT00737061|164757362|SUPERIORITY_OR_OTHER||Pregnancy Prevention Rate|98.4||||||95.0|96.9|99.1||||No statistical hypothesis testing was performed.||"2-sided Confidence Interval~No hypothesis testing was performed. Confidence interval represents a 2-sided confidence interval for the pregnancy prevention rate in the EASE trial. 95% confidence interval derived using Kaplan Meier methods (log-log with PETO adjustment)."||99.1|96.9|
82530432|NCT06173570|164757378|SUPERIORITY||Mean Difference (Net)|-35.27|||<|0.001|TWO_SIDED|95.0|-43.61|-26.93|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-26.93|-43.61|< 0.001
82645695|NCT02016755|165006847|SUPERIORITY|||||||0.508|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.508
82400723|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.89||||0.205|TWO_SIDED|90.0|-0.27|2.05|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.05|-0.27|0.205
82400724|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.44||||0.045|TWO_SIDED|90.0|0.26|2.63|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.63|0.26|0.045
82400725|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.09||||0.005|TWO_SIDED|90.0|0.88|3.31|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.31|0.88|0.005
82400726|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.51|||<|0.001|TWO_SIDED|90.0|1.33|3.7|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.70|1.33|<0.001
82400727|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.29||||0.002|TWO_SIDED|90.0|1.1|3.48|||ANCOVA|||Change at Day 7 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.48|1.10|0.002
82400728|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.757|TWO_SIDED|90.0|-1.15|1.69|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.69|-1.15|0.757
82400729|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13||||0.878|TWO_SIDED|90.0|-1.54|1.27|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.27|-1.54|0.878
82400730|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24||||0.78|TWO_SIDED|90.0|-1.64|1.17|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.17|-1.64|0.780
82400731|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.36||||0.67|TWO_SIDED|90.0|-1.04|1.77|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.77|-1.04|0.670
82445484|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 9V: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.69|0.41|
82400732|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.98||||0.021|TWO_SIDED|90.0|0.58|3.38|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.38|0.58|0.021
82400733|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31||||0.126|TWO_SIDED|90.0|-0.1|2.71|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.71|-0.10|0.126
82400734|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.215|TWO_SIDED|90.0|-0.32|2.26|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.26|-0.32|0.215
82400735|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37||||0.635|TWO_SIDED|90.0|-1.65|0.91|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.91|-1.65|0.635
82400736|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06||||0.934|TWO_SIDED|90.0|-1.35|1.22|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.35|0.934
82400737|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56||||0.478|TWO_SIDED|90.0|-0.74|1.87|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.87|-0.74|0.478
82645696|NCT02016755|165006847|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.474
82400738|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.57||||0.002|TWO_SIDED|90.0|1.26|3.87|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.87|1.26|0.002
82645697|NCT02016755|165006847|SUPERIORITY|||||||0.361|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.361
82645698|NCT02016755|165006847|SUPERIORITY|||||||0.258|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.258
82645699|NCT02016755|165006847|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||Change from baseline at Month 18||||0.059
82645700|NCT02016755|165006847|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.023
82645701|NCT02016755|165006848|SUPERIORITY|||||||0.655|||||||t-test, 2 sided|||Change from Baseline at Month 3 (Dorsalis pedis)||||0.655
82645702|NCT02016755|165006848|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Change from Baseline at Month 6 (Dorsalis pedis)||||0.310
82400739|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.99||||0.013|TWO_SIDED|90.0|0.68|3.3|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.30|0.68|0.013
82400740|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27||||0.736|TWO_SIDED|90.0|-1.04|1.57|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.57|-1.04|0.736
82400741|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68||||0.386|TWO_SIDED|90.0|-1.96|0.61|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||0.61|-1.96|0.386
82400742|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05||||0.948|TWO_SIDED|90.0|-1.35|1.24|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.24|-1.35|0.948
82400743|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.908|TWO_SIDED|90.0|-1.41|1.22|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.41|0.908
82400744|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.97||||0.015|TWO_SIDED|90.0|0.65|3.28|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.28|0.65|0.015
82400745|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6||||0.046|TWO_SIDED|90.0|0.29|2.92|||ANCOVA|||Change at Day 14 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.92|0.29|0.046
82400746|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.6||||0.042|TWO_SIDED|90.0|0.31|2.89|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.89|0.31|0.042
82645703|NCT02016755|165006848|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||Change from Baseline at Month 9 (Dorsalis pedis)||||0.348
82645704|NCT02016755|165006848|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||Change from Baseline at Month 12 (Dorsalis pedis)||||0.501
82645705|NCT02016755|165006848|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||Change from Baseline at Month 15 (Dorsalis pedis)||||0.536
82645706|NCT02016755|165006848|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change from Baseline at Month 18 (Dorsalis pedis)||||0.140
82400747|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06||||0.94|TWO_SIDED|90.0|-1.22|1.34|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.34|-1.22|0.940
82400748|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.24||||0.114|TWO_SIDED|90.0|-0.05|2.53|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.53|-0.05|0.114
82400749|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.228|TWO_SIDED|90.0|-0.35|2.28|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.28|-0.35|0.228
82400750|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.29||||0.005|TWO_SIDED|90.0|0.98|3.6|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.60|0.98|0.005
82400751|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.48||||0.063|TWO_SIDED|90.0|0.17|2.79|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.79|0.17|0.063
82400752|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.5||||0.562|TWO_SIDED|90.0|-0.92|1.91|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.91|-0.92|0.562
82400753|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.67||||0.431|TWO_SIDED|90.0|-0.73|2.07|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.07|-0.73|0.431
82400754|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22||||0.795|TWO_SIDED|90.0|-1.18|1.62|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.62|-1.18|0.795
82645707|NCT02016755|165006848|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||Change from Baseline at LOCF (Dorsalis pedis)||||0.018
82645708|NCT02016755|165006848|SUPERIORITY|||||||0.716|||||||t-test, 2 sided|||Change from baseline at Month 3 (Posterior tibial)||||0.716
82645709|NCT02016755|165006848|SUPERIORITY|||||||0.641|||||||t-test, 2 sided|||Change from baseline at Month 6 (Posterior tibial)||||0.641
82645710|NCT02016755|165006848|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||Change from baseline at Month 9 (Posterior tibial)||||0.514
82645711|NCT02016755|165006848|SUPERIORITY|||||||0.808|||||||t-test, 2 sided|||Change from baseline at Month 12 (Posterior tibial)||||0.808
82645712|NCT02016755|165006848|SUPERIORITY|||||||0.396|||||||t-test, 2 sided|||Change from baseline at Month 15 (Posterior tibial)||||0.396
82645713|NCT02016755|165006848|SUPERIORITY|||||||0.162|||||||t-test, 2 sided|||Change from baseline at Month 18 (Posterior tibial)||||0.162
82645714|NCT02016755|165006848|SUPERIORITY|||||||0.259|||||||t-test, 2 sided|||Change from baseline at LOCF (Posterior tibial)||||0.259
82645715|NCT02016755|165006849|SUPERIORITY|||||||0.671|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.671
82645716|NCT02016755|165006849|SUPERIORITY|||||||0.925|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.925
82645717|NCT02016755|165006849|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.514
82400755|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83||||0.032|TWO_SIDED|90.0|0.43|3.23|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.23|0.43|0.032
82400756|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.73||||0.002|TWO_SIDED|90.0|1.34|4.13|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.13|1.34|0.002
82400757|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.04||||0.017|TWO_SIDED|90.0|0.64|3.44|||ANCOVA|||Change at Day 28 8 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.44|0.64|0.017
82400758|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.26||||0.124|TWO_SIDED|90.0|-0.09|2.6|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.60|-0.09|0.124
82400759|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.08||||0.92|TWO_SIDED|90.0|-1.25|1.41|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.41|-1.25|0.920
82400760|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12||||0.887|TWO_SIDED|90.0|-1.46|1.22|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.22|-1.46|0.887
82400761|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.42||||0.083|TWO_SIDED|90.0|0.08|2.77|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.77|0.08|0.083
82400762|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.65||||0.002|TWO_SIDED|90.0|1.29|4.01|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.01|1.29|0.002
82400763|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.3||||0.006|TWO_SIDED|90.0|0.94|3.66|||ANCOVA|||Change at Day 28 10 AM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.66|0.94|0.006
82400764|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.49||||0.533|TWO_SIDED|90.0|-0.8|1.78|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.78|-0.80|0.533
82400765|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02||||0.985|TWO_SIDED|90.0|-1.29|1.26|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.26|-1.29|0.985
82400766|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34||||0.665|TWO_SIDED|90.0|-0.95|1.62|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||1.62|-0.95|0.665
82400767|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.86||||0.276|TWO_SIDED|90.0|-0.44|2.15|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.15|-0.44|0.276
82645718|NCT02016755|165006849|SUPERIORITY|||||||0.302|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.302
82400768|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.34||||0.004|TWO_SIDED|90.0|1.04|3.65|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.65|1.04|0.004
82400769|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.04||||0.011|TWO_SIDED|90.0|0.74|3.35|||ANCOVA|||Change at Day 28 1 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.35|0.74|0.011
82645719|NCT02016755|165006849|SUPERIORITY|||||||0.373|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.373
82645720|NCT02016755|165006849|SUPERIORITY|||||||0.505|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.505
82645721|NCT02016755|165006849|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.135
82645722|NCT02016755|165006849|SUPERIORITY|||||||0.175|||||||t-test, 2 sided|||Change from baseline at month 3 (Left)||||0.175
82645723|NCT02016755|165006849|SUPERIORITY|||||||0.393|||||||t-test, 2 sided|||Change from baseline at month 6 (Left)||||0.393
82645724|NCT02016755|165006849|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||Change from baseline at month 9 (Left)||||0.928
82645725|NCT02016755|165006849|SUPERIORITY|||||||0.429|||||||t-test, 2 sided|||Change from baseline at month 12 (Left)||||0.429
82645726|NCT02016755|165006849|SUPERIORITY|||||||0.907|||||||t-test, 2 sided|||Change from baseline at month 15 (Left)||||0.907
82645727|NCT02016755|165006849|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Change from baseline at month 18 (Left)||||0.300
82645728|NCT02016755|165006849|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||Change from baseline at LOCF (Left)||||0.214
82645729|NCT02016755|165006850|SUPERIORITY|||||||0.655|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.655
82375713|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.063|TWO_SIDED|95.0|-0.68|0.02||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 36 Comparison||0.02|-0.68|0.063
82375714|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.3||||0.091|TWO_SIDED|95.0|-0.65|0.05||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 40 Comparison||0.05|-0.65|0.091
82375715|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.29||||0.105|TWO_SIDED|95.0|-0.64|0.06||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 44 Comparison||0.06|-0.64|0.105
82375716|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.36||||0.047|TWO_SIDED|95.0|-0.72|-0.01||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 48 Comparison||-0.01|-0.72|0.047
82375717|NCT00261443|164457834|SUPERIORITY_OR_OTHER_LEGACY||Difference|-0.33||||0.073|TWO_SIDED|95.0|-0.69|0.03||Mean change from baseline: ANOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline value. Mean change from preceding phase: ANCOVA controlling for treatment, mood stabilizer, type of index mood episode, baseline CGI-BP.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences, and p-values are based on the ANOVA/ANCOVA model.||Aripiprazole - Placebo; Week 52 Comparison||0.03|-0.69|0.073
82375718|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.0||||0.91|TWO_SIDED|95.0|0.92|1.08||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 4||1.08|0.92|0.910
82375719|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.04||||0.3|TWO_SIDED|95.0|0.97|1.11||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 8||1.11|0.97|0.300
82375720|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.01||||0.744|TWO_SIDED|95.0|0.95|1.08||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 12||1.08|0.95|0.744
82375721|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.09||||0.015|TWO_SIDED|95.0|1.02|1.17||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 16||1.17|1.02|0.015
82375722|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.264|TWO_SIDED|95.0|0.97|1.14||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 20||1.14|0.97|0.264
82375723|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.09|TWO_SIDED|95.0|0.99|1.11||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 24||1.11|0.99|0.090
82375724|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.08||||0.056|TWO_SIDED|95.0|1.0|1.17||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 28||1.17|1.00|0.056
82375725|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|0.99||||0.756|TWO_SIDED|95.0|0.93|1.05||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 32||1.05|0.93|0.756
82375726|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.05||||0.177|TWO_SIDED|95.0|0.98|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 36||1.13|0.98|0.177
82375727|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.07||||0.021|TWO_SIDED|95.0|1.01|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 40||1.13|1.01|0.021
82375728|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.06||||0.216|TWO_SIDED|95.0|0.96|1.16||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 44||1.16|0.96|0.216
82375729|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.07||||0.017|TWO_SIDED|95.0|1.01|1.15||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 48||1.15|1.01|0.017
82375730|NCT00261443|164457835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Remission Rate|1.06||||0.083|TWO_SIDED|95.0|0.99|1.13||Cochran-Mantel-Haenszel General Association Test controlling for mood stabilizer and index mood episode.|Cochran-Mantel-Haenszel||Aripiprazole/Placebo|Week 52||1.13|0.99|0.083
82375731|NCT00261443|164457836|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.78||||0.132|TWO_SIDED|95.0|0.56|1.08|||Stratified Log Rank Test|Stratified Log Rank Test p-value for equality of survival curves.||||1.08|0.56|0.132
82375732|NCT00261443|164457877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.640
82375733|NCT00261443|164457877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.423||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.423
82375734|NCT00261443|164457877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.297
82530433|NCT06173570|164757378|SUPERIORITY||Mean Difference (Net)|-37.91|||<|0.001|TWO_SIDED|95.0|-46.31|-29.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-29.51|-46.31|< 0.001
82645730|NCT02016755|165006850|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.226
82645731|NCT02016755|165006850|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.380
82645732|NCT02016755|165006850|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.187
82645733|NCT02016755|165006850|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.203
82645734|NCT02016755|165006850|SUPERIORITY|||||||0.074|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.074
82645735|NCT02016755|165006850|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.038
82645736|NCT02016755|165006851|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||Change from Baseline at Month 3||||0.246
82645737|NCT02016755|165006851|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|||Change from Baseline at Month 6||||0.474
82645738|NCT02016755|165006851|SUPERIORITY|||||||0.395|||||||t-test, 2 sided|||Change from Baseline at Month 9||||0.395
82375735|NCT00261443|164457877|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.707
82375736|NCT00261443|164457878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.656||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.656
82375737|NCT00261443|164457878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.045
82375738|NCT00261443|164457878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.532
82375739|NCT00261443|164457878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.578||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.578
82375740|NCT00261443|164457879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.619
82375741|NCT00261443|164457879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.868
82375742|NCT00261443|164457879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.284
82375743|NCT00261443|164457879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.481||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.481
82375744|NCT00261443|164457880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.184
82375745|NCT00261443|164457880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.073
82375746|NCT00261443|164457880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.020
82375747|NCT00261443|164457880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.206||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.206
82375748|NCT00261443|164457881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.142||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.142
82375749|NCT00261443|164457881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.110
82375750|NCT00261443|164457881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.022
82375751|NCT00261443|164457881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.542||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.542
82375752|NCT00261443|164457882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.916||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.916
82375753|NCT00261443|164457882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.707||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.707
82375754|NCT00261443|164457882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.665
82375755|NCT00261443|164457882|SUPERIORITY_OR_OTHER_LEGACY|||||||0.757||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.757
82375756|NCT00261443|164457883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.871||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.871
82375757|NCT00261443|164457883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.362
82375758|NCT00261443|164457883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.295
82375759|NCT00261443|164457883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.519||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.519
82375760|NCT00261443|164457884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.935||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.935
82375761|NCT00261443|164457884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.174
82375762|NCT00261443|164457884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.527
82375763|NCT00261443|164457884|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.753
82375764|NCT00261443|164457885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85||95.0|||||Wilcoxon Rank Sum Test|||Baseline Treatment Comparison; Aripiprazole/Placebo||||0.850
82375765|NCT00261443|164457885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.709||95.0|||||Wilcoxon Rank Sum Test|||Week 52 LOCF Treatment Comparison; Aripiprazole/Placebo||||0.709
82375766|NCT00261443|164457885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0|||||Wilcoxon Rank Sum Test|||Highest Value Treatment Comparison; Aripiprazole/Placebo||||0.326
82445485|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.15|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 14: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.15|0.75|
82445486|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.85|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 18C: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.85|0.58|
82445487|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.74|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19A: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.74|0.58|
82400770|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.78||||0.033|TWO_SIDED|90.0|0.41|3.14|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.14|0.41|0.033
82445488|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.39|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 19F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||1.39|0.89|
82530434|NCT06173570|164757378|SUPERIORITY||Mean Difference (Net)|-45.17|||<|0.001|TWO_SIDED|95.0|-53.47|-36.86|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-36.86|-53.47|< 0.001
82400771|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.84||||0.302|TWO_SIDED|90.0|-0.5|2.19|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.19|-0.50|0.302
82400772|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.94||||0.255|TWO_SIDED|90.0|-0.42|2.3|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag alone compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.30|-0.42|0.255
82400773|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.08||||0.198|TWO_SIDED|90.0|-0.3|2.46|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||2.46|-0.30|0.198
82400774|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.68||||0.002|TWO_SIDED|90.0|1.3|4.06|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||4.06|1.30|0.002
82400775|NCT00572455|164510031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.68||||0.046|TWO_SIDED|90.0|0.3|3.06|||ANCOVA|||Change at Day 28 4 PM: Analysis was based on ANCOVA model for effect of taprenepag in combination with latanoprost compared to latanoprost alone on IOP reduction from baseline with treatment and baseline IOP as covariates.||3.06|0.30|0.046
82400776|NCT02384538|164510034|OTHER||LS Mean Difference|1.52||||0.386|TWO_SIDED|95.0|-1.944|4.99||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||||4.990|-1.944|0.386
82530435|NCT06173570|164757378|SUPERIORITY||Mean Difference (Net)|-50.7|||<|0.001|TWO_SIDED|95.0|-59.03|-42.37|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 LDL-C values handled by the MMRM under MAR. Hierarchical testing (in the order of decreasing dose of study treatment) controls two-sided alpha = 0.05.||-42.37|-59.03|< 0.001
82576200|NCT02209181|164862040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.75|-0.71||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.71|-2.75|<0.001
82400777|NCT02384538|164510036|OTHER||LS Mean Difference|2.55||||0.383|TWO_SIDED|95.0|-3.214|8.308||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||8.308|-3.214|0.383
82400778|NCT02384538|164510037|OTHER||LS Mean Difference|0.15||||0.719|TWO_SIDED|95.0|-0.677|0.979||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||0.979|-0.677|0.719
82400779|NCT02384538|164510038|OTHER||LS Mean Difference|4.25||||0.387|TWO_SIDED|95.0|-5.448|13.945||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||13.945|-5.448|0.387
82400780|NCT02384538|164510039|OTHER||LS Mean Difference|0.45||||0.281|TWO_SIDED|95.0|-0.373|1.272||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||1.272|-0.373|0.281
82530436|NCT06173570|164757379|SUPERIORITY||Mean Difference (Net)|-33.85|||<|0.001|TWO_SIDED|95.0|-42.34|-25.37|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-25.37|-42.34|< 0.001
82530437|NCT06173570|164757379|SUPERIORITY||Mean Difference (Net)|-36.73|||<|0.001|TWO_SIDED|95.0|-45.3|-28.17|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-28.17|-45.30|< 0.001
82530438|NCT06173570|164757379|SUPERIORITY||Mean Difference (Net)|-43.86|||<|0.001|TWO_SIDED|95.0|-52.31|-35.41|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-35.41|-52.31|< 0.001
82645739|NCT02016755|165006851|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||Change from Baseline at Month 12||||0.220
82400781|NCT02384538|164510040|OTHER||LS Mean Difference|0.52||||0.212|TWO_SIDED|95.0|-0.3|1.336||P-value for test of difference in change from baseline between ABT-981 dose group and placebo is from an ANCOVA model with treatment group and country as the main factors and baseline as a covariate.|ANCOVA|||Week 16||1.336|-0.300|0.212
82530439|NCT06173570|164757379|SUPERIORITY||Mean Difference (Net)|-49.8|||<|0.001|TWO_SIDED|95.0|-58.35|-41.25|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline LDL-C, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-41.25|-58.35|< 0.001
82576201|NCT02209181|164862040|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.52||0.262|TWO_SIDED|95.0|-0.44|1.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.62|-0.44|0.262
82645740|NCT02016755|165006851|SUPERIORITY|||||||0.454|||||||t-test, 2 sided|||Change from Baseline at Month 15||||0.454
82400782|NCT02872909|164510041|SUPERIORITY||Mean Difference (Final Values)|1.37|||<|0.05|TWO_SIDED|95.0|0.71|2.54||calculated as \<0.05 for 85% power|t-test, 2 sided|Analysed on log transformed data||Sample size requirement estimation - Preliminary data showed pain scores of 1.25 with ambulatory PDT (n=12) and 5.26 (SD 2.38) for conventional PDT (n=50). Estimated that for 85% power to detect as significant at 5% level a difference in mean pain score in one group of 2cm compared with 4 cm in the other group, assuming two-sided testing, a minimum of 45 subjects needed. We aimed for 50 subjects, with an allocation ratio of 2 (twice as many randomised to ambulatory PDT as conventional PDT)||2.54|0.71|<0.05
82400783|NCT02872909|164510044|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82400784|NCT02187029|164510046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-52.55|||||TWO_SIDED|90.0|-56.32|-48.78|||Bayesian ANCOVA|||||-48.780|-56.320|
82400785|NCT02187029|164510046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.31|||||TWO_SIDED|90.0|-71.31|-61.54|||Bayesian ANCOVA|||||-61.540|-71.310|
82445489|NCT00574548|164599370|NON_INFERIORITY_OR_EQUIVALENCE|Criterion on which to declare non-inferiority = lower bound of the 2-sided 95% confidence interval for the geometric mean fold rise greater than 0.5.|Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.5|0.73|||||CIs are back transformations of a CI based on the Student t distribution for the mean logarithm of the mean fold rise.|Serotype 23F: geometric mean fold rise (GMFR) calculated using all evaluable participants with data from both the postvaccination 1 and postvaccination 2 blood draws.||0.73|0.50|
82576202|NCT02209181|164862041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|0.88|2.96||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.96|0.88|<0.001
82645741|NCT02016755|165006851|SUPERIORITY|||||||0.167|||||||t-test, 2 sided|||Change from Baseline at Month 18||||0.167
82400786|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||||90.0|-0.55|-0.06|||Mixed Models Analysis|||Day 1, Hour 1||-0.06|-0.55|
82400787|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.95|-0.28|||Mixed Models Analysis|||Day 1, Hour 2||-0.28|-0.95|
82400788|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-1.52|-1.16|||Mixed Models Analysis|||Day 1, Hour 4||-1.16|-1.52|
82400789|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.86|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-2.38|-1.33|||Mixed Models Analysis|||Day 1, Hour 8||-1.33|-2.38|
82400790|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-2.18|-1.48|||Mixed Models Analysis|||Day 1, Hour 12||-1.48|-2.18|
82400791|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-2.11|-1.37|||Mixed Models Analysis|||Day 1, Hour 24||-1.37|-2.11|
82645742|NCT02016755|165006851|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||Change from Baseline at LOCF||||0.015
82645743|NCT02533505|165006855|SUPERIORITY||Mean Difference (Final Values)|10.114||||0.007|TWO_SIDED|95.0|2.943|17.286||All p-values ≤ 0.05 after rounding will be considered statistically significant.|Mixed Models Analysis|||||17.286|2.943|0.007
82645744|NCT02533505|165006856|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.111|TWO_SIDED|95.0|-0.021|0.196|||Mixed Models Analysis|||||0.196|-0.021|0.111
82645745|NCT02533505|165006857|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.609|TWO_SIDED|95.0|-1.018|1.719|||Mixed Models Analysis|||ΔHR||1.719|-1.018|0.609
82645746|NCT02533505|165006858|SUPERIORITY||Mean Difference (Final Values)|0.191|||<|0.001|TWO_SIDED|95.0|0.15|0.233|||Mixed Models Analysis|||ΔFEV1||0.233|0.150|<0.001
82645747|NCT02533505|165006858|SUPERIORITY||Mean Difference (Final Values)|0.312|||<|0.001|TWO_SIDED|95.0|0.236|0.388|||Mixed Models Analysis|||ΔFVC||0.388|0.236|<0.001
82645748|NCT02533505|165006858|SUPERIORITY||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.218|0.342|||Mixed Models Analysis|||ΔIC||0.342|0.218|<0.001
82645749|NCT02533505|165006859|SUPERIORITY||Mean Difference (Final Values)|23.315||||0.021|TWO_SIDED|95.0|3.723|42.907|||Mixed Models Analysis|||ΔVT/Ti||42.907|3.723|0.021
82530440|NCT06173570|164757380|SUPERIORITY||Mean Difference (Net)|-21.22|||<|0.001|TWO_SIDED|95.0|-26.27|-16.18|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-16.18|-26.27|< 0.001
82645750|NCT02533505|165006860|SUPERIORITY||Mean Difference (Final Values)|-0.204||||0.106|TWO_SIDED|95.0|-0.454|0.045|||Mixed Models Analysis|||||0.045|-0.454|0.106
82645751|NCT02533505|165006861|SUPERIORITY||Mean Difference (Final Values)|10.245||||0.011|TWO_SIDED|95.0|2.469|18.021|||Mixed Models Analysis|||ΔVCO2||18.021|2.469|0.011
82645752|NCT02533505|165006862|SUPERIORITY||Mean Difference (Final Values)|0.242||||0.333|TWO_SIDED|95.0|-0.255|0.738|||Mixed Models Analysis|||ΔSaO2||0.738|-0.255|0.333
82645753|NCT02533505|165006863|SUPERIORITY||Mean Difference (Final Values)|0.237||||0.484|TWO_SIDED|95.0|-0.439|0.913|||Mixed Models Analysis|||ΔRR||0.913|-0.439|0.484
82645754|NCT02533505|165006864|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.113|TWO_SIDED|95.0|-0.004|0.036|||Mixed Models Analysis|||ΔTi/Ttot||0.036|-0.004|0.113
82645755|NCT02533505|165006865|SUPERIORITY||Mean Difference (Final Values)|57.624|||<|0.001|TWO_SIDED|95.0|29.701|85.546|||Mixed Models Analysis|||ΔVt||85.546|29.701|<0.001
82645756|NCT02533505|165006866|SUPERIORITY||Mean Difference (Final Values)|862.157|||<|0.001|TWO_SIDED|95.0|439.817|1284.496|||Mixed Models Analysis|||ΔVe||1284.496|439.817|<0.001
82375767|NCT00261443|164457885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.201||95.0|||||Wilcoxon Rank Sum Test|||Lowest Value Treatment Comparison; Aripiprazole/Placebo||||0.201
82375768|NCT00261443|164457886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47||||0.491|TWO_SIDED|95.0|-0.87|1.81||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 (LOCF) Treatment Difference||1.81|-0.87|0.491
82375769|NCT00261443|164457886|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04||||0.945|TWO_SIDED|95.0|-1.21|1.12||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value Treatment Difference||1.12|-1.21|0.945
82375770|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.279||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 12 Treatment Comparison||||0.279
82375771|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.247||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 24 Treatment Comparison||||0.247
82375772|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 36 Treatment Comparison||||0.329
82375773|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY|||||||0.928||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 Treatment Comparison||||0.928
82375774|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.17||||0.584|TWO_SIDED|95.0|0.66|2.09||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 (LOCF) Treatment Comparison||2.09|0.66|0.584
82375775|NCT00261443|164457887|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.26||||0.369|TWO_SIDED|95.0|0.76|2.08||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||"At Any Time Treatment Comparison"||2.08|0.76|0.369
82375776|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 12 Treatment Comparison||||0.685
82375777|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.792||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 24 Treatment Comparison||||0.792
82375778|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.805||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 36 Treatment Comparison||||0.805
82375779|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533||95.0||||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 Treatment Comparison||||0.533
82375780|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.545|TWO_SIDED|95.0|0.35|1.74||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||Week 52 (LOCF) Treatment Comparison||1.74|0.35|0.545
82375781|NCT00261443|164457888|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.01||||0.987|TWO_SIDED|95.0|0.54|1.86||CMH General Association Test controlling for mood stabilizer.|Cochran-Mantel-Haenszel|||"At Any Time Treatment Comparison"||1.86|0.54|0.987
82375782|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.646||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Treatment Comparison Baseline||||0.646
82375783|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 12 Treatment Comparison||||0.006
82375784|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.485||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 24 Treatment Comparison||||0.485
82375785|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.325||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 36 Treatment Comparison||||0.325
82375786|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 52 Treatment Comparison||||0.374
82530441|NCT06173570|164757380|SUPERIORITY||Mean Difference (Net)|-22.39|||<|0.001|TWO_SIDED|95.0|-27.48|-17.3|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-17.30|-27.48|< 0.001
82530442|NCT06173570|164757380|SUPERIORITY||Mean Difference (Net)|-27.14|||<|0.001|TWO_SIDED|95.0|-32.16|-22.11|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.11|-32.16|< 0.001
82530443|NCT06173570|164757380|SUPERIORITY||Mean Difference (Net)|-29.36|||<|0.001|TWO_SIDED|95.0|-34.4|-24.31|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-24.31|-34.40|< 0.001
82530444|NCT06173570|164757381|SUPERIORITY||Mean Difference (Net)|-3.53||||0.111|TWO_SIDED|95.0|-7.87|0.81|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||0.81|-7.87|0.111
82645757|NCT02533505|165006867|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.007|TWO_SIDED|95.0|0.005|0.033|||Mixed Models Analysis|||ΔFEV1/FVC||0.033|0.005|0.007
82400792|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-2.89|-2.06|||Mixed Models Analysis|||Day 3||-2.06|-2.89|
82400793|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|90.0|-3.29|-2.2|||Mixed Models Analysis|||Day 7, pre-dose||-2.20|-3.29|
82400794|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-3.39|-2.21|||Mixed Models Analysis|||Day 7, Hour 1||-2.21|-3.39|
82400795|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.06|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-3.72|-2.41|||Mixed Models Analysis|||Day 7, Hour 2||-2.41|-3.72|
82400796|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-4.03|-2.77|||Mixed Models Analysis|||Day7, Hour 4||-2.77|-4.03|
82530445|NCT06173570|164757381|SUPERIORITY||Mean Difference (Net)|0.38||||0.864|TWO_SIDED|95.0|-3.98|4.74|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.74|-3.98|0.864
82530446|NCT06173570|164757381|SUPERIORITY||Mean Difference (Net)|-1.68||||0.445|TWO_SIDED|95.0|-5.99|2.63|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.63|-5.99|0.445
82400797|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-3.82|-2.79|||Mixed Models Analysis|||Day 7, Hour 8||-2.79|-3.82|
82400798|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-3.72|-2.68|||Mixed Models Analysis|||Day 7, Hour 12||-2.68|-3.72|
82400799|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.81|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-3.3|-2.32|||Mixed Models Analysis|||Day 7, Hour 24||-2.32|-3.30|
82400800|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.56|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-5.19|-3.92|||Mixed Models Analysis|||Day 11||-3.92|-5.19|
82400801|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.32|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-4.75|-3.88|||Mixed Models Analysis|||Day 14, pre-dose||-3.88|-4.75|
82400802|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.55|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-5.02|-4.08|||Mixed Models Analysis|||Day 14, Hour 1||-4.08|-5.02|
82400803|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.97|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-5.47|-4.47|||Mixed Models Analysis|||Day 14, Hour 2||-4.47|-5.47|
82400804|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.43|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-5.83|-5.02|||Mixed Models Analysis|||Day 14, Hour 4||-5.02|-5.83|
82400805|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.57|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-6.08|-5.05|||Mixed Models Analysis|||Day 14, Hour 8||-5.05|-6.08|
82400806|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.34|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-5.86|-4.82|||Mixed Models Analysis|||Day 14, Hour 12||-4.82|-5.86|
82400807|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.65|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-5.12|-4.18|||Mixed Models Analysis|||Day 14, Hour 24||-4.18|-5.12|
82400808|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|-2.97|0.79|||Mixed Models Analysis|||Follow-up, Day 25-29||0.79|-2.97|
82400809|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.92|-0.32|||Mixed Models Analysis|||Day 1, Hour 1||-0.32|-0.92|
82530447|NCT06173570|164757381|SUPERIORITY||Mean Difference (Net)|1.01||||0.648|TWO_SIDED|95.0|-3.32|5.34|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.34|-3.32|0.648
82530448|NCT06173570|164757382|SUPERIORITY||Mean Difference (Net)|-6.5||||0.266|TWO_SIDED|95.0|-17.97|4.96|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.96|-17.97|0.266
82645758|NCT00563524|165006890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5237|||||||ANCOVA|||Baseline: Analysis of covariance (ANCOVA) with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.5237
82645759|NCT00563524|165006890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8463|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.8463
82530449|NCT06173570|164757382|SUPERIORITY||Mean Difference (Net)|-6.67||||0.256|TWO_SIDED|95.0|-18.17|4.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.84|-18.17|0.256
82400810|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-1.61|-0.75|||Mixed Models Analysis|||Day 1, Hour 2||-0.75|-1.61|
82400811|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.91|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-3.14|-2.69|||Mixed Models Analysis|||Day 1, Hour 4||-2.69|-3.14|
82400812|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-4.36|-3.03|||Mixed Models Analysis|||Day 1, Hour 8||-3.03|-4.36|
82400813|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-4.28|-3.4|||Mixed Models Analysis|||Day 1, Hour 12||-3.40|-4.28|
82400814|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.47|STANDARD_ERROR_OF_MEAN|0.26||||90.0|-3.94|-3.0|||Mixed Models Analysis|||Day 1, Hour 24||-3.00|-3.94|
82400815|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.76|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-5.29|-4.23|||Mixed Models Analysis|||Day 3||-4.23|-5.29|
82400816|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-6.62|-5.0|||Mixed Models Analysis|||Day 7, pre-dose||-5.00|-6.62|
82400817|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.84|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|90.0|-6.72|-4.95|||Mixed Models Analysis|||Day 7, Hour 1||-4.95|-6.72|
82400818|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|90.0|-7.17|-5.19|||Mixed Models Analysis|||Day 7, Hour 2||-5.19|-7.17|
82400819|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.51|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-7.46|-5.55|||Mixed Models Analysis|||Day 7, Hour 4||-5.55|-7.46|
82400820|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.29|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-7.07|-5.51|||Mixed Models Analysis|||Day 7, Hour 8||-5.51|-7.07|
82400821|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.24|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-7.03|-5.44|||Mixed Models Analysis|||Day 7, Hour 12||-5.44|-7.03|
82400822|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.75|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-6.5|-4.99|||Mixed Models Analysis|||Day 7, Hour 24||-4.99|-6.50|
82400823|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.62|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-6.59|-4.65|||Mixed Models Analysis|||Day 11||-4.65|-6.59|
82400824|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.76|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-6.42|-5.1|||Mixed Models Analysis|||Day 14, pre-dose||-5.10|-6.42|
82400825|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.96|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|90.0|-6.67|-5.24|||Mixed Models Analysis|||Day 14, Hour 1||-5.24|-6.67|
82400826|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.14|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|-6.9|-5.38|||Mixed Models Analysis|||Day 14, Hour 2||-5.38|-6.90|
82400827|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-7.03|-5.81|||Mixed Models Analysis|||Day 14, Hour 4||-5.81|-7.03|
82400828|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.64|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-7.41|-5.87|||Mixed Models Analysis|||Day 14, Hour 8||-5.87|-7.41|
82400829|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|90.0|-7.18|-5.63|||Mixed Models Analysis|||Day 14, Hour 12||-5.63|-7.18|
82400830|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.77|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-6.47|-5.07|||Mixed Models Analysis|||Day 14, Hour 24||-5.07|-6.47|
82400831|NCT02187029|164510051|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.66|STANDARD_ERROR_OF_MEAN|1.26|||TWO_SIDED|90.0|-4.96|-0.35|||Mixed Models Analysis|||Follow-up, Day 25-29||-0.35|-4.96|
82400832|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0355|STANDARD_ERROR_OF_MEAN|0.0423|||TWO_SIDED|90.0|-0.1103|0.0394|||Mixed Models Analysis|||Day 1, Hour 1||0.0394|-0.1103|
82400833|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0152|STANDARD_ERROR_OF_MEAN|0.0631|||TWO_SIDED|90.0|-0.1269|0.0966|||Mixed Models Analysis|||Day 1, Hour 2||0.0966|-0.1269|
82400834|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0331|STANDARD_ERROR_OF_MEAN|0.0422|||TWO_SIDED|90.0|-0.1078|0.0417|||Mixed Models Analysis|||Day 1, Hour 4||0.0417|-0.1078|
82400835|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0035|STANDARD_ERROR_OF_MEAN|0.0443|||TWO_SIDED|90.0|-0.075|0.082|||Mixed Models Analysis|||Day 1, Hour 8||0.0820|-0.0750|
82400836|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0502|STANDARD_ERROR_OF_MEAN|0.0367|||TWO_SIDED|90.0|-0.1153|0.0149|||Mixed Models Analysis|||Day 1, Hour 12||0.0149|-0.1153|
82400837|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.0553|||TWO_SIDED|90.0|-0.1058|0.0899|||Mixed Models Analysis|||Day 1, Hour 24||0.0899|-0.1058|
82400838|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0539|STANDARD_ERROR_OF_MEAN|0.0561|||TWO_SIDED|90.0|-0.1538|0.046|||Mixed Models Analysis|||Day 7, pre-dose||0.0460|-0.1538|
82400839|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0109|STANDARD_ERROR_OF_MEAN|0.0506|||TWO_SIDED|90.0|-0.0793|0.101|||Mixed Models Analysis|||Day 7, Hour 1||0.1010|-0.0793|
82400840|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.033|STANDARD_ERROR_OF_MEAN|0.0496|||TWO_SIDED|90.0|-0.0554|0.1213|||Mixed Models Analysis|||Day 7, Hour 2||0.1213|-0.0554|
82400841|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0086|STANDARD_ERROR_OF_MEAN|0.0459|||TWO_SIDED|90.0|-0.0733|0.0905|||Mixed Models Analysis|||Day 7, Hour 4||0.0905|-0.0733|
82400842|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0244|STANDARD_ERROR_OF_MEAN|0.0349|||TWO_SIDED|90.0|-0.0865|0.0378|||Mixed Models Analysis|||Day 7, Hour 8||0.0378|-0.0865|
82400843|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0526|STANDARD_ERROR_OF_MEAN|0.0251|||TWO_SIDED|90.0|-0.0973|-0.0079|||Mixed Models Analysis|||Day 7, Hour 12||-0.0079|-0.0973|
82530450|NCT06173570|164757382|SUPERIORITY||Mean Difference (Net)|-7.63||||0.186|TWO_SIDED|95.0|-18.95|3.69|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||3.69|-18.95|0.186
82445490|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|2.03|3.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 1: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.55|2.03|
82445491|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.18|1.89|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 3: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||1.89|1.18|
82445492|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|2.07|3.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 4: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.55|2.07|
82445493|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.77|3.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 5: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.61|1.77|
82445494|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.7|||||TWO_SIDED|95.0|1.94|3.88|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 6B: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.88|1.94|
82445495|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|8.5|||||TWO_SIDED|95.0|5.68|12.6|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 7F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||12.60|5.68|
82530451|NCT06173570|164757382|SUPERIORITY||Mean Difference (Net)|-10.0||||0.086|TWO_SIDED|95.0|-21.44|1.43|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||1.43|-21.44|0.086
82530452|NCT06173570|164757383|SUPERIORITY||Mean Difference (Net)|-30.38|||<|0.001|TWO_SIDED|95.0|-38.63|-22.12|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.12|-38.63|< 0.001
82645760|NCT00563524|165006890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4596|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4596
82400844|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0298|STANDARD_ERROR_OF_MEAN|0.0331|||TWO_SIDED|90.0|-0.0889|0.0292|||Mixed Models Analysis|||Day 7, Hour 24||0.0292|-0.0889|
82400845|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0167|STANDARD_ERROR_OF_MEAN|0.0268|||TWO_SIDED|90.0|-0.0649|0.0315|||Mixed Models Analysis|||Day 14, pre-dose||0.0315|-0.0649|
82400846|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0616|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|90.0|0.001|0.1222|||Mixed Models Analysis|||Day 14, Hour 1||0.1222|0.0010|
82400847|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1025|STANDARD_ERROR_OF_MEAN|0.0512|||TWO_SIDED|90.0|0.0104|0.1945|||Mixed Models Analysis|||Day 14, Hour 2||0.1945|0.0104|
82400848|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0062|STANDARD_ERROR_OF_MEAN|0.0495|||TWO_SIDED|90.0|-0.0827|0.0952|||Mixed Models Analysis|||Day 14, Hour 4||0.0952|-0.0827|
82400849|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0124|STANDARD_ERROR_OF_MEAN|0.0443|||TWO_SIDED|90.0|-0.0672|0.0919|||Mixed Models Analysis|||Day 14, Hour 8||0.0919|-0.0672|
82400850|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0186|STANDARD_ERROR_OF_MEAN|0.0408|||TWO_SIDED|90.0|-0.0918|0.0547|||Mixed Models Analysis|||Day 14, Hour 12||0.0547|-0.0918|
82400851|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0413|STANDARD_ERROR_OF_MEAN|0.0433|||TWO_SIDED|90.0|-0.1192|0.0365|||Mixed Models Analysis|||Day 14, Hour 24||0.0365|-0.1192|
82400852|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4011|STANDARD_ERROR_OF_MEAN|0.3916|||TWO_SIDED|90.0|-0.2968|1.099|||Mixed Models Analysis|||Follow-up, Day 25-29||1.0990|-0.2968|
82400853|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1175|STANDARD_ERROR_OF_MEAN|0.0537|||TWO_SIDED|90.0|0.0223|0.2127|||Mixed Models Analysis|||Day 1, Hour 1||0.2127|0.0223|
82400854|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3845|STANDARD_ERROR_OF_MEAN|0.0802|||TWO_SIDED|90.0|0.2424|0.5266|||Mixed Models Analysis|||Day 1, Hour 2||0.5266|0.2424|
82400855|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3812|STANDARD_ERROR_OF_MEAN|0.0536|||TWO_SIDED|90.0|0.2862|0.4762|||Mixed Models Analysis|||Day 1, Hour 4||0.4762|0.2862|
82400856|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2841|STANDARD_ERROR_OF_MEAN|0.0563|||TWO_SIDED|90.0|0.1843|0.3838|||Mixed Models Analysis|||Day 1, Hour 8||0.3838|0.1843|
82400857|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1462|STANDARD_ERROR_OF_MEAN|0.0467|||TWO_SIDED|90.0|0.0635|0.2289|||Mixed Models Analysis|||Day 1, Hour 12||0.2289|0.0635|
82400858|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.168|STANDARD_ERROR_OF_MEAN|0.0702|||TWO_SIDED|90.0|0.0436|0.2924|||Mixed Models Analysis|||Day 1, Hour 24||0.2924|0.0436|
82400859|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1303|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|90.0|-0.0172|0.2778|||Mixed Models Analysis|||Day 7, pre-dose||0.2778|-0.0172|
82400860|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1953|STANDARD_ERROR_OF_MEAN|0.0747||||90.0|0.0625|0.3281|||Mixed Models Analysis|||Day 7, Hour 1||0.3281|0.0625|
82400861|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5409|STANDARD_ERROR_OF_MEAN|0.0729|||TWO_SIDED|90.0|0.411|0.6707|||Mixed Models Analysis|||Day 7, Hour 2||0.6707|0.4110|
82400862|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5235|STANDARD_ERROR_OF_MEAN|0.0675|||TWO_SIDED|90.0|0.4032|0.6438|||Mixed Models Analysis|||Day 7, Hour 4||0.6438|0.4032|
82445496|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|6.7|||||TWO_SIDED|95.0|4.45|10.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 9V: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||10.22|4.45|
82445497|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|1.5|||||TWO_SIDED|95.0|1.02|2.18|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 14: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||2.18|1.02|
82445498|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.8|||||TWO_SIDED|95.0|2.01|3.89|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 18C: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.89|2.01|
82445499|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.92|3.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 19A: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.13|1.92|
82445500|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.5|||||TWO_SIDED|95.0|1.8|3.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 19F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||3.44|1.80|
82445501|NCT00574548|164599371|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|2.9|||||TWO_SIDED|95.0|1.92|4.28|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (\[13vPnC\] - \[23vPS / 13vPnC\]).|Serotype 23F: ratio for GMT calculated by back transformation of the mean difference between vaccine groups on the logarithmic scale.||4.28|1.92|
82445502|NCT02020408|164599387|SUPERIORITY||||||>|0.05||||||The p value was calculated and adjusted for multiple comparisons (Bonferroni).|ANOVA|||||||> 0.05
82445503|NCT02020408|164599388|SUPERIORITY||||||<|0.05||||||The p value was calculated and adjusted for multiple comparisons (Bonferroni).|General Linear Model|||A General Linear Model using log(\[11C\]raclopride BPND) after amphetamine administration as dependent variable and Diagnostic Group as independent variable was used. Baseline (before amphetamine administration) \[11C\]raclopride BPND was used as covariate.||||<0.05
82445504|NCT01174173|164599389|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||A two-sided t-test was performed with p-value \< 0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.0013
82445505|NCT01174173|164599390|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED|||||A two-sided t-test was performed for change in 6-minute walk test and p-value \< 0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.09
82445506|NCT01174173|164599391|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||A two-sided t-test was performed for difference from baseline and 3-month KCCQ score. A p-value of \<0.05 was considered statistically significant a priori.|t-test, 2 sided|||||||0.37
82445507|NCT01174173|164599393|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
82530453|NCT06173570|164757383|SUPERIORITY||Mean Difference (Net)|-33.39|||<|0.001|TWO_SIDED|95.0|-41.71|-25.08|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-25.08|-41.71|< 0.001
82530454|NCT06173570|164757383|SUPERIORITY||Mean Difference (Net)|-38.66|||<|0.001|TWO_SIDED|95.0|-46.9|-30.43|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-30.43|-46.90|< 0.001
82445508|NCT01174173|164599394|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
82530455|NCT06173570|164757383|SUPERIORITY||Mean Difference (Net)|-45.18|||<|0.001|TWO_SIDED|95.0|-53.43|-36.94|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-36.94|-53.43|< 0.001
82530456|NCT06173570|164757384|SUPERIORITY||Mean Difference (Net)|-6.06||||0.276|TWO_SIDED|95.0|-16.96|4.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.84|-16.96|0.276
82400863|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3857|STANDARD_ERROR_OF_MEAN|0.0512|||TWO_SIDED|90.0|0.2944|0.4769|||Mixed Models Analysis|||Day 7, Hour 8||0.4769|0.2944|
82445509|NCT03268941|164599412|OTHER||Least Square (LS) Mean Difference|7.38|||<|0.001|TWO_SIDED|95.0|4.03|13.52||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration as covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||13.52|4.03|<0.001
82645761|NCT00563524|165006890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6345|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.6345
82400864|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0216|STANDARD_ERROR_OF_MEAN|0.0368|||TWO_SIDED|90.0|-0.0439|0.0872|||Mixed Models Analysis|||Day 7, Hour 12||0.0872|-0.0439|
82400865|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1708|STANDARD_ERROR_OF_MEAN|0.0486|||TWO_SIDED|90.0|0.0841|0.2574|||Mixed Models Analysis|||Day 7, Hour 24||0.2574|0.0841|
82400866|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.166|STANDARD_ERROR_OF_MEAN|0.0377|||TWO_SIDED|90.0|0.0982|0.2338|||Mixed Models Analysis|||Day 14, pre-dose||0.2338|0.0982|
82445510|NCT03268941|164599412|OTHER||LS Mean Difference|11.24|||<|0.001|TWO_SIDED|95.0|5.91|21.41||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration as covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||21.41|5.91|<0.001
82400867|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3524|STANDARD_ERROR_OF_MEAN|0.0477|||TWO_SIDED|90.0|0.2667|0.438|||Mixed Models Analysis|||Day 14, Hour 1||0.4380|0.2667|
82400868|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5631|STANDARD_ERROR_OF_MEAN|0.0724|||TWO_SIDED|90.0|0.433|0.6932|||Mixed Models Analysis|||Day 14, Hour 2||0.6932|0.4330|
82400869|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5807|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|0.4549|0.7065|||Mixed Models Analysis|||Day 14, Hour 4||0.7065|0.4549|
82400870|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2814|STANDARD_ERROR_OF_MEAN|0.0627|||TWO_SIDED|90.0|0.1688|0.394|||Mixed Models Analysis|||Day 14, Hour 8||0.3940|0.1688|
82400871|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1982|STANDARD_ERROR_OF_MEAN|0.0577|||TWO_SIDED|90.0|0.0945|0.3019|||Mixed Models Analysis|||Day 14, Hour 12||0.3019|0.0945|
82400872|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1465|STANDARD_ERROR_OF_MEAN|0.0615|||TWO_SIDED|90.0|0.0361|0.2569|||Mixed Models Analysis|||Day 14, Hour 24||0.2569|0.0361|
82400873|NCT02187029|164510057|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8565|STANDARD_ERROR_OF_MEAN|0.4796|||TWO_SIDED|90.0|0.0017|1.7112|||Mixed Models Analysis|||Follow-up, Day 25-29||1.7112|0.0017|
82400874|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.348|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.707|0.01|||Mixed Models Analysis|||Day 1, Hour 1||0.010|-0.707|
82400875|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.179|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|90.0|-0.533|0.175|||Mixed Models Analysis|||Day 1, Hour 2||0.175|-0.533|
82400876|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.258|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.568|0.052|||Mixed Models Analysis|||Day 1, Hour 4||0.052|-0.568|
82400877|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.046|STANDARD_ERROR_OF_MEAN|0.201||||90.0|-0.39|0.298|||Mixed Models Analysis|||Day 1, Hour 8||0.298|-0.390|
82400878|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.284|STANDARD_ERROR_OF_MEAN|0.168||||90.0|-0.575|0.006|||Mixed Models Analysis|||Day 1, Hour 12||0.006|-0.575|
82445511|NCT03268941|164599412|OTHER||LS Mean Difference|12.8|||<|0.001|TWO_SIDED|95.0|6.94|23.59||ANCOVA model was used for analysis. Treatment, underlying disease (DG/IG) were fixed factors. ln of baseline prolactin concentration - covariate, ln of ratio of Cmax to baseline concentration as response. Results in original scale are presented.|ANCOVA|||Change in serum prolactin on Day 1 at the Tmax as a ratio of Cmax to serum prolactin concentration at Baseline.||23.59|6.94|<0.001
82400879|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.166|STANDARD_ERROR_OF_MEAN|0.235|||TWO_SIDED|90.0|-0.569|0.237|||Mixed Models Analysis|||Day 1, Hour 24||0.237|-0.569|
82400880|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.263|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.657|0.132|||Mixed Models Analysis|||Day 7, pre-dose||0.132|-0.657|
82400881|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|90.0|-0.46|0.299|||Mixed Models Analysis|||Day 7, Hour 1||0.299|-0.460|
82400882|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.082|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.392|0.228|||Mixed Models Analysis|||Day 7, Hour 2||0.228|-0.392|
82400883|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.083|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|90.0|-0.408|0.242|||Mixed Models Analysis|||Day 7, Hour 4||0.242|-0.408|
82400884|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.207|STANDARD_ERROR_OF_MEAN|0.174|||TWO_SIDED|90.0|-0.508|0.095|||Mixed Models Analysis|||Day 7, Hour 8||0.095|-0.508|
82400885|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|-0.451|0.191|||Mixed Models Analysis|||Day 7, Hour 12||0.191|-0.451|
82400886|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.125|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|-0.445|0.196|||Mixed Models Analysis|||Day 7, Hour 24||0.196|-0.445|
82400887|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.188|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|90.0|-0.472|0.097|||Mixed Models Analysis|||Day 14, pre-dose||0.097|-0.472|
82400888|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.152|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.434|0.13|||Mixed Models Analysis|||Day 14, Hour 1||0.130|-0.434|
82400889|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.231|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|90.0|-0.504|0.043|||Mixed Models Analysis|||Day 14, Hour 2||0.043|-0.504|
82400890|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.405|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|90.0|-0.722|-0.088|||Mixed Models Analysis|||Day 14, Hour 4||-0.088|-0.722|
82400891|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.249|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.56|0.062|||Mixed Models Analysis|||Day 14, Hour 8||0.062|-0.560|
82400892|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.163|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.467|0.141|||Mixed Models Analysis|||Day 14, Hour 12||0.141|-0.467|
82400893|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.317|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.633|-0.002|||Mixed Models Analysis|||Day 14, Hour 24||-0.002|-0.633|
82400894|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.094|STANDARD_ERROR_OF_MEAN|0.339|||TWO_SIDED|90.0|-0.683|0.496|||Mixed Models Analysis|||Follow-up, Day 25-29||0.496|-0.683|
82400895|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.266|||TWO_SIDED|90.0|-0.406|0.505|||Mixed Models Analysis|||Day 1, Hour 1||0.505|-0.406|
82400896|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.257|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.193|0.707|||Mixed Models Analysis|||Day 1, Hour 2||0.707|-0.193|
82400897|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.091|STANDARD_ERROR_OF_MEAN|0.229|||TWO_SIDED|90.0|-0.302|0.485|||Mixed Models Analysis|||Day 1, Hour 4||0.485|-0.302|
82400898|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|-0.107|0.768|||Mixed Models Analysis|||Day 1, Hour 8||0.768|-0.107|
82400899|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.283|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|90.0|-0.087|0.653|||Mixed Models Analysis|||Day 1, Hour 12||0.653|-0.087|
82400900|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.299|||TWO_SIDED|90.0|-0.024|1.0|||Mixed Models Analysis|||Day 1, Hour 24||1.000|-0.024|
82530457|NCT06173570|164757384|SUPERIORITY||Mean Difference (Net)|-3.17||||0.568|TWO_SIDED|95.0|-14.08|7.73|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||7.73|-14.08|0.568
82530458|NCT06173570|164757384|SUPERIORITY||Mean Difference (Net)|-4.98||||0.363|TWO_SIDED|95.0|-15.71|5.75|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.75|-15.71|0.363
82645762|NCT00563524|165006890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6235|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.6235
82400901|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.206|STANDARD_ERROR_OF_MEAN|0.327|||TWO_SIDED|90.0|-0.356|0.768|||Mixed Models Analysis|||Day 7, pre-dose||0.768|-0.356|
82400902|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.123|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|90.0|-0.41|0.656|||Mixed Models Analysis|||Day 7, Hour 1||0.656|-0.410|
82400903|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.396|STANDARD_ERROR_OF_MEAN|0.246|||TWO_SIDED|90.0|-0.025|0.818|||Mixed Models Analysis|||Day 7, Hour 2||0.818|-0.025|
82400904|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.077|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.523|0.368|||Mixed Models Analysis|||Day 7, Hour 4||0.368|-0.523|
82400905|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.254|STANDARD_ERROR_OF_MEAN|0.237|||TWO_SIDED|90.0|-0.154|0.661|||Mixed Models Analysis|||Day 7, Hour 8||0.661|-0.154|
82400906|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.125|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|-0.564|0.315|||Mixed Models Analysis|||Day 7, Hour 12||0.315|-0.564|
82400907|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.458|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|90.0|0.019|0.897|||Mixed Models Analysis|||Day 7, Hour 24||0.897|0.019|
82400908|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.418|STANDARD_ERROR_OF_MEAN|0.215|||TWO_SIDED|90.0|0.043|0.792|||Mixed Models Analysis|||Day 14, pre-dose||0.792|0.043|
82400909|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.521|STANDARD_ERROR_OF_MEAN|0.213|||TWO_SIDED|90.0|0.15|0.893|||Mixed Models Analysis|||Day 14, Hour 1||0.893|0.150|
82400910|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.204|||TWO_SIDED|90.0|0.172|0.888|||Mixed Models Analysis|||Day 14, Hour 2||0.888|0.172|
82400911|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.357|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|90.0|-0.069|0.782|||Mixed Models Analysis|||Day 14, Hour 4||0.782|-0.069|
82400912|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.242|||TWO_SIDED|90.0|-0.328|0.503|||Mixed Models Analysis|||Day 14, Hour 8||0.503|-0.328|
82400913|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.406|STANDARD_ERROR_OF_MEAN|0.236|||TWO_SIDED|90.0|0.0|0.812|||Mixed Models Analysis|||Day 14, Hour 12||0.812|0.000|
82400914|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|0.377|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|90.0|-0.047|0.802|||Mixed Models Analysis|||Day 14, Hour 24||0.802|-0.047|
82400915|NCT02187029|164510058|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.223|STANDARD_ERROR_OF_MEAN|0.418|||TWO_SIDED|90.0|-0.949|0.502|||Mixed Models Analysis|||Follow-up, Day 25-29||0.502|-0.949|
82576203|NCT02209181|164862041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.52||0.271|TWO_SIDED|95.0|-0.45|1.61||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.61|-0.45|0.271
82400916|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|316.89|STANDARD_ERROR_OF_MEAN|166.57|||TWO_SIDED|90.0|21.91|611.88|||Mixed Models Analysis|||Day 1||611.88|21.91|
82400917|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|61.97|STANDARD_ERROR_OF_MEAN|88.27|||TWO_SIDED|90.0|-94.87|218.82|||Mixed Models Analysis|||Day 7||218.82|-94.87|
82400918|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|107.96|STANDARD_ERROR_OF_MEAN|100.38|||TWO_SIDED|90.0|-71.2|287.11|||Mixed Models Analysis|||Day 14||287.11|-71.20|
82400919|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|433.21|STANDARD_ERROR_OF_MEAN|211.71|||TWO_SIDED|90.0|58.3|808.13|||Mixed Models Analysis|||Day 1||808.13|58.30|
82400920|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2|STANDARD_ERROR_OF_MEAN|125.47|||TWO_SIDED|90.0|-208.07|234.47|||Mixed Models Analysis|||Day 7||234.47|-208.07|
82400921|NCT02187029|164510059|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.83|STANDARD_ERROR_OF_MEAN|142.95|||TWO_SIDED|90.0|-285.26|225.6|||Mixed Models Analysis|||Day 14||225.60|-285.26|
82400922|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|3.44|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|90.0|0.71|6.17|||Mixed Models Analysis|||Day 1||6.17|0.71|
82400923|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|3.67|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|90.0|1.97|5.37|||Mixed Models Analysis|||Day 7||5.37|1.97|
82400924|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|6.24|9.96|||Mixed Models Analysis|||Day 14||9.96|6.24|
82400925|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|13.12|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|90.0|9.65|16.59|||Mixed Models Analysis|||Day 1||16.59|9.65|
82400926|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|27.99|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|90.0|25.49|30.49|||Mixed Models Analysis|||Day 7||30.49|25.49|
82400927|NCT02187029|164510060|SUPERIORITY_OR_OTHER||LS Mean Difference|28.77|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|26.14|31.41|||Mixed Models Analysis|||Day 14||31.41|26.14|
82400928|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-1.31|3.1|||Mixed Models Analysis|||Day 1||3.10|-1.31|
82400929|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|2.91|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|0.71|5.11|||Mixed Models Analysis|||Day 7||5.11|0.71|
82400930|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|3.59|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|90.0|1.33|5.85|||Mixed Models Analysis|||Day 14||5.85|1.33|
82645763|NCT00563524|165006891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3833|||||||ANCOVA|||Baseline: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.3833
82530459|NCT06173570|164757384|SUPERIORITY||Mean Difference (Net)|-6.73||||0.223|TWO_SIDED|95.0|-17.57|4.11|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||4.11|-17.57|0.223
82400931|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|1.51|STANDARD_ERROR_OF_MEAN|1.64|||TWO_SIDED|90.0|-1.29|4.31|||Mixed Models Analysis|||Day 1||4.31|-1.29|
82400932|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|7.73|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|4.57|10.89|||Mixed Models Analysis|||Day 7||10.89|4.57|
82400933|NCT02187029|164510061|SUPERIORITY_OR_OTHER||LS Mean Difference|9.07|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|90.0|5.91|12.23|||Mixed Models Analysis|||Day 14||12.23|5.91|
82400934|NCT00809094|164510087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.14|TWO_SIDED|95.0|-0.07|0.48|||t-test, 2 sided|||Null hypothesis: there will be no difference in the change in human neutrophil activity measured from baseline to end of the study (24 weeks)||0.48|-0.07|0.14
82400935|NCT01690299|164510099|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|27.5|||<|0.0001|TWO_SIDED|95.0|14.9|40.1||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||40.1|14.9|< 0.0001
82400936|NCT01690299|164510100|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|35.9|||<|0.0001|TWO_SIDED|95.0|23.3|48.5||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||48.5|23.3|<0.0001
82400937|NCT01690299|164510101|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.0||||0.0005|TWO_SIDED|95.0|8.4|27.7||The p-value is from a CMH test stratified by the BMI (Body Mass Index) at screening.|Cochran-Mantel-Haenszel|The p-value is from a CMH test stratified by the BMI at screening.|The Confidence Interval (CI) was weighted using CMH weights according to the number of participants in the two strata.|||27.7|8.4|0.0005
82400938|NCT01690299|164510101|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|25.2|||<|0.0001|TWO_SIDED|95.0|14.8|35.5||The p-value is from a CMH test stratified by the BMI (Body Mass Index) at screening.|Cochran-Mantel-Haenszel|The Confidence Interval (CI) was weighted using CMH weights according to the number of participants in the two strata.||||35.5|14.8|<0.0001
82400939|NCT01690299|164510102|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-31.4|||<|0.0001|TWO_SIDED|95.0|-43.33|-19.46|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-19.46|-43.33|<0.0001
82400940|NCT01690299|164510102|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-39.85|||<|0.0001|TWO_SIDED|95.0|-51.78|-27.92|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-27.92|-51.78|<0.0001
82400941|NCT01690299|164510103|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|29.4||||0.0002|TWO_SIDED|95.0|14.9|43.9||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||43.9|14.9|0.0002
82400942|NCT01690299|164510103|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|49.8|||<|0.0001|TWO_SIDED|95.0|36.9|62.7||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||62.7|36.9|<0.0001
82400943|NCT01690299|164510104|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-4.48|||<|0.0001|TWO_SIDED|95.0|-6.82|-2.14|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-2.14|-6.82|<0.0001
82400944|NCT01690299|164510104|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-3.94||||0.0004|TWO_SIDED|95.0|-6.27|-1.6|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||-1.60|-6.27|0.0004
82400945|NCT01690299|164510105|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|0.93||||0.7112|TWO_SIDED|95.0|-2.05|3.9|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||3.90|-2.05|0.7112
82530460|NCT06173570|164757385|SUPERIORITY||Mean Difference (Net)|-2.79||||0.146|TWO_SIDED|95.0|-6.56|0.98|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||0.98|-6.56|0.146
82400946|NCT01690299|164510105|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|2.22||||0.1719|TWO_SIDED|95.0|-0.75|5.19|||ANCOVA|Based on ANCOVA model with treatment and screening BMI category as factors and baseline value as a covariate.||||5.19|-0.75|0.1719
82530461|NCT06173570|164757385|SUPERIORITY||Mean Difference (Net)|-1.21||||0.53|TWO_SIDED|95.0|-4.98|2.56|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.56|-4.98|0.530
82400947|NCT01690299|164510106|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.1||||0.0011|TWO_SIDED|95.0|7.6|28.6||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||28.6|7.6|0.0011
82400948|NCT01690299|164510106|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|16.7||||0.0021|TWO_SIDED|95.0|6.5|26.9||The two-sided p-value is from a CMH test stratified by the BMI at screening.|Cochran-Mantel-Haenszel||The confidence interval (CI) is weighted using CMH weights according to the number of participants in the two strata.|||26.9|6.5|0.0021
82400949|NCT04676724|164510149|OTHER||Difference in SVR Rate|-3.0|||||TWO_SIDED|95.0|-29.0|11.0|||||The point estimate of SVR and its 95% highest posterior density Credible Interval (CI) are estimated from a Bayesian model that incorporates the analysis stratification factors and treatment arm.|||11|-29|
82400950|NCT01515696|164510150|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.61
82400951|NCT01515696|164510151|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.5||||0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82400952|NCT01515696|164510152|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82400953|NCT01151345|164510178|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|88.65|||||TWO_SIDED|90.0|81.23|96.75||||||Natural-log transformed AUC (0-t) was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||96.75|81.23|
82400954|NCT01151345|164510179|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|91.26|||||TWO_SIDED|90.0|83.83|99.34||||||Natural-log transformed AUC (0-∞) was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||99.34|83.83|
82400955|NCT01151345|164510180|SUPERIORITY_OR_OTHER||Adjusted geometric means ratio|83.25|||||TWO_SIDED|90.0|67.08|103.31||||||Natural-log transformed Cmax was analyzed using a mixed effect model with sequence, period, and treatment as fixed effects and participant within sequence as a random effect.||103.31|67.08|
82400956|NCT03883477|164510226|OTHER|The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||||0.013||||||1 week P-value|Wilcoxon (Mann-Whitney)|||||||0.013
82400957|NCT03883477|164510226|OTHER|||||||0.007||||||1 month P-value|Wilcoxon (Mann-Whitney)|||The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||0.007
82400958|NCT03883477|164510226|OTHER|||||||0.804||||||6 month P-value|Wilcoxon (Mann-Whitney)|||The trial was powered to detect a difference in POSAS score of 10, deemed to be clinically significant by the investigators. To detect a mean difference in POSAS score of 10 points (SD = 8) with a two-sided significance level of 5% and power of 80% with equal allocation to two arms required 12 patients in each arm of the trial.||||0.804
82445512|NCT03268941|164599413|OTHER||LS Mean Difference|7.76|STANDARD_ERROR_OF_MEAN|14.648||0.599|TWO_SIDED|95.0|-21.89|37.41||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||37.41|-21.89|0.599
82445513|NCT03268941|164599413|OTHER||LS Mean Difference|6.28|STANDARD_ERROR_OF_MEAN|15.469||0.687|TWO_SIDED|95.0|-25.04|37.59||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||37.59|-25.04|0.687
82445514|NCT03268941|164599413|OTHER||LS Mean Difference|8.05|STANDARD_ERROR_OF_MEAN|15.45||0.605|TWO_SIDED|95.0|-23.22|39.33||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 7 in Part 1.||39.33|-23.22|0.605
82445515|NCT03268941|164599414|OTHER||LS Mean Difference|7.56|STANDARD_ERROR_OF_MEAN|11.708||0.522|TWO_SIDED|95.0|-16.06|31.19||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||31.19|-16.06|0.522
82445516|NCT03268941|164599414|OTHER||LS Mean Difference|12.92|STANDARD_ERROR_OF_MEAN|12.143||0.293|TWO_SIDED|95.0|-11.58|37.43||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||37.43|-11.58|0.293
82445517|NCT03268941|164599414|OTHER||LS Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|11.654||0.551|TWO_SIDED|95.0|-16.52|30.52||P-value was obtained by ANCOVA model with treatment and underlying disease (DG/IG) condition as fixed factors and baseline score as covariate.|ANCOVA|||Change from Baseline in GEBT gastric half-emptying time on Day 1 in Part 1.||30.52|-16.52|0.551
82445518|NCT03268941|164599415|OTHER||Hodges-Lehmann Estimate of Median Diff|-18.14||||0.274|TWO_SIDED|95.0|-307.58|13.56||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE time measured by the SmartPill on Day 7 in Part 1.||13.56|-307.58|0.274
82530462|NCT06173570|164757385|SUPERIORITY||Mean Difference (Net)|-0.85||||0.654|TWO_SIDED|95.0|-4.56|2.87|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||2.87|-4.56|0.654
82400959|NCT03883477|164510227|OTHER|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||||||0.142
82400960|NCT03883477|164510228|OTHER|||||||0.561|||||||Wilcoxon (Mann-Whitney)|||||||0.561
82400961|NCT03883477|164510229|OTHER|||||||0.748|||||||Wilcoxon (Mann-Whitney)|||||||0.748
82445519|NCT03268941|164599415|OTHER||Hodges-Lehmann Estimate of Median Diff|-26.95||||0.481|TWO_SIDED|95.0|-229.73|530.49||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE time measured by the SmartPill on Day 7 in Part 1.||530.49|-229.73|0.481
82400962|NCT03883477|164510230|OTHER|||||||0.184|||||||Wilcoxon (Mann-Whitney)|||||||0.184
82400963|NCT03883477|164510231|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
82400964|NCT03883477|164510232|OTHER|||||||0.382|||||||Chi-squared|||||||0.382
82445520|NCT03268941|164599415|OTHER||Hodges-Lehmann Estimate of Median Diff|-24.49||||0.382|TWO_SIDED|95.0|-225.87|98.91||P-value was obtained with pairwise Wilcoxon Rank Sum tests.|Wilcoxon Rank Sum tests|||Percent Change in GE on time measured by the SmartPill Day 7 in Part 1.||98.91|-225.87|0.382
82445521|NCT01216683|164599420|SUPERIORITY|||||||0.02||||||one-sided p-value|Cochran-Mantel-Haenszel|||The study was designed to detect a 16% difference in CR rate from 50% in the Bendamustine + Rituximab arms to 66% in the Bendamustine + Rituximab + Bortezomib arm, with 90% power at the one-sided alpha 0.15 level.||||0.02
82445522|NCT01216683|164599421|SUPERIORITY|||||||0.02|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified on Groupe d'Etude des Lymphomes Folliculaires status and Follicular Lymphoma International Prognostic Index||||||0.02
82530463|NCT06173570|164757385|SUPERIORITY||Mean Difference (Net)|1.26||||0.509|TWO_SIDED|95.0|-2.48|5.0|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||5.00|-2.48|0.509
82530464|NCT06173570|164757386|SUPERIORITY||Mean Difference (Net)|-27.0|||<|0.001|TWO_SIDED|95.0|-33.08|-20.93|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-20.93|-33.08|< 0.001
82530465|NCT06173570|164757386|SUPERIORITY||Mean Difference (Net)|-28.31|||<|0.001|TWO_SIDED|95.0|-34.42|-22.2|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-22.20|-34.42|< 0.001
82530466|NCT06173570|164757386|SUPERIORITY||Mean Difference (Net)|-37.25|||<|0.001|TWO_SIDED|95.0|-43.27|-31.23|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-31.23|-43.27|< 0.001
82530467|NCT06173570|164757386|SUPERIORITY||Mean Difference (Net)|-39.87|||<|0.001|TWO_SIDED|95.0|-45.92|-33.83|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing Week 12 values handled by the MMRM under MAR.||-33.83|-45.92|< 0.001
82400965|NCT01129804|164510233|SUPERIORITY|Longitudinal Linear mixed modeling|Slope|0.1|||<|0.04|TWO_SIDED|||||Tested the null hypothesis that slopes of PDA over time would not differ between treatment conditions, as indicated by the significance of the Treatment main effect and Treatment X Time interaction effect, at the level of p \< .05.|Mixed Models Analysis||||Multilevel longitudinal modeling (MLM) with random effects and maximum likelihood estimation (Proc MIXED; SAS Institute, 1999) was used to evaluate the effects of treatment over time for each of the continuously scaled outcome variables described above. The MLM approach was used because it employs maximum likelihood estimation of covariance matrices rather than raw data, allowing us to take advantage of all data collected for anyone randomized to treatment. Each repeated dependent variable was analyzed as a unction of treatment condition, time since intake (in months), and the interaction of treatment condition by time.|||<.04
82530468|NCT06173570|164757387|SUPERIORITY||Mean Difference (Net)|-19.96|||<|0.001|TWO_SIDED|95.0|-25.09|-14.84|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-14.84|-25.09|< 0.001
82530469|NCT06173570|164757387|SUPERIORITY||Mean Difference (Net)|-21.54|||<|0.001|TWO_SIDED|95.0|-26.73|-16.35|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-16.35|-26.73|< 0.001
82530470|NCT06173570|164757387|SUPERIORITY||Mean Difference (Net)|-26.27|||<|0.001|TWO_SIDED|95.0|-31.37|-21.18|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-21.18|-31.37|< 0.001
82530471|NCT06173570|164757387|SUPERIORITY||Mean Difference (Net)|-28.64|||<|0.001|TWO_SIDED|95.0|-33.8|-23.48|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-23.48|-33.80|< 0.001
82400966|NCT03658642|164510240|SUPERIORITY||Odds Ratio (OR)|1.22||||0.58|TWO_SIDED|95.0|0.61|2.43|||GEE|Obtained from a GEE model accounting for clustering by site and multiple covariates.||||2.43|0.61|0.58
82400967|NCT03658642|164510241|SUPERIORITY||Odds Ratio (OR)|1.03||||0.95|TWO_SIDED|95.0|0.43|2.47|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.47|0.43|0.95
82400968|NCT03658642|164510243|SUPERIORITY||Odds Ratio (OR)|1.55||||0.01|TWO_SIDED|95.0|1.11|2.16|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.16|1.11|0.01
82400969|NCT03658642|164510244|SUPERIORITY||Odds Ratio (OR)|1.13||||0.48|TWO_SIDED|95.0|0.91|1.57|||GEE|Obtained from a GEE model accounting for clustering by site.||||1.57|0.91|0.48
82400970|NCT03658642|164510245|SUPERIORITY||Odds Ratio (OR)|1.32||||0.27|TWO_SIDED|95.0|0.81|2.14|||GEE|Obtained from a GEE model accounting for clustering by site.||||2.14|0.81|0.27
82400971|NCT03124537|164510366|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health||Tested whether weekly steps increased from the baseline week in both conditions (main effect of time).||||< .001
82400972|NCT03124537|164510366|SUPERIORITY|||||||0.846||||||Controlling for age, sex, education, and health.|Mixed Models Analysis|||Tested whether weekly step increases from the baseline week differed between the two conditions (time by condition interaction).||||.846
82400973|NCT03124537|164510367|SUPERIORITY|||||||0.571||||||Controlling for age, sex, condition, education, and health.|Mixed Models Analysis|||Tested whether exercise self-efficacy increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.571
82400974|NCT03124537|164510367|SUPERIORITY|||||||0.361|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether exercise self efficacy increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.361
82400975|NCT03124537|164510368|SUPERIORITY|||||||0.564|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether exercise control increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.564
82400976|NCT03124537|164510368|SUPERIORITY|||||||0.641|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether exercise control belief increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.641
82530472|NCT06173570|164757388|SUPERIORITY||Mean Difference (Net)|-2.31||||0.292|TWO_SIDED|95.0|-6.62|1.99|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||1.99|-6.62|0.292
82400977|NCT03124537|164510370|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, health, and average steps.||Tested whether daily walking was related to mood within-persons.||||< .001
82400978|NCT03124537|164510370|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|Controlling for age, condition, education, health, and average steps.||Tested whether daily walking was related to energy within-persons.||||.003
82400979|NCT03124537|164510370|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, health, and average steps.||Tested whether the relationship between daily walking and mood differed between males and females (steps by sex interaction).||||< .001
82400980|NCT03124537|164510370|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Controlling for age, condition, education, health, and average steps.||Tested whether the relationship between daily walking and energy differed between males and females (steps by sex interaction).||||< .001
82400981|NCT03124537|164510371|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported vigorous physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.011
82400982|NCT03124537|164510371|SUPERIORITY|||||||0.232|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported vigorous physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.232
82400983|NCT03124537|164510372|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported moderate physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.530
82400984|NCT03124537|164510372|SUPERIORITY|||||||0.831|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported moderate physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.831
82400985|NCT03124537|164510373|SUPERIORITY|||||||0.199|||||||Mixed Models Analysis|Controlling for age, sex, condition, education, and health.||Tested whether self-reported light physical activity increased from the baseline week to the end of the intervention in both conditions (main effect of time).||||.199
82400986|NCT03124537|164510373|SUPERIORITY|||||||0.203|||||||Mixed Models Analysis|Controlling for age, sex, education, and health.||Tested whether self-reported light physical activity increases from the baseline to the end of the intervention differed between the two conditions (time by condition interaction).||||.203
82400987|NCT01124370|164510379|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The test was conducted using a 0.05 level of significance.|t-test, 2 sided|||The null hypothesis was that there would be no change in AHI from baseline.||||<.001
82400988|NCT03268005|164510427|NON_INFERIORITY|The upper limit of the 95% confidence interval for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4% non-inferiority was considered established and effect demonstrated.|Treatment difference|-0.04||||0.31|TWO_SIDED|95.0|-0.11|0.03|||ANOVA||Faster aspart-NovoRapid|Change from baseline in HbA1c was analysed using an analysis of variance model after multiple imputation assuming treatment according to randomisation. The model included treatment, region and metformin use at baseline (Yes/No) as factors, and baseline HbA1c as a covariate.||0.03|-0.11|0.310
82400989|NCT00492232|164510479|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.71||||0.484||95.0|0.27|1.85||Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using the logistic regression analysis adjusted for effects of treatment and pooled center.||||1.85|0.27|0.484
82400990|NCT00492232|164510480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.946||95.0|-6.23|5.81||P-values are from t-tests of the analysis of covariance (ANCOVA) model for the difference in least squares (LS) means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||5.81|-6.23|0.946
82400991|NCT00492232|164510481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.901||95.0|-5.31|6.03||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||6.03|-5.31|0.901
82400992|NCT00492232|164510482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.538||95.0|-4.32|8.23||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||8.23|-4.32|0.538
82400993|NCT00492232|164510483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.517||95.0|-9.09|4.6||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||4.60|-9.09|0.517
82645764|NCT00563524|165006891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4909|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4909
82400994|NCT00492232|164510484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.965||95.0|-6.28|6.56||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg) and pooled center as covariates.||||6.56|-6.28|0.965
82400995|NCT00492232|164510485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.617||95.0|-0.27|0.45||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||0.45|-0.27|0.617
82400996|NCT00492232|164510486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.541||95.0|-0.39|0.74||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||0.74|-0.39|0.541
82530473|NCT06173570|164757388|SUPERIORITY||Mean Difference (Net)|0.55||||0.802|TWO_SIDED|95.0|-3.76|4.86|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.86|-3.76|0.802
82400997|NCT00492232|164510487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.163||95.0|-0.23|1.33||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.33|-0.23|0.163
82400998|NCT00492232|164510488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.757||95.0|-0.79|1.08||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.08|-0.79|0.757
82400999|NCT00492232|164510489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.82||95.0|-0.93|1.17||P-values are from t-tests of the ANCOVA model for the difference in LS means between treatments. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with baseline zolpidem dosage (≤10 mg vs \>10 mg), baseline zolpidem frequency, and pooled center as covariates.||||1.17|-0.93|0.820
82401000|NCT00492232|164510491|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.01||||0.284||95.0|0.55|7.34||P-values are from Chi-square tests of the log-regression model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using logistic regression analysis adjusted for effects of baseline zolpidem dosage (≤10 mg vs \>10 mg).||||7.34|0.55|0.284
82401001|NCT00492232|164510492|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.42||||0.389||95.0|0.64|3.13||P-values are from Chi-square tests of the log-regression model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|Regression, Logistic|Log odds of achieving response were estimated using logistic regression analysis adjusted for effects of baseline zolpidem dosage (≤10 mg vs \>10 mg).||||3.13|0.64|0.389
82401002|NCT03078127|164510493|SUPERIORITY|||||||0.615||||||ANOVA was performed (with multiple comparisons to compare each intervention to baseline) to assess for difference in MCC with each ACT. The a priori threshold for statistical significance was set to 0.05|ANOVA|||No comparable preliminary data exists on mucociliary clearance (MCC) in response to airway clearance therapy methods (ACTs) for a power calculation. However, prior studies of medication effect on MCC gave a baseline mean change of Ave270 clr of 27.7% (std dev of 15.1%). Thus, the investigators estimated a mean change of 20% for effective ACT with the same estimate for variability (Std Dev of 15.1%). Using a paired 2-tailed test to compare means, 7 subjects were estimated to be needed.||||0.615
82401003|NCT03078127|164510494|SUPERIORITY|||||||0.696||||||ANOVA was performed (with multiple comparisons to compare each intervention to baseline) to assess for difference in MCC with each ACT. The a priori threshold for significance was \< 0.05.|ANOVA|||||||0.696
82401004|NCT03078127|164510496|SUPERIORITY|||||||0.001||||||The a priori threshold of statistical significance was p = 0.05|t-test, 2 sided|||The investigators compared FENO before and after ACT in a pooled manner (i.e., grouping each of the comparisons together), as the study was not powered for FENO comparisons within each ACT type.||||0.001
82401005|NCT03078127|164510496|OTHER|A linear regression was performed between change in FENO and Ave90Clr||||||0.692||||||The a priori threshold for statistical significance (i.e., slope different than zero) between MCC and FENO was 0.05|Regression, Linear|||if the difference between pre and post-ACT FENO was significant (defined as p\<0.05), it was investigated whether change in FENO correlated with MCC (as represented by Ave90Clr)||||0.692
82401006|NCT03078127|164510497|SUPERIORITY|||||||0.146||||||Non-parametric test used due to lack of data normality. The a prior threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.146
82401007|NCT03078127|164510498|SUPERIORITY|||||||0.041||||||Non-parametric test used due to lack of data normality. The a priori threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.041
82401008|NCT03078127|164510498|OTHER|A linear regression was performed between change in pre and post-ACT adenosine (purine) in EBC and Ave90Clr||||||0.047||||||The a priori threshold of statistical significance was p = 0.05|Regression, Linear|||If the difference between pre and post-ACT adenosine (purine) in EBC was significant (defined as p\<0.05), the correlation between change in adenosine concentration and MCC (as represented by Ave90Clr) was investigated.||||0.047
82401009|NCT03078127|164510499|SUPERIORITY|||||||0.07||||||Non-parametric test used due to lack of data normality. The a priori threshold for statistical significance was \< 0.05|Wilcoxon signed-rank test|||The study was not designed or powered to assess for inter-group differences between the types of ACT, and for analytical purposes, these were pooled, with the analysis being a paired comparison within subjects to pre- to post-ACT.||||0.070
82401010|NCT03597139|164510500|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.1491|TWO_SIDED|95.0|-1.7|10.9|||ANCOVA|||||10.9|-1.7|0.1491
82530474|NCT06173570|164757388|SUPERIORITY||Mean Difference (Net)|-0.94||||0.664|TWO_SIDED|95.0|-5.21|3.32|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.32|-5.21|0.664
82530475|NCT06173570|164757388|SUPERIORITY||Mean Difference (Net)|1.54||||0.481|TWO_SIDED|95.0|-2.74|5.82|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.82|-2.74|0.481
82645765|NCT00563524|165006891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.2200
82530476|NCT06173570|164757389|SUPERIORITY||Mean Difference (Net)|-6.23||||0.278|TWO_SIDED|95.0|-17.5|5.03|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.03|-17.50|0.278
82375787|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Week 52 (LOCF) Treatment Comparison||||0.064
82401011|NCT03597139|164510501|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.1187|TWO_SIDED|95.0|-1.6|13.9|||ANCOVA|||||13.9|-1.6|0.1187
82401012|NCT03597139|164510502|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.2128|TWO_SIDED|95.0|-3.7|16.5|||ANCOVA|||||16.5|-3.7|0.2128
82401013|NCT03597139|164510503|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.8408|TWO_SIDED|95.0|-11.8|9.6|||ANCOVA|||||9.6|-11.8|0.8408
82401014|NCT03597139|164510504|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.5356|TWO_SIDED|95.0|-6.1|11.6|||ANCOVA|||||11.6|-6.1|0.5356
82530477|NCT06173570|164757389|SUPERIORITY||Mean Difference (Net)|-6.87||||0.234|TWO_SIDED|95.0|-18.19|4.45|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.45|-18.19|0.234
82530478|NCT06173570|164757389|SUPERIORITY||Mean Difference (Net)|-7.32||||0.196|TWO_SIDED|95.0|-18.41|3.78|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.78|-18.41|0.196
82375788|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Highest Value Treatment Comparison||||0.310
82375789|NCT00261443|164457889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model on the rank of the change from baseline, controlling for treatment, mood stabilizer, and the rank of baseline is used for change from baseline.|ANOVA/ANCOVA|||Lowest Value Treatment Comparison||||0.046
82375790|NCT00261443|164457891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.331||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline ALP||||0.331
82375791|NCT00261443|164457891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.353||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in ALP at Week 52 (LOCF)||||0.353
82375792|NCT00261443|164457891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.298||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison ALP Highest Change Value During Phase 3||||0.298
82375793|NCT00261443|164457892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline ALT||||0.111
82375794|NCT00261443|164457892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change in ALT at Week 52 (LOCF)||||0.948
82375795|NCT00261443|164457892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.559||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison ALT Highest Change Value During Phase 3||||0.559
82375796|NCT00261443|164457893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline AST||||0.077
82375797|NCT00261443|164457893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.255||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change in AST at Week 52 (LOCF)||||0.255
82375798|NCT00261443|164457893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.918||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison AST Highest Change Value During Phase 3||||0.918
82375799|NCT00261443|164457894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline BUN||||0.118
82375800|NCT00261443|164457894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in BUN at Week 52 (LOCF)||||0.532
82375801|NCT00261443|164457894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison BUN Highest Value of Change During Phase 3||||0.169
82375802|NCT00261443|164457895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.878||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Total Cholesterol (fasting)||||0.878
82375803|NCT00261443|164457895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.544||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Total Cholesterol (fasting) at Week 52 (LOCF)||||0.544
82375804|NCT00261443|164457895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.658||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Total Cholesterol (fasting) in Phase 3||||0.658
82375805|NCT00261443|164457896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Creatine Kinase||||0.043
82375806|NCT00261443|164457896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from baseline in Creatine Kinase at Week 52 (LOCF)||||0.019
82375807|NCT00261443|164457896|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Creatine Kinase During Phase 3||||0.176
82375808|NCT00261443|164457897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.105||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Creatinine||||0.105
82401015|NCT03597139|164510505|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.1787|TWO_SIDED|95.0|-2.7|14.1|||ANCOVA|||||14.1|-2.7|0.1787
82401016|NCT03597139|164510506|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.7666|TWO_SIDED|95.0|-12.6|9.3|||ANCOVA|||||9.3|-12.6|0.7666
82401017|NCT03597139|164510507|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.8082|TWO_SIDED|95.0|-10.7|8.4|||ANCOVA|||||8.4|-10.7|0.8082
82401018|NCT03597139|164510508|SUPERIORITY||Mean Difference (Final Values)|11.6||||0.6362|TWO_SIDED|95.0|-37.0|60.3|||ANCOVA|||||60.3|-37|0.6362
82401019|NCT03597139|164510509|SUPERIORITY||Mean Difference (Final Values)|9.6||||0.0961|TWO_SIDED|95.0|-1.7|20.9||Frequency|ANCOVA|||Frequency||20.9|-1.7|0.0961
82530479|NCT06173570|164757389|SUPERIORITY||Mean Difference (Net)|-9.87||||0.086|TWO_SIDED|95.0|-21.14|1.41|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||1.41|-21.14|0.086
82530480|NCT06173570|164757390|SUPERIORITY||Mean Difference (Net)|-28.99|||<|0.001|TWO_SIDED|95.0|-37.16|-20.81|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-20.81|-37.16|<0.001
82401020|NCT03597139|164510509|SUPERIORITY||Mean Difference (Final Values)|7.7||||0.1722|TWO_SIDED|95.0|-3.4|18.7|||ANCOVA|||Severity||18.7|-3.4|0.1722
82401021|NCT03597139|164510510|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.0051|TWO_SIDED|95.0|1.6|8.9||Left Eye|ANCOVA|||Left Eye||8.9|1.6|0.0051
82530481|NCT06173570|164757390|SUPERIORITY||Mean Difference (Net)|-32.28|||<|0.001|TWO_SIDED|95.0|-40.54|-24.02|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-24.02|-40.54|<0.001
82401022|NCT03597139|164510510|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.0104|TWO_SIDED|95.0|1.1|8.4||Right Eye|ANCOVA|||Right Eye||8.4|1.1|0.0104
82401023|NCT03597139|164510511|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.0003|TWO_SIDED|95.0|-3.2|-1.0||Left Eye|ANCOVA||Add in RE LE info|Left Eye||-1.0|-3.2|0.0003
82401024|NCT03597139|164510511|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.0038|TWO_SIDED|95.0|-2.6|-0.5||Right Eye|ANCOVA|||Right Eye||-0.5|-2.6|0.0038
82401025|NCT00398216|164510512|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
82401026|NCT00398216|164510512|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82401027|NCT00398216|164510512|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82401028|NCT00398216|164510512|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82401029|NCT00398216|164510515|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Fisher Exact|||||||.250
82645766|NCT00563524|165006891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4183|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4183
82401030|NCT00398216|164510515|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||Fisher Exact|||||||.122
82401031|NCT00398216|164510515|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED||||||Fisher Exact|||||||.124
82401032|NCT00398216|164510515|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||Fisher Exact|||||||.123
82401033|NCT00802672|164510516|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the primary efficacy analysis, a 90% confidence interval was constructed for the difference in the Therapeutic Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Therapeutic equivalence (bioequivalence) was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-0.20% to +0.20%)|Mean Difference (Final Values)|1.0|||||TWO_SIDED|90.0|-17.61|2.45|||Wald's method with Yates' continuity|||||2.45|-17.61|
82401034|NCT02579382|164510519|SUPERIORITY||Least Squares Mean Difference|0.107||||0.227|TWO_SIDED|95.0|-0.067|0.282||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.282|-0.067|0.227
82401035|NCT02579382|164510519|SUPERIORITY||Least Squares Mean Difference|0.018||||0.84|TWO_SIDED|95.0|-0.156|0.191||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.191|-0.156|0.840
82401036|NCT02579382|164510519|SUPERIORITY||Least Squares Mean Difference|0.127||||0.151|TWO_SIDED|95.0|-0.047|0.301||MMRM model included treatment, baseline ALT level, HBeAg baseline status, baseline HBsAg, visit and treatment-by-visit interaction as fixed effect and visit as repeated measurement.|MMRM|||||0.301|-0.047|0.151
82401037|NCT04560868|164510558|EQUIVALENCE|The point null hypothesis was a difference in expected number of log ins of exactly 0.|Mean Difference (Final Values)|12.73|||<|0.01|TWO_SIDED|95.0|6.41|19.05|||Regression, Linear||mean difference=experimental-control|Based on a priori power calculations we had 80% power to detect an average increase of 3.8 log ins in the experimental relative to the control arm.||19.05|6.41|<0.01
82401038|NCT04560868|164510559|EQUIVALENCE|The null hypothesis was a point null of relative risk equal to exactly 1.|Risk Ratio (RR)|1.01||||0.98|TWO_SIDED|95.0|0.55|1.85|||Regression, Poisson||relative risk=experimental/control|Based on a priori power calculations, we had 80% power to detect a 33% - 35% increase in the proportion of experimental participants who successfully quit smoking for at least 24 hours relative to controls.||1.85|0.55|0.98
82401039|NCT04560868|164510560|EQUIVALENCE|The null hypothesis was a point null of exactly 0 risk difference between arms.|Risk Difference (RD)|0.08||||0.35|TWO_SIDED|95.0|-0.08|0.24|||Regression, Linear||Risk difference = experimental - control.|Based on a priori power calculations, we had 80% power to detect a 28% - 33% increase in 7-day smoking abstinence in the experimental arm relative to the control arm at 3 months.||0.24|-0.08|0.35
82401040|NCT04560868|164510561|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|0.26||||0.4|TWO_SIDED|95.0|-0.35|0.87|||Regression, Linear||mean difference=experimental-control|||0.87|-0.35|0.40
82401041|NCT04560868|164510562|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|-0.04||||0.9|TWO_SIDED|95.0|-0.68|0.6|||Regression, Linear||mean difference=experimental-control|||0.60|-0.68|0.90
82401042|NCT04560868|164510563|EQUIVALENCE|The tested hypothesis was a point null of 0 difference in expected average helpfulness score between arms.|Mean Difference (Final Values)|0.4||||0.39|TWO_SIDED|95.0|-0.5|1.4|||Regression, Linear||mean difference=experimental-control|||1.4|-0.5|0.39
82401043|NCT04560868|164510564|EQUIVALENCE|The tested hypothesis was for a point null of 0 difference in expected average helpfulness score between arms.|Mean Difference (Final Values)|0.6||||0.11|TWO_SIDED|95.0|-0.1|1.3|||Regression, Linear||mean difference=experimental-control|||1.3|-0.1|0.11
82401044|NCT04560868|164510566|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected number of badges earned in each arm by 3 months post-baseline.|Mean Difference (Final Values)|4.2|||<|0.01|TWO_SIDED|95.0|1.72|6.65|||Regression, Linear||mean difference=experimental-control|||6.65|1.72|<0.01
82645767|NCT00563524|165006891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.465|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.4650
82401045|NCT04560868|164510567|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected score between arms.|Mean Difference (Final Values)|0.08||||0.96|TWO_SIDED|95.0|-1.02|1.18|||Regression, Linear||mean difference=experimental-control|||1.18|-1.02|0.96
82645768|NCT00563524|165006892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7051|||||||ANCOVA|||Baseline: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.7051
82401046|NCT04560868|164510568|EQUIVALENCE|The null hypothesis was a point null hypothesis of exactly 0 difference in expected score between the arms.|Mean Difference (Final Values)|-0.44||||0.31|TWO_SIDED|95.0|-1.55|0.66|||Regression, Linear||mean difference=experimental-control|||0.66|-1.55|0.31
82401047|NCT04560868|164510572|EQUIVALENCE|The point null hypothesis was of the exact same proportion of control and experimental subjects requesting NRT.|Risk Ratio (RR)|3.9||||0.06|TWO_SIDED|95.0|0.9|16.9|||Regression, Poisson||RR=experimental/control|||16.9|0.9|0.06
82401048|NCT04560868|164510573|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in probability of the outcome between arms.|Risk Ratio (RR)|1.01||||0.99|TWO_SIDED|95.0|0.38|2.65|||Regression, Poisson||risk ratio=experimental/control|||2.65|0.38|0.99
82401049|NCT04560868|164510574|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected change from baseline in number of cigarettes smoked per day between arms.|Mean Difference (Net)|1.39||||0.3|TWO_SIDED|95.0|-1.21|3.99|||Regression, Linear||treatment difference=experimental-control, where the outcome for each individual is (one month)-baseline.|||3.99|-1.21|0.30
82401050|NCT04560868|164510575|EQUIVALENCE|The null hypothesis was a point null of exactly 0 difference in expected change in daily cigarette usage between arms.|Mean Difference (Net)|1.5||||0.47|TWO_SIDED|95.0|-2.51|5.5|||Regression, Linear||treatment effect=experimental-control, where the outcome for each individual is (three month)-baseline.|||5.5|-2.51|0.47
82401051|NCT04560868|164510576|EQUIVALENCE|The null hypothesis was risk difference of exactly 0.|Risk Difference (RD)|0.04||||0.3|TWO_SIDED|95.0|-0.03|0.11|||Regression, Linear||risk difference=experimental-control|||0.11|-0.03|0.30
82401052|NCT01490840|164510656|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 90 in each group would have 80% power to detect a difference in means of 3.8, assuming that the common standard deviation is 9.05, using a two group t-test with a 0.05 2-sided significance level.|Mean Difference (Net)|-1.47||||0.4579|TWO_SIDED|95.0|-5.39|2.44|||ANCOVA|||||2.44|-5.39|0.4579
82401053|NCT00905567|164510679|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|93.01||||||90.0|||||||Bioequivalence is established when Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
82401054|NCT00905567|164510680|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|96.62||||||90.0|||||||Bioequivalence is established when the Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
82401055|NCT00905567|164510681|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA's guidleines.|Ratio of the Least Squares Mean|96.43||||||90.0|||||||Bioequivalence is established when the Ratio of the Least Squares Mean (test/reference x 100) falls within 80-125.|||||
82401056|NCT02542397|164510682|SUPERIORITY|"It has been reported that, based on the Edmonton Symptom Assessment Scale (ESAS) pain scale, about 30% of cancer patients receiving standard of care pain management experienced \>= 2-point improvement in pain score between visits \[Ref\].~Ref: Scharpf, J., et al., The role of pain in head and neck cancer recurrence and survivorship. Arch Otolaryngol Head Neck Surg, 2009. 135(8): p. 789-94."|Exact binomial proportion|0.5556|||<|0.0001|TWO_SIDED|95.0|0.414|0.6908||The a priori threshold for statistical significance was alpha = 0.10.|Exact binomial test of proportions|||A single-stage design was used to test the hypothesis that the pain improvement rate, assessed by the Edmonton Symptom Assessment Scale, is \<= 0.30. Our study targeted enrollment of 71 evaluable subjects for the final analysis; 54 subjects met the criteria at study closure. Assuming a one-sided alpha=0.10 significance level, 71 evaluable subjects would provide approximately 90% power to reject the null hypothesis (based on an exact binomial test) assuming the true pain improvement rate is 0.45.||.6908|.4140|<0.0001
82401057|NCT02362191|164510688|OTHER|||||||0.758||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.758
82401058|NCT02362191|164510689|OTHER|||||||0.4||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.40
82645769|NCT00563524|165006892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1072|||||||ANCOVA|||Day 14: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.1072
82645770|NCT00563524|165006892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||Day 28: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0020
82645771|NCT00563524|165006892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0079|||||||ANCOVA|||Day 42: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0079
82645772|NCT00563524|165006892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0308|||||||ANCOVA|||Day 56: ANCOVA with pre-dose as the baseline covariate and treatment as a factor was used for the analysis.||||0.0308
82445523|NCT00344500|164599447|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Predicted trajectory of mean weight change between matched UC and LB subjects over 12 months (treatment\*time interaction: F(1,1275)=68.75, p\<.01).||General Linear Mixed Model (GLMM) used to illustrate the magnitude of difference between slopes for major outcomes for two hypothetical participants with identical baseline characteristics over 12 months.||||<0.01
82445524|NCT02252965|164599452|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of this efficacy outcome measure is -0.4%.|Least Squares (LS) Mean Difference|0.03|||||TWO_SIDED|95.0|-0.1|0.17||||||||0.17|-0.10|
82445525|NCT02252965|164599453|SUPERIORITY_OR_OTHER||Percentage difference|-1.52||||0.674|TWO_SIDED|95.0|-8.6|5.56|||Mantel Haenszel|||||5.56|-8.60|0.674
82445526|NCT04051827|164599489|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|1.03|||||TWO_SIDED|90.0|0.739|1.42|||||The geometric mean ratio (GMR) of midazolam Cmax on Day 24 (with mobocertinib) versus on Day 1 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam Cmax (in the presence vs absence of mobocertinib) and the associated 2-sided 90 percent (%) confidence intervals (CIs) were calculated on the basis of the within-patient variance using a mixed-effects analysis of variance (ANOVA) model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.42|0.739|
82445527|NCT04051827|164599490|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|0.676|||||TWO_SIDED|90.0|0.532|0.859|||||The GMR of midazolam AUC∞ on Day 24 (with mobocertinib) versus on Day 1 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam AUC∞ (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||0.859|0.532|
82445528|NCT04051827|164599491|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|1.3|||||TWO_SIDED|90.0|0.886|1.92|||||The GMR of midazolam Cmax on Day 25 (with mobocertinib) versus on Day 2 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam Cmax (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.92|0.886|
82445529|NCT04051827|164599492|OTHER|Geometric Mean Ratio|Geometric Mean Ratio (GMR)|0.837|||||TWO_SIDED|90.0|0.673|1.04|||||The GMR of midazolam AUC∞ on Day 25 (with mobocertinib) versus on Day 2 (without mobocertinib) were calculated.|The ratios of geometric mean midazolam AUC∞ (in the presence vs absence of mobocertinib) and the associated 2-sided 90% CIs were calculated on the basis of the within-patient variance using a mixed-effects ANOVA model fitting terms for treatment (midazolam in the absence and presence of mobocertinib).||1.04|0.673|
82445530|NCT02888743|164599498|SUPERIORITY||Difference between proportions|0.0||||0.99|TWO_SIDED|90.0|-14.6|14.6|||Chi-squared||Arm A compared with Arm C; normal approximation for confidence interval|||14.6|-14.6|0.99
82445531|NCT02888743|164599498|SUPERIORITY||Difference between proportions|-3.8||||0.64|TWO_SIDED|90.0|-17.3|9.6|||Chi-squared||Arm B compared with Arm C; normal approximation used for confidence interval.|||9.6|-17.3|0.64
82445532|NCT02888743|164599499|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.92|TWO_SIDED|90.0|0.6|1.58|||Regression, Cox|||||1.58|0.60|0.92
82530482|NCT06173570|164757390|SUPERIORITY||Mean Difference (Net)|-37.63|||<|0.001|TWO_SIDED|95.0|-45.82|-29.44|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-29.44|-45.82|<0.001
82645773|NCT02320838|165006919|OTHER||||||<|0.001||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||<0.001
82645774|NCT02320838|165006920|OTHER|||||||0.04||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.04
82530483|NCT06173570|164757390|SUPERIORITY||Mean Difference (Net)|-44.21|||<|0.001|TWO_SIDED|95.0|-52.47|-35.94|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-35.94|-52.47|<0.001
82530484|NCT06173570|164757391|SUPERIORITY||Mean Difference (Net)|-5.93||||0.275|TWO_SIDED|95.0|-16.57|4.71|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.71|-16.57|0.275
82445533|NCT02888743|164599499|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.55|TWO_SIDED|90.0|0.5|1.38|||Regression, Cox|||||1.38|0.50|0.55
82445534|NCT02888743|164599500|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.24|TWO_SIDED|90.0|0.3|1.22|||Regression, Cox|||||1.22|0.30|0.24
82445535|NCT02888743|164599500|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.44|TWO_SIDED|90.0|0.36|1.45|||Regression, Cox|||||1.45|0.36|0.44
82445536|NCT02888743|164599504|SUPERIORITY|||||||0.68||||||Unadjusted p-value.|Wilcoxon (Mann-Whitney)|||||||0.68
82445537|NCT01424566|164599505|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9173|TWO_SIDED|95.0|-0.42|0.38|||ANCOVA|||||0.38|-0.42|0.9173
82445538|NCT02809053|164599565|OTHER|The 95%CI (confidence interval) for the difference in the overall response rate (ORR) was calculated using the Newcombe-Wilson method based on CMH (Cochran-Mantel-Haenszel) weight with stratification factor FLIPI-2 (low, intermediate and high risk).|Adjusted Difference Rate (%)|-4.2|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-14.8|6.35|||||Comparison: SAIT101 versus MabThera.|Adjusted Difference Rate (%) in Overall Response Rate (ORR) of SAIT101 versus MabThera at Week 28.||6.35|-14.80|
82645775|NCT02320838|165006921|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
82645776|NCT02320838|165006922|OTHER|||||||0.001||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.001
82645777|NCT02320838|165006923|OTHER|||||||0.003||||||A priori threshold for statistical significance. p\<0.05|t-test, 2 sided|||||||0.003
82645778|NCT02320838|165006924|OTHER|||||||0.023||||||A priori threshold for statistical significance. p\<0.05|Chi-squared|||||||0.023
82645779|NCT02320838|165006925|OTHER|||||||0.003||||||A priori threshold for statistical significance. p\<0,05|t-test, 2 sided|||||||0.003
82645780|NCT02320838|165006926|OTHER|||||||0.8||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.8
82645781|NCT02320838|165006927|OTHER|||||||0.02||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.02
82530485|NCT06173570|164757391|SUPERIORITY||Mean Difference (Net)|-4.06||||0.451|TWO_SIDED|95.0|-14.63|6.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||6.51|-14.63|0.451
82530486|NCT06173570|164757391|SUPERIORITY||Mean Difference (Net)|-4.97||||0.351|TWO_SIDED|95.0|-15.41|5.47|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.47|-15.41|0.351
82530487|NCT06173570|164757391|SUPERIORITY||Mean Difference (Net)|-6.32||||0.243|TWO_SIDED|95.0|-16.92|4.29|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||4.29|-16.92|0.243
82530488|NCT06173570|164757392|SUPERIORITY||Mean Difference (Net)|-1.3||||0.501|TWO_SIDED|95.0|-5.08|2.48|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||2.48|-5.08|0.501
82530489|NCT06173570|164757392|SUPERIORITY||Mean Difference (Net)|-0.93||||0.634|TWO_SIDED|95.0|-4.74|2.89|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||2.89|-4.74|0.634
82530490|NCT06173570|164757392|SUPERIORITY||Mean Difference (Net)|-0.02||||0.99|TWO_SIDED|95.0|-3.74|3.7|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||3.70|-3.74|0.990
82530491|NCT06173570|164757392|SUPERIORITY||Mean Difference (Net)|1.73||||0.366|TWO_SIDED|95.0|-2.03|5.5|||Mixed Models Analysis||Difference = AZD0780 - Placebo; positive values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||5.50|-2.03|0.366
82645782|NCT02320838|165006928|OTHER|||||||0.4||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.4
82645783|NCT02320838|165006929|OTHER|||||||0.8|||||||ANOVA|||||||0.8
82375809|NCT00261443|164457897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.634||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Creatinine at Week 52 (LOCF)||||0.634
82375810|NCT00261443|164457897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.958||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Creatinine During Phase 3||||0.958
82375811|NCT00261443|164457898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Eosinophils (relative)||||0.507
82375812|NCT00261443|164457898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.834||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Eosinophils (relative) at Week 52 (LOCF)||||0.834
82530492|NCT06173570|164757393|SUPERIORITY||Mean Difference (Net)|-25.79|||<|0.001|TWO_SIDED|95.0|-32.08|-19.51|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-19.51|-32.08|<0.001
82530493|NCT06173570|164757393|SUPERIORITY||Mean Difference (Net)|-26.97|||<|0.001|TWO_SIDED|95.0|-33.33|-20.62|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-20.62|-33.33|<0.001
82530494|NCT06173570|164757393|SUPERIORITY||Mean Difference (Net)|-36.29|||<|0.001|TWO_SIDED|95.0|-42.5|-30.08|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-30.08|-42.50|<0.001
82530495|NCT06173570|164757393|SUPERIORITY||Mean Difference (Net)|-39.3|||<|0.001|TWO_SIDED|95.0|-45.61|-32.99|||Mixed Models Analysis||Difference = AZD0780 - Placebo; negative values favor AZD0780.|MMRM with fixed effects for baseline of the respective parameter, treatment, visit, treatment-by-visit; random intercept for participants. Missing data imputed using multiple imputation approach detailed in SAP Appendix 7.1.||-32.99|-45.61|<0.001
82530496|NCT01844115|164757399|SUPERIORITY||Least Squares Mean Difference|-2.2||||0.0048|TWO_SIDED|95.0|-3.72|-0.68|||MMRM|||||-0.68|-3.72|0.0048
82530497|NCT01844115|164757400|SUPERIORITY||Least Squares Mean Difference|-1.89||||0.0236|TWO_SIDED|95.0|-3.52|-0.26|||MMRM|||||-0.26|-3.52|0.0236
82530498|NCT00545363|164757414|SUPERIORITY_OR_OTHER||||||=|0.8989|||||||ANOVA|||Statistical analysis was done to compare the participant satisfaction between the Biofeedback and No-feedback arms.||||=0.8989
82645784|NCT02320838|165006930|OTHER|||||||1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||1.0
82645785|NCT02320838|165006931|OTHER|||||||0.4||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.4
82645786|NCT02320838|165006932|OTHER|||||||0.1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.1
82645787|NCT02320838|165006933|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
82645788|NCT02320838|165006934|OTHER|||||||0.9||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.9
82645789|NCT02320838|165006935|OTHER|||||||0.5||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.5
82645790|NCT02320838|165006936|OTHER|||||||0.6||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.6
82530499|NCT00545363|164757415|SUPERIORITY_OR_OTHER||||||=|0.453|||||||ANOVA|||Statistical analysis was done to compare the participant perception between the Biofeedback and No-feedback arms.||||=0.453
82530500|NCT00545363|164757416|SUPERIORITY_OR_OTHER||||||=|0.4917|||||||ANOVA|||Statistical analysis was done to compare the effect of adherence (Yes/No) on percent change from baseline in CTX between the Biofeedback and No-feedback arms.||||=0.4917
82530501|NCT00366301|164757417|SUPERIORITY_OR_OTHER||Percent Change in Log CRP|20.0|STANDARD_ERROR_OF_MEAN|10.0|<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Adjusted models included terms for baseline HbA1c and weight and change in weight at each time point.||As hsCRP was measured at both 6 and 14 weeks, linear mixed models conditioning on baseline hsCRP and adjusting for treatment stratum were constructed with the dependent variable being change in lnCRP. The means at each time point were estimated from a repeated-measures model incorporating all 3 time points. The interventions were assessed by fitting terms corresponding to study drug and treatment arm assignment.||||<0.05
82645791|NCT02320838|165006937|OTHER|||||||0.1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.1
82645792|NCT02320838|165006938|OTHER|||||||0.2||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||0.2
82645793|NCT02320838|165006939|OTHER|||||||1||||||A priori threshold for statistical significance. p\<0.05|ANOVA|||||||1.0
82645794|NCT03964220|165006940|OTHER||Hazard Ratio (HR)|0.65||||0.044|TWO_SIDED|95.0|0.427|0.99|||Regression, Cox|||The time to first exacerbation was analysis using Cox Proportional Hazards model with group status as the only independent variable assessing the risk of exacerbation across Tio and NonTio groups.||0.990|0.427|0.044
82645795|NCT03964220|165006941|OTHER||||||<|0.0001|||||||Negative binomial regression|||Analysis for the rate of exacerbation between Tio and NonTio groups within 6 months of follow-up.||||< 0.0001
82645796|NCT03964220|165006941|OTHER||||||<|0.0001|||||||Negative binomial regression|||Analysis for the rate of exacerbation between Tio and NonTio groups within 1 year of follow-up.||||< 0.0001
82645797|NCT00713830|165006990|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.867|-0.621||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 570 patients in lixisenatide arm and 285 in placebo arm would provide a power of 99% (or 98%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.621|-0.867|<0.0001
82375813|NCT00261443|164457898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.511||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Eosinophils (relative) During Phase 3||||0.511
82375814|NCT00261443|164457899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Glucose (fasting)||||0.741
82375815|NCT00261443|164457899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.962||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Glucose (fasting) at Week 52 (LOCF)||||0.962
82375816|NCT00261443|164457899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Change Value in Glucose (fasting) During Phase 3||||0.592
82375817|NCT00261443|164457900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Hemoglobin||||0.080
82375818|NCT00261443|164457900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Hemoglobin at Week 52 (LOCF)||||0.868
82375819|NCT00261443|164457900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Change Value in Hemoglobin During Phase 3||||0.299
82375820|NCT00261443|164457901|SUPERIORITY_OR_OTHER_LEGACY|||||||0.187||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Hematocrit||||0.187
82375821|NCT00261443|164457901|SUPERIORITY_OR_OTHER_LEGACY|||||||0.377||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in Hematocrit During Week 52 (LOCF)||||0.377
82375822|NCT00261443|164457901|SUPERIORITY_OR_OTHER_LEGACY|||||||0.494||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Hematocrit During Phase 3||||0.494
82375823|NCT00261443|164457902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HDL Cholesterol (fasting)||||0.180
82375824|NCT00261443|164457902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HDL Cholesterol (fasting) at Week 52 (LOCF)||||0.950
82375825|NCT00261443|164457902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.342||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in HDL Cholesterol (fasting) During Phase 3||||0.342
82375826|NCT00261443|164457903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HOMA2-Percent Beta||||0.349
82375827|NCT00261443|164457903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.624||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HOMA2-Percent Beta at Week 52 (LOCF)||||0.624
82375828|NCT00261443|164457903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value in HOMA2-Percent Beta During Phase 3||||0.329
82375829|NCT00261443|164457904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline HOMA2-IR||||0.550
82375830|NCT00261443|164457904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.554||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline in HOMA2-IR at Week 52 (LOCF)||||0.554
82375831|NCT00261443|164457904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in HOMA2-IR, Phase 3 Safety Sample||||0.870
82530502|NCT00406419|164757467|SUPERIORITY||Weighted difference|18.5|||<|0.0001|TWO_SIDED|95.0|11.0|25.9|||Cochran-Mantel-Haenszel|||||25.9|11|< 0.0001
82375832|NCT00261443|164457905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Lactate Dehydrogenase||||0.004
82645798|NCT02209272|165007006|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
82645799|NCT02209272|165007007|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
82530503|NCT00406419|164757467|SUPERIORITY||Weighted difference|21.4|||<|0.0001|TWO_SIDED|95.0|14.1|28.8|||Cochran-Mantel-Haenszel|||||28.8|14.1|< 0.0001
82530504|NCT00406419|164757468|SUPERIORITY||Weighted difference|30.8|||<|0.0001|TWO_SIDED|95.0|23.7|37.9|||Cochran-Mantel-Haenszel|||||37.9|23.7|< 0.0001
82375833|NCT00261443|164457905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Lactate Dehydrogenase||||0.034
82375834|NCT00261443|164457905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Lactate Dehydrogenase During Phase 3||||0.091
82375835|NCT00261443|164457906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.808||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline LDL Cholesterol (fasting)||||0.808
82375836|NCT00261443|164457906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.507
82375837|NCT00261443|164457906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.948||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Change Value in LDL Cholesterol (fasting)||||0.948
82375838|NCT00261443|164457907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.967||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Neutrophils (relative)||||0.967
82375839|NCT00261443|164457907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.486||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison in change from Baseline in Neutrophils (relative) at Week 52 (LOCF)||||0.486
82375840|NCT00261443|164457907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.323||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Neutrophils (relative), Phase 3 Safety Sample||||0.323
82375841|NCT00261443|164457908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.663||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline in Platelet Count||||0.663
82375842|NCT00261443|164457908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.322
82375843|NCT00261443|164457908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.358||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Platelet Count, Phase 3 Safety Sample||||0.358
82375844|NCT00261443|164457908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.541||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Platelet Count, Phase 3 Safety Sample||||0.541
82375845|NCT00261443|164457909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.412||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Prolactin||||0.412
82375846|NCT00261443|164457909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline at Week 52 (LOCF)||||<0.001
82375847|NCT00261443|164457909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Prolactin, Phase 3 Safety Sample||||0.004
82375848|NCT00261443|164457910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Total Bilirubin||||0.630
82375849|NCT00261443|164457910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.675
82375850|NCT00261443|164457910|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Total Bilirubin, Phase 3 Safety Sample||||0.592
82375851|NCT00261443|164457911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.273||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Triglycerides (fasting)||||0.273
82375852|NCT00261443|164457911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.489||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.489
82530505|NCT00406419|164757468|SUPERIORITY||Weighted difference|34.5|||<|0.0001|TWO_SIDED|95.0|27.4|41.5|||Cochran-Mantel-Haenszel|||||41.5|27.4|< 0.0001
82530506|NCT02120664|164757506|SUPERIORITY_OR_OTHER||R squared|0.907|||||TWO_SIDED||||||Regression, Linear|||||||
82530507|NCT02120664|164757507|SUPERIORITY_OR_OTHER||Coefficient of Variation|2.53|||||TWO_SIDED|||||||||||||
82530508|NCT02120664|164757507|SUPERIORITY_OR_OTHER||Coefficient of Variation|6.69|||||TWO_SIDED|||||||||||||
82645800|NCT02209272|165007008|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
82645801|NCT02787785|165007009|SUPERIORITY||Cox Proportional Hazard|0.49||||0.354|TWO_SIDED|95.0|0.11|2.2|||Regression, Cox|||||2.20|0.11|0.354
82645802|NCT02787785|165007011|SUPERIORITY||Cox Proportional Hazard|0.37||||0.479|TWO_SIDED|95.0|0.02|5.88|||Regression, Cox|||||5.88|0.02|0.479
82645803|NCT03111407|165007018|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.2342|||||||t-test, 2 sided|||"Hip Knee Angle value 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper)~iAssist group: 179.9 +/-2.9 (44) (171, 185.3)~Conventional group: 178.9 +/-3.9 (26) (167, 185)"||||0.2342
82401059|NCT01473940|164510690|OTHER|||||||||||||P-Value not used||||A 3 + 3 enrollment design was adopted to monitor safety and determine the MTD based on DLTs obsesved. The MTD is the highest dose at which 0 of 3 or 1 of 6 DLTs are detected. The MTD is exceeded if 2 of 3 or 2 of 6 DLTs are detected. There will be no dose escalation within a cohort.|The number of DLTs seen at each cohort were used to determine the MTD for the expansion cohort. The MTD was determined to be Gemcitabine - 1,000 mg/m2, Ipilimumab 3 mg/kg|||
82401060|NCT00547248|164510697|NON_INFERIORITY|Non-inferiority was demonstrated if the difference in terms of incidence of post-immunization febrile reactions (rectal temperature \> 39.0°C) in Synflorix™ vaccine minus Prevenar™ did not exceed the pre-defined clinically acceptable threshold of 5% + half the incidence in Prevenar.|Difference in percentage|0.89|||||TWO_SIDED|95.0|-4.82|5.59|||Philips' statistical test|||||5.59|-4.82|
82401061|NCT00534248|164510725|SUPERIORITY_OR_OTHER||point estimate|0.698|||<|0.001|TWO_SIDED|95.0|0.541|0.806|||Conditional Exact Method||The point estimate was for vaccine efficacy with respect to incidence of HZ.|Vaccine efficacy with respect to HZ was defined as the relative reduction in incidence rate of HZ point estimate (95% CI) calculated as 1 minus the ratio of the estimated incidence rates of HZ in the zoster vaccine group and the placebo group.||.806|.541|<.001
82401062|NCT00534248|164510726|SUPERIORITY_OR_OTHER||geometric mean titre ratio|2.3|||<|0.001|TWO_SIDED|95.0|2.2|2.4|||linear mixed longitudinal analysis model|||||2.4|2.2|<.001
82401063|NCT00534248|164510727|SUPERIORITY_OR_OTHER||Relative Risk|1.133|||||TWO_SIDED|95.0|0.805|1.595||||||Analysis of proportion of participants reporting one or more serious adverse experiences reported within 42 days postvaccination.||1.595|.805|
82401064|NCT00828061|164510767|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.25||||0.002||95.0|0.12|0.54||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.54|0.12|0.002
82401065|NCT00828061|164510767|SUPERIORITY_OR_OTHER||Geometric Mean Fold Difference|0.07|||<|0.001||95.0|0.03|0.15||1-sided, alpha = 0.05|ANOVA|Analysis performed on log-transformed fold change from baseline and results were back-transformed for reporting.||||0.15|0.03|<0.001
82401066|NCT00828061|164510768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.537||95.0|-15.48|17.26||1-sided, alpha = 0.05|ANOVA|||||17.26|-15.48|0.537
82401067|NCT00909220|164510775|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.06||0.05|TWO_SIDED|95.0|0.27|0.49|||ANCOVA|||ANCOVA comparing groups (HEA v MDD), controlling for baseline depression (IDS-C score at week 0) to estimate depression at the end of treatment (IDS-C score at week 16).||0.49|0.27|0.05
82401068|NCT00909220|164510776|SUPERIORITY|ANCOVA|Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|95.0|0.31|0.59|||ANCOVA|||ANCOVA comparing groups (HEA v MDD), controlling for baseline depression (IDS-SR score at week 0) to estimate depression at the end of treatment (IDS-SR score at week 16).||0.59|0.31|<0.05
82401069|NCT00909220|164510777|OTHER|Multiple regression analyses|beta|0.43|STANDARD_ERROR_OF_MEAN|6.75||0.02|TWO_SIDED|||||p \<0.05 a priori threshold for statistical significance.|Regression, Linear|||||||.02
82401070|NCT00909220|164510778|OTHER|Hierarchical linear modeling (HLM) , an ordinary least square (OLS) regression-based analysis.|Slope|2.58|STANDARD_ERROR_OF_MEAN|0.75|<|0.05|TWO_SIDED|95.0|1.22|2.77||The variation of slopes among participants for each variable were calculated. If significant, a second level of analysis focused on predictors of the variation was conducted.|Regression, Logistic|df = 31||A two-level hierarchical linear model assessing the effects of negativity bias and positivity offset at pre-treatment on the rate of depression severity (IDS-SR) over 16 weeks of treatment (time). First level units were 'weeks in BA treatment', with participants limited to those who attended five or more therapy sessions, resulting in a total of 421 treatment weeks for analysis. Second-level units were the 'subjects entering BA treatment'.||2.77|1.22|<0.05
82401071|NCT01763203|164510796|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|||||||0.73
82401072|NCT01763203|164510797|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
82401073|NCT01763203|164510799|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82401074|NCT01763203|164510800|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
82401075|NCT01763203|164510801|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.10
82401076|NCT01763203|164510802|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
82401077|NCT01763203|164510803|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||||||0.011
82401078|NCT01763203|164510804|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||||||0.47
82401079|NCT01763203|164510805|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||0.58
82401080|NCT01763203|164510806|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
82401081|NCT01763203|164510807|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||||||0.0021
82401082|NCT01763203|164510808|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
82401083|NCT01763203|164510809|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
82401084|NCT01763203|164510810|SUPERIORITY|||||||0.77|||||||Chi-squared|||||||0.77
82401085|NCT01763203|164510811|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82401086|NCT01763203|164510812|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
82401087|NCT01763203|164510813|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
82401088|NCT01763203|164510814|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
82401089|NCT01763203|164510815|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
82401090|NCT02756819|164510819|OTHER||||||<|0.001||||||P-value was reported for Change at Month 6 relative to Baseline.|Wilcoxon test|||||||<0.001
82401091|NCT02756819|164510820|OTHER||||||<|0.001||||||P-value was reported for Change at Month 6 relative to Baseline.|Wilcoxon test|||||||<0.001
82401092|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Overweight)|Wilcoxon test|||||||<0.001
82401093|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class I)|Wilcoxon test|||||||<0.001
82401094|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class II)|Wilcoxon test|||||||<0.001
82401095|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class III)|Wilcoxon test|||||||<0.001
82401096|NCT02756819|164510823|OTHER||||||<|0.001|||||||Wilcoxon test|P-value was reported for Change from baseline at Month 6 (Normal glucose metabolism)||||||<0.001
82530509|NCT04524598|164757527|SUPERIORITY||t|-1.911||||0.06|TWO_SIDED||||||Mixed Models Analysis|||A linear mixed-effects model (LMM) analysis was implemented on an averaged imputed dataset to evaluate main effects of Group (Spark, Control) and Week (0-5), and the Group x Week interaction. Group and Week were entered as fixed factors. Spark version, and assessment completion days since baseline were included as fixed factors to control for effects of app version and differences in time between completion of successive weekly assessments.||||0.06
82530510|NCT04524598|164757527|SUPERIORITY||t|-2.546||||0.01|TWO_SIDED||||||Mixed Models Analysis|||We used a Per Protocol approach that included participants who completed the PHQ at baseline and each week. A linear mixed-effects model (LMM) analysis was implemented on an averaged imputed dataset to evaluate main effects of Group (Spark, Control) and Week (0-5), and the Group x Week interaction.||||0.01
82645804|NCT03111407|165007019|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.4427|||||||t-test, 2 sided|||"Knee Society Score Assessment 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper)~iAssist group: 74.7 +/- 12.5 \[44\] (30.2, 78.0, 89.5), 95% C.I. (70.9, 78.5)~Conventional group: 72.4 +/- 11.6 \[26\] (45.0, 75.2, 90.1), 95% C.I. (67.7, 77.1)"||||0.4427
82530511|NCT04524598|164757530|SUPERIORITY||F|1.46||||0.23|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on GAD-7 scores to compare the change in anxiety symptoms from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is presented.||||0.23
82401097|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Impaired glucose tolerance)|Wilcoxon test|||||||<0.001
82401098|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - No)|Wilcoxon test|||||||<0.001
82401099|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - Yes)|Wilcoxon test|||||||<0.001
82401100|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Neither diabetes mellitus nor metabolic syndrome)|Wilcoxon test|||||||<0.001
82401101|NCT02756819|164510823|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Metabolic syndrome)|Wilcoxon test|||||||<0.001
82401102|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Overweight)|Wilcoxon test|||||||<0.001
82401103|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class I)|Wilcoxon test|||||||<0.001
82401104|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class II)|Wilcoxon test|||||||<0.001
82401105|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Obesity class III)|Wilcoxon test|||||||<0.001
82445539|NCT02809053|164599566|OTHER|The 95%CI (confidence interval) for the difference in the overall response rate (ORR) was calculated using the Newcombe-Wilson method based on CMH (Cochran-Mantel-Haenszel) weight with stratification factor FLIPI-2 (low, intermediate and high risk).|Adjusted Difference Rate|-10.3|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-20.92|0.61|||||Comparison: SAIT101 versus MabThera|Adjusted Difference Rate of Overall Response Rate (ORR) of SAIT101 versus MabThera at Week 12.||0.61|-20.92|
82401106|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Normal glucose metabolism)|Wilcoxon test|||||||<0.001
82401107|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Impaired glucose tolerance)|Wilcoxon test|||||||<0.001
82401108|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - No)|Wilcoxon test|||||||<0.001
82401109|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Diabetes Mellitus - Yes)|Wilcoxon test|||||||<0.001
82401110|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Neither diabetes mellitus nor metabolic syndrome)|Wilcoxon test|||||||<0.001
82401111|NCT02756819|164510824|OTHER||||||<|0.001||||||P-value was reported for Change from baseline at Month 6 (Metabolic syndrome)|Wilcoxon test|||||||<0.001
82401112|NCT02700425|164510843|OTHER||||||<|0.001||||||P-value was not adjusted for multiple comparisons. Test was two-tailed, considered statistically significant with a p-value \<0.05, and conducted using SAS version 9.4 (SAS Institute Inc, Cary, NC) and STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon signed rank test||The sample size was estimated based on the primary endpoint of echocardiographic response to test the hypothesis that an absolute 10% greater improvement in LVEF would be observed with His Bundle Pacing compared to Coronary Sinus Pacing, with a significance level of 0.05 and a power of 0.80. Primary outcome was presented at baseline and 6-months as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with the Wilcoxon signed rank test.||||<0.001
82401113|NCT02700425|164510843|OTHER||||||<|0.001||||||P-value was not adjusted for multiple comparisons. Test was two-tailed, considered statistically significant with a p-value \<0.05, and conducted using SAS version 9.4 (SAS Institute Inc, Cary, NC) and STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon signed rank test||The sample size was estimated based on the primary endpoint of echocardiographic response to test the hypothesis that an absolute 10% greater improvement in LVEF would be observed with His Bundle Pacing compared to Coronary Sinus Pacing, with a significance level of 0.05 and a power of 0.80. Primary outcome was presented at baseline and 6-months as median (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with the Wilcoxon signed rank test.||||<0.001
82530512|NCT04524598|164757530|SUPERIORITY||F|2.59||||0.11|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on the PROMIS - General Health Score to compare the change in general health from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is reported.||||0.11
82530513|NCT04524598|164757531|SUPERIORITY||F|0.94||||0.33|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Time x Group) on the MFQ to compare the change in parent report of depressive symptoms from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is presented.||||0.33
82401114|NCT02700425|164510844|OTHER|paired t-test||||||0.002||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.002
82401115|NCT02700425|164510844|OTHER|paired t-test||||||0.002|||||||t-test, 2 sided|||Primary outcome of His Bundle Pacing was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.002
82401116|NCT02700425|164510845|OTHER|Log rank test of a survival analysis||||||0.62||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first cardiovascular hospitalization or death by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.62
82401117|NCT02700425|164510846|OTHER|||||||0.09||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon sign rank test||NYHA functional class of Coronary Sinus Pacing arm was presented at baseline as medians (interquartile ranges) based upon the Shapiro-Wilks test of normality, and then analyzed with a Wilcoxon sign rank test.||||0.09
82401118|NCT02700425|164510846|OTHER|||||||0.32||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|Wilcoxon sign rank test||NYHA functional class of the His Bundle Pacing arm was presented at baseline and 12 months as medians (interquartile ranges) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon sign rank test.||||0.32
82401119|NCT02700425|164510847|OTHER|||||||0.35||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Quality of Life was presented at baseline and 1-year as medians (interquartile range) for patients with His Bundle Pacing based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.35
82401120|NCT02700425|164510847|OTHER|||||||0.07||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Quality of Life was presented at baseline and 1-year as medians (interquartile range) for patients with Coronary Sinus Pacing based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.07
82401121|NCT02700425|164510848|OTHER|Log rank test of a survival analysis||||||0.14||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first cardiovascular rehospitalization by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.14
82401122|NCT02700425|164510849|OTHER|Log rank test of a survival analysis||||||0.14||||||P-value did not need to be adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Log Rank|||Primary outcome of time to first treated VT/VF by His Bundle Pacing compared to Coronary Sinus Pacing presented median and interquartile range in years based upon the Shapiro-Wilks test of normality, and then analyzed with a log rank test.||||0.14
82401123|NCT01301079|164510894|SUPERIORITY_OR_OTHER|||||||0.113|TWO_SIDED||||||Mann-Whitney|||||||0.113
82401124|NCT01301079|164510895|SUPERIORITY_OR_OTHER|||||||0.946|TWO_SIDED||||||t-test, 2 sided|||||||0.946
82401125|NCT01301079|164510896|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||t-test, 2 sided|||||||0.999
82401126|NCT01301079|164510897|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||t-test, 2 sided|||||||0.019
82401127|NCT01301079|164510898|SUPERIORITY_OR_OTHER|||||||0.652|TWO_SIDED||||||t-test, 2 sided|||||||0.652
82401128|NCT01301079|164510899|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED||||||t-test, 2 sided|||||||0.221
82401129|NCT01301079|164510900|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||t-test, 2 sided|||||||0.325
82401130|NCT01301079|164510901|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED||||||t-test, 2 sided|||||||0.386
82401131|NCT01301079|164510902|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED||||||t-test, 1 sided|||||||0.499
82401132|NCT01301079|164510903|SUPERIORITY_OR_OTHER|||||||0.909|TWO_SIDED||||||t-test, 2 sided|||||||0.909
82401133|NCT01301079|164510904|SUPERIORITY_OR_OTHER|||||||0.737|TWO_SIDED||||||t-test, 2 sided|||||||0.737
82401134|NCT01301079|164510905|SUPERIORITY_OR_OTHER||||||<|0.872|TWO_SIDED||||||t-test, 2 sided|||||||<0.872
82401135|NCT01301079|164510906|SUPERIORITY_OR_OTHER|||||||0.598|TWO_SIDED||||||t-test, 2 sided|||||||0.598
82401136|NCT01301079|164510907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.485|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.485
82401137|NCT01301079|164510908|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||t-test, 2 sided|||||||0.744
82401138|NCT01301079|164510909|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||t-test, 2 sided|||||||0.540
82401139|NCT01301079|164510910|SUPERIORITY_OR_OTHER|||||||0.673|TWO_SIDED||||||t-test, 2 sided|||||||0.673
82401140|NCT01301079|164510911|SUPERIORITY_OR_OTHER|||||||0.586|TWO_SIDED||||||t-test, 2 sided|||||||0.586
82401141|NCT01301079|164510912|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||t-test, 2 sided|||||||0.077
82401142|NCT01301079|164510913|SUPERIORITY_OR_OTHER|||||||0.677|TWO_SIDED||||||t-test, 2 sided|||||||0.677
82401143|NCT01301079|164510914|SUPERIORITY_OR_OTHER|||||||0.545|TWO_SIDED||||||t-test, 2 sided|||||||0.545
82401144|NCT01301079|164510915|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||t-test, 2 sided|||||||0.650
82401145|NCT01301079|164510916|SUPERIORITY_OR_OTHER|||||||0.593|TWO_SIDED||||||t-test, 2 sided|||||||0.593
82401146|NCT01301079|164510917|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
82401147|NCT01301079|164510918|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
82401148|NCT01301079|164510919|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED||||||Chi-squared|||||||0.313
82401149|NCT01301079|164510920|SUPERIORITY_OR_OTHER|||||||0.611|TWO_SIDED||||||Chi-squared|||||||0.611
82401150|NCT01301079|164510921|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED||||||t-test, 2 sided|||||||0.312
82401151|NCT01301079|164510922|SUPERIORITY_OR_OTHER|||||||0.676|TWO_SIDED||||||t-test, 2 sided|||||||0.676
82401152|NCT01301079|164510923|SUPERIORITY_OR_OTHER|||||||0.938|TWO_SIDED||||||t-test, 2 sided|||||||0.938
82401153|NCT01301079|164510924|SUPERIORITY_OR_OTHER|||||||0.385|TWO_SIDED||||||t-test, 2 sided|||||||0.385
82401154|NCT01301079|164510925|SUPERIORITY_OR_OTHER|||||||0.422|TWO_SIDED||||||t-test, 2 sided|||||||0.422
82401155|NCT01301079|164510926|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.500
82401156|NCT01301079|164510927|SUPERIORITY_OR_OTHER|||||||0.435|TWO_SIDED||||||t-test, 2 sided|||||||0.435
82530514|NCT04524598|164757531|SUPERIORITY||F|0.02||||0.9|TWO_SIDED||||||ANOVA|||We conducted a repeated measures ANOVA (Group x Time) on the PROMIS Parent Proxy - General Health Score to compare the change in parent reported general health from Baseline to Post treatment for Phase II participants who had a baseline PHQ-8 score \>= 10. The interaction term is reported.||||0.90
82530515|NCT02301156|164757535|SUPERIORITY|||||||0.0463|||||||Cochran-Mantel-Haenszel|P-value was estimated by Cochran-Mantel-Haenszel (CMH) test stratified by the randomization strata prior lines of therapy.||||||0.0463
82530516|NCT02301156|164757536|SUPERIORITY|||||||0.0159|||||||Cochran-Mantel-Haenszel|P-value was estimated by CMH test stratified by the randomization strata prior lines of therapy.||||||0.0159
82530517|NCT02301156|164757537|SUPERIORITY||Rate Difference|35.64|||<|0.0001|TWO_SIDED|95.0|21.39|49.88|||Cochran-Mantel-Haenszel|P-value was estimated using CMH test stratified by the randomization strata prior lines of therapy.|95% Confidence Interval (CI) was estimated using Clopper-Pearson method based on the binomial distribution.|||49.88|21.39|<0.0001
82401157|NCT01301079|164510928|SUPERIORITY_OR_OTHER|||||||0.745|TWO_SIDED||||||t-test, 2 sided|||||||0.745
82401158|NCT01301079|164510929|SUPERIORITY_OR_OTHER|||||||0.557|TWO_SIDED||||||t-test, 2 sided|||||||0.557
82401159|NCT02144077|164510977|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin of -15%|Difference in Percentage|1.6|||<|0.0001|ONE_SIDED|97.5|-6.5||||Farrington and Manning Test|Difference of proportions|||||-6.5|<0.0001
82401160|NCT00169104|164510985|SUPERIORITY||Mean Difference (Net)|-0.2|||>|0.05|TWO_SIDED|||||t=-0.29|t-test, 2 sided|df=15||T test||||>0.05
82401161|NCT02020889|164511001|OTHER||Odds Ratio (OR)|5.91|||<|0.001|TWO_SIDED|95.0|2.68|13.03|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||13.03|2.68|<0.001
82401162|NCT02020889|164511002|OTHER||Odds Ratio (OR)|16.74|||<|0.001|TWO_SIDED|95.0|3.61|77.56|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||77.56|3.61|<0.001
82401163|NCT02020889|164511003|OTHER||Hazard Ratio (HR)|0.322|||<|0.001|TWO_SIDED|95.0|0.206|0.502|||Cox Proportional Hazard regression|Cox proportional hazards model with covariates of treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||0.502|0.206|<0.001
82401164|NCT02020889|164511004|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.09|0.41|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||0.41|0.09|<0.001
82401165|NCT02020889|164511005|OTHER||Odds Ratio (OR)|19.65||||0.007|TWO_SIDED|95.0|2.3|167.93|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||167.93|2.30|0.007
82401166|NCT02020889|164511006|OTHER||Odds Ratio (OR)|5.31|||<|0.001|TWO_SIDED|95.0|2.63|10.74|||Proportional odds regression model|Proportional odds regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score, region|Mepolizumab 300mg/Placebo|||10.74|2.63|<0.001
82401167|NCT02020889|164511007|OTHER||Odds Ratio (OR)|7.19|||<|0.001|TWO_SIDED|95.0|2.6|19.87|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region|Mepolizumab 300mg/Placebo|||19.87|2.60|<0.001
82401168|NCT02020889|164511008|OTHER||Odds Ratio (OR)|11.39||||0.003|TWO_SIDED|95.0|2.35|55.24|||Regression, Logistic|Logistic regression model with covariates including treatment group, Baseline prednisolone/prednisone daily dose, Baseline BVAS score and region.|Mepolizumab 300mg/Placebo|||55.24|2.35|0.003
82401169|NCT01535443|164511034|OTHER|||||||0.374|||||||Traza Pillai|The test was performed with degrees of freedom: 2||||||.374
82401170|NCT03299101|164511081|SUPERIORITY|||||||0.872|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in grip strength across all 4 time points.||||0.872
82401171|NCT03299101|164511081|SUPERIORITY||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|0.71||0.423|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between baseline and day of surgery.||||0.423
82530518|NCT02301156|164757538|SUPERIORITY||Hazard Ratio (HR)|0.573||||0.0961|TWO_SIDED|95.0|0.295|1.113|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||1.113|0.295|0.0961
82530519|NCT02301156|164757539|SUPERIORITY||Hazard Ratio (HR)|0.569||||0.1486|TWO_SIDED|95.0|0.263|1.234|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||1.234|0.263|0.1486
82530520|NCT02301156|164757540|SUPERIORITY||Hazard Ratio (HR)|2.163||||0.0004|TWO_SIDED|95.0|1.399|3.344|||Log Rank|P-value was estimated by stratified log rank test and the stratification was based on the randomization strata prior lines of therapy.|Stratified Hazard Ratio and 95% CI were estimated using Cox proportion hazard model and the stratification was based on the randomization strata prior lines of therapy.|||3.344|1.399|0.0004
82530521|NCT02459093|164757569|SUPERIORITY||Risk Ratio (RR)|0.61||||0.04|TWO_SIDED|95.0|0.37|0.99|||Chi-squared|||||0.99|0.37|0.04
82530522|NCT02459093|164757570|SUPERIORITY||Risk Ratio (RR)|0.6||||0.05|TWO_SIDED|95.0|0.36|1.01|||Chi-squared|||||1.01|0.36|0.05
82401172|NCT03299101|164511081|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|2.12||0.853|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between baseline and 90 days postop.||||0.853
82401173|NCT03299101|164511081|SUPERIORITY||Mean Difference (Net)|-1.28|STANDARD_ERROR_OF_MEAN|2.16||0.552|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in grip strength between day of surgery and 90 days postop.||||0.552
82401174|NCT03299101|164511082|SUPERIORITY|||||||0.256||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in max MIP across all 4 time points.||||0.256
82401175|NCT03299101|164511082|SUPERIORITY||Mean Difference (Net)|4.69|STANDARD_ERROR_OF_MEAN|2.78||0.091|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between baseline and day of surgery.||||0.091
82530523|NCT02090634|164757571|SUPERIORITY|||||||0.95||||||Cliff's d = 0.01; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall adherence to ARV medications.||||0.95
82401176|NCT03299101|164511082|SUPERIORITY||Mean Difference (Net)|6.8|STANDARD_ERROR_OF_MEAN|3.69||0.066|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between baseline and 90 days postop.||||0.066
82401177|NCT03299101|164511082|SUPERIORITY||Mean Difference (Net)|1.86|STANDARD_ERROR_OF_MEAN|3.13||0.552|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MIP between day of surgery and 90 days postop.||||0.552
82401178|NCT03299101|164511083|SUPERIORITY|||||||0.003||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in mean MIP across all 4 time points.||||0.003
82401179|NCT03299101|164511083|SUPERIORITY||Mean Difference (Net)|7.48|STANDARD_ERROR_OF_MEAN|2.48||0.003|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between baseline and day of surgery.||||0.003
82401180|NCT03299101|164511083|SUPERIORITY||Mean Difference (Net)|10.18|STANDARD_ERROR_OF_MEAN|3.61||0.005|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between baseline and 90 days postop.||||0.005
82401181|NCT03299101|164511083|SUPERIORITY||Mean Difference (Net)|2.31|STANDARD_ERROR_OF_MEAN|2.18||0.29|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MIP between day of surgery and 90 days postop.||||0.290
82401182|NCT03299101|164511084|SUPERIORITY|||||||0.009||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in maximal inspiratory pressure across all 4 time points.||||0.009
82401183|NCT03299101|164511084|SUPERIORITY||Mean Difference (Net)|12.61|STANDARD_ERROR_OF_MEAN|4.57||0.006|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between baseline and day of surgery.||||0.006
82401184|NCT03299101|164511084|SUPERIORITY||Mean Difference (Net)|12.79|STANDARD_ERROR_OF_MEAN|5.25||0.015|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between baseline and 90 days postop.||||0.015
82401185|NCT03299101|164511084|SUPERIORITY||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|3.42||0.802|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum MEP between day of surgery and 90 days postop.||||0.802
82401186|NCT03299101|164511085|SUPERIORITY|||||||0.01||||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in Mean MEP across all 4 time points.||||0.010
82530524|NCT02090634|164757571|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Cliff's d = -0.13; calculated to estimate the effect size for between-group comparisons with non-parametric data||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall adherence to PSY medications.||||0.43
82530525|NCT02090634|164757572|SUPERIORITY|||||||0.02||||||Cliff's d = 0.37; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall dose timing windows for ARV medications.||||0.02
82530526|NCT02090634|164757572|SUPERIORITY|||||||0.42||||||Cliff's d = 0.14; calculated to estimate the effect size for between-group comparisons with non-parametric data|Wilcoxon (Mann-Whitney)|||We conducted Wilcoxon rank sum (Mann-Whitney) tests in order to examine group (i.e., iTAB vs. CTRL) differences on overall dose timing windows for PSY medications.||||0.42
82530527|NCT00610701|164757576|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82401187|NCT03299101|164511085|SUPERIORITY||Mean Difference (Net)|12.37|STANDARD_ERROR_OF_MEAN|4.35||0.004|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between baseline and day of surgery.||||0.004
82401188|NCT03299101|164511085|SUPERIORITY||Mean Difference (Net)|9.95|STANDARD_ERROR_OF_MEAN|4.9||0.042|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between baseline and 90 days postop.||||0.042
82530528|NCT01108510|164757622|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: ATV+COBI+FTC/TDF group was at least 12% worse than the ATV+RTV+FTC/TDF group; alternative hypothesis: ATV+COBI+FTC/TDF group was less than 12% worse than the ATV+RTV+FTC/TDF group. ATV+COBI+FTC/TDF was noninferior if the lower bound of the 2-sided 95.2% confidence interval (CI) (COBI group - RTV group) was \> -12%.|Difference in percentages|-2.2|||||TWO_SIDED|95.2|-7.4|3.0|||||Difference in percentages of success and its 95.2% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|700 planned subjects had 95% power to evaluate noninferiority assuming a response rate of 79.5% for both arms and a noninferiority margin of 12%.||3.0|-7.4|
82530529|NCT01108510|164757623|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-1.4|||||TWO_SIDED|95.0|-7.6|4.7|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||4.7|-7.6|
82576204|NCT02209181|164862041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.95|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|1.91|3.99||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.99|1.91|<0.001
82401189|NCT03299101|164511085|SUPERIORITY||Mean Difference (Net)|-3.77|STANDARD_ERROR_OF_MEAN|3.08||0.221|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between day of surgery and 90 days postop.||||0.221
82401190|NCT03299101|164511086|SUPERIORITY|||||||0.814|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in max SMIP across all 4 time points.||||0.814
82401191|NCT03299101|164511086|SUPERIORITY||Mean Difference (Net)|10.5|STANDARD_ERROR_OF_MEAN|30.91||0.734|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between baseline and day of surgery.||||0.734
82401192|NCT03299101|164511086|SUPERIORITY||Mean Difference (Net)|21.07|STANDARD_ERROR_OF_MEAN|22.12||0.341|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between baseline and 90 days postop.||||0.341
82401193|NCT03299101|164511086|SUPERIORITY||Mean Difference (Net)|28.55|STANDARD_ERROR_OF_MEAN|37.61||0.448|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in maximum SMIP between day of surgery and 90 days postop.||||0.448
82530530|NCT01108510|164757624|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-2.1|||||TWO_SIDED|95.0|-8.7|4.5|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||4.5|-8.7|
82401194|NCT03299101|164511087|SUPERIORITY|||||||0.419|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in mean SMIP across all 4 time points.||||0.419
82401195|NCT03299101|164511087|SUPERIORITY||Mean Difference (Net)|20.91|STANDARD_ERROR_OF_MEAN|27.03||0.439|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between baseline and day of surgery.||||0.439
82401196|NCT03299101|164511087|SUPERIORITY||Mean Difference (Net)|47.67|STANDARD_ERROR_OF_MEAN|26.19||0.069|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between baseline and 90 days postop.||||0.069
82401197|NCT03299101|164511087|SUPERIORITY||Mean Difference (Net)|37.11|STANDARD_ERROR_OF_MEAN|37.96||0.328|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean SMIP between day of surgery and 90 days postop.||||0.328
82401198|NCT03299101|164511088|SUPERIORITY|||||||0.196|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in serum prealbumin across all 4 time points.||||0.196
82401199|NCT03299101|164511088|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.562|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between baseline and day of surgery.||||0.562
82401200|NCT03299101|164511088|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.25||0.087|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between baseline and 90 days postop.||||0.087
82530531|NCT01108510|164757625|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-8.0|||||TWO_SIDED|95.0|-22.2|6.3|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||6.3|-22.2|
82401201|NCT03299101|164511088|SUPERIORITY||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.226|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in serum prealbumin between day of surgery and 90 days postop.||||0.226
82401202|NCT03299101|164511089|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in gait speed across all 4 time points.||||0.001
82530532|NCT01108510|164757626|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|-5.0||||0.67|TWO_SIDED|95.0|-28.0|18.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||18|-28|0.67
82530533|NCT01108510|164757627|SUPERIORITY_OR_OTHER||Difference in LSM|-10.0||||0.51|TWO_SIDED|95.0|-38.0|19.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||19|-38|0.51
82530534|NCT01108510|164757628|SUPERIORITY_OR_OTHER||Difference in LSM|-22.0||||0.18|TWO_SIDED|95.0|-54.0|10.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||10|-54|0.18
82375853|NCT00261443|164457911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.415||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Triglycerides (fasting), Phase 3 Safety Sample||||0.415
82375854|NCT00261443|164457912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Uric Acid||||0.189
82401203|NCT03299101|164511089|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.001|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in gait speed between baseline and day of surgery.||||0.001
82530535|NCT01108510|164757629|SUPERIORITY_OR_OTHER||Difference in LSM|6.0||||0.84|TWO_SIDED|95.0|-55.0|67.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||67|-55|0.84
82375855|NCT00261443|164457912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.350
82375856|NCT00261443|164457912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Uric Acid, Phase 3 Safety Sample||||0.799
82375857|NCT00261443|164457913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.124||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Leukocytes||||0.124
82375858|NCT00261443|164457913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Change from Baseline at Week 52 (LOCF)||||0.295
82401204|NCT03299101|164511089|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests|Linear mixed models estimated within-person change in gait speed between baseline and 90 days postop.||||0.001
82401205|NCT03299101|164511089|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.874|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in gait speed between day of surgery and 90 days postop.||||0.874
82401206|NCT03299101|164511090|SUPERIORITY|||||||0.854|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in SPPB across all 4 time points.||||0.854
82401207|NCT03299101|164511090|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.32||0.298|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between baseline and day of surgery.||||0.298
82530536|NCT03125941|164757653|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.49|2.05|||Chi-squared|||||2.05|0.49|1
82530537|NCT03125941|164757654|SUPERIORITY|||||||0.114|||||||Wilcoxon (Mann-Whitney)|||||||0.114
82530538|NCT03125941|164757655|SUPERIORITY|||||||0.294|||||||Wilcoxon (Mann-Whitney)|||||||0.294
82530539|NCT03125941|164757658|SUPERIORITY|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.350
82530540|NCT03125941|164757659|SUPERIORITY|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
82530541|NCT03125941|164757661|SUPERIORITY||||||>|0.193||||||a priori threshold, bonferroni corrected 0.0125|Wilcoxon (Mann-Whitney)|||||||>0.193
82530542|NCT03125941|164757662|SUPERIORITY||||||>|0.2|||||||Wilcoxon (Mann-Whitney)|||||||>0.2
82530543|NCT03125941|164757663|SUPERIORITY||||||>|0.136|||||||Chi-squared|||||||>0.136
82530544|NCT03125941|164757664|SUPERIORITY||||||>|0.003||||||A priori threshold for statistical significans was 0.00125 due to multiple comparisons|Chi-squared|||||||>0.003
82445540|NCT02809053|164599571|OTHER|The estimated Hazard Ratio with 95% CI was obtained from Cox regression model; however, stratification factors, ie, FLIPI-2 (low, intermediate and high risk), were only taken into account if FLIPI-2 score=all.|Hazard Ratio (HR)|1.724|||||TWO_SIDED|95.0|0.853|3.482|||||Hazard Ration of TTE SAIT101:MabThera|Time to Event (TTE) Hazard Ratio (HR) of SAIT101:MabThera. The TTE is defined as the time from the date of randomization to the date when an event occurs; an event is disease progression as assessed by Investigator, death due to any cause, or the start of new treatment, whichever comes first.||3.482|0.853|
82445541|NCT02809053|164599572|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Difference (%)|101.39|||||TWO_SIDED|90.0|95.86|107.24|||||Comparison: SAIT101 versus MabThera. Equivalence was demonstrated for SAIT101 and MabThera with exposure pharmacokinetic parameter AUC0-168,w1 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% Confidence Interval (CI)) (%) of SAIT101 versus MabThera Area Under the Concentration time Curve Day 0 to Week 1 (AUC0-168,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||107.24|95.86|
82445542|NCT02809053|164599572|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Difference (%)|96.92|||||TWO_SIDED|90.0|90.85|103.4|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter AUC0-168,w4 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% Confidence Interval (CI)) %) of SAIT101 versus MabThera Area Under the Concentration time Cure Day 0 to Week 4 (AUC0-168,w4) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||103.40|90.85|
82445543|NCT02809053|164599573|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00|GLS Mean Ratio (%)|99.35|||||TWO_SIDED|90.0|90.85|103.4|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with Cmax,w1 exposure within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera maximum plasma concentration at Week 1 (Cmax,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment.||103.40|90.85|
82445544|NCT02809053|164599573|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Ration (%)|99.23|||||TWO_SIDED|90.0|92.96|105.92|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter Cmax,w4 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera maximum plasma concentration at Week 4 (Cmax,w1) (h×µg/mL). The statistical comparison of the loge-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment||105.92|92.96|
82445545|NCT02809053|164599576|EQUIVALENCE|Standard acceptance limits for bioequivalence (80.00% to 125.00%).|GLS Mean Ratio (%)|95.45|||||TWO_SIDED|90.0|88.85|102.55|||||Comparison: SAIT101 versus MabThera. Pharmacokinetic equivalence was demonstrated for SAIT101 and MabThera with exposure PK parameter Ctrough,d29 within the standard acceptance limits for bioequivalence (80.00% to 125.00%).|Statistical Comparison: geometric least square (GLS) Mean Ratio (90% CI) (%) of SAIT101 versus MabThera trough plasma concentration at the end of the dosing period (Day 29) (Ctrough,d29) (µg/mL) . The statistical comparison of the log-transformed primary parameters between treatments is based on an analysis of variance model with fixed effect for treatment||102.55|88.85|
82445546|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|7.2|||||TWO_SIDED|90.0|-31.0|45.4|||||Comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 1 (AUEC0-168,w1), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||45.4|-31.0|
82445547|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|18.0|||||TWO_SIDED|90.0|-21.6|57.6|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 2 (AUEC0-168,w2), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||57.6|-21.6|
82445548|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|21.4|||||TWO_SIDED|90.0|-18.3|61.0|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 3 (AUEC0-168,w3), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||61.0|-18.3|
82445549|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|20.4|||||TWO_SIDED|90.0|-19.3|60.2|||||comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 4 (AUEC0-168,w4), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||60.2|-19.3|
82445550|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|15.7|||||TWO_SIDED|90.0|-23.1|54.6|||||Comparison: SAIT101 versus MabThera|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 12 (AUEC0-168,w12), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||54.6|-23.1|
82530545|NCT03125941|164757665|SUPERIORITY||Odds Ratio (OR)|3.53||||0.03|TWO_SIDED|95.0|1.07|11.6|||Chi-squared|||||11.6|1.07|0.030
82530546|NCT01586338|164757704|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance = 0.05.|Paired t-test|||||||<0.0001
82530547|NCT01586338|164757704|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Sign Rank Test|||||||<0.0001
82445551|NCT02809053|164599580|OTHER||Mean Difference (Final Values)|12.8|||||TWO_SIDED|90.0|-26.0|51.8|||||Comparison: SAIT101 versus MabThera.|Statistical Comparison of CD19+ B-cell Pharmacodynamic Parameters (Pharmacodynamic Analysis Set). Area under the pharmacodynamic time effect curve from baseline (Time 0) to Week 28 (AUEC0-168,w28), normalized (cells/µL). The statistical comparison of the between treatments is based on an analysis of covariance (ANOVA) model with fixed effect for treatment and a covariate for baseline value.||51.8|-26.0|
82445552|NCT02809053|164599584|OTHER|||||||0.587||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis: Comparison of Overall Response Rate (ORR) by Region (European Union / Other). The interaction p-value for the Region subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.587
82445553|NCT02809053|164599584|OTHER|||||||0.421||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis. Overall Response Rate by Age Group (18-60 years and \>60 years). The interaction p-value for the Age subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.421
82445554|NCT02809053|164599584|OTHER|||||||0.288||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Simon|||Exploratory statistical analysis. Comparison of Overall Response Rate (ORR) by Gender (Male / Female). The interaction p-value for the Gender subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate. The p-value was calculated using Gail-Simon Test for Qualitative Interactions.||||0.288
82445555|NCT02809053|164599584|OTHER|||||||0.588||||||The p-value was calculated using Gail-Simon Test for Qualitative Interactions.|Gail-Wilson|||Exploratory statistical analysis. Comparison of Overall Response Rate (ORR) by Anti-drug Antibody (ADA) status (Positive / Negative). The interaction p-value for the ADA subgroup was calculated based upon the full set of data, and based on a Cochran Mantel Haenszel (CMH) model including treatment, and applicable stratification covariate.||||0.588
82401208|NCT03299101|164511090|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.31||0.684|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between baseline and 90 days postop.||||0.684
82445556|NCT02411929|164599585|SUPERIORITY_OR_OTHER||Test (oral)/Reference (IV) of means|104.73|||||TWO_SIDED|90.0|101.64|107.91|||||Natural log transformed AUCinf(dn) and AUClast(dn) from Period 1 were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences were exponentiated.|Ratio - Test (oral) / Reference (IV) of means||107.91|101.64|
82445557|NCT02411929|164599595|SUPERIORITY_OR_OTHER||Ratio|110.71|||||||||||||The ratio (Test/Reference) of the geometric means of dose normalized natural log transformed Total 14\^C in Urine will be estimated. Total 14\^C\_Urine\_IV is the Reference formulation and Total 14C\_Urine\_Oral is the Test formulation (expressed as a %).|Ratio - Test (Oral) / Reference (IV) (%)||||
82445558|NCT00257660|164599653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.84|||<|0.0001|TWO_SIDED|95.0|-12.94|-4.74||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the analysis at Week 4 excludes the scores for the 7 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-4.74|-12.94|<0.0001
82445559|NCT00257660|164599654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-8.81|||<|0.0001||95.0|-12.91|-4.71||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the Week 8 analysis excludes the scores for the 24 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-4.71|-12.91|<0.0001
82530548|NCT01544491|164757715|NON_INFERIORITY|Kaplan-Meier estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|5.25||0.9712|TWO_SIDED|80.0|-6.6|6.8|||Log Rank|||at 12 months||6.8|-6.6|0.9712
82401209|NCT03299101|164511090|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.33||0.485|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SPPB between day of surgery and 90 days postop.||||0.485
82401210|NCT03299101|164511091|SUPERIORITY|||||||0.067|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in RAI across all 4 time points.||||0.067
82530549|NCT01544491|164757715|NON_INFERIORITY|Kaplan-Meier estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|5.84||0.9634|TWO_SIDED|80.0|-7.3|7.7|||Log Rank|||36 months||7.7|-7.3|0.9634
82401211|NCT03299101|164511091|SUPERIORITY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|1.22||0.089|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between baseline and day of surgery.||||0.089
82401212|NCT03299101|164511091|SUPERIORITY||Mean Difference (Net)|4.37|STANDARD_ERROR_OF_MEAN|1.6||0.006|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between baseline and 90 days postop.||||0.006
82401213|NCT03299101|164511091|SUPERIORITY||Mean Difference (Net)|1.98|STANDARD_ERROR_OF_MEAN|1.62||0.221|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in RAI between day of surgery and 90 days postop.||||0.221
82401214|NCT03299101|164511092|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in SGA across all 4 time points.||||0.860
82401215|NCT03299101|164511092|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.41|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between baseline and day of surgery.||||0.410
82401216|NCT03299101|164511092|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.622|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between baseline and 90 days postop.||||0.622
82401217|NCT03299101|164511092|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.757|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in SGA between day of surgery and 90 days postop.||||0.757
82401218|NCT03299101|164511093|SUPERIORITY|||||||0.362|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change in 6 Minute Walk Test across all 4 time points.||||0.362
82401219|NCT03299101|164511093|SUPERIORITY||Mean Difference (Net)|25.52|STANDARD_ERROR_OF_MEAN|20.06||0.203|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between baseline and day of surgery.||||.203
82401220|NCT03299101|164511093|SUPERIORITY||Mean Difference (Net)|12.7|STANDARD_ERROR_OF_MEAN|13.77||0.357|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<0.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between baseline and 90 days postop.||||0.357
82401221|NCT03299101|164511093|SUPERIORITY||Mean Difference (Net)|21.48|STANDARD_ERROR_OF_MEAN|15.4||0.163|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<0.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in 6 Minute Walk Test between day of surgery and 90 days postop.||||0.163
82530550|NCT01544491|164757716|NON_INFERIORITY|KM estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|5.26||0.3455|TWO_SIDED|80.0|-1.8|11.8|||t-test, 2 sided|||at 12 months||11.8|-1.8|0.3455
82401222|NCT03299101|164511094|SUPERIORITY|||||||0.068|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change across all 4 time points.||||0.068
82401223|NCT03299101|164511094|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.043|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change between baseline and day of surgery.||||0.043
82401224|NCT03299101|164511094|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.092|TWO_SIDED|||||The null hypothesis was rejected a priori if p\<.05.|Mixed Models Analysis||The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change between baseline and 90 days postop.||||0.092
82401225|NCT03299101|164511094|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.292|TWO_SIDED||||||Mixed Models Analysis|The null hypothesis was rejected a priori if p\<.05.|The mean within-person difference was assessed with linear mixed models with standard error and p-value similar to paired t-tests.|Linear mixed models estimated within-person change in mean MEP between day of surgery and 90 days postop.||||0.292
82401226|NCT03299101|164511095|SUPERIORITY|||||||0.625|||||||Mixed Models Analysis|||Linear mixed models estimated overall, within-person change across both time points.||||0.625
82401227|NCT01882803|164511096|OTHER||||||<=|0.0001||||||'\<=' represents '≤'|Exact Binomial Test|The p-value was calculated by 1-sided exact binomial test with the null hypothesis that ORR ≤30%.||ORR was tested against the null (≤30%) by 1-sided exact binomial test at 0.025 level.||||<=0.0001
82401228|NCT00551525|164511107|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance level 0.05, two-sided test|binomial proportion|||||||<0.001
82401229|NCT00551525|164511110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.984|||||TWO_SIDED|95.0|0.91|1.063||||||Modeling the association of age with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), baseline PSA, and Gleason score (\<8 vs. 8-10\[reference level\]).||1.063|0.910|
82401230|NCT00551525|164511110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.89|1.169||||||Modeling the association of baseline PSA with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), Gleason score (\<8 vs. 8-10\[reference level\]), and age.||1.169|0.890|
82401231|NCT00551525|164511110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.307|||||TWO_SIDED|95.0|0.364|4.697||||||Modeling the association of clinical T-stage (pT2 vs. pT3 \[reference level\]) with the occurrence of any acute radiotherapy-related adverse event, adjusting for baseline PSA, Gleason score (\<8 vs. 8-10\[reference level\]), and age.||4.697|0.364|
82530551|NCT01544491|164757716|NON_INFERIORITY|KM estimates and between treatment differences are estimated using the Kaplan-Meier product-limit formula and 80% confidence intervals derived using standard errors estimated from Greenwood's formula.|Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|4.95||0.8642|TWO_SIDED|80.0|-5.5|7.2|||t-test, 2 sided|||36 months||7.2|-5.5|0.8642
82530552|NCT01234649|164757784|SUPERIORITY||||||<|0.04|||||||ANOVA|||Factorial repeated measures design||||<0.04
82445560|NCT00257660|164599655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.12||||0.019||95.0|-7.55|-0.68||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline TWSTRS score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|"Baseline TWSTRS total scores are analysed for all subjects of ITT population, while the Week 12 analysis excludes the scores for the 27 subjects who were not assessed.~Mean difference = difference in adjusted least squares mean (Dysport - Placebo)."|||-0.68|-7.55|0.019
82445561|NCT00257660|164599656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.2|||<|0.001||95.0|-24.0|-6.4||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS symptom score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 4) excludes 4 subjects (and 13 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-6.4|-24.0|<0.001
82530553|NCT01234649|164757785|SUPERIORITY||||||<|0.005|||||||ANOVA|||Factorial repeated measures ANOVA||||<.005
82530554|NCT01234649|164757786|SUPERIORITY||||||<|0.011|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.011
82530555|NCT01234649|164757787|SUPERIORITY||||||>|0.05|||||||ANOVA|||Nested repeated measures design||||>0.05
82530556|NCT01234649|164757788|SUPERIORITY||||||<|0.03|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.03
82530557|NCT01234649|164757789|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82375859|NCT00261443|164457913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Highest Value of Change in Leukocytes, Phase 3||||0.735
82375860|NCT00261443|164457913|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Lowest Value of Change in Leukocytes, Phase 3||||0.505
82375861|NCT00261443|164457915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.213||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QTc Bazett||||0.213
82375862|NCT00261443|164457915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QTc Bazett at Week 52 (LOCF)||||0.708
82375863|NCT00261443|164457915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.107||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QTc Bazett, Phase 3||||0.107
82375864|NCT00261443|164457916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QTc (0.33)||||0.205
82375865|NCT00261443|164457916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.669||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QTc (0.33) at Week 52 (LOCF)||||0.669
82375866|NCT00261443|164457916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QTc (0.33), Phase 3||||0.072
82375867|NCT00261443|164457917|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline PR||||0.012
82375868|NCT00261443|164457917|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in PR at Week 52 (LOCF)||||0.027
82375869|NCT00261443|164457917|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in PR, Phase 3||||0.128
82375870|NCT00261443|164457918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.571||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline RR||||0.571
82375871|NCT00261443|164457918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.353||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in RR at Week 52 (LOCF)||||0.353
82375872|NCT00261443|164457918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in RR, Phase 3 Safety Sample||||0.204
82375873|NCT00261443|164457918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.435||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Prolactin, Phase 3 Safety Sample||||0.435
82375874|NCT00261443|164457919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.826||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline QRS||||0.826
82375875|NCT00261443|164457919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.545||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in QRS at Week 52 (LOCF)||||0.545
82375876|NCT00261443|164457919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in QRS, Phase 3||||0.372
82375877|NCT00261443|164457920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.235|TWO_SIDED|95.0|-0.07|0.27||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.27|-0.07|0.235
82375878|NCT00261443|164457920|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36||||0.012|TWO_SIDED|95.0|0.08|0.64||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value in Change Treatment Difference||0.64|0.08|0.012
82375879|NCT00261443|164457921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.587||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Baseline Heart Rate||||0.587
82401232|NCT00551525|164511110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.659|||||TWO_SIDED|95.0|0.217|2.006||||||Modeling the association of Gleason score (\<8 vs. 8-10\[reference level\]) with the occurrence of any acute radiotherapy-related adverse event, adjusting for clinical T-stage (pT2 vs. pT3 \[reference level\]), baseline PSA, and age.||2.006|0.217|
82401233|NCT00237692|164511120|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.8|||||TWO_SIDED|95.0|55.7|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||63.9|55.7|
82401234|NCT00237692|164511120|SUPERIORITY_OR_OTHER||Est. % of patients with controled SBP|59.8|||||TWO_SIDED|95.0|55.7|64.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||64.0|55.7|
82401235|NCT00237692|164511120|SUPERIORITY_OR_OTHER||Est. % of patinets with controlled SBP|59.8|||||TWO_SIDED|95.0|55.6|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled BP at Baseline||63.9|55.6|
82401236|NCT00237692|164511120|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.8|||||TWO_SIDED|95.0|55.6|63.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at Baseline||63.9|55.6|
82401237|NCT00237692|164511121|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|58.0|||||TWO_SIDED|95.0|49.3|66.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 6 months.||66.7|49.3|
82445562|NCT00257660|164599657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.2|||<|0.001||95.0|-22.3|-6.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS CD symptom score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 4) excludes 3 subjects (and 8 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-6.1|-22.3|<0.001
82645805|NCT03111407|165007020|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.6154|||||||t-test, 2 sided|||Knee Soceity Score Function 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper) iAssist group: 80.5 +/- 13.8 \[44\] (55.0, 80.0, 100.0), 95% C.I. (76.2, 84.7) Conventional group: 78.5 +/- 19.1 \[26\] (40.0, 80.0, 100.0),95% C.I. (70.8, 86.2)||||0.6154
82401238|NCT00237692|164511121|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|60.9|||||TWO_SIDED|95.0|52.5|69.3|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||69.3|52.5|
82401239|NCT00237692|164511121|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|65.0|||||TWO_SIDED|95.0|56.9|73.1|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||73.1|56.9|
82401240|NCT00237692|164511121|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|63.8|||||TWO_SIDED|95.0|55.6|72.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 6 months.||72.0|55.6|
82401241|NCT00237692|164511121|SUPERIORITY_OR_OTHER||% diff|2.9|||||TWO_SIDED|95.0|-9.0|14.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 6months.||14.9|-9.0|
82401242|NCT00237692|164511121|SUPERIORITY_OR_OTHER||% Diff|6.9|||||TWO_SIDED|95.0|-4.7|18.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Med Management and Arm 1 - Control at 6months.||18.7|-4.7|
82401243|NCT00237692|164511121|SUPERIORITY_OR_OTHER||% Diff|5.7|||||TWO_SIDED|95.0|-6.0|17.6||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 6months.||17.6|-6.0|
82401244|NCT00237692|164511122|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.9|||||TWO_SIDED|95.0|51.4|68.3|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months.||68.3|51.4|
82530558|NCT01234649|164757790|SUPERIORITY||||||<|0.048|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.048
82530559|NCT01234649|164757791|SUPERIORITY||||||<|0.04|||||||ANOVA|||||||<0.04
82530560|NCT01234649|164757792|SUPERIORITY||||||<|0.047|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.047
82530561|NCT01234649|164757793|SUPERIORITY||||||<|0.023|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.023
82530562|NCT01234649|164757794|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530563|NCT01234649|164757795|SUPERIORITY|||||||0.042|||||||ANOVA|||Factorial repeated measures ANOVA||||0.042
82530564|NCT01234649|164757796|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530565|NCT01234649|164757797|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530566|NCT01234649|164757798|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530567|NCT01234649|164757799|SUPERIORITY||||||<|0.046|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.046
82530568|NCT01234649|164757800|SUPERIORITY||||||<|0.049|||||||ANOVA|||Factorial repeated measures ANOVA||||<0.049
82445563|NCT00257660|164599658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.95|||<|0.001||95.0|-25.8|-8.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 4 subjects (and 4 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-8.1|-25.8|<0.001
82445564|NCT00257660|164599659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-16.0|||<|0.001||95.0|-24.2|-7.8||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 3 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-7.8|-24.2|<0.001
82445565|NCT00257660|164599660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.05||||0.007||95.0|-19.0|-3.1||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Subject VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 12) excludes 4 subjects (and 4 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-3.1|-19.0|0.007
82445566|NCT00257660|164599661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.05||||0.028||95.0|-13.3|-0.8||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline Investigator VAS Pain score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 12) excludes 3 subjects (and 3 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||-0.8|-13.3|0.028
82445567|NCT00257660|164599662|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.65||||0.061||95.0|-0.17|7.47||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline SF-36 mental health summary score, center and previous treatment by botulinum toxin or not were fitted in the ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 37 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||7.47|-0.17|0.061
82530569|NCT01234649|164757801|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82401245|NCT00237692|164511122|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|73.1|||||TWO_SIDED|95.0|65.6|80.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months||80.7|65.6|
82401246|NCT00237692|164511122|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|73.4|||||TWO_SIDED|95.0|66.1|80.7|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 12 months.||80.7|66.1|
82401247|NCT00237692|164511122|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|68.6|||||TWO_SIDED|95.0|60.5|76.6|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 12 months.||76.6|60.5|
82401248|NCT00237692|164511122|SUPERIORITY_OR_OTHER||% Diff|13.2|||||TWO_SIDED|95.0|2.0|24.4||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 12 months.||24.4|2.0|
82401249|NCT00237692|164511122|SUPERIORITY_OR_OTHER||% Diff|13.5|||||TWO_SIDED|95.0|2.4|24.6||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 3 - Nurse Med Management and Arm 1 - Control at 12 months.||24.6|2.4|
82401250|NCT00237692|164511122|SUPERIORITY_OR_OTHER||% diff|8.6|||||TWO_SIDED|95.0|-2.9|20.2||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 4 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 12 months.||20.2|-2.9|
82401251|NCT00237692|164511123|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|61.8|||||TWO_SIDED|95.0|53.0|70.6|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled Systolic BP at 18 months||70.6|53.0|
82401252|NCT00237692|164511123|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|59.4|||||TWO_SIDED|95.0|50.8|67.9|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled BP at 18 months||67.9|50.8|
82401253|NCT00237692|164511123|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|63.5|||||TWO_SIDED|95.0|55.1|72.0|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 18 months.||72.0|55.1|
82530570|NCT01234649|164757802|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530571|NCT01234649|164757803|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530572|NCT01234649|164757804|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530573|NCT01234649|164757805|SUPERIORITY||||||>|0.05|||||||ANOVA|||Factorial repeated measures ANOVA||||>0.05
82530574|NCT01461993|164757815|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.82||||||95.0|0.72|0.94||||||HPV-6||0.94|0.72|
82530575|NCT01461993|164757815|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.91||||||HPV-11||0.91|0.74|
82401254|NCT00237692|164511123|SUPERIORITY_OR_OTHER||Est. % of Patients with controlled SBP|71.6|||||TWO_SIDED|95.0|63.7|79.5|||||Joint National Committee 7 blood pressure control: \< 140/90 mmHg for non-diabetics; \<130/80 mmHg for diabetics|Estimated % of participants with controlled systolic BP at 18 months||79.5|63.7|
82401255|NCT00237692|164511123|SUPERIORITY_OR_OTHER||% Diff|-2.4|||||TWO_SIDED|95.0|-14.6|9.7||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 2 - Nurse Behavioral and Arm 1 - Control at 18 months.||9.7|-14.6|
82401256|NCT00237692|164511123|SUPERIORITY_OR_OTHER||% Diff|1.7|||||TWO_SIDED|95.0|-10.3|13.8||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 3 - Nurse Med Management and Arm 1 - Control at 18 months.||13.8|-10.3|
82401257|NCT00237692|164511123|SUPERIORITY_OR_OTHER||% Diff|9.8|||||TWO_SIDED|95.0|-1.9|21.4||||||Estimated Difference in Percentage of Patients with Controlled Systolic Blood pressure between Intervention Arm 4 - Combined Behavioral \& Med Mgmt and Arm 1 - Control at 18 months.||21.4|-1.9|
82401258|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|2.0|||||TWO_SIDED|95.0|-3.1|7.1|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 2 - Nurse Behavioral||7.1|-3.1|
82401259|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. Dif in Patient w/Controlled DBP|0.5|||||TWO_SIDED|95.0|-2.7|3.8|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 2 - Nurse Behavioral||3.8|-2.7|
82401260|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|0.4|||||TWO_SIDED|95.0|-4.8|5.5|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 3 - Nurse Med Management.||5.5|-4.8|
82401261|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled DBP|0.7|||||TWO_SIDED|95.0|-2.6|4.0|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 3 - Nuse Med Management||4.0|-2.6|
82530576|NCT01461993|164757815|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.88||||||HPV-16||0.88|0.68|
82576205|NCT02209181|164862041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.52||0.011|TWO_SIDED|95.0|-2.37|-0.32||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.32|-2.37|0.011
82401262|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled SBP|1.6|||||TWO_SIDED|95.0|-3.3|6.6|||||Systolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in systolic blood pressure at 12months between Arm 1 - Control and Arm 4 - Combined Behaviorial and Med Management||6.6|-3.3|
82401263|NCT00237692|164511125|SUPERIORITY_OR_OTHER||Est. % Diff in Patient w/Controlled DBP|3.4|||||TWO_SIDED|95.0|0.3|6.6|||||Diastolic blood pressure estimates are based on the longitudinal data model with an unstructured covariance matrix. Negative differences reflect improvement compared to usual care, and positive differences reflect worsening compared to usual care.|Estimated differences in diastolic blood pressure at 12months between Arm 1 - Control and Arm 4 - Combined Behaviorial and Med Management||6.6|0.3|
82401264|NCT02081001|164511129|SUPERIORITY_OR_OTHER||Point estimate ratio|2.06|STANDARD_ERROR_OF_MEAN|1.19||0.23|TWO_SIDED|90.0|0.74|5.75|||Mixed Models Analysis|||||5.75|0.74|0.23
82401265|NCT02081001|164511129|SUPERIORITY_OR_OTHER||Point estimate ratio|1.25|STANDARD_ERROR_OF_MEAN|0.43||0.52|TWO_SIDED|90.0|0.69|2.28|||Mixed Models Analysis|||||2.28|0.69|0.52
82401266|NCT02081001|164511129|SUPERIORITY_OR_OTHER||Point estimate ratio|0.86|STANDARD_ERROR_OF_MEAN|0.19||0.49|TWO_SIDED|90.0|0.59|1.25|||Mixed Models Analysis|||||1.25|0.59|0.49
82401267|NCT02081001|164511130|SUPERIORITY_OR_OTHER||Point estimate ratio|1.37|STANDARD_ERROR_OF_MEAN|0.34||0.23|TWO_SIDED|90.0|0.88|2.12|||Mixed Models Analysis|||||2.12|0.88|0.23
82401268|NCT02081001|164511130|SUPERIORITY_OR_OTHER||Point estimate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.18||0.09|TWO_SIDED|90.0|1.01|1.65|||Mixed Models Analysis|||||1.65|1.01|0.09
82401269|NCT02081001|164511130|SUPERIORITY_OR_OTHER||Point estimate ratio|1.36|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|90.0|1.11|1.67|||Mixed Models Analysis|||||1.67|1.11|0.02
82401270|NCT02081001|164511131|SUPERIORITY_OR_OTHER||Point estimate ratio|1.26|STANDARD_ERROR_OF_MEAN|0.19||0.15|TWO_SIDED|90.0|0.97|1.64|||Mixed Models Analysis|||||1.64|0.97|0.15
82401271|NCT02081001|164511131|SUPERIORITY_OR_OTHER||Point estimate ratio|1.29|STANDARD_ERROR_OF_MEAN|0.26||0.24|TWO_SIDED|90.0|0.9|1.84|||Mixed Models Analysis|||||1.84|0.90|0.24
82401272|NCT02081001|164511131|SUPERIORITY_OR_OTHER||Point estimate ratio|0.83|STANDARD_ERROR_OF_MEAN|0.15||0.31|TWO_SIDED|90.0|0.6|1.14|||Mixed Models Analysis|||||1.14|0.60|0.31
82530577|NCT01461993|164757815|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.62|0.81||||||HPV-18||0.81|0.62|
82530578|NCT01461993|164757816|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.85|1.0||||||PMB80 \[A22\]||1.00|0.85|
82530579|NCT01461993|164757816|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.84|1.01||||||PMB2948 \[B24\]||1.01|0.84|
82445568|NCT00257660|164599663|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.66||||0.002||95.0|1.73|7.58||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|ANCOVA|Treatment group, baseline SF-36 physical health summary score, center and previous treatment by botulinum toxin or not were fitted in ANCOVA model.|Analysis at baseline (and on change at Week 8) excludes 3 subjects (and 37 subjects respectively) of ITT population who were not assessed. Mean difference=difference in adjusted least squares mean (Dysport-placebo)|||7.58|1.73|0.002
82530580|NCT00680056|164757827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|56.0|STANDARD_DEVIATION|60.0||0.038||95.0|||||t-test, 2 sided||Mean difference= Formoterol plus Tiotropium minus Formoterol plus Placebo(Tiotropium)|It was calculated a total sample size of a 2x2 cross-over design as 24 for a two-sided t-test achieves 85% power to infer that the mean difference is not zero, the actual mean difference is 20, the standard deviation of the differences is 15, and the significance level is 0.05||||0.038
82530581|NCT00680056|164757828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88|STANDARD_DEVIATION|2.39||0.054||95.0|||||t-test, 2 sided||Mean difference=Arm 2 minus Arm 1|||||0.054
82375880|NCT00261443|164457921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison, Change from Baseline in Heart Rate at Week 52 (LOCF)||||0.386
82375881|NCT00261443|164457921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.405||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Highest Value of Change in Heart Rate, Phase 3||||0.405
82375882|NCT00261443|164457921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.253||95.0||||Wilcoxon Rank Sum Test stratified by mood stabilizer|Wilcoxon Rank Sum Test|||Treatment Comparison Lowest Value of Change in Heart Rate, Phase 3||||0.253
82375883|NCT00261443|164457922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.514|TWO_SIDED|95.0|-0.12|0.23||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.23|-0.12|0.514
82375884|NCT00261443|164457922|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.362|TWO_SIDED|95.0|-0.14|0.38||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||0.38|-0.14|0.362
82375885|NCT00261443|164457923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.904|TWO_SIDED|95.0|-0.04|0.04||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.04|-0.04|0.904
82375886|NCT00261443|164457923|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.222|TWO_SIDED|95.0|-0.03|0.11||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||0.11|-0.03|0.222
82375887|NCT00261443|164457924|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.808|TWO_SIDED|95.0|-0.03|0.04||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.04|-0.03|0.808
82375888|NCT00261443|164457924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.771||95.0||||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change Treatment Difference||||0.771
82375889|NCT00261443|164457925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01||||0.576|TWO_SIDED|95.0|-0.05|0.03||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.03|-0.05|0.576
82375890|NCT00261443|164457925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.636|TWO_SIDED|95.0|-0.05|0.08||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value treatment Difference||0.08|-0.05|0.636
82375891|NCT00261443|164457926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.774|TWO_SIDED|95.0|-0.06|0.08||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Week 52 LOCF Treatment Difference||0.08|-0.06|0.774
82375892|NCT00261443|164457926|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.04||||0.444|TWO_SIDED|95.0|-0.06|0.14||ANOVA model, controlling for treatment and mood stabilizer, is used for baseline. ANCOVA model, controlling for treatment, mood stabilizer, and baseline value, is used for mean change from baseline.|ANOVA/ANCOVA|Means, differences in means, 95% CI for the differences and p-values are based on the ANOVA/ANCOVA model.||Highest Value of Change, Treatment Difference||0.14|-0.06|0.444
82375893|NCT00605540|164457962|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|||All data were analyzed using SigmaStat 3.2 (Inc., USA) software. Mean ± SD or median interquartile range (25-75%) was used depending on the data distribution. Wilcoxon test was applied to compare the characteristics at baseline to those observed after 3 years.||||0.09
82530582|NCT01304082|164757829|SUPERIORITY_OR_OTHER|||||||0.7535||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||0.7535
82530583|NCT01304082|164757830|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
82530584|NCT01304082|164757831|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
82530585|NCT01304082|164757832|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Bonferroni correction for pairwise comparisons|non-parametric Friedman ANOVA test|||"Analysis: Non-parametric Friedman ANOVA test on rank-transformed outcome with Bonferroni correction for pairwise comparisons.~Null hypothesis: No difference between the groups"||||<0.0001
82530586|NCT02733042|164757833|OTHER|||||||||||||||||The safety review committee identified a preliminary recommended Phase 2 dose (RP2D) for each dose finding cohort based on an integrated assessment of the safety, pharmacokinetic, pharmacodynamic, and preliminary efficacy (as available).|For Arm B, ibrutinib 420 mg was confirmed as the RP2D for CLL/SLL participants and ibrutinib 560 mg was confirmed as the RP2D for MCL participants.|||
82530587|NCT02733042|164757833|OTHER|||||||||||||||||The safety review committee identified a preliminary recommended Phase 2 dose (RP2D) for each dose finding cohort based on an integrated assessment of the safety, pharmacokinetic, pharmacodynamic, and preliminary efficacy (as available).|For Arm C the RP2D was confirmed as rituximab 375 mg/m² + bendamustine 70 mg/m².|||
82530588|NCT05064735|164757916|SUPERIORITY||Estimated Treatment Difference|-10.48|||<|0.0001|TWO_SIDED|95.0|-12.34|-8.63|||ANCOVA|||The responses at week 68 were analyzed using an analysis of covariance model with randomized treatment as factor and baseline body weight as covariate.||-8.63|-12.34|<0.0001
82645806|NCT03111407|165007021|EQUIVALENCE|Data analyzed with SAS Enterprise Guided (version 7.15 HF3, SAS lnstitute lnc., Cary, NC). Significance level set with q = 0.05. Continuous data (e.g. age, weight, EQ-5D) were summarized using mean, standard deviation, minimum, median, maximum and number of observations. Comparison between continuous baseline and patient visits were performed using standard statistical tests (e.g., a t-test, Wilcoxon test, or one-way ANOVA (as appropriate) were performed as required to evaluate the difference).||||||0.4549|||||||t-test, 2 sided|||EQ-5D score 1 year post surgery: Mean+/- SD (N)(Min, Max) 95%C.I (lower, upper) iAssist group: 0.8 +/- 0.2 \[29\] (0.0, 1.0, 1.0), 95% C.I. (0.7, 0.9) Conventional group: 0.8 +/- 0.3 \[20\] (0.1, 0.8, 1.0), 95% C.I. (0.7, 0.9)||||0.4549
82401273|NCT02081001|164511132|SUPERIORITY_OR_OTHER||Point estimate ratio|1.18|STANDARD_ERROR_OF_MEAN|0.11||0.09|TWO_SIDED|90.0|1.01|1.39|||Mixed Models Analysis|||||1.39|1.01|0.09
82645807|NCT00854607|165007024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.166|TWO_SIDED|90.0|-0.2|0.77||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.77|-0.20|0.166
82645808|NCT00854607|165007025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.269|TWO_SIDED|90.0|-0.65|0.3||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.30|-0.65|0.269
82645809|NCT00854607|165007026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.101|TWO_SIDED|90.0|-0.06|0.44||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.44|-0.06|0.101
82401274|NCT02081001|164511132|SUPERIORITY_OR_OTHER||Point estimate ratio|1.12|STANDARD_ERROR_OF_MEAN|0.12||0.29|TWO_SIDED|90.0|0.93|1.35|||Mixed Models Analysis|||||1.35|0.93|0.29
82401275|NCT02081001|164511132|SUPERIORITY_OR_OTHER||Point estimate ratio|1.11|STANDARD_ERROR_OF_MEAN|0.09||0.24|TWO_SIDED|90.0|0.96|1.28|||Mixed Models Analysis|||||1.28|0.96|0.24
82401276|NCT02081001|164511133|SUPERIORITY_OR_OTHER||Point estimate ratio|0.91|STANDARD_ERROR_OF_MEAN|0.22||0.7|TWO_SIDED|90.0|0.6|1.38|||Mixed Models Analysis|||||1.38|0.60|0.70
82401277|NCT02081001|164511133|SUPERIORITY_OR_OTHER||Point estimate ratio|1.26|STANDARD_ERROR_OF_MEAN|0.21||0.19|TWO_SIDED|90.0|0.94|1.68|||Mixed Models Analysis|||||1.68|0.94|0.19
82401278|NCT02081001|164511133|SUPERIORITY_OR_OTHER||Point estmate ratio|1.45|STANDARD_ERROR_OF_MEAN|0.26||0.052|TWO_SIDED|90.0|1.07|1.98|||Mixed Models Analysis|||||1.98|1.07|0.052
82530589|NCT05064735|164757917|SUPERIORITY||Estimated Treatment Difference|-14.14|||<|0.0001|TWO_SIDED|95.0|-19.98|-8.3|||ANCOVA|||The responses at week 68 were analyzed using an analysis of covariance model with randomized treatment as factor and baseline WOMAC pain score as covariate.||-8.30|-19.98|<0.0001
82530590|NCT01396395|164757941|SUPERIORITY_OR_OTHER||Ratio|0.503|||<|0.0001|TWO_SIDED|95.0|0.435|0.581|||poisson regression: Non-calibration mode|||||0.581|0.435|<0.0001
82530591|NCT01396395|164757941|SUPERIORITY_OR_OTHER||Ratio|0.503|||=|0.0086|TWO_SIDED|95.0|0.301|0.84|||Poisson regression: Calibration model|||||0.840|0.301|=0.0086
82530592|NCT00337662|164757957|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Between-group p-values for each baseline to post-baseline visit were the same, p\<0.001.|Mixed Effects Model Repeated Measures|||||||<0.001
82530593|NCT00337662|164757958|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Change from Week 2 to Week 3 p-value|Mixed-Effects Model Repeated-Measures|||||||0.266
82530594|NCT00337662|164757958|SUPERIORITY_OR_OTHER|||||||0.884||95.0||||Change from Week 2 to Week 4 p-value|Mixed-Effects Model Repeated-Measures|||||||0.884
82530595|NCT00337662|164757958|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||Change from Week 2 to Week 6 p-value|Mixed-Effects Model Repeated-Measures|||||||0.151
82530596|NCT00337662|164757958|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Change from Week 2 to Week 8 p-value|Mixed-Effects Model Repeated-Measures|||||||0.216
82530597|NCT00337662|164757958|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Change from Week 2 to Week 12 p-value|Mixed-Effects Model Repeated-Measures|||||||0.020
82530598|NCT00337662|164757959|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82530599|NCT00337662|164757960|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||Fisher Exact|||||||0.604
82530600|NCT00337662|164757961|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82645810|NCT00854607|165007027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.457|TWO_SIDED|90.0|-0.42|0.47||One-Sided P-Value|t-test, 1 sided|||Mean Difference Between Non-Responders and Responders||0.47|-0.42|0.457
82401279|NCT02081001|164511134|SUPERIORITY_OR_OTHER||Point estimate ratio|2.02|STANDARD_ERROR_OF_MEAN|0.95||0.16|TWO_SIDED|90.0|0.87|4.66|||Mixed Models Analysis|||||4.66|0.87|0.16
82401280|NCT02081001|164511134|SUPERIORITY_OR_OTHER||Point estimate ratio|1.31|STANDARD_ERROR_OF_MEAN|0.49||0.48|TWO_SIDED|90.0|0.68|2.54|||Mixed Models Analysis|||||2.54|0.68|0.48
82401281|NCT02081001|164511134|SUPERIORITY_OR_OTHER||Point estimate ratio|0.8|STANDARD_ERROR_OF_MEAN|0.16||0.28|TWO_SIDED|90.0|0.57|1.13|||Mixed Models Analysis|||||1.13|0.57|0.28
82401282|NCT02081001|164511135|SUPERIORITY_OR_OTHER||Point estimate ratio|1.06|STANDARD_ERROR_OF_MEAN|0.12||0.61|TWO_SIDED|90.0|0.87|1.3|||Mixed Models Analysis|||||1.30|0.87|0.61
82401283|NCT02081001|164511135|SUPERIORITY_OR_OTHER||Point estimate ratio|1.19|STANDARD_ERROR_OF_MEAN|0.16||0.22|TWO_SIDED|90.0|0.94|1.5|||Mixed Models Analysis|||||1.5|0.94|0.22
82445569|NCT00257660|164599664|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|7.206|||<|0.0001||95.0|3.01|17.26||A hierarchical testing procedure was applied for the primary and secondary outcome measures ranked in the order of priority listed. At each step of the hierarchical testing procedure, there was one comparison and p\<0.05 was considered significant.|odds ratio|The odds ratio represents the odds of success on Dysport versus Placebo stratified for strata and country||The number of participants considered treatment successes was analysed using a logistic model with treatment, strata (naive or non-naive) and center as factors in the model.||17.26|3.01|<0.0001
82445570|NCT03869333|164599698|OTHER|||||||0.504|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.504
82645811|NCT00854607|165007028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.168|TWO_SIDED|90.0|-0.87|0.23||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.23|-0.87|0.168
82401284|NCT02081001|164511135|SUPERIORITY_OR_OTHER||Point estimate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.12||0.26|TWO_SIDED|90.0|0.66|1.09|||Mixed Models Analysis|||||1.09|0.66|0.26
82401285|NCT02081001|164511136|SUPERIORITY_OR_OTHER||Point estimate ratio|1.18|STANDARD_ERROR_OF_MEAN|0.14||0.19|TWO_SIDED|90.0|0.96|1.46|||Mixed Models Analysis|||||1.46|0.96|0.19
82401286|NCT02081001|164511136|SUPERIORITY_OR_OTHER||Point estimate ratio|1.15|STANDARD_ERROR_OF_MEAN|0.12||0.21|TWO_SIDED|90.0|0.95|1.38|||Regression, Cox|||||1.38|0.95|0.21
82401287|NCT02081001|164511136|SUPERIORITY_OR_OTHER||Point estimate ratio|1.13|STANDARD_ERROR_OF_MEAN|0.1||0.19|TWO_SIDED|90.0|0.97|1.31|||Mixed Models Analysis|||||1.31|0.97|0.19
82401288|NCT02081001|164511137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.4||0.24|TWO_SIDED|95.0|-17.1|4.3|||Mixed Models Analysis|||||4.3|-17.1|0.24
82401289|NCT02081001|164511137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4|STANDARD_ERROR_OF_MEAN|5.4||0.0005|TWO_SIDED|95.0|-30.1|-8.7|||Mixed Models Analysis|||||-8.7|-30.1|0.0005
82401290|NCT02081001|164511137|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.3|STANDARD_ERROR_OF_MEAN|5.4|<|0.0001|TWO_SIDED|95.0|-34.0|-12.6|||Mixed Models Analysis|||||-12.6|-34.0|<0.0001
82401291|NCT02081001|164511138|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|1.6||0.22|TWO_SIDED|95.0|-5.1|1.2|||Mixed Models Analysis|||||1.2|-5.1|0.22
82401292|NCT02081001|164511138|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.6||0.58|TWO_SIDED|95.0|-4.0|2.3|||Mixed Models Analysis|||||2.3|-4.0|0.58
82401293|NCT02081001|164511138|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6|STANDARD_ERROR_OF_MEAN|1.6||0.03|TWO_SIDED|95.0|-6.7|-0.4|||Mixed Models Analysis|||||-0.4|-6.7|0.03
82401294|NCT01765569|164511139|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.82|||||TWO_SIDED|90.0|1.63|2.02||||||||2.02|1.63|
82401295|NCT01765569|164511143|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.47|||||TWO_SIDED|90.0|1.3|1.65||||||||1.65|1.3|
82401296|NCT02432209|164511167|SUPERIORITY||Risk Ratio (RR)|0.81||||0.404|TWO_SIDED|95.0|0.48|1.34|||Chi-squared|||||1.34|0.48|0.404
82401297|NCT03681184|164511182|SUPERIORITY||Difference in Least Squares (LS) Mean|-53.546|STANDARD_ERROR_OF_MEAN|4.3224|<|0.0001|TWO_SIDED|95.0|-62.314|-44.778||P=1.685E-14|MMRM|||The Mixed-Effect Model Repeated Measures (MMRM) includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate corrected for BSA as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-44.778|-62.314|<0.0001
82401298|NCT03681184|164511183|SUPERIORITY||Difference in LS Mean|-0.975|STANDARD_ERROR_OF_MEAN|0.0998|<|0.0001|TWO_SIDED|95.0|-1.177|-0.772||P=1.225E-11|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate corrected for BSA as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-0.772|-1.177|<0.0001
82401299|NCT03681184|164511184|SUPERIORITY||Difference in LS Mean|-51.7718|STANDARD_ERROR_OF_MEAN|6.16118|<|0.0001|TWO_SIDED|95.0|-64.2653|-39.2784||P=5.032E-10|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline 24-hour urinary oxalate:creatinine ratio as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-39.2784|-64.2653|<0.0001
82401300|NCT03681184|164511185|SUPERIORITY||Difference in Proportions|0.84|||<|0.0001|TWO_SIDED|95.0|0.55|0.94||P=8.341E-07|Cochran-Mantel-Haenszel|||The proportion of participants (lumasiran vs. placebo) with 24-hour urinary oxalate ≤1.5 x ULN at Month 6 is analyzed using the Cochran-Mantel-Haenszel test, stratified by baseline 24-hour urinary oxalate corrected for BSA (≤1.70 mmol/24hr/1.73m\^2 vs. \>1.70 mmol/24hr/1.73m\^2). The difference in proportion (lumasiran vs. placebo) and the corresponding 95% confidence interval are calculated using the Newcombe method, based on the Wilson score.||0.94|0.55|<0.0001
82445571|NCT03869333|164599698|OTHER|||||||0.01|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 22||||0.010
82445572|NCT03869333|164599698|OTHER|||||||0.038|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 43||||0.038
82445573|NCT03869333|164599698|OTHER|||||||0.016|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.016
82445574|NCT03869333|164599698|OTHER|||||||0.058|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 57||||0.058
82445575|NCT03869333|164599698|OTHER|||||||0.038|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 71||||0.038
82445576|NCT03869333|164599699|OTHER|||||||0.129|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.129
82445577|NCT03869333|164599699|OTHER|||||||0.017|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 22||||0.017
82445578|NCT03869333|164599699|OTHER|||||||0.008|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 43||||0.008
82445579|NCT03869333|164599699|OTHER|||||||0.011|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.011
82445580|NCT03869333|164599699|OTHER|||||||0.029|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 57||||0.029
82445581|NCT03869333|164599699|OTHER|||||||0.042|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 71||||0.042
82445582|NCT03869333|164599700|OTHER|||||||0.226|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.226
82445583|NCT03869333|164599700|OTHER|||||||0.601|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 8||||0.601
82445584|NCT03869333|164599700|OTHER|||||||0.628|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 29||||0.628
82445585|NCT03869333|164599700|OTHER|||||||0.878|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.878
82445586|NCT03869333|164599701|OTHER|||||||0.762|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Baseline||||0.762
82445587|NCT03869333|164599701|OTHER|||||||0.335|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 8||||0.335
82445588|NCT03869333|164599701|OTHER|||||||0.229|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 29||||0.229
82445589|NCT03869333|164599701|OTHER|||||||0.102|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMT at Day 50||||0.102
82445590|NCT03869333|164599702|OTHER|||||||0.828|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 22.||||0.828
82445591|NCT03869333|164599702|OTHER|||||||0.629|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 43||||0.629
82445592|NCT03869333|164599702|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||>0.999
82445593|NCT03869333|164599702|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 57||||>0.999
82445594|NCT03869333|164599702|OTHER|||||||0.825|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 71||||0.825
82445595|NCT03869333|164599703|OTHER|||||||0.005|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 22.||||0.005
82445596|NCT03869333|164599703|OTHER|||||||0.082|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 43||||0.082
82445597|NCT03869333|164599703|OTHER|||||||0.293|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.293
82445598|NCT03869333|164599703|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 57||||>0.999
82445599|NCT03869333|164599703|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail test of the difference between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 71||||>0.999
82445600|NCT03869333|164599704|OTHER|||||||0.828|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 8||||0.828
82445601|NCT03869333|164599704|OTHER|||||||0.913|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 29||||0.913
82445602|NCT03869333|164599704|OTHER|||||||0.924|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.924
82445603|NCT03869333|164599705|OTHER||||||>|0.999|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 8||||>0.999
82445604|NCT03869333|164599705|OTHER|||||||0.412|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 29||||0.412
82445605|NCT03869333|164599705|OTHER|||||||0.847|||||||Fisher Exact|||Fisher's exact 2-tail tests of differences between the 3 Invaplex\[AR-Detox\] dose groups in seroconversion rates at Day 50||||0.847
82445606|NCT03869333|164599706|OTHER|||||||0.009|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 22||||0.009
82445607|NCT03869333|164599706|OTHER|||||||0.037|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 43||||0.037
82445608|NCT03869333|164599706|OTHER|||||||0.009|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.009
82445609|NCT03869333|164599706|OTHER|||||||0.036|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 57||||0.036
82445610|NCT03869333|164599706|OTHER|||||||0.042|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 71||||0.042
82445611|NCT03869333|164599707|OTHER|||||||0.028|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 22||||0.028
82445612|NCT03869333|164599707|OTHER|||||||0.088|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 43||||0.088
82445613|NCT03869333|164599707|OTHER|||||||0.146|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.146
82445614|NCT03869333|164599707|OTHER|||||||0.126|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 57||||0.126
82445615|NCT03869333|164599707|OTHER|||||||0.273|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 71||||0.273
82445616|NCT03869333|164599709|OTHER|||||||0.348|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 8||||0.348
82445617|NCT03869333|164599709|OTHER|||||||0.179|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 29||||0.179
82445618|NCT03869333|164599709|OTHER|||||||0.089|||||||Kruskal-Wallis|||Kruskal-Wallis test of any difference between the 3 active dose groups in GMFR at Day 50||||0.089
82445619|NCT02598128|164599712|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|The independent variables in the mixed model analysis included fixed effect factors for treatment (placebo or RELiZORB).||||||<0.001
82445620|NCT01064687|164599726|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.22|-0.88||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.88|-1.22|<0.001
82445621|NCT01064687|164599726|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.39||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.39|-0.66|<0.0001
82445622|NCT01064687|164599726|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.84|||<|0.001|TWO_SIDED|95.0|-1.01|-0.67||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.67|-1.01|<0.001
82530601|NCT00337662|164757962|SUPERIORITY_OR_OTHER|||||||0.745||95.0|||||Fisher Exact|||||||0.745
82530602|NCT00337662|164757963|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Fisher Exact|||||||0.474
82445623|NCT01064687|164599726|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.66|-0.39||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.39|-0.66|<0.001
82445624|NCT01064687|164599726|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.18|-0.44|<0.001
82445625|NCT01064687|164599726|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.18|-0.44|<0.001
82445626|NCT01064687|164599727|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.39|-0.73|<0.001
82445627|NCT01064687|164599727|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.44|-0.11||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.11|-0.44|<0.001
82445628|NCT01064687|164599727|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||P-value is adjusted for multiplicity based on a tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.39|-0.73|<0.001
82530603|NCT00337662|164757964|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.034
82445629|NCT01064687|164599727|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.44|-0.11||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.11|-0.44|<0.001
82445630|NCT01064687|164599728|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.72|||<|0.001|TWO_SIDED|95.0|-3.58|-1.85|||Mixed Models Analysis|||||-1.85|-3.58|<0.001
82445631|NCT01064687|164599728|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.571|TWO_SIDED|95.0|-0.88|0.49|||Mixed Models Analysis|||||0.49|-0.88|0.571
82445632|NCT01064687|164599728|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.19||||0.007|TWO_SIDED|95.0|-2.06|-0.33|||Mixed Models Analysis|||||-0.33|-2.06|0.007
82530604|NCT00337662|164757964|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.125
82530605|NCT00337662|164757965|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||All comparisons between EO-RIS and NEO-RIS and between NEO-RIS and NEO-OLZ had p-values greater than 0.05.|Fisher Exact|||||||>0.05
82530606|NCT00337662|164757966|SUPERIORITY_OR_OTHER|||||||0.355||95.0|||||ANOVA|p-value is from ANOVA with treatment and pooled investigator in the model.||||||0.355
82530607|NCT00337662|164757966|SUPERIORITY_OR_OTHER|||||||0.244||95.0|||||ANOVA|p-value is from ANOVA with treatment and pooled investigator in the model.||||||0.244
82530608|NCT00337662|164757967|SUPERIORITY_OR_OTHER|||||||0.998||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.998
82530609|NCT00337662|164757967|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.505
82530610|NCT00337662|164757968|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.266
82530611|NCT00337662|164757968|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANOVA|P-value is from ANOVA with treatment and pooled investigator in the model.||||||0.015
82445633|NCT01064687|164599728|SUPERIORITY_OR_OTHER||LS Mean Difference|1.33|||<|0.001|TWO_SIDED|95.0|0.64|2.01|||Mixed Models Analysis|||||2.01|0.64|<0.001
82445634|NCT01064687|164599728|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.52|||<|0.001|TWO_SIDED|95.0|-3.39|-1.65|||Mixed Models Analysis|||||-1.65|-3.39|<0.001
82445635|NCT01064687|164599729|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32||||0.507|TWO_SIDED|95.0|-1.25|0.62|||Mixed Models Analysis|||||0.62|-1.25|0.507
82445636|NCT01064687|164599729|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25||||0.009|TWO_SIDED|95.0|0.32|2.19|||Mixed Models Analysis|||||2.19|0.32|0.009
82445637|NCT01064687|164599730|SUPERIORITY_OR_OTHER||LS Means Difference|-0.97|||<|0.001|TWO_SIDED|95.0|-1.27|-0.67|||Mixed Models Analysis|||||-0.67|-1.27|<0.001
82445638|NCT01064687|164599730|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.568|TWO_SIDED|95.0|-0.31|0.17|||Mixed Models Analysis|||||0.17|-0.31|0.568
82445639|NCT01064687|164599730|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42||||0.006|TWO_SIDED|95.0|-0.72|-0.12|||Mixed Models Analysis|||||-0.12|-0.72|0.006
82445640|NCT01064687|164599730|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|||<|0.001|TWO_SIDED|95.0|0.24|0.71|||Mixed Models Analysis|||||0.71|0.24|<0.001
82445641|NCT01064687|164599730|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|||<|0.001|TWO_SIDED|95.0|-1.2|-0.6|||Mixed Models Analysis|||||-0.60|-1.20|<0.001
82445642|NCT01064687|164599731|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.58|TWO_SIDED|95.0|-0.42|0.23|||Mixed Models Analysis|||||0.23|-0.42|0.580
82445643|NCT01064687|164599731|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46||||0.005|TWO_SIDED|95.0|0.14|0.79|||Mixed Models Analysis|||||0.79|0.14|0.005
82445644|NCT01064687|164599732|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.76|||<|0.001|TWO_SIDED|95.0|-34.5|-23.02|||Mixed Models Analysis|||||-23.02|-34.50|<0.001
82645812|NCT00854607|165007029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.127|TWO_SIDED|90.0|-0.09|0.46||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.46|-0.09|0.127
82445645|NCT01064687|164599732|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.34|||<|0.001|TWO_SIDED|95.0|-13.62|-5.06|||Mixed Models Analysis|||||-5.06|-13.62|<0.001
82445646|NCT01064687|164599732|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.02|||<|0.001|TWO_SIDED|95.0|-29.8|-18.24|||Mixed Models Analysis|||||-18.24|-29.80|<0.001
82445647|NCT01064687|164599732|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.61||||0.038|TWO_SIDED|95.0|-8.95|-0.27|||Mixed Models Analysis|||||-0.27|-8.95|0.038
82445648|NCT01064687|164599732|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.41|||<|0.001|TWO_SIDED|95.0|-25.18|-13.65|||Mixed Models Analysis|||||-13.65|-25.18|<0.001
82445649|NCT01064687|164599733|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.68||||0.004|TWO_SIDED|95.0|-12.84|-2.52|||Mixed Models Analysis|||||-2.52|-12.84|0.004
82445650|NCT01064687|164599733|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.47||||0.092|TWO_SIDED|95.0|-9.66|0.73|||Mixed Models Analysis|||||0.73|-9.66|0.092
82445651|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.1|||<|0.001|TWO_SIDED|95.0|7.4|23.4||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||23.4|7.4|<0.001
82445652|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.2|||<|0.001|TWO_SIDED|95.0|3.9|10.1||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||10.1|3.9|<0.001
82445653|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.001|TWO_SIDED|95.0|2.8|8.0||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||8.0|2.8|<0.001
82445654|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.5|3.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||3.5|1.5|<0.001
82445655|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.004|TWO_SIDED|95.0|1.3|3.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||3.5|1.3|0.004
82445656|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.8|||<|0.001|TWO_SIDED|95.0|6.7|20.8||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||20.8|6.7|<0.001
82445657|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.9|6.8||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||6.8|2.9|<0.001
82445658|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.3|||<|0.001|TWO_SIDED|95.0|3.7|10.9||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||10.9|3.7|<0.001
82445659|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.6|3.5||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||3.5|1.6|<0.001
82445660|NCT01064687|164599734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.6|4.6||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||4.6|1.6|<0.001
82445661|NCT01064687|164599735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.001|TWO_SIDED|95.0|2.4|5.6||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||5.6|2.4|<0.001
82445662|NCT01064687|164599735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.008|TWO_SIDED|95.0|1.1|2.5||Treatment comparison for HbA1c less than 7.0%.|Regression, Logistic|||||2.5|1.1|0.008
82445663|NCT01064687|164599735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|2.3|5.1||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||5.1|2.3|<0.001
82445664|NCT01064687|164599735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.4|3.1||Treatment comparison for HbA1c less than or equal to 6.5%.|Regression, Logistic|||||3.1|1.4|<0.001
82445665|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|35.21|||<|0.001|TWO_SIDED|95.0|27.26|43.16||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||43.16|27.26|<0.001
82445666|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|21.12|||<|0.001|TWO_SIDED|95.0|14.97|27.28||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||27.28|14.97|<0.001
82445667|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|22.68|||<|0.001|TWO_SIDED|95.0|14.63|30.72||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||30.72|14.63|<0.001
82445668|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|8.59||||0.007|TWO_SIDED|95.0|2.31|14.87||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||14.87|2.31|0.007
82445669|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|14.09|||<|0.001|TWO_SIDED|95.0|6.06|22.11||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||22.11|6.06|<0.001
82401301|NCT03681184|164511186|SUPERIORITY||Difference in Proportions|0.52||||0.001|TWO_SIDED|95.0|0.23|0.7|||Cochran-Mantel-Haenszel|||The proportion of participants (lumasiran vs. placebo) with 24-hour urinary oxalate ≤ULN at Month 6 is analyzed using the Cochran-Mantel-Haenszel test, stratified by baseline 24-hour urinary oxalate corrected for BSA (≤1.70 mmol/24hr/1.73m\^2 vs. \>1.70 mmol/24hr/1.73m\^2). The difference in proportion (lumasiran vs. placebo) and the corresponding 95% confidence interval are calculated using the Newcombe method, based on the Wilson score.||0.70|0.23|0.0010
82445670|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.7||||0.207|TWO_SIDED|95.0|-14.56|3.17||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||3.17|-14.56|0.207
82401302|NCT03681184|164511187|SUPERIORITY||Difference in LS Mean|-39.48|STANDARD_ERROR_OF_MEAN|5.181|<|0.0001|TWO_SIDED|95.0|-50.1|-28.87||P=2.862E-08|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline plasma oxalate as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-28.87|-50.10|<0.0001
82401303|NCT03681184|164511188|SUPERIORITY||Difference in LS Mean|-8.71|STANDARD_ERROR_OF_MEAN|1.338|<|0.0001|TWO_SIDED|95.0|-11.45|-5.98||P=3.893E-07|MMRM|||The MMRM includes fixed effects of treatment arms (lumasiran vs. placebo) and scheduled visits (months 3, 4, 5, and 6), baseline plasma oxalate as a continuous fixed covariate, and patient as a random effect. The variance-covariance matrix is assumed to be unstructured. Satterthwaite approximation is used to estimate denominator degrees of freedom.||-5.98|-11.45|<0.0001
82401304|NCT03162328|164511204|SUPERIORITY|||||||0.363|||||||Wilcoxon Signed Ranks Test|||||||0.363
82445671|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54||||0.659|TWO_SIDED|95.0|-8.41|5.32||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||5.32|-8.41|0.659
82445672|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4||||0.759|TWO_SIDED|95.0|-10.37|7.56||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||7.56|-10.37|0.759
82445673|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|2.75||||0.441|TWO_SIDED|95.0|-4.25|9.76||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||9.76|-4.25|0.441
82401305|NCT03162328|164511205|SUPERIORITY|||||||0.291|||||||Wilcoxon Signed Ranks Test|||||||0.291
82445674|NCT01064687|164599736|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.15||||0.362|TWO_SIDED|95.0|-13.1|4.79||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||4.79|-13.10|0.362
82445675|NCT01064687|164599737|SUPERIORITY_OR_OTHER||LS Mean Difference|21.64|||<|0.001|TWO_SIDED|95.0|15.2|28.08||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||28.08|15.20|<0.001
82445676|NCT01064687|164599737|SUPERIORITY_OR_OTHER||LS Mean Difference|12.12|||<|0.001|TWO_SIDED|95.0|5.56|18.68||Treatment comparison of HOMA2-B|Mixed Models Analysis|||||18.68|5.56|<0.001
82445677|NCT01064687|164599737|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.73||||0.307|TWO_SIDED|95.0|-10.9|3.43||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||3.43|-10.90|0.307
82401306|NCT03275389|164511256|EQUIVALENCE|The use of the adjuvant (AS03) is to be considered justified if the lower limit of the 94.46% CI of the GMC ratio (adjuvanted vs non-adjuvanted) is \> 1.50|GMC ratio|2.47|||||TWO_SIDED|94.46|2.06|2.95|||Dunnett's t test|Comparison performed using a 2-sided alpha=0.1 and Dunnett adjustment for multiple comparisons,||To evaluate the adjuvant effect of AS03 (Pooling of results at Day 29 of D-SUIV Adjuvant Group 1, at Day 29 of D-SUIV Adjuvant Group 2 and Day 85 of D-SUIV Adjuvant Group 3) on the humoral immune response for anti-H1 stalk antibody by ELISA at Day 29 and Day 85 (i.e. 28 days post-vaccination) when compared to the non-adjuvanted formulations (Pooling of results at Day 29 of D-SUIV Unadjuvanted Group 1, at Day 29 of D-SUIV Unadjuvanted Group 2 and Day 85 of D-SUIV Unadjuvanted Group 3).||2.95|2.06|
82401307|NCT03275389|164511256|EQUIVALENCE|The use of the adjuvant (AS01) is to be considered justified if the lower limit of the 94.46% CI of the GMC ratio (adjuvanted vs non-adjuvanted) is \> 1.50|GMC ratio|1.75|||||TWO_SIDED|94.46|1.46|2.1|||Dunnett's t test|Comparison performed using a 2-sided alpha=0.1 and Dunnett adjustment for multiple comparisons,||To evaluate the adjuvant effect of AS01 (Pooling of results at Day 29 of D-SUIV Adjuvant Group 4, at Day 29 of D-SUIV Adjuvant Group 5 and Day 85 of D-SUIV Adjuvant Group 6) on the humoral immune response for anti-H1 stalk antibody by ELISA at Day 29 and Day 85 (i.e. 28 days post-vaccination) when compared to the non-adjuvanted formulations (Pooling of results at Day 29 of D-SUIV Unadjuvanted Group 1, at Day 29 of D-SUIV Unadjuvanted Group 2 and Day 85 of D-SUIV Unadjuvanted Group 3).||2.1|1.46|
82401308|NCT03749109|164511273|OTHER||Difference in LS mean|1.74||||0.78|TWO_SIDED|95.0|-10.45|13.94|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||13.94|-10.45|0.78
82401309|NCT03749109|164511273|OTHER||Difference in LS mean|3.35||||0.29|TWO_SIDED|95.0|-2.89|9.59|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||9.59|-2.89|0.29
82445678|NCT01064687|164599737|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.75||||0.638|TWO_SIDED|95.0|-9.05|5.55||Treatment comparison of HOMA2-S|Mixed Models Analysis|||||5.55|-9.05|0.638
82445679|NCT02299076|164599801|SUPERIORITY|Welch Two Sample t-test|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82445680|NCT02228096|164599826|OTHER||||||<|0.0001|||||||Clopper-Pearson|||||||<0.0001
82445681|NCT01969721|164599866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.103|0.147||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.147|0.103|<0.0001
82576206|NCT02209181|164862041|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|0.53||0.052|TWO_SIDED|95.0|-0.01|2.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.07|-0.01|0.052
82401310|NCT03749109|164511273|OTHER||Difference in LS mean|0.33||||0.95|TWO_SIDED|95.0|-10.33|10.99|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis||10.99|-10.33|0.95
82445682|NCT01969721|164599866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.129|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.107|0.15||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.150|0.107|<0.0001
82445683|NCT01969721|164599866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.081|0.124||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 2.5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.124|0.081|<0.0001
82445684|NCT01969721|164599866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.106|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.085|0.128||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-12h change from patient baseline (L)|"Null hypothesis: Mean FEV1 AUC 0-12h change from patient baseline (Tiotropium + Olodaterol 2.5/5 µg) = Mean FEV1 AUC 0-12h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 µg).~Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect."||0.128|0.085|<0.0001
82445685|NCT01969721|164599867|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.061|0.103||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.103|0.061|<0.0001
82445686|NCT01969721|164599867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.065|0.107||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.107|0.065|<0.0001
82448983|NCT00148941|164605242|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.901|||||TWO_SIDED|95.0|0.8|1.014|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of tetanus toxoid (T) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.014|0.800|
82401311|NCT03749109|164511274|OTHER||Difference in LS mean|-6.99||||0.65|TWO_SIDED|95.0|-36.8|22.82|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||22.82|-36.80|0.65
82401312|NCT03749109|164511274|OTHER||Difference in LS mean|-1.13||||0.92|TWO_SIDED|95.0|-22.77|20.51|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||20.51|-22.77|0.92
82401313|NCT03749109|164511274|OTHER||Difference in LS mean|-5.92||||0.74|TWO_SIDED|95.0|-40.94|29.1|||ANCOVA|ANCOVA adjusted for baseline lesion size.||||29.10|-40.94|0.74
82401314|NCT03749109|164511275|OTHER||Odds Ratio (OR)|1.04||||0.95|TWO_SIDED|95.0|0.38|2.82|||Regression, Logistic|||Endometrioma||2.82|0.38|0.95
82401315|NCT03749109|164511275|OTHER||Odds Ratio (OR)|0.55||||0.39|TWO_SIDED|95.0|0.14|2.17|||Regression, Logistic|||Adenomyosis||2.17|0.14|0.39
82401316|NCT03749109|164511276|OTHER||Odds Ratio (OR)|0.7||||0.6|TWO_SIDED|95.0|0.19|2.65|||Regression, Logistic|||Endometrioma||2.65|0.19|0.60
82401317|NCT03749109|164511276|OTHER||Odds Ratio (OR)|0.35||||0.21|TWO_SIDED|95.0|0.07|1.79|||Regression, Logistic|||Adenomyosis||1.79|0.07|0.21
82401318|NCT03749109|164511277|OTHER||Rate Ratio|2.53||||0.13|TWO_SIDED|95.0|0.76|8.39|||Negative-binomial regression|||Endometrioma - Disappearing Lesions||8.39|0.76|0.13
82401319|NCT03749109|164511277|OTHER||Rate Ratio|0.49||||0.56|TWO_SIDED|95.0|0.04|5.41|||Negative-binomial regression|||Adenomyosis - Disappearing Lesions||5.41|0.04|0.56
82401320|NCT03749109|164511278|OTHER||Difference in LS mean|0.23||||0.97|TWO_SIDED|95.0|-12.78|13.23|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||13.23|-12.78|0.97
82401321|NCT03749109|164511278|OTHER||Difference in LS mean|0.72||||0.74|TWO_SIDED|95.0|-3.63|5.07|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||5.07|-3.63|0.74
82401322|NCT03749109|164511279|OTHER||Difference in LS mean|10.13||||0.42|TWO_SIDED|95.0|-14.74|35.0|||ANCOVA|ANCOVA adjusted for baseline lesion size.||||35.00|-14.74|0.42
82401323|NCT03749109|164511280|OTHER||Difference in LS mean|1.09||||0.1|TWO_SIDED|95.0|-0.2|2.38|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma||2.38|-0.20|0.10
82401324|NCT03749109|164511280|OTHER||Difference in LS mean|0.28||||0.67|TWO_SIDED|95.0|-1.02|1.58|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE||1.58|-1.02|0.67
82401325|NCT03749109|164511280|OTHER||Difference in LS mean|0.32||||0.64|TWO_SIDED|95.0|-1.06|1.71|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis||1.71|-1.06|0.64
82401326|NCT03749109|164511281|OTHER||Difference in LS mean|0.21||||0.73|TWO_SIDED|95.0|-1.02|1.44|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 1||1.44|-1.02|0.73
82401327|NCT03749109|164511281|OTHER||Difference in LS mean|0.42||||0.54|TWO_SIDED|95.0|-0.97|1.82|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 2||1.82|-0.97|0.54
82401328|NCT03749109|164511281|OTHER||Difference in LS mean|-0.5||||0.46|TWO_SIDED|95.0|-1.86|0.85|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 3||0.85|-1.86|0.46
82401329|NCT03749109|164511281|OTHER||Difference in LS mean|0.53||||0.49|TWO_SIDED|95.0|-0.99|2.05|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 4||2.05|-0.99|0.49
82401330|NCT03749109|164511281|OTHER||Difference in LS mean|-0.01||||0.99|TWO_SIDED|95.0|-1.32|1.3|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 1||1.30|-1.32|0.99
82401331|NCT03749109|164511281|OTHER||Difference in LS mean|0.17||||0.83|TWO_SIDED|95.0|-1.38|1.71|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 2||1.71|-1.38|0.83
82401332|NCT03749109|164511281|OTHER||Difference in LS mean|-0.74||||0.28|TWO_SIDED|95.0|-2.11|0.63|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 3||0.63|-2.11|0.28
82401333|NCT03749109|164511281|OTHER||Difference in LS mean|0.75||||0.26|TWO_SIDED|95.0|-0.57|2.07|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 4||2.07|-0.57|0.26
82401334|NCT03749109|164511281|OTHER||Difference in LS mean|0.91||||0.19|TWO_SIDED|95.0|-0.49|2.31|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 1||2.31|-0.49|0.19
82401335|NCT03749109|164511281|OTHER||Difference in LS mean|0.07||||0.93|TWO_SIDED|95.0|-1.45|1.58|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 2||1.58|-1.45|0.93
82401336|NCT03749109|164511281|OTHER||Difference in LS mean|-0.13||||0.85|TWO_SIDED|95.0|-1.58|1.32|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 3||1.32|-1.58|0.85
82401337|NCT03749109|164511281|OTHER||Difference in LS mean|0.01||||0.99|TWO_SIDED|95.0|-1.68|1.69|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 4||1.69|-1.68|0.99
82401338|NCT03749109|164511282|OTHER||Difference in LS mean|-7.35||||0.75|TWO_SIDED|95.0|-53.97|39.27|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 2||39.27|-53.97|0.75
82401339|NCT03749109|164511282|OTHER||Difference in LS mean|17.31||||0.42|TWO_SIDED|95.0|-25.41|60.04|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Endometrioma at cycle 4||60.04|-25.41|0.42
82401340|NCT03749109|164511282|OTHER||Difference in LS mean|-17.66||||0.47|TWO_SIDED|95.0|-66.3|30.98|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 2||30.98|-66.30|0.47
82401341|NCT03749109|164511282|OTHER||Difference in LS mean|25.61||||0.27|TWO_SIDED|95.0|-21.05|72.27|||ANCOVA|ANCOVA adjusted for baseline lesion size.||DIE at cycle 4||72.27|-21.05|0.27
82401342|NCT03749109|164511282|OTHER||Difference in LS mean|-20.95||||0.41|TWO_SIDED|95.0|-71.83|29.92|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 2||29.92|-71.83|0.41
82401343|NCT03749109|164511282|OTHER||Difference in LS mean|2.25||||0.93|TWO_SIDED|95.0|-49.57|54.06|||ANCOVA|ANCOVA adjusted for baseline lesion size.||Adenomyosis at cycle 4||54.06|-49.57|0.93
82401344|NCT02526160|164511329|SUPERIORITY||||||<|0.0001||||||From Cochran-Mantel-Haenszel (CMH) testing for association between achieving mean serum phosphorus levels above lower limit of normal (LLN) and treatment group, adjusting for stratification of Brief Pain Inventory (BPI) Average Pain and region.|Cochran-Mantel-Haenszel|||||||< 0.0001
82530612|NCT00337662|164757969|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.140
82530613|NCT00337662|164757969|SUPERIORITY_OR_OTHER|||||||0.181||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.181
82401345|NCT02526160|164511330|SUPERIORITY||Least squares (LS) mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.275||0.0919|TWO_SIDED|95.0|-1.0|0.08||Prespecified significance level for test after Hochberg adjustment: 0.05|GEE model|||||0.08|-1.00|0.0919
82401346|NCT02526160|164511331|SUPERIORITY||LS mean difference|-8.31|STANDARD_ERROR_OF_MEAN|3.251||0.0106|TWO_SIDED|95.0|-14.68|-1.94||Prespecified significance level for test after Hochberg adjustment: 0.0167|GEE model|||||-1.94|-14.68|0.0106
82401347|NCT02526160|164511332|SUPERIORITY||LS mean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.479||0.0478|TWO_SIDED|95.0|-9.76|-0.05||Prespecified significance level for test after Hochberg adjustment: 0.025|GEE model|||||-0.05|-9.76|0.0478
82401348|NCT02576977|164511371|SUPERIORITY||Hazard Ratio (HR)|1.5||||0.99324|TWO_SIDED|95.0|1.08|2.08|||Log Rank|One-sided p-value based on Stratified log-rank test.|Based on Cox regression model with treatment as a covariate stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more).|||2.08|1.08|0.99324
82401349|NCT02576977|164511372|SUPERIORITY||Hazard Ratio (HR)|1.84||||0.99989|TWO_SIDED|95.0|1.32|2.55|||Log Rank|One-sided p-value based on Stratified log-rank test.|||The Hazard Ratio and 95% confidence intervals were based on Cox regression model with treatment as a covariate stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more).|2.55|1.32|0.99989
82401350|NCT02576977|164511373|SUPERIORITY||Difference in % vs. SOC|-5.2||||0.79921|TWO_SIDED|95.0|-17.1|6.9|||Miettinen & Nurminen method||||Based on Miettinen \& Nurminen method stratified by disease status (refractory vs. sensitive to Lenalidomide) and Lines of previous treatments (two vs. three or more); If there were no participants in one of the treatment groups involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison.|6.9|-17.1|0.79921
82401351|NCT02672176|164511384|EQUIVALENCE|Information included in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82645813|NCT00854607|165007030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.054|TWO_SIDED|90.0|-0.01|0.96||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.96|-0.01|0.054
82401352|NCT02672176|164511385|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401353|NCT02672176|164511386|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401354|NCT02672176|164511387|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401355|NCT02672176|164511388|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401356|NCT02672176|164511389|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401357|NCT02672176|164511390|EQUIVALENCE|See Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401358|NCT02672176|164511391|EQUIVALENCE|Information in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401359|NCT02672176|164511392|EQUIVALENCE|Information included in Statistical Analysis||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82401360|NCT01677182|164511472|SUPERIORITY_OR_OTHER||Least Squares Mean Differences|0.8|STANDARD_ERROR_OF_MEAN|0.98||0.783|TWO_SIDED|97.5|-1.4|3.0||Mixed Model Repeated Measures (MMRM) model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||3.0|-1.4|0.783
82401361|NCT01677182|164511472|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.97||0.329|TWO_SIDED|97.5|-2.6|1.7||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.7|-2.6|0.329
82401362|NCT01677182|164511473|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.27||0.088|TWO_SIDED|97.5|-0.1|1.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.1|-0.1|0.088
82401363|NCT01677182|164511473|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.642|TWO_SIDED|97.5|-0.7|0.5||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.5|-0.7|0.642
82401364|NCT01677182|164511474|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.792|TWO_SIDED|97.5|-0.2|0.3||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.3|-0.2|0.792
82401365|NCT01677182|164511474|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.171|TWO_SIDED|97.5|-0.4|0.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.1|-0.4|0.171
82401366|NCT01677182|164511475|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.653|TWO_SIDED|97.5|-0.2|0.3||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.3|-0.2|0.653
82401367|NCT01677182|164511475|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.673|TWO_SIDED|97.5|-0.3|0.2||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||0.2|-0.3|0.673
82401368|NCT01677182|164511476|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.51||0.119|TWO_SIDED|97.5|-0.4|2.0||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.0|-0.4|0.119
82401369|NCT01677182|164511476|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.791|TWO_SIDED|97.5|-1.3|1.0||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.0|-1.3|0.791
82401370|NCT01677182|164511477|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.422|TWO_SIDED|97.5|-1.0|2.1||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.1|-1.0|0.422
82401371|NCT01677182|164511477|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.7||0.655|TWO_SIDED|97.5|-1.3|1.9||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||1.9|-1.3|0.655
82401372|NCT01677182|164511478|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.64||0.696|TWO_SIDED|97.5|-4.5|2.8||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||2.8|-4.5|0.696
82401373|NCT01677182|164511478|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.63||0.472|TWO_SIDED|97.5|-3.6|3.8||MMRM model with baseline by week interaction, pooled center, week, treatment, baseline, and week by treatment interaction as factors was used for the analysis.|Mixed Model Repeated Measures|||||3.8|-3.6|0.472
82401374|NCT01677182|164511479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.998||||0.994|TWO_SIDED|95.0|0.651|1.53||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.530|0.651|0.994
82401375|NCT01677182|164511479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.886||||0.575|TWO_SIDED|95.0|0.58|1.352||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.352|0.580|0.575
82401376|NCT01677182|164511480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.978||||0.927|TWO_SIDED|95.0|0.606|1.577||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.577|0.606|0.927
82645814|NCT00854607|165007031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.285|TWO_SIDED|90.0|-0.41|0.83||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.83|-0.41|0.285
82401377|NCT01677182|164511480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.865||||0.553|TWO_SIDED|95.0|0.536|1.397||Odds ratio, 95% confidence intervals and p-values are analyzed from logistic regression with explanatory variables for treatment and baseline MADRS total score.|Regression, Logistic|||||1.397|0.536|0.553
82401378|NCT02501161|164511481|OTHER||||||<|0.0001|||||||Stratified log-rank test|||Test for no treatment difference was based on using a stratified log-rank test where treatment, baseline HbA1c group and pre-trial OAD treatment group were included as strata in the model.||||<.0001
82401379|NCT02501161|164511482|OTHER||||||<|0.0001|||||||Stratified log-rank test|||Test for no treatment difference was based on using a stratified log-rank test where treatment, baseline HbA1c group and pre-trial OAD treatment group were included as strata in the model.||||<.0001
82448984|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.938|||||TWO_SIDED|95.0|0.828|1.063|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.063|0.828|
82645815|NCT00854607|165007032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.159|TWO_SIDED|90.0|-0.27|1.08||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||1.08|-0.27|0.159
82645816|NCT00854607|165007033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.071|TWO_SIDED|90.0|-0.02|0.32||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.32|-0.02|0.071
82645817|NCT00854607|165007034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.078|TWO_SIDED|90.0|-0.03|0.38||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.38|-0.03|0.078
82645818|NCT00854607|165007035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.109|TWO_SIDED|90.0|-0.13|0.91||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.91|-0.13|0.109
82645819|NCT00854607|165007036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.03|TWO_SIDED|90.0|0.09|1.22||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||1.22|0.09|0.030
82645820|NCT00854607|165007037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.293|TWO_SIDED|90.0|-0.63|0.32||One-Sided P-value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.32|-0.63|0.293
82401380|NCT00947310|164511584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45||||0.01|TWO_SIDED|95.0|0.24|0.85|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||0.85|0.24|0.01
82401381|NCT00947310|164511584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.06|TWO_SIDED|95.0|0.3|1.02|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||1.02|0.30|0.06
82401382|NCT00947310|164511585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.39|TWO_SIDED|95.0|0.71|2.47|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||2.47|0.71|0.39
82645821|NCT00854607|165007038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.213|TWO_SIDED|90.0|-0.83|0.29||One-Sided P-Value|t-test, 1 sided|||Mean Difference between Non-Responders and Responders||0.29|-0.83|0.213
82645822|NCT01766310|165007046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68|STANDARD_DEVIATION|1.3||0.05|TWO_SIDED|95.0|-0.09|1.44|||t-test, 2 sided|||||1.44|-0.09|0.05
82401383|NCT00947310|164511585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.8|TWO_SIDED|95.0|0.58|2.05|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||2.05|0.58|0.80
82401384|NCT00947310|164511586|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.34|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm B. Null Hypothesis was that HR = 1||0.34|0.13|<0.001
82401385|NCT00947310|164511586|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.4|||Regression, Cox|||Hazard ratios (HR) were calculated to compare Arm A vs Arm C. Null Hypothesis was that HR = 1||0.40|0.15|<0.001
82401386|NCT03258645|164511603|OTHER||||||<|0.001|||||||Regression, Linear|||Univariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of National Institute of Health Stroke Scale (NIHSS) score at index date was applied.||||< 0.001
82401387|NCT03258645|164511604|OTHER|||||||0.01|||||||Regression, Linear|||Univariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of Modified Rankin Scale (mRS) at index date was applied.||||0.01
82645823|NCT02328404|165007085|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|Fisher Exact test was used||The participants in the treatment and placebo groups will be classified into two categories of prognosis (improved and not improved) and will be analyzed using Chi-square test, if Chi-square is higher than 3.84 (df=1) it will be statistically significant (p-value\</= 0.05)||||0.001
82645824|NCT02328404|165007086|SUPERIORITY_OR_OTHER||||||<|0||||||A P-value \< 0.05 would be considered statistically significant.|t-test, 2 sided|||Both arms where evaluated at which paired t-test for the mean difference in the two arm was calculated . where the serum 25-OH Vit D3 was measured at 0 day time and after the end of the study. after that a paired t-test where applied for the difference for the 25-OH VitD3 levels between the two time points||||<0.000
82645825|NCT02328404|165007087|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||t-test, 2 sided|||||||0.67
82645826|NCT02328404|165007088|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||||||0.51
82645827|NCT02328404|165007089|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
82645828|NCT02328404|165007090|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82645829|NCT02328404|165007091|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Chi-squared|||||||0.001
82645830|NCT02328404|165007092|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
82645831|NCT02328404|165007093|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
82645832|NCT02328404|165007094|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82445687|NCT01969721|164599867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.045|0.086||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.086|0.045|<0.0001
82445688|NCT01969721|164599867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.048|0.09||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 0-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 0-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 0-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.090|0.048|<0.0001
82445689|NCT01969721|164599868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|0.022|0.071||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.071|0.022|0.0002
82445690|NCT01969721|164599868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.082||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.082|0.034|<0.0001
82445691|NCT01969721|164599868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.012||0.0007|TWO_SIDED|95.0|0.018|0.067||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.067|0.018|0.0007
82445692|NCT01969721|164599868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.029|0.078||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean trough FEV1 change from patient baseline (L)|Null hypothesis: Mean trough FEV1 change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean trough FEV1 change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.078|0.029|<0.0001
82445693|NCT01969721|164599869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.039|STANDARD_ERROR_OF_MEAN|0.012||0.0007|TWO_SIDED|95.0|0.017|0.062||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated T+O 5/5 - F+S 250/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.062|0.017|0.0007
82448985|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.963|||||TWO_SIDED|95.0|0.85|1.091|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.091|0.850|
82645833|NCT02328404|165007095|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||t-test, 2 sided|||||||0.35
82401388|NCT03258645|164511605|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.13||||0.016|TWO_SIDED|95.0|1.02|1.25|||Regression, Linear|Relation between age and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.25|1.02|0.016
82401389|NCT03258645|164511606|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.12||||0.002|TWO_SIDED|95.0|1.04|1.21|||Regression, Linear|Relation between Diastolic blood pressure (DBP) and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.21|1.04|0.002
82401390|NCT03258645|164511607|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|1.1||||0.04|TWO_SIDED|95.0|1.0|1.21|||Regression, Linear|Relation between CHA2DS2-VASc and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.21|1.00|0.04
82530614|NCT00337662|164757970|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.254
82401391|NCT03258645|164511608|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|0.9||||0.051|TWO_SIDED|95.0|0.45|1.0|||Regression, Linear|Relation between HAS-BLED and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||1.00|0.45|0.051
82401392|NCT03258645|164511609|OTHER|CHA2DS2-VASc is the Congestive heart failure, Hypertension, Age (\> 75), Diabetes mellitus, Stroke/TIA, Vascular disease, Age 65-74, Sex Category score. HAS-BLED is the Hypertension, Abnormal renal and liver function, Stroke (1 point), Bleeding history or predisposition, Labile INR, Elderly (\>65 years), Drugs and Alcohol Score.|Odds Ratio (OR)|0.91||||0.026|TWO_SIDED|95.0|0.9|0.93|||Regression, Linear|Relation between History/Predisposition To Bleeding and dabigatran initiation time was reported.||Multivariate linear regression with the continuous dependent variable of time-to-initiation for dabigatran in days and independent variable of age, Diastolic blood pressure (DBP), CHA2DS2-VASc, HAS-BLED, and History/Predisposition To Bleeding at index date was applied.||0.93|0.9|0.026
82401393|NCT00320242|164511616|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|0.48||0.0152|TWO_SIDED|95.0|0.26|2.23|||t-test, 2 sided|two-tailed paired t-test||||2.23|0.26|0.0152
82401394|NCT00320242|164511617|SUPERIORITY||Mean Difference (Final Values)|50.0|STANDARD_ERROR_OF_MEAN|11.7||0.005|TWO_SIDED|95.0|23.9|76.1|||t-test, 2 sided|||||76.1|23.9|0.005
82401395|NCT00320242|164511618|SUPERIORITY||Mean Difference (Net)|1.11|STANDARD_DEVIATION|1.31||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-tailed Wilcoxan signed-rank sum test||two-tailed Wilcoxan signed-rank sum test||||0.02
82401396|NCT00320242|164511619|OTHER|The percentage change in falls was analyzed using a two-tailed one-sample t-test with a hypothesized mean of 0||||||0.002||||||Two-tailed one-sample t-test with a hypothesized mean of 0. This analysis was not adjusted for multiple comparisons.|t-test, 2 sided|||The percentage change in falls was analyzed using a two-tailed one-sample t-test with a hypothesized mean of 0||||0.002
82401397|NCT01724177|164511621|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||"A one sample binomial one sided exact test for the ORR (CR, CRu, or PR) was performed to provide the p-value (significance level: 0.05). The hypotheses of interest:~H0: ORR ≤ 5% versus H1: ORR \> 5%"|Exact Test|||||||<0.0001
82530615|NCT00337662|164757970|SUPERIORITY_OR_OTHER|||||||0.299||95.0|||||ANOVA|P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.||||||0.299
82645834|NCT02328404|165007096|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82401398|NCT04846270|164511661|OTHER|||||||0.0006|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of manual checks has been reduced.||"POWER is a single arm investigation with cross-over design. Each participating subject will use the study device and act as its own control.~The null hypothesis (H0) is that there is no difference in the mean number of checks performed during the investigation week compared to the baseline week.~The alternate hypothesis (H1) is that there is a reduction in the mean number of checks performed during the investigation week compared to the baseline week."||||0.0006
82530616|NCT00337662|164757971|SUPERIORITY_OR_OTHER|||||||0.291||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.291
82530617|NCT00337662|164757971|SUPERIORITY_OR_OTHER|||||||0.259||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.259
82530618|NCT00337662|164757972|SUPERIORITY_OR_OTHER|||||||0.209||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.209
82530619|NCT00337662|164757972|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.411
82645835|NCT02328404|165007097|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
82530620|NCT00337662|164757973|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.544
82530621|NCT00337662|164757973|SUPERIORITY_OR_OTHER|||||||0.386||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.386
82530622|NCT00337662|164757974|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.026
82530623|NCT00337662|164757974|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||P-values (Change from Baseline) are based on Type III sums of squares from ANOVA model: change = group pooled investigator.|ANOVA|||||||0.143
82530624|NCT00882921|164757984|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.873||||0.1309|TWO_SIDED|95.0|0.731|11.296|||Negative Binomial Model|||The groups compared are Ab+ vs Ab-||11.296|0.731|0.1309
82530625|NCT00882921|164757984|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.082||||0.2718|TWO_SIDED|95.0|0.563|7.706|||Negative Binomial Model|||The groups compared are Ab+ (age adjusted) vs Ab- (age adjusted)||7.706|0.563|0.2718
82530626|NCT01370005|164757986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.72|-0.52||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model includes baseline HbA1c as lin. covariate and treatment, baseline renal function, region and baseline N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.52|-0.72|<0.0001
82645836|NCT02328404|165007098|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82645837|NCT02328404|165007099|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
82645838|NCT02618772|165007100|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||||||0.026
82401399|NCT04846270|164511663|OTHER|||||||0.0051|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of leakages had been reduced.||||||0.0051
82401400|NCT04846270|164511666|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|A Wilcoxon Signed-Rank test was used to test if the number of fecal incidents had been reduced.||||||0.76
82401401|NCT01400906|164511678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||||TWO_SIDED|95.0|-0.037|0.38|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.380|-0.037|
82401402|NCT01400906|164511678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|||||TWO_SIDED|95.0|-0.047|0.37|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.370|-0.047|
82530627|NCT01370005|164757986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.75|-0.55||Hierarchical testing, no adjustment of p-values|ANCOVA|Model includes baseline HbA1c as lin. covariate and treatment, baseline renal function, region and baseline N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.55|-0.75|<0.0001
82530628|NCT01370005|164757987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|95.0|-4.78|-2.09||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h SBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-2.09|-4.78|<0.0001
82530629|NCT01370005|164757987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.16|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-5.5|-2.83||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h SBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-2.83|-5.50|<0.0001
82645839|NCT02618772|165007101|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
82645840|NCT02618772|165007102|SUPERIORITY_OR_OTHER|||||||0.151||||||This is in reference to the baseline measure.|t-test, 2 sided|||||||0.151
82645841|NCT02618772|165007102|SUPERIORITY_OR_OTHER|||||||0.02||||||This is in reference to the intervention measure.|t-test, 2 sided|||||||0.020
82645842|NCT02618772|165007102|SUPERIORITY_OR_OTHER|||||||0.198||||||This is in reference to the lidocaine measure.|t-test, 2 sided|||||||0.198
82645843|NCT02618772|165007102|SUPERIORITY_OR_OTHER|||||||0.006||||||This is in reference to the difference between the suturing and baseline measures.|t-test, 2 sided|||||||0.006
82645844|NCT02618772|165007103|SUPERIORITY_OR_OTHER|||||||0.185||||||This is in reference to the baseline measure.|t-test, 2 sided|||||||0.185
82645845|NCT02618772|165007103|SUPERIORITY_OR_OTHER|||||||0.011||||||This is in reference to the intervention measure.|t-test, 2 sided|||||||0.011
82645846|NCT02618772|165007103|SUPERIORITY_OR_OTHER|||||||0.191||||||This is in reference to the lidocaine measure.|t-test, 2 sided|||||||0.191
82645847|NCT02618772|165007103|SUPERIORITY_OR_OTHER|||||||0.008||||||This is in reference to the difference between the suturing and baseline measures.|t-test, 2 sided|||||||0.008
82401403|NCT01400906|164511683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.638|||||TWO_SIDED|95.0|0.44|0.836|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.836|0.440|
82401404|NCT01400906|164511683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.661|||||TWO_SIDED|95.0|0.463|0.859|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.859|0.463|
82645848|NCT02618772|165007104|SUPERIORITY_OR_OTHER|||||||0.004||||||This p value is a t-test of the Post STAI minus Pre STAI variable.|t-test, 2 sided|||||||0.004
82645849|NCT02618772|165007105|SUPERIORITY_OR_OTHER|||||||0.015||||||This p value is in reference to the t-test performed for STAI Post Minus STAI Pre.|t-test, 2 sided|||||||0.015
82645850|NCT02618772|165007106|SUPERIORITY_OR_OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.080
82645851|NCT02618772|165007107|SUPERIORITY_OR_OTHER|||||||0.086|||||||t-test, 2 sided|||||||0.086
82645852|NCT02618772|165007108|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82375894|NCT00264550|164457974|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab+MTX and Group 1 is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Assuming greater than 90 % power, ACR 20 response for Group I, Group III and Group IV (120, 80, and 80 participants, respectively) as 35 % for Group I and 55 % for Groups III and IV.||||<0.001
82401405|NCT01400906|164511684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|||||TWO_SIDED|95.0|0.018|0.333|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.333|0.018|
82401406|NCT01400906|164511684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|||||TWO_SIDED|95.0|0.008|0.323|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.323|0.008|
82401407|NCT01400906|164511685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.476|||||TWO_SIDED|95.0|0.326|0.627|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.627|0.326|
82401408|NCT01400906|164511685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53|||||TWO_SIDED|95.0|0.38|0.68|||||The estimated value is an adjusted mean difference. Data were adjusted for the following covariates: period, smoking status, treatment, participant-level Baseline, period-level Baseline, and treatment by smoking status interaction.|||0.680|0.380|
82576207|NCT02209181|164862042|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.25|STANDARD_ERROR_OF_MEAN|0.53||0.018|TWO_SIDED|95.0|0.21|2.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.29|0.21|0.018
82645853|NCT02618772|165007109|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82401409|NCT02187861|164511687|SUPERIORITY_OR_OTHER||Difference in response rates|3.92|||||TWO_SIDED|95.0|-13.38|21.23||||||||21.23|-13.38|
82645854|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.94|-0.64||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.64|-0.94|<0.0001
82645855|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.06|-0.76||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.76|-1.06|<0.0001
82645856|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.82|-0.52||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.52|-0.82|<0.0001
82645857|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.1245|TWO_SIDED|95.0|-0.27|0.03||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||0.03|-0.27|0.1245
82645858|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.0022|TWO_SIDED|95.0|-0.39|-0.09||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||statistical analysis at week 52||-0.09|-0.39|0.0022
82645859|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.79|-0.41||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.41|-0.79|<0.0001
82645860|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.87|-0.49||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.49|-0.87|<0.0001
82645861|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.75|-0.48||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.48|-0.75|<0.0001
82645862|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.83|-0.55||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.55|-0.83|<0.0001
82401410|NCT02187861|164511688|SUPERIORITY_OR_OTHER||Difference in response rates|1.96|||||TWO_SIDED|95.0|-15.89|19.81||||||||19.81|-15.89|
82401411|NCT02187861|164511689|SUPERIORITY_OR_OTHER||Difference in response rates|1.96|||||TWO_SIDED|95.0|-17.07|20.99||||||||20.99|-17.07|
82401412|NCT02187861|164511690|SUPERIORITY_OR_OTHER||Difference in response rates|-7.84|||||TWO_SIDED|95.0|-27.01|11.32||||||||11.32|-27.01|
82401413|NCT02187861|164511691|SUPERIORITY_OR_OTHER||Difference in response rates|13.73|||||TWO_SIDED|95.0|-4.24|31.69||||||At 6-8 weeks after Cycle 6 Day 1||31.69|-4.24|
82530630|NCT01370005|164757988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.4||0.0008|TWO_SIDED|95.0|-2.15|-0.56||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h DBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 10mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.56|-2.15|0.0008
82530631|NCT01370005|164757988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.51|-0.93||Hierarchical testing, no adjustment of p-values.|ANCOVA|Model incl. baseline (bl) HbA1c, bl mean 24h DBP as lin. covariates; treatment, bl renal function, region, bl N of antihyperten. med. as fixed effects|Difference calculated as empa 25mg minus placebo|Hierarchical testing structure was: 1) Change from baseline to week 12 in HbA1c, empa 25mg vs placebo 2) Change from baseline to week 12 in mean 24h SBP, empa 25mg vs placebo 3) Change from baseline to week 12 in HbA1c, empa 10mg vs placebo 4) Change from baseline in mean 24h SBP, empa 10mg vs placebo 5) Change from baseline in mean 24h DBP, empa 25mg vs placebo 6) Change from baseline in mean 24h DBP empa 10mg vs placebo.||-0.93|-2.51|<0.0001
82375895|NCT00264550|164457974|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Samples of sizes 120, 80, 80 patients in Group I, III, and IV provide \>90% power assuming 35% response in Group I and 55% ACR 20 response in golimumab groups(III \& IV).||||0.001
82375896|NCT00264550|164457974|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Null hypothesis: No difference in ACR 20 response at Wk 14 comparing Groups I vs III and Groups I vs IV at 0.05 level of significance. Samples of sizes 120, 80, 80 patients in Group I, III, and IV provide \>90% power assuming 35% response in Group I and 55% ACR 20 response in golimumab groups(III \& IV).||||<0.001
82401414|NCT02187861|164511691|SUPERIORITY_OR_OTHER||Difference in response rates|3.92|||||TWO_SIDED|95.0|-12.98|20.82||||||At Year 1||20.82|-12.98|
82401415|NCT02187861|164511692|SUPERIORITY_OR_OTHER||Difference in response rates|-15.69|||||TWO_SIDED|95.0|-31.87|0.49||||||At 4-10 weeks after Cycle 6 Day 1||0.49|-31.87|
82401416|NCT02187861|164511692|SUPERIORITY_OR_OTHER||Difference in response rates|-7.84|||||TWO_SIDED|95.0|-22.56|6.87||||||At Year 1||6.87|-22.56|
82375897|NCT00264550|164457974|SUPERIORITY_OR_OTHER|||||||0.059||||||This null hypothesis is tested only if a positive test for null hypothesis Statistical Analysis 1.|Chi-squared|||Null hypothesis: No difference between Group II and Group I with respect of ACR 20 at Wk 14. Superiority of golimumab alone vs MTX alone will be demonstrated if 2-sided test is significant. Sample of 120 patients in each Group I \& II provides \>85% power assuming 35% ACR 20 response in Group I and 55% ACR 20 in Group II.||||0.059
82375898|NCT00264550|164457975|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82375899|NCT00264550|164457975|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
82375900|NCT00264550|164457975|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82375901|NCT00264550|164457975|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||||||0.035
82375902|NCT00264550|164457976|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab+MTX and Group I is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and Combined Golimumab + Methotrexate (MTX) at 0.05 level of significance.||||<0.001
82375903|NCT00264550|164457976|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and III at 0.05 level of significance.||||<0.001
82375904|NCT00264550|164457976|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and IV at 0.05 level of significance.||||<0.001
82375905|NCT00264550|164457976|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA on van der Waerden normal scores.|||Null hypothesis: No difference in HAQ response at Wk 24 comparing Groups I and II at 0.05 level of significance.||||0.240
82375906|NCT00264550|164457977|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82375907|NCT00264550|164457977|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82375908|NCT00264550|164457977|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82375909|NCT00264550|164457977|SUPERIORITY_OR_OTHER|||||||0.187||95.0|||||Chi-squared|||||||0.187
82375910|NCT00264550|164457978|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden noramal|||||||<0.001
82375911|NCT00264550|164457978|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|||||||<0.001
82375912|NCT00264550|164457978|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|||||||<0.001
82375913|NCT00264550|164457978|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||ANOVA on van der Waerden normal scores|||||||0.097
82375914|NCT00264550|164457979|SUPERIORITY_OR_OTHER|||||||0.551|||||||ANOVA on van der Waerden normal|||||||0.551
82375915|NCT00264550|164457979|SUPERIORITY_OR_OTHER|||||||0.953|||||||ANOVA on van der Waerden normal scores|||||||0.953
82375916|NCT00264550|164457979|SUPERIORITY_OR_OTHER|||||||0.293|||||||ANOVA on van der waerden normal scores|||||||0.293
82375917|NCT00264550|164457979|SUPERIORITY_OR_OTHER|||||||0.361|||||||ANOVA on van der Waerden normal scores|||||||0.361
82375918|NCT03578549|164458022|OTHER||Correlation Coefficient|0.01||||0.92|TWO_SIDED||||||ANOVA|||||||0.92
82645863|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.89|-0.59||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.59|-0.89|<0.0001
82645864|NCT01289990|165007120|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.55||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.55|-0.85|<0.0001
82645865|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.04|-0.61||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.61|-1.04|<0.0001
82645866|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.11|-0.69||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.69|-1.11|<0.0001
82645867|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.0322|TWO_SIDED|95.0|-0.41|-0.02||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.02|-0.41|0.0322
82401417|NCT02187861|164511698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.27|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and DOR of prior cancer therapy.||1.27|0.38|
82401418|NCT02187861|164511698|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.43|1.4|||||HR was calculated using Cox regression.|Unstratified Analysis||1.40|0.43|
82401419|NCT02187861|164511700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.24|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and PFS of prior cancer therapy.||1.24|0.38|
82401420|NCT02187861|164511700|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.43|1.36|||||HR was calculated using Cox regression.|Unstratified Analysis||1.36|0.43|
82401421|NCT02187861|164511702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.38|1.24|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and EFS of prior cancer therapy.||1.24|0.38|
82401422|NCT02187861|164511702|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.43|1.36|||||HR was calculated using Cox regression.|Unstratified Analysis||1.36|0.43|
82401423|NCT02187861|164511704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.04|5.37|||||HR was calculated using Cox regression.|Stratified Analysis: Strata were disease burden and OS of prior cancer therapy.||5.37|0.04|
82401424|NCT02187861|164511704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.63|||||HR was calculated using Cox regression.|Unstratified Analysis||5.63|0.05|
82401425|NCT01639703|164511718|OTHER||Odds Ratio (OR)|0.76||||0.2476|TWO_SIDED|95.0|0.47|1.21|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 5 units for Blood Volume|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.21|0.47|0.2476
82401426|NCT01639703|164511719|OTHER||Odds Ratio (OR)|1.13||||0.5354|TWO_SIDED|95.0|0.77|1.66|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 5 units for Blood Volume|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.66|0.77|0.5354
82576208|NCT02209181|164862042|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.52||0.31|TWO_SIDED|95.0|-0.5|1.56||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.56|-0.50|0.310
82401427|NCT01639703|164511720|OTHER||Odds Ratio (OR)|0.9||||0.3487|TWO_SIDED|95.0|0.71|1.13|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Blood Flow|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.13|0.71|0.3487
82645868|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0038|TWO_SIDED|95.0|-0.48|-0.09||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.09|-0.48|0.0038
82645869|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.83|-0.4||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.40|-0.83|<0.0001
82645870|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.9|-0.33||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.33|-0.90|<0.0001
82645871|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.0|-0.44||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.44|-1.00|<0.0001
82645872|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.87|-0.47||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.47|-0.87|<0.0001
82445694|NCT01969721|164599869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.043|STANDARD_ERROR_OF_MEAN|0.011||0.0002|TWO_SIDED|95.0|0.021|0.065||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.065|0.021|0.0002
82445695|NCT01969721|164599869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028|STANDARD_ERROR_OF_MEAN|0.011||0.0146|TWO_SIDED|95.0|0.006|0.051||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.051|0.006|0.0146
82445696|NCT01969721|164599869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.032|STANDARD_ERROR_OF_MEAN|0.011||0.0055|TWO_SIDED|95.0|0.009|0.054||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 AUC 12-24h change from patient baseline (L)|Null hypothesis: Mean FEV1 AUC 12-24h change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 AUC 12-24h change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.054|0.009|0.0055
82445697|NCT01969721|164599870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.142|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.118|0.166||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 250/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.166|0.118|<0.0001
82445698|NCT01969721|164599870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.123|0.171||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 5/5 - F+S 500/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.171|0.123|<0.0001
82448986|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.026|||||TWO_SIDED|95.0|0.906|1.162|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertussis toxoid (PT) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.162|0.906|
82576209|NCT02209181|164862042|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|1.76|3.85||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.85|1.76|<0.001
82401428|NCT01639703|164511721|OTHER||Odds Ratio (OR)|1.08||||0.4195|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Blood Flow|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.29|0.90|0.4195
82401429|NCT01639703|164511722|OTHER||Odds Ratio (OR)|0.9||||0.7127|TWO_SIDED|95.0|0.53|1.54|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Permeability Surface|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||1.54|0.53|0.7127
82401430|NCT01639703|164511723|OTHER||Odds Ratio (OR)|1.41||||0.1753|TWO_SIDED|95.0|0.86|2.31|||Regression, Logistic||Odds-ratio is the risk to move from one immunochemistry category to the below one (among 0%, 1-10%, 10-50% and \>50%) considering an increase of 10 units for Permeability Surface|Multinomial logistic regression analyses were performed with each off-site CT perfusion parameters as explicative variables taken alone and each off-site immunohistochemistry categorized parameters as dependent variables.||2.31|0.86|0.1753
82401431|NCT03066778|164511819|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.00069|TWO_SIDED|95.0|0.6|0.88|||Log Rank|One-sided p-value based on log-rank test stratified by platinum chemotherapy, ECOG, and LDH|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by platinum chemotherapy, ECOG, and LDH|||0.88|0.60|0.00069
82401432|NCT03066778|164511820|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.01643|TWO_SIDED|95.0|0.64|0.98|||Log Rank|One-sided p-value based on log-rank test stratified by platinum chemotherapy, ECOG, and LDH|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by platinum chemotherapy, ECOG, and LDH|||0.98|0.64|0.01643
82401433|NCT03066778|164511821|SUPERIORITY||Percent Difference|8.9||||0.0227|TWO_SIDED|95.0|0.2|17.4|||Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.|Based on Miettinen \& Nurminen method stratified by platinum chemotherapy, ECOG, and LDH. Cisplatin, ECOG 0, LDH ≤ULN and Cisplatin, ECOG 0, LDH \>ULN were combined into one stratum because of small sample size|||17.4|0.2|0.02270
82401434|NCT03066778|164511826|OTHER||Difference in Least Square Means|4.43||||0.04|TWO_SIDED|95.0|0.21|8.66|||Log Rank|||||8.66|0.21|0.040
82401435|NCT03066778|164511829|OTHER||Hazard Ratio (HR)|0.8||||0.208|TWO_SIDED|95.0|0.56|1.14|||Log Rank|Two-sided p-value based on stratified log-rank test|Based on Cox regression model with treatment as a covariate stratified by platinum chemotherapy ECOG, and LDH. Cisplatin, ECOG 0, LDH ≤ULN and Cisplatin, ECOG 0, LDH \>ULN were combined into one stratum because of small sample size|||1.14|0.56|0.208
82401436|NCT00435461|164511839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||||-0.7|-1.2|<0.001
82401437|NCT00435461|164511839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|||||-0.7|-1.2|<0.001
82530632|NCT01370005|164757989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.26|||<|0.0001|TWO_SIDED|95.0|3.51|11.18|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||11.18|3.51|<0.0001
82401438|NCT00435461|164511839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.816|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|||||0.2|-0.3|0.816
82401439|NCT00435461|164511840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.6|-0.9|||ANCOVA|||||-0.9|-1.6|<0.001
82401440|NCT00435461|164511840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||||-0.7|-1.4|<0.001
82401441|NCT00435461|164511840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.136|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.136
82401442|NCT00435461|164511841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.5|-0.7|||ANCOVA|||||-0.7|-1.5|<0.001
82401443|NCT00435461|164511841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|<0.001
82530633|NCT01370005|164757989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.7|11.75|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||11.75|3.70|<0.0001
82401444|NCT00435461|164511841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.136|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.136
82401445|NCT00435461|164511842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.6|-0.8|||ANCOVA|||||-0.8|-1.6|<0.001
82401446|NCT00435461|164511842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.3|-0.6|||ANCOVA|||||-0.6|-1.3|<0.001
82401447|NCT00435461|164511842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.136|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.136
82401448|NCT00435461|164511843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.001
82401449|NCT00435461|164511843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0|-0.6|0.106
82401450|NCT00435461|164511843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
82401451|NCT00435461|164511844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.007|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.007
82401452|NCT00435461|164511844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
82401453|NCT00435461|164511844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.106
82401454|NCT00435461|164511845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.003|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|||||-0.2|-0.7|0.003
82401455|NCT00435461|164511845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.286|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.286
82401456|NCT00435461|164511845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.106|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0|-0.6|0.106
82401457|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.7|-1.0|||ANCOVA|||Pre-dose iTNSS||-1|-1.7|<0.001
82401458|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||Pre-dose iTNSS||-0.7|-1.4|<0.001
82401459|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.193|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Pre-dose iTNSS||0.1|-0.6|0.193
82401460|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||Pre-dose iTOSS||-0.2|-0.8|<0.001
82401461|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.058|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Pre-dose iTOSS||0|-0.6|0.058
82645873|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-1.04|-0.63||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.63|-1.04|<0.0001
82645874|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.57||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.57|-1.04|<0.0001
82645875|NCT01289990|165007121|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.56||Model includes baseline HbA1c as a covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, visit, treatment as fixed effects, and visit by treatment interaction.|Mixed Models Analysis|||||-0.56|-1.04|<0.0001
82645876|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.8|-2.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.5|-6.8|<0.0001
82645877|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.1||0.0001|TWO_SIDED|95.0|-6.4|-2.1||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.1|-6.4|0.0001
82645878|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1||0.2107|TWO_SIDED|95.0|-3.5|0.8||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.8|-3.5|0.2107
82645879|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.1||0.0033|TWO_SIDED|95.0|-5.4|-1.1||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.1|-5.4|0.0033
82645880|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.1||0.0105|TWO_SIDED|95.0|-5.0|-0.7||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-5.0|0.0105
82645881|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|1.3||0.0543|TWO_SIDED|95.0|-4.9|0.0||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.0|-4.9|0.0543
82375919|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 200 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
82375920|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 300 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
82375921|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 500 mg (Single-Dose) Inclisiran group versus Placebo (Single-Dose).|t-test, 1 sided|||||||<0.0001
82375922|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 100 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
82375923|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 200 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
82375924|NCT02597127|164458039|SUPERIORITY|Two sample t-tests were performed to test the superiority of any dosing group over placebo. A Dunnett multiple t-test procedure was applied to adjust for multiple comparisons with six different dosing regimens.|||||<|0.0001||||||This P-Value applies to the comparison of the mean percent change at Day 180 for the 300 mg Double-Dose) Inclisiran group versus Placebo (Double-Dose).|t-test, 1 sided|||||||<0.0001
82375925|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-1.1087|||<|0.0001|TWO_SIDED|97.5|-1.669|-0.5485|||ANCOVA|||||-0.5485|-1.6690|<0.0001
82375926|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-1.1703|||<|0.0001|TWO_SIDED|97.5|-1.7315|-0.609|||ANCOVA|||||-0.6090|-1.7315|<0.0001
82375927|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-0.7718||||0.002|TWO_SIDED|95.0|-1.2616|-0.282|||ANCOVA|||||-0.2820|-1.2616|0.0020
82375928|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-0.3563||||0.1524|TWO_SIDED|95.0|-0.8445|0.1319|||ANCOVA|||||0.1319|-0.8445|0.1524
82375929|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-0.4918||||0.0488|TWO_SIDED|95.0|-0.981|-0.0025|||ANCOVA|||||-0.0025|-0.9810|0.0488
82375930|NCT02318303|164458063|SUPERIORITY||Mean Difference (Final Values)|-0.7133||||0.0043|TWO_SIDED|95.0|-1.2031|-0.2235|||ANCOVA|||||-0.2235|-1.2031|0.0043
82375931|NCT02368314|164458064|SUPERIORITY_OR_OTHER|||||||0.226|||||||Fisher Exact|||||||0.226
82375932|NCT02458287|164458085|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.4|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-72.0|-54.7|||Mixed Models Repeated Measures (MMRM)|||LS-mean difference, associated 95% confidence intervals, and p-value are from MMRM model with fixed effects for treatment groups, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction as covariates.||-54.7|-72.0|<0.001
82530634|NCT01370005|164757990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.76|STANDARD_ERROR_OF_MEAN|2.63|<|0.0001|TWO_SIDED|95.0|-28.91|-18.6|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline FPG|Difference calculated as empa 10mg minus placebo.|||-18.60|-28.91|<0.0001
82645882|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.9|STANDARD_ERROR_OF_MEAN|1.2||0.0019|TWO_SIDED|95.0|-6.4|-1.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.5|-6.4|0.0019
82401462|NCT00435461|164511846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.16|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||Pre-dose iTOSS||0|-0.5|0.16
82401463|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.7|11.9|||ANCOVA|||Morning assessment||11.9|5.7|<0.001
82401464|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.3|11.5|||ANCOVA|||Morning assessment||11.5|5.3|<0.001
82401465|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.59||0.779|TWO_SIDED|95.0|-3.6|2.7|||ANCOVA|||Morning assessment||2.7|-3.6|0.779
82401466|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|3.1|9.6|||ANCOVA|||Evening assessment||9.6|3.1|<0.001
82401467|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|3.8|10.3|||ANCOVA|||Evening assessment||10.3|3.8|<0.001
82401468|NCT00435461|164511847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.65||0.662|TWO_SIDED|95.0|-2.5|4.0|||ANCOVA|||Evening assessment||4|-2.5|0.662
82401469|NCT00435461|164511848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.001
82401470|NCT00435461|164511848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.203|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.203
82401471|NCT00435461|164511848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.8|-0.4|||ANCOVA|||||-0.4|-0.8|<0.001
82401472|NCT01768559|164511849|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin of 0.4%.|Least Square (LS) Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.17|0.064|||ANCOVA||Lixisenatide vs Insulin Glulisine QD|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of metformin use, and country as fixed effects and baseline HbA1c value as a covariate. The non-inferiority was assessed using upper bound of 2-sided 95% Confidence Interval (CI).||0.064|-0.17|
82401473|NCT01768559|164511849|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin of 0.4%.|LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|0.095|0.328|||ANCOVA||Lixisenatide vs Insulin Glulisine TID|Analysis was performed using ANCOVA model as described above. Hochberg procedure was used to control type 1 error at significance level = 0.025 (1-sided) for comparison between Lixisenatide vs Insulin glulisine TID in HbA1c and body weight. If both comparisons were met, then both would be declared significant. Otherwise, if only one was met, then the one met should be tested at α=0.0125 (1-sided).||0.328|0.095|
82530635|NCT01370005|164757990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-35.32|-25.08|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline FPG|Difference calculated as empa 25mg minus placebo.|||-25.08|-35.32|<0.0001
82530636|NCT01370005|164757991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.85|-1.13|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline number of antihypertensive med., baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo.|||-1.13|-1.85|<0.0001
82530637|NCT01370005|164757991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.33|-1.62|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline number of antihypertensive med., baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo.|||-1.62|-2.33|<0.0001
82401474|NCT01768559|164511850|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.305|<|0.0001|TWO_SIDED|95.0|-2.593|-1.396||Threshold for significance at 0.025 level.|ANCOVA|The superiority was assessed by comparing the P-value at significance level = 0.025 or 0.0125.|Lixisenatide vs Insulin Glulisine TID|Analysis was performed using ANCOVA model as described above. Hochberg procedure was used to control type 1 error at α = 0.025 (1-sided) for comparison between lixisenatide vs insulin glulisine TID in HbA1c and body weight. If both comparisons were met, then both would be declared significant. Otherwise, if only one was met, then the one met should be tested at α=0.0125 (1-sided).||-1.396|-2.593|< 0.0001
82401475|NCT00685360|164511868|SUPERIORITY||Risk Ratio Mean|1.534|||=|0.0083|TWO_SIDED|95.0|1.107|2.124|||Cochran-Mantel-Haenszel|P-value was derived using Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata (cavitation).||||2.124|1.107|=0.0083
82530638|NCT01370005|164757992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-5.37|-2.52|||ANCOVA|Model includes treatment, baseline renal function, geographical region, N of antihypertensive medications, baseline HbA1c and baseline daytime SBP|Difference calculated as empa 10mg minus placebo.|||-2.52|-5.37|<0.0001
82530639|NCT01370005|164757992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.78|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-6.2|-3.36|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime SBP|Difference calculated as empa 25mg minus placebo.|||-3.36|-6.20|<0.0001
82645883|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.0||0.0045|TWO_SIDED|95.0|-5.0|-0.9||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.9|-5.0|0.0045
82645884|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-6.6|-2.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.5|-6.6|<0.0001
82401476|NCT00685360|164511868|SUPERIORITY||Risk Ratio Mean|1.416|||=|0.0393|TWO_SIDED|95.0|1.012|1.98||P-value was derived using CMH test stratified by randomization strata (cavitation).|Cochran-Mantel-Haenszel|||||1.980|1.012|=0.0393
82401477|NCT00685360|164511880|SUPERIORITY||Risk Ratio Mean|1.599|||=|0.0021|TWO_SIDED|95.0|1.175|2.177|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||2.177|1.175|=0.0021
82401478|NCT00685360|164511880|SUPERIORITY||Risk Ratio Mean|1.939|||<|0.0001|TWO_SIDED|95.0|1.449|2.595|||Cochran-Mantel-Haenszel|||||2.595|1.449|<.0001
82401479|NCT00685360|164511881|SUPERIORITY||||||=|0.2419|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from analysis of covariance(ANCOVA)model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.2419
82401480|NCT00685360|164511881|SUPERIORITY||||||=|0.2239|TWO_SIDED||||||ANCOVA|Pairwise comparison is derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.2239
82401481|NCT00685360|164511881|SUPERIORITY||||||=|0.9544|TWO_SIDED||||||ANCOVA|Pairwise comparison is derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.9544
82401482|NCT00685360|164511882|SUPERIORITY||||||=|0.0246|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.0246
82401483|NCT00685360|164511882|SUPERIORITY||||||=|0.0529|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.0529
82401484|NCT00685360|164511882|SUPERIORITY||||||=|0.7508|TWO_SIDED||||||ANCOVA|Pairwise comparison was derived from ANCOVA model with factors of treatment, baseline cavitation status and covariate baseline.||||||=0.7508
82401485|NCT00685360|164511883|SUPERIORITY||Risk Ratio Mean|1.272|||=|0.0518|TWO_SIDED|95.0|0.995|1.627|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.627|0.995|=0.0518
82401486|NCT00685360|164511883|SUPERIORITY||Risk Ratio Mean|1.203|||=|0.1506|TWO_SIDED|95.0|0.934|1.55|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.550|0.934|=0.1506
82401487|NCT00685360|164511884|SUPERIORITY||Risk Ratio Mean|1.234|||=|0.1201|TWO_SIDED|95.0|0.945|1.612|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.612|0.945|=0.1201
82401488|NCT00685360|164511884|SUPERIORITY||Risk Ratio Mean|1.099|||=|0.5112|TWO_SIDED|95.0|0.829|1.456|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.456|0.829|=0.5112
82401489|NCT00685360|164511885|SUPERIORITY||Risk Ratio Mean|1.323|||=|0.0141|TWO_SIDED|95.0|1.053|1.661|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.661|1.053|=0.0141
82401490|NCT00685360|164511885|SUPERIORITY||Risk Ratio Mean|1.438|||=|0.0008|TWO_SIDED|95.0|1.155|1.791|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.791|1.155|=0.0008
82401491|NCT00685360|164511886|SUPERIORITY||Risk Ratio Mean|1.341|||=|0.0196|TWO_SIDED|95.0|1.044|1.722|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.722|1.044|=0.0196
82401492|NCT00685360|164511886|SUPERIORITY||Risk Ratio Mean|1.503|||=|0.0006|TWO_SIDED|95.0|1.183|1.909|||Cochran-Mantel-Haenszel|P-value was derived using CMH test stratified by randomization strata (cavitation).||||1.909|1.183|=0.0006
82401493|NCT00685360|164511887|SUPERIORITY||||||=|0.0468|||||||Cochran-Armitage Linear Trend Test|Cochran-Armitage test was performed for dose response with the treatment group ordered as placebo, delamanid 100 mg BID, and delamanid 200 mg BID.||||||=0.0468
82401494|NCT00685360|164511888|SUPERIORITY||Hazard Ratio (HR)|1.856|||=|0.0011|TWO_SIDED|95.0|1.255|2.745|||Stratified Log-Rank Test|p-value was derived from log-rank test with SAS Proc lifetest for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.745|1.255|=0.0011
82401495|NCT00685360|164511888|SUPERIORITY||Hazard Ratio (HR)|1.849|||=|0.0013|TWO_SIDED|95.0|1.246|2.743|||Stratified Log-Rank Test|p-value was derived from log-rank test with SAS Proc lifetest for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.743|1.246|=0.0013
82401496|NCT00685360|164511889|SUPERIORITY||Hazard Ratio (HR)|1.926|||=|0.0004|TWO_SIDED|95.0|1.315|2.82|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.820|1.315|=0.0004
82401497|NCT00685360|164511889|SUPERIORITY||Hazard Ratio (HR)|2.19|||<|0.0001|TWO_SIDED|95.0|1.504|3.189|||Stratified Log-Rank Test|||||3.189|1.504|<.0001
82401498|NCT00685360|164511890|SUPERIORITY||Hazard Ratio (HR)|1.727|||=|0.0056|TWO_SIDED|95.0|1.152|2.591|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.591|1.152|=0.0056
82401499|NCT00685360|164511890|SUPERIORITY||Hazard Ratio (HR)|1.585|||=|0.0232|TWO_SIDED|95.0|1.048|2.399|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.399|1.048|=0.0232
82401500|NCT00685360|164511891|SUPERIORITY||Hazard Ratio (HR)|1.846|||=|0.0016|TWO_SIDED|95.0|1.235|2.759|||Stratified Log-Rank Test|P-value was derived from log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||2.759|1.235|=0.0016
82401501|NCT00685360|164511891|SUPERIORITY||Hazard Ratio (HR)|2.301|||<|0.0001|TWO_SIDED|95.0|1.555|3.405|||Stratified Log-Rank Test|P-value was derived from Log-rank test with SAS PROC LIFETEST for comparisons with placebo.|Hazard ratio computed with SAS PROC PHREG for comparisons with placebo.|||3.405|1.555|<.0001
82401502|NCT04274075|164511907|OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|0.945|1.12|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.12|0.945|
82401503|NCT04274075|164511907|OTHER||Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.726|0.859|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.859|0.726|
82401504|NCT04274075|164511908|OTHER||Median Difference (Net)|0.525|||||TWO_SIDED|90.0|-0.225|1.5|||||The Hodges-Lehmann estimate of median difference was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.50|-0.225|
82401505|NCT04274075|164511908|OTHER||Median Difference (Net)|1.98|||||TWO_SIDED|90.0|1.26|2.45|||||The Hodges-Lehmann estimate of median difference was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||2.45|1.26|
82401506|NCT04274075|164511911|OTHER||Geometric Mean Ratio|0.971|||||TWO_SIDED|90.0|0.903|1.04|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.04|0.903|
82401507|NCT04274075|164511911|OTHER||Geometric Mean Ratio|0.919|||||TWO_SIDED|90.0|0.855|0.988|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.988|0.855|
82401508|NCT04274075|164511912|OTHER||Geometric Mean Ratio|0.975|||||TWO_SIDED|90.0|0.908|1.05|||||The geometric mean ratio was calculated as Treatment B versus Treatment A.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||1.05|0.908|
82401509|NCT04274075|164511912|OTHER||Geometric Mean Ratio|0.918|||||TWO_SIDED|90.0|0.856|0.985|||||The geometric mean ratio was calculated as Treatment C versus Treatment B.|The sample size chosen for this study was based upon precedent set by other PK studies of similar nature and was not based on power calculations.||0.985|0.856|
82401510|NCT00423813|164511951|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Overall Comparison||||0.001
82401511|NCT00423813|164511951|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||Pairwise comparison of Xyrem 4.5g and placebo||||<0.001
82401512|NCT00423813|164511951|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Pairwise comparison of Xyrem 6.0g and placebo||||0.001
82401513|NCT01386944|164511952|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-0.5|||||TWO_SIDED|95.0|-1.0|-0.5||||||||-0.5|-1.0|
82401514|NCT01386944|164511953|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-1.5|||||TWO_SIDED|95.0|-1.5|-1.0||||||||-1.0|-1.5|
82401515|NCT01386944|164511954|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.0|-1.5||||||||-1.5|-2.0|
82401516|NCT01386944|164511955|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.5|-1.5||||||||-1.5|-2.5|
82401517|NCT01386944|164511956|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.5|-1.5||||||||-1.5|-2.5|
82401518|NCT01386944|164511957|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||||95.0|-2.0|-1.5||||||||-1.5|-2.0|
82401519|NCT01904032|164511967|SUPERIORITY||Mean Difference (Final Values)|0.7982|STANDARD_ERROR_OF_MEAN|2.0537||0.6982|TWO_SIDED|95.0|-3.2691|4.8656|||t-test, 2 sided|||The null hypothesis is that there is no difference in the CES-D change score between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||4.8656|-3.2691|.6982
82401520|NCT01904032|164511968|SUPERIORITY||Mean Difference (Final Values)|-0.0424|STANDARD_ERROR_OF_MEAN|3.6619||0.9908|TWO_SIDED|95.0|-7.2946|7.2097|||t-test, 2 sided|||The null hypothesis is that there is no difference in the PAID change score between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||7.2097|-7.2946|.9908
82401521|NCT01904032|164511969|SUPERIORITY||Mean Difference (Final Values)|0.4966|STANDARD_ERROR_OF_MEAN|3.1474||0.8749|TWO_SIDED|95.0|-5.7366|6.7298|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change in systolic blood pressure between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||6.7298|-5.7366|.8749
82401522|NCT01904032|164511970|SUPERIORITY||Mean Difference (Final Values)|1.5125|STANDARD_ERROR_OF_MEAN|1.8636||0.4187|TWO_SIDED|95.0|-2.1784|5.2033|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change in diastolic blood pressure between women who received high dose Vitamin D therapy versus low dose Vitamin D therapy.||5.2033|-2.1784|.4187
82401523|NCT00305565|164511976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.803|TWO_SIDED|95.0|-2.34|3.02|||Mixed Models Analysis|||The primary analysis consisted of contrasts comparing High Dose vs. Low Dose and Medium Dose vs. Low Dose averaged over the 4 Acute Phase visits using the Hochberg approach to adjust for multiplicity. If both comparisons involving the Low Dose were significant, then a test of High Dose vs. Medium Dose was evaluated at the P≤0.05 level. The pivotal analysis was performed on the ITT population using the last-observation-carried-forward (LOCF) approach to impute missing data.||3.02|-2.34|0.803
82401524|NCT00305565|164511976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.813|TWO_SIDED|95.0|-2.39|3.05|||Mixed Models Analysis|||The primary analysis consisted of contrasts comparing High Dose vs. Low Dose and Medium Dose vs. Low Dose averaged over the 4 Acute Phase visits using the Hochberg approach to adjust for multiplicity. If both comparisons involving the Low Dose were significant, then a test of High Dose vs. Medium Dose was evaluated at the P≤0.05 level. The pivotal analysis was performed on the ITT population using the last-observation-carried-forward (LOCF) approach to impute missing data.||3.05|-2.39|0.813
82401525|NCT00502853|164512023|SUPERIORITY_OR_OTHER|||||||0.1776|||||||Student's t-test|||Change from Baseline to Week 4||||0.1776
82401526|NCT00502853|164512023|SUPERIORITY_OR_OTHER|||||||0.1215|||||||Student's t-test|||Change from Baseline to Week 24||||0.1215
82401527|NCT00502853|164512023|SUPERIORITY_OR_OTHER||Slope|-0.1606|STANDARD_ERROR_OF_MEAN|0.1231||0.2246|||||||Random coefficient model|||Trend over time||||0.2246
82401528|NCT00502853|164512024|SUPERIORITY_OR_OTHER|||||||0.8989|||||||Student's t-test|||Change from Baseline to Week 4||||0.8989
82401529|NCT00502853|164512024|SUPERIORITY_OR_OTHER|||||||0.8834|||||||Student's t-test|||Change from Baseline to Week 24||||0.8834
82401530|NCT00502853|164512024|SUPERIORITY_OR_OTHER||Slope|0.1357|STANDARD_ERROR_OF_MEAN|0.9051||0.8841|||||||Random coefficient model|||Trend over time||||0.8841
82401531|NCT00502853|164512025|SUPERIORITY_OR_OTHER|||||||0.5911|||||||Student's t-test|||Change from Baseline to Week 4||||0.5911
82401532|NCT00502853|164512025|SUPERIORITY_OR_OTHER|||||||0.1475|||||||Student's t-test|||Change from Baseline to Week 24||||0.1475
82401533|NCT00502853|164512025|SUPERIORITY_OR_OTHER||Slope|0.1786|STANDARD_ERROR_OF_MEAN|0.1123||0.1463|||||||Random coefficient model|||Trend over time||||0.1463
82401534|NCT00502853|164512026|SUPERIORITY_OR_OTHER|||||||0.1101|||||||Student's t-test|||Change from Baseline at Week 4||||0.1101
82401535|NCT00502853|164512026|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Student's t-test|||Change from Baseline at Week 12||||0.0003
82401536|NCT00502853|164512026|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Student's t-test|||Change from Baseline at Week 24||||0.0018
82401537|NCT00502853|164512026|SUPERIORITY_OR_OTHER||Slope|-2.0857|STANDARD_ERROR_OF_MEAN|0.4965||0.0023|||||||Random coefficient model|||Trend over time||||0.0023
82401538|NCT00502853|164512027|SUPERIORITY_OR_OTHER|||||||0.3358|||||||Student's t-test|||Change from Baseline at Week 4||||0.3358
82401539|NCT00502853|164512027|SUPERIORITY_OR_OTHER|||||||0.9158|||||||Student's t-test|||Change from Baseline at Week 24||||0.9158
82401540|NCT00502853|164512027|SUPERIORITY_OR_OTHER||Slope|0.003418|STANDARD_ERROR_OF_MEAN|0.02345||0.8877|||||||Random coefficient model|||Trend over time||||0.8877
82401541|NCT00502853|164512028|SUPERIORITY_OR_OTHER|||||||0.7624|||||||Student's t-test|||Change from Baseline at Week 4||||0.7624
82401542|NCT00502853|164512028|SUPERIORITY_OR_OTHER|||||||0.0212|||||||Student's t-test|||Change from Baseline at Week 24||||0.0212
82401543|NCT00502853|164512028|SUPERIORITY_OR_OTHER||Slope|-4.2681|STANDARD_ERROR_OF_MEAN|2.0529||0.0712|||||||Random coefficient model|||Trend over time||||0.0712
82401544|NCT00502853|164512029|SUPERIORITY_OR_OTHER|||||||0.024|||||||Student's t-test|||Change from Baseline at Week 4||||0.0240
82645885|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.0||0.0031|TWO_SIDED|95.0|-4.8|-1.0||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-4.8|0.0031
82401545|NCT00502853|164512029|SUPERIORITY_OR_OTHER|||||||0.0045|||||||Student's t-test|||Change from Baseline at Week 12||||0.0045
82401546|NCT00502853|164512029|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Student's t-test|||Change from Baseline at Week 24||||0.0018
82401547|NCT00502853|164512029|SUPERIORITY_OR_OTHER||Slope|-0.1964|STANDARD_ERROR_OF_MEAN|0.04524||0.0019|||||||Random Coefficient Model|||Trend over time||||0.0019
82401548|NCT00502853|164512030|SUPERIORITY_OR_OTHER||Slope|-6.6294|STANDARD_ERROR_OF_MEAN|1.8623||0.0074|||||||Random Coefficient Model|||Trend over time||||0.0074
82401549|NCT00502853|164512030|SUPERIORITY_OR_OTHER|||||||0.1273|||||||Student's t-test|||Change from Baseline at Week 4||||0.1273
82401550|NCT00502853|164512030|SUPERIORITY_OR_OTHER|||||||0.0132|||||||Student's t-test|||Change from Baseline at Week 12||||0.0132
82401551|NCT00502853|164512030|SUPERIORITY_OR_OTHER|||||||0.1542|||||||Student's t-test|||Change from Baseline at Week 24||||0.1542
82401552|NCT00502853|164512031|SUPERIORITY_OR_OTHER|||||||0.1396|||||||Student's t-test|||Change from Baseline at Week 4||||0.1396
82401553|NCT00502853|164512031|SUPERIORITY_OR_OTHER|||||||0.005|||||||Student's t-test|||Change from Baseline at Week 12||||0.0050
82401554|NCT00502853|164512031|SUPERIORITY_OR_OTHER|||||||0.005|||||||Student's t-test|||Change from Baseline at Week 24||||0.0050
82401555|NCT00502853|164512031|SUPERIORITY_OR_OTHER||Slope|-0.2902|STANDARD_ERROR_OF_MEAN|0.07966||0.0054|||||||Random coefficient model|||Trend over time||||0.0054
82401556|NCT00502853|164512032|SUPERIORITY_OR_OTHER|||||||0.0254|||||||Student's t-test|||Change from Baseline at Week 4||||0.0254
82401557|NCT00502853|164512032|SUPERIORITY_OR_OTHER|||||||0.0384|||||||Student's t-test|||Change from Baseline at Week 12||||0.0384
82401558|NCT00502853|164512032|SUPERIORITY_OR_OTHER|||||||0.0271|||||||Student's t-test|||Change from Baseline at Week 24||||0.0271
82401559|NCT00502853|164512032|SUPERIORITY_OR_OTHER||Slope|-4.7586|STANDARD_ERROR_OF_MEAN|1.5278||0.0124|||||||Random coefficient model|||Trend over time||||0.0124
82401560|NCT00502853|164512033|SUPERIORITY_OR_OTHER|||||||0.7376|||||||Student's t-test|||Change from Baseline at Week 4||||0.7376
82401561|NCT00502853|164512033|SUPERIORITY_OR_OTHER|||||||0.1631|||||||Student's t-test|||Change from Baseline at Week 12||||0.1631
82401562|NCT00502853|164512033|SUPERIORITY_OR_OTHER|||||||0.8816|||||||Student's t-test|||Change from Baseline at Week 24||||0.8816
82401563|NCT00502853|164512033|SUPERIORITY_OR_OTHER||Slope|-0.2927|STANDARD_ERROR_OF_MEAN|1.9408||0.8835|||||||Random coefficient model|||Trend over time||||0.8835
82401564|NCT00502853|164512034|SUPERIORITY_OR_OTHER|||||||0.1312|||||||Student's t-test|||Change from Baseline at Week 4||||0.1312
82401565|NCT00502853|164512034|SUPERIORITY_OR_OTHER|||||||0.0662|||||||Student's t-test|||Change from Baseline at Week 12||||0.0662
82401566|NCT00502853|164512034|SUPERIORITY_OR_OTHER|||||||0.4133|||||||Student's t-test|||Change from Baseline at Week 24||||0.4133
82401567|NCT00502853|164512034|SUPERIORITY_OR_OTHER||Slope|8.8196|STANDARD_ERROR_OF_MEAN|16.4534||0.6049|||||||Random coefficient model|||Trend over time||||0.6049
82401568|NCT00502853|164512035|SUPERIORITY_OR_OTHER|||||||0.1725|||||||Student's t-test|||Change from Baseline at Week 4||||0.1725
82401569|NCT00502853|164512035|SUPERIORITY_OR_OTHER|||||||0.0832|||||||Student's t-test|||Change from Baseline at Week 12||||0.0832
82401570|NCT00502853|164512035|SUPERIORITY_OR_OTHER|||||||0.1685|||||||Student's t-test|||Change from Baseline at Week 24||||0.1685
82401571|NCT00502853|164512035|SUPERIORITY_OR_OTHER||Slope|-55.4458|STANDARD_ERROR_OF_MEAN|33.5821||0.1331|||||||Random coefficient model|||Trend over time||||0.1331
82401572|NCT00502853|164512036|SUPERIORITY_OR_OTHER|||||||0.2938|||||||Student's t-test|||Change from Baseline at Week 4||||0.2938
82401573|NCT00502853|164512036|SUPERIORITY_OR_OTHER|||||||0.2216|||||||Student's t-test|||Change from Baseline at Week 12||||0.2216
82401574|NCT00502853|164512036|SUPERIORITY_OR_OTHER|||||||0.567|TWO_SIDED||||||Student's t-test|||Change from Baseline at Week 24||||0.5670
82401575|NCT00502853|164512037|SUPERIORITY_OR_OTHER|||||||0.0934|||||||Student's t-test|||Change from Baseline at Week 4||||0.0934
82401576|NCT00502853|164512037|SUPERIORITY_OR_OTHER|||||||0.4047|||||||Student's t-test|||Change from Baseline at Week 12||||0.4047
82401577|NCT00502853|164512037|SUPERIORITY_OR_OTHER|||||||0.2101|||||||Student's t-test|||Change from Baseline at Week 24||||0.2101
82401578|NCT00502853|164512037|SUPERIORITY_OR_OTHER||Slope|0.3997|STANDARD_ERROR_OF_MEAN|0.2506||0.1451|||||||Random coefficient model|||Trend over time||||0.1451
82401579|NCT00502853|164512038|SUPERIORITY_OR_OTHER|||||||0.4963|||||||Student's t-test|||Change from Baseline at Week 4||||0.4963
82401580|NCT00502853|164512038|SUPERIORITY_OR_OTHER|||||||0.2198|||||||Student's t-test|||Change from Baseline at Week 12||||0.2198
82401581|NCT00502853|164512038|SUPERIORITY_OR_OTHER|||||||0.6773|||||||Student's t-test|||Change from Baseline at Week 24||||0.6773
82401582|NCT00502853|164512038|SUPERIORITY_OR_OTHER||Slope|0.3688|STANDARD_ERROR_OF_MEAN|0.5987||0.5531|||||||Random coefficient model|||Trend over time||||0.5531
82401583|NCT00502853|164512039|SUPERIORITY_OR_OTHER|||||||0.5002|||||||Student's t-test|||Change from Baseline at Week 24||||0.5002
82401584|NCT00502853|164512040|SUPERIORITY_OR_OTHER|||||||1|||||||Student's t-test|||Change from Baseline at Week 24||||1.0000
82401585|NCT00502853|164512041|SUPERIORITY_OR_OTHER|||||||0.7002|||||||Student's t-test|||Change from Baseline at Week 24||||0.7002
82401586|NCT00502853|164512042|SUPERIORITY_OR_OTHER|||||||0.3132|||||||Student's t-test|||Change from Baseline at Week 24||||0.3132
82401587|NCT00502853|164512043|SUPERIORITY_OR_OTHER|||||||0.8597|||||||Student's t-test|||Change from Baseline at Week 24||||0.8597
82401588|NCT00502853|164512044|SUPERIORITY_OR_OTHER|||||||0.3617|||||||Student's t-test|||Change from Baseline at Week 24||||0.3617
82401589|NCT03373461|164512086|OTHER|||||||0.038|||||||Multiple Comparison Procedure-Modeling|||||||0.038
82401590|NCT03373461|164512086|OTHER||Ratio to placebo (of ratio to baseline)|0.99|||||TWO_SIDED|80.0|0.86|1.0||||||||1.00|0.86|
82401591|NCT03373461|164512086|OTHER||Ratio to placebo (of ratio to baseline)|0.94|||||TWO_SIDED|80.0|0.76|0.98||||||||0.98|0.76|
82401592|NCT03373461|164512086|OTHER||Ratio to placebo (of ratio to baseline)|0.87|||||TWO_SIDED|80.0|0.72|0.96||||||||0.96|0.72|
82401593|NCT03373461|164512086|OTHER||Ratio to placebo (of ratio to baseline)|0.77|||||TWO_SIDED|80.0|0.66|0.92||||||||0.92|0.66|
82401594|NCT03373461|164512087|OTHER||Mean Difference (Final Values)|3.28|||||TWO_SIDED|80.0|0.21|6.344||||||||6.344|0.210|
82530640|NCT01370005|164757993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.44||0.0004|TWO_SIDED|95.0|-2.42|-0.69|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime DBP|Difference calculated as empa 10mg minus placebo.|||-0.69|-2.42|0.0004
82401595|NCT03373461|164512087|OTHER||Mean Difference (Final Values)|5.83|||||TWO_SIDED|80.0|2.642|9.01||||||||9.010|2.642|
82401596|NCT03373461|164512087|OTHER||Mean Difference (Final Values)|3.56|||||TWO_SIDED|80.0|0.427|6.7||||||||6.700|0.427|
82401597|NCT03373461|164512087|OTHER||Mean Difference (Final Values)|5.76|||||TWO_SIDED|80.0|2.882|8.638||||||||8.638|2.882|
82645886|NCT01289990|165007122|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.0||0.0096|TWO_SIDED|95.0|-4.4|-0.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-4.4|0.0096
82401598|NCT03373461|164512088|OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|80.0|-15.253|-3.145||||||||-3.145|-15.253|
82401599|NCT03373461|164512088|OTHER||Mean Difference (Final Values)|-9.25|||||TWO_SIDED|80.0|-15.499|-3.0||||||||-3.000|-15.499|
82401600|NCT03373461|164512088|OTHER||Mean Difference (Final Values)|-5.89|||||TWO_SIDED|80.0|-12.04|0.26||||||||0.260|-12.040|
82401601|NCT03373461|164512088|OTHER||Mean Difference (Final Values)|-10.12|||||TWO_SIDED|80.0|-15.763|-4.471||||||||-4.471|-15.763|
82401602|NCT03373461|164512090|OTHER||Ratio to placebo (of ratio to baseline)|0.95|||||TWO_SIDED|80.0|0.742|1.222||||||||1.222|0.742|
82401603|NCT03373461|164512090|OTHER||Ratio to placebo (of ratio to baseline)|1.06|||||TWO_SIDED|80.0|0.83|1.356||||||||1.356|0.830|
82401604|NCT03373461|164512090|OTHER||Ratio to placebo (of ratio to baseline)|0.73|||||TWO_SIDED|80.0|0.569|0.928||||||||0.928|0.569|
82401605|NCT03373461|164512090|OTHER||Ratio to placebo (of ratio to baseline)|0.84|||||TWO_SIDED|80.0|0.669|1.05||||||||1.050|0.669|
82401606|NCT03373461|164512091|OTHER||Ratio to placebo (of ratio to baseline)|0.96|||||TWO_SIDED|80.0|0.741|1.25||||||||1.250|0.741|
82401607|NCT03373461|164512091|OTHER||Ratio to placebo (of ratio to baseline)|1.13|||||TWO_SIDED|80.0|0.872|1.458||||||||1.458|0.872|
82401608|NCT03373461|164512091|OTHER||Ratio to placebo (of ratio to baseline)|0.74|||||TWO_SIDED|80.0|0.574|0.957||||||||0.957|0.574|
82401609|NCT03373461|164512091|OTHER||Ratio to placebo (of ratio to baseline)|0.89|||||TWO_SIDED|80.0|0.706|1.132||||||||1.132|0.706|
82401610|NCT03373461|164512092|OTHER||Ratio to placebo (of ratio to baseline)|0.98|||||TWO_SIDED|80.0|0.794|1.214||||||||1.214|0.794|
82401611|NCT03373461|164512092|OTHER||Ratio to placebo (of ratio to baseline)|1.03|||||TWO_SIDED|80.0|0.835|1.269||||||||1.269|0.835|
82401612|NCT03373461|164512092|OTHER||Ratio to placebo (of ratio to baseline)|0.76|||||TWO_SIDED|80.0|0.616|0.942||||||||0.942|0.616|
82401613|NCT03373461|164512092|OTHER||Ratio to placebo (of ratio to baseline)|0.85|||||TWO_SIDED|80.0|0.704|1.027||||||||1.027|0.704|
82401614|NCT03373461|164512093|OTHER||Ratio to placebo (of ratio to baseline)|0.92|||||TWO_SIDED|80.0|0.723|1.172||||||||1.172|0.723|
82401615|NCT03373461|164512093|OTHER||Ratio to placebo (of ratio to baseline)|0.98|||||TWO_SIDED|80.0|0.767|1.249||||||||1.249|0.767|
82401616|NCT03373461|164512093|OTHER||Ratio to placebo (of ratio to baseline)|0.74|||||TWO_SIDED|80.0|0.577|0.937||||||||0.937|0.577|
82401617|NCT03373461|164512093|OTHER||Ratio to placebo (of ratio to baseline)|0.84|||||TWO_SIDED|80.0|0.678|1.052||||||||1.052|0.678|
82401618|NCT03373461|164512102|OTHER||Mean Difference (Final Values)|3.95|||||TWO_SIDED|80.0|0.42|7.472||||||||7.472|0.420|
82401619|NCT03373461|164512102|OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|80.0|-2.747|4.39||||||||4.390|-2.747|
82401620|NCT03373461|164512102|OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|80.0|-2.745|3.262||||||||3.262|-2.745|
82401621|NCT03373461|164512102|OTHER||Mean Difference (Final Values)|1.98|||||TWO_SIDED|80.0|-1.368|5.337||||||||5.337|-1.368|
82401622|NCT03373461|164512103|OTHER||Ratio to placebo (of ratio to baseline)|1.04|||||TWO_SIDED|80.0|0.68|1.579||||||||1.579|0.680|
82401623|NCT03373461|164512103|OTHER||Ratio to placebo (of ratio to baseline)|0.92|||||TWO_SIDED|80.0|0.607|1.39||||||||1.390|0.607|
82401624|NCT03373461|164512103|OTHER||Ratio to placebo (of ratio to baseline)|0.8|||||TWO_SIDED|80.0|0.558|1.153||||||||1.153|0.558|
82401625|NCT03373461|164512103|OTHER||Ratio to placebo (of ratio to baseline)|0.91|||||TWO_SIDED|80.0|0.614|1.362||||||||1.362|0.614|
82401626|NCT03373461|164512105|OTHER||Geometric mean ratio|1.16|||||TWO_SIDED|80.0|0.792|1.692||||||||1.692|0.792|
82401627|NCT03373461|164512105|OTHER||Geometric mean ratio|0.65|||||TWO_SIDED|80.0|0.446|0.945||||||||0.945|0.446|
82401628|NCT03373461|164512105|OTHER||Geometric mean ratio|0.72|||||TWO_SIDED|80.0|0.518|0.997||||||||0.997|0.518|
82401629|NCT03373461|164512105|OTHER||Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.558|1.146||||||||1.146|0.558|
82401630|NCT03373461|164512106|OTHER||Ratio to placebo (of ratio to baseline)|1.14|||||TWO_SIDED|80.0|0.765|1.699||||||||1.699|0.765|
82401631|NCT03373461|164512106|OTHER||Ratio to placebo (of ratio to baseline)|0.66|||||TWO_SIDED|80.0|0.446|0.984||||||||0.984|0.446|
82401632|NCT03373461|164512106|OTHER||Ratio to placebo (of ratio to baseline)|0.71|||||TWO_SIDED|80.0|0.501|0.995||||||||0.995|0.501|
82401633|NCT03373461|164512106|OTHER||Ratio to placebo (of ratio to baseline)|0.76|||||TWO_SIDED|80.0|0.52|1.107||||||||1.107|0.520|
82530641|NCT01370005|164757993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.84|-1.12|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline daytime DBP|Difference calculated as empa 25mg minus placebo.|||-1.12|-2.84|<0.0001
82401634|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-4.4|1.3||||||Serotype 1: 2-Sided 95% CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||1.3|-4.4|
82401635|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-6.2|0.1||||||Serotype 3: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.1|-6.2|
82401636|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-5.6|0.5||||||Serotype 4: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.5|-5.6|
82401637|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-5.0|||||TWO_SIDED|95.0|-9.6|-0.9||||||Serotype 5: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-0.9|-9.6|
82401638|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-8.1|||||TWO_SIDED|95.0|-13.0|-4.0||||||Serotype 6A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-4.0|-13.0|
82401639|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-8.6|||||TWO_SIDED|95.0|-14.0|-3.7||||||Serotype 6B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-3.7|-14.0|
82401640|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-3.2|||||TWO_SIDED|95.0|-6.8|-0.3||||||Serotype 7F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-0.3|-6.8|
82401641|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-6.4|0.4||||||Serotype 9V: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.4|-6.4|
82401642|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-4.4|2.4||||||Serotype 14: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.4|-4.4|
82401643|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-2.3|||||TWO_SIDED|95.0|-5.6|0.5||||||Serotype 18C: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||0.5|-5.6|
82401644|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 19A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.1|-2.1|
82401645|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.7|1.7||||||Serotype 19F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.7|
82401646|NCT04530838|164512119|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - 13vPnC SC) was greater than -10%.|Percentage Difference|-4.0|||||TWO_SIDED|95.0|-9.5|1.2||||||Serotype 23F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.2|-9.5|
82401647|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|5.9|||||TWO_SIDED|95.0|3.0|10.0||||||Serotype 8: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.0|3.0|
82576210|NCT02209181|164862042|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.52||0.172|TWO_SIDED|95.0|-1.75|0.31||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.31|-1.75|0.172
82645887|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.94|-0.63||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.63|-0.94|<0.0001
82576211|NCT02209181|164862042|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.55|STANDARD_ERROR_OF_MEAN|0.53||0.004|TWO_SIDED|95.0|0.51|2.6||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.60|0.51|0.004
82645888|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.04|-0.73||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.73|-1.04|<0.0001
82401648|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|-33.5|||||TWO_SIDED|95.0|-40.7|-26.2||||||Serotype 10A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-26.2|-40.7|
82401649|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|6.4|||||TWO_SIDED|95.0|3.8|10.4||||||Serotype 11A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.4|3.8|
82401650|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|-19.0|||||TWO_SIDED|95.0|-25.7|-12.5||||||Serotype 12F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-12.5|-25.7|
82401651|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|5.5|||||TWO_SIDED|95.0|2.2|9.6||||||Serotype 15B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||9.6|2.2|
82401652|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|6.4|||||TWO_SIDED|95.0|3.8|10.4||||||Serotype 22F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.4|3.8|
82401653|NCT04530838|164512119|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC \[SC\] serotype with the lowest percentage, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC SC - lowest 13vPnC SC) was greater than -10%.|Percentage Difference|1.3|||||TWO_SIDED|95.0|-3.2|6.0||||||Serotype 33F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||6.0|-3.2|
82401654|NCT04530838|164512119|OTHER||Percentage Difference|-5.7|||||TWO_SIDED|95.0|-10.4|-1.7||||||Serotype 1: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||-1.7|-10.4|
82401655|NCT04530838|164512119|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-5.2|2.9||||||Serotype 3: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.9|-5.2|
82401656|NCT04530838|164512119|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-6.2|1.9||||||Serotype 4: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.9|-6.2|
82401657|NCT04530838|164512119|OTHER||Percentage Difference|0.7|||||TWO_SIDED|95.0|-4.5|5.8||||||Serotype 5: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||5.8|-4.5|
82401658|NCT04530838|164512119|OTHER||Percentage Difference|4.8|||||TWO_SIDED|95.0|-0.2|10.0||||||Serotype 6A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||10.0|-0.2|
82401659|NCT04530838|164512119|OTHER||Percentage Difference|-5.6|||||TWO_SIDED|95.0|-12.5|1.1||||||Serotype 6B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.1|-12.5|
82645889|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.82|-0.51||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.51|-0.82|<0.0001
82401660|NCT04530838|164512119|OTHER||Percentage Difference|-1.1|||||TWO_SIDED|95.0|-5.4|3.1||||||Serotype 7F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||3.1|-5.4|
82645890|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.131|TWO_SIDED|95.0|-0.28|0.04||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||0.04|-0.28|0.1310
82645891|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.005|TWO_SIDED|95.0|-0.38|-0.07||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.07|-0.38|0.0050
82445699|NCT01969721|164599870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.111|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.087|0.135||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 250/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 250/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.135|0.087|<0.0001
82445700|NCT01969721|164599870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.092|0.14||p-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is two-sided alpha=0.05.|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom.|Difference calculated as T+O 2.5/5 - F+S 500/50 adjusted mean FEV1 peak (0-3h) change from patient baseline (L)|Null hypothesis: Mean FEV1 peak (0-3h) change from patient baseline (Tiotropium + Olodaterol 2.5/5 μg) = Mean FEV1 peak (0-3h) change from patient baseline (Fluticasone propionate + Salmeterol 500/50 μg). Hypothesis was analysed using a restricted maximum likelihood-based mixed effect repeated measures model including fixed effects of treatment and period; period baseline and patient baseline as covariates; patient as a random effect.||0.140|0.092|<0.0001
82445701|NCT01563172|164599918|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|6.95||||0.0008|TWO_SIDED|95.0|2.91|10.98||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from Analysis of variance (ANOVA) with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||10.98|2.91|0.0008
82401661|NCT04530838|164512119|OTHER||Percentage Difference|-3.0|||||TWO_SIDED|95.0|-7.7|1.4||||||Serotype 9V: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.4|-7.7|
82401662|NCT04530838|164512119|OTHER||Percentage Difference|-0.6|||||TWO_SIDED|95.0|-4.4|3.2||||||Serotype 14: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||3.2|-4.4|
82401663|NCT04530838|164512119|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-6.2|1.9||||||Serotype 18C: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.9|-6.2|
82401664|NCT04530838|164512119|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-3.0|1.7||||||Serotype 19A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-3.0|
82401665|NCT04530838|164512119|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 19F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
82401666|NCT04530838|164512119|OTHER||Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.9|5.1||||||Serotype 23F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||5.1|-6.9|
82401667|NCT04530838|164512119|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.2|2.1||||||Serotype 8: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.1|-2.2|
82401668|NCT04530838|164512119|OTHER||Percentage Difference|-0.6|||||TWO_SIDED|95.0|-9.8|8.6||||||Serotype 10A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||8.6|-9.8|
82401669|NCT04530838|164512119|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 11A: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
82445702|NCT01563172|164599919|SUPERIORITY_OR_OTHER||LS mean difference|5.7||||0.0049|TWO_SIDED|95.0|1.74|9.66||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||9.66|1.74|0.0049
82530642|NCT01370005|164757994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.0021|TWO_SIDED|95.0|-4.09|-0.91|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time SBP|Difference calculated as empa 10mg minus placebo.|||-0.91|-4.09|0.0021
82530643|NCT01370005|164757994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.81||0.0003|TWO_SIDED|95.0|-4.48|-1.32|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time SBP|Difference calculated as empa 25mg minus placebo.|||-1.32|-4.48|0.0003
82401670|NCT04530838|164512119|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-8.2|8.2||||||Serotype 12F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||8.2|-8.2|
82401671|NCT04530838|164512119|OTHER||Percentage Difference|-0.5|||||TWO_SIDED|95.0|-3.3|2.0||||||Serotype 15B: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.0|-3.3|
82401672|NCT04530838|164512119|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||Serotype 22F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||1.7|-1.8|
82401673|NCT04530838|164512119|OTHER||Percentage Difference|-2.5|||||TWO_SIDED|95.0|-7.5|2.2||||||Serotype 33F: 2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.||2.2|-7.5|
82401674|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.62|||||TWO_SIDED|95.0|0.54|0.72||||||Serotype 1: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.72|0.54|
82530644|NCT01370005|164757995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.5||0.0566|TWO_SIDED|95.0|-1.93|0.03|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time DBP|Difference calculated as empa 10mg minus placebo.|||0.03|-1.93|0.0566
82401675|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.71|||||TWO_SIDED|95.0|0.63|0.81||||||Serotype 3: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.81|0.63|
82401676|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.6|||||TWO_SIDED|95.0|0.51|0.7||||||Serotype 4: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.70|0.51|
82401677|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.59|||||TWO_SIDED|95.0|0.49|0.71||||||Serotype 5: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.71|0.49|
82401678|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.59|||||TWO_SIDED|95.0|0.5|0.7||||||Serotype 6A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.70|0.50|
82401679|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.51|||||TWO_SIDED|95.0|0.4|0.64||||||Serotype 6B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.64|0.40|
82401680|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.72|||||TWO_SIDED|95.0|0.62|0.84||||||Serotype 7F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.84|0.62|
82401681|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.69|||||TWO_SIDED|95.0|0.6|0.8||||||Serotype 9V: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.80|0.60|
82401682|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||Serotype 14: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.01|0.70|
82401683|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.66|||||TWO_SIDED|95.0|0.57|0.77||||||Serotype 18C: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.77|0.57|
82401684|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.76|||||TWO_SIDED|95.0|0.65|0.87||||||Serotype 19A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.87|0.65|
82530645|NCT01370005|164757995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.5||0.0208|TWO_SIDED|95.0|-2.12|-0.18|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline night-time DBP|Difference calculated as empa 25mg minus placebo.|||-0.18|-2.12|0.0208
82530646|NCT01370005|164757996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-5.86|-1.98|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated SBP|Difference calculated as empa 10mg minus placebo.|||-1.98|-5.86|<0.0001
82530647|NCT01370005|164757996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-6.73|-2.87|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated SBP|Difference calculated as empa 25mg minus placebo.|||-2.87|-6.73|<0.0001
82530648|NCT01370005|164757997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.55||0.0005|TWO_SIDED|95.0|-3.01|-0.84|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated DBP|Difference calculated as empa 10mg minus placebo.|||-0.84|-3.01|0.0005
82401685|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.75|||||TWO_SIDED|95.0|0.67|0.85||||||Serotype 19F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.85|0.67|
82401686|NCT04530838|164512120|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC (SC) is to the corresponding serotype in 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.64|||||TWO_SIDED|95.0|0.53|0.78||||||Serotype 23F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.78|0.53|
82401687|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|4.01|||||TWO_SIDED|95.0|3.36|4.79||||||Serotype 8: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||4.79|3.36|
82401688|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.6|||||TWO_SIDED|95.0|0.48|0.76||||||Serotype 10A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.76|0.48|
82401689|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|6.8|||||TWO_SIDED|95.0|5.69|8.13||||||Serotype 11A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||8.13|5.69|
82401690|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|0.95|||||TWO_SIDED|95.0|0.76|1.2||||||Serotype 12F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.20|0.76|
82401691|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|8.18|||||TWO_SIDED|95.0|6.75|9.92||||||Serotype 15B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||9.92|6.75|
82401692|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|5.97|||||TWO_SIDED|95.0|5.0|7.12||||||Serotype 22F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||7.12|5.00|
82401693|NCT04530838|164512120|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC \[SC\] serotype with the lowest GMC, not including serotype 3) in the 13vPnC (SC) group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC \[SC\]/lowest 13vPnC \[SC\]) was greater than 0.5 (2-fold criterion).|GMR|2.06|||||TWO_SIDED|95.0|1.69|2.51||||||Serotype 33F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||2.51|1.69|
82401694|NCT04530838|164512120|OTHER||GMR|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||Serotype 1: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.99|0.73|
82401695|NCT04530838|164512120|OTHER||GMR|0.85|||||TWO_SIDED|95.0|0.74|0.98||||||Serotype 3: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||0.98|0.74|
82401696|NCT04530838|164512120|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Serotype 4: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.16|0.83|
82401697|NCT04530838|164512120|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 5: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.19|0.81|
82401698|NCT04530838|164512120|OTHER||GMR|1.19|||||TWO_SIDED|95.0|0.98|1.44||||||Serotype 6A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.44|0.98|
82445703|NCT01563172|164599920|SUPERIORITY_OR_OTHER||LS mean difference|-10.86|||<|0.0001|TWO_SIDED|95.0|-14.77|-6.94||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-6.94|-14.77|<0.0001
82645892|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.79|-0.4||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.40|-0.79|<0.0001
82401699|NCT04530838|164512120|OTHER||GMR|0.93|||||TWO_SIDED|95.0|0.72|1.21||||||Serotype 6B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.21|0.72|
82401700|NCT04530838|164512120|OTHER||GMR|0.96|||||TWO_SIDED|95.0|0.82|1.12||||||Serotype 7F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.12|0.82|
82401701|NCT04530838|164512120|OTHER||GMR|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||Serotype 9V: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.16|0.85|
82401702|NCT04530838|164512120|OTHER||GMR|0.87|||||TWO_SIDED|95.0|0.72|1.04||||||Serotype 14: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.04|0.72|
82401703|NCT04530838|164512120|OTHER||GMR|0.92|||||TWO_SIDED|95.0|0.79|1.07||||||Serotype 18C: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.07|0.79|
82401704|NCT04530838|164512120|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.84|1.13||||||Serotype 19A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.13|0.84|
82401705|NCT04530838|164512120|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.87|1.1||||||Serotype 19F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.10|0.87|
82401706|NCT04530838|164512120|OTHER||GMR|0.98|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 23F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.19|0.81|
82401707|NCT04530838|164512120|OTHER||GMR|0.99|||||TWO_SIDED|95.0|0.87|1.13||||||Serotype 8: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.13|0.87|
82401708|NCT04530838|164512120|OTHER||GMR|0.94|||||TWO_SIDED|95.0|0.73|1.2||||||Serotype 10A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.20|0.73|
82401709|NCT04530838|164512120|OTHER||GMR|0.93|||||TWO_SIDED|95.0|0.81|1.06||||||Serotype 11A: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.06|0.81|
82445704|NCT01563172|164599921|SUPERIORITY_OR_OTHER||LS mean difference|-9.61|||<|0.0001|TWO_SIDED|95.0|-13.68|-5.54||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-5.54|-13.68|<0.0001
82401710|NCT04530838|164512120|OTHER||GMR|0.91|||||TWO_SIDED|95.0|0.71|1.15||||||Serotype 12F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.15|0.71|
82401711|NCT04530838|164512120|OTHER||GMR|1.0|||||TWO_SIDED|95.0|0.85|1.18||||||Serotype 15B: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.18|0.85|
82401712|NCT04530838|164512120|OTHER||GMR|0.89|||||TWO_SIDED|95.0|0.78|1.02||||||Serotype 22F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.02|0.78|
82401713|NCT04530838|164512120|OTHER||GMR|0.95|||||TWO_SIDED|95.0|0.79|1.15||||||Serotype 33F: 2-Sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the IgG concentrations and the corresponding CIs based on the geometric mean ratio.||1.15|0.79|
82401714|NCT03159299|164512128|SUPERIORITY||Mean Difference (Final Values)|0.11|||<|0.15|TWO_SIDED||||||Mixed Models Analysis|||||||<0.15
82401715|NCT00995722|164512153|NON_INFERIORITY_OR_EQUIVALENCE|N=80, (40 per group), 80% power to detect a group difference of 30%-35% and 5% significance level.|Mean Difference (Final Values)|-2.2||||0.37|TWO_SIDED|95.0|-7.2|2.8|||ANCOVA|ANCOVA used to compare mean values adjusting for the baseline value|QMG Score ranges from 0-15, where 0 is normal and a reduction in score represents imrovement.|Mean Ocular QMG Changes from Baseline to Week 16 . 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||2.8|-7.20|0.37
82401716|NCT00995722|164512154|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change in quality of life as measured by the NEI-VFQ-25 at the end of Double- Blinded Treatment|Mean Difference (Net)|6.56||||0.13|TWO_SIDED|95.0|-2.59|15.71|||ANCOVA||Scores ranges fro 0-100 , where 100 is normal and an increase in score represents an improvement|Mean Change in quality of life as measured by the NEI-VFQ-25 at the end of Double- Blinded Treatment. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||15.71|-2.59|0.13
82401717|NCT00995722|164512155|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change in quality if life as measured by the MG-QOL-15 score at the end of Double- Blinded Treatment|Mean Difference (Final Values)|-3.81||||0.15|TWO_SIDED|95.0|-9.37|1.75|||ANCOVA||Ranges from 0-60, where 0 is Normal and a reduction in score represents improvement.|Mean Change in quality if life as measured by the MG-QOL-15 score at the end of Double- Blinded Treatment. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||1.75|-9.37|0.15
82401718|NCT00995722|164512156|NON_INFERIORITY_OR_EQUIVALENCE|Mean Change NEI-VFQ-25 10 item neuro-opthtalmological supplement score baseline to week 16.|Mean Difference (Final Values)|16.98||||0.16|TWO_SIDED|95.0|-9.22|43.17|||ANCOVA||Ranges 0-100, where 100 is normal and an increase in score represents an improvement.|Mean Change NEI-VFQ-25 10 item neuro-opthtalmological supplement score baseline to week 16. 95% CI and p-values obtained from the analysis of covariance model to adjust for the baseline value of the outcome variable.||43.17|-9.22|0.16
82401719|NCT00762762|164512157|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
82530649|NCT01370005|164757997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.55||0.0006|TWO_SIDED|95.0|-2.97|-0.82|||ANCOVA|Model includes treatment, baseline renal function, geographical region, baseline N of antihyperten. med., baseline HbA1c and baseline seated DBP|Difference calculated as empa 25mg minus placebo.|||-0.82|-2.97|0.0006
82530650|NCT01370005|164757998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.0021|TWO_SIDED|95.0|1.39|4.45|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||4.45|1.39|0.0021
82530651|NCT01370005|164757998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0088|TWO_SIDED|95.0|1.22|3.96|||Regression, Logistic|Logistic regression model includes treatment, baseline renal function, region, baseline number of antihypertensive medications and baseline HbA1c||||3.96|1.22|0.0088
82530652|NCT03691948|164758006|SUPERIORITY|||||||0.531|||||||ANOVA|||||||.531
82530653|NCT03691948|164758007|SUPERIORITY|||||||0.076|||||||ANOVA|||||||0.076
82375933|NCT02458287|164458094|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|STANDARD_ERROR_OF_MEAN|4.53|<|0.001|TWO_SIDED|95.0|-51.9|-34.0|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-34.0|-51.9|<0.001
82375934|NCT02458287|164458095|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.7|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-45.4|-34.1|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-34.1|-45.4|<0.001
82375935|NCT02458287|164458095|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.7|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-32.5|-20.8|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-20.8|-32.5|<0.001
82375936|NCT02458287|164458096|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.9|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-66.2|-49.5|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-49.5|-66.2|<0.001
82375937|NCT02458287|164458096|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-44.4|-27.1|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-27.1|-44.4|<0.001
82375938|NCT02458287|164458097|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.2|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-63.7|-48.6|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-48.6|-63.7|<0.001
82375939|NCT02458287|164458097|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.2|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-45.0|-29.3|||MMRM|||LS-mean differences and associated 95% confidence intervals, and p-values are from an MMRM model with fixed effects for treatment groups, visit, treatment group \* visit interaction, baseline value, baseline value \* visit interaction as covariates.||-29.3|-45.0|<0.001
82375940|NCT01727726|164458107|OTHER||Mean Difference (Final Values)|-1.48||||0.0078|TWO_SIDED|95.0|-2.56|-0.39|||Cochran-Mantel-Haenszel|Mixed-model repeated measures (MMRM)||||-0.39|-2.56|0.0078
82375941|NCT01727726|164458107|OTHER||Mean Difference (Final Values)|-0.3||||0.6642|TWO_SIDED|95.0|-1.63|1.04|||Cochran-Mantel-Haenszel|Mixed-model repeated measures (MMRM)||||1.04|-1.63|0.6642
82375942|NCT01727726|164458108|OTHER||Mean Difference (Final Values)|-0.23||||0.1334|TWO_SIDED|95.0|-0.52|0.07|||MMRM|Mixed-model repeated measures (MMRM)||||0.07|-0.52|0.1334
82375943|NCT01727726|164458108|OTHER||Mean Difference (Final Values)|0.42||||0.0237|TWO_SIDED|95.0|0.06|0.78|||MMRM|Mixed-model repeated measures (MMRM)||||0.78|0.06|0.0237
82375944|NCT01727726|164458109|OTHER||Mean Difference (Final Values)|-1.53||||0.0001|TWO_SIDED|95.0|-2.29|-0.76|||MMRM|Mixed-model repeated measures (MMRM)||Phase B week 2||-0.76|-2.29|0.0001
82375945|NCT01727726|164458109|OTHER||Mean Difference (Final Values)|-1.22||||0.0103|TWO_SIDED|95.0|-2.15|-0.29|||MMRM|Mixed-model repeated measures (MMRM)||Phase B Week 2||-0.29|-2.15|0.0103
82375946|NCT01727726|164458109|OTHER||Mean Difference (Final Values)|-1.17||||0.0185|TWO_SIDED|95.0|-2.15|-0.2|||MMRM|Mixed-model repeated measures (MMRM)||Phase B week 4||-0.20|-2.15|0.0185
82375947|NCT01727726|164458109|OTHER||Mean Difference (Final Values)|-0.08||||0.8949|TWO_SIDED|95.0|-1.27|1.11|||MMRM|Mixed-model repeated measures (MMRM)||Phase B Week 4||1.11|-1.27|0.8949
82375948|NCT01727726|164458110|OTHER||Mean Difference (Final Values)|-0.15||||0.035|TWO_SIDED|95.0|-0.29|-0.01|||Cochran-Mantel-Haenszel|||CGI-Severity of Illness Scale Score||-0.01|-0.29|0.0350
82375949|NCT01727726|164458110|OTHER||Mean Difference (Final Values)|-0.05||||0.5601|TWO_SIDED|95.0|-0.22|0.12|||Cochran-Mantel-Haenszel|||CGI-Severity of Illness Scale Score||0.12|-0.22|0.5601
82375950|NCT01727726|164458110|OTHER||Mean Difference (Final Values)|-0.19||||0.0146|TWO_SIDED|95.0|-0.35|-0.04|||Cochran-Mantel-Haenszel|||CGI-Improvement Scale Score||-0.04|-0.35|0.0146
82375951|NCT01727726|164458110|OTHER||Mean Difference (Final Values)|-0.04||||0.7127|TWO_SIDED|95.0|-0.23|0.15|||Cochran-Mantel-Haenszel|||CGI-Improvement Scale Score||0.15|-0.23|0.7127
82375952|NCT01727726|164458111|OTHER||Ratio of response rate|1.49||||0.2242|TWO_SIDED|95.0|0.78|2.84|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.84|0.78|0.2242
82375953|NCT01727726|164458111|OTHER||Ratio of Response Rate|1.26||||0.5998|TWO_SIDED|95.0|0.53|2.98|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.98|0.53|0.5998
82375954|NCT01727726|164458112|OTHER||Ratio of Response Rate|1.52||||0.3321|TWO_SIDED|95.0|0.66|3.49|||Cochran-Mantel-Haenszel|||Phase B Week 6||3.49|0.66|0.3321
82375955|NCT01727726|164458112|OTHER||Ratio of Response Rate|0.51||||0.3917|TWO_SIDED|95.0|0.11|2.46|||Cochran-Mantel-Haenszel|||Phase B Week 6||2.46|0.11|0.3917
82645893|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.88|-0.5||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.50|-0.88|<0.0001
82401720|NCT00762762|164512158|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
82401721|NCT00762762|164512159|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
82645894|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.75|-0.46||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.46|-0.75|<0.0001
82401722|NCT00762762|164512160|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
82401723|NCT00762762|164512161|OTHER|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups.||||0.05
82401724|NCT00762762|164512162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82401725|NCT00762762|164512163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED|95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82401726|NCT00762762|164512164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82401727|NCT00762762|164512165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82401728|NCT00762762|164512166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82401729|NCT01563198|164512174|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Change in Non-completion Rate of MRI Scans From Baseline at Average of One Year (All Schedule Patients)||||<0.0001
82401730|NCT01563198|164512175|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82401731|NCT01563198|164512176|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82401732|NCT02964338|164512180|OTHER||Least square (LS) mean difference|3.5||||0.2741|TWO_SIDED|95.0|-2.8|9.82||Threshold for significance at 0.05 level.|ANCOVA|||||9.82|-2.80|0.2741
82401733|NCT02964338|164512180|OTHER||LS mean difference|-3.3||||0.3047|TWO_SIDED|95.0|-9.59|3.01||Threshold for significance at 0.05 level.|ANCOVA|||||3.01|-9.59|0.3047
82445705|NCT01563172|164599922|SUPERIORITY_OR_OTHER||LS mean difference|15.38|||<|0.0001|TWO_SIDED|95.0|11.45|19.31||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||19.31|11.45|<0.0001
82401734|NCT02171429|164512196|SUPERIORITY||Difference in Remission Rates|7.2||||0.1729|TWO_SIDED|95.0|-3.83|16.12||The threshold for statistical significance was a p-value \<0.05.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|The null hypothesis (H0): the percentage of participants achieving remission at Week 10 was the same in both the placebo and etrolizumab arms. The alternative hypothesis (H1): the percentage of participants achieving remission at Week 10 was not the same in the placebo and etrolizumab arms.||16.12|-3.83|0.1729
82401735|NCT02171429|164512197|SUPERIORITY||Difference in Remission Rates|-6.8||||0.1458|TWO_SIDED|95.0|-16.26|2.73||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.73|-16.26|0.1458
82401736|NCT02171429|164512198|SUPERIORITY||Difference in Remission Rates|-5.0||||1|TWO_SIDED|95.0|-11.66|1.75||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||1.75|-11.66|1
82401737|NCT02171429|164512199|SUPERIORITY||Difference in Response Rates|14.0||||0.1729|TWO_SIDED|95.0|-0.12|27.19||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||27.19|-0.12|0.1729
82426461|NCT05209386|164561857|OTHER||||||||||||||||||Permutation-based clustering analysis was used to identify channels in non-regions of interest that significantly encode change in acoustic dimensions. For each channel, a sliding-window encoding model was built comparing evoked responses (z-scored voltages) to Canonical Block stimuli across varying F0 with fixed VOT. This analysis identified the n = 4 channels and time windows where neural responses differed according to change in F0.|||
82401738|NCT02171429|164512199|SUPERIORITY||Difference in Response Rates|-2.5||||0.6726|TWO_SIDED|95.0|-13.83|9.01||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.01|-13.83|0.6726
82401739|NCT02171429|164512200|SUPERIORITY||Difference in Response Rates|1.2||||1|TWO_SIDED|95.0|-6.98|9.26||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.26|-6.98|1
82401740|NCT02171429|164512201|SUPERIORITY||Difference in Response Rates|9.4||||0.2372|TWO_SIDED|95.0|-4.31|21.95||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 1 of the testing procedure; please refer to the statistical analysis plan for details.||21.95|-4.31|0.2372
82401741|NCT02171429|164512201|SUPERIORITY||Difference in Response Rates|-3.5||||0.5341|TWO_SIDED|95.0|-14.76|7.82||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||7.82|-14.76|0.5341
82401742|NCT02171429|164512202|SUPERIORITY||Difference in Response Rates|1.9||||1|TWO_SIDED|95.0|-6.04|9.88||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in response rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 3 of the testing procedure; please refer to the statistical analysis plan for details.||9.88|-6.04|1
82401743|NCT02171429|164512203|SUPERIORITY||Difference in Remission Rates|11.2||||0.2372|TWO_SIDED|95.0|0.59|19.76||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||19.76|0.59|0.2372
82401744|NCT02171429|164512203|SUPERIORITY||Difference in Remission Rates|-7.5||||0.1192|TWO_SIDED|95.0|-17.2|2.33||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.33|-17.20|0.1192
82401745|NCT02171429|164512204|SUPERIORITY||Difference in Remission Rates|-3.5||||1|TWO_SIDED|95.0|-10.27|3.3||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||3.30|-10.27|1
82445706|NCT01563172|164599923|SUPERIORITY_OR_OTHER||LS Mean Difference|514.01|||<|0.0001|TWO_SIDED|95.0|283.02|744.99||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||744.99|283.02|<0.0001
82445707|NCT01563172|164599924|SUPERIORITY_OR_OTHER||LS Mean difference|265.92||||0.0218|TWO_SIDED|95.0|39.0|492.83||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||492.83|39.00|0.0218
82445708|NCT01563172|164599925|SUPERIORITY_OR_OTHER||LS mean difference|-822.88|||<|0.0001|TWO_SIDED|95.0|-1047.34|-598.42||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-598.42|-1047.34|<0.0001
82576212|NCT02209181|164862043|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.51||0.102|TWO_SIDED|95.0|-0.17|1.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.84|-0.17|0.102
82375956|NCT01727726|164458113|OTHER||Ratio of Response Rate|1.35||||0.0032|TWO_SIDED|95.0|1.1|1.66|||Cochran-Mantel-Haenszel|||Phase B Week 6||1.66|1.10|0.0032
82375957|NCT01727726|164458113|OTHER||Ratio of Response Rate|1.24||||0.0898|TWO_SIDED|95.0|0.98|1.59|||Cochran-Mantel-Haenszel|||Phase B Week 6||1.59|0.98|0.0898
82375958|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|0.16||||0.448|TWO_SIDED|95.0|-0.25|0.56|||MMRM|Mixed-model repeated measures (MMRM)||Work/School Score||0.56|-0.25|0.4480
82375959|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|0.52||||0.038|TWO_SIDED|95.0|0.03|1.02|||MMRM|Mixed-model repeated measures (MMRM)||Work/School Score||1.02|0.03|0.0380
82375960|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|-0.34||||0.0436|TWO_SIDED|95.0|-0.66|-0.01|||MMRM|Mixed-model repeated measures (MMRM)||Social Life Score||-0.01|-0.66|0.0436
82375961|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|0.43||||0.035|TWO_SIDED|95.0|0.03|0.84|||MMRM|Mixed-model repeated measures (MMRM)||Social Life Score||0.84|0.03|0.0350
82375962|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|-0.35||||0.0424|TWO_SIDED|95.0|-0.69|-0.01|||MMRM|Mixed-model repeated measures (MMRM)||Family Life Score||-0.01|-0.69|0.0424
82375963|NCT01727726|164458115|OTHER||Mean Difference (Final Values)|0.33||||0.123|TWO_SIDED|95.0|-0.09|0.75|||MMRM|Mixed-model repeated measures (MMRM)||Family Life Score||0.75|-0.09|0.1230
82375964|NCT00863772|164458116|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.37||0.434|TWO_SIDED|95.0|-0.44|1.01|||ANCOVA|||Analysis of co-variance (ANCOVA) model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||1.01|-0.44|0.434
82375965|NCT00863772|164458116|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.37||0.883|TWO_SIDED|95.0|-0.68|0.79|||ANCOVA|||ANCOVA model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.79|-0.68|0.883
82375966|NCT00863772|164458117|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.37||0.72|TWO_SIDED|95.0|-0.59|0.86|||ANCOVA|||Analysis of co-variance (ANCOVA) model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.86|-0.59|0.720
82375967|NCT00863772|164458117|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.37||0.985|TWO_SIDED|95.0|-0.73|0.74|||ANCOVA|||ANCOVA model was used with treatment as main effect, baseline value as a covariate, and study site as a random effect.||0.74|-0.73|0.985
82375968|NCT00086281|164458157|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA on ranks|||||||0.009
82375969|NCT00086281|164458157|SUPERIORITY_OR_OTHER|||||||0.0244||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.0244
82375970|NCT00086281|164458157|SUPERIORITY_OR_OTHER|||||||0.0119||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.0119
82375971|NCT00086281|164458157|SUPERIORITY_OR_OTHER|||||||0.5055||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.5055
82375972|NCT00086281|164458157|SUPERIORITY_OR_OTHER|||||||0.3132||95.0||||Bonferroni adjusted P-Value|ANOVA on ranks|||||||0.3132
82375973|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|-2.26|||||TWO_SIDED|95.0|-8.08|2.33||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.33|-8.08|
82375974|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|-0.49|||||TWO_SIDED|95.0|-9.93|8.65||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||8.65|-9.93|
82375975|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|-2.27|||||TWO_SIDED|95.0|-8.07|2.26||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.26|-8.07|
82375976|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|0.68||||||95.0|-4.96|6.16||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.16|-4.96|
82375977|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|-2.25||||||95.0|-8.18|2.36||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.36|-8.18|
82375978|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|0.7||||||95.0|-4.84|6.32||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.32|-4.84|
82375979|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|-0.69||||||95.0|-7.75|5.86||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||5.86|-7.75|
82375980|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|72.87||||||95.0|63.32|81.07||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||81.07|63.32|
82375981|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|84.92||||||95.0|76.73|91.05||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||91.05|76.73|
82375982|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|57.94||||||95.0|48.01|67.42||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||67.42|48.01|
82375983|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|62.81||||||95.0|52.33|72.2||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||72.20|52.33|
82375984|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|92.27||||||95.0|85.26|96.54||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||96.54|85.26|
82375985|NCT00205803|164458198|SUPERIORITY_OR_OTHER||Difference|5.61||||||95.0|1.23|11.86||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||11.86|1.23|
82375986|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|-1.5||||||95.0|-7.9|3.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.6|-7.9|
82375987|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
82375988|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|-1.3||||||95.0|-6.9|2.8||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.8|-6.9|
82375989|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
82445709|NCT01563172|164599926|SUPERIORITY_OR_OTHER||LS mean difference|-574.79|||<|0.0001|TWO_SIDED|95.0|-808.08|-341.5||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||-341.50|-808.08|<0.0001
82445710|NCT01563172|164599927|SUPERIORITY_OR_OTHER||LS mean difference|1294.34|||<|0.0001|TWO_SIDED|95.0|1069.24|1519.43||Between Treatment p-Values based on the statistical model adjusting for treatment, study period, and participant (random effect).|ANOVA||"LS Mean from ANOVA with factors for treatment, study period, and participant (random effect).~Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment."|||1519.43|1069.24|<0.0001
82530654|NCT03169881|164758080|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.88|TWO_SIDED|95.0|-3.09|2.64||The mean difference in Bayley-III cognitive scores between treatment groups was adjusted for center, gestational age group, and familial clustering.|Mixed Models Analysis||Adjusted mean difference in cognitive score for the Darbepoetin minus Placebo treatment groups.|Null hypothesis: Weekly administration of Darbepoetin during the neonatal period will not impact neurocognitive outcomes at 22-26 months compared to Placebo in premature infants 23 to 28 weeks gestation.||2.64|-3.09|0.88
82530655|NCT02306122|164758094|SUPERIORITY||Risk Difference (RD)|-0.015|STANDARD_ERROR_OF_MEAN|0.034|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
82530656|NCT02306122|164758094|SUPERIORITY||Risk Difference (RD)|-0.015|STANDARD_ERROR_OF_MEAN|0.041|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
82645895|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.88|-0.58||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.58|-0.88|<0.0001
82645896|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.87|-0.56|||ANCOVA|||||-0.56|-0.87|<0.0001
82645897|NCT01289990|165007123|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.85|-0.53||Model includes baseline HbA1c as a linear covariate, baseline estimated glomerular filtration rate (eGFR), geographic region, and treatment as fixed effects.|ANCOVA|||||-0.53|-0.85|<0.0001
82375990|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.7|3.9||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.9|-4.7|
82530657|NCT02306122|164758094|SUPERIORITY||Risk Difference (RD)|0.012|STANDARD_ERROR_OF_MEAN|0.029|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is control arm|||||<0.01
82530658|NCT02306122|164758095|SUPERIORITY||Mean Difference (Final Values)|-0.128|STANDARD_ERROR_OF_MEAN|2.523|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
82645898|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0025|TWO_SIDED|95.0|-5.5|-1.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-5.5|0.0025
82645899|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0021|TWO_SIDED|95.0|-5.6|-1.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-5.6|0.0021
82645900|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|1.1||0.7241|TWO_SIDED|95.0|-1.8|2.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||2.6|-1.8|0.7241
82375991|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
82375992|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|-2.6|7.7||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||7.7|-2.6|
82375993|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|97.8||||||95.0|92.3|99.7||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||99.7|92.3|
82375994|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|83.6||||||95.0|73.2|90.8||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||90.8|73.2|
82375995|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|29.5||||||95.0|19.7|40.9||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||40.9|19.7|
82375996|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|12.0||||||95.0|5.9|20.4||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||20.4|5.9|
82375997|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|94.1||||||95.0|86.8|98.1||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||98.1|86.8|
82375998|NCT00205803|164458199|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-4.6|4.0||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.0|-4.6|
82375999|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.76||||||95.0|0.59|0.96||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.59|
82376000|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.96||||||95.0|0.62|1.48||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||1.48|0.62|
82376001|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Difference|0.85||||||95.0|0.69|1.05||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||1.05|0.69|
82376002|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.82||||||95.0|0.6|1.11||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.11|0.60|
82376003|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.62||||||95.0|0.49|0.79||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||0.79|0.49|
82376004|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.86||||||95.0|0.67|1.09||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||1.09|0.67|
82376005|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|0.77||||||95.0|0.59|1.0||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||1.00|0.59|
82376006|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|39.78||||||95.0|27.47|57.63||||||For serotype 1 the GMC ratio (13vPnC/7vPnC) was calculated||57.63|27.47|
82401746|NCT02171429|164512205|SUPERIORITY||Difference in Remission Rates|9.6||||0.2729|TWO_SIDED|95.0|-4.71|22.02||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||22.02|-4.71|0.2729
82401747|NCT02171429|164512205|SUPERIORITY||Difference in Remission Rates|-14.8||||0.0215|TWO_SIDED|95.0|-26.97|-2.04||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||-2.04|-26.97|0.0215
82401748|NCT02171429|164512206|SUPERIORITY||Difference in Remission Rates|-0.3||||1|TWO_SIDED|95.0|-9.13|8.45||p-value has been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||8.45|-9.13|1
82401749|NCT02171429|164512207|SUPERIORITY|||||||0.1729||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.1729
82401750|NCT02171429|164512207|SUPERIORITY|||||||0.2864||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.2864
82401751|NCT02171429|164512208|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and RB score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
82401752|NCT02171429|164512209|SUPERIORITY|||||||0.1729||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 2 of the testing procedure; please refer to the statistical analysis plan for details.||||0.1729
82401753|NCT02171429|164512209|SUPERIORITY|||||||0.4174||||||Nominal p-value; it has not been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||||0.4174
82401754|NCT02171429|164512210|SUPERIORITY|||||||1||||||p-value has been adjusted for multiplicity.|Rank ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and SF score at BL.||Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 5 of the testing procedure; please refer to the statistical analysis plan for details.||||1
82401755|NCT02171429|164512211|SUPERIORITY||Mean Difference (Net)|-1.1||||0.1659|TWO_SIDED|95.0|-2.8|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-2.8|0.1659
82445711|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.95|||||TWO_SIDED|95.0|21.76|41.25|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||41.25|21.76|
82445712|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.86|||||TWO_SIDED|95.0|21.66|41.17|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||41.17|21.66|
82445713|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|30.91|||||TWO_SIDED|95.0|21.89|41.12|||Miettinen & Nurminen score method|||Serogroup A-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||41.12|21.89|
82530659|NCT02306122|164758095|SUPERIORITY||Mean Difference (Final Values)|-1.582|STANDARD_ERROR_OF_MEAN|2.997|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
82376007|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|15.56||||||95.0|11.63|20.81||||||For serotype 3 the GMC ratio (13vPnC/7vPnC) was calculated||20.81|11.63|
82376008|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|8.67||||||95.0|6.65|11.29||||||For serotype 5 the GMC ratio (13vPnC/7vPnC) was calculated||11.29|6.65|
82445714|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Difference in percentages|0.09|||||TWO_SIDED|95.0|-3.15|3.36|||Miettinen & Nurminen score method|||Serogroup A- DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||3.36|-3.15|
82530660|NCT02306122|164758095|SUPERIORITY||Mean Difference (Final Values)|0.308|STANDARD_ERROR_OF_MEAN|2.38|<|0.01|TWO_SIDED||||||Regression, Linear||Comparator is the control arm|||||<0.01
82530661|NCT02306122|164758096|SUPERIORITY||Risk Difference (RD)|-0.043|STANDARD_ERROR_OF_MEAN|0.068|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the information arm|||||<0.01
82530662|NCT02306122|164758096|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.063|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the information arm|||||<0.01
82530663|NCT02306122|164758097|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.071|<|0.01|TWO_SIDED||||||Regression, Logistic||Comparator is the choice arm|||||<0.01
82376009|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|9.6||||||95.0|7.07|13.04||||||For serotype 6A the GMC ratio (13vPnC/7vPnC) was calculated||13.04|7.07|
82376010|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|26.78||||||95.0|20.97|34.22||||||For serotype 7F the GMC ratio (13vPnC/7vPnC) was calculated||34.22|20.97|
82376011|NCT00205803|164458200|SUPERIORITY_OR_OTHER||Ratio|1.71||||||95.0|1.36|2.16||||||For serotype 19A the GMC ratio (13vPnC/7vPnC) was calculated||2.16|1.36|
82376012|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|3.08||||||95.0|-7.22|13.73||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||13.73|-7.22|
82376013|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|7.02||||||95.0|-7.28|21.14||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||21.14|-7.28|
82376014|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL and 0.1 IU/mL thresholds was calculated||7.73|-9.38|
82376015|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL and 0.1 IU/mL thresholds was calculated||7.73|-9.38|
82376016|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-5.97|5.68||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||5.68|-5.97|
82376017|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|-1.64||||||95.0|-8.8|4.24||||||For Polio Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||4.24|-8.80|
82376018|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|-1.64||||||95.0|-8.8|4.21||||||For Polio Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||4.21|-8.80|
82376019|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|0.0||||||95.0|-9.38|7.73||||||For Hepatitis b the difference in percentage between the two groups (13vPnC - 7vPnC) at 10 mIU/mL threshold was calculated||7.73|-9.38|
82376020|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|-1.74||||||95.0|-11.0|6.99||||||For Pertussis - FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 82.00 EU/MI threshold was calculated||6.99|-11.00|
82376021|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|-6.36||||||95.0|-17.03|3.16||||||For Pertussis - PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 43.00 EU/mL threshold was calculated||3.16|-17.03|
82376022|NCT00205803|164458202|SUPERIORITY_OR_OTHER||Difference|1.33||||||95.0|-6.79|9.68||||||For Pertussis - Pertactin the difference in percentage between the two groups (13vPnC - 7vPnC) at 18.00 EU/mL threshold was calculated||9.68|-6.79|
82376023|NCT00205803|164458203|SUPERIORITY_OR_OTHER||Ratio|1.21|||||TWO_SIDED|95.0|0.69|2.14||||||||2.14|0.69|
82376024|NCT00205803|164458204|SUPERIORITY_OR_OTHER||Ratio|0.97|||||TWO_SIDED|95.0|0.63|1.48||||||||1.48|0.63|
82376025|NCT00205803|164458205|SUPERIORITY_OR_OTHER||Ratio|0.83|||||TWO_SIDED|95.0|0.57|1.21||||||||1.21|0.57|
82376026|NCT00205803|164458206|SUPERIORITY_OR_OTHER||Ratio|1.01|||||TWO_SIDED|95.0|0.66|1.53||||||Polio Type 1||1.53|0.66|
82376027|NCT00205803|164458206|SUPERIORITY_OR_OTHER||Ratio|0.91|||||TWO_SIDED|95.0|0.56|1.49||||||Polio Type 2||1.49|0.56|
82376028|NCT00205803|164458206|SUPERIORITY_OR_OTHER||Ratio|1.12|||||TWO_SIDED|95.0|0.69|1.84||||||Polio Type 3||1.84|0.69|
82376029|NCT00205803|164458207|SUPERIORITY_OR_OTHER||Ratio|0.92|||||TWO_SIDED|95.0|0.74|1.15||||||Pertussis - FHA||1.15|0.74|
82376030|NCT00205803|164458207|SUPERIORITY_OR_OTHER||Ratio|1.02|||||TWO_SIDED|95.0|0.83|1.25||||||Pertussis - PT||1.25|0.83|
82376031|NCT00205803|164458207|SUPERIORITY_OR_OTHER||Ratio|1.04|||||TWO_SIDED|95.0|0.76|1.44||||||Pertussis - Pertactin||1.44|0.76|
82376032|NCT00658021|164458221|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.363||0.444|TWO_SIDED|95.0|-1.01|0.45|||Mixed Models Analysis|||Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline HbA1c, background diabetes therapy strata, week of visit, baseline HbA1c-by-visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix.||0.45|-1.01|0.444
82376033|NCT00658021|164458223|SUPERIORITY|||||||0.562|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \< 7% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.562
82376034|NCT00658021|164458223|SUPERIORITY|||||||0.621|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \<= 6.5% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.621
82376035|NCT00658021|164458223|SUPERIORITY|||||||0.229|||||||Cochran-Mantel-Haenszel|||"Treatment difference in HbA1c \< 6.5% at Week 28:~Treatment group comparison is based on CMH test stratified by screening HbA1c and background diabetes therapy strata. P-value is from the general association statistics."||||0.229
82401756|NCT02171429|164512211|SUPERIORITY||Mean Difference (Net)|0.1||||0.9182|TWO_SIDED|95.0|-1.3|1.4||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||1.4|-1.3|0.9182
82401757|NCT02171429|164512212|SUPERIORITY||Mean Difference (Net)|-1.0||||1|TWO_SIDED|95.0|-2.1|0.2||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.2|-2.1|1
82401758|NCT02171429|164512212|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-1.2|0.7||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.7|-1.2|1
82401759|NCT02171429|164512213|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0116|TWO_SIDED|95.0|-1.7|-0.2||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||-0.2|-1.7|0.0116
82530664|NCT00180713|164758106|SUPERIORITY|||||||0.028|||||||ANOVA|||||||0.028
82530665|NCT00180713|164758107|SUPERIORITY|||||||0.86|||||||ANOVA|||Analysis was performed by intention to treat at 6 months and per protocol at 12 months. Missing variables were replaced with medians or means (for variables missing at baseline) or with expected variables calculated on the percentage change between baseline and 24 weeks observed for the group (placebo or statin) as a whole (a technique called imputation). Missing variables accounted for less than 5% of the data and there were no missing CMR data at baseline.||||0.86
82645901|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0008|TWO_SIDED|95.0|-5.9|-1.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.6|-5.9|0.0008
82645902|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.8|STANDARD_ERROR_OF_MEAN|1.1||0.0007|TWO_SIDED|95.0|-6.0|-1.6||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.6|-6.0|0.0007
82645903|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.2||0.0987|TWO_SIDED|95.0|-4.5|0.4||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-4.5|0.0987
82645904|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.2||0.0028|TWO_SIDED|95.0|-6.1|-1.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.3|-6.1|0.0028
82645905|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.6|-2.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.3|-6.6|<0.0001
82645906|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.1||0.0008|TWO_SIDED|95.0|-5.9|-1.5||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.5|-5.9|0.0008
82530666|NCT00180713|164758108|SUPERIORITY|||||||0.4|||||||ANOVA|||Analysis was performed by intention to treat at 6 months and per protocol at 12 months. Missing variables were replaced with medians or means (for variables missing at baseline) or with expected variables calculated on the percentage change between baseline and 24 weeks observed for the group (placebo or statin) as a whole (a technique called imputation). Missing variables accounted for less than 5% of the data and there were no missing CMR data at baseline.||||0.4
82530667|NCT00180713|164758109|SUPERIORITY|||||||0.041|||||||ANOVA|||||||0.041
82530668|NCT00180713|164758110|SUPERIORITY|||||||0.26|||||||ANOVA|||||||0.26
82530669|NCT05295732|164758114|SUPERIORITY||treatment difference|-1.0||||0.39|TWO_SIDED|95.0|-18.4|16.5|||Cochran-Mantel-Haenszel|||||16.5|-18.4|0.39
82645907|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|1.0||0.0213|TWO_SIDED|95.0|-4.1|-0.3||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-4.1|0.0213
82645908|NCT01289990|165007124|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.0||0.0288|TWO_SIDED|95.0|-4.1|-0.2||Model includes baseline sys blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-4.1|0.0288
82645909|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.1058|TWO_SIDED|95.0|-2.4|0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.2|-2.4|0.1058
82445715|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|38.5|||||TWO_SIDED|95.0|28.54|48.9|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||48.90|28.54|
82530670|NCT02322814|164758145|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.247||95.0|0.43|1.24|||Log Rank|||||1.24|0.43|0.2470
82530671|NCT02322814|164758147|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5912||95.0|0.65|2.13|||Log Rank|||||2.13|0.65|0.5912
82530672|NCT03012061|164758165|SUPERIORITY||Mean Difference (Net)|0.1758|STANDARD_ERROR_OF_MEAN|0.0426|<|0.001|TWO_SIDED|95.0|0.092|0.2595|||Mixed-model repeated measures (MMRM)||UMEC 31.25 mcg versus placebo|||0.2595|0.0920|<0.001
82645910|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0109|TWO_SIDED|95.0|-3.1|-0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-3.1|0.0109
82645911|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.8259|TWO_SIDED|95.0|-1.5|1.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.2|-1.5|0.8259
82401760|NCT02171429|164512213|SUPERIORITY||Mean Difference (Net)|-0.1||||0.6771|TWO_SIDED|95.0|-0.8|0.5||Nominal p-value; it has not been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||0.5|-0.8|0.6771
82401761|NCT02171429|164512214|SUPERIORITY||Mean Difference (Net)|-0.5||||1|TWO_SIDED|95.0|-1.0|0.0||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 4 of the testing procedure; please refer to the statistical analysis plan for details.||0.0|-1.0|1
82401762|NCT02171429|164512214|SUPERIORITY||Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-0.7|0.1||p-value has been adjusted for multiplicity.|Mixed Model for Repeated Measures|Model adjusted for treatment, visit, stratification factors, treatment-by-visit, baseline UC-PRO/SS domain, and baseline UC-PRO/SS domain-by-visit.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. This comparison was part of Family 6 of the testing procedure; please refer to the statistical analysis plan for details.||0.1|-0.7|1
82401763|NCT02171429|164512215|SUPERIORITY||Difference in Remission Rates|7.9||||0.1382|TWO_SIDED|95.0|-3.19|16.87||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||16.87|-3.19|0.1382
82426462|NCT05209386|164561858|OTHER|||||||0.48|||||||Mixed Models Analysis|For interaction term (effect of interest): t(216) = -0.707|||Time-averaged neural responses across respective windows of significance were averaged for all stimuli with ambiguous VOT (Canonical and Reverse blocks) to provide trial-averaged responses. A single linear mixed-effects model was built with fixed effects of F0, condition/listening context (block), and their interaction, as well as a random effect (intercept only) of patient+channel. The effect of interest was the interaction term, indicating that neural responses to F0 varied according to listening context (block).|||0.480
82426463|NCT03767881|164561859|NON_INFERIORITY|The upper limit of a 97.8% confidence limit of the mean days to resolution of acute cholecystitis is compared to a Performance Goal of 3.5 days.|Mean Difference (Final Values)|3.5|||||ONE_SIDED|97.8||10.78|||t-test, 1 sided|||||10.78||
82426464|NCT03767881|164561860|NON_INFERIORITY|The upper limit of a 99.7% confidence limit of the proportion of patients with reintervention, including migration and occlusion, is compared to a Performance Goal of 46.2%.|Performance Goal|16.7|||||ONE_SIDED|99.7||42.0|||1-sided Clopper-Pearson 99.7% CI|||||42.0||
82530673|NCT03012061|164758165|SUPERIORITY||Mean Difference (Net)|0.1841|STANDARD_ERROR_OF_MEAN|0.0424|<|0.001|TWO_SIDED|95.0|0.1008|0.2675|||MMRM||UMEC 62.5 mcg versus placebo|||0.2675|0.1008|<0.001
82645912|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.7||0.166|TWO_SIDED|95.0|-2.3|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.3|0.1660
82645913|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.7||0.0212|TWO_SIDED|95.0|-2.9|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.9|0.0212
82645914|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0076|TWO_SIDED|95.0|-3.4|-0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-3.4|0.0076
82645915|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.7||0.0003|TWO_SIDED|95.0|-4.1|-1.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.2|-4.1|0.0003
82530674|NCT03012061|164758166|SUPERIORITY||Mean Difference (Net)|0.1895|STANDARD_ERROR_OF_MEAN|0.0455|<|0.001|TWO_SIDED|95.0|0.1|0.2789||Analysis of covariance (ANCOVA)|ANCOVA||UMEC 31.25 mcg vs Placebo|||0.2789|0.1000|<0.001
82645916|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.7||0.017|TWO_SIDED|95.0|-3.2|-0.3||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-3.2|0.0170
82401764|NCT02171429|164512215|SUPERIORITY||Difference in Remission Rates|-7.5||||0.1163|TWO_SIDED|95.0|-17.1|2.22||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.22|-17.10|0.1163
82401765|NCT02171429|164512216|SUPERIORITY||Difference in Remission Rates|2.9||||0.4772|TWO_SIDED|95.0|-6.47|10.14||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||10.14|-6.47|0.4772
82401766|NCT02171429|164512216|SUPERIORITY||Difference in Remission Rates|-5.2||||0.1801|TWO_SIDED|95.0|-12.95|2.63||Nominal p-value; it has not been adjusted for multiplicity.|Cochran-Mantel-Haenszel|Difference and 95% CI adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL) and MCS (≤9 or ≥10) at BL.|Difference in remission rates was calculated as the etrolizumab arm minus the adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||2.63|-12.95|0.1801
82401767|NCT02171429|164512217|SUPERIORITY||Difference in Adjusted Means|4.0||||0.4833|TWO_SIDED|95.0|-7.2|15.2||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus placebo arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||15.2|-7.2|0.4833
82401768|NCT02171429|164512217|SUPERIORITY||Difference in Adjusted Means|0.0||||0.9931|TWO_SIDED|95.0|-9.2|9.1||Nominal p-value; it has not been adjusted for multiplicity.|ANCOVA|Model adjusted for concomitant treatment with corticosteroids or immunosuppressants at baseline (BL), MCS (≤9 or ≥10) at BL, and IBDQ score at BL.|Mean difference was calculated as etrolizumab arm minus adalimumab arm.|Primary and secondary outcome measures were evaluated for statistical significance in a hierarchical manner with a component-wise multistage gatekeeping procedure. Please refer to the statistical analysis plan for details. This comparison was not considered a key secondary outcome measure and was not part of the multiple testing procedure for statistical significance.||9.1|-9.2|0.9931
82401769|NCT02821416|164512223|SUPERIORITY||Median Difference (Final Values)|-5.81||||0.0208|TWO_SIDED|95.0|-10.69|-0.94|||Mixed Models Analysis|Model includes covariates of treatment, time post-allergen challenge , treatment\*time post-allergen challenge, allergen induced at screening||||-0.94|-10.69|0.0208
82401770|NCT02821416|164512224|SUPERIORITY||Median Difference (Final Values)|2.535||||0.363|TWO_SIDED|95.0|-3.045|8.116|||Mixed Models Analysis|Model includes covariates of treatment, maximum percent decrease in FEV1 late asthma response||||8.116|-3.045|0.3630
82401771|NCT02256917|164512225|OTHER|Confirmative one-sided one-sample Poisson-test.|ABR|4.87|||||TWO_SIDED|95.0|4.06|5.79||A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean ABR in patients with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|one-sided one-sample Poisson-test||A confidence interval of 97.5% for confirmative analysis was also used - the respective upper and lower limit CIs were 3.96-5.93|||5.79|4.06|
82401772|NCT02256917|164512225|OTHER|Reduction of the annualized total bleeding rate (ABR) observed in the GENA-01 study vs. GENA-21B analyzed with a Negative Binomial regression model including a correction for overdispersion.|Rate ratio|11.89|||<|0.0001|TWO_SIDED|95.0|7.5|18.86|||Negative binomial regression model|||||18.86|7.50|<0.0001
82445716|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|39.08|||||TWO_SIDED|95.0|29.16|49.46|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||49.46|29.16|
82530675|NCT03012061|164758166|SUPERIORITY||Mean Difference (Net)|0.1976|STANDARD_ERROR_OF_MEAN|0.0453|<|0.001|TWO_SIDED|95.0|0.1086|0.2866|||ANCOVA||UMEC 62.5 mcg vs Placebo|||0.2866|0.1086|<0.001
82530676|NCT03012061|164758169|SUPERIORITY||Median Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.0||0.083|TWO_SIDED|95.0|-0.2|3.7|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 4|||3.7|-0.2|0.083
82645917|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.0236|TWO_SIDED|95.0|-3.1|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-3.1|0.0236
82645918|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2523|TWO_SIDED|95.0|-2.0|0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.5|-2.0|0.2523
82401773|NCT02256917|164512225|OTHER|Reduction of the annualized total bleeding rate (ABR) observed in the GENA-01 study vs. GENA-21B analyzed with a Poisson regression model including a correction for overdispersion.|Rate ratio|10.14|||<|0.0001|TWO_SIDED|95.0|6.12|16.8|||Poisson regression model|||||16.80|6.12|<0.0001
82401774|NCT02256917|164512226|OTHER|A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean spontaneous ABR in patients with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|ABR|3.12|||||TWO_SIDED|95.0|2.48|3.87|||One-sided one-sample Poisso|||||3.87|2.48|
82645919|NCT01289990|165007125|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.3494|TWO_SIDED|95.0|-1.9|0.7||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.7|-1.9|0.3494
82401775|NCT02256917|164512227|OTHER|A respective confirmative one-sided one-sample Poisson-test was used to demonstrate if the mean ABR in patients with 2x/week prophylaxis or less with individually tailored prophylaxis is at least 50% below the mean ABR rate in the GENA-01 trial.|ABR|5.03|||||TWO_SIDED|95.0|3.9|6.39|||One-sided one-sample Poisson-test||A confidence interval of 97.5% for confirmative analysis was also used - the respective upper and lower limit CIs were 3.76-6.60|||6.39|3.90|
82401776|NCT04152083|164512238|OTHER||Hazard Ratio (HR)|1.54||||0.0006|TWO_SIDED|95.0|1.2|1.98||Threshold for significance at 0.05 level.|Likelihood ratio test|||The median estimate for each treatment group, hazard ratio, and its 95% confidence interval (CI) were based on the stratified Cox model with Efron's method of tie handling. The analysis was censored at the time point of first rescue medication. The stratification factors were concomitant migraine preventive treatment use and region.||1.98|1.20|0.0006
82401777|NCT04152083|164512239|OTHER||Hazard Ratio (HR)|1.75|||<|0.0001|TWO_SIDED|95.0|1.41|2.19||Threshold for significance at 0.05 level.|Likelihood ratio test|||The median estimate for each treatment group, hazard ratio, and its 95% CI were based on the stratified Cox model with Efron's method of tie handling. The analysis was censored at the time point of first rescue medication. The stratification factors were concomitant migraine preventive treatment use and region.||2.19|1.41|<0.0001
82401778|NCT04152083|164512240|OTHER||Odds Ratio (OR)|2.27||||0.0009|TWO_SIDED|95.0|1.39|3.72||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Odds ratio and 95% CI were based on Cochran-Mantel-Haenszel (CMH) test adjusted for the study's stratification factors of concomitant migraine preventive treatment use and region.||3.72|1.39|0.0009
82401779|NCT04152083|164512241|OTHER||Odds Ratio (OR)|2.25|||<|0.0001|TWO_SIDED|95.0|1.55|3.25||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Odds ratio and 95% CI were based on CMH test adjusted for the study's stratification factors of concomitant migraine preventive treatment use and region.||3.25|1.55|<0.0001
82401780|NCT02609386|164512246|OTHER||Cox Proportional Hazard|1.102||||0.6176|TWO_SIDED|95.0|0.6|2.1|||Log Rank|||||2.1|0.6|0.6176
82401781|NCT02609386|164512247|OTHER||Cox Proportional Hazard|1.009||||0.3889|TWO_SIDED|95.0|0.5|2.2|||Log Rank|||||2.2|0.5|0.3889
82401782|NCT02609386|164512248|OTHER||Cox Proportional Hazard|1.009||||0.5091|TWO_SIDED|95.0|0.5|2.2|||Log Rank|||||2.2|0.5|0.5091
82401783|NCT03280056|164512252|SUPERIORITY||Odds Ratio (OR)|1.33||||0.453|TWO_SIDED|95.0|0.632|2.798|||Chi-squared|||||2.798|0.632|0.453
82401784|NCT03280056|164512253|SUPERIORITY||Odds Ratio (OR)|0.998||||0.997|TWO_SIDED|95.0|0.416|2.395|||Chi-squared|||||2.395|0.416|0.997
82401785|NCT03280056|164512254|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.926||0.693|TWO_SIDED|95.0|-1.47|2.2|||Mixed Models Analysis|||||2.20|-1.47|0.693
82401786|NCT03280056|164512255|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|6.176||0.804|TWO_SIDED|95.0|-10.65|13.72|||ANCOVA|||||13.72|-10.65|0.804
82401787|NCT02820870|164512278|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.01|TWO_SIDED|95.0|1.84|4.9|||Regression, Logistic|With clustering by provider and team.||||4.9|1.84|<0.01
82401788|NCT02820870|164512279|SUPERIORITY||Odds Ratio (OR)|1.65||||0.06|TWO_SIDED|95.0|0.99|2.77|||Regression, Logistic|With cluster by provider and team.||||2.77|0.99|0.06
82401789|NCT03318003|164512283|SUPERIORITY||Pearson Chi Square|0.76||||0.92|TWO_SIDED|||||no adjustments made|Chi-squared|||||||0.92
82401790|NCT04819438|164512312|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of Cmax geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|117.05|||<|0.0001|TWO_SIDED|90.0|110.43|124.06|||ANOVA|||||124.06|110.43|<0.0001
82401791|NCT04819438|164512313|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of AUC0-t geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|111.82|||<|0.0001|TWO_SIDED|90.0|108.25|115.5|||ANOVA|||||115.50|108.25|<0.0001
82401792|NCT04819438|164512315|EQUIVALENCE|Acceptance criterion for bioequivalence analysis was that the 90% confidence interval for the Test/Reference ratio of AUC0-∞ geometric means was within the 80.00-125.00 range.|Geometric Mean Ratio|111.83|||<|0.0001|TWO_SIDED|90.0|108.19|115.29|||ANOVA|||||115.29|108.19|<0.0001
82401793|NCT04607135|164512322|OTHER|||||||0.0003||||||F-statistic = 11.71|Welch's ANOVA|||||||0.0003
82401794|NCT04607135|164512322|OTHER|||||||0.002||||||q-statistic = 6.74|Games-Howell post-hoc test|||||||0.002
82401795|NCT04607135|164512322|OTHER|||||||0.24||||||q-statistic = 2.34|Games-Howell post-hoc test|||||||0.24
82401796|NCT04607135|164512322|OTHER|||||||0.35||||||q-statistic = 2.04|Games-Howell post-hoc test|||||||0.35
82401797|NCT04607135|164512323|OTHER|||||||0.99|||||||Kruskal-Wallis|||||||0.99
82401798|NCT04607135|164512324|OTHER|||||||0.74|||||||Kruskal-Wallis|||||||0.74
82401799|NCT03665077|164512344|OTHER|Linear mixed-effect model of log-transformed oxylipin level, with time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.684|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.684
82530677|NCT03012061|164758169|SUPERIORITY||Median Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.11||0.636|TWO_SIDED|95.0|-2.7|1.7|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 12|||1.7|-2.7|0.636
82530678|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.1||0.115|TWO_SIDED|95.0|-0.4|3.9|||MMRM||UMEC 31.25 mcg vs Placebo, SBP, Week 24|||3.9|-0.4|0.115
82401800|NCT03665077|164512345|OTHER|Linear mixed-effect model of log-transformed oxylipin level, with time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.02|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.02
82401801|NCT03665077|164512346|OTHER|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.058|||||||Mixed Models Analysis|Linear mixed-effect model of log-transformed oxylipin level: time (date) as a continuous variable, adjusted for batch and clustered on participant||||||0.058
82401802|NCT02504320|164512363|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0848|||||TWO_SIDED|90.0|0.9528|1.235|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.2350|0.9528|
82401803|NCT02504320|164512363|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.7709|||||TWO_SIDED|90.0|0.6767|0.8782|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.8782|0.6767|
82401804|NCT02504320|164512363|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.9389|||||TWO_SIDED|90.0|0.8246|1.0689|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen C) and reference (Regimen D).||1.0689|0.8246|
82401805|NCT02504320|164512364|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0435|||||TWO_SIDED|90.0|0.984|1.1066|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.1066|0.9840|
82401806|NCT02504320|164512364|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.8777|||||TWO_SIDED|90.0|0.8274|0.9311|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.9311|0.8274|
82401807|NCT02504320|164512364|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.954|||||TWO_SIDED|90.0|0.8996|1.0117|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.0117|0.8996|
82530679|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.99||0.336|TWO_SIDED|95.0|-1.0|2.9|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 4|||2.9|-1.0|0.336
82576213|NCT02209181|164862043|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.51||0.479|TWO_SIDED|95.0|-0.64|1.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.35|-0.64|0.479
82645920|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1568|TWO_SIDED|95.0|-2.3|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.3|0.1568
82401808|NCT02504320|164512365|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|1.0283|||||TWO_SIDED|90.0|0.9691|1.0911|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen A) and reference (Regimen D).||1.0911|0.9691|
82530680|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.11||0.787|TWO_SIDED|95.0|-1.9|2.5|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 12|||2.5|-1.9|0.787
82530681|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|1.1||0.625|TWO_SIDED|95.0|-1.6|2.7|||MMRM||UMEC 62.5 mcg vs Placebo, SBP, Week 24|||2.7|-1.6|0.625
82530682|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.79||0.309|TWO_SIDED|95.0|-0.7|2.3|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 4|||2.3|-0.7|0.309
82645921|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.7||0.1323|TWO_SIDED|95.0|-2.4|0.3||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.3|-2.4|0.1323
82401809|NCT02504320|164512365|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimate|0.9056|||||TWO_SIDED|90.0|0.8516|0.963|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen B) and reference (Regimen D).||0.9630|0.8516|
82530683|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.82||0.521|TWO_SIDED|95.0|-2.1|1.1|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 12|||1.1|-2.1|0.521
82401810|NCT02504320|164512365|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of Febuxostat formulation 1, 2, and 3 to Febuxostat formulation 4 was declared if the 90% confidence intervals for the ratios of central values were within the pre-specified interval of 0.80 to 1.25.|Point Estimates|0.9463|||||TWO_SIDED|90.0|0.8909|1.0051|||||Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural log (ln)-transformed parameters was performed with regimen, sequence, period, and participants nested within sequence as fixed effects.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in test (Regimen C) and reference (Regimen D).||1.0051|0.8909|
82401811|NCT03293394|164512375|SUPERIORITY||||||=|0.001|||||||ANCOVA|||||||=0.001
82401812|NCT03293394|164512376|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
82401813|NCT03293394|164512377|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.190
82401814|NCT03293394|164512378|SUPERIORITY|||||||0.652|||||||ANCOVA|||||||0.652
82401815|NCT03293394|164512379|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.190
82401816|NCT03293394|164512380|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
82401817|NCT03293394|164512381|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
82401818|NCT03293394|164512382|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
82401819|NCT02497404|164512383|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|46.2|||||TWO_SIDED|95.0|30.1|62.8||||||||62.8|30.1|
82645922|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.7||0.4327|TWO_SIDED|95.0|-0.8|1.9||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.9|-0.8|0.4327
82401820|NCT02497404|164512384|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|64.1|||||TWO_SIDED|95.0|47.2|78.8||||||||78.8|47.2|
82401821|NCT02497404|164512385|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|33.3|||||TWO_SIDED|95.0|19.1|50.2||||||||50.2|19.1|
82401822|NCT02497404|164512386|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|89.7|||||TWO_SIDED|95.0|75.8|97.1||||||||97.1|75.8|
82401823|NCT02497404|164512387|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.|Proportion (percent)|64.1|||||TWO_SIDED|95.0|47.2|78.8||||||||78.8|47.2|
82401824|NCT02497404|164512388|OTHER||Proportion (percent)|38.5|||||TWO_SIDED|95.0|23.4|55.4||||||Clopper-Pearson (exact) 95% confidence interval provided for the survival proportion.||55.4|23.4|
82401825|NCT02497404|164512389|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the graft failure proportion.|Proportion (percent)|2.6|||||TWO_SIDED|95.0|0.07|13.5||||||||13.5|0.07|
82401826|NCT02497404|164512390|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the GVHD proportion.|Proportion (percent)|33.3|||||TWO_SIDED|95.0|19.1|50.2||||||||50.2|19.1|
82401827|NCT02497404|164512391|OTHER|Clopper-Pearson (exact) 95% confidence interval provided for the high-risk extensive chronic graft-versus-host-disease proportion.|Proportion (percent)|5.1|||||TWO_SIDED|95.0|0.63|15.3||||||||15.3|0.63|
82401828|NCT00792116|164512432|NON_INFERIORITY_OR_EQUIVALENCE|||||||0.05||95.0|||||ANCOVA|Repeated Measures||||||.05
82401829|NCT00792116|164512433|NON_INFERIORITY_OR_EQUIVALENCE|||||||0.05||95.0|||||ANCOVA|Repeated Measures||||||.05
82401830|NCT02453256|164512434|SUPERIORITY||Difference in least square means|-1.73||||0.0983|TWO_SIDED|95.0|-3.78|0.32|||Repeated Measure|||Difference in least square means between the TCZ group and the Placebo group at week 48. Null hypothesis: There is no difference between the TCZ group and the placebo group in mean change in mRSS from baseline to Week 48.||0.32|-3.78|0.0983
82401831|NCT02453256|164512435|SUPERIORITY||Weighted difference|21.91||||0.0007|TWO_SIDED|95.0|9.2|34.6|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 20% improvement in mRSS.||34.6|9.2|0.0007
82401832|NCT02453256|164512435|SUPERIORITY||Weighted difference|4.32||||0.5139|TWO_SIDED|95.0|-8.7|17.3|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 40% improvement in mRSS.||17.3|-8.7|0.5139
82401833|NCT02453256|164512435|SUPERIORITY||Weighted difference|-5.41||||0.3276|TWO_SIDED|95.0|-16.2|5.4|||Cochran-Mantel-Haenszel|||This statistical analysis applies to participants with ≥ 60% improvement in mRSS.||5.4|-16.2|0.3276
82401834|NCT02453256|164512436|SUPERIORITY|||||||0.0015||||||P-value from Van Elteren analysis stratified by IL-6 level (\<10; \>=10 pg/mL) at screening.|Van Elteren|||||||0.0015
82401835|NCT02453256|164512437|SUPERIORITY||Difference in least square means|0.167||||0.0001|TWO_SIDED|95.0|0.083|0.25|||Repeated Measure|||||0.250|0.083|0.0001
82401836|NCT02453256|164512438|SUPERIORITY||Difference in least square means|-0.053||||0.4489|TWO_SIDED|95.0|-0.192|0.085|||Repeated Measure|||||0.085|-0.192|0.4489
82401837|NCT02453256|164512439|SUPERIORITY||Difference in least square means|-2.44||||0.4339|TWO_SIDED|95.0|-8.57|3.7|||Repeated Measure|||||3.70|-8.57|0.4339
82401838|NCT02453256|164512440|SUPERIORITY||Difference in least square means|-2.46||||0.4378|TWO_SIDED|95.0|-8.72|3.79|||Repeated Measure|||||3.79|-8.72|0.4378
82401839|NCT02453256|164512441|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0821|TWO_SIDED|95.0|0.37|1.06|||Cox-proportional hazards model|||||1.06|0.37|0.0821
82530684|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.81||0.047|TWO_SIDED|95.0|0.0|3.2|||MMRM||UMEC 31.25 mcg vs Placebo, DBP, Week 24|||3.2|0.0|0.047
82530685|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.78||0.779|TWO_SIDED|95.0|-1.3|1.8|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 4|||1.8|-1.3|0.779
82530686|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.82||0.204|TWO_SIDED|95.0|-0.6|2.6|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 12|||2.6|-0.6|0.204
82401840|NCT01972464|164512506|SUPERIORITY||Odds Ratio (OR)|1.77||||0.39|TWO_SIDED|95.0|0.48|6.52||a priori threshold for statistical significance = 0.05|Regression, Logistic|adjusted for age (18-25 years versus \>25 years) and pre-quit smoking level (\<10 versus \>10 cigarettes per day)|OR represents of odds of abstinence in progesterone group versus placebo group|Null hypothesis- odds of week 8 point prevalence abstinence were equal between placebo and progesterone group.||6.52|0.48|0.39
82401841|NCT01972464|164512507|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.41|TWO_SIDED|95.0|0.66|3.38||a priori threshold = 0.05|Regression, Cox|Adjusted for age and pre-quit smoking level|Hazard ratio is placebo / progesterone|||3.38|0.66|0.41
82401842|NCT01972464|164512508|SUPERIORITY||Risk Ratio (RR)|0.91|||<|0.001|TWO_SIDED|95.0|0.86|0.96|||general estimating equation|adjusted for age \& pre-quit smoking level; specified a gamma distribution, log link, autoregressive correlation structure|risk ratio is progesterone versus placebo|null hypothesis rate of change in QSU-brief scores were equal between treatment groups||0.96|0.86|<0.001
82401843|NCT00803712|164512509|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Hypothesis to be tested: the proportion of participants achieving the specified PTH target of ≥ 30% reduction in PTH from baseline will be greater in the cinacalcet plus low dose active vitamin D group than in the control group during the efficacy assessment phase at month 6 (weeks 22 to 26).||||<0.0001
82445717|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|38.79|||||TWO_SIDED|95.0|29.03|49.06|||Miettinen & Nurminen score method|||Serogroup C-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||49.06|29.03|
82401844|NCT00803712|164512510|SUPERIORITY_OR_OTHER|||||||0.0002||||||Multiplicity adjusted p-value is presented, adjusted using the Dubey and Armitage-Parmer method|Cochran-Mantel-Haenszel|||||||0.0002
82401845|NCT00803712|164512511|SUPERIORITY_OR_OTHER|||||||0.0139||||||Adjusted p-value is presented. P-value is adjusted using Dubey and Armitage-Parmer method of adjusting for multiple comparisons|Cochran-Mantel-Haenszel|||||||0.0139
82530687|NCT03012061|164758169|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|0.81||0.066|TWO_SIDED|95.0|-0.1|3.1|||MMRM||UMEC 62.5 mcg versus placebo, DBP, Week 24|||3.1|-0.1|0.066
82401846|NCT00803712|164512512|SUPERIORITY_OR_OTHER|||||||0.2386||||||Multiplicity adjusted p-value is presented, adjusted using the Dubey and Armitage-Parmer method|Cochran-Mantel-Haenszel|||||||0.2386
82401847|NCT00803712|164512513|SUPERIORITY_OR_OTHER|||||||0.0875|||||||Cochran-Mantel-Haenszel|||||||0.0875
82401848|NCT00803712|164512514|SUPERIORITY_OR_OTHER|||||||0.4304|||||||Cochran-Mantel-Haenszel|||||||0.4304
82401849|NCT00803712|164512515|SUPERIORITY_OR_OTHER|||||||0.091|||||||Cochran-Mantel-Haenszel|||||||0.0910
82401850|NCT00803712|164512516|SUPERIORITY_OR_OTHER|||||||0.952|||||||Cochran-Mantel-Haenszel|||||||0.9520
82445718|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|-0.59|||||TWO_SIDED|95.0|-4.12|2.92|||Miettinen & Nurminen score method|||Serogroup C-DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||2.92|-4.12|
82401851|NCT00803712|164512517|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82401852|NCT00803712|164512518|SUPERIORITY_OR_OTHER|||||||0.0611|||||||Cochran-Mantel-Haenszel|||||||0.0611
82401853|NCT00803712|164512519|SUPERIORITY_OR_OTHER|||||||0.3298|||||||Cochran-Mantel-Haenszel|||||||0.3298
82401854|NCT00803712|164512520|SUPERIORITY_OR_OTHER|||||||0.4436|||||||Cochran-Mantel-Haenszel|||||||0.4436
82401855|NCT00803712|164512521|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata. Due to distributional properties of the data, analysis was performed on log-transformed data||||||<0.0001
82401856|NCT00803712|164512522|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata.||||||<0.0001
82401857|NCT00803712|164512523|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|Analysis was adjusted for randomization strata. Due to distributional properties of the data, analysis was performed on log-transformed data||||||0.0040
82530688|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|0.97||0.195|TWO_SIDED|95.0|-0.7|3.2|||MMRM||UMEC 31.25 mcg vs Placebo, Week 4|||3.2|-0.7|0.195
82401858|NCT00803712|164512524|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata.||||||<0.0001
82401859|NCT00803712|164512525|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium||||||<0.0001
82401860|NCT00803712|164512526|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
82401861|NCT00803712|164512527|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
82401862|NCT00803712|164512528|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline corrected serum calcium.||||||<0.0001
82401863|NCT00803712|164512529|SUPERIORITY_OR_OTHER|||||||0.0085|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.0085
82401864|NCT00803712|164512530|SUPERIORITY_OR_OTHER|||||||0.071|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.0710
82401865|NCT00803712|164512531|SUPERIORITY_OR_OTHER|||||||0.3546|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.3546
82401866|NCT00803712|164512532|SUPERIORITY_OR_OTHER|||||||0.7518|||||||ANCOVA|Analysis was adjusted for randomization strata and baseline serum phosphorus.||||||0.7518
82401867|NCT03193047|164512557|SUPERIORITY||Least squares mean difference|-30.261|STANDARD_ERROR_OF_MEAN|5.502|<|0.001|TWO_SIDED|95.0|-41.324|-19.199|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|||-19.199|-41.324|<0.001
82401868|NCT03193047|164512558|SUPERIORITY||Lease squares mean difference|-35.884|STANDARD_ERROR_OF_MEAN|5.159|<|0.001|TWO_SIDED|95.0|-46.303|-25.466|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|||-25.466|-46.303|<0.001
82401869|NCT03193047|164512559|SUPERIORITY||Least squares mean difference|-38.25|STANDARD_ERROR_OF_MEAN|5.602|<|0.001|TWO_SIDED|95.0|-49.558|-26.944|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Month 1||-26.944|-49.558|<0.001
82530689|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.84||0.457|TWO_SIDED|95.0|-1.0|2.3|||MMRM||UMEC 31.25 mcg versus Placebo, Week 12|||2.3|-1.0|0.457
82530690|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.07||0.3|TWO_SIDED|95.0|-1.0|3.2|||MMRM||UMEC 31.25 mcg versus Placebo, Week 24|||3.2|-1.0|0.300
82530691|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|0.97||0.14|TWO_SIDED|95.0|-0.5|3.3|||MMRM||UMEC 62.5 mcg versus Placebo, Week 4|||3.3|-0.5|0.140
82530692|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|0.84||0.045|TWO_SIDED|95.0|0.0|3.3|||MMRM||UMEC 62.5 mcg versus Placebo, Week 12|||3.3|0.0|0.045
82530693|NCT03012061|164758170|SUPERIORITY||Mean Difference (Net)|3.4|STANDARD_ERROR_OF_MEAN|1.07||0.002|TWO_SIDED|95.0|1.3|5.5|||MMRM||UMEC 62.5 mcg versus Placebo, Week 24|||5.5|1.3|0.002
82530694|NCT03757234|164758181|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-2.6|||||TWO_SIDED|95.0|-12.4|6.9|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||6.9|-12.4|
82530695|NCT03757234|164758181|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-9.9|||||TWO_SIDED|95.0|-34.8|5.3|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||5.3|-34.8|
82645923|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.0289|TWO_SIDED|95.0|-2.8|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.8|0.0289
82401870|NCT03193047|164512559|SUPERIORITY||Least squares mean difference|-29.9|STANDARD_ERROR_OF_MEAN|5.606|<|0.001|TWO_SIDED|95.0|-41.176|-18.626|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Month 2||-18.626|-41.176|<0.001
82401871|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-27.031|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|95.0|-37.509|-16.553|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Apo B at Month 1||-16.553|-37.509|<0.001
82401872|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-24.469|STANDARD_ERROR_OF_MEAN|4.33|<|0.001|TWO_SIDED|95.0|-33.225|-15.713|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|Apo B at Month 2||-15.713|-33.225|<0.001
82401873|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-31.64|STANDARD_ERROR_OF_MEAN|4.689|<|0.001|TWO_SIDED|95.0|-41.116|-22.163|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|non-HDL-C at Month 1||-22.163|-41.116|<0.001
82530696|NCT03757234|164758181|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.0|||||TWO_SIDED|95.0|-30.6|8.2|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||8.2|-30.6|
82576214|NCT02209181|164862043|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.85|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.85|3.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.86|1.85|<0.001
82401874|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-24.246|STANDARD_ERROR_OF_MEAN|4.838|<|0.001|TWO_SIDED|95.0|-33.987|-14.505|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|non-HDL-C at Month 2||-14.505|-33.987|<0.001
82401875|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-21.941|STANDARD_ERROR_OF_MEAN|3.572|<|0.001|TWO_SIDED|95.0|-29.153|-14.729|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|TC at Month 1||-14.729|-29.153|<0.001
82401876|NCT03193047|164512560|SUPERIORITY||Least squares mean difference|-17.52|STANDARD_ERROR_OF_MEAN|3.809|<|0.001|TWO_SIDED|95.0|-25.201|-9.839|||ANCOVA||(Bempedoic acid plus evolocumab) minus (placebo plus evolocumab)|TC at Month 2||-9.839|-25.201|<0.001
82530697|NCT03757234|164758181|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment Difference|0.9|||||TWO_SIDED|95.0|-22.4|11.8|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||11.8|-22.4|
82530698|NCT03757234|164758182|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-5.4|||||TWO_SIDED|95.0|-23.6|12.7|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||12.7|-23.6|
82530699|NCT03757234|164758182|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-47.7|||||TWO_SIDED|95.0|-71.3|-6.0|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||-6.0|-71.3|
82530700|NCT03757234|164758182|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-10.7|||||TWO_SIDED|95.0|-40.8|15.1|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||15.1|-40.8|
82530701|NCT03757234|164758182|NON_INFERIORITY|Non-inferiority margin for comparison of the doses was set at 10%.|Treatment difference|-36.5|||||TWO_SIDED|95.0|-62.6|-1.1|||||Point estimate and exact 95% confidence intervals for difference from levofloxacin (omadacycline minus levofloxacin) in clinical success rate was estimated.|||-1.1|-62.6|
82530702|NCT01152294|164758186|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.6|STANDARD_DEVIATION|2.4||0.01|TWO_SIDED|95.0|1.02|7.96|||t-test, 2 sided|||We tested for a difference in the mean total knowledge score between the decision aid and control groups using independent t-test (2 sided). With 100 patients in each arm, the study had more than 90% power to detect a 10% difference in knowledge assuming a common standard deviation of 18%.||7.96|1.02|0.01
82530703|NCT01744860|164758188|SUPERIORITY_OR_OTHER||Kappa coefficient|0.8611|||||TWO_SIDED|95.0|0.8125|0.9097||||||"Kappa coefficient was used to compare the concordance between INCa Molecular Genetics Laboratory in-house methods and Cobas 4800 Mutation Test."||0.9097|0.8125|
82645924|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.7||0.0231|TWO_SIDED|95.0|-2.9|-0.2||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-2.9|0.0231
82530704|NCT02736968|164758217|SUPERIORITY||Difference in Proportions|0.0|||>|0.999|TWO_SIDED|95.0|-0.12|0.12||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact||Adjusted Wald Intervals|The null hypothesis is that the probability of resolution of diarrhea by Day 5 for participants receiving auranofin is equal to that for those receiving placebo.||0.12|-0.12|>0.999
82645925|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.8||0.0513|TWO_SIDED|95.0|-3.0|0.0||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.0|-3.0|0.0513
82645926|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0038|TWO_SIDED|95.0|-3.7|-0.7||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-3.7|0.0038
82645927|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0084|TWO_SIDED|95.0|-3.4|-0.5||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-3.4|0.0084
82645928|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.7||0.0677|TWO_SIDED|95.0|-2.8|0.1||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.8|0.0677
82645929|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.0814|TWO_SIDED|95.0|-2.4|0.1||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.4|0.0814
82645930|NCT01289990|165007126|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.7||0.1785|TWO_SIDED|95.0|-2.2|0.4||Model includes baseline diastolic blood pressure, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.4|-2.2|0.1785
82645931|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.22|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.75|-1.69||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.69|-2.75|<0.0001
82645932|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.14|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.66|-1.61||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.61|-2.66|<0.0001
82645933|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.27||0.0223|TWO_SIDED|95.0|0.09|1.14||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.14|0.09|0.0223
82645934|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.84|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.37|-2.31||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.31|-3.37|<0.0001
82645935|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.75|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-3.28|-2.22|||ANCOVA|||||-2.22|-3.28|<0.0001
82645936|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.09|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.76|-1.41||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.41|-2.76|<0.0001
82645937|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.66|-1.32||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.32|-2.66|<0.0001
82530705|NCT02736968|164758218|SUPERIORITY||Difference in Proportions|0.0|||>|0.999|TWO_SIDED|95.0|-0.34|0.34||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact||Adjusted Wald Intervals|The null hypothesis is that the probability of parasitological response by Day 5 for participants receiving auranofin is equal to that for those receiving placebo.||0.34|-0.34|>0.999
82645938|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.27|-1.19||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.19|-2.27|<0.0001
82645939|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.85|-1.76||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.76|-2.85|<0.0001
82645940|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.48|-1.47||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.47|-2.48|<0.0001
82645941|NCT01289990|165007127|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.01|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.52|-1.5||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.50|-2.52|<0.0001
82645942|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.35|-1.26||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.26|-2.35|<0.0001
82645943|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.56|-1.48||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.48|-2.56|<0.0001
82645944|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.28||0.0546|TWO_SIDED|95.0|-0.01|1.08||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.08|-0.01|0.0546
82645945|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.34|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.89|-1.8||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.80|-2.89|<0.0001
82401877|NCT03193047|164512561|SUPERIORITY||Median treatment difference|-32.479|STANDARD_ERROR_OF_MEAN|17.395||0.046|TWO_SIDED|95.0|-70.524|-2.339|||Wilcoxon rank sum test||The median treatment difference (location shift) and the 95% confidence limits are from Hodges-Lehmann estimates.|hs-CRP at Month 1||-2.339|-70.524|0.046
82401878|NCT03193047|164512561|SUPERIORITY||Median treatment difference|-28.512|STANDARD_ERROR_OF_MEAN|12.124||0.029|TWO_SIDED|95.0|-51.455|-3.93|||Wilcoxon rank sum test||The median treatment difference (location shift) and the 95% confidence limits are from Hodges-Lehmann estimates.|hs-CRP at Month 2||-3.930|-51.455|0.029
82401879|NCT00705341|164512564|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Regression, Linear|||Log-linear generalized estimating equation (GEE) models were used to assess the dose effect on PC20.||||0.65
82645946|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.56|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-3.1|-2.01||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-2.01|-3.10|<0.0001
82401880|NCT00205660|164512566|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|ANCOVA|||A repeated measures ANCOVA was used to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypothesis was that there were no differences between groups in the change over time (time x treatment condition).||||0.03
82401881|NCT00205660|164512567|SUPERIORITY|||||||0.01||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|ANCOVA|||A repeated measures ANCOVA was used to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypothesis was that there were no differences between groups in the change over time (time x treatment condition).||||0.01
82401882|NCT02585713|164512576|SUPERIORITY|||||||0.1316|||||||Log Rank|||||||0.1316
82401883|NCT01150903|164512577|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-square test was used to calculate p-value.||||<0.001
82401884|NCT01150903|164512578|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-square test was used to calculate p-value.||||<0.001
82401885|NCT03173456|164512585|SUPERIORITY|||||||0.69||||||A priori threshold for statistical significance was 0.05. The plan was to only do individual comparisons between means if the overall test of the analysis of variance (AVOVA) was statistically significant|ANOVA|||The null hypothesis is that all means are equal. The alternate hypothesis is that one or more mean is less than or more than another.||||0.69
82401886|NCT03173456|164512586|SUPERIORITY|||||||0.85||||||Threshold for statistical significance was 0.05. The plan was to only compare means if the overall test of AVOVA was statistically significant.|ANOVA|||||||0.85
82401887|NCT03173456|164512587|SUPERIORITY|||||||0.99||||||Threshold for statistical significance = 0.05|Chi-squared|||||||0.99
82401888|NCT03173456|164512589|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
82401889|NCT03173456|164512590|SUPERIORITY|||||||0.0501||||||0.05 was the a priori threshold for statistical significance|Chi-squared|||||||0.0501
82401890|NCT01733121|164512591|OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-4.5|-1.6|||ANCOVA|||||-1.6|-4.5|<.0001
82401891|NCT01733121|164512592|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANOVA|||||-0.4|-1.2|<0.0001
82401892|NCT01733121|164512593|OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.7||0.0005|TWO_SIDED|95.0|-3.7|-1.1|||ANCOVA|||||-1.1|-3.7|0.0005
82401893|NCT01733121|164512594|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||ANOVA|||||-0.5|-1.2|<.0001
82401894|NCT02609984|164512610|OTHER||Hazard Ratio (HR)|0.8568||||0.49|TWO_SIDED|95.0|0.5507|1.333||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||1.3330|0.5507|0.4900
82401895|NCT02609984|164512611|OTHER||Hazard Ratio (HR)|1.2145||||0.4737|TWO_SIDED|95.0|0.7131|2.0684||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||2.0684|0.7131|0.4737
82401896|NCT02609984|164512615|OTHER|||||||0.3645||||||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank|||||||0.3645
82401897|NCT02609984|164512616|OTHER|||||||0.3466||||||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank|||||||0.3466
82401898|NCT02609984|164512617|OTHER||Hazard Ratio (HR)|0.7006||||0.1622|TWO_SIDED|95.0|0.4241|1.1574||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||1.1574|0.4241|0.1622
82401899|NCT02609984|164512618|OTHER||Hazard Ratio (HR)|1.1849||||0.6397|TWO_SIDED|95.0|0.5817|2.4134||P-value based on a 2-sided stratified log-rank test stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|Log Rank||Hazard ratio is from Cox proportional hazards model stratified by type of sarcoma: synovial sarcoma versus myxoid/round cell liposarcoma.|||2.4134|0.5817|0.6397
82401900|NCT02609984|164512619|OTHER|||||||0.1128|||||||exact Pearson chi-square test|||||||0.1128
82401901|NCT02609984|164512620|OTHER||||||<|0.0001|||||||exact Pearson chi-square test|||||||<0.0001
82401902|NCT02609984|164512621|OTHER|||||||0.405|||||||exact Pearson chi-square test|||||||0.4050
82401903|NCT02609984|164512622|OTHER|||||||0.0127|||||||exact Pearson chi-square test|||||||0.0127
82445719|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|59.98|||||TWO_SIDED|95.0|49.49|69.32|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||69.32|49.49|
82445720|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|57.37|||||TWO_SIDED|95.0|46.71|66.88|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||66.88|46.71|
82645947|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.69|-1.24||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.24|-2.69|<0.0001
82645948|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.43|-0.99||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.99|-2.43|<0.0001
82645949|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.93|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.52|-1.34||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.34|-2.52|<0.0001
82645950|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.79|-1.6||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.60|-2.79|<0.0001
82645951|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.34|-1.27||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.27|-2.34|<0.0001
82645952|NCT01289990|165007128|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.64|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.18|-1.11||Model includes baseline weight, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.11|-2.18|<0.0001
82645953|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-3.1|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.1|0.0001
82645954|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.5||0.0015|TWO_SIDED|95.0|-2.8|-0.7||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.7|-2.8|0.0015
82645955|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.5052|TWO_SIDED|95.0|-0.7|1.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.4|-0.7|0.5052
82645956|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.5|-1.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.4|-3.5|<0.0001
82645957|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5||0.0001|TWO_SIDED|95.0|-3.1|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.1|0.0001
82645958|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.5||0.0064|TWO_SIDED|95.0|-2.6|-0.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-2.6|0.0064
82645959|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0642|TWO_SIDED|95.0|-2.1|0.1||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.1|-2.1|0.0642
82645960|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.0053|TWO_SIDED|95.0|-1.8|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-1.8|0.0053
82645961|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.3|-0.9|||ANCOVA|||||-0.9|-2.3|<0.0001
82445721|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|58.69|||||TWO_SIDED|95.0|48.32|67.94|||Miettinen & Nurminen score method|||Serogroup W-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||67.94|48.32|
82645962|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.1|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.1|0.0010
82645963|NCT01289990|165007129|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.0015|TWO_SIDED|95.0|-2.1|-0.5||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.5|-2.1|0.0015
82645964|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5||0.0028|TWO_SIDED|95.0|-2.7|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.7|0.0028
82645965|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.5||0.0019|TWO_SIDED|95.0|-2.8|-0.6||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.6|-2.8|0.0019
82645966|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.6||0.5044|TWO_SIDED|95.0|-0.7|1.5||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||1.5|-0.7|0.5044
82645967|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.0003|TWO_SIDED|95.0|-3.1|-0.9||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.9|-3.1|0.0003
82645968|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6||0.0002|TWO_SIDED|95.0|-3.2|-1.0||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-1.0|-3.2|0.0002
82401904|NCT02420262|164512628|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for IDegLira vs basal-bolus (IGlar + IAsp) was considered confirmed if the upper boundary of the two-sided 95% confidence interval was strictly below 0.30% or equivalent for non-inferiority using one-sided test for null hypothesis (H0): D ≥0.30% against alternative hypothesis (HA): D \<0.30% was less than or equal to 2.5%, where D is the mean treatment difference (IDegLira minus basal-bolus).|Treatment contrast|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.16|0.12|||Mixed Models Analysis|||Change from baseline in HbA1c was analysed using a mixed model for repeated measurements with an unstructured covariance matrix. The model included treatment, visit and region as fixed factors and baseline HbA1c as covariate. Interactions between visit and all factors and the covariate were also included in the model.||0.12|-0.16|<0.0001
82401905|NCT02420262|164512629|SUPERIORITY_OR_OTHER||Treatment ratio|0.11|||<|0.0001|TWO_SIDED|95.0|0.08|0.17|||Negative binomial regression model||Superiority for IDegLira vs basal-bolus was considered confirmed if the 95% confidence interval for the treatment rate ratio was entirely below 1.0.|Hypoglycaemic episodes were analysed using a negative binomial regression. The model included treatment and region as fixed factors and logarithm of the time period in which a hypoglycaemic episode considered treatment emergent as offset. The test for superiority of the confirmatory secondary endpoints was carried out only if non-inferiority of IDegLira vs basal-bolus for primary endpoint was confirmed.||0.17|0.08|<0.0001
82401906|NCT02420262|164512630|SUPERIORITY_OR_OTHER||Treatment difference|-3.57|||<|0.0001|TWO_SIDED|95.0|-4.19|-2.95|||Mixed Models Analysis||Superiority for IDegLira vs basal-bolus was considered confirmed if the 95% confidence interval for the treatment difference was below 0 or equal to zero.|Body weight measurements were analysed using a linear mixed model with an unstructured covariance matrix. The model included treatment, visit and region as fixed factors and baseline bodyweight as covariate. Interactions between visit and all factors and the covariate were also included in the model. The test for superiority of the confirmatory secondary endpoints was carried out only if non-inferiority of IDegLira vs basal-bolus for primary endpoint was confirmed.||-2.95|-4.19|<0.0001
82401907|NCT00941304|164512633|SUPERIORITY_OR_OTHER||LS Mean Difference|3.34||||0.4739|TWO_SIDED|95.0|-5.94|12.62|||ANCOVA|||||12.62|-5.94|.4739
82401908|NCT00941304|164512633|SUPERIORITY_OR_OTHER||LS Mean Difference|6.26||||0.2183|TWO_SIDED|95.0|-3.81|16.34|||ANCOVA|||||16.34|-3.81|.2183
82401909|NCT00941304|164512633|SUPERIORITY_OR_OTHER||LS Mean Difference|8.74||||0.0809|TWO_SIDED|95.0|-1.11|18.56|||ANCOVA|||||18.56|-1.11|.0809
82401910|NCT00086450|164512644|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|7.9||||0.005||95.0|3.3|12.5|||Regression, Cox|||||12.5|3.3|0.005
82401911|NCT00086450|164512645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.74||||0.004||95.0|1.91|3.89|||Regression, Cox|||||3.89|1.91|0.004
82401912|NCT00086450|164512646|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.4||||0.049||95.0|||||Log Rank|||||||0.049
82401913|NCT00086450|164512647|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Regression, Cox|||||||0.68
82401914|NCT00784719|164512652|SUPERIORITY_OR_OTHER||Median|59.0|||||TWO_SIDED|80.0|57.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||57.0|
82401915|NCT00784719|164512652|SUPERIORITY_OR_OTHER||Median|58.0|||||TWO_SIDED|80.0|58.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||58.0|
82401916|NCT00784719|164512652|SUPERIORITY_OR_OTHER||Median|57.0|||||TWO_SIDED|80.0|29.0||Upper limit of 80% CI was not estimable as there were insufficient number of participants, who achieved \>=10 mm Schirmer test score in this reporting group, for the analysis.||||||||29.0|
82445722|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|2.61|||||TWO_SIDED|95.0|-1.17|6.62|||Miettinen & Nurminen score method|||Serogroup W-DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||6.62|-1.17|
82530706|NCT02736968|164758223|SUPERIORITY|||||||0.142||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Log Rank|||The null hypothesis is that there is no difference in time to resolution of diarrhea between treatment arms, with a two-sided alternative.||||0.142
82401917|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|9.0|28.0||||||||28.0|9.0|
82401918|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|8.5|||||TWO_SIDED|80.0|8.0|27.0||||||||27.0|8.0|
82401919|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|15.0|27.0||||||||27.0|15.0|
82401920|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|9.5|||||TWO_SIDED|80.0|8.0|15.0||||||||15.0|8.0|
82401921|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|9.0|||||TWO_SIDED|80.0|8.0|15.0||||||||15.0|8.0|
82401922|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|15.0|||||TWO_SIDED|80.0|8.0|43.0||||||||43.0|8.0|
82401923|NCT00784719|164512654|SUPERIORITY_OR_OTHER||Median|16.0|||||TWO_SIDED|80.0|15.0|30.0||||||||30.0|15.0|
82401924|NCT01408901|164512671|SUPERIORITY||Mean Difference (Final Values)|28.7||||0.052|TWO_SIDED|95.0|5.1|52.3||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||52.3|5.1|0.052
82401925|NCT01408901|164512671|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.91|TWO_SIDED|95.0|-30.2|17.6||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||17.6|-30.2|0.91
82401926|NCT01408901|164512671|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.91|TWO_SIDED|95.0|-25.2|22.4||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||22.4|-25.2|0.91
82401927|NCT01408901|164512671|SUPERIORITY||Mean Difference (Final Values)|33.6||||0.02|TWO_SIDED|95.0|9.4|57.7||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||57.7|9.4|0.02
82401928|NCT01408901|164512672|SUPERIORITY||Hodges-Lehmann estimator|-0.61||||0.49|TWO_SIDED|95.0|-1.67|0.44||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||0.44|-1.67|0.49
82401929|NCT01408901|164512672|SUPERIORITY||Hodges-Lehmann estimator|-0.67||||0.49|TWO_SIDED|95.0|-1.84|0.51||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||0.51|-1.84|0.49
82401930|NCT01408901|164512672|SUPERIORITY||Hodges-Lehmann estimator|0.36||||0.49|TWO_SIDED|95.0|-0.66|1.38||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||1.38|-0.66|0.49
82530707|NCT02041923|164758247|EQUIVALENCE|A t-test was conducted to evaluate equivalency.|Mean Difference (Net)|46.3|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82530708|NCT03959592|164758273|OTHER|||||||0.14|||||||Generalized Estimating Equations|||||||0.14
82530709|NCT03959592|164758274|OTHER|||||||0.423|||||||Generalized Estimating Equations|||||||0.423
82645969|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.0109|TWO_SIDED|95.0|-2.5|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-2.5|0.0109
82401931|NCT01408901|164512672|SUPERIORITY||Hodges-Lehmann estimator|0.48||||0.49|TWO_SIDED|95.0|-0.64|1.59||The P value is a Hochberg-adjusted P value.|Wilcoxon (Mann-Whitney)|||||1.59|-0.64|0.49
82401932|NCT01408901|164512673|SUPERIORITY||Mean Difference (Final Values)|3.6|||<|0.01|TWO_SIDED|95.0|2.1|5.0||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||5.0|2.1|<0.01
82401933|NCT01408901|164512673|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.44|TWO_SIDED|95.0|-2.1|0.8||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||0.8|-2.1|0.44
82401934|NCT01408901|164512673|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.44|TWO_SIDED|95.0|-2.1|0.9||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||0.9|-2.1|0.44
82401935|NCT01408901|164512673|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.01|TWO_SIDED|95.0|2.2|5.2||The P value is a Hochberg-adjusted P value.|t-test, 2 sided|||||5.2|2.2|<0.01
82401936|NCT01408901|164512674|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.09|TWO_SIDED|95.0|-0.012|0.001|||t-test, 2 sided|||||0.001|-0.012|0.09
82401937|NCT01408901|164512675|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.03|TWO_SIDED|95.0|-0.01|-0.001|||t-test, 2 sided|||||-0.001|-0.010|0.03
82401938|NCT01408901|164512676|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.09|TWO_SIDED|95.0|-0.012|0.001|||t-test, 2 sided|||||0.001|-0.012|0.09
82401939|NCT01408901|164512677|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.17|TWO_SIDED|95.0|-0.009|0.002|||t-test, 2 sided|||||0.002|-0.009|0.17
82401940|NCT05446142|164512711|OTHER||Reference/Test Ratio|95.25|||||TWO_SIDED|90.0|90.82|99.9||||||Natural log transformed encorafenib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||99.90|90.82|
82401941|NCT05446142|164512711|OTHER||Reference/Test Ratio|96.3|||||TWO_SIDED|90.0|91.71|101.12||||||Natural log transformed encorafenib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||101.12|91.71|
82645970|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.1238|TWO_SIDED|95.0|-1.9|0.2||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||0.2|-1.9|0.1238
82401942|NCT05446142|164512711|OTHER||Reference/Test Ratio|96.57|||||TWO_SIDED|90.0|82.91|112.47||||||Natural log transformed encorafenib AUCinf was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||112.47|82.91|
82401943|NCT05446142|164512711|OTHER||Reference/Test Ratio|88.56|||||TWO_SIDED|90.0|82.59|94.95||||||Natural log transformed encorafenib AUCinf was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||94.95|82.59|
82401944|NCT05446142|164512712|OTHER||Reference/Test Ratio|104.31|||||TWO_SIDED|90.0|91.4|119.04||||||Natural log transformed encorafenib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||119.04|91.40|
82401945|NCT05446142|164512712|OTHER||Reference/Test Ratio|90.35|||||TWO_SIDED|90.0|79.17|103.12||||||Natural log transformed encorafenib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||103.12|79.17|
82401946|NCT05446142|164512712|OTHER||Reference/Test Ratio|79.66|||||TWO_SIDED|90.0|58.7|108.08||||||Natural log transformed encorafenib Cmax was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||108.08|58.70|
82401947|NCT05446142|164512712|OTHER||Reference/Test Ratio|80.78|||||TWO_SIDED|90.0|64.82|100.68||||||Natural log transformed encorafenib Cmax was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||100.68|64.82|
82401948|NCT05446142|164512713|OTHER||Reference/Test Ratio|95.34|||||TWO_SIDED|90.0|90.37|100.59||||||Natural log transformed encorafenib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||100.59|90.37|
82445723|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|45.25|||||TWO_SIDED|95.0|35.11|55.47|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Menveo-Menveo vs. Naive)||55.47|35.11|
82645971|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.4|-0.8||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.8|-2.4|<0.0001
82645972|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.0076|TWO_SIDED|95.0|-1.9|-0.3||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.3|-1.9|0.0076
82645973|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0049|TWO_SIDED|95.0|-2.1|-0.4||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.4|-2.1|0.0049
82645974|NCT01289990|165007130|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.0178|TWO_SIDED|95.0|-1.9|-0.2||Model includes baseline waist circumference, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-0.2|-1.9|0.0178
82645975|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-32.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-37.8|-26.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-26.7|-37.8|<0.0001
82645976|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-37.2|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-42.8|-31.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-31.7|-42.8|<0.0001
82645977|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-22.9|-11.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-11.7|-22.9|<0.0001
82645978|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.0|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-20.6|-9.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-9.4|-20.6|<0.0001
82645979|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-25.5|-14.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-14.4|-25.5|<0.0001
82645980|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.1|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|95.0|-35.0|-19.2||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.2|-35.0|<0.0001
82645981|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.0|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|95.0|-38.9|-23.2||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-23.2|-38.9|<0.0001
82645982|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-24.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-29.7|-18.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-18.9|-29.7|<0.0001
82645983|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-32.7|-21.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-21.9|-32.7|<0.0001
82645984|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.8|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-33.6|-22.0||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-22.0|-33.6|<0.0001
82645985|NCT01289990|165007131|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.7|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-34.5|-22.8||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-22.8|-34.5|<0.0001
82645986|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-37.4|-25.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.9|-37.4|<0.0001
82645987|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-40.7|-29.1||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-29.1|-40.7|<0.0001
82645988|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-16.3|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-22.1|-10.5||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-10.5|-22.1|<0.0001
82530710|NCT03959592|164758277|OTHER|||||||0.985|||||||Generalized Estimating Equations|||||||0.985
82530711|NCT03959592|164758278|OTHER|||||||0.545|||||||Generalized Estimating Equations|||||||0.545
82645989|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.4|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-21.2|-9.6||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-9.6|-21.2|<0.0001
82645990|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-18.7|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-24.5|-12.8||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-12.8|-24.5|<0.0001
82645991|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.3|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-31.4|-15.3||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-15.3|-31.4|<0.0001
82530712|NCT03688711|164758282|SUPERIORITY||||||<|0.0001|||||||Log Rank|||The recovery rates of dasiglucagon and placebo were evaluated using a Kaplan Meier (KM) approach, with treatment group as a stratification factor. Differences between the KM curves (dasiglucagon versus placebo) were evaluated inferentially using pairwise two-sided log-rank tests stratified by injection site.||||<0.0001
82530713|NCT03688711|164758283|SUPERIORITY|||||||0.0012|||||||Fisher Exact|||Assessed at 30 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0012
82576215|NCT02209181|164862043|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.51||0.345|TWO_SIDED|95.0|-1.47|0.52||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.52|-1.47|0.345
82645992|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.4|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-35.4|-19.4||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.4|-35.4|<0.0001
82401949|NCT05446142|164512713|OTHER||Reference/Test Ratio|94.67|||||TWO_SIDED|90.0|89.73|99.88||||||Natural log transformed encorafenib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to CAP) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to CAP) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||99.88|89.73|
82401950|NCT05446142|164512713|OTHER||Reference/Test Ratio|95.76|||||TWO_SIDED|90.0|84.1|109.04||||||Natural log transformed encorafenib AUClast was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCC relative to eMCC with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCC relative to eMCC with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||109.04|84.10|
82401951|NCT05446142|164512713|OTHER||Reference/Test Ratio|88.31|||||TWO_SIDED|90.0|82.36|94.7||||||Natural log transformed encorafenib AUClast was analyzed using ANOVA with treatment and sequence as a fixed effect and participant within sequence as a random effect. The adjusted mean differences (eMCCL relative to eMCCL with rabeprazole) and corresponding 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (eMCCL relative to eMCCL with rabeprazole) and 90% CIs for the ratios. The geometric mean ratios are presented as percentages.||94.70|82.36|
82401952|NCT02098395|164512725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.2|||Mixed Models Analysis|||Superiority of liraglutide 1.8 mg versus placebo was planned to be concluded if and only if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c was less than zero.||-0.2|-0.5|< 0.0001
82401953|NCT02098395|164512725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||=|0.0021|TWO_SIDED|95.0|-0.38|-0.08|||Mixed Models Analysis|||Superiority of liraglutide 1.2 mg was planned to be evaluated only if superiority for liraglutide 1.8 mg was concluded.||-0.08|-0.38|= 0.0021
82645993|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.1|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-30.5|-19.6||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-19.6|-30.5|<0.0001
82401954|NCT02098395|164512725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|||=|0.0011|TWO_SIDED|95.0|-0.39|-0.1|||Mixed Models Analysis|||Superiority of liraglutide 0.6 mg versus placebo was planned to be evaluated only if superiority of liraglutide 1.2 mg was concluded.||-0.1|-0.39|= 0.0011
82401955|NCT00547157|164512730|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.09|||||TWO_SIDED|95.0|-0.26|0.07|||||difference is PRT - CRT|||0.07|-0.26|
82401956|NCT00547157|164512731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.613||||0.0601|TWO_SIDED|95.0|0.98|2.656|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy.|||2.656|0.980|0.0601
82401957|NCT00547157|164512732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.731||||0.0259|TWO_SIDED|95.0|1.068|2.806|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy.|||2.806|1.068|0.0259
82445724|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|42.67|||||TWO_SIDED|95.0|32.34|53.04|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Menactra-Menveo vs. Naive)||53.04|32.34|
82401958|NCT00547157|164512733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.593||||0.1039|TWO_SIDED|95.0|0.909|2.793|||Regression, Cox||Hazard ratio is presented as panitumumab plus radiotherapy:chemoradiotherapy|||2.793|0.909|0.1039
82401959|NCT00547157|164512734|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.791||||0.5744|TWO_SIDED|95.0|0.342|1.785|||Regression, Logistic||The odd ratio is defined as the odds of having an objective response in the panitumumab plus radiotherapy arm relative to the odds in the chemoradiotherapy arm.|||1.785|0.342|0.5744
82401960|NCT00547157|164512734|SUPERIORITY_OR_OTHER||Difference in objective response rate|-0.044|||||TWO_SIDED|95.0|-0.187|0.112|||||Difference is objective response rate in the panitumumab plus radiotherapy arm minus the rate in the chemoradiotherapy arm.|||0.112|-0.187|
82401961|NCT00547157|164512735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.278||||0.807|TWO_SIDED|95.0|0.438|4.043|||Regression, Logistic||The odd ratio is defined as the odds of having an objective response in the panitumumab plus radiotherapy arm relative to the odds in the chemoradiotherapy arm.|||4.043|0.438|0.8070
82401962|NCT00547157|164512735|SUPERIORITY_OR_OTHER||Difference in complete response rate|0.029|||||TWO_SIDED|95.0|-0.103|0.141|||||Difference is objective response rate in the panitumumab plus radiotherapy arm minus the rate in the chemoradiotherapy arm.|||0.141|-0.103|
82401963|NCT01509612|164512736|SUPERIORITY|||||||0.397|||||||t-test, 2 sided|||||||0.397
82530714|NCT03688711|164758283|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Assessed at 20 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82401964|NCT01509612|164512737|SUPERIORITY|||||||0.02|||||||Chi-squared|||Only those groups were compared who received an intervention||||0.02
82401965|NCT05415462|164512754|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H1N1 strain at a 2-sided 0.025 level.|Geometric Mean Ratio (GMR)|1.01|||||TWO_SIDED|97.5|0.952|1.071||||||GMR (mRNA-1010 vs Fluarix) for Influenza A H1N1 Antibody||1.071|0.952|
82401966|NCT05415462|164512754|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H3N2 strain at a 2-sided 0.025 level.|GMR|1.657|||||TWO_SIDED|97.5|1.562|1.757||||||GMR (mRNA-1010 vs Fluarix) for Influenza A H3N2 Antibody||1.757|1.562|
82401967|NCT05415462|164512754|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Victoria-lineage strain at a 2-sided 0.025 level.|GMR|0.665|||||TWO_SIDED|97.5|0.63|0.702||||||GMR (mRNA-1010 vs Fluarix) for Influenza B/ Victoria Lineage||0.702|0.630|
82401968|NCT05415462|164512754|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Yamagata-lineage strain at a 2-sided 0.025 level.|GMR|0.661|||||TWO_SIDED|97.5|0.63|0.693||||||GMR (mRNA-1010 vs Fluarix) for Influenza B/ Yamagata Lineage||0.693|0.630|
82401969|NCT05415462|164512755|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H1N1 strain at a 2-sided 0.025 level.|Percentage Difference|5.75|||||TWO_SIDED|97.5|3.12|8.38||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza A H1N1 Antibody||8.38|3.12|
82401970|NCT05415462|164512755|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza A H3N2 strain at a 2-sided 0.025 level.|Percentage Difference|16.91|||||TWO_SIDED|97.5|14.27|19.54||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza A H3N2 Antibody||19.54|14.27|
82401971|NCT05415462|164512755|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Victoria-lineage strain at a 2-sided 0.025 level.|Percentage Difference|-17.34|||||TWO_SIDED|97.5|-20.22|-14.43||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza B/Victoria Lineage||-14.43|-20.22|
82401972|NCT05415462|164512755|NON_INFERIORITY|The endpoint was tested for noninferiority of mRNA-1010 vs Fluarix for Influenza B Yamagata-lineage strain at a 2-sided 0.025 level.|Percentage Difference|-15.68|||||TWO_SIDED|97.5|-18.57|-12.76||||||Percentage Difference (mRNA-1010 vs Fluarix) for Influenza B/Yamagata Lineage||-12.76|-18.57|
82401973|NCT01087203|164512784|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.53||0.025|TWO_SIDED|95.0|-2.28|-0.16|||ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.16|-2.28|0.025
82401974|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.332|TWO_SIDED|95.0|-0.92|0.32|||ANCOVA|||Week 1: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||0.32|-0.92|0.332
82401975|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.38||0.297|TWO_SIDED|95.0|-1.15|0.36|||ANCOVA|||Week 2: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||0.36|-1.15|0.297
82401976|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.42||0.029|TWO_SIDED|95.0|-1.81|-0.1|||ANCOVA|||Week 4: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.10|-1.81|0.029
82445725|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|43.98|||||TWO_SIDED|95.0|33.92|54.14|||Miettinen & Nurminen score method|||Serogroup Y-day 29-Total seroresponse (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||54.14|33.92|
82445726|NCT02986854|164599948|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Difference in percentages|2.58|||||TWO_SIDED|95.0|-0.86|6.3|||Miettinen & Nurminen score method|||Serogroup Y- DAY 29 : Total seroresponse (Menveo-Menveo vs. Menactra-Menveo)||6.3|-0.86|
82445727|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.16|||||TWO_SIDED|95.0|1.23|13.41|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||13.41|1.23|
82401977|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.46||0.01|TWO_SIDED|95.0|-2.17|-0.3|||ANCOVA|||Week 6: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.30|-2.17|0.010
82401978|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.49||0.009|TWO_SIDED|95.0|-2.3|-0.34|||ANCOVA|||Week 8: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.34|-2.30|0.009
82401979|NCT01087203|164512785|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|0.52||0.015|TWO_SIDED|95.0|-2.36|-0.27|||ANCOVA|||Week 12: ANCOVA model with treatment as main effect, baseline value as covariate, and study site as a random effect was used.||-0.27|-2.36|0.015
82401980|NCT02559570|164512813|SUPERIORITY||Least Squares Mean Difference|-0.042|STANDARD_ERROR_OF_MEAN|0.149||0.7789|TWO_SIDED|95.0|-0.335|0.252|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.252|-0.335|0.7789
82401981|NCT02559570|164512813|SUPERIORITY||Least Squares Mean Difference|0.001|STANDARD_ERROR_OF_MEAN|0.143||0.993|TWO_SIDED|95.0|-0.282|0.284|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.284|-0.282|0.9930
82401982|NCT02559570|164512813|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.146||0.4107|TWO_SIDED|95.0|-0.167|0.408|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.408|-0.167|0.4107
82530715|NCT03688711|164758283|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Assessed at 15 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82645994|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-36.9|-25.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.9|-36.9|<0.0001
82401983|NCT02559570|164512814|SUPERIORITY||Least Squares Mean Difference|-0.588|STANDARD_ERROR_OF_MEAN|0.577||0.3097|TWO_SIDED|95.0|-1.729|0.552|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.552|-1.729|0.3097
82401984|NCT02559570|164512814|SUPERIORITY||Least Squares Mean Difference|-0.186|STANDARD_ERROR_OF_MEAN|0.557||0.7384|TWO_SIDED|95.0|-1.286|0.913|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.913|-1.286|0.7384
82645995|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-37.0|-24.9||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-24.9|-37.0|<0.0001
82401985|NCT02559570|164512814|SUPERIORITY||Least Squares Mean Difference|0.364|STANDARD_ERROR_OF_MEAN|0.563||0.5188|TWO_SIDED|95.0|-0.748|1.477|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||1.477|-0.748|0.5188
82401986|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.249||0.8426|TWO_SIDED|95.0|-0.543|0.444|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.444|-0.543|0.8426
82401987|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|-0.038|STANDARD_ERROR_OF_MEAN|0.246||0.877|TWO_SIDED|95.0|-0.525|0.448|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.448|-0.525|0.8770
82401988|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|0.356|STANDARD_ERROR_OF_MEAN|0.246||0.1502|TWO_SIDED|95.0|-0.131|0.842|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.842|-0.131|0.1502
82401989|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|-0.062|STANDARD_ERROR_OF_MEAN|0.239||0.7949|TWO_SIDED|95.0|-0.535|0.41|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.410|-0.535|0.7949
82401990|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.235||0.7543|TWO_SIDED|95.0|-0.54|0.392|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.392|-0.540|0.7543
82401991|NCT02559570|164512815|SUPERIORITY||Least Squares Mean Difference|0.262|STANDARD_ERROR_OF_MEAN|0.235||0.2676|TWO_SIDED|95.0|-0.204|0.728|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.728|-0.204|0.2676
82401992|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.053|STANDARD_ERROR_OF_MEAN|0.208||0.7997|TWO_SIDED|95.0|-0.465|0.359|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.359|-0.465|0.7997
82401993|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.121|STANDARD_ERROR_OF_MEAN|0.207||0.5602|TWO_SIDED|95.0|-0.53|0.288|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.288|-0.530|0.5602
82445728|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|10.59|||||TWO_SIDED|95.0|3.54|16.14|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||16.14|3.54|
82530716|NCT03688711|164758283|SUPERIORITY|||||||0.0006|||||||Fisher Exact|||Assessed at 10 minutes. The recovery rates of dasiglucagon and placebo were compared at each time point using a Fisher's exact test. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||0.0006
82645996|NCT01289990|165007132|SUPERIORITY_OR_OTHER||Adjusted mean difference|-31.8|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-37.9|-25.7||Model includes baseline fasting plasma glucose, baseline HbA1c as covariates, baseline eGFR, geographic region, and treatment as fixed effects.|ANCOVA|||||-25.7|-37.9|<0.0001
82530717|NCT03688711|164758284|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 30 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82530718|NCT03688711|164758284|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 20 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82645997|NCT01236053|165007133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.0002|TWO_SIDED|95.0|1.07|1.24|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)"|||1.24|1.07|0.0002
82401994|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.236|STANDARD_ERROR_OF_MEAN|0.205||0.2529|TWO_SIDED|95.0|-0.641|0.17|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Adult derivation||0.170|-0.641|0.2529
82401995|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.054|STANDARD_ERROR_OF_MEAN|0.206||0.7923|TWO_SIDED|95.0|-0.461|0.352|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.352|-0.461|0.7923
82401996|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.113|STANDARD_ERROR_OF_MEAN|0.204||0.5802|TWO_SIDED|95.0|-0.517|0.29|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.290|-0.517|0.5802
82401997|NCT02559570|164512816|SUPERIORITY||Least Squares Mean Difference|-0.199|STANDARD_ERROR_OF_MEAN|0.202||0.3263|TWO_SIDED|95.0|-0.6|0.201|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|Weighted average||0.201|-0.600|0.3263
82401998|NCT02559570|164512817|SUPERIORITY||Least Squares Mean Difference|0.048|STANDARD_ERROR_OF_MEAN|0.152||0.7507|TWO_SIDED|95.0|-0.252|0.349|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.349|-0.252|0.7507
82401999|NCT02559570|164512817|SUPERIORITY||Least Squares Mean Difference|0.028|STANDARD_ERROR_OF_MEAN|0.146||0.8505|TWO_SIDED|95.0|-0.262|0.317|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.317|-0.262|0.8505
82645998|NCT01236053|165007133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.0976|TWO_SIDED|95.0|0.99|1.15|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.15|0.99|0.0976
82645999|NCT01236053|165007133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||<|0.0001|TWO_SIDED|95.0|1.23|1.36|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)"|||1.36|1.23|<0.0001
82402000|NCT02559570|164512817|SUPERIORITY||Least Squares Mean Difference|0.039|STANDARD_ERROR_OF_MEAN|0.149||0.7933|TWO_SIDED|95.0|-0.254|0.332|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.332|-0.254|0.7933
82402001|NCT02559570|164512818|SUPERIORITY||Least Squares Mean Difference|-0.425|STANDARD_ERROR_OF_MEAN|0.45||0.3461|TWO_SIDED|95.0|-1.313|0.463|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.463|-1.313|0.3461
82402002|NCT02559570|164512818|SUPERIORITY||Least Squares Mean Difference|-0.235|STANDARD_ERROR_OF_MEAN|0.435||0.5892|TWO_SIDED|95.0|-1.095|0.624|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.624|-1.095|0.5892
82530719|NCT03688711|164758284|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 15 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82646000|NCT01236053|165007133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||<|0.0001|TWO_SIDED|95.0|1.13|1.26|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.26|1.13|<0.0001
82530720|NCT03688711|164758284|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from baseline in plasma glucose at 10 minutes after investigational product injection was calculated using nominal sampling times and analyzed using an analysis of variance model with treatment, age group and injection site for each endpoint. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.0001
82530721|NCT03688711|164758285|SUPERIORITY||||||<|0.0001|||||||Log Rank|||Evaluated using a Kaplan Meier (KM) approach, with treatment group as a stratification factor, analogous to that used for the primary endpoint analysis. Differences between the KM curves (dasiglucagon versus placebo) were evaluated inferentially using pairwise two-sided log-rank tests. Subjects whose time to first plasma glucose concentration ≥70 mg/dL (3.9 mmol/L) was not met within 45 minutes post-dosing were censored, at the time of the last valid plasma glucose measurement up to 45 minutes.||||<0.0001
82402003|NCT02559570|164512818|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.44||0.856|TWO_SIDED|95.0|-0.789|0.949|||ANCOVA|ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA model was applied with treatment arm groups (linaclotide doses A, B, and C, and placebo) and age group (6 to 11 years of age and 12 to 17 years of age) as factors and baseline value as covariate.|||0.949|-0.789|0.8560
82402004|NCT04388176|164512820|EQUIVALENCE|Differences in treatment groups in the primary endpoint (log (AUC)) was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|1.0146|||=|0.3801|TWO_SIDED|90.0|0.9859|1.0442|||ANCOVA|||||1.0442|0.9859|=0.3801
82402005|NCT04388176|164512821|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|1.0346|||=|0.0356|TWO_SIDED|90.0|1.0086|1.0613|||ANCOVA|||||1.0613|1.0086|=0.0356
82402006|NCT04388176|164512822|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Difference in least square means|-0.4991|||=|0.0154|TWO_SIDED|90.0|-0.8234|-0.1749|||ANCOVA|||Analysis at the 10 min point||-0.1749|-0.8234|=0.0154
82402007|NCT04388176|164512823|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1.|Ratio in least square means|0.8301|||=|0.282|TWO_SIDED|90.0|0.6206|1.1102|||ANCOVA|||||1.1102|0.6206|=0.282
82402008|NCT04388176|164512824|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1|Difference in least square means|-0.3989|||=|0.3722|TWO_SIDED|90.0|-1.1718|0.3739|||ANCOVA|||||0.3739|-1.1718|=0.3722
82402009|NCT04388176|164512825|EQUIVALENCE|Differences between treatment groups was to be detected with a power of 90% and alpha=0.1|Difference in least square means|-0.109|||=|0.4982|TWO_SIDED|90.0|-0.4074|0.1895|||ANCOVA|||Analysis of capillaroscopy before cold||0.1895|-0.4074|=0.4982
82402010|NCT04388176|164512825|EQUIVALENCE|A difference between treatment groups was detected with a power of 90% and alpha=0.1|Difference in least square means|-0.0637|||=|0.6219|TWO_SIDED|90.0|-0.3037|0.1763|||ANCOVA|||Analysis of capillaroscopy post recovery||0.1763|-0.3037|=0.6219
82646001|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.1468|TWO_SIDED|95.0|0.97|1.23|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.23|0.97|0.1468
82402011|NCT02500719|164512891|SUPERIORITY||Mean Difference (Net)|0.1319||||0.029|ONE_SIDED||||||t-test, 1 sided|||This test is to determine if the difference between engagement and disengagement of emotional arousal is increased by real-time neurofeedback guidance in PTSD participants.||||.029
82402012|NCT00282152|164512920|NON_INFERIORITY|Because the purpose of this trial was to provide preliminary safety and tolerability data, the primary hypothesis was that the DBS+ODT group would not worsen more quickly than the ODT group. The primary endpoint was defined as the time to reach a four-point worsening of the UPDRS-III score following a one week treatment washout as assessed by the blinded rater.||||||0.968|||||||Log Rank|||||||0.968
82402013|NCT00282152|164512921|OTHER|||||||0.4|||||||t-test, 2 sided|||Study power was calculated based on the amount of PD medication consumed. We anticipated that the control group (ODT) would have a baseline value of 400 which would increase to 600, and that the treated group (DBS+ODT) would decrease from 400 to 300. A sample size of 12 patients per group (n=15, assuming 20% drop out) would have 80% power to detect a difference in means of 300 assuming that the common standard deviation is 250 using a two group t-test with a 0.05 two-sided significance level.||||0.40
82402014|NCT02182830|164512962|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the primary endpoint|Adjusted mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.2||0.0002|TWO_SIDED|95.0|-1.18|-0.38|||Mixed Models Analysis||Empagliflozin minus Placebo|"MMRM model : HbA1c baseline, treatment, renal function, pre-treatment with metformin, visit, visit by treatment interaction, and HbA1c baseline by treatment interaction. Treatment, renal function, pre-treatment with metformin, visit, and visit by treatment interaction were fixed classification effects, and HbA1c baseline was a linear covariate. The interaction visit by HbA1c baseline interaction was based on the linear covariate HbA1c baseline."||-0.38|-1.18|0.0002
82402015|NCT02182830|164512963|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-5.21|STANDARD_ERROR_OF_MEAN|2.04||0.0117|TWO_SIDED|95.0|-9.24|-1.18|||ANCOVA||Empagliflozin minus Placebo|"change from baseline in mean 24-hour ambulatory SBP at 12 weeks of treatment was evaluated by using an Analysis of Covariance (ANCOVA) model.~The respective model included treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the endpoint."||-1.18|-9.24|0.0117
82402016|NCT02182830|164512964|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-5.99|STANDARD_ERROR_OF_MEAN|2.62||0.0237|TWO_SIDED|95.0|-11.16|-0.81|||ANCOVA||Empagliflozin minus Placebo|"ANCOVA mode:~The respective model included treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the endpoint."||-0.81|-11.16|0.0237
82445729|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|9.36|||||TWO_SIDED|95.0|2.72|13.58|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menactra-Menveo vs. Naive)||13.58|2.72|
82646002|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.8545|TWO_SIDED|95.0|0.9|1.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.14|0.90|0.8545
82445730|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method.|Between group differences in percentage|-2.44|||||TWO_SIDED|95.0|-8.17|3.24|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||3.24|-8.17|
82445731|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.94|||||TWO_SIDED|95.0|-3.57|14.15|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||14.15|-3.57|
82445732|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.88|||||TWO_SIDED|95.0|-1.77|16.52|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||16.52|-1.77|
82445733|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.89|||||TWO_SIDED|95.0|-2.34|13.48|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||13.48|-2.34|
82445734|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.93|||||TWO_SIDED|95.0|-9.84|5.82|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||5.82|-9.84|
82445735|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|44.33|||||TWO_SIDED|95.0|30.25|54.6|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.60|30.25|
82445736|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|38.05|||||TWO_SIDED|95.0|23.93|48.58|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||48.58|23.93|
82445737|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.26|||||TWO_SIDED|95.0|28.15|49.72|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||49.72|28.15|
82445738|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.28|||||TWO_SIDED|95.0|-5.31|17.71|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||17.71|-5.31|
82530722|NCT03688711|164758286|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.0001|TWO_SIDED|95.0|2.71|6.05|||ANCOVA|||The analysis was an analysis of covariance (ANCOVA) model with treatment group as factor and the baseline of the dependent variable plasma glucose as a covariate.||6.05|2.71|<0.0001
82646003|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.0001|TWO_SIDED|95.0|1.27|1.48|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.48|1.27|<0.0001
82445739|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.65|||||TWO_SIDED|95.0|19.25|37.65|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||37.65|19.25|
82445740|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.97|||||TWO_SIDED|95.0|19.6|37.95|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||37.95|19.60|
82530723|NCT04654468|164758309|SUPERIORITY||||||<|0.0001|||||||Paired McNemar|||Percentage of participants who achieved TA from baseline through Week 25 were compared with the percentage of participants who reported TA within 24 weeks prior to screening.||||<.0001
82402017|NCT02182830|164512965|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.59||0.0382|TWO_SIDED|95.0|-2.39|-0.07|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the key secondary endpoint with continuous baseline HbA1c, continuous baseline key secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline key secondary endpoint.||-0.07|-2.39|0.0382
82402018|NCT02182830|164512966|SUPERIORITY|A hierarchical multiple testing procedure was used to evaluate superiority of the endpoint|Adjusted mean difference|-4.04|STANDARD_ERROR_OF_MEAN|2.59||0.1215|TWO_SIDED|95.0|-9.16|1.09|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the key secondary endpoint with continuous baseline HbA1c, continuous baseline key secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline key secondary endpoint.||1.09|-9.16|0.1215
82402019|NCT02182830|164512967|SUPERIORITY||Adjusted mean difference|-8.39|STANDARD_ERROR_OF_MEAN|2.69||0.0025|TWO_SIDED|95.0|-13.74|-3.04|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-3.04|-13.74|0.0025
82402020|NCT02182830|164512968|SUPERIORITY||Adjusted mean difference|-3.43|STANDARD_ERROR_OF_MEAN|1.25||0.0069|TWO_SIDED|95.0|-5.9|-0.96|||ANCOVA||Empagliflozin minus Placebo|The respective ANCOVA model includes treatment, renal function, pretreatment with metformin, continuous baseline HbA1c, and continuous baseline of the respective secondary endpoint.||-0.96|-5.90|0.0069
82646004|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27|||<|0.0001|TWO_SIDED|95.0|1.18|1.37|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.37|1.18|<0.0001
82402021|NCT02182830|164512969|SUPERIORITY||Adjusted mean difference|-4.91|STANDARD_ERROR_OF_MEAN|1.74||0.0058|TWO_SIDED|95.0|-8.35|-1.46|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-1.46|-8.35|0.0058
82402022|NCT02182830|164512970|SUPERIORITY||Adjusted mean difference|-7.43|STANDARD_ERROR_OF_MEAN|2.5||0.0036|TWO_SIDED|95.0|-12.37|-2.48|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-2.48|-12.37|0.0036
82402023|NCT02182830|164512971|SUPERIORITY||Adjusted mean difference|-1.84|STANDARD_ERROR_OF_MEAN|1.56||0.2402|TWO_SIDED|95.0|-4.93|1.25|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||1.25|-4.93|0.2402
82402024|NCT02182830|164512972|SUPERIORITY||Adjusted mean difference|-4.25|STANDARD_ERROR_OF_MEAN|1.49||0.0053|TWO_SIDED|95.0|-7.21|-1.29|||Mixed Models Analysis||Empagliflozin minus Placebo|MMRM models modelling the secondary endpoint with continuous baseline HbA1c, continuous baseline secondary endpoint, treatment, renal function, pretreatment with metformin, visit, visit by treatment interaction, visit by continuous baseline HbA1c interaction, visit by continuous baseline secondary endpoint.||-1.29|-7.21|0.0053
82402025|NCT01990768|164512973|SUPERIORITY||Odds Ratio (OR)|0.87||||0.1809|ONE_SIDED|||||Based on an interim futility analysis, a one-sided P-value less than .1028 was required to declare benefit.|Regression, Logistic|Analysis was adjusted for regional site. Missing outcomes were multiply imputed.|Odds ratio for unfavorable GOS-E (\<=4) for the Combined TXA Arms (numerator) vs. Placebo (denominator)|This study was designed with an asymmetric boundary for tests for treatment harm and benefit. The conventional 0.025 level was used to test for harm while a 0.1 level was used to determine benefit for this Phase II trial. Statistical significance for the primary analysis was conducted under a group-sequential design that included a single, interim futility analysis using a Wang-Tsiatis boundary with parameter 0.8 based on outcome data from the first 200 subjects.||||.1809
82402026|NCT04672044|164512994|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
82402027|NCT00461097|164513024|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.5||||0.025|TWO_SIDED|95.0|4.3|43.9||No adjustments were made to the p-value.|Barnard's statistic|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 10,000 mg of egg white solid was compared using Barnard's statistic with the null hypothesis that there was no difference between treatment groups.||43.9|4.3|0.025
82402028|NCT01554163|164513030|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the betweentreatment difference in LS mean time-weighted average change from baseline over 12 weeks in WOMAC Pain Subscale (VAS) is no greater than 10 mm (non-inferiority margin).|Difference in LS Mean Change|-1.63||||0.39|TWO_SIDED|95.0|-5.37|2.1|||ANCOVA|||||2.10|-5.37|0.390
82402029|NCT01554163|164513031|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in LS means (etoricoxib minus celecoxib) is no greater than 10 mm.|Difference in LS Mean Change|-1.32||||0.464|TWO_SIDED|95.0|-4.88|2.23|||ANCOVA|||||2.23|-4.88|0.464
82402030|NCT01554163|164513032|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Etoricoxib 30 mg will be considered non-inferior to celecoxib 200 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in LS means (etoricoxib minus celecoxib) is no greater than 10 mm.|Difference in LS Mean Change|-1.09||||0.624|TWO_SIDED|95.0|-5.48|3.3|||ANCOVA|||||3.30|-5.48|0.624
82402031|NCT01554163|164513033|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.08||||0.369|TWO_SIDED|95.0|-0.26|0.1|||ANCOVA|||||0.10|-0.26|0.369
82402032|NCT01554163|164513034|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.09||||0.294|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||||0.08|-0.25|0.294
82402033|NCT01554163|164513035|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.86||||0.679|TWO_SIDED|95.0|-4.96|3.24|||ANCOVA|||||3.24|-4.96|0.679
82402034|NCT01554163|164513036|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean Change|-0.1||||0.314|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.10|-0.30|0.314
82402035|NCT03020550|164513050|SUPERIORITY|||||||0.034|||||||ANOVA|Adjusted for baseline GERD symptom severity.||The outcome measure was calculated using a general linear model with average daily post GERD symptom severity as the dependent variable with the following independent variables: baseline average GERD symptom severity and change in GSR (galvanic skin response). No term for visit type assignment was included in the model.||||0.034
82402036|NCT03020550|164513051|SUPERIORITY|||||||0.56|||||||ANOVA|Adjusted for baseline GERD symptom severity||The outcome measure was calculated using a general linear model with average daily post GERD symptom severity as the dependent variable with the following independent variables: baseline average GERD symptom severity and change in RMSSD (high frequency HRV). No term for visit type assignment was included in the model.||||0.56
82402037|NCT03020550|164513052|SUPERIORITY|||||||0.8|||||||Pearson's correlation test|||The outcome measure was calculated using a Pearson correlation to compare the session index representing the amount of concordance in GSR between patient and physician and the percent change in patients' GERD symptoms. Visit type assignment was not included in the analysis.||||0.80
82402038|NCT02861664|164513077|OTHER||Least square (LS) mean difference|-0.6|||<|0.0001||95.0|-0.8|-0.4||From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|ANCOVA||Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-0.4|-0.8|<.0001
82402039|NCT00856999|164513102|EQUIVALENCE|Non-parametric test equivalent to the dependent t-test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
82402040|NCT00856999|164513103|EQUIVALENCE|Non-parametric test equivalent to the dependent t-test|||||<|0.0004|||||||Wilcoxon (Mann-Whitney)|||||||<.0004
82402041|NCT02754518|164513121|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402042|NCT02754518|164513122|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402043|NCT02754518|164513123|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402044|NCT02754518|164513124|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402045|NCT02754518|164513125|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402046|NCT02754518|164513126|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402047|NCT02754518|164513127|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402048|NCT02754518|164513128|OTHER|||||||0.13||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.|paired t-test|||0.13
82402049|NCT02754518|164513129|OTHER|||||||0.95||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.95
82402050|NCT02754518|164513130|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402051|NCT02754518|164513131|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402052|NCT02754518|164513132|OTHER|||||||0.65||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired T-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.65
82530724|NCT04159415|164758388|SUPERIORITY||Least Squares (LS) Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-1.9|2.3|||||Confidence interval (CI) based on treatment group difference (R4461 Low dose vs. placebo) of the LS means using mixed-effect model with repeated measures (MMRM) model|||2.3|-1.9|
82402053|NCT02754518|164513133|OTHER|||||||0.06||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||0.06
82402054|NCT02754518|164513134|OTHER|||||||0.76||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.76
82402055|NCT02754518|164513135|OTHER|||||||0.07||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Fisher Exact|||Primary outcome was presented at baseline and 1-year as frequency and percentages based upon the Shapiro-Wilks test of normality, and then analyzed with the Fisher exact test.||||0.07
82530725|NCT04159415|164758389|SUPERIORITY||LS Mean Difference|38.1|STANDARD_ERROR_OF_MEAN|27.3|||TWO_SIDED|95.0|-21.3|97.5|||||Confidence interval (CI) based on treatment group difference (R4461 Low dose vs. placebo) of the LS means using mixed-effect model with repeated measures (MMRM) model|||97.5|-21.3|
82530726|NCT04159415|164758390|SUPERIORITY||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|29.0|||TWO_SIDED|95.0|-56.9|56.9|||||Combined estimate for adjusted mean difference (SE) vs Placebo obtained by combining adjusted means and SE from ANCOVA model analyses of the different imputed data sets.|||56.9|-56.9|
82646005|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.0033|TWO_SIDED|95.0|1.07|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.43|1.07|0.0033
82646006|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0474|TWO_SIDED|95.0|1.0|1.33|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.33|1.00|0.0474
82402056|NCT02754518|164513136|OTHER|||||||0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.001
82402057|NCT02754518|164513139|OTHER|||||||0.03||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.03
82402058|NCT02754518|164513140|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402059|NCT02754518|164513141|OTHER|||||||0.02||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.02
82402060|NCT02754518|164513142|OTHER||||||<|0.001||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|t-test, 2 sided|Paired t-test||Primary outcome was presented at baseline and 1-year as means +/- standard deviations based upon the Shapiro-Wilks test of normality, and then analyzed with paired t-tests.||||<0.001
82402061|NCT02754518|164513143|OTHER|||||||0.82||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.82
82402062|NCT02754518|164513144|OTHER||||||<|0.001||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||<0.001
82402063|NCT02754518|164513145|OTHER|||||||0.01||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.01
82402064|NCT02754518|164513146|OTHER|||||||0.11||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.11
82402065|NCT02754518|164513147|OTHER|||||||0.17||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.17
82402066|NCT02754518|164513148|OTHER|||||||0.035||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.035
82402067|NCT02754518|164513149|OTHER|||||||0.059||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.059
82445741|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.81|||||TWO_SIDED|95.0|19.5|37.76|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||37.76|19.50|
82530727|NCT04159415|164758391|SUPERIORITY||Adjusted Mean Difference|17.8|STANDARD_ERROR_OF_MEAN|43.6|||TWO_SIDED|95.0|-67.6|103.2|||||Combined estimate for adjusted mean difference (SE) vs Placebo obtained by combining adjusted means and SE from robust regression model analyses of the different imputed data sets.|||103.2|-67.6|
82646007|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||<|0.0001|TWO_SIDED|95.0|1.16|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.43|1.16|<0.0001
82530728|NCT00856661|164758392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.229|TWO_SIDED|95.0|0.79|2.64|||Regression, Logistic|If no assessment was available for last observation carried forward after baseline, the mRS score was set to 5 if alive, or 6, if otherwise = death||All patients who were treated and had at least one valid post-baseline assessment of the mRS. As death is a valid outcome on the mRS, patients who died within 90 days after IMP administration were included.||2.64|0.79|0.2290
82646008|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0008|TWO_SIDED|95.0|1.08|1.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.32|1.08|0.0008
82402068|NCT02754518|164513150|OTHER|||||||0.054||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.054
82402069|NCT02754518|164513151|OTHER|||||||0.28||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.28
82402070|NCT02754518|164513152|OTHER|||||||0.002||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.002
82402071|NCT02754518|164513153|OTHER|||||||0.008||||||P-Values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.008
82402072|NCT02754518|164513154|OTHER|||||||0.005||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.005
82402073|NCT02754518|164513155|OTHER|||||||0.056||||||P-values are not adjusted for multiple comparisons. Tests were two-tailed, considered statistically significant with a p-value \<0.05, and conducted using STATA MP version 15 (College Station, TX).|Sign test|||Primary outcome was presented at baseline and 1-year as medians (interquartile range) based upon the Shapiro-Wilks test of normality, and then analyzed with Wilcoxon signed-rank test.||||0.056
82402074|NCT00397189|164513174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|STANDARD_DEVIATION|47.0|<|0.05|TWO_SIDED|95.0|-25.3|-6.0|||ANCOVA|||The analysis was a comparison of sleep latency as measured by the sleep diary at Visit 3 in the ITT 65-80 population, using a linear regression model with terms for treatment (Circadin® 2mg vs. Placebo) and baseline sleep latency.||-6|-25.3|<0.05
82402075|NCT03410992|164513176|SUPERIORITY||Odds Ratio (OR)|496.318|||<|0.001|TWO_SIDED|95.0|82.798|2975.086||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||2975.086|82.798|<0.001
82402076|NCT03410992|164513177|SUPERIORITY||Odds Ratio (OR)|657.255|||<|0.001|TWO_SIDED|95.0|105.792|4083.333||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||4083.333|105.792|<0.001
82402077|NCT03410992|164513178|SUPERIORITY||Odds Ratio (OR)|220.038|||<|0.001|TWO_SIDED|95.0|28.757|1683.639||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||1683.639|28.757|<0.001
82402078|NCT03410992|164513179|SUPERIORITY||Odds Ratio (OR)|224.744|||<|0.001|TWO_SIDED|95.0|30.13|1676.425||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||1676.425|30.130|<0.001
82402079|NCT03410992|164513180|SUPERIORITY||Odds Ratio (OR)|316.641|||<|0.001|TWO_SIDED|95.0|39.423|2543.254||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||2543.254|39.423|<0.001
82402080|NCT03410992|164513181|SUPERIORITY||Odds Ratio (OR)|34.325|||<|0.001|TWO_SIDED|95.0|14.22|82.856||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||82.856|14.220|<0.001
82402081|NCT03410992|164513182|SUPERIORITY||Odds Ratio (OR)|43.497|||<|0.001|TWO_SIDED|95.0|15.728|120.295||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||120.295|15.728|<0.001
82402082|NCT03410992|164513183|SUPERIORITY||Odds Ratio (OR)|60.946|||<|0.001|TWO_SIDED|95.0|20.56|180.669||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haensze (CMH) test with region and prior biologic exposure as stratification variables.||180.669|20.560|<0.001
82445742|NCT02986854|164599954|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.32|||||TWO_SIDED|95.0|-2.56|1.86|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.86|-2.56|
82445743|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.78|||||TWO_SIDED|95.0|16.23|38.27|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||38.27|16.23|
82445744|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.4|||||TWO_SIDED|95.0|8.78|31.03|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||31.03|8.78|
82445745|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|24.14|||||TWO_SIDED|95.0|13.28|33.86|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.86|13.28|
82445746|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.37|||||TWO_SIDED|95.0|-0.76|15.42|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||15.42|-0.76|
82445747|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|27.08|||||TWO_SIDED|95.0|11.04|42.14|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||42.14|11.04|
82646009|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.019|TWO_SIDED|95.0|1.03|1.33|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.33|1.03|0.0190
82646010|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.3366|TWO_SIDED|95.0|0.94|1.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.21|0.94|0.3366
82530729|NCT00856661|164758393|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9401|TWO_SIDED|95.0|0.59|1.62|||Regression, Logistic|||||1.62|0.59|0.9401
82445748|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|16.39|||||TWO_SIDED|95.0|0.04|31.9|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||31.90|0.04|
82445749|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.85|||||TWO_SIDED|95.0|6.73|36.11|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||36.11|6.73|
82445750|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|10.69|||||TWO_SIDED|95.0|-0.42|21.6|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||21.60|-0.42|
82445751|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|44.4|||||TWO_SIDED|95.0|28.65|58.93|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||58.93|28.65|
82445752|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.9|||||TWO_SIDED|95.0|33.45|63.13|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||63.13|33.45|
82445753|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|46.61|||||TWO_SIDED|95.0|31.52|60.59|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||60.59|31.52|
82445754|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-4.5|||||TWO_SIDED|95.0|-11.84|2.69|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||2.69|-11.84|
82445755|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.9|||||TWO_SIDED|95.0|7.53|21.22|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||21.22|7.53|
82445756|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.55|||||TWO_SIDED|95.0|7.1|20.89|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||20.89|7.10|
82530730|NCT00856661|164758394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.5076|TWO_SIDED|95.0|0.68|2.18|||Regression, Logistic|||All patients treated, who had at least one valid post-baseline assessment of the mRS and with a baseline NIHSS score of 8 to 24. If no assessment was available for last observation carried forward after baseline, the mRS score was set to 5 if the patient was known to be alive, or 6, if otherwise = dead.||2.18|0.68|0.5076
82646011|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0001|TWO_SIDED|95.0|1.09|1.31|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.31|1.09|0.0001
82445757|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|12.73|||||TWO_SIDED|95.0|7.34|21.05|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||21.05|7.34|
82402083|NCT03410992|164513184|SUPERIORITY||Odds Ratio (OR)|158.0|||<|0.001|TWO_SIDED|95.0|49.263|506.745||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||506.745|49.263|<0.001
82576216|NCT02209181|164862043|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.01|3.02||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.02|1.01|<0.001
82402084|NCT03410992|164513185|SUPERIORITY||Odds Ratio (OR)|45.192|||<|0.001|TWO_SIDED|95.0|18.622|109.672||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||109.672|18.622|<0.001
82402085|NCT03410992|164513185|SUPERIORITY||Odds Ratio (OR)|49.297|||<|0.001|TWO_SIDED|95.0|18.887|128.673||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||128.673|18.887|<0.001
82402086|NCT03410992|164513185|SUPERIORITY||Odds Ratio (OR)|47.406|||<|0.001|TWO_SIDED|95.0|22.087|101.75||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: Bimekizumab/Placebo calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables. This statistical analysis is not controlled for multiplicity and is only nominal.||101.750|22.087|<0.001
82402087|NCT01100723|164513195|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with PTH values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
82402088|NCT01100723|164513196|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with phosphorus values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||<0.05
82402089|NCT01100723|164513197|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with PTH values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
82402090|NCT01100723|164513198|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with phosphorus values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
82402091|NCT01100723|164513199|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Number of subjects meeting targets were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects with Ca values in the target range was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
82402092|NCT01100723|164513200|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||McNemar|||Proportion of subjects on specified medications were compared to the same subjects baseline values using the McNemar test for paired longitudinal data. For the 1 year analysis, the proportion of subjects on the specified medications was calculated at 1 year and that was compared to the proportion of the same subjects who were in target at baseline.||||< 0.05
82402093|NCT00436826|164513243|SUPERIORITY||Relative Risk|0.37|||<|0.001|TWO_SIDED|95.0|0.22|0.63|||Wald Chi-square|||||0.63|0.22|<0.001
82402094|NCT04550364|164513262|OTHER|Semi-structured interview, background information, DSM 5 diagnosis and ED symptoms.||||||||||||||||23 of 24 women were used ideal type analysis as the methods. EDE-Q and DSM 5 diagnosis were measured.|Ideal type analysis as main method of analysis|||
82402095|NCT04550364|164513263|OTHER|Interpretative phenomenological analysis (IPA)||||||||||||||||of the 24 mothers there were 7 of them that had undergone In vitro fertilization. These women were interviewed twice and IPA were used in analysis the material.|IPA|||
82402096|NCT04550364|164513264|OTHER|Grounded theory was used analysis method. 5 distinct ED trajectories into motherhood were identified based on the womens experiences from pregnancy to postpartum.||||||||||||||||This study was based on interviews conducted with 24 participants during pregnancy and postpartum. Semi-structured interview with 24 women at two time points: 1. During pregnancy and 2. 4-6 months after birth. DSM 5 diagnosis at both time points were also assessed and symptoms at eating disorders through EDE-Q.|Qualitative methods using Ground theory|||
82402097|NCT05464420|164513331|OTHER|Estimated difference in percentage and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|6.0|||||TWO_SIDED|95.0|3.0|8.6||||||Injection site erythema: V116 Combined Lots - PPSV23||8.6|3.0|
82402098|NCT05464420|164513331|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|12.6|||||TWO_SIDED|95.0|8.0|17.3||||||Injection site pain: V116 Combined Lots - PPSV23||17.3|8.0|
82402099|NCT05464420|164513331|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|5.6|||||TWO_SIDED|95.0|2.6|8.2||||||Injection site swelling: V116 Combined Lots - PPSV23||8.2|2.6|
82646012|NCT01236053|165007134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.0464|TWO_SIDED|95.0|1.0|1.2|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.20|1.00|0.0464
82646013|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.1194|TWO_SIDED|95.0|0.97|1.26|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.26|0.97|0.1194
82402100|NCT05464420|164513333|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|1.4|||||TWO_SIDED|95.0|-3.2|6.0||||||Fatigue: V116 Combined Lots - PPSV23||6.0|-3.2|
82402101|NCT05464420|164513333|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|5.8|||||TWO_SIDED|95.0|1.6|9.7||||||Headache: V116 Combined Lots - PPSV23||9.7|1.6|
82402102|NCT05464420|164513333|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|7.6|||||TWO_SIDED|95.0|4.5|10.5||||||Myalgia: V116 Combined Lots - PPSV23||10.5|4.5|
82402103|NCT05464420|164513333|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|0.8|||||TWO_SIDED|95.0|-1.0|2.1||||||Pyrexia: V116 Combined Lots - PPSV23||2.1|-1.0|
82402104|NCT05464420|164513335|OTHER|Estimated difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|Estimated difference in percentage|0.0|||||TWO_SIDED|95.0|-0.7|0.2||||||Vaccine-related SAEs: V116 Combined Lots - PPSV23||0.2|-0.7|
82402105|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 3: GMT Ratio V116 Lot 1/ V116 Lot 2||1.24|0.96|<0.001
82402106|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/ V116 Lot 3|Serotype 3: GMT Ratio V116 Lot 1/ V116 Lot 3||1.17|0.90|<0.001
82402107|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.83|1.06||Identical p-values for the lower and upper bounds.|cLDA Model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/ V116 Lot 3|Serotype 3: GMT Ratio V116 Lot 2/ V116 Lot 3||1.06|0.83|<0.001
82402108|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.97|1.35||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 6A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.35|0.97|<0.001
82402109|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.88|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 6A: GMT Ratio V116 Lot 1/ V116 Lot 3||1.22|0.88|<0.001
82402110|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.91|||<|0.001|TWO_SIDED|95.0|0.77|1.06||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 6A: GMT Ratio V116 Lot 2/ V116 Lot 3||1.06|0.77|<0.001
82402111|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.16|||<|0.001|TWO_SIDED|95.0|1.01|1.34||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 7F: V116 Lot 1/ V116 Lot 2||1.34|1.01|<0.001
82402112|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.94|1.25||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 7F: GMT Ratio V116 Lot 1/ V116 Lot 3||1.25|0.94|<0.001
82530731|NCT00856661|164758395|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.6146|TWO_SIDED|95.0|0.72|1.75|||Regression, Logistic|||all patients treated, who had at least one valid post-baseline assessment of the mRS. As death is a valid outcome on the mRS, patients who died within 90 days after IMP administration were included||1.75|0.72|0.6146
82530732|NCT01233609|164758456|SUPERIORITY||Mean Difference (Net)|-150.43|STANDARD_ERROR_OF_MEAN|71.37||0.035|TWO_SIDED||||||Mixed Models Analysis|degrees of freedom = 830|Right eye and Left Eye within each of the 2 treatment groups (Placebo and Valproic Acid) were combined to estimate the difference|||||0.035
82445758|NCT02986854|164599955|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.36|||||TWO_SIDED|95.0|-0.96|1.99|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.99|-0.96|
82530733|NCT01233609|164758457|SUPERIORITY|||||||0.581|||||||Mixed Models Analysis|||||||0.581
82530734|NCT01233609|164758458|SUPERIORITY|||||||0.409|||||||Wilcoxon (Mann-Whitney)|||||||0.409
82530735|NCT01233609|164758459|SUPERIORITY|||||||0.229|||||||Wilcoxon (Mann-Whitney)|||||||0.229
82530736|NCT01861457|164758461|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82530737|NCT01861457|164758462|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82445759|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.14|||||TWO_SIDED|95.0|3.46|25.39|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||25.39|3.46|
82445760|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.66|||||TWO_SIDED|95.0|5.0|26.89|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||26.89|5.00|
82445761|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.89|||||TWO_SIDED|95.0|4.91|25.62|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||25.62|4.91|
82445762|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.52|||||TWO_SIDED|95.0|-8.51|5.5|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||5.50|-8.51|
82445763|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.44|||||TWO_SIDED|95.0|5.25|34.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||34.83|5.25|
82445764|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.11|||||TWO_SIDED|95.0|5.88|35.5|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||35.50|5.88|
82445765|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.77|||||TWO_SIDED|95.0|6.53|34.58|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||34.58|6.53|
82445766|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.66|||||TWO_SIDED|95.0|-9.67|8.4|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||8.40|-9.67|
82646014|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.7004|TWO_SIDED|95.0|0.9|1.17|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.17|0.90|0.7004
82445767|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.2|||||TWO_SIDED|95.0|16.78|45.45|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||45.45|16.78|
82445768|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.22|||||TWO_SIDED|95.0|21.29|49.2|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||49.20|21.29|
82445769|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|32.17|||||TWO_SIDED|95.0|19.3|47.13|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||47.13|19.30|
82445770|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-4.02|||||TWO_SIDED|95.0|-9.45|0.74|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||0.74|-9.45|
82445771|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.95|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||23.95|9.28|
82445772|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.95|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||23.95|9.28|
82445773|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.22|||||TWO_SIDED|95.0|9.28|23.94|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||23.94|9.28|
82445774|NCT02986854|164599956|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.0|||||TWO_SIDED|95.0|-1.31|1.35|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.35|-1.31|
82445775|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.75|||||TWO_SIDED|95.0|10.19|32.25|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||32.25|10.19|
82445776|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.72|||||TWO_SIDED|95.0|3.15|25.29|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||25.29|3.15|
82402113|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.81|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 7F: GMT Ratio V116 Lot 2/ V116 Lot 3||1.07|0.81|<0.001
82402114|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.92|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 8 V116 Lot 1/V116 Lot 2||1.16|0.92|<0.001
82402115|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.93|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/ V116 Lot 3|Serotype 8: GMT Ratio V116 Lot 1/ V116 Lot 3||1.18|0.93|<0.001
82402116|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.9|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/ V116 Lot 3|Serotype 8: GMT Ratio V116 Lot 2/ V116 Lot 3||1.14|0.90|<0.001
82402117|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 9N: GMT Ratio V116 Lot 1/ V116 Lot 2||1.26|0.94|<0.001
82402118|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.87|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 9N: GMT Ratio V116 Lot 1/ V116 Lot 3||1.17|0.87|<0.001
82402119|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.8|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 9N: GMT Ratio V116 Lot 2/V116 Lot 3||1.07|0.80|<0.001
82402120|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 10A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.11|0.85|<0.001
82402121|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 10A: GMT Ratio V116 Lot 1/ V116 Lot 3||1.18|0.91|<0.001
82402122|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.93|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 10A: GMT Ratio V116 Lot 2/V116 Lot 3||1.21|0.93|<0.001
82445777|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.27|||||TWO_SIDED|95.0|7.44|27.92|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||27.92|7.44|
82530738|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.95|-0.39||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 10 mg vs. Placebo~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.39|-0.95|<0.0001
82402123|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 11A: GMT Ratio V116 Lot 1/ V116 Lot 2||1.11|0.84|<0.001
82402124|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.87|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 11A: GMT Ratio V116 Lot 1/V116 Lot 3||1.16|0.87|<0.001
82646015|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.0001|TWO_SIDED|95.0|1.26|1.49|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.49|1.26|<0.0001
82646016|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|||<|0.0001|TWO_SIDED|95.0|1.16|1.38|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.38|1.16|<0.0001
82402125|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.9|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 11A: GMT Ratio V116 Lot 2/V116 Lot 3||1.20|0.90|<0.001
82402126|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.96|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 12F: GMT Ratio V116 Lot 1/V116 Lot 2||1.26|0.96|<0.001
82402127|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 12F: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.89|<0.001
82530739|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-1.01|-0.44||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 5 mg vs. Placebo~missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.44|-1.01|<0.0001
82530740|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0055||95.0|-0.68|-0.12||There was no adjustment for multiple testing, however a hierarchy approach to control for the Type-I error was used. If the 10mg was not successful, any analysis of the 5mg will be descriptive, and similarly for the next step for the 1mg.|Pairwise comparison based on ANCOVA|||"Linagliptin 1 mg vs. Placebo~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)"||-0.12|-0.68|0.0055
82576217|NCT02209181|164862044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.51||0.338|TWO_SIDED|95.0|-0.52|1.51||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.51|-0.52|0.338
82402128|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.81|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 12F: GMT Ratio V116 Lot 2/V116 Lot 3||1.07|0.81|<0.001
82402129|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.89|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 15A: GMT Ratio V116 Lot 1/V116 Lot 2||1.22|0.89|<0.001
82402130|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.86|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 15A: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.86|<0.001
82402131|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 15A: GMT Ratio V116 Lot 2/V116 Lot 3||1.12|0.82|<0.001
82402132|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.95|1.38||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 15C: GMT Ratio V116 Lot 1/V116 Lot 2||1.38|0.95|<0.001
82402133|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.97|1.42||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 15C: GMT Ratio V116 Lot 1/V116 Lot 3||1.42|0.97|<0.001
82530741|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.99|-0.46|||Pairwise comparison based on ANCOVA|||"Placebo vs. Linagliptin 10 mg~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using Last Observation Carried Forward (LOCF)."||-0.46|-0.99|<0.0001
82576218|NCT02209181|164862044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.51||0.299|TWO_SIDED|95.0|-0.47|1.54||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.54|-0.47|0.299
82576219|NCT02209181|164862044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.72|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.7|3.73||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.73|1.70|<0.001
82646017|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.0134|TWO_SIDED|95.0|1.03|1.34|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.34|1.03|0.0134
82530742|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-1.02|-0.48|||Pairwise comparison based on ANCOVA|||"Linagliptin 5 mg vs. Placebo~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using last observation carried forward (LOCF)."||-0.48|-1.02|<0.0001
82530743|NCT00309608|164758463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.14||0.0049||95.0|-0.66|-0.12|||Pairwise comparison based on ANCOVA|||"Linagliptin 1 mg vs. Placebo~Analysis additionally adjusted for previous anti-diabetic medication.~Missing endpoints after 12 weeks of treatment were replaced using last observation carried forward (LOCF)."||-0.12|-0.66|0.0049
82646018|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.1592|TWO_SIDED|95.0|0.96|1.25|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.25|0.96|0.1592
82402134|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.85|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 15C: GMT Ratio V116 Lot 2/V116 Lot 3||1.23|0.85|<0.001
82402135|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 16F: GMT Ratio V116 Lot 1/V116 Lot 2||1.11|0.84|<0.001
82402136|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 16F: GMT Ratio V116 Lot 1/V116 Lot 3||1.11|0.84|<0.001
82402137|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.87|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 16F: GMT Ratio V116 Lot 2/V116 Lot 3||1.15|0.87|<0.001
82402138|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 17F: GMT Ratio V116 Lot 1/V116 Lot 2||1.11|0.85|<0.001
82402139|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 17F: GMT Ratio V116 Lot 1/V116 Lot 3||1.17|0.89|<0.001
82402140|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.92|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 17F: GMT Ratio V116 Lot 2/V116 Lot 3||1.20|0.92|<0.001
82402141|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.91|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 19A: GMT Ratio V116 Lot 1/V116 Lot 2||1.15|0.91|<0.001
82402142|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 19A: GMT Ratio V116 Lot 1/V116 Lot 3||1.07|0.84|<0.001
82402143|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.93|||<|0.001|TWO_SIDED|95.0|0.82|1.04||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 19A: GMT Ratio V116 Lot 2/V116 Lot 3||1.04|0.82|<0.001
82402144|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.84|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 20A: GMT Ratio V116 Lot 1/V116 Lot 2||1.14|0.84|<0.001
82445778|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.03|||||TWO_SIDED|95.0|-1.2|15.17|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||15.17|-1.20|
82530744|NCT00309608|164758464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|18.575||||0.0054|TWO_SIDED|95.0|2.367|145.781|||Regression, Logistic|||Linagliptin 10 mg vs. Placebo||145.781|2.367|0.0054
82530745|NCT00309608|164758464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.715||||0.0214|TWO_SIDED|95.0|1.439|95.351|||Regression, Logistic|||Linagliptin 5 mg vs. Placebo||95.351|1.439|0.0214
82530746|NCT00309608|164758464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.776||||0.0167|TWO_SIDED|95.0|1.586|102.895|||Regression, Logistic|||Linagliptin 1 mg vs. Placebo||102.895|1.586|0.0167
82402145|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.07|||<|0.001|TWO_SIDED|95.0|0.92|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 20A: GMT Ratio V116 Lot 1/V116 Lot 3||1.24|0.92|<0.001
82402146|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.27||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 20A: GMT Ratio V116 Lot 2/V116 Lot 3||1.27|0.94|<0.001
82402147|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.93|1.29||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 22F: GMT Ratio V116 Lot 1/V116 Lot 2||1.29|0.93|<0.001
82402148|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.87|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 22F: GMT Ratio V116 Lot 1/V116 Lot 3||1.21|0.87|<0.001
82402149|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.8|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 22F: GMT Ratio V116 Lot 2/V116 Lot 3||1.10|0.80|<0.001
82402150|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.17||Identical p-values for the lower and upper bounds.|cDLA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 23A: GMT Ratio V116 Lot 1/V116 Lot 2||1.17|0.85|<0.001
82402151|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.86|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 23A: GMT Ratio V116 Lot 1/V116 Lot 3||1.19|0.86|<0.001
82402152|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 23A: GMT Ratio V116 Lot 2/V116 Lot 3||1.19|0.87|<0.001
82402153|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|1.0|1.48||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 23B: GMT Ratio V116 Lot 1/V116 Lot 2||1.48|1.00|<0.001
82402154|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.8|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 23B: GMT Ratio V116 Lot 1/V116 Lot 3||1.19|0.80|<0.001
82402155|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.66|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 23B: GMT Ratio V116 Lot 2/V116 Lot 3||0.97|0.66|<0.001
82402156|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 24F: GMT Ratio V116 Lot 1/V116 Lot 2||1.18|0.88|<0.001
82402157|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 24F: GMT Ratio V116 Lot 1/V116 Lot 3||1.18|0.88|<0.001
82402158|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.87|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 24F: GMT Ratio V116 Lot 2/V116 Lot 3||1.16|0.87|<0.001
82445779|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.91|||||TWO_SIDED|95.0|5.57|36.37|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||36.37|5.57|
82646019|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.24|1.47|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.47|1.24|<0.0001
82402159|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 31: GMT Ratio V116 Lot 1/V116 Lot 2||1.20|0.87|<0.001
82402160|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.87|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 31: GMT Ratio V116 Lot 1/V116 Lot 3||1.20|0.87|<0.001
82402161|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 31: GMT Ratio V116 Lot 2/V116 Lot 3||1.17|0.85|<0.001
82402162|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.11|||<|0.001|TWO_SIDED|95.0|0.93|1.33||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 33F: GMT Ratio V116 Lot 1/V116 Lot 2||1.33|0.93|<0.001
82402163|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.9|1.29||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 33F: GMT Ratio V116 Lot 1/V116 Lot 3||1.29|0.90|<0.001
82402164|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.81|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 33F: GMT Ratio V116 Lot 2/V116 Lot 3||1.16|0.81|<0.001
82402165|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.91|1.17||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 2|Serotype 35B: GMT Ratio V116 Lot 1/V116 Lot 2||1.17|0.91|<0.001
82402166|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.91|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 1/V116 Lot 3|Serotype 35B: GMT Ratio V116 Lot 1/V116 Lot 3||1.18|0.91|<0.001
82402167|NCT05464420|164513336|EQUIVALENCE|Equivalence can be concluded if both the lower tailed and upper tailed p-values are \< 0.025.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.89|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P value for testing the lower bound of the 95% CI for GMT ratio was \>0.5. P value for testing the upper bound of the 95% CI for GMT ratio was \<2.0.|V116 Lot 2/V116 Lot 3|Serotype 35B: GMT Ratio V116 Lot 2/V116 Lot 3||1.14|0.89|<0.001
82402168|NCT05464420|164513337|OTHER||GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||V116 Combined Lots/PPSV23|Serotype 3: GMT Ratio V116 Combined Lots/ PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.03|0.84|
82402169|NCT05464420|164513337|OTHER||GMT Ratio|3.48|||||TWO_SIDED|95.0|3.01|4.02|||||V116 Combined Lots/PPSV23|Serotype 6A: GMT Ratio V116 Combined Lots/ PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.02|3.01|
82402170|NCT05464420|164513337|OTHER||GMT Ratio|1.33|||||TWO_SIDED|95.0|1.18|1.49|||||V116 Combined Lots/PPSV23|Serotype 7F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.49|1.18|
82402171|NCT05464420|164513337|OTHER||GMT Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.93|||||V116 Combined Lots/PPSV23|Serotype 8: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|0.93|0.77|
82402172|NCT05464420|164513337|OTHER||GMT Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.08|||||V116 Combined Lots/PPSV23|Serotype 9N: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.08|0.85|
82402173|NCT05464420|164513337|OTHER||GMT Ratio|1.32|||||TWO_SIDED|95.0|1.18|1.48|||||V116 Combined Lots/PPSV23|Serotype 10A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.48|1.18|
82646020|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25|||<|0.0001|TWO_SIDED|95.0|1.14|1.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.36|1.14|<0.0001
82402174|NCT05464420|164513337|OTHER||GMT Ratio|1.74|||||TWO_SIDED|95.0|1.56|1.95|||||V116 Combined Lots/PPSV23|Serotype 11A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.95|1.56|
82402175|NCT05464420|164513337|OTHER||GMT Ratio|1.38|||||TWO_SIDED|95.0|1.22|1.56|||||V116 Combined Lots/PPSV23|Serotype 12F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.56|1.22|
82402176|NCT05464420|164513337|OTHER||GMT Ratio|4.03|||||TWO_SIDED|95.0|3.56|4.56|||||V116 Combined Lots/PPSV23|Serotype 15A: GMT Ratio v116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.56|3.56|
82402177|NCT05464420|164513337|OTHER||GMT Ratio|2.9|||||TWO_SIDED|95.0|2.49|3.38|||||V116 Combined Lots/PPSV23|Serotype 15C: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|3.38|2.49|
82402178|NCT05464420|164513337|OTHER||GMT Ratio|3.72|||||TWO_SIDED|95.0|3.32|4.17||||||Serotype 16F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.17|3.32|
82402179|NCT05464420|164513337|OTHER||GMT Ratio|1.71|||||TWO_SIDED|95.0|1.53|1.91|||||V116 Combined Lots/PPSV23|Serotype 17F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.91|1.53|
82530747|NCT00309608|164758464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|31.36||||0.001|TWO_SIDED|95.0|4.063|242.028|||Regression, Logistic|||Glimepiride vs. Placebo||242.028|4.063|0.0010
82530748|NCT00309608|164758465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.5|STANDARD_ERROR_OF_MEAN|6.07|<|0.0001||95.0|-41.4|-17.5|||Pairwise comparison based on ANCOVA|||Linagliptin 10mg vs. Placebo||-17.5|-41.4|<0.0001
82402180|NCT05464420|164513337|OTHER||GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03|||||V116 Combined Lots/PPSV23|Serotype 19A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.03|0.84|
82402181|NCT05464420|164513337|OTHER||GMT Ratio|1.47|||||TWO_SIDED|95.0|1.3|1.67|||||V116 Combined Lots/PPSV23|Serotype 20A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.67|1.30|
82402182|NCT05464420|164513337|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.17|1.53|||||V116 Combined Lots/PPSV23|Serotype 22F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|1.53|1.17|
82402183|NCT05464420|164513337|OTHER||GMT Ratio|7.98|||||TWO_SIDED|95.0|6.84|9.31|||||V116 Combined Lots/PPSV23|Serotype 23A: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|9.31|6.84|
82402184|NCT05464420|164513337|OTHER||GMT Ratio|23.72|||||TWO_SIDED|95.0|19.71|28.55|||||V116 Combined Lots/PPSV23|Serotype 23B: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|28.55|19.71|
82402185|NCT05464420|164513337|OTHER||GMT Ratio|19.55|||||TWO_SIDED|95.0|16.7|22.88|||||V116 Combined Lots/PPSV23|Serotype 24F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|22.88|16.70|
82402186|NCT05464420|164513337|OTHER||GMT Ratio|13.55|||||TWO_SIDED|95.0|11.68|15.71|||||V116 Combined Lots/PPSV23|Serotype 31: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|15.71|11.68|
82402187|NCT05464420|164513337|OTHER||GMT Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.97||||||Serotype 33F: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|0.97|0.73|
82402188|NCT05464420|164513337|OTHER||GMT Ratio|3.71|||||TWO_SIDED|95.0|3.36|4.09|||||V116 Combined Lots/PPSV23|Serotype 35B: GMT Ratio V116 Combined Lots / PPSV23|GMT Ratio and 95% CI were estimated from a cLDA model.|4.09|3.36|
82402189|NCT05464420|164513338|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.88|1.09|||||V116 Lot 1/V116 Lot 2|Serotype 3: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.09|0.88|
82402190|NCT05464420|164513338|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.05|||||V116 Lot 1/V116 Lot 3|Serotype 3: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.85|
82402191|NCT05464420|164513338|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.87|1.08|||||V116 Lot 2/V116 Lot 3|Serotype 3: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.08|0.87|
82402192|NCT05464420|164513338|OTHER||GMC Ratio|1.12|||||TWO_SIDED|95.0|0.95|1.32|||||V116 Lot 1/V116 Lot 2|Serotype 6A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.32|0.95|
82402193|NCT05464420|164513338|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.2|||||V116 Lot 1/V116 Lot 3|Serotype 6A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.20|0.86|
82402194|NCT05464420|164513338|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.77|1.07|||||V116 Lot 2/V116 Lot 3|Serotype 6A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.77|
82402195|NCT05464420|164513338|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||||V116 Lot 1/V116 Lot 2|Serotype 7F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.85|
82402196|NCT05464420|164513338|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.9|1.18|||||V116 Lot 1/V116 Lot 3|Serotype 7F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.90|
82402197|NCT05464420|164513338|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.93|1.21|||||V116 Lot 2/V116 Lot 3|Serotype 7F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.93|
82402198|NCT05464420|164513338|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.12|||||V116 Lot 1/V116 Lot 2|Serotype 8: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.12|0.86|
82402199|NCT05464420|164513338|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 8: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
82402200|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 8: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.89|
82402201|NCT05464420|164513338|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 9N: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
82402202|NCT05464420|164513338|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.03|||||V116 Lot 1/V116 Lot 3|Serotype 9N: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.03|0.77|
82402203|NCT05464420|164513338|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.74|0.98|||||V116 Lot 2/V116 Lot 3|Serotype 9N: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|0.98|0.74|
82402204|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||V116 Lot 1/V116 Lot 2|Serotype 10A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.87|
82402205|NCT05464420|164513338|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.83|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 10A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.83|
82402206|NCT05464420|164513338|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.11|||||V116 Lot 2/V116 Lot 3|Serotype 10A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.82|
82530749|NCT00309608|164758465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.92|STANDARD_ERROR_OF_MEAN|6.16|<|0.0001||95.0|-47.0|-22.8|||Pairwise comparison based on ANCOVA|||Linagliptin 5mg vs. Placebo||-22.8|-47.0|<0.0001
82530750|NCT00309608|164758465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.95|STANDARD_ERROR_OF_MEAN|6.13||0.0022||95.0|-31.0|-6.87|||Pairwise comparison based on ANCOVA|||Linagliptin 1 mg vs. Placebo||-6.87|-31.0|0.0022
82530751|NCT02023879|164758483|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-56.4|||<|0.0001|TWO_SIDED|95.0|-62.9|-49.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Alirocumab 150 mg Q4W/up to 150 mg Q2W was compared to placebo group using an appropriate contrast statement.||-49.9|-62.9|<0.0001
82402207|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||V116 Lot 1/V116 Lot 2|Serotype 11A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.90|
82402208|NCT05464420|164513338|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 11A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.91|
82402209|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.9|1.14|||||V116 Lot 2/V116 Lot 3|Serotype 11A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.90|
82402210|NCT05464420|164513338|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.12|||||V116 Lot 1/V116 Lot 2|Serotype 12F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.12|0.80|
82402211|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.18|||||V116 Lot 1/V116 Lot 3|Serotype 12F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.84|
82402212|NCT05464420|164513338|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.89|1.25|||||V116 Lot 2/V116 Lot 3|Serotype 12F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.25|0.89|
82402213|NCT05464420|164513338|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 15A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
82402214|NCT05464420|164513338|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.83|1.11|||||V116 Lot 1/V116 Lot 3|Serotype 15A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.83|
82402215|NCT05464420|164513338|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05|||||V116 Lot 2/V116 Lot 3|Serotype 15A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.80|
82402216|NCT05464420|164513338|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.91|1.23|||||V116 Lot 1/V116 Lot 2|Serotype 15C: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.23|0.91|
82402217|NCT05464420|164513338|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.89|1.2|||||V116 Lot 1/V116 Lot 3|Serotype 15C: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.20|0.89|
82402218|NCT05464420|164513338|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.14|||||V116 Lot 2/V116 Lot 3|Serotype 15C: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.84|
82402219|NCT05464420|164513338|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.03|||||V116 Lot 1/V116 Lot 2|Serotype 16F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.03|0.78|
82402220|NCT05464420|164513338|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.04|||||V116 Lot 1/V116 Lot 3|Serotype 16F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.04|0.78|
82445780|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.46|||||TWO_SIDED|95.0|6.05|37.0|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||37.00|6.05|
82402221|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.88|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 16F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.88|
82402222|NCT05464420|164513338|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.21|||||V116 Lot 1/V116 Lot 2|Serotype 17F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|0.91|
82402223|NCT05464420|164513338|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.23|||||V116 Lot 1/V116 Lot 3|Serotype 17F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.23|0.93|
82402224|NCT05464420|164513338|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.88|1.17|||||V116 Lot 2/V116 Lot 3|Serotype 17F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.88|
82402225|NCT05464420|164513338|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11|||||V116 Lot 1/V116 Lot 2|Serotype 19A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.11|0.85|
82402226|NCT05464420|164513338|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.04|||||V116 Lot 1/V116 Lot 3|Serotype 19A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.04|0.79|
82402227|NCT05464420|164513338|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.82|1.07|||||V116 Lot 2/V116 Lot 3|Serotype 19A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.82|
82402228|NCT05464420|164513338|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.1|||||V116 Lot 1/V116 Lot 2|Serotype 20A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.83|
82402229|NCT05464420|164513338|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||V116 Lot 1/V116 Lot 3|Serotype 20A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
82402230|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.88|1.16|||||V116 Lot 2/V116 Lot 3|Serotype 20A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.88|
82402231|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 22F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.87|
82402232|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.16|||||V116 Lot 1/V116 Lot 3|Serotype 22F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.87|
82402233|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.86|1.15|||||V116 Lot 2/V116 Lot 3|Serotype 22F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.86|
82402234|NCT05464420|164513338|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 23A: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.84|
82402235|NCT05464420|164513338|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.83|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 23A: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.83|
82402236|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.85|1.17|||||V116 Lot 2/V116 Lot 3|Serotype 23A: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.85|
82402237|NCT05464420|164513338|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.87|1.18|||||V116 Lot 1/V116 Lot 2|Serotype 23B: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.18|0.87|
82402238|NCT05464420|164513338|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||V116 Lot 1/V116 Lot 3|Serotype 23B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.07|0.79|
82402239|NCT05464420|164513338|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.05|||||V116 Lot 2/V116 Lot 3|Serotype 23B: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.05|0.77|
82402240|NCT05464420|164513338|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.13|||||V116 Lot 1/V116 Lot 2|Serotype 24F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.80|
82402241|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.19|||||V116 Lot 1/V116 Lot 3|Serotype 24F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.19|0.84|
82402242|NCT05464420|164513338|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.25|||||V116 Lot 2/V116 Lot 3|Serotype 24F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.25|0.88|
82402243|NCT05464420|164513338|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.77|1.0|||||V116 Lot 1/V116 Lot 2|Serotype 31: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.00|0.77|
82402244|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.14|||||V116 Lot 1/V116 Lot 3|Serotype 31: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.88|
82402245|NCT05464420|164513338|OTHER||GMC Ratio|1.14|||||TWO_SIDED|95.0|1.0|1.3|||||V116 Lot 2/V116 Lot 3|Serotype 31: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.30|1.00|
82402246|NCT05464420|164513338|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.16|||||V116 Lot 1/V116 Lot 2|Serotype 33F: GMC Ratio V116 Lot 1/ V116 Lot 2|GMC Ratio and 95% CI were estimated from a cLDA model.|1.16|0.89|
82402247|NCT05464420|164513338|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.15|||||V116 Lot 1/V116 Lot 3|Serotype 33F: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.15|0.88|
82402248|NCT05464420|164513338|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 2/V116 Lot 3|Serotype 33F: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
82402249|NCT05464420|164513338|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.9|1.17|||||V116 Lot 1/V116 Lot 2|Serotype 35B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.17|0.90|
82402250|NCT05464420|164513338|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||V116 Lot 1/V116 Lot 3|Serotype 35B: GMC Ratio V116 Lot 1/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
82402251|NCT05464420|164513338|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.1|||||V116 Lot 2/V116 Lot 3|Serotype 35B: GMC Ratio V116 Lot 2/ V116 Lot 3|GMC Ratio and 95% CI were estimated from a cLDA model.|1.10|0.85|
82402252|NCT05464420|164513339|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|1.01|1.21|||||V116 Combined Lots/PPSV23|Serotype 3: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.21|1.01|
82402253|NCT05464420|164513339|OTHER||GMC Ratio|3.91|||||TWO_SIDED|95.0|3.43|4.45|||||V116 Combined Lots/PPSV23|Serotype 6A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|4.45|3.43|
82402254|NCT05464420|164513339|OTHER||GMC Ratio|1.54|||||TWO_SIDED|95.0|1.38|1.72|||||V116 Combined Lots/PPSV23|Serotype 7F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.72|1.38|
82402255|NCT05464420|164513339|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.73|0.89|||||V116 Combined Lots/PPSV23|Serotype 8: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|0.89|0.73|
82402256|NCT05464420|164513339|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.14|||||V116 Combined Lots/PPSV23|Serotype 9N: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.14|0.91|
82402257|NCT05464420|164513339|OTHER||GMC Ratio|1.47|||||TWO_SIDED|95.0|1.3|1.66|||||V116 Combined Lots/PPSV23|Serotype 10A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.66|1.30|
82402258|NCT05464420|164513339|OTHER||GMC Ratio|1.38|||||TWO_SIDED|95.0|1.26|1.52|||||V116 Combined Lots/PPSV23|Serotype 11A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.52|1.26|
82402259|NCT05464420|164513339|OTHER||GMC Ratio|1.41|||||TWO_SIDED|95.0|1.23|1.62|||||V116 Combined Lots/PPSV23|Serotype 12F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.62|1.23|
82402260|NCT05464420|164513339|OTHER||GMC Ratio|6.82|||||TWO_SIDED|95.0|6.08|7.65|||||V116 Combined Lots/PPSV23|Serotype 15A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.65|6.08|
82402261|NCT05464420|164513339|OTHER||GMC Ratio|3.24|||||TWO_SIDED|95.0|2.86|3.67|||||V116 Combined Lots/PPSV23|Serotype 15C: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|3.67|2.86|
82402262|NCT05464420|164513339|OTHER||GMC Ratio|6.48|||||TWO_SIDED|95.0|5.83|7.19|||||V116 Combined Lots/PPSV23|Serotype 16F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.19|5.83|
82402263|NCT05464420|164513339|OTHER||GMC Ratio|1.85|||||TWO_SIDED|95.0|1.66|2.07|||||V116 Combined Lots/PPSV23|Serotype 17F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|2.07|1.66|
82402264|NCT05464420|164513339|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.98|1.22|||||V116 Combined Lots/PPSV23|Serotype 19A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.22|0.98|
82402265|NCT05464420|164513339|OTHER||GMC Ratio|1.53|||||TWO_SIDED|95.0|1.37|1.71|||||V116 Combined Lots/PPSV23|Serotype 20A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.71|1.37|
82402266|NCT05464420|164513339|OTHER||GMC Ratio|1.32|||||TWO_SIDED|95.0|1.17|1.49|||||V116 Combined Lots/PPSV23|Serotype 22F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|1.49|1.17|
82402267|NCT05464420|164513339|OTHER||GMC Ratio|8.14|||||TWO_SIDED|95.0|7.19|9.23|||||V116 Combined Lots/PPSV23|Serotype 23A: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|9.23|7.19|
82402268|NCT05464420|164513339|OTHER||GMC Ratio|5.74|||||TWO_SIDED|95.0|5.08|6.48|||||V116 Combined Lots/PPSV23|Serotype 23B: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|6.48|5.08|
82402269|NCT05464420|164513339|OTHER||GMC Ratio|14.47|||||TWO_SIDED|95.0|12.77|16.4|||||V116 Combined Lots/PPSV23|Serotype 24F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|16.40|12.77|
82646021|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.0131|TWO_SIDED|95.0|1.03|1.33|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.33|1.03|0.0131
82646022|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.2731|TWO_SIDED|95.0|0.95|1.22|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.22|0.95|0.2731
82530752|NCT02023879|164758484|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.7|||<|0.0001|TWO_SIDED|95.0|-65.6|-53.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-53.8|-65.6|<0.0001
82402270|NCT05464420|164513339|OTHER||GMC Ratio|9.55|||||TWO_SIDED|95.0|8.61|10.59|||||V116 Combined Lots/PPSV23|Serotype 31: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|10.59|8.61|
82402271|NCT05464420|164513339|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.73|0.91|||||V116 Combined Lots/PPSV23|Serotype 33F: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|0.91|0.73|
82402272|NCT05464420|164513339|OTHER||GMC Ratio|7.06|||||TWO_SIDED|95.0|6.41|7.77|||||V116 Combined Lots/PPSV23|Serotype 35B: GMC Ratio V116 Combined Lots/ PPSV23|GMC Ratio and 95% CI were estimated from a cLDA model.|7.77|6.41|
82402273|NCT05568797|164513386|NON_INFERIORITY|The non-inferiority is demonstrated if the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is less than or equal (\<=) 1.5.|GMT Ratio|1.32|||||TWO_SIDED|0.95|1.13|1.53|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Darwin/6/2021 H3N2 strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.53|1.13|
82402274|NCT05568797|164513386|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|1.04|||||TWO_SIDED|0.95|0.91|1.18|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Victoria/2570/2019 H1N1 influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.18|0.91|
82646023|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0012|TWO_SIDED|95.0|1.06|1.28|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.28|1.06|0.0012
82646024|NCT01236053|165007135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.1477|TWO_SIDED|95.0|0.98|1.17|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.17|0.98|0.1477
82402275|NCT05568797|164513386|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.97|||||TWO_SIDED|0.95|0.9|1.06|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Austria/1359417/2021 influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.06|0.90|
82402276|NCT05568797|164513386|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|1.04|||||TWO_SIDED|0.95|0.95|1.13|||||The comparison was done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the Flu vaccine administered alone, in terms of HI GMTs against the Flu B/Phuket/3073/2013 Yamagata influenza strain included in the FLU vaccine, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.13|0.95|
82402277|NCT05568797|164513387|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSV-A neutralizing antibody vaccine is \<=1.5.|GMT Ratio|0.99|||||TWO_SIDED|0.95|0.87|1.12|||||The comparison is done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group and the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-A neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.12|0.87|
82530753|NCT02023879|164758485|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.9|||<|0.0001|TWO_SIDED|95.0|-51.8|-38.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-38.1|-51.8|<0.0001
82646025|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.0369|TWO_SIDED|95.0|1.01|1.41|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||1.41|1.01|0.0369
82530754|NCT02023879|164758486|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-54.8|-41.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.9|-54.8|<0.0001
82530755|NCT02023879|164758487|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.5|||<|0.0001|TWO_SIDED|95.0|-61.1|-49.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.8|-61.1|<0.0001
82530756|NCT02023879|164758488|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.6|||<|0.0001|TWO_SIDED|95.0|-63.8|-53.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.4|-63.8|<0.0001
82530757|NCT02023879|164758489|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.4|||<|0.0001|TWO_SIDED|95.0|-52.4|-40.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-40.4|-52.4|<0.0001
82530758|NCT02023879|164758490|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.6|||<|0.0001|TWO_SIDED|95.0|-54.3|-42.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.8|-54.3|<0.0001
82530759|NCT02023879|164758491|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|95.0|-54.9|-43.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.2|-54.9|<0.0001
82576220|NCT02209181|164862044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.942|TWO_SIDED|95.0|-0.97|1.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.04|-0.97|0.942
82646026|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.3132|TWO_SIDED|95.0|0.92|1.29|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.29|0.92|0.3132
82402278|NCT05568797|164513388|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSV-B neutralizing antibody vaccine is \<=1.5.|GMT Ratio|1.16|||||TWO_SIDED|0.95|1.03|1.3|||||The comparison is done using adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-B neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the CoAd Group and Day 61 for the Control Group).||1.30|1.03|
82402279|NCT05568797|164513389|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|10.25|||||TWO_SIDED|0.95|3.5|16.9||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Darwin/6/2021 H3N2 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||16.90|3.50|
82402280|NCT05568797|164513389|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|1.66|||||TWO_SIDED|0.95|-5.16|8.47||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Victoria/2570/2019 H1N1 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||8.47|-5.16|
82445781|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.18|||||TWO_SIDED|95.0|6.89|35.38|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||35.38|6.89|
82530760|NCT02023879|164758492|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.7|||<|0.0001|TWO_SIDED|95.0|-57.1|-46.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-46.4|-57.1|<0.0001
82530761|NCT02023879|164758493|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.3|||<|0.0001|TWO_SIDED|95.0|-39.8|-30.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.8|-39.8|<0.0001
82530762|NCT02023879|164758494|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-44.3|-32.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.1|-44.3|<0.0001
82530763|NCT02023879|164758495|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.9|||<|0.0001|TWO_SIDED|95.0|-43.9|-31.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.8|-43.9|<0.0001
82530764|NCT02023879|164758496|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.3|||<|0.0001|TWO_SIDED|95.0|-30.9|-21.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.7|-30.9|<0.0001
82646027|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.0762|TWO_SIDED|95.0|0.99|1.26|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||1.26|0.99|0.0762
82402281|NCT05568797|164513389|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|0.25|||||TWO_SIDED|0.95|-4.92|5.46||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Austria/1359417/2021 Victoria at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||5.46|-4.92|
82402282|NCT05568797|164513389|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|0.79|||||TWO_SIDED|0.95|-4.54|6.17||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Phuket/3073/2013 Yamagata strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||6.17|-4.54|
82402283|NCT00099632|164513405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by ARV regimen and the actual receipt of antenatal ZDV||Compare proportion of women with new NNRTI-resistant variants between treatment durations (7-day vs. 21 day), pooled over ARV regimens (3TC/ZDV, FTC/TDF, and LPV/r), stratified by ARV regimen and the actual receipt of antenatal ZDV||||0.37
82402284|NCT00099632|164513405|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by treatment duration and the actual receipt of antenatal ZDV||Compare proportion of women with new NNRTI-resistant variants among ARV regimens (3TC/ZDV vs. FTC/TDF vs. LPV/r), pooled over treatment durations 7-day and 21-day, stratified by treatment duration and the actual receipt of antenatal ZDV||||0.091
82402285|NCT02651337|164513417|OTHER|It is a one arm clinical study. No comparison between groups was made.|||||||||||||||||The study tested the hypothesis that the Alivio flusher could increase flow in occluded or sluggish flowing catheters. Analysis was made on the basis of the procedural results related to priming the flusher, connecting the flusher to the shunt, flushing the system by dome compression, the ability to refill the dome, and the ability to evacuate the dome.|||
82402286|NCT02137226|164513418|NON_INFERIORITY_OR_EQUIVALENCE|The 90% Confidence Interval (CI) for ACR20 at Week 12, rounded to 1 decimal place, had to be entirely contained in the predefined equivalence region \[-12.0%, 15.0%\]|Difference in proportions|5.9|||||TWO_SIDED|90.0|-0.9|12.7|||Regression, Logistic||Results from logistic regression model adjusted for treatment, prior exposure to a biologic agent (yes / no), Baseline DAS28 (ESR). Difference in ACR20 Response Rate (BI695501 - Humira, %) is presented.|The week 12 confidence interval for the estimated difference in proportion is produced using the cumulative distribution function method of Reeve||12.7|-0.9|
82402287|NCT02137226|164513419|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is not applicable|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.25|0.05|||ANCOVA||Difference in least square means of BI 695501 - Humira is presented.|Results based on DAS28 (ESR) mean changes from Baseline after 12 weeks of treatment = overall mean + treatment group + Baseline DAS28 (ESR) + prior exposure to a biologic agent + random error.||0.05|-0.25|
82402288|NCT02137226|164513419|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is not applicable|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.17|0.23|||ANCOVA||Difference in least square means of BI 695501 - Humira is presented.|Results based on DAS28 (ESR) mean changes from Baseline after 24 weeks of treatment = overall mean + treatment group + Baseline DAS28 (ESR) + prior exposure to a biologic agent + random error.||0.23|-0.17|
82402289|NCT02137226|164513421|NON_INFERIORITY_OR_EQUIVALENCE|The 95% Confidence Interval (CI) for ACR20 at Week 24, rounded to 1 decimal place, had to be entirely contained in the predefined equivalence region \[-15.0%;+15.0%\]|Difference in proportions|4.5|||||TWO_SIDED|95.0|-3.4|12.5|||Regression, Logistic||Results from logistic regression model adjusted for treatment, prior exposure to a biologic agent (yes / no), Baseline DAS28 (ESR). Difference in ACR20 Response Rate (BI695501 - Humira, %) is presented.|The week 24 confidence interval for the estimated difference in proportion is produced using the cumulative distribution function method of Reeve||12.5|-3.4|
82402290|NCT02373137|164513429|SUPERIORITY||Coefficient|-1.8|||<|0.001|TWO_SIDED|95.0|-2.8|-1.0|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity.|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.8 lines better vision at 6 months.|||-1.0|-2.8|<0.001
82445782|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.55|||||TWO_SIDED|95.0|-12.11|11.03|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||11.03|-12.11|
82445783|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|40.06|||||TWO_SIDED|95.0|24.26|54.95|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.95|24.26|
82530765|NCT02023879|164758497|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|279.8|||<|0.0001|TWO_SIDED|95.0|29.1|2690.1||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||2690.1|29.1|<0.0001
82646028|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.7243|TWO_SIDED|95.0|0.91|1.15|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.15|0.91|0.7243
82646029|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0775|TWO_SIDED|95.0|0.97|1.65|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||1.65|0.97|0.0775
82445784|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|42.4|||||TWO_SIDED|95.0|26.71|57.17|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||57.17|26.71|
82445785|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.21|||||TWO_SIDED|95.0|26.12|55.55|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||55.55|26.12|
82445786|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-2.34|||||TWO_SIDED|95.0|-10.41|5.73|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||5.73|-10.41|
82445787|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.58|||||TWO_SIDED|95.0|15.26|32.08|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||32.08|15.26|
82445788|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.22|||||TWO_SIDED|95.0|14.86|31.74|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||31.74|14.86|
82445789|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.41|||||TWO_SIDED|95.0|15.08|31.9|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||31.90|15.08|
82530766|NCT02023879|164758498|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|354.7|||<|0.0001|TWO_SIDED|95.0|36.2|3479.5||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||3479.5|36.2|<0.0001
82402291|NCT02373137|164513430|SUPERIORITY||Coefficient|-1.5||||0.002|TWO_SIDED|95.0|-2.5|-0.6|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.5 lines better vision at 3 months.|Comparison of 3-Month Visual Acuity Between Groups||-0.6|-2.5|0.002
82445790|NCT02986854|164599957|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.36|||||TWO_SIDED|95.0|-0.96|1.99|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥8-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.99|-0.96|
82445791|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.23|||||TWO_SIDED|95.0|2.08|11.23|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||11.23|2.08|
82445792|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|8.5|||||TWO_SIDED|95.0|3.28|12.74|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||12.74|3.28|
82530767|NCT02023879|164758499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|126.0|||<|0.0001|TWO_SIDED|95.0|20.0|9999.0||Threshold for significance at 0.05 level.|Regression, Logistic|LOCF approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo (Confidence interval should be read as 20.0 to \>9999)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9999|20.0|<0.0001
82402292|NCT02373137|164513430|SUPERIORITY||Coefficient|-1.4|||<|0.001|TWO_SIDED|95.0|-2.2|-0.7|||Regression, Linear|Multiple linear regression model with a covariate for baseline visual acuity|Coefficient reported in lines, comparing DMEK to UT-DSAEK. Compared to UT-DSAEK, DMEK had 1.4 lines better vision at 12 months.|Comparison of 12 Month Visual Acuity Between Groups||-0.7|-2.2|<0.001
82445793|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|7.86|||||TWO_SIDED|95.0|2.87|10.78|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||10.78|2.87|
82445794|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-1.27|||||TWO_SIDED|95.0|-6.1|3.49|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||3.49|-6.10|
82402293|NCT02373137|164513432|SUPERIORITY||Coefficient|-77.0||||0.53|TWO_SIDED|95.0|-326.0|172.0|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 3 months.|||172|-326|0.53
82445795|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.25|||||TWO_SIDED|95.0|-3.04|12.44|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||12.44|-3.04|
82445796|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.61|||||TWO_SIDED|95.0|-2.71|13.01|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||13.01|-2.71|
82530768|NCT02023879|164758500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|141.5|||<|0.0001|TWO_SIDED|95.0|22.2|9999.0||Threshold for significance at 0.05 level.|Regression, Logistic|LOCF approach followed by logistic regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo (Confidence interval should be read as 20.0 to \>9999)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9999|22.2|<0.0001
82402294|NCT02373137|164513432|SUPERIORITY||Coefficient|-150.0||||0.17|TWO_SIDED|95.0|-356.0|66.0|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 6 months.|||66|-356|0.17
82402295|NCT02373137|164513432|SUPERIORITY||Coefficient|-215.0||||0.051|TWO_SIDED|95.0|-430.0|-0.4|||t-test, 2 sided||Comparing DMEK to UT-DSAEK at 12 months.|||-0.4|-430|0.051
82402296|NCT02373137|164513438|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82646030|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.2649|TWO_SIDED|95.0|0.89|1.52|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.52|0.89|0.2649
82402297|NCT00534638|164513500|SUPERIORITY||Vaccine effectiveness percentage|49.6||||0.004|TWO_SIDED|95.0|20.1|68.2||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B B Group vs Engerix-B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B B Group versus Engerix-B Group was based on stratified Mantel-Haenszel adjusted for clustering.||68.2|20.1|0.004
82402298|NCT00534638|164513500|SUPERIORITY||Vaccine effectiveness percentage|23.8||||0.232|TWO_SIDED|95.0|-19.0|51.1||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B A Group vs Engerix-B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B A Group versus Engerix-B Group was based on stratified Mantel-Haenszel adjusted for clustering.||51.1|-19.0|0.232
82402299|NCT00534638|164513501|SUPERIORITY||Vaccine effectiveness percentage|-52.2||||0.069|TWO_SIDED|95.0|-139.4|3.3||An objective was reached if the 2-sided p-value associated to the objective was below 5%.|Cochran-Mantel-Haenszel|||Overall efectiveness against HPV-16/18 Cervarix/Engerix-B A Group vs Cervarix/Engerix-B B Group: The analysis of the overall effectiveness of GSK's HPV-16/18 vaccine against HPV-16/18 genital infection in Cervarix/Engerix-B A Group versus Cervarix/Engerix-B B was based on stratified Mantel-Haenszel adjusted for clustering.||3.3|-139.4|0.069
82402300|NCT03479944|164513533|SUPERIORITY||Least Squares Mean Difference|-1.505|||<|0.0001|TWO_SIDED|95.0|-1.72|-1.289|||t-test based on MMRM|MMRM: Mixed Model for Repeated Measures|Least Squares Mean Difference from a Mixed Model for Repeated Measures|||-1.289|-1.720|<0.0001
82402301|NCT03479944|164513534|SUPERIORITY||Least Squares Mean Difference|1.2||||0.2602|TWO_SIDED|95.0|-0.9|3.3|||t-test based on MMRM|MMRM: Mixed Model for Repeated Measures|Least Squares Mean Difference from a Mixed Model for Repeated Measures|||3.3|-0.9|0.2602
82402302|NCT03479944|164513535|SUPERIORITY||Least Squares Mean Difference|-11.52|||||TWO_SIDED|95.0|-15.87|-7.18|||||Least Squares Mean Difference from a Mixed Model for Repeated Measures|||-7.18|-15.87|
82402303|NCT02029274|164513562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.551|STANDARD_ERROR_OF_MEAN|11.5519||0.9621|TWO_SIDED|95.0|-22.447|23.549|||Repeated measures analysis|||||23.549|-22.447|0.9621
82402304|NCT02029274|164513562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.368|STANDARD_ERROR_OF_MEAN|10.9297||0.1637|TWO_SIDED|95.0|-37.128|6.391|||Repeated measures analysis|||||6.391|-37.128|0.1637
82402305|NCT02029274|164513562|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.709|STANDARD_ERROR_OF_MEAN|11.6016||0.2409|TWO_SIDED|95.0|-36.806|9.388|||Repeated measures|||||9.388|-36.806|0.2409
82530769|NCT02023879|164758501|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.6||||0.0002|TWO_SIDED|95.0|-29.8|-9.4||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-9.4|-29.8|0.0002
82402306|NCT01680653|164513585|SUPERIORITY_OR_OTHER|||||||0.106||||||In analyzing prolonged events on remote monitoring versus control, we used x squared analysis or Fisher's exact test to analyze data on 2 x 2 contingency tables. Significance was defined as P\<0.05.|Wilcoxon (Mann-Whitney)|||The study was a feasibility and preliminary safety study. As such, the sample size was not statistically derived and the protocol was not powered to provide for definitive conclusions. The study was limited to 20 participants at each camp session. A hypoglycemic event was defined as at least two consecutive CGM readings (10 mins) below the hypoglycemic threshold of \<70 mg/dL. Recovery from a hypoglycemic event required readings above threshold for \> or = 25 minutes.||||0.106
82402307|NCT01680653|164513586|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.078
82402308|NCT01680653|164513587|SUPERIORITY_OR_OTHER||Fisher's exact test|||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This is the P value for the number of events \<70 mg/dL longer than one hour||||0.003
82402309|NCT01680653|164513587|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Fisher's exact test|||This is the p value for the number of events \<70 mg/dL that were greater than 2 hours||||0.010
82402310|NCT01680653|164513587|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Fisher's exact test|||This is the p value for the number of events that were \<50 mg/dL for \> 30 minutes||||0.021
82402311|NCT01680653|164513587|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||Fisher's exact|||This is the P value for the number of events \<50 mg/dL that were \>1 hr||||0.077
82402312|NCT00636636|164513588|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0125|TWO_SIDED|95.0|-0.88|-0.11|||ANCOVA|||||-0.11|-0.88|0.0125
82402313|NCT00636636|164513589|SUPERIORITY_OR_OTHER||Difference in proportion|0.092||||0.0434|TWO_SIDED|95.0|0.0|0.18|||Z test|||P-value (vs Placebo) for pairwise test of treatment effect between G-ER group and Placebo group is based on Z test for difference between the 2 groups in proportion of participants who were categorized as very much or much improved in PGIC at endpoint. Proportion in each group calculated from number of participants categorized as very much or much improved relative to total number of participants in ITT population.||0.18|-0.00|0.0434
82402314|NCT00636636|164513590|SUPERIORITY_OR_OTHER||Difference in proportion|0.102||||0.0268|TWO_SIDED|95.0|0.01|0.19|||Z test|||P-value (vs Placebo) for pairwise test of treatment effect between G-ER group and Placebo group is based on Z test for difference between the 2 groups in proportion of participants who were categorized as very much or much improved in CGIC at endpoint. Proportion in each group calculated from number of participants categorized as very much or much improved relative to total number of participants in ITT population.||0.19|0.01|0.0268
82646031|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.0257|TWO_SIDED|95.0|1.02|1.43|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||1.43|1.02|0.0257
82402315|NCT00636636|164513591|SUPERIORITY_OR_OTHER||Least square mean difference|-0.71|STANDARD_ERROR_OF_MEAN|0.18||0.0001|TWO_SIDED|95.0|-1.07|-0.35|||ANCOVA||P-value versus Placebo for pairwise test of difference of LS mean change from baseline between G-ER and Placebo groups is based on t-test of Type III analysis.|||-0.35|-1.07|0.0001
82402316|NCT00636636|164513592|SUPERIORITY_OR_OTHER||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.96|-0.15|||ANCOVA|||||-0.15|-0.96|0.007
82402317|NCT01237327|164513603|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7799||||0.3348|TWO_SIDED|95.0|0.47|1.294|||Log Rank|||Overall survival compared using the hazard ratio; hazard ratio \<1.0 is in favor of exemestane.||1.294|0.47|0.3348
82402318|NCT00524771|164513649|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test of two exponential survival curves . These calculations are based on the following assumptions: 1) one-sided α of 0.025; 2) power (1-β) of 0.80; VTE incidence rate of 9.1 VTE/10.000 WY and 4) non-inferiority limit on hazard ratio of 2.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.5|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Tested null hypothesis: VTE hazard ratio for NuvaRing vs. COCs is higher or equal to 2. This analysis represents the a priori defined primary statistical analysis.||1.5|0.5|
82402319|NCT00524771|164513649|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Tested null hypothesis: VTE hazard ratio for NuvaRing vs. COC2 is higher or equal to 2.||1.7|0.4|
82402320|NCT00524771|164513649|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.2|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of less than 6 months.||2.2|0.3|
82402321|NCT00524771|164513649|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.6|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of 6 - 12 months.||2.6|0.3|
82402322|NCT00524771|164513649|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.3|||||Hazard ratio was adjusted age, BMI, duration of current use and family history of VTE.|Like analysis 1 (see above) but restricted to exposure period of \> 12 months.||2.3|0.3|
82402323|NCT00524771|164513650|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.3|||||The hazard ratio was adjusted for age, BMI, Smoking, and treated hypertension.|||2.3|0.2|
82445797|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|6.43|||||TWO_SIDED|95.0|-2.66|10.9|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||10.90|-2.66|
82402324|NCT00524771|164513650|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on the primary statistical analysis (see above).|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.2|2.6|||||Hazard ratio was adjusted for age, BMI, smoking, and treated hypertension.|||2.6|0.2|
82402325|NCT00707057|164513661|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The null versus alternative hypothesis regarding the analgesic efficacy using the SPID 8-12 was compared between the 2 treatment groups using an analysis of covariance (ANCOVA)model with each subject's outcome being his/her SPID 8-12 as the dependent variable in the ANCOVA model with terms for gender, treatment, and baseline pain score categories (stratified as ≤7 and \>7).||||<0.0001
82402326|NCT00707057|164513662|SUPERIORITY_OR_OTHER||||||<|0.0017||95.0|||||ANCOVA|||The null versus alternative hypothesis regarding the durability of analgesic efficacy using the PID scores at 24, 36, and 48 hours.An individual subject was to achieve the 2-point reduction at all 3 terminal time points in order to be defined as responder.||||<0.0017
82445798|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.36|||||TWO_SIDED|95.0|-7.27|6.43|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||6.43|-7.27|
82445799|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|41.34|||||TWO_SIDED|95.0|28.85|50.63|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||50.63|28.85|
82576221|NCT02209181|164862044|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|1.21|3.24||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.24|1.21|<0.001
82402327|NCT00707057|164513663|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Time to confirmed first perceptible relief was defined as the time to first perceptible relief, provided that the subject also stopped the second stopwatch indicating meaningful relief. For those who failed to achieve confirmed first perceptible and/or meaningful relief, a censored time was assigned.||||<0.0001
82402328|NCT00707057|164513664|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||Time to confirmed first perceptible relief was defined as the time to first perceptible relief, provided that the subject also stopped the second stopwatch indicating meaningful relief. For those who failed to achieve confirmed first perceptible and/or meaningful relief, a censored time was assigned.||||<0.0001
82402329|NCT00707057|164513665|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82402330|NCT00707057|164513666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82402331|NCT00707057|164513666|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Estimated Confidence Interval: 95%Method: Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel|||||||<0.0001
82445800|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|36.88|||||TWO_SIDED|95.0|24.39|46.34|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||46.34|24.39|
82646032|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.254|TWO_SIDED|95.0|0.93|1.3|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.30|0.93|0.2540
82402332|NCT00707057|164513667|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|With terms for treatment, gender, and baseline pain score categories stratified as ≤7 and \>7.||The PID at each time point prior to dose 2 was derived by substracting the pain intensity from the base line pain intensity, so that a higher value was indicative of a greater improvement. Time weighted SPID for each specified interval was derived by first multiplying each PID score by the time from the previous time point, and adding them together for each scheduled time point within the time interval. Time weighted TOTPAR for ech specified interval was similarly derived.||||<0.0001
82402333|NCT00707057|164513668|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
82402334|NCT00707057|164513669|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||The proportions of subjects who rescued at or prior to hour 8, hour 10, and hour 12 were reported and 95% confidence intervals for the corresponding parameters were calculated.||||<0.0001
82402335|NCT00707057|164513670|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||The pain relief and PID scores at individual time points were summarized by descriptive statistics. The test and reference were compared at each individual time point at 24, 36 and 48 hours.||||<0.0001
82402336|NCT00707057|164513671|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation for dose 1, either at the time of rescue or at dose 2 whichever came first were summarized by descriptive statistics based on non-missing data. The range went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS).||||<0.0001
82402337|NCT00707057|164513672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P- value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||"Global evaluation scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide global evaluation of dose 2 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief."||||<0.0001
82402338|NCT00707057|164513672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain scores categories.|ANCOVA|||"Maximum relief scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide maximum relief scores for dose 2 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief."||||<0.0001
82402339|NCT00707057|164513672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||"Overall relief scores for dose 2 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics.~The subjects were to provide overall relief scores for dose 2 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief."||||<0.0001
82402340|NCT00707057|164513673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide global evaluation of dose 3 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief.||||<0.0001
82402341|NCT00707057|164513673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and basee pain score categories.|ANCOVA|||Maximum relief scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide maximum relief of dose 3 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
82402342|NCT00707057|164513673|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Overall relief scores for dose 3 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide overall relief of dose 3 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
82402343|NCT00707057|164513674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Global evaluation scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide global evaluation of dose 4 study medication using a range that went from 0 (Very poor) to 10 (Excellent) units on an 11-point Pain Intensity Numerical Rating Scale (PI-NRS)in response to pain relief.||||<0.0001
82402344|NCT00707057|164513674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Maximum relief scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide maximum relief of dose 4 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
82646033|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.5141|TWO_SIDED|95.0|0.76|1.75|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||1.75|0.76|0.5141
82402345|NCT00707057|164513674|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value from ANCOVA with terms for treatment, gender and baseline pain score categories.|ANCOVA|||Overall relief scores for dose 4 were summarized by descriptive statistics. Only non-missing values are used for the summary statistics. The subjects were to provide overall relief of dose 4 study medication on an 11-point pain intensity numerical rating scale (PI-NRS)in response to pain relief.||||<0.0001
82402346|NCT00472732|164513680|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of myoinositol in posterior cingulate gray matter will be the same in OTCD patients as in controls.||||0.003
82646034|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8208|TWO_SIDED|95.0|0.69|1.6|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.60|0.69|0.8208
82402347|NCT00472732|164513680|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of myoinositol in parietal white matter will be the same in OTCD patients as in controls.||||<0.001
82402348|NCT00472732|164513680|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of glutamine in posterior cingulate gray matter would be the same for OTCD patients as for controls.||||0.001
82402349|NCT00472732|164513680|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The Bonferroni-corrected a priori p-value was 0.007 (a priori alpha=0.05/number of tests=7).|t-test, 2 sided|||The null hypothesis predicted that the concentration of glutamine in parietal white matter would be the same for OTCD patients as for controls.||||<0.001
82402350|NCT00472732|164513681|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||This p-value is adjusted for family wise error rate correction.|t-test, 2 sided|||Two-way between-group t-tests restricted to the prefrontal cortex were performed to compare activation during for the 2-Back\> 1-Back contrast between OTCD patients and controls.||||<0.05
82402351|NCT00472732|164513682|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis predicted that fractional anisotropy, a marker of white matter integrity, would be the same for OTCD patients as for controls.||||<0.001
82402352|NCT00411450|164513688|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-11.0|21.0|||||Difference = Wild type - Mutant|Difference at Week 17||21|-11|
82402353|NCT00411450|164513688|SUPERIORITY_OR_OTHER||Difference|8.0|||||TWO_SIDED|95.0|-9.0|23.0||||||Difference at Week 25||23|-9|
82402354|NCT00411450|164513690|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|95.0|-11.0|23.0|||||Difference = Wild type - Mutant|||23|-11|
82402355|NCT00411450|164513691|SUPERIORITY_OR_OTHER||Difference|12.5|||||TWO_SIDED|95.0|-6.3|31.4|||||Difference = Wild type - Mutant|Difference at Week 17||31.4|-6.3|
82402356|NCT00411450|164513691|SUPERIORITY_OR_OTHER||Difference|10.9|||||TWO_SIDED|95.0|-8.4|30.2||||||Difference at Week 25||30.2|-8.4|
82402357|NCT00411450|164513692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.1|0.5|
82402358|NCT00411450|164513693|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-14.0|25.0|||||Difference = Wild type - Mutant|Difference at Week 17||25|-14|
82402359|NCT00411450|164513693|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-14.0|25.0||||||Difference at Week 25||25|-14|
82530770|NCT02023879|164758502|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.9||||0.0892|TWO_SIDED|95.0|-17.1|1.2||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab 150 mg Q4W/Up to 150 mg Q2W vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.2|-17.1|0.0892
82402360|NCT00411450|164513694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.2|2.0|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||2.0|0.2|
82402361|NCT00411450|164513695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.4|0.9|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||0.9|0.4|
82402362|NCT00411450|164513696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.1|0.5|
82402363|NCT00411450|164513697|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.2|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with only KRAS effect (Wild type vs. Mutant).|||1.2|0.5|
82402364|NCT02258217|164513712|EQUIVALENCE|"We created a difference in ADL score variable. This was calculated as follows:~ADL score (new relapse) - ADL score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|3.03||0.003|TWO_SIDED|95.0|-2.9|-0.66|||Paired t-test, 2 sided|||"We compared the two ADL scores measured in the same arm at different timepoints (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0~We used the Paired t-test to compare the pre - post ADL scores."||-0.66|-2.9|0.003
82402365|NCT02258217|164513713|EQUIVALENCE|"We created a difference in ADL score variable. This was calculated as follows:~ADL score (new relapse) - ADL score (after treatment of current relapse) This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|3.09||0.99|TWO_SIDED|95.0|-1.22|1.22|||Paired t-test, 2 sided|||"We compared the two RSH scores measured in the same arm at different time points (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0 We used the Paired t-test to compare the pre - post RSH scores."||1.22|-1.22|0.99
82402366|NCT02258217|164513715|EQUIVALENCE|"We created a difference in PCS score variable. This was calculated as follows:~PCS score (new relapse) - PCS score (after treatment of current relapse). This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|4.42||0.03|TWO_SIDED|95.0|-3.67|-0.18|||Paired t-test, two sided|||"We compared the two PCS scores measured in the same arm at different timepoints (new \& after treatment).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0 We used the Paired t-test to compare the pre - post PCS scores."||-0.18|-3.67|0.03
82402367|NCT02258217|164513716|EQUIVALENCE|"We created a difference in MSIS physical score variable. This was calculated as follows:~MSIS physical score (new relapse) - MSIS physical score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|2.5||||0.19|TWO_SIDED||||||Wilcoxon Signed Rank test|||"We compared the two MSIS physical scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post MSIS physical scores."||||0.19
82530771|NCT00874432|164758510|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||p-value for CBPWV between CKD and Control groups||||0.685
82530772|NCT00874432|164758510|SUPERIORITY|||||||0.739|||||||t-test, 2 sided|||p-value for CRPWV between CKD and Control groups||||0.739
82530773|NCT00874432|164758510|SUPERIORITY|||||||0.471|||||||t-test, 2 sided|||p-value for CFPWV between CKD and Control groups||||0.471
82646035|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0562|TWO_SIDED|95.0|0.99|1.62|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||1.62|0.99|0.0562
82402368|NCT02258217|164513717|EQUIVALENCE|"We created a difference in MSIS psychological score variable. This was calculated as follows:~MSIS psychological score (new relapse) - MSIS psychological score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|6.3||0.01|TWO_SIDED|95.0|0.74|5.45|||Paired t-test, 2 sided|||"We compared the two MSIS psychological scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in means is = 0 Alternate Hypothesis = Difference in means is not = 0~We used the Paired t-test to compare the pre - post MSIS psychological scores."||5.45|0.74|0.01
82402369|NCT02258217|164513718|EQUIVALENCE|"We created a difference in EDSS score variable. This was calculated as follows:~EDSS score (new relapse) - EDSS score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|0.0||||0.23|TWO_SIDED||||||Wilcoxon Signed Rank test||The interquartile range for the median difference in EDSS scores is 0.0 to 0.5|"We compared the two EDSS scores measured in the same arm at different timepoints (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post EDSS scores."||||0.23
82402370|NCT02258217|164513719|EQUIVALENCE|"We created a difference in SAGE score variable. This was calculated as follows:~SAGE score (new relapse) - SAGE score (after treatment of current relapse)~This difference score was tested for equivalence to 0 or not."|Median Difference (Final Values)|0.0||||0.44|TWO_SIDED||||||Wilcoxon Signed Rank test||The interquartile range for the difference in medians is -1 to 0.|"We compared the two SAGE scores measured in the same arm at different time points (new relapse \& after treatment of relapse).~Null Hypothesis = Difference in medians is = 0 Alternate Hypothesis = Difference in medians is not = 0~We used the Wilcoxon Signed rank test to compare the pre - post SAGE scores."||||0.44
82402371|NCT00141518|164513721|SUPERIORITY_OR_OTHER||mean change from baseline|-9.4|STANDARD_DEVIATION|17.5||0.017|TWO_SIDED||||||Wilcoxon tests|||Total Score, Change From Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.017
82402372|NCT00141518|164513722|SUPERIORITY_OR_OTHER||mean change from baseline|0.02|STANDARD_DEVIATION|0.29||0.919|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.919
82402373|NCT00141518|164513723|SUPERIORITY_OR_OTHER||mean change from baseline|0.18|STANDARD_DEVIATION|0.24||0.002|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=25)||||0.002
82402374|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-6.5|STANDARD_DEVIATION|9.6||0.001|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 0 (n=27)||||0.001
82402375|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-9.2|STANDARD_DEVIATION|9.0|<|0.001|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 3 (n=23)||||<0.001
82402376|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-5.9|STANDARD_DEVIATION|11.2||0.022|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 6 (n=24)||||0.022
82402377|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-7.5|STANDARD_DEVIATION|11.6||0.005|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 9 (n=23)||||0.005
82402378|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-5.3|STANDARD_DEVIATION|13.9||0.126|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 12 (n=23)||||0.126
82402379|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-5.2|STANDARD_DEVIATION|12.3||0.049|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 18 (n=22)||||0.049
82576222|NCT02209181|164862045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.51||0.306|TWO_SIDED|95.0|-0.48|1.53||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.53|-0.48|0.306
82646036|NCT01236053|165007136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.2596|TWO_SIDED|95.0|0.9|1.47|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.47|0.90|0.2596
82646037|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.0709|TWO_SIDED|95.0|0.99|1.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.28|0.99|0.0709
82646038|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.4996|TWO_SIDED|95.0|0.92|1.19|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.19|0.92|0.4996
82402380|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|-3.1|STANDARD_DEVIATION|9.9||0.203|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 24 (n=21)||||0.203
82402381|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|0.8|STANDARD_DEVIATION|13.2||0.733|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 30 (n=21)||||0.733
82402382|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|4.4|STANDARD_DEVIATION|14.3||0.414|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Month 36 (n=20)||||0.414
82402383|NCT00141518|164513750|SUPERIORITY_OR_OTHER||mean change from baseline|2.3|STANDARD_DEVIATION|14.9||0.534|TWO_SIDED||||||Wilcoxon tests|||Change from Baseline for the Duodopa Naïve group at Endpoint (n=27)||||0.534
82402384|NCT00141518|164513759|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.016
82402385|NCT00141518|164513759|SUPERIORITY_OR_OTHER|||||||0.188|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.188
82402386|NCT00141518|164513760|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.008
82402387|NCT00141518|164513760|SUPERIORITY_OR_OTHER|||||||0.107|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.107
82402388|NCT00141518|164513761|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.002
82402389|NCT00141518|164513761|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.010
82402390|NCT00141518|164513762|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.048
82402391|NCT00141518|164513762|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.003
82402392|NCT00141518|164513763|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.001
82530774|NCT00874432|164758511|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||This p-value compares the baseline CBPWV measures for the CKD vs Controls group||||0.685
82402393|NCT00141518|164513763|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.003
82402394|NCT00141518|164513764|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||1.000
82402395|NCT00141518|164513764|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.002
82402396|NCT00141518|164513765|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.017
82402397|NCT00141518|164513765|SUPERIORITY_OR_OTHER|||||||0.191|||||||Wilcoxon tests|||||||0.191
82402398|NCT00141518|164513766|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.002
82402399|NCT00141518|164513766|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||<0.001
82530775|NCT00874432|164758511|SUPERIORITY|||||||0.869|||||||t-test, 2 sided|||This p-value compares the 12 month CBPWV measures for the CKD vs Controls group||||0.869
82402400|NCT00141518|164513767|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.047
82402401|NCT00141518|164513767|SUPERIORITY_OR_OTHER|||||||0.847|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.847
82402402|NCT00141518|164513768|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.012
82402403|NCT00141518|164513768|SUPERIORITY_OR_OTHER|||||||0.035|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.035
82402404|NCT00141518|164513769|SUPERIORITY_OR_OTHER|||||||0.599|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.599
82402405|NCT00141518|164513769|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.048
82402406|NCT00141518|164513770|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.026
82402407|NCT00141518|164513770|SUPERIORITY_OR_OTHER|||||||0.208|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.208
82402408|NCT00141518|164513771|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.010
82402409|NCT00141518|164513771|SUPERIORITY_OR_OTHER|||||||0.073|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.073
82402410|NCT00141518|164513772|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.048
82402411|NCT00141518|164513772|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.030
82402412|NCT00141518|164513773|SUPERIORITY_OR_OTHER|||||||0.208|||||||Wilcoxon tests|||Change from Baseline to Month 12 for morning scores||||0.208
82402413|NCT00141518|164513773|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon tests|||Change from Baseline to Month 12 for day scores||||0.048
82402414|NCT01806168|164513782|OTHER|||||||0.046|||||||Mixed Models Analysis|||||||0.046
82402415|NCT01806168|164513782|EQUIVALENCE|a \< 0.05||||||0.021|||||||t-test, 2 sided|||||||0.021
82402416|NCT01806168|164513782|EQUIVALENCE|a \< 0.05||||||0.65|||||||t-test, 2 sided|||||||0.65
82402417|NCT01806168|164513783|OTHER|||||||0.93|||||||Mixed Models Analysis|||To test primary and secondary outcomes, we utilized intention to treat data and linear mixed models with a group random effect. Significance was set to a \< 0.05.||||0.93
82402418|NCT01806168|164513784|OTHER|||||||0.18|||||||Mixed Models Analysis|||||||0.18
82402419|NCT01806168|164513785|OTHER|||||||0.54|||||||Mixed Models Analysis|||||||0.54
82402420|NCT01806168|164513786|OTHER|||||||0.86|||||||Mixed Models Analysis|||||||0.86
82402421|NCT01806168|164513787|OTHER|||||||0.4|||||||Mixed Models Analysis|||||||0.4
82402422|NCT01029262|164513792|SUPERIORITY||Risk Ratio (RR)|10.616|||<|0.001|TWO_SIDED|95.0|2.639|42.702|||Fisher Exact|p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group||||42.702|2.639|<0.001
82402423|NCT01029262|164513793|SUPERIORITY|||||||1|||||||Fisher Exact|p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group.||||||1.000
82402424|NCT01029262|164513794|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0|||<|0.001|TWO_SIDED|95.0|0.0||NA for risk ratio is due to 0 responder in placebo group.|P-value is from Fisher's exact test to compare the lenalidomide arm to the placebo arm.|Fisher Exact||||||0|< 0.001
82402425|NCT01029262|164513795|SUPERIORITY|||||||0.639|TWO_SIDED||||||Log Rank|p-value from log-rank test to compare lenalidomide and placebo.||||||0.639
82402426|NCT01029262|164513796|SUPERIORITY||Risk Ratio (RR)|1.276||||0.252|TWO_SIDED|95.0|0.867|1.877||p-value is from Fisher's exact test to compare the lenalidomide arm to the placebo arm.|Fisher Exact|||||1.877|0.867|0.252
82402427|NCT01029262|164513798|SUPERIORITY|||||||0.864|TWO_SIDED|||||p-value from log-rank test to compare lenalidomide and placebo.|Log Rank|||||||0.864
82530776|NCT00874432|164758511|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||This p-value compares the baseline CRPWV measures for the CKD vs Controls group||||0.709
82530777|NCT00874432|164758511|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||This p-value compares the 12 month CBPWV measures for the CKD vs Controls group||||0.340
82530778|NCT00874432|164758511|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||This p-value compares the baseline CFPWV measures for the CKD vs Controls group||||0.730
82530779|NCT00874432|164758511|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||This p-value compares the 12 month CFPWV measures for the CKD vs Controls group||||0.204
82530780|NCT00874432|164758511|SUPERIORITY|||||||0.963|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure of ACE-I CKD and Control groups||||0.963
82402428|NCT01029262|164513799|SUPERIORITY|||||||0.98||||||p-value from log-rank test to compare lenalidomide and placebo.|Log Rank|||||||0.980
82402429|NCT01029262|164513801|SUPERIORITY|||||||0.823|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Baseline||||0.823
82402430|NCT01029262|164513801|SUPERIORITY|||||||0.371|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 12 (±3 days)||||0.371
82402431|NCT01029262|164513801|SUPERIORITY|||||||0.391|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 24 (±3 days)||||0.391
82402432|NCT01029262|164513801|SUPERIORITY|||||||1|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 36 (±3 days)||||1.000
82402433|NCT01029262|164513801|SUPERIORITY|||||||0.508|TWO_SIDED||||||Fisher Exact|The p-values are calculated based on the Fisher exact test||Week 48 (±3 days)||||0.508
82402434|NCT01029262|164513802|SUPERIORITY|||||||0.323|TWO_SIDED||||||ANOVA|P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.||Week 12||||0.323
82402435|NCT01029262|164513802|SUPERIORITY|||||||0.071|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.071
82402436|NCT01029262|164513803|SUPERIORITY|||||||0.76|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score|ANOVA|||Week 12||||0.760
82402437|NCT01029262|164513803|SUPERIORITY|||||||0.251|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.251
82402438|NCT01029262|164513804|SUPERIORITY|||||||0.424|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.424
82402439|NCT01029262|164513804|SUPERIORITY|||||||0.116|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.116
82445801|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|39.16|||||TWO_SIDED|95.0|27.61|46.33|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||46.33|27.61|
82402440|NCT01029262|164513805|SUPERIORITY|||||||0.746|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.746
82402441|NCT01029262|164513805|SUPERIORITY|||||||0.46|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||||||0.460
82402442|NCT01029262|164513806|SUPERIORITY|||||||0.265|TWO_SIDED|||||P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 12||||0.265
82402443|NCT01029262|164513806|SUPERIORITY|||||||0.047|TWO_SIDED|||||3\]: P-value from ANOVA comparison for change from baseline between lenalidomide and placebo adjusted with baseline score.|ANOVA|||Week 24||||0.047
82402444|NCT01029262|164513807|SUPERIORITY|||||||0.2909|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 12||||0.2909
82402445|NCT01029262|164513807|SUPERIORITY|||||||0.0759|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.0759
82402446|NCT01029262|164513808|SUPERIORITY|||||||0.6957|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 2 sided|||Week 12||||0.6957
82402447|NCT01029262|164513808|SUPERIORITY|||||||0.1729|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 2 sided|||Week 24||||0.1729
82402448|NCT01029262|164513809|SUPERIORITY|||||||0.3975|TWO_SIDED||||||t-test, 2 sided|P-value is based on a two-sample t-test comparing the difference between treatments.||Week 12||||0.3975
82402449|NCT01029262|164513809|SUPERIORITY|||||||0.1714|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.1714
82402450|NCT01029262|164513810|SUPERIORITY|||||||0.6408|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 12||||0.6408
82402451|NCT01029262|164513810|SUPERIORITY|||||||0.575|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments.|t-test, 2 sided|||Week 24||||0.5750
82402452|NCT01029262|164513811|SUPERIORITY|||||||0.2848|TWO_SIDED||||||t-test, 2 sided|P-value is based on a two-sample t-test comparing the difference between treatments||Week 12||||0.2848
82402453|NCT01029262|164513811|SUPERIORITY|||||||0.1053|TWO_SIDED|||||P-value is based on a two-sample t-test comparing the difference between treatments|t-test, 1 sided|||Week 24||||0.1053
82402454|NCT01029262|164513812|SUPERIORITY|||||||0.042|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.042
82402455|NCT01029262|164513812|SUPERIORITY|||||||0.448|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.448
82402456|NCT01029262|164513813|SUPERIORITY|||||||0.825|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.825
82402457|NCT01029262|164513813|SUPERIORITY|||||||0.568|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.568
82402458|NCT01029262|164513814|SUPERIORITY|||||||0.119|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.119
82402459|NCT01029262|164513814|SUPERIORITY|||||||0.172|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.172
82402460|NCT01029262|164513815|SUPERIORITY|||||||0.792|TWO_SIDED|||||The P-values were calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.792
82402461|NCT01029262|164513815|SUPERIORITY|||||||0.279|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.279
82402462|NCT01029262|164513816|SUPERIORITY|||||||0.476|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 12||||0.476
82402463|NCT01029262|164513816|SUPERIORITY|||||||0.052|TWO_SIDED|||||The P-values are calculated based on Fisher exact test.|Fisher Exact|||Week 24||||0.052
82402464|NCT01029262|164513817|SUPERIORITY||Risk Ratio (RR)|1.759||||0.017|TWO_SIDED|95.0|1.083|2.856||p-value is from Fisher's exact test to compare lenalidomide treatment group to placebo group.|Fisher Exact|||||2.856|1.083|0.017
82445802|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|4.46|||||TWO_SIDED|95.0|-7.04|15.83|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||15.83|-7.04|
82445803|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|31.61|||||TWO_SIDED|95.0|22.68|41.79|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||41.79|22.68|
82445804|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.85|||||TWO_SIDED|95.0|21.85|41.08|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||41.08|21.85|
82445805|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|31.24|||||TWO_SIDED|95.0|22.39|41.38|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||41.38|22.39|
82445806|NCT02986854|164599958|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.76|||||TWO_SIDED|95.0|-1.81|3.52|||Miettinen & Nurminen score method|||Serogroup A- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||3.52|-1.81|
82445807|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|30.02|||||TWO_SIDED|95.0|19.55|38.83|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||38.83|19.55|
82646039|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34|||<|0.0001|TWO_SIDED|95.0|1.23|1.45|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.45|1.23|<0.0001
82402465|NCT00614874|164513825|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||Comparison is between baseline and week 12|ANOVA|||||||0.048
82445808|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.87|||||TWO_SIDED|95.0|10.48|29.69|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||29.69|10.48|
82445809|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|25.5|||||TWO_SIDED|95.0|15.79|33.21|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.21|15.79|
82445810|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|9.14|||||TWO_SIDED|95.0|1.01|17.16|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||17.16|1.01|
82576223|NCT02209181|164862045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.51||0.335|TWO_SIDED|95.0|-0.51|1.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.49|-0.51|0.335
82445811|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|25.0|||||TWO_SIDED|95.0|8.82|38.9|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||38.90|8.82|
82445812|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|15.76|||||TWO_SIDED|95.0|-0.44|29.86|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||29.86|-0.44|
82445813|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|20.48|||||TWO_SIDED|95.0|5.32|33.08|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.08|5.32|
82402466|NCT00614874|164513826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_DEVIATION|35.0||0.183||95.0||||comparison was at baseline and week 12|Friedman|||||||0.183
82402467|NCT00614874|164513827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.95||0.398||95.0||||Comparison was at baseline and week 12|Friedman|||||||0.398
82402468|NCT01468454|164513830|OTHER||Specificity|89.5|||||TWO_SIDED|95.0|75.2|97.1||||||||97.1|75.2|
82402469|NCT01468454|164513830|OTHER||Sensitivity|83.9|||||TWO_SIDED|95.0|72.3|92.0||||||||92|72.3|
82445814|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|9.24|||||TWO_SIDED|95.0|-2.45|20.68|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||20.68|-2.45|
82445815|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|50.25|||||TWO_SIDED|95.0|34.09|63.67|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||63.67|34.09|
82445816|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|49.48|||||TWO_SIDED|95.0|33.21|63.01|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||63.01|33.21|
82402470|NCT00718094|164513846|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
82402471|NCT00996034|164513850|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||This is a comparison of scan 1 and scan 2||||<0.05
82402472|NCT01720524|164513851|SUPERIORITY||Least square (LS) mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.02||0.985|TWO_SIDED|95.0|-2.08|2.04|||ANCOVA|||||2.04|-2.08|0.9850
82402473|NCT01720524|164513852|SUPERIORITY||Difference in percentage|7.6||||0.4935|TWO_SIDED|95.0|-14.1|29.3|||Chi-squared|||||29.3|-14.1|0.4935
82402474|NCT01720524|164513853|SUPERIORITY|||||||0.9885|||||||Log Rank|||||||0.9885
82445817|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|49.87|||||TWO_SIDED|95.0|34.42|62.6|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||62.60|34.42|
82445818|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.77|||||TWO_SIDED|95.0|-8.3|9.92|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||9.92|-8.30|
82445819|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.76|||||TWO_SIDED|95.0|21.34|39.75|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||39.75|21.34|
82445820|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.75|||||TWO_SIDED|95.0|21.32|39.74|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||39.74|21.32|
82445821|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|29.76|||||TWO_SIDED|95.0|21.35|39.73|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||39.73|21.35|
82402475|NCT01720524|164513854|SUPERIORITY|||||||0.491|||||||Log Rank|||||||0.4910
82402476|NCT01720524|164513855|SUPERIORITY||Difference in Percentage|3.8||||0.7065|TWO_SIDED|95.0|-15.2|22.9|||Fisher Exact|||Additional Treatment||22.9|-15.2|0.7065
82445822|NCT02986854|164599959|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.01|||||TWO_SIDED|95.0|-1.6|1.67|||Miettinen & Nurminen score method|||Serogroup C- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.67|-1.60|
82445823|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.36|||||TWO_SIDED|95.0|5.85|28.67|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||28.67|5.85|
82445824|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.92|||||TWO_SIDED|95.0|6.39|29.25|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||29.25|6.39|
82402477|NCT01720524|164513855|SUPERIORITY||Difference in Percentage|0.3|||>|0.999|TWO_SIDED|95.0|-18.5|18.5|||Fisher Exact|||ECMO||18.5|-18.5|>0.999
82402478|NCT01720524|164513855|SUPERIORITY||Difference in Percentage|6.9||||0.2373|TWO_SIDED|95.0|-5.5|22.8|||Fisher Exact|||Death||22.8|-5.5|0.2373
82445825|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.64|||||TWO_SIDED|95.0|6.85|28.28|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||28.28|6.85|
82402479|NCT01720524|164513856|SUPERIORITY||LS Mean Difference|3.9||||0.4984|TWO_SIDED|95.0|-7.5|15.3|||ANCOVA|||Hour 6||15.3|-7.5|0.4984
82402480|NCT01720524|164513856|SUPERIORITY||LS Mean Difference|4.1||||0.3956|TWO_SIDED|95.0|-5.5|13.7|||ANCOVA|||Hour 12||13.7|-5.5|0.3956
82402481|NCT01720524|164513856|SUPERIORITY||LS Mean Difference|-2.2||||0.4249|TWO_SIDED|95.0|-7.6|3.3|||ANCOVA|||Hour 24||3.3|-7.6|0.4249
82402482|NCT01720524|164513857|SUPERIORITY||LS Mean Difference|0.7||||0.7686|TWO_SIDED|95.0|-4.3|5.8|||ANCOVA|||Hour 6||5.8|-4.3|0.7686
82445826|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-0.57|||||TWO_SIDED|95.0|-8.32|7.2|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||7.20|-8.32|
82530781|NCT00874432|164758511|SUPERIORITY|||||||0.991|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure of ACE-I CKD and Control groups||||0.991
82402483|NCT01720524|164513857|SUPERIORITY||LS Mean Difference|-8.0||||0.1112|TWO_SIDED|95.0|-17.8|1.9|||ANCOVA|||Hour 12||1.9|-17.8|0.1112
82402484|NCT01720524|164513857|SUPERIORITY||LS Mean Difference|-8.2||||0.2089|TWO_SIDED|95.0|-21.2|4.8|||ANCOVA|||Hour 24||4.8|-21.2|0.2089
82402485|NCT01720524|164513858|SUPERIORITY||LS Mean Difference|37.2||||0.0829|TWO_SIDED|95.0|-5.0|79.5|||ANCOVA|||Hour 6||79.5|-5.0|0.0829
82402486|NCT01720524|164513858|SUPERIORITY||LS Mean Difference|26.6||||0.1802|TWO_SIDED|95.0|-12.7|65.9|||ANCOVA|||Hour 12||65.9|-12.7|0.1802
82402487|NCT01720524|164513858|SUPERIORITY||LS Mean Difference|79.9||||0.1576|TWO_SIDED|95.0|-32.5|192.2|||ANCOVA|||Hour 24||192.2|-32.5|0.1576
82402488|NCT00158262|164513892|SUPERIORITY||Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-2.7|16.7|||||Placebo-Propranolol|||16.7|-2.7|
82402489|NCT00158262|164513893|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-15.5|15.3|||||Placebo-Propranolol|CAPS Total Score at Month 1||15.3|-15.5|
82402490|NCT00158262|164513893|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-20.3|16.0||||||CAPS Total Score at Month 3||16.0|-20.3|
82402491|NCT00158262|164513894|SUPERIORITY||Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|-4.8|10.7|||||Placebo-Propranolol|||10.7|-4.8|
82530782|NCT00874432|164758511|SUPERIORITY|||||||0.176|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure of ACE-I CKD and Control groups||||0.176
82646040|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24|||<|0.0001|TWO_SIDED|95.0|1.14|1.35|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.35|1.14|<0.0001
82646041|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.0062|TWO_SIDED|95.0|1.05|1.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.36|1.05|0.0062
82402492|NCT04501952|164513919|SUPERIORITY||Hazard Ratio (HR)|0.134||||0.0076|TWO_SIDED|95.0|0.031|0.586|||Regression, Cox|P-value was estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% confidence interval (CI) were estimated using the Cox regression with baseline stratification factors as covariates.|||0.586|0.031|0.0076
82402493|NCT04501952|164513921|SUPERIORITY||Hazard Ratio (HR)|0.191||||0.0024|TWO_SIDED|95.0|0.065|0.555|||Regression, Cox|P-value was estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.555|0.065|0.0024
82402494|NCT04501952|164513924|SUPERIORITY||Hazard Ratio (HR)|0.134||||0.0076|TWO_SIDED|95.0|0.031|0.586|||Regression, Cox|P-value were estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.586|0.031|0.0076
82402495|NCT04501952|164513925|SUPERIORITY||Hazard Ratio (HR)|0.1||||0.0019|TWO_SIDED|95.0|0.023|0.43|||Regression, Cox|P-value were estimated using the Cox regression with baseline stratification factors as covariates.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||0.430|0.023|0.0019
82530783|NCT00874432|164758511|SUPERIORITY|||||||0.402|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the ACE-I CKD||||0.402
82530784|NCT00874432|164758511|SUPERIORITY|||||||0.586|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the ACE-I CKD||||0.586
82530785|NCT00874432|164758511|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the ACE-I CKD||||0.455
82646042|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.1144|TWO_SIDED|95.0|0.98|1.26|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.26|0.98|0.1144
82402496|NCT04501952|164513926|SUPERIORITY||Least Squares Mean|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.4318|TWO_SIDED|95.0|-0.1|0.24|||ANCOVA|P-value were from an ANCOVA model with baseline viral load as a covariate.|Least squares Mean (LSM), standard error (SE) and 95% CI were from an ANCOVA model with baseline viral load as a covariate.|||0.24|-0.10|0.4318
82402497|NCT04501952|164513927|SUPERIORITY||Hazard Ratio (HR)|1.405||||0.2987|TWO_SIDED|95.0|0.733|2.693|||Log Rank|p-value was based on stratified log-rank test with baseline stratification factor as strata.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression with baseline stratification factors as covariates.|||2.693|0.733|0.2987
82402498|NCT04501952|164513929|SUPERIORITY|||||||0.2163|||||||Fisher Exact|||||||0.2163
82402499|NCT01850394|164513930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|180.0|STANDARD_DEVIATION|300.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82402500|NCT01850394|164513930|SUPERIORITY_OR_OTHER||Mean Difference (Net)|150.0|STANDARD_DEVIATION|200.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82402501|NCT01850394|164513931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|140.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82402502|NCT01850394|164513931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_DEVIATION|4.0|<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82402503|NCT01850394|164513932|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
82402504|NCT01850394|164513933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
82402505|NCT01850394|164513934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|STANDARD_DEVIATION|1.0||0.05|TWO_SIDED|95.0|||||ANOVA|||||||0.05
82402506|NCT02797678|164513953|SUPERIORITY|||||||0.061|||||||paired t-test|||||||0.061
82402507|NCT02797678|164513956|SUPERIORITY|||||||0.301|||||||paired t-test|||||||0.301
82530786|NCT00874432|164758511|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the ACE-I Control Group||||0.418
82530787|NCT00874432|164758511|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the ACE-I Control Group||||0.091
82530788|NCT00874432|164758511|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the ACE-I Control Group||||0.034
82530789|NCT00874432|164758511|SUPERIORITY|||||||0.921|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure of the CKD and Control groups||||0.921
82530790|NCT00874432|164758511|SUPERIORITY|||||||0.887|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure of the CKD and Control groups||||0.887
82530791|NCT00874432|164758511|SUPERIORITY|||||||0.759|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure of the CKD and Control groups||||0.759
82530792|NCT00874432|164758511|SUPERIORITY|||||||0.851|||||||t-test, 2 sided|||This compares the baseline and 12 month CBPWV measure of the Control groups||||0.851
82530793|NCT00874432|164758511|SUPERIORITY|||||||0.733|||||||t-test, 2 sided|||This compares the baseline and 12 month CRPWV measure of the Control groups||||0.733
82530794|NCT00874432|164758511|SUPERIORITY|||||||0.902|||||||t-test, 2 sided|||This compares the baseline and 12 month CFPWV measure of the Control groups||||0.902
82530795|NCT00874432|164758511|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure between the CKD ACE-I and CKD Control groups.||||0.414
82530796|NCT00874432|164758511|SUPERIORITY|||||||0.942|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure between the CKD ACE-I and CKD Control groups.||||0.942
82530797|NCT00874432|164758511|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure between the CKD ACE-I and CKD Control groups.||||0.990
82530798|NCT00874432|164758511|SUPERIORITY|||||||0.273|||||||t-test, 2 sided|||This compares the 12 month CBPWV measure between the ACE-I Control and CKD Control groups.||||0.273
82445827|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|14.58|||||TWO_SIDED|95.0|-0.98|30.38|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||30.38|-0.98|
82530799|NCT00874432|164758511|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||This compares the 12 month CRPWV measure between the ACE-I Control and CKD Control groups.||||0.516
82530800|NCT00874432|164758511|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||This compares the 12 month CFPWV measure between the ACE-I Control and CKD Control groups.||||0.102
82576224|NCT02209181|164862045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.78|3.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.80|1.78|<0.001
82402508|NCT03828214|164513984|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|9.2||0.973|TWO_SIDED|||||a priori threshold for statistical significance was 0.05.|ANOVA|||C2, C3, C4 were compared to C1 the comparison condition.||||0.973
82402509|NCT02716584|164513996|SUPERIORITY||Effect size|0.41||||0.02|TWO_SIDED||||||ANCOVA|||Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of exercise sessions attended as a covariate.||||0.02
82402510|NCT02716584|164513997|SUPERIORITY||Effect size|0.35||||0.06|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.06
82402511|NCT02716584|164513998|SUPERIORITY|||||||0.13|||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.13
82402512|NCT02716584|164513999|SUPERIORITY||Effect size|0.19||||0.73|TWO_SIDED|||||The analyses for cohorts 1 and 2 utilized the a priori endpoint assessment conducted 1-2 weeks after completion of training.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.73
82402513|NCT02716584|164513999|SUPERIORITY||Effect size|0.73||||0.33|TWO_SIDED|||||For cohort 3, positive affect was measured at baseline and a midpoint assessment.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, midpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||.33
82402514|NCT02716584|164514000|SUPERIORITY||Effect size|-0.21||||0.62|TWO_SIDED|||||The analyses for cohorts 1 and 2 utilized the a priori endpoint assessment conducted 1-2 weeks after completion of training.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.62
82402515|NCT02716584|164514000|SUPERIORITY||Effect size|0.77||||0.23|TWO_SIDED|||||For cohort 3, positive affect was measured at a baseline and midpoint assessment.|ANCOVA|The data were analyzed using a 2 (groups) x 2 (time: baseline, midpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||.23
82402516|NCT02716584|164514001|SUPERIORITY||Effect size|0.02||||0.57|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.57
82402517|NCT02716584|164514002|SUPERIORITY||Effect size|0.35||||0.12|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.12
82402518|NCT02716584|164514003|SUPERIORITY||Effect size|0.72||||0.07|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.07
82402519|NCT02716584|164514004|SUPERIORITY||Effect size|0.0||||0.88|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.88
82402520|NCT02716584|164514005|SUPERIORITY||Effect size|0.05||||0.86|TWO_SIDED||||||ANCOVA|Data were analyzed using a 2 (groups) x 2 (time: baseline, endpoint) repeated measures ANCOVA with number of sessions attended as a covariate.||||||0.86
82402521|NCT03790865|164514012|SUPERIORITY||Mean Difference (Net)|4.0|||<|0.025|TWO_SIDED||||||Mixed Models Analysis|||||||<0.025
82402522|NCT01868165|164514038|OTHER||Slope|0.58|||||TWO_SIDED|95.0|-0.6|1.77|||||"Linear regression slope and 95% confidence intervals for the association between calcium channel blocker use and cognitive change was 0.58 (-0.60:1.77).~Multiple adjustments including; age, sex, education."|||1.77|-0.60|
82402523|NCT03538691|164514079|SUPERIORITY||Hazard Ratio (HR)|1.138||||0.51|TWO_SIDED|95.0|0.776|1.669|||Log Rank||The hazard ratio and 95% confidence interval (CI) were derived from the Cox proportional hazard model with treatment as fixed effect.|||1.669|0.776|0.5100
82445828|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|22.64|||||TWO_SIDED|95.0|7.3|38.16|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||38.16|7.30|
82445829|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.53|||||TWO_SIDED|95.0|4.14|33.37|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||33.37|4.14|
82530801|NCT01946243|164758556|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||t-test, 2 sided|||Paired t-test to test whether the change is equal to zero or not.||||0.0029
82530802|NCT01946243|164758557|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority demonstrated if the lower bound of the one-sided 97.5% confidence interval is greater than -3%.|Mean Difference (Net)|4.2|||||ONE_SIDED|97.5|2.7||||||Units: Percent Accuracy||||2.7|
82530803|NCT01946243|164758558|SUPERIORITY_OR_OTHER||lower bound of two-sided 95% CI|0.06|||||TWO_SIDED|95.0|0.018|0.112||||||Superiority demonstrated if lower bound of two-sided 95% confidence interval (CI) greater than 0, for the change in kappa statistic.||0.112|0.018|
82530804|NCT01946243|164758559|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority demonstrated if the lower bound of the one-sided 97.5% confidence interval is greater than -3%.|Mean Difference (Net)|2.3|||||ONE_SIDED|97.5|0.8||||||Units: Percent Accuracy||||0.8|
82445830|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-8.06|||||TWO_SIDED|95.0|-18.34|2.38|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||2.38|-18.34|
82530805|NCT01946243|164758560|SUPERIORITY_OR_OTHER||lower bound of two-sided 95% CI|0.07||||0.028|TWO_SIDED|95.0|0.007|0.125|||Monte Carlo test|||Superiority demonstrated if lower bound of two-sided 95% CI greater than 0, for the change in kappa statistic.||0.125|0.007|0.0280
82530806|NCT01946243|164758561|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED||||||t-test, 2 sided|||Paired t-test to test whether the change is equal to zero or not.||||0.0025
82530807|NCT03390036|164758571|SUPERIORITY|||||||0.8106|||||||ANOVA|||||||0.8106
82576225|NCT02209181|164862045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.51||0.946|TWO_SIDED|95.0|-1.03|0.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.97|-1.03|0.946
82576226|NCT02209181|164862045|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.27|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.25|3.28||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.28|1.25|<0.001
82576227|NCT02209181|164862046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.51||0.279|TWO_SIDED|95.0|-0.45|1.56||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.56|-0.45|0.279
82646043|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|||<|0.0001|TWO_SIDED|95.0|1.3|1.55|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.55|1.30|<0.0001
82646044|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31|||<|0.0001|TWO_SIDED|95.0|1.2|1.43|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.43|1.20|<0.0001
82402524|NCT03538691|164514080|SUPERIORITY||Least Squares (LS) Mean Difference|0.23||||0.2393|TWO_SIDED|95.0|-0.16|0.62||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||||0.62|-0.16|0.2393
82402525|NCT03538691|164514081|SUPERIORITY||Hazard Ratio (HR)|1.177||||0.3086|TWO_SIDED|95.0|0.857|1.615|||Log Rank||The hazard ratio and 95% CI were derived from the Cox proportional hazard model with treatment as fixed effect.|||1.615|0.857|0.3086
82576228|NCT02209181|164862046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|0.51||0.292|TWO_SIDED|95.0|-0.46|1.53||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.53|-0.46|0.292
82445831|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|39.04|||||TWO_SIDED|95.0|23.76|54.07|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||54.07|23.76|
82530808|NCT03390036|164758572|SUPERIORITY|||||||0.3007|||||||ANOVA|||||||0.3007
82576229|NCT02209181|164862046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.66|3.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.68|1.66|<0.001
82576230|NCT02209181|164862046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.51||0.971|TWO_SIDED|95.0|-1.02|0.98||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.98|-1.02|0.971
82646045|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.0469|TWO_SIDED|95.0|1.0|1.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.29|1.00|0.0469
82402526|NCT03538691|164514082|SUPERIORITY|||||||0.603|||||||Chi-squared|||||||0.6030
82402527|NCT03538691|164514083|SUPERIORITY|||||||0.7081|||||||Chi-squared|||Week 21||||0.7081
82402528|NCT03538691|164514083|SUPERIORITY|||||||0.4589|||||||Chi-squared|||Week 23||||0.4589
82402529|NCT03538691|164514083|SUPERIORITY|||||||0.5314|||||||Chi-squared|||Week 25||||0.5314
82402530|NCT03538691|164514083|SUPERIORITY|||||||0.1433|||||||Chi-squared|||Week 29||||0.1433
82402531|NCT03538691|164514083|SUPERIORITY|||||||0.9636|||||||Chi-squared|||Week 33||||0.9636
82402532|NCT03538691|164514083|SUPERIORITY|||||||0.7596|||||||Chi-squared|||Week 37||||0.7596
82402533|NCT03538691|164514083|SUPERIORITY|||||||0.2402|||||||Chi-squared|||Week 41||||0.2402
82530809|NCT03390036|164758573|SUPERIORITY|||||||0.6354|||||||ANOVA|||||||0.6354
82530810|NCT03390036|164758574|SUPERIORITY|||||||0.5754|||||||ANOVA|||||||0.5754
82530811|NCT03390036|164758575|SUPERIORITY|||||||0.4759|||||||ANOVA|||||||0.4759
82530812|NCT03390036|164758576|SUPERIORITY|||||||0.5596|||||||ANOVA|||||||0.5596
82530813|NCT03390036|164758577|SUPERIORITY|||||||0.4551|||||||ANOVA|||||||0.4551
82530814|NCT03390036|164758578|SUPERIORITY|||||||0.7931|||||||ANOVA|||||||0.7931
82530815|NCT01984424|164758587|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.29|<|0.0001|TWO_SIDED|95.0|-42.31|-33.28|||Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from baseline at week 24 of part B or in the mean percent change from baseline at weeks 22 and 24 of part B in LDL-C between evolocumab 420 mg and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.28|-42.31|<0.0001
82402534|NCT03538691|164514083|SUPERIORITY|||||||0.8363|||||||Chi-squared|||Week 45||||0.8363
82402535|NCT03538691|164514083|SUPERIORITY|||||||0.8308|||||||Chi-squared|||Week 46||||0.8308
82402536|NCT03538691|164514084|SUPERIORITY||LS Mean Difference|-0.12||||0.8806|TWO_SIDED|95.0|-1.73|1.49|||ANCOVA|P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.||||1.49|-1.73|0.8806
82402537|NCT03538691|164514085|SUPERIORITY||LS Mean Difference|0.03||||0.7956|TWO_SIDED|95.0|-0.18|0.24|||ANCOVA|P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.||||0.24|-0.18|0.7956
82402538|NCT03538691|164514086|SUPERIORITY||LS Mean Difference|0.15||||0.5223|TWO_SIDED|95.0|-0.31|0.61||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Work/School||0.61|-0.31|0.5223
82402539|NCT03538691|164514086|SUPERIORITY||LS Mean Difference|0.36||||0.0904|TWO_SIDED|95.0|-0.06|0.77||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Social Life||0.77|-0.06|0.0904
82402540|NCT03538691|164514086|SUPERIORITY||LS Mean Difference|0.25||||0.2289|TWO_SIDED|95.0|-0.16|0.67||P-value was derived from an ANCOVA model with treatment, pooled center as factor and Baseline value as covariance.|ANCOVA|||SDS Individual Item: Family Life||0.67|-0.16|0.2289
82402541|NCT01243177|164514092|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The hypothesis was as follows:~H0: \[S(t)LCM\] - \[S(t)CBZ-CR\] ≤ -12 % versus HA: \[S(t)LCM\] - \[S(t)CBZ-CR\] \> -12 %, where S(t) (t= 182 days) is the cumulative rate of subjects remaining seizure free for 6 months following stabilization at the last evaluated dose (also known as the survivorship function), and -12 % represents the noninferiority margin based on absolute difference."|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.5|2.8|||Mantel Haenszel|The analysis was stratified based on the number of seizures in the 3 months preceding enrollment (≤ 2 and \>2).|The lower limit of the confidence interval was \>-12 %, noninferiority of LCM to CBZ-CR was demonstrated. Additionally, the lower confidence limit relative to the CBZ-CR seizure freedom rate was \>- 20 %.|This was a noninferiority assessment of Lacosamide versus Carbamazepine-CR for the proportion of subjects remaining seizure free for 6 months at the last evaluated dose.||2.8|-5.5|
82402542|NCT01243177|164514093|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The hypothesis was as follows:~H0: \[S(t)LCM\] - \[S(t)CBZ-CR\] ≤ -12 % versus HA: \[S(t)LCM\] - \[S(t)CBZ-CR\] \> -12 %, where S(t) (t= 182 days) is the cumulative rate of subjects remaining seizure free for 6 months following stabilization at the last evaluated dose (also known as the survivorship function), and -12 % represents the noninferiority margin based on absolute difference."|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-5.3|2.7|||Mantel Haenszel|The analysis was stratified based on the number of seizures in the 3 months preceding enrollment (≤ 2 and \>2).|The lower limit of the confidence interval was \>-12 %, noninferiority of LCM to CBZ-CR was demonstrated. Additionally, the lower confidence limit relative to the CBZ-CR seizure freedom rate was \>- 20 %.|This was a noninferiority assessment of Lacosamide versus Carbamazepine-CR for the proportion of subjects remaining seizure free for 6 months at the last evaluated dose.||2.7|-5.3|
82402543|NCT03442725|164514111|OTHER||Geometric Mean Ratio|1.297|||||TWO_SIDED|90.0|0.6|2.805||||||Analysis of variance (ANOVA) comparison of Cmax for telotristat ethyl between test group versus the control group.||2.805|0.600|
82402544|NCT03442725|164514111|OTHER||Geometric Mean Ratio|1.423|||||TWO_SIDED|90.0|0.901|2.247||||||ANOVA comparison of Cmax for LP-778902 between test group versus the control group.||2.247|0.901|
82402545|NCT03442725|164514112|OTHER|Estimate of the median difference and 90% confidence intervals (CIs) was determined by Hodges-Lehmann estimation.|Median Difference|0.0||||0.7452|TWO_SIDED|90.0|-1.0|0.95|||Wilcoxon (Mann-Whitney)|||Comparison of tmax for telotristat ethyl between test group versus the control group.||0.950|-1.000|0.7452
82530816|NCT01984424|164758588|SUPERIORITY||LS Mean Treatment Difference|-36.07|STANDARD_ERROR_OF_MEAN|2.53|<|0.0001|TWO_SIDED|95.0|-41.07|-31.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from baseline at week 24 of part B or in the mean percent change from baseline at weeks 22 and 24 of part B in LDL-C between evolocumab 420 mg and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-31.08|-41.07|<0.0001
82646046|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.5169|TWO_SIDED|95.0|0.92|1.19|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.19|0.92|0.5169
82402546|NCT03442725|164514112|OTHER|Estimate of the median difference and 90% CIs was determined by Hodges-Lehmann estimation.|Median Difference|0.0||||0.7039|TWO_SIDED|90.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||Comparison of tmax for LP-778902 between test group versus the control group.||1.000|-1.000|0.7039
82402547|NCT03442725|164514114|OTHER||Geometric Mean Ratio|1.506|||||TWO_SIDED|90.0|0.914|2.48||||||ANOVA comparison of AUC0-inf for LP-778902 between test group versus the control group.||2.480|0.914|
82402548|NCT03442725|164514115|OTHER||Geometric Mean Ratio|1.512|||||TWO_SIDED|90.0|0.915|2.498||||||ANOVA comparison of AUC0-tlast for LP-778902 between test group versus the control group.||2.498|0.915|
82402549|NCT03442725|164514119|OTHER||Arithmetic Mean Difference|0.019|||||TWO_SIDED|90.0|-0.03|0.068||||||ANOVA comparison of fu of LP-778902 between test group versus the control group.||0.068|-0.030|
82402550|NCT03442725|164514120|OTHER||Geometric Mean Ratio|1.727|||||TWO_SIDED|90.0|0.866|3.443||||||ANOVA comparison of Cmaxu for LP-778902 between test group versus the control group.||3.443|0.866|
82402551|NCT03442725|164514121|OTHER||Geometric Mean Ratio|1.828|||||TWO_SIDED|90.0|0.903|3.699||||||ANOVA comparison of AUC0-infu for LP-778902 between test group versus the control group.||3.699|0.903|
82402552|NCT03442725|164514122|OTHER||Geometric Mean Ratio|1.835|||||TWO_SIDED|90.0|0.904|3.726||||||ANOVA comparison of AUC0-tlastu for LP-778902 between test group versus the control group.||3.726|0.904|
82402553|NCT01431313|164514132|OTHER|Mixed effects model across all time points.||||||0.002|||||||Mixed Models Analysis|||||||0.002
82402554|NCT01431313|164514132|OTHER|Mixed effects model across all time points.||||||0.003|||||||Mixed Models Analysis|||||||0.003
82402555|NCT01431313|164514132|OTHER|Mixed effects model across all time points.||||||0.66|||||||Mixed Models Analysis|||||||0.66
82402556|NCT01431313|164514134|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82402557|NCT01431313|164514134|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82530817|NCT01984424|164758589|SUPERIORITY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|95.0|-84.7|-67.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-67.0|-84.7|<0.0001
82402558|NCT01431313|164514134|OTHER|Mixed effects model across all time points.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82402559|NCT01431313|164514135|OTHER|Mixed effects model across all time points.||||||0.8|||||||Mixed Models Analysis|||||||0.8
82402560|NCT01431313|164514135|OTHER|Mixed effects model across all time points.||||||0.01|||||||Mixed Models Analysis|||||||0.01
82402561|NCT01431313|164514135|OTHER|Mixed effects model across all time points.||||||0.01|||||||Mixed Models Analysis|||||||0.01
82402562|NCT01431313|164514136|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82402563|NCT01431313|164514136|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82402564|NCT01431313|164514136|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82402565|NCT01431313|164514137|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82402566|NCT01431313|164514137|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82402567|NCT01431313|164514137|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82576231|NCT02209181|164862046|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.11|3.12||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.12|1.11|<0.001
82402568|NCT01431313|164514138|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82402569|NCT01431313|164514138|OTHER|Mixed effects model of concentrations measured at Pre-dose, 15 minutes post 45mg dose and 15 minutes post 90mg dose.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82402570|NCT01431313|164514139|OTHER|Mixed effects model across all doses.|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82402571|NCT01431313|164514139|OTHER|Mixed effects model across all doses.||||||0.21|||||||Mixed Models Analysis|||||||0.21
82402572|NCT01431313|164514139|OTHER|Mixed effects model across all doses.||||||0.59|||||||Mixed Models Analysis|||||||0.59
82402573|NCT02603211|164514155|OTHER||||||||||||||||||"We will obtain 20 tactile image data sets from the breast tumor patients. The tactile images will be converted to size and deformation index. Then these two parameters will be converted to the risk score. This is a small number of patients for statistically significance study. Therefore, we plan to use the Leave-One-Out-Cross-Validation (LOOCV) technique to validate the human test results to determine the performance of the device.~We obtain the Risk Score. Risk Score is a unit less numerical value, which can be used as a scale to classify the tumor as malignant and benign. Based on the calculated size of the tumor and measured deformation index, the breast tumors are classified as benign and malignant using scoring method. The risk score will range from 0 to 5, where 0 represents the benign and 5 represents the malignant tumor.~Comparing the Risk Score and the Pathology reports we obtain sensitivity, specificity and accuracy of the system."|||
82402574|NCT03492437|164514158|OTHER||Ratio of Geometric Least square Mean|151.38|||||TWO_SIDED|90.0|127.35|179.93||||||||179.93|127.35|
82402575|NCT03492437|164514159|OTHER||Ratio of Geometric Least square Mean|144.7|||||TWO_SIDED|90.0|122.89|170.39||||||||170.39|122.89|
82402576|NCT03492437|164514160|OTHER||Ratio of Geometric Least square Mean|138.45|||||TWO_SIDED|90.0|121.59|157.65||||||||157.65|121.59|
82402577|NCT03492437|164514161|OTHER||Median Difference (Net)|0.5|||||TWO_SIDED|90.0|-0.3|1.0||||||||1.0|-0.3|
82402578|NCT02915159|164514170|SUPERIORITY|||||||0.4421|||||||longitudinal repeated measures analysis|||||||0.4421
82402579|NCT02915159|164514171|SUPERIORITY|||||||0.3367|||||||longitudinal repeated measures analysis|||||||0.3367
82402580|NCT02915159|164514172|SUPERIORITY|||||||0.5841|||||||longitudinal repeated measures analysis|||||||.5841
82402581|NCT04534517|164514211|SUPERIORITY|The superiority of the Test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 32 points|Mean Estimate|58.6|STANDARD_DEVIATION|3.26|||TWO_SIDED|95.0|52.3|64.9|||Bayesian multivariate random-effects||Included Hyperope group only|It was calculated that 60 participants would have \> 99% power to for the mean CLUE vision scores for each sphere stratum to be above the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||64.9|52.3|
82402582|NCT04534517|164514211|SUPERIORITY|The superiority of the Test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 40 points for Myopes|Mean Estimate|63.8|STANDARD_DEVIATION|2.97|||TWO_SIDED|95.0|57.9|69.6|||Bayesian multivariate random-effects||Included myope group only.|It was calculated that 60 participants would have \> 99% power to for the mean CLUE vision scores for each sphere stratum to be above the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||69.6|57.9|
82402583|NCT04534517|164514212|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.10 logMAR for Distance|Mean estimate|-0.09|STANDARD_DEVIATION|0.0172|||TWO_SIDED|95.0|-0.125|-0.057|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||-0.057|-0.125|
82530818|NCT01984424|164758590|SUPERIORITY||LS Mean Treatment Difference|-71.7|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001|TWO_SIDED|95.0|-81.3|-62.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-62.2|-81.3|<0.0001
82402584|NCT04534517|164514212|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Intermediate|Mean Estimate|-0.057|STANDARD_DEVIATION|0.0171|||TWO_SIDED|95.0|-0.091|-0.024|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||-0.024|-0.091|
82402585|NCT04534517|164514212|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Near|Mean Estimate|0.066|STANDARD_DEVIATION|0.0171|||TWO_SIDED|95.0|0.031|0.098|||Bayesian normal random-effects model|Repeated Measures||It was calculated that 60 participants would have \> 99% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 2-week follow-up. Sample size was determined using one sample means test for equivalence||0.098|0.031|
82402586|NCT04534517|164514213|SUPERIORITY|A superiority margin of 5% was used. Upper limit of 95% credible interval was compared to 5%.|Mean Proportion|0.001|STANDARD_DEVIATION|0.0012|||TWO_SIDED|95.0|0.0|0.004|||Bayesian beta-binomial model|Correlated Binary Data||||0.004|0.000|
82402587|NCT04534517|164514214|SUPERIORITY|A superiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Proportion|0.005|STANDARD_DEVIATION|0.0048|||TWO_SIDED|95.0|0.0|0.018|||Bayesian beta-binomial model|Correlated Binary Data||||0.018|0.000|
82402588|NCT04534517|164514215|SUPERIORITY|A superiority margin of 90% was used. Lower limit of the 95% credible interval was compared to 90%|Mean Proportion|0.992|STANDARD_DEVIATION|0.0072|||TWO_SIDED|95.0|0.973|0.999|||Bayesian beta-binomial model|Correlated Binary Data||||0.999|0.973|
82402589|NCT05133323|164514219|SUPERIORITY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.89||0.0106|ONE_SIDED|90.0||-0.6|||ANCOVA|||||-0.6||0.0106
82402590|NCT00105989|164514254|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustments were made for multiple comparisons. The primary efficacy analysis compared the time to recurrence during the maintenance phase between all duloxetine and placebo patients using the log-rank test, stratified by country at α=.05.|Log Rank|The log rank method provides a single p-value comparing time to depressive recurrence for placebo and duloxetine.||A total of 257 randomized patients (randomly assigned with equal probability to the two treatment groups) were needed to have 90% power to detect 40% versus 20% recurrence rates over 52 weeks, using a log rank test at a two-sided significance level of .05.||||<0.001
82402591|NCT00105989|164514255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Frequencies are analyzed using Cochran-Mantel-Haenszel controlling for investigator||||||<0.001
82402592|NCT00105989|164514256|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|The log rank method provides a single p-value comparing time to depressive recurrence for placebo and duloxetine.||||||0.003
82402593|NCT00105989|164514257|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Cochran-Mantel-Haenszel|Frequencies were analyzed using Cochran-Mantel-Haenszel controlling for investigator.||||||0.003
82402594|NCT00105989|164514258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402595|NCT00105989|164514258|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.016
82530819|NCT01984424|164758591|SUPERIORITY||Treatment Difference|28.5|||<|0.0001|TWO_SIDED|95.0|19.1|36.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (screening LDL-C).||||36.7|19.1|<0.0001
82402596|NCT00105989|164514259|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82402597|NCT00105989|164514260|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402598|NCT00105989|164514260|SUPERIORITY_OR_OTHER|||||||0.153||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.153
82402599|NCT00105989|164514261|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82402600|NCT00105989|164514262|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean value at endpoint is significant from 4.||||||<0.001
82402601|NCT00105989|164514262|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean value at endpoint is significant from 4.||||||<0.001
82402602|NCT00105989|164514263|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82402603|NCT00105989|164514264|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for Change from Baseline to Endpoint for all Subscales during Acute phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402604|NCT00105989|164514264|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value for Anxiety Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.334
82402605|NCT00105989|164514264|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Core Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.019
82402606|NCT00105989|164514264|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Maier Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.046
82402607|NCT00105989|164514264|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Retardation Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402608|NCT00105989|164514264|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value for Sleep Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.319
82530820|NCT01984424|164758592|SUPERIORITY||Treatment Difference|27.4|||<|0.0001|TWO_SIDED|95.0|17.7|36.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (screening LDL-C).||||36.1|17.7|<0.0001
82402609|NCT00105989|164514264|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Depressed Mood Change from Baseline to Endpoint.|t-test, 2 sided|t-test assessses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.275
82402610|NCT00105989|164514265|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pairwise comparison of Least Squares Means for Anxiety Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||<0.001
82402611|NCT00105989|164514265|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pairwise comparison of Least Squares Means for Core Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.002
82530821|NCT01984424|164758593|SUPERIORITY||LS Mean Treatment Difference|-26.61|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-29.95|-23.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-23.27|-29.95|<0.0001
82530822|NCT01984424|164758594|SUPERIORITY||LS Mean Treatment Difference|-25.08|STANDARD_ERROR_OF_MEAN|1.82|<|0.0001|TWO_SIDED|95.0|-28.67|-21.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-21.48|-28.67|<0.0001
82530823|NCT01984424|164758595|SUPERIORITY||LS Mean Treatment Difference|-33.06|STANDARD_ERROR_OF_MEAN|2.06|<|0.0001|TWO_SIDED|95.0|-37.12|-28.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-28.99|-37.12|<0.0001
82530824|NCT01984424|164758596|SUPERIORITY||LS Mean Treatment Difference|-31.1|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001|TWO_SIDED|95.0|-35.44|-16.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-16.76|-35.44|<0.0001
82530825|NCT01984424|164758597|SUPERIORITY||LS Mean Treatment Difference|-33.86|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-38.15|-29.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-29.58|-38.15|<0.0001
82530826|NCT01984424|164758598|SUPERIORITY||LS Mean Treatment Difference|-31.75|STANDARD_ERROR_OF_MEAN|2.33|<|0.0001|TWO_SIDED|95.0|-36.35|-27.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-27.16|-36.35|<0.0001
82530827|NCT01984424|164758599|SUPERIORITY||LS Mean Treatment Difference|-29.91|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-34.06|-25.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-25.77|-34.06|<0.0001
82530828|NCT01984424|164758600|SUPERIORITY||LS Mean Treatment Difference|-27.2|STANDARD_ERROR_OF_MEAN|2.22|<|0.0001|TWO_SIDED|95.0|-31.58|-22.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-22.82|-31.58|<0.0001
82530829|NCT01984424|164758601|SUPERIORITY||LS Mean Treatment Difference|-34.13|STANDARD_ERROR_OF_MEAN|2.26|<|0.0001|TWO_SIDED|95.0|-38.59|-29.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-29.67|-38.59|<0.0001
82530830|NCT01984424|164758602|SUPERIORITY||LS Mean Treatment Difference|-31.98|STANDARD_ERROR_OF_MEAN|2.36|<|0.0001|TWO_SIDED|95.0|-36.64|-27.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-27.32|-36.64|<0.0001
82646047|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.0103|TWO_SIDED|95.0|1.03|1.24|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.24|1.03|0.0103
82402612|NCT00105989|164514265|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Pairwise comparison of Least Squares Means for Maier Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.002
82402613|NCT00105989|164514265|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Pairwise comparison of Least Squares Means for Retardation Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.003
82530831|NCT01984424|164758603|SUPERIORITY||LS Mean Treatment Difference|-21.08|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|95.0|-27.65|-14.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-14.51|-27.65|<0.0001
82530832|NCT01984424|164758604|SUPERIORITY||LS Mean Treatment Difference|-21.24|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001|TWO_SIDED|95.0|-28.42|-14.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||-14.05|-28.42|<0.0001
82530833|NCT01984424|164758605|SUPERIORITY||LS Mean Treatment Difference|-4.44|STANDARD_ERROR_OF_MEAN|4.72||0.37|TWO_SIDED|95.0|-13.74|4.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||4.87|-13.74|0.37
82530834|NCT01984424|164758606|SUPERIORITY||LS Mean Treatment Difference|-1.82|STANDARD_ERROR_OF_MEAN|6.0||0.37|TWO_SIDED|95.0|-13.64|10.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||10.01|-13.64|0.37
82445832|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|42.14|||||TWO_SIDED|95.0|27.08|56.98|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||56.98|27.08|
82445833|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|40.56|||||TWO_SIDED|95.0|25.91|55.15|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||55.15|25.91|
82445834|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|-3.1|||||TWO_SIDED|95.0|-10.2|3.89|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||3.89|-10.20|
82445835|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.74|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||28.83|12.74|
82445836|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.74|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||28.83|12.74|
82445837|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.57|||||TWO_SIDED|95.0|12.75|28.83|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||28.83|12.75|
82445838|NCT02986854|164599960|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.0|||||TWO_SIDED|95.0|-1.31|1.35|||Miettinen & Nurminen score method|||Serogroup W- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||1.35|-1.31|
82445839|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|21.82|||||TWO_SIDED|95.0|11.44|30.6|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Naive)||30.60|11.44|
82445840|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|17.67|||||TWO_SIDED|95.0|7.34|26.43|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menactra-Menveo vs. Naive)||26.43|7.34|
82530835|NCT01984424|164758607|SUPERIORITY||LS Mean Treatment Difference|6.18|STANDARD_ERROR_OF_MEAN|2.05||0.0083|TWO_SIDED|95.0|2.15|10.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||10.22|2.15|0.0083
82445841|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|19.77|||||TWO_SIDED|95.0|10.09|27.43|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||27.43|10.09|
82445842|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|4.15|||||TWO_SIDED|95.0|-3.8|12.04|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 1- (Menveo-Menveo vs. Menactra-Menveo)||12.04|-3.80|
82576232|NCT02209181|164862047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.329|TWO_SIDED|95.0|-0.5|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-0.50|0.329
82445843|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.33|||||TWO_SIDED|95.0|2.92|30.99|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Naive)||30.99|2.92|
82445844|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.3|||||TWO_SIDED|95.0|2.83|31.06|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menactra-Menveo vs. Naive)||31.06|2.83|
82445845|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|18.31|||||TWO_SIDED|95.0|3.83|29.39|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||29.39|3.83|
82530836|NCT01984424|164758608|SUPERIORITY||LS Mean Treatment Difference|4.5|STANDARD_ERROR_OF_MEAN|2.27||0.0083|TWO_SIDED|95.0|0.02|8.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||8.98|0.02|0.0083
82576233|NCT02209181|164862047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.5||0.531|TWO_SIDED|95.0|-0.68|1.31||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.31|-0.68|0.531
82530837|NCT01984424|164758609|SUPERIORITY||LS Mean Treatment Difference|-4.65|STANDARD_ERROR_OF_MEAN|3.85||0.37|TWO_SIDED|95.0|-12.25|2.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||2.94|-12.25|0.37
82402614|NCT00105989|164514265|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Pairwise comparison of Least Squares Means for Sleep Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.001
82402615|NCT00105989|164514265|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Pairwise comparison of Least Squares Means for Depressed Mood Subscale Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.003
82402616|NCT00105989|164514266|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for all Change from Baseline to Endpoint measures in the Acute Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402617|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value for Overall Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.273
82402618|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||P-value for Headache Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.968
82402619|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.998||95.0||||P-value for Back Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.998
82402620|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.703||95.0||||P-value for Shoulder Pain Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.703
82402621|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.346||95.0||||P-value for Interference with Daily Activities Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.346
82402622|NCT00105989|164514266|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value for Pain While Awake Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.963
82402623|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-value for pairwise comparison of Least Squares Means for Overall Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.792
82402624|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||P-value for pairwise comparison of Least Squares Means for Headache Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.407
82402625|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||P-value for pairwise comparison of Least Squares Means for Back Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.475
82402626|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||P-value for pairwise comparison of Least Squares Means for Shoulder Pain Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.241
82402627|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.885||95.0||||P-value for pairwise comparison of Least Squares Means for Interference with Daily Activities Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.885
82402628|NCT00105989|164514267|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||P-value for pairwise comparison of Least Squares Means for Pain While Awake Change from Baseline to Endpoint.|t-test, 2 sided|||||||0.717
82402629|NCT00105989|164514268|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402630|NCT00105989|164514268|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||P-value for Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.157
82402631|NCT00105989|164514269|SUPERIORITY_OR_OTHER|||||||0.979||95.0|||||t-test, 2 sided|||||||0.979
82402632|NCT00105989|164514270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint in all SDS items in Acute Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402633|NCT00105989|164514270|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to Endpoint in all SDS items in the Continuation Phase were \<0.001.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402634|NCT00105989|164514271|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Global Score|t-test, 2 sided|||||||0.029
82402635|NCT00105989|164514271|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Work/School.|t-test, 2 sided|||||||0.022
82402636|NCT00105989|164514271|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Social Life.|t-test, 2 sided|||||||0.110
82402637|NCT00105989|164514271|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for pairwise comparison of Least Squares Means for Change from Baseline to Endpoint in Family Life/Home Responsibilities.|t-test, 2 sided|||||||0.021
82402638|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for Change from Baseline to Endpoint in all SF-36 subscales in the Acute Phase were \<0.001|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402639|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-value for Physical Component Summary Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.947
82402640|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Component Summary Change to Endpoint|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402641|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value for Physical Functioning Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.118
82402642|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||P-value for Bodily Pain Change from Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.550
82402643|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Role Limitations Due to Physical Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.029
82530838|NCT01984424|164758610|SUPERIORITY||LS Mean Treatment Difference|-1.23|STANDARD_ERROR_OF_MEAN|4.67||0.37|TWO_SIDED|95.0|-10.45|7.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated Measures Model|Model includes treatment group, stratification factor (screening LDL-C), scheduled visit and interaction of treatment with scheduled visit.||||7.98|-10.45|0.37
82646048|NCT01236053|165007137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.4182|TWO_SIDED|95.0|0.95|1.14|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy."|||1.14|0.95|0.4182
82402644|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Role Limitations Due to Emotional Problems Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402645|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for General Health Perceptions Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.002
82402646|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Health Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402647|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Social Function Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402648|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Vitality Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402649|NCT00105989|164514272|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||P-value for Rate Current Health Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.815
82402650|NCT00105989|164514272|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Health Compared to a Year Ago Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402651|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Physical Component Summary.|t-test, 2 sided|||||||0.415
82402652|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Mental Component Summary.|t-test, 2 sided|||||||0.002
82402653|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.731||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Physical Functioning.|t-test, 2 sided|||||||0.731
82530839|NCT01807221|164758611|OTHER||Mean Difference (Final Values)|-6.3||||0.8771|TWO_SIDED|90.0|-14.9|2.3|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||2.3|-14.9|0.8771
82530840|NCT01807221|164758611|OTHER||Mean Difference (Final Values)|-4.7||||0.7945|TWO_SIDED|90.0|-13.4|4.0|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||4|-13.4|0.7945
82576234|NCT02209181|164862047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.53|3.54||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.54|1.53|<0.001
82402654|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Bodily Pain.|t-test, 2 sided|||||||0.438
82402655|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Role Limitations Due to Physical.|t-test, 2 sided|||||||0.029
82402656|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Role Limitations Due to Emotional problems.|t-test, 2 sided|||||||0.003
82402657|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-General Health Perceptions.|t-test, 2 sided|||||||0.391
82402658|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Mental Health.|t-test, 2 sided|||||||0.001
82402659|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Social Functioning.|t-test, 2 sided|||||||0.142
82646049|NCT01236053|165007138|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|0.65||||0.3597|TWO_SIDED|95.0|0.26|1.62|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.62|0.26|0.3597
82402660|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.24||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Vitality.|t-test, 2 sided|||||||0.240
82402661|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Rate General Health.|t-test, 2 sided|||||||0.615
82402662|NCT00105989|164514273|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value is pairwise comparison of Least Squares Means for Change from Baseline-Health Compared to a Year Ago.|t-test, 2 sided|||||||0.218
82402663|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for change in number of Primary Health Care Provider Visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.838
82530841|NCT01807221|164758611|OTHER||Mean Difference (Final Values)|0.1||||0.5|TWO_SIDED|90.0|-8.5|8.8|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearsonconfidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||8.8|-8.5|0.5
82402664|NCT00105989|164514274|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in number of Psychiatrist visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402665|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||P-value for change in number of Psychologist/Therapist visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.236
82402666|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.145||95.0||||P-value for change in number of Other Specialist Physician visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.145
82402667|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||P-value for change in number of Other (Specified by Patient) visits in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.423
82402668|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value for change in number of Primary Health Care Provider visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.325
82402669|NCT00105989|164514274|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in number of Psychiatrist visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402670|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.915||95.0||||P-value for change in number of Psychologist/Therapist visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.915
82402671|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.223||95.0||||P-value for change in number of Other Specialist Physician visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.223
82402672|NCT00105989|164514274|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||P-value for change in number of Other (Specified by Patient) visits in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.362
82402673|NCT00105989|164514275|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Primary Health Care Provider visits.|t-test, 2 sided|||||||0.462
82445846|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.03|||||TWO_SIDED|95.0|-11.35|11.39|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 4- (Menveo-Menveo vs. Menactra-Menveo)||11.39|-11.35|
82445847|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.87|||||TWO_SIDED|95.0|32.64|62.38|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Naive)||62.38|32.64|
82445848|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.18|||||TWO_SIDED|95.0|31.87|61.79|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menactra-Menveo vs. Naive)||61.79|31.87|
82402674|NCT00105989|164514275|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Psychiatrist visits.|t-test, 2 sided|||||||0.668
82445849|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|48.53|||||TWO_SIDED|95.0|33.04|61.31|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||61.31|33.04|
82576235|NCT02209181|164862047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.5||0.722|TWO_SIDED|95.0|-1.17|0.81||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.81|-1.17|0.722
82402675|NCT00105989|164514275|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Psychologist/Therapist visits.|t-test, 2 sided|||||||0.746
82402676|NCT00105989|164514275|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Other Specialist Physician visits.|t-test, 2 sided|||||||0.511
82402677|NCT00105989|164514275|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||P-value for pairwise comparison of means for change from baseline to endpoint in Other (Specified by Patient) Provider visits.|t-test, 2 sided|||||||0.271
82445850|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|0.69|||||TWO_SIDED|95.0|-8.6|10.04|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 6- (Menveo-Menveo vs. Menactra-Menveo)||10.04|-8.60|
82402678|NCT00105989|164514276|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||P-value for Change in Average Number of Hours Worked In a Week in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.506
82402679|NCT00105989|164514276|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||P-value for Change in Average Number of Hours Worked In a Week in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.057
82402680|NCT00105989|164514277|SUPERIORITY_OR_OTHER|||||||0.826||95.0|||||t-test, 2 sided|||||||0.826
82402681|NCT00105989|164514278|SUPERIORITY_OR_OTHER|||||||0.105||95.0||||P-value for Change in Number of Missed Paid Work Hours in Acute Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.105
82402682|NCT00105989|164514278|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value for Change in Number of Missed Paid Work Hours in Continuation Phase|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.174
82402683|NCT00105989|164514279|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||t-test, 2 sided|||||||0.037
82402684|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.785
82402685|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.354
82402686|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.170
82402687|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.825||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.825
82402688|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.877||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.877
82402689|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.009
82402690|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.670
82402691|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.100
82402692|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.021
82402693|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.047
82402694|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.023
82402695|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.668
82402696|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.136||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.136
82402697|NCT00105989|164514280|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.152
82402698|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402699|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402700|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402701|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402702|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.005
82402703|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.050
82402704|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.022
82402705|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Sum Items 1 to 5 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.002
82402706|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sum Items 1\&2 Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402707|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 1-Sex Drive Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402708|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 2-Arousal Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402709|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value for Item 3-Vaginal Lubrication/Penile Erection Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.186
82402710|NCT00105989|164514281|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Item 4-Orgasm Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402711|NCT00105989|164514281|SUPERIORITY_OR_OTHER|||||||0.308||95.0||||P-value for Item 5-Satisfaction Change to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.308
82445851|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|35.48|||||TWO_SIDED|95.0|26.5|45.62|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Naive)||45.62|26.50|
82402712|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.773||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 to 5.|t-test, 2 sided|||||||0.773
82402713|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 and 2.|t-test, 2 sided|||||||0.405
82402714|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.443||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 1-Sex Drive.|t-test, 2 sided|||||||0.443
82402715|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.384||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 2-Arousal.|t-test, 2 sided|||||||0.384
82402716|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 3-Vaginal Lubrication/Penile Erection.|t-test, 2 sided|||||||0.268
82402717|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 4-Orgasm.|t-test, 2 sided|||||||0.093
82402718|NCT00105989|164514282|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 5-Satisfaction.|t-test, 2 sided|||||||0.566
82402719|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 to 5.|t-test, 2 sided|||||||0.979
82402720|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for the Sum of Items 1 and 2.|t-test, 2 sided|||||||0.132
82402721|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 1-Sex Drive.|t-test, 2 sided|||||||0.180
82646050|NCT01236053|165007138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.1845|TWO_SIDED|95.0|0.21|1.34|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.34|0.21|0.1845
82646051|NCT01236053|165007138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9142|TWO_SIDED|95.0|0.58|1.84|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.84|0.58|0.9142
82402722|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 2-Arousal.|t-test, 2 sided|||||||0.163
82402723|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 3-Vaginal Lubrication/Penile Erection.|t-test, 2 sided|||||||0.844
82402724|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 4-Orgasm.|t-test, 2 sided|||||||0.609
82402725|NCT00105989|164514283|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for pairwise comparison Least Squares Mean change from baseline for Item 5-Satisfaction.|t-test, 2 sided|||||||0.071
82402726|NCT00105989|164514284|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Weight Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402727|NCT00105989|164514284|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Weight Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402728|NCT00105989|164514285|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||t-test, 2 sided|||||||0.314
82402729|NCT00105989|164514286|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pulse Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402730|NCT00105989|164514286|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Pulse Change from Baseline to Endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<0.001
82402731|NCT00105989|164514287|SUPERIORITY_OR_OTHER|||||||0.891||95.0|||||t-test, 2 sided|||||||0.891
82402732|NCT00105989|164514288|SUPERIORITY_OR_OTHER|||||||0.659||95.0||||P-value for systolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.659
82402733|NCT00105989|164514288|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value for diastolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.064
82402734|NCT00105989|164514288|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||P-value for systolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.224
82402735|NCT00105989|164514288|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||P-value for diastolic blood pressure change to endpoint.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||0.210
82402736|NCT00105989|164514289|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value for Change from Baseline: systolic blood pressure.|t-test, 2 sided|||||||0.134
82402737|NCT00105989|164514289|SUPERIORITY_OR_OTHER|||||||0.816||95.0||||P-value for Change from Baseline: diastolic blood pressure.|t-test, 2 sided|||||||0.816
82402738|NCT00105989|164514290|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402739|NCT00105989|164514291|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.007
82402740|NCT00105989|164514292|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.035
82445852|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.06|||||TWO_SIDED|95.0|24.94|44.28|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menactra-Menveo vs. Naive)||44.28|24.94|
82445853|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|34.78|||||TWO_SIDED|95.0|25.78|44.93|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||44.93|25.78|
82445854|NCT02986854|164599961|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Between groups differences in percentage|1.42|||||TWO_SIDED|95.0|0.1|3.6|||Miettinen & Nurminen score method|||Serogroup Y- hSBA titer ≥16-Vaccine comparison at Day 29- (Menveo-Menveo vs. Menactra-Menveo)||3.60|0.10|
82445855|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.39|||||TWO_SIDED|95.0|-6.08|4.94|||Miettinen & Nurminen score method|||Serogroup A- Day 4- Total seroresponse (Menveo-Menveo vs. Naive)||4.94|-6.08|
82445856|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|2.17|||||TWO_SIDED|95.0|-5.32|6.21|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||6.21|-5.32|
82445857|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.77|||||TWO_SIDED|95.0|-5.68|4.09|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.09|-5.68|
82445858|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-0.79|||||TWO_SIDED|95.0|-4.98|3.01|||Miettinen & Nurminen score method|||Serogroup A- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||3.01|-4.98|
82445859|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|34.76|||||TWO_SIDED|95.0|22.38|44.07|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||44.07|22.38|
82445860|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|26.88|||||TWO_SIDED|95.0|14.67|36.13|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||36.13|14.67|
82445861|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|30.89|||||TWO_SIDED|95.0|19.42|37.97|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||37.97|19.42|
82445862|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|7.88|||||TWO_SIDED|95.0|-3.25|18.81|||Miettinen & Nurminen score method|||Serogroup A- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||18.81|-3.25|
82445863|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-3.45|||||TWO_SIDED|95.0|-14.26|2.35|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||2.35|-14.26|
82445864|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|2.51|||||TWO_SIDED|95.0|-8.7|9.98|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||9.98|-8.70|
82445865|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-0.54|||||TWO_SIDED|95.0|-11.35|4.9|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.90|-11.35|
82445866|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-5.96|||||TWO_SIDED|95.0|-12.25|-0.57|||Miettinen & Nurminen score method|||Serogroup C- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||-0.57|-12.25|
82646052|NCT01236053|165007138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.6524|TWO_SIDED|95.0|0.49|1.57|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.57|0.49|0.6524
82646053|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.2875|TWO_SIDED|95.0|0.17|1.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.70|0.17|0.2875
82445867|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|40.03|||||TWO_SIDED|95.0|25.37|50.92|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||50.92|25.37|
82445868|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|36.84|||||TWO_SIDED|95.0|22.14|47.9|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||47.90|22.14|
82646054|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.2042|TWO_SIDED|95.0|0.15|1.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.51|0.15|0.2042
82646055|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.4733|TWO_SIDED|95.0|0.38|8.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||8.06|0.38|0.4733
82402741|NCT00105989|164514293|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.021
82402742|NCT00105989|164514294|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402743|NCT00105989|164514295|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||The mean change to endpoint of -0.00 indicates that on average, endpoint score decreased from baseline score by less than 0.005 units.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.019
82402744|NCT00105989|164514296|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.005
82402745|NCT00105989|164514297|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.031
82402746|NCT00105989|164514298|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402747|NCT00105989|164514299|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402748|NCT00105989|164514300|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402749|NCT00105989|164514301|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82445869|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.46|||||TWO_SIDED|95.0|24.79|47.57|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||47.57|24.79|
82646056|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.7867|TWO_SIDED|95.0|0.26|5.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||5.85|0.26|0.7867
82646057|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53||||0.0049|TWO_SIDED|95.0|1.47|8.5|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||8.50|1.47|0.0049
82402750|NCT00105989|164514302|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402751|NCT00105989|164514303|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.004
82402752|NCT00105989|164514304|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.010
82402753|NCT00105989|164514305|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.003
82402754|NCT00105989|164514306|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402755|NCT00105989|164514307|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.015
82402756|NCT00105989|164514308|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The mean change to endpoint of -0.00 indicates that on average, endpoint score decreased from baseline score by less than 0.005 units.|t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.021
82402757|NCT00105989|164514309|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402758|NCT00105989|164514310|SUPERIORITY_OR_OTHER|||||||0.032||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.032
82402759|NCT00105989|164514311|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402760|NCT00105989|164514312|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||<.001
82402761|NCT00105989|164514313|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.028
82402762|NCT00105989|164514314|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.008
82402763|NCT00105989|164514315|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||t-test, 2 sided|t-test assesses if within treatment mean changes from baseline to endpoint are significantly different from zero.||||||.046
82402764|NCT00105989|164514316|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-value for Change to Endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.035
82402765|NCT00105989|164514317|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Change to Endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.011
82402766|NCT00105989|164514318|SUPERIORITY_OR_OTHER|||||||0.744||95.0||||P-value for fasting glucose change from baseline to endpoint|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.744
82402767|NCT00105989|164514318|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for non-fasting glucose change from baseline to endpoint.|ANOVA|Type II Sums of Squares from an analysis of variance (ANOVA) on the Ranks: Model = Pooled Investigator and Therapy.||||||0.030
82402768|NCT00872521|164514332|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.09
82402769|NCT00872521|164514333|SUPERIORITY_OR_OTHER|||||||0.23|||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.23
82402770|NCT00872521|164514334|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.23
82402771|NCT00872521|164514335|SUPERIORITY_OR_OTHER|||||||0.56|||||||Chi-squared|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.56
82402772|NCT00872521|164514336|SUPERIORITY_OR_OTHER|||||||0.01|||||||Log Rank|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.01
82402773|NCT00872521|164514337|SUPERIORITY_OR_OTHER|||||||0.28|||||||Log Rank|||Null Hypothesis: There is no difference in response rate between 1q21 amplified and 1q21 NOT amplified||||0.28
82402774|NCT02427841|164514375|SUPERIORITY|Tested against the standard R0 rate of 37%. Given all evaluable patients are included in the denominator, R0 of 56% was not achieved. Specifically, of the 19 evaluable patients, 11 proceeded to surgery. Of the 11 who underwent surgery, 8 \[42% of those enrolled, but 72.7% of those resected\] achieved R0 resection.|binomial|42.0||||0.404|TWO_SIDED|95.0|20.0|67.0||Study was underpowered.|2-sided exact binomial||Test for superiority over standard R0 resection rate of 37%. Study was closed due to slow enrollment, meaning the primary endpoint was underpowered with only 19 of an expected 44 patients enrolled.|Study closed early due to lack of enrollment. Study expected to enrolled 44 evaluable patients to achieve 83% power using the 2-sided binomial test at 10% significance. Study enrolled only 19 evaluable patients, meaning the study was underpowered at \< 62%||67|20|.404
82402775|NCT01096160|164514397|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-7.08||||0.1194|TWO_SIDED|90.0|-17.1|2.92|||Linear mixed effects model|||||2.92|-17.1|0.1194
82402776|NCT01096160|164514397|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-13.1||||0.0224|TWO_SIDED|90.0|-23.7|-2.48|||Linear mixed effects model|||||-2.48|-23.7|0.0224
82402777|NCT01096160|164514397|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|0.33||||0.4791|TWO_SIDED|90.0|-10.3|10.91|||Linear mixed effects model|||||10.91|-10.3|0.4791
82402778|NCT01096160|164514397|OTHER|Difference in change from baseline in SBP (TWA\^0-24hrs)|Mean Difference (Final Values)|-8.21||||0.0705|TWO_SIDED|90.0|-17.4|1.01|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||1.01|-17.4|0.0705
82445870|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.19|||||TWO_SIDED|95.0|-8.44|14.73|||Miettinen & Nurminen score method|||Serogroup C- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||14.73|-8.44|
82646058|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.87||||0.0218|TWO_SIDED|95.0|1.17|7.08|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||7.08|1.17|0.0218
82402779|NCT01096160|164514398|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|3.85||||0.1161|TWO_SIDED|90.0|-1.51|9.22|||Linear mixed effects model|||||9.22|-1.51|0.1161
82402780|NCT01096160|164514398|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|7.28||||0.0189|TWO_SIDED|90.0|1.6|12.97|||Linear mixed effects model|||||12.97|1.60|0.0189
82402781|NCT01096160|164514398|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|0.26||||0.4689|TWO_SIDED|90.0|-5.42|5.95|||Linear mixed effects model|||||5.95|-5.42|0.4689
82402782|NCT01096160|164514398|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|4.06||||0.0869|TWO_SIDED|90.0|-0.89|9.01|||Linear mixed effects model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||9.01|-0.89|0.0869
82402783|NCT01096160|164514399|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-9.87||||0.003|TWO_SIDED|90.0|-15.7|-4.09|||Linear mixed effects model|||||-4.09|-15.7|0.003
82402784|NCT01096160|164514399|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-11.2||||0.002|TWO_SIDED|90.0|-17.3|-5.1|||Linear mixed effects model|||||-5.10|-17.3|0.002
82402785|NCT01096160|164514399|OTHER|Comparison of Day 10 values (TWA\^0-24hrs) for MK-8266 vs placebo|Mean Difference (Final Values)|-5.18||||0.08|TWO_SIDED|90.0|-11.3|0.95|||Linear mixed effcts model|||||0.95|-11.3|0.080
82402786|NCT01096160|164514399|OTHER|Difference in change from baseline in AIx (TWA\^0-24hrs)|Mean Difference (Final Values)|-6.79||||0.019|TWO_SIDED|90.0|-12.1|-1.46|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||-1.46|-12.1|0.019
82402787|NCT01096160|164514400|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|1.28||||0.318|TWO_SIDED|90.0|0.53|3.05|||Linear mixed effects model|||||3.05|0.53|0.318
82402788|NCT01096160|164514400|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|1.66||||0.17|TWO_SIDED|90.0|0.66|4.17|||Linear mixed effects model|||||4.17|0.66|0.17
82402789|NCT01096160|164514400|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|0.41||||0.054|TWO_SIDED|90.0|0.16|1.02|||Linear mixed effcts model|||||1.02|0.16|0.054
82402790|NCT01096160|164514400|OTHER|Difference in change from baseline in cGMP|Geometric Mean Ratio|0.78||||0.297|TWO_SIDED|90.0|0.35|1.73|||Linear mixed effcts model|||Panel D and Panel E had identical treatments (MK-8266 0.8 mg TID), which were combined for this analysis. Panel D was completed prior to initiation of Panel E.||1.73|0.35|0.297
82402791|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.003|TWO_SIDED|95.0|0.55|0.89|||Regression, Cox|||This statistical Analysis corresponds to Global health status/quality of life scale||0.89|0.55|0.003
82402792|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.5|0.76|||Regression, Cox|||This statistical Analysis corresponds to Physical functioning scale||0.76|0.50|<0.001
82646059|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.849|TWO_SIDED|95.0|0.27|2.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.92|0.27|0.8490
82445871|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-3.47|||||TWO_SIDED|95.0|-14.28|2.31|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||2.31|-14.28|
82445872|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.89|||||TWO_SIDED|95.0|-7.4|11.6|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||11.60|-7.40|
82445873|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|0.13|||||TWO_SIDED|95.0|-10.7|5.66|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||5.66|-10.70|
82445874|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-7.37|||||TWO_SIDED|95.0|-13.89|-1.8|||Miettinen & Nurminen score method|||Serogroup W- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||-1.80|-13.89|
82445875|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.98|||||TWO_SIDED|95.0|24.35|49.88|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||49.88|24.35|
82445876|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|37.92|||||TWO_SIDED|95.0|23.23|48.95|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||48.95|23.23|
82445877|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|38.46|||||TWO_SIDED|95.0|24.8|47.56|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||47.56|24.80|
82646060|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.6263|TWO_SIDED|95.0|0.22|2.46|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.46|0.22|0.6263
82445878|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|1.06|||||TWO_SIDED|95.0|-10.51|12.6|||Miettinen & Nurminen score method|||Serogroup W- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||12.60|-10.51|
82445879|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|7.75|||||TWO_SIDED|95.0|0.15|13.36|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse- (Menveo-Menveo vs. Naive)||13.36|0.15|
82445880|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|4.38|||||TWO_SIDED|95.0|-3.15|9.24|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Menactra-Menveo vs. Naive)||9.24|-3.15|
82445881|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|6.09|||||TWO_SIDED|95.0|-1.41|9.55|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||9.55|-1.41|
82445882|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|3.37|||||TWO_SIDED|95.0|-2.48|9.54|||Miettinen & Nurminen score method|||Serogroup Y- Day 4-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||9.54|-2.48|
82646061|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.4122|TWO_SIDED|95.0|0.19|1.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.97|0.19|0.4122
82445883|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|39.86|||||TWO_SIDED|95.0|25.76|50.29|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse- (Menveo-Menveo vs. Naive)||50.29|25.76|
82445884|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|48.05|||||TWO_SIDED|95.0|33.89|58.34|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Menactra-Menveo vs. Naive)||58.34|33.89|
82445885|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|43.91|||||TWO_SIDED|95.0|30.79|52.37|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||52.37|30.79|
82530842|NCT01807221|164758611|OTHER||Mean Difference (Final Values)|1.6||||0.4225|TWO_SIDED|90.0|-7.1|10.2|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearsonconfidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||10.2|-7.1|0.4225
82445886|NCT02986854|164599962|OTHER|Differences in percentages and associated 95% CIs between study groups were calculated using the Miettinen \& Nurminen score method|Differences in percentage|-8.19|||||TWO_SIDED|95.0|-19.61|3.45|||Miettinen & Nurminen score method|||Serogroup Y- Day 6-Total seroresponse - (Menveo-Menveo vs. Menactra-Menveo)||3.45|-19.61|
82445887|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.26|||||TWO_SIDED|95.0|0.93|1.7||||||Serogroup A-Vaccine comparison at day 4(Menveo-Menveo vs. Naive)||1.70|0.93|
82402793|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.51|0.79|||Regression, Cox|||This statistical Analysis corresponds to Role functioning scale||0.79|0.51|<0.001
82402794|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.818|TWO_SIDED|95.0|0.76|1.25|||Regression, Cox|||This statistical Analysis corresponds to Emotional functioning scale||1.25|0.76|0.818
82402795|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.004|TWO_SIDED|95.0|0.54|0.89|||Regression, Cox|||This statistical Analysis corresponds to Cognitive functioning scale||0.89|0.54|0.004
82402796|NCT02028507|164514441|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.49|0.78|||Regression, Cox|||This Statistical Analysis corresponds to Social functioning scale||0.78|0.49|<0.001
82402797|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.001|TWO_SIDED|95.0|0.57|0.86|||Regression, Cox|||This Statistical Analysis corresponds to Fatigue scale||0.86|0.57|0.001
82402798|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.76|||Regression, Cox|||This Statistical Analysis corresponds to Nausea and vomiting scale||0.76|0.45|<0.001
82402799|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.042|TWO_SIDED|95.0|0.62|0.99|||Regression, Cox|||This Statistical Analysis corresponds to Pain scale||0.99|0.62|0.042
82402800|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.599|TWO_SIDED|95.0|0.81|1.44|||Regression, Cox|||This Statistical Analysis corresponds to Dyspnea scale||1.44|0.81|0.599
82402801|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.196|TWO_SIDED|95.0|0.64|1.1|||Regression, Cox|||This Statistical Analysis corresponds to Insomnia scale||1.10|0.64|0.196
82402802|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.011|TWO_SIDED|95.0|0.54|0.92|||Regression, Cox|||This Statistical Analysis corresponds to Appetite loss scale||0.92|0.54|0.011
82445888|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.34|||||TWO_SIDED|95.0|0.98|1.82||||||Serogroup A-Vaccine comparison at day 4(Menactra-Menveo vs. Naive)||1.82|0.98|
82402803|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.564|TWO_SIDED|95.0|0.83|1.41|||Regression, Cox|||This Statistical Analysis corresponds to Constipation scale||1.41|0.83|0.564
82402804|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.32|0.55|||Regression, Cox|||This Statistical Analysis corresponds to Diarrhea scale||0.55|0.32|<0.001
82402805|NCT02028507|164514442|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.118|TWO_SIDED|95.0|0.56|1.07|||Regression, Cox|||This Statistical Analysis corresponds to Financial difficulties scale||1.07|0.56|0.118
82402806|NCT02028507|164514443|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.659|TWO_SIDED|95.0|0.74|1.21|||Regression, Cox|||This Statistical Analysis corresponds to Body image scale||1.21|0.74|0.659
82402807|NCT02028507|164514443|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.74|1.39|||Regression, Cox|||This Statistical Analysis corresponds to Future perspective scale||1.39|0.74|0.928
82402808|NCT02028507|164514444|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.029|TWO_SIDED|95.0|0.64|0.98|||Regression, Cox|||This Statistical Analysis corresponds to Systemic side-effects scale||0.98|0.64|0.029
82402809|NCT02028507|164514444|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.571|TWO_SIDED|95.0|0.71|1.21|||Regression, Cox|||This Statistical Analysis corresponds to Breast symptoms scale||1.21|0.71|0.571
82402810|NCT02028507|164514444|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.187|TWO_SIDED|95.0|0.66|1.09|||Regression, Cox|||This Statistical Analysis corresponds to Arm symptoms scale||1.09|0.66|0.187
82402811|NCT03990051|164514455|SUPERIORITY|Comparison of changes in score from baseline, Active - Placebo.||||||0.0197|||||||Mixed Models Analysis|||||||0.0197
82402812|NCT03990051|164514456|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0039|||||||Mixed Models Analysis|||||||0.0039
82402813|NCT03990051|164514457|SUPERIORITY|Comparison of changes in score from baseline.|||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82402814|NCT03990051|164514458|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0002|||||||ANCOVA|||||||0.0002
82402815|NCT03990051|164514459|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0138|||||||Mixed Models Analysis|||||||0.0138
82402816|NCT03990051|164514460|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
82402817|NCT03990051|164514461|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0849|||||||Mixed Models Analysis|||||||0.0849
82402818|NCT03990051|164514462|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0041|||||||Mixed Models Analysis|||||||0.0041
82402819|NCT03990051|164514463|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0006|||||||Mixed Models Analysis|||||||0.0006
82402820|NCT03990051|164514464|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0143|||||||Mixed Models Analysis|||||||0.0143
82402821|NCT03990051|164514465|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0398|||||||Mixed Models Analysis|||||||0.0398
82402822|NCT03990051|164514466|SUPERIORITY|Comparison of changes in score from baseline.||||||-3.97|||||||Mixed Models Analysis|||||||-3.97
82402823|NCT03990051|164514467|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
82402824|NCT03990051|164514468|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
82402825|NCT03990051|164514469|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0067|||||||Mixed Models Analysis|||||||0.0067
82402826|NCT03990051|164514470|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0636|||||||Mixed Models Analysis|||||||0.0636
82402827|NCT03990051|164514471|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0028|||||||Mixed Models Analysis|||||||0.0028
82402828|NCT03990051|164514472|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0067|||||||Mixed Models Analysis|||||||0.0067
82402829|NCT03990051|164514473|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0105|||||||Mixed Models Analysis|||||||0.0105
82402830|NCT03990051|164514474|SUPERIORITY|Comparison of changes in score from baseline.||||||0.001|||||||Mixed Models Analysis|||||||0.0010
82402831|NCT03990051|164514475|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0155|||||||Mixed Models Analysis|||||||0.0155
82402832|NCT03990051|164514476|SUPERIORITY|Comparison of changes in score from baseline.||||||0.016|||||||Mixed Models Analysis|||||||0.0160
82402833|NCT03990051|164514477|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0117|||||||Mixed Models Analysis|||||||0.0117
82402834|NCT03990051|164514478|SUPERIORITY|Comparison of changes in score from baseline.||||||0.4649|||||||Mixed Models Analysis|||||||0.4649
82402835|NCT03990051|164514479|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0082|||||||Mixed Models Analysis|||||||0.0082
82402836|NCT03990051|164514480|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0225|||||||Mixed Models Analysis|||||||0.0225
82402837|NCT03990051|164514481|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1822|||||||Mixed Models Analysis|||||||0.1822
82402838|NCT03990051|164514482|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0515|||||||Mixed Models Analysis|||||||0.0515
82402839|NCT03990051|164514483|SUPERIORITY|Comparison of changes in score from baseline.||||||0.044|||||||Mixed Models Analysis|||||||0.044
82402840|NCT03990051|164514484|SUPERIORITY|Comparison of changes of score from baseline.||||||0.083|||||||Mixed Models Analysis|||||||0.083
82402841|NCT03990051|164514485|SUPERIORITY|Comparison of changes in score from baseline.||||||0.7147|||||||Mixed Models Analysis|||||||0.7147
82402842|NCT03990051|164514486|SUPERIORITY|Comparison of changes in score from baseline.||||||0.8251|||||||Mixed Models Analysis|||||||0.8251
82402843|NCT03990051|164514487|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0435|||||||Mixed Models Analysis|||||||0.0435
82445889|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.29|||||TWO_SIDED|95.0|0.97|1.72||||||Serogroup A-Vaccine comparison at day 4(Pooled Menveo-Menveo and Menactra-Menveo vs. Naive)||1.72|0.97|
82402844|NCT03990051|164514488|SUPERIORITY|Comparison of changes in score from baseline.||||||0.013|||||||Mixed Models Analysis|||||||0.0130
82402845|NCT03990051|164514489|SUPERIORITY|Comparison of changes in score from baseline.||||||0.3205|||||||Mixed Models Analysis|||||||0.3205
82402846|NCT03990051|164514490|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1401|||||||Mixed Models Analysis|||||||0.1401
82402847|NCT03990051|164514491|SUPERIORITY|Comparison in changes in score from baseline.||||||0.0098|||||||ANCOVA|||||||0.0098
82402848|NCT03990051|164514492|SUPERIORITY|Comparison of changes in score from baseline.||||||0.1032|||||||Mixed Models Analysis|||||||0.1032
82402849|NCT03990051|164514493|SUPERIORITY|Comparison of changes in score from baseline.||||||0.0389|||||||Mixed Models Analysis|||||||0.0389
82402850|NCT03990051|164514494|OTHER||||||<|1e-05|||||||t-test, 2 sided|||Score in 1 year compared to baseline||||<0.00001
82402851|NCT03990051|164514495|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402852|NCT03990051|164514496|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402853|NCT03990051|164514497|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402854|NCT03990051|164514498|OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82402855|NCT03990051|164514499|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82402856|NCT03990051|164514500|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402857|NCT03990051|164514501|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402858|NCT03990051|164514502|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402859|NCT03990051|164514503|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402860|NCT03990051|164514504|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402861|NCT03990051|164514505|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402862|NCT03990051|164514506|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82402863|NCT03990051|164514507|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402864|NCT03990051|164514508|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402865|NCT03990051|164514509|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402866|NCT03990051|164514510|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402867|NCT03990051|164514511|OTHER||||||<|1e-05|||||||t-test, 2 sided|||||||<0.00001
82402868|NCT03060291|164514515|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.549|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.549
82402869|NCT03060291|164514515|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.854|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.854
82402870|NCT03060291|164514515|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.469|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.469
82402871|NCT03060291|164514516|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.535|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.535
82402872|NCT03060291|164514516|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.081|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.081
82402873|NCT03060291|164514516|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.295|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.295
82402874|NCT03060291|164514517|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.149|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.149
82402875|NCT03060291|164514517|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.207|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.207
82402876|NCT03060291|164514517|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.871|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.871
82402877|NCT03060291|164514518|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.547|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.547
82402878|NCT03060291|164514518|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.575|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.575
82402879|NCT03060291|164514518|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.964|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.964
82402880|NCT03060291|164514519|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.236|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.236
82402881|NCT03060291|164514519|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.142|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.142
82402882|NCT03060291|164514519|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.81|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.810
82402883|NCT03060291|164514520|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.599|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.599
82402884|NCT03060291|164514520|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.523|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.523
82402885|NCT03060291|164514520|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.252|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the web/mobile only as the reference group.|||||.252
82402886|NCT03060291|164514521|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.867|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.867
82402887|NCT03060291|164514521|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.127|TWO_SIDED||||||t-test, 2 sided||Mean difference in slope with the wait-list control as the reference group.|||||.127
82402888|NCT03060291|164514521|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.101|TWO_SIDED||||||t-test, 2 sided||||Mean difference in slope with the web/mobile only as the reference group.|||.101
82402889|NCT01556932|164514538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|3.2541|||TWO_SIDED|||||||||||||
82402890|NCT03131687|164514591|OTHER||Posterior Mean Difference|-1.0|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402891|NCT03131687|164514591|OTHER||Posterior Mean Difference|-1.67|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402892|NCT03131687|164514591|OTHER||Posterior Mean Difference|-1.83|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82445890|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.94|||||TWO_SIDED|95.0|0.76|1.17||||||Serogroup A-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.17|0.76|
82402893|NCT03131687|164514591|OTHER||Posterior Mean Difference|-1.89|STANDARD_DEVIATION|0.17|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402894|NCT03131687|164514592|OTHER||Posterior Mean Difference|-0.89|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402895|NCT03131687|164514592|OTHER||Posterior Mean Difference|-1.49|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402896|NCT03131687|164514592|OTHER||Posterior Mean Difference|-1.62|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402897|NCT03131687|164514592|OTHER||Posterior Mean Difference|-1.67|STANDARD_DEVIATION|0.15|||TWO_SIDED||||||||Statistics are estimated from a Bayesian hierarchical logistic dose response model along with a titrated integrated two-component prediction model to estimate missing values.|||||
82402898|NCT03131687|164514593|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||Mixed Models Analysis|||||-0.4|-1.2|<0.001
82402899|NCT03131687|164514593|OTHER||Median Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.2|-1.3|||Mixed Models Analysis|||||-1.3|-2.2|<0.001
82402900|NCT03131687|164514593|OTHER||Median Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-2.5|-1.6|||Mixed Models Analysis|||||-1.6|-2.5|<0.001
82402901|NCT03131687|164514593|OTHER||Median Difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-2.9|-2.0|||Mixed Models Analysis|||||-2.0|-2.9|<0.001
82402902|NCT03131687|164514594|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
82402903|NCT03131687|164514594|OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.0|-1.3|||Mixed Models Analysis|||||-1.3|-2.0|<0.001
82402904|NCT03131687|164514594|OTHER||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.3|-1.5|||Mixed Models Analysis|||||-1.5|-2.3|<0.001
82402905|NCT03131687|164514594|OTHER||Mean Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-2.4|-1.7|||Mixed Models Analysis|||||-1.7|-2.4|<0.001
82402906|NCT03131687|164514595|OTHER||Mean Difference (Final Values)|-0.5||||0.655|TWO_SIDED|95.0|-2.7|1.7|||Mixed Models Analysis|||||1.7|-2.7|0.655
82402907|NCT03131687|164514595|OTHER||Mean Difference (Final Values)|-4.4|||<|0.001|TWO_SIDED|95.0|-6.6|-2.3|||Mixed Models Analysis|||||-2.3|-6.6|<0.001
82402908|NCT03131687|164514595|OTHER||Mean Difference (Final Values)|-8.3|||<|0.001|TWO_SIDED|95.0|-10.5|-6.0|||Mixed Models Analysis|||||-6.0|-10.5|<0.001
82402909|NCT03131687|164514595|OTHER||Median Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-13.3|-8.6|||Mixed Models Analysis|||||-8.6|-13.3|<0.001
82402910|NCT03131687|164514596|OTHER|||||||0.053|||||||Regression, Logistic|||||||0.053
82402911|NCT03131687|164514596|OTHER|||||||0.002|||||||Regression, Logistic|||||||0.002
82402912|NCT03131687|164514596|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402913|NCT03131687|164514596|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402914|NCT03131687|164514597|OTHER|||||||0.193|||||||Regression, Logistic|||||||0.193
82402915|NCT03131687|164514597|OTHER|||||||0.036|||||||Regression, Logistic|||||||0.036
82402916|NCT03131687|164514597|OTHER|||||||0.003|||||||Regression, Logistic|||||||0.003
82402917|NCT03131687|164514597|OTHER|||||||0.003|||||||Regression, Logistic|||||||0.003
82402918|NCT03131687|164514598|OTHER|||||||0.03|||||||Regression, Logistic|||||||0.030
82402919|NCT03131687|164514598|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402920|NCT03131687|164514598|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402921|NCT03131687|164514598|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402922|NCT03131687|164514599|OTHER|||||||0.008|||||||Regression, Logistic|||||||0.008
82402923|NCT03131687|164514599|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402924|NCT03131687|164514599|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402925|NCT03131687|164514599|OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82402926|NCT03131687|164514600|OTHER||Mean Difference (Final Values)|-22.4||||0.01|TWO_SIDED|95.0|-39.4|-5.3|||Mixed Models Analysis|||||-5.3|-39.4|0.010
82402927|NCT03131687|164514600|OTHER||Mean Difference (Final Values)|-56.2|||<|0.001|TWO_SIDED|95.0|-72.9|-39.5|||Mixed Models Analysis|||||-39.5|-72.9|<0.001
82445891|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|5.19|||||TWO_SIDED|95.0|2.84|9.47||||||Serogroup A-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||9.47|2.84|
82402928|NCT03131687|164514600|OTHER||Odds Ratio (OR)|-76.3|||<|0.001|TWO_SIDED|95.0|-93.3|-59.2|||Mixed Models Analysis|||||-59.2|-93.3|<0.001
82402929|NCT03131687|164514600|OTHER||Mean Difference (Final Values)|-73.0|||<|0.001|TWO_SIDED|95.0|-90.9|-55.2|||Mixed Models Analysis|||||-55.2|-90.9|<0.001
82402930|NCT03131687|164514601|OTHER||Mean Difference (Final Values)|0.0||||0.396|TWO_SIDED|95.0|-0.1|0.0|||Mixed Models Analysis|||||0.0|-0.1|0.396
82402931|NCT03131687|164514601|OTHER||Mean Difference (Final Values)|0.0||||0.903|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.1|-0.1|0.903
82402932|NCT03131687|164514601|OTHER||Mean Difference (Final Values)|0.0||||0.536|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.1|-0.1|0.536
82402933|NCT03131687|164514601|OTHER||Mean Difference (Final Values)|0.0||||0.325|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||||0.1|-0.0|0.325
82402934|NCT03131687|164514602|OTHER||Mean Difference (Final Values)|-0.1||||0.565|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||||0.2|-0.4|0.565
82402935|NCT03131687|164514602|OTHER||Mean Difference (Final Values)|-0.4||||0.01|TWO_SIDED|95.0|-0.7|-0.1|||Mixed Models Analysis|||||-0.1|-0.7|0.010
82402936|NCT03131687|164514602|OTHER||Median Difference (Final Values)|-0.5||||0.001|TWO_SIDED|95.0|-0.9|-0.2|||Mixed Models Analysis|||||-0.2|-0.9|0.001
82402937|NCT03131687|164514602|OTHER||Median Difference (Final Values)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Models Analysis|||||-0.3|-0.9|<0.001
82402938|NCT03131687|164514603|OTHER||Mean Difference (Final Values)|-0.3||||0.164|TWO_SIDED|95.0|-0.7|0.1|||Mixed Models Analysis|||||0.1|-0.7|0.164
82402939|NCT03131687|164514603|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||Mixed Models Analysis|||||-0.4|-1.1|<0.001
82402940|NCT03131687|164514603|OTHER||Mean Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||||-0.6|-1.4|<0.001
82402941|NCT03131687|164514603|OTHER||Median Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed Models Analysis|||||-0.7|-1.5|<0.001
82402942|NCT03131687|164514604|OTHER||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.919
82402943|NCT03131687|164514604|OTHER||Mean Difference (Final Values)|-0.2||||0.194|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|0.194
82402944|NCT03131687|164514604|OTHER||Mean Difference (Final Values)|-0.2||||0.145|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|||||0.1|-0.5|0.145
82402945|NCT03131687|164514604|OTHER||Mean Difference (Final Values)|-0.3||||0.067|TWO_SIDED|95.0|-0.6|0.0|||Mixed Models Analysis|||||0.0|-0.6|0.067
82402946|NCT03131687|164514605|OTHER||Mean Difference (Final Values)|-0.7||||0.539|TWO_SIDED|95.0|-3.1|1.6|||Mixed Models Analysis|||||1.6|-3.1|0.539
82402947|NCT03131687|164514605|OTHER||Mean Difference (Final Values)|-3.8||||0.001|TWO_SIDED|95.0|-6.1|-1.5|||Mixed Models Analysis|||||-1.5|-6.1|0.001
82402948|NCT03131687|164514605|OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-8.4|-3.7|||Mixed Models Analysis|||||-3.7|-8.4|<0.001
82402949|NCT03131687|164514605|OTHER||Mean Difference (Final Values)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.3|-6.4|||Mixed Models Analysis|||||-6.4|-11.3|<0.001
82402950|NCT01903993|164514612|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||=|0.0106|TWO_SIDED|95.0|0.52|0.92|||Log rank (Stratified)|||Hazard ratios (HR) were estimated by a Cox regression model.||0.92|0.52|= 0.0106
82402951|NCT01903993|164514613|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|0.59|||=|0.8884|TWO_SIDED|95.0|-7.67|8.85|||Cochran-Mantel-Haenszel|||||8.85|-7.67|= 0.8884
82402952|NCT01903993|164514614|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||=|0.5563|TWO_SIDED|95.0|0.71|1.2|||Log rank (Stratified)|||HR were estimated by a Cox regression model. The two treatment comparison was based on a stratified log-rank test.||1.20|0.71|=0.5563
82402953|NCT01903993|164514615|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.32|||=|0.0028|TWO_SIDED|95.0|0.15|0.7|||Log rank (unstratified)|||HR were estimated by a unstratified Cox regression model.||0.70|0.15|= 0.0028
82402954|NCT00103285|164514628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.17|||||TWO_SIDED|95.0|1.61|16.63|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points.|Physical Functioning: Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||16.63|1.61|
82402955|NCT00103285|164514628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.99|||||TWO_SIDED|95.0|1.21|3.27|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points|Social Functioning: Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||3.27|1.21|
82402956|NCT00103285|164514628|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.03|3.34|||Mixed Models Analysis||Odds Ratios in this Statistical Analysis corresponds to all four time points|Parents of 160 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the Pediatric Quality of Life Inventory (PedsQL) 4.0 Generic Core Scales (physical, emotional and social functioning) and Family Assessment Device-General Functioning (FAD-GF) at 1, 6 and 12 months after diagnosis, and 3 months post-therapy.||3.34|1.03|
82402957|NCT00103285|164514629|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.542|||||TWO_SIDED|95.0|1.974|3.273|||Regression, Cox|||4981 eligible evaluable patients enrolled on AALL0331 had MRD evaluation at Day 29 of induction. MRD status defined as negative (\<0.1%) or positive (\>=0.1%). MRD status ( positive vs. negative) was correlated with EFS using Cox regression analysis.||3.273|1.974|
82402958|NCT00103285|164514631|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.131|||||TWO_SIDED|95.0|0.101|0.17|||Chi-squared|||MRD status ( positive vs. negative) was correlated with Early Marrow Status (M1 vs M2/M3) using Chi Square test.||0.17|0.101|
82402959|NCT00103285|164514632|OTHER||Odds Ratio (OR)|4.1|||||TWO_SIDED|95.0|1.31|12.73|||Regression, Logistic|||Parents of 159 SR-ALL patients enrolled on Children's Oncology Group (COG) therapeutic trial AALL0331 at 31 sites completed the BASC-2 Anxiety Scale at 1 month after diagnosis, and 3 months post-therapy. Of these 159 had data at 1 month after diagnosis and 96 at 3 months post therapy.||12.73|1.31|
82402960|NCT03654729|164514660|SUPERIORITY||Risk Ratio (RR)|1.3842||||0.2266|TWO_SIDED|95.0|0.8172|2.3446|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel estimate of the common relative risk of moderate to severe CIPN.||2.3446|0.8172|0.2266
82402961|NCT03654729|164514660|SUPERIORITY||Risk Ratio (RR)|1.0951||||0.7434|TWO_SIDED|95.0|0.6356|1.887|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel estimate of the common relative risk of moderate to severe CIPN.||1.8870|0.6356|0.7434
82402962|NCT01919164|164514671|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Descriptive statistics was provided for primary endpoint.||0.03|-0.01|
82402963|NCT01919164|164514671|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.01|0.04||||||Descriptive statistics was provided for primary endpoint.||0.04|-0.01|
82402964|NCT01919164|164514671|SUPERIORITY||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|0.02|0.06||||||Descriptive statistics was provided for primary endpoint.||0.06|0.02|
82402965|NCT01919164|164514671|SUPERIORITY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|0.03|0.07||||||Descriptive statistics was provided for primary endpoint.||0.07|0.03|
82402966|NCT03272347|164514693|OTHER|The 95% confidence intervals (CIs) were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|2.9|||||TWO_SIDED|95.0|-12.5|18.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||18.3|-12.5|
82402967|NCT03272347|164514693|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|9.6|||||TWO_SIDED|95.0|-3.8|23.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||23.0|-3.8|
82402968|NCT03272347|164514693|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|0.2|||||TWO_SIDED|95.0|-16.0|16.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||16.3|-16.0|
82402969|NCT03272347|164514694|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|6.1|||||TWO_SIDED|95.0|-12.2|24.4|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||24.4|-12.2|
82402970|NCT03272347|164514694|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|6.2|||||TWO_SIDED|95.0|-12.2|24.6|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||24.6|-12.2|
82402971|NCT03272347|164514694|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-6.1|||||TWO_SIDED|95.0|-27.1|14.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||14.8|-27.1|
82402972|NCT03272347|164514695|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|2.6|||||TWO_SIDED|95.0|-15.7|20.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.5|-15.7|
82402973|NCT03272347|164514695|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|2.9|||||TWO_SIDED|95.0|-15.0|20.8|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.8|-15.0|
82402974|NCT03272347|164514695|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-9.7|||||TWO_SIDED|95.0|-29.4|10.1|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||10.1|-29.4|
82402975|NCT03272347|164514696|OTHER|Based on Miettinen \& Nurminen method|Difference in %|0.2|||||TWO_SIDED|95.0|-13.4|14.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||14.5|-13.4|
82402976|NCT03272347|164514696|OTHER|Based on Miettinen \& Nurminen method|Difference in %|-3.2|||||TWO_SIDED|95.0|-16.4|8.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.5|-16.4|
82402977|NCT03272347|164514696|OTHER|Based on Miettinen \& Nurminen method|Difference in %|3.2|||||TWO_SIDED|95.0|-10.8|18.1|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||18.1|-10.8|
82576236|NCT02209181|164862047|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.03|3.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.04|1.03|<0.001
82402978|NCT03272347|164514697|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-9.7|||||TWO_SIDED|95.0|-26.1|6.6|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||6.6|-26.1|
82402979|NCT03272347|164514697|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-6.2|||||TWO_SIDED|95.0|-21.5|9.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||9.1|-21.5|
82402980|NCT03272347|164514697|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-7.5|||||TWO_SIDED|95.0|-23.9|8.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||8.8|-23.9|
82402981|NCT03272347|164514698|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|2.2|||||TWO_SIDED|95.0|-23.4|27.7|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||27.7|-23.4|
82402982|NCT03272347|164514698|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-3.7|||||TWO_SIDED|95.0|-29.6|22.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||22.1|-29.6|
82402983|NCT03272347|164514698|OTHER|The 95% CIs were calculated using stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum (screening HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|Treatment Difference|-1.3|||||TWO_SIDED|95.0|-27.7|25.2|||||Islatravir minus DOR/3TC/TDF|Treatment difference in percent response||25.2|-27.7|
82402984|NCT03272347|164514700|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|78.4|||||TWO_SIDED|95.0|18.8|138.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||138.1|18.8|
82402985|NCT03272347|164514700|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|50.7|||||TWO_SIDED|95.0|-31.7|133.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||133.1|-31.7|
82445892|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|4.1|||||TWO_SIDED|95.0|2.24|7.5||||||Serogroup A-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||7.50|2.24|
82402986|NCT03272347|164514700|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|0.8|||||TWO_SIDED|95.0|-63.0|64.7|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||64.7|-63.0|
82402987|NCT03272347|164514701|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|0.6|||||TWO_SIDED|95.0|-74.1|75.3|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||75.3|-74.1|
82402988|NCT03272347|164514701|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|1.5|||||TWO_SIDED|95.0|-70.7|73.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||73.8|-70.7|
82402989|NCT03272347|164514701|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-80.8|||||TWO_SIDED|95.0|-165.6|4.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||4.0|-165.6|
82402990|NCT03272347|164514702|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-25.5|||||TWO_SIDED|95.0|-134.8|83.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||83.8|-134.8|
82402991|NCT03272347|164514702|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-107.6|||||TWO_SIDED|95.0|-212.1|-3.1|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||-3.1|-212.1|
82402992|NCT03272347|164514702|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-132.4|||||TWO_SIDED|95.0|-242.9|-21.9|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||-21.9|-242.9|
82402993|NCT03272347|164514703|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-65.6|||||TWO_SIDED|95.0|-195.3|64.0|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||64.0|-195.3|
82402994|NCT03272347|164514703|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-61.0|||||TWO_SIDED|95.0|-188.7|66.8|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||66.8|-188.7|
82402995|NCT03272347|164514703|OTHER|The 95% CI for mean difference in CD4 change was based on t-distribution.|Treatment Difference|-107.1|||||TWO_SIDED|95.0|-231.2|16.9|||||Islatravir minus DOR/3TC/TDF|Treatment difference in T-cell count||16.9|-231.2|
82402996|NCT03272347|164514705|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|4.9|||||TWO_SIDED|95.0|-20.3|29.6|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||29.6|-20.3|
82402997|NCT03272347|164514705|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|9.5|||||TWO_SIDED|95.0|-15.4|33.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||33.5|-15.4|
82402998|NCT03272347|164514705|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-5.3|||||TWO_SIDED|95.0|-30.6|20.7|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.7|-30.6|
82402999|NCT03272347|164514706|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-3.6|||||TWO_SIDED|95.0|-17.9|8.5|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.5|-17.9|
82403000|NCT03272347|164514706|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|-3.6|||||TWO_SIDED|95.0|-17.9|8.2|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||8.2|-17.9|
82403001|NCT03272347|164514706|OTHER|Based on Miettinen \& Nurminen method.|Difference in %|3.8|||||TWO_SIDED|95.0|-11.5|20.6|||||Islatravir minus DOR/3TC/TDF|Difference in % Islatravir vs DOR/3TC/TDF||20.6|-11.5|
82403002|NCT03569098|164514753|SUPERIORITY||Difference in LS mean|0.32|STANDARD_ERROR_OF_MEAN|0.441||0.7669|TWO_SIDED|95.0|-0.55|1.19||One-sided P-value. The model includes the fixed categorical effects of treatment group, visit, treatment group-by-visit interaction, and the stratification factor as fixed categorical covariates and the Baseline value as a fixed continuous covariate.|Mixed Model for Repeated Measures (MMRM)|||Dysport 300 U versus Placebo.||1.19|-0.55|0.7669
82403003|NCT03569098|164514753|SUPERIORITY||Difference in LS mean|-0.36|STANDARD_ERROR_OF_MEAN|0.444||0.2085|TWO_SIDED|95.0|-1.24|0.51||One-sided P-value. The model includes the fixed categorical effects of treatment group, visit, treatment group-by-visit interaction, and the stratification factor as fixed categorical covariates and the Baseline value as a fixed continuous covariate.|MMRM|||Dysport 500 U versus Placebo.||0.51|-1.24|0.2085
82445893|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|4.62|||||TWO_SIDED|95.0|2.62|8.15||||||Serogroup A-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||8.15|2.62|
82445894|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.27|||||TWO_SIDED|95.0|0.84|1.91||||||Serogroup A-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.91|0.84|
82403004|NCT01516736|164514784|EQUIVALENCE|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|-0.16||||0.05|TWO_SIDED|95.0|-0.4|0.08|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).||"The primary objective of the study was to compare LA-EP2006 and Neulasta in terms of the DSN in Cycle 1. It was to be shown in a hierarchical way:~1. that LA-EP2006 is equivalent (margin: ±1 day) to Neulasta® with respect to DSN duration in Cycle 1 and, if this was successfully established,~2. that LA-EP2006 is non-inferior (margin: -0.6 days) to Neulasta® with respect to DSN duration in Cycle 1."||0.08|-0.40|0.05
82403005|NCT01516736|164514784|NON_INFERIORITY|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|-0.16||||0.05|TWO_SIDED|95.0|-0.4|0.08|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).||"The primary objective of the study was to compare LA-EP2006 and Neulasta in terms of the DSN in Cycle 1. It was to be shown in a hierarchical way:~1. that LA-EP2006 is equivalent (margin: ±1 day) to Neulasta® with respect to DSN duration in Cycle 1 and, if this was successfully established,~2. that LA-EP2006 is non-inferior (margin: -0.6 days) to Neulasta® with respect to DSN duration in Cycle 1."||0.08|-0.40|0.05
82403006|NCT02781818|164514792|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||0.77
82403007|NCT02781818|164514792|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
82403008|NCT02781818|164514793|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|||||||.65
82403009|NCT02781818|164514793|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
82403010|NCT02781818|164514794|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
82403011|NCT02781818|164514794|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
82403012|NCT01877668|164514795|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.13|STANDARD_ERROR_OF_MEAN|6.67||0.0102|TWO_SIDED|95.0|4.06|30.21|||Large sample approximation|Missing response (MR)=non-response (NR)||||30.21|4.06|0.0102
82403013|NCT01877668|164514795|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.24|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|14.22|40.26|||Large sample approximation|MR=NR||||40.26|14.22|<0.0001
82403014|NCT01877668|164514795|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.55|STANDARD_ERROR_OF_MEAN|6.69||0.0055|TWO_SIDED|95.0|5.45|31.66|||Large sample approximation|MR=NR||||31.66|5.45|0.0055
82403015|NCT01877668|164514796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1697|STANDARD_ERROR_OF_MEAN|0.06173||0.0062|TWO_SIDED|95.0|-0.291|-0.0483|||Mixed Models Analysis|No imputation.||||-0.0483|-0.2910|0.0062
82403016|NCT01877668|164514796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2196|STANDARD_ERROR_OF_MEAN|0.06184||0.0004|TWO_SIDED|95.0|-0.3411|-0.098|||Mixed Models Analysis|No imputation.||||-0.0980|-0.3411|0.0004
82403017|NCT01877668|164514796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2005|STANDARD_ERROR_OF_MEAN|0.06145||0.0012|TWO_SIDED|95.0|-0.3213|-0.0797|||Mixed Models Analysis|No imputation.||||-0.0797|-0.3213|0.0012
82403018|NCT01000974|164514875|NON_INFERIORITY|To demonstrate the non-inferiority of Test Hib to Control Hib, each co-administered with DTPa-HBV-IPV, 13Pn and HRV vaccines, following 3 primary vaccine doses in terms of anti-PRP antibody concentration ≥ 1.0 μg/mL.|difference in percentage|-8.59|||||TWO_SIDED|95.0|-12.28|-4.07|||Non-inferiority analysis|||Non-inferiority Anti-PRP concentration ≥ 1.0 μg/mL||-4.07|-12.28|
82403019|NCT01000974|164514875|NON_INFERIORITY|To demonstrate the non-inferiority of Test Hib to Control Hib, each co-administered with DTPa-HBVIPV, 13Pn and HRV vaccines, following 3 primary vaccine doses in terms of anti-PRP antibody concentrations ≥ 0.15 μg/mL.|Difference in percentage|-0.11|||||TWO_SIDED|95.0|-1.98|2.82|||Non-inferiority analysis|||Non-inferiority Anti-PRP concentration≥ 0.15 μg/mL||2.82|-1.98|
82403020|NCT01000974|164514876|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to diphtheria (Anti-D).|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.26|1.81|||Non-inferiority analysis|||Non-inferiority Anti-D antibody concentrations||1.81|-1.26|
82403021|NCT01000974|164514876|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to tetanus (Anti-T).|Difference in percentage|0.0|||||TWO_SIDED|95.0|-1.26|1.8|||Non-inferiority analysis|||Non-inferiority Anti-T antibody concentrations||1.8|-1.26|
82403022|NCT01000974|164514878|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to pertussis toxoid \[PT\].|GMC ratio|1.017|||||TWO_SIDED|97.5|0.918|1.127|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-PT||1.127|0.918|
82445895|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|6.54|||||TWO_SIDED|95.0|4.84|8.85||||||Serogroup A-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||8.85|4.84|
82403023|NCT01000974|164514878|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to filamentous hemagglutinin \[FHA\].|GMC ratio|1.088|||||TWO_SIDED|97.5|0.983|1.204|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-FHA||1.204|0.983|
82403024|NCT01000974|164514878|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to pertactin \[PRN\]|GMC ratio|1.193|||||TWO_SIDED|97.5|1.03|1.382|||Non-inferiority analysis|||Non-inferiority GMC ratio anti-PRN||1.382|1.03|
82403025|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.006|||||TWO_SIDED|97.5|0.873|1.159|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 1 concentrations||1.159|0.873|
82403026|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.048|||||TWO_SIDED|97.5|0.921|1.192|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 3 concentrations||1.192|0.921|
82403027|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.001|||||TWO_SIDED|97.5|0.886|1.13|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 4 concentrations||1.13|0.886|
82403028|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.02|||||TWO_SIDED|97.5|0.874|1.19|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 5 concentrations||1.19|0.874|
82403029|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.031|||||TWO_SIDED|97.5|0.894|1.188|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 6A concentrations||1.188|0.894|
82445896|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.37|||||TWO_SIDED|95.0|5.44|9.98||||||Serogroup A-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||9.98|5.44|
82403030|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs|GMC ratio|1.072|||||TWO_SIDED|97.5|0.871|1.32|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 6B concentrations||1.32|0.871|
82403031|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.098|||||TWO_SIDED|97.5|0.964|1.251|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 7F concentrations||1.251|0.964|
82403032|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.035|||||TWO_SIDED|97.5|0.89|1.204|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 9V concentrations||1.204|0.89|
82445897|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|6.94|||||TWO_SIDED|95.0|5.23|9.21||||||Serogroup A-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||9.21|5.23|
82403033|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.096|||||TWO_SIDED|97.5|0.929|1.294|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 14 concentrations||1.294|0.929|
82403034|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.042|||||TWO_SIDED|97.5|0.9|1.207|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 18C concentrations||1.207|0.9|
82403035|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.001|||||TWO_SIDED|97.5|0.859|1.167|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 19A concentrations||1.167|0.859|
82403036|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|0.969|||||TWO_SIDED|97.5|0.855|1.098|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 19F concentrations||1.098|0.855|
82403037|NCT01000974|164514879|NON_INFERIORITY|To demonstrate the non-inferiority of a 3-dose primary vaccination course of 13Pn co-administered with Test Hib, HRV and DTPa-HBV-IPV compared to that of 13Pn co-administered with Control Hib, HRV and DTPa-HBV-IPV in terms of Streptococcus pneumoniae (S.pneumoniae) GMCs.|GMC ratio|1.031|||||TWO_SIDED|97.5|0.862|1.232|||Non-inferiority analysis|||Non-inferiority Anti-Pneumoniae 23F concentrations||1.232|0.862|
82530843|NCT01807221|164758611|OTHER||Mean Difference (Final Values)|-3.0||||0.6865|TWO_SIDED|90.0|-11.7|5.7|||Chi-squared|||Estimates and two-sided 90% confidence intervals are provided for each treatment group and for the treatment differences πBi - πC. Clopper-Pearson confidence intervals were calculated for each treatment group, while for treatment differences the exact unconditional confidence limits were calculated.||5.7|-11.7|0.6865
82530844|NCT06017999|164758623|SUPERIORITY||Least Square Mean (LSM) difference|-153.35|||<|0.0001|TWO_SIDED|95.0|-173.8|-132.91|||ANCOVA|||||-132.91|-173.80|<0.0001
82530845|NCT06017999|164758624|SUPERIORITY||Least Square Mean (LSM) difference|-131.64|||<|0.0001|TWO_SIDED|95.0|-153.13|-110.16|||ANCOVA|||||-110.16|-153.13|<0.0001
82403038|NCT01000974|164514880|OTHER|To rule out 10% decrease in seroresponse to FHA in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001|||||||t-test, 1 sided|P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 \& the posterior probability of the cut-off in the control group||Difference in seroresponse Anti-FHA||||<0.0001
82403039|NCT01000974|164514880|OTHER|To rule out 10% decrease in seroresponse to PT in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001||||||P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 and the posterior probability of the cut-off in the control group|t-test, 1 sided|||Difference in seroresponse Anti-PT||||<0.0001
82403040|NCT01000974|164514880|OTHER|To rule out 10% decrease in seroresponse to PRN in subjects receiving DTPa-HBV-IPV coadministered with Test Hib,13Pn \& HRV vaccines compared to subjects receiving DTPa-HBV-IPV co-administered with Control Hib, 13Pn \&HRV vaccines,following 3 primary vaccine doses where seroresponse wasdefined as percentage of subjects showing aconcentration above a threshold that led to 95% seroresponse in control|||||<|0.0001||||||P-value is computed by integrating on the p-values of one-sided test with alpha=0.025 and the posterior probability of the cut-off in the control group|t-test, 1 sided|||Difference in seroresponse Anti-PRN||||<0.0001
82403041|NCT01000974|164514881|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 1.|Difference in percentage|-0.67|||||TWO_SIDED|97.5|-2.24|0.87|||Non-inferiority analysis|||Non-inferiority Anti-Polio 1 concentrations||0.87|-2.24|
82403042|NCT01000974|164514881|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 2.|Difference in percentage|0.45|||||TWO_SIDED|97.5|-1.45|2.91|||Non-inferiority analysis|||Non-inferiority Anti-Polio 2 concentration||2.91|-1.45|
82403043|NCT01000974|164514881|NON_INFERIORITY|To demonstrate the non-inferiority of DTPa-HBV-IPV co-administered with Test Hib, 13Pn and HRV to DTPa-HBV-IPV co-administered with Control Hib, 13Pn and HRV, following 3 primary vaccine doses in terms of immune response to poliovirus 3.|Difference in percentage|-0.66|||||TWO_SIDED|97.5|-2.2|0.88|||Non-inferiority analysis|||Non-inferiority Anti-Polio 3 concentration||0.88|-2.2|
82445898|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.89|||||TWO_SIDED|95.0|0.72|1.1||||||Serogroup A-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.10|0.72|
82530846|NCT04338581|164758625|SUPERIORITY|||||||0.411||||||P-value is from comparing the proportion of F-VASI35 Responders between the two treatment groups using a Fisher's exact test.|Fisher Exact|||The p-value compares AMG 714 and Placebo treatment groups.||||0.411
82403044|NCT03365934|164514909|SUPERIORITY|||||||0.071225|||||||t-test, 2 sided|||||||0.071225
82403045|NCT03365934|164514909|SUPERIORITY|||||||0.092027|||||||t-test, 2 sided|||||||0.092027
82403046|NCT03365934|164514909|SUPERIORITY|||||||0.601716|||||||t-test, 2 sided|||||||0.601716
82403047|NCT03365934|164514909|SUPERIORITY|||||||0.639911|||||||t-test, 2 sided|||||||0.639911
82403048|NCT03365934|164514909|SUPERIORITY|||||||0.842476|||||||t-test, 2 sided|||||||0.842476
82403049|NCT03365934|164514909|SUPERIORITY|||||||0.999941|||||||t-test, 2 sided|||||||0.999941
82403050|NCT03365934|164514909|SUPERIORITY|||||||0.883479|||||||t-test, 2 sided|||||||0.883479
82403051|NCT03365934|164514909|SUPERIORITY|||||||0.782208|||||||t-test, 2 sided|||||||0.782208
82403052|NCT03365934|164514909|SUPERIORITY|||||||0.607134|||||||t-test, 2 sided|||||||0.607134
82445899|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|between group GMT ratios|3.43|||||TWO_SIDED|95.0|1.95|6.04||||||Serogroup C-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||6.04|1.95|
82530847|NCT01089556|164758628|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.192||||0.37||95.0|||||Mixed Models Analysis|||||||0.370
82530848|NCT01089556|164758629|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.614|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82530849|NCT01089556|164758630|SUPERIORITY_OR_OTHER||LS Mean Differences (Final Values)|-0.003||||0.991||95.0|||||Mixed Models Analysis|||||||0.991
82530850|NCT01089556|164758631|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.431|||<|0.001|TWO_SIDED|95.0|1.233|1.662|||Cochran-Mantel-Haenszel|||||1.662|1.233|<0.001
82530851|NCT01089556|164758632|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.052||||0.565|TWO_SIDED|95.0|0.884|1.253|||Cochran-Mantel-Haenszel|||||1.253|0.884|0.565
82530852|NCT01089556|164758633|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.467|||<|0.001|TWO_SIDED|95.0|1.214|1.771|||Cochran-Mantel-Haenszel|||||1.771|1.214|<0.001
82530853|NCT01089556|164758634|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.233||||0.068|TWO_SIDED|95.0|0.98|1.55|||Cochran-Mantel-Haenszel|||||1.550|0.980|0.068
82530854|NCT01089556|164758635|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.279|||<|0.001|TWO_SIDED|95.0|1.125|1.456|||Cochran-Mantel-Haenszel|||||1.456|1.125|<0.001
82403053|NCT03365934|164514909|SUPERIORITY|||||||0.939549|||||||t-test, 2 sided|||||||0.939549
82403054|NCT03365934|164514909|SUPERIORITY|||||||0.86475|||||||t-test, 2 sided|||||||0.86475
82403055|NCT03365934|164514909|SUPERIORITY|||||||0.704759|||||||t-test, 2 sided|||||||0.704759
82403056|NCT03365934|164514909|SUPERIORITY|||||||0.999989|||||||t-test, 2 sided|||||||0.999989
82403057|NCT03365934|164514909|SUPERIORITY|||||||0.997568|||||||t-test, 2 sided|||||||0.997568
82403058|NCT03365934|164514909|SUPERIORITY|||||||0.999518|||||||t-test, 2 sided|||||||0.999518
82403059|NCT03365934|164514910|SUPERIORITY|||||||0.985332|||||||t-test, 2 sided|||||||0.985332
82403060|NCT03365934|164514910|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82403061|NCT03365934|164514910|SUPERIORITY|||||||0.870459|||||||t-test, 2 sided|||||||0.870459
82403062|NCT03365934|164514910|SUPERIORITY|||||||0.004963|||||||t-test, 2 sided|||||||0.004963
82403063|NCT03365934|164514910|SUPERIORITY|||||||0.071935|||||||t-test, 2 sided|||||||0.071935
82403064|NCT03365934|164514910|SUPERIORITY|||||||0.988995|||||||t-test, 2 sided|||||||0.988995
82403065|NCT03365934|164514910|SUPERIORITY|||||||0.545378|||||||t-test, 2 sided|||||||0.545378
82403066|NCT03365934|164514910|SUPERIORITY|||||||0.000649|||||||t-test, 2 sided|||||||0.000649
82403067|NCT03365934|164514910|SUPERIORITY|||||||0.0146|||||||t-test, 2 sided|||||||0.014600
82403068|NCT03365934|164514910|SUPERIORITY|||||||0.854566|||||||t-test, 2 sided|||||||0.854566
82403069|NCT03365934|164514910|SUPERIORITY|||||||0.004322|||||||t-test, 2 sided|||||||0.004322
82403070|NCT03365934|164514910|SUPERIORITY|||||||0.0651|||||||t-test, 2 sided|||||||0.0651
82403071|NCT03365934|164514910|SUPERIORITY|||||||0.300536|||||||t-test, 2 sided|||||||0.300536
82403072|NCT03365934|164514910|SUPERIORITY|||||||0.753883|||||||t-test, 2 sided|||||||0.753883
82403073|NCT03365934|164514910|SUPERIORITY|||||||0.97621|||||||t-test, 2 sided|||||||0.97621
82403074|NCT03365934|164514911|SUPERIORITY|||||||0.027774|||||||t-test, 2 sided|||||||0.027774
82403075|NCT03365934|164514911|SUPERIORITY|||||||0.08431|||||||t-test, 2 sided|||||||0.08431
82403076|NCT03365934|164514911|SUPERIORITY|||||||0.049247|||||||t-test, 2 sided|||||||0.049247
82403077|NCT03365934|164514911|SUPERIORITY|||||||0.000126|||||||t-test, 2 sided|||||||0.000126
82403078|NCT03365934|164514911|SUPERIORITY|||||||0.010829|||||||t-test, 2 sided|||||||0.010829
82403079|NCT03365934|164514911|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403080|NCT03365934|164514911|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403081|NCT03365934|164514911|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403082|NCT03365934|164514911|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403083|NCT03365934|164514911|SUPERIORITY|||||||0.999533|||||||t-test, 2 sided|||||||0.999533
82403084|NCT03365934|164514911|SUPERIORITY|||||||0.4205363|||||||t-test, 2 sided|||||||0.4205363
82403085|NCT03365934|164514911|SUPERIORITY|||||||0.9802252|||||||t-test, 2 sided|||||||0.9802252
82403086|NCT03365934|164514911|SUPERIORITY|||||||0.6845362|||||||t-test, 2 sided|||||||0.6845362
82403087|NCT03365934|164514911|SUPERIORITY|||||||0.9992002|||||||t-test, 2 sided|||||||0.9992002
82403088|NCT03365934|164514911|SUPERIORITY|||||||0.8562779|||||||t-test, 2 sided|||||||0.8562779
82403089|NCT03365934|164514912|SUPERIORITY|||||||0.0403539|||||||t-test, 2 sided|||||||0.0403539
82403090|NCT03365934|164514912|SUPERIORITY|||||||0.2953049|||||||t-test, 2 sided|||||||0.2953049
82403091|NCT03365934|164514912|SUPERIORITY|||||||0.290551|||||||t-test, 2 sided|||||||0.290551
82403092|NCT03365934|164514912|SUPERIORITY|||||||2.47e-05|||||||t-test, 2 sided|||||||0.0000247
82403093|NCT03365934|164514912|SUPERIORITY|||||||0.0133001|||||||t-test, 2 sided|||||||0.0133001
82403094|NCT03365934|164514912|SUPERIORITY|||||||1.67e-05|||||||t-test, 2 sided|||||||0.0000167
82403095|NCT03365934|164514912|SUPERIORITY|||||||2.12e-05|||||||t-test, 2 sided|||||||0.0000212
82403096|NCT03365934|164514912|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403097|NCT03365934|164514912|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403098|NCT03365934|164514912|SUPERIORITY|||||||0.99999995|||||||t-test, 2 sided|||||||0.99999995
82403099|NCT03365934|164514912|SUPERIORITY|||||||0.0792013|||||||t-test, 2 sided|||||||0.0792013
82403100|NCT03365934|164514912|SUPERIORITY|||||||0.870163|||||||t-test, 2 sided|||||||0.870163
82403101|NCT03365934|164514912|SUPERIORITY|||||||0.103828|||||||t-test, 2 sided|||||||0.103828
82403102|NCT03365934|164514912|SUPERIORITY|||||||0.900265|||||||t-test, 2 sided|||||||0.900265
82403103|NCT03365934|164514912|SUPERIORITY|||||||0.570015|||||||t-test, 2 sided|||||||0.570015
82403104|NCT03365934|164514913|SUPERIORITY|||||||0.882449|||||||t-test, 2 sided|||||||0.882449
82403105|NCT03365934|164514913|SUPERIORITY|||||||0.088558|||||||t-test, 2 sided|||||||0.088558
82403106|NCT03365934|164514913|SUPERIORITY|||||||0.081846|||||||t-test, 2 sided|||||||0.081846
82403107|NCT03365934|164514913|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403108|NCT03365934|164514913|SUPERIORITY|||||||3.03e-05|||||||t-test, 2 sided|||||||0.0000303
82403109|NCT03365934|164514913|SUPERIORITY|||||||0.001817|||||||t-test, 2 sided|||||||0.001817
82403110|NCT03365934|164514913|SUPERIORITY|||||||0.001825|||||||t-test, 2 sided|||||||0.001825
82403111|NCT03365934|164514913|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403112|NCT03365934|164514913|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403113|NCT03365934|164514913|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
82403114|NCT03365934|164514913|SUPERIORITY|||||||0.038836|||||||t-test, 2 sided|||||||0.038836
82403115|NCT03365934|164514913|SUPERIORITY|||||||0.184508|||||||t-test, 2 sided|||||||0.184508
82403116|NCT03365934|164514913|SUPERIORITY|||||||0.062829|||||||t-test, 2 sided|||||||0.062829
82403117|NCT03365934|164514913|SUPERIORITY|||||||0.253458|||||||t-test, 2 sided|||||||0.253458
82403118|NCT03365934|164514913|SUPERIORITY|||||||0.987798|||||||t-test, 2 sided|||||||0.987798
82403119|NCT03365934|164514914|SUPERIORITY|||||||0.516068|||||||t-test, 2 sided|||||||0.516068
82403120|NCT03365934|164514914|SUPERIORITY|||||||0.358412|||||||t-test, 2 sided|||||||0.358412
82403121|NCT03365934|164514914|SUPERIORITY|||||||0.834145|||||||t-test, 2 sided|||||||0.834145
82403122|NCT03365934|164514914|SUPERIORITY|||||||3.5e-05|||||||t-test, 2 sided|||||||0.000035
82403123|NCT03365934|164514914|SUPERIORITY|||||||0.000843|||||||t-test, 2 sided|||||||0.000843
82403124|NCT03365934|164514914|SUPERIORITY|||||||0.002997|||||||t-test, 2 sided|||||||0.002997
82403125|NCT03365934|164514914|SUPERIORITY|||||||0.051717|||||||t-test, 2 sided|||||||0.051717
82403126|NCT03365934|164514914|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403127|NCT03365934|164514914|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403128|NCT03365934|164514914|SUPERIORITY|||||||0.985602|||||||t-test, 2 sided|||||||0.985602
82403129|NCT03365934|164514914|SUPERIORITY|||||||0.046422|||||||t-test, 2 sided|||||||0.046422
82403130|NCT03365934|164514914|SUPERIORITY|||||||0.28061|||||||t-test, 2 sided|||||||0.28061
82403131|NCT03365934|164514914|SUPERIORITY|||||||0.011015|||||||t-test, 2 sided|||||||0.011015
82530855|NCT01089556|164758636|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.985||||0.843|TWO_SIDED|95.0|0.842|1.151|||Cochran-Mantel-Haenszel|||||1.151|0.842|0.843
82403132|NCT03365934|164514914|SUPERIORITY|||||||0.089156|||||||t-test, 2 sided|||||||0.089156
82403133|NCT03365934|164514914|SUPERIORITY|||||||0.963882|||||||t-test, 2 sided|||||||0.963882
82403134|NCT03365934|164514915|SUPERIORITY|||||||0.00526|||||||t-test, 2 sided|||||||0.00526
82403135|NCT03365934|164514915|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82403136|NCT03365934|164514915|SUPERIORITY|||||||0.914409|||||||t-test, 2 sided|||||||0.914409
82403137|NCT03365934|164514915|SUPERIORITY|||||||0.013004|||||||t-test, 2 sided|||||||0.013004
82403138|NCT03365934|164514915|SUPERIORITY|||||||0.028517|||||||t-test, 2 sided|||||||0.028517
82403139|NCT03365934|164514915|SUPERIORITY|||||||0.001356|||||||t-test, 2 sided|||||||0.001356
82403140|NCT03365934|164514915|SUPERIORITY|||||||5.9e-05|||||||t-test, 2 sided|||||||0.000059
82403141|NCT03365934|164514915|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403142|NCT03365934|164514915|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403143|NCT03365934|164514915|SUPERIORITY|||||||0.859272|||||||t-test, 2 sided|||||||0.859272
82403144|NCT03365934|164514915|SUPERIORITY|||||||0.002821|||||||t-test, 2 sided|||||||0.002821
82403145|NCT03365934|164514915|SUPERIORITY|||||||0.007492|||||||t-test, 2 sided|||||||0.007492
82403146|NCT03365934|164514915|SUPERIORITY|||||||0.208803|||||||t-test, 2 sided|||||||0.208803
82403147|NCT03365934|164514915|SUPERIORITY|||||||0.341884|||||||t-test, 2 sided|||||||0.341884
82403148|NCT03365934|164514915|SUPERIORITY|||||||0.999531|||||||t-test, 2 sided|||||||0.999531
82403149|NCT03365934|164514916|SUPERIORITY|||||||0.066788|||||||t-test, 2 sided|||||||0.066788
82403150|NCT03365934|164514916|SUPERIORITY|||||||0.942653|||||||t-test, 2 sided|||||||0.942653
82403151|NCT03365934|164514916|SUPERIORITY|||||||0.893545|||||||t-test, 2 sided|||||||0.893545
82403152|NCT03365934|164514916|SUPERIORITY|||||||0.165225|||||||t-test, 2 sided|||||||0.165225
82403153|NCT03365934|164514916|SUPERIORITY|||||||0.140475|||||||t-test, 2 sided|||||||0.140475
82403154|NCT03365934|164514916|SUPERIORITY|||||||0.002026|||||||t-test, 2 sided|||||||0.002026
82403155|NCT03365934|164514916|SUPERIORITY|||||||0.001916|||||||t-test, 2 sided|||||||0.001916
82403156|NCT03365934|164514916|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403157|NCT03365934|164514916|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403158|NCT03365934|164514916|SUPERIORITY|||||||0.999957|||||||t-test, 2 sided|||||||0.999957
82403159|NCT03365934|164514916|SUPERIORITY|||||||0.672573|||||||t-test, 2 sided|||||||0.672573
82403160|NCT03365934|164514916|SUPERIORITY|||||||0.630145|||||||t-test, 2 sided|||||||0.630145
82403161|NCT03365934|164514916|SUPERIORITY|||||||0.832757|||||||t-test, 2 sided|||||||0.832757
82403162|NCT03365934|164514916|SUPERIORITY|||||||0.803277|||||||t-test, 1 sided|||||||0.803277
82403163|NCT03365934|164514916|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82403164|NCT03365934|164514917|SUPERIORITY|||||||0.943522|||||||t-test, 2 sided|||||||0.943522
82403165|NCT03365934|164514917|SUPERIORITY|||||||0.002376|||||||t-test, 2 sided|||||||0.002376
82403166|NCT03365934|164514917|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403167|NCT03365934|164514917|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403168|NCT03365934|164514917|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403169|NCT03365934|164514917|SUPERIORITY|||||||0.061015|||||||t-test, 2 sided|||||||0.061015
82403170|NCT03365934|164514917|SUPERIORITY|||||||0.000211|||||||t-test, 2 sided|||||||0.000211
82403171|NCT03365934|164514917|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403172|NCT03365934|164514917|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403173|NCT03365934|164514917|SUPERIORITY|||||||0.412626|||||||t-test, 2 sided|||||||0.412626
82403174|NCT03365934|164514917|SUPERIORITY|||||||0.104388|||||||t-test, 2 sided|||||||0.104388
82403175|NCT03365934|164514917|SUPERIORITY|||||||0.197791|||||||t-test, 2 sided|||||||0.197791
82403176|NCT03365934|164514917|SUPERIORITY|||||||0.994413|||||||t-test, 2 sided|||||||0.994413
82403177|NCT03365934|164514917|SUPERIORITY|||||||0.999851|||||||t-test, 2 sided|||||||0.999851
82403178|NCT03365934|164514917|SUPERIORITY|||||||0.999621|||||||t-test, 2 sided|||||||0.999621
82403179|NCT03365934|164514918|SUPERIORITY|||||||0.193667|||||||t-test, 2 sided|||||||0.193667
82403180|NCT03365934|164514918|SUPERIORITY|||||||0.526573|||||||t-test, 2 sided|||||||0.526573
82403181|NCT03365934|164514918|SUPERIORITY|||||||0.898749|||||||t-test, 2 sided|||||||0.898749
82403182|NCT03365934|164514918|SUPERIORITY|||||||0.975044|||||||t-test, 2 sided|||||||0.975044
82403183|NCT03365934|164514918|SUPERIORITY|||||||0.760706|||||||t-test, 2 sided|||||||0.760706
82403184|NCT03365934|164514918|SUPERIORITY|||||||0.985237|||||||t-test, 2 sided|||||||0.985237
82403185|NCT03365934|164514918|SUPERIORITY|||||||0.837995|||||||t-test, 2 sided|||||||0.837995
82403186|NCT03365934|164514918|SUPERIORITY|||||||0.592697|||||||t-test, 2 sided|||||||0.592697
82403187|NCT03365934|164514918|SUPERIORITY|||||||0.912495|||||||t-test, 2 sided|||||||0.912495
82403188|NCT03365934|164514918|SUPERIORITY|||||||0.99245|||||||t-test, 2 sided|||||||0.99245
82530856|NCT01089556|164758637|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.341|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82530857|NCT01089556|164758638|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.073||||0.475||95.0|||||Mixed Models Analysis|||||||0.475
82530858|NCT01089556|164758639|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-4.758|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82403189|NCT03365934|164514918|SUPERIORITY|||||||0.925553|||||||t-test, 2 sided|||||||0.925553
82403190|NCT03365934|164514918|SUPERIORITY|||||||0.999171|||||||t-test, 2 sided|||||||0.999171
82646062|NCT01236053|165007139|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.2642|TWO_SIDED|95.0|0.16|1.66|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.66|0.16|0.2642
82646063|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.7891|TWO_SIDED|95.0|0.31|2.43|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.43|0.31|0.7891
82403191|NCT03365934|164514918|SUPERIORITY|||||||0.999324|||||||t-test, 2 sided|||||||0.999324
82403192|NCT03365934|164514918|SUPERIORITY|||||||0.999913|||||||t-test, 2 sided|||||||0.999913
82403193|NCT03365934|164514918|SUPERIORITY|||||||0.990516|||||||t-test, 2 sided|||||||0.990516
82403194|NCT03365934|164514919|SUPERIORITY|||||||0.92106|||||||t-test, 2 sided|||||||0.92106
82403195|NCT03365934|164514919|SUPERIORITY|||||||0.976812|||||||t-test, 2 sided|||||||0.976812
82403196|NCT03365934|164514919|SUPERIORITY|||||||0.233992|||||||t-test, 2 sided|||||||0.233992
82403197|NCT03365934|164514919|SUPERIORITY|||||||0.007591|||||||t-test, 2 sided|||||||0.007591
82403198|NCT03365934|164514919|SUPERIORITY|||||||0.038958|||||||t-test, 2 sided|||||||0.038958
82403199|NCT03365934|164514919|SUPERIORITY|||||||0.99809|||||||t-test, 2 sided|||||||0.99809
82403200|NCT03365934|164514919|SUPERIORITY|||||||0.773028|||||||t-test, 2 sided|||||||0.773028
82403201|NCT03365934|164514919|SUPERIORITY|||||||0.135805|||||||t-test, 2 sided|||||||0.135805
82403202|NCT03365934|164514919|SUPERIORITY|||||||0.350556|||||||t-test, 2 sided|||||||0.350556
82403203|NCT03365934|164514919|SUPERIORITY|||||||0.61046|||||||t-test, 2 sided|||||||0.61046
82403204|NCT03365934|164514919|SUPERIORITY|||||||0.062163|||||||t-test, 2 sided|||||||0.062163
82403205|NCT03365934|164514919|SUPERIORITY|||||||0.203418|||||||t-test, 2 sided|||||||0.203418
82403206|NCT03365934|164514919|SUPERIORITY|||||||0.942304|||||||t-test, 2 sided|||||||0.942304
82403207|NCT03365934|164514919|SUPERIORITY|||||||0.995238|||||||t-test, 2 sided|||||||0.995238
82403208|NCT03365934|164514919|SUPERIORITY|||||||0.99858|||||||t-test, 2 sided|||||||0.99858
82403209|NCT03365934|164514920|SUPERIORITY|||||||0.998949|||||||t-test, 2 sided|||||||0.998949
82403210|NCT03365934|164514920|SUPERIORITY|||||||0.111084|||||||t-test, 2 sided|||||||0.111084
82403211|NCT03365934|164514920|SUPERIORITY|||||||0.456846|||||||t-test, 2 sided|||||||0.456846
82403212|NCT03365934|164514920|SUPERIORITY|||||||0.00062|||||||t-test, 2 sided|||||||0.00062
82403213|NCT03365934|164514920|SUPERIORITY|||||||0.006871|||||||t-test, 2 sided|||||||0.006871
82403214|NCT03365934|164514920|SUPERIORITY|||||||0.039407|||||||t-test, 2 sided|||||||0.039407
82403215|NCT03365934|164514920|SUPERIORITY|||||||0.245375|||||||t-test, 2 sided|||||||0.245375
82403216|NCT03365934|164514920|SUPERIORITY|||||||0.000113|||||||t-test, 2 sided|||||||0.000113
82403217|NCT03365934|164514920|SUPERIORITY|||||||0.001612|||||||t-test, 2 sided|||||||0.001612
82403218|NCT03365934|164514920|SUPERIORITY|||||||0.988067|||||||t-test, 2 sided|||||||0.988067
82403219|NCT03365934|164514920|SUPERIORITY|||||||0.599171|||||||t-test, 2 sided|||||||0.599171
82403220|NCT03365934|164514920|SUPERIORITY|||||||0.928722|||||||t-test, 2 sided|||||||0.928722
82403221|NCT03365934|164514920|SUPERIORITY|||||||0.256079|||||||t-test, 2 sided|||||||0.256079
82403222|NCT03365934|164514920|SUPERIORITY|||||||0.626498|||||||t-test, 2 sided|||||||0.626498
82403223|NCT03365934|164514920|SUPERIORITY|||||||0.988693|||||||t-test, 2 sided|||||||0.988693
82403224|NCT03365934|164514921|SUPERIORITY|||||||0.99916|||||||t-test, 2 sided|||||||0.99916
82403225|NCT03365934|164514921|SUPERIORITY|||||||0.016246|||||||t-test, 2 sided|||||||0.016246
82403226|NCT03365934|164514921|SUPERIORITY|||||||0.289112|||||||t-test, 2 sided|||||||0.289112
82403227|NCT03365934|164514921|SUPERIORITY|||||||3.8e-05|||||||t-test, 2 sided|||||||0.000038
82403228|NCT03365934|164514921|SUPERIORITY|||||||0.014558|||||||t-test, 2 sided|||||||0.014558
82403229|NCT03365934|164514921|SUPERIORITY|||||||0.03731|||||||t-test, 2 sided|||||||0.03731
82403230|NCT03365934|164514921|SUPERIORITY|||||||0.465745|||||||t-test, 2 sided|||||||0.465745
82403231|NCT03365934|164514921|SUPERIORITY|||||||0.000112|||||||t-test, 2 sided|||||||0.000112
82403232|NCT03365934|164514921|SUPERIORITY|||||||0.034575|||||||t-test, 2 sided|||||||0.034575
82403233|NCT03365934|164514921|SUPERIORITY|||||||0.889597|||||||t-test, 2 sided|||||||0.889597
82403234|NCT03365934|164514921|SUPERIORITY|||||||0.726932|||||||t-test, 2 sided|||||||0.726932
82403235|NCT03365934|164514921|SUPERIORITY|||||||0.999998|||||||t-test, 2 sided|||||||0.999998
82403236|NCT03365934|164514921|SUPERIORITY|||||||0.130235|||||||t-test, 2 sided|||||||0.130235
82403237|NCT03365934|164514921|SUPERIORITY|||||||0.910989|||||||t-test, 2 sided|||||||0.910989
82403238|NCT03365934|164514921|SUPERIORITY|||||||0.616933|||||||t-test, 2 sided|||||||0.616933
82403239|NCT03365934|164514922|SUPERIORITY|||||||0.999952|||||||t-test, 2 sided|||||||0.999952
82403240|NCT03365934|164514922|SUPERIORITY|||||||0.421347|||||||t-test, 2 sided|||||||0.421347
82403241|NCT03365934|164514922|SUPERIORITY|||||||0.598141|||||||t-test, 2 sided|||||||0.598141
82403242|NCT03365934|164514922|SUPERIORITY|||||||0.000197|||||||t-test, 2 sided|||||||0.000197
82403243|NCT03365934|164514922|SUPERIORITY|||||||0.000115|||||||t-test, 2 sided|||||||0.000115
82403244|NCT03365934|164514922|SUPERIORITY|||||||0.511155|||||||t-test, 2 sided|||||||0.511155
82403245|NCT03365934|164514922|SUPERIORITY|||||||0.693868|||||||t-test, 2 sided|||||||0.693868
82403246|NCT03365934|164514922|SUPERIORITY|||||||0.000232|||||||t-test, 2 sided|||||||0.000232
82403247|NCT03365934|164514922|SUPERIORITY|||||||0.000133|||||||t-test, 2 sided|||||||0.000133
82403248|NCT03365934|164514922|SUPERIORITY|||||||0.999894|||||||t-test, 2 sided|||||||0.999894
82403249|NCT03365934|164514922|SUPERIORITY|||||||0.078046|||||||t-test, 2 sided|||||||0.078046
82403250|NCT03365934|164514922|SUPERIORITY|||||||0.054975|||||||t-test, 2 sided|||||||0.054975
82403251|NCT03365934|164514922|SUPERIORITY|||||||0.050132|||||||t-test, 2 sided|||||||0.050132
82403252|NCT03365934|164514922|SUPERIORITY|||||||0.034793|||||||t-test, 2 sided|||||||0.034793
82530859|NCT01089556|164758640|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.933||||0.289||95.0|||||Mixed Models Analysis|||||||0.289
82646064|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.6216|TWO_SIDED|95.0|0.27|2.17|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.17|0.27|0.6216
82646065|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.6893|TWO_SIDED|95.0|0.31|5.96|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||5.96|0.31|0.6893
82403253|NCT03365934|164514922|SUPERIORITY|||||||0.999993|||||||t-test, 2 sided|||||||0.999993
82403254|NCT03365934|164514923|SUPERIORITY|||||||0.997406|||||||t-test, 2 sided|||||||0.997406
82403255|NCT03365934|164514923|SUPERIORITY|||||||0.354187|||||||t-test, 2 sided|||||||0.354187
82403256|NCT03365934|164514923|SUPERIORITY|||||||0.883222|||||||t-test, 2 sided|||||||0.883222
82403257|NCT03365934|164514923|SUPERIORITY|||||||0.000412|||||||t-test, 2 sided|||||||0.000412
82403258|NCT03365934|164514923|SUPERIORITY|||||||0.000332|||||||t-test, 2 sided|||||||0.000332
82403259|NCT03365934|164514923|SUPERIORITY|||||||0.626878|||||||t-test, 2 sided|||||||0.626878
82403260|NCT03365934|164514923|SUPERIORITY|||||||0.984465|||||||t-test, 2 sided|||||||0.984465
82403261|NCT03365934|164514923|SUPERIORITY|||||||0.001845|||||||t-test, 2 sided|||||||0.001845
82403262|NCT03365934|164514923|SUPERIORITY|||||||0.001507|||||||t-test, 2 sided|||||||0.001507
82403263|NCT03365934|164514923|SUPERIORITY|||||||0.970029|||||||t-test, 2 sided|||||||0.970029
82403264|NCT03365934|164514923|SUPERIORITY|||||||0.19886|||||||t-test, 2 sided|||||||0.19886
82403265|NCT03365934|164514923|SUPERIORITY|||||||0.177549|||||||t-test, 2 sided|||||||0.177549
82403266|NCT03365934|164514923|SUPERIORITY|||||||0.041698|||||||t-test, 2 sided|||||||0.041698
82403267|NCT03365934|164514923|SUPERIORITY|||||||0.036131|||||||t-test, 2 sided|||||||0.036131
82403268|NCT03365934|164514923|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82403269|NCT03365934|164514924|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1
82403270|NCT03365934|164514924|SUPERIORITY|||||||0.317315|||||||t-test, 2 sided|||||||0.317315
82403271|NCT03365934|164514924|SUPERIORITY|||||||0.829352|||||||t-test, 2 sided|||||||0.829352
82403272|NCT03365934|164514924|SUPERIORITY|||||||0.010561|||||||t-test, 2 sided|||||||0.010561
82403273|NCT03365934|164514924|SUPERIORITY|||||||0.001099|||||||t-test, 2 sided|||||||0.001099
82403274|NCT03365934|164514924|SUPERIORITY|||||||0.175148|||||||t-test, 2 sided|||||||0.175148
82403275|NCT03365934|164514924|SUPERIORITY|||||||0.728796|||||||t-test, 2 sided|||||||0.728796
82403276|NCT03365934|164514924|SUPERIORITY|||||||0.001992|||||||t-test, 2 sided|||||||0.001992
82403277|NCT03365934|164514924|SUPERIORITY|||||||0.000113|||||||t-test, 2 sided|||||||0.000113
82403278|NCT03365934|164514924|SUPERIORITY|||||||0.974567|||||||t-test, 2 sided|||||||0.974567
82403279|NCT03365934|164514924|SUPERIORITY|||||||0.668933|||||||t-test, 2 sided|||||||0.668933
82403280|NCT03365934|164514924|SUPERIORITY|||||||0.239446|||||||t-test, 2 sided|||||||0.239446
82403281|NCT03365934|164514924|SUPERIORITY|||||||0.283848|||||||t-test, 2 sided|||||||0.283848
82403282|NCT03365934|164514924|SUPERIORITY|||||||0.06829|||||||t-test, 2 sided|||||||0.06829
82403283|NCT03365934|164514924|SUPERIORITY|||||||0.979516|||||||t-test, 2 sided|||||||0.979516
82403284|NCT03365934|164514925|SUPERIORITY|||||||0.996522|||||||t-test, 2 sided|||||||0.996522
82403285|NCT03365934|164514925|SUPERIORITY|||||||0.875832|||||||t-test, 2 sided|||||||0.875832
82403286|NCT03365934|164514925|SUPERIORITY|||||||0.938|||||||t-test, 2 sided|||||||0.938
82403287|NCT03365934|164514925|SUPERIORITY|||||||0.038527|||||||t-test, 2 sided|||||||0.038527
82403288|NCT03365934|164514925|SUPERIORITY|||||||0.018334|||||||t-test, 2 sided|||||||0.018334
82403289|NCT03365934|164514925|SUPERIORITY|||||||0.512209|||||||t-test, 2 sided|||||||0.512209
82403290|NCT03365934|164514925|SUPERIORITY|||||||0.665529|||||||t-test, 2 sided|||||||0.665529
82403291|NCT03365934|164514925|SUPERIORITY|||||||0.002257|||||||t-test, 2 sided|||||||0.002257
82403292|NCT03365934|164514925|SUPERIORITY|||||||0.000728|||||||t-test, 2 sided|||||||0.000728
82403293|NCT03365934|164514925|SUPERIORITY|||||||0.999993|||||||t-test, 2 sided|||||||0.999993
82403294|NCT03365934|164514925|SUPERIORITY|||||||0.417914|||||||t-test, 2 sided|||||||0.417914
82403295|NCT03365934|164514925|SUPERIORITY|||||||0.277469|||||||t-test, 2 sided|||||||0.277469
82403296|NCT03365934|164514925|SUPERIORITY|||||||0.385419|||||||t-test, 2 sided|||||||0.385419
82403297|NCT03365934|164514925|SUPERIORITY|||||||0.257647|||||||t-test, 2 sided|||||||0.257647
82403298|NCT03365934|164514925|SUPERIORITY|||||||0.999897|||||||t-test, 2 sided|||||||0.999897
82403299|NCT03365934|164514926|SUPERIORITY|||||||0.862516|||||||t-test, 2 sided|||||||0.862516
82403300|NCT03365934|164514926|SUPERIORITY|||||||0.00473|||||||t-test, 2 sided|||||||0.00473
82403301|NCT03365934|164514926|SUPERIORITY|||||||0.085238|||||||t-test, 2 sided|||||||0.085238
82403302|NCT03365934|164514926|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403303|NCT03365934|164514926|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82403304|NCT03365934|164514926|SUPERIORITY|||||||0.168409|||||||t-test, 2 sided|||||||0.168409
82403305|NCT03365934|164514926|SUPERIORITY|||||||0.652654|||||||t-test, 2 sided|||||||0.652654
82403306|NCT03365934|164514926|SUPERIORITY|||||||0.001436|||||||t-test, 2 sided|||||||0.001436
82403307|NCT03365934|164514926|SUPERIORITY|||||||0.000235|||||||t-test, 2 sided|||||||0.000235
82403308|NCT03365934|164514926|SUPERIORITY|||||||0.974842|||||||t-test, 2 sided|||||||0.974842
82403309|NCT03365934|164514926|SUPERIORITY|||||||0.557877|||||||t-test, 2 sided|||||||0.557877
82403310|NCT03365934|164514926|SUPERIORITY|||||||0.277244|||||||t-test, 2 sided|||||||0.277244
82530860|NCT01089556|164758641|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.02||||0.071||95.0|||||ANCOVA|||||||0.071
82530861|NCT01089556|164758642|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.193||||0.78||95.0|||||ANCOVA|||||||0.780
82530862|NCT01089556|164758643|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.558||||0.008||95.0||||P-value is for anxiety subscale score.|Mixed Models Analysis|||||||0.008
82403311|NCT03365934|164514926|SUPERIORITY|||||||0.195527|||||||t-test, 2 sided|||||||0.195527
82403312|NCT03365934|164514926|SUPERIORITY|||||||0.070843|||||||t-test, 2 sided|||||||0.070843
82403313|NCT03365934|164514926|SUPERIORITY|||||||0.997565|||||||t-test, 2 sided|||||||0.997565
82403314|NCT03365934|164514927|SUPERIORITY|||||||0.016628|||||||t-test, 2 sided|||||||0.016628
82403315|NCT03365934|164514927|SUPERIORITY|||||||0.217862|||||||t-test, 2 sided|||||||0.217862
82403316|NCT03365934|164514927|SUPERIORITY|||||||0.812915|||||||t-test, 2 sided|||||||0.812915
82403317|NCT03365934|164514927|SUPERIORITY|||||||0.999971|||||||t-test, 2 sided|||||||0.999971
82403318|NCT03365934|164514927|SUPERIORITY|||||||0.275557|||||||t-test, 2 sided|||||||0.275557
82403319|NCT03365934|164514927|SUPERIORITY|||||||0.870124|||||||t-test, 2 sided|||||||0.870124
82403320|NCT03365934|164514927|SUPERIORITY|||||||0.380144|||||||t-test, 2 sided|||||||0.380144
82403321|NCT03365934|164514927|SUPERIORITY|||||||0.029518|||||||t-test, 2 sided|||||||0.029518
82403322|NCT03365934|164514927|SUPERIORITY|||||||0.815476|||||||t-test, 2 sided|||||||0.815476
82403323|NCT03365934|164514927|SUPERIORITY|||||||0.944307|||||||t-test, 2 sided|||||||0.944307
82403324|NCT03365934|164514927|SUPERIORITY|||||||0.313389|||||||t-test, 2 sided|||||||0.313389
82403325|NCT03365934|164514927|SUPERIORITY|||||||0.999996|||||||t-test, 2 sided|||||||0.999996
82403326|NCT03365934|164514927|SUPERIORITY|||||||0.894272|||||||t-test, 2 sided|||||||0.894272
82403327|NCT03365934|164514927|SUPERIORITY|||||||0.969093|||||||t-test, 2 sided|||||||0.969093
82403328|NCT03365934|164514927|SUPERIORITY|||||||0.383434|||||||t-test, 2 sided|||||||0.383434
82403329|NCT03365934|164514928|SUPERIORITY|||||||0.393119|||||||t-test, 2 sided|||||||0.393119
82403330|NCT03365934|164514928|SUPERIORITY|||||||0.890335|||||||t-test, 2 sided|||||||0.890335
82403331|NCT03365934|164514928|SUPERIORITY|||||||0.021978|||||||t-test, 2 sided|||||||0.021978
82403332|NCT03365934|164514928|SUPERIORITY|||||||0.000983|||||||t-test, 2 sided|||||||0.000983
82403333|NCT03365934|164514928|SUPERIORITY|||||||0.006615|||||||t-test, 2 sided|||||||0.006615
82403334|NCT03365934|164514928|SUPERIORITY|||||||0.951883|||||||t-test, 2 sided|||||||0.951883
82403335|NCT03365934|164514928|SUPERIORITY|||||||0.692455|||||||t-test, 2 sided|||||||0.692455
82403336|NCT03365934|164514928|SUPERIORITY|||||||0.257254|||||||t-test, 2 sided|||||||0.257254
82403337|NCT03365934|164514928|SUPERIORITY|||||||0.530181|||||||t-test, 2 sided|||||||0.530181
82403338|NCT03365934|164514928|SUPERIORITY|||||||0.219274|||||||t-test, 2 sided|||||||0.219274
82403339|NCT03365934|164514928|SUPERIORITY|||||||0.029675|||||||t-test, 2 sided|||||||0.029675
82403340|NCT03365934|164514928|SUPERIORITY|||||||0.111454|||||||t-test, 2 sided|||||||0.111454
82403341|NCT03365934|164514928|SUPERIORITY|||||||0.995849|||||||t-test, 2 sided|||||||0.995849
82403342|NCT03365934|164514928|SUPERIORITY|||||||0.999994|||||||t-test, 2 sided|||||||0.999994
82403343|NCT03365934|164514928|SUPERIORITY|||||||0.998744|||||||t-test, 2 sided|||||||0.998744
82403344|NCT03365934|164514929|SUPERIORITY|||||||0.999858|||||||t-test, 2 sided|||||||0.999858
82403345|NCT03365934|164514929|SUPERIORITY|||||||0.215132|||||||t-test, 2 sided|||||||0.215132
82403346|NCT03365934|164514929|SUPERIORITY|||||||0.958812|||||||t-test, 2 sided|||||||0.958812
82403347|NCT03365934|164514929|SUPERIORITY|||||||0.00622|||||||t-test, 2 sided|||||||0.00622
82403348|NCT03365934|164514929|SUPERIORITY|||||||0.017733|||||||t-test, 2 sided|||||||0.017733
82403349|NCT03365934|164514929|SUPERIORITY|||||||0.330576|||||||t-test, 2 sided|||||||0.330576
82403350|NCT03365934|164514929|SUPERIORITY|||||||0.990334|||||||t-test, 2 sided|||||||0.990334
82403351|NCT03365934|164514929|SUPERIORITY|||||||0.013025|||||||t-test, 2 sided|||||||0.013025
82403352|NCT03365934|164514929|SUPERIORITY|||||||0.034707|||||||t-test, 2 sided|||||||0.034707
82403353|NCT03365934|164514929|SUPERIORITY|||||||0.771698|||||||t-test, 2 sided|||||||0.771698
82403354|NCT03365934|164514929|SUPERIORITY|||||||0.790117|||||||t-test, 2 sided|||||||0.790117
82403355|NCT03365934|164514929|SUPERIORITY|||||||0.923224|||||||t-test, 2 sided|||||||0.923224
82403356|NCT03365934|164514929|SUPERIORITY|||||||0.112245|||||||t-test, 2 sided|||||||0.112245
82403357|NCT03365934|164514929|SUPERIORITY|||||||0.216229|||||||t-test, 2 sided|||||||0.216229
82403358|NCT03365934|164514929|SUPERIORITY|||||||0.999663|||||||t-test, 2 sided|||||||0.999663
82403359|NCT03365934|164514930|SUPERIORITY|||||||0.91874|||||||t-test, 2 sided|||||||0.91874
82403360|NCT03365934|164514930|SUPERIORITY|||||||0.013582|||||||t-test, 2 sided|||||||0.013582
82403361|NCT03365934|164514930|SUPERIORITY|||||||0.523284|||||||t-test, 2 sided|||||||0.523284
82403362|NCT03365934|164514930|SUPERIORITY|||||||0.000315|||||||t-test, 2 sided|||||||0.000315
82403363|NCT03365934|164514930|SUPERIORITY|||||||0.059485|||||||t-test, 2 sided|||||||0.059485
82403364|NCT03365934|164514930|SUPERIORITY|||||||0.15037|||||||t-test, 2 sided|||||||0.15037
82403365|NCT03365934|164514930|SUPERIORITY|||||||0.967277|||||||t-test, 2 sided|||||||0.967277
82403366|NCT03365934|164514930|SUPERIORITY|||||||0.008729|||||||t-test, 2 sided|||||||0.008729
82403367|NCT03365934|164514930|SUPERIORITY|||||||0.421603|||||||t-test, 2 sided|||||||0.421603
82403368|NCT03365934|164514930|SUPERIORITY|||||||0.647267|||||||t-test, 2 sided|||||||0.647267
82403369|NCT03365934|164514930|SUPERIORITY|||||||0.953645|||||||t-test, 2 sided|||||||0.953645
82403370|NCT03365934|164514930|SUPERIORITY|||||||0.987387|||||||t-test, 2 sided|||||||0.987387
82403371|NCT03365934|164514930|SUPERIORITY|||||||0.147361|||||||t-test, 2 sided|||||||0.147361
82403372|NCT03365934|164514930|SUPERIORITY|||||||0.930371|||||||t-test, 2 sided|||||||0.930371
82403373|NCT03365934|164514930|SUPERIORITY|||||||0.6094|||||||t-test, 2 sided|||||||0.6094
82403374|NCT03365934|164514931|SUPERIORITY|||||||0.99253|||||||t-test, 2 sided|||||||0.99253
82403375|NCT03365934|164514931|SUPERIORITY|||||||0.795279|||||||t-test, 2 sided|||||||0.795279
82403376|NCT03365934|164514931|SUPERIORITY|||||||0.855067|||||||t-test, 2 sided|||||||0.855067
82403377|NCT03365934|164514931|SUPERIORITY|||||||0.003915|||||||t-test, 2 sided|||||||0.003915
82403378|NCT03365934|164514931|SUPERIORITY|||||||0.000221|||||||t-test, 2 sided|||||||0.000221
82403379|NCT03365934|164514931|SUPERIORITY|||||||0.97816|||||||t-test, 2 sided|||||||0.97816
82403380|NCT03365934|164514931|SUPERIORITY|||||||0.98972|||||||t-test, 2 sided|||||||0.98972
82403381|NCT03365934|164514931|SUPERIORITY|||||||0.01764|||||||t-test, 2 sided|||||||0.01764
82403382|NCT03365934|164514931|SUPERIORITY|||||||0.001185|||||||t-test, 2 sided|||||||0.001185
82403383|NCT03365934|164514931|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
82530863|NCT01089556|164758643|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.423||||0.031||95.0||||p-value is for depression subscale score.|Mixed Models Analysis|||||||0.031
82403384|NCT03365934|164514931|SUPERIORITY|||||||0.119961|||||||t-test, 2 sided|||||||0.119961
82403385|NCT03365934|164514931|SUPERIORITY|||||||0.013468|||||||t-test, 2 sided|||||||0.013468
82403386|NCT03365934|164514931|SUPERIORITY|||||||0.112192|||||||t-test, 2 sided|||||||0.112192
82530864|NCT01089556|164758644|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.615||||0.049||95.0||||P-value is for anxiety subscale score.|Mixed Models Analysis|||||||0.049
82403387|NCT03365934|164514931|SUPERIORITY|||||||0.013135|||||||t-test, 2 sided|||||||0.013135
82403388|NCT03365934|164514931|SUPERIORITY|||||||0.965966|||||||t-test, 2 sided|||||||0.965966
82403389|NCT03365934|164514932|SUPERIORITY|||||||0.968005|||||||t-test, 2 sided|||||||0.968005
82403390|NCT03365934|164514932|SUPERIORITY|||||||0.526293|||||||t-test, 2 sided|||||||0.526293
82403391|NCT03365934|164514932|SUPERIORITY|||||||0.994384|||||||t-test, 2 sided|||||||0.994384
82403392|NCT03365934|164514932|SUPERIORITY|||||||0.004967|||||||t-test, 2 sided|||||||0.004967
82403393|NCT03365934|164514932|SUPERIORITY|||||||0.000948|||||||t-test, 2 sided|||||||0.000948
82403394|NCT03365934|164514932|SUPERIORITY|||||||0.936394|||||||t-test, 2 sided|||||||0.936394
82403395|NCT03365934|164514932|SUPERIORITY|||||||0.999945|||||||t-test, 2 sided|||||||0.999945
82403396|NCT03365934|164514932|SUPERIORITY|||||||0.050032|||||||t-test, 2 sided|||||||0.050032
82403397|NCT03365934|164514932|SUPERIORITY|||||||0.01256|||||||t-test, 2 sided|||||||0.01256
82403398|NCT03365934|164514932|SUPERIORITY|||||||0.886978|||||||t-test, 2 sided|||||||0.886978
82403399|NCT03365934|164514932|SUPERIORITY|||||||0.391295|||||||t-test, 2 sided|||||||0.391295
82403400|NCT03365934|164514932|SUPERIORITY|||||||0.163678|||||||t-test, 2 sided|||||||0.163678
82403401|NCT03365934|164514932|SUPERIORITY|||||||0.047937|||||||t-test, 2 sided|||||||0.047937
82403402|NCT03365934|164514932|SUPERIORITY|||||||0.013231|||||||t-test, 2 sided|||||||0.013231
82403403|NCT03365934|164514932|SUPERIORITY|||||||0.996358|||||||t-test, 2 sided|||||||0.996358
82403404|NCT03365934|164514933|SUPERIORITY|||||||0.995862|||||||t-test, 2 sided|||||||0.995862
82403405|NCT03365934|164514933|SUPERIORITY|||||||0.223341|||||||t-test, 2 sided|||||||0.223341
82403406|NCT03365934|164514933|SUPERIORITY|||||||0.834338|||||||t-test, 2 sided|||||||0.834338
82403407|NCT03365934|164514933|SUPERIORITY|||||||0.030267|||||||t-test, 2 sided|||||||0.030267
82403408|NCT03365934|164514933|SUPERIORITY|||||||0.00104|||||||t-test, 2 sided|||||||0.00104
82403409|NCT03365934|164514933|SUPERIORITY|||||||0.377217|||||||t-test, 2 sided|||||||0.377217
82403410|NCT03365934|164514933|SUPERIORITY|||||||0.965547|||||||t-test, 2 sided|||||||0.965547
82403411|NCT03365934|164514933|SUPERIORITY|||||||0.052284|||||||t-test, 2 sided|||||||0.052284
82403412|NCT03365934|164514933|SUPERIORITY|||||||0.001348|||||||t-test, 2 sided|||||||0.001348
82403413|NCT03365934|164514933|SUPERIORITY|||||||0.927936|||||||t-test, 2 sided|||||||0.927936
82403414|NCT03365934|164514933|SUPERIORITY|||||||0.946487|||||||t-test, 2 sided|||||||0.946487
82403415|NCT03365934|164514933|SUPERIORITY|||||||0.327918|||||||t-test, 2 sided|||||||0.327918
82403416|NCT03365934|164514933|SUPERIORITY|||||||0.475038|||||||t-test, 2 sided|||||||0.475038
82403417|NCT03365934|164514933|SUPERIORITY|||||||0.060057|||||||t-test, 2 sided|||||||0.060057
82403418|NCT03365934|164514933|SUPERIORITY|||||||0.857177|||||||t-test, 2 sided|||||||0.857177
82403419|NCT03365934|164514934|SUPERIORITY|||||||0.999997|||||||t-test, 2 sided|||||||0.999997
82403420|NCT03365934|164514934|SUPERIORITY|||||||0.938793|||||||t-test, 2 sided|||||||0.938793
82403421|NCT03365934|164514934|SUPERIORITY|||||||0.965993|||||||t-test, 2 sided|||||||0.965993
82403422|NCT03365934|164514934|SUPERIORITY|||||||0.057803|||||||t-test, 2 sided|||||||0.057803
82403423|NCT03365934|164514934|SUPERIORITY|||||||0.022816|||||||t-test, 2 sided|||||||0.022816
82403424|NCT03365934|164514934|SUPERIORITY|||||||0.945179|||||||t-test, 2 sided|||||||0.945179
82403425|NCT03365934|164514934|SUPERIORITY|||||||0.972522|||||||t-test, 2 sided|||||||0.972522
82403426|NCT03365934|164514934|SUPERIORITY|||||||0.033704|||||||t-test, 2 sided|||||||0.033704
82403427|NCT03365934|164514934|SUPERIORITY|||||||0.010747|||||||t-test, 2 sided|||||||0.010747
82403428|NCT03365934|164514934|SUPERIORITY|||||||0.999999|||||||t-test, 2 sided|||||||0.999999
82403429|NCT03365934|164514934|SUPERIORITY|||||||0.385474|||||||t-test, 2 sided|||||||0.385474
82403430|NCT03365934|164514934|SUPERIORITY|||||||0.213798|||||||t-test, 2 sided|||||||0.213798
82403431|NCT03365934|164514934|SUPERIORITY|||||||0.388682|||||||t-test, 2 sided|||||||0.388682
82403432|NCT03365934|164514934|SUPERIORITY|||||||0.22386|||||||t-test, 2 sided|||||||0.22386
82403433|NCT03365934|164514934|SUPERIORITY|||||||0.999494|||||||t-test, 2 sided|||||||0.999494
82403434|NCT03365934|164514935|SUPERIORITY|||||||0.891244|||||||t-test, 2 sided|||||||0.891244
82403435|NCT03365934|164514935|SUPERIORITY|||||||0.022659|||||||t-test, 2 sided|||||||0.022659
82403436|NCT03365934|164514935|SUPERIORITY|||||||0.693615|||||||t-test, 2 sided|||||||0.693615
82403437|NCT03365934|164514935|SUPERIORITY|||||||0.000237|||||||t-test, 2 sided|||||||0.000237
82530865|NCT01089556|164758644|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.378||||0.198||95.0||||P-value is for depression subscale score.|Mixed Models Analysis|||||||0.198
82530866|NCT01089556|164758649|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.343|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82530867|NCT01089556|164758650|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.095||||0.385||95.0|||||Mixed Models Analysis|||||||0.385
82530868|NCT01089556|164758651|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-2.02||||0.064||95.0||||P-value is for systolic BP.|ANCOVA|||||||0.064
82530869|NCT01089556|164758651|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|0.135||||0.843||95.0||||P-value is for diastolic BP.|ANCOVA|||||||0.843
82403438|NCT03365934|164514935|SUPERIORITY|||||||5e-06|||||||t-test, 2 sided|||||||0.000005
82403439|NCT03365934|164514935|SUPERIORITY|||||||0.352008|||||||t-test, 2 sided|||||||0.352008
82403440|NCT03365934|164514935|SUPERIORITY|||||||0.998761|||||||t-test, 2 sided|||||||0.998761
82403441|NCT03365934|164514935|SUPERIORITY|||||||0.017832|||||||t-test, 2 sided|||||||0.017832
82403442|NCT03365934|164514935|SUPERIORITY|||||||0.000974|||||||t-test, 2 sided|||||||0.000974
82403443|NCT03365934|164514935|SUPERIORITY|||||||0.638238|||||||t-test, 2 sided|||||||0.638238
82403444|NCT03365934|164514935|SUPERIORITY|||||||0.777423|||||||t-test, 2 sided|||||||0.777423
82403445|NCT03365934|164514935|SUPERIORITY|||||||0.249909|||||||t-test, 2 sided|||||||0.249909
82403446|NCT03365934|164514935|SUPERIORITY|||||||0.068196|||||||t-test, 2 sided|||||||0.068196
82403447|NCT03365934|164514935|SUPERIORITY|||||||0.005786|||||||t-test, 2 sided|||||||0.005786
82445900|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.14|||||TWO_SIDED|95.0|1.21|3.77||||||Serogroup C-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||3.77|1.21|
82445901|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.72|||||TWO_SIDED|95.0|1.6|4.64||||||Serogroup C-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.64|1.60|
82403448|NCT03365934|164514935|SUPERIORITY|||||||0.954163|||||||t-test, 2 sided|||||||0.954163
82403449|NCT03365934|164514937|SUPERIORITY||Mean Difference (Net)|-7.5|STANDARD_ERROR_OF_MEAN|2.851||0.009|TWO_SIDED|95.0|-13.1279|-1.8688|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 1||-1.8688|-13.1279|0.009
82403450|NCT03365934|164514937|SUPERIORITY||Mean Difference (Net)|-5.08|STANDARD_ERROR_OF_MEAN|2.851||0.077|TWO_SIDED|95.0|-10.7083|0.5508|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 1||0.5508|-10.7083|0.077
82403451|NCT03365934|164514937|SUPERIORITY||Mean Difference (Net)|-2.41|STANDARD_ERROR_OF_MEAN|2.851||0.399|TWO_SIDED|95.0|-8.0399|3.2192|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 1||3.2192|-8.0399|0.399
82403452|NCT03365934|164514937|SUPERIORITY||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|2.851||0.802|TWO_SIDED|95.0|-4.9144|6.3446|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 1||6.3446|-4.9144|0.802
82403453|NCT03365934|164514938|SUPERIORITY||Mean Difference (Net)|-11.37|STANDARD_ERROR_OF_MEAN|3.038|<|0.001|TWO_SIDED|95.0|-17.3738|-5.3723|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 2||-5.3723|-17.3738|<0.001
82403454|NCT03365934|164514938|SUPERIORITY||Mean Difference (Net)|-12.68|STANDARD_ERROR_OF_MEAN|3.038|<|0.001|TWO_SIDED|95.0|-18.6789|-6.6775|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 2||-6.6775|-18.6789|<0.001
82403455|NCT03365934|164514938|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|3.038||0.521|TWO_SIDED|95.0|-7.9571|4.0444|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 2||4.0444|-7.9571|0.521
82403456|NCT03365934|164514938|SUPERIORITY||Mean Difference (Net)|8.39|STANDARD_ERROR_OF_MEAN|3.038||0.006|TWO_SIDED|95.0|2.3925|14.394|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 2||14.3940|2.3925|0.006
82403457|NCT03365934|164514939|SUPERIORITY||Mean Difference (Net)|-31.83|STANDARD_ERROR_OF_MEAN|4.847|<|0.001|TWO_SIDED|95.0|-41.3967|-22.2538|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 3||-22.2538|-41.3967|<0.001
82403458|NCT03365934|164514939|SUPERIORITY||Mean Difference (Net)|-27.3|STANDARD_ERROR_OF_MEAN|4.847|<|0.001|TWO_SIDED|95.0|-36.8727|-17.7298|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 3||-17.7298|-36.8727|<0.001
82403459|NCT03365934|164514939|SUPERIORITY||Mean Difference (Net)|-13.71|STANDARD_ERROR_OF_MEAN|4.847||0.005|TWO_SIDED|95.0|-23.2784|-4.1355|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 3||-4.1355|-23.2784|0.005
82403460|NCT03365934|164514939|SUPERIORITY||Mean Difference (Net)|10.07|STANDARD_ERROR_OF_MEAN|4.847||0.039|TWO_SIDED|95.0|0.4969|19.6398|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 3||19.6398|0.4969|0.039
82403461|NCT03365934|164514940|SUPERIORITY||Mean Difference (Net)|-40.39|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-51.0324|-29.7496|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 4||-29.7496|-51.0324|<0.001
82403462|NCT03365934|164514940|SUPERIORITY||Mean Difference (Net)|-37.84|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-48.4787|-27.1959|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 4||-27.1959|-48.4787|<0.001
82403463|NCT03365934|164514940|SUPERIORITY||Mean Difference (Net)|-20.99|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-31.6336|-10.3508|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 4||-10.3508|-31.6336|<0.001
82403464|NCT03365934|164514940|SUPERIORITY||Mean Difference (Net)|8.75|STANDARD_ERROR_OF_MEAN|5.39||0.106|TWO_SIDED|95.0|-1.8871|19.3957|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 4||19.3957|-1.8871|0.106
82403465|NCT03365934|164514941|SUPERIORITY||Mean Difference (Net)|-32.9|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-43.3249|-22.4838|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 5||-22.4838|-43.3249|<0.001
82403466|NCT03365934|164514941|SUPERIORITY||Mean Difference (Net)|-27.31|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-37.7279|-16.8868|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 5||-16.8868|-37.7279|<0.001
82403467|NCT03365934|164514941|SUPERIORITY||Mean Difference (Net)|-18.76|STANDARD_ERROR_OF_MEAN|5.276|<|0.001|TWO_SIDED|95.0|-29.1785|-8.3374|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 5||-8.3374|-29.1785|<0.001
82403468|NCT03365934|164514941|SUPERIORITY||Mean Difference (Net)|6.79|STANDARD_ERROR_OF_MEAN|5.276||0.2|TWO_SIDED|95.0|-3.6303|17.2107|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 5||17.2107|-3.6303|0.200
82403469|NCT03365934|164514942|SUPERIORITY||Mean Difference (Net)|-30.9|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-39.5325|-22.265|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 6||-22.2650|-39.5325|<0.001
82403470|NCT03365934|164514942|SUPERIORITY||Mean Difference (Net)|-25.33|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-33.9669|-16.6993|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 6||-16.6993|-33.9669|<0.001
82403471|NCT03365934|164514942|SUPERIORITY||Mean Difference (Net)|-20.63|STANDARD_ERROR_OF_MEAN|4.371|<|0.001|TWO_SIDED|95.0|-29.2588|-11.9912|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 6||-11.9912|-29.2588|<0.001
82403472|NCT03365934|164514942|SUPERIORITY||Mean Difference (Net)|4.27|STANDARD_ERROR_OF_MEAN|4.371||0.33|TWO_SIDED|95.0|-4.362|12.9055|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 6||12.9055|-4.3620|0.330
82403473|NCT03365934|164514943|SUPERIORITY||Mean Difference (Net)|-13.95|STANDARD_ERROR_OF_MEAN|3.754|<|0.001|TWO_SIDED|95.0|-21.368|-6.5419|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 7||-6.5419|-21.3680|<0.001
82403474|NCT03365934|164514943|SUPERIORITY||Mean Difference (Net)|-11.54|STANDARD_ERROR_OF_MEAN|3.754||0.002|TWO_SIDED|95.0|-18.9563|-4.1302|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 7||-4.1302|-18.9563|0.002
82445902|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.61|||||TWO_SIDED|95.0|1.07|2.4||||||Serogroup C-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||2.40|1.07|
82403475|NCT03365934|164514943|SUPERIORITY||Mean Difference (Net)|-10.07|STANDARD_ERROR_OF_MEAN|3.754||0.008|TWO_SIDED|95.0|-17.4867|-2.6606|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 7||-2.6606|-17.4867|0.008
82403476|NCT03365934|164514943|SUPERIORITY||Mean Difference (Net)|6.87|STANDARD_ERROR_OF_MEAN|3.754||0.069|TWO_SIDED|95.0|-0.5447|14.2814|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 7||14.2814|-0.5447|0.069
82403477|NCT03365934|164514944|SUPERIORITY||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|3.244||0.397|TWO_SIDED|95.0|-9.1631|3.6504|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 14||3.6504|-9.1631|0.397
82403478|NCT03365934|164514944|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|3.244||0.804|TWO_SIDED|95.0|-5.6006|7.2129|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 14||7.2129|-5.6006|0.804
82403479|NCT03365934|164514944|SUPERIORITY||Mean Difference (Net)|-9.32|STANDARD_ERROR_OF_MEAN|3.244||0.005|TWO_SIDED|95.0|-15.7231|-2.9096|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 14||-2.9096|-15.7231|0.005
82403480|NCT03365934|164514944|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|3.244||0.985|TWO_SIDED|95.0|-6.3452|6.4683|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 14||6.4683|-6.3452|0.985
82403481|NCT03365934|164514946|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.044||0.348|TWO_SIDED|95.0|-0.129|0.0458|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 1||0.0458|-0.1290|0.348
82403482|NCT03365934|164514946|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.044||0.019|TWO_SIDED|95.0|-0.1904|-0.0178|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 1||-0.0178|-0.1904|0.019
82403483|NCT03365934|164514946|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.043||0.183|TWO_SIDED|95.0|-0.1437|0.0278|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 1||0.0278|-0.1437|0.183
82403484|NCT03365934|164514946|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.044||0.736|TWO_SIDED|95.0|-0.0725|0.1023|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 1||0.1023|-0.0725|0.736
82403485|NCT03365934|164514947|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.052||0.516|TWO_SIDED|95.0|-0.136|0.0687|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 2||0.0687|-0.1360|0.516
82445903|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.75|||||TWO_SIDED|95.0|7.51|25.19||||||Serogroup C-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||25.19|7.51|
82403486|NCT03365934|164514947|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.052||0.006|TWO_SIDED|95.0|-0.2459|-0.0412|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 2||-0.0412|-0.2459|0.006
82403487|NCT03365934|164514947|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.051||0.671|TWO_SIDED|95.0|-0.1235|0.0798|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 2||0.0798|-0.1235|0.671
82403488|NCT03365934|164514947|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.052||0.004|TWO_SIDED|95.0|0.0504|0.2578|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 2||0.2578|0.0504|0.004
82403489|NCT03365934|164514948|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.062||0.292|TWO_SIDED|95.0|-0.1896|0.0579|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 3||0.0579|-0.1896|0.292
82403490|NCT03365934|164514948|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.062||0.016|TWO_SIDED|95.0|-0.2773|-0.0297|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 3||-0.0297|-0.2773|0.016
82403491|NCT03365934|164514948|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.062||0.538|TWO_SIDED|95.0|-0.1622|0.0853|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 3||0.0853|-0.1622|0.538
82403492|NCT03365934|164514948|SUPERIORITY||Mean Difference (Net)|0.012|STANDARD_ERROR_OF_MEAN|0.065||0.061|TWO_SIDED|95.0|-0.0059|0.2515|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 3||0.2515|-0.0059|0.061
82403493|NCT03365934|164514949|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.3265|-0.0895|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 4||-0.0895|-0.3265|0.001
82403494|NCT03365934|164514949|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.3614|-0.1243|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 4||-0.1243|-0.3614|<0.001
82646066|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.9273|TWO_SIDED|95.0|0.24|4.84|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||4.84|0.24|0.9273
82646067|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.598|TWO_SIDED|95.0|0.47|3.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.78|0.47|0.5980
82403495|NCT03365934|164514949|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED|95.0|-0.1899|0.0471|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 4||0.0471|-0.1899|0.236
82403496|NCT03365934|164514949|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.061||0.627|TWO_SIDED|95.0|-0.0902|0.1492|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 4||0.1492|-0.0902|0.627
82403497|NCT03365934|164514950|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|TWO_SIDED|95.0|-0.3331|-0.1305|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 5||-0.1305|-0.3331|<0.001
82403498|NCT03365934|164514950|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3091|-0.1092|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 5||-0.1092|-0.3091|<0.001
82403499|NCT03365934|164514950|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.005|TWO_SIDED|95.0|-0.2439|-0.0457|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 5||-0.0457|-0.2439|0.005
82403500|NCT03365934|164514950|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.052||0.02|TWO_SIDED|95.0|0.0197|0.2252|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 5||0.2252|0.0197|0.020
82403501|NCT03365934|164514951|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.4019|-0.2044|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 6||-0.2044|-0.4019|<0.001
82403502|NCT03365934|164514951|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3655|-0.1679|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 6||-0.1679|-0.3655|<0.001
82403503|NCT03365934|164514951|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.3338|-0.1377|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 6||-0.1377|-0.3338|<0.001
82403504|NCT03365934|164514951|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.646|TWO_SIDED|95.0|-0.0767|0.1231|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 6||0.1231|-0.0767|0.646
82403505|NCT03365934|164514952|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.047||0.006|TWO_SIDED|95.0|-0.2254|-0.0384|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 7||-0.0384|-0.2254|0.006
82403506|NCT03365934|164514952|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.047||0.002|TWO_SIDED|95.0|-0.2444|-0.0574|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 7||-0.0574|-0.2444|0.002
82530870|NCT01089556|164758652|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-1.329||||0.354||95.0||||P-value is for systolic BP.|ANCOVA|||||||0.354
82530871|NCT01089556|164758652|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.003||||0.997||95.0||||P-value is for diastolic BP.|ANCOVA|||||||0.997
82403507|NCT03365934|164514952|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.047||0.001|TWO_SIDED|95.0|-0.2541|-0.0682|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 7||-0.0682|-0.2541|0.001
82403508|NCT03365934|164514952|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.048||0.911|TWO_SIDED|95.0|-0.0891|0.0998|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 7||0.0998|-0.0891|0.911
82403509|NCT03365934|164514953|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.937|TWO_SIDED|95.0|-0.0818|0.0755|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #1 group based on the change from baseline at Day 14||0.0755|-0.0818|0.937
82403510|NCT03365934|164514953|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.039||0.026|TWO_SIDED|95.0|-0.1663|-0.0108|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #2 group based on the change from baseline at Day 14||-0.0108|-0.1663|0.026
82403511|NCT03365934|164514953|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.039||0.045|TWO_SIDED|95.0|-0.1562|-0.0017|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #3 group based on the change from baseline at Day 14||-0.0017|-0.1562|0.045
82403512|NCT03365934|164514953|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.039||0.956|TWO_SIDED|95.0|-0.0799|0.0755|||ANCOVA|||Interpretation of between-treatment comparison between Wounded Uncovered group vs Product #4 group based on the change from baseline at Day 14||0.0755|-0.0799|0.956
82403513|NCT02485483|164514973|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.67|||<|0.001|TWO_SIDED|95.0|0.59|0.74||"Convergent Validity Criterion Correlation coefficient (ρ) \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and MADRS|Number of participants analyzed (N) = 221||0.74|0.59|<0.001
82403514|NCT02485483|164514973|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.69|||<|0.001|TWO_SIDED|95.0|0.62|0.76||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and BDI-II|Number of participants analyzed (N) = 222||0.76|0.62|<0.001
82403515|NCT02485483|164514974|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.58||||0.057|TWO_SIDED|95.0|0.48|0.66||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and MADRS|Number of participants analyzed (N) = 203||0.66|0.48|0.057
82403516|NCT02485483|164514974|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.74|||<|0.001|TWO_SIDED|95.0|0.67|0.8||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between PHQ-9 and BDI-II|Number of participants analyzed (N) = 200||0.80|0.67|<0.001
82403517|NCT02485483|164514975|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.79||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between BDI-II and MADRS|Number of participants analyzed (N) = 258||0.79|0.67|<0.001
82403518|NCT02485483|164514976|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.77||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between BDI-II and MADRS|Number of participants analyzed (N) = 214||0.77|0.64|<0.001
82403519|NCT02485483|164514977|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.59||||0.034|TWO_SIDED|95.0|-0.67|-0.49||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and MADRS|Number of participants analyzed (N) = 222||-0.49|-0.67|0.034
82403520|NCT02485483|164514977|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.61||||0.01|TWO_SIDED|95.0|-0.68|-0.52||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and BDI-II|Number of participants analyzed (N) = 223||-0.52|-0.68|0.010
82403521|NCT02485483|164514977|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.73|||<|0.001|TWO_SIDED|95.0|-0.78|-0.66||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and PHQ-9|Number of participants analyzed (N) = 222||-0.66|-0.78|<0.001
82403522|NCT02485483|164514978|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.54||||0.219|TWO_SIDED|95.0|-0.63|-0.43||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and MADRS|Number of participants analyzed (N) = 202||-0.43|-0.63|0.219
82403523|NCT02485483|164514978|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.68|||<|0.001|TWO_SIDED|95.0|-0.75|-0.6||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and BDI-II|Number of participants analyzed (N) = 199||-0.60|-0.75|<0.001
82403524|NCT02485483|164514978|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.77|||<|0.001|TWO_SIDED|95.0|-0.82|-0.7||"Convergent Validity Criterion ρ \> \|0.50\|"|t-test, 2 sided||Convergent correlation between WHO-5 and PHQ-9|Number of participants analyzed (N) = 205||-0.70|-0.82|<0.001
82403525|NCT04611542|164514984|SUPERIORITY||Mean Difference (Final Values)|1.02|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82403526|NCT04611542|164514985|SUPERIORITY||Median Difference (Final Values)|1.12|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82403527|NCT04611542|164514986|SUPERIORITY||Mean Difference (Final Values)|6.32|||<|0.001|TWO_SIDED||||||t-test, 2 sided||Investigators tested whether pretest to posttest change was significantly greater than 0 at P \< 0.05.|||||<0.001
82403528|NCT03397121|164514990|SUPERIORITY||Mean Difference (Final Values)|-49.52|||<|0.0001|TWO_SIDED|95.0|-55.04|-43.99||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-43.99|-55.04|<.0001
82403529|NCT03397121|164514991|SUPERIORITY||Mean Difference (Final Values)|-44.3|||<|0.0001|TWO_SIDED|95.0|-48.48|-40.12||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-40.12|-48.48|<0.0001
82403530|NCT03397121|164514992|SUPERIORITY||Mean Difference (Final Values)|-68.89|||<|0.0001|TWO_SIDED|95.0|-77.11|-60.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-60.67|-77.11|<0.0001
82530872|NCT01089556|164758653|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|3.317|||<|0.001||95.0|||||ANCOVA|||||||<0.001
82530873|NCT01089556|164758654|SUPERIORITY_OR_OTHER||LS Mean Difference (Final Values)|-0.942||||0.332||95.0|||||ANCOVA|||||||0.332
82530874|NCT01089556|164758655|SUPERIORITY_OR_OTHER|||||||0.618||95.0|||||Fisher Exact|||||||0.618
82530875|NCT01089556|164758656|SUPERIORITY_OR_OTHER|||||||0.571||95.0|||||Fisher Exact|||||||0.571
82530876|NCT01089556|164758657|SUPERIORITY_OR_OTHER|||||||0.744||95.0|||||Fisher Exact|||||||0.744
82530877|NCT01089556|164758658|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
82576237|NCT02209181|164862048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.5||0.38|TWO_SIDED|95.0|-0.54|1.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.42|-0.54|0.380
82576238|NCT02209181|164862048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.49||0.767|TWO_SIDED|95.0|-0.83|1.12||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.12|-0.83|0.767
82646068|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8572|TWO_SIDED|95.0|0.38|3.18|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||3.18|0.38|0.8572
82403531|NCT03397121|164514993|SUPERIORITY||Mean Difference (Final Values)|-62.74|||<|0.0001|TWO_SIDED|95.0|-69.01|-56.48||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-56.48|-69.01|<0.0001
82403532|NCT03397121|164514994|SUPERIORITY||Mean Difference (Final Values)|-78.34|||<|0.0001|TWO_SIDED|95.0|-83.65|-73.04||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-73.04|-83.65|<0.0001
82403533|NCT03397121|164514995|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-31.77|||<|0.0001|TWO_SIDED|95.0|-35.59|-27.94||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-27.94|-35.59|<0.0001
82403534|NCT03397121|164514996|SUPERIORITY||Mean Difference (Final Values)|-36.06|||<|0.0001|TWO_SIDED|95.0|-39.99|-32.14||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-32.14|-39.99|<0.0001
82403535|NCT03397121|164514997|SUPERIORITY||Mean Difference (Final Values)|-42.36|||<|0.0001|TWO_SIDED|95.0|-47.32|-37.4||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-37.40|-47.32|<0.0001
82403536|NCT02418234|164515000|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82403537|NCT02418234|164515001|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82403538|NCT00823264|164515002|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
82403539|NCT00527826|164515053|NON_INFERIORITY_OR_EQUIVALENCE|Negative binomial model for the rate of exacerbations (per year) using the treatment duration as offset term and treatment, COPD severity (stratum) and interaction as fixed factors. This model took further into account a strata imbalance of 73% COPD III vs. 27% COPD IV according to the observed rates (SAS code: proc GENMOD).||||||0.73||95.0|||||Negative binomial model|Least square means adjusted for COPD severity (stratum), interaction of stratum with treatment, and strata imbalance of 73% COPD III vs. 27% COPD IV.||||||0.73
82403540|NCT00527826|164515055|NON_INFERIORITY_OR_EQUIVALENCE|Poisson model for the rate of exacerbations (per year) using the treatment duration as offset term and treatment, COPD severity (stratum) and interaction as fixed factors. This model took further into account a strata imbalance of 73% COPD III vs. 27% COPD IV according to the observed rates (SAS code: proc GENMOD).||||||0.66||95.0|||||Poisson model|Least square means adjusted for COPD severity (stratum), interaction of stratum with treatment, and strata imbalance of 73% COPD III vs. 27% COPD IV.||||||0.66
82403541|NCT01808261|164515068|OTHER||Mean Difference (Net)|0.0443|STANDARD_ERROR_OF_MEAN|0.0809||0.713||95.0|-0.119|0.2||P-value presented is the posterior probability that the treatment difference (GSK249320 15mg/kg - placebo) is greater than 0 m/s at Month 3/Day 90.|Bayesian method|||Credible intervals are displayed as confidence intervals. Posterior means, standard deviations, and credible intervals are provided in the table.||0.2|-0.119|0.713
82403542|NCT01808261|164515069|OTHER||Mean Difference (Net)|0.0794|STANDARD_ERROR_OF_MEAN|0.0857||0.828|TWO_SIDED|95.0|-0.093|0.247||P-value presented is the posterior probability that the treatment difference (GSK249320 15mg/kg - placebo) is greater than 0 m/s at Month 6/Day 180.|Bayesian method|||Credible intervals are displayed as confidence intervals. Posterior means, standard deviations, and credible intervals are provided in the table.||0.247|-0.093|0.828
82403543|NCT01808261|164515071|OTHER||Mean Difference (Net)|2.408|STANDARD_ERROR_OF_MEAN|2.7495|||TWO_SIDED|95.0|-3.067|7.883||||||Statistical data for Day 30. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||7.883|-3.067|
82403544|NCT01808261|164515071|OTHER||Mean Difference (Net)|3.015|STANDARD_ERROR_OF_MEAN|2.8732|||TWO_SIDED|95.0|-2.704|8.735||||||Statistical data for Day 60. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||8.735|-2.704|
82403545|NCT01808261|164515071|OTHER||Mean Difference (Net)|2.435|STANDARD_ERROR_OF_MEAN|3.5633|||TWO_SIDED|95.0|-4.668|9.538||||||Statistical data for Day 90. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||9.538|-4.668|
82403546|NCT01808261|164515071|OTHER||Mean Difference (Net)|3.944|STANDARD_ERROR_OF_MEAN|3.5635|||TWO_SIDED|95.0|-3.15|11.037||||||Statistical data for Day 180. The point estimate and confidence interval are for the adjusted mean difference based on least square estimates.||11.037|-3.15|
82403547|NCT02080364|164515098|SUPERIORITY|||||||0.3386||||||p-value for comparison to Placebo|Mixed Models Analysis|||||||0.3386
82530878|NCT01649596|164758659|SUPERIORITY_OR_OTHER||percent|10.0||||0.12|TWO_SIDED||||||Chi-squared|||||||0.12
82530879|NCT01649596|164758660|SUPERIORITY_OR_OTHER||percent|48.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|A t-test for percents was used to compare the number of participants (%) from each group reporting satisfaction (somewhat and highly satisfied).||||||<0.05
82530880|NCT01757665|164758661|SUPERIORITY||percent of patients|0.1|||||ONE_SIDED|95.0||0.7|||||Upper 95% CI was calculated by the method of Clopper and Pearson, using the Beta distribution with parameters x + 1 and n - x where x is the number of SVD events by POD 390 and n is the number of subjects followed at the 1 year assessment.|The null hypothesis is that the rate of structural valve deterioration at one year is greater than 1%. The alternative hypothesis is that this rate is less than 1%.||0.7||
82403548|NCT02080364|164515098|SUPERIORITY|||||||0.1992||||||p-value for compairons to Placebo|Mixed Models Analysis|||||||0.1992
82403549|NCT02080364|164515099|SUPERIORITY|||||||0.9394||||||p-value for comparison to Placebo.|Mixed Models Analysis|||||||0.9394
82403550|NCT02080364|164515099|SUPERIORITY||||||||||||||||||MMRM model does not converge. LS Mean and p-value are NA.|||
82403551|NCT02256839|164515108|EQUIVALENCE|A 2x2 contingency table with 95% CI.|2 x 2 contingency table|98.1|||||TWO_SIDED|95.0|95.3|99.3||||||||99.3|95.3|
82403552|NCT02256839|164515108|EQUIVALENCE|A 2x2 contingency table with 95% CI|2 x 2 contingency table|96.1|||||TWO_SIDED|95.0|85.4|99.3||||||||99.3|85.4|
82403553|NCT01843803|164515109|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|1.5||0.029|TWO_SIDED|||||"P-Value = 0.029 after adjusting for clinical and demographic, and accounting for clustering of patients within providers.~Comparison of adjusted CARES score yielded a significant difference."|Mixed Models Analysis|A mixed model was ran with CARES as the dependent variable, adjusted for demographic and clinical measures , and provider as a random effect.||Mixed model adjusted for gender, race, education, marital status, mental health condition, substance disorder, COPD, heart failure, diabetes, coronary artery disease, study site and accounting for clustering of patients within providers.||||0.029
82403554|NCT01843803|164515111|SUPERIORITY||Odds Ratio (OR)|1.69||||0.065|TWO_SIDED|95.0|0.99|2.86||P-Value derived after adjusting model provider clustering and treating it as a random effect.|Mixed Models Analysis|||Assessed whether a person in the intervention group vs the attention control group was more likely to be probed at least once by their provider after adjusting for other measures and accounting for the provider clustering.||2.86|0.99|.065
82403555|NCT01843803|164515112|SUPERIORITY||||||<|0.05|||||||Chi-squared|||chi-square||||<0.05
82403556|NCT03138577|164515122|OTHER||||||||||||||||||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||
82403557|NCT03138577|164515123|OTHER|||||||||||||||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||Counts and percentages of cases with paralysis were calculated separately for each volume of local anesthetic.|||
82403558|NCT03138577|164515124|OTHER||Median Difference (Final Values)|7.5||||0.01|TWO_SIDED||||||Sign test|||||||0.01
82403559|NCT03138577|164515124|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED||||||Sign test|||||||1.00
82403560|NCT03138577|164515125|OTHER||||||||||||||||||Dose response data was fit with a non-parametric smoothing technique for locally weighted regression (lowess) to produce a dose response curve.|||
82403561|NCT03138577|164515126|OTHER||||||||||||||||||Dose response data was fit with a non-parametric smoothing technique for locally weighted regression (lowess) to produce a dose response curve.|||
82403562|NCT03138577|164515127|OTHER||Median Difference (Final Values)|-1.0||||0.01|TWO_SIDED||||||Sign test|||||||0.01
82403563|NCT03138577|164515127|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED||||||Sign test|||||||1.00
82403564|NCT03138577|164515128|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82403565|NCT04346199|164515140|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.758|||||TWO_SIDED|95.0|0.323|1.722||P-value not generated.|Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.722|0.323|
82403566|NCT04346199|164515148|OTHER|No formal hypothesis testing for this endpoint.|Hazard Ratio (HR)|0.967||||||95.0|0.69|1.353|||Regression, Cox|Adjusting for age (\<65 vs \>=65 years) and comorbidities (present vs absent). Ties handled by Efron approach. HR CI using profile likelihood approach.||||1.353|0.690|
82403567|NCT00627926|164515151|SUPERIORITY_OR_OTHER||Difference in percentage|23.0|||||TWO_SIDED|95.0|15.9|30.0||||||||30.0|15.9|
82403568|NCT00627926|164515151|SUPERIORITY_OR_OTHER||Difference in percentage|29.2|||||TWO_SIDED|95.0|22.4|36.1||||||||36.1|22.4|
82403569|NCT00627926|164515152|SUPERIORITY_OR_OTHER||Difference in percentage|57.1|||||TWO_SIDED|95.0|51.4|62.8||||||||62.8|51.4|
82403570|NCT00627926|164515152|SUPERIORITY_OR_OTHER||Difference in percentage|58.4|||||TWO_SIDED|95.0|52.7|64.0||||||||64.0|52.7|
82403571|NCT00627926|164515153|SUPERIORITY_OR_OTHER||Difference in percentage|48.8|||||TWO_SIDED|95.0|43.0|54.6||||||||54.6|43.0|
82403572|NCT00627926|164515153|SUPERIORITY_OR_OTHER||Difference in percentage|50.4|||||TWO_SIDED|95.0|44.6|56.2||||||||56.2|44.6|
82403573|NCT00627926|164515154|SUPERIORITY_OR_OTHER||Difference in percentage|35.7|||||TWO_SIDED|95.0|29.0|42.4||||||||42.4|29.0|
82403574|NCT00627926|164515154|SUPERIORITY_OR_OTHER||Difference in percentage|37.5|||||TWO_SIDED|95.0|30.9|44.1||||||||44.1|30.9|
82403575|NCT00627926|164515155|SUPERIORITY_OR_OTHER||Difference in percentage|17.6|||||TWO_SIDED|95.0|11.2|24.0||||||||24.0|11.2|
82403576|NCT00627926|164515155|SUPERIORITY_OR_OTHER||Difference in percentage|23.1|||||TWO_SIDED|95.0|17.0|29.2||||||||29.2|17.0|
82403577|NCT00627926|164515156|SUPERIORITY_OR_OTHER||Difference in percentage|25.5|||||TWO_SIDED|95.0|18.5|32.4||||||||32.4|18.5|
82403578|NCT00627926|164515156|SUPERIORITY_OR_OTHER||Difference in percentage|31.2|||||TWO_SIDED|95.0|24.4|37.9||||||||37.9|24.4|
82403579|NCT00627926|164515157|SUPERIORITY_OR_OTHER||Difference in percentage|25.2|||||TWO_SIDED|95.0|18.2|32.2||||||||32.2|18.2|
82403580|NCT00627926|164515157|SUPERIORITY_OR_OTHER||Difference in percentage|31.7|||||TWO_SIDED|95.0|24.9|38.5||||||||38.5|24.9|
82403581|NCT00627926|164515162|SUPERIORITY_OR_OTHER||Difference in percentage|24.9|||||TWO_SIDED|95.0|17.9|31.9||||||SVR Protocol Defined: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment without any confirmed detectable HCV RNA between end of treatment visit (up to Week 48) and 24 weeks after last planned dose (up to Week 72).||31.9|17.9|
82403582|NCT00627926|164515162|SUPERIORITY_OR_OTHER||Difference in percentage|30.9|||||TWO_SIDED|95.0|24.1|37.7||||||SVR Protocol Defined: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment without any confirmed detectable HCV RNA between end of treatment visit (up to Week 48) and 24 weeks after last planned dose (up to Week 72).||37.7|24.1|
82403583|NCT00627926|164515162|SUPERIORITY_OR_OTHER||Difference in percentage|25.7|||||TWO_SIDED|95.0|18.8|32.6||||||SVR FDA Guidance: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment. Analysis was based only on the HCV RNA assessment in visit window (+/-2 weeks); if there were more than 1 assessment in the window, the last measurement was used.||32.6|18.8|
82646069|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7807|TWO_SIDED|95.0|0.26|2.77|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.77|0.26|0.7807
82445904|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.42|||||TWO_SIDED|95.0|7.31|24.66||||||Serogroup C-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||24.66|7.31|
82445905|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|13.59|||||TWO_SIDED|95.0|7.7|24.0||||||Serogroup C-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||24.00|7.70|
82445906|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.02|||||TWO_SIDED|95.0|0.67|1.56||||||Serogroup C-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.56|0.67|
82445907|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|19.43|||||TWO_SIDED|95.0|13.73|27.51||||||Serogroup C-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||27.51|13.73|
82445908|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|17.72|||||TWO_SIDED|95.0|12.5|25.12||||||Serogroup C-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||25.12|12.50|
82445909|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|18.57|||||TWO_SIDED|95.0|13.4|25.73||||||Serogroup C-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||25.73|13.40|
82445910|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.1|||||TWO_SIDED|95.0|0.86|1.4||||||Serogroup C-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.40|0.86|
82445911|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.88|||||TWO_SIDED|95.0|1.13|3.11||||||Serogroup W-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||3.11|1.13|
82576239|NCT02209181|164862048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.52|3.49||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.49|1.52|<0.001
82403584|NCT00627926|164515162|SUPERIORITY_OR_OTHER||Difference in percentage|32.5|||||TWO_SIDED|95.0|25.9|39.2||||||SVR FDA Guidance: undetectable HCV RNA at 24 weeks after the last planned dose of study treatment. Analysis was based only on the HCV RNA assessment in visit window (+/-2 weeks); if there were more than 1 assessment in the window, the last measurement was used.||39.2|25.9|
82403585|NCT00869128|164515179|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANOVA|The effect of Circadin was checked by means of 2 x 2 mixed design analysis of variance for repeated measurement.||ANOVA, The effect of Circadin was checked by means of 2 x 2 mixed design analysis of variance for repeated measurement.||||0.04
82403586|NCT00656175|164515193|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon sign-rank test used for statistical significance.||||0.52
82403587|NCT02497937|164515194|OTHER||Mean Difference (Net)|0.793|||||TWO_SIDED|95.0|-0.925|2.512|||||Difference estimate of DLco on Day 7 has been presented for Mayo site|||2.512|-0.925|
82425955|NCT01959932|164560546|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|5.99|||<|0.001|TWO_SIDED|95.0|5.21|6.87||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||6.87|5.21|<0.001
82425956|NCT01959932|164560547|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.45|||<|0.001|TWO_SIDED|95.0|22.0|24.99||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|LS mean ratio THS 2.2:CC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for THS 2.2 is lower relative to CC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for THS 2.2 and CC respectively."||24.99|22.00|<0.001
82445912|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.46|||||TWO_SIDED|95.0|1.48|4.08||||||Serogroup W-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||4.08|1.48|
82445913|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.14|||||TWO_SIDED|95.0|1.33|3.44||||||Serogroup W-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||3.44|1.33|
82445914|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.76|||||TWO_SIDED|95.0|0.53|1.1||||||Serogroup W-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.10|0.53|
82445915|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.04|||||TWO_SIDED|95.0|4.05|12.22||||||Serogroup W-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||12.22|4.05|
82445916|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|8.99|||||TWO_SIDED|95.0|5.16|15.66||||||Serogroup W-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||15.66|5.16|
82445917|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|7.94|||||TWO_SIDED|95.0|4.72|13.35||||||Serogroup W-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||13.35|4.72|
82445918|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.78|||||TWO_SIDED|95.0|0.54|1.14||||||Serogroup W-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.14|0.54|
82445919|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|25.21|||||TWO_SIDED|95.0|17.83|35.65||||||Serogroup W-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||35.65|17.83|
82445920|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|34.06|||||TWO_SIDED|95.0|24.06|48.23||||||Serogroup W-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||48.23|24.06|
82445921|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|29.24|||||TWO_SIDED|95.0|21.09|40.52||||||Serogroup W-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||40.52|21.09|
82445922|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.74|||||TWO_SIDED|95.0|0.58|0.94||||||Serogroup W-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||0.94|0.58|
82445923|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.35|||||TWO_SIDED|95.0|1.36|4.07||||||Serogroup Y-Vaccine comparison at day 4 (Menveo-Menveo vs. Naive)||4.07|1.36|
82445924|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.62|||||TWO_SIDED|95.0|1.51|4.54||||||Serogroup Y-Vaccine comparison at day 4 (Menactra-Menveo vs. Naive)||4.54|1.51|
82445925|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|2.48|||||TWO_SIDED|95.0|1.48|4.14||||||Serogroup Y-Vaccine comparison at day 4 - (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||4.14|1.48|
82445926|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|0.9|||||TWO_SIDED|95.0|0.61|1.33||||||Serogroup Y-Vaccine comparison at day 4 (Menveo-Menveo vs. Menactra-Menveo)||1.33|0.61|
82530881|NCT01702428|164758694|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|-0.54|||||TWO_SIDED|95.0|-1.69|0.58|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||0.58|-1.69|
82576240|NCT02209181|164862048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.49||0.557|TWO_SIDED|95.0|-1.27|0.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.68|-1.27|0.557
82445927|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.82|||||TWO_SIDED|95.0|5.47|17.64||||||Serogroup Y-Vaccine comparison at day 6 (Menveo-Menveo vs. Naive)||17.64|5.47|
82403588|NCT00511173|164515316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|4.5|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: there is no difference in warfarin dose (mg/wk) between pharmacist dosing and algorithm dosing. In order to gather all SNP groups, the power analysis resulted in \> 100 patients enrolled into each group.||||< 0.05
82403589|NCT00758498|164515355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|||<|0.0001|TWO_SIDED|95.0|2.07|3.71|||ANCOVA|Treatment was a factor and baseline value was a co-variate||||3.71|2.07|<0.0001
82403590|NCT00758498|164515355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9|||<|0.0001|TWO_SIDED|95.0|6.06|7.69|||ANCOVA|Treatment was a factor and baseline value was a co-variate||||7.69|6.06|<0.0001
82403591|NCT00758498|164515356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8341|TWO_SIDED|95.0|-0.2|0.25|||ANOVA|||||0.25|-0.20|0.8341
82403592|NCT00758498|164515356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0441|TWO_SIDED|95.0|-0.5|-0.05|||ANCOVA|||||-0.05|-0.50|0.0441
82403593|NCT00758498|164515357|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82403594|NCT00758498|164515357|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82403595|NCT00758498|164515358|SUPERIORITY_OR_OTHER|||||||0.0012|||||||ANCOVA|Treatment comparisons made use of an analysis of covariance (ANCOVA) analysis with treatment as a factor and baseline value as a covariate||||||0.0012
82403596|NCT00758498|164515358|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis by ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
82403597|NCT00758498|164515359|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Analysis of treatment comparisons is based on an analysis of variance (ANCOVA) with treatment as a factor and the baseline value as covariate|ANCOVA|||||||<0.0001
82403598|NCT00758498|164515359|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on an ANCOVA with treatment as a factor and baseline value as a covariate||||||<0.0001
82403599|NCT00758498|164515360|SUPERIORITY_OR_OTHER|||||||0.0022|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate||||||0.0022
82403600|NCT00758498|164515360|SUPERIORITY_OR_OTHER|||||||0.0033|||||||ANCOVA|Analysis of treatment comparisons was based on ANCOVA with treatment as a factor and the baseline as a covariate||||||0.0033
82403601|NCT00758498|164515366|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as factor and baseline value as a covariate.||||||<0.0001
82403602|NCT00758498|164515366|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on ANCOVA with treatment as factor and baseline value as a covariate||||||<0.0001
82403603|NCT00758498|164515367|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate||||||<0.0001
82403604|NCT00758498|164515367|SUPERIORITY_OR_OTHER||Least square mean||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is based on ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
82403605|NCT00758498|164515368|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons are from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||||<0.0001
82403606|NCT00758498|164515368|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Analysis of treatment comparisons is from an ANCOVA with treatment as a factor and the baseline value as a covariate||||||<0.0001
82403607|NCT00758498|164515370|SUPERIORITY_OR_OTHER|||||||0.8262|||||||ANOVA|||||||0.8262
82403608|NCT00758498|164515370|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||||||0.0040
82403609|NCT00758498|164515371|SUPERIORITY_OR_OTHER|||||||0.9595|||||||ANOVA|||||||0.9595
82403610|NCT00758498|164515371|SUPERIORITY_OR_OTHER||Least square mean|||||0.3539|||||||ANOVA|||||||0.3539
82403611|NCT00758498|164515372|SUPERIORITY_OR_OTHER|||||||0.1038|||||||ANOVA|||||||0.1038
82403612|NCT00758498|164515372|SUPERIORITY_OR_OTHER|||||||0.8112|||||||ANOVA|||||||0.8112
82403613|NCT03782987|164515381|OTHER||Geometric mean (gMean) ratio (%) (T/ R)|649.48|STANDARD_ERROR_OF_MEAN|27.7|||TWO_SIDED|90.0|541.29|779.29|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||779.29|541.29|
82403614|NCT03782987|164515382|OTHER||gMean ratio (%) (T/ R)|166.88|STANDARD_ERROR_OF_MEAN|17.7|||TWO_SIDED|90.0|148.42|187.64|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||187.64|148.42|
82403615|NCT03782987|164515383|OTHER||gMean ratio (%) (T/ R)|931.41|STANDARD_ERROR_OF_MEAN|25.9|||TWO_SIDED|90.0|785.19|1104.85|||||Confidence intervals were calculated based on the residual error from the ANOVA. Standard error of the mean is actually intra-individual geometric coefficient of variance (gCV).|Statistical model was an analysis of variance (ANOVA) on the logarithmic scale including 'subjects' as random effect and 'treatment' as fixed effect.||1104.85|785.19|
82403616|NCT04194489|164515403|OTHER|Effect size calculation|Cohen's d|0.43|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
82403617|NCT04194489|164515404|OTHER|Effect size|Cohen's d|0.17|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
82403618|NCT04194489|164515405|OTHER|Effect size calculation|Cohen's d|0.27|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
82403619|NCT04194489|164515406|OTHER|Effect size calculation|Cohen's d|0.02|||||TWO_SIDED|||||||||Cohen's d effect size was calculated using baseline and follow-up means and standard deviations. An effect size of 0.2 is small, 0.5 is medium and 0.8 is large.||||
82403620|NCT02291029|164515416|SUPERIORITY||Mean Difference (Net)|-0.41||||0.397|TWO_SIDED|95.0|-3.7|2.89||One-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||2.89|-3.70|0.397
82530882|NCT01702428|164758694|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|0.79|||||TWO_SIDED|95.0|-0.35|1.98|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||1.98|-0.35|
82576241|NCT02209181|164862048|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.06|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.08|3.05||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.05|1.08|<0.001
82403621|NCT02291029|164515416|SUPERIORITY||Mean Difference (Net)|-5.21||||0.009|TWO_SIDED|95.0|-9.46|-0.96||One-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate.||||-0.96|-9.46|0.009
82403622|NCT02291029|164515416|SUPERIORITY||Mean Difference (Net)|2.34||||0.344|TWO_SIDED|95.0|-2.78|7.45||two-sided p-value|Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate.||||7.45|-2.78|0.344
82445928|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.55|||||TWO_SIDED|95.0|5.31|17.19||||||Serogroup Y-Vaccine comparison at day 6 (Menactra-Menveo vs. Naive)||17.19|5.31|
82445929|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|9.69|||||TWO_SIDED|95.0|5.59|16.79||||||Serogroup Y-Vaccine comparison at day 6 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||16.79|5.59|
82445930|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.03|||||TWO_SIDED|95.0|0.69|1.54||||||Serogroup Y-Vaccine comparison at day 6 (Menveo-Menveo vs. Menactra-Menveo)||1.54|0.69|
82445931|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|28.52|||||TWO_SIDED|95.0|20.23|40.2||||||Serogroup Y-Vaccine comparison at day 29 (Menveo-Menveo vs. Naive)||40.20|20.23|
82445932|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|26.94|||||TWO_SIDED|95.0|19.09|38.02||||||Serogroup Y-Vaccine comparison at day 29 (Menactra-Menveo vs. Naive)||38.02|19.09|
82445933|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|27.73|||||TWO_SIDED|95.0|20.1|38.26||||||Serogroup Y-Vaccine comparison at day 29 (Pooled Menveo-Menveo and Menactra-Menveo vs. Naïve)||38.26|20.10|
82445934|NCT02986854|164599963|OTHER|GMTs ratio and 95% CI, at each time point against each serogroups A, C, W and Y strains was obtained by exponentiating the mean between-group differences in log-transformed titers and the corresponding 95% CIs at each of the timepoints specified|Between group GMT ratios|1.06|||||TWO_SIDED|95.0|0.83|1.35||||||Serogroup Y-Vaccine comparison at day 29 (Menveo-Menveo vs. Menactra-Menveo)||1.35|0.83|
82445935|NCT02530996|164599966|OTHER|Power calculations were performed using G\*Power computer software version 3. Sample-size calculations were based on the number of patients needed to detect significant differences in FMD between placebo and BH4.|Mean Difference (Net)|1.5|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Statistics were performed using SPSS software (IBM, Chicago, IL). Paired t-tests were used to identify significant changes in measured variables between placebo and BH4. Unpaired t-tests were used to identify significant changes in measured variables between ordered groups. Based on data published in PMID: 25511849 power calculations for this study of SSc patients were made.||||<0.05
82445936|NCT04484207|164599978|SUPERIORITY|||||||0.031|||||||GEE|||||||0.031
82445937|NCT01555125|164599996|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82646070|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.5579|TWO_SIDED|95.0|0.21|2.32|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.32|0.21|0.5579
82403623|NCT02291029|164515417|SUPERIORITY||Mean Difference (Net)|-1.09||||0.205|TWO_SIDED|95.0|-2.97|0.8|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||0.80|-2.97|0.205
82445938|NCT01555125|164599996|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82445939|NCT01555125|164599997|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82445940|NCT01555125|164599997|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82445941|NCT02651220|164600019|EQUIVALENCE|Bioequivalence was based on 90% confidence interval within 80-125%.|Bioavailability|100.28|||||TWO_SIDED|90.0|96.78|103.91||||||||103.91|96.78|
82445942|NCT02651220|164600020|EQUIVALENCE|Bioequivalence is based on 90% confidence interval within 80-125%.|Bioavailability|99.73|||||TWO_SIDED|90.0|96.04|103.56||||||||103.56|96.04|
82445943|NCT02651220|164600021|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82445944|NCT04268745|164600022|SUPERIORITY||Mean Difference (Final Values)|-13.603||||0.027|TWO_SIDED|95.0|-25.634|-1.573|||Regression, Linear|||||-1.573|-25.634|0.027
82445945|NCT04268745|164600023|SUPERIORITY||Median Difference (Final Values)|6.405||||0.0001|TWO_SIDED|95.0|4.474|8.335|||Regression, Linear|||||8.335|4.474|0.0001
82445946|NCT04268745|164600024|SUPERIORITY||Mean Difference (Final Values)|-18.703||||0.0002|TWO_SIDED|95.0|-28.235|-9.172|||Regression, Linear|||||-9.172|-28.235|0.0002
82445947|NCT04268745|164600025|SUPERIORITY||Mean Difference (Final Values)|8.556||||0.028|TWO_SIDED|95.0|0.938|16.174|||Regression, Linear|||||16.174|0.938|0.028
82445948|NCT04268745|164600026|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.695|TWO_SIDED|95.0|-0.443|0.665|||Regression, Linear|||||0.665|-0.443|0.695
82445949|NCT04268745|164600027|SUPERIORITY||Mean Difference (Final Values)|-0.514||||0.469|TWO_SIDED|95.0|-1.901|0.874|||Regression, Linear|||||0.874|-1.901|0.469
82445950|NCT02720692|164600060|SUPERIORITY||||||<|0.05||||||P\<0.05 applies to Day 1 (0-24 Hours; p=0.0033), Days 1-2 (0-48 Hours; p=0.0077), and Days 1-3 (0-72 Hours; p=0.0152).|ANCOVA|||||||<0.05
82445951|NCT03878758|164600069|SUPERIORITY|The average difference in incidence of needle bending with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-0.39||||0.591|TWO_SIDED|95.0|-1.82|1.04|||Fisher Exact|||||1.04|-1.82|0.591
82445952|NCT03878758|164600069|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|0.13||||0.931|TWO_SIDED|95.0|-2.8|3.06|||Fisher Exact|||||3.06|-2.8|0.931
82646071|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|95.0|0.4|2.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.53|0.40|0.9932
82403624|NCT02291029|164515417|SUPERIORITY||Mean Difference (Net)|-0.95||||0.188|TWO_SIDED|95.0|-2.41|0.5|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||0.50|-2.41|0.188
82403625|NCT02291029|164515417|SUPERIORITY||Mean Difference (Net)|-0.37||||0.663|TWO_SIDED|95.0|-2.08|1.35|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||1.35|-2.08|0.663
82403626|NCT02291029|164515418|SUPERIORITY||Mean Difference (Net)|-15.26||||0.161|TWO_SIDED|95.0|-37.9|7.38|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||7.38|-37.90|0.161
82403627|NCT02291029|164515418|SUPERIORITY||Mean Difference (Net)|-12.16||||0.017|TWO_SIDED|95.0|-21.94|-2.38|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||-2.38|-21.94|0.017
82403628|NCT02291029|164515419|SUPERIORITY||Mean Difference (Net)|-9.45||||0.456|TWO_SIDED|95.0|-36.2|17.3|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||17.30|-36.20|0.456
82445953|NCT03878758|164600069|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|0.42||||0.723|TWO_SIDED|95.0|-1.91|2.75|||Fisher Exact|||||2.75|-1.91|0.723
82445954|NCT03878758|164600070|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. comparator was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-5.7|||<|0.001|TWO_SIDED|95.0|-9.0|-3.5|||Fisher Exact|||||-3.5|-9.0|<0.001
82445955|NCT03878758|164600070|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs. comparator was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-14.09||||0.026|TWO_SIDED|95.0|-26.49|-1.69||Although a site difference was detected - all sites combined p-value was generated,|Fisher Exact|||||-1.69|-26.49|0.026
82445956|NCT03878758|164600070|SUPERIORITY|The average difference in percentage of occurrence with BD Nano vs.Comparator pen needle was calculated with 95% confidence interval and assessed for statistical significance.|Risk Difference (RD)|-0.2||||0.644|TWO_SIDED|95.0|-1.9|0.6|||Fisher Exact|||||0.6|-1.9|0.644
82445957|NCT03878758|164600071|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|0.8|||||TWO_SIDED|95.0|0.62|0.98||||||||0.98|0.62|
82445958|NCT03878758|164600071|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|1.0|||||TWO_SIDED|95.0|0.8|1.16||||||||1.16|0.8|
82445959|NCT03878758|164600071|SUPERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates.|Overall Mean|0.3|||||TWO_SIDED|95.0|0.13|0.49||||||||0.49|0.13|
82445960|NCT03878758|164600072|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Mean Difference (Final Values)|-0.192|||<|0.001|ONE_SIDED|95.0||-0.141|||Mixed Models Analysis|||BD Nano Pro vs Artsana 34G||-0.141||<0.001
82445961|NCT03878758|164600072|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary.|Mean Difference (Final Values)|-0.122||||0.104|ONE_SIDED|95.0||0.016|||Mixed Models Analysis|||BD NANO vs Artsana 33G. A significant site effect was detected at one site; the most conservative p-value is reported.||0.016||0.104
82576242|NCT02209181|164862049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.55||0.64|TWO_SIDED|95.0|-0.83|1.35||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.35|-0.83|0.640
82403629|NCT02291029|164515419|SUPERIORITY||Mean Difference (Net)|-8.14||||0.376|TWO_SIDED|95.0|-26.67|10.39|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||10.39|-26.67|0.376
82403630|NCT02291029|164515420|SUPERIORITY||Mean Difference (Net)|-5.5||||0.172|TWO_SIDED|95.0|-13.91|2.91|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||2.91|-13.91|0.172
82403631|NCT02291029|164515420|SUPERIORITY||Mean Difference (Net)|3.83||||0.175|TWO_SIDED|95.0|-1.81|9.48|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||9.48|-1.81|0.175
82403632|NCT02291029|164515421|SUPERIORITY||Mean Difference (Net)|-0.07||||0.986|TWO_SIDED|95.0|-8.49|8.35|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||8.35|-8.49|0.986
82403633|NCT02291029|164515421|SUPERIORITY||Mean Difference (Net)|3.83||||0.175|TWO_SIDED|95.0|-1.81|9.48|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||9.48|-1.81|0.175
82403634|NCT02291029|164515422|SUPERIORITY||Mean Difference (Net)|1.34||||0.807|TWO_SIDED|95.0|-10.48|13.15|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||13.15|-10.48|0.807
82403635|NCT02291029|164515422|SUPERIORITY||Mean Difference (Net)|-9.83||||0.074|TWO_SIDED|95.0|-20.66|1.01|||Repeated measures model|with time (as nominal study week), the interaction between time and treatment (all as fixed effects) and with baseline as a covariate||||1.01|-20.66|0.074
82403636|NCT00377637|164515423|SUPERIORITY_OR_OTHER|||||||0.478||95.0|||||Regression, Logistic|Covariates included Treatment, Race, Geographical Region, and WHO Lupus Nephritis Class V and specified interaction terms.||||||0.478
82403637|NCT00377637|164515424|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Testing at the alpha=0.05 level was applied with no adjustments made for multiplicity.|Log Rank|||The difference in Kaplan-Meier survival curves between treatment groups (MMF-AZA) was assessed using a log-rank test, which is a non-parametric test to compare the survival distributions of two groups commonly used to analyze time-to-event endpoints.||||0.003
82403638|NCT00522548|164515456|SUPERIORITY|||||||0.29||||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||.29
82403639|NCT00522548|164515457|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.39
82403640|NCT00522548|164515458|SUPERIORITY|||||||1||||||A p value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||1.0
82403641|NCT00522548|164515459|SUPERIORITY|||||||1||||||A p value of less than 0.05 was considered significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||1.00
82403642|NCT00522548|164515460|SUPERIORITY|||||||0.14||||||a p value of less than 0.05 was considered statistically significant|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.14
82403643|NCT00522548|164515461|SUPERIORITY|||||||0.34||||||A p value of less than 0.05 was considered statistically significant.|Chi-squared|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.34
82403644|NCT00522548|164515462|SUPERIORITY_OR_OTHER|||||||0.51||||||A p-value of less than 0.05 was considered statistically significant.|Fisher Exact|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||.51
82403645|NCT00522548|164515463|SUPERIORITY|||||||0.95|TWO_SIDED|95.0||||A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.95
82403646|NCT00522548|164515464|SUPERIORITY|||||||0.57||||||The p value was not adjusted for multiple comparisons. A p-value of less than 0.05 was considered statistically significant.|t-test, 2 sided|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.57
82403647|NCT00522548|164515465|SUPERIORITY|||||||0.45|TWO_SIDED|95.0||||This represents p value for week 4 data. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.45
82403648|NCT00522548|164515465|SUPERIORITY|||||||0.58|TWO_SIDED|95.0||||This represents p value for week 24 data. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in CellCept group and 20 in the Myfortic group) in this proof of concept study.||||0.58
82403649|NCT00522548|164515466|SUPERIORITY|||||||0.012||||||This p value is for data at week 4. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.012
82403650|NCT00522548|164515466|SUPERIORITY|||||||0.046|TWO_SIDED|95.0||||This p value was for data at week 24. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic Group) in this proof of concept study.||||0.046
82403651|NCT00522548|164515467|SUPERIORITY|||||||0.27||||||p value represents data for week 4. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.27
82403652|NCT00522548|164515467|SUPERIORITY|||||||0.23|TWO_SIDED|95.0||||p value represents data for week 24. A p value of less than 0.05 was considered significant.|Kruskal-Wallis|||Sample size was arbitrarily determined as 40 patients (20 in the CellCept group and 20 in the Myfortic group) in this proof of concept study||||0.23
82403653|NCT04155463|164515468|OTHER||Median Percent Change|-18.4||||0.17|TWO_SIDED||||||Wilcoxon signed rank test|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for all participants. Interquartile range for this was -37.4 to 29.8.|Based on previous pesticide research, we calculated a sample size of 40 participants to provide a power of 0.80 at a 0.05 significance level in a two-sided test. We assumed a standard deviation of 0.5 µg/L.||||0.17
82403654|NCT04155463|164515468|OTHER||Median Percent Change|-24.2||||0.06|TWO_SIDED||||||Wilcoxon signed rank test|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for far-field participants. Interquartile range for this was -37.4 to -8.8.|||||0.06
82403655|NCT04155463|164515468|OTHER||Median Percent Change|1.4||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-tailed test for paired data|This calculation shows the median percent change in urinary glyphosate concentrations going from the conventional diet to organic diet for near-field participants. Interquartile range for this was -41.9 to 43.0.|||||0.83
82403656|NCT00113295|164515470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.05||||||No adjustment for multiple testing|t-test, 2 sided||This analysis applies to the additional reduction from phase 2 randomization to phase 2 endpoint in HAM-A scores.|In phase 2, comprising randomized double-blind quetiapine augmentation, change scores were examined with two-tailed, two-sample t tests, utilizing scores at phase 2 randomization as baseline. All analyses were intention to treat (ITT) with the last visit carried forward (LVCF) for subjects that did not complete the study.||||<0.05
82403657|NCT01065571|164515474|EQUIVALENCE|Non-parametric analysis of interval to relapse||||||0.046||||||result from log rank test|Log Rank|||Kaplan-Meier life table analysis was performed to compare the two groups. The null hypothesis was that there would be no difference in relapses between the two groups during the study.||||0.046
82403658|NCT01065571|164515475|SUPERIORITY|fecal calprotectin (micrograms/gm stool)||||||0.06|||||||t-test, 2 sided|||||||0.06
82403659|NCT01065571|164515476|SUPERIORITY|||||||0.02||||||not adjusted for muliple comparisons, a priori threshold of 0.05|t-test, 2 sided|||paired t-test comparing baseline and value at end of participation||||0.02
82403660|NCT04391179|164515477|SUPERIORITY||Slope|-0.033|STANDARD_ERROR_OF_MEAN|0.027||0.24|TWO_SIDED|95.0|-0.089|0.023|||Mixed Models Analysis||Estimation represents log-scale difference between average daily change in D-Dimer for Dipyridamole patients minus placebo average daily change. Negative estimates indicate that D-Dimer levels decline faster in Dipyridamole versus placebo patients.|||.023|-.089|0.24
82403661|NCT04391179|164515478|SUPERIORITY||win ratio|1.0||||0.98|TWO_SIDED|97.8|0.78|1.29|||Mantel Haenszel||win ratio= (the probability of a win for the dipyridamole patient)/(probability of a win for the placebo patient)|A win ratio analysis of the hierarchical composite outcome requiring direct comparison of outcomes between each dipyridamole patient and placebo patient. The patient with the superior outcome is adjudicated the 'winner' and receives a +1 score, while the 'loser' scores -1.||1.29|0.78|.98
82403662|NCT04391179|164515479|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
82403663|NCT04391179|164515480|SUPERIORITY|||||||0.09|||||||Log Rank|||||||.09
82403664|NCT04391179|164515481|SUPERIORITY||Mean Difference (Net)|0.29||||0.36|TWO_SIDED|95.0|0.02|3.94|||regression, negative binomial||estimated ratio of days on mechanical ventilation for dipyridamole and placebo|||3.94|0.02|0.36
82403665|NCT04391179|164515482|SUPERIORITY||Odds Ratio (OR)|1.04||||0.94|TWO_SIDED|95.0|0.43|2.51|||Regression, Logistic||Odds of a 50 point drop in the dipyridamole group relative to the placebo group.|||2.51|0.43|.94
82403666|NCT04391179|164515483|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||.95
82403667|NCT03442088|164515492|OTHER||Mean Difference (Final Values)|-0.272||||0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82403668|NCT03442088|164515493|OTHER||Mean Difference (Final Values)|95.98||||0.934|TWO_SIDED|95.0|-2324.0|2516.0|||t-test, 2 sided|||||2516|-2324|0.934
82403669|NCT03442088|164515494|OTHER||Mean Difference (Final Values)|-0.6878||||0.1632|TWO_SIDED|95.0|-1.685|0.3097|||t-test, 2 sided|||||0.3097|-1.685|0.1632
82403670|NCT03442088|164515495|OTHER||Mean Difference (Final Values)|-2.344||||0.1063|TWO_SIDED|95.0|-5.248|0.5992|||t-test, 2 sided|||||0.5992|-5.248|0.1063
82403671|NCT03442088|164515496|OTHER||Mean Difference (Final Values)|3.24||||0.5611|TWO_SIDED|95.0|-8.333|14.81|||t-test, 2 sided|||||14.81|-8.333|0.5611
82403672|NCT01001520|164515501|SUPERIORITY_OR_OTHER|||||||0.88||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the right dorsolateral prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.88
82403673|NCT01001520|164515502|SUPERIORITY_OR_OTHER|||||||0.017||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Accuracy was examined using random effects maximum likelihood regression.||We hypothesized that tolcapone (vs. placebo) would increase subject's accuracy during the N-back working memory task.||||0.017
82403674|NCT01001520|164515503|SUPERIORITY_OR_OTHER|||||||0.88||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that tolcapone (vs. placebo) would reduce subject's reaction time during the N-back working memory task.||||0.88
82403675|NCT01001520|164515504|SUPERIORITY_OR_OTHER|||||||0.85||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers would smoke fewer cigarettes while taking tolcapone (vs. placebo).||||0.85
82403676|NCT01001520|164515505|SUPERIORITY_OR_OTHER|||||||0.4||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers, while taking tolcapone (vs. placebo), would experience less cigarette craving during their 24-hour abstinence period.||||0.40
82403677|NCT01001520|164515506|SUPERIORITY_OR_OTHER|||||||0.43||||||The threshold for statistical significance was not adjusted. Significance remained at p=0.05.|Regression, Linear|Examined using random effects maximum likelihood regression.||We hypothesized that smokers, while taking tolcapone (vs. placebo), would experience fewer withdrawal symptoms during their 24-hour abstinence period.||||0.43
82403678|NCT01001520|164515507|SUPERIORITY_OR_OTHER|||||||0.18||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the left dorsolateral prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.18
82403679|NCT01001520|164515508|SUPERIORITY_OR_OTHER|||||||0.67||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase BOLD signal, meaning there would be an increase in brain activity, in the dorsal cingulate/medial prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.67
82403680|NCT01001520|164515509|SUPERIORITY_OR_OTHER|||||||0.98||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase suppression of BOLD signal, meaning an increase in suppression of brain activity, in the posterior cingulate cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.98
82403681|NCT01001520|164515510|SUPERIORITY_OR_OTHER|||||||0.002||||||"Because the five a priori brain regions of interest (ROIs) are highly correlated, the significance threshold was adjusted to p=0.014."|Regression, Linear|BOLD signal change was examined using random effects maximum likelihood regression.||"We hypothesized that tolcapone would increase suppression of BOLD signal, meaning an increase in suppression of brain activity, in the ventromedial prefrontal cortex, a part of the brain known to be involved in working memory.~We analyzed for main effects of treatment (tolcapone vs. placebo), back level (0, 1, 2, and 3), treatment order, and relevant covariates (genotype, race, age, sex, FTND score, Shipley IQ score)."||||0.002
82403682|NCT00357877|164515511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.44||0.56|TWO_SIDED|95.0|-0.6|1.11||No interim analyses were done and no adjustment made for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALZE to obtain final p-values.|Regression, Linear|The primary outcome analysis included treatment and site as class variables and age and age-squared as continuous covariates.||We hypothesized a lower increment score for the active treatment group but carried out two-tailed hypothesis testing. Sample size was estimated with simulated data with rank normalized scores. We calculated that 832 participants would yield a power of 90% to detect a 20% reduction in caries incidence (from a hypothesized mean increment of 1.5), and adopted a target of 1000 randomized participants to allow for attrition.||1.11|-0.60|0.56
82403683|NCT00357877|164515512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.57||0.54|TWO_SIDED|95.0|-0.77|1.46||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|Model included treatment and site as class variables and age and age-squared as continuous covariates.||hypothesized a reduced caries increment in active arm, though conducted two-tailed hypothesis test.||1.46|-0.77|0.54
82403684|NCT00357877|164515513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.38||0.18|TWO_SIDED|95.0|-1.25|0.23||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|treatment and site included as class variables and age and age-squared as continuous covariates.||Hypothesized lower increment in active arm, though hypothesis testing was two-sided.||0.23|-1.25|0.18
82403685|NCT00357877|164515514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_DEVIATION|0.57||0.24|TWO_SIDED|95.0|-1.8|0.45||No adjustment for multiple comparisons. Identical analyses were run on each imputed dataset, with results combined with SAS® PROC MIANALYZE to obtain final p-values.|Regression, Linear|Model included treatment and site as class variables, and age and age-squared as continuous covariates.||Hypothesized a lower increment for active treatment arm, although hypothesis testing was two-sided.||0.45|-1.80|0.24
82403686|NCT02541422|164515515|SUPERIORITY|||||||0.45||||||p-value calculated for the total hangover scale|Wilcoxon (Mann-Whitney)|||||||0.45
82403687|NCT02541422|164515515|SUPERIORITY|||||||0.93||||||p value calculated for symptom of headache|Wilcoxon (Mann-Whitney)|||||||0.93
82403688|NCT02541422|164515515|SUPERIORITY|||||||0.11||||||p value calculated for symptom of nausea|Wilcoxon (Mann-Whitney)|||||||0.11
82403689|NCT02541422|164515515|SUPERIORITY|||||||0.72||||||p value calculated for symptom of weakness|Wilcoxon (Mann-Whitney)|||||||0.72
82403690|NCT03570047|164515539|OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.558|0.766|||Cox proportional hazards model|||||0.766|0.558|<0.0001
82403691|NCT03570047|164515539|OTHER||Hazard Ratio (HR)|0.79||||0.0291|TWO_SIDED|95.0|0.642|0.977|||Cox proportional hazards model|||||0.977|0.642|0.0291
82403692|NCT03570047|164515539|OTHER||Hazard Ratio (HR)|0.71||||0.0001|TWO_SIDED|95.0|0.592|0.842|||Cox proportional hazards model|||||0.842|0.592|0.0001
82530883|NCT01702428|164758694|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% confidence interval (CI) on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to measles virus.|Difference in seroresponse rate|0.25|||||TWO_SIDED|95.0|-0.98|1.5|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-measles antibody concentration ≥200 mIU/mL.||1.50|-0.98|
82403693|NCT03570047|164515539|OTHER||Hazard Ratio (HR)|0.72||||0.0012|TWO_SIDED|95.0|0.591|0.879|||Cox proportional hazards model|||||0.879|0.591|0.0012
82403694|NCT03570047|164515540|OTHER||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.614|0.843|||Cox proportional hazards model|||||0.843|0.614|<0.0001
82403695|NCT03570047|164515540|OTHER||Hazard Ratio (HR)|0.66||||0.0003|TWO_SIDED|95.0|0.529|0.825|||Cox proportional hazards model|||||0.825|0.529|0.0003
82403696|NCT03570047|164515540|OTHER||Hazard Ratio (HR)|0.74||||0.0007|TWO_SIDED|95.0|0.618|0.879|||Cox proportional hazards model|||||0.879|0.618|0.0007
82403697|NCT03570047|164515540|OTHER||Hazard Ratio (HR)|0.71||||0.0011|TWO_SIDED|95.0|0.583|0.874|||Cox proportional hazards model|||||0.874|0.583|0.0011
82403698|NCT03570047|164515541|OTHER||Hazard Ratio (HR)|0.93||||0.0127|TWO_SIDED|95.0|0.872|0.984|||Cox proportional hazards model|||||0.984|0.872|0.0127
82403699|NCT03570047|164515541|OTHER||Hazard Ratio (HR)|0.96||||0.2893||95.0|0.881|1.039|||Cox proportional hazards model|||||1.039|0.881|0.2893
82403700|NCT03570047|164515541|OTHER||Hazard Ratio (HR)|0.94||||0.064|TWO_SIDED|95.0|0.881|1.004|||Cox proportional hazards model|||||1.004|0.881|0.0640
82403701|NCT03570047|164515541|OTHER||Hazard Ratio (HR)|1.03||||0.4404|TWO_SIDED|95.0|0.958|1.103|||Cox proportional hazards model|||||1.103|0.958|0.4404
82403702|NCT04878055|164515578|SUPERIORITY||Odds Ratio (OR)|1.626||||0.216|TWO_SIDED|95.0|0.752|3.514|||Two-sided regression, Logistic|||Analysis is based on logistic regression model with Multiple Imputation under missing not at random using retrieve dropouts with proportion of patients alive and free of respiratory failure at Day 28 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables. Site is considered as random effects that vary randomly among patients.||3.514|0.752|0.216
82403703|NCT04878055|164515579|SUPERIORITY|||||||0.377|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||||||0.377
82403704|NCT04878055|164515580|SUPERIORITY|Analysis is based on logistic regression model with proportion of patients died up to Date 28 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables. Site is considered as random effects that vary randomly among patients.|Odds Ratio (OR)|0.468||||0.17|TWO_SIDED|95.0|0.158|1.386|||Two-sided regression, Logistic|||||1.386|0.158|0.17
82403705|NCT04878055|164515581|SUPERIORITY||Odds Ratio (OR)|0.561||||0.168|TWO_SIDED|95.0|0.247|1.277|||Regression, Logistic|||||1.277|0.247|0.168
82403706|NCT04878055|164515582|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. Estimates were calculated taking into account the following competing risks: Death, discontinuation for AEs and patient transferred to another institution.||||||0.167|||||||Gray's Test|||Until Day 28||||0.167
82403707|NCT04878055|164515583|SUPERIORITY|||||||0.55||||||Comparison between treatment arms is performed by means of a Fisher's Exact test.|Fisher Exact|||At Day 3 - please note that the number of subjects is 268 (180+88) and not 270.||||0.55
82403708|NCT04878055|164515583|SUPERIORITY|||||||0.128|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared mean.||At Day 7 - Please note that the total of subjects in this analysis is not 270 but 266 (n=179 in the Reparixin group and n=87 in the placebo group).||||0.128
82403709|NCT04878055|164515583|SUPERIORITY|||||||0.235|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 14 - Please note that the total of subjects in this analysis is not 270 but 256 (n=173 in the Reparixin group and n=83 in the placebo group).||||0.235
82403710|NCT04878055|164515583|SUPERIORITY|||||||0.281|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 21 - Please note that the total of subjects in this analysis is not 270 but 255 (n=172 in the Reparixin group and n=83 in the placebo group).||||0.281
82403711|NCT04878055|164515583|SUPERIORITY|||||||0.273|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||At Day 90 - Please note that the total of subjects in this analysis is not 270 but 50 (n=33 in the Reparixin group and n=17 in the placebo group).||||0.273
82403712|NCT04878055|164515584|SUPERIORITY|||||||0.047||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||At Day 3 - Please note that the number of subjects in this analysis is not 270 but 255||||0.047
82403713|NCT04878055|164515584|SUPERIORITY|||||||0.262|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||||||0.262
82403714|NCT04878055|164515584|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 14 - Please note that the number of subjects in this analysis is not 270 but 209||||0.367
82403715|NCT04878055|164515584|SUPERIORITY|||||||0.882||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||At Day 21 - Please note that the number of subjects in this analysis is not 270 but 176||||0.882
82403716|NCT04878055|164515584|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 28 - Please note that the number of subjects in this analysis is not 270 but 190||||0.19
82403717|NCT04878055|164515584|SUPERIORITY|||||||0.161||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||At Day 60 - Please note that the number of subjects in this analysis is not 270 but 201||||0.161
82403718|NCT04878055|164515584|SUPERIORITY|||||||0.853|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At Day 90 - Please note that the number of subjects in this analysis is not 270 but 18||||0.853
82403719|NCT04878055|164515584|SUPERIORITY|||||||0.068|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At EOS - Please note that the number of subjects in this analysis is not 270 but 229||||0.068
82403720|NCT04878055|164515584|SUPERIORITY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At hospital discharge (HD) - Please note that the number of subjects in this analysis is not 270 but 195||||0.672
82403721|NCT04878055|164515584|SUPERIORITY|||||||0.153|||||||Wilcoxon (Mann-Whitney)|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||At end of treatment (EoT) - Please note that the number of subjects in this analysis is not 270 but 241||||0.153
82530884|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.06|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to measles virus at Day 42.||1.06|0.91|
82530885|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.97|||||TWO_SIDED|95.0|0.9|1.05|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to measles virus at Day 42.||1.05|0.90|
82403722|NCT04878055|164515585|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Death, reasons for discontinuation for Adverse events and patient transferred to another institution.||||||0.07|||||||Grey's test|||||||0.07
82646072|NCT01236053|165007140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.6901|TWO_SIDED|95.0|0.32|2.11|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.11|0.32|0.6901
82403723|NCT04878055|164515586|SUPERIORITY|||||||0.07|||||||Gray's test|||number of patients included in the analysis=25||||0.07
82403724|NCT04878055|164515587|SUPERIORITY|Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Reasons for discontinuation for Adverse events and patient transferred to another institution.||||||0.668|||||||Gray's test|||Comparison at day 28||||0.668
82403725|NCT04878055|164515588|SUPERIORITY|||||||0.668|||||||Gray's test|||Number of patients included in the analysis = 59||||0.668
82403726|NCT04878055|164515589|SUPERIORITY|||||||0.23|||||||Gray's test|||Estimates are calculated using a nonparametric method for cumulative incidence function with competing risks data. The null hypothesis is that the cumulative incidence functions are identical across treatment groups and estimates are calculated taking into consideration the following competing risks: Reasons for discontinuation for Adverse events and patient transferred to another institution.||||0.23
82403727|NCT04878055|164515590|SUPERIORITY|||||||0.444|||||||Wilcoxon (Mann-Whitney)|||day 3 - please note that the number of subjects in this analysis is not 270 but 255||||0.444
82403728|NCT04878055|164515590|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||day 7 - please note that the number of subjects in this analysis is not 270 but 246||||0.357
82403729|NCT04878055|164515590|SUPERIORITY|||||||0.484|||||||Wilcoxon (Mann-Whitney)|||day 14 - please note that the number of subjects in this analysis is not 270 but 209||||0.484
82403730|NCT04878055|164515590|SUPERIORITY|||||||0.753|||||||Wilcoxon (Mann-Whitney)|||day 21 - please note that the number of subjects in this analysis is not 270 but 176||||0.753
82403731|NCT04878055|164515590|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||day 28 - please note that the number of subjects in this analysis is not 270 but 190||||0.26
82403732|NCT04878055|164515590|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||day 60 - please note that the number of subjects in this analysis is not 270 but 201||||0.19
82403733|NCT04878055|164515590|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||day 90 - please note that the number of subjects in this analysis is not 270 but 18||||1.000
82576243|NCT02209181|164862049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.55||0.798|TWO_SIDED|95.0|-0.94|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-0.94|0.798
82403734|NCT04878055|164515590|SUPERIORITY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||EOS - please note that the number of subjects in this analysis is not 270 but 229||||0.074
82403735|NCT04878055|164515590|SUPERIORITY|||||||0.193|||||||two-sample Mann-Whitney U test|||EOT - please note that the number of subjects in this analysis is not 270 but 241||||0.193
82403736|NCT04878055|164515590|SUPERIORITY|||||||0.131|||||||two-sample Mann-Whitney U test|||Hospital discharge - please note that the number of subjects in this analysis is not 270 but 195||||0.131
82403737|NCT04878055|164515591|SUPERIORITY|||||||0.997|||||||Wilcoxon (Mann-Whitney)|||at day 3 - Please note that the number of subjects in this analysis is not 270 but 155.||||0.997
82403738|NCT04878055|164515591|SUPERIORITY|||||||0.712|||||||Wilcoxon (Mann-Whitney)|||at day 7 - Please note that the number of subjects in this analysis is not 270 but 143.||||0.712
82403739|NCT04878055|164515591|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|||at day 14 - Please note that the number of subjects in this analysis is not 270 but 115.||||0.241
82403740|NCT04878055|164515591|SUPERIORITY|||||||0.528|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 270 but 92.||||0.528
82403741|NCT04878055|164515591|SUPERIORITY|||||||0.814|||||||Wilcoxon (Mann-Whitney)|||at day 28 - Please note that the number of subjects in this analysis is not 270 but 106.||||0.814
82403742|NCT04878055|164515591|SUPERIORITY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||at EOT - Please note that the number of subjects in this analysis is not 270 but 115.||||0.242
82403743|NCT04878055|164515591|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||at hospital discharge (HD) - Please note that the number of subjects in this analysis is not 270 but 65.||||0.722
82403744|NCT04878055|164515592|SUPERIORITY|||||||0.053|||||||two-sample Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 246.||||0.053
82403745|NCT04878055|164515592|SUPERIORITY|||||||0.245|||||||two-sample Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 225.||||0.245
82403746|NCT04878055|164515592|SUPERIORITY|||||||0.067|||||||two-sample Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 118.||||0.067
82530886|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.94|1.09|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to measles virus at Day 42.||1.09|0.94|
82530887|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.06|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to measles virus at Day 42.||1.06|0.91|
82530888|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.03|||||TWO_SIDED|95.0|0.95|1.11|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to measles virus at Day 42.||1.11|0.95|
82530889|NCT01702428|164758695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.94|1.09|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to measles virus at Day 42.||1.09|0.94|
82530890|NCT01702428|164758696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.02|||||TWO_SIDED|95.0|-1.05|1.09|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.09|-1.05|
82576244|NCT02209181|164862049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.32|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.23|3.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.42|1.23|<0.001
82576245|NCT02209181|164862049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.55||0.829|TWO_SIDED|95.0|-1.2|0.96||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.96|-1.20|0.829
82403747|NCT04878055|164515592|SUPERIORITY|||||||0.051|||||||two-sample Mann-Whitney U test|||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 54.||||0.051
82646073|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.431|TWO_SIDED|95.0|0.19|2.01|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.01|0.19|0.4310
82403748|NCT04878055|164515592|SUPERIORITY|||||||0.684|||||||two-sample Mann-Whitney U test|||at day 28 - Please note that the number of subjects in this analysis is not 270, but it is 32.||||0.684
82403749|NCT04878055|164515592|SUPERIORITY|||||||1|||||||two-sample Mann-Whitney U test|||at EOS - Please note that the number of subjects in this analysis is not 246, but it is 14.||||1.00
82403750|NCT04878055|164515592|SUPERIORITY|||||||0.48|||||||two-sample Mann-Whitney U test|||at Day 60 - Please note that the number of subjects in this analysis is not 246, but it is 3.||||0.48
82576246|NCT02209181|164862049|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.06|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|0.97|3.16||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.16|0.97|<0.001
82403751|NCT04878055|164515592|SUPERIORITY|||||||0.638|||||||two-sample Mann-W hitney U test|||at Hospital discharge - Please note that the number of subjects in this analysis is 152.||||0.638
82403752|NCT04878055|164515592|SUPERIORITY|||||||0.137|||||||two-sample Mann-W hitney U test|||at EoT - Please note that the number of subjects in this analysis is 212.||||0.137
82403753|NCT04878055|164515593|SUPERIORITY|||||||0.399|||||||Wilcoxon (Mann-Whitney)|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 157||||0.399
82403754|NCT04878055|164515593|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 139||||0.07
82403755|NCT04878055|164515593|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 73||||0.4
82403756|NCT04878055|164515593|SUPERIORITY|||||||0.517|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 23||||0.517
82403757|NCT04878055|164515593|SUPERIORITY|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||at day 28 - Please note that the number of subjects in this analysis is not 270, but it is 17||||0.445
82403758|NCT04878055|164515593|SUPERIORITY|||||||0.324|||||||Wilcoxon (Mann-Whitney)|||at EoT - Please note that the number of subjects in this analysis is not 270, but it is 113||||0.324
82403759|NCT04878055|164515593|SUPERIORITY|||||||0.752|||||||Wilcoxon (Mann-Whitney)|||at Hospital discharge - Please note that the number of subjects in this analysis is not 270, but it is 67.||||0.752
82403760|NCT04878055|164515594|SUPERIORITY|||||||0.447|||||||two-sample Mann-Whitney U test|||Please note that the number of patients in this analysis is not 270 but 255, because patients who used supplement oxygen were 174 in the Reparixin group and 81 in the placebo group.||||0.447
82403761|NCT04878055|164515595|SUPERIORITY|||||||0.065||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|||At day 28 - Please note that the number of patients in this analysis is not 270 but 245, because patients requiring IMV or ECMO were 163 in the Reparixin group and 82 in the placebo group.||||0.065
82403762|NCT04878055|164515595|SUPERIORITY|||||||0.072|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test||||||0.072
82403763|NCT04878055|164515596|SUPERIORITY|||||||0.485||||||Number of subjects included in analysis: 98|two-sample Mann-Whitney U test|||||||0.485
82403764|NCT04878055|164515597|SUPERIORITY|||||||0.267|||||||two-sample Mann-Whitney U test|||Number of subjects included in analysis: 17||||0.267
82403765|NCT04878055|164515598|SUPERIORITY|||||||0.137|||||||two-sample Mann-Whitney U test|||||||0.137
82403766|NCT04878055|164515599|SUPERIORITY|||||||0.002|||||||two-sample Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is 168||||0.002
82403767|NCT04878055|164515599|SUPERIORITY|||||||0.943|||||||two-sample Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 168, but it is 146||||0.943
82403768|NCT04878055|164515599|SUPERIORITY|||||||0.88|||||||two-sample Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 168, but it is 76||||0.88
82403769|NCT04878055|164515599|SUPERIORITY|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||at day 21 - Please note that the number of subjects in this analysis is not 168, but it is 38||||0.458
82403770|NCT04878055|164515599|SUPERIORITY|||||||0.285|||||||two-sample Mann-Whitney U test|||at day 28 - Please note that the number of subjects in this analysis is not 168, but it is 23.||||0.285
82403771|NCT04878055|164515599|SUPERIORITY|||||||0.885|||||||two-sample Mann-Whitney U test|||at EOS - Please note that the number of subjects in this analysis is not 168, but it is 8||||0.885
82403772|NCT04878055|164515599|SUPERIORITY||||||=|0.583|||||||two-sample Mann-Whitney U test|||at HD - Please note that the number of subjects in this analysis is not 270, but it is 74||||= 0.583
82403773|NCT04878055|164515599|SUPERIORITY|||||||0.5|||||||two-sample Mann-Whitney U test|||at End of treatment - Please note that the number of subjects in this analysis is not 270, but it is 131.||||0.5
82403774|NCT04878055|164515600|SUPERIORITY|||||||0.005||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test|Mann-Whitney U test|||at day 3 - Please note that the number of subjects in this analysis is not 270, but it is 245||||0.005
82403775|NCT04878055|164515600|SUPERIORITY|||||||0.283||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||at day 7 - Please note that the number of subjects in this analysis is not 270, but it is 221||||0.283
82403776|NCT04878055|164515600|SUPERIORITY|||||||0.512||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||at day 14 - Please note that the number of subjects in this analysis is not 270, but it is 117||||0.512
82403777|NCT04878055|164515600|SUPERIORITY|||||||0.174|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||at day 21 - Please note that the number of subjects in this analysis is not 270, but it is 51||||0.174
82403778|NCT04878055|164515600|SUPERIORITY|at EOT - Please note that the number of subjects in this analysis is not 270, but it is 206||||||0.133|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||||||0.133
82403779|NCT04878055|164515600|SUPERIORITY|||||||0.009|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||at day 28 ± 2 - Please note that the number of subjects in this analysis is not 270, but it is 29||||0.009
82403780|NCT04878055|164515600|SUPERIORITY|||||||0.593|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to HD - Please note that the number of subjects in this analysis is not 270, but it is 144||||0.593
82403781|NCT04878055|164515600|SUPERIORITY|||||||0.54|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to day 60 - Please note that the number of subjects in this analysis is not 270, but it is 3||||0.540
82403782|NCT04878055|164515600|SUPERIORITY|||||||0.224|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to EOS - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.224
82403783|NCT04878055|164515601|SUPERIORITY|||||||0.68|||||||Mann-Whitney U test|Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.||to day 3 - Please note that the number of subjects in this analysis is not 270, but it is 15||||0.68
82403784|NCT04878055|164515601|SUPERIORITY|||||||0.272||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 7 - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.272
82403785|NCT04878055|164515601|SUPERIORITY|||||||1||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 14 - Please note that the number of subjects in this analysis is not 270, but it is 13||||1.000
82403786|NCT04878055|164515601|SUPERIORITY|||||||0.903||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 21 - Please note that the number of subjects in this analysis is not 270, but it is 9||||0.903
82403787|NCT04878055|164515601|SUPERIORITY|||||||0.432||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to EOT - Please note that the number of subjects in this analysis is not 270, but it is 13||||0.432
82403788|NCT04878055|164515601|SUPERIORITY|||||||0.105||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to day 28 - Please note that the number of subjects in this analysis is not 270, but it is 6||||0.105
82403789|NCT04878055|164515601|SUPERIORITY|||||||0.551||||||Comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Mann-Whitney U test|||to HD - Please note that the number of subjects in this analysis is not 270, but it is 8||||0.551
82403790|NCT04878055|164515602|SUPERIORITY||Odds Ratio (OR)|0.52||||0.232|TWO_SIDED|95.0|0.178|1.522||Analysis is based on logistic regression model with proportion of patients died up to Day 60 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables.|Regression, Logistic|||up to day 60||1.522|0.178|0.232
82403791|NCT04878055|164515602|SUPERIORITY|Analysis is based on logistic regression model with proportion of patients died up to Day 90 as dependent variable, treatment, age group, gender and presence of concomitant disease at baseline as qualitative independent variables.|Odds Ratio (OR)|0.246||||0.158|TWO_SIDED|95.0|0.034|1.782|||Regression, Logistic|||Up to Day 90||1.782|0.034|0.158
82403792|NCT04878055|164515603|SUPERIORITY|Freedom from (time to) death or respiratory failure (need of invasive mechanical ventilation or ECMO or admission to ICU linked to worsening of respiratory parameters compared to baseline) up to Day 90 was performed using the same Kaplan-Meier analysis and the one-sided log-rank test that were used to test for differences between groups||||||0.33607|||||||Log Rank|||||||0.33607
82530891|NCT01702428|164758696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.63|||||TWO_SIDED|95.0|-0.5|1.81|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.81|-0.50|
82530892|NCT01702428|164758696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to mumps virus.|Difference in seroresponse rate|0.61|||||TWO_SIDED|95.0|-0.53|1.79|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-mumps antibody concentration ≥10 EU/mL.||1.79|-0.53|
82530893|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|1.0|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to mumps virus at Day 42.||1.00|0.87|
82530894|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.04|||||TWO_SIDED|95.0|0.97|1.11|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to mumps virus at Day 42.||1.11|0.97|
82530895|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.07|||||TWO_SIDED|95.0|1.0|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to mumps virus at Day 42.||1.15|1.00|
82530896|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|1.11|||||TWO_SIDED|95.0|1.04|1.19|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to mumps virus at Day 42.||1.19|1.04|
82646074|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.3226|TWO_SIDED|95.0|0.17|1.79|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.79|0.17|0.3226
82403793|NCT02372344|164515615|SUPERIORITY_OR_OTHER||Geometric least square (LS) mean ratio|0.64|||||TWO_SIDED|95.0|0.54|0.77||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.77|0.54|
82403794|NCT02372344|164515615|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.71|||||TWO_SIDED|95.0|0.59|0.86||||||Total EPA: Ratio of Before meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.86|0.59|
82403795|NCT02372344|164515616|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.35|||||TWO_SIDED|95.0|0.27|0.47||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.47|0.27|
82403796|NCT02372344|164515616|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.44|||||TWO_SIDED|95.0|0.33|0.59||||||Total EPA: Ratio of Before meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.59|0.33|
82403797|NCT02372344|164515616|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.46|||||TWO_SIDED|95.0|0.36|0.57||||||Total DHA: Ratio of Fasting to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.57|0.36|
82425957|NCT03110562|164560556|SUPERIORITY||Hazard Ratio (HR)|0.702||||0.0075|TWO_SIDED|95.0|0.5279|0.9335||One Sided P-value|Stratified Log-rank Test|Stratified for prior PI therapies, number of prior of anti-MM regimens and R-ISS Stage at screening.|Based on stratified Cox Proportional Hazard model with Efron's Method of handling ties.|||0.9335|0.5279|0.0075
82576247|NCT02209181|164862050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.16||0.117|TWO_SIDED|95.0|-0.06|0.57||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.57|-0.06|0.117
82530897|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.96|||||TWO_SIDED|95.0|0.9|1.03|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to mumps virus at Day 42.||1.03|0.90|
82403798|NCT02372344|164515616|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.57|||||TWO_SIDED|95.0|0.45|0.71||||||Total DHA: Ratio of Before meal to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (Cmax) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.71|0.45|
82403799|NCT02372344|164515617|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.56|||||TWO_SIDED|95.0|0.45|0.69||||||Total EPA: Ratio of Fasting to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.69|0.45|
82403800|NCT02372344|164515617|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.55||||||95.0|0.44|0.69||||||Total EPA: Ratio of Before Meal to After meal. Primary comparisons for total EPA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||0.69|0.44|
82403801|NCT02372344|164515617|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04||||||Total DHA: Ratio of Fasting to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||1.04|0.73|
82403802|NCT02372344|164515617|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||Total DHA: Ratio of Before meal to After meal. Primary comparisons for total DHA were based on a linear mixed-effect model. This model included log-transformed PK parameter (AUC0-72) as a response variable and treatment, sequence and period as fixed categorical effects, and subject nested within sequence as a random categorical effect.||1.02|0.72|
82403803|NCT03428100|164515672|SUPERIORITY||Odds Ratio (OR)|1.78||||0.071|TWO_SIDED|95.0|0.95|3.32|||Regression, Logistic|||||3.32|0.95|0.071
82403804|NCT03428100|164515672|SUPERIORITY||Odds Ratio (OR)|2.15||||0.031|TWO_SIDED|95.0|1.07|4.3|||Regression, Logistic|||||4.30|1.07|0.031
82403805|NCT03428100|164515673|SUPERIORITY||Odds Ratio (OR)|1.34||||0.427|TWO_SIDED|95.0|0.65|2.77|||Regression, Logistic|||||2.77|0.65|0.427
82403806|NCT03428100|164515674|SUPERIORITY||Odds Ratio (OR)|1.35||||0.513|TWO_SIDED|95.0|0.55|3.35|||Regression, Logistic|||||3.35|0.55|0.513
82403807|NCT03428100|164515674|SUPERIORITY||Odds Ratio (OR)|1.6||||0.242|TWO_SIDED|95.0|0.73|3.53|||Regression, Logistic|||||3.53|0.73|0.242
82403808|NCT03428100|164515674|SUPERIORITY||Odds Ratio (OR)|2.54||||0.03|TWO_SIDED|95.0|1.09|5.9|||Regression, Logistic|||||5.90|1.09|0.030
82403809|NCT03428100|164515675|SUPERIORITY||Odds Ratio (OR)|1.32||||0.611|TWO_SIDED|95.0|0.45|3.83|||Regression, Logistic|||||3.83|0.45|0.611
82646075|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.6206|TWO_SIDED|95.0|0.4|4.59|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.59|0.40|0.6206
82403810|NCT03428100|164515675|SUPERIORITY||Odds Ratio (OR)|1.59||||0.325|TWO_SIDED|95.0|0.63|3.99|||Regression, Logistic|||||3.99|0.63|0.325
82403811|NCT03428100|164515675|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1|TWO_SIDED|95.0|0.85|6.14|||Regression, Logistic|||||6.14|0.85|0.100
82403812|NCT03428100|164515676|SUPERIORITY||Mean Difference (Final Values)|-17.65|STANDARD_ERROR_OF_MEAN|5.627||0.002|TWO_SIDED|95.0|-28.71|-6.58|||Mixed Models Analysis|||||-6.58|-28.71|0.002
82403813|NCT03428100|164515676|SUPERIORITY||Mean Difference (Final Values)|-13.35|STANDARD_ERROR_OF_MEAN|4.82||0.006|TWO_SIDED|95.0|-22.83|-3.87|||Mixed Models Analysis|||||-3.87|-22.83|0.006
82403814|NCT03428100|164515676|SUPERIORITY||Mean Difference (Final Values)|-20.62|STANDARD_ERROR_OF_MEAN|5.554||0.0002|TWO_SIDED|95.0|-31.54|-9.7|||Mixed Models Analysis|||||-9.70|-31.54|0.0002
82403815|NCT03428100|164515677|SUPERIORITY||Odds Ratio (OR)|4.14||||0.115|TWO_SIDED|95.0|0.71|24.29|||Regression, Logistic|||||24.29|0.71|0.115
82403816|NCT03428100|164515677|SUPERIORITY||Odds Ratio (OR)|5.85||||0.037|TWO_SIDED|95.0|1.11|30.88|||Regression, Logistic|||||30.88|1.11|0.037
82403817|NCT03428100|164515677|SUPERIORITY||Odds Ratio (OR)|4.78||||0.083|TWO_SIDED|95.0|0.81|28.08|||Regression, Logistic|||||28.08|0.81|0.083
82403818|NCT03428100|164515678|SUPERIORITY||Odds Ratio (OR)|3.28||||0.012|TWO_SIDED|95.0|1.29|8.32|||Regression, Logistic|||||8.32|1.29|0.012
82403819|NCT03428100|164515678|SUPERIORITY||Odds Ratio (OR)|3.71||||0.002|TWO_SIDED|95.0|1.59|8.66|||Regression, Logistic|||||8.66|1.59|0.002
82403820|NCT03428100|164515678|SUPERIORITY||Odds Ratio (OR)|6.85||||2e-05|TWO_SIDED|95.0|2.79|16.82|||Regression, Logistic|||||16.82|2.79|0.00002
82646076|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.8557|TWO_SIDED|95.0|0.33|3.84|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||3.84|0.33|0.8557
82403821|NCT03428100|164515679|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.203||0.039|TWO_SIDED|95.0|-0.82|-0.02|||Mixed Models Analysis|||||-0.02|-0.82|0.039
82403822|NCT03428100|164515679|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.175||0.23|TWO_SIDED|95.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.23
82403823|NCT03428100|164515679|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.201||0.0001|TWO_SIDED|95.0|-1.18|-0.39|||Mixed Models Analysis|||||-0.39|-1.18|0.0001
82403824|NCT03428100|164515680|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.388||0.0714|TWO_SIDED|95.0|-1.47|0.06|||Mixed Models Analysis|||||0.06|-1.47|0.0714
82403825|NCT03428100|164515680|SUPERIORITY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.337||0.0134|TWO_SIDED|95.0|-1.5|-0.17|||Mixed Models Analysis|||||-0.17|-1.50|0.0134
82403826|NCT03428100|164515680|SUPERIORITY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.386||0.0002|TWO_SIDED|95.0|-2.21|-0.69|||Mixed Models Analysis|||||-0.69|-2.21|0.0002
82403827|NCT03428100|164515681|SUPERIORITY||Odds Ratio (OR)|1.71||||0.183|TWO_SIDED|95.0|0.78|3.75|||Regression, Logistic|||||3.75|0.78|0.183
82403828|NCT03428100|164515681|SUPERIORITY||Odds Ratio (OR)|1.54||||0.235|TWO_SIDED|95.0|0.76|3.11|||Regression, Logistic|||||3.11|0.76|0.235
82403829|NCT03428100|164515681|SUPERIORITY||Odds Ratio (OR)|1.01||||0.991|TWO_SIDED|95.0|0.43|2.36|||Regression, Logistic|||||2.36|0.43|0.991
82646077|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.1498|TWO_SIDED|95.0|0.79|4.62|||Unadjusted Odds Ratio||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||4.62|0.79|0.1498
82646078|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.2645|TWO_SIDED|95.0|0.68|4.07|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||4.07|0.68|0.2645
82646079|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.5728|TWO_SIDED|95.0|0.16|2.79|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.79|0.16|0.5728
82403830|NCT03428100|164515682|SUPERIORITY||Odds Ratio (OR)|1.41||||0.263|TWO_SIDED|95.0|0.77|2.57|||Regression, Logistic|||||2.57|0.77|0.263
82403831|NCT03428100|164515682|SUPERIORITY||Odds Ratio (OR)|1.89||||0.016|TWO_SIDED|95.0|1.13|3.19|||Regression, Logistic|||||3.19|1.13|0.016
82403832|NCT03428100|164515682|SUPERIORITY||Odds Ratio (OR)|1.93||||0.031|TWO_SIDED|95.0|1.06|3.52|||Regression, Logistic|||||3.52|1.06|0.031
82403833|NCT03428100|164515683|SUPERIORITY||Odds Ratio (OR)|1.97||||0.058|TWO_SIDED|95.0|0.98|3.96|||Regression, Logistic|||||3.96|0.98|0.058
82403834|NCT03428100|164515683|SUPERIORITY||Odds Ratio (OR)|1.77||||0.072|TWO_SIDED|95.0|0.95|3.32|||Regression, Logistic|||||3.32|0.95|0.072
82403835|NCT03428100|164515683|SUPERIORITY||Odds Ratio (OR)|1.56||||0.224|TWO_SIDED|95.0|0.76|3.18|||Regression, Logistic|||||3.18|0.76|0.224
82646080|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.3727|TWO_SIDED|95.0|0.12|2.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||2.21|0.12|0.3727
82403836|NCT03428100|164515684|SUPERIORITY||Odds Ratio (OR)|5.03||||0.265|TWO_SIDED|95.0|0.29|86.08|||Regression, Logistic|||||86.08|0.29|0.265
82403837|NCT03428100|164515684|SUPERIORITY||Odds Ratio (OR)|2.54||||0.52|TWO_SIDED|95.0|0.15|43.09|||Regression, Logistic|||||43.09|0.15|0.520
82403838|NCT03428100|164515684|SUPERIORITY||Odds Ratio (OR)|7.17||||0.164|TWO_SIDED|95.0|0.45|99.99|||Regression, Logistic|||||99.99|0.45|0.164
82403839|NCT03428100|164515685|SUPERIORITY||Mean Difference (Final Values)|-6.08|STANDARD_ERROR_OF_MEAN|2.948||0.04|TWO_SIDED|95.0|-11.88|-0.29|||Mixed Models Analysis|||||-0.29|-11.88|0.040
82403840|NCT03428100|164515685|SUPERIORITY||Mean Difference (Final Values)|-6.56|STANDARD_ERROR_OF_MEAN|2.533||0.01|TWO_SIDED|95.0|-11.54|-1.58|||Mixed Models Analysis|||||-1.58|-11.54|0.010
82646081|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7743|TWO_SIDED|95.0|0.31|2.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.40|0.31|0.7743
82646082|NCT01236053|165007142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.4775|TWO_SIDED|95.0|0.24|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, upper GI disorder, acid-suppressing drugs."|||1.94|0.24|0.4775
82646083|NCT01236053|165007143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.33||||0.0032|TWO_SIDED|95.0|1.95|27.56|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||27.56|1.95|0.0032
82403841|NCT03428100|164515685|SUPERIORITY||Mean Difference (Final Values)|-9.77|STANDARD_ERROR_OF_MEAN|2.919|<|0.001|TWO_SIDED|95.0|-15.51|-4.03|||Mixed Models Analysis|||||-4.03|-15.51|<0.001
82403842|NCT03428100|164515686|SUPERIORITY||Odds Ratio (OR)|4.75||||0.265|TWO_SIDED|95.0|0.31|73.93|||Regression, Logistic|||||73.93|0.31|0.265
82403843|NCT03428100|164515686|SUPERIORITY||Odds Ratio (OR)|2.5||||0.511|TWO_SIDED|95.0|0.16|38.4|||Regression, Logistic|||||38.40|0.16|0.511
82403844|NCT03428100|164515686|SUPERIORITY||Odds Ratio (OR)|4.95||||0.253|TWO_SIDED|95.0|0.32|77.11|||Regression, Logistic|||||77.11|0.32|0.253
82403845|NCT03428100|164515687|SUPERIORITY||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|3.078||0.044|TWO_SIDED|95.0|-12.26|-0.16|||Mixed Models Analysis|||||-0.16|-12.26|0.044
82403846|NCT03428100|164515687|SUPERIORITY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.632||0.037|TWO_SIDED|95.0|-10.67|-0.32|||Mixed Models Analysis|||||-0.32|-10.67|0.037
82403847|NCT03428100|164515687|SUPERIORITY||Mean Difference (Final Values)|-8.41|STANDARD_ERROR_OF_MEAN|3.03||0.006|TWO_SIDED|95.0|-14.37|-2.45|||Mixed Models Analysis|||||-2.45|-14.37|0.006
82403848|NCT03428100|164515688|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>.999
82403849|NCT03428100|164515688|SUPERIORITY|||||||0.797|||||||Fisher Exact|||||||0.797
82403850|NCT03428100|164515688|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>.999
82403851|NCT03428100|164515689|SUPERIORITY||Mean Difference (Final Values)|8.62|STANDARD_ERROR_OF_MEAN|4.49||0.056|TWO_SIDED|95.0|-0.22|17.45|||ANCOVA|||||17.45|-0.22|0.056
82403852|NCT03428100|164515689|SUPERIORITY||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|3.92||0.164|TWO_SIDED|95.0|-2.24|13.19|||ANCOVA|||||13.19|-2.24|0.164
82403853|NCT03428100|164515689|SUPERIORITY||Mean Difference (Final Values)|7.25|STANDARD_ERROR_OF_MEAN|4.53||0.11|TWO_SIDED|95.0|-1.66|16.15|||ANCOVA|||||16.15|-1.66|0.110
82403854|NCT03428100|164515690|SUPERIORITY||Mean Difference (Final Values)|-48.06|STANDARD_ERROR_OF_MEAN|35.63||0.178|TWO_SIDED|95.0|-118.0|21.88|||ANOVA|||||21.88|-118.00|0.178
82403855|NCT03428100|164515690|SUPERIORITY||Mean Difference (Final Values)|-56.9|STANDARD_ERROR_OF_MEAN|30.9||0.066|TWO_SIDED|95.0|-117.56|3.77|||ANOVA|||||3.77|-117.56|0.066
82403856|NCT03428100|164515690|SUPERIORITY||Mean Difference (Final Values)|-71.42|STANDARD_ERROR_OF_MEAN|35.57||0.045|TWO_SIDED|95.0|-141.24|-1.6|||ANOVA|||||-1.60|-141.24|0.045
82403857|NCT03428100|164515691|SUPERIORITY||Mean Difference (Final Values)|-11.32|STANDARD_ERROR_OF_MEAN|6.62||0.088|TWO_SIDED|95.0|-24.33|1.7|||Mixed Models Analysis|||||1.70|-24.33|0.088
82403858|NCT03428100|164515691|SUPERIORITY||Mean Difference (Final Values)|-15.41|STANDARD_ERROR_OF_MEAN|5.725||0.007|TWO_SIDED|95.0|-26.67|-4.16|||Mixed Models Analysis|||||-4.16|-26.67|0.007
82403859|NCT03428100|164515691|SUPERIORITY||Mean Difference (Final Values)|-19.76|STANDARD_ERROR_OF_MEAN|6.583||0.003|TWO_SIDED|95.0|-32.71|-6.82|||Mixed Models Analysis|||||-6.82|-32.71|0.003
82576248|NCT02209181|164862050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.687|TWO_SIDED|95.0|-0.25|0.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.38|-0.25|0.687
82403860|NCT03428100|164515692|SUPERIORITY||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|7.263||0.055|TWO_SIDED|95.0|-28.28|0.28|||Mixed Models Analysis|||||0.28|-28.28|0.055
82403861|NCT03428100|164515692|SUPERIORITY||Mean Difference (Final Values)|-14.76|STANDARD_ERROR_OF_MEAN|6.297||0.02|TWO_SIDED|95.0|-27.15|-2.38|||Mixed Models Analysis|||||-2.38|-27.15|0.020
82403862|NCT03428100|164515692|SUPERIORITY||Mean Difference (Final Values)|-17.82|STANDARD_ERROR_OF_MEAN|7.216||0.014|TWO_SIDED|95.0|-32.01|-3.62|||Mixed Models Analysis|||||-3.62|-32.01|0.014
82403863|NCT03428100|164515693|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|1.229||0.095|TWO_SIDED|95.0|-4.47|-0.36|||Mixed Models Analysis|||||-0.36|-4.47|0.095
82403864|NCT03428100|164515693|SUPERIORITY||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|1.057||0.004|TWO_SIDED|95.0|-5.16|-1.01|||Mixed Models Analysis|||||-1.01|-5.16|0.004
82403865|NCT03428100|164515693|SUPERIORITY||Mean Difference (Final Values)|-5.09|STANDARD_ERROR_OF_MEAN|1.216|<|0.001|TWO_SIDED|95.0|-7.48|-2.7|||Mixed Models Analysis|||||-2.70|-7.48|<0.001
82403866|NCT03428100|164515694|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.146||0.097|TWO_SIDED|95.0|-0.53|0.04|||Mixed Models Analysis|||||0.04|-0.53|0.097
82403867|NCT03428100|164515694|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.126||0.033|TWO_SIDED|95.0|-0.52|-0.02|||Mixed Models Analysis|||||-0.02|-0.52|0.033
82403868|NCT03428100|164515694|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.145|<|0.001|TWO_SIDED|95.0|-0.86|-0.29|||Mixed Models Analysis|||||-0.29|-0.86|<0.001
82403869|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.516||0.272|TWO_SIDED|95.0|-1.58|0.45|||Mixed Models Analysis|||Anxiety||0.45|-1.58|0.272
82403870|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.446||0.013|TWO_SIDED|95.0|-1.99|-0.24|||Mixed Models Analysis|||Anxiety||-0.24|-1.99|0.013
82403871|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.511||0.099|TWO_SIDED|95.0|-1.85|0.16|||Mixed Models Analysis|||Anxiety||0.16|-1.85|0.099
82403872|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.519||0.584|TWO_SIDED|95.0|-1.3|0.74|||Mixed Models Analysis|||Depression||0.74|-1.30|0.584
82403873|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.448||0.162|TWO_SIDED|95.0|-1.51|0.25|||Mixed Models Analysis|||Depression||0.25|-1.51|0.162
82403874|NCT03428100|164515695|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.515||0.024|TWO_SIDED|95.0|-2.18|-0.15|||Mixed Models Analysis|||Depression||-0.15|-2.18|0.024
82403875|NCT03428100|164515696|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.018||0.228|TWO_SIDED|95.0|-3.23|0.77|||Mixed Models Analysis|||||0.77|-3.23|0.228
82576249|NCT02209181|164862050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.497|TWO_SIDED|95.0|-0.21|0.43||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.43|-0.21|0.497
82403876|NCT03428100|164515696|SUPERIORITY||Mean Difference (Final Values)|-1.62|STANDARD_ERROR_OF_MEAN|0.876||0.065|TWO_SIDED|95.0|-3.35|0.1|||Mixed Models Analysis|||||0.10|-3.35|0.065
82403877|NCT03428100|164515696|SUPERIORITY||Mean Difference (Final Values)|-3.01|STANDARD_ERROR_OF_MEAN|1.007||0.003|TWO_SIDED|95.0|-4.99|-1.02|||Mixed Models Analysis|||||-1.02|-4.99|0.003
82403878|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|3.339||0.784|TWO_SIDED|95.0|-7.5|5.67|||Mixed Models Analysis|||Change from Baseline (CFB) Absenteeism||5.67|-7.50|0.784
82403879|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|2.813||0.525|TWO_SIDED|95.0|-3.75|7.34|||Mixed Models Analysis|||CFB Absenteeism||7.34|-3.75|0.525
82403880|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|3.204||0.947|TWO_SIDED|95.0|-6.11|6.53|||Mixed Models Analysis|||CFB Absenteeism||6.53|-6.11|0.947
82403881|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|3.06|STANDARD_ERROR_OF_MEAN|4.409||0.488|TWO_SIDED|95.0|-5.62|11.74|||Mixed Models Analysis|||CFB Presenteeism||11.74|-5.62|0.488
82403882|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.72||0.936|TWO_SIDED|95.0|-7.02|7.62|||Mixed Models Analysis|||CFB Presenteeism||7.62|-7.02|0.936
82403883|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|4.267||0.991|TWO_SIDED|95.0|-8.35|8.45|||Mixed Models Analysis|||CFB Presenteeism||8.45|-8.35|0.991
82403884|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|4.938||0.816|TWO_SIDED|95.0|-8.57|10.88|||Mixed Models Analysis|||CFB Work Productivity Loss||10.88|-8.57|0.816
82403885|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|4.178||0.971|TWO_SIDED|95.0|-8.08|8.38|||Mixed Models Analysis|||CFB Work Productivity Loss||8.38|-8.08|0.971
82403886|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|4.804||0.852|TWO_SIDED|95.0|-10.36|8.56|||Mixed Models Analysis|||CFB Work Productivity Loss||8.56|-10.36|0.852
82403887|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|3.877||0.607|TWO_SIDED|95.0|-9.61|5.63|||Mixed Models Analysis|||CFB Activity Impairment||5.63|-9.61|0.607
82403888|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|3.319||0.186|TWO_SIDED|95.0|-10.92|2.12|||Mixed Models Analysis|||CFB Activity Impairment||2.12|-10.92|0.186
82403889|NCT03428100|164515697|SUPERIORITY||Mean Difference (Final Values)|-7.45|STANDARD_ERROR_OF_MEAN|3.82||0.052|TWO_SIDED|95.0|-14.96|0.06|||Mixed Models Analysis|||CFB Activity Impairment||0.06|-14.96|0.052
82403890|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.022||0.131|TWO_SIDED|95.0|-0.01|0.08|||Mixed Models Analysis|||CFB US Health State Index||0.08|-0.01|0.131
82530898|NCT01702428|164758697|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to mumps.|Adjusted GMC ratio|0.9|||||TWO_SIDED|95.0|0.84|0.96|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to mumps virus at Day 42.||0.96|0.84|
82530899|NCT01702428|164758698|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|0.14|||||TWO_SIDED|95.0|-1.3|1.58|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L2 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||1.58|-1.3|
82530900|NCT01702428|164758698|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|-0.49|||||TWO_SIDED|95.0|-1.86|0.86|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L1 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||0.86|-1.86|
82530901|NCT01702428|164758698|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot difference in seroresponse rates should be within the \[-5%;5%\] margin for antibodies to rubella virus.|Difference in seroresponse rate|-0.62|||||TWO_SIDED|95.0|-2.02|0.74|||||Asymptotic standardized 95% CI for the pair-wise differences in seroresponse.|Difference between groups (INV\_MMR\_L2 Group minus INV\_MMR\_L3 Group) in percentage of subjects with anti-rubella antibody concentration ≥10 IU/mL.||0.74|-2.02|
82530902|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.08|||||TWO_SIDED|95.0|1.01|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||"Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L2 Group) for antibodies to rubella virus at Day 42.~."||1.15|1.01|
82530903|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.94|1.07|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L1 Group divided by INV\_MMR\_L3 Group) for antibodies to rubella virus at Day 42.||1.07|0.94|
82530904|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L1 Group) for antibodies to rubella virus at Day 42.||0.99|0.87|
82646084|NCT01236053|165007143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.39||||0.1251|TWO_SIDED|95.0|0.71|16.17|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||16.17|0.71|0.1251
82403891|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.017|TWO_SIDED|95.0|0.01|0.08|||Mixed Models Analysis|||CFB US Health State Index||0.08|0.01|0.017
82403892|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.022||0.003|TWO_SIDED|95.0|0.02|0.11|||Mixed Models Analysis|||CFB US Health State Index||0.11|0.02|0.003
82403893|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.031||0.102|TWO_SIDED|95.0|-0.01|0.11|||Mixed Models Analysis|||CFB UK Health State Index||0.11|-0.01|0.102
82403894|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.027||0.014|TWO_SIDED|95.0|0.01|0.12|||Mixed Models Analysis|||CFB UK Health State Index||0.12|0.01|0.014
82530905|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L2 Group divided by INV\_MMR\_L3 Group) for antibodies to rubella virus at Day 42.||0.99|0.87|
82576250|NCT02209181|164862050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.239|TWO_SIDED|95.0|-0.51|0.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.13|-0.51|0.239
82646085|NCT01236053|165007143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.22||||0.0261|TWO_SIDED|95.0|1.15|9.01|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||9.01|1.15|0.0261
82403895|NCT03428100|164515698|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.031||0.003|TWO_SIDED|95.0|0.03|0.15|||Mixed Models Analysis|||CFB UK Health State Index||0.15|0.03|0.003
82403896|NCT03428100|164515699|SUPERIORITY||Mean Difference (Final Values)|3.99|STANDARD_ERROR_OF_MEAN|3.256||0.221|TWO_SIDED|95.0|-2.41|10.39|||Mixed Models Analysis|||||10.39|-2.41|0.221
82403897|NCT03428100|164515699|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|2.807||0.689|TWO_SIDED|95.0|-4.4|6.65|||Mixed Models Analysis|||||6.65|-4.40|0.689
82530906|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.93|1.07|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L1 Group) for antibodies to rubella virus at Day 42.||1.07|0.93|
82646086|NCT01236053|165007143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.209|TWO_SIDED|95.0|0.65|7.17|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.17|0.65|0.2090
82646087|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
82403898|NCT03428100|164515699|SUPERIORITY||Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|3.226||0.294|TWO_SIDED|95.0|-2.95|9.74|||Mixed Models Analysis|||||9.74|-2.95|0.294
82403899|NCT03428100|164515700|SUPERIORITY||Odds Ratio (OR)|1.33||||0.382|TWO_SIDED|95.0|0.7|2.54|||Regression, Logistic|||||2.54|0.70|0.382
82403900|NCT03428100|164515700|SUPERIORITY||Odds Ratio (OR)|1.15||||0.638|TWO_SIDED|95.0|0.65|2.02|||Regression, Logistic|||||2.02|0.65|0.638
82403901|NCT03428100|164515700|SUPERIORITY||Odds Ratio (OR)|1.56||||0.169|TWO_SIDED|95.0|0.83|2.96|||Regression, Logistic|||||2.96|0.83|0.169
82403902|NCT03428100|164515701|SUPERIORITY||LS Mean Difference (Final Values)|-7.36|STANDARD_ERROR_OF_MEAN|9.674||0.447|TWO_SIDED|95.0|-26.38|11.66|||Regression, Linear|||||11.66|-26.38|0.447
82403903|NCT03428100|164515701|SUPERIORITY||LS Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|8.454||0.646|TWO_SIDED|95.0|-20.5|12.74|||Regression, Linear|||||12.74|-20.50|0.646
82403904|NCT03428100|164515701|SUPERIORITY||LS Mean Difference (Final Values)|-17.18|STANDARD_ERROR_OF_MEAN|9.64||0.075|TWO_SIDED|95.0|-36.14|1.77|||Regression, Linear|||||1.77|-36.14|0.075
82403905|NCT03705286|164515719|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|1.87||0.78|TWO_SIDED|95.0|-4.21|3.17|||Regression, Linear|||We evaluated whether there are differences in the Physical Component Score (PCS) for QOL between the PU-EVAC and PVC treatment groups by comparing their respective mean scores (i.e., mean\[PU-EVAC\] - mean\[PVC\] ). We modeled the data using linear regression and used robust standard error estimates to construct our statistical test and 95% confidence interval estimates. We also estimated the treatment groups' mean quality of life scores with standard error estimates and 95% confidence intervals.||3.17|-4.21|0.78
82403906|NCT03705286|164515719|SUPERIORITY||Mean Difference (Final Values)|-2.98|STANDARD_ERROR_OF_MEAN|2.05||0.15|TWO_SIDED|95.0|-7.03|1.07|||Regression, Linear|||We evaluated whether there are differences in the Mental Component Score (MCS) for QOL between the PU-EVAC and PVC treatment groups by comparing their respective mean scores (i.e., mean\[PU-EVAC\] - mean\[PVC\] ). We modeled the data using linear regression and used robust standard error estimates to construct our statistical test and 95% confidence interval estimates. We also estimated the treatment groups' mean quality of life scores with standard error estimates and 95% confidence intervals.||1.07|-7.03|0.15
82403907|NCT03705286|164515720|SUPERIORITY||Risk Difference (RD)|0.05||||0.05|TWO_SIDED|98.0|-0.07|0.17|||Regression, Logistic|||||0.17|-0.07|0.05
82403908|NCT03705286|164515721|SUPERIORITY||Risk Difference (RD)|0.126||||0.05|TWO_SIDED|95.0|-0.01|0.26|||Regression, Logistic|||We evaluated whether there are differences in the risk of laryngeal injury between the PU-EVAC and PVC treatment groups, comparing their respective risk difference (i.e., probability\[PU-EVAC\] - probability \[PVC\]). We fit a logistic regression model and incorporated robust (i.e., Huber-White heteroskedastic consistent) standard error estimates for our hypothesis test and 95% confidence interval estimates.||0.26|-0.01|0.05
82403909|NCT02106351|164515726|SUPERIORITY||LS mean difference back transformed|-0.4||||0.0118|TWO_SIDED|||||The 2-tailed significance level was 0.05.|ANCOVA|ANCOVA is performed on the ranked values.||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using an analysis of covariance (ANCOVA) on the ranked changes from baseline. The model included treatment group, the baseline value, the 2 stratification factors (age range and BTX status at baseline) and the pooled centre as fixed effects. The derived least squares (LS) means were back transformed to the original scale and the treatment difference determined.||||0.0118
82403910|NCT02106351|164515726|SUPERIORITY||LS mean difference back transformed|-0.7|||<|0.0001|TWO_SIDED|||||The 2-tailed significance level was 0.05.|ANCOVA|ANCOVA is performed on the ranked values.||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using an ANCOVA on the ranked changes from baseline. The model included treatment group, the baseline value, the 2 stratification factors (age range and BTX status at baseline) and the pooled centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||<0.0001
82403911|NCT02106351|164515727|SUPERIORITY||LS mean difference back transformed|0.2||||0.2043|TWO_SIDED|||||The two-tailed significance level was 0.05.|ANOVA|ANOVA was performed on ranked values.||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using an analysis of variance (ANOVA) on the rank of the PGA score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||0.2043
82403912|NCT02106351|164515727|SUPERIORITY||LS mean difference back transformed|0.2||||0.188|TWO_SIDED|||||The two-tailed significance level was 0.05.|ANOVA|ANOVA was performed on ranked values.||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using an ANOVA on the rank of the PGA score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects. The derived LS means were back transformed to the original scale and the treatment difference determined.||||0.1880
82403913|NCT02106351|164515728|SUPERIORITY||LS mean difference|0.5||||0.7648|TWO_SIDED|95.0|-2.7|3.7||The two-tailed significance level was 0.05.|ANOVA|||The treatment difference between Dysport 8 U/kg and Dysport 2 U/kg was analysed using ANOVA on the GAS Total score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects.||3.7|-2.7|0.7648
82425958|NCT03110562|164560557|SUPERIORITY||Odds Ratio (OR)|1.9626||||0.0012|TWO_SIDED|95.0|1.2641|3.0471||One Sided P-value|Cochran-Mantel-Haenszel|Analysis using Cochran-Mantel-Haenszel test stratified by region, prior PI therapies, number of prior anti-MM regimens, and R-ISS stage at screening.||||3.0471|1.2641|0.0012
82646088|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.47||||0.0158|TWO_SIDED|95.0|1.78|258.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||258.8|1.78|0.0158
82530907|NCT01702428|164758699|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For each pair-wise comparison, the 2-sided 95% CI on the lot ratio should be within the \[0.67;1.5\] margin for antibodies to measles.|Adjusted GMC ratio|1.08|||||TWO_SIDED|95.0|1.01|1.15|||ANOVA|95% CI for GMC of each INV\_MMR lots pair was computed using ANOVA (3 INV\_MMR lot groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR\_L3 Group divided by INV\_MMR\_L2 Group) for antibodies to rubella virus at Day 42.||1.15|1.01|
82530908|NCT01702428|164758700|NON_INFERIORITY|The Lower Limit (LL) of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to measles virus.|Difference in seroresponse rate|0.18|||||TWO_SIDED|95.0|-0.68|1.25|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-measles antibody concentration at Day 42.||1.25|-0.68|
82646089|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86||||0.0524|TWO_SIDED|95.0|0.99|15.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||15.14|0.99|0.0524
82403914|NCT02106351|164515728|SUPERIORITY||LS mean difference|0.5||||0.7429|TWO_SIDED|95.0|-2.6|3.7||The two-tailed significance level was 0.05.|ANOVA|||The treatment difference between Dysport 16 U/kg and Dysport 2 U/kg was analysed using ANOVA on the GAS Total score at TC 1, Week 6. The model included treatment group, the 2 stratification factors (age range and BTX status at baseline) and the centre as fixed effects.||3.7|-2.6|0.7429
82403915|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric Least Squares (LS) Mean Ratio|0.96|||||TWO_SIDED|90.0|0.91|1.01|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.01|0.91|
82403916|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.89|||||TWO_SIDED|90.0|0.85|0.93|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.93|0.85|
82403917|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.88|0.97|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.97|0.88|
82403918|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.86|0.95|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.95|0.86|
82403919|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.9|0.99|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.99|0.90|
82403920|NCT01401543|164515738|NON_INFERIORITY_OR_EQUIVALENCE|AUC(0-∞) was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.97|1.07|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.07|0.97|
82403921|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.84|||||TWO_SIDED|90.0|0.77|0.91|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.91|0.77|
82403922|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.78|||||TWO_SIDED|90.0|0.71|0.85|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.85|0.71|
82403923|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.93|||||TWO_SIDED|90.0|0.85|1.01|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.01|0.85|
82403924|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.77|||||TWO_SIDED|90.0|0.7|0.84|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.84|0.70|
82403925|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.91|||||TWO_SIDED|90.0|0.84|1.0|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.00|0.84|
82403926|NCT01401543|164515739|NON_INFERIORITY_OR_EQUIVALENCE|Cmax was log-transformed and analyzed using a linear mixed effects model with fixed factor for formulation, sequence, and period, and random factor for participant.|Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.91|1.08|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.08|0.91|
82403927|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.99|||||TWO_SIDED|90.0|0.93|1.05||||||||1.05|0.93|
82403928|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.89|1.0||||||||1.00|0.89|
82403929|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||||1.02|0.90|
82403930|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02||||||||1.02|0.90|
82646090|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21||||0.0269|TWO_SIDED|95.0|1.21|22.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||22.51|1.21|0.0269
82530909|NCT01702428|164758701|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to measles virus.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.93|1.05|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to measles virus at Day 42.||1.05|0.93|
82576251|NCT02209181|164862050|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.376|TWO_SIDED|95.0|-0.46|0.18||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.18|-0.46|0.376
82403931|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
82403932|NCT01401543|164515740|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||||1.08|0.95|
82403933|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.72|||||TWO_SIDED|90.0|0.68|0.77|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.77|0.68|
82403934|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.71|||||TWO_SIDED|90.0|0.66|0.76|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.76|0.66|
82403935|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.92|1.05|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.05|0.92|
82403936|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.69|||||TWO_SIDED|90.0|0.65|0.74|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||0.74|0.65|
82403937|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|||||TWO_SIDED|90.0|0.9|1.02|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.02|0.90|
82403938|NCT01401543|164515741|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.98|||||TWO_SIDED|90.0|0.91|1.04|||||Formulation, sequence, and period were included in the model as fixed effects, and participant as a random factor.|||1.04|0.91|
82403939|NCT00069823|164515742|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.2||||0.35|TWO_SIDED|95.0|0.8|2.0||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||2.0|0.8|0.35
82403940|NCT00069823|164515743|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.79|TWO_SIDED|95.0|0.6|1.5||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.5|0.6|0.79
82403941|NCT00069823|164515744|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.1||||0.66|TWO_SIDED|95.0|0.8|1.5||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||The rates of EPACs were compared using incidence-rate ratios (IRR). IRR and P value were estimated with the use of negative binomial regression models with robust variance estimates.||1.5|0.8|0.66
82403942|NCT00069823|164515745|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.62|TWO_SIDED|95.0|0.6|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.6|0.62
82403943|NCT00069823|164515746|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|1.0||||0.87|TWO_SIDED|95.0|0.8|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Rates were compared with incidence-rate ratios (IRR). The IRR and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.8|0.87
82403944|NCT00069823|164515747|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.62||95.0|0.7|1.3||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Incidence-rate ratios and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.3|0.7|0.62
82403945|NCT00069823|164515748|SUPERIORITY_OR_OTHER||Incidence-Rate Ratio|0.9||||0.7|TWO_SIDED|95.0|0.6|1.4||P values are for the treatment effect of esomeprazole as compared with placebo.|Negative binomial regression|||Incidence-rate ratios and P values were estimated with the use of negative binomial regression models with robust variance estimates.||1.4|0.6|0.70
82403946|NCT00069823|164515749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.36|TWO_SIDED|95.0|-0.03|0.08||P values were calculated with the use of linear regression.|Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group, e.g. 0.00 - (-0.02) = -0.03 (rounding)|The treatment effect is the mean change in the Esomeprazole group - mean change in placebo group||0.08|-0.03|0.36
82403947|NCT00069823|164515750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3|TWO_SIDED|95.0|-0.03|0.09|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.09|-0.03|0.30
82403948|NCT00069823|164515751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|5.1||0.24|TWO_SIDED|95.0|-4.0|16.0|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||16.0|-4.0|0.24
82403949|NCT00069823|164515752|SUPERIORITY_OR_OTHER||Treatment Effect|-1.8||||0.04||95.0|-3.6|-0.1|||Regression, Linear|||||-0.1|-3.6|0.04
82403950|NCT00069823|164515753|SUPERIORITY_OR_OTHER||Treatment Effect|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.11|TWO_SIDED|95.0|0.0|0.2|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.2|0.0|0.11
82403951|NCT00069823|164515754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.11|TWO_SIDED|95.0|-0.05|-0.02|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||-0.02|-0.05|0.11
82646091|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.1888|TWO_SIDED|95.0|0.45|55.14|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||55.14|0.45|0.1888
82530910|NCT01702428|164758702|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to mumps virus.|Difference in seroresponse rate|0.81|||||TWO_SIDED|95.0|-0.1|1.96|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-mumps antibody concentration at Day 42.||1.96|-0.1|
82530911|NCT01702428|164758703|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to mumps virus.|Adjusted GMC ratio|1.05|||||TWO_SIDED|95.0|0.99|1.11|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to mumps virus at Day 42.||1.11|0.99|
82530912|NCT01702428|164758704|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (INV\_MMR Group minus COM\_MMR Group) should be ≥-5% for antibodies to rubella virus.|Difference in seroresponse rate|-1.15|||||TWO_SIDED|95.0|-2.0|-0.15|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-rubella antibody concentration at Day 42.||-0.15|-2.00|
82530913|NCT01702428|164758705|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to measles virus.|Adjusted GMC ratio|0.87|||||TWO_SIDED|95.0|0.83|0.92|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to rubella virus at Day 42.||0.92|0.83|
82530914|NCT01702428|164758706|NON_INFERIORITY|The LL of 2-sided 95 % CI for the difference in seroresponse (pooled INV\_MMR Group minus pooled COM\_MMR Group) should be ≥-10% for antibodies to VZV.|Difference in seroresponse rate|1.3|||||TWO_SIDED|95.0|-1.31|4.29|||||Asymptotic standardized 95% CIs for the difference in seroresponse rate.|In US sub-cohort: Difference in percentage (INV\_MMR Group minus COM\_MMR Group) of subjects with anti-VZV antibody concentration at Day 42.||4.29|-1.31|
82530915|NCT01702428|164758707|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.67 for antibodies to VZV.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.95|1.08|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to VZV virus at Day 42.||1.08|0.95|
82530916|NCT01702428|164758709|NON_INFERIORITY|The LL of the 2-sided 95% CI on GMC ratio (INV\_MMR Group over COM\_MMR Group) was ≥0.5 for antibodies to HAV virus.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.86|1.11|||ANOVA|95% CI for GMC ratio (INV\_MMR over COM\_ MMR) was computed using ANOVA (vaccine groups \& country as fixed effects) on log-transformed concentrations.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for antibodies to HAV virus at Day 42.||1.11|0.86|
82530917|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.85|1.05|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 1 antibody at Day 42.||1.05|0.85|
82403952|NCT00069823|164515755|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.33|TWO_SIDED|95.0|-0.2|0.1|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.1|-0.2|0.33
82403953|NCT00069823|164515756|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.6||0.16|TWO_SIDED|95.0|-2.0|0.4|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.4|-2.0|0.16
82403954|NCT00069823|164515757|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.78||0.56|TWO_SIDED|95.0|-1.1|2.2|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||2.2|-1.1|0.56
82403955|NCT00069823|164515758|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.76|TWO_SIDED|95.0|-0.05|0.07|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.07|-0.05|0.76
82403956|NCT00069823|164515759|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.39|TWO_SIDED|95.0|-0.8|0.3|||Regression, Linear||Treatment effect is the difference in mean change in the esomeprazole group minus the mean change in the placebo group|||0.3|-0.8|0.39
82403957|NCT01801111|164515764|OTHER|||||||0.0005|||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the objective response rate (ORR) is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0005
82403958|NCT01801111|164515765|OTHER|||||||0.0599|TWO_SIDED||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the ORR is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0599
82403959|NCT01801111|164515767|OTHER|||||||0.0001|||||||Exact Clopper-Pearson CI|||Tests null hypothesis that the ORR is equal to 35% versus the alternative hypothesis that the objective response rate was not equal to 35%.||||0.0001
82403960|NCT01223937|164515802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.028|TWO_SIDED|95.0|-0.42|-0.02||A priori threshold for significance was p\<=0.05.|ANCOVA|Repeated measures ANCOVA with treatment, visit (including a treatment-by-visit interaction term), and age stratification (\<65, ≥65 years) as factors.||"The trial was to be declared positive only if the 25 μg desmopressin group had a statistically significant positive effect as compared to placebo on both co-primary outcomes.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.02|-0.42|0.0280
82530918|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.91|1.08|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 3 antibody at Day 42.||1.08|0.91|
82530919|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.88||||||95.0|0.79|0.98|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 4 antibody at Day 42.||0.98|0.79|
82530920|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.92|||||TWO_SIDED|95.0|0.83|1.01|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 5 antibody at Day 42.||1.01|0.83|
82530921|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|1.01|||||TWO_SIDED|95.0|0.92|1.11|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 6A antibody at Day 42.||1.11|0.92|
82530922|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.89|1.09|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 6B antibody at Day 42.||1.09|0.89|
82530923|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 7F antibody at Day 42.||1.03|0.86|
82530924|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.9|1.08|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 9V antibody at Day 42.||1.08|0.90|
82576252|NCT02209181|164862051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.78|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|1.14|2.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.42|1.14|<0.001
82646092|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.999|TWO_SIDED|95.0|0.03|32.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||32.21|0.03|0.9990
82403961|NCT01223937|164515803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.0061|TWO_SIDED|95.0|1.19|2.86||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method with treatment, visit (including a treatment-by-visit interaction term), and age stratification (\<65, ≥65 years) as factors.||The trial was to be declared positive only if the 25 μg desmopressin group had a statistically significant positive effect as compared to placebo on both co-primary outcomes.||2.86|1.19|0.0061
82403962|NCT01223937|164515804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0104|TWO_SIDED|95.0|-0.54|-0.07||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids, using last observation carried forward.||Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.||-0.07|-0.54|0.0104
82403963|NCT01223937|164515805|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0586|TWO_SIDED|95.0|0.98|3.05||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||||3.05|0.98|0.0586
82403964|NCT01223937|164515806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.03||||0.0034|TWO_SIDED|95.0|16.35|81.7||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void, using last observation carried forward.||||81.70|16.35|0.0034
82445962|NCT03878758|164600072|SUPERIORITY|A mixed effect model was used (fixed effects of PN, abdomen site, order of pair, order of PN within pair and random subject effect) to estimate average difference (BD Nano PN - Comparator PN) in delivery time and total injection time. A Box-Cox transformation might be used to normalize the data if necessary. The upper bound of the confidence interval was compared to 0.|Mean Difference (Net)|-0.068||||0.003|ONE_SIDED|95.0||-0.017|||Mixed Models Analysis|||BD NANO vs Comfort EZ 33G||-0.017||0.003
82646093|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75||||0.2885|TWO_SIDED|95.0|0.33|43.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||43.08|0.33|0.2885
82646094|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.9608|TWO_SIDED|95.0|0.06|13.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||13.87|0.06|0.9608
82445963|NCT03878758|164600073|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
82646095|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
82403965|NCT01223937|164515807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.56||||0.0031|TWO_SIDED|95.0|-138.74|-28.38||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume, using last observation carried forward.||||-28.38|-138.74|0.0031
82403966|NCT01223937|164515808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.91||||0.1829|TWO_SIDED|95.0|-180.42|34.6||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume, using last observation carried forward.||||34.60|-180.42|0.1829
82403967|NCT00765817|164515811|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82403968|NCT00765817|164515812|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82403969|NCT00765817|164515813|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82403970|NCT00765817|164515814|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||ANCOVA|||||||0.174
82403971|NCT00765817|164515816|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||ANCOVA|||||||0.203
82445964|NCT03878758|164600073|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
82445965|NCT03878758|164600073|SUPERIORITY|The number and proportion of needle breaking occurrence for each pen needle type were summarized. A 95% confidence interval for difference in proportions between BD Nano Pro and the Comparator was calculated using the score method for independent proportions.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||||1.2|-0.4|
82445966|NCT00321464|164600097|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A synthesis method was used for the non-inferiority test for the hypothesis that denosumab preserves at least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.82|||<|0.0001||95.0|0.71|0.95|||Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.95|0.71|<0.0001
82445967|NCT00321464|164600098|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.01||95.0|0.71|0.95||P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure|Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.95|0.71|0.010
82576253|NCT02209181|164862051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.32||0.35|TWO_SIDED|95.0|-0.33|0.94||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.94|-0.33|0.350
82403972|NCT00765817|164515817|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||ANCOVA|||||||0.063
82403973|NCT00765817|164515818|SUPERIORITY_OR_OTHER|||||||0.745||95.0|||||ANCOVA|||||||0.745
82403974|NCT00765817|164515819|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||ANCOVA|||||||0.933
82403975|NCT00765817|164515820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82403976|NCT00765817|164515821|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||ANCOVA|||||||0.226
82403977|NCT00765817|164515822|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||ANCOVA|||||||0.026
82403978|NCT00765817|164515823|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANCOVA|||||||0.070
82403979|NCT00765817|164515824|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||ANCOVA|||||||0.011
82403980|NCT00765817|164515825|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82403981|NCT00765817|164515826|SUPERIORITY_OR_OTHER|||||||0.666||95.0|||||Negative binomial regression model|||||||0.666
82403982|NCT00765817|164515827|SUPERIORITY_OR_OTHER|||||||0.486||95.0|||||Fisher Exact|||||||0.486
82403983|NCT06597084|164515832|OTHER||Percentiles of time to first US|92.0||||0.2081|TWO_SIDED|95.0|25.0|95.0|||Log Rank|||||95|25|0.2081
82403984|NCT06597084|164515838|OTHER||Overall Survival|||||0.0542|||||||Log Rank|||||||0.0542
82403985|NCT00255164|164515850|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82403986|NCT00255164|164515850|SUPERIORITY_OR_OTHER||||||<|1e-05||||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Fisher Exact|||||||<0.00001
82403987|NCT00255164|164515850|SUPERIORITY_OR_OTHER|||||||0.80473||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.80473
82403988|NCT00255164|164515851|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82403989|NCT00255164|164515851|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dexlansoprazole MR dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82403990|NCT00255164|164515851|SUPERIORITY_OR_OTHER|||||||0.76046||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.76046
82403991|NCT00255164|164515853|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82403992|NCT00255164|164515853|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||Hochberg's method was used to ensure that the overall 0.0025 level of significance was maintained for the pairwise comparisons between each dexlansoprazole MR dose and placebo.|Log Rank|||||||<0.00001
82403993|NCT00255164|164515853|SUPERIORITY_OR_OTHER|||||||0.37161||95.0||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Log Rank|||||||0.37161
82403994|NCT00255164|164515854|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82530925|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.91|||||TWO_SIDED|95.0|0.81|1.02|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 14 antibody at Day 42.||1.02|0.81|
82403995|NCT00255164|164515854|SUPERIORITY_OR_OTHER||||||<|1e-05||95.0||||The 0.0025 level of significance for this secondary endpoint was controlled using Hochberg's method for comparisons of each dose to placebo.|Wilcoxon (Mann-Whitney)|||||||<0.00001
82403996|NCT00255164|164515854|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||Statistical significance was determined at the 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.59700
82403997|NCT04776928|164515864|SUPERIORITY|||||||0.01|||||||Two-part regression model|||||||0.010
82403998|NCT00913081|164515865|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow. Because quercetin has not been used to inhibit flushing from niacin in humans, sample size could not be determined statistically. A sample size of 8 men and 8 women was expected to allow separate estimates of effect size, variability, and shape of distribution for men and women.||||0.5
82403999|NCT00913081|164515865|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow.||||0.8
82404000|NCT00913081|164515865|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that quercetin, at any dose, does not attenuate niacin-induced increases in dermal blood flow.||||0.5
82404001|NCT01781208|164515869|SUPERIORITY_OR_OTHER||||||<|0.0001||||||r=0.68, unadjusted for age, gender, and histologic inflammation.|Pearson Correlation|||Continuous data were summarized using means and standard deviations. The relationship between ARFI (VTQ) liver shear wave speed and liver histologic fibrosis score were assessed using Pearson correlation. No a priori power analysis was performed.||||<0.0001
82404002|NCT01781208|164515869|SUPERIORITY_OR_OTHER||||||<|0.0001||||||r=0.73, unadjusted for age, gender, and histologic inflammation score|Pearson Correlation|||Continuous data were summarized using means and standard deviations. The relationship between ARFI (VTIQ) liver shear wave speed and liver histologic fibrosis score were assessed using Pearson correlation. No a priori power analysis was performed.||||<0.0001
82445968|NCT00321464|164600099|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.77||||0.001||95.0|0.66|0.89||P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure|Anderson-Gill model||Stratified by the randomization stratification factors (previous skeletal-related event, prior oral bisphosphonate use, current chemotherapy, and location in Japan).|||0.89|0.66|0.001
82445969|NCT01206582|164600102|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|||Comparison for day 3||||0.0002
82404003|NCT02359110|164515883|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.89|TWO_SIDED|95.0|-1.2|1.3|||Mixed Models Analysis|||Hour 2 Analysis||1.3|-1.2|0.89
82404004|NCT02359110|164515883|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.94|TWO_SIDED|95.0|-1.6|1.5|||Mixed Models Analysis|||Hour 4 Analysis||1.5|-1.6|0.94
82404005|NCT02359110|164515883|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.64|TWO_SIDED|95.0|-2.2|1.3|||Mixed Models Analysis|||Hour 6 Analysis||1.3|-2.2|0.64
82404006|NCT02359110|164515883|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.59|TWO_SIDED|95.0|-1.6|2.8|||Mixed Models Analysis|||Hour 8 Analysis||2.8|-1.6|0.59
82404007|NCT02359110|164515884|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.52|TWO_SIDED|95.0|-8.1|15.8|||Mixed Models Analysis|||Hour 2 Analysis||15.8|-8.1|0.52
82404008|NCT02359110|164515884|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.8|TWO_SIDED|95.0|-11.9|15.3|||Mixed Models Analysis|||Hour 6 Analysis||15.3|-11.9|0.80
82404009|NCT02359110|164515885|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.88
82404010|NCT04085601|164515886|SUPERIORITY||Difference|0.7311|||<|0.0001|TWO_SIDED|95.0|0.572|0.8902||Cochran-Mantel-Haenszel test is stratified by number of packed red blood cell (PRBC) within 12 months prior to screening (\<4, ≥ 4) reported in electronic data capture (EDC) data.|Cochran-Mantel-Haenszel|||||0.8902|0.572|<0.0001
82404011|NCT04085601|164515887|SUPERIORITY||LS mean difference|-1470.38|||<|0.0001|TWO_SIDED|95.0|-2113.44|-827.32||p-value for Baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||-827.32|-2113.44|<0.0001
82404012|NCT04085601|164515888|SUPERIORITY||Difference|0.5411|||<|0.0001|TWO_SIDED|95.0|0.339|0.7431||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥ 4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.7431|0.339|<0.0001
82404013|NCT04085601|164515889|SUPERIORITY||LS mean difference|-103.82||||0.0002|TWO_SIDED|95.0|-158.9|-48.74||P-value for Baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||-48.74|-158.9|0.0002
82404014|NCT04085601|164515890|SUPERIORITY||LS mean difference|2.67||||0.0019|TWO_SIDED|95.0|0.99|4.35||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||4.35|0.99|0.0019
82404015|NCT04085601|164515891|SUPERIORITY||Difference|-0.7505|||<|0.0001|TWO_SIDED|95.0|-0.9041|-0.5969||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥4) reported in EDC data.|Cochran-Mantel-Haenszel|||||-0.5969|-0.9041|<0.0001
82404016|NCT04085601|164515892|SUPERIORITY||Difference|0.7241|||<|0.0001|TWO_SIDED|95.0|0.5583|0.8899||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.8899|0.5583|<0.0001
82404017|NCT04085601|164515893|SUPERIORITY||Median Difference (Net)|3.0|||<|0.0001|TWO_SIDED|95.0|2.0|4.0||Wilcoxon rank-sum test p-value for the comparison between treatments is based on median using stratified non-parametric analysis. The 95% confidence interval (CI) is constructed using Hodges-Lehmann Estimation of Location Shift.|Wilcoxon Rank-Sum Test|||||4|2|<0.0001
82404018|NCT04085601|164515894|SUPERIORITY||LS mean difference|4.51||||0.061|TWO_SIDED|95.0|-0.21|9.24||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||9.24|-0.21|0.061
82404019|NCT04085601|164515895|SUPERIORITY||Difference|0.3645||||0.001|TWO_SIDED|95.0|0.1648|0.5642|||Cochran-Mantel-Haenszel|||||0.5642|0.1648|0.001
82404020|NCT04085601|164515896|SUPERIORITY||Difference|0.5592|||<|0.0001|TWO_SIDED|95.0|0.3682|0.7502|||Cochran-Mantel-Haenszel|||||0.7502|0.3682|<0.0001
82404021|NCT04085601|164515897|SUPERIORITY||LS mean difference|21.75||||0.0006|TWO_SIDED|95.0|9.35|34.16||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||34.16|9.35|0.0006
82530926|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.92|||||TWO_SIDED|95.0|0.84|1.02|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 18C antibody at Day 42.||1.02|0.84|
82404022|NCT04085601|164515898|SUPERIORITY||LS mean difference|55.79||||0.005|TWO_SIDED|95.0|16.83|94.74||P-value for baseline, strata and treatment is from LS mean of proc mixed and proc mianalyze based on parameter estimates.|ANCOVA|||||94.74|16.83|0.005
82404023|NCT04085601|164515899|SUPERIORITY||Difference|0.4639||||0.0002|TWO_SIDED|95.0|0.2529|0.675||Cochran-Mantel-Haenszel test is stratified by number of PRBC within 12 months prior to screening (\<4, ≥ 4) reported in EDC data.|Cochran-Mantel-Haenszel|||||0.675|0.2529|0.0002
82404024|NCT04085601|164515900|SUPERIORITY||Stratified Hazard Ratio|0.02|||<|0.0001|TWO_SIDED|95.0|0.004|0.091||Hazard ratio is based on cox proportional hazards model.|Stratified Wilcoxon|||||0.091|0.004|<0.0001
82445970|NCT01206582|164600102|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANCOVA|||Comparison for day 7||||0.008
82646096|NCT01236053|165007144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.9253|TWO_SIDED|95.0|0.1|7.82|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.82|0.10|0.9253
82646097|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
82646098|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.47||||0.0158|TWO_SIDED|95.0|1.78|258.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||258.8|1.78|0.0158
82445971|NCT01206582|164600103|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||Comparison for day 3||||0.0003
82530927|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.97|||||TWO_SIDED|95.0|0.87|1.07|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 19A antibody at Day 42.||1.07|0.87|
82404025|NCT04085601|164515901|SUPERIORITY||Stratified Hazard Ratio|0.025|||<|0.0001|TWO_SIDED|95.0|0.005|0.121|||Stratified Wilcoxon|||||0.121|0.005|<0.0001
82404026|NCT02121795|164515904|NON_INFERIORITY|Noninferiority was assessed using a conventional 95.002% confidence interval (CI) approach, with a noninferiority margin of 10%.|Percentage difference|1.3||||0.5|TWO_SIDED|95.002|-2.5|5.1|||Cochran-Mantel-Haenszel|P-value was from Cochran-Mantel-Haenszel (CMH) test stratified by third agent.|Difference in percentages of virologic success between treatment groups and its 95.002% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by the third agent stratum.|||5.1|-2.5|0.5
82404027|NCT01111565|164515963|SUPERIORITY||Treatment Difference|-5.4|||=|0.079|TWO_SIDED|95.0|-11.5|0.7|||ANCOVA|||||0.7|-11.5|=0.079
82404028|NCT01111565|164515963|SUPERIORITY||Treatment Difference|-5.2|||=|0.085|TWO_SIDED|95.0|-11.2|0.7|||ANCOVA|||||0.7|-11.2|=0.085
82404029|NCT01111565|164515964|SUPERIORITY||Treatment Difference|-0.5|||=|0.148|TWO_SIDED|95.0|-1.1|0.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.1|-1.1|=0.148
82404030|NCT01111565|164515964|SUPERIORITY||Treatment Difference|-0.4|||=|0.242|TWO_SIDED|95.0|-1.0|0.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.3|-1.0|=0.242
82404031|NCT01111565|164515965|SUPERIORITY||Treatment Difference|0.1|||=|0.91|TWO_SIDED|95.0|-1.8|2.1|||ANCOVA|||||2.1|-1.8|=0.910
82404032|NCT01111565|164515965|SUPERIORITY||Treatment Difference|-1.0|||=|0.291|TWO_SIDED|95.0|-3.0|0.9|||ANCOVA|||||0.9|-3.0|=0.291
82404033|NCT02683239|164515985|SUPERIORITY||Least Squares Mean|-0.73|STANDARD_ERROR_OF_MEAN|0.221|=|0.001|TWO_SIDED|95.0|-1.159|-0.293|||Mixed Models Analysis|||||-0.293|-1.159|= 0.0010
82404034|NCT02683239|164515985|SUPERIORITY||Least Squares Mean|-1.22|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|-1.646|-0.793|||Mixed Models Analysis|||||-0.793|-1.646|< 0.0001
82404035|NCT02683239|164515985|SUPERIORITY||Least Squares Mean|-1.23|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.664|-0.793|||Mixed Models Analysis|||||-0.793|-1.664|< 0.0001
82404036|NCT02683239|164515985|SUPERIORITY||Least Squares Mean|-1.04|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.477|-0.606|||Mixed Models Analysis|||||-0.606|-1.477|< 0.0001
82404037|NCT02683239|164515986|SUPERIORITY||Least Squares Mean|-0.74|STANDARD_ERROR_OF_MEAN|0.218|=|0.0007|TWO_SIDED|95.0|-1.163|-0.309|||Mixed Models Analysis|||||-0.309|-1.163|= 0.0007
82404038|NCT02683239|164515986|SUPERIORITY||Least Squares Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.218|<|0.0001|TWO_SIDED|95.0|-1.624|-0.768|||Mixed Models Analysis|||||-0.768|-1.624|< 0.0001
82404039|NCT02683239|164515986|SUPERIORITY||Least Squares Mean|-1.26|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.698|-0.822|||Mixed Models Analysis|||||-0.822|-1.698|< 0.0001
82404040|NCT02683239|164515986|SUPERIORITY||Least Squares Mean|-1.13|STANDARD_ERROR_OF_MEAN|0.222|<|0.0001|TWO_SIDED|95.0|-1.564|-0.695|||Mixed Models Analysis|||||-0.695|-1.564|< 0.0001
82445972|NCT01206582|164600110|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Comparison for Day 7||||<0.05
82445973|NCT01206582|164600111|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||Comparison for Day 7||||<0.05
82646099|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.0||||0.0141|TWO_SIDED|95.0|1.43|25.11|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||25.11|1.43|0.0141
82445974|NCT01206582|164600112|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Comparison for Platelets on Day 4||||0.01
82445975|NCT01755455|164600114|SUPERIORITY_OR_OTHER|||||||0.81|||||||Fixed-effect model|||Fixed-effect models accounted for repeated measurements within subjects and treatment sequence. The estimated effect signifies the absolute change from baseline at 6 weeks in the specified outcome measure and (standard error).||||0.81
82445976|NCT01755455|164600115|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fixed-effect model|||||||<0.05
82445977|NCT01755455|164600116|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fixed-effect model|||Fixed-effect models accounted for repeated measurements within subjects and treatment sequence. The estimated effect signifies the absolute change from baseline at 6 weeks in the specified outcome measure and (standard error).||||<0.05
82445978|NCT01755455|164600117|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fixed-effect model|||||||0.16
82445979|NCT00528801|164600142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|2.07||0.008||95.0|||||Mixed Models Analysis|Adjusted for gender, age, and education.|Cases are lower than controls.|Null hypothesis is no difference between cases and controls in the WAIS-III Perormance IQ (PIQ) Index. A linear model controlling for gender, age, and education was used to compare controls versus cases using an F statistic. Based on sample-size calculations, 120 patients and 36 controls were needed to have 80% power to detect an 8-point difference on the WAIS-III PIQ Index.||||0.008
82445980|NCT00528801|164600143|SUPERIORITY_OR_OTHER||Difference in proportions|0.11||||0.048||95.0|0.026|0.199|||Fisher Exact|||Null hypothesis is no difference between cases and controls in the proportion of subjects with lacunae. This was tested using a Fisher's Exact Test.||.199|.026|0.048
82445981|NCT02207491|164600145|NON_INFERIORITY|Clinical noninferiority was to be concluded if the upper limit of the 95% CIs around the difference (AR-13324 - timolol) was within 1.5 mmHg at all time points and was within 1.0 mmHg at a majority of the time points.|||||<|0.0001||||||Calculated p-value|ANCOVA|Statistical analysis applies at all 3 timepoints on Day 15, Day 43, and Day 90||Assuming zero difference between AR-13324 and timolol, a 2-tailed alpha of 0.05 at each of 9 time points, a common SD of 3.0 mmHg, and a correlation between time points of 0.60 or less, 170 PP subjects per arm were necessary to have 90% power to show clinical noninferiority of AR-13324 to timolol in mean IOP.||||<0.0001
82445982|NCT02429791|164600154|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -10%.|Risk Difference (RD)|-0.6|||||TWO_SIDED|95.0|-4.3|3.0|||||Estimates based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INI).|||3.0|-4.3|
82530928|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.96|||||TWO_SIDED|95.0|0.87|1.06|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 19F antibody at Day 42.||1.06|0.87|
82530929|NCT01702428|164758710|NON_INFERIORITY|The LL of the 2-sided 95% CI for GMC ratio (INV\_MMR Group over COM\_MMR Group) should be ≥0.5 for antibodies to for antibodies to PS serotypes.|Adjusted GMC ratio|0.95|||||TWO_SIDED|95.0|0.85|1.06|||ANCOVA|95% CI for GMC ratio (INV\_MMR Group over the COM\_MMR Group) was computed using an ANCOVA model: Adjustment for baseline concentration-pooled variance.||In US sub-cohort: Adjusted GMC ratio (INV\_MMR Group divided by COM\_MMR Group) for anti-PnPS 23F antibody at Day 42.||1.06|0.85|
82530930|NCT02564055|164758793|OTHER||Difference in percentages|22.6|||||TWO_SIDED|95.0|-2.4|45.5|||||Difference between GSK2894512 1 percent BID and Vehicle BID has been presented.|||45.5|-2.4|
82646100|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.56||||0.0063|TWO_SIDED|95.0|1.83|40.02|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||40.02|1.83|0.0063
82445983|NCT02429791|164600156|OTHER||Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-1.9|4.0|||||Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INI). No formal non-inferiority margin has been pre-specified for secondary endpoints.|||4.0|-1.9|
82445984|NCT02429791|164600167|OTHER|||||||0.007||||||P-value for interaction between treatment group and baseline third agent (25 hydroxy-vitamin D)|ANCOVA|||||||0.007
82445985|NCT02429791|164600167|SUPERIORITY||Odds Ratio (OR)|0.958||||0.275|TWO_SIDED|95.0|0.888|1.034||P value to assess difference between treatment groups (25 hydroxy-vitamin D - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||1.034|0.888|0.275
82445986|NCT02429791|164600167|SUPERIORITY||Odds Ratio (OR)|0.902||||0.112|TWO_SIDED|95.0|0.793|1.025||P value to assess difference between treatment groups (25 hydroxy-vitamin D - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||1.025|0.793|0.112
82445987|NCT02429791|164600167|SUPERIORITY||Odds Ratio (OR)|0.847||||0.002|TWO_SIDED|95.0|0.763|0.942||P value to assess difference between treatment groups (25 hydroxy-vitamin D - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and baseline biomarker level.|||0.942|0.763|0.002
82445988|NCT02429791|164600169|OTHER|||||||0.001||||||P-value for interaction between treatment group and baseline third agent (bone-specific alkaline phosphatase)|ANCOVA|||||||0.001
82530931|NCT02564055|164758793|OTHER||Difference in percentages|7.4|||||TWO_SIDED|95.0|-18.3|32.0|||||Difference between GSK2894512 1 percent QD and Vehicle QD has been presented.|||32.0|-18.3|
82530932|NCT02564055|164758793|OTHER||Difference in percentages|14.3|||||TWO_SIDED|95.0|-11.2|38.7|||||Difference between GSK2894512 0.5 percent BID and Vehicle BID has been presented.|||38.7|-11.2|
82530933|NCT02564055|164758793|OTHER||Difference in percentages|-4.0|||||TWO_SIDED|95.0|-29.3|21.6|||||Difference between GSK2894512 0.5 percent QD and Vehicle QD has been presented.|||21.6|-29.3|
82530934|NCT02564055|164758801|OTHER||Difference in percentages|21.1|||||TWO_SIDED|95.0|-2.7|43.1|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||43.1|-2.7|
82530935|NCT02564055|164758801|OTHER||Difference in percentages|26.5|||||TWO_SIDED|95.0|3.3|47.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 1 has been presented.|||47.5|3.3|
82404041|NCT02683239|164515987|SUPERIORITY||Least Squares Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.09|=|0.023|TWO_SIDED|95.0|-0.38|-0.028|||Mixed Models Analysis|||||-0.028|-0.380|= 0.0230
82404042|NCT02683239|164515987|SUPERIORITY||Least Squares Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.088|=|0.0025|TWO_SIDED|95.0|-0.437|-0.093|||Mixed Models Analysis|||||-0.093|-0.437|= 0.0025
82404043|NCT02683239|164515987|SUPERIORITY||Least Squares Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.09|=|0.0003|TWO_SIDED|95.0|-0.496|-0.145|||Mixed Models Analysis|||||-0.145|-0.496|= 0.0003
82404044|NCT02683239|164515987|SUPERIORITY||Least Squares Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.089|=|0.001|TWO_SIDED|95.0|-0.466|-0.118|||Mixed Models Analysis|||||-0.118|-0.466|= 0.0010
82404045|NCT02363387|164516002|SUPERIORITY||Odds Ratio (OR)|7.1|||<|0.001|TWO_SIDED|95.0|2.7|18.8|||Regression, Logistic|||||18.8|2.7|<0.001
82404046|NCT00447772|164516053|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.322|||=|0.2552|TWO_SIDED|95.0|-0.877|0.233|||ANCOVA||The comparative analysis is based on adjusted means data.|An analysis of covariance (ANCOVA) model included the baseline total Tsui score (patient in sitting position) as covariate and the main type of CD as between-group factor (due to non-significance the interaction between baseline total Tsui score and the main type of CD was removed from the model).||0.233|-0.877|=0.2552
82404047|NCT00875563|164516074|NON_INFERIORITY_OR_EQUIVALENCE|An exact test method (Sidik K. 2003, Statistics in Medicine 22: 265-278) for matched controls was used, at a type I error rate of 0.05 and a non-inferiority margin of 10%. 38 pairs of patients were determined necessary, and the power was calculated to be 0.92.||||||0.02|TWO_SIDED||||||Exact test for matched pairs|||Patients treated with the Zenith® Fenestrated AAA Endovascular Graft were compared with matched patients treated with the Zenith® AAA Endovascular Graft.||||0.02
82404048|NCT00313846|164516082|SUPERIORITY_OR_OTHER|||||||0.0026|||||||Kaplan-Meier estimate mean|||||||.0026
82404049|NCT03257436|164516084|OTHER|"A power calculation using a sample size of 61 subjects as the non-responders with the LV MSP on was calculated based on a one-sided exact test for a single binomial proportion, using SAS Version 9.4 with the following assumptions:~* Performance goal = 90%~* Expected LV MSP feature-related CFR rate between 6 and 12 Month Visit = 98%~* Significance level = 5%~* Power = 80%"|Kaplan Meir Methodology|99.0|||||ONE_SIDED|95.0|94.1|||||||"The LV MSP feature-related CFR between the 6 Month Visit and the 12 Month Visit was calculated using Kaplan-Meier methodology.~H0: LV MSP feature-related complication-free rate between 6 Month Visit and 12 Month Visit ≤ 90%.~The sample size of 61 subjects was required to evaluate the Primary Safety Endpoint using an exact test since a power calculation cannot be directly calculated for a one group Kaplan-Meier analysis."|||94.1|
82530936|NCT02564055|164758801|OTHER||Difference in percentages|2.3|||||TWO_SIDED|95.0|-19.5|24.5|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 1 has been presented.|||24.5|-19.5|
82404050|NCT03257436|164516085|OTHER|Even though fewer subjects (78) were available for the effectiveness endpoint analysis than originally planned (110), the study was still powered at approximately 90%|Proportion|51.3|||||ONE_SIDED|95.0|41.1|||||||"The effectiveness endpoint for SMART MSP PAS is the proportion of the LV MSP Group with an Improved CCS. For this endpoint, those subjects in the LV MSP Group that become responders will be defined as having an Improved CCS.~H0: Proportion of LV MSP Group subjects with Improved CCS from 6 Month Visit through 12 Month Visit ≤ 5%"|||41.1|
82404051|NCT01305811|164516087|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||general estimating equations|||||||0.03
82404052|NCT01305811|164516088|SUPERIORITY_OR_OTHER||||||=|0.22|TWO_SIDED||||||t-test, 2 sided|||In our original proposal to the funder, to protect our main outcome from possibly large attrition, we proposed to initially test mean differences between groups following 2 months of treatment or wait list using Student's t-tests at an alpha=0.05.||||=0.22
82404053|NCT02849743|164516099|OTHER||Least Means Square|-0.5||||0.92|TWO_SIDED||||||Regression, Linear|||||||0.92
82404054|NCT02849743|164516100|OTHER||Regression Coefficient|-15784.0||||0.57|TWO_SIDED||||||Regression, Linear|||||||0.57
82404055|NCT02849743|164516101|OTHER||Regression Coefficient|48.0||||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
82404056|NCT02849743|164516102|OTHER||Regression Coefficient|-2.8||||0.55|TWO_SIDED||||||Regression, Linear|||||||0.55
82404057|NCT02849743|164516103|OTHER||Regression Coefficient|1.2||||0.86|TWO_SIDED||||||Regression, Linear|||||||0.86
82404058|NCT02849743|164516104|OTHER||Regression Coefficient|2.4||||0.88|TWO_SIDED||||||Regression, Linear|||||||0.88
82404059|NCT02849743|164516105|OTHER||Regression Coefficient|-0.02||||0.5|TWO_SIDED||||||Regression, Linear|||||||0.50
82404060|NCT02849743|164516106|OTHER||Regression Coefficient|-0.02||||0.49|TWO_SIDED||||||Regression, Linear|||||||0.49
82404061|NCT02849743|164516108|OTHER||Regression Coefficient|-0.7||||0.68|TWO_SIDED||||||Regression, Linear|||||||0.68
82404062|NCT02849743|164516109|OTHER||Regression Coefficient|-0.6||||0.52|TWO_SIDED||||||Regression, Linear|||||||0.52
82404063|NCT02849743|164516110|OTHER||Regression Coefficient|-0.2||||0.91|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Anxiety||||0.91
82404064|NCT02849743|164516110|OTHER||Regression Coefficient|-0.2||||0.91|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Depression||||0.91
82404065|NCT02849743|164516110|OTHER||Regression Coefficient|4.7||||0.04|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Cognition||||0.04
82404066|NCT02849743|164516110|OTHER||Regression Coefficient|2.3||||0.36|TWO_SIDED||||||Regression, Linear|||Neuro-QoL - Social Function||||0.36
82404067|NCT02849743|164516111|OTHER||Regression Coefficient|0.05||||0.64|TWO_SIDED||||||Regression, Linear|||||||0.64
82404068|NCT02849743|164516112|OTHER||Regression Coefficient|0.05||||0.83|TWO_SIDED||||||Regression, Linear|||||||0.83
82404069|NCT03064113|164516115|SUPERIORITY||Difference of LS Mean|173.8|||<|0.001|TWO_SIDED|95.0|112.4|235.3|||t-test, 2 sided|||||235.3|112.4|<0.001
82404070|NCT03064113|164516115|SUPERIORITY||Difference of LS Mean|169.3|||<|0.001|TWO_SIDED|95.0|107.8|230.8|||t-test, 2 sided|||||230.8|107.8|<0.001
82404071|NCT03064113|164516115|SUPERIORITY||Difference of LS Mean|175.6|||<|0.001|TWO_SIDED|95.0|114.1|237.2|||t-test, 2 sided|||||237.2|114.1|<0.001
82404072|NCT03064113|164516116|SUPERIORITY||Slope|112.5||||0.001|TWO_SIDED|95.0|44.5|180.5|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||180.5|44.5|0.001
82404073|NCT03064113|164516116|SUPERIORITY||Difference of LS Mean|123.4|||<|0.001|TWO_SIDED|95.0|54.6|192.3|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||192.3|54.6|<0.001
82530937|NCT02564055|164758801|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-14.5|32.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 1 has been presented.|||32.0|-14.5|
82404074|NCT03064113|164516116|SUPERIORITY||Difference of LS Mean|15.3||||0.659|TWO_SIDED|95.0|-53.5|94.1|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 12 hr||94.1|-53.5|0.659
82404075|NCT03064113|164516116|SUPERIORITY||Difference of LS Mean|102.8|||<|0.001|TWO_SIDED|95.0|54.1|151.5|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 24 hr||151.5|54.1|<0.001
82404076|NCT03064113|164516116|SUPERIORITY||Difference of LS Mean|136.6|||<|0.001|TWO_SIDED|95.0|87.8|185.3|||t-test, 2 sided|||Tx Difference of LS Mean FEV1 at 24 hr||185.3|87.8|<0.001
82530938|NCT02564055|164758801|OTHER||Difference in percentages|23.1|||||TWO_SIDED|95.0|-0.3|44.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 2 has been presented.|||44.6|-0.3|
82404077|NCT03064113|164516116|SUPERIORITY|Tx Difference of LS Mean FEV1 at 24 hr|Difference of LS Mean|-24.2||||0.327|TWO_SIDED|95.0|-72.9|24.6|||t-test, 2 sided|||||24.6|-72.9|0.327
82404078|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|26.4|||<|0.001|TWO_SIDED|95.0|18.0|34.8|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||34.8|18.0|<0.001
82404079|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|29.1|||<|0.001|TWO_SIDED|95.0|20.8|37.4|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||37.4|20.8|<0.001
82404080|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|25.6|||<|0.001|TWO_SIDED|95.0|17.3|33.9|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-12 hrs||33.9|17.3|<0.001
82404081|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|20.1|||<|0.001|TWO_SIDED|95.0|12.1|28.2|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hrs||28.2|12.1|<0.001
82404082|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|25.4|||<|0.001|TWO_SIDED|95.0|17.4|33.4|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hrs||33.4|17.4|<0.001
82404083|NCT03064113|164516117|SUPERIORITY||Difference of LS Mean|10.6||||0.01|TWO_SIDED|95.0|2.5|18.6|||t-test, 2 sided|||Tx Difference of LS Mean AUC, 0-24 hr||18.6|2.5|0.010
82404084|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.003
82404085|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.046|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.046
82404086|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.003
82404087|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.003|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.003
82404088|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.048|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.048
82404089|NCT03064113|164516118|SUPERIORITY||Difference of LS Mean|0.1||||0.007|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.2|0.0|0.007
82445989|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.724|||<|0.001|TWO_SIDED|95.0|0.679|0.772||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.772|0.679|<.001
82530939|NCT02564055|164758801|OTHER||Difference in percentages|37.7|||||TWO_SIDED|95.0|14.7|57.6|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 2 has been presented.|||57.6|14.7|
82404090|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.1||||0.054|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.1|-0.0|0.054
82404091|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.1||||0.045|TWO_SIDED|95.0|0.0|0.2|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.2|0.0|0.045
82404092|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.0||||0.503|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 12 hr||0.1|-0.0|0.503
82404093|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.0||||0.183|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.1|-0.0|0.183
82404094|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.0||||0.422|TWO_SIDED|95.0|0.0|0.1|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.1|-0.0|0.422
82404095|NCT03064113|164516119|SUPERIORITY||Difference of LS Mean|0.0||||0.287|TWO_SIDED|95.0|-0.1|0.0|||t-test, 2 sided|||Tx Difference of LS Mean 24 hr||0.0|-0.1|0.287
82404096|NCT03064113|164516121|SUPERIORITY||Difference of LS Mean|3975.5|||<|0.001|TWO_SIDED|95.0|2007.3|5943.7|||t-test, 2 sided|||||5943.7|2007.3|<0.001
82404097|NCT03064113|164516121|SUPERIORITY||Difference of LS Mean|5888.9|||<|0.001|TWO_SIDED|95.0|3924.4|7853.4|||t-test, 2 sided|||||7853.4|3924.4|<0.001
82404098|NCT03064113|164516121|SUPERIORITY||Difference of LS Mean|2654.7||||0.009|TWO_SIDED|95.0|689.7|4619.6|||t-test, 2 sided|||||4619.6|689.7|0.009
82404099|NCT01411852|164516131|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39|||||TWO_SIDED|95.0|0.12|1.25|||||Adjusted for age (linear spline with knot at 45 years), penetrating vs. blunt or no trauma (1 patient had neither blunt nor penetrating trauma), and Injury Severity Score (ISS). ISS multiply imputed for one patient.|||1.25|0.12|
82404100|NCT01411852|164516132|SUPERIORITY_OR_OTHER||percent difference|-16.0|||||TWO_SIDED|95.0|-26.5|-5.5||||||||-5.5|-26.5|
82404101|NCT01411852|164516133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-2.76|0.4||||||||0.40|-2.76|
82404102|NCT01411852|164516134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-1.61|0.08||||||||0.08|-1.61|
82404103|NCT01411852|164516135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-1.8|2.2||||||||2.2|-1.8|
82404104|NCT01411852|164516136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.3|1.0||||||||1.0|-0.3|
82404105|NCT01411852|164516137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|||||TWO_SIDED|95.0|-42.5|1.6||||||||1.6|-42.5|
82404106|NCT01411852|164516138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.06|0.1||||||||0.10|-0.06|
82404107|NCT01411852|164516139|SUPERIORITY_OR_OTHER||percent difference|-10.2|||||TWO_SIDED|95.0|-22.4|2.0||||||||2.0|-22.4|
82404108|NCT01411852|164516140|SUPERIORITY_OR_OTHER||percent difference|-18.9|||||TWO_SIDED|95.0|-39.2|1.4||||||||1.4|-39.2|
82404109|NCT01411852|164516141|SUPERIORITY_OR_OTHER||percent difference|-10.4|||||TWO_SIDED|95.0|-29.6|8.8||||||||8.8|-29.6|
82530940|NCT02564055|164758801|OTHER||Difference in percentages|5.1|||||TWO_SIDED|95.0|-18.0|27.8|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 2 has been presented.|||27.8|-18.0|
82404110|NCT01411852|164516142|SUPERIORITY_OR_OTHER||percent difference|-4.4|||||TWO_SIDED|95.0|-16.6|7.8||||||||7.8|-16.6|
82404111|NCT01411852|164516143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.8|2.1||||||||2.1|-3.8|
82404112|NCT01411852|164516144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.6|2.4||||||||2.4|-3.6|
82404113|NCT01411852|164516145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-2.9|3.1||||||||3.1|-2.9|
82404114|NCT01411852|164516146|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17|||||TWO_SIDED|95.0|0.03|0.92|||||Adjusted for age (linear spline with knot at 45 years) and Injury Severity Score (ISS). ISS multiply imputed for one patient.|||0.92|0.03|
82404115|NCT01411852|164516147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|0.19|19.11|||||Adjusted for age (linear spline with knot at 45 years) and Injury Severity Score (ISS).|||19.11|0.19|
82404116|NCT01411852|164516148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.22|1.77|||||Adjusted for age (linear spline with knot at 45 years), penetrating mechanism (yes/no), and ISS (linear).|||1.77|0.22|
82404117|NCT02937623|164516157|OTHER||Least square mean difference|-0.44|||<|0.0001||95.0|-0.591|-0.297|||ANCOVA|ANCOVA model: change from baseline in Schiff sensitivity score as response and treatment as factors and baseline Schiff sensitivity score as covariate|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-0.297|-0.591|<.0001
82404118|NCT00327717|164516173|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||ANOVA|||||||0.028
82530941|NCT02564055|164758801|OTHER||Difference in percentages|17.1|||||TWO_SIDED|95.0|-6.4|39.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 2 has been presented.|||39.0|-6.4|
82404119|NCT00327717|164516174|SUPERIORITY_OR_OTHER|||||||0.253||95.0|||||ANOVA|||||||0.253
82404120|NCT00327717|164516175|SUPERIORITY_OR_OTHER|||||||0.211||95.0|||||ANOVA|||||||0.211
82404121|NCT00327717|164516176|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||ANOVA|||||||0.516
82404122|NCT00327717|164516177|SUPERIORITY_OR_OTHER|||||||0.044|||||||X^2 test|||||||0.044
82404123|NCT00327717|164516178|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||X^2 test|||||||0.090
82404124|NCT00327717|164516179|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||X^2 test|||||||0.090
82404125|NCT00327717|164516180|SUPERIORITY_OR_OTHER|||||||0.162||95.0|||||X^2 test|||||||0.162
82404126|NCT00327717|164516181|SUPERIORITY_OR_OTHER|||||||0.678||95.0|||||X^2 test|||||||0.678
82404127|NCT01630135|164516184|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.089|||<|0.001|TWO_SIDED|95.0|-1.41|-0.76|||ANCOVA||The analysis was based on an analysis of covariance (ANCOVA) with a model adjusting for Treatment, Baseline, Age, and Sex.|||-0.76|-1.41|<0.001
82404128|NCT03804268|164516209|SUPERIORITY||Percentage Difference|22.5|||<|0.0001|TWO_SIDED|95.0|14.3|30.8||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||30.8|14.3|<0.0001
82404129|NCT03804268|164516210|SUPERIORITY||Percentage Difference|9.7||||0.0114|TWO_SIDED|95.0|2.3|17.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||17.0|2.3|0.0114
82404130|NCT03804268|164516211|SUPERIORITY||Percentage Difference|2.1||||1|TWO_SIDED|95.0|-4.4|8.5||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||8.5|-4.4|1.0000
82404131|NCT03804268|164516212|SUPERIORITY||Least Square (LS) Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|0.72||0.0114|TWO_SIDED|95.0|3.7|6.5||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||6.5|3.7|0.0114
82404132|NCT03804268|164516213|SUPERIORITY||Percentage Difference|18.7||||0.0114|TWO_SIDED|95.0|10.6|26.7||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval was calculated based on normal approximation based on pooled variance without continuity correction.|||26.7|10.6|0.0114
82404133|NCT03804268|164516214|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.14||0.0114|TWO_SIDED|95.0|0.6|1.1||Analysis of covariance (ANCOVA) was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.1|0.6|0.0114
82404134|NCT03804268|164516215|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.55||0.0114|TWO_SIDED|95.0|2.4|4.6||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||4.6|2.4|0.0114
82404135|NCT03804268|164516216|SUPERIORITY||Percentage Difference|-1.1||||1|TWO_SIDED|95.0|-7.1|5.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||5.0|-7.1|1.0000
82404136|NCT03804268|164516217|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.66||0.0114|TWO_SIDED|95.0|1.3|3.9||MMRM with fixed effects: study intervention group,visit,visit by study intervention group interaction,age group,Baseline binocular DCNVA severity,iris color,emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction was used.|MMRM|P-value was adjusted for multiplicity control.||||3.9|1.3|0.0114
82530942|NCT02564055|164758801|OTHER||Difference in percentages|39.6|||||TWO_SIDED|95.0|16.0|60.0|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 4 has been presented.|||60.0|16.0|
82530943|NCT02564055|164758801|OTHER||Difference in percentages|31.2|||||TWO_SIDED|95.0|7.8|52.1|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 4 has been presented.|||52.1|7.8|
82530944|NCT02564055|164758801|OTHER||Difference in percentages|26.5|||||TWO_SIDED|95.0|2.3|48.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 4 has been presented.|||48.4|2.3|
82530945|NCT02564055|164758801|OTHER||Difference in percentages|18.3|||||TWO_SIDED|95.0|-5.3|40.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 4 has been presented.|||40.5|-5.3|
82530946|NCT02564055|164758801|OTHER||Difference in percentages|21.9|||||TWO_SIDED|95.0|-2.3|44.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 8 has been presented.|||44.7|-2.3|
82530947|NCT02564055|164758801|OTHER||Difference in percentages|36.3|||||TWO_SIDED|95.0|12.1|57.6|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 8 has been presented.|||57.6|12.1|
82646101|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.1888|TWO_SIDED|95.0|0.45|55.14|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||55.14|0.45|0.1888
82646102|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.999|TWO_SIDED|95.0|0.03|32.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||32.21|0.03|0.9990
82404137|NCT03804268|164516218|SUPERIORITY||Percentage Difference|12.6||||0.0171|TWO_SIDED|95.0|3.5|21.6||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. 95% confidence interval for the percentage differences was calculated based on the normal approximation based on pooled variance without continuity correction.|||21.6|3.5|0.0171
82404138|NCT03804268|164516219|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.13||0.0114|TWO_SIDED|95.0|0.5|1.1||ANCOVA was used with study intervention group, age group, baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.1|0.5|0.0114
82404139|NCT03804268|164516220|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.09||0.0114|TWO_SIDED|95.0|-0.6|-0.3||ANCOVA was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.3|-0.6|0.0114
82404140|NCT03804268|164516221|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.08||0.0114|TWO_SIDED|95.0|-0.4|-0.1||ANCOVA was used with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.1|-0.4|0.0114
82404141|NCT01246895|164516222|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||||||0.017
82404142|NCT01246895|164516223|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||||||0.026
82404143|NCT01246895|164516224|SUPERIORITY_OR_OTHER|||||||0.474|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Pain||||0.474
82404144|NCT01246895|164516224|SUPERIORITY_OR_OTHER|||||||0.236|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Stiffness||||0.236
82404145|NCT01246895|164516224|SUPERIORITY_OR_OTHER|||||||0.326|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||WOMAC subscale - Physical function||||0.326
82404146|NCT01246895|164516225|SUPERIORITY_OR_OTHER|||||||0.01|||||||Physical count|||||||0.01
82404147|NCT01246895|164516226|SUPERIORITY_OR_OTHER|||||||0.478|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||SF-36 v2 Physical component||||0.478
82404148|NCT01246895|164516226|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED|||||P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.|general estimating equations (GEE)|P-values were obtained using general estimating equations (GEE) for longitudinal analysis of repeated correlated measures.||SF-36 v2 Mental component||||0.125
82404149|NCT01156805|164516227|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|Mixed-effects linear regression, adjusted for clustering within schools and children to assess the effect of intervention on changes in BMI over time||||||0.05
82530948|NCT02564055|164758801|OTHER||Difference in percentages|26.7|||||TWO_SIDED|95.0|1.7|49.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 8 has been presented.|||49.0|1.7|
82530949|NCT02564055|164758801|OTHER||Difference in percentages|23.4|||||TWO_SIDED|95.0|-1.5|46.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 8 has been presented.|||46.1|-1.5|
82530950|NCT02564055|164758801|OTHER||Difference in percentages|19.0|||||TWO_SIDED|95.0|-6.0|42.3|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||42.3|-6.0|
82530951|NCT02564055|164758801|OTHER||Difference in percentages|-0.2|||||TWO_SIDED|95.0|-25.0|25.0|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||25.0|-25.0|
82530952|NCT02564055|164758801|OTHER||Difference in percentages|32.6|||||TWO_SIDED|95.0|6.9|55.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||55.0|6.9|
82530953|NCT02564055|164758801|OTHER||Difference in percentages|-9.7|||||TWO_SIDED|95.0|-34.6|16.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||16.1|-34.6|
82530954|NCT02564055|164758801|OTHER||Difference in percentages|22.3|||||TWO_SIDED|95.0|-3.1|45.3|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||45.3|-3.1|
82646103|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75||||0.2885|TWO_SIDED|95.0|0.33|43.08|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||43.08|0.33|0.2885
82404150|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|0.64|||||TWO_SIDED|95.0|0.37|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.37|
82530955|NCT02564055|164758801|OTHER||Difference in percentages|6.3|||||TWO_SIDED|95.0|-19.5|31.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||31.5|-19.5|
82404151|NCT03311841|164516231|OTHER|Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.77|2.31||||||Comparison of midazolam||2.31|0.77|
82404152|NCT03311841|164516231|OTHER|Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Geometric least squares mean ratio|0.95|||||TWO_SIDED|95.0|0.56|1.62||||||Comparison of midazolam||1.62|0.56|
82404153|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|0.4|||||TWO_SIDED|95.0|0.23|0.7|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.70|0.23|
82404154|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.01|||||TWO_SIDED|95.0|0.53|1.93|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.93|0.53|
82404155|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|2.87|||||TWO_SIDED|95.0|1.51|5.47|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.47|1.51|
82404156|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|4.98|||||TWO_SIDED|95.0|2.62|9.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||9.48|2.62|
82530956|NCT02564055|164758801|OTHER||Difference in percentages|17.7|||||TWO_SIDED|95.0|-8.4|41.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||41.9|-8.4|
82646104|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.9608|TWO_SIDED|95.0|0.06|13.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||13.87|0.06|0.9608
82646105|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
82404157|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|3.39|||||TWO_SIDED|95.0|1.78|6.44|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||6.44|1.78|
82404158|NCT03311841|164516231|OTHER|Comparison of pitavastatin|Geometric least squares mean ratio|1.32|||||TWO_SIDED|95.0|0.76|2.31|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.31|0.76|
82404159|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.96|||||TWO_SIDED|95.0|1.12|3.42|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.42|1.12|
82404160|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.73|2.13|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.13|0.73|
82404161|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.74|2.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.27|0.74|
82404162|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.05|||||TWO_SIDED|95.0|0.64|1.72|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.72|0.64|
82404163|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.45|||||TWO_SIDED|95.0|0.88|2.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.38|0.88|
82530957|NCT02564055|164758801|OTHER||Difference in percentages|7.8|||||TWO_SIDED|95.0|-17.8|33.1|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||33.1|-17.8|
82530958|NCT02564055|164758801|OTHER||Difference in percentages|9.8|||||TWO_SIDED|95.0|-15.5|33.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||33.9|-15.5|
82530959|NCT02564055|164758801|OTHER||Difference in percentages|5.8|||||TWO_SIDED|95.0|-19.7|30.5|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||30.5|-19.7|
82530960|NCT02564055|164758801|OTHER||Difference in percentages|17.2|||||TWO_SIDED|95.0|-9.0|41.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||41.4|-9.0|
82530961|NCT02564055|164758801|OTHER||Difference in percentages|-0.6|||||TWO_SIDED|95.0|-26.0|25.0|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 16 has been presented.|||25.0|-26.0|
82530962|NCT02564055|164758801|OTHER||Difference in percentages|33.3|||||TWO_SIDED|95.0|-31.9|90.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at EW has been presented.|||90.6|-31.9|
82404164|NCT03311841|164516231|OTHER|Comparison of pitavastatin lactone|Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.68|1.76|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.76|0.68|
82404165|NCT03311841|164516231|OTHER|Comparison of pitavastatin lactone|Geometric least squares mean ratio|0.71|||||TWO_SIDED|95.0|0.43|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.17|0.43|
82404166|NCT03311841|164516231|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.53|2.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.41|0.53|
82404167|NCT03311841|164516231|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.89|3.46|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||3.46|0.89|
82404168|NCT03311841|164516231|OTHER||Geometric least squares mean ratio|1.63|||||TWO_SIDED|95.0|0.85|3.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.14|0.85|
82404169|NCT03311841|164516231|OTHER|Comparison of atorvastatin|Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.57|2.22|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.22|0.57|
82404170|NCT03311841|164516231|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.38|||||TWO_SIDED|95.0|0.76|2.49|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.49|0.76|
82404171|NCT03311841|164516231|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.31|||||TWO_SIDED|95.0|0.75|2.29|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.29|0.75|
82404172|NCT03311841|164516231|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.65|1.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.81|0.65|
82404173|NCT03311841|164516231|OTHER|Comparison of ortho-hydroxyatorvastatin|Geometric least squares mean ratio|0.79|||||TWO_SIDED|95.0|0.46|1.33|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.33|0.46|
82404174|NCT03311841|164516231|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|0.9|||||TWO_SIDED|95.0|0.33|2.45|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||2.45|0.33|
82530963|NCT02564055|164758801|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-62.4|47.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at EW has been presented.|||47.8|-62.4|
82404175|NCT03311841|164516231|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|1.97|||||TWO_SIDED|95.0|0.75|5.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||5.14|0.75|
82530964|NCT02564055|164758801|OTHER||Difference in percentages|28.6|||||TWO_SIDED|95.0|-19.2|71.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at EW has been presented.|||71.0|-19.2|
82404176|NCT03311841|164516231|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.49|3.16|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||3.16|0.49|
82404177|NCT03311841|164516231|OTHER|Comparison of rosuvastatin|Geometric least squares mean ratio|0.71|||||TWO_SIDED|95.0|0.27|1.86|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|||1.86|0.27|
82404178|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|0.67|||||TWO_SIDED|95.0|0.4|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.40|
82404179|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.26|||||TWO_SIDED|95.0|0.76|2.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||2.09|0.76|
82530965|NCT02564055|164758801|OTHER||Difference in percentages|24.2|||||TWO_SIDED|95.0|-40.3|80.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at EW has been presented.|||80.9|-40.3|
82530966|NCT02564055|164758802|OTHER||Difference in percentages|5.3|||||TWO_SIDED|95.0|-18.3|28.4|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||28.4|-18.3|
82530967|NCT02564055|164758802|OTHER||Difference in percentages|5.9|||||TWO_SIDED|95.0|-17.1|28.4|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 1 has been presented.|||28.4|-17.1|
82530968|NCT02564055|164758802|OTHER||Difference in percentages|-0.8|||||TWO_SIDED|95.0|-24.0|22.7|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 1 has been presented.|||22.7|-24.0|
82530969|NCT02564055|164758802|OTHER||Difference in percentages|11.4|||||TWO_SIDED|95.0|-12.0|33.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 2 has been presented.|||33.9|-12.0|
82646106|NCT01236053|165007145|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.9381||95.0|0.11|7.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.97|0.11|0.9381
82404180|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|0.93|||||TWO_SIDED|95.0|0.57|1.52|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.52|0.57|
82404181|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|0.42|||||TWO_SIDED|95.0|0.25|0.7|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.70|0.25|
82404182|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|0.96|||||TWO_SIDED|95.0|0.53|1.73|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.73|0.53|
82404183|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|2.38|||||TWO_SIDED|95.0|1.32|4.32|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||4.32|1.32|
82404184|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|3.09|||||TWO_SIDED|95.0|1.75|5.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.48|1.75|
82404185|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.8|2.64|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||2.64|0.80|
82404186|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.31|||||TWO_SIDED|95.0|0.78|2.2|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.20|0.78|
82404187|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.84|||||TWO_SIDED|95.0|1.09|3.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.09|1.09|
82404188|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.26|||||TWO_SIDED|95.0|0.77|2.09|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.09|0.77|
82404189|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.43|||||TWO_SIDED|95.0|0.85|2.4|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.40|0.85|
82404190|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.68|1.56|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.56|0.68|
82404191|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.27|||||TWO_SIDED|95.0|0.83|1.92|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.92|0.83|
82404192|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.09|||||TWO_SIDED|95.0|0.73|1.63|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.63|0.73|
82404193|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|0.85|||||TWO_SIDED|95.0|0.56|1.29|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.29|0.56|
82404194|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.11|||||TWO_SIDED|95.0|0.55|2.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.23|0.55|
82404195|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.66|||||TWO_SIDED|95.0|0.89|3.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.11|0.89|
82404196|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.52|||||TWO_SIDED|95.0|0.83|2.77|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.77|0.83|
82404197|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.45|||||TWO_SIDED|95.0|0.78|2.71|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.71|0.78|
82646107|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||220.5|1.81|0.0144
82404198|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.28|||||TWO_SIDED|95.0|0.7|2.34|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.34|0.70|
82404199|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.78|2.28|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.28|0.78|
82404200|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.62|1.74|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.74|0.62|
82404201|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.62|1.82|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.82|0.62|
82404202|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.58|2.67|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.67|0.58|
82404203|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|2.25|||||TWO_SIDED|95.0|1.09|4.63|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||4.63|1.09|
82404204|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.72|2.93|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.93|0.72|
82445990|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.825|||<|0.001|TWO_SIDED|95.0|0.742|0.918||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.918|0.742|<.001
82445991|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.81|||<|0.001|TWO_SIDED|95.0|0.742|0.884||P value to assess difference between treatment groups (bone-specific alkaline phosphatase - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.884|0.742|<.001
82404205|NCT03311841|164516233|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.51|2.19|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.19|0.51|
82404206|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.63|||||TWO_SIDED|95.0|0.36|1.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.11|0.36|
82404207|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.75|2.28|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||2.28|0.75|
82404208|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.55|1.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.61|0.55|
82404209|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.4|||||TWO_SIDED|95.0|0.23|0.69|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.69|0.23|
82445992|NCT02429791|164600169|OTHER|||||||0.677||||||P-value for interaction between treatment group and Baseline third agent (procollagen type 1-N-propeptide)|ANCOVA|||||||0.677
82404210|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.02|||||TWO_SIDED|95.0|0.53|1.95|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.95|0.53|
82404211|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|3.0|||||TWO_SIDED|95.0|1.57|5.74|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.74|1.57|
82404212|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|5.28|||||TWO_SIDED|95.0|2.83|9.87|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||9.87|2.83|
82404213|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|2.65|||||TWO_SIDED|95.0|1.39|5.07|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||5.07|1.39|
82445993|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.817|||<|0.001|TWO_SIDED|95.0|0.774|0.863||P value to assess difference between treatment groups (procollagen type 1-N-propeptide)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.863|0.774|<.001
82445994|NCT02429791|164600169|OTHER||||||<|0.001||||||P-value for interaction between treatment group and Baseline third agent (osteocalcin)|ANCOVA|||||||<.001
82404214|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.76|2.34|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.34|0.76|
82404215|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.97|||||TWO_SIDED|95.0|1.12|3.46|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.46|1.12|
82445995|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.881|||<|0.001|TWO_SIDED|95.0|0.823|0.943||P value to assess difference between treatment groups (osteocalcin - NNRTI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.943|0.823|<.001
82445996|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.829||||0.001|TWO_SIDED|95.0|0.74|0.93||P value to assess difference between treatment groups (osteocalcin - INI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.930|0.740|0.001
82445997|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.691|||<|0.001|TWO_SIDED|95.0|0.628|0.759||P value to assess difference between treatment groups (osteocalcin - PI)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.759|0.628|<.001
82445998|NCT02429791|164600169|OTHER|||||||0.782||||||P-value for interaction between treatment group and baseline third agent (type 1 collagen cross-linked C-telopeptide)|ANCOVA|||||||0.782
82445999|NCT02429791|164600169|SUPERIORITY||Odds Ratio (OR)|0.804|||<|0.001|TWO_SIDED|95.0|0.742|0.872||P value to assess difference between treatment groups (type 1 collagen cross-linked C-telopeptide)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.872|0.742|<.001
82446000|NCT02429791|164600182|OTHER|||||||0.317||||||One-sided p-value from weighted least squares chi-squared statistic. A p-value \<=0.10 was used to indicate statistically significant evidence of heterogeneity in the difference in proportions across levels of each analysis strata.|Chi-squared, Corrected|||||||0.317
82446001|NCT02429791|164600182|OTHER||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.7|1.5|||||NNRTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||1.5|-7.7|
82446002|NCT02429791|164600182|OTHER||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-5.1|9.0|||||INI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||9.0|-5.1|
82446003|NCT02429791|164600182|OTHER||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-5.3|10.8|||||PI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||10.8|-5.3|
82446004|NCT02429791|164600190|OTHER|||||||0.94||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 4)|ANCOVA|||||||0.940
82446005|NCT02429791|164600190|SUPERIORITY||Mean Difference (Final Values)|-2.924|||<|0.001|TWO_SIDED|95.0|-4.26|-1.588||P value to assess difference between treatment groups (Week 4)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-1.588|-4.260|<.001
82446006|NCT02429791|164600190|OTHER|||||||0.001||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 24)|ANCOVA|||||||0.001
82446007|NCT02429791|164600190|SUPERIORITY||Mean Difference (Final Values)|-1.192||||0.11|TWO_SIDED|95.0|-2.656|0.271||P value to assess difference between treatment groups (Week 24)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.271|-2.656|0.110
82404216|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.25|||||TWO_SIDED|95.0|0.72|2.15|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.15|0.72|
82446008|NCT02429791|164600190|OTHER|||||||0.048||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 48)|ANCOVA|||||||0.048
82446009|NCT02429791|164600190|SUPERIORITY||Mean Difference (Final Values)|-1.569||||0.038|TWO_SIDED|95.0|-3.048|-0.09||P value to assess difference between treatment groups (Week 48)|ANCOVA||Estimates are calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-0.090|-3.048|0.038
82446010|NCT02429791|164600193|SUPERIORITY|||||||0.002||||||P-value to assess HIVTSQs Total Score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.002
82446011|NCT02429791|164600193|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs Total Score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||<0.001
82446012|NCT02429791|164600193|SUPERIORITY|||||||0.024||||||P-value to assess HIVTSQs Total score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.024
82446013|NCT02429791|164600193|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||<0.001
82446014|NCT02429791|164600193|SUPERIORITY||||||<|0.001||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||<0.001
82446015|NCT02429791|164600193|SUPERIORITY|||||||0.005||||||P-value to assess HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.005
82446016|NCT02429791|164600193|SUPERIORITY|||||||0.063||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.063
82446017|NCT02429791|164600193|SUPERIORITY|||||||0.002||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.002
82446018|NCT02429791|164600193|SUPERIORITY|||||||0.099||||||P-value to assess HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.099
82446019|NCT04201093|164600208|SUPERIORITY||LS Mean of Difference|-11.5|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-13.8|-9.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-9.2|-13.8|<0.0001
82404217|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.34|||||TWO_SIDED|95.0|0.76|2.36|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.36|0.76|
82404218|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.64|1.65|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.65|0.64|
82404219|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.39|||||TWO_SIDED|95.0|0.87|2.24|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.24|0.87|
82404220|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.08|||||TWO_SIDED|95.0|0.68|1.71|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.71|0.68|
82404221|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.73|||||TWO_SIDED|95.0|0.45|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.17|0.45|
82404222|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.16|||||TWO_SIDED|95.0|0.53|2.52|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.52|0.53|
82404223|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.8|||||TWO_SIDED|95.0|0.9|3.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.62|0.90|
82404224|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.65|||||TWO_SIDED|95.0|0.84|3.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.23|0.84|
82404225|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.17|||||TWO_SIDED|95.0|0.58|2.35|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||2.35|0.58|
82404226|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.46|||||TWO_SIDED|95.0|0.71|2.97|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.97|0.71|
82404227|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.68|||||TWO_SIDED|95.0|0.89|3.19|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||3.19|0.89|
82404228|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.16|||||TWO_SIDED|95.0|0.63|2.14|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.14|0.63|
82404229|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.83|||||TWO_SIDED|95.0|0.44|1.57|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.57|0.44|
82404230|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.27|||||TWO_SIDED|95.0|0.56|2.91|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.91|0.56|
82404231|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|2.65|||||TWO_SIDED|95.0|1.21|5.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||5.81|1.21|
82404232|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.7|3.18|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.18|0.70|
82404233|NCT03311841|164516234|OTHER||Geometric least squares mean ratio|0.95|||||TWO_SIDED|95.0|0.43|2.08|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.08|0.43|
82404234|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.97|||||TWO_SIDED|95.0|0.63|1.48|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.48|0.63|
82404235|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.69|1.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.62|0.69|
82530970|NCT02564055|164758802|OTHER||Difference in percentages|30.2|||||TWO_SIDED|95.0|6.8|51.0|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 2 has been presented.|||51.0|6.8|
82404236|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.62|1.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||1.41|0.62|
82404237|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.55|||||TWO_SIDED|95.0|0.36|0.83|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||0.83|0.36|
82404238|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.84|||||TWO_SIDED|95.0|0.44|1.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.61|0.44|
82404239|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.71|||||TWO_SIDED|95.0|0.89|3.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||3.27|0.89|
82404240|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.93|3.27|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||3.27|0.93|
82404241|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.72|||||TWO_SIDED|95.0|0.38|1.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of dabigatran||1.38|0.38|
82404242|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.92|2.4|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.40|0.92|
82404243|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.84|||||TWO_SIDED|95.0|1.14|2.98|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.98|1.14|
82404244|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.33|||||TWO_SIDED|95.0|0.84|2.11|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.11|0.84|
82404245|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.47|||||TWO_SIDED|95.0|0.91|2.38|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.38|0.91|
82404246|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.19|||||TWO_SIDED|95.0|0.81|1.75|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.75|0.81|
82404247|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.2|||||TWO_SIDED|95.0|0.82|1.76|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.76|0.82|
82404248|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.08|||||TWO_SIDED|95.0|0.75|1.57|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.57|0.75|
82404249|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.89|||||TWO_SIDED|95.0|0.61|1.31|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.31|0.61|
82404250|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.48|||||TWO_SIDED|95.0|0.58|3.75|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||3.75|0.58|
82404251|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|2.54|||||TWO_SIDED|95.0|1.11|5.85|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||5.85|1.11|
82404252|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|2.16|||||TWO_SIDED|95.0|0.97|4.81|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||4.81|0.97|
82404253|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|2.94|||||TWO_SIDED|95.0|1.28|6.77|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atorvastatin||6.77|1.28|
82530971|NCT02564055|164758802|OTHER||Difference in percentages|3.7|||||TWO_SIDED|95.0|-19.4|26.6|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 2 has been presented.|||26.6|-19.4|
82530972|NCT02564055|164758802|OTHER||Difference in percentages|17.4|||||TWO_SIDED|95.0|-6.0|39.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 2 has been presented.|||39.5|-6.0|
82646108|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.55||||0.0157|TWO_SIDED|95.0|1.78|260.2|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||260.2|1.78|0.0157
82646109|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86||||0.0524|TWO_SIDED|95.0|0.99|15.14|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||15.14|0.99|0.0524
82404254|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.11|||||TWO_SIDED|95.0|0.59|2.07|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.07|0.59|
82404255|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.24|||||TWO_SIDED|95.0|0.71|2.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.17|0.71|
82404256|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|0.94|||||TWO_SIDED|95.0|0.55|1.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.62|0.55|
82404257|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.12|||||TWO_SIDED|95.0|0.64|1.96|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.96|0.64|
82404258|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.1|||||TWO_SIDED|95.0|0.46|2.64|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.64|0.46|
82404259|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.87|||||TWO_SIDED|95.0|0.81|4.32|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||4.32|0.81|
82404260|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.13|||||TWO_SIDED|95.0|0.51|2.53|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.53|0.51|
82404261|NCT03311841|164516235|OTHER||Geometric least squares mean ratio|1.04|||||TWO_SIDED|95.0|0.45|2.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||2.41|0.45|
82404262|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.68|||||TWO_SIDED|95.0|0.78|3.62|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of midazolam||3.62|0.78|
82404263|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.3|||||TWO_SIDED|95.0|0.75|2.23|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||2.23|0.75|
82404264|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.98|||||TWO_SIDED|95.0|1.15|3.41|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||3.41|1.15|
82404265|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|0.98|||||TWO_SIDED|95.0|0.58|1.66|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin||1.66|0.58|
82404266|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.03|||||TWO_SIDED|95.0|0.52|2.03|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.03|0.52|
82404267|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.51|||||TWO_SIDED|95.0|0.77|2.97|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.97|0.77|
82404268|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.07|||||TWO_SIDED|95.0|0.56|2.05|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||2.05|0.56|
82404269|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|0.6|||||TWO_SIDED|95.0|0.3|1.17|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of pitavastatin lactone||1.17|0.30|
82404270|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.57|||||TWO_SIDED|95.0|0.84|2.94|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atovastatin||2.94|0.84|
82404271|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.49|||||TWO_SIDED|95.0|0.81|2.73|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of atovastatin||2.73|0.81|
82404272|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.44|||||TWO_SIDED|95.0|0.84|2.47|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||2.47|0.84|
82646110|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8||||0.0333|TWO_SIDED|95.0|1.13|20.31|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||20.31|1.13|0.0333
82646111|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34||||0.2966|TWO_SIDED|95.0|0.35|32.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||32.06|0.35|0.2966
82404273|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.06|||||TWO_SIDED|95.0|0.63|1.78|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of ortho-hydroxyatorvastatin||1.78|0.63|
82404274|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.85|||||TWO_SIDED|95.0|0.95|3.61|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.61|0.95|
82404275|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|3.1|||||TWO_SIDED|95.0|1.64|5.86|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||5.86|1.64|
82404276|NCT03311841|164516236|OTHER||Geometric least squares mean ratio|1.75|||||TWO_SIDED|95.0|0.95|3.24|||||Geometric least squares mean ratio and 95% confidence interval could not be determined for comparisons where one or both of the geometric least squares means was not calculable because some individual values were treated as 0.|Comparison of rosuvastatin||3.24|0.95|
82404277|NCT01852513|164516319|SUPERIORITY|||||||0.391|||||||t-test, 2 sided|||||||0.391
82404278|NCT01852513|164516320|SUPERIORITY|||||||0.789|||||||t-test, 2 sided|||||||0.789
82404279|NCT01852513|164516321|SUPERIORITY|||||||0.778|||||||t-test, 2 sided|||||||0.778
82404280|NCT00672633|164516342|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.52||95.0|||||ANOVA|Repeated measures||The study was designed with 80% power to detect a net improvement of Triglyceride elevles with a sample size of 60.||||0.52
82404281|NCT00672633|164516343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.06||95.0|||||ANOVA|Repeated Measures||No power calculations done for this outcomes||||0.06
82404282|NCT00672633|164516344|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3||||0.27||95.0|||||ANOVA|Repeated Measures||No power calculations were conducted for this outcome||||0.27
82404283|NCT02499120|164516360|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.18|TWO_SIDED|95.0|0.536|1.253||1-sided p-value was from the log-rank test stratified by stratification factors ECOG(Eastern Cooperative Oncology Group) per randomization.|Log Rank|||||1.253|0.536|0.1800
82404284|NCT02499120|164516361|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.4953|TWO_SIDED|95.0|0.669|1.495||1-sided p-value was from the log-rank test stratified by stratification factors ECOG per randomization.|Log Rank|||||1.495|0.669|0.4953
82404285|NCT01689441|164516375|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.25
82404286|NCT01689441|164516376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.51
82404287|NCT01689441|164516377|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.54
82404288|NCT01603407|164516382|SUPERIORITY|||||||0.3904|||||||Mixed Models Analysis|||||||0.3904
82404289|NCT01603407|164516382|SUPERIORITY|||||||0.569|||||||Mixed Models Analysis|||||||0.5690
82404290|NCT01603407|164516382|SUPERIORITY|||||||0.1518|||||||Mixed Models Analysis|||||||0.1518
82404291|NCT01603407|164516383|SUPERIORITY|||||||0.7365|||||||Mixed Models Analysis|||||||0.7365
82404292|NCT01603407|164516383|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82404293|NCT01603407|164516383|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82404294|NCT01603407|164516384|SUPERIORITY|||||||0.2456|||||||Mixed Models Analysis|||||||0.2456
82404295|NCT01603407|164516384|SUPERIORITY|||||||0.0369|||||||Mixed Models Analysis|||||||0.0369
82404296|NCT01603407|164516384|SUPERIORITY|||||||0.3589|||||||Mixed Models Analysis|||||||0.3589
82404297|NCT01603407|164516385|SUPERIORITY|||||||0.7335|||||||Mixed Models Analysis|||||||0.7335
82404298|NCT01603407|164516385|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|||||||0.0004
82404299|NCT01603407|164516385|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82404300|NCT01603407|164516386|SUPERIORITY|||||||0.9532|||||||Mixed Models Analysis|||||||0.9532
82404301|NCT01603407|164516386|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.0040
82404302|NCT01603407|164516386|SUPERIORITY|||||||0.0046|||||||Mixed Models Analysis|||||||0.0046
82404303|NCT01603407|164516387|SUPERIORITY|||||||0.332|||||||Mixed Models Analysis|||||||0.3320
82404304|NCT01603407|164516387|SUPERIORITY|||||||0.1248|||||||Mixed Models Analysis|||||||0.1248
82404305|NCT01603407|164516387|SUPERIORITY|||||||0.5854|||||||Mixed Models Analysis|||||||0.5854
82404306|NCT01603407|164516388|SUPERIORITY|||||||0.30814|||||||Mixed Models Analysis|||||||0.30814
82404307|NCT01603407|164516388|SUPERIORITY|||||||0.1405|||||||Mixed Models Analysis|||||||0.1405
82404308|NCT01603407|164516388|SUPERIORITY|||||||0.664|||||||Mixed Models Analysis|||||||0.6640
82404309|NCT01603407|164516390|SUPERIORITY|||||||0.8345|||||||Mixed Models Analysis|||||||0.8345
82404310|NCT01603407|164516390|SUPERIORITY|||||||0.3762|||||||Mixed Models Analysis|||||||0.3762
82404311|NCT01603407|164516390|SUPERIORITY|||||||0.5059|||||||Mixed Models Analysis|||||||0.5059
82404312|NCT01603407|164516391|SUPERIORITY|||||||0.5947|||||||Mixed Models Analysis|||||||0.5947
82404313|NCT01603407|164516391|SUPERIORITY|||||||0.1098|||||||Mixed Models Analysis|||||||0.1098
82404314|NCT01603407|164516391|SUPERIORITY|||||||0.2803|||||||Mixed Models Analysis|||||||0.2803
82404315|NCT01603407|164516392|SUPERIORITY|||||||0.3875|||||||Mixed Models Analysis|||||||0.3875
82404316|NCT01603407|164516392|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.4240
82404317|NCT01603407|164516392|SUPERIORITY|||||||0.9683|||||||Mixed Models Analysis|||||||0.9683
82404318|NCT01603407|164516393|SUPERIORITY|||||||0.6161|||||||Mixed Models Analysis|||||||0.6161
82404319|NCT01603407|164516393|SUPERIORITY|||||||0.7302|||||||Mixed Models Analysis|||||||0.7302
82404320|NCT01603407|164516393|SUPERIORITY|||||||0.9007|||||||Mixed Models Analysis|||||||0.9007
82404321|NCT01603407|164516394|SUPERIORITY|||||||0.8138|||||||Mixed Models Analysis|||||||0.8138
82404322|NCT01603407|164516394|SUPERIORITY|||||||0.5995|||||||Mixed Models Analysis|||||||0.5995
82404323|NCT01603407|164516394|SUPERIORITY|||||||0.7616|||||||Mixed Models Analysis|||||||0.7616
82404324|NCT01603407|164516395|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.6800
82404325|NCT01603407|164516395|SUPERIORITY|||||||0.4365|||||||Mixed Models Analysis|||||||0.4365
82404326|NCT01603407|164516395|SUPERIORITY|||||||0.7281|||||||Mixed Models Analysis|||||||0.7281
82404327|NCT01603407|164516396|SUPERIORITY||Mean Difference (Net)|-1.545||||0.0041|TWO_SIDED|98.3|-2.6611|-0.2479|||Mixed Models Analysis|||||-0.2479|-2.6611|0.0041
82404328|NCT01603407|164516396|SUPERIORITY||Mean Difference (Net)|0.9076||||0.9076|TWO_SIDED|98.3|-1.248|1.1331|||Mixed Models Analysis|||||1.1331|-1.248|0.9076
82646112|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.751|TWO_SIDED|95.0|0.03|12.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||12.31|0.03|0.7510
82404329|NCT01603407|164516396|SUPERIORITY||Mean Difference (Net)|1.3971||||0.0054|TWO_SIDED|98.3|0.2014|2.5927|||Mixed Models Analysis|||||2.5927|0.2014|0.0054
82404330|NCT01603407|164516397|SUPERIORITY||Mean Difference (Net)|-1.48|||<|0.0001|TWO_SIDED|98.3|-2.3242|-0.6358|||Mixed Models Analysis|||||-0.6358|-2.3242|<0.0001
82404331|NCT01603407|164516397|SUPERIORITY||Mean Difference (Net)|3.054|||<|0.0001|TWO_SIDED|98.3|2.2222|3.8857|||Mixed Models Analysis|||||3.8857|2.2222|<0.0001
82404332|NCT01603407|164516397|SUPERIORITY||Mean Difference (Net)|4.534|||<|0.0001|TWO_SIDED|98.3|3.6941|5.3738|||Mixed Models Analysis|||||5.3738|3.6941|<0.0001
82404333|NCT01603407|164516398|SUPERIORITY||Mean Difference (Net)|-0.6205||||0.0853|TWO_SIDED|98.3|-1.4845|0.2434|||Mixed Models Analysis|||||0.2434|-1.4845|0.0853
82646113|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.71||||0.1868|TWO_SIDED|95.0|0.4|113.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||113.4|0.40|0.1868
82404334|NCT01603407|164516398|SUPERIORITY||Mean Difference (Net)|-0.876||||0.0143|TWO_SIDED|98.3|-1.7292|-0.0229|||Mixed Models Analysis|||||-0.0229|-1.7292|0.0143
82404335|NCT01603407|164516398|SUPERIORITY||Mean Difference (Net)|-0.2555||||0.4731|TWO_SIDED|98.3|-1.1117|0.6007|||Mixed Models Analysis|||||0.6007|-1.1117|0.4731
82404336|NCT01043133|164516399|SUPERIORITY_OR_OTHER||log-binomial|3.97|STANDARD_ERROR_OF_MEAN|3.97||0.01|TWO_SIDED|95.0|1.34|11.79|||log-binomial regression||Robust Huber-White standard errors account for clustering|||11.79|1.34|.01
82404337|NCT01043133|164516400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_DEVIATION|2.78||0.05|TWO_SIDED|95.0|-2.48|-0.03|||ANCOVA|||||-.03|-2.48|.05
82404338|NCT01004978|164516474|SUPERIORITY|||||||0.4||||||one-sided p-value|Cochran-Mantel-Haenszel|||||||0.4
82404339|NCT01004978|164516475|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
82404340|NCT00814138|164516484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-488.0||||0.26|TWO_SIDED|95.0|-2443.4|1467.3|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||1467.3|-2443.4|0.26
82404341|NCT00814138|164516485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.26|TWO_SIDED|95.0|-9.7|5.8|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||5.8|-9.7|0.26
82404342|NCT00814138|164516486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.29|TWO_SIDED|95.0|-4.9|1.5|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||1.5|-4.9|0.29
82404343|NCT00814138|164516487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.28|TWO_SIDED|95.0|-6.3|1.8|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||1.8|-6.3|0.28
82404344|NCT00814138|164516488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.82|TWO_SIDED|95.0|-7.2|5.4|||Wilcoxon (Mann-Whitney)|||If a study participant terminated, their last results were pulled forward.||5.4|-7.2|0.82
82404345|NCT00814138|164516489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.21|TWO_SIDED|95.0|-3.7|0.8|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||0.8|-3.7|0.21
82404346|NCT00814138|164516490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.09|TWO_SIDED|95.0|-7.1|0.5|||t-test, 2 sided|||If a study participant terminated, their last results were pulled forward.||0.5|-7.1|0.09
82404347|NCT00583908|164516498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.5|STANDARD_DEVIATION|17.1|<|0.0001||95.0||||Paired t-test|t-test, 1 sided||mean difference was senofilcon A minus balafilcon A|Alternative Hypothesis was senofilcon A toric was superior to balafilcon A toric by having less degrees of rotation||||<0.0001
82404348|NCT00583908|164516498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|STANDARD_DEVIATION|17.8||0.0002||95.0||||paired t-test|t-test, 1 sided||mean difference is senofilcon A minus lotrafilcon B|Hypothesis was senofilcon A toric was superior to lotrafilcon B toric by having less degree of rotation||||0.0002
82404349|NCT00583908|164516498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.0|STANDARD_DEVIATION|12.4|<|0.0001||95.0||||paired t-test|t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|Hypothesis was senofilcon A toric was superior to omafilcon A toric by having less degree of rotation||||<0.0001
82404350|NCT00583908|164516499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.15||0.0083||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus balafilcon A|Alternative hypothesis was senofilcon A toric was superior to balafilcon A toric by having a lower logMAR score||||0.0083
82404351|NCT00583908|164516499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|0.09||0.052||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus lotrafilcon B|Alternative hypothesis was senofilcon A toric was superior to lotrafilcon B toric by having a lower logMAR score||||0.052
82404352|NCT00583908|164516499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.14||0.015||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus omafilcon A|Alternative hypothesis was senofilcon A toric was superior to omafilcon A toric by having a lower logMAR score||||0.015
82404353|NCT00583908|164516500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|STANDARD_DEVIATION|6.5||0.16||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.16
82404354|NCT00583908|164516500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|3.5||0.73||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.73
82404355|NCT00583908|164516500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_DEVIATION|4.4||0.044||95.0|||||t-test, 1 sided||Mean difference was senofilcon A minus omafilcon A|||||0.044
82404356|NCT00583908|164516501|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.1|STANDARD_DEVIATION|5.0||0.044||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.044
82404357|NCT00583908|164516501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|4.7||0.31||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.31
82404358|NCT00583908|164516501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_DEVIATION|5.9||0.44||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.44
82404359|NCT00583908|164516502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|6.5||0.78||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.78
82404360|NCT00583908|164516502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|6.3||0.68||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.68
82404361|NCT00583908|164516502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|7.6||0.78||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.78
82404362|NCT00583908|164516503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|6.5||0.11||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.11
82404363|NCT00583908|164516503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_DEVIATION|4.3||0.31||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.31
82404364|NCT00583908|164516503|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0|STANDARD_DEVIATION|6.3||0.16||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.16
82404365|NCT00583908|164516504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_DEVIATION|6.8||0.061||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.061
82404366|NCT00583908|164516504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|3.9||0.47||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.47
82404367|NCT00583908|164516504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_DEVIATION|3.6||0.38||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.38
82446020|NCT04201093|164600208|SUPERIORITY||LS Mean of Difference|-12.1|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-14.4|-9.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-9.8|-14.4|<0.0001
82404368|NCT00583908|164516505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_DEVIATION|3.5||0.17||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.17
82404369|NCT00583908|164516505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|5.0||0.89||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.89
82404370|NCT00583908|164516505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|5.8||0.56||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.56
82404371|NCT00583908|164516506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|STANDARD_DEVIATION|6.8||0.008||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.0080
82446021|NCT04201093|164600209|SUPERIORITY||LS Mean of Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.3|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-1.7|-3.3|<0.0001
82446022|NCT04201093|164600209|SUPERIORITY||LS Mean of Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.4|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||||-1.7|-3.4|<0.0001
82404372|NCT00583908|164516506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_DEVIATION|3.1||0.0049||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus lotrafilcon B|||||0.0049
82404373|NCT00583908|164516506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_DEVIATION|5.6||0.0058||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omafilcon A|||||0.0058
82404374|NCT00583908|164516507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|3.7||0.27||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus balafilcon A|||||0.27
82404375|NCT00583908|164516507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|6.0||0.85||95.0|||||t-test, 1 sided||Mean difference is senofilocon A minus lotrafilcon B|||||0.85
82404376|NCT00583908|164516507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|2.6||0.73||95.0|||||t-test, 1 sided||Mean difference is senofilcon A minus omifilcon A|||||0.73
82404377|NCT01064414|164516536|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.117||0.012|TWO_SIDED|95.0|-0.529|-0.066|||ANCOVA|||||-0.066|-0.529|0.012
82404378|NCT01064414|164516536|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-0.635|-0.174|||ANCOVA|||||-0.174|-0.635|<0.001
82404379|NCT01064414|164516537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.227|TWO_SIDED|95.0|0.73|3.77|||Regression, Logistic|||||3.77|0.73|0.227
82404380|NCT01064414|164516537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.69||||0.017|TWO_SIDED|95.0|1.19|6.04|||Regression, Logistic|||||6.04|1.19|0.017
82404381|NCT01064414|164516538|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|6.638||0.021|TWO_SIDED|95.0|-28.45|-2.307|||ANCOVA|||||-2.307|-28.45|0.021
82404382|NCT01064414|164516538|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|6.683||0.069|TWO_SIDED|95.0|-25.36|0.962|||ANCOVA|||||0.962|-25.36|0.069
82404383|NCT02762084|164516571|OTHER|Pairwise comparison||||||0.03|||||||ANCOVA|ANCOVA with treatment group as a factor and Baseline value as a covariate||at Week 26||||0.030
82404384|NCT02762084|164516571|OTHER|Pairwise comparison||||||0.756|||||||ANCOVA|ANCOVA with treatment group as a factor and Baseline value as a covariate||at Week 26||||0.756
82404385|NCT02762084|164516572|OTHER|Pairwise comparison||||||0.5|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 6||||0.500
82446023|NCT04201093|164600210|SUPERIORITY||Odds Ratio (OR)|6.148|||<|0.0001|TWO_SIDED|95.0|3.339|11.321|||Mixed Models Analysis|||||11.321|3.339|<0.0001
82404386|NCT02762084|164516572|OTHER|Pairwise comparison||||||0.681|||||||ANCOVA|ANCOVA with treatment group as a factor and using Baseline value as a covariate||at Week 6||||0.681
82404387|NCT02762084|164516576|OTHER|One-sided comparison||||||0.048|||||||Mann Whitey U|||at Week 26||||0.048
82404388|NCT02762084|164516576|OTHER|Two-sided comparison||||||0.096|||||||Mann Whitey U|||at Week 26||||0.096
82404389|NCT02762084|164516577|OTHER|Two-sided comparison||||||0.008|||||||Mann Whitey U|||at Week 26||||0.008
82404390|NCT01765296|164516598|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"The SD for the primary efficacy outcome measure (WOMAC-Pain Subscale in the index joint) has been assumed to be 11 units. A 10% between-group difference was chosen as the non-inferiority margin for this study. The following parameters were used to calculate the sample size needed for this non-inferiority study.~* Level of significance, α = 0.025(one-sided)~* Statistical power, 1-β = 0.95~* Difference between test group and comparison group, Δ=0, δ (\>0) = non-inferiority margin"||||||0.011|||||||ANCOVA|||The primary efficacy outcome measure is the change in the WOMAC-Pain Subscale in the index joint at Week 6 vs. pre-dose Baseline and was analyzed using a mixed effect ANCOVA. Statistical tests to determine superiority between two treatment arms, CG100649 2 mg and placebo, are two-sided, and Non-inferiority between two treatment arms, CG100649 2 mg and celecoxib 200 mg is based on a one-sided 97.5% confidence interval of the difference.||||0.011
82404391|NCT01765296|164516598|NON_INFERIORITY|"The SD for the primary efficacy outcome measure (WOMAC-Pain Subscale in the index joint) has been assumed to be 11 units. A 10% between-group difference was chosen as the non-inferiority margin for this study. The following parameters were used to calculate the sample size needed for this non-inferiority study.~* Level of significance, α = 0.025(one-sided)~* Statistical power, 1-β = 0.95~* Difference between test group and comparison group, Δ=0, δ (\>0) = non-inferiority margin"||||||0.425|||||||ANCOVA|||||||0.425
82404392|NCT01619852|164516600|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||.19
82446024|NCT04201093|164600210|SUPERIORITY||Odds Ratio (OR)|5.968|||<|0.0001|TWO_SIDED|95.0|3.22|11.062|||Mixed Models Analysis|||||11.062|3.220|<0.0001
82446025|NCT04201093|164600211|SUPERIORITY||LS Mean of Difference|-11.5|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-13.8|-9.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.2|-13.8|<0.0001
82530973|NCT02564055|164758802|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-7.1|39.4|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 4 has been presented.|||39.4|-7.1|
82404393|NCT01619852|164516601|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82404394|NCT01619852|164516602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82404395|NCT01619852|164516602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||McGill Questionnaire-Sensory-discriminative dimension||||0.69
82404396|NCT01619852|164516602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||McGill Questionnaire-affective dimension||||0.75
82404397|NCT01619852|164516602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Brief Pain Inventory||||0.81
82404398|NCT01619852|164516603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||.19
82404399|NCT01619852|164516604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||.29
82404400|NCT04556760|164516605|OTHER||Mean Difference (Final Values)|-132.9528||||0.036|TWO_SIDED|95.0|-256.5082|-9.3973|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-9.3973|-256.5082|0.036
82404401|NCT04556760|164516605|OTHER||Mean Difference (Final Values)|-142.033||||0.432|TWO_SIDED|95.0|-554.8722|270.8061|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||270.8061|-554.8722|0.432
82404402|NCT04556760|164516605|OTHER||Mean Difference (Final Values)|-126.8829||||0.03|TWO_SIDED|95.0|-236.0426|-17.7233|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||-17.7233|-236.0426|0.030
82404403|NCT04556760|164516606|OTHER||Mean Difference (Final Values)|-1.5067|||<|0.001|TWO_SIDED|95.0|-2.082|-0.9314|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-0.9314|-2.0820|<0.001
82404404|NCT04556760|164516606|OTHER||Mean Difference (Final Values)|-1.1099|||<|0.001|TWO_SIDED|95.0|-1.7257|-0.4941|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||-0.4941|-1.7257|<0.001
82404405|NCT04556760|164516606|OTHER||Mean Difference (Final Values)|-0.1601||||0.547||95.0|-0.693|0.3729|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.3729|-0.6930|0.547
82404406|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-1.5015|||<|0.001|TWO_SIDED|95.0|-2.2258|-0.7773|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[00 to 24 h\])||-0.7773|-2.2258|<0.001
82404407|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-1.8643|||<|0.001||95.0|-2.5611|-1.1674|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[24 to 48 h\])||-1.1674|-2.5611|<0.001
82404408|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-1.5998|||<|0.001|TWO_SIDED|95.0|-2.3025|-0.8971|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg \[48 to 72 h\])||-0.8971|-2.3025|<0.001
82530974|NCT02564055|164758802|OTHER||Difference in percentages|41.9|||||TWO_SIDED|95.0|19.2|61.2|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 4 has been presented.|||61.2|19.2|
82530975|NCT02564055|164758802|OTHER||Difference in percentages|8.9|||||TWO_SIDED|95.0|-14.9|32.0|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 4 has been presented.|||32.0|-14.9|
82530976|NCT02564055|164758802|OTHER||Difference in percentages|16.3|||||TWO_SIDED|95.0|-7.3|38.3|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 4 has been presented.|||38.3|-7.3|
82404409|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-0.8474||||0.013|TWO_SIDED|95.0|-1.4465|-0.2484|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[00 to 24 h\])||-0.2484|-1.4465|0.013
82404410|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-0.7778||||0.061|TWO_SIDED|95.0|-1.6022|0.0466|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[24 to 48 h\])||0.0466|-1.6022|0.061
82404411|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-1.143||||0.003|TWO_SIDED|95.0|-1.7622|-0.5238|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg \[48 to 72 h\])||-0.5238|-1.7622|0.003
82404412|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-0.36||||0.125|TWO_SIDED|95.0|-0.8338|0.1138|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[00 to 24 h\])||0.1138|-0.8338|0.125
82404413|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-0.0845||||0.84|TWO_SIDED|95.0|-0.9706|0.8016|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[24 to 48 h\])||0.8016|-0.9706|0.840
82404414|NCT04556760|164516607|OTHER||Mean Difference (Final Values)|-0.1298||||0.571|TWO_SIDED|95.0|-0.646|0.3864|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5 mg \[48 to 72 h\])||0.3864|-0.6460|0.571
82404415|NCT04556760|164516608|OTHER||Mean Difference (Final Values)|-0.07||||0.753|TWO_SIDED|95.0|-0.55|0.4|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.40|-0.55|0.753
82404416|NCT04556760|164516608|OTHER||Mean Difference (Final Values)|-0.04||||0.802|TWO_SIDED|95.0|-0.46|0.37|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.37|-0.46|0.802
82404417|NCT04556760|164516608|OTHER||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-0.37|0.37|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.37|-0.37|0.985
82404418|NCT04556760|164516609|OTHER||Mean Difference (Final Values)|20498.7|||<|0.001|TWO_SIDED|95.0|10819.2|30178.2|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||30178.2|10819.2|<0.001
82404419|NCT04556760|164516609|OTHER||Mean Difference (Final Values)|3321.4||||0.659|TWO_SIDED|95.0|-12975.8|19618.6|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||19618.6|-12975.8|0.659
82404420|NCT04556760|164516609|OTHER||Mean Difference (Final Values)|-2698.8||||0.521|TWO_SIDED|95.0|-14849.0|9451.3|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||9451.3|-14849.0|0.521
82404421|NCT04556760|164516610|OTHER||Mean Difference (Final Values)|-1002.5864||||0.003|TWO_SIDED|95.0|-1620.215|-384.9577|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-384.9577|-1620.2150|0.003
82404422|NCT04556760|164516610|OTHER||Mean Difference (Final Values)|40.9836||||0.865|TWO_SIDED|95.0|-526.6968|608.664|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||608.6640|-526.6968|0.865
82404423|NCT04556760|164516610|OTHER||Mean Difference (Final Values)|101.4137||||0.754|TWO_SIDED|95.0|-628.8097|831.637|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||831.6370|-628.8097|0.754
82404424|NCT04556760|164516611|OTHER||Mean Difference (Final Values)|-1225.905||||0.004|TWO_SIDED|95.0|-2007.2241|-444.5859|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||-444.5859|-2007.2241|0.004
82404425|NCT04556760|164516611|OTHER||Mean Difference (Final Values)|-466.9802||||0.313|TWO_SIDED|95.0|-1521.5088|587.5485|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||587.5485|-1521.5088|0.313
82404426|NCT04556760|164516611|OTHER||Mean Difference (Final Values)|-375.3161||||0.404||95.0|-1433.6265|682.9943|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||682.9943|-1433.6265|0.404
82404427|NCT04556760|164516612|OTHER||Mean Difference (Final Values)|365.6323||||0.608|TWO_SIDED|95.0|-1097.7973|1829.0618|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||1829.0618|-1097.7973|0.608
82404428|NCT04556760|164516612|OTHER||Mean Difference (Final Values)|188.236||||0.897|TWO_SIDED|95.0|-3214.3323|3590.8043|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||3590.8043|-3214.3323|0.897
82404429|NCT04556760|164516612|OTHER||Mean Difference (Final Values)|-1061.4494||||0.381||95.0|-3588.2233|1465.3244|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||1465.3244|-3588.2233|0.381
82404430|NCT04556760|164516613|OTHER||Mean Difference (Final Values)|60.4211|||<|0.001||95.0|29.4904|91.3518|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||91.3518|29.4904|<0.001
82404431|NCT04556760|164516613|OTHER||Mean Difference (Final Values)|26.4529||||0.432||95.0|-44.9414|97.8471|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||97.8471|-44.9414|0.432
82404432|NCT04556760|164516613|OTHER||Mean Difference (Final Values)|-24.0243||||0.282||95.0|-74.0731|26.0245|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||26.0245|-74.0731|0.282
82404433|NCT04556760|164516614|OTHER||Mean Difference (Final Values)|-0.6023||||0.531|TWO_SIDED|95.0|-2.5463|1.3416|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||1.3416|-2.5463|0.531
82404434|NCT04556760|164516614|OTHER||Mean Difference (Final Values)|0.4621||||0.682|TWO_SIDED|95.0|-2.0933|3.0176|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||3.0176|-2.0933|0.682
82404435|NCT04556760|164516615|OTHER||Mean Difference (Final Values)|0.0679||||0.526||95.0|-0.152|0.2866|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.2866|-0.1520|0.526
82404436|NCT04556760|164516615|OTHER||Mean Difference (Final Values)|0.0882||||0.569||95.0|-0.2653|0.4416|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg||0.4416|-0.2653|0.569
82404437|NCT04556760|164516615|OTHER||Mean Difference (Final Values)|0.1257||||0.166|TWO_SIDED|95.0|-0.0677|0.3191|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.3191|-0.0677|0.166
82404438|NCT04556760|164516616|OTHER||Mean Difference (Final Values)|0.01||||0.226|TWO_SIDED|95.0|-0.0072|0.0271|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.0271|-0.0072|0.226
82404439|NCT04556760|164516616|OTHER||Mean Difference (Final Values)|0.0033||||0.619||95.0|-0.0128|0.0195|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.0195|-0.0128|0.619
82446026|NCT04201093|164600211|SUPERIORITY||LS Mean of Difference|-12.1|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-14.4|-9.8||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.8|-14.4|<0.0001
82646114|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.7558|TWO_SIDED|95.0|0.07|40.61|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||40.61|0.07|0.7558
82404440|NCT04556760|164516616|OTHER||Mean Difference (Final Values)|0.0009||||0.917||95.0|-0.0189|0.0207|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.0207|-0.0189|0.917
82404441|NCT04556760|164516617|OTHER||Mean Difference (Final Values)|0.0007||||0.357|TWO_SIDED|95.0|-0.0008|0.0022|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.0022|-0.0008|0.357
82404442|NCT04556760|164516617|OTHER||Mean Difference (Final Values)|0.0003||||0.676|TWO_SIDED|95.0|-0.0012|0.0017|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||0.0017|-0.0012|0.676
82404443|NCT04556760|164516617|OTHER||Mean Difference (Final Values)|0.0012||||0.096||95.0|-0.0002|0.0026|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||0.0026|-0.0002|0.096
82404444|NCT04556760|164516618|OTHER||Mean Difference (Final Values)|-1.73||||0.646|TWO_SIDED|95.0|-9.4|5.95|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||5.95|-9.40|0.646
82404445|NCT04556760|164516618|OTHER||Mean Difference (Final Values)|-10.97||||0.11||95.0|-25.39|3.44|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||3.44|-25.39|0.110
82404446|NCT04556760|164516618|OTHER||Mean Difference (Final Values)|-0.35||||0.932||95.0|-10.32|9.61|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||9.61|-10.32|0.932
82404447|NCT04556760|164516619|OTHER||Mean Difference (Final Values)|7.6||||0.533|TWO_SIDED|95.0|-17.4|32.7|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||32.7|-17.4|0.533
82404448|NCT04556760|164516619|OTHER||Mean Difference (Final Values)|22.3||||0.311||95.0|-26.7|71.3|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||71.3|-26.7|0.311
82404449|NCT04556760|164516619|OTHER||Mean Difference (Final Values)|31.0||||0.204||95.0|-21.9|83.9|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||83.9|-21.9|0.204
82404450|NCT04556760|164516629|OTHER||Mean Difference (Final Values)|-4.0066||||0.103|TWO_SIDED|95.0|-8.888|0.8748|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 72mg vs Prednisolone 40mg)||0.8748|-8.8880|0.103
82404451|NCT04556760|164516629|OTHER||Mean Difference (Final Values)|5.7535||||0.005||95.0|2.6034|8.9036|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (AZD9567 40mg vs Prednisolone 20mg)||8.9036|2.6034|0.005
82404452|NCT04556760|164516629|OTHER||Mean Difference (Final Values)|9.0619||||0.023||95.0|1.674|16.4499|||Mixed Models Analysis|||Pairwise Comparisons with Prednisolone (Placebo vs Prednisolone 5mg)||16.4499|1.6740|0.023
82446027|NCT04201093|164600212|SUPERIORITY||LS Mean of Difference|-11.7|STANDARD_ERROR_OF_MEAN|1.35|<|0.0001|TWO_SIDED|95.0|-14.4|-9.1||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.1|-14.4|<0.0001
82404453|NCT02038179|164516670|SUPERIORITY|||||||0.83||||||Intent-to-Treat Analysis using multiple imputation. Imputed Means and Imputed Standard Errors of the Mean.|paired t-test|||||||0.83
82404454|NCT02038179|164516671|SUPERIORITY||||||<|0.001|||||||paired t-test|||||||<0.001
82404455|NCT02038179|164516672|SUPERIORITY|||||||0.84|||||||paired t-test|||||||0.84
82404456|NCT04767373|164516678|OTHER||Efficacy estimate|60.4|||<|0.001|TWO_SIDED|95.0|44.1|71.9|||Exact method|One-sided p-value was estimated using an exact method.|A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- Relative Risk \[RR\]) \& 95% confidence interval (CI). The model included region, gestational age, and age at randomization as covariates.|||71.9|44.1|<0.001
82404457|NCT04767373|164516679|OTHER||Estimated Percentage Difference|-0.5|||||TWO_SIDED|95.0|-2.6|1.5|||||Estimated percentage difference beteween Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||1.5|-2.6|
82404458|NCT04767373|164516680|OTHER||Estimated Percentage Difference|-0.6|||||TWO_SIDED|95.0|-1.4|0.0|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||-0.0|-1.4|
82530977|NCT02564055|164758802|OTHER||Difference in percentages|13.4|||||TWO_SIDED|95.0|-11.3|36.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 8 has been presented.|||36.5|-11.3|
82404459|NCT04767373|164516681|OTHER||Estimated Percentage Difference|-1.8|||||TWO_SIDED|95.0|-5.0|1.2|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||1.2|-5.0|
82404460|NCT04767373|164516682|OTHER||Estimated Percentage Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.2|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||0.2|-0.3|
82404461|NCT04767373|164516683|OTHER||Estimated Percentage Difference|0.1|||||TWO_SIDED|95.0|-0.4|0.5|||||Estimated percentage difference between Clesrovimab 105 mg arm and placebo arm and associated 95% CI were calculated based on the Miettinen \& Nurminen method.|||0.5|-0.4|
82404462|NCT04767373|164516686|OTHER||Efficacy estimate|84.2|||<|0.001|TWO_SIDED|95.0|66.6|92.6||One-sided p-value was estimated using an exact method.|Exact method||A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- RR) \& 95% CI. The model included region, gestational age, and age at randomization as covariates.|||92.6|66.6|<0.001
82404463|NCT04767373|164516687|OTHER||Efficacy estimate|59.5|||||TWO_SIDED|95.0|43.3|71.1|||||A modified Poisson regression with robust variance method was used to generate efficacy estimate (1- RR) \& 95% CI. The model included region, gestational age, and age at randomization as covariates.|||71.1|43.3|
82404464|NCT00186485|164516698|SUPERIORITY_OR_OTHER||||||<|0.001||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the HAM-D rating scale: total scores (F (4,96) = 19.88, p \< .001) over the 4 week treatment period.|ANOVA|Repeated Measures Anova||ANOVA with partial eta accounts for multiple repeated measures over the course of treatment.||||<0.001
82530978|NCT02564055|164758802|OTHER||Difference in percentages|30.8|||||TWO_SIDED|95.0|6.1|52.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 8 has been presented.|||52.8|6.1|
82404465|NCT00186485|164516699|SUPERIORITY_OR_OTHER||||||<|0.01||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the BDI total scores (F (4,96) = 19.35, p \< .001) over the 4 week treatment period.,|ANOVA|||Repeated measures ANOVA with partial eta; accounts for multiple repeated measures over the course of treatment.||||<0.01
82404466|NCT00186485|164516700|SUPERIORITY_OR_OTHER||||||<|0.01||||||Repeated Measures ANOVAs over the course of the TMS treatments, by severity of depression on the CGI scores (F (4,88) = 5.31, p \< .01) over the 4 week treatment period.|ANOVA|||Repeated Measures ANOVA with partial eta; p value was adjusted for multiple comparisons over the course of treatment||||<0.01
82404467|NCT00121719|164516722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146|||||||Wilcoxon signed-rank test|||This was a pilot study and a statistical sample size calculation was not performed.||||0.0146
82404468|NCT01705977|164516724|OTHER||Difference in percentage versus placebo|0.1|||||TWO_SIDED|95.0|-0.31|0.51|||||95% Confidence Interval was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.51|-0.31|
82404469|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|-0.35|||||TWO_SIDED|95.0|-1.55|0.85|||||95% CI for serious infections was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.85|-1.55|
82404470|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|-0.7|||||TWO_SIDED|95.0|-1.6|0.2|||||95% CI for opportunistic infections and other infections of interest (serious and non-serious) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.20|-1.60|
82404471|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|0.0|||||TWO_SIDED|95.0|-0.31|0.31|||||95% CI for malignancies (excluding NMSC) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.31|
82404472|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|0.05|||||TWO_SIDED|95.0|-0.21|0.31|||||95% CI for NMSC was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.21|
82530979|NCT02564055|164758802|OTHER||Difference in percentages|21.9|||||TWO_SIDED|95.0|-3.0|44.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 8 has been presented.|||44.9|-3.0|
82646115|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33||||0.0944|TWO_SIDED|95.0|0.78|24.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||24.07|0.78|0.0944
82404473|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|0.02|0.58|||||95% CI for psychiatric events suggesting serious mood disorders and anxiety (serious depression) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.58|0.02|
82404474|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|0.26|||||TWO_SIDED|95.0|-0.44|0.96|||||95% CI for suicidality (C-SSRS) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.96|-0.44|
82404475|NCT01705977|164516725|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|-0.01|0.61|||||95% CI for SIHR was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.61|-0.01|
82404476|NCT01705977|164516727|OTHER||Difference in percentage versus placebo|-0.45|||||TWO_SIDED|95.0|-1.03|0.13|||||95% CI was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.13|-1.03|
82404477|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|-0.75|||||TWO_SIDED|95.0|-2.02|0.51|||||95% CI for serious infections was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.51|-2.02|
82404478|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|-1.0|||||TWO_SIDED|95.0|-1.96|-0.04|||||95% CI for opportunistic infections and other infections of interest (serious and non-serious) was calculated using simple asymptotic Chi-Square (Pearson) method.|||-0.04|-1.96|
82404479|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|-0.1|||||TWO_SIDED|95.0|-0.44|0.24|||||95% CI for malignancies (excluding NMSC) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.24|-0.44|
82446028|NCT04201093|164600212|SUPERIORITY||LS Mean of Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.37|<|0.0001|TWO_SIDED|95.0|-14.7|-9.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-9.3|-14.7|<0.0001
82530980|NCT02564055|164758802|OTHER||Difference in percentages|10.9|||||TWO_SIDED|95.0|-13.5|34.7|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 8 has been presented.|||34.7|-13.5|
82404480|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|0.05|||||TWO_SIDED|95.0|-0.21|0.31|||||95% CI for NMSC was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.31|-0.21|
82404481|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|0.02|0.58|||||95% CI for psychiatric events suggesting serious mood disorders and anxiety (serious depression) was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.58|0.02|
82404482|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|0.31|||||TWO_SIDED|95.0|-0.42|1.05|||||95% CI for suicidality (C-SSRS) was calculated using simple asymptotic Chi-Square (Pearson) method.|||1.05|-0.42|
82404483|NCT01705977|164516728|OTHER||Difference in percentage versus placebo|0.3|||||TWO_SIDED|95.0|-0.01|0.61|||||95% CI for SIHR was calculated using simple asymptotic Chi-Square (Pearson) method.|||0.61|-0.01|
82530981|NCT02564055|164758802|OTHER||Difference in percentages|27.4|||||TWO_SIDED|95.0|2.5|49.9|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||49.9|2.5|
82530982|NCT02564055|164758802|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-9.0|40.7|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||40.7|-9.0|
82530983|NCT02564055|164758802|OTHER||Difference in percentages|29.5|||||TWO_SIDED|95.0|3.7|52.3|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||52.3|3.7|
82530984|NCT02564055|164758802|OTHER||Difference in percentages|5.7|||||TWO_SIDED|95.0|-20.1|30.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||30.9|-20.1|
82530985|NCT02564055|164758802|OTHER||Difference in percentages|9.3|||||TWO_SIDED|95.0|-16.2|33.8|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||33.8|-16.2|
82404484|NCT01705977|164516730|OTHER||Odds ratio versus placebo|1.3||||0.0284|TWO_SIDED|95.0|1.03|1.65|||Regression, Logistic||95% CI and P-value was calculated from a logistic regression model for the comparison between belimumab and placebo including treatment group, Baseline prednisone dose, screening SELENA SLEDAI score (\<=9 versus \>=10) and region|||1.65|1.03|0.0284
82404485|NCT01462110|164516772|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-0.234|STANDARD_ERROR_OF_MEAN|0.0211|<|0.001|TWO_SIDED|95.0|-0.276|-0.192|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.192|-0.276|<0.001
82404486|NCT01462110|164516773|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-1.232|STANDARD_ERROR_OF_MEAN|0.0806|<|0.001|TWO_SIDED|95.0|-1.392|-1.071|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-1.071|-1.392|<0.001
82404487|NCT01462110|164516774|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.106|STANDARD_ERROR_OF_MEAN|0.0173|<|0.001|TWO_SIDED|95.0|-0.14|-0.071|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.071|-0.140|<0.001
82404488|NCT01462110|164516775|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.0957|<|0.001|TWO_SIDED|95.0|-1.02|-0.639|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.639|-1.020|<0.001
82404489|NCT01462110|164516776|SUPERIORITY|The null hypothesis was the Week 2 mean is equal between the two cells. The alternative hypothesis was the Week 2 mean is not equal between the two cells.|Mean Difference (Net)|-0.044|STANDARD_ERROR_OF_MEAN|0.0076|<|0.001|TWO_SIDED|95.0|-0.059|-0.029|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.029|-0.059|<0.001
82404490|NCT01462110|164516777|SUPERIORITY|The null hypothesis was the Week 4 mean is equal between the two cells. The alternative hypothesis was the Week 4 mean is not equal between the two cells.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.0087|<|0.001|TWO_SIDED|95.0|-0.078|-0.043|||ANCOVA|Terms for treatment as a factor \& baseline as a covariate.||||-0.043|-0.078|<0.001
82404491|NCT00520039|164516843|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.09|STANDARD_ERROR_OF_MEAN|0.94||0.02|TWO_SIDED|95.0|0.15|2.03|||Chi-squared|df = 1|The denominator of the Odds ratio represents the odds of improvement for the Standard Care Only (SCO) group.|Test of the null hypothesis that there is no improvement in MEE at Visit 3 using tympanogram.||2.03|0.15|0.02
82404492|NCT00520039|164516844|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|1.31||0.32|TWO_SIDED|95.0|-1.0|1.62|||Chi-squared|df = 1|The odds of Resolution of MEE before OMT is represented in the denominator of the odds ratio|||1.62|-1.00|0.32
82530986|NCT02564055|164758802|OTHER||Difference in percentages|12.6|||||TWO_SIDED|95.0|-13.4|37.3|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||37.3|-13.4|
82404493|NCT00520039|164516845|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.25|STANDARD_ERROR_OF_MEAN|1.03||0.31|TWO_SIDED|95.0|-0.78|1.28|||Chi-squared|df = 1||||1.28|-0.78|.31
82404494|NCT03284853|164516859|OTHER|The primary analysis was performed on the ITT population with imputation by Markov Chain Monte Carlo method.|||||<|0.05||||||Linear model with IOP at the given visit and time point as the response, baseline IOP as a covariate, and treatment as a main effect factor at each time point (08:00, 10:00, and 16:00 hours at the Week 2, Week 6, and Month 3 Visits).|Regression, Linear|Non-inferiority for PG324 was concluded if the UL of the 95% CI was ≤ l.5 mmHg at all 9 time points and ≤ l.0 mmHg at the majority of time points||Assuming no difference between PG324 and Ganfort, a two-tailed alpha of 0.05 (2-sided 95% CI) at each of 9 time points, a common SD of 3.5 mmHg, and a correlation between time points of ≤ 0.60, 200 ITT subjects per arm were necessary to have 85% power to show clinical non-inferiority of PG324 to Ganfort in the mean change from baseline IOP.||||<0.05
82404495|NCT01466361|164516889|SUPERIORITY_OR_OTHER||Least square mean difference|-7.23||||0.0643|TWO_SIDED|95.0|-14.89|0.44|||ANCOVA||Treatment comparisons were made between nicotine 1.5mg lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 1 minute post dosing.||0.44|-14.89|0.0643
82404496|NCT01466361|164516889|SUPERIORITY_OR_OTHER||Least square mean difference|-7.16||||0.1489|TWO_SIDED|95.0|-16.93|2.61|||ANCOVA||Treatment comparisons were made between nicotine 1.5mg lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 3 minute post dosing.||2.61|-16.93|0.1489
82404497|NCT01466361|164516889|SUPERIORITY_OR_OTHER||Least square mean difference|-6.33||||0.2225|TWO_SIDED|95.0|-16.56|3.9|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings at 5 minute post dosing.||3.90|-16.56|0.2225
82425959|NCT03110562|164560558|SUPERIORITY||Odds Ratio (OR)|1.6594||||0.0082|TWO_SIDED|95.0|1.0993|2.5049||One Sided P-value|Cochran-Mantel-Haenszel|Analysis using Cochran-Mantel-Haenszel test stratified by region, prior PI therapies, number of prior anti-MM regimens, and R-ISS stage at screening.||||2.5049|1.0993|0.0082
82425960|NCT03110562|164560559|SUPERIORITY||Odds Ratio (OR)|0.5042||||0.0013|TWO_SIDED|95.0|0.3216|0.7906||One Sided P-value|Cochran-Mantel-Haenszel||Stratified by Prior PI therapies (Yes or No), Number of prior anti-MM regimens (1 or \>1), and R-ISS stage at study entry (R-ISS Stage III versus R-ISS Stage I or II).|||0.7906|0.3216|0.0013
82425961|NCT03110562|164560560|SUPERIORITY||Hazard Ratio (HR)|0.8764||||0.2152|TWO_SIDED|95.0|0.6313|1.2168||One Sided P-value|Stratified log-rank test|Stratified for prior PI therapies, number of prior anti-MM regimens and R-ISS Stage at screening.|Based on stratified Cox Proportional Hazard model with Efron's Method of handling ties.|||1.2168|0.6313|0.2152
82425962|NCT01355627|164560586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82|STANDARD_ERROR_OF_MEAN|0.23||0.485|||||||Regression, Logistic|Treatment and pooled centre as covariates.|\< 1 implies a smaller likelihood of a TachoSil treated patient to experience a CSF leak.|||||0.485
82425963|NCT04532749|164560588|SUPERIORITY||Least square (LS) mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.43|=|0.411|TWO_SIDED|95.0|-4.0|1.64|||Mixed Model Repeated Measures (MMRM)|||||1.64|-4.00|=0.411
82446029|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.38||0.4822|TWO_SIDED|95.0|-1.0|0.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||0.5|-1.0|0.4822
82446030|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.38||0.7742|TWO_SIDED|95.0|-0.9|0.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part I: Week 26||0.6|-0.9|0.7742
82446031|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.3|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-1.7|-3.3|<0.0001
82446032|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.4|-1.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part II: Week 26||-1.7|-3.4|<0.0001
82446033|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-9.0|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-10.8|-7.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-7.3|-10.8|<0.0001
82446034|NCT04201093|164600213|SUPERIORITY||LS Mean of Difference|-9.4|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|-11.2|-7.6||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Part III: Week 26||-7.6|-11.2|<0.0001
82446035|NCT04201093|164600214|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.3|-0.6|<0.0001
82446036|NCT04201093|164600214|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.5|-0.2||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.2|-0.5|<0.0001
82404498|NCT01466361|164516889|SUPERIORITY_OR_OTHER||Least square mean difference|-5.11||||0.3491|TWO_SIDED|95.0|-15.87|5.66|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 10 minutes post dosing.||5.66|-15.87|0.3491
82404499|NCT01466361|164516889|SUPERIORITY_OR_OTHER||Least square mean difference|-5.0||||0.3936|TWO_SIDED|95.0|-16.6|6.59|||ANCOVA||Treatment comparisons were made between 1.5mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 15 minutes post dosing.||6.59|-16.60|0.3936
82404500|NCT01466361|164516890|SUPERIORITY_OR_OTHER||Least square mean difference|-3.58||||0.3922|TWO_SIDED|95.0|-11.85|4.7|||ANCOVA||Treatment comparisons were made between 4mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, at 1 minute post dosing.||4.70|-11.85|0.3922
82446037|NCT04201093|164600215|SUPERIORITY||LS Mean of Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.4|<0.0001
82446038|NCT04201093|164600215|SUPERIORITY||LS Mean of Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.7|-1.2|<0.0001
82446039|NCT04201093|164600216|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.4|<0.0001
82446040|NCT04201093|164600216|SUPERIORITY||LS Mean of Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||-0.9|-1.5|<0.0001
82530987|NCT02564055|164758802|OTHER||Difference in percentages|27.0|||||TWO_SIDED|95.0|0.7|50.5|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||50.5|0.7|
82646116|NCT01236053|165007147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.9244|TWO_SIDED|95.0|0.1|7.81|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital)."|||7.81|0.10|0.9244
82646117|NCT01236053|165007148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0963|TWO_SIDED|95.0|0.96|1.7|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.70|0.96|0.0963
82404501|NCT01466361|164516890|SUPERIORITY_OR_OTHER||Least square mean difference|-9.7||||0.0547|TWO_SIDED|95.0|-19.59|0.2|||ANCOVA||Treatment comparisons were made between 4mg nicotine lozenge and placebo lozenge at 5% significance level.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to provoked nicotine cravings, 3 minutes post dosing.||0.20|-19.59|0.0547
82404502|NCT02358031|164516893|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21211|TWO_SIDED|95.0|0.78|1.11||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in all participants of the pembro combo arm was compared to PFS in all participants of the control arm to address the sixth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.11|0.78|0.21211
82404503|NCT02358031|164516894|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.03697|TWO_SIDED|95.0|0.69|1.02||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in CPS ≥1 participants of the pembro combo arm was compared to PFS in CPS ≥1 participants of the control arm to address the fifth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.02|0.69|0.03697
82404504|NCT02358031|164516895|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.02951|TWO_SIDED|95.0|0.58|1.01||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||PFS in CPS ≥20 participants of the pembro combo arm was compared to PFS in CPS ≥20 participants of the control arm to address the fourth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||1.01|0.58|0.02951
82404505|NCT02358031|164516896|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00025|TWO_SIDED|95.0|0.6|0.87||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in all participants of the pembro combo arm was compared to OS in all participants of the control arm to address the fourteenth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.87|0.60|0.00025
82404506|NCT02358031|164516897|SUPERIORITY||Hazard Ratio (HR)|0.65||||2e-05|TWO_SIDED|95.0|0.53|0.8||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in CPS ≥1 participants of the pembro combo arm was compared to OS in CPS ≥1 participants of the control arm to address the twelfth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.80|0.53|0.00002
82404507|NCT02358031|164516898|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.00044|TWO_SIDED|95.0|0.45|0.82||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||OS in CPS ≥20 participants of the pembro combo arm was compared to OS in CPS ≥20 participants of the control arm to address the eleventh primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||0.82|0.45|0.00044
82404508|NCT02358031|164516899|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.9983|TWO_SIDED|95.0|1.09|1.53||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in all participants of the pembro mono arm was compared to PFS in all participants of the control arm to address the third primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.53|1.09|0.99830
82404509|NCT02358031|164516900|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.8958|TWO_SIDED|95.0|0.94|1.36||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||PFS in CPS ≥1 participants of the pembro mono arm was compared to PFS in CPS ≥1 participants of the control arm to address the second primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||1.36|0.94|0.89580
82404510|NCT02358031|164516901|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.46791|TWO_SIDED|95.0|0.76|1.29||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||PFS in CPS ≥20 participants of the pembro mono arm was compared to PFS in CPS ≥20 participants of the control arm to address the first primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||1.29|0.76|0.46791
82404511|NCT02358031|164516902|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.01985|TWO_SIDED|95.0|0.7|0.99||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in all participants of the pembro mono arm was compared to OS in all participants of the control arm to address the tenth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.99|0.70|0.01985
82404512|NCT02358031|164516903|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00133|TWO_SIDED|95.0|0.61|0.9||One-sided p-value based on log-rank test stratified by ECOG, HPV status and PD-L1 status.|Regression, Cox|||OS in CPS ≥1 participants of the pembro mono arm was compared to OS in CPS ≥1 participants of the control arm to address the eighth primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, HPV status and PD-L1 status.||0.90|0.61|0.00133
82404513|NCT02358031|164516904|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0001|TWO_SIDED|95.0|0.44|0.78||One-sided p-value based on log-rank test stratified by ECOG and HPV status.|Regression, Cox|||OS in CPS ≥20 participants of the pembro mono arm was compared to OS in CPS ≥20 participants of the control arm to address the seventh primary hypothesis. The comparison was based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG and HPV status.||0.78|0.44|0.00010
82530988|NCT02564055|164758802|OTHER||Difference in percentages|0.4|||||TWO_SIDED|95.0|-25.6|25.6|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||25.6|-25.6|
82530989|NCT02564055|164758802|OTHER||Difference in percentages|2.6|||||TWO_SIDED|95.0|-22.6|27.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||27.6|-22.6|
82530990|NCT02564055|164758802|OTHER||Difference in percentages|6.9|||||TWO_SIDED|95.0|-18.7|31.7|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||31.7|-18.7|
82446041|NCT04201093|164600217|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32||0.6047|TWO_SIDED|95.0|-0.8|0.5||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.5|-0.8|0.6047
82446042|NCT04201093|164600217|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.33||0.257|TWO_SIDED|95.0|-1.0|0.3||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||0.3|-1.0|0.2570
82446043|NCT04201093|164600218|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.8516|TWO_SIDED|95.0|-1.4|1.1||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.1|-1.4|0.8516
82446044|NCT04201093|164600218|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.64||0.6421|TWO_SIDED|95.0|-1.6|1.0||LS Means, SE, difference from placebo, and CI's are estimated using a mixed effects repeated measures model with fixed effects for treatment group, visits, treatment by visit interaction and MAO-B inhibitor use with the baseline value as a covariate.|Mixed-effect Model Repeated Measurement|||Week 26||1.0|-1.6|0.6421
82446045|NCT02596230|164600247|OTHER||Hazard Ratio (HR)|0.634||||0.188|TWO_SIDED|95.0|0.322|1.249||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.249|0.322|0.188
82446046|NCT02596230|164600248|OTHER||Hazard Ratio (HR)|0.778||||0.606|TWO_SIDED|95.0|0.3|2.017||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||2.017|0.300|0.606
82446047|NCT02596230|164600249|OTHER||Hazard Ratio (HR)|0.751||||0.542|TWO_SIDED|95.0|0.299|1.885||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.885|0.299|0.542
82446048|NCT02596230|164600250|OTHER||Hazard Ratio (HR)|0.0||||0.996|TWO_SIDED|95.0||||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|"Hazard Ratio \< 1 favors Dabigatran etexilate.~Hazard Ratio is actually \<0.01~95% Confidence Interval is not calculable (NA) due to insufficient number of participants with events."|||||0.996
82446049|NCT02596230|164600251|OTHER||Hazard Ratio (HR)|0.857||||0.69|TWO_SIDED|95.0|0.402|1.828||One-side p-value|Regression, Cox|Cox-regression proportional hazards model including fixed effects for treatment.|Hazard Ratio \< 1 favors Dabigatran etexilate.|||1.828|0.402|0.690
82446050|NCT02437084|164600445|OTHER|||||||0.01|||||||Paired samples t test, 2 sided|SSPG concentration was log-transformed for statistical analysis; degrees of freedom = 69||Null hypothesis: There will be no change in steady-state plasma glucose (SSPG) concentration after treatment with atorvastatin 40 mg daily for 9 - 10 weeks.||||0.01
82446051|NCT02437084|164600446|OTHER||||||<|0.001|||||||Paired samples t test, 2 sided|Insulin secretion rate AUC was log-transformed for statistical analysis; degrees of freedom = 63.||Null hypothesis: There will be no change in insulin secretion rate AUC after treatment with atorvastatin 40 mg daily for 9 - 10 weeks.||||<0.001
82446052|NCT02437084|164600447|OTHER|||||||0.1|||||||Paired samples t test, 2 sided|Degrees of freedom = 70||Null hypothesis: There will be no change in fasting plasma glucose concentration after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.10
82446053|NCT02437084|164600448|OTHER|||||||0.01|||||||Paired samples t test, 2 sided|Fasting plasma insulin concentration was log-transformed for statistical analysis; degrees of freedom = 68||Null hypothesis: There will be no change in fasting plasma insulin concentration after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.01
82446054|NCT02437084|164600449|OTHER|||||||0.03|||||||Paired samples t test, 2 sided|Degrees of freedom = 70||Null hypothesis: There will be no change in OGTT glucose AUC after treatment with atorvastatin 40 mg daily for 8 - 10 weeks.||||0.03
82446055|NCT02437084|164600450|OTHER|||||||0.27|||||||Paired samples t test, 2 sided|OGTT insulin AUC was log-transformed for statistical analysis; degrees of freedom = 63||Null hypothesis: There will be no change in OGTT insulin AUC after treatment with atorvastatin 40 mg daily for 8 weeks.||||0.27
82446056|NCT01571453|164600451|NON_INFERIORITY_OR_EQUIVALENCE|Vortioxetine was declared to be non-inferior to venlafaxine if the upper limit of the calculated two-sided 95% confidence interval for the treatment difference at Week 8 between vortioxetine and venlafaxine was less than +2.5 MADRS units versus venlafaxine.|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.93||0.199||95.0|-3.03|0.63||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The sample size calculation was based on a non-inferiority comparison of the treatment groups in the change from baseline to Week 8 in MADRS total score using a two-sided 95% CI against a margin of +2.5 points. Assuming a standard deviation of 9.0 points and an expected true mean difference between treatments of 0 points, a total of 410 patients (205 per treatment group) were needed to provide a power of 80% for correctly concluding non-inferiority.||0.63|-3.03|0.199
82446057|NCT01571453|164600452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.12||0.228|TWO_SIDED|95.0|-0.39|0.09||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.09|-0.39|0.228
82446058|NCT01571453|164600453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.174|TWO_SIDED|95.0|-0.35|0.06||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.06|-0.35|0.174
82446059|NCT01571453|164600454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.65||0.207|TWO_SIDED|95.0|-2.09|0.45||No adjustments for multiple comparisons were made.|ANCOVA|LOCF was used.||The same ANCOVA methodology as for the primary endpoint was used.||0.45|-2.09|0.207
82446060|NCT01571453|164600455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.272||95.0|0.84|1.86||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||1.86|0.84|0.272
82404514|NCT02358031|164516911|OTHER||Difference in ORR Percentage|-0.8||||0.574|TWO_SIDED|95.0|-8.7|7.2||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in all participants of the pembro combo arm was compared to ORR in all participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||7.2|-8.7|0.5740
82404515|NCT02358031|164516912|OTHER||Difference in ORR Percentage|0.5||||0.4586|TWO_SIDED|95.0|-8.2|9.1||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥1 participants of the pembro combo arm was compared to ORR in CPS ≥1 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||9.1|-8.2|0.4586
82404516|NCT02358031|164516913|OTHER||Difference in ORR Percentage|5.0||||0.2161|TWO_SIDED|95.0|-7.5|17.4||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥20 participants of the pembro combo arm was compared to ORR in CPS ≥20 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1) and HPV status (Positive vs. Negative).||17.4|-7.5|0.2161
82404517|NCT02358031|164516914|OTHER||Difference in LS Means|0.4||||0.839|TWO_SIDED|95.0|-3.46|4.26||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|constrained Longitudinal Data Analysis|||Change from baseline to Week 15 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro combo arm and the control arm. Comparison based on constrained longitudinal data analysis (cLDA) model with GHS/QoL score as response variable and treatment by visit interaction, stratification factors (ECOG \[0 vs. 1\], HPV status \[Positive vs. Negative\] and PD-L1 TPS status \[Strongly Positive, Not Strongly Positive\]) as covariates.||4.26|-3.46|0.839
82404518|NCT02358031|164516915|OTHER||Hazard Ratio (HR)|1.37||||0.9497|TWO_SIDED|95.0|0.94|2.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in GHS/QoL combined score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.00|0.94|0.9497
82404519|NCT02358031|164516916|OTHER||Hazard Ratio (HR)|1.37||||0.9476|TWO_SIDED|95.0|0.93|2.02||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Pain Score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.02|0.93|0.9476
82404520|NCT02358031|164516917|OTHER||Hazard Ratio (HR)|1.05||||0.5836|TWO_SIDED|95.0|0.69|1.59||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Swallowing Score was compared between all participants of the pembro combo arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.59|0.69|0.5836
82404521|NCT02358031|164516924|OTHER||Difference in ORR Percentage|-19.0||||1|TWO_SIDED|95.0|-25.8|-12.1||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in all participants of the pembro mono arm was compared to ORR in all participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive , Not Strongly Positive).||-12.1|-25.8|1.0000
82404522|NCT02358031|164516925|OTHER||Difference in ORR Percentage|-15.9||||1|TWO_SIDED|95.0|-23.4|-8.3||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥1 participants of the pembro mono arm was compared to ORR in CPS ≥1 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||-8.3|-23.4|1.0000
82404523|NCT02358031|164516926|OTHER||Difference in ORR Percentage|-12.8||||0.9869|TWO_SIDED|95.0|-23.8|-1.5||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Miettinen & Nurminen method|||ORR in CPS ≥20 participants of the pembro mono arm was compared to ORR in CPS ≥20 participants of the control arm. The comparison was based on Miettinen \& Nurminen method stratified by ECOG (0 vs. 1) and HPV status (Positive vs. Negative).||-1.5|-23.8|0.9869
82404524|NCT02358031|164516927|OTHER||Difference in LS Means|0.24||||0.893|TWO_SIDED|95.0|-3.34|3.82||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|constrained Longitudinal Data Analysis|||Change from baseline to Week 15 in EORTC-QLQ-C30 GHS/QoL combined score was compared between all participants of the pembro mono arm and the control arm. Comparison based on cLDA model with GHS/QoL score as response variable and treatment by visit interaction, stratification factors (ECOG \[0 vs. 1\], HPV status \[Positive vs. Negative\] and PD-L1 TPS status \[Strongly Positive, Not Strongly Positive\]) as covariates.||3.82|-3.34|0.893
82446061|NCT01571453|164600456|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.731||95.0|0.73|1.58||Wald's Test. No adjustments for multiple comparisons were made.|Regression, Logistic|||||1.58|0.73|0.731
82425964|NCT04532749|164560589|SUPERIORITY||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.27|=|0.473|TWO_SIDED|95.0|-3.41|1.59|||MMRM model|||In accordance with protocol predefined testing sequence, statistical significance of the primary endpoint was required before testing the first secondary endpoint (MADRS-WOSI) and thus, a formal statistical testing was not performed.||1.59|-3.41|=0.473
82425965|NCT04532749|164560590|SUPERIORITY||LS mean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.45|=|0.167|TWO_SIDED|95.0|-4.87|0.85|||MMRM Model|||In accordance with protocol predefined testing sequence, statistical significance of the primary endpoint was required before testing the second secondary endpoint (PROMIS-SD; Short Form 8a) and thus, a formal statistical testing was not performed.||0.85|-4.87|=0.167
82446062|NCT00129961|164600460|SUPERIORITY_OR_OTHER|||||||0.022||||||Poisson regression was used to model NMSC counts using the years in study as an offset. The generalized estimated equations (GEE) approach was used to estimate parameters and compare treatment differences.|Poisson regression|Adjusted by baseline strata; Poisson model = strata + treatment.||||||0.022
82404525|NCT02358031|164516928|OTHER||Hazard Ratio (HR)|1.38||||0.953|TWO_SIDED|95.0|0.95|2.0||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in GHS/QoL combined score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||2.00|0.95|0.9530
82404526|NCT02358031|164516929|OTHER||Hazard Ratio (HR)|0.8||||0.1501|TWO_SIDED|95.0|0.53|1.21||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Pain Score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.21|0.53|0.1501
82404527|NCT02358031|164516930|OTHER||Hazard Ratio (HR)|1.26||||0.8751|TWO_SIDED|95.0|0.85|1.88||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Regression, Cox|||TTD in EORTC QLQ-H\&N35 Swallowing Score was compared between all participants of the pembro mono arm and the control arm. Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG (0 vs. 1), HPV status (Positive vs. Negative) and PD-L1 TPS status (Strongly Positive, Not Strongly Positive).||1.88|0.85|0.8751
82404528|NCT03101150|164516951|OTHER|A sample size of minimum 152 was calculated to be able to determine incidence of preeclampsia that is in the range of 8-17% with 80% power assuming an alpha of 5%.|Risk Ratio (RR)|0.163|||<|0.05|TWO_SIDED|95.0|0.02|1.32|||Chi-squared|||Eligible and consented study subjects were randomized according to permuted block design scheme to be allocated in 400 IU arm and 4000 IU arm.||1.32|0.02|<0.05
82404529|NCT03101150|164516952|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82404530|NCT03101150|164516953|OTHER||Risk Ratio (RR)|0.43|||<|0.02|TWO_SIDED|95.0|0.19|0.94|||Chi-squared|||||0.94|0.19|<0.02
82404531|NCT00823134|164517024|OTHER||Mean Difference (Final Values)|2.8|STANDARD_DEVIATION|4.7||0.021|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.021
82404532|NCT00823134|164517025|OTHER|The number of events found per category (PSG and ApneaLink Plus recording) will be compared. Events are Apneas and Hypopneas per hour of sleep, measured as Apnea-Hypopnea-Index (AHI), Apnea-Index (AI), Obstructive AI, Central AI, Hypopnea-Index (HI) and Oxygen Desaturation Index (ODI).|Correlation coefficient (Bland-Altman)|0.75|||||TWO_SIDED|||||||||Per recording, the number of events found per category with PSG and ApneaLink Plus will be compared. As a summary, all PSG values and all ApneaLink Plus values per category will be collected in one graph (Bland-Altmann Plot). The correlation coefficient will be calculated per category. A correlation of \>75% will be seen as threshold for validity.||||
82404533|NCT00078403|164517031|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||||||P-value is pre-specified 1-sided test that PEG slows liver fibrosis progression. Accrual and follow-up on Arms A and B were halted at interim review for lack of fibrosis progression in Arm B (control arm). P-value is unadjusted for interim analysis.|Exact Wilcoxon rank sum test|||Accrual and follow-up on Arms A and B were halted for futility at the first independent interim review of the primary endpoint conducted on May 2, 2007.||||0.58
82404534|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5221||||||The reported p-value is representative of the changes in levels of all CD4 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5221
82404535|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.25||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 1.|Wilcoxon test|||||||0.25
82404536|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 3.|Wilcoxon test|||||||0.50
82404537|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.16||||||The reported p-value is representative of the changes in levels of CD4 cells at dose level 4.|Wilcoxon test|||||||0.16
82404538|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8665||||||The reported p-value is representative of the changes in levels of all CD8 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.8665
82404539|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of all CD8 cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.88
82404540|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.84||||||The reported p-value is representative of the changes in levels of CD8 cells at dose level 3.|Wilcoxon test|||||||0.84
82446063|NCT00129961|164600461|SUPERIORITY_OR_OTHER|||||||0.047|||||||Regression, Cox|Stratified by baseline lesions||||||0.047
82404541|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.57||||||The reported p-value is representative of the changes in levels of CD8 cells at dose level 4.|Wilcoxon test|||||||0.57
82446064|NCT00129961|164600462|SUPERIORITY_OR_OTHER|||||||0.015|||||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||||||0.015
82446065|NCT00129961|164600463|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||Chi-squared|||||||0.799
82446066|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Well differentiated||||0.014
82446067|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.491||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Moderately differentiated||||0.491
82446068|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.905||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Poorly differentiated||||0.905
82446069|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive||||0.018
82404542|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3052||||||The reported p-value is representative of the changes in levels of all B cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3052
82404543|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of B cells at dose level 1.|Wilcoxon test|The reported p-value is representative of the changes in levels of B cells at dose level 1.||||||>0.9999
82404544|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of B cells at dose level 3.|Wilcoxon test|||||||0.13
82404545|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.65||||||The reported p-value is representative of the changes in levels of B cells at dose level 4.|Wilcoxon test|||||||0.65
82404546|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0698||||||The reported p-value is representative of the changes in levels of all NK cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0698
82446070|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC In Situ||||0.012
82404547|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of NK cells at dose level 1.|Wilcoxon test|||||||0.63
82404548|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.74||||||The reported p-value is representative of the changes in levels of NK cells at dose level 3.|Wilcoxon test|||||||0.74
82404549|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of NK cells at dose level 4.|Wilcoxon test|||||||0.13
82404550|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0127||||||The reported p-value is representative of the changes in levels of all NKT cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0127
82404551|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 1.|Wilcoxon test|||||||0.63
82404552|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.41||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 3.|Wilcoxon test|||||||0.41
82404553|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.07||||||The reported p-value is representative of the changes in levels of NKT cells at dose level 4.|Wilcoxon test|||||||0.07
82404554|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0654||||||The reported p-value is representative of the changes in levels of all cDC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0654
82404555|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 1.|Wilcoxon test|||||||0.38
82404556|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.21||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 3.|Wilcoxon test|||||||0.21
82404557|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.16||||||The reported p-value is representative of the changes in levels of cDC cells at dose level 4.|Wilcoxon test|||||||0.16
82404558|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0457||||||The reported p-value is representative of the changes in levels of all pDC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0457
82404559|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 1.|Wilcoxon test|||||||0.63
82404560|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.55||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 3.|Wilcoxon test|||||||0.55
82446071|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.463||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive with Perineural Invasion||||0.463
82446072|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||SCC Invasive without Perineural Invasion||||0.004
82404561|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of pDC cells at dose level 4.|Wilcoxon test|||||||0.13
82446073|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.094||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Superficial||||0.094
82446074|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Nodular||||0.720
82404562|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7114||||||The reported p-value is representative of the changes in levels of all MDSC cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.7114
82404563|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 1.|Wilcoxon test|||||||>0.9999
82404564|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 3.|Wilcoxon test|||||||0.38
82404565|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.91||||||The reported p-value is representative of the changes in levels of MDSC cells at dose level 4.|Wilcoxon test|||||||0.91
82404566|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2666||||||The reported p-value is representative of the changes in levels of all Treg cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.2666
82404567|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 1.|Wilcoxon test|||||||0.88
82404568|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.45||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 1.|Wilcoxon test|||||||0.45
82404569|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.36||||||The reported p-value is representative of the changes in levels of Treg cells at dose level 4.|Wilcoxon test|||||||0.36
82404570|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0076||||||The reported p-value is representative of the changes in levels of all CD4 EM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0076
82404571|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.38||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 1.|Wilcoxon test|||||||0.38
82404572|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.22||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 3.|Wilcoxon test|||||||0.22
82404573|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.1||||||The reported p-value is representative of the changes in levels of CD4 EM cells at dose level 4.|Wilcoxon test|||||||0.10
82404574|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7144||||||The reported p-value is representative of the changes in levels of all CD4 CM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.7144
82404575|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 1.|Wilcoxon test|||||||0.13
82404576|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.06||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 3.|Wilcoxon test|||||||0.06
82404577|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 CM cells at dose level 4.|Wilcoxon test|||||||0.13
82404578|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3741||||||The reported p-value is representative of the changes in levels of all CD4 EMRA cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3741
82404579|NCT01519817|164517078|NON_INFERIORITY|The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 1.||||||0.63|||||||Wilcoxon test|||||||0.63
82404580|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 3.|Wilcoxon test|||||||0.13
82404581|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of CD4 EMRA cells at dose level 4.|Wilcoxon test|||||||>0.9999
82404582|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3386||||||The reported p-value is representative of the changes in levels of all CD4 naive cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.3386
82404583|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 1.|Wilcoxon test|||||||0.88
82404584|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0215||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 3.|Wilcoxon test|||||||0.0215
82446075|NCT00129961|164600464|SUPERIORITY_OR_OTHER|||||||0.227||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||BCC Infiltrative||||0.227
82404585|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.65||||||The reported p-value is representative of the changes in levels of CD4 naive cells at dose level 4.|Wilcoxon test|||||||0.65
82404586|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5076||||||The reported p-value is representative of the changes in levels of all CD8 EM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5076
82404587|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 1.|Wilcoxon test|||||||0.63
82404588|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.68||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 3.|Wilcoxon test|||||||0.68
82404589|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.73||||||The reported p-value is representative of the changes in levels of CD8 EM cells at dose level 4.|Wilcoxon test|||||||0.73
82404590|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6577||||||The reported p-value is representative of the changes in levels of all CD8 CM cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6577
82404591|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.88||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 1.|Wilcoxon test|||||||0.88
82404592|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.74||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 3.|Wilcoxon test|||||||0.74
82404593|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2||||||The reported p-value is representative of the changes in levels of CD8 CM cells at dose level 4.|Wilcoxon test|||||||0.20
82404594|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6295||||||The reported p-value is representative of the changes in levels of all CD8 EMRA cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6295
82404595|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.63||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 1.|Wilcoxon test|||||||0.63
82404596|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.999||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 3.|Wilcoxon test|||||||>0.999
82404597|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.36||||||The reported p-value is representative of the changes in levels of CD8 EMRA cells at dose level 4.|Wilcoxon test|||||||0.36
82404598|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8314||||||The reported p-value is representative of the changes in levels of all CD8 naive cells at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.8314
82404599|NCT01519817|164517078|NON_INFERIORITY|The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 1.||||||0.63|||||||Wilcoxon test|||||||0.63
82446076|NCT00129961|164600465|SUPERIORITY_OR_OTHER|||||||0.748||95.0|||||Poisson regression|||||||0.748
82404600|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.64||||||The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 3.|Wilcoxon test|||||||0.64
82404601|NCT01519817|164517078|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3||||||The reported p-value is representative of the changes in levels of CD8 naive cells at dose level 4.|Wilcoxon test|||||||0.30
82404602|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.375||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 1.|Wilcoxon test|||||||0.375
82446077|NCT00129961|164600466|SUPERIORITY_OR_OTHER|||||||0.425||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline lesion strata||||||0.425
82446078|NCT00129961|164600469|SUPERIORITY_OR_OTHER|||||||0.604||95.0|||||ANCOVA|||||||0.604
82404603|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4808||||||The reported p-value is representative of the changes in levels of all IFNg cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4808
82404604|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7334||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 3.|Wilcoxon test|||||||0.7334
82404605|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.7109||||||The reported p-value is representative of the changes in levels of IFNg cytokines at dose level 4.|Wilcoxon|||||||0.7109
82446079|NCT00129961|164600470|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||ANCOVA|||||||0.672
82446080|NCT00129961|164600471|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Fisher Exact|||||||0.999
82446081|NCT00129961|164600472|SUPERIORITY_OR_OTHER|||||||0.588||95.0|||||Fisher Exact|||||||0.588
82446082|NCT00129961|164600473|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Fisher Exact|||||||0.999
82446083|NCT00129961|164600474|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.030
82404606|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4347||||||The reported p-value is representative of the changes in levels of all IL10 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4347
82404607|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 1.|Wilcoxon|||||||>0.9999
82404608|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.748||||||The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 3.|Wilcoxon test|||||||0.748
82404609|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8203|||||||Wilcoxon test|The reported p-value is representative of the changes in levels of IL10 cytokines at dose level 4.||||||0.8203
82404610|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5625||||||The reported p-value is representative of the changes in levels of all IL12p70 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.5625
82404611|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
82404612|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 3.|Wilcoxon test|||||||>0.9999
82404613|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of IL12p70 cytokines at dose level 14|Wilcoxon test|||||||0.5
82404614|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6846||||||The reported p-value is representative of the changes in levels of all IL1b cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.6846
82404615|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
82404616|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.5||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 3.|Wilcoxon test|||||||0.5
82404617|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL1b cytokines at dose level 4.|Wilcoxon test|||||||>0.9999
82404618|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4375||||||The reported p-value is representative of the changes in levels of all IL-2 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.4375
82404619|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 1.|Wilcoxon test|||||||>0.9999
82404620|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 3.|Wilcoxon test|||||||>0.9999
82404621|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.75||||||The reported p-value is representative of the changes in levels of IL-2 cytokines at dose level 4.|Wilcoxon test|||||||0.75
82646118|NCT01236053|165007148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.671|TWO_SIDED|95.0|0.69|1.27|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.27|0.69|0.6710
82404622|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.4525||||||The reported p-value is representative of the changes in levels of all IL-6 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 1.||||||0.4525
82446084|NCT01985360|164600476|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.79|1.29||||||||1.29|0.79|
82404623|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 1.|Wilcoxon test|||||||0.875
82404624|NCT01519817|164517079|NON_INFERIORITY|The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 3.||||||0.4316|||||||Wilcoxon test|||Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||0.4316
82404625|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of IL-6 cytokines at dose level 4.|Wilcoxon test|||||||>0.9999
82446085|NCT00721175|164600482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2407407|STANDARD_ERROR_OF_MEAN|0.0920078||0.011|TWO_SIDED|95.0|-0.4210726|-0.0604089|||Two-sample test of proportion|||||-.0604089|-.4210726|0.011
82446086|NCT00721175|164600483|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||Log Rank|||||||0.0021
82530991|NCT02564055|164758802|OTHER||Difference in percentages|16.8|||||TWO_SIDED|95.0|-9.5|41.4|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||41.4|-9.5|
82404626|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.9906||||||The reported p-value is representative of the changes in levels of all IL-8 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.9906
82404627|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.625|||||||Wilcoxon test|The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 1.||||||0.625
82404628|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.791||||||The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 3.|Wilcoxon test|||||||0.791
82404629|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.8203||||||The reported p-value is representative of the changes in levels of IL-8 cytokines at dose level 4.|Wilcoxon test|||||||0.8203
82404630|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.|||||>|0.9999||||||The reported p-value is representative of the changes in levels of all TNF cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||>0.9999
82404631|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 1.|Wilcoxon test|||||||0.875
82404632|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.9658||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 3.|Wilcoxon test|||||||0.9658
82404633|NCT01519817|164517079|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6523||||||The reported p-value is representative of the changes in levels of TNF cytokines at dose level 4.|Wilcoxon test|||||||0.6523
82404634|NCT01519817|164517080|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2901||||||The reported p-value is representative of the changes in levels of all sCD27 cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.2901
82404635|NCT01519817|164517080|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.375||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 1.|Wilcoxon test|||||||0.375
82646119|NCT01236053|165007148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84|||<|0.0001|TWO_SIDED|95.0|1.54|2.2|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.20|1.54|<0.0001
82404636|NCT01519817|164517080|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2036||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 3.|Wilcoxon test|||||||0.2036
82404637|NCT01519817|164517080|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0742||||||The reported p-value is representative of the changes in levels of sCD27 cytokines at dose level 4.|Wilcoxon test|||||||0.0742
82404638|NCT01519817|164517081|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.1004||||||The reported p-value is representative of the changes in levels of all ratio sCD27:sCD40AL cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.1004
82404639|NCT01519817|164517081|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.625||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 1.|Wilcoxon test|||||||0.625
82404640|NCT01519817|164517081|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.6772||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 3.|Wilcoxon test|||||||0.6772
82404641|NCT01519817|164517081|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3008||||||The reported p-value is representative of the changes in levels of ratio sCD27:sCD40L cytokines at dose level 4.|Wilcoxon test|||||||0.3008
82404642|NCT01519817|164517082|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.0621||||||The reported p-value is representative of the changes in levels of all sCD40L cytokines at dose levels 1, 3, and 4. We could not do dose level 2 as we only had data on 2 patients and need an n\>2 to do paired analyses.|Wilcoxon test|||||||0.0621
82404643|NCT01519817|164517082|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.875||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 1.|Wilcoxon test|||||||0.875
82404644|NCT01519817|164517082|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.2402||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 3.|Wilcoxon test|||||||0.2402
82530992|NCT02564055|164758802|OTHER||Difference in percentages|10.9|||||TWO_SIDED|95.0|-14.9|35.8|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 16 has been presented.|||35.8|-14.9|
82530993|NCT02564055|164758802|OTHER||Difference in percentages|33.3|||||TWO_SIDED|95.0|-31.9|90.6|||||Difference between GSK2894512 1 % BID and Vehicle BID at EW has been presented.|||90.6|-31.9|
82530994|NCT02564055|164758802|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-62.4|47.8|||||Difference between GSK2894512 1 % QD and Vehicle QD at EW has been presented.|||47.8|-62.4|
82404645|NCT01519817|164517082|NON_INFERIORITY|Significance was met if the unadjusted p-value was \<0.05 and \>1/2 of patients had a serum level change of \>25%.||||||0.3008||||||The reported p-value is representative of the changes in levels of sCD40L cytokines at dose level 4.|Wilcoxon test|||||||0.3008
82404646|NCT02922153|164517083|SUPERIORITY|||||||0.0223|TWO_SIDED|95.0|||||t-test, 1 sided|One-sided, two-sample t-test.||||||0.0223
82404647|NCT02922153|164517084|SUPERIORITY|||||||0.6259|TWO_SIDED|95.0|||||t-test, 1 sided|One-sided two-sample t-test.||||||0.6259
82404648|NCT02922153|164517084|SUPERIORITY|||||||0.518|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon two-sample test.||||||0.518
82404649|NCT02922153|164517085|SUPERIORITY|||||||0.0201||||||FEV1 one-sided, two-sample t-test|t-test, 1 sided|||||||0.0201
82404650|NCT02922153|164517085|SUPERIORITY|||||||0.06||||||FVC one-sided, two-sample t-test|t-test, 1 sided|||||||0.06
82404651|NCT02922153|164517085|SUPERIORITY|||||||0.09||||||SVC one-sided, two-sample t-test|t-test, 1 sided|||||||0.09
82404652|NCT02922153|164517086|SUPERIORITY|||||||0.3085||||||72 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.3085
82404653|NCT02922153|164517086|SUPERIORITY|||||||0.8196||||||96 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.8196
82404654|NCT02922153|164517086|SUPERIORITY|||||||0.7269||||||120 Hours Post-Op|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test.||||||0.7269
82404655|NCT02922153|164517088|SUPERIORITY|||||||0.4421|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||Analysis is the time from end of procedure to oral endotracheal extubation||||0.4421
82404656|NCT02922153|164517089|SUPERIORITY|||||||0.4352||||||Total Post-Procedure for Hospital Stay|Wilcoxon (Mann-Whitney)|Wilcoxon Rank-Sum Test||||||0.4352
82404657|NCT02922153|164517090|SUPERIORITY|||||||0.2939||||||ICU Length of Stay|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.2939
82404658|NCT02922153|164517090|SUPERIORITY|||||||0.0998||||||Hospital Length of Stay|Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test||||||0.0998
82404659|NCT02922153|164517091|SUPERIORITY|||||||0.2877|||||||Chi-squared|||48 Hours Post-Op: Patient able to sit up in bed||||0.2877
82446087|NCT00721175|164600485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278744|STANDARD_ERROR_OF_MEAN|0.0929622||0.004|TWO_SIDED|95.0|-0.4609466|-0.0965414|||Two-sample test of proportion|||||-.0965414|-.4609466|0.004
82404660|NCT02922153|164517091|SUPERIORITY|||||||0.5311|||||||Fisher Exact|||48 Hours Post-Op: Patient able to stand up||||0.5311
82404661|NCT02922153|164517091|SUPERIORITY|||||||0.4908|||||||Fisher Exact|||48 Hours Post-Op: Patient able to walk||||0.4908
82404662|NCT02922153|164517091|SUPERIORITY|||||||0.8621|||||||Fisher Exact|||48 Hours Post-Op: Right Shoulder Flexion Movement||||0.8621
82404663|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||48 Hours Post-Op: Left Shoulder Flexion Movement||||1
82404664|NCT02922153|164517091|SUPERIORITY|||||||0.0133|||||||Fisher Exact|||72 Hours Post-Op: Patient able to sit up in bed||||0.0133
82404665|NCT02922153|164517091|SUPERIORITY|||||||0.0037|||||||Fisher Exact|||72 Hours Post-Op: Patient able to stand up||||0.0037
82404666|NCT02922153|164517091|SUPERIORITY|||||||0.1671|||||||Fisher Exact|||72 Hours Post-Op: Patient able to walk||||0.1671
82448987|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.874|||||TWO_SIDED|95.0|0.783|0.976|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||0.976|0.783|
82404667|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||72 Hours Post-Op: Right Shoulder Flexion Movement||||1.000
82404668|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||72 Hours Post-Op: Left Shoulder Flexion Movement||||1
82404669|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||96 Hours Post-Op: Patient able to sit up in bed||||1
82404670|NCT02922153|164517091|SUPERIORITY|||||||0.2757|||||||Fisher Exact|||96 Hours Post-Op: Patient able to stand up||||0.2757
82404671|NCT02922153|164517091|SUPERIORITY|||||||0.9025|||||||Fisher Exact|||96 Hours Post-Op: Patient able to walk||||0.9025
82404672|NCT02922153|164517091|SUPERIORITY|||||||0.7942|||||||Fisher Exact|||96 Hours Post-Op: Right Shoulder Flexion Movement||||0.7942
82404673|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||96 Hours Post-Op: Left Shoulder Flexion Movement||||1
82404674|NCT02922153|164517091|SUPERIORITY|||||||0.3492|||||||Fisher Exact|||120 Hours Post-Op: Patient able to sit up in bed||||0.3492
82404675|NCT02922153|164517091|SUPERIORITY|||||||0.2644|||||||Fisher Exact|||120 Hours Post-Op: Patient able to stand up||||0.2644
82404676|NCT02922153|164517091|SUPERIORITY|||||||0.8258|||||||Fisher Exact|||120 Hours Post-Op: Patient able to walk||||0.8258
82404677|NCT02922153|164517091|SUPERIORITY|||||||0.67|||||||Fisher Exact|||120 Hours Post-Op: Right Shoulder Flexion Movement||||0.67
82404678|NCT02922153|164517091|SUPERIORITY|||||||0.5693|||||||Fisher Exact|||120 Hours Post-Op: Left Shoulder Flexion Movement||||0.5693
82404679|NCT02922153|164517091|SUPERIORITY|||||||0.1189|||||||Chi-squared|||Discharge: Patient able to sit up in bed||||0.1189
82404680|NCT02922153|164517091|SUPERIORITY|||||||1|||||||Fisher Exact|||Discharge: Patient able to stand up||||1
82404681|NCT02922153|164517091|SUPERIORITY|||||||0.6992|||||||Fisher Exact|||Discharge: Patient able to walk||||0.6992
82404682|NCT02922153|164517091|SUPERIORITY|||||||0.4429|||||||Fisher Exact|||Discharge: Right Shoulder Flexion Movement||||0.4429
82404683|NCT02922153|164517091|SUPERIORITY|||||||0.4563|||||||Fisher Exact|||Discharge: Left Shoulder Flexion Movement||||0.4563
82404684|NCT01116921|164517092|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.006|TWO_SIDED|95.0|0.13|0.7|||Regression, Logistic|||||0.70|0.13|0.006
82404685|NCT03429348|164517104|SUPERIORITY||Mean Difference (Final Values)|1.18||||9e-07|TWO_SIDED||||||t-test, 2 sided|We are comparing the log transformed values.||||||0.0000009
82404686|NCT03429348|164517104|SUPERIORITY||Mean Difference (Final Values)|1.35||||1.8e-05|TWO_SIDED||||||t-test, 2 sided|We are comparing the log transformed values||||||0.000018
82404687|NCT04547140|164517136|SUPERIORITY||Difference in percentages|3.3|||||TWO_SIDED|||||||||Percentage of Participants Dying||||
82530995|NCT02564055|164758802|OTHER||Difference in percentages|14.3|||||TWO_SIDED|95.0|-32.2|57.9|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at EW has been presented.|||57.9|-32.2|
82530996|NCT02564055|164758802|OTHER||Difference in percentages|24.2|||||TWO_SIDED|95.0|-40.3|80.9|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at EW has been presented.|||80.9|-40.3|
82646120|NCT01236053|165007148|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||<|0.0001|TWO_SIDED|95.0|1.24|1.81|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.81|1.24|<0.0001
82404688|NCT04547140|164517136|SUPERIORITY||Difference in percentages|6.4|||||TWO_SIDED|||||||||Percentage of Participants Requiring ICU Admission||||
82404689|NCT04547140|164517137|SUPERIORITY||Difference in percentages|6.9|||||TWO_SIDED|||||||||Percentage of Participants Who are Dependent on High Flow Oxygen Devices||||
82404690|NCT04547140|164517137|SUPERIORITY||Difference in percentages|3.4|||||TWO_SIDED|||||||||Percentage of Participants Who are Dependent on Invasive Mechanical Ventilation||||
82404691|NCT04547140|164517138|SUPERIORITY||Least Squares (LS) Mean Difference|1.22||||0.1453|TWO_SIDED|95.0|-0.43|2.87||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 15||2.87|-0.43|0.1453
82404692|NCT04547140|164517138|SUPERIORITY||LS Mean Difference|0.21||||0.8015|TWO_SIDED|95.0|-1.44|1.86||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 29||1.86|-1.44|0.8015
82404693|NCT04547140|164517140|SUPERIORITY||LS Mean Difference of Duration|1.48||||0.5135|TWO_SIDED|95.0|-3.04|6.0||P-value was calculated using an analysis of variance (ANOVA) model, including the length of hospital stay (days) as a dependent variable and treatment group as a fixed effect.|ANOVA|||||6.00|-3.04|0.5135
82404694|NCT04547140|164517141|SUPERIORITY||LS Mean Difference of Duration|3.41||||0.1221|TWO_SIDED|95.0|-0.94|7.76||P-value was calculated using an ANOVA model, including the number of days in the ICU as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.76|-0.94|0.1221
82404695|NCT04547140|164517142|SUPERIORITY||LS Mean Difference of Duration|2.78||||0.3329|TWO_SIDED|95.0|-2.92|8.48||P-value was calculated using an ANOVA model, including the number of days on oxygen as a dependent variable and treatment group as a fixed effect.|ANOVA|||||8.48|-2.92|0.3329
82404696|NCT04547140|164517143|SUPERIORITY||LS Mean Difference of Duration|3.48||||0.1092|TWO_SIDED|95.0|-0.81|7.77||P-value was calculated using an ANOVA model, including the number of days on mechanical ventilation as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.77|-0.81|0.1092
82404697|NCT04547140|164517144|SUPERIORITY||LS Mean Difference|-0.63||||0.1189|TWO_SIDED|95.0|-1.43|0.17||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 15||0.17|-1.43|0.1189
82404698|NCT04547140|164517144|SUPERIORITY||LS Mean Difference|-0.85||||0.0341|TWO_SIDED|95.0|-1.64|-0.07||P-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||Day 29||-0.07|-1.64|0.0341
82404699|NCT04547140|164517148|SUPERIORITY||Difference in percentages|1.9||||0.8809|TWO_SIDED|95.0|-24.1|28.3||P-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentages of participants experiencing sustained normalization of fever.|Chi-squared|||||28.3|-24.1|0.8809
82404700|NCT00873730|164517151|SUPERIORITY_OR_OTHER|||||||0.6031|||||||Chi-squared|||||||0.6031
82404701|NCT00873730|164517152|SUPERIORITY_OR_OTHER|||||||0.9166|||||||Chi-squared|||||||0.9166
82404702|NCT00873730|164517153|SUPERIORITY_OR_OTHER|||||||0.7564|||||||Chi-squared|||||||0.7564
82404703|NCT00873730|164517154|SUPERIORITY_OR_OTHER|||||||0.3266|||||||Chi-squared|||||||0.3266
82404704|NCT00873730|164517155|SUPERIORITY_OR_OTHER|||||||0.7481|||||||Chi-squared|||||||0.7481
82404705|NCT00873730|164517156|SUPERIORITY_OR_OTHER|||||||0.7721|||||||Chi-squared|||||||0.7721
82404706|NCT00873730|164517157|SUPERIORITY_OR_OTHER|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Nocturnal Back Pain.||||0.6660
82404707|NCT00873730|164517157|SUPERIORITY_OR_OTHER|||||||0.5364|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Overall Spinal Pain.||||0.5364
82404708|NCT00873730|164517158|SUPERIORITY_OR_OTHER|||||||0.9426|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for the Physician Global Assessment.||||0.9426
82404709|NCT00873730|164517158|SUPERIORITY_OR_OTHER|||||||0.4969|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for the Patient Global Assessment.||||0.4969
82404710|NCT00873730|164517159|SUPERIORITY_OR_OTHER|||||||0.6687|||||||Wilcoxon (Mann-Whitney)|||||||0.6687
82404711|NCT00873730|164517160|SUPERIORITY_OR_OTHER|||||||0.6739|||||||Wilcoxon (Mann-Whitney)|||||||0.6739
82404712|NCT00873730|164517161|SUPERIORITY_OR_OTHER|||||||0.2772|||||||Wilcoxon (Mann-Whitney)|||||||0.2772
82404713|NCT00873730|164517162|SUPERIORITY_OR_OTHER|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.1560
82404714|NCT00873730|164517163|SUPERIORITY_OR_OTHER|||||||0.2099|||||||Chi-squared|||Analysis provided for Mobility.||||0.2099
82404715|NCT00873730|164517163|SUPERIORITY_OR_OTHER|||||||0.8009|||||||Chi-squared|||Analysis provided for Self-care.||||0.8009
82404716|NCT00873730|164517163|SUPERIORITY_OR_OTHER|||||||0.429|||||||Chi-squared|||Analysis provided for Usual activities.||||0.4290
82404717|NCT00873730|164517163|SUPERIORITY_OR_OTHER|||||||0.0461|||||||Chi-squared|||Analysis provided for Pain/Discomfort.||||0.0461
82530997|NCT02564055|164758809|OTHER||Difference in percentages|-7.7|||||TWO_SIDED|95.0|-45.8|32.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 1 has been presented.|||32.5|-45.8|
82530998|NCT02564055|164758809|OTHER||Difference in percentages|15.4|||||TWO_SIDED|95.0|-25.7|52.6|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 1 has been presented.|||52.6|-25.7|
82530999|NCT02564055|164758809|OTHER||Difference in percentages|-7.7|||||TWO_SIDED|95.0|-46.0|32.6|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 1 has been presented.|||32.6|-46.0|
82531000|NCT02564055|164758809|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-32.2|48.8|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 1 has been presented.|||48.8|-32.2|
82531001|NCT02564055|164758809|OTHER||Difference in percentages|-24.2|||||TWO_SIDED|95.0|-60.8|14.8|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 2 has been presented.|||14.8|-60.8|
82404718|NCT00873730|164517163|SUPERIORITY_OR_OTHER|||||||0.562|||||||Chi-squared|||Analysis provided for Anxiety/Depression.||||0.5620
82404719|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.3476|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Physical functioning.||||0.3476
82446088|NCT01561963|164600522|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% confidence interval (CI) limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|96.35|||||TWO_SIDED|90.0|88.56|104.82|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUCt of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||104.82|88.56|
82404720|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.9045|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Physical role limitations.||||0.9045
82404721|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.8558|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Bodily pain.||||0.8558
82404722|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.3123|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for General health.||||0.3123
82404723|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.3327|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Vitality.||||0.3327
82404724|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.8334|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Social functioning.||||0.8334
82404725|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.7998|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Emotional role limitations.||||0.7998
82404726|NCT00873730|164517164|SUPERIORITY_OR_OTHER|||||||0.7125|||||||Wilcoxon (Mann-Whitney)|||Analysis provided for Mental health.||||0.7125
82404727|NCT00873730|164517166|SUPERIORITY_OR_OTHER|||||||0.7404|||||||Wilcoxon (Mann-Whitney)|||||||0.7404
82446089|NCT01561963|164600522|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|27.88|||||TWO_SIDED|90.0|25.63|30.34|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUCt of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||30.34|25.63|
82404728|NCT02326272|164517184|SUPERIORITY||Odds Ratio (OR)|33.405|||<|0.0001|TWO_SIDED|97.5|9.965|111.983||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose versus (vs) placebo (PBO).|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||111.983|9.965|<0.0001
82404729|NCT02326272|164517184|SUPERIORITY||Estimated difference in responder rate|69.7|||||TWO_SIDED|95.0|57.12|82.36|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||82.36|57.12|
82404730|NCT02326272|164517184|SUPERIORITY||Odds Ratio (OR)|36.212|||<|0.0001|TWO_SIDED|97.5|10.686|122.713||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||122.713|10.686|<0.0001
82404731|NCT02326272|164517184|SUPERIORITY||Estimated difference in responder rate|71.0|||||TWO_SIDED|95.0|58.47|83.43|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||83.43|58.47|
82404732|NCT02326272|164517185|SUPERIORITY||Odds Ratio (OR)|106.225|||<|0.0001|TWO_SIDED|97.5|9.572|1178.843||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||1178.843|9.572|<0.0001
82404733|NCT02326272|164517185|SUPERIORITY||Estimated difference in responder rate|64.8|||||TWO_SIDED|95.0|52.16|77.46|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||77.46|52.16|
82404734|NCT02326272|164517185|SUPERIORITY||Odds Ratio (OR)|133.163|||<|0.0001|TWO_SIDED|97.5|11.904|1489.578||The p-value for the primary analysis was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||1489.578|11.904|<0.0001
82404735|NCT02326272|164517185|SUPERIORITY||Estimated difference in responder rate|69.6|||||TWO_SIDED|95.0|57.48|81.77|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||81.77|57.48|
82446090|NCT01561963|164600523|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|95.71|||||TWO_SIDED|90.0|87.99|104.12|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUC∞ of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||104.12|87.99|
82446091|NCT01561963|164600523|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|27.96|||||TWO_SIDED|90.0|25.7|30.41|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of AUC∞ of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||30.41|25.70|
82646121|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.1184|TWO_SIDED|95.0|0.92|2.18|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.18|0.92|0.1184
82404736|NCT02326272|164517186|SUPERIORITY||Odds Ratio (OR)|24.283|||<|0.0001|TWO_SIDED|97.5|4.386|134.432||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||134.432|4.386|<0.0001
82404737|NCT02326272|164517186|SUPERIORITY||Estimated difference in responder rate|48.1|||||TWO_SIDED|95.0|35.04|61.26|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||61.26|35.04|
82404738|NCT02326272|164517186|SUPERIORITY||Odds Ratio (OR)|27.204|||<|0.0001|TWO_SIDED|97.5|4.895|151.198||The p-value for this analysis as used in the fixed sequence testing procedure was evaluated at a 2-sided significance level of 0.025 for each CZP dose vs PBO.|Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||151.198|4.895|<0.0001
82404739|NCT02326272|164517186|SUPERIORITY||Estimated difference in responder rate|51.0|||||TWO_SIDED|95.0|37.75|64.19|||Regression, Logistic|Estimated responder rate, odds ratios, CIs, p-values based on a logistic regression model with factors for treatment, region, prior biologic exposure.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||64.19|37.75|
82404740|NCT02326272|164517189|SUPERIORITY||Adjusted Mean Treatment Differences|-6.62|||<|0.0001|TWO_SIDED|97.5|-8.88|-4.36||The P-value was obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-4.36|-8.88|<0.0001
82404741|NCT02326272|164517189|SUPERIORITY||Adjusted Mean Treatment Differences|-6.19|||<|0.0001|TWO_SIDED|97.5|-8.46|-3.93||The P-value was obtained for each treatment group comparison tested at a significance level of 0.025 in the fixed sequence testing procedure.|ANCOVA|ANCOVA model of change from Baseline DLQI score with treatment group, region, prior biologic exposure as factors; Baseline DLQI score as a covariate.||The statistical analysis of the co-primary efficacy variables and key secondary efficacy variables accounted for multiplicity by using a fixed sequence testing procedure.||-3.93|-8.46|<0.0001
82404742|NCT02185417|164517211|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.45|TWO_SIDED|95.0|0.94|1.16|||Log Rank|||Primary analyses were performed with the use of unadjusted log-rank tests that were stratified according to VA health care system.||1.16|0.94|0.45
82404743|NCT03933449|164517227|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0015|TWO_SIDED|95.0|0.36|0.82||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.82|0.36|0.0015
82404744|NCT03933449|164517228|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.0008|TWO_SIDED|95.0|0.17|0.69||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.69|0.17|0.0008
82404745|NCT03933449|164517229|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0021|TWO_SIDED|95.0|0.37|0.83||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||0.83|0.37|0.0021
82531002|NCT02564055|164758809|OTHER||Difference in percentages|28.5|||||TWO_SIDED|95.0|-13.7|63.0|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 2 has been presented.|||63.0|-13.7|
82404746|NCT03933449|164517230|SUPERIORITY||Difference in Percentages|12.9||||0.0084|TWO_SIDED|95.0|2.7|24.5||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||24.5|2.7|0.0084
82404747|NCT03933449|164517231|SUPERIORITY||Difference in Percentages|17.1||||0.0403|TWO_SIDED|95.0|-2.3|38.0||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||38.0|-2.3|0.0403
82404748|NCT03933449|164517232|SUPERIORITY||Difference in Percentages|13.3||||0.0083|TWO_SIDED|95.0|2.8|25.2||One-sided p-value for testing. H0: difference in %=0 versus H1: difference in %\>0.|Miettinen & Nurminen method|||||25.2|2.8|0.0083
82404749|NCT03933449|164517233|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.177|TWO_SIDED|95.0|0.58|1.23||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.23|0.58|0.177
82446092|NCT01561963|164600524|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|113.07|||||TWO_SIDED|90.0|103.18|123.91|||||Apremilast + IV Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of Cmax of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||123.91|103.18|
82404750|NCT03933449|164517234|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.238|TWO_SIDED|95.0|0.44|1.46||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.46|0.44|0.238
82404751|NCT03933449|164517235|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.171|TWO_SIDED|95.0|0.57|1.23||One-sided p-value based on log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate|||1.23|0.57|0.171
82404752|NCT03677635|164517238|OTHER||Standardised Effect Size|0.32|||||TWO_SIDED|95.0|0.21|0.86|||Standardised Effect Size|||||.86|.21|
82404753|NCT03677635|164517239|OTHER|Cohen's d was reported.|Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.59|0.48|||Standardised Effect Size|||||.48|-.59|
82404754|NCT02168491|164517288|SUPERIORITY_OR_OTHER||||||<|0.02|||||||paired t test|||||||<0.02
82404755|NCT02168491|164517289|SUPERIORITY_OR_OTHER|||||||0.24|||||||paired t test|||||||0.24
82404756|NCT02168491|164517290|SUPERIORITY_OR_OTHER|||||||0.28|||||||paired t test|||||||0.28
82404757|NCT00809445|164517291|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.52|||<|0.001|TWO_SIDED|97.5|3.57|5.72||a-prior threshold for statistical significance is .025|Cochran-Mantel-Haenszel||The numerator is the two HIV rapid testing arms The denominator is the HIV testing referral arm|Hypothesis: The HIV rapid testing arms would have a higher rate of HIV testing than the HIV testing referral arm. Thus there is one comparison: HIV rapid test \& counseling+HIV rapid test and info versus HIV testing referral.||5.72|3.57|<0.001
82404758|NCT00809445|164517292|SUPERIORITY_OR_OTHER||incidence rate raios (IRR)|1.04||||0.39|TWO_SIDED|97.5|0.95|1.14||a-priori threshold for statistical significance is .025|generalized estimating equations (GEE)||Numerator includes the two HIV rapid testing groups Denominator is the HIV testing referral group|Hypothesis: The HIV rapid testing arms would have a lower rate of unprotected sexual episodes than the HIV testing referral arm. Thus there is one comparison: HIV rapid test \& counseling+HIV rapid test and info versus HIV testing referral.||1.14|0.95|0.39
82404759|NCT00809445|164517292|SUPERIORITY_OR_OTHER||Incidence rate ratio (IRR)|1.03||||0.81|TWO_SIDED|97.5|0.84|1.26||a-priori threshold for statistical significance is .025|Generalized estimating equations (GEE)||Numerator is the HIV rapid test and counseling arm Denominator is the HIV rapid test and info arm|"The data analysis information presented is for the comparison of the 2 on-site testing groups.~Hypothesis: HIV rapid test and counseling group will have fewer unprotected sexual acts than will HIV rapid test and info group"||1.26|0.84|0.81
82404760|NCT00809445|164517293|SUPERIORITY_OR_OTHER|||||||0.044||||||a priori threshold for significance was .05|Chi-squared|Note that this is a 3 by 3 chi-square: the 3 conditions by discontinued sharing needles /no change in sharing needles/initiated sharing needles||||||0.044
82404761|NCT00809445|164517294|SUPERIORITY_OR_OTHER||||||<|0.0001||||||a-priori threshold for statistical significance is .05|Chi-squared|chi-square = 428.2466, Df=2||||||<0.0001
82531003|NCT02564055|164758809|OTHER||Difference in percentages|-33.3|||||TWO_SIDED|95.0|-67.4|6.1|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 2 has been presented.|||6.1|-67.4|
82531004|NCT02564055|164758809|OTHER||Difference in percentages|-0.9|||||TWO_SIDED|95.0|-40.7|40.7|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 2 has been presented.|||40.7|-40.7|
82404762|NCT00705757|164517310|SUPERIORITY_OR_OTHER|||||||0.769|TWO_SIDED||||||ANOVA|||One way ANOVA of Upper Lid||||0.769
82404763|NCT00705757|164517310|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0|||||ANOVA|||One way ANOVA of Lower Lid||||0.230
82404764|NCT00705757|164517310|SUPERIORITY_OR_OTHER|||||||0.851|TWO_SIDED|95.0|||||ANOVA|||One way ANOVA of cheek/face||||0.851
82404765|NCT02256696|164517315|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.1|TWO_SIDED|95.0|0.93|2.12|||Regression, Cox|adjusted for age and sex at birth.||modified intention to treat (mITT) analysis||2.12|0.93|0.10
82404766|NCT02256696|164517315|SUPERIORITY||Hazard Ratio (HR)|1.89||||0.003|TWO_SIDED|95.0|1.24|2.87|||Regression, Cox|adjusted for age and sex at birth.||mITT analysis||2.87|1.24|0.003
82404767|NCT02256696|164517315|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.09|TWO_SIDED|95.0|0.95|2.15|||Regression, Cox|adjusted for age and sex at birth||per protocol||2.15|0.95|0.09
82404768|NCT02256696|164517315|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.005|TWO_SIDED|95.0|1.21|2.89|||Regression, Cox|adjusted for age and sex at birth||per protocol||2.89|1.21|0.005
82404769|NCT02256696|164517318|SUPERIORITY||Hazard Ratio (HR)|1.61||||0.02|TWO_SIDED|95.0|1.07|2.44|||Regression, Cox|adjusted for age and sex at birth.||mITT analysis||2.44|1.07|0.02
82404770|NCT02256696|164517318|SUPERIORITY||Hazard Ratio (HR)|1.8||||0.006|TWO_SIDED|95.0|1.18|2.75|||Regression, Cox|adjusted for age and sex at birth||mITT analysis||2.75|1.18|0.006
82404771|NCT02256696|164517318|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.03|TWO_SIDED|95.0|1.05|2.42|||Regression, Cox|adjusted for age and sex at birth||per protocol analysis||2.42|1.05|0.03
82404772|NCT02256696|164517318|SUPERIORITY||Hazard Ratio (HR)|1.84||||0.007|TWO_SIDED|95.0|1.18|2.85|||Regression, Cox|adjusted for age and sex at birth||per protocol analysis||2.85|1.18|0.007
82404773|NCT03361306|164517344|SUPERIORITY|Assuming the true VGPR+ rate is 40% under the null hypothesis, then this design will provide 90% power to detect a difference of 20% under the alternative hypothesis, assuming a one-sided alpha=0.10 significance level. For the originally planned enrollment of 40 subjects, if at least 21 subjects achieved VGPR or better to induction, the null hypothesis would be rejected.|Response Rate|0.467||||0.39|TWO_SIDED|95.0|0.213|0.734||This p-value is only based on partial enrollment on the study. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|||0.734|0.213|0.390
82404774|NCT01272908|164517355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.293||||0.253|||||||Regression, Logistic|||ACR20: Week 12 versus (vs) Week 4||||0.253
82404775|NCT01272908|164517355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.019||||0.005|||||||Regression, Logistic|||ACR20: Week 24 vs Week 4||||0.005
82404776|NCT01272908|164517355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.552||||0.023|||||||Regression, Logistic|||ACR50: Week 12 vs Week 4||||0.023
82404777|NCT01272908|164517355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.861||||0.001|||||||Regression, Logistic|||ACR50: Week 24 vs. Week 4||||0.001
82404778|NCT01272908|164517359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.099||||0.667|||||||Regression, Logistic|||Good vs Moderate vs None: Week 12 vs Week 4||||0.667
82404779|NCT01272908|164517359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.589|||<|0.001|||||||Regression, Logistic|||Good vs Moderate vs None: Week 24 vs Week 4||||<0.001
82404780|NCT01272908|164517359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.138||||0.44|||||||Regression, Logistic|||Good/Moderate vs None: Week 12 vs Week 4||||0.440
82404781|NCT01272908|164517359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.009||||0.012|||||||Regression, Logistic|||Good/Moderate vs None: Week 24 vs Week 4||||0.012
82404782|NCT01272908|164517361|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 4||||<0.001
82404783|NCT01272908|164517361|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 12||||<0.001
82404784|NCT01272908|164517361|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 24||||<0.001
82404785|NCT01272908|164517361|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 36||||<0.001
82404786|NCT01272908|164517361|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Week 48||||<0.001
82404787|NCT01272908|164517363|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed-Rank test|||Baseline vs Week 24||||<0.001
82404788|NCT01272908|164517365|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
82404789|NCT01272908|164517367|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
82404790|NCT01272908|164517369|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
82404791|NCT01272908|164517371|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 24||||<0.001
82404792|NCT01272908|164517373|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
82404793|NCT01272908|164517375|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
82404794|NCT01272908|164517377|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
82404795|NCT01272908|164517381|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Baseline vs Week 12||||<0.001
82404796|NCT01272908|164517381|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Rank test|||Baseline vs Week 24||||<0.001
82404797|NCT02221648|164517383|SUPERIORITY_OR_OTHER|||||||0.447|||||||Fisher Exact|||||||0.4470
82404798|NCT02221648|164517384|SUPERIORITY_OR_OTHER|||||||0.0293|||||||Fisher Exact|||||||0.0293
82646122|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8016|TWO_SIDED|95.0|0.59|1.5|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.50|0.59|0.8016
82404799|NCT02221648|164517385|SUPERIORITY_OR_OTHER|||||||0.0448|||||||Fisher Exact|||||||0.0448
82404800|NCT00810069|164517402|SUPERIORITY_OR_OTHER|||||||0.213|TWO_SIDED|95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan-Meier Analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies.||Kaplan-Meier Estimates (weeks): analysis of early intervention versus delayed intervention strategies||||0.213
82404801|NCT00810069|164517403|SUPERIORITY_OR_OTHER||survival rate difference|0.02||||0.653|TWO_SIDED|95.0|-0.06|0.1||P-value is for comparison of early intervention versus delayed intervention as a function of survival rate over a 12 week period (Week 4 through Week 16).|Kaplan Meier analysis|P-value for comparison of rates is based on normal approximation using Greenwood's estimation for standard error.||Survival function estimated over a 12 week period (Week 4 through Week 16): analysis of early intervention versus delayed intervention strategies||0.10|-0.06|0.653
82404802|NCT00810069|164517404|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies.||Analysis of early intervention strategy versus delayed intervention strategy||||0.947
82404803|NCT00810069|164517405|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||P-value is for early intervention versus delayed intervention strategies.|Kaplan-Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies||Analysis of early intervention strategy versus delayed intervention strategy||||0.597
82404804|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.624|TWO_SIDED|95.0|-0.22|0.13||P-value for Week 6: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 6||0.13|-0.22|0.624
82404805|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.208|TWO_SIDED|95.0|-0.29|0.06||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed Models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||0.06|-0.29|0.208
82404806|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.09||0.044|TWO_SIDED|95.0|-0.37|0.0||P-value for Week 10: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 10||-0.00|-0.37|0.044
82404807|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.086|TWO_SIDED|95.0|-0.35|0.02||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interactions, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.02|-0.35|0.086
82404808|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.181|TWO_SIDED|95.0|-0.33|0.06||P-value for Week 14: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 14||0.06|-0.33|0.181
82404809|NCT00810069|164517406|SUPERIORITY_OR_OTHER||LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.994|TWO_SIDED|95.0|-0.2|0.2||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.20|-0.20|0.994
82404810|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-0.98|-0.25||P-value for Week 6: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 6||-0.25|-0.98|0.001
82404811|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.01|TWO_SIDED|95.0|-0.87|-0.12||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||-0.12|-0.87|0.010
82646123|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.77|2.91|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.91|1.77|<0.0001
82646124|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||<|0.0001|TWO_SIDED|95.0|1.51|2.58|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.58|1.51|<0.0001
82404812|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.445|TWO_SIDED|95.0|-0.55|0.24||P-value for Week 10: analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 10||0.24|-0.55|0.445
82404813|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.21||0.169|TWO_SIDED|95.0|-0.71|0.12||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.12|-0.71|0.169
82404814|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.23||0.393|TWO_SIDED|95.0|-0.63|0.25||P-value for Week 14: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 14||0.25|-0.63|0.393
82404815|NCT00810069|164517407|SUPERIORITY_OR_OTHER||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.51|TWO_SIDED|95.0|-0.61|0.3||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline scores and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.30|-0.61|0.510
82404816|NCT00810069|164517408|SUPERIORITY_OR_OTHER||LS Mean|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.401|TWO_SIDED|95.0|-0.19|0.47||P-value for Week 8: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||0.47|-0.19|0.401
82446093|NCT01561963|164600524|EQUIVALENCE|No statistically significant interaction between apremilast and rifampicin was confirmed if both the upper and lower 90% CI limits for the geometric least squares mean ratios of apremilast administered with rifampicin to apremilast alone fell within the no effect boundary of 80% to 125%.|Ratio of Geometric Least Squares Means|56.8|||||TWO_SIDED|90.0|51.84|62.25|||||Apremilast + Multiple Dose Oral Rifampin / Apremilast Alone|The effect of rifampicin on the PK of apremilast was evaluated using a linear mixed effect analysis of variance on the log-transformed values of Cmax of apremilast, to estimate the mean ratio of apremilast administered with and without rifampicin treatment. The model included treatment as fixed effect, and subject as a random effect.||62.25|51.84|
82446094|NCT01561963|164600525|OTHER||Median Difference|-0.25||||0.2656|TWO_SIDED|90.0|-0.75|0.0|||Wilcoxon signed rank test||Apremilast + IV Rifampin - Apremilast Alone|Tmax was analyzed using nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||0.00|-0.75|0.2656
82646125|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6105|TWO_SIDED|95.0|0.65|2.08|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.08|0.65|0.6105
82404817|NCT00810069|164517408|SUPERIORITY_OR_OTHER||LS Mean|0.09|STANDARD_ERROR_OF_MEAN|0.19||0.618|TWO_SIDED|95.0|-0.27|0.46||P-value for Week 12: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.46|-0.27|0.618
82646126|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.6797|TWO_SIDED|95.0|0.62|2.09|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.09|0.62|0.6797
82404818|NCT00810069|164517408|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.2||0.856|TWO_SIDED|95.0|-0.43|0.36||P-value for Week 16: Analysis of early intervention versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.36|-0.43|0.856
82404819|NCT00810069|164517409|SUPERIORITY_OR_OTHER||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.021|TWO_SIDED|95.0|-0.1|-0.01||P-value for Week 8: Analysis of early versus delayed intervention LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||-0.01|-0.10|0.021
82404820|NCT00810069|164517409|SUPERIORITY_OR_OTHER||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.071|TWO_SIDED|95.0|-0.09|0.0||P-value for Week 12: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.00|-0.09|0.071
82404821|NCT00810069|164517409|SUPERIORITY_OR_OTHER||LS Mean|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.792|TWO_SIDED|95.0|-0.05|0.06||P-value for Week 16: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||0.06|-0.05|0.792
82404822|NCT00810069|164517410|SUPERIORITY_OR_OTHER||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.7||0.597|TWO_SIDED|95.0|-1.74|1.0||P-value for Week 8: Analysis of early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 8||1.00|-1.74|0.597
82404823|NCT00810069|164517410|SUPERIORITY_OR_OTHER||LS Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.74||0.36|TWO_SIDED|95.0|-2.13|0.78||P-value for Week 12: Analysis for early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 12||0.78|-2.13|0.360
82404824|NCT00810069|164517410|SUPERIORITY_OR_OTHER||LS Mean|0.06|STANDARD_ERROR_OF_MEAN|0.81||0.937|TWO_SIDED|95.0|-1.52|1.65||P-value for Week 16: Analysis for early versus delayed intervention strategies LS Mean/Estimate|Mixed Models Analysis|Mixed models repeated measures with fixed effects for strategy, country, visit, strategy-by-visit interaction, baseline score and baseline-by-visit||Repeated Measurements Analysis: Early Intervention versus Delayed Intervention Strategy at Week 16||1.65|-1.52|0.937
82404825|NCT00810069|164517411|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||P-value is for early intervention strategy versus delayed intervention strategy.|Kaplan-Meier analysis|Kaplan-Meier analysis with Wilcoxon test to compare strategies||Kaplan-Meier estimates (weeks): analysis of early intervention versus delayed intervention strategies||||0.075
82404826|NCT00810069|164517412|SUPERIORITY_OR_OTHER||Survival rate difference|-0.07||||0.116|TWO_SIDED|95.0|-0.16|0.02||P-value is for comparison of early intervention versus delayed intervention as a function of survival rate over a 12 week period (Week 4 through Week 16).|Kaplan-Meier analysis|P-value for comparison of rates is based on normal approximation using Greenwood's estimation for standard error.||Survival function estimated over a 12 week period (Week 4 through Week 16): analysis of early intervention versus delayed intervention strategies||0.02|-0.16|0.116
82404827|NCT00382785|164517432|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED|95.0|||||univariate analysis|||Power calculation indicated that 60 subjects would be needed. Null Hypothesis: There will be no difference in perceived social support based on type of online support group (moderated or peer-led).||||.315
82404828|NCT00382785|164517433|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||univariate analysis|Null Hypothesis: There will be no difference between the moderated and peer-led groups based on type of online support (moderated; peer-led)||Power analysis indicated that 60 subjects were needed. Null hypothesis: There will be no difference in depressive symptoms based on type of online support group (moderated or peer-led).||||.23
82404829|NCT00382785|164517434|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED|95.0|||||Univariate Analysis|||Power analysis indicated that 60 subjects were needed. Null hypothesis: There will be no difference in quality of life (QOL) based on type of online support group (moderated or peer-led).||||.32
82446095|NCT01561963|164600525|OTHER||Median Difference|-0.5||||0.1141|TWO_SIDED|90.0|-1.0|0.0|||Wilcoxon signed rank test||Apremilast + Multiple Dose Oral Rifampin - Apremilast Alone|Tmax was analyzed using nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||0.00|-1.00|0.1141
82404830|NCT00325819|164517464|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.053|TWO_SIDED|95.0|0.41|1.01|||unadjusted Poisson regression|||The study sample size of 1000 children was selected to have 80% power to detect a 30% reduction in risk of the primary outcome of rectal temperature \>=38 following vaccination. In 2009, during the enrollment period of our trial, another paper reported the results of a randomized trial of acetaminophen prophylaxis in infants which found significantly lower immune responses to various vaccines in the acetaminophen group. In light of thse findings we elected to stop enrollment in our trial.||1.01|0.41|0.053
82531005|NCT02564055|164758809|OTHER||Difference in percentages|-15.2|||||TWO_SIDED|95.0|-53.8|23.5|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 4 has been presented.|||23.5|-53.8|
82404831|NCT00325819|164517465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.0||||0.08||95.0|||||Fisher Exact|||||||0.08
82404832|NCT00325819|164517466|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.31||||0.02|TWO_SIDED|95.0|0.12|0.84|||unadjusted Poisson regression|||||0.84|0.12|0.02
82404833|NCT00325819|164517467|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45||||0.14|TWO_SIDED|95.0|0.16|1.28|||unadjusted Poisson regression|||||1.28|0.16|0.14
82531006|NCT02564055|164758809|OTHER||Difference in percentages|43.4|||||TWO_SIDED|95.0|2.7|74.6|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 4 has been presented.|||74.6|2.7|
82404834|NCT00325819|164517468|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4||||0.001|TWO_SIDED|95.0|0.25|0.7|||unadjusted Poisson regression|||||0.70|0.25|0.001
82404835|NCT00325819|164517469|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.4|TWO_SIDED|95.0|0.21|1.88|||unadjusted Poisson regression|||||1.88|0.21|0.40
82646127|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.0103|TWO_SIDED|95.0|1.12|2.39|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.39|1.12|0.0103
82404836|NCT00325819|164517470|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.25|3.94|||unadjusted Poisson regression|||||3.94|0.25|1.00
82404837|NCT00325819|164517471|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.94||||0.18|TWO_SIDED|95.0|0.6|14.34|||unadjusted Poisson regression|||||14.34|0.60|0.18
82404838|NCT02692586|164517490|SUPERIORITY|To detect an RV/LV ratio change \> 0.12 with a power of 80% at one-sided alpha = 0.025, the necessary sample size was calculated to be ≥ 52, 31, or 21 patients (to detect RV/LV ratio changes of 0.20, 0.225, or 0.25, respectively).|||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
82404839|NCT02692586|164517491|SUPERIORITY|The hypothesized composite MAE rate was expected to be about 13%. The necessary sample size to detect a difference from an expected MAE rate of 13% with 80% power was calculated to be 103 patients (with a one-sided p value = 0.05).|||||<|0.0001|||||||t-test, 1 sided|||||||< 0.0001
82404840|NCT03506438|164517498|SUPERIORITY||Mean Difference (Net)|-6.7||||0.018|TWO_SIDED|95.0|-12.2|-1.2|||Mixed Models Analysis|||||-1.2|-12.2|0.018
82404841|NCT03506438|164517499|SUPERIORITY||Mean Difference (Net)|0.3||||0.48|TWO_SIDED|95.0|-0.5|1.1|||Mixed Models Analysis|||||1.1|-0.5|0.48
82404842|NCT03506438|164517500|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.73|TWO_SIDED|95.0|-1.4|1.0|||Mixed Models Analysis|||||1.0|-1.4|0.73
82404843|NCT03506438|164517501|SUPERIORITY||estimated mean difference|0.6||||0.47|TWO_SIDED|95.0|-1.0|2.1|||Mixed Models Analysis|||||2.1|-1.0|0.47
82646128|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.1629|TWO_SIDED|95.0|0.89|2.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.00|0.89|0.1629
82646129|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.4713|TWO_SIDED|95.0|0.73|1.97|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.97|0.73|0.4713
82404844|NCT03506438|164517502|SUPERIORITY||Odds Ratio (OR)|1.8||||0.29|TWO_SIDED|95.0|0.6|5.2|||Regression, Logistic|||||5.2|0.6|0.29
82646130|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.4505|TWO_SIDED|95.0|0.49|1.38|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.38|0.49|0.4505
82404845|NCT03506438|164517503|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82404846|NCT03506438|164517504|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82404847|NCT03506438|164517505|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
82404848|NCT03934216|164517516|SUPERIORITY||Odds Ratio (OR)|0.9||||0.5935|TWO_SIDED|95.0|0.3|2.4|||Stratified Cochran-Mantel-Haenszel|||||2.4|0.3|0.5935
82404849|NCT03934216|164517517|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3051|TWO_SIDED|95.0|0.6|2.7|||Stratified Cochran-Mantel-Haenszel|||||2.7|0.6|0.3051
82404850|NCT03934216|164517518|SUPERIORITY||Odds Ratio (OR)|0.6||||0.8764|TWO_SIDED|95.0|0.3|1.4|||Stratified Cochran-Mantel-Haenszel|||||1.4|0.3|0.8764
82404851|NCT03934216|164517519|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2235|TWO_SIDED|95.0|0.5|3.8|||Stratified Cochran-Mantel-Haenszel|||||3.8|0.5|0.2235
82404852|NCT01053741|164517520|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there is no difference in epithelial surface disruption when comparing the two interventions. Power calculation was based on identifying a median difference in histology grade of 0.83, using a two-sided alpha of 0.05 with 90% power in 10 subjects.||||<0.05
82404853|NCT00619827|164517521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.0003|TWO_SIDED|95.0|-2.99|-0.94|||ANCOVA|||||-0.94|-2.99|0.0003
82404854|NCT00735709|164517534|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.93|||<|0.001|TWO_SIDED|95.0|-6.99|-2.86||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.05, hierarchical testing continues.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||-2.86|-6.99|<0.001
82404855|NCT00735709|164517534|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.12|||<|0.001|TWO_SIDED|95.0|-6.17|-2.08||Hierarchical testing stopped at SDS total score at Week 8 in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-2.08|-6.17|<0.001
82404856|NCT00735709|164517534|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.52|||<|0.001|TWO_SIDED|95.0|-5.57|-1.47||This treatment arm is not in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.47|-5.57|<0.001
82404857|NCT00735709|164517535|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54||||0.135|TWO_SIDED|95.0|-3.56|0.48||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||0.48|-3.56|0.135
82404858|NCT00735709|164517535|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.11||||0.263|TWO_SIDED|95.0|-3.07|0.84|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||0.84|-3.07|0.263
82404859|NCT00735709|164517535|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.963|TWO_SIDED|95.0|-2.03|1.94|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||1.94|-2.03|0.963
82404860|NCT00735709|164517536|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|||<|0.001|TWO_SIDED|95.0|-0.8|-0.3|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.30|-0.80|<0.001
82404861|NCT00735709|164517536|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.71|-0.22|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.22|-0.71|<0.001
82404862|NCT00735709|164517536|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.23|||Mixed model repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-0.23|-0.72|<0.001
82404863|NCT00735709|164517537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.348|||<|0.001|TWO_SIDED|95.0|1.995|5.618|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo.|||5.618|1.995|<0.001
82404864|NCT00735709|164517537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.739|||<|0.001|TWO_SIDED|95.0|1.631|4.598|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo|||4.598|1.631|<0.001
82404865|NCT00735709|164517537|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.018|||<|0.001|TWO_SIDED|95.0|1.799|5.063|||Regression, Logistic|Regression with explanatory variables for treatment and Baseline HAM-D24 score.|Odds ratio versus placebo|||5.063|1.799|<0.001
82404866|NCT00735709|164517538|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.59||||0.001|TWO_SIDED|95.0|-7.34|-1.84|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.84|-7.34|0.001
82404867|NCT00735709|164517538|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.47||||0.002|TWO_SIDED|95.0|-7.32|-1.62|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.62|-7.32|0.002
82531007|NCT02564055|164758809|OTHER||Difference in percentages|-15.2|||||TWO_SIDED|95.0|-53.8|23.5|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 4 has been presented.|||23.5|-53.8|
82531008|NCT02564055|164758809|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-35.6|51.2|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 4 has been presented.|||51.2|-35.6|
82404868|NCT00735709|164517538|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.13||||0.004|TWO_SIDED|95.0|-6.9|-1.37|||Mixed model for repeated measurements|P-values are from an MMRM model with Baseline-by-week, center, week, and week-by-treatment as factors in the analysis.||||-1.37|-6.90|0.004
82404869|NCT00735709|164517539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.951||||0.026|TWO_SIDED|95.0|1.082|3.517|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.517|1.082|0.026
82404870|NCT00735709|164517539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.056||||0.015|TWO_SIDED|95.0|1.15|3.673|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.673|1.150|0.015
82404871|NCT00735709|164517539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.753||||0.062|TWO_SIDED|95.0|0.973|3.158|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.158|0.973|0.062
82404872|NCT03150082|164517591|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|96.88|||||TWO_SIDED|90.0|91.13|103.0|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||103.00|91.13|
82404873|NCT03150082|164517592|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|93.16|||||TWO_SIDED|90.0|86.09|100.82|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||100.82|86.09|
82404874|NCT03150082|164517593|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.|Percent ratio|96.96|||||TWO_SIDED|90.0|91.17|103.11|||||Percent ratio (GR37547 500 mg/ciprofloxacin 500 mg reference) has been presented.|||103.11|91.17|
82404875|NCT03150082|164517594|EQUIVALENCE|Bio-equivalence analysis comparing ciprofloxacin test and reference product has been presented.||||||0.3499||||||"P value was analyzed using a nonparametric Wilcoxon signed-rank test."|Wilcoxon signed-rank test|||||||0.3499
82404876|NCT00249873|164517633|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0133||95.0|0.81|0.98||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of any component of the primary event for the clopidogrel group compared with the Placebo group.|||0.98|0.81|0.0133
82404877|NCT00249873|164517634|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||<|0.001||95.0|0.62|0.83||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of stroke for the clopidogrel group compared with the Placebo group.|||0.83|0.62|<0.001
82425966|NCT04756531|164560600|OTHER|Natural log transformed AUClast for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|81.21|||||TWO_SIDED|90.0|69.21|95.28||||||||95.28|69.21|
82531009|NCT02564055|164758809|OTHER||Difference in percentages|18.3|||||TWO_SIDED|95.0|-25.1|57.1|||||Difference between GSK2894512 1 % BID and vehicle BID at Week 8 has been presented.|||57.1|-25.1|
82531010|NCT02564055|164758809|OTHER||Difference in percentages|47.7|||||TWO_SIDED|95.0|4.8|78.7|||||Difference between GSK2894512 1 % QD and vehicle QD at Week 8 has been presented.|||78.7|4.8|
82531011|NCT02564055|164758809|OTHER||Difference in percentages|-11.7|||||TWO_SIDED|95.0|-51.3|30.2|||||Difference between GSK2894512 0.5 % BID and vehicle BID at Week 8 has been presented.|||30.2|-51.3|
82531012|NCT02564055|164758809|OTHER||Difference in percentages|9.1|||||TWO_SIDED|95.0|-35.6|51.2|||||Difference between GSK2894512 0.5 % QD and vehicle QD at Week 8 has been presented.|||51.2|-35.6|
82531013|NCT02564055|164758809|OTHER||Difference in percentages|6.4|||||TWO_SIDED|95.0|-35.4|48.5|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 12 has been presented.|||48.5|-35.4|
82646131|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.0284|TWO_SIDED|95.0|1.04|2.01|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.01|1.04|0.0284
82646132|NCT01236053|165007149|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.6262|TWO_SIDED|95.0|0.77|1.54|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.54|0.77|0.6262
82404878|NCT00249873|164517635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.696||95.0|0.89|1.08||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of death from any cause for the clopidogrel group compared with the Placebo group.|||1.08|0.89|0.696
82404879|NCT00249873|164517636|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82404880|NCT00643201|164517640|NON_INFERIORITY_OR_EQUIVALENCE|Statistical Testing: non-inferiority tested at 1-sided α=0.025 with margin of 1.8. Demonstration of non-inferiority using both relative risk (RR) (margin = 1.8) and risk difference (RD) (margin = 0.035) were required to achieve the primary objective.|Risk Ratio (RR)|0.839|||<|0.0001|TWO_SIDED|95.0|0.5965|1.1802||This is the first test in a sequential testing sequence. p-value calculated based on the Yanagawa-Tango-Hiejima test stratified by index event strata for non-inferiority. Tested at 1-sided α=0.025|Yanagawa-Tango-Hiejima|For a successful trial; rejection of the null hypotheses for both RR and RD was required.||Hypothesis that apixaban was non-inferior to enoxaparin/warfarin therapy in preventing the recurrence of VTE (nonfatal DVT or nonfatal PE)/VTE-related death.||1.1802|0.5965|<0.0001
82404881|NCT00643201|164517640|NON_INFERIORITY_OR_EQUIVALENCE|Statistical Testing; non-inferiority tested at 1-sided α=0.025. If non-inferiority demonstrated for both RR and RD, the primary objective was achieved.|Risk Difference (RD)|-0.0044|||<|0.0001|TWO_SIDED|95.0|-0.0128|0.004||Yanagawa-Tango-Hiejima test statistic for risk difference (RD).|Yanagawa-Tango-Hiejima|||Hypothesis that apixaban was non-inferior to enoxaparin/warfarin therapy in preventing the recurrence of VTE (nonfatal DVT or nonfatalPE)/VTE-related death as measured by risk difference.||0.0040|-0.0128|<0.0001
82404882|NCT00643201|164517640|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.839||||0.3128|TWO_SIDED|95.0|0.5965|1.1802||Tested at 2-sided α=0.05 significance. Further inferential statistical testing halted due to failure to reject the null hypothesis of equivalence for VTE/VTE-related death.|Cochran-Mantel-Haenszel|Relative risk, CI, and p-value were calculated based on CMH test stratified by index event strata.||Hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. Inferential testing required demonstration of non-inferiority using both RR and RD plus demonstration of superiority for major bleeding.||1.1802|0.5965|0.3128
82404883|NCT00643201|164517641|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8151||||0.1554|TWO_SIDED|95.0|0.6146|1.0812||The test was stratified by index event strata using alpha=0.05 level of significance. Analysis was performed on the secondary efficacy dataset; there was no imputation of missing data.|Cochran-Mantel-Haenszel|Nominal p-value is reported.||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.0812|0.6146|0.1554
82404884|NCT00643201|164517642|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7994||||0.1848|TWO_SIDED|95.0|0.5737|1.1137||The test was stratified by index event strata using alpha=0.05 level of significance. . Nominal p-value is reported.|Cochran-Mantel-Haenszel|Analysis was performed on the secondary efficacy dataset; there was no imputation of missing data.||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.1137|0.5737|0.1848
82404885|NCT00643201|164517643|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6236||||0.0011|TWO_SIDED|95.0|0.4682|0.8306||The test was stratified by index event strata using alpha=0.05 level of significance. Nominal p-value is reported.|Cochran-Mantel-Haenszel|||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.8306|0.4682|0.0011
82404886|NCT00643201|164517644|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5532|||<|0.0001|TWO_SIDED|95.0|0.4658|0.6569||The test was stratified by index event strata using alpha=0.05 level of significance. Nominal p-value is reported.|Cochran-Mantel-Haenszel|||Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6569|0.4658|<0.0001
82446096|NCT04598269|164600529|SUPERIORITY||Least Square Means (LSM) % Differences|-33.01|STANDARD_ERROR_OF_MEAN|8.971|<|0.001|TWO_SIDED|90.0|-47.95|-18.08||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|Mixed Model Repeated Measures (MMRM)||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Week 4: Least Square Means (LSM) % differences ATI-1777 arm minus vehicle arm"|||-18.08|-47.95|<0.001
82404887|NCT00643201|164517645|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6347|||||TWO_SIDED|95.0|0.3735|1.0787|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.0787|0.3735|
82446097|NCT04598269|164600530|SUPERIORITY||LSM % Differences|-23.53|STANDARD_ERROR_OF_MEAN|8.971||0.005|TWO_SIDED|90.0|-38.47|-8.59||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|MMRM||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Day 8: LSM % differences ATI-1777 arm minus vehicle arm"|Day 8 statistical analysis||-8.59|-38.47|0.005
82446098|NCT04598269|164600530|SUPERIORITY||LSM % Differences|-23.44|STANDARD_ERROR_OF_MEAN|8.971||0.005|TWO_SIDED|90.0|-38.38|-8.5||P-value is based on a 1-sided hypothesis test of the superiority of ATI-1777 relative to the vehicle. Significance level at α = 0.05.|Mixed Models Analysis||"Fixed factors for treatment, visit, visit\*treatment, baseline measurement. A compound symmetry covariance matrix was used to account for within-subject variability.~Day 15: LSM % differences ATI-1777 arm minus vehicle arm"|Day 15 statistical analysis||-8.50|-38.38|0.005
82446099|NCT04598269|164600531|SUPERIORITY||Odds Ratio, log|15.7|||<|0.001|TWO_SIDED|90.0|3.9|63.2||1-sided p-value of responders in the treatment groups at 0.05 level of significance.|Regression, Logistic||Active/Vehicle|||63.2|3.9|<0.001
82446100|NCT04598269|164600532|SUPERIORITY||Odds Ratio, log|5.9||||0.003|TWO_SIDED|90.0|2.1|17.0||1-sided p-value of responders in the treatment groups at 0.05 level of significance|Regression, Linear||Active/Vehicle|||17.0|2.1|0.003
82446101|NCT04598269|164600533|SUPERIORITY||Odds Ratio, log|1.7||||0.203|TWO_SIDED|90.0|0.6|5.3||1-sided p-value of responders in the treatment groups at 0.05 level of significance|Regression, Logistic||Active/Vehicle|||5.3|0.6|0.203
82446102|NCT04598269|164600534|SUPERIORITY|||||||0.148||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.148
82446103|NCT04598269|164600534|SUPERIORITY|||||||0.017||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.017
82446104|NCT04598269|164600534|SUPERIORITY|||||||0.002||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Week 4 statistical analysis||||0.002
82446105|NCT04598269|164600535|SUPERIORITY|||||||0.088||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.088
82446106|NCT04598269|164600535|SUPERIORITY|||||||0.022||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.022
82531014|NCT02564055|164758809|OTHER||Difference in percentages|6.0|||||TWO_SIDED|95.0|-35.8|47.1|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 12 has been presented.|||47.1|-35.8|
82531015|NCT02564055|164758809|OTHER||Difference in percentages|-13.6|||||TWO_SIDED|95.0|-54.0|31.2|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 12 has been presented.|||31.2|-54.0|
82646133|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0798|TWO_SIDED|95.0|0.95|2.41|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.41|0.95|0.0798
82446107|NCT04598269|164600535|SUPERIORITY||||||<|0.001||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance.|MMRM|||Week 4 statistical analysis||||<0.001
82446108|NCT04598269|164600536|SUPERIORITY|||||||0.014||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 8 statistical analysis||||0.014
82446109|NCT04598269|164600536|SUPERIORITY|||||||0.069||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Day 15 statistical analysis||||0.069
82446110|NCT04598269|164600536|SUPERIORITY|||||||0.06||||||1-sided p-value of responders in the treatment groups at 0.05 level of significance|MMRM|||Week 4 statistical analysis||||0.060
82446111|NCT02039856|164600543|SUPERIORITY|Difference-in-differences using ordered logistic regression, adjusting for age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD, and the population weights, which were the product of design weights and non-response weights. We verified that proportional odds assumption was met.|Odds Ratio (OR)|0.913|STANDARD_ERROR_OF_MEAN|0.175||0.637|TWO_SIDED|95.0|0.627|1.33|||difference-in-differences analysis||The estimated value is predicted change in the odds of WH-PACT achievement, adjusting for characteristics described in the statistical analysis overview.|Change in the odds of achieving a higher WH-PACT element.||1.33|0.627|0.637
82446112|NCT02039856|164600544|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for gender, race/ethnicity, years worked at VA, worked in women's health clinic vs general primary care clinic, clinician status vs staff status, fulltime employment, percent of women veterans enrolled at the VA facility. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.1195||0.006|TWO_SIDED|95.0|0.1|0.57|||Regression, Linear||The estimated value reported here is the predicted mean change over time, adjusting for characteristics described in the statistical analysis overview.|Change in gender sensitivity score between EBQI and control over time||0.57|0.10|0.006
82446113|NCT02039856|164600545|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for gender, race/ethnicity, years worked at VA, worked in women's health clinic vs general primary care clinic, clinician status vs staff status, fulltime employment, percent of women veterans enrolled at the VA facility. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.2253||0.055|TWO_SIDED|95.0|-0.01|0.87|||Regression, Linear||The estimated value reported here is the predicted mean change over time, adjusting for characteristics described in the statistical analysis overview.|Change in team functioning score between EBQI and control over time.||0.87|-0.01|0.055
82446114|NCT02039856|164600546|SUPERIORITY|We adjusted our analysis using the population weights, which were the product of design weights and non-response weights|Odds Ratio (OR)|0.36|STANDARD_ERROR_OF_MEAN|0.1922||0.058|TWO_SIDED|95.0|0.13|1.04|||Regression, Logistic||The estimated value is the predicted mean, adjusting for weights, worked in women's health vs general PC clinic, years worked at the VA, race/ethnicity, gender, full-time employment, and percent of women veterans enrolled at the VA facility.|||1.04|0.13|0.058
82446115|NCT02039856|164600547|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.56||0.008|TWO_SIDED|95.0|0.14|2.36|||Regression, Linear||The estimated value is predicted change in the number of VA primary care visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient primary care visits between EBQI and control over time||2.36|0.14|0.008
82531016|NCT02564055|164758809|OTHER||Difference in percentages|-25.6|||||TWO_SIDED|95.0|-65.3|22.4|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 12 has been presented.|||22.4|-65.3|
82531017|NCT02564055|164758809|OTHER||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-44.5|42.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 14 has been presented.|||42.7|-44.5|
82531018|NCT02564055|164758809|OTHER||Difference in percentages|5.6|||||TWO_SIDED|95.0|-37.8|47.3|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 14 has been presented.|||47.3|-37.8|
82531019|NCT02564055|164758809|OTHER||Difference in percentages|-5.5|||||TWO_SIDED|95.0|-47.9|37.6|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 14 has been presented.|||37.6|-47.9|
82531020|NCT02564055|164758809|OTHER||Difference in percentages|-4.4|||||TWO_SIDED|95.0|-48.3|41.5|||||Difference between GSK2894512 0.5 % QD and Vehicle QD at Week 14 has been presented.|||41.5|-48.3|
82531021|NCT02564055|164758809|OTHER||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-44.5|42.7|||||Difference between GSK2894512 1 % BID and Vehicle BID at Week 16 has been presented.|||42.7|-44.5|
82646134|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8357|TWO_SIDED|95.0|0.64|1.73|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.73|0.64|0.8357
82404888|NCT00643201|164517646|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0935|||||TWO_SIDED|95.0|0.6363|1.8793|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.8793|0.6363|
82404889|NCT00643201|164517647|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7521|||||TWO_SIDED|95.0|0.356|1.5889|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.5889|0.3560|
82404890|NCT00643201|164517648|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6539|||||TWO_SIDED|95.0|0.3419|1.2508|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.2508|0.3419|
82404891|NCT00643201|164517649|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7934|||||TWO_SIDED|95.0|0.5287|1.1906|||Cochran-Mantel-Haenszel||Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||1.1906|0.5287|
82404892|NCT00643201|164517650|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.307|||<|0.0001|TWO_SIDED|95.0|0.1728|0.5452||p-value calculated on the CMH test stratified by index event strata.|Cochran-Mantel-Haenszel||Relative risk and CI were calculated based on CMH test stratified by index event strata.|Hypothesis: apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. As per the hierarchical statistical testing cascade, inferential testing for adjudicated major bleeding occurred because non-inferiority for VTE/VTE-related death (Primary efficacy endpoint) was demonstrated earlier. Rejection of the null hypothesis for equivalence for major bleeding allowed inferential testing for superiority of VTE/VTE-related death.||0.5452|0.1728|<0.0001
82404893|NCT00643201|164517651|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.441|||<|0.0001|TWO_SIDED|95.0|0.3566|0.5453||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint. Inferential testing was not conducted because the null hypothesis pertaining to superiority for VTE/VTE-related death was not rejected.||0.5453|0.3566|<0.0001
82531022|NCT02564055|164758809|OTHER||Difference in percentages|8.3|||||TWO_SIDED|95.0|-35.0|49.2|||||Difference between GSK2894512 1 % QD and Vehicle QD at Week 16 has been presented.|||49.2|-35.0|
82646135|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.75|3.01|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.01|1.75|<0.0001
82404894|NCT00643201|164517652|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.4793|||<|0.0001|TWO_SIDED|95.0|0.3815|0.6022||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6022|0.3815|<0.0001
82404895|NCT00643201|164517653|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.6182|||<|0.0001|TWO_SIDED|95.0|0.5432|0.7034||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.7034|0.5432|<0.0001
82531023|NCT02564055|164758809|OTHER||Difference in percentages|-3.3|||||TWO_SIDED|95.0|-46.0|42.3|||||Difference between GSK2894512 0.5 % BID and Vehicle BID at Week 16 has been presented.|||42.3|-46.0|
82531024|NCT02572817|164758840|SUPERIORITY||Odds Ratio (OR)|1.22||||0.54|TWO_SIDED|95.0|0.65|2.29|||Regression, Logistic|||||2.29|0.65|0.54
82404896|NCT00643201|164517654|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5937|||<|0.0001|TWO_SIDED|95.0|0.5318|0.6629||Tested at 2-sided alpha=0.05 significance.|Cochran-Mantel-Haenszel|Nominal p-value is reported.|Relative Risk and CI was calculated based on CMH test stratified by index event strata.|Exploratory hypothesis of apixaban therapy being superior to enoxaparin/warfarin therapy for the adjudicated endpoint.||0.6629|0.5318|<0.0001
82531025|NCT02572817|164758841|SUPERIORITY||Odds Ratio (OR)|0.86||||0.66|TWO_SIDED|95.0|0.45|1.66|||Regression, Logistic|||||1.66|0.45|0.66
82531026|NCT02572817|164758842|SUPERIORITY||Odds Ratio (OR)|0.95||||0.87|TWO_SIDED|95.0|0.5|1.8|||Regression, Logistic|||||1.8|0.5|0.87
82531027|NCT02572817|164758843|SUPERIORITY||Odds Ratio (OR)|1.26||||0.49|TWO_SIDED|95.0|0.65|2.41|||Regression, Logistic|||||2.41|0.65|0.49
82531028|NCT02572817|164758844|SUPERIORITY||Odds Ratio (OR)|1.07||||0.83|TWO_SIDED|95.0|0.55|2.08|||Regression, Logistic|||||2.08|0.55|0.83
82531029|NCT02572817|164758845|SUPERIORITY||Odds Ratio (OR)|1.29||||0.47|TWO_SIDED|95.0|0.65|2.56|||Regression, Logistic|||||2.56|0.65|0.47
82531030|NCT02572817|164758846|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82531031|NCT02572817|164758847|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.64|TWO_SIDED|95.0|0.21|2.64|||Log Rank|||||2.64|0.21|0.64
82531032|NCT02572817|164758848|SUPERIORITY|||||||0.69|||||||Fisher Exact|||||||0.69
82531033|NCT02572817|164758849|SUPERIORITY||Odds Ratio (OR)|1.33||||0.43|TWO_SIDED|95.0|0.65|2.71|||Regression, Logistic|||Composite mortality and hospitalization, Day 7||2.71|0.65|0.43
82531034|NCT02572817|164758849|SUPERIORITY||Odds Ratio (OR)|1.11||||0.79|TWO_SIDED|95.0|0.5|2.48|||Regression, Logistic|||Composite mortality and hospitalization, Day 14||2.48|0.5|0.79
82531035|NCT02572817|164758849|SUPERIORITY||Odds Ratio (OR)|1.65||||0.29|TWO_SIDED|95.0|0.66|4.12|||Regression, Logistic|||Composite mortality and hospitalization, Day 28||4.12|0.66|0.29
82531036|NCT02572817|164758850|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.0||||0.2|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in NEW from baseline to Day 3||0|-2|0.2
82404897|NCT03877744|164517700|NON_INFERIORITY|Non-inferiority margin of 2.5 was set prior to study initiation with a Type I error of 0.025.|Mean Difference (Final Values)|1.6873|STANDARD_ERROR_OF_MEAN|0.2558||0.0008|ONE_SIDED|97.5||2.1894|||Mixed Models Analysis|Controls technician,site,seat type;Techn. nested in site modeled as random effect;Model allowed heterogeneous variances across arms w Kenward-Roger df|Mixed model allowed the arms to have unequal variance estimates. Degrees of freedom estimated using Kenward-Rogers.|||2.1894||0.0008
82404898|NCT00905424|164517722|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.0902|TWO_SIDED|90.0|-4.5|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-4.5|0.0902
82404899|NCT00905424|164517723|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.3091|TWO_SIDED|90.0|-2.4|0.6||The test was performed a priori at the significance level of 0.10|ANCOVA|||||0.6|-2.4|0.3091
82404900|NCT00905424|164517724|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.0573|TWO_SIDED|90.0|-3.7|-0.3||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.3|-3.7|0.0573
82404901|NCT00905424|164517725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2368||95.0|||||Cochran-Mantel-Haenszel|||||||0.2368
82404902|NCT00905424|164517728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0||||0.0463|TWO_SIDED|90.0|-5.4|-0.5||The test was performed a priori at the significance level of 0.10|ANCOVA|||Global Executive Composite||-0.5|-5.4|0.0463
82404903|NCT00905424|164517728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.1431|TWO_SIDED|90.0|-4.3|0.3||The test was performed a priori at the significance level of 0.10|ANCOVA|||Behavioral Regulation Index||0.3|-4.3|0.1431
82404904|NCT00905424|164517728|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3||||0.0281|TWO_SIDED|90.0|-5.8|-0.8||The test was performed a priori at the significance level of 0.10|ANCOVA|||Metacognition Index||-0.8|-5.8|0.0281
82404905|NCT00905424|164517729|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0||||0.092|TWO_SIDED|90.0|-6.0|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-6.0|0.0920
82404906|NCT00905424|164517730|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.0774|TWO_SIDED|90.0|-2.2|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-2.2|0.0774
82404907|NCT00905424|164517731|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.4726|TWO_SIDED|90.0|-1.6|4.0||The test was performed a priori at the significance level of 0.10|ANCOVA|||||4.0|-1.6|0.4726
82404908|NCT00905424|164517732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.5182|TWO_SIDED|90.0|-1.4|3.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||3.1|-1.4|0.5182
82404909|NCT00905424|164517733|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.463|TWO_SIDED|90.0|-3.1|1.2||The test was performed a priori at the significance level of 0.10|ANCOVA|||||1.2|-3.1|0.4630
82404910|NCT00905424|164517734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.523||95.0|||||Cochran-Mantel-Haenszel|||||||0.5230
82404911|NCT00905424|164517737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.8||||0.2876|TWO_SIDED|90.0|-1.0|4.7||The test was performed a priori at the significance level of 0.10|ANCOVA|||Global Executive Composite||4.7|-1.0|0.2876
82531037|NCT02572817|164758850|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.66|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||Change in NEW from baseline to Day 3||1|-1|0.66
82531038|NCT02572817|164758851|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Change in PEW from baseline to Day 3||||0.18
82531039|NCT02572817|164758851|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||Change in PEW from baseline to Day 7||||0.61
82404912|NCT00905424|164517737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.559|TWO_SIDED|90.0|-2.1|4.4||The test was performed a priori at the significance level of 0.10|ANCOVA|||Behavioral Regulation Index||4.4|-2.1|0.5590
82404913|NCT00905424|164517737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.2079|TWO_SIDED|90.0|-0.7|5.2||The test was performed a priori at the significance level of 0.10|ANCOVA|||Metacognition Index||5.2|-0.7|0.2079
82404914|NCT00905424|164517738|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7||||0.1489|TWO_SIDED|90.0|-8.0|0.5||The test was performed a priori at the significance level of 0.10|ANCOVA|||||0.5|-8.0|0.1489
82404915|NCT00905424|164517739|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4||||0.0852|TWO_SIDED|90.0|-2.8|-0.1||The test was performed a priori at the significance level of 0.10|ANCOVA|||||-0.1|-2.8|0.0852
82404916|NCT02533934|164517742|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.01|||||||Kruskal-Wallis|||APRI change from baseline to last follow-up||||<.01
82404917|NCT02533934|164517742|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.01|||||||Kruskal-Wallis|||APRI change from baseline to last follow-up||||<.01
82404918|NCT02533934|164517742|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance|||||<|0.01|||||||Kruskal-Wallis|||FIB4 change from baseline to last follow-up||||<.01
82404919|NCT02533934|164517742|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance|||||<|0.01|||||||Kruskal-Wallis|||FIB4 change from baseline to last follow-up||||<.01
82404920|NCT02533934|164517744|EQUIVALENCE|Equivalence margin is defined by the a priori threshold for statistical significance.|||||<|0.001|||||||Wilcoxon (Signed Rank Test)|||||||<0.001
82404921|NCT00379899|164517745|SUPERIORITY_OR_OTHER|||||||0.073|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor (≥ 30 to 399, ≥ 400 to 999, and ≥ 1000)||||||0.073
82404922|NCT00379899|164517746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.094||95.0|0.36|1.08|||Cochran-Mantel-Haenszel||Logit estimates (Cinacalcet:Control)|||1.08|0.36|0.094
82404923|NCT00379899|164517747|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.018
82404924|NCT00379899|164517749|SUPERIORITY_OR_OTHER|||||||0.258|||||||Cochran-Mantel-Haenszel|||||||0.258
82531040|NCT02572817|164758852|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.68|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-2|0.68
82531041|NCT02572817|164758853|SUPERIORITY||Odds Ratio (OR)|1.42||||0.98|TWO_SIDED|95.0|0.23|11.01|||Regression, Logistic|||||11.01|0.23|0.98
82446116|NCT02039856|164600548|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD, and the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|0.413||0|TWO_SIDED|95.0|0.88|2.51|||Regression, Linear||The estimated value is predicted change in the number of VA women's health visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient visits to women's health care between EBQI and control over time||2.51|0.88|0.000
82446117|NCT02039856|164600549|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.068||0.794|TWO_SIDED|95.0|-0.15|0.12|||Regression, Linear||The estimated value is predicted change in the number of VA hospitalization, adjusting for characteristics described in the statistical analysis overview.|Change in number of patient hospitalization for any cause between EBQI and control over time||0.12|-0.15|0.794
82446118|NCT02039856|164600550|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for adjusted for survey weights, age, gender, race/ethnicity, marital status, employment, education, dual use of VA and non-VA for care, diagnosis of PTSD. We adjusted our analysis using the population weights, which were the product of design weights and non-response weights.|Median Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.15||0.888|TWO_SIDED|95.0|-0.265|0.306|||Regression, Linear||The estimated value is predicted change in the number of VA emergency room visits, adjusting for characteristics described in the statistical analysis overview.|Change in number of emergency room visits for any cause between EBQI and control over time||0.306|-0.265|0.888
82446119|NCT00896441|164600559|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|One sample t-test||||||<0.01
82531042|NCT02572817|164758854|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.5||||0.37|TWO_SIDED|95.0|-6.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-6|0.37
82531043|NCT02572817|164758855|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
82531044|NCT02572817|164758856|SUPERIORITY||Hodges-Lehman estimate of location shift|-3.0||||0.22|TWO_SIDED|95.0|-14.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-14|0.22
82646136|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.53|2.76|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.76|1.53|<0.0001
82646137|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7794|TWO_SIDED|95.0|0.63|1.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.85|0.63|0.7794
82646138|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.8075|TWO_SIDED|95.0|0.52|1.66|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.66|0.52|0.8075
82646139|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0001|TWO_SIDED|95.0|1.35|2.52|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.52|1.35|0.0001
82446120|NCT00896441|164600561|OTHER||||||<|0.006|||||||t-test, 2 sided|Single group t-test||||||<.006
82646140|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0161|TWO_SIDED|95.0|1.08|2.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.12|1.08|0.0161
82446121|NCT01304589|164600562|SUPERIORITY_OR_OTHER|||||||0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||.001
82446122|NCT01304589|164600563|SUPERIORITY_OR_OTHER|||||||0.003||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|paired T-test|"Subjects completed a tampon insertion pain test once a week. The values were averaged and compared pre-treatment versus post-treatment."||||||.003
82446123|NCT01304589|164600564|SUPERIORITY_OR_OTHER|||||||0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||.001
82531045|NCT02572817|164758857|SUPERIORITY||Odds Ratio (OR)|0.74||||1|TWO_SIDED|95.0|0.08|9.29|||Regression, Logistic|||||9.29|0.08|1
82531046|NCT02572817|164758859|SUPERIORITY||Odds Ratio (OR)|0.33||||0.24|TWO_SIDED|95.0|0.05|1.79|||Regression, Logistic|||||1.79|0.05|0.24
82531047|NCT02572817|164758861|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82531048|NCT02572817|164758862|SUPERIORITY||Hodges-Lehman estimate of location shift|0.0||||0.06|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in SOFA from baseline to Day 3||0|-1|0.06
82531049|NCT02572817|164758862|SUPERIORITY||Hodges-Lehman estimate of location shift|-1.0||||0.13|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||Change in SOFA from baseline to Day 7||0|-1|0.13
82531050|NCT02572817|164758863|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Change in PELOD from baseline to Day 3||||0.36
82531051|NCT02572817|164758863|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change in PELOD from baseline to Day 7||||0.15
82531052|NCT02572817|164758864|SUPERIORITY||Odds Ratio (OR)|1.73||||0.12|TWO_SIDED|95.0|0.87|3.44|||Regression, Logistic|||||3.44|0.87|0.12
82531053|NCT02572817|164758865|SUPERIORITY||Odds Ratio (OR)|0.47||||0.23|TWO_SIDED|95.0|0.13|1.43|||Regression, Logistic|||||1.43|0.13|0.23
82531054|NCT02524054|164758873|SUPERIORITY|||||||0.35||||||The p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||This is a paired t-test comparing the treatment effect of furosemide to the treatment effect of saline in each individual.||||0.35
82646141|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.3972|TWO_SIDED|95.0|0.76|2.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.00|0.76|0.3972
82404925|NCT00379899|164517750|SUPERIORITY_OR_OTHER|||||||0.011|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.011
82404926|NCT00379899|164517751|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
82404927|NCT00379899|164517752|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
82404928|NCT00379899|164517753|SUPERIORITY_OR_OTHER|||||||0.025|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.025
82404929|NCT00379899|164517754|SUPERIORITY_OR_OTHER|||||||0.021|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||0.021
82404930|NCT00379899|164517755|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
82404931|NCT00379899|164517756|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for screening total coronary artery calcification score stratification factor||||||<0.001
82404932|NCT01922258|164517757|SUPERIORITY||Treatment Difference|-2.34|||=|0.1454|TWO_SIDED|95.0|-5.49|0.82|||Mixed-effect model repeated measure|||||0.82|-5.49|=0.1454
82646142|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.495|TWO_SIDED|95.0|0.5|1.39|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.39|0.50|0.4950
82404933|NCT01585246|164517773|OTHER||Maximum Tolerated Dose (MTD)|960.0|||||TWO_SIDED|||||||||The time-to-event continual reassessment method (TITE-CRM) was used The TITE-CRM incorporated a decision rule for the allocation of next participant to a dose of SP based on the current estimate of toxicity. The first men were allocated to lowest dose (320 mg); when no adverse event was reported during 12 weeks, the dose was increased to 640 mg for next men, and then to 960 mg in the absence of advert event.||||
82404934|NCT04552132|164517774|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
82404935|NCT04552132|164517775|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82404936|NCT04552132|164517776|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
82404937|NCT04552132|164517777|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82404938|NCT04552132|164517778|SUPERIORITY|||||||0.57|||||||Fisher Exact|||||||0.57
82404939|NCT04552132|164517779|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.60
82404940|NCT04552132|164517780|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82404941|NCT04552132|164517781|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82404942|NCT04552132|164517782|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
82404943|NCT04552132|164517783|SUPERIORITY|||||||0.4993|||||||Chi-squared|||||||.4993
82404944|NCT04552132|164517784|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
82404945|NCT04552132|164517785|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
82404946|NCT04878120|164517803|SUPERIORITY|||||||0.733||||||For interaction between study group and intervention|ANOVA|||"The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. To test the hypothesis that HCL Control with Smart Bolus Calculator reduces exposure to hypoglycemia with respect to Standard HCL Control, a mixed ANOVA was performed with LBGI as outcome measure, study group as between-subject factor, and intervention type as within-subject factor."||||0.733
82404947|NCT04878120|164517804|SUPERIORITY|||||||0.824||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent below 70 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.824
82404948|NCT04878120|164517805|SUPERIORITY|||||||0.402||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent in 70-180 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.402
82404949|NCT04878120|164517806|SUPERIORITY|||||||0.3||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with percentage of time spent above 180 mg/dL as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.300
82404950|NCT04878120|164517807|SUPERIORITY|||||||0.168||||||For interaction between study arm and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with HBGI as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.168
82404951|NCT04878120|164517808|SUPERIORITY|||||||0.476||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with CGM coefficient of variation as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.476
82404952|NCT04878120|164517809|SUPERIORITY|||||||0.914||||||For interaction between study group and intervention|ANOVA|||The study followed a randomized crossover design, with two study groups and two intervention types; the two groups differed in the order they received the two intervention types. A mixed ANOVA was performed with total amount of carbohydrate administered as rescue treatments as outcome measure, study group as between-subject factor, and intervention type as within-subject factor.||||0.914
82531055|NCT02524054|164758874|SUPERIORITY||||||<|0.001||||||The p-value is not adjusted for multiple comparisons, and the a priori threshold for significance was 0.05.|t-test, 2 sided|||||||<0.001
82531056|NCT02441946|164758876|SUPERIORITY||Ratio of Geometric Means|0.19|||<|0.001|TWO_SIDED|90.0|0.13|0.28|||t-test, 1 sided|||||0.28|0.13|<0.001
82531057|NCT02441946|164758876|SUPERIORITY||Ratio of Geometric Means|0.25|||<|0.001|TWO_SIDED|90.0|0.17|0.38|||t-test, 1 sided|||||0.38|0.17|<0.001
82404953|NCT01691378|164517824|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.03|TWO_SIDED|95.0|0.52|8.3|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BHS compared bet arms controlling for T1 BHS. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BHS as function of arm \& T1 BHS. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||8.3|.52|.03
82404954|NCT01691378|164517824|SUPERIORITY||Mean Difference (Final Values)|-4.6||||0.01|TWO_SIDED|95.0|-7.9|-1.3|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||-1.3|-7.9|.01
82404955|NCT01691378|164517824|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.0007|TWO_SIDED|95.0|-9.3|-3.2|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||-3.2|-9.3|.0007
82404956|NCT01691378|164517825|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.07|TWO_SIDED|95.0|-0.29|8.0|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BSS compared bet arms controlling for T1 BSS. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BSS as function of arm \& T1 BSS. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||8.0|-.29|.07
82404957|NCT01691378|164517825|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.94|TWO_SIDED|95.0|-3.3|3.1|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||3.1|-3.3|.94
82404958|NCT01691378|164517825|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.06|TWO_SIDED|95.0|-7.0|0.12|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||.12|-7.0|.06
82404959|NCT01691378|164517826|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.13|TWO_SIDED|95.0|-1.7|12.9|||ANCOVA|||"Analyses 2-sided test w/ sig level .05. N=35 analyzed w/ α .05 provided 80% power to detect effect size d=1. T1 variables compared using Wilcoxon rank sum \& Fisher exact tests. Per protocol analysis, all participants required T2 BHS.~T2 BDI compared bet arms controlling for T1 BDI. No confounders significant at .10, not included in model. Analysis of covariance modeled T2 BDI as function of arm \& T1 BDI. Estimated mean difference in T2 scores calculated, no adjustment for multiple comparisons."||12.9|-1.7|.13
82531058|NCT02354963|164758888|SUPERIORITY|||||||0.302|||||||Wilcoxon (Mann-Whitney)|||||||0.302
82404960|NCT01691378|164517826|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.003|TWO_SIDED|95.0|-13.8|-3.6|||Regression, Linear|||"Analysis contrasted T1 to T2 change with T2 to T3 change in Waitlist arm only. Waitlist participants serve as their own control \& only variable controlled for was change in Waitlist period (if participants improved greatly during Waitlist period, they would no longer have enough room to change in Intervention period). Linear regression used with difference in change as dependent variable \& Waitlist period change as only predictor. Estimated mean difference in change calculated from this model."||-3.6|-13.8|.003
82404961|NCT01691378|164517826|SUPERIORITY||Mean Difference (Final Values)|-11.6||||0.002|TWO_SIDED|95.0|-18.0|-5.3|||one-sample t-test|||Analysis investigated change from T1 to T3 within the WtoH Intervention first arm only. This difference was calculated and a 1-sample t test was used to determine whether the estimate was different from zero. As this change was not compared with a control group change, baseline values were not accounted for.||-5.3|-18.0|.002
82404962|NCT02465164|164517827|OTHER|Wilcoxon rank-sum tests||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
82404963|NCT03430856|164517877|NON_INFERIORITY|Change from baseline in HbA1c at 24 weeks of treatment, was analyzed using mixed model for repeated measures (MMRM) where all available post-baseline HbA1c measurements obtained up to Week 24 was entered as the dependent variables; visit and treatment were included as fixed factors, with Baseline HbA1c and stratification factor variables as covariates. Furthermore, the interaction terms of visit by treatment, visit by stratification factors and visit by Baseline HbA1c were included in the model.|Mean Difference (Net)|0.99|||||TWO_SIDED|95.0|0.502|1.47|||||Insulin Tregopil 45 mg - Insulin Aspart|||1.470|0.502|
82404964|NCT03430856|164517877|NON_INFERIORITY|Non inferiority margin is 0.4%|Mean Difference (Net)|0.89|||||TWO_SIDED|95.0|0.414|1.37|||||Insulin Tregopil 30mg - Insulin Aspart|||1.370|0.414|
82404965|NCT02002871|164517891|SUPERIORITY_OR_OTHER|||||||0.0152|TWO_SIDED||||||t-test, 2 sided|||The statistical analysis was performed on the difference of the change from baseline of the Blue light treated plaque versus the Control plaque.||||0.0152
82425967|NCT04756531|164560601|OTHER|Natural log transformed AUCinf for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|76.06|||||TWO_SIDED|90.0|60.14|96.2||||||||96.20|60.14|
82531059|NCT02354963|164758889|SUPERIORITY|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||||||0.449
82531060|NCT02354963|164758890|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82531061|NCT02354963|164758891|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|||||||0.427
82531062|NCT02354963|164758892|SUPERIORITY|||||||0.496|||||||Wilcoxon (Mann-Whitney)|||||||0.496
82531063|NCT02354963|164758893|SUPERIORITY||Risk Ratio (RR)|0.71||||0.684|TWO_SIDED|95.0|0.13|3.68|||Chi-squared|||||3.68|0.13|0.684
82446124|NCT01304589|164600565|SUPERIORITY_OR_OTHER||||||<|0.001||||||A paired T-Test was calculated assuming a standard difference (d) between the 4 paired outcomes for pain of 0.60 (moderate effect size), a SD of 1 for each outcome variable and a correlation of 0.50 between each paired variable.|t-test, 2 sided|||||||<.001
82446125|NCT01769196|164600616|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted, sLOXL2 level categories and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.13||||0.329|TWO_SIDED|95.0|0.88|1.45|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted, sLOXL2 level categories, and concomitant pirfenidone/nintedanib use at time of screening.|||1.45|0.88|0.329
82404966|NCT04754542|164517907|NON_INFERIORITY|We performed a non-inferiority test for the proportions of the drug continuation and drug discontinuation arms experiencing a new MS relapse and/or MRI Brain Lesion over the course of the study duration. The non-inferiority margin used was 8%.|Difference in proportion|0.0121||||0.124|TWO_SIDED|95.0|-0.1321|0.1287|||Exact binomial test|Exact binomial test fr difference in two proportions||We tested the null hypothesis of inferiority with the proportion of disease events (i.e., new MS relapse and/or MRI brain lesion) for the drug discontinuation group being 8% greater than the proportion for the drug continuation group under the alternative that the two rates are equal.||0.1287|-0.1321|0.124
82404967|NCT04754542|164517908|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||||||0.639
82404968|NCT04754542|164517909|SUPERIORITY|||||||0.964|||||||t-test, 2 sided|||||||0.964
82404969|NCT04754542|164517910|SUPERIORITY|||||||0.819|||||||t-test, 2 sided|||||||0.819
82404970|NCT04754542|164517911|SUPERIORITY|||||||0.515|||||||t-test, 2 sided|||||||0.515
82404971|NCT04754542|164517912|SUPERIORITY|||||||0.388|||||||t-test, 2 sided|||||||0.388
82404972|NCT04754542|164517913|SUPERIORITY|||||||0.183|||||||t-test, 2 sided|||||||0.183
82404973|NCT04754542|164517914|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||||||0.414
82404974|NCT04754542|164517915|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||||||0.998
82404975|NCT04754542|164517916|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.320
82404976|NCT04754542|164517917|SUPERIORITY|||||||0.061|||||||t-test, 2 sided|||||||0.061
82404977|NCT04754542|164517918|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
82404978|NCT04754542|164517919|SUPERIORITY|||||||0.514|||||||t-test, 2 sided|||||||0.514
82404979|NCT04754542|164517920|SUPERIORITY|||||||0.017|||||||t-test, 2 sided|||||||0.017
82404980|NCT04754542|164517921|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
82404981|NCT04754542|164517922|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||||||0.358
82404982|NCT04754542|164517923|SUPERIORITY|||||||0.151|||||||t-test, 2 sided|||||||0.151
82404983|NCT04754542|164517924|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
82404984|NCT04754542|164517925|SUPERIORITY|||||||0.656|||||||Chi-squared|||||||0.656
82404985|NCT04754542|164517926|SUPERIORITY|||||||0.892|||||||Chi-squared|||||||0.892
82404986|NCT04754542|164517927|SUPERIORITY|||||||0.063|||||||Mantel Haenszel|Cochran-Mantel-Haenszel chi-square test for ordinal-nominal association was used||||||0.063
82404987|NCT01718483|164517930|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.35|||<|0.001|TWO_SIDED|95.0|-1.7|-1.01|||Mixed Models Repeated Measures Analysis|||||-1.01|-1.70|<0.001
82404988|NCT01718483|164517931|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82404989|NCT01718483|164517932|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82404990|NCT01718483|164517933|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-6.35|||<|0.001|TWO_SIDED|95.0|-7.17|-5.54|||Mixed Models Repeated Measures Analysis|||||-5.54|-7.17|<0.001
82404991|NCT01718483|164517934|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-7.4|||<|0.001|TWO_SIDED|95.0|-8.93|-5.88|||Mixed Models Repeated Measures Analysis|||||-5.88|-8.93|<0.001
82404992|NCT01718483|164517935|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.199|||<|0.001|TWO_SIDED|95.0|-0.31|-0.088|||ANCOVA|||||-0.088|-0.310|<0.001
82404993|NCT01718483|164517936|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.211|||<|0.001|TWO_SIDED|95.0|-0.33|-0.092|||ANCOVA|||||-0.092|-0.330|<0.001
82404994|NCT01718483|164517937|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02||||0.308|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||||0.02|-0.07|0.308
82404995|NCT01718483|164517938|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Cochran-Mantel-Haenszel|||||||<0.001
82404996|NCT01718483|164517939|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.77|||<|0.001|TWO_SIDED|95.0|-2.24|-1.3||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-1.30|-2.24|<0.001
82404997|NCT01718483|164517940|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.65|||<|0.001|TWO_SIDED|95.0|0.72|2.57||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Cognitive Restraint of Eating||2.57|0.72|<0.001
82404998|NCT01718483|164517940|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.19|||<|0.001|TWO_SIDED|95.0|-4.98|-3.39||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Disinhibition of Eating||-3.39|-4.98|<0.001
82404999|NCT01718483|164517940|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.7|||<|0.001|TWO_SIDED|95.0|-5.49|-3.91||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Perceived Hunger||-3.91|-5.49|<0.001
82405000|NCT01718483|164517941|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-10.32|||<|0.001|TWO_SIDED|95.0|-12.43|-8.21||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-8.21|-12.43|<0.001
82405001|NCT01718483|164517942|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.31||||0.706|TWO_SIDED|95.0|-1.93|1.31||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|ANCOVA|||||1.31|-1.93|0.706
82531064|NCT02354963|164758894|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.480
82531065|NCT02354963|164758895|SUPERIORITY|||||||0.236|||||||Chi-squared|||||||0.236
82531066|NCT02354963|164758896|SUPERIORITY||Risk Ratio (RR)|0.71||||0.684|TWO_SIDED|95.0|0.13|3.68|||Chi-squared|||||3.68|0.13|0.684
82646143|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0601|TWO_SIDED|95.0|0.99|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.94|0.99|0.0601
82646144|NCT01236053|165007150|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.9286|TWO_SIDED|95.0|0.71|1.45|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.45|0.71|0.9286
82646145|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.5394|TWO_SIDED|95.0|0.63|2.39|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||2.39|0.63|0.5394
82405002|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|1.0|1.03|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.03|1.00|
82405003|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.01|0.99|
82405004|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.03|0.99|
82405005|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04|||||These results compare the arm receiving a pre-commitment prompt to the arm receiving no pre-commitment prompt.|||1.04|1.00|
82446126|NCT01769196|164600617|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo in participants with sLOXL2 ≥ 50th percentile. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.03||||0.851|TWO_SIDED|95.0|0.74|1.43|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||1.43|0.74|0.851
82531067|NCT02354963|164758897|SUPERIORITY||Risk Ratio (RR)|0.36||||0.512|TWO_SIDED|95.0|0.04|3.05|||Chi-squared|||||3.05|0.04|0.512
82405006|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.98|1.01|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.01|0.98|
82405007|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|0.95|0.97|1.02|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.02|0.97|
82405008|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.97|1.01|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.01|0.97|
82405009|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.98|1.05|||||These results compare the arm receiving gain-framed reminders to the arm receiving no reminders.|||1.05|0.98|
82405010|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.99|
82405011|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.98|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.98|
82405012|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.97|1.02|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.02|0.97|
82405013|NCT04110314|164517950|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04|||||These results compare the arm receiving loss-framed reminders to the arm receiving no reminders.|||1.04|1.00|
82531068|NCT04267614|164758901|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82531069|NCT04267614|164758902|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82531070|NCT04267614|164758903|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82531071|NCT04267614|164758904|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82531072|NCT00119262|164758926|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|95.0|||||Fisher Exact|||||||0.12
82531073|NCT00119262|164758927|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Fisher Exact|||||||0.32
82531074|NCT00183456|164758939|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|||<|0.01|TWO_SIDED|95.0|0.13|0.63|||Generalized Estimating Equations|||||0.63|0.13|<0.01
82531075|NCT00183456|164758940|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.05|TWO_SIDED|95.0|1.22|5.89|||Generalized Estimating Equations|||||5.89|1.22|0.05
82531076|NCT00183456|164758941|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.05|TWO_SIDED|95.0|0.16|0.84|||Generalized Estimating Equations|||||0.84|0.16|0.05
82531077|NCT00183456|164758942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82||||0.01|TWO_SIDED|95.0|1.41|5.64|||Generalized Estimating Equations|||||5.64|1.41|0.01
82531078|NCT00183456|164758943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.24||||0.01|TWO_SIDED|95.0|0.09|0.68|||Generalized Estimating Equations|||||0.68|0.09|0.01
82531079|NCT00183456|164758944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.05|TWO_SIDED|95.0|0.25|0.87|||Generalized Estimating Equations|||||0.87|0.25|0.05
82531080|NCT00183456|164758945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.01|TWO_SIDED|95.0|0.21|0.77|||Generalized Estimating Equations|||||0.77|0.21|0.01
82531081|NCT00183456|164758946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.05|TWO_SIDED|95.0|0.14|0.79|||Generalized Estimating Equations|||||0.79|0.14|0.05
82531082|NCT00183456|164758947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.01|TWO_SIDED|95.0|0.14|0.64|||Generalized Estimating Equations|||||0.64|0.14|0.01
82531083|NCT00183456|164758948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.41||||0.01|TWO_SIDED|95.0|1.25|4.65|||Generalized Estimating Equations|||||4.65|1.25|0.01
82531084|NCT03904693|164758996|SUPERIORITY||Geometric Mean Ratio|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.82|||ANCOVA|||||0.82|0.61|<0.0001
82531085|NCT03904693|164758996|SUPERIORITY||Geometric Mean Ratio|0.72|||<|0.0001|TWO_SIDED|95.0|0.64|0.8|||ANCOVA|||||0.80|0.64|<0.0001
82531086|NCT03904693|164758997|SUPERIORITY||Geometric Mean Ratio|16.04|||=|0.3802|TWO_SIDED|95.0|-17.0|49.08|||ANCOVA|||||49.08|-17.0|=0.3802
82531087|NCT03904693|164758997|SUPERIORITY||Geometric Mean Ratio|25.37|||=|0.0591|TWO_SIDED|95.0|-0.93|51.59|||ANCOVA|||||51.59|-0.93|=0.0591
82531088|NCT03698019|164759016|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.004|TWO_SIDED||||||Log Rank|||||||0.004
82405014|NCT00974311|164517954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.53|0.75|||Log Rank|Stratified by baseline Eastern Cooperative Oncology Group (ECOG) performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.75|0.53|<0.0001
82405015|NCT00974311|164517955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.35|0.47|||Log Rank|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.47|0.35|<0.0001
82405016|NCT00974311|164517956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.0001|TWO_SIDED|95.0|0.566|0.835|||Log Rank|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.835|0.566|0.0001
82405017|NCT00974311|164517957|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|24.9|||<|0.0001|TWO_SIDED|95.0|18.8|30.9|||Cochran-Mantel-Haenszel|Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Confidence Interval based on standard normal approximation.|||30.9|18.8|<0.0001
82405018|NCT00974311|164517958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.248|||<|0.0001|TWO_SIDED|95.0|0.204|0.303||Stratified by baseline ECOG performance status and mean Brief Pain Inventory - Short Form score (Question #3).|Log Rank||Hazard Ratio and 95% confidence interval are from Cox regression model.|||0.303|0.204|<0.0001
82405019|NCT00974311|164517959|SUPERIORITY_OR_OTHER||Difference in Rate of Pain Palliation|38.2||||0.0079|TWO_SIDED|95.0|19.4|57.0|||Cochran-Mantel-Haenszel|Stratified by baseline Eastern Cooperative Oncology Group performance status (0-1 vs. 2).|Confidence Interval based on standard normal approximation.|||57.0|19.4|0.0079
82531089|NCT05027074|164759053|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.47|TWO_SIDED|95.0|0.6|1.26||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||1.26|0.60|0.470
82531090|NCT05027074|164759053|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.57|1.19|||||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||1.19|0.57|
82405020|NCT02346708|164517970|SUPERIORITY||Mean Difference (Final Values)|-2.07||||0.1|TWO_SIDED|95.0|-4.56|0.42||We determined whether there was a significant group difference between the real and sham treated PD-MCI patients on the DRS-2 change following rTMS using mixed model regression (MMR) to fit longitudinal models.|Mixed Models Analysis|degrees of freedom: 46||We estimated a sample size of 20 per group would provide at least 80% power at a significance level of 0.05 to detect a between-group difference of 10 on the Matthis Dementia Rating Scale-2, an effect size similar to prior studies of rivastigmine.||0.42|-4.56|0.1
82405021|NCT02976519|164517972|OTHER||Slope|1.2705|STANDARD_ERROR_OF_MEAN|0.0801|||TWO_SIDED|95.0|1.1067|1.4343|||||Based on the estimate for slope parameter (β), a 2-sided 95% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|Cmax. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.4343|1.1067|
82405022|NCT02976519|164517972|OTHER||Slope|1.1361|STANDARD_ERROR_OF_MEAN|0.0859|||TWO_SIDED|95.0|0.9598|1.3123|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|Cmax,13. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.3123|0.9598|
82405023|NCT02976519|164517973|OTHER||Slope|1.2743|STANDARD_ERROR_OF_MEAN|0.0739|||TWO_SIDED|95.0|1.1231|1.4255|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|AUC0-12. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.4255|1.1231|
82405024|NCT02976519|164517973|OTHER||Slope|1.0924|STANDARD_ERROR_OF_MEAN|0.0793|||TWO_SIDED|95.0|0.9296|1.2551|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope.|AUC0-12,13. The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and PK endpoints.||1.2551|0.9296|
82405025|NCT03416270|164517974|OTHER|||||||0.36||||||12 weeks|Wilcoxon (Mann-Whitney)|||||||0.36
82405026|NCT03416270|164517974|OTHER|||||||0.56||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.56
82405027|NCT03416270|164517975|OTHER|||||||0.303|||||||Wilcoxon (Mann-Whitney)|||||||0.303
82405028|NCT03416270|164517976|OTHER|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
82405029|NCT03416270|164517977|OTHER|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||||||0.599
82405030|NCT03416270|164517978|OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82405031|NCT03416270|164517979|OTHER|||||||0.405|||||||Wilcoxon (Mann-Whitney)|||||||0.405
82405032|NCT03416270|164517980|OTHER|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||||||0.536
82405033|NCT03416270|164517981|OTHER|||||||0.443|||||||Wilcoxon (Mann-Whitney)|||||||0.443
82405034|NCT03416270|164517982|OTHER|||||||0.849|||||||Wilcoxon (Mann-Whitney)|||||||0.849
82405035|NCT03416270|164517983|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82405036|NCT03416270|164517984|OTHER|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||||||0.844
82405037|NCT03416270|164517985|OTHER|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||||||0.262
82405038|NCT03416270|164517986|OTHER|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||||||0.802
82405039|NCT03416270|164517987|OTHER|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
82405040|NCT03416270|164517988|OTHER|||||||0.618|||||||Wilcoxon (Mann-Whitney)|||||||0.618
82405041|NCT03416270|164517989|OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
82531091|NCT05027074|164759054|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.68|1.21|||||HR based on Andersen-Gill model with stratification factors of region, previous thrombosis of active AVG, and regular aspirin use up to 150 mg daily at baseline as fixed effect.|||1.21|0.68|
82405042|NCT03416270|164517990|OTHER|||||||0.53||||||12 week|Wilcoxon (Mann-Whitney)|||||||0.53
82405043|NCT03416270|164517990|OTHER|||||||0.89||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.89
82405044|NCT03416270|164517991|OTHER|||||||0.26||||||12 weeks|Wilcoxon (Mann-Whitney)|||||||0.26
82405045|NCT03416270|164517991|OTHER|||||||0.56||||||1 week|Wilcoxon (Mann-Whitney)|||||||0.56
82405046|NCT00928434|164517992|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as a lower bound (LCL) of the 95% confidence interval for the difference between the intermittent and pooled continuous treatments, CADT, (intermittent - continuous) of greater than -12.5%.|Percentage difference|1.57|||||TWO_SIDED|95.0|-0.19|3.33||||||||3.33|-0.19|
82405047|NCT02157519|164518122|SUPERIORITY||Odds Ratio (OR)|0.56||||0.186|TWO_SIDED|95.0|0.23|1.33||threshold p \<0.05|Regression, Logistic|Adjusted for baseline MMAS-4 scores (dichotomous) and change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of participants who self-reported adherence problems (i.e., dichotomous MMAS-4 scores) at post-assessment between groups adjusting for baseline self-reported adherence (i.e., dichotomous MMAS-4 scores) and change in perceived social support (MSPSS) from baseline to post-assessment.||1.33|0.23|0.186
82405048|NCT02157519|164518123|SUPERIORITY||Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|4.06||0.57|TWO_SIDED|95.0|-10.35|5.68||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the percentage of medication taken (as recorded by MEMS) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||5.68|-10.35|0.57
82446127|NCT01769196|164600618|SUPERIORITY|The null hypothesis was that there is no difference in PFS between simtuzumab and simtuzumab placebo in participants with sLOXL2 ≥ 75th percentile. The alternative hypothesis was that there is a difference. These hypotheses were evaluated using stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|1.2||||0.475|TWO_SIDED|95.0|0.72|2.0|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.00|0.72|0.475
82446128|NCT01769196|164600619|OTHER||Hazard Ratio (HR)|1.2||||0.602|TWO_SIDED|95.0|0.61|2.37|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted, sLOXL2 level categories, and concomitant pirfenidone/nintedanib use at time of screening.|||2.37|0.61|0.602
82446129|NCT01769196|164600620|OTHER|The difference in OS between the treatment groups was assessed using the stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|0.99||||0.988|TWO_SIDED|95.0|0.43|2.28|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.28|0.43|0.988
82531092|NCT05027074|164759054|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.7|1.23|||||HR based on Andersen-Gill model with stratification factors of region, previous thrombosis of active AVG, and regular aspirin use up to 150 mg daily at baseline as fixed effect.|||1.23|0.70|
82405049|NCT02157519|164518124|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.21||0.603|TWO_SIDED|95.0|-0.31|0.53||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in symptom severity (MDASI-severity) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.53|-0.31|0.603
82576254|NCT02209181|164862051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.33||0.183|TWO_SIDED|95.0|-0.21|1.08||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.08|-0.21|0.183
82405050|NCT02157519|164518124|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.982|TWO_SIDED|95.0|-0.64|0.65||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in symptom interference (MDASI-interference) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post assessment.||0.65|-0.64|0.982
82405051|NCT02157519|164518125|SUPERIORITY||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.65||0.144|TWO_SIDED|95.0|-5.66|0.83||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in overall QOL (FACT-G) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.83|-5.66|0.144
82405052|NCT02157519|164518125|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.66||0.294|TWO_SIDED|95.0|-2.0|0.61||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in physical QOL (FACT-Physical Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) baseline from baseline to post-assessment.||0.61|-2.00|0.294
82405053|NCT02157519|164518125|SUPERIORITY||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|0.74||0.025|TWO_SIDED|95.0|-3.12|-0.21||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in social QOL (FACT-Social Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||-0.21|-3.12|0.025
82531093|NCT05027074|164759056|OTHER||Hazard Ratio (HR)|1.68||||0.022|TWO_SIDED|95.0|1.07|2.62||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||2.62|1.07|0.022
82405054|NCT02157519|164518125|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.58||0.392|TWO_SIDED|95.0|-0.64|1.63||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in emotional QOL (FACT-Emotional Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||1.63|-0.64|0.392
82531094|NCT05027074|164759056|OTHER||Hazard Ratio (HR)|1.27||||0.311|TWO_SIDED|95.0|0.8|2.0||From log-rank test stratified by region (US, Non-US), previous thrombosis of active AVG (yes, no) and regular aspirin use up to 150 mg daily at baseline (yes, no).|Log Rank||HR based on stratified Cox model with Efron's method of tie handling and with a single treatment covariate, controlling for stratification factors of region, previous thrombosis of active AVG and regular aspirin use up to 150 mg daily at baseline.|||2.00|0.800|0.311
82531095|NCT01567865|164759082|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|1.84|||||TWO_SIDED|95.0|-5.97|9.66||||||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||9.66|-5.97|
82535307|NCT00783718|164768647|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.0|||<|0.0001|TWO_SIDED|95.0|20.3|43.8||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||43.8|20.3|< 0.0001
82405055|NCT02157519|164518125|SUPERIORITY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.6||0.216|TWO_SIDED|95.0|-1.94|0.44||threshold p \<0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the change in functional QOL (FACT-Functional Well-Being) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.44|-1.94|0.216
82405056|NCT02157519|164518126|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.28||0.17|TWO_SIDED|95.0|-0.93|0.17||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post assessment||Analysis comparing change in treatment satisfaction with clinician explanations (FACIT-TS-PS-Clinician Explanations) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.17|-0.93|0.170
82405057|NCT02157519|164518126|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.057|TWO_SIDED|95.0|-0.72|0.01||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post assessment||Analysis comparing change in satisfaction with interpersonal treatment (FACIT-TS-PS Interpersonal Treatment) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.01|-0.72|0.057
82405058|NCT02157519|164518126|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.72||0.178|TWO_SIDED|95.0|-2.39|0.45||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with comprehensive care (FACIT-TS-PS Comprehensive Care) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.45|-2.39|0.178
82405059|NCT02157519|164518126|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.481|TWO_SIDED|95.0|-0.35|0.75||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with nursing care (FACIT-TS-PS Nursing Care) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.75|-0.35|0.481
82405060|NCT02157519|164518126|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.97|TWO_SIDED|95.0|-0.34|0.35||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing change in treatment satisfaction with trust in clinicians (FACIT-TS-PS Trust in Clinicians) from baseline to post-assessment between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.35|-0.34|0.970
82405061|NCT02157519|164518127|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.682|TWO_SIDED|95.0|-0.15|0.1||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of emergency department (ED) visits over the study period between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment.||0.10|-0.15|0.682
82405062|NCT02157519|164518128|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.64|TWO_SIDED|95.0|-0.24|0.15||threshold p \< 0.05|Regression, Linear|Adjusted for change in perceived social support (MSPSS) from baseline to post-assessment||Analysis comparing the number of hospitalizations over they study period between groups adjusting for change in perceived social support (MSPSS) from baseline to post-assessment||0.15|-0.24|0.640
82405063|NCT01656395|164518129|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.685|TWO_SIDED|95.0|-0.084|0.127|||cLDA model|||Difference in least squares (LS) means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 10 mg vs. Placebo. Constrained longitudinal data analysis (cLDA) model includes terms for visit as categorical variable, prior inhaled corticosteroid (ICS) use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.127|-0.084|0.685
82646146|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.507|TWO_SIDED|95.0|0.39|1.58|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.58|0.39|0.5070
82646147|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.5426|TWO_SIDED|95.0|0.73|1.83|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||1.83|0.73|0.5426
82405064|NCT01656395|164518129|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.477|TWO_SIDED|95.0|-0.149|0.07|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.07|-0.149|0.477
82405065|NCT01656395|164518129|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.733|TWO_SIDED|95.0|-0.092|0.13|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.13|-0.092|0.733
82405066|NCT01656395|164518129|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.89|TWO_SIDED|95.0|-0.115|0.1|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.1|-0.115|0.89
82405067|NCT01656395|164518129|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.935|TWO_SIDED|95.0|-0.109|0.1|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in FEV1: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.1|-0.109|0.935
82405068|NCT01656395|164518132|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.169|TWO_SIDED|95.0|-17.48|3.08|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 10 mg vs. Placebo. Analysis of variance (ANOVA) model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||3.08|-17.48|0.169
82405069|NCT01656395|164518132|SUPERIORITY||Mean Difference (Final Values)|-9.092||||0.092|TWO_SIDED|95.0|-19.67|1.485|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 30 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||1.485|-19.67|0.092
82405070|NCT01656395|164518132|SUPERIORITY||Mean Difference (Final Values)|-9.469||||0.083|TWO_SIDED|95.0|-20.19|1.25|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 60 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||1.25|-20.19|0.083
82405071|NCT01656395|164518132|SUPERIORITY||Mean Difference (Final Values)|-4.666||||0.367|TWO_SIDED|95.0|-14.83|5.501|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: MK- 1029 150 mg vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||5.501|-14.83|0.367
82405072|NCT01656395|164518132|SUPERIORITY||Mean Difference (Final Values)|-5.247||||0.308|TWO_SIDED|95.0|-15.36|4.871|||ANOVA|||Difference in LS means for percent of asthma exacerbation day over Week 6 through Week 12: Montelukast vs. Placebo. ANOVA model includes the terms for treatment groups and prior ICS use (Yes/No). Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||4.871|-15.36|0.308
82405073|NCT01656395|164518133|SUPERIORITY||Mean Difference (Final Values)|-0.122||||0.429|TWO_SIDED|95.0|-0.427|0.182|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.182|-0.427|0.429
82405074|NCT01656395|164518133|SUPERIORITY||Mean Difference (Final Values)|0.142||||0.37|TWO_SIDED|95.0|-0.169|0.454|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.454|-0.169|0.370
82576255|NCT02209181|164862051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-2.11|-0.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.84|-2.11|<0.001
82646148|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.515|TWO_SIDED|95.0|0.52|1.38|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.38|0.52|0.5150
82646149|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.435|TWO_SIDED|95.0|0.53|4.42|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||4.42|0.53|0.4350
82405075|NCT01656395|164518133|SUPERIORITY||Mean Difference (Final Values)|-0.089||||0.579|TWO_SIDED|95.0|-0.402|0.225|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.225|-0.402|0.579
82405076|NCT01656395|164518133|SUPERIORITY||Mean Difference (Final Values)|0.156||||0.305|TWO_SIDED|95.0|-0.142|0.454|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.454|-0.142|0.305
82531096|NCT01567865|164759082|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|-2.48|||<|0.05|TWO_SIDED|95.0|-9.92|4.98|||t-test, 2 sided|The 95% CI for the difference in rates is calculated based on the Newcombe-Wilson method without continuity correction.||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||4.98|-9.92|<0.05
82646150|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.8276|TWO_SIDED|95.0|0.37|3.43|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||3.43|0.37|0.8276
82646151|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.4022|TWO_SIDED|95.0|0.69|2.5|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||2.50|0.69|0.4022
82646152|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8681|TWO_SIDED|95.0|0.48|1.86|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.86|0.48|0.8681
82646153|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.6326|TWO_SIDED|95.0|0.2|13.86|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||13.86|0.20|0.6326
82646154|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.577|TWO_SIDED|95.0|0.21|16.86|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||16.86|0.21|0.5770
82646155|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.8087|TWO_SIDED|95.0|0.4|3.21|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||3.21|0.40|0.8087
82646156|NCT01236053|165007151|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8497|TWO_SIDED|95.0|0.31|2.64|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.64|0.31|0.8497
82646157|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.1528|TWO_SIDED|95.0|0.88|2.24|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.24|0.88|0.1528
82646158|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.9625|TWO_SIDED|95.0|0.62|1.65|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.65|0.62|0.9625
82646159|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.48|2.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.59|1.48|<0.0001
82646160|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.0006|TWO_SIDED|95.0|1.25|2.29|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.29|1.25|0.0006
82646161|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.3515|TWO_SIDED|95.0|0.76|2.16|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.16|0.76|0.3515
82405077|NCT01656395|164518133|SUPERIORITY||Mean Difference (Final Values)|-0.136||||0.372|TWO_SIDED|95.0|-0.434|0.163|||cLDA model|||Difference in LS means for average change from Baseline to Week 12 in DSS: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.163|-0.434|0.372
82405078|NCT01656395|164518134|SUPERIORITY||Mean Difference (Final Values)|-0.528||||0.114|TWO_SIDED|95.0|-1.184|0.128|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use(Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.128|-1.184|0.114
82646162|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9069|TWO_SIDED|95.0|0.59|1.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.82|0.59|0.9069
82646163|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001|TWO_SIDED|95.0|1.78|3.21|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.21|1.78|<0.0001
82646164|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.0001|TWO_SIDED|95.0|1.48|2.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||2.81|1.48|<0.0001
82646165|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5948|TWO_SIDED|95.0|0.7|1.88|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.88|0.70|0.5948
82646166|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.3984|TWO_SIDED|95.0|0.47|1.35|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.35|0.47|0.3984
82646167|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.1872|TWO_SIDED|95.0|0.89|1.79|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.79|0.89|0.1872
82531097|NCT01567865|164759082|EQUIVALENCE|The 3 lots of new GMP facility LJEVac would be considered equivalent (i.e., the SP does not differ between lots by ≥10%) if all 3 null hypotheses are rejected, and the alternate hypotheses are accepted.|Mean Difference (Net)|-4.33|||<|0.05|TWO_SIDED|95.0|-11.94|3.31|||t-test, 2 sided|||"Null hypotheses: each new lot does not differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. With a total study population of only 772 subjects, the power of the study to test lot-to-lot consistency declined from 90% to 85%."||3.31|-11.94|<0.05
82531098|NCT01567865|164759082|NON_INFERIORITY|The new GMP facility lots will be considered non-inferior (i.e., equivalent) to the existing facility lot if the null hypothesis is rejected and the alternate hypothesis is accepted.|Mean Difference (Net)|-4.03|||<|0.05|TWO_SIDED|95.0|-9.74|3.1|||t-test, 2 sided|The 95% CI for the difference in rates is calculated based on the Newcombe-Wilson method without continuity correction.||"Null hypothesis: reference lot vs. Lot 1, 2, and 3 combined do differ in seroprotection (SP) rates among each other by more than 10%.~Slower than anticipated enrollment resulted in a smaller number of subjects with antibody response data for analysis. Consequently, additional power estimates were made in anticipation of the occurrence of smaller sample sizes. The power of the study to test non-inferiority of the combined new lots compared to the reference lot dropped from 99% to 87%."||3.1|-9.74|<0.05
82646168|NCT01236053|165007152|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.6772|TWO_SIDED|95.0|0.64|1.34|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, COPD."|||1.34|0.64|0.6772
82646169|NCT01236053|165007153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.4933|TWO_SIDED|95.0|0.07|3.72|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||3.72|0.07|0.4933
82646170|NCT01236053|165007153|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.4147|TWO_SIDED|95.0|0.06|3.27|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||3.27|0.06|0.4147
82646171|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.8257|TWO_SIDED|95.0|0.15|10.38|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||10.38|0.15|0.8257
82646172|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.9467|TWO_SIDED|95.0|0.13|9.02|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||9.02|0.13|0.9467
82646173|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9859|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||0.00|0.00|0.9859
82405079|NCT01656395|164518134|SUPERIORITY||Mean Difference (Final Values)|-0.075||||0.827|TWO_SIDED|95.0|-0.75|0.6|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.6|-0.75|0.827
82405080|NCT01656395|164518134|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.75|TWO_SIDED|95.0|-0.789|0.569|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.569|-0.789|0.75
82405081|NCT01656395|164518134|SUPERIORITY||Mean Difference (Final Values)|0.275||||0.403|TWO_SIDED|95.0|-0.371|0.921|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.921|-0.371|0.403
82405082|NCT01656395|164518134|SUPERIORITY||Mean Difference (Final Values)|-0.389||||0.237|TWO_SIDED|95.0|-1.035|0.257|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in SABA use: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.257|-1.035|0.237
82405083|NCT01656395|164518135|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.565|TWO_SIDED|95.0|-1.066|0.583|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.583|-1.066|0.565
82405084|NCT01656395|164518135|SUPERIORITY||Mean Difference (Final Values)|0.135||||0.754|TWO_SIDED|95.0|-0.713|0.983|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.983|-0.713|0.754
82531099|NCT05569954|164759090|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-1.6|||||TWO_SIDED|95.0|-4.0|0.7|||||V116 minus PPSV23|Injection site erythema: estimated difference in percent||0.7|-4.0|
82646174|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9857|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9857
82646175|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.986|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||0.00|0.00|0.9860
82646176|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9858|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9858
82405085|NCT01656395|164518135|SUPERIORITY||cLDA model|-0.251||||0.563|TWO_SIDED|95.0|-1.104|0.603|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.603|-1.104|0.563
82446130|NCT01769196|164600621|OTHER|The difference in OS between the treatment groups was assessed using the stratified log-rank test, adjusted for screening post-bronchodilator FVC % predicted and concomitant use of pirfenidone or nintedanib (P/N) at time of screening.|Hazard Ratio (HR)|0.95||||0.925|TWO_SIDED|95.0|0.3|2.99|||Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for screening post-bronchodilator FVC % predicted and concomitant pirfenidone/nintedanib use at time of screening.|||2.99|0.30|0.925
82405086|NCT01656395|164518135|SUPERIORITY||Mean Difference (Final Values)|-0.241||||0.559|TWO_SIDED|95.0|-1.053|0.571|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.571|-1.053|0.559
82405087|NCT01656395|164518135|SUPERIORITY||Mean Difference (Final Values)|-0.071||||0.863|TWO_SIDED|95.0|-0.883|0.741|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in nocturnal awakenings: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.741|-0.883|0.863
82405088|NCT01656395|164518136|SUPERIORITY||Mean Difference (Final Values)|0.544||||0.958|TWO_SIDED|95.0|-19.92|21.007|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||21.007|-19.92|0.958
82405089|NCT01656395|164518136|SUPERIORITY||Mean Difference (Final Values)|6.251||||0.559|TWO_SIDED|95.0|-14.81|27.307|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK- 1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||27.307|-14.81|0.559
82405090|NCT01656395|164518136|SUPERIORITY||Median Difference (Final Values)|9.575||||0.374|TWO_SIDED|95.0|-11.62|30.766|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||30.766|-11.62|0.374
82405091|NCT01656395|164518136|SUPERIORITY||Mean Difference (Final Values)|5.114||||0.618|TWO_SIDED|95.0|-15.04|25.272|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||25.272|-15.04|0.618
82405092|NCT01656395|164518136|SUPERIORITY||Mean Difference (Final Values)|-1.604||||0.876|TWO_SIDED|95.0|-21.76|18.554|||cLDA model|||Difference in LS means for average change from Baseline over Week 6 to Week 12 in AM/PM PEF: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||18.554|-21.76|0.876
82405093|NCT01656395|164518137|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.682|TWO_SIDED|95.0|-0.288|0.44|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.440|-0.288|0.682
82405094|NCT01656395|164518137|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.807|TWO_SIDED|95.0|-0.422|0.329|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.329|-0.422|0.807
82405095|NCT01656395|164518137|SUPERIORITY||Mean Difference (Final Values)|0.165||||0.403|TWO_SIDED|95.0|-0.222|0.552|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.552|-0.222|0.403
82405096|NCT01656395|164518137|SUPERIORITY||Mean Difference (Final Values)|0.375||||0.051|TWO_SIDED|95.0|-0.001|0.751|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.751|-0.001|0.051
82405097|NCT01656395|164518137|SUPERIORITY||Mean Difference (Final Values)|0.319||||0.086|TWO_SIDED|95.0|-0.045|0.683|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in AQLQ(S) Overall Score: Montelukast vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Positive differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.683|-0.045|0.086
82405098|NCT01656395|164518138|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.7687|TWO_SIDED|95.0|-16.0|21.3|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 10 mg vs. Placebo. P-values, estimates and 95% confidence intervals (CIs) are based on the Miettinen and Nurminen (MN) method stratified by prior ICS use (Yes/No).||21.3|-16.0|0.7687
82405099|NCT01656395|164518138|SUPERIORITY||Mean Difference (Final Values)|-6.6||||0.4943|TWO_SIDED|95.0|-24.9|12.2|||MN Method|||Difference for AQLQ(S) Response Rate: MK-1029 30 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||12.2|-24.9|0.4943
82446131|NCT00126776|164600633|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||mean cumulative frequency|||primary outcome is mean cumulative frequency of COPD related hospitlaizations and ED visits ;ver 1 yr: 0.48 for disease management; 0.82 for usual care, difference 0.34 (95% CI 0.15 to 0.52; P\<0.001)||||< 0.001
82405100|NCT01656395|164518138|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.3003|TWO_SIDED|95.0|-9.4|29.6|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 60 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||29.6|-9.4|0.3003
82405101|NCT01656395|164518138|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.0774|TWO_SIDED|95.0|-1.9|35.7|||MN method|||Difference for AQLQ(S) Response Rate: MK-1029 150 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||35.7|-1.9|0.0774
82405102|NCT01656395|164518138|SUPERIORITY||Mean Difference (Final Values)|18.2||||0.0555|TWO_SIDED|95.0|-0.4|35.5|||MN method|||Difference for AQLQ(S) Response Rate: Montelukast vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||35.5|-0.4|0.0555
82405103|NCT01656395|164518139|SUPERIORITY||Mean Difference (Final Values)|-0.104||||0.603|TWO_SIDED|95.0|-0.495|0.288|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 10 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.288|-0.495|0.603
82405104|NCT01656395|164518139|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.875|TWO_SIDED|95.0|-0.436|0.372|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 30 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.372|-0.436|0.875
82405105|NCT01656395|164518139|SUPERIORITY||Mean Difference (Final Values)|-0.151||||0.476|TWO_SIDED|95.0|-0.568|0.265|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 60 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.265|-0.568|0.476
82405106|NCT01656395|164518139|SUPERIORITY||Mean Difference (Final Values)|-0.362||||0.079|TWO_SIDED|95.0|-0.767|0.042|||cLDA model|||Difference in LS means for change from Baseline to Week 12 in ACQ Score: MK-1029 150 mg vs. Placebo. cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.042|-0.767|0.079
82405107|NCT01656395|164518139|SUPERIORITY||Mean Difference (Final Values)|-0.227||||0.257|TWO_SIDED|95.0|-0.621|0.166|||cLDA model|||"Difference in LS means for change from Baseline to Week 12 in ACQ Score: Montelukast vs. Placebo.~cLDA model includes terms for visit as categorical variable, prior ICS use (Yes/No) and treatment by visit. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast)."||0.166|-0.621|0.257
82405108|NCT01656395|164518140|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.742|TWO_SIDED|95.0|-15.1|21.1|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 10 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||21.1|-15.1|0.742
82446132|NCT02868229|164600720|SUPERIORITY||Differences of LS Means|-5.666||||0.002|TWO_SIDED|95.0|-9.082|-2.25|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-2.250|-9.082|0.002
82405109|NCT01656395|164518140|SUPERIORITY||Mean Difference (Final Values)|-3.4||||0.7248|TWO_SIDED|95.0|-22.1|15.4|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 30 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||15.4|-22.1|0.7248
82405110|NCT01656395|164518140|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.6991|TWO_SIDED|95.0|-15.6|22.6|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 60 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||22.6|-15.6|0.6991
82405111|NCT01656395|164518140|SUPERIORITY||Mean Difference (Final Values)|8.1||||0.3934|TWO_SIDED|95.0|-10.6|26.2|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: MK-1029 150 mg vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||26.2|-10.6|0.3934
82405112|NCT01656395|164518140|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.8032|TWO_SIDED|95.0|-16.0|20.5|||MN method|||Difference for change from Baseline to Week 12 in ACQ response rate: Montelukast vs. Placebo. P-values, estimates and 95% CIs are based on the MN method stratified by prior ICS use (Yes/No).||20.5|-16.0|0.8032
82405113|NCT01656395|164518141|SUPERIORITY||Mean Difference (Final Values)|-0.075||||0.873|TWO_SIDED|95.0|-1.004|0.853|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 10 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK- 1029 or Montelukast).||0.853|-1.004|0.873
82405114|NCT01656395|164518141|SUPERIORITY||Mean Difference (Final Values)|-0.376||||0.437|TWO_SIDED|95.0|-1.326|0.575|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 30 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.575|-1.326|0.437
82446133|NCT02868229|164600720|SUPERIORITY||Differences of LS Means|-6.913|||<|0.001|TWO_SIDED|95.0|-10.613|-3.214|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-3.214|-10.613|<0.001
82531100|NCT05569954|164759090|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|3.7|||||TWO_SIDED|95.0|-1.2|8.7|||||V116 minus PPSV23|Injection site pain: estimated difference in percent||8.7|-1.2|
82531101|NCT05569954|164759090|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.6|||||TWO_SIDED|95.0|-1.6|2.7|||||V116 minus PPSV23|Injection site swelling: estimated difference in percent||2.7|-1.6|
82405115|NCT01656395|164518141|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.27|TWO_SIDED|95.0|-1.504|0.423|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 60 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.423|-1.504|0.270
82405116|NCT01656395|164518141|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.865|TWO_SIDED|95.0|-0.839|0.997|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: MK-1209 150 mg vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.997|-0.839|0.865
82405117|NCT01656395|164518141|SUPERIORITY||Mean Difference (Final Values)|-0.309||||0.503|TWO_SIDED|95.0|-1.219|0.6|||ANOVA|||Difference in LS means for percent of asthma attack days over Week 6 to Week 12 of a 12-week treatment period: Montelukast vs. Placebo. ANOVA model includes terms for prior ICS use (Yes/No) and treatment. Negative differences are in favor of the first treatment group in the comparison (MK-1029 or Montelukast).||0.600|-1.219|0.503
82531102|NCT05569954|164759091|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.9|||||TWO_SIDED|95.0|-2.9|4.6|||||V116 minus PPSV23|Fatigue: estimated difference in percent||4.6|-2.9|
82531103|NCT05569954|164759091|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|1.7||||||95.0|-1.8|5.1|||||V116 minus PPSV23|Headache: estimated difference in percent||5.1|-1.8|
82531104|NCT05569954|164759091|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-0.7||||||95.0|-3.1|1.7|||||V116 minus PPSV23|Myalgia: estimated difference in percent||1.7|-3.1|
82531105|NCT05569954|164759091|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|-0.3||||||95.0|-1.5|0.9|||||V116 minus PPSV23|Pyrexia: estimated difference in percent||0.9|-1.5|
82531106|NCT05569954|164759092|OTHER|Estimated difference in percent and 95% confidence intervals (CI) were based on the Miettinen \& Nurminen method.|Difference in Percent|0.0||||||95.0|-0.5|0.5|||||V116 minus PPSV23|Vaccine-Related Serious Adverse Events||0.5|-0.5|
82531107|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.23||1-sided|cLDA model||V116/PPSV23|Serotype 3: V116/PPSV23 GMT Ratio||1.23|0.96|<0.001
82646177|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9798|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||0.00|0.00|0.9798
82646178|NCT01236053|165007154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.9796|TWO_SIDED|95.0|0.0|0.0|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||0.00|0.00|0.9796
82405118|NCT02318849|164518146|SUPERIORITY||Change in percentage|0.09||||0.009|TWO_SIDED||||||Mixed Models Analysis|The anaylsis was adjusted for student characteristics.||The null hypothesis was that the of number students who report being a donor (or talking to parents about organ donation) both before and after exposure to the intervention would be equivalent. A secondary null hypothesis would be that longer expsosures to the intervention over time would not increase the number who report becoming a donor at the final assessment.||||0.009
82405119|NCT02318849|164518147|SUPERIORITY||Change in percentage|0.0|||>|0.1|TWO_SIDED|||||Calculated|Mixed Models Analysis|||||||>0.10
82405120|NCT01039467|164518155|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405121|NCT01039467|164518156|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405122|NCT01039467|164518157|SUPERIORITY_OR_OTHER_LEGACY|||||||0.833||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.833
82405123|NCT01039467|164518158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.265||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.265
82405124|NCT01039467|164518159|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82531108|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.47|||<|0.001|TWO_SIDED|95.0|1.29|1.68||1-sided|cLDA model||V116/PPSV23|Serotype 7F: V116/PPSV23 GMT Ratio||1.68|1.29|<0.001
82531109|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.17|||<|0.001|TWO_SIDED|95.0|1.04|1.32||1-sided|cLDA model||V116/PPSV23|Serotype 8: V116/PPSV23 GMT Ratio||1.32|1.04|<0.001
82531110|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.12|||<|0.001||95.0|1.0|1.26||1-sided|cLDA model||V116/PPSV23|Serotype 9N: V116/PPSV23 GMT Ratio||1.26|1.00|<0.001
82531111|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.37|1.77|||cLDA model||V116/PPSV23|Serotype 10A: V116/PPSV23 GMT Ratio||1.77|1.37|<0.001
82531112|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|2.05|||<|0.001||95.0|1.82|2.31|||cLDA model||V116/PPSV23|Serotype 11A: V116/PPSV23 GMT Ratio||2.31|1.82|<0.001
82531113|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.63|||<|0.001|TWO_SIDED|95.0|1.4|1.9|||cLDA model||V116/PPSV23|Serotype 12F: V116/PPSV23 GMT Ratio||1.90|1.40|<0.001
82531114|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|2.02|||<|0.001|TWO_SIDED|95.0|1.77|2.31|||cLDA model||V116/PPSV23|Serotype 17F: V116/PPSV23GMT Ratio||2.31|1.77|<0.001
82405125|NCT01039467|164518160|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405126|NCT01039467|164518161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0008
82405127|NCT01039467|164518162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.053
82405128|NCT01039467|164518163|SUPERIORITY_OR_OTHER_LEGACY|||||||0.493||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.493
82405129|NCT04073303|164518168|SUPERIORITY||Rate-Difference|49.0|||<|0.0001|TWO_SIDED|95.0|40.1|54.1|||Cochran-Mantel-Haenszel|||||54.1|40.1|<0.0001
82405130|NCT04073303|164518169|SUPERIORITY||Rate-Difference|71.2|||<|0.0001|TWO_SIDED|95.0|60.7|76.3|||Cochran-Mantel-Haenszel|||||76.3|60.7|<0.0001
82405131|NCT04073303|164518170|SUPERIORITY||Rate-Difference|56.7|||<|0.0001|TWO_SIDED|95.0|45.6|64.5|||Cochran-Mantel-Haenszel|||||64.5|45.6|<0.0001
82405132|NCT04073303|164518171|SUPERIORITY||Rate-Difference|49.7|||<|0.0001|TWO_SIDED|95.0|40.6|57.4|||Cochran-Mantel-Haenszel|||||57.4|40.6|<0.0001
82405133|NCT04073303|164518172|SUPERIORITY||Rate-Difference|70.5|||<|0.0001|TWO_SIDED|95.0|59.6|77.5|||Cochran-Mantel-Haenszel|||||77.5|59.6|<0.0001
82405134|NCT04073303|164518173|SUPERIORITY||LS Mean of Difference|-5.19|||<|0.0001|TWO_SIDED|95.0|-5.64|-4.75|||ANCOVA|||||-4.75|-5.64|<0.0001
82405135|NCT03126786|164518185|SUPERIORITY|The sample size was determined such that the difference in visual acuity between the ACTIVE treatment group and CONTROL treatment group could be estimated within +/- five ETDRS letters. Week 24 data from the Eylea prescribing information was used to estimate a pooled standard deviation of 9.17 letters. With 28 subjects per arm, a two-sided 90% confidence interval with a distance from the mean difference to the limits (half of interval width) will be less than 5 letters.|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.28||0.288|TWO_SIDED|90.0|-6.2|1.4||There was a single primary outcome tested at a single primary endpoint, therefore no adjustments for multiple comparisons were performed. The primary endpoint was assess with a 2-sided alpha level of 0.100.|Mixed model for repeat measures|The covariance structure was assumed to be unstructured.|Estimated Value calculated as Active minus Control.|The primary efficacy analysis comparing ACTIVE with CONTROL on the mean change from baseline (Visit 2, Day 0) BCVA at Week 12 was be performed using a Mixed Model for Repeated Measurements (MMRM). This model included treatment (ACTIVE or CONTROL), visit (Visit 3 (Week 4), Visit 4 (Week 8), and Visit 5 (Week 12), Visit 6 (Week 16), Visit 7 (Week 20) and Visit 8 (Week 24), and the 2-way interactions of treatment and visit, and the BCVA baseline included as the covariate.||1.4|-6.2|0.288
82405136|NCT03113968|164518187|NON_INFERIORITY|The Farrington-Manning score test was used to assess the noninferiority of KET.|||||<|0.001|||||||The Farrington-Manning score test|||||||<.001
82405137|NCT03113968|164518188|SUPERIORITY||Mean Difference (Net)|9.3|||||TWO_SIDED||||||||||P-values not reported|||
82446134|NCT02868229|164600720|SUPERIORITY||Differences of LS Means|-9.591|||<|0.001|TWO_SIDED|95.0|-13.217|-5.965|||ANCOVA|||The P-value was obtained from rank transformed analysis of covariance (ANCOVA) model, where the rank transformed change from baseline (CFB) values as the response variable and treatments as a factor and the rank transformed baseline value as its covariate.||-5.965|-13.217|<0.001
82446135|NCT03270891|164600868|SUPERIORITY|Null hypothesis of equality.||||||0.0115|||||||t-test, 2 sided|||Baseline and 6 month values||||0.0115
82405138|NCT04805671|164518189|SUPERIORITY||Risk Difference (RD)|-8.7||||0.0047|TWO_SIDED|95.0|-14.71|-2.67|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-2.67|-14.71|0.0047
82405139|NCT04805671|164518194|SUPERIORITY||Risk Difference (RD)|-11.3||||0.0007|TWO_SIDED|95.0|-17.86|-4.81|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-4.81|-17.86|0.0007
82405140|NCT04805671|164518195|SUPERIORITY||Risk Difference (RD)|-8.7||||0.0047|TWO_SIDED|95.0|-14.71|-2.67|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-2.67|-14.71|0.0047
82405141|NCT04805671|164518196|SUPERIORITY||Risk Difference (RD)|-11.3||||0.0007|TWO_SIDED|95.0|-17.86|-4.81|||Regression, Logistic|||ADG20 vs Placebo|A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-4.81|-17.86|0.0007
82405142|NCT04805671|164518197|SUPERIORITY||Hazard Ratio (HR)|1.237||||0.0938|TWO_SIDED|95.0|0.964|1.586|||Regression, Cox|||ADG20 vs. Placebo||1.586|0.964|0.0938
82405143|NCT04805671|164518198|SUPERIORITY||Hazard Ratio (HR)|0.137||||0.0361|TWO_SIDED|95.0|0.016|1.162|||Regression, Cox|||ADG20 vs Placebo||1.162|0.016|0.0361
82405144|NCT04805671|164518199|SUPERIORITY||Hazard Ratio (HR)|1.255||||0.0781|TWO_SIDED|95.0|0.974|1.617|||Regression, Cox|||ADG20 vs Placebo||1.617|0.974|0.0781
82405145|NCT04805671|164518200|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.4976|TWO_SIDED|95.0|-0.66|0.32|||ANCOVA|||ADG20 vs. Placebo||0.32|-0.66|0.4976
82446136|NCT03270891|164600868|SUPERIORITY|Null hypothesis of equality.||||||0.027|||||||t-test, 2 sided|||baseline to 6 month comparison||||0.027
82446137|NCT03270891|164600869|SUPERIORITY|Null hypothesis of equality.||||||0.0327|||||||t-test, 2 sided|||Baseline p value to six month||||0.0327
82446138|NCT03270891|164600869|SUPERIORITY|Null hypothesis of equality.||||||0.2088|||||||t-test, 2 sided|||baseline to 6 month comparison p value||||0.2088
82446139|NCT03270891|164600870|SUPERIORITY|Null hypothesis of equality.||||||0.947|||||||t-test, 2 sided|||baseline to 6 month comparison||||0.947
82446140|NCT06225466|164600874|SUPERIORITY||least squares mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.013||0.123|TWO_SIDED|95.0|-0.005|0.047|||ANOVA|||||0.047|-0.005|0.123
82446141|NCT06225466|164600875|SUPERIORITY||Odds Ratio (OR)|0.55||||0.102|TWO_SIDED|95.0|0.26|1.12|||Mixed Models Analysis|||||1.12|0.26|0.102
82531115|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.42|||<|0.001|TWO_SIDED|95.0|1.26|1.6|||cLDA model||V116/PPSV23|Serotype 19A: V116/PPSV23 GMT Ratio||1.60|1.26|<0.001
82576256|NCT02209181|164862051|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.98|-0.7||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.70|-1.98|<0.001
82576257|NCT02209181|164862052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.78|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|2.94|4.61||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.61|2.94|<0.001
82576258|NCT02209181|164862052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.42||0.037|TWO_SIDED|95.0|0.05|1.71||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.71|0.05|0.037
82576259|NCT02209181|164862052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.47|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|0.63|2.3||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.30|0.63|<0.001
82646179|NCT01236053|165007155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.6252|TWO_SIDED|95.0|0.2|14.84|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||14.84|0.20|0.6252
82646180|NCT01236053|165007155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.7208|TWO_SIDED|95.0|0.17|13.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||13.28|0.17|0.7208
82405146|NCT04805671|164518201|SUPERIORITY||Hazard Ratio (HR)|1.048||||0.7239|TWO_SIDED|95.0|0.806|1.364|||Regression, Cox|||||1.364|0.806|0.7239
82405147|NCT04805671|164518202|SUPERIORITY||Risk Difference (RD)|-11.1||||0.0364|TWO_SIDED|95.0|-21.42|-0.7|||Regression, Logistic|||||-0.70|-21.42|0.0364
82531116|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.66|||<|0.001|TWO_SIDED|95.0|1.46|1.88|||cLDA model||V116/PPSV23|Serotype 20A: V116/PPSV23 GMT Ratio||1.88|1.46|<0.001
82531117|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|1.53|||<|0.001|TWO_SIDED|95.0|1.34|1.75|||cLDA model||V116/PPSV23|Serotype 22F: V116/PPSV23 GMT Ratio||1.75|1.34|<0.001
82576260|NCT02209181|164862052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.73|-2.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.07|-3.73|<0.001
82576261|NCT02209181|164862052|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.15|-1.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.47|-3.15|<0.001
82576262|NCT02209181|164862053|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.34|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|3.43|5.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.25|3.43|<0.001
82576263|NCT02209181|164862053|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.46||0.067|TWO_SIDED|95.0|-0.06|1.75||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.75|-0.06|0.067
82646181|NCT01236053|165007157|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.9141|TWO_SIDED|95.0|0.14|9.03|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||9.03|0.14|0.9141
82646182|NCT01236053|165007157|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.9613|TWO_SIDED|95.0|0.12|7.78|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||7.78|0.12|0.9613
82405148|NCT04805671|164518203|SUPERIORITY||Risk Difference (RD)|8.2||||0.0227|TWO_SIDED|95.0|1.15|15.31||The p-value and risk difference reported was calculated based on the Day 5 timepoint.|Regression, Logistic|||||15.31|1.15|0.0227
82405149|NCT04805671|164518204|SUPERIORITY||Mean Difference (Final Values)|-6.93||||0.1124|TWO_SIDED|95.0|-15.49|1.64|||ANCOVA|||||1.64|-15.49|0.1124
82446142|NCT06225466|164600876|SUPERIORITY||Incidence rate ratio|2.37||||0.008|TWO_SIDED|95.0|1.25|4.52|||Negative Binomial Regression|||||4.52|1.25|0.008
82531118|NCT05569954|164759093|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>0.5 (one-sided p-value \<0.025).|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.76|1.04|||cLDA model||V116/PPSV23|Serotype 33F: V116/PPSV23 GMT Ratio||1.04|0.76|<0.001
82531119|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|3.31|||<|0.001|TWO_SIDED|95.0|2.84|3.87||1-sided|cLDA model||V116/PPSV23|Serotype 6A: V116/PPSV23 GMT Ratio||3.87|2.84|<0.001
82531120|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|4.61|||<|0.001|TWO_SIDED|95.0|3.99|5.33||1-sided|cLDA model||V116/PPSV23|Serotype 15A: V116/PPSV23 GMT Ratio||5.33|3.99|<0.001
82405150|NCT01261390|164518210|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.677|STANDARD_ERROR_OF_MEAN|1.652|||TWO_SIDED|95.0|-5.915|0.561|||||Presented average of the treatment effects on 24hr SBP at 6months and 12months: (6mo + 12mo)/ 2; Comparison: ActivePAP Control. Adjusted for randomization factors (CVD; site; sleepstudy type) with subjectspecific slopes and intercepts.|"We conducted a linear mixed effects regression (LMER) to estimate the treatment effect of CPAP on mean 24hour Systolic Blood Pressure (SBP). Timepoint, treatment, and the timepoint\* treatment interaction were included as fixed effects, as were randomization stratification factors. Subject was included as a random effect. Let: y = observed SBP; β = fixed effects; u = random effects; X = known design matrix; Z = vector of subjects~Then our model is:~y = Xβ + Zu + ε"||0.561|-5.915|
82405151|NCT01261390|164518211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.0||||0.003|TWO_SIDED||||||Mixed Models Analysis|Adjusted for intervention and study duration (number of nights), and randomization (CVD; site; diagnostic sleep study type; PAP device type).|Estimated value is minutes of use per night.|We performed a mixed effects analysis of the effect of Motivational Enhancement (ME) on nightly CPAP adherence. Our model included every night of data and adjusted for intervention and study duration (number of nights), as well as randomization stratification factors (CVD; site; diagnostic sleepstudy type; PAP device type).||||0.003
82405152|NCT03421379|164518251|NON_INFERIORITY|The pre-defined non-inferiority margin is (10%)|Treatment Difference Wald's Method|0.0|||||TWO_SIDED|95.0|-1.47|1.47||||||||1.47|-1.47|
82405153|NCT03066830|164518272|SUPERIORITY||Difference in Least Square (LS) Mean|-0.76|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-0.946|-0.574|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.574|-0.946|< 0.0001
82405154|NCT03066830|164518273|SUPERIORITY||Difference in LS Means|-1.608|STANDARD_ERROR_OF_MEAN|0.286|<|0.0001|TWO_SIDED|95.0|-2.1685|-1.0471|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-1.0471|-2.1685|< 0.0001
82405155|NCT03066830|164518274|SUPERIORITY||Difference in LS Means|-0.82|STANDARD_ERROR_OF_MEAN|1.272||0.5172|TWO_SIDED|95.0|-3.316|1.669|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening and country as fixed effects, and baseline SBP as a covariate.||1.669|-3.316|0.5172
82405156|NCT03066830|164518275|SUPERIORITY||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|0.983||0.2994|TWO_SIDED|95.0|-2.946|0.907|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥ 30 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.907|-2.946|0.2994
82405157|NCT03066830|164518276|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.267|<|0.0001|TWO_SIDED|95.0|-1.932|-0.884|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of Metformin use at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.884|-1.932|< 0.0001
82405158|NCT03066830|164518277|SUPERIORITY||Percentage difference|6.7||||0.0004|TWO_SIDED|95.0|3.03|10.47|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130,≥130 mmHg) at screening, randomization strata of metformin use at the screening. Missing data at Week 26 were assigned a status of non-responder in the analysis.||10.47|3.03|0.0004
82405159|NCT03066830|164518278|SUPERIORITY||Percentage difference|17.4|||<|0.0001|TWO_SIDED|95.0|11.16|23.73|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, randomization strata of Metformin use at screening. Missing data at Week 26 were assigned a status of non-responder in the analysis.||23.73|11.16|< 0.0001
82646183|NCT01236053|165007158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.0323|TWO_SIDED|95.0|1.02|1.57|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.57|1.02|0.0323
82405160|NCT01871077|164518281|OTHER|||||||0.89|||||||Friedman test|||||||0.890
82405161|NCT01871077|164518282|OTHER|||||||0.078|||||||Wilcoxon (Mann-Whitney)|||||||0.078
82405162|NCT01871077|164518283|OTHER|||||||1|||||||Friedman test|||||||1.000
82405163|NCT01871077|164518284|OTHER|||||||0.497|||||||Wilcoxon (Mann-Whitney)|||||||.497
82405164|NCT02686164|164518285|OTHER||Geometric Mean Ratio|0.914|||||TWO_SIDED|90.0|0.85|0.983||||||AUC(0-24) of Midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam Versus (vs.) Cycle 1 Day -3, Midazolam||0.983|0.850|
82405165|NCT02686164|164518285|OTHER||Geometric Mean Ratio|1.148|||||TWO_SIDED|90.0|0.938|1.404||||||AUC(0-24) of Midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.404|0.938|
82405166|NCT02686164|164518285|OTHER||Geometric Mean Ratio|1.12|||||TWO_SIDED|90.0|0.94|1.335||||||AUC(0-24) of 1'-hydroxy midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.335|0.940|
82405167|NCT02686164|164518285|OTHER||Geometric Mean Ratio|1.199|||||TWO_SIDED|90.0|1.057|1.36||||||AUC(0-24) of 1'-hydroxy midazolam: Cycle 1 Day 14, Lenvatinib (steady-state) + Midazolam vs.Cycle 1 Day -3, Midazolam||1.360|1.057|
82405168|NCT02686164|164518286|OTHER||Geometric Mean Ratio|0.862|||||TWO_SIDED|90.0|0.753|0.988||||||Cmax of Midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||0.988|0.753|
82405169|NCT02686164|164518286|OTHER||Geometric Mean Ratio|1.027|||||TWO_SIDED|90.0|0.852|1.238||||||Cmax of Midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.238|0.852|
82446143|NCT04676867|164600888|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
82405170|NCT02686164|164518286|OTHER||Geometric Mean Ratio|1.055|||||TWO_SIDED|90.0|0.879|1.268||||||Cmax of 1'-hydroxy midazolam: Cycle 1 Day 1, Lenvatinib (single-dose) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.268|0.879|
82405171|NCT02686164|164518286|OTHER||Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.845|1.046||||||Cmax of 1'-hydroxy midazolam: Cycle 1 Day 14, Lenvatinib (steady state) + Midazolam vs. Cycle 1 Day -3, Midazolam||1.046|0.845|
82405172|NCT04235504|164518336|SUPERIORITY||Mean Difference (Final Values)|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.1|||linear mixed model|||||-1.10|-1.74|<0.0001
82405173|NCT04235504|164518337|SUPERIORITY||Mean Difference (Final Values)|27.59|||<|0.0001|TWO_SIDED|95.0|21.59|33.6|||linear mixed model|||||33.60|21.59|<0.0001
82405174|NCT04235504|164518338|SUPERIORITY||Mean Difference (Final Values)|-27.86|||<|0.0001|TWO_SIDED|95.0|-34.16|-21.55|||linear mixed model|||||-21.55|-34.16|<0.0001
82405175|NCT04235504|164518339|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.6227|TWO_SIDED|95.0|-0.37|0.61|||linear mixed model|||||0.61|-0.37|0.6227
82405176|NCT04235504|164518340|SUPERIORITY||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-2.17|0.0||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||0.00|-2.17|
82646184|NCT01236053|165007158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.0682|TWO_SIDED|95.0|0.99|1.52|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.52|0.99|0.0682
82646185|NCT01236053|165007158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.0326|TWO_SIDED|95.0|1.01|1.4|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.40|1.01|0.0326
82405177|NCT04235504|164518341|SUPERIORITY||Mean Difference (Final Values)|28.81|||||TWO_SIDED|95.0|12.34|45.28||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||45.28|12.34|
82405178|NCT04235504|164518342|SUPERIORITY||Mean Difference (Final Values)|-28.45|||||TWO_SIDED|95.0|-45.27|-11.64||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||-11.64|-45.27|
82405179|NCT04235504|164518343|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.32|0.59||Due to the small sample size, p value will not be meaningful. Therefore, p value is not presented|linear mixed model|||||0.59|-1.32|
82405180|NCT00870467|164518350|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82646186|NCT01236053|165007158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.0699|TWO_SIDED|95.0|0.99|1.36|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.36|0.99|0.0699
82405181|NCT00870467|164518351|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82405182|NCT00870467|164518352|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82405183|NCT00870467|164518353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82646187|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.2893|TWO_SIDED|95.0|0.86|1.69|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.69|0.86|0.2893
82405184|NCT00870467|164518354|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82405185|NCT00870467|164518355|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82405186|NCT03839394|164518377|OTHER|||||||0.012|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.012
82405187|NCT03839394|164518378|OTHER|||||||0.05|||||||Z-test of Proportions|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.05
82405188|NCT03839394|164518379|OTHER|||||||0.75|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.750
82405189|NCT03839394|164518380|OTHER|||||||0.86|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.860
82405190|NCT03839394|164518381|OTHER|||||||0.76|||||||t-test, 2 sided|||This was a pilot study positioned to determine the effect size of a clinic-based intervention that has not been evaluated previously. Therefore, sample size was determined to be adequate to discern an effect size, but not powered to determine definitive statistical significance.||||0.760
82405191|NCT02493517|164518489|NON_INFERIORITY|The non-inferiority margin is defined as 0.6 SDS for the upper limit of 95% CI of the LS mean difference of the log-transformed IGF-1 SDS without back-transformation.|Treatment difference|-0.32|||||TWO_SIDED|95.0|-0.74|0.11||||||"The Least Square (LS) Means and 95% Confidence Intervals (CIs) were based on the generalised linear model (GLM) with IGF-1 SDS change from baseline values as dependent variable, with treatment group and previous pituitary surgery as independent factors, and the baseline value of IGF-1 SDS as independent covariate. A log-transformation with base e was applied to the IGF-1 SDS data before analysing.~The treatment difference (lanreotide Autogel - lanreotide PR) is presented."||0.11|-0.74|
82405192|NCT02493517|164518489|NON_INFERIORITY|The non-inferiority margin for the back-transformed LS Mean ratio of IGF-1 SDS of lanreotide Autogel versus lanreotide PR is exp (0.6) = 1.822.|LS Mean ratio|0.73|||||TWO_SIDED|95.0|0.48|1.11||||||"The LS Means and 95% CIs were based on the GLM with IGF-1 SDS change from baseline values as dependent variable, with treatment group and previous pituitary surgery as independent factors, and the baseline value of IGF-1 SDS as independent covariate. A log-transformation with base e was applied to the IGF-1 SDS data before analysing.~The LS Mean ratio (lanreotide Autogel versus lanreotide PR) is presented."||1.11|0.48|
82405193|NCT02493517|164518490|OTHER||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|-5.2|17.7||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of normal IGF-1 SDS values at EOST/EW Visit is presented.||17.7|-5.2|
82405194|NCT02493517|164518491|OTHER||Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-17.5|14.4||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of GH levels ≤2.5 mcg/L at EOST/EW Visit is presented.||14.4|-17.5|
82405195|NCT02493517|164518492|OTHER||Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-8.9|12.0||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage of GH levels ≤1 mcg/L at EOST/EW Visit is presented.||12.0|-8.9|
82405196|NCT02493517|164518493|OTHER||Risk Difference (RD)|4.7|||||TWO_SIDED|95.0|-3.1|12.5||||||The risk difference (lanreotide Autogel - lanreotide PR) in the percentage subjects with normal IGF-1 levels and who have GH levels \>1 mcg/L and ≤2.5 mcg/L at EOST/EW Visit is presented.||12.5|-3.1|
82405197|NCT02493517|164518494|OTHER||Treatment difference|3.63|STANDARD_DEVIATION|21.6|||TWO_SIDED|95.0|-3.98|11.25||||||Treatment difference (lanreotide Autogel - lanreotide PR) is presented.||11.25|-3.98|
82405198|NCT02493517|164518495|OTHER||Risk Difference (RD)|-5.5|||||TWO_SIDED|95.0|-24.3|13.3||||||Risk difference (lanreotide Autogel - lanreotide PR) in the percentage of subjects with at least 20% reduction in the solid component of tumour volume compared to Baseline is presented.||13.3|-24.3|
82405199|NCT03718429|164518500|SUPERIORITY|In line with recommendations for pilot investigations, since there were no preliminary data exploring the pharmacodynamic effects of vascular dose rivaroxaban in addition to antiplatelet therapy, we arbitrarily chose a sample size of 20 patients per treatment cohort.||||||0.275|||||||Wilcoxon (Mann-Whitney)|||||||0.275
82405200|NCT03718429|164518501|SUPERIORITY|||||||0.488|||||||Wilcoxon (Mann-Whitney)|||||||0.488
82405201|NCT03718429|164518502|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82405202|NCT05404711|164518505|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
82405203|NCT05404711|164518506|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
82405204|NCT05404711|164518507|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
82405205|NCT05404711|164518508|OTHER||AUC|0.56|||||TWO_SIDED|95.0|0.18|0.94|||||Area under the receiver operating characteristic curve (AUC) was 0.56 (95% CI 0.18-0.94) for 2-hour postprandial glucose.|||0.94|0.18|
82405206|NCT05404711|164518509|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
82405207|NCT05404711|164518510|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
82405208|NCT05404711|164518511|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
82405209|NCT05404711|164518512|OTHER||AUC|1.0|||||TWO_SIDED||||||||Area under the receiver operating characteristic curve (AUC) was 1.00 (based on 100% sensitivity) for elevated fasting glucose.|||||
82405210|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.18||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and HbA1c.||||0.3
82405211|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.5||||0.005|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and HbA1c.||||0.005
82405212|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.46||||0.01|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT glucose and HbA1c.||||0.01
82405213|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.23||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and HbA1c.||||0.2
82405214|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.14||||0.5|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and HbA1c.||||0.5
82405215|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|0.29||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose (mg/dL) and HbA1c.||||0.1
82405216|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.15||||0.4|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM correlation of variability (CV) and HbA1c.||||0.4
82405217|NCT05404711|164518513|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.06||||0.7|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation and HbA1c.||||0.7
82405218|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|0.25||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and laboratory-OGTT fasting glucose.||||0.2
82405219|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|0.19||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and lab-OGTT fasting glucose.||||0.3
82405220|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.1||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT and lab-OGTT fasting glucose.||||0.6
82405221|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|0.19||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and lab-OGTT fasting glucose.||||0.3
82405222|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|0.09||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and lab-OGTT fasting glucose.||||0.6
82405223|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|0.35||||0.05|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose and lab-OGTT fasting glucose.||||0.05
82446144|NCT04676867|164600889|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
82446145|NCT04676867|164600890|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
82646188|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.4301|TWO_SIDED|95.0|0.82|1.61|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.61|0.82|0.4301
82646189|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.0806|TWO_SIDED|95.0|0.97|1.58|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.58|0.97|0.0806
82646190|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.1226|TWO_SIDED|95.0|0.95|1.55|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.55|0.95|0.1226
82646191|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.3502|TWO_SIDED|95.0|0.8|1.89|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.89|0.80|0.3502
82646192|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4654|TWO_SIDED|95.0|0.76|1.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.81|0.76|0.4654
82646193|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.3987|TWO_SIDED|95.0|0.59|1.23|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.23|0.59|0.3987
82646194|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.3349|TWO_SIDED|95.0|0.58|1.2|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.20|0.58|0.3349
82446146|NCT04676867|164600891|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
82446147|NCT04676867|164600892|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
82446148|NCT04676867|164600893|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
82446149|NCT04676867|164600894|SUPERIORITY|||||||0.2|||||||Log Rank|||||||0.2
82446150|NCT04676867|164600895|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.2
82576264|NCT02209181|164862053|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.26|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|1.34|3.17||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.17|1.34|<0.001
82646195|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0827|TWO_SIDED|95.0|0.96|1.98|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.98|0.96|0.0827
82646196|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0932|TWO_SIDED|95.0|0.95|1.96|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.96|0.95|0.0932
82446151|NCT04676867|164600896|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82446152|NCT04676867|164600897|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
82446153|NCT04676867|164600898|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
82446154|NCT04676867|164600900|SUPERIORITY|||||||0.2|||||||ANOVA|||||||0.2
82446155|NCT04676867|164600901|SUPERIORITY|||||||0.2|||||||Regression, Logistic|||||||0.2
82446156|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||60.66|TWO_SIDED|95.0|0.85|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.85|60.66
82446157|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||95.21|TWO_SIDED|95.0|0.97|1.47||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.47|0.97|95.21
82446158|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||74.29|TWO_SIDED|95.0|0.88|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.88|74.29
82446159|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||99.48|TWO_SIDED|95.0|1.06|1.58||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.58|1.06|99.48
82446160|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||13.98|TWO_SIDED|95.0|0.66|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.66|13.98
82531121|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|2.92|||<|0.001||95.0|2.5|3.42||1-sided|cLDA model||V116/PPSV23|Serotype 15C: V116/PPSV23 GMT Ratio||3.42|2.50|<0.001
82646197|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.013|TWO_SIDED|95.0|1.07|1.8|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.80|1.07|0.0130
82646198|NCT01236053|165007159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.0241|TWO_SIDED|95.0|1.04|1.75|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.75|1.04|0.0241
82646199|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5043|TWO_SIDED|95.0|0.77|1.68|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.68|0.77|0.5043
82405224|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.18||||0.3|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM coefficient of variability (CV) and lab-OGTT fasting glucose.||||0.3
82405225|NCT05404711|164518514|OTHER|Spearman correlation analysis|Spearman correlation rho|-0.07||||0.7|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation (SD) and lab-OGTT fasting glucose.||||0.7
82405226|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.1||||0.6|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT fasting glucose and lab-OGTT 2-hour glucose.||||0.6
82405227|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.31||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT 2-hour glucose and lab-OGTT 2-hour glucose.||||0.1
82405228|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.25||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between delta (difference between fasting and postprandial) home-OGTT glucose and lab-OGTT 2-hour glucose.||||0.2
82405229|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.26||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between home-OGTT peak glucose and lab-OGTT 2-hour glucose.||||0.2
82405230|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.27||||0.2|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between time of home-OGTT peak glucose and lab-OGTT 2-hour glucose.||||0.2
82405231|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.31||||0.08|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM mean glucose and lab-OGTT 2-hour glucose.||||0.08
82405232|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.15||||0.4|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM coefficient of variability (CV) and lab-OGTT 2-hour glucose.||||0.4
82405233|NCT05404711|164518515|OTHER|Spearman correlation analysis|Spearman correlation rho|0.28||||0.1|TWO_SIDED||||||Spearman correlation|||Correlation analyses were performed to assess the relationship between CGM standard deviation (SD) and lab-OGTT 2-hour glucose.||||0.1
82405234|NCT00490971|164518539|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||The two treatment groups were compared using a weighted z-statistic based on rho-family of alpha spending function at information fraction of 85.0% at interim analysis analysis (rho=2.5) at 0.025 (1-sided) level. One-sided alpha at final was 0.0195.|Weighted Z- test|||Null hypothesis: there is no difference between Pali/Pali and Pali/Placebo in the time to recurrence of any mood symptoms related to bipolar I disorder. An interim analysis was performed when approximately 85% of the required number of recurrences were reported in Pali/Pali and Pali/Placebo treatment groups. A flexible group-sequential approach was adopted. The general family of alpha spending function based on the rho-family with rho=2.5 at overall type I error of 0.025 (1-sided) was employed.||||0.017
82405235|NCT00490971|164518540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The two treatment groups were compared using a weighted z-statistic based on rho-family of alpha spending function at information fraction of 81.9% at interim analysis analysis (rho=2.5) at 0.025 (1-sided) level. One-sided alpha at final was 0.0198.|Weighted z-test|||At the time of interim analysis of the primary efficacy endpoint, the proportion of recurrence of manic symptoms was 81.9% of the number of recurrence of manic symptoms at final analysis. A flexible group-sequential approach was adopted. The general family of alpha spending function based on the rho-family with rho=2.5 at overall type I error of 0.025 (1-sided) was employed.||||<0.001
82405236|NCT00490971|164518541|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.53|1.46||Cox proportional hazards regression was performed with treatment (Pali/Placebo, Pali/Pali) as a factor. The 2 treatment groups were compared by means of a hazard ratio (Pali/Placebo: Pali/Pali)|Regression, Cox|The percent of participants who reported recurrence of depressive symptoms was: 18% Pali/Placebo, 24% Pali/Pali.|Hazard ratio was estimated with Pali/Placebo in the numerator and Pali/Pali in the denominator|||1.46|0.53|
82405237|NCT00490971|164518542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|||<|0.001|TWO_SIDED|95.0|-6.92|-1.98|||ANCOVA|ANCOVA model with treatment group (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||-1.98|-6.92|<0.001
82531122|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|4.5|||<|0.001|TWO_SIDED|95.0|3.99|5.09||1-sided|cLDA model||V116/PPSV23|Serotype 16F: V116/PPSV23 GMT Ratio||5.09|3.99|<0.001
82531123|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|5.74|||<|0.001|TWO_SIDED|95.0|4.81|6.85||1-sided|cLDA model||V116/PPSV23|Serotype 23A: V116/PPSV23 GMT Ratio||6.85|4.81|<0.001
82531124|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|16.42|||<|0.001|TWO_SIDED|95.0|13.46|20.03||1-sided|cLDA model||V116/PPSV23|Serotype 23B: V116/PPSV23 GMT Ratio||20.03|13.46|<0.001
82646200|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7129|TWO_SIDED|95.0|0.73|1.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.59|0.73|0.7129
82646201|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.2055|TWO_SIDED|95.0|0.91|1.57|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.57|0.91|0.2055
82646202|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.3005|TWO_SIDED|95.0|0.88|1.52|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.52|0.88|0.3005
82646203|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.2849|TWO_SIDED|95.0|0.84|1.77|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.77|0.84|0.2849
82646204|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.365|TWO_SIDED|95.0|0.82|1.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.72|0.82|0.3650
82646205|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.7559|TWO_SIDED|95.0|0.78|1.4|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.40|0.78|0.7559
82405238|NCT00490971|164518543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.763|TWO_SIDED|95.0|-1.87|2.55|||ANCOVA|ANCOVA Model with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||2.55|-1.87|0.763
82405239|NCT00490971|164518544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7||||0.01|TWO_SIDED|95.0|1.4|10.09|||ANCOVA|ANCOVA Model with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||10.09|1.40|0.010
82405240|NCT00490971|164518545|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|ANCOVA Model on ranks with treatment (Pali/Pali, Pali/Placebo) and country as factors with baseline value as covariate||Change from Baseline (Maintenance Phase) to Endpoint (Maintenance Phase)||||0.007
82405241|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-3.9|2.9||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin Monthly Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.9|-3.9|0.16
82531125|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|3.39|||<|0.001||95.0|2.97|3.87||1-sided|cLDA model||V116/PPSV23|Serotype 24F: V116/PPSV23 GMT Ratio||3.87|2.97|<0.001
82646206|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.852|TWO_SIDED|95.0|0.77|1.37|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.37|0.77|0.8520
82646207|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.0459|TWO_SIDED|95.0|1.01|2.06|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.06|1.01|0.0459
82646208|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.0542|TWO_SIDED|95.0|0.99|2.04|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.04|0.99|0.0542
82646209|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.0312|TWO_SIDED|95.0|1.03|1.74|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.74|1.03|0.0312
82425968|NCT04756531|164560602|OTHER|Natural log transformed Cmax for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fasted was the test treatment and PF-07321332 250 mg (Suspension), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|56.38|||||TWO_SIDED|90.0|43.42|73.19||||||||73.19|43.42|
82531126|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|11.89|||<|0.001|TWO_SIDED|95.0|10.16|13.91||1-sided|cLDA model||V116/PPSV23|Serotype 31: V116/PPSV23 GMT Ratio||13.91|10.16|<0.001
82646210|NCT01236053|165007160|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.0508|TWO_SIDED|95.0|1.0|1.7|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.70|1.00|0.0508
82646211|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0892|TWO_SIDED|95.0|0.94|2.42|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag)."|||2.42|0.94|0.0892
82405242|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.16|TWO_SIDED|99.2|-4.1|2.4||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Lucentis as Needed Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.4|-4.1|0.16
82405243|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|1.5||0.16|TWO_SIDED|99.2|-4.7|1.3||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Lucentis as Needed Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||1.3|-4.7|0.16
82405244|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.9||0.16|TWO_SIDED|99.2|-5.7|1.6||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Avastin Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||1.6|-5.7|0.16
82405245|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-4.5|2.1||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Lucentis as Needed Group - Mean VA Change in Avastin Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||2.1|-4.5|0.16
82405246|NCT00593450|164518554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority limit for the difference between study groups in the mean change in visual acuity at 1 year was 5 letters (i.e., one line on the Early Treatment Diabetic Retinopathy Study \[ETDRS\] visual-acuity chart)|Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.7||0.16|TWO_SIDED|99.2|-5.9|0.8||This p-value is for the test of overall difference among 4 treatment groups. The p-value for pairwise comparison was not performed, because this is a non-inferiority trial.|ANOVA|We calcularted of two-sided 99.2% confidence intervals. We used Bonferroni approach to accommodate six pairwise treatment comparisons.|Estimate = Mean VA Change in Avastin as Needed Group - Mean VA Change in Lucentis Monthly Group|The study was designed as a non-inferiority trial among four study groups, with the ability to test for superiority if a treatment was found to be non-inferior. Assuming a standard deviation for changes in visual acuity for 15 letters, we determined that a sample of 277 patients per group (which was increased to 300 to allow for a rate of death or dropout of 8%) would provide a power of 90%.||0.8|-5.9|0.16
82405247|NCT01001429|164518625|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Logistic|||||||0.04
82405248|NCT01001429|164518625|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Regression, Linear|||UMSS scores with subjects propofol vs. Dexmetomidine group||||0.68
82405249|NCT01063855|164518635|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|0.837|2.542||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|ANCOVA|ANCOVA model included treatment, PDE5I stratum, baseline Average IELT stratum, and region, as cofactors and baseline Average IELT as a covariate.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm minus PDE5I + Placebo arm difference.|Null Hypothesis: No difference at Week 12 last postbaseline observations carried forward (LPOCF) Alternative Hypothesis:- Difference at Week 12 LPOCF \>0.||2.542|0.837|<0.001
82405250|NCT01063855|164518636|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.6||||0.001|TWO_SIDED|95.0|4.9|22.3||A hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type 1 error rate.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test, controlling for type of PDE5I stratum, baseline average IELT stratum, and region.|Risk Difference (RD) = PDE5I + Dapoxetine arm - PDE5I + placebo arm.|Null hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF). Alternative hypothesis: Difference at Week 12 LPOCF \> 0.||22.3|4.9|0.001
82405251|NCT01063855|164518637|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.2||||0.013|TWO_SIDED|95.0|1.1|17.2||A hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type 1 error rate.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) test, controlling for type of PDE5I stratum, baseline average IELT stratum, and region.|Risk Difference (RD) = PDE5I + Dapoxetine arm - PDE5I + Placebo arm.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF).||17.2|1.1|0.013
82405252|NCT01063855|164518638|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.002|TWO_SIDED|95.0|1.204|2.619||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis: PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||2.619|1.204|0.002
82405253|NCT01063855|164518639|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.007|TWO_SIDED|95.0|1.108|2.394||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carrried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||2.394|1.108|0.007
82405254|NCT01063855|164518640|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.001|TWO_SIDED|95.0|1.642|3.568||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12.||3.568|1.642|<0.001
82405255|NCT01063855|164518641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|||>|0.05|TWO_SIDED|95.0|0.897|1.965||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12 LPOCF.||1.965|0.897|>0.05
82405256|NCT01063855|164518642|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21|||<|0.001|TWO_SIDED|95.0|1.425|3.423||To properly adjust for multiplicity, a hierarchical (step-down) testing procedure with a priori ordered hypothesis was used to control the family-wise type I error was rate.|Regression, Logistic|Logistic Regression model included treatment, type of PDE5i stratum, baseline Average IELT stratum, and region, as factors.|Estimates are based on two-stage sequential analysis using information fraction based weighted test statistics for PDE5I + Dapoxetine arm over PDE5I + Placebo arm ratio.|Null Hypothesis: No difference at Week 12 last postbaseline observation carried forward (LPOCF) Alternative Hypothesis:- PDE5I + Dapoxetine is superior to PDE5I + Placebo with respect to the outcome measure at Week 12.||3.423|1.425|<0.001
82531127|NCT05569954|164759093|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PPSV23) being \>2.0 (one-sided p-value \<0.025).|GMT Ratio|6.17|||<|0.001|TWO_SIDED|95.0|5.54|6.87||1-sided|cLDA model||V116/PPSV23|Serotype 35B: V116/PPSV23 GMT Ratio||6.87|5.54|<0.001
82405257|NCT01165307|164518643|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82405258|NCT01165307|164518644|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||Comparison between the groups for the SF-12 Physical Scale.||||0.82
82531128|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|26.0|||<|0.001|TWO_SIDED|95.0|20.9|31.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 6A: V116-PPSV23 Percentage Difference||31.0|20.9|<0.001
82646212|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1043|TWO_SIDED|95.0|0.92|2.39|||Conditional Logistic Regression||"Comparison: \> 1 year (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.39|0.92|0.1043
82646213|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0101|TWO_SIDED|95.0|1.1|2.06|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag)."|||2.06|1.10|0.0101
82405259|NCT01165307|164518644|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||Comparison between the groups for the SF-12 mental scale.||||0.11
82405260|NCT01165307|164518645|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82405261|NCT01165307|164518646|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82646214|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.0186|TWO_SIDED|95.0|1.07|2.0|||Conditional Logistic Regression||"Comparison: \> 1 year (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.00|1.07|0.0186
82646215|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||0.1458|TWO_SIDED|95.0|0.83|3.43|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag)."|||3.43|0.83|0.1458
82405262|NCT01165307|164518647|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82405263|NCT01165307|164518648|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82576265|NCT02209181|164862053|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.49|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-4.4|-2.59||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.59|-4.40|<0.001
82646216|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1859|TWO_SIDED|95.0|0.79|3.29|||Conditional Logistic Regression||"Comparison: \> 2 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.29|0.79|0.1859
82646217|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0122|TWO_SIDED|95.0|1.13|2.72|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag)."|||2.72|1.13|0.0122
82646218|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0162|TWO_SIDED|95.0|1.1|2.67|||Conditional Logistic Regression||"Comparison: \> 2 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||2.67|1.10|0.0162
82646219|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.7573|TWO_SIDED|95.0|0.19|3.36|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag)."|||3.36|0.19|0.7573
82646220|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.7088|TWO_SIDED|95.0|0.18|3.21|||Conditional Logistic Regression||"Comparison: \> 3 years (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.21|0.18|0.7088
82646221|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0787|TWO_SIDED|95.0|0.93|3.64|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag)."|||3.64|0.93|0.0787
82646222|NCT01236053|165007161|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0873|TWO_SIDED|95.0|0.92|3.58|||Conditional Logistic Regression||"Comparison: \> 3 years (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||3.58|0.92|0.0873
82646223|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4233|TWO_SIDED|95.0|0.8|1.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.70|0.80|0.4233
82646224|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5908|TWO_SIDED|95.0|0.76|1.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.62|0.76|0.5908
82646225|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.054|TWO_SIDED|95.0|1.0|1.67|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.67|1.00|0.0540
82646226|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.0939|TWO_SIDED|95.0|0.96|1.62|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.62|0.96|0.0939
82646227|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.214|TWO_SIDED|95.0|0.87|1.87|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||1.87|0.87|0.2140
82646228|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.294|TWO_SIDED|95.0|0.84|1.8|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.80|0.84|0.2940
82646229|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.8352|TWO_SIDED|95.0|0.71|1.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.32|0.71|0.8352
82646230|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.7809|TWO_SIDED|95.0|0.7|1.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.31|0.70|0.7809
82405264|NCT01165307|164518649|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82405265|NCT01165307|164518653|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82405266|NCT00048035|164518684|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.38|||||TWO_SIDED|90.0|0.32|0.42|||||To analyze the appropriateness of the chosen dose conversion factors, a second regression analysis was carried out. This was a regression on the three different conversion factor dose groups, using the regression slope estimates of Hb.|All cohorts with dosing frequency 1 X / Week||0.42|0.32|
82405267|NCT00048035|164518684|SUPERIORITY_OR_OTHER||Estimated Conversion Factor 90% CI|0.61|||||TWO_SIDED|90.0|0.53|0.76|||||To analyze the appropriateness of the chosen dose conversion factors, a second regression analysis was carried out. This was a regression on the three different conversion factor dose groups, using the regression slope estimates of Hb change.|All cohorts with dosing frequency 1 X /2 Week||0.76|0.53|
82405268|NCT02619617|164518707|OTHER|1.5mg SOM230 s.c. vs. Placebo s.c.|Odds Ratio (OR)|1.308||||0.698|TWO_SIDED|90.0|0.419|4.082|||Regression, Logistic|||||4.082|0.419|0.698
82646231|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0921|TWO_SIDED|95.0|0.95|1.94|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||1.94|0.95|0.0921
82576266|NCT02209181|164862053|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-3.0|-1.17||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.17|-3.00|<0.001
82576267|NCT02209181|164862054|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.87|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|3.9|5.84||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.84|3.90|<0.001
82646232|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.1091|TWO_SIDED|95.0|0.94|1.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.92|0.94|0.1091
82646233|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.0564|TWO_SIDED|95.0|0.99|1.68|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.68|0.99|0.0564
82646234|NCT01236053|165007162|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.0939|TWO_SIDED|95.0|0.96|1.63|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, alcohol consumption, diabetes, neuropathic pain, back pain, epilepsy, hysterectomy, current estrogen, prior estrogen, benign breast disease."|||1.63|0.96|0.0939
82646235|NCT01236053|165007163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.58||||0.3082|TWO_SIDED|95.0|0.31|41.71|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||41.71|0.31|0.3082
82646236|NCT01236053|165007163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.3999|TWO_SIDED|95.0|0.24|34.69|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||34.69|0.24|0.3999
82646237|NCT01236053|165007163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.7509|TWO_SIDED|95.0|0.16|12.52|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||12.52|0.16|0.7509
82646238|NCT01236053|165007163|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.6303|TWO_SIDED|95.0|0.18|17.07|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||17.07|0.18|0.6303
82646239|NCT01236053|165007164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
82646240|NCT01236053|165007164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
82646241|NCT01236053|165007164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
82646242|NCT01236053|165007164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.50|0.1118
82646243|NCT01236053|165007165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
82646244|NCT01236053|165007165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
82646245|NCT01236053|165007165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
82646246|NCT01236053|165007165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.50|0.1118
82646247|NCT01236053|165007167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||108.8|0.37|0.2038
82646248|NCT01236053|165007167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.63||||0.2866|TWO_SIDED|95.0|0.28|77.51|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||77.51|0.28|0.2866
82646249|NCT01236053|165007167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.32||||0.2038|TWO_SIDED|95.0|0.37|108.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||108.8|0.37|0.2038
82646250|NCT01236053|165007167|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.4||||0.1118|TWO_SIDED|95.0|0.5|839.0|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, HIV, HPV (genital), phimosis/balanitis."|||839.0|0.5|0.1118
82646251|NCT01236053|165007168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9614|TWO_SIDED|95.0|0.58|1.69|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||1.69|0.58|0.9614
82646252|NCT01236053|165007168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.5179|TWO_SIDED|95.0|0.49|1.44|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.44|0.49|0.5179
82405269|NCT02619617|164518708|OTHER|1.5mg SOM230 s.c. vs. Placebo s.c.|Odds Ratio (OR)|2.033||||0.385|TWO_SIDED|90.0|0.53|7.79|||Regression, Logistic|||||7.790|0.530|0.385
82405270|NCT01711983|164518756|NON_INFERIORITY|Non-inferiority margin based on 1) the lower 95% confidence bound (= 0.82) for estimated 6-month composite Clinical Success for the historical device (219/253=0.866), and 2) a worst-case analysis of 6-month composite Clinical Success for the historical device (0.81, assuming the 18 subjects with missing echo evaluations were failures).|Risk Difference (RD)|-0.0366|||<|0.0001|ONE_SIDED|95.0||0.007||A priori 1-sided alpha = 0.05.|2-sample binomial proportions test||Difference is control - test. Confidence interval is the upper one-sided 95% Wald confidence interval.|"Test null hypothesis of inferiority of test device (test) compared to historical device (control).~H0: Pc - Pt ≥ Δ vs H1: Pc - Pt \< Δ, where Pt and Pc are true proportions of 6-month clinical success for test and control, respectively, and Δ is the non-inferiority margin.~Given Nc = 253, then Nt = 135 test subjects provides 86% power to reject H0 with 95% confidence if Δ = 0.10 and Pc = Pt = 0.866 under H0."||0.007||<0.0001
82405271|NCT00737100|164518763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94||||0.001||95.0|1.19|4.7||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||4.70|1.19|0.001
82405272|NCT00737100|164518763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39||||0.0001||95.0|1.67|5.12||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||5.12|1.67|0.0001
82405273|NCT00737100|164518764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.0184||95.0|0.38|4.11||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||4.11|0.38|0.0184
82405274|NCT00737100|164518764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.0179||95.0|0.38|4.06||Comment for p-value: Hierarchical testing was applied. Comparison of 2.5 dose to be performed only if superiority of tiotropium 5.0 dose compared to placebo was shown for both primary endpoints.|Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||4.06|0.38|0.0179
82405275|NCT00737100|164518765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.83||||0.0756||95.0|-0.19|3.86|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||3.86|-0.19|0.0756
82405276|NCT00737100|164518765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.12||||0.0023||95.0|1.12|5.12|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||5.12|1.12|0.0023
82405277|NCT00737100|164518766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.3857||95.0|-1.08|2.79|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||2.79|-1.08|0.3857
82446161|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.28||||97.92|TWO_SIDED|95.0|1.01|1.62||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.62|1.01|97.92
82405278|NCT00737100|164518766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.2199||95.0|-0.72|3.11|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||3.11|-0.72|0.2199
82405279|NCT00737100|164518767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.19||||0.0363||95.0|0.27|8.11|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||8.11|0.27|0.0363
82405280|NCT00737100|164518767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.34||||0.0073||95.0|1.45|9.23|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||9.23|1.45|0.0073
82405281|NCT00737100|164518768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.7414||95.0|-0.06|0.08|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||0.08|-0.06|0.7414
82405282|NCT00737100|164518768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.1418||95.0|-0.02|0.12|||Mixed Models Analysis|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||0.12|-0.02|0.1418
82405283|NCT00737100|164518769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.8515||95.0|0.37|1.72|||Regression, Logistic|Covariates of treatment and age group||Comparison of Tiotropium 2.5 microgram dose versus placebo||1.72|0.37|0.8515
82405284|NCT00737100|164518769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.5565||95.0|0.33|1.59|||Regression, Logistic|Adjusted for baseline, center, visit and age group||Comparison of Tiotropium 5.0 microgram dose versus placebo||1.59|0.33|0.5565
82405285|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses versus (vs) Placebo is 14 mm.|Least Squares (LS) Mean Difference|32.4|||||TWO_SIDED|90.0|28.4|36.4||||||||36.4|28.4|
82405286|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|15.6|||||TWO_SIDED|90.0|11.7|19.6||||||||19.6|11.7|
82405287|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|20.3|||||TWO_SIDED|90.0|16.3|24.3||||||||24.3|16.3|
82405288|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Lasmiditan doses vs Placebo is 14 mm.|LS Mean Difference|23.6|||||TWO_SIDED|90.0|19.6|27.6||||||||27.6|19.6|
82405289|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 100 mg dose is 5 mm.|LS Mean Difference|16.8|||||TWO_SIDED|90.0|12.8|20.8||||||||20.8|12.8|
82405290|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 200 mg dose is 5 mm.|LS Mean Difference|12.1|||||TWO_SIDED|90.0|8.1|16.1||||||||16.1|8.10|
82405291|NCT03286218|164518779|NON_INFERIORITY|The non-inferiority (NI) margin for Alprazolam and Lasmiditan 400 mg dose is 5 mm.|LS Mean Difference|8.79|||||TWO_SIDED|90.0|4.8|12.8||||||||12.8|4.8|
82405292|NCT03286218|164518782|OTHER||LS Mean Difference|33.1|||||TWO_SIDED|90.0|28.5|37.7||||||Overall Drug Liking||37.7|28.5|
82405293|NCT03286218|164518782|OTHER||LS Mean Difference|18.6|||||TWO_SIDED|90.0|14.0|23.2||||||Overall Drug Liking||23.2|14.0|
82405294|NCT03286218|164518782|OTHER||LS Mean Difference|19.1|||||TWO_SIDED|90.0|14.5|23.8||||||Overall Drug Liking||23.8|14.5|
82405295|NCT03286218|164518782|OTHER||LS Mean Difference|24.3|||||TWO_SIDED|90.0|19.7|28.9||||||Overall Drug Liking||28.9|19.7|
82405296|NCT03286218|164518782|OTHER||LS Mean Difference|34.0|||||TWO_SIDED|90.0|29.1|38.9||||||Take drug again||38.9|29.1|
82405297|NCT03286218|164518782|OTHER||LS Mean Difference|19.1|||||TWO_SIDED|90.0|14.2|24.0||||||Take drug again||24.0|14.2|
82405298|NCT03286218|164518782|OTHER||LS Mean Difference|20.6|||||TWO_SIDED|90.0|15.7|25.6||||||Take drug again||25.6|15.7|
82531129|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|39.4|||<|0.001|TWO_SIDED|95.0|33.6|44.8||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 15A: V116-PPSV23 Percentage Difference||44.8|33.6|<0.001
82531130|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|11.7||||0.214|TWO_SIDED|95.0|7.5|15.9||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 15C: V116-PPSV23 Percentage Difference||15.9|7.5|0.214
82576268|NCT02209181|164862054|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.13|STANDARD_ERROR_OF_MEAN|0.49||0.023|TWO_SIDED|95.0|0.16|2.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.09|0.16|0.023
82405299|NCT03286218|164518782|OTHER||LS Mean Difference|25.3|||||TWO_SIDED|90.0|20.3|30.2||||||Take drug again||30.2|20.3|
82405300|NCT03286218|164518782|OTHER||LS Mean Difference|69.7|||||TWO_SIDED|90.0|62.1|77.4||||||Good effects||77.4|62.1|
82405301|NCT03286218|164518782|OTHER||LS Mean Difference|35.5|||||TWO_SIDED|90.0|27.9|43.2||||||Good effects||43.2|27.9|
82405302|NCT03286218|164518782|OTHER||LS Mean Difference|52.0|||||TWO_SIDED|90.0|44.4|59.7||||||Good effects||59.7|44.4|
82405303|NCT03286218|164518782|OTHER||LS Mean Difference|53.0|||||TWO_SIDED|90.0|45.4|60.6||||||Good effects||60.6|45.4|
82405304|NCT03286218|164518782|OTHER||LS Mean Difference|20.4|||||TWO_SIDED|90.0|13.6|27.2||||||Bad effects||27.2|13.6|
82405305|NCT03286218|164518782|OTHER||LS Mean Difference|5.04|||||TWO_SIDED|90.0|-1.76|11.8||||||Bad effects||11.8|-1.76|
82405306|NCT03286218|164518782|OTHER||LS Mean Difference|7.28|||||TWO_SIDED|90.0|0.487|14.1||||||Bad effects||14.1|0.487|
82405307|NCT03286218|164518782|OTHER||LS Mean Difference|12.5|||||TWO_SIDED|90.0|5.69|19.3||||||Bad effects||19.3|5.69|
82405308|NCT03286218|164518782|OTHER||LS Mean Difference|75.4|||||TWO_SIDED|90.0|67.2|83.5||||||Any effects||83.5|67.2|
82405309|NCT03286218|164518782|OTHER||LS Mean Difference|44.9|||||TWO_SIDED|90.0|36.8|53.0||||||Any effects||53.0|36.8|
82405310|NCT03286218|164518782|OTHER||LS Mean Difference|56.8|||||TWO_SIDED|90.0|48.7|64.9||||||Any effects||64.9|48.7|
82405311|NCT03286218|164518782|OTHER||LS Mean Difference|64.8|||||TWO_SIDED|90.0|56.7|73.0||||||Any effects||73.0|56.7|
82405312|NCT03286218|164518782|OTHER||LS Mean Difference|68.6|||||TWO_SIDED|90.0|60.6|76.6||||||High||76.6|60.6|
82405313|NCT03286218|164518782|OTHER||LS Mean Difference|34.4|||||TWO_SIDED|90.0|26.4|42.4||||||High||42.4|26.4|
82405314|NCT03286218|164518782|OTHER||LS Mean Difference|47.5|||||TWO_SIDED|90.0|39.5|55.5||||||High||55.5|39.5|
82405315|NCT03286218|164518782|OTHER||LS Mean Difference|58.4|||||TWO_SIDED|90.0|50.4|66.3||||||High||66.3|50.4|
82405316|NCT03286218|164518783|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405317|NCT03286218|164518783|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0781|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0781
82405318|NCT03286218|164518783|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0625|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0625
82405319|NCT03286218|164518783|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0098|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0098
82405320|NCT03286218|164518784|OTHER||LS Mean Difference|-29.9|||||TWO_SIDED|90.0|-34.0|-25.9||||||Alertness/drowsiness||-25.9|-34.0|
82405321|NCT03286218|164518784|OTHER||LS Mean Difference|-16.9|||||TWO_SIDED|90.0|-20.9|-12.8||||||Alertness/drowsiness||-12.8|-20.9|
82405322|NCT03286218|164518784|OTHER||LS Mean Difference|-19.6|||||TWO_SIDED|90.0|-23.6|-15.5||||||Alertness/drowsiness||-15.5|-23.6|
82405323|NCT03286218|164518784|OTHER||LS Mean Difference|-24.8|||||TWO_SIDED|90.0|-28.8|-20.8||||||Alertness/drowsiness||-20.8|-28.8|
82405324|NCT03286218|164518784|OTHER||LS Mean Difference|-30.8|||||TWO_SIDED|90.0|-35.0|-26.5||||||Agitation/relaxation||-26.5|-35.0|
82405325|NCT03286218|164518784|OTHER||LS Mean Difference|-19.5|||||TWO_SIDED|90.0|-23.7|-15.3||||||Agitation/relaxation||-15.3|-23.7|
82405326|NCT03286218|164518784|OTHER||LS Mean Difference|-21.7|||||TWO_SIDED|90.0|-25.9|-17.5||||||Agitation/relaxation||-17.5|-25.9|
82405327|NCT03286218|164518784|OTHER||LS Mean Difference|-28.8|||||TWO_SIDED|90.0|-33.0|-24.5||||||Agitation/relaxation||-24.5|-33.0|
82405328|NCT03675360|164518786|SUPERIORITY||Mean Difference (Net)|-0.23|||<|0.05|TWO_SIDED|95.0|-0.32|-0.14|||linear mixed effects model|||||-0.14|-0.32|<0.05
82405329|NCT03675360|164518787|SUPERIORITY||Mean Difference (Net)|-10.3|||<|0.05|TWO_SIDED|95.0|-15.6|-4.9|||linear mixed effects model|||||-4.9|-15.6|<0.05
82405330|NCT03675360|164518788|SUPERIORITY||Mean Difference (Net)|-3.2|||<|0.05|TWO_SIDED|95.0|-7.3|0.9|||linear mixed effects model|||||0.9|-7.3|<0.05
82646253|NCT01236053|165007168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8856|TWO_SIDED|95.0|0.71|1.48|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||1.48|0.71|0.8856
82405331|NCT03675360|164518789|SUPERIORITY||Median Difference (Final Values)|-0.13|||<|0.05|TWO_SIDED|95.0|-0.31|0.05|||linear mixed effects model|||||0.05|-0.31|<0.05
82646254|NCT01236053|165007168|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.5078|TWO_SIDED|95.0|0.61|1.28|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.28|0.61|0.5078
82405332|NCT03675360|164518790|SUPERIORITY||Mean Difference (Net)|-5.9|||<|0.05|TWO_SIDED|95.0|-7.4|-4.4|||linear mixed effects model|||||-4.4|-7.4|<0.05
82405333|NCT03675360|164518791|SUPERIORITY||Mean Difference (Net)|-6.2|||<|0.05|TWO_SIDED|95.0|-10.5|-2.0|||linear mixed effects model|||||-2.0|-10.5|<0.05
82405334|NCT03675360|164518792|SUPERIORITY||Mean Difference (Net)|-2.4|||<|0.05|TWO_SIDED|95.0|-3.7|-1.1|||linear mixed effects model|||||-1.1|-3.7|<0.05
82405335|NCT03675360|164518793|SUPERIORITY||Mean Difference (Net)|-2.6|||<|0.05|TWO_SIDED|95.0|-5.2|0.0|||linear mixed effects model|||||0|-5.2|<0.05
82405336|NCT03675360|164518794|SUPERIORITY||Mean Difference (Net)|-4.7|||<|0.05|TWO_SIDED|95.0|-6.7|-2.6|||linear mixed effects model|||||-2.6|-6.7|<0.05
82405337|NCT03675360|164518795|SUPERIORITY||Mean Difference (Net)|-0.8|||<|0.05|TWO_SIDED|95.0|-1.8|0.3|||linear mixed effects model|||||0.3|-1.8|<0.05
82405338|NCT02689804|164518799|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82405339|NCT02689804|164518800|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82405340|NCT01569126|164518837|SUPERIORITY_OR_OTHER||Slope|0.026||||||95.0|||||||The correlation of time-matched change from baseline QTcF interval (dependent variable) to the time-matched plasma concentration of total fluoxetine and norfluoxetine (covariate) and participant (random effect).|||||
82405341|NCT02849587|164518877|SUPERIORITY||||||<|0.001|||||||Generalized least squares model|||||||<0.001
82405342|NCT02849587|164518878|SUPERIORITY|||||||0.022|||||||Generalized least squares model|Raw data converted to z-score based on pre-smoking performance of entire sample.||||||0.022
82405343|NCT02849587|164518879|SUPERIORITY|||||||0.283|||||||Generalized least squares model|||||||0.283
82405344|NCT02849587|164518880|SUPERIORITY|||||||0.0503|||||||Generalized estimating equations model|||||||0.0503
82576269|NCT02209181|164862054|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.96|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.98|3.93||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.93|1.98|<0.001
82405345|NCT02849587|164518881|SUPERIORITY|||||||0.024|||||||Generalized least squares model|||||||0.024
82405346|NCT02849587|164518882|SUPERIORITY|||||||0.716|||||||Generalized least squares model|The outcome was standardized prior to analyses.||||||0.716
82405347|NCT02849587|164518883|SUPERIORITY|||||||0.005|||||||Generalized least squares model|The outcome was standardized prior to analysis.||||||0.005
82405348|NCT02849587|164518884|SUPERIORITY|||||||0.366|||||||Generalized Estimating Equations model|||||||.366
82405349|NCT02849587|164518885|SUPERIORITY|||||||0.225|||||||Generalized least squares model|Outcome was log10 transformed prior to analyses.||||||.225
82405350|NCT02849587|164518886|SUPERIORITY|||||||0.592|||||||Generalized least squares model|The outcome was transformed using logit function prior to analyses. Model included treatment (3 groups), time (5 times), and their interaction.||||||.592
82405351|NCT02849587|164518887|SUPERIORITY|||||||0.294|||||||Generalized least squares model|||||||.294
82405352|NCT02849587|164518888|SUPERIORITY|||||||0.144|||||||Generalized least squares model|||||||.144
82405353|NCT02849587|164518889|OTHER|Spearman's correlation||||||0.09|||||||Spearman's correlation|||||||0.090
82405354|NCT02849587|164518889|OTHER|Spearman's correlation||||||0.0006|||||||Spearman's correlation|||||||.0006
82405355|NCT02849587|164518889|OTHER|Spearman's correlation||||||0.053|||||||Spearman's correlation|||||||0.053
82405356|NCT02849587|164518890|OTHER|Spearman's correlation||||||0.3|||||||Spearman's correlation|||||||0.300
82405357|NCT02849587|164518890|OTHER|Spearman's correlation||||||0.038|||||||Spearman's correlation|||||||0.038
82405358|NCT02849587|164518890|OTHER|Spearman's correlation||||||0.175|||||||Spearman's correlation|||||||0.175
82405359|NCT01431339|164518956|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis test is a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in response rates in the ITT population is greater than -10% the NI of dalbavancin to vancomycin/linezolid will be concluded.|Difference in Proportions|-1.5||||||95.0|-7.4|4.6|||||Confidence intervals were adjusted for fever at baseline|||4.6|-7.4|
82405360|NCT01481558|164519007|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.01||0.55|TWO_SIDED|95.0|||||ANCOVA|||||||0.55
82405361|NCT00689338|164519013|SUPERIORITY_OR_OTHER||estimate of survival|53.8|||||TWO_SIDED|95.0|45.9|60.9|||Kaplan-Meier|||Kaplan-Meier estimate of survival at Day 90 (survivor function).||60.9|45.9|
82405362|NCT00808067|164519015|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0055|TWO_SIDED|95.0|0.64|0.93|||Regression, Cox|||||0.93|0.64|0.0055
82405363|NCT00808067|164519022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.5119|TWO_SIDED|95.0|0.84|1.42|||Regression, Cox|||||1.42|0.84|0.5119
82405364|NCT00808067|164519023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.2371|TWO_SIDED|95.0|0.94|1.29|||Regression, Cox|||||1.29|0.94|0.2371
82405365|NCT00808067|164519024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5052|TWO_SIDED|95.0|0.89|1.27|||Regression, Cox|||||1.27|0.89|0.5052
82405366|NCT00808067|164519025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.2241||95.0|0.82|1.05|||Regression, Cox|||||1.05|0.82|0.2241
82405367|NCT00418028|164519090|NON_INFERIORITY_OR_EQUIVALENCE|"If we assume that the non-inferiority level is up to 15% lower (equivalent to a median progression-free time of 3 months), for a one-sided error α=0.05, and 80% power, are necessary 88 patients per group.~Considering an dropout rate of around 10%, the number of patients would be 98 per group."|Hazard Ratio (HR)|1.3||||0.1224|TWO_SIDED|95.0|0.9|1.7|||Log Rank|||||1.7|0.9|0.1224
82405368|NCT00418028|164519091|SUPERIORITY|||||||0.8269|||||||Chi-squared|||||||0.8269
82405369|NCT00418028|164519092|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.5703|TWO_SIDED|95.0|0.67|2.07|||Log Rank|||||2.07|0.67|0.5703
82405370|NCT00418028|164519093|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.4676|TWO_SIDED|95.0|0.83|1.5|||Log Rank|||||1.50|0.83|0.4676
82646255|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6888|TWO_SIDED|95.0|0.36|1.95|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||1.95|0.36|0.6888
82646256|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.5024|TWO_SIDED|95.0|0.32|1.75|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.75|0.32|0.5024
82405371|NCT00418028|164519094|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.5688|TWO_SIDED|95.0|0.66|1.25|||Log Rank|||||1.25|0.66|0.5688
82405372|NCT00418028|164519095|SUPERIORITY|||||||0.4984|||||||Chi-squared|||||||0.4984
82405373|NCT00418028|164519096|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.2556|TWO_SIDED|95.0|0.88|1.63|||Log Rank|||||1.63|0.88|0.2556
82405374|NCT03574974|164519152|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
82405375|NCT03877224|164519170|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.16||||0.07905|TWO_SIDED|95.0|0.36|6.01||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, weeks impacted by COVID-19 and treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint KCCQ-TSS, the following hypothesis was tested using the significance level 0.04990 • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-TSS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||6.01|0.36|0.07905
82405376|NCT03877224|164519171|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.12||||0.23215|TWO_SIDED|95.0|-0.09|5.37||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, weeks impacted by COVID-19 and treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint KCCQ-PLS, the following hypothesis was tested at significant level of 0.00005 • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-PLS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||5.37|-0.09|0.23215
82405377|NCT03877224|164519172|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|1.6||||0.66801|TWO_SIDED|95.0|-5.9|9.0||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|The model includes rank-based baseline, treatment group as covariates and is stratified by T2DM status at randomization||For the primary efficacy endpoint 6MWD, the following hypothesis was tested using the significance level 0.00005: H0: m(r(A)) = m(r(C)) versus H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, 6MWD, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||9.0|-5.9|0.66801
82405378|NCT03877224|164519173|SUPERIORITY|Total time spent in LVPA was not tested for statistical significance and the p-value is considered nominal because the test for 6MWD was not statistically significant.|Hodges-Lehmann median diff. vs placebo|0.19||||0.12523|TWO_SIDED|95.0|-0.06|0.48|||Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||For the secondary efficacy endpoint, total time spent in LVPA, the testing hypothesis is • H0: m(r(A)) = m(r(C)) versus • H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in secondary efficacy endpoint, total time spent in LVPA, from baseline to End of study among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively.||0.48|-0.06|0.12523
82405379|NCT03143257|164519175|SUPERIORITY||Mean Difference (Net)|38.0|STANDARD_DEVIATION|16.1|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405380|NCT03143257|164519175|SUPERIORITY||Mean Difference (Net)|43.5|STANDARD_DEVIATION|20.0|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82405381|NCT03143257|164519175|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_DEVIATION|5.0|<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82405382|NCT03143257|164519178|SUPERIORITY||Overall Benefit Score|-15.0|STANDARD_DEVIATION|18.5|||TWO_SIDED||||||||The overall benefit can be determined by subtracting the aided and unaided scores of Ease of Communication, Reverberation, Background Noise \& Aversiveness. A negative score in overall benefit indicates a positive benefit to the subject.|||||
82405383|NCT02492802|164519183|OTHER|||||||0.77|||||||The Wald Type III test|||||||0.77
82405384|NCT00458003|164519300|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||.38
82405385|NCT00458003|164519301|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||.10
82576270|NCT02209181|164862054|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.75|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-4.71|-2.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.78|-4.71|<0.001
82646257|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6164|TWO_SIDED|95.0|0.49|1.53|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.53|0.49|0.6164
82405386|NCT00243919|164519328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.831||||0.481|TWO_SIDED|95.0|0.497|1.391||The trial tested the superiority of LTP delivered early or late, compared to HEP, using a two-sided significance level of 0.05. The study-wide error rate was controlled by applying the Hochberg step-up procedure to the two primary comparisons.|Regression, Logistic|||Logistic regression was used to compare the proportion of participants who improved functional level of walking between Early-LTP and HEP adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression). Assuming that 30% of HEP participants would improve functional level of walking, we derived a sample size of 400 to detect a clinically relevant 20% effect size with 85% power, adjusting for an loss-to-follow-up rate of 15%.||1.391|0.497|0.481
82646258|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4002|TWO_SIDED|95.0|0.44|1.39|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.39|0.44|0.4002
82646259|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.7329|TWO_SIDED|95.0|0.25|2.66|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.66|0.25|0.7329
82646260|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.5731|TWO_SIDED|95.0|0.22|2.33|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.33|0.22|0.5731
82646261|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.3762|TWO_SIDED|95.0|0.69|2.63|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.63|0.69|0.3762
82646262|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.582|TWO_SIDED|95.0|0.62|2.36|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.36|0.62|0.5820
82405387|NCT00243919|164519328|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.192||||0.501|TWO_SIDED|95.0|0.715|1.985|||Regression, Logistic|||Logistic regression was used to compare the proportion of participants who improved functional level of walking between Late-LTP and HEP adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||1.985|0.715|0.501
82646263|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4782|TWO_SIDED|95.0|0.58|3.23|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.23|0.58|0.4782
82646264|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8998|TWO_SIDED|95.0|0.44|2.52|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.52|0.44|0.8998
82646265|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9308|TWO_SIDED|95.0|0.53|1.99|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.99|0.53|0.9308
82646266|NCT01236053|165007169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.5125|TWO_SIDED|95.0|0.41|1.56|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.56|0.41|0.5125
82646267|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.8655|TWO_SIDED|95.0|0.37|2.33|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.33|0.37|0.8655
82646268|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.6482|TWO_SIDED|95.0|0.32|2.05|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.05|0.32|0.6482
82646269|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9003|TWO_SIDED|95.0|0.53|1.76|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||1.76|0.53|0.9003
82646270|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.6|TWO_SIDED|95.0|0.46|1.56|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.56|0.46|0.6000
82425969|NCT04756531|164560635|OTHER|Natural log transformed AUClast for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|148.91|||||TWO_SIDED|90.0|126.92|174.72||||||||174.72|126.92|
82646271|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.567|TWO_SIDED|95.0|0.27|2.06|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.06|0.27|0.5670
82646272|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.4353|TWO_SIDED|95.0|0.24|1.85|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.85|0.24|0.4353
82646273|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.8922|TWO_SIDED|95.0|0.56|1.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.95|0.56|0.8922
82646274|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8591|TWO_SIDED|95.0|0.5|1.77|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.77|0.50|0.8591
82646275|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4779|TWO_SIDED|95.0|0.58|3.23|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.23|0.58|0.4779
82646276|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8994|TWO_SIDED|95.0|0.44|2.52|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.52|0.44|0.8994
82646277|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.78|TWO_SIDED|95.0|0.57|2.12|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||2.12|0.57|0.7800
82646278|NCT01236053|165007170|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6577|TWO_SIDED|95.0|0.44|1.67|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.67|0.44|0.6577
82646279|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.8111|TWO_SIDED|95.0|0.48|2.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||2.59|0.48|0.8111
82646280|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9104|TWO_SIDED|95.0|0.45|2.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.46|0.45|0.9104
82646281|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.5592|TWO_SIDED|95.0|0.68|2.07|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.07|0.68|0.5592
82405388|NCT00243919|164519329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.242||95.0||||We did not formally conduct statistical inference on the timing effect because the first primary null hypotheses is accepted. The p-value provided is the smallest alpha level that one would claim significant difference between early- and late-LTP.|Regression, Linear||Even though there was no formal inference of timing effect, we still provided descriptive statistics for the 6-month and 12-month changes. In addition, paired t-tests were used to compare within-group improvements.|The second primary analysis assessed the timing effect and its interaction with initial severity of gait impairment on walking speed change from baseline to 1 year after stroke.||||0.242
82646282|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8521|TWO_SIDED|95.0|0.6|1.85|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.85|0.60|0.8521
82405389|NCT00243919|164519330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.01|TWO_SIDED|95.0|1.18|3.21|||Regression, Logistic|Pairwise comparisons were conducted: Early-LTP versus Late-LTP, which had received only usual care in the 2- to 6-month post-stroke period.||Logistic regression was used to compare the proportion of participants who improved functional level of walking between early-LTP and Late-LTP (Usual Care) adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||3.21|1.18|0.010
82405390|NCT00243919|164519330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.007|TWO_SIDED|95.0|1.22|3.42|||Regression, Logistic|Pairwise comparisons were conducted: HEP versus Late-LTP, which had received only usual care in the 2- to 6-month post-stroke period.||Logistic regression was used to compare the proportion of participants who improved functional level of walking between HEP and Late-LTP (Usual Care) adjusting for pre-specified covariates (severity of impairment, clinical site, age, stroke type, side of hemiparesis and depression).||3.42|1.22|0.007
82405391|NCT00243919|164519331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||<|0.0001|TWO_SIDED|95.0|0.08|0.16||Bonferroni adjustment for multiple testing was used in the pair-wise comparisons of the secondary outcomes. A difference is claimed to be statistically significant when p\<0.0014.|t-test, 2 sided|||6 month secondary analysis. Following the overall ANOVA test, pairwise comparison was conducted to assess differences in walking speed changes between early-LTP and late-LTP.||0.16|0.08|<0.0001
82405392|NCT00243919|164519331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||<|0.0001|TWO_SIDED|95.0|0.05|0.14||Bonferroni adjustment for multiple testing was used in the pair-wise comparisons of the secondary outcomes. A difference is claimed to be statistically significant when p\<0.0014.|t-test, 2 sided|||6 month secondary analysis. Following the overall ANOVA test, pairwise comparison was conducted to assess differences in walking speed changes between HEP and late-LTP.||0.14|0.05|<.0001
82405393|NCT00243919|164519332|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||Test differences across the three groups in change of 6 minute walking distance from baseline to 12-month post stroke.|ANOVA|||Primary 12 month analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.45
82405394|NCT00243919|164519332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Test differences across the three groups in change of 6 minute walking distance from baseline to 6-month post stroke.||6 month secondary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<0.001
82405395|NCT00243919|164519333|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Kruskal-Wallis|Test differences across the three groups in change of number of steps from baseline to 12-month post stroke.||12 month primary outcome. The Kruskal-Wallis procedure was used to assess differences across the three groups in number of steps taken in the community. Wilcoxon signed rank tests were used to compare within-group improvements.||||0.10
82405396|NCT00243919|164519333|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Kruskal-Wallis|Test differences across the three groups in change of number of steps from baseline to 6-month post stroke.||6 month secondary analysis. The Kruskal-Wallis procedure was used to assess differences across the three groups in number of steps taken in the community. Wilcoxon signed rank tests were used to compare within-group improvements.||||0.04
82405397|NCT00243919|164519334|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||ANOVA|Test differences across the three groups in change of SIS Participation from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.48
82405398|NCT00243919|164519334|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|Test differences across the three groups in change of SIS Participation from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.06
82531131|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|42.9|||<|0.001|TWO_SIDED|95.0|37.8|47.8||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 16F: V116-PPSV23 Percentage Difference||47.8|37.8|<0.001
82646283|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.5529|TWO_SIDED|95.0|0.26|2.04|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.04|0.26|0.5529
82646284|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.6||||0.3275|TWO_SIDED|95.0|0.21|1.68|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.68|0.21|0.3275
82405399|NCT00243919|164519335|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANOVA|Test differences across the three groups in change of SIS ADL/iADL from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.07
82531132|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|35.9|||<|0.001||95.0|29.6|41.8||1-sided|Stratified Miettinen & Nurminen method||V16 minus PPSV23|Serotype 23A: V116-PPSV23 Percentage Difference||41.8|29.6|<0.001
82531133|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|42.4|||<|0.001|TWO_SIDED|95.0|37.6|47.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 23B: V116-PPSV23 Percentage Difference||47.0|37.6|<0.001
82531134|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|35.9|||<|0.001||95.0|30.6|41.0||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 24F: V116-PPSV23 Percentage Difference||41.0|30.6|<0.001
82531135|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|56.2|||<|0.001|TWO_SIDED|95.0|51.5|60.5||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 31: V116-PPSV23 Percentage Difference||60.5|51.5|<0.001
82531136|NCT05569954|164759094|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PPSV23\] between the percentages of participants with a ≥4-fold rise from baseline to 30 days postvaccination being \>10 percentage points (1-sided p-value \<0.025).|Percent Difference|58.7|||<|0.001||95.0|54.6|62.7||1-sided|Stratified Miettinen & Nurminen method||V116 minus PPSV23|Serotype 35B: V116-PPSV23 Percentage Difference||62.7|54.6|<0.001
82531137|NCT05569954|164759095|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4 fold rise from baseline to 30 days postvaccination being \>50 percentage points (1-sided p-value \<0.025)."||||||0.093||||||1-sided|Clopper-Pearson method|||Serotype 6C||||0.093
82531138|NCT05569954|164759095|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4 fold rise from baseline to 30 days postvaccination being \>50 percentage points (1-sided p-value \<0.025)."|||||<|0.001||||||1-sided|Clopper-Pearson method|||Serotype 15B||||<0.001
82531139|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|1.04|1.25|||||V116/PPSV23|Serotype 3: V116/PPSV23 GMC Ratio||1.25|1.04|
82646285|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.73|TWO_SIDED|95.0|0.46|1.72|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||1.72|0.46|0.7300
82646286|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.4831|TWO_SIDED|95.0|0.41|1.53|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.53|0.41|0.4831
82405400|NCT00243919|164519335|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|Test differences across the three groups in change of SIS ADL/iADL from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.03
82531140|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.86|||||TWO_SIDED|95.0|1.65|2.1|||||V116/PPSV23|Serotype 7F: V116/PPSV23 GMC Ratio||2.10|1.65|
82646287|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.7693|TWO_SIDED|95.0|0.45|2.92|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||2.92|0.45|0.7693
82646288|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8189|TWO_SIDED|95.0|0.35|2.3|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||2.30|0.35|0.8189
82405401|NCT00243919|164519336|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||ANOVA|Test differences across the three groups in change of SIS Mobility from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.69
82531141|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.17|||||TWO_SIDED|95.0|1.04|1.31|||||V116/PPSV23|Serotype 8: V116/PPSV23 GMC Ratio||1.31|1.04|
82531142|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.55|||||TWO_SIDED|95.0|1.37|1.76|||||V116/PPSV23|Serotype 9N: V116/PPSV23 GMC Ratio||1.76|1.37|
82531143|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.03|||||TWO_SIDED|95.0|1.79|2.31|||||V116/PPSV23|Serotype 10A: V116/PPSV23 GMC Ratio||2.31|1.79|
82531144|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.2|||||TWO_SIDED|95.0|1.97|2.46|||||V116/PPSV23|Serotype 11A: V116/PPSV23 GMC Ratio||2.46|1.97|
82531145|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.99|||||TWO_SIDED|95.0|1.72|2.3|||||V116/PPSV23|Serotype 12F: V116/PPSV23 GMC Ratio||2.30|1.72|
82531146|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|2.39|||||TWO_SIDED|95.0|2.12|2.7|||||V116/PPSV23|Serotype 17F: V116/PPSV23 GMC Ratio||2.70|2.12|
82531147|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.49|||||TWO_SIDED|95.0|1.32|1.67||||||Serotype 19A: V116/PPSV23 GMC Ratio|V116/PPSV23|1.67|1.32|
82531148|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.86|||||TWO_SIDED|95.0|1.65|2.1|||||V116/PPSV23|Serotype 20A: V116/PPSV23 GMC Ratio||2.10|1.65|
82531149|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.77|||||TWO_SIDED|95.0|1.55|2.02|||||V116/PPSV23|Serotype 22F: V116/PPSV23 GMC Ratio||2.02|1.55|
82531150|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|1.22|||||TWO_SIDED|95.0|1.08|1.37|||||V116/PPSV23|Serotype 33F: V116/PPSV23 GMC Ratio||1.37|1.08|
82531151|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|3.78|||||TWO_SIDED|95.0|3.29|4.35|||||V116/PPSV23|Serotype 6A: V116/PPSV23 GMC Ratio||4.35|3.29|
82531152|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|8.92|||||TWO_SIDED|95.0|7.89|10.09|||||V116/PPSV23|Serotype 15A: V116/PPSV23 GMC Ratio||10.09|7.89|
82646289|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.98|TWO_SIDED|95.0|0.5|1.98|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||1.98|0.50|0.9800
82646290|NCT01236053|165007172|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4944|TWO_SIDED|95.0|0.39|1.58|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||1.58|0.39|0.4944
82646291|NCT01236053|165007173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0||||0.0144|TWO_SIDED|95.0|1.81|220.5|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||220.5|1.81|0.0144
82646292|NCT01236053|165007173|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.79||||0.0743|TWO_SIDED|95.0|0.79|147.0|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||147.0|0.79|0.0743
82646293|NCT01236053|165007174|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
82646294|NCT01236053|165007174|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
82646295|NCT01236053|165007175|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
82646296|NCT01236053|165007175|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
82646297|NCT01236053|165007177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.1035|TWO_SIDED|95.0|0.63|159.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||159.9|0.63|0.1035
82646298|NCT01236053|165007177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.3799|TWO_SIDED|95.0|0.18|95.82|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy."|||95.82|0.18|0.3799
82405402|NCT00243919|164519336|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Test differences across the three groups in change of SIS Mobility from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<.0001
82405403|NCT00243919|164519337|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|Test differences across the three groups in change of FM-LE from baseline to 12-month post stroke.||12 month primary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.13
82576271|NCT02209181|164862054|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.89|-0.94||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.94|-2.89|<0.001
82646299|NCT01236053|165007178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0066|TWO_SIDED|95.0|1.21|3.32|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||3.32|1.21|0.0066
82646300|NCT01236053|165007178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0494|TWO_SIDED|95.0|1.0|2.82|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.82|1.00|0.0494
82646301|NCT01236053|165007178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.0006|TWO_SIDED|95.0|1.33|2.82|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.82|1.33|0.0006
82646302|NCT01236053|165007178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.0138|TWO_SIDED|95.0|1.11|2.41|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.41|1.11|0.0138
82646303|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29||||0.0006|TWO_SIDED|95.0|1.66|6.53|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.53|1.66|0.0006
82646304|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.002|TWO_SIDED|95.0|1.5|6.05|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||6.05|1.50|0.0020
82646305|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.0013|TWO_SIDED|95.0|1.43|4.34|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.34|1.43|0.0013
82646306|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.008|TWO_SIDED|95.0|1.22|3.8|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.80|1.22|0.0080
82646307|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.8165|TWO_SIDED|95.0|0.2|3.61|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||3.61|0.20|0.8165
82405404|NCT00243919|164519337|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|Test differences across the three groups in change of FM-LE from baseline to 6-month post stroke.||6 month secondary analysis. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.04
82405405|NCT00243919|164519338|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|Test differences across the three groups in change of Berg Balance Score from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.06
82446162|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||80.24|TWO_SIDED|95.0|0.84|1.54||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.54|0.84|80.24
82646308|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.6624|TWO_SIDED|95.0|0.17|3.12|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.12|0.17|0.6624
82646309|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6316|TWO_SIDED|95.0|0.45|3.68|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.68|0.45|0.6316
82646310|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.906|TWO_SIDED|95.0|0.35|3.22|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.22|0.35|0.9060
82646311|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.3731|TWO_SIDED|95.0|0.61|3.74|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.74|0.61|0.3731
82646312|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.8266|TWO_SIDED|95.0|0.43|2.87|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.87|0.43|0.8266
82646313|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0712|TWO_SIDED|95.0|0.95|3.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.13|0.95|0.0712
82646314|NCT01236053|165007179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.2674|TWO_SIDED|95.0|0.77|2.6|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.60|0.77|0.2674
82646315|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.61||||0.0005|TWO_SIDED|95.0|1.75|7.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||7.46|1.75|0.0005
82405406|NCT00243919|164519338|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|Test differences across the three groups in change of Berg Balance Score from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.001
82646316|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.25||||0.0019|TWO_SIDED|95.0|1.55|6.83|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||6.83|1.55|0.0019
82646317|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.0024|TWO_SIDED|95.0|1.39|4.55|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.55|1.39|0.0024
82646318|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18||||0.0115|TWO_SIDED|95.0|1.19|4.0|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||4.00|1.19|0.0115
82646319|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.6281|TWO_SIDED|95.0|0.17|2.96|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||2.96|0.17|0.6281
82646320|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.5103|TWO_SIDED|95.0|0.14|2.62|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.62|0.14|0.5103
82646321|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Unadjusted Odds Ratio|1.15||||0.7733|TWO_SIDED|95.0|0.45|2.9|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.90|0.45|0.7733
82646322|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.837|TWO_SIDED|95.0|0.43|2.81|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.81|0.43|0.8370
82646323|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.198|TWO_SIDED|95.0|0.75|4.1|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.10|0.75|0.1980
82646324|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.5391|TWO_SIDED|95.0|0.54|3.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.21|0.54|0.5391
82646325|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97||||0.0224|TWO_SIDED|95.0|1.1|3.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.53|1.10|0.0224
82405407|NCT00243919|164519339|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|Test differences across the three groups in change of ABC score from baseline to 12-month post stroke.||12 month primary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||0.62
82531153|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|3.43|||||TWO_SIDED|95.0|3.01|3.92|||||V116/PPSV23|Serotype 15C: V116/PPSV23 GMC Ratio||3.92|3.01|
82531154|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|9.84|||||TWO_SIDED|95.0|8.83|10.97|||||V116/PPSV23|Serotype 16F: V116/PPSV23 GMC Ratio||10.97|8.83|
82531155|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|7.59|||||TWO_SIDED|95.0|6.68|8.61|||||V116/PPSV23|Serotype 23A: V116/PPSV23 GMC Ratio||8.61|6.68|
82405408|NCT00243919|164519339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Test differences across the three groups in change of ABC score from baseline to 6-month post stroke.||6 month secondary outcome. Paired t-tests were used to compare within-group improvements and ANOVA to assess differences across the three groups followed with pairwise comparisons.||||<0.001
82531156|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|4.79|||||TWO_SIDED|95.0|4.26|5.38|||||V116/PPSV23|Serotype 23B: V116/PPSV23 GMC Ratio||5.38|4.26|
82646326|NCT01236053|165007180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.1815|TWO_SIDED|95.0|0.82|2.77|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.77|0.82|0.1815
82646327|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0248|TWO_SIDED|95.0|1.12|5.09|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.09|1.12|0.0248
82405409|NCT02389959|164519367|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-1.11||||0.111|TWO_SIDED|95.0|-2.47|0.26|||Regression, Linear|||Analysis between groups at month 1.||0.26|-2.47|0.111
82405410|NCT02389959|164519367|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-1.26||||0.131|TWO_SIDED|95.0|-2.9|0.38|||Regression, Linear|||Analysis between groups at month 2.||0.38|-2.9|0.131
82405411|NCT02389959|164519367|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-0.85||||0.332|TWO_SIDED|95.0|-2.57|0.88|||Regression, Linear|||Analysis between groups at month 4.||0.88|-2.57|0.332
82405412|NCT02389959|164519367|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of ESS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-0.48||||0.597|TWO_SIDED|95.0|-2.25|1.3|||Regression, Linear|||Analysis between groups at month 6.||1.3|-2.25|0.597
82405413|NCT02389959|164519368|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|2.85||||0.191|TWO_SIDED|95.0|-1.44|7.13|||Regression, Linear|||Analysis between groups at month 1.||7.13|-1.44|0.191
82405414|NCT02389959|164519368|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|0.29||||0.914|TWO_SIDED|95.0|-5.02|5.61|||Regression, Linear|||Analysis between groups at month 2||5.61|-5.02|0.914
82405415|NCT02389959|164519368|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|1.55||||0.592|TWO_SIDED|95.0|-4.17|7.28|||Regression, Linear|||Analysis between groups at month 4.||7.28|-4.17|0.592
82405416|NCT02389959|164519368|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of PCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|3.1||||0.31|TWO_SIDED|95.0|-2.92|9.12|||Regression, Linear|||Analysis between groups at month 6||9.12|-2.92|0.31
82405417|NCT02389959|164519369|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-2.63||||0.366|TWO_SIDED|95.0|-8.38|3.11|||Regression, Linear|||Analysis between groups at month 1.||3.11|-8.38|0.366
82405418|NCT02389959|164519369|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|0.82||||0.816|TWO_SIDED|95.0|-6.12|7.76|||Regression, Linear|||Analysis between groups at month 2||7.76|-6.12|0.816
82405419|NCT02389959|164519369|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-4.3||||0.247|TWO_SIDED|95.0|-11.61|3.02|||Regression, Linear|||Analysis between groups at month 4.||3.02|-11.61|0.247
82405420|NCT02389959|164519369|OTHER|Linear regression model with repeated measures, controlling for patient's demographic factors, smoking status, and baseline level of MCS. The analysis is weighted by inverse probability treatment weight (IPTW).|Mean Difference (Net)|-8.18||||0.035|TWO_SIDED|95.0|-15.76|-0.6|||Regression, Linear|||Analysis between groups at month 6||-0.6|-15.76|0.035
82405421|NCT02389959|164519370|OTHER|||||||0.03|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at baseline.||||0.030
82405422|NCT02389959|164519370|OTHER|||||||0.719|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at month 2.||||0.719
82531157|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|21.19||||||95.0|18.98|23.65|||||V116/PPSV23|Serotype 24F: V116/PPSV23 GMC Ratio||23.65|18.98|
82531158|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|8.69|||||TWO_SIDED|95.0|7.82|9.65|||||V116/PPSV23|Serotype 31: V116/PPSV23 GMC Ratio||9.65|7.82|
82531159|NCT05569954|164759097|OTHER|GMCs, GMC ratio, and 95% CI are estimated from a cLDA model.|GMC Ratio|15.53|||||TWO_SIDED|95.0|14.13|17.07|||||V116/PPSV23|Serotype 35B: V116/PPSV23 GMC Ratio||17.07|14.13|
82531160|NCT00802737|164759127|SUPERIORITY_OR_OTHER||proportion of responders|0.24|||||TWO_SIDED|95.0|0.07|0.5|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||0.50|0.07|
82531161|NCT00802737|164759127|SUPERIORITY_OR_OTHER||proportion of responders|0.18|||||TWO_SIDED|95.0|0.02|0.52|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||0.52|0.02|
82446163|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.3||||97.79|TWO_SIDED|95.0|1.01|1.66||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.66|1.01|97.79
82446164|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||51.27|TWO_SIDED|95.0|0.81|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.81|51.27
82446165|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||90.66|TWO_SIDED|95.0|0.93|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.93|90.66
82446166|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||54.89|TWO_SIDED|95.0|0.9|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.90|54.89
82446167|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||94.45|TWO_SIDED|95.0|0.98|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.98|94.45
82576272|NCT02209181|164862055|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.71|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|3.64|5.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.78|3.64|<0.001
82446168|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||94.09|TWO_SIDED|95.0|0.98|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.98|94.09
82446169|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||62.95|TWO_SIDED|95.0|0.91|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.91|62.95
82446170|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||96.86|TWO_SIDED|95.0|0.99|1.26||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.26|0.99|96.86
82446171|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||94.16|TWO_SIDED|95.0|0.98|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.98|94.16
82646328|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.052|TWO_SIDED|95.0|0.99|4.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||4.70|0.99|0.0520
82446172|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.99|TWO_SIDED|95.0|0.86|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.86|48.99
82446173|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||94.51|TWO_SIDED|95.0|0.98|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.98|94.51
82405423|NCT02389959|164519370|OTHER|||||||0.467|||||||Wilcoxon rank sum test, 2-sided|||Analysis of intergroup difference at month 6.||||0.467
82405424|NCT01746862|164519392|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|3.47|||<|0.0001|TWO_SIDED|95.0|2.17|4.78|||ANCOVA|Analysis was performed using analysis of covariance (ANCOVA) with baseline age and baseline height as the covariates.||||4.78|2.17|<0.0001
82405425|NCT03519009|164519400|SUPERIORITY||Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|1.8|6.3|||longitudinal logistic regression|||||6.3|1.8|<0.001
82405426|NCT03519009|164519401|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.001|TWO_SIDED|95.0|1.5|4.4|||longitudinal logistic regression|||||4.4|1.5|<0.001
82405427|NCT00731822|164519402|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|||||TWO_SIDED|95.0|-3.9|5.1||||||||5.1|-3.9|
82405428|NCT05209880|164519408|SUPERIORITY|||||||0.5835|||||||Wilcoxon (Mann-Whitney)|||||||0.5835
82405429|NCT03143101|164519440|SUPERIORITY||Mean Difference (Net)|18.1||||0.006|TWO_SIDED|95.0|4.8|30.9||p-value is calculated from the Cochran-Mantel-Haenszel (CMH) test adjusting for the prior influenza vaccination status.|Cochran-Mantel-Haenszel|||||30.9|4.8|0.006
82405430|NCT03143101|164519444|SUPERIORITY||Mean Difference (Net)|32.7|||<|0.001|TWO_SIDED|95.0|14.4|47.8||p-value is calculated from the CMH test adjusting for the prior influenza vaccination status.|Cochran-Mantel-Haenszel|||||47.8|14.4|<0.001
82405431|NCT02554760|164519456|OTHER||success proportion|84.2|||||TWO_SIDED|95.0|60.4|92.3|||Catagorical tabulation|||||92.3|60.4|
82405432|NCT02554760|164519456|OTHER||success proportion|78.9|||||TWO_SIDED|95.0|54.4|93.9||||||||93.9|54.4|
82405433|NCT01435759|164519461|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean|3.16|STANDARD_ERROR_OF_MEAN|1.01||0.004|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.14, was based on MCP-Mod Analysis for the candidate model EMax.|||||0.004
82446174|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||94.59|TWO_SIDED|95.0|0.97|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.97|94.59
82405434|NCT01435759|164519461|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.5|STANDARD_ERROR_OF_MEAN|1.01||0.032|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.48, was based on MCP-Mod Analysis for the candidate model Exponential.|||||0.032
82405435|NCT01435759|164519461|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean|3.28|STANDARD_ERROR_OF_MEAN|1.01||0.003|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.26 was based on MCP-Mod Analysis for the candidate model Linear.|||||0.003
82405436|NCT01435759|164519461|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.91|STANDARD_ERROR_OF_MEAN|1.01||0.01|TWO_SIDED||||||MCP-Mod Analysis Method|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.88, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||0.010
82405437|NCT01435759|164519461|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|3.15|STANDARD_ERROR_OF_MEAN|1.01||0.005|TWO_SIDED||||||MCP-Mod Analysis|The systolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.12, was based on MCP-Mod Analysis for the candidate model Logistic2.|||||0.005
82405438|NCT01435759|164519462|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.16|STANDARD_ERROR_OF_MEAN|0.75||0.011|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.86 was based on MCP-Mod Analysis for the candidate model Emax.|||||0.011
82405439|NCT01435759|164519462|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|1.95|STANDARD_ERROR_OF_MEAN|0.75||0.023|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.59, was based on MCP-Mod Analysis for the candidate model Exponential.|||||0.023
82405440|NCT01435759|164519462|SUPERIORITY_OR_OTHER_LEGACY||MCP-Mod Analysis|2.47|STANDARD_ERROR_OF_MEAN|0.75||0.003|TWO_SIDED||||||Least Squares Means|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.28, was based on MCP-Mod Analysis for the candidate model Linear.|||||0.003
82405441|NCT01435759|164519462|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.22|STANDARD_ERROR_OF_MEAN|0.76||0.009|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 2.93, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||0.009
82405442|NCT01435759|164519462|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|2.37|STANDARD_ERROR_OF_MEAN|0.76||0.005|TWO_SIDED||||||MCP-Mod Analysis|The diastolic blood pressure p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.13, was based on MCP-Mod Analysis for the candidate model Logistic2.|||||0.005
82405443|NCT01435759|164519463|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.45|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.24, was based on MCP-Mod Analysis for the candidate model Emax|||||<0.001
82405444|NCT01435759|164519463|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|3.52|STANDARD_ERROR_OF_MEAN|1.05||0.002|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 3.36, was based on MCP-Mod Analysis for the candidate model Expontential.|||||0.002
82405445|NCT01435759|164519463|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.3|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.10, was based on MCP-Mod Analysis for the candidate model Linear.|||||<0.001
82405446|NCT01435759|164519463|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.63|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.39, was based on MCP-Mod Analysis for the candidate model Logistic1.|||||<0.001
82405447|NCT01435759|164519463|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|4.63|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED||||||MCP-Mod Analysis|The pulse p-value was based on a critical value of 1.99 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 4.39 was based on MCP-Mod Analysis for the candidate model Logistic2.|||||<0.001
82405448|NCT01435759|164519464|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|-0.11|STANDARD_ERROR_OF_MEAN|1.07||1|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis Method|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.10, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Betamod.|Analysis of Dose-Response Using the MCP-Mod Analysis Method||||1.000
82405449|NCT01435759|164519464|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|0.43|STANDARD_ERROR_OF_MEAN|1.06||0.942|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.41, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Emax.|Analysis of Dose-Response Using the MCP-Mod Analysis Method.||||0.942
82405450|NCT01435759|164519464|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|0.21|STANDARD_ERROR_OF_MEAN|1.06||0.995|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.20, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Linear.|Analysis of Dose-Response Using the MCP-Mod Analysis Method.||||0.995
82405451|NCT01435759|164519464|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Means|-0.32|STANDARD_ERROR_OF_MEAN|1.07||0.978|ONE_SIDED|||||Any p-value \<=0.10 indicates successful establishment of dose-response relationship.|MCP-Mod Analysis|The adjusted p-value was based on a critical value of 2.02 from a multivariate-t distribution with 341 degrees of freedom.|The t-statistic used for this analysis, 0.30, was based on MCP-Mod Analysis from the linear contrast using optimal coefficients for the pre-specified candidate model Logistic.|Analysis of Dose-Response Using the MCP-Mod Analysis Method||||0.978
82405452|NCT03243305|164519487|OTHER||Seven-cycle Pregnancy Percentage|13.65|||||TWO_SIDED|95.0|9.91|17.39|||Kaplan-Meier|||The primary hypothesis to be tested is whether subjects using Amphora vaginal gel have a 7-cycle cumulative pregnancy percentage less than or equal to 21%||17.39|9.91|
82405453|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|7451.0|||||TWO_SIDED|95.0|5857.0|9045.0|||||The mean predicted cost for inpatient services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||9045|5857|
82405454|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|11545.0|||||TWO_SIDED|95.0|8827.0|14263.0|||||The mean predicted cost for inpatient services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||14263|8827|
82531162|NCT00802737|164759127|SUPERIORITY_OR_OTHER||proportion of responders|1.0|||||TWO_SIDED|95.0|0.03|1.0|||||Two-sided 95% exact confidence intervals were calculated based on the binomial distribution. The estimated value was calculated using the number of responders (CR+nPR+PR) as the numerator and the total number of par. in the group as the denominator.|||1.00|0.03|
82405455|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|61.0|||||TWO_SIDED|95.0|58.0|63.0|||||The mean predicted cost for emergency department visits for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||63|58|
82405456|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|51.0|||||TWO_SIDED|95.0|49.0|53.0|||||The mean predicted cost for emergency department visits for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||53|49|
82405457|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|231.0|||||TWO_SIDED|95.0|227.0|234.0|||||The mean predicted cost for office visits for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||234|227|
82405458|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|295.0|||||TWO_SIDED|95.0|290.0|299.0|||||The mean predicted cost for office visits for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||299|290|
82405459|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|873.0|||||TWO_SIDED|95.0|827.0|919.0|||||The mean predicted cost for other outpatient and ancillary services for FSC participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||919|827|
82405460|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|1080.0|||||TWO_SIDED|95.0|1022.0|1138.0|||||The mean predicted cost for other outpatient and ancillary services for TIO participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1138|1022|
82531163|NCT00445601|164759143|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.48|0.9|||Log Rank|||||0.90|0.48|0.01
82531164|NCT00445601|164759144|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.23|TWO_SIDED|95.0|0.18|1.49|||Log Rank|||||1.49|0.18|0.23
82646329|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0046|TWO_SIDED|95.0|1.3|4.2|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||4.20|1.30|0.0046
82446175|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||61.27|TWO_SIDED|95.0|0.86|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.86|61.27
82446176|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||96.63|TWO_SIDED|95.0|0.99|1.34||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.34|0.99|96.63
82446177|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||94.02|TWO_SIDED|95.0|0.97|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.97|94.02
82446178|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||53.24|TWO_SIDED|95.0|0.87|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.87|53.24
82446179|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||70.84|TWO_SIDED|95.0|0.91|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.91|70.84
82576273|NCT02209181|164862055|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|0.54||0.012|TWO_SIDED|95.0|0.3|2.42||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.42|0.30|0.012
82576274|NCT02209181|164862055|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|2.66|4.81||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.81|2.66|<0.001
82646330|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.0193|TWO_SIDED|95.0|1.12|3.72|||Wilcoxon (Mann-Whitney)||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.72|1.12|0.0193
82446180|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||74.15|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|74.15
82446181|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||65.43|TWO_SIDED|95.0|0.87|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.87|65.43
82446182|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||97.15|TWO_SIDED|95.0|0.99|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.99|97.15
82446183|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||63.99|TWO_SIDED|95.0|0.81|1.34||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.34|0.81|63.99
82646331|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.75||||0.0309|TWO_SIDED|95.0|1.1|6.88|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||6.88|1.10|0.0309
82446184|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||91.99|TWO_SIDED|95.0|0.94|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|0.94|91.99
82405461|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|1267.0|||||TWO_SIDED|95.0|1251.0|1283.0|||||The mean predicted cost for pharmacy services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1283|1251|
82405462|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|1250.0|||||TWO_SIDED|95.0|1234.0|1266.0|||||The mean predicted cost for pharmacy services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1266|1234|
82405463|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|1175.0|||||TWO_SIDED|95.0|1083.0|1267.0|||||The mean predicted cost for inpatient and emergency department services for FSC participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1267|1083|
82405464|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|1566.0|||||TWO_SIDED|95.0|1438.0|1695.0|||||The mean predicted cost for inpatient and emergency department services for TIO participants. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||1695|1438|
82405465|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|2991.0|||||TWO_SIDED|95.0|2922.0|3059.0|||||The mean predicted cost for total healthcare services for participants treated with FSC. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||3059|2922|
82405466|NCT01387178|164519493|SUPERIORITY_OR_OTHER||Adjusted Mean|3304.0|||||TWO_SIDED|95.0|3221.0|3386.0|||||The mean predicted cost for total healthcare services for participants treated with TIO. A generalized linear model with a log link function and gamma distribution for the error term to resolve the issue of skewed cost distribution was used.|||3386|3221|
82405467|NCT01387178|164519494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.964||||0.2198||95.0|0.909|1.022||Risk of Moderate COPD Exacerbations|Regression, Cox|||||1.022|0.909|0.2198
82405468|NCT01387178|164519494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.0406||95.0|0.752|0.994||Risk of Severe COPD Exacerbations|Regression, Cox|||||0.994|0.752|0.0406
82446185|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||76.81|TWO_SIDED|95.0|0.94|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.94|76.81
82405469|NCT01387178|164519494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.0962||95.0|0.901|1.009||Risk of Any COPD Exacerbation|Regression, Cox|||||1.009|0.901|0.0962
82405470|NCT00871234|164519496|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.03||||0.36||95.0|||||Wilcoxon signed-rank|||||||0.36
82405471|NCT02782741|164519502|NON_INFERIORITY|NI was demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference of avalglucosidase alfa minus alglucosidase alfa was greater than (\>) -1.1.|LS mean difference|2.43|STANDARD_ERROR_OF_MEAN|1.29||0.0074|TWO_SIDED|95.0|-0.13|4.99|||mixed model for repeated measures|||Analysis performed using MMRM model with baseline FVC (% predicted, as continuous), sex, age (in years at baseline), treatment group, visit, interaction term between treatment group and visit as fixed effects.||4.99|-0.13|0.0074
82405472|NCT02782741|164519502|SUPERIORITY|A test for superiority of avalglucosidase alfa versus alglucosidase alfa was performed with an overall 5% level of significance.||||||0.0626||||||Threshold for significance at \<0.05 level.|mixed model for repeated measures|||Analysis performed using MMRM model with baseline FVC (% predicted, as continuous), sex, age (in years at baseline), treatment group, visit, interaction term between treatment group and visit as fixed effects.||||0.0626
82405473|NCT02782741|164519503|SUPERIORITY|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|30.01|STANDARD_ERROR_OF_MEAN|14.43||0.0405|TWO_SIDED|95.0|1.33|58.69|||mixed model for repeated measures|||LS mean difference was derived from MMRM model with baseline FVC (% predicted) and baseline 6MWT (distance walked in meter), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||58.69|1.33|0.0405
82405474|NCT02782741|164519504|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|3.13|STANDARD_ERROR_OF_MEAN|5.24||0.5522|TWO_SIDED|95.0|-7.31|13.57|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for MIP % predicted adjusted for MIP % predicted at baseline, age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||13.57|-7.31|0.5522
82405475|NCT02782741|164519505|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|5.64||0.7321|TWO_SIDED|95.0|-13.17|9.29|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for MEP % predicted adjusted for MEP % predicted at baseline, age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||9.29|-13.17|0.7321
82405476|NCT02782741|164519506|OTHER|Per the protocol-defined statistical test strategy for multiplicity adjustment, and since superiority was narrowly missed for FVC % predicted, superiority testing for the secondary outcome measure couldn't be performed.|LS mean difference|106.97|STANDARD_ERROR_OF_MEAN|67.17||0.115|TWO_SIDED|95.0|-26.56|240.5|||mixed model for repeated measures|||LS mean difference was derived from MMRM model for HHD lower extremity muscle strength composite score adjusted for summary HHD lower extremity score at baseline, baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||240.50|-26.56|0.1150
82576275|NCT02209181|164862055|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.35|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|-4.41|-2.29||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-2.29|-4.41|<0.001
82646332|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||0.1285|TWO_SIDED|95.0|0.81|5.51|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||5.51|0.81|0.1285
82405477|NCT02782741|164519507|OTHER|No formal testing of additional secondary endpoint of QMFT.|LS mean difference|2.08|STANDARD_ERROR_OF_MEAN|0.94||0.0288|TWO_SIDED|95.0|0.22|3.95||Nominal p-value.|mixed model for repeated measures|||LS mean difference was derived from MMRM models adjust for total QMFT score at baseline, baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||3.95|0.22|0.0288
82405478|NCT02782741|164519508|OTHER|No formal testing of additional secondary endpoint of SF-12.|Score difference|0.77|STANDARD_ERROR_OF_MEAN|1.46||0.5996|TWO_SIDED|95.0|-2.13|3.67|||mixed model for repeated measures|||The MMRM models adjust for baseline score (PCS), baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||3.67|-2.13|0.5996
82405479|NCT02782741|164519508|OTHER|No formal testing of additional secondary endpoint of SF-12.|Score difference|2.12|STANDARD_ERROR_OF_MEAN|1.8||0.2427|TWO_SIDED|95.0|-1.46|5.69|||mixed model for repeated measures|||The MMRM models adjust for baseline score (MCS), baseline FVC (% predicted), age (in years, at baseline), gender, treatment group, visit, and treatment-by-visit interaction as fixed effects.||5.69|-1.46|0.2427
82405480|NCT00196105|164519556|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||Log Rank|||||||.057
82405481|NCT00196105|164519557|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||.04
82405482|NCT00196105|164519557|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Death is censored for Kaplan-Meier analysis.|Log Rank|||||||.007
82405483|NCT00196105|164519557|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Chi-squared|||||||.69
82405484|NCT00196105|164519557|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is adjusted for multiple comparisons.|Chi-squared|||6 mm Zilver vs. 10 mm Zilver and 10 mm Wallstent combined||||.02
82405485|NCT00196105|164519558|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||.16
82405486|NCT00196105|164519560|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Log Rank|||||||.32
82405487|NCT00196105|164519560|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Kruskal-Wallis|||||||.69
82405488|NCT04863872|164519561|OTHER|Difference|Risk Ratio (RR)|0.72||||0.27|TWO_SIDED|95.0|0.39|1.3|||Poisson regression|Poisson regression with binary primary outcome, estimated using Generalized Estimating Equations (GEE) and robust variance estimation.||||1.30|0.39|0.27
82646333|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.1257|TWO_SIDED|95.0|0.85|3.83|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.83|0.85|0.1257
82405489|NCT01275144|164519593|SUPERIORITY_OR_OTHER||Ratio of geometric least square mean|0.897|||||TWO_SIDED|90.0|0.86|0.94|||||Ratio of LY2216684 to Placebo|||0.94|0.86|
82405490|NCT01275144|164519594|SUPERIORITY_OR_OTHER||median of paired differences|0.5||||0.0021|TWO_SIDED|90.0|0.5|1.0|||Wilcoxon signed rank test||Ratio of LY2216684 to Placebo|||1.00|0.50|0.0021
82405491|NCT01275144|164519595|SUPERIORITY_OR_OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|1.01|1.08|||||Ratio of LY2216684 to Placebo|||1.08|1.01|
82405492|NCT05607576|164519620|OTHER|Clarke error grid analyses (EGA) were performed to compare CGM values to glucometer glucose values blood glucose readings (mg/dL) were grouped based on radiation exposure (\>0-500 µGy and \>500 µGy). A p-value \<0.05 was considered statistically significant.|||||<|0.05|||||||Mixed Models Analysis|Generalized linear mixed models with random effects were used to assess absolute differences in BG mg/dL by cumulative scatter||||||<0.05
82405493|NCT05607576|164519621|OTHER|Clarke error grid analyses (EGA) were performed to compare CGM values to glucometer glucose values. A p-value \<0.05 was considered statistically significant.|||||<|0.05|||||||Mixed Models Analysis|Generalized linear mixed models with random effects over time were used to assess absolute differences in BG mg/dL by time||||||<0.05
82405494|NCT03110133|164519627|SUPERIORITY|||||||0.0488|||||||Chi-squared|||||||0.0488
82405495|NCT03110133|164519630|SUPERIORITY|||||||0.0347|||||||Chi-squared|||||||0.0347
82405496|NCT01298700|164519710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.148|TWO_SIDED|95.0|-11.0|1.9||P-value was stratified by baseline prostaglandin analogue (PGA) treatment(yes/no) and by baseline active ocular surface finding (present/absent).|Cochran-Mantel-Haenszel||bimatoprost 0.01% ophthalmic solution - bimatoprost 0.03% ophthalmic solution|||1.9|-11|0.148
82405497|NCT04006145|164519712|SUPERIORITY||LS-Means Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.184||0.029|TWO_SIDED|95.0|-0.76|-0.04|||ANCOVA|||Change from baseline in serum LDL-C at Week 16 was analyzed using ANCOVA after the missing data imputation, with treatment group as a factor, baseline serum LDL-C, baseline LDL-C-by-treatment interaction values, and baseline lipid-lowering medications (Yes or No) as covariates. Missing data for serum LDL-C was imputed through multiple imputation method as described in the statistical analysis plan (SAP).||-0.04|-0.76|0.029
82405498|NCT01307787|164519749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.002
82405499|NCT01307787|164519750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.47
82405500|NCT01307787|164519751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.24
82405501|NCT01307787|164519752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.16
82646334|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.2944|TWO_SIDED|95.0|0.7|3.31|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||3.31|0.70|0.2944
82405502|NCT01307787|164519753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.21
82405503|NCT01307787|164519754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.07
82405504|NCT01307787|164519755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.4
82405505|NCT01307787|164519756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U tests were used to assess between group changes on delta scores at times T0( at the start of the study in week 1) and T1( post-intervention in week 9). Significance level for all statistical tests was set at p\< 0.05.||||0.6
82405506|NCT01965327|164519757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|TWO_SIDED||||||t-test, 2 sided|Missing data were imputed by last observation carried forward.||||||0.027
82405507|NCT01965327|164519758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED||||||t-test, 2 sided|||||||0.0078
82405508|NCT02035553|164519787|SUPERIORITY||Diff in MMRM LSM|-1.84||||0.0451|TWO_SIDED|95.0|-3.64|-0.04|||Mixed Models Analysis|||||-0.04|-3.64|0.0451
82405509|NCT01854697|164519788|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint assessment comparison was made within each of the 2 HCV genotypes (GT1a and GT1b). Within HCV GT1a, the 3-DAA + RBV and TPV/PR arms were compared. Within HCV GT1b, the 3-DAA and TPV/PR arms were compared. The test treatment arm was considered noninferior to the TPV/PR arm in the respective HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|14.7|||||TWO_SIDED|95.0|1.3|28.2|||||Difference (95% CI) from TPV/PR within GT1a. Calculated using the normal approximation to the binomial distribution.|||28.2|1.3|
82405510|NCT01854697|164519788|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint assessment comparison was made within each of the 2 HCV genotypes (GT1a and GT1b). Within HCV GT1a, the 3-DAA + RBV and TPV/PR arms were compared. Within HCV GT1b, the 3-DAA and TPV/PR arms were compared. The test treatment arm was considered noninferior to the TPV/PR arm in the respective HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.5|||||TWO_SIDED|95.0|6.4|32.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.6|6.4|
82405511|NCT01854697|164519789|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|2.28||0.351|TWO_SIDED|95.0|-2.39|6.65|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||6.65|-2.39|0.351
82405512|NCT01854697|164519789|SUPERIORITY_OR_OTHER||Least Squares Mean of Difference|5.83|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|2.19|9.47|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.47|2.19|0.002
82405513|NCT01854697|164519789|SUPERIORITY_OR_OTHER||Least Squares Mean of Difference|5.28|STANDARD_ERROR_OF_MEAN|1.65||0.002|TWO_SIDED|95.0|2.01|8.54|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||8.54|2.01|0.002
82576276|NCT02209181|164862055|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.54||0.074|TWO_SIDED|95.0|-2.05|0.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.09|-2.05|0.074
82405514|NCT01854697|164519790|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.08|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|2.72|9.44|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.44|2.72|<0.001
82405515|NCT01854697|164519790|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|1.34|<|0.001|TWO_SIDED|95.0|3.55|8.85|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||8.85|3.55|<0.001
82405516|NCT01854697|164519790|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.86|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|4.36|9.37|||ANCOVA|ANCOVA model included baseline score and region as covariates and treatment arm as a factor.||||9.37|4.36|<0.001
82405517|NCT01854697|164519791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.2||||0.021|TWO_SIDED|95.0|1.4|38.0|||Regression, Logistic|Logistic regression model with treatment arm, baseline log10 HCV RNA level, and interleukin 28B (IL28B) genotype (CC versus non-CC) as predictors.||||38.0|1.4|0.021
82405518|NCT01854697|164519791|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|20.8|||||TWO_SIDED|95.0|7.9|33.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||33.6|7.9|
82405519|NCT01854697|164519791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.2||||0.002|TWO_SIDED|95.0|3.3|241.1|||Regression, Logistic|Calculated using logistic regression model with treatment arm, baseline log10 HCV RNA level, and IL28B genotype (CC versus non-CC) as predictors.||||241.1|3.3|0.002
82405520|NCT01854697|164519791|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratum-adjusted Cochran-Mantel-Haenszel after adjusting for IL28B genotype (CC or non-CC).||||||0.005
82405521|NCT01854697|164519794|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1a HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|13.3|||||TWO_SIDED|95.0|-0.4|27.0|||||Difference (95% CI) from TPV/PR within GT1a. Calculated using the normal approximation to the binomial distribution.|||27.0|-0.4|
82405522|NCT01854697|164519794|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.6|||||TWO_SIDED|95.0|6.5|32.7|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.7|6.5|
82646335|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.7032|TWO_SIDED|95.0|0.45|3.21|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||3.21|0.45|0.7032
82405523|NCT01854697|164519794|NON_INFERIORITY_OR_EQUIVALENCE|The test treatment arm was considered noninferior to the TPV/PR arm in the GT1b HCV subtype if the lower bound of the 2-sided 95% CI for the treatment arm difference was above the noninferiority margin of -10.5%.|Difference|19.5|||||TWO_SIDED|95.0|6.4|32.6|||||Difference (95% CI) from TPV/PR within GT1b. Calculated using the normal approximation to the binomial distribution.|||32.6|6.4|
82405524|NCT04033146|164519795|OTHER||||||<|0.001||||||Threshold was 0.05|ANOVA|||"H1. Bilateral ankle exoskeletons that provide 'motor-like' assistance will result in lower net metabolic power than those providing 'spring-like' assistance for young adults.~H2. Bilateral ankle exoskeletons that provide 'motor-like' assistance will result in lower net metabolic power than those providing 'spring-like' assistance for older adults."||||<0.001
82405525|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|37.3||||||95.0|0.1|157.7|||ED-50: Bootstrap Method||Non-convergence for the non-liner model occurred in some bootstrap samples which were not included in summarizing the ED50 distribution or confidence interval.|Dose response analysis ED 50: dose providing 50% of the maximal effect. Statistics were obtained from three parameter model Y = D + G\*exp(B\*dose) by bootstrapping 2000 data sets, where D = expected response of saturation (maximal effect), B = related to slope of the dose response mechanism (change in response relative to the change in dose), and D+G = expected response at zero dose.||157.7|0.1|
82405526|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|123.9||||||95.0|0.4|523.9|||ED 90: Bootstrap Method||Non-convergence for the non-liner model occurred in some bootstrap samples which were not included in summarizing the ED90 distribution or confidence interval.|Dose response analysis ED 90: dose providing 90% of the maximal effect. Statistics were obtained from three parameter model Y = D + G\*exp(B\*dose) by bootstrapping 2000 data sets, where D = expected response of saturation (maximal effect), B = related to slope of the dose response mechanism (change in response relative to the change in dose), and D+G = expected response at zero dose.||523.9|0.4|
82405527|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|2.472||0.0983||95.0|-8.97|0.77|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.77|-8.97|0.0983
82405528|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.03|STANDARD_ERROR_OF_MEAN|2.415||0.0966||95.0|-8.78|0.73|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.73|-8.78|0.0966
82405529|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.29|STANDARD_ERROR_OF_MEAN|2.548||0.0013||95.0|-13.31|-3.28|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.28|-13.31|0.0013
82405530|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.16|STANDARD_ERROR_OF_MEAN|2.437||0.0353||95.0|-9.96|-0.36|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.36|-9.96|0.0353
82405531|NCT00676403|164519833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.53|STANDARD_ERROR_OF_MEAN|2.469||0.0006||95.0|-13.4|-3.67|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. The repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.67|-13.40|0.0006
82405532|NCT00676403|164519834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8784||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8784
82405533|NCT00676403|164519834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6767||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6767
82405534|NCT00676403|164519834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8955||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8955
82405535|NCT00676403|164519834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9505||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9505
82405536|NCT00676403|164519834|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0466
82531165|NCT02959138|164759225|OTHER|The test-to-reference ratio (geometric least squares mean (GLSM) ratio) and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|111.68|||||TWO_SIDED|90.0|86.94|143.47||||||The Estimate statement was used to produce the point estimate and the corresponding 90% confidence interval of the difference in PK parameters of interest on a logarithmic scale.||143.47|86.94|
82646336|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9922|TWO_SIDED|95.0|0.37|2.69|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.69|0.37|0.9922
82646337|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.1227|TWO_SIDED|95.0|0.87|3.16|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.16|0.87|0.1227
82405537|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3876||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3876
82405538|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7959||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.7959
82405539|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2032||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.2032
82405540|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7032||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.7032
82405541|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0551||95.0|||||Cochran-Mantel-Haenszel|||Week 1: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0551
82446186|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||67.01|TWO_SIDED|95.0|0.95|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Central; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.95|67.01
82531166|NCT02959138|164759225|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|107.04|||||TWO_SIDED|90.0|78.47|146.02||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||146.02|78.47|
82646338|NCT01236053|165007182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.3809|TWO_SIDED|95.0|0.69|2.61|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, chronic pancreatitis."|||2.61|0.69|0.3809
82405542|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.4100
82405543|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6524||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6524
82405544|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3219||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3219
82405545|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3509||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3509
82405546|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0053||95.0|||||Cochran-Mantel-Haenszel|||Week 2: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0053
82405547|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9835||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9835
82405548|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6668||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6668
82405549|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2823||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.2823
82405550|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5687||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.5687
82405551|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0043||95.0|||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0043
82405552|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8662||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.8662
82405553|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3656||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3656
82405554|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0806||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0806
82405555|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5381||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.5381
82405556|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Cochran-Mantel-Haenszel|||Week 6: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0090
82405557|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9748||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.9748
82405558|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3936||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.3936
82531167|NCT02959138|164759226|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|111.92|||||TWO_SIDED|90.0|86.92|144.12||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||144.12|86.92|
82646339|NCT01236053|165007183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.1757|TWO_SIDED|95.0|0.8|3.34|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag)."|||3.34|0.80|0.1757
82405559|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1563||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.1563
82405560|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6357||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.6357
82405561|NCT00676403|164519835|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Cochran-Mantel-Haenszel|||Last Observation Carried Forward: Cochran-Mantel-Haenszel test for difference; p-value was adjusted for geographic region at each visit.||||0.0133
82405562|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6|STANDARD_ERROR_OF_MEAN|8.05||0.4133||95.0|-22.4|9.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.3|-22.4|0.4133
82405563|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|7.92||0.6676||95.0|-19.0|12.2|||Mixed Models Analysis|||Week 1: Conrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.2|-19.0|0.6676
82405564|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|8.04||0.9355||95.0|-16.5|15.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.2|-16.5|0.9355
82405565|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|7.97||0.9355||95.0|-15.1|16.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.4|-15.1|0.9355
82405566|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|7.94||0.1895||95.0|-26.1|5.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-26.1|0.1895
82405567|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.9|STANDARD_ERROR_OF_MEAN|8.1||0.1443||95.0|-27.8|4.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-27.8|0.1443
82405568|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.4|STANDARD_ERROR_OF_MEAN|7.96||0.2946||95.0|-24.0|7.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-24.0|0.2946
82531168|NCT02959138|164759226|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|107.69|||||TWO_SIDED|90.0|79.63|145.65||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||145.65|79.63|
82405569|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.4|STANDARD_ERROR_OF_MEAN|8.22||0.3686||95.0|-23.6|8.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.8|-23.6|0.3686
82405570|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|8.02||0.6079||95.0|-19.9|11.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.7|-19.9|0.6079
82405571|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.5|STANDARD_ERROR_OF_MEAN|7.99||0.0016||95.0|-41.2|-9.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-9.7|-41.2|0.0016
82405572|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|8.22||0.5976||95.0|-20.5|11.8|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.8|-20.5|0.5976
82405573|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|8.0||0.8527||95.0|-14.3|17.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.3|-14.3|0.8527
82405574|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.29||0.6973||95.0|-19.6|13.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.1|-19.6|0.6973
82405575|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.09||0.6895||95.0|-19.2|12.7|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.7|-19.2|0.6895
82405576|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.1|STANDARD_ERROR_OF_MEAN|8.21||0.0209||95.0|-35.2|-2.9|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.9|-35.2|0.0209
82446187|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||63.91|TWO_SIDED|95.0|0.85|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.85|63.91
82446188|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.18||||96.47|TWO_SIDED|95.0|0.99|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.99|96.47
82576277|NCT02209181|164862056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|2.63|4.97||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.97|2.63|<0.001
82576278|NCT02209181|164862056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.32|STANDARD_ERROR_OF_MEAN|0.59||0.026|TWO_SIDED|95.0|0.16|2.48||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.48|0.16|0.026
82576279|NCT02209181|164862056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.82|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|2.64|4.99||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.99|2.64|<0.001
82405577|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|8.18||0.4084||95.0|-22.9|9.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.3|-22.9|0.4084
82405578|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|7.96||0.3958||95.0|-22.5|8.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.9|-22.5|0.3958
82446189|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||72.17|TWO_SIDED|95.0|0.93|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.93|72.17
82446190|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||74.38|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|74.38
82446191|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||53.85|TWO_SIDED|95.0|0.9|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.90|53.85
82531169|NCT02959138|164759227|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|102.0|||||TWO_SIDED|90.0|81.42|127.79||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||127.79|81.42|
82531170|NCT02959138|164759227|OTHER|The test-to-reference ratio GLSM ratio and associated 90% CI were calculated by taking the exponential of the point estimate and the corresponding lower and upper limits, which was consistent with the two 1-sided tests approach.|GLSM ratio|87.8|||||TWO_SIDED|90.0|68.14|113.13||||||The Estimate statement was used to produce the point estimate and the corresponding 90% CI of the difference in PK parameters of interest on a logarithmic scale.||113.13|68.14|
82531171|NCT01327547|164759230|SUPERIORITY_OR_OTHER||Difference in proportion|-0.002||||0.4598|TWO_SIDED|95.0|-0.0417|0.0376|||Cochran-Mantel-Haenszel||Difference in proportion: CMH approach weighted by hepatitis B virus (HBV) status and usage of protease inhibitor (PI) regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The Cochran-Mantel-Haenszel (CMH) approach was used. No formal hypothesis test was performed.||0.0376|-0.0417|0.4598
82405579|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|8.25||0.5776||95.0|-20.9|11.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.7|-20.9|0.5776
82405580|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|8.06||0.5665||95.0|-20.5|11.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.3|-20.5|0.5665
82405581|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-23.5|STANDARD_ERROR_OF_MEAN|8.13||0.0041||95.0|-39.6|-7.5|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-7.5|-39.6|0.0041
82405582|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|STANDARD_ERROR_OF_MEAN|8.22||0.1842||95.0|-27.1|5.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-27.1|0.1842
82405583|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|8.0||0.8269||95.0|-17.5|14.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.0|-17.5|0.8269
82405584|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|8.34||0.3319||95.0|-24.5|8.3|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.3|-24.5|0.3319
82405585|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|8.09||0.7552||95.0|-13.4|18.5|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.5|-13.4|0.7552
82405586|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.3|STANDARD_ERROR_OF_MEAN|8.16||0.0137||95.0|-36.3|-4.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-4.2|-36.3|0.0137
82405587|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.0|STANDARD_ERROR_OF_MEAN|8.22||0.1157||95.0|-29.2|3.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.2|-29.2|0.1157
82531172|NCT01327547|164759231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0167|||||TWO_SIDED|95.0|-0.0653|0.0319|||||CMH approach weighted by HBV status and usage of PI regiment strata, is used to calculate the statistics. The point estimate and 95% CI are difference in proportions between MVC and placebo for the participants meeting secondary endpoint.|||0.0319|-0.0653|
82531173|NCT01327547|164759231|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0177|||||TWO_SIDED|95.0|-0.0805|0.0452|||||CMH approach weighted by HBV status and usage of PI regiment strata, is used to calculate the statistics. The point estimate and 95% CI are difference in proportions between maraviroc and placebo for the participants meeting secondary endpoint.|||0.0452|-0.0805|
82446192|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||95.02|TWO_SIDED|95.0|0.98|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.98|95.02
82446193|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||92.27|TWO_SIDED|95.0|0.97|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.97|92.27
82446194|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||54.65|TWO_SIDED|95.0|0.88|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.88|54.65
82446195|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||87.93|TWO_SIDED|95.0|0.95|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.95|87.93
82446196|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||77.57|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|77.57
82446197|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||77.07|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|77.07
82446198|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||78.42|TWO_SIDED|95.0|0.96|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.96|78.42
82531174|NCT01327547|164759236|SUPERIORITY_OR_OTHER||Difference in proportion|-0.015|||||TWO_SIDED|95.0|-0.1484|0.1185|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 48 data presented here.||0.1185|-0.1484|
82531175|NCT01327547|164759236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0255|||||TWO_SIDED|95.0|-0.1784|0.1274|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 96 data presented here.||0.1274|-0.1784|
82531176|NCT01327547|164759236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|||||TWO_SIDED|95.0|-0.2421|0.0761|||||Difference in proportion: CMH approach weighted by HBV status and usage of PI regimen strata was used to calculate the statistics.|A stratified analysis was conducted by summarizing the difference in proportions adjusted for the randomization strata formed by crossing levels of stratification variables. The CMH approach was used. No formal hypothesis test was performed. Week 144 data presented here.||0.0761|-0.2421|
82531177|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Mean|-41.12||||0.1174|TWO_SIDED|95.0|-92.72|10.49|||ANCOVA||Difference in Least Square (LS) Mean|The above analysis is for CD4+ cells at week 48. Results are from an analysis of covariance (ANCOVA) model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||10.49|-92.72|0.1174
82531178|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in LS Mean|-21.96||||0.593|TWO_SIDED|95.0|-103.05|59.12|||ANCOVA||Difference in LS Mean|The above analysis is for CD8+ cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||59.12|-103.05|0.5930
82531179|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in LS Mean|-48.26||||0.0669|TWO_SIDED|95.0|-99.93|3.41|||ANCOVA|||The above analysis is for CD4+ cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||3.41|-99.93|0.0669
82646340|NCT01236053|165007183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.4405|TWO_SIDED|95.0|0.64|2.75|||Conditional Logistic Regression||"Comparison: Ever (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.75|0.64|0.4405
82646341|NCT01236053|165007183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.442|TWO_SIDED|95.0|0.71|2.16|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag)."|||2.16|0.71|0.4420
82646342|NCT01236053|165007183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.9034|TWO_SIDED|95.0|0.59|1.82|||Conditional Logistic Regression||"Comparison: Ever (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||1.82|0.59|0.9034
82646343|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.2395|TWO_SIDED|95.0|0.65|5.6|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||5.60|0.65|0.2395
82646344|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.3764|TWO_SIDED|95.0|0.55|4.93|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.93|0.55|0.3764
82646345|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.7599|TWO_SIDED|95.0|0.48|2.71|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||2.71|0.48|0.7599
82646346|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9502|TWO_SIDED|95.0|0.43|2.46|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.46|0.43|0.9502
82646347|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.7164|TWO_SIDED|95.0|0.3|5.75|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||5.75|0.30|0.7164
82405588|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.04||0.3791||95.0|-22.9|8.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.7|-22.9|0.3791
82425970|NCT04756531|164560636|OTHER|Natural log transformed AUCinf for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|146.8|||||TWO_SIDED|90.0|118.8|181.41||||||||181.41|118.80|
82531180|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in LS Mean|-65.28||||0.1799|TWO_SIDED|95.0|-161.07|30.5|||ANCOVA|||The above analysis is for CD8+ cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||30.50|-161.07|0.1799
82531181|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in LS Mean|-27.71||||0.3859|TWO_SIDED|95.0|-90.71|35.29|||ANCOVA|||The above analysis is for CD4+ cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||35.29|-90.71|0.3859
82531182|NCT01327547|164759237|SUPERIORITY_OR_OTHER||Difference in LS Mean|-31.86||||0.5571|TWO_SIDED|95.0|-138.93|75.21|||ANCOVA|||The above analysis is for CD8+ cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, hepatitis B virus status (HBV), Protease inhibitor (PI)-based regimen.||75.21|-138.93|0.5571
82646348|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9345|TWO_SIDED|95.0|0.24|4.73|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.73|0.24|0.9345
82646349|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.8833|TWO_SIDED|95.0|0.28|3.02|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||3.02|0.28|0.8833
82646350|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.6178|TWO_SIDED|95.0|0.22|2.46|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.46|0.22|0.6178
82646351|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.4556|TWO_SIDED|95.0|0.46|5.53|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||5.53|0.46|0.4556
82646352|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.7478|TWO_SIDED|95.0|0.35|4.29|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.29|0.35|0.7478
82646353|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.235|TWO_SIDED|95.0|0.71|4.13|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||4.13|0.71|0.2350
82646354|NCT01236053|165007184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.5428|TWO_SIDED|95.0|0.54|3.24|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.24|0.54|0.5428
82531183|NCT01327547|164759238|SUPERIORITY_OR_OTHER||Difference in LS Mean|-56.06||||0.0153|TWO_SIDED|95.0|-101.2|-10.92|||ANCOVA||Difference in LS Mean|The above analysis is for CD38 expression on CD4 and CD8 cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||-10.92|-101.20|0.0153
82646355|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.3123|TWO_SIDED|95.0|0.55|6.59|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||6.59|0.55|0.3123
82405589|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.7|STANDARD_ERROR_OF_MEAN|8.39||0.1329||95.0|-29.2|3.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.9|-29.2|0.1329
82405590|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|8.09||0.7723||95.0|-13.6|18.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.3|-13.6|0.7723
82405591|NCT00676403|164519836|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.5|STANDARD_ERROR_OF_MEAN|8.16||0.0063||95.0|-38.6|-6.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score was included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-6.4|-38.6|0.0063
82405592|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.254||0.1715||95.0|-0.15|0.85|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.85|-0.15|0.1715
82405593|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.251||0.7944||95.0|-0.43|0.56|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.56|-0.43|0.7944
82405594|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.255||0.1994||95.0|-0.17|0.83|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.83|-0.17|0.1994
82405595|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.251||0.3652||95.0|-0.27|0.72|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.72|-0.27|0.3652
82405596|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.251||0.0481||95.0|0.0|0.99|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.99|0.00|0.0481
82405597|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.256||0.2501||95.0|-0.21|0.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.80|-0.21|0.2501
82646356|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.3951|TWO_SIDED|95.0|0.49|6.15|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||6.15|0.49|0.3951
82646357|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.4388|TWO_SIDED|95.0|0.56|3.75|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.75|0.56|0.4388
82646358|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.5535|TWO_SIDED|95.0|0.51|3.47|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.47|0.51|0.5535
82646359|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.6332|TWO_SIDED|95.0|0.4|4.48|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.48|0.40|0.6332
82646360|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8743|TWO_SIDED|95.0|0.32|3.75|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.75|0.32|0.8743
82646361|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.6132|TWO_SIDED|95.0|0.27|2.15|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.15|0.27|0.6132
82646362|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.63||||0.3821|TWO_SIDED|95.0|0.22|1.78|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||1.78|0.22|0.3821
82646363|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.3591|TWO_SIDED|95.0|0.51|6.28|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||6.28|0.51|0.3591
82531184|NCT01327547|164759238|SUPERIORITY_OR_OTHER||Difference in LS Mean|-44.93||||0.0947|TWO_SIDED|95.0|-97.72|7.87|||ANCOVA|||The above analysis is for CD38 expression on CD4 and CD8 cells for Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||7.87|-97.72|0.0947
82531185|NCT01327547|164759238|SUPERIORITY_OR_OTHER||Difference in LS Mean|-29.75||||0.3595|TWO_SIDED|95.0|-93.74|34.24|||ANCOVA|||The above analysis is for CD38 expression on CD4 and CD8 cells for Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||34.24|-93.74|0.3595
82531186|NCT01327547|164759239|SUPERIORITY_OR_OTHER||Difference in LS Mean|-2.53||||0.4476|TWO_SIDED|95.0|-9.11|4.05|||ANCOVA||Difference in LS Mean|The above analysis is for C-reactive protein cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||4.05|-9.11|0.4476
82405598|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.252||0.5191||95.0|-0.33|0.66|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.66|-0.33|0.5191
82405599|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.262||0.0817||95.0|-0.06|0.97|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.97|-0.06|0.0817
82405600|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.253||0.1146||95.0|-0.1|0.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.90|-0.10|0.1146
82405601|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.253||0.0054||95.0|0.21|1.21|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.21|0.21|0.0054
82405602|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.261||0.3389||95.0|-0.26|0.76|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.76|-0.26|0.3389
82405603|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.254||0.5079||95.0|-0.33|0.67|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.67|-0.33|0.5079
82405604|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.265||0.0453||95.0|0.01|1.05|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.05|0.01|0.0453
82405605|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.256||0.1622||95.0|-0.15|0.86|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.86|-0.15|0.1622
82405606|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.262||0.0003||95.0|0.45|1.48|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.48|0.45|0.0003
82405607|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.26||0.0383||95.0|0.03|1.05|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.05|0.03|0.0383
82531187|NCT01327547|164759239|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.67||||0.3012|TWO_SIDED|95.0|-0.61|1.96|||ANCOVA|||The above analysis is for C-reactive protein cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.96|-0.61|0.3012
82646364|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6899|TWO_SIDED|95.0|0.37|4.58|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||4.58|0.37|0.6899
82405608|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.253||0.4495||95.0|-0.31|0.69|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.69|-0.31|0.4495
82405609|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.263||0.0135||95.0|0.14|1.17|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0135
82405610|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.254||0.1423||95.0|-0.13|0.87|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.87|-0.13|0.1423
82405611|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.259||0.0035||95.0|0.25|1.27|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.27|0.25|0.0035
82405612|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.261||0.0125||95.0|0.14|1.17|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0125
82405613|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.254||0.8021||95.0|-0.44|0.56|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.56|-0.44|0.8021
82405614|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.267||0.0249||95.0|0.08|1.13|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.13|0.08|0.0249
82405615|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.256||0.3383||95.0|-0.26|0.75|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.75|-0.26|0.3383
82405616|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|0.26||0.0001||95.0|0.55|1.57|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.57|0.55|0.0001
82405617|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.261||0.0133||95.0|0.14|1.17|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.17|0.14|0.0133
82405618|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.256||0.382||95.0|-0.28|0.73|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.73|-0.28|0.3820
82405619|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.269||0.0053||95.0|0.23|1.28|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.28|0.23|0.0053
82531188|NCT01327547|164759239|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.92||||0.4196|TWO_SIDED|95.0|-1.33|3.17|||ANCOVA|||The above analysis is for C-reactive protein cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||3.17|-1.33|0.4196
82646365|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.2031|TWO_SIDED|95.0|0.73|4.3|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||4.30|0.73|0.2031
82646366|NCT01236053|165007185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.4932|TWO_SIDED|95.0|0.56|3.37|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.37|0.56|0.4932
82405620|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.256||0.3258||95.0|-0.25|0.76|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.76|-0.25|0.3258
82531189|NCT01327547|164759240|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.3||||0.9904|TWO_SIDED|95.0|-48.66|49.26||Not specifed.|ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||49.26|-48.66|0.9904
82531190|NCT01327547|164759240|SUPERIORITY_OR_OTHER||Difference in LS Mean|10.87||||0.7697|TWO_SIDED|95.0|-62.44|84.18|||ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||84.18|-62.44|0.7697
82531191|NCT01327547|164759240|SUPERIORITY_OR_OTHER||Difference in LS Mean|-24.49||||0.5816|TWO_SIDED|95.0|-112.21|63.23|||ANCOVA||Difference in LS Mean|The above analysis is for D-Dimer cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||63.23|-112.21|0.5816
82531192|NCT01327547|164759241|SUPERIORITY_OR_OTHER||Difference in LS Mean|498.04||||0.3786|TWO_SIDED|95.0|-617.33|1613.41|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 48. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1613.41|-617.33|0.3786
82405621|NCT00676403|164519837|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.0005||95.0|0.41|1.43|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.43|0.41|0.0005
82531193|NCT01327547|164759241|SUPERIORITY_OR_OTHER||Difference in LS Mean|348.7||||0.4388|TWO_SIDED|95.0|-539.61|1237.01|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 96. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1237.01|-539.61|0.4388
82405622|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1429||95.0|-1.0|0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.0|0.1429
82405623|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0547||95.0|-1.2|0.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.2|0.0547
82405624|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.0095||95.0|-1.4|-0.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.2|-1.4|0.0095
82405625|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3676||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3676
82405626|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2959||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.2959
82405627|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3435||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3435
82531194|NCT01327547|164759241|SUPERIORITY_OR_OTHER||Difference in LS Mean|-173.57||||0.8559|TWO_SIDED|95.0|-2060.81|1713.68|||ANCOVA||Difference in LS Mean|The above analysis is for TGF-beta cells at Week 144. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1713.68|-2060.81|0.8559
82531195|NCT01327547|164759242|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.03||||0.8024|TWO_SIDED|95.0|-0.22|0.28|||ANCOVA||Difference in LS Mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 48 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.28|-0.22|0.8024
82405628|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0895||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.0895
82405629|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0844||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.0844
82531196|NCT01327547|164759242|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.15||||0.266|TWO_SIDED|95.0|-0.12|0.43|||ANCOVA||Difference in LS Mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 96 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.43|-0.12|0.2660
82405630|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0675||95.0|-1.1|0.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.1|0.0675
82405631|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.225||95.0|-1.0|0.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-1.0|0.2250
82405632|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3728||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3728
82405633|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2686||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.2686
82405634|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0753||95.0|-1.2|0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.2|0.0753
82531197|NCT01327547|164759242|SUPERIORITY_OR_OTHER||Difference in LS mean|0.15||||0.2855|TWO_SIDED|95.0|-0.12|0.41|||ANCOVA||Difference in LS mean|The above analysis is change for baseline in Log10 plasma HCV RNA at 144 Weeks. Results are from an ANCOVA model with change from baseline as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.41|-0.12|0.2855
82646367|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64||||0.0843|TWO_SIDED|95.0|0.88|7.96|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag)."|||7.96|0.88|0.0843
82405635|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1335||95.0|-1.0|0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.0|0.1335
82405636|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.31||0.022||95.0|-1.3|-0.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-1.3|0.0220
82405637|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.5754||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.5754
82405638|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.348||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3480
82646368|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.71||||0.081|TWO_SIDED|95.0|0.88|8.28|||Conditional Logistic Regression||"Comparison: Tertile 1 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||8.28|0.88|0.0810
82405639|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0554||95.0|-1.2|0.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.0|-1.2|0.0554
82405640|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4362||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.4362
82576280|NCT02209181|164862056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.64|-1.32||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.32|-3.64|<0.001
82405641|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3631||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.3631
82405642|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.1152||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.1152
82405643|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.4741||95.0|-0.8|0.4|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.4|-0.8|0.4741
82405644|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.31||0.0091||95.0|-1.4|-0.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.2|-1.4|0.0091
82405645|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.1721||95.0|-1.0|0.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-1.0|0.1721
82405646|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.31||0.0262||95.0|-1.3|-0.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-1.3|0.0262
82405647|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.31||0.9505||95.0|-0.6|0.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.6|-0.6|0.9505
82405648|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6877||95.0|-0.7|0.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.5|-0.7|0.6877
82405649|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.1271||95.0|-1.1|0.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-1.1|0.1271
82405650|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9136||95.0|-0.6|0.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.6|-0.6|0.9136
82425971|NCT04756531|164560637|OTHER|Natural log transformed Cmax for PF-07321332 was analyzed using a mixed effect model with sequence, period, and treatment included as fixed effects and subject nested within sequence as a random effect. PF-07321332 250 mg (Tablet), Fed was the test treatment and PF-07321332 250 mg (Tablet), Fasted was the reference treatment.|Ratio of Adjusted Geometric Means|244.84|||||TWO_SIDED|90.0|188.58|317.87||||||||317.87|188.58|
82646369|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.4583|TWO_SIDED|95.0|0.55|3.7|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag)."|||3.70|0.55|0.4583
82405651|NCT00676403|164519838|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.4072||95.0|-0.9|0.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-0.9|0.4072
82405652|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|10.68||0.186||95.0|-35.2|6.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.9|-35.2|0.1860
82405653|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|10.54||0.653||95.0|-25.5|16.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.0|-25.5|0.6530
82405654|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|10.79||0.6263||95.0|-26.5|16.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.0|-26.5|0.6263
82405655|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|STANDARD_ERROR_OF_MEAN|10.63||0.4266||95.0|-29.4|12.5|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.5|-29.4|0.4266
82405656|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|10.54||0.4023||95.0|-29.6|11.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.9|-29.6|0.4023
82405657|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|10.77||0.1041||95.0|-38.8|3.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.6|-38.8|0.1041
82405658|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|10.6||0.5084||95.0|-27.9|13.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.8|-27.9|0.5084
82405659|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|11.1||0.262||95.0|-34.3|9.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.4|-34.3|0.2620
82405660|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|10.7||0.3347||95.0|-31.4|10.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.7|-31.4|0.3347
82405661|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|10.61||0.1142||95.0|-37.7|4.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-37.7|0.1142
82405662|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|11.06||0.1237||95.0|-38.8|4.7|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-38.8|0.1237
82405663|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|10.67||0.8302||95.0|-18.7|23.3|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.3|-18.7|0.8302
82425972|NCT00253422|164560661|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.76|TWO_SIDED|95.0|0.86|1.24|||Log Rank|||||1.24|0.86|0.76
82425973|NCT00253422|164560661|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.83|1.2|||Log Rank|||||1.20|0.83|1.00
82425974|NCT00253422|164560662|SUPERIORITY|||||||0.99|||||||Chi-squared|||||||0.99
82425975|NCT00253422|164560662|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||0.12
82405664|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|11.22||0.3039||95.0|-33.6|10.5|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.5|-33.6|0.3039
82405665|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|10.77||0.4595||95.0|-29.2|13.2|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.2|-29.2|0.4595
82405666|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|10.97||0.4338||95.0|-30.2|13.0|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.0|-30.2|0.4338
82405667|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|10.99||0.0647||95.0|-42.0|1.2|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-42.0|0.0647
82531198|NCT01327547|164759243|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.15||||0.7778|TWO_SIDED|95.0|-0.93|1.23|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.23|-0.93|0.7778
82405668|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|10.61||0.5651||95.0|-27.0|14.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.8|-27.0|0.5651
82405669|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.6|STANDARD_ERROR_OF_MEAN|11.16||0.1634||95.0|-37.6|6.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.4|-37.6|0.1634
82531199|NCT01327547|164759243|SUPERIORITY_OR_OTHER||Difference in LS mean|0.0||||0.9991|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.10|-0.10|0.9991
82405670|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.2|STANDARD_ERROR_OF_MEAN|10.77||0.2209||95.0|-34.4|8.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.0|-34.4|0.2209
82405671|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.5|STANDARD_ERROR_OF_MEAN|10.84||0.1293||95.0|-37.8|4.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-37.8|0.1293
82405672|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.8|STANDARD_ERROR_OF_MEAN|11.06||0.0161||95.0|-48.5|-5.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-5.0|-48.5|0.0161
82405673|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|10.67||0.8506||95.0|-23.0|19.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.0|-23.0|0.8506
82405674|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-30.9|STANDARD_ERROR_OF_MEAN|11.31||0.0067||95.0|-53.2|-8.6|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-8.6|-53.2|0.0067
82425976|NCT00253422|164560664|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
82425977|NCT00253422|164560664|SUPERIORITY|||||||0.94|||||||Chi-squared|||||||0.94
82531200|NCT01327547|164759243|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.02||||0.7275|TWO_SIDED|95.0|-0.16|0.11|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.11|-0.16|0.7275
82576281|NCT02209181|164862056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.6||0.978|TWO_SIDED|95.0|-1.16|1.19||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.19|-1.16|0.978
82405675|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|10.76||0.1997||95.0|-35.0|7.4|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-35.0|0.1997
82405676|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-26.4|STANDARD_ERROR_OF_MEAN|10.9||0.0159||95.0|-47.9|-5.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-5.0|-47.9|0.0159
82405677|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.8|STANDARD_ERROR_OF_MEAN|10.98||0.0388||95.0|-44.4|-1.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.2|-44.4|0.0388
82405678|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|10.73||0.9962||95.0|-21.2|21.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-21.2|0.9962
82405679|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.8|STANDARD_ERROR_OF_MEAN|11.41||0.0839||95.0|-42.3|2.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.7|-42.3|0.0839
82405680|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|10.83||0.5216||95.0|-28.3|14.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-28.3|0.5216
82405681|NCT00676403|164519839|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.3|STANDARD_ERROR_OF_MEAN|10.98||0.0534||95.0|-42.9|0.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.3|-42.9|0.0534
82405682|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|5.89||0.0199||95.0|2.2|25.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.4|2.2|0.0199
82405683|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|5.78||0.0768||95.0|-1.1|21.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.7|-1.1|0.0768
82405684|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.91||0.0642||95.0|-0.7|22.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.6|-0.7|0.0642
82405685|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|5.88||0.2643||95.0|-5.0|18.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.2|-5.0|0.2643
82576282|NCT02209181|164862057|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|2.18|4.62||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.62|2.18|<0.001
82425978|NCT00253422|164560666|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.84|1.21|||Log Rank||HR less than 1 favour Faslodex + Arimidex|||1.21|0.84|0.95
82425979|NCT00253422|164560666|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.66|TWO_SIDED|95.0|0.87|1.25|||Log Rank||HR less than 1 favours Faslodex + placebo|||1.25|0.87|0.66
82576283|NCT02209181|164862057|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|0.61||0.081|TWO_SIDED|95.0|-0.13|2.28||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.28|-0.13|0.081
82405686|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.2|STANDARD_ERROR_OF_MEAN|5.8||0.0358||95.0|0.8|23.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.7|0.8|0.0358
82405687|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|5.93||0.0428||95.0|0.4|23.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.8|0.4|0.0428
82405688|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.5|STANDARD_ERROR_OF_MEAN|5.81||0.1993||95.0|-4.0|18.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.9|-4.0|0.1993
82405689|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.9|STANDARD_ERROR_OF_MEAN|6.04||0.0331||95.0|1.1|24.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.8|1.1|0.0331
82405690|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|5.91||0.0415||95.0|0.5|23.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.8|0.5|0.0415
82405691|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.8|STANDARD_ERROR_OF_MEAN|5.83||0.0295||95.0|1.3|24.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.3|1.3|0.0295
82405692|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|6.01||0.1267||95.0|-2.6|21.1|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-2.6|0.1267
82405693|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|5.84||0.4175||95.0|-6.8|16.2|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.2|-6.8|0.4175
82405694|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0|STANDARD_ERROR_OF_MEAN|6.09||0.0342||95.0|1.0|25.0|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.0|1.0|0.0342
82405695|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7|STANDARD_ERROR_OF_MEAN|5.96||0.1038||95.0|-2.0|21.5|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.5|-2.0|0.1038
82405696|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.6|STANDARD_ERROR_OF_MEAN|5.98||0.0537||95.0|-0.2|23.4|||Mixed Models Analysis|||Week 3: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.4|-0.2|0.0537
82405697|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.6|STANDARD_ERROR_OF_MEAN|5.99||0.0772||95.0|-1.2|22.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.4|-1.2|0.0772
82405698|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.8|STANDARD_ERROR_OF_MEAN|5.81||0.1296||95.0|-2.6|20.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.3|-2.6|0.1296
82425980|NCT00253422|164560667|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.91|TWO_SIDED|95.0|0.82|1.19|||Log Rank||HR less than 1 favours Faslodex + Arimidex|||1.19|0.82|0.91
82531201|NCT01327547|164759244|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.07||||0.5201|TWO_SIDED|95.0|-0.15|0.3|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.30|-0.15|0.5201
82646370|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.4622|TWO_SIDED|95.0|0.55|3.73|||Conditional Logistic Regression||"Comparison: Tertile 1 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.73|0.55|0.4622
82405699|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.0|STANDARD_ERROR_OF_MEAN|6.06||0.014||95.0|3.1|27.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||27.0|3.1|0.0140
82405700|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.93||0.0642||95.0|-0.7|22.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.7|-0.7|0.0642
82405701|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|5.92||0.073||95.0|-1.0|22.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.3|-1.0|0.0730
82405702|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|6.01||0.0215||95.0|2.1|25.8|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.8|2.1|0.0215
82405703|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.84||0.3785||95.0|-6.4|16.7|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.7|-6.4|0.3785
82405704|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|6.12||0.0089||95.0|4.1|28.2|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.2|4.1|0.0089
82405705|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.2|STANDARD_ERROR_OF_MEAN|5.96||0.0609||95.0|-0.5|23.0|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.0|-0.5|0.0609
82405706|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|5.95||0.0064||95.0|4.7|28.1|||Mixed Models Analysis|||Week 5: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.1|4.7|0.0064
82405707|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.7|STANDARD_ERROR_OF_MEAN|6.01||0.0241||95.0|1.8|25.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.5|1.8|0.0241
82405708|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.6|STANDARD_ERROR_OF_MEAN|5.86||0.1032||95.0|-2.0|21.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.1|-2.0|0.1032
82405709|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|16.6|STANDARD_ERROR_OF_MEAN|6.16||0.0076||95.0|4.4|28.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||28.7|4.4|0.0076
82531202|NCT01327547|164759244|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.08||||0.4657|TWO_SIDED|95.0|-0.28|0.13|||ANCOVA|||Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.13|-0.28|0.4657
82531203|NCT01327547|164759244|SUPERIORITY_OR_OTHER||Difference in LS Mean|-0.03||||0.8087|TWO_SIDED|95.0|-0.25|0.2|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.20|-0.25|0.8087
82531204|NCT01327547|164759245|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.84||||0.1417|TWO_SIDED|95.0|-4.31|0.63|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 48 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.63|-4.31|0.1417
82531205|NCT01327547|164759245|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.44||||0.2679|TWO_SIDED|95.0|-4.01|1.14|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 96 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||1.14|-4.01|0.2679
82531206|NCT01327547|164759245|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.48||||0.1366|TWO_SIDED|95.0|-3.45|0.49|||ANCOVA||Difference in LS Mean|Results are from an ANCOVA model with change from baseline at Week 144 as the response variable and the following fixed effect model terms: treatment (Maraviroc or placebo), baseline value of the response variable, HBV, PI-based regimen.||0.49|-3.45|0.1366
82531207|NCT03918239|164759255|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.079|||||TWO_SIDED|90.0|0.986|1.181|||ANOVA|||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.181|0.986|
82531208|NCT03918239|164759256|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.079|||||TWO_SIDED|90.0|0.987|1.179||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.179|0.987|
82531209|NCT03918239|164759257|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.157|||||TWO_SIDED|90.0|1.044|1.281||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and treatment group as a fixed effect variable.||1.281|1.044|
82646371|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.5512|TWO_SIDED|95.0|0.43|4.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag)."|||4.95|0.43|0.5512
82646372|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9277|TWO_SIDED|95.0|0.31|3.67|||Conditional Logistic Regression||"Comparison: Tertile 2 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.67|0.31|0.9277
82531210|NCT00358215|164759269|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.871|TWO_SIDED|95.0|0.9|1.13||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none)|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.13|0.90|0.871
82531211|NCT00358215|164759270|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.512|TWO_SIDED|95.0|0.92|1.19||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none).|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.19|0.92|0.512
82531212|NCT00358215|164759271|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.922|TWO_SIDED|95.0|0.89|1.14||Stratification factors are: region and type of device (cardiac resynchronization therapy (CRT) with or without implantable cardioverter defibrillator (ICD), ICD without CRT, or none).|Stratified Log Rank||The hazard ratio and 95% confidence intervals are from the Cox proportional hazards model adjusted by the stratification factors.|||1.14|0.89|0.922
82531213|NCT00358215|164759272|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.79||0.005|TWO_SIDED|95.0|0.65|3.75|||Mixed Models Analysis|Mixed effects model estimating treatment effect adjusted for region, type of device, and Baseline KCCQ score.||||3.75|0.65|0.005
82646373|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6402|TWO_SIDED|95.0|0.51|2.95|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag)."|||2.95|0.51|0.6402
82531214|NCT00358215|164759273|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|0.9||0.011|TWO_SIDED|95.0|0.53|4.05|||Mixed Models Analysis|Mixed effects model estimating treatment effect adjusted for region, type of device, and Baseline KCCQ score.||||4.05|0.53|0.011
82646374|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9256|TWO_SIDED|95.0|0.4|2.32|||Conditional Logistic Regression||"Comparison: Tertile 2 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.32|0.40|0.9256
82646375|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9514|TWO_SIDED|95.0|0.24|4.5|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag)."|||4.50|0.24|0.9514
82531215|NCT02771210|164759309|SUPERIORITY||Odds Ratio (OR)|1.63||||0.136|TWO_SIDED|95.0|0.87|3.08|||Regression, Logistic|||||3.08|0.87|0.136
82531216|NCT04397523|164759335|OTHER|||||||0.05||||||p=0.00000|ANOVA|df 2||||||0.05
82531217|NCT04397523|164759340|OTHER|||||||0.05||||||Chi- square = 24.98174, p = 0.00000|Chi-squared|df = 2||Overall survival between the three WHO score groups 3, 4 and 5||||0.05
82531218|NCT04397523|164759340|OTHER|||||||0.05||||||p=0.000|Chi-squared|df = 2||Correlation of mortality versus WHO disease progression score of patients||||0.05
82531219|NCT04397523|164759340|OTHER|||||||0.05||||||p = 0.000|Chi-squared|df = 1||Correlation of mortality versus stay in the intensive care unit (ICU)||||0.05
82531220|NCT02694640|164759341|SUPERIORITY|The study was powered to detect significant between-group differences in mean min/week MVPA at follow-up.|effect size|0.11|||<|0.05|TWO_SIDED|||||No adjustment for multiple comparisons was made|Regression, Linear||Effect size refers to between-group difference at follow-up.|A series of longitudinal mixed effects models with subject-specific intercepts were used to examine between-group differences in mean min/week of self reported moderate-to-vigorous physical activity (MVPA).||||<.05
82531221|NCT02694640|164759342|SUPERIORITY||effect size|0.09|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<.05
82646376|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.7543|TWO_SIDED|95.0|0.18|3.44|||Conditional Logistic Regression||"Comparison: Tertile 3 (with 2 year lag) and Never (with 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||3.44|0.18|0.7543
82646377|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.8781|TWO_SIDED|95.0|0.38|3.07|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag)."|||3.07|0.38|0.8781
82646378|NCT01236053|165007187|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7429|TWO_SIDED|95.0|0.29|2.4|||Conditional Logistic Regression||"Comparison: Tertile 3 (without 2 year lag) and Never (without 2 year lag). Adjusted for smoking, BMI, diabetes, neuropathic pain, back pain, epilepsy, hypertension, diuretic use."|||2.40|0.29|0.7429
82646379|NCT02149199|165007196|SUPERIORITY||Odds Ratio (OR)|1.14||||0.046|TWO_SIDED|95.0|1.0|1.3|||Regression, Logistic|Repeated measures logistic regression, with treatment, pre-study treatment, region and study week as fixed effects.|An odds ratio greater than 1 favours Symbicort 'as needed'|||1.30|1.00|0.046
82646380|NCT02149199|165007196|NON_INFERIORITY|Non-inferiority analysis based on CI instead of p-value, hence no p-value calculated for this analysis. Lower limit of the 2-sided 95% CI \>=0.8 indicates Symbicort 'as needed' is non-inferior to Pulmicort bid.|Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.57|0.73|||Regression, Logistic|Repeated measures logistic regression with treatment, pre-study treatment, region and study week as fixed effects.||||0.73|0.57|
82646381|NCT02149199|165007197|SUPERIORITY||Hazard Ratio (HR)|0.435|||<|0.001|TWO_SIDED|95.0|0.328|0.577|||Regression, Cox|Cox-regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0, \>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||0.577|0.328|<0.001
82646382|NCT02149199|165007197|SUPERIORITY||Hazard Ratio (HR)|0.901||||0.524|TWO_SIDED|95.0|0.653|1.242|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first severe exacerbation.|||1.242|0.653|0.524
82646383|NCT02149199|165007198|SUPERIORITY||Hazard Ratio (HR)|0.429|||<|0.001|TWO_SIDED|95.0|0.348|0.528|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first moderate or severe exacerbation.|||0.528|0.348|<0.001
82646384|NCT02149199|165007198|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.436|TWO_SIDED|95.0|0.718|1.153|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first moderate or severe exacerbation.|||1.153|0.718|0.436
82646385|NCT02149199|165007199|SUPERIORITY||Mean Difference (Net)|53.8|||<|0.001|TWO_SIDED|95.0|29.1|78.5|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline FEV1 as continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. This is the estimate across all treatment visits.|||78.5|29.1|<0.001
82405710|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|5.96||0.1257||95.0|-2.6|20.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.9|-2.6|0.1257
82531222|NCT02500979|164759414|SUPERIORITY_OR_OTHER||Least squares mean difference|-21.5|STANDARD_ERROR_OF_MEAN|7.88||0.0118|TWO_SIDED|95.0|-37.8|-5.2|||Linear mixed-effects model|||||-5.2|-37.8|0.0118
82646386|NCT02149199|165007199|SUPERIORITY||Mean Difference (Net)|-54.3|||<|0.001|TWO_SIDED|95.0|-78.8|-29.8|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline FEV1 as continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'. This is the estimate across all treatment visits.|||-29.8|-78.8|<0.001
82646387|NCT02149199|165007200|SUPERIORITY||Mean Difference (Net)|11.95|||<|0.001|TWO_SIDED|95.0|7.89|16.0|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||16.00|7.89|<0.001
82646388|NCT02149199|165007200|SUPERIORITY||Mean Difference (Net)|-9.98|||<|0.001|TWO_SIDED|95.0|-14.03|-5.93|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-5.93|-14.03|<0.001
82646389|NCT02149199|165007201|SUPERIORITY||Mean Difference (Net)|10.94|||<|0.001|TWO_SIDED|95.0|6.99|14.9|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||14.90|6.99|<0.001
82405711|NCT00676403|164519840|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|5.95||0.0131||95.0|3.2|26.6|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.6|3.2|0.0131
82646390|NCT02149199|165007201|SUPERIORITY||Mean Difference (Net)|-6.23||||0.002|TWO_SIDED|95.0|-10.18|-2.29|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline PEF as a continuous covariate.|Mean difference greater than 0 favours Symbicort 'as needed'.|||-2.29|-10.18|0.002
82646391|NCT02149199|165007203|SUPERIORITY||Mean Difference (Net)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.18|-0.06|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline asthma symptom score as a continuous covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||-0.06|-0.18|<0.001
82531223|NCT02500979|164759415|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-7.897||||0.0013|TWO_SIDED|95.0|-12.356|-3.438|||Linear mixed effects model|||||-3.438|-12.356|0.0013
82531224|NCT02500979|164759416|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-5.277||||0.0091|TWO_SIDED|95.0|-9.175|-1.378|||Linear mixed effects model|||||-1.378|-9.175|0.0091
82531225|NCT02500979|164759417|SUPERIORITY_OR_OTHER||LS mean difference (pramlintide-placebo)|-4.435||||0.0057|TWO_SIDED|95.0|-7.445|-1.424|||Linear mixed effects model|||||-1.424|-7.445|0.0057
82405712|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|6.94||0.1824||95.0|-23.0|4.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-23.0|0.1824
82405713|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.8||0.0767||95.0|-25.5|1.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-25.5|0.0767
82405714|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|7.11||0.0492||95.0|-28.1|-0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-28.1|0.0492
82405715|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.7|STANDARD_ERROR_OF_MEAN|6.84||0.2023||95.0|-22.2|4.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-22.2|0.2023
82405716|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.4|STANDARD_ERROR_OF_MEAN|6.83||0.0116||95.0|-30.9|-3.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-3.9|-30.9|0.0116
82405717|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|7.01||0.1819||95.0|-23.2|4.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-23.2|0.1819
82405718|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|6.76||0.2806||95.0|-20.6|6.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.0|-20.6|0.2806
82405719|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|7.13||0.1465||95.0|-24.4|3.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.7|-24.4|0.1465
82531226|NCT02500979|164759418|SUPERIORITY_OR_OTHER||Least squares mean difference|-28733.0|STANDARD_ERROR_OF_MEAN|4163.6|<|0.0001|TWO_SIDED|95.0|-37326.0|-20139.0|||Linear mixed-effects model|||||-20139|-37326|<0.0001
82405720|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.6|STANDARD_ERROR_OF_MEAN|6.85||0.0046||95.0|-33.1|-6.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-6.1|-33.1|0.0046
82405721|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|6.92||0.0187||95.0|-30.0|-2.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.8|-30.0|0.0187
82531227|NCT02500979|164759419|SUPERIORITY_OR_OTHER||LS mean difference|-28.418||||0.0258|TWO_SIDED|95.0|-53.099|-3.737|||Linear mixed-effects model|||||-3.737|-53.099|0.0258
82531228|NCT02500979|164759421|SUPERIORITY_OR_OTHER||LS Mean Ratio (Pramlintide/Placebo)|1.31||||0.0456|TWO_SIDED|95.0|1.01|1.7|||Linear mixed-effects model|||||1.70|1.01|0.0456
82425981|NCT00253422|164560667|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.31|TWO_SIDED|95.0|0.91|1.32|||Log Rank||HR less than 1 favours Faslodex + Placebo|||1.32|0.91|0.31
82531229|NCT02500979|164759422|SUPERIORITY_OR_OTHER||LS mean ratio (pramlintide/placebo)|0.951||||0.1015|TWO_SIDED|95.0|0.896|1.011|||Linear mixed-effects model|||||1.011|0.896|0.1015
82531230|NCT02500979|164759424|SUPERIORITY_OR_OTHER||LS mean ratio (pramlintide/placebo)|1.085||||0.373|TWO_SIDED|95.0|0.901|1.307|||Linear mixed effects model|||||1.307|0.901|0.3730
82531231|NCT01613027|164759433|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Difference in change at Month 6||||<0.001
82531232|NCT01613027|164759433|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Difference in change at Month 12||||<0.001
82531233|NCT02593032|164759464|SUPERIORITY||Mean Difference (Net)|12.0|||<|0.05|TWO_SIDED|||||This is the calculated p-value, not a threshold.|t-test, 2 sided|||||||<0.05
82531234|NCT03677128|164759508|OTHER||Mean Difference (Final Values)|23.8|||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82531235|NCT03677128|164759508|OTHER||Mean Difference (Final Values)|21.1|||<|0.001|TWO_SIDED||||||Kruskal-Wallis|||||||<0.001
82531236|NCT00214903|164759529|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test to exclude a two-fold risk of cardiovascular events in users of DRSP/E2 compared to other oral continuous combined HRT. These calculations are based on the following assumptions: 1) one-sided α 0.05; 2) power (1-β) of 0.80; 3) Estimated incidence of cardiovascular events, ATE and VTE would be at least 1.0, 0.3 and 0.2 event/100 woman-years and 4) non-inferiority limit hazard ratio of 2.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.3|||||Hazard ratio was adjusted for age, BMI, duration of current use, family history of VTE, region, and HRT user status.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. ooccHRT is higher or equal to 2.||1.3|0.5|
82531237|NCT00214903|164759530|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a non-inferiority test to exclude a two-fold risk of cardiovascular events in users of DRSP/E2 compared to other oral continuous combined HRT. These calculations are based on the following assumptions: 1) one-sided α 0.05; 2) power (1-β) of 0.80; 3) Estimated incidence of cardiovascular events, ATE and VTE would be at least 1.0, 0.3 and 0.2 event/100 woman-years and 4) non-inferiority limit hazard ratio of 2.|Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.3|0.8|||||Hazard ratio was adjusted for age, BMI, hypertension, diabetes, family history of fatal ATE, region, and smoking.|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. ooccHRT is higher or equal to 2.||0.8|0.3|
82531238|NCT01625910|164759533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.1|0.21||||||Baseline data by group assignment status (intervention or control) using means of the calculated BMI z-scores (U.S. CDC-2000 growth charts) implemented by applying the published LMS (shape, median, and scale) age- and sex/gender-specific parameters. Because of random assignment of a reasonably large number of children, an unadjusted analysis of change in outcomes between intervention and control groups is presented as well as the covariate-adjusted analysis of differences in changes.||0.21|-0.10|
82531239|NCT01625910|164759534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.74|0.4||||||unadjusted net difference between groups||0.40|-0.74|
82646392|NCT02149199|165007203|SUPERIORITY||Mean Difference (Net)|0.09||||0.004|TWO_SIDED|95.0|0.03|0.15|||ANCOVA|ANCOVA model with randomised treatment, pre-study treatment and region as factors and baseline asthma symptom score as a continuous covariate.|Mean difference less than 0 favours Symbicort 'as needed'.|||0.15|0.03|0.004
82405722|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|7.0||0.6128||95.0|-10.2|17.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.3|-10.2|0.6128
82405723|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|6.76||0.3488||95.0|-19.7|7.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.0|-19.7|0.3488
82405724|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|7.17||0.1472||95.0|-24.5|3.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.7|-24.5|0.1472
82405725|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|6.89||0.0791||95.0|-25.7|1.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.4|-25.7|0.0791
82405726|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.4|STANDARD_ERROR_OF_MEAN|6.97||0.0282||95.0|-29.1|-1.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.7|-29.1|0.0282
82405727|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|7.08||0.1623||95.0|-23.9|4.0|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.0|-23.9|0.1623
82531240|NCT00883103|164759591|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82531241|NCT00988351|164759608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin -0.55 (mean hours of APAP arm no lower than 0.55 hours below CPAP arm)|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.4|=|0.27|TWO_SIDED|95.0|-0.35|1.26||level of significance \<0.05, Power = 0.80|t-test, 2 sided|||||1.26|-.35|= 0.27
82531242|NCT00988351|164759609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||=|0.65|TWO_SIDED|95.0|-1.3|2.1|||t-test, 2 sided|||Patients using PAP (average of \>=1/2 hour per night) at 6 weeks clinic visit||2.1|-1.3|= 0.65
82531243|NCT00988351|164759610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.71|=|0.33|TWO_SIDED|95.0|-0.73|2.1||\< 0.05 criteria for statistical significance|t-test, 2 sided|||Patients using PAP (average \>=1/2 hour per nightly use) at 6 weeks clinic visit||2.1|-0.73|=0.33
82531244|NCT00988351|164759611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|||=|0.49|TWO_SIDED|95.0|-1.12|2.29|||t-test, 2 sided|||Patients using PAP (average \>= 1/2 hour of nightly use) at 6 weeks clinic visit||2.29|-1.12|=0.49
82646393|NCT02149199|165007210|SUPERIORITY||Hazard Ratio (HR)|0.413|||<|0.001|TWO_SIDED|95.0|0.343|0.497|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first additional steroids.|||0.497|0.343|<0.001
82405728|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|6.84||0.3739||95.0|-19.6|7.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-19.6|0.3739
82646394|NCT02149199|165007210|SUPERIORITY||Hazard Ratio (HR)|0.865||||0.175|TWO_SIDED|95.0|0.701|1.067|||Regression, Cox|Cox regression model with randomised treatment, pre-study treatment and region as covariates.|A hazard ratio less than 1 indicates that Symbicort 'as needed' prolongs the time to first additional steroids.|||1.067|0.701|0.175
82646395|NCT02149199|165007211|SUPERIORITY||Mean Difference (Net)|-0.154|||<|0.001|TWO_SIDED|95.0|-0.203|-0.105|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline ACQ-5 as continuous covariate|Mean difference less than 0 favours Symbicort 'as needed'.|||-0.105|-0.203|<0.001
82405729|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|7.26||0.0517||95.0|-28.5|0.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.1|-28.5|0.0517
82405730|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|6.92||0.0815||95.0|-25.8|1.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.5|-25.8|0.0815
82405731|NCT00676403|164519841|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|7.0||0.0031||95.0|-34.7|-7.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-7.1|-34.7|0.0031
82405732|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|7.88||0.3368||95.0|-8.0|23.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.1|-8.0|0.3368
82405733|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.2|STANDARD_ERROR_OF_MEAN|7.75||0.4232||95.0|-21.5|9.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.1|-21.5|0.4232
82405734|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|8.09||0.7082||95.0|-12.9|19.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.0|-12.9|0.7082
82405735|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|7.7||0.9466||95.0|-15.7|14.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.7|-15.7|0.9466
82646396|NCT02149199|165007211|SUPERIORITY||Mean Difference (Net)|0.149|||<|0.001|TWO_SIDED|95.0|0.101|0.198|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and (treatment x visit) as fixed, patient as random and baseline ACQ-5 as continuous covariate|Mean difference less than 0 favours Symbicort 'as needed'.|||0.198|0.101|<0.001
82405736|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|7.72||0.3746||95.0|-22.1|8.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-22.1|0.3746
82405737|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|7.95||0.9336||95.0|-15.0|16.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.3|-15.0|0.9336
82531245|NCT00988351|164759612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.51|=|0.07|TWO_SIDED|95.0|-1.92|0.09||P \< 0.05 considered statistically significant|t-test, 2 sided|||participants using PAP (average \>=1/2 hour of use) at 6 weeks clinic visit||0.09|-1.92|=0.07
82531246|NCT02471404|164759644|NON_INFERIORITY|The non-inferiority (NI) margin was determined to be 0.30% (in absolute terms). A difference of ≤0.30%, in HbA1c change from b/l to wk 52 between the treatment groups was considered clinically equivalent. NI was assessed using the 2-sided 95% CI of adjusted mean difference between dapagliflozin or dapagliflozin plus saxagliptin and glimepiride.|Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|0.0294|0.2986|||Mixed Models Analysis|||||0.2986|0.0294|
82531247|NCT02471404|164759644|NON_INFERIORITY|The non-inferiority (NI) margin was determined to be 0.30% (in absolute terms). A difference of ≤0.30%, in HbA1c change from b/l to wk 52 between the treatment groups was considered clinically equivalent. NI was assessed using the 2-sided 95% Confidence Interval of adjusted mean difference between dapagliflozin or dapagliflozin plus saxagliptin and glimepiride.|Mean Difference (Final Values)|-0.21||||0.001|TWO_SIDED|95.0|-0.3443|-0.0825||(superiority)|Mixed Models Analysis|||||-0.0825|-0.3443|0.001
82646397|NCT02149199|165007212|SUPERIORITY||Mean Difference (Net)|0.127|||<|0.001|TWO_SIDED|95.0|0.074|0.181|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and treatment x visit as fixed, patient as random and baseline AQLQ(S) as continuous covariate|Mean difference greater than 0 favours Symbicort 'as needed'.|||0.181|0.074|<0.001
82405738|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|7.71||0.2029||95.0|-25.0|5.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.4|-25.0|0.2029
82405739|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.18||0.3833||95.0|-23.3|9.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.0|-23.3|0.3833
82405740|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|7.72||0.8152||95.0|-17.0|13.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.4|-17.0|0.8152
82405741|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|7.81||0.1739||95.0|-26.1|4.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.7|-26.1|0.1739
82405742|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|7.94||0.3392||95.0|-8.0|23.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.3|-8.0|0.3392
82405743|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|7.71||0.913||95.0|-16.0|14.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-16.0|0.9130
82405744|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|8.22||0.6||95.0|-20.5|11.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.9|-20.5|0.6000
82405745|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9|STANDARD_ERROR_OF_MEAN|7.75||0.4445||95.0|-9.3|21.2|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||21.2|-9.3|0.4445
82531248|NCT02471404|164759645|SUPERIORITY||Risk Difference (RD)|-4.21|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|-6.45|-1.97|||Fisher Exact|||||-1.97|-6.45|<0.001
82405746|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|7.85||0.9656||95.0|-15.8|15.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.1|-15.8|0.9656
82425982|NCT02581930|164560684|OTHER|Exact binomial test|Probability of response|0.0||||1|ONE_SIDED|||||Significant if p-value is less than 0.1|Exact binomial test, 1-sided||Estimated as proportion of subjects with response|The primary comparison was between the response rate of an ineffective drug, such as investigators' choice chemotherapy (5%), and the response rate of ibrutinib.||||1.00
82531249|NCT02471404|164759645|SUPERIORITY||Risk Difference (RD)|-3.89|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|-6.21|-1.56|||Fisher Exact|||||-1.56|-6.21|<0.001
82531250|NCT02471404|164759646|SUPERIORITY||Mean Difference (Final Values)|-5.3|||<|0.001|TWO_SIDED|95.0|-5.93|-4.67|||Mixed Models Analysis|||||-4.67|-5.93|<0.001
82531251|NCT02471404|164759646|SUPERIORITY||Mean Difference (Final Values)|-4.91|||<|0.001|TWO_SIDED|95.0|-5.52|-4.29|||Mixed Models Analysis|||||-4.29|-5.52|<0.001
82531252|NCT02471404|164759647|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.374|TWO_SIDED|95.0|-0.43|0.16|||Mixed Models Analysis|||||0.16|-0.43|0.374
82646398|NCT02149199|165007212|SUPERIORITY||Mean Difference (Net)|-0.102|||<|0.001|TWO_SIDED|95.0|-0.155|-0.049|||Mixed Models Analysis|MMRM with treatment, pre-study treatment, region, visit and treatment x visit as fixed, patient as random and baseline AQLQ(S) as continuous covariate|Mean difference greater than 0 favours Symbicort 'as needed'.|||-0.049|-0.155|<0.001
82405747|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|8.02||0.5679||95.0|-11.2|20.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.4|-11.2|0.5679
82405748|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|7.79||0.5619||95.0|-19.9|10.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.8|-19.9|0.5619
82405749|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|8.31||0.993||95.0|-16.3|16.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.4|-16.3|0.9930
82405750|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|7.79||0.6892||95.0|-12.2|18.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.5|-12.2|0.6892
82405751|NCT00676403|164519842|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|7.89||0.4928||95.0|-21.0|10.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.1|-21.0|0.4928
82405752|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.6|STANDARD_ERROR_OF_MEAN|5.1||0.2719||95.0|-4.4|15.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.6|-4.4|0.2719
82405753|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|5.02||0.693||95.0|-7.9|11.8|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||11.8|-7.9|0.6930
82405754|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|5.24||0.7178||95.0|-12.2|8.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-12.2|0.7178
82405755|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|4.96||0.8037||95.0|-11.0|8.5|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.5|-11.0|0.8037
82405756|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.7|STANDARD_ERROR_OF_MEAN|5.02||0.0832||95.0|-1.2|18.6|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.6|-1.2|0.0832
82405757|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|5.17||0.3554||95.0|-5.4|14.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.9|-5.4|0.3554
82405758|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|4.96||0.9538||95.0|-9.5|10.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.0|-9.5|0.9538
82531253|NCT02471404|164759647|SUPERIORITY||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.88|-0.31|||Mixed Models Analysis|||||-0.31|-0.88|<0.001
82646399|NCT02149199|165007214|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.27|0.49|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of severe exacerbations in the Symbicort 'as needed' treatment group.|||0.49|0.27|<0.001
82531254|NCT02471404|164759648|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.777|TWO_SIDED|95.0|0.67|1.35|||Regression, Cox|||||1.35|0.67|0.777
82405759|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|5.26||0.5593||95.0|-13.4|7.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.4|0.5593
82405760|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|4.97||0.8663||95.0|-8.9|10.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.6|-8.9|0.8663
82405761|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|5.12||0.119||95.0|-2.1|18.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||18.1|-2.1|0.1190
82405762|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|5.15||0.1544||95.0|-2.8|17.5|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.5|-2.8|0.1544
82405763|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|4.97||0.8439||95.0|-8.8|10.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.7|-8.8|0.8439
82405764|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|5.3||0.9925||95.0|-10.5|10.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.4|-10.5|0.9925
82405765|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|5.02||0.8784||95.0|-9.1|10.6|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.6|-9.1|0.8784
82405766|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|5.17||0.8948||95.0|-9.5|10.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||10.8|-9.5|0.8948
82405767|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|5.26||0.2197||95.0|-3.9|16.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||16.8|-3.9|0.2197
82405768|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|5.07||0.6183||95.0|-7.4|12.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.5|-7.4|0.6183
82405769|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|5.42||0.4484||95.0|-14.8|6.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.5|-14.8|0.4484
82405770|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4|STANDARD_ERROR_OF_MEAN|5.07||0.3857||95.0|-5.6|14.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.4|-5.6|0.3857
82405771|NCT00676403|164519843|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.22||0.8824||95.0|-11.0|9.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.5|-11.0|0.8824
82531255|NCT02471404|164759648|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.23|0.57|||Regression, Cox|||||0.57|0.23|<0.001
82405772|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.9|STANDARD_ERROR_OF_MEAN|7.87||0.1673||95.0|-4.6|26.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.4|-4.6|0.1673
82405773|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|7.71||0.9839||95.0|-15.0|15.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||15.3|-15.0|0.9839
82405774|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|8.06||0.2905||95.0|-7.3|24.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||24.4|-7.3|0.2905
82531256|NCT00305864|164759654|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Log Rank|One-sided||A one-sided one-sample log-rank test at significance level of 0.10 was predicted to have 85% power to detect a survival difference against the historical control (13.7 vs. 18.5 months) with 60 deaths.||||0.27
82646400|NCT02149199|165007214|SUPERIORITY||Rate ratio|0.83||||0.279|TWO_SIDED|95.0|0.59|1.16|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of severe exacerbations in the Symbicort 'as needed' treatment group.|||1.16|0.59|0.279
82646401|NCT02149199|165007215|SUPERIORITY||Rate ratio|0.4|||<|0.001|TWO_SIDED|95.0|0.32|0.49|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of moderate or severe exacerbations in the Symbicort 'as needed' treatment group.|||0.49|0.32|<0.001
82646402|NCT02149199|165007215|SUPERIORITY||Rate ratio|0.95||||0.663|TWO_SIDED|95.0|0.74|1.21|||Negative binomial model|Negative binomial model with treatment, pre-study treatment, severe exacerbations in the last 12 months (0,\>=1) and region as covariates|A rate ratio less than 1 indicates a lower rate of moderate or severe exacerbations in the Symbicort 'as needed' treatment group.|||1.21|0.74|0.663
82646403|NCT01500434|165007218|NON_INFERIORITY_OR_EQUIVALENCE|Study had 85% statistical power to demonstrate that the 12-month rate for TLF (accounting for an expected 1-year attrition rate of 5%) is less than the performance goal, assuming a 1-year TLF rate of 9.0%.|Target Lesion Failure Rate|3.2|||<|0.0001|ONE_SIDED|95.0||7.96|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the primary endpoint rate in the PROMUS Element cohort is less than the predefined performance goal of 19.4%.||7.96||<0.0001
82646404|NCT00752895|165007244|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Negative binomial regression|||||||0.295
82405775|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|7.69||0.5513||95.0|-10.6|19.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.7|-10.6|0.5513
82446199|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||44.15|TWO_SIDED|95.0|0.93|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.93|44.15
82531257|NCT01088529|164759700|SUPERIORITY_OR_OTHER||Relative risk|1.432||||0.2148|TWO_SIDED|90.0|0.859|2.386|||Chi-squared|||||2.386|0.859|0.2148
82531258|NCT01088529|164759701|SUPERIORITY_OR_OTHER||Relative risk|0.477||||0.1796|TWO_SIDED|90.0|0.205|1.109|||Fisher Exact|||||1.109|0.205|0.1796
82531259|NCT01088529|164759702|SUPERIORITY_OR_OTHER||Relative risk|6.523|||<|0.0001|TWO_SIDED|90.0|2.701|15.753|||Chi-squared|||||15.753|2.701|<0.0001
82646405|NCT00752895|165007245|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Negative binomial regression|||||||0.820
82646406|NCT00633217|165007246|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% confidence interval for the mean difference in 2-hour post-dose FEV1 change from baseline fell above -75 mL, then HFA MDI could be deemed non-inferior to DISKUS treatment response.||||||0.021||95.0|||||ANCOVA|||||||0.021
82531260|NCT05033080|164759709|NON_INFERIORITY|The non-inferiority margin represents a clinically acceptable loss of effectiveness that margin preserve at least 50% of the treatment effect of the active control (ELX/TEZ/IVA) compared to placebo, where the treatment effect is estimated by the lower bound of the 95% confidence interval (CI).|LS Mean difference|0.2|||<|0.0001|TWO_SIDED|95.0|-0.7|1.1|||Mixed Models Repeated Measures|||||1.1|-0.7|< 0.0001
82646407|NCT00532779|165007250|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.67|||<|0.001||95.0|-4.5|-2.85|||ANCOVA|||||-2.85|-4.50|<0.001
82646408|NCT00532779|165007250|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.81|||<|0.001|TWO_SIDED|95.0|-5.63|-3.99|||ANCOVA|||||-3.99|-5.63|<0.001
82646409|NCT00532779|165007251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42|||<|0.001||95.0|2.52|4.63|||Regression, Logistic|||||4.63|2.52|<0.001
82646410|NCT00532779|165007251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.86|||<|0.001||95.0|3.6|6.57|||Regression, Logistic|||||6.57|3.60|<0.001
82646411|NCT00532779|165007252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|2.14|4.81|||Regression, Logistic|||||4.81|2.14|<0.001
82405776|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|7.77||0.1589||95.0|-4.3|26.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-4.3|0.1589
82405777|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.4|STANDARD_ERROR_OF_MEAN|7.95||0.0541||95.0|-0.3|31.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||31.0|-0.3|0.0541
82405778|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|7.66||0.5987||95.0|-11.0|19.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||19.1|-11.0|0.5987
82405779|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|8.1||0.4372||95.0|-9.6|22.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||22.2|-9.6|0.4372
82405780|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|7.71||0.8336||95.0|-16.8|13.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.6|-16.8|0.8336
82405781|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|7.9||0.0804||95.0|-1.7|29.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||29.4|-1.7|0.0804
82405782|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.3|STANDARD_ERROR_OF_MEAN|7.94||0.2985||95.0|-7.4|23.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||23.9|-7.4|0.2985
82405783|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|7.66||0.4991||95.0|-9.9|20.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||20.3|-9.9|0.4991
82405784|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|STANDARD_ERROR_OF_MEAN|8.15||0.2675||95.0|-7.0|25.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.1|-7.0|0.2675
82446200|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.79|TWO_SIDED|95.0|0.89|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.89|52.79
82446201|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||94.51|TWO_SIDED|95.0|0.98|1.24||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.24|0.98|94.51
82446202|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||93.16|TWO_SIDED|95.0|0.98|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.98|93.16
82446203|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||73.7|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|73.70
82531261|NCT05033080|164759710|SUPERIORITY||LS Mean difference|-8.4|||<|0.0001|TWO_SIDED|95.0|-10.5|-6.3|||Mixed Models Repeated Measures|||||-6.3|-10.5|< 0.0001
82405785|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|7.77||0.1593||95.0|-4.3|26.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-4.3|0.1593
82405786|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.9|STANDARD_ERROR_OF_MEAN|7.96||0.0179||95.0|3.3|34.6|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||34.6|3.3|0.0179
82405787|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.8|STANDARD_ERROR_OF_MEAN|8.06||0.0281||95.0|1.9|33.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||33.7|1.9|0.0281
82405788|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|7.77||0.1883||95.0|-5.0|25.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||25.5|-5.0|0.1883
82405789|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|8.28||0.23||95.0|-6.3|26.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||26.3|-6.3|0.2300
82405790|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|7.82||0.7575||95.0|-13.0|17.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||17.8|-13.0|0.7575
82405791|NCT00676403|164519844|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.3|STANDARD_ERROR_OF_MEAN|8.02||0.0757||95.0|-1.5|30.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||30.1|-1.5|0.0757
82405792|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.89||0.2817||95.0|-18.0|5.2|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-18.0|0.2817
82405793|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|5.76||0.6796||95.0|-13.7|9.0|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.0|-13.7|0.6796
82531262|NCT05033080|164759711|OTHER||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.55|3.15|||Generalized Estimated Equation Model|||||3.15|1.55|< 0.0001
82531263|NCT05033080|164759712|OTHER||Odds Ratio (OR)|2.87|||<|0.0001|TWO_SIDED|95.0|2.0|4.12|||Generalized Estimated Equation Model|||||4.12|2.00|< 0.0001
82531264|NCT03560245|164759714|EQUIVALENCE|"The change from baseline to Week 13 in the SIB total score was summarized descriptively and compared using Analysis of Covariance (ANCOVA) adjusted for baseline SIB total score.~If the normality assumption was not met, a non-parametric method or a rank-ANCOVA analysis (i.e., an ANCOVA analysis on rank-transformed data) was to be used."||||||0.373|||||||t-test, 2 sided|||||||0.3730
82531265|NCT01263106|164759741|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.12|||||TWO_SIDED|90.0|1.05|1.2|||Mixed Models Analysis|||||1.20|1.05|
82646412|NCT00532779|165007252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.001|TWO_SIDED|95.0|2.82|6.23|||Regression, Logistic|||||6.23|2.82|<0.001
82531266|NCT01263106|164759742|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|0.96|||||TWO_SIDED|90.0|0.92|1.01|||Mixed Models Analysis|||||1.01|0.92|
82531267|NCT01263106|164759743|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.8008|TWO_SIDED|90.0|-3.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.00|-3.00|0.8008
82531268|NCT03662360|164759746|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The Mann-Whitney test has been used to evaluate the statistical significance of the difference between the variations in scores (T3 - T1) regarding the two interest groups of patients (control and treated).||||<0.001
82531269|NCT03662360|164759747|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||The Mann-Whitney test has been used to evaluate the statistical significance of the difference between the variations scores in T3 and T1, concerning the distress of the professional caregivers in the two intereste groups of patients||||<0.01
82531270|NCT02058290|164759805|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82531271|NCT02058290|164759806|SUPERIORITY_OR_OTHER|||||||0.2612|||||||ANOVA|||||||0.2612
82531272|NCT02058290|164759807|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Log Rank|||||||0.0019
82646413|NCT00532779|165007253|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.74|-1.43|||ANCOVA|||||-1.43|-3.74|<0.001
82531273|NCT02262260|164759844|NON_INFERIORITY|"In order to demonstrate that the wait and extend regimen of ranibizumab is non-inferior to the posology described in the prescribing information, mean change in BCVA at month 12 from the baseline visit were determined for both treatment groups, and a comparison was made between the two groups using the Independent Samples t-test."||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82531274|NCT02262260|164759845|NON_INFERIORITY|"In order to demonstrate that the wait and extend regimen of ranibizumab is non-inferior to the posology described in the prescribing information, mean change in Central Retinal Thickness determined with Optical Coherence Tomography for both eyes were calculated for both groups and were compared using the Mann Whitney u test."||||||0.082|||||||Wilcoxon (Mann-Whitney)|||||||0.082
82531275|NCT02262260|164759848|NON_INFERIORITY|Comparison was made between the two groups using the Independent Samples t-test.||||||0.095|||||||Chi-squared|||||||0.095
82646414|NCT00532779|165007253|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.78|||<|0.001|TWO_SIDED|95.0|-4.93|-2.64|||ANCOVA|||||-2.64|-4.93|<0.001
82646415|NCT00532779|165007254|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.42|||<|0.001|TWO_SIDED|95.0|2.17|4.66|||ANCOVA|||||4.66|2.17|<0.001
82646416|NCT00532779|165007254|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.48|||<|0.001|TWO_SIDED|95.0|2.26|4.7|||ANCOVA|||||4.70|2.26|<0.001
82646417|NCT00532779|165007255|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.88|||=|0.046|TWO_SIDED||||||ANCOVA|||||||=0.046
82405794|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|6.01||0.2505||95.0|-18.8|4.9|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.9|-18.8|0.2505
82405795|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|5.73||0.5102||95.0|-15.1|7.5|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.5|-15.1|0.5102
82405796|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.78||0.5706||95.0|-14.7|8.1|||Mixed Models Analysis|||Week 1: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.1|-14.7|0.5706
82405797|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|5.95||0.4708||95.0|-16.0|7.4|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.4|-16.0|0.4708
82405798|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|5.72||0.6202||95.0|-8.4|14.1|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||14.1|-8.4|0.6202
82405799|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|6.04||0.4177||95.0|-16.8|7.0|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.0|-16.8|0.4177
82405800|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|5.75||0.6509||95.0|-8.7|13.9|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.9|-8.7|0.6509
82405801|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|5.86||0.8273||95.0|-10.3|12.8|||Mixed Models Analysis|||Week 2: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||12.8|-10.3|0.8273
82405802|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|5.94||0.2842||95.0|-18.1|5.3|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.3|-18.1|0.2842
82425983|NCT01400412|164560690|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Two-sided p-value without adjustment for multiple testing, interpreted at the 5% nominal level of significance|Wilcoxon (Mann-Whitney)|Stratified Wilcoxon rank sum test stratified by age (\<30 and \>=30 years)||The null hypothesis is that there is no difference between the two arms in the percent of total hip BMD change from baseline to week 48||||<0.001
82646418|NCT00532779|165007255|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.61|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82646419|NCT00532779|165007256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.13|||<|0.001|TWO_SIDED|95.0|1.72|4.54|||ANCOVA|||||4.54|1.72|<0.001
82646420|NCT00532779|165007256|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.14|||<|0.001|TWO_SIDED|95.0|2.73|5.56|||ANCOVA|||||5.56|2.73|<0.001
82646421|NCT00532779|165007257|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.36|||=|0.016|TWO_SIDED||||||ANCOVA|||||||=0.016
82405803|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|5.72||0.7041||95.0|-9.1|13.5|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.5|-9.1|0.7041
82405804|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|6.07||0.7216||95.0|-14.1|9.8|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-14.1|0.7216
82405805|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|5.78||0.6188||95.0|-14.3|8.5|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.5|-14.3|0.6188
82405806|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|5.9||0.8096||95.0|-10.2|13.0|||Mixed Models Analysis|||Week 4: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||13.0|-10.2|0.8096
82405807|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6|STANDARD_ERROR_OF_MEAN|6.01||0.0157||95.0|-26.5|-2.8|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-2.8|-26.5|0.0157
82405808|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|5.79||0.6007||95.0|-14.4|8.4|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||8.4|-14.4|0.6007
82405809|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|6.15||0.1057||95.0|-22.1|2.1|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.1|-22.1|0.1057
82646422|NCT00532779|165007257|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.32|||=|0.008|TWO_SIDED||||||ANCOVA|||||||=0.008
82405810|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|5.81||0.7764||95.0|-13.1|9.8|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-13.1|0.7764
82405811|NCT00676403|164519845|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|5.93||0.7146||95.0|-13.9|9.5|||Mixed Models Analysis|||Week 6: contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.5|-13.9|0.7146
82405812|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.2978||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.2978
82405813|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7242||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7242
82405814|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.32||0.0773||95.0|-0.1|1.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.1|0.0773
82531276|NCT02262260|164759849|NON_INFERIORITY|comparison was made between the two groups using the Independent Samples t-test.||||||0.072|||||||Chi-squared|||||||0.072
82531277|NCT02262260|164759850|NON_INFERIORITY|comparison was made between the two groups using the Independent Samples t-test||||||0.466|||||||Chi-squared|||||||0.466
82531278|NCT01794117|164759853|SUPERIORITY|||||||0.033|||||||Wilcoxon Signed Rank Test|||||||0.033
82531279|NCT00405704|164759854|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
82531280|NCT00405704|164759855|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.55
82531281|NCT00405704|164759856|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.37
82405815|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7831||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7831
82405816|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3291||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.3291
82405817|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3692||95.0|-0.3|0.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.3|0.3692
82405818|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7614||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7614
82405819|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0355||95.0|0.0|1.3|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|0.0|0.0355
82405820|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.5068||95.0|-0.4|0.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.8|-0.4|0.5068
82405821|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0561||95.0|0.0|1.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.0|0.0561
82405822|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.31||0.2223||95.0|-0.2|1.0|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.0|-0.2|0.2223
82405823|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6791||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.6791
82405824|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.32||0.0188||95.0|0.1|1.4|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.4|0.1|0.0188
82405825|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.1314||95.0|-0.1|1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.1|-0.1|0.1314
82405826|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.31||0.09||95.0|-0.1|1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.1|-0.1|0.0900
82405827|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.31||0.4144||95.0|-0.4|0.9|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.9|-0.4|0.4144
82531282|NCT00405704|164759857|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.94
82425984|NCT00285779|164560716|SUPERIORITY_OR_OTHER|||||||0.0978|TWO_SIDED||||||Fisher Exact|||||||0.0978
82425985|NCT00285779|164560717|OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
82425986|NCT00285779|164560718|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.031
82531283|NCT00405704|164759858|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||Log Rank|||||||0.04
82405828|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7699||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7699
82405829|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0406||95.0|0.0|1.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|0.0|0.0406
82405830|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7574||95.0|-0.5|0.7|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.7|-0.5|0.7574
82405831|NCT00676403|164519846|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.31||0.0554||95.0|0.0|1.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-0.0|0.0554
82405832|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.36||0.5409||95.0|-13.8|7.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.8|0.5409
82405833|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|5.25||0.823||95.0|-11.5|9.2|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.2|-11.5|0.8230
82405834|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|5.48||0.2958||95.0|-16.5|5.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-16.5|0.2958
82405835|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|5.27||0.3708||95.0|-15.1|5.7|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.7|-15.1|0.3708
82405836|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|5.27||0.1853||95.0|-17.4|3.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.4|-17.4|0.1853
82405837|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|5.41||0.1834||95.0|-17.9|3.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.4|-17.9|0.1834
82405838|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.22||0.8711||95.0|-11.1|9.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.4|-11.1|0.8711
82405839|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|5.5||0.3252||95.0|-16.3|5.4|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.4|-16.3|0.3252
82425987|NCT00285779|164560718|OTHER|||||||0.34|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.34
82531284|NCT00405704|164759859|SUPERIORITY_OR_OTHER_LEGACY|||||||0.065|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.065
82425988|NCT00285779|164560718|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
82425989|NCT00285779|164560718|OTHER|||||||0.22|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.22
82425990|NCT00285779|164560719|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 12 versus baseline||||>0.9999
82531285|NCT00405704|164759860|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82531286|NCT00405704|164759861|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82531287|NCT02696902|164759862|SUPERIORITY||Relative risk reduction|-23.7||||0.491|TWO_SIDED|80.0|-83.8|16.8|||Poisson regression with robust variance|||||16.8|-83.8|0.491
82405840|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|5.28||0.3205||95.0|-15.7|5.1|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-15.7|0.3205
82405841|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|5.34||0.0837||95.0|-19.8|1.2|||Mixed Models Analysis|||Week 2: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.2|-19.8|0.0837
82405842|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|5.4||0.8895||95.0|-11.4|9.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.9|-11.4|0.8895
82405843|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|5.22||0.6469||95.0|-12.7|7.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.9|-12.7|0.6469
82405844|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|5.53||0.2687||95.0|-17.0|4.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-17.0|0.2687
82405845|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|5.31||0.1757||95.0|-17.7|3.3|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.3|-17.7|0.1757
82405846|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.7|STANDARD_ERROR_OF_MEAN|5.38||0.0306||95.0|-22.3|-1.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.1|-22.3|0.0306
82405847|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|5.47||0.0857||95.0|-20.2|1.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-20.2|0.0857
82405848|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|5.28||0.2932||95.0|-16.0|4.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.8|-16.0|0.2932
82405849|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|5.6||0.0613||95.0|-21.6|0.5|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.5|-21.6|0.0613
82646423|NCT00532779|165007258|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.27|||=|0.063|TWO_SIDED||||||ANCOVA|||||||=0.063
82405850|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|5.34||0.5431||95.0|-13.8|7.3|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||7.3|-13.8|0.5431
82405851|NCT00676403|164519847|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|5.41||0.0262||95.0|-22.7|-1.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs. placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.4|-22.7|0.0262
82405852|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|5.44||0.1547||95.0|-18.5|3.0|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||3.0|-18.5|0.1547
82425991|NCT00285779|164560719|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 24 versus baseline||||>0.9999
82425992|NCT00285779|164560720|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
82646424|NCT00532779|165007258|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.57|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82446204|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||81.04|TWO_SIDED|95.0|0.96|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.96|81.04
82446205|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.58|TWO_SIDED|95.0|0.94|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.94|52.58
82446206|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||15.85|TWO_SIDED|95.0|0.86|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.86|15.85
82446207|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.69|TWO_SIDED|95.0|0.9|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.90|48.69
82531288|NCT00654940|164759908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.305||||80.0|-1.21|-0.41|||ANCOVA|||Treatment comparison of pregabalin - placebo: mixed effects analysis of covariance model fitted on the full analysis set population, accounting for period and treatment effects. Subject was fitted as a random effect, and baseline was fitted as two covariates.||-0.41|-1.21|
82531289|NCT00654940|164759909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|2.493||||80.0|-3.82|2.78|||ANCOVA|||Neuropathic Pain Symptom Inventory treatment comparison: Pregabalin - Placebo. Total score was analyzed using a mixed effect analysis of covariance model based on the full analysis set (FAS), accounting for period and treatment effects. Subject was fitted as a random effect and baseline was fitted as two covariates.||2.78|-3.82|
82531290|NCT00654940|164759910|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29000.0|STANDARD_ERROR_OF_MEAN|17000.0||||80.0|6100.0|51000.0|||ANCOVA|||Difference in least squares means Pregabalin-Placebo. Model of day (8 am to 8 pm) total activity score at end of treatment. Mixed effects analysis of covariance model was fitted on the full analysis set population, accounting for period and treatment effects. Subject was fitted as a random effect and baseline was fitted as two covariates.||51000|6100|
82531291|NCT00962585|164759923|SUPERIORITY_OR_OTHER|||||||0.573||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|ANCOVA|"Model (Analysis of covariance): Week 4 = Baseline (MSVS) + Treatment + Site~Difference Between Means: S-equol treatment group - Placebo"||"\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7.~The ANCOVA procedure was used to test the following hypotheses:~H0: μ1 = μp versus HA: μ1 ≠ μp where μ1 and μp denote the mean frequency of MSVS (at Week 4 in case of primary efficacy endpoint), adjusted for Baseline MSVS values, in the treatment and placebo groups, respectively."||||0.5730
82531292|NCT00962585|164759923|SUPERIORITY_OR_OTHER||LS means difference|1.13|||>|0.05|TWO_SIDED|95.0|-10.06|12.32|||Pair-wise comparisons|||||12.32|-10.06|>0.05
82646425|NCT00532779|165007259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|||||TWO_SIDED|95.0|-2.6|0.42||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.42|-2.60|
82646426|NCT00532779|165007259|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.94|||=|0.01|TWO_SIDED|95.0|-3.42|-0.46|||ANCOVA|||||-0.46|-3.42|=0.010
82531293|NCT00962585|164759923|SUPERIORITY_OR_OTHER||LS means difference|6.98|||>|0.05|TWO_SIDED|95.0|-3.87|17.84|||Pair-wise comparisons|||||17.84|-3.87|>0.05
82531294|NCT00962585|164759923|SUPERIORITY_OR_OTHER||LS means difference|0.94|||>|0.05|TWO_SIDED|95.0|-10.16|12.04|||Pair-wise comparisons|||||12.04|-10.16|>0.05
82646427|NCT00532779|165007260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.43|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82646428|NCT00532779|165007260|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.29|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82531295|NCT00962585|164759924|SUPERIORITY_OR_OTHER|||||||0.7364||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|ANCOVA|"Model: Week 4 = Baseline (MSVS) + Treatment + Site~Difference Between Means: S-equol treatment group - Placebo"||"\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7~1-week period = remaining days of the period since the last visit (i.e. period following first 7 days, as per CRF)"||||0.7364
82531296|NCT00962585|164759924|SUPERIORITY_OR_OTHER||LS means difference|-0.19|||>|0.05|TWO_SIDED|95.0|-12.38|12.01|||Pair-wise comparisons|||||12.01|-12.38|>0.05
82531297|NCT00962585|164759924|SUPERIORITY_OR_OTHER||LS means difference|4.77|||>|0.05|TWO_SIDED|95.0|-6.94|16.48|||Pair-wise comparisons|||||16.48|-6.94|>0.05
82531298|NCT00962585|164759924|SUPERIORITY_OR_OTHER||LS means difference|-1.63|||>|0.05|TWO_SIDED|95.0|-13.41|10.15|||Pair-wise comparisons|||||10.15|-13.41|>0.05
82646429|NCT00532779|165007261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.81|||||TWO_SIDED|95.0|-6.68|-0.94||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.94|-6.68|
82446208|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.25|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|52.25
82446209|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||66.48|TWO_SIDED|95.0|0.91|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.91|66.48
82446210|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||9.12|TWO_SIDED|95.0|0.72|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.72|9.12
82446211|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||16.95|TWO_SIDED|95.0|0.78|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.78|16.95
82446212|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||0.89|TWO_SIDED|95.0|0.75|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.75|0.89
82446213|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.4|TWO_SIDED|95.0|0.86|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.86|50.40
82446214|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||7.44|TWO_SIDED|95.0|0.76|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.76|7.44
82446215|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||56.35|TWO_SIDED|95.0|0.87|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.87|56.35
82446216|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||4.03|TWO_SIDED|95.0|0.87|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.87|4.03
82446217|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||24.79|TWO_SIDED|95.0|0.89|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.89|24.79
82646430|NCT00532779|165007261|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.84|||<|0.001|TWO_SIDED|95.0|-8.71|-2.98|||ANCOVA|||||-2.98|-8.71|<0.001
82531299|NCT00962585|164759925|SUPERIORITY_OR_OTHER|||||||0.1217||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 1 and 2.|Repeated measures ANCOVA|"Mixed Model: MSVS = Baseline (MSVS) + Treatment + Site + Weeks + Treatment x Weeks~Difference Between Means: S-equol treatment group - Placebo"||\# of MSVS per week at each protocol visits = (# of Moderate+Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7.||||0.1217
82646431|NCT00532779|165007262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|||||TWO_SIDED|95.0|-3.62|2.84||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.84|-3.62|
82646432|NCT00532779|165007262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.484|TWO_SIDED|95.0|-4.29|2.04|||ANCOVA|||||2.04|-4.29|0.484
82405853|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|5.33||0.2532||95.0|-16.6|4.4|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.4|-16.6|0.2532
82405854|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|5.56||0.0848||95.0|-20.6|1.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.3|-20.6|0.0848
82405855|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|5.36||0.2424||95.0|-16.8|4.3|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.3|-16.8|0.2424
82405856|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|5.35||0.047||95.0|-21.2|-0.1|||Mixed Models Analysis|||Week 1: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-21.2|0.0470
82405857|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|5.49||0.1494||95.0|-18.8|2.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.9|-18.8|0.1494
82405858|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|5.3||0.5081||95.0|-13.9|6.9|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.9|-13.9|0.5081
82405859|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|5.58||0.2141||95.0|-17.9|4.0|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.0|-17.9|0.2141
82405860|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|5.37||0.1484||95.0|-18.4|2.8|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||2.8|-18.4|0.1484
82405861|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|5.42||0.0963||95.0|-19.7|1.6|||Mixed Models Analysis|||Week 2: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.6|-19.7|0.0963
82405862|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|5.48||0.8519||95.0|-11.8|9.8|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||9.8|-11.8|0.8519
82405863|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|5.3||0.477||95.0|-14.2|6.7|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||6.7|-14.2|0.4770
82405864|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|5.61||0.2166||95.0|-18.0|4.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||4.1|-18.0|0.2166
82405865|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|5.4||0.1062||95.0|-19.4|1.9|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||1.9|-19.4|0.1062
82425993|NCT00285779|164560720|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 12 versus baseline||||>0.9999
82425994|NCT00285779|164560720|OTHER|||||||0.063|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.063
82425995|NCT00285779|164560720|OTHER||||||>|0.9999|||||||Wilcoxon Paired|||Week 24 versus baseline||||>0.9999
82425996|NCT00285779|164560721|OTHER|||||||0.063|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.063
82446218|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||77.08|TWO_SIDED|95.0|0.95|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.95|77.08
82446219|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||23.07|TWO_SIDED|95.0|0.89|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.89|23.07
82446220|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||18.58|TWO_SIDED|95.0|0.88|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.88|18.58
82446221|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||44.94|TWO_SIDED|95.0|0.92|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.92|44.94
82446222|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||2.21|TWO_SIDED|95.0|0.8|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.00|0.80|2.21
82531300|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|-3.77|||>|0.05||95.0|-12.69|5.16|||Pair-wise comparisons|||Week 1, Treatment Effect||5.16|-12.69|>0.05
82646433|NCT00532779|165007263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.23|||||TWO_SIDED|95.0|1.16|3.3||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.30|1.16|
82646434|NCT00532779|165007263|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83|||||TWO_SIDED|95.0|0.76|2.9||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.90|0.76|
82646435|NCT00532779|165007264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.19|1.73||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.73|0.19|
82646436|NCT00532779|165007264|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|0.13|1.67||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.67|0.13|
82646437|NCT00532779|165007265|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|0.19|1.28||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.28|0.19|
82531301|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|9.69|||<|0.05|TWO_SIDED|95.0|0.79|18.6|||Pair-wise comparisons|||Week 1, Treatment Effect||18.60|0.79|<0.05
82531302|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|1.31|||>|0.05|TWO_SIDED|95.0|-7.73|10.36|||Pair-wise comparisons|||Week 1, Treatment Effect||10.36|-7.73|>0.05
82531303|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|-6.7|||>|0.05|TWO_SIDED|95.0|-18.36|4.96|||Pair-wise comparisons|||Week 2, Treatment Effect||4.96|-18.36|>0.05
82646438|NCT00532779|165007265|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|-0.09|1.0||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.00|-0.09|
82646439|NCT00532779|165007266|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|0.14|1.23||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.23|0.14|
82646440|NCT00532779|165007266|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.4|0.69||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.69|-0.40|
82646441|NCT00532779|165007267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.53|0.53||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.53|-0.53|
82646442|NCT00532779|165007267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.8|0.27||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.27|-0.80|
82647999|NCT00386100|165011353|SUPERIORITY_OR_OTHER||Percent difference from metformin|3.75||||0.6749|TWO_SIDED|95.0|-13.09|23.85||Postmenopausal females, Week 80. Log transformed. If the p value was significant at Week 80 a comparison was done at Week 56; if it was significant at Weeks 80 and 56, a comparison was done at Week 20.|ANCOVA|.Based on ANCOVA with terms for treatment, region, pre-screening HbA1c strata, sex, baseline||||23.85|-13.09|0.6749
82405866|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|STANDARD_ERROR_OF_MEAN|5.45||0.0475||95.0|-21.6|-0.1|||Mixed Models Analysis|||Week 4: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.1|-21.6|0.0475
82405867|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|5.54||0.0537||95.0|-21.7|0.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||0.2|-21.7|0.0537
82405868|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|5.35||0.3153||95.0|-15.9|5.2|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.2|-15.9|0.3153
82405869|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|5.68||0.0424||95.0|-22.8|-0.4|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-0.4|-22.8|0.0424
82405870|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|5.42||0.3077||95.0|-16.2|5.1|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||5.1|-16.2|0.3077
82405871|NCT00676403|164519848|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.6|STANDARD_ERROR_OF_MEAN|5.48||0.0224||95.0|-23.4|-1.8|||Mixed Models Analysis|||Week 6: Contrast of treatment vs placebo. Repeated measures model used fixed effects of treatment, geographic region, week and treatment by week interaction. Baseline score is included as a covariate. Additionally, the model includes subject as a repeated measurement block within which the covariance structure is assumed to be compound symmetric (CS).||-1.8|-23.4|0.0224
82405872|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.7|STANDARD_ERROR_OF_MEAN|2.65||0.0646||95.0|0.9|15.0|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.0|0.9|0.0646
82405873|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2|STANDARD_ERROR_OF_MEAN|1.58||0.2947||95.0|0.5|9.1|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||9.1|0.5|0.2947
82405874|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.6|STANDARD_ERROR_OF_MEAN|3.1||0.0249||95.0|1.2|17.2|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||17.2|1.2|0.0249
82405875|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.99||0.7671||95.0|0.3|5.9|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||5.9|0.3|0.7671
82405876|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.6|STANDARD_ERROR_OF_MEAN|2.9||0.0169||95.0|1.3|15.9|||Regression, Logistic|||Week 1: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.9|1.3|0.0169
82425997|NCT00285779|164560721|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
82425998|NCT00285779|164560721|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.031
82425999|NCT00285779|164560721|OTHER|||||||0.32|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.32
82426000|NCT00285779|164560722|OTHER|||||||0.094|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.094
82426001|NCT00285779|164560722|OTHER|||||||0.25|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.25
82426002|NCT00285779|164560722|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
82426003|NCT00285779|164560722|OTHER|||||||0.13|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.13
82426004|NCT00285779|164560723|OTHER|||||||0.63|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.63
82426005|NCT00285779|164560723|OTHER|||||||0.38|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.38
82426006|NCT00285779|164560723|OTHER|||||||0.38|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.38
82426007|NCT00285779|164560723|OTHER|||||||0.5|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.50
82426008|NCT00285779|164560724|OTHER|||||||0.031|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.031
82426009|NCT00285779|164560724|OTHER|||||||0.094|||||||Wilcoxon Paired|||Week 12 versus baseline||||0.094
82426010|NCT00285779|164560724|OTHER|||||||0.039|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.039
82426011|NCT00285779|164560724|OTHER|||||||0.19|||||||Wilcoxon Paired|||Week 24 versus baseline||||0.19
82426012|NCT00285779|164560725|OTHER|||||||0.26|||||||Paired t test|||Week 12 versus baseline||||0.26
82648000|NCT02328807|165011366|OTHER||Negative biopsy rate at 6 months after R|0.667|||||TWO_SIDED|95.0|0.223|0.957|||||Two-sided exact confidence interval was calculated using Clopper-Pearson method.|This trail is a single cohort study and no statistical hypothesis test for the primary outcome was planned.||0.957|0.223|
82405877|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.74||0.9569||95.0|0.2|4.3|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.3|0.2|0.9569
82405878|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2|STANDARD_ERROR_OF_MEAN|2.07||0.0711||95.0|0.9|11.4|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means.Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||11.4|0.9|0.0711
82405879|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8|STANDARD_ERROR_OF_MEAN|1.85||0.1073||95.0|0.8|10.2|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||10.2|0.8|0.1073
82405880|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.4|STANDARD_ERROR_OF_MEAN|1.48||0.1583||95.0|0.7|8.1|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||8.1|0.7|0.1583
82405881|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.1|STANDARD_ERROR_OF_MEAN|2.8||0.0385||95.0|1.1|15.6|||Regression, Logistic|||Week 2: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||15.6|1.1|0.0385
82405882|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|STANDARD_ERROR_OF_MEAN|1.09||0.4923||95.0|0.4|6.1|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.1|0.4|0.4923
82405883|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.8||0.7169||95.0|0.4|4.4|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.4|0.4|0.7169
82405884|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.12||0.4156||95.0|0.5|6.2|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.2|0.5|0.4156
82405885|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.04||0.4165||95.0|0.5|5.6|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||5.6|0.5|0.4165
82405886|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|STANDARD_ERROR_OF_MEAN|1.08||0.4673||95.0|0.4|6.0|||Regression, Logistic|||Week 4: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.0|0.4|0.4673
82405887|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.72||0.9855||95.0|0.2|4.1|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||4.1|0.2|0.9855
82405888|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|0.61||0.9566||95.0|0.3|3.3|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||3.3|0.3|0.9566
82531304|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|3.56|||>|0.05|TWO_SIDED|95.0|-8.01|15.14|||Pair-wise comparisons|||Week 2, Treatment Effect||15.14|-8.01|>0.05
82405889|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7|STANDARD_ERROR_OF_MEAN|1.17||0.4632||95.0|0.4|6.6|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||6.6|0.4|0.4632
82405890|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.29||0.2042||95.0|0.1|1.6|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||1.6|0.1|0.2042
82648001|NCT00919802|165011370|OTHER|||||||0.688|||||||t-test, 2 sided|||Global Response Assessment (GRA) scores were obtained 6 and 24 hours post oxytocin or saline administration.||||0.688
82405891|NCT00676403|164519849|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9|STANDARD_ERROR_OF_MEAN|1.34||0.3382||95.0|0.5|7.5|||Regression, Logistic|||Week 6: Contrast of treatment vs. placebo. Differences in proportions were obtained using LS means. Repeated measures logistic regression model used fixed effects including treatment, geographic region, week, and the treatment by week interaction. The within-subject covariance structure was modeled as compound sysmetric.||7.5|0.5|0.3382
82405892|NCT00676403|164519850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6||||0.3932||95.0|-6.0|15.2|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||15.2|-6.0|0.3932
82405893|NCT00676403|164519850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3||||0.1585||95.0|-2.9|17.5|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||17.5|-2.9|0.1585
82405894|NCT00676403|164519850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8||||0.285||95.0|-4.9|16.5|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||16.5|-4.9|0.2850
82405895|NCT00676403|164519850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.8645||95.0|-9.4|11.1|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||11.1|-9.4|0.8645
82405896|NCT00676403|164519850|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.4||||0.3031||95.0|-5.0|15.8|||ANCOVA|||Analysis of covariance of change from baseline; LS Mean, standard error, 95% CI and P-value are from an analysis of covariance (ANCOVA), with treatment and geographic region as main effects and baseline value as covariate in the model.||15.8|-5.0|0.3031
82405897|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.5384||95.0|-13.2|7.0|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.0|-13.2|0.5384
82405898|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.8015||95.0|-10.9|8.5|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.5|-10.9|0.8015
82405899|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1||||0.4429||95.0|-14.5|6.4|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||6.4|-14.5|0.4429
82405900|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.886||95.0|-10.5|9.1|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.1|-10.5|0.8860
82405901|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0||||0.9963||95.0|-10.0|9.9|||ANCOVA|||Physical Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.9|-10.0|0.9963
82405902|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.9||||0.3421||95.0|-6.3|18.1|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.1|-6.3|0.3421
82405903|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.4||||0.2849||95.0|-5.4|18.1|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.1|-5.4|0.2849
82405904|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.6||||0.3058||95.0|-6.1|19.2|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.2|-6.1|0.3058
82405905|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.9604||95.0|-12.1|11.5|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.5|-12.1|0.9604
82405906|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5||||0.1661||95.0|-3.6|20.6|||ANCOVA|||Role-Physical: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.6|-3.6|0.1661
82405907|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.9||||0.1441||95.0|-3.1|20.9|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.9|-3.1|0.1441
82426013|NCT00285779|164560725|OTHER|||||||0.55|||||||Paired t test|||Week 12 versus baseline||||0.55
82426014|NCT00285779|164560725|OTHER|||||||0.18|||||||Paired t test|||Week 24 versus baseline||||0.18
82648002|NCT00919802|165011371|OTHER|paired t-test comparison of change in VAR from baseline 6 hours after drug; a change in VAR score was calculated for each subject for each arm and compared using a paired t-test||||||0.7252|||||||t-test, 2 sided|||||||0.7252
82648003|NCT01493531|165011372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.23|0.41|||Cochran-Mantel-Haenszel|||||0.41|0.23|<0.0001
82646443|NCT02395536|165007323|NON_INFERIORITY|A non-inferiority margin of 5% was chosen since the inability to rule out a 5% increase in untoward event rate associated with moving the Reveal LINQ procedure in-office may suggest that in-office procedures would too high of a complication rate compared procedures performed in the traditional office setting.|Risk Difference (RD)|-0.001|||<|0.001|TWO_SIDED|95.0|-0.03|0.029||P-value for non-inferiority versus a 5% non-inferiority margin.|Farrington-Manning test||The estimated value and its associated confidence interval are for the in-office minus traditional hospital setting difference in the untoward event rates. The point estimate is negative since the in-office rate was lower than the hospital rate.|The null hypothesis was that Reveal LINQ insertions performed in-office would have a higher untoward event rate than insertions performed in the traditional hospital setting. A sample size of 476 subjects was estimated to provide at least 90% power at a 1-sided alpha level of 2.5% and 5% non-inferiority margin. For the sample size calculation, an event rate of 2.0% was assumed in both arms. The Farrington-Manning test of two indepent proportions was used to compare study arms.||0.029|-0.030|<0.001
82646444|NCT00606801|165007332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.006
82646445|NCT00606801|165007333|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.04
82646446|NCT00606801|165007334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.02
82646447|NCT00606801|165007335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.03
82405908|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0||||0.3076||95.0|-5.6|17.5|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.5|-5.6|0.3076
82646448|NCT00606801|165007336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.5
82646449|NCT00606801|165007337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.7
82646450|NCT00606801|165007338|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
82531305|NCT00962585|164759925|SUPERIORITY_OR_OTHER||LS means difference|0.91|||>|0.05|TWO_SIDED|95.0|-10.77|12.58|||Pair-wise comparisons|||Week 2, Treatment Effect||12.58|-10.77|>0.05
82646451|NCT00606801|165007339|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
82646452|NCT00606801|165007340|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.3
82646453|NCT00606801|165007341|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.9
82576284|NCT02209181|164862057|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.91|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|2.69|5.14||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||5.14|2.69|<0.001
82646454|NCT00606801|165007342|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.8
82405909|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0||||0.1209||95.0|-2.7|22.7|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||22.7|-2.7|0.1209
82405910|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.4||||0.2791||95.0|-5.3|18.0|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||18.0|-5.3|0.2791
82405911|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.2||||0.0644||95.0|-0.7|23.0|||ANCOVA|||Bodily Pain: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||23.0|-0.7|0.0644
82405912|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.7544||95.0|-9.5|6.9|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||6.9|-9.5|0.7544
82405913|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.6||||0.5142||95.0|-10.3|5.2|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||5.2|-10.3|0.5142
82405914|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.8158||95.0|-7.4|9.4|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.4|-7.4|0.8158
82405915|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9||||0.4599||95.0|-10.8|4.9|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||4.9|-10.8|0.4599
82405916|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.8636||95.0|-8.7|7.3|||ANCOVA|||General Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.3|-8.7|0.8636
82405917|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7||||0.5281||95.0|-7.8|15.1|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.1|-7.8|0.5281
82405918|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.5||||0.6566||95.0|-8.5|13.5|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||13.5|-8.5|0.6566
82646455|NCT00606801|165007343|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.5
82405919|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.1||||0.0677||95.0|-0.8|23.0|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||23.0|-0.8|0.0677
82405920|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.3||||0.4443||95.0|-6.8|15.4|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.4|-6.8|0.4443
82405921|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5||||0.2543||95.0|-4.7|17.7|||ANCOVA|||Vitality: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.7|-4.7|0.2543
82405922|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.9416||95.0|-11.0|11.9|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.9|-11.0|0.9416
82405923|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.5824||95.0|-14.1|7.9|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||7.9|-14.1|0.5824
82405924|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4||||0.5668||95.0|-15.3|8.4|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.4|-15.3|0.5668
82405925|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6||||0.7769||95.0|-9.6|12.8|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.8|-9.6|0.7769
82405926|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.1753||95.0|-3.5|19.1|||ANCOVA|||Social Functioning: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.1|-3.5|0.1753
82405927|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.7||||0.1508||95.0|-3.2|20.7|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||20.7|-3.2|0.1508
82405928|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.9||||0.0916||95.0|-1.6|21.4|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||21.4|-1.6|0.0916
82405929|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1||||0.6222||95.0|-9.2|15.4|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.4|-9.2|0.6222
82405930|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.2||||0.085||95.0|-1.4|21.8|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||21.8|-1.4|0.0850
82405931|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.8||||0.0154||95.0|2.9|26.7|||ANCOVA|||Role-Emotional: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||26.7|2.9|0.0154
82405932|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8||||0.7201||95.0|-11.9|8.2|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||8.2|-11.9|0.7201
82405933|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.8875||95.0|-9.1|10.5|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.5|-9.1|0.8875
82405934|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.7||||0.3735||95.0|-5.7|15.1|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||15.1|-5.7|0.3735
82405935|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9||||0.8621||95.0|-8.9|10.6|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.6|-8.9|0.8621
82405936|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.9||||0.1203||95.0|-2.1|17.8|||ANCOVA|||Mental Health: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||17.8|-2.1|0.1203
82405937|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.8||||0.4966||95.0|-5.4|11.0|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||11.0|-5.4|0.4966
82405938|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2||||0.5776||95.0|-5.6|10.1|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||10.1|-5.6|0.5776
82405939|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7||||0.3955||95.0|-4.9|12.3|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.3|-4.9|0.3955
82531306|NCT00962585|164759926|SUPERIORITY_OR_OTHER|||||||0.1609||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 1, 2 and 4.|Repeated measures ANCOVA|Mixed Model: Severity of VMS = Baseline (severity of VMS) + Treatment + Site + Weeks + Treatment x Weeks||Severity of VMS per week at each protocol visits = (Sum of scores of Mild, Moderate, Severe hot flushes)/(Current protocol visit date-Previous protocol visit date (days)) x 7, where severity of vasomotor symptoms are scored as: 1 = mild, 2 = moderate and 3 = severe.||||0.1609
82405940|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.7994||95.0|-6.9|9.0|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||9.0|-6.9|0.7994
82405941|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2||||0.2073||95.0|-2.9|13.2|||ANCOVA|||Summary Physical Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||13.2|-2.9|0.2073
82405942|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2||||0.5148||95.0|-6.4|12.8|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.8|-6.4|0.5148
82531307|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|-6.34|||>|0.05|TWO_SIDED|95.0|-26.41|13.73|||Pair-wise comparisons|||Week 1, Treatment Effect||13.73|-26.41|>0.05
82531308|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|25.67|||<|0.05|TWO_SIDED|95.0|5.64|45.69|||Pair-wise comparisons|||Week 1, Treatment Effect||45.69|5.64|<0.05
82405943|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.0||||0.5255||95.0|-6.3|12.2|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||12.2|-6.3|0.5255
82446223|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||6.09|TWO_SIDED|95.0|0.83|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.83|6.09
82531309|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|2.09|||>|0.05|TWO_SIDED|95.0|-18.21|22.39|||Pair-wise comparisons|||Week 1, Treatment Effect||22.39|-18.21|>0.05
82646456|NCT00606801|165007344|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.01
82405944|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4||||0.3793||95.0|-5.5|14.4|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||14.4|-5.5|0.3793
82405945|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.8||||0.312||95.0|-4.5|14.1|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||14.1|-4.5|0.3120
82405946|NCT00676403|164519851|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.7||||0.0442||95.0|0.3|19.2|||ANCOVA|||Summary Emotional Score: Least Squares mean difference. LS Mean, Std. Error, 95% CI and P-value are from an analysis of covariance (ANCOVA) with treatment and geographic region as main effects and baseline value as covariate in the model.||19.2|0.3|0.0442
82405947|NCT00676403|164519852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4452||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4452
82405948|NCT00676403|164519852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4342||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4342
82405949|NCT00676403|164519852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0942||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.0942
82405950|NCT00676403|164519852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1873||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.1873
82405951|NCT00676403|164519852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709||95.0|||||Cochran-Mantel-Haenszel|||CHM test for difference; p-value was adjusted for geographic region at each visit.||||0.4709
82646457|NCT00606801|165007345|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.60
82405952|NCT04585919|164519914|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|Generalized linear mixed effect model controlling for secular trend, patient sociodemographic and health characteristics||||||0.005
82405953|NCT04585919|164519915|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|Generalized linear mixed effect model controlling for secular trend, patient sociodemographic and health characteristics||||||0.19
82405954|NCT03834493|164519924|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6621|TWO_SIDED|95.0|0.88|1.22|||Log Rank||Stratified Cox model with Efron's tie handling method|||1.22|0.88|0.6621
82405955|NCT03834493|164519925|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4073|TWO_SIDED|95.0|0.84|1.14|||Log Rank||Stratified Cox model with Efron's tie handling method|||1.14|0.84|0.4073
82405956|NCT03834493|164519926|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||Stratified Cox model with Efron's tie handling method|||1.09|0.83|
82405957|NCT03834493|164519927|OTHER||Difference in Percentage|3.4|||||TWO_SIDED|95.0|-1.5|8.3|||||Stratified Miettinen and Nurminen method|||8.3|-1.5|
82531310|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|-16.14|||>|0.05|TWO_SIDED|95.0|-43.29|11.01|||Pair-wise comparisons|||Week 2, Treatment Effect||11.01|-43.29|>0.05
82405958|NCT03834493|164519928|OTHER||Difference in Percentage|0.3|||||TWO_SIDED|95.0|-3.4|4.1|||||Stratified Miettinen and Nurminen method|||4.1|-3.4|
82405959|NCT03834493|164519929|OTHER||Difference in Percentage|2.9|||||TWO_SIDED|95.0|-0.2|6.1|||||Stratified Miettinen and Nurminen method|||6.1|-0.2|
82405960|NCT03834493|164519931|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.86|1.15|||||Stratified Cox model with Efron's tie handling method|||1.15|0.86|
82405961|NCT03834493|164519932|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.74|1.09|||||Stratified Cox model with Efron's tie handling method|||1.09|0.74|
82405962|NCT03834493|164519933|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.82|1.35|||||Stratified Cox model with Efron's tie handling method|||1.35|0.82|
82405963|NCT03834493|164519934|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.85|1.51|||||Stratified Cox model with Efron's tie handling method|||1.51|0.85|
82405964|NCT04817332|164519951|SUPERIORITY||Odds Ratio (OR)|0.72||||0.008|TWO_SIDED|95.0|0.57|0.92|||Odds ratio Ordinal Logistic Regression|adjusted for the stratifying factors of age as a fixed effect and site using robust standard errors to account for clustering||||0.92|0.57|0.008
82531311|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|8.73|||>|0.05|TWO_SIDED|95.0|-18.19|35.65|||Pair-wise comparisons|||Week 2, Treatment Effect||35.65|-18.19|>0.05
82531312|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|-0.65|||>|0.05|TWO_SIDED|95.0|-27.8|26.5|||Pair-wise comparisons|||Week 2, Treatment Effect||26.50|-27.80|>0.05
82531313|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|-1.69|||>|0.05|TWO_SIDED|95.0|-28.68|25.3|||Pair-wise comparisons|||Week 4, Treatment Effect||25.30|-28.68|>0.05
82405965|NCT04817332|164519952|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.058|TWO_SIDED|95.0|0.76|1.0|||Regression, Cox|||||1.00|0.76|0.058
82405966|NCT04817332|164519955|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.84|1.13||||||||1.13|0.84|
82405967|NCT04817332|164519957|SUPERIORITY||Rate ratio|0.93|||||TWO_SIDED|95.0|0.87|0.99||||||||0.99|0.87|
82405968|NCT04817332|164519958|SUPERIORITY||Rate ratio|1.13|||||TWO_SIDED|95.0|0.73|1.74||||||||1.74|0.73|
82405969|NCT04817332|164519959|SUPERIORITY||Rate ratio|0.84|||||TWO_SIDED|95.0|0.69|1.04||||||||1.04|0.69|
82405970|NCT04817332|164519960|SUPERIORITY||Rate ratio|1.68|||||TWO_SIDED|95.0|1.09|2.58||||||||2.58|1.09|
82648004|NCT01493531|165011372|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.34|0.52|||Cochran-Mantel-Haenszel|||||0.52|0.34|<0.0001
82405971|NCT04817332|164519961|SUPERIORITY||Rate ratio|1.03|||||TWO_SIDED|95.0|0.92|1.15||||||||1.15|0.92|
82405972|NCT04817332|164519962|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|1.06|1.88||||||||1.88|1.06|
82405973|NCT04817332|164519976|SUPERIORITY||Mean Difference (Final Values)|-67.0|||||TWO_SIDED|95.0|-102.0|-31.0||||||||-31|-102|
82405974|NCT04817332|164519980|SUPERIORITY||Mean Difference (Final Values)|0.003|||||TWO_SIDED|95.0|-0.06|0.066||||||||0.066|-0.06|
82405975|NCT00359203|164519997|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43||||0.04|TWO_SIDED|95.0|0.19|0.96|||Log Rank|The risk of syncope recurrence was based on HR obtained by means of the univarate Cox model, with the use of the Breslow method for ties.|numerator=pacemaker ON denominator=pacemaker OFF|The analysis was designed to have 80% power to detect a 1-year absolute reduction of 25% in the risk of recurrence of first syncope in the Pm ON arm applying a log-rank test with a 2-sided significance level of 0.05. This analysis was planned as a comparison of the cumulative risk of syncope between the 2 groups with the use of a log-rank test.||0.96|0.19|0.04
82405976|NCT00359203|164519997|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The analysis was designed to have 80% power to detect a 1-year absolute reduction of 25% in the risk of recurrence of first syncope in the treatment arm applying a log-rank test with a 2-sided significance level of 0.05.|Hazard Ratio (HR)|0.43||||0.039|TWO_SIDED|95.0|0.19|0.96||For the final analysis the threshold of statistical significance was set at 0.04.|Log Rank||Numerator=pacemaker ON denominator=pacemaker OFF|||0.96|0.19|0.039
82405977|NCT02131064|164520003|SUPERIORITY||Difference in tpCR rate|-11.71||||0.0126|TWO_SIDED|95.0|-20.95|-2.48||Threshold for significance at 5%|Cochran-Mantel-Haenszel Chi-Square|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||95% CI for the difference in tPCR rates between treatment arms was calculated using normal approximation.||-2.48|-20.95|0.0126
82405978|NCT02131064|164520004|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.7557|TWO_SIDED|95.0|0.37|3.96|||Cochran-Mantel-Haenszel Chi-Square Test|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||||3.96|0.37|0.7557
82531314|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|16.15|||>|0.05|TWO_SIDED|95.0|-10.4|42.71|||Pair-wise comparisons|||Week 4, Treatment Effect||42.71|-10.40|>0.05
82531315|NCT00962585|164759926|SUPERIORITY_OR_OTHER||LS means difference|-1.29|||>|0.05|TWO_SIDED|95.0|-28.18|25.6|||Pair-wise comparisons|||Week 4, Treatment Effect||25.60|-28.18|>0.05
82405979|NCT02131064|164520005|SUPERIORITY||Difference in BCS rate|-10.84||||0.0228|TWO_SIDED|95.0|-20.21|-1.47|||Cochran-Mantel-Haenszel Chi-Square|The Cochran-Mantel-Haenszel Chi-square test was used and stratified by local hormone receptor status and clinical stage at presentation.||95% CI for the difference in BCS rate between treatment arms was calculated using normal approximation.||-1.47|-20.21|0.0228
82405980|NCT02131064|164520006|SUPERIORITY||Hazard Ratio (HR)|2.61||||0.0027|TWO_SIDED|95.0|1.36|4.98|||Log Rank|The Log Rank was used and stratified by local hormone receptor status and clinical stage at presentation.||||4.98|1.36|0.0027
82405981|NCT02131064|164520007|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.52|2.4||||||||2.40|0.52|
82405982|NCT02131064|164520010|SUPERIORITY||Difference in Deterioration|-24.58|||||TWO_SIDED|95.0|-33.98|-15.19||||||95% CI for the difference in clinically meaningful deterioration in GHS/QoL score between treatment arms was calculated using normal approximation.||-15.19|-33.98|
82405983|NCT02131064|164520011|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0001|TWO_SIDED|95.0|0.46|0.78|||Log Rank|Log Rank was used and stratified by local hormone receptor status and clinical stage at presentation.||Stratified cox proportional hazards regression model was used to estimate Hazard Ratio and CI. Stratification by hormonal receptor status and clinical stage at presentation (stratification factors).||0.78|0.46|0.0001
82405984|NCT02131064|164520022|SUPERIORITY||Difference in Deterioration|-16.63|||||TWO_SIDED|95.0|-26.32|-6.94||||||This is the statistical analysis for cognitive functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-6.94|-26.32|
82405985|NCT02131064|164520022|SUPERIORITY||Difference in Deterioration|-32.54|||||TWO_SIDED|95.0|-41.74|-23.34||||||This is the statistical analysis for physical functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-23.34|-41.74|
82405986|NCT02131064|164520022|SUPERIORITY||Difference in Deterioration|-28.88|||||TWO_SIDED|95.0|-37.95|-19.8||||||This is the statistical analysis for role functioning. 95% CI for the difference in clinically meaningful deterioration in function subscales between treatment arms was calculated using normal approximation.||-19.80|-37.95|
82426015|NCT00285779|164560725|OTHER|||||||0.13|||||||Paired t test|||Week 24 versus baseline||||0.13
82426016|NCT00285779|164560726|OTHER|||||||0.51|||||||Paired t test|||Week 12 versus baseline||||0.51
82531316|NCT00962585|164759927|SUPERIORITY_OR_OTHER|||||||0.2211||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Vaginal pH) = Baseline (Vaginal pH) + Treatment + Site + Weeks + Treatment x Weeks||||||0.2211
82531317|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|-0.21|||>|0.05|TWO_SIDED|95.0|-0.53|0.12|||Pair-wise comparisons|||Week 2, Treatment Effect||0.12|-0.53|>0.05
82531318|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|-0.23|||>|0.05|TWO_SIDED|95.0|-0.55|0.09|||Pair-wise comparisons|||Week 2, Treatment Effect||0.09|-0.55|>0.05
82405987|NCT01764841|164520057|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7331||||0.065|TWO_SIDED|97.5|0.5027|1.069|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 97.5% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.0690|0.5027|0.0650
82405988|NCT01764841|164520057|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5333||||0.0005|TWO_SIDED|97.5|0.3568|0.7971|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 97.5% CI was calculated by using Cox proportional hazards model by comparison of Cipro 14/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||0.7971|0.3568|0.0005
82405989|NCT01764841|164520058|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.8615||||0.2944|TWO_SIDED|97.5|0.6264|1.1848|||Poisson regression|||A Poisson regression with adjustment for over-/under dispersion was used to analyze the number of exacerbation events over 48 weeks and to test the difference in the frequency of exacerbation between Ciprofloxacin DPI 28 and Pooled placebo group. P-value was analyzed using Wald-type test along with the incidence rate ratio of the comparison.||1.1848|0.6264|0.2944
82405990|NCT01764841|164520058|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.7329||||0.0382|TWO_SIDED|97.5|0.5237|1.0256|||Poisson regression|||A Poisson regression with adjustment for over-/under dispersion was used to analyze the number of exacerbation events over 48 weeks and to test the difference in the frequency of exacerbation between Ciprofloxacin DPI 14 and Pooled placebo group. P-value was analyzed using Wald-type test along with the incidence rate ratio of the comparison.||1.0256|0.5237|0.0382
82405991|NCT00549549|164520065|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.74|-0.18|||ANCOVA|||This was the primary analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group and region as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||-0.18|-0.74|
82405992|NCT00549549|164520065|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.52|0.04|||ANCOVA|||||0.04|-0.52|
82405993|NCT00549549|164520065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.84|||ANCOVA|||||0.84|0.29|
82405994|NCT00549549|164520065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.05|0.6|||ANCOVA|||||0.60|0.05|
82405995|NCT00549549|164520065|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.17|0.39|||ANCOVA|||||0.39|-0.17|
82405996|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.29|0.14|||ANCOVA|||Day 5 analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||0.14|-0.29|
82405997|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.42|0.02|||ANCOVA|||Day 5 analysis||0.02|-0.42|
82405998|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.04|0.47|||ANCOVA|||Day 5 analysis||0.47|0.04|
82405999|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.04|0.39|||ANCOVA|||Day 5 analysis||0.39|-0.04|
82531319|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|0.03|||>|0.05|TWO_SIDED|95.0|-0.28|0.35|||Pair-wise comparisons|||Week 2, Treatment Effect||0.35|-0.28|>0.05
82406000|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.16|0.27|||ANCOVA|||Day 5 analysis||0.27|-0.16|
82406001|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.26|0.16|||ANCOVA|||Day 9 analysis||0.16|-0.26|
82406002|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.4|0.03|||ANCOVA|||Day 9 analysis||0.03|-0.40|
82406003|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.11|0.32|||ANCOVA|||Day 9 analysis||0.32|-0.11|
82406004|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.16|0.27|||ANCOVA|||Day 9 analysis||0.27|-0.16|
82406005|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.3|0.13|||ANCOVA|||Day 9 analysis||0.13|-0.30|
82406006|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.33|0.1|||ANCOVA|||Day 14/early termination analysis||0.10|-0.33|
82406007|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.53|-0.11|||ANCOVA|||Day 14/early termination analysis||-0.11|-0.53|
82406008|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.05|0.37|||ANCOVA|||Day /early termination analysis||0.37|-0.05|
82406009|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.17|0.25|||ANCOVA|||Day 14/early termination analysis||0.25|-0.17|
82406010|NCT00549549|164520066|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.38|0.05|||ANCOVA|||Day 14/early termination analysis||0.05|-0.38|
82406011|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.29|0.22|||ANCOVA|||Day 5 analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity (for the prior 24 hours) at Baseline as a covariate.||0.22|-0.29|
82406012|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.35|0.16|||ANCOVA|||Day 5 analysis.||0.16|-0.35|
82426017|NCT00285779|164560726|OTHER|||||||0.47|||||||Paired t test|||Week 24 versus baseline||||0.47
82531320|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|-0.26|||>|0.05|TWO_SIDED|95.0|-0.54|0.02|||Pair-wise comparisons|||Week 4, Treatment Effect||0.02|-0.54|>0.05
82531321|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|-0.13|||>|0.05|TWO_SIDED|95.0|-0.4|0.14|||Pair-wise comparisons|||Week 4, Treatment Effect||0.14|-0.40|>0.05
82646458|NCT00606801|165007346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||A mixed-effect, repeated-measures model using main effect terms of treatment (placebo or galantine) and time (day of measurement). Interaction of main effects were also analyzed, with a random effect for participant. Given the hypothesis generating nature of the study, values of p\<0.05 were considered statistically significant based on two-tailed tests. Significant interactions were followed by Bonferroni post hoc pairwise comparisons.||||0.50
82646459|NCT01143272|165007348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.94|TWO_SIDED|95.0|0.55|1.9|||Regression, Cox|||||1.90|0.55|0.94
82646460|NCT01143272|165007348|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||0.25
82406013|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.17|0.34|||ANCOVA|||Day 5 analysis.||0.34|-0.17|
82406014|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.2|0.3|||ANCOVA|||Day 5 analysis.||0.30|-0.20|
82531322|NCT00962585|164759927|SUPERIORITY_OR_OTHER||LS means difference|-0.24|||>|0.05|TWO_SIDED|95.0|-0.51|0.03|||Pair-wise comparisons|||Week 4, Treatment Effect||0.03|-0.51|>0.05
82531323|NCT00962585|164759928|SUPERIORITY_OR_OTHER|||||||0.6375||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Vaginal Maturation Index) = Baseline (Vaginal Maturation Index) + Treatment + Site + Weeks + Treatment x Weeks||Vaginal maturation index = 0.2 x (% parabasal cells) + 0.6 x(% intermediate cells) + 1.0 x (% superficial cells)||||0.6375
82531324|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-1.58|||>|0.05|TWO_SIDED|95.0|-9.57|6.42|||Pair-wise comparisons|||Week 2, Treatment Effect||6.42|-9.57|>0.05
82531325|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-1.58|||>|0.05|TWO_SIDED|95.0|-9.63|6.46|||Pair-wise comparisons|||Week 2, Treatment Effect||6.46|-9.63|>0.05
82531326|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-1.59|||>|0.05|TWO_SIDED|95.0|-9.66|6.47|||Pair-wise comparisons|||Week 2, Treatment Effect||6.47|-9.66|>0.05
82531327|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-0.31|||>|0.05|TWO_SIDED|95.0|-6.73|6.11|||Pair-wise comparisons|||Week 4, Treatment Effect||6.11|-6.73|>0.05
82531328|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-6.14|||>|0.05|TWO_SIDED|95.0|-12.36|0.07|||Pair-wise comparisons|||Week 4, Treatment Effect||0.07|-12.36|>0.05
82531329|NCT00962585|164759928|SUPERIORITY_OR_OTHER||LS means difference|-2.88|||>|0.05|TWO_SIDED|95.0|-9.05|3.28|||Pair-wise comparisons|||Week 4, Treatment Effect||3.28|-9.05|>0.05
82531330|NCT00962585|164759929|SUPERIORITY_OR_OTHER|||||||0.0681||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05. Treatment effect averaged across Weeks 2 and 4.|Repeated measures ANCOVA|Mixed Model: (Estradiol) = Baseline (Estradiol) + Treatment + Site + Weeks + Treatment x Weeks||||||0.0681
82531331|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|35.32|||>|0.05|TWO_SIDED|95.0|1.75|68.9|||Pair-wise comparisons|||Week 2, Treatment Effect||68.90|1.75|>0.05
82406015|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.26|0.25|||ANCOVA|||Day 5 analysis.||0.25|-0.26|
82426018|NCT00285779|164560726|OTHER|||||||0.087|||||||Paired t test|||Week 24 versus baseline||||0.087
82531332|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|3.61|||>|0.05|TWO_SIDED|95.0|-29.12|36.34|||Pair-wise comparisons|||Week 2, Treatment Effect||36.34|-29.12|>0.05
82531333|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|-4.58|||>|0.05|TWO_SIDED|95.0|-37.39|28.23|||Pair-wise comparisons|||Week 2, Treatment Effect||28.23|-37.39|>0.05
82531334|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|22.12|||>|0.05|TWO_SIDED|95.0|-23.56|67.8|||Pair-wise comparisons|||Week 4, Treatment Effect||67.80|-23.56|>0.05
82531335|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|7.8|||>|0.05|TWO_SIDED|95.0|-36.7|52.29|||Pair-wise comparisons|||Week 4, Treatment Effect||52.29|-36.70|>0.05
82531336|NCT00962585|164759929|SUPERIORITY_OR_OTHER||LS means difference|-22.74|||>|0.05|TWO_SIDED|95.0|-67.44|21.96|||Pair-wise comparisons|||Week 4, Treatment Effect||21.96|-67.44|>0.05
82531337|NCT00962585|164759933|SUPERIORITY_OR_OTHER|||||||0.0475||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0475
82531338|NCT00962585|164759933|SUPERIORITY_OR_OTHER|||||||0.0258||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0258
82531339|NCT00962585|164759933|SUPERIORITY_OR_OTHER|||||||0.0281||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.0281
82531340|NCT00962585|164759933|SUPERIORITY_OR_OTHER|||||||0.0645||95.0|||||Kruskal-Wallis|||All three S-equol treatment arms were aggregated and compared to placebo.||||0.0645
82646461|NCT01143272|165007348|SUPERIORITY_OR_OTHER|||||||0.87|||||||Log Rank|||||||0.87
82646462|NCT01143272|165007350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.8|TWO_SIDED|95.0|0.49|1.73|||Regression, Cox|||||1.73|0.49|0.80
82646463|NCT01143272|165007350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.93|TWO_SIDED|95.0|0.53|2.03||adjusting for age, sex, CRP, leukocyte count, duration of antibiotic treatment, and administration of antibiotics|Regression, Cox|||||2.03|0.53|0.93
82646464|NCT01143272|165007351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.6|TWO_SIDED|95.0|0.96|1.08||Association between initial leukocyte count and incidence of AAD|Regression, Logistic|||||1.08|0.96|0.6
82646465|NCT01143272|165007351|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.653|TWO_SIDED|95.0|1.0|1.01||Association between the initial C-reactive protein and incidence of AAD|Regression, Logistic|||||1.01|1.00|0.653
82646466|NCT02625207|165007381|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|116.73||||0.1318|TWO_SIDED|90.0|98.55|138.26|||Mixed Models Analysis|||||138.26|98.55|0.1318
82406016|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.11|||ANCOVA|||Day 9 analysis.||0.11|-0.36|
82406017|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.44|0.04|||ANCOVA|||Day 9 analysis.||0.04|-0.44|
82406018|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.01|0.46|||ANCOVA|||Day 9 analysis.||0.46|-0.01|
82406019|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.14|0.33|||ANCOVA|||Day 9 analysis.||0.33|-0.14|
82406020|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.22|0.26|||ANCOVA|||Day 9 analysis.||0.26|-0.22|
82406021|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.38|0.1|||ANCOVA|||Day 14/early termination analysis||0.10|-0.38|
82531341|NCT00962585|164759934|SUPERIORITY_OR_OTHER|||||||0.0097||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol groups combined versus Placebo: Change from Baseline at Week 4||||||0.0097
82531342|NCT00962585|164759935|SUPERIORITY_OR_OTHER|||||||0.4352||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.4352
82531343|NCT00962585|164759935|SUPERIORITY_OR_OTHER|||||||0.26||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.2600
82446224|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||66.6|TWO_SIDED|95.0|0.92|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.92|66.60
82531344|NCT00962585|164759935|SUPERIORITY_OR_OTHER|||||||0.7037||||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol treatment group versus Placebo: Percentage Change from Baseline at Week 4||||||0.7037
82531345|NCT00962585|164759935|SUPERIORITY_OR_OTHER|||||||0.7155|||||||Kruskal-Wallis|||All three S-equol treatment arms were aggregated and compared to placebo.||||0.7155
82531346|NCT00962585|164759936|SUPERIORITY_OR_OTHER|||||||0.0381||||||P-value is adjusted for multiple comparisons and the a priori threshold for statistical significance was P \<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon Mann-Whitney test: S-equol groups combined versus Placebo: Change from Baseline at Week 4||||||0.0381
82531347|NCT02254421|164759937|SUPERIORITY||Treatment difference|-0.02||||0.94|TWO_SIDED|95.0|-0.62|0.57||P-value was calculated from the ANCOVA model including baseline values and stratification factors.|ANCOVA|||||0.57|-0.62|0.94
82531348|NCT02254421|164759938|SUPERIORITY|||||||0.84||||||P-value was calculated from the negative binomial model with stratification factors as covariates.|Negative binomial|||||||0.84
82531349|NCT02254421|164759939|SUPERIORITY|||||||0.98||||||P-value was calculated from the Cochran-Mantel-Haenszel (CMH) test stratified by stratification factors.|Cochran-Mantel-Haenszel|||||||0.98
82531350|NCT02254421|164759940|SUPERIORITY|||||||0.19||||||P-value was calculated from the CMH test stratified by stratification factors.|Cochran-Mantel-Haenszel|||||||0.19
82531351|NCT00179010|164759978|SUPERIORITY_OR_OTHER|||||||0.854|||||||ANOVA|||||||0.854
82406022|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.52|-0.04|||ANCOVA|||Day 14/early termination analysis||-0.04|-0.52|
82446225|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||3.23|TWO_SIDED|95.0|0.81|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.81|3.23
82531352|NCT05462652|164760003|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|-3.68|-1.59|||Mixed Models Analysis|||||-1.59|-3.68|<0.001
82406023|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.08|0.39|||ANCOVA|||Day 14/early termination analysis||0.39|-0.08|
82406024|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.22|0.26|||ANCOVA|||Day 14/early termination analysis||0.26|-0.22|
82406025|NCT00549549|164520067|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.36|0.12|||ANCOVA|||Day 14/early termination analysis||0.12|-0.36|
82406026|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6402|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.6402
82406027|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9739|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.9739
82406028|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4581|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4581
82531353|NCT05462652|164760004|SUPERIORITY||Difference in proportion z-test|20.1|||<|0.001|TWO_SIDED|95.0|9.1|31.0|||Chi-squared|||"Missing values imputed with multiple imputation.~P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test."||31.0|9.1|<0.001
82531354|NCT05462652|164760005|SUPERIORITY||Difference in proportions z-test|15.4||||0.003|TWO_SIDED|95.0|5.3|25.6|||Chi-squared|||P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test.||25.6|5.3|0.003
82531355|NCT05462652|164760006|SUPERIORITY||Difference in proportion z-test|24.7|||<|0.001|TWO_SIDED|95.0|13.0|36.4|||Chi-squared|||Missing values imputed with multiple imputation. P-values are obtained from a Pearson Chi-Squared test; differences and 95% CIs are obtained from a difference in proportions Z- test.||36.4|13.0|<0.001
82531356|NCT01744496|164760021|SUPERIORITY_OR_OTHER||Least Square Mean|-0.76|STANDARD_ERROR_OF_MEAN|0.55||0.172|TWO_SIDED|95.0|-1.87|0.34|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.34|-1.87|0.172
82531357|NCT01744496|164760023|SUPERIORITY_OR_OTHER||Least Square Mean|-8.01|STANDARD_ERROR_OF_MEAN|3.77||0.038|TWO_SIDED|95.0|-15.56|-0.46|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||-0.46|-15.56|0.038
82531358|NCT01744496|164760024|SUPERIORITY_OR_OTHER||Least Square Mean|-1.02|STANDARD_ERROR_OF_MEAN|0.87||0.247|TWO_SIDED|95.0|-2.76|0.73|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.73|-2.76|0.247
82531359|NCT01744496|164760025|SUPERIORITY_OR_OTHER||Least Square Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.64||0.371|TWO_SIDED|95.0|-1.85|0.7|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||0.70|-1.85|0.371
82531360|NCT01744496|164760026|SUPERIORITY_OR_OTHER||Least Square Mean|-2.82|STANDARD_ERROR_OF_MEAN|2.97||0.346|TWO_SIDED|95.0|-8.76|3.13|||ANCOVA|ANCOVA model for the change from Baseline to the End of Treatment containing treatment and region as factors and Baseline value as a covariate.||||3.13|-8.76|0.346
82531361|NCT03537261|164760028|SUPERIORITY||Mean Difference (Net)|5.8||||0.11|TWO_SIDED|95.0|-1.4|13.1|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||13.1|-1.4|0.11
82531362|NCT03537261|164760029|SUPERIORITY||Mean Difference (Net)|-2.2||||0.4|TWO_SIDED|95.0|-7.4|3.0|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||3.0|-7.4|0.40
82531363|NCT03537261|164760030|SUPERIORITY||Mean Difference (Net)|0.6||||0.72|TWO_SIDED|95.0|-2.9|4.2|||Regression, Linear|Repeated measures linear regression controlling for score at screening visit|(P-CPI training change) - (waitlist change)|||4.2|-2.9|0.72
82531364|NCT00479037|164760031|SUPERIORITY_OR_OTHER||Mean Difference (Net)|360.3|||<|0.0001|TWO_SIDED|95.0|256.5|494.3||P-values corresponding to the tests of treatment effect for the primary endpoints were adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||494.3|256.5|<0.0001
82406029|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2962|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.2962
82406030|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4951|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4951
82406031|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4957|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4957
82406032|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8364|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.8364
82406033|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6892|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.6892
82406034|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.411|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4110
82406035|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5981|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.5981
82406036|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9317|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.9317
82406037|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0831|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0831
82406038|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5747|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.5747
82406039|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6204|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.6204
82406040|NCT00549549|164520068|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2556|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analysis||||0.2556
82406041|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1444|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1444
82406042|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7532|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.7532
82406043|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4722|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.4722
82531365|NCT00479037|164760032|SUPERIORITY_OR_OTHER||Mean Difference (Net)|92.9|||<|0.0001|TWO_SIDED|95.0|63.8|127.1||P-values corresponding to the tests of treatment effect for the primary endpoints were adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||127.1|63.8|<0.0001
82531366|NCT00479037|164760033|SUPERIORITY_OR_OTHER||Mean Difference (Net)|138.5|||<|0.0001|TWO_SIDED|95.0|94.8|191.8||P-value corresponding to the tests of treatment effect was adjusted using the Hochberg procedure.|ANCOVA|||The bone marker values were log-transformed for the primary analysis as they were heavily skewed. Changes in log-transformed bone marker values were analyzed using an analysis of covariance (ANCOVA) with treatment and center as fixed effects and the baseline bone marker value as a covariate. An F-test was used to test the effect of treatment and the least square means were computed to assess the clinical difference between treatment groups.||191.8|94.8|<0.0001
82646467|NCT02625207|165007381|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|85.85||||0.1369|TWO_SIDED|90.0|72.48|101.68|||Mixed Models Analysis|||||101.68|72.48|0.1369
82406044|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3878|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.3878
82446226|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||20.83|TWO_SIDED|95.0|0.86|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.86|20.83
82446227|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||87.6|TWO_SIDED|95.0|0.96|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.96|87.60
82446228|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||7.9|TWO_SIDED|95.0|0.84|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.84|7.90
82446229|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||23.39|TWO_SIDED|95.0|0.87|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.87|23.39
82446230|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||76.16|TWO_SIDED|95.0|0.95|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.95|76.16
82446231|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||22.54|TWO_SIDED|95.0|0.87|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.87|22.54
82446232|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||58.17|TWO_SIDED|95.0|0.91|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.91|58.17
82446233|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||6.22|TWO_SIDED|95.0|0.76|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.76|6.22
82406045|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6717|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 5 analyses||||0.6717
82646468|NCT02625207|165007381|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|63.38|||<|0.0001|TWO_SIDED|90.0|53.51|75.07|||Mixed Models Analysis|||||75.07|53.51|< 0.0001
82406046|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3098|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.3098
82531367|NCT01177813|164760034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-0.9|-0.57||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, and baseline HbA1c as linear covariate||-0.57|-0.90|<0.0001
82646469|NCT02625207|165007381|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|73.83||||0.0036|TWO_SIDED|90.0|62.57|87.13|||Mixed Models Analysis|||||87.13|62.57|0.0036
82646470|NCT02625207|165007381|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|73.99||||0.0038|TWO_SIDED|90.0|62.7|87.31|||Mixed Models Analysis|||||87.31|62.70|0.0038
82406047|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4356|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4356
82406048|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5703|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.5703
82406049|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4986|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.4986
82406050|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7855|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 9 analyses||||0.7855
82406051|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0169|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0169
82406052|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1353|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.1353
82646471|NCT02625207|165007382|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|82.59||||0.0531|TWO_SIDED|90.0|70.33|96.98|||Mixed Models Analysis|||||96.98|70.33|0.0531
82646472|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|137.07||||0.0106|TWO_SIDED|90.0|112.4|167.15|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||167.15|112.40|0.0106
82531368|NCT01177813|164760034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|97.5|-1.01|-0.69||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, and baseline HbA1c as linear covariate||-0.69|-1.01|<0.0001
82646473|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|164.06||||0.0001|TWO_SIDED|90.0|134.54|200.06|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||200.06|134.54|0.0001
82646474|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|198.49|||<|0.0001|TWO_SIDED|90.0|162.77|242.05|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||242.05|162.77|< 0.0001
82646475|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|120.99||||0.1061|TWO_SIDED|90.0|99.65|146.9|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||146.90|99.65|0.1061
82646476|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|272.07|||<|0.0001|TWO_SIDED|90.0|224.08|330.33|||Mixed Models Analysis|||Statistical analysis of PF -6857639 was estimated and reported.||330.33|224.08|<0.0001
82646477|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|110.22||||0.3081|TWO_SIDED|90.0|94.05|129.18|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||129.18|94.05|0.3081
82406053|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.369|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.3690
82406054|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0787|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.0787
82406055|NCT00549549|164520069|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5687|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Day 14/Early Termination analyses||||0.5687
82406056|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular), region and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||-0.10|-0.60|
82406057|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.75|-0.25|||ANCOVA|||Day 1 analyses||-0.25|-0.75|
82646478|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|101.71||||0.8583|TWO_SIDED|90.0|86.79|119.2|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||119.20|86.79|0.8583
82646479|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|108.52||||0.3913|TWO_SIDED|90.0|92.6|127.17|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||127.17|92.60|0.3913
82646480|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|106.69||||0.4866|TWO_SIDED|90.0|91.36|124.6|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||124.60|91.36|0.4866
82646481|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|119.61||||0.059|TWO_SIDED|90.0|102.42|139.69|||Mixed Models Analysis|||Statistical analysis of PF -6857640 was estimated and reported.||139.69|102.42|0.0590
82406058|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.29|0.78|||ANCOVA|||Day 1 analyses||0.78|0.29|
82406059|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.06|0.44|||ANCOVA|||Day 1 analyses||0.44|-0.06|
82531369|NCT01177813|164760035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|97.5|-2.48|-1.38||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region,and renal function at baseline as fixed effects,baseline body weight and baseline HbA1c as linear covariate||-1.38|-2.48|<0.0001
82646482|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.7||||0.9816|TWO_SIDED|90.0|80.47|123.53|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||123.53|80.47|0.9816
82646483|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|105.12||||0.6974|TWO_SIDED|90.0|84.84|130.24|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||130.24|84.84|0.6974
82646484|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|101.03||||0.9363|TWO_SIDED|90.0|81.54|125.18|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||125.18|81.54|0.9363
82646485|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|96.11||||0.752|TWO_SIDED|90.0|77.94|118.52|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||118.52|77.94|0.7520
82646486|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|100.73||||0.9536|TWO_SIDED|90.0|81.69|124.22|||Mixed Models Analysis|||Statistical analysis of PF -06927572 was estimated and reported.||124.22|81.69|0.9536
82646487|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|97.6||||0.8241|TWO_SIDED|90.0|81.28|117.18|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||117.18|81.28|0.8241
82646488|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|118.5||||0.1261|TWO_SIDED|90.0|98.69|142.28|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||142.28|98.69|0.1261
82646489|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.6||||0.9708|TWO_SIDED|90.0|82.95|119.59|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||119.59|82.95|0.9708
82646490|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|84.05||||0.1099|TWO_SIDED|90.0|70.29|100.52|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||100.52|70.29|0.1099
82646491|NCT02625207|165007383|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|97.21||||0.7913|TWO_SIDED|90.0|81.29|116.25|||Mixed Models Analysis|||Statistical analysis of PF -06927573 was estimated and reported.||116.25|81.29|0.7913
82406060|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.21|0.28|||ANCOVA|||Day 1 analyses||0.28|-0.21|
82406061|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.52|0.04|||ANCOVA|||Day 2 analyses||0.04|-0.52|
82406062|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.74|-0.18|||ANCOVA|||Day 2 analyses||-0.18|-0.74|
82406063|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.84|||ANCOVA|||Day 2 analyses||0.84|0.29|
82406064|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.05|0.6|||ANCOVA|||Day 2 analyses||0.60|0.05|
82406065|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.17|0.39|||ANCOVA|||Day 2 analyses||0.39|-0.17|
82406066|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.53|0.03|||ANCOVA|||Day 3 analyses||0.03|-0.53|
82406067|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.83|-0.26|||ANCOVA|||Day 3 analyses||-0.26|-0.83|
82406068|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.32|0.88|||ANCOVA|||Day 3 analyses||0.88|0.32|
82406069|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.08|0.64|||ANCOVA|||Day 3 analyses||0.64|0.08|
82406070|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.22|0.34|||ANCOVA|||Day 3 analyses||0.34|-0.22|
82406071|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.56|0.0|||ANCOVA|||Day 4 analyses||-0.00|-0.56|
82406072|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.28|||ANCOVA|||Day 4 analyses||-0.28|-0.84|
82531370|NCT01177813|164760035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.7|-1.6||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||Model was adjusted for treatment,geographical region,and renal function at baseline as fixed effects,baseline body weight and baseline HbA1c as linear covariate||-1.60|-2.70|<0.0001
82406073|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.35|0.9|||ANCOVA|||Day 4 analyses||0.90|0.35|
82406074|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.07|0.62|||ANCOVA|||Day 4 analyses||0.62|0.07|
82406075|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.21|0.34|||ANCOVA|||Day 4 analyses||0.34|-0.21|
82406076|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA|||Day 5 analyses||-0.07|-0.64|
82406077|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.94|-0.38|||ANCOVA|||Day 5 analyses||-0.38|-0.94|
82406078|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.37|0.93|||ANCOVA|||Day 5 analyses||0.93|0.37|
82531371|NCT01177813|164760036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.1||0.0231|TWO_SIDED|97.5|-5.2|0.0||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||"Comparison for Systolic Blood Pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline SBP and baseline HbA1c as linear covariate"||0.0|-5.2|0.0231
82406079|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.02|0.57|||ANCOVA|||Day 5 analyses||0.57|0.02|
82406080|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.29|0.27|||ANCOVA|||Day 5 analyses||0.27|-0.29|
82406081|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.65|-0.1|||ANCOVA|||Day 6 analyses||-0.10|-0.65|
82406082|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.29|||ANCOVA|||Day 6 analyses||-0.29|-0.84|
82406083|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.29|0.83|||ANCOVA|||Day 6 analyses||0.83|0.29|
82406084|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.08|0.46|||ANCOVA|||Day 6 analyses||0.46|-0.08|
82406085|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.28|0.26|||ANCOVA|||Day 6 analyses||0.26|-0.28|
82406086|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.61|-0.04|||ANCOVA|||Day 7 analyses||-0.04|-0.61|
82406087|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.92|-0.34|||ANCOVA|||Day 7 analyses||-0.34|-0.92|
82406088|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.21|0.78|||ANCOVA|||Day 7 analyses||0.78|0.21|
82406089|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.11|0.45|||ANCOVA|||Day 7 analyses||0.45|-0.11|
82406090|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.42|0.15|||ANCOVA|||Day 7 analyses||0.15|-0.42|
82406091|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.57|0.0|||ANCOVA|||Day 8 analyses||-0.00|-0.57|
82406092|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.84|-0.27|||ANCOVA|||Day 8 analyses||-0.27|-0.84|
82406093|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.14|0.7|||ANCOVA|||Day 8 analyses||0.70|0.14|
82406094|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.15|0.41|||ANCOVA|||Day 8 analyses||0.41|-0.15|
82406095|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.42|0.14|||ANCOVA|||Day 8 analyses||0.14|-0.42|
82406096|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.61|-0.02|||ANCOVA|||Day 9 analyses||-0.02|-0.61|
82406097|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.82|-0.23|||ANCOVA|||Day 9 analyses||-0.23|-0.82|
82406098|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.18|0.76|||ANCOVA|||Day 9 analyses||0.76|0.18|
82406099|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.13|0.44|||ANCOVA|||Day 9 analyses||0.44|-0.13|
82406100|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.35|0.23|||ANCOVA|||Day 9 analyses||0.23|-0.35|
82406101|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.59|0.01|||ANCOVA|||Day 10 analyses||0.01|-0.59|
82406102|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.76|-0.16|||ANCOVA|||Day 10 analyses||-0.16|-0.76|
82406103|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.1|0.69|||ANCOVA|||Day 10 analyses||0.69|0.10|
82406104|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.18|0.41|||ANCOVA|||Day 10 analyses||0.41|-0.18|
82406105|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.36|0.23|||ANCOVA|||Day 10 analyses||0.23|-0.36|
82406106|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.56|0.05|||ANCOVA|||Day 11 analyses||0.05|-0.56|
82406107|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.77|-0.17|||ANCOVA|||Day 11 analyses||-0.17|-0.77|
82406108|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|0.1|0.69|||ANCOVA|||Day 11 analyses||0.69|0.10|
82406109|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.16|0.44|||ANCOVA|||Day 11 analyses||0.44|-0.16|
82406110|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.37|0.23|||ANCOVA|||Day 11 analyses||0.23|-0.37|
82406111|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||Day 12 analyses||0.09|-0.53|
82406112|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.77|-0.15|||ANCOVA|||Day 12 analyses||-0.15|-0.77|
82406113|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.04|0.57|||ANCOVA|||Day 12 analyses||0.57|-0.04|
82406114|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-0.25|0.36|||ANCOVA|||Day 12 analyses||0.36|-0.25|
82406115|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.5|0.11|||ANCOVA|||Day 12 analyses||0.11|-0.50|
82406116|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.56|0.07|||ANCOVA|||Day 13/Early Termination analyses||0.07|-0.56|
82406117|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.81|-0.19|||ANCOVA|||Day 13/Early Termination analyses||-0.19|-0.81|
82406118|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.1|0.51|||ANCOVA|||Day 13/Early Termination analyses||0.51|-0.10|
82406119|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.35|0.26|||ANCOVA|||Day 13/Early Termination analyses||0.26|-0.35|
82406120|NCT00549549|164520070|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.6|0.01|||ANCOVA|||Day 13/Early Termination analyses||0.01|-0.60|
82406121|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.28|0.14|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.14|-0.28|
82406122|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.39|0.03|||ANCOVA|||Day 1, 2 hours postdose||0.03|-0.39|
82406123|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.11|0.52|||ANCOVA|||Day 1, 2 hours postdose||0.52|0.11|
82406124|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.04|0.45|||ANCOVA|||Day 1, 2 hours postdose||0.45|0.04|
82406125|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.08|0.34|||ANCOVA|||Day 1, 2 hours postdose||0.34|-0.08|
82406126|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.37|0.08|||ANCOVA|||Day 1, 4 hours postdose||0.08|-0.37|
82406127|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.48|-0.03|||ANCOVA|||Day 1, 4 hours postdose||-0.03|-0.48|
82406128|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.14|0.58|||ANCOVA|||Day 1, 4 hours postdose||0.58|0.14|
82406129|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.0|0.44|||ANCOVA|||Day 1, 4 hours postdose||0.44|0.00|
82406130|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.11|0.34|||ANCOVA|||Day 1, 4 hours postdose||0.34|-0.11|
82406131|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.32|0.17|||ANCOVA|||Day 1, 8 hours postdose||0.17|-0.32|
82406132|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.56|-0.06|||ANCOVA|||Day 1, 8 hours postdose||-0.06|-0.56|
82426019|NCT00285779|164560726|OTHER|||||||0.86|||||||Paired t test|||Week 24 versus baseline||||0.86
82406133|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.18|0.67|||ANCOVA|||Day 1, 8 hours postdose||0.67|0.18|
82406134|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.11|0.59|||ANCOVA|||Day 1, 8 hours postdose||0.59|0.11|
82406135|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.13|0.36|||ANCOVA|||Day 1, 8 hours postdose||0.36|-0.13|
82406136|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.42|0.1|||ANCOVA|||Day 1, 12 hours postdose||0.10|-0.42|
82406137|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.63|-0.11|||ANCOVA|||Day 1, 12 hours postdose||-0.11|-0.63|
82406138|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.19|0.7|||ANCOVA|||Day 1, 12 hours postdose||0.70|0.19|
82406139|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.03|0.55|||ANCOVA|||Day 1, 12 hours postdose||0.55|0.03|
82406140|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.18|0.34|||ANCOVA|||Day 1, 12 hours postdose||0.34|-0.18|
82406141|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.46|0.07|||ANCOVA|||Day 2, 0 hours postdose||0.07|-0.46|
82406142|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.57|-0.04|||ANCOVA|||Day 2, 0 hours postdose||-0.04|-0.57|
82406143|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.16|0.68|||ANCOVA|||Day 2, 0 hours postdose||0.68|0.16|
82446234|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||55.85|TWO_SIDED|95.0|0.88|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.88|55.85
82406144|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.04|0.49|||ANCOVA|||Day 2, 0 hours postdose||0.49|-0.04|
82406145|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.15|0.38|||ANCOVA|||Day 2, 0 hours postdose||0.38|-0.15|
82406146|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.4|0.14|||ANCOVA|||Day 2, 8 hours postdose||0.14|-0.40|
82531372|NCT01177813|164760036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.0028|TWO_SIDED|97.5|-6.0|-0.9||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||"Comparison for Systolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline SBP and baseline HbA1c as linear covariate"||-0.9|-6.0|0.0028
82406147|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.59|-0.05|||ANCOVA|||Day 2, 8 hours postdose||-0.05|-0.59|
82406148|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.2|0.74|||ANCOVA|||Day 2, 8 hours postdose||0.74|0.20|
82406149|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.08|0.61|||ANCOVA|||Day 2, 8 hours postdose||0.61|0.08|
82406150|NCT00549549|164520071|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.11|0.42|||ANCOVA|||Day 2, 8 hours postdose||0.42|-0.11|
82406151|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.09|0.27|||ANCOVA|||8 hour postdose analysis. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.27|-0.09|
82406152|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.04|0.4|||ANCOVA|||8 hour postdose analysis||0.40|0.04|
82406153|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.5|-0.14|||ANCOVA|||8 hour postdose analysis||-0.14|-0.50|
82406154|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.41|-0.05|||ANCOVA|||8 hour postdose analysis||-0.05|-0.41|
82406155|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.28|0.08|||ANCOVA|||8 hour postdose analysis||0.08|-0.28|
82406156|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.1|0.29|||ANCOVA|||12 hour postdose analysis||0.29|-0.10|
82406157|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.06|0.45|||ANCOVA|||12 hour postdose analysis||0.45|0.06|
82406158|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.55|-0.16|||ANCOVA|||12 hour postdose analysis||-0.16|-0.55|
82406159|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.45|-0.07|||ANCOVA|||12 hour postdose analysis||-0.07|-0.45|
82406160|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.29|0.09|||ANCOVA|||12 hour postdose analysis||0.09|-0.29|
82406161|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.08|0.35|||ANCOVA|||24 hour postdose analysis||0.35|-0.08|
82406162|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|0.08|0.51|||ANCOVA|||24 hour postdose analysis||0.51|0.08|
82646492|NCT02625207|165007384|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|116.65||||0.1338|TWO_SIDED|90.0|98.47|138.18|||Mixed Models Analysis|||||138.18|98.47|0.1338
82406163|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.61|-0.18|||ANCOVA|||24 hour postdose analysis||-0.18|-0.61|
82406164|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.47|-0.05|||ANCOVA|||24 hour postdose analysis||-0.05|-0.47|
82406165|NCT00549549|164520072|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.32|0.11|||ANCOVA|||24 hour postdose analysis||0.11|-0.32|
82406166|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0459|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses. The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||||0.0459
82406167|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0017
82406168|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0001
82406169|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.0410
82406170|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5592|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=30% reduction analyses||||0.5592
82406171|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0277|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0277
82406172|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0018
82406173|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||<.0001
82406174|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.0394
82406175|NCT00549549|164520073|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4603|TWO_SIDED||||||Cochran-Mantel-Haenszel|||\>=50% reduction analyses||||0.4603
82406176|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5528|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5528
82646493|NCT02625207|165007384|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|85.84||||0.137|TWO_SIDED|90.0|72.46|101.68|||Mixed Models Analysis|||||101.68|72.46|0.1370
82406177|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1779
82406178|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1754|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1754
82406179|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3384|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on Day 1. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.3384
82406180|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5005
82406181|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0845|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0845
82406182|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0213|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0213
82406183|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1231|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1231
82406184|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6636|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during treatment. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.6636
82406185|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5378|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.5378
82406186|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0818
82406187|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0317|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.0317
82406188|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1592|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.1592
82406189|NCT00549549|164520076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7956|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Withdrawal on any time during study. Pairwise p-values are presented, calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1 or \>1\]) and region.||||0.7956
82426020|NCT00285779|164560727|OTHER|||||||0.033|||||||Paired t test|||Week 12 versus baseline||||0.033
82426021|NCT00285779|164560727|OTHER|||||||0.069|||||||Paired t test|||Week 12 versus baseline||||0.069
82426022|NCT00285779|164560727|OTHER|||||||0.015|||||||Paired t test|||Week 24 versus baseline||||0.015
82426023|NCT00285779|164560727|OTHER|||||||0.026|||||||Paired t test|||Week 24 versus baseline||||0.026
82406190|NCT00549549|164520077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.17|0.31|||ANCOVA|||The analysis was conducted using analysis of covariance (ANCOVA) with randomization stratum (2 levels: monoarticular or oligoarticular) and treatment group as factors, and the Patient's Assessment of Pain Intensity at Baseline as a covariate.||0.31|-0.17|
82531373|NCT01177813|164760036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.3987|TWO_SIDED|97.5|-2.1|0.9||Difference calculated as empagliflozin 10mg minus placebo|ANCOVA|||"Comparison for diastolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline DBP and baseline HbA1c as linear covariate"||0.9|-2.1|0.3987
82406191|NCT00549549|164520077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.02|0.46|||ANCOVA|||||0.46|-0.02|
82406192|NCT00549549|164520077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||||-0.02|-0.50|
82406193|NCT00549549|164520077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.43|0.05|||ANCOVA|||||0.05|-0.43|
82406194|NCT00549549|164520077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.28|0.19|||ANCOVA|||||0.19|-0.28|
82406195|NCT00549549|164520078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.3173
82406196|NCT00549549|164520079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4724|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.4724
82406197|NCT00549549|164520079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7316|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.7316
82406198|NCT00549549|164520079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7316|TWO_SIDED||||||Cochran-Mantel-Haenszel|||p-value calculated using Cochran-Mantel-Haenszel statistics, stratified by number of affected joints \[1; \>1\], and region.||||0.7316
82406199|NCT04010461|164520081|SUPERIORITY||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.097|=|0.11|TWO_SIDED|95.0|-0.037|0.355|||t-test, 2 sided|df = 35 Note: 1 subject was excluded from analysis as extraction of FPN eigenvalues failed due to technical deficiencies with image data||Analysis used standard, open-source methods for pre-processing . First-level analysis used the general framework of the modified General Linear Model, implemented in SPM12 with temporal convolution. For the n-back activation task, the first-level design matrix included regressors for 2-back and 1-back conditions, as well as 24 movement parameters. Statistical testing was done to establish whether more or less BOLD (neural activity) change occurred between two conditions.||0.355|-0.037|=0.11
82406200|NCT04010461|164520081|SUPERIORITY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.116||0.94|TWO_SIDED|95.0|-0.245|0.227|||t-test, 2 sided|df = 35 Note: 1 subject excluded from analysis as FPN extraction of eigenvalues failed due to technical issues with image data||Analysis used standard, open-source routes for slice timing correction, field map correction, realignment, smoothing (6 mm Gaussian kernel) and spatial normalization (MNI-152). First-level analysis used the general framework of the modified General Linear Model, implemented in SPM12 with temporal convolution. For the n-back activation task, the first-level design matrix included regressors for 2-back and 1-back conditions, as well as 24 movement parameters.||0.227|-0.245|0.94
82406201|NCT04010461|164520082|OTHER|Group-level analyses were performed using a General Linear Model (GLM). For each individual voxel, a separate GLM was estimated, with first-level connectivity measures at this voxel as dependent variables, and groups or other subject-level identifiers as independent variables. Voxel-level hypotheses were evaluated using multivariate parametric statistics with random effects across subjects and sample covariance estimation across multiple measurements.|random field theory|0.0||||1|TWO_SIDED|||||Inferences were performed at the level of individual clusters (groups of contiguous voxels). Cluster-level inferences were based on parametric statistics from Gaussian Random Field theory.|random field theory|Results were thresholded using a combination of a cluster-forming p \< 0.001 voxel-level threshold, and cluster-size threshold of 25 voxels|Number indicates the number of clusters above the threshold of significance for the contrast between two arms (passive vs active)|The contrast reflects the difference in connectivity between the conditions/sessions, at the level of each subject, then spatially averaged across all subjects. Functional connectivity strength for the dlPFC seed was represented by Fisher-transformed bivariate correlation coefficients from a weighted general linear model (weighted-GLM), defined separately for each pair of seed and target areas, modeling the association between their BOLD signal time series.||||1
82406202|NCT04010461|164520082|OTHER|The applied test with random field theory uses a metric of spatial dispersion, testing against the null hypothesis that spatial clusters of difference across the analyzed region are no different from chance clustering.|random field theory|0.0||||1|TWO_SIDED||||||random field theory||Number indicates the number of clusters above the threshold of significance for the contrast between two arms (passive vs control)|Results were thresholded using a combination of a cluster-forming p \< 0.001 voxel-level threshold, and a corrected false discovery rate (FDR) p \< 0.05 cluster-size threshold.||||1
82406203|NCT04010461|164520083|SUPERIORITY||F-ratio|0.1||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
82406204|NCT04010461|164520084|SUPERIORITY|||||||0.55|||||||ANOVA|||||||0.55
82406205|NCT04010461|164520084|SUPERIORITY|||||||0.65|||||||ANOVA|||||||.65
82406206|NCT04010461|164520085|OTHER||cluster size|42.0||||0.54|TWO_SIDED|||||P-value above represents the lowest (most significant) value of the largest cluster, for the contrast of Passive \> Active, testing whether the cluster size is greater than chance.|random field theory||The estimated parameter is the size, in voxels, of the largest cluster. The applied test with random field theory tests whether the size of cluster difference across are no different from chance clustering.|Statistical thresholding using a random field model adjusted for multiple comparisons, with initial voxel magnitude/height threshold set at p \< 0.001 and peak and cluster-corrected significance levels obtained (false discovery rate \[FDR\]corrected), across the entire brain.||||0.54
82646494|NCT02625207|165007384|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|63.34|||<|0.0001|TWO_SIDED|90.0|53.47|75.04|||Mixed Models Analysis|||||75.04|53.47|< 0.0001
82646495|NCT02625207|165007384|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|73.79||||0.0036|TWO_SIDED|90.0|62.53|87.09|||Mixed Models Analysis|||||87.09|62.53|0.0036
82406207|NCT04010461|164520085|SUPERIORITY||cluster size|16.0||||0.93|TWO_SIDED|||||P-value above represents the lowest (most significant) value of the largest cluster, for the contrast of Passive \> Control, testing whether the size of this cluster is greater than one would expect by chance alone.|random field theory||The estimated parameter is the size, in voxels, of the largest cluster. The applied test with random field theory tests whether the size of cluster difference across are no different from chance clustering.|Statistical thresholding using a random field model adjusted for multiple comparisons, with initial voxel magnitude/height threshold set at p \< 0.001 and peak and cluster-corrected significance levels obtained (false discovery rate \[FDR\]corrected), across the entire brain..||||0.93
82406208|NCT04010461|164520086|SUPERIORITY||F-ratio|0.22||||0.8|TWO_SIDED||||||ANOVA|||Repeated measures ANOVA to test for differences in cerebral blood flow (perfusion) in the frontoparietal network||||0.8
82406209|NCT04010461|164520087|SUPERIORITY||F-ratio|3.96||||0.06|TWO_SIDED||||||ANOVA|||||||0.06
82576285|NCT02209181|164862057|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.53|-1.11||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-1.11|-3.53|<0.001
82406210|NCT04010461|164520087|SUPERIORITY||F-ratio|0.17||||0.68|TWO_SIDED||||||ANOVA|||||||0.68
82406211|NCT04010461|164520088|SUPERIORITY|Repeated measures ANOVA for 1- and 2-back conditions|F-ratio|0.72||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
82406212|NCT04010461|164520088|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.50
82406213|NCT02227784|164520089|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.48|||<|0.001|TWO_SIDED|95.0|-44.4|-23.3|||ANCOVA|||||-23.3|-44.4|<0.001
82406214|NCT02227784|164520089|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-27.24|||<|0.001|TWO_SIDED|95.0|-36.6|-18.5|||ANCOVA|||||-18.5|-36.6|<0.001
82406215|NCT02227784|164520089|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.14||||0.045|TWO_SIDED|95.0|-12.2|-0.22|||ANCOVA|||||-0.22|-12.2|0.045
82406216|NCT02227784|164520090|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|125.28|||<|0.001|TWO_SIDED|95.0|117.1|133.6|||Mixed Models Analysis|||||133.6|117.1|<0.001
82406217|NCT02227784|164520090|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|131.48|||<|0.001|TWO_SIDED|95.0|123.5|139.5|||Mixed Models Analysis|||||139.5|123.5|<0.001
82406218|NCT02227784|164520090|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|127.57|||<|0.001|TWO_SIDED|95.0|120.1|135.0|||Mixed Models Analysis|||||135.0|120.1|<0.001
82406219|NCT02227784|164520091|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|46.35|||<|0.001|TWO_SIDED|95.0|40.79|51.98|||ANCOVA|||||51.98|40.79|<0.001
82406220|NCT02227784|164520091|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|52.22|||<|0.001|TWO_SIDED|95.0|47.12|57.33|||ANCOVA|||||57.33|47.12|<0.001
82406221|NCT02227784|164520091|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|48.44|||<|0.001|TWO_SIDED|95.0|43.82|52.86|||ANCOVA|||||52.86|43.82|<0.001
82406222|NCT02227784|164520092|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-26.47|||<|0.001|TWO_SIDED|95.0|-33.4|-20.0|||Mixed Models Analysis|||||-20.0|-33.4|<0.001
82406223|NCT02227784|164520092|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-22.02|||<|0.001|TWO_SIDED|95.0|-28.4|-15.9|||Mixed Models Analysis|||||-15.9|-28.4|<0.001
82406224|NCT02227784|164520092|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-7.05|||<|0.001|TWO_SIDED|95.0|-11.5|-2.68|||Mixed Models Analysis|||||-2.68|-11.5|<0.001
82406225|NCT02227784|164520093|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-23.16|||<|0.001|TWO_SIDED|95.0|-30.0|-16.5|||ANCOVA|||||-16.5|-30.00|<0.001
82406226|NCT02227784|164520093|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-16.42|||<|0.001|TWO_SIDED|95.0|-22.3|-10.6|||ANCOVA|||||-10.6|-22.3|<0.001
82406227|NCT02227784|164520093|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-4.11||||0.062|TWO_SIDED|95.0|-8.47|0.15|||ANCOVA|||||0.15|-8.47|0.062
82646496|NCT02625207|165007384|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|73.89||||0.0037|TWO_SIDED|90.0|62.61|87.2|||Mixed Models Analysis|||||87.20|62.61|0.0037
82406228|NCT02227784|164520094|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|38.05|||<|0.001|TWO_SIDED|95.0|30.17|45.88|||ANCOVA|||||45.88|30.17|<0.001
82406229|NCT02227784|164520094|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|42.12|||<|0.001|TWO_SIDED|95.0|34.29|49.76|||ANCOVA|||||49.76|34.29|<0.001
82406230|NCT02227784|164520094|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|39.64|||<|0.001|TWO_SIDED|95.0|33.2|46.08|||ANCOVA|||||46.08|33.20|<0.001
82406231|NCT02227784|164520095|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-33.18|||<|0.001|TWO_SIDED|95.0|-44.9|-22.3|||ANCOVA|||||-22.3|-44.9|<0.001
82406232|NCT02227784|164520095|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-32.63|||<|0.001|TWO_SIDED|95.0|-44.0|-21.8|||ANCOVA|||||-21.8|-44.0|<0.001
82406233|NCT02227784|164520095|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-42.15|||<|0.001|TWO_SIDED|95.0|-50.9|-33.4|||ANCOVA|||||-33.4|-50.9|<0.001
82406234|NCT02688933|164520128|SUPERIORITY||Least Square mean difference|0.22|STANDARD_ERROR_OF_MEAN|1.15||0.8494|TWO_SIDED|||||Threshold for significance at 0.05 level.|Generalized linear model|Generalized linear model with identity link||Analysis was performed using generalized linear model with identity link, had percentage of time glucose concentration within target range 70-180 mg/dL as dependent variable, treatment group as an independent variable, adjusting variables including baseline characteristics: duration of diabetes, baseline BMI, age, and randomization strata (HbA1c at screening \[\<8.0% vs ≥8.0%\], frequency of Lantus injection at screening, current CGM use \[yes/no\], and mealtime insulin titration algorithm).||||0.8494
82406235|NCT04622969|164520141|SUPERIORITY||Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|5.157|<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
82406236|NCT04622969|164520143|SUPERIORITY||Mean Difference (Net)|7.12|STANDARD_ERROR_OF_MEAN|12.05|=|0.56|TWO_SIDED||||||Mixed Models Analysis|||||||=0.56
82406237|NCT04622969|164520147|SUPERIORITY||Mean Difference (Net)|0.0015|STANDARD_ERROR_OF_MEAN|0.145|=|0.99|TWO_SIDED||||||Mixed Models Analysis|||||||=0.99
82406238|NCT04622969|164520149|SUPERIORITY||Mean Difference (Net)|-0.264|STANDARD_ERROR_OF_MEAN|0.121|<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
82406239|NCT04622969|164520151|SUPERIORITY||Mean Difference (Net)|-5.573|STANDARD_ERROR_OF_MEAN|1.802|<|0.01|TWO_SIDED||||||ANCOVA|||||||<.01
82406240|NCT04622969|164520153|SUPERIORITY||Mean Difference (Net)|3.509|STANDARD_ERROR_OF_MEAN|1.842|=|0.062|TWO_SIDED||||||ANCOVA|||||||=.062
82406241|NCT04622969|164520153|SUPERIORITY||Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.17|=|0.78|TWO_SIDED||||||Mixed Models Analysis|||||||=0.78
82406242|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-14.5|||<|0.001|TWO_SIDED|95.0|-18.0|-11.0|||ANCOVA|||Bima 30mg/kg + Sema 2.4mg vs Placebo||-11.0|-18.0|<0.001
82406243|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-10.5|||<|0.001|TWO_SIDED|95.0|-14.0|-7.09|||ANCOVA|||Bima 30mg/kg + Sema 1.0mg vs Placebo||-7.09|-14.0|<0.001
82406244|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-11.0|||<|0.001|TWO_SIDED|95.0|-14.4|-7.55|||ANCOVA|||Bima 10mg/kg + Sema 2.4mg vs Placebo||-7.55|-14.4|<0.001
82446235|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.44|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|25.44
82406245|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-9.41|||<|0.001|TWO_SIDED|95.0|-12.9|-5.93|||ANCOVA|||Bima 10mg/kg + Sema 1.0mg vs Placebo||-5.93|-12.9|<.001
82406246|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-10.9|||<|0.001|TWO_SIDED|95.0|-14.4|-7.46|||ANCOVA|||Sema 2.4mg vs Placebo||-7.46|-14.4|<0.001
82406247|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-6.45|||<|0.001|TWO_SIDED|95.0|-9.96|-2.94|||ANCOVA|||Sema 1.0mg vs Placebo||-2.94|-9.96|<0.001
82406248|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-5.94|||<|0.001|TWO_SIDED|95.0|-9.47|-2.41|||ANCOVA|||Bima 30mg/kg vs Placebo||-2.41|-9.47|<0.001
82406249|NCT05616013|164520154|SUPERIORITY||LS Mean Change difference|-2.68||||0.133|TWO_SIDED|95.0|-6.18|0.82|||ANCOVA|||Bima 10mg/kg vs Placebo||0.82|-6.18|0.133
82406250|NCT05116202|164520195|SUPERIORITY||Difference in pRR|2.73|||||TWO_SIDED|95.0|-22.25|27.7||||||||27.70|-22.25|
82406251|NCT05116202|164520195|SUPERIORITY||Difference in pRR|-32.27|||||TWO_SIDED|95.0|-65.01|0.46||||||||0.46|-65.01|
82406252|NCT05116202|164520195|SUPERIORITY||Difference in pRR|-17.27|||||TWO_SIDED|95.0|-49.75|15.21||||||||15.21|-49.75|
82406253|NCT05116202|164520197|SUPERIORITY||Difference in pRR|-6.82|||||TWO_SIDED|95.0|-31.31|17.68||||||||17.68|-31.31|
82406254|NCT05116202|164520197|SUPERIORITY||Difference in pRR|-31.82|||||TWO_SIDED|95.0|-63.79|0.16||||||||0.16|-63.79|
82646497|NCT02625207|165007385|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|82.42||||0.0507|TWO_SIDED|90.0|70.2|96.77|||Mixed Models Analysis|||||96.77|70.20|0.0507
82406255|NCT05116202|164520197|SUPERIORITY||Difference in pRR|-21.82|||||TWO_SIDED|95.0|-53.44|9.8||||||||9.80|-53.44|
82406256|NCT05116202|164520198|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|0.42|10.42||||||||10.42|0.42|
82406257|NCT05116202|164520198|SUPERIORITY||Hazard Ratio (HR)|3.95|||||TWO_SIDED|95.0|0.79|19.7||||||||19.70|0.79|
82406258|NCT05116202|164520198|SUPERIORITY||Hazard Ratio (HR)|6.27|||||TWO_SIDED|95.0|0.73|53.7||||||||53.70|0.73|
82406259|NCT05116202|164520199|SUPERIORITY||Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.25|7.75||||||||7.75|0.25|
82406260|NCT05116202|164520199|SUPERIORITY||Hazard Ratio (HR)|2.09|||||TWO_SIDED|95.0|0.35|12.62||||||||12.62|0.35|
82406261|NCT05116202|164520199|SUPERIORITY||Hazard Ratio (HR)|2.39|||||TWO_SIDED|95.0|0.22|26.32||||||||26.32|0.22|
82406262|NCT05116202|164520200|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.05|12.39||||||||12.39|0.05|
82406263|NCT05116202|164520200|SUPERIORITY||Hazard Ratio (HR)|2.59|||||TWO_SIDED|95.0|0.23|28.65||||||||28.65|0.23|
82406264|NCT05116202|164520200|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.07|18.58||||||||18.58|0.07|
82406265|NCT05116202|164520201|SUPERIORITY||Difference in ORR|-21.59|||||TWO_SIDED|95.0|-50.55|7.37||||||||7.37|-50.55|
82406266|NCT05116202|164520201|SUPERIORITY||Difference in ORR|-24.09|||||TWO_SIDED|95.0|-58.17|9.99||||||||9.99|-58.17|
82406267|NCT05116202|164520201|SUPERIORITY||Difference in ORR|0.91|||||TWO_SIDED|95.0|-33.58|35.4||||||||35.40|-33.58|
82406268|NCT04391842|164520221|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82406269|NCT04391842|164520222|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82406270|NCT00810199|164520223|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.2055|TWO_SIDED|95.0|0.882|1.799||Cochran-Mantel-Haenszel test stratified by region and baseline DAS28 (≤5.5 and \>5.5).|Cochran-Mantel-Haenszel|||||1.799|0.882|0.2055
82406271|NCT00810199|164520223|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.1894|TWO_SIDED|95.0|0.889|1.814||Logistic regression including treatment , region and baseline DAS28.|Regression, Logistic|Odds ratio is for Tocilizumab + Methotrexate relative to Tocilizumab + Placebo.||||1.814|0.889|0.1894
82406272|NCT00810199|164520224|SUPERIORITY_OR_OTHER|||||||0.8742||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.8742
82406273|NCT00810199|164520224|SUPERIORITY_OR_OTHER|||||||0.6212||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.6212
82406274|NCT00810199|164520224|SUPERIORITY_OR_OTHER|||||||0.0963||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.0963
82406275|NCT00810199|164520225|SUPERIORITY_OR_OTHER|||||||0.2969||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.2969
82406276|NCT00810199|164520225|SUPERIORITY_OR_OTHER|||||||0.2215||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.2215
82406277|NCT00810199|164520225|SUPERIORITY_OR_OTHER|||||||0.1243||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.1243
82406278|NCT00810199|164520226|SUPERIORITY_OR_OTHER|||||||0.6775||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.6775
82406279|NCT00810199|164520226|SUPERIORITY_OR_OTHER|||||||0.9976||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.9976
82406280|NCT00810199|164520226|SUPERIORITY_OR_OTHER|||||||0.2168||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.2168
82531374|NCT01177813|164760036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.7||0.0296|TWO_SIDED|97.5|-3.0|0.0||Difference calculated as empagliflozin 25mg minus placebo|ANCOVA|||"Comparison for diastolic blood pressure~Model was adjusted for treatment,geographical region, and renal function at baseline as fixed effects, baseline DBP and baseline HbA1c as linear covariate"||0.0|-3.0|0.0296
82646498|NCT02625207|165007386|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|118.19||||0.1997|TWO_SIDED|90.0|95.26|146.63|||Mixed Models Analysis|||||146.63|95.26|0.1997
82646499|NCT02625207|165007386|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|87.28||||0.2947|TWO_SIDED|90.0|70.34|108.28|||Mixed Models Analysis|||||108.28|70.34|0.2947
82406281|NCT00810199|164520227|SUPERIORITY_OR_OTHER|||||||0.8369||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.8369
82406282|NCT00810199|164520227|SUPERIORITY_OR_OTHER|||||||0.6528||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.6528
82406283|NCT00810199|164520227|SUPERIORITY_OR_OTHER|||||||0.2546||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 104||||0.2546
82406284|NCT00810199|164520228|SUPERIORITY_OR_OTHER|||||||0.1018|||||||Log Rank|||||||0.1018
82406285|NCT00810199|164520229|SUPERIORITY_OR_OTHER|||||||0.7176|||||||Log Rank|||||||0.7176
82406286|NCT00810199|164520230|SUPERIORITY_OR_OTHER|||||||0.8526|||||||Log Rank|||||||0.8526
82406287|NCT00810199|164520231|SUPERIORITY_OR_OTHER|||||||0.2217|||||||Log Rank|||||||0.2217
82406288|NCT00810199|164520232|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0008|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|Baseline DAS28 as a covariate.||||-0.11|-0.41|0.0008
82406289|NCT00810199|164520233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0245|TWO_SIDED|95.0|1.053|2.109|||Regression, Logistic|Logistic regression including treatment, region and baseline DAS28.|Odds ratio is for Tocilizumab + Methotrexate relative to Tocilizumab + Placebo.|||2.109|1.053|0.0245
82406290|NCT00810199|164520233|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.482||||0.0258||95.0|1.048|2.095||Stratified by region and baseline DAS28 (≤ 5.5 and \> 5.5).|Cochran-Mantel-Haenszel|||||2.095|1.048|0.0258
82406291|NCT00810199|164520234|SUPERIORITY_OR_OTHER|||||||0.0287||95.0|||||Wald Chi-square|Asymptotic test; parameter estimate is zero.||Week 24||||0.0287
82406292|NCT00810199|164520234|SUPERIORITY_OR_OTHER|||||||0.224|||||||Wald Chi-square|Asymptotic test; parameter estimate is zero.||Week 52||||0.2240
82406293|NCT00810199|164520235|SUPERIORITY_OR_OTHER|||||||0.0497||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.0497
82406294|NCT00810199|164520235|SUPERIORITY_OR_OTHER|||||||0.3918|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.3918
82406295|NCT00810199|164520236|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 24||||0.0019
82406296|NCT00810199|164520236|SUPERIORITY_OR_OTHER|||||||0.1181|||||||Cochran-Mantel-Haenszel|Region and baseline DAS28 (≤5.5 and \>5.5) included as stratification variables.||Week 52||||0.1181
82406297|NCT00810199|164520237|SUPERIORITY_OR_OTHER|||||||0.7776||||||P-value is from a 2-sided, Wilcoxon rank-sum test of no difference between the 2 treatment groups in change from baseline.|Wilcoxon (Mann-Whitney)|||Week 24||||0.7776
82406298|NCT00810199|164520237|SUPERIORITY_OR_OTHER|||||||0.8843|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.8843
82406299|NCT00810199|164520238|SUPERIORITY_OR_OTHER|||||||0.9095||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9095
82406300|NCT00810199|164520238|SUPERIORITY_OR_OTHER|||||||0.7179|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.7179
82646500|NCT02625207|165007386|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|61.23||||0.0004|TWO_SIDED|90.0|49.35|75.97|||Mixed Models Analysis|||||75.97|49.35|0.0004
82646501|NCT02625207|165007386|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|70.16||||0.0071|TWO_SIDED|90.0|56.81|86.63|||Mixed Models Analysis|||||86.63|56.81|0.0071
82646502|NCT02625207|165007386|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|72.37||||0.0135|TWO_SIDED|90.0|58.6|89.36|||Mixed Models Analysis|||||89.36|58.60|0.0135
82406301|NCT00810199|164520239|SUPERIORITY_OR_OTHER|||||||0.3113||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.3113
82406302|NCT00810199|164520239|SUPERIORITY_OR_OTHER|||||||0.2931||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.2931
82406303|NCT00810199|164520240|SUPERIORITY_OR_OTHER|||||||0.2451||95.0||||P-value is from a 2-sided, Wilcoxon rank-sum test of no difference between the 2 treatment groups in change from baseline.|Wilcoxon (Mann-Whitney)|||Week 24||||0.2451
82406304|NCT00810199|164520240|SUPERIORITY_OR_OTHER|||||||0.8841||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.8841
82406305|NCT00810199|164520241|SUPERIORITY_OR_OTHER|||||||0.9655||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9655
82406306|NCT00810199|164520241|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.0308
82406307|NCT00810199|164520242|SUPERIORITY_OR_OTHER|||||||0.5186||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.5186
82406308|NCT00810199|164520242|SUPERIORITY_OR_OTHER|||||||0.7706||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.7706
82406309|NCT00810199|164520243|SUPERIORITY_OR_OTHER|||||||0.6067||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.6067
82406310|NCT00810199|164520243|SUPERIORITY_OR_OTHER|||||||0.681||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.6810
82406311|NCT00810199|164520244|SUPERIORITY_OR_OTHER|||||||0.9323||95.0|||||Wilcoxon (Mann-Whitney)|||Week 24||||0.9323
82406312|NCT00810199|164520244|SUPERIORITY_OR_OTHER|||||||0.1448||95.0|||||Wilcoxon (Mann-Whitney)|||Week 52||||0.1448
82406313|NCT00810199|164520245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.2034|TWO_SIDED|95.0|-0.43|0.09||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||0.09|-0.43|0.2034
82406314|NCT00810199|164520245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.3611|TWO_SIDED|95.0|-0.88|0.32||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||0.32|-0.88|0.3611
82406315|NCT00810199|164520245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0342|TWO_SIDED|95.0|-1.16|-0.05||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||-0.05|-1.16|0.0342
82646503|NCT02625207|165007387|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|68.32||||0.0505|TWO_SIDED|90.0|49.81|93.71|||Mixed Models Analysis|||||93.71|49.81|0.0505
82646504|NCT02625207|165007388|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|94.83||||0.6761|TWO_SIDED|90.0|76.7|117.24|||Mixed Models Analysis|||||117.24|76.70|0.6761
82531375|NCT00267111|164760092|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Statistical analyses were performed using SPSS v12, USA). Pain scores were compared between groups by means of the Student t-test. A p-value of \< 0.05 was considered significant.|t-test, 2 sided|||We hypothesized that topical amethocaine gel 4% would reduce the pain from IM injection. The sample size was based on the pain scores obtained from a previous study that compared pain response during IM injection. To achieve a clinically significant reduction in pain scores by 20% between groups with 80% power and an alpha value of \< 0.05, we estimated sample size of 49 neonates in each group. A total of 110 neonates were enrolled to account for possible dropouts and missing data.||||< 0.05
82531376|NCT00267111|164760093|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Statistical analyses were performed using SPSS v12, USA). Pain scores were compared between groups by means of the Student t-test. A p-value of \< 0.05 was considered significant|t-test, 2 sided|||We hypothesized that parents and nurses will report lower pain scores as assessed by visual analogue scale in topical amethocaine gel 4% compared to placebo group. This was a secondary outcome and no power calculation was performed.||||<0.05
82406316|NCT00810199|164520246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7095|TWO_SIDED|95.0|-0.23|0.16||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||0.16|-0.23|0.7095
82406317|NCT00810199|164520246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.8147|TWO_SIDED|95.0|-0.45|0.57||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||0.57|-0.45|0.8147
82406318|NCT00810199|164520246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0778|TWO_SIDED|95.0|-0.67|0.04||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||0.04|-0.67|0.0778
82406319|NCT00810199|164520247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0441|TWO_SIDED|95.0|-0.25|0.0||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 24||-0.00|-0.25|0.0441
82406320|NCT00810199|164520247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0012|TWO_SIDED|95.0|-0.54|-0.13||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 52||-0.13|-0.54|0.0012
82406321|NCT00810199|164520247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0372|TWO_SIDED|95.0|-0.56|-0.02||Baseline x-ray and DAS28 as covariates and treatment group and region as fixed effects.|ANCOVA|||Week 104||-0.02|-0.56|0.0372
82406322|NCT00810199|164520248|SUPERIORITY_OR_OTHER||Difference|6.75||||0.0694|TWO_SIDED|95.0|-1.02|14.52|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||Week 52||14.52|-1.02|0.0694
82406323|NCT00810199|164520248|SUPERIORITY_OR_OTHER|||||||0.1695|TWO_SIDED||||||Log Rank|||Week 104||||0.1695
82406324|NCT00810199|164520249|SUPERIORITY_OR_OTHER||Difference|-2.91||||0.0496||95.0|-5.86|0.05|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||||0.05|-5.86|0.0496
82406325|NCT00810199|164520250|SUPERIORITY_OR_OTHER||Difference|-1.48||||0.5188|TWO_SIDED|95.0|-6.59|3.62|||Cochran-Mantel-Haenszel|Stratified by region and categorical baseline DAS28 (≤ 5.5 and \> 5.5).||||3.62|-6.59|0.5188
82531377|NCT02001974|164760112|OTHER|||||||0.0341|||||||ANOVA|||DF1681Y Cmax at Day -3||||0.0341
82531378|NCT02001974|164760112|OTHER|||||||0.0636|||||||ANOVA|||DF1681Y Cmax at Day -3||||0.0636
82531379|NCT02001974|164760112|OTHER|||||||0.0487|||||||ANOVA|||DF1681Y Cmax at Day 1||||0.0487
82406326|NCT00810199|164520251|SUPERIORITY_OR_OTHER|||||||0.2652|||||||Wilcoxon (Mann-Whitney)|||Week 24||||0.2652
82406327|NCT00810199|164520251|SUPERIORITY_OR_OTHER|||||||0.197|||||||Wilcoxon (Mann-Whitney)|||Week 52||||0.1970
82406328|NCT00810199|164520251|SUPERIORITY_OR_OTHER|||||||0.1671|||||||Wilcoxon (Mann-Whitney)|||||||0.1671
82406329|NCT00810199|164520253|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Wald CI)|5.22||||0.111|TWO_SIDED|95.0|-1.2|11.64|||ANCOVA|The analysis of covariance model included treatment group, region and baseline DAS28 (≤ 5.5 and \> 5.5) as fixed factors.||||11.64|-1.20|0.1110
82406330|NCT00810199|164520254|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Wald CI)|-2.11||||0.6027|TWO_SIDED|95.0|-10.07|5.85|||ANCOVA|The analysis of covariance model included treatment group, region and baseline DAS28 (≤ 5.5 and \> 5.5) as fixed factors.||||5.85|-10.07|0.6027
82406331|NCT00810199|164520255|SUPERIORITY_OR_OTHER|||||||0.1695|||||||Log Rank|||||||0.1695
82406332|NCT00810199|164520256|SUPERIORITY_OR_OTHER|||||||0.0096|||||||Log Rank|||||||0.0096
82406333|NCT00810199|164520257|SUPERIORITY_OR_OTHER|||||||0.0734|||||||Log Rank|||||||0.0734
82406334|NCT02864407|164520277|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406335|NCT02864407|164520278|OTHER||||||<|0.0001||||||p-value for difference of Week 52 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406336|NCT02864407|164520279|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406337|NCT02864407|164520280|OTHER||||||<|0.0001||||||p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406338|NCT02864407|164520281|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.||||||<0.0001
82406339|NCT02864407|164520282|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.||||||<0.0001
82406340|NCT02864407|164520283|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 24 (±2weeks) versus Baseline.||||||<0.0001
82406341|NCT02864407|164520284|OTHER||||||<|0.0001|||||||Paired t-test|p-value for difference of Follow-up Week 52 (±2weeks) versus Baseline.||||||<0.0001
82406342|NCT02864407|164520285|OTHER||||||<|0.0001||||||p-value for difference of Week 24 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406343|NCT02864407|164520286|OTHER||||||<|0.0001||||||p-value for difference of 52±2 weeks versus Baseline.|Paired t-test|||||||<0.0001
82406344|NCT02864407|164520287|OTHER||||||<|0.0001||||||p-value for difference of Week 24 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406345|NCT02864407|164520288|OTHER||||||<|0.0001||||||p-value for difference of Week 52 (±2 weeks) versus Baseline.|Paired t-test|||||||<0.0001
82406346|NCT02731300|164520318|SUPERIORITY_OR_OTHER||||||<|0.05||||||the final Week 4 values compared between active tDCS and sham tDCS groups|ANOVA|||the final Week 4 values compared between active tDCS and sham tDCS groups||||<0.05
82531380|NCT02001974|164760112|OTHER|||||||0.3498|||||||ANOVA|||DF1681Y Cmax at Day 1||||0.3498
82531381|NCT02001974|164760112|OTHER|||||||0.0096|||||||ANOVA|||DF1681Y Cmax at Day 8||||0.0096
82531382|NCT02001974|164760112|OTHER|||||||0.1374|||||||ANOVA|||DF1681Y Cmax at Day 8||||0.1374
82531383|NCT02001974|164760112|OTHER|||||||0.0065|||||||ANOVA|||DF1681Y Cmax at Day 21||||0.0065
82576286|NCT02209181|164862057|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.62||0.407|TWO_SIDED|95.0|-0.71|1.74||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.74|-0.71|0.407
82406347|NCT02731300|164520319|SUPERIORITY_OR_OTHER||||||<|0.05||||||the final Week 4 values compared between active tDCS and sham tDCS groups|ANOVA|||the final Week 4 values compared between active tDCS and sham tDCS groups||||<0.05
82406348|NCT02713178|164520320|SUPERIORITY||LSMD|-20.249||||0.4463|TWO_SIDED|95.0|-72.361|31.864|||ANOVA|||||31.864|-72.361|0.4463
82406349|NCT02713178|164520320|SUPERIORITY||LSMD|-28.796||||0.2749|TWO_SIDED|95.0|-80.483|22.892|||ANOVA|||||22.892|-80.483|0.2749
82446236|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||18.15|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal;Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|18.15
82446237|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||8.12|TWO_SIDED|95.0|0.82|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.82|8.12
82446238|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||57.39|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|57.39
82531384|NCT02001974|164760112|OTHER|||||||0.147|||||||ANOVA|||DF1681Y Cmax at Day 21||||0.1470
82531385|NCT02001974|164760113|OTHER|||||||0.0015|||||||ANOVA|||DF2243 Cmax at Day -3||||0.0015
82531386|NCT02001974|164760113|OTHER|||||||0.0176|||||||ANOVA|||DF2243 Cmax at Day -3||||0.0176
82531387|NCT02001974|164760113|OTHER|||||||0.0048|||||||ANOVA|||DF2243 Cmax at Day 1||||0.0048
82646505|NCT02625207|165007388|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|105.43||||0.6771||90.0|85.28|130.35|||Mixed Models Analysis|||||130.35|85.28|0.6771
82406350|NCT02713178|164520321|SUPERIORITY||LSM treatment ratio|0.853||||0.0716|TWO_SIDED|95.0|0.717|1.014|||ANOVA|||||1.014|0.717|0.0716
82406351|NCT02713178|164520321|SUPERIORITY||LSM treatment ratio|0.913||||0.3004|TWO_SIDED|95.0|0.769|1.084|||ANOVA|||||1.084|0.769|0.3004
82406352|NCT02713178|164520323|SUPERIORITY|||||||0.1896|||||||Log Rank|||The overall distribution as estimated by the Kaplan-Meier analysis was compared between the EXPAREL arm and the placebo arm.||||0.1896
82406353|NCT02713178|164520323|SUPERIORITY|||||||0.2549|||||||Log Rank|||The overall distribution as estimated by the Kaplan-Meier analysis was compared between the EXPAREL arm and the placebo arm.||||0.2549
82446239|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||10|TWO_SIDED|95.0|0.93|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.93|10.00
82446240|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||29.88|TWO_SIDED|95.0|0.95|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.95|29.88
82531388|NCT02001974|164760113|OTHER|||||||0.2083|||||||ANOVA|||DF2243 Cmax at Day 1||||0.2083
82531389|NCT02001974|164760113|OTHER|||||||0.0111|||||||ANOVA|||DF2243 Cmax at Day 8||||0.0111
82531390|NCT02001974|164760113|OTHER|||||||0.1441|||||||ANOVA|||DF2243 Cmax at Day 8||||0.1441
82531391|NCT02001974|164760113|OTHER|||||||0.0283|||||||ANOVA|||DF2243 Cmax at Day 21||||0.0283
82531392|NCT02001974|164760113|OTHER|||||||0.1331|||||||ANOVA|||DF2243 Cmax at Day 21||||0.1331
82531393|NCT02001974|164760114|OTHER|||||||0.0097|||||||ANOVA|||DF2188Y, Cmax, Day -3||||0.0097
82531394|NCT02001974|164760114|OTHER|||||||0.0354|||||||ANOVA|||DF2188Y, Cmax, Day -3||||0.0354
82531395|NCT02001974|164760114|OTHER|||||||0.02|||||||ANOVA|||DF2188Y, Cmax, Day 1||||0.0200
82531396|NCT02001974|164760114|OTHER|||||||0.2134|||||||ANOVA|||DF2188Y, Cmax, Day 1||||0.2134
82531397|NCT02001974|164760114|OTHER|||||||0.0235|||||||ANOVA|||DF2188Y, Cmax, Day 8||||0.0235
82531398|NCT02001974|164760114|OTHER|||||||0.0964|||||||ANOVA|||DF2188Y, Cmax, Day 8||||0.0964
82531399|NCT02001974|164760114|OTHER|||||||0.0314|||||||ANOVA|||DF2188Y, Cmax, Day 21||||0.0314
82531400|NCT02001974|164760114|OTHER|||||||0.0773|||||||ANOVA|||DF2188Y, Cmax, Day 21||||0.0773
82531401|NCT02001974|164760115|OTHER|||||||0.1016|||||||ANOVA|||Cmax, ibuprofen, Day -3||||0.1016
82531402|NCT02001974|164760115|OTHER|||||||0.2001|||||||ANOVA|||Cmax, ibuprofen, Day -3||||0.2001
82531403|NCT02001974|164760115|OTHER|||||||0.0802|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.0802
82531404|NCT02001974|164760115|OTHER|||||||0.4728|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.4728
82531405|NCT02001974|164760115|OTHER|||||||0.0355|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.0355
82531406|NCT02001974|164760115|OTHER|||||||0.1709|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.1709
82406354|NCT00791219|164520345|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|6.47|||||ONE_SIDED|95.0|-1.77||||||||||-1.77|
82446241|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||12.63|TWO_SIDED|95.0|0.89|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.89|12.63
82446242|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||32.29|TWO_SIDED|95.0|0.91|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD28 The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.91|32.29
82446243|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||69.92|TWO_SIDED|95.0|0.95|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.95|69.92
82446244|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||6.1|TWO_SIDED|95.0|0.84|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.84|6.10
82531407|NCT02001974|164760115|OTHER|||||||0.0685|||||||ANOVA|||Cmax, ibuprofen, Day 21||||0.0685
82531408|NCT02001974|164760115|OTHER|||||||0.3189|||||||ANOVA|||Cmax, ibuprofen, Day 21||||0.3189
82531409|NCT02001974|164760116|OTHER|||||||0.2375|||||||ANOVA|||Paclitaxel, Cmax, Day 1||||0.2375
82446245|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||33.63|TWO_SIDED|95.0|0.89|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.89|33.63
82446246|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||86.07|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|86.07
82446247|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||41.38|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|41.38
82446248|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||24.88|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|24.88
82446249|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||29.89|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|29.89
82531410|NCT02001974|164760116|OTHER|||||||0.3608|||||||ANOVA|||Cmax, ibuprofen, Day 1||||0.3608
82531411|NCT02001974|164760116|OTHER|||||||0.0442|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.0442
82531412|NCT02001974|164760116|OTHER|||||||0.1067|||||||ANOVA|||Cmax, ibuprofen, Day 8||||0.1067
82531413|NCT02001974|164760122|OTHER|||||||0.0134|||||||ANOVA|||DF1681Y, AUC0-8, Day -3||||0.0134
82531414|NCT02001974|164760122|OTHER|||||||0.0799|||||||ANOVA|||DF1681Y, AUC0-8, Day -3||||0.0799
82531415|NCT02001974|164760122|OTHER|||||||0.0241|||||||ANOVA|||DF1681Y, AUC0-8, Day 1||||0.0241
82531416|NCT02001974|164760122|OTHER|||||||0.01384|||||||ANOVA|||DF1681Y, AUC0-8, Day 1||||0.01384
82531417|NCT02001974|164760122|OTHER|||||||0.0091|||||||ANOVA|||DF1681Y, AUC0-8, Day 8||||0.0091
82531418|NCT02001974|164760122|OTHER|||||||0.5687|||||||ANOVA|||DF1681Y, AUC0-8, Day 8||||0.5687
82531419|NCT02001974|164760122|OTHER|||||||0.0058|||||||ANOVA|||DF1681Y, AUC0-8, Day 21||||0.0058
82446250|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||7.13|TWO_SIDED|95.0|0.87|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.87|7.13
82446251|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||32.91|TWO_SIDED|95.0|0.9|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.90|32.91
82446252|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||81.15|TWO_SIDED|95.0|0.96|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.96|81.15
82446253|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||21.87|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|21.87
82531420|NCT02001974|164760122|OTHER|||||||0.3667|||||||ANOVA|||DF1681Y, AUC0-8, Day 21||||0.3667
82406355|NCT00791219|164520345|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
82531421|NCT02001974|164760123|OTHER|||||||0.0029|||||||ANOVA|||DF2243Y - AUC0-8 - Day -3||||0.0029
82531422|NCT02001974|164760123|OTHER|||||||0.0349|||||||ANOVA|||DF2243Y - AUC0-8 - Day -3||||0.0349
82426024|NCT01334918|164560745|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Predefined noninferiority criterion: If the lower boundary of the 95% CI was within 0.15 of 0.78, MDCT would be determined to be noninferior to SPECT.|Agreement rate|0.87|STANDARD_ERROR_OF_MEAN|0.051|||TWO_SIDED|95.0|0.77|0.97||||||Analysis of agreement rate based on participants with 0 -1 and ≥ 2 reversible defects according to SPECT. Agreement is defined as the proportion of participants who had the same status from SPECT and MDCT, averaged across those with 2 or more reversible defects and those without, where SPECT is the reference standard.||0.97|0.77|
82426025|NCT01334918|164560750|SUPERIORITY_OR_OTHER_LEGACY||Specificity|0.95|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|0.9|0.99||||||Analysis of specificity based on participants with no fixed defects according to SPECT. Specificity is defined as a proportion of true negatives that are correctly identified, using SPECT as the reference standard.||0.99|0.90|
82446254|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||24.49|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|24.49
82446255|NCT02294734|164600911|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||55.52|TWO_SIDED|95.0|0.97|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.97|55.52
82446256|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||59.55|TWO_SIDED|95.0|0.84|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|(FRC; Longitudinal; Lobes; RUL; D12, The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.84|59.55
82446257|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.18||||94.01|TWO_SIDED|95.0|0.96|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|(FRC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.96|94.01
82531423|NCT02001974|164760123|OTHER|||||||0.0119|||||||ANOVA|||DF2243Y - AUC0-8 - Day 1||||0.0119
82531424|NCT02001974|164760123|OTHER|||||||0.21|||||||ANOVA|||DF2243Y - AUC0-8 - Day 1||||0.2100
82531425|NCT02001974|164760123|OTHER|||||||0.0165|||||||ANOVA|||DF2243Y - AUC0-8 - Day 8||||0.0165
82531426|NCT02001974|164760123|OTHER|||||||0.1496|||||||ANOVA|||DF2243Y - AUC0-8 - Day 8||||0.1496
82531427|NCT02001974|164760123|OTHER|||||||0.0321|||||||ANOVA|||DF2243Y - AUC0-8 - Day 21||||0.0321
82531428|NCT02001974|164760123|OTHER|||||||0.1404|||||||ANOVA|||DF2243Y - AUC0-8 - Day 21||||0.1404
82531429|NCT02001974|164760124|OTHER|||||||0.0081|||||||ANOVA|||AUC0-8 for DF2188Y, Day -3||||0.0081
82531430|NCT02001974|164760124|OTHER|||||||0.064|||||||ANOVA|||AUC0-8 for DF2188Y, Day -3||||0.0640
82531431|NCT02001974|164760124|OTHER|||||||0.0397|||||||ANOVA|||AUC0-8 for DF2188Y, Day 1||||0.0397
82531432|NCT02001974|164760124|OTHER|||||||0.1898|||||||ANOVA|||AUC0-8 for DF2188Y, Day 1||||0.1898
82531433|NCT02001974|164760124|OTHER|||||||0.025|||||||ANOVA|||AUC0-8 for DF2188Y, Day 8||||0.0250
82531434|NCT02001974|164760124|OTHER|||||||0.1605|||||||ANOVA|||AUC0-8 for DF2188Y, Day 8||||0.1605
82531435|NCT02001974|164760124|OTHER|||||||0.0786|||||||ANOVA|||AUC0-8 for DF2188Y, Day 21||||0.0786
82531436|NCT02001974|164760124|OTHER|||||||0.2652|||||||ANOVA|||AUC0-8 for DF2188Y, Day 21||||0.2652
82531437|NCT02001974|164760125|OTHER|||||||0.1335|||||||ANOVA|||Ibuprofen, AUC0-8, Day -3||||0.1335
82531438|NCT02001974|164760125|OTHER|||||||0.2658|||||||ANOVA|||Ibuprofen, AUC0-8, Day -3||||0.2658
82406356|NCT00791219|164520346|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|10.38|||||ONE_SIDED|95.0|0.92|||||||To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|||0.92|
82426026|NCT01334918|164560750|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|0.77|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|95.0|0.54|1.0||||||Analysis of sensitivity based on participants with ≥ 1 fixed defect according to SPECT. Sensitivity is the proportion of true positives that are correctly identified using SPECT as the reference standard.||1.00|0.54|
82426027|NCT02410772|164560986|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|1.0||||0.05|TWO_SIDED|95.0|-2.6|4.5||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||4.5|-2.6|0.05
82426028|NCT02410772|164560986|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|3.0||||0.05|TWO_SIDED|95.0|-0.6|6.6|||Cochran-Mantel-Haenszel|For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||6.6|-0.6|0.05
82426029|NCT02410772|164560987|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|2.0||||0.05|TWO_SIDED|95.0|-1.1|5.1||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||5.1|-1.1|0.05
82531439|NCT02001974|164760125|OTHER|||||||0.1063|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.1063
82531440|NCT02001974|164760125|OTHER|||||||0.4959|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.4959
82531441|NCT02001974|164760125|OTHER|||||||0.0452|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.0452
82531442|NCT02001974|164760125|OTHER|||||||0.2223|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.2223
82531443|NCT02001974|164760125|OTHER|||||||0.0737|||||||ANOVA|||Ibuprofen, AUC0-8, Day 21||||0.0737
82531444|NCT02001974|164760125|OTHER|||||||0.2804|||||||ANOVA|||Ibuprofen, AUC0-8, Day21||||0.2804
82531445|NCT02001974|164760126|OTHER|||||||0.1449|||||||ANOVA|||Paclitaxel, AUC0-8, Day 1||||0.1449
82531446|NCT02001974|164760126|OTHER|||||||0.1338|||||||ANOVA|||Ibuprofen, AUC0-8, Day 1||||0.1338
82531447|NCT02001974|164760126|OTHER|||||||0.0633|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.0633
82531448|NCT02001974|164760126|OTHER|||||||0.6939|||||||ANOVA|||Ibuprofen, AUC0-8, Day 8||||0.6939
82531449|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
82406357|NCT00791219|164520346|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
82406358|NCT00791219|164520347|NON_INFERIORITY|To demonstrate non-inferiority an upper bound 95% confidence interval approach comparing the difference between the cure rate in the Test and the Reference groups was used. If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure and Mycological Cure as appropriate, at Week 24 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|3.17|||||ONE_SIDED|95.0|-10.62||||||||||-10.62|
82406359|NCT00791219|164520347|SUPERIORITY||||||<|0.05|||||||one-sided continuity corrected Z-test|||The ITT was used for all superiority testing. For the three primary endpoints and all four secondary endpoints, if the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing||||<0.05
82406360|NCT00791219|164520350|NON_INFERIORITY|If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure or Mycological Cure as appropriate at Visit 7 was greater than -20 then non-inferiority was considered to have been demonstrated|-20|-0.57|||||ONE_SIDED|95.0|-12.91|||||||If the lower bound 95% confidence interval of the difference between the proportion of patients in the Test group compared to the Reference group considered a Therapeutic Cure, Clinical Cure or Mycological Cure as appropriate at Visit 7 was greater than -20 then non-inferiority was considered to have been demonstrated|||-12.91|
82406361|NCT00791219|164520351|SUPERIORITY||Mean Difference (Final Values)|0.0018|||<|0.05|TWO_SIDED|||||It the difference between the proportion of patients considered a cure was statistically greater (p\<0.05) than the proportion of patients considered a cure in the Placebo group, then superiority was considered to have been demonstrated.|A one-sided continuity corrected Z-test|||For the three primary endpoints and all four dichotomous secondary endpoints, if the difference between the proportion of patients considered a cure in the Test or Reference group was statistically greater (p \< 0.05) than the proportion of patients considered a cure in the Placebo group, then superiority of that treatment over placebo was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing.||||<0.05
82406362|NCT00791219|164520351|SUPERIORITY||Median Difference (Final Values)|0.0853|||<|0.05|TWO_SIDED||||||A one-sided continuity corrected Z-test|||For the three primary endpoints and all four dichotomous secondary endpoints, if the difference between the proportion of patients considered a cure in the Test or Reference group was statistically greater (p \< 0.05) than the proportion of patients considered a cure in the Placebo group, then superiority of that treatment over placebo was considered to have been demonstrated. A one-sided continuity corrected Z-test was used for superiority testing.||||<0.05
82406363|NCT02155985|164520352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.7|TWO_SIDED|95.0|-5.5|8.8||While there are co-primary comparisons, due to the pilot nature of the study, no adjustment to the 0.05 type I error was made.|t-test, 2 sided||Mean difference is the percent difference in mean fold changes = ((300 mg mean fold change / placebo mean fold change) - 1) \* 100.|Paired differences between the two aspirin arms and placebo were estimated in a single linear regression model using linear combinations of the estimated means.||8.8|-5.5|0.70
82406364|NCT02155985|164520352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.5||||0.14|TWO_SIDED|95.0|-1.7|13.3||While there are co-primary comparisons, due to the pilot nature of the study, no adjustment to the 0.05 type I error was made.|t-test, 2 sided||Mean difference is the percent difference in mean fold changes = ((100 mg mean fold change / placebo mean fold change) - 1) \* 100.|Paired differences between the two aspirin arms and placebo were estimated in a single linear regression model using linear combinations of the estimated means.||13.3|-1.7|0.14
82406365|NCT00078286|164520402|NON_INFERIORITY_OR_EQUIVALENCE|\*Power analysis already provided.|Difference in mean change score|-0.3||||0.89||95.0|||||Mixed Models Analysis|Significance was tested at p=.05.||A hierarchical mixed model was used, analyzing the fixed effects of treatment, the natural log of time, natural log of time squared, the interactions of time and time squared with treatment and site, as well as the random effects of patient, patient-by-time, and square of patient-by-time.||||0.89
82406366|NCT00078286|164520403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||0.78||95.0|||||Cochran-Mantel-Haenszel|||Tests for differences of proportions were used to examine the composite cardiovascular status outcome at the end of acute treatment. Chi-square tests were used to test for overall treatment differences, with a Mantel Haenszel test performed to examine treatment differences when controlling for clinical site. The primary analyses were conducted on the tri-level cardiovascular status outcome.||||.78
82406367|NCT04414787|164520414|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-6.21|6.21|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 3 (\~1 week post-randomization)||6.21|-6.21|1.00
82406368|NCT04414787|164520415|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.95|TWO_SIDED|95.0|-1.83|1.72|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||1.72|-1.83|0.95
82406369|NCT04414787|164520416|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.72|TWO_SIDED|95.0|-1.28|1.86|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||1.86|-1.28|0.72
82646506|NCT02625207|165007388|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|75.74||||0.0331|TWO_SIDED|90.0|61.26|93.64|||Mixed Models Analysis|||||93.64|61.26|0.0331
82531450|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
82646507|NCT02625207|165007388|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|71.84||||0.0104|TWO_SIDED|90.0|58.38|88.4|||Mixed Models Analysis|||||88.40|58.38|0.0104
82646508|NCT02625207|165007388|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|71.82||||0.0104|TWO_SIDED|90.0|58.37|88.39|||Mixed Models Analysis|||||88.39|58.37|0.0104
82531451|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
82531452|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
82531453|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
82646509|NCT02625207|165007389|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio|99.62||||0.9713|TWO_SIDED|90.0|83.07|119.45|||Mixed Models Analysis|||||119.45|83.07|0.9713
82406370|NCT04414787|164520417|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.48|TWO_SIDED|95.0|-2.44|5.14|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 4 (3 months post-randomization)||5.14|-2.44|0.48
82406371|NCT04414787|164520418|SUPERIORITY||Odds Ratio (OR)|0.49||||0.12|TWO_SIDED|95.0|0.2|1.2|||Mixed Models Analysis|||Difference between Time 1 (baseline) and Time 3 (target \~1 week post-randomization)||1.2|0.20|0.12
82646510|NCT02413879|165007438|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<0.001
82406372|NCT04414787|164520419|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
82406373|NCT04414787|164520420|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82406374|NCT04414787|164520421|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82406375|NCT00490919|164520422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.225||0.0104|TWO_SIDED|95.0|-1.02|-0.14|||Mixed Models Analysis|Mixed effects general linear model with repeated measures.|Double-blind analysis (comparison between BTDS and placebo TDS) at week 12 of the double-blind phase.|Missing average pain over the last 24 hours scores after treatment discontinuation were imputed using BOCF for adverse event-related withdrawals and LOCF for withdrawals due to other reasons.||-0.14|-1.02|.0104
82406376|NCT00490919|164520423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.124|STANDARD_ERROR_OF_MEAN|0.0874||0.1586|TWO_SIDED|95.0|-0.296|0.048||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holms methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||Mean comparison from weeks 2-12 of the double-blind phase.|||0.048|-0.296|.1586
82406377|NCT00490919|164520424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.605||0.0062|TWO_SIDED|95.0|-7.55|-1.25||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holms methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|Mixed effects general linear model with repeated measures.|Treatment comparison over Weeks 4, 8, and 12.|The primary comparison between groups was based on estimates and contrasts for the weeks 4, 8, and 12 mean values.||-1.25|-7.55|.0062
82406378|NCT01386606|164520431|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||P-value of treatment group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||||0.056
82406379|NCT01386606|164520431|SUPERIORITY_OR_OTHER||Regression Coefficient|-45.77||||0.436|TWO_SIDED|95.0|-143.5|51.98||P-value for Androxal 25 mg treatment group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||51.98|-143.5|0.436
82406380|NCT01386606|164520431|SUPERIORITY_OR_OTHER||Regression Coefficient|-110.9||||0.068|TWO_SIDED|95.0|-210.6|-11.23||P-value for Androxal 12.5 mg group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||-11.23|-210.6|0.068
82406381|NCT01386606|164520431|SUPERIORITY_OR_OTHER||Regression Coefficient|-148.5||||0.011|TWO_SIDED|95.0|-242.9|-54.05||P-value for Androxal 6.25 mg group.|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||-54.05|-242.9|0.011
82406382|NCT01386606|164520431|SUPERIORITY_OR_OTHER||Regression Coefficient|0.58|||<|0.001|TWO_SIDED|95.0|0.37|0.79||P-value for morning total testosterone (adjusted for treatment effect if treatment group is significant).|Regression, Linear|||"Regression of 24 Hours Average Total Testosterone, Treatment Group and Morning Testosterone at Week 6.~Modeling 24 hour average total testosterone by morning testosterone and treatment group."||0.79|0.37|<0.001
82406383|NCT01386606|164520432|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 2. Modeling change from baseline by treatment group.||||<0.001
82406384|NCT01386606|164520432|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 4. Modeling change from baseline by treatment group.||||<0.001
82406385|NCT01386606|164520432|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning LH at Week 6. Modeling change from baseline by treatment group.||||<0.001
82406386|NCT01386606|164520433|SUPERIORITY_OR_OTHER||Pearson Correlation|0.90993|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cavg at Week 6.||||<0.0001
82406387|NCT01386606|164520433|SUPERIORITY_OR_OTHER||Pearson Correlation|0.86541|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cmin at Week 6.||||<0.0001
82406388|NCT01386606|164520433|SUPERIORITY_OR_OTHER||Pearson Correlation|0.89643|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Pearson correlation between 9 am morning testosterone and serial testosterone Cmax at Week 6.||||<0.0001
82646511|NCT02413879|165007440|SUPERIORITY||||||<|0.001|||||||McNemar|||||||<0.001
82531454|NCT01380990|164760137|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of patients alive at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
82576287|NCT02209181|164862058|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.56|4.1||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.10|1.56|<0.001
82406389|NCT01386606|164520435|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 2. Modeling change from baseline by treatment group.||||<0.001
82406390|NCT01386606|164520435|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 4. Modeling change from baseline by treatment group.||||<0.001
82406391|NCT01386606|164520435|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value for treatment group effect.|ANOVA|||ANOVA results - change from baseline in morning FSH at Week 6. Modeling change from baseline by treatment group.||||<0.001
82406392|NCT01228591|164520442|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05logMAR.|Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.0059|||TWO_SIDED|95.0|-0.0044|0.0187|||Mixed Models Analysis||The mean difference is defined by: Test lens (Acuvue Advance Plus) - control lens (Acuvue Advance)|"For Low Luminance/ High Contrast grouping (Monocular):~Ho: The test lens (Acuvue Advance Plus) will be non-inferior to the control lens (Acuvue Advance).~Ha: The test lens (Acuvue Advance Plus) will be \<= to the control lens (Acuvue Advance)."||0.0187|-0.0044|
82406393|NCT01228591|164520442|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.0059|||TWO_SIDED|95.0|-0.0086|0.0146|||Mixed Models Analysis||The mean difference is defined by: Test lens (Acuvue Advance Plus) - control lens (Acuvue Advance)|"High Luminance/ Low Contrast grouping (Binocular):~Ho: The test lens (Acuvue Advance Plus) will be non-inferior to the control lens (Acuvue Advance).~Ha: The test lens (Acuvue Advance Plus) will be \<= to the control lens (Acuvue Advance)."||0.0146|-0.0086|
82406394|NCT01228591|164520443|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0061|||TWO_SIDED|95.0|0.0041|0.0282|||Mixed Models Analysis||Mean difference represents: Test lens (Advance Plus) - Control lens (Advance).|"For Low Luminance/ High Contrast Grouping (Monocular):~Ho: The test lens (Advance Plus) will be non-inferior to the control lens (Advance).~Ha: The test lens (Advance Plus) will be \<= to the control lens (Advance)."||0.0282|0.0041|
82531455|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
82576288|NCT02209181|164862058|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.64||0.17|TWO_SIDED|95.0|-0.38|2.14||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.14|-0.38|0.170
82406395|NCT01228591|164520443|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is assessed with a margin of -0.05 logMAR.|Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.009|0.3305|||Mixed Models Analysis||Mean Difference is defined to be: test lens (Advance Plus) - control lens (Advance).|"For High Luminance/ Low Contrast Grouping (Binocular):~Ho: The test lens (Advance Plus) will be non-inferior from the control lens (Advance).~Ha: The test lens (Advance Plus) will be \<= to the control lens (Advance)."||0.3305|0.0090|
82406396|NCT01095835|164520450|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|||||||0.08
82406397|NCT00643760|164520510|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.35||||0.295||95.0|-1.02|0.31||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.31|-1.02|0.295
82406398|NCT00643760|164520510|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.02||||0.946||95.0|-0.71|0.66||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with BMI, baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.66|-0.71|0.946
82406399|NCT00643760|164520510|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.55||||0.105||95.0|-1.1|0.01||This p-value has been adjusted for multiplicity using a combination of a sequential method and the Hochberg procedure in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with BMI, baseline 24-hour average pain intensity, and grouped center as covariates was used.||||0.01|-1.10|0.105
82406400|NCT00643760|164520510|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|0.43||||||95.0|-0.22|1.08||||||||1.08|-0.22|
82406401|NCT00789321|164520529|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.7||||0.001||90.0|-18.1|-5.4|||ANCOVA|Change from baseline in systolic blood pressure included as covariate||||-5.4|-18.1|0.001
82406402|NCT00789321|164520530|SUPERIORITY_OR_OTHER||Least Squares Mean|39.0||||0.001||95.0|17.9|60.1|||ANCOVA|Change from baseline in systolic blood pressure included as covariate||||60.1|17.9|0.001
82406403|NCT00104052|164520531|SUPERIORITY_OR_OTHER||Normal approximation to the binomial|0.654||||||95.0|0.564|0.744||||||||0.744|0.564|
82406404|NCT03652818|164520538|SUPERIORITY||Least Square (LS) Mean Difference|-25.2868|STANDARD_ERROR_OF_MEAN|16.1594|||ONE_SIDED|90.0||-4.421|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group B||-4.4210||
82406405|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|-0.2756|STANDARD_ERROR_OF_MEAN|16.3283|||ONE_SIDED|90.0||20.8083|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group C vs. Group B||20.8083||
82446258|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||82.27|TWO_SIDED|95.0|0.9|1.33||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D12, The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.33|0.90|82.27
82531456|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
82646512|NCT02499406|165007449|SUPERIORITY||||||>|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=14||Null hypothesis is that there is no difference between baseline assessment and this 3-month assessment.||||>0.016
82406406|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|-65.9241|STANDARD_ERROR_OF_MEAN|17.2146|||ONE_SIDED|90.0||-43.6959|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group C vs. Group A||-43.6959||
82406407|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|-65.6486|STANDARD_ERROR_OF_MEAN|16.8753|||ONE_SIDED|90.0||-43.8584|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group B vs. Group A||-43.8584||
82406408|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|-90.9353|STANDARD_ERROR_OF_MEAN|17.1044|||ONE_SIDED|90.0||-68.8494|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group A||-68.8494||
82406409|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|-25.0112|STANDARD_ERROR_OF_MEAN|16.5376|||ONE_SIDED|90.0||-3.6571|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group D vs. Group C||-3.6571||
82406410|NCT03652818|164520538|SUPERIORITY||LS Mean Difference|10.9546|STANDARD_ERROR_OF_MEAN|21.0237|||ONE_SIDED|90.0||38.1014|||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The lower limit of one-sided 90% CI was -∞|Group E vs. Group D||38.1014||
82406411|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|33.6821|STANDARD_ERROR_OF_MEAN|20.1209|||ONE_SIDED|90.0|7.7011||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group B|||7.7011|
82406412|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|6.1658|STANDARD_ERROR_OF_MEAN|20.3312|||ONE_SIDED|90.0|-20.0868||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group C vs. Group B|||-20.0868|
82406413|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|77.3395|STANDARD_ERROR_OF_MEAN|21.4347|||ONE_SIDED|90.0|49.662||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group C vs. Group A|||49.6620|
82406414|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|71.1737|STANDARD_ERROR_OF_MEAN|21.0123|||ONE_SIDED|90.0|44.0417||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group B vs. Group A|||44.0417|
82406415|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|104.8558|STANDARD_ERROR_OF_MEAN|21.2975|||ONE_SIDED|90.0|77.3555||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group A|||77.3555|
82406416|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|27.5163|STANDARD_ERROR_OF_MEAN|20.5918|||ONE_SIDED|90.0|0.9272||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group D vs. Group C|||0.9272|
82406417|NCT03652818|164520539|SUPERIORITY||LS Mean Difference|-30.1223|STANDARD_ERROR_OF_MEAN|26.1776|||ONE_SIDED|90.0|-63.924||||||Statistics are from ANCOVA including treatment and sex as fixed effects with baseline PI score prior to Dose 2 as a covariate. The upper limit was ∞|Group E vs. Group D|||-63.9240|
82406418|NCT03964207|164520543|SUPERIORITY||Difference of LSmeans|-5.28||||0.007|TWO_SIDED|95.0|-9.07|-1.48|||Mixed-effects Model||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||-1.48|-9.07|0.007
82406419|NCT03964207|164520544|SUPERIORITY||Difference of LSmeans|-4.14||||0.024|TWO_SIDED|95.0|-7.72|-0.56|||Mixed Models Analysis||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect||-0.56|-7.72|0.024
82406420|NCT03964207|164520545|SUPERIORITY||Difference rate (%)|13.0||||0.249|||||||Chi-square test||The Difference rate was calculated as: value from the test treatment group - value from the comparator treatment group.|Chi-squared test was used to analyze proportion of patients indicating preference in the Patient satisfaction and preference questionnaire (PASAPQ) at week 8. All participants have used both treatments at this point: Handihaler (4 weeks) and Respimat (4 weeks).||||0.249
82406421|NCT03964207|164520546|SUPERIORITY||Difference of LSmeans|-4.72||||0.057|TWO_SIDED|95.0|-9.59|0.15|||The mixed model for repeated measures||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||0.15|-9.59|0.057
82446259|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.31||||99.22|TWO_SIDED|95.0|1.06|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|1.06|99.22
82446260|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||46.24|TWO_SIDED|95.0|0.75|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.75|46.24
82446261|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||98.3|TWO_SIDED|95.0|1.02|1.64||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.64|1.02|98.30
82446262|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.25||||92.6|TWO_SIDED|95.0|0.92|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|0.92|92.60
82446263|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.38||||99.01|TWO_SIDED|95.0|1.05|1.81||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.81|1.05|99.01
82446264|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||58.8|TWO_SIDED|95.0|0.82|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.82|58.80
82531457|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||||
82531458|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
82648005|NCT01493531|165011373|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.5716|TWO_SIDED|95.0|0.57|1.37|||Negative Binomial Regression|||||1.37|0.57|0.5716
82446265|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||86.82|TWO_SIDED|95.0|0.91|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.91|86.82
82446266|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||67.37|TWO_SIDED|95.0|0.92|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.92|67.37
82446267|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||98.35|TWO_SIDED|95.0|1.01|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|1.01|98.35
82446268|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||96.86|TWO_SIDED|95.0|0.99|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.99|96.86
82531459|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
82406422|NCT03964207|164520547|SUPERIORITY||Difference of LSmeans|-4.38||||0.347|TWO_SIDED|95.0|-13.63|4.86|||Mixed Models Analysis||The Least squares means (LSmeans) were adjusted with treatment and visit. And the Difference of LSmeans was calculated as: value from the test treatment group - value from the comparator treatment group.|The hypothesis test was held to investigate the superiority of the test treatment. Mixed-effects Model for Repeated Measures (MMRM) was used to analyze the performance domain of PASAPQ score, with treatment and period as fixed effects, and patient as a random effect.||4.86|-13.63|0.347
82406423|NCT00830219|164520548|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.53||||||90.0|99.16|108.09|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.09|99.16|
82406424|NCT00830219|164520549|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.3||||||90.0|97.56|107.27|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.27|97.56|
82406425|NCT00830219|164520550|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.54||||||90.0|97.53|107.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.8|97.53|
82406426|NCT01294423|164520557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0853|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||significant at alpha=0.027 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and gender as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.027 applying Dunnett's adjustment, two-sided)||-0.18|-0.52|<0.0001
82406427|NCT01294423|164520557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.0851|<|0.0001|TWO_SIDED|95.0|-0.56|-0.23||significant at alpha=0.027 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and gender as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.027 applying Dunnett's adjustment, two-sided)||-0.23|-0.56|<0.0001
82406428|NCT01294423|164520558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|STANDARD_ERROR_OF_MEAN|2.902|<|0.0001|TWO_SIDED|95.0|-20.1|-8.7||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-8.7|-20.1|<0.0001
82406429|NCT01294423|164520558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|2.892|<|0.0001|TWO_SIDED|95.0|-25.2|-13.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-13.8|-25.2|<0.0001
82406430|NCT01294423|164520559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.3533||0.0003|TWO_SIDED|95.0|-1.98|-0.59||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.59|-1.98|0.0003
82406431|NCT01294423|164520559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.354||0.0001|TWO_SIDED|95.0|-2.08|-0.69||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c at randomization by gender) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.69|-2.08|0.0001
82406432|NCT01811732|164520581|NON_INFERIORITY|A 2-sided 95% confidence interval (CI) for noninferiority testing was computed based on the difference in sample rates for vancomycin + aztreonam and delafloxacin at the primary endpoint. If the upper limit (UL) of the CI was less than 0.10, delafloxacin would be considered noninferior to vancomycin + aztreonam.|Difference in Responder Rates|-2.6|||||TWO_SIDED|95.0|-8.8|3.6||||||||3.6|-8.8|
82406433|NCT02452047|164520594|OTHER|Difference in percentages|Difference in FOR %|-7.3|||||TWO_SIDED|90.0|-27.5|21.4|||||Stratified Miettinen \& Nurminen method by infection type|||21.4|-27.5|
82406434|NCT02452047|164520595|OTHER|Difference in percentages|Difference in AE %|-10.3|||||TWO_SIDED|95.0|-33.1|18.0|||||Miettinen \& Nurminen method|||18.0|-33.1|
82406435|NCT02452047|164520596|OTHER|Difference in percentages|Difference in SAE %|-21.6|||||TWO_SIDED|95.0|-47.8|1.3|||||Miettinen \& Nurminen method|||1.3|-47.8|
82406436|NCT02452047|164520597|OTHER|Difference in percentages|Difference in drug-related AE %|-15.1|||||TWO_SIDED|95.0|-42.3|9.2|||||Miettinen \& Nurminen method|||9.2|-42.3|
82406437|NCT02452047|164520598|OTHER|Difference in percentages|Difference in drug-related SAE %|0.0|||||TWO_SIDED|95.0|-19.7|11.2|||||Miettinen \& Nurminen method|||11.2|-19.7|
82406438|NCT02452047|164520599|OTHER|Difference in percentages|Difference in discontinuation %|-18.8|||||TWO_SIDED|95.0|-43.3|-6.2|||||Miettinen \& Nurminen method|||-6.2|-43.3|
82406439|NCT02452047|164520600|OTHER|Difference in percentages|Difference in drug-related discon %|-12.5|||||TWO_SIDED|95.0|-36.3|-0.3|||||Miettinen \& Nurminen method|||-0.3|-36.3|
82406440|NCT02452047|164520601|OTHER|Difference in percentages|Difference in pyrexia %|0.4|||||TWO_SIDED|95.0|-25.2|19.7|||||Miettinen \& Nurminen method|||19.7|-25.2|
82406441|NCT02452047|164520601|OTHER|Difference in percentages|Difference blood creatinine inc %|-25.0|||||TWO_SIDED|95.0|-49.8|-10.1|||||Miettinen \& Nurminen method|||-10.1|-49.8|
82406442|NCT02452047|164520602|OTHER|Difference in Category 1 ECI %|Difference in Category 1 ECI %|-12.5||||0.047|TWO_SIDED|95.0|-36.3|-0.3|||Miettinen and Nurminen method|||||-0.3|-36.3|0.047
82406443|NCT02452047|164520602|OTHER|Difference in Category 2 ECI %|Difference in Category 2 ECI %|-12.5||||0.047||95.0|-36.3|-0.3|||Miettinen and Nurminen method|||||-0.3|-36.3|0.047
82406444|NCT02452047|164520603|OTHER|Difference in percentages|Difference in nephrotoxicity %|-45.9||||0.002||95.0|-69.1|-18.4|||Fisher Exact||Miettinen \& Nurminen method|||-18.4|-69.1|0.002
82406445|NCT02452047|164520604|OTHER|Difference in Day 28 FCR %|Difference in Day 28 FCR %|26.3|||||TWO_SIDED|90.0|1.3|51.5|||||Miettinen and Nurminen method stratified by infection-site stratum|||51.5|1.3|
82406446|NCT02452047|164520605|OTHER|Difference in mortality %|Difference in mortality %|-17.3|||||TWO_SIDED|90.0|-46.4|6.7|||||Miettinen and Nurminen method stratified by infection-site stratum|||6.7|-46.4|
82406447|NCT02452047|164520606|OTHER|Adjusted difference in OTX FCR %|Adjusted difference in OTX FCR %|33.9|||||TWO_SIDED|90.0|7.4|61.1|||||Miettinen and Nurminen method stratified by infection-site stratum|||61.1|7.4|
82406448|NCT02452047|164520607|OTHER|Adjusted difference in EOT FCR %|Adjusted difference in EOT FCR %|25.4|||||TWO_SIDED|90.0|3.1|53.6|||||Miettinen and Nurminen method stratified by infection-site stratum|||53.6|3.1|
82406449|NCT02452047|164520608|OTHER|Adjusted difference in EFU FCR %|Difference in EFU FCR %|24.7|||||TWO_SIDED|90.0|3.8|51.4|||||Miettinen and Nurminen method stratified by infection-site stratum|||51.4|3.8|
82406450|NCT02452047|164520609|OTHER|Difference in percentages|Difference in FMR %|0.0|||||TWO_SIDED|90.0|-20.8|36.6|||||Miettinen \& Nurminen method|||36.6|-20.8|
82576289|NCT02209181|164862058|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|2.33|4.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.87|2.33|<0.001
82406451|NCT02452047|164520610|OTHER|Difference in percentages|Difference in FMR %|0.0|||||TWO_SIDED|90.0|-20.8|36.6|||||Miettinen \& Nurminen method|||36.6|-20.8|
82406452|NCT02452047|164520611|OTHER|Difference in percentages|Difference in FMR %|-27.3|||||TWO_SIDED|90.0|-52.8|12.8|||||Miettinen \& Nurminen method|||12.8|-52.8|
82406453|NCT01868646|164520612|SUPERIORITY|||||||0.0002||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0002
82406454|NCT01868646|164520613|SUPERIORITY|||||||0.0426||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0426
82406455|NCT01868646|164520614|SUPERIORITY|||||||0.599||||||"The p-value associated with treatment factor of changes from baseline to Week 4, 8, 12, 18, 24, 30 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.5990
82406456|NCT01868646|164520615|SUPERIORITY|||||||0.6215||||||"The p-value associated with treatment factor of mean value at baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.6215
82406457|NCT01868646|164520616|SUPERIORITY|||||||0.6155||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Total cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.6155
82406458|NCT01868646|164520616|SUPERIORITY|||||||0.7507||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of HDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.7507
82406459|NCT01868646|164520616|SUPERIORITY|||||||0.4195||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of LDL cholesterol changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.4195
82406460|NCT01868646|164520616|SUPERIORITY|||||||0.3609||||||"The p-value associated with treatment factor of changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||Analysis of Triglycerides changes from baseline to Week 12, 24 and 36 endpoint between Subetta and Placebo treatment groups.||||0.3609
82406461|NCT01868646|164520617|SUPERIORITY|||||||0.0605|||||||t-test, 2 sided|||||||0.0605
82406462|NCT01868646|164520618|SUPERIORITY|||||||0.0726|||||||t-test, 2 sided|||||||0.0726
82406463|NCT01868646|164520619|SUPERIORITY|||||||0.3108|||||||Fisher Exact|||||||0.3108
82406464|NCT01868646|164520620|SUPERIORITY|||||||0.2934|||||||t-test, 2 sided|||||||0.2934
82406465|NCT01868646|164520621|SUPERIORITY|||||||0.341|||||||t-test, 2 sided|||||||0.3410
82406466|NCT01868646|164520622|SUPERIORITY|||||||0.1577|||||||t-test, 2 sided|||Satisfaction||||0.1577
82406467|NCT01868646|164520622|SUPERIORITY|||||||0.5262|||||||t-test, 2 sided|||Hyperglycemia||||0.5262
82406468|NCT01868646|164520622|SUPERIORITY|||||||0.7417|||||||t-test, 2 sided|||Hypoglycemia||||0.7417
82406469|NCT00917124|164520630|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared, Corrected|||"Hypothesis: intraoperative monitoring of cerebral oxigenation with INVOS system will improve cognitive outcome of patients undergoing CABG procedure.~Sample size was determined assuming 50% incidence of cognitive impairment after cardiac surgery and possibility of decreasing that incidence to 30% using cerebral oximetry. Based on 0.8 power to detect a significant difference (p=0.05), 90 patients were required for each study group."||||0.002
82406470|NCT04428385|164520651|SUPERIORITY||Risk Ratio (RR)|0.85|||||TWO_SIDED|95.0|0.34|2.16||||||||2.16|0.34|
82406471|NCT04428385|164520652|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.47|1.78||||||||1.78|0.47|
82646513|NCT02499406|165007450|SUPERIORITY||||||<|0.016||||||p value was calculated and found to be below the a priori threshold for significance, which was adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 6-month assessment.||||<0.016
82406472|NCT04428385|164520653|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.36|1.62||||||||1.62|0.36|
82406473|NCT04428385|164520654|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.33|1.33||||||||1.33|0.33|
82406474|NCT04428385|164520655|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.62|1.9||||||||1.90|0.62|
82406475|NCT03191799|164520681|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
82406476|NCT03191799|164520681|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82406477|NCT03191799|164520681|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406478|NCT03191799|164520681|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406479|NCT03191799|164520681|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
82406480|NCT03191799|164520683|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
82406481|NCT03191799|164520683|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82406482|NCT03191799|164520683|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406483|NCT03191799|164520683|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406484|NCT03191799|164520683|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
82406485|NCT03191799|164520694|SUPERIORITY|||||||0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||0.0001
82406486|NCT03191799|164520694|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82406487|NCT03191799|164520694|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406488|NCT03191799|164520694|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406489|NCT03191799|164520694|SUPERIORITY|||||||0.0004|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||0.0004
82406490|NCT03191799|164520696|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
82406491|NCT03191799|164520696|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82531460|NCT01380990|164760138|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||||
82648006|NCT01493531|165011373|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.7454|TWO_SIDED|95.0|0.6|1.45|||Negative Binomial Regression|||||1.45|0.60|0.7454
82406492|NCT03191799|164520696|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406493|NCT03191799|164520696|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406494|NCT03191799|164520696|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
82406495|NCT03191799|164520706|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
82406496|NCT03191799|164520706|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82406497|NCT03191799|164520706|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406498|NCT03191799|164520706|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406499|NCT03191799|164520706|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
82406500|NCT03191799|164520707|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 3 vs. Baseline||||<0.0001
82406501|NCT03191799|164520707|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 6 vs. Baseline||||<0.0001
82406502|NCT03191799|164520707|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 12 vs. Baseline||||<0.0001
82406503|NCT03191799|164520707|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Month 18 vs. Baseline||||<0.0001
82406504|NCT03191799|164520707|SUPERIORITY||||||<|0.0001|||||||Paired t-test|||Early Terminatinon/Study Completion vs. Baseline||||<0.0001
82406505|NCT01421498|164520719|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.24||||0.0007|TWO_SIDED|95.0|0.1|0.38|||t-test, 2 sided|||||0.38|0.10|0.0007
82406506|NCT01421498|164520720|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-0.02||||0.786|TWO_SIDED|95.0|-0.15|0.11|||t-test, 2 sided|||||0.11|-0.15|0.7860
82406507|NCT02456727|164520742|SUPERIORITY||Mean Difference (Net)|-0.3714|STANDARD_ERROR_OF_MEAN|0.2039||0.0691|TWO_SIDED|95.0|-0.772|0.0291|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.0291|-0.7720|0.0691
82406508|NCT02456727|164520743|SUPERIORITY||Mean Difference (Net)|-0.1631|STANDARD_ERROR_OF_MEAN|0.246||0.5077|TWO_SIDED|95.0|-0.6452|0.319|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.319|-0.6452|0.5077
82406509|NCT02456727|164520744|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0724|STANDARD_ERROR_OF_MEAN|0.0399||0.24|TWO_SIDED|95.0|-0.0058|0.1506|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1506|-0.0058|0.24
82406510|NCT02456727|164520745|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0531|STANDARD_ERROR_OF_MEAN|0.0487||0.17|TWO_SIDED|95.0|-0.0422|0.1485|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1485|-0.0422|0.17
82531461|NCT01380990|164760143|OTHER|Model includes fixed effects for visit and Baseline, subject as random effect, with compound symmetry covariance structure. Observations with a value of 0 were imputed as 0.01. Model analyses log transformed data, so the adjusted mean refers to the geometric mean ratio between Month 12 and Baseline.|||||=|0.002|||||||Mixed Models Analysis|||"Mixed-Effect Model Repeated Measure (MMRM) Analysis of Change from Baseline to Month 12 in Log-Transformed CD3+ T Cell count (OTL-101\*) for OTL-101\* on-study subjects group."||||= 0.002
82531462|NCT01380990|164760143|OTHER|Model includes fixed effects for visit and Baseline, subject as random effect, with compound symmetry covariance structure. Observations with a value of 0 were imputed as 0.01. Model analyses log transformed data, so the adjusted mean refers to the geometric mean ratio between Month 12 and Baseline.|||||<|0.001|||||||Mixed Models Analysis|||"MMRM Analysis of Change from Baseline to Month 12 in Log-Transformed CD3+ T Cell count (OTL-101\*) for OTL-101\* on-study and CUP subjects group."||||< 0.001
82646514|NCT02499406|165007451|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 9-month assessment.||||<0.016
82646515|NCT02499406|165007452|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=14||Null hypothesis is that there is no difference in paired samples between baseline and 3-month assessment||||<0.016
82646516|NCT02499406|165007453|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=10||Null hypothesis is no difference between baseline and this 6-month assessment.||||<0.016
82646517|NCT02499406|165007454|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired samples t test|df=11||Null hypothesis is no difference between baseline and this 9-month assessment.||||<0.016
82646518|NCT02499406|165007455|SUPERIORITY||||||>|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t test|df=14||Null hypothesis is that there is no difference between baseline assessment and this 3-month assessment.||||> 0.016
82406511|NCT02456727|164520746|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0625|STANDARD_ERROR_OF_MEAN|0.0396||0.17|TWO_SIDED|95.0|-0.0151|0.1401|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.1401|-0.0151|0.17
82406512|NCT02456727|164520747|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0882|STANDARD_ERROR_OF_MEAN|0.0488||0.4|TWO_SIDED|95.0|-0.0075|0.184|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.184|-0.0075|0.40
82406513|NCT02456727|164520748|SUPERIORITY||Mean Difference (Net)|-0.2643|STANDARD_ERROR_OF_MEAN|0.1782||0.1387|TWO_SIDED|95.0|-0.6136|0.0851|||ANCOVA|The outcome is the change in score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between the two treatment arms (Individual-Group).|||0.0851|-0.6136|0.1387
82406514|NCT02456727|164520749|SUPERIORITY||Mean Difference (Net)|-0.2334|STANDARD_ERROR_OF_MEAN|0.2124||0.2725|TWO_SIDED|95.0|-0.6497|0.1829|||ANCOVA|The outcome is the change in score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between the two treatment arms (Individual-Group).|||0.1829|-0.6497|0.2725
82406515|NCT02456727|164520750|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0426|STANDARD_ERROR_OF_MEAN|0.0388||0.07|TWO_SIDED|95.0|-0.0334|0.1185|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1185|-0.0334|0.07
82406516|NCT02456727|164520751|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0283|STANDARD_ERROR_OF_MEAN|0.0477||0.07|TWO_SIDED|95.0|-0.0651|0.1218|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 12 weeks between two treatment arms (Individual-Group)|||0.1218|-0.0651|0.07
82406517|NCT02456727|164520752|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0262|STANDARD_ERROR_OF_MEAN|0.0356||0.02|TWO_SIDED|95.0|-0.0436|0.0961|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.0961|-0.0436|0.02
82406518|NCT02456727|164520753|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0323|STANDARD_ERROR_OF_MEAN|0.044||0.06|TWO_SIDED|95.0|-0.0539|0.1186|||Chi-squared||The estimated value is the difference of proportion of respondents (\>=30% improvement) at 24 weeks between two treatment arms (Individual-Group)|||0.1186|-0.0539|0.06
82406519|NCT02456727|164520754|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.15||0.1475|TWO_SIDED|95.0|-0.5288|0.0795|||t-test, 2 sided|The outcome is the change of PGIC from baseline to 12 weeks.|The estimated value is the difference of PGIC change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.0795|-0.5288|0.1475
82406520|NCT02456727|164520755|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3038|TWO_SIDED|95.0|-0.546|0.1706|||t-test, 2 sided|The outcome is the change of PGIC from baseline to 12 weeks.|The estimated value is the difference of PGIC change from baseline to 12 weeks between two treatment arms (Individual-Group).|||0.1706|-0.546|0.3038
82648007|NCT01493531|165011374|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.8466|TWO_SIDED|95.0|-0.24|0.2|||Cochran-Mantel-Haenszel|||||0.2|-0.24|0.8466
82406521|NCT02456727|164520756|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0251|STANDARD_ERROR_OF_MEAN|0.0392||0.03|TWO_SIDED|95.0|-0.0517|0.1018|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 12 weeks between two treatment arms (Individual-Group)|||0.1018|-0.0517|0.03
82406522|NCT02456727|164520757|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0018|STANDARD_ERROR_OF_MEAN|0.0481||0.02|TWO_SIDED|95.0|-0.0925|0.096|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 12 weeks between two treatment arms (Individual-Group)|||0.096|-0.0925|0.02
82406523|NCT02456727|164520758|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|-0.0104|STANDARD_ERROR_OF_MEAN|0.036||0|TWO_SIDED|95.0|-0.081|0.0602|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 24 weeks between two treatment arms (Individual-Group)|||0.0602|-0.081|0.00
82406524|NCT02456727|164520759|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0154|STANDARD_ERROR_OF_MEAN|0.0464||0.03|TWO_SIDED|95.0|-0.0755|0.1063|||Chi-squared||The estimated value is the difference of proportion of respondents (change post treatment\>=6) at 24 weeks between two treatment arms (Individual-Group)|||0.1063|-0.0755|0.03
82406525|NCT02456727|164520760|SUPERIORITY||Mean Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.5336||0.8778|TWO_SIDED|95.0|-0.9659|1.13|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.13|-0.9659|0.8778
82406526|NCT02456727|164520761|SUPERIORITY||Mean Difference (Net)|0.3623|STANDARD_ERROR_OF_MEAN|0.6252||0.5626|TWO_SIDED|95.0|-0.8667|1.5912|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.5912|-0.8667|0.5626
82406527|NCT02456727|164520762|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0362|STANDARD_ERROR_OF_MEAN|0.0399||0.05|TWO_SIDED|95.0|-0.0419|0.1144|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 12 weeks between two treatment arms (Individual-Group)|||0.1144|-0.0419|0.05
82406528|NCT02456727|164520763|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0647|STANDARD_ERROR_OF_MEAN|0.0466||0.22|TWO_SIDED|95.0|-0.0266|0.156|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 12 weeks between two treatment arms (Individual-Group)|||0.156|-0.0266|0.22
82406529|NCT02456727|164520764|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0523|STANDARD_ERROR_OF_MEAN|0.0415||0.12|TWO_SIDED|95.0|-0.029|0.1335|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 24 weeks between two treatment arms (Individual-Group)|||0.1335|-0.029|0.12
82406530|NCT02456727|164520765|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0928|STANDARD_ERROR_OF_MEAN|0.0498||0.44|TWO_SIDED|95.0|-0.0047|0.1903|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=2) at 24 weeks between two treatment arms (Individual-Group)|||0.1903|-0.0047|0.44
82406531|NCT02456727|164520766|SUPERIORITY||Mean Difference (Net)|0.4831|STANDARD_ERROR_OF_MEAN|0.5753||0.4014|TWO_SIDED|95.0|-0.6468|1.6129|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.6129|-0.6468|0.4014
82406532|NCT02456727|164520767|SUPERIORITY||Mean Difference (Net)|0.6617|STANDARD_ERROR_OF_MEAN|0.647||0.307|TWO_SIDED|95.0|-0.61|1.9334|||ANCOVA|The outcome is the change of score from baseline to 12 weeks, adjusting for the baseline score.|The estimated value is the difference of score change from baseline to 12 weeks between two treatment arms (Individual-Group).|||1.9334|-0.61|0.307
82406533|NCT02456727|164520768|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0159|STANDARD_ERROR_OF_MEAN|0.0364||0.01|TWO_SIDED|95.0|-0.0555|0.0873|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 12 weeks between two treatment arms (Individual-Group)|||0.0873|-0.0555|0.01
82406534|NCT02456727|164520769|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0287|STANDARD_ERROR_OF_MEAN|0.0424||0.05|TWO_SIDED|95.0|-0.0544|0.1117|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 12 weeks between two treatment arms (Individual-Group)|||0.1117|-0.0544|0.05
82646519|NCT02499406|165007456|SUPERIORITY||||||=|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=10||Null hypothesis is that there is no difference between baseline assessment and this 6-month assessment.||||=.016
82646520|NCT02499406|165007457|SUPERIORITY||||||<|0.016||||||a priori threshold for significance adjusted to p = .016 for multiple comparisons|paired sample t-test|df=11||Null hypothesis is that there is no difference between baseline assessment and this 9-month assessment.||||<0.016
82646521|NCT03712137|165007489|SUPERIORITY||Responder Rate Difference|30.9||||0.0001|TWO_SIDED|95.0|15.33|46.54|||Multiple Imputation|The procedure used to perform Multiple Imputation is PROC MIANALYZE in SAS with normal approximation||||46.54|15.33|0.0001
82646522|NCT03712137|165007492|SUPERIORITY||Mean Difference (Final Values)|45.9|||<|0.0001|TWO_SIDED|95.0|40.45|51.28|||Paired T-test|||||51.28|40.45|<0.0001
82646523|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (poor effort)|t-test, 2 sided|||this p value is calculated for poor effort||||<0.0001
82646524|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (hyperventilation - immediate)|t-test, 2 sided|||p value calculated for hyperventilation (immediate)||||<0.0001
82646525|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (5 minutes after hyperventilation)|t-test, 2 sided|||p value calculated for hyperventilation (after 5 minutes)||||<0.0001
82646526|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (10 minutes after hyperventilation)|t-test, 2 sided|||p value calculated for hyperventilation (after 10 minutes)||||<0.0001
82406535|NCT02456727|164520770|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0389|STANDARD_ERROR_OF_MEAN|0.0369||0.05|TWO_SIDED|95.0|-0.0335|0.1112|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 24 weeks between two treatment arms (Individual-Group)|||0.1112|-0.0335|0.05
82406536|NCT02456727|164520771|NON_INFERIORITY|The null hypothesis is that the group treatment is inferior to the individual treatment. 10% is set as the non-inferiority margin. If the upper limit of 90% confidence interval of the estimated value does not exceed 10%, non-inferiority is demonstrated.|Risk Difference (RD)|0.0608|STANDARD_ERROR_OF_MEAN|0.0436||0.18|TWO_SIDED|95.0|-0.0247|0.1463|||Chi-squared||The estimated value is the difference of proportion of respondents (score change\>=5) at 24 weeks between two treatment arms (Individual-Group)|||0.1463|-0.0247|0.18
82406537|NCT02456727|164520772|OTHER|The null hypothesis is that there is no change in the proportion of participants with self-reported opioid prescription comparing 12 weeks vs baseline.||||||0.1658|||||||McNemar|||Two treatment arms are combined as one group to compare the outcome of interest pre- and post-randomization.||||0.1658
82406538|NCT02456727|164520773|OTHER|The null hypothesis is that there is no change in the proportion of participants with self-reported opioid prescription comparing 12 weeks vs baseline.||||||0.1172|||||||McNemar|||Two treatment arms are combined as one group to compare the outcome of interest pre- and post-randomization.||||0.1172
82406539|NCT02456727|164520774|OTHER|The null hypothesis is that there is no change in the days of self-reported opioid medication use comparing 12 weeks vs baseline.||||||0.0326|||||||Wilcoxon signed rank test|||Two treatment arms are combined as one group to compare the outcome of interest prior- and post-randomization.||||0.0326
82646527|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (immediately after drinking water)|t-test, 2 sided|||p value calculated for drinking water (immediate)||||<0.0001
82646528|NCT02580318|165007510|OTHER||||||<|0.0001||||||the separate paired sample t-tests were conducted to compare the baseline BrAC to the BrAC after the manipulation (5 minutes after drinking water)|t-test, 2 sided|||p value calculated for drinking water (5 minutes)||||<0.0001
82646529|NCT00948025|165007623|OTHER|Mann-Whitney U test was used to derive p-values.||||||0.0433||||||"1. a priori threshold for statistical significance set at p\<0.05.~2. the p-value was not adjusted for multiple comparisons."|Wilcoxon (Mann-Whitney)|||"1. P-value comparing static 2-point discrimination per visit derived from mixed linear modeling of longitudinal data.~2. P-Value is based on Mann-Whitney U test."||||0.0433
82646530|NCT00763269|165007633|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82646531|NCT00763269|165007634|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82646532|NCT00763269|165007635|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82406540|NCT02456727|164520775|OTHER|The null hypothesis is that there is no change in the days of self-reported opioid medication use comparing 12 weeks vs baseline.||||||0.0026|||||||Wilcoxon signed rank test|||Two treatment arms are combined as one group to compare the outcome of interest prior- and post-randomization.||||0.0026
82646533|NCT00763269|165007636|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82646534|NCT02392559|165007688|SUPERIORITY||treatment difference|-38.3|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-45.54|-31.06|||repeated measures model||Treatment difference uses placebo as the reference.|||-31.06|-45.54|< 0.0001
82646535|NCT02392559|165007688|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82646536|NCT02392559|165007689|SUPERIORITY||treatment difference|-42.09|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|-48.34|-35.83|||repeated measures model||Treatment difference uses placebo as the reference.|||-35.83|-48.34|< 0.0001
82646537|NCT02392559|165007689|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82646538|NCT02392559|165007690|SUPERIORITY||treatment difference|-68.6|STANDARD_ERROR_OF_MEAN|7.3|<|0.0001|TWO_SIDED|95.0|-83.1|-54.0||Treatment difference uses placebo as the reference.|repeated measures model|||||-54.0|-83.1|< 0.0001
82406541|NCT02456727|164520776|SUPERIORITY|||||||0.129||||||The change in MME was not normally distributed, thus we report median and IQR rather than mean/standard deviation. We employed Mann-Whitney to assess whether the change in MME between pre- and post-treatment periods differed across intervention arms.|Wilcoxon (Mann-Whitney)|||||||0.129
82406542|NCT02456727|164520777|SUPERIORITY|||||||0.031||||||The change in MME was not normally distributed, thus we report median and IQR rather than mean/standard deviation. We employed Mann-Whitney to assess whether the change in MME between pre- and post-treatment periods differed across intervention arms.|Wilcoxon (Mann-Whitney)|||||||0.031
82406543|NCT02456727|164520778|SUPERIORITY|Difference in change in proportion pre and post-treatment differs by treatment arm.||||||0.0059|||||||Mixed Models Analysis|||||||0.0059
82406544|NCT02456727|164520779|SUPERIORITY|||||||0.0385|||||||Mixed Models Analysis|||||||0.0385
82406545|NCT02513550|164520780|SUPERIORITY||Risk Difference (RD)|7.9|||=|0.005|TWO_SIDED||||||Regression, Logistic|||||||=0.005
82406546|NCT02513550|164520780|SUPERIORITY||Risk Difference (RD)|1.9|||=|0.522|TWO_SIDED||||||Regression, Logistic|||||||=0.522
82406547|NCT02513550|164520781|SUPERIORITY||Risk Difference (RD)|6.9|||=|0.006|TWO_SIDED||||||Regression, Logistic|||||||=0.006
82406548|NCT02513550|164520781|SUPERIORITY||Risk Difference (RD)|4.6|||=|0.118|TWO_SIDED||||||Regression, Logistic|||||||=0.118
82406549|NCT02059239|164520803|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|88.9|||||TWO_SIDED|95.0|65.3|98.6||||||||98.6|65.3|
82406550|NCT02059239|164520803|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|81.3|||||TWO_SIDED|95.0|54.4|95.9||||||||95.9|54.4|
82406551|NCT02059239|164520804|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
82406552|NCT02059239|164520804|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|75.3|100.0||||||||100.0|75.3|
82406553|NCT02059239|164520805|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
82406554|NCT02059239|164520805|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|92.3|||||TWO_SIDED|95.0|64.0|99.8||||||||99.8|64.0|
82406555|NCT02059239|164520806|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
82406556|NCT02059239|164520806|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|84.6|||||TWO_SIDED|95.0|54.6|98.1||||||||98.1|54.6|
82406557|NCT02059239|164520807|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|79.4|100.0||||||||100.0|79.4|
82406558|NCT02059239|164520807|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|46.2|||||TWO_SIDED|95.0|19.2|74.9||||||||74.9|19.2|
82406559|NCT02059239|164520808|OTHER|Simple proportion in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|0.0|||||TWO_SIDED|95.0|0.0|20.6||||||||20.6|0.0|
82406560|NCT02059239|164520808|OTHER|Simple proportion in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|15.4|||||TWO_SIDED|95.0|1.9|45.4||||||||45.4|1.9|
82406561|NCT02059239|164520809|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|66.7|||||TWO_SIDED|95.0|41.0|86.7||||||||86.7|41.0|
82406562|NCT02059239|164520809|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|43.8|||||TWO_SIDED|95.0|19.8|70.1||||||||70.1|19.8|
82648008|NCT01493531|165011374|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.06||||0.6301|TWO_SIDED|95.0|-0.29|0.17|||Cochran-Mantel-Haenszel|||||0.17|-0.29|0.6301
82406563|NCT02059239|164520810|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|87.5|||||TWO_SIDED|95.0|61.7|98.4||||||||98.4|61.7|
82406564|NCT02059239|164520810|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|76.9|||||TWO_SIDED|95.0|46.2|95.0||||||||95.0|46.2|
82406565|NCT02059239|164520811|OTHER|Simple proportion (objective response: CR+PR) in autologous group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|81.3|||||TWO_SIDED|95.0|54.4|96.0||||||||96.0|54.4|
82406566|NCT02059239|164520811|OTHER|Simple proportion (objective response: CR+PR) in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Proportion (percent)|30.8|||||TWO_SIDED|95.0|9.1|61.4||||||||61.4|9.1|
82406567|NCT02059239|164520812|OTHER|Median PFS in allogeneic group with exact (Clopper-Pearson) 95% confidence interval.|Median (95% CI)|8.0|||||TWO_SIDED|95.0|5.0|25.0||||||||25|5|
82406568|NCT01418339|164520831|SUPERIORITY||Treatment Difference|-4.63|||=|0.0028|TWO_SIDED|95.0|-7.62|-1.63||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||-1.63|-7.62|=0.0028
82406569|NCT01418339|164520832|SUPERIORITY||Treatment Difference|-0.52|||=|0.0124|TWO_SIDED|95.0|-0.93|-0.12||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||-0.12|-0.93|=0.0124
82406570|NCT01418339|164520833|SUPERIORITY||Treatment Difference|-2.0|||=|0.5317|TWO_SIDED|95.0|-8.31|4.32||P-value was derived from a repeated measures linear model with treatment, week, and treatment by week interaction as fixed categorical effects, the baseline value as a fixed covariate, and week as the time variable for repeated measures.|MMRM|||The statistical comparison was performed using MMRM model at a significance level of 0.05 (2-sided).||4.32|-8.31|=0.5317
82406571|NCT02219685|164520853|SUPERIORITY_OR_OTHER|||||||0.58||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.58
82406572|NCT02219685|164520853|SUPERIORITY_OR_OTHER|||||||0.48||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.48
82406573|NCT02219685|164520853|SUPERIORITY_OR_OTHER|||||||0.96||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.96
82406574|NCT02219685|164520854|SUPERIORITY_OR_OTHER|||||||0.54||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.54
82406575|NCT02219685|164520854|SUPERIORITY_OR_OTHER|||||||0.57||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.57
82406576|NCT02219685|164520854|SUPERIORITY_OR_OTHER|||||||0.63||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.63
82406577|NCT02219685|164520855|SUPERIORITY_OR_OTHER|||||||0.7||||||This p-value for treatment effect on basal ganglia was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.70
82406578|NCT02219685|164520855|SUPERIORITY_OR_OTHER|||||||0.21||||||This p-value for treatment effect on frontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.21
82406579|NCT02219685|164520855|SUPERIORITY_OR_OTHER|||||||0.59||||||This p-value for treatment effect on dorsolateral prefrontal cortex was based on a two sample t-test assuming equal variances.|t-test, 2 sided|||||||0.59
82406580|NCT02219685|164520856|SUPERIORITY_OR_OTHER|||||||0.0795||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.0795
82406581|NCT02219685|164520857|SUPERIORITY_OR_OTHER|||||||0.7007||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.7007
82406582|NCT02219685|164520858|SUPERIORITY_OR_OTHER|||||||0.2677||||||The p-value was ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.2677
82406583|NCT02219685|164520859|SUPERIORITY_OR_OTHER|||||||0.987||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.9870
82406584|NCT02219685|164520860|SUPERIORITY_OR_OTHER|||||||0.3388||||||The p-value was from ANCOVA model for change from baseline with treatment group and baseline as covariates.|ANCOVA|||||||0.3388
82406585|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.855|||||TWO_SIDED|90.0|0.799|0.914|||ANCOVA||AUC (0-inf) comparison|||0.914|0.799|
82406586|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.677|||||TWO_SIDED|90.0|0.635|0.721|||ANCOVA||AUC (0-inf) comparision|||0.721|0.635|
82406587|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.637|||||TWO_SIDED|90.0|0.594|0.682|||ANCOVA||AUC (0-inf) comparision|||0.682|0.594|
82406588|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.803|||||TWO_SIDED|90.0|0.747|0.864|||ANCOVA||AUC (0-24) comparision|||0.864|0.747|
82406589|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.608|||||TWO_SIDED|90.0|0.566|0.655|||ANOVA||AUC (0-24) comparision|||0.655|0.566|
82406590|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.557|||||TWO_SIDED|90.0|0.518|0.599|||ANCOVA||AUC (0-24) comparision|||0.599|0.518|
82406591|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.819|||||TWO_SIDED|90.0|0.766|0.876|||ANCOVA||AUC (0-t) comparision|||0.876|0.766|
82406592|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.636|||||TWO_SIDED|90.0|0.595|0.68|||ANCOVA||AUC (0-t) comparision|||0.680|0.595|
82406593|NCT02634073|164520901|SUPERIORITY_OR_OTHER||Ratio|0.585|||||TWO_SIDED|90.0|0.548|0.626|||ANCOVA||AUC (0-t) comparision|||0.626|0.548|
82646539|NCT02392559|165007690|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82406594|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|0.993|||||TWO_SIDED|90.0|0.916|1.08|||ANCOVA||C24 comparison|||1.08|0.916|
82406595|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|1.12|||||TWO_SIDED|90.0|1.03|1.21|||ANCOVA||C24 comparision|||1.21|1.03|
82406596|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|1.09|||||TWO_SIDED|90.0|1.0|1.18|||ANCOVA||C24 comparision|||1.18|1.000|
82406597|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|1.33|||||TWO_SIDED|90.0|1.13|1.56|||ANCOVA||Ct comparision|||1.56|1.13|
82406598|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|1.46|||||TWO_SIDED|90.0|1.25|1.71|||ANCOVA||Ct comparision|||1.71|1.25|
82406599|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|1.39|||||TWO_SIDED|90.0|1.18|1.63|||ANCOVA||Ct comparision|||1.63|1.18|
82406600|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|0.724|||||TWO_SIDED|90.0|0.657|0.798|||ANCOVA||Cmax comparision|||0.798|0.657|
82406601|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|0.479|||||TWO_SIDED|90.0|0.434|0.527|||ANCOVA||Cmax comparision|||0.527|0.434|
82406602|NCT02634073|164520902|SUPERIORITY_OR_OTHER||Ratio|0.454|||||TWO_SIDED|90.0|0.412|0.5|||ANCOVA||Cmax comparision|||0.500|0.412|
82406603|NCT02634073|164520903|SUPERIORITY_OR_OTHER||Ratio|1.37|||||TWO_SIDED|90.0|1.11|1.69|||ANCOVA|||||1.69|1.11|
82406604|NCT02634073|164520903|SUPERIORITY_OR_OTHER||Ratio|1.53|||||TWO_SIDED|90.0|1.25|1.88|||ANCOVA|||||1.88|1.25|
82406605|NCT02634073|164520903|SUPERIORITY_OR_OTHER||Ratio|1.29|||||TWO_SIDED|90.0|1.04|1.61|||ANCOVA|||||1.61|1.04|
82406606|NCT02634073|164520904|SUPERIORITY_OR_OTHER||Ratio|1.17|||||TWO_SIDED|90.0|1.094|1.251|||ANCOVA|||||1.251|1.094|
82406607|NCT02634073|164520904|SUPERIORITY_OR_OTHER||Ratio|1.478|||||TWO_SIDED|90.0|1.386|1.576|||ANCOVA|||||1.576|1.386|
82406608|NCT02634073|164520904|SUPERIORITY_OR_OTHER||Ratio|1.571|||||TWO_SIDED|90.0|1.466|1.684|||ANCOVA|||||1.684|1.466|
82406609|NCT03575702|164520921|NON_INFERIORITY|The non-inferiority margin is considered as change in mean daily urination episodes of 0,8 episodes per day|Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.34|=|0.5595|ONE_SIDED|95.0||0.38|||ANCOVA|The number of urination episodes at the initiation of therapy is used as covariate, and the therapy group is used as a factor.||"The null hypothesis is that effect of Urotol according to the assessment of mean daily urination episodes exceeds effect of Uritos.~A sample containing of 222 patients (111 per study group) is considered sufficient to prove the alternative hypothesis at the significance level 0.025% and study power 80%. Given the expected drop out rate during the treatment period, the total number of patients to be randomized is 300 (150 in each group)."||0.38||=0.5595
82406610|NCT03575702|164520922|OTHER||||||=|0.0008|||||||ANCOVA|||||||=0.0008
82406611|NCT03575702|164520923|OTHER||||||=|0.0099|||||||ANCOVA|||||||=0.0099
82406612|NCT03575702|164520924|OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82406613|NCT03575702|164520925|OTHER||||||<|0.0001|||||||ANCOVA|Changes in number of daily incontinence episodes - week 2||||||<0.0001
82406614|NCT03575702|164520925|OTHER||||||=|0.0236|||||||ANCOVA|Changes in number of daily incontinence episodes - week 4||||||=0.0236
82406615|NCT03575702|164520925|OTHER||||||<|0.0001|||||||ANCOVA|Changes in number of daily incontinence episodes - week 8||||||<0.0001
82406616|NCT03575702|164520925|OTHER||||||=|0.0018|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 2||||||=0.0018
82406617|NCT03575702|164520925|OTHER||||||=|0.3835|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 4||||||=0.3835
82406618|NCT03575702|164520925|OTHER||||||=|0.0088|||||||ANCOVA|Changes in daytime number of daily incontinence episodes - week 8||||||=0.0088
82406619|NCT03575702|164520925|OTHER||||||=|0.0004|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 2||||||=0.0004
82406620|NCT03575702|164520925|OTHER||||||<|0.0001|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 4||||||<0.0001
82406621|NCT03575702|164520925|OTHER||||||<|0.0001|||||||ANCOVA|Changes in nighttime number of daily incontinence episodes - week 8||||||<0.0001
82406622|NCT03575702|164520926|OTHER|||||||0.0008|||||||ANCOVA|||||||0.0008
82406623|NCT03575702|164520927|OTHER||||||=|0.1348|||||||ANCOVA|Week 2 changes||||||=0.1348
82531463|NCT01380990|164760148|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||||
82531464|NCT01380990|164760148|SUPERIORITY||Difference in percentages|11.11|||||TWO_SIDED|95.0|-22.41|48.25||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||48.25|-22.41|
82646540|NCT02392559|165007691|SUPERIORITY||treatment difference|-35.04|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-41.79|-28.3|||repeated measures model||Treatment difference uses placebo as the reference.|||-28.30|-41.79|< 0.0001
82406624|NCT03575702|164520927|OTHER||||||=|0.3199|||||||ANCOVA|Week 4 changes||||||=0.3199
82406625|NCT03575702|164520927|OTHER||||||=|0.9537|||||||ANCOVA|Week 8 changes||||||=0.9537
82406626|NCT03575702|164520928|OTHER||||||=|0.5321|||||||t-test, 1 sided|Change week 12||||||=0.5321
82406627|NCT03575702|164520929|OTHER||||||=|0.4839|||||||t-test, 1 sided|Change week 12||||||=0.4839
82406628|NCT03575702|164520930|OTHER||||||=|0.86|||||||Chi-squared|||||||=0.86
82406629|NCT01545388|164520936|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.678|||<|0.001|TWO_SIDED|95.0|-0.868|-0.489|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-0.489|-0.868|<0.001
82531465|NCT01380990|164760148|SUPERIORITY||Difference in percentages|7.14|||||TWO_SIDED|95.0|-28.1|34.23||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study subjects.||34.23|-28.10|
82646541|NCT02392559|165007691|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82406630|NCT01545388|164520936|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.525|||<|0.001|TWO_SIDED|95.0|-0.713|-0.337|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-0.337|-0.713|<0.001
82406631|NCT01545388|164520936|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin (Δ) is set as 0.3% to show the non-inferiority of metformin 500 mg q.d. to metformin 250 mg b.i.d.|Difference in least squares means|0.153|||||TWO_SIDED|95.0|0.0|0.306||||||||0.306|0.000|
82406632|NCT01545388|164520937|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.59|||<|0.001|TWO_SIDED|95.0|-25.94|-11.24|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-11.24|-25.94|<0.001
82406633|NCT01545388|164520937|SUPERIORITY_OR_OTHER||Difference in least squares means|-16.34|||<|0.001|TWO_SIDED|95.0|-23.62|-9.06|||cLDA|Based on a cLDA model with the terms listed above and a constraint that the mean baseline is the same for all treatment groups.||||-9.06|-23.62|<0.001
82406634|NCT01545388|164520937|SUPERIORITY_OR_OTHER||Difference in least squares mean|2.25|||||TWO_SIDED|95.0|-3.63|8.14||||||||8.14|-3.63|
82406635|NCT01255163|164520958|OTHER|||||||0.016||||||threshold for significance (p \< 0.05)|Fisher Exact|||||||0.016
82406636|NCT01255163|164520959|OTHER|||||||0.098||||||"Threshold for statistical significance p \< 0.05.~Type III Tests of Fixed Effects Group \* VisitLong F (6, 52.008) = 1.902, p = 0.098"|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED MMSE.tot BY Group Sex VisitLong WITH Age~* CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE)~* FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3)~* METHOD=REML~* PRINT=SOLUTION~* REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1)~* EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.098
82406637|NCT01255163|164520960|OTHER|||||||0.295||||||"Threshold for statistical significance p \< 0.05.~Type III Tests of Fixed Effects for Group\*VisitLong F (6, 52.281) = 1.254, p = 0.295"|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED ADAS70 BY Group Sex VisitLong WITH Age~* CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE)~* FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3)~* METHOD=REML~* PRINT=SOLUTION~* REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1)~* EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI)~* EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.295
82446269|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||86.18|TWO_SIDED|95.0|0.95|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.95|86.18
82446270|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.16||||98.89|TWO_SIDED|95.0|1.02|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|1.02|98.89
82446271|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||91.94|TWO_SIDED|95.0|0.97|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.97|91.94
82446272|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||55.32|TWO_SIDED|95.0|0.88|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.88|55.32
82446273|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||97.17|TWO_SIDED|95.0|1.0|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|1.00|97.17
82446274|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||96.57|TWO_SIDED|95.0|0.99|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.99|96.57
82446275|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||79.13|TWO_SIDED|95.0|0.9|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.90|79.13
82446276|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||99.54|TWO_SIDED|95.0|1.05|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|1.05|99.54
82531466|NCT01380990|164760148|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||||
82531467|NCT01380990|164760148|SUPERIORITY||Difference in percentages|11.11|||||TWO_SIDED|95.0|-10.01|48.25||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||48.25|-10.01|
82531468|NCT01380990|164760148|SUPERIORITY||Difference in percentages|7.14|||||TWO_SIDED|95.0|-12.91|33.87||||||Percentage of patients with OS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with OS at 3-years post-treatment with OTL-101\* (on study and CUP). Results are reported as percentage difference in OS of historical control group from OTL-101\* on-study and CUP subjects.||33.87|-12.91|
82646542|NCT02392559|165007692|SUPERIORITY||treatment difference|-32.47|STANDARD_ERROR_OF_MEAN|3.21|<|0.0001|TWO_SIDED|95.0|-38.82|-26.13|||repeated measures model||Treatment difference uses placebo as the reference.|||-26.13|-38.82|< 0.0001
82531469|NCT01380990|164760149|SUPERIORITY||||||=|0.645|||||||Log Rank|||||||=0.645
82531470|NCT01380990|164760149|SUPERIORITY||||||=|0.299|||||||Log Rank|||||||=0.299
82446277|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||97.8|TWO_SIDED|95.0|1.0|1.3||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.30|1.00|97.80
82406638|NCT01255163|164520961|OTHER|||||||0.141||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (6, 47.485) = 1.704, p = 0.141|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED CDR BY Group Sex VisitLong WITH Age~CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.141
82406639|NCT01255163|164520962|OTHER|||||||0.031||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects: Group \* VisitLong F (6, 51.955) = 2.553, p = 0.031. Univarate Exendin-4 F(3, 51.386) = 2.734, p = 0.053. Pairwise for Exendin-4, baseline vs. 18 months (p = 0.035).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED CDR.sob BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.031
82406640|NCT01255163|164520963|OTHER|||||||0.703||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (2, 15.251) = 0.360, p = 0.703.|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED TAU BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.703
82446278|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||71.94|TWO_SIDED|95.0|0.91|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.91|71.94
82446279|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||85.3|TWO_SIDED|95.0|0.94|1.23||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.23|0.94|85.30
82446280|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||82.15|TWO_SIDED|95.0|0.94|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.94|82.15
82531471|NCT01380990|164760149|SUPERIORITY||||||=|0.2|||||||Log Rank|||||||= 0.2
82531472|NCT01380990|164760149|SUPERIORITY||||||=|0.028|||||||Log Rank|||||||= 0.028
82531473|NCT01380990|164760149|SUPERIORITY||||||=|0.259|||||||Log Rank|||||||= 0.259
82531474|NCT01380990|164760149|SUPERIORITY||||||=|0.044|||||||Log Rank|||||||= 0.044
82576290|NCT02209181|164862058|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.64||0.002|TWO_SIDED|95.0|-3.21|-0.69||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.69|-3.21|0.002
82646543|NCT02392559|165007692|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82646544|NCT02392559|165007693|SUPERIORITY||treatment difference|-30.3|STANDARD_ERROR_OF_MEAN|3.09|<|0.0001|TWO_SIDED|95.0|-36.4|-24.21|||repeated measures model||Treatment difference uses placebo as the reference.|||-24.21|-36.40|< 0.0001
82531475|NCT01380990|164760149|SUPERIORITY||Difference in percentages|10.0|||||TWO_SIDED|95.0|-32.05|61.97||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||61.97|-32.05|
82531476|NCT01380990|164760149|SUPERIORITY||Difference in percentages|30.0|||||TWO_SIDED|95.0|-10.72|65.87||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 3-years post treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||65.87|-10.72|
82576291|NCT02209181|164862058|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.77|STANDARD_ERROR_OF_MEAN|0.65||0.235|TWO_SIDED|95.0|-0.5|2.04||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.04|-0.50|0.235
82406641|NCT01255163|164520964|OTHER|||||||0.845||||||Threshold for statistical significance p \< 0.05. Type III Tests of Fixed Effects Group \* VisitLong F (2, 15.828) = 0.170, p = 0.845.|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED pTAU BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.845
82406642|NCT01255163|164520965|OTHER|||||||0.018||||||Type III Tests of Fixed Effects: Group \* VisitLong F (2, 16.614) = 5.142, p = 0.018. Univariate tests: Placebo F(1, 16.595) = 4.138, p = 0.058; Exendin-4 F(1, 16.595) = 6.262, p = 0.022. Pairwise for Exendin-4, baseline vs. 18 months (p = 0.022).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline,18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED Ab42 BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.018
82406643|NCT01255163|164520966|OTHER|||||||0.009||||||Type III Tests of Fixed Effects: Group \* VisitLong F (8, 72.603) = 2.816, p = 0.009. Univarate Exendin-4 F(4, 72.944) = 4.834, p = 0.002. Pairwise comparisons for Exendin-4 showed a decrease in BMI baseline vs. 6 months (p = 0.029).|Mixed Models Analysis|Repeated measures mixed model with Repeated Factor (Visit Long: baseline, 6, 12, 18 months), Fixed Factors (Group,VisitLong, Sex) and Covariate (Age)|||"MIXED BMI BY Group Sex VisitLong WITH Age CRITERIA=CIN(95) MXITER(100) MXSTEP(10) SCORING(1) SINGULAR(0.000000000001) HCONVERGE(0, ABSOLUTE) LCONVERGE(0, ABSOLUTE) PCONVERGE(0.000001, ABSOLUTE) FIXED=Group Sex Age Group\*VisitLong \| SSTYPE(3) METHOD=REML PRINT=SOLUTION REPEATED=VisitLong \| SUBJECT(SubjectID) COVTYPE(AR1) EMMEANS=TABLES(Group) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Sex) COMPARE ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(Group) ADJ(BONFERRONI) EMMEANS=TABLES(Group\*VisitLong) COMPARE(VisitLong) ADJ(BONFERRONI) ."|||0.009
82406644|NCT02756910|164520969|OTHER||percentile method|0.5|STANDARD_DEVIATION|1.96|<|0.05|TWO_SIDED|95.0|||||bootstrapping|||||||<0.05
82406645|NCT00791999|164520970|SUPERIORITY_OR_OTHER||||||<|0.025||95.0||||Wald p-values(vs. placebo) for the comparison of the treatment groups have been calculated using logistic regression with factors for treatment.|Regression, Logistic|||For ACR20 responder rate at Week 12, treatment comparisons versus placebo for the two CDP870 dose groups, the CDP870 200 mg group the CDP870 400 mg, were performed. The ACR20 responder rate in the CDP870 100 mg group was used for the secondary analysis.||||<0.025
82406646|NCT00791999|164520971|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Wald p-values(vs. placebo) for the comparison of the treatment groups have been calculated using logistic regression with factors for treatment.|Regression, Logistic|||||||<0.05
82406647|NCT00248651|164520977|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|||Overall treatment effect from logistic regression model incorporating balancing factors. A p-value of \<0.05 was considered statistically significant.||||0.05
82406648|NCT00248651|164520980|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||Comparison between antidepressant arms and placebo for overall quality of life. A p-value of \<0.05 was considered statistically significant.||||0.02
82406649|NCT00248651|164520980|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Eat/Drink subscale. A p-value of \<0.05 was considered statistically significant.||||0.06
82406650|NCT00248651|164520980|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Interference subscale. A p-value of \<0.05 was considered statistically significant.||||0.06
82406651|NCT00248651|164520980|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Sleep Disturbance subscale. A p-value of \<0.05 was considered statistically significant.||||0.01
82406652|NCT00248651|164520980|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANCOVA|||Comparison between antidepressant arms and placebo for Work/Study subscale. A p-value of \<0.05 was considered statistically significant.||||0.04
82406653|NCT02357459|164520982|SUPERIORITY|The analysis included all study weeks of data, and was not confined to only that at Baseline and Week 12. Descriptive statistics included number of observations, unadjusted mean, standard deviation, median, minimum and maximum, and baseline adjusted means from the mixed model. Treatment differences from control was presented, and estimated via least squares means from the analysis model along with 95% confidence intervals and associated 2-sided p-values.|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.47|-0.49||The threshold for significance was \<0.05.|longitudinal mixed repeated measures|||||-0.49|-1.47|<0.0001
82406654|NCT03246347|164520996|SUPERIORITY||Proportion|0.6111|||<|0.001|TWO_SIDED|95.0|0.4346|0.7686|||One-sided test for binomial proportions|||The 12-month PSA CR rate with ADT + docetaxel is 27.7% (Sweeney 2015); we estimated that the lower limit of the 95% CI was 23.4%. We sought to test the null hypothesis that the 52-week PSA CR rate for subjects treated with study therapy was \<=25%. We anticipated enrolling 39 subjects and this design would provide 90% power with a 1-sided alpha =0.10 significance level, assuming the true 52-week PSA CR rate was 45%. An improvement from 25% to 45% in 52-week PSA CR rate was considered important.||.7686|.4346|<0.001
82406655|NCT01548599|164521005|SUPERIORITY||Odds Ratio, log|2.028||||0.002|TWO_SIDED|95.0|0.766|3.289|||Mixed Models Analysis|||||3.289|0.766|0.002
82406656|NCT01548599|164521006|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82406657|NCT01548599|164521007|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
82406658|NCT01548599|164521008|SUPERIORITY||Odds Ratio (OR)|0.261|STANDARD_ERROR_OF_MEAN|0.398||0.378|TWO_SIDED|95.0|0.013|5.165|||Mixed Models Analysis|||||5.165|0.013|0.378
82406659|NCT01548599|164521009|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82406660|NCT01548599|164521010|SUPERIORITY|||||||0.398|||||||Mixed Models Analysis|||||||0.398
82406661|NCT02674503|164521023|SUPERIORITY|||||||0.02||||||Linear fixed effect models adjusted for time in months|Regression, Linear|||||||0.02
82406662|NCT02674503|164521027|SUPERIORITY|||||||0.13|||||||Regression, Linear|Linear effects model adjusted for time (in months)||||||0.13
82646545|NCT02392559|165007693|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82406663|NCT02674503|164521029|SUPERIORITY|||||||0.02|||||||Regression, Linear|Linear mixed effects models adjusted for time (in months)||||||0.02
82406664|NCT01022203|164521036|SUPERIORITY_OR_OTHER||Slope|0.0001|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||Used Intent to Treat Analysis. General linear mixed models (GLMMs) with main effects of treatment (SAT and PFE), time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions to model the longitudinal trajectories of the outcomes, for veterans and their partners. Time was flexibly modeled. All available observations from each subject were utilized in the GLMM modeling.||||<0.0001
82406665|NCT01022203|164521037|SUPERIORITY_OR_OTHER||Slope|0.004|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Used Intent to Treat Analysis. General linear mixed models (GLMMs) with main effects of treatment (SAT and PFE), time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions to model the longitudinal trajectories of the outcomes for veterans. Time was flexibly modeled. All available observations from each subject were utilized in the GLMM modeling.||||<0.001
82406666|NCT01022203|164521038|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||General linear mixed models with main effects of treatment, time (baseline, end of treatment, and 12 week follow-up), and treatment by time interactions as described for previous analyses.||||<0.0001
82406667|NCT03163446|164521057|OTHER|Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|10.4||||0.3137|TWO_SIDED|90.0|-6.35|27.19|||Fisher Exact|||||27.19|-6.35|0.3137
82406668|NCT03163446|164521067|OTHER|P-value was ad hoc. Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|42.8||||0.0101|TWO_SIDED|90.0|14.3|71.4|||Fisher Exact|||||71.4|14.3|0.0101
82406669|NCT03163446|164521068|OTHER|P value was ad hoc. Descriptive statistics were performed.||||||0.0646|||||||Fisher Exact||||Descriptive statistics were performed.|||0.0646
82406670|NCT03163446|164521070|OTHER|P-value was ad hoc. Statistics considered descriptive as study designed to provide proof of concept and initial assessment of efficacy; not considered confirmatory.|Risk Difference (RD)|-21.3||||0.0556|TWO_SIDED|90.0|-45.1|2.5|||Fisher Exact|||||2.5|-45.1|0.0556
82406671|NCT03256578|164521147|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
82406672|NCT03256578|164521148|SUPERIORITY|||||||0.107|||||||Wilcoxon (Mann-Whitney)|||||||0.107
82406673|NCT03256578|164521149|SUPERIORITY|||||||0.847|||||||Wilcoxon (Mann-Whitney)|||||||0.847
82406674|NCT03256578|164521150|SUPERIORITY|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
82406675|NCT03256578|164521151|SUPERIORITY|||||||0.346|||||||Wilcoxon (Mann-Whitney)|||||||0.346
82406676|NCT03256578|164521152|SUPERIORITY|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||||||0.094
82406677|NCT03256578|164521153|SUPERIORITY|||||||0.656|||||||Wilcoxon (Mann-Whitney)|||||||0.656
82406678|NCT03256578|164521154|SUPERIORITY|||||||0.434|||||||Wilcoxon (Mann-Whitney)|||||||0.434
82406679|NCT03256578|164521155|SUPERIORITY|||||||0.903|||||||Wilcoxon (Mann-Whitney)|||||||0.903
82406680|NCT03256578|164521156|SUPERIORITY|||||||0.699|||||||Chi-squared|||||||0.699
82406681|NCT03256578|164521157|SUPERIORITY|||||||0.231|||||||Chi-squared|||||||0.231
82406682|NCT03256578|164521158|SUPERIORITY||Risk Ratio (RR)|0.593||||0.283|TWO_SIDED|95.0|0.225|1.561|||Chi-squared|||||1.561|0.225|0.283
82646546|NCT02392559|165007694|SUPERIORITY||treatment difference|-36.38|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|95.0|-42.97|-29.8|||repeated measures model||Treatment difference uses placebo as the reference.|||-29.80|-42.97|< 0.0001
82406683|NCT03256578|164521159|SUPERIORITY||Risk Ratio (RR)|1.864||||0.168|TWO_SIDED|95.0|0.756|4.599|||Chi-squared|||||4.599|0.756|0.168
82406684|NCT03256578|164521160|SUPERIORITY||Risk Ratio (RR)|0.67||||0.024|TWO_SIDED|95.0|0.474|0.947|||Chi-squared|||||0.947|0.474|0.024
82406685|NCT03256578|164521161|SUPERIORITY|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
82406686|NCT03256578|164521162|SUPERIORITY|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||||||0.342
82406687|NCT03256578|164521163|SUPERIORITY|||||||0.431|||||||Wilcoxon (Mann-Whitney)|||||||0.431
82406688|NCT03256578|164521165|SUPERIORITY||Risk Ratio (RR)|1.059||||0.518|TWO_SIDED|95.0|0.854|1.313|||Chi-squared|||||1.313|0.854|0.518
82406689|NCT03256578|164521166|SUPERIORITY||Risk Ratio (RR)|0.951||||0.855|TWO_SIDED|95.0|0.555|1.629|||Chi-squared|||||1.629|0.555|0.855
82406690|NCT03256578|164521167|SUPERIORITY||Risk Ratio (RR)|0.994||||0.524|TWO_SIDED|95.0|0.834|1.186|||Chi-squared|||||1.186|0.834|0.524
82406691|NCT03256578|164521168|SUPERIORITY||Risk Ratio (RR)|0.649||||0.28|TWO_SIDED|95.0|0.294|1.434|||Chi-squared|||||1.434|0.294|0.280
82406692|NCT03256578|164521169|SUPERIORITY||Risk Ratio (RR)|1.393||||0.339|TWO_SIDED|95.0|0.703|2.76|||Chi-squared|||||2.760|0.703|0.339
82406693|NCT03256578|164521170|SUPERIORITY|||||||0.486|||||||Chi-squared|||||||0.486
82406694|NCT03256578|164521171|SUPERIORITY|||||||0.655|||||||Chi-squared|||||||0.655
82406695|NCT03256578|164521172|SUPERIORITY||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.99|1.02|||Chi-squared|||||1.02|0.99|1.00
82406696|NCT02371616|164521173|NON_INFERIORITY|Inferences: upper end of the 2-sided 95% CI for the treatment difference for the estimated effect of Test relative to Comparator, for success, should be \<=6mm. (i.e., Test is no more than 6mm inferior to Comparator).|Least square (LS) mean difference|2.67||||0.2678|TWO_SIDED|95.0|-2.06|7.4||From ANCOVA model: change from baseline as the response variable, treatment group, baseline Schiff stratum and study site as fixed effects, with baseline VAS score as covariate.|ANCOVA||Difference is first named treatment minus second named dentifrice such that a negative difference favors the first named treatment.|Statistical analysis applies to change from baseline at week 8 for test and comparator dentifrice.||7.40|-2.06|0.2678
82406697|NCT00754741|164521181|SUPERIORITY_OR_OTHER|||||||0.763|TWO_SIDED||||||ANOVA|||||||0.763
82406698|NCT00754741|164521181|SUPERIORITY_OR_OTHER|||||||0.285|TWO_SIDED||||||ANOVA|||||||0.285
82406699|NCT00754741|164521182|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||ANOVA|||||||0.380
82406700|NCT00754741|164521182|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||ANOVA|||||||0.084
82646547|NCT02392559|165007694|SUPERIORITY||||||<|0.0001||||||Adjusted p-value based on a combination of sequential testing and the Hochberg procedure to control the overall significance level for all primary and secondary endpoints.|sequential testing/Hochberg procedure|Adjusted p-value is compared to 0.05 to determine statistical significance.||||||< 0.0001
82646548|NCT00828516|165007763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_DEVIATION|0.96|<|0.001||95.0||||This was not adjusted for multiple comparisons|t-test, 2 sided||"MYMOP uses a 7-point scale, from 0 to 6, with 0 as good as it can be, and 6 as bad as it can be. Higher values represent a worse outcome."|There will be no improvement in MYMOP profile score after 6 acupuncture treatments.||||<0.001
82646549|NCT00828516|165007764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|STANDARD_DEVIATION|0.94|<|0.001||95.0||||There will be no improvement in MYMOP profile score after 12 treatments|t-test, 2 sided||"MYMOP uses a 7-point scale, from 0 to 6, with 0 as good as it can be, and 6 as bad as it can be. Higher values represent a worse outcome."|||||<0.001
82646550|NCT01556165|165007765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.32||0.0254|TWO_SIDED|75.0|-4.53|-1.47||No adjustments for multiple comparisons were made.|ANCOVA|||This study was designed to show a trend, that is, to show a clinical difference in the primary efficacy analysis, at a two-sided significance level of 0.25. Assuming a difference between rasagiline and placebo of a 3-point change in the UPDRS total score and a standard deviation on the change from baseline of 7 points, a sample size of 60 patients per treatment group gave an 88% probability of showing a trend. LOCF (last observation carried forward) was used.||-1.47|-4.53|0.0254
82646551|NCT01556165|165007766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.21||0.0032|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||-0.21|-1.03|0.0032
82646552|NCT01556165|165007767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.52||0.1963|TWO_SIDED|95.0|-1.7|0.35|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||0.35|-1.70|0.1963
82646553|NCT01556165|165007768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.91||0.0641|TWO_SIDED|95.0|-3.52|0.1|||ANCOVA|The same ANCOVA methodology as for the primary endpoint was used.||LOCF (last observation carried forward) was used.||0.10|-3.52|0.0641
82646554|NCT02787746|165007794|OTHER||Odds Ratio (OR)|0.988||||0.9744|TWO_SIDED|95.0|0.466|2.095|||Regression, Logistic|||Age (\>75y vs ≤75y）||2.095|0.466|0.9744
82646555|NCT02787746|165007794|OTHER||Odds Ratio (OR)|3.42||||0.3288|TWO_SIDED|95.0|0.29|40.354|||Regression, Logistic|||APOE ɛ4 (carrier vs non-carrier)||40.354|0.290|0.3288
82646556|NCT02787746|165007794|OTHER||Odds Ratio (OR)|2.107||||0.5732|TWO_SIDED|95.0|0.158|28.171|||Regression, Logistic|||Concomitant medication：Gastrointestinal drugs||28.171|0.158|0.5732
82646557|NCT02787746|165007794|OTHER||Odds Ratio (OR)|0.976||||0.9694|TWO_SIDED|95.0|0.281|3.387|||Regression, Logistic|||Concomitant medication：Hypoglycemic drugs||3.387|0.281|0.9694
82646558|NCT02787746|165007794|OTHER||Odds Ratio (OR)|2.221||||0.0396|TWO_SIDED|95.0|1.039|4.748|||Regression, Logistic|||Concomitant medication：Cardiovascular and Cerebrovascular drugs||4.748|1.039|0.0396
82646559|NCT02787746|165007794|OTHER||Odds Ratio (OR)|2.056||||0.5889|TWO_SIDED|95.0|0.151|28.074|||Regression, Logistic|||Concomitant medication：Hepatology drugs||28.074|0.151|0.5889
82646560|NCT02787746|165007794|OTHER||Odds Ratio (OR)|1.004||||0.1181|TWO_SIDED|95.0|0.999|1.008|||Regression, Logistic|||Duration of previous donepezil 5mg/d therapy (day)||1.008|0.999|0.1181
82646561|NCT04876482|165007831|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|-10.76|||<|0.05|TWO_SIDED||||||Regression, Linear|||"We hypothesized that the improvements in the AHI would be higher in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).~."||||<0.05
82646562|NCT04876482|165007832|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.05|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the upper airway volume would be higher in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646563|NCT04876482|165007833|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|0.275|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the minimal area on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls)||||<0.05
82646564|NCT04876482|165007834|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|-0.14|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the anteror to posterior distance on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646565|NCT04876482|165007835|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the lateral distance on the tip of epiglottis would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646566|NCT04876482|165007836|OTHER|Baseline characteristics among the study groups were compared using Fisher exact test for categorical variables. McNemar chi-square test used for within-group analysis.|Number and percentage|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||We hypothesized that TORS followed by OPR would improve upper airway obstruction more compared with TORS alone and conservative treatment (control).||||<0.05
82648009|NCT01946282|165011375|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.59|||||||Chi-squared|||||||0.59
82646567|NCT04876482|165007837|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.23|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the jaw opening muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82406701|NCT00754741|164521183|SUPERIORITY_OR_OTHER|||||||0.667|TWO_SIDED||||||ANOVA|||||||0.667
82406702|NCT00754741|164521183|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANOVA|||||||0.530
82406703|NCT00754741|164521184|SUPERIORITY_OR_OTHER|||||||0.881|TWO_SIDED||||||ANOVA|||||||0.881
82406704|NCT00754741|164521184|SUPERIORITY_OR_OTHER|||||||0.849|TWO_SIDED||||||ANOVA|||||||0.849
82406705|NCT00754741|164521185|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED||||||Chi-squared|||||||0.134
82406706|NCT00754741|164521185|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Chi-squared|||||||0.714
82406707|NCT00754741|164521186|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED||||||ANOVA|||||||0.291
82406708|NCT00754741|164521186|SUPERIORITY_OR_OTHER|||||||0.968|TWO_SIDED||||||ANOVA|||||||0.968
82406709|NCT00754741|164521187|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||ANOVA|||||||0.671
82406710|NCT00754741|164521187|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||ANOVA|||||||0.399
82531477|NCT01380990|164760149|SUPERIORITY||Difference in percentages|23.33|||||TWO_SIDED|95.0|-15.24|54.59||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study subjects.||54.59|-15.24|
82576292|NCT02209181|164862059|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|0.65||0.001|TWO_SIDED|95.0|0.82|3.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.39|0.82|0.001
82646568|NCT04876482|165007838|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|2.45|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue protrusion muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82406711|NCT00754741|164521188|SUPERIORITY_OR_OTHER|||||||0.829|TWO_SIDED||||||ANOVA|||||||0.829
82406712|NCT00754741|164521188|SUPERIORITY_OR_OTHER|||||||0.283|TWO_SIDED||||||ANOVA|||||||0.283
82406713|NCT00754741|164521189|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED||||||ANOVA|||||||0.971
82406714|NCT00754741|164521189|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||ANOVA|||||||0.115
82406715|NCT00754741|164521190|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||ANOVA|||||||0.573
82406716|NCT00754741|164521190|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||ANOVA|||||||0.443
82406717|NCT00754741|164521191|SUPERIORITY_OR_OTHER|||||||0.469|TWO_SIDED||||||ANOVA|||||||0.469
82406718|NCT00754741|164521191|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||ANOVA|||||||0.369
82406719|NCT00754741|164521192|SUPERIORITY_OR_OTHER|||||||0.779|TWO_SIDED||||||ANOVA|||||||0.779
82406720|NCT00754741|164521192|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||ANOVA|||||||0.733
82406721|NCT00754741|164521193|SUPERIORITY_OR_OTHER|||||||0.952|TWO_SIDED||||||ANOVA|||||||0.952
82406722|NCT00754741|164521193|SUPERIORITY_OR_OTHER|||||||0.856|TWO_SIDED||||||ANOVA|||||||0.856
82406723|NCT00754741|164521194|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED||||||Chi-squared|||||||0.419
82406724|NCT00754741|164521194|SUPERIORITY_OR_OTHER|||||||0.998|TWO_SIDED||||||Chi-squared|||||||0.998
82406725|NCT04152200|164521203|OTHER|Not applied|Least Squares (LS) Mean|-33.33|STANDARD_ERROR_OF_MEAN|17.63|||TWO_SIDED|95.0|-81.82|15.16|||Mixed model repeated measures (MMRM)|||Restricted maximum likelihood (REML) based Mixed Model Repeated Measures (MMRM) was used to test against the null hypothesis of mean change from baseline outcome being equal to 0. The model includes scheduled visits and baseline plasma oxalate (μmol/L) as fixed effects and patient as a random factor. Autoregressive (1) was used to model the within-patient variability.||15.16|-81.82|
82406726|NCT04152200|164521204|OTHER|Not applied|Least Squares (LS) Mean|-42.43|STANDARD_ERROR_OF_MEAN|3.95|||TWO_SIDED|95.0|-50.71|-34.15|||MMRM|||REML based Mixed Model Repeated Measures MMRM was used to test against the null hypothesis of mean change from baseline outcome being equal to 0. The model includes scheduled visits and baseline plasma oxalate (μmol/L) as fixed effects and patient as a random factor. Autoregressive (1) was used to model the within-patient variability.||-34.15|-50.71|
82406727|NCT00593814|164521248|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82406728|NCT02699996|164521253|SUPERIORITY||Mean Difference (Final Values)|0.52|||<|0.01|TWO_SIDED|95.0|0.17|0.86|||t-test, 2 sided|df = 14||RTQ-Survivor Adolescent Responsibility Score||0.86|0.17|<.01
82406729|NCT02699996|164521253|SUPERIORITY||Mean Difference (Final Values)|0.67|||<|0.01|TWO_SIDED|95.0|0.27|1.07|||t-test, 2 sided|df=14||RTQ-Overall Readiness Score||1.07|0.27|<.01
82406730|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.02|TWO_SIDED|95.0|0.05|0.42|||t-test, 2 sided|df=14||TRI-total Score||0.42|0.05|0.02
82406731|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.49|||<|0.01|TWO_SIDED|95.0|0.26|0.73|||t-test, 2 sided|df=14||TRI Knowledge score||0.73|0.26|<.01
82406732|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.053|TWO_SIDED|95.0|-0.0044|0.6|||t-test, 2 sided|df=14||TRI Skills/Self-Efficacy Score||0.60|-0.0044|0.053
82406733|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.03|TWO_SIDED|95.0|0.02|0.24|||t-test, 2 sided|df=14||TRI Beliefs/Expectations score||0.24|0.02|0.03
82406734|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.01|TWO_SIDED|95.0|0.11|0.69|||t-test, 2 sided|df=14||TRI Goals/Motivation score||0.69|0.11|<.01
82406735|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.61|TWO_SIDED|95.0|-0.16|0.26|||t-test, 2 sided|df=14||Relationship/Communication Score||0.26|-0.16|0.61
82406736|NCT02699996|164521254|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.65|TWO_SIDED|95.0|-0.37|0.57|||t-test, 2 sided|df=14||TRI Psychosocial/Emotional Score||0.57|-0.37|0.65
82646569|NCT04876482|165007839|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|4.81|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue elevation muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646570|NCT04876482|165007840|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|7.01|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue depression muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646571|NCT04876482|165007841|OTHER|The Overall Number of Participants Analyzed do not appear to be equal, so we used linear regrssion to compare the mean difference among three groups.|Mean Difference (Final Values)|3.67|||<|0.05|TWO_SIDED||||||Regression, Linear|||We hypothesized that the improvements in the tongue lateralization muscle strength would be more in patients who underwent TORS combined with OPR than in those who underwent only TORS and those who received conservative treatment (controls).||||<0.05
82646572|NCT00802529|165007883|SUPERIORITY_OR_OTHER|||||||0.271||||||P-value for Drug x Time interaction.|ANOVA|Time: 2 degrees of freedom (Baseline vs 18-24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.271
82646573|NCT00802529|165007884|SUPERIORITY_OR_OTHER|||||||0.964||||||P-value for Drug x Time interaction.|ANOVA|Time: 6 degrees of freedom (Baseline, 1, 2, 6, 12, 18 and 24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.964
82646574|NCT00802529|165007885|SUPERIORITY_OR_OTHER|||||||0.128||||||P-value for Drug x Time interaction.|ANOVA|Time: 5 degrees of freedom (Baseline, 1, 2, 6, 12 and 24 months) Drug: 2 degrees of freedom (Gentamicin vs steroid)||||||0.128
82646575|NCT00337129|165007886|SUPERIORITY_OR_OTHER||Response probability|0.05|||||TWO_SIDED|95.0|0.01|0.17|||two-stage binomial|||Null hypothesis: response probability \< 5%; alternative hypothesis: response probability \> 20%. A two-stage design was used. If no responses among the first 20 patients, the study would be terminated with the conclusion that E7389 is inactive. However, if at least one response was seen then an additional 20 patients would be accrued. Five or more responses out of 40 would be considered evidence that E7389 warranted further study. This design had a significance level of 5% and a power of 92%.||0.17|0.01|
82646576|NCT01467570|165007897|NON_INFERIORITY_OR_EQUIVALENCE|The differences between study groups were considered significant when the p value was \<0.05 or when the 95% CI for RD or MD did not include 0 (equivalent to p \< 0.05).||||||0.28|||||||t-test, 1 sided|||||||0.28
82646577|NCT03372369|165007923|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the contraceptive knowledge score for the CDC poster between baseline and followup is 0.||||<0.0001
82406737|NCT02699996|164521255|SUPERIORITY||Median Difference (Final Values)|-1.64||||0.56|TWO_SIDED|95.0|-7.62|4.34|||t-test, 2 sided|df = 13||||4.34|-7.62|.56
82646578|NCT03372369|165007923|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the contraceptive knowledge score for the patient-centered poster between baseline and followup is 0.||||<0.0001
82646579|NCT03372369|165007923|SUPERIORITY||||||<|0.0001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the contraceptive knowledge score between baseline and followup than the CDC poster.||||<0.0001
82646580|NCT03372369|165007924|SUPERIORITY||||||<|0.001||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the effective contraception preference score for the CDC poster between baseline and followup is 0.||||<0.001
82646581|NCT03372369|165007924|SUPERIORITY||||||<|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the effective contraception preference score for the patient-centered poster between baseline and followup is 0.||||<0.01
82646582|NCT03372369|165007924|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the effective contraception preference score between baseline and followup than the CDC poster.||||>0.01
82646583|NCT03372369|165007925|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the perceived pregnancy risk score for the CDC poster between baseline and followup is 0.||||>0.01
82646584|NCT03372369|165007925|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the perceived pregnancy risk score for the patient-centered poster between baseline and followup is 0.||||>0.01
82646585|NCT03372369|165007925|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the perceived pregnancy risk score between baseline and followup than the CDC poster.||||>0.01
82406738|NCT02699996|164521256|SUPERIORITY||Mean Difference (Final Values)|-1.74||||0.42|TWO_SIDED|95.0|-6.23|2.75|||t-test, 2 sided|df = 14||||2.75|-6.23|.42
82406739|NCT02699996|164521257|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.26|TWO_SIDED|95.0|-0.8|0.23|||t-test, 2 sided|df = 14||||0.23|-0.80|.26
82406740|NCT02699996|164521258|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.03|TWO_SIDED|95.0|0.03|0.52|||t-test, 2 sided|df = 14||||0.52|0.03|.03
82646586|NCT03372369|165007926|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the accuracy of perceived pregnancy risk score for the CDC poster between baseline and followup is 0.||||>0.01
82406741|NCT02699996|164521259|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.2|TWO_SIDED|95.0|-0.12|0.52|||t-test, 2 sided|df = 14||Body Health Subscale||0.52|-0.12|.20
82406742|NCT02699996|164521259|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.4|TWO_SIDED|95.0|-0.46|0.2|||t-test, 2 sided|df = 14||Personal Growth Subscale||0.20|-0.46|.40
82406743|NCT02699996|164521259|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.29|TWO_SIDED|95.0|-0.09|0.29|||t-test, 2 sided|df = 14||Memory Subscale||0.29|-0.09|.29
82406744|NCT02699996|164521260|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.08|TWO_SIDED|95.0|-0.4|0.03|||t-test, 2 sided|df = 14||||0.03|-0.40|.08
82406745|NCT01921517|164521261|SUPERIORITY|||||||0.0481|||||||t-test, 2 sided|||||||0.0481
82406746|NCT03205150|164521279|SUPERIORITY||Mean Difference (Net)|-13.29|STANDARD_ERROR_OF_MEAN|7.35||0.075|TWO_SIDED|80.0|-22.8|-3.78|||ANCOVA|||||-3.78|-22.80|0.075
82406747|NCT03205150|164521279|SUPERIORITY||Mean Difference (Net)|-21.64|STANDARD_ERROR_OF_MEAN|7.49||0.005|TWO_SIDED|80.0|-31.33|-11.94|||ANCOVA|||||-11.94|-31.33|0.005
82406748|NCT03205150|164521279|SUPERIORITY||Mean Difference (Net)|8.35|STANDARD_ERROR_OF_MEAN|6.14||0.178|TWO_SIDED|80.0|0.41|16.29|||ANCOVA|||||16.29|0.41|0.178
82406749|NCT03205150|164521280|SUPERIORITY||Mean Difference (Net)|-1.73|STANDARD_ERROR_OF_MEAN|1.45||0.235|TWO_SIDED|80.0|-3.6|0.14|||ANCOVA|||||0.14|-3.60|0.235
82406750|NCT03205150|164521280|SUPERIORITY||Mean Difference (Net)|-4.26|STANDARD_ERROR_OF_MEAN|1.46||0.004|TWO_SIDED|80.0|-6.14|-2.37|||ANCOVA|||||-2.37|-6.14|0.004
82406751|NCT03205150|164521280|SUPERIORITY||Mean Difference (Net)|2.52|STANDARD_ERROR_OF_MEAN|1.19||0.037|TWO_SIDED|80.0|0.98|4.07|||ANCOVA|||||4.07|0.98|0.037
82446281|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||72.55|TWO_SIDED|95.0|0.88|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.88|72.55
82406752|NCT03205150|164521281|SUPERIORITY||Mean Difference (Net)|-3.15|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|80.0|-4.22|-2.08|||ANCOVA|||||-2.08|-4.22|<.001
82406753|NCT03205150|164521281|SUPERIORITY||Mean Difference (Net)|-4.18|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|80.0|-5.28|-3.08|||ANCOVA|||||-3.08|-5.28|<.001
82406754|NCT03205150|164521281|SUPERIORITY||Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|0.71||0.148|TWO_SIDED|80.0|0.12|1.94|||ANCOVA|||||1.94|0.12|0.148
82406755|NCT03205150|164521289|SUPERIORITY||Mean Difference (Net)|-11.15|STANDARD_ERROR_OF_MEAN|4.36||0.013|TWO_SIDED|80.0|-16.79|-5.5|||ANCOVA|||||-5.50|-16.79|0.013
82406756|NCT03205150|164521289|SUPERIORITY||Mean Difference (Net)|-14.71|STANDARD_ERROR_OF_MEAN|4.43||0.001|TWO_SIDED|80.0|-20.43|-8.98|||ANCOVA|||||-8.98|-20.43|0.001
82406757|NCT03205150|164521289|SUPERIORITY||Mean Difference (Net)|3.56|STANDARD_ERROR_OF_MEAN|3.65||0.332|TWO_SIDED|80.0|-1.15|8.28|||ANCOVA|||||8.28|-1.15|0.332
82406758|NCT00871624|164521290|NON_INFERIORITY_OR_EQUIVALENCE|A difference in the mean four-point NIV intolerance score of 1 over the course of the study or between groups was considered through investigator consensus to be clinically meaningful. Assuming that the SD of NIV intolerance scores was 1 and that an alpha of 0.05 would be used for testing, it was determined that 18 subjects were needed in each group to achieve an 80% power.|Odds Ratio (OR)|1.44||||0.54|TWO_SIDED|95.0|0.44|4.7|||Chi-squared|||||4.7|0.44|0.54
82406759|NCT00871624|164521291|OTHER|||||||0.3|||||||Chi-squared|||||||0.3
82406760|NCT00129441|164521307|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
82406761|NCT00129441|164521308|SUPERIORITY_OR_OTHER|||||||0.162||95.0|||||ANOVA|||||||0.162
82406762|NCT00129441|164521309|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||||||0.12
82406763|NCT00129441|164521310|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82406764|NCT00129441|164521311|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||ANOVA|||||||0.249
82406765|NCT00129441|164521312|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|||At week 4, mean BPRS total scores were nearly the same for the placebo group and L-830982 group as a result of a significant reduction in positive symptoms reported for the placebo group (F=9.12, df=1,13, p=0.01). For the L-830982-treated group, neither total BPRS scores nor any of the factor scores changed over the course of the trial.||||0.01
82406766|NCT00129441|164521313|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82406767|NCT00129441|164521314|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82406768|NCT00536510|164521375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|1.96|<|0.001||95.0|-18.6|-10.9||The significance test was 2-tailed with α=0.05|ANOVA|The efficacy analysis was performed using an ANOVA model with factors for treatment, country, gender, and stratum defined by concomitant statin use.||The primary hypothesis of superiority of MK0524A 2 g to placebo in lowering Low Density Lipoprotein Cholesterol (LDL-C) was assessed using the comparison between these 2 groups from the ANOVA model.||-10.9|-18.6|<0.001
82406769|NCT00536510|164521376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.9|STANDARD_ERROR_OF_MEAN|1.68|<|0.001||95.0|12.6|19.2||The significance test was 2-tailed with α=0.05|ANOVA|The efficacy analysis was performed using an ANOVA model with factors for treatment, country, gender, and stratum defined by concomitant statin use.||The secondary hypothesis of superiority of MK0524A 2 g to placebo in lowering High Density Lipoprotein Cholesterol (HDL-C) was assessed using the comparison between these 2 groups from the ANOVA model.||19.2|12.6|<0.001
82406770|NCT01249417|164521377|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.38||||0.0029|TWO_SIDED|95.0|-0.64|-0.13|||ANCOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, age range at baseline, BTX status at baseline and centre as covariates.||-0.13|-0.64|0.0029
82531478|NCT01380990|164760149|SUPERIORITY||Difference in percentages|15.0|||||TWO_SIDED|95.0|-13.7|63.54||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||63.54|-13.70|
82646587|NCT03372369|165007926|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the change in the accuracy of perceived pregnancy risk score for the patient-centered poster between baseline and followup is 0.||||>0.01
82646588|NCT03372369|165007926|SUPERIORITY||||||>|0.01||||||The Bonferroni correction is used to account for multiple comparisons. In this analysis, p\<0.01 is the threshold for statistical significance.|t-test, 1 sided|||The null hypothesis is that the patient-centered poster does not produce a larger increase in the accuracy of perceived pregnancy risk score between baseline and followup than the CDC poster.||||>0.01
82406771|NCT01249417|164521377|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.49||||0.0002|TWO_SIDED|95.0|-0.75|-0.23|||ANCOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANCOVA on the change from baseline with treatment, baseline MAS score, age range at baseline, BTX status at baseline and centre as covariates.||-0.23|-0.75|0.0002
82406772|NCT01249417|164521378|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|0.82|||<|0.0001|TWO_SIDED|95.0|0.5|1.14|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||1.14|0.50|<0.0001
82406773|NCT01249417|164521378|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|0.77|||<|0.0001|TWO_SIDED|95.0|0.45|1.1|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||1.10|0.45|<0.0001
82406774|NCT01249417|164521379|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|5.32||||0.0006|TWO_SIDED|95.0|2.31|8.32|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||8.32|2.31|0.0006
82406775|NCT01249417|164521379|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.65||||0.0031|TWO_SIDED|95.0|1.59|7.71|||ANOVA|||LS means for each treatment group and treatment comparisons, as well as the p-values were obtained from an ANOVA on the visit value with treatment, age range at baseline, BTX status at baseline and centre as covariates.||7.71|1.59|0.0031
82406776|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-1.54||||0.2968|TWO_SIDED|95.0|-4.44|1.37|||Student's paired t-test|||Change from Baseline at Day 1||1.37|-4.44|0.2968
82406777|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-15.36|||<|0.0001|TWO_SIDED|95.0|-19.77|-10.95|||Student's paired t-test|||Change from Baseline at Day 2||-10.95|-19.77|<.0001
82406778|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-27.27|||<|0.0001|TWO_SIDED|95.0|-33.06|-21.49|||Student's paired t-test|||Change from Baseline at Day 3||-21.49|-33.06|<.0001
82406779|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-35.05|||<|0.0001|TWO_SIDED|95.0|-41.69|-28.41|||Student's paired t-test|||Change from Baseline at Day 4||-28.41|-41.69|<.0001
82646589|NCT02239601|165007927|OTHER||Odds Ratio (OR)|0.41||||0.053|TWO_SIDED|95.0|0.17|1.01|||Mixed Models Analysis|||||1.01|0.17|0.053
82646590|NCT02613416|165007947|OTHER|||||||0.026||||||The p value was calculated.|Blyth-Still Casella Confidence Interval|||The primary hypothesis for this early phase study was that at least 30% of women would experience a \>5% relative decrease in their breast density after 6 months of treatment with denosumab 120 mg subcutaneous dose once a month.||||0.026
82648010|NCT01946282|165011375|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.75|||||||Chi-squared|||||||.75
82406780|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-38.49|||<|0.0001|TWO_SIDED|95.0|-45.87|-31.11|||Student's paired t-test|||Change from Baseline at Day 5||-31.11|-45.87|<.0001
82406781|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-39.67|||<|0.0001|TWO_SIDED|95.0|-48.46|-30.88|||Student's paired t-test|||Change from Baseline at Day 6||-30.88|-48.46|<.0001
82406782|NCT05556148|164521385|OTHER||Mean Difference (Final Values)|-52.6|||<|0.0001|TWO_SIDED|95.0|-63.69|-41.51|||Student's paired t-test|||Change from Baseline at Day 7||-41.51|-63.69|<.0001
82406783|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|0.29||||0.7112|TWO_SIDED|95.0|-1.27|1.86|||Student's paired t-test|||Change from Baseline at Day 1||1.86|-1.27|0.7112
82406784|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-6.21|||<|0.0001|TWO_SIDED|95.0|-8.51|-3.92|||Student's paired t-test|||Change from Baseline at Day 2||-3.92|-8.51|<.0001
82406785|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-12.11|||<|0.0001|TWO_SIDED|95.0|-15.0|-9.22|||Student's paired t-test|||Change from Baseline at Day 3||-9.22|-15.00|<.0001
82406786|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-15.98|||<|0.0001|TWO_SIDED|95.0|-19.24|-12.71|||Student's paired t-test|||Change from Baseline at Day 4||-12.71|-19.24|<.0001
82406787|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-19.44|||<|0.0001|TWO_SIDED|95.0|-23.29|-15.59|||Student's paired t-test|||Change from Baseline at Day 5||-15.59|-23.29|<.0001
82406788|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-19.36|||<|0.0001|TWO_SIDED|95.0|-24.03|-14.69|||Student's paired t-test|||Change from Baseline at Day 6||-14.69|-24.03|<.0001
82406789|NCT05556148|164521386|OTHER||Mean Difference (Final Values)|-25.4|||<|0.0001|TWO_SIDED|95.0|-31.87|-18.93|||Student's paired t-test|||Change from Baseline at Day 7||-18.93|-31.87|<.0001
82406790|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-1.83||||0.0481|TWO_SIDED|95.0|-3.64|-0.02|||Student's paired t-test|||Change from Baseline at Day 1||-0.02|-3.64|0.0481
82406791|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-9.14|||<|0.0001|TWO_SIDED|95.0|-11.74|-6.55|||Student's paired t-test|||Change from Baseline at Day 2||-6.55|-11.74|<.0001
82406792|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-15.16|||<|0.0001|TWO_SIDED|95.0|-18.44|-11.88|||Student's paired t-test|||Change from Baseline at Day 3||-11.88|-18.44|<.0001
82646591|NCT01398982|165007961|NON_INFERIORITY_OR_EQUIVALENCE|Based on our published prospective, nonrandomized study using TAP block in abdominally-based autologous tissue breast reconstruction, 40 patients per group would achieve 85% power to detect a 65% reduction in mean total opioid consumption between the control and study groups (significance level alpha = 0.05; using a two-sided Wilcoxon rank-sum test).||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.02
82646592|NCT01791127|165007975|SUPERIORITY|The primary endpoint 1 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 12 months) to 94.0%, with Type I error (alpha) or 0.025 and power of 80%.|||||<|0.0001|||||||Exact, binomial|||||||<0.0001
82646593|NCT01791127|165007976|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint 2 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 12 months) to 94.0%, with Type I error (alpha) or 0.025 and power of 80%.||||<0.0001
82406793|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-19.07|||<|0.0001|TWO_SIDED|95.0|-22.84|-15.3|||Student's paired t-test|||Change from Baseline at Day 4||-15.30|-22.84|<.0001
82406794|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-19.05|||<|0.0001|TWO_SIDED|95.0|-23.35|-14.75|||Student's paired t-test|||Change from Baseline at Day 5||-14.75|-23.35|<.0001
82406795|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-20.31|||<|0.0001|TWO_SIDED|95.0|-25.7|-14.92|||Student's paired t-test|||Change from Baseline at Day 6||-14.92|-25.70|<.0001
82406796|NCT05556148|164521387|OTHER||Mean Difference (Final Values)|-27.2|||<|0.0001|TWO_SIDED|95.0|-32.48|-21.92|||Student's paired t-test|||Change from Baseline at Day 7||-21.92|-32.48|<.0001
82406797|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.31|0.31|||Student's paired t-test|||Change from Baseline at Day 1||0.31|-0.31|1.0000
82406798|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-0.63||||0.0003|TWO_SIDED|95.0|-0.97|-0.3|||Student's paired t-test|||Change from Baseline at Day 2||-0.30|-0.97|0.0003
82406799|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Student's paired t-test|||Change from Baseline at Day 3||-0.70|-1.50|<.0001
82406800|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.24|||Student's paired t-test|||Change from Baseline at Day 4||-1.24|-2.20|<.0001
82406801|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.16|||Student's paired t-test|||Change from Baseline at Day 5||-1.16|-2.33|<.0001
82406802|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.51|-1.28|||Student's paired t-test|||Change from Baseline at Day 6||-1.28|-2.51|<.0001
82406803|NCT05556148|164521388|OTHER||Mean Difference (Final Values)|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.29|-1.64|||Student's paired t-test|||Change from Baseline at Day 7||-1.64|-3.29|<.0001
82406804|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-0.39||||0.0023|TWO_SIDED|95.0|-0.64|-0.14|||Student's paired t-test|||Change from Baseline at Day 1||-0.14|-0.64|0.0023
82406805|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-1.47|||<|0.0001|TWO_SIDED|95.0|-1.82|-1.12|||Student's paired t-test|||Change from Baseline at Day 2||-1.12|-1.82|<.0001
82406806|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-1.99|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.58|||Student's paired t-test|||Change from Baseline at Day 3||-1.58|-2.40|<.0001
82406807|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-2.43|||<|0.0001|TWO_SIDED|95.0|-2.86|-2.0|||Student's paired t-test|||Change from Baseline at Day 4||-2.00|-2.86|<.0001
82406808|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.51|-2.49|||Student's paired t-test|||Change from Baseline at Day 5||-2.49|-3.51|<.0001
82406809|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-2.77|||<|0.0001|TWO_SIDED|95.0|-3.36|-2.18|||Student's paired t-test|||Change from Baseline at Day 6||-2.18|-3.36|<.0001
82406810|NCT05556148|164521389|OTHER||Mean Difference (Final Values)|-3.33|||<|0.0001|TWO_SIDED|95.0|-4.1|-2.57|||Student's paired t-test|||Change from Baseline at Day 7||-2.57|-4.10|<.0001
82406811|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-0.11||||0.4495|TWO_SIDED|95.0|-0.4|0.18|||Student's paired t-test|||Change from Baseline at Day 1||0.18|-0.40|0.4495
82406812|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.54|||Student's paired t-test|||Change from Baseline at Day 2||-0.54|-1.19|<.0001
82406813|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.59|-0.82|||Student's paired t-test|||Change from Baseline at Day 3||-0.82|-1.59|<.0001
82406814|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-1.59|||<|0.0001|TWO_SIDED|95.0|-2.05|-1.12|||Student's paired t-test|||Change from Baseline at Day 4||-1.12|-2.05|<.0001
82406815|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-1.86|||<|0.0001|TWO_SIDED|95.0|-2.4|-1.33|||Student's paired t-test|||Change from Baseline at Day 5||-1.33|-2.40|<.0001
82406816|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.45|-1.24|||Student's paired t-test|||Change from Baseline at Day 6||-1.24|-2.45|<.0001
82406817|NCT05556148|164521390|OTHER||Mean Difference (Final Values)|-2.47|||<|0.0001|TWO_SIDED|95.0|-3.19|-1.75|||Student's paired t-test|||Change from Baseline at Day 7||-1.75|-3.19|<.0001
82406818|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|0.11||||0.4758|TWO_SIDED|95.0|-0.2|0.42|||Student's paired t-test|||Change from Baseline at Day 1||0.42|-0.20|0.4758
82406819|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-0.61||||0.0016|TWO_SIDED|95.0|-0.99|-0.24|||Student's paired t-test|||Change from Baseline at Day 2||-0.24|-0.99|0.0016
82406820|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.67|-0.79|||Student's paired t-test|||Change from Baseline at Day 3||-0.79|-1.67|<.0001
82406821|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.18|-1.16|||Student's paired t-test|||Change from Baseline at Day 4||-1.16|-2.18|<.0001
82406822|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.46|-1.51|||Student's paired t-test|||Change from Baseline at Day 5||-1.51|-2.46|<.0001
82406823|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-2.08|||<|0.0001|TWO_SIDED|95.0|-2.77|-1.39|||Student's paired t-test|||Change from Baseline at Day 6||-1.39|-2.77|<.0001
82406824|NCT05556148|164521391|OTHER||Mean Difference (Final Values)|-2.87|||<|0.0001|TWO_SIDED|95.0|-3.65|-2.08|||Student's paired t-test|||Change from Baseline at Day 7||-2.08|-3.65|<.0001
82531479|NCT01380990|164760149|SUPERIORITY||Difference in percentages|35.0|||||TWO_SIDED|95.0|2.29|68.45||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||68.45|2.29|
82646594|NCT01791127|165007977|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint 3 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (successful sensing and pacing rate at 12 months) to 97.0%, with Type I error (alpha) or 0.025 and power of 80%.||||<0.0001
82646595|NCT01791127|165007978|SUPERIORITY|||||||||||||||||The primary endpoint 4 hypothesis was evaluated by performing an exact, binomial test comparing a binomial proportion (AEFR at 5 years) to 92.5%, with Type I error (alpha) or 0.025 and power of 80%.|On April 15, 2019, BIOTRONIK received FDA approval to transition the ongoing SIELLO Post Approval Registry to a new EP PASSION real-world data methodology. As of study closure, the number of subjects with complete data required to perform the hypothesis test was not met. Therefore, this outcome measure was not analyzed.|||
82406825|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-0.04||||0.8017|TWO_SIDED|95.0|-0.36|0.28|||Student's paired t-test|||Change from Baseline at Day 1||0.28|-0.36|0.8017
82406826|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-0.67||||0.0005|TWO_SIDED|95.0|-1.05|-0.3|||Student's paired t-test|||Change from Baseline at Day 2||-0.30|-1.05|0.0005
82406827|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.69|-0.89|||Student's paired t-test|||Change from Baseline at Day 3||-0.89|-1.69|<.0001
82406828|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-1.41|||<|0.0001|TWO_SIDED|95.0|-1.86|-0.97|||Student's paired t-test|||Change from Baseline at Day 4||-0.97|-1.86|<.0001
82406829|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.47|||Student's paired t-test|||Change from Baseline at Day 5||-1.47|-2.50|<.0001
82406830|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-1.95|||<|0.0001|TWO_SIDED|95.0|-2.61|-1.29|||Student's paired t-test|||Change from Baseline at Day 6||-1.29|-2.61|<.0001
82406831|NCT05556148|164521392|OTHER||Mean Difference (Final Values)|-2.4|||<|0.0001|TWO_SIDED|95.0|-3.26|-1.54|||Student's paired t-test|||Change from Baseline at Day 7||-1.54|-3.26|<.0001
82406832|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|0.03||||0.8311|TWO_SIDED|95.0|-0.25|0.31|||Student's paired t-test|||Change from Baseline at Day 1||0.31|-0.25|0.8311
82406833|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-0.41||||0.0313|TWO_SIDED|95.0|-0.78|-0.04|||Student's paired t-test|||Change from Baseline at Day 2||-0.04|-0.78|0.0313
82406834|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-0.84||||0.0003|TWO_SIDED|95.0|-1.28|-0.39|||Student's paired t-test|||Change from Baseline at Day 3||-0.39|-1.28|0.0003
82646596|NCT00589693|165007998|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority will be established if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference in clinical cure rate (doripenem minus imipenem-cilastatin) is greater than 15%|Difference of 2 binomial proportions|-11.2|||||TWO_SIDED|95.0|-26.3|3.8|||Normal approximation of 2 proportions|||Null Hypothesis: The clinical cure rate of doripenem assessed at the EOT visit is more than 15% inferior to that of imipenem-cilastatin||3.8|-26.3|
82646597|NCT00589693|165007999|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|-18.8|||||TWO_SIDED|95.0|-57.2|19.5|||Normal approximation of 2 proportions|||||19.5|-57.2|
82406835|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.51|-0.59|||Student's paired t-test|||Change from Baseline at Day 4||-0.59|-1.51|<.0001
82406836|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.74|-0.66|||Student's paired t-test|||Change from Baseline at Day 5||-0.66|-1.74|<.0001
82406837|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-1.05||||0.0018|TWO_SIDED|95.0|-1.69|-0.42|||Student's paired t-test|||Change from Baseline at Day 6||-0.42|-1.69|0.0018
82406838|NCT05556148|164521393|OTHER||Mean Difference (Final Values)|-1.27||||0.0041|TWO_SIDED|95.0|-2.1|-0.43|||Student's paired t-test|||Change from Baseline at Day 7||-0.43|-2.10|0.0041
82406839|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|0.01||||0.938|TWO_SIDED|95.0|-0.25|0.27|||Student's paired t-test|||Change from Baseline at Day 1||0.27|-0.25|0.9380
82406840|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-0.37||||0.0416|TWO_SIDED|95.0|-0.72|-0.01|||Student's paired t-test|||Change from Baseline at Day 2||-0.01|-0.72|0.0416
82406841|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-0.96|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.62|||Student's paired t-test|||Change from Baseline at Day 3||-0.62|-1.29|<.0001
82406842|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.76|||Student's paired t-test|||Change from Baseline at Day 4||-0.76|-1.60|<.0001
82406843|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.27|||Student's paired t-test|||Change from Baseline at Day 5||-1.27|-2.25|<.0001
82646598|NCT00589693|165008000|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|-5.6|||||TWO_SIDED|95.0|-23.0|11.7|||Normal approximation of 2 proportions|||||11.7|-23.0|
82406844|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.05|||Student's paired t-test|||Change from Baseline at Day 6||-1.05|-2.33|<.0001
82406845|NCT05556148|164521394|OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.08|-1.52|||Student's paired t-test|||Change from Baseline at Day 7||-1.52|-3.08|<.0001
82406846|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|0.04||||0.7821|TWO_SIDED|95.0|-0.25|0.33|||Student's paired t-test|||Change from Baseline at Day 1||0.33|-0.25|0.7821
82406847|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.14|-0.39|||Student's paired t-test|||Change from Baseline at Day 2||-0.39|-1.14|<.0001
82406848|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-1.62|||<|0.0001|TWO_SIDED|95.0|-2.05|-1.19|||Student's paired t-test|||Change from Baseline at Day 3||-1.19|-2.05|<.0001
82406849|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-2.29|||<|0.0001|TWO_SIDED|95.0|-2.73|-1.86|||Student's paired t-test|||Change from Baseline at Day 4||-1.86|-2.73|<.0001
82406850|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-2.46|||<|0.0001|TWO_SIDED|95.0|-2.98|-1.94|||Student's paired t-test|||Change from Baseline at Day 5||-1.94|-2.98|<.0001
82646599|NCT00589693|165008001|SUPERIORITY_OR_OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
82406851|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-2.64|||<|0.0001|TWO_SIDED|95.0|-3.36|-1.92|||Student's paired t-test|||Change from Baseline at Day 6||-1.92|-3.36|<.0001
82406852|NCT05556148|164521395|OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.19|-2.21|||Student's paired t-test|||Change from Baseline at Day 7||-2.21|-4.19|<.0001
82406853|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|0.44||||0.0003|TWO_SIDED|95.0|0.21|0.68|||Student's paired t-test|||Change from Baseline at Day 1||0.68|0.21|0.0003
82406854|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-0.07||||0.646|TWO_SIDED|95.0|-0.38|0.24|||Student's paired t-test|||Change from Baseline at Day 2||0.24|-0.38|0.6460
82406855|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-0.59||||0.0021|TWO_SIDED|95.0|-0.95|-0.22|||Student's paired t-test|||Change from Baseline at Day 3||-0.22|-0.95|0.0021
82406856|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-0.83||||0.0002|TWO_SIDED|95.0|-1.25|-0.41|||Student's paired t-test|||Change from Baseline at Day 4||-0.41|-1.25|0.0002
82406857|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.68|-0.73|||Student's paired t-test|||Change from Baseline at Day 5||-0.73|-1.68|<.0001
82406858|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-1.36||||0.0003|TWO_SIDED|95.0|-2.04|-0.68|||Student's paired t-test|||Change from Baseline at Day 6||-0.68|-2.04|0.0003
82406859|NCT05556148|164521396|OTHER||Mean Difference (Final Values)|-2.13|||<|0.0001|TWO_SIDED|95.0|-2.95|-1.32|||Student's paired t-test|||Change from Baseline at Day 7||-1.32|-2.95|<.0001
82406860|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|0.2||||0.1074|TWO_SIDED|95.0|-0.04|0.45|||Student's paired t-test|||Change from Baseline at Day 1||0.45|-0.04|0.1074
82406861|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-0.35||||0.0364|TWO_SIDED|95.0|-0.67|-0.02|||Student's paired t-test|||Change from Baseline at Day 2||-0.02|-0.67|0.0364
82446282|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||98.44|TWO_SIDED|95.0|1.02|1.47||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Upper; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.47|1.02|98.44
82531480|NCT01380990|164760149|SUPERIORITY||Difference in percentages|28.33|||||TWO_SIDED|95.0|2.04|56.36||||||Percentage of patients with EvFS at 3-years post-treatment in the historical control groups (all historical controls) were compared to the percentage of study patients with EvFS at 3-years post-treatment with OTL-101\* (on-study and CUP). Results are reported as percentage difference in EvFS of historical control group from OTL-101\* on-study and CUP subjects.||56.36|2.04|
82646600|NCT00589693|165008002|SUPERIORITY_OR_OTHER||Difference of 2 binomial proportions|6.7|||||TWO_SIDED|95.0|-5.0|18.5|||Normal approximation of 2 proportions|||||18.5|-5.0|
82406862|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.68|-0.91|||Student's paired t-test|||Change from Baseline at Day 3||-0.91|-1.68|<.0001
82406863|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.36|||Student's paired t-test|||Change from Baseline at Day 4||-1.36|-2.25|<.0001
82406864|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.78|-1.69|||Student's paired t-test|||Change from Baseline at Day 5||-1.69|-2.78|<.0001
82406865|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-2.08|||<|0.0001|TWO_SIDED|95.0|-2.7|-1.45|||Student's paired t-test|||Change from Baseline at Day 6||-1.45|-2.70|<.0001
82406866|NCT05556148|164521397|OTHER||Mean Difference (Final Values)|-2.97|||<|0.0001|TWO_SIDED|95.0|-3.84|-2.1|||Student's paired t-test|||Change from Baseline at Day 7||-2.10|-3.84|<.0001
82406867|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-1.88|||<|0.0001|TWO_SIDED|95.0|-2.33|-1.43|||Student's paired t-test|||Day 1||-1.43|-2.33|<.0001
82406868|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-2.45|||<|0.0001|TWO_SIDED|95.0|-2.9|-2.01|||Student's paired t-test|||Day 2||-2.01|-2.90|<.0001
82406869|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.41|-2.39|||Student's paired t-test|||Day 3||-2.39|-3.41|<.0001
82406870|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.82|-2.77|||Student's paired t-test|||Day 4||-2.77|-3.82|<.0001
82406871|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-2.95|||<|0.0001|TWO_SIDED|95.0|-3.53|-2.37|||Student's paired t-test|||Day 5||-2.37|-3.53|<.0001
82406872|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-3.26|||<|0.0001|TWO_SIDED|95.0|-3.98|-2.53|||Student's paired t-test|||Day 6||-2.53|-3.98|<.0001
82406873|NCT05556148|164521398|OTHER||Mean Difference (Final Values)|-3.12|||<|0.0001|TWO_SIDED|95.0|-4.08|-2.16|||Student's paired t-test|||Day 7||-2.16|-4.08|<.0001
82406874|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.14|-1.31|||Student's paired t-test|||Day 1||-1.31|-2.14|<.0001
82406875|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-2.12|||<|0.0001|TWO_SIDED|95.0|-2.55|-1.7|||Student's paired t-test|||Day 2||-1.70|-2.55|<.0001
82406876|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.9|||Student's paired t-test|||Day 3||-1.90|-2.71|<.0001
82406877|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.23|-2.29|||Student's paired t-test|||Day 4||-2.29|-3.23|<.0001
82406878|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-2.85|||<|0.0001|TWO_SIDED|95.0|-3.31|-2.39|||Student's paired t-test|||Day 5||-2.39|-3.31|<.0001
82406879|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-3.18|||<|0.0001|TWO_SIDED|95.0|-3.72|-2.64|||Student's paired t-test|||Day 6||-2.64|-3.72|<.0001
82406880|NCT05556148|164521399|OTHER||Mean Difference (Final Values)|-3.17|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.43|||Student's paired t-test|||Day 7||-2.43|-3.90|<.0001
82406881|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.39|-1.57|||Student's paired t-test|||Day 1||-1.57|-2.39|<.0001
82646601|NCT03231709|165008003|OTHER|||||||0.0141|||||||Mainland-Gart Test|||||||0.0141
82406882|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.81|||Student's paired t-test|||Day 2||-1.81|-2.66|<.0001
82406883|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.14|-2.32|||Student's paired t-test|||Day 3||-2.32|-3.14|<.0001
82406884|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-2.91|||<|0.0001|TWO_SIDED|95.0|-3.4|-2.43|||Student's paired t-test|||Day 4||-2.43|-3.40|<.0001
82406885|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-3.17|||<|0.0001|TWO_SIDED|95.0|-3.68|-2.66|||Student's paired t-test|||Day 5||-2.66|-3.68|<.0001
82406886|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-3.28|||<|0.0001|TWO_SIDED|95.0|-4.02|-2.54|||Student's paired t-test|||Day 6||-2.54|-4.02|<.0001
82406887|NCT05556148|164521400|OTHER||Mean Difference (Final Values)|-3.47|||<|0.0001|TWO_SIDED|95.0|-4.24|-2.7|||Student's paired t-test|||Day 7||-2.70|-4.24|<.0001
82406888|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-1.96|||<|0.0001|TWO_SIDED|95.0|-2.37|-1.55|||Student's paired t-test|||Day 1||-1.55|-2.37|<.0001
82406889|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-2.42|||<|0.0001|TWO_SIDED|95.0|-2.83|-2.01|||Student's paired t-test|||Day 2||-2.01|-2.83|<.0001
82406890|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-2.97|||<|0.0001|TWO_SIDED|95.0|-3.41|-2.53|||Student's paired t-test|||Day 3||-2.53|-3.41|<.0001
82406891|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-3.34|||<|0.0001|TWO_SIDED|95.0|-3.81|-2.87|||Student's paired t-test|||Day 4||-2.87|-3.81|<.0001
82406892|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-3.36|||<|0.0001|TWO_SIDED|95.0|-3.84|-2.87|||Student's paired t-test|||Day 5||-2.87|-3.84|<.0001
82446283|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.11||||78.24|TWO_SIDED|95.0|0.86|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.86|78.24
82531481|NCT01009047|164760152|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.83||0.935|TWO_SIDED|95.0|-3.46|3.76||Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||3.76|-3.46|0.935
82406893|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-3.23|||<|0.0001|TWO_SIDED|95.0|-3.91|-2.56|||Student's paired t-test|||Change from Baseline at Day 6||-2.56|-3.91|<.0001
82406894|NCT05556148|164521401|OTHER||Mean Difference (Final Values)|-3.7|||<|0.0001|TWO_SIDED|95.0|-4.48|-2.92|||Student's paired t-test|||Day 7||-2.92|-4.48|<.0001
82406895|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-1.76|||<|0.0001|TWO_SIDED|95.0|-2.17|-1.34|||Student's paired t-test|||Day 1||-1.34|-2.17|<.0001
82406896|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-2.09|||<|0.0001|TWO_SIDED|95.0|-2.51|-1.67|||Student's paired t-test|||Day 2||-1.67|-2.51|<.0001
82406897|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.86|-1.97|||Student's paired t-test|||Day 3||-1.97|-2.86|<.0001
82406898|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-2.74|||<|0.0001|TWO_SIDED|95.0|-3.22|-2.27|||Student's paired t-test|||Day 4||-2.27|-3.22|<.0001
82406899|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.3|-2.16|||Student's paired t-test|||Day 5||-2.16|-3.30|<.0001
82406900|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-2.87|||<|0.0001|TWO_SIDED|95.0|-3.56|-2.19|||Student's paired t-test|||Day 6||-2.19|-3.56|<.0001
82406901|NCT05556148|164521402|OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.01|-2.39|||Student's paired t-test|||Day 7||-2.39|-4.01|<.0001
82406902|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-1.93|||<|0.0001|TWO_SIDED|95.0|-2.35|-1.51|||Student's paired t-test|||Day 1||-1.51|-2.35|<.0001
82406903|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.0|-2.2|||Student's paired t-test|||Day 2||-2.20|-3.00|<.0001
82406904|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.09|-2.22|||Student's paired t-test|||Day 3||-2.22|-3.09|<.0001
82406905|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-3.07|||<|0.0001|TWO_SIDED|95.0|-3.53|-2.62|||Student's paired t-test|||Day 4||-2.62|-3.53|<.0001
82406906|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-3.25|||<|0.0001|TWO_SIDED|95.0|-3.76|-2.75|||Student's paired t-test|||Day 5||-2.75|-3.76|<.0001
82406907|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-3.41|||<|0.0001|TWO_SIDED|95.0|-4.04|-2.78|||Student's paired t-test|||Day 6||-2.78|-4.04|<.0001
82406908|NCT05556148|164521403|OTHER||Mean Difference (Final Values)|-3.47|||<|0.0001|TWO_SIDED|95.0|-4.3|-2.64|||Student's paired t-test|||Day 7||-2.64|-4.30|<.0001
82406909|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-2.07|||<|0.0001|TWO_SIDED|95.0|-2.49|-1.66|||Student's paired t-test|||Day 1||-1.66|-2.49|<.0001
82406910|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-2.76|||<|0.0001|TWO_SIDED|95.0|-3.2|-2.33|||Student's paired t-test|||Day 2||-2.33|-3.20|<.0001
82406911|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-3.21|||<|0.0001|TWO_SIDED|95.0|-3.63|-2.78|||Student's paired t-test|||Day 3||-2.78|-3.63|<.0001
82406912|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-3.49|||<|0.0001|TWO_SIDED|95.0|-3.98|-3.0|||Student's paired t-test|||Day 4||-3.00|-3.98|<.0001
82406913|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.33|-3.33|||Student's paired t-test|||Day 5||-3.33|-4.33|<.0001
82406914|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-4.05|||<|0.0001|TWO_SIDED|95.0|-4.65|-3.46|||Student's paired t-test|||Day 6||-3.46|-4.65|<.0001
82406915|NCT05556148|164521404|OTHER||Mean Difference (Final Values)|-4.13|||<|0.0001|TWO_SIDED|95.0|-4.81|-3.46|||Student's paired t-test|||Day 7||-3.46|-4.81|<.0001
82406916|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-2.21|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.77|||Student's paired t-test|||Day 1||-1.77|-2.66|<.0001
82406917|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.15|-2.31|||Student's paired t-test|||Day 2||-2.31|-3.15|<.0001
82646602|NCT02609178|165008007|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.003||||||Alpha value was set at 0.05.|ANOVA|||||||0.003
82646603|NCT02609178|165008007|NON_INFERIORITY_OR_EQUIVALENCE|stated above in statistical analysis 1||||||0.366||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.366
82406918|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-3.16|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.73|||Student's paired t-test|||Day 3||-2.73|-3.60|<.0001
82406919|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-3.52|||<|0.0001|TWO_SIDED|95.0|-4.0|-3.05|||Student's paired t-test|||Day 4||-3.05|-4.00|<.0001
82406920|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-3.73|||<|0.0001|TWO_SIDED|95.0|-4.19|-3.27|||Student's paired t-test|||Day 5||-3.27|-4.19|<.0001
82406921|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-4.0|||<|0.0001|TWO_SIDED|95.0|-4.55|-3.45|||Student's paired t-test|||Day 6||-3.45|-4.55|<.0001
82446284|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.23||||96.8|TWO_SIDED|95.0|0.99|1.52||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.52|0.99|96.80
82406922|NCT05556148|164521405|OTHER||Mean Difference (Final Values)|-4.07|||<|0.0001|TWO_SIDED|95.0|-4.74|-3.39|||Student's paired t-test|||Day 7||-3.39|-4.74|<.0001
82406923|NCT02974868|164521497|SUPERIORITY||Mean of Difference from Placebo|31.14|STANDARD_ERROR_OF_MEAN|6.25|<|0.0001|TWO_SIDED|95.0|18.78|43.5||Hochberg P-value (one-sided)|Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||43.50|18.78|<.0001
82406924|NCT02974868|164521497|SUPERIORITY||Mean of Difference from Placebo|49.18|STANDARD_ERROR_OF_MEAN|6.35|<|0.0001|TWO_SIDED|95.0|36.62|61.74||Hochberg P-value (one-sided)|Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||61.74|36.62|<.0001
82446285|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||91.11|TWO_SIDED|95.0|0.97|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.97|91.11
82531482|NCT01009047|164760153|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.2||0.877|TWO_SIDED|95.0|-4.68|4.0||Analysis of covariance (ANCOVA) model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||4.00|-4.68|0.877
82646604|NCT02609178|165008007|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.002||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.002
82646605|NCT02609178|165008007|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.054||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.054
82646606|NCT02609178|165008008|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.006||||||alpha value was set at 0.05|Kruskal-Wallis|||||||0.006
82406925|NCT02974868|164521498|OTHER||Mean of Difference from Placebo|25.78|STANDARD_ERROR_OF_MEAN|10.64||0.0094|TWO_SIDED|90.0|7.98|43.58|||Mixed Model Repeated Measure (MMRM)|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||43.58|7.98|0.0094
82406926|NCT02974868|164521498|OTHER||Mean of Difference from Placebo|46.61|STANDARD_ERROR_OF_MEAN|10.51|<|0.0001|TWO_SIDED|90.0|29.02|64.2|||Mixed Model Repeated Measure|MMRM contains fixed factors of treatment, week, baseline, treatment by week and treatment by baseline interaction and a random effect for subject.||||64.20|29.02|<.0001
82406927|NCT02974868|164521503|OTHER||Difference in Percentage from Placebo|47.9|||<|0.0001|TWO_SIDED|90.0|34.2|60.7|||Chan and Zhang method|||||60.7|34.2|<.0001
82406928|NCT02974868|164521503|OTHER||Difference in Percentage from Placebo|61.7|||<|0.0001|TWO_SIDED|90.0|48.2|73.6|||Chan and Zhang method|||||73.6|48.2|<.0001
82406929|NCT00490035|164521522|SUPERIORITY_OR_OTHER_LEGACY||Percentage Reduction over Placebo|6.5|||=|0.261|TWO_SIDED|95.0|-5.2|16.9|||ANCOVA|||In order to control the Type I error testing was performed in sequence starting with 50 mg, then 100 mg and finally 20 mg Brivaracetam per day versus Placebo, only moving to the next test if the previous one was significant at the 5 % level.||16.9|-5.2|=0.261
82406930|NCT06058390|164521545|OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.91|1.14|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.14|0.91|
82406931|NCT06058390|164521546|OTHER||Geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.96|1.15|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.15|0.96|
82406932|NCT06058390|164521547|OTHER||Geometric mean ratio|1.02|||||TWO_SIDED|90.0|0.88|1.18|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.18|0.88|
82406933|NCT06058390|164521548|OTHER||Geometric mean ratio|0.98|||||TWO_SIDED|90.0|0.88|1.09|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.09|0.88|
82646607|NCT02609178|165008008|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistic analysis 1.||||||0.739||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.739
82646608|NCT02609178|165008008|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.03||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.03
82646609|NCT02609178|165008008|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.009||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.009
82646610|NCT02609178|165008009|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.001||||||alpha value was set at 0.05|Kruskal-Wallis|||||||0.001
82646611|NCT02609178|165008009|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.579||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.579
82646612|NCT02609178|165008009|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.001||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.001
82406934|NCT06058390|164521549|OTHER||Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.87|1.13|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.13|0.87|
82406935|NCT06058390|164521550|OTHER||Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.87|1.08|||||Geometric mean is adjusted for covariates: randomized groups (Arms 1 and 2 of this endpoint), injection site (arm, thigh and abdomen) as categorical covariates and log transformed Baseline weight as continuous covariate.|Analysis was performed on the natural logarithms using a fixed-effects model.||1.08|0.87|
82406936|NCT00593918|164521722|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|A mixed random effects model was used both unadjusted and adjustment for relevant co-variates obtained from the literature.||||||0.04
82531483|NCT01009047|164760154|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.54||0.341|TWO_SIDED|95.0|-0.55|1.59||Day 56: Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||1.59|-0.55|0.341
82646613|NCT02609178|165008009|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.002||||||Alpha value was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.002
82646614|NCT02609178|165008010|NON_INFERIORITY_OR_EQUIVALENCE|Using G\*power 3.1.7, setting α at 0.05, (1- β) at 0.8, the number of the subjects enrolled could reach the actual power as 0.8.||||||0.007||||||alpha value was set at 0.05|ANOVA|||||||0.007
82646615|NCT02609178|165008010|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.308||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.308
82646616|NCT02609178|165008010|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.005||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.005
82646617|NCT02609178|165008010|NON_INFERIORITY_OR_EQUIVALENCE|Stated above in statistical analysis 1.||||||0.141||||||Alpha value was set at 0.05.|Tukey's multiple comparison test|||||||0.141
82646618|NCT01128153|165008011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.099|<|0.0001|TWO_SIDED|95.0|-0.86|-0.47|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-0.47|-0.86|<0.0001
82646619|NCT01128153|165008012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|7.667||0.0301|TWO_SIDED|95.0|-31.85|-1.62|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-1.62|-31.85|0.0301
82646620|NCT01128153|165008013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.426||0.0301|TWO_SIDED|95.0|-1.77|-0.09|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||-0.09|-1.77|0.0301
82646621|NCT01128153|165008014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|4.595||0.0868|TWO_SIDED|95.0|-16.96|1.15|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||1.15|-16.96|0.0868
82646622|NCT01128153|165008015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.255||0.0868|TWO_SIDED|95.0|-0.94|0.06|||ANCOVA||Adjusted mean treatment difference from the ANCOVA model (Saxagliptin - Placebo)|||0.06|-0.94|0.0868
82646623|NCT01128153|165008016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.006|||<|0.0001|TWO_SIDED|95.0|3.852|21.05|||ANCOVA||Estimated Odds Ratio from the logistic regression model (Saxa/Placebo)|||21.05|3.852|<0.0001
82646624|NCT01954082|165008017|SUPERIORITY||Risk Ratio (RR)|1.41||||0.0095|TWO_SIDED|95.0|1.08|1.83||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of mortality and/or severe ROP is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the development of severe ROP and mortality.||1.83|1.08|0.0095
82646625|NCT01954082|165008018|SUPERIORITY||Risk Ratio (RR)|1.03||||0.6599|TWO_SIDED|95.0|0.91|1.16||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of BPD is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence of BPD.||1.16|0.91|0.6599
82646626|NCT01954082|165008019|SUPERIORITY||Risk Ratio (RR)|1.05||||0.3883|TWO_SIDED|95.0|0.94|1.17||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.||The null hypothesis is there is no treatment effect on the incidence of BPD or on mortality due to BDP.||1.17|0.94|0.3883
82406937|NCT00593918|164521723|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||Analysis was per protocol based on the number of children enrolled by genotype and completed nasal washes at first visit.|Mixed Models Analysis|A mixed random effects model was used both unadjusted and adjustment for relevant co-variates obtained from the literature.||||||0.14
82406938|NCT01211145|164521743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.312|TWO_SIDED|95.0|0.75|2.5||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||2.50|0.75|.312
82406939|NCT01211145|164521743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.071|TWO_SIDED|95.0|0.95|3.26||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.26|0.95|.071
82406940|NCT01211145|164521743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.18|||<|0.001|TWO_SIDED|95.0|1.4|3.39||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||3.39|1.40|<.001
82406941|NCT01211145|164521744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.575|TWO_SIDED|95.0|0.7|1.91||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.91|0.70|.575
82406942|NCT01211145|164521744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.032|TWO_SIDED|95.0|1.06|3.31||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.31|1.06|.032
82406943|NCT01211145|164521744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.137|TWO_SIDED|95.0|0.91|1.95||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||1.95|0.91|.137
82406944|NCT01211145|164521745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.458|TWO_SIDED|95.0|0.74|1.96||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.96|0.74|.458
82406945|NCT01211145|164521745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.021|TWO_SIDED|95.0|1.09|3.03||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||3.03|1.09|.021
82406946|NCT01211145|164521745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.01|TWO_SIDED|95.0|1.12|2.32||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.32|1.12|.010
82406947|NCT01211145|164521746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.753|TWO_SIDED|95.0|0.64|1.84||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.84|0.64|.753
82406948|NCT01211145|164521746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.145|TWO_SIDED|95.0|0.86|2.79||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||2.79|0.86|.145
82406949|NCT01211145|164521746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.127|TWO_SIDED|95.0|0.91|2.04||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.04|0.91|.127
82406950|NCT01211145|164521747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.274|TWO_SIDED|95.0|0.79|2.32||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||2.32|0.79|.274
82406951|NCT01211145|164521747|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.67||||0.067|TWO_SIDED|95.0|0.96|2.91||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||2.91|0.96|.067
82406952|NCT01211145|164521747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.127|TWO_SIDED|95.0|0.91|2.08||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||2.08|0.91|.127
82446286|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||89.3|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal;Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|89.30
82531484|NCT01009047|164760154|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.723|TWO_SIDED|95.0|-1.06|1.53||Day 182: Analysis of covariance (ANCOVA) model with treatment (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||1.53|-1.06|0.723
82406953|NCT01211145|164521748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.153|TWO_SIDED|95.0|0.38|1.16||Unadjusted|Regression, Logistic||ZOMIG 0.5 mg/Placebo|||1.16|0.38|.153
82406954|NCT01211145|164521748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.087|TWO_SIDED|95.0|0.33|1.08||Unadjusted|Regression, Logistic||ZOMIG 2.5 mg/Placebo|||1.08|0.33|.087
82406955|NCT01211145|164521748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.004|TWO_SIDED|95.0|0.36|0.83||Unadjusted|Regression, Logistic||ZOMIG 5.0 mg/Placebo|||0.83|0.36|.004
82406956|NCT00427908|164521749|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response to be greater than or equal to -15% for rSBA-MenA.|Difference in percentage|6.44|||||TWO_SIDED|95.0|1.15|16.04||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenA. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenA titer from pre to post vaccination.||16.04|1.15|
82406957|NCT00427908|164521749|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenC.|Difference in percentage|13.18|||||TWO_SIDED|95.0|4.79|24.32||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenC. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenC titer from pre to post vaccination.||24.32|4.79|
82406958|NCT00427908|164521749|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrix minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenW-135.|Difference in percentage|4.41|||||TWO_SIDED|95.0|1.51|12.21||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenW-135. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenW-135 titer from pre to post vaccination.||12.21|1.51|
82406959|NCT00427908|164521749|NON_INFERIORITY|Criterion indicative of non-inferiority: lower limit of the standardized asymptotic 95% confidence interval (CI) for the group difference (Nimenrux minus Mencevax) in the percentage of subjects with bactericidal vaccine response is greater than or equal to -15% for rSBA-MenY.|Difference in percentage|16.23|||||TWO_SIDED|95.0|8.99|26.78||||||To evaluate the non-inferiority of Nimenrix™ conjugate vaccine compared to Mencevax™ plain polysaccharide vaccine in terms of the vaccine response (VRR) to MenY. Response to a vaccine antigen component was defined as: For initially seronegative subject, post-vaccination serum bactericidal assay using rabbit complement (rSBA) titer ≥ 1:32. For initially seropositive subject, at least 4-fold increase in rSBA-MenY titer from pre to post vaccination.||26.78|8.99|
82406960|NCT00427908|164521752|NON_INFERIORITY|Criterion indicative of non-inferiority (serogroup C only): one month after vaccination, the lower limit of the 2-sided standardized asymptotic 95% CI for the group difference (Nimenrix Group minus Meningitec Group) in the percentage of subjects with rSBA titer ≥ 1:8 is greater than or equal to the predefined clinical limit of -15%.|Difference in vaccine response rate|1.47|||||TWO_SIDED|95.0|-0.27|7.89||||||To evaluate the non-inferiority of the vaccine response induced by Nimenrix™ conjugate vaccine when compared to the licensed Meningitec™ vaccine for MenC as measured by rSBA.||7.89|-0.27|
82406961|NCT03028142|164521875|OTHER||LS Means ratio|1.05||||0.0022|TWO_SIDED|95.0|1.02|1.09|||ANCOVA|||||1.09|1.02|0.0022
82406962|NCT03028142|164521875|OTHER||LS Means ratio|1.09|||<|0.0001|TWO_SIDED|95.0|1.05|1.12|||ANCOVA|||||1.12|1.05|<0.0001
82406963|NCT03028142|164521876|OTHER||LS Means ratio|1.03||||0.0988|TWO_SIDED|95.0|0.99|1.06|||ANCOVA|||||1.06|0.99|0.0988
82406964|NCT03028142|164521876|OTHER||LS Means ratio|1.06||||0.0009|TWO_SIDED|95.0|1.02|1.09|||ANCOVA|||||1.09|1.02|0.0009
82406965|NCT03028142|164521877|OTHER||LS Means ratio|1.02||||0.2496|TWO_SIDED|95.0|0.98|1.06|||ANCOVA|||||1.06|0.98|0.2496
82406966|NCT03028142|164521877|OTHER||LS Means ratio|1.06||||0.0039|TWO_SIDED|95.0|1.02|1.1|||ANCOVA|||||1.1|1.02|0.0039
82406967|NCT03028142|164521878|OTHER||LS Means ratio|1.03||||0.1404|TWO_SIDED|95.0|0.99|1.06|||ANCOVA|||||1.06|0.99|0.1404
82406968|NCT03028142|164521878|OTHER||LS Means ratio|1.04||||0.0228|TWO_SIDED|95.0|1.01|1.08|||ANCOVA|||||1.08|1.01|0.0228
82406969|NCT03843372|164521927|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The AHI was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare AHI between CPAP and HFNC||||<0.001
82406970|NCT03843372|164521928|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The oxygen desaturation index was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare oxygen desaturation index between CPAP and HFNC||||<0.001
82406971|NCT03843372|164521929|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||The total sleep time was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare total sleep time between CPAP and HFNC||||<0.001
82406972|NCT03843372|164521930|SUPERIORITY|||||||0.008|||||||Wilcoxon rank sum test|||The sleep efficiency was not a normal distribution. In the event that no carry over effect was detected between interventions, a Wilcoxon rank sum test was to be used to compare sleep efficiency between CPAP and HFNC||||0.008
82406973|NCT02337062|164521931|SUPERIORITY||||||<|0.001||||||The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test.||||<0.001
82406974|NCT02337062|164521932|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
82406975|NCT02337062|164521933|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82406976|NCT02337062|164521934|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82406977|NCT02337062|164521935|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82406978|NCT02337062|164521936|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82406979|NCT01239797|164521966|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0014|TWO_SIDED|95.0|0.6|0.89|||Log Rank|2-sided p-value for stratified log rank test||Hazard Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||0.89|0.60|0.0014
82406980|NCT01239797|164521967|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0005|TWO_SIDED|95.0|0.6|0.87|||Log Rank|2-sided p-value for stratified log rank test||Hazard Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||0.87|0.60|0.0005
82406981|NCT01239797|164521968|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0002|TWO_SIDED|95.0|1.36|2.78|||Cochran-Mantel-Haenszel|Stratified by B2 microglobulin (\<3.5 mg/L vs \>=3.5 mg/L), number of prior lines of therapy (1 vs \>=2), and immunomodulatory drug use at randomization||Ratio of Lenalidomide + Dexamethasone + Elotuzumab to Lenalidomide + Dexamethasone||2.78|1.36|0.0002
82406982|NCT01239797|164521968|SUPERIORITY||Difference in ORR|12.7|||||TWO_SIDED|95.0|6.2|19.3||||||Difference of Lenalidomide + Dexamethasone + Elotuzumab minus Lenalidomide + Dexamethasone computed using the method of DerSimonian and Laird (weighted average over the strata)||19.3|6.2|
82406983|NCT00501631|164521973|SUPERIORITY_OR_OTHER|||||||0.336||95.0|||||Van der Waerden test|||The null hypothesis that there is no difference between two treatment groups (i.e. Placebo and Vivitrol) was tested using a two-sided Van der Waerden test. Response profiles were tabulated as a cumulative percent of subjects at each decile of percent heavy drinking days.||||0.336
82406984|NCT04456686|164521975|SUPERIORITY||Posterior Mean Difference|-0.03|||||TWO_SIDED|95.0|-0.77|0.7|||Bayesian Mixed Model Analysis|||||0.70|-0.77|
82406985|NCT04456686|164521976|SUPERIORITY||Posterior Mean Difference|0.58|||||TWO_SIDED|95.0|-0.82|1.96|||Bayesian Mixed Model Analysis|||||1.96|-0.82|
82406986|NCT04456686|164521977|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.45|0.63|||Bayesian Mixed Model Analysis|||||0.63|-0.45|
82406987|NCT04456686|164521978|SUPERIORITY||Posterior Mean Difference|0.9|||||TWO_SIDED|95.0|-3.31|5.06|||Bayesian Mixed Model Analysis|||||5.06|-3.31|
82406988|NCT04456686|164521979|SUPERIORITY||Posterior Mean Difference|0.03|||||TWO_SIDED|95.0|-0.46|0.5|||Bayesian Mixed Model Analysis|||||0.50|-0.46|
82406989|NCT04456686|164521980|SUPERIORITY||Posterior Mean Difference|0.11|||||TWO_SIDED|95.0|-0.72|0.91|||Bayesian Mixed Model Analysis|||||0.91|-0.72|
82406990|NCT04456686|164521981|SUPERIORITY||Posterior Mean Difference|2.45|||||TWO_SIDED|95.0|-7.27|12.2|||Bayesian Mixed Model Analysis|||||12.20|-7.27|
82406991|NCT04456686|164521982|SUPERIORITY||Posterior Mean Difference|0.4|||||TWO_SIDED|95.0|-0.04|0.85|||Bayesian Mixed Model Analysis|||||0.85|-0.04|
82406992|NCT04456686|164521983|SUPERIORITY||Posterior Mean Difference|168.61|||||TWO_SIDED|95.0|-38.22|379.2|||Bayesian Mixed Model Analysis|||||379.20|-38.22|
82406993|NCT04456686|164521984|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.07|0.06|||Bayesian Mixed Model Analysis|||||0.06|-0.07|
82406994|NCT02858401|164521995|OTHER|||||||0.1498|||||||Wilcoxon rank sum test|||||||0.1498
82406995|NCT02858401|164521995|OTHER|||||||0.064|||||||Wilcoxon rank sum test|||||||0.0640
82406996|NCT02858401|164521995|OTHER|||||||0.2807|||||||Wilcoxon rank sum test|||||||0.2807
82646627|NCT01954082|165008020|SUPERIORITY||Risk Ratio (RR)|1.53||||0.0306|TWO_SIDED|95.0|1.03|2.25||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of mortality prior to ROP endpoint is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on survival to ROP endpoint.||2.25|1.03|0.0306
82406997|NCT02858401|164521995|OTHER|||||||0.1228|||||||Wilcoxon rank sum test|||||||0.1228
82406998|NCT02858401|164521995|OTHER|||||||0.0289|||||||Wilcoxon rank sum test|||||||0.0289
82406999|NCT02858401|164521995|OTHER|||||||0.5895|||||||Wilcoxon rank sum test|||||||0.5895
82407000|NCT02858401|164521996|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407001|NCT02858401|164521996|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407002|NCT02858401|164521996|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407003|NCT02858401|164521997|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
82407004|NCT02858401|164521997|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
82407005|NCT02858401|164521997|OTHER|||||||0.8288|||||||Wilcoxon rank sum test|||||||0.8288
82407006|NCT02858401|164521997|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
82446287|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||74.67|TWO_SIDED|95.0|0.87|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.87|74.67
82646628|NCT01954082|165008021|SUPERIORITY||Risk Ratio (RR)|1.02||||0.7464|TWO_SIDED|95.0|0.91|1.14||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.||The null hypothesis is there is no treatment effect on the incidence of ROP||1.14|0.91|0.7464
82648011|NCT01946282|165011375|EQUIVALENCE|Assuming a FIT return rate of 29% for the outreach only group at an a=0.05, we estimated more than 90% power to detect an absolute difference greater than 5% when using a chi-square test of proportions to compare patients who received any incentive ($5 or $10) compared with patients who received outreach only.||||||0.08|||||||Chi-squared|||||||.080
82407007|NCT02858401|164521997|OTHER|||||||0.6056|||||||Wilcoxon rank sum test|||||||0.6056
82407008|NCT02858401|164521997|OTHER|||||||0.5557|||||||Wilcoxon rank sum test|||||||0.5557
82407009|NCT02858401|164521998|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407010|NCT02858401|164521998|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407011|NCT02858401|164521998|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407012|NCT02858401|164521999|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407013|NCT02858401|164521999|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407014|NCT02858401|164521999|OTHER|||||||0.1556|||||||Wilcoxon rank sum test|||||||0.1556
82407015|NCT02858401|164521999|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407016|NCT02858401|164521999|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407017|NCT02858401|164521999|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407018|NCT02858401|164522000|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407019|NCT02858401|164522000|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407020|NCT02858401|164522000|OTHER|||||||0.3613|||||||Wilcoxon rank sum test|||||||0.3613
82407021|NCT02858401|164522001|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407022|NCT02858401|164522001|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407023|NCT02858401|164522001|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
82407024|NCT02858401|164522001|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407025|NCT02858401|164522001|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407026|NCT02858401|164522001|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407027|NCT02858401|164522002|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407028|NCT02858401|164522002|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407029|NCT02858401|164522002|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407030|NCT02858401|164522003|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407031|NCT02858401|164522003|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407032|NCT02858401|164522003|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407033|NCT02858401|164522004|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407034|NCT02858401|164522004|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407035|NCT02858401|164522004|OTHER|||||||0.1556|||||||Wilcoxon rank sum test|||||||0.1556
82407036|NCT02858401|164522004|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407037|NCT02858401|164522004|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407038|NCT02858401|164522004|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407039|NCT02858401|164522005|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407040|NCT02858401|164522005|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407041|NCT02858401|164522005|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407042|NCT02858401|164522006|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
82407043|NCT02858401|164522006|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407044|NCT02858401|164522006|OTHER|||||||0.4278|||||||Wilcoxon rank sum test|||||||0.4278
82407045|NCT02858401|164522006|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407046|NCT02858401|164522006|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407047|NCT02858401|164522006|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407048|NCT02858401|164522007|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407049|NCT02858401|164522007|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
82407050|NCT02858401|164522007|OTHER|||||||0.1869|||||||Wilcoxon rank sum test|||||||0.1869
82407051|NCT02858401|164522007|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407052|NCT02858401|164522007|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407053|NCT02858401|164522008|OTHER|||||||0.3613|||||||Wilcoxon rank sum test|||||||0.3613
82407054|NCT02858401|164522008|OTHER|||||||0.4237|||||||Wilcoxon rank sum test|||||||0.4237
82407055|NCT02858401|164522008|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
82407056|NCT02858401|164522009|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
82407057|NCT02858401|164522009|OTHER|||||||0.3971|||||||Wilcoxon rank sum test|||||||0.3971
82407058|NCT02858401|164522009|OTHER|||||||0.1301|||||||Wilcoxon rank sum test|||||||0.1301
82407059|NCT02858401|164522009|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
82407060|NCT02858401|164522009|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
82407061|NCT02858401|164522009|OTHER|||||||0.3456|||||||Wilcoxon rank sum test|||||||0.3456
82407062|NCT02858401|164522010|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407063|NCT02858401|164522010|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
82446288|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.23||||98.25|TWO_SIDED|95.0|1.02|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|1.02|98.25
82407064|NCT02858401|164522010|OTHER|||||||0.5993|||||||Wilcoxon rank sum test|||||||0.5993
82407065|NCT02858401|164522011|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407066|NCT02858401|164522011|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407067|NCT02858401|164522011|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
82407068|NCT02858401|164522011|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407069|NCT02858401|164522011|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407070|NCT02858401|164522011|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407071|NCT02858401|164522012|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407072|NCT02858401|164522012|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407073|NCT02858401|164522012|OTHER|||||||0.2763|||||||Wilcoxon rank sum test|||||||0.2763
82407074|NCT02858401|164522012|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407075|NCT02858401|164522012|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407076|NCT02858401|164522013|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407077|NCT02858401|164522013|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407078|NCT02858401|164522013|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407079|NCT02858401|164522014|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407080|NCT02858401|164522014|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407081|NCT02858401|164522014|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
82407082|NCT02858401|164522014|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407083|NCT02858401|164522014|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407084|NCT02858401|164522014|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407085|NCT02858401|164522015|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407086|NCT02858401|164522015|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407087|NCT02858401|164522015|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407088|NCT02858401|164522016|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407089|NCT02858401|164522016|OTHER|||||||0.5896|||||||Wilcoxon rank sum test|||||||0.5896
82407090|NCT02858401|164522016|OTHER|||||||0.8207|||||||Wilcoxon rank sum test|||||||0.8207
82407091|NCT02858401|164522016|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407092|NCT02858401|164522016|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407093|NCT02858401|164522016|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407094|NCT02858401|164522017|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407095|NCT02858401|164522017|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407096|NCT02858401|164522017|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407097|NCT02858401|164522018|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
82407098|NCT02858401|164522018|OTHER|||||||0.3755|||||||Wilcoxon rank sum test|||||||0.3755
82407099|NCT02858401|164522018|OTHER|||||||0.4577|||||||Wilcoxon rank sum test|||||||0.4577
82407100|NCT02858401|164522018|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
82407101|NCT02858401|164522018|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
82407102|NCT02858401|164522018|OTHER|||||||0.3237|||||||Wilcoxon rank sum test|||||||0.3237
82407103|NCT02858401|164522019|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407104|NCT02858401|164522019|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
82407105|NCT02858401|164522019|OTHER|||||||0.7526|||||||Wilcoxon rank sum test|||||||0.7526
82407106|NCT02858401|164522020|OTHER|||||||0.5546|||||||Wilcoxon rank sum test|||||||0.5546
82407107|NCT02858401|164522020|OTHER|||||||0.6937|||||||Wilcoxon rank sum test|||||||0.6937
82407108|NCT02858401|164522020|OTHER|||||||0.8207|||||||Wilcoxon rank sum test|||||||0.8207
82407109|NCT02858401|164522020|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407110|NCT02858401|164522020|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407111|NCT02858401|164522020|OTHER|||||||0.7878|||||||Wilcoxon rank sum test|||||||0.7878
82407112|NCT02858401|164522021|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407113|NCT02858401|164522021|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407114|NCT02858401|164522021|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407115|NCT02858401|164522022|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407116|NCT02858401|164522022|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407117|NCT02858401|164522022|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407118|NCT02858401|164522022|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407119|NCT02858401|164522022|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0000
82407120|NCT02858401|164522022|OTHER|||||||0.1949|||||||Wilcoxon rank sum test|||||||0.1949
82646629|NCT01954082|165008022|SUPERIORITY||Risk Ratio (RR)|0.98||||0.7598|TWO_SIDED|95.0|0.83|1.14||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of Type 2 ROP or more severe ROP is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence of Type 2 ROP or more severe ROP.||1.14|0.83|0.7598
82646630|NCT01954082|165008023|SUPERIORITY||Risk Ratio (RR)|1.04||||0.8133|TWO_SIDED|95.0|0.74|1.48||A-priori threshold for statistical significance at 0.05 was specified.|Robust Poisson regression|Model adjusted for strata defined by center and gestational age.|In the risk ratio, the numerator represents the Inositol arm and the denominator represents the placebo arm. (RR\>1 implies that the risk of severe IVH is greater in the Inositol group compared to the Placebo group).|The null hypothesis is there is no treatment effect on the incidence severe IVH.||1.48|0.74|0.8133
82646631|NCT01682512|165008039|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence for the change in DAS28 (ESR) was evaluated based on the two-sided 90% Confidence Interval (CI) for the treatment difference with respect to the mean change in the DAS28(ESR) score compared to baseline. Null hypothesis of non-equivalence was to be rejected if the 90% CI is fully contained within the interval of \[-0.5, 0.5\].|Adjusted mean difference|-0.4|||||TWO_SIDED|90.0|-0.83|-0.03||Model analyzed was: DAS28(ESR) change from Baseline at Week 24 = overall mean + treatment + DAS28(ESR) Baseline score + visit + visit by treatment interaction + baseline-by-visit interaction + random error.|Mixed Models Analysis|A restricted maximum likelihood (REML)-based Mixed-Effect Model Repeated Measure (MMRM) approach was used.|Adjusted mean difference was calculated as: BI 695500 - Rituxan®|||-0.03|-0.83|
82646632|NCT01682512|165008040|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|102.35|STANDARD_ERROR_OF_MEAN|107.7|||TWO_SIDED|90.0|90.5|115.76|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups BI 695500 and Rituxan.||115.76|90.50|
82646633|NCT01682512|165008040|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|88.21|STANDARD_ERROR_OF_MEAN|107.5|||TWO_SIDED|90.0|78.24|99.46|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups BI 695500 and MabThera.||99.46|78.24|
82646634|NCT01682512|165008040|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|86.18|STANDARD_ERROR_OF_MEAN|107.449|||TWO_SIDED|90.0|76.5|97.09|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-tz)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(o- tz) was compared between treatment groups Rituxan and MabThera.||97.09|76.50|
82646635|NCT01682512|165008041|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|102.46|STANDARD_ERROR_OF_MEAN|107.939|||TWO_SIDED|90.0|90.26|116.3|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups BI 695500 and Rituxan.||116.30|90.26|
82407121|NCT02858401|164522023|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407122|NCT02858401|164522023|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
82646636|NCT01682512|165008041|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|86.0|STANDARD_ERROR_OF_MEAN|107.404|||TWO_SIDED|90.0|76.38|96.82|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups BI 695500 and MabThera.||96.82|76.38|
82646637|NCT01682512|165008041|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|83.93|STANDARD_ERROR_OF_MEAN|107.386|||TWO_SIDED|90.0|74.57|94.47|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf pred)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(o-inf pred) was compared between treatment groups Rituxan and MabThera.||94.47|74.57|
82407123|NCT02858401|164522023|OTHER|||||||0.6908|||||||Wilcoxon rank sum test|||||||0.6908
82646638|NCT01682512|165008042|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|95.87|STANDARD_ERROR_OF_MEAN|106.608|||TWO_SIDED|90.0|86.21|106.62|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups BI 695500 and Rituxan.||106.62|86.21|
82407124|NCT02858401|164522023|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407125|NCT02858401|164522023|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407126|NCT02858401|164522024|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407127|NCT02858401|164522024|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407128|NCT02858401|164522024|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407129|NCT02858401|164522025|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407130|NCT02858401|164522025|OTHER|||||||0.5896|||||||Wilcoxon rank sum test|||||||0.5896
82407131|NCT02858401|164522025|OTHER|||||||0.1784|||||||Wilcoxon rank sum test|||||||0.1784
82407132|NCT02858401|164522025|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407133|NCT02858401|164522025|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407134|NCT02858401|164522025|OTHER|||||||0.5383|||||||Wilcoxon rank sum test|||||||0.5383
82407135|NCT02858401|164522026|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407136|NCT02858401|164522026|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407137|NCT02858401|164522026|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407138|NCT02858401|164522027|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407139|NCT02858401|164522027|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407140|NCT02858401|164522027|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407141|NCT02858401|164522028|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
82531485|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.351||||||Change at Day 56: Positive Symptoms - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.351
82646639|NCT01682512|165008042|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|89.46|STANDARD_ERROR_OF_MEAN|106.775|||TWO_SIDED|90.0|80.23|99.74|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups BI 695500 and MabThera.||99.74|80.23|
82646640|NCT01682512|165008042|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|93.31|STANDARD_ERROR_OF_MEAN|105.7|||TWO_SIDED|90.0|85.11|102.29|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-336)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-336) was compared between treatment groups Rituxan and MabThera.||102.29|85.11|
82407142|NCT02858401|164522028|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
82407143|NCT02858401|164522029|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407144|NCT02858401|164522029|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407145|NCT02858401|164522029|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407146|NCT02858401|164522030|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407147|NCT02858401|164522030|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407148|NCT02858401|164522030|OTHER|||||||0.5993|||||||Wilcoxon rank sum test|||||||0.5993
82407149|NCT02858401|164522031|OTHER|||||||0.8504|||||||Wilcoxon rank sum test|||||||0.8504
82407150|NCT02858401|164522031|OTHER|||||||0.5716|||||||Wilcoxon rank sum test|||||||0.5716
82407151|NCT02858401|164522031|OTHER|||||||0.6908|||||||Wilcoxon rank sum test|||||||0.6908
82531486|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.691||||||Change at Day 182:Positive Symptoms - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.691
82407152|NCT02858401|164522031|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407153|NCT02858401|164522031|OTHER|||||||0.5186|||||||Wilcoxon rank sum test|||||||0.5186
82407154|NCT02858401|164522032|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407155|NCT02858401|164522032|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407156|NCT02858401|164522032|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407157|NCT02858401|164522033|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407158|NCT02858401|164522033|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407159|NCT02858401|164522033|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407160|NCT02858401|164522034|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
82407161|NCT02858401|164522034|OTHER|||||||0.3074|||||||Wilcoxon rank sum test|||||||0.3074
82407162|NCT02858401|164522035|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407163|NCT02858401|164522035|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407164|NCT02858401|164522035|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407165|NCT02858401|164522036|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407166|NCT02858401|164522036|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407167|NCT02858401|164522036|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.0000
82407168|NCT02858401|164522037|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407169|NCT02858401|164522037|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407170|NCT02858401|164522037|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
82407171|NCT02858401|164522038|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407172|NCT02858401|164522038|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407173|NCT02858401|164522038|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
82407174|NCT02858401|164522039|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407175|NCT02858401|164522039|OTHER|||||||0.4047|||||||Wilcoxon rank sum test|||||||0.4047
82407176|NCT02858401|164522039|OTHER|||||||0.4652|||||||Wilcoxon rank sum test|||||||0.4652
82407177|NCT02858401|164522040|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407178|NCT02858401|164522040|OTHER|||||||0.1757|||||||Wilcoxon rank sum test|||||||0.1757
82407179|NCT02858401|164522040|OTHER|||||||0.223|||||||Wilcoxon rank sum test|||||||0.2230
82407180|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407181|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407182|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407183|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407184|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407185|NCT02858401|164522043|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407186|NCT02858401|164522044|OTHER|||||||0.3333|||||||Fisher Exact|||||||0.3333
82407187|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407188|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407189|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407190|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407191|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407192|NCT02858401|164522045|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407193|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407194|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407195|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407196|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407197|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407198|NCT02858401|164522046|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407199|NCT02858401|164522047|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407200|NCT02858401|164522047|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407201|NCT02858401|164522047|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407202|NCT02858401|164522048|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407203|NCT02858401|164522048|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407204|NCT02858401|164522048|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407205|NCT02858401|164522050|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82531487|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.965||||||Change at Day 56: Disorganized thoughts - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.965
82531488|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.766||||||Change at Day 182: Disorganized thoughts - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.766
82646641|NCT01682512|165008043|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|93.97|STANDARD_ERROR_OF_MEAN|105.995|||TWO_SIDED|90.0|85.32|103.5|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups BI 695500 and Rituxan.||103.50|85.32|
82407206|NCT02858401|164522050|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407207|NCT02858401|164522050|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82407208|NCT01663402|164522078|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0003|TWO_SIDED|95.0|0.78|0.93||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world).||0.93|0.78|0.0003
82407209|NCT01663402|164522079|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0013|TWO_SIDED|95.0|0.81|0.95||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region(North America,South America,Western Europe,Eastern Europe,Asia, Rest of the world).A hierarchical testing approach was used to control the overall type-I error at 0.0249 one-sided alpha level(0.0498 two-sided).Testing was then performed sequentially in the order endpoints were reported.Hierarchical testing sequence continued only if the previous endpoint was statistically significant.||0.95|0.81|0.0013
82407210|NCT01663402|164522080|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.006|TWO_SIDED|95.0|0.8|0.96||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing was performed according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.96|0.80|0.0060
82407211|NCT01663402|164522081|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0003|TWO_SIDED|95.0|0.81|0.94||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.94|0.81|0.0003
82407212|NCT01663402|164522082|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0003|TWO_SIDED|95.0|0.79|0.93||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||0.93|0.79|0.0003
82407213|NCT01663402|164522083|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3824|TWO_SIDED|95.0|0.76|1.11||Threshold for statistical significance at 0.0498 level.|Log Rank|||Analysis was performed using Cox proportional hazard model and log rank test stratified on geographical region (North America, South America, Western Europe, Eastern Europe, Asia, Rest of the world). Testing according to the hierarchical testing procedure (continued only if the previous endpoint was statistically significant).||1.11|0.76|0.3824
82407214|NCT00678418|164522093|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Van der Waerden|||Null hypothesis = the distribution function of opioid-free weeks is the same for both treatment groups.||||0.0002
82407215|NCT00678418|164522094|SUPERIORITY_OR_OTHER|||||||0.0042||95.0||||A total of 114 subjects continued on-study beyond the 168-day endpoint for Part A; these subjects were censored as of the first dosing day in Part B.|Kaplan Meier|||P-value was calculated using the log-rank test for the null hypothesis: the distribution of days to discontinuation does not differ by treatment.||||0.0042
82407216|NCT00678418|164522095|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Chi-squared|||"P-value was calculated using the Chi-square test for the null hypothesis: mean treatment difference = 0.~Calculations were based on the Generalized Estimating Equation (GEE) model (normal distribution, identity link and AR(1) correlation structure) for repeated data on change from baseline with treatment and visit as main effects, and baseline as a covariate. Missing data were imputed using the Last Observation Carried Forward (LOCF) method."||||<0.0001
82407217|NCT00678418|164522096|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.0154||95.0|0.6|0.95|||Chi-squared|||"Chi-square test was used to calculate the p-value for treatment. Null hypothesis = no association between relapse to dependence and study treatment.~Subjects who discontinued prematurely from the study were imputed as having a positive naloxone challenge test result."||0.95|0.60|0.0154
82576293|NCT02209181|164862059|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.65||0.355|TWO_SIDED|95.0|-0.68|1.87||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.87|-0.68|0.355
82407218|NCT00678418|164522097|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||van der Waerden|||Null hypothesis: Treatment difference=0. Missing data from subjects due to early discontinuation during Part A were imputed using the baseline rate; thus data for subjects who discontinued early were imputed as having no change from baseline.||||0.0031
82407219|NCT03903172|164522098|SUPERIORITY||||||=|0.25|||||||t-test, 2 sided|||Day 0||||=0.25
82407220|NCT03903172|164522098|SUPERIORITY||||||=|0.93|||||||t-test, 2 sided|||Day 1||||=.93
82407221|NCT03903172|164522099|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used acetominophen||||=1.0
82407222|NCT03903172|164522099|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used ibuprofen||||=1.0
82407223|NCT03903172|164522099|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used Cyclobenzaprine||||=1.0
82407224|NCT03903172|164522099|SUPERIORITY||||||=|0.11|||||||Fisher Exact|||Used Methocarbamol||||=.11
82407225|NCT03903172|164522099|SUPERIORITY||||||=|0.49|||||||Fisher Exact|||Used Hydroxyzine||||=.49
82531489|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.984||||||Change at Day 56: Uncontrolled hostility/ excitement - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.984
82531490|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.985||||||Change at Day 182: Uncontrolled Hositility/ Excitement - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||||0.985
82531491|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.803||||||Change at Day 56: Anxiety/ depression - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.803
82531492|NCT01009047|164760155|SUPERIORITY_OR_OTHER|||||||0.745||||||Change at Day 182: Anxiety/ depression - ANCOVA model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate.|ANCOVA|||||||0.745
82531493|NCT01009047|164760157|SUPERIORITY_OR_OTHER|||||||0.296||||||Generalized Cochran- Mantel- Haenszel test for row mean score differences controlling for country was used.|Cochran-Mantel-Haenszel|||||||0.296
82531494|NCT01009047|164760158|SUPERIORITY_OR_OTHER|||||||0.843||||||Change at Day 56: ANCOVA model on ranks with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value (unranked) as a covariate was used.|ANCOVA|||||||0.843
82531495|NCT01009047|164760158|SUPERIORITY_OR_OTHER|||||||0.914||||||Change at Day 182: ANCOVA model on ranks with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value (unranked) as a covariate was used.|ANCOVA|||||||0.914
82531496|NCT01009047|164760159|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.27||0.895|TWO_SIDED|95.0|-2.34|2.67||Change at Day 56: Analysis of covariance (ANCOVA) model with treatment groups(paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||2.67|-2.34|0.895
82531497|NCT01009047|164760159|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.66||0.705|TWO_SIDED|95.0|-2.64|3.89||Change at Day 182: Analysis of covariance (ANCOVA) model with treatment groups (paliperidone ER, aripiprazole) and country as factors, and baseline value as a covariate was used.|ANCOVA|||||3.89|-2.64|0.705
82646642|NCT01682512|165008043|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|89.3|STANDARD_ERROR_OF_MEAN|105.657|||TWO_SIDED|90.0|81.51|97.83|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups BI 695500 and MabThera.||97.83|81.51|
82376036|NCT00658021|164458224|SUPERIORITY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.327||0.005|TWO_SIDED|95.0|-1.58|-0.28|||Mixed Models Analysis|||"Treatment difference in body weight at Week 4:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||-0.28|-1.58|0.005
82407226|NCT03903172|164522099|SUPERIORITY||||||=|1|||||||Fisher Exact|||Used an 'Other' non-pharmacologic medication||||=1.0
82407227|NCT03903172|164522100|SUPERIORITY||||||=|1|||||||Fisher Exact|||Any narcotic medication used||||=1.0
82407228|NCT02495389|164522102|SUPERIORITY||Mean Difference (Final Values)|23.96|STANDARD_ERROR_OF_MEAN|2.7741|<|0.0001|TWO_SIDED|95.0|18.35|29.57|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Overactive Bladder Questionnaire (OAB-q) Health Related Quality of Life (HRQL) score after 12 weeks of therapy.||29.57|18.35|<.0001
82407229|NCT02495389|164522103|SUPERIORITY||Mean Difference (Final Values)|-51.62|STANDARD_ERROR_OF_MEAN|6.1584|<|0.0001|TWO_SIDED|95.0|-64.04|-39.2|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Urinary Distress Inventory score after 12 weeks of therapy.||-39.20|-64.04|<.0001
82407230|NCT02495389|164522104|SUPERIORITY||Mean Difference (Final Values)|-29.3|STANDARD_ERROR_OF_MEAN|5.4701|<|0.0001|TWO_SIDED|95.0|-40.33|-18.27|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Pelvic Organ Prolapse Distress Inventory score after 12 weeks of therapy.||-18.27|-40.33|<.0001
82407231|NCT02495389|164522105|SUPERIORITY||Mean Difference (Final Values)|-32.0|STANDARD_ERROR_OF_MEAN|6.1226|<|0.0001|TWO_SIDED|95.0|-44.35|-19.65|||t-test, 2 sided|A two-sided paired t-test was used for this analysis.||The null hypothesis is that there is no change in patients' baseline Colo-Rectal-Anal Distress Inventory score after 12 weeks of therapy.||-19.65|-44.35|<.0001
82407232|NCT05559905|164522128|SUPERIORITY||Difference in Least Squares Mean|-0.29||||0.578|TWO_SIDED|90.0|-1.16|0.58|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.58|-1.16|0.578
82407233|NCT05559905|164522129|SUPERIORITY||Difference in Least Squares Mean|-2.69||||0.201|TWO_SIDED|90.0|-6.17|-0.79|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||-0.79|-6.17|0.201
82407234|NCT05559905|164522135|SUPERIORITY||Difference in Least Squares Mean|-0.62||||0.736|TWO_SIDED|90.0|-3.65|2.42|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||2.42|-3.65|0.736
82407235|NCT05559905|164522136|SUPERIORITY||Difference in Least Squares Mean|-1.93||||0.646|TWO_SIDED|90.0|-8.88|5.02|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||5.02|-8.88|0.646
82407236|NCT05559905|164522137|SUPERIORITY||Difference in Least Squares Mean|-0.14||||0.849|TWO_SIDED|90.0|-1.31|1.04|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.04|-1.31|0.849
82446289|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||87.8|TWO_SIDED|95.0|0.96|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region;Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.96|87.80
82446290|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||91.54|TWO_SIDED|95.0|0.97|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.97|91.54
82446291|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||68.89|TWO_SIDED|95.0|0.92|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.92|68.89
82446292|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||98.19|TWO_SIDED|95.0|1.01|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|1.01|98.19
82446293|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||94.07|TWO_SIDED|95.0|0.98|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.98|94.07
82531498|NCT01009047|164760160|SUPERIORITY_OR_OTHER|||||||0.119||||||Day 56: Generalized Cochran-Mantel-Haenszel test for row mean score differences was used.|Cochran-Mantel-Haenszel|||||||0.119
82576294|NCT02209181|164862059|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.36|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|2.07|4.65||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.65|2.07|<0.001
82446294|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||75.74|TWO_SIDED|95.0|0.92|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.92|75.74
82446295|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||95.83|TWO_SIDED|95.0|0.99|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.99|95.83
82446296|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||79.8|TWO_SIDED|95.0|0.94|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.94|79.80
82531499|NCT01009047|164760160|SUPERIORITY_OR_OTHER|||||||0.444||||||Day 182: Generalized Cochran-Mantel-Haenszel test for row mean score differences was used.|Cochran-Mantel-Haenszel|||||||0.444
82531500|NCT01751113|164760171|SUPERIORITY_OR_OTHER||AUC ratio|1.158|||<|0.001|TWO_SIDED|95.0|1.1|1.219|||Mixed Models Analysis|||||1.219|1.100|<0.001
82576295|NCT02209181|164862059|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.65||0.021|TWO_SIDED|95.0|-2.78|-0.23||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.23|-2.78|0.021
82531501|NCT01751113|164760171|SUPERIORITY_OR_OTHER||AUC ratio|1.288|||<|0.001|TWO_SIDED|95.0|1.224|1.355|||Mixed Models Analysis|||||1.355|1.224|<0.001
82531502|NCT01751113|164760172|SUPERIORITY_OR_OTHER||AUC ratio|0.856|||<|0.001|TWO_SIDED|95.0|0.812|0.902|||Mixed Models Analysis|||||0.902|0.812|<0.001
82531503|NCT01751113|164760172|SUPERIORITY_OR_OTHER||AUC ratio|0.774|||<|0.001|TWO_SIDED|95.0|0.735|0.816|||Mixed Models Analysis|||||0.816|0.735|<0.001
82531504|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.181|||<|0.001|TWO_SIDED|95.0|1.104|1.263|||Mixed Models Analysis||Statistical data for 30 minutes|||1.263|1.104|<0.001
82531505|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.303|||<|0.001|TWO_SIDED|95.0|1.219|1.393|||Mixed Models Analysis||Statistical data for 30 minutes|||1.393|1.219|<0.001
82531506|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.175|||<|0.001|TWO_SIDED|95.0|1.099|1.257|||Mixed Models Analysis||Statistical data for 75 minutes|||1.257|1.099|<0.001
82531507|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.34|||<|0.001|TWO_SIDED|95.0|1.253|1.432|||Mixed Models Analysis||Statistical data for 75 minutes|||1.432|1.253|<0.001
82531508|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.151|||<|0.001|TWO_SIDED|95.0|1.076|1.231|||Mixed Models Analysis||Statistical data for 120 minutes|||1.231|1.076|<0.001
82531509|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.301|||<|0.001|TWO_SIDED|95.0|1.217|1.391|||Mixed Models Analysis||Statistical data for 120 minutes|||1.391|1.217|<0.001
82646643|NCT01682512|165008043|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|95.02|STANDARD_ERROR_OF_MEAN|105.744|||TWO_SIDED|90.0|86.62|104.25|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(Cmax)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of observed Cmax was compared between treatment groups Rituxan and MabThera.||104.25|86.62|
82646644|NCT01682512|165008045|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|104.49|STANDARD_ERROR_OF_MEAN|108.044|||TWO_SIDED|90.0|91.92|118.78|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus Rituxan®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups BI 695500 and Rituxan.||118.78|91.92|
82531510|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.141|||<|0.001|TWO_SIDED|95.0|1.067|1.22|||Mixed Models Analysis||Statistical data for 240 minutes|||1.220|1.067|<0.001
82531511|NCT01751113|164760173|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.239|||<|0.001|TWO_SIDED|95.0|1.159|1.325|||Mixed Models Analysis||Statistical data for 240 minutes|||1.325|1.159|<0.001
82576296|NCT02209181|164862059|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.65||0.056|TWO_SIDED|95.0|-0.03|2.55||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.55|-0.03|0.056
82646645|NCT01682512|165008045|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|91.39|STANDARD_ERROR_OF_MEAN|107.253|||TWO_SIDED|90.0|81.38|102.64|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: BI 695500 versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups BI 695500 and MabThera.||102.64|81.38|
82646646|NCT01682512|165008045|SUPERIORITY_OR_OTHER||Adjusted ratio of gMeans (%)|87.47|STANDARD_ERROR_OF_MEAN|107.896|||TWO_SIDED|90.0|77.12|99.21|||ANOVA|Analysis of variance (ANOVA) model on logarithmic scale: Ln(AUC0-inf, ppk)=overall mean+treatment effect+random error|Adjusted ratio of gMeans: Rituxan® versus MabThera®; standard error is geometric standard error|The similarity of AUC(0-inf, ppk) was compared between treatment groups Rituxan and MabThera.||99.21|77.12|
82646647|NCT00417027|165008071|SUPERIORITY_OR_OTHER||||||>|0.05||||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||>0.05
82646648|NCT00417027|165008071|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||0.005
82646649|NCT00417027|165008071|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Bonferroni corrected for 6 comparisons|Wilcoxon (Mann-Whitney)|||||||0.02
82646650|NCT00417027|165008072|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Kruskal-Wallis|||||||0.54
82646651|NCT00417027|165008073|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Kruskal-Wallis|||||||0.32
82646652|NCT00417027|165008074|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Kruskal-Wallis|||||||0.69
82646653|NCT00417027|165008075|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||Analysis applies to all rows.|Chi-squared, Corrected|||Analysis apply to all rows. Only 1 comparison was made between the groups in distribution of number of bolus doses.||||0.72
82646654|NCT00417027|165008076|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Kruskal-Wallis|||||||0.41
82531512|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.846|||<|0.001|TWO_SIDED|95.0|0.792|0.905|||Mixed Models Analysis||Statistical data for 30 minutes|||0.905|0.792|<0.001
82531513|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.767|||<|0.001|TWO_SIDED|95.0|0.717|0.819|||Mixed Models Analysis||Statistical data for 30 minutes|||0.819|0.717|<0.001
82531514|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.795|0.909|||Mixed Models Analysis||Statistical data for 75 minutes|||0.909|0.795|<0.001
82531515|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.746|||<|0.001|TWO_SIDED|95.0|0.698|0.798|||Mixed Models Analysis||Statistical data for 75 minutes|||0.798|0.698|<0.001
82531516|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.868|||<|0.001|TWO_SIDED|95.0|0.812|0.928|||Mixed Models Analysis||Statistical data for 120 minutes|||0.928|0.812|<0.001
82531517|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.769|||<|0.001|TWO_SIDED|95.0|0.719|0.822|||Mixed Models Analysis||Statistical data for 120 minutes|||0.822|0.719|<0.001
82531518|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.877|||<|0.001|TWO_SIDED|95.0|0.82|0.938|||Mixed Models Analysis||Statistical data for 240 minutes|||0.938|0.820|<0.001
82531519|NCT01751113|164760174|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.809|||<|0.001|TWO_SIDED|95.0|0.757|0.865|||Mixed Models Analysis||Statistical data for 240 minutes|||0.865|0.757|<0.001
82531520|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.157|||<|0.001|TWO_SIDED|95.0|0.116|0.198|||Mixed Models Analysis||Statistical data for FEV1|||0.198|0.116|<0.001
82531521|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.118|||<|0.001|TWO_SIDED|95.0|0.077|0.159|||Mixed Models Analysis||Statistical data for FEV1|||0.159|0.077|<0.001
82531522|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.082||||0.002|TWO_SIDED|95.0|0.031|0.133|||Mixed Models Analysis||Statistical data for FVC|||0.133|0.031|0.002
82531523|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.135|||<|0.001|TWO_SIDED|95.0|0.084|0.186|||Mixed Models Analysis||Statistical data for FVC|||0.186|0.084|<0.001
82531524|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of IC|0.054||||0.035|TWO_SIDED|95.0|0.004|0.104|||Mixed Models Analysis||Statistical data for IC|||0.104|0.004|0.035
82407237|NCT05559905|164522138|SUPERIORITY||Difference in Least Squares Mean|-2.09||||0.371|TWO_SIDED|90.0|-5.97|1.78|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The TSS-AUC in each group and the differences in mean TSS-AUC between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.78|-5.97|0.371
82407238|NCT05559905|164522139|SUPERIORITY||Difference in Least Squares Mean|-1.82||||0.36|TWO_SIDED|90.0|-5.11|1.47|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The TSS-AUC-CFB in each group and the differences in mean TSS-AUC-CFB between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.47|-5.11|0.360
82407239|NCT05559905|164522140|SUPERIORITY||Difference in Least Squares Mean|-0.46||||0.459|TWO_SIDED|90.0|-1.5|0.57|||ANOVA|||Per protocol, only Panel A (prophylaxis) and Panel C (placebo) were included in the model. The mean peak TSS in each group and the differences in mean peak TSS between MK-4482 and placebo and the corresponding 2- sided 95% CI was computed based on the linear model.||0.57|-1.50|0.459
82407240|NCT05559905|164522142|SUPERIORITY||Difference in Percent (%)|3.42|||||TWO_SIDED|95.0|-18.28|24.5||||||||24.50|-18.28|
82407241|NCT05559905|164522143|SUPERIORITY||Difference in Percent (%)|2.89|||||TWO_SIDED|95.0|-19.37|25.69||||||||25.69|-19.37|
82407242|NCT05559905|164522144|SUPERIORITY||Difference in Percent (%)|-2.63|||||TWO_SIDED|95.0|-25.07|19.91||||||||19.91|-25.07|
82407243|NCT05559905|164522145|SUPERIORITY||Difference in Percent (%)|-16.18|||||TWO_SIDED|95.0|-36.77|5.64||||||||5.64|-36.77|
82407244|NCT05559905|164522146|SUPERIORITY||Difference in Percent (%)|-2.89|||||TWO_SIDED|95.0|-25.69|19.37||||||||19.37|-25.69|
82407245|NCT05559905|164522147|SUPERIORITY||Difference in Least Squares Mean|-0.69||||0.253|TWO_SIDED|90.0|-1.68|0.31|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.31|-1.68|0.253
82407246|NCT05559905|164522148|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.1708||95.0|0.83|3.57|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.57|0.83|0.1708
82576297|NCT02209181|164862060|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|0.66||0.067|TWO_SIDED|95.0|-0.09|2.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.50|-0.09|0.067
82576298|NCT02209181|164862060|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.65||0.547|TWO_SIDED|95.0|-0.89|1.68||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.68|-0.89|0.547
82407247|NCT05559905|164522149|SUPERIORITY||Difference in Least Squares Mean|-5.93||||0.257|TWO_SIDED|90.0|-14.61|2.75|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean VL-AUC in each group and the differences in mean VL-AUC between MK-4482 and placebo and the corresponding 2-sided 95% CI were computed based on the linear model.||2.75|-14.61|0.257
82407248|NCT05559905|164522150|SUPERIORITY||Difference in Least Squares Mean|-0.58||||0.453|TWO_SIDED|90.0|-1.88|0.71|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean PVL in each group and the differences in mean PVL between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||0.71|-1.88|0.453
82407249|NCT05559905|164522151|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.9121|TWO_SIDED|95.0|0.44|2.51|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.51|0.44|0.9121
82407250|NCT05559905|164522152|SUPERIORITY||Difference in Least Squares Mean|-1.83||||0.377|TWO_SIDED|90.0|-5.25|1.6|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. The TSS-AUC in each group and the differences in mean TSS-AUC between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||1.60|-5.25|0.377
82407251|NCT05559905|164522153|SUPERIORITY||Difference in Least Squares Mean|-0.13||||0.958|TWO_SIDED|90.0|-4.28|4.02|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) were included in the model. The TSS-AUC-CFB in each group and the differences in mean TSS-AUC-CFB between MK-4482 and placebo and the corresponding 2- sided 95% CI were computed based on the linear model.||4.02|-4.28|0.958
82407252|NCT05559905|164522154|SUPERIORITY||Difference in Least Squares Mean|-0.62||||0.52|TWO_SIDED|90.0|-2.21|0.98|||ANOVA|||Per protocol, only Panel B (treatment) and Panel C (placebo) are included in the model. For both panels, only the participants with RSV infection were included in the analysis. The mean peak TSS in each group and the differences in mean peak TSS between MK-4482 and placebo and the corresponding 2- sided 95% CI was computed based on the linear model.||0.98|-2.21|0.520
82407253|NCT05559905|164522156|SUPERIORITY||Hazard Ratio (HR)|2.24||||0.0459|TWO_SIDED|95.0|0.99|5.07|||Log Rank|Two-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||5.07|0.99|0.0459
82407254|NCT04195061|164522217|SUPERIORITY|||||||0.303|||||||t-test, 2 sided|||||||0.303
82407255|NCT04195061|164522218|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82407256|NCT04195061|164522219|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82407257|NCT03834506|164522220|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1677|TWO_SIDED|95.0|0.78|1.09||One-sided p-value based on log-rank test stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|||1.09|0.78|0.1677
82407258|NCT03834506|164522221|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0335|TWO_SIDED|95.0|0.71|1.01||One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.01|0.71|0.0335
82531525|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of IC|0.064||||0.011|TWO_SIDED|95.0|0.015|0.114|||Mixed Models Analysis||Statistical data for IC|||0.114|0.015|0.011
82407259|NCT03834506|164522222|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0331|TWO_SIDED|95.0|0.74|1.01||One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.01|0.74|0.0331
82407260|NCT03834506|164522224|OTHER||Percent Difference|-1.8||||0.6545|TWO_SIDED|95.0|-10.7|7.1||Based on Miettinen \& Nurminen method stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by prior treatment with a NHA (abiraterone acetate) and type of metastases at baseline.|||7.1|-10.7|0.6545
82407261|NCT03834506|164522226|OTHER||Hazard Ratio (HR)|1.05||||0.6178|TWO_SIDED|95.0|0.77|1.43|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.43|0.77|0.6178
82407262|NCT03834506|164522227|OTHER||Hazard Ratio (HR)|1.54||||0.9788|TWO_SIDED|95.0|1.01|2.33|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||2.33|1.01|0.9788
82407263|NCT03834506|164522228|OTHER||Hazard Ratio (HR)|0.96||||0.297|TWO_SIDED|95.0|0.82|1.12|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.12|0.82|0.2970
82407264|NCT03834506|164522229|OTHER||Hazard Ratio (HR)|0.95||||0.2876|TWO_SIDED|95.0|0.78|1.15|||Log Rank|One-sided p-value based on log-rank test stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by prior treatment with NHA (abiraterone acetate) and type of metastases at baseline.|||1.15|0.78|0.2876
82407265|NCT01939314|164522244|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.5|||||TWO_SIDED|95.0|-13.0|27.1||||||||27.1|-13.0|
82407266|NCT01939314|164522246|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.7|||||TWO_SIDED|95.0|2.6|43.6||||||||43.6|2.6|
82407267|NCT02175225|164522271|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 12% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 12% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.006|||||ONE_SIDED|90.0||0.068|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.068||
82407268|NCT02175225|164522272|OTHER||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.57|1.16||||||||1.16|0.57|
82407269|NCT02175225|164522273|OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.57|1.56||||||||1.56|0.57|
82407270|NCT02175225|164522274|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 13% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than13% in favor of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.062|||||ONE_SIDED|90.0||0.121|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference\[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.121||
82646655|NCT00417027|165008077|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Kruskal-Wallis|||||||0.85
82407271|NCT02175225|164522275|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 12% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 12% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|0.086|||||ONE_SIDED|90.0||0.156|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 12% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.156||
82407272|NCT02175225|164522276|OTHER|The alternative hypothesis, reflecting futility, is that the absolute treatment effect is less than 13% in favor of deferoxamine. In accordance with the futility design, futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if the upper bound on the risk difference was less than 13% in favour of deferoxamine mesylate, this would be considered evidence of futility.|Risk Difference (RD)|-0.018|||||ONE_SIDED|90.0||0.029|||||Futility was evaluated via the one-sided 90% upper confidence bound (90% UCB) of the treatment effect (absolute adjusted risk difference \[AARD\]); if UCB was less than 13% in favour of deferoxamine mesylate, this is considered evidence of futility.|||0.029||
82407273|NCT02175225|164522277|OTHER|||||||0.83||||||The p value reflects the significance of the interaction term between treatment and onset to treatment time.|Regression, Logistic|||||||0.83
82407274|NCT02175225|164522278|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.72|1.67|||||The estimation parameter is the adjusted common odds ratio.|||1.67|0.72|
82407275|NCT02175225|164522279|OTHER||Odds Ratio, log|1.26|||||TWO_SIDED|95.0|0.82|1.93||||||||1.93|0.82|
82531526|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.107||||0.009|TWO_SIDED|95.0|-0.187|-0.028|||Mixed Models Analysis||Statistical data for RV|||-0.028|-0.187|0.009
82531527|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.102||||0.012|TWO_SIDED|95.0|-0.18|-0.023|||Mixed Models Analysis||Statistical data for RV|||-0.023|-0.180|0.012
82407276|NCT02175225|164522282|OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.0|14.97|||||Confidence interval is exact (rather than asymptotic) due to small number of events.|||14.97|0.0|
82407277|NCT02175225|164522283|OTHER||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.51|1.54|||||Confidence interval constructed only for all cause owing to small number of events caused by acute respiratory distress syndrome.|||1.54|0.51|
82407278|NCT02175225|164522284|OTHER||Risk Ratio (RR)|1.84|||||TWO_SIDED|95.0|0.63|5.35||||||||5.35|0.63|
82407279|NCT01107925|164522320|NON_INFERIORITY_OR_EQUIVALENCE|Difference in median MPA in response to 20 μM ADP in LBW participants who received 5 mg prasugrel to the 75th percentile of MPA response to 20 μM ADP in HBW participants who received10 mg prasugrel at the end of Study Period 1 (Baseline through Day 12) was estimated from the observed data.|Estimate of the difference|-10.1||||0.526|TWO_SIDED|95.0|-23.4|0.2|||bootstrap (to determine 95% CI)||Estimate of the difference = \[median (low body weight) - Q3 (higher body weight)\]|||0.20|-23.40|0.526
82407280|NCT03311945|164522325|OTHER||||||||||||||||||This was a single-arm study without a comparator group; therefore, no formal hypothesis testing was conducted. The primary endpoint-therapeutic failure at 48 weeks-was analyzed descriptively. The proportion of participants experiencing therapeutic failure was calculated for both the intention-to-treat (ITT) and on-treatment (OT) populations. Exact binomial (Clopper-Pearson) 95% confidence intervals were used to estimate the failure rates.|||
82407281|NCT01062308|164522363|SUPERIORITY_OR_OTHER||Mean difference from baseline to day 30|-11.8||||0.03|TWO_SIDED|95.0|-22.6|-1.1|||Mixed Models Analysis|||||-1.1|-22.6|0.03
82407282|NCT01062308|164522364|SUPERIORITY_OR_OTHER||Mean difference from baseline to day 30|6.6||||0.16|TWO_SIDED|95.0|-2.7|15.9|||Mixed Models Analysis|||||15.9|-2.7|0.16
82407283|NCT01409239|164522381|SUPERIORITY_OR_OTHER|||||||0.05||||||Wilcoxon rank-sum was used to determine differences between groups.|Wilcoxon (Mann-Whitney)|||Since this was a pilot study no formal power analysis was possible. It was hypothesized that IV insulin would be associated with lower LF/HF HRV.||||0.05
82407284|NCT05630196|164522429|SUPERIORITY||Posterior Mean Difference|0.39|||||TWO_SIDED|95.0|-0.22|1.0|||||Posterior mean difference with 95% credible interval is reported.|||1.00|-0.22|
82407285|NCT05630196|164522430|SUPERIORITY||Posterior Mean Difference|1.16|||||TWO_SIDED|95.0|-0.44|2.77|||||Posterior mean difference with 95% credible interval is reported.|||2.77|-0.44|
82407286|NCT05630196|164522431|SUPERIORITY||Posterior Mean Difference|0.22|||||TWO_SIDED|95.0|-0.23|0.67|||||Posterior mean difference with 95% credible interval is reported.|||0.67|-0.23|
82407287|NCT05630196|164522432|SUPERIORITY||Posterior Mean Difference|0.52|||||TWO_SIDED|95.0|-0.13|1.18|||||Posterior mean difference with 95% credible interval is reported.|||1.18|-0.13|
82531528|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.013||||0.632|TWO_SIDED|95.0|-0.066|0.04|||Mixed Models Analysis||Statistical data for TLC|||0.040|-0.066|0.632
82407288|NCT05630196|164522433|SUPERIORITY||Posterior Mean Difference|4.2|||||TWO_SIDED|95.0|-3.51|11.87|||||Posterior mean difference with 95% credible interval is reported.|||11.87|-3.51|
82407289|NCT05630196|164522434|SUPERIORITY||Posterior Mean Difference|-0.34|||||TWO_SIDED|95.0|-0.74|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.74|
82407290|NCT05630196|164522435|SUPERIORITY||Posterior Mean Difference|-11.11|||||TWO_SIDED|95.0|-159.85|136.77|||||Posterior mean difference with 95% credible interval is reported.|||136.77|-159.85|
82407291|NCT05630196|164522436|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.11|
82407292|NCT03438266|164522437|NON_INFERIORITY|If the upper limit of the confidence interval at Month 1 was less than 0.5, then treatment with cannula was considered non-inferior to treatment with needle.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.05|0.25|||||The 95% CI is based on the paired t-test.|Change from Baseline at Month 1||0.25|-0.05|
82407293|NCT03438266|164522438|OTHER||Percentage Difference|-1.7|||||TWO_SIDED|95.0|-7.31|3.98||||||||3.98|-7.31|
82407294|NCT00496769|164522475|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|1e-05|TWO_SIDED|95.0|0.32|0.62|||Log Rank|||||0.62|0.32|<0.00001
82407295|NCT00496769|164522476|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.00026|TWO_SIDED|95.0|0.53|0.83|||Log Rank||Vascular death|||0.83|0.53|0.00026
82407296|NCT00496769|164522477|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.06782|TWO_SIDED|95.0|0.62|1.02|||Log Rank||All-cause death|||1.02|0.62|0.06782
82407297|NCT00496769|164522477|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0028|TWO_SIDED|95.0|0.6|0.9|||Log Rank||Composite endpoint of major vascular events and major bleeding-net clinical benefit|||0.90|0.60|0.00280
82407298|NCT00496769|164522477|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.36586|TWO_SIDED|95.0|0.65|1.17|||Log Rank||Vascular death|||1.17|0.65|0.36586
82407299|NCT00496769|164522478|OTHER||Hazard Ratio (HR)|1.54||||0.0716|TWO_SIDED|95.0|0.96|2.45|||Log Rank||Major bleeding|||2.45|0.96|0.0716
82407300|NCT00496769|164522478|OTHER||Hazard Ratio (HR)|1.3||||0.0017|TWO_SIDED|95.0|1.1|1.53|||Log Rank||All bleeding|||1.53|1.10|0.0017
82407301|NCT00496769|164522478|OTHER||Hazard Ratio (HR)|1.38||||0.0144|TWO_SIDED|95.0|1.07|1.78|||Log Rank||Major or CNRM bleeding|||1.78|1.07|0.0144
82407302|NCT00496769|164522479|OTHER||Hazard Ratio (HR)|1.3||||0.0017|TWO_SIDED|95.0|1.1|1.53|||Log Rank|||||1.53|1.10|0.0017
82407303|NCT01573000|164522509|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|95.0|35.0|65.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR). The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||65|35|
82407304|NCT01573000|164522509|SUPERIORITY_OR_OTHER||percentage of participants|22.0|||||TWO_SIDED|95.0|9.0|36.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR). The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||36|9|
82531529|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.014||||0.596|TWO_SIDED|95.0|-0.067|0.038|||Mixed Models Analysis||Statistical data for TLC|||0.038|-0.067|0.596
82531530|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.065||||0.028|TWO_SIDED|95.0|-0.123|-0.007|||Mixed Models Analysis||Statistical data for TGV|||-0.007|-0.123|0.028
82531531|NCT01751113|164760175|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.075||||0.01|TWO_SIDED|95.0|-0.133|-0.018|||Mixed Models Analysis||Statistical data for TGV|||-0.018|-0.133|0.010
82531532|NCT01751113|164760176|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.032|||<|0.001|TWO_SIDED|95.0|0.023|0.041|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.041|0.023|<0.001
82407305|NCT01573000|164522510|SUPERIORITY_OR_OTHER||percentage of participants|16.0|||||TWO_SIDED|95.0|0.0|32.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR) before Crossover.|||32|0|
82407306|NCT01573000|164522510|SUPERIORITY_OR_OTHER||percentage of participants|79.0|||||TWO_SIDED|95.0|61.0|97.0|||||The estimated value represents the percentage of participants with confirmed response (CR, CCR, PR) after Crossover.|||97|61|
82407307|NCT01573000|164522511|SUPERIORITY_OR_OTHER||percentage of participants|26.0|||||TWO_SIDED|95.0|13.0|39.0|||||The estimated value represents the percentage of participants with complete response. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||39|13|
82407308|NCT01573000|164522511|SUPERIORITY_OR_OTHER||percentage of participants|8.0|||||TWO_SIDED|95.0|0.0|17.0|||||The estimated value represents the percentage of participants with complete response. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||17|0|
82407309|NCT01573000|164522512|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Fisher Exact|||||||0.012
82407310|NCT01573000|164522513|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed complete response before Crossover.|||0|0|
82407311|NCT01573000|164522513|SUPERIORITY_OR_OTHER||percentage of participants|42.0|||||TWO_SIDED|95.0|20.0|64.0|||||The estimated value represents the percentage of participants with confirmed complete response after Crossover.|||64|20|
82407312|NCT01573000|164522514|SUPERIORITY_OR_OTHER||percentage of participants|2.0|||||TWO_SIDED|95.0|0.0|7.0|||||The estimated value represents the percentage of participants with confirmed CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||7|0|
82407313|NCT01573000|164522514|SUPERIORITY_OR_OTHER||percentage of participants|3.0|||||TWO_SIDED|95.0|0.0|8.0|||||The estimated value represents the percentage of participants with confirmed CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||8|0|
82407314|NCT01573000|164522515|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed CCR before Crossover.|||0|0|
82407315|NCT01573000|164522515|SUPERIORITY_OR_OTHER||percentage of participants|5.0|||||TWO_SIDED|95.0|0.0|15.0|||||The estimated value represents the percentage of participants with confirmed CCR after Crossover.|||15|0|
82407316|NCT01573000|164522516|SUPERIORITY_OR_OTHER||percentage of participants|31.0|||||TWO_SIDED|95.0|17.0|45.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||45|17|
82407317|NCT01573000|164522516|SUPERIORITY_OR_OTHER||percentage of participants|11.0|||||TWO_SIDED|95.0|1.0|21.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||21|1|
82407318|NCT01573000|164522517|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR before Crossover.|||0|0|
82531533|NCT01751113|164760176|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.017|||<|0.001|TWO_SIDED|95.0|0.008|0.026|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.026|0.008|<0.001
82531534|NCT01751113|164760177|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.835|||<|0.001|TWO_SIDED|95.0|0.77|0.905|||Mixed Models Analysis|||||0.905|0.770|<0.001
82407319|NCT01573000|164522517|SUPERIORITY_OR_OTHER||percentage of participants|47.0|||||TWO_SIDED|95.0|25.0|70.0|||||The estimated value represents the percentage of participants with confirmed CR and CCR after Crossover.|||70|25|
82407320|NCT01573000|164522518|SUPERIORITY_OR_OTHER||percentage of participants|17.0|||||TWO_SIDED|95.0|5.0|28.0|||||The estimated value represents the percentage of participants with confirmed PR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=42) is used as the denominator.|||28|5|
82407321|NCT01573000|164522518|SUPERIORITY_OR_OTHER||percentage of participants|11.0|||||TWO_SIDED|95.0|1.0|21.0|||||The estimated value represents the percentage of participants with confirmed PR. The number of participants evaluable for overall response (confirmed and unconfirmed; n=36) is used as the denominator.|||21|1|
82407322|NCT01573000|164522519|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
82407323|NCT01573000|164522521|SUPERIORITY_OR_OTHER|||||||0.495||95.0|||||Log Rank|||||||0.495
82407324|NCT01573000|164522522|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Log Rank|||||||0.677
82407325|NCT01573000|164522525|SUPERIORITY_OR_OTHER|||||||0.119||95.0|||||Log Rank|||||||0.119
82407326|NCT01573000|164522526|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Log Rank|||||||0.016
82407327|NCT01573000|164522539|SUPERIORITY_OR_OTHER||percentage of participants|16.0|||||TWO_SIDED|95.0|0.0|32.0|||||The estimated value represents the percentage of participants with confirmed PR before Crossover.|||32|0|
82407328|NCT01573000|164522539|SUPERIORITY_OR_OTHER||percentage of participants|32.0|||||TWO_SIDED|95.0|11.0|52.0|||||The estimated value represents the percentage of participants with confirmed PR after Crossover.|||52|11|
82407329|NCT00729521|164522551|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.92|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.88|0.95|||Mixed Models Analysis|Mixed Effects Poisson Regression|Comparison group is the control arm.|||0.95|0.88|<0.05
82407330|NCT00729521|164522551|SUPERIORITY_OR_OTHER||Incident Rate Ratio|0.91|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|0.88|0.94|||Mixed Models Analysis|Mixed Effected Poisson Model Regression|Comparison group is the control arm.|||0.94|0.88|<.05
82407331|NCT01507181|164522568|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 2 sided|||||||0.32
82407332|NCT01507181|164522569|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82407333|NCT01507181|164522570|SUPERIORITY_OR_OTHER|||||||0.17||||||Statistics are calculated by comparing 24-h scores using separate ANCOVAs and controlling for baseline severity.|ANCOVA|||||||0.17
82407334|NCT01130272|164522579|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.457||||0.052|TWO_SIDED|95.0|0.994|6.077|||ANCOVA|||||6.077|0.994|0.052
82531535|NCT01751113|164760177|SUPERIORITY_OR_OTHER||specific airway conductance ratio|0.803|||<|0.001|TWO_SIDED|95.0|0.741|0.869|||Mixed Models Analysis|||||0.869|0.741|<0.001
82531536|NCT01751113|164760178|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.108|1.301|||Mixed Models Analysis|||||1.301|1.108|<0.001
82646656|NCT03137082|165008078|SUPERIORITY||||||<|0.03|||||||Mixed Models Analysis|||||||<0.03
82407335|NCT01130272|164522579|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.383||||0.041|TWO_SIDED|95.0|1.036|5.478|||ANCOVA|||||5.478|1.036|0.041
82407336|NCT01130272|164522579|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.079||||0.09|TWO_SIDED|95.0|0.893|4.842|||ANCOVA|||||4.842|0.893|0.090
82407337|NCT01130272|164522579|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.797||||0.015|TWO_SIDED|95.0|1.227|6.376|||ANCOVA|||||6.376|1.227|0.015
82407338|NCT01130272|164522580|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.719||||0.449|TWO_SIDED|95.0|0.306|1.689|||ANCOVA|||||1.689|0.306|0.449
82531537|NCT01751113|164760178|SUPERIORITY_OR_OTHER||specific airway conductance ratio|1.249|||<|0.001|TWO_SIDED|95.0|1.153|1.352|||Mixed Models Analysis|||||1.352|1.153|<0.001
82407339|NCT01130272|164522580|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.208||||0.583|TWO_SIDED|95.0|0.615|2.373|||ANCOVA|||||2.373|0.615|0.583
82407340|NCT01130272|164522580|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.014||||0.03|TWO_SIDED|95.0|1.069|3.795|||ANCOVA|||||3.795|1.069|0.030
82407341|NCT01130272|164522580|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.395||||0.326|TWO_SIDED|95.0|0.717|2.716|||ANCOVA|||||2.716|0.717|0.326
82407342|NCT00641056|164522594|NON_INFERIORITY_OR_EQUIVALENCE|Power: 205 patients per treatment group would provide approximately 92% power to detect a true difference between treatments of 0.4% in change in HbA1c from baseline with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.|Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|-0.29|-0.03||No adjustments for multiplicity were performed|Mixed Models Analysis|||Mixed-model Repeated Measures (MMRM) Analysis of Covariance (ANCOVA) model includes treatment, baseline HbA1c, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects. Superiority of exenatide once weekly to insulin glargine is concluded if the upper limit of the 95% confidence interval for the treatment difference \[exenatide once weekly-insulin glargine\]\<0; noninferiority is concluded if this upper limit\<0.3%.||-0.03|-0.29|0.017
82407343|NCT00641056|164522595|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|95.0||||No adjustments for multiplicity were performed|Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<=7.0% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which background OAD and country served as the stratification factors.||||0.097
82407344|NCT00641056|164522596|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0||||No adjustments for multiplicity were performed|Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<=6.5% at Week 26 were compared between treatments using a CMH test, in which background OAD and country served as the stratification factors.||||0.002
82407345|NCT00641056|164522597|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|0.25|1.0||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in FSG as the dependent variable; treatment, baseline FSG, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||1.00|0.25|0.001
82531538|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.161|||<|0.001|TWO_SIDED|95.0|0.086|0.236|||Mixed Models Analysis||Statistical data for FEV1|||0.236|0.086|<0.001
82576299|NCT02209181|164862060|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.16|STANDARD_ERROR_OF_MEAN|0.66|<|0.001|TWO_SIDED|95.0|1.86|4.46||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.46|1.86|<0.001
82407346|NCT00641056|164522598|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.05|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-4.57|-3.52||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in BW as the dependent variable; treatment, baseline BW, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||-3.52|-4.57|<.001
82407347|NCT00641056|164522599|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.292|TWO_SIDED|95.0|-0.21|0.06||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in total cholesterol as the dependent variable; treatment, baseline total cholesterol, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||0.06|-0.21|0.292
82407348|NCT00641056|164522600|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.377|TWO_SIDED|95.0|-0.05|0.02||No adjustments for multiplicity were performed|Mixed Models Analysis|||MMRM ANCOVA with change in HDL as the dependent variable; treatment, baseline HDL, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||0.02|-0.05|0.377
82407349|NCT00641056|164522601|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.07|STANDARD_ERROR_OF_MEAN|0.04||0.077|TWO_SIDED|95.0|0.99|1.15||No adjustments for multiplicity were performed|Mixed Models Analysis|||Triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed by MMRM ANCOVA with change in triglycerides as the dependent variable; treatment, baseline triglycerides, country, background OAD stratum, week of visit, and treatment-by-week interaction as fixed effects; patient and error as random effects.||1.15|0.99|0.077
82407350|NCT02026141|164522625|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
82407351|NCT03074695|164522640|OTHER||Risk Difference (RD)|3.03||||0.766|TWO_SIDED|95.0|-14.02|20.08|||Regression, Logistic|Adjusted for baseline characteristics (parturient race, ethnicity, height, and induction status).||||20.08|-14.02|0.766
82407352|NCT01774981|164522650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0449|||||||t-test, 1 sided|||||||0.0449
82407353|NCT01774981|164522650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0808|||||||t-test, 1 sided|||||||0.0808
82407354|NCT01774981|164522650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2219|||||||t-test, 1 sided|||||||0.2219
82531539|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of FEV1|0.103||||0.008|TWO_SIDED|95.0|0.028|0.178|||Mixed Models Analysis||Statistical data for FEV1|||0.178|0.028|0.008
82531540|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.104||||0.051|TWO_SIDED|95.0|0.0|0.209|||Mixed Models Analysis||Statistical data for FVC|||0.209|0.000|0.051
82531541|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of FVC|0.148||||0.006|TWO_SIDED|95.0|0.043|0.253|||Mixed Models Analysis||Statistical data for FVC|||0.253|0.043|0.006
82531542|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of IC|-0.008||||0.89|TWO_SIDED|95.0|-0.12|0.104|||Mixed Models Analysis||Statistical data for IC|||0.104|-0.120|0.890
82407355|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.54||||0.048|TWO_SIDED|95.0|1.0|2.36|||Regression, Cox|||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.:~This marker was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||2.36|1.0|0.048
82407356|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.16||||0.5|TWO_SIDED|95.0|0.75|1.81|||Regression, Cox|||T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia TBmax was modeled with a univariate Cox regression model for OS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported. The study was designed to enroll 46 evaluable participants to detect a log hazard ratio of 1.279 for TBmax with HV as a covariate with a 50% event rate||1.81|.75|0.50
82407357|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.0||||0.9|TWO_SIDED|0.97|0.97|1.03|||Regression, Cox|||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Hypoxic Volume (HV) was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.03|0.97|0.90
82407358|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.17||||0.024|TWO_SIDED|95.0|1.02|1.34|||Regression, Cox||HR reported per 0.01 increase|"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model Mean ktrans was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.34|1.02|0.024
82407359|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.32||||0.045|TWO_SIDED|95.0|1.01|1.72|||Regression, Cox||HR reported per 0.01 increase|"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.72|1.01|0.045
82407360|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.11||||0.31|TWO_SIDED|95.0|0.9|1.37|||Regression, Cox|||Relative cerebral blood volume (RCBV) maps, computed from the integral of ∆R2\*(t), were corrected for leakage effects and normalized to normal appearing white matter (nRCBV); nRCBV provides a measure of tumor vasculature and was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.37|0.90|0.31
82407361|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.07||||0.51|TWO_SIDED|95.0|0.88|1.29|||Regression, Cox|||cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF and provide another measure of vascular permeability and perfusion nCBF was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.29|0.88|0.51
82407362|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|1.0||||0.97|TWO_SIDED|95.0|0.79|1.26|||Regression, Cox|||Apparent Diffusion Coefficient (ADC) measures water diffusion through tissue. Cerebral infarction leads to diffusion restriction resulting in a low ADC signal in the infarcted area. A double Gaussian mixed model was fit to the ADC histogram and the mean of the lower ADC curve, was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.26|0.79|0.9700
82407363|NCT00902577|164522654|OTHER||Hazard Ratio (HR)|0.99||||0.9007|TWO_SIDED|95.0|0.91|1.09|||Regression, Cox|||Apparent Diffusion Coefficient (ADC) measures water diffusion through tissue. Cerebral infarction leads to diffusion restriction resulting in a low ADC signal in the infarcted area. A double Gaussian mixed model was fit to the ADC histogram and the mean of the higher ADC curve, was modeled with a univariate Cox regression model for overall survival (OS) time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.09|0.91|0.9007
82407364|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.24||||0.33|TWO_SIDED|95.0|0.8|1.91|||Regression, Cox|||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.~This marker was modeled with a univariate Cox regression model for Progression Free Survival time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.91|.80|0.33
82407365|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|0.93||||0.72|TWO_SIDED|95.0|0.61|1.4|||Regression, Cox|||T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia TBmax was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported.||1.4|.61|0.72
82407366|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.01||||0.355|TWO_SIDED|95.0|0.98|1.04|||Regression, Cox|||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Hypoxic Volume (HV) was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.04|.98|0.355
82531543|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of IC|-0.008||||0.89|TWO_SIDED|95.0|-0.118|0.103|||Mixed Models Analysis||Statistical data for IC|||0.103|-0.118|0.890
82407367|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.1||||0.074|TWO_SIDED|95.0|0.99|1.23|||Regression, Cox|||"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Mean ktrans was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.23|0.99|0.074
82531544|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.229|||<|0.001|TWO_SIDED|95.0|-0.355|-0.103|||Mixed Models Analysis||Statistical data for RV|||-0.103|-0.355|<0.001
82531545|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of RV|-0.189||||0.003|TWO_SIDED|95.0|-0.314|-0.064|||Mixed Models Analysis||Statistical data for RV|||-0.064|-0.314|0.003
82407368|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.3||||0.021|TWO_SIDED|95.0|1.04|1.63|||Regression, Cox|||"ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.63|1.04|0.021
82407369|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.28||||0.0096|TWO_SIDED|95.0|1.06|1.54|||Regression, Cox|||"Relative cerebral blood volume (RCBV) maps, computed from the integral of ∆R2\*(t), were corrected for leakage effects and normalized to normal appearing white matter (nRCBV); nRCBV provides a measure of tumor vasculature and was modeled with a univariate Cox regression model for PFS time.~The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.54|1.06|0.0096
82407370|NCT00902577|164522655|OTHER||Hazard Ratio (HR)|1.18||||0.038|TWO_SIDED|95.0|1.01|1.38|||Regression, Cox|||"cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF and provide another measure of vascular permeability and perfusion.~nCBF was modeled with a univariate Cox regression model for PFS time. The hazard ratio, along with its 95% confidence interval and the p-value based on Wald's statistic are reported."||1.38|1.01|0.038
82407371|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.682||||0.3253|TWO_SIDED|95.0|0.318|1.463|||Regression, Logistic|||Logistic regression for SUVpeak to predict PFS6||1.463|0.318|0.3253
82407372|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.991||||0.9836|TWO_SIDED|95.0|0.403|2.434|||Regression, Logistic|||TBmax was modeled with a univariate logistic regression model for PFS6.||2.434|0.403|0.9836
82407373|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.957||||0.1566|TWO_SIDED|95.0|0.9|1.017|||Regression, Logistic|||Hypoxic Volume (HV) was modeled with a logistic regression model for 6month progression free survival (PFS6) .||1.017|0.900|0.1566
82407374|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.993||||0.9554|TWO_SIDED|95.0|0.775|1.273|||Regression, Logistic|||"Mean ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Mean ktrans was modeled with a univariate logistic regression model for PFS6."||1.273|0.775|0.9554
82407375|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.919||||0.6941|TWO_SIDED|95.0|0.602|1.402|||Regression, Logistic|||"Median ktrans were computed using a matrix-based linearization method to fit tissue ∆R1(t) to the extended Tofts model.~Median ktrans was modeled with a univariate logistic regression model for PFS6"||1.402|0.602|0.6941
82407376|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.744||||0.134|TWO_SIDED|95.0|0.506|1.095|||Regression, Logistic|||"Relative cerebral blood volume (RCBV) maps were corrected for leakage effects and normalized to normal appearing white matter (nRCBV).~nRCBV was modeled with a univariate logistic regression model for PFS6."||1.095|0.506|0.1340
82407377|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.821||||0.2642|TWO_SIDED|95.0|0.58|1.161|||Regression, Logistic|||"cerebral blood flow (CBF) maps were was normalized to the mean of the region of interest (ROI) in normal appearing white matter to produce the nCBF.~nCBF was modeled with a univariate logistic regression model for PFS6."||1.161|0.580|0.2642
82407378|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.855||||0.5069|TWO_SIDED|95.0|0.539|1.357|||Regression, Logistic|||Apparent Diffusion Coefficient (ADC) low values were modeled with a univariate logistic regression model for PFS6||1.357|0.539|0.5069
82407379|NCT00902577|164522655|OTHER||Odds Ratio (OR)|0.884||||0.1921|TWO_SIDED|95.0|0.735|1.064|||Regression, Logistic|||Apparent Diffusion Coefficient (ADC) high values were modeled with a univariate Logistic regression model for PFS6||1.064|0.735|0.1921
82531546|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.101||||0.055|TWO_SIDED|95.0|-0.204|0.002|||Mixed Models Analysis||Statistical data for TLC|||0.002|-0.204|0.055
82531547|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of TLC|-0.105||||0.044|TWO_SIDED|95.0|-0.206|-0.003|||Mixed Models Analysis||Statistical data for TLC|||-0.003|-0.206|0.044
82576300|NCT02209181|164862060|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.65||0.214|TWO_SIDED|95.0|-2.1|0.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.47|-2.10|0.214
82407380|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.61|||||TWO_SIDED|95.0|0.42|0.79||||||"FMISO selectively binds to hypoxic tissues so that SUVpeak within a region provides a measure of tumor hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.79|0.42|
82407381|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.59|||||TWO_SIDED|95.0|0.39|0.78||||||"T/Bmax is the pixel in the tumor region with the maximum tumor:blood ratio (T/Bmax) and T/Bmax depicts the magnitude of the hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.78|0.39|
82407382|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.64|||||TWO_SIDED|95.0|0.46|0.83||||||"Hypoxia Volume (HV) depicts the volume of tumor that has crossed the threshold for hypoxia.~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9."||0.83|0.46|
82407383|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.62|||||TWO_SIDED|95.0|0.42|0.83||||||"mean ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of mean ktrans to predict PFS9."||0.83|0.42|
82407384|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.64|||||TWO_SIDED|95.0|0.44|0.84||||||"Median ktrans reflects the rate of gadolinium moves from plasma to extravascular extracellular space (predominantly though blood flow and capillary leakage).~Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of Median ktrans to predict PFS9."||0.84|0.44|
82531548|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.092||||0.085|TWO_SIDED|95.0|-0.197|0.013|||Mixed Models Analysis||Statistical data for TGV|||0.013|-0.197|0.085
82407385|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.54|0.89||||||nRCBV provides a measure of tumor vasculature Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9.||0.89|0.54|
82531549|NCT01751113|164760179|SUPERIORITY_OR_OTHER||Mean difference of TGV|-0.091||||0.083|TWO_SIDED|95.0|-0.195|0.012|||Mixed Models Analysis||Statistical data for TGV|||0.012|-0.195|0.083
82407386|NCT00902577|164522655|OTHER|An Area Under the Curve (AUC) with a lower bound of at least 0.5 is considered statistically significant.|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.55|0.89||||||nCBF provides a measure of vascular permeability and perfusion. Receiver Operating Characteristic(ROC) analysis was perform to determine the accuracy of this marker to predict PFS9.||0.89|0.55|
82407387|NCT02631941|164522680|EQUIVALENCE|For budesonide AUC0-last, the 90% Cls for Z7200 compared with Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80% - 125.00%).|Adjusted geometric means ratio|100.64|||<|0.001|TWO_SIDED|90.0|95.82|105.69|||Mixed Models Analysis|||||105.69|95.82|<0.001
82407388|NCT02631941|164522680|EQUIVALENCE|For budesonide AUC0-last, the 90% Cls for Z7200 compared with Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80% - 125.00%).|Adjusted geometric means ratio|102.11|||<|0.001|TWO_SIDED|90.0|95.55|109.13|||Mixed Models Analysis|||||109.13|95.55|<0.001
82407389|NCT02631941|164522681|EQUIVALENCE|For Formoterol AUC0-last, the 90% Cls for Z7200 compared to Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80.00%, 125.00%).|Adjusted geometric means ratio|87.96||||0.002|TWO_SIDED|90.0|83.31|92.86|||Mixed Models Analysis|||||92.86|83.31|0.002
82407390|NCT02631941|164522681|EQUIVALENCE|For Formoterol AUC0-last, the 90% Cls for Z7200 compared to Symbicort without and with charcoal lie entirely within the standard bioequivalence acceptance limits of (80.00%, 125.00%).|Adjusted geometric means ratio|91.17||||0.005|TWO_SIDED|90.0|83.94|99.04|||Mixed Models Analysis|||||99.04|83.94|0.005
82407391|NCT02631941|164522682|EQUIVALENCE|For Budesonide Cmax, the 90% Cls for Z7200 compared with Symbicort without and with charcoal do not lie entirely within the wider bioequivalence acceptance limits of ( 73.74%, 135.62%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|157.86||||1|TWO_SIDED|90.0|144.12|172.91|||Mixed Models Analysis|||||172.91|144.12|1.00
82407392|NCT02631941|164522682|EQUIVALENCE|For Budesonide Cmax, the 90% Cls for Z7200 compared with Symbicort without and with charcoal do not lie entirely within the wider bioequivalence acceptance limits of ( 73.74%, 135.62%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|166.81||||1|TWO_SIDED|90.0|148.35|187.57|||Mixed Models Analysis|||||187.57|148.35|1.00
82407393|NCT02631941|164522683|EQUIVALENCE|For Formoterol Cmax, the 90% Cl for Z7200 compared to Symbicort without and with charcoal lie entirely within the wider bioequivalence acceptance limits of (77.65%, 128.79%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|85.22||||0.012|TWO_SIDED|90.0|79.66|91.17|||Mixed Models Analysis|||||91.17|79.66|0.012
82407394|NCT02631941|164522683|EQUIVALENCE|For Formoterol Cmax, the 90% Cl for Z7200 compared to Symbicort without and with charcoal lie entirely within the wider bioequivalence acceptance limits of (77.65%, 128.79%) and standard bioequivalence acceptance limits of (80.00%, 125.00%), respectively.|Adjusted geometric means ratio|87.74||||0.02|TWO_SIDED|90.0|81.48|94.47|||Mixed Models Analysis|||||94.47|81.48|0.020
82407395|NCT01240382|164522695|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in mean change in fluorescein staining score from baseline was assessed on the non-inferiority margin (0.34) with the upper limit of the confidence interval of the difference between the 2 treatment groups.|Median Difference (Final Values)|-0.03||||||95.0|-0.405|0.338|||l|||||0.338|-0.405|
82407396|NCT01240382|164522696|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.67||||0.01||95.0|-1.18|-0.67|||t-test, 2 sided|||||-0.67|-1.18|0.010
82407397|NCT03585270|164522707|SUPERIORITY||Relative Risk Reduction|0.072||||0.7338|TWO_SIDED|95.0|-0.426|0.396|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.2785).|||0.396|-0.426|0.7338
82407398|NCT03585270|164522708|SUPERIORITY||Relative Risk Reduction|0.341||||0.177|TWO_SIDED|95.0|-0.213|0.642|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8644).|||0.642|-0.213|0.177
82407399|NCT03585270|164522709|SUPERIORITY||Relative Risk Reduction|-0.254||||0.1983|TWO_SIDED|95.0|-0.76|0.107|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8844).|||0.107|-0.760|0.1983
82407400|NCT03585270|164522710|SUPERIORITY||Relative Risk Reduction|-0.254||||0.1983|TWO_SIDED|95.0|-0.76|0.107|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.8844).|||0.107|-0.760|0.1983
82407401|NCT03585270|164522711|SUPERIORITY||Relative Risk Reduction|0.119||||0.5591|TWO_SIDED|95.0|-0.349|0.425|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.1706).|||0.425|-0.349|0.5591
82407402|NCT03585270|164522712|SUPERIORITY||Relative Risk Reduction|0.267||||0.1179|TWO_SIDED|95.0|-0.085|0.505|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.4580)|||0.505|-0.085|0.1179
82407403|NCT03585270|164522713|SUPERIORITY||Relative Risk Reduction|0.139||||0.5217|TWO_SIDED|95.0|-0.365|0.457|||Cochran-Mantel-Haenszel||Homogeneity of the treatment effect across strata was investigated using the Breslow-Day test (p-value = 0.1685)|||0.457|-0.365|0.5217
82407404|NCT01791985|164522734|OTHER||Mean|0.08|STANDARD_DEVIATION|0.32|||TWO_SIDED|||||||||Proportion of change in tumour size at 12 weeks (or progression if prior to week 12), when used in combination with either anastrozole or letrozole in ER positive breast cancer patients who have progressed on treatment with either anastrozole or letrozole in any setting||||
82531550|NCT01751113|164760180|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.027|||<|0.001|TWO_SIDED|95.0|0.014|0.041|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.041|0.014|<0.001
82531551|NCT01751113|164760180|SUPERIORITY_OR_OTHER||FEV1/FVC ratio|0.008||||0.223|TWO_SIDED|95.0|-0.005|0.021|||Mixed Models Analysis||Statistical data for FEV1/FVC ratio|||0.021|-0.005|0.223
82531552|NCT02743793|164760183|OTHER|No test was performed.|Kaplan-Meier survival estimate|64.0|||||TWO_SIDED|95.0|21.3|87.9|||||Percent of participants that remained tolerant during study participation.|||87.9|21.3|
82407405|NCT04536701|164522750|SUPERIORITY|||||||0.444|||||||t-test, 2 sided|||Total DASS score reported.||||0.444
82407406|NCT04536701|164522750|SUPERIORITY|||||||0.8378|||||||t-test, 2 sided|||Depressive Mood DASS score reported||||0.8378
82407407|NCT04536701|164522750|SUPERIORITY|||||||0.4087|||||||t-test, 2 sided|||Anxiety DASS score reported||||0.4087
82407408|NCT04536701|164522750|SUPERIORITY|||||||0.4124|||||||t-test, 2 sided|||Stress DASS score reported||||0.4124
82407409|NCT04536701|164522751|SUPERIORITY|||||||0.0508|||||||t-test, 2 sided|||Total RMBPC frequency reported||||0.0508
82407410|NCT04536701|164522751|SUPERIORITY|||||||0.026|||||||t-test, 2 sided|||Frequency of disruptive symptoms on RMBP reported||||0.026
82407411|NCT04536701|164522751|SUPERIORITY|||||||0.1861|||||||t-test, 2 sided|||Frequency of depressive symptoms on RMBPC reported||||0.1861
82407412|NCT04536701|164522751|SUPERIORITY|||||||0.9535|||||||t-test, 2 sided|||Frequency of memory symptoms on RMBPC reported||||0.9535
82407413|NCT04536701|164522751|SUPERIORITY|||||||0.0411|||||||t-test, 2 sided|||RMBPC reaction total is reported||||0.0411
82407414|NCT04536701|164522751|SUPERIORITY|||||||0.0058|||||||t-test, 2 sided|||RMBPC reaction disruptive symptoms is reported||||0.0058
82407415|NCT04536701|164522751|SUPERIORITY|||||||0.2527|||||||t-test, 2 sided|||RMBPC reaction depressive symptoms is reported||||0.2527
82531553|NCT01850082|164760259|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.47|TWO_SIDED|95.0|0.83|1.51|||Regression, Cox|||||1.51|0.83|0.47
82646657|NCT03137082|165008079|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.1
82531554|NCT01850082|164760260|SUPERIORITY|||||||0.821|||||||Chi-squared|||||||0.821
82407416|NCT04536701|164522751|SUPERIORITY|||||||0.3542|||||||t-test, 2 sided|||RMBPC reaction memory symptoms||||0.3542
82407417|NCT04536701|164522752|SUPERIORITY|||||||0.3857|||||||t-test, 2 sided|||||||0.3857
82407418|NCT04536701|164522753|SUPERIORITY|||||||0.7213|||||||t-test, 2 sided|||Five Facet Mindfulness Questionnaire (FFMQ) total reported||||0.7213
82407419|NCT04536701|164522753|SUPERIORITY|||||||0.6075|||||||t-test, 2 sided|||FFMQ Observing reported||||0.6075
82531555|NCT01850082|164760261|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
82407420|NCT04536701|164522753|SUPERIORITY|||||||0.4136|||||||t-test, 2 sided|||FFMQ Describing reported||||0.4136
82407421|NCT04536701|164522753|SUPERIORITY|||||||0.8378|||||||t-test, 2 sided|||FFMQ Acting with Awareness reported||||0.8378
82407422|NCT04536701|164522753|SUPERIORITY|||||||0.7193|||||||t-test, 2 sided|||FFMQ Nonjudging reported||||0.7193
82407423|NCT04536701|164522753|SUPERIORITY|||||||0.4145|||||||t-test, 2 sided|||FFMQ Nonreactivity reported||||0.4145
82407424|NCT04536701|164522754|SUPERIORITY|||||||0.5368|||||||t-test, 2 sided|||||||0.5368
82407425|NCT04536701|164522755|SUPERIORITY|||||||0.2845|||||||t-test, 2 sided|||FAD Total reported||||0.2845
82407426|NCT04536701|164522755|SUPERIORITY|||||||0.1386|||||||t-test, 2 sided|||FAD Problem Solving is reported||||0.1386
82407427|NCT04536701|164522755|SUPERIORITY|||||||0.7551|||||||t-test, 2 sided|||FAD Communication is reported||||0.7551
82407428|NCT04536701|164522755|SUPERIORITY|||||||0.7213|||||||t-test, 2 sided|||FAD Roles is reported||||0.7213
82407429|NCT04536701|164522755|SUPERIORITY|||||||0.3233|||||||t-test, 2 sided|||FAD Affective Responsiveness is reported||||0.3233
82407430|NCT04536701|164522755|SUPERIORITY|||||||0.2832|||||||t-test, 2 sided|||FAD Affective Involvement is reported||||0.2832
82407431|NCT04536701|164522755|SUPERIORITY|||||||0.6831|||||||t-test, 2 sided|||FAD Behavior Control is reported||||0.6831
82407432|NCT04536701|164522755|SUPERIORITY|||||||0.6075|||||||t-test, 2 sided|||FAD General Functioning is reported||||0.6075
82407433|NCT03217591|164522774|SUPERIORITY||Geometric mean change (%)|-16.0|||=|0.2142|TWO_SIDED|90.0|-33.3|5.8|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat 20 mg. Geometric mean change (%) and the associated confidence intervals (CIs) were derived as 100×\[exp(Least Squares Mean Change)-1\].||5.8|-33.3|=0.2142
82407434|NCT03217591|164522774|SUPERIORITY||Geometric mean change (%)|-14.6|||=|0.2718|TWO_SIDED|90.0|-32.7|8.3|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat 40 mg. Geometric mean change (%) and the associated CIs were derived as 100×\[exp(Least Squares Mean Change)-1\].||8.3|-32.7|=0.2718
82407435|NCT03217591|164522774|SUPERIORITY||Geometric mean change (%)|-15.3|||=|0.1736|TWO_SIDED|90.0|-30.7|3.6|||Mixed Models Analysis|||Treatment comparison between placebo and praliciguat overall. Geometric mean change (%) and the associated CIs were derived as 100×\[exp(Least Squares Mean Change)-1\].||3.6|-30.7|=0.1736
82407436|NCT01091246|164522802|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5.|Ratio of geometric mean|1.07|||||TWO_SIDED|95.0|0.98|1.16|||Bootstrapping|||A/H1N1: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata + FluMist/B/Victoria) / (Q/LAIV) for A/H1N1 strain||1.16|0.98|
82446297|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||95.29|TWO_SIDED|95.0|0.99|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.99|95.29
82531556|NCT01850082|164760262|SUPERIORITY||Hazard Ratio (HR)|0.923||||0.517|TWO_SIDED|95.0|0.724|1.176|||Regression, Cox|||||1.176|0.724|0.517
82531557|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531558|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531559|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531560|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.491||95.0||||P-Value for Endpoint|ANCOVA|||||||0.491
82531561|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0||||P-Value for Endpoint|ANCOVA|||||||0.055
82531562|NCT00383240|164760427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||P-Value for Endpoint|ANCOVA|||||||0.008
82646658|NCT03137082|165008081|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82531563|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.174||95.0||||P-Value for Endpoint|ANCOVA|||||||0.174
82576301|NCT02209181|164862060|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.96|STANDARD_ERROR_OF_MEAN|0.66||0.003|TWO_SIDED|95.0|0.66|3.26||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.26|0.66|0.003
82576302|NCT02209181|164862061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.64||0.281|TWO_SIDED|95.0|-0.57|1.95||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.95|-0.57|0.281
82576303|NCT02209181|164862061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.63||0.729|TWO_SIDED|95.0|-1.03|1.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.47|-1.03|0.729
82376037|NCT00658021|164458224|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.669||0.314|TWO_SIDED|95.0|-2.0|0.65|||Mixed Models Analysis|||"Treatment difference in body weight at Week 12:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||0.65|-2.00|0.314
82376038|NCT00658021|164458224|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.94||0.692|TWO_SIDED|95.0|-2.24|1.5|||Mixed Models Analysis|||"Treatment difference in body weight at Week 20:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||1.50|-2.24|0.692
82376039|NCT00658021|164458224|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.065||0.679|TWO_SIDED|95.0|-2.56|1.68|||Mixed Models Analysis|||"Treatment difference in body weight at Week 28:~Adjusted LS mean and treatment group difference in the change from baseline values at visit are obtained from a MMRM including treatment, baseline body weight, screening HbA1c strata, background diabetes therapy strata, week of visit, baseline body weight-by visit interaction and treatment-by-visit interaction as fixed effects using an unstructured covariance matrix."||1.68|-2.56|0.679
82376040|NCT00658021|164458225|SUPERIORITY||LS Mean Difference|-0.281|STANDARD_ERROR_OF_MEAN|0.68||0.679|TWO_SIDED|95.0|-1.614|1.052|||ANCOVA|||Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline fasting serum glucose, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.052|-1.614|0.679
82376041|NCT00658021|164458226|SUPERIORITY||LS Mean Difference|0.189|STANDARD_ERROR_OF_MEAN|0.5151||0.714|TWO_SIDED|95.0|-0.821|1.199|||ANCOVA|||Treatment difference for pre-meal SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.199|-0.821|0.714
82376042|NCT00658021|164458226|SUPERIORITY||LS Mean Difference|0.513|STANDARD_ERROR_OF_MEAN|0.5245||0.329|TWO_SIDED|95.0|-0.516|1.541|||ANCOVA|||Treatment difference for post-meal SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.541|-0.516|0.329
82376043|NCT00658021|164458226|SUPERIORITY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.4015||0.601|TWO_SIDED|95.0|-0.577|0.997|||ANCOVA|||Treatment difference for post-prandial excursion SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||0.997|-0.577|0.601
82407437|NCT01091246|164522802|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% CIs were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric means|1.04|||||TWO_SIDED|95.0|0.94|1.14|||Bootstrapping|||A/H3N2: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata + FluMist/B/Victoria) / (Q/LAIV) for A/H3N2 strain||1.14|0.94|
82531564|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82376044|NCT00658021|164458226|SUPERIORITY||LS Mean Difference|0.316|STANDARD_ERROR_OF_MEAN|0.4749||0.505|TWO_SIDED|95.0|-0.615|1.248|||ANCOVA|||Treatment difference for overall SMBG: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline SMBG measure, screening HbA1c strata and background diabetes therapy strata as fixed effects.||1.248|-0.615|0.505
82376045|NCT00658021|164458227|SUPERIORITY||LS Mean Difference|-10.82|STANDARD_ERROR_OF_MEAN|43.187||0.802|TWO_SIDED|95.0|-95.48|73.84|||ANCOVA|||Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline fasting serum insulin, screening HbA1c strata and background diabetes therapy strata as fixed effects.||73.84|-95.48|0.802
82531565|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531566|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531567|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531568|NCT00383240|164760428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.521||95.0||||P-Value for Endpoint|ANCOVA|||||||0.521
82531569|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0||||P-Value for Endpoint|ANCOVA|||||||0.026
82531570|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531571|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531572|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531573|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82646659|NCT03137082|165008082|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82531574|NCT00383240|164760430|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738||95.0||||P-Value for Endpoint|ANCOVA|||||||0.738
82376046|NCT00658021|164458228|SUPERIORITY||LS Mean Difference|-3.84|STANDARD_ERROR_OF_MEAN|18.542||0.836|TWO_SIDED|95.0|-40.19|32.51|||ANCOVA|||Treatment difference for HOMA-B: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline %HOMA-B, screening HbA1c strata and background diabetes therapy strata as fixed effects.||32.51|-40.19|0.836
82376047|NCT00658021|164458228|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|3.846||0.941|TWO_SIDED|95.0|-7.82|7.26|||ANCOVA|||Treatment difference for HOMA-S: Adjusted LS Mean and treatment group difference in the change from baseline values at Week 28 are obtained from multiple imputation ANCOVA including treatment, baseline %HOMA-S, screening HbA1c strata and background diabetes therapy strata as fixed effects.||7.26|-7.82|0.941
82376048|NCT04784533|164458238|SUPERIORITY||Difference in percentages|16.2|||||TWO_SIDED|95.0|5.5|26.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||26.8|5.5|
82376049|NCT04784533|164458238|SUPERIORITY||Difference in percentages|12.1|||||TWO_SIDED|95.0|1.3|22.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||22.9|1.3|
82376050|NCT04784533|164458238|SUPERIORITY||Difference in percentages|26.4|||||TWO_SIDED|95.0|15.4|37.5|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||37.5|15.4|
82376051|NCT04784533|164458238|SUPERIORITY||Difference in percentages|19.9|||||TWO_SIDED|95.0|8.5|31.3|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.3|8.5|
82376052|NCT04784533|164458239|SUPERIORITY||Difference in percentages|0.6|||||TWO_SIDED|95.0|-2.7|3.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 8||3.9|-2.7|
82376053|NCT04784533|164458239|SUPERIORITY||Difference in percentages|10.6|||||TWO_SIDED|95.0|3.3|17.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||17.9|3.3|
82376054|NCT04784533|164458239|SUPERIORITY||Difference in percentages|14.0|||||TWO_SIDED|95.0|5.3|22.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||22.8|5.3|
82376055|NCT04784533|164458239|SUPERIORITY||Difference in percentages|19.4|||||TWO_SIDED|95.0|9.2|29.5|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||29.5|9.2|
82376056|NCT04784533|164458239|SUPERIORITY||Difference in percentages|20.8|||||TWO_SIDED|95.0|9.8|31.7|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.7|9.8|
82376057|NCT04784533|164458240|SUPERIORITY||Least Square (LS) Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|-2.8|1.8|||||LS means,standard error(SE),and confidence intervals(CIs) are based on mixed model repeated measures(MMRM)analysis with effects for treatment,visit,treatment-by-visit interaction,and baseline value.The Model uses an unstructured covariance structure.|Week 4||1.8|-2.8|
82376058|NCT04784533|164458240|SUPERIORITY||LS Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|-11.9|-2.7|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 8||-2.7|-11.9|
82531575|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0||||P-Value for endpoint|ANCOVA|||||||0.063
82531576|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531577|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531578|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value for Endpoint|ANCOVA|||||||<.001
82531579|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||P-Value for Endpoint|ANCOVA|||||||0.003
82531580|NCT00383240|164760431|SUPERIORITY_OR_OTHER_LEGACY|||||||0.601||95.0||||P-Value for Endpoint|ANCOVA|||||||0.601
82531581|NCT02049710|164760433|OTHER||Mean Difference (Final Values)|5.06|||||TWO_SIDED|95.0|3.0|15.0||||||Summation scores are reported across 3 items measured on a 5-point scale from 1(not at all sure)to5(very sure), which loaded together on a principal components analysis of the baseline data.The summation score thus represents a theoretical range from 3 to 15.The 3 items were as follows:Indicate How Sure You are that You Would be Able to Perform Each of the Following:a)Get the money needed to buy condoms b)Walk into a store\&buy condoms c)Find a place to get condoms for free(Cronbach alpha-0.72)||15|3|
82531582|NCT02044458|164760434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||t-test, 2 sided|||||||.70
82531583|NCT02044458|164760435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|||||||t-test, 2 sided|||||||.38
82531584|NCT02044458|164760436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Chi-squared|||||||.57
82531585|NCT00619476|164760456|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-0.81||||0.013|TWO_SIDED|95.0|-1.4|-0.23||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.23|-1.40|0.013
82531586|NCT00619476|164760456|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-0.7||||0.029|TWO_SIDED|95.0|-1.33|-0.07||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.07|-1.33|0.029
82576304|NCT02209181|164862061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.21|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.95|4.47||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.47|1.95|<0.001
82376059|NCT04784533|164458240|SUPERIORITY||LS Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-19.3|-5.5|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 12||-5.5|-19.3|
82376060|NCT04784533|164458240|SUPERIORITY||LS Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-22.2|-6.9|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 16||-6.9|-22.2|
82376061|NCT04784533|164458240|SUPERIORITY||LS Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|4.2|||TWO_SIDED|95.0|-23.7|-7.2|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 20||-7.2|-23.7|
82376062|NCT04784533|164458240|SUPERIORITY||LS Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|4.36|||TWO_SIDED|95.0|-24.0|-6.8|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 24||-6.8|-24.0|
82376063|NCT04784533|164458241|SUPERIORITY||Difference in percentages|20.9|||||TWO_SIDED|95.0|9.9|31.8|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||31.8|9.9|
82376064|NCT04784533|164458241|SUPERIORITY||Difference in percentages|13.8|||||TWO_SIDED|95.0|2.5|25.2|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||25.2|2.5|
82376065|NCT04784533|164458241|SUPERIORITY||Difference in percentages|15.6|||||TWO_SIDED|95.0|4.1|27.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||27.0|4.1|
82376066|NCT04784533|164458241|SUPERIORITY||Difference in percentages|14.4|||||TWO_SIDED|95.0|2.9|25.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||25.9|2.9|
82376067|NCT04784533|164458242|SUPERIORITY||Difference in percentages|22.9|||||TWO_SIDED|95.0|11.9|34.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 12||34.0|11.9|
82376068|NCT04784533|164458242|SUPERIORITY||Difference in percentages|21.9|||||TWO_SIDED|95.0|10.7|33.1|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 16||33.1|10.7|
82376069|NCT04784533|164458242|SUPERIORITY||Difference in percentages|22.6|||||TWO_SIDED|95.0|11.2|33.9|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 20||33.9|11.2|
82376070|NCT04784533|164458242|SUPERIORITY||Difference in percentages|19.5|||||TWO_SIDED|95.0|8.1|31.0|||||Treatment difference is calculated as the difference between the percentage of responders in the 12 mg BID group versus the 8 mg BID group.|Week 24||31.0|8.1|
82376071|NCT04784533|164458243|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.9|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 12||-0.3|-0.9|
82376072|NCT04784533|164458243|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.1|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 16||-0.4|-1.1|
82376073|NCT04784533|164458243|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-1.2|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 20||-0.4|-1.2|
82376074|NCT04784533|164458243|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.2|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value. The model is fit using an unstructured covariance structure.|Week 24||-0.3|-1.2|
82376075|NCT04784533|164458244|SUPERIORITY||Least Square (LS) Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-0.7|-0.1|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 12||-0.1|-0.7|
82376076|NCT04784533|164458244|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.0|-0.3|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 16||-0.3|-1.0|
82376077|NCT04784533|164458244|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-1.2|-0.5|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 20||-0.5|-1.2|
82376078|NCT04784533|164458244|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-1.2|-0.4|||||LS means, SE, and CIs are based on an MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Week 24||-0.4|-1.2|
82376079|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 12||-0.2|-0.7|
82646660|NCT03137082|165008083|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
82646661|NCT03137082|165008084|SUPERIORITY||||||<|0.03|||||||Mixed Models Analysis|||||||<.03
82531587|NCT00619476|164760456|SUPERIORITY_OR_OTHER||Adjusted Mean difference versus placebo|-1.07||||0.002|TWO_SIDED|95.0|-1.68|-0.45||This p-value has been adjusted for multiplicity using a step-down procedure that uses Dunnett's test within a closed testing scheme for multiple comparisons with a common control in order to maintain the overall experiment-wise alpha level of 0.05.|ANCOVA|An ANCOVA model with body mass index (BMI), baseline 24-hour average pain intensity, and grouped center as covariates was used.||||-0.45|-1.68|0.002
82531588|NCT04834362|164760481|OTHER|||||||0.677|||||||t-test, 2 sided|||||||0.677
82576305|NCT02209181|164862061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.63||0.459|TWO_SIDED|95.0|-1.72|0.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.78|-1.72|0.459
82576306|NCT02209181|164862061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.52|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.26|3.78||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.78|1.26|<0.001
82576307|NCT02209181|164862062|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.65||0.674|TWO_SIDED|95.0|-1.0|1.55||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.55|-1.00|0.674
82646662|NCT03137082|165008085|SUPERIORITY|||||||0.1|||||||Mixed Models Analysis|||||||0.1
82407438|NCT01091246|164522802|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% CIs were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric mean|1.21|||||TWO_SIDED|95.0|1.07|1.37||||||B/Yamagata: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Yamagata) / (Q/LAIV) for B/Yamagata strain||1.37|1.07|
82407439|NCT01091246|164522802|NON_INFERIORITY_OR_EQUIVALENCE|The noninferior immune response was assessed by evaluating the upper bound of the two-sided 95% confidence intervals for the strain specific HAI antibody GMT ratios (FluMist divided by Q/LAIV) to the noninferiority margin of 1.5. If the upper bounds of 95% confidence intervals were ≤ 1.5 for all 4 strains, the immunologic noninferiority of Q/LAIV compared to FluMist was declared.|Ratio of geometric mean|1.05|||||TWO_SIDED|95.0|0.93|1.18||||||B/Victoria: The statistical hypothesis testing for the primary endpoint for Q/LAIV was: H0: Rj \> 1.5, for any j HA: Rj ≤ 1.5, for all j Where Rj was any of the 4 strain-specific post immunogenicity dose GMT ratios: (FluMist/B/Victoria) / (Q/LAIV) for B/Victoria strain||1.18|0.93|
82407440|NCT04577794|164522836|SUPERIORITY||Least square (LS) mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.02||0.981|TWO_SIDED|90.0|-1.7|1.7|||ANCOVA|||An analysis of covariance (ANCOVA) was used with a multiple imputation method to handle missing values, with treatment as fixed effect and baseline score as covariate.||1.7|-1.7|0.981
82407441|NCT00596271|164522858|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority of the combined administration is postulated, if the lower bounds of both twosided 95% confidence intervals for the GMT ratios (of combined vaccination over single vaccination) are \> 1/2.~This procedure is equivalent to the approach based on a 1-sided test with a significance level of 2.5% for each comparison with the null hypothesis H0 : ratio ≤ 0.5 versus the alternative hypotheses H1 : ratio \> 0.5."|||||<|0.0001||95.0|||||ANOVA|||The primary efficacy analysis will compare the IC51+HAVRIX vs. IC51+Placebo group in terms of the GMT for anti- JEV neutralizing antibody at day 56. An observed cases approach will be applied for the primary analysis||||<0.0001
82407442|NCT00596271|164522862|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority of the combined administration is postulated, if the lower bounds of both twosided 95% confidence intervals for the GMT ratios (of combined vaccination over single vaccination) are \> 1/2.~This procedure is equivalent to the approach based on a 1-sided test with a significance level of 2.5% for each comparison with the null hypothesis H0 : ratio ≤ 0.5 versus the alternative hypotheses H1 : ratio \> 0.5."|||||<|0.0001||95.0|||||ANOVA|||The primary efficacy analysis will compare the IC51+HAVRIX vs. HAVRIX+Placebo group in terms of the GMT for HAV antibody at day 28. An observed cases approach will be applied for the primary analysis.||||<0.0001
82407443|NCT02849080|164522863|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.89|6.7||Unadjusted two-sided p-value for test of no difference from 1.|Pattern mixture model||Oral Semaglutide flex / Sitagliptin 100 mg.|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 52 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||6.70|2.89|<0.0001
82446298|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||96.27|TWO_SIDED|95.0|0.99|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.99|96.27
82531589|NCT04834362|164760482|OTHER|||||||0.053|||||||t-test, 2 sided|||||||0.053
82531590|NCT04834362|164760483|OTHER|||||||0.918|||||||t-test, 2 sided|||||||0.918
82646663|NCT03137082|165008086|SUPERIORITY||||||<|0.3|||||||Mixed Models Analysis|||||||<0.3
82531591|NCT04834362|164760484|OTHER|||||||0.729|||||||Chi-squared|||||||0.729
82531592|NCT02555371|164760485|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.004|TWO_SIDED|95.0|0.45|0.86|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||0.86|0.45|0.004
82446299|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.62|TWO_SIDED|95.0|0.94|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.94|47.62
82446300|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||71.55|TWO_SIDED|95.0|0.92|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.92|71.55
82446301|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||98.29|TWO_SIDED|95.0|1.01|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|1.01|98.29
82446302|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Bayesian repeated measures model|1.08||||95.09|TWO_SIDED|95.0|0.99|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.99|95.09
82446303|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||93.68|TWO_SIDED|95.0|0.98|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.98|93.68
82446304|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||96.58|TWO_SIDED|95.0|1.0|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|1.00|96.58
82446305|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||56.99|TWO_SIDED|95.0|0.95|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.95|56.99
82446306|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||13.08|TWO_SIDED|95.0|0.85|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.85|13.08
82446307|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||52.99|TWO_SIDED|95.0|0.89|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.89|52.99
82376080|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 16||-0.2|-0.7|
82446308|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||60.75|TWO_SIDED|95.0|0.9|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.90|60.75
82446309|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||75.23|TWO_SIDED|95.0|0.92|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LUL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.92|75.23
82576308|NCT02209181|164862062|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.64||0.417|TWO_SIDED|95.0|-0.74|1.79||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.79|-0.74|0.417
82531593|NCT02555371|164760486|SUPERIORITY||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 12 has been presented.|||0.24|0.15|<0.001
82446310|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||28.14|TWO_SIDED|95.0|0.78|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.78|28.14
82531594|NCT02555371|164760486|SUPERIORITY||Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.12|0.2|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 24 has been presented.|||0.20|0.12|<0.001
82531595|NCT02555371|164760486|SUPERIORITY||Ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 36 has been presented.|||0.24|0.15|<0.001
82531596|NCT02555371|164760486|SUPERIORITY||Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.13|0.2|||Mixed model repeated measures||Treatment comparison between mepolizumab 100 mg SC and placebo using ratio of mepolizumab to placebo and its 95% confidence interval at Week 52 has been presented.|||0.20|0.13|<0.001
82376081|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 20||-0.3|-0.8|
82376082|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Thickness Hair Coverage: Week 24||-0.2|-0.8|
82376083|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 12||-0.3|-0.8|
82376084|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.7|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 16||-0.3|-0.7|
82376085|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 20||-0.3|-0.8|
82376086|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|Satisfied Evenness Hair Coverage: Week 24||-0.3|-0.8|
82376087|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 12||-0.2|-0.8|
82376088|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.6|-0.1|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 16||-0.1|-0.6|
82376089|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.7|-0.1|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 20||-0.1|-0.7|
82376090|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyebrows: Week 24||-0.2|-0.7|
82376091|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 12||-0.2|-0.7|
82531597|NCT02555371|164760487|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.005|TWO_SIDED|95.0|0.49|0.88|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||0.88|0.49|0.005
82531598|NCT02555371|164760488|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.57|TWO_SIDED|95.0|0.5|3.51|||Cox Proportional Hazards Model||Treatment comparison between mepolizumab 100 mg SC and placebo using hazards ratio and 95% confidence interval has been presented.|||3.51|0.50|0.570
82576309|NCT02209181|164862062|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.05|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.77|4.33||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.33|1.77|<0.001
82646664|NCT03137082|165008087|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
82407444|NCT02849080|164522863|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Odds Ratio (OR)|5.54|||<|0.0001|TWO_SIDED|95.0|3.54|8.68||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Logistic||Oral Semaglutide flex / Sitagliptin 100 mg|The analysis was based on multiple imputation, imputing sequentially using post-baseline measurements up to and including week 52. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||8.68|3.54|<0.0001
82407445|NCT02849080|164522864|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|Pattern mixture model||Oral semaglutide flex - Sitagliptin 100 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 52 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using a logistic regression model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete datasets, and pooled by Rubin's rule to draw inference.||-1.2|-2.6|<0.0001
82407446|NCT02849080|164522864|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.5||Unadjusted two-sided p-value for test of no difference from 0.|Mixed model for repeated measurements||Oral semaglutide flex - Sitagliptin 100 mg|The analysis was based on a Mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 52. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.5|-2.9|<0.0001
82407447|NCT02849080|164522881|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.18|||<|0.0001|TWO_SIDED|95.0|0.09|0.39||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide flex / Sitagliptin 100 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.39|0.09|<0.0001
82407448|NCT02849080|164522882|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.58||||0.0175|TWO_SIDED|95.0|0.37|0.91||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide flex / Sitagliptin 100 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before planned end of treatment.||0.91|0.37|0.0175
82407449|NCT02849080|164522901|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77||||0.4381|TWO_SIDED|95.0|0.39|1.5||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral Semaglutide flex- Switch / Sitagliptin 100 mg- Switch|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before planned end of treatment.||1.50|0.39|0.4381
82407450|NCT02849080|164522902|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.47||||0.079|TWO_SIDED|95.0|0.2|1.09||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide flex- Switch / Sitagliptin 100 mg- Switch|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.09|0.20|0.0790
82407451|NCT04794751|164522972|NON_INFERIORITY|Non-Inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.0106|||TWO_SIDED|95.0|-0.039|0.002|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Distance (4m)||0.002|-0.039|
82407452|NCT04794751|164522972|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.0127|||TWO_SIDED|95.0|-0.032|0.018|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Intermediate (64cm)||0.018|-0.032|
82407453|NCT04794751|164522972|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of the LSM difference between the Test and Control was below 0.05 logMAR.|least-square mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.0124|||TWO_SIDED|95.0|-0.034|0.015|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|Near (40cm)||0.015|-0.034|
82407454|NCT04794751|164522973|NON_INFERIORITY|Non-inferiority was declared if the lower limit of the 95% confidence interval for the least-square mean difference was greater than -5.|least-square mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.34|||TWO_SIDED|95.0|-4.6|4.8|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|||4.8|-4.6|
82407455|NCT02668640|164523000|OTHER||||||=|0.0002|||||||Wilcoxon signed-rank test|||||||=0.0002
82407456|NCT02668640|164523001|OTHER||||||=|0.0006|||||||Wilcoxon signed-rank test|||||||=0.0006
82407457|NCT02668640|164523002|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median change from baseline in PCS T-score at Week 12||||<0.0001
82407458|NCT02668640|164523002|OTHER||||||=|0.1233|||||||Wilcoxon signed-rank test|||Median change from baseline in MCS T-score at Week 12||||=0.1233
82407459|NCT02668640|164523002|OTHER||||||<|0.001|||||||Wilcoxon signed-rank test|||Median change from baseline in PCS T-score at Week 24||||<0.001
82407460|NCT02668640|164523002|OTHER||||||=|0.001|||||||Wilcoxon signed-rank test|||Median change from baseline in MCS T-score at Week 24||||=0.001
82407461|NCT02668640|164523003|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median Change From Baseline in EQ-5D-3L Index Score at Week 12||||<0.0001
82407462|NCT02668640|164523003|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||Median Change From Baseline in EQ-5D-3L Index Score at Week 24||||<0.0001
82407463|NCT02668640|164523004|OTHER||||||=|0.0137|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Overall Work Impairment Score at Week 12||||=0.0137
82407464|NCT02668640|164523004|OTHER||||||=|0.0607|||||||Wilcoxon signed-rank test|||Median Change from Baseline in Overall Work Impairment Score at Week 24||||=0.0607
82407465|NCT02668640|164523005|OTHER||||||=|0.0026|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Activity Impairment Score at Week 12||||=0.0026
82407466|NCT02668640|164523005|OTHER||||||=|0.0001|||||||Wilcoxon signed-rank test|||Median Change from Baseline in WPAI Activity Impairment Score at Week 24||||=0.0001
82407467|NCT02322749|164523008|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric Least Squares (LS) Mean Ratio|9.32|||||TWO_SIDED|90.0|8.25|10.53|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||10.53|8.25|
82407468|NCT02322749|164523009|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric LS Mean Ratio|24.26|||||TWO_SIDED|90.0|22.62|26.03|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||26.03|22.62|
82407469|NCT02322749|164523010|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% confidence intervals for both AUC and Cmax were entirely contained within the limits 80.00% to 125.00% then bioequivalence was concluded.|Geometric LS mean ratio|22.12|||||TWO_SIDED|90.0|20.65|23.69|||||Selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||23.69|20.65|
82407470|NCT02322749|164523011|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|12.93|||||TWO_SIDED|90.0|11.42|14.65|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.65|11.42|
82407471|NCT02322749|164523012|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|26.2|||||TWO_SIDED|90.0|24.44|28.09|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||28.09|24.44|
82407472|NCT02322749|164523013|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|23.6|||||TWO_SIDED|90.0|22.02|25.3|||||Selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||25.30|22.02|
82407473|NCT02322749|164523014|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|9.66|||||TWO_SIDED|90.0|8.5|10.97|||||N-desmethyl selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect|||10.97|8.5|
82407474|NCT02322749|164523014|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|13.04|||||TWO_SIDED|90.0|11.45|14.86|||||N-desmethyl selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.86|11.45|
82407475|NCT02322749|164523015|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|11.31|||||TWO_SIDED|90.0|9.8|13.05|||||N-desmethyl selumetinib: Ratio of Treatment B to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||13.05|9.80|
82407476|NCT02322749|164523015|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|12.8|||||TWO_SIDED|90.0|11.07|14.8|||||N-desmethyl selumetinib: Ratio of Treatment C to Treatment A based on a linear mixed-effects model with sequence, period, and treatment as fixed effects and volunteer nested within sequence as a random effect.|||14.80|11.07|
82407477|NCT01190813|164523021|SUPERIORITY_OR_OTHER||Percent Difference|11.0||||0.06|TWO_SIDED|95.0|-7.0|28.0|||Fisher Exact|It was not possible to adjust for baseline VA in these secondary analyses due to the small number of subjects meeting secondary outcome criteria.|Treatment group difference calculated as Levodopa - Placebo|A sample size of 129 participants provided 80% power with 1-sided type I error rate of 5% to reject the hypothesis of no difference between groups if the proportion improved was 30% in the levodopa group compared with 10% in the placebo group.||28|-7|0.06
82407478|NCT01190813|164523024|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-17.0|18.0|||||Levodopa - Placebo|||18|-17|
82407479|NCT01190813|164523025|SUPERIORITY_OR_OTHER||Percent Difference|-7.0|||||TWO_SIDED|95.0|-25.0|10.0||||||||10|-25|
82407480|NCT01190813|164523026|SUPERIORITY_OR_OTHER||Percent Difference|-5.0|||||TWO_SIDED|95.0|-22.0|13.0|||||Levodopa - Placebo|||13|-22|
82407481|NCT01190813|164523034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.65|TWO_SIDED|95.0|-1.9|1.3|||ANCOVA||Mean difference calculated as Levodopa - Placebo|||1.3|-1.9|0.65
82407482|NCT01190813|164523036|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.44|TWO_SIDED|95.0|-1.6|1.8|||ANCOVA|||||1.8|-1.6|0.44
82407483|NCT01190813|164523038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.2|TWO_SIDED|95.0|-1.2|2.9|||ANCOVA|||||2.9|-1.2|0.20
82407484|NCT01190813|164523040|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.17|TWO_SIDED||||||ANCOVA|||||||0.17
82446311|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||38.43|TWO_SIDED|95.0|0.84|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RML; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.84|38.43
82646665|NCT03137082|165008088|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.4
82407485|NCT01190813|164523044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.06|TWO_SIDED|95.0|-0.4|3.3||The alpha level was set to 0.0485 for the primary analysis to adjust for alpha spending of 0.015 for one interim analysis for efficacy conducted when outcome data were available for 50% of participants.|ANCOVA||Mean difference calculated as Levodopa - Placebo|With 129 participants, assuming a 1-sided type I error rate of 4.85%, there was 96% power to detect a difference in mean visual acuity between treatment groups at 18 weeks adjusted for baseline and for 1 interim analysis for futility if the true difference was 5 letters with SD of 7 letters and 82% power if the true difference was 3.75 letters||3.3|-0.4|0.06
82407486|NCT03268343|164523084|SUPERIORITY||Geometric LS Mean Ratio (%)|74.71|||||TWO_SIDED|90.0|66.39|84.08|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||84.08|66.39|
82407487|NCT03268343|164523085|SUPERIORITY||Geometric LS Mean Ratio (%)|97.04|||||TWO_SIDED|90.0|94.2|99.98|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||99.98|94.20|
82407488|NCT03268343|164523086|SUPERIORITY||Median Difference (Final Values)|1.38|||<|0.0001|TWO_SIDED|95.0|0.5|2.25|||Wilcoxon Signed-Rank test||Hodges-Lehmann method|||2.25|0.50|< 0.0001
82407489|NCT03268343|164523087|SUPERIORITY||Geometric LS Mean Ratio (%)|96.52|||||TWO_SIDED|90.0|93.3|99.85|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||99.85|93.30|
82407490|NCT03268343|164523091|SUPERIORITY||Geometric LS Mean Ratio (%)|104.75|||||TWO_SIDED|95.0|98.97|110.87|||||fed / fasted; results obtained using an ANOVA with fixed effects of treatment, period, sequence and participant (sequence).|||110.87|98.97|
82407491|NCT02308046|164523094|SUPERIORITY|||||||0.002|||||||Chi-squared, Corrected|||||||0.002
82407492|NCT02308046|164523095|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82407493|NCT02308046|164523096|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of culture cure at 7-14 days||||<0.001
82407494|NCT02308046|164523096|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Comparison of culture cure at 21-30 days||||<0.001
82407495|NCT02308046|164523097|SUPERIORITY|||||||0.088|||||||Chi-squared, Corrected|||Comparison of the number of subjects whose reported their symptoms completely resolved||||0.088
82407496|NCT01181167|164523103|NON_INFERIORITY_OR_EQUIVALENCE|"Difference in incidence of thromboembolic events between DU-176b and enoxaparin groups and 95% confidence interval (CI) were calculated.~Incidence of thromboembolic events and 95% CI also calculated by treatment group.~Only when null hypothesis H01 was rejected, upper limit of 95% CI for difference between DU-176b and enoxaparin groups was confirmed. When upper limit of 95% CI was below 0%, DU-176b was considered to be superior to enoxaparin in terms of the prevention of VTE."|Cox Proportional Hazard|-4.5|||<|0.001|ONE_SIDED|95.0||||Farrington Manning Method|ANCOVA|||Hypothesis testing of proportion of subjects who experienced at least one thromboembolic events, defined as primary endpoint, carried out using Farrington-Manning method. Null hypothesis H˅01: Incidence of thromboembolic events in DU-176b group (P˅DU) = Incidence of thromboembolic events in enoxaparin group (P˅E) + Δ (8%). Alternative hypothesis H˅11: P˅DU \< P˅E + Δ (significance level: One-sided, 0.025)||||<0.001
82407497|NCT00526474|164523118|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.001|TWO_SIDED|95.0|0.82|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.82|0.001
82407498|NCT00526474|164523119|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87|||<|0.001|TWO_SIDED|95.0|0.8|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.80|<0.001
82407499|NCT00526474|164523120|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.51|||<|0.001|TWO_SIDED|95.0|1.31|1.74|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.74|1.31|<0.001
82407500|NCT00526474|164523121|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.41|||<|0.001|TWO_SIDED|95.0|1.31|1.51|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.51|1.31|<0.001
82407501|NCT00526474|164523122|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.009|TWO_SIDED|95.0|0.85|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.85|0.009
82446312|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||25.21|TWO_SIDED|95.0|0.8|1.12||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.12|0.80|25.21
82407502|NCT00526474|164523123|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.002|TWO_SIDED|95.0|0.78|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.78|0.002
82646666|NCT03137082|165008089|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82646667|NCT03137082|165008090|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.2
82646668|NCT01676311|165008127|SUPERIORITY|||||||0.38||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group, CVLT-II-total learning score at baseline and week 12, and covariates (Beck Depression Index \[BDI\], time post-injury, British Columbia Postconcussion Symptom Inventory \[BC-PSI\]). Regression analyses were repeated, permuting data observations for each outcome. The BDI and BC-PSI are covariates in the regression model and not pre-specified Primary and Secondary Outcome Measures.||||0.38
82407503|NCT00526474|164523124|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87|||<|0.001|TWO_SIDED|95.0|0.81|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.81|<0.001
82407504|NCT00526474|164523125|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91||||0.001|TWO_SIDED|95.0|0.86|0.96|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.96|0.86|0.001
82407505|NCT00526474|164523126|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.9|||<|0.001|TWO_SIDED|95.0|0.85|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.85|<0.001
82407506|NCT00526474|164523127|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.151|TWO_SIDED|95.0|0.76|1.04|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.04|0.76|0.151
82531599|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the upper limit (UL) of the 2-sided standardised asymptotic 95% confidence interval (CI) for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.19|||||TWO_SIDED|95.0|0.99|1.43|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenA titers.||1.43|0.99|
82531600|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.01|||||TWO_SIDED|95.0|0.84|1.21|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenA titers.||1.21|0.84|
82407507|NCT00526474|164523128|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.001|TWO_SIDED|95.0|0.74|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.74|0.001
82407508|NCT00526474|164523129|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.108|TWO_SIDED|95.0|0.75|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.75|0.108
82407509|NCT00526474|164523130|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.97||||0.733|TWO_SIDED|95.0|0.83|1.14|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.14|0.83|0.733
82531601|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.19|||||TWO_SIDED|95.0|0.93|1.51|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenC titers.||1.51|0.93|
82407510|NCT00526474|164523131|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.411|TWO_SIDED|95.0|0.85|1.07|||Cox Proportional Hazards Regression||Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.07|0.85|0.411
82531602|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.83|||||TWO_SIDED|95.0|0.66|1.06|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenC titers.||1.06|0.66|
82407511|NCT00526474|164523132|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.001|TWO_SIDED|95.0|0.74|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.74|0.001
82531603|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.26|||||TWO_SIDED|95.0|0.97|1.64|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenW-135 titers.||1.64|0.97|
82648012|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.07|||||||Chi-squared|||||||0.070
82531604|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.82|||||TWO_SIDED|95.0|0.63|1.07|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenW-135 titers.||1.07|0.63|
82576310|NCT02209181|164862062|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.64||0.698|TWO_SIDED|95.0|-1.02|1.52||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.52|-1.02|0.698
82576311|NCT02209181|164862062|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.77|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.49|4.05||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.05|1.49|<0.001
82376092|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 16||-0.2|-0.7|
82376093|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.7|-0.2|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 20||-0.2|-0.7|
82376094|NCT04784533|164458245|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|-0.8|-0.3|||||LS means, SEs, and CIs are based on a mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score. The model is fit using an unstructured covariance structure.|How Satisfied With Your Eyelashes: Week 24||-0.3|-0.8|
82376095|NCT02682927|164458287|SUPERIORITY||Percentage difference from Placebo|62.29|||||TWO_SIDED|95.0|47.72|72.8|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||72.80|47.72|
82376096|NCT02682927|164458287|SUPERIORITY||Percentage difference from Placebo|64.75|||||TWO_SIDED|95.0|51.85|74.19|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||74.19|51.85|
82376097|NCT02682927|164458288|SUPERIORITY||Percentage difference from Placebo|32.43|||||TWO_SIDED|95.0|6.19|51.33|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||51.33|6.19|
82376098|NCT02682927|164458288|SUPERIORITY||Percentage difference from Placebo|49.88|||||TWO_SIDED|95.0|31.31|63.43|||||Estimate was obtained from the LSMeans on the log scale as follows: 100 x \[1 - exp(LS mean active - LS mean placebo).|||63.43|31.31|
82376099|NCT02682927|164458290|SUPERIORITY||Odds Ratio (OR)|4.773||||0.009|TWO_SIDED|95.0|1.475|15.45|||Regression, Logistic|||||15.450|1.475|0.009
82376100|NCT02682927|164458290|SUPERIORITY||Odds Ratio (OR)|14.96|||<|0.001|TWO_SIDED|95.0|4.484|49.915|||Regression, Logistic|||||49.915|4.484|<0.001
82376101|NCT02682927|164458290|SUPERIORITY||Odds Ratio (OR)|13.4||||0.0001|TWO_SIDED|95.0|3.6|49.8|||Regression, Logistic|||||49.8|3.6|0.0001
82376102|NCT02682927|164458290|SUPERIORITY||Odds Ratio (OR)|53.3|||<|0.0001|TWO_SIDED|95.0|12.9|220.5|||Regression, Logistic|||||220.5|12.9|<0.0001
82376103|NCT02682927|164458293|SUPERIORITY|||||||0.035|||||||Wilcoxon rank sum test|||||||0.035
82376104|NCT02682927|164458293|SUPERIORITY||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82376105|NCT02682927|164458293|SUPERIORITY||Comparing active with placebo|||||0.0002|||||||Wilcoxon rank sum test|||||||0.0002
82376106|NCT02682927|164458293|SUPERIORITY||||||<|0.0001|||||||Wilcoxon rank sum test|||||||<0.0001
82376107|NCT02126826|164458376|SUPERIORITY_OR_OTHER||Slope|0.7865|||||TWO_SIDED|90.0|0.6193|0.9537|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||0.9537|0.6193|
82531605|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|1.05|||||TWO_SIDED|95.0|0.89|1.24|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix+Boostrix Group in terms of rSBA-MenY titers.||1.24|0.89|
82531606|NCT01755689|164760539|NON_INFERIORITY|The non-inferiority criteria: the UL of the 2-sided standardised asymptotic 95% CI for the ratio of rSBA GMTs had to be below the pre-defined limit of 2.|Adjusted GMT Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.12|||ANCOVA|||Adjusted GMT ratio of the Nimenrix Group versus Nimenrix+Cervarix Group in terms of rSBA-MenY titers.||1.12|0.80|
82376108|NCT02126826|164458376|SUPERIORITY_OR_OTHER||Slope|1.0171|||||TWO_SIDED|90.0|0.8378|1.1964|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.1964|0.8378|
82376109|NCT02126826|164458378|SUPERIORITY_OR_OTHER||Slope|0.9511|||||TWO_SIDED|90.0|0.7654|1.1367|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||1.1367|0.7654|
82376110|NCT02126826|164458378|SUPERIORITY_OR_OTHER||Slope|1.0834|||||TWO_SIDED|90.0|0.8655|1.3013|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.3013|0.8655|
82376111|NCT02126826|164458380|SUPERIORITY_OR_OTHER||Slope|0.7832|||||TWO_SIDED|90.0|0.6235|0.9428|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||0.9428|0.6235|
82376112|NCT02126826|164458380|SUPERIORITY_OR_OTHER||Slope|1.0365|||||TWO_SIDED|90.0|0.8593|1.2137|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.2137|0.8593|
82376113|NCT02126826|164458382|SUPERIORITY_OR_OTHER||Slope|0.9433|||||TWO_SIDED|90.0|0.7744|1.1122|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 300mg||1.1122|0.7744|
82376114|NCT02126826|164458382|SUPERIORITY_OR_OTHER||Slope|1.081|||||TWO_SIDED|90.0|0.8583|1.3037|||ANCOVA|||Investigation of dose proportionality - dose groups 50mg to 200mg||1.3037|0.8583|
82376115|NCT00591773|164458390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.86|||<|0.001|TWO_SIDED|95.0|-18.54|-13.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-13.19|-18.54|<0.001
82531607|NCT01755689|164760540|NON_INFERIORITY|For HPV-16, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.81|1.15|||ANCOVA|||Adjusted GMT ratio of the Cervarix Group versus Nimenrix+Cervarix (0,1,6-Month) Group in terms of HPV-16 titers.||1.15|0.81|
82531608|NCT01755689|164760540|NON_INFERIORITY|For HPV-18, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.09|||||TWO_SIDED|95.0|0.92|1.29|||ANCOVA|||Adjusted GMT ratio of the Cervarix Group versus Nimenrix+Cervarix (0,1,6-Month) Group in terms of HPV-18 titers.||1.29|0.92|
82531609|NCT01755689|164760540|NON_INFERIORITY|For HPV-16, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.2|||||TWO_SIDED|95.0|1.01|1.43|||ANCOVA|||Adjusted GMT ratio of the Boostrix+Cervarix Group versus Nimenrix+Cervarix+Boostrix Group in terms of HPV-16 titers.||1.43|1.01|
82531610|NCT01755689|164760540|NON_INFERIORITY|For HPV-18, one month after the third dose of Cervarix, the UL of the two-sided standardized asymptotic 95% CI on the group GMT ratio had to be below the pre-defined limit of 2.|Adjusted GMT|1.19|||||TWO_SIDED|95.0|1.0|1.41|||ANCOVA|||Adjusted GMT ratio of the Boostrix+Cervarix Group versus Nimenrix+Cervarix+Boostrix Group in terms of HPV-18 titers.||1.41|1.00|
82531611|NCT01755689|164760541|NON_INFERIORITY|For anti-D the lower limit (LL) of the 2-sided standardised asymptotic 95% CI for the group difference (Nimenrix+Cervarix+Boostrix Group minus Boostrix +Cervarix Group) had to be greater than or equal to the pre-defined limit of -10%.|Difference between groups|-2.88|||||TWO_SIDED|95.0|-6.9|0.81||||||The group difference of the Nimenrix+Cervarix+Boostrix Group and Boostrix+Cervarix Group in terms of Anti-D titers.||0.81|-6.90|
82576312|NCT02209181|164862063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.64||0.541|TWO_SIDED|95.0|-0.87|1.66||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.66|-0.87|0.541
82376116|NCT00591773|164458390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.45|||<|0.001|TWO_SIDED|95.0|-18.13|-12.76||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-12.76|-18.13|<0.001
82376117|NCT00591773|164458391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4|||<|0.001|TWO_SIDED|95.0|-17.81|-10.99||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-10.99|-17.81|<0.001
82376118|NCT00591773|164458391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.001|TWO_SIDED|95.0|-16.1|-9.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-9.25|-16.10|<0.001
82376119|NCT00591773|164458392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.29|||<|0.001|TWO_SIDED|95.0|-12.02|-8.56||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.56|-12.02|<0.001
82376120|NCT00591773|164458392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.49|||<|0.001|TWO_SIDED|95.0|-12.23|-8.76||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.76|-12.23|<0.001
82376121|NCT00591773|164458393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.25|||<|0.001|TWO_SIDED|95.0|-9.25|-5.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.25|-9.25|<0.001
82376122|NCT00591773|164458393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||<|0.001|TWO_SIDED|95.0|-9.06|-5.05||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-5.05|-9.06|<0.001
82376123|NCT00591773|164458394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.001|TWO_SIDED|95.0|-19.56|-14.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.04|-19.56|<0.001
82376124|NCT00591773|164458394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.24|||<|0.001|TWO_SIDED|95.0|-19.01|-13.47||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-13.47|-19.01|<0.001
82376125|NCT00591773|164458395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02|||<|0.001|TWO_SIDED|95.0|-12.86|-9.18||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.18|-12.86|<0.001
82376126|NCT00591773|164458395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.04|-9.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.35|-13.04|<0.001
82531612|NCT01755689|164760541|NON_INFERIORITY|For anti-T the LL of the 2-sided standardised asymptotic 95% CI for the group difference (Nimenrix+Cervarix+Boostrix Group minus Boostrix +Cervarix Group) had to be greater than or equal to the pre-defined limit of -10%.|Difference between groups|-0.4|||||TWO_SIDED|95.0|-2.23|1.08||||||The group difference of the Nimenrix+Cervarix+Boostrix Group and Boostrix+Cervarix Group in terms of Anti-T titers.||1.08|-2.23|
82376127|NCT00591773|164458396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.93|||<|0.001|TWO_SIDED|95.0|-15.92|-9.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.94|-15.92|<0.001
82376128|NCT00591773|164458396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.84|||<|0.001|TWO_SIDED|95.0|-15.83|-9.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.84|-15.83|<0.001
82531613|NCT01755689|164760542|NON_INFERIORITY|For anti-PRN the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.53|||||TWO_SIDED|95.0|1.25|1.87|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix+Boostrix Group versus Boostrix+ Cervarix Group in terms of anti-PRN titers.||1.87|1.25|
82531614|NCT01755689|164760542|NON_INFERIORITY|For anti-FHA the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.65|||||TWO_SIDED|95.0|1.42|1.93|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix Group versus Boostrix+ Cervarix Group in terms of anti-FHA titers.||1.93|1.42|
82531615|NCT01755689|164760542|NON_INFERIORITY|For anti-PT the UL of the 2-sided standardised asymptotic 95% CI for the adjusted group ratio of GMCs (Nimenrix+Cervarix+Boostrix Group/Boostrix+Cervarix Group) had to be less than or equal to the pre-defined limit of 1.5.|Adjusted GMT Ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||ANCOVA|||Adjusted GMT ratio of the Nimenrix+Cervarix Group versus Boostrix+ Cervarix Group in terms of anti-PT titers.||1.61|1.20|
82407512|NCT00526474|164523133|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||<|0.001|TWO_SIDED|95.0|0.83|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.83|<0.001
82407513|NCT00526474|164523134|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.76|0.9|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.90|0.76|<0.001
82407514|NCT00526474|164523135|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8|||<|0.001|TWO_SIDED|95.0|0.73|0.89|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.89|0.73|<0.001
82407515|NCT00526474|164523136|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.45|||<|0.001|TWO_SIDED|95.0|1.23|1.71|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.71|1.23|<0.001
82407516|NCT00526474|164523137|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.42|||<|0.001|TWO_SIDED|95.0|1.31|1.54|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.54|1.31|<0.001
82407517|NCT00526474|164523138|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||<|0.001|TWO_SIDED|95.0|0.79|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.79|<0.001
82407518|NCT00526474|164523139|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.75|<0.001
82407519|NCT00526474|164523140|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83|||<|0.001|TWO_SIDED|95.0|0.77|0.9|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.90|0.77|<0.001
82407520|NCT00526474|164523141|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||<|0.001|TWO_SIDED|95.0|0.83|0.95|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.95|0.83|<0.001
82407521|NCT00526474|164523142|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88|||<|0.001|TWO_SIDED|95.0|0.83|0.94|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.94|0.83|<0.001
82407522|NCT00526474|164523143|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.108|TWO_SIDED|95.0|0.71|1.03|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.03|0.71|0.108
82407523|NCT00526474|164523144|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.82||||0.002|TWO_SIDED|95.0|0.73|0.93|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.93|0.73|0.002
82407524|NCT00526474|164523145|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.127|TWO_SIDED|95.0|0.74|1.04|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.04|0.74|0.127
82407525|NCT00526474|164523146|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.67||||0.002|TWO_SIDED|95.0|0.52|0.87|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.87|0.52|0.002
82407526|NCT00526474|164523147|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.92||||0.249|TWO_SIDED|95.0|0.8|1.06|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||1.06|0.80|0.249
82407527|NCT00526474|164523148|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.019|TWO_SIDED|95.0|0.76|0.98|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.98|0.76|0.019
82407528|NCT00526474|164523149|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89||||0.003|TWO_SIDED|95.0|0.83|0.96|||Cox Proportional Hazards Regression|Hazard Ratio calculated with covariates for treatment and stratification factors|Hazard ratio calculated by dividing the Kaplan-Meier (KM) Estimate for vorapaxar by the KM Estimate for Placebo and correcting for covariates. A hazard ratio \<1 would indicate a lower hazard associated with vorapaxar relative to placebo.|||0.96|0.83|0.003
82407529|NCT03845894|164523150|NON_INFERIORITY|There have been no studies to evaluate pain scores ISB w/ plain bupi+adjuvants. Power to detect difference at least 0.4 on the VAS scale. Threshold for inferiority is difference \>=2 points on the VAS scale. Will use two-sample t test with α= 0.05 and β= 0.1. Postop opioid consumption, total post-op opioid @ 1st 48 hours in oxycodone equivalents. Mean opioid consumption per cohort is calculated, \& the cohorts compared for statistical difference with two-sample t test, with α= 0.05 and β= 0.1.||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82407530|NCT00723229|164523166|SUPERIORITY_OR_OTHER||Incidence Risk Ratio|0.2|||<|0.001|TWO_SIDED|95.0|0.17|0.25|||Regression, poisson|Adjusted for period effects.||The trial had 80% power to detect a 35% reduction in genital shedding rates for acyclovir 400 mg twice daily.||0.25|0.17|<0.001
82407531|NCT00723229|164523166|SUPERIORITY|Adjusted for period effects.|Risk Ratio (RR)|0.05|||<|0.001|TWO_SIDED|95.0|0.03|0.08|||Regression, Poisson|||Among HIV seronegative individuals.||0.08|0.03|<0.001
82407532|NCT00723229|164523166|SUPERIORITY|Adjusted for period effects.|Risk Ratio (RR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.6|||Regression, Poisson|||Among HIV seropositive individuals.||0.6|0.4|<0.001
82407533|NCT01674725|164523170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333 treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 64% to achieve noninferiority.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|95.9|100.0|||||95% CI was calculated using the Wilson score method for the single proportion because the point estimate was 100%.|Planned enrollment is 210 to allow ≥200 GT1b-infected participants to be treated with combination formulation of ABT-450/r/ABT-267 and ABT-333 with and without RBV. Enrollment terminated after 187 participants were randomized. Assuming a rate of 82% in each arm, a sample size of 90 participants per arm will have \>90% power to demonstrate noninferiority of each arm to the historical rate based on the normal approximation of a single binomial proportion in a one-sample test for superiority.||100.0|95.9|
82407534|NCT01674725|164523170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN-RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 64% to achieve noninferiority.|Percentage of Participants|97.7|||||TWO_SIDED|95.0|94.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution.|Assuming a rate of 82% in each arm, a sample size of 90 participants per arm will have \>90% power to demonstrate noninferiority of each arm to the historical rate based on the normal approximation of a single binomial proportion in a one-sample test for superiority.||100.0|94.6|
82407535|NCT01674725|164523171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82407536|NCT01674725|164523172|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|97.7|||||TWO_SIDED|95.0|94.6|100.0|||||95% CI was calculated using the normal approximation to the binomial distribution; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|||100.0|94.6|
82407537|NCT01674725|164523172|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|95.9|100.0|||||95% CI was calculated using the Wilson score method for the single proportion; the lower confidence bound for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority|||100|95.9|
82446313|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||81.73|TWO_SIDED|95.0|0.91|1.27||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; RLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.27|0.91|81.73
82407538|NCT01674725|164523172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the ABT-450/r/ABT-267 and ABT-333 treatment group as compared with the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group was analyzed using a noninferiority margin of -10.5%; the lower confidence bound of the 2-sided 95% confidence interval for the difference in percentage of participants with sustained virologic response at 12 weeks after treatment must exceed -10.5% to achieve noninferiority.|Percentage of Participants|2.3|||||TWO_SIDED|95.0|-0.8|5.4|||||95% CI was calculated using the normal approximation to the binomial distribution.|||5.4|-0.8|
82407539|NCT01324102|164523181|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|95.0||||The a priori threshold for statistical significance is .05. The .004 value exceeds this value. There was only one comparison, so there was no adjustment for multiple comparison. This analysis refers to the row and category of anxiety.|ANOVA|F=10.25||Repeated measure Analysis of Variance (ANOVA) with null hypothesis of no group differences, comparing anxiety scores pre-Yoga versus post-Yoga, between the two groups for changes in anxiety.||||.004
82407540|NCT01324102|164523181|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||F=4.07. The a priori threshold for statistical significance is .05. The .056 value does not exceed it. There was only one comparison, so there was no adjustment for multiple comparison. This analysis refers to the row/category of insomnia.|ANOVA|||Repeated measure Analysis of Variance (ANOVA) with null hypothesis of no group differences, comparing insomnia scores pre-Yoga versus post-Yoga, between the two groups. This measures changes in insomnia.||||.056
82446314|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||9.87|TWO_SIDED|95.0|0.76|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.76|9.87
82576313|NCT02209181|164862063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.64||0.409|TWO_SIDED|95.0|-0.73|1.79||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.79|-0.73|0.409
82576314|NCT02209181|164862063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.12|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.85|4.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.39|1.85|<0.001
82576315|NCT02209181|164862063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.64||0.834|TWO_SIDED|95.0|-1.12|1.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.39|-1.12|0.834
82576316|NCT02209181|164862063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.73|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.45|4.0||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.00|1.45|<0.001
82646669|NCT01676311|165008127|SUPERIORITY|||||||0.38||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group (Huperzine A, placebo), baseline CVLT-II-short delay free recall (SDFR) score, outcome (CVLT-II-SDFR at week 12) and covariates (Beck Depression Index, time post-injury, British Columbia Postconcussion Symptom Inventory). Regression analyses were repeated, permuting data observations for each outcome i.e. we permuted the labels (Huperzine A or placebo) among the data observations and re-ran the regression.||||0.38
82576317|NCT02209181|164862064|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.64||0.573|TWO_SIDED|95.0|-0.9|1.63||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.63|-0.90|0.573
82576318|NCT02209181|164862064|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|0.64||0.448|TWO_SIDED|95.0|-0.77|1.74||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.74|-0.77|0.448
82576319|NCT02209181|164862064|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.98|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.71|4.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.25|1.71|<0.001
82576320|NCT02209181|164862064|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.64||0.848|TWO_SIDED|95.0|-1.13|1.38||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.38|-1.13|0.848
82576321|NCT02209181|164862064|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.35|3.89||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.89|1.35|<0.001
82648013|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.8|||||||Chi-squared|||||||0.80
82407541|NCT03238417|164523182|NON_INFERIORITY|Analysis of Variance comparing change in outcome between EBQI and control from baseline to 12 month.|Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|1.32||0.623|TWO_SIDED|95.0|-3.3|2.0||P-value is from the interaction term between EBQI and time.|ANOVA|||||2.0|-3.3|0.623
82407542|NCT03238417|164523183|NON_INFERIORITY|Analysis of Variance testing for change in outcome between EBQI and control from baseline to 24 months.|Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|1.1||0.678|TWO_SIDED|95.0|-2.8|1.8||P-value is from the interaction term of EBQI and time.|ANOVA|||||1.8|-2.8|0.678
82407543|NCT03238417|164523184|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We adjusted our analysis with non-response weights.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.13||0.364|TWO_SIDED|95.0|-0.17|0.35||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Linear||The estimated value reported here is the predicted mean change from baseline to 12-month, adjusting for characteristics described in the statistical analysis overview.|Change in gender awareness score between EBQI and control from baseline to 12-month||0.35|-0.17|0.364
82407544|NCT03238417|164523185|SUPERIORITY|Difference-in-differences analysis using linear regression, adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We adjusted our analysis with non-response weights.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1||0.29|TWO_SIDED|95.0|-0.33|0.1||P-value reflects the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Linear||The estimated value reported here is the predicted mean change from baseline to 24-month, adjusting for characteristics described in the statistical analysis overview.|Change in gender awareness score between EBQI and control from baseline to 24-month||0.10|-0.33|0.29
82407545|NCT03238417|164523186|SUPERIORITY|Difference-in-differences analysis using logistic regression. The number of activities were recoded into 0 vs 1+ activities. The model was adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We also adjusted for non-response weights.|Odds Ratio (OR)|-0.69|STANDARD_ERROR_OF_MEAN|0.42||0.1|TWO_SIDED|95.0|-1.52|0.13||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Difference-in-Differences analysis||The estimated value is predicted change in the odds of involving in one or more quality improvement activities, adjusting for characteristics described in the statistical analysis overview.|||0.13|-1.52|0.10
82407546|NCT03238417|164523187|SUPERIORITY|Difference-in-differences analysis using logistic regression. The number of activities were recoded into 0 vs 1+ activities. The model was adjusted for age, how often they saw women patients in the past year, location of practice in primary care or women's health clinic, and having had any type of quality improvement training. We also adjusted for non-response weights.|Odds Ratio (OR)|-0.48|STANDARD_ERROR_OF_MEAN|0.39||0.22|TWO_SIDED|95.0|-1.25|0.29||P-value is from the interaction term between EBQI and time, adjusted for non-response weights and characteristics described in the statistical analysis overview.|Regression, Logistic||The estimated value is predicted change in the odds of involving in one or more quality improvement activities, adjusting for characteristics described in the statistical analysis overview.|||0.29|-1.25|0.22
82407547|NCT03238417|164523188|NON_INFERIORITY|Analysis of Variance testing the differences in outcome between EBQI and control groups over 12 month period.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|3.1||0.788|TWO_SIDED|95.0|-7.1|5.4||The p-value reflects the interaction term between EBQI and time|ANOVA|||||5.4|-7.1|0.788
82407548|NCT03238417|164523189|NON_INFERIORITY|Analysis of Variance testing for differences in outcomes between EBQI and control arms from baseline to 24 months.|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|2.89||0.61|TWO_SIDED|95.0|-7.35|4.35||The p-value reflects the interaction terms between EBQI and control arms.|ANOVA|||||4.35|-7.35|0.61
82407549|NCT03238417|164523190|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control arms|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|10.5||0.987|TWO_SIDED|95.0|-21.45|21.11||The p-value reflects the interaction term between EBQI and time|ANOVA|||||21.11|-21.45|0.987
82407550|NCT03238417|164523191|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|-3.91|STANDARD_ERROR_OF_MEAN|10.35||0.708|TWO_SIDED|95.0|-24.89|17.08||The p-value reflects the interaction terms between EBQI and time|ANOVA|||||17.08|-24.89|0.708
82407551|NCT03238417|164523192|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|-4.51|STANDARD_ERROR_OF_MEAN|8.85||0.613|TWO_SIDED|95.0|-22.43|13.4||The p-value reflects the interaction term between EBQI and time|ANOVA|||||13.40|-22.43|0.613
82407552|NCT03238417|164523193|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control groups|Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|9.48||0.922|TWO_SIDED|95.0|-18.26|20.13||The p-value reflects the interaction term between EBQI and time.|ANOVA|||||20.13|-18.26|0.922
82407553|NCT03238417|164523194|NON_INFERIORITY|two-way ANOVA testing change in a composite score of gender-neutral preventive care between EBQI and control arms over time|Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|2.13||0.789|TWO_SIDED|95.0|-3.74|4.89||The p-value represents the interaction term between EBQI and control.|ANOVA|||||4.89|-3.74|0.789
82407554|NCT03238417|164523195|NON_INFERIORITY|ANOVA comparing changes in outcomes over time between EBQI and control groups|Mean Difference (Net)|-1.63|STANDARD_ERROR_OF_MEAN|2.45||0.51|TWO_SIDED|95.0|-6.6|3.33||The p-value reflects the interaction between EBQI and time.|ANOVA|The analysis is adjusted for EBQI and time.||||3.33|-6.60|0.51
82531616|NCT02609659|164760573|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for the 3-DAA + RBV 600 mg treatment group as compared with the historical rate for 3-DAA + weight-based RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 92% to achieve noninferiority.|percentage of participants|89.5|||||TWO_SIDED|95.0|83.7|95.4||||||||95.4|83.7|
82648014|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.6|||||||Chi-squared|||||||0.60
82531617|NCT00900627|164760621|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|40.0|||||||||||||Dosing started at 160mg. Based on the data seen, 240mg with 33% patients with DLTs, 120mg with 50% patients with DLTs, 80mg with 33% of patients with DLTs and 40mg with 0% patients with DLTs, 40mg was deemed the maximum tolerated dose.|A tolerated dose was defined as one where ≤25% of the patients experienced a DLT. If a dose was tolerated, an increased dose was to be investigated in another group of 3-6 evaluable patients. A non-tolerated dose was defined as one where \>25% of the patients experience a DLT. If a dose was non tolerated, a decreased/intermediate dose could be investigated in another group of 3-6 evaluable patients. The maximum tolerated dose was determined as the maximum dose level that was defined as tolerated.||||
82407555|NCT03238417|164523196|NON_INFERIORITY|ANOVA testing for change in outcome over time between EBQI and control arms|Mean Difference (Net)|3.11|STANDARD_ERROR_OF_MEAN|8.3||0.711|TWO_SIDED|95.0|-13.7|19.9||The p-value reflects the interaction between EBQI and time|ANOVA|||||19.9|-13.7|0.711
82407556|NCT03238417|164523197|NON_INFERIORITY|ANOVA comparing changes in outcome over time between EBQI and control arms|Mean Difference (Net)|8.49|STANDARD_ERROR_OF_MEAN|8.7||0.335|TWO_SIDED|95.0|-9.1|26.1||The p-value reflects the interaction term between EBQI and time.|ANOVA|||||26.1|-9.1|0.335
82407557|NCT03238417|164523198|NON_INFERIORITY|Analysis of Variance testing for change in outcome between EBQI and control groups from baseline to 12 months.|Mean Difference (Net)|-13.8|STANDARD_ERROR_OF_MEAN|12.3||0.268|TWO_SIDED|95.0|-38.7|11.1||P-value is from the interaction term between EBQI and time.|ANOVA|||||11.1|-38.7|0.268
82407558|NCT03238417|164523199|NON_INFERIORITY|Analysis of Variance testing the differences between EBQI and control from baseline and 24 months|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|12.6||0.991|TWO_SIDED|95.0|-25.6|25.3||P-value is from the interaction between EBQI and time.|ANOVA|||||25.3|-25.6|0.991
82407559|NCT01249131|164523200|SUPERIORITY_OR_OTHER||Ratio of Least Squares (LS) Means (in %)|94.7|||||TWO_SIDED|90.0|83.9|107.0|||||LS mean was calculated from analysis of variance (ANOVA). Data for dose-normalized AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||107|83.9|
82407560|NCT01249131|164523200|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|110.0|||||TWO_SIDED|90.0|98.2|124.0|||||LS mean was calculated from ANOVA. Data for dose-normalized AUCinf were natural log-transformed prior to analysis. Ratio of AUCinf LS means for log-transformed parameter (expressed as a percent).|||124|98.2|
82407561|NCT01249131|164523201|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|96.9|||||TWO_SIDED|90.0|84.2|111.0|||||LS mean was calculated from ANOVA. Data for dose-normalized Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||111|84.2|
82407562|NCT01249131|164523201|SUPERIORITY_OR_OTHER||Ratio of LS Means (in %)|107.0|||||TWO_SIDED|90.0|93.8|123.0|||||LS mean was calculated from ANOVA. Data for dose-normalized Cmax were natural log-transformed prior to analysis. Ratio of Cmax LS means for log-transformed parameter (expressed as a percent).|||123|93.8|
82407563|NCT00113607|164523237|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.79||||0.019|TWO_SIDED|95.0|0.65|0.96|||Log Rank|||||0.96|0.65|0.0190
82531618|NCT00900627|164760622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.679|TWO_SIDED|95.0|0.76|1.52||Statistical significance threshold at this analysis was 5%|Cox Proportional Hazard model|Cox PH test with terms for treatment , prior taxane, hormone receptor status, prior chemotherapy for breast cancer and AZD8931 diagnostic test|The Hazard Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a hazard ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||1.52|0.76|0.679
82407564|NCT00113607|164523238|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.86||||0.0835|TWO_SIDED|95.0|0.72|1.02|||Log Rank|||||1.02|0.72|0.0835
82407565|NCT00113607|164523239|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.646||||0.008|TWO_SIDED|95.0|1.144|2.367|||Fisher Exact|||||2.367|1.144|0.0080
82407566|NCT00113607|164523240|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.95||||0.8203|TWO_SIDED|95.0|0.62|1.46|||Log Rank|||||1.46|0.62|0.8203
82407567|NCT03924323|164523262|SUPERIORITY||least squares mean difference|-1.42||||0.0281|TWO_SIDED|95.0|-2.69|-0.15|||mixed-effects model for repeated measure|||||-0.15|-2.69|0.0281
82407568|NCT03924323|164523263|SUPERIORITY||Odds Ratio (OR)|1.253||||0.4521|TWO_SIDED|95.0|0.695|2.258|||generalized linear mixed model (GLMMIX)|||||2.258|0.695|0.4521
82407569|NCT03924323|164523264|SUPERIORITY||Odds Ratio (OR)|1.157||||0.6928|TWO_SIDED|95.0|0.56|2.387|||generalized linear mixed model (GLMMIX)|||||2.387|0.560|0.6928
82407570|NCT02240667|164523310|OTHER|||||||0.8496|||||||stratified log-rank test|||Persistence in both treatment groups was compared by means of the stratified Log-rank test||||0.8496
82407571|NCT04613518|164523313|SUPERIORITY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-35.7|43.4||||||||43.4|-35.7|
82407572|NCT01076543|164523332|OTHER||Maximum tolerated dose in mg|20.0|||||TWO_SIDED||||||||"The maximum tolerated dose (MTD) was determined using the traditional 3+3 design and was the maximum dose level such that less than 33% of the patients (i.e, \<1 of 3 or \<2 of 6) experience dose-limiting toxicity."|||||
82407573|NCT01076543|164523334|SUPERIORITY||||||>|0.1|||||||Binomial exact test|The number of responders required to reject the null hypothesis was 16 or more.||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 30% vs. a 50% alternative.||||>0.10
82407574|NCT01076543|164523334|SUPERIORITY|||||||||||||||||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 50% vs. 70% alternative.|The follicular subgroup did not reach its accrual goal and was closed.|||
82407575|NCT01076543|164523334|SUPERIORITY||||||<|0.1|||||||Binomial exact test.|The number of responders required to reject the null hypothesis was 16 or more.||Two-stage, minimax design was used to test the null hypothesis that the overall response rate was 30% vs. a 50% alternative.||||<0.10
82407576|NCT01077323|164523337|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|0.87|||||TWO_SIDED|95.0|0.59|1.28|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||1.28|0.59|
82407577|NCT01077323|164523338|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|1.1|||||TWO_SIDED|95.0|0.8|1.5|||||ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.Rate ratios adjusted for propensity score of exenatide initiation using Cox Proportional Hazards Regression|||1.5|0.8|
82407578|NCT01077323|164523339|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|0.87|||||TWO_SIDED|95.0|0.36|2.09|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||2.09|0.36|
82407579|NCT01077323|164523340|SUPERIORITY_OR_OTHER||Adjusted Rate Ratio (ARR)|1.39|||||TWO_SIDED|95.0|0.86|2.25|||||"ARR equals adjusted incidence rate of acute pancreatitis in exenatide cohort divided by adjusted incidence of acute pancreatitis in OAD cohort.~Adjusted incidence rates were calculated using a Poisson regression model adjusted for propensity score."|||2.25|0.86|
82407580|NCT02616783|164523347|SUPERIORITY||Difference in Percentages|2.427|||<|0.001|TWO_SIDED|95.0|1.337|3.517|||ANOVA|P-value was calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|The 95% confidence intervals (CI) were calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|||3.517|1.337|<0.001
82407581|NCT02616783|164523348|SUPERIORITY||Difference in percentages|2.036|||<|0.001|TWO_SIDED|95.0|1.168|2.904|||ANOVA|P-value was calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|||2.904|1.168|<0.001
82407582|NCT02616783|164523349|SUPERIORITY||Difference in percentages|1.749|||<|0.001|TWO_SIDED|95.0|0.726|2.771|||ANOVA|P-value was calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline spine BMD score, sex, and treatment as fixed effects.|||2.771|0.726|<0.001
82407583|NCT02616783|164523350|SUPERIORITY||Difference in percentages|1.351|||<|0.001|TWO_SIDED|95.0|0.602|2.099|||ANOVA|P-value was calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|The 95% CIs were calculated using the ANOVA model with baseline hip BMD score, sex, and treatment as fixed effects.|||2.099|0.602|<0.001
82407584|NCT02616783|164523351|SUPERIORITY||Difference in percentages|-5.5||||0.18|TWO_SIDED|95.0|-11.8|1.6||P-values for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL were from the Fisher exact test.|Fisher Exact||Differences in percentages and 95% CI were generated based on exact method.|||1.6|-11.8|0.18
82407585|NCT02616783|164523352|SUPERIORITY||Difference in percentages|-1.0||||1|TWO_SIDED|95.0|-8.5|9.3|||Fisher Exact|P-values for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL were from the Fisher exact test.|Differences in percentages and 95% CI were generated based on exact method.|||9.3|-8.5|1.00
82446315|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||63.15|TWO_SIDED|95.0|0.87|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Lobes; LLL; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.87|63.15
82407586|NCT02616783|164523353|SUPERIORITY||Difference in LSM|52.0||||0.053|TWO_SIDED|95.0|-1.0|106.0|||ANOVA|The p-value, difference in least square means (LSM), and its 95% CI were from ANOVA model with treatment as a fixed effect.||||106|-1|0.053
82407587|NCT02616783|164523354|SUPERIORITY||Difference in LSM|57.0||||0.051|TWO_SIDED|95.0|0.0|115.0|||ANOVA|The p-value, difference in LSM, and its 95% CI were from ANOVA model with treatment as a fixed effect.||||115|0|0.051
82531619|NCT00900627|164760623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.026|TWO_SIDED|95.0|1.09|3.75||Statistical significance threshold at this analysis was 5%|Logistic Regression|Logistic reg. model with terms for treatment, prior taxane, hormone receptor status, prior chemotherapy for breast cancer and AZD8931 diagnostic test|The odds Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a odds ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||3.75|1.09|0.026
82576322|NCT02209181|164862065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.64||0.72|TWO_SIDED|95.0|-1.04|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-1.04|0.720
82407588|NCT01103323|164523355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.774||||0.005178||95.0|0.636|0.942||According to protocol specified O'Brien-Fleming type alpha spending function and 432 death events at 2nd IA, the pre-specified alpha (false positive rate) for this analysis was 0.009279 (1-sided).|Log Rank||Two treatment groups compared using a stratified log-rank test, stratified by same stratification factors as randomization. Hazard ratio (Regorafenib / Placebo) and its 95% confidence interval calculated using Cox model, stratified by same factors.|Sample size based on primary efficacy endpoint of OS. The study was designed to have 90% power to detect 33.3% increase in median OS (i.e. hazard ratio of 0.75, Regorafenib / Placebo). Assuming 1-sided overall alpha of 0.025, randomization ratio of 2:1 for Regorafenib and Placebo, and 2 formal interim analyses of OS using an O'Brien-Fleming-type error spending function, a total of 582 death events were required for primary completion. Results based on 2nd planned formal IA with 432 total events.||0.942|0.636|0.005178
82407589|NCT01103323|164523356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.494|||<|1e-06||95.0|0.419|0.582||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Log Rank||Hazard ratio (Regorafenib / Placebo)|Two treatment groups compared using a stratified log-rank test, stratified by same stratification factors as randomization. Hazard ratio (Regorafenib / Placebo) and its 95% confidence interval calculated using Cox model, stratified by same factors.||0.582|0.419|<0.000001
82407590|NCT01103323|164523357|SUPERIORITY_OR_OTHER||Difference|-0.6||||0.188432||95.0|-1.74|0.53||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Cochran-Mantel-Haenszel||Difference = Placebo - Regorafenib 160 mg|Two treatment groups compared using Cochran-Mantel-Haenszel (CMH) test adjusting for same stratification factors as at randomization.||0.53|-1.74|0.188432
82531620|NCT00900627|164760624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.607|TWO_SIDED|95.0|0.67|2.01||Statistical significance threshold at this analysis was 5%|Cox proportional hazard model|Cox PH test with terms for treatment , prior taxane, hormone receptor status, prior chemotherapy for breast cancer|The Hazard Ratio is for AZD8931 40mg + paclitaxel / Placebo + paclitaxel, ie a hazard ratio \<1 favours AZD8931 40mg + paclitaxel|Originally, 166 patients were to be randomised to observe at least 133 progression events, based on HR=0.67, 80% power, 2-sided 5% significant level and a median of 6 months for the placebo arm. After 190 patients were randomised, the analysis was agreed to be performed at an similar level of maturity (70%) as originally planned (72%), after approximately 133 events.||2.01|0.67|0.607
82646670|NCT01676311|165008127|SUPERIORITY|||||||0.42||||||For each permutation of the data, relevant result was saved and the corresponding p-value represents the proportion of results at least as extreme as observed in the original data.|Regression, Linear|||Regression analysis was run incorporating group (Huperzine A, placebo), baseline CVLT-II-long delay free recall (LDFR) score, outcome (CVLT-II-LDFR at week 12) and covariates (Beck Depression Index, time post-injury, British Columbia Postconcussion Symptom Inventory). Regression analyses were repeated, permuting data observations for each outcome i.e. we permuted the labels (Huperzine A or placebo) among the data observations and re-ran the regression.||||0.42
82646671|NCT01676311|165008130|SUPERIORITY|||||||0.48||||||A chi-square test with factors of group (Huperzine A, placebo) and occurrence of seizure (yes, no) was performed. A permutation test was the used to assess the effect of Huperzine A on the prevalence of seizures.|Chi-squared test and permutation test|||||||0.48
82646672|NCT01676311|165008131|SUPERIORITY|||||||0.44||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of behavioral side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of behavioral side effects.|Chi-squared test and permutation test|||Behavioral side effects statistical analysis||||0.44
82646673|NCT01676311|165008131|SUPERIORITY|||||||0.81||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of cardiac-respiratory side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Cardiac-respiratory side effects statistical analysis||||0.81
82646674|NCT01676311|165008131|SUPERIORITY|||||||0.81||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of dermatological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of dermatological side effects.|Chi-squared test and permutation test|||Dermatological side effects statistical analysis||||0.81
82646675|NCT01676311|165008131|SUPERIORITY|||||||0.73||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of gastrointestinal side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Gastrointestinal side effects statistical analysis||||0.73
82376129|NCT00591773|164458397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.16|||<|0.001|TWO_SIDED|95.0|-10.14|-6.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.19|-10.14|<0.001
82376130|NCT00591773|164458397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.17|||<|0.001|TWO_SIDED|95.0|-10.15|-6.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.19|-10.15|<0.001
82376131|NCT00591773|164458398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.52|||<|0.001|TWO_SIDED|95.0|-20.39|-14.64||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.64|-20.39|<0.001
82376132|NCT00591773|164458398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.95|||<|0.001|TWO_SIDED|95.0|-19.84|-14.05||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-14.05|-19.84|<0.001
82376133|NCT00591773|164458399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54|||<|0.001|TWO_SIDED|95.0|-13.49|-9.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.59|-13.49|<0.001
82376134|NCT00591773|164458399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.68|||<|0.001|TWO_SIDED|95.0|-13.64|-9.72||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.72|-13.64|<0.001
82407591|NCT01103323|164523358|SUPERIORITY_OR_OTHER||Difference|-25.94|||<|1e-06||95.0|-32.06|-19.82||Comparison based on pre-specified alpha level of 0.025 (1-sided).|Cochran-Mantel-Haenszel||Difference = Placebo - Regorafenib 160 mg|Two treatment groups compared using Cochran-Mantel-Haenszel (CMH) test adjusting for same stratification factors as at randomization.||-19.82|-32.06|<0.000001
82646676|NCT01676311|165008131|SUPERIORITY|||||||0.54||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of genitourinary/neurological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects|Chi-squared test and permutation test|||Genitourinary/neurological side effects statistical analysis||||0.54
82376135|NCT00591773|164458400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.04|||<|0.001|TWO_SIDED|95.0|-17.13|-10.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.94|-17.13|<0.001
82376136|NCT00591773|164458400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.48|||<|0.001|TWO_SIDED|95.0|-16.58|-10.37||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-10.37|-16.58|<0.001
82446316|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||4.03|TWO_SIDED|95.0|0.86|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.86|4.03
82446317|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||30.03|TWO_SIDED|95.0|0.89|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.89|30.03
82446318|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||80.34|TWO_SIDED|95.0|0.95|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.95|80.34
82446319|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||25.65|TWO_SIDED|95.0|0.89|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.89|25.65
82446320|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||24.36|TWO_SIDED|95.0|0.88|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.88|24.36
82446321|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.45|TWO_SIDED|95.0|0.91|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.91|48.45
82446322|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||1.95|TWO_SIDED|95.0|0.81|0.99||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.99|0.81|1.95
82446323|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||14.15|TWO_SIDED|95.0|0.85|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.85|14.15
82646677|NCT01676311|165008131|SUPERIORITY|||||||0.27||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of hematological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Hematological side effects statistical analysis||||0.27
82446324|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||80.61|TWO_SIDED|95.0|0.95|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.95|80.61
82446325|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||3.3|TWO_SIDED|95.0|0.81|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12.The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.81|3.30
82446326|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||42.22|TWO_SIDED|95.0|0.88|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.88|42.22
82646678|NCT01676311|165008131|SUPERIORITY|||||||0.41||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of musculoskeletal side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Musculoskeletal side effects statistical analysis||||0.41
82407592|NCT02314728|164523389|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82407593|NCT02314728|164523390|SUPERIORITY|||||||0.6|||||||Fisher Exact|||NICU admission||||0.60
82407594|NCT02314728|164523390|SUPERIORITY|||||||0.13|||||||Fisher Exact|||histologic chorioamnionitis||||0.13
82407595|NCT01614470|164523391|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|10.678|||<|0.0001|TWO_SIDED|95.0|7.2559|14.1|||Mixed Models Analysis|||||14.1000|7.2559|<0.0001
82407596|NCT01614470|164523392|SUPERIORITY_OR_OTHER||LS mean difference|0.6624|||<|0.0001|TWO_SIDED|95.0|0.3366|0.9881|||Mixed Models Analysis|||||0.9881|0.3366|<0.0001
82407597|NCT01614470|164523394|SUPERIORITY_OR_OTHER||LS mean difference|-49.1667|||<|0.0001|TWO_SIDED|95.0|-56.9527|-41.3807|||Mixed Models Analysis|||||-41.3807|-56.9527|<0.0001
82407598|NCT01614470|164523397|SUPERIORITY_OR_OTHER||LS mean difference|9.6105||||0.0004|TWO_SIDED|95.0|4.4874|14.7336|||Mixed Models Analysis|||||14.7336|4.4874|0.0004
82407599|NCT04265261|164523450|SUPERIORITY||Risk Difference (RD)|1.19||||0.8586|TWO_SIDED|95.0|-11.86|14.23|||Cochran-Mantel-Haenszel|||||14.23|-11.86|0.8586
82407600|NCT04265261|164523450|SUPERIORITY||Risk Difference (RD)|-2.93||||0.6388|TWO_SIDED|95.0|-15.18|9.31|||Cochran-Mantel-Haenszel|||||9.31|-15.18|0.6388
82531621|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|Mixed Model for Repeated Measures (MMRM)|||||||<0.0001
82407601|NCT02990000|164523455|SUPERIORITY|We used the Optimal Design program to determine the minimum numbers of therapists and patients needed to detect a moderate effect of condition (standardized difference between change rates = .50). Based on this a priori power analysis, we will need a total of 44 therapists and 211 patients to achieve a power of .80 to detect moderate condition effects. Factoring in a 25% dropout rate, enrolling 281 patients should provide sufficient statistical power.|condition effect on weekly change rate|-0.04|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|-0.05|-0.03|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the TOP-CS average z-scores. Given that higher TOP-CS z-scores indicate greater impairment, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.03|-0.05|.02
82407602|NCT02990000|164523456|SUPERIORITY||condition effect on weekly change rate|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.03|TWO_SIDED|95.0|-0.3|-0.02|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the SCL-10 total score. Given that higher SCL-10 scores indicate greater psychological distress, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.02|-0.30|.03
82407603|NCT02990000|164523457|SUPERIORITY||condition effect on weekly change rate|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.65|TWO_SIDED|95.0|-0.33|0.21|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the patient-rated WAI. Given that higher WAI scores indicate better quality therapeutic alliances, positive slopes indicate a weekly increase in alliance during treatment (i.e., a better outcome or more improvement).||0.21|-0.33|.65
82407604|NCT02990000|164523458|SUPERIORITY||condition effect on weekly change rate|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.41|TWO_SIDED|95.0|-0.17|0.07|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the OE subscale of the CEQ. Given that higher OE scores indicate more optimistic expectations, positive slopes indicate a weekly increase in OE during treatment (i.e., a better outcome or more improvement).||0.07|-0.17|.41
82407605|NCT02990000|164523459|SUPERIORITY||condition effect on weekly change rate|-0.01|STANDARD_ERROR_OF_MEAN|0.002||0.01|TWO_SIDED|95.0|-0.01|-0.006|||3-level hierarchical linear model|||To account for the nested nature of the data (time points nested within patients nested within therapists), a 3-level hierarchical linear model was used to test the effect of condition (Scientific Match = 1; Pragmatic Match = 0) on weekly during-treatment change on the log-transformed TOP-CS domain-specific z-scores. Given that higher z-scores indicate greater impairment, negative slopes indicate a weekly decrease in impairment during treatment (i.e., a better outcome or more improvement).||-0.006|-0.01|.01
82407606|NCT02990000|164523460|SUPERIORITY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.48||0.48|TWO_SIDED||||||Multilevel logistic regression|||Multilevel logistic regression analysis with patients nested within therapists (Scientific Match = 1; Pragmatic Match = 0). Statistically significant odds ratios that are greater than 1 would indicate that patients in the Scientific Match Condition were more likely to discontinue treatment early, whereas odds ratios that are less than 1 would indicate the opposite.||||.48
82407607|NCT02990000|164523461|SUPERIORITY||condition effect on satisfaction|0.37|STANDARD_ERROR_OF_MEAN|0.48||0.44|TWO_SIDED|95.0|-0.57|1.31|||2-level hierarchical linear model|||Due to the nested nature of the data (patients nested within therapists), we used a two-level hierarchical linear model to test the effect of condition on provider satisfaction at posttreatment. Because higher values indicate more satisfaction, a positive condition effect would indicate that Scientific Match patients were more satisfied than Pragmatic Match patients, whereas a negative condition effect would indicate the opposite.||1.31|-0.57|.44
82531622|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
82531623|NCT03748979|164760655|SUPERIORITY|||||||0.0002||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||0.0002
82576323|NCT02209181|164862065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.64||0.763|TWO_SIDED|95.0|-1.07|1.45||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.45|-1.07|0.763
82646679|NCT01676311|165008131|SUPERIORITY|||||||1||||||A chi-squared test with factors of group (Huperzine A, placebo) and occurrence of neurological side effects (yes, no) were performed. A permutation test was used to assess the effect of Huperzine A on the incidence of these side effects.|Chi-squared test and permutation test|||Neurological side effects statistical analysis||||1.00
82407608|NCT00922636|164523462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.74||||0.008||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|The Least Squares (LS) Mean Change is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.|The LS Mean difference was computed as treatment minus placebo.|||||0.008
82407609|NCT00922636|164523462|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.04||||0.006||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|The Least Squares (LS) Mean Value is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.|The LS Mean difference was computed as treatment minus placebo.|||||0.006
82531624|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
82648015|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.31|||||||Chi-squared|||||||0.31
82376137|NCT00591773|164458401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.42|||<|0.001|TWO_SIDED|95.0|-11.65|-7.2||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.20|-11.65|<0.001
82376138|NCT00591773|164458401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.69|||<|0.001|TWO_SIDED|95.0|-11.92|-7.46||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.46|-11.92|<0.001
82376139|NCT00591773|164458402|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.38|7.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.03|2.38|<0.001
82376140|NCT00591773|164458402|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.82|5.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.03|1.82|<0.001
82376141|NCT00591773|164458403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|1.9|7.27||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||7.27|1.90|<0.001
82376142|NCT00591773|164458403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.002|TWO_SIDED|95.0|1.46|5.0||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.00|1.46|0.002
82376143|NCT00591773|164458404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|2.41|6.64||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.64|2.41|<0.001
82376144|NCT00591773|164458404|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001|TWO_SIDED|95.0|1.83|4.79||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.79|1.83|<0.001
82376145|NCT02135614|164458405|SUPERIORITY||Treatment difference|0.12||||0.46|TWO_SIDED|95.0|-0.2|0.43||P-value was calculated from the ANCOVA model including baseline values, Clinical Frailty Scale (CFS) score, and stratification factor as covariates.|ANCOVA|||||0.43|-0.20|0.46
82376146|NCT02135614|164458406|SUPERIORITY||Treatment difference|0.08||||0.046|TWO_SIDED|95.0|0.0|0.16||P-value was calculated from the ANCOVA model including the baseline value, CFS score and stratification factor as covariates.|ANCOVA|||||0.16|0.00|0.046
82376147|NCT02135614|164458407|SUPERIORITY|||||||0.39||||||P-value was calculated from the negative binomial model with the stratification factor as covariate.|Negative Binomial Model|||||||0.39
82376148|NCT02135614|164458408|SUPERIORITY|||||||0.004||||||P-value from the negative binomial model comparing the rate ratio between treatment groups, adjusted for the stratification factor.|Negative Binomial Model|||||||0.004
82376149|NCT03743415|164458427|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that reflected average difference between arms over time (weeks 1-13).|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.16||0.81|TWO_SIDED|95.0|-2.5|1.96||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Linear mixed effects models were used for 13 repeated measures of the symptom index, adjusting for baseline value.|Mean of SMSH alone minus mean of SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||1.96|-2.50|.81
82376150|NCT03743415|164458427|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|2.07||0.78|TWO_SIDED|95.0|-4.65|3.49||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|The model included adjustment for baseline value of the symptom index.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||3.49|-4.65|.78
82407610|NCT00922636|164523465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.938||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|Least squares (LS) mean is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.||Gated secondary analysis for total score. If both LY2216684 groups (0.2 mg/kg/day and 0.3 mg/kg/day) were statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.027. If only 0.2 mg/kg/day or 0.3 mg/kg/day LY2216684 was statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.023 for the corresponding group.||||0.938
82407611|NCT00922636|164523465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.44||||0.002||95.0||||Statistical significance was assessed at an alpha level of 0.027 with a Dunnett adjustment for multiple comparisons.|Mixed Models Analysis|Least squares (LS) mean is from a restricted maximum likelihood-based, mixed model repeated measure (MMRM) analysis.||Gated secondary analysis for total score. If both LY2216684 groups (0.2 mg/kg/day and 0.3 mg/kg/day) were statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.027. If only 0.2 mg/kg/day or 0.3 mg/kg/day LY2216684 was statistically significantly superior than placebo for the primary endpoint, then gated secondary analysis was assessed at an alpha level of 0.023 for the corresponding group.||||0.002
82407612|NCT02812186|164523516|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82407613|NCT02812186|164523517|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
82407614|NCT02812186|164523518|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82648016|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.82|||||||Chi-squared|||||||0.82
82376151|NCT03743415|164458427|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over time (weeks 1-13).|Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.76||0.27|TWO_SIDED|95.0|-0.66|2.32||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||2.32|-0.66|.27
82407618|NCT01669434|164523549|SUPERIORITY||Risk Ratio (RR)|0.81||||0.03|TWO_SIDED|95.0|0.67|0.97|||Fisher Exact|||||0.97|0.67|0.03
82531625|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
82376152|NCT03743415|164458427|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|1.35||0.19|TWO_SIDED|95.0|-0.88|4.39||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size d=0.54 between the SMSH alone group and SMSH+TIPC group was detectable with power of .94 in two-sided tests at .05 level of significance.||4.39|-0.88|.19
82376153|NCT03743415|164458428|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over weeks 5-13.|Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|2.46||0.53|TWO_SIDED|95.0|-3.3|6.36||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||6.36|-3.30|.53
82407619|NCT01669434|164523550|SUPERIORITY||Risk Ratio (RR)|0.6||||0.44|TWO_SIDED|95.0|0.23|1.6|||Fisher Exact|||||1.60|0.23|0.44
82531626|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 1.|MMRM|||||||<0.0001
82531627|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
82531628|NCT03748979|164760655|SUPERIORITY||||||<|0.0001||||||P-value was obtained using MMRM analysis. The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group on Day 7.|MMRM|||||||<0.0001
82531629|NCT02368002|164760684|SUPERIORITY|||||||0.25||||||2 df re-random\*time interaction tested if baseline to 6M or 18M PCM and ABT weight changes differed; primary hypothesis tests were 2 planned contrasts estimating baseline to 6M (H1a, expected neg) and 18M (H1b, expected pos) PCM vs. ABT weight change|Mixed Models Analysis|The mixed model included a random participant intercept. Fixed covariates were baseline weight, TRA timing, sex, weight loss rate.||H1 predicted that suboptimal responders re-randomized to PCM would lose more weight at 6m (H1a) while those re-randomized to ABT would lose more weight at 18m (H1b). A mixed linear model predicted weight change from fixed re-randomization, measurement time, the re-randomization by measurement time interaction and covariate parameters.|The primary hypothesis tests were two planned contrasts that estimated weight change from baseline to 6M and 18M relative to baseline in PCM relative to ABT. A mixed linear model predicted weight changes between baseline and post-baseline for suboptimal responders, and this model included two a priori simple effects tests resulting in two mean differences, confidence intervals, and p-values. H1a: -2.7 lbs; 95% CI: -5.8, 0.5; p=0.09. H1b: -1.0 lbs; 95% CI: -4.2, 2.2; p=0.53|||0.25
82646680|NCT01029769|165008132|OTHER|"a logistic regression model with remission as the dependent variable and switch of treatment (yes/no) and PANSS-total score at visit 3 as independent variables was used. Multiple imputation (based upon 20 imputations, primary analysis), last observation carried forward and completers only analyses were performed."|||||=|0.01||||||Multiple imputation was performed separately for the switch and non-switch arms and the imputation model included the PANSS total score from all visits from phase II baseline (visit 2) onwards, remission at visit 7 and phase I arm allocation|Regression, Logistic|||Irrespective of the initially assigned antipsychotic treatment in period 1 of the trial (2-week-phase), the patients showing little improvement over the two weeks of treatment in period 1 now switched from the initial treatment in period 2 of the trial (6-week-phase) were grouped together as well as the patients non-switched from their initial treatment.||||=0.01
82646681|NCT04333199|165008134|SUPERIORITY||Odds Ratio (OR)|2.9903891|||<|0.001|TWO_SIDED|95.0|2.2805876|3.9211066||We used an a priori threshold of p \< .05.|Regression, Logistic|||||3.9211066|2.2805876|<0.001
82646682|NCT04333199|165008135|SUPERIORITY||Odds Ratio (OR)|1.1781659||||0.154|TWO_SIDED|95.0|0.9404654|1.4759445||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.4759445|0.9404654|0.154
82646683|NCT04333199|165008136|SUPERIORITY||Odds Ratio (OR)|0.9575636||||0.571|TWO_SIDED|95.0|0.8242111|1.1124918||We used an a priori threshold of p \< .05.|Regression, Logistic|||||1.1124918|0.8242111|0.571
82646684|NCT04333199|165008137|SUPERIORITY||Odds Ratio (OR)|1.8562672|||<|0.001|TWO_SIDED|95.0|1.5692523|2.1957769||We used an a priori threshold of p \< .05.|Regression, Logistic|||||2.1957769|1.5692523|<0.001
82646685|NCT04333199|165008139|SUPERIORITY||Odds Ratio (OR)|1.8542767|||<|0.001|TWO_SIDED|95.0|1.5220654|2.2589975||We used an a priori threshold of p \< .05.|Regression, Logistic|||||2.2589975|1.5220654|<0.001
82407620|NCT01669434|164523551|SUPERIORITY||Risk Ratio (RR)|1.2||||1|TWO_SIDED|95.0|0.48|2.99|||Fisher Exact|||||2.99|0.48|1.0
82407621|NCT01669434|164523552|SUPERIORITY||Risk Ratio (RR)|1.01||||1|TWO_SIDED|95.0|0.81|1.26|||Fisher Exact|||||1.26|0.81|1.0
82407622|NCT01669434|164523553|SUPERIORITY||Risk Ratio (RR)|1.95||||0.01|TWO_SIDED|95.0|1.14|3.34|||Fisher Exact|||||3.34|1.14|0.01
82407623|NCT01669434|164523554|SUPERIORITY||Risk Ratio (RR)|0.49||||0.02|TWO_SIDED|95.0|0.28|0.86|||Fisher Exact|||||0.86|0.28|0.02
82407624|NCT02860988|164523555|OTHER|Two-sided tests versus a margin|Mean Difference (Net)|0.6||||0.29|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.29
82407625|NCT02860988|164523556|OTHER|Two-sided tests versus a margin|Risk Difference (RD)|0.9||||0.88|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.88
82407626|NCT02860988|164523557|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|0.96||||0.89|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.89
82407627|NCT02860988|164523558|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|-4.26||||0.61|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.61
82407628|NCT02860988|164523559|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|3.61||||0.67|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.67
82407629|NCT02860988|164523560|OTHER|Two-sided tests versus a margin.|Risk Difference (RD)|5.23||||0.14|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Logistic|||||||0.14
82407630|NCT02860988|164523561|OTHER|Two-sided tests versus a margin.|Mean Difference (Net)|0.03||||0.81|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.81
82407631|NCT02860988|164523562|OTHER|Two-sided tests versus a margin.|Mean Difference (Net)|0.31||||0.74|TWO_SIDED|||||A priori threshold for statistical significance was set at 0.05.|Regression, Linear|||||||0.74
82407632|NCT01926028|164523586|EQUIVALENCE|The proportion of patients in each group was summarized with point estimates and their 95% confidence interval|Cox Proportional Hazard|0.39||||0.03|TWO_SIDED|95.0|0.17|0.91|||Wilcoxon (Mann-Whitney)|||||0.91|0.17|0.03
82407633|NCT01926028|164523587|EQUIVALENCE|The proportion of patients in each group was summarized with point estimates and their 95% confidence interval|Cox Proportional Hazard|0.55||||0.1|TWO_SIDED|95.0|0.27|1.13|||Wilcoxon (Mann-Whitney)|||||1.13|0.27|0.10
82407634|NCT00737048|164523596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_DEVIATION|8.06|<|0.0001|||||||Fisher Least Signiﬁcant Diﬀerence Method|||Statistical Analysis 1 for Total pain relief based on numerical rating scale score||||<0.0001
82407635|NCT00737048|164523596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|STANDARD_DEVIATION|7.99|<|0.0001|||||||Fisher Least Signiﬁcant Diﬀerence Method|||Statistical Analysis 2 for Total pain relief based on numerical rating scale score||||<0.0001
82407636|NCT01115452|164523621|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.32||||0.9347|TWO_SIDED|95.0|-8.14|7.5||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis was no difference between treatments.||7.50|-8.14|0.9347
82407637|NCT01115452|164523622|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02||||0.9963|TWO_SIDED|95.0|-8.2|8.24||Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|ANCOVA|No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.24|-8.20|0.9963
82407638|NCT01115452|164523622|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.9||||0.3582|TWO_SIDED|95.0|-4.45|12.25||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.25|-4.45|0.3582
82407639|NCT01115452|164523622|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.88||||0.36|TWO_SIDED|95.0|-4.46|12.22||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.22|-4.46|0.3600
82407640|NCT01115452|164523623|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.91||||0.8265|TWO_SIDED|95.0|-9.13|7.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.30|-9.13|0.8265
82407641|NCT01115452|164523623|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.9||||0.8314|TWO_SIDED|95.0|-9.25|7.45||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.45|-9.25|0.8314
82407642|NCT01115452|164523623|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01||||0.9978|TWO_SIDED|95.0|-8.33|8.35||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.35|-8.33|0.9978
82407643|NCT01115452|164523624|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.22||||0.3122|TWO_SIDED|95.0|-4.0|12.44|||ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.44|-4.00|0.3122
82407644|NCT01115452|164523624|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.27||||0.7646|TWO_SIDED|95.0|-9.62|7.08||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.08|-9.62|0.7646
82407645|NCT01115452|164523624|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.49||||0.1957||95.0|-13.83|2.85||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||2.85|-13.83|0.1957
82407646|NCT01115452|164523625|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.35||||0.7472|TWO_SIDED|95.0|-9.62|6.92||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.92|-9.62|0.7472
82407647|NCT01115452|164523625|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.66||||0.8767||95.0|-7.75|9.08||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution|Null hypothesis is no difference between treatments.||9.08|-7.75|0.8767
82407648|NCT01115452|164523625|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.01||||0.6367||95.0|-6.39|10.42||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.42|-6.39|0.6367
82446327|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.09||||95.24|TWO_SIDED|95.0|0.99|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.99|95.24
82446328|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||6.38|TWO_SIDED|95.0|0.83|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.83|6.38
82407649|NCT01115452|164523626|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.95||||0.6417|TWO_SIDED|95.0|-10.22|6.32||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.32|-10.22|0.6417
82407650|NCT01115452|164523626|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.43||||0.92|TWO_SIDED|95.0|-7.99|8.85||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.85|-7.99|0.9200
82407651|NCT01115452|164523626|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.38||||0.5766||95.0|-6.02|10.78||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.78|-6.02|0.5766
82407652|NCT01115452|164523627|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.58||||0.393|TWO_SIDED|95.0|-11.65|4.68||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||4.68|-11.65|0.3930
82407653|NCT01115452|164523627|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.7||||0.6896|TWO_SIDED|95.0|-10.12|6.71||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.71|-10.12|0.6896
82407654|NCT01115452|164523627|SUPERIORITY_OR_OTHER||Adjustes mean difference|1.88||||0.6591|TWO_SIDED|95.0|-6.52|10.28||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.28|-6.52|0.6591
82407655|NCT01115452|164523628|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.08||||0.6301||95.0|-10.6|6.45||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.45|-10.60|0.6301
82407656|NCT01115452|164523628|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.76||||0.6888|TWO_SIDED|95.0|-10.46|6.93||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.93|-10.46|0.6888
82407657|NCT01115452|164523628|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.32||||0.9428|TWO_SIDED|95.0|-8.37|9.0||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.00|-8.37|0.9428
82407658|NCT01115452|164523629|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.58||||0.5504|TWO_SIDED|95.0|-11.1|5.95||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||5.95|-11.10|0.5504
82407659|NCT01115452|164523629|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1||||0.634|TWO_SIDED|95.0|-10.8|6.6||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.60|-10.80|0.6340
82531630|NCT02368002|164760685|SUPERIORITY||Mean Difference (Net)|-0.1||||0.96|TWO_SIDED|95.0|-2.4|2.3|||Mixed Models Analysis|The mixed model included a random participant intercept. Fixed covariates were baseline weight, sex, TRA result (PCM, ABT, responder, pre-TRA quit).||Hypothesis 2 predicted that among all participants, those randomized to Early TRA would lose more weight at 6 and 18 months than those randomized to Late TRA. A mixed linear model predicted weight change from fixed treatment response assessment timing and covariate parameters.||2.3|-2.4|0.96
82407660|NCT01115452|164523629|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.48||||0.9127|TWO_SIDED|95.0|-8.2|9.16|||ANCOVA|No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.16|-8.20|0.9127
82407661|NCT01115452|164523630|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.15||||0.6192|TWO_SIDED|95.0|-10.67|6.38||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.38|-10.67|0.6192
82407662|NCT01115452|164523630|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.6||||0.8912|TWO_SIDED|95.0|-8.1|9.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.30|-8.10|0.8912
82407663|NCT01115452|164523630|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.75||||0.5321|TWO_SIDED|95.0|-5.93|11.43||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution|Null hypothesis is no difference between treatments.||11.43|-5.93|0.5321
82407664|NCT01115452|164523631|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.37||||0.4055|TWO_SIDED|95.0|-11.37|4.63||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||4.63|-11.37|0.4055
82407665|NCT01115452|164523631|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.74||||0.8573|TWO_SIDED|95.0|-7.42|8.91||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.91|-7.42|0.8573
82407666|NCT01115452|164523631|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.12||||0.3193|TWO_SIDED|95.0|-4.03|12.27||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.27|-4.03|0.3193
82407667|NCT01115452|164523632|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.23||||0.4264||95.0|-4.77|11.23||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||11.23|-4.77|0.4264
82407668|NCT01115452|164523632|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.04||||0.8008|TWO_SIDED|95.0|-7.42|9.21||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution|Null hypothesis is no difference between treatments.||9.21|-7.42|0.8008
82407669|NCT01115452|164523632|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.18||||0.5969|TWO_SIDED|95.0|-10.33|5.97||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||5.97|-10.33|0.5969
82407670|NCT01115452|164523633|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.14||||0.2059|TWO_SIDED|95.0|-13.14|2.86||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||2.86|-13.14|0.2059
82407671|NCT01115452|164523633|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39||||0.9248|TWO_SIDED|95.0|-8.56|7.77||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.77|-8.56|0.9248
82446329|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||28.82|TWO_SIDED|95.0|0.86|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.86|28.82
82446330|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.05||||87.39|TWO_SIDED|95.0|0.97|1.14||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.14|0.97|87.39
82446331|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||23.27|TWO_SIDED|95.0|0.87|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.87|23.27
82446332|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||57.82|TWO_SIDED|95.0|0.9|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Upper; D28.The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.90|57.82
82376154|NCT03743415|164458428|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|3.92||0.97|TWO_SIDED|95.0|-5.7|9.68||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||9.68|-5.70|.97
82576324|NCT02209181|164862065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.82|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.55|4.09||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.09|1.55|<0.001
82576325|NCT02209181|164862065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.64||0.952|TWO_SIDED|95.0|-1.3|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-1.30|0.952
82376155|NCT03743415|164458428|SUPERIORITY|The key parameter was the coefficient for the trial arm difference in linear mixed effects model that included reflected average difference between arms over weeks 5-13.|Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|1.94||0.31|TWO_SIDED|95.0|-1.83|5.75||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH alone minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. . The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||5.75|-1.83|.31
82376156|NCT03743415|164458428|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Net)|3.3|STANDARD_ERROR_OF_MEAN|2.77||0.61|TWO_SIDED|95.0|-2.13|8.74||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. The adjusted effect size (Cohen's d=0.54) was used to power comparisons on the primary outcomes reported by groups from the second randomization. This analysis indicated that 60 per group would be required for power of .80 or greater in two-sided tests at α= 0.05.||8.74|-2.13|.61
82376157|NCT03743415|164458429|SUPERIORITY|Key parameter was the difference between arms at week 13.|Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|1.14||0.44|TWO_SIDED|95.0|-3.12|1.35||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Regression, Linear|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.35|-3.12|.44
82376158|NCT03743415|164458429|SUPERIORITY|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|1.15||0.95|TWO_SIDED|95.0|-2.32|2.18||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.||2.18|-2.32|.95
82446333|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||9.67|TWO_SIDED|95.0|0.77|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.77|9.67
82446334|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||70.73|TWO_SIDED|95.0|0.89|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Lower; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.89|70.73
82446335|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.61|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Central; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|25.61
82446336|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||44.1|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Cetral; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|44.10
82576326|NCT02209181|164862065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.59|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|1.31|3.86||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.86|1.31|<0.001
82576327|NCT02209181|164862066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.63||0.821|TWO_SIDED|95.0|-1.1|1.39||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.39|-1.10|0.821
82376159|NCT03743415|164458429|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.96||0.97|TWO_SIDED|95.0|-1.85|1.93||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.93|-1.85|.97
82376160|NCT03743415|164458429|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.96||0.74|TWO_SIDED|95.0|-1.56|2.2||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.20|-1.56|.74
82376161|NCT03743415|164458430|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|2.31||0.98|TWO_SIDED|95.0|-4.49|4.58||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus mean of SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.58|-4.49|.98
82376162|NCT03743415|164458430|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.34||0.7|TWO_SIDED|95.0|-5.48|3.68||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.68|-5.48|.70
82376163|NCT03743415|164458430|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|1.85||0.27|TWO_SIDED|95.0|-5.62|1.62||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||1.62|-5.62|.27
82446337|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||10.14|TWO_SIDED|95.0|0.82|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.82|10.14
82407672|NCT01115452|164523633|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.75||||0.2508|TWO_SIDED|95.0|-3.4|12.9||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||12.90|-3.40|0.2508
82407673|NCT01115452|164523634|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.12||||0.7822|TWO_SIDED|95.0|-6.86|9.1||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.10|-6.86|0.7822
82407674|NCT01115452|164523634|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.44||||0.7208|TWO_SIDED|95.0|-6.52|9.41||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.41|-6.52|0.7208
82407675|NCT01115452|164523635|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.36||||0.7318|TWO_SIDED|95.0|-9.18|6.46||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus 2.5% potassium nitrate solution. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||6.46|-9.18|0.7318
82407676|NCT01115452|164523635|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.05||||0.7949|TWO_SIDED|95.0|-6.93|9.03||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||9.03|-6.93|0.7949
82407677|NCT01115452|164523635|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.41||||0.5507|TWO_SIDED|95.0|-5.56|10.37||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||10.37|-5.56|0.5507
82407678|NCT01115452|164523636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.72||||0.8549|TWO_SIDED|95.0|-8.54|7.1||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Investigator applied the participants with 5% potassium nitrate solution on each of the three individual sensitive tooth for two minutes (mins), in each of the five day treatment period|Null hypothesis is no difference between treatments.||7.10|-8.54|0.8549
82446338|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||62.87|TWO_SIDED|95.0|0.9|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Distal D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.90|62.87
82446339|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||11.82|TWO_SIDED|95.0|0.93|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.93|11.82
82446340|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||51.44|TWO_SIDED|95.0|0.95|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Longitudinal; Region; Total; D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.95|51.44
82446341|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||9.54|TWO_SIDED|95.0|0.88|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.88|9.54
82576328|NCT02209181|164862066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.63||0.978|TWO_SIDED|95.0|-1.25|1.22||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.22|-1.25|0.978
82576329|NCT02209181|164862066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.88|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|1.63|4.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.13|1.63|<0.001
82376164|NCT03743415|164458430|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|1.84||0.91|TWO_SIDED|95.0|-3.4|3.81||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.81|-3.40|.91
82376165|NCT03743415|164458431|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|1.06||0.06|TWO_SIDED|95.0|-3.98|0.19||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||0.19|-3.98|.06
82376166|NCT03743415|164458431|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|1.0||0.09|TWO_SIDED|95.0|-3.81|0.11||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||0.11|-3.81|.09
82407679|NCT01115452|164523636|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.15||||0.9705|TWO_SIDED|95.0|-8.13|7.83||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 5% potassium nitrate solution minus water. Negative difference favored 5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||7.83|-8.13|0.9705
82407680|NCT01115452|164523636|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.57||||0.8867|TWO_SIDED|95.0|-7.39|8.54||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment group, treatment application site and assessment time were fixed factors, baseline VAS was a covariate and participant was a random factor.|Difference was calculated as adjusted mean change from baseline in 2.5% potassium nitrate solution minus water. Negative difference favored 2.5% potassium nitrate solution.|Null hypothesis is no difference between treatments.||8.54|-7.39|0.8867
82407681|NCT00879190|164523649|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82407682|NCT00879190|164523650|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
82407683|NCT00879190|164523651|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||||||0.6
82407684|NCT01248455|164523652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||No patients obtained a 50% reduction in M-protein concentration and the study did not continue to the second stage of enrollment due to the lack of efficacy as defined by out criteria. This statistical analysis includes all participants (i.e., stable disease (SD), minimal response (MR), biochemical progression (BP), and progressive disease (PD)).||||0.56
82407685|NCT01587885|164523659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.548|||<|0.048|||||||Regression, Cox|||||||<0.0480
82407686|NCT02900352|164523675|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.0130
82407687|NCT02900352|164523676|SUPERIORITY|||||||0.148|||||||Chi-squared|||||||0.148
82407688|NCT02900352|164523677|SUPERIORITY|||||||0.054|||||||ANOVA|||||||.054
82407689|NCT02900352|164523678|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
82407690|NCT02900352|164523679|SUPERIORITY|||||||0.889|||||||ANOVA|||||||0.889
82407691|NCT02900352|164523680|SUPERIORITY|||||||0.482|||||||ANOVA|||||||0.482
82407692|NCT02900352|164523681|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82407693|NCT02089347|164523682|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%|Wilson score method|1.42|||||TWO_SIDED|95.0|-0.31|4.61||||||Non-inferiority comparison of post-booster response for Diphtheria.||4.61|-0.31|
82407694|NCT02089347|164523682|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by the data if lower bound ot the two-sided 95% is greater than -10%|Wilson score method|6.25|||||TWO_SIDED|95.0|3.32|10.84||||||Non-inferiority comparison of post-vaccination booster response for tetanus||10.84|3.32|
82407695|NCT02089347|164523683|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%|Wilson score method|0.57|||||TWO_SIDED|95.0|-0.61|3.15||||||Non-inferiority comparison of Diphtheria post-vaccination seroprotection rates at ≥ 0.1 IU/mL||3.15|-0.61|
82407696|NCT02089347|164523683|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is supported by a data if the lower bound of the two-sided 95% confidence interval (CI) is greater than -10%.|Wilson score method|0.0|||||TWO_SIDED|95.0|-1.09|2.14||||||Non-inferiority comparison of Tetanus post-vaccination seroprotection rates at ≥ 0.1 IU/mL||2.14|-1.09|
82407697|NCT01329198|164523733|SUPERIORITY||Mean Difference (Final Values)|-17.8|STANDARD_DEVIATION|9.4||0.013|TWO_SIDED||||||ANOVA||Mean change in YGTSS scores from Baseline to 6 Months across all study participants presented.|||||0.013
82376167|NCT03743415|164458431|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.97||0.89|TWO_SIDED|95.0|-1.77|2.04||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.04|-1.77|.89
82407698|NCT00473083|164523735|SUPERIORITY_OR_OTHER|||||||0.8769||||||P for arm 1 v arms 2 and 3 combined|Chi-squared|||||||0.8769
82407699|NCT00473083|164523735|SUPERIORITY_OR_OTHER|||||||0.147||||||P for arm 1 v arms 2 and 3 combined|Wilcoxon (Mann-Whitney)|||||||0.147
82407700|NCT00473083|164523736|SUPERIORITY_OR_OTHER|||||||0.1503||||||P(arm 1 v arm 2) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.1503
82407701|NCT00473083|164523736|SUPERIORITY_OR_OTHER|||||||0.4681||||||P(arm2 v arm3) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.4681
82407702|NCT00473083|164523736|SUPERIORITY_OR_OTHER|||||||0.0196||||||P(arm 1 v arm 3) in patients with maximum severity of rash grade 1, 2a, or 2b|Wilcoxon (Mann-Whitney)|||||||0.0196
82407703|NCT00473083|164523736|SUPERIORITY_OR_OTHER|||||||0.1658||||||P(arm 1 v arm 2) in patients with maximum severity of rash grade 3|Wilcoxon (Mann-Whitney)|||||||0.1658
82407704|NCT00473083|164523736|SUPERIORITY_OR_OTHER||||||>|0.9999||||||"P(arm 2 v arm 3) in patients with maximum severity of rash grade 3.~P-value was calculated to be \>0.9999 using the Wilcoxon Rank Sumtest by comparing between the two treatment arms."|Wilcoxon (Mann-Whitney)|||||||>0.9999
82407705|NCT00473083|164523736|SUPERIORITY_OR_OTHER|||||||0.285||||||P(arm 1 v arm 3) in patients with maximum severity of rash grade 3|Wilcoxon (Mann-Whitney)|||||||0.285
82407706|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.5097|||||||Chi-squared|||Maximal Rash Grade 1||||0.5097
82407707|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.474|||||||Chi-squared|||Maximal Rash Grade 2a||||0.4740
82407708|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.2123|||||||Chi-squared|||Maximal Severity Grade 2b||||0.2123
82407709|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.5004|||||||Chi-squared|||Maximal Severity Grade 3||||0.5004
82407710|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.9072|||||||Chi-squared|||Maximal Severity Grade 1||||0.9072
82407711|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.0464|||||||Chi-squared|||Maximal Severity Grade 2a||||0.0464
82407712|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.6759|||||||Chi-squared|||Maximal Severity Grade 2b||||0.6759
82407713|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.0065|||||||Chi-squared|||Maximal Severity Grade 3||||0.0065
82407714|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.5898|||||||Chi-squared|||Maximal Severity Grade 1||||0.5898
82407715|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.1921|||||||Chi-squared|||Maximal Severity Grade 2a||||0.1921
82407716|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.0882|||||||Chi-squared|||Maximal Severity Grade 2b||||0.0882
82407717|NCT00473083|164523737|SUPERIORITY_OR_OTHER|||||||0.0344|||||||Chi-squared|||Maximal Severity Grade 3||||0.0344
82576330|NCT02209181|164862066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.63||0.799|TWO_SIDED|95.0|-1.39|1.07||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.07|-1.39|0.799
82407718|NCT00473083|164523738|SUPERIORITY_OR_OTHER|||||||0.3834|||||||Log Rank|||||||0.3834
82407719|NCT00473083|164523740|SUPERIORITY_OR_OTHER|||||||0.0147|||||||Wilcoxon (Mann-Whitney)|||||||0.0147
82407720|NCT02915835|164523742|SUPERIORITY|||||||0.7|||||||ANCOVA|||||||0.70
82407721|NCT02915835|164523743|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
82407722|NCT02915835|164523744|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407723|NCT02915835|164523745|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407724|NCT02915835|164523746|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407725|NCT02915835|164523747|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407726|NCT02915835|164523748|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407727|NCT02915835|164523749|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407728|NCT02915835|164523750|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407729|NCT02915835|164523751|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407730|NCT02915835|164523752|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407731|NCT02915835|164523753|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407732|NCT02915835|164523754|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407733|NCT02915835|164523755|SUPERIORITY|||||||0.56|||||||Log Rank|||||||.56
82407734|NCT02915835|164523756|SUPERIORITY|||||||0.35|||||||Log Rank|||||||.35
82407735|NCT02915835|164523758|SUPERIORITY|||||||0.76|||||||ANCOVA|||||||.76
82407736|NCT02915835|164523759|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||.57
82407737|NCT02915835|164523760|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||.40
82407738|NCT02915835|164523761|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||.49
82407739|NCT02915835|164523762|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||.75
82407740|NCT02915835|164523763|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||.41
82407741|NCT02915835|164523764|SUPERIORITY|||||||0.31|||||||ANCOVA|||||||0.31
82407742|NCT02915835|164523765|SUPERIORITY|||||||0.84|||||||ANCOVA|||||||0.84
82407743|NCT02915835|164523766|SUPERIORITY|||||||0.11|||||||ANCOVA|||||||0.11
82407744|NCT02915835|164523767|SUPERIORITY|||||||0.66|||||||ANCOVA|||||||0.66
82407745|NCT02915835|164523768|SUPERIORITY|||||||0.27|||||||ANCOVA|||||||0.27
82407746|NCT02915835|164523769|SUPERIORITY|||||||0.54|||||||ANCOVA|||||||0.54
82407747|NCT02915835|164523770|SUPERIORITY|||||||0.9|||||||ANCOVA|||||||.90
82407748|NCT02915835|164523771|SUPERIORITY|||||||0.68|||||||ANCOVA|||||||.68
82407749|NCT02915835|164523772|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||.25
82407750|NCT02915835|164523773|SUPERIORITY|||||||0.95|||||||ANCOVA|||||||.95
82407751|NCT02915835|164523774|SUPERIORITY|||||||0.38|||||||ANCOVA|||||||0.38
82407752|NCT02915835|164523775|SUPERIORITY|||||||0.82|||||||ANCOVA|||||||.82
82407753|NCT02915835|164523776|SUPERIORITY|||||||0.47|||||||ANCOVA|||||||.47
82407754|NCT02915835|164523777|SUPERIORITY|||||||0.35|||||||ANCOVA|||||||0.35
82407755|NCT02915835|164523778|SUPERIORITY|||||||0.84|||||||ANCOVA|||||||0.84
82407756|NCT02915835|164523779|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
82407757|NCT02915835|164523781|SUPERIORITY|||||||0.34|||||||ANCOVA|||||||0.34
82407758|NCT02915835|164523782|SUPERIORITY|||||||0.36|||||||ANCOVA|||||||0.36
82407759|NCT02915835|164523783|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
82407760|NCT02915835|164523784|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
82407761|NCT02915835|164523785|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
82407762|NCT02915835|164523786|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||0.41
82407763|NCT02915835|164523787|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
82407764|NCT02915835|164523788|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
82407765|NCT02915835|164523789|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.75
82407766|NCT02915835|164523790|SUPERIORITY|||||||0.95|||||||ANCOVA|||||||0.95
82407767|NCT02915835|164523791|SUPERIORITY|||||||0.31|||||||ANCOVA|||||||0.31
82407768|NCT02915835|164523792|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
82407769|NCT02915835|164523793|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
82407770|NCT02915835|164523794|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82407771|NCT02915835|164523795|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82407772|NCT02915835|164523796|SUPERIORITY|||||||0.73|||||||ANCOVA|||||||0.73
82531631|NCT00672958|164760702|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74||||0.407|TWO_SIDED|95.0|-2.48|1.01||Pre-specified sequential statistical testing procedure indicates that when p-value for change from baseline in HAMD-24 at Week 6 \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-D24 as a covariate.||Change from Baseline in HAM-D24 total score at Week 6 was tested at significance level 0.05. To control for multiplicity, subsequent endpoints were to be tested in a sequential testing procedure at significance level 0.025; as soon as an endpoint in a sequence was non-significant at 0.025, the testing procedure was stopped for all subsequent endpoints in that sequence.||1.01|-2.48|0.407
82407773|NCT02915835|164523797|SUPERIORITY|||||||0.32|||||||ANCOVA|||||||0.32
82407774|NCT02915835|164523798|SUPERIORITY|||||||0.45|||||||ANCOVA|||||||0.45
82531632|NCT00672958|164760703|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.901|TWO_SIDED|95.0|-0.97|1.1|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Comparison of change from Baseline at Week 1.||1.10|-0.97|0.901
82407775|NCT02915835|164523799|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.58
82407776|NCT02915835|164523800|SUPERIORITY|||||||0.39|||||||ANCOVA|||||||0.39
82407777|NCT02915835|164523801|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
82407778|NCT00433836|164523819|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority delta of 3.5 mm Hg|Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-3.8|1.17|||ANOVA|||||1.17|-3.80|
82407779|NCT00323063|164523842|OTHER|||||||0.3|||||||Log Rank|||||||0.3
82407780|NCT04275336|164523845|OTHER||H value|1.344||||0.511|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.511
82407781|NCT04275336|164523846|OTHER||H value|5.272||||0.072|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.072
82407782|NCT04275336|164523847|OTHER||H value|0.198||||0.906|ONE_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.906
82407783|NCT04275336|164523848|OTHER||H value|6.679||||0.035|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.035
82407784|NCT04275336|164523849|OTHER||Mean Difference (Final Values)|0.17||||0.844|TWO_SIDED|95.0||||\<0.05|ANOVA|||||||0.844
82407785|NCT04275336|164523850|OTHER||H value|1.651||||0.438|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.438
82407786|NCT04275336|164523851|OTHER||H value|0.341||||0.843|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.843
82407787|NCT04275336|164523852|OTHER||Median Difference (Final Values)|1.642||||0.44|TWO_SIDED|95.0||||\<0.05|Kruskal-Wallis|||||||0.440
82407788|NCT04664205|164523856|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
82407789|NCT04664205|164523857|SUPERIORITY|||||||0.069|||||||ANCOVA|||||||0.069
82407790|NCT04664205|164523858|SUPERIORITY|||||||0.478|||||||ANOVA|||||||0.478
82407791|NCT01578772|164523873|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|||<|0.05|TWO_SIDED|95.0|-0.1|0.1|||Wilcoxon (Mann-Whitney)|Pairwise comparisons were performed using Wilcoxon signed rank test. All statistical tests are two-sided with nominal alpha level of 0.05.||||0.1|-0.1|<0.05
82407792|NCT01578772|164523874|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.7|||<|0.05|TWO_SIDED|95.0|-1.3|1.9|||Wilcoxon (Mann-Whitney)|Pairwise comparisons were performed using Wilcoxon signed rank test. All statistical tests are two-sided with nominal alpha level of 0.05.||||1.9|-1.3|<0.05
82407793|NCT02984982|164523887|SUPERIORITY||LS mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.36||0.2279|TWO_SIDED|95.0|-4.32|1.04||Threshold for significance at 0.05 level.|ANCOVA||Standard of Care vs Alirocumab|Analysis was performed using ANCOVA model which included fixed categorical effects of treatment arm and randomization strata, as well as the continuous fixed covariate of baseline normalized TAV.||1.04|-4.32|0.2279
82407794|NCT02848664|164523930|OTHER|Same DOSS score before and after device use for 3 months or improved DOSS score after device use for 3 months|||||<|0.025||||||p values adjusted for multiple comparisons (two outcome measures)|Wilcoxon (Mann-Whitney)|||Examined change in DOSS for each participant from before to after three months of device use. Examined numbers of participants who showed either worsening of DOSS, no improvement in DOSS or improvement of DOSS.||||<0.025
82407795|NCT02848664|164523931|EQUIVALENCE|Examination of whether the level of swallowing handicap is changed following device use|Mean Difference (Net)|22.571||||0.016|TWO_SIDED|95.0|6.003|39.14|||t-test, 2 sided|||||39.140|6.003|0.016
82407796|NCT02848664|164523932|EQUIVALENCE|whether the degree of laryngeal elevation relative to hyoid elevation became greater or less after device use for 3 months||||||0.046|||||||t-test, 2 sided|||||||0.046
82407797|NCT02848664|164523933|EQUIVALENCE|pairwise comparison within subject comparing baseline with 3 months post device use|Mean Difference (Final Values)|-52.78||||0.037|TWO_SIDED|95.0|-100.751|-4.809|||ANOVA|||||-4.809|-100.751|0.037
82407798|NCT00767572|164523943|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance threshold p\<0.05|t-test, 2 sided|||Null hypothesis: pre-post brachial artery diameter changes do not differ between placebo and atorvastatin||||>0.05
82407799|NCT02360488|164523944|NON_INFERIORITY|The trial aimed to establish comparable efficacy based upon a non-inferiority margin of 30% of the change in Fugl-Meyer score in the In-Clinic group. Under these assumptions at alpha=0.05 and assuming SD=3.8 points, 124 subjects would need to be enrolled to provide 85% power; this sample was pursued independent of subject dropouts.|Mean Difference (Net)|0.06||||0.96|TWO_SIDED|95.0|-2.14|2.26|||Regression, Linear|The model was adjusted for study site, age, time post-stroke, stroke subtype, and baseline Fugl-Meyer score.||||2.26|-2.14|.96
82446342|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||30.03|TWO_SIDED|95.0|0.89|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.89|30.03
82531633|NCT00672958|164760703|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26||||0.701|TWO_SIDED|95.0|-1.07|1.59|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 2||1.59|-1.07|0.701
82407800|NCT01687218|164523952|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.88|TWO_SIDED|95.0|0.73|1.44|||Generalized Estimating Equation (GEE)||It shows the rate ratio (RR) based on a GEE model comparing the Daily Rectal regimen with the Oral regimen and controlling for period in the model.|Since some participants have more than one safety event per period of treatment regimen, a Generalized Estimating Equation (GEE) model with a Poisson (log) link, exchangeable correlation structure, and robust standard errors were used.||1.44|0.73|0.88
82407801|NCT01687218|164523952|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.43|TWO_SIDED|95.0|0.64|1.21|||Generalized Estimating Equation (GEE)||It shows the rate ratio (RR) based on a GEE model comparing the RAI Rectal regimen with the Oral regimen and controlling for period in the model.|Since some participants have more than one safety event per period of treatment regimen, a Generalized Estimating Equation (GEE) model with a Poisson (log) link, exchangeable correlation structure, and robust standard errors were used.||1.21|0.64|0.43
82407802|NCT01687218|164523953|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.15|0.5|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.50|0.15|<0.0001
82407803|NCT01687218|164523953|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.37||||0.002|TWO_SIDED|95.0|0.2|0.7|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.70|0.20|0.002
82407804|NCT01687218|164523954|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.56||||0.08|TWO_SIDED|95.0|0.29|1.08|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.08|0.29|0.08
82407805|NCT01687218|164523954|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.46|TWO_SIDED|95.0|0.37|1.56|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.56|0.37|0.46
82407806|NCT01687218|164523955|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.38||||0.0004|TWO_SIDED|95.0|0.22|0.65|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||0.65|0.22|0.0004
82407807|NCT01687218|164523955|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7||||0.23|TWO_SIDED|95.0|0.39|1.25|||Generalized Estimating Equation (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables were used to compare the three treatment regimens for the acceptability endpoints. The oral arm and period 1 were used as the reference group in each of the models.||1.25|0.39|0.23
82407808|NCT01687218|164523956|OTHER||Slope|-1.41|||<|0.001|TWO_SIDED|95.0|-1.53|-1.3|||Mixed Models Analysis||This comparison is between the daily rectal and oral (reference) groups for tenofovir levels in blood plasma, log10 ng/mL.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-1.30|-1.53|<0.001
82531634|NCT00672958|164760703|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.68||||0.356|TWO_SIDED|95.0|-2.11|0.76|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 3||0.76|-2.11|0.356
82531635|NCT00672958|164760703|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33||||0.67|TWO_SIDED|95.0|-1.85|1.19|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 4||1.19|-1.85|0.670
82531636|NCT00672958|164760703|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.87||||0.304|TWO_SIDED|95.0|-2.52|0.79|||ANCOVA|ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.||Change from Baseline at Week 5||0.79|-2.52|0.304
82531637|NCT00579982|164760717|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Paired t-test|t-test, 2 sided|||||||<0.001
82531638|NCT03192215|164760733|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.64|1.55|||Log Rank|||||1.55|0.64|0.99
82531639|NCT03192215|164760734|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.72|TWO_SIDED|95.0|0.59|1.44|||Log Rank|||||1.44|0.59|0.72
82531640|NCT03192215|164760735|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.67|TWO_SIDED|95.0|0.76|1.52|||Log Rank|||||1.52|0.76|0.67
82531641|NCT03192215|164760736|SUPERIORITY||Difference of annual rate.|-0.011||||0.02|TWO_SIDED|95.0|-0.018|-0.003|||Exact Binomial Test|||||-0.003|-0.018|.02
82531642|NCT03192215|164760737|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.98|TWO_SIDED|95.0|0.29|3.52|||Log Rank|||||3.52|0.29|0.98
82376168|NCT03743415|164458431|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.96||0.47|TWO_SIDED|95.0|-1.2|2.58||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.58|-1.20|.47
82376169|NCT03743415|164458432|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|-1.41|STANDARD_ERROR_OF_MEAN|1.94||0.45|TWO_SIDED|95.0|-5.22|2.39||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||2.39|-5.22|.45
82376170|NCT03743415|164458432|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.97||0.82|TWO_SIDED|95.0|-3.59|4.12||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.12|-3.59|.82
82376171|NCT03743415|164458432|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 13 in linear mixed effects model.|Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|1.88||0.77|TWO_SIDED|95.0|-3.13|4.23||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||4.23|-3.13|.77
82376172|NCT03743415|164458432|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at week 17 in linear mixed effects model.|Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|1.87||0.86|TWO_SIDED|95.0|-3.98|3.34||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome was adjusted for in the model.|Mean of SMSH minus SMSH+TIPC.|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Sample size was determined by the power calculation for the primary outcome.||3.34|-3.98|.86
82376173|NCT00094861|164458437|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.8553||||0.355||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade ≥ 2 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.3550
82376174|NCT00094861|164458438|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.9936||||0.3189||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.3189
82376175|NCT00094861|164458439|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.437||||0.5086||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade 5 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.5086
82531643|NCT03192215|164760738|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.35|TWO_SIDED|95.0|0.63|3.75|||Log Rank|||||3.75|0.63|0.35
82531644|NCT04844918|164760762|SUPERIORITY||LS Mean Difference|-16.1|||<|0.001|TWO_SIDED|95.0|-18.7|-13.5|||Mixed Models Analysis|||||-13.5|-18.7|<0.001
82531645|NCT04844918|164760762|SUPERIORITY||LS Mean Difference|-21.1|||<|0.001|TWO_SIDED|95.0|-23.6|-18.5|||Mixed Models Analysis|||||-18.5|-23.6|<0.001
82531646|NCT04844918|164760763|SUPERIORITY||Odds Ratio (OR)|119.65|||<|0.001|TWO_SIDED|95.0|29.06|492.67|||Mixed Models Analysis|||||492.67|29.06|<0.001
82531647|NCT04844918|164760763|SUPERIORITY||Odds Ratio (OR)|153.57|||<|0.001|TWO_SIDED|95.0|36.03|654.53|||Mixed Models Analysis|||||654.53|36.03|<0.001
82531648|NCT04844918|164760764|SUPERIORITY||Odds Ratio (OR)|24.26|||<|0.001|TWO_SIDED|95.0|8.62|68.28|||Regression, Logistic|||||68.28|8.62|<0.001
82531649|NCT04844918|164760764|SUPERIORITY||Odds Ratio (OR)|38.27|||<|0.001|TWO_SIDED|95.0|13.21|110.89|||Regression, Logistic|||||110.89|13.21|<0.001
82531650|NCT04844918|164760765|SUPERIORITY||LS Mean Difference|-15.0|||<|0.001|TWO_SIDED|95.0|-18.91|-11.09|||Mixed Models Analysis|||||-11.09|-18.91|<0.001
82531651|NCT04844918|164760765|SUPERIORITY||LS Mean Difference|-12.8|||<|0.001|TWO_SIDED|95.0|-16.56|-9.05|||Mixed Models Analysis|||||-9.05|-16.56|<0.001
82531652|NCT04844918|164760766|SUPERIORITY||LS Mean Difference|-55.76|||<|0.001|TWO_SIDED|95.0|-69.74|-41.77|||Mixed Models Analysis|||||-41.77|-69.74|<0.001
82531653|NCT04844918|164760766|SUPERIORITY||LS Mean Difference|-64.82|||<|0.001|TWO_SIDED|95.0|-78.2|-51.43|||Mixed Models Analysis|||||-51.43|-78.20|<0.001
82531654|NCT04844918|164760767|SUPERIORITY||LS Mean Difference|-40.7|||<|0.001|TWO_SIDED|95.0|-50.0|-29.7|||Mixed Models Analysis|||||-29.7|-50.0|<0.001
82531655|NCT04844918|164760767|SUPERIORITY||LS Mean Difference|-44.5|||<|0.001|TWO_SIDED|95.0|-52.7|-34.9|||Mixed Models Analysis|||||-34.9|-52.7|<0.001
82531656|NCT04844918|164760768|SUPERIORITY||LS Mean Difference|-44.4|||<|0.001|TWO_SIDED|95.0|-53.0|-35.7|||ANCOVA|||||-35.7|-53.0|<0.001
82531657|NCT04844918|164760768|SUPERIORITY||LS Mean Difference|-50.4|||<|0.001|TWO_SIDED|95.0|-58.8|-41.9|||ANCOVA|||||-41.9|-58.8|<0.001
82531658|NCT04844918|164760769|SUPERIORITY||Odds Ratio (OR)|25.42|||<|0.001|TWO_SIDED|95.0|7.25|89.14|||Regression, Logistic|||||89.14|7.25|<0.001
82376176|NCT00094861|164458440|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.46||||0.4976||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants with no assessments were assumed as having grade ≥ 3 dysphagia in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.4976
82376177|NCT00094861|164458441|SUPERIORITY_OR_OTHER||Chi-Square Statistic|-2.5325||||0.1115||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants who never received radiotherapy were assumed to have unplanned breaks.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.1115
82376178|NCT00094861|164458442|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.4812||||0.0621|TWO_SIDED|||||Generalized Cochran-Mantel-Haenszel (CMH) test for mean score difference using modified ridit score. Participants without any ECOG assessment post baseline were assumed to have ECOG status of 5 in the CMH test.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.0621
82376179|NCT00094861|164458443|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.0294||||0.8639||95.0||||Generalized Cochran-Mantel-Haenszel test for general association.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.8639
82376180|NCT00094861|164458444|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.1414||||0.1996||||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage, ECOG performance status, and estimated weight loss in the 3 months before study randomization.||||||0.1996
82376181|NCT01191944|164458463|NON_INFERIORITY_OR_EQUIVALENCE|pre-specified non-inferiority (NI) margin of -4 points|Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.9192|<|0.0001||95.0|-1.047|2.566||one-sided test relative to NI margin of -4|ANCOVA|adjusted for treatment, centre and baseline|Pramipexole IR minus Pramipexole ER, Pramipexole ER non inferior to Pramipexole IR if lower limit of confidence interval (CI) for the mean difference is higher than NI margin.|The null hypothesis (H0) states that the mean change from baseline to Week 18 (or last observation carried forward \[LOCF\]) in the UPDRS II+III score for the treatment group pramipexole ER is inferior to the mean change for the treatment group pramipexole IR.||2.566|-1.047|<0.0001
82376182|NCT01191944|164458464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|2.1836||0.8261|TWO_SIDED|95.0|-4.787|3.826|||ANCOVA|||||3.826|-4.787|0.8261
82376183|NCT01191944|164458465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.3274||0.8698|TWO_SIDED|95.0|-0.699|0.592|||ANCOVA|||||0.592|-0.699|0.8698
82376184|NCT01191944|164458466|SUPERIORITY_OR_OTHER|||||||0.7902||95.0|||||Cochran-Mantel-Haenszel|||||||0.7902
82376185|NCT01191944|164458467|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.763|STANDARD_ERROR_OF_MEAN|2.7845||0.3223|TWO_SIDED|95.0|-8.255|2.729|||ANCOVA|||||2.729|-8.255|0.3223
82376186|NCT01191944|164458468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|STANDARD_ERROR_OF_MEAN|1.5581||0.0254|TWO_SIDED|95.0|0.437|6.583|||ANCOVA|||||6.583|0.437|0.0254
82376187|NCT01191944|164458469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.621|STANDARD_ERROR_OF_MEAN|2.2658||0.7843|TWO_SIDED|95.0|-3.848|5.09|||ANCOVA|||||5.090|-3.848|0.7843
82376188|NCT01191944|164458470|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|0.4901||0.4529|TWO_SIDED|95.0|-0.598|1.335|||ANCOVA|||||1.335|-0.598|0.4529
82376189|NCT01191944|164458471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.4437||0.2338|TWO_SIDED|95.0|-1.405|0.345|||ANCOVA|||||0.345|-1.405|0.2338
82376190|NCT01191944|164458472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.562|STANDARD_ERROR_OF_MEAN|0.2509||0.0263|TWO_SIDED|95.0|0.067|1.057|||ANCOVA|||||1.057|0.067|0.0263
82376191|NCT01191944|164458473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.3727||0.9337|TWO_SIDED|95.0|-0.704|0.766|||ANCOVA|||||0.766|-0.704|0.9337
82376192|NCT01191944|164458474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.0798||0.6995|TWO_SIDED|95.0|-0.127|0.188|||ANCOVA|||||0.188|-0.127|0.6995
82376193|NCT01191944|164458475|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||Cochran-Mantel-Haenszel|||||||0.3170
82376194|NCT01191944|164458476|SUPERIORITY_OR_OTHER|||||||0.4756||95.0|||||Cochran-Mantel-Haenszel|||||||0.4756
82376195|NCT01191944|164458477|SUPERIORITY_OR_OTHER|||||||0.1051||95.0|||||Cochran-Mantel-Haenszel|||||||0.1051
82376196|NCT01191944|164458478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.3138||0.6237|TWO_SIDED|95.0|-0.463|0.771|||ANCOVA|||||0.771|-0.463|0.6237
82376197|NCT01191944|164458480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.628|STANDARD_ERROR_OF_MEAN|0.7088||0.376|TWO_SIDED|95.0|-0.765|2.021|||ANCOVA|||||2.021|-0.765|0.3760
82376198|NCT02052011|164458489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|||||TWO_SIDED|95.0|-0.08|0.62||||||||0.62|-0.08|
82376199|NCT00000620|164458490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.12|TWO_SIDED|95.0|0.81|1.03||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|||Adjustment performed for the following pre-specified factors: sub-trial assignment (Blood Pressure Trial or Lipid Trial), assignment to intensive BP group in BP Trial, assignment to fenofibrate group in Lipid Trial, the seven clinical center networks, and presence of clinical cardiovascular disease at baseline.||1.03|0.81|0.12
82531659|NCT04844918|164760769|SUPERIORITY||Odds Ratio (OR)|70.66|||<|0.001|TWO_SIDED|95.0|12.73|392.24|||Regression, Logistic|||||392.24|12.73|<0.001
82531660|NCT04844918|164760770|SUPERIORITY||Odds Ratio (OR)|9.29|||<|0.001|TWO_SIDED|95.0|2.86|30.2|||Regression, Logistic|||||30.20|2.86|<0.001
82531661|NCT04844918|164760770|SUPERIORITY||Odds Ratio (OR)|15.67|||<|0.001|TWO_SIDED|95.0|4.78|51.37|||Regression, Logistic|||||51.37|4.78|<0.001
82531662|NCT04844918|164760771|SUPERIORITY||Odds Ratio (OR)|27.5|||<|0.001|TWO_SIDED|95.0|9.35|80.88|||Regression, Logistic|||||80.88|9.35|<0.001
82531663|NCT04844918|164760771|SUPERIORITY||Odds Ratio (OR)|40.01|||<|0.001|TWO_SIDED|95.0|13.27|120.57|||Regression, Logistic|||||120.57|13.27|<0.001
82531664|NCT04844918|164760772|SUPERIORITY||Odds Ratio (OR)|185.92|||<|0.001|TWO_SIDED|95.0|46.39|745.16|||Regression, Logistic|||||745.16|46.39|<0.001
82407809|NCT01687218|164523956|OTHER||Slope|-1.82|||<|0.001|TWO_SIDED|95.0|-1.95|-1.7|||Mixed Models Analysis||This comparison is between the RAI rectal and oral (reference) groups for tenofovir levels in blood plasma, log10 ng/mL.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-1.70|-1.95|<0.001
82407810|NCT01687218|164523957|SUPERIORITY||Slope|0.66|||<|0.001|TWO_SIDED|95.0|0.49|0.83|||Mixed Models Analysis||Oral regimen is the reference group.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.83|0.49|<0.001
82407811|NCT01687218|164523957|SUPERIORITY||Slope|-0.16||||0.31|TWO_SIDED|95.0|-0.46|0.15|||Mixed Models Analysis||Oral regimen is the reference group.|Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.15|-0.46|0.31
82407812|NCT01687218|164523958|SUPERIORITY||Slope|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only were used in this analysis.||0.50|0.10|0.004
82407813|NCT01687218|164523958|SUPERIORITY||Slope|-0.7|||<|0.001|TWO_SIDED|95.0|-0.92|-0.47|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||-0.47|-0.92|<0.001
82407814|NCT01687218|164523959|SUPERIORITY||Slope|-2.66|||<|0.001|TWO_SIDED|95.0|-2.82|-2.5|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality for the following analysis.||-2.50|-2.82|<0.001
82407815|NCT01687218|164523959|SUPERIORITY||Slope|-2.65|||<|0.001|TWO_SIDED|95.0|-2.81|-2.49|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality for the following analysis.||-2.49|-2.81|<0.001
82407816|NCT01687218|164523960|SUPERIORITY||Slope|-0.91|||<|0.001|TWO_SIDED|95.0|-1.01|-0.8|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. End period visits only are used in this analysis.||-0.80|-1.01|<0.001
82407817|NCT01687218|164523960|SUPERIORITY||Slope|-0.91|||<|0.001|TWO_SIDED|95.0|-1.01|-0.8|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. End period visits only are used in this analysis.||-0.80|-1.01|<0.001
82407818|NCT01687218|164523961|SUPERIORITY||Slope|-2.0|||<|0.001|TWO_SIDED|95.0|-2.16|-1.84|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only are used in this analysis.||-1.84|-2.16|<0.001
82407819|NCT01687218|164523961|SUPERIORITY||Slope|-1.9|||<|0.001|TWO_SIDED|95.0|-2.07|-1.74|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality. Mid period and end period visits only are used in this analysis.||-1.74|-2.07|<0.001
82407820|NCT01687218|164523962|SUPERIORITY||Slope|0.54|||<|0.001|TWO_SIDED|95.0|0.35|0.72|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.72|0.35|<0.001
82531665|NCT04844918|164760772|SUPERIORITY||Odds Ratio (OR)|318.02|||<|0.001|TWO_SIDED|95.0|74.49|1357.79|||Regression, Logistic|||||1357.79|74.49|<0.001
82531666|NCT04844918|164760773|SUPERIORITY||Odds Ratio (OR)|100.21|||<|0.001|TWO_SIDED|95.0|18.64|538.74|||Regression, Logistic|||||538.74|18.64|<0.001
82531667|NCT04844918|164760773|SUPERIORITY||Odds Ratio (OR)|286.73|||<|0.001|TWO_SIDED|95.0|50.68|1622.06|||Regression, Logistic|||||1622.06|50.68|<0.001
82531668|NCT04844918|164760774|SUPERIORITY||LS Mean Difference|-14.5|||<|0.001|TWO_SIDED|95.0|-16.8|-12.2|||Mixed Models Analysis|||||-12.2|-16.8|<0.001
82531669|NCT04844918|164760774|SUPERIORITY||LS Mean Difference|-19.3|||<|0.001|TWO_SIDED|95.0|-21.6|-17.0|||Mixed Models Analysis|||||-17.0|-21.6|<0.001
82531670|NCT04844918|164760775|SUPERIORITY||LS Mean Difference|-5.2|||<|0.001|TWO_SIDED|95.0|-6.1|-4.4|||Mixed Models Analysis|||||-4.4|-6.1|<0.001
82376200|NCT00000620|164458491|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.02|TWO_SIDED|95.0|1.03|1.38||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|||Adjustment performed for the following pre-specified factors: sub-trial assignment (Blood Pressure Trial or Lipid Trial), assignment to intensive BP group in BP Trial, assignment to fenofibrate group in Lipid Trial, the seven clinical center networks, and presence of clinical cardiovascular disease at baseline.||1.38|1.03|0.02
82376201|NCT00000620|164458492|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.2|TWO_SIDED|95.0|0.73|1.06||P-value is adjusted for interim monitoring. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||Recruitment for the Blood PressureTrial was designed to enroll 4200 participant to have 94% power to detect a 20% reduction in the rate of MCE for patients in the intensive-therapy group as compared with the standard-therapy group, assuming a two-sided alpha level of 0.05, a primary-outcome rate of 4% per year in the standard-therapy group, and a planned average follow-up of approximately 5.6 years.||1.06|0.73|0.20
82376202|NCT00000620|164458493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.01|TWO_SIDED|95.0|0.39|0.89||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||||0.89|0.39|0.01
82376203|NCT00000620|164458494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.32|TWO_SIDED|95.0|0.79|1.08||P-value is adjusted for interim monitoring. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||Recruitment for the Glycemia Trial was designed to enroll 5800 participant to have 87% power to detect a 20% reduction in the rate of MCE for patients in the fenofibrate group as compared with the placebo group, assuming a two-sided alpha level of 0.05, a primary-outcome rate of 2.4% per year in the placebo group, and a planned average follow-up of approximately 5.6 years.||1.08|0.79|0.32
82376204|NCT00000620|164458495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.3|TWO_SIDED|95.0|0.85|1.05||P-value presented is not adjusted for multiple comparisons. A priori significance level was 0.05.|Regression, Cox|Adjustment for the seven clinical center networks and presence of clinical cardiovascular disease at baseline as pre-specified in the study protocol.||||1.05|0.85|0.30
82376205|NCT01851330|164458496|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 8 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82376206|NCT01851330|164458496|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 8 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82376207|NCT01851330|164458496|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82376208|NCT01851330|164458496|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the confidence interval (CI) for the difference between groups was greater than -12%.|Difference in proportions|-3.2|||||TWO_SIDED|97.5|-8.3|1.8|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||1.8|-8.3|
82376209|NCT01851330|164458496|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the CI for the difference between groups was greater than -12%.|Difference in proportions|-2.3|||||TWO_SIDED|97.5|-7.2|2.5|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||2.5|-7.2|
82376210|NCT01851330|164458496|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority would be demonstrated if the lower bound of the CI for the difference between groups was greater than -12%.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-3.9|5.7|||||Difference in proportions between treatment groups and associated confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||5.7|-3.9|
82376211|NCT05084924|164458531|SUPERIORITY|||||||0.049|||||||ANOVA|Main effect of stimulation: F(2,32) = 3.32||||||0.049
82376212|NCT05084924|164458532|SUPERIORITY|||||||0.004||||||Main effect of stimulation: F(2,32) = 6.67|ANOVA|||||||0.004
82376213|NCT00182325|164458533|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82531671|NCT04844918|164760775|SUPERIORITY||LS Mean Difference|-7.1|||<|0.001|TWO_SIDED|95.0|-8.0|-6.3|||Mixed Models Analysis|||||-6.3|-8.0|<0.001
82531672|NCT04844918|164760776|SUPERIORITY||LS Mean Difference|-36.1|||<|0.001|TWO_SIDED|95.0|-42.9|-29.3|||Mixed Models Analysis|||||-29.3|-42.9|<0.001
82531673|NCT04844918|164760776|SUPERIORITY||LS Mean Difference|-41.1|||<|0.001|TWO_SIDED|95.0|-47.8|-34.4|||Mixed Models Analysis|||||-34.4|-47.8|<0.001
82376214|NCT00182325|164458534|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82376215|NCT00182325|164458535|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
82376216|NCT00182325|164458536|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82531674|NCT04844918|164760777|SUPERIORITY||LS Mean Difference|-27.2|||<|0.001|TWO_SIDED|95.0|-32.6|-21.9|||Mixed Models Analysis|||||-21.9|-32.6|<0.001
82531675|NCT04844918|164760777|SUPERIORITY||LS Mean Difference|-31.5|||<|0.001|TWO_SIDED|95.0|-36.7|-26.2|||Mixed Models Analysis|||||-26.2|-36.7|<0.001
82531676|NCT04844918|164760778|SUPERIORITY||LS Mean Difference|-0.1||||0.004|TWO_SIDED|95.0|-0.16|-0.03|||Mixed Models Analysis|||||-0.03|-0.16|0.004
82531677|NCT04844918|164760778|SUPERIORITY||LS Mean Difference|-0.09||||0.006|TWO_SIDED|95.0|-0.15|-0.03|||Mixed Models Analysis|||||-0.03|-0.15|0.006
82531678|NCT04844918|164760779|SUPERIORITY||Odds Ratio (OR)|28.52|||<|0.001|TWO_SIDED|95.0|4.31|188.55|||Regression, Logistic|||||188.55|4.31|<0.001
82531679|NCT04844918|164760779|SUPERIORITY||Odds Ratio (OR)|57.73|||<|0.001|TWO_SIDED|95.0|8.68|383.88|||Regression, Logistic|||||383.88|8.68|<0.001
82531680|NCT04844918|164760780|SUPERIORITY||LS Mean Difference|-11.4|||<|0.001|TWO_SIDED|95.0|-13.8|-9.0|||Mixed Models Analysis|||||-9.0|-13.8|<0.001
82531681|NCT04844918|164760780|SUPERIORITY||LS Mean Difference|-15.3|||<|0.001|TWO_SIDED|95.0|-17.7|-13.0|||Mixed Models Analysis|||||-13.0|-17.7|<0.001
82531682|NCT04844918|164760781|SUPERIORITY||LS Mean Difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.77|-0.53|||Mixed Models Analysis|||||-0.53|-0.77|<0.001
82531683|NCT04844918|164760781|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.77|-0.55|||Mixed Models Analysis|||||-0.55|-0.77|<0.001
82646686|NCT00810615|165008148|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|A repeated measures model was designed so as to incorporate the adjust for the repeated (dependent) measures within individuals over time.||ANCOVA, baseline measurement was considered as a covariate and group (sham or 2.4 ATA), treatment (15 treatments, 30 treatments, and 6 weeks) as well as the interaction between group and treatment were considered as the independent variables.||||0.05
82407821|NCT01687218|164523962|SUPERIORITY||Slope|0.01||||0.92|TWO_SIDED|95.0|-0.28|0.31|||Mixed Models Analysis|||Mixed effects models were used to compare the three treatment regimens within participants over time using the oral regimen as the reference group. The models included fixed effects for treatment regimen and period and random effects for participant within sequence. The log 10 transformation was used in the mixed effects models for all PK results to achieve normality.||0.31|-0.28|0.92
82407822|NCT01687218|164523963|SUPERIORITY||Odds Ratio (OR)|0.35||||0.0005|TWO_SIDED|95.0|0.19|0.63|||Generalized Estimating Equations (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables was used to compare the three treatment regimens for the acceptability endpoints. Because the distribution of the adherence percentages were skewed, we did not use a linear mixed effects model as originally planned. Instead, we dichotomized the adherence percentage into\<80% adherence versus\>80% adherence.||0.63|0.19|0.0005
82407823|NCT01687218|164523963|SUPERIORITY||Odds Ratio (OR)|0.89||||0.74|TWO_SIDED|95.0|0.43|1.81|||Generalized Estimating Equations (GEE)||Oral regimen is the reference group.|Generalized Estimating Equation (GEE) models with a binomial (logit) link, an exchangeable correlation structure and robust errors and with treatment regimen and period as independent variables was used to compare the three treatment regimens for the acceptability endpoints. Because the distribution of the adherence percentages were skewed, we did not use a linear mixed effects model as originally planned. Instead, we dichotomized the adherence percentage into\<80% adherence versus\>80% adherence.||1.81|0.43|0.74
82407824|NCT03669588|164524041|SUPERIORITY||Odds Ratio (OR)|4.951|||<|0.0001|TWO_SIDED|95.0|2.213|11.528|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the AChR-Ab seropositive population, stratified by Japanese versus (vs) non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline MG-ADL total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||11.528|2.213|<0.0001
82407825|NCT03669588|164524042|SUPERIORITY||Odds Ratio (OR)|10.842|||<|0.0001|TWO_SIDED|95.0|4.179|31.2|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the AChR-Ab seropositive population, stratified by Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline QMG total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||31.200|4.179|<0.0001
82407826|NCT03669588|164524043|SUPERIORITY||Odds Ratio (OR)|3.699|||<|0.0001|TWO_SIDED|95.0|1.854|7.578|||Regression, Logistic|||"Analysis with a 2-sided exact test (using logistic regression) at the 2-sided 5% significance level in the overall population, stratified by AChR-Ab status (seropositive vs seronegative), Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment, with cycle baseline MG-ADL total score as covariate.~The treatment effect was presented as the odds ratio. An odds ratio of more than 1 represents a higher response rate for ARGX-113 compared to placebo."||7.578|1.854|<0.0001
82407827|NCT03669588|164524044|SUPERIORITY||Least square means difference|22.065|STANDARD_ERROR_OF_MEAN|5.616||0.0001|TWO_SIDED|95.0|10.949|33.181|||ANCOVA|||Analysis of covariance (ANCOVA) in the AChR-Ab seropositive population with treatment, baseline MG-ADL total score, Japanese vs non-Japanese, and NSID vs no NSID as concomitant gMG treatment as the covariates.||33.181|10.949|0.0001
82407828|NCT03669588|164524045|SUPERIORITY|||||||0.2604|||||||Log Rank|||Analysis was performed in the AChR-Ab seropositive population and the p-value was calculated using the log-rank test, stratified by Japanese vs non-Japanese and NSID vs no NSID as concomitant gMG treatment.||||0.2604
82407829|NCT02008526|164524047|SUPERIORITY||F|1.16||||0.3137|TWO_SIDED||||||ANOVA|2 Degrees of Freedom||||||0.3137
82407830|NCT02008526|164524048|SUPERIORITY||F|0.16||||0.8494|TWO_SIDED||||||ANOVA|2 Degrees of Freedom||||||0.8494
82531684|NCT04844918|164760782|SUPERIORITY||LS Mean Difference|-3.91|||||TWO_SIDED|95.0|-5.74|-2.08||||||||-2.08|-5.74|
82531685|NCT04844918|164760782|SUPERIORITY||LS Mean Difference|-4.55|||||TWO_SIDED|95.0|-6.29|-2.81||||||||-2.81|-6.29|
82531686|NCT04844918|164760783|SUPERIORITY||LS Mean Difference|-13.2|||<|0.001|TWO_SIDED|95.0|-17.0|-9.3|||Mixed Models Analysis|||||-9.3|-17.0|<0.001
82531687|NCT04844918|164760783|SUPERIORITY||LS Mean Difference|-13.9|||<|0.001|TWO_SIDED|95.0|-17.7|-10.1|||Mixed Models Analysis|||||-10.1|-17.7|<0.001
82531688|NCT04844918|164760784|SUPERIORITY||LS Mean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-9.3|-3.4|||Mixed Models Analysis|||||-3.4|-9.3|<0.001
82531689|NCT04844918|164760784|SUPERIORITY||LS Mean Difference|-6.8|||<|0.001|TWO_SIDED|95.0|-9.7|-3.9|||Mixed Models Analysis|||||-3.9|-9.7|<0.001
82531690|NCT04844918|164760785|SUPERIORITY||LS Mean Difference|1.3||||0.022|TWO_SIDED|95.0|0.2|2.3|||ANCOVA|||||2.3|0.2|0.022
82531691|NCT04844918|164760785|SUPERIORITY||LS Mean Difference|2.1|||<|0.001|TWO_SIDED|95.0|1.1|3.2|||ANCOVA|||||3.2|1.1|<0.001
82531692|NCT04844918|164760786|SUPERIORITY||LS Mean Difference|13.0|||<|0.001|TWO_SIDED|95.0|7.4|18.7|||ANCOVA|||||18.7|7.4|<0.001
82531693|NCT04844918|164760786|SUPERIORITY||LS Mean Difference|10.8|||<|0.001|TWO_SIDED|95.0|5.4|16.3|||ANCOVA|||||16.3|5.4|<0.001
82531694|NCT04844918|164760787|SUPERIORITY||LS Mean Difference|0.03||||0.099|TWO_SIDED|95.0|0.0|0.06|||ANCOVA|||||0.06|0.00|0.099
82531695|NCT04844918|164760787|SUPERIORITY||LS Mean Difference|0.02||||0.236|TWO_SIDED|95.0|-0.01|0.05|||ANCOVA|||||0.05|-0.01|0.236
82376217|NCT00182325|164458537|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
82376218|NCT00182325|164458538|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82376219|NCT00182325|164458539|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82376220|NCT00182325|164458540|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
82376221|NCT00182325|164458541|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.26
82376222|NCT00182325|164458542|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
82376223|NCT01120704|164458547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.906||||0.045|TWO_SIDED|95.0|0.822|0.998|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||.998|.822|.045
82376224|NCT01120704|164458547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.982||||0.705|TWO_SIDED|95.0|0.892|1.081|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.081|.892|.705
82376225|NCT01120704|164458547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.044||||0.382|TWO_SIDED|95.0|0.948|1.149|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.149|.948|.382
82376226|NCT01120704|164458547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.954||||0.339|TWO_SIDED|95.0|0.867|1.05|||Regression, Cox|||The Cox regression model effects consisted of five treatment effects, 10 two-way treatment interactions, 10 three-way treatment interactions, and two covariates : two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.050|.867|.339
82376227|NCT01120704|164458547|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.945||||0.248|TWO_SIDED|95.0|0.858|1.04|||Regression, Cox|||||1.040|.858|.248
82376228|NCT01120704|164458548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.402||||0.011|TWO_SIDED|95.0|1.08|1.821|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., 8 Weeks of Nicotine Patch and Nicotine Gum vs. 26 Weeks of Nicotine Patch and Nicotine Gum) would result in significantly higher abstinence at 52 weeks after target quit day.||1.821|1.080|.011
82376229|NCT01120704|164458548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.008||||0.956|TWO_SIDED|95.0|0.769|1.321|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Maintenance Counseling vs. Maintenance Counseling) would result in significantly higher abstinence at 52 weeks after target quit day.||1.321|.769|.956
82376230|NCT01120704|164458548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.018||||0.885|TWO_SIDED|95.0|0.797|1.301|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Cognitive Medication Adherence Counseling vs. Cognitive Medication Adherence Counseling) would result in significantly higher abstinence at 52 weeks after target quit day.||1.301|.797|.885
82376231|NCT01120704|164458548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.852||||0.205|TWO_SIDED|95.0|0.664|1.092|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Electronic Medication Monitoring Device Without Feedback vs. Electronic Medication Monitoring Device Plus Feedback) would result in significantly higher abstinence at 52 weeks after target quit day.||1.092|.664|.205
82376232|NCT01120704|164458548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.514|TWO_SIDED|95.0|0.842|1.411|||Regression, Logistic|||The logistic regression model effects consisted of five treatment main effects and all treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Automated Adherence Prompting Phone Calls vs. Automated Adherence Prompting Phone Calls) would result in significantly higher abstinence at 52 weeks after target quit day.||1.411|.842|.514
82376233|NCT01890434|164458553|SUPERIORITY||Sensitivity Difference|16.7||||9e-05|ONE_SIDED|95.0|9.3||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||9.3|0.00009
82376234|NCT01890434|164458553|SUPERIORITY||Sensitivity Difference|26.0|||<|0.0001|ONE_SIDED|95.0|18.2||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||18.2|<0.0001
82376235|NCT01890434|164458553|SUPERIORITY||Sensitivity Difference|32.0|||<|0.0001|ONE_SIDED|95.0|24.5||||McNemar|McNemar one-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||24.5|<0.0001
82376236|NCT01890434|164458554|SUPERIORITY||Sensitivity Difference|21.0||||5e-05|ONE_SIDED|95.0|12.1||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||12.1|0.00005
82376237|NCT01890434|164458554|SUPERIORITY||Sensitivity Difference|36.2|||<|0.0001|ONE_SIDED|95.0|26.3||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||26.3|<0.0001
82376238|NCT01890434|164458554|SUPERIORITY||Sensitivity Difference|41.0|||<|0.0001|ONE_SIDED|95.0|31.8||||McNemar|McNemar one-sided test at alpha level of 2.5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||31.8|<0.0001
82376239|NCT01890434|164458559|SUPERIORITY||Sensitivity Difference|21.3|||<|0.0001|TWO_SIDED|95.0|12.9|28.4|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI.||28.4|12.9|<0.0001
82407831|NCT00492726|164524051|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set to 10% in the protocol, in agreement with FDA recommendations. Sample size was estimated using the method as described in Farrington-Manning. Estimation was performed to achieve 85% power, based on the equivalence delta of 10%, and a clinical success rate of 80% in the per protocol population.|Difference of cure rates (in percent)|-3.8||||||95.0|-7.9|0.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||0.4|-7.9|
82407832|NCT00492726|164524052|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in improvement rates (in %)|1.1||||||95.0|-0.4|2.7|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||2.7|-0.4|
82407833|NCT00492726|164524053|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.9||||||95.0|-8.8|1.0|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without superinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.0|-8.8|
82407834|NCT00492726|164524054|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|-1.5||||||95.0|-5.0|1.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.9|-5.0|
82407835|NCT00492726|164524055|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.9||||||95.0|-8.8|1.0|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without superinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.0|-8.8|
82407836|NCT00492726|164524056|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference in bact. success rates (in %)|-3.8||||||95.0|-9.0|1.5|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group. Presumed eradications and eradications without super- or reinfection were considered bacteriological successes.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.5|-9.0|
82407837|NCT00492726|164524057|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|-2.9||||||95.0|-7.6|1.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator).||1.9|-7.6|
82376240|NCT01890434|164458559|SUPERIORITY||Sensitivity Difference|21.3|||<|0.0001|TWO_SIDED|90.0|14.2|27.2|||McNemar|McNemar 2-sided test at alpha level of 10%||||27.2|14.2|<0.0001
82407838|NCT01100502|164524065|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.001|TWO_SIDED|95.0|0.4|0.81|||Log Rank|||||0.81|0.40|0.001
82407839|NCT00721799|164524069|OTHER||Hazard Ratio (HR)|0.47||||0.08|TWO_SIDED||||||Regression, Cox|||||||0.08
82407840|NCT00721799|164524069|OTHER||C-statistic|0.73||||0.04|TWO_SIDED||||||Regression, Cox|||||||0.04
82407841|NCT00721799|164524070|OTHER||Hazard Ratio (HR)|0.42||||0.05|TWO_SIDED||||||Regression, Cox|||||||0.05
82407842|NCT00721799|164524070|OTHER||C-statistic|0.75||||0.02|TWO_SIDED||||||Regression, Cox|||||||0.02
82407843|NCT00721799|164524071|OTHER||Hazard Ratio (HR)|2.44|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
82407844|NCT00721799|164524071|OTHER||C-statistic|0.74||||0.02|TWO_SIDED||||||Regression, Cox|||||||0.02
82407845|NCT00721799|164524072|OTHER||Hazard Ratio (HR)|1.12||||0.73|TWO_SIDED||||||Regression, Cox|||||||0.73
82376241|NCT01890434|164458561|NON_INFERIORITY|A non-inferiority margin was set as 15%|Sensitivity Difference|5.7||||0.2733|TWO_SIDED|95.0|-5.4|14.9|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of GSPECT evaluated by majority BR.||14.9|-5.4|0.2733
82407846|NCT00721799|164524072|OTHER||C-statistic|0.52||||0.88|TWO_SIDED||||||Regression, Cox|||||||0.88
82407847|NCT00721799|164524073|OTHER||Hazard Ratio (HR)|1.11||||0.78|TWO_SIDED||||||Regression, Cox|||||||0.78
82407848|NCT00721799|164524073|OTHER||C-statistic|0.45||||0.66|TWO_SIDED||||||Regression, Cox|||||||0.66
82407849|NCT00721799|164524074|OTHER||Hazard Ratio (HR)|2.25||||0.01|TWO_SIDED||||||Regression, Cox|||||||0.01
82407850|NCT00721799|164524074|OTHER||C-statistic|0.7||||0.05|TWO_SIDED||||||Regression, Cox|||||||0.05
82407851|NCT00721799|164524075|OTHER||Hazard Ratio (HR)|0.83||||0.63|TWO_SIDED||||||Regression, Cox|||||||0.63
82407852|NCT00721799|164524075|OTHER||C-statistic|0.58||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
82407853|NCT00721799|164524076|OTHER||Hazard Ratio (HR)|0.81||||0.58|TWO_SIDED||||||Regression, Cox|||||||0.58
82407854|NCT00721799|164524076|OTHER||C-statistic|0.6||||0.36|TWO_SIDED||||||Regression, Cox|||||||0.36
82407855|NCT00721799|164524077|OTHER||Hazard Ratio (HR)|0.94||||0.89|TWO_SIDED||||||Regression, Cox|||||||0.89
82407856|NCT00721799|164524077|OTHER||C-statistic|0.59||||0.42|TWO_SIDED||||||Regression, Cox|||||||0.42
82407857|NCT00721799|164524078|OTHER||Hazard Ratio (HR)|1.29||||0.43|TWO_SIDED||||||Regression, Cox|||||||0.43
82407858|NCT00721799|164524078|OTHER||C-statistic|0.47||||0.8|TWO_SIDED||||||Regression, Cox|||||||0.80
82376242|NCT01890434|164458561|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Sensitivity Difference|0.0||||1|TWO_SIDED|95.0|-8.6|7.2|||McNemar|McNemar 2-sided test at alpha level of 5%||Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of GSPECT evaluated by investigator.||7.2|-8.6|1.0000
82376243|NCT01890434|164458563|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Specificity Difference|11.1||||0.001|TWO_SIDED|95.0|4.1|17.0|||McNemar|McNemar 2-sided test at alpha level of 5%||Specificity of gadobutrol-enhanced CMRI was compared with specificity of GSPECT by majority BR.||17.0|4.1|0.0010
82376244|NCT01890434|164458563|NON_INFERIORITY|A non-inferiority margin was set as 15%.|Specificity Difference|7.8||||0.0094|TWO_SIDED|95.0|1.6|13.2|||McNemar|McNemar 2-sided test at alpha level of 5%||Specificity of gadobutrol-enhanced CMRI was compared with specificity of GSPECT by investigator.||13.2|1.6|0.0094
82376245|NCT00345943|164458596|OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.03|TWO_SIDED||||||Mixed Models Analysis|Growth curve models with between-within degrees of freedom and a random effect for the intercept and fixed effects for predictors.|BN versus HC group effect|Growth curve models examined the following: group (BN versus HC) differences in cortical thickness (CT) at baseline; group differences in the rate of change in CT over time; and the persistence of group differences in CT over time.||||.03
82376246|NCT00345943|164458596|OTHER||Slope|0.053|STANDARD_ERROR_OF_MEAN|0.047|<|0.05|TWO_SIDED|95.0|-0.04|0.15|||Mixed Models Analysis|Growth curve models with between-within degrees of freedom and a random effect for the intercept and fixed effects for predictors.||Growth curve models examined the following: group (BN versus HC) differences in conflict-related BOLD signal at baseline; group differences in the rate of change in conflict-related BOLD signal over time; and the persistence of group differences in conflict-related BOLD signal over time.||0.15|-0.04|<.05
82376247|NCT05199090|164458615|OTHER||adjusted means|-1.9||||0.0182|TWO_SIDED|80.0|-2.9|-0.9|||MMRM analysis|||Comparison of adjusted means||-0.9|-2.9|0.0182
82376248|NCT05199090|164458615|OTHER||adjusted means|-1.3||||0.1205|TWO_SIDED|80.0|-2.4|-0.2|||MMRM analysis|||||-0.2|-2.4|0.1205
82376249|NCT05199090|164458615|OTHER||adjusted means|-1.3||||0.0931|TWO_SIDED|80.0|-2.2|-0.3|||MMRM analysis|||||-0.3|-2.2|0.0931
82376250|NCT05199090|164458615|OTHER||adjusted means|0.6||||0.4994|TWO_SIDED|80.0|-0.5|1.7|||MMRM analysis|||||1.7|-0.5|0.4994
82376251|NCT05199090|164458615|OTHER||adjusted means|1.0||||0.2295|TWO_SIDED|80.0|-0.1|2.1|||MMRM analysis|||||2.1|-0.1|0.2295
82376252|NCT05199090|164458615|OTHER||adjusted means|-0.7||||0.2114|TWO_SIDED|80.0|-1.3|0.0|||MMRM analysis|||||0.0|-1.3|0.2114
82376253|NCT03332979|164458674|OTHER|Multivariable regression analysis will be used to enable us to explore the impact of modifiable factors reflecting preparation for end of life on the MMCGI-SF.|||||<|0.05|||||||Regression, Linear||||Multivariable regression will be used to explore preparation for end of life on the MMCGI-SF. The analyses will use the MMCGI-SF as the dependent variable with five predictor variables (dementia knowledge \[DKAS\], Social support \[HLQ1\], Communication with healthcare professionals \[HLW4\], advance decisions and knowledge of end of life wishes of person with dementia. There will also be 10 confounders included in the model (gender of caregiver, living arrangement of person with dementia \[at home of a care home\], aged of person with dementia, dementia severity \[CDR\], change in closeness, religiosity \[DURAL\], deprivation and relationship of the carer to the person with dementia).|||<0.05
82376254|NCT03968978|164458713|OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.67|99.5|||Score CI|CI at Week 0 (in clinic)||||99.5|93.67|
82376255|NCT03968978|164458713|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.65|100.0|||Score CI|CI at Week 4 (in clinic)||||100|96.65|
82376256|NCT03968978|164458713|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 8 (in clinic)||||100.00|96.63|
82376257|NCT03968978|164458713|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 12 (at home)||||100.00|96.63|
82376258|NCT03968978|164458713|OTHER||Proportion|95.4|||||TWO_SIDED|95.0|89.71|98.02|||Score CI|CI for Week 16 (at home)||||98.02|89.71|
82407859|NCT00721799|164524079|OTHER||Hazard Ratio (HR)|2.01||||0.01|TWO_SIDED||||||Regression, Cox|||||||0.01
82376259|NCT03968978|164458713|OTHER||Proportion|96.3|||||TWO_SIDED|95.0|90.94|98.56|||Score CI|CI for Week 20 (in clinic)||||98.56|90.94|
82376260|NCT03968978|164458713|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.47|100.0|||Score CI|CI for Week 0 (in clinic)||||100.00|96.47|
82376261|NCT03968978|164458713|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 4 (in clinic)||||99.02|91.93|
82376262|NCT03968978|164458713|OTHER||Proportion|98.1|||||TWO_SIDED|95.0|93.32|99.48|||Score CI|CI for Week 8 (in clinic)||||99.48|93.32|
82376263|NCT03968978|164458713|OTHER||Proportion|99.0|||||TWO_SIDED|95.0|94.8|99.83|||Score CI|CI for week 12 (at home)||||99.83|94.80|
82376264|NCT03968978|164458713|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 16 (at home)||||99.02|91.93|
82376265|NCT03968978|164458713|OTHER||Proportion|97.1|||||TWO_SIDED|95.0|91.93|99.02|||Score CI|CI for Week 20 (in clinic)||||99.02|91.93|
82376266|NCT03968978|164458714|OTHER||Proportion|98.2|||||TWO_SIDED|95.0|93.67|99.5|||Score CI|CI at Week 0 (in clinic)||||99.50|93.67|
82376267|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.65|100.0|||Score CI|CI at Week 4 (in clinic)||||100.00|96.65|
82376268|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 8 (in clinic)||||100.00|96.63|
82376269|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.63|100.0|||Score CI|CI for Week 12 (at home)||||100.00|96.63|
82376270|NCT03968978|164458714|OTHER||Proportion|97.2|||||TWO_SIDED|95.0|92.8|99.04|||Score CI|CI for Week 16 (at home)||||99.04|92.80|
82376271|NCT03968978|164458714|OTHER||Proportion|99.1|||||TWO_SIDED|95.0|94.85|99.83|||Score CI|CI for Week 20 (in clinic)||||99.83|94.85|
82376272|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.46|100.0|||Score CI|CI for Week 0 (in clinic)||||100.00|96.46|
82376273|NCT03968978|164458714|OTHER||Proportion|97.2|||||TWO_SIDED|95.0|93.38|99.48|||Score CI|CI for Week 4 (in clinic)||||99.48|93.38|
82376274|NCT03968978|164458714|OTHER||Proportion|98.1|||||TWO_SIDED|95.0|93.32|99.48|||Other CI|CI for Week 8 (in clinic)||||99.48|93.32|
82376275|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.44|100.0|||Score CI|CI for week 12 (at home)||||100.00|96.44|
82376276|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.37|100.0|||Score CI|CI for Week 16 (at home)||||100.00|96.37|
82376277|NCT03968978|164458714|OTHER||Proportion|100.0|||||TWO_SIDED|95.0|96.37|100.0|||Score CI|CI for Week 20 (in clinic)||||100.00|96.37|
82407860|NCT00721799|164524079|OTHER||C-statistic|0.69||||0.07|TWO_SIDED||||||Regression, Cox|||||||0.07
82407861|NCT00721799|164524080|OTHER||Hazard Ratio (HR)|1.58||||0.18|TWO_SIDED||||||Regression, Cox|||||||0.18
82407862|NCT00721799|164524080|OTHER||C-statistic|0.63||||0.25|TWO_SIDED||||||Regression, Cox|||||||0.25
82407863|NCT00721799|164524081|OTHER||Hazard Ratio (HR)|1.49||||0.24|TWO_SIDED||||||Regression, Cox|||||||0.24
82407864|NCT00721799|164524081|OTHER||C-statistic|0.62||||0.27|TWO_SIDED||||||Regression, Cox|||||||0.27
82407865|NCT00721799|164524082|OTHER||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED||||||Regression, Cox|||||||0.99
82407866|NCT00721799|164524082|OTHER||C-statistic|0.48||||0.84|TWO_SIDED||||||Regression, Cox|||||||0.84
82407867|NCT00721799|164524083|OTHER||Hazard Ratio (HR)|1.3||||0.41|TWO_SIDED||||||Regression, Cox|||||||0.41
82407868|NCT00721799|164524083|OTHER||C-statistic|0.54||||0.69|TWO_SIDED||||||Regression, Cox|||||||0.69
82407869|NCT00721799|164524084|OTHER||Hazard Ratio (HR)|1.56||||0.17|TWO_SIDED||||||Regression, Cox|||||||0.17
82407870|NCT00721799|164524084|OTHER||C-statistic|0.64||||0.18|TWO_SIDED||||||Regression, Cox|||||||0.18
82407871|NCT00721799|164524085|OTHER||Hazard Ratio (HR)|0.42||||0.09|TWO_SIDED||||||Regression, Cox|||||||0.09
82407872|NCT00721799|164524085|OTHER||Hazard Ratio (HR)|0.72||||0.06|TWO_SIDED||||||Regression, Cox|||||||0.06
82407873|NCT00721799|164524086|OTHER||Hazard Ratio (HR)|0.36||||0.06|TWO_SIDED||||||Regression, Cox|||||||0.06
82446343|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||73.03|TWO_SIDED|95.0|0.95|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.95|73.03
82531696|NCT02731313|164760788|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis (H0): kappa coefficient = 0.90||||||0.7436|||||||Kappa-test p-value, 2 sided|||Rationale for the determination of the number of samples:The following hypotheses were considered: two-sided risk alpha = 5%, power (1 - beta) = 90%, a success rate (rate of positive HER-2 status) = 17%, null hypothesis (H0): kappa coefficient = 0.90. 359 samples would allow determining a first estimate of the 0.90 coefficient of correlation kappa. The total number of samples, which had to be included in this study was 395, considering a 10% rate of non-evaluable samples.||||0.7436
82531697|NCT01558674|164760820|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-98.5|||||TWO_SIDED|95.0|-138.0|-59.1|||Linear mixed effect model||8-mg MK-7145 LS Mean minus Furosemide LS Mean|||-59.1|-138.0|
82407874|NCT00721799|164524086|OTHER||C-statistic|0.74||||0.04|TWO_SIDED||||||Regression, Cox|||||||0.04
82407875|NCT00721799|164524087|OTHER||Hazard Ratio (HR)|3.01|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
82407876|NCT00721799|164524087|OTHER||C-statistic|0.82|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
82407877|NCT00721799|164524088|OTHER||Hazard Ratio (HR)|1.03||||0.92|TWO_SIDED||||||Regression, Cox|||||||0.92
82407878|NCT00721799|164524088|OTHER||C-statistic|0.48||||0.84|TWO_SIDED||||||Regression, Cox|||||||0.84
82407879|NCT00721799|164524089|OTHER||Hazard Ratio (HR)|1.11||||0.76|TWO_SIDED||||||Regression, Cox|||||||0.76
82407880|NCT00721799|164524089|OTHER||C-statistic|0.45||||0.68|TWO_SIDED||||||Regression, Cox|||||||0.68
82407881|NCT00721799|164524090|OTHER||Hazard Ratio (HR)|2.99|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
82407882|NCT00721799|164524090|OTHER||C-statistic|0.74||||0.03|TWO_SIDED||||||Regression, Cox|||||||0.03
82407883|NCT00721799|164524091|OTHER||Hazard Ratio (HR)|0.78||||0.55|TWO_SIDED||||||Regression, Cox|||||||0.55
82407884|NCT00721799|164524091|OTHER||C-statistic|0.61||||0.35|TWO_SIDED||||||Regression, Cox|||||||0.35
82407885|NCT00721799|164524092|OTHER||Hazard Ratio (HR)|0.74||||0.48|TWO_SIDED||||||Regression, Cox|||||||0.48
82407886|NCT00721799|164524092|OTHER||C-statistic|0.63||||0.28|TWO_SIDED||||||Regression, Cox|||||||0.28
82407887|NCT00721799|164524093|OTHER||Hazard Ratio (HR)|0.81||||0.67|TWO_SIDED||||||Regression, Cox|||||||0.67
82407888|NCT00721799|164524093|OTHER||C-statistic|0.71||||0.11|TWO_SIDED||||||Regression, Cox|||||||0.11
82407889|NCT00721799|164524094|OTHER||Hazard Ratio (HR)|1.32||||0.4|TWO_SIDED||||||Regression, Cox|||||||0.40
82407890|NCT00721799|164524094|OTHER||C-statistic|0.48||||0.88|TWO_SIDED||||||Regression, Cox|||||||0.88
82407891|NCT00721799|164524095|OTHER||Hazard Ratio (HR)|2.39|||<|0.01|TWO_SIDED||||||Regression, Cox|||||||<0.01
82407892|NCT00721799|164524095|OTHER||C-statistic|0.74||||0.03|TWO_SIDED||||||Regression, Cox|||||||0.03
82407893|NCT00721799|164524096|OTHER||Hazard Ratio (HR)|1.51||||0.26|TWO_SIDED||||||Regression, Cox|||||||0.26
82407894|NCT00721799|164524096|OTHER||C-statistic|0.59||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
82407895|NCT00721799|164524097|OTHER||Hazard Ratio (HR)|1.38||||0.37|TWO_SIDED||||||Regression, Cox|||||||0.37
82407896|NCT00721799|164524097|OTHER||C-statistic|0.59||||0.46|TWO_SIDED||||||Regression, Cox|||||||0.46
82407897|NCT00721799|164524098|OTHER||Hazard Ratio (HR)|1.05||||0.9|TWO_SIDED||||||Regression, Cox|||||||0.90
82407898|NCT00721799|164524098|OTHER||C-statistic|0.52||||0.87|TWO_SIDED||||||Regression, Cox|||||||0.87
82407899|NCT00721799|164524099|OTHER||Hazard Ratio (HR)|1.35||||0.36|TWO_SIDED||||||Regression, Cox|||||||0.36
82407900|NCT00721799|164524099|OTHER||C-statistic|0.56||||0.63|TWO_SIDED||||||Regression, Cox|||||||0.63
82407901|NCT00721799|164524100|OTHER||Hazard Ratio (HR)|1.56||||0.2|TWO_SIDED||||||Regression, Cox|||||||0.20
82407902|NCT00721799|164524100|OTHER||C-statistic|0.63||||0.24|TWO_SIDED||||||Regression, Cox|||||||0.24
82407903|NCT01121263|164524126|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.063||||0.8||95.0|0.666|1.697|||Regression, Cox|The Cox proportional hazards regression model was weighted by propensity score to adjust for differences in baseline risk between the two groups.|The Cox model was weighted by propensity score to adjust for differences in baseline risk between the two groups.|This applies to any MACCE||1.697|0.666|0.80
82407904|NCT01121263|164524127|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.53||95.0|0.556|1.355|||Regression, Cox||The Cox proportional hazards regression model was weighted by the propensity score to account for the difference in baseline risk between groups.|This applies to any MACCE||1.355|0.556|0.53
82407905|NCT02100124|164524136|SUPERIORITY||Odds Ratio (OR)|0.87||||1|TWO_SIDED|95.0|0.56|1.36|||Regression, Logistic|||||1.36|0.56|1.0
82407906|NCT02100124|164524136|SUPERIORITY||Odds Ratio (OR)|1.13||||1|TWO_SIDED|95.0|0.7|1.83|||Regression, Logistic|||||1.83|0.70|1.0
82407907|NCT02100124|164524136|SUPERIORITY||Odds Ratio (OR)|1.3||||0.53|TWO_SIDED|95.0|0.82|2.08|||Regression, Logistic|||||2.08|0.82|0.53
82407908|NCT02100124|164524137|SUPERIORITY||Odds Ratio (OR)|0.88||||0.48|TWO_SIDED|95.0|0.71|1.09|||Regression, Logistic|||||1.09|0.71|0.48
82407909|NCT02100124|164524137|SUPERIORITY||Odds Ratio (OR)|1.08||||1|TWO_SIDED|95.0|0.87|1.35|||Regression, Logistic|||||1.35|0.87|1.0
82407910|NCT02100124|164524137|SUPERIORITY||Odds Ratio (OR)|1.23||||0.07|TWO_SIDED|95.0|0.99|1.53|||Regression, Logistic|||||1.53|0.99|0.07
82407911|NCT02100124|164524138|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.84|1.29|||Regression, Logistic|||||1.29|0.84|1.0
82407912|NCT02100124|164524138|SUPERIORITY||Odds Ratio (OR)|1.02||||1|TWO_SIDED|95.0|0.82|1.26|||Regression, Logistic|||||1.26|0.82|1.0
82407913|NCT02100124|164524138|SUPERIORITY||Odds Ratio (OR)|0.98||||1|TWO_SIDED|95.0|0.79|1.22|||Regression, Logistic|||||1.22|0.79|1.0
82407914|NCT02100124|164524139|SUPERIORITY||Odds Ratio (OR)|1.07||||1|TWO_SIDED|95.0|0.83|1.37|||Regression, Logistic|||||1.37|0.83|1.0
82446344|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||4.64|TWO_SIDED|95.0|0.83|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model.|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.83|4.64
82446345|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||42.13|TWO_SIDED|95.0|0.89|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.89|42.13
82446346|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||93.33|TWO_SIDED|95.0|0.98|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.98|93.33
82531698|NCT01558674|164760822|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|1.1|||||TWO_SIDED|90.0|0.99|1.22|||Mixed Linear Effects Model||GMR = Geometric mean (GM) MK-7145 8 mg divided by GM Furosemide|||1.22|0.99|
82407915|NCT02100124|164524139|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.81|1.33|||Regression, Logistic|||||1.33|0.81|1.0
82407916|NCT02100124|164524139|SUPERIORITY||Odds Ratio (OR)|0.97||||1|TWO_SIDED|95.0|0.75|1.25|||Regression, Logistic|||||1.25|0.75|1.0
82407917|NCT04350827|164524140|SUPERIORITY|||||||0.433|||||||ANOVA|||||||0.433
82407918|NCT02997163|164524145|SUPERIORITY||Percent Ratio of Geometric Means|112.2|||||TWO_SIDED|90.0|80.06|157.26||||||||157.26|80.06|
82407919|NCT02997163|164524145|SUPERIORITY||Percent Ratio of Geometric Means|142.98|||||TWO_SIDED|90.0|103.03|198.42||||||||198.42|103.03|
82407920|NCT02997163|164524145|SUPERIORITY||Percent Ratio of Geometric Means|263.32|||||TWO_SIDED|90.0|187.88|369.06||||||||369.06|187.88|
82407921|NCT02997163|164524146|SUPERIORITY||Percent Ratio of Geometric Means|111.13|||||TWO_SIDED|90.0|74.4|166.01||||||||166.01|74.40|
82407922|NCT02997163|164524146|SUPERIORITY||Percent Ratio of Geometric Means|131.57|||||TWO_SIDED|90.0|89.12|194.25||||||||194.25|89.12|
82407923|NCT02997163|164524146|SUPERIORITY||Percent Ratio of Geometric Means|189.32|||||TWO_SIDED|90.0|126.74|282.8||||||||282.80|126.74|
82407924|NCT02997163|164524147|SUPERIORITY||Percent Ratio of Geometric Means|118.58|||||TWO_SIDED|90.0|83.85|167.7||||||||167.70|83.85|
82407925|NCT02997163|164524147|SUPERIORITY||Percent Ratio of Geometric Means|139.34|||||TWO_SIDED|90.0|99.53|195.06||||||||195.06|99.53|
82407926|NCT02997163|164524147|SUPERIORITY||Percent Ratio of Geometric Means|286.61|||||TWO_SIDED|90.0|202.66|405.33||||||||405.33|202.66|
82407927|NCT02997163|164524148|SUPERIORITY||Percent Ratio of Geometric Means|117.45|||||TWO_SIDED|90.0|79.74|172.99||||||||172.99|79.74|
82407928|NCT02997163|164524148|SUPERIORITY||Percent Ratio of Geometric Means|128.22|||||TWO_SIDED|90.0|88.05|186.72||||||||186.72|88.05|
82407929|NCT02997163|164524148|SUPERIORITY||Percent Ratio of Geometric Means|206.07|||||TWO_SIDED|90.0|139.91|303.51||||||||303.51|139.91|
82407930|NCT01949545|164524191|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|144.43||||0.02232|TWO_SIDED|95.0|111.48|187.12|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-last an analysis of variance (ANOVA) of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||187.12|111.48|0.02232
82407931|NCT01949545|164524191|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|126.08||||0.1812|TWO_SIDED|95.0|94.59|168.06|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-last an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||168.06|94.59|0.1812
82407932|NCT01949545|164524192|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|151.84||||0.02137|TWO_SIDED|95.0|113.59|202.96|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-inf an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||202.96|113.59|0.02137
82407933|NCT01949545|164524192|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|143.53||||0.07247|TWO_SIDED|95.0|103.28|199.45|||ANOVA||The geometric mean ratio was calculated by exponentiation of the differences in the least squares means, using log-transformed data, between the hepatic impairment cohort (test) and participants with normal hepatic function (reference).|To assess the effect of hepatic impairment relative to participants with normal hepatic function on AUC0-inf an ANOVA of the log-transformed plasma PK parameters was performed. The ANOVA model included hepatic impairment as a fixed effect.||199.45|103.28|0.07247
82531699|NCT00924469|164760834|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.61||||0.0216||90.0|0.429|0.865||Test for no difference of natural log transformed values between treatments was calculated using two-way analysis of variance (ANOVA) adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for testosterone concentration at Week 12||0.865|0.429|0.0216
82407934|NCT00288912|164524258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.007|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Primary hypothesis: OA self-management intervention results in greater improvement in AIMS2 pain score than usual care or health education control. Sample size estimate based on detecting 0.57 point (14%) difference between groups. Analyses were linear mixed models, intent-to-treat basis.||0.2|-1.0|0.007
82407935|NCT00288912|164524258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.105|TWO_SIDED|95.0|-0.8|0.1|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Primary hypothesis: OA self-management intervention results in greater improvement in AIMS2 pain score than usual care or health education control. Sample size estimate based on detecting 0.57 point (14%) difference between groups. Analyses were linear mixed models, intent-to-treat basis.||0.1|-0.8|0.105
82407936|NCT00288912|164524259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.093|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 function score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.0|-0.5|0.093
82407937|NCT00288912|164524259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.43|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 function score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.2|-0.2|0.43
82407938|NCT00288912|164524260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|-0.3|0.4|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 affect score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.4|-0.3|0.78
82407939|NCT00288912|164524260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.79|TWO_SIDED|95.0|-0.3|0.4|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in AIMS2 affect score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.4|-0.3|0.79
82407940|NCT00288912|164524261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.043|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in arthritis self-efficacy score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.8|0.0|0.043
82407941|NCT00288912|164524261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.066|TWO_SIDED|95.0|0.0|0.7|||Mixed Models Analysis||The mean difference (final values) is based on differences in the outcome between study groups at 12-month follow-up, in the context of the mixed models.|Secondary hypothesis: OA self-management intervention results in greater improvement in arthritis self-efficacy score than usual care or health education control. Analyses were linear mixed models, intent-to-treat basis.||0.7|0.0|0.066
82407942|NCT02709746|164524378|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.4702|TWO_SIDED|95.0|-1.94|4.2|||Mixed Model Repeated Analysis|||||4.2|-1.94|0.4702
82407943|NCT02709746|164524378|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.6373|TWO_SIDED|95.0|-3.71|2.27|||Mixed Model Repeated Analysis|||||2.27|-3.71|0.6373
82407944|NCT02709746|164524378|SUPERIORITY||Mean Difference (Final Values)|-3.73||||0.0152|TWO_SIDED|95.0|-6.74|-0.72|||Mixed Model Repeated Analysis|||||-0.72|-6.74|0.0152
82407945|NCT02709746|164524378|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.8778|TWO_SIDED|95.0|-2.41|2.82|||Mixed Model Repeated Analysis|||||2.82|-2.41|0.8778
82407946|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.146||||0.7756|TWO_SIDED|95.0|-6.904|9.196||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||9.196|-6.904|0.7756
82407947|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.291||||0.4194|TWO_SIDED|95.0|-4.84|11.421||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||11.421|-4.840|0.4194
82531700|NCT00924469|164760835|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.43||||0.1423||90.0|0.956|2.145||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for testosterone concentration at Week 24||2.145|0.956|0.1423
82407948|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|22.2|||<|0.0001|TWO_SIDED|95.0|14.28|30.12||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||30.120|14.280|<0.0001
82407949|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.145||||0.5927|TWO_SIDED|95.0|-5.874|10.164||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||10.164|-5.874|0.5927
82407950|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|21.054|||<|0.0001|TWO_SIDED|95.0|13.189|28.919||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||28.919|13.189|<0.0001
82407951|NCT00752089|164524406|SUPERIORITY_OR_OTHER||Adjusted mean difference|18.909|||<|0.0001|TWO_SIDED|95.0|11.036|26.783||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||26.783|11.036|<0.0001
82407952|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|-321.438||||0.199|TWO_SIDED|95.0|-818.118|175.242||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||175.242|-818.118|0.1990
82407953|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|-72.68||||0.7718||95.0|-574.398|429.039||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||429.039|-574.398|0.7718
82407954|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|1784.675|||<|0.0001||95.0|1296.044|2273.306||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2273.306|1296.044|<0.0001
82407955|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|248.758||||0.3164||95.0|-245.962|743.478||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included tratment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||743.478|-245.962|0.3164
82407956|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|2106.113|||<|0.0001|TWO_SIDED|95.0|1620.906|2591.32||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period as fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2591.320|1620.906|<0.0001
82407957|NCT00752089|164524407|SUPERIORITY_OR_OTHER||Adjusted mean difference|1857.355|||<|0.0001|TWO_SIDED|95.0|1371.637|2343.072||No adjustments for multiple comparisons were made as the primary comparison was pre-defined.|ANOVA|The model included treatment and period and fixed and participant as random factors.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2343.072|1371.637|<0.0001
82531701|NCT00924469|164760835|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.82||||0.6639||90.0|0.386|1.746||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for DHT concentration at Week 24||1.746|0.386|0.6639
82407958|NCT00386334|164524410|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407959|NCT00386334|164524413|SUPERIORITY_OR_OTHER|||||||0.0014||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0014
82407960|NCT00386334|164524416|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407961|NCT00386334|164524419|SUPERIORITY_OR_OTHER|||||||0.0005||||||Multiple comparisons not applied due to only two treatments in study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0005
82407962|NCT00386334|164524422|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407963|NCT00386334|164524425|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82531702|NCT00924469|164760836|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.32|||<|0.0001||90.0|0.239|0.418||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 1 for androstenedione concentration at Week 12||0.418|0.239|<0.0001
82407964|NCT00386334|164524428|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407965|NCT00386334|164524431|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407966|NCT00386334|164524434|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407967|NCT00386334|164524437|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407968|NCT00386334|164524440|SUPERIORITY_OR_OTHER|||||||0.1175||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.1175
82407969|NCT00386334|164524443|SUPERIORITY_OR_OTHER|||||||0.0717||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0717
82407970|NCT00386334|164524446|SUPERIORITY_OR_OTHER|||||||0.1182||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|||||||0.1182
82407971|NCT00386334|164524449|SUPERIORITY_OR_OTHER|||||||0.301||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.3010
82407972|NCT00386334|164524452|SUPERIORITY_OR_OTHER|||||||0.78||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.7800
82407973|NCT00386334|164524455|SUPERIORITY_OR_OTHER|||||||0.0803||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0803
82407974|NCT00386334|164524458|SUPERIORITY_OR_OTHER|||||||0.2643||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.2643
82407975|NCT00386334|164524461|SUPERIORITY_OR_OTHER|||||||0.0765||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0765
82407976|NCT00386334|164524464|SUPERIORITY_OR_OTHER|||||||0.2967||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.2967
82407977|NCT00386334|164524467|SUPERIORITY_OR_OTHER|||||||0.0634||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||0.0634
82407978|NCT00386334|164524470|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Multiple comparisons not applied due to only two treatments in the study.|ANCOVA|ANCOVA with treatment and site type as fixed effects and the baseline as a covariate||||||<0.0001
82407979|NCT03093181|164524516|SUPERIORITY||Least square (LS) mean difference|3.12||||0.0128|TWO_SIDED|95.0|0.68|5.56||From Analysis of covariance (ANCOVA) with treatment main effect, age stratum and baseline as covariates|ANCOVA||Difference is first named treatment (test product) minus second named treatment (negative control) such that a positive value favors the first named treatment (test product).|||5.56|0.68|0.0128
82407980|NCT03093181|164524516|SUPERIORITY||LS mean difference|1.51||||0.2262|TWO_SIDED|95.0|-0.95|3.96||From ANCOVA with treatment main effect, age stratum and baseline as covariates.|ANCOVA||Difference is first named treatment (test product) minus second named treatment (negative control) such that a positive value favors the first named treatment (test product).|||3.96|-0.95|0.2262
82407981|NCT03093181|164524518|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0243|TWO_SIDED|95.0|1.08|3.15|||Odds Ratio|||Analysis of Lay Person Assessment Polarised Image.||3.15|1.08|0.0243
82407982|NCT03093181|164524518|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8931|TWO_SIDED|95.0|0.61|1.78|||Odds Ratio|||Analysis of Lay Person Assessment Polarised Image.||1.78|0.61|0.8931
82407983|NCT03093181|164524518|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0181|TWO_SIDED|95.0|1.12|3.25|||Odds Ratio|||Analysis of Lay Person Assessment Non-Polarised Image.||3.25|1.12|0.0181
82407984|NCT03093181|164524518|SUPERIORITY||Odds Ratio (OR)|0.94||||0.8319|TWO_SIDED|95.0|0.55|1.63|||Odds Ratio|||Analysis of Lay Person Assessment Non-Polarised Image.||1.63|0.55|0.8319
82407985|NCT03093181|164524519|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0279|TWO_SIDED|95.0|0.02|0.28|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Polarised Image.||0.28|0.02|0.0279
82407986|NCT03093181|164524519|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.8887|TWO_SIDED|95.0|-0.12|0.14|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Polarised Image.||0.14|-0.12|0.8887
82407987|NCT03093181|164524519|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0224|TWO_SIDED|95.0|0.02|0.28|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Non-Polarised Image.||0.28|0.02|0.0224
82407988|NCT03093181|164524519|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.8253|TWO_SIDED|95.0|-0.15|0.12|||ANOVA|ANOVA= average rate over all raters including effects of treatment and age stratum.||Analysis of Lay Person Assessment Non-Polarised Image.||0.12|-0.15|0.8253
82446347|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||27.33|TWO_SIDED|95.0|0.95|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.95|27.33
82407989|NCT04210986|164524526|SUPERIORITY||Odds Ratio (OR)|0.99|||>|0.9|TWO_SIDED|95.0|0.25|4.02||No adjustment made for multiple comparisons.|Fisher Exact||Odds ratio is for fisetin group, relative to the placebo group.|Null hypothesis: no difference in proportion of participants experiencing any TEAE between Fisetin and Placebo groups.||4.02|0.25|>0.9
82407990|NCT04210986|164524527|SUPERIORITY||Contrast of LS Means|-3.5||||0.9728|TWO_SIDED|95.0|-10.6|3.6||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 14 ASSESSMENT Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||3.6|-10.6|0.9728
82407991|NCT04210986|164524527|SUPERIORITY||Contrast of LS Means|-2.5||||0.9728|TWO_SIDED|95.0|-7.8|2.8||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 45 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||2.8|-7.8|0.9728
82407992|NCT04210986|164524527|SUPERIORITY||Contrast of LS Means|-20.5||||0.0829|TWO_SIDED|95.0|-37.7|-3.3||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||-3.3|-37.7|0.0829
82407993|NCT04210986|164524527|SUPERIORITY||Contrast of LS Means|-0.5||||0.9728|TWO_SIDED|95.0||||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Contrast of LS Means|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||||0.9728
82407994|NCT04210986|164524528|SUPERIORITY||Contrast of LS Means|2.52|||>|0.99|TWO_SIDED|95.0|-49.4|54.5||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 14 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||54.5|-49.4|>0.99
82407995|NCT04210986|164524528|SUPERIORITY||Contrast of LS Means|11.0|||>|0.99|TWO_SIDED|95.0|-36.8|58.8||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 45 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||58.8|-36.8|>0.99
82407996|NCT04210986|164524528|SUPERIORITY||Contrast of LS Means|-40.3||||0.6594|TWO_SIDED|95.0|-97.6|17.1||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||17.1|-97.6|0.6594
82407997|NCT04210986|164524528|SUPERIORITY||Contrast of LS Means|-6.9|||>|0.99|TWO_SIDED|95.0|-45.5|31.7||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||31.7|-45.5|>0.99
82407998|NCT04210986|164524529|SUPERIORITY||Contrast of LS Means|10.5||||0.748|TWO_SIDED|95.0|-12.9|33.9||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||33.9|-12.9|0.7480
82407999|NCT04210986|164524529|SUPERIORITY||Contrast of LS Means|-0.6||||0.9572|TWO_SIDED|95.0|-22.2|21.1||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||21.1|-22.2|0.9572
82531703|NCT00924469|164760836|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.13||||0.5061||90.0|0.828|1.554||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for androstenedione concentration at Week 24||1.554|0.828|0.5061
82531704|NCT00924469|164760836|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.03|||<|0.0001||90.0|0.017|0.05||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 3 for DHEA concentration at Week 12||0.050|0.017|<0.0001
82531705|NCT00924469|164760836|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.79||||0.5767||90.0|0.398|1.581||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 4 for DHEA concentration at Week 24||1.581|0.398|0.5767
82446348|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||34.15|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|34.15
82446349|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||58.42|TWO_SIDED|95.0|0.98|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.98|58.42
82576331|NCT02209181|164862066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.73|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|1.49|3.98||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.98|1.49|<0.001
82408000|NCT04210986|164524530|SUPERIORITY||Contrast of LS Means|0.01|||>|0.99|TWO_SIDED|95.0|-0.47|0.49||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.49|-0.47|>0.99
82408001|NCT04210986|164524530|SUPERIORITY||Contrast of LS Means|0.07|||>|0.99|TWO_SIDED|95.0|-0.33|0.47||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.47|-0.33|>0.99
82408002|NCT04210986|164524531|SUPERIORITY||Contrast of LS Means|-0.37|||>|0.99|TWO_SIDED|95.0|-1.61|0.87||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.87|-1.61|>0.99
82408003|NCT04210986|164524531|SUPERIORITY||Contrast of LS Means|0.16|||>|0.99|TWO_SIDED|95.0|-0.8|1.13||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.13|-0.80|>0.99
82408004|NCT04210986|164524532|SUPERIORITY||Contrast of LS Means|-0.022||||0.13|TWO_SIDED|95.0|-0.045|0.002||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.002|-0.045|0.130
82408005|NCT04210986|164524532|SUPERIORITY||Contrast of LS Means|-0.024||||0.13|TWO_SIDED|95.0|-0.049|0.002||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.002|-0.049|0.130
82408006|NCT04210986|164524533|SUPERIORITY||Contrast of LS Means|-0.22||||0.9584|TWO_SIDED|95.0|-0.84|0.4||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.40|-0.84|0.9584
82408007|NCT04210986|164524533|SUPERIORITY||Contrast of LS Means|0.12||||0.9584|TWO_SIDED|95.0|-0.69|0.92||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.92|-0.69|0.9584
82408008|NCT04210986|164524534|SUPERIORITY||Contrast of LS Means|1.88||||0.5905|TWO_SIDED|95.0|-5.07|8.84||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||8.84|-5.07|0.5905
82408009|NCT04210986|164524534|SUPERIORITY||Contrast of LS Means|3.86||||0.5414|TWO_SIDED|95.0|-3.08|10.79||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||10.79|-3.08|0.5414
82408010|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.05|||>|0.99|TWO_SIDED|95.0|-0.75|0.85||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 3 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.85|-0.75|>0.99
82408011|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.44|||>|0.99|TWO_SIDED|95.0|-0.45|1.34||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.34|-0.45|>0.99
82408012|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.42|||>|0.99|TWO_SIDED|95.0|-0.7|1.54||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 9 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.54|-0.70|>0.99
82408013|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.06|||>|0.99|TWO_SIDED|95.0|-0.91|0.78||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.78|-0.91|>0.99
82408014|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.47|||>|0.99|TWO_SIDED|95.0|-1.5|0.56||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 15 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.56|-1.50|>0.99
82408015|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.19|||>|0.99|TWO_SIDED|95.0|-1.16|0.77||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 18 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.77|-1.16|>0.99
82408016|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.19|||>|0.99|TWO_SIDED|95.0|-0.58|0.96||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 21 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.96|-0.58|>0.99
82408017|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.1|||>|0.99|TWO_SIDED|95.0|-0.76|0.97||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 24 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.97|-0.76|>0.99
82408018|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.01|||>|0.99|TWO_SIDED|95.0|-0.74|0.76||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 27 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.76|-0.74|>0.99
82408019|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.38|||>|0.99|TWO_SIDED|95.0|-1.2|0.44||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 30 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.44|-1.20|>0.99
82531706|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.14|||<|0.0001||90.0|0.097|0.207||Test for no difference of natural log transformed values between treatments was calculated using analysis of covariance (ANCOVA) adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 1 for serum testosterone concentration at Week 12||0.207|0.097|<0.0001
82531707|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.84||||0.4364||90.0|0.571|1.225||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 2 for serum testosterone concentration at Week 24||1.225|0.571|0.4364
82646687|NCT00810615|165008160|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5455||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with one significant event (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
82646688|NCT00810615|165008161|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with two significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
82376278|NCT03968978|164458715|OTHER||Proportion|1.8|||||TWO_SIDED|95.0|0.5|6.33|||Score CI|CI at Week 0 (in clinic)||||6.33|0.50|
82376279|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.35|||Score CI|CI at Week 4 (in clinic)||||3.35|0|
82376280|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.37|||Score CI|CI for Week 8 (in clinic)||||3.37|0|
82376281|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.37|||Score CI|CI for Week 12 (at home)||||3.37|0|
82376282|NCT03968978|164458715|OTHER||Proportion|2.8|||||TWO_SIDED|95.0|0.96|7.92|||Score CI|CI for Week 16 (at home)||||7.92|0.96|
82376283|NCT03968978|164458715|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.17|5.15|||Score CI|CI for Week 20 (in clinic)||||5.15|0.17|
82376284|NCT03968978|164458715|SUPERIORITY||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.53|||Score CI|CI for Week 0 (in clinic)||||3.53|0|
82376285|NCT03968978|164458715|OTHER||Proportion|2.8|||||TWO_SIDED|95.0|0.97|7.99|||Score CI|CI for Week 4 (in clinic)||||7.99|0.97|
82376286|NCT03968978|164458715|OTHER||Proportion|1.9|||||TWO_SIDED|95.0|0.52|6.68|||Other CI|CI for Week 8 (in clinic)||||6.68|0.52|
82376287|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.56|||Score CI|CI for week 12 (at home)||||3.56|0|
82376288|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.63|||Score CI|CI for Week 16 (at home)||||3.63|0|
82376289|NCT03968978|164458715|OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|3.63|||Score CI|CI for Week 20 (in clinic)||||3.63|0|
82376290|NCT02714426|164458719|OTHER|||||||0.024||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,33) = 5.57, p = .024, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. First-order Autoregressive was best (which specifies homogeneous variance over time but allows one correlation between occasions).||||.024
82376291|NCT02714426|164458720|OTHER|||||||0.333||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,34) = 0.96, p = .333, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.333
82376292|NCT02714426|164458722|OTHER|||||||0.001||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-8) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,31.069) = 15.046, p = .001, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.001
82376293|NCT02714426|164458723|OTHER|||||||0.448||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,34) = 0.589, p = .0.448, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.448
82376294|NCT02714426|164458724|OTHER|||||||0.439||||||A priori threshold for statistical significance was set at p \< .05. No adjustment was made for multiple comparisons. The critical effect of interest evaluated here was the Linear Occasion (1-14) x Group (Brain Health vs. Mindfulness) interaction.|Mixed Models Analysis|F(1,31) = 0.616, p = 0.439, no adjustments.||Mixed effects models were used. Independent variables were linear and quadratic time/occasion, intervention group, and group-by-time interactions if appropriate. Preparatory to modeling, preliminary unconditional models were run to determine best fitting approaches for repeated and random covariance structures. Diagonal repeated covariance was best (heterogeneous variance over time, and no residual cross-time covariances).||||0.439
82376295|NCT05819203|164458783|SUPERIORITY|||||||0.0013|||||||Wilcoxon (Mann-Whitney)|||Comparison of the means of AUC on global score or ARSSQ during the first 10 days of the study between both groups.||||0.0013
82376296|NCT05819203|164458784|SUPERIORITY|||||||0.0209|||||||Cox survival regression and p Wald|||Comparison of the mean duration of common cold during the study between both groups.||||0.0209
82376297|NCT05819203|164458785|SUPERIORITY|||||||0.0399|||||||Cox survival regression and p Wald|||Comparison of the mean duration of impact of common cold on quality of life during the study between both groups.||||0.0399
82376298|NCT05819203|164458786|SUPERIORITY|||||||0.0015|||||||Poisson regression|||||||0.0015
82376299|NCT05819203|164458787|SUPERIORITY||||||>|0.05||||||not significant|Poisson regression|||||||>0.05
82446350|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||5.93|TWO_SIDED|95.0|0.86|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.86|5.93
82531708|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.75||||0.1515||90.0|0.54|1.044||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 3 for serum DHT concentration at Week 12||1.044|0.540|0.1515
82376300|NCT05819203|164458788|SUPERIORITY|||||||0.0029|||||||Poisson regression|||||||0.0029
82376301|NCT05819203|164458789|SUPERIORITY|||||||0.0006|||||||Poisson regression|||||||0.0006
82376302|NCT05819203|164458790|SUPERIORITY|||||||0.0513|||||||Poisson regression|||||||0.0513
82376303|NCT05819203|164458791|SUPERIORITY|||||||0.0789|||||||Poisson regression|||||||0.0789
82376304|NCT05819203|164458792|SUPERIORITY||||||<|0.0001|||||||Poisson regression|||||||<0.0001
82376305|NCT05819203|164458793|SUPERIORITY|Comparison of the means of AUC on global score or ARSSQ during the first 10 days of the study between both groups.||||||0.0034|||||||t-test, 2 sided|||||||0.0034
82376306|NCT04123561|164458797|SUPERIORITY|"The primary efficacy endpoint is defined as the change from Injection 1 Baseline in WOMAC Pain on a normalized scale of 0-4 at Week 12 between the randomized TLC599 12mg and Placebo groups.~The least-squares mean, alongside its corresponding 95% confidence interval, was used to estimate the treatment difference between TLC599 and Placebo, utilizing two-sided p-values."|Least Squares Mean Difference (LSMD)|-0.171|STANDARD_ERROR_OF_MEAN|0.0819||0.0372|TWO_SIDED|95.0|-0.331|-0.01|||ANCOVA|Parameters estimated via REML using the Newton-Raphson algorithm, and the Kenward-Roger method calculates denominator degrees of freedom.||||-0.010|-0.331|0.0372
82376307|NCT03092219|164458823|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0|||||Fisher Exact|For this outcome measure, missing data were imputed using a LOCF (Last Observation Carried Forward) method.||||||0.0001
82376308|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.001||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Matrilysin (P09237) was analyzed.||||= 0.001
82376309|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.002||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of von Willebrand factor (P04275) was analyzed.||||= 0.002
82376310|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.044||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of CCN family member 4 (O95388) was analyzed.||||= 0.044
82376311|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.044||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TGF beta-1 proprotein (P01137) was analyzed.||||= 0.044
82376312|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.127||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TGF beta receptor type 3 (Q03167) was analyzed.||||= 0.127
82376313|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.21||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of IL-15 receptor subunit alpha (Q13261) was analyzed.||||= 0.210
82376314|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.215||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Metalloproteinase inhibitor 1 (P01033) was analyzed.||||= 0.215
82376315|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.215||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Pappalysin-1 (Q13219) was analyzed.||||= 0.215
82408020|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.1|||>|0.99|TWO_SIDED|95.0|-0.69|0.89||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 33 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.89|-0.69|>0.99
82408021|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.2|||>|0.99|TWO_SIDED|95.0|-1.02|0.61||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 36 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.61|-1.02|>0.99
82408022|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.11|||>|0.99|TWO_SIDED|95.0|-0.7|0.92||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 39 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.92|-0.70|>0.99
82408023|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.62|||>|0.99|TWO_SIDED|95.0|-1.36|0.13||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|DAY 42 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.13|-1.36|>0.99
82408024|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.23|||>|0.99|TWO_SIDED|95.0|-1.01|0.55||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 7 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.55|-1.01|>0.99
82408025|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.2|||>|0.99|TWO_SIDED|95.0|-0.89|0.49||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 8 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.49|-0.89|>0.99
82408026|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|0.02|||>|0.99|TWO_SIDED|95.0|-0.63|0.67||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 9 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.67|-0.63|>0.99
82408027|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.17|||>|0.99|TWO_SIDED|95.0|-0.95|0.61||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 10 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.61|-0.95|>0.99
82408028|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.42|||>|0.99|TWO_SIDED|95.0|-1.18|0.34||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 11 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.34|-1.18|>0.99
82408029|NCT04210986|164524535|SUPERIORITY||Contrast of LS Means|-0.35|||>|0.99|TWO_SIDED|95.0|-1.41|0.71||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|WEEK 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||0.71|-1.41|>0.99
82408030|NCT04210986|164524536|SUPERIORITY||Contrast of LS Means|1.86||||0.9106|TWO_SIDED|95.0|-3.09|6.82||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||6.82|-3.09|0.9106
82646689|NCT00810615|165008162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1111||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with three significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
82531709|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.84||||0.3965||90.0|0.589|1.188||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 4 for serum DHT concentration at Week 24||1.188|0.589|0.3965
82531710|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.42||||0.0003||90.0|0.29|0.615||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 5 for serum Androsterone concentration at Week 12||0.615|0.290|0.0003
82376316|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.745||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Proto-oncogene c-Src (P12931) was analyzed.||||= 0.745
82376317|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Protein AMBP (P02760) was analyzed.||||= 0.762
82376318|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Uromodulin (P07911) was analyzed.||||= 0.762
82376319|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Aminopeptidase N (P15144) was analyzed.||||= 0.762
82376320|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.762||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of TNFRSF1A (P19438) was analyzed.||||= 0.762
82376321|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Plasminogen activator inhibitor 1 (P05121) was analyzed.||||= 0.917
82376322|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of CCN family member 2 (P29279) was analyzed.||||= 0.917
82376323|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of uPAR (Q03405) was analyzed.||||= 0.917
82376324|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.917||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 14 (Q16627) was analyzed.||||= 0.917
82376325|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 16 (O15467) was analyzed.||||= 0.979
82446351|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||35.88|TWO_SIDED|95.0|0.89|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.89|35.88
82531711|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.22||||0.2494||90.0|0.916|1.625||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 6 for serum androsterone concentration at Week 24||1.625|0.916|0.2494
82408031|NCT04210986|164524536|SUPERIORITY||Contrast of LS Means|-4.2||||0.4424|TWO_SIDED|95.0|-9.93|1.53||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||1.53|-9.93|0.4424
82408032|NCT04210986|164524536|SUPERIORITY||Contrast of LS Means|-0.03||||0.9901|TWO_SIDED|95.0|-5.55|5.48||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|MONTH 18 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.||5.48|-5.55|0.9901
82408033|NCT04210986|164524537|SUPERIORITY||Contrast of LS Means|0.69|||>|0.99|TWO_SIDED|95.0|-30.95|32.3||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|"MONTH 6 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.~A priori power calculation was based a standardized mean difference effect size of SMD=0.73 (Mackay, et al, 2018, Osteoarthritis and Cartilage)."||32.3|-30.95|>0.99
82408034|NCT04210986|164524537|SUPERIORITY||Contrast of LS Means|-11.3|||>|0.99|TWO_SIDED|95.0|-46.9|24.2||A priori threshold for statistical significance = 0.05. P-values adjusted for the number of post-intervention assessments via Holm-Bonferroni method.|Mixed Models Analysis|Mixed model for repeated measures (mmrm). Baseline measurement included as covariate. Random intercept and slope. Kenward-Roger DF.|Direction of Estimation Parameter: Placebo - Fisetin|"MONTH 12 ASSESSMENT. Null hypothesis: no difference in baseline-adjusted least squares means between Fisetin and Placebo groups at each post-intervention assessment.~A priori power calculation was based a standardized mean difference effect size of SMD=0.73 (Mackay, et al, 2018, Osteoarthritis and Cartilage)."||24.2|-46.9|>0.99
82408035|NCT04210986|164524538|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.474|TWO_SIDED|95.0|0.05|4.21||A priori threshold for statistical significance = 0.05.|Log Rank|Cox proportional hazards model constructed. Score (log rank) test to assess between group difference in hazard rate.|Hazard ratio expresses the hazard rate of the Fisetin group in the numerator and the hazard rate of the Placebo group in the denominator|With only 4 participants that converted to an alternative treatment modality, this analysis is underpowered.||4.21|0.05|0.474
82408036|NCT03555149|164524543|OTHER||Difference in Overall Response Rate|6.67|||||TWO_SIDED|95.0|-11.92|25.25|||||The difference in ORR was calculated as the experimental arm (Atezolizumab + Regorafenib) subtracted from the control arm (Regorafenib).|||25.25|-11.92|
82408037|NCT03555149|164524543|OTHER||Difference in Overall Response Rate|6.67|||||TWO_SIDED|95.0|-11.92|25.25|||||The difference in ORR was calculated as the experimental arm (Atezolizumab + Regorafenib + AB928) subtracted from the control arm (Regorafenib).|||25.25|-11.92|
82408038|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.67|2.73||||||||2.73|0.67|
82408039|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|2.3|||||TWO_SIDED|95.0|1.08|4.88||||||||4.88|1.08|
82408040|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.29|2.18||||||||2.18|0.29|
82408041|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|95.0|0.64|6.24||||||||6.24|0.64|
82408042|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|1.74|||||TWO_SIDED|95.0|0.83|3.63||||||||3.63|0.83|
82408043|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.39|1.63||||||||1.63|0.39|
82408044|NCT03555149|164524544|OTHER||Hazard Ratio (HR)|5.64|||||TWO_SIDED|95.0|0.94|33.82||||||||33.82|0.94|
82408045|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.71|2.93||||||Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) Hazard Ratio for OS||2.93|0.71|
82408046|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.68|2.81||||||Atezolizumab + Isatuximab vs. Regorafenib (Control) Hazard Ratio for OS||2.81|0.68|
82408047|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.3|2.72||||||Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) Hazard Ratio for OS||2.72|0.30|
82408048|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.42|3.84||||||Atezolizumab + Idasanutlin vs. Regorafenib (Control) Hazard Ratio for OS||3.84|0.42|
82408049|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.39|1.88||||||Atezolizumab + Regorafenib vs. Regorafenib (Control) Hazard Ratio for OS||1.88|0.39|
82408050|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.43|1.96||||||Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) Hazard Ratio for OS||1.96|0.43|
82408051|NCT03555149|164524545|OTHER|Kaplan-Meier|Hazard Ratio (HR)|2.88|||||TWO_SIDED|95.0|0.33|24.85||||||Atezolizumab + LOAd703 vs. Regorafenib (Control) Hazard Ratio for OS||24.85|0.33|
82408052|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||32.19|-0.61|
82408053|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-16.49|||||TWO_SIDED|95.0|-49.78|16.79||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||16.79|-49.78|
82531712|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.04|||<|0.0001||90.0|0.023|0.073||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 7 for serum DHEA concentration at Week 12||0.073|0.023|<0.0001
82408054|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-14.45|||||TWO_SIDED|95.0|-44.37|15.47||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||15.47|-44.37|
82408055|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-10.56|||||TWO_SIDED|95.0|-32.25|11.14||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Imprime PGG + Bevacizumab vs. Regorafenib (Control) arms||11.14|-32.25|
82646690|NCT00810615|165008163|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||||||||||||Relative Risk of Improvement in 2.4 ATA group vs. Sham in subjects with four or more significant events (blast or impact resulting in concussion symptoms) per Concussion History. PCL-M with significant improvement defined as a score decrease 10 or more.||||
82408056|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-10.88|||||TWO_SIDED|95.0|-38.62|16.87||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||16.87|-38.62|
82408057|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-23.16|||||TWO_SIDED|95.0|-56.1|9.78||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||9.78|-56.10|
82408058|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-7.78|||||TWO_SIDED|95.0|-39.19|23.62||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||23.62|-39.19|
82408059|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|2.78|||||TWO_SIDED|95.0|-24.08|29.63||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Isatuximab vs. Regorafenib (Control) arms||29.63|-24.08|
82408060|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||32.19|-0.61|
82408061|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|16.84|||||TWO_SIDED|95.0|-24.39|58.07||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||58.07|-24.39|
82408062|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|18.88|||||TWO_SIDED|95.0|-34.53|72.3||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||72.30|-34.53|
82408063|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|9.44|||||TWO_SIDED|95.0|-38.19|57.08||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Selicrelumab + Bevacizumab vs. Regorafenib (Control) arms||57.08|-38.19|
82408064|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-9.21|||||TWO_SIDED|95.0|-54.7|36.28||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||36.28|-54.70|
82408065|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-13.16|||||TWO_SIDED|95.0|-66.74|40.43||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||40.43|-66.74|
82408066|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-9.45|||||TWO_SIDED|95.0|-57.26|38.36||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||38.36|-57.26|
82408067|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|7.78|||||TWO_SIDED|95.0|-38.18|53.73||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Idasanutlin vs. Regorafenib (Control) arms||53.73|-38.18|
82531713|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.24||||0.5144||90.0|0.717|2.137||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 8 for serum DHEA concentration at Week 24||2.137|0.717|0.5144
82531714|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.1|||<|0.0001||90.0|0.055|0.189||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 9 for serum DHEA-glucuronide concentration at Week 12||0.189|0.055|<0.0001
82646691|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.338|TWO_SIDED|95.0|-0.58|0.2||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post-Treatment||.20|-.58|.338
82408068|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-5.24|||||TWO_SIDED|95.0|-32.03|21.56||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||21.56|-32.03|
82408069|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|8.64|||||TWO_SIDED|95.0|-23.33|40.6||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||40.60|-23.33|
82408070|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|5.44|||||TWO_SIDED|95.0|-29.19|40.06||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||40.06|-29.19|
82408071|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|6.71|||||TWO_SIDED|95.0|-22.64|36.06||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Regorafenib vs. Regorafenib (Control) arms||36.06|-22.64|
82408072|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|2.46|||||TWO_SIDED|95.0|-21.31|26.22||||||Difference in OS event-free rate at 3 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||26.22|-21.31|
82408073|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|10.18|||||TWO_SIDED|95.0|-20.99|41.34||||||Difference in OS event-free rate at 6 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||41.34|-20.99|
82408074|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|-1.12|||||TWO_SIDED|95.0|-33.59|31.36||||||Difference in OS event-free rate at 12 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||31.36|-33.59|
82408075|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|9.44|||||TWO_SIDED|95.0|-19.06|37.94||||||Difference in OS event-free rate at 18 months for the Atezolizumab + Regorafenib + AB928 vs. Regorafenib (Control) arms||37.94|-19.06|
82408076|NCT03555149|164524546|OTHER||Difference in OS Event-Free Rate|15.79|||||TWO_SIDED|95.0|-0.61|32.19||||||Difference in OS event-free rate at 3 months for the Atezolizumab +LOAd703 vs. Regorafenib (Control) arms||32.19|-0.61|
82531715|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.55||||0.1329||90.0|0.286|1.06||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 10 for serum DHEA-glucuronide concentration at Week 24||1.060|0.286|0.1329
82531716|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.01|||<|0.0001||90.0|0.008|0.028||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 11 for serum DHEA-sulfate concentration at Week 12||0.028|0.008|<0.0001
82531717|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.2||||0.7061||90.0|0.53|2.73|||ANCOVA|||Statistical Analysis 12 for serum DHEA-sulfate concentration at Week 24||2.730|0.530|0.7061
82531718|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.42|||<|0.0001||90.0|0.29|0.615||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 13 for serum delta-4-androstenedione concentration at Week 12||0.615|0.290|<0.0001
82408077|NCT00289211|164524550|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.048||||0.048||95.0|1.008|4.164|||Regression, Cox|||Subjects who did not experience beginning of substantial relief of the defining symptom within 4 hours after initial treatment were included in the analysis as censored observations. Entries of 4.0 (hours) for median time to event or 95% CI indicate that data were NE (see Population Description). As non-numeric data are not supported by the median and 95% CI fields, entry of the actual results (ie, NE or \>4.0) was not possible.||4.164|1.008|0.048
82408078|NCT00289211|164524551|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.41||||0.062||95.0|0.87|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.87|0.062
82408079|NCT00289211|164524552|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.717||||0.001||95.0|1.471|5.02|||Regression, Cox|||Subjects who had not experienced complete resolution of the HAE attack at the time of the follow-up telephone call, or who were lost to follow-up, were censored at 72 hours.||5.020|1.471|0.001
82408080|NCT00289211|164524553|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408081|NCT00289211|164524553|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408082|NCT00289211|164524553|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Change at 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408083|NCT00289211|164524553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0||||Change at 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0007
82408084|NCT00289211|164524554|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408085|NCT00289211|164524554|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408086|NCT00289211|164524554|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Percent change 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82408087|NCT00289211|164524554|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022||95.0||||Percent change 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0022
82531719|NCT00924469|164760837|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.22||||0.2673||90.0|0.916|1.625||Test for no difference of natural log transformed values between treatments was calculated using ANCOVA adjusting for Baseline risk factor and Baseline androgen.|ANCOVA|||Statistical Analysis 14 for serum delta-4-androstenedione concentration at Week 24||1.625|0.916|0.2673
82646692|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.2||0.425|TWO_SIDED|95.0|-0.24|0.57||Threshold: p \<.05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post Treatment||0.57|-0.24|0.425
82408088|NCT00289211|164524555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1321||95.0||||Change at 1 hour post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.1321
82408089|NCT00289211|164524555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5218||95.0||||Change at 2 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.5218
82408090|NCT00289211|164524555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.121||95.0||||Change at 4 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.1210
82408091|NCT00289211|164524555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0||||Change at 12 hours post-infusion.|Wilcoxon (Mann-Whitney)|||||||0.0017
82408092|NCT01474486|164524575|OTHER|||||||0.64|||||||Mixed Models Analysis|||||||0.64
82408093|NCT03863353|164524583|SUPERIORITY||Rebression coefficient|2.13||||0.001|TWO_SIDED|95.0|0.86|3.4||Adjusted for repeated measures and effects of covariates|Regression, Linear|||Hypothesis was tested using multivariable regression models (generalized estimating equation)||3.40|0.86|.001
82408094|NCT03863353|164524584|SUPERIORITY||Odds Ratio (OR)|1.17||||0.534|TWO_SIDED|95.0|0.72|1.9||adjusted for covariates|Regression, Logistic|||Logistic regression model examined the effect of the intervention on the outcome (collapsed intentions/behaviors)||1.90|0.72|0.534
82408095|NCT01038687|164524695|SUPERIORITY|||||||0.059|||||||ANCOVA|||||||0.059
82408096|NCT01038687|164524695|SUPERIORITY|||||||0.18|||||||Dunnett's test|||15mg dose vs placebo||||0.18
82408097|NCT01038687|164524695|SUPERIORITY|||||||0.04|||||||Dunnett's test|||20mg dose vs placebo||||0.04
82408098|NCT01038687|164524696|SUPERIORITY|||||||0.81|||||||ANCOVA|||||||0.81
82408099|NCT01038687|164524696|SUPERIORITY|||||||0.89|||||||Dunnett's test|||15mg dose vs placebo||||0.89
82408100|NCT01038687|164524696|SUPERIORITY|||||||0.76|||||||Dunnett's test|||20mg dose vs placebo||||0.76
82408101|NCT01038687|164524697|SUPERIORITY|||||||0.075|||||||ANCOVA|||||||0.075
82408102|NCT01038687|164524697|SUPERIORITY|||||||0.058|||||||Dunnett's test|||15mg dose vs placebo||||0.058
82408103|NCT01038687|164524697|SUPERIORITY|||||||0.164|||||||Dunnett's test|||20mg dose vs placebo||||0.164
82408104|NCT01038687|164524698|SUPERIORITY|||||||0.084|||||||ANCOVA|||||||0.084
82408105|NCT01038687|164524698|SUPERIORITY|||||||0.98|||||||Dunnett's test|||15mg vs placebo||||0.98
82408106|NCT01038687|164524698|SUPERIORITY|||||||0.079|||||||Dunnett's test|||20mg vs placebo||||0.079
82408107|NCT01038687|164524699|SUPERIORITY|||||||0.058|||||||ANCOVA|||||||0.058
82408108|NCT01038687|164524699|SUPERIORITY|||||||0.32|||||||Dunnett's test|||15mg dose vs placebo||||0.32
82408109|NCT01038687|164524699|SUPERIORITY|||||||0.034|||||||Dunnett's test|||20mg dose vs placebo||||0.034
82408110|NCT01038687|164524700|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82408111|NCT01038687|164524700|SUPERIORITY|||||||0.002|||||||Dunnett's test|||15mg dose vs placebo||||0.002
82408112|NCT01038687|164524700|SUPERIORITY|||||||0.001|||||||Dunnett's test|||20mg vs placebo||||0.001
82408113|NCT01038687|164524701|SUPERIORITY|||||||0.091|||||||ANCOVA|||||||0.091
82531720|NCT00924469|164760838|SUPERIORITY_OR_OTHER||Relative risk|25.533|||<|0.0001||90.0|4.989|130.68|||Cochran-Mantel-Haenszel|||Statistical Analysis 1 for PSA response at Week 12||130.680|4.989|<0.0001
82531721|NCT00924469|164760838|SUPERIORITY_OR_OTHER||Relative risk|1.131||||0.2319||90.0|0.956|1.337|||Cochran-Mantel-Haenszel|||Statistical Analysis 2 for PSA response at Week 24||1.337|0.956|0.2319
82446352|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||86.41|TWO_SIDED|95.0|0.97|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.97|86.41
82408114|NCT01038687|164524701|SUPERIORITY|||||||0.99|||||||Dunnett's test|||15mg dose vs placebo||||0.99
82408115|NCT01038687|164524701|SUPERIORITY|||||||0.103|||||||Dunnett's test|||20mg vs placebo||||0.103
82408116|NCT01038687|164524702|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82408117|NCT01038687|164524702|SUPERIORITY|||||||0.002|||||||Dunnett's test|||15mg dose vs placebo||||0.002
82531722|NCT00924469|164760839|SUPERIORITY_OR_OTHER||Relative risk|2.744||||0.3427||90.0|1.018|5.015|||Cochran-Mantel-Haenszel|||Statistical Analysis 1 for CR at Week 24||5.015|1.018|0.3427
82408118|NCT01038687|164524702|SUPERIORITY|||||||0.001|||||||Dunnett's test|||20mg dose vs placebo||||0.001
82408119|NCT01038687|164524703|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82408120|NCT01038687|164524703|SUPERIORITY|||||||0.053|||||||Dunnett's test|||15mg dose vs placebo||||0.053
82408121|NCT01038687|164524703|SUPERIORITY|||||||0.002|||||||Dunnett's test|||20mg dose vs placebo||||0.002
82408122|NCT05222880|164524704|SUPERIORITY|A superiority Margin of 0.00 logMAR was used for distance.|Mean Population Estimate|-0.1|STANDARD_ERROR_OF_MEAN|0.007|||TWO_SIDED|99.0|-0.12|-0.08||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 17 subjects were required to test the primary hypothesis for Distance.||-0.08|-0.12|
82408123|NCT05222880|164524704|SUPERIORITY|A superiority Margin of 0.17 logMAR was used for Intermediate.|Mean Population Estimate|-0.04|STANDARD_ERROR_OF_MEAN|0.007|||TWO_SIDED|99.0|-0.06|-0.02||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 11 subjects were required to test the primary hypothesis for Intermediate.||-0.02|-0.06|
82408124|NCT05222880|164524704|SUPERIORITY|A superiority Margin of 0.17 logMAR was used for near.|Mean Population Estimate|0.07|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|99.0|0.05|0.09||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% Individually) with at least 99% statistical power, that 48 subjects were required to test the primary hypothesis for Near.||0.09|0.05|
82646693|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.09|TWO_SIDED|95.0|-0.77|0.06||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Post||0.06|-0.77|0.09
82408125|NCT05222880|164524705|SUPERIORITY|A superiority Margin of 36 CLUE Points was used for Hyperopes.|Mean Population Estimate|52.3|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|99.0|45.2|59.4||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 99% statistical power, that 14 subjects were required to test for superiority for CLUE vision scores for Hyperopes.||59.4|45.2|
82408126|NCT05222880|164524705|SUPERIORITY|A superiority Margin of 41 CLUE Points was used for Myopes.|Mean Population Estimate|63.3|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|99.0|58.0|68.6||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 99% statistical power, that 18 subjects were required to test for superiority for CLUE vision scores for Myopes.||68.6|58.0|
82408127|NCT05222880|164524706|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Proportion|0.0019|STANDARD_DEVIATION|0.00209|||TWO_SIDED|95.0|0.0|0.0076|||Bayesian beta- binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.02 and an intraclass correlation of 0.70 with 2000 replicating trials, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 90% with 95% central posterior credible.||0.0076|0.0000|
82408128|NCT05222880|164524707|SUPERIORITY|A superiority margin of 0.05 was used.|Mean Proportion|0.0018|STANDARD_DEVIATION|0.0021|||TWO_SIDED|95.0|0.0|0.0078|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.02 and an intraclass correlation of 0.70 with 2000 replicating trials, that 100 subjects were required to test for superiority to achieve a minimum statistical power of 90% with 95% central posterior credible.||0.0078|0.0000|
82408129|NCT05222880|164524708|SUPERIORITY|A superiority Margin of 41 CLUE Points was used for Hyperopes.|Mean Population Estimate|52.3|STANDARD_ERROR_OF_MEAN|2.75|||TWO_SIDED|99.0|45.2|59.4||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 16 subjects were required to test for superiority for CLUE vision scores for Hyperopes.||59.4|45.2|
82408130|NCT05222880|164524708|SUPERIORITY|A superiority Margin of 46 CLUE Points was used for Myopes.|Mean Population Estimate|63.3|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|99.0|58.0|68.6||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 15 subjects were required to test for superiority for CLUE vision scores for Myopes.||68.6|58.0|
82408131|NCT05222880|164524709|SUPERIORITY|A Superiority margin of 52 CLUE points was used|Mean Population Estimate|72.6|STANDARD_ERROR_OF_MEAN|1.763|||TWO_SIDED|99.0|68.1|77.1||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 11 subjects were required to test for superiority for CLUE comfort scores.||77.1|68.1|
82408132|NCT05222880|164524710|SUPERIORITY|A Superiority margin of 53 CLUE points was used|Mean Population Estimate|67.6|STANDARD_ERROR_OF_MEAN|1.77|||TWO_SIDED|99.0|63.0|72.1||||||It was calculated using a 2-sided one sample mean t-test with a family wise type I error rate of 5% (1% individually) with at least 80% statistical power, that 17 subjects were required to test for superiority for CLUE handling scores.||72.1|63.0|
82531723|NCT00924469|164760842|SUPERIORITY_OR_OTHER||Adjusted mean ratio|0.17|||<|0.0001||90.0|0.098|0.289||Test for no difference of natural log transformed values between treatments was calculated using two-way ANOVA adjusting for Baseline risk factor.|ANOVA|||Statistical Analysis 2 for DHT concentration at Week 12||0.289|0.098|<0.0001
82408133|NCT05222880|164524711|SUPERIORITY|A superiority margin of 0.90 was used.|Mean Posterior Proportion|0.985|STANDARD_DEVIATION|0.0071|||TWO_SIDED|99.0|0.959|0.997|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.98 and an intraclass correlation of 0.70 with 2000 replicating trials, that 92 subjects were required to test for superiority to achieve a minimum statistical power of 80% with 99% central posterior credible.||0.997|0.959|
82408134|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|85.9|||||TWO_SIDED|90.0|80.3|91.7|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||91.7|80.3|
82408135|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|72.6|||||TWO_SIDED|90.0|68.0|77.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||77.6|68.0|
82408136|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|92.4|||||TWO_SIDED|90.0|86.5|98.8|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||98.8|86.5|
82408137|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|76.6|||||TWO_SIDED|90.0|71.6|81.8|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =13.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||81.8|71.6|
82408138|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|133.4|||||TWO_SIDED|90.0|117.2|151.9|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =17.6.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||151.9|117.2|
82408139|NCT04232839|164524736|OTHER||Adjusted geometric mean (gMean) ratio(%)|114.2|||||TWO_SIDED|90.0|102.3|127.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =16.2.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||127.6|102.3|
82408140|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|85.5|||||TWO_SIDED|90.0|80.0|91.4|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||91.4|80.0|
82408141|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|72.1|||||TWO_SIDED|90.0|67.4|77.1|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||77.1|67.4|
82408142|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|92.2|||||TWO_SIDED|90.0|86.3|98.6|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||98.6|86.3|
82408143|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|75.5|||||TWO_SIDED|90.0|70.6|80.7|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =14.0.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'sequence', 'subjects nested within sequences', 'period', and 'treatment' (formulation). The effect 'subjects within sequences' was to be considered as random, while the other effects were to be considered as fixed.||80.7|70.6|
82408144|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|134.2|||||TWO_SIDED|90.0|117.6|153.0|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =17.9.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||153.0|117.6|
82408145|NCT04232839|164524737|OTHER||Adjusted geometric mean (gMean) ratio(%)|114.8|||||TWO_SIDED|90.0|102.9|128.1|||||Test/reference, intra-individual geometric coefficient of variance (gCV) =16.1.|Analysis of variance (ANOVA) model on the logarithmic scale, including effects accounting for 'subjects' and 'treatment'. The effect 'subjects' were to be considered as random, while the effect 'treatment' was to be considered as fixed.||128.1|102.9|
82408146|NCT02563899|164524759|SUPERIORITY_OR_OTHER||Percent difference in treatment|-1.0|||||TWO_SIDED|95.0|-42.2|39.9||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD Vs Vehicle: \<=-30%||39.9|-42.2|
82408147|NCT02563899|164524759|SUPERIORITY_OR_OTHER||Percent difference in treatment|1.0|||||TWO_SIDED|95.0|-39.9|42.2||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD vs Vehicle: \<=-50%||42.2|-39.9|
82408148|NCT02563899|164524759|SUPERIORITY_OR_OTHER||Percent difference in treatment|9.0|||||TWO_SIDED|95.0|-25.2|44.0||||||Umeclidinium, 2 mg/cm\^2 of 1.85%, OD Vs Vehicle: \<=-70%||44.0|-25.2|
82408149|NCT02563899|164524761|SUPERIORITY_OR_OTHER||Percent difference in treatment|27.0|||||TWO_SIDED|95.0|-8.5|62.6||||||||62.6|-8.5|
82408150|NCT01721447|164524762|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||< 0.001
82408151|NCT01721447|164524763|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||< 0.001
82408152|NCT01621009|164524773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61|||>|0.05|TWO_SIDED|95.0|0.78|3.36|||Regression, Logistic|||||3.36|.78|>0.05
82408153|NCT01621009|164524773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||>|0.05|TWO_SIDED|95.0|0.52|2.44|||Regression, Logistic|||||2.44|.52|>0.05
82531724|NCT01651936|164760849|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-0.52||||0.308|TWO_SIDED|95.0|-1.54|0.5|||Constrained Longitudinal Data Analysis|||||0.50|-1.54|0.308
82646694|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.2||0.126|TWO_SIDED|95.0|-0.72|0.09||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.09|-0.72|0.126
82408154|NCT00975416|164524794|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED||||||ANOVA|||Repeated measures ANOVA to deterimine whether oxytocin increased compared to placebo measures of therapeutic alliance (as measured by the Helping alliance questionnaire) pre compared to post 12 sessions of CBT.||||0.927
82408155|NCT00975416|164524794|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||Repeated measures anova to determine if oxytocin compared to placebo increased therpeutic alliance as measured by the working alliance inventory after 12 sessions of CBT.||||0.60
82408156|NCT01026493|164524815|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.66|1.48|||Log Rank|Two-sided test|Reference level = Arm 1/BEV-NAIVE|||1.48|0.66|0.95
82408157|NCT01026493|164524815|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.93|TWO_SIDED|95.0|0.57|1.53|||Log Rank|Two-sided test|Reference level = Arm 1/BEV-FAILURE|||1.53|0.57|0.93
82408158|NCT03154086|164524900|OTHER||Ratio|0.8||||0.204|TWO_SIDED|90.0|0.594|1.077|||ANOVA|||||1.077|0.5940|0.204
82408159|NCT03154086|164524901|OTHER||Ratio|0.7325||||0.118|TWO_SIDED|90.0|0.5267|1.019|||ANOVA|||||1.019|0.5267|0.118
82408160|NCT03154086|164524902|OTHER||Ratio|0.6502||||0.157|TWO_SIDED|90.0|0.3876|1.091|||ANOVA|||||1.091|0.3876|0.157
82408161|NCT02295644|164524922|SUPERIORITY_OR_OTHER|||||||0.17||||||Interaction test of duty cycle and intensity for self reported pain score|ANOVA|||||||0.17
82408162|NCT02295644|164524922|SUPERIORITY_OR_OTHER|||||||0.14||||||Main effect of duty cycle on self reported pain score.|ANOVA|||||||0.14
82408163|NCT02295644|164524922|SUPERIORITY_OR_OTHER|||||||1||||||Main effect of intensity on self reported pain score.|ANOVA|||||||1.0
82408164|NCT02295644|164524923|SUPERIORITY_OR_OTHER|||||||0.24||||||Main effect for duty cycle.|ANOVA|||||||.24
82408165|NCT02295644|164524923|SUPERIORITY_OR_OTHER|||||||0.019||||||Main effect for intensity.|ANOVA|||||||0.019
82408166|NCT02295644|164524923|SUPERIORITY_OR_OTHER|||||||0.17|||||||ANOVA|||Interaction of intensity and duty cycle.||||0.17
82408167|NCT02295644|164524924|SUPERIORITY_OR_OTHER|||||||0.034||||||Main effect for duty cycle.|ANOVA|||||||0.034
82408168|NCT02295644|164524924|SUPERIORITY_OR_OTHER|||||||0.475|||||||ANOVA|||Main effect for intensity.||||0.475
82408169|NCT02295644|164524924|SUPERIORITY_OR_OTHER|||||||0.178|||||||ANOVA|||Interaction of intensity and duty cycle.||||.178
82408170|NCT00572832|164524956|NON_INFERIORITY_OR_EQUIVALENCE|The formula used for calculating sample size for the treatment arm (NT) is NT = (1 + 1/u) (Zα + Zβ)2 σ2 /\[log (RGMC) -δ0\] where u is the ratio of the size of the control and treatment arms, one sided alpha that is divided by 4, a non-inferiority margin (δ0 of natural log 0.5), the expected ratio of geometric mean concentrations RGMC set at 0.8, and a standard deviation of 1.26 (the largest for HPV-16). The calculated sample size for a power of 80% was 75 participants in each arm.||||||0.025||95.0||||Non-inferiority was tested against a one-sided null hypothesis (alpha=.025) that the post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type. Results: GMT ratios were 2.23, 3,17, 2.14, and 1.68 for types 6,11,16,\& 18.|ANOVA|Log transformed the data and calculated GMTs. Tested if post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type||Non-inferiority tested against 1-sided null hypothesis (alpha=.025) that the post Dose 3 GMT ratio of the Alternate to Standard schedule was ≤ 0.5 for each HPV type||||.025
82408171|NCT00966433|164524957|OTHER||Mean Difference (Final Values)|-8.2||||0.0051|TWO_SIDED|95.0|-13.61|-2.79|||t-test, 2 sided|||||-2.79|-13.61|.0051
82408172|NCT00966433|164524958|OTHER||Mean Difference (Final Values)|3.6||||0.0001|TWO_SIDED|95.0|2.97|4.23|||t-test, 2 sided|||||4.23|2.97|.0001
82408173|NCT00966433|164524963|OTHER||Mean Difference (Final Values)|-13.9||||0.0001|TWO_SIDED|95.0|-18.88|-8.92|||t-test, 2 sided|||||-8.92|-18.88|.0001
82408174|NCT00324155|164524967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.4067|TWO_SIDED|95.0|0.799|1.74|||Cochran-Mantel-Haenszel|Stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and ECOG performance status (0 vs 1) recorded at randomization.||Analysis stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs 1) recorded at randomization.||1.740|0.799|0.4067
82408175|NCT00324155|164524975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.716||||0.0009|TWO_SIDED|95.0|0.588|0.872||p-value was via stratified log-rank test|Log Rank||Hazard ratio via stratified Cox proportional hazards model.|Analysis stratified for metastasis stage (M0 vs M1a vs M1b vs M1c) and Eastern Cooperative Oncology Group performance status (0 vs 1) recorded at randomization.||0.872|0.588|0.0009
82408176|NCT01924533|164525002|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.0262|TWO_SIDED|97.5|0.63|1.0|||Cox proportional hazards model|||||1.00|0.63|0.0262
82408177|NCT01924533|164525003|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.2458|TWO_SIDED|97.5|0.4|1.34|||Cox proportional hazards model|||||1.34|0.40|0.2458
82408178|NCT01924533|164525004|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.0645|TWO_SIDED|97.5|0.67|1.04|||Cox proportional hazards model|||||1.04|0.67|0.0645
82408179|NCT01924533|164525005|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.2199|TWO_SIDED|97.5|0.42|1.29|||Cox proportional hazards model|||||1.29|0.42|0.2199
82531725|NCT01651936|164760850|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|-0.26||||0.91|TWO_SIDED|95.0|-23.52|23.01|||Cochran-Mantel-Haenszel|||||23.01|-23.52|0.91
82646695|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.28|TWO_SIDED|95.0|-0.65|0.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.19|-0.65|0.28
82646696|NCT02567266|165008166|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.21||0.697|TWO_SIDED|95.0|-0.51|0.34||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-I at Follow-Up||0.34|-0.51|0.697
82408180|NCT01924533|164525006|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.69||||0.0548|TWO_SIDED|97.5|0.92|3.17|||Regression, Logistic|||||3.17|0.92|0.0548
82408181|NCT01924533|164525007|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.24||||0.0309|TWO_SIDED|97.5|0.95|23.23|||Regression, Logistic|||||23.23|0.95|0.0309
82531726|NCT01651936|164760852|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|8.46||||0.468|TWO_SIDED|95.0|-10.4|27.32|||Cochran-Mantel-Haenszel|||||27.32|-10.40|0.468
82646697|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.779|TWO_SIDED|95.0|-0.6|0.45||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.45|-0.6|0.779
82408182|NCT01924533|164525008|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0716|TWO_SIDED|97.5|0.64|1.05|||Cox proportional hazards model|||||1.05|0.64|0.0716
82408183|NCT01924533|164525009|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0927|TWO_SIDED|97.5|0.34|1.16|||Cox proportional hazards model|||||1.16|0.34|0.0927
82408184|NCT04233879|164525014|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% confidence interval (95%CI) was less than 10 percentage points.|Treatment Difference|0.6|||||TWO_SIDED|95.0|-4.5|5.8|||||Unstratified Miettinen and Nurminen method was used to generate the treatment difference and the associated 95%CI.|||5.8|-4.5|
82408185|NCT04233879|164525015|OTHER|Difference between treatment groups (Group 1: DOR/ISL and Group 2: BIC/FTC/TAF)|Percentage Difference|4.3|||||TWO_SIDED|95.0|-0.8|9.6|||||Miettinen \& Nurminen method was used to generate percentage difference and the associated 95%CI.|||9.6|-0.8|
82408186|NCT04233879|164525016|OTHER|Difference between treatment groups (Group 1: DOR/ISL and Group 2: BIC/FTC/TAF)|Percentage Difference|4.0|||||TWO_SIDED|95.0|0.4|7.9|||||Miettinen \& Nurminen method was used to generate percentage difference and the associated 95%CI.|||7.9|0.4|
82408187|NCT04233879|164525019|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 10 percentage points.|Treatment Difference|2.3|||||TWO_SIDED|95.0|-3.1|7.7|||||Miettinen and Nurminen method was used to generate treatment difference and the associated 95%CI.|||7.7|-3.1|
82408188|NCT04233879|164525020|NON_INFERIORITY|Non-inferiority was concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 10 percentage points.|Treatment Difference|1.0|||||TWO_SIDED|95.0|-4.1|6.1|||||Miettinen and Nurminen method was used to generate treatment difference and the associated 95%CI.|||6.1|-4.1|
82531727|NCT01651936|164760854|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-0.41||||0.038|TWO_SIDED|95.0|-0.79|-0.02|||Constrained Longitudinal Data Analysis|||||-0.02|-0.79|0.038
82408189|NCT04233879|164525031|SUPERIORITY|Superiority will be concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI was less than 0.|Treatment Difference|0.15||||0.73|TWO_SIDED|95.0|-0.71|1.02|||ANCOVA|A 2-sided p-value was calculated using the Analysis of covariance (ANCOVA) model.|ANCOVA model was used to generate treatment difference and the associated 95%CI.|||1.02|-0.71|0.73
82408190|NCT03292016|164525036|OTHER||Geometric Mean ratio (APL-130277/APOKYN)|12.3|||||TWO_SIDED|90.0|7.5|20.3|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||Sample size of 12 subjects, a two-sided 90% CI for the difference in paired PK parameter means on the log scale will have an interval that extends no more than 0.221 units from the observed difference with 90% coverage probability. Assumes CV of 35% for the difference on the original scale.||20.3|7.5|
82408191|NCT03292016|164525036|OTHER||Geometric Mean ratio (APL-130277/APO-go)|10.3|||||TWO_SIDED|90.0|6.5|16.3||||||||16.3|6.5|
82408192|NCT03292016|164525036|OTHER|relative bioavailibilty|Geometric Mean ratio (APOKYN/APO-go)|83.4|||||TWO_SIDED|90.0|50.5|137.6||||||||137.6|50.5|
82408193|NCT03292016|164525036|OTHER||Ratio|0.21|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APO-Go 3 mg|||||
82408194|NCT03292016|164525036|OTHER||Ratio|0.13|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APOKYN 3 mg|||||
82408195|NCT03292016|164525036|OTHER||Ratio|1.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 3 mg and APOKYN 3 mg|||||
82408196|NCT03292016|164525036|OTHER||Ratio|0.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APO-Go 4 mg|||||
82408197|NCT03292016|164525036|OTHER||Ratio|0.17|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APOKYN 4 mg|||||
82408198|NCT03292016|164525036|OTHER||Ratio|1.12|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 4 mg and APOKYN 4 mg|||||
82408199|NCT03292016|164525036|OTHER||Ratio|0.08|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APO-Go 5 mg|||||
82408200|NCT03292016|164525036|OTHER||Ratio|0.09|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APOKYN 5 mg|||||
82408201|NCT03292016|164525036|OTHER||Ratio|1.04|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 5 mg and APOKYN 5 mg|||||
82408202|NCT03292016|164525037|OTHER|||||||0.0625|||||||Sign test|||||||0.0625
82408203|NCT03292016|164525037|OTHER|||||||0.0313|||||||Sign test|||||||0.0313
82408204|NCT03292016|164525037|OTHER||||||>|0.9999|||||||Sign test|||||||>0.9999
82408205|NCT03292016|164525038|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|17.2|||||TWO_SIDED|90.0|13.1|22.5|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||||22.5|13.1|
82408206|NCT03292016|164525038|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|16.7|||||TWO_SIDED|90.0|13.0|21.3|||Mixed Models Analysis|||||21.3|13.0|
82531728|NCT03745794|164760934|OTHER|||||||0.17|||||||Chi-squared|||||||0.17
82531729|NCT00981825|164760945|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82531730|NCT03881059|164760965|SUPERIORITY||Slope Coefficient of Dose|0.11|||<|0.001|TWO_SIDED|95.0|0.05|0.17|||Regression, Logistic|||||0.17|0.05|<0.001
82576332|NCT02209181|164862067|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.7||0.726|TWO_SIDED|95.0|-1.62|1.13||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.13|-1.62|0.726
82531731|NCT02065570|164761009|SUPERIORITY||Adjusted risk difference|0.3||||0.939|TWO_SIDED|95.0|-8.1|8.8||Adjusted for previous infliximab use (or prior anti-tumor necrosis factor (TNF) use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.8|-8.1|0.939
82531732|NCT02065570|164761010|SUPERIORITY||Adjusted risk difference|3.2||||0.462|TWO_SIDED|95.0|-5.3|11.7||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.7|-5.3|0.462
82408207|NCT03292016|164525038|OTHER||Geometric Mean Ratio (APOKYN/APO-go)|96.9|||||TWO_SIDED|90.0|74.2|126.4||||||||126.4|74.2|
82408208|NCT03292016|164525038|OTHER||Ratio|0.32|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APO-Go 3 mg|||||
82408209|NCT03292016|164525038|OTHER||Ratio|0.16|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 20 mg and APOKYN 3 mg|||||
82408210|NCT03292016|164525038|OTHER||Ratio|1.09|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 3 mg and APOKYN 3 mg|||||
82408211|NCT03292016|164525038|OTHER||Ratio|0.23|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APO-Go 4 mg|||||
82408212|NCT03292016|164525038|OTHER||Ratio|0.23|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 25 mg and APOKYN 4 mg|||||
82408213|NCT03292016|164525038|OTHER||Ratio|1.0|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 4 mg and APOKYN 4 mg|||||
82408214|NCT03292016|164525038|OTHER||Ratio|0.15|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APO-Go 5 mg|||||
82408215|NCT03292016|164525038|OTHER||Ratio|0.14|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APL 30 mg and APOKYN 5 mg|||||
82408216|NCT03292016|164525038|OTHER||Ratio|0.96|||||||||||||The comparative bioavailability calculated as the ratio of the Test/Reference between APO-Go 5 mg and APOKYN 5 mg|||||
82408217|NCT03292016|164525039|OTHER||Geometric Mean Ratio (APL-130277/APOKYN)|17.6|||||TWO_SIDED|90.0|13.7|22.5|||Mixed Models Analysis|With fixed effects-treatment and period, random effect-subject nested within sequence to analyze natural-log transformed dose normalized parameter.||||22.5|13.7|
82408218|NCT03292016|164525039|OTHER||Geometric Mean Ratio (APL-130277/APO-go)|17.2|||||TWO_SIDED|90.0|13.7|21.6|||Mixed Models Analysis|||||21.6|13.7|
82408219|NCT03292016|164525039|OTHER||Geometric Mean Ratio (APOKYN/APO-go)|97.8|||||TWO_SIDED|90.0|76.6|124.8|||Mixed Models Analysis|||||124.8|76.6|
82408220|NCT03292016|164525044|OTHER|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||||||0.0313
82408221|NCT03292016|164525044|OTHER|||||||0.0625|||||||Wilcoxon (Mann-Whitney)|||||||0.0625
82408222|NCT03292016|164525044|OTHER||||||>|0.9999|||||||Wilcoxon (Mann-Whitney)|||||||>0.9999
82408223|NCT00931632|164525144|SUPERIORITY_OR_OTHER|||||||0.427|TWO_SIDED||||||Mantel Haenszel|||||||0.427
82408224|NCT01419314|164525154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.19|STANDARD_DEVIATION|20.25||0.001|TWO_SIDED|95.0|38.33|52.05|||ANOVA|Sphericity was not tenable for the factor pain scores, degrees of freedom were corrected using Huynh-Feldt estimates, df (1.71,56.46).||A repeated measure ANOVA was performed to evaluate the contrasts of interest.||52.05|38.33|0.001
82408225|NCT01419314|164525154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.09|STANDARD_ERROR_OF_MEAN|3.6|<|0.0005|TWO_SIDED|95.0|8.8|23.39||Bonferroni adjustment for significance\<0.013.|t-test, 2 sided||Paired t-test contrasting pain scores from baseline to week six of the trial-Splint group. The statistical power for the within splint intervention contrast was calculated to be 0.99.|Null hypothesis: Is there a difference in baseline pain scores compared to those at week 6 in the splinting group?||23.39|8.80|<0.0005
82408226|NCT01419314|164525154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|5.27||0.155|TWO_SIDED|95.0|-13.93|7.47||Bonferroni adjustment for significance\<0.013.|t-test, 2 sided|df(35)|The statistical power for the between intervention contrast was calculated to be 0.26|Null Hypothesis: There is not difference in pain scores between the liner and splint applications at week three.||7.47|-13.93|0.155
82408227|NCT01419314|164525154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.67|STANDARD_ERROR_OF_MEAN|6.66||0.155|TWO_SIDED|95.0|-23.2|3.85|||t-test, 2 sided|df(35)||Null Hypothesis: There is no difference in pain scores between the liner and splint applications at week six.||3.85|-23.20|0.155
82408228|NCT00402727|164525164|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set to 10% in the protocol, in agreeance with FDA recommendations. Sample size was estimated using the method as described in Farrington-Manning. Estimation was performed to achieve 85% power, based on the equivalence delta of 10%, and a clinical success rate of 80% in the per protocol population|Difference of cure rates (in percent)|-1.0||||||95.0|-5.3|3.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group.|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||3.9|-5.3|
82408229|NCT00402727|164525165|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of cure rates (in percent)|1.3||||||95.0|-3.8|6.3|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||6.3|-3.8|
82408230|NCT00402727|164525166|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of improvement rates (in %)|-0.7||||||95.0|-1.6|0.6|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||0.6|-1.6|
82408231|NCT00402727|164525167|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of improvement rates (in %)|1.4||||||95.0|-1.3|3.9|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||3.9|-1.3|
82408232|NCT00402727|164525168|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of resolution rates (in %)|0.2||||||95.0|-3.1|2.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||2.4|-3.1|
82408233|NCT00402727|164525169|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of resolution rates (in %)|1.6||||||95.0|-2.4|5.3|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||5.3|-2.4|
82408234|NCT00402727|164525170|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-8.5||||||95.0|-17.0|-1.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-1.4|-17.0|
82408235|NCT00402727|164525171|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-8.6||||||95.0|-17.6|-0.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-0.4|-17.6|
82408236|NCT00402727|164525172|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-3.9||||||95.0|-9.5|1.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||1.4|-9.5|
82408237|NCT00402727|164525173|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-5.6||||||95.0|-11.4|-0.8|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||-0.8|-11.4|
82408238|NCT00402727|164525174|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-0.1||||||95.0|-6.9|5.4|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||5.4|-6.9|
82408239|NCT00402727|164525175|NON_INFERIORITY_OR_EQUIVALENCE|Sample size estimation was based on the primary efficacy variable.|Difference of eradication rates (in %)|-2.9||||||95.0|-9.3|2.2|||||A positive value indicates an advantage for the treatment group of moxifloxacin, a negative value an advantage for the comparator group|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al.||2.2|-9.3|
82408240|NCT02084511|164525180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.39|||||TWO_SIDED|95.0|-76.3|131.1|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||131.1|-76.3|
82408241|NCT02084511|164525180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.48|||||TWO_SIDED|95.0|-50.2|157.1|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||157.1|-50.2|
82408242|NCT02084511|164525180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-174.61|||||TWO_SIDED|95.0|-278.3|-70.9|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-70.9|-278.3|
82408243|NCT02084511|164525180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-148.53|||||TWO_SIDED|95.0|-252.4|-44.7|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-44.7|-252.4|
82408244|NCT02084511|164525181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-2.3|5.7|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||5.7|-2.3|
82408245|NCT02084511|164525181|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.98|||||TWO_SIDED|95.0|-3.0|5.0|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||5.0|-3.0|
82408246|NCT02084511|164525181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27|||||TWO_SIDED|95.0|-10.3|-2.2|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-2.2|-10.3|
82408247|NCT02084511|164525181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.98|||||TWO_SIDED|95.0|-11.0|-2.9|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||-2.9|-11.0|
82531733|NCT02065570|164761012|SUPERIORITY||Adjusted risk difference|4.6||||0.269|TWO_SIDED|95.0|-3.6|12.8||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||12.8|-3.6|0.269
82408248|NCT02084511|164525182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.93|||||TWO_SIDED|95.0|-16.0|27.8|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||27.8|-16.0|
82408249|NCT02084511|164525182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.58|||||TWO_SIDED|95.0|-1.3|42.5|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||42.5|-1.3|
82408250|NCT02084511|164525182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.29|||||TWO_SIDED|95.0|-35.2|8.6|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||8.6|-35.2|
82408251|NCT02084511|164525182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.37|||||TWO_SIDED|95.0|-20.6|23.3|||||Mean difference (final values) is actually the Least square mean|ANCOVA model was used with 'treatment' as fixed effect, 'patient baseline pain intensity (BPI)' as continuous covariate and the residual error term.||23.3|-20.6|
82408252|NCT02084511|164525183|SUPERIORITY_OR_OTHER|||||||0.2503|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.2503
82408253|NCT02084511|164525183|SUPERIORITY_OR_OTHER|||||||0.1851|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.1851
82408254|NCT02084511|164525183|SUPERIORITY_OR_OTHER|||||||0.0167|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.0167
82408255|NCT02084511|164525184|SUPERIORITY_OR_OTHER|||||||0.415|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.4150
82408256|NCT02084511|164525184|SUPERIORITY_OR_OTHER|||||||0.3093|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.3093
82408257|NCT02084511|164525184|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Log Rank|||Log rank test used to evaluate the difference between each active treatment and placebo.||||0.0074
82408258|NCT01328964|164525189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.51|0.974||The p-value is a comparison of the combined hospitalization/emergency department visit endpoint|Regression, Cox|||||0.974|0.51|<0.0001
82408259|NCT01328964|164525190|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-19.0|-9.0||P-value is based on the differences in the total monthly asthma costs|Regression, Linear|||||-9|-19|<0.001
82408260|NCT01328964|164525191|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0495|TWO_SIDED|95.0|0.565|0.999||P-value is based on the comparison of combined endpoint of hospitalization/emergency department visits|Regression, Cox|||||0.999|0.565|0.0495
82408261|NCT01328964|164525192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-27.0||P-value is based on difference in total monthly asthma costs|Regression, Linear|||||-27|-28|<0.0001
82408262|NCT00461734|164525193|SUPERIORITY_OR_OTHER|||||||0.4347|||||||two-sided z-test|||||||0.4347
82408263|NCT00461734|164525194|SUPERIORITY_OR_OTHER|||||||0.338|||||||two-sided z-test|||||||0.338
82408264|NCT00461734|164525195|SUPERIORITY_OR_OTHER|||||||0.2257|||||||Wilcoxon (Mann-Whitney)|||||||0.2257
82408265|NCT00461734|164525196|SUPERIORITY_OR_OTHER|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||||||0.5480
82408266|NCT00461734|164525197|SUPERIORITY_OR_OTHER|||||||0.8868|||||||Wilcoxon (Mann-Whitney)|||||||0.8868
82408267|NCT00461734|164525198|SUPERIORITY_OR_OTHER|||||||0.6151|||||||Wilcoxon (Mann-Whitney)|||||||0.6151
82408268|NCT00461734|164525202|SUPERIORITY_OR_OTHER|||||||0.0525|||||||t-test, 2 sided|||||||0.0525
82408269|NCT00461734|164525203|SUPERIORITY_OR_OTHER|||||||0.1852|||||||t-test, 2 sided|||||||0.1852
82408270|NCT00461734|164525205|SUPERIORITY_OR_OTHER|||||||0.9719|||||||Wilcoxon (Mann-Whitney)|||||||0.9719
82408271|NCT00461734|164525206|SUPERIORITY_OR_OTHER|||||||0.8779|||||||Wilcoxon (Mann-Whitney)|||||||0.8779
82408272|NCT01257347|164525230|SUPERIORITY_OR_OTHER||||||<=|0.001||||||We included a stopping rule in which recruitment would be stopped at the midpoint for futility if the z-score was negative or for efficacy if the z-score was positive and the p-value ≤ 0.001.|GEE model|GEE models (logit link) with clinician as the cluster variable, appropriateness of management as outcome, intervention group as explanatory variable.||The sample size was calculated to have sufficient power to detect meaningful differences in appropriateness of clinician management between intervention and control groups. Each patient-clinician encounter was treated as independent and the sample size was inflated to account for the design effect (DE) of clustering of patients within clinician. GEE stands for generalized estimating equation.||||<=0.001
82408273|NCT03204643|164525234|SUPERIORITY||Odds Ratio (OR)|0.74||||0.06|TWO_SIDED|95.0|0.54|1.02|||Regression, Logistic|||||1.02|0.54|0.06
82408274|NCT03204643|164525235|SUPERIORITY||Odds Ratio (OR)|1.07||||0.76|TWO_SIDED|95.0|0.7|1.64|||Mixed Models Analysis|||||1.64|0.70|0.76
82408275|NCT03204643|164525236|SUPERIORITY||Odds Ratio (OR)|1.16||||0.62|TWO_SIDED|95.0|0.65|2.08|||Mixed Models Analysis|||||2.08|0.65|0.62
82408276|NCT03204643|164525237|SUPERIORITY||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|0.96|0.96|1.9|||Mixed Models Analysis|||||1.90|0.96|0.08
82408277|NCT00944710|164525249|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.0||||0.33|TWO_SIDED|95.0|-10.0|30.0|||Binomial regression|adjusted for visual acuity at randomization||||30|-10|0.33
82408278|NCT00944710|164525254|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.12|TWO_SIDED|95.0|-0.01|0.12|||ANCOVA|The ANCOVA model included amblyopic eye visual acuity at randomization as an adjustment covariate.|Positive values favor the Intensified Treatment group|The primary analysis was a treatment group comparison of the masked 10-week amblyopic eye visual acuity using an analysis of covariance (ANCOVA) model, adjusting for visual acuity at randomization. The analysis was a 2-sided test for efficacy to test the null hypothesis of no treatment difference, assuming 90% power and a type I error rate of 5%.||0.12|-0.01|0.12
82576333|NCT02209181|164862067|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.69||0.869|TWO_SIDED|95.0|-1.48|1.25||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.25|-1.48|0.869
82408279|NCT00944710|164525262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.55|TWO_SIDED|95.0|-0.23|0.43|||ANCOVA|||A treatment group difference in fellow-eye visual acuity change at the 12-week exam was evaluated using an ANCOVA model, adjusting for the fellow-eye visual acuity at randomization.||0.43|-0.23|0.55
82408280|NCT00944710|164525271|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The distribution of 12-week Randot Preschool Stereoacuity scores was compared between treatment groups using a Wilcoxon rank sum test.||||0.23
82408281|NCT00944710|164525272|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The distribution of 12-week Randot Preschool Stereoacuity scores was compared between treatment groups using a Wilcoxon rank sum test.||||0.66
82408282|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|Cochran-Armitage trend test|A step-down procedure and Abelson-Tukey scaling were used for the trend test.||||||<0.001
82408283|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|Cochran-Armitage trend test|A step-down procedure and Abelson-Tukey scaling were used for the trend test.||||||0.057
82408284|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|18.53||||||95.0|7.84|28.65|||||CI based on the Wilson's score method.|||28.65|7.84|
82408285|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|10.0||||||95.0|-0.66|20.46|||||CI based on the Wilson's score method.|||20.46|-0.66|
82408286|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|9.18||||||95.0|-1.25|19.39|||||CI based on the Wilson's score method.|||19.39|-1.25|
82408287|NCT00264147|164525330|SUPERIORITY_OR_OTHER_LEGACY||difference in percentage of patients|6.49||||||95.0|-3.76|16.61|||||CI based on the Wilson's score method.|||16.61|-3.76|
82408288|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.002
82408289|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY|||||||0.221||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.221
82408290|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.06||||||95.0|-6.44|-1.68||||||||-1.68|-6.44|
82408291|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49||||||95.0|-3.91|0.93||||||||0.93|-3.91|
82408292|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.74||||||95.0|-5.13|-0.35||||||||-0.35|-5.13|
82408293|NCT00264147|164525331|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||||95.0|-4.88|-0.12||||||||-0.12|-4.88|
82408294|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.001
82408295|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.125||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.125
82408296|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.24||||||95.0|-3.64|-0.84||||||||-0.84|-3.64|
82408297|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.02||||||95.0|-2.44|0.41||||||||0.41|-2.44|
82408298|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22||||||95.0|-2.63|0.18||||||||0.18|-2.63|
82408299|NCT00264147|164525332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49||||||95.0|-1.89|0.91||||||||0.91|-1.89|
82408300|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408301|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408302|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408303|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.023
82408304|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.16||||||95.0|-19.38|-8.95||||||||-8.95|-19.38|
82408305|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.21||||||95.0|-14.52|-3.9||||||||-3.90|-14.52|
82408306|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.87||||||95.0|-14.11|-3.63||||||||-3.63|-14.11|
82408307|NCT00264147|164525333|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.05||||||95.0|-11.27|-0.83||||||||-0.83|-11.27|
82408308|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82576334|NCT02209181|164862067|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.52|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.13|3.9||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||3.90|1.13|<0.001
82408309|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408310|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408311|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.018
82408312|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56||||||95.0|-0.77|-0.35||||||||-0.35|-0.77|
82408313|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||||95.0|-0.55|-0.13||||||||-0.13|-0.55|
82408314|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||||95.0|-0.61|-0.19||||||||-0.19|-0.61|
82408315|NCT00264147|164525334|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25||||||95.0|-0.46|-0.04||||||||-0.04|-0.46|
82408316|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||<0.001
82408317|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.018
82446353|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||13.52|TWO_SIDED|95.0|0.94|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.94|13.52
82576335|NCT02209181|164862067|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.69||0.851|TWO_SIDED|95.0|-1.24|1.5||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.50|-1.24|0.851
82576336|NCT02209181|164862067|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.76|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.38|4.15||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||4.15|1.38|<0.001
82646698|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.27||0.66|TWO_SIDED|95.0|-0.42|0.67||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.67|-0.42|0.66
82408318|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.017
82408319|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0||||Overall alpha=0.05 for multiple comparisons with a step-down procedure (p-values subsequent to the first non-significant p-value were not reported).|ANCOVA|Based on a trend test with a step-down procedure and Abelson-Tukey scaling.||||||0.080
82408320|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.44||||||95.0|-19.62|-9.26||||||||-9.26|-19.62|
82408321|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.22||||||95.0|-11.52|-0.92||||||||-0.92|-11.52|
82408322|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.32||||||95.0|-11.53|-1.12||||||||-1.12|-11.53|
82408323|NCT00264147|164525335|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.63||||||95.0|-9.81|0.55||||||||0.55|-9.81|
82408324|NCT00434252|164525406|SUPERIORITY_OR_OTHER||Difference in survival rates|3.5||||0.5724||95.0|-8.7|15.7|||z-test|z-test using the standard errors computed using Greenwood's method.||||15.7|-8.7|0.5724
82408325|NCT00434252|164525407|SUPERIORITY_OR_OTHER||Difference in event rates|12.2||||0.0982||95.0|-2.3|26.6|||z-test|z-test using the standard errors computed using Greenwood's method||||26.6|-2.3|0.0982
82408326|NCT02470741|164525416|SUPERIORITY||Mean Difference (Net)|-11.85||||0.24|TWO_SIDED|95.0|-32.92|9.23|||Mixed Models Analysis|Repeated measures mixed models, with unstructured co-variance matrix.|Model generated LS Mean Differences|Null hypotheses: Letrozole is not associated with an improvement in the UFSQOL Overall Score.||9.23|-32.92|0.24
82408327|NCT00720278|164525425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_DEVIATION|0.47|<|0.001||95.0|-2.98|-1.14|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.14|-2.98|<0.001
82408328|NCT00720278|164525425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|0.465|<|0.001||95.0|-3.91|-2.09|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-2.09|-3.91|<0.001
82408329|NCT00720278|164525426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_DEVIATION|0.479|<|0.001||95.0|-2.72|-0.84|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-0.84|-2.72|<0.001
82408330|NCT00720278|164525426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.668|STANDARD_DEVIATION|0.4735|<|0.001||95.0|-3.6|-1.74|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.74|-3.60|<0.001
82408331|NCT00720278|164525427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.376|STANDARD_DEVIATION|0.418||0.001||95.0|-2.2|-0.56|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-0.56|-2.20|0.001
82408332|NCT00720278|164525427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.432|STANDARD_DEVIATION|0.4145|<|0.001||95.0|-3.24|-1.62|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 14||-1.62|-3.24|<0.001
82408333|NCT01677286|164525440|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Mean outcome change|171.0||||0.035|TWO_SIDED|95.0|14.1|328.0|||Mixed Models Analysis|degrees of freedom = 12||BNP pg/mL, baseline versus end study values||328|14.1|0.035
82408334|NCT01677286|164525441|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Mean outcome change|0.0072||||0.34|TWO_SIDED|95.0|-0.009|0.0234|||Mixed Models Analysis|degrees of freedom = 12||Troponin I ng/mL, baseline versus end study levels.||0.0234|-0.009|0.340
82408335|NCT01677286|164525442|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Change in outcome measure|-7.39||||0.017|TWO_SIDED|95.0|-13.12|-1.67|||Mixed Models Analysis|degrees of freedom = 10||Creatinine clearance, baseline versus end study levels.||-1.67|-13.12|0.017
82408336|NCT01677286|164525443|OTHER|P-values and confidence intervals are not adjusted for multiple testing|Change in outcome measure|0.091||||0.603|TWO_SIDED|95.0|-0.285|0.466|||Mixed Models Analysis|degrees of freedom = 10||Proteinuria (g/24 hours), baseline versus end study levels.||0.466|-0.285|0.603
82408337|NCT00408499|164525448|OTHER|Maximum tolerated dose was derived from toxicity data obtained from dose level 1-4.|Maximum tolerated dose|4.0|||||TWO_SIDED||||||||Maximum tolerated dose was determined to be dose level 4: 150 mg Erlotinib, 250 mg/m2 Cetuximab|||||
82408338|NCT03499795|164525471|SUPERIORITY|||||||0.8633|||||||Clopper-Pearson|P-value was calculated based on the exact method of Clopper-Pearson and superiority was concluded if the one-sided p-value is \<0.05.||||||0.8633
82408339|NCT01450813|164525486|NON_INFERIORITY_OR_EQUIVALENCE|Sample size needed for a one-way ANOVA test with an alpha of 0.05 and power of 0.8 to rule out the null hypothesis that neuromuscular blocking drugs have no effect on CVI with 95% confidence was a total of 64 or 16 per Group.|||||<|0.05||||||Comparisons of the means were accomplished via student's t-test with Bonferroni correction for multiple comparisons.|ANOVA|||Null hypothesis that neuromuscular blocking drugs have no effect on CVI with 95% confidence.||||< 0.05
82408340|NCT01935089|164525489|OTHER|"Hypothesis: 20 weeks of treatment (baseline week 3 to endpoint week 24) will result in a change in the levels of integrated HIV-1 DNA (copies/CD4 T cell Variable name: intDNA).~Test if the mean difference (IntDNA wk24 - IntDNAwk3) is significantly different from zero (i.e. no change) Null hypothesis: Mean (IntDNA wk24 - IntDNAwk3) = 0; reject if p\<0.05"||||||0.0797||||||significant if \<0.05|signed rank test|||||||0.0797
82408341|NCT01079780|164525494|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|||||||||||||
82531734|NCT02065570|164761013|SUPERIORITY||Adjusted risk difference|1.8||||0.61|TWO_SIDED|95.0|-5.1|8.7||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.7|-5.1|0.610
82408342|NCT01079780|164525495|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
82408343|NCT01079780|164525497|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.55|TWO_SIDED||||||Log Rank|||||||0.55
82408344|NCT01178294|164525505|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||one-sided binomial exact test|||Summary statistics for the percentage of participants with serious bleeding episodes responsive at 24 hours after the initiation of treatment are presented, along with the 95% confidence interval (two-sided 95% Clopper-Pearson confidence interval).||||<0.001
82408345|NCT03176771|164525537|SUPERIORITY||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.5|-2.6|||Mixed-effect Model Repeated Measures|||"Control for multiplicity was accomplished through the a fixed-sequence testing procedure for Week 6 outcomes:~* AIMS dyskinesia total score mean change from baseline (CFB): MT-5199 80 mg vs. placebo.~* AIMS: MT-5199 40 mg vs. PBO. For a test result in the above list to be considered statistically significant, all of the test results higher in the list must have been significant at the 0.05 level of significance."||-2.6|-4.5|<0.001
82408346|NCT03176771|164525537|SUPERIORITY||Median Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.3|||Mixed-effect Model Repeated Measures|||||-1.3|-3.0|<0.001
82408347|NCT03176771|164525538|SUPERIORITY||Risk Difference (RD)|13.6||||0.027|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.027
82408348|NCT03176771|164525538|SUPERIORITY||Risk Difference (RD)|36.9|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82408349|NCT03176771|164525539|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.013|TWO_SIDED|95.0|-2.7|-0.3|||Mixed-effect Model Repeated Measures|||||-0.3|-2.7|0.013
82408350|NCT03176771|164525539|SUPERIORITY||Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.5|-1.1|||Mixed-effect Model Repeated Measures|||||-1.1|-3.5|<0.001
82408351|NCT03176771|164525540|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.021|TWO_SIDED|95.0|-0.7|-0.1|||ANOVA|||||-0.1|-0.7|0.021
82408352|NCT03176771|164525540|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||ANOVA|||||-0.3|-1.0|<0.001
82408353|NCT02265510|164525543|OTHER|Descriptive Statistics|||||||||||||||||The analysis of the primary endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408354|NCT02265510|164525544|OTHER||||||||||||||||||Confidence Intervals for ORR were calculated based on the exact method for binomial distributions. There were no comparison between treatment groups.|||
82408355|NCT02265510|164525545|OTHER||||||||||||||||||Confidence Intervals for response were calculated based on the exact method for binomial distributions. There were no comparison between treatment groups.|||
82408356|NCT02265510|164525546|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408357|NCT02265510|164525547|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408358|NCT02265510|164525548|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82576337|NCT02209181|164862068|SUPERIORITY_OR_OTHER|||||||0.042||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.042
82408359|NCT02265510|164525549|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408360|NCT02265510|164525550|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408361|NCT02265510|164525551|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408362|NCT02265510|164525552|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408363|NCT02265510|164525553|OTHER||||||||||||||||||The analysis of the endpoint was descriptive i.e. no statistical hypothesis test was performed.|||
82408364|NCT01004614|164525566|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|98.61|||||TWO_SIDED|90.0|93.09|104.46|||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed AUCt was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||104.46|93.09|
82408365|NCT01004614|164525566|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|101.29|||||TWO_SIDED|90.0|97.28|105.45|||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.|Natural log transformed AUCt was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||105.45|97.28|
82408366|NCT01004614|164525567|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|99.3|||||TWO_SIDED|90.0|92.28|106.28||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.||Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||106.28|92.28|
82408367|NCT01004614|164525567|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two formulations was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCt and Cmax fell wholly within (80%, 125%).|ratios of adjusted geometric mean|100.84|||||TWO_SIDED|90.0|95.93|106.0||||Parameter estimate = ratio (%) (test/reference) of adjusted geometric means.||Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and formulation as fixed effects and subject within sequence as a random effect. Adjusted mean difference (test - reference) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||106.00|95.93|
82408368|NCT02530385|164525573|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82408369|NCT02530385|164525574|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.70
82408370|NCT02530385|164525575|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
82408371|NCT02530385|164525576|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.90
82408372|NCT02530385|164525577|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
82408373|NCT01569022|164525579|EQUIVALENCE|The primary endpoint of the study was tested by comparing difference in residual AHI using the paired t test|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82408374|NCT01569022|164525580|EQUIVALENCE|t test assuming unequal variance||||||0.97|||||||t-test, 2 sided|||ESS||||0.97
82408375|NCT01569022|164525580|EQUIVALENCE|t test assuming unequal variance||||||0.98|||||||t-test, 2 sided|||PCL||||0.98
82408376|NCT01569022|164525580|EQUIVALENCE|t-test assuming non unequal variance||||||0.31|||||||t-test, 2 sided|||PSQI||||0.31
82408377|NCT01569022|164525581|EQUIVALENCE|t test assuming unequal variance||||||0.54|||||||t-test, 2 sided|||||||0.54
82408378|NCT01569022|164525582|EQUIVALENCE|t test assuming unequal variance|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82408379|NCT02111083|164525584|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.986|||||TWO_SIDED|90.0|0.965|1.01||||||||1.01|0.965|
82408380|NCT02111083|164525585|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.872|||||TWO_SIDED|90.0|0.828|0.919||||||||0.919|0.828|
82408381|NCT02111083|164525586|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.25|||||TWO_SIDED|90.0|0.0|0.375||||||||0.375|0|
82408382|NCT02111083|164525587|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.986|||||TWO_SIDED|90.0|0.954|1.02||||||||1.02|0.954|
82408383|NCT02111083|164525588|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.95|||||TWO_SIDED|90.0|0.901|1.0||||||||1.00|0.901|
82408384|NCT02111083|164525589|SUPERIORITY_OR_OTHER||Difference of least squares means|0.424|||||TWO_SIDED|90.0|0.164|0.685||||||||0.685|0.164|
82408385|NCT02111083|164525590|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.992|||||TWO_SIDED|90.0|0.975|1.01||||||||1.01|0.975|
82408386|NCT00644059|164525597|SUPERIORITY_OR_OTHER||Vaccine Efficacy|81.36|||||TWO_SIDED|97.66|49.24|93.16|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the population average incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||93.16|49.24|
82408387|NCT00644059|164525600|SUPERIORITY_OR_OTHER||Vaccine Efficacy|81.36|||||TWO_SIDED|95.0|49.24|93.16|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||93.16|49.24|
82408388|NCT00644059|164525600|SUPERIORITY_OR_OTHER||Vaccine Efficacy|95.5|||||TWO_SIDED|95.0|80.92|98.94|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||98.94|80.92|
82408389|NCT00644059|164525600|SUPERIORITY_OR_OTHER||Vaccine Efficacy|0.32|||||TWO_SIDED|95.0|0.13|0.73|||Mantel Haenszel|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||0.73|0.13|
82531735|NCT02065570|164761014|SUPERIORITY||Adjusted risk difference|11.2||||0.008|TWO_SIDED|95.0|2.9|19.6||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||19.6|2.9|0.008
82408390|NCT00644059|164525600|SUPERIORITY_OR_OTHER||Vaccine Efficacy|0.09|||||TWO_SIDED|95.0|0.02|0.38|||Mantel Haenszel|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||0.38|0.02|
82408391|NCT00644059|164525601|SUPERIORITY_OR_OTHER||vaccine Efficacy|79.18|||||TWO_SIDED|95.0|54.78|90.42|||Poisson Regression Model|||"Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the population average incidence of influenza.~Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)"||90.42|54.78|
82408392|NCT00644059|164525601|SUPERIORITY_OR_OTHER||Vaccine Efficacy|92.1|||||TWO_SIDED|95.0|77.35|97.24|||Poisson Regression Model|||Absolute vaccine efficacy (VE) was calculated as (1- the relative risk)100%. Relative Risk for virus-confirmed symptomatic influenza illness in the TIV-adj group vs. the non-flu control group. VE denotes the vaccine efficacy, i.e. 1-Itest/Inon-flu ctrl, where I stands for the incidence of influenza. Absolute efficacy of TIV-adj is at most 40% (i.e. the probability of an influenza in the test group relative to that in the non-flu vaccine group is at least 0.6)||97.24|77.35|
82531736|NCT02065570|164761015|SUPERIORITY||Adjusted risk difference|6.0||||0.336|TWO_SIDED|95.0|-6.2|18.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||18.2|-6.2|0.336
82531737|NCT02065570|164761016|SUPERIORITY||Adjusted risk difference|1.5||||0.694|TWO_SIDED|95.0|-6.1|9.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||9.1|-6.1|0.694
82531738|NCT02065570|164761017|SUPERIORITY||LS Mean of Difference|6.8||||0.946|TWO_SIDED|95.0|-192.3|205.9|||Cochran-Mantel-Haenszel|||||205.9|-192.3|0.946
82408393|NCT00644059|164525601|SUPERIORITY_OR_OTHER||Vaccine Efficacy|64.16|||||TWO_SIDED|95.0|23.21|83.28|||Poisson Regression Model|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||83.28|23.21|
82408394|NCT00644059|164525601|SUPERIORITY_OR_OTHER||Vaccine Efficacy|85.66|||||TWO_SIDED|95.0|58.95|94.99|||Poisson Regression Model|||Relative efficacy for TIV-adj was to be calculated as VE = (1-Itest/Ictrl)100%, where I is the incidence of influenza, i.e. percentage of subjects with virus-confirmed symptomatic influenza A or B illness, in the investigational agent (TIV-adj) group or in the flu vaccine control group.||94.99|58.95|
82408395|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|0.83|||||TWO_SIDED|95.0|0.67|1.02|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.02|0.67|
82531739|NCT02065570|164761018|SUPERIORITY||Adjusted risk difference|4.0||||0.293|TWO_SIDED|95.0|-3.5|11.5||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.5|-3.5|0.293
82531740|NCT02065570|164761019|SUPERIORITY||Adjusted risk difference|3.0||||0.304|TWO_SIDED|95.0|-2.7|8.6||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||8.6|-2.7|0.304
82408396|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|7.63|||||TWO_SIDED|95.0|5.42|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||11|5.42|
82408397|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|15.0|||||TWO_SIDED|95.0|11.0|21.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay||21|11|
82408398|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H1N1)]|6.48|||||TWO_SIDED|95.0|4.83|8.68|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay||8.68|4.83|
82408399|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|1.01|||||TWO_SIDED|95.0|0.85|1.21|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.21|0.85|
82408400|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|9.82|||||TWO_SIDED|95.0|7.76|12.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||12|7.76|
82408401|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|16.0|||||TWO_SIDED|95.0|12.0|20.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||20|12|
82408402|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Brisbane/2007 (A/H3N2)]|4.92|||||TWO_SIDED|95.0|3.64|6.65|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||6.65|3.64|
82408403|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|1.0|||||TWO_SIDED|95.0|0.91|1.1|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.1|0.91|
82408404|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|1.5|||||TWO_SIDED|95.0|1.19|1.9|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.9|1.19|
82408405|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|6.99|||||TWO_SIDED|95.0|5.72|8.53|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||8.53|5.72|
82408406|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[B/Florida/2006]|2.92|||||TWO_SIDED|95.0|2.44|3.5|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||3.5|2.44|
82531741|NCT02065570|164761020|SUPERIORITY||Adjusted risk difference|4.2||||0.092|TWO_SIDED|95.0|-0.7|9.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||9.1|-0.7|0.092
82408407|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|0.81|||||TWO_SIDED|95.0|0.64|1.04|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.04|0.64|
82408408|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Solomon Islands/2006 (A/H1N1)]|1.21|||||TWO_SIDED|95.0|0.83|1.78|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.78|0.83|
82408409|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1]|7.54|||||TWO_SIDED|95.0|5.33|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||11|5.33|
82408410|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Solomon Islands/2006 (A/H1N1)]|3.31|||||TWO_SIDED|95.0|2.4|4.55|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.55|2.4|
82408411|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|0.9|||||TWO_SIDED|95.0|0.74|1.1|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.1|0.74|
82408412|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT[A/Wisconsin/2009 (A/H3N2)]|3.54|||||TWO_SIDED|95.0|2.78|4.51|||GMT|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.51|2.78|
82408413|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|13.0|||||TWO_SIDED|95.0|10.0|16.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||16|10|
82408414|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|3.6|||||TWO_SIDED|95.0|2.61|4.95|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||4.95|2.61|
82408415|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|1.0|1.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1|1|
82531742|NCT02065570|164761021|SUPERIORITY||Adjusted risk difference|3.6||||0.278|TWO_SIDED|95.0|-2.9|10.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||10.2|-2.9|0.278
82531743|NCT02065570|164761022|SUPERIORITY||Adjusted risk difference|3.7||||0.353|TWO_SIDED|95.0|-4.1|11.5||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.5|-4.1|0.353
82531744|NCT02065570|164761023|SUPERIORITY||Adjusted risk difference|8.9||||0.015|TWO_SIDED|95.0|1.8|16.0||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||16.0|1.8|0.015
82531745|NCT02065570|164761024|SUPERIORITY||Adjusted risk difference|3.4||||0.394|TWO_SIDED|95.0|-4.4|11.1||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|||11.1|-4.4|0.394
82531746|NCT02065570|164761025|SUPERIORITY||Adjusted risk difference|3.6||||0.349|TWO_SIDED|95.0|-4.0|11.2||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose)|||11.2|-4.0|0.349
82531747|NCT02065570|164761026|SUPERIORITY||Adjusted risk difference|7.6||||0.054|TWO_SIDED|95.0|-0.1|15.3||Adjusted for previous infliximab use (or prior anti-TNF use for participants randomized under original protocol), hs-CRP at Baseline (\<10 mg/L, \>=10 mg/L) and Crohn's disease severity at Baseline (CDAI ≤ 300, CDAI \> 300).|Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose)|||15.3|-0.1|0.054
82531748|NCT01757067|164761076|OTHER|The previously stated primary and secondary endpoints cannot be calculated as the study was halted prematurely due to lack of enrollment. Only the reported EF data was collected. This makes further statistical analyses impossible.|||||||||||||||||The previously stated primary and secondary endpoints cannot be calculated as the study was halted prematurely due to lack of enrollment. Only the reported EF data was collected. This makes further statistical analyses impossible.|||
82531749|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.27||||0.087|TWO_SIDED|95.0|-0.58|0.04||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline A1C.||||0.04|-0.58|0.087
82408416|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.06|||||TWO_SIDED|95.0|1.02|1.11|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.11|1.02|
82408417|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.74|||||TWO_SIDED|95.0|1.57|1.92|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.92|1.57|
82408418|NCT00644059|164525607|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|0.92|1.08|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<36 months by HI assay.||1.08|0.92|
82408419|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|0.96|||||TWO_SIDED|95.0|0.78|1.19|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.19|0.78|
82408420|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|6.41|||||TWO_SIDED|95.0|4.69|8.76|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||8.76|4.69|
82408421|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|8.26|||||TWO_SIDED|95.0|6.36|11.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||11|6.36|
82408422|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H1N1)]|4.37|||||TWO_SIDED|95.0|3.38|5.65|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||5.65|3.38|
82408423|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|1.05|||||TWO_SIDED|95.0|0.82|1.35|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Brisbane/2007 (A/H3N2) in terms of Geometric Mean Titers GMTs in subjects aged 6 to \<72 months by HI assay.||1.35|0.82|
82408424|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|6.42|||||TWO_SIDED|95.0|4.72|8.73|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||8.73|4.72|
82408425|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|7.98|||||TWO_SIDED|95.0|6.2|10.0|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||10|6.2|
82408426|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Brisbane/2007 (A/H3N2)]|3.13|||||TWO_SIDED|95.0|2.42|4.05|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Brisbane/2007 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.05|2.42|
82408427|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|0.97|||||TWO_SIDED|95.0|0.9|1.05|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.05|0.9|
82531750|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.84|||<|0.001|TWO_SIDED|95.0|-1.15|-0.52||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.52|-1.15|<0.001
82576338|NCT02209181|164862068|SUPERIORITY_OR_OTHER|||||||0.779||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.779
82408428|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|1.56|||||TWO_SIDED|95.0|1.26|1.93|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.93|1.26|
82531751|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.39||||0.014|TWO_SIDED|95.0|-0.69|-0.08||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.08|-0.69|0.014
82408429|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|5.0|||||TWO_SIDED|95.0|4.25|5.88|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||5.88|4.25|
82408430|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Florida/2006]|2.55|||||TWO_SIDED|95.0|2.22|2.93|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Florida/2006 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||2.93|2.22|
82408431|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|0.96|||||TWO_SIDED|95.0|0.75|1.22|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day1 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.22|0.75|
82408432|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|1.72|||||TWO_SIDED|95.0|1.17|2.51|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||2.51|1.17|
82408433|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|5.58|||||TWO_SIDED|95.0|4.08|7.63|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||7.63|4.08|
82408434|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Solomon Islands/2006 (A/H1N1)]|3.11|||||TWO_SIDED|95.0|2.3|4.2|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Solomon Islands/2006 (A/H1N1) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.2|2.3|
82408435|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|0.98|||||TWO_SIDED|95.0|0.74|1.3|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.3|0.74|
82408436|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|3.14|||||TWO_SIDED|95.0|2.19|4.49|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||4.49|2.19|
82408437|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|7.36|||||TWO_SIDED|95.0|5.51|9.82|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||9.82|5.51|
82531752|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.68|||<|0.001|TWO_SIDED|95.0|-0.99|-0.37||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.37|-0.99|<0.001
82646699|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.629|TWO_SIDED|95.0|-0.51|0.31||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.31|-0.51|0.629
82408438|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [A/Wisconsin/2009 (A/H3N2)]|2.66|||||TWO_SIDED|95.0|2.0|3.55|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain A/Wisconsin/2009 (A/H3N2) in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||3.55|2|
82408439|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.0|||||TWO_SIDED|95.0|0.98|1.01|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 1 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.01|0.98|
82408440|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.13|||||TWO_SIDED|95.0|1.05|1.22|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 29 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.22|1.05|
82408441|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.79|||||TWO_SIDED|95.0|1.63|1.97|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 50 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.97|1.63|
82408442|NCT00644059|164525610|SUPERIORITY_OR_OTHER||GMT [B/Brisbane/2008]|1.08|||||TWO_SIDED|95.0|1.0|1.17|||ANOVA|||To demonstrate superiority of immunogenicity of TIV-adj compared to Flu-control on Day 181 for strain B/Brisbane/2008 in terms of GMTs in subjects aged 6 to \<72 months by HI assay.||1.17|1|
82446354|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||32.84|TWO_SIDED|95.0|0.95|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; SCRD28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.95|32.84
82446355|NCT02294734|164600912|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||78.09|TWO_SIDED|95.0|0.98|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.98|78.09
82446356|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||60.07|TWO_SIDED|95.0|0.66|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.66|60.07
82446357|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||51.75|TWO_SIDED|95.0|0.65|1.53||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.53|0.65|51.75
82446358|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||65.66|TWO_SIDED|95.0|0.6|1.4||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.40|0.60|65.66
82531753|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.24|||<|0.001|TWO_SIDED|95.0|-1.55|-0.93||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.93|-1.55|<0.001
82531754|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.97|||<|0.001|TWO_SIDED|95.0|-1.28|-0.66||Pairwise comparison, metformin 850 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.66|-1.28|<0.001
82531755|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.08|||<|0.001|TWO_SIDED|95.0|-1.39|-0.78||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.78|-1.39|<0.001
82408443|NCT03558516|164525617|SUPERIORITY|||||||0.315|||||||Wilcoxon (Mann-Whitney)|||||||0.315
82408444|NCT03558516|164525618|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
82408445|NCT03558516|164525619|SUPERIORITY|||||||0.299|||||||Wilcoxon (Mann-Whitney)|||||||0.299
82408446|NCT01462942|164525637|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.125|||<|0.0001|TWO_SIDED|95.0|0.09|0.16|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.160|0.090|<0.0001
82408447|NCT01462942|164525637|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.069||||0.0001|TWO_SIDED|95.0|0.034|0.105|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.105|0.034|0.0001
82408448|NCT01462942|164525638|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085|||<|0.0001|TWO_SIDED|95.0|0.051|0.119|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.119|0.051|<0.0001
82408449|NCT01462942|164525638|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.053||||0.0022|TWO_SIDED|95.0|0.019|0.087|||Mixed Models Analysis|Adjusted by pre- and post-bronchodilator, age, and baseline FEV1 as covariates, and treatment group, sex, and smoking-status as fixed effect factors||||0.087|0.019|0.0022
82446359|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||81.67|TWO_SIDED|95.0|0.59|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.59|81.67
82446360|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.77||||89.98|TWO_SIDED|95.0|0.51|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.51|89.98
82408450|NCT01462942|164525639|SUPERIORITY_OR_OTHER||Least squares mean difference|1.293|||<|0.0001|TWO_SIDED|95.0|0.728|1.859|||Mixed Models Analysis|Adjusted by BDI baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||1.859|0.728|<0.0001
82408451|NCT01462942|164525639|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.162|||<|0.0001|TWO_SIDED|95.0|0.593|1.73|||Mixed Models Analysis|||Adjusted by BDI baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||1.730|0.593|<0.0001
82408452|NCT01462942|164525640|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.653||||0.598|TWO_SIDED|95.0|-3.082|1.776|||Mixed Models Analysis|Adjusted by SGRQ baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||1.776|-3.082|0.5980
82408453|NCT01462942|164525640|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.828||||0.1406|TWO_SIDED|95.0|-4.259|0.604|||Mixed Models Analysis|Adjusted by SGRQ baseline score and age as covariates, with treatment group, gender, smoking-status, visit, and group-by-visit as fixed effect factors||||0.604|-4.259|0.1406
82408454|NCT02449434|164525641|OTHER|Using the presence or absence of severe erosive wear as the dependent variable, the unadjusted, sex-and-age- adjusted and fully adjusted associations of the included variables with erosive tooth wear were estimated using unconditional binary logistic regression and reported using odds ratios (OR).|Odds Ratio (OR)|2.25|||<|0.05|TWO_SIDED|95.0||||Only results from fully adjusted regression models will be deemed as significant|Regression, Logistic|Unconditional binary logistic regression and reported using odds ratios and 95% confidence intervals||A minimum sample size of 490 participants (245 in each group) was needed. This calculation assumed the proportion of adults with high dietary acid intake (3+ times/day) was 55% among cases and 40% among controls (expected odds ratio of 2.25), case- control ratio of 1-to-1, 90% statistical power and 95% significance level.||||<0.05
82408455|NCT02737722|164525643|SUPERIORITY|||||||0.5152|||||||Fisher Exact|||Day 1 (Visit 2)||||0.5152
82408456|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 1 (Visit 2)||||1.0000
82408457|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2 (Visit 3)||||1.0000
82408458|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2 (Visit 3)||||1.0000
82408459|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 9 (Visit 4)||||1.0000
82408460|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 9 (Visit 4)||||1.0000
82408461|NCT02737722|164525643|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 15 (Visit 5)||||1.0000
82408462|NCT02737722|164525643|SUPERIORITY|||||||0.3636|||||||Fisher Exact|||Day 15 (Visit 5)||||0.3636
82408463|NCT02737722|164525644|SUPERIORITY|||||||0.172|||||||Wilcoxon Rank Sum Test|||||||0.172
82408464|NCT02737722|164525644|SUPERIORITY|||||||0.365|||||||Wilcoxon Rank Sum Test|||||||0.365
82408465|NCT02737722|164525644|SUPERIORITY|||||||0.619|||||||Wilcoxon Rank Sum Test|||||||0.619
82408466|NCT02737722|164525645|SUPERIORITY|||||||0.432|||||||Wilcoxon Rank Sum Test|||||||0.432
82408467|NCT02737722|164525645|SUPERIORITY|||||||0.435|||||||Wilcoxon Rank Sum Test|||||||0.435
82408468|NCT02737722|164525645|SUPERIORITY|||||||0.715|||||||Wilcoxon Rank Sum Test|||||||0.715
82408469|NCT02737722|164525646|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
82408470|NCT02737722|164525646|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
82408471|NCT02737722|164525646|SUPERIORITY|||||||0.153|||||||Wilcoxon Rank Sum Test|||||||0.153
82408472|NCT02737722|164525647|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
82408473|NCT02737722|164525647|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
82408474|NCT02737722|164525647|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
82408475|NCT02737722|164525648|SUPERIORITY|||||||0.361|||||||Wilcoxon Rank Sum Test|||||||0.361
82408476|NCT02737722|164525648|SUPERIORITY|||||||0.519|||||||Wilcoxon Rank Sum Test|||||||0.519
82408477|NCT02737722|164525648|SUPERIORITY|||||||0.153|||||||Wilcoxon Rank Sum Test|||||||0.153
82408478|NCT02737722|164525649|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
82408479|NCT02737722|164525649|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
82408480|NCT02737722|164525649|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
82408481|NCT02737722|164525651|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
82408482|NCT02737722|164525651|SUPERIORITY|||||||0.464|||||||Wilcoxon Rank Sum Test|||||||0.464
82408483|NCT02737722|164525651|SUPERIORITY|||||||0.465|||||||Wilcoxon Rank Sum Test|||||||0.465
82408484|NCT02662569|164525652|SUPERIORITY||LS Mean Treatment Difference|-70.29|STANDARD_ERROR_OF_MEAN|2.61|<|0.0001|TWO_SIDED|95.0|-75.43|-65.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-65.16|-75.43|<0.0001
82408485|NCT02662569|164525652|SUPERIORITY||LS Mean Treatment Difference|-70.04|STANDARD_ERROR_OF_MEAN|2.35|<|0.0001|TWO_SIDED|95.0|-74.67|-65.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-65.41|-74.67|<0.0001
82408486|NCT02662569|164525653|SUPERIORITY||LS Mean Treatment Difference|-71.77|STANDARD_ERROR_OF_MEAN|2.97|<|0.0001|TWO_SIDED|95.0|-77.61|-65.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-65.93|-77.61|<0.0001
82408487|NCT02662569|164525653|SUPERIORITY||LS Mean Treatment Difference|-64.93|STANDARD_ERROR_OF_MEAN|2.56|<|0.0001|TWO_SIDED|95.0|-69.97|-59.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-59.89|-69.97|<0.0001
82646700|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.938|TWO_SIDED|95.0|-0.41|0.38||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.38|-0.41|0.938
82646701|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.21||0.68|TWO_SIDED|95.0|-0.32|0.49||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Post||0.49|-0.32|0.68
82408488|NCT02662569|164525654|SUPERIORITY||LS Mean Treatment Difference|-62.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-68.2|-56.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.9|-68.2|<0.0001
82408489|NCT02662569|164525654|SUPERIORITY||LS Mean Treatment Difference|-63.1|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-68.4|-57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-57.8|-68.4|<0.0001
82408490|NCT02662569|164525655|SUPERIORITY||LS Mean Treatment Difference|-63.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|-69.7|-57.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-57.6|-69.7|<0.0001
82408491|NCT02662569|164525655|SUPERIORITY||LS Mean Treatment Difference|-58.8|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|TWO_SIDED|95.0|-64.3|-53.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-53.3|-64.3|<0.0001
82408492|NCT02662569|164525656|SUPERIORITY||LS Mean Treatment Difference|-60.9|STANDARD_ERROR_OF_MEAN|2.35|<|0.0001|TWO_SIDED|95.0|-65.51|-56.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.29|-65.51|<0.0001
82408493|NCT02662569|164525656|SUPERIORITY||LS Mean Treatment Difference|-59.4|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-63.52|-55.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-55.29|-63.52|<0.0001
82408494|NCT02662569|164525657|SUPERIORITY||LS Mean Treatment Difference|-61.64|STANDARD_ERROR_OF_MEAN|2.64|<|0.0001|TWO_SIDED|95.0|-66.82|-56.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-56.45|-66.82|<0.0001
82408495|NCT02662569|164525657|SUPERIORITY||LS Mean Treatment Difference|-54.22|STANDARD_ERROR_OF_MEAN|2.28|<|0.0001|TWO_SIDED|95.0|-58.7|-49.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-49.74|-58.70|<0.0001
82408496|NCT02662569|164525658|SUPERIORITY||LS Mean Treatment Difference|-56.93|STANDARD_ERROR_OF_MEAN|2.03|<|0.0001|TWO_SIDED|95.0|-60.93|-52.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-52.93|-60.93|<0.0001
82408497|NCT02662569|164525658|SUPERIORITY||LS Mean Treatment Difference|-54.85|STANDARD_ERROR_OF_MEAN|1.87|<|0.0001|TWO_SIDED|95.0|-58.52|-51.18||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-51.18|-58.52|<0.0001
82408498|NCT02662569|164525659|SUPERIORITY||LS Mean Treatment Difference|-57.06|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-61.59|-52.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-52.54|-61.59|<0.0001
82408499|NCT02662569|164525659|SUPERIORITY||LS Mean Treatment Difference|-49.42|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-53.31|-45.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-45.53|-53.31|<0.0001
82646702|NCT02567266|165008167|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.479|TWO_SIDED|95.0|-0.75|0.35||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGI-S at Follow-Up||0.35|-0.75|0.479
82646703|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.58||0.852|TWO_SIDED|95.0|-2.85|3.45||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.45|-2.85|0.852
82646704|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|1.62||0.917|TWO_SIDED|95.0|-3.41|3.07||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.07|-3.41|0.917
82408500|NCT02662569|164525660|SUPERIORITY||LS Mean Treatment Difference|-41.53|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-44.95|-38.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-38.10|-44.95|<0.0001
82408501|NCT02662569|164525660|SUPERIORITY||LS Mean Treatment Difference|-39.5|STANDARD_ERROR_OF_MEAN|1.51|<|0.0001|TWO_SIDED|95.0|-42.47|-36.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-36.53|-42.47|<0.0001
82408502|NCT02662569|164525661|SUPERIORITY||LS Mean Treatment Difference|-42.22|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-46.02|-38.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-38.42|-46.02|<0.0001
82408503|NCT02662569|164525661|SUPERIORITY||LS Mean Treatment Difference|-35.89|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED|95.0|-39.12|-32.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-32.67|-39.12|<0.0001
82408504|NCT02662569|164525662|SUPERIORITY||LS Mean Treatment Difference|-44.09|STANDARD_ERROR_OF_MEAN|1.81|<|0.0001|TWO_SIDED|95.0|-47.64|-40.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-40.54|-47.64|<0.0001
82408505|NCT02662569|164525662|SUPERIORITY||LS Mean Treatment Difference|-43.67|STANDARD_ERROR_OF_MEAN|1.64|<|0.0001|TWO_SIDED|95.0|-46.9|-40.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-40.44|-46.90|<0.0001
82408506|NCT02662569|164525663|SUPERIORITY||LS Mean Treatment Difference|-43.94|STANDARD_ERROR_OF_MEAN|2.02|<|0.0001|TWO_SIDED|95.0|-47.9|-39.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-39.97|-47.90|<0.0001
82408507|NCT02662569|164525663|SUPERIORITY||LS Mean Treatment Difference|-40.56|STANDARD_ERROR_OF_MEAN|1.79|<|0.0001|TWO_SIDED|95.0|-44.08|-37.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-37.04|-44.08|<0.0001
82408508|NCT02662569|164525664|SUPERIORITY||LS Mean Treatment Difference|-58.2|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-62.15|-54.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-54.25|-62.15|<0.0001
82408509|NCT02662569|164525664|SUPERIORITY||LS Mean Treatment Difference|-56.73|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-60.53|-52.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-52.93|-60.53|<0.0001
82408510|NCT02662569|164525665|SUPERIORITY||LS Mean Treatment Difference|-58.21|STANDARD_ERROR_OF_MEAN|2.23|<|0.0001|TWO_SIDED|95.0|-62.59|-53.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-53.84|-62.59|<0.0001
82408511|NCT02662569|164525665|SUPERIORITY||LS Mean Treatment Difference|-51.7|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-55.81|-47.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-47.59|-55.81|<0.0001
82408512|NCT02662569|164525666|SUPERIORITY||Treatment Difference|68.4|||<|0.0001|TWO_SIDED|95.0|60.4|74.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||74.8|60.4|<0.0001
82408513|NCT02662569|164525666|SUPERIORITY||Treatment Difference|71.9|||<|0.0001|TWO_SIDED|95.0|64.1|77.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab QM - Placebo QM|||77.9|64.1|<0.0001
82646705|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_ERROR_OF_MEAN|1.66||0.778|TWO_SIDED|95.0|-2.81|3.74||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Post||3.74|-2.81|0.778
82408514|NCT02662569|164525667|SUPERIORITY||Treatment Difference|67.2|||<|0.0001|TWO_SIDED|95.0|58.9|73.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab Q2W - Placebo Q2W|||73.9|58.9|<0.0001
82408515|NCT02662569|164525667|SUPERIORITY||Treatment Difference|68.8|||<|0.0001|TWO_SIDED|95.0|60.6|75.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by entry statin therapy and geographic region.|Treatment difference = Evolocumab QM - Placebo QM|||75.3|60.6|<0.0001
82408516|NCT02662569|164525668|SUPERIORITY||LS Mean Treatment Difference|-55.52|STANDARD_ERROR_OF_MEAN|18.85|<|0.0001|TWO_SIDED|95.0|-92.64|-18.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-18.40|-92.64|<0.0001
82408517|NCT02662569|164525668|SUPERIORITY||LS Mean Treatment Difference|-50.77|STANDARD_ERROR_OF_MEAN|6.63|<|0.0001|TWO_SIDED|95.0|-63.82|-37.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-37.72|-63.82|<0.0001
82408518|NCT02662569|164525669|SUPERIORITY||LS Mean Treatment Difference|-62.46|STANDARD_ERROR_OF_MEAN|24.64|<|0.0001|TWO_SIDED|95.0|-110.89|-14.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-14.03|-110.89|<0.0001
82408519|NCT02662569|164525669|SUPERIORITY||LS Mean Treatment Difference|-45.32|STANDARD_ERROR_OF_MEAN|8.42|<|0.0001|TWO_SIDED|95.0|-61.87|-28.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-28.77|-61.87|<0.0001
82408520|NCT02662569|164525670|SUPERIORITY||LS Mean Treatment Difference|-18.02|STANDARD_ERROR_OF_MEAN|4.01||0.0002|TWO_SIDED|95.0|-25.89|-10.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-10.14|-25.89|0.0002
82408521|NCT02662569|164525670|SUPERIORITY||LS Mean Treatment Difference|-15.63|STANDARD_ERROR_OF_MEAN|3.08|<|0.0001|TWO_SIDED|95.0|-21.69|-9.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-9.58|-21.69|<0.0001
82408522|NCT02662569|164525671|SUPERIORITY||LS Mean Treatment Difference|-16.41|STANDARD_ERROR_OF_MEAN|14.18||0.0002|TWO_SIDED|95.0|-24.63|-8.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-8.19|-24.63|0.0002
82408523|NCT02662569|164525671|SUPERIORITY||LS Mean Treatment Difference|-12.31|STANDARD_ERROR_OF_MEAN|3.28|<|0.0001|TWO_SIDED|95.0|-18.76|-5.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-5.86|-18.76|<0.0001
82408524|NCT02662569|164525672|SUPERIORITY||LS Mean Treatment Difference|6.34|STANDARD_ERROR_OF_MEAN|1.52||0.0003|TWO_SIDED|95.0|3.36|9.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||9.33|3.36|0.0003
82408525|NCT02662569|164525672|SUPERIORITY||LS Mean Treatment Difference|7.87|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|5.1|10.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||10.65|5.10|<0.0001
82408526|NCT02662569|164525673|SUPERIORITY||LS Mean Treatment Difference|5.88|STANDARD_ERROR_OF_MEAN|1.72||0.0003|TWO_SIDED|95.0|2.49|9.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||9.27|2.49|0.0003
82408527|NCT02662569|164525673|SUPERIORITY||LS Mean Treatment Difference|8.14|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|5.03|11.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||11.25|5.03|<0.0001
82408528|NCT02662569|164525674|SUPERIORITY||LS Mean Treatment Difference|-27.18|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-34.2|-20.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab Q2W - Placebo Q2W|||-20.17|-34.20|<0.0001
82446361|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||43.88|TWO_SIDED|95.0|0.7|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.70|43.88
82531756|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.7|||<|0.001|TWO_SIDED|95.0|-1.01|-0.39||Pairwise comparison, metformin 500 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.39|-1.01|<0.001
82531757|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.4||||0.011|TWO_SIDED|95.0|-0.71|-0.09||Pairwise comparison, sitagliptin 100 mg vs. placebo. The normality assumption required for validity of ANCOVA was violated due to a biologically implausible extreme outlier. See below for results using robust regression.|ANCOVA|The ANCOVA model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.09|-0.71|0.011
82531758|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.36||||0.008|TWO_SIDED|95.0|-0.62|-0.09||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.09|-0.62|0.008
82531759|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.87|||<|0.001|TWO_SIDED|95.0|-1.13|-0.6||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.60|-1.13|<0.001
82531760|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.36||||0.007|TWO_SIDED|95.0|-0.63|-0.1||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.10|-0.63|0.007
82408529|NCT02662569|164525674|SUPERIORITY||LS Mean Treatment Difference|-24.01|STANDARD_ERROR_OF_MEAN|2.99|<|0.0001|TWO_SIDED|95.0|-29.88|-18.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, entry statin therapy and geographic region, scheduled visit, and the interaction of treatment with scheduled visit|Treatment difference = Evolocumab QM - Placebo QM|||-18.14|-29.88|<0.0001
82408530|NCT03118934|164525734|NON_INFERIORITY|The pre-specified non-inferiority margin is 0.5. With a sample size of 80/group, there was approximately 83% power to reject the null hypothesis of inferiority in fit with assumed standard deviation of 0.6 and expected difference of 0.25 (one-sided alpha=0.05).|LSM Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|||ONE_SIDED|95.0||-0.1||||||||-0.1||
82408531|NCT02175121|164525742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-40.33|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|90.0|-51.49|-29.16||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-29.16|-51.49|<0.0001
82408532|NCT02175121|164525742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.53|STANDARD_ERROR_OF_MEAN|6.98|<|0.0001|TWO_SIDED|90.0|-57.08|-33.99||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-33.99|-57.08|<0.0001
82408533|NCT02175121|164525742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.79|STANDARD_ERROR_OF_MEAN|6.73|<|0.0001|TWO_SIDED|90.0|-79.92|-57.65||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-57.65|-79.92|<0.0001
82408534|NCT02175121|164525742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.12|STANDARD_ERROR_OF_MEAN|6.86|<|0.0001|TWO_SIDED|90.0|-79.46|-56.78||Two-sided p-values are from analysis of Covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values is derived from the ANCOVA model.||Placebo was the Reference and each of the active doses was the Test.||-56.78|-79.46|<0.0001
82408535|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.25|STANDARD_ERROR_OF_MEAN|5.83||0.006|TWO_SIDED|90.0|-25.9|-6.6||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-6.60|-25.90|0.0060
82408536|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.98|STANDARD_ERROR_OF_MEAN|5.94|<|0.0001|TWO_SIDED|90.0|-36.81|-17.15||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-17.15|-36.81|<0.0001
82408537|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-39.6|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|90.0|-49.2|-30.0||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-30.00|-49.20|<0.0001
82408538|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.72|STANDARD_ERROR_OF_MEAN|5.89|<|0.0001|TWO_SIDED|90.0|-56.46|-36.98||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||-36.98|-56.46|<0.0001
82408539|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.07|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|90.0|-35.89|-18.25||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-18.25|-35.89|<0.0001
82408540|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.18|STANDARD_ERROR_OF_MEAN|5.46|<|0.0001|TWO_SIDED|90.0|-45.21|-27.14||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-27.14|-45.21|<0.0001
82408541|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-51.47|STANDARD_ERROR_OF_MEAN|5.33|<|0.0001|TWO_SIDED|90.0|-60.29|-42.65||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-42.65|-60.29|<0.0001
82646706|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|2.12||0.66|TWO_SIDED|95.0|-3.3|5.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||5.19|-3.3|0.66
82408542|NCT02175121|164525743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.17|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|90.0|-66.12|-48.22||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||-48.22|-66.12|<0.0001
82408543|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.86|STANDARD_ERROR_OF_MEAN|10.13||0.2063|TWO_SIDED|90.0|-3.91|29.62||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||29.62|-3.91|0.2063
82408544|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.03|STANDARD_ERROR_OF_MEAN|10.33||0.2087|TWO_SIDED|90.0|-4.05|30.11||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||30.11|-4.05|0.2087
82408545|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|10.1||0.5802|TWO_SIDED|90.0|-11.11|22.3||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||22.30|-11.11|0.5802
82408546|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.64|STANDARD_ERROR_OF_MEAN|10.25||0.1553|TWO_SIDED|90.0|-2.32|31.59||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||31.59|-2.32|0.1553
82408547|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|7.66||0.7741|TWO_SIDED|90.0|-14.87|10.47||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||10.47|-14.87|0.7741
82408548|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|7.78||0.9588|TWO_SIDED|90.0|-13.28|12.47||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||12.47|-13.28|0.9588
82408549|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.42|STANDARD_ERROR_OF_MEAN|7.61||0.8523|TWO_SIDED|90.0|-11.17|14.01||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||14.01|-11.17|0.8523
82408550|NCT02175121|164525744|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.3|STANDARD_ERROR_OF_MEAN|7.73||0.4166|TWO_SIDED|90.0|-6.49|19.08||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||19.08|-6.49|0.4166
82408551|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|3.22||0.8516|TWO_SIDED|90.0|-4.73|5.93||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||5.93|-4.73|0.8516
82408552|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.97|STANDARD_ERROR_OF_MEAN|3.29||0.2303|TWO_SIDED|90.0|-1.48|9.42||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||9.42|-1.48|0.2303
82408553|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19|STANDARD_ERROR_OF_MEAN|3.22||0.7132|TWO_SIDED|90.0|-4.15|6.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.52|-4.15|0.7132
82408554|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.74|STANDARD_ERROR_OF_MEAN|3.28||0.0034|TWO_SIDED|90.0|4.32|15.16||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||15.16|4.32|0.0034
82408555|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99|STANDARD_ERROR_OF_MEAN|2.96||0.7394|TWO_SIDED|90.0|-5.89|3.92||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||3.92|-5.89|0.7394
82408556|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|3.03||0.8652|TWO_SIDED|90.0|-4.5|5.53||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.53|-4.50|0.8652
82408557|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.61|STANDARD_ERROR_OF_MEAN|2.97||0.837|TWO_SIDED|90.0|-4.3|5.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.52|-4.30|0.8370
82408558|NCT02175121|164525745|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.59|STANDARD_ERROR_OF_MEAN|3.01||0.0018|TWO_SIDED|90.0|4.6|14.58||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||14.58|4.60|0.0018
82408559|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.12|STANDARD_ERROR_OF_MEAN|4.25||0.6182|TWO_SIDED|90.0|-9.15|4.91||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||4.91|-9.15|0.6182
82408560|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.66|STANDARD_ERROR_OF_MEAN|4.34||0.7028|TWO_SIDED|90.0|-5.52|8.84||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||8.84|-5.52|0.7028
82408561|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|4.25||0.9445|TWO_SIDED|90.0|-7.33|6.73||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.73|-7.33|0.9445
82408562|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.07|STANDARD_ERROR_OF_MEAN|4.32||0.0373|TWO_SIDED|90.0|1.93|16.21||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||16.21|1.93|0.0373
82408563|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|4.21||0.9448|TWO_SIDED|90.0|-7.25|6.67||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.67|-7.25|0.9448
82408564|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|4.3||0.9312|TWO_SIDED|90.0|-6.74|7.49||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.49|-6.74|0.9312
82408565|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|4.21||0.9791|TWO_SIDED|90.0|-7.07|6.85||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.85|-7.07|0.9791
82408566|NCT02175121|164525746|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.34|STANDARD_ERROR_OF_MEAN|4.28||0.0044|TWO_SIDED|90.0|5.26|19.41||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||19.41|5.26|0.0044
82408567|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.77|STANDARD_ERROR_OF_MEAN|3.96||0.6553|TWO_SIDED|90.0|-4.78|8.33||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||8.33|-4.78|0.6553
82408568|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.61|STANDARD_ERROR_OF_MEAN|4.05||0.2569|TWO_SIDED|90.0|-2.09|11.3||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||11.30|-2.09|0.2569
82408569|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.64|STANDARD_ERROR_OF_MEAN|3.96||0.0553|TWO_SIDED|90.0|1.09|14.18||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||14.18|1.09|0.0553
82531761|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.61|||<|0.001|TWO_SIDED|95.0|-0.88|-0.35||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.35|-0.88|<0.001
82646707|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|2.19||0.935|TWO_SIDED|95.0|-4.55|4.19||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||4.19|-4.55|0.935
82446362|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.1||||36.1|TWO_SIDED|95.0|0.64|1.91||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.91|0.64|36.10
82446363|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||95.74|TWO_SIDED|95.0|0.47|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.47|95.74
82446364|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.74|TWO_SIDED|95.0|0.67|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|0.67|50.74
82446365|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||72.81|TWO_SIDED|95.0|0.51|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.51|72.81
82446366|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.73||||94.41|TWO_SIDED|95.0|0.5|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.50|94.41
82446367|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.83||||81.07|TWO_SIDED|95.0|0.55|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.55|81.07
82446368|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||69.29|TWO_SIDED|95.0|0.5|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.50|69.29
82531762|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.25|||<|0.001|TWO_SIDED|95.0|-1.52|-0.99||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.99|-1.52|<0.001
82531763|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.9|||<|0.001|TWO_SIDED|95.0|-1.16|-0.63||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.63|-1.16|<0.001
82408570|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.89|STANDARD_ERROR_OF_MEAN|4.01||0.0016|TWO_SIDED|90.0|6.26|19.53||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||19.53|6.26|0.0016
82408571|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58|STANDARD_ERROR_OF_MEAN|3.58||0.8717|TWO_SIDED|90.0|-5.35|6.51||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||6.51|-5.35|0.8717
82446369|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||73.67|TWO_SIDED|95.0|0.54|1.37||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.37|0.54|73.67
82446370|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.87||||75.82|TWO_SIDED|95.0|0.59|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.59|75.82
82531764|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.0|||<|0.001|TWO_SIDED|95.0|-1.26|-0.74||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.74|-1.26|<0.001
82531765|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.64|||<|0.001|TWO_SIDED|95.0|-0.9|-0.37||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.37|-0.90|<0.001
82531766|NCT01076088|164761081|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.39||||0.004|TWO_SIDED|95.0|-0.65|-0.12||Comparing co-administration with individual components. This is a post-hoc analysis using robust regression, a valid method in the presence of outliers.|Regression, Robust|The Robust Regression model included terms for treatment and prior AHA therapy status (yes/no) and a covariate for baseline A1C.||||-0.12|-0.65|0.004
82531767|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-18.52||||0.017|TWO_SIDED|95.0|-33.75|-3.29||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-3.29|-33.75|0.017
82531768|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-61.34|||<|0.001|TWO_SIDED|95.0|-76.61|-46.07||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-46.07|-76.61|<0.001
82531769|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-31.38|||<|0.001|TWO_SIDED|95.0|-46.49|-16.28||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-16.28|-46.49|<0.001
82531770|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-48.94|||<|0.001|TWO_SIDED|95.0|-64.21|-33.67||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-33.67|-64.21|<0.001
82531771|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-87.57|||<|0.001|TWO_SIDED|95.0|-102.87|-72.27||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-72.27|-102.87|<0.001
82408572|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|3.66||0.743|TWO_SIDED|90.0|-4.86|7.26||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.26|-4.86|0.7430
82408573|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|3.58||0.2041|TWO_SIDED|90.0|-1.36|10.48||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||10.48|-1.36|0.2041
82408574|NCT02175121|164525747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.92|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|90.0|8.92|20.92||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||20.92|8.92|<0.0001
82408575|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|4.08||0.975|TWO_SIDED|90.0|-6.62|6.87||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||6.87|-6.62|0.9750
82408576|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.99|STANDARD_ERROR_OF_MEAN|4.16||0.3396|TWO_SIDED|90.0|-2.9|10.87||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||10.87|-2.90|0.3396
82408577|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.49|STANDARD_ERROR_OF_MEAN|4.07||0.7142|TWO_SIDED|90.0|-8.23|5.24||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||5.24|-8.23|0.7142
82408578|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.78|STANDARD_ERROR_OF_MEAN|4.14||0.0192|TWO_SIDED|90.0|2.94|16.63||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 14.||16.63|2.94|0.0192
82531772|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-69.05|||<|0.001|TWO_SIDED|95.0|-84.41|-53.7||Pairwise comparison, metformin 850 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-53.70|-84.41|<0.001
82531773|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-75.17|||<|0.001|TWO_SIDED|95.0|-90.47|-59.87||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-59.87|-90.47|<0.001
82646708|NCT02567266|165008168|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|2.21||0.615|TWO_SIDED|95.0|-3.29|5.55||Threshold: p \< .05|Mixed Models Analysis||A negative value for the mean difference indicates that the lower numbered Group has a lower mean than the higher numbered group.|DV = CGAS at Follow-Up||5.55|-3.29|0.615
82408579|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84|STANDARD_ERROR_OF_MEAN|3.85||0.8277|TWO_SIDED|90.0|-7.2|5.52||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.52|-7.20|0.8277
82408580|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|3.93||0.8857|TWO_SIDED|90.0|-5.93|7.06||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||7.06|-5.93|0.8857
82408581|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|3.84||0.8824|TWO_SIDED|90.0|-6.93|5.79||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||5.79|-6.93|0.8824
82408582|NCT02175121|164525748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.23|STANDARD_ERROR_OF_MEAN|3.9||0.0192|TWO_SIDED|90.0|2.77|15.69||Two-sided p-values are from MMRM with baseline value, time, treatment group, study day, statin use and treatment interaction as fixed effects. Subject was used as a random effect.|Mixed Models Analysis|||Placebo was the Reference and each of the active doses was the Test for Day 28.||15.69|2.77|0.0192
82408583|NCT02027025|164525775|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.64||0.4532|TWO_SIDED|95.0|-1.73|0.78|||ANCOVA|||||0.78|-1.73|0.4532
82408584|NCT02027025|164525775|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.65||0.4704|TWO_SIDED|95.0|-1.76|0.82|||ANCOVA|||||0.82|-1.76|0.4704
82408585|NCT02027025|164525776|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3013|TWO_SIDED|95.0|-0.56|0.17|||ANCOVA|||||0.17|-0.56|0.3013
82408586|NCT02027025|164525776|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2994|TWO_SIDED|95.0|-0.58|0.18|||ANCOVA|||||0.18|-0.58|0.2994
82408587|NCT02027025|164525777|SUPERIORITY|||||||0.3815|||||||Chi-squared|||||||0.3815
82408588|NCT02027025|164525777|SUPERIORITY|||||||0.7491|||||||Chi-squared|||||||0.7491
82408589|NCT02027025|164525778|SUPERIORITY|||||||0.8991|||||||Chi-squared|||||||0.8991
82408590|NCT02027025|164525778|SUPERIORITY|||||||0.8829|||||||Chi-squared|||||||0.8829
82408591|NCT01251042|164525783|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Information about the size of the standard deviation (SD) for the change was obtained from an earlier study. The SD for the change from pre-operation until 24 hours after start of transfusion was 0.2305. Due to the imprecise measuring device (if values below 0.3 g/l) and the large SD, a non-inferiority margin (∆) of 0.2 g/l was decided to be used in this study, resulting in a total number of 42 evaluable subjects, i.e. 21 subjects per group.||||||0.6294||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6294
82408592|NCT04249427|164525792|EQUIVALENCE|Test if the change in mean number of days with significant mid-facial pain in Erenuman group differs from that in Placebo group.||||||0.96|||||||ANOVA|||||||0.96
82531774|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-43.79|||<|0.001|TWO_SIDED|95.0|-58.99|-28.58||Pairwise comparison, metformin 500 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-28.58|-58.99|<0.001
82531775|NCT01076088|164761082|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-26.23|||<|0.001|TWO_SIDED|95.0|-41.62|-10.84||Pairwise comparison, sitagliptin 100 mg vs. placebo|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline 2-H PMG.||||-10.84|-41.62|<0.001
82531776|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-8.11||||0.069|TWO_SIDED|95.0|-16.86|0.64||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. metformin 850 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||0.64|-16.86|0.069
82408593|NCT04249427|164525793|EQUIVALENCE|Test if the change in SNOT-22 score in Erenuman group differs from that in Placebo group.||||||0.19|||||||ANOVA|||||||0.19
82408594|NCT04249427|164525794|EQUIVALENCE|Test if the change in Physical Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.06|||||||ANOVA|||||||0.06
82408595|NCT04249427|164525795|EQUIVALENCE|Test if the change in Usual Activities as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82408596|NCT04249427|164525796|EQUIVALENCE|Test if the change in Social Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.058|||||||ANOVA|||||||0.058
82408597|NCT04249427|164525797|EQUIVALENCE|Test if the change in Emotional Function as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.02|||||||ANOVA|||||||0.02
82408598|NCT04249427|164525798|EQUIVALENCE|Test if the change in Overall Impact (global) as Measured by Migraine Function Impact in Erenuman group differs from that in Placebo group.||||||0.0036|||||||ANOVA|||||||0.0036
82408599|NCT04249427|164525799|EQUIVALENCE|Test if the change of average number of days per month with significant nasal congestion in Erenuman group differs from that in Placebo group.||||||0.83|||||||ANOVA|||||||0.83
82408600|NCT04249427|164525800|EQUIVALENCE|Test if the change of average number of days per month with significant significant rhinorrhea in Erenuman group differs from that in Placebo group||||||0.83|||||||ANOVA|||||||0.83
82408601|NCT04249427|164525801|EQUIVALENCE|Test if the change in doses of rescue pain medications in Erenuman group differs from that in Placebo group.||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
82408602|NCT04249427|164525802|EQUIVALENCE|Test if the change from baseline in mean daily pain score in Erenuman group differs from that in Placebo group.||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
82408603|NCT03886272|164525803|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|112.96||||0.0413|TWO_SIDED|90.0|102.7|124.26||P-value for ratio outside 80% -125%.|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as: T1/R1. Intra-individual geometric coefficient of variation (gCV) = 14.2|Relative bioavailability||124.26|102.70|0.0413
82408604|NCT03886272|164525803|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|115.49||||0.0776|TWO_SIDED|90.0|105.23|126.74||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T2/R2. Intra-individual geometric coefficient of variation (gCV) = 13.9.|Relative bioavailability||126.74|105.23|0.0776
82408605|NCT03886272|164525803|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|78.05||||0.6443|TWO_SIDED|90.0|69.71|87.38||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as Tc3/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative bioavailability||87.38|69.71|0.6443
82408606|NCT03886272|164525803|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|45.97||||1|TWO_SIDED|90.0|41.05|51.48||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T3u/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative bioavailability||51.48|41.05|1.00
82408607|NCT03886272|164525804|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|144.62||||0.9485|TWO_SIDED|90.0|124.82|167.57||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T1/R1. Intra-individual geometric coefficient of variation (gCV) = 22.1|Relative bioavailability||167.57|124.82|0.9485
82408608|NCT03886272|164525804|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|129.69||||0.7813|TWO_SIDED|90.0|119.51|140.73||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The adjusted geometric mean is geometric mean adjusted by treatment. Ratio is calculated as T2/R2. Intra-individual geometric coefficient of variation (gCV) = 12.2.|Relative Bioavailability||140.73|119.51|0.7813
82408609|NCT03886272|164525804|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|75.09||||0.7616|TWO_SIDED|90.0|64.58|87.32||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3c/3. Intra-individual geometric coefficient of variation (gCV) = 23.5.|Relative Bioavailability||87.32|64.58|0.7616
82408610|NCT03886272|164525804|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|41.45||||1|TWO_SIDED|90.0|35.61|48.25||P-value for ratio outside 80% - 125%|ANOVA|The model includes fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3u/R3. Intra-individual geometric coefficient of variation = 23.5.|Relative Bioavailability||48.25|35.61|1.00
82408611|NCT03886272|164525805|OTHER||Adjusted Geometric Mean Ratio (T1/R1)[%]|111.11|STANDARD_DEVIATION|11.5||0.0092|TWO_SIDED|90.0|102.87|120.01||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T1/R1. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||120.01|102.87|0.0092
82408612|NCT03886272|164525805|OTHER||Adjusted Geometric Mean Ratio (T2/R2)[%]|114.13||||0.0442|TWO_SIDED|90.0|104.58|124.56||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T2/R2. Intra-individual geometric coefficient of variation (gCV) = 13.0.|Relative Bioavailability||124.56|104.58|0.0442
82408613|NCT03886272|164525805|OTHER||Adj. Geometric Mean Ratio (T3c/R3) [%]|80.1||||0.4928|TWO_SIDED|90.0|71.54|89.68||P-value for ratio outside 80% - 125%|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as = T3c/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||89.68|71.54|0.4928
82408614|NCT03886272|164525805|OTHER||Adj. Geometric Mean Ratio (T3u/R3) [%]|48.83||||1|TWO_SIDED|90.0|43.6|54.69||P-value for ratio outside 80% - 125%.|ANOVA|The model included fixed effects for 'sequence', 'period', and 'treatment'. 'Subjects within sequences' is included as random effect.|The Adjusted Geometric Mean is geometric mean adjusted by treatment. Ratio is calculated as T3u/R3. Intra-individual geometric coefficient of variation (gCV) = 17.6.|Relative Bioavailability||54.69|43.60|1.00
82408615|NCT02557399|164525808|SUPERIORITY_OR_OTHER||difference in percent|-6.83||||0.008|TWO_SIDED|95.0|-11.88|-1.78||The analysis method was mixed model repeated measures analysis with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.78|-11.88|0.008
82408616|NCT02557399|164525809|SUPERIORITY_OR_OTHER||difference in percent|-0.25||||0.916|TWO_SIDED|95.0|-4.85|4.35||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1|||4.35|-4.85|0.916
82408617|NCT02557399|164525809|SUPERIORITY_OR_OTHER||difference in percent|-5.85||||0.01|TWO_SIDED|95.0|-10.29|-1.42||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4|||-1.42|-10.29|0.010
82408618|NCT02557399|164525809|SUPERIORITY_OR_OTHER||difference in percent|-2.35||||0.257|TWO_SIDED|95.0|-6.42|1.72||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8|||1.72|-6.42|0.257
82531777|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-25.88|||<|0.001|TWO_SIDED|95.0|-34.72|-17.04||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-17.04|-34.72|<0.001
82408619|NCT02557399|164525809|SUPERIORITY_OR_OTHER||difference in percent|-3.24||||0.062|TWO_SIDED|95.0|-6.64|0.16||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12|||0.16|-6.64|0.062
82408620|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-5.08||||0.115|TWO_SIDED|95.0|-11.41|1.25||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.25|-11.41|0.115
82408621|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-8.43||||0.005|TWO_SIDED|95.0|-14.35|-2.51||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-2.51|-14.35|0.005
82408622|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-9.37|||<|0.001|TWO_SIDED|95.0|-14.42|-4.33||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-4.33|-14.42|<0.001
82408623|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-6.69||||0.004|TWO_SIDED|95.0|-11.21|-2.16||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-2.16|-11.21|0.004
82408624|NCT02557399|164525810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5||||0.015|TWO_SIDED|95.0|-8.1|-0.89||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs|||-0.89|-8.10|0.015
82408625|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|2.71||||0.382|TWO_SIDED|95.0|-3.38|8.8||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||8.80|-3.38|0.382
82408626|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-5.69||||0.085|TWO_SIDED|95.0|-12.17|0.78||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.78|-12.17|0.085
82408627|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-3.89||||0.186|TWO_SIDED|95.0|-9.67|1.88||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.88|-9.67|0.186
82408628|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-0.59||||0.818|TWO_SIDED|95.0|-5.61|4.44||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.44|-5.61|0.818
82408629|NCT02557399|164525810|SUPERIORITY_OR_OTHER||difference in percent|-3.78||||0.073|TWO_SIDED|95.0|-7.92|0.35||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.35|-7.92|0.073
82408630|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.961|TWO_SIDED|95.0|-4.6|4.4||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for TLs. negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.4|-4.6|0.961
82408631|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.2||||0.015|TWO_SIDED|95.0|-11.2|-1.2||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for TLs. negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.2|-11.2|0.015
82531778|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.72||||0.198|TWO_SIDED|95.0|-14.44|3.0||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. metformin 500 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||3.00|-14.44|0.198
82446371|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||54.22|TWO_SIDED|95.0|0.69|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.69|54.22
82446372|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||66.46|TWO_SIDED|95.0|0.63|1.35||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.35|0.63|66.46
82446373|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.16||||21.45|TWO_SIDED|95.0|0.79|1.71||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Upper; D12D28 . The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.71|0.79|21.45
82446374|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||69.91|TWO_SIDED|95.0|0.5|1.5||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.50|0.50|69.91
82446375|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||75.29|TWO_SIDED|95.0|0.57|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.57|75.29
82446376|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||44.05|TWO_SIDED|95.0|0.68|1.58||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.58|0.68|44.05
82446377|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||94.93|TWO_SIDED|95.0|0.65|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region; Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.65|94.93
82446378|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.77||||97.11|TWO_SIDED|95.0|0.59|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.59|97.11
82446379|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||85.41|TWO_SIDED|95.0|0.7|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.70|85.41
82446380|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||54.73|TWO_SIDED|95.0|0.62|1.53||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.53|0.62|54.73
82446381|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||72.31|TWO_SIDED|95.0|0.61|1.3||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.30|0.61|72.31
82446382|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.21||||15.05|TWO_SIDED|95.0|0.84|1.75||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.75|0.84|15.05
82531779|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-17.53|||<|0.001|TWO_SIDED|95.0|-26.33|-8.72||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. sitagliptin 100 mg|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-8.72|-26.33|<0.001
82531780|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-35.81|||<|0.001|TWO_SIDED|95.0|-44.56|-27.06||Pairwise comparison, sitagliptin 50 mg + metformin 850 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-27.06|-44.56|<0.001
82531781|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-27.7|||<|0.001|TWO_SIDED|95.0|-36.4|-19.0||Pairwise comparison, metformin 850 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-19.00|-36.40|<0.001
82646709|NCT02020785|165008172|SUPERIORITY|Main analyses were intention-to-treat using mixed effects models allowing intercepts to vary for each individual. Carryover effects were examined by using treatment by assignment-order interaction terms. Pre-specified sensitivity analyses were conducted excluding patients who were non-compliant, prior to data analysis: 1st, noncompliance based on missing product pickups and follow-up visits; 2nd, suspected poor compliance (\< 250 mg difference between the higher and lower period).\]|Mean Difference (Final Values)|0.143||||0.05|TWO_SIDED|95.0|-0.025|0.34||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis||Estimate (14.3%, 95% CI: -2.5%, 34.0%) is the estimated difference between end of higher phosphorus period and end of lower phosphorus period from mixed effects analyses for log-transformed 24-hour urine albumin excretion|Sample size for this study was calculated using the xsampsi module in STATA, based on a previous study with repeat 24-hour urine collections (standard deviation, 1.04). At an α level of 0.05, we anticipated that a sample size of 30 participants with mean albuminuria of 100 mg/d would result in \>80% power to detect a 13% difference in log- transformed albuminuria between the higher and lower phosphorus additive periods.||0.34|-0.025|0.05
82648017|NCT01946282|165011376|EQUIVALENCE|Based on design, at a significance level of 0.05 group size was set to detect an minimum absolute difference in return rate of 10%, while maintaining more than 90% power. Baseline return rates were projected per group using prior study data: 29% for the outreach only group, 45% in the $5 incentive group, and 53% in the $10 incentive group.||||||0.033|||||||Chi-squared|||||||0.033
82408632|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.044|TWO_SIDED|95.0|-9.2|-0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.1|-9.2|0.044
82408633|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.747|TWO_SIDED|95.0|-4.9|3.5||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||3.5|-4.9|0.747
82408634|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.338|TWO_SIDED|95.0|-5.3|1.8||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline TLs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for TLs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.8|-5.3|0.338
82408635|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.068|TWO_SIDED|95.0|-3.8|0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.1|-3.8|0.068
82408636|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.002|TWO_SIDED|95.0|-4.8|-1.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.1|-4.8|0.002
82408637|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.002|TWO_SIDED|95.0|-4.3|-1.0||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-1.0|-4.3|0.002
82408638|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9||||0.012|TWO_SIDED|95.0|-3.4|-0.4||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.4|-3.4|0.012
82531782|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-27.45|||<|0.001|TWO_SIDED|95.0|-36.18|-18.73||Pairwise comparison, sitagliptin 50 mg + metformin 500 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-18.73|-36.18|<0.001
82531783|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-21.73|||<|0.001|TWO_SIDED|95.0|-30.42|-13.04||Pairwise comparison, metformin 500 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-13.04|-30.42|<0.001
82531784|NCT01076088|164761083|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.93||||0.027|TWO_SIDED|95.0|-18.72|-1.14||Pairwise comparison, sitagliptin 100 mg vs. placebo.|ANCOVA|The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (yes/no) and a covariate for baseline FPG.||||-1.14|-18.72|0.027
82408639|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.078|TWO_SIDED|95.0|-2.4|0.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.1|-2.4|0.078
82408640|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.367|TWO_SIDED|95.0|-2.1|5.7||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||5.7|-2.1|0.367
82408641|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1||||0.148|TWO_SIDED|95.0|-7.4|1.1||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.1|-7.4|0.148
82408642|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.314|TWO_SIDED|95.0|-5.9|1.9||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||1.9|-5.9|0.314
82408643|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2||||0.494|TWO_SIDED|95.0|-2.3|4.7||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||4.7|-2.3|0.494
82446383|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||84.87|TWO_SIDED|95.0|0.68|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.68|84.87
82408644|NCT02557399|164525811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.684|TWO_SIDED|95.0|-3.5|2.3||The analysis method was mixed-model for repeated measures with treatment, center, visit, treatment-by-visit interaction, Baseline non-ILs counts, Baseline-by-visit interaction as fixed effects.|mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||2.3|-3.5|0.684
82408645|NCT02557399|164525812|SUPERIORITY_OR_OTHER||Difference in percentage|2.3||||0.047|TWO_SIDED|95.0|0.1|4.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1.The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||4.6|0.1|0.047
82408646|NCT02557399|164525812|SUPERIORITY_OR_OTHER||Difference in percentage|3.0||||0.185|TWO_SIDED|95.0|-1.3|7.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||7.3|-1.3|0.185
82408647|NCT02557399|164525812|SUPERIORITY_OR_OTHER||Difference in percentage|3.7||||0.251|TWO_SIDED|95.0|-2.5|9.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||9.9|-2.5|0.251
82408648|NCT02557399|164525812|SUPERIORITY_OR_OTHER||Difference in percentage|10.2||||0.006|TWO_SIDED|95.0|2.4|18.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||18.0|2.4|0.006
82408649|NCT02557399|164525812|SUPERIORITY_OR_OTHER||Difference in percentage|10.7||||0.022|TWO_SIDED|95.0|0.9|20.4||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||20.4|0.9|0.022
82408650|NCT02557399|164525813|SUPERIORITY_OR_OTHER||Difference in percentage|1.8||||0.129|TWO_SIDED|95.0|-0.7|4.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||4.3|-0.7|0.129
82408651|NCT02557399|164525813|SUPERIORITY_OR_OTHER||Difference in percentage|1.3||||0.612|TWO_SIDED|95.0|-3.4|5.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||5.9|-3.4|0.612
82576339|NCT02209181|164862068|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||<0.001
82531785|NCT00318149|164761103|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS25 Group) was smaller than (\<) 2.0.|Geometric mean ratio|0.9|||||TWO_SIDED|98.75|0.7|1.16||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS25 administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.16|0.7|
82531786|NCT00318149|164761103|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS50 Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.05|||||TWO_SIDED|98.75|0.71|1.56||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS50 administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.56|0.71|
82576340|NCT02209181|164862068|SUPERIORITY_OR_OTHER|||||||0.196||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.196
82576341|NCT02209181|164862068|SUPERIORITY_OR_OTHER|||||||0.006||||||The significance threshold level was 0.05 (two-sided). P-Value is from Log-rank test comparing survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects who withdrew from the study before 24 hours, but did not use rescue therapy, were censored at the time of discontinuation. Subjects who did not rescue medication during the 24-hour study period had their time to rescue set to 24 hours and were censored at 24 hours.||||0.006
82646710|NCT02020785|165008173|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.05|TWO_SIDED|95.0|-0.059|0.136||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis||Estimate (3.4%, 95% CI: -5.9%, 13.6%) is the estimated difference between end of higher phosphorus period and end of lower phosphorus period from mixed effects analyses for log-transformed fibroblast growth factor 23|||0.136|-0.059|0.05
82408652|NCT02557399|164525813|SUPERIORITY_OR_OTHER||Difference in percentage|7.1||||0.016|TWO_SIDED|95.0|1.1|13.2||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||13.2|1.1|0.016
82408653|NCT02557399|164525813|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.034|TWO_SIDED|95.0|0.3|15.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||15.5|0.3|0.034
82408654|NCT02557399|164525813|SUPERIORITY_OR_OTHER||Difference in percentage|11.3||||0.018|TWO_SIDED|95.0|1.4|21.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||21.3|1.4|0.018
82408655|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|3.9||||0.379|TWO_SIDED|95.0|-4.5|12.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||12.3|-4.5|0.379
82408656|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|4.7||||0.409|TWO_SIDED|95.0|-5.7|15.1||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||15.1|-5.7|0.409
82408657|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|7.0||||0.18|TWO_SIDED|95.0|-3.1|17.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||17.0|-3.1|0.180
82408658|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|-0.5||||0.81|TWO_SIDED|95.0|-8.8|7.7||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||7.7|-8.8|0.810
82408659|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|1.9||||0.648|TWO_SIDED|95.0|-5.2|9.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for TLs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||9.0|-5.2|0.648
82446384|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||92.24|TWO_SIDED|95.0|0.63|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.63|92.24
82446385|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||63.42|TWO_SIDED|95.0|0.75|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.75|63.42
82446386|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.17||||9.05|TWO_SIDED|95.0|0.93|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.93|9.05
82446387|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||66.4|TWO_SIDED|95.0|0.74|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.74|66.40
82531787|NCT00318149|164761103|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS01B Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.04|||||TWO_SIDED|98.75|0.79|1.38||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS01B administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.38|0.79|
82408660|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|9.1||||0.048|TWO_SIDED|95.0|-1.3|19.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||19.6|-1.3|0.048
82408661|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|11.2||||0.016|TWO_SIDED|95.0|1.8|20.6||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||20.6|1.8|0.016
82408662|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|8.6||||0.044|TWO_SIDED|95.0|0.4|16.9||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||16.9|0.4|0.044
82408663|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|3.6||||0.345|TWO_SIDED|95.0|-3.8|11.0||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||11.0|-3.8|0.345
82408664|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|2.6||||0.424|TWO_SIDED|95.0|-3.5|8.7||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||8.7|-3.5|0.424
82408665|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0||||0.527|TWO_SIDED|95.0|-9.4|5.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 1 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||5.5|-9.4|0.527
82408666|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|3.3||||0.584|TWO_SIDED|95.0|-6.7|13.4||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||13.4|-6.7|0.584
82446388|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.78||||97.39|TWO_SIDED|95.0|0.6|1.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.00|0.60|97.39
82446389|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||16.02|TWO_SIDED|95.0|0.89|1.42||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.42|0.89|16.02
82576342|NCT02209181|164862069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|1.1|1.9||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.9|1.1|<0.001
82408667|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|3.9||||0.519|TWO_SIDED|95.0|-6.5|14.3||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||14.3|-6.5|0.519
82408668|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Difference in percentage|-0.8||||0.766|TWO_SIDED|95.0|-10.1|8.5||The P-values are based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||8.5|-10.1|0.766
82408669|NCT02557399|164525814|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.666|TWO_SIDED|95.0|-5.8|10.5||The P-value was based on the Cochran-Mantel-Haenszel test stratified by center.|Cochran-Mantel-Haenszel||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12 for non-ILs. The participants with missing data at a visit were included in the denominator (n) at the visit. That is, those participants were treated as non-responder at the visit.|||10.5|-5.8|0.666
82408670|NCT02557399|164525818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.017|TWO_SIDED|95.0|-0.4|-0.04|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 2. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.04|-0.40|0.017
82408671|NCT02557399|164525818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.017|TWO_SIDED|95.0|-0.4|-0.04|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 4. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.04|-0.40|0.017
82408672|NCT02557399|164525818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.024|TWO_SIDED|95.0|-0.41|-0.03|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 8. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||-0.03|-0.41|0.024
82531788|NCT00318149|164761103|NON_INFERIORITY|Non inferiority criteria: The upper limit (UL) of the 2-sided 98.75% confidence interval (CI) on geometric mean ratio of influenza-specific T-cells (between Fluarix 18-40 Y Group and Fluarix-AS01E Group) was smaller than (\<) 2.0.|Geometric mean ratio|1.07|||||TWO_SIDED|98.75|0.79|1.44||||||Demonstration of non inferiority of the influenza adjuvanted vaccine Fluarix-AS01E administered to elderly subjects (aged 65 years and older) as compared to the licensed influenza vaccine Fluarix administered to adults (aged 18-40 years) in terms of frequency of influenza-specific CD4 T-cells producing at least 2 different cytokines (CD40L, IL-2, TNF-α or IFN-γ), 21 days post-vaccination.||1.44|0.79|
82408673|NCT02557399|164525818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.08|TWO_SIDED|95.0|-0.36|0.02|||mixed model repeated measures analysis||Comparison between DUAC and ADA 0.1% +CLDM 1% at Week 12. A negative treatment difference indicates a benefit of Duac relative to ADA+CLDM.|||0.02|-0.36|0.080
82446390|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||75.69|TWO_SIDED|95.0|0.68|1.21||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.21|0.68|75.69
82531789|NCT01994720|164761129|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.067|TWO_SIDED|95.0|0.78|1.01||In order to address the issue of multiple testing, a hierarchical test sequence will be used. Tested at 4.98% level.|Regression, Cox|||Composite of stroke/MI/death||1.01|0.78|0.0670
82408674|NCT03044314|164525829|SUPERIORITY|||||||0.148|||||||t-test, 2 sided|||Null hypothesis: inhalation with iNO (the gold standard) would provide greater response than the comparator (iloprost).||||0.148
82408675|NCT03044314|164525831|SUPERIORITY|||||||0.346|||||||Fisher Exact|||Null hypothesis was that fewer patients receiving iloprost (new agent) would respond compared to iNO (the gold standard).||||0.346
82408676|NCT00720499|164525916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.017||0.8937|TWO_SIDED|95.0|-0.035|0.031|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.031|-0.035|0.8937
82408677|NCT00720499|164525917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.019||0.2425|TWO_SIDED|95.0|-0.015|0.061|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.061|-0.015|0.2425
82408678|NCT00720499|164525919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.008||0.5198|TWO_SIDED|95.0|-0.01|0.021|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.021|-0.010|0.5198
82408679|NCT00720499|164525919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.211|TWO_SIDED|95.0|-0.011|0.051|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.051|-0.011|0.2110
82408680|NCT00720499|164525919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.014||0.9368|TWO_SIDED|95.0|-0.029|0.027|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.027|-0.029|0.9368
82408681|NCT00720499|164525920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.01||0.5339|TWO_SIDED|95.0|-0.027|0.014|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.014|-0.027|0.5339
82531790|NCT01994720|164761130|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.0462|TWO_SIDED|95.0|0.76|1.0||If the treatment effect on the primary efficacy variable is significant at the 4.98% level, the secondary efficacy variable will be tested in a confirmatory sense. Otherwise it will be tested in an exploratory manner.|Regression, Cox|||Ischemic stroke||1.00|0.76|0.0462
82408682|NCT00720499|164525920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|STANDARD_ERROR_OF_MEAN|0.019||0.2408|TWO_SIDED|95.0|-0.015|0.058|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.058|-0.015|0.2408
82531791|NCT01994720|164761131|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.0928|TWO_SIDED|95.0|0.79|1.02|||Regression, Cox|||||1.02|0.79|0.0928
82408683|NCT00720499|164525920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.018||0.7139|TWO_SIDED|95.0|-0.029|0.042|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.042|-0.029|0.7139
82408684|NCT00720499|164525921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.015||0.7906|TWO_SIDED|95.0|-0.026|0.034|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.034|-0.026|0.7906
82408685|NCT00720499|164525922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.038||0.8473|TWO_SIDED|95.0|-0.067|0.082|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.082|-0.067|0.8473
82408686|NCT00720499|164525923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.031||0.2944|TWO_SIDED|95.0|-0.029|0.094|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.094|-0.029|0.2944
82408687|NCT00720499|164525923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.028||0.718|TWO_SIDED|95.0|-0.046|0.066|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.066|-0.046|0.7180
82408688|NCT00720499|164525925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.015||0.9384|TWO_SIDED|95.0|-0.029|0.032|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed)||0.032|-0.029|0.9384
82408689|NCT00720499|164525925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.1583|TWO_SIDED|95.0|-0.014|0.088|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.088|-0.014|0.1583
82408690|NCT00720499|164525925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.027||0.2914|TWO_SIDED|95.0|-0.025|0.082|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.082|-0.025|0.2914
82408691|NCT00720499|164525926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.03||0.2485|TWO_SIDED|95.0|-0.024|0.094|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.094|-0.024|0.2485
82408692|NCT00720499|164525927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.043||0.2875|TWO_SIDED|95.0|-0.039|0.13|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.130|-0.039|0.2875
82408693|NCT00720499|164525928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.984|STANDARD_ERROR_OF_MEAN|2.038||0.6299|TWO_SIDED|95.0|-3.046|5.015|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.015|-3.046|0.6299
82408694|NCT00720499|164525928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.311|STANDARD_ERROR_OF_MEAN|3.156||0.0475|TWO_SIDED|95.0|0.07|12.553|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||12.553|0.070|0.0475
82408695|NCT00720499|164525928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.552|STANDARD_ERROR_OF_MEAN|2.67||0.562|TWO_SIDED|95.0|-3.729|6.833|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.833|-3.729|0.5620
82408696|NCT00720499|164525929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.179|STANDARD_ERROR_OF_MEAN|2.342||0.9391|TWO_SIDED|95.0|-4.812|4.454|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||4.454|-4.812|0.9391
82408697|NCT00720499|164525929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48|STANDARD_ERROR_OF_MEAN|3.559||0.0709|TWO_SIDED|95.0|-0.56|13.52|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||13.520|-0.560|0.0709
82408698|NCT00720499|164525929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.099|STANDARD_ERROR_OF_MEAN|3.134||0.3245|TWO_SIDED|95.0|-3.1|9.298|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||9.298|-3.100|0.3245
82531792|NCT01994720|164761132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0771|TWO_SIDED|95.0|0.78|1.01|||Regression, Cox|||||1.01|0.78|0.0771
82531793|NCT01994720|164761133|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.3641|TWO_SIDED|95.0|0.83|1.67|||Regression, Cox|||||1.67|0.83|0.3641
82531794|NCT01994720|164761134|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.4828|TWO_SIDED|95.0|0.75|1.85|||Regression, Cox|||||1.85|0.75|0.4828
82531795|NCT01994720|164761135|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.5457|TWO_SIDED|95.0|0.67|2.14|||Regression, Cox|||||2.14|0.67|0.5457
82531796|NCT01994720|164761136|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.1393|TWO_SIDED|95.0|0.85|1.02|||Regression, Logistic|||||1.02|0.85|0.1393
82408699|NCT00720499|164525930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|4.655||0.8808|TWO_SIDED|95.0|-9.914|8.514|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||8.514|-9.914|0.8808
82408700|NCT00720499|164525931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.119|STANDARD_ERROR_OF_MEAN|2.177||0.6081|TWO_SIDED|95.0|-3.19|5.429|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.429|-3.190|0.6081
82408701|NCT00720499|164525931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.339|STANDARD_ERROR_OF_MEAN|2.342||0.5686|TWO_SIDED|95.0|-3.296|5.973|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.973|-3.296|0.5686
82408702|NCT00720499|164525931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.653|STANDARD_ERROR_OF_MEAN|2.294||0.7765|TWO_SIDED|95.0|-3.888|5.194|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||5.194|-3.888|0.7765
82408703|NCT00720499|164525931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.654|STANDARD_ERROR_OF_MEAN|2.543||0.5166|TWO_SIDED|95.0|-3.379|6.686|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.686|-3.379|0.5166
82408704|NCT00720499|164525932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.303|STANDARD_ERROR_OF_MEAN|2.585||0.2037|TWO_SIDED|95.0|-1.813|8.418|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||8.418|-1.813|0.2037
82408705|NCT00720499|164525932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.393|STANDARD_ERROR_OF_MEAN|2.738||0.6118|TWO_SIDED|95.0|-4.027|6.813|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.813|-4.027|0.6118
82408706|NCT00720499|164525932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.695|STANDARD_ERROR_OF_MEAN|2.498||0.4988|TWO_SIDED|95.0|-3.251|6.64|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||6.640|-3.251|0.4988
82408707|NCT00720499|164525932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.039|STANDARD_ERROR_OF_MEAN|2.478||0.6757|TWO_SIDED|95.0|-5.944|3.865|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||3.865|-5.944|0.6757
82408708|NCT00720499|164525933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.08||0.8901|TWO_SIDED|95.0|-0.147|0.169|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 1. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.169|-0.147|0.8901
82408709|NCT00720499|164525933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.086||0.1647|TWO_SIDED|95.0|-0.29|0.05|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 2. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.050|-0.290|0.1647
82408710|NCT00720499|164525933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.09||0.9822|TWO_SIDED|95.0|-0.18|0.176|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 3. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.176|-0.180|0.9822
82408711|NCT00720499|164525933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6542|TWO_SIDED|95.0|-0.218|0.137|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test Week 4. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.137|-0.218|0.6542
82408712|NCT00720499|164525934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.114|STANDARD_ERROR_OF_MEAN|0.116||0.3269|TWO_SIDED|95.0|-0.342|0.115|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Based on a ANCOVA with terms for treatment, centre, patient within centre and period (all effects fixed).||0.115|-0.342|0.3269
82408713|NCT00720499|164525935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.089||0.9557|TWO_SIDED|95.0|-0.181|0.171|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 15. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.171|-0.181|0.9557
82531797|NCT01994720|164761137|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0342|TWO_SIDED|95.0|0.75|0.99|||Regression, Cox|||||0.99|0.75|0.0342
82408714|NCT00720499|164525935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.08||0.8096|TWO_SIDED|95.0|-0.178|0.14|||ANCOVA||Difference calculated as Olo 5 µg + Tio 5 µg minus Olo 2 µg + Tio 5 µg|Test day 29. Based on a ANCOVA with terms for baseline, treatment, centre, patient within centre and period (all effects fixed).||0.140|-0.178|0.8096
82408715|NCT04356937|164525998|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.64|TWO_SIDED|95.0|0.38|1.81|||Log Rank|||||1.81|0.38|0.64
82408716|NCT04356937|164525999|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.73|TWO_SIDED|95.0|0.59|2.1|||Log Rank|||||2.10|0.59|0.73
82408717|NCT04356937|164526000|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.69|TWO_SIDED|95.0|0.67|1.3|||Log Rank|||||1.30|0.67|0.69
82408718|NCT02873689|164526015|SUPERIORITY|||||||0.057|||||||Wilcoxon rank-sum test|||||||0.057
82408719|NCT02873689|164526016|SUPERIORITY|||||||0.268|||||||Wilcoxon rank-sum test|||||||0.268
82531798|NCT01994720|164761138|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.8557|TWO_SIDED|95.0|0.55|2.06|||Regression, Cox|||||2.06|0.55|0.8557
82531799|NCT01994720|164761139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.2126|TWO_SIDED|95.0|0.77|1.06|||Regression, Cox|||||1.06|0.77|0.2126
82531800|NCT01994720|164761145|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4511|TWO_SIDED|95.0|0.52|1.34|||Regression, Cox|||PLATO Major bleeding||1.34|0.52|0.4511
82531801|NCT01994720|164761146|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.26|||<|0.0001|TWO_SIDED|95.0|1.53|3.34|||Regression, Cox|||||3.34|1.53|<0.0001
82531802|NCT03912220|164761147|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82646711|NCT02020785|165008174|SUPERIORITY||mean difference (during each period)|-1.1||||0.05|TWO_SIDED|95.0|-4.1|1.9||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis|||||1.9|-4.1|0.05
82408720|NCT02351934|164526068|SUPERIORITY|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.564
82408721|NCT02351934|164526069|SUPERIORITY|||||||0.675|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.675
82408722|NCT02351934|164526070|SUPERIORITY|||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.125
82408723|NCT02351934|164526072|SUPERIORITY|||||||0.595|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.595
82408724|NCT02351934|164526073|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||Significance level of 0.05 was used.||||0.985
82408725|NCT02683109|164526074|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the Tio+Olo FDC versus the Tio/Olo free combination was tested at the one-sided α-level of 0.025 using a non-inferiority margin of 0.1 L.|Adjusted mean|0.024|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|-0.02|0.067|||ANCOVA|||The primary analysis was conducted using an Analysis of Covariance \[ANCOVA\] model including treatment as fixed categorical effect and baseline as continuous covariate.||0.067|-0.020|<0.0001
82531803|NCT03912220|164761148|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82531804|NCT02341144|164761149|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82531805|NCT02341144|164761150|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82531806|NCT02341144|164761151|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82531807|NCT02341144|164761152|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82408726|NCT02683109|164526075|SUPERIORITY_OR_OTHER||Adjusted mean|0.006|STANDARD_ERROR_OF_MEAN|0.034||0.8648|TWO_SIDED|95.0|-0.061|0.073|||ANCOVA|||The secondary analysis was conducted using an ANCOVA model including treatment as fixed categorical effect and baseline as continuous covariate.||0.073|-0.061|0.8648
82408727|NCT02683109|164526076|SUPERIORITY_OR_OTHER||Adjusted mean|-0.327|STANDARD_ERROR_OF_MEAN|0.536||0.542|TWO_SIDED|95.0|-1.384|0.729|||ANCOVA|||The secondary analysis was conducted using an ANCOVA model including treatment as fixed categorical effect and baseline as continuous covariate.||0.729|-1.384|0.5420
82408728|NCT00368251|164526077|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.15|||=|0.942|TWO_SIDED|95.0|-26.12|24.96||All hypotheses are tested at the 5 % level. The multiplicity scheme (hierarchical testing procedure) assures strong control of the type I error at the 5 % level.|stratified Wilcoxon Test|Estimates and confidence intervals from Hodges-Lehmann (unstratified).|Difference versus Placebo was calculated.|"The first hypothesis for the primary efficacy variable compares placebo versus Brivaracetam (BRV) 150 mg/day.~The second hypothesis for the primary efficacy variable compares placebo versus BRV 5 mg/day. However, this second hypothesis will only be tested when all the hypotheses for placebo versus BRV 150 mg/day are significant for the primary three UMRS related secondary endpoints.~The hypotheses will be tested using nonparametric analysis. The study was designed to have 80 % power."||24.96|-26.12|=0.942
82446391|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||90.22|TWO_SIDED|95.0|0.69|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.69|90.22
82531808|NCT02341144|164761153|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82531809|NCT02559609|164761168|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1) to test Aim 1||||.028
82531810|NCT02559609|164761169|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1)||||.027
82531811|NCT02559609|164761170|SUPERIORITY|||||||0.66|||||||ANOVA|df = 1||Group A/B (contrast -1) was compared to Group C/D (contrast 1) to test Aim 2.||||.66
82531812|NCT02559609|164761171|SUPERIORITY|||||||0.89|||||||Regression, Cox|||Group A/B (contrast -1) compared to Group C/D (contrast 1) to test Aim 2.||||.89
82531813|NCT02559609|164761172|SUPERIORITY|||||||0.58|||||||ANOVA|df = 1||Group A/B (contrast -1) compared to Group C/D (contrast 1) to test Aim 2.||||.58
82531814|NCT02559609|164761173|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||Group A/C (contrast -1) compared to Group B/D (contrast 1) to test Aim 1.||||.024
82531815|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|LS mean change|-15.9|STANDARD_ERROR_OF_MEAN|7.76||0.362|TWO_SIDED|95.0|-31.2|-0.6|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Part A)||-0.6|-31.2|0.362
82531816|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|LS mean change|-10.7|STANDARD_ERROR_OF_MEAN|7.12||0.729|TWO_SIDED|95.0|-24.8|3.3|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Part A)||3.3|-24.8|0.729
82531817|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|Least Square Mean Change|-16.5|STANDARD_ERROR_OF_MEAN|4.73||0.173|TWO_SIDED|95.0|-25.8|-7.1|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A + B)||-7.1|-25.8|0.173
82531818|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) (Full analysis set)|Least Square Mean Change|-14.9|STANDARD_ERROR_OF_MEAN|3.25||0.185|TWO_SIDED|95.0|-21.3|-8.5|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A + B)||-8.5|-21.3|0.185
82531819|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean Change|-31.6|STANDARD_ERROR_OF_MEAN|7.71||0.02|TWO_SIDED|95.0|-46.9|-16.3|||ANCOVA|||140 micrograms of Tropifexor (Part C) vs placebo||-16.3|-46.9|0.020
82531820|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean Change|-32.5|STANDARD_ERROR_OF_MEAN|9.1||0.03|TWO_SIDED|95.0|-50.6|-14.5|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Part C)||-14.5|-50.6|0.030
82531821|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-13.4|STANDARD_ERROR_OF_MEAN|7.86||0.456|TWO_SIDED|95.0|-26.3|-0.4|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Parts A + B + C)||-0.4|-26.3|0.456
82646712|NCT02020785|165008175|SUPERIORITY||mean difference (during each period)|-0.8||||0.05|TWO_SIDED|95.0|-2.7|1.0||For each outcome, a p value \< 0.05 was considered statistically significant without adjustment for multiple comparisons.|Mixed Models Analysis|||||1.0|-2.7|0.05
82531822|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-7.5|STANDARD_ERROR_OF_MEAN|7.27||0.966|TWO_SIDED|95.0|-19.5|4.4|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Parts A + B + C)||4.4|-19.5|0.966
82531823|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-13.3|STANDARD_ERROR_OF_MEAN|4.93||0.275|TWO_SIDED|95.0|-21.4|-5.2|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A + B + C)||-5.2|-21.4|0.275
82408729|NCT00368251|164526077|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|-18.05|||=|0.105|TWO_SIDED|95.0|-39.31|4.86||Tested at the 5 % level - given the primary endpoint and the three UMRS related secondary endpoints comparing placebo versus Brivaracetam (BRV) 150 mg/day are significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||4.86|-39.31|=0.105
82408730|NCT00368251|164526078|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|1.24|||=|0.672|TWO_SIDED|95.0|-21.9|31.06||Tested at the 5 % level - given the Primary Outcome testing Placebo versus BRV 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann(unstratified).|Difference versus Placebo.|If primary efficacy is proven for Brivaracetam (BRV) 150 mg/day, the following secondary endpoints will be tested for Placebo versus BRV 150 mg/day. The testing scheme will be hierarchical, thus statistical significance at 5 % on BRV 150 mg/day on a secondary endpoint is needed to continue testing BRV 150 mg/day at 5 % significance level for the next secondary endpoint.||31.06|-21.90|=0.672
82408731|NCT00368251|164526078|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.806|TWO_SIDED|95.0|-33.33|18.75||Tested at the 5 % level - given the primary endpoint testing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intevals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|"In case the three endpoints are significant for placebo versus Brivaracetam (BRV) 150 mg/day, the primary endpoint will be tested for Placebo versus BRV 5 mg/day. In case of significance, the three UMRS related secondary endpoints will be tested for Placebo versus BRV 5 mg/day, provided the previous is significant at 5 %. Secondary endpoints are tested in the following order:~* Functional Disability~* Stimulus Sensitivity~* Myoclonus Patient Questionnaire"||18.75|-33.33|=0.806
82408732|NCT00368251|164526079|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.549|TWO_SIDED|95.0|-25.0|100.0||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Willcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||100.00|-25.00|=0.549
82408733|NCT00368251|164526079|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|0.0|||=|0.654|TWO_SIDED|95.0|-50.0|66.67||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||66.67|-50.00|=0.654
82531824|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline to Week 12 (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-11.8|STANDARD_ERROR_OF_MEAN|3.56||0.304|TWO_SIDED|95.0|-17.6|-5.9|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A + B + C)||-5.9|-17.6|0.304
82531825|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B) FAS|LS Mean change|-17.1|STANDARD_ERROR_OF_MEAN|4.45||0.057|TWO_SIDED|95.0|-24.5|-9.8|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Parts A + B + C)||-9.8|-24.5|0.057
82646713|NCT02340078|165008203|SUPERIORITY||Subjects % with difference in VAS ≥ 10mm|0.9516|||||TWO_SIDED|95.0|0.87|0.99||||||||0.99|0.87|
82408734|NCT00368251|164526080|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|14.29|||=|0.037|TWO_SIDED|95.0|-1.76|39.39||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 150 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||39.39|-1.76|=0.037
82408735|NCT00368251|164526080|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimator of difference|10.0|||=|0.111|TWO_SIDED|95.0|-5.56|30.0||Tested at the 5 % level - given the Functional Disability Score comparing Placebo versus Brivaracetam (BRV) 5 mg/day is significant at the 5 % level (hierarchical testing procedure).|stratified Wilcoxon Test|Estimates and confidence intervals are obtained from Hodges-Lehmann (unstratified).|Difference versus Placebo.|||30.00|-5.56|=0.111
82408736|NCT00368251|164526081|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.931||||||The Global Evaluation Scale by Investigator (I-GES) was compared between placebo and each dose at 5 % significance level independently from the previous secondary endpoints.|Stratified Wilcoxon test|||||||=0.931
82408737|NCT00368251|164526081|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.253||||||The Global Evaluation Scale by Investigator (I-GES) was compared between placebo and each dose at 5 % significance level independently from the previous secondary endpoints.|Stratified Wilcoxon test|||P-value for pairwise comparison of each Brivaracetam dose versus Placebo.||||=0.253
82408738|NCT01373164|164526087|SUPERIORITY|The planned primary analysis for this study utilized a Bayesian exponential-likelihood model, incorporating historical overall survival (OS) data from 2 studies (Oettle et al. 2005; Saif et al. 2009). The primary analysis was performed using strong borrowing from the historical data. The model was estimated to borrow approximately 37 events from the historical studies.|Hazard Ratio (HR)|0.794|||||TWO_SIDED|95.0|0.59|1.085|||Bayesian Analysis|Primary comparison was to be considered successful if there was at least 0.85 posterior probability that the hazard ratio (HR) for OS of LY+Gem is \<1.|This is a Credible Interval estimated from the Bayesian analysis.|||1.085|0.590|
82408739|NCT02669849|164526098|SUPERIORITY||Least Squares (LS) Mean Difference|-0.69||||0.7519|TWO_SIDED|95.0|-5.08|3.69|||Mixed-effects model for repeated measure|||||3.69|-5.08|0.7519
82408740|NCT04745351|164526117|SUPERIORITY||Hazard Ratio (HR)|0.816||||0.6132|TWO_SIDED|95.0|0.504|1.321||P-value was calculated from stratified log-rank test, stratified by the baseline stratification factors.|Log Rank|||||1.321|0.504|0.6132
82408741|NCT04745351|164526118|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3881|TWO_SIDED|95.0|0.497|1.388||P-value was calculated from stratified log-rank test stratified by the baseline stratification factors.|Log Rank|||||1.388|0.497|0.3881
82408742|NCT04745351|164526119|SUPERIORITY||Hazard Ratio (HR)|1.043||||0.9116|TWO_SIDED|95.0|0.493|2.207||The treatment effect p-value was calculated using Cox model with death as the competing risk and baseline stratification factors as covariates.|Regression, Cox|||||2.207|0.493|0.9116
82408743|NCT04745351|164526122|SUPERIORITY|||||||0.8541||||||P-value was analysed from proportional odds model including treatment as the independent variable.|Proportional odds model|||||||0.8541
82408744|NCT04745351|164526123|SUPERIORITY|||||||0.4974||||||P-value was analysed from proportional odds model including treatment as the independent variable.|Proportional odds model|||||||0.4974
82408745|NCT04745351|164526124|SUPERIORITY|||||||0.4283||||||P-value was calculated based on Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||||||0.4283
82408746|NCT04745351|164526125|SUPERIORITY||Relative risk|0.89||||0.2773|TWO_SIDED|95.0|0.731|1.091||The treatment effect p-value was calculated using Cochran-Mantel-Haenszel (CMH) analysis including baseline stratification factors.|Cochran-Mantel-Haenszel|||||1.091|0.731|0.2773
82408747|NCT04745351|164526126|SUPERIORITY||Relative risk|0.97||||0.7538|TWO_SIDED|95.0|0.819|1.155||The treatment effect p-value was calculated using CMH analysis including baseline stratification factors.|Cochran-Mantel-Haenszel|||||1.155|0.819|0.7538
82531826|NCT02855164|164761177|SUPERIORITY|Repeated measures analysis: ALT (U/L) change from baseline up to EOT (Parts A + B + C) FAS|LS Mean change|-23.0|STANDARD_ERROR_OF_MEAN|4.49||0.003|TWO_SIDED|95.0|-30.5|-15.6|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Parts A + B + C)||-15.6|-30.5|0.003
82531827|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Full analysis set)|LS Mean change|-9.9|STANDARD_ERROR_OF_MEAN|6.56||0.722|TWO_SIDED|95.0|-22.9|3.0|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Part A)||3.0|-22.9|0.722
82531828|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Full analysis set)|LS Mean change|-2.2|STANDARD_ERROR_OF_MEAN|5.96||0.468|TWO_SIDED|95.0|-14.0|9.5|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Part A)||9.5|-14.0|0.468
82531829|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B) (Full analysis set)|LS Mean change|-8.8|STANDARD_ERROR_OF_MEAN|3.97||0.774|TWO_SIDED|95.0|-16.7|-1.0|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A+B)||-1.0|-16.7|0.774
82408748|NCT02932943|164526142|SUPERIORITY||Least Squares Mean Difference|0.3||||0.6482|TWO_SIDED|95.0|-1.07|1.72|||Mixed Model Repeated Measures (MMRM)|||||1.72|-1.07|0.6482
82408749|NCT02932943|164526143|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.559|TWO_SIDED|95.0|-1.61|0.87|||Mixed Model Repeated Measures (MMRM)|||||0.87|-1.61|0.5590
82408750|NCT02932943|164526144|SUPERIORITY||Least Squares Mean Difference|0.2||||0.8131|TWO_SIDED|95.0|-1.53|1.95|||Mixed Model Repeated Measures (MMRM)|||||1.95|-1.53|0.8131
82408751|NCT02932943|164526145|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.6108|TWO_SIDED|95.0|-2.05|1.21|||Mixed Model Repeated Measures (MMRM)|||||1.21|-2.05|0.6108
82408752|NCT00447083|164526170|OTHER|||||||0.1811|||||||t-test, 2 sided|||||||.1811
82408753|NCT02497469|164526182|SUPERIORITY||Adjusted Difference|8.8||||0.0061|TWO_SIDED|95.0|2.5|15.0|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by concomitant use of oral corticosteroids (Yes/No) and prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|15.0|2.5|0.0061
82408754|NCT02497469|164526183|SUPERIORITY||Adjusted Difference|11.9||||0.0005|TWO_SIDED|95.0|5.3|18.5|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by concomitant use of oral corticosteroids (Yes/No) and prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|18.5|5.3|0.0005
82408755|NCT02497469|164526184|SUPERIORITY||Adjusted Difference|-9.3||||0.0641|TWO_SIDED|95.0|-18.9|0.4|||Cochran-Mantel-Haenszel||||P-value of the adjusted difference was based on the Cochran-Mantel-Haenszel method, stratified by prior use of TNF-alpha antagonist (Yes/No) or the Fisher's exact method if the numerator was \<=5.|0.4|-18.9|0.0641
82408756|NCT02965924|164526193|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82531830|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.6|STANDARD_ERROR_OF_MEAN|2.76||0.136|TWO_SIDED|95.0|-6.0|4.9|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A+B)||4.9|-6.0|0.136
82531831|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean change|-16.0|STANDARD_ERROR_OF_MEAN|3.97||0.145|TWO_SIDED|95.0|-23.9|-8.2|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Part C)||-8.2|-23.9|0.145
82408757|NCT05412134|164526254|OTHER|||||||0.333|||||||Chi-squared|||Repetition adherence||||0.333
82408758|NCT05412134|164526254|OTHER|||||||0.626|||||||Chi-squared|||Session adherence||||0.626
82408759|NCT05412134|164526255|SUPERIORITY|||||||0.416|||||||Wilcoxon (Mann-Whitney)|||||||0.416
82408760|NCT05412134|164526256|SUPERIORITY|||||||0.581|||||||t-test, 2 sided|||||||0.581
82408761|NCT05412134|164526257|SUPERIORITY|||||||0.071|||||||t-test, 2 sided|||||||0.071
82408762|NCT05412134|164526258|SUPERIORITY|||||||0.356|||||||t-test, 2 sided|||||||0.356
82408763|NCT05412134|164526260|SUPERIORITY|||||||0.079|||||||t-test, 2 sided|||||||0.079
82408764|NCT02439164|164526294|SUPERIORITY||Mean Difference (Net)|23.51|||<|0.01|TWO_SIDED|95.0|14.16|32.87|||t-test, 2 sided|bonferroni correction was used for post hoc analysis, P value less than 0.05 indicated statistical significance.|this described the difference during midazolam sedation between the glioma and control group without dividing into subgroups.||Oneway Analysis of Variance (ANOVA) was used to test the difference among hands in a certain time point. General linear model for repeated measures ANOVA was used to analyze the time difference of test before and after drug administration,|32.87|14.16|<0.01
82408765|NCT02343224|164526300|OTHER||Kaplan-Meier estimate|76.2|||||TWO_SIDED|95.0|52.1|100.0||||||This Kaplan-Meier estimate is the conditional probability of event-free survival among study participants at 12 and 24 months.||100|52.1|
82408766|NCT02343224|164526301|OTHER||Kaplan-Meier estimate|75.0|||||TWO_SIDED|95.0|50.3|100.0||||||This Kaplan-Meier estimate is the conditional probability of overall survival among participants at 12 and 24 months.||100|50.3|
82408767|NCT06119854|164526309|OTHER||Risk Ratio (RR)|1.207|||||TWO_SIDED|95.0|0.406|3.59|||||The CBT arm is the numerator and the standard arm is the denominator.|||3.590|0.406|
82408768|NCT06119854|164526309|OTHER||Risk Difference (RD)|0.003|||||TWO_SIDED|95.0|-0.013|0.018|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.018|-0.013|
82408769|NCT06119854|164526309|OTHER||Risk Ratio (RR)|0.687|||||TWO_SIDED|95.0|0.194|2.436|||||The inoculation arm is the numerator and the standard arm is the denominator.|||2.436|0.194|
82408770|NCT06119854|164526309|OTHER||Risk Difference (RD)|-0.004|||||TWO_SIDED|95.0|-0.018|0.01|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.010|-0.018|
82408771|NCT06119854|164526310|OTHER||Risk Ratio (RR)|0.992|||||TWO_SIDED|95.0|0.785|1.253|||||The CBT arm is the numerator and the standard arm is the denominator.|||1.253|0.785|
82408772|NCT06119854|164526310|OTHER||Risk Difference (RD)|-0.003|||||TWO_SIDED|95.0|-0.063|0.058|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.058|-0.063|
82408773|NCT06119854|164526310|OTHER||Risk Ratio (RR)|1.227|||||TWO_SIDED|95.0|0.981|1.534|||||The inoculation arm is the numerator and the standard arm is the denominator.|||1.534|0.981|
82408774|NCT06119854|164526310|OTHER||Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|0.008|0.133|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.133|0.008|
82408775|NCT06119854|164526311|OTHER||Risk Ratio (RR)|1.063|||||TWO_SIDED|95.0|0.74|1.527|||||CBT group represents the numerator and standard (conventional) represents the denominator|||1.527|0.740|
82408776|NCT06119854|164526311|OTHER||Risk Difference (RD)|0.008|||||TWO_SIDED|95.0|-0.037|0.053|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm|||0.053|-0.037|
82408777|NCT06119854|164526311|OTHER||Risk Ratio (RR)|1.262|||||TWO_SIDED|95.0|0.892|1.784|||||The inoculation arm is the numerator and the standard arm is the denominator.|||1.784|0.892|
82408778|NCT06119854|164526311|OTHER||Risk Difference (RD)|0.034|||||TWO_SIDED|95.0|-0.013|0.08|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.080|-0.013|
82408779|NCT06119854|164526312|OTHER||Risk Ratio (RR)|1.131|||||TWO_SIDED|95.0|0.911|1.406|||||CBT arm is the numerator and the standard arm is the denominator.|||1.406|0.911|
82408780|NCT06119854|164526312|OTHER||Risk Difference (RD)|0.045|||||TWO_SIDED|95.0|-0.019|0.109|||||RD was calculated as the risk in the CBT arm minus the risk in the standard arm.|||0.109|-0.019|
82408781|NCT06119854|164526312|OTHER||Risk Ratio (RR)|1.323|||||TWO_SIDED|95.0|1.074|1.631|||||the inoculation arm is the numerator and the standard arm is the denominator.|||1.631|1.074|
82408782|NCT06119854|164526312|OTHER||Risk Difference (RD)|0.111|||||TWO_SIDED|95.0|0.045|0.176|||||RD was calculated as the risk in the inoculation arm minus the risk in the standard arm.|||0.176|0.045|
82408783|NCT00843492|164526320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.15|0.54|||Fisher Exact|||||0.54|0.15|<0.001
82408784|NCT00369343|164526327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.32|||<|0.001||95.0|2.53|6.11|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) used baseline as a covariate and factors for center, week and treatment.|DVS SR adjusted mean change minus placebo adjusted mean change.|||6.11|2.53|<0.001
82408785|NCT00369343|164526328|SUPERIORITY_OR_OTHER||||||<|0.001||||||DVS SR compared to Placebo for CGI-I scores of either 1 (very much improved) or 2 (much improved).|Cochran-Mantel-Haenszel|||||||<0.001
82408786|NCT00369343|164526329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.132||||0.008||95.0|1.22|3.74||DVS SR compared with Placebo.|Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariate.|Adjusted odds ratio of DVS SR to Placebo. Odds ratio adjusted for baseline, treatment and site.|||3.74|1.22|0.008
82408787|NCT00369343|164526330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.125|||<|0.001||95.0|1.85|5.27||DVS SR compared with Placebo.|Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariate.|Adjusted odds ratio of DVS SR to Placebo. Odd ratio adjusted for baseline, treatment and site.|||5.27|1.85|<0.001
82408788|NCT00369343|164526331|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.74|||<|0.001||95.0|1.24|4.23||Mixed model Repeated Measures (MMRM) analysis adjusted mean score for baseline score, time and center.|Mixed Models Analysis||Adjusted mean difference = Placebo adjusted mean score minus DVS SR adjusted mean score.|||4.23|1.24|<0.001
82408789|NCT00369343|164526332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|||<|0.001||95.0|-0.18|-0.06||Mixed Model Repeated Measures (MMRM) with treatment and site as factors and baseline as covariate.|Mixed Models Analysis||Adjusted mean difference = Placebo adjusted mean score minus DVS SR adjusted mean score.|||-0.06|-0.18|<0.001
82408790|NCT00369343|164526339|SUPERIORITY_OR_OTHER|||||||0.553||||||t-test adjusted by multiple comparison|t-test, 2 sided|||100mg vs. Placebo (0mg) post taper||||0.553
82408791|NCT00369343|164526339|SUPERIORITY_OR_OTHER|||||||0.034||||||t-test adjusted by multiple comparison|t-test, 2 sided|||200mg vs. Placebo (0mg) post taper||||0.034
82408792|NCT00794664|164526340|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p≤0.05|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C was approximately 22%. With 15 patients in the control group and 30 patients in the mipomersen-treated group, this study would have at least 80% power to detect a 20 percentage point difference between the 2 treatment groups. Enrollment was to be conducted such that at least 51 patients were randomized to allow for potential exclusions from an analysis set.||||<0.001
82531832|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Part C) (Full analysis set)|LS Mean change|-15.3|STANDARD_ERROR_OF_MEAN|4.49||0.236|TWO_SIDED|95.0|-24.2|-6.4|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Part C)||-6.4|-24.2|0.236
82531833|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-7.1|STANDARD_ERROR_OF_MEAN|7.0||0.788|TWO_SIDED|95.0|-18.7|4.4|||ANCOVA|||10 micrograms of Tropifexor vs placebo (Parts A+B+ C)||4.4|-18.7|0.788
82408793|NCT00794664|164526342|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82408794|NCT00794664|164526344|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in Apo B at PET).|t-test, 2 sided|||||||<0.001
82408795|NCT00794664|164526346|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in total cholesterol at PET).|t-test, 2 sided|||||||<0.001
82446392|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.21||||9.64|TWO_SIDED|95.0|0.91|1.62||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.62|0.91|9.64
82408796|NCT00794664|164526348|SUPERIORITY_OR_OTHER|||||||0.034||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.034
82446393|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.15||||20.44|TWO_SIDED|95.0|0.82|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.82|20.44
82446394|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||55.06|TWO_SIDED|95.0|0.73|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.73|55.06
82531834|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|0.4|STANDARD_ERROR_OF_MEAN|6.43||0.413|TWO_SIDED|95.0|-10.2|11.0|||ANCOVA|||30 micrograms of Tropifexor vs placebo (Parts A+B+ C)||11.0|-10.2|0.413
82408797|NCT00794664|164526350|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.001
82408798|NCT00794664|164526352|SUPERIORITY_OR_OTHER||||||<|0.032||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.032
82531835|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-6.2|STANDARD_ERROR_OF_MEAN|4.38||0.833|TWO_SIDED|95.0|-13.4|1.0|||ANCOVA|||60 micrograms of Tropifexor vs placebo (Parts A+B+ C)||1.0|-13.4|0.833
82531836|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|2.0|STANDARD_ERROR_OF_MEAN|3.19||0.068|TWO_SIDED|95.0|-3.2|7.3|||ANCOVA|||90 micrograms of Tropifexor vs placebo (Parts A+B+ C)||7.3|-3.2|0.068
82408799|NCT00794664|164526354|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||<0.001
82446395|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.36||||5.29|TWO_SIDED|95.0|0.94|1.97||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.97|0.94|5.29
82408800|NCT00794664|164526356|SUPERIORITY_OR_OTHER|||||||0.278||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.278
82408801|NCT00794664|164526358|SUPERIORITY_OR_OTHER|||||||0.647||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.647
82408802|NCT00457730|164526360|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||||||0.016
82408803|NCT00457730|164526361|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
82531837|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-0.1|STANDARD_ERROR_OF_MEAN|3.98||0.269|TWO_SIDED|95.0|-6.6|6.5|||ANCOVA|||140 micrograms of Tropifexor vs placebo (Parts A+B+ C)||6.5|-6.6|0.269
82408804|NCT00457730|164526362|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||t-test, 2 sided|||||||0.074
82408805|NCT00828711|164526363|SUPERIORITY_OR_OTHER||Difference in Proportions|12.2||||0.057|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|The primary objective of this study is to compare the efficacy of MVI 100 and MVI 200 based on the proportion of vaginal deliveries within 24 hours. A minimum sample size of approximately 120 subjects per arm would provide 84 subjects per arm with vaginal delivery, which would ensure \>80% power (with two-sided alpha of 5%) to detect a 20% improvement in the proportion of women delivering vaginally within 24 hours||||0.057
82408806|NCT00828711|164526364|SUPERIORITY_OR_OTHER||Median Difference (Net)|-563.0||||0.018|TWO_SIDED|95.0|||||Log Rank||MVI 200 - MVI 100|Subjects who underwent a cesarean delivery during the first hospitalization were censored using the longest time interval from study drug administration to cesarean delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||0.018
82408807|NCT00828711|164526366|SUPERIORITY_OR_OTHER||Difference in Proportions|-8.46||||0.153|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - MVI 100|||||0.153
82408808|NCT00828711|164526367|SUPERIORITY_OR_OTHER||Difference in Proportions|2.37||||0.65|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|||||0.65
82446396|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.11||||28.82|TWO_SIDED|95.0|0.77|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.77|28.82
82446397|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.81||||93|TWO_SIDED|95.0|0.61|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.61|93.00
82446398|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.42||||1.64|TWO_SIDED|95.0|1.03|1.95||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.95|1.03|1.64
82446399|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.71|TWO_SIDED|95.0|0.72|1.38||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.38|0.72|50.71
82446400|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.68||||99.52|TWO_SIDED|95.0|0.51|0.91||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.91|0.51|99.52
82408809|NCT00828711|164526368|SUPERIORITY_OR_OTHER||Difference in Proportions|-22.09|||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Adjusted for site effect|MVI 200 - MVI 100|||||<.001
82408810|NCT00828711|164526370|SUPERIORITY_OR_OTHER||Median Difference (Net)|-368.0||||0.007|TWO_SIDED|95.0|||||Log Rank||MVI 200 - MVI 100|Subjects who never went into active labor during the first hospitalization were censored using the longest time interval from study drug administration to delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdraw consent prior to delivery will be censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||0.007
82531838|NCT02855164|164761178|SUPERIORITY|Repeated measures analysis: AST (U/L) change from baseline up to EOT (Parts A+B+C) Full analysis set (FAS)|LS Mean change|-3.8|STANDARD_ERROR_OF_MEAN|4.05||0.777|TWO_SIDED|95.0|-10.5|2.9|||ANCOVA|||200 micrograms of Tropifexor vs placebo (Parts A+B+ C)||2.9|-10.5|0.777
82531839|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-7.48|STANDARD_ERROR_OF_MEAN|6.174||0.853|TWO_SIDED|95.0|-19.66|4.7|||ANCOVA|||10 microgramsof Tropifexor - Change in percentage of fat in the liver Part A||4.70|-19.66|0.853
82531840|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-14.07|STANDARD_ERROR_OF_MEAN|5.661||0.232|TWO_SIDED|95.0|-25.24|-2.91|||ANCOVA|||30 micrograms of Tropifexor - Change in percentage of fat in the liver Part A||-2.91|-25.24|0.232
82408811|NCT01618968|164526371|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|127.99|||||TWO_SIDED|90.0|121.61|134.7||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the area under the curve from time zero to the last measurable concentration AUC(0-inf).||134.70|121.61|
82408812|NCT01618968|164526371|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|125.48|||||TWO_SIDED|90.0|119.43|131.84||||||To compare the relative bioavailability of MTX following oral administration to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the AUC(0-Inf).||131.84|119.43|
82446401|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||3.1|TWO_SIDED|95.0|0.99|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.99|3.10
82531841|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-15.04|STANDARD_ERROR_OF_MEAN|3.754||0.077|TWO_SIDED|95.0|-22.45|-7.64|||ANCOVA|||60 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B||-7.64|-22.45|0.077
82531842|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline|LS Mean change|-12.34|STANDARD_ERROR_OF_MEAN|2.482||0.141|TWO_SIDED|95.0|-17.23|-7.44|||ANCOVA|||90 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B||-7.44|-17.23|0.141
82531843|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12|LS Mean change|-31.25|STANDARD_ERROR_OF_MEAN|5.228|<|0.001|TWO_SIDED|95.0|-41.58|-20.92|||ANCOVA|||140 micrograms of Tropifexor - Change in percentage of fat in the liver Part C||-20.92|-41.58|<0.001
82408813|NCT01618968|164526371|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference ratio|101.85|||||TWO_SIDED|90.0|99.41|104.36||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the AUC(0-inf)||104.36|99.41|
82408814|NCT01618968|164526372|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|127.65|||||TWO_SIDED|90.0|121.28|134.36||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||134.36|121.28|
82408815|NCT01618968|164526372|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference ratio|125.2|||||TWO_SIDED|90.0|119.16|131.55||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the thigh using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||131.55|119.16|
82408816|NCT01618968|164526372|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference Ratio|101.82|||||TWO_SIDED|90.0|99.39|104.31||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the area under the curve from time zero to the 24 hour concentration AUC(0-24)||104.31|99.39|
82408817|NCT01618968|164526373|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference ratio|94.83|||||TWO_SIDED|90.0|86.42|104.06||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the abdomen using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||104.06|86.42|
82408818|NCT01618968|164526373|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability comparisons were performed at each dose level.|Test / Reference Ratio|82.12|||||TWO_SIDED|90.0|76.16|88.55||||||To compare the relative bioavailability of methotrexate (MTX) following oral administration to that obtained after subcutaneous (SC) injection into the thigh using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||88.55|76.16|
82408819|NCT01618968|164526373|NON_INFERIORITY_OR_EQUIVALENCE|Test of bioequivalence was performed at each dose level.|Test / Reference Ratio|115.63|||||TWO_SIDED|90.0|108.83|122.86||||||To compare the relative bioavailability of MTX following SC injection into the abdomen to that obtained after SC injection into the thigh using the VIBEX MTX device by measuring the maximum observed concentration (Cmax)||122.86|108.83|
82408820|NCT02941640|164526413|OTHER|Anova|||||<|0.0001||||||Significant when P\<0.05|ANOVA|||||||<0.0001
82408821|NCT02941640|164526413|OTHER|||||||0.001||||||Significant when P\<0.05.|Tukey post hoc test|||Post hoc analysis was done by Tukey test.||||0.001
82408822|NCT02941640|164526413|OTHER|Tukey post hoc test|||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
82408823|NCT02941640|164526413|OTHER|||||||0.044||||||Significant when P\<0.05|Tukey post hoc test|||||||0.044
82408824|NCT02941640|164526413|OTHER||||||<|0.272||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.272
82408825|NCT02941640|164526413|OTHER|||||||0.835||||||Significant when P\<0.05.|Tukey post hoc test|||||||0.835
82408826|NCT02941640|164526413|OTHER|||||||0.199||||||Significant when P\<0.05.|Tukey post hoc test|||||||0.199
82408827|NCT02941640|164526414|OTHER|Anova|||||<|0.0001||||||Significant when P\<0.05.|ANOVA|||||||<0.0001
82408828|NCT02941640|164526414|OTHER||||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
82408829|NCT02941640|164526414|OTHER||||||<|0.0001||||||Significant when P\<0.05|Tukey post hoc test|||||||<0.0001
82408830|NCT02941640|164526414|OTHER||||||<|0.0001||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.0001
82408831|NCT02941640|164526414|OTHER||||||<|0.0001|||||||Tukey post hoc test|||||||<0.0001
82408832|NCT02941640|164526414|OTHER||||||<|0.0001||||||Significant when P\<0.05.|Tukey post hoc test|||||||<0.0001
82408833|NCT02941640|164526414|OTHER|||||||1||||||Significant when P\<0.05|Tukey post hoc test|||||||1.00
82408834|NCT02753881|164526416|OTHER|||||||0.036||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for dose normalized doxorubicin.||||.036
82408835|NCT02753881|164526416|OTHER|||||||0.002||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for dose normalized doxorubicinol.||||0.002
82408836|NCT02753881|164526418|OTHER|||||||0.023||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for time-concentration-curves for doxorubicin.||||0.023
82408837|NCT02753881|164526418|OTHER|||||||0.041||||||Two-sided p-values \<0.05 considered statistically significant.|Kruskal-Wallis|||To achieve high probability (80% power) to detect 50% change with 5% significance level, calculated total sample size was 30 participants for time-concentration-curves for doxorubicinol.||||0.041
82408838|NCT00506675|164526423|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|95.0|||||ANCOVA|||||||0.30
82408839|NCT00506675|164526424|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANCOVA|||||||0.30
82408840|NCT00506675|164526425|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|95.0|||||ANCOVA|||||||0.30
82408841|NCT03312738|164526473|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|90.0|0.4|0.71||||||||0.71|0.40|
82408842|NCT03312738|164526474|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|90.0|0.32|0.67||||||||0.67|0.32|
82408843|NCT03312738|164526475|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|90.0|0.69|1.89||||||||1.89|0.69|
82408844|NCT04539275|164526515|SUPERIORITY||Risk Difference (RD)|-0.01||||1|TWO_SIDED|95.0|-0.15|0.14|||Fisher Exact|||||0.14|-0.15|1.00
82408845|NCT04539275|164526516|SUPERIORITY||Improvement Rate Ratio|1.08||||0.749|TWO_SIDED|95.0|0.65|1.78|||Log Rank|||||1.78|0.65|0.749
82408846|NCT04539275|164526517|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.943|TWO_SIDED|95.0|0.21|4.23|||Log Rank|||||4.23|0.21|0.943
82408847|NCT04539275|164526518|SUPERIORITY||Risk Difference (RD)|-0.08||||0.4014|TWO_SIDED|95.0|-0.25|0.1|||Chi-squared|||||0.10|-0.25|0.4014
82408848|NCT04539275|164526519|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.3762|TWO_SIDED|95.0|0.18|1.96|||Log Rank|||||1.96|0.18|0.3762
82408849|NCT04539275|164526520|SUPERIORITY||Risk Difference (RD)|-0.04||||0.6867|TWO_SIDED|95.0|-0.17|0.09|||Fisher Exact|||||0.09|-0.17|0.6867
82408850|NCT04539275|164526521|SUPERIORITY||Improvement Rate Ratio|1.11||||0.6494|TWO_SIDED|95.0|0.68|1.83|||Log Rank|||||1.83|0.68|0.6494
82408851|NCT04539275|164526522|SUPERIORITY||Improvement Rate Ratio|0.98||||0.9338|TWO_SIDED|95.0|0.59|1.63|||Log Rank|||||1.63|0.59|0.9338
82408852|NCT04539275|164526526|SUPERIORITY||Improvement Rate Ratio|1.14||||0.5682|TWO_SIDED|95.0|0.7|1.86|||Log Rank|||||1.86|0.70|0.5682
82408853|NCT04539275|164526528|SUPERIORITY||Median Difference (Final Values)|0.0||||0.8642|TWO_SIDED|95.0|-2.3|2.3|||Wilcoxon (Mann-Whitney)|||||2.3|-2.3|0.8642
82408854|NCT00607893|164526530|OTHER||Mean Difference (Final Values)|0.071||||0.38|TWO_SIDED|95.0|-0.09|0.23|||Regression, Linear||F2-isoprostanes/Cr was log-transformed before analysis. The estimation parameter shows the log-transformed mean difference of the absolute change between groups, while the least square means of two groups are transformed back for presentation.|||0.23|-0.090|0.38
82408855|NCT00607893|164526531|OTHER||Mean Difference (Final Values)|1.83||||0.85|TWO_SIDED|95.0|-17.42|21.07|||Regression, Linear|||||21.07|-17.42|0.85
82408856|NCT00607893|164526532|OTHER||Mean Difference (Final Values)|0.14||||0.92|TWO_SIDED|95.0|-2.6|2.87|||Regression, Linear|||||2.87|-2.60|0.92
82531844|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-39.54|STANDARD_ERROR_OF_MEAN|4.968|<|0.001|TWO_SIDED|95.0|-49.37|-29.71|||ANCOVA|||200 micrograms of Tropifexor - Change in percentage of fat in the liver Part C||-29.71|-49.37|<0.001
82531845|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-8.09|STANDARD_ERROR_OF_MEAN|6.65||0.872|TWO_SIDED|95.0|-19.06|2.88|||ANCOVA|||10 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||2.88|-19.06|0.872
82531846|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-14.14|STANDARD_ERROR_OF_MEAN|6.198||0.465|TWO_SIDED|95.0|-24.36|-3.91|||ANCOVA|||30 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-3.91|-24.36|0.465
82531847|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-15.02|STANDARD_ERROR_OF_MEAN|4.078||0.228|TWO_SIDED|95.0|-21.75|-8.29|||ANCOVA|||60 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-8.29|-21.75|0.228
82531848|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-12.56|STANDARD_ERROR_OF_MEAN|2.717||0.37|TWO_SIDED|95.0|-17.04|-8.08|||ANCOVA|||90 micrograms - Change in percentage of fat in the liver Parts A+B+C||-8.08|-17.04|0.370
82408857|NCT00607893|164526533|OTHER||Mean Difference (Final Values)|0.21||||0.55|TWO_SIDED|95.0|-0.48|0.91|||Regression, Linear|||||0.91|-0.48|0.55
82408858|NCT00607893|164526534|OTHER||Mean Difference (Final Values)|0.38||||0.17|TWO_SIDED|95.0|-0.16|0.92|||Regression, Linear|||||0.92|-0.16|0.17
82408859|NCT00607893|164526535|OTHER||Mean Difference (Final Values)|2.4||||0.076|TWO_SIDED|95.0|-0.26|5.07|||Regression, Linear|||||5.07|-0.26|0.076
82408860|NCT00607893|164526536|OTHER||Mean Difference (Final Values)|0.062||||0.019|TWO_SIDED|95.0|0.01|0.11|||Regression, Linear||sIL-6R was log-transformed before analysis. The estimation parameter shows the log-transformed mean difference of the absolute change between groups, while the least square means of two groups are transformed back for presentation.|||0.11|0.010|0.019
82408861|NCT00607893|164526537|OTHER||Mean Difference (Final Values)|0.17||||0.68|TWO_SIDED|95.0|-0.64|0.99|||Regression, Linear|||||0.99|-0.64|0.68
82531849|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-18.71|STANDARD_ERROR_OF_MEAN|3.517||0.029|TWO_SIDED|95.0|-24.51|-12.91|||ANCOVA|||140 micrograms - Change in percentage of fat in the liver Parts A+B+C||-12.91|-24.51|0.029
82531850|NCT02855164|164761179|SUPERIORITY|ANCOVA: Relative change in percentage of fat in the liver from baseline to Week 12 (Parts A+B+C)|LS Mean change|-34.38|STANDARD_ERROR_OF_MEAN|3.482|<|0.001|TWO_SIDED|95.0|-40.13|-28.64|||ANCOVA|||200 micrograms of Tropifexor - Change in percentage of fat in the liver Parts A+B+C||-28.64|-40.13|<0.001
82408862|NCT00607893|164526538|OTHER||Mean Difference (Final Values)|1.35||||0.59|TWO_SIDED|95.0|-3.6|6.31|||Regression, Linear|||||6.31|-3.60|0.59
82408863|NCT00607893|164526539|OTHER||Mean Difference (Final Values)|6.93|||<|0.001|TWO_SIDED|95.0|3.04|10.81|||Regression, Linear|||||10.81|3.04|<0.001
82408864|NCT01799941|164526540|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
82408865|NCT01799941|164526540|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||one-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
82408866|NCT01799941|164526540|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
82408867|NCT01799941|164526540|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||The primary analysis tested the null hypothesis that the mean change in CNS-LS score from Baseline to Day 90 visit is equal to zero.||||<0.0001
82408868|NCT01799941|164526540|SUPERIORITY_OR_OTHER||Analysis of covariance (ANCOVA)|0.04|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|-1.37|1.45|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||1.45|-1.37|
82408869|NCT01799941|164526540|SUPERIORITY_OR_OTHER||ANCOVA|1.11|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-0.46|2.68|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||2.68|-0.46|
82408870|NCT01799941|164526540|SUPERIORITY_OR_OTHER||ANCOVA|1.15|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.39|2.69|||||A positive estimate indicates a smaller change in the first group. Observations used =261.|||2.69|-0.39|
82408871|NCT01799941|164526541|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408872|NCT01799941|164526541|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408873|NCT01799941|164526541|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408874|NCT01799941|164526541|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408875|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
82408876|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
82408877|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
82408878|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 assessment||||<0.0001
82408879|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
82408880|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
82408881|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 30 versus Baseline||||<0.0001
82408882|NCT01799941|164526542|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||Day 90 versus Baseline||||<0.0001
82408883|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.425|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.407|0.445|||Mixed Effects Poisson Regreesion Model||Number of observations = 854, Number of participants = 298|Day 30 assessment||0.445|0.407|<0.0001
82531851|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.79|STANDARD_ERROR_OF_MEAN|0.608||0.01|TWO_SIDED|95.0|-2.99|0.59|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.59|-2.99|0.010
82531852|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-0.78|STANDARD_ERROR_OF_MEAN|0.567||0.237|TWO_SIDED|95.0|-1.9|0.34|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.34|-1.90|0.237
82408884|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.277|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.262|0.293|||Mixed Effects Poisson Regression Model||Number of observations = 854, Number of participants = 298|Day 90 assessment||0.293|0.262|<0.0001
82408885|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.5|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.469|0.534|||Mixed Effects Poisson Regression Model||Number of observations = 318, Number of participants = 108|Day 30 assessment||0.534|0.469|<0.0001
82408886|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.323|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.299|0.349|||Mixed Effects Poisson Regression Model||Number of observations = 318, Number of participants = 108|Day 90 assessment||0.349|0.299|<0.0001
82408887|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.351|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.323|0.383|||Mixed Effects Poisson Regression Model||Number of observations = 297, Number of participants = 103|Day 30 assessment||0.383|0.323|<0.0001
82408888|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.255|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.231|0.282|||Mixed Effects Poisson Regression Model||Number of observations = 297, Number of participants = 103|Day 90 assessment||0.282|0.231|<0.0001
82408889|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.387|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|0.352|0.425|||Mixed Effects Poisson Regression Model||Number of observations = 239, Number of participants = 87|Day 30 assessment||0.425|0.352|<0.0001
82531853|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.05|STANDARD_ERROR_OF_MEAN|0.377||0.037|TWO_SIDED|95.0|-1.8|0.31|||Mixed Models Analysis|||60 micrograms of Tropifexor (Parts A + B) vs Placebo||0.31|-1.80|0.037
82408890|NCT01799941|164526544|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.215|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.189|0.245|||Mixed Effects Poisson Regression Model||Number of observations = 239, Number of participants = 87|Day 90 assessment||0.245|0.189|<0.0001
82408891|NCT01799941|164526547|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82646714|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Other|12.75|STANDARD_DEVIATION|5.0||0.167|TWO_SIDED|95.0|-3.65|29.15|||Fisher Exact|||||29.15|-3.65|0.167
82408892|NCT01799941|164526547|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408893|NCT01799941|164526547|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408894|NCT01799941|164526547|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One-sample t-test|||||||<0.0001
82408895|NCT01248416|164526556|SUPERIORITY||||||<|0.006|||||||ANCOVA|||||||<0.006
82408896|NCT01248416|164526558|SUPERIORITY|||||||0.906|||||||ANOVA|||||||0.906
82408897|NCT01248416|164526559|SUPERIORITY|||||||0.015|||||||ANOVA|||||||0.015
82408898|NCT01248416|164526561|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82408899|NCT01248416|164526562|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82408900|NCT01248416|164526563|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
82408901|NCT02014272|164526569|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.45|||||TWO_SIDED|90.0|92.07|98.94||||||Natural log transformed AUClast of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||98.94|92.07|
82408902|NCT02014272|164526569|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|103.45|||||TWO_SIDED|90.0|99.33|107.75||||||Natural log transformed AUClast of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||107.75|99.33|
82408903|NCT02014272|164526570|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.63|||||TWO_SIDED|90.0|83.13|101.01||||||Natural log transformed Cmax of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||101.01|83.13|
82446402|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||75.39|TWO_SIDED|95.0|0.71|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.71|75.39
82446403|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||93.29|TWO_SIDED|95.0|0.68|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.68|93.29
82646715|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Difference of Proportion|5.71|STANDARD_DEVIATION|5.0||0.611|TWO_SIDED|95.0|-10.76|22.19|||Fisher Exact|||||22.19|-10.76|0.611
82446404|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.33||||3.79|TWO_SIDED|95.0|0.97|1.82||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.82|0.97|3.79
82531854|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts A + B) (Full analysis set)|LS Mean change|-1.15|STANDARD_ERROR_OF_MEAN|0.253||0.007|TWO_SIDED|95.0|-1.65|0.65|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.65|-1.65|0.007
82408904|NCT02014272|164526570|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|107.58|||||TWO_SIDED|90.0|96.07|120.47||||||Natural log transformed Cmax of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||120.47|96.07|
82408905|NCT02014272|164526571|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.92|||||TWO_SIDED|90.0|92.54|99.43||||||Natural log transformed AUC(0 - ∞) of rifampicin was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||99.43|92.54|
82408906|NCT02014272|164526571|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|102.41|||||TWO_SIDED|90.0|98.76|106.19||||||Natural log transformed AUC(0 - ∞) of isoniazid was analyzed using mixed effects model with sequence,period and treatment as fixed effects and participant within sequence as random effect.The adjusted mean differences and 90% confidence intervals(CIs) for the differences were exponentiated to provide estimates of ratio of adjusted geometric means(Test/Reference) and 90% CIs for the ratios,where FDC tablet were test and single drugs were reference.Values were back-transformed from the log scale.||106.19|98.76|
82408907|NCT02369653|164526587|SUPERIORITY|||||||0.0403|||||||Cochran-Mantel-Haenszel|||||||0.0403
82408908|NCT02369653|164526588|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
82408909|NCT01603602|164526647|SUPERIORITY||Least Squares (LS) Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.938|-0.379||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|Mixed Model Repeated Measures (MMRM)|||||-0.379|-0.938|<0.001
82408910|NCT01603602|164526647|SUPERIORITY||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.992|-0.426||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||-0.426|-0.992|<0.001
82408911|NCT01603602|164526648|SUPERIORITY||LS Mean Difference|0.21||||0.155|TWO_SIDED|95.0|-0.082|0.511||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||0.511|-0.082|0.155
82408912|NCT01603602|164526648|SUPERIORITY||LS Mean Difference|0.22||||0.147|TWO_SIDED|95.0|-0.079|0.523||MMRM model with baseline MAS-B score as covariate; factors of age, principal muscle group, treatment, visit, treatment-by-visit interaction, study center and previous botulinum toxin exposure, stratified by age and principal muscle group categories.|MMRM|||||0.523|-0.079|0.147
82408913|NCT01603602|164526649|SUPERIORITY||LS Mean Difference|-0.39||||0.111|TWO_SIDED|95.0|-0.861|0.091||ANCOVA model including baseline MAS-B score of finger flexor muscle group as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||||0.091|-0.861|0.111
82446405|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||36.75|TWO_SIDED|95.0|0.76|1.48||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.48|0.76|36.75
82531855|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-5.1|STANDARD_ERROR_OF_MEAN|0.988||0.053|TWO_SIDED|95.0|-7.05|-3.14|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||-3.14|-7.05|0.053
82408914|NCT01603602|164526649|SUPERIORITY||LS Mean Difference|-0.44||||0.078|TWO_SIDED|95.0|-0.933|0.051||ANCOVA model including baseline MAS-B score of finger flexor muscle group as a covariate and factors of age group, treatment group, study center, and previous botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||||0.051|-0.933|0.078
82408915|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|-0.1||||0.636|TWO_SIDED|95.0|-0.498|0.305||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.305|-0.498|0.636
82408916|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|-0.09||||0.658|TWO_SIDED|95.0|-0.502|0.318||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Active Goal||0.318|-0.502|0.658
82531856|NCT02855164|164761180|SUPERIORITY|Repeated measures analysis: Change in weight from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-5.89|STANDARD_ERROR_OF_MEAN|1.002||0.013|TWO_SIDED|95.0|-7.87|-3.91|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||-3.91|-7.87|0.013
82531857|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.64|STANDARD_ERROR_OF_MEAN|0.208||0.006|TWO_SIDED|95.0|-1.05|0.23|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.23|-1.05|0.006
82408917|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|0.24||||0.243|TWO_SIDED|95.0|-0.162|0.635||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.635|-0.162|0.243
82408918|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|0.17||||0.412|TWO_SIDED|95.0|-0.237|0.576||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 8, Passive Goal||0.576|-0.237|0.412
82408919|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|-0.02||||0.904|TWO_SIDED|95.0|-0.408|0.361||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.361|-0.408|0.904
82408920|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|-0.25||||0.2|TWO_SIDED|95.0|-0.641|0.135||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Active Goal||0.135|-0.641|0.200
82531858|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.29|STANDARD_ERROR_OF_MEAN|0.194||0.177|TWO_SIDED|95.0|-0.67|0.09|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.09|-0.67|0.177
82531859|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-0.35|STANDARD_ERROR_OF_MEAN|0.129||0.032|TWO_SIDED|95.0|-0.61|0.1|||Mixed Models Analysis|||60 micrograms of Tropifexor (Parts A + B) vs Placebo||0.10|-0.61|0.032
82408921|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|0.59||||0.003|TWO_SIDED|95.0|0.21|0.978||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.978|0.210|0.003
82408922|NCT01603602|164526650|SUPERIORITY||LS Mean Difference|0.19||||0.327|TWO_SIDED|95.0|-0.194|0.58||ANCOVA model including baseline MAS-B score as a covariate; factors of age, principal muscle group, treatment, study center and previous botulinum toxin exposure where age and principal muscle group were represented by stratification categories.|ANCOVA|||Week 12, Passive Goal||0.580|-0.194|0.327
82408923|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|12.1||||0.117|TWO_SIDED|95.0|-3.089|27.293||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Elbow||27.293|-3.089|0.117
82646716|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus ribavirin using a non-inferiority margin of 12%.|Difference of Proportion|2.98|STANDARD_DEVIATION|5.0||0.736|TWO_SIDED|95.0|-13.67|19.63|||Fisher Exact|||||19.63|-13.67|0.736
82408924|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|8.41||||0.273|TWO_SIDED|95.0|-6.717|23.527||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Elbow||23.527|-6.717|0.273
82408925|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|14.71||||0.015|TWO_SIDED|95.0|2.958|26.458||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Elbow||26.458|2.958|0.015
82408926|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|11.85||||0.046|TWO_SIDED|95.0|0.203|23.504||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Elbow||23.504|0.203|0.046
82408927|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|20.97|||<|0.001|TWO_SIDED|95.0|8.801|33.137||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Elbow||33.137|8.801|<0.001
82531860|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-0.42|STANDARD_ERROR_OF_MEAN|0.087||0.003|TWO_SIDED|95.0|-0.59|0.25|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.25|-0.59|0.003
82531861|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Full analysis set)|LS Mean change|-1.88|STANDARD_ERROR_OF_MEAN|0.322||0.015|TWO_SIDED|95.0|-2.51|-1.24|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||-1.24|-2.51|0.015
82646717|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|7.04|STANDARD_DEVIATION|5.0||0.485|TWO_SIDED|95.0|-9.28|23.35|||Fisher Exact|||||23.35|-9.28|0.485
82646718|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|9.77|STANDARD_DEVIATION|5.0||0.295|TWO_SIDED|95.0|-6.72|26.26|||Fisher Exact|||||26.26|-6.72|0.295
82646719|NCT00446134|165008205|NON_INFERIORITY_OR_EQUIVALENCE|The study will have 70% to detect non-inferiority of taribavirin versus taribavirin using a non-inferiority margin of 12%.|Difference of Proportion|2.73|STANDARD_DEVIATION|5.0||0.864|TWO_SIDED|95.0|-13.84|19.3|||Fisher Exact|||||19.3|-13.84|0.864
82646720|NCT00446134|165008206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4|STANDARD_DEVIATION|5.0||0.0304|TWO_SIDED|95.0|2.31|30.57|||Chi-squared|||||30.57|2.31|0.0304
82408928|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|11.35||||0.064|TWO_SIDED|95.0|-0.662|23.362||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Elbow||23.362|-0.662|0.064
82646721|NCT00446134|165008206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.1|STANDARD_DEVIATION|5.0||0.0293|TWO_SIDED|95.0|3.22|31.06|||Chi-squared|||||31.06|3.22|0.0293
82408929|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|15.25||||0.013|TWO_SIDED|95.0|3.317|27.178||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Elbow||27.178|3.317|0.013
82408930|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|7.22||||0.225|TWO_SIDED|95.0|-4.488|18.934||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Elbow||18.934|-4.488|0.225
82408931|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|4.5||||0.409|TWO_SIDED|95.0|-6.239|15.236||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Elbow||15.236|-6.239|0.409
82408932|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|3.86||||0.47|TWO_SIDED|95.0|-6.69|14.419||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Elbow||14.419|-6.690|0.470
82408933|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-6.13||||0.263|TWO_SIDED|95.0|-16.962|4.706||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Wrist||4.706|-16.962|0.263
82408934|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-14.6||||0.012|TWO_SIDED|95.0|-25.846|-3.36||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 2, Wrist||-3.360|-25.846|0.012
82408935|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-10.64||||0.098|TWO_SIDED|95.0|-23.277|1.996||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Wrist||1.996|-23.277|0.098
82531862|NCT02855164|164761181|SUPERIORITY|Repeated measures analysis: Change in BMI from baseline to EOT (Parts C) (Full analysis set)|LS Mean change|-2.11|STANDARD_ERROR_OF_MEAN|0.327||0.004|TWO_SIDED|95.0|-2.75|-1.46|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||-1.46|-2.75|0.004
82531863|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.009||0.53|TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis|||10 micrograms of Tropifexor (Part A) vs Placebo||0.01|-0.03|0.530
82531864|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|0.0|STANDARD_ERROR_OF_MEAN|0.008||0.857|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||30 micrograms of Tropifexor (Part A) vs Placebo||0.01|-0.02|0.857
82646722|NCT00446134|165008206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_DEVIATION|5.0||0.5816|TWO_SIDED|95.0|-10.41|20.24|||Chi-squared|||||20.24|-10.41|0.5816
82646723|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-13.78|16.22|||Fisher Exact|||||16.22|-13.78|0.9999
82646724|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.73|14.73|||Fisher Exact|||||14.73|-14.73|0.9999
82646725|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.11|15.71|||Fisher Exact|||||15.71|-14.11|0.9999
82646726|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-13.78|16.22|||Fisher Exact|||||16.22|-13.78|0.9999
82408936|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-13.1||||0.051|TWO_SIDED|95.0|-26.26|0.068||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 4, Wrist||0.068|-26.260|0.051
82408937|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-17.11||||0.01|TWO_SIDED|95.0|-30.031|-4.189||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Wrist||-4.189|-30.031|0.010
82646727|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-14.76|15.59|||Fisher Exact|||||15.59|-14.76|0.9999
82408938|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-11.25||||0.098|TWO_SIDED|95.0|-24.622|2.131||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 6, Wrist||2.131|-24.622|0.098
82408939|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-17.71||||0.005|TWO_SIDED|95.0|-29.888|-5.537||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Wrist||-5.537|-29.888|0.005
82408940|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-15.74||||0.015|TWO_SIDED|95.0|-28.293|-3.194||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 8, Wrist||-3.194|-28.293|0.015
82408941|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-15.25||||0.02|TWO_SIDED|95.0|-28.01|-2.492||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Wrist||-2.492|-28.010|0.020
82408942|NCT01603602|164526651|SUPERIORITY||LS Mean Difference|-13.52||||0.046|TWO_SIDED|95.0|-26.797|-0.243||ANCOVA model including baseline MTS as a covariate and factors of age group, treatment group, study center and botulinum toxin exposure where age group is represented by stratification categories.|ANCOVA|||Change from Baseline to Week 12, Wrist||-0.243|-26.797|0.046
82408943|NCT01663623|164526718|OTHER||Hazard Ratio (HR)|1.07||||0.884|TWO_SIDED|95.0|0.44|2.59||Cox proportional Hazards (Wald Chi Square)|Cox Proportional Hazards model|Analysis was adjusted for ANCA type, disease stage at induction and induction regimen|Analysis performed using a Cox Proportional Hazards model with covariates treatment group, Actual ANCA type, Actual disease stage at induction and Actual induction regimen.|||2.59|0.44|0.884
82408944|NCT03307174|164526720|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82408945|NCT01142336|164526728|SUPERIORITY|||||||0.53||||||Threshold for significance: 0.05, adjust for 3 primary outcomes using Holm Correction|ANCOVA|Response variable was Aβ42 in CSF at 1 year, and predictor variables were Aβ42 in CSF at baseline, treatment group, age, sex, and APOE e4 allele.||||||0.53
82408946|NCT01142336|164526729|SUPERIORITY|||||||0.36||||||Threshold for significance: 0.05, adjusted for 3 primary outcomes using Holm correction|ANCOVA|Response variable was total tau in CSF at 1 year, and predictor were total tau in at baseline, treatment group, age, sex, and APOE e4 allele status||||||0.36
82408947|NCT01142336|164526730|SUPERIORITY|||||||0.25||||||Threshold for significance: 0.05, adjusted for 3 primary outcomes using Holm correction.|ANCOVA|Response variable was p-tau181 in CSF at 1 year, and predictor were p-tau181 in at baseline, treatment group, age, sex, and APOE e4 allele status||||||0.25
82408948|NCT01704261|164526731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.85|-0.38|||Difference in the least squares means|Based on a constrained longitudinal data analysis (cLDA) method with a restriction of the same baseline mean across treatment groups.||||-0.38|-0.85|<0.001
82408949|NCT01704261|164526732|SUPERIORITY_OR_OTHER||Difference in % Omarigliptin vs Placebo|9.8|||||TWO_SIDED|95.0|-1.4|20.8||||||||20.8|-1.4|
82408950|NCT01704261|164526733|SUPERIORITY_OR_OTHER||Difference in % Omarigliptin vs Placebo|0.0|||||TWO_SIDED|95.0|-4.3|4.3||||||||4.3|-4.3|
82408951|NCT01704261|164526734|SUPERIORITY_OR_OTHER||Difference of the least squares means|-16.6|||<|0.001|TWO_SIDED|95.0|-25.5|-7.8|||Difference in the least squares means|Based on a constrained longitudinal data analysis (cLDA) method with a restriction of the same baseline mean across treatment groups.||||-7.8|-25.5|<0.001
82408952|NCT01704261|164526735|SUPERIORITY_OR_OTHER||Between-group Rate Difference|19.3|||<|0.001|TWO_SIDED|95.0|11.7|27.6|||Miettinen & Nurminen method|Between-group confidence intervals and p-value (%) A1C \<7.0%; estimated using standard multiple imputation techniques.||||27.6|11.7|<0.001
82408953|NCT01704261|164526735|SUPERIORITY_OR_OTHER||Between-group Rate Difference (%)|8.0||||0.005|TWO_SIDED|95.0|2.7|14.5|||Miettinen & Nurminen method|Between-group confidence intervals and p-value (%) A1C \<7.0%; estimated using standard multiple imputation techniques.||||14.5|2.7|0.005
82408954|NCT02783911|164526748|SUPERIORITY|||||||0.808|||||||Chi-squared|||||||0.808
82408955|NCT02368132|164526766|SUPERIORITY||Least squares mean difference|-8.73|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Estimated difference in least square means between Usual Care (reference) and Group Delivered TEP arm at 3 months.|||||<0.001
82408956|NCT02368132|164526766|SUPERIORITY||Least squares mean difference|-5.15|STANDARD_ERROR_OF_MEAN|2.42||0.04|TWO_SIDED||||||Mixed Models Analysis||Estimated difference in least square means between Usual Care (reference) and Individual Delivered TEP arm at 3 months.|||||0.04
82408957|NCT01041859|164526769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.234|<|0.001|TWO_SIDED|95.0|-1.415|-0.493||Analysis of covariance (ANCOVA) model was used with treatment, dose level, and pooled analysis center as factors and baseline pain intensity score as a covariate|ANCOVA||Mean Difference is least squares mean change in DB Tapentadol ER group minus least squares mean change in DB Placebo group (based on ANCOVA model)|The primary null hypothesis to be tested for the study was that the tapentadol ER group was not different from the placebo group for the primary endpoint. Assuming the mean treatment group difference of 1.0 with an SD of 2.6, 144 subjects per treatment group were estimated to provide 90% power to show that the tapentadol ER group was statistically different from placebo at an alpha level of 0.05. The total number of subjects to be randomly assigned to a DB treatment group for the study was 300.||-0.493|-1.415|<0.001
82408958|NCT00251758|164526813|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82408959|NCT00251758|164526813|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82408960|NCT00251758|164526813|SUPERIORITY_OR_OTHER|||||||0.15505||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.15505
82408961|NCT00251758|164526815|SUPERIORITY_OR_OTHER|||||||1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.00001
82408962|NCT00251758|164526815|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82408963|NCT00251758|164526815|SUPERIORITY_OR_OTHER|||||||0.3874||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.38740
82408964|NCT01387269|164526817|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||Superiority analysis||||< 0.0001
82408965|NCT01387269|164526818|SUPERIORITY_OR_OTHER|||||||0.1475|||||||Wilcoxon rank sum test|||Superiority analysis||||0.1475
82408966|NCT01387269|164526819|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Mixed Models Analysis|||Superiority analysis||||0.0004
82408967|NCT01387269|164526820|SUPERIORITY_OR_OTHER|||||||0.0544|||||||Mixed Models Analysis|||Superiority analysis||||0.0544
82408968|NCT01387269|164526821|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Superiority analysis||||< 0.0001
82408969|NCT01141608|164526836|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Linear mixed effects model|||||||<0.05
82408970|NCT00855218|164526864|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.072||95.0|0.588|1.08||stratified one-sided (alpha=0.15). adjusted for region and Alfa-fetoprotein (AFP) level at baseline.|Log Rank|||||1.080|0.588|0.072
82408971|NCT00855218|164526865|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.295||95.0|0.606|1.33|||Log Rank|stratified one-sided (alpha=0.15). adjusted for region and AFP level at baseline.||||1.330|0.606|0.295
82408972|NCT00855218|164526866|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.586||||0.999||95.0|1.2|2.096|||Log Rank|startified one-sided (alpha=0.15), adjusted for region and AFP level at baseline||||2.096|1.200|0.999
82408973|NCT00855218|164526867|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.621||||0.076||95.0|0.321|1.2|||Log Rank|stratified one sided (alpha=0.15), adjusted on region and AFP level at baseline||||1.200|0.321|0.076
82408974|NCT02858908|164526874|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.6696||||0.0484|TWO_SIDED|95.0|-1.334|-0.0051|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete 10-metre walk/run test at the preferred speed||-0.0051|-1.3340|0.0484
82408975|NCT02858908|164526874|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.6449||||0.0565|TWO_SIDED|95.0|-1.3094|0.0195|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete 10-metre walk/run test at the preferred speed||0.0195|-1.3094|0.0565
82408976|NCT02858908|164526875|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|0.9102||||0.3732|TWO_SIDED|95.0|-1.1526|2.973|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in grip strength (kg)||2.9730|-1.1526|0.3732
82408977|NCT02858908|164526875|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.3897||||0.1782|TWO_SIDED|95.0|-3.4525|0.6731|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in grip strength (kg)||0.6731|-3.4525|0.1782
82408978|NCT02858908|164526876|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.0213||||0.8886|TWO_SIDED|95.0|-0.3368|0.2941|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in FVC (litres)||0.2941|-0.3368|0.8886
82408979|NCT02858908|164526876|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|0.0152||||0.9204|TWO_SIDED|95.0|-0.3003|0.3307|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in FVC (litres)||0.3307|-0.3003|0.9204
82408980|NCT02858908|164526877|OTHER|The exact Wilcoxon signed rank test was used to test for a change in the DXA scan total lean muscle mass (g) from baseline to end of treatment|Median Difference (Net)|-42.75||||1|TWO_SIDED|95.0|-1270.0|2178.5|||ANCOVA||Hodges-Lehmann estimates for the median and confidence intervals are presented|Changes from baseline to week 12 in the DXA scan total lean muscle mass (g)||2178.50|-1270.00|1.0000
82446406|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.72||||99.32|TWO_SIDED|95.0|0.56|0.93||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.93|0.56|99.32
82446407|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.06||||18.91|TWO_SIDED|95.0|0.93|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.93|18.91
82446408|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.35|TWO_SIDED|95.0|0.87|1.15||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.15|0.87|47.35
82446409|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.96||||78|TWO_SIDED|95.0|0.86|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.86|78.00
82446410|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.29||||2.65|TWO_SIDED|95.0|1.0|1.67||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.67|1.00|2.65
82446411|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||58.48|TWO_SIDED|95.0|0.73|1.29||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.29|0.73|58.48
82446412|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.75||||99.64|TWO_SIDED|95.0|0.61|0.92||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.92|0.61|99.64
82446413|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||1.9|TWO_SIDED|95.0|1.01|1.4||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.40|1.01|1.90
82446414|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.97||||63.03|TWO_SIDED|95.0|0.81|1.16||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.16|0.81|63.03
82446415|NCT02294734|164600913|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.83||||99.19|TWO_SIDED|95.0|0.72|0.97||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.97|0.72|99.19
82531865|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.005||0.262|TWO_SIDED|95.0|-0.02|0.0|||Mixed Models Analysis|||60 micrograms of Tropifexor (Part A) vs Placebo||0.00|-0.02|0.262
82646728|NCT00446134|165008207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|5.0||0.9999|TWO_SIDED|95.0|-15.71|14.11|||Fisher Exact|||||14.11|-15.71|0.9999
82646729|NCT01311505|165008209|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.9|||||TWO_SIDED|90.0|92.98|105.2||||||20 participants (10 per sequence) provided at least 98% power that 90% confidence interval (CI) for ratio of test to reference for AUC(0-t) of rifampicin lie within acceptance region of 80%-125%. Intra-participant coefficient of variation (CV) estimate of approximately 13.48% for AUC(0-t) was used for this power calculation. Natural log transformed AUC(0-t) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as random effect.||105.20|92.98|
82646730|NCT01311505|165008210|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.24|||||TWO_SIDED|90.0|87.77|109.97||||||20 participants (10 per sequence) provided at least 94% power that 90% CI for ratio of test to reference for Cmax of rifampicin lie within acceptance region of 80%-125%. Intra-participant CV estimate of approximately 16.43% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as random effect.||109.97|87.77|
82646731|NCT01311505|165008212|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.25|||||TWO_SIDED|90.0|94.44|106.41||||||Natural log transformed AUC(0-∞) of rifampicin was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||106.41|94.44|
82646732|NCT02524665|165008235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.67|STANDARD_DEVIATION|61.97||0.0769||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used|Wilcoxon signed-rank test||Comparison of inflammatory lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.0769
82646733|NCT02524665|165008235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.77|STANDARD_DEVIATION|33.73||0.6698||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.6698
82646734|NCT02524665|165008235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.66|STANDARD_DEVIATION|17.59||0.6854||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of total lesion counts between MAXCLARITY II and Murad at Week 8.|||||0.6854
82408981|NCT02858908|164526877|OTHER|The exact Wilcoxon signed rank test was used to test for a change in the DXA scan total lean muscle mass (g) from baseline to end of treatment|Median Difference (Net)|426.75||||0.3125|TWO_SIDED|95.0|-289.5|1198.5|||ANCOVA||Hodges-Lehmann estimates for the median and confidence intervals are presented|Changes from baseline to week 12 in the DXA scan total lean muscle mass (g)||1198.50|-289.50|0.3125
82408982|NCT02858908|164526879|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom.|Mean Difference (Net)|3.1||||0.003|TWO_SIDED|95.0|2.6|3.7||The p-value is presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in Clinical Global Impression Global Improvement Scale (CGI-I)||3.7|2.6|0.0030
82408983|NCT02858908|164526879|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom.|Mean Difference (Net)|3.0||||0.0009|TWO_SIDED|95.0|2.4|3.6||The p-value is presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in Clinical Global Impression Global Improvement Scale (CGI-I)||3.6|2.4|0.0009
82408984|NCT02858908|164526880|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.132||||0.1857|TWO_SIDED|95.0|-0.33|0.066|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the weekly total number of 3 minute bouts of activity per hour wear time||0.066|-0.330|0.1857
82408985|NCT02858908|164526880|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.325||||0.0054|TWO_SIDED|95.0|-0.549|-0.102|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the weekly total number of 3 minute bouts of activity per hour wear time||-0.102|-0.549|0.0054
82446416|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||67.19|TWO_SIDED|95.0|0.64|1.33||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.33|0.64|67.19
82531866|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Parts A+B) (Full analysis set)|LS Mean change|0.0|STANDARD_ERROR_OF_MEAN|0.004||0.323|TWO_SIDED|95.0|0.0|0.01|||Mixed Models Analysis|||90 micrograms of Tropifexor (Parts A + B) vs Placebo||0.01|0.00|0.323
82646735|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_DEVIATION|74.55||0.5031||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.5031
82646736|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.11|STANDARD_DEVIATION|99.76||0.2464||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.2464
82646737|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03|STANDARD_DEVIATION|65.22||0.8894||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change inflammatory lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.8894
82646738|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.98|STANDARD_ERROR_OF_MEAN|46.04||0.6722||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.6722
82646739|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_DEVIATION|39.59||0.3352||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.3352
82408986|NCT02858908|164526883|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-2.162||||0.0111|TWO_SIDED|95.0|-3.731|-0.593|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete the nine hole peg test for the dominant arm||-0.593|-3.731|0.0111
82408987|NCT02858908|164526883|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.955||||0.2088|TWO_SIDED|95.0|-2.525|0.614|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the time taken (seconds) to complete the nine hole peg test for the dominant arm||0.614|-2.525|0.2088
82408988|NCT02858908|164526884|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.77||||0.0728|TWO_SIDED|95.0|-3.71|0.18|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the subject top three concerns VAS total score (cm)||0.18|-3.71|0.0728
82408989|NCT02858908|164526884|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.99||||0.0456|TWO_SIDED|95.0|-3.94|-0.04|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the subject top three concerns VAS total score (cm)||-0.04|-3.94|0.0456
82408990|NCT02858908|164526884|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-2.41||||0.0058|TWO_SIDED|95.0|-4.03|-0.8|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the caregiver top three concerns VAS total score (cm)||-0.80|-4.03|0.0058
82408991|NCT02858908|164526884|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-1.95||||0.0208|TWO_SIDED|95.0|-3.56|-0.34|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the caregiver top three concerns VAS total score (cm)||-0.34|-3.56|0.0208
82408992|NCT02858908|164526885|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.054||||0.0068|TWO_SIDED|95.0|-0.092|-0.017|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the OSU Autism Rating Scale - DSM-IV (OARS-4) total impairment mean||-0.017|-0.092|0.0068
82408993|NCT02858908|164526885|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-0.009||||0.609|TWO_SIDED|95.0|-0.047|0.028|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the OSU Autism Rating Scale - DSM-IV (OARS-4) total impairment mean||0.028|-0.047|0.6090
82408994|NCT02858908|164526886|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12 in OSU CGI-I. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom. A compound symmetry covariance matrix was used for the repeated visits within subject.|Mean Difference (Net)|3.4||||0.0011|TWO_SIDED|95.0|3.0|3.7||p-values are presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in OSU global improvement scale for autism (OSU CGI-I)||3.7|3.0|0.0011
82646740|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41|STANDARD_DEVIATION|35.46||0.9323||95.0||||The assumption of normality was verified using a Shapiro-Wilk Test. If the assumption of normality was rejected (at the 0.01 level), a non-parametric method (Wilcoxon signed-rank test) was used.|Wilcoxon signed-rank test||Comparison of percent change non-inflammatory lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.9323
82646741|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.72|STANDARD_DEVIATION|26.05||0.3513||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 1.|||||0.3513
82376326|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Collagen alpha-1(I) chain (P02452) was analyzed.||||= 0.979
82376327|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Decorin (P07585) was analyzed.||||= 0.979
82408995|NCT02858908|164526886|OTHER|A mixed effect model repeated measure (MMRM) was fitted to the observed values at week12 in OSU CGI-I. The model included dose group and visit as fixed effects, and the treatment-by-visit interaction. F-tests from PROC MIXED were based on Kenward-Roger's adjusted degrees of freedom. A compound symmetry covariance matrix was used for the repeated visits within subject.|Mean Difference (Net)|4.0||||1|TWO_SIDED|95.0|3.6|4.4||p-values are presented for the comparison of adjusted Least Square Means to a score of 4, representing 'No change'|Mixed Models Analysis|||Observed value at week 12 in OSU global improvement scale for autism (OSU CGI-I)||4.4|3.6|1.0000
82408996|NCT02858908|164526887|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-5.91|||<|0.0001|TWO_SIDED|95.0|-8.35|-3.47|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline at week 12 in the clinician-completed domain specific causes for concern VAS total score (cm)||-3.47|-8.35|<0.0001
82408997|NCT02858908|164526887|OTHER|Analysis of change in efficacy variables from baseline to week 12 were performed using mixed effect model repeated measures (MMRM) with baseline value as a covariate, dose group and visit as fixed effects and a treatment-by-visit interaction. Adjusted least square mean estimates were produced by dose group and study visit and were presented with two-sided 95% confidence intervals and p-values.|Mean Difference (Net)|-3.27||||0.0116|TWO_SIDED|95.0|-5.71|-0.83|||Mixed Models Analysis||The mean difference is an adjusted Least Square Mean|Change from baseline at week 12 in the clinician-completed domain specific causes for concern VAS total score (cm)||-0.83|-5.71|0.0116
82408998|NCT02858908|164526888|OTHER|An ANCOVA was fitted to the change in the Peabody Picture Vocabulary Test age-based standard score from baseline to end of treatment. The model included the baseline value as a covariate and dose group as a fixed effect.|Mean Difference (Net)|-1.1||||0.6631|TWO_SIDED|95.0|-6.5|4.3|||ANCOVA||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the peabody picture vocabulary test age-based standard score||4.3|-6.5|0.6631
82408999|NCT02858908|164526888|OTHER|An ANCOVA was fitted to the change in the Peabody Picture Vocabulary Test age-based standard score from baseline to end of treatment. The model included the baseline value as a covariate and dose group as a fixed effect.|Mean Difference (Net)|-0.1||||0.9546|TWO_SIDED|95.0|-5.5|5.2|||ANCOVA||The mean difference is an adjusted Least Square Mean|Change from baseline to week 12 in the peabody picture vocabulary test age-based standard score||5.2|-5.5|0.9546
82409000|NCT03191552|164526897|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82646742|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|STANDARD_DEVIATION|22.97||0.8199||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 2.|||||0.8199
82376328|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of C-C motif chemokine 2 (P13500) was analyzed.||||= 0.979
82376329|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Matrix metalloproteinase-9 (P14780) was analyzed.||||= 0.979
82376330|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX differences (corresponding to log-transformed ratio to baseline) of E-selectin (P16581) was analyzed.||||= 0.979
82376331|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Thrombospondin-2 (P35442) was analyzed.||||= 0.979
82409001|NCT03191552|164526898|SUPERIORITY|||||||0.027||||||Mann-Whitney U test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.027
82409002|NCT03191552|164526899|SUPERIORITY|||||||0.008||||||Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.008
82409003|NCT03191552|164526900|SUPERIORITY|Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.||||||0.004||||||Mann-WhitneyU test was performed to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0.004
82409004|NCT03191552|164526901|SUPERIORITY|||||||0.837|||||||Kruskal-Wallis|||||||0.837
82409005|NCT03191552|164526902|SUPERIORITY|||||||0.57|||||||Kruskal-Wallis|||||||0.570
82409006|NCT03191552|164526903|SUPERIORITY|||||||0.334|||||||Kruskal-Wallis|||||||0.334
82409007|NCT03191552|164526904|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82409008|NCT03191552|164526905|SUPERIORITY|||||||0.77|||||||Kruskal-Wallis|||||||0.77
82409009|NCT03191552|164526906|SUPERIORITY|||||||0.889|||||||Kruskal-Wallis|||||||0.889
82409010|NCT03191552|164526907|SUPERIORITY|||||||0.956|||||||Kruskal-Wallis|||||||0.956
82409011|NCT03191552|164526908|SUPERIORITY||||||,|0||||||Mann-WhitneyU test was used to test the significance of pairwise differences using Bonferroni correction to adjust for multiple comparisons.p value of less than 0.05/3 was determined as the level of statistical significance.|Kruskal-Wallis|||||||0,001
82409012|NCT03191552|164526909|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||||||0.14
82409013|NCT03191552|164526910|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
82409014|NCT03191552|164526911|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82409015|NCT03191552|164526912|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
82409016|NCT03191552|164526913|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82409017|NCT01149655|164526918|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.461||||0.0161|TWO_SIDED|95.0|0.242|0.879|||Log Rank|The log-rank test was based on time to exacerbation of psychotic symptoms/impending relapse.|Hazard ratios and their 95% confidence intervals were derived from the Cox Proportional Hazard model with treatment as term. Hazard ratio \< 1 is in favor of oral aripiprazole 10-30 mg group for superiority test.|The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||0.879|0.242|0.0161
82409018|NCT01149655|164526920|SUPERIORITY_OR_OTHER|||||||0.0962|TWO_SIDED||||||Chi-squared|p-value was derived using Chi-square test.||Statistical Analysis for Last Visit. The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0962
82409019|NCT01149655|164526921|SUPERIORITY_OR_OTHER|||||||0.9025|TWO_SIDED||||||Chi-squared|p-value was derived using Chi-square test.||The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.9025
82409020|NCT01149655|164526922|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||Log Rank|p-value was derived from the log-rank tests.||The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0076
82409021|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.3862|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis at Baseline. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.3862
82409022|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.8861|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 1. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.8861
82409023|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.8189|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 2. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.8189
82409024|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.3689|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 3. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.3689
82409025|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.9723|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 4. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.9723
82409026|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.2985|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 6. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.2985
82531867|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Part C) (Full analysis set)|LS Mean change|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.1|TWO_SIDED|95.0|-0.02|0.01|||Mixed Models Analysis|||140 micrograms of Tropifexor (Part C) vs Placebo||0.01|-0.02|0.100
82531868|NCT02855164|164761182|SUPERIORITY|Repeated measures analysis: Change in WTH ratio from baseline to EOT (Part C) (Full analysis set)|LS Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.007||0.693|TWO_SIDED|95.0|-0.03|0.0|||Mixed Models Analysis|||200 micrograms of Tropifexor (Part C) vs Placebo||0.00|-0.03|0.693
82531869|NCT02855164|164761194|SUPERIORITY||Risk Difference (RD)|0.004||||1|TWO_SIDED|95.0|-0.214|0.223|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (total score)||0.223|-0.214|1.0000
82531870|NCT02855164|164761194|SUPERIORITY||Risk Difference (RD)|0.029||||0.8074|TWO_SIDED|95.0|-0.196|0.251|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (total score)||0.251|-0.196|0.8074
82576343|NCT02209181|164862069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.077|TWO_SIDED|95.0|0.0|0.8||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.8|-0.0|0.077
82576344|NCT02209181|164862069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|0.8|1.6||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.6|0.8|<0.001
82576345|NCT02209181|164862069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.6|-0.7||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.7|-1.6|<0.001
82576346|NCT02209181|164862069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.148|TWO_SIDED|95.0|-0.7|0.1||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical score were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.1|-0.7|0.148
82576347|NCT02412735|164862162|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2072.|||
82409027|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0883|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 8. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0883
82409028|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0228|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 10. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0228
82409029|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0274|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 12. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0274
82409030|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0135|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 14. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0135
82409031|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 16. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0059
82409032|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 18. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0076
82409033|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 20. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0065
82409034|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0175|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 22. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0175
82531871|NCT02855164|164761195|SUPERIORITY||Risk Difference (RD)|0.028||||0.807|TWO_SIDED|95.0|-0.191|0.246|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (FDA)||0.246|-0.191|0.8070
82531872|NCT02855164|164761195|SUPERIORITY||Risk Difference (RD)|0.052||||0.6233|TWO_SIDED|95.0|-0.173|0.273|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (FDA)||0.273|-0.173|0.6233
82531873|NCT02855164|164761196|SUPERIORITY||Risk Difference (RD)|0.004||||1|TWO_SIDED|95.0|-0.214|0.233|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (EMA)||0.233|-0.214|1.0000
82531874|NCT02855164|164761196|SUPERIORITY||Risk Difference (RD)|0.029||||0.8074|TWO_SIDED|95.0|-0.196|0.251|||Mixed Models Analysis|||At least one point improvement in fibrosis (NASH CRN staging) without worsening of steatohepatitis (EMA)||0.251|-0.196|0.8074
82531875|NCT02855164|164761197|SUPERIORITY||Risk Difference (RD)|0.034||||0.7028|TWO_SIDED|95.0|-0.184|0.252|||Mixed Models Analysis|||Resolution of steatohepatitis (diagnostic category) without worsening of fibrosis (NASH CRN staging)||0.252|-0.184|0.7028
82376332|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of RARRES2 (Q99969) was analyzed.||||= 0.979
82531876|NCT02855164|164761197|SUPERIORITY||Risk Difference (RD)|0.129||||0.1713|TWO_SIDED|95.0|-0.098|0.345|||Mixed Models Analysis|||Resolution of steatohepatitis (diagnostic category) without worsening of fibrosis (NASH CRN staging)||0.345|-0.098|0.1713
82531877|NCT02855164|164761198|SUPERIORITY||Risk Difference (RD)|0.057||||0.2033|TWO_SIDED|95.0|-0.168|0.278|||Mixed Models Analysis|||Resolution of steatohepatitis (FDA, EMA) without worsening of fibrosis (NASH CRN staging)||0.278|-0.168|0.2033
82376333|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of C-X-C motif chemokine 16 (Q9H2A7) was analyzed.||||= 0.979
82376334|NCT05013008|164458857|OTHER|The hypotheses 'H0i: βi=0' (i=1,…,27) were tested at a two-sided significance level of 5%, where βi was the estimator for the difference in log-transformed ratios of biomarker levels of Visit 11 to Visit 3 between finerenone and placebo group for the i-th of the 27 pre-specified biomarkers.|||||=|0.979||||||Benjamini-Hochberg adjusted P-value was calculated using the log2-scaled NPX value.|t-test, 2 sided|||The NPX difference (corresponding to log-transformed ratio to baseline) of Dickkopf-related protein 3 (Q9UBP4) was analyzed.||||= 0.979
82376335|NCT02640482|164458911|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment for Arm A as compared with the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 89% to achieve noninferiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.5|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96% in the Arm A (180 participants) provides \>90% power to demonstrate noninferiority of ABT-493/ABT-530 to the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) (95%) (based on the normal approximation of using a single binomial proportion a one-sample test for superiority).||100.0|98.5|
82376336|NCT02640482|164458912|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment for Arm A as compared with the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 95% to achieve superiority.|Percentage of Participants|99.5|||||TWO_SIDED|95.0|98.5|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96% in the Arm A (180 participants) provides \>90% power to demonstrate superiority of ABT-493/ABT-530 to the historical rate for patients treated with the current standard of care (SOF + RBV for 12 weeks) (95%) (based on the normal approximation of a single binomial proportion using a one-sample test for superiority).||100.0|98.5|
82376337|NCT02462291|164458916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27||||1|TWO_SIDED|95.0|-7.9|5.4|||ANOVA|||Baseline||5.4|-7.9|1
82376338|NCT02462291|164458916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.3|||<|0.01|TWO_SIDED|95.0|26.4|40.2|||ANOVA|||After the treatment||40.2|26.4|<0.01
82376339|NCT02462291|164458916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.5|||<|0.01|TWO_SIDED|95.0|-38.2|-24.8|||ANOVA|||PRE Vs POST||-24.8|-38.2|<0.01
82376340|NCT02462291|164458916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1||||1|TWO_SIDED|95.0|-3.7|9.9|||ANOVA|||PRE Vs POST||9.9|-3.7|1
82376341|NCT02462291|164458917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||1|TWO_SIDED|95.0|-0.8|0.5|||ANOVA|||Baseline||0.5|-0.8|1
82376342|NCT02462291|164458917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94|||<|0.01|TWO_SIDED|95.0|-2.6|-1.2|||ANOVA|||After the treatment||-1.2|-2.6|<0.01
82376343|NCT02462291|164458917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.01|TWO_SIDED|95.0|0.28|1.61|||ANOVA|||PRE Vs POST||1.61|0.28|<0.01
82376344|NCT02462291|164458917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.01|TWO_SIDED|95.0|-1.52|-0.17|||ANOVA|||PRE Vs POST||-0.17|-1.52|<0.01
82376345|NCT02462291|164458918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||=|0.84|TWO_SIDED|95.0|-3.6|2.1|||ANOVA|||Baseline||2.1|-3.6|= 0.84
82531878|NCT02802020|164761222|SUPERIORITY|||||||0.999|||||||Fisher Exact|||"We hypothesized that pain reduction (as defined in Study endpoints above) would be achieved in a performance goal of at least 53% of patients receiving the study SEMS. Assuming an observed pain reduction rate of 75% and using an exact test with a one-sided alpha of 0.025, 43 patients were required to obtain power of at least 80%."||||0.999
82576348|NCT02412735|164862162|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.6427.|||
82376346|NCT02462291|164458918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|||=|0.9|TWO_SIDED|95.0|-4.3|1.7|||ANOVA|||After the treatment||1.7|-4.3|= 0.9
82376347|NCT02462291|164458918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.88|TWO_SIDED|95.0|-3.14|2.69|||ANOVA|||PRE Vs POST||2.69|-3.14|0.88
82376348|NCT02462291|164458918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.89|TWO_SIDED|95.0|-3.73|2.16|||ANOVA|||PRE Vs POST||2.16|-3.73|0.89
82376349|NCT02462291|164458919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||0.9|TWO_SIDED|95.0|-5.48|2.73|||ANOVA|||Baseline||2.73|-5.48|0.9
82376350|NCT02462291|164458919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.62||||0.59|TWO_SIDED|95.0|-1.6|6.9|||ANOVA|||After the treatment||6.90|-1.60|0.59
82376351|NCT02462291|164458919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.34|TWO_SIDED|95.0|-7.15|1.16|||ANOVA|||PRE Vs POST||1.16|-7.15|0.34
82376352|NCT02462291|164458919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.9|TWO_SIDED|95.0|-3.17|5.23|||ANOVA|||PRE Vs POST||5.23|-3.17|0.9
82446417|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||44.8|TWO_SIDED|95.0|0.66|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.66|44.80
82446418|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||59.9|TWO_SIDED|95.0|0.61|1.46||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.46|0.61|59.90
82446419|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||70.12|TWO_SIDED|95.0|0.63|1.31||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.31|0.63|70.12
82531879|NCT02802020|164761223|SUPERIORITY|we hypothesized that the proportion of patients reporting one or more related SAE(s) would be below a performance goal of 32%. Assuming an observed SAE rate of 15% and using an exact test with one-sided alpha of 0.025, 57 patients were required to obtain power of at least 80%.||||||0.513|||||||Fisher Exact|||||||0.513
82531880|NCT01474512|164761229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82376353|NCT02462291|164458920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.83|TWO_SIDED|95.0|-1.41|2.14|||ANOVA|||Baseline||2.14|-1.41|0.83
82376354|NCT02462291|164458920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.69|||<|0.01|TWO_SIDED|95.0|0.84|4.53|||ANOVA|||After the treatment||4.53|0.84|<0.01
82376355|NCT02462291|164458920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14||||0.01|TWO_SIDED|95.0|-3.94|-0.34|||ANOVA|||PRE Vs POST||-0.34|-3.94|0.010
82376356|NCT02462291|164458920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.84|TWO_SIDED|95.0|-1.64|2.0|||ANOVA|||PRE Vs POST||2.00|-1.64|0.84
82376357|NCT02462291|164458921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.11|TWO_SIDED|95.0|-0.16|2.95|||ANOVA|||Baseline||2.95|-0.16|0.11
82376358|NCT02462291|164458921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.7|TWO_SIDED|95.0|-0.81|2.41|||ANOVA|||After the treatment||2.41|-0.81|0.7
82376359|NCT02462291|164458921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.88|TWO_SIDED|95.0|-1.17|1.98|||ANOVA|||PRE Vs POST||1.98|-1.17|0.88
82376360|NCT02462291|164458921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.95|TWO_SIDED|95.0|-1.78|1.39|||ANOVA|||PRE Vs POST||1.39|-1.78|0.95
82376361|NCT02462291|164458922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.95|TWO_SIDED|95.0|-0.67|0.4|||ANOVA|||Baseline||0.40|-0.67|0.95
82376362|NCT02462291|164458922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.23|TWO_SIDED|95.0|-0.12|0.99|||ANOVA|||After the treatment||0.99|-0.12|0.23
82376363|NCT02462291|164458922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.96|TWO_SIDED|95.0|-0.65|0.44|||ANOVA|||PRE Vs POST||0.44|-0.65|0.96
82376364|NCT02462291|164458922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.15|TWO_SIDED|95.0|-0.08|1.01|||ANOVA|||PRE Vs POST||1.01|-0.08|0.15
82376365|NCT02462291|164458923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.84|TWO_SIDED|95.0|-1.14|1.27|||ANOVA|||Baseline||1.27|-1.14|0.84
82376366|NCT02462291|164458923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.81|TWO_SIDED|95.0|-0.96|1.54|||ANOVA|||After the treatment||1.54|-0.96|0.81
82376367|NCT02462291|164458923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.86|TWO_SIDED|95.0|-1.71|0.74|||ANOVA|||PRE Vs POST||0.74|-1.71|0.86
82376368|NCT02462291|164458923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.75|TWO_SIDED|95.0|-1.49|0.97|||ANOVA|||PRE Vs POST||0.97|-1.49|0.75
82376369|NCT02462291|164458924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7||||0.94|TWO_SIDED|95.0|-74.4|44.9|||ANOVA|||Baseline||44.9|-74.4|0.94
82376370|NCT02462291|164458924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.36||||0.87|TWO_SIDED|95.0|-53.47|70.2|||ANOVA|||After the treatment||70.20|-53.47|0.87
82376371|NCT02462291|164458924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7||||0.78|TWO_SIDED|95.0|-90.19|30.78|||ANOVA|||PRE Vs POST||30.78|-90.19|0.78
82376372|NCT02462291|164458924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.84|TWO_SIDED|95.0|-67.7|54.5|||ANOVA|||PRE Vs POST||54.5|-67.7|0.84
82376373|NCT02462291|164458925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.74|TWO_SIDED|95.0|-3.73|4.56|||ANOVA|||Baseline||4.56|-3.73|0.74
82376374|NCT02462291|164458925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25||||0.82|TWO_SIDED|95.0|-5.54|3.04|||ANOVA|||After the treatment||3.04|-5.54|0.82
82376375|NCT02462291|164458925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.59|TWO_SIDED|95.0|-3.57|4.82|||ANOVA|||PRE Vs POST||4.82|-3.57|0.59
82376376|NCT02462291|164458925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.69|TWO_SIDED|95.0|-5.28|3.19|||ANOVA|||PRE Vs POST||3.19|-5.28|0.69
82376377|NCT02462291|164458926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.9|TWO_SIDED|95.0|-0.64|1.09|||ANOVA|||Baseline||1.09|-0.64|0.9
82376378|NCT02462291|164458926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|||<|0.01|TWO_SIDED|95.0|1.96|3.76|||ANOVA|||After the treatment||3.76|1.96|<0.01
82376379|NCT02462291|164458926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92|||<|0.01|TWO_SIDED|95.0|-3.8|-2.04|||ANOVA|||PRE Vs POST||-2.04|-3.80|<0.01
82376380|NCT02462291|164458926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.88|TWO_SIDED|95.0|-1.17|0.59|||ANOVA|||PRE Vs POST||0.59|-1.17|0.88
82446420|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.82||||83.98|TWO_SIDED|95.0|0.54|1.22||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.22|0.54|83.98
82446421|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.08||||34.93|TWO_SIDED|95.0|0.73|1.57||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.57|0.73|34.93
82446422|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.14||||32.45|TWO_SIDED|95.0|0.65|1.96||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.96|0.65|32.45
82531881|NCT01474512|164761229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531882|NCT01474512|164761230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531883|NCT01474512|164761230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82376381|NCT02462291|164458927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.83|TWO_SIDED|95.0|-0.72|0.37|||ANOVA|||Baseline||0.37|-0.72|0.83
82376382|NCT02462291|164458927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.005|TWO_SIDED|95.0|0.15|1.29|||ANOVA|||After the treatment||1.29|0.15|0.005
82376383|NCT02462291|164458927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.013|TWO_SIDED|95.0|-1.21|-0.09|||ANOVA|||PRE Vs POST||-0.09|-1.21|0.013
82376384|NCT02462291|164458927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.87|TWO_SIDED|95.0|-0.31|0.81|||ANOVA|||PRE Vs POST||0.81|-0.31|0.87
82376385|NCT02462291|164458928|SUPERIORITY_OR_OTHER||Chi-squared value|0.542|||=|0.91|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.082; 3 degrees of freedom|||||= 0.910
82376386|NCT02462291|164458929|SUPERIORITY_OR_OTHER||Chi-squared value|17.73|||<|0.001|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.965; 3 degrees of freedom|||||<0.001
82376387|NCT02462291|164458930|SUPERIORITY_OR_OTHER||Chi-squared value|5.749||||0.124|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.488; 3 degrees of freedom|||||0.124
82376388|NCT02462291|164458931|SUPERIORITY_OR_OTHER||Chi-squared value|0.008||||1|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.050; 3 degrees of freedom|||||1
82376389|NCT02462291|164458932|SUPERIORITY_OR_OTHER||Chi-squared value|1.049||||0.789|TWO_SIDED||||||Chi-squared||Power of performed test with alpha = 0.050: 0.116; 3 degrees of freedom|||||0.789
82376390|NCT02129608|164458933|SUPERIORITY_OR_OTHER|||||||0.398|||||||t-test, 2 sided|||||||0.398
82531884|NCT01474512|164761231|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable, therefore the p-value is from Fisher's exact test.||||||<0.001
82531885|NCT01474512|164761231|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable, therefore the p-value is from Fisher's exact test.||||||<0.001
82376391|NCT02129608|164458933|SUPERIORITY_OR_OTHER|||||||0.436|||||||t-test, 2 sided|||||||0.436
82376392|NCT02129608|164458934|SUPERIORITY_OR_OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.070
82376393|NCT02129608|164458934|SUPERIORITY_OR_OTHER|||||||0.95|||||||t-test, 2 sided|||||||0.950
82376394|NCT00451204|164458935|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.077|TWO_SIDED|95.0|0.37|1.05|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 mo, time since dx, previous glatiramer acetate tx, and previous interferon beta tx.||||1.05|0.37|0.077
82376395|NCT00451204|164458936|SUPERIORITY_OR_OTHER||Rate ratio|0.65||||0.098|TWO_SIDED|95.0|0.39|1.08|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.08|0.39|0.098
82376396|NCT00451204|164458937|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.096|TWO_SIDED|95.0|0.36|1.09|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.09|0.36|0.096
82376397|NCT00451204|164458938|SUPERIORITY_OR_OTHER||Rate ratio|0.7||||0.179|TWO_SIDED|95.0|0.42|1.17|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||1.17|0.42|0.179
82376398|NCT00451204|164458939|SUPERIORITY_OR_OTHER||Rate ratio|0.49||||0.016|TWO_SIDED|95.0|0.28|0.88|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||0.88|0.28|0.016
82376399|NCT00451204|164458940|SUPERIORITY_OR_OTHER||Rate ratio|0.52||||0.012|TWO_SIDED|95.0|0.31|0.86|||negative binomial regression|adjusted for age, BL EDSS score, # of relapses in previous 12 months, time since dx, previous GA treatment, and previous interferon beta treatment.||||0.86|0.31|0.012
82376400|NCT00976911|164458968|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|15.7|||||TWO_SIDED|95.0|6.5|24.8||||||||24.8|6.5|
82376401|NCT00976911|164458968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Pearson's chi-square|unstratified analysis||||||0.0010
82409035|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0107|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 24. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0107
82409036|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0118|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 26. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0118
82409037|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0232|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 28. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0232
82409038|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0337|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 30. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0337
82409039|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0507|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 32. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0507
82409040|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0791|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 34. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0791
82409041|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0898|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 36. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0898
82409042|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0686|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 38. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0686
82409043|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0833|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 40. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0833
82409044|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0824|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 42. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0824
82409045|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0686|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 44. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0686
82409046|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0737|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 46. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0737
82409047|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0893|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 48. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0893
82409048|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0706|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 50. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0706
82409049|NCT01149655|164526925|SUPERIORITY_OR_OTHER|||||||0.0657|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH method was based on raw mean score statistics.||Statistical analysis for Week 52. The expected total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 2:1 (aripiprazole:placebo) randomization ratio to achieve at least 80% power and to preserve an overall nominal alpha level of 0.05 (2-sided).||||0.0657
82409050|NCT01265498|164526931|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.9||||0.0002|TWO_SIDED|95.0|1.3|2.8|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status.|obeticholic acid vs placebo|||2.8|1.3|0.0002
82531886|NCT01474512|164761232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI90.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531887|NCT01474512|164761232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI90.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531888|NCT01474512|164761232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI100.|Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable; therefore the p-value is from Fisher's exact test.||||||<0.001
82531889|NCT01474512|164761232|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PASI100.|Fisher Exact|Due to the zero count in placebo group, p-values from Logistic Regression were not obtainable; therefore the p-value is from Fisher's exact test.||||||<0.001
82409051|NCT01265498|164526932|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.08|TWO_SIDED|95.0|0.9|2.6|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.6|0.9|0.08
82409052|NCT01265498|164526933|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.8||||0.004|TWO_SIDED|95.0|1.1|2.7|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.7|1.1|0.004
82409053|NCT01265498|164526934|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.01|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-0.6|0.01
82409054|NCT01265498|164526935|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.5|-1.3|<0.0001
82409055|NCT01265498|164526936|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.03|TWO_SIDED|95.0|1.0|2.1|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs placebo|||2.1|1.0|0.03
82409056|NCT01265498|164526937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.03|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.0|-0.5|0.03
82409057|NCT01265498|164526938|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.7||||0.001|TWO_SIDED|95.0|1.2|2.3|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||2.3|1.2|0.001
82409058|NCT01265498|164526939|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.2|-0.6|0.0004
82409059|NCT01265498|164526940|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.6||||0.006|TWO_SIDED|95.0|1.1|2.2|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||2.2|1.1|0.006
82409060|NCT01265498|164526941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.0006|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-0.5|0.0006
82409061|NCT01265498|164526942|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.9|TWO_SIDED|95.0|0.6|1.7|||Cochran-Mantel-Haenszel|p values and relative benefit were calculated with the Cochran-Mantel-Haenszel chi-square test, stratified by clinic and diabetes status|obeticholic acid vs. placebo|||1.7|0.6|0.90
82409062|NCT01265498|164526943|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.59|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|calculated using ANCOVA, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.2|-0.1|0.59
82409063|NCT01265498|164526944|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.0|||<|0.0001|TWO_SIDED|95.0|-28.0|-11.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-11|-28|<0.0001
82409064|NCT01265498|164526945|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0||||0.0001|TWO_SIDED|95.0|-18.0|-6.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-6|-18|0.0001
82409065|NCT01265498|164526946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0|||<|0.0001|TWO_SIDED|95.0|13.0|24.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||24|13|<0.0001
82409066|NCT01265498|164526947|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.0|||<|0.0001|TWO_SIDED|95.0|-35.0|-14.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-14|-35|<0.0001
82446423|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||95.35|TWO_SIDED|95.0|0.46|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.46|95.35
82531890|NCT01474512|164761233|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment and baseline weight category as factors.||||||<0.001
82409067|NCT01265498|164526948|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5||||0.002|TWO_SIDED|95.0|-2.4|-0.5|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.5|-2.4|0.002
82531891|NCT01474512|164761233|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment and baseline weight category as factors.||||||<0.001
82531892|NCT01474512|164761234|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82409068|NCT01265498|164526949|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.0009|TWO_SIDED|95.0|0.16|0.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.60|0.16|0.0009
82376402|NCT00976911|164458968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Cochran-Mantel-Haenszel|||||||0.0007
82446424|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||50.1|TWO_SIDED|95.0|0.66|1.54||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.54|0.66|50.10
82446425|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||59.37|TWO_SIDED|95.0|0.55|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.55|59.37
82446426|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.8||||87.99|TWO_SIDED|95.0|0.55|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.55|87.99
82446427|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||70.87|TWO_SIDED|95.0|0.59|1.36||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.36|0.59|70.87
82446428|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||63.71|TWO_SIDED|95.0|0.51|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.51|63.71
82446429|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||65.99|TWO_SIDED|95.0|0.57|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.57|65.99
82446430|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.89||||71.95|TWO_SIDED|95.0|0.6|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.60|71.95
82446431|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||48.28|TWO_SIDED|95.0|0.71|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.71|48.28
82446432|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.95||||61.06|TWO_SIDED|95.0|0.65|1.39||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.39|0.65|61.06
82376403|NCT00976911|164458969|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45||||0.0202|TWO_SIDED|95.0|0.225|0.9||Unstratified analysis|Log Rank||Hazard ratio was estimated by unstratified Cox regression model.|||0.900|0.225|0.0202
82376404|NCT00976911|164458969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0081|TWO_SIDED||||||Peto-Peto-Prentice|||||||0.0081
82376405|NCT00976911|164458971|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.379|||<|0.0001|TWO_SIDED|95.0|0.296|0.485|||Log Rank||Stratified analysis:Strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (less than \[\<\] 3 or 3-6 months). Cox regression model was used to determine the hazard ratio.|||0.485|0.296|<0.0001
82376406|NCT00976911|164458971|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.366|0.577|||Log Rank|Unstratified analysis||||0.577|0.366|<0.0001
82376407|NCT00976911|164458971|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Peto-Peto-Prentice|Unstratified analysis||||||<0.0001
82376408|NCT00976911|164458971|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Peto-Peto-Prentice|Stratified analysis:Strata were chemotherapy selected, prior anti-angiogenic therapy, and platinum-free interval.||||||<0.0001
82376409|NCT00976911|164458972|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.833||||0.136|TWO_SIDED|95.0|0.655|1.059||Unstratified analysis|Log Rank|||||1.059|0.655|0.1360
82409069|NCT01265498|164526950|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.01|TWO_SIDED|95.0|-0.1|-0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.01|-0.10|0.01
82409070|NCT01265498|164526951|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45|||<|0.0001|TWO_SIDED|95.0|0.26|0.65|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.65|0.26|<0.0001
82409071|NCT01265498|164526952|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.88|TWO_SIDED|95.0|-0.35|0.3|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.30|-0.35|0.88
82409072|NCT01265498|164526953|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.72|TWO_SIDED|95.0|-1.8|2.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2.6|-1.8|0.72
82409073|NCT01265498|164526954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.71|TWO_SIDED|95.0|-0.01|0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.01|-0.01|0.71
82409074|NCT01265498|164526955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.002|TWO_SIDED|95.0|-1.8|-0.4|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.4|-1.8|0.002
82409075|NCT01265498|164526956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.4|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.4|-0.2|0.40
82409076|NCT01265498|164526957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.0||||0.001|TWO_SIDED|95.0|7.0|26.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||26|7|0.001
82409077|NCT01265498|164526958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.03|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.1|-1.4|0.03
82409078|NCT01265498|164526959|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.04|TWO_SIDED|95.0|0.0|0.04|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.04|0.00|0.04
82409079|NCT01265498|164526960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.53|TWO_SIDED|95.0|-0.03|0.05|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.05|-0.03|0.53
82409080|NCT01265498|164526961|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.03|TWO_SIDED|95.0|0.2|5.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||5.0|0.2|0.03
82409081|NCT01265498|164526962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.0||||0.05|TWO_SIDED|95.0|0.0|29.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||29|0|0.05
82409082|NCT01265498|164526963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.13|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.2|-1.2|0.13
82409083|NCT01265498|164526964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5||||0.31|TWO_SIDED|95.0|-0.5|1.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1.6|-0.5|0.31
82409084|NCT01265498|164526965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.16|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.1|-0.6|0.16
82409085|NCT01265498|164526966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.002|TWO_SIDED|95.0|-0.04|-0.01|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.01|-0.04|0.002
82409086|NCT01265498|164526967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.26|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.8|-0.2|0.26
82409087|NCT01265498|164526968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0||||0.02|TWO_SIDED|95.0|6.0|69.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||69|6|0.02
82409088|NCT01265498|164526969|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.01|TWO_SIDED|95.0|3.0|23.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||23|3|0.01
82409089|NCT01265498|164526970|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.71|TWO_SIDED|95.0|-1.7|2.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2.6|-1.7|0.71
82531893|NCT01474512|164761234|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82409090|NCT01265498|164526971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.2||||0.008|TWO_SIDED|95.0|-3.7|-0.6|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.6|-3.7|0.008
82409091|NCT01265498|164526972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.01|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||-0.2|-1.3|0.01
82531894|NCT01474512|164761235|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82576349|NCT02412735|164862163|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2754.|||
82376410|NCT00976911|164458972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0715|TWO_SIDED|||||Unstratified analysis|Peto-Peto-Prentice|||||||0.0715
82409092|NCT01265498|164526973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.7|TWO_SIDED|95.0|-2.2|1.5|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1.5|-2.2|0.70
82531895|NCT01474512|164761235|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82376411|NCT00976911|164458972|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.2711|TWO_SIDED|95.0|0.678|1.116||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Log Rank|||||1.116|0.678|0.2711
82376412|NCT00976911|164458972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089|TWO_SIDED|||||Stratified analysis: The strata were chemotherapy selected (paclitaxel, PLD, or topotecan), prior anti-angiogenic therapy (yes or no), and platinum-free interval (\<3 or 3-6 months).|Peto-Peto-Prentice|||||||0.0890
82376413|NCT00976911|164458973|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|8.8||||0.1859|TWO_SIDED|95.0|-3.8|21.4|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus Week 8/9||21.4|-3.8|0.1859
82376414|NCT00976911|164458973|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|3.5||||0.8309|TWO_SIDED|95.0|-14.0|20.9|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 16/18||20.9|-14|0.8309
82376415|NCT00976911|164458973|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|9.3||||0.579|TWO_SIDED|95.0|-15.0|34.1|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 24||34.1|-15|0.5790
82376416|NCT00976911|164458973|SUPERIORITY_OR_OTHER_LEGACY||Difference in Response Rates|-4.8||||0.7339|TWO_SIDED|95.0|-40.0|30.6|||Fisher Exact||95% CI was approximated with Hauck-Anderson continuity correction.|Comparison of responders at baseline versus at Week 30||30.6|-40|0.7339
82376417|NCT02814890|164458984|OTHER|difference test||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Sample size: Based on our previous data, pain score at rest 48 hours postoperatively when using ropivacaine only was of 2.8 with a standard deviation of 1.4. Assuming a decrease of pain score by 1.1 being clinically significant, twenty six patents in each group would be required for a study power of 80% (α=0.05,β=0.2). Considering possible dropouts, we aimed at recruiting 30 patients in each group with a total of 60 patients.||||0.001
82376418|NCT02814890|164458985|OTHER|difference test|Kendall's tau-b correlation coefficient|0.47|||||TWO_SIDED|||||||||||||
82376419|NCT02814890|164458987|SUPERIORITY||Risk Ratio (RR)|0.64|||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
82376420|NCT01266031|164458993|SUPERIORITY_OR_OTHER|||||||0.26||||||Null hypothesis is: PFS 6 months of Bevacizumab = PFS 6 months of Bevacizumab + Vorinostat.|Chi-squared|||Null hypothesis is: progression free survival (PFS) 6 months of Bevacizumab = PFS 6 months of Bevacizumab + Vorinostat.||||0.26
82376421|NCT02047734|164459008|SUPERIORITY||Rate Ratio|0.623|||<|0.0001|TWO_SIDED|95.0|0.506|0.768||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson regression model|Adjusted for region, age, and Baseline number of GdE lesions, and Included the natural log transformation of time on study as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.768|0.506|<0.0001
82531896|NCT01474512|164761236|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82576350|NCT02412735|164862163|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.9087.|||
82576351|NCT02412735|164862164|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2835.|||
82576352|NCT02412735|164862164|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.4739.|||
82376422|NCT02047734|164459008|SUPERIORITY||Rate Ratio|0.791||||0.0167|TWO_SIDED|95.0|0.652|0.958||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson Regression Model|Adjusted for region, age, and Baseline number of GdE lesions, and Included the natural log transformation of time on study as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.958|0.652|0.0167
82376423|NCT02047734|164459009|SUPERIORITY||Rate Ratio|0.576|||<|0.0001|TWO_SIDED|95.0|0.465|0.714||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, age, and Baseline GdE lesions, and included the natural log transformation of available number of MRI scans as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.714|0.465|<0.0001
82376424|NCT02047734|164459009|SUPERIORITY||Rate Ratio|0.657||||0.0001|TWO_SIDED|95.0|0.531|0.813||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, age, and Baseline GdE lesions and included the natural log transformation of available number of MRI scans as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.813|0.531|0.0001
82409093|NCT01265498|164526974|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.57|TWO_SIDED|95.0|-0.01|0.02|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0.02|-0.01|0.57
82409094|NCT01265498|164526975|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.05|TWO_SIDED|95.0|-7.0|0.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||0|-7|0.05
82409095|NCT01265498|164526976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.23|TWO_SIDED|95.0|-4.0|1.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||1|-4|0.23
82409096|NCT01265498|164526977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.22|TWO_SIDED|95.0|-1.0|3.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||3|-1|0.22
82409097|NCT01265498|164526978|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.65|TWO_SIDED|95.0|-3.0|2.0|||ANCOVA|calculated using ANCOVA models, regressing change from baseline to 72 weeks on treatment group and baseline value of the outcome|obeticholic acid vs placebo|||2|-3|0.65
82409098|NCT00921024|164526988|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.8|||||TWO_SIDED|||||||||||||
82409099|NCT00921024|164526989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.1|||||TWO_SIDED|||||||||||||
82409100|NCT05994963|164526992|OTHER||Ratio of adjusted geometric means|58.84|||||TWO_SIDED|90.0|40.45|85.6|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||85.60|40.45|
82409101|NCT05994963|164526993|OTHER||Ratio of adjusted geometric means|56.93|||||TWO_SIDED|90.0|38.71|83.73|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||83.73|38.71|
82409102|NCT05994963|164526994|OTHER||Ratio of adjusted geometric means|50.13|||||TWO_SIDED|90.0|33.01|76.13|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment A = reference; treatment B = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||76.13|33.01|
82409103|NCT05994963|164526995|OTHER||Ratio of adjusted geometric means|202.52|||||TWO_SIDED|90.0|138.43|296.27|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||296.27|138.43|
82409104|NCT05994963|164526996|OTHER||Ratio of adjusted geometric means|196.11|||||TWO_SIDED|90.0|131.01|293.55|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||293.55|131.01|
82409105|NCT05994963|164526997|OTHER||Ratio of adjusted geometric means|230.22|||||TWO_SIDED|90.0|145.53|364.2|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment C = test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||364.20|145.53|
82409106|NCT05994963|164526998|OTHER||Ratio of adjusted geometric means|122.84|||||TWO_SIDED|90.0|93.61|161.19|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||161.19|93.61|
82409107|NCT05994963|164526999|OTHER||Ratio of adjusted geometric means|104.69|||||TWO_SIDED|90.0|94.54|115.94|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||115.94|94.54|
82409108|NCT05994963|164527000|OTHER||Ratio of adjusted geometric means|124.59|||||TWO_SIDED|90.0|93.46|166.09|||||The ratio (test/reference) and 90% CIs are expressed as percentages. Treatment B = reference; treatment D= test.|Analysis was performed using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||166.09|93.46|
82409109|NCT02034006|164527026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|72.37|||<|0.0001|TWO_SIDED|95.0|23.44|223.42|||Regression, Logistic|||Presence vs. absence of active leakage.||223.42|23.44|<0.0001
82409110|NCT02034006|164527032|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.33|||<|0.0001|TWO_SIDED|95.0|3.18|27.36|||Regression, Logistic|||Presence vs. absence of macular edema.||27.36|3.18|<0.0001
82409111|NCT02034006|164527033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.66|||<|0.0001|TWO_SIDED|95.0|3.76|42.67|||Regression, Logistic|||Presence vs. absence of cysts.||42.67|3.76|<0.0001
82409112|NCT02034006|164527034|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.8|||<|0.0001|TWO_SIDED|95.0|11.62|213.5|||Regression, Logistic|||Presence vs. absence of intra-retinal fluid.||213.50|11.62|<0.0001
82446433|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||18.05|TWO_SIDED|95.0|0.82|1.74||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.74|0.82|18.05
82409113|NCT02034006|164527035|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.1514|TWO_SIDED|95.0|0.99|1.0|||Regression, Logistic|||Change in Central subfield thickness vs previous visit.||1.00|0.99|0.1514
82409114|NCT02034006|164527036|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.1265|TWO_SIDED|95.0|0.0|5.63|||Regression, Logistic|||Change in Central subfield volume vs previous visit.||5.63|0.00|0.1265
82409115|NCT02034006|164527038|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.91||||0.0103|TWO_SIDED|95.0|1.58|30.23|||Regression, Logistic|||Presence vs. absence of clinically significant abnormalities.||30.23|1.58|0.0103
82409116|NCT02034006|164527039|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0854|TWO_SIDED|95.0|0.9|5.33|||Regression, Logistic|||Gain \< 5 letters vs. Gain \>= 5 letters.||5.33|0.90|0.0854
82409117|NCT02034006|164527040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.52||||0.0114|TWO_SIDED|95.0|1.23|5.17|||Regression, Logistic|||Gain \< 10 letters vs. Gain \>= 10 letters.||5.17|1.23|0.0114
82576353|NCT02412735|164862165|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2650.|||
82376425|NCT02047734|164459010|SUPERIORITY||Rate Ratio|0.471||||0.0006|TWO_SIDED|95.0|0.306|0.725||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, age, and Baseline GdE lesions with the natural log transformation of available MRI scans at Month 24 as an offset term.|Rate ratio = Ozanimod / IFN β-1a|||0.725|0.306|0.0006
82376426|NCT02047734|164459010|SUPERIORITY||Rate Ratio|0.528||||0.003|TWO_SIDED|95.0|0.346|0.805||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Negative binomial regression model,|Adjusted for region, age, and Baseline GdE lesions with the natural log transformation of available MRI scans at Month 24 as an offset term.|Rate ratio = Ozanimod / IFN β-1a|||0.805|0.346|0.0030
82376427|NCT02047734|164459011|SUPERIORITY||Hazard Ratio (HR)|1.045||||0.8224|TWO_SIDED|95.0|0.711|1.537||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazards model|Adjusted for region (Eastern Europe vs Rest of World) age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.537|0.711|0.8224
82376428|NCT02047734|164459011|SUPERIORITY||Hazard Ratio (HR)|0.798||||0.2849|TWO_SIDED|95.0|0.528|1.206||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazards model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.206|0.528|0.2849
82376429|NCT02047734|164459012|SUPERIORITY||Hazard Ratio (HR)|1.435||||0.1353|TWO_SIDED|95.0|0.893|2.305||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazard model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||2.305|0.893|0.1353
82376430|NCT02047734|164459012|SUPERIORITY||Hazard Ratio (HR)|1.098||||0.7154|TWO_SIDED|95.0|0.664|1.815||To control for type 1 error, the key secondary endpoints were tested in order in a sequential, closed hierarchical testing procedure. Each comparison was tested at the alpha = 0.05 level.|Cox proportional hazard model|Adjusted for region (Eastern Europe vs Rest of World), age at Baseline, and Baseline EDSS score|Hazard ratio (Ozanimod / IFN β-1a) based on Cox proportional hazard model with factors for treatment group, adjusted for region, age at Baseline, and Baseline EDSS score.|||1.815|0.664|0.7154
82376431|NCT02047734|164459013|SUPERIORITY||Difference|9.4||||0.0047|TWO_SIDED|95.0|2.9|15.8|||Cochran-Mantel-Haenszel|Stratified by region (Eastern Europe vs Rest of the World) and Baseline EDSS category||||15.8|2.9|0.0047
82376432|NCT02047734|164459013|SUPERIORITY||Difference|7.1||||0.032|TWO_SIDED|95.0|0.6|13.6|||Cochran-Mantel-Haenszel|Stratified by region (Eastern Europe vs Rest of the World) and Baseline EDSS category||||13.6|0.6|0.0320
82376433|NCT02047734|164459014|SUPERIORITY||Difference|5.4||||0.0466|TWO_SIDED|95.0|0.0|10.8|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel test stratified by region (Eastern Europe vs. rest of the world) and Baseline EDSS category||||10.8|0.0|0.0466
82376434|NCT02047734|164459014|SUPERIORITY||Difference|5.1||||0.0581|TWO_SIDED|95.0|-0.3|10.5|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel test stratified by region (Eastern Europe vs. rest of the world) and Baseline EDSS category||||10.5|-0.3|0.0581
82376435|NCT02047734|164459015|SUPERIORITY||Difference in means|0.244|||<|0.0001|TWO_SIDED|95.0|0.125|0.363||Based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline|ANCOVA||Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|||0.363|0.125|<0.0001
82376436|NCT02047734|164459015|SUPERIORITY||Difference in means|0.224||||0.0002|TWO_SIDED|95.0|0.106|0.342||Based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|ANCOVA||Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs. rest of the world), Baseline EDSS category, and brain volume at Baseline.|||0.342|0.106|0.0002
82409118|NCT02034006|164527041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.0049|TWO_SIDED|95.0|0.25|0.91|||Regression, Logistic|||Change from baseline in BCVA: Improved vs. No change. For retreated subjects, the last scheduled assessment prior to the first retreatment was considered. For subjects treated only once, the last scheduled assessment available was considered.||0.91|0.25|0.0049
82409119|NCT02034006|164527041|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53||||0.0461|TWO_SIDED|95.0|0.69|44.52|||Regression, Logistic|||Change from baseline in BCVA: Worsened vs. No change||44.52|0.69|0.0461
82409120|NCT00485836|164527042|SUPERIORITY_OR_OTHER||Difference in Least Squares means|11.5|||<|0.0001||95.0|7.7|15.3||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||15.3|7.7|<0.0001
82409121|NCT00485836|164527042|SUPERIORITY_OR_OTHER||Difference in Least Squares means|13.8|||<|0.0001||95.0|10.3|17.4||The Hochberg-Bonferroni multiple comparison procedure was used to adjust for comparisons of the two ranibizumab groups with the sham-injection group to maintain an overall type I error rate of 0.05.|ANOVA|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).||||17.4|10.3|<0.0001
82409122|NCT00485836|164527043|SUPERIORITY_OR_OTHER||Difference in percentage|29.3|||<|0.0001||95.0|18.8|39.7|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||39.7|18.8|<0.0001
82531897|NCT01474512|164761236|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82376437|NCT02047734|164459016|SUPERIORITY||Difference in means|0.043||||0.248|TWO_SIDED|95.0|-0.03|0.116|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline MSFC Z-score|Difference in means are based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and the Baseline MSFC Z-score.|||0.116|-0.030|0.2480
82409123|NCT00485836|164527043|SUPERIORITY_OR_OTHER||Difference in percentage|30.3|||<|0.0001||95.0|19.6|40.9|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||40.9|19.6|<0.0001
82409124|NCT00485836|164527044|SUPERIORITY_OR_OTHER||Difference in percentage|11.3||||0.0019||95.0|4.3|18.2|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||18.2|4.3|0.0019
82409125|NCT00485836|164527044|SUPERIORITY_OR_OTHER||Difference in percentage|13.6|||<|0.0001||95.0|7.2|20.1|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||20.1|7.2|<0.0001
82409126|NCT00485836|164527045|SUPERIORITY_OR_OTHER||Difference in percentage|51.9|||<|0.0001||95.0|41.6|62.3|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||62.3|41.6|<0.0001
82409127|NCT00485836|164527045|SUPERIORITY_OR_OTHER||Difference in percentage|54.0|||<|0.0001||95.0|44.0|64.1|||Cochran-Mantel-Haenszel χ²|Stratified by baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters).|Weighted estimates adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) using Cochran-Mantel-Haenszel weights.|||64.1|44.0|<0.0001
82409128|NCT00485836|164527046|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-272.2|||<|0.0001||95.0|-329.9|-214.5|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-214.5|-329.9|<0.0001
82409129|NCT00485836|164527046|SUPERIORITY_OR_OTHER||Difference in Least Squares means|-283.8|||<|0.0001||95.0|-337.8|-229.8|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline value of central foveal thickness.||||-229.8|-337.8|<0.0001
82409130|NCT00485836|164527047|SUPERIORITY_OR_OTHER||Difference in Least Squares means|5.8||||0.0019||95.0|2.1|9.4|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||9.4|2.1|0.0019
82409131|NCT00485836|164527047|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.9||||0.0099||95.0|1.2|8.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Near Activities Subscale score.||||8.6|1.2|0.0099
82409132|NCT00485836|164527048|SUPERIORITY_OR_OTHER||Difference in Least Squares means|6.3||||0.0002||95.0|3.1|9.5|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||9.5|3.1|0.0002
82409133|NCT00485836|164527048|SUPERIORITY_OR_OTHER||Difference in Least Squares means|4.1||||0.0199||95.0|0.7|7.6|||ANCOVA|Pairwise ANCOVA models adjusted for baseline visual acuity score (≤ 34, 35-54, ≥ 55 letters) and baseline Distance Activities Subscale score.||||7.6|0.7|0.0199
82409134|NCT03098979|164527049|SUPERIORITY|||||||0.5183||||||Linear dose-response shape: The multiple comparison procedures (MCP) approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques.||||||0.5183
82409135|NCT03098979|164527049|SUPERIORITY|||||||0.33||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.3300
82409136|NCT03098979|164527049|SUPERIORITY|||||||0.6232||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.6232
82531898|NCT01474512|164761237|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82376438|NCT02047734|164459016|SUPERIORITY||Difference in means|0.093||||0.0123|TWO_SIDED|95.0|0.02|0.165|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline MSFC Z-score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and the Baseline MSFC Z-score.|||0.165|0.020|0.0123
82376439|NCT02047734|164459017|SUPERIORITY||Difference in means|1.345||||0.0988|TWO_SIDED|95.0|-0.252|2.943|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Physical Health Composite Summary Score||2.943|-0.252|0.0988
82409137|NCT03098979|164527049|SUPERIORITY|||||||0.0918||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.0918
82409138|NCT03098979|164527049|SUPERIORITY|||||||0.2701||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques||||||0.2701
82376440|NCT02047734|164459017|SUPERIORITY||Difference in means|1.849||||0.0228|TWO_SIDED|95.0|0.258|3.44|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score.|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Physical Health Composite Summary Score||3.440|0.258|0.0228
82376441|NCT02047734|164459017|SUPERIORITY||Difference in means|0.38||||0.6997|TWO_SIDED|95.0|-1.553|2.313|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Mental Health Composite Summary Score||2.313|-1.553|0.6997
82376442|NCT02047734|164459017|SUPERIORITY||Difference in means|0.587||||0.5501|TWO_SIDED|95.0|-1.339|2.513|||ANCOVA|Based on the analysis of covariance model, adjusted for region, Baseline EDSS category, and the Baseline summary score|Difference in means based on the analysis of covariance model, adjusted for region (Eastern Europe vs Rest of the World), Baseline EDSS category, and Baseline summary score.|Analysis of Mental Health Composite Summary Score||2.513|-1.339|0.5501
82376443|NCT02047734|164459019|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and Baseline EDSS category, with the dependent variable as the residual of the rank of brain volume at Baseline||||||<0.0001
82376444|NCT02047734|164459019|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and Baseline EDSS category, with the dependent variable as the residual of the rank of brain volume at Baseline||||||<0.0001
82376445|NCT01778634|164459098|SUPERIORITY||Odds Ratio (OR)|7.51|||<|0.0001|TWO_SIDED|95.0|2.53|22.27|||Cochran-Mantel-Haenszel|||||22.27|2.53|<0.0001
82376446|NCT01778634|164459099|SUPERIORITY||Risk Difference (RD)|0.11||||0.28|TWO_SIDED|95.0|-0.08|0.29|||Generalized Estimating Equations||Generalized Estimating Equations with an identity link|||0.29|-0.08|0.28
82376447|NCT01778634|164459100|SUPERIORITY|P values are based on GEE to account for twins||||||0.11|||||||GEE|||||||0.11
82376448|NCT01778634|164459101|SUPERIORITY|P values are based on GEE to account for twins. The counts provided refer to to the numbers actually observed. The analysis to determine the p value accounted for the missing 11 patients using multiple imputation.||||||0.62|||||||GEE with multiple imputation|||||||0.62
82376449|NCT01778634|164459102|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82376450|NCT01778634|164459103|SUPERIORITY|||||||0.88||||||To include non-survivors as bad values of this outcome we imputed a high value for the participants who died. Note, because we analyzed the data using a nonparametric test, the actual value doesn't affect the analysis, only the rank of the value.|Wilcoxon (Mann-Whitney)|||||||0.88
82376451|NCT01778634|164459104|SUPERIORITY||Median Difference (Final Values)|5.0||||0.94|TWO_SIDED|95.0|-15.0|26.0||To include non-survivors as bad values of this outcome we imputed a high value for the participants who died. Note, because we analyzed the data using a nonparametric test, the actual value doesn't affect the analysis, only the rank of the value.|Wilcoxon test after multiple outputation||Bootstrap|||26|-15|0.94
82376452|NCT01778634|164459105|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82376453|NCT01778634|164459106|SUPERIORITY||Odds Ratio (OR)|1.07||||0.88|TWO_SIDED|95.0|0.44|2.63|||Cochran-Mantel-Haenszel|||||2.63|0.44|0.88
82376454|NCT01778634|164459107|SUPERIORITY|||||||0.18|||||||Generalized Estimating Equations|||||||0.18
82376455|NCT01778634|164459109|SUPERIORITY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82409139|NCT02419807|164527080|EQUIVALENCE|Equivalence is defined as the difference in the proportions of nodes flagged between the Tc and ICG methods falling within an interval (-δ, +δ), where δ is taken to be 5%.|Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|0.036|0.151||||||||0.151|0.036|
82376456|NCT01778634|164459110|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82376457|NCT01778634|164459111|SUPERIORITY|||||||0.18|||||||Generalized Estimating Equations|||||||0.18
82376458|NCT01778634|164459112|SUPERIORITY|||||||0.091|||||||Fisher Exact|||||||0.091
82376459|NCT01778634|164459113|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82376460|NCT01778634|164459114|SUPERIORITY|||||||0.33|||||||Generalized Estimating Equations|||||||0.33
82376461|NCT01778634|164459115|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82376462|NCT02892149|164459124|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.23|-0.1||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.10|-0.23|
82376463|NCT02892149|164459125|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.30 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|0.96||||0.4745|TWO_SIDED|95.0|0.828|1.117|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.117|0.828|0.4745
82376464|NCT02892149|164459125|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4877|TWO_SIDED|95.0|0.833|1.113|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 355 and 377 respectively; median time to first event (Q1, Q3) = 46.14 (24.71, 77.14) weeks versus 47.00 (22.43, 74.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.113|0.833|=0.4877
82376465|NCT02892149|164459126|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.25|-0.12||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.12|-0.25|
82376466|NCT02892149|164459127|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.3718|TWO_SIDED|95.0|0.832|1.097|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.097|0.832|0.3718
82409140|NCT02202252|164527091|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.490
82409141|NCT02202252|164527092|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Chi-squared|||||||0.035
82409142|NCT02202252|164527093|SUPERIORITY_OR_OTHER|||||||0.819|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.819
82409143|NCT04459338|164527094|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||All continuous data are summarized as means ± SEM. Area Under the Curve (AUC) was calculated using the trapezoidal rule. A paired, two-way Student t-test (parametric) or a Wilcoxon matched-pairs signed rank test (non-parametric) was used to examine differences between study days. A p-value \<0.05 was considered statistically significant.||||0.02
82409144|NCT03073486|164527125|OTHER|||||||0.2301|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.2301
82409145|NCT03073486|164527126|OTHER|||||||0.6888|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.6888
82409146|NCT03073486|164527127|OTHER|||||||0.1361|||||||Regression, Logistic|Logistic Regression (Firth's Penalized Likelihood), MCMC Multiple Imputation||||||0.1361
82409147|NCT01668797|164527153|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|The log-rank test was based on time to exacerbation of psychotic symptoms/impending relapse.||The total number of exacerbation of psychotic symptoms/impending relapse was estimated using a 1:1 (brexpiprazole:placebo) randomization ratio.||||<0.0001
82409148|NCT01668797|164527154|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||The percentage of participants with impending relapse in treatment groups (Brexpiprazole and placebo) in final analysis for participants meeting at least one of the criteria.||||<0.0001
82409149|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.2296|||||||Chi-squared|||Statistical analysis at Week 6.||||0.2296
82409150|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.2051|||||||Chi-squared|||Statistical analysis at Week 12.||||0.2051
82409151|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.7354|||||||Chi-squared|||Statistical analysis at Week 24.||||0.7354
82409152|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.1977|||||||Chi-squared|||Statistical analysis at Week 36.||||0.1977
82409153|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.8734|||||||Chi-squared|||Statistical analysis at Week 52.||||0.8734
82409154|NCT01668797|164527155|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Chi-squared|||Statistical analysis at Last Visit.||||0.0007
82409155|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.0664|TWO_SIDED|95.0|-6.82|0.23|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 6.||0.23|-6.82|0.0664
82409156|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.31||||0.0301|TWO_SIDED|95.0|-10.1|-0.52|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 12.||-0.52|-10.1|0.0301
82409157|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.77||||0.0226|TWO_SIDED|95.0|-8.86|-0.68|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 24.||-0.68|-8.86|0.0226
82409158|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03||||0.0086|TWO_SIDED|95.0|-10.5|-1.59|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 36.||-1.59|-10.5|0.0086
82409159|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.31||||0.28|TWO_SIDED|95.0|-18.1|5.46|||Mixed Models Analysis|||Statistical analysis of treatment comparisons at Week 52.||5.46|-18.1|0.2800
82409160|NCT01668797|164527156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.42||||0.0011|TWO_SIDED|95.0|-7.01|-1.82|||Mixed Models Analysis|||Statistical analysis at across visits||-1.82|-7.01|0.0011
82409161|NCT01668797|164527157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.04||||0.0683|TWO_SIDED|95.0|-6.31|0.23|||ANCOVA|||Statistical analysis at Week 6.||0.23|-6.31|0.0683
82409162|NCT01668797|164527157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.05||||0.0174|TWO_SIDED|95.0|-9.2|-0.9|||ANCOVA|||Statistical analysis at Week 12.||-0.90|-9.20|0.0174
82409163|NCT01668797|164527157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59||||0.0008|TWO_SIDED|95.0|-12.0|-3.18|||ANCOVA|||Statistical analysis at Week 24.||-3.18|-12.0|0.0008
82409164|NCT01668797|164527157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.02||||0.0005|TWO_SIDED|95.0|-12.4|-3.59|||ANCOVA|||Statistical analysis at Week 36.||-3.59|-12.4|0.0005
82409165|NCT01668797|164527157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.95||||0.0007|TWO_SIDED|95.0|-12.5|-3.41|||ANCOVA|||Statistical analysis at Week 52.||-3.41|-12.5|0.0007
82409166|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.0507|TWO_SIDED|95.0|-2.23|0.0|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.00|-2.23|0.0507
82409167|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.008|TWO_SIDED|95.0|-3.24|-0.5|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.50|-3.24|0.0080
82409168|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.0215|TWO_SIDED|95.0|-2.89|-0.24|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.24|-2.89|0.0215
82409169|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.0053|TWO_SIDED|95.0|-3.19|-0.58|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.58|-3.19|0.0053
82409170|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.339|TWO_SIDED|95.0|-5.2|-0.22|||Mixed Models Analysis|||Statistical analysis at Week 52.||-0.22|-5.20|0.339
82409171|NCT01668797|164527158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.32|-0.88|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.88|-2.32|< 0.0001
82409172|NCT01668797|164527159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.1093|TWO_SIDED|95.0|-2.1|0.21|||ANCOVA|||Statistical analysis at Week 6.||0.21|-2.10|0.1093
82409173|NCT01668797|164527159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.0089|TWO_SIDED|95.0|-3.25|-0.47|||ANOVA|||Statistical analysis at Week 12.||-0.47|-3.25|0.0089
82409174|NCT01668797|164527159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.0005|TWO_SIDED|95.0|-4.26|-1.22|||ANCOVA|||Statistical analysis at Week 24.||-1.22|-4.26|0.0005
82409175|NCT01668797|164527159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.94||||0.0001|TWO_SIDED|95.0|-4.43|-1.44|||ANCOVA|||Statistical analysis at Week 36.||-1.44|-4.43|0.0001
82409176|NCT01668797|164527159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.18|||<|0.0001|TWO_SIDED|95.0|-4.7|-1.66|||ANCOVA|||Statistical analysis at Week 52||-1.66|-4.70|<0.0001
82409177|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.165|TWO_SIDED|95.0|-1.66|0.29|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.29|-1.66|0.1650
82409178|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.2001|TWO_SIDED|95.0|-1.97|0.42|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.42|-1.97|0.2001
82531899|NCT01474512|164761237|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82376467|NCT02892149|164459127|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4096|TWO_SIDED|95.0|0.84|1.096|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE plus hospitalization for heart failure or thromboembolic event Excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 420 and 449 respectively; median time to first event (Q1, Q3) = 42.07 (21.50, 71.14) weeks versus 45.29 (22.29, 72.43) weeks, respectively.||1.096|0.840|=0.4096
82376468|NCT02892149|164459128|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.94||||0.3875|TWO_SIDED|95.0|0.777|1.131|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.131|0.777|0.3875
82376469|NCT02892149|164459128|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.5007|TWO_SIDED|95.0|0.795|1.144|||Gray's test|||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 225 and 242 respectively; median time to first event (Q1, Q3) = 43.29 (21.71, 77.14) weeks versus 45.79 (21.14, 73.86) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.144|0.795|=0.5007
82376470|NCT02892149|164459129|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.6281|TWO_SIDED|95.0|0.761|1.203|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.203|0.761|0.6281
82376471|NCT02892149|164459129|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.6284|TWO_SIDED|95.0|0.766|1.195|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 150 and 160 respectively; median time to first event (Q1, Q3) = 43.71 (27.43, 77.14) weeks versus 49.29 (24.43, 74.07) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.195|0.766|=0.6284
82376472|NCT02892149|164459130|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96||||0.5811|TWO_SIDED|95.0|0.816|1.136|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0017 has been reported in this section.||1.136|0.816|0.5811
82376473|NCT02892149|164459130|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.4878|TWO_SIDED|95.0|0.812|1.118|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 291 and 310 respectively; median time to first event (Q1, Q3) = 50.00 (29.71, 79.00) weeks versus 49.57 (25.86, 77.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.118|0.812|=0.4878
82376474|NCT03774407|164459143|OTHER|||||||0.002||||||This P value reported was for bladder urinary frequency change from baseline to 9 months|p value|||||||0.002
82376475|NCT01004003|164459160|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.437|||||TWO_SIDED|95.0|0.805|2.565|||||"Hazard ratio (HR) from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.565|0.805|
82376476|NCT01004003|164459163|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.351|||||TWO_SIDED|95.0|0.779|2.343|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.343|0.779|
82376477|NCT01004003|164459164|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.877|||||TWO_SIDED|95.0|0.522|1.473|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.473|0.522|
82376478|NCT00555360|164459167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|2.0||0.975|TWO_SIDED|95.0|-4.62|4.77|||Regression, Logistic|||||4.77|-4.62|.975
82376479|NCT00555360|164459168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87|STANDARD_DEVIATION|1.7||0.349|TWO_SIDED|95.0|-5.78|2.05|||Regression, Logistic|||||2.05|-5.78|.349
82376480|NCT00555360|164459169|SUPERIORITY_OR_OTHER||Difference in Percent|14.0|STANDARD_DEVIATION|6.0||0.007|TWO_SIDED|95.0|3.9|24.2|||Regression, Logistic|||||24.2|3.9|.007
82376481|NCT00315731|164459208|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0-120)|0.97|||||TWO_SIDED|90.0|0.85|1.12|||||Ratio of AUC(0-120) is the ratio of AUC(0-120) values following infusion of fission-derived 131I-tositumomab to those following infusion of tellurium-derived 131I-tositumomab.|||1.12|0.85|
82376482|NCT00315731|164459209|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0-168)|0.96|||||TWO_SIDED|90.0|0.83|1.11|||||Ratio of AUC(0-168) is the ratio of AUC(0-168) values following infusion of fission-derived 131I-tositumomab to those following infusion of tellurium-derived 131I-tositumomab.|||1.11|0.83|
82376483|NCT00315731|164459210|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of AUC(0 to infinity)|0.93|||||TWO_SIDED|90.0|0.78|1.1||||||||1.10|0.78|
82376484|NCT00315731|164459211|NON_INFERIORITY_OR_EQUIVALENCE|Comparability of AUC values after dosimetric dose of fission-derived 131I-tositumomab with historical data from tellurium-derived 131I-tositumomab|Ratio of Cmax|0.98|||||TWO_SIDED|90.0|0.87|1.11||||||||1.11|0.87|
82576354|NCT02412735|164862165|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.7004.|||
82446434|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||61.12|TWO_SIDED|95.0|0.53|1.61||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.61|0.53|61.12
82446435|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.92||||64.4|TWO_SIDED|95.0|0.61|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|0.61|64.40
82446436|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||38.12|TWO_SIDED|95.0|0.69|1.66||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.66|0.69|38.12
82446437|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||91|TWO_SIDED|95.0|0.67|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.67|91.00
82409179|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.0939|TWO_SIDED|95.0|-2.07|0.16|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.16|-2.07|0.0939
82409180|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.1396|TWO_SIDED|95.0|-2.44|0.35|||Mixed Models Analysis|||Statistical analysis at Week 36.||0.35|-2.44|0.1396
82409181|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.847|TWO_SIDED|95.0|-4.14|5.0|||Mixed Models Analysis|||Statistical analysis at Week 52.||5.00|-4.14|0.8470
82409182|NCT01668797|164527160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.2258|TWO_SIDED|95.0|-1.24|0.3|||Mixed Models Analysis|||Statistical analysis at across visits.||0.3|-1.24|0.2258
82409183|NCT01668797|164527161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.0981|TWO_SIDED|95.0|-1.65|0.14|||ANCOVA|||Statistical analysis at Week 6.||0.14|-1.65|0.0981
82446438|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.81||||94.52|TWO_SIDED|95.0|0.62|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.62|94.52
82446439|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.9||||82.11|TWO_SIDED|95.0|0.72|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region Central; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.72|82.11
82531900|NCT01474512|164761238|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82531901|NCT01474512|164761238|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82409184|NCT01668797|164527161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.0264|TWO_SIDED|95.0|-2.3|-0.15|||ANCOVA|||Statistical analysis at Week 12.||-0.15|-2.30|0.0264
82409185|NCT01668797|164527161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.0078|TWO_SIDED|95.0|-2.69|-0.42|||ANCOVA|||Statistical analysis at Week 24.||-0.42|-2.69|0.0078
82409186|NCT01668797|164527161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.0101|TWO_SIDED|95.0|-2.77|-0.38|||ANCOVA|||Statistical analysis at Week 36.||-0.38|-2.77|0.0101
82409187|NCT01668797|164527161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0516|TWO_SIDED|95.0|-2.5|0.01|||ANCOVA|||Statistical analysis at Week 52||0.01|-2.50|0.0516
82409188|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0279|TWO_SIDED|95.0|-0.53|-0.03|||Mixed Models Analysis|||Statistical analysis at Week 6.||-0.03|-0.53|0.0279
82409189|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0117|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.09|-0.68|0.0117
82409190|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0105|TWO_SIDED|95.0|-0.64|-0.09|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.09|-0.64|0.0105
82409191|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0007|TWO_SIDED|95.0|-0.87|-0.25|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.25|-0.87|0.0007
82409192|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.078|TWO_SIDED|95.0|-1.09|0.06|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.06|-1.09|0.0780
82409193|NCT01668797|164527162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0006|TWO_SIDED|95.0|-0.54|-0.15|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.15|-0.54|0.0006
82409194|NCT01668797|164527163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0284|TWO_SIDED|95.0|-0.47|-0.03|||ANCOVA|||Statistical analysis at Week 6.||-0.03|-0.47|0.0284
82409195|NCT01668797|164527163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0056|TWO_SIDED|95.0|-0.62|-0.11|||ANCOVA|||Statistical analysis at Week 12.||-0.11|-0.62|0.0056
82409196|NCT01668797|164527163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0002|TWO_SIDED|95.0|-0.76|-0.24|||ANCOVA|||Statistical analysis at Week 24.||-0.24|-0.76|0.0002
82409197|NCT01668797|164527163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.3|||ANCOVA|||Statistical analysis at Week 36.||-0.30|-0.82|<.0001
82409198|NCT01668797|164527163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0002|TWO_SIDED|95.0|-0.79|-0.26|||ANCOVA|||Statistical analysis at Week 52||-0.26|-0.79|0.0002
82409199|NCT01668797|164527164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.0387|TWO_SIDED|95.0|-0.6|-0.2|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 6.||-0.20|-0.60|0.0387
82446440|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||48.1|TWO_SIDED|95.0|0.64|1.6||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.60|0.64|48.10
82531902|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for Absenteeism.||||||<0.001
82531903|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for absenteeism.||||||0.003
82409200|NCT01668797|164527164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0185|TWO_SIDED|95.0|-0.75|-0.07|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 12.||-0.07|-0.75|0.0185
82409201|NCT01668797|164527164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.001|TWO_SIDED|95.0|-0.97|-0.24|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 24.||-0.24|-0.97|0.0010
82409202|NCT01668797|164527164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0004|TWO_SIDED|95.0|-1.02|-0.3|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 36.||-0.30|-1.02|0.0004
82409203|NCT01668797|164527164|SUPERIORITY_OR_OTHER||Treatment difference|-0.61||||0.0009|TWO_SIDED|95.0|-0.96|-0.25|||Cochran-Mantel-Haenszel|||Statistical analysis at Week 52.||-0.25|-0.96|0.0009
82409204|NCT01668797|164527165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.6525|TWO_SIDED|95.0|-3.47|5.49|||Mixed Models Analysis|||Statistical analysis at Week 24.||5.49|-3.47|0.6525
82409205|NCT01668797|164527165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08||||0.1677|TWO_SIDED|95.0|-2.71|14.87|||Mixed Models Analysis|||Statistical analysis at Week 52.||14.87|-2.71|0.1677
82409206|NCT01668797|164527165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.55||||0.2347|TWO_SIDED|95.0|-2.41|9.5|||Mixed Models Analysis|||Statistical analysis at across visits.||9.5|-2.41|0.2347
82576355|NCT02412735|164862166|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.1945.|||
82409207|NCT01668797|164527166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.79||||0.0285|TWO_SIDED|95.0|0.4|7.17|||ANCOVA|||Statistical analysis at Week 24.||7.17|0.40|0.0285
82409208|NCT01668797|164527166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.75||||0.0071|TWO_SIDED|95.0|1.31|8.18|||ANCOVA|||Statistical analysis at Week 52.||8.18|1.31|0.0071
82409209|NCT01668797|164527167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61||||0.329|TWO_SIDED|95.0|-1.65|4.88|||Mixed Models Analysis|||Statistical analysis at Week 12.||4.88|-1.65|0.3290
82409210|NCT01668797|164527167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66||||0.1765|TWO_SIDED|95.0|-1.22|6.54|||Mixed Models Analysis|||Statistical analysis at Week 24.||6.54|-1.22|0.1765
82409211|NCT01668797|164527167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5||||0.0331|TWO_SIDED|95.0|0.38|8.63|||Mixed Models Analysis|||Statistical analysis at Week 36.||8.63|0.38|0.0331
82409212|NCT01668797|164527167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.88||||0.0522|TWO_SIDED|95.0|-0.06|11.82|||Mixed Models Analysis|||Statistical analysis at Week 52.||11.82|-0.06|0.0522
82409213|NCT01668797|164527167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66||||0.0281|TWO_SIDED|95.0|0.41|6.92|||Mixed Models Analysis|||Statistical analysis at across visits.||6.92|0.41|0.0281
82409214|NCT01668797|164527168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.88||||0.0111|TWO_SIDED|95.0|0.9|6.86|||ANCOVA|||Statistical analysis at Week 12.||6.86|0.90|0.0111
82409215|NCT01668797|164527168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.36||||0.0014|TWO_SIDED|95.0|2.1|8.62|||ANCOVA|||Statistical analysis at Week 24.||8.62|2.10|0.0014
82409216|NCT01668797|164527168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.81|||<|0.0001|TWO_SIDED|95.0|3.61|10.0|||ANCOVA|||Statistical analysis at Week 36.||10.00|3.61|<.0001
82409217|NCT01668797|164527168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.55||||0.0001|TWO_SIDED|95.0|3.28|9.83|||ANCOVA|||Statistical analysis at Week 52.||9.83|3.28|0.0001
82409218|NCT01668797|164527169|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Log Rank|||||||0.0014
82409219|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.1577|TWO_SIDED|95.0|-1.02|0.17|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.17|-1.02|0.1577
82409220|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.1685|TWO_SIDED|95.0|-1.61|0.28|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.28|-1.61|0.1685
82409221|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.2815|TWO_SIDED|95.0|-1.43|0.42|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.42|-1.43|0.2815
82409222|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.0286|TWO_SIDED|95.0|-2.16|-0.12|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.12|-2.16|0.0286
82409223|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.1803|TWO_SIDED|95.0|-2.58|0.51|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.51|-2.58|0.1803
82576356|NCT02412735|164862166|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.8093.|||
82376485|NCT04614246|164459219|OTHER||LS-Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|80.0|-2.13|-1.14|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.14|-2.13|
82376486|NCT04614246|164459219|OTHER||LS-Mean|-2.13|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|80.0|-2.66|-1.61|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.61|-2.66|
82376487|NCT04614246|164459219|OTHER||LS-Mean|-1.96|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|80.0|-2.48|-1.43|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.43|-2.48|
82376488|NCT04614246|164459219|OTHER||LS-Mean|-1.94|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|80.0|-2.44|-1.45|||Mixed Models Analysis|||80% confidence interval (CI) for change in mean worst EAPP from baseline to Week 12||-1.45|-2.44|
82376489|NCT04614246|164459220|OTHER|mixed model repeated measures|Difference of least square-mean|0.29|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.77|1.35||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||1.35|-0.77|
82376490|NCT04614246|164459220|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-1.27|0.91||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.91|-1.27|
82376491|NCT04614246|164459220|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.08|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|98.0|-1.17|1.02||||||Difference of least square-mean (95% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||1.02|-1.17|
82376492|NCT04614246|164459220|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|0.29|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|80.0|-0.4|0.98||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.98|-0.4|
82376493|NCT04614246|164459220|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.18|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|80.0|-0.89|0.53||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.53|-0.89|
82376494|NCT04614246|164459220|OTHER|mixed model repeated measures (MMRM)|Difference of least square-mean|-0.08|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|80.0|-0.79|0.64||||||Difference of least square-mean (80% Confidence Interval, CI) - Eliapixant arms vs Placebo arm (pairwise comparison) - change in mean worst EAPP from baseline to Week 12 - pPPS||0.64|-0.79|
82376495|NCT03597464|164459232|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.3||||0.004|TWO_SIDED|95.0|1.3|4.05|||Regression, Logistic|||Month 12 (AURORA 2 baseline)||4.05|1.30|0.004
82376496|NCT03597464|164459232|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.19||||0.006|TWO_SIDED|95.0|1.25|3.83|||Regression, Logistic|||Month 18||3.83|1.25|0.006
82376497|NCT03597464|164459232|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.81||||0.035|TWO_SIDED|95.0|1.04|3.16|||Regression, Logistic|||Month 24||3.16|1.04|0.035
82376498|NCT03597464|164459232|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.24||||0.005|TWO_SIDED|95.0|1.28|3.92|||Regression, Logistic|||Month 30||3.92|1.28|0.005
82376499|NCT03597464|164459232|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.74||||0.051|TWO_SIDED|95.0|1.0|3.03|||Regression, Logistic|||Month 36||3.03|1.00|0.051
82376500|NCT03597464|164459233|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|3.99|||<|0.001|TWO_SIDED|95.0|1.88|8.46|||Regression, Logistic|||Month 12 (AURORA 2 baseline)||8.46|1.88|<0.001
82409224|NCT01668797|164527170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.0077|TWO_SIDED|95.0|-1.12|-0.17|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.17|-1.12|0.0077
82409225|NCT01668797|164527171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1852|TWO_SIDED|95.0|-1.06|0.21|||ANCOVA|||Statistical analysis at Week 6.||0.21|-1.06|0.1852
82376501|NCT03597464|164459233|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.5||||0.008|TWO_SIDED|95.0|1.28|4.88|||Regression, Logistic|||Month 18||4.88|1.28|0.008
82376502|NCT03597464|164459233|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|2.68||||0.001|TWO_SIDED|95.0|1.46|4.91|||Regression, Logistic|||Month 24||4.91|1.46|0.001
82409226|NCT01668797|164527171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.143|TWO_SIDED|95.0|-1.47|0.21|||ANCOVA|||Statistical analysis at Week 12.||0.21|-1.47|0.1430
82409227|NCT01668797|164527171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0323|TWO_SIDED|95.0|-2.06|-0.09|||ANCOVA|||Statistical analysis at Week 24.||-0.09|-2.06|0.0323
82646743|NCT02524665|165008236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|17.83||0.9616||95.0||||Percent change from baseline were analyzed using the individual differences between both sides of the face at an alpha level of 0.05 using paired t-tests.|t-test, 2 sided||Comparison of percent change total lesion counts between MAXCLARITY II and Murad at Week 4.|||||0.9616
82646744|NCT02524665|165008237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 1|||||1.0000
82646745|NCT02524665|165008237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.66||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 2.|||||0.7500
82646746|NCT02524665|165008237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.74||0.7539||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 4.|||||0.7539
82646747|NCT02524665|165008237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.87||0.3071||95.0|||||Wilcoxon signed-rank test||Comparison of ISGA score between MAXCLARITY II and Murad at Week 8|||||0.3071
82646748|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 1.|||||0.5000
82646749|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.52||1||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 2.|||||1.0000
82646750|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 4.|||||1.0000
82646751|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Erythema score between MAXCLARITY II and Murad at Week 8.|||||0
82646752|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.74||1||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 1.|||||1.0000
82409228|NCT01668797|164527171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0071|TWO_SIDED|95.0|-2.31|-0.37|||ANCOVA|||Statistical analysis at Week 36.||-0.37|-2.31|0.0071
82409229|NCT01668797|164527171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.0023|TWO_SIDED|95.0|-2.52|-0.56|||ANCOVA|||Statistical analysis at Week 52.||-0.56|-2.52|0.0023
82409230|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0288|TWO_SIDED|95.0|-2.54|-0.14|||Mixed Models Analysis|||Statistical analysis at Week 6.||-0.14|-2.54|0.0288
82409231|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.0128|TWO_SIDED|95.0|-3.6|-0.44|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.44|-3.60|0.0128
82409232|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59||||0.0462|TWO_SIDED|95.0|-3.15|0.03|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.03|-3.15|0.0462
82409233|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||0.0074|TWO_SIDED|95.0|-3.94|-0.64|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.64|-3.94|0.0074
82409234|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.0136|TWO_SIDED|95.0|-6.05|-0.75|||Mixed Models Analysis|||Statistical analysis at Week 52||-0.75|-6.05|0.0136
82409235|NCT01668797|164527172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.91||||0.0001|TWO_SIDED|95.0|-2.84|-0.97|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.97|-2.84|0.0001
82409236|NCT01668797|164527173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0695|TWO_SIDED|95.0|-2.26|0.09|||ANCOVA|||Statistical analysis at Week 6.||0.09|-2.26|0.0695
82409237|NCT01668797|164527173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93||||0.0089|TWO_SIDED|95.0|-3.38|-0.49|||ANCOVA|||Statistical analysis at Week 12.||-0.49|-3.38|0.0089
82409238|NCT01668797|164527173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.83||||0.0004|TWO_SIDED|95.0|-4.39|-1.27|||ANCOVA|||Statistical analysis at Week 24.||-1.27|-4.39|0.0004
82409239|NCT01668797|164527173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09||||0.0001|TWO_SIDED|95.0|-4.63|-1.54|||ANCOVA|||Statistical analysis at Week 36.||-1.54|-4.63|0.0001
82409240|NCT01668797|164527173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|||<|0.0001|TWO_SIDED|95.0|-4.99|-1.89|||ANCOVA|||Statistical analysis at Week 52.||-1.89|-4.99|<0.0001
82409241|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.1969|TWO_SIDED|95.0|-1.66|0.35|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.35|-1.66|0.1969
82409242|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.2007|TWO_SIDED|95.0|-2.04|0.43|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.43|-2.04|0.2007
82409243|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0436|TWO_SIDED|95.0|-2.3|-0.03|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.03|-2.30|0.0436
82409244|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.0444|TWO_SIDED|95.0|-2.97|-0.04|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.04|-2.97|0.0444
82409245|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.8927|TWO_SIDED|95.0|-4.4|5.02|||Mixed Models Analysis|||Statistical analysis at Week 52.||5.02|-4.40|0.8927
82409246|NCT01668797|164527174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.2154|TWO_SIDED|95.0|-1.34|0.31|||Mixed Models Analysis|||Statistical analysis at across visits.||0.31|-1.34|0.2154
82409247|NCT01668797|164527175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.0707|TWO_SIDED|95.0|-1.78|0.07|||ANCOVA|||Statistical analysis at Week 6.||0.07|-1.78|0.0707
82409248|NCT01668797|164527175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0276|TWO_SIDED|95.0|-2.35|-0.14|||ANCOVA|||Statistical analysis at Week 12.||-0.14|-2.35|0.0276
82409249|NCT01668797|164527175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59||||0.0065|TWO_SIDED|95.0|-2.72|-0.45|||ANCOVA|||Statistical analysis at Week 24.||-0.45|-2.72|0.0065
82409250|NCT01668797|164527175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0085|TWO_SIDED|95.0|-2.84|-0.42|||ANCOVA|||Statistical analysis at Week 36.||-0.42|-2.84|0.0085
82409251|NCT01668797|164527175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23||||0.063|TWO_SIDED|95.0|-2.52|0.07|||ANCOVA|||Statistical analysis at Week 52.||0.07|-2.52|0.0630
82409252|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.2251|TWO_SIDED|95.0|-1.33|0.31|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.31|-1.33|0.2251
82409253|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.0368|TWO_SIDED|95.0|-2.19|-0.07|||Mixed Models Analysis|||Statistical analysis at Week 12.||-0.07|-2.19|0.0368
82409254|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0024|TWO_SIDED|95.0|-2.51|-0.56|||Mixed Models Analysis|||Statistical analysis at Week 24.||-0.56|-2.51|0.0024
82409255|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48||||0.0293|TWO_SIDED|95.0|-2.8|-0.15|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.15|-2.80|0.0293
82409256|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.9632|TWO_SIDED|95.0|-3.32|3.17|||Mixed Models Analysis|||Statistical analysis at Week 52.||3.17|-3.32|0.9632
82409257|NCT01668797|164527176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.0029|TWO_SIDED|95.0|-1.63|-0.34|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.34|-1.63|0.0029
82409258|NCT01668797|164527177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.1062|TWO_SIDED|95.0|-1.44|0.14|||ANCOVA|||Statistical analysis at Week 6.||0.14|-1.44|0.1062
82409259|NCT01668797|164527177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||0.0051|TWO_SIDED|95.0|-2.33|-0.42|||ANCOVA|||Statistical analysis at Week 12.||-0.42|-2.33|0.0051
82409260|NCT01668797|164527177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.0001|TWO_SIDED|95.0|-3.08|-1.01|||ANCOVA|||Statistical analysis at Week 24.||-1.01|-3.08|0.0001
82409261|NCT01668797|164527177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||0.0004|TWO_SIDED|95.0|-3.0|-0.89|||ANCOVA|||Statistical analysis at Week 36.||-0.89|-3.00|0.0004
82409262|NCT01668797|164527177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69||||0.0035|TWO_SIDED|95.0|-2.81|-0.56|||ANCOVA|||Statistical analysis at Week 52.||-0.56|-2.81|0.0035
82409263|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.1465|TWO_SIDED|95.0|-0.85|0.13|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.13|-0.85|0.1465
82409264|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.2154|TWO_SIDED|95.0|-1.27|0.29|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.29|-1.27|0.2154
82409265|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.2696|TWO_SIDED|95.0|-1.23|0.35|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.35|-1.23|0.2696
82409266|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.0179|TWO_SIDED|95.0|-1.95|-0.19|||Mixed Models Analysis|||Statistical analysis at Week 36.||-0.19|-1.95|0.0179
82409267|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.0875|TWO_SIDED|95.0|-2.46|0.18|||Mixed Models Analysis|||Statistical analysis at Week 52.||0.18|-2.46|0.0875
82409268|NCT01668797|164527178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0021|TWO_SIDED|95.0|-1.08|-0.24|||Mixed Models Analysis|||Statistical analysis at across visits.||-0.24|-1.08|0.0021
82409269|NCT01668797|164527179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.2135|TWO_SIDED|95.0|-0.86|0.19|||ANCOVA|||Statistical analysis at Week 6.||0.19|-0.86|0.2135
82409270|NCT01668797|164527179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.2437|TWO_SIDED|95.0|-1.13|0.29|||ANCOVA|||Statistical analysis at Week 12.||0.29|-1.13|0.2437
82409271|NCT01668797|164527179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0635|TWO_SIDED|95.0|-1.66|0.05|||ANCOVA|||Statistical analysis at Week 24.||0.05|-1.66|0.0635
82409272|NCT01668797|164527179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.0144|TWO_SIDED|95.0|-1.92|-0.22|||ANCOVA|||Statistical analysis at Week 36.||-0.22|-1.92|0.0144
82409273|NCT01668797|164527179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.0046|TWO_SIDED|95.0|-2.12|-0.39|||ANCOVA|||Statistical analysis at Week 52.||-0.39|-2.12|0.0046
82531904|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for activity impairment.||||||<0.001
82409274|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.164|TWO_SIDED|95.0|-1.14|0.19|||Mixed Models Analysis|||Statistical analysis at Week 6.||0.19|-1.14|0.1640
82409275|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.5466|TWO_SIDED|95.0|-1.04|0.55|||Mixed Models Analysis|||Statistical analysis at Week 12.||0.55|-1.04|0.5466
82409276|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9417|TWO_SIDED|95.0|-0.81|0.87|||Mixed Models Analysis|||Statistical analysis at Week 24.||0.87|-0.81|0.9417
82409277|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.6257|TWO_SIDED|95.0|-1.25|0.76|||Mixed Models Analysis|||Statistical analysis at Week 36.||0.76|-1.25|0.6257
82409278|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.7437|TWO_SIDED|95.0|-1.68|1.21|||Mixed Models Analysis|||Statistical analysis at Week 52.||1.21|-1.68|0.7437
82409279|NCT01668797|164527180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.4506|TWO_SIDED|95.0|-0.62|0.28|||Mixed Models Analysis|||Statistical analysis at across visits.||0.28|-0.62|0.4506
82409280|NCT01668797|164527181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0467|TWO_SIDED|95.0|-1.32|-0.06|||ANCOVA|||Statistical analysis at Week 6.||-0.06|-1.32|0.0467
82409281|NCT01668797|164527181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.1599|TWO_SIDED|95.0|-1.33|0.22|||ANCOVA|||Statistical analysis at Week 12.||0.22|-1.33|0.1599
82409282|NCT01668797|164527181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.1417|TWO_SIDED|95.0|-1.35|0.19|||ANCOVA|||Statistical analysis at Week 24.||0.19|-1.35|0.1417
82409283|NCT01668797|164527181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.0724|TWO_SIDED|95.0|-1.47|0.06|||ANCOVA|||Statistical analysis at Week 36.||0.06|-1.47|0.0724
82409284|NCT01668797|164527181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.0608|TWO_SIDED|95.0|-1.47|0.03|||ANCOVA|||Statistical analysis at Week 52.||0.03|-1.47|0.0608
82576357|NCT02412735|164862167|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.7842|TWO_SIDED|95.0|0.5|2.46|||Regression, Cox|P-value was calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|Hazard ratio and 95% confidence interval (CI) were calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|||2.46|0.50|0.7842
82646753|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 2.|||||0
82376503|NCT03597464|164459233|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.86||||0.04|TWO_SIDED|95.0|1.03|3.34|||Regression, Logistic|||Month 30||3.34|1.03|0.040
82376504|NCT03597464|164459233|OTHER|"The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and region.~Subjects who withdrew from the study prior to the visit assessments and thus provide insufficient visit data were defined as non-responders."|Odds Ratio (OR)|1.39||||0.29|TWO_SIDED|95.0|0.75|2.58|||Regression, Logistic|||Month 36||2.58|0.75|0.290
82376505|NCT03597464|164459234|OTHER||Odds Ratio (OR)|0.56||||0.045|TWO_SIDED|95.0|0.32|0.99|||Regression, Logistic|||Number of subjects with adequate renal response. This model is based on a logistic regression with terms for treatment, baseline urine protein creatinine ratio (UPCR), biopsy class, mycophenolate mofetil (MMF) use at baseline and region. An odds ratio \< unity indicates benefit for voclosporin.||0.99|0.32|0.045
82376506|NCT03597464|164459235|SUPERIORITY||Least Squares Mean difference|-0.8||||0.238|TWO_SIDED|95.0|-2.1|0.5|||Mixed Models Analysis|||Month 18||0.5|-2.1|0.238
82376507|NCT03597464|164459235|SUPERIORITY||Least Squares Mean difference|-0.7||||0.215|TWO_SIDED|95.0|-1.8|0.4|||Mixed Models Analysis|||Month 24||0.4|-1.8|0.215
82376508|NCT03597464|164459235|SUPERIORITY||Least Squares Mean difference|-0.7||||0.246|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|||Month 36||0.5|-1.8|0.246
82376509|NCT03597464|164459236|SUPERIORITY||Least Squares Mean difference|-0.65||||0.001|TWO_SIDED|95.0|-1.05|-0.26|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-0.26|-1.05|0.001
82376510|NCT03597464|164459236|SUPERIORITY||Least Squares Mean difference|-0.63||||0.029|TWO_SIDED|95.0|-1.2|-0.07|||Mixed Models Analysis|||Month 18||-0.07|-1.20|0.029
82376511|NCT03597464|164459236|SUPERIORITY||Least Squares Mean difference|-0.77||||0.002|TWO_SIDED|95.0|-1.24|-0.29|||Mixed Models Analysis|||Month 24||-0.29|-1.24|0.002
82376512|NCT03597464|164459236|SUPERIORITY||Least Squares Mean difference|-0.91||||0.002|TWO_SIDED|95.0|-1.49|-0.33|||Mixed Models Analysis|||Month 30||-0.33|-1.49|0.002
82376513|NCT03597464|164459236|SUPERIORITY||Least Squares Mean difference|-0.48||||0.106|TWO_SIDED|95.0|-1.06|-0.1|||Mixed Models Analysis|||Month 36||-0.10|-1.06|0.106
82376514|NCT03597464|164459237|SUPERIORITY||Least Squares Mean difference|-2.7||||0.041|TWO_SIDED|95.0|-5.3|-0.1|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-0.1|-5.3|0.041
82376515|NCT03597464|164459237|SUPERIORITY||Least Squares Mean difference|-1.8||||0.292|TWO_SIDED|95.0|-5.1|1.6|||Mixed Models Analysis|||Month 18||1.6|-5.1|0.292
82376516|NCT03597464|164459237|SUPERIORITY||Least Squares Mean difference|-2.2||||0.282|TWO_SIDED|95.0|-6.1|1.8|||Mixed Models Analysis|||Month 24||1.8|-6.1|0.282
82376517|NCT03597464|164459237|SUPERIORITY||Least Squares Mean difference|0.9||||0.659|TWO_SIDED|95.0|-3.2|5.1|||Mixed Models Analysis|||Month 30||5.1|-3.2|0.659
82376518|NCT03597464|164459237|SUPERIORITY||Least Squares Mean difference|1.8||||0.438|TWO_SIDED|95.0|-2.8|6.4|||Mixed Models Analysis|||Month 36||6.4|-2.8|0.438
82376519|NCT03597464|164459238|SUPERIORITY||Least Squares Mean difference|-67.7||||0.002|TWO_SIDED|95.0|-110.4|-25.1|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||-25.1|-110.4|0.002
82376520|NCT03597464|164459238|SUPERIORITY||Least Squares Mean difference|-87.7||||0.007|TWO_SIDED|95.0|-151.2|-24.2|||Mixed Models Analysis|||Month 18||-24.2|-151.2|0.007
82376521|NCT03597464|164459238|SUPERIORITY||Least Squares Mean difference|-47.0||||0.035|TWO_SIDED|95.0|-90.8|-3.3|||Mixed Models Analysis|||Month 24||-3.3|-90.8|0.035
82376522|NCT03597464|164459238|SUPERIORITY||Least Squares Mean difference|-73.1||||0.005|TWO_SIDED|95.0|-123.5|-22.6|||Mixed Models Analysis|||Month 30||-22.6|-123.5|0.005
82376523|NCT03597464|164459238|SUPERIORITY||Least Squares Mean difference|-19.0||||0.537|TWO_SIDED|95.0|-79.7|41.7|||Mixed Models Analysis|||Month 36||41.7|-79.7|0.537
82376524|NCT03597464|164459239|SUPERIORITY||Least Squares Mean difference|0.084|||<|0.001|TWO_SIDED|95.0|0.035|0.134|||Mixed Models Analysis|||Month 12 (AURORA 2 baseline)||0.134|0.035|<0.001
82376525|NCT03597464|164459239|SUPERIORITY||Least Squares Mean difference|0.051||||0.209|TWO_SIDED|95.0|-0.029|0.131|||Mixed Models Analysis|||Month 18||0.131|-0.029|0.209
82376526|NCT03597464|164459239|SUPERIORITY||Least Squares Mean difference|0.057||||0.353|TWO_SIDED|95.0|-0.064|0.178|||Mixed Models Analysis|||Month 24||0.178|-0.064|0.353
82376527|NCT03597464|164459239|SUPERIORITY||Least Squares Mean difference|-0.036||||0.616|TWO_SIDED|95.0|-0.176|0.105|||Mixed Models Analysis|||Month 30||0.105|-0.176|0.616
82376528|NCT03597464|164459239|SUPERIORITY||Least Squares Mean difference|-0.077||||0.372|TWO_SIDED|95.0|-0.248|0.094|||Mixed Models Analysis|||Month 36||0.094|-0.248|0.372
82376529|NCT00676780|164459240|SUPERIORITY_OR_OTHER||||||=|0.027||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.027
82376530|NCT00676780|164459241|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.023
82376531|NCT00676780|164459242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis is no change, i.e. median change = 0.0||||<0.001
82376532|NCT01613313|164459244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|||||||No p value||This is a proof of concept dose escalation study. No power justification has been implemented. Descriptive data provided for each arm.||||
82376533|NCT01613313|164459245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|||||||||This is a proof of concept dose escalation study. No power of justification was implemented. Descriptive statistics was provided for each arm only.||||
82376534|NCT03106987|164459301|OTHER||Hazard Ratio (HR)|0.566||||0.022|TWO_SIDED|95.0|0.372|0.868|||Stratified log-rank||Hazard Ratio (Cox Proportional Hazards model)|||0.868|0.372|0.0220
82409285|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 1.05 µg/mL with 95% CI = (1.00 to 1.10).|GMC ratio|0.16|||||TWO_SIDED|95.0|0.14|0.18||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 1."||0.18|0.14|
82409286|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1106 in the 105553 10Pn Group; GMC= 1.45 µg/mL with 95% CI = (1.38 to 1.53).|GMC ratio|0.22|||||TWO_SIDED|95.0|0.2|0.25||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 4."||0.25|0.2|
82409287|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1104 in the 105553 10Pn Group; GMC= 1.70 µg/mL with 95% CI = (1.62 to 1.78).|GMC ratio|0.26|||||TWO_SIDED|95.0|0.23|0.29||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 5."||0.29|0.23|
82409288|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 0.33 µg/mL with 95% CI = (0.30 to 0.36).|GMC ratio|0.19|||||TWO_SIDED|95.0|0.16|0.23||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 6B."||0.23|0.16|
82409289|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1107 in the 105553 10Pn Group; GMC= 1.72 µg/mL with 95% CI = (1.64 to 1.80).|GMC ratio|0.28|||||TWO_SIDED|95.0|0.25|0.31||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 7F."||0.31|0.25|
82409290|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1103 in the 105553 10Pn Group; GMC= 1.32 µg/mL with 95% CI = (1.25 to 1.38).|GMC ratio|0.24|||||TWO_SIDED|95.0|0.22|0.27||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 9V."||0.27|0.22|
82409291|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1100 in the 105553 10Pn Group; GMC= 2.90 µg/mL with 95% CI = (2.75 to 3.05).|GMC ratio|0.29|||||TWO_SIDED|95.0|0.25|0.33||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 14."||0.33|0.25|
82531905|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for activity impairment.||||||<0.001
82531906|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for presenteeism.||||||<0.001
82531907|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for presenteeism.||||||<0.001
82376535|NCT03106987|164459301|OTHER||Hazard Ratio (HR)|0.43||||0.0023|TWO_SIDED|95.0|0.264|0.708|||Stratified log-rank||Hazard Ratio (Cox Proportional Hazards model)|||0.708|0.264|0.0023
82376536|NCT02114385|164459331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.23|||<|0.001|TWO_SIDED|95.0|1.04|1.45|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 6||1.45|1.04|<0.001
82376537|NCT02114385|164459331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.76|1.04|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 11||1.04|0.76|<0.001
82376538|NCT02114385|164459331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.89|1.21|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 16||1.21|0.89|<0.001
82376539|NCT02114385|164459331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.50|GMT Ratio|1.12|||<|0.001|TWO_SIDED|95.0|0.91|1.37|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 18||1.37|0.91|<0.001
82376540|NCT01753297|164459353|OTHER|||||||0.158|||||||Log Rank|||A two-sided log-rank test was used to compare time to BRFS between both treatment groups.|Analysis on BRFS was based on 61 BR events (comprised of 35 BR events in the active surveillance arm and 26 BR events in the triptorelin arm).|||0.158
82376541|NCT01753297|164459353|OTHER||Hazard Ratio (HR)|0.65||||0.1|TWO_SIDED|95.0|0.38|1.09|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute hazards ratios (HRs) and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||1.09|0.38|0.100
82376542|NCT01753297|164459353|OTHER||Hazard Ratio (HR)|1.49||||0.502|TWO_SIDED|95.0|0.46|4.79|||Regression, Cox|||"Comparison between countries: Russia compared to China.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and country: p=0.970.|4.79|0.46|0.502
82376543|NCT01753297|164459353|OTHER|||||||0.671|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and centre: p=0.241.|||0.671
82376544|NCT01753297|164459353|OTHER||Hazard Ratio (HR)|2.35||||0.093|TWO_SIDED|95.0|0.87|6.39|||Regression, Cox|||"Comparison between Gleason score categories: Gleason score of =7 compared to Gleason score ≤6.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."|Interactions effect between treatment group and each covariate (country, centre(country) and Gleason score) were tested one by one in separate models. An interaction effect was considered as significant if p-value was \<0.20. Interaction between treatment group and Gleason score: p=0.272.|6.39|0.87|0.093
82376545|NCT01753297|164459353|OTHER||Hazard Ratio (HR)|2.03||||0.168|TWO_SIDED|95.0|0.74|5.55|||Regression, Cox|||"Comparison between Gleason score categories: Gleason score of ≥8 compared to Gleason score ≤6.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||5.55|0.74|0.168
82376546|NCT01753297|164459355|OTHER|||||||0.639|||||||Log Rank|||A two-sided log-rank test was used to compare time to EFS between both treatment groups.|Analysis was based on 2 EFS events in the active surveillance arm and 3 EFS events in the triptorelin arm.|||0.639
82376547|NCT01753297|164459355|OTHER||Hazard Ratio (HR)|1.52||||0.653|TWO_SIDED|95.0|0.24|9.59|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||9.59|0.24|0.653
82376548|NCT01753297|164459355|OTHER|||||||0.999|||||||Regression, Cox|||"Country effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.999
82376549|NCT01753297|164459355|OTHER|||||||1|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||1.000
82376550|NCT01753297|164459355|OTHER|||||||0.583|||||||Regression, Cox|||"Gleason score effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.583
82376551|NCT01753297|164459357|OTHER|||||||0.557|||||||Log Rank|||A two-sided log-rank test was used to compare time to OS between both treatment groups.|1 death occurred in the active surveillance arm and 2 deaths occurred in the triptorelin arm.|||0.557
82409292|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1102 in the 105553 10Pn Group; GMC= 1.66 µg/mL with 95% CI = (1.56 to 1.77).|GMC ratio|0.1|||||TWO_SIDED|95.0|0.09|0.12||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 18C."||0.12|0.09|
82409293|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1104 in the 105553 10Pn Group; GMC= 1.84 µg/mL with 95% CI = (1.71 to 1.98).|GMC ratio|0.11|||||TWO_SIDED|95.0|0.09|0.12||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 19F."||0.12|0.09|
82409294|NCT01027845|164527208|NON_INFERIORITY|Comparability to the 105553 study in terms of non-inferiority was demonstrated if the upper limit (UL) of the two-sided 95% confidence interval(CI) on the GMC ratios (GMCs from 105553 10Pn Group over GMCs from 10Pn Group) were below a limit of 2-fold for all 10 vaccine pneumococcal serotypes. Number of participants analysed =1102 in the 105553 10Pn Group; GMC= 0.53 µg/mL with 95% CI = (0.50 to 0.57).|GMC ratio|0.25|||||TWO_SIDED|95.0|0.21|0.29||||||"Immune response of Synflorix vaccine tested between subjects of the 10Pn Group of the study and healthy European subjects from the 10PN-PD-DIT-001 (105553) study (with following indication: 3-dose primary vaccination of infants between 6 to 12 weeks of age at the time of the first vaccination with Synflorix), that formed the 105553 10Pn Group.~At 1 month after primary immunization (post-dose 3), ELISA GMC ratio (105553 10Pn Group over 10Pn Group) was calculated for pneumococcal serotype 23F."||0.29|0.21|
82409295|NCT04465422|164527242|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|1.65|5.55|||Mixed Models Analysis|||Statistical Anaiysis 1 is according to Occupational Performance History Interview - II (OPHI-II) total score.||5.55|1.65|<0.001
82409296|NCT04465422|164527242|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.53||0.019|TWO_SIDED|95.0|0.23|2.37|||Mixed Models Analysis|||Statistical Analysis 2 is based on Occupational Identity(range 11\~44；higher scores indicates better performance), a sub-domain of OPHI-II. The Occupational Identity scale is designed to measure the degree to which a client has internalized a positive occupational identity (i.e., has values, interests, and confidence; sees self in various occupational roles; has an image of the kind of life desired)||2.37|0.23|0.019
82376552|NCT01753297|164459360|OTHER|||||||0.525|||||||Log Rank|||A two-sided log-rank test was used to compare PSADT between both treatment groups.|Analysis was based on 9 PSADT events in the active surveillance arm and 6 PSADT events in the triptorelin arm.|||0.525
82376553|NCT01753297|164459360|OTHER||Hazard Ratio (HR)|1.72||||0.435|TWO_SIDED|95.0|0.44|6.73|||Regression, Cox|||"Comparison between treatment groups: Triptorelin compared to Active surveillance.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||6.73|0.44|0.435
82376554|NCT01753297|164459360|OTHER|||||||0.761|||||||Regression, Cox|||"Country effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.761
82376555|NCT01753297|164459360|OTHER|||||||0.652|||||||Regression, Cox|||"Centre effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.652
82376556|NCT01753297|164459360|OTHER|||||||0.726|||||||Regression, Cox|||"Gleason score effect.~A Cox proportional hazard model was fitted to compute HRs and the corresponding 95% CIs with treatment group, country (China as reference), centre (the largest centre as reference), and Gleason score on prostatectomy specimen (in categories: ≤6 / =7 / ≥8, with ≤6 considered as the reference) as fixed factors."||||0.726
82376557|NCT00230178|164459366|SUPERIORITY_OR_OTHER||Difference in response rate %|21.0||||0.0009||95.0|8.6|32.7|||Wilson's method|||||32.7|8.6|0.0009
82376558|NCT00230178|164459366|SUPERIORITY_OR_OTHER||Difference in response rate %|12.3||||0.0632||95.0|-0.9|25.0|||Wilson's method|||||25.0|-0.9|0.0632
82376559|NCT00230178|164459367|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82376560|NCT00230178|164459367|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82376561|NCT00447876|164459370|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.2|||=|0.182|TWO_SIDED|95.0|-0.06|0.46|||Fisher Exact|||The responders rate at Week 6 was compared between treatment groups by a two-sided Fisher exact test.||0.46|-0.06|=0.182
82376562|NCT00447876|164459371|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.222|||||||Cochran-Mantel-Haenszel|||Gerbershagen's Global scores were compared at Week 18 using a Cochran-Mantel-Haenszel analysis of variance statistic with adjustment to the baseline score.||||=0.222
82376563|NCT00447876|164459373|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.837|||=|0.423|TWO_SIDED|95.0|-30.94|13.266|||ANCOVA|||SPID was compared between the two treatment groups using a fixed effect analysis of covariance (ANCOVA) taking into account the SPID value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||13.266|-30.940|=0.423
82446441|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||65.66|TWO_SIDED|95.0|0.64|1.36||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.36|0.64|65.66
82376564|NCT00447876|164459375|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.173|||=|0.682|TWO_SIDED|95.0|-24.64|16.294|||ANCOVA|||SPID was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||16.294|-24.640|=0.682
82376565|NCT00447876|164459377|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.066|||=|0.438|TWO_SIDED|95.0|-28.91|12.779|||ANCOVA|||The sum of pain threshold difference (i.e. SPID expressed as AUC) was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID AUC value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||12.779|-28.910|=0.438
82376566|NCT00447876|164459379|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.594|||=|0.937|TWO_SIDED|95.0|-14.575|15.762|||ANCOVA|||The sum of pressure threshold difference (i.e. SPID expressed as AUC) was compared between the two treatment groups using a fixed effect ANCOVA taking into account the SPID AUC value as dependent variable, the baseline pain intensity as co-variable, and the treatment group as explicative variable.||15.762|-14.575|=0.937
82409297|NCT04465422|164527242|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.43||0.006|TWO_SIDED|95.0|0.38|2.11|||Mixed Models Analysis|||Statistical Analysis 3 is based on Occupational Competence(range 9\~36；higher scores indicate better performance), a sub-domain of OPHI-II. The Occupational Competence scale is designed to measure the degree to which a client is able to sustain a pattern of occupational behavior that is productive and satisfying.||2.11|0.38|0.006
82409298|NCT04465422|164527242|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.38||0.136|TWO_SIDED|95.0|-0.19|1.35|||Mixed Models Analysis|||Statistical Analysis 4 is based on Occupational Behavior Settings(range 9\~36；higher scores indicate greater performance), a sub-domain of OPHI-II. The Occupational Behavior Settings scale addresses the impact of the environment on the person's occupational life.||1.35|-0.19|0.136
82409299|NCT04465422|164527243|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.53||0.592|TWO_SIDED|95.0|-3.9|2.25|||Mixed Models Analysis|||Statistical Analysis 1 is based on Lawton Instrumental Activities Daily Living (range 0\~23；the higher scores indicate greater performance) total scores.||2.25|-3.90|0.592
82409300|NCT04465422|164527243|SUPERIORITY||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|2.37||0.302|TWO_SIDED|95.0|-2.29|7.23|||Mixed Models Analysis|||Statistical Analysis 2 is based on Comprehensive Occupational Therapy Evaluation Scale (range 20\~100；the higher scores indicate greater performance) total scores.||7.23|-2.29|0.302
82376567|NCT00447876|164459380|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.8|||=|0.8|TWO_SIDED|95.0|-6.8|5.3||The difference (most affected side - control side) in ROM for the dorsal extension was analyzed using a fixed effect ANCOVA, using Week 18 results as the dependent variable and baseline value as covariate.|ANCOVA|||||5.3|-6.8|=0.800
82376568|NCT00447876|164459381|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.862|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 2. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.862
82376569|NCT00447876|164459381|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.317|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 6. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.317
82376570|NCT00447876|164459381|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.525|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 10. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.525
82376571|NCT00447876|164459381|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.931|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 14. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.931
82376572|NCT00447876|164459381|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.353|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 18. The variables for global assessment of pain assessed by the Investigator were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.353
82376573|NCT00447876|164459382|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.882|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 2. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.882
82376574|NCT00447876|164459382|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.489|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 6. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.489
82376575|NCT00447876|164459382|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.66|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 10. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.660
82376576|NCT00447876|164459382|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.485|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 14. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.485
82446442|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.25||||11.46|TWO_SIDED|95.0|0.87|1.8||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.80|0.87|11.46
82531908|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for work productively loss.||||||<0.001
82531909|NCT01474512|164761239|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline WPAI value.|ANCOVA|P-value is for work productively loss.||||||<0.001
82376577|NCT00447876|164459382|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.392|||||||Wilcoxon rank sum test|||Dysport® vs placebo at Week 18. The variables for global assessment of pain assessed by the patient were described at each visit as ordinal qualitative variables and were compared between the two treatment groups by means of a non parametric Wilcoxon rank sum test.||||=0.392
82376578|NCT01256944|164459399|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376579|NCT01256944|164459400|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376580|NCT01256944|164459401|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376581|NCT01256944|164459403|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376582|NCT01256944|164459404|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376583|NCT01256944|164459405|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376584|NCT01256944|164459406|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376585|NCT01256944|164459408|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376586|NCT01256944|164459409|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82376587|NCT00005957|164459410|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.38|TWO_SIDED|95.0|0.72|1.13|||Log Rank||Hazard ratio (HR) estimation is for Standard Breast Irradiation arm versus Breast Radiation plus regional radiation arm.|It was estimated that the actuarial five year survival of patients on the control arm of this trial would be 80% and a 5% increase in five year survival with experiment arm is clinically interesting to detect. A sample size of 1832 will ensure 80% power to detect such a difference with two-sided alpha of 0.05.||1.13|0.72|0.38
82376588|NCT00005957|164459411|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.01|TWO_SIDED|95.0|0.61|0.94|||Log Rank|||||0.94|0.61|0.01
82531910|NCT01474512|164761240|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS Mean and p-values were calculated using an ANCOVA model that included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline QIDS value in the model.|ANCOVA|||||||<0.001
82531911|NCT01474512|164761240|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS Mean and p-values were calculated using an ANCOVA model that included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline QIDS value in the model.|ANCOVA|||||||<0.001
82376589|NCT02054338|164459452|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.54|TWO_SIDED|95.0|0.91|1.2|||Log Rank|||Kaplan-Meier curves and life tables by treatment arm to describe time-dependent parameters. Stratified Cox proportional model was used to compare the 2 treatment arms. A stratified Cox proportional hazards model and logistic regression were applied to the progression-free survival and to the tumour response, respectively.||1.20|0.91|0.54
82376590|NCT02054338|164459453|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.86|TWO_SIDED|95.0|0.87|1.19|||Log Rank|||||1.19|0.87|0.86
82376591|NCT02054338|164459454|SUPERIORITY||Hazard Ratio (HR)|11.3||||0.1|TWO_SIDED|95.0|8.7|14.4|||Log Rank|||||14.4|8.7|0.10
82376592|NCT03837743|164459476|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.42||0.022|TWO_SIDED||||||Paired t-test|||Difference in Change (week 4)||||0.022
82376593|NCT03837743|164459476|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.8||0.296|TWO_SIDED||||||Paired t-test|||Difference in Change (week 8)||||0.296
82376594|NCT02257385|164459490|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis:the difference between the trt means (umeclidinium/vilanterol minus indacaterol + tiotropium bromide) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium/vilanterol may be deemed statistically non-inferior to indacaterol plus tiotropium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, statistical superiority would have been established.|Least Squares Mean Difference|0.001||||0.964|TWO_SIDED|95.0|-0.029|0.03|||Mixed Models Analysis|||||0.030|-0.029|0.964
82376595|NCT02257385|164459491|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.023||||0.145|TWO_SIDED|95.0|-0.054|0.008|||Mixed Models Analysis|||||0.008|-0.054|0.145
82376596|NCT00384930|164459509|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus Baseline.|Permutation Test|||This is the principal inferential analysis of the primary outcome.||||<0.001
82376597|NCT00384930|164459510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.025||95.0|-1.08|-0.07||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.07|-1.08|0.025
82376598|NCT00384930|164459510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.001||95.0|-1.4|-0.4||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.40|-1.40|<0.001
82376599|NCT00384930|164459510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.96|||<|0.001||95.0|-1.45|-0.46||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.46|-1.45|<0.001
82446443|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.91||||77.2|TWO_SIDED|95.0|0.7|1.17||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.17|0.70|77.20
82446444|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||87.35|TWO_SIDED|95.0|0.66|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.66|87.35
82446445|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||56.53|TWO_SIDED|95.0|0.77|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures random effect|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.77|56.53
82446446|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.19||||7.29|TWO_SIDED|95.0|0.94|1.5||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.50|0.94|7.29
82446447|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||55.09|TWO_SIDED|95.0|0.75|1.28||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.28|0.75|55.09
82446448|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.79||||96.49|TWO_SIDED|95.0|0.61|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.61|96.49
82446449|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.13||||14.54|TWO_SIDED|95.0|0.9|1.44||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.44|0.90|14.54
82446450|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.94||||66.85|TWO_SIDED|95.0|0.71|1.25||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.25|0.71|66.85
82531912|NCT01474512|164761241|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for PCS.||||||<0.001
82531913|NCT01474512|164761241|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for PCS.||||||<0.001
82446451|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.88||||85.77|TWO_SIDED|95.0|0.7|1.11||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LUL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.11|0.70|85.77
82446452|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.24||||8.67|TWO_SIDED|95.0|0.91|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|0.91|8.67
82531914|NCT01474512|164761241|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for MCS.||||||<0.001
82531915|NCT01474512|164761241|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The LS Mean and p-values were calculated using an ANCOVA model and included treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, and baseline SF-36 value in the model.|ANCOVA|P-value is for MCS.||||||<0.001
82409301|NCT04465422|164527243|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|3.25||0.931|TWO_SIDED|95.0|-6.25|6.82|||Mixed Models Analysis|||Statistical Analysis 3 is based on Personal and Social Performance scale (range 1\~100；the higher scores indicate greater performance) total scores.||6.82|-6.25|0.931
82409302|NCT04465422|164527243|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.85||0.981|TWO_SIDED|95.0|-1.73|1.69|||Mixed Models Analysis|||Statistical Analysis 4 is based on Canadian Occupational Performance Measure (range 1\~10；the higher scores indicate greater performance) total scores.||1.69|-1.73|0.981
82409303|NCT03444584|164527298|SUPERIORITY||LS mean difference|-143.09|||<|0.0001|TWO_SIDED|95.0|-198.2|-87.98|||ANCOVA|||||-87.98|-198.20|<0.0001
82409304|NCT03444584|164527299|SUPERIORITY||LS mean difference|-22.17|||<|0.0001|TWO_SIDED|95.0|-30.24|-14.1|||ANCOVA|||||-14.10|-30.24|<0.0001
82409305|NCT00111761|164527383|SUPERIORITY_OR_OTHER||Percentage of participants|25.0||||||95.0|9.8|46.7||||||||46.7|9.8|
82409306|NCT00111761|164527384|SUPERIORITY_OR_OTHER||Percentage of participants|58.0||||||95.0|34.0|80.0||||||||80|34|
82409307|NCT00111761|164527385|SUPERIORITY_OR_OTHER||Percentage|33.3||||||95.0|15.6|55.3||||||||55.3|15.6|
82409308|NCT00111761|164527390|SUPERIORITY_OR_OTHER||Percentage of participants|47.4||||||95.0|24.4|71.1||||||||71.1|24.4|
82409309|NCT00808340|164527396|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5.|Mean Difference (Final Values)|-0.1249|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.4143|0.1644|||Mixed Models Analysis||Mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.1644|-0.4143|
82409310|NCT00808340|164527396|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.3693|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.6587|-0.07996|||Mixed Models Analysis||The mean difference was calculated as balafilcon A multifocal minus senofilcon A multifocal prod.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.07996|-0.6587|
82409311|NCT00808340|164527397|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.04083|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.2485|0.3302|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.3302|-0.2485|
82409312|NCT00808340|164527397|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.4608|STANDARD_ERROR_OF_MEAN|0.1464|||TWO_SIDED|97.5|-0.7502|-0.1714|||Mixed Models Analysis||The mean difference was calculated as senofilcon A multifocal prod minus balafilcon A multifocal.|Alternative hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.1714|-0.7502|
82409313|NCT00808340|164527398|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.02941|STANDARD_ERROR_OF_MEAN|0.02656|||TWO_SIDED|97.5|-0.08153|0.02271|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hypothesis is senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.02271|-0.08153|
82409314|NCT00808340|164527398|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.06765|STANDARD_ERROR_OF_MEAN|0.02656|||TWO_SIDED|97.5|-0.1198|-0.01553|||Mixed Models Analysis||The mean difference is calculated as senfilcon A multifocal prod minus balafilcon A multifocal.|Alternative hypothesis is senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||-0.01553|-0.1198|
82409315|NCT00808340|164527399|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.3304|STANDARD_ERROR_OF_MEAN|0.2243|||TWO_SIDED|97.5|-0.779|0.1183|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus senofilcon A multifocal test.|Alternative hyposthesis is that senofilcon A multifocal prod is non-inferior to senofilcon A multifocal test.||0.1183|-0.779|
82409316|NCT00808340|164527399|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.5|Mean Difference (Final Values)|-0.2281|STANDARD_ERROR_OF_MEAN|0.2243|||TWO_SIDED|97.5|-0.6767|0.2206|||Mixed Models Analysis||The mean difference is calculated as senofilcon A multifocal prod minus balafilcon A multifocal.|Alternativie hypothesis is that senofilcon A multifocal prod is non-inferior to balafilcon A multifocal.||0.2206|-0.6767|
82409317|NCT01123655|164527409|EQUIVALENCE|P less than 0.05 was the criteria for equivalence.||||||0.5179|||||||Fisher Exact|||Specified to be a reduction from baseline values of net IFNƔ concentration of ≥ 25% in αl(ll)-stimulated PBMC culture supernatants (calculated as αI(II)-IFNƔ-PBS IFNƔ in patients receiving APL A12 compared to placebo.||||0.5179
82409318|NCT01123655|164527409|EQUIVALENCE|Null hypothesis was that the response rate in the APL treated groups is not significantly difference from the 50% spontaneous response rate.||||||0.0114|||||||Exact Test|||||||0.0114
82409319|NCT01123655|164527409|EQUIVALENCE|Null hypothesis was that the response rate in the placebo group is not significantly difference from the 50% spontaneous response rate.||||||0.4142|||||||Exact Test|||||||0.4142
82409320|NCT01123655|164527411|EQUIVALENCE|P greater than 0.05 was the criteria for equivalence.|||||>|0.05||||||P value is applicable for baseline and follow-up data.|Mixed Models Analysis|||||||>0.05
82409321|NCT01123655|164527412|EQUIVALENCE|p value greater than 0.05 was the criteria for equivalence.|||||>|0.05||||||P value is applicable to IL-17a, IL-10, IL-1b, IL-9, IL-13, IL-5, IL-21, IL-6, TNFa, TGFb, MIP3a.|t-test, 2 sided|||||||>0.05
82409322|NCT00062166|164527444|NON_INFERIORITY|Time dependent risk for requiring an intervention for pancreatic neuroendocrine tumors (PNET), among 63 patients with PNETs with diameter \>1.2 and \<3 cm, and a known position of germline VHL pathogenic variant (n=63). Comparison between exon 3 vs exon 1 and 2.|Hazard Ratio (HR)|3.3||||0.02|TWO_SIDED|95.0|1.2|9.1|||Regression, Cox|||||9.1|1.2|0.02
82409323|NCT02475369|164527471|SUPERIORITY|||||||0.271|||||||Wilcoxon (Mann-Whitney)|||||||0.271
82409324|NCT02475369|164527472|OTHER|In order to calculate a correlation between baseline fecal elastase-1 and total CeD-GSRS score on PES treatment vs. placebo treatment, we calculated a Spearman's rank correlation coefficient between the two independent variables.||||||0.995|||||||Spearman rank coefficient|||||||0.995
82409325|NCT02475369|164527473|OTHER|In order to evaluate the estimated difference of the effect of Pancreatic Enzyme Supplement versus Placebo for the Celiac Symptom Index (CSI) scores, we used a linear mixed effects model with the nlme package.||||||0.08|||||||Linear Mixed Effects model|||||||0.08
82376600|NCT00384930|164459510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||<|0.001||95.0|-1.58|-0.57||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.57|-1.58|<0.001
82531916|NCT01474512|164761242|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82376601|NCT00384930|164459511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.008||95.0|-1.69|-0.26||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.26|-1.69|0.008
82376602|NCT00384930|164459511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69|||<|0.001||95.0|-2.4|-0.98||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.98|-2.40|<0.001
82376603|NCT00384930|164459511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89|||<|0.001||95.0|-2.6|-1.18||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-1.18|-2.60|<0.001
82376604|NCT00384930|164459511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.87|||<|0.001||95.0|-2.59|-1.15||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-1.15|-2.59|<0.001
82376605|NCT00384930|164459512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.503||95.0|-0.28|0.14||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.14|-0.28|0.503
82376606|NCT00384930|164459512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.206||95.0|-0.34|0.07||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||0.07|-0.34|0.206
82376607|NCT00384930|164459512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.452||95.0|-0.28|0.13||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||0.13|-0.28|0.452
82376608|NCT00384930|164459512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.012||95.0|-0.47|-0.06||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.06|-0.47|0.012
82376609|NCT00384930|164459513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.029||95.0|-0.49|-0.03||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||-0.03|-0.49|0.029
82376610|NCT00384930|164459513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.002||95.0|-0.6|-0.14||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.14|-0.60|0.002
82376611|NCT00384930|164459513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43|||<|0.001||95.0|-0.66|-0.19||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.19|-0.66|<0.001
82376612|NCT00384930|164459513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|||<|0.001||95.0|-0.64|-0.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.17|-0.64|<0.001
82376613|NCT00384930|164459514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.583||95.0|-0.58|0.33||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.33|-0.58|0.583
82531917|NCT01474512|164761242|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||LS mean and P-value were calculated using MMRM with baseline score as a covariate, treatment, geographic region, previous non-biologic systemic therapy, baseline weight category, visit and treatment-by-visit interaction as fixed effects.|Mixed Models Analysis|||||||<0.001
82531918|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI50.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531919|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI50.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531920|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI75|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531921|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI75|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82409326|NCT01991795|164527477|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.0378|TWO_SIDED|95.0|0.81|0.99||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.99|0.81|0.0378
82409327|NCT01991795|164527478|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.7883|TWO_SIDED|95.0|0.88|1.18||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.18|0.88|0.7883
82409328|NCT01991795|164527479|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0294|TWO_SIDED|95.0|0.71|0.98||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.98|0.71|0.0294
82409329|NCT01991795|164527480|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0375|TWO_SIDED|95.0|0.64|0.99||The hypothesis will be tested at the 4.96% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||0.99|0.64|0.0375
82409330|NCT01991795|164527481|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.6846|TWO_SIDED|95.0|0.87|1.1|||Regression, Cox|||||1.10|0.87|0.6846
82409331|NCT01991795|164527482|SUPERIORITY||Hazard Ratio (HR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.82|2.94|||Regression, Cox|||||2.94|1.82|<0.0001
82409332|NCT01991795|164527483|SUPERIORITY||Hazard Ratio (HR)|2.49|||<|0.0001|TWO_SIDED|95.0|2.02|3.07|||Regression, Cox|||||3.07|2.02|<0.0001
82409333|NCT01991795|164527484|SUPERIORITY||Hazard Ratio (HR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.98|2.93|||Regression, Cox|||||2.93|1.98|<0.0001
82531922|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is for PPASI100|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82531923|NCT01474512|164761243|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value if for PPASI100.|Regression, Logistic|Logistic Regression analysis included treatment, geographic region, previous non-biologic systemic therapy and baseline weight category as factors.||||||<0.001
82376614|NCT00384930|164459514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.013||95.0|-1.03|-0.12||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||-0.12|-1.03|0.013
82376615|NCT00384930|164459514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.016||95.0|-1.0|-0.1||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||-0.10|-1.00|0.016
82376616|NCT00384930|164459514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.007||95.0|-1.08|-0.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||-0.17|-1.08|0.007
82376617|NCT00384930|164459515|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.133
82376618|NCT00384930|164459515|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.003
82376619|NCT00384930|164459515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||<0.001
82376620|NCT00384930|164459515|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from Cochran-Mantel-Haenszel test stratified by the randomization strata factors (4 geographic regions, 2 levels of IPSS severity, 2 levels of ED history) as fixed effect, and were not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|||||||<0.001
82376621|NCT00384930|164459516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.735||95.0|-0.69|0.98||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||0.98|-0.69|0.735
82409334|NCT01991795|164527485|SUPERIORITY||Hazard Ratio (HR)|4.04|||<|0.0001|TWO_SIDED|95.0|3.32|4.92|||Regression, Cox|||||4.92|3.32|<0.0001
82409335|NCT00885118|164527511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42828.482|STANDARD_ERROR_OF_MEAN|6487.174|<|0.0001|TWO_SIDED|95.0|29936.586|55720.378|||ANCOVA|The baseline value was included as a continuous covariate.||Difference calculated as empa 1mg minus placebo||55720.378|29936.586|<0.0001
82409336|NCT00885118|164527511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|80964.677|STANDARD_ERROR_OF_MEAN|6303.82|<|0.0001|TWO_SIDED|95.0|68437.16|93492.194|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||93492.194|68437.160|<0.0001
82409337|NCT00885118|164527511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88589.764|STANDARD_ERROR_OF_MEAN|6544.604|<|0.0001|TWO_SIDED|95.0|75583.738|101595.79|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||101595.790|75583.738|<0.0001
82409338|NCT00885118|164527511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85620.348|STANDARD_ERROR_OF_MEAN|6610.091|<|0.0001|TWO_SIDED|95.0|72484.181|98756.515|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||98756.515|72484.181|<0.0001
82446453|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||14.8|TWO_SIDED|95.0|0.84|1.75||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.75|0.84|14.80
82531924|NCT00506285|164761259|NON_INFERIORITY_OR_EQUIVALENCE|F(1,47)=26.7, p=.001||||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|F(1,47)=26.7, p=.001||||||.001
82531925|NCT00506285|164761260|NON_INFERIORITY_OR_EQUIVALENCE|mixed models analysis||||||0.001|TWO_SIDED|95.0||||F(1,47)=24.8, p=.001|Mixed Models Analysis|||||||.001
82646754|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 4.|||||0
82376622|NCT00384930|164459516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.355||95.0|-0.44|1.23||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||1.23|-0.44|0.355
82376623|NCT00384930|164459516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.433||95.0|-0.5|1.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||1.17|-0.50|0.433
82376624|NCT00384930|164459516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.089||95.0|-0.11|1.59||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||1.59|-0.11|0.089
82376625|NCT00384930|164459517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.36|||<|0.001||95.0|1.56|5.17||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|||5.17|1.56|<0.001
82376626|NCT00384930|164459517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.75|||<|0.001||95.0|2.95|6.54||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|||6.54|2.95|<0.001
82409339|NCT00885118|164527512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|STANDARD_ERROR_OF_MEAN|4.155||0.003|TWO_SIDED|95.0|-20.936|-4.424|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-4.424|-20.936|0.0030
82409340|NCT00885118|164527512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.92|STANDARD_ERROR_OF_MEAN|4.025|<|0.0001|TWO_SIDED|95.0|-27.919|-11.921|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-11.921|-27.919|<0.0001
82409341|NCT00885118|164527512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.208|STANDARD_ERROR_OF_MEAN|4.168|<|0.0001|TWO_SIDED|95.0|-34.49|-17.925|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-17.925|-34.490|<0.0001
82531926|NCT01254565|164761292|SUPERIORITY|The primary endpoint was tested at the 0.05 level (1-sided).|LS Mean Difference|-76.9|||<|0.0001|TWO_SIDED|95.0|-86.9|-50.0|||ANOVA|A rank analysis of variance (ANOVA) model with treatment and screening PTH (\< 600 pg/mL or ≥ 600 pg/mL) as factors.||The hypothesis for this study (Cohorts 2 and 3) was that intravenous administration of etelcalcetide is superior to placebo for the reduction of PTH after TIW dosing in hemodialysis patients with secondary HPT. This hypothesis was tested in Cohorts 2 and 3 by comparing the mean percent changes from baseline in pre-hemodialysis PTH levels collected during the efficacy phase between the etelcalcetide and placebo groups within each cohort.||-50.0|-86.9|<0.0001
82376627|NCT00384930|164459517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.83|||<|0.001||95.0|4.04|7.62||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|||7.62|4.04|<0.001
82376628|NCT00384930|164459517|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.15|||<|0.001||95.0|4.35|7.95||P-value for Change from Baseline. Change=Endpoint - Baseline. P-values from ANCOVA model with effect of treatment group, geographic region, and baseline value of analyzed variable as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|||7.95|4.35|<0.001
82376629|NCT00384930|164459518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.58||||0.005||95.0|-2.68|-0.48||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 2.5 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-0.48|-2.68|0.005
82409342|NCT00885118|164527512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.235|STANDARD_ERROR_OF_MEAN|4.202|<|0.0001|TWO_SIDED|95.0|-35.586|-18.884|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-18.884|-35.586|<0.0001
82409343|NCT00885118|164527513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.883|STANDARD_ERROR_OF_MEAN|5.861||0.003|TWO_SIDED|95.0|-29.529|-6.236|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-6.236|-29.529|0.0030
82409344|NCT00885118|164527513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.487|STANDARD_ERROR_OF_MEAN|5.445|<|0.0001|TWO_SIDED|95.0|-33.308|-11.665|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-11.665|-33.308|<0.0001
82409345|NCT00885118|164527513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.265|STANDARD_ERROR_OF_MEAN|5.785|<|0.0001|TWO_SIDED|95.0|-37.762|-14.768|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-14.768|-37.762|<0.0001
82531927|NCT01254565|164761292|SUPERIORITY|The primary endpoint was tested at the 0.05 level (1-sided).|LS Mean Difference|-36.7||||0.0032|TWO_SIDED|95.0|-59.8|-13.6|||ANOVA|ANOVA model with treatment and screening PTH (\< 600 pg/mL or ≥ 600 pg/mL) as factors.||The hypothesis for this study (Cohorts 2 and 3) was that intravenous administration of etelcalcetide is superior to placebo for the reduction of PTH after TIW dosing in hemodialysis patients with secondary HPT. This hypothesis was tested in Cohorts 2 and 3 by comparing the mean percent changes from baseline in pre-hemodialysis PTH levels collected during the efficacy phase between the etelcalcetide and placebo groups within each cohort.||-13.6|-59.8|0.0032
82409346|NCT00885118|164527513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.34|STANDARD_ERROR_OF_MEAN|5.699|<|0.0001|TWO_SIDED|95.0|-39.665|-17.015|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-17.015|-39.665|<0.0001
82409347|NCT00885118|164527514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.239|STANDARD_ERROR_OF_MEAN|0.13||0.0705|TWO_SIDED|95.0|-0.498|-0.02|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-0.020|-0.498|0.0705
82409348|NCT00885118|164527514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.125||0.0203|TWO_SIDED|95.0|-0.545|-0.047|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-0.047|-0.545|0.0203
82409349|NCT00885118|164527514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.429|STANDARD_ERROR_OF_MEAN|0.13||0.0014|TWO_SIDED|95.0|-0.687|-0.17|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-0.170|-0.687|0.0014
82409350|NCT00885118|164527514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.395|STANDARD_ERROR_OF_MEAN|0.131||0.0033|TWO_SIDED|95.0|-0.654|-0.135|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-0.135|-0.654|0.0033
82409351|NCT00885118|164527515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.527|STANDARD_ERROR_OF_MEAN|17.755||0.4823|TWO_SIDED|95.0|-22.757|47.811|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||47.811|-22.757|0.4823
82409352|NCT00885118|164527515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.984|STANDARD_ERROR_OF_MEAN|17.313||0.7305|TWO_SIDED|95.0|-28.422|40.39|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||40.390|-28.422|0.7305
82409353|NCT00885118|164527515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.858|STANDARD_ERROR_OF_MEAN|17.903||0.3213|TWO_SIDED|95.0|-53.438|17.721|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||17.721|-53.438|0.3213
82409354|NCT00885118|164527515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.838|STANDARD_ERROR_OF_MEAN|18.13||0.2768|TWO_SIDED|95.0|-55.869|16.192|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||16.192|-55.869|0.2768
82409355|NCT00885118|164527516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.192|STANDARD_ERROR_OF_MEAN|0.728|<|0.0001|TWO_SIDED|95.0|-5.653|-2.731|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-2.731|-5.653|<0.0001
82409356|NCT00885118|164527516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.609|STANDARD_ERROR_OF_MEAN|0.756|<|0.0001||95.0|-6.126|-3.091|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-3.091|-6.126|<0.0001
82531928|NCT01254565|164761293|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82409357|NCT00885118|164527516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.036|STANDARD_ERROR_OF_MEAN|0.762|<|0.0001|TWO_SIDED|95.0|-5.565|-2.508|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-2.508|-5.565|<0.0001
82531929|NCT01254565|164761293|SUPERIORITY|||||||0.0968|||||||Fisher Exact|||||||0.0968
82531930|NCT01254565|164761294|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82409358|NCT00885118|164527516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.887|STANDARD_ERROR_OF_MEAN|1.076|<|0.0001|TWO_SIDED|95.0|-7.048|-2.726|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-2.726|-7.048|<0.0001
82409359|NCT00885118|164527517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.414||0.2498|TWO_SIDED|95.0|-1.302|0.343|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||0.343|-1.302|0.2498
82409360|NCT00885118|164527517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.379|STANDARD_ERROR_OF_MEAN|0.408||0.3544|TWO_SIDED|95.0|-1.189|0.43|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||0.430|-1.189|0.3544
82409361|NCT00885118|164527517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.343|STANDARD_ERROR_OF_MEAN|0.416||0.0018|TWO_SIDED|95.0|-2.171|-0.516|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-0.516|-2.171|0.0018
82409362|NCT00885118|164527517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.257|STANDARD_ERROR_OF_MEAN|0.421||0.0037|TWO_SIDED|95.0|-2.094|-0.419|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-0.419|-2.094|0.0037
82409363|NCT00885118|164527518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-95.414|STANDARD_ERROR_OF_MEAN|15.388|<|0.0001|TWO_SIDED|95.0|-125.995|-64.833|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-64.833|-125.995|<0.0001
82409364|NCT00885118|164527518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-109.48|STANDARD_ERROR_OF_MEAN|14.67|<|0.0001|TWO_SIDED|95.0|-138.633|-80.327|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-80.327|-138.633|<0.0001
82409365|NCT00885118|164527518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-131.336|STANDARD_ERROR_OF_MEAN|15.354|<|0.0001|TWO_SIDED|95.0|-161.848|-100.824|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-100.824|-161.848|<0.0001
82409366|NCT00885118|164527518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-136.341|STANDARD_ERROR_OF_MEAN|15.357|<|0.0001|TWO_SIDED|95.0|-166.86|-105.823|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-105.823|-166.860|<0.0001
82531931|NCT01254565|164761294|SUPERIORITY|||||||0.073|||||||Fisher Exact|||||||0.0730
82446454|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||45.69|TWO_SIDED|95.0|0.75|1.37||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RML; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.37|0.75|45.69
82531932|NCT01254565|164761295|SUPERIORITY||LS Mean Difference|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.4|-8.4|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-8.4|-16.4|< 0.0001
82531933|NCT01254565|164761295|SUPERIORITY||LS Mean Difference|-6.9||||0.0235|TWO_SIDED|95.0|-12.8|-1.0|||ANOVA|ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-1.0|-12.8|0.0235
82531934|NCT01254565|164761296|SUPERIORITY||LS Mean Difference|-4.2||||0.2255|TWO_SIDED|95.0|-18.6|5.7|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||5.7|-18.6|0.2255
82531935|NCT01254565|164761296|SUPERIORITY||LS mean Difference|-21.8||||0.1751|TWO_SIDED|95.0|-29.8|5.9|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||5.9|-29.8|0.1751
82531936|NCT01254565|164761297|SUPERIORITY||LS Mean Difference|-11.2||||0.0112|TWO_SIDED|95.0|-26.8|-4.9|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-4.9|-26.8|0.0112
82531937|NCT01254565|164761297|SUPERIORITY||LS Mean Difference|-27.7||||0.0554|TWO_SIDED|95.0|-39.3|-1.6|||ANOVA|A rank ANOVA model with treatment and screening PTH (\< 600 or ≥ 600 pg/mL) as factors.||||-1.6|-39.3|0.0554
82531938|NCT03268590|164761306|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
82531939|NCT03268590|164761307|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
82531940|NCT03268590|164761308|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
82531941|NCT02080520|164761345|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|||||||0.31
82531942|NCT02080520|164761346|SUPERIORITY|||||||0.52|||||||Mixed Models Analysis|||||||0.52
82409367|NCT00885118|164527519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.668|STANDARD_ERROR_OF_MEAN|13.152||0.0883|TWO_SIDED|95.0|-3.47|48.805|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||48.805|-3.470|0.0883
82409368|NCT00885118|164527519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.576|STANDARD_ERROR_OF_MEAN|12.941||0.0203|TWO_SIDED|95.0|4.859|56.293|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||56.293|4.859|0.0203
82409369|NCT00885118|164527519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.974|STANDARD_ERROR_OF_MEAN|13.289||0.6541|TWO_SIDED|95.0|-20.434|32.382|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||32.382|-20.434|0.6541
82409370|NCT00885118|164527519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.015|STANDARD_ERROR_OF_MEAN|13.612||0.4206|TWO_SIDED|95.0|-16.036|38.066|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||38.066|-16.036|0.4206
82409371|NCT00885118|164527520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.869|STANDARD_ERROR_OF_MEAN|4.066||0.0318|TWO_SIDED|95.0|-16.949|-0.789|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 1mg minus placebo||-0.789|-16.949|0.0318
82409372|NCT00885118|164527520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.344|STANDARD_ERROR_OF_MEAN|3.966||0.0005|TWO_SIDED|95.0|-22.225|-6.462|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 5mg minus placebo||-6.462|-22.225|0.0005
82409373|NCT00885118|164527520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.642|STANDARD_ERROR_OF_MEAN|4.131||0.0003|TWO_SIDED|95.0|-23.853|-7.432|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 10mg minus placebo||-7.432|-23.853|0.0003
82409374|NCT00885118|164527520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.118|STANDARD_ERROR_OF_MEAN|4.137||0.0164|TWO_SIDED|95.0|-18.339|-1.897|||ANCOVA|The baseline value was included as a continuous covariate||Difference calculated as empa 25mg minus placebo||-1.897|-18.339|0.0164
82409375|NCT02717195|164527549|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.9196|TWO_SIDED|95.0|-2.37|2.13||Multiplicity adjustment was planned for the testing of the primary enpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PANSS total score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||2.13|-2.37|0.9196
82409376|NCT02717195|164527549|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.1474|TWO_SIDED|95.0|-0.59|3.94||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PANSS total score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||3.94|-0.59|0.1474
82409377|NCT02717195|164527550|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.2998|TWO_SIDED|95.0|-0.86|2.78||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes from Randomization in PSP score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||2.78|-0.86|0.2998
82531943|NCT02080520|164761347|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|||||||0.32
82646755|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 8.|||||1.0000
82409378|NCT02717195|164527550|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.4478|TWO_SIDED|95.0|-2.54|1.12||Multiplicity adjustment was planned for the testing of the primary endpoint, but was not applied since all p-values\>0.05.|Mixed model repeated measures|||The mean changes in PSP score was analysed using a MMRM approach. The model included the fixed, categorical effects of treatment, country, week, treatment-by-week interaction, PC Period treatment, PC Period treatment-by-week interaction, and the continuous covariates of Randomization score and Randomization score-by-week interaction with an unstructured covariance structure to model the within-patient errors.||1.12|-2.54|0.4478
82409379|NCT04030598|164527605|SUPERIORITY||Percentage Difference|-90.0||||0.001|TWO_SIDED|95.0|-96.0|-76.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100 percentage (%) × (mean rate ratio -1).|||-76.00|-96.00|0.001
82409380|NCT04030598|164527606|SUPERIORITY||Percentage Difference|-89.0||||0.003|TWO_SIDED|95.0|-95.0|-77.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100% × (mean rate ratio -1).|||-77.00|-95.00|0.003
82409381|NCT04030598|164527607|SUPERIORITY||Percentage Difference|-96.0||||0.004|TWO_SIDED|95.0|-100.0|-65.0|||Wald Chi-Square||The percentage difference in mean investigator-confirmed HAE attack rate between donidalorsen 80 mg and placebo was calculated as 100% × (mean rate ratio -1).|||-65.00|-100.00|0.004
82409382|NCT04030598|164527608|SUPERIORITY||Risk Difference (RD)|66.7||||0.004|TWO_SIDED|95.0|17.5|95.7|||Fisher Exact|||For ≥ 50% reduction from Baseline in the HAE attack rate.||95.7|17.5|0.004
82409383|NCT04030598|164527608|SUPERIORITY||Risk Difference (RD)|75.6||||0.003|TWO_SIDED|95.0|26.8|96.5|||Fisher Exact|||For ≥ 70% reduction from Baseline in the HAE attack rate.||96.5|26.8|0.003
82409384|NCT04030598|164527608|SUPERIORITY||Risk Difference (RD)|92.3|||<|0.001|TWO_SIDED|95.0|48.0|99.8|||Fisher Exact|||For ≥ 90% reduction from Baseline in the HAE attack rate.||99.8|48.0|<0.001
82409385|NCT04030598|164527609|SUPERIORITY||Percentage Difference|-95.0||||0.009|TWO_SIDED|95.0|-99.0|-52.0|||Wald Chi-Square|||||-52.00|-99.00|0.009
82409386|NCT04030598|164527612|SUPERIORITY||Risk Difference (RD)|-14.3||||1|TWO_SIDED|95.0|-59.1|33.9|||Fisher Exact|||Week 9||33.9|-59.1|1.000
82531944|NCT00390455|164761364|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis then is that the hazard ratio of the two treatment arms is 1.0; the alternative hypothesis is that the hazard ratio of the control to the experimental regimen is 1.5 (0.67). The test of these hypotheses is one-sided (alpha = 0.025), and interim analyses will be used to stop for futility and superiority. Under these assumptions, there is at least 90% power to detect the stated difference in median PFS between the two treatment arms.|Hazard Ratio (HR)|1.04||||0.37|TWO_SIDED|95.0|0.82|1.33||Tests were stratified by prior tamoxifen therapy (yes/no) and bone disease only (yes/no).|Log Rank|||||1.33|0.82|0.37
82409387|NCT04030598|164527612|SUPERIORITY||Risk Difference (RD)|-21.4||||0.521|TWO_SIDED|95.0|-64.9|27.1|||Fisher Exact|||Week 17||27.1|-64.9|0.521
82409388|NCT04030598|164527613|SUPERIORITY||Treatment Difference|-25.92|||||TWO_SIDED|95.0|-37.1|-14.74||||||Week 9||-14.74|-37.10|
82409389|NCT04030598|164527613|SUPERIORITY||Treatment Difference|-20.69|||||TWO_SIDED|95.0|-32.7|-8.68||||||Week 17||-8.68|-32.70|
82409390|NCT03141359|164527614|SUPERIORITY||Rate|0.627||||0.388|TWO_SIDED|95.0|0.492|0.75|||Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|We used a single-stage design to test null hypothesis (H0) that 1-yr PFS is \<= 0.60. Assuming one-sided α= 0.10, 60 patients provided 98% power to reject H0, assuming the true 1-yr PFS is 0.80. Since not all enrolled subjects received durva, study power was affected. For patients who did not receive durva, H0 was assumed to be 0.40 versus an alternative of 0.60. Including these subjects reduced power from 98%. The conditional power given that 13 evaluable subjects didn't receive durva was 88%.||0.750|0.492|.388
82409391|NCT03141359|164527617|OTHER|Estimation only|Rate|0.571|||||TWO_SIDED|95.0|0.422|0.712|||||Confidence interval estimated using the Clopper Pearson method.|||0.712|0.422|
82409392|NCT03141359|164527618|OTHER|Estimation only|Rate|0.75|||||TWO_SIDED|95.0|0.621|0.853|||||Confidence interval estimated using the Clopper Pearson method.|||0.853|0.621|
82409393|NCT03141359|164527626|OTHER|Estimation only|Rate|0.164|||||TWO_SIDED|95.0|0.082|0.281|||||Confidence interval estimated using the Clopper Pearson method.|||0.281|0.082|
82409394|NCT03141359|164527627|OTHER|Estimation only|Rate|0.246|||||TWO_SIDED|95.0|0.145|0.373|||||Confidence interval estimated using the Clopper Pearson method.|||0.373|0.145|
82409395|NCT01296412|164527633|NON_INFERIORITY_OR_EQUIVALENCE|The sitagliptin-based treatment paradigm was to be declared non-inferior to the liraglutide-based treatment paradigm in lowering A1C at Week 26 if the upper bound of 95% confidence intervals of between group difference was less than the non-inferiority margin of 0.4%.|Difference in least squares mean|0.09|||||TWO_SIDED|95.0|-0.05|0.23|||ANCOVA|The ANCOVA model included a term for treatment paradigm and a covariate for baseline value.||||0.23|-0.05|
82409396|NCT01296412|164527634|SUPERIORITY_OR_OTHER||Difference in least squares mean|5.9|||||TWO_SIDED|95.0|0.5|11.4|||ANCOVA|The ANCOVA model included a term for treatment paradigm and a covariate for baseline value.||||11.4|0.5|
82409397|NCT01296412|164527635|SUPERIORITY_OR_OTHER||Difference in percent|-9.5|||||TWO_SIDED|95.0|-17.4|-1.5|||Miettinen & Nurminen|||||-1.5|-17.4|
82409398|NCT01296412|164527636|SUPERIORITY_OR_OTHER||Difference in percent|-4.5|||||TWO_SIDED|95.0|-12.7|3.7|||Miettinen & Nurminen|||||3.7|-12.7|
82409399|NCT02160626|164527637|OTHER|||||||0.0003|||||||ANOVA|||||||0.0003
82409400|NCT02160626|164527637|OTHER|||||||0.0001|||||||ANOVA|||||||.0001
82409401|NCT02160626|164527638|OTHER|||||||0.0001|||||||ANCOVA|||mean change from baseline to Visit 8 PLA will be performed using Analysis of Covariance (ANCOVA) with baseline PLA as the covariate.||||0.0001
82409402|NCT02160626|164527638|OTHER|||||||0.0001|||||||ANCOVA|||mean change from baseline to Visit 8 PLA will be performed using Analysis of Covariance (ANCOVA) with baseline PLA as the covariate.||||0.0001
82409403|NCT02160626|164527639|OTHER|||||||0.0016||||||For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.||"Secondary efficacy analyses will also be conducted based on the proportion of subjects who have at least 3 of 4 target lesions judged to be clear on the PLA (PLA=0) at Visit 8.~A separate comparison will be made between each active treatment group and the vehicle treatment group using Cochran-Mantel-Haenszel (CMH) tests stratified by site."||||0.0016
82531945|NCT04076020|164761377|SUPERIORITY|||||||0.99||||||Results presented from Wilcoxon-Mann-Whitney test with PDC as the dependent variable.|Wilcoxon (Mann-Whitney)|||Proportion of days covered (PDC) at 12 months. A sample size of 119 in each study arm enabled us to detect a minimum difference in PDC of 11.7% with 85% power (assuming a standard deviation=30%). Our power calculations assume use of 2-sided tests with 0.05 significance level.||||0.99
82531946|NCT04076020|164761377|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Proportion of days covered (PDC) analyzed as a binary variable with optimal adherence determined as ≥0.80) variables using logistic regression and adjustment for trial stratification factors. Our power calculations assume use of 2-sided tests with 0.05 significance level.||||<0.05
82409404|NCT02160626|164527639|OTHER|For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.||||||0.0004||||||For all analyses, two-tail alpha will be set to 0.05 with no adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.0004
82409405|NCT05471505|164527654|OTHER||Hazard Ratio (HR)|0.752|||<|0.001|TWO_SIDED|95.0|0.719|0.787|||COX Proportional Hazards Regression|||||0.787|0.719|<0.001
82409406|NCT05471505|164527655|OTHER||Hazard Ratio (HR)|0.747|||<|0.001|TWO_SIDED|95.0|0.687|0.813|||COX Proportional Hazards Regression|||||0.813|0.687|<0.001
82409407|NCT05471505|164527656|OTHER||Hazard Ratio (HR)|0.909|||<|0.001|TWO_SIDED|95.0|0.862|0.958|||COX Proportional Hazards Regression|||||0.958|0.862|<0.001
82409408|NCT05471505|164527657|OTHER||Hazard Ratio (HR)|0.948||||0.378|TWO_SIDED|95.0|0.842|1.067|||COX Proportional Hazards Regression|||||1.067|0.842|0.378
82409409|NCT05471505|164527658|OTHER||Hazard Ratio (HR)|0.259|||<|0.001|TWO_SIDED|95.0|0.229|0.294|||COX Proportional Hazards Regression|||||0.294|0.229|<0.001
82409410|NCT05471505|164527659|OTHER||Hazard Ratio (HR)|0.767|||<|0.001|TWO_SIDED|95.0|0.7|0.84|||COX Proportional Hazards Regression|||||0.840|0.700|<0.001
82409411|NCT05471505|164527660|OTHER||Hazard Ratio (HR)|0.932||||0.022|TWO_SIDED|95.0|0.877|0.99|||COX Proportional Hazards Regression|||||0.990|0.877|0.022
82409412|NCT00032591|164527661|NON_INFERIORITY_OR_EQUIVALENCE|A target of 363 patients with primary events required to discern a 32% relative drop in annual primary event rates with 90% power (from 5.5% for HQACM to 3.75% for PST) was based on a sample size of 3200 patients with 1 year of enrollment and a minimum of 2 years follow-up. Due to slower than planned enrollment, we randomized 2922 patients over 2.75 years, with a mean follow-up of 3 years.|Hazard Ratio (HR)|0.88||||0.14|||||||Log Rank|||The null hypothesis was the hazard ratio was equal to 1.||||0.14
82409413|NCT00737178|164527689|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<.01
82409414|NCT00737178|164527691|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Chi-squared|||||||0.24
82409415|NCT01898078|164527755|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio|0.97|||||TWO_SIDED|90.0|0.85|1.12|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed Cmax plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric means.||1.12|0.85|
82409416|NCT01898078|164527756|SUPERIORITY_OR_OTHER||Least Square Mean Ratio|1.16|||||TWO_SIDED|90.0|1.01|1.34|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed AUC(last) plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric mean.||1.34|1.01|
82531947|NCT04076020|164761378|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Difference in self-reported adherence reported across baseline, 4-, 8-, and 12-month visits using generalized estimating equations and adjusted for trial stratification factors.||||<0.05
82409417|NCT01898078|164527757|SUPERIORITY_OR_OTHER||Least Square Mean Ratio|1.15|||||TWO_SIDED|90.0|0.96|1.39|||||Estimates for each PK parameter were obtained using a mixed effects model of log(PK parameter) with fixed terms for the treatment effect, sequence effect, period effect and random terms for participants within sequence.|The confidence intervals are calculated for the difference in the LS means of the ln-transformed AUC∞ plain values (difference = Fed/Fasted). Antilogs of the confidence limits for the difference are taken to construct the confidence intervals for the ratio of the geometric mean||1.39|0.96|
82409418|NCT01075048|164527769|SUPERIORITY|||||||0.3815|||||||Log Rank|||||||0.3815
82409419|NCT01075048|164527769|SUPERIORITY|||||||0.19|||||||Peto-Peto-Prentice|||||||0.1900
82409420|NCT01075048|164527769|SUPERIORITY|||||||0.1986|||||||Generalized Wilcoxon|||||||0.1986
82409421|NCT01075048|164527769|SUPERIORITY|||||||0.2617|||||||Tarone-Ware|||||||0.2617
82409422|NCT01075048|164527770|SUPERIORITY|||||||0.4488|||||||Log Rank|||||||0.4488
82409423|NCT01075048|164527770|SUPERIORITY|||||||0.2887|||||||Peto-Peto-Prentice|||||||0.2887
82409424|NCT01075048|164527770|SUPERIORITY|||||||0.1851|||||||Generalized Wilcoxon|||||||0.1851
82409425|NCT01075048|164527770|SUPERIORITY|||||||0.2495|||||||Tarone-Ware|||||||0.2495
82409426|NCT01075048|164527772|SUPERIORITY|||||||0.2804|||||||Log Rank|||OS data cutoff as of 12 Oct 2012||||0.2804
82409427|NCT01075048|164527772|SUPERIORITY|||||||0.2469|||||||Log Rank|||OS data cutoff as of 29 Mar 2013||||0.2469
82409428|NCT01075048|164527772|SUPERIORITY|||||||0.1334|||||||Log Rank|||OS data cutoff as of 25 Jul 2013||||0.1334
82409429|NCT01075048|164527772|SUPERIORITY|||||||0.2159|||||||Log Rank|||OS data cutoff as of 20 Feb 2015||||0.2159
82409430|NCT01258374|164527776|OTHER||||||<|0.01||||||The PK paramaters reported as geometric means, were calculated using noncompartmental modelinf techniques (WinNolin; Pharsight Corporation, Mountain View, CA)|Noncompartmental modeling techniques||||The pharmacokinetic parameters calculated for DRV, RTV and RAL were trough plasma concentration (C trough), defined as the concentration at 24 or 12 h after observed dose, the maximum observed plasma concentration (C max), the area under the plasma concentration-time curve from 0 to 24 H (AUC 0-24) or 0 to 12 h (AUC 0-12) and the elimination half-life (t1/2). AUC and t1/2 were calculated using non using noncompartmental modeling techniques (WinNolin; Pharsight Corporation, Mountain View, CA). All of these PK parameters are reported as geometric means.|||<0.01
82409431|NCT04596293|164527780|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82409432|NCT04596293|164527780|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82531948|NCT03230864|164761413|SUPERIORITY||Mean Difference (Final Values)|5.47||||0.0809|TWO_SIDED|95.0|-0.7|11.65|||Mixed Model Repeated Measures|||The mean changes from randomization in PANNS total score was analysed using a mixed model for repeated measures (MMRM) approach. The model will include the fixed, categorical effects of treatment, strata, visit, treatment-by-visit interaction, fixed covariates of baseline scores and baseline scores-by-visit interaction. An unstructured (co)variance structure will be used to model the within-patient errors. The Kenward-Roger approximation will be used to estimate denominator degrees of freedom.||11.65|-0.70|0.0809
82531949|NCT00432679|164761423|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.01|-0.61||Change from Baseline in HbA1c = Treatment+ Baseline HbA1c+ Gender+ body mass index (BMI)|ANCOVA|||||-0.61|-1.01|<0.001
82409433|NCT04596293|164527781|OTHER|||||||0.6351|||||||Fisher Exact|||||||0.6351
82531950|NCT00432679|164761424|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.1|STANDARD_ERROR_OF_MEAN|5.06|<|0.001|TWO_SIDED|95.0|-32.1|-12.1|||Unpaired t-test|||||-12.1|-32.1|<0.001
82531951|NCT00432679|164761425|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.718|STANDARD_ERROR_OF_MEAN|0.8102||0.377|TWO_SIDED|95.0|-0.883|2.319|||Unpaired t-test|||||2.319|-0.883|0.377
82531952|NCT00432679|164761426|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|2.094||0.33|TWO_SIDED|95.0|-6.18|2.09|||Unpaired t-test|||||2.09|-6.18|0.330
82531953|NCT00432679|164761427|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.473||0.983|TWO_SIDED|95.0|-0.945|0.925|||Unpaired t-test|||||0.925|-0.945|0.983
82531954|NCT00432679|164761428|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.22|STANDARD_ERROR_OF_MEAN|3.556||0.022|TWO_SIDED|95.0|1.191|15.248|||Unpaired t-test|||||15.248|1.191|0.022
82531955|NCT00432679|164761429|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|8.21|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|6.52|9.91|||Unpaired t-test|||||9.91|6.52|<0.001
82409434|NCT04596293|164527781|OTHER|||||||0.3108|||||||Fisher Exact|||||||0.3108
82409435|NCT04596293|164527782|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82409436|NCT04596293|164527782|OTHER|||||||0.6594|||||||Fisher Exact|||||||0.6594
82531956|NCT00432679|164761430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.355||0.069|TWO_SIDED|95.0|-0.05|1.35|||Unpaired t-test||Comparison of leptin.|||1.35|-0.05|0.069
82646756|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.69||1||95.0|||||Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 1.|||||1.0000
82409437|NCT04596293|164527783|OTHER|||||||0.5808|||||||ANCOVA|||||||0.5808
82531957|NCT00432679|164761430|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-888.8|STANDARD_ERROR_OF_MEAN|803.96||0.271|TWO_SIDED|95.0|-2477.7|700.1|||Unpaired t-test||Comparison of hs-CRP|||700.1|-2477.7|0.271
82531958|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.6|||||TWO_SIDED|95.0|27.1|54.1|||||Comparison of HbA1c, decrease by 0.7%|||54.1|27.1|
82531959|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8|||||TWO_SIDED|95.0|-0.3|13.8|||||Comparison of HbA1c, fell below 6.5%|||13.8|-0.3|
82531960|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.6|||||TWO_SIDED|95.0|27.1|54.1|||||Comparison of HbA1c, satisfied either 1 or 2|||54.1|27.1|
82646757|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 2.|||||0
82646758|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 4.|||||0
82646759|NCT02524665|165008238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.23||1||95.0|||||Wilcoxon signed-rank test||Comparison of Peeling score between MAXCLARITY II and Murad at Week 8.|||||1.0000
82409438|NCT04596293|164527783|OTHER|||||||0.2143|||||||ANCOVA|||||||0.2143
82409439|NCT01125930|164527796|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.93
82409440|NCT01125930|164527797|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.79
82409441|NCT01125930|164527798|SUPERIORITY_OR_OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.94
82409442|NCT01125930|164527798|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.57
82646760|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|0.63||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 1.|||||0.5000
82646761|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 2.|||||0.5000
82531961|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.1|||||TWO_SIDED|95.0|9.5|36.6|||||Comparison of FPG, decrease of 30 milligrams per decilliter|||36.6|9.5|
82531962|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.9|||||TWO_SIDED|95.0|-5.1|18.9|||||Comparison of FPG, fell below 126 milligrams per deciliter|||18.9|-5.1|
82531963|NCT00432679|164761431|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.5|||||TWO_SIDED|95.0|5.6|35.3|||||Comparison of FPG, satisfied either 1 or 2|||35.3|5.6|
82409443|NCT01125930|164527798|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.66
82409444|NCT01125930|164527798|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.38
82409445|NCT01125930|164527798|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.24
82409446|NCT01125930|164527799|SUPERIORITY_OR_OTHER|||||||0.87|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess photodamage.||||0.87
82409447|NCT01125930|164527800|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea.||||1.00
82409448|NCT01125930|164527800|SUPERIORITY_OR_OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||0.62
82409449|NCT01125930|164527800|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank-sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||1.00
82409450|NCT01125930|164527800|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||1.00
82409451|NCT01125930|164527800|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess ocular manifestations of rosacea||||0.45
82409452|NCT01125930|164527801|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
82409453|NCT01125930|164527801|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
82409454|NCT01125930|164527801|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
82409455|NCT01125930|164527801|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||0.53
82409456|NCT01125930|164527801|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess phymatous changes of rosacea.||||1.00
82409457|NCT01125930|164527802|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||1.00
82409458|NCT01125930|164527802|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.41
82409459|NCT01125930|164527802|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.66
82409460|NCT01125930|164527802|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.92
82409461|NCT01125930|164527802|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values to address non-normality of data.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||0.80
82409462|NCT01125930|164527803|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of TAC1 at Week 24 visit were made using fold change data.||||0.003
82409463|NCT01125930|164527803|SUPERIORITY_OR_OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of CXCR4 at Week 24 visit were made using fold change data.||||0.35
82409464|NCT01125930|164527803|SUPERIORITY_OR_OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of CXCL12 at Week 24 visit were made using fold change data.||||0.68
82409465|NCT01125930|164527803|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of TNFa at Week 24 visit were made using fold change data.||||0.76
82409466|NCT01125930|164527804|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of COL-1 at Week 24 visit were made using fold change data.||||1.00
82409467|NCT01125930|164527804|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of COL-3 at Week 24 visit were made using fold change data.||||0.25
82409468|NCT01125930|164527804|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-1 at Week 24 visit were made using fold change data.||||0.41
82409469|NCT01125930|164527804|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-3 at Week 24 visit were made using fold change data.||||0.02
82409470|NCT01125930|164527804|SUPERIORITY_OR_OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons of MMP-9 at Week 24 visit were made using fold change data.||||0.61
82409471|NCT01125930|164527805|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||1.00
82409472|NCT01125930|164527805|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.44
82409473|NCT01125930|164527805|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.41
82531964|NCT00600743|164761432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|128.2|STANDARD_ERROR_OF_MEAN|41.4||0.007|TWO_SIDED|95.0||||t test following ANOVA for difference between drug and placebo - There were 3 doses, and the value reported is for the highest and only effective dose|t-test, 2 sided|The overall error term was used to compare differences between placebo and drug||Repeated measures ANOVA||||0.007
82409474|NCT01125930|164527805|SUPERIORITY_OR_OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess redness.||||0.94
82409475|NCT01125930|164527806|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.15
82409476|NCT01125930|164527807|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.13
82409477|NCT01125930|164527808|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Group comparison at Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other.||||1.00
82409478|NCT01125930|164527809|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.75
82409479|NCT01125930|164527810|SUPERIORITY_OR_OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.68
82409480|NCT01125930|164527811|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 24 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.77
82409481|NCT01125930|164527812|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.41
82646762|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.92||1||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 4.|||||1.0000
82409482|NCT01125930|164527812|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||1.00
82409483|NCT01125930|164527812|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.96
82409484|NCT01125930|164527812|SUPERIORITY_OR_OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess telangiectasia.||||0.91
82409485|NCT01125930|164527813|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
82409486|NCT01125930|164527813|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
82409487|NCT01125930|164527813|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.15
82409488|NCT01125930|164527813|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess facial edema.||||0.29
82409489|NCT01125930|164527814|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.54
82409490|NCT01125930|164527814|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.06
82409491|NCT01125930|164527814|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.02
82409492|NCT01125930|164527814|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess dry skin.||||0.09
82409493|NCT01125930|164527815|SUPERIORITY_OR_OTHER|||||||0.18|||||||Fisher Exact|||Group comparison at Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.18
82409494|NCT01125930|164527815|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||Group comparison at Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.70
82409495|NCT01125930|164527815|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||Group comparison at Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.70
82409496|NCT01125930|164527815|SUPERIORITY_OR_OTHER|||||||0.35|||||||Fisher Exact|||Group comparison at Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have different values than the other.||||0.35
82446455|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.42||||2.94|TWO_SIDED|95.0|0.99|2.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||2.06|0.99|2.94
82446456|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||13.92|TWO_SIDED|95.0|0.85|1.73||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.73|0.85|13.92
82409497|NCT01125930|164527816|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.80
82409498|NCT01125930|164527816|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.31
82409499|NCT01125930|164527816|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.25
82409500|NCT01125930|164527816|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial burning.||||0.46
82409501|NCT01125930|164527817|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.41
82409502|NCT01125930|164527817|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.05
82409503|NCT01125930|164527817|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.16
82409504|NCT01125930|164527817|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to assess self-reported facial stinging.||||0.14
82409505|NCT01125930|164527818|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.36
82409506|NCT01125930|164527818|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.88
82446457|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.86||||86.4|TWO_SIDED|95.0|0.65|1.13||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; RLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.13|0.65|86.40
82409507|NCT01125930|164527818|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.18
82409508|NCT01125930|164527818|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an overall self-assessment of product tolerance.||||0.17
82409509|NCT01125930|164527819|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.21
82409510|NCT01125930|164527819|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||<0.01
82409511|NCT01125930|164527819|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.04
82409512|NCT01125930|164527819|SUPERIORITY_OR_OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial stinging upon product application.||||0.10
82646763|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_DEVIATION|0.69||1||95.0|||||Wilcoxon signed-rank test||Comparison of Redness score between MAXCLARITY II and Murad at Week 8.|||||1.0000
82446458|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.46||||0.88|TWO_SIDED|95.0|1.06|2.0||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||2.00|1.06|0.88
82446459|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||41.25|TWO_SIDED|95.0|0.75|1.43||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.43|0.75|41.25
82446460|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.7||||99.2|TWO_SIDED|95.0|0.52|0.94||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Lobes; LLL; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.94|0.52|99.20
82446461|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.22||||3.49|TWO_SIDED|95.0|0.98|1.51||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD12 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.51|0.98|3.49
82446462|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.93||||73.09|TWO_SIDED|95.0|0.72|1.19||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.19|0.72|73.09
82446463|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||92.41|TWO_SIDED|95.0|0.69|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Upper; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.69|92.41
82446464|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.38||||2.29|TWO_SIDED|95.0|1.01|1.89||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.89|1.01|2.29
82446465|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.12||||23.67|TWO_SIDED|95.0|0.81|1.56||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters.Unstructured covariance matrix fitted, accounting for correlation within region and visit|TLC; Scan Trimmed; Region; Lower; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.56|0.81|23.67
82446466|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.75||||98.87|TWO_SIDED|95.0|0.59|0.96||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed; Region;Lower; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.96|0.59|98.87
82446467|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.07||||14.5|TWO_SIDED|95.0|0.95|1.2||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Central; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.20|0.95|14.50
82531965|NCT00600743|164761433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.4|STANDARD_ERROR_OF_MEAN|22.8||0.033|TWO_SIDED|95.0||||t-test after ANOVA with repeated measures on placebo minus drug (within groups) between binge and normal instructions (between groups)|t-test, 2 sided|This was part of an overall ANOVA (SAS proc mixed) with all four groups (3 doses eat normally. 4 ng dose, binge eat) and the error term had 76 df.||Each group was compared separately in an overall ANOVA with all dose groups included. The results are presented for the groups which received 4 mg dose and instructions to eat normally (normal group) or to binge eat (binge group). The test is the interaction between drug and group i.e. drug effect difference (placebo minus drug) in fullness between the group instructed to binge and the group instructed to eat normally.||||.033
82531966|NCT00600743|164761434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.4286|STANDARD_ERROR_OF_MEAN|13.134|<|0.014|TWO_SIDED|||||p-value is based on ANOVA with all groups and conditions and is a planned comparison|ANOVA||df = 53. 26 Used proc GLMMIX in SAS 9.4.|Tests the difference between drug and placebo for group = binge instructions||||<.014
82646764|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.88||0.8125||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 1.|||||0.8125
82446468|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||30.26|TWO_SIDED|95.0|0.91|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region Central; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.91|30.26
82446469|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||62.84|TWO_SIDED|95.0|0.89|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region Central; D12D28 .The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.89|62.84
82446470|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.31||||2.06|TWO_SIDED|95.0|1.01|1.7||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Distal; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.70|1.01|2.06
82446471|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||49.97|TWO_SIDED|95.0|0.76|1.32||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region; Distal; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.32|0.76|49.97
82446472|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.76||||99.43|TWO_SIDED|95.0|0.62|0.94||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Distal; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.94|0.62|99.43
82409513|NCT01125930|164527820|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||1.00
82409514|NCT01125930|164527820|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.02
82409515|NCT01125930|164527820|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 12 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.08
82409516|NCT01125930|164527820|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial itching upon product application.||||0.15
82576358|NCT02412735|164862167|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.8754|TWO_SIDED|95.0|0.41|2.14|||Regression, Cox|P-value was calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|Hazard ratio and 95% CI were calculated from a Cox regression model with treatment, pooled site, and opioid/non opioid use at Baseline as covariates.|||2.14|0.41|0.8754
82409517|NCT01125930|164527821|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 2 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.67
82409518|NCT01125930|164527821|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 6 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.18
82446473|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.2||||1.17|TWO_SIDED|95.0|1.02|1.41||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed; Region;Total; SCRD12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.41|1.02|1.17
82446474|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||49.78|TWO_SIDED|95.0|0.84|1.18||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC;Scan Trimmed;Region;Total; SCRD28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.18|0.84|49.78
82646765|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_DEVIATION|0.94||0.5742||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 2.|||||0.5742
82409519|NCT01125930|164527821|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 21 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.02
82409520|NCT01125930|164527821|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test with exact p-values.||Group comparisons were done at the Week 18 visit. The null hypothesis that the two groups are the same, was tested against the alternative hypothesis that one group tended to have larger values than the other over the ordinally scaled categories used to provide an assessment of skin irritation by facial burning upon product application.||||0.42
82409521|NCT02741284|164527822|NON_INFERIORITY|A noninferiority margin of 30% (mean difference \<1.0 mmol/l) was pre-specified as it corresponds to an upper umbilical artery lactate cut-off value of 4.5 mmol/L, above which there is an increased risk of neonatal morbidity|Mean Difference (Final Values)|0.1||||0.69|TWO_SIDED|95.0|-0.5|0.7|||Wilcoxon (Mann-Whitney)|||||0.7|-0.5|0.69
82409522|NCT02741284|164527823|NON_INFERIORITY|Noninferiority margin 30%|Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED|95.0|-0.01|0.03|||t-test, 2 sided|||pH||0.03|-0.01|<0.05
82409523|NCT02741284|164527824|SUPERIORITY||Risk Ratio (RR)|0.32|||<|0.05|TWO_SIDED|95.0|0.07|1.48|||Chi-squared|||Cesarean delivery||1.48|0.07|<0.05
82409524|NCT02741284|164527824|SUPERIORITY||Risk Ratio (RR)|0.0|||<|0.05|TWO_SIDED|95.0|0.0|0.0|||Chi-squared|||Cesarean delivery for non reassuring fetal status||0|0|<0.05
82409525|NCT02741284|164527824|SUPERIORITY||Risk Ratio (RR)|5.65|||<|0.05|TWO_SIDED|95.0|0.71|45.2|||Chi-squared|||Operative vaginal delivery||45.20|0.71|<0.05
82409526|NCT02741284|164527825|SUPERIORITY||Mean Difference (Net)|-1.5||||0.44|TWO_SIDED|95.0|-5.4|2.4|||t-test, 2 sided|||||2.4|-5.4|0.44
82409527|NCT02741284|164527826|SUPERIORITY||Mean Difference (Net)|-4.7||||0.06|TWO_SIDED|95.0|-9.6|0.1|||t-test, 2 sided|||||0.1|-9.6|0.06
82409528|NCT02741284|164527827|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||||1.0|-1.0|0.99
82409529|NCT01516216|164527934|SUPERIORITY|||||||0.07|||||||Log Rank|||||||0.07
82409530|NCT01516216|164527935|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
82409531|NCT01516216|164527936|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
82409532|NCT01516216|164527938|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
82409533|NCT01516216|164527941|SUPERIORITY|||||||0.9801|||||||Chi-squared|||||||0.9801
82576359|NCT02412735|164862168|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.2309.|||
82409534|NCT01516216|164527942|SUPERIORITY|||||||0.7444|||||||Chi-squared|||||||0.7444
82409535|NCT00316004|164527943|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three groups.||||0.55
82409536|NCT00316004|164527944|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three treatment groups among patients with head AIS≥4.||||0.59
82409537|NCT00316004|164527945|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations.||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three groups.||||0.67
82409538|NCT00316004|164527946|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent prevalence of poor outcome between the three treatment groups among patients with head AIS≥2.||||0.57
82409539|NCT00316004|164527947|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for proportions|Adjusted for multiple imputations||The null hypothesis is that there are no differences in the percent of patients at any level of disability between the three groups.||||.84
82409540|NCT00316004|164527948|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive on the 28th day after injury between the three groups.||||0.88
82409541|NCT00316004|164527949|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive on the day discharged from the hospital after injury between the three groups.||||0.88
82576360|NCT02412735|164862168|SUPERIORITY|The superiority threshold was 0.9875.|||||||||||||||||The posterior probability of superiority to placebo was 0.1241.|||
82646766|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.93||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 4.|||||0.5000
82646767|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.82||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Dryness score between MAXCLARITY II and Murad at Week 8.|||||0.2500
82646768|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.62||1||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 1.|||||1.0000
82531967|NCT00684983|164761440|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.89|TWO_SIDED|95.0|0.58|1.89|||Regression, Cox|||Analysis of the primary endpoint, PFS, will be performed using Cox regression with treatment group as a single covariate.||1.89|0.58|.89
82531968|NCT00684983|164761441|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.93|TWO_SIDED|95.0|0.5|3.0|||Log Rank|||||3|0.5|0.93
82531969|NCT00684983|164761442|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.66|TWO_SIDED|95.0|0.53|1.92|||Log Rank|||||1.92|.53|.66
82646769|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.74||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 2.|||||0.7500
82646770|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.98||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 4.|||||0.7500
82646771|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.73||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Burning score between MAXCLARITY II and Murad at Week 8.|||||0.2500
82646772|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.54||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 1.|||||0.2500
82646773|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.74||0.75||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 2.|||||0.7500
82409542|NCT00316004|164527950|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the percent of patients who were alive and free of ARDS from the day of injury to the 28th day after injury between the three groups.||||0.91
82409543|NCT00316004|164527951|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in average Worst Multiple Organ Dysfunction Scores (MODS) through day 28 between the three groups.||||0.81
82409544|NCT00316004|164527952|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of Ventilator-free days through day 28 between the three groups.||||0.77
82409545|NCT00316004|164527953|SUPERIORITY_OR_OTHER|||||||0.76||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of days alive out of the ICU through day 28 between the three groups.||||0.76
82409546|NCT00316004|164527954|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|The numbers differ from the JAMA manuscript because of typos and version control issues that were discovered after publication.||The null hypothesis is that there are no differences in the average number of days alive out of the hospital through day 28 between the three groups.||||0.43
82409547|NCT00316004|164527955|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with any nosocomial infections through hospital stay between the three groups.||||0.06
82409548|NCT00316004|164527955|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with pneumonia through hospital stay between the three groups.||||0.3
82409549|NCT00316004|164527955|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with bloodstream infections through hospital stay between the three groups.||||0.04
82409550|NCT00316004|164527955|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with urinary tract infections through hospital stay between the three groups.||||0.06
82531970|NCT00684983|164761444|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.26|TWO_SIDED|95.0|0.09|1.53|||Log Rank|||||1.53|.09|.26
82531971|NCT01284140|164761463|OTHER|||||||0.37|||||||Extra sum-of-squares F test|The null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was not rejected for the Usual Care group.||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. Model parameters of acrophase and amplitude and their standard errors were derived from these curves. Using the extra sum-of-squares F test, the null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was tested for the Usual Care group.||||0.37
82531972|NCT01284140|164761463|OTHER|||||||0.0074|||||||Extra sum-of-squares F test|This result suggests that the best-fit values for amplitude and phase are different between Day 1 and Day 3 in the Sleep Promotion group.||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. Model parameters of acrophase and amplitude and their standard errors were derived from these curves. Using the extra sum-of-squares F test, the null hypothesis that model parameters of amplitude and phase were the same on Day 1 and Day 3 was tested for the Sleep promotion group.||||0.0074
82531973|NCT01284140|164761464|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
82409551|NCT00316004|164527955|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients with wound infections through hospital stay between the three groups.||||0.88
82409552|NCT00316004|164527956|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|||The null hypothesis is that there are no differences in the average amount of total fluids given within the first 24 hours between the three groups.||||0.68
82409553|NCT00316004|164527957|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||The p-value was not adjusted for multiple comparisons. Test compares averages across all three treatment groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of PRBC units given within the first 24 hours between the three groups.||||0.43
82409554|NCT00316004|164527958|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died during hospitalization between the three groups.||||0.88
82409555|NCT00316004|164527958|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to home between the three groups.||||0.26
82409556|NCT00316004|164527958|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to inpatient rehabilitation facilities between the three groups.||||0.16
82409557|NCT00316004|164527958|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||The p-value was not adjusted for multiple comparisons. Test compares proportions across all three treatment groups.|test for differences in proportions|||The null hypothesis is that there are no differences in the percent of patients who were discharged alive from the hospital to skilled nursing facilities between the three groups.||||0.17
82409558|NCT00977197|164527971|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.008
82409559|NCT00977197|164527972|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.009
82409560|NCT00977197|164527973|SUPERIORITY_OR_OTHER|||||||0.389|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender; rank scale.||||||0.389
82409561|NCT00977197|164527974|SUPERIORITY_OR_OTHER|||||||0.049|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.049
82409562|NCT00977197|164527975|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.044
82409563|NCT00977197|164527976|SUPERIORITY_OR_OTHER|||||||0.35||||||Intent to treat analysis, not adjusted for age and gender.|Chi-squared|||||||0.350
82409564|NCT00977197|164527977|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.020
82409565|NCT00977197|164527978|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.024
82409566|NCT00977197|164527979|SUPERIORITY_OR_OTHER|||||||0.417|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender, rank scale.||||||0.417
82409567|NCT00977197|164527980|SUPERIORITY_OR_OTHER|||||||0.03||||||Intent to Treat analysis; adjusted for age and gender, rank scale.|ANCOVA|||||||0.030
82409568|NCT00977197|164527981|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANCOVA|Intent to Treat analysis; adjusted for age and gender.||||||0.016
82409569|NCT00977197|164527982|SUPERIORITY_OR_OTHER|||||||0.097||||||Intent to Treat analysis; not adjusted for age and gender.|Chi-squared|||||||0.097
82409570|NCT00853385|164527988|SUPERIORITY_OR_OTHER||Percent difference|24.24|||<|0.0001|TWO_SIDED|95.0|13.18|35.31||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||35.31|13.18|<0.0001
82409571|NCT00853385|164527988|SUPERIORITY_OR_OTHER||Percent difference|23.22|||<|0.0001|TWO_SIDED|95.0|12.16|34.29||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||34.29|12.16|<0.0001
82409572|NCT00853385|164527988|SUPERIORITY_OR_OTHER||Percent difference|18.93||||0.0007|TWO_SIDED|95.0|7.9|29.96||Statistical testing was done at 5% significance level (2-sided).|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of adalimumab to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||29.96|7.90|0.0007
82409573|NCT00853385|164527989|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.5|-0.25||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares (LS) mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.25|-0.50|<0.0001
82409574|NCT00853385|164527989|SUPERIORITY_OR_OTHER||LS mean difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.43|-0.19||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as the comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.19|-0.43|<0.0001
82646774|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_DEVIATION|1.01||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 4.|||||0.2500
82446475|NCT02294734|164600914|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.85||||98.66|TWO_SIDED|95.0|0.73|0.98||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC; Scan Trimmed;Region;Total; D12D28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||0.98|0.73|98.66
82446476|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||32.51|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RUL; Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|32.51
82446477|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||6.21|TWO_SIDED|95.0|0.99|1.08||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.08|0.99|6.21
82446478|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||15.91|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LUL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|15.91
82446479|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||6.73|TWO_SIDED|95.0|0.99|1.09||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes;LUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.09|0.99|6.73
82446480|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||27.65|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RML Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|27.65
82446481|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||12.19|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RML Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|12.19
82446482|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||11.62|TWO_SIDED|95.0|0.98|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.98|11.62
82531974|NCT01284140|164761465|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.03|TWO_SIDED||||||t-test, 2 sided|||Nonlinear regression using the least-squares approach was used to fit a single 24-hour cosine curve to all normalized data in each group on each day of 24-hour urine collection. This resulted in 4 separate best-fit curves. The model parameter of amplitude was derived from the best-fit curves.||||0.03
82531975|NCT04147260|164761471|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.068|||TWO_SIDED|90.0|-0.03|0.2|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.20|-0.03|
82531976|NCT04147260|164761471|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|90.0|-0.07|0.16|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.16|-0.07|
82531977|NCT04147260|164761471|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.055||0.572|TWO_SIDED|90.0|-0.14|0.08||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.08|-0.14|0.572
82646775|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_DEVIATION|0.82||0.25||95.0|||||Wilcoxon signed-rank test||Comparison of Itching score between MAXCLARITY II and Murad at Week 8.|||||0.2500
82646776|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.5||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 1.|||||0.5000
82446483|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||7.66|TWO_SIDED|95.0|0.99|1.1||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; RLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.10|0.99|7.66
82446484|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.88|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|28.88
82446485|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.28|TWO_SIDED|95.0|0.96|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Lobes; LLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.96|28.28
82446486|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||27.87|TWO_SIDED|95.0|0.97|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Upper Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.97|27.87
82446487|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||9.83|TWO_SIDED|95.0|0.99|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.No|FRC Region; Upper Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.99|9.83
82446488|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||21.87|TWO_SIDED|95.0|0.97|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Lower Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.97|21.87
82446489|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||18.58|TWO_SIDED|95.0|0.97|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Lower Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.97|18.58
82446490|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||22.28|TWO_SIDED|95.0|0.98|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Total Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.98|22.28
82446491|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.03||||10.86|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Region; Total Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|10.86
82446492|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||84.89|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RUL; Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|84.89
82531978|NCT04147260|164761471|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.075||0.315|TWO_SIDED|90.0|-0.07|0.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.23|-0.07|0.315
82446493|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||63.78|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|63.78
82446494|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||69.42|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LUL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|69.42
82446495|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||62.63|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes;LUL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|62.63
82409575|NCT00853385|164527989|SUPERIORITY_OR_OTHER||LS mean difference|-0.25|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.13||Statistical testing was done at 5% significance level (2-sided).|Mixed Models Analysis|||LS mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.13|-0.37|<0.0001
82409576|NCT00853385|164527990|SUPERIORITY_OR_OTHER||Percent difference|11.41|||<|0.0001|TWO_SIDED|95.0|6.08|16.73||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||16.73|6.08|<0.0001
82409577|NCT00853385|164527990|SUPERIORITY_OR_OTHER||Percent difference|5.12||||0.0151|TWO_SIDED|95.0|0.98|9.26||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||9.26|0.98|0.0151
82409578|NCT00853385|164527990|SUPERIORITY_OR_OTHER||Percent difference|5.65||||0.0091|TWO_SIDED|95.0|1.4|9.9||Statistical testing was done at 5% significance level (2-sided).|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of adalimumab to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||9.90|1.40|0.0091
82409579|NCT01829347|164528046|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.076|TWO_SIDED|95.0|0.085|1.133|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-Treat (ITT) population utilizing a log-rank test.||1.133|0.085|0.076
82409580|NCT01829347|164528047|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82409581|NCT01258049|164528102|SUPERIORITY_OR_OTHER||Percentage Difference|54.85|||<|0.005|TWO_SIDED|95.0|42.25|67.45|||Regression, Logistic|||In ART003, the parasite success rate for quinine was 67.7%. On the assumption that the parasite success rate was 70% for quinine in this study and in order to demonstrate that ArTiMist™ is superior to quinine by at least 20% the success rate for ArTiMist™ should be at least 90%. Using these figures, and assuming a power of 80%, an alpha of 0.05 (two sided) and based on an equal allocation to the ArTiMist™ and quinine treatment arms, the number of subjects (n) required on each treatment was 59.||67.45|42.25|<0.005
82409582|NCT01258049|164528103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.97|||<|0.05|TWO_SIDED|95.0|-62.22|-15.72|||ANCOVA|||||-15.72|-62.22|<0.05
82409583|NCT01258049|164528104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.91|||<|0.005|TWO_SIDED|95.0|-17.38|-8.44|||ANCOVA|||||-8.44|-17.38|<0.005
82409584|NCT01258049|164528105|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.16|||<|0.005|TWO_SIDED|95.0|-11.71||||Regression, Cox|||||- 6.61|-11.71|<0.005
82409585|NCT01258049|164528106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.02|||<|0.005|TWO_SIDED|95.0|27.05|80.98|||ANCOVA|||||80.98|27.05|<0.005
82409586|NCT01258049|164528107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|174.09||||0.06|TWO_SIDED|95.0|-10.44|358.61|||ANCOVA||mean parasite counts increased in the first 12 hours for patients on quinine treatment|||358.61|-10.44|0.06
82409587|NCT01258049|164528108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.86|TWO_SIDED|95.0|-10.16|12.08|||Regression, Cox|||||12.08|-10.16|0.86
82409588|NCT01258049|164528109|SUPERIORITY_OR_OTHER||Percentage Difference|0.99||||0.99|TWO_SIDED|95.0|0.42|2.36|||Regression, Logistic|||||2.36|0.42|0.99
82409589|NCT01258049|164528112|SUPERIORITY_OR_OTHER||Percentage Difference|55.01|||<|0.005|TWO_SIDED|95.0|42.44|67.58|||Regression, Linear|||||67.58|42.44|<0.005
82409590|NCT00477685|164528146|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||Null hypothesis: the postoperative intraocular pressure at 90 days equals the preoperative intraocular pressure at baseline.||||0.01
82409591|NCT03054428|164528150|SUPERIORITY||percentage difference|22.0|||<|0.0001|TWO_SIDED|95.0|12.2|31.87||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (less than \[\<\] 60 kilogram \[kg\] vs greater than or equal to \[≥\] 60 kg).||31.87|12.2|< 0.0001
82409592|NCT03054428|164528150|SUPERIORITY||percentage difference|15.5|||=|0.0007|TWO_SIDED|95.0|6.7|24.31||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||24.31|6.7|= 0.0007
82409593|NCT03054428|164528151|SUPERIORITY||percentage difference|33.2|||<|0.0001|TWO_SIDED|95.0|21.07|45.39||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||45.39|21.07|< 0.0001
82646777|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0||0||95.0||||The value is mentioned as '0', as no P-value generated.|Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 2.|||||0
82646778|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_DEVIATION|0.93||0.5||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 4.|||||0.5000
82409594|NCT03054428|164528151|SUPERIORITY||percentage difference|29.9|||<|0.0001|TWO_SIDED|95.0|17.94|41.78||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Analysis was performed using CMH test stratified by baseline disease severity (IGA=3 vs IGA=4) and baseline weight group (\<60 kg vs ≥60 kg).||41.78|17.94|< 0.0001
82531979|NCT04147260|164761471|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.059||0.286|TWO_SIDED|90.0|-0.18|0.05||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.05|-0.18|0.286
82409595|NCT03054428|164528152|SUPERIORITY||Least Square (LS) Mean difference|-42.3|||<|0.0001|TWO_SIDED|95.0|-55.6|-29.04||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-29.04|-55.6|< 0.0001
82409596|NCT03054428|164528152|SUPERIORITY||LS Mean difference|-41.2|||<|0.0001|TWO_SIDED|95.0|-54.44|-28.02||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-28.02|-54.44|< 0.0001
82409597|NCT03054428|164528153|SUPERIORITY||LS Mean difference|-29.0|||<|0.0001|TWO_SIDED|95.0|-39.54|-18.38||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||-18.38|-39.54|< 0.0001
82409598|NCT03054428|164528153|SUPERIORITY||LS Mean difference|-26.5|||<|0.0001|TWO_SIDED|95.0|-37.45|15.63||Threshold for significance at 0.05 level.|ANCOVA|||A hierarchical testing procedure was used to control type I error. The confidence interval (CI) with p-value is based on treatment difference (Dupilumab group vs. Placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata (baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\]) as fixed factors.||15.63|-37.45|< 0.0001
82409599|NCT03054428|164528154|SUPERIORITY||percentage difference|39.4|||<|0.0001|TWO_SIDED|95.0|26.9|51.84||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by CMH test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||51.84|26.9|< 0.0001
82409600|NCT03054428|164528154|SUPERIORITY||percentage difference|29.1|||<|0.0001|TWO_SIDED|95.0|16.97|41.32||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||41.32|16.97|< 0.0001
82409601|NCT03054428|164528155|SUPERIORITY||Percentage difference|31.8|||<|0.0001|TWO_SIDED|95.0|20.45|43.2||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||43.2|20.45|< 0.0001
82409602|NCT03054428|164528155|SUPERIORITY||Percentage difference|21.7|||=|0.0001|TWO_SIDED|95.0|11.21|32.28||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control type I error. Difference is Dupilumab minus Placebo. C.I. = Confidence interval calculated using normal approximation. P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by baseline disease severity \[IGA=3 vs IGA=4\] and baseline weight group \[\<60 kg vs ≥60 kg\].||32.28|11.21|= 0.0001
82531980|NCT04147260|164761471|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.077||0.057|TWO_SIDED|90.0|0.0|0.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.31|0.00|0.057
82646779|NCT02524665|165008239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_DEVIATION|0.81||1||95.0|||||Wilcoxon signed-rank test||Comparison of Scaling score between MAXCLARITY II and Murad at Week 8.|||||1.0000
82646780|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 1.|McNemar|||||||1.0000
82646781|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||0||95.0||||The value is mentioned as '0', as no P-value generated. Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 1.|McNemar|||||||0
82409603|NCT01499810|164528170|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409604|NCT01499810|164528172|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409605|NCT01499810|164528173|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409606|NCT01499810|164528174|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409607|NCT01499810|164528175|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409608|NCT01499810|164528176|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409609|NCT01499810|164528177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0001
82409610|NCT01499810|164528178|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||<0.0001
82409611|NCT01499810|164528179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.35
82409612|NCT01499810|164528180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.12
82409613|NCT01499810|164528181|SUPERIORITY_OR_OTHER_LEGACY|||||||7e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00007
82409614|NCT01499810|164528182|SUPERIORITY_OR_OTHER_LEGACY|||||||9e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00009
82409615|NCT01499810|164528183|SUPERIORITY_OR_OTHER_LEGACY|||||||4e-05||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.00004
82409616|NCT01499810|164528184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0001
82409617|NCT01499810|164528185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0007
82409618|NCT01499810|164528186|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.001
82576361|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|3.08||0.9072|TWO_SIDED|95.0|-5.71|6.43|||Mixed Model for Repeated Measures (MMRM)|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 1||6.43|-5.71|0.9072
82576362|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|3.14||0.2883|TWO_SIDED|95.0|-9.51|2.83|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 1||2.83|-9.51|0.2883
82576363|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|3.23||0.6314|TWO_SIDED|95.0|-7.9|4.8|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 3||4.80|-7.90|0.6314
82576364|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|3.29||0.1366|TWO_SIDED|95.0|-11.37|1.56|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 3||1.56|-11.37|0.1366
82646782|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||0.5637||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 2.|McNemar|||||||0.5637
82646783|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 2.|McNemar|||||||1.0000
82409619|NCT01499810|164528187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0004
82409620|NCT01499810|164528188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.0002
82409621|NCT01499810|164528189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.57
82409622|NCT01499810|164528190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.54
82409623|NCT01499810|164528191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.87||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.87
82409624|NCT01499810|164528192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.77
82409625|NCT01499810|164528193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.06
82409626|NCT01499810|164528194|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.07
82409627|NCT01499810|164528195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.32
82409628|NCT01499810|164528196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.12
82409629|NCT01499810|164528197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.72
82409630|NCT01499810|164528198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.37
82409631|NCT01499810|164528199|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.99
82409632|NCT01499810|164528200|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.76
82409633|NCT01499810|164528201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.08
82409634|NCT01499810|164528202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.35
82409635|NCT01499810|164528203|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.22
82409636|NCT01499810|164528204|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.29
82409637|NCT01499810|164528205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.89
82576365|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.34||0.2497|TWO_SIDED|95.0|-10.43|2.72|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 6||2.72|-10.43|0.2497
82646784|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||0.4795||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 4.|McNemar|||||||0.4795
82646785|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||1||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 4.|McNemar|||||||1.0000
82646786|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||0.3173||95.0||||Comparison of one or more grade improvement between MAXCLARITY II and Murad at Week 8.|McNemar|||||||0.3173
82446496|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||72.55|TWO_SIDED|95.0|0.96|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RML Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.96|72.55
82446497|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||36.28|TWO_SIDED|95.0|0.97|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RML Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.97|36.28
82446498|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||47.44|TWO_SIDED|95.0|0.96|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.96|47.44
82446499|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||22.99|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; RLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|22.99
82446500|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.98||||85.95|TWO_SIDED|95.0|0.94|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LLL Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.94|85.95
82446501|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||60.2|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lobes; LLL Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|60.20
82446502|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||81.34|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Upper Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|81.34
82646787|NCT02524665|165008240|SUPERIORITY_OR_OTHER|||||||0.1573||95.0||||Comparison of two or more grade improvement between MAXCLARITY II and Murad at Week 8.|McNemar|||||||0.1573
82409638|NCT01499810|164528206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.65
82409639|NCT01499810|164528207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.76
82409640|NCT01499810|164528208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||Repeated measures analysis|t-test, 2 sided|||Repeated measures analysis||||0.35
82409641|NCT01499810|164528209|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.92
82409642|NCT01499810|164528210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.32
82409643|NCT01499810|164528211|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.40
82409644|NCT01499810|164528212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.17
82409645|NCT01499810|164528213|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||||||threshold for statistical significance p\<0.05|t-test, 2 sided|||Repeated measures analysis||||0.014
82409646|NCT03658980|164528220|SUPERIORITY||Odds Ratio (OR)|0.233|||<|0.001|TWO_SIDED|95.0|0.131|0.415|||Regression, Logistic|||||0.415|0.131|<0.001
82409647|NCT05079321|164528224|OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
82409648|NCT05079321|164528225|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.36
82446503|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||63.04|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC UpperDay 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|63.04
82446504|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||69.67|TWO_SIDED|95.0|0.96|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lower Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.96|69.67
82409649|NCT05079321|164528226|OTHER|||||||1|||||||t-test, 2 sided|||||||1.0
82409650|NCT05079321|164528227|OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82409651|NCT05079321|164528228|OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
82531981|NCT04147260|164761472|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|90.0|-0.02|0.49|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.49|-0.02|
82531982|NCT04147260|164761472|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|90.0|-0.2|0.22|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.22|-0.20|
82409652|NCT05079321|164528229|OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.07
82409653|NCT05079321|164528230|OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
82409654|NCT05079321|164528231|OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82409655|NCT05079321|164528233|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
82409656|NCT05079321|164528234|OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
82409657|NCT05079321|164528235|OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
82409658|NCT05079321|164528236|OTHER|||||||0.75|||||||Fisher Exact|||||||0.75
82409659|NCT05079321|164528237|OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
82409660|NCT05079321|164528238|OTHER|||||||0.69|||||||Fisher Exact|||||||0.69
82531983|NCT04147260|164761472|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|90.0|-0.72|-0.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-0.31|-0.72|<0.001
82409661|NCT01081626|164528253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0135||||0.956|TWO_SIDED|95.0|-0.1325|0.1637|||Chi-squared, Corrected|||||0.1637|-0.1325|0.9560
82409662|NCT01081626|164528254|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.088||||0.7924|TWO_SIDED|95.0|0.7642|1.549|||Chi-squared|||||1.5490|0.7642|0.7924
82409663|NCT01081626|164528258|SUPERIORITY_OR_OTHER|||||||0.5331||95.0|||||Chi-squared|||||||0.5331
82409664|NCT01081626|164528259|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.015||||0.9351|TWO_SIDED|95.0|0.7175|1.435|||Chi-squared|||||1.4350|0.7175|0.9351
82409665|NCT01419535|164528266|SUPERIORITY|||||||0.6|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.60
82409666|NCT01419535|164528267|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
82409667|NCT01419535|164528268|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
82409668|NCT01419535|164528269|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||<0.001
82409669|NCT01419535|164528270|SUPERIORITY|||||||0.004|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.004
82409670|NCT01419535|164528271|SUPERIORITY|||||||0.002|||||||ANOVA|Repeated measures were analyzed by repeated-measures ANOVA including treatment group, time, and treatment\*time interaction as factors.||||||0.002
82409671|NCT03720119|164528385|OTHER|Analysis of Variance for repeated measurements.|day effect F|27.83||||0.0001|TWO_SIDED|||||The calculated P-Value represents the repeated measurement/Day (all times versus Day 1)|Dunnett's post-hoc test|||||||0.0001
82409672|NCT01944423|164528387|SUPERIORITY||Logit difference (final values)|0.64|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.25|0.97||p=ns 2-sided|two-phase growth curve model|||||0.97|-2.25|
82409673|NCT01944423|164528388|SUPERIORITY||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|1.87||0.038|TWO_SIDED|95.0|0.25|7.94||2-sided|two-phase growth curve model|||At end-of-treatment||7.94|0.25|.038
82409674|NCT01944423|164528389|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|1.0||0.003|TWO_SIDED|95.0|1.15|5.26||2-sided|two-phase growth curve model|||At 6 month follow-up||5.26|1.15|.003
82409675|NCT02897349|164528390|SUPERIORITY||Adjusted Mean Difference (%)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0016|TWO_SIDED|95.0|-0.65|-0.16|||Mixed model repeated measures|||Based on Mixed-effect Model Repeated Measures (MMRM) including fixed effects treatment, week, type of insulin, and treatment by week interaction, linear covariates baseline HbA1c, baseline HbA1c by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).||-0.16|-0.65|0.0016
82409676|NCT02897349|164528391|SUPERIORITY||Adjusted Mean Difference (mg/dL)|-6.2|STANDARD_ERROR_OF_MEAN|5.1||0.2241|TWO_SIDED|95.0|-16.2|3.8|||Mixed model repeated measures|||Based on MMRM including fixed effects treatment, week, type of insulin, and treatment by week interaction, linear covariates baseline HbA1c, baseline FPG baseline FPG by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).||3.8|-16.2|0.2241
82409677|NCT02897349|164528392|SUPERIORITY||Adjusted Mean Difference (mg/dL)|-31.95|STANDARD_ERROR_OF_MEAN|8.2||0.0001|TWO_SIDED|95.0|-48.15|-15.75|||ANCOVA|||Based on analysis of covariance (ANCOVA) model including fixed effect treatment and type of insulin, and linear covariates baseline HbA1c and baseline 2-h PPG.||-15.75|-48.15|0.0001
82409678|NCT02897349|164528393|SUPERIORITY||Odds Ratio (OR)|1.793||||0.2431|TWO_SIDED|95.0|0.673|4.78|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||4.780|0.673|0.2431
82409679|NCT02897349|164528394|SUPERIORITY||Odds Ratio (OR)|1.481||||0.6235|TWO_SIDED|95.0|0.309|7.105|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||7.105|0.309|0.6235
82409680|NCT02897349|164528395|SUPERIORITY||Odds Ratio (OR)|2.293||||0.0049|TWO_SIDED|95.0|1.286|4.091|||Regression, Logistic|||Logistic regression model with terms for treatment and type of insulin as fixed effect and continuous linear covariates baseline HbA1c||4.091|1.286|0.0049
82409681|NCT03435055|164528412|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Paired t-test were conducted on subject specific beta maps to identify changes in connectivity associated with nitrous oxide in SPM12. Hypothesis was that the results would be deemed significant at false discovery rate (FDR) cluster level corrected p \< 0.05 derived from a voxel-wise uncorrected p-value \< 0.001.||||0.001
82409682|NCT03435055|164528413|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Paired t-test were conducted on subject specific beta maps to identify changes in connectivity associated with nitrous oxide in SPM12. Hypothesis was that results would be deemed significant at false discovery rate (FDR) cluster level corrected p \< 0.05 derived from a voxel-wise uncorrected p-value \< 0.001.||||0.006
82409683|NCT03435055|164528414|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||Paired-t tests were conducted to determine whether changes in stimulus intensity: post stimulus at baseline and under subanesthetic dose of nitrous oxide. Statistical tests were completed in SPSS 26 and determined by p \< 0.05.||||<0.01
82409684|NCT03435055|164528415|OTHER|Paired T-test comparing baseline to nitrous||||||0.0622|||||||Paired t-test|||Delta||||0.0622
82409685|NCT03435055|164528415|OTHER|Paired T-test comparing baseline to nitrous||||||0.0292|||||||Paired t-test|||Theta||||0.0292
82409686|NCT03435055|164528415|OTHER|Paired T-test comparing baseline to nitrous||||||0.5905|||||||Paired t-test|||Alpha comparison||||0.5905
82409687|NCT02765035|164528422|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||C-Leg 3 vs. NMPK (Baseline)||||0.01
82409688|NCT02765035|164528422|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|||C-Leg 4 vs. NMPK (Baseline)||||0.04
82576366|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|3.42||0.0666|TWO_SIDED|95.0|-13.0|0.43|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 6||0.43|-13.00|0.0666
82409689|NCT01259245|164528448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017||||0.252|TWO_SIDED|95.0|-0.046|0.012||Regression coefficients from ANCOVA for Tai Chi intervention (PRP as reference) at 6 months after adjusted for baseline value of the outcome variable, age, sex, BMI, smoking and education|ANCOVA|||||0.012|-0.046|0.252
82409690|NCT01259245|164528449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005|STANDARD_DEVIATION|0.442||0.984|TWO_SIDED|95.0|-0.438|0.447|||ANCOVA|Adjusted for baseline values, age, sex, education, BMI and smoking||power0.80 for a medium effect size at 5% level of significance||0.447|-0.438|0.984
82409691|NCT01259245|164528450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372|STANDARD_DEVIATION|4.433||0.869|TWO_SIDED|95.0|-4.061|4.805|||ANCOVA|adjusted for baseline values, age, sex, education, BMI and education||power of 0.80 for a medium effect size at 5% level of significance||4.805|-4.061|0.869
82409692|NCT01259245|164528451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.295|STANDARD_DEVIATION|4.706||0.588|TWO_SIDED|95.0|-6.001|3.411|||ANCOVA|adjusted for baseline values, age, sex, BMI, education and smoking||power of 0.80 for medium size effect at 5% level of significance||3.411|-6.001|0.588
82409693|NCT01259245|164528452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15|STANDARD_DEVIATION|4.477||0.345|TWO_SIDED|95.0|-6.627|2.327|||ANCOVA|adjusted for baseline values, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||2.327|-6.627|0.345
82409694|NCT01259245|164528453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|4.062||0.413|TWO_SIDED|95.0|-5.753|2.372|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||2.372|-5.753|0.413
82409695|NCT01259245|164528454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.049|STANDARD_DEVIATION|8.89||0.004|TWO_SIDED|95.0|4.159|21.939|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||21.939|4.159|0.004
82409696|NCT01259245|164528455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_DEVIATION|0.226||0.56|TWO_SIDED|95.0|-0.1|0.184|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||0.184|-0.100|0.560
82409697|NCT01259245|164528456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_DEVIATION|0.088||0.425|TWO_SIDED|95.0|-0.054|0.128|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||0.128|-0.054|0.425
82409698|NCT01259245|164528457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|5.2||0.528|TWO_SIDED|95.0|-3.5|6.8|||ANCOVA|adjusted for baseline value, age, sex, BMI, education and smoking||power of 0.80 for medium effect size at 5% level of significance||6.8|-3.5|0.528
82409699|NCT03363906|164528471|SUPERIORITY||Ratio Geometric Least Squares (LS) Mean|1.04||||0.473|TWO_SIDED|90.0|0.949|1.14|||Mixed Models Analysis|||||1.14|0.949|0.473
82409700|NCT03363906|164528472|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.119|TWO_SIDED|90.0|0.993|1.3|||ANOVA|||||1.30|0.993|0.119
82409701|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
82576367|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.4||0.2147|TWO_SIDED|95.0|-10.91|2.46|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 12||2.46|-10.91|0.2147
82409702|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
82531984|NCT04147260|164761472|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|90.0|0.24|0.8||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.80|0.24|<0.001
82531985|NCT04147260|164761472|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.132||0.01|TWO_SIDED|90.0|-0.62|-0.09||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-0.09|-0.62|0.010
82531986|NCT04147260|164761472|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.173||0.001|TWO_SIDED|90.0|0.24|0.93||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.93|0.24|0.001
82409703|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||0.382
82409704|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
82409705|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||< 0.001
82409706|NCT02065557|164528483|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for I-SD+I-HD, then for individual adalimumab dose groups (I-HD, I-SD) against the respective external placebo rate (19.83%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the Intent-To-Treat-Efficacy (ITT-E) population for the induction period. The ITT-E population was a subpopulation of the ITT population, which consisted of all participants who received at least one SC injection of the study medication during the induction period. Participants who received open-label high induction dose, because they enrolled after Protocol Amendment 4 was released, were excluded from the ITT-E population.||||0.344
82409707|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82531987|NCT04147260|164761473|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.044|||TWO_SIDED|90.0|-0.05|0.1|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.10|-0.05|
82531988|NCT04147260|164761473|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.038||0.998|TWO_SIDED|90.0|-0.08|0.08||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.08|-0.08|0.998
82446505|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||39.81|TWO_SIDED|95.0|0.97|1.04||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Lower Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.04|0.97|39.81
82446506|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||73.01|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Total Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|73.01
82446507|NCT02294734|164600915|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||48.97|TWO_SIDED|95.0|0.97|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Total Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.97|48.97
82446508|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.04||||2.89|TWO_SIDED|95.0|1.0|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|1.00|2.89
82446509|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||8.49|TWO_SIDED|95.0|0.99|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.99|8.49
82446510|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.02||||86.21|TWO_SIDED|95.0|0.98|1.07||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.07|0.98|86.21
82446511|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||75.2|TWO_SIDED|95.0|0.98|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.98|75.20
82409708|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82446512|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||84.29|TWO_SIDED|95.0|0.97|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.97|84.29
82446513|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||71.08|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|71.08
82446514|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||34.93|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|34.93
82446515|NCT02294734|164600916|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||25.05|TWO_SIDED|95.0|0.98|1.01||The data entered for the p-value represents the posterior probability that the true treatment ratio is greater than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.01|0.98|25.05
82531989|NCT04147260|164761473|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.618|TWO_SIDED|90.0|-0.08|0.13||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.13|-0.08|0.618
82409709|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
82409710|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409711|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409712|NCT02065557|164528484|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (18.37%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
82409713|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409714|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|Chi-squared|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409715|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test||||||0.008||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|Chi-squared|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.008
82409716|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409717|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409718|NCT02065557|164528485|SUPERIORITY|one-sample two-sided Chi-square test||||||0.038||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (26.10%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.038
82531990|NCT04147260|164761473|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.099|||TWO_SIDED|90.0|-0.1|0.23|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.23|-0.10|
82576368|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|3.47||0.0162|TWO_SIDED|95.0|-15.19|-1.55|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 12||-1.55|-15.19|0.0162
82409719|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82446516|NCT02294734|164600917|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||28.51|TWO_SIDED|95.0|0.97|1.06||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length/Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.06|0.97|28.51
82446517|NCT02294734|164600917|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.01||||32.15|TWO_SIDED|95.0|0.97|1.05||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|FRC Length/Diameter Day 28. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.05|0.97|32.15
82446518|NCT02294734|164600917|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|0.99||||66.51|TWO_SIDED|95.0|0.97|1.02||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length/Diameter Day 12. The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.02|0.97|66.51
82446519|NCT02294734|164600917|SUPERIORITY_OR_OTHER_LEGACY||Posterior Median Ratio|1.0||||45.28|TWO_SIDED|95.0|0.98|1.03||The data entered for the p-value represents the posterior probability that the true treatment ratio is less than 1. P-value is denoted in percentage.|Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|TLC Length/Diameter Day 28 The data entered to the 95% confidence interval represents the 95% equi-tailed credible interval.|||1.03|0.98|45.28
82446520|NCT02294734|164600925|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.0||||0.487|TWO_SIDED|95.0|-118.5|115.3|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||115.3|-118.5|0.487
82446521|NCT02294734|164600925|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|60.6||||0.816|TWO_SIDED|95.0|-73.3|194.3|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||194.3|-73.3|0.816
82446522|NCT02294734|164600928|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.144||||0.151|TWO_SIDED|95.0|-0.42|0.133|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||0.133|-0.420|0.151
82446523|NCT02294734|164600928|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.121||||0.712|TWO_SIDED|95.0|-0.305|0.551|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||0.551|-0.305|0.712
82446524|NCT02294734|164600929|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.18||||0.817|TWO_SIDED|95.0|-0.216|0.57|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 28|||0.570|-0.216|0.817
82446525|NCT02294734|164600929|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.114||||0.697|TWO_SIDED|95.0|-0.324|0.549|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.|Day 84|||0.549|-0.324|0.697
82446526|NCT02294734|164600932|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.171||||0.965|TWO_SIDED|95.0|0.988|1.388|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.||||1.388|0.988|0.965
82446527|NCT02294734|164600932|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.114||||0.913|TWO_SIDED|95.0|0.953|1.305|||Bayesian repeated measures model|Non-informative priors used for all modelling parameters. Unstructured covariance matrix fitted, accounting for correlation within region and visit.||||1.305|0.953|0.913
82446528|NCT00548717|164600938|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 1.||||0.77
82446529|NCT00548717|164600938|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 2.||||0.59
82446530|NCT00548717|164600938|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 3.||||0.92
82446531|NCT00548717|164600938|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 8.||||0.63
82446532|NCT00548717|164600938|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||Comparison between Grade 0-I aGVHD vs Grade II-IV aGVHD in the Siro/MMF group at week 12.||||0.79
82446533|NCT00869401|164600995|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.222|TWO_SIDED|95.0|0.54|1.16||Using Logrank Test|Log Rank|||||1.16|0.54|.222
82446534|NCT00869401|164600997|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.806||||0.183|TWO_SIDED|95.0|0.59|1.11|||Log Rank|||||1.11|0.59|0.183
82446535|NCT00343382|164601017|SUPERIORITY_OR_OTHER|||||||0.1675|||||||Kruskal-Wallis|||||||0.1675
82446536|NCT00343382|164601017|SUPERIORITY_OR_OTHER|||||||0.5974|||||||Kruskal-Wallis|||||||0.5974
82648018|NCT01946282|165011376|EQUIVALENCE|We estimated needing 545 observations per incentive group to achieve power necessary to detect at least a 10% absolute difference in FIT return rate between patients who received the $5 incentive versus patients who received the $10 incentive, with assumed rates of 45% in the $5 incentive group and 53% in the $10 incentive group, a=0.05, and power=90%.||||||0.033|||||||Chi-squared|||||||0.033
82409720|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409721|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
82409722|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409723|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409724|NCT02065557|164528486|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (22.03%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
82409725|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409726|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409727|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test||||||0.292||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.292
82409728|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82409729|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test|||||<|0.001||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||< 0.001
82446537|NCT00343382|164601018|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||Comparison of Rigors among arms.||||0.002
82446538|NCT00343382|164601018|SUPERIORITY_OR_OTHER|||||||0.006|||||||Kruskal-Wallis|||Comparison of Urinary Frequency among arms||||0.006
82446539|NCT00343382|164601018|SUPERIORITY_OR_OTHER|||||||0.03|||||||Kruskal-Wallis|||Comparison of nausea among arms||||0.030
82446540|NCT00343382|164601018|SUPERIORITY_OR_OTHER|||||||0.062|||||||Kruskal-Wallis|||Comparison of sweating among arms||||0.062
82409730|NCT02065557|164528487|SUPERIORITY|one-sample two-sided Chi-square test||||||0.292||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (14.79%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.292
82648019|NCT01946282|165011376|EQUIVALENCE||||||>|0.99|||||||Chi-squared|||||||>0.99
82409731|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||0.382||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.382
82409732|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||1||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||1.000
82409733|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||1||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||1.000
82409734|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||0.344||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.344
82409735|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||0.559||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.559
82409736|NCT02065557|164528488|SUPERIORITY|one-sample two-sided Chi-square test||||||0.815||||||Adjusted p-value from a sequentially rejective multiple test procedure, testing co-primary and ranked secondary endpoints 1st for M-SD+M-HD, then for individual adalimumab dose groups (M-HD, M-SD) against the respective external placebo rate (24.08%)|rejective multiple test procedure|controlling familywise Type I error of 5% in a strong sense||Efficacy analysis was based on the modified Intent-To-Treat-Efficacy (mITT-E) population for the maintenance period. The mITT-E population was a subpopulation of the mITT population, where participants in M-PL arm were excluded.||||0.815
82409737|NCT00250588|164528494|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.05|TWO_SIDED|95.0|0.63|7.4||Bonferroni adjustment.|Mixed Models Analysis|Adjusted for child's age, race/ethnicity, Spanish, mother's education.||The primary effects of interest, condition and condition by time are fixed effects. PedsQL™ scores were analyzed as continuous normal outcomes with mixed effects regression models, which accounts for repeated measures over time for T2 and T3. Independent variables included baseline measure, time, asthma severity, condition, and condition by time interaction. We report the differences across groups in the adjusted mean changes over time.||7.4|0.63|0.05
82409738|NCT00250588|164528494|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.1||||0.05|TWO_SIDED|95.0|-0.21|6.4||Bonferroni adjustment|Mixed Models Analysis|Adjusted for child's age, race/ethnicity, Spanish, mother's education.||The primary effects of interest, condition and condition by time are fixed effects. PedsQL™ scores were analyzed as continuous normal outcomes with mixed effects regression models, which accounts for repeated measures over time for T2 and T3. Independent variables included baseline measure, time, asthma severity, condition, and condition by time interaction. We report the differences across groups in the adjusted mean changes over time.||6.4|-0.21|0.05
82409739|NCT00250588|164528495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.21|TWO_SIDED|95.0|0.18|1.38|||Regression, Logistic|Adjustment for age, race/ethnicity, Spanish language and mother's education||||1.38|0.18|0.21
82409740|NCT00250588|164528495|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.85|TWO_SIDED|95.0|0.53|2.83||adjustment for age, race/ethnicity, Spanish language and mother's education|Regression, Logistic|||||2.83|0.53|0.85
82409741|NCT00250588|164528496|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.011|TWO_SIDED|95.0|0.13|0.82|||Regression, Logistic|All analyses accounted for repeated measures and included the same terms in the model described previously.||Symptom frequency and utilization were analyzed using generalized linear mixed models (GLMM), with appropriate distribution and link functions. Nighttime symptoms is a dichotomous outcome and a logistic model was constructed.||0.82|0.13|0.011
82409742|NCT02330341|164528497|SUPERIORITY|||||||0.38||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of postprandial glucose on Artemisia Dracunculus group||||0.380
82648020|NCT01946282|165011376|EQUIVALENCE|||||||0.184|||||||Chi-squared|||||||0.184
82576369|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|3.67||0.223|TWO_SIDED|95.0|-11.69|2.74|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 18||2.74|-11.69|0.2230
82646788|NCT04179474|165008241|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.55|||||TWO_SIDED|90.0|96.21|115.79|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||115.79|96.21|
82409743|NCT02330341|164528497|SUPERIORITY|||||||0.695|||||||Wilcoxon (Mann-Whitney)|The threshold for statistical significance was p=0.05||Results showed in this section are the result of the differences between baseline and final values of postprandial glucose on placebo group||||0.695
82409744|NCT02330341|164528498|SUPERIORITY|||||||0.11||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on Artemisia Dracunculus group||||0.110
82409745|NCT02330341|164528498|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on placebo group||||0.910
82409746|NCT02330341|164528499|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of glucosylated hemoglobin on Artemisia Dracunculus group||||0.010
82409747|NCT02330341|164528499|SUPERIORITY|||||||0.938||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of glucosylated hemoglobin on placebo group||||0.938
82409748|NCT02330341|164528500|SUPERIORITY|||||||0.733||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on Artemisia Dracunculus group||||0.733
82409749|NCT02330341|164528500|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on placebo group||||1.0
82409750|NCT02330341|164528501|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on Artemisia Dracunculus group||||0.03
82409751|NCT02330341|164528501|SUPERIORITY|||||||0.9||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on placebo group||||0.900
82409752|NCT02330341|164528502|SUPERIORITY|||||||0.519||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on Artemisia Dracunculus group||||0.519
82409753|NCT02330341|164528502|SUPERIORITY|||||||0.922||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on placebo group||||0.922
82409754|NCT02330341|164528503|SUPERIORITY|||||||0.605||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of weight on Artemisia Dracunculus group||||0.605
82409755|NCT02330341|164528503|SUPERIORITY|||||||0.105||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of weight on placebo group||||0.105
82409756|NCT02330341|164528504|SUPERIORITY|||||||0.687||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on Artemisia Dracunculus group||||0.687
82409757|NCT02330341|164528504|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on placebo group||||0.021
82409758|NCT02330341|164528505|SUPERIORITY|||||||0.339||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on Artemisia Dracunculus group||||0.339
82409759|NCT02330341|164528505|SUPERIORITY|||||||0.246||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on placebo group||||0.246
82409760|NCT02330341|164528506|SUPERIORITY|||||||0.775||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on Artemisia Dracunculus group||||0.775
82409761|NCT02330341|164528506|SUPERIORITY|||||||0.195||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on placebo group||||0.195
82409762|NCT02330341|164528507|SUPERIORITY|||||||0.04||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on Artemisia Dracunculus group||||0.040
82409763|NCT02330341|164528507|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on placebo group||||1.000
82409764|NCT02330341|164528508|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on Artemisia Dracunculus group||||0.021
82409765|NCT02330341|164528508|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on placebo group||||0.080
82409766|NCT02330341|164528509|SUPERIORITY|||||||0.465||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on Artemisia Dracunculus group||||0.465
82409767|NCT02330341|164528509|SUPERIORITY|||||||0.574||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on placebo group||||0.574
82409768|NCT02330341|164528510|SUPERIORITY|||||||0.48||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on Artemisia Dracunculus group||||0.480
82409769|NCT02330341|164528510|SUPERIORITY|||||||0.383||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on placebo group||||0.383
82409770|NCT02330341|164528511|SUPERIORITY|||||||0.034||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on Artemisia Dracunculus group||||0.034
82409771|NCT02330341|164528511|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on placebo group||||0.080
82409772|NCT02330341|164528512|SUPERIORITY|||||||0.017||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on Artemisia Dracunculus group||||0.017
82409773|NCT02330341|164528512|SUPERIORITY|||||||0.082||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on placebo group||||0.082
82409774|NCT02330341|164528513|SUPERIORITY|||||||0.17||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on Artemisia Dracunculus group||||0.170
82531991|NCT04147260|164761473|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.081||0.451|TWO_SIDED|90.0|-0.1|0.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.23|-0.10|0.451
82409775|NCT02330341|164528513|SUPERIORITY|||||||0.199||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure placebo group||||0.199
82409776|NCT00486044|164528549|SUPERIORITY_OR_OTHER|||||||0.966||95.0|||||Kruskal-Wallis|||||||0.966
82409777|NCT00486044|164528550|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|||||||0.015
82409778|NCT00486044|164528551|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Kruskal-Wallis|||||||0.113
82409779|NCT00486044|164528552|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Kruskal-Wallis|||||||0.210
82409780|NCT03704064|164528563|SUPERIORITY||Mean Difference (Net)|-1.97|STANDARD_ERROR_OF_MEAN|1.32||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
82409781|NCT03704064|164528564|SUPERIORITY||Odds Ratio (OR)|1.1||||0.89|TWO_SIDED|95.0|0.4|3.4|||Mixed Models Analysis|||||3.4|0.4|0.89
82409782|NCT03704064|164528565|SUPERIORITY||Odds Ratio (OR)|3.7||||0.06|TWO_SIDED|95.0|1.0|14.7|||Mixed Models Analysis|||||14.7|1.0|0.06
82409783|NCT03704064|164528566|SUPERIORITY||Mean Difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|1.3||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
82409784|NCT03704064|164528567|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.42
82409785|NCT03704064|164528568|SUPERIORITY||Odds Ratio (OR)|2.0||||0.24|TWO_SIDED|95.0|0.6|6.3|||Mixed Models Analysis|||||6.3|0.6|0.24
82409786|NCT03704064|164528569|SUPERIORITY||Odds Ratio (OR)|2.2||||0.24|TWO_SIDED|95.0|0.6|8.1|||Mixed Models Analysis|||||8.1|0.6|0.24
82409787|NCT03704064|164528570|SUPERIORITY||Odds Ratio (OR)|3.0||||0.07|TWO_SIDED|95.0|0.9|9.6|||Mixed Models Analysis|||||9.6|0.9|0.07
82409788|NCT03704064|164528571|SUPERIORITY||Odds Ratio (OR)|2.6||||0.21|TWO_SIDED|95.0|0.6|11.4|||Mixed Models Analysis|||||11.4|0.6|0.21
82409789|NCT03704064|164528572|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|5.8||0.62|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.62
82409790|NCT03704064|164528572|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|4.5||0.92|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.92
82409791|NCT03704064|164528572|SUPERIORITY||Mean Difference (Net)|13.4|STANDARD_ERROR_OF_MEAN|9.6||0.16|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.16
82409792|NCT03704064|164528572|SUPERIORITY||Mean Difference (Net)|15.9|STANDARD_ERROR_OF_MEAN|20.8||0.41|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.41
82531992|NCT04147260|164761473|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.11||1|TWO_SIDED|90.0|-0.22|0.22||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.22|-0.22|1.000
82409793|NCT03704064|164528573|SUPERIORITY||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|6.1||0.46|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.46
82409794|NCT03704064|164528573|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|4.9||0.87|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.87
82409795|NCT03704064|164528573|SUPERIORITY||Mean Difference (Net)|18.5|STANDARD_ERROR_OF_MEAN|10.1||0.07|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.07
82409796|NCT03704064|164528573|SUPERIORITY||Mean Difference (Net)|30.0|STANDARD_ERROR_OF_MEAN|22.5||0.17|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.17
82409797|NCT03704064|164528574|SUPERIORITY||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|5.7||0.63|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 10 minute bouts||||0.63
82409798|NCT03704064|164528574|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|3.7||0.72|TWO_SIDED||||||Mixed Models Analysis|||MVPA per day with 20 minute bouts||||0.72
82409799|NCT03704064|164528574|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|9.4||0.52|TWO_SIDED||||||Mixed Models Analysis|||Moderate activity per day||||0.52
82409800|NCT03704064|164528574|SUPERIORITY||Mean Difference (Net)|-21.8|STANDARD_ERROR_OF_MEAN|19.4||0.27|TWO_SIDED||||||Mixed Models Analysis|||Light activity per day||||0.27
82409801|NCT03704064|164528575|SUPERIORITY||Mean Difference (Net)|7.3|STANDARD_ERROR_OF_MEAN|151.2||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
82409802|NCT03704064|164528576|SUPERIORITY||Mean Difference (Net)|-111.7|STANDARD_ERROR_OF_MEAN|137.2||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
82409803|NCT03704064|164528577|SUPERIORITY||Mean Difference (Net)|163.2|STANDARD_ERROR_OF_MEAN|154.0||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
82409804|NCT03704064|164528578|SUPERIORITY||Mean Difference (Net)|5.7|STANDARD_ERROR_OF_MEAN|4.6||0.22|TWO_SIDED||||||Mixed Models Analysis|||||||0.22
82409805|NCT03704064|164528579|SUPERIORITY||Mean Difference (Net)|5.3|STANDARD_ERROR_OF_MEAN|4.6||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
82531993|NCT04147260|164761474|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.152|||TWO_SIDED|90.0|-0.15|0.36|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.36|-0.15|
82409806|NCT03704064|164528580|SUPERIORITY||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|4.5||0.48|TWO_SIDED||||||Mixed Models Analysis|||||||0.48
82409807|NCT03704064|164528581|SUPERIORITY||Mean Difference (Net)|4.9|STANDARD_ERROR_OF_MEAN|3.4||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
82409808|NCT03704064|164528582|SUPERIORITY||Mean Difference (Net)|6.8|STANDARD_ERROR_OF_MEAN|3.4||0.045|TWO_SIDED||||||Mixed Models Analysis|||||||0.045
82409809|NCT03704064|164528583|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|3.4||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
82409810|NCT03704064|164528584|SUPERIORITY||Mean Difference (Net)|3.9|STANDARD_ERROR_OF_MEAN|9.4||0.72|TWO_SIDED||||||Mixed Models Analysis|||||||0.72
82409811|NCT03704064|164528585|SUPERIORITY||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|9.1||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
82409812|NCT03704064|164528586|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|2.5||0.8|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.80
82409813|NCT03704064|164528586|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.1||0.94|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.94
82409814|NCT03704064|164528587|SUPERIORITY||Mean Difference (Net)|-4.3|STANDARD_ERROR_OF_MEAN|2.3||0.07|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.07
82409815|NCT03704064|164528587|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|1.5||0.96|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.96
82409816|NCT03704064|164528588|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED||||||Mixed Models Analysis|||||||0.30
82409817|NCT03704064|164528589|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
82409818|NCT03704064|164528590|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
82409819|NCT03704064|164528591|SUPERIORITY||Odds Ratio (OR)|1.7||||0.38|TWO_SIDED|95.0|0.5|5.9|||Mixed Models Analysis|||||5.9|0.5|0.38
82409820|NCT03704064|164528592|SUPERIORITY||Odds Ratio (OR)|1.0||||0.95|TWO_SIDED|95.0|0.3|3.3|||Mixed Models Analysis|||||3.3|0.3|0.95
82409821|NCT03704064|164528593|SUPERIORITY||Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.3|3.1|||Mixed Models Analysis|||||3.1|0.3|0.99
82409822|NCT03704064|164528594|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.6||0.06|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.06
82409823|NCT03704064|164528594|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.06|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.06
82409824|NCT03704064|164528594|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.9||0.19|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.19
82409825|NCT03704064|164528595|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.5||0.05|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.05
82409826|NCT03704064|164528595|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.9||0.18|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.18
82409827|NCT03704064|164528595|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.9||0.046|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.046
82409828|NCT03704064|164528596|SUPERIORITY||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.5||0.07|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.07
82409829|NCT03704064|164528596|SUPERIORITY||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|0.9||0.11|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.11
82409830|NCT03704064|164528596|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.9||0.15|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FE||||0.15
82409831|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.3||0.04|TWO_SIDED||||||ANOVA|||Overall treatment acceptability||||0.04
82409832|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.35|TWO_SIDED||||||ANOVA|||BWL component acceptability||||0.35
82409833|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED||||||ANOVA|||BIAS vs recipe component acceptability||||<0.001
82409834|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED||||||ANOVA|||BWL skill acquisition||||0.01
82409835|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill acquisition||||<0.001
82409836|NCT03704064|164528597|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill use||||<0.001
82409837|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.24|TWO_SIDED||||||ANOVA|||Overall treatment acceptability||||0.24
82409838|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.28|TWO_SIDED||||||ANOVA|||BWL component acceptability||||0.28
82409839|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED||||||ANOVA|||BIAS vs recipe component acceptability||||<0.001
82409840|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.34|TWO_SIDED||||||ANOVA|||BWL skill acquisition||||0.34
82409841|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.3||0.008|TWO_SIDED||||||ANOVA|||Stigma-related skill acquisition||||0.008
82409842|NCT03704064|164528598|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED||||||ANOVA|||Stigma-related skill use||||0.001
82409843|NCT03040726|164528669|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
82409844|NCT03040726|164528670|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82409845|NCT03040726|164528671|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82409846|NCT03040726|164528672|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82409847|NCT02908347|164528683|SUPERIORITY||Median Difference (Final Values)|0.64||||0.8785|TWO_SIDED|95.0|-2.09|3.36|||Wilcoxon (Mann-Whitney)|||||3.36|-2.09|0.8785
82409848|NCT02908347|164528686|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 30 - Day 29||||1
82409849|NCT02908347|164528686|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 50 - Day 29||||1
82409850|NCT02908347|164528686|SUPERIORITY|||||||0.5136|||||||Fisher Exact|||PASI 30 - Day 43||||0.5136
82409851|NCT02908347|164528686|SUPERIORITY|||||||1|||||||Fisher Exact|||PASI 50 - Day 43||||1
82409852|NCT03104374|164528694|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|32.8|||<|0.0001|TWO_SIDED|95.0|24.0|41.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||41.6|24.0|<0.0001
82409853|NCT03104374|164528694|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|39.7|||<|0.0001|TWO_SIDED|95.0|31.1|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||48.3|31.1|<0.0001
82409854|NCT03104374|164528695|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Least Squares (LS) Mean Difference|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.3|-0.12|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.12|-0.30|<0.0001
82409855|NCT03104374|164528695|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.31|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.22|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.22|-0.40|<0.0001
82409856|NCT03104374|164528696|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|27.6|||<|0.0001|TWO_SIDED|95.0|19.2|36.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||36.1|19.2|<0.0001
82409857|NCT03104374|164528696|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|31.0|||<|0.0001|TWO_SIDED|95.0|22.3|39.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||39.8|22.3|<0.0001
82409858|NCT03104374|164528697|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|36.3|||<|0.0001|TWO_SIDED|95.0|25.6|46.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||46.9|25.6|<0.0001
82409859|NCT03104374|164528697|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|40.5|||<|0.0001|TWO_SIDED|95.0|29.9|51.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||51.0|29.9|<0.0001
82409860|NCT03104374|164528698|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.52|||<|0.0001|TWO_SIDED|95.0|2.07|4.98|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||4.98|2.07|<0.0001
82446541|NCT03945019|164601023|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.||||||<0.0001
82446542|NCT03945019|164601024|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Stratified by Previous biologic agent and/or JAK inhibitors exposure, Use of oral corticosteroids treatment at Week 0, Clinical remission at Week 10.||||||<0.0001
82409861|NCT03104374|164528698|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|5.44|||<|0.0001|TWO_SIDED|95.0|3.99|6.88|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.88|3.99|<0.0001
82409862|NCT03104374|164528699|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.7|||<|0.0001|TWO_SIDED|95.0|2.0|5.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.4|2.0|<0.0001
82409863|NCT03104374|164528699|SUPERIORITY||LS Mean Difference|4.8|||<|0.0001|TWO_SIDED|95.0|3.1|6.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.||6.4|3.1|<0.0001
82409864|NCT03104374|164528700|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|22.3|||<|0.0001|TWO_SIDED|95.0|16.0|28.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||28.6|16.0|<0.0001
82409865|NCT03104374|164528700|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|26.1|||<|0.0001|TWO_SIDED|95.0|19.7|32.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||32.5|19.7|<0.0001
82409866|NCT03104374|164528701|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-22.9|||<|0.0001|TWO_SIDED|95.0|-27.4|-18.4|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-18.4|-27.4|<0.0001
82409867|NCT03104374|164528701|SUPERIORITY|The overall type I error rate of primary and ranked key secondary endpoints was strongly controlled using a graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|95.0|-32.7|-23.8|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-23.8|-32.7|<0.0001
82409868|NCT03104374|164528702|SUPERIORITY||Response Rate Difference|27.0|||<|0.0001|TWO_SIDED|95.0|20.1|33.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||33.9|20.1|<0.0001
82409869|NCT03104374|164528702|SUPERIORITY||Response Rate Difference|32.9|||<|0.0001|TWO_SIDED|95.0|25.9|39.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||39.9|25.9|<0.0001
82409870|NCT03104374|164528703|SUPERIORITY||Response Rate Difference|8.1|||<|0.0001|TWO_SIDED|95.0|4.2|11.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||11.9|4.2|<0.0001
82409871|NCT03104374|164528703|SUPERIORITY||Response Rate Difference|16.0|||<|0.0001|TWO_SIDED|95.0|11.0|21.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||21.1|11.0|<0.0001
82409872|NCT03104374|164528704|SUPERIORITY||Response Rate Difference|21.9|||<|0.0001|TWO_SIDED|95.0|14.3|29.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.4|14.3|<0.0001
82409873|NCT03104374|164528704|SUPERIORITY||Response Rate Difference|22.6|||<|0.0001|TWO_SIDED|95.0|15.1|30.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||30.2|15.1|<0.0001
82409874|NCT04609514|164528707|SUPERIORITY||Median Difference (Final Values)|10.95||||0.51|TWO_SIDED||||||Wilcoxon Rank Sum Test|||||||0.51
82409875|NCT04609514|164528708|SUPERIORITY||||||<|0.001|||||||Wilcoxon Rank Sum Test|||||||<0.001
82409876|NCT04609514|164528713|SUPERIORITY|||||||0.39||||||A robust Yuen's test was conducted with an apriori threshold of 0.05 for statistical significance. No covariates were introduced in the model.|Robust Yuen's test|||||||0.39
82409877|NCT04609514|164528714|SUPERIORITY|||||||0.4|||||||Robust Yuen's test|||||||0.40
82576370|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|3.74||0.1152|TWO_SIDED|95.0|-13.27|1.45|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 18||1.45|-13.27|0.1152
82409878|NCT04609514|164528715|SUPERIORITY|||||||0.478|||||||Wilcoxon rank sum test|Wilcoxon rank sum test with continuity correction.||||||0.478
82409879|NCT04609514|164528716|SUPERIORITY|||||||0.51|||||||Wilcoxon rank sum test|Wilcoxon rank sum test with continuity correction.||||||0.51
82409880|NCT04609514|164528718|SUPERIORITY||Odds Ratio (OR)|1.185||||0.8392|TWO_SIDED|95.0|0.23|6.119|||Regression, Logistic|||||6.119|0.23|0.8392
82409881|NCT04609514|164528719|SUPERIORITY|||||||1|||||||Pearson's Chi-squared test|Pearson's Chi-squared test with Yates' continuity correction.||||||1.00
82409882|NCT00909870|164528721|SUPERIORITY_OR_OTHER||Difference in proportions|6.5||||0.103|TWO_SIDED|95.0||||This p-value did not meet the prespecified threshold for statistical significance of \< 0.05|Chi-squared|Unadjusted||"H0: the proportion of responders in the Dermagraft group = the proportion of responders in the Control group.~HA: the proportion of responders in the Dermagraft group ≠ the proportion of responders in the Control group.~The proportion of responders in the Dermagraft group was compared with the proportion of responders in the control group using the uncorrected chi-square test for 2x2 contingency tables. The difference between the groups was expected to be 13%."||||0.1030
82446543|NCT00884832|164601052|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Proportion of semi-formed and loose stools (Bristol Form 5-7) associated with diarrhea subgroup versus no diarrhea subgroup.||||<0.001
82409883|NCT00909870|164528722|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.0||||0.4046||95.0||||This p-value did not meet the prespecified threshold for statistical significance of \< 0.05|Log Rank|||||||0.4046
82409884|NCT00909870|164528723|SUPERIORITY_OR_OTHER||Difference in proportions|10.0||||0.0239||95.0||||Unadjusted|Chi-squared|Unadjusted||Pre-specified subgroup analysis of the primary endpoint||||0.0239
82409885|NCT02543840|164528768|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.01|TWO_SIDED|95.0|-1.26|1.5||Adjusted for multiple comparisons (Bonferroni four comparisons).|Mixed Models Analysis|||||1.5|-1.26|<0.01
82409886|NCT02543840|164528768|SUPERIORITY||Mean Difference (Final Values)|5.03|||<|0.001|TWO_SIDED|95.0|2.24|7.82||Adjusted for comparisons (Bonferroni for 4 comparisons.)|Regression, Linear|||Among Veteran participants,we used a linear contrast comparing a) those with complex clinical presentations, defined as receiving treatment for three or more mental health diagnoses in the prior year to b) those with two or fewer diagnoses during the facilitation year from T0 to T12..||7.82|2.24|<0.001
82409887|NCT02543840|164528769|SUPERIORITY||Mean Difference (Final Values)|1.2|||<|0.04|TWO_SIDED|95.0|0.04|2.3||Adjusted for comparison (Bonferroni for four comparisons.)|Mixed Models Analysis|||||2.3|0.04|<0.04
82409888|NCT02543840|164528770|SUPERIORITY||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED|95.0|-0.2|0.9|||Mixed Models Analysis|||||0.9|-0.2|>0.05
82409889|NCT02543840|164528771|SUPERIORITY||Mean Difference (Final Values)|0.5|||>|0.05|TWO_SIDED|95.0|-1.3|2.3|||Mixed Models Analysis|||||2.3|-1.3|>0.05
82446544|NCT00884832|164601053|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||ANCOVA|||||||0.018
82576371|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|3.66||0.4884|TWO_SIDED|95.0|-9.75|4.67|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 24||4.67|-9.75|0.4884
82409890|NCT02543840|164528772|SUPERIORITY||Mean Difference (Final Values)|0.0|||>|0.05|TWO_SIDED|95.0|-0.6|0.8|||Mixed Models Analysis|||||0.8|-0.6|>0.05
82409891|NCT02543840|164528773|SUPERIORITY||Mean Difference (Final Values)|0.005|||>|0.05|TWO_SIDED|95.0|-0.074|0.084|||t-test, 2 sided|Paired.||||0.084|-0.074|>0.05
82409892|NCT02543840|164528774|SUPERIORITY||Mean Difference (Final Values)|0.011|STANDARD_DEVIATION|0.206|>|0.05|TWO_SIDED|95.0|-0.056|0.077|||t-test, 2 sided|Paired.||||0.077|-0.056|>0.05
82409893|NCT02543840|164528775|SUPERIORITY||Mean Difference (Final Values)|0.153|||<|0.001|TWO_SIDED|95.0|0.044|0.262|||t-test, 2 sided|Paired||||0.262|0.044|<0.001
82409894|NCT02543840|164528776|SUPERIORITY||Mean Difference (Final Values)|0.186|||<|0.01|TWO_SIDED|95.0|0.083|0.289|||t-test, 2 sided|Paired.||||0.289|0.083|<0.01
82409895|NCT02543840|164528777|SUPERIORITY||Mean Difference (Final Values)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.16|-0.07||Repeated patient binary outcome models for hospitalized (0/1) across 8 quarters.|Mixed Models Analysis|Adjusted (Bonferroni four comparisons).||||-0.07|-0.16|<0.001
82409896|NCT03427892|164528781|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
82446545|NCT00884832|164601053|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|||drug\*group interactions||||0.047
82446546|NCT00884832|164601055|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||ANCOVA|||||||0.082
82446547|NCT03322423|164601056|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.01 logMAR for distance.|Least-Square Mean Estimate|-0.058|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.08|-0.035|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||-0.035|-0.080|
82446548|NCT03322423|164601056|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.01 logMAR for distance.|Least-Square Mean Estimate|-0.076|STANDARD_ERROR_OF_MEAN|0.0114|||TWO_SIDED|95.0|-0.099|-0.054|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||-0.054|-0.099|
82576372|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|3.74||0.0426|TWO_SIDED|95.0|-14.98|-0.25|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 24||-0.25|-14.98|0.0426
82446549|NCT03322423|164601057|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.17 logMAR for near.|LS Mean Estimate|0.141|STANDARD_ERROR_OF_MEAN|0.0147|||TWO_SIDED|95.0|0.112|0.17|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||0.170|0.112|
82446550|NCT03322423|164601057|SUPERIORITY|Statistical superiority was concluded if the upper limit of the confidence intervals of the Test lens was below +0.17 logMAR for near.|LS Mean Estimate|0.141|STANDARD_ERROR_OF_MEAN|0.0147|||TWO_SIDED|95.0|0.112|0.17|||Linear mixed model analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||0.170|0.112|
82446551|NCT03322423|164601058|SUPERIORITY|Statistical superiority was concluded if the lower limit of the confidence intervals of the Test lens was above 32 CLUE points.|LS Mean Estimate|45.5|STANDARD_ERROR_OF_MEAN|2.19|||TWO_SIDED|95.0|41.2|49.9|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||49.9|41.2|
82446552|NCT03322423|164601058|SUPERIORITY|Statistical superiority was concluded if the lower limit of the confidence intervals of the Test lens was above 32 CLUE points.|LS Mean Estimate|46.4|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|42.1|50.8|||Linear Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||50.8|42.1|
82446553|NCT00377364|164601152|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Baseline RAVLT scores used as covariate.||||<0.05
82446554|NCT00377364|164601155|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|Baseline ISS scores used as a covariate. ANCOVA results were not significant.||||||<0.05
82576373|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.77||0.3056|TWO_SIDED|95.0|-11.27|3.54|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 36||3.54|-11.27|0.3056
82648021|NCT04133519|165011388|SUPERIORITY||Odds Ratio (OR)|1.16||||0.5352|TWO_SIDED|95.0|0.73|1.84||P value from Cochran-Mantel-Haenszel testing of H0: OR=1; H1: OR≠1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel|||P value from Cochran-Mantel-Haenszel testing of H0: OR=1; H1: OR≠1 adjusting for IBS subtype and gender||1.84|0.73|0.5352
82409897|NCT03427892|164528782|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.93||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.93
82409898|NCT03427892|164528783|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.49||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. The above reported is RAVLT Score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.49
82446555|NCT00377364|164601156|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||Baseline HRSD scores used as a covariate.||||<0.05
82446556|NCT00377364|164601158|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|Baseline YMRS scores used as a covariate.||||||0.05
82446557|NCT00377364|164601160|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|Baseline ACQ scores used as a covariate.||||||<0.05
82446558|NCT02925728|164601161|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82446559|NCT03101085|164601162|OTHER|We performed a paired T-test analysis to ascertain whether the COX/CS activity while on S-equol was comparable or different than the COX/CS while on placebo. For each participant, the COX/CS value while on S-equol was subtracted from their COX/CS value while on placebo.|||||>|0.05|||||||Paired T-test|||As the order of the intervention does not matter, all 39 participants who contributed data to the final analysis are included together.||||>0.05
82446560|NCT02100475|164601195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.427|TWO_SIDED|95.0|-1.05|0.46|||ANCOVA|||The response and change from baseline in the response after 26 weeks of treatment was analysed using an analysis of covariance (ANCOVA) method with treatment and baseline IDegLira dose strata as fixed factors and baseline response as a covariate. Missing data were imputed using LOCF.||0.46|-1.05|0.427
82446561|NCT01939366|164601212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.37||0.0621|TWO_SIDED|95.0|-1.43|0.04||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||0.04|-1.43|0.0621
82448988|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.947|||||TWO_SIDED|95.0|0.849|1.057|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.057|0.849|
82576374|NCT02412735|164862169|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|3.85||0.1184|TWO_SIDED|95.0|-13.59|1.54|||MMRM|MMRM was used with fixed effects of pooled site,baseline use of opioids,treatment,visit,treatment-by-visit interaction\&continuous covariate baseline.||Mean Change from Baseline in Low Back Pain VAS Score at Month 36||1.54|-13.59|0.1184
82409899|NCT03427892|164528783|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.56||||||Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.Reported is delay score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.56
82409900|NCT03427892|164528784|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.221||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. Reported is CW score.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.221
82409901|NCT03427892|164528784|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.306||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.Reported is Inter. score|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.306
82409902|NCT03427892|164528785|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.07||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor. The above reported is TMT A.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.07
82409903|NCT03427892|164528785|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.19||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.The above reported is TMT B.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.19
82409904|NCT03427892|164528786|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
82531994|NCT04147260|164761474|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.131||0.446|TWO_SIDED|90.0|-0.16|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.16|0.446
82646789|NCT04179474|165008242|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.03|||||TWO_SIDED|90.0|89.55|123.19|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||123.19|89.55|
82409905|NCT03427892|164528787|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.022||||||To analyze separate one-way repeated measures analyses of variance (ANOVA) were performed. Time (baseline, week 4, week 8) was included as the within-subject factor.Above is from baseline to week 8 for C-SSRS AA, IA, and ABA.|ANOVA|One-way repeated measures (ANOVA) were performed. Time (baseline, wk 4, wk 8) included as within-subject factor. Above is for C-SSRS AA,IA, and ABA.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.022
82409906|NCT03427892|164528787|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.163||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.163
82409907|NCT03427892|164528788|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.133||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.133
82409908|NCT03427892|164528789|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.002||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.002
82409909|NCT03427892|164528790|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.002||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.002
82409910|NCT03427892|164528791|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.005||||||Pairwise comparisons were also performed to determine which time points were significantly different from one another. Baseline to week 8 is reported above.|t-test, 2 sided|Pairwise comparisons were also performed to determine which time points were significantly different from one another.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.005
82409911|NCT03427892|164528792|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.|||||<|0.001||||||To analyze mood symptoms, cognitive performance, and side effects, separate one-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, and wk 8) was included as the within-subject factor.|ANOVA|One-way repeated measures analyses of variance (ANVOA) were performed. Time (bsl, wk 4, wk8) was included as the within-subject factor.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||<.001
82409912|NCT03427892|164528793|OTHER|Within subjects design; single group. Intent-to-treat (ITT) sample was used in the analysis, such that all participants who completed the baseline visit and at least one post-baseline assessment were included in the analysis.||||||0.295||||||Pairwise comparisons were also performed to determine which time points were significantly different from one another. Baseline to week 8 is reported above.|t-test, 2 sided|Pairwise comparisons were also performed to determine which time points were significantly different from one another.||Primary Aim is to determine if brexpiprazole is associated with a reduction in depressive symptom severity in bipolar disorder outpatients. A sample size of 17 provides 80% power for a paired t-test to compare baseline to exit change scores on the MADRS of 7 (SD 10) (a more conservative change than with even the low 1 mg dose of brexpiprazole in Thase et. al. (2015)) with alpha=.05. A sample size of n=20 will allow for some early withdrawals without postbaseline data (10).||||.295
82409913|NCT01649765|164528795|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.64|3.46||||||||3.46|0.64|
82409914|NCT01649765|164528796|SUPERIORITY||Odds Ratio (OR)|2.74|||||TWO_SIDED|95.0|1.15|6.54|||||Definition 1|||6.54|1.15|
82409915|NCT01649765|164528796|SUPERIORITY||Odds Ratio (OR)|2.92|||||TWO_SIDED|95.0|1.19|7.17|||||Definition 2|||7.17|1.19|
82409916|NCT01499511|164528830|SUPERIORITY|||||||0.624|||||||ANOVA|||||||0.624
82409917|NCT01499511|164528831|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
82409918|NCT01499511|164528832|SUPERIORITY|||||||0.304|||||||ANOVA|||||||0.304
82409919|NCT01499511|164528833|SUPERIORITY|||||||0.641|||||||ANOVA|||||||0.641
82409920|NCT01499511|164528834|SUPERIORITY|||||||0.915|||||||ANOVA|||||||0.915
82409921|NCT02842866|164528871|NON_INFERIORITY|The 95 percent (%) confidence internal (CI) of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was greater than (\>) -10 percent (%) for all four serogroups.|Difference in percentage|15.7|||||TWO_SIDED|95.0|9.08|22.2||||||Serogroup A||22.2|9.08|
82409922|NCT02842866|164528871|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|27.5|||||TWO_SIDED|95.0|21.2|33.5||||||Serogroup C||33.5|21.2|
82409923|NCT02842866|164528871|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|31.0|||||TWO_SIDED|95.0|24.6|37.0||||||Serogroup Y||37.0|24.6|
82576375|NCT01294397|164862287|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio of Day 22/Day 1|0.96|||||TWO_SIDED|90.0|0.85|1.08|||||Two one-sided tests|Log-transformed AUC0-168 was analyzed with a mixed-effects model with treatment as the fixed effect and subject as the random effect. The mean difference between day 22 and day 1 was expressed as a percentage of the reference (day 1). The mean differences and the 90% CIs were back transformed to produce the ratio (day 22 vs. day 1) of the geometric means and the 90% CIs. If the CI for the ratio was within the standard acceptance range of 0.80 to 1.25, absence of an interaction was concluded.||1.08|0.85|
82577069|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.129||0.1593|TWO_SIDED|95.0|-0.44|0.07|||MMRM|||Suicide, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.44|0.1593
82409924|NCT02842866|164528871|NON_INFERIORITY|The 95% CI of the difference in percentage was computed using the Wilson Score method without continuity correction. The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all four serogroups.|Difference in percentage|17.8|||||TWO_SIDED|95.0|11.2|24.2||||||Serogroup W||24.2|11.2|
82409925|NCT02842866|164528872|OTHER||GMT Ratio|1.75|||||TWO_SIDED|95.0|1.4|2.2||||||Serogroup A||2.20|1.40|
82409926|NCT02842866|164528872|OTHER||GMT Ratio|4.1|||||TWO_SIDED|95.0|3.16|5.33||||||Serogroup C||5.33|3.16|
82409927|NCT02842866|164528872|OTHER||GMT Ratio|3.3|||||TWO_SIDED|95.0|2.57|4.23||||||Serogroup Y||4.23|2.57|
82409928|NCT02842866|164528872|OTHER||GMT Ratio|1.81|||||TWO_SIDED|95.0|1.42|2.31||||||Serogroup W||2.31|1.42|
82409929|NCT04810962|164528914|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409930|NCT04810962|164528915|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409931|NCT04810962|164528917|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409932|NCT04810962|164528918|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409933|NCT04810962|164528919|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409934|NCT04810962|164528920|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409935|NCT04810962|164528921|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409936|NCT04810962|164528922|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409937|NCT04810962|164528923|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409938|NCT04810962|164528924|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409939|NCT04810962|164528925|SUPERIORITY||Mean Difference (Net)|-1.2|||<|0.001|TWO_SIDED|95.0|-1.4|-1.0|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-1.0|-1.4|<0.001
82531995|NCT04147260|164761474|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.172||0.972|TWO_SIDED|90.0|-0.34|0.35||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.35|-0.34|0.972
82409940|NCT04810962|164528926|SUPERIORITY||Mean Difference (Net)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.3|-0.7|<0.001
82409941|NCT04810962|164528927|SUPERIORITY||Mean Difference (Net)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.3|-0.5|<0.001
82409942|NCT04810962|164528928|SUPERIORITY||Mean Difference (Net)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.02|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.02|-0.07|<0.001
82409943|NCT04810962|164528929|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.001|TWO_SIDED|95.0|-0.1|-0.05|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.05|-0.10|<0.001
82409944|NCT04810962|164528930|SUPERIORITY||Mean Difference (Net)|-0.08|||<|0.001|TWO_SIDED|95.0|-0.11|-0.05|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.05|-0.11|<0.001
82409945|NCT04810962|164528931|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82409946|NCT01206764|164528944|OTHER|Kaplan Meier|Median Difference (Net)|27.71|||||TWO_SIDED|95.0|21.86|35.29||||||Single arm open label study||35.29|21.86|
82409947|NCT01206764|164528948|OTHER|Kaplan Meier|Median Difference (Net)|45.71|||||TWO_SIDED|95.0|31.29|106.43||||||The median overall survival was not evaluable, this presents the 25th percentile of overall survival||106.43|31.29|
82409948|NCT00997893|164528949|OTHER|||||||0.004||||||treatment x time p=.004|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo. Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.004
82409949|NCT00997893|164528950|OTHER|||||||0.98||||||visit x time x treatment interaction p=.98|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo before and after a psychosocial stressor. Predictor variables in the model included treatment, time (before and after the psychosocial stressor), visit (Baseline, 12 weeks), and all two and three way interactions.|||.98
82409950|NCT00997893|164528951|OTHER|||||||0.68||||||treatment x time (before and after the psychosocial stressor) x visit p=.68|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on emotional memory following a laboratory induced stress. Primary predictor variables in the model included treatment, time (before and after the psychosocial stressor), visit (Baseline, 12 weeks), and all two and three way interactions.|||.68
82409951|NCT00997893|164528952|OTHER|||||||0.11||||||treatment x time p=.11|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on verbal memory (logical memory; immediate). Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.11
82409952|NCT00997893|164528953|OTHER|||||||0.86||||||treatment x time p=.86|Mixed Models Analysis||||A mixed effects regression model (Estimation method=maximum likelihood; Random intercept) was conducted to compare the effects of phytoestrogens and estradiol to placebo on verbal memory (logical memory; immediate)Primary predictor variables in the model included treatment and time, as well the treatment by time interaction.|||.86
82409953|NCT02309359|164528955|OTHER|Under the assumption of monotonicity, a Cochran-Armitage trend test was performed as the primary efficacy analysis. Data were analyzed according to the intent-to-treat (ITT) principle; thus, subjects were analyzed according to the treatment to which they were assigned. Subjects with missing ACR20 response at Week 12 were treated as non responders (non responder imputation approach).||||||0.172|||||||Cochran-Armitage trend test|||The null hypothesis of this test was that there is no difference in the percentage of subjects achieving ACR20 response between the treatment groups and the alternative hypothesis was that the percentage of subjects achieving ACR20 response increases with increasing dose level.||||0.172
82409954|NCT00701363|164528983|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED||||||ANCOVA|||One subject (Group B) had missing IGF-1 value at Week 48. One subject (Group A) had missing IGF-1 value at Baseline.||||0.0013
82409955|NCT00701363|164528983|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82409956|NCT00701363|164528983|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82409957|NCT00701363|164528984|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||t-test, 2 sided|||||||0.0009
82409958|NCT00701363|164528984|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82409959|NCT00701363|164528984|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82409960|NCT00701363|164528984|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||t-test, 2 sided|||||||0.0170
82409961|NCT00701363|164528985|SUPERIORITY_OR_OTHER|||||||0.0103|TWO_SIDED||||||t-test, 2 sided|||Difference in baseline IGF-1 levels between 108 subjects with normalized IGF-1 levels at week 24 (A+B+C) and 14 subjects with uncontrolled IGF-1 levels at week 24.||||0.0103
82409962|NCT02592824|164529078|SUPERIORITY|||||||0.086|||||||t-test, 2 sided|||Two-sided Student's t-test used for sample size estimation which was based on data from the first GLUTAMICS trial.||||0.086
82409963|NCT02592824|164529079|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82409964|NCT02592824|164529080|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82531996|NCT04147260|164761474|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|90.0|-0.02|0.6|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.60|-0.02|
82531997|NCT04147260|164761474|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.15||0.091|TWO_SIDED|90.0|-0.04|0.56||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.56|-0.04|0.091
82576376|NCT01294397|164862288|SUPERIORITY_OR_OTHER||Least Squares Mean Ratio of Day 22/Day 1|0.92|||||TWO_SIDED|90.0|0.81|1.05|||||Two one-sided tests|Log-transformed Cmax was analyzed with a mixed-effects model with treatment as the fixed effect and subject as the random effect. The mean difference between day 22 and day 1 was expressed as a percentage of the reference (day 1). The mean differences and the 90% CIs were back transformed to produce the ratio (day 22 vs. day 1) of the geometric means and the 90% CIs. If the CI for the ratio was within the standard acceptance range of 0.80 to 1.25, absence of an interaction was concluded.||1.05|0.81|
82409965|NCT02592824|164529085|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82409966|NCT00833755|164529122|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274|||||||Kruskal-Wallis|||||||0.274
82409967|NCT00833755|164529123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552|||||||Kruskal-Wallis|||||||0.552
82409968|NCT00833755|164529124|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82409969|NCT00560404|164529143|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Mean Hb within target range during efficacy evaluation period within plus or minus 1 g/dL of their reference Hb and between the target range with a non-inferiority limit of -0.15.|Difference of response rates|-0.02|||||TWO_SIDED|95.0|-0.25|0.2||||||||0.20|-0.25|
82409970|NCT00471497|164529198|OTHER||Difference in response rate|22.1|||<|0.0001|TWO_SIDED|95.0|14.5|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.5|<0.0001
82409971|NCT00471497|164529198|OTHER||Difference in response rate|20.4|||<|0.0001|TWO_SIDED|95.0|12.9|28.0|||Cochran-Mantel-Haenszel|||||28.0|12.9|<0.0001
82409972|NCT00471497|164529199|OTHER||Difference in response rate|14.8|||||TWO_SIDED|95.0|2.1|27.5||||||(Low)||27.5|2.1|
82409973|NCT00471497|164529199|OTHER||Difference in response rate|27.4|||||TWO_SIDED|95.0|14.6|40.2||||||(Low)||40.2|14.6|
82409974|NCT00471497|164529199|OTHER||Difference in response rate|27.7|||||TWO_SIDED|95.0|15.0|40.4||||||(Intermediate)||40.4|15.0|
82409975|NCT00471497|164529199|OTHER||Difference in response rate|17.2|||||TWO_SIDED|95.0|4.6|29.8||||||(Intermediate)||29.8|4.6|
82409976|NCT00471497|164529199|OTHER||Difference in response rate|24.4|||||TWO_SIDED|95.0|10.7|38.1||||||(High)||38.1|10.7|
82409977|NCT00471497|164529199|OTHER||Difference in response rate|15.4|||||TWO_SIDED|95.0|2.1|28.6||||||(High)||28.6|2.1|
82409978|NCT00471497|164529200|OTHER||Difference in response rate|21.3|||||TWO_SIDED|95.0|13.9|28.8||||||||28.8|13.9|
82531998|NCT04147260|164761474|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.203||0.88|TWO_SIDED|90.0|-0.38|0.44||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.44|-0.38|0.880
82409979|NCT00471497|164529200|OTHER||Difference in response rate|18.7|||||TWO_SIDED|95.0|11.3|26.0||||||||26.0|11.3|
82409980|NCT00471497|164529202|OTHER||Absolute difference|-1.6||||0.6987|TWO_SIDED|95.0|-9.8|6.6|||Cochran-Mantel-Haenszel|||||6.6|-9.8|0.6987
82409981|NCT00392223|164529229|NON_INFERIORITY_OR_EQUIVALENCE|Analysis performed to assess non-inferiority by calculation \& examination of 95% CI. Analysis conducted via analysis of covariance (ANCOVA) including corresponding baseline value and centre as covariates. Non-inferiority margin was chosen as largest clinically acceptable difference. This was set as difference of 3 in GAGS global score. Azithromycin declared non-inferior to minocycline when two-sided 95% confidence interval for difference lied entirely to right of non-inferiority margin.|Mean Difference (Final Values)|-0.47||||||95.0|-2.48|1.54|||||Comparison between treatment groups was performed using an analysis of covariance (ANCOVA) method, with treatment, center, and baseline value GAGS global score included as covariates.|||1.54|-2.48|
82409982|NCT00392223|164529233|NON_INFERIORITY_OR_EQUIVALENCE|Analysis performed to assess non-inferiority by calculation \& examination of 95% CI. Analysis conducted via analysis of covariance (ANCOVA) including corresponding baseline value and centre as covariates. Non-inferiority margin was chosen as largest clinically acceptable difference. This was set as difference of 3 in GAGS global score. Azithromycin declared non-inferior to minocycline when two-sided 95% confidence interval for difference lied entirely to right of non-inferiority margin.|Mean Difference (Final Values)|-0.87||||||95.0|-2.58|0.84|||||ANCOVA adjusted for baseline, center and treatment.|||0.84|-2.58|
82409983|NCT00269152|164529260|SUPERIORITY_OR_OTHER||Feasibility Response Rate (percentage)|59.4|||||TWO_SIDED|95.0|46.4|71.5||||||||71.5|46.4|
82409984|NCT00269152|164529260|SUPERIORITY_OR_OTHER||Feasibility Response Rate (percentage)|50.0||||||95.0|36.1|63.9||||||||63.9|36.1|
82409985|NCT01232283|164529276|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|23.0|||<|0.0001|TWO_SIDED|95.0|16.3|29.6|||Chi-squared|||||29.6|16.3|<0.0001
82409986|NCT01232283|164529277|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1|||<|0.0001|TWO_SIDED|95.0|10.2|21.9|||Chi-squared|||||21.9|10.2|<0.0001
82409987|NCT01232283|164529278|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-42.15|||<|0.0001|TWO_SIDED|95.0|-51.11|-33.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-33.20|-51.11|<0.0001
82409988|NCT01232283|164529279|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.8|||<|0.0001|TWO_SIDED|95.0|-42.4|-27.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-27.2|-42.4|<0.0001
82409989|NCT01232283|164529280|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|35.8|||<|0.0001|TWO_SIDED|95.0|26.9|44.7|||Chi-squared|||||44.7|26.9|< 0.0001
82409990|NCT01232283|164529281|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.3|||<|0.0001|TWO_SIDED|95.0|-28.4|-14.2|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-14.2|-28.4|<0.0001
82448989|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.084|||||TWO_SIDED|95.0|0.971|1.209|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of filamentous haemagglutinin (FHA) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.209|0.971|
82409991|NCT01232283|164529282|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.8|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-2.8|-5.3|<0.0001
82409992|NCT01232283|164529283|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.63||||0.0078|TWO_SIDED|95.0|0.69|4.56|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||4.56|0.69|0.0078
82409993|NCT01232283|164529284|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.2|||<|0.0001|TWO_SIDED|95.0|8.5|20.0|||Chi-squared|||||20.0|8.5|<0.0001
82409994|NCT01232283|164529285|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|7.7|||<|0.0001|TWO_SIDED|95.0|3.408|17.399|||Log Rank|||||17.399|3.408|<0.0001
82409995|NCT01981616|164529290|NON_INFERIORITY_OR_EQUIVALENCE|"With 55 evaluable participants in each group, the study would have at least 80% power to exclude the non-inferiority margin of 15% with the lower bound of the 1-sided 95% confidence interval (CI) on the difference in proportions between vedolizumab- and placebo-treated participants, assuming a 90% seroconversion rate (anti-HBs of 10 IU/L) for hepatitis B vaccine.~If the lower bound of this interval was less than -15% (ie, more negative), then the null hypothesis was accepted."|Difference from placebo|-1.8|||||TWO_SIDED|95.0|-12.7|9.1||||||||9.1|-12.7|
82409996|NCT01981616|164529291|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 55 evaluable subjects in the vedolizumab 750 mg IV group and 55 evaluable participants in the placebo group provided at least 71% power to exclude the non-inferiority margin of 15% with the lower bound of the 1-sided 95% CI on the difference in proportions between vedolizumab- and placebo-treated participants, assuming an 85% seroconversion rate to the oral cholera vaccine (Dukoral).|Difference from placebo|-14.2|||||TWO_SIDED|95.0|-24.6|-3.9||||||||-3.9|-24.6|
82409997|NCT01420536|164529294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.569|TWO_SIDED|95.0||||P values less than 0.05 would be considered statistically significant in this study.|Wilcoxon (Mann-Whitney)|||Statistical analysis was performed by a researcher who was unaware of all procedures performed. The questionnaire about denture satisfaction originated a general score that was compared using the Wilcoxon test, according to the two tested conditions.||||0.569
82409998|NCT01420536|164529295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|TWO_SIDED|95.0||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.339
82409999|NCT01420536|164529296|SUPERIORITY|||||||0.515||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.515
82410000|NCT01420536|164529297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.485||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.485
82410001|NCT01420536|164529298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.111
82410002|NCT01420536|164529299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.399
82410003|NCT01420536|164529300|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.550
82410004|NCT01420536|164529301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.609||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.609
82410005|NCT01420536|164529302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.600
82531999|NCT04147260|164761475|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.043|||TWO_SIDED|90.0|-0.15|-0.01|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||-0.01|-0.15|
82532000|NCT04147260|164761475|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.757|TWO_SIDED|90.0|-0.09|0.06||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.06|-0.09|0.757
82410006|NCT01420536|164529303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.611||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.611
82410007|NCT01420536|164529304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.044
82410008|NCT01420536|164529305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.677
82410009|NCT01420536|164529306|SUPERIORITY_OR_OTHER_LEGACY|||||||0.885||||||P values less than 0.05 would be considered statistically significant in this study.|t-test, 2 sided|Paired t-test.||For the kinesiographic assessment, the Kolmogorov-Smirnov test was used to evaluate whether the variables had normal distribution, which was positive in the majority of cases. A comparison between the values obtained for both groups was performed by means of the paired sample t-test.||||0.885
82410010|NCT01773928|164529323|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The probability that the modified process is noninferior to the current one (i.e. lower limit of the 95% CI of the ratio of geometric means \[modified vs. current\] is greater than or equal to 0.67) is above 99% for one strain, and it is around 97% for all three strains (considering the three strains to be independent, 0.99 x 0.99 x 0.99=0.97)|ANCOVA|0.67|||||ONE_SIDED|95.0|0.67||||||||||0.67|
82410011|NCT01773928|164529325|SUPERIORITY_OR_OTHER_LEGACY||ANCOVA|0.67|||||TWO_SIDED|95.0|0.67|1.5||||||"The overall power to prove the similarity between the three lots for all three strains is approximately 99%.~For the two primary co-analyses (Noninferiority and Lot Consistency), the overall power of the immunogenicity analyses is approximately 96% (calculated as 0.97 x 0.99=0.96)."||1.5|0.67|
82410012|NCT01773928|164529326|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Differences between fever incidences (95% CI) between treatment groups VCIV Modified (Total) and TIV was computed for each age cohort separately. The Confidence Interval estimation method was the method of Miettinen \& Nurminen, as described in the StatXact User Manual (i.e. the score statistics, also called Chan's method, page 283).~Noninferiority will be concluded if the upper limit of the 95% CI (VCIV modified-TIV) is \<5%."|Method of Miettinen & Nurminen|1.8||||||95.0|0.1|3.3||||||||3.3|0.1|
82410013|NCT03533751|164529328|SUPERIORITY||Least Squares (LS) Mean Difference|7.75|STANDARD_ERROR_OF_MEAN|10.235||0.4498|TWO_SIDED|95.0|-12.4066|27.8983|||ANCOVA|The p-value was obtained using a mixed effect analysis of covariance (ANCOVA) model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||27.8983|-12.4066|0.4498
82410014|NCT03533751|164529328|SUPERIORITY||LS Mean Difference|-6.32|STANDARD_ERROR_OF_MEAN|9.39||0.501|TWO_SIDED|95.0|-24.774|12.1262|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||12.1262|-24.7740|0.5010
82410015|NCT03533751|164529328|SUPERIORITY||LS Mean Difference|1.97|STANDARD_ERROR_OF_MEAN|9.454||0.8349|TWO_SIDED|95.0|-16.6037|20.5476|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||20.5476|-16.6037|0.8349
82410016|NCT03533751|164529328|SUPERIORITY||LS Mean Difference|4.82|STANDARD_ERROR_OF_MEAN|11.154||0.6662|TWO_SIDED|95.0|-17.1892|26.8275|||ANCOVA|The p-value was obtained using a mixed effect ANCOVA model with treatment as fixed effect and Baseline EASI as covariate.|Difference = Etokimab - Placebo|||26.8275|-17.1892|0.6662
82410017|NCT03533751|164529329|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7992|TWO_SIDED|95.0|0.42|1.9509|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||1.9509|0.4200|0.7992
82410018|NCT03533751|164529329|SUPERIORITY||Odds Ratio (OR)|1.59||||0.2197|TWO_SIDED|95.0|0.757|3.3572|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.3572|0.7570|0.2197
82410019|NCT03533751|164529329|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7197|TWO_SIDED|95.0|0.5345|2.4774|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||2.4774|0.5345|0.7197
82410020|NCT03533751|164529329|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6772|TWO_SIDED|95.0|0.391|1.8404|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||1.8404|0.3910|0.6772
82410021|NCT03533751|164529330|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9537|TWO_SIDED|95.0|0.3922|2.6994|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||2.6994|0.3922|0.9537
82410022|NCT03533751|164529330|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3316|TWO_SIDED|95.0|0.6323|3.8895|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.8895|0.6323|0.3316
82410023|NCT03533751|164529330|SUPERIORITY||Odds Ratio (OR)|1.36||||0.5166|TWO_SIDED|95.0|0.5331|3.4944|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.4944|0.5331|0.5166
82410024|NCT03533751|164529330|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7426|TWO_SIDED|95.0|0.4545|3.0223|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||3.0223|0.4545|0.7426
82410025|NCT03533751|164529331|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4543|TWO_SIDED|95.0|0.3998|7.7615|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||7.7615|0.3998|0.4543
82410026|NCT03533751|164529331|SUPERIORITY||Odds Ratio (OR)|2.57||||0.1874|TWO_SIDED|95.0|0.6314|10.4827|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||10.4827|0.6314|0.1874
82410027|NCT03533751|164529331|SUPERIORITY||Odds Ratio (OR)|2.69||||0.1721|TWO_SIDED|95.0|0.6506|11.0814|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||11.0814|0.6506|0.1721
82410028|NCT03533751|164529331|SUPERIORITY||Odds Ratio (OR)|0.68||||0.6755|TWO_SIDED|95.0|0.1086|4.2141|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline EASI as a covariate.||||4.2141|0.1086|0.6755
82410029|NCT03533751|164529332|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6058|TWO_SIDED|95.0|0.2481|2.2543|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||2.2543|0.2481|0.6058
82410030|NCT03533751|164529332|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9521|TWO_SIDED|95.0|0.3356|2.7923|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||2.7923|0.3356|0.9521
82410031|NCT03533751|164529332|SUPERIORITY||Odds Ratio (OR)|1.23||||0.6905|TWO_SIDED|95.0|0.4457|3.3878|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||3.3878|0.4457|0.6905
82410032|NCT03533751|164529332|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9399|TWO_SIDED|95.0|0.3671|2.9518|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as a covariate.||||2.9518|0.3671|0.9399
82410033|NCT03533751|164529333|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7659|TWO_SIDED|95.0|0.329|4.5268|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline vIGA-AD score as covariate.||||4.5268|0.3290|0.7659
82410034|NCT03533751|164529333|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6273|TWO_SIDED|95.0|0.3895|4.776|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||4.7760|0.3895|0.6273
82410035|NCT03533751|164529333|SUPERIORITY||Odds Ratio (OR)|1.88||||0.2967|TWO_SIDED|95.0|0.5734|6.1879|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||6.1879|0.5734|0.2967
82410036|NCT03533751|164529333|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5544|TWO_SIDED|95.0|0.4152|5.1476|||Regression, Logistic|Logistic regression model with treatment as fixed effect and baseline vIGA-AD score as covariate.||||5.1476|0.4152|0.5544
82410037|NCT03533751|164529334|SUPERIORITY||Odds Ratio (OR)|1.12||||0.86|TWO_SIDED|95.0|0.3175|3.9513|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||3.9513|0.3175|0.8600
82410038|NCT03533751|164529334|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3222|TWO_SIDED|95.0|0.5511|6.1214|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.1214|0.5511|0.3222
82532001|NCT04147260|164761475|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.049||0.158|TWO_SIDED|90.0|-0.17|0.03||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.03|-0.17|0.158
82410039|NCT03533751|164529334|SUPERIORITY||Odds Ratio (OR)|1.98||||0.2564|TWO_SIDED|95.0|0.6089|6.431|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.4310|0.6089|0.2564
82410040|NCT03533751|164529334|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2912|TWO_SIDED|95.0|0.5806|6.1275|||Regression, Logistic|Logistic regression model with treatment as fixed effect and Baseline peak weekly averaged NRS as covariate.||||6.1275|0.5806|0.2912
82410041|NCT03533751|164529335|SUPERIORITY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|8.679||0.8927|TWO_SIDED|95.0|-18.2117|15.8686|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||15.8686|-18.2117|0.8927
82410042|NCT03533751|164529335|SUPERIORITY||LS Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|9.019||0.7035|TWO_SIDED|95.0|-14.2767|21.1463|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||21.1463|-14.2767|0.7035
82410043|NCT03533751|164529335|SUPERIORITY||LS Mean Difference|-9.27|STANDARD_ERROR_OF_MEAN|8.608||0.2819|TWO_SIDED|95.0|-26.159|7.6237|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||7.6237|-26.1590|0.2819
82410044|NCT03533751|164529335|SUPERIORITY||LS Mean Difference|-6.06|STANDARD_ERROR_OF_MEAN|8.557||0.4793|TWO_SIDED|95.0|-22.8452|10.7333|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline weekly averaged peak NRS as covariate.|Difference = Etokimab - Placebo|||10.7333|-22.8452|0.4793
82410045|NCT03533751|164529336|SUPERIORITY||LS Mean Difference|6.57|STANDARD_ERROR_OF_MEAN|6.677||0.3262|TWO_SIDED|95.0|-6.5723|19.7054|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||19.7054|-6.5723|0.3262
82410046|NCT03533751|164529336|SUPERIORITY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|6.366||0.8465|TWO_SIDED|95.0|-13.7439|11.2782|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||11.2782|-13.7439|0.8465
82410047|NCT03533751|164529336|SUPERIORITY||LS Mean Difference|2.51|STANDARD_ERROR_OF_MEAN|6.396||0.6947|TWO_SIDED|95.0|-10.0587|15.082|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.||||15.0820|-10.0587|0.6947
82410048|NCT03533751|164529336|SUPERIORITY||LS Mean Difference|6.76|STANDARD_ERROR_OF_MEAN|6.909||0.3288|TWO_SIDED|95.0|-6.8451|20.3626|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline SCORAD as covariate.|Difference = Etokimab - Placebo|||20.3626|-6.8451|0.3288
82410049|NCT03533751|164529337|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|1.355||0.8497|TWO_SIDED|95.0|-2.4081|2.9218|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||2.9218|-2.4081|0.8497
82646790|NCT04179474|165008243|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|105.38|||||TWO_SIDED|90.0|96.19|115.45|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||115.45|96.19|
82410050|NCT03533751|164529337|SUPERIORITY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|1.35||0.5016|TWO_SIDED|95.0|-3.5636|1.7473|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||1.7473|-3.5636|0.5016
82410051|NCT03533751|164529337|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.386||0.7511|TWO_SIDED|95.0|-3.167|2.287|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||2.2870|-3.1670|0.7511
82410052|NCT03533751|164529337|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|1.396||0.7558|TWO_SIDED|95.0|-2.3133|3.1824|||ANCOVA|Mixed effect ANCOVA model with treatment as fixed effect and Baseline DLQI score as covariate.|Difference = Etokimab - Placebo|||3.1824|-2.3133|0.7558
82410053|NCT03082729|164529347|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||||||0.612
82410054|NCT03082729|164529348|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
82410055|NCT03082729|164529349|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
82410056|NCT03082729|164529350|SUPERIORITY|||||||0.524|||||||t-test, 2 sided|||||||0.524
82410057|NCT03082729|164529351|SUPERIORITY|||||||0.972|||||||t-test, 2 sided|||||||0.972
82410058|NCT03082729|164529352|SUPERIORITY|||||||0.315|||||||t-test, 2 sided|||||||0.315
82410059|NCT03082729|164529353|SUPERIORITY|||||||0.443|||||||t-test, 2 sided|||||||0.443
82410060|NCT03082729|164529354|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
82410061|NCT03082729|164529355|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.390
82410062|NCT03082729|164529356|SUPERIORITY|||||||0.116|||||||t-test, 2 sided|||||||0.116
82410063|NCT03082729|164529357|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||||||0.331
82410064|NCT03082729|164529358|SUPERIORITY|||||||0.225|||||||t-test, 2 sided|||||||0.225
82410065|NCT03082729|164529359|SUPERIORITY|||||||0.141|||||||t-test, 2 sided|||||||0.141
82410066|NCT03082729|164529360|SUPERIORITY|||||||0.882|||||||t-test, 2 sided|||||||0.882
82410067|NCT03082729|164529361|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||0.326
82410068|NCT03082729|164529362|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
82410069|NCT03082729|164529363|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
82410070|NCT03082729|164529364|SUPERIORITY|||||||0.771|||||||t-test, 2 sided|||||||0.771
82410071|NCT03082729|164529365|SUPERIORITY|||||||0.491|||||||t-test, 2 sided|||||||0.491
82410072|NCT03082729|164529366|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||||||0.924
82410073|NCT03082729|164529367|SUPERIORITY|||||||0.868|||||||t-test, 2 sided|||||||0.868
82410074|NCT03082729|164529368|SUPERIORITY|||||||0.922|||||||t-test, 2 sided|||||||0.922
82410075|NCT03082729|164529369|SUPERIORITY|||||||0.192|||||||t-test, 2 sided|||||||0.192
82410076|NCT03082729|164529370|SUPERIORITY|||||||0.453|||||||t-test, 2 sided|||||||0.453
82410077|NCT03082729|164529371|SUPERIORITY|||||||0.714|||||||t-test, 2 sided|||||||0.714
82410078|NCT03082729|164529372|SUPERIORITY|||||||0.434|||||||t-test, 2 sided|||||||0.434
82410079|NCT03082729|164529373|SUPERIORITY|||||||0.329|||||||t-test, 2 sided|||||||0.329
82410080|NCT03082729|164529374|SUPERIORITY|||||||0.963|||||||t-test, 2 sided|||||||0.963
82410081|NCT03082729|164529375|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.400
82410082|NCT03082729|164529376|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||||||0.223
82410083|NCT03082729|164529377|SUPERIORITY|||||||0.241|||||||t-test, 2 sided|||||||0.241
82410084|NCT03082729|164529378|SUPERIORITY|||||||0.348|||||||t-test, 2 sided|||||||0.348
82410085|NCT03082729|164529379|SUPERIORITY|||||||0.424|||||||t-test, 2 sided|||||||0.424
82410086|NCT03082729|164529380|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
82410087|NCT03082729|164529381|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||||||0.135
82410088|NCT03082729|164529382|SUPERIORITY|||||||0.331|||||||t-test, 2 sided|||||||0.331
82410089|NCT03082729|164529383|SUPERIORITY|||||||0.538|||||||t-test, 2 sided|||||||0.538
82410090|NCT03082729|164529384|SUPERIORITY|||||||0.791|||||||t-test, 2 sided|||||||0.791
82410091|NCT03082729|164529385|SUPERIORITY|||||||0.925|||||||t-test, 2 sided|||||||0.925
82410092|NCT03082729|164529386|SUPERIORITY|||||||0.161|||||||t-test, 2 sided|||||||0.161
82410093|NCT03082729|164529387|SUPERIORITY|||||||0.546|||||||t-test, 2 sided|||||||0.546
82410094|NCT03082729|164529388|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
82410095|NCT03082729|164529389|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.840
82410096|NCT03082729|164529390|SUPERIORITY|||||||0.367|||||||t-test, 2 sided|||||||0.367
82410097|NCT03082729|164529391|SUPERIORITY|||||||0.773|||||||t-test, 2 sided|||||||0.773
82410098|NCT03082729|164529392|SUPERIORITY|||||||0.968|||||||t-test, 2 sided|||||||0.968
82410099|NCT03082729|164529393|SUPERIORITY|||||||0.953|||||||t-test, 2 sided|||||||0.953
82410100|NCT03082729|164529394|SUPERIORITY|||||||0.911|||||||t-test, 2 sided|||||||0.911
82410101|NCT03082729|164529395|SUPERIORITY|||||||0.944|||||||t-test, 2 sided|||||||0.944
82410102|NCT03082729|164529396|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||||||0.226
82410103|NCT03082729|164529397|SUPERIORITY|||||||0.988|||||||t-test, 2 sided|||||||0.988
82410104|NCT03082729|164529398|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||0.189
82410105|NCT03082729|164529399|SUPERIORITY|||||||0.488|||||||t-test, 2 sided|||||||0.488
82410106|NCT03082729|164529400|SUPERIORITY|||||||0.523|||||||t-test, 2 sided|||||||0.523
82410107|NCT03082729|164529401|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.060
82410108|NCT03082729|164529402|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
82410109|NCT03082729|164529403|SUPERIORITY|||||||0.946|||||||t-test, 2 sided|||||||0.946
82410110|NCT03082729|164529404|SUPERIORITY|||||||0.351|||||||t-test, 2 sided|||||||0.351
82532002|NCT04147260|164761475|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.101|||TWO_SIDED|90.0|-0.12|0.22|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.22|-0.12|
82532003|NCT04147260|164761475|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.083||0.33|TWO_SIDED|90.0|-0.09|0.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.25|-0.09|0.330
82576377|NCT00955708|164862334|OTHER|Primary endpoint was estimated using the Kaplan-Meier method. In addition, Greenwood's formula was used to calculate the lower one-sided 95% confidence bound.|Kaplan-Meier Rate|95.3|||||ONE_SIDED|95.0|94.0||||||The lower one-sided 95% confidence bound was pre-specified to be greater than 92.5%.|The endpoint data reflected here is a modified primary endpoint analysis requested by the Food and Drug Administration early in the registry to include data that is related to the left ventricular lead function in a chronic setting.|||94.0|
82646791|NCT04179474|165008244|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|104.76|||||TWO_SIDED|90.0|89.68|122.38|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||122.38|89.68|
82410111|NCT03082729|164529405|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|||||||0.041
82410112|NCT03082729|164529406|SUPERIORITY|||||||0.884|||||||t-test, 2 sided|||||||0.884
82410113|NCT03082729|164529407|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
82410114|NCT03082729|164529408|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82410115|NCT03082729|164529409|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||||||0.018
82410116|NCT03082729|164529410|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||||||0.283
82410117|NCT03082729|164529411|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
82410118|NCT03082729|164529412|SUPERIORITY|||||||0.371|||||||t-test, 2 sided|||||||0.371
82410119|NCT03082729|164529413|SUPERIORITY|||||||0.555|||||||t-test, 2 sided|||||||0.555
82410120|NCT03082729|164529414|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||||||0.533
82410121|NCT03082729|164529415|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|||||||0.137
82410122|NCT03082729|164529416|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82410123|NCT03082729|164529416|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
82410124|NCT03082729|164529416|SUPERIORITY|||||||0.537|||||||t-test, 2 sided|||||||0.537
82410125|NCT03082729|164529417|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82410126|NCT03082729|164529417|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.010
82410127|NCT03082729|164529417|SUPERIORITY|||||||0.918|||||||t-test, 2 sided|||||||0.918
82410128|NCT03082729|164529418|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410129|NCT03082729|164529418|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410130|NCT03082729|164529419|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410131|NCT03082729|164529419|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410132|NCT03082729|164529420|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410133|NCT03082729|164529420|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410134|NCT03082729|164529421|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82410135|NCT03082729|164529421|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82410136|NCT03082729|164529423|SUPERIORITY|||||||0.092|||||||t-test, 2 sided|||||||0.092
82410137|NCT03082729|164529423|SUPERIORITY|||||||0.678|||||||t-test, 2 sided|||||||0.678
82410138|NCT03082729|164529424|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
82410139|NCT03082729|164529424|SUPERIORITY|||||||0.762|||||||t-test, 2 sided|||||||0.762
82410140|NCT03082729|164529425|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||||||0.973
82410141|NCT03082729|164529425|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|||||||0.805
82410142|NCT03082729|164529426|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||||||0.951
82410143|NCT03082729|164529426|SUPERIORITY|||||||0.661|||||||t-test, 2 sided|||||||0.661
82410144|NCT03082729|164529427|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
82410145|NCT03082729|164529427|SUPERIORITY|||||||0.306|||||||t-test, 2 sided|||||||0.306
82410146|NCT03082729|164529428|SUPERIORITY|||||||0.322|||||||t-test, 2 sided|||||||0.322
82410147|NCT03082729|164529428|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
82410148|NCT03082729|164529429|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.960
82410149|NCT03082729|164529429|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||||||0.268
82410150|NCT03082729|164529430|SUPERIORITY|||||||0.501|||||||t-test, 2 sided|||||||0.501
82410151|NCT03082729|164529430|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||||||0.235
82410152|NCT03082729|164529431|SUPERIORITY|||||||0.259|||||||t-test, 2 sided|||||||0.259
82410153|NCT03082729|164529431|SUPERIORITY|||||||0.219|||||||t-test, 2 sided|||||||0.219
82410154|NCT03082729|164529432|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.140
82410155|NCT03082729|164529432|SUPERIORITY|||||||0.633|||||||t-test, 2 sided|||||||0.633
82410156|NCT03082729|164529433|SUPERIORITY|||||||0.302|||||||t-test, 2 sided|||||||0.302
82410157|NCT03082729|164529433|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
82410158|NCT03082729|164529434|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
82410159|NCT03082729|164529434|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||||||0.324
82410160|NCT03082729|164529435|SUPERIORITY|||||||0.812|||||||t-test, 2 sided|||||||0.812
82410161|NCT03082729|164529435|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|||||||0.264
82410162|NCT03082729|164529436|SUPERIORITY|||||||0.283|||||||t-test, 2 sided|||||||0.283
82410163|NCT03082729|164529436|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.250
82410164|NCT03082729|164529437|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
82410165|NCT03082729|164529437|SUPERIORITY|||||||0.249|||||||t-test, 2 sided|||||||0.249
82410166|NCT03082729|164529438|SUPERIORITY|||||||0.526|||||||t-test, 2 sided|||||||0.526
82410167|NCT03082729|164529438|SUPERIORITY|||||||0.632|||||||t-test, 2 sided|||||||0.632
82410168|NCT03082729|164529439|SUPERIORITY|||||||0.584|||||||t-test, 2 sided|||||||0.584
82410169|NCT03082729|164529439|SUPERIORITY|||||||0.191|||||||t-test, 2 sided|||||||0.191
82410170|NCT03082729|164529440|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
82410171|NCT03082729|164529440|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82410172|NCT03082729|164529441|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||||||0.533
82410173|NCT03082729|164529441|SUPERIORITY|||||||0.079|||||||t-test, 2 sided|||||||0.079
82410174|NCT03082729|164529442|SUPERIORITY|||||||0.338|||||||t-test, 2 sided|||||||0.338
82410175|NCT03082729|164529442|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||0.091
82410176|NCT03082729|164529443|SUPERIORITY|||||||0.102|||||||t-test, 2 sided|||||||0.102
82410177|NCT03082729|164529443|SUPERIORITY|||||||0.153|||||||t-test, 2 sided|||||||0.153
82410178|NCT03082729|164529444|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||||||0.226
82410179|NCT03082729|164529444|SUPERIORITY|||||||0.222|||||||t-test, 2 sided|||||||0.222
82410180|NCT03082729|164529445|SUPERIORITY|||||||0.384|||||||t-test, 2 sided|||||||0.384
82410181|NCT03082729|164529445|SUPERIORITY|||||||0.112|||||||t-test, 2 sided|||||||0.112
82410182|NCT03082729|164529446|SUPERIORITY|||||||0.636|||||||t-test, 2 sided|||||||0.636
82410183|NCT03082729|164529446|SUPERIORITY|||||||0.896|||||||t-test, 2 sided|||||||0.896
82410184|NCT03082729|164529447|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.800
82410185|NCT03082729|164529447|SUPERIORITY|||||||0.551|||||||t-test, 2 sided|||||||0.551
82410186|NCT03082729|164529448|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.440
82410187|NCT03082729|164529448|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
82410188|NCT03082729|164529449|SUPERIORITY|||||||0.278|||||||t-test, 2 sided|||||||0.278
82410189|NCT03082729|164529449|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
82410190|NCT03082729|164529450|SUPERIORITY|||||||0.795|||||||t-test, 2 sided|||||||0.795
82410191|NCT03082729|164529450|SUPERIORITY|||||||0.284|||||||t-test, 2 sided|||||||0.284
82410192|NCT03082729|164529451|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||||||0.880
82410193|NCT03082729|164529451|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||||||0.028
82410194|NCT03082729|164529452|SUPERIORITY|||||||0.746|||||||t-test, 2 sided|||||||0.746
82410195|NCT03082729|164529452|SUPERIORITY|||||||0.199|||||||t-test, 2 sided|||||||0.199
82410196|NCT03082729|164529453|SUPERIORITY|||||||0.814|||||||t-test, 2 sided|||||||0.814
82410197|NCT03082729|164529453|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
82410198|NCT03082729|164529454|SUPERIORITY|||||||0.494|||||||t-test, 2 sided|||||||0.494
82410199|NCT03082729|164529454|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.960
82410200|NCT03082729|164529455|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
82410201|NCT03082729|164529455|SUPERIORITY|||||||0.028|||||||t-test, 2 sided|||||||0.028
82410202|NCT03082729|164529456|SUPERIORITY|||||||0.241|||||||t-test, 2 sided|||||||0.241
82410203|NCT03082729|164529456|SUPERIORITY|||||||0.869|||||||t-test, 2 sided|||||||0.869
82410204|NCT03082729|164529457|SUPERIORITY|||||||0.977|||||||t-test, 2 sided|||||||0.977
82410205|NCT03082729|164529457|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
82410206|NCT03082729|164529458|SUPERIORITY|||||||0.591|||||||t-test, 2 sided|||||||0.591
82410207|NCT03082729|164529458|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
82410208|NCT03082729|164529459|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||||||0.260
82410209|NCT03082729|164529459|SUPERIORITY|||||||0.526|||||||t-test, 2 sided|||||||0.526
82410210|NCT03082729|164529460|SUPERIORITY|||||||0.545|||||||t-test, 2 sided|||||||0.545
82410211|NCT03082729|164529460|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||||||0.690
82410212|NCT03082729|164529461|SUPERIORITY|||||||0.542|||||||t-test, 2 sided|||||||0.542
82410213|NCT03082729|164529461|SUPERIORITY|||||||0.344|||||||t-test, 2 sided|||||||0.344
82410214|NCT03082729|164529462|SUPERIORITY|||||||0.918|||||||t-test, 2 sided|||||||0.918
82410215|NCT03082729|164529462|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82410216|NCT03082729|164529463|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.510
82410217|NCT03082729|164529463|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|||||||0.516
82410218|NCT03082729|164529464|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82410219|NCT03082729|164529464|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
82410220|NCT03082729|164529465|SUPERIORITY|||||||0.392|||||||t-test, 2 sided|||||||0.392
82410221|NCT03082729|164529465|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||||||0.177
82410222|NCT03082729|164529466|SUPERIORITY|||||||0.584|||||||t-test, 2 sided|||||||0.584
82410223|NCT03082729|164529466|SUPERIORITY|||||||0.065|||||||t-test, 2 sided|||||||0.065
82410224|NCT03082729|164529467|SUPERIORITY|||||||0.421|||||||t-test, 2 sided|||||||0.421
82410225|NCT03082729|164529467|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||||||0.145
82410226|NCT03082729|164529468|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
82410227|NCT03082729|164529468|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||||||0.345
82410228|NCT03082729|164529469|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|||||||0.957
82410229|NCT03082729|164529469|SUPERIORITY|||||||0.425|||||||t-test, 2 sided|||||||0.425
82410230|NCT03082729|164529470|SUPERIORITY|||||||0.698|||||||t-test, 2 sided|||||||0.698
82410231|NCT03082729|164529470|SUPERIORITY|||||||0.709|||||||t-test, 2 sided|||||||0.709
82410232|NCT03082729|164529471|SUPERIORITY|||||||0.362|||||||t-test, 2 sided|||||||0.362
82410233|NCT03082729|164529471|SUPERIORITY|||||||0.221|||||||t-test, 2 sided|||||||0.221
82410234|NCT03082729|164529472|SUPERIORITY|||||||0.813|||||||t-test, 2 sided|||||||0.813
82410235|NCT03082729|164529472|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||||||0.046
82410236|NCT03082729|164529473|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||||||0.752
82410237|NCT03082729|164529473|SUPERIORITY|||||||0.808|||||||t-test, 2 sided|||||||0.808
82410238|NCT03082729|164529474|SUPERIORITY|||||||0.251|||||||t-test, 2 sided|||||||0.251
82410239|NCT03082729|164529474|SUPERIORITY|||||||0.329|||||||t-test, 2 sided|||||||0.329
82410240|NCT03082729|164529475|SUPERIORITY|||||||0.215|||||||t-test, 2 sided|||||||0.215
82410241|NCT03082729|164529475|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|||||||0.612
82410242|NCT03082729|164529476|SUPERIORITY|||||||0.307|||||||t-test, 2 sided|||||||0.307
82410243|NCT03082729|164529476|SUPERIORITY|||||||0.686|||||||t-test, 2 sided|||||||0.686
82410244|NCT03082729|164529477|SUPERIORITY|||||||0.139|||||||t-test, 2 sided|||||||0.139
82410245|NCT03082729|164529477|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.350
82410246|NCT03082729|164529478|SUPERIORITY|||||||0.721|||||||t-test, 2 sided|||||||0.721
82410247|NCT03082729|164529478|SUPERIORITY|||||||0.285|||||||t-test, 2 sided|||||||0.285
82410248|NCT03082729|164529479|SUPERIORITY|||||||0.804|||||||t-test, 2 sided|||||||0.804
82410249|NCT03082729|164529479|SUPERIORITY|||||||0.793|||||||t-test, 2 sided|||||||0.793
82410250|NCT03082729|164529480|SUPERIORITY|||||||0.293|||||||t-test, 2 sided|||||||0.293
82410251|NCT03082729|164529480|SUPERIORITY|||||||0.355|||||||t-test, 2 sided|||||||0.355
82410252|NCT03082729|164529481|SUPERIORITY|||||||0.101|||||||t-test, 2 sided|||||||0.101
82410253|NCT03082729|164529481|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.170
82576378|NCT00955708|164862334|OTHER|Primary endpoint was estimated using the Kaplan-Meier method. In addition, Greenwood's formula was used to calculate the lower one-sided 95% confidence bound.|Kaplan-Meier Rate|100.0|||||ONE_SIDED|95.0|100.0|||||||The non-modified primary endpoint analysis initially included confirmed chronic LV lead related complications that result in permanent loss of therapy, invasive intervention, injury or death, and are deemed attributable to a structural lead failure by an independent Clinical Events Committee (CEC). These results are represented here.|||100|
82410254|NCT03082729|164529482|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|||||||0.137
82410255|NCT03082729|164529482|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
82410256|NCT03082729|164529483|SUPERIORITY|||||||0.115|||||||t-test, 2 sided|||||||0.115
82410257|NCT03082729|164529483|SUPERIORITY|||||||0.378|||||||t-test, 2 sided|||||||0.378
82410258|NCT03082729|164529484|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||0.122
82410259|NCT03082729|164529484|SUPERIORITY|||||||0.815|||||||t-test, 2 sided|||||||0.815
82410260|NCT03082729|164529485|SUPERIORITY|||||||0.321|||||||t-test, 2 sided|||||||0.321
82410261|NCT03082729|164529485|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
82410262|NCT03082729|164529486|SUPERIORITY|||||||0.352|||||||t-test, 2 sided|||||||0.352
82410263|NCT03082729|164529486|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.180
82410264|NCT03082729|164529487|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
82410265|NCT03082729|164529487|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||||||0.383
82410266|NCT03082729|164529488|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
82410267|NCT03082729|164529488|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
82410268|NCT03082729|164529489|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||0.042
82410269|NCT03082729|164529489|SUPERIORITY|||||||0.208|||||||t-test, 2 sided|||||||0.208
82410270|NCT03082729|164529490|SUPERIORITY|||||||0.446|||||||t-test, 2 sided|||||||0.446
82410271|NCT03082729|164529490|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
82410272|NCT03082729|164529491|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82410273|NCT03082729|164529491|SUPERIORITY|||||||0.405|||||||t-test, 2 sided|||||||0.405
82410274|NCT02100631|164529574|NON_INFERIORITY|The lower limit of the two sided 95% Wald CI on the difference in seroconversion rate was estimated by inverting a Z test with pooled variance. The lower limit of the CI had be greater than -10 percentage points to prove non-inferiority. The lower bound of the CI on the older adults serconversion rate was required to exceed 70%.|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-6.7|0.4||||||||0.4|-6.7|
82410275|NCT02100631|164529575|OTHER||Geometric Mean Ratio (GMR)|0.44|||||TWO_SIDED|95.0|0.34|0.57||||||||0.57|0.34|
82410276|NCT02100631|164529576|NON_INFERIORITY|Analysis for information only. No non-inferiority margin specified.|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-2.2|3.5||||||||3.5|-2.2|
82410277|NCT02100631|164529577|NON_INFERIORITY|Analysis for information only. No non-inferiority margin specified.||||||0.0062|||||||t-test, 2 sided|||||||0.0062
82410278|NCT01287936|164529607|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed Rank test|||||||<0.001
82410279|NCT01287936|164529609|SUPERIORITY|||||||0.004|||||||Wilcoxon Signed Rank test|||||||0.004
82410280|NCT01721798|164529616|NON_INFERIORITY|Primary Outcome Analysis: Proportion of women with detectable genital viral load across 24 months|Odds Ratio (OR)|0.87||||0.66|TWO_SIDED|95.0|0.47|1.62|||GEE|||C-IUD is comparator group.||1.62|0.47|0.66
82410281|NCT01721798|164529617|NON_INFERIORITY|Secondary Outcome Analysis of Proportion with Detectable plasma viral load users at 24 months|Odds Ratio (OR)|0.83||||0.64|TWO_SIDED|95.0|0.37|1.86|||GEE|Adjusted as-treated analysis||C-IUD is comparator group.||1.86|0.37|0.64
82410282|NCT01721798|164529619|NON_INFERIORITY|Secondary Outcome Analysis of Allocated IUC continuation at 24 months|Hazard Ratio (HR)|8.61|||<|0.001|TWO_SIDED|95.0|3.03|24.4|||Regression, Cox|||C-IUD is comparator group.||24.4|3.03|<0.001
82410283|NCT00427934|164529621|SUPERIORITY_OR_OTHER||Percentage Difference|-1.73||||0.79||90.0|-15.13|8.68|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 1||8.68|-15.13|0.790
82410284|NCT00427934|164529621|SUPERIORITY_OR_OTHER||Percentage Difference|0.43||||0.477||90.0|-13.67|11.64|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 2||11.64|-13.67|0.477
82410285|NCT00427934|164529621|SUPERIORITY_OR_OTHER||Percentage Difference|3.03||||0.37||90.0|-12.85|16.77|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||16.77|-12.85|0.370
82410286|NCT00427934|164529621|SUPERIORITY_OR_OTHER||Percentage Difference|8.66||||0.175||90.0|-7.07|22.03|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||22.03|-7.07|0.175
82410287|NCT00427934|164529622|SUPERIORITY_OR_OTHER||Percentage Difference|1.3||||0.42||90.0|-6.34|6.01|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 1||6.01|-6.34|0.420
82410288|NCT00427934|164529622|SUPERIORITY_OR_OTHER||Percentage Difference|2.6||||0.258||90.0|-5.08|7.95|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 2||7.95|-5.08|0.258
82410289|NCT00427934|164529622|SUPERIORITY_OR_OTHER||Percentage Difference|-3.46||||1||90.0|-14.39|3.42|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||3.42|-14.39|1.000
82410290|NCT00427934|164529622|SUPERIORITY_OR_OTHER||Percentage Difference|-1.3||||0.899||90.0|-13.56|7.92|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||7.92|-13.56|0.899
82410291|NCT00427934|164529622|SUPERIORITY_OR_OTHER||Percentage Difference|1.3||||0.489||90.0|-11.24|10.96|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 12||10.96|-11.24|0.489
82410292|NCT00427934|164529623|SUPERIORITY_OR_OTHER||Percentage Difference|-3.03||||1||90.0|-13.59|1.28|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 4||1.28|-13.59|1.000
82410293|NCT00427934|164529623|SUPERIORITY_OR_OTHER||Percentage Difference|2.6||||0.258||90.0|-5.08|7.95|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 8||7.95|-5.08|0.258
82410294|NCT00427934|164529623|SUPERIORITY_OR_OTHER||Percentage Difference|-3.03||||1||90.0|-13.59|1.28|||Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|Week 12||1.28|-13.59|1.000
82410295|NCT00427934|164529624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.335||90.0|-0.79|2.99||This analysis was carried out using analysis of covariance (ANCOVA) with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||2.99|-0.79|0.335
82410296|NCT00427934|164529624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.816||90.0|-1.82|2.41||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.41|-1.82|0.816
82410297|NCT00427934|164529624|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.01||||0.996||90.0|-2.35|2.36||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||2.36|-2.35|0.996
82410298|NCT00427934|164529624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.263||90.0|-3.98|0.76||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.76|-3.98|0.263
82410299|NCT00427934|164529624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48||||0.294||90.0|-3.82|0.85||This analysis was carried out using ANCOVA with baseline tender/painful joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.85|-3.82|0.294
82410300|NCT00427934|164529625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.7||90.0|-1.7|1.06||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||1.06|-1.70|0.700
82410301|NCT00427934|164529625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.799||90.0|-1.45|1.97||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||1.97|-1.45|0.799
82410302|NCT00427934|164529625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.867||90.0|-1.35|1.66||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||1.66|-1.35|0.867
82576379|NCT03738475|164862335|SUPERIORITY|||||||0.0056||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.0056
82410303|NCT00427934|164529625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45||||0.167||90.0|-3.17|0.28||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.28|-3.17|0.167
82410304|NCT00427934|164529625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.966||90.0|-1.91|1.81||This analysis was carried out using ANCOVA baseline swollen joint count as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||1.81|-1.91|0.966
82410305|NCT00427934|164529626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.925||90.0|-6.41|5.72||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||5.72|-6.41|0.925
82410306|NCT00427934|164529626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.26||||0.239||90.0|-12.62|2.11||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.11|-12.62|0.239
82410307|NCT00427934|164529626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.872||90.0|-6.79|8.25||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||8.25|-6.79|0.872
82410308|NCT00427934|164529626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.745||90.0|-9.91|6.65||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||6.65|-9.91|0.745
82410309|NCT00427934|164529626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.644||90.0|-10.14|5.71||This analysis was carried out using ANCOVA with baseline patient's assessment of arthritis pain as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||5.71|-10.14|0.644
82410310|NCT00427934|164529627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.36||||0.524||90.0|-8.49|3.77||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||3.77|-8.49|0.524
82410311|NCT00427934|164529627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.96||||0.338||90.0|-10.8|2.87||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||2.87|-10.80|0.338
82410312|NCT00427934|164529627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.83||90.0|-8.55|6.58||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||6.58|-8.55|0.830
82410313|NCT00427934|164529627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.68||||0.118||90.0|-15.76|0.4||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.40|-15.76|0.118
82410314|NCT00427934|164529627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||0.712||90.0|-9.73|6.18||This analysis was carried out using ANCOVA with baseline Patient's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||6.18|-9.73|0.712
82410315|NCT00427934|164529628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.54||90.0|-0.28|0.13||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||0.13|-0.28|0.540
82410316|NCT00427934|164529628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.757||90.0|-0.28|0.19||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||0.19|-0.28|0.757
82410317|NCT00427934|164529628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.767||90.0|-0.31|0.21||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||0.21|-0.31|0.767
82410318|NCT00427934|164529628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.112||90.0|-0.52|0.01||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||0.01|-0.52|0.112
82410319|NCT00427934|164529628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.49||90.0|-0.42|0.17||This analysis was carried out using ANCOVA with baseline Physician's Global Assessment of Arthritis as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.17|-0.42|0.490
82410320|NCT00427934|164529629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.464||90.0|-0.19|0.07||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||0.07|-0.19|0.464
82410321|NCT00427934|164529629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.068||90.0|-0.35|-0.02||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||-0.02|-0.35|0.068
82410322|NCT00427934|164529629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.532||90.0|-0.23|0.11||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||0.11|-0.23|0.532
82410323|NCT00427934|164529629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.063||90.0|-0.41|-0.03||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||-0.03|-0.41|0.063
82410324|NCT00427934|164529629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.396||90.0|-0.36|0.12||This analysis was carried out using ANCOVA with HAQ-DI as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||0.12|-0.36|0.396
82410325|NCT00427934|164529630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.481||90.0|-7.36|2.96||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 1||2.96|-7.36|0.481
82410326|NCT00427934|164529630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.698||90.0|-4.34|6.99||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 2||6.99|-4.34|0.698
82410327|NCT00427934|164529630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.65||||0.233||90.0|-1.79|11.1||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||11.10|-1.79|0.233
82410328|NCT00427934|164529630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.48||||0.32||90.0|-2.29|9.25||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 8||9.25|-2.29|0.320
82410329|NCT00427934|164529630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.912||90.0|-5.81|6.64||This analysis was carried out using ANCOVA with CRP as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||6.64|-5.81|0.912
82410330|NCT00427934|164529631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.653||90.0|-0.31|0.18||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 1||0.18|-0.31|0.653
82410331|NCT00427934|164529631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.703||90.0|-0.41|0.26||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 2||0.26|-0.41|0.703
82410332|NCT00427934|164529631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.968||90.0|-0.37|0.39||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 4||0.39|-0.37|0.968
82410333|NCT00427934|164529631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.21||90.0|-0.72|0.1||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 8||0.10|-0.72|0.210
82532004|NCT04147260|164761475|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.113||0.754|TWO_SIDED|90.0|-0.26|0.19||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.19|-0.26|0.754
82410334|NCT00427934|164529631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.696||90.0|-0.53|0.33||This analysis was carried out using ANCOVA with baseline DAS28-4 (CRP) as the covariate, treatment, country as fixed effects.|ANCOVA|||Week 12||0.33|-0.53|0.696
82410335|NCT00427934|164529633|SUPERIORITY_OR_OTHER||Percentage Difference|9.09||||0.155||90.0|-6.16|21.83||p-value (one-sided) was based on Barnard exact test if more than 20% of expected cell counts were \< 5 otherwise Pearson chi-square test.|Barnard/Pearson chi-square test||Percentage Difference = maraviroc responders divided by the number of maraviroc participants analyzed minus placebo responders divided by the number of placebo participants analyzed.|||21.83|-6.16|0.155
82410336|NCT00427934|164529639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.698||90.0|-1.87|3.01||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||3.01|-1.87|0.698
82410337|NCT00427934|164529639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68||||0.344||90.0|-4.62|1.26||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||1.26|-4.62|0.344
82410338|NCT00427934|164529640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.734||90.0|-2.71|4.11||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 4||4.11|-2.71|0.734
82410339|NCT00427934|164529640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.818||90.0|-3.5|4.62||This analysis was carried out ANCOVA with baseline SF-36 score as the covariate, treatment, region as fixed effects.|ANCOVA|||Week 12||4.62|-3.50|0.818
82410340|NCT00427934|164529641|SUPERIORITY_OR_OTHER|||||||0.649||95.0|||||Fisher Exact|||||||0.649
82410341|NCT00427934|164529642|SUPERIORITY_OR_OTHER|||||||0.9826||95.0|||||Log Rank|||||||0.9826
82410342|NCT02058095|164529674|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82410343|NCT02058095|164529676|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82410344|NCT00148798|164529677|SUPERIORITY_OR_OTHER|||||||0.0441|TWO_SIDED|95.0|||||Stratified Log Rank|||Primary efficacy analysis: To test equality of OS time between treatment groups, applying the two-sided stratified log-rank test (Stage IIIb vs IV, ECOG 0/1 vs 2) (α=5%).||||0.0441
82410345|NCT00148798|164529678|SUPERIORITY_OR_OTHER|||||||0.3869|TWO_SIDED|95.0|||||Stratified Log Rank|||To test equality of progression free survival time between treatment groups, applying the two-sided stratified log-rank test (α=5%).||||0.3869
82410346|NCT00148798|164529679|SUPERIORITY_OR_OTHER|||||||0.0101|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||The best overall response rate was compared in the Cochran-Mantel-Haenszel test (two-sided with α=5%).||||0.0101
82410347|NCT00148798|164529680|SUPERIORITY_OR_OTHER|||||||0.6801|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||The disease control rate was compared in the Cochran-Mantel-Haenszel test (two-sided with α=5%).||||0.6801
82410348|NCT01588509|164529685|SUPERIORITY||Percent Change from Baseline|2.13||||0.002|TWO_SIDED|90.0|1.05|3.2|||ANOVA|||||3.20|1.05|0.002
82410349|NCT01588509|164529685|SUPERIORITY||Percent Change from Baseline|2.08||||0.002|TWO_SIDED|90.0|1.02|3.14|||ANOVA|||||3.14|1.02|0.002
82410350|NCT01588509|164529686|SUPERIORITY||Percent Change from Baseline|2.06|||<|0.001|TWO_SIDED|90.0|1.07|3.05|||ANOVA|||||3.05|1.07|<0.001
82410351|NCT01588509|164529686|SUPERIORITY||Percent Change from Baseline|1.92||||0.002|TWO_SIDED|90.0|0.95|2.89|||ANOVA|||||2.89|0.95|0.002
82410352|NCT01588509|164529687|SUPERIORITY||Percent Change from Baseline|1.38|||<|0.001|TWO_SIDED|90.0|0.81|1.95|||ANOVA|||||1.95|0.81|<0.001
82410353|NCT01588509|164529687|SUPERIORITY||Percent Change from Baseline|1.4|||<|0.001|TWO_SIDED|90.0|0.84|1.96|||ANOVA|||||1.96|0.84|<0.001
82410354|NCT00393367|164529696|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||The difference in median improvement between treatment groups was expected to be greater than 2.|Wilcoxon (Mann-Whitney)|||||||0.44
82410355|NCT00393367|164529697|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.97|TWO_SIDED|95.0|-0.14|0.14|||Chi-squared|||||0.14|-0.14|0.97
82410356|NCT00393367|164529698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|-7.0|6.0|||t-test, 2 sided|||||6|-7|
82410357|NCT00393367|164529699|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.6|||TWO_SIDED|95.0|-3.0|3.0|||t-test, 2 sided|||||3|-3|
82410358|NCT00393367|164529700|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.0|1.0|||t-test, 2 sided|||||1|-1|
82410359|NCT00393367|164529701|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.03||||0.69||95.0|-0.2|0.14|||Chi-squared|||||0.14|-0.20|0.69
82410360|NCT00393367|164529702|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.22||||0.08|TWO_SIDED|95.0|-0.02|0.47|||Chi-squared|||||0.47|-0.02|0.08
82410361|NCT00393367|164529703|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.14||||0.22|TWO_SIDED|95.0|-0.37|0.08|||Chi-squared|||||0.08|-0.37|0.22
82410362|NCT00393367|164529705|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.36||0.78|TWO_SIDED|95.0|-0.6|0.8|||t-test, 2 sided|||||0.8|-0.6|0.78
82410363|NCT00204737|164529760|OTHER|||||||0.06|||||||Fisher Exact|||comparison at 2 Weeks||||0.06
82410364|NCT00204737|164529760|OTHER|||||||0.18|||||||Fisher Exact|||Comparison at 6 Weeks||||0.18
82410365|NCT00204737|164529760|OTHER|||||||0.5|||||||Fisher Exact|||Comparison at 12 weeks||||0.5
82410366|NCT00676143|164529769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.979|TWO_SIDED|95.0|-1.18|1.22||Primary variable ADAS-Cog/11 total score had to reach statistical significance, p-values had to reach p \<=0.05, in order to be declared effective.|Mixed Models Analysis|||"Change in ADAS-Cog/11 total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants in each group gave 90% power to detect a 2.21 point advantage for the bapineuzumab group over placebo on the ADAS-Cog/11 total score, at the primary time point (Week 78). This calculation was based on a two-sided test with an alpha of 0.05."||1.22|-1.18|0.979
82576380|NCT03738475|164862339|SUPERIORITY|||||||0.0799||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.0799
82532005|NCT04147260|164761476|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|90.0|0.09|0.52|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.52|0.09|
82410367|NCT00676143|164529770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.973|TWO_SIDED|95.0|-2.51|2.6||Primary variable DAD total score had to reach statistical significance, p-values had to reach p \<=0.05, in order to be declared effective.|Mixed Models Analysis|||"Change in DAD total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants in each group gave 90% power to detect a 5.39 unit advantage for the bapineuzumab group over placebo on the DAD total score, at the primary time point (Week 78). This calculation was based on a two-sided test with an alpha of 0.05."||2.60|-2.51|0.973
82410368|NCT00676143|164529771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.159|TWO_SIDED|95.0|-0.17|0.03|||Mixed Models Analysis|||"Change in PIB PET SUVr was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants gave 90% power to detect a 0.152 unit advantage for the bapineuzumab group over placebo for PiB PET binding at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05."||0.03|-0.17|0.159
82410369|NCT00676143|164529772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38||||0.62|TWO_SIDED|95.0|-6.89|4.13|||ANCOVA|||Change in CSF phospho-tau was analyzed using an analysis of covariance (ANCOVA) model. The analysis was based on the treatment difference estimated at Week 71 based on appropriate contrasts or LS means. The number of participants gave 90% power to detect a 13-ng/L advantage in phospho-tau for the bapineuzumab group over placebo at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05.||4.13|-6.89|0.620
82410370|NCT00676143|164529773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.884|TWO_SIDED|95.0|-1.89|1.63|||Mixed Models Analysis|||"Change in MRI BBSI was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.~The number of participants gave 90% power to detect a 4.15-cm3 advantage for the bapineuzumab group over placebo on reduction in brain volume as measured by the BBSI at Week 71. The calculations were based on 2-sided tests with alpha set at 0.05."||1.63|-1.89|0.884
82410371|NCT00676143|164529774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.7|TWO_SIDED|95.0|-0.97|1.45|||Mixed Models Analysis|||Treatment Difference: Bapineuzumab - Placebo||1.45|-0.97|0.700
82410372|NCT00676143|164529775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.949|TWO_SIDED|95.0|-2.61|2.78|||Mixed Models Analysis|||Treatment Difference: Bapineuzumab - Placebo||2.78|-2.61|0.949
82410373|NCT00676143|164529776|SUPERIORITY_OR_OTHER|||||||0.684|||||||Log Rank|||||||0.684
82410374|NCT00676143|164529777|SUPERIORITY_OR_OTHER|||||||0.383|||||||Log Rank|||||||0.383
82410375|NCT00676143|164529778|SUPERIORITY_OR_OTHER|||||||0.191|||||||Log Rank|||||||0.191
82410376|NCT00676143|164529779|SUPERIORITY_OR_OTHER|||||||0.478|||||||Log Rank|||||||0.478
82410377|NCT00676143|164529780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.462|TWO_SIDED|95.0|-0.41|0.13|||Mixed Models Analysis|||Change in DS total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.||0.13|-0.41|0.462
82532006|NCT04147260|164761476|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.151|TWO_SIDED|90.0|-0.06|0.38||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.38|-0.06|0.151
82576381|NCT03738475|164862341|SUPERIORITY|||||||0.289||||||Based on Wilcoxon Rank Sum test for the change from baseline between treatment groups.|Wilcoxon Rank Sum test|||||||0.2890
82410378|NCT00676143|164529782|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.086
82410379|NCT00676143|164529784|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.120
82410380|NCT00676143|164529785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.448|TWO_SIDED|95.0|-0.55|0.24|||Mixed Models Analysis|||Change in CDR-SOB total score was analyzed using a restricted maximum likelihood-based mixed model for repeated measures.||0.24|-0.55|0.448
82410381|NCT02054156|164529787|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0043|TWO_SIDED|95.0|0.37|0.83|||Cox Proportional Hazards Model||The estimate is adjusted for age strata (\>=6 months - 3 years, \>3 - 6 years, \>6 - 12 years, and \>12 - 18 years).|||0.83|0.37|0.0043
82410382|NCT02054156|164529788|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9915|TWO_SIDED|95.0|0.64|1.55|||Cox Proportional Hazards Model||The estimate is adjusted for age strata (\>=6 months - 3 years, \>3 - 6 years, \>6 - 12 years, and \>12 - 18 years).|||1.55|0.64|0.9915
82410383|NCT02054156|164529789|SUPERIORITY||Difference in % of Participants with SAE|-2.5||||0.7531|TWO_SIDED|95.0|-13.7|8.7|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson method without continuity correction.|||8.7|-13.7|0.7531
82410384|NCT02054156|164529789|SUPERIORITY||Difference in % of Participants with AE|4.4||||0.3593|TWO_SIDED|95.0|-3.5|12.6|||Fisher Exact||95% confidence interval calculated using the Newcombe-Wilson.|||12.6|-3.5|0.3593
82410385|NCT02054156|164529790|SUPERIORITY||Rate Ratio|0.86||||0.0004|TWO_SIDED|95.0|0.8|0.94|||Poisson Regression|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the Azithromycin group was 1267.73 and in the Placebo group was 1193.72.||0.94|0.80|0.0004
82410386|NCT02054156|164529790|SUPERIORITY||Rate Ratio|1.25||||0.2098|TWO_SIDED|95.0|0.88|1.78|||Poisson Regression|||Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months of all participants (not per participant) in the trial was as follows: in the Azithromycin group was 1267.73 and in the Placebo group was 1193.72.||1.78|0.88|0.2098
82410387|NCT03185208|164529831|SUPERIORITY||treatment x time interaction coefficient|0.69||||0.048|TWO_SIDED||||||Mixed Models Analysis|||||||0.048
82410388|NCT03185208|164529832|SUPERIORITY||treatment x time interaction coefficient|-0.08835||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
82646792|NCT04179474|165008245|EQUIVALENCE|"No effect of co-administration with erenumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with erenumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|103.86|||||TWO_SIDED|90.0|93.01|115.98|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Erenumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means||115.98|93.01|
82410389|NCT03185208|164529833|SUPERIORITY||treatment x time interaction coefficient|0.08738||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82410390|NCT03185208|164529835|SUPERIORITY||treatment x time interaction coefficient|0.012||||0.93|TWO_SIDED||||||Mixed Models Analysis|||||||0.93
82410391|NCT03185208|164529836|SUPERIORITY||treatment x time interaction coefficient|-351.8||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
82410392|NCT03185208|164529837|SUPERIORITY||treatment x time interaction coefficient|58.95||||0.087|TWO_SIDED||||||Mixed Models Analysis|||||||0.087
82410393|NCT02701634|164529848|SUPERIORITY|||||||0.99||||||P-value was calculated using the stratified Cochran-Mantel-Haenszel Chi-square test.|Chi-squared|||||||0.99
82410394|NCT02701634|164529853|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
82410395|NCT02701634|164529854|SUPERIORITY|||||||0.33||||||P-value was calculated using the two sample proportion t-test.|t-test, 2 sided|||||||0.33
82410396|NCT02701634|164529855|SUPERIORITY|||||||0.49||||||P-value was calculated using the two sample proportion t-test.|t-test, 2 sided|||||||0.49
82410397|NCT02701634|164529856|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8|TWO_SIDED|95.0|0.55|2.18||P-value was calculated using the log-rank test and stratified for disease severity and usage of calcineurin inhibitor or mycophenolate mofetil (MMF).|Log Rank||Hazard ratio was estimated from Cox regression model adjusted for treatment and stratified for disease severity and usage of calcineurin inhibitor or MMF|||2.18|0.55|0.800
82410398|NCT00961415|164529868|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.37|0.69|||Log Rank|||||0.69|0.37|<0.001
82410399|NCT00961415|164529869|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.23|TWO_SIDED|95.0|0.47|1.2|||Log Rank|||||1.20|0.47|0.230
82410400|NCT00961415|164529871|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.006|TWO_SIDED|95.0|0.34|0.84|||Log Rank|||||0.84|0.34|0.006
82410401|NCT00961415|164529872|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.38|0.7|||Log Rank|||||0.70|0.38|<0.001
82410402|NCT01311661|164529885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.152|0.229|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.229|0.152|<0.0001
82410403|NCT01311661|164529885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.111|0.189|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.189|0.111|<0.0001
82410404|NCT01311661|164529885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.19|0.266|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.266|0.190|<0.0001
82410405|NCT01311661|164529885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.17|0.247|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.247|0.170|<0.0001
82410406|NCT01311661|164529886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.15|0.229|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.229|0.150|<0.0001
82410407|NCT01311661|164529886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.121|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.199|0.121|<0.0001
82410408|NCT01311661|164529886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.175|0.253|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.253|0.175|<0.0001
82410409|NCT01311661|164529886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.181|0.258|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.258|0.181|<0.0001
82410410|NCT01311661|164529887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.153|0.238|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.238|0.153|<0.0001
82410411|NCT01311661|164529887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.102|0.187|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.187|0.102|<0.0001
82410412|NCT01311661|164529887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.2|0.285|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.285|0.200|<0.0001
82410413|NCT01311661|164529887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.156|0.241|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.241|0.156|<0.0001
82532007|NCT04147260|164761476|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.145||0.319|TWO_SIDED|90.0|-0.15|0.44||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.44|-0.15|0.319
82410414|NCT01311661|164529888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.138|0.228|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.228|0.138|<0.0001
82410415|NCT01311661|164529888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.108|0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.198|0.108|<0.0001
82410416|NCT01311661|164529888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.222|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.177|0.267|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.267|0.177|<0.0001
82410417|NCT01311661|164529888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.165|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.255|0.165|<0.0001
82410418|NCT01311661|164529889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.109|0.203|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.203|0.109|<0.0001
82410419|NCT01311661|164529889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.054|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.148|0.054|<0.0001
82410420|NCT01311661|164529889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.149|0.243|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.243|0.149|<0.0001
82410421|NCT01311661|164529889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.125|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.219|0.125|<0.0001
82410422|NCT01311661|164529890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.091|0.18|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.180|0.091|<0.0001
82410423|NCT01311661|164529890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.078|0.167|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.167|0.078|<0.0001
82410424|NCT01311661|164529890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.186|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.186|0.098|<0.0001
82410425|NCT01311661|164529890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.103|0.191|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.191|0.103|<0.0001
82410426|NCT01311661|164529891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.11|0.206|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.206|0.110|<0.0001
82410427|NCT01311661|164529891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.09|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.185|0.090|<0.0001
82410428|NCT01311661|164529891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.123|0.218|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.218|0.123|<0.0001
82410429|NCT01311661|164529891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.087|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.182|0.087|<0.0001
82410430|NCT01311661|164529892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.102|0.188|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.188|0.102|<0.0001
82410431|NCT01311661|164529892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.085|0.171|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.171|0.085|<0.0001
82410432|NCT01311661|164529892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.113|0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.198|0.113|<0.0001
82410433|NCT01311661|164529892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.098|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.182|0.098|<0.0001
82532008|NCT04147260|164761476|EQUIVALENCE|Two-sided 90% CI with an acceptance range of -0.4 to 0.4|Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|90.0|-0.04|0.42|||Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values||0.42|-0.04|
82532009|NCT04147260|164761476|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.112||0.246|TWO_SIDED|90.0|-0.09|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.09|0.246
82532010|NCT04147260|164761476|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.151||0.704|TWO_SIDED|90.0|-0.25|0.36||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||0.36|-0.25|0.704
82410434|NCT01311661|164529893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.084|0.187|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.187|0.084|<0.0001
82410435|NCT01311661|164529893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.073|0.176|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.073|<0.0001
82532011|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|4.929||0.692|TWO_SIDED|90.0|-11.92|7.99||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.99|-11.92|0.692
82532012|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|4.048||0.63|TWO_SIDED|90.0|-10.14|6.21||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||6.21|-10.14|0.630
82532013|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|5.482||1|TWO_SIDED|90.0|-11.07|11.07||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||11.07|-11.07|1.000
82532014|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|4.518||0.751|TWO_SIDED|90.0|-10.55|7.66||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.66|-10.55|0.751
82532015|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|3.894||0.669|TWO_SIDED|90.0|-6.17|9.52||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.52|-6.17|0.669
82646793|NCT04179474|165008246|EQUIVALENCE|"No effect of co-administration with galcanezumab on the PK of ubrogepant was concluded if the 90% CIs for the geometric mean ratios of ubrogepant PK parameters for test study intervention (ubrogepant in combination with galcanezumab) versus reference study intervention (ubrogepant alone) were within the limits of 80% to 125%."|Ratio of Geometric Mean Percentage|99.55|||||TWO_SIDED|90.0|82.27|120.45|||||Ratio of Geometric Mean Percentage=Ubrogepant in Combination with Galcanezumab/Ubrogepant Alone \* 100|A linear mixed-effects model with study intervention as fixed effect and participant as a random effect was used to determine the Geometric Means.||120.45|82.27|
82410436|NCT01311661|164529893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.093|0.195|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.195|0.093|<0.0001
82410437|NCT01311661|164529893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.075|0.177|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.177|0.075|<0.0001
82410438|NCT01311661|164529894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.028||0.0001||95.0|0.055|0.165|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.165|0.055|0.0001
82410439|NCT01311661|164529894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.028||0.001||95.0|0.037|0.147|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.147|0.037|0.0010
82410440|NCT01311661|164529894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.063|0.172|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.172|0.063|<0.0001
82410441|NCT01311661|164529894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.057|0.166|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.166|0.057|<0.0001
82446562|NCT01939366|164601212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.39||0.0564|TWO_SIDED|95.0|-1.5|0.02||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||0.02|-1.50|0.0564
82446563|NCT01939366|164601212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.41||0.0153|TWO_SIDED|95.0|-1.83|-0.2||Due to the exploratory character of this trial, no multiple testing adjustment for control of the false positive rate was applied.|Mixed Models Analysis|The analysis consisted of the contrasts (mixed model Wald tests) of individual cebranopadol doses versus placebo during Week 6 of Maintenance Phase.||The mixed model repeated measurement (MMRM) model included fixed effects of pooled sites, treatment, week, treatment-by-week interaction, baseline pain, and a subject-specific random effect. The model was based on the weekly average 24-hour pain intensity of the 2 weeks in the Titration Phase and 6 weeks in the Maintenance Phase. An unstructured covariance matrix was used to model the covariance structure, denominator degrees of freedom were estimated using the Kenward-Roger approximation.||-0.20|-1.83|0.0153
82446564|NCT00680797|164601213|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED|||||Comparison of pre- to post-intervention insulin levels between the groups receiving E only versus the group receiving no hormone replacement.|ANCOVA|||The major outcome variable being presented is changes in insulin levels. Changes in insulin levels were analyzed using an ANCOVA model that adjusted for baseline insulin and age.||||0.023
82446565|NCT00680797|164601213|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||Comparison in the change in insulin levels between the groups receiving E with or without T.|ANCOVA|||The major outcome variable being presented is changes in insulin levels. Changes in insulin levels were analyzed using an ANCOVA model that adjusted for baseline insulin and age.||||0.042
82446566|NCT01192412|164601253|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.77|1.35||||||We estimated that with a sample size of 514 per group, the study would have 80% power, at a two-tailed alpha level of 0.05, assuming primary outcome rates of 33% in the tight-control group and 25% in the less-tight-control group, a 10% rate of crossover, a 1% loss to follow-up, and two interim analyses, as calculated with the chi-square test with the use of East software (Cytel) and the Lan-DeMets spending function with O'Brien-Fleming-type boundaries for early stopping.||1.35|0.77|
82446567|NCT01192412|164601254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|||||TWO_SIDED|95.0|0.79|3.84||||||||3.84|0.79|
82410442|NCT01311661|164529895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.629|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.5|0.757|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.757|0.500|<0.0001
82410443|NCT01311661|164529895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.601|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.473|0.73|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.730|0.473|<0.0001
82410444|NCT01311661|164529895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.631|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.503|0.758|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.758|0.503|<0.0001
82410445|NCT01311661|164529895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.685|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|0.558|0.813|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.813|0.558|<0.0001
82410446|NCT01311661|164529896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.665|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.532|0.799|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.799|0.532|<0.0001
82410447|NCT01311661|164529896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.564|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.431|0.698|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.698|0.431|<0.0001
82410448|NCT01311661|164529896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.702|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.569|0.835|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.835|0.569|<0.0001
82410449|NCT01311661|164529896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.599|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.467|0.732|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.732|0.467|<0.0001
82410450|NCT01311661|164529897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.641|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.516|0.765|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.765|0.516|<0.0001
82446568|NCT00151476|164601255|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|14.49||||||95.0|3.48|301.64|||||Kaplan-Meier Estimate of Time to Event (months).|"Time to FAP-related surgical events (months); twenty-fifth (25th) percentile presented due to limited number of subjects.~Index date based on most recent colon and or rectum adenomatous polyps evaluation, most recent duodenal adenomatous polyps evaluation, and most recent desmoids tumors evaluation for Matched Control, Not Matched Celecoxib, and All Celecoxib Treated, respectively.~Only 13 matched pairs identified: p-values not computed in analysis of time-to-event endpoints"||301.64|3.48|
82446569|NCT00151476|164601255|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.06||||||95.0|3.48|11.76|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||11.76|3.48|
82410451|NCT01311661|164529897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.577|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.453|0.701|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.701|0.453|<0.0001
82410452|NCT01311661|164529897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.667|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.544|0.79|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.790|0.544|<0.0001
82410453|NCT01311661|164529897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.643|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.519|0.766|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.766|0.519|<0.0001
82410454|NCT01311661|164529898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.591|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.436|0.746|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.746|0.436|<0.0001
82410455|NCT01311661|164529898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.522|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.366|0.677|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.677|0.366|<0.0001
82410456|NCT01311661|164529898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.594|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.439|0.749|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.749|0.439|<0.0001
82410457|NCT01311661|164529898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.623|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|0.468|0.777|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.777|0.468|<0.0001
82410458|NCT01311661|164529899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.529|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.396|0.662|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||0.662|0.396|<0.0001
82410459|NCT01311661|164529899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.277|0.543|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.543|0.277|<0.0001
82410460|NCT01311661|164529899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.603|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.471|0.736|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||0.736|0.471|<0.0001
82410461|NCT01311661|164529899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.481|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.349|0.613|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.613|0.349|<0.0001
82410462|NCT01311661|164529900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.957|STANDARD_ERROR_OF_MEAN|3.18|<|0.0001||95.0|26.709|39.206|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||39.206|26.709|<0.0001
82410463|NCT01311661|164529900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.632|STANDARD_ERROR_OF_MEAN|3.167|<|0.0001||95.0|26.409|38.855|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||38.855|26.409|<0.0001
82410464|NCT01311661|164529900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.66|STANDARD_ERROR_OF_MEAN|3.161|<|0.0001||95.0|25.448|37.872|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||37.872|25.448|<0.0001
82410465|NCT01311661|164529900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.895|STANDARD_ERROR_OF_MEAN|3.161|<|0.0001||95.0|22.683|35.107|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||35.107|22.683|<0.0001
82410466|NCT01311661|164529901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.87|STANDARD_ERROR_OF_MEAN|3.046|<|0.0001||95.0|22.884|34.856|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||34.856|22.884|<0.0001
82410467|NCT01311661|164529901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.056|STANDARD_ERROR_OF_MEAN|3.034|<|0.0001||95.0|26.094|38.018|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||38.018|26.094|<0.0001
82410468|NCT01311661|164529901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.816|STANDARD_ERROR_OF_MEAN|3.028|<|0.0001||95.0|25.864|37.767|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||37.767|25.864|<0.0001
82410469|NCT01311661|164529901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.327|STANDARD_ERROR_OF_MEAN|3.028|<|0.0001||95.0|27.375|39.278|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||39.278|27.375|<0.0001
82410470|NCT01311661|164529902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.581|STANDARD_ERROR_OF_MEAN|0.346|<|0.0001||95.0|-2.262|-0.9|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.900|-2.262|<0.0001
82410471|NCT01311661|164529902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.345|<|0.0001||95.0|-2.104|-0.748|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.748|-2.104|<0.0001
82646794|NCT01083901|165008274|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANCOVA|Changes from baseline to 16 weeks were regressed on the baseline measurement.||The null hypothesis was that the changes in total body fat-free mass in response to resistance exercise training would not be different among the groups. The expected difference in fat-free mass between the Acetaminophen and Placebo groups was 1.8 +/- 1.0% with a 3.6 +/1 1.0% increase in fat-free mass in the Placebo group. The study was designed to achieve 96% power at the 0.05 level with 10 men in the acetaminophen and placebo groups.||||0.38
82410472|NCT01311661|164529902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.738|STANDARD_ERROR_OF_MEAN|0.344|<|0.0001||95.0|-2.415|-1.062|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-1.062|-2.415|<0.0001
82410473|NCT01311661|164529902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.689|STANDARD_ERROR_OF_MEAN|0.344||0.0458||95.0|-1.366|-0.013|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.013|-1.366|0.0458
82410474|NCT01311661|164529903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|173.391|STANDARD_ERROR_OF_MEAN|19.484|<|0.0001||95.0|135.099|211.682|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||211.682|135.099|<0.0001
82410475|NCT01311661|164529903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|155.097|STANDARD_ERROR_OF_MEAN|19.406|<|0.0001||95.0|116.961|193.234|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||193.234|116.961|<0.0001
82410476|NCT01311661|164529903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|149.268|STANDARD_ERROR_OF_MEAN|19.369|<|0.0001||95.0|111.204|187.333|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||187.333|111.204|<0.0001
82410477|NCT01311661|164529903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|150.441|STANDARD_ERROR_OF_MEAN|19.369|<|0.0001||95.0|112.377|188.505|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||188.505|112.377|<0.0001
82410478|NCT01311661|164529904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.251|STANDARD_ERROR_OF_MEAN|18.997|<|0.0001||95.0|104.916|179.586|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||179.586|104.916|<0.0001
82410479|NCT01311661|164529904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|132.138|STANDARD_ERROR_OF_MEAN|18.92|<|0.0001||95.0|94.954|169.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||169.322|94.954|<0.0001
82410480|NCT01311661|164529904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|142.136|STANDARD_ERROR_OF_MEAN|18.885|<|0.0001||95.0|105.021|179.251|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||179.251|105.021|<0.0001
82410481|NCT01311661|164529904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|157.306|STANDARD_ERROR_OF_MEAN|18.885|<|0.0001||95.0|120.192|194.42|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||194.420|120.192|<0.0001
82410482|NCT01311661|164529905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.554|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001||95.0|-0.78|-0.329|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.329|-0.780|<0.0001
82410483|NCT01311661|164529905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.637|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.862|-0.412|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.412|-0.862|<0.0001
82410484|NCT01311661|164529905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.588|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.813|-0.364|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-0.364|-0.813|<0.0001
82410485|NCT01311661|164529905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.546|STANDARD_ERROR_OF_MEAN|0.114|<|0.0001||95.0|-0.77|-0.322|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.322|-0.770|<0.0001
82410486|NCT01311661|164529910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.461|-0.253|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2.5 mcg bid minus Placebo|||-0.253|-0.461|<0.0001
82410487|NCT01311661|164529910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.296|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.4|-0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.192|-0.400|<0.0001
82410488|NCT01311661|164529910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.405|-0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg bid minus Placebo|||-0.198|-0.405|<0.0001
82410489|NCT01311661|164529910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.302|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001||95.0|-0.405|-0.198|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.198|-0.405|<0.0001
82410490|NCT00284856|164529912|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.92||||||95.0|0.28|11.56|||||Estimated Value is difference in least squares mean (montelukast - placebo)|||11.56|0.28|
82410491|NCT00284856|164529912|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|10.14||||||95.0|4.5|15.78|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||15.78|4.50|
82410492|NCT00284856|164529912|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.22||||||95.0|-9.83|1.38|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||1.38|-9.83|
82410493|NCT00284856|164529913|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.15||||||95.0|-0.25|-0.05|||||Estimated value is difference in least squares mean (montelukast - placebo)|||-0.05|-0.25|
82410494|NCT00284856|164529913|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.2||||||95.0|-0.3|-0.1|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||-0.10|-0.30|
82410495|NCT00284856|164529913|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.05||||||95.0|-0.05|0.15|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||0.15|-0.05|
82410496|NCT00284856|164529914|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|5.09||||||95.0|-1.27|11.45|||||Estimated value is difference in least squares mean (montelukast - placebo)|||11.45|-1.27|
82410497|NCT00284856|164529914|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|11.21||||||95.0|4.85|17.58|||||Estimated value is difference in least squares mean (fluticasone - placebo)|||17.58|4.85|
82410498|NCT00284856|164529914|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-6.13||||||95.0|-12.46|0.2|||||Estimated value is difference in least squares mean (montelukast - fluticasone)|||0.20|-12.46|
82410499|NCT02855268|164529960|SUPERIORITY||Least square mean difference|-0.22|STANDARD_ERROR_OF_MEAN|3.27||0.9472|TWO_SIDED|95.0|-6.92|6.48||Threshold of significance was 1-sided \<0.025.|Linear mixed effect model|||Annualized rate of change in eGFR during the placebo-controlled treatment period was compared between lademirsen and placebo using a random coefficient linear mixed effect model which included time as a continuous variable.||6.48|-6.92|0.9472
82410500|NCT05033041|164529987|EQUIVALENCE|Equivalence is based on an equivalence hypothesis of -17mL \<difference in differences \< 17mL.||||||0.001|||||||t-test, 1 sided|||Comparison of the means using two one-sided t tests (TOST)||||.001
82410501|NCT00914069|164530011|SUPERIORITY_OR_OTHER|||||||0.05||||||Threshold for significance was p less than or equal to 0.05 by a one-tailed Fisher Exact Test.|Fisher Exact|||||||0.05
82410502|NCT00914069|164530014|SUPERIORITY_OR_OTHER|||||||0.8|||||||Fisher Exact|||||||0.8
82410503|NCT00402831|164530016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.5|2.6||||||Measles difference||2.6|-2.5|
82410504|NCT00402831|164530016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-3.0|3.3||||||Mumps difference||3.3|-3.0|
82410505|NCT00402831|164530016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.3|4.1||||||Rubella difference||4.1|-2.3|
82410506|NCT00402831|164530016|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was declared when the lower bounds of the 95% confidence interval (CI) of the group difference in response rates was greater than -10%.|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-2.1|4.1||||||Varicella||4.1|-2.1|
82410507|NCT04773028|164530029|OTHER||Mean Difference (Final Values)|-93054.0|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82410508|NCT03043053|164530035|OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-1.4|1.3||||||||1.3|-1.4|
82410509|NCT03043053|164530036|OTHER||Mean Difference (Final Values)|-29.7|||||TWO_SIDED|95.0|-141.9|82.6|||||Controlled for lean mass. Reported values are outputted by STATA.|||82.6|-141.9|
82410510|NCT03043053|164530037|OTHER||Mean Difference (Final Values)|196.0|||||TWO_SIDED|95.0|-1036.0|1428.0||||||||1428|-1036|
82410511|NCT03043053|164530038|OTHER||Mean Difference (Final Values)|-152.0|||||TWO_SIDED|95.0|-302.3|-1.7||||||||-1.7|-302.3|
82410512|NCT02139540|164530074|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||The primary outcome (HDRS-21) was analyzed with a repeated-measures mixed effects linear model using restricted maximum likelihood estimation. To adjust for the observed carryover effect, the model included a randomization group term and a three-way interaction (treatment × time × randomization group)||||<0.05
82410513|NCT02139540|164530075|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82410514|NCT03699748|164530091|OTHER||Mean Difference (Net)|10.92|||<|0.001|TWO_SIDED|95.0|7.27|14.58|||Type III F test|||||14.58|7.27|<0.001
82410515|NCT03699748|164530094|OTHER||Effect Estimate for 4 Months|12.88|||||TWO_SIDED||||||||12.88 (9.49 - 16.28)||Effect estimates were expected mean differences in Patient Activation Measure scores between groups from baseline. Effect estimates were estimated using generalized estimating equations (GEE) models as a function of treatment group, categorical time (baseline, 4 months and 12 months), and an interaction term between treatment group and time with an exchangeable correlation clustered within person. The effect estimate column shows the difference between change in the intervention group from baseline and the change in the control group from baseline.|||
82410516|NCT03699748|164530095|OTHER||Effect Estimate for 12 Months|20.65|||||TWO_SIDED||||||||20.65 (6.97 - 24.32)||Effect estimates were expected mean differences in Patient Activation Measure scores between groups from baseline. Effect estimates were estimated using generalized estimating equations (GEE) models as a function of treatment group, categorical time (baseline, 4 months and 12 months), and an interaction term between treatment group and time with an exchangeable correlation clustered within person.|||
82410517|NCT03699748|164530096|OTHER||Median Difference (Net)|11.05||||0.001|TWO_SIDED|95.0|7.09|15.0|||Type III F-test|||||15.00|7.09|0.001
82410518|NCT03699748|164530098|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED||||||||0.91 (0.40-2.09)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
82410519|NCT03699748|164530099|OTHER||Odds Ratio (OR)|0.27|||||TWO_SIDED||||||||0.27 (0.03 - 2.85)||Odds Ratios for any ED Use were estimated using logistic regression models.|||
82410520|NCT03699748|164530100|OTHER||Odds Ratio (OR)|0.38|||||TWO_SIDED||||||||0.38 (0.18-0.76)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
82410521|NCT03699748|164530101|OTHER||Odds Ratio (OR)|0.42|||||TWO_SIDED||||||||0.42 (0.22-0.79)||Odds Ratios for any emergency room use and any hospitalization use were estimated using logistic regression models.|||
82410522|NCT03699748|164530102|OTHER||Odds Ratio (OR)|0.38|||||TWO_SIDED||||||||0.38 (0.08-1.75)||Odds Ratios for Hospitalization Use were estimated using logistic regression models.|||
82446570|NCT00151476|164601255|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.52||||||95.0|3.48|14.49|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||14.49|3.48|
82532016|NCT04147260|164761477|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|5.123||0.546|TWO_SIDED|90.0|-13.44|7.21||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||7.21|-13.44|0.546
82532017|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-12.45|STANDARD_ERROR_OF_MEAN|11.385||0.281|TWO_SIDED|90.0|-35.44|10.54||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||10.54|-35.44|0.281
82532018|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-16.14|STANDARD_ERROR_OF_MEAN|9.35||0.092|TWO_SIDED|90.0|-35.02|2.74||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||2.74|-35.02|0.092
82532019|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|3.69|STANDARD_ERROR_OF_MEAN|12.662||0.772|TWO_SIDED|90.0|-21.88|29.27||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||29.27|-21.88|0.772
82576382|NCT01370655|164862375|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis supported if the upper bound of the two-sided 80% confidence interval (CI; equivalent to a one-sided upper 90% CI) is~≤0 mmHg"|Difference in Least square (LS) means|-7.4|||||TWO_SIDED|80.0|-10.6|-4.1|||||MK-7145 6 mg LS mean minus Placebo LS mean|Type I error rate of alpha=0.10 (1-sided) is specified for testing of the hypothesis.||-4.1|-10.6|
82576383|NCT01370655|164862375|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis supported if the upper bound of the two-sided 90% CI (equivalent to a one-sided upper 95% CI) for the difference ≤ 3.8 mmHg.|Difference in LS means|-5.4|||||TWO_SIDED|90.0|-9.2|-1.6|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|Type I error rate of alpha=0.05 (1-sided) is specified for testing of the hypothesis.||-1.6|-9.2|
82410523|NCT03699748|164530103|OTHER||Odds Ratio, log|5.86|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
82410524|NCT03699748|164530104|OTHER||Odds Ratio (OR)|4.09|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
82446571|NCT00151476|164601256|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|5.98||||||95.0|0.0|33.77|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||33.77|0.00|
82410525|NCT03699748|164530105|OTHER||Odds Ratio (OR)|6.82|||||TWO_SIDED||||||||6.82 (2.46-18.93)||Odds Ratios for Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months post-enrollment with logistic regression.|||
82410526|NCT03699748|164530106|OTHER||Odds Ratio (OR)|3.62|||||TWO_SIDED||||||||3.62 (1.73-7.60)||Odds Ratios for Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments at 12-months post-enrollment with logistic regression.|||
82410527|NCT03699748|164530107|OTHER||Odds Ratio, log|8.56|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments 4-months and 12-months post-enrollment with logistic regression.|||||
82410528|NCT03699748|164530108|OTHER||Odds Ratio, log|19.55|||||TWO_SIDED||||||||Odds Ratios for Goals of Care Documentation, Advance Directive Documentation, and Physician Order for Life Sustaining Treatment Documentation were estimated based on assessments at 12-months post-enrollment with logistic regression.|||||
82410529|NCT03699748|164530109|OTHER||Effect Estimate|0.65|||||TWO_SIDED||||||||0.65 (0.44-0.98)||Proportional change in total health care costs are expressed as referent to the control group and were modeled using a generalized linear model with gamma link-log function to account for skewed cost data after adjustment for length of follow-up.|||
82410530|NCT03699748|164530110|OTHER||Effect Estimate|0.57|||||TWO_SIDED||||||||0.57 (0.28 - 1.18)||Proportional change in total health care costs are expressed as referent to the control group and were modeled using a generalized linear model with gamma link-log function to account for skewed cost data.|||
82446572|NCT00151476|164601256|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|0.0|33.77|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||33.77|0.00|
82532020|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-8.21|STANDARD_ERROR_OF_MEAN|13.255||0.539|TWO_SIDED|90.0|-34.93|18.5||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||18.50|-34.93|0.539
82532021|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-4.71|STANDARD_ERROR_OF_MEAN|11.424||0.682|TWO_SIDED|90.0|-27.74|18.31||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||18.31|-27.74|0.682
82576384|NCT01370655|164862375|SUPERIORITY_OR_OTHER||Difference in LS means|-4.8|||||TWO_SIDED|90.0|-9.0|-0.5|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-0.5|-9.0|
82576385|NCT01370655|164862375|SUPERIORITY_OR_OTHER||Difference in LS Means|-6.7|||||TWO_SIDED|90.0|-11.2|-2.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||-2.2|-11.2|
82410531|NCT03699748|164530111|OTHER||Odds Ratio (OR)|6.82|||||TWO_SIDED||||||||6.82 (2.46-18.93)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
82410532|NCT03699748|164530112|OTHER||Odds Ratio (OR)|3.62|||||TWO_SIDED||||||||3.62 (1.73-7.60)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
82532022|NCT04147260|164761478|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|15.03||0.817|TWO_SIDED|90.0|-33.79|26.79||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||26.79|-33.79|0.817
82532023|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|5.327||0.891|TWO_SIDED|90.0|-11.49|10.02||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||10.02|-11.49|0.891
82532024|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.59|STANDARD_ERROR_OF_MEAN|4.375||0.417|TWO_SIDED|90.0|-12.42|5.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.25|-12.42|0.417
82532025|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.85|STANDARD_ERROR_OF_MEAN|5.925||0.633|TWO_SIDED|90.0|-9.11|14.82||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.82|-9.11|0.633
82532026|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|6.79|STANDARD_ERROR_OF_MEAN|4.384||0.129|TWO_SIDED|90.0|-2.05|15.62||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||15.62|-2.05|0.129
82532027|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.29|STANDARD_ERROR_OF_MEAN|3.778||0.548|TWO_SIDED|90.0|-5.33|9.9||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.90|-5.33|0.548
82576386|NCT01370655|164862375|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.9|||||TWO_SIDED|90.0|-6.2|2.3|||||HCTZ 25 mg LS mean minus Placebo LS mean|||2.3|-6.2|
82576387|NCT01370655|164862376|SUPERIORITY_OR_OTHER||Difference in LS means|-3.2|||||TWO_SIDED|90.0|-6.1|-0.3|||||MK-7145 6 mg LS mean minus Placebo LS mean|||-0.3|-6.1|
82410533|NCT03699748|164530113|OTHER||Effect Estimate|5.71|||||TWO_SIDED||||||||5.71 (1.56-20.93)||Odds Ratios for any ED Use and any Palliative Care were estimated using logistic regression models. Incidence Rate Ratios (IRR) were estimated using Poisson models. All ratios are expressed as referent to the control group.|||
82410534|NCT03699748|164530114|OTHER||Odds Ratio (OR)|4.33|||||TWO_SIDED||||||||4.33 (0.89-21.08)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments 4-months and 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
82532028|NCT04147260|164761479|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|4.97||0.37|TWO_SIDED|90.0|-5.51|14.52||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.52|-5.51|0.370
82532029|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|10.379||0.375|TWO_SIDED|90.0|-30.26|11.66||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||11.66|-30.26|0.375
82532030|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-11.49|STANDARD_ERROR_OF_MEAN|8.524||0.185|TWO_SIDED|90.0|-28.7|5.73||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.73|-28.70|0.185
82532031|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|2.19|STANDARD_ERROR_OF_MEAN|11.544||0.851|TWO_SIDED|90.0|-21.12|25.5||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||25.50|-21.12|0.851
82410535|NCT03699748|164530115|OTHER||Odds Ratio (OR)|2.76|||||TWO_SIDED||||||||2.76 (1.01-7.55)||Odds Ratios for palliative care receipt and hospice receipt were estimated based on assessments at 12-months post-enrollment compared with baseline (time of enrollment) using logistic regression.|||
82410536|NCT03699748|164530116|OTHER||Effect Estimate|5.71|||||TWO_SIDED||||||||5.71 (1.56-20.93)||Odds Ratios for any ED Use and any Hospice Receipt were estimated using logistic regression models. Incidence Rate Ratios (IRR) were estimated using Poisson models. All ratios are expressed as referent to the control group.|||
82410537|NCT02431299|164530186|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||Whether there were significant changes in the IMRS baseline scores to IMRS follow up scores.|t-test, 2 sided|t = 2.78, df = 182||||||<0.01
82410538|NCT02431299|164530187|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Regression, Linear|||Hypothesized that higher levels of IMR competence would predict higher IMRS outcomes.||||<0.05
82576388|NCT01370655|164862376|SUPERIORITY_OR_OTHER||Difference in LS means|-2.9|||||TWO_SIDED|90.0|-5.5|-0.2|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||-0.2|-5.5|
82576389|NCT01370655|164862376|SUPERIORITY_OR_OTHER||Difference in LS means|-3.0|||||TWO_SIDED|90.0|-6.0|-0.1|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-0.1|-6.0|
82576390|NCT01370655|164862376|SUPERIORITY_OR_OTHER||Difference in LS means|-3.4|||||TWO_SIDED|90.0|-6.5|-0.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||-0.2|-6.5|
82410539|NCT03880474|164530195|OTHER||Relative Risk|1.52||||0.1146|TWO_SIDED|95.0|0.9|2.55|||Log Binominal Model|||||2.55|0.90|0.1146
82410540|NCT03880474|164530195|OTHER||Relative Risk|1.52||||0.1146|TWO_SIDED|95.0|0.9|2.55|||Poisson Model with Robust Variance|||||2.55|0.90|0.1146
82410541|NCT03880474|164530196|OTHER||Relative Risk|1.0||||1|TWO_SIDED|95.0|0.86|1.15|||Log Binomial Model|||The Analysis concerns the Incidence of Influenza-like Illness (ILI)||1.15|0.86|1.0000
82532032|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-26.64|STANDARD_ERROR_OF_MEAN|9.405||0.007|TWO_SIDED|90.0|-45.59|-7.69||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-7.69|-45.59|0.007
82410542|NCT03880474|164530196|OTHER||Relative Risk|1.0||||0.9799|TWO_SIDED|95.0|0.86|1.15|||Poisson Model with Robust Variance|||The Analysis concerns the Incidence of Influenza-like Illness (ILI)||1.15|0.86|0.9799
82410543|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-287.1||||0.3284|TWO_SIDED|95.0|-872.75|298.59|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (HI) at Day 28||298.59|-872.75|0.3284
82410544|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-13.39||||0.8468|TWO_SIDED|95.0|-152.26|125.47|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (HI) at Week26||125.47|-152.26|0.8468
82410545|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-465.7||||0.5087|TWO_SIDED|95.0|-1875.21|943.75|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (MN) at Day 28||943.75|-1875.21|0.5087
82410546|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-83.68||||0.7509|TWO_SIDED|95.0|-611.67|444.32|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H3N2 (MN) at Week 26||444.32|-611.67|0.7509
82410547|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-81.17||||0.3398|TWO_SIDED|95.0|-250.72|88.39|||ANOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H1N1pdm at Day 28||88.39|-250.72|0.3398
82410548|NCT03880474|164530198|OTHER||Least Squares Mean Difference|26.15||||0.4154|TWO_SIDED|95.0|-37.95|90.26|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza A/H1N1pdm at Week 26||90.26|-37.95|0.4154
82410549|NCT03880474|164530198|OTHER||Least Squares Mean Difference|22.84||||0.7193|TWO_SIDED|95.0|-104.5|150.18|||ANCOVA|||Titers of neutralizing antibodies against Influenza B/ Victoria at Day 28||150.18|-104.50|0.7193
82410550|NCT03880474|164530198|OTHER||Least Squares Mean Difference|52.38||||0.1496|TWO_SIDED|95.0|-19.59|124.35|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/ Victoria at Week 26||124.35|-19.59|0.1496
82410551|NCT03880474|164530198|OTHER||Least Squares Mean Difference|-16.76||||0.9044|TWO_SIDED|95.0|-296.57|263.06|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/Yamagata at Day 28||263.06|-296.57|0.9044
82410552|NCT03880474|164530198|OTHER||Least Squares Mean Difference|38.64||||0.4198|TWO_SIDED|95.0|-56.97|134.24|||ANCOVA|||Titers of influenza-specific neutralizing antibodies against Influenza B/Yamagata at Week 26||134.24|-56.97|0.4198
82532033|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-15.01|STANDARD_ERROR_OF_MEAN|8.106||0.071|TWO_SIDED|90.0|-31.34|1.33||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||1.33|-31.34|0.071
82410553|NCT03880474|164530199|OTHER||Hazard Ratio (HR)|1.08||||0.4159|TWO_SIDED|95.0|0.9|1.28|||Regression, Cox|||||1.28|0.90|0.4159
82410554|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.99||||0.955|TWO_SIDED|95.0|0.83|1.19|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Feeling Hot (AUC)||1.19|0.83|0.9550
82410555|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.0||||0.8933|TWO_SIDED|95.0|1.0|1.0|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Temperature (AUC)||1|1|0.8933
82410556|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.87||||0.2156|TWO_SIDED|95.0|0.7|1.09|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Cough (AUC)||1.09|0.7|0.2156
82410557|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.88||||0.2216|TWO_SIDED|95.0|0.71|1.1|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Sore Throat AUC||1.10|0.71|0.2216
82410558|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.87||||0.2306|TWO_SIDED|95.0|0.69|1.09|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Blocked Nose AUC||1.09|0.69|0.2306
82410559|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|0.99||||0.8038|TWO_SIDED|95.0|0.97|1.13|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Chest Pain AUC||1.13|0.97|0.8038
82410560|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.01||||0.9319|TWO_SIDED|95.0|0.84|1.21|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Muscle Pain AUC||1.21|0.84|0.9319
82410561|NCT03880474|164530200|OTHER||Geometric Mean Ratio (Active vs Placebo)|1.01||||0.8399|TWO_SIDED|95.0|0.86|1.19|||ANOVA|||Time Weight Area Under the Curve (AUC) for Symptoms of Influenza - Symptom: Shortness of Breath AUC||1.19|0.86|0.8399
82410562|NCT03880474|164530201|OTHER||Least Squares Mean Difference|743.78||||0|TWO_SIDED|95.0|443.71|1043.84|||ANCOVA|||Statistical analysis was performed for Total(NP+M) (SFU/10\^6 PBMC) at Day 28 Nucleoprotein = NP, matrix1 = M1||1043.84|443.71|0
82410563|NCT03880474|164530201|OTHER||Least Squares Mean Difference|177.1||||0.0673|TWO_SIDED|95.0|-13.14|367.33|||ANCOVA|||Statistical analysis was performed for Total(NP+M) (SFU/10\^6 PBMC) at Week 26 Nucleoprotein = NP, matrix1 = M1||367.33|-13.14|0.0673
82410564|NCT03074500|164530242|SUPERIORITY|||||||0.643|||||||Kruskal-Wallis|||Comparison of baseline values||||0.643
82410565|NCT03074500|164530242|SUPERIORITY|||||||0.018|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.018
82410566|NCT03074500|164530242|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Comparison of 4 week After Treatment Values||||0.027
82410567|NCT03074500|164530242|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.677
82410568|NCT03074500|164530242|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.677
82410569|NCT03074500|164530242|SUPERIORITY|||||||0.326||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of baseline values||||0.326
82410570|NCT03074500|164530242|SUPERIORITY|||||||0.019||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.019
82646795|NCT01083901|165008275|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|The change in fat mass was regressed on the baseline measure.||||||0.23
82576391|NCT01370655|164862376|SUPERIORITY_OR_OTHER||Difference in LS means|-0.3|||||TWO_SIDED|90.0|-3.3|2.7|||||HCTZ 25 mg LS mean minus Placebo LS mean|||2.7|-3.3|
82646796|NCT01083901|165008276|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANCOVA|Change in strength was regressed on baseline measures.||||||0.30
82646797|NCT01083901|165008277|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANCOVA|Changes in strength were regressed on the baseline measure.||||||0.37
82410571|NCT03074500|164530242|SUPERIORITY|||||||0.014||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.014
82410572|NCT03074500|164530242|SUPERIORITY|||||||0.427||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.427
82410573|NCT03074500|164530242|SUPERIORITY|||||||0.023||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.023
82410574|NCT03074500|164530242|SUPERIORITY|||||||0.021||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.021
82410575|NCT03074500|164530242|SUPERIORITY|||||||0.545||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Value||||0.545
82410576|NCT03074500|164530242|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
82410577|NCT03074500|164530242|SUPERIORITY|||||||0.67|||||||Friedman's two-way analysis of variance|||||||0.670
82410578|NCT03074500|164530242|SUPERIORITY|||||||0.192|||||||Friedman's two-way analysis of variance|||||||0.192
82410579|NCT03074500|164530243|SUPERIORITY|||||||0.633|||||||Kruskal-Wallis|||Comparison of Before Treatment Values||||0.633
82410580|NCT03074500|164530243|SUPERIORITY|||||||0.282|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.282
82410581|NCT03074500|164530243|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.015
82410582|NCT03074500|164530243|SUPERIORITY|||||||0.677||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.677
82410583|NCT03074500|164530243|SUPERIORITY|||||||0.344||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.344
82410584|NCT03074500|164530243|SUPERIORITY|||||||0.596||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Before Treatment Values||||0.596
82410585|NCT03074500|164530243|SUPERIORITY|||||||0.161||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.161
82410586|NCT03074500|164530243|SUPERIORITY|||||||0.257||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.257
82410587|NCT03074500|164530243|SUPERIORITY|||||||0.449||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.449
82410588|NCT03074500|164530243|SUPERIORITY|||||||0.013||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.013
82410589|NCT03074500|164530243|SUPERIORITY|||||||0.019||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.019
82410590|NCT03074500|164530243|SUPERIORITY|||||||0.325||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.325
82410591|NCT03074500|164530243|SUPERIORITY|||||||0.003|||||||Friedman's two-way analysis of variance|||||||0.003
82410592|NCT03074500|164530243|SUPERIORITY|||||||0.323|||||||Friedman's two-way analysis of variance|||||||0.323
82410593|NCT03074500|164530243|SUPERIORITY|||||||0.641|||||||Friedman's two-way analysis of variance|||||||0.641
82410594|NCT03074500|164530244|SUPERIORITY|||||||0.715|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.715
82410595|NCT03074500|164530244|SUPERIORITY|||||||0.227|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.227
82410596|NCT03074500|164530244|SUPERIORITY|||||||0.012|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.012
82410597|NCT03074500|164530244|SUPERIORITY|||||||0.907||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.907
82410598|NCT03074500|164530244|SUPERIORITY|||||||0.482||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.482
82410599|NCT03074500|164530244|SUPERIORITY|||||||0.485||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.485
82410600|NCT03074500|164530244|SUPERIORITY|||||||0.129||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.129
82410601|NCT03074500|164530244|SUPERIORITY|||||||0.12||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.12
82410602|NCT03074500|164530244|SUPERIORITY|||||||0.935||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.935
82410603|NCT03074500|164530244|SUPERIORITY|||||||0.002||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.002
82410604|NCT03074500|164530244|SUPERIORITY|||||||0.036||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.036
82410605|NCT03074500|164530244|SUPERIORITY|||||||0.056||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.056
82576392|NCT01370655|164862377|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis supported if the lower bound of the two-sided 80% CI (equivalent to a one-sided lower 90% CI) is \> 89.0 mmol/day.|Difference in LS means|76.5|||||TWO_SIDED|80.0|49.2|103.8|||||MK-7145 6 mg LS mean minus Placebo LS mean|Type I error rate of alpha=0.10 (1-sided) is specified for testing of the hypothesis.||103.8|49.2|
82410606|NCT03074500|164530244|SUPERIORITY|||||||0.016|||||||Friedman's two-way analysis of variance|||||||0.016
82410607|NCT03074500|164530244|SUPERIORITY|||||||0.618|||||||Friedman's two-way analysis of variance|||||||0.618
82410608|NCT03074500|164530244|SUPERIORITY|||||||0.48|||||||Friedman's two-way analysis of variance|||||||0.48
82410609|NCT03074500|164530244|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.034
82410610|NCT03074500|164530244|SUPERIORITY|||||||0.041|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.041
82410611|NCT03074500|164530244|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||1
82410612|NCT03074500|164530245|SUPERIORITY|||||||0.103|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.103
82410613|NCT03074500|164530245|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.002
82410614|NCT03074500|164530245|SUPERIORITY|||||||0.008|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.008
82410615|NCT03074500|164530245|SUPERIORITY|||||||0.76||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.76
82576393|NCT01370655|164862377|SUPERIORITY_OR_OTHER||Difference in LS means|-63.7|||||TWO_SIDED|90.0|-100.8|-26.7|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||-26.7|-100.8|
82410616|NCT03074500|164530245|SUPERIORITY|||||||1||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||1
82410617|NCT03074500|164530245|SUPERIORITY|||||||0.056||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.056
82410618|NCT03074500|164530245|SUPERIORITY|||||||0.002||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.002
82410619|NCT03074500|164530245|SUPERIORITY|||||||0.12||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.12
82410620|NCT03074500|164530245|SUPERIORITY|||||||0.117||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.117
82410621|NCT03074500|164530245|SUPERIORITY|||||||0.006||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.006
82410622|NCT03074500|164530245|SUPERIORITY|||||||0.013||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.013
82410623|NCT03074500|164530245|SUPERIORITY|||||||0.487||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.487
82410624|NCT03074500|164530245|SUPERIORITY|||||||0.002|||||||Friedman's two-way analysis of variance|||||||0.002
82410625|NCT03074500|164530245|SUPERIORITY|||||||0.102|||||||Friedman's two-way analysis of variance|||||||0.102
82410626|NCT03074500|164530245|SUPERIORITY|||||||0.165|||||||Friedman's two-way analysis of variance|||||||0.165
82410627|NCT03074500|164530245|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.007
82410628|NCT03074500|164530245|SUPERIORITY|||||||0.028|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.028
82410629|NCT03074500|164530245|SUPERIORITY|||||||0.83|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.83
82410630|NCT03074500|164530246|SUPERIORITY|||||||0.837|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.837
82410631|NCT03074500|164530246|SUPERIORITY|||||||0.215|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.215
82410632|NCT03074500|164530246|SUPERIORITY|||||||0.078|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.078
82410633|NCT03074500|164530246|SUPERIORITY|||||||0.699||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.699
82410634|NCT03074500|164530246|SUPERIORITY|||||||0.846||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.846
82410635|NCT03074500|164530246|SUPERIORITY|||||||0.56||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.56
82410636|NCT03074500|164530246|SUPERIORITY|||||||0.087||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.087
82410637|NCT03074500|164530246|SUPERIORITY|||||||0.183||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.183
82410638|NCT03074500|164530246|SUPERIORITY|||||||0.719||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.719
82410639|NCT03074500|164530246|SUPERIORITY|||||||0.023||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.023
82410640|NCT03074500|164530246|SUPERIORITY|||||||0.196||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.196
82410641|NCT03074500|164530246|SUPERIORITY|||||||0.318||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.318
82410642|NCT03074500|164530246|SUPERIORITY|||||||0.001|||||||Friedman's two-way analysis of variance|||||||0.001
82410643|NCT03074500|164530246|SUPERIORITY|||||||0.483|||||||Friedman's two-way analysis of variance|||||||0.483
82410644|NCT03074500|164530246|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
82410645|NCT03074500|164530247|SUPERIORITY|||||||0.897|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.897
82576394|NCT01370655|164862377|SUPERIORITY_OR_OTHER||Difference in LS means|-18.1|||||TWO_SIDED|90.0|-49.1|12.9|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||12.9|-49.1|
82576395|NCT01370655|164862377|SUPERIORITY_OR_OTHER||Difference in LS means|30.9|||||TWO_SIDED|90.0|-7.0|68.7|||||MK-7145 3 mg LS mean minus Placebo LS mean|||68.7|-7.0|
82410646|NCT03074500|164530247|SUPERIORITY|||||||0.325|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.325
82410647|NCT03074500|164530247|SUPERIORITY|||||||0.172|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.172
82410648|NCT03074500|164530247|SUPERIORITY|||||||0.622||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.622
82410649|NCT03074500|164530247|SUPERIORITY|||||||0.909||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.909
82410650|NCT03074500|164530247|SUPERIORITY|||||||0.79||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.79
82410651|NCT03074500|164530247|SUPERIORITY|||||||0.24||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.24
82410652|NCT03074500|164530247|SUPERIORITY|||||||0.161||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.161
82576396|NCT01370655|164862377|SUPERIORITY_OR_OTHER||Difference in LS means|94.6|||||TWO_SIDED|90.0|58.8|130.4|||||HCTZ 25 mg LS mean minus Placebo LS mean|||130.4|58.8|
82410653|NCT03074500|164530247|SUPERIORITY|||||||0.909||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.909
82410654|NCT03074500|164530247|SUPERIORITY|||||||0.255||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.255
82410655|NCT03074500|164530247|SUPERIORITY|||||||0.058||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.058
82410656|NCT03074500|164530247|SUPERIORITY|||||||0.569||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.569
82410657|NCT03074500|164530247|SUPERIORITY|||||||0.007|||||||Friedman's two-way analysis of variance|||||||0.007
82410658|NCT03074500|164530247|SUPERIORITY|||||||0.614|||||||Friedman's two-way analysis of variance|||||||0.614
82410659|NCT03074500|164530247|SUPERIORITY|||||||0.072|||||||Friedman's two-way analysis of variance|||||||0.072
82410660|NCT03074500|164530247|SUPERIORITY|||||||0.447|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.447
82410661|NCT03074500|164530247|SUPERIORITY|||||||0.084|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.084
82410662|NCT03074500|164530247|SUPERIORITY|||||||0.235|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.235
82410663|NCT03074500|164530248|SUPERIORITY|||||||0.958|||||||Kruskal-Wallis|||Comparison of Baseline Values||||0.958
82410664|NCT03074500|164530248|SUPERIORITY|||||||0.597|||||||Kruskal-Wallis|||Comparison of After Treatment Values||||0.597
82410665|NCT03074500|164530248|SUPERIORITY|||||||0.518|||||||Kruskal-Wallis|||Comparison of 4 week After Treatment Values||||0.518
82410666|NCT03074500|164530248|SUPERIORITY|||||||0.88||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.88
82410667|NCT03074500|164530248|SUPERIORITY|||||||0.733||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||0.733
82410668|NCT03074500|164530248|SUPERIORITY|||||||1||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of Baseline Values||||1
82410669|NCT03074500|164530248|SUPERIORITY|||||||0.404||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.404
82410670|NCT03074500|164530248|SUPERIORITY|||||||0.97||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.97
82410671|NCT03074500|164530248|SUPERIORITY|||||||0.362||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of After Treatment Values||||0.362
82410672|NCT03074500|164530248|SUPERIORITY|||||||0.271||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.271
82410673|NCT03074500|164530248|SUPERIORITY|||||||0.519||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.519
82410674|NCT03074500|164530248|SUPERIORITY|||||||0.569||||||p-value is adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|p\<0.017 is significant||Comparison of 4 week After Treatment Values||||0.569
82410675|NCT03074500|164530248|SUPERIORITY|||||||0.004|||||||Friedman's two-way analysis of variance|||||||0.004
82410676|NCT03074500|164530248|SUPERIORITY|||||||0.973|||||||Friedman's two-way analysis of variance|||||||0.973
82410677|NCT03074500|164530248|SUPERIORITY|||||||0.886|||||||Friedman's two-way analysis of variance|||||||0.886
82410678|NCT03074500|164530248|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Comparison of immediate effect between groups||||0.82
82410679|NCT03074500|164530248|SUPERIORITY|||||||0.017|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.017
82410680|NCT03074500|164530248|SUPERIORITY|||||||0.734|||||||Kruskal-Wallis|||Immediate effect compared to baseline||||0.734
82410681|NCT03353220|164530265|OTHER|||||||0.65||||||paired t test|t-test, 2 sided|||||||0.65
82410682|NCT03353220|164530266|OTHER|||||||0.0001||||||paired t test|t-test, 2 sided|||||||0.0001
82410683|NCT03353220|164530267|OTHER|||||||0.0017||||||paired t test|t-test, 2 sided|||||||0.0017
82410684|NCT03353220|164530271|OTHER|||||||0.0189|||||||t-test, 2 sided|||||||0.0189
82532034|NCT04147260|164761480|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-11.63|STANDARD_ERROR_OF_MEAN|10.664||0.281|TWO_SIDED|90.0|-33.13|9.86||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.86|-33.13|0.281
82532035|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|5.37||0.599|TWO_SIDED|90.0|-13.69|8.0||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||8.00|-13.69|0.599
82532036|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|4.41||0.824|TWO_SIDED|90.0|-7.92|9.9||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||9.90|-7.92|0.824
82410685|NCT00315341|164530272|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||shift table analyses|||categorized changes in ALT/AST from BL:(1)BL transaminases(both ALT/AST)≤2X upper limit of normal(ULN)\& remained at this level;(2)BL transaminases ≤2X ULN(either ALT/AST)but increased(either ALT/AST)above this level at any time;(3)BL transaminases \>2X ULN(either ALT/AST)\& decreased and remained at ≤2X ULN(both ALT/AST);(4)BL transaminases(both ALT/AST)\>2X ULN \&remained at this level(both ALT/AST);(5)BL transaminases \>2X ULN(either ALT/AST)\& increased 2X above this level ever(either ALT/AST).||||< 0.05
82410686|NCT03114150|164530291|SUPERIORITY||Slope|-0.02|||<|0.05|TWO_SIDED|95.0|-0.04|0.01|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom|Parameter is the interaction term for the interaction of group, learning rate, and session.|We tested the prediction that learning rate would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, according to our statistical analysis plan.||.01|-.04|<.05
82410687|NCT03114150|164530292|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom|Parameter is the interaction term for the interaction of exercise condition (intensity) and session.|We tested the prediction that hippocampal-cortical functional connectivity would change more for the moderate-to-vigorous acute condition compared to the light intensity condition. This prediction was tested with a linear mixed model, according to our statistical analysis plan.||.02|-.01|<.05
82410688|NCT03114150|164530293|SUPERIORITY||Mean Difference (Net)|0.0|||<|0.05|TWO_SIDED|95.0|-0.03|0.02|||Mixed Models Analysis|Kenward-Roger adjustments for degrees of freedom||We tested the prediction that functional connectivity strength would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, according to our statistical analysis plan.|Parameter is the interaction term for the interaction of group and session.|.02|-.03|<.05
82410689|NCT03114150|164530294|SUPERIORITY||Mean Difference (Final Values)|1.42|||<|0.05|TWO_SIDED|95.0|0.27|2.59|||Mixed Models Analysis|Residualized change model, as reported in our protocol paper.||We tested the prediction that cardiorespiratory fitness would increase more so for the moderate-to-vigorous training group compared to the light intensity training group. This prediction was tested with a linear mixed model, as reported in our protocol paper.||2.59|.27|<.05
82410690|NCT03675308|164530323|SUPERIORITY||Response Rate Difference|24.0|||<|0.001|TWO_SIDED|95.0|18.0|30.0||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|The comparison between the risankizumab and placebo treatment groups for the primary efficacy endpoint (ACR20 at Week 24) was performed using the Cochran-Mantel-Haenszel (CMH) test adjusting for the stratification factors of baseline psoriasis (≥ 3%/\< 3% body surface area), presence of dactylitis (yes/no), presence of enthesitis (yes/no) and current csDMARD use (0/≥ 1).||30.0|18.0|<0.001
82410691|NCT03675308|164530324|SUPERIORITY||Least Squares (LS) Mean Difference|-0.2|||<|0.001|TWO_SIDED|95.0|-0.26|-0.14||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.14|-0.26|<0.001
82410692|NCT03675308|164530325|SUPERIORITY||Response Rate Difference|42.5|||<|0.001|TWO_SIDED|95.0|35.6|49.3||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||49.3|35.6|<0.001
82410693|NCT03675308|164530326|SUPERIORITY||Response Rate Difference|23.1|||<|0.001|TWO_SIDED|95.0|16.8|29.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||29.4|16.8|<0.001
82410694|NCT03675308|164530327|SUPERIORITY||Response Rate Difference|14.8|||<|0.001|TWO_SIDED|95.0|10.2|19.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||19.4|10.2|<0.001
82410695|NCT03675308|164530328|SUPERIORITY||LS Mean Difference|-4.19|||<|0.001|TWO_SIDED|95.0|-5.7|-2.68||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-2.68|-5.70|<0.001
82410696|NCT03675308|164530329|SUPERIORITY||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||-0.3|-0.6|<0.001
82410697|NCT03675308|164530330|SUPERIORITY||Response Rate Difference|13.9|||<|0.001|TWO_SIDED|95.0|7.6|20.2||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use and extent of psoriasis at Baseline and study.|Response Rate Difference = Risankizumab - Placebo|The pre-specified analysis for the resolution of enthesitis included pooled data from KEEPsAKE 1 (this study) and KEEPsAKE 2 (M15-998; NCT03671148).||20.2|7.6|<0.001
82410698|NCT03675308|164530331|SUPERIORITY||Response Rate Difference|16.9|||<|0.001|TWO_SIDED|95.0|7.5|26.4||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, extent of psoriasis at Baseline, and study.|Response Rate Difference = Risankizumab - Placebo|The pre-specified analysis for the resolution of dactylitis included pooled data from KEEPsAKE 1 (this study) and KEEPsAKE 2 (M15-998; NCT03671148).||26.4|7.5|<0.001
82410699|NCT03675308|164530332|SUPERIORITY||LS Mean Difference|-0.09||||0.496|TWO_SIDED|95.0|-0.36|0.17||All primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment via a fixed sequence testing procedure to control the family-wise type I error rate at α=0.05 (two- sided).|ANCOVA|ANCOVA model including treatment and the stratification factors and baseline value as covariates.|Difference = Risankizumab - Placebo|||0.17|-0.36|0.496
82410700|NCT03675308|164530333|OTHER||LS Mean Difference|3.32|||<|0.001|TWO_SIDED|95.0|2.42|4.22||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at the change from Baseline in PsA-mTSS comparison.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||4.22|2.42|<0.001
82410701|NCT03675308|164530334|OTHER||LS Mean Difference|2.6|||<|0.001|TWO_SIDED|95.0|1.5|3.7||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at the change from Baseline in PsA-mTSS comparison.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, and stratification factors as fixed factors and Baseline value as covariate.|Difference = Risankizumab - Placebo|||3.7|1.5|<0.001
82410702|NCT03675308|164530335|SUPERIORITY||Response Rate Difference|22.2|||<|0.001|TWO_SIDED|95.0|17.3|27.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||27.2|17.3|<0.001
82410703|NCT03675308|164530336|SUPERIORITY||Response Rate Difference|10.5|||<|0.001|TWO_SIDED|95.0|6.9|14.2|||Cochran-Mantel-Haenszel|CMH test adjusted for the stratification factors of current csDMARD use, presence of dactylitis, enthesitis and extent of psoriasis at Baseline.|Response Rate Difference = Risankizumab - Placebo|||14.2|6.9|<0.001
82410704|NCT05539131|164530346|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.862||||||This is p-valu regarding time and group.|Mixed Models Analysis|||||||0.862
82410705|NCT05539131|164530347|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.662||||||This is p-valu regarding time and group.|Mixed Models Analysis|||||||0.662
82410706|NCT05539131|164530348|SUPERIORITY|The LMM analysis results refer to the F-statistics and associated p-values derived from linear mixed-effects models (LMMs), including fixed effects for time, group, and their interaction.||||||0.318||||||This is p-valu regarding time and group.|ANOVA|||||||0.318
82410707|NCT05539131|164530349|SUPERIORITY|||||||0.273|||||||ANOVA|||||||0.273
82410708|NCT05539131|164530350|SUPERIORITY|||||||0.639|||||||ANOVA|||||||0.639
82410709|NCT05539131|164530351|SUPERIORITY|||||||0.452|||||||ANOVA|||||||0.452
82410710|NCT03729362|164530389|SUPERIORITY|Analysis used a mixed-effect model for repeated measures (MMRM). The model included terms for treatment, baseline 6MWD, age, height, weight (all as continuous covariates), enzyme replacement therapy (ERT) status (ERT-naïve versus ERT-experienced), gender, time, and treatment-by-time interaction. Time was used as a repeated measure, and an unstructured covariance approach was applied.|LS Mean Difference|14.21|STANDARD_ERROR_OF_MEAN|8.481||0.048|TWO_SIDED|95.0|-2.6|31.02||1-sided significance level of 0.025.|MMRM|||"The primary and key secondary endpoints were tested in hierarchical order as follows:~The test for the primary endpoint was conducted first at the 1-sided 0.025 significance level, and if significant, the ordered key secondary endpoints were similarly tested. If at any point the null hypothesis for superiority failed to be rejected, then that comparison and any other comparison below it could not be claimed as successful and would be considered nominal."||31.02|-2.6|0.048
82410711|NCT03729362|164530390|SUPERIORITY|The analysis used an Analysis of Covariance (ANCOVA) model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|1.156||0.012|TWO_SIDED|95.0|0.37|4.95||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in sitting FVC was the first of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||4.95|0.37|0.012
82532037|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-3.83|STANDARD_ERROR_OF_MEAN|5.973||0.525|TWO_SIDED|90.0|-15.9|8.23||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||8.23|-15.90|0.525
82532038|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|6.867||0.25|TWO_SIDED|90.0|-21.84|5.84||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||5.84|-21.84|0.250
82646798|NCT00883129|165008360|SUPERIORITY_OR_OTHER|||||||0.24||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the FVC %-predicted. Covariates were %-predicted FVC, HRCT-defined extent of lung fibrosis in the lobe of maximum involvement, and terms for time-trend, treatment and treatment-time trend interactions.||||0.24
82646799|NCT00883129|165008360|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the FVC %-predicted for each treatment arm independently.||||<0.05
82410712|NCT03729362|164530391|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.727||0.095|TWO_SIDED|95.0|-0.48|2.4||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in the MMT score for the lower extremities was the second of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||2.4|-0.48|0.095
82410713|NCT03729362|164530392|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|8.17|STANDARD_ERROR_OF_MEAN|6.261||0.097|TWO_SIDED|95.0|-4.24|20.57||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 26 in 6MWD was the third of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||20.57|-4.24|0.097
82410714|NCT03729362|164530393|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|1.87|STANDARD_ERROR_OF_MEAN|1.706||0.138|TWO_SIDED|95.0|-1.51|5.25||1-sided significance level of 0.025|ANCOVA|||Change from baseline to Week 52 in the total score for the PROMIS® - Physical Function was the fourth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||5.25|-1.51|0.138
82410715|NCT03729362|164530394|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|1.092||0.515|TWO_SIDED|95.0|-2.12|2.2||1-sided significance level of 0.025|ANCOVA|||Change from baseline to Week 52 in the total score for the PROMIS® - Fatigue was the fifth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||2.2|-2.12|0.515
82410716|NCT03729362|164530395|SUPERIORITY|The analysis used an ANCOVA model adjusted for the baseline value (as a continuous covariate) and ERT status (ERT-naïve versus ERT-experienced), as well as baseline age, gender, baseline height, and baseline weight.|LS Mean Difference|-1.414|STANDARD_ERROR_OF_MEAN|0.528||0.004|TWO_SIDED|95.0|-2.463|-0.364||1-sided significance level of 0.025.|ANCOVA|||Change from baseline to Week 52 in the total score for the GSGC was the sixth of 6 key secondary efficacy endpoints, which were analyzed according to a hierarchical order.||-0.364|-2.463|0.004
82410717|NCT02807259|164530423|EQUIVALENCE|Power calculations did not account for stratification used in the randomisation or include adjustment for baseline levels of the outcome, since the correlation over time was not known. Results suggested that the trial had \>80% power to detect a risk ratio of 0.77, if the coefficient of between-cluster variation was between 0.15 and 0.25.|Odds Ratio (OR)|1.47||||0.298|TWO_SIDED|95.0|0.71|3.01|||Mixed Models Analysis|||Power calculations were conducted assuming an IPV prevalence (past 12 months) of 47% and consistent condom use (past 12 months) of 38% based on initial assessments. The power calculation was performed by analysing simulated data from 800 women, distributed across clusters using empirical data with a range in variance across cluster-level proportions of IPV (15% to 25% of the total variation) and a narrow range of effect sizes (risk ratio= 0.75-0.80).||3.01|0.71|0.298
82410718|NCT02807259|164530424|OTHER||Odds Ratio (OR)|1.38||||0.378|TWO_SIDED|95.0|0.68|2.81|||Mixed Models Analysis|||||2.81|0.68|0.378
82410719|NCT02807259|164530425|OTHER||Odds Ratio (OR)|0.93||||0.748|TWO_SIDED|95.0|0.58|1.47|||Mixed Models Analysis|||||1.47|0.58|0.748
82410720|NCT02807259|164530426|OTHER||Odds Ratio (OR)|0.62||||0.025|TWO_SIDED|95.0|0.4|0.94|||Mixed Models Analysis|||||0.94|0.4|0.025
82410721|NCT02807259|164530427|OTHER||Odds Ratio (OR)|2.07||||0.372|TWO_SIDED|95.0|0.42|10.26|||Mixed Models Analysis|||||10.26|0.42|0.372
82410722|NCT02807259|164530428|OTHER||Odds Ratio (OR)|0.96||||0.845|TWO_SIDED|95.0|0.61|1.5|||Mixed Models Analysis|||||1.50|0.61|0.845
82410723|NCT02807259|164530429|OTHER||Odds Ratio (OR)|1.69||||0.042|TWO_SIDED|95.0|1.02|2.82|||Mixed Models Analysis|||||2.82|1.02|0.042
82410724|NCT00849056|164530431|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.56|||ANCOVA|||||-0.56|-0.95|<0.0001
82410725|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.224||95.0||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH test was stratified by study site||Independent reader assessed ORR. As per the protocol, if the conclusions from the investigator and independent assessments of response rate were the same, the investigator assessment was considered the primary analysis of response rate. If the conclusions were different, the independent radiology reader assessment was considered the primary analysis of response rate. The conclusions were different.||||0.224
82532039|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|5.19|STANDARD_ERROR_OF_MEAN|5.919||0.386|TWO_SIDED|90.0|-6.74|17.12||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||17.12|-6.74|0.386
82410726|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH was stratified by study site||Investigator assessed ORR. As per the protocol, if the conclusions from the investigator and independent assessments of response rate were the same, the investigator assessment was considered the primary analysis of response rate. If the conclusions were different, the independent radiology reader assessment was considered the primary analysis of response rate. The conclusions were different.||||<0.001
82410727|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site||Investigator assessed ORR||||0.002
82410728|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||<0.001
82410729|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site||Investigator assessed ORR||||>0.05
82410730|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.024
82410731|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.099||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.099
82410732|NCT00274456|164530439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed ORR||||0.002
82410733|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.027
82410734|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.009
82410735|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.017
82410736|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
82410737|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
82410738|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||>0.05
82410739|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.085|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Independent assessed DCR||||0.085
82410740|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparison was performed only if this test was significant."|Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed disease control rate (DCR), ie, SD \>= 16 weeks, or CR or PR||||0.007
82410741|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||>0.05
82410742|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.009
82410743|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.005
82410744|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||>0.05
82410745|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.098
82410746|NCT00274456|164530440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Cochran-Mantel-Haenszel|CMH test was stratified by study site.||Investigator assessed DCR||||0.014
82410747|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0498||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Log Rank|||Independent assessment||||0.0498
82410748|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.607||||0.0524|||||||Log Rank|||Independent assessment||||0.0524
82410749|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.495||||0.0065|||||||Log Rank|||Independent assessment||||0.0065
82410750|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
82410751|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
82410752|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
82410753|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Independent assessment||||>0.05
82410754|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Investigator assessment||||0.008
82410755|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410756|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410757|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.568||||0.012|||||||Log Rank|||Investigator assessment||||0.012
82410758|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.972||||0.001|||||||Log Rank|||Investigator assessment||||0.001
82410759|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.702||||0.076|||||||Log Rank|||Investigator assessment||||0.076
82410760|NCT00274456|164530441|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410761|NCT00274456|164530442|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Independent assessment||||>0.05
82410762|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons was performed only if this test was significant."|Log Rank|||Investigator assessment||||0.013
82410763|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||Log Rank|||Investigator assessment||||0.022
82410764|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410765|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410766|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Log Rank|||Investigator assessment||||0.005
82410767|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410768|NCT00274456|164530443|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Log Rank|||Investigator assessment||||>0.05
82410769|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||"A step-down approach was used to compare treatment regimens. First an overall test of treatment difference (a 3-degree-of -freedom test) was performed. Pairwise comparisons were performed only if this test was significant."|Log Rank|||||||0.047
82410770|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
82410771|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
82410772|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
82410773|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.686||||0.069||95.0|||||Log Rank|||||||0.069
82410774|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Log Rank|||||||>0.05
82410775|NCT00274456|164530444|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.74||||0.008||95.0|||||Log Rank|||||||0.008
82410776|NCT02314546|164530448|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|||||||0.99
82410777|NCT02314546|164530449|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|||||||0.99
82410778|NCT02314546|164530450|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Kruskal-Wallis|||||||0.26
82410779|NCT02314546|164530451|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Kruskal-Wallis|||||||0.02
82410780|NCT02314546|164530452|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Kruskal-Wallis|||||||0.04
82410781|NCT02314546|164530453|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
82410782|NCT02314546|164530454|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
82410783|NCT00375752|164530455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.7||||0.106|TWO_SIDED|95.0|-1.8|31.1|||Fisher Exact|||||31.1|-1.8|0.106
82410784|NCT01140906|164530467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.53|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-7.66|-3.4||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-3.40|-7.66|<0.0001
82410785|NCT01140906|164530467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.09|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|-9.21|-4.97||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-4.97|-9.21|<0.0001
82410786|NCT01140906|164530467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.45|STANDARD_ERROR_OF_MEAN|1.07|<|0.0001|TWO_SIDED|95.0|-11.55|-7.35||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-7.35|-11.55|<0.0001
82410787|NCT01140906|164530468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||<|0.0001|TWO_SIDED|95.0|1.76|4.47||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||4.47|1.76|<0.0001
82410788|NCT01140906|164530468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36|||<|0.0001|TWO_SIDED|95.0|2.1|5.36||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||5.36|2.10|<0.0001
82410789|NCT01140906|164530468|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|3.61|9.78||This treatment arm was not in the testing sequence. A nominal p-value is provided.|Adjusted Odds Ratio|||||9.78|3.61|<0.0001
82410790|NCT01140906|164530469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.94|-0.44||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.44|-0.94|<0.0001
82446573|NCT00151476|164601257|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|137.34||||||95.0|104.73|183.48|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile. Index date based on most recent colon and or rectum adenomatous polyps evaluation, most recent duodenal adenomatous polyps evaluation, and most recent desmoids tumors evaluation for Matched Control, Not Matched Celecoxib, and All Celecoxib Treated, respectively.||183.48|104.73|
82446574|NCT00151476|164601257|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|169.94||||||95.0|104.73|183.48|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||183.48|104.73|
82446575|NCT00151476|164601258|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|11.28||||||95.0|9.07|38.24|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||38.24|9.07|
82446576|NCT00151476|164601259|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|20.63||||||95.0|8.05|48.03|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||48.03|8.05|
82410791|NCT01140906|164530469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.70|-1.20|<0.0001
82410792|NCT01140906|164530469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.36|-0.87||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-0.87|-1.36|<0.0001
82410793|NCT01140906|164530470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|1.53||0.0007|TWO_SIDED|95.0|-8.25|-2.22||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-2.22|-8.25|0.0007
82410794|NCT01140906|164530470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|-9.53|-3.31||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-3.31|-9.53|<0.0001
82410795|NCT01140906|164530470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.71|STANDARD_ERROR_OF_MEAN|1.54|<|0.0001|TWO_SIDED|95.0|-11.73|-5.69||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-5.69|-11.73|<0.0001
82410796|NCT01140906|164530471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.32||||0.0016|TWO_SIDED|95.0|1.37|3.91||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||3.91|1.37|0.0016
82410797|NCT01140906|164530471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.65||||0.0002|TWO_SIDED|95.0|1.58|4.44||Wald's test. Since p-value \<0.025, hierarchically testing continued.|Adjusted Odds Ratio||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||4.44|1.58|0.0002
82410798|NCT01140906|164530471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.01|||<|0.0001|TWO_SIDED|95.0|2.99|8.37||Wald's test. This treatment arm was not in the testing sequence. A nominal p-value is provided.|Adjusted for Odds Ratio|||||8.37|2.99|<0.0001
82410799|NCT01140906|164530472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.24|STANDARD_ERROR_OF_MEAN|1.16||0.0054|TWO_SIDED|95.0|-5.51|-0.97||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.97|-5.51|0.0054
82410800|NCT01140906|164530472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|1.11||0.0005|TWO_SIDED|95.0|-6.11|-1.73||Since p-value \<0.025, hierarchically testing continued.|MMRM||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||-1.73|-6.11|0.0005
82410801|NCT01140906|164530472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.93|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-9.16|-4.7||This treatment arm was not in the testing sequence. A nominal p-value is provided.|MMRM|||||-4.70|-9.16|<0.0001
82410802|NCT01140906|164530473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.59||0.2524|TWO_SIDED|95.0|-1.83|0.48||A nominal p-value is provided.|MMRM||No correction for multiplicity was made.|||0.48|-1.83|0.2524
82410803|NCT01140906|164530473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.59||0.4186|TWO_SIDED|95.0|-1.64|0.68||A nominal p-value is provided.|MMRM||No correction for multiplicity was made.|||0.68|-1.64|0.4186
82410804|NCT01140906|164530474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.41||0.7372|TWO_SIDED|95.0|-0.95|0.67||A nominal p-value is provided.|ANCOVA|||||0.67|-0.95|0.7372
82446577|NCT00151476|164601259|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|40.21||||||95.0|8.31|105.68|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||105.68|8.31|
82410805|NCT01140906|164530474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.41||0.169|TWO_SIDED|95.0|-0.24|1.37||A nominal p-value is provided.|ANCOVA|||||1.37|-0.24|0.1690
82410806|NCT00336544|164530475|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|-5.7||||0.0769||95.0|-11.9|0.6|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||0.6|-11.9|0.0769
82410807|NCT00336544|164530477|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|-4.4||||0.0775||95.0|-9.1|0.3|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||0.3|-9.1|0.0775
82410808|NCT00576758|164530479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.26||||0.1587|TWO_SIDED|60.0|3.9|18.7|||Chi-squared|||||18.7|3.9|0.1587
82410809|NCT00576758|164530480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83|||||TWO_SIDED|95.0|-2.9|16.6||||||||16.6|-2.9|
82410810|NCT00576758|164530484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||||TWO_SIDED|95.0|-13.9|18.3||||||||18.3|-13.9|
82410811|NCT00576758|164530485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.62|1.44||||||||1.44|0.62|
82410812|NCT00576758|164530487|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.67|1.5||||||||1.50|0.67|
82410813|NCT03427411|164530514|NON_INFERIORITY|Non-inferiority was defined as response rates which were sufficiently similar (p\>0.20 by Fisher's exact test).||||||0.6143||||||The p value was calculated and was 0.6143 which is \> 0.2 (pre-defined threshold).|Fisher Exact|||||||0.6143
82410814|NCT03979313|164530524|SUPERIORITY||Relative Risk Reduction (RRR)|62.15||||0.0708|TWO_SIDED|95.0|-8.57|86.8|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||86.80|-8.57|0.0708
82410815|NCT03979313|164530525|SUPERIORITY||Relative Risk Reduction (RRR)|74.53|||<|0.0001|TWO_SIDED|95.0|49.63|87.12|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||87.12|49.63|<0.0001
82410816|NCT03979313|164530526|SUPERIORITY||Relative Risk Reduction (RRR)|76.36|||<|0.0001|TWO_SIDED|95.0|62.27|85.18|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||85.18|62.27|<0.0001
82410817|NCT03979313|164530527|SUPERIORITY||Relative Risk Reduction (RRR)|76.84||||0.0002|TWO_SIDED|95.0|49.36|89.41|||Poisson Model||RRR of Medi8897 versus placebo; 95% CI and p-value estimated with Poisson regression with robust variance (including stratification factors \[age at randomisation\] as covariate) obtained after multiple imputation|||89.41|49.36|0.0002
82410818|NCT00089648|164530531|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|23.0||||||95.0|13.2|35.5|||||ORR=proportion of subjects with confirmed CR or PR, relative to total number of subjects who received at least 1 dose of study medication, were refractory to bevacizumab, had a baseline disease assessment and had the correct histological cancer type.|||35.5|13.2|
82410819|NCT03183908|164530566|NON_INFERIORITY|The one-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 5%, stratified by site.|Difference in proportions|-2.7|||||TWO_SIDED|95.0|-5.8|0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|The null hypothesis is allV3 is inferior (i.e., allV3 will have higher rates of moderate/severe injection site pain) to IIV3-HD in regards to the proportion of subjects having moderate or severe injection site pain in the first week post vaccination.||0.4|-5.8|
82410820|NCT03183908|164530568|OTHER|The comparison of the number of participants with reported SAEs regardless of relationship to study product were made using 95% confidence intervals. Results were reported using exact binomial confidence intervals.|Comparison of Frequencies|2.38|||||TWO_SIDED|95.0|1.09|4.47||||||||4.47|1.09|
82410821|NCT03183908|164530568|OTHER|The comparison of the number of participants with reported SAEs regardless of relationship to study product were made using 95% confidence intervals. Results were reported using exact binomial confidence intervals.|Comparison of Frequencies|0.79|||||TWO_SIDED|95.0|0.16|2.23||||||||2.23|0.16|
82410822|NCT03183908|164530569|NON_INFERIORITY|This objective will be assessed using a one-sided noninferiority test with the alpha level set at 0.025 and noninferiority margin of 10%. The null hypothesis is the allV3 H3N2 seroconversion rate is inferior to IIV3-HD seroconversion rate.|Difference in Proportions|-0.0579||||0.1245|ONE_SIDED|97.5|-0.1291||||Cochran-Mantel-Haenszel||The directional comparison was the lower bound of the confidence interval using a 10% non-inferiority margin.||||-.1291|0.1245
82410823|NCT03183908|164530570|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-1.9|||||TWO_SIDED|98.0|-5.0|1.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||1.0|-5.0|
82410824|NCT03183908|164530570|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-3.1|4.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||4.3|-3.1|
82410825|NCT03183908|164530570|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-3.7|||||TWO_SIDED|98.0|-7.5|-0.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||-0.3|-7.5|
82410826|NCT03183908|164530570|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.6|||||TWO_SIDED|98.0|-2.7|5.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||5.9|-2.7|
82410827|NCT03183908|164530571|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.4|||||TWO_SIDED|95.0|-5.2|0.2|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||0.2|-5.2|
82410828|NCT03183908|164530571|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.3|4.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||4.9|-2.3|
82410829|NCT03183908|164530571|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-4.5|||||TWO_SIDED|95.0|-8.1|-1.1|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||-1.1|-8.1|
82410830|NCT03183908|164530571|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.7|5.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||5.9|-2.7|
82410831|NCT03183908|164530571|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-3.1|||||TWO_SIDED|95.0|-6.9|0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Injection Site Pain||0.4|-6.9|
82410832|NCT03183908|164530572|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.3|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Redness||7.3|-7.3|
82410833|NCT03183908|164530572|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.3|||||TWO_SIDED|95.0|-9.5|5.7|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Shoulder Pain||5.7|-9.5|
82446578|NCT00151476|164601259|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|16.03|56.34|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||56.34|16.03|
82410834|NCT03183908|164530572|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.2|||||TWO_SIDED|95.0|-8.6|6.1|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Swelling||6.1|-8.6|
82410835|NCT03183908|164530572|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.7|8.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Tenderness||8.3|-5.7|
82410836|NCT03183908|164530572|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.2|||||TWO_SIDED|95.0|-7.9|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Injection Site Pain||5.4|-7.9|
82410837|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.8|||||TWO_SIDED|98.0|-1.7|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||5.4|-1.7|
82410838|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.5|||||TWO_SIDED|98.0|-2.8|2.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Chills/Shivering||2.3|-2.8|
82410839|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-1.1|||||TWO_SIDED|98.0|-4.0|1.5|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||1.5|-4.0|
82410840|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|3.2|||||TWO_SIDED|98.0|-0.8|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||7.3|-0.8|
82410841|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-2.5|2.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||2.0|-2.5|
82410842|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.3|||||TWO_SIDED|98.0|-3.0|2.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Headache||2.4|-3.0|
82410843|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|1.8|||||TWO_SIDED|98.0|-1.7|5.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||5.4|-1.7|
82446579|NCT00151476|164601259|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|20.22||||||95.0|12.35|40.31|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related surgical events (months); 25th percentile.||40.31|12.35|
82410844|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.5|||||TWO_SIDED|98.0|-3.3|4.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||4.4|-3.3|
82410845|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|-0.8|||||TWO_SIDED|98.0|-3.1|1.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Nausea||1.6|-3.1|
82410846|NCT03183908|164530573|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.01 level to adjust for multiple comparisons.|Difference in proportions|0.0|||||TWO_SIDED|98.0|-1.8|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Vomiting||1.8|-1.8|
82410847|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|2.3|||||TWO_SIDED|95.0|-1.1|5.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||5.8|-1.1|
82410848|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.0|2.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Chills/Shivering||2.0|-3.0|
82410849|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.5|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||1.8|-3.5|
82410850|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|2.9|||||TWO_SIDED|95.0|-1.1|7.0|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||7.0|-1.1|
82410851|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.0|-0.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||-0.4|-3.0|
82410852|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.2|2.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Headache||2.4|-3.2|
82410853|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.5|4.5|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||4.5|-2.5|
82410854|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.1|4.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||4.3|-3.1|
82410855|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.3|1.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Nausea||1.3|-3.3|
82410856|NCT03183908|164530574|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.8|1.8|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Vomiting||1.8|-1.8|
82410857|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.05|||||TWO_SIDED|95.0|-7.2|6.4|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Arthralgia||6.4|-7.2|
82410858|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.1|-0.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Diarrhea||-0.6|-8.1|
82410859|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|3.7|||||TWO_SIDED|95.0|-3.6|10.9|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fatigue||10.9|-3.6|
82410860|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.4|6.6|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Fever||6.6|-2.4|
82410861|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|5.0|||||TWO_SIDED|95.0|2.0|12.2|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Malaise||12.2|2.0|
82410862|NCT03183908|164530575|NON_INFERIORITY|Site-stratified, 5% noninferiority test with a one-sided alpha at the 0.025 level.|Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.3|7.3|||||The upper bound of a stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used.|Myalgia||7.3|-7.3|
82410863|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5862|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes for Day 1 to Day 3 Group Comparisons||||0.5862
82410864|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5648|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.5648
82410865|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.4196|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes from Day 1 to Day 3 Group Comparisons||||0.4196
82410866|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.2418|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes from Day 1 to Day 3 Group Comparisons||||0.2418
82410867|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.0746|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes for Day 1 to Day 3 Group Comparisons||||0.0746
82410868|NCT03183908|164530576|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.5497|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes for Day 1 to Day 3 Group Comparisons||||0.5497
82410869|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.6278|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes for Day 1 to Day 3 Group Comparisons||||0.6278
82410870|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.5622|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.5622
82410871|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.5538|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes for Day 1 to Day 3 Group Comparisons||||0.5538
82410872|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.231|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes from Day 1 to Day 3 Group Comparisons||||0.2310
82410873|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.0435|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes from Day 1 to Day 3 Group Comparisons||||0.0435
82410874|NCT03183908|164530577|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.6519|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes from Day 1 to Day 3 Group Comparisons||||0.6519
82410875|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7483|||||||Wilcoxon (Mann-Whitney)|||Activity Limitation Changes from Day 1 to Day 3 Group Comparisons||||0.7483
82410876|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7483|||||||Wilcoxon (Mann-Whitney)|||Daily Activities Changes for Day 1 to Day 3 Group Comparisons||||0.7483
82410877|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4953|||||||Wilcoxon (Mann-Whitney)|||Basic Mobility Changes for Day 1 to Day 3 Group Comparisons||||0.4953
82410878|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.8669|||||||Wilcoxon (Mann-Whitney)|||Participation Restriction Changes for Day 1 to Day 3 Group Comparisons||||0.8669
82410879|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.8451|||||||Wilcoxon (Mann-Whitney)|||Social Roles Changes for Day 1 to Day 3 Group Comparisons||||0.8451
82410880|NCT03183908|164530578|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7376|||||||Wilcoxon (Mann-Whitney)|||Instrumental Roles Changes for Day 1 to Day 3 Group Comparisons||||0.7376
82410881|NCT03183908|164530579|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.7407|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes for Day 1 to Day 3 Group Comparisons||||0.7407
82410882|NCT03183908|164530580|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4032|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes for Day 1 to Day 3 Group Comparisons||||0.4032
82410883|NCT03183908|164530581|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.4079|||||||Wilcoxon (Mann-Whitney)|||US Index Score Changes from Day 1 to Day 3 Group Comparisons||||0.4079
82410884|NCT03183908|164530582|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.01 with no adjustments set for multiple comparisons.||||||0.7948|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes for Day 1 to Day 3 Group Comparisons||||0.7948
82410885|NCT03183908|164530583|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. Alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.7953|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes from Day 1 to Day 3 Group Comparisons||||0.7953
82410886|NCT03183908|164530584|SUPERIORITY|Non-parametric testing was used to evaluate the changes from baseline to compare between groups. A two-sided alpha level set at 0.05 with no adjustments set for multiple comparisons.||||||0.9329|||||||Wilcoxon (Mann-Whitney)|||EQ VAS Changes from Day 1 to Day 3 Group Comparisons||||0.9329
82532040|NCT04147260|164761481|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-13.19|STANDARD_ERROR_OF_MEAN|7.787||0.097|TWO_SIDED|90.0|-28.88|2.51||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||2.51|-28.88|0.097
82532041|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|6.842||0.885|TWO_SIDED|90.0|-12.83|14.81||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||14.81|-12.83|0.885
82532042|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|28.9|STANDARD_ERROR_OF_MEAN|5.619|<|0.001|TWO_SIDED|90.0|17.55|40.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||40.25|17.55|<0.001
82532043|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-27.91|STANDARD_ERROR_OF_MEAN|7.61|<|0.001|TWO_SIDED|90.0|-43.28|-12.54||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-12.54|-43.28|<0.001
82532044|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-20.13|STANDARD_ERROR_OF_MEAN|8.041||0.016|TWO_SIDED|90.0|-36.33|-3.92||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-3.92|-36.33|0.016
82532045|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|18.5|STANDARD_ERROR_OF_MEAN|6.931||0.011|TWO_SIDED|90.0|4.53|32.46||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||32.46|4.53|0.011
82532046|NCT04147260|164761482|OTHER|Mixed model for repeated measures (MMRM) with unstructured (UN) covariance matrix on photosensitivity index (PI) values|Mean Difference (Final Values)|-38.62|STANDARD_ERROR_OF_MEAN|9.118|<|0.001|TWO_SIDED|90.0|-57.0|-20.25||P-value is for testing Least Squares Mean Difference=0|Linear mixed model|Treatment, time, and treatment-time interaction as fixed effects and subject as a random effect||||-20.25|-57.00|<0.001
82410887|NCT02631057|164530600|SUPERIORITY_OR_OTHER||Mean|-2.484|STANDARD_ERROR_OF_MEAN|0.629|<|0.001|TWO_SIDED|95.0|-3.717|-1.251|||Abadie-Imbens|LoS Average Treatment Effect on the Treated (ATET) \[Dabigatran group\], dispersion analysed with Abadie-Imbens's standard error.|The ATET of LoS from oral anticoagulant initiation to hospital discharge was calculated as \[Dabigatran - Warfarin\] in the matched cohort of matching ratio 1:3.|||-1.251|-3.717|<0.001
82410888|NCT02690727|164530618|SUPERIORITY_OR_OTHER||Ratio (%)|128.49||||0.0002|TWO_SIDED|90.0|119.13|138.59|||ANOVA|||||138.59|119.13|0.0002
82410889|NCT02690727|164530620|SUPERIORITY_OR_OTHER||Ratio (%)|139.27||||0.0278|TWO_SIDED|90.0|111.01|174.73|||ANOVA|||||174.73|111.01|0.0278
82410890|NCT00091819|164530627|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 10% was specified based on historical regulatory precedent.|Risk Difference (RD)|1.0||||||95.0|-4.8|6.8||p-values were not calculated in deference to confidence intervals.|||"Statistical analysis applies to cure"|||6.8|-4.8|
82410891|NCT00071981|164530729|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare CTL response rate among four arms. The null hypothesis is that CTL response is same in all four arms. Alternative hypothesis is that CTL response rate is different in at least one arm compared to other arms.||||<0.001
82410892|NCT00071981|164530730|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare HTL response rate to 6MHP among four arms. The null hypothesis is that HTL response is same in all four arms. Alternative hypothesis is that HTL response rate is different in at least one arm compared to other arms.||||<0.001
82410893|NCT00071981|164530731|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Fisher Exact|||Compare HTL response rate to tetanus peptide among four arms. The null hypothesis is that HTL response is same in all four arms. Alternative hypothesis is that HTL response rate is different in at least one arm compared to other arms.||||<0.001
82410894|NCT00071981|164530732|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741|TWO_SIDED|95.0|||||Fisher Exact|||Compare objective response rate among four arms. The null hypothesis is that objective response rate is same in all four arms. Alternative hypothesis is that objective response rate is different in at least one arm compared to other arms.||||0.741
82532047|NCT02216422|164761511|SUPERIORITY_OR_OTHER||Percentage of Participants|100.0|||||TWO_SIDED|95.0|90.4|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|||100.0|90.4|
82532048|NCT01857622|164761554|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.8|||||TWO_SIDED|95.0|-14.7|26.8|||Wilcoxon (Mann-Whitney)|no statistical test||||26.8|-14.7|
82410895|NCT00071981|164530733|SUPERIORITY_OR_OTHER_LEGACY|||||||0.532|TWO_SIDED|95.0|||||Log Rank|||Compare overall survival curves among four arms.||||0.532
82410896|NCT01933594|164530738|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82410897|NCT01933594|164530739|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.94
82410898|NCT01933594|164530739|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.74
82410899|NCT01933594|164530739|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.18
82410900|NCT01933594|164530739|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.16
82410901|NCT01933594|164530740|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82410902|NCT01933594|164530741|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.9
82646800|NCT00883129|165008360|SUPERIORITY_OR_OTHER|||||||0.55||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|||Based on the absolute difference between the value of FVC %-predicted at baseline and at 24 months for each subject who returned for a 24-month assessment, a frequency distributions was prepared, stratified by treatment arm, to assess the relative distribution of subjects who either had improvements or worsening in the FVC %-predicted.||||0.55
82646801|NCT00883129|165008361|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the TLC %-predicted.||||>0.05
82646802|NCT00883129|165008362|SUPERIORITY_OR_OTHER||||||<|0.001||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the DLCO %-predicted.||||<0.001
82410903|NCT01933594|164530741|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.07
82410904|NCT01933594|164530741|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.88
82410905|NCT01933594|164530741|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.92
82410906|NCT01933594|164530742|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 6 hours post infusion||||0.44
82410907|NCT01933594|164530742|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 12 hours post infusion||||0.024
82410908|NCT01933594|164530742|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.37
82410909|NCT01933594|164530742|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 14 days post infusion||||0.79
82410910|NCT01933594|164530742|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.34
82410911|NCT01933594|164530743|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82410912|NCT01933594|164530744|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82410913|NCT01933594|164530745|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82410914|NCT01933594|164530747|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.19
82410915|NCT01933594|164530747|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.63
82410916|NCT01933594|164530747|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.94
82410917|NCT01933594|164530747|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.66
82410918|NCT01933594|164530747|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.17
82410919|NCT01933594|164530748|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion||||0.73
82410920|NCT01933594|164530748|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 14 days post infusion||||0.9
82410921|NCT01933594|164530749|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.8
82410922|NCT01933594|164530749|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.73
82410923|NCT01933594|164530749|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.84
82410924|NCT01933594|164530749|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.88
82410925|NCT01933594|164530749|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.64
82410926|NCT01933594|164530757|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.34
82410927|NCT01933594|164530757|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.004
82410928|NCT01933594|164530757|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.022
82410929|NCT01933594|164530757|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.008
82410930|NCT01933594|164530757|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 2 weeks post infusion 4||||0.55
82410931|NCT01933594|164530757|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 5 weeks post infusion 4||||0.48
82410932|NCT01933594|164530757|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.54
82410933|NCT01933594|164530757|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 18 weeks post infusion 4||||0.47
82410934|NCT01933594|164530759|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.95
82410935|NCT01933594|164530759|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.07
82410936|NCT01933594|164530759|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.26
82410937|NCT01933594|164530760|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.89
82410938|NCT01933594|164530760|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.14
82410939|NCT01933594|164530760|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.74
82410940|NCT01933594|164530761|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.71
82410941|NCT01933594|164530761|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.79
82410942|NCT01933594|164530761|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.38
82410943|NCT01933594|164530762|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||1
82410944|NCT01933594|164530762|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.92
82410945|NCT01933594|164530762|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.66
82410946|NCT01933594|164530763|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||1
82410947|NCT01933594|164530763|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.9
82410948|NCT01933594|164530763|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.47
82410949|NCT01933594|164530764|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.63
82410950|NCT01933594|164530764|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||hange from baseline to 24 hours post infusion 4||||0.51
82410951|NCT01933594|164530764|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.028
82410952|NCT01933594|164530765|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.62
82410953|NCT01933594|164530765|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.15
82410954|NCT01933594|164530765|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.69
82410955|NCT01933594|164530766|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.28
82410956|NCT01933594|164530766|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.15
82410957|NCT01933594|164530766|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.81
82410958|NCT01933594|164530767|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.13
82410959|NCT01933594|164530767|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.22
82410960|NCT01933594|164530767|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.031
82410961|NCT01933594|164530768|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 48 hours post infusion||||0.13
82410962|NCT01933594|164530768|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 7 days post infusion||||0.39
82410963|NCT01933594|164530768|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 28 days post infusion||||0.12
82410964|NCT01933594|164530769|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.7
82410965|NCT01933594|164530769|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.51
82410966|NCT01933594|164530769|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.94
82410967|NCT01933594|164530770|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.78
82410968|NCT01933594|164530770|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.41
82410969|NCT01933594|164530770|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 10 weeks post infusion 4||||0.94
82410970|NCT01933594|164530771|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Change in pNFKB+% on CD4||||0.69
82410971|NCT01933594|164530771|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Change in pS175% on CD4||||0.27
82410972|NCT01933594|164530772|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change in pNFKB+% on CD8||||0.81
82410973|NCT01933594|164530772|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Change in pS175% on CD8||||0.81
82410974|NCT01933594|164530773|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.37
82410975|NCT01933594|164530773|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.1
82410976|NCT01933594|164530773|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.28
82410977|NCT01933594|164530773|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.16
82410978|NCT01933594|164530773|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.12
82410979|NCT01933594|164530774|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 1||||0.027
82410980|NCT01933594|164530774|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 2||||0.004
82410981|NCT01933594|164530774|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 72 hours post infusion 2||||0.1
82410982|NCT01933594|164530774|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 3||||0.022
82410983|NCT01933594|164530774|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to 24 hours post infusion 4||||0.17
82410984|NCT04513366|164530775|SUPERIORITY||Risk Difference (RD)|0.44|||<|0.0001|TWO_SIDED|97.5|0.23|0.64|||Mantel Haenszel|||||0.64|0.23|<.0001
82410985|NCT04513366|164530775|SUPERIORITY||Risk Difference (RD)|0.53|||<|0.0001|TWO_SIDED|97.5|0.32|0.73|||Mantel Haenszel|||||0.73|0.32|<.0001
82410986|NCT04513366|164530776|SUPERIORITY||Least Square (LS) Mean Difference|-5.3|||<|0.001|TWO_SIDED|97.5|-7.18|-3.42|||ANCOVA|||||-3.42|-7.18|<.001
82410987|NCT04513366|164530776|SUPERIORITY||LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|97.5|-7.57|-3.7|||ANCOVA|||||-3.70|-7.57|<.001
82410988|NCT04513366|164530777|SUPERIORITY||LS Mean Difference|-64.3|||<|0.001|TWO_SIDED|97.5|-87.85|-40.85|||ANCOVA|||||-40.85|-87.85|<.001
82410989|NCT04513366|164530777|SUPERIORITY||LS Mean Difference|-69.8|||<|0.001|TWO_SIDED|97.5|-92.16|-47.35|||ANCOVA|||||-47.35|-92.16|<.001
82410990|NCT04513366|164530778|SUPERIORITY||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|2.6||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.090
82410991|NCT04513366|164530778|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.5||0.472|TWO_SIDED||||||Mixed Models Analysis|||||||0.472
82410992|NCT04513366|164530779|SUPERIORITY||Difference|0.58||||0.0003|TWO_SIDED|97.5|0.25|0.91|||Chi-squared|||||0.91|0.25|0.0003
82646803|NCT00883129|165008362|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the DLCO %-predicted for each treatment arm independently.||||>0.05
82410993|NCT04513366|164530779|SUPERIORITY||Difference|0.25||||0.1895|TWO_SIDED|97.5|-0.36|0.86|||Chi-squared|||||0.86|-0.36|0.1895
82410994|NCT04513366|164530780|SUPERIORITY||Difference|0.43||||0.0035|TWO_SIDED|97.5|0.14|0.72|||Chi-squared|||||0.72|0.14|0.0035
82410995|NCT04513366|164530780|SUPERIORITY||Difference|0.28||||0.0428|TWO_SIDED|97.5|-0.02|0.57|||Chi-squared|||||0.57|-0.02|0.0428
82410996|NCT04513366|164530781|SUPERIORITY||LS Mean Difference|-0.2||||0.517|TWO_SIDED|97.5|-1.1|0.61|||Mixed Models Analysis|||||0.61|-1.10|0.517
82410997|NCT04513366|164530781|SUPERIORITY||LS Mean Difference|0.4||||0.23|TWO_SIDED|97.5|-0.39|1.28|||Mixed Models Analysis|||||1.28|-0.39|0.230
82410998|NCT04513366|164530782|SUPERIORITY||LS Mean Difference|-0.1||||0.25|TWO_SIDED|97.5|-0.35|0.12|||Mixed Models Analysis|||||0.12|-0.35|0.250
82410999|NCT04513366|164530782|SUPERIORITY||LS Mean Difference|0.1||||0.506|TWO_SIDED|97.5|-0.16|0.29|||Mixed Models Analysis|||||0.29|-0.16|0.506
82411000|NCT04513366|164530783|SUPERIORITY||LS Mean Difference|-0.1||||0.653|TWO_SIDED|97.5|-0.55|0.37|||ANOVA|||||0.37|-0.55|0.653
82411001|NCT04513366|164530783|SUPERIORITY||LS Mean Difference|0.1||||0.629|TWO_SIDED|97.5|-0.36|0.56|||ANOVA|||||0.56|-0.36|0.629
82411002|NCT04513366|164530784|SUPERIORITY||LS Mean Difference|0.1||||0.731|TWO_SIDED|97.5|-0.4|0.54|||ANOVA|||Treatment Periods 1-3 (Months 1-3)||0.54|-0.40|0.731
82411003|NCT04513366|164530784|SUPERIORITY||LS Mean Difference|0.1||||0.583|TWO_SIDED|97.5|-0.35|0.58|||ANOVA|||Treatment Periods 1-3 (Month 1-3)||0.58|-0.35|0.583
82411004|NCT02966834|164530796|OTHER||Mean Difference (Net)|-0.47|||||TWO_SIDED|95.0|-1.75|0.82||||||||0.82|-1.75|
82411005|NCT02966834|164530796|OTHER||Mean Difference (Net)|-0.88|||||TWO_SIDED|95.0|-2.07|0.31||||||||0.31|-2.07|
82411006|NCT02966834|164530796|OTHER||Mean Difference (Net)|-0.88|||||TWO_SIDED|95.0|-2.03|0.28||||||||0.28|-2.03|
82411007|NCT02966834|164530796|OTHER||Mean Difference (Net)|-1.13|||||TWO_SIDED|95.0|-2.29|0.03||||||||0.03|-2.29|
82411008|NCT02966834|164530796|OTHER||Mean Difference (Net)|-0.53|||||TWO_SIDED|95.0|-1.71|0.65||||||||0.65|-1.71|
82411009|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.9|2.3|||||Symptoms|||2.3|-1.9|
82411010|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.5|2.5|||||Symptoms|||2.5|-1.5|
82411011|NCT02966834|164530797|OTHER||Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-3.1|0.8|||||Symptoms|||0.8|-3.1|
82411012|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-1.8|2.0|||||Symptoms|||2.0|-1.8|
82411013|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.0|1.9|||||Symptoms|||1.9|-2.0|
82411014|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.3|2.2|||||Itch|||2.2|-1.3|
82411015|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.8|1.3|||||Itch|||1.3|-1.8|
82411016|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.9|1.2|||||Itch|||1.2|-1.9|
82411017|NCT02966834|164530797|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-2.6|0.5|||||Itch|||0.5|-2.6|
82411018|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.9|1.3|||||Itch|||1.3|-1.9|
82411019|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-4.5|3.2|||||Fatigue|||3.2|-4.5|
82411020|NCT02966834|164530797|OTHER||Median Difference (Net)|0.7|||||TWO_SIDED|95.0|-2.8|4.2|||||Fatigue|||4.2|-2.8|
82411021|NCT02966834|164530797|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|0.0|7.0|||||Fatigue|||7.0|0.0|
82411022|NCT02966834|164530797|OTHER||Mean Difference (Net)|1.7|||||TWO_SIDED|95.0|-1.8|5.1|||||Fatigue|||5.1|-1.8|
82411023|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-3.6|3.6|||||Fatigue|||3.6|-3.6|
82411024|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.5|2.6|||||Cognitive|||2.6|-2.5|
82411025|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.9|1.7|||||Cognitive|||1.7|-2.9|
82411026|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.1|2.5|||||Cognitive|||2.5|-2.1|
82411027|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-1.8|2.8|||||Cognitive|||2.8|-1.8|
82411028|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.2|2.5|||||Cognitive|||2.5|-2.2|
82411029|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-2.1|0.4|||||Emotional|||0.4|-2.1|
82411030|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.9|1.3|||||Emotional|||1.3|-0.9|
82411031|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.2|1.1|||||Emotional|||1.1|-1.2|
82411032|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-1.9|0.3|||||Emotional|||0.3|-1.9|
82411033|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-1.2|1.1|||||Emotional|||1.1|-1.2|
82411034|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-2.4|3.0|||||Social|||3.0|-2.4|
82411035|NCT02966834|164530797|OTHER||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-1.3|3.7|||||Social|||3.7|-1.3|
82411036|NCT02966834|164530797|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-2.3|2.7|||||Social|||2.7|-2.3|
82411037|NCT02966834|164530797|OTHER||Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-4.8|0.1|||||Social|||0.1|-4.8|
82411038|NCT02966834|164530797|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-2.8|2.4|||||Social|||2.4|-2.8|
82411039|NCT02966834|164530798|OTHER||Mean Difference (Net)|-106.8|||||TWO_SIDED|95.0|-251.7|38.2||||||||38.2|-251.7|
82411040|NCT02966834|164530798|OTHER||Mean Difference (Net)|-87.4|||||TWO_SIDED|95.0|-198.5|23.8||||||||23.8|-198.5|
82411041|NCT02966834|164530798|OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-125.6|126.5||||||||126.5|-125.6|
82411042|NCT02966834|164530798|OTHER||Mean Difference (Net)|-78.3|||||TWO_SIDED|95.0|-211.5|54.8||||||||54.8|-211.5|
82411043|NCT02966834|164530798|OTHER||Mean Difference (Net)|-30.0|||||TWO_SIDED|95.0|-170.7|110.7||||||||110.7|-170.7|
82411044|NCT02966834|164530800|OTHER||Mean Difference (Net)|-21.4|||||TWO_SIDED|95.0|-58.4|15.5||||||||15.5|-58.4|
82411045|NCT02966834|164530800|OTHER||Mean Difference (Net)|-12.7|||||TWO_SIDED|95.0|-41.9|16.4||||||||16.4|-41.9|
82411046|NCT02966834|164530800|OTHER||Mean Difference (Net)|-15.0|||||TWO_SIDED|95.0|-49.9|20.0||||||||20.0|-49.9|
82532049|NCT01857622|164761554|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.7|||||TWO_SIDED|95.0|-15.4|25.2|||Wilcoxon (Mann-Whitney)|||||25.2|-15.4|
82532050|NCT01374802|164761632|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|115.29|STANDARD_DEVIATION|19.4|||TWO_SIDED|90.0|101.36|131.13|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||131.13|101.36|
82646804|NCT00883129|165008363|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in the Quantitative Lung Fibrosis Score for the whole lung (QLF-WL).||||>0.05
82411047|NCT02966834|164530800|OTHER||Mean Difference (Net)|-26.5|||||TWO_SIDED|95.0|-63.3|10.4||||||||10.4|-63.3|
82411048|NCT02966834|164530800|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-36.7|37.1||||||||37.1|-36.7|
82411049|NCT02966834|164530801|OTHER||Mean Difference (Net)|-20.0|||||TWO_SIDED|95.0|-52.73|12.74||||||||12.74|-52.73|
82411050|NCT02966834|164530801|OTHER||Mean Difference (Net)|-24.7|||||TWO_SIDED|95.0|-50.8|1.39||||||||1.39|-50.80|
82411051|NCT02966834|164530801|OTHER||Mean Difference (Net)|-22.61|||||TWO_SIDED|95.0|-53.39|8.16||||||||8.16|-53.39|
82411052|NCT02966834|164530801|OTHER||Mean Difference (Net)|-31.67|||||TWO_SIDED|95.0|-63.44|0.09||||||||0.09|-63.44|
82411053|NCT02966834|164530801|OTHER||Mean Difference (Net)|-5.79|||||TWO_SIDED|95.0|-38.33|26.74||||||||26.74|-38.33|
82411054|NCT02966834|164530802|OTHER||Mean Difference (Net)|-106.0|||||TWO_SIDED|95.0|-205.1|-6.8||||||||-6.8|-205.1|
82411055|NCT02966834|164530802|OTHER||Mean Difference (Net)|-65.5|||||TWO_SIDED|95.0|-148.5|17.6||||||||17.6|-148.5|
82411056|NCT02966834|164530802|OTHER||Mean Difference (Net)|-42.8|||||TWO_SIDED|95.0|-136.5|50.9||||||||50.9|-136.5|
82411057|NCT02966834|164530802|OTHER||Mean Difference (Net)|-65.8|||||TWO_SIDED|95.0|-161.2|29.5||||||||29.5|-161.2|
82411058|NCT02966834|164530802|OTHER||Mean Difference (Net)|-54.1|||||TWO_SIDED|95.0|-153.6|45.3||||||||45.3|-153.6|
82411059|NCT02966834|164530803|OTHER||Mean Difference (Net)|-6.099|||||TWO_SIDED|95.0|-11.929|-0.268||||||||-0.268|-11.929|
82411060|NCT02966834|164530803|OTHER||Mean Difference (Net)|-2.337|||||TWO_SIDED|95.0|-6.962|2.289||||||||2.289|-6.962|
82411061|NCT02966834|164530803|OTHER||Mean Difference (Net)|-2.232|||||TWO_SIDED|95.0|-7.679|3.215||||||||3.215|-7.679|
82411062|NCT02966834|164530803|OTHER||Mean Difference (Net)|-1.492|||||TWO_SIDED|95.0|-7.413|4.43||||||||4.430|-7.413|
82411063|NCT02966834|164530803|OTHER||Mean Difference (Net)|5.236|||||TWO_SIDED|95.0|-0.591|11.063||||||||11.063|-0.591|
82411064|NCT02966834|164530804|OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-2.7|1.6||||||||1.6|-2.7|
82411065|NCT02966834|164530804|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-1.5|2.1||||||||2.1|-1.5|
82411066|NCT02966834|164530804|OTHER||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-1.2|2.7||||||||2.7|-1.2|
82411067|NCT02966834|164530804|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-2.1|2.0||||||||2.0|-2.1|
82411068|NCT02966834|164530804|OTHER||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-1.5|2.9||||||||2.9|-1.5|
82411069|NCT02966834|164530805|OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.08|0.04||||||||0.04|-0.08|
82411070|NCT02966834|164530805|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.09|0.01||||||||0.01|-0.09|
82411071|NCT02966834|164530805|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.06|0.05||||||||0.05|-0.06|
82411072|NCT02966834|164530805|OTHER||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.09|0.02||||||||0.02|-0.09|
82411073|NCT02966834|164530805|OTHER||Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.1|0.02||||||||0.02|-0.10|
82411074|NCT02966834|164530806|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.33|0.63||||||||0.63|-0.33|
82411075|NCT02966834|164530806|OTHER||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.51|0.3||||||||0.30|-0.51|
82411076|NCT02966834|164530806|OTHER||Mean Difference (Net)|0.12|||||TWO_SIDED|95.0|-0.34|0.58||||||||0.58|-0.34|
82411077|NCT02966834|164530806|OTHER||Mean Difference (Net)|-0.08|||||TWO_SIDED|95.0|-0.54|0.38||||||||0.38|-0.54|
82411078|NCT02966834|164530806|OTHER||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.54|0.41||||||||0.41|-0.54|
82411079|NCT02966834|164530816|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|0.69|12.02|||||Analysis was performed using Logistic regression. No covariates were used.|||12.02|0.69|
82411080|NCT02966834|164530816|OTHER||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.48|5.02|||||Analysis was performed using Logistic regression. No covariates were used.|||5.02|0.48|
82411081|NCT02966834|164530816|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.84|10.76|||||Analysis was performed using Logistic regression. No covariates were used.|||10.76|0.84|
82411082|NCT02966834|164530816|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.84|10.76|||||Analysis was performed using Logistic regression. No covariates were used.|||10.76|0.84|
82411083|NCT02966834|164530816|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.43|4.13|||||Analysis was performed using Logistic regression. No covariates were used.|||4.13|0.43|
82411084|NCT02966834|164530817|OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.41|4.47|||||Analysis was performed using Logistic regression. No covariates were used.|||4.47|0.41|
82411085|NCT02966834|164530817|OTHER||Odds Ratio (OR)|3.18|||||TWO_SIDED|95.0|0.95|10.65|||||Analysis was performed using Logistic regression. No covariates were used.|||10.65|0.95|
82411086|NCT02966834|164530817|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.62|5.53|||||Analysis was performed using Logistic regression. No covariates were used.|||5.53|0.62|
82411087|NCT02966834|164530817|OTHER||Odds Ratio (OR)|2.27|||||TWO_SIDED|95.0|0.74|6.92|||||Analysis was performed using Logistic regression. No covariates were used.|||6.92|0.74|
82411088|NCT02966834|164530817|OTHER||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|0.69|6.51|||||Analysis was performed using Logistic regression. No covariates were used.|||6.51|0.69|
82411089|NCT02966834|164530818|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.27|3.04|||||Analysis was performed using Logistic regression. No covariates were used.|||3.04|0.27|
82411090|NCT02966834|164530818|OTHER||Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|0.73|6.91|||||Analysis was performed using Logistic regression. No covariates were used.|||6.91|0.73|
82411091|NCT02966834|164530818|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.35|3.08|||||Analysis was performed using Logistic regression. No covariates were used.|||3.08|0.35|
82532051|NCT01374802|164761633|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|87.91|STANDARD_DEVIATION|38.3|||TWO_SIDED|90.0|68.609|112.63|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||112.630|68.609|
82532052|NCT01374802|164761634|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|128.41|STANDARD_DEVIATION|15.6|||TWO_SIDED|90.0|115.724|142.489|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Faldaprevir+DRV/r : DRV/r) of Darunavir||142.489|115.724|
82532053|NCT00064025|164761644|SUPERIORITY_OR_OTHER|||||||0.701|||||||Fisher Exact|||||||0.701
82532054|NCT00064025|164761645|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||||||<.001
82532055|NCT00064025|164761646|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||||||<.001
82446580|NCT00151476|164601261|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|21.22||||||95.0|4.07|64.16|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related events (months); 25th percentile.||64.16|4.07|
82532056|NCT01644474|164761674|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.6|||<|0.0001|TWO_SIDED|95.0|-40.2|-23.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Alirocumab group was compared to ezetimibe group using an appropriate contrast statement.||-23.0|-40.2|<0.0001
82532057|NCT01644474|164761675|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.5|||<|0.0001|TWO_SIDED|95.0|-35.7|-21.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-21.2|-35.7|<0.0001
82532058|NCT01644474|164761676|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|95.0|-32.3|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-32.3|<0.0001
82446581|NCT00151476|164601261|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Estimate of Time to Event|19.81||||||95.0|3.68|64.16|||||Kaplan-Meier Estimate of Time to Event (months).|Time to FAP-related events (months); 25th percentile.||64.16|3.68|
82446582|NCT04099511|164601276|SUPERIORITY|||||||0.693|||||||Wilcoxon (Mann-Whitney)|||||||.693
82532059|NCT01644474|164761677|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.5|||<|0.0001|TWO_SIDED|95.0|-33.5|-17.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-17.4|-33.5|<0.0001
82532060|NCT01644474|164761678|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.7|||<|0.0001|TWO_SIDED|95.0|-24.7|-12.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-12.7|-24.7|<0.0001
82532061|NCT01644474|164761679|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.7|||<|0.0001|TWO_SIDED|95.0|-31.5|-19.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.8|-31.5|<0.0001
82532062|NCT01644474|164761680|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.8|||<|0.0001|TWO_SIDED|95.0|-32.4|-19.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.2|-32.4|<0.0001
82532063|NCT01644474|164761681|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.3|||<|0.0001|TWO_SIDED|95.0|-23.1|-13.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.5|-23.1|<0.0001
82446583|NCT04099511|164601277|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||||||.536
82446584|NCT04099511|164601278|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||.260
82446585|NCT04099511|164601279|SUPERIORITY|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||||||.387
82532064|NCT01644474|164761682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|34.8|||<|0.0001|TWO_SIDED|95.0|8.7|139.0||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||139.0|8.7|<0.0001
82532065|NCT01644474|164761683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|69.8||||0.0001|TWO_SIDED|95.0|8.8|556.0||Threshold for significance was ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||556.0|8.8|0.0001
82532066|NCT01644474|164761684|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4||||0.4013|TWO_SIDED|95.0|-14.8|5.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Ezetimibe|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.9|-14.8|0.4013
82532067|NCT00377741|164761695|SUPERIORITY_OR_OTHER||Mean exposure ratio for AUC(0-tau)|1.24|||||TWO_SIDED|90.0|0.98|1.55||||||||1.55|0.98|
82532068|NCT00377741|164761696|SUPERIORITY_OR_OTHER||Mean exposure ratio for Cmax|1.12|||||TWO_SIDED|90.0|0.88|1.42||||||||1.42|0.88|
82532069|NCT01500226|164761700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|1.2|<0.001
82532070|NCT01500226|164761701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.143|TWO_SIDED|95.0|0.9|1.6||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||1.6|0.9|0.143
82532071|NCT01500226|164761702|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.0||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.0|1.3|<0.001
82532072|NCT04212169|164761703|SUPERIORITY||Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|8.981||0.888|TWO_SIDED|90.0|-13.67|16.22|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||16.22|-13.67|0.888
82411092|NCT02966834|164530818|OTHER||Odds Ratio (OR)|2.17|||||TWO_SIDED|95.0|0.73|6.42|||||Analysis was performed using Logistic regression. No covariates were used.|||6.42|0.73|
82411093|NCT02966834|164530818|OTHER||Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.67|5.99|||||Analysis was performed using Logistic regression. No covariates were used.|||5.99|0.67|
82411094|NCT02966834|164530819|OTHER||Mean Difference (Net)|18.21|||||TWO_SIDED|95.0|-2.59|39.0||||||||39.00|-2.59|
82411095|NCT02966834|164530819|OTHER||Mean Difference (Net)|11.05|||||TWO_SIDED|95.0|-7.42|29.53||||||||29.53|-7.42|
82411096|NCT02966834|164530819|OTHER||Mean Difference (Net)|18.44|||||TWO_SIDED|95.0|0.82|36.06||||||||36.06|0.82|
82411097|NCT02966834|164530819|OTHER||Mean Difference (Net)|25.48|||||TWO_SIDED|95.0|7.0|43.95||||||||43.95|7.00|
82411098|NCT02966834|164530819|OTHER||Mean Difference (Net)|13.26|||||TWO_SIDED|95.0|-5.47|31.99||||||||31.99|-5.47|
82411099|NCT02966834|164530820|OTHER||Mean Difference (Net)|14.99|||||TWO_SIDED|95.0|-5.13|35.1||||||||35.10|-5.13|
82411100|NCT02966834|164530820|OTHER||Mean Difference (Net)|6.97|||||TWO_SIDED|95.0|-10.9|24.84||||||||24.84|-10.90|
82411101|NCT02966834|164530820|OTHER||Mean Difference (Net)|11.78|||||TWO_SIDED|95.0|-5.27|28.82||||||||28.82|-5.27|
82411102|NCT02966834|164530820|OTHER||Mean Difference (Net)|21.83|||||TWO_SIDED|95.0|3.96|39.7||||||||39.70|3.96|
82411103|NCT02966834|164530820|OTHER||Mean Difference (Net)|21.58|||||TWO_SIDED|95.0|3.46|39.69||||||||39.69|3.46|
82411104|NCT02966834|164530821|OTHER||Mean Difference (Net)|6.15|||||TWO_SIDED|95.0|-14.76|27.06||||||||27.06|-14.76|
82411105|NCT02966834|164530821|OTHER||Mean Difference (Net)|7.26|||||TWO_SIDED|95.0|-11.32|25.84||||||||25.84|-11.32|
82411106|NCT02966834|164530821|OTHER||Mean Difference (Net)|9.13|||||TWO_SIDED|95.0|-8.59|26.85||||||||26.85|-8.59|
82411107|NCT02966834|164530821|OTHER||Mean Difference (Net)|19.94|||||TWO_SIDED|95.0|1.36|38.51||||||||38.51|1.36|
82411108|NCT02966834|164530821|OTHER||Mean Difference (Net)|27.04|||||TWO_SIDED|95.0|8.2|45.87||||||||45.87|8.20|
82411109|NCT02966834|164530822|OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-1.46|0.92||||||||0.92|-1.46|
82411110|NCT02966834|164530822|OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-1.58|0.62||||||||0.62|-1.58|
82411111|NCT02966834|164530822|OTHER||Mean Difference (Net)|-0.46|||||TWO_SIDED|95.0|-1.53|0.61||||||||0.61|-1.53|
82411112|NCT02966834|164530822|OTHER||Mean Difference (Net)|-0.96|||||TWO_SIDED|95.0|-2.03|0.12||||||||0.12|-2.03|
82411113|NCT02966834|164530822|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.4|0.8||||||||0.80|-1.40|
82411114|NCT02966834|164530823|OTHER||Mean Difference (Net)|-0.39|||||TWO_SIDED|95.0|-1.49|0.71||||||||0.71|-1.49|
82411115|NCT02966834|164530823|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.41|0.61||||||||0.61|-1.41|
82411116|NCT02966834|164530823|OTHER||Mean Difference (Net)|-0.26|||||TWO_SIDED|95.0|-1.24|0.72||||||||0.72|-1.24|
82411117|NCT02966834|164530823|OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-1.39|0.56||||||||0.56|-1.39|
82411118|NCT02966834|164530823|OTHER||Mean Difference (Net)|-0.29|||||TWO_SIDED|95.0|-1.28|0.7||||||||0.70|-1.28|
82411119|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.7|0.5|||||Duration|||0.5|-0.7|
82411120|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.2|0.9|||||Duration|||0.9|-0.2|
82411121|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.0|0.1|||||Duration|||0.1|-1.0|
82411122|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||||Duration|||0.7|-0.3|
82411123|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.4|0.6|||||Duration|||0.6|-0.4|
82411124|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.3|||||Degree|||0.3|-0.8|
82411125|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Degree|||0.5|-0.5|
82411126|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.6|0.5|||||Degree|||0.5|-0.6|
82411127|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.7|0.3|||||Degree|||0.3|-0.7|
82411128|NCT02966834|164530824|OTHER||Median Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.6|0.4|||||Degree|||0.4|-0.6|
82411129|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Direction|||0.7|-0.7|
82411130|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.7|0.6|||||Direction|||0.6|-0.7|
82411131|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.5|||||Direction|||0.5|-0.8|
82411132|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2|||||Direction|||0.2|-1.0|
82411133|NCT02966834|164530824|OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||||Direction|||0.6|-0.6|
82411134|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-1.1|0.3|||||Disability|||0.3|-1.1|
82411135|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.8|0.5|||||Disability|||0.5|-0.8|
82411136|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
82411137|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
82411138|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-1.0|0.3|||||Disability|||0.3|-1.0|
82411139|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.3|||||Distribution|||0.3|-0.9|
82411140|NCT02966834|164530824|OTHER||Median Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.2|||||Distribution|||0.2|-0.9|
82411141|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||||Distribution|||0.0|-1.0|
82411142|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-0.9|0.2|||||Distribution|||0.2|-0.9|
82411143|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.7|0.3|||||Distribution|||0.3|-0.7|
82532073|NCT04212169|164761703|SUPERIORITY||Mean Difference (Final Values)|5.87|STANDARD_ERROR_OF_MEAN|9.756||0.549|TWO_SIDED|90.0|-10.36|22.1|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||22.10|-10.36|0.549
82411144|NCT02966834|164530824|OTHER||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-3.3|1.3|||||5-D Itch Total Score|||1.3|-3.3|
82411145|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-2.2|2.1|||||5-D Itch Total Score|||2.1|-2.2|
82411146|NCT02966834|164530824|OTHER||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-3.5|0.7|||||5-D Itch Total Score|||0.7|-3.5|
82411147|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-3.0|1.2|||||5-D Itch Total Score|||1.2|-3.0|
82411148|NCT02966834|164530824|OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.7|1.6|||||5-D Itch Total Score|||1.6|-2.7|
82411149|NCT02966834|164530828|OTHER||Mean Difference (Net)|-0.71|||||TWO_SIDED|95.0|-1.69|0.28||||||||0.28|-1.69|
82411150|NCT02966834|164530828|OTHER||Mean Difference (Net)|-0.62|||||TWO_SIDED|95.0|-1.49|0.26||||||||0.26|-1.49|
82411151|NCT02966834|164530828|OTHER||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-1.76|-0.03||||||||-0.03|-1.76|
82411152|NCT02966834|164530828|OTHER||Mean Difference (Net)|-1.16|||||TWO_SIDED|95.0|-2.05|-0.28||||||||-0.28|-2.05|
82411153|NCT02966834|164530828|OTHER||Mean Difference (Net)|-0.95|||||TWO_SIDED|95.0|-1.85|-0.06||||||||-0.06|-1.85|
82411154|NCT02966834|164530829|OTHER||Least Square (LS) mean ratio|0.967|||||TWO_SIDED|95.0|0.635|1.471||||||||1.471|0.635|
82411155|NCT02966834|164530829|OTHER||LS mean ratio|1.17|||||TWO_SIDED|95.0|0.8|1.712||||||||1.712|0.8|
82411156|NCT02966834|164530829|OTHER||LS mean ratio|0.909|||||TWO_SIDED|95.0|0.627|1.316||||||||1.316|0.627|
82411157|NCT02966834|164530829|OTHER||LS mean ratio|0.69|||||TWO_SIDED|95.0|0.474|1.005||||||||1.005|0.474|
82411158|NCT02966834|164530829|OTHER||LS mean ratio|0.825|||||TWO_SIDED|95.0|0.564|1.207||||||||1.207|0.564|
82411159|NCT02966834|164530830|OTHER||LS mean ratio|1.363|||||TWO_SIDED|95.0|0.932|1.995||||||||1.995|0.932|
82411160|NCT02966834|164530830|OTHER||LS mean ratio|2.05|||||TWO_SIDED|95.0|1.456|2.887||||||||2.887|1.456|
82411161|NCT02966834|164530830|OTHER||LS mean ratio|2.457|||||TWO_SIDED|95.0|1.758|3.436||||||||3.436|1.758|
82411162|NCT02966834|164530830|OTHER||LS mean ratio|3.128|||||TWO_SIDED|95.0|2.206|4.435||||||||4.435|2.206|
82411163|NCT02966834|164530830|OTHER||LS mean ratio|2.701|||||TWO_SIDED|95.0|1.915|3.81||||||||3.81|1.915|
82411164|NCT02814526|164530831|SUPERIORITY||Mean Difference (Net)|0.078||||0.29|TWO_SIDED||||||Regression, Linear|||||||0.29
82411165|NCT02814526|164530832|SUPERIORITY||Mean Difference (Net)|0.031||||0.74|TWO_SIDED||||||Regression, Linear|||||||0.74
82411166|NCT02814526|164530833|SUPERIORITY||Mean Difference (Net)|-0.009447||||0.8284|TWO_SIDED||||||Regression, Linear|||||||0.8284
82411167|NCT02814526|164530834|SUPERIORITY||Mean Difference (Net)|-0.02024||||0.7086|TWO_SIDED||||||Regression, Linear|||||||0.7086
82532074|NCT04212169|164761703|SUPERIORITY||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|7.014||0.807|TWO_SIDED|90.0|-13.38|9.95|||Mixed Models Analysis||Differences less than 0 favours MEDI3506|||9.95|-13.38|0.807
82411168|NCT02814526|164530835|SUPERIORITY||Mean Difference (Net)|0.29||||0.06|TWO_SIDED||||||Regression, Linear|||||||0.06
82411169|NCT02814526|164530836|SUPERIORITY||Mean Difference (Net)|-0.17||||0.33|TWO_SIDED||||||Regression, Linear|||||||0.33
82411170|NCT02814526|164530837|SUPERIORITY||Mean Difference (Net)|-0.1||||0.49|TWO_SIDED||||||Regression, Linear|||||||0.49
82411171|NCT02814526|164530838|SUPERIORITY||Mean Difference (Net)|-0.02||||0.61|TWO_SIDED||||||Regression, Linear|||||||0.61
82411172|NCT02814526|164530839|SUPERIORITY||Mean Difference (Net)|-0.01||||0.78|TWO_SIDED||||||Regression, Linear|||||||0.78
82411173|NCT02814526|164530840|SUPERIORITY||Mean Difference (Net)|-0.04||||0.31|TWO_SIDED||||||Regression, Linear|||||||0.31
82411174|NCT02814526|164530841|SUPERIORITY||Mean Difference (Net)|-0.0005||||0.817|TWO_SIDED||||||Regression, Linear|||||||0.817
82411175|NCT02814526|164530842|SUPERIORITY||Mean Difference (Net)|0.002||||0.64|TWO_SIDED||||||Regression, Linear|||||||0.64
82411176|NCT02814526|164530843|SUPERIORITY||Mean Difference (Net)|-0.01||||0.97|TWO_SIDED||||||Regression, Linear|||||||0.97
82411177|NCT02814526|164530844|SUPERIORITY||Mean Difference (Net)|-0.17||||0.94|TWO_SIDED||||||Regression, Linear|||||||0.94
82411178|NCT03454555|164530880|SUPERIORITY||Mean Difference (Final Values)|-5.6||||0.31|TWO_SIDED|95.0|-16.6|5.3|||Mixed Models Analysis|||||5.3|-16.6|0.31
82411179|NCT03454555|164530881|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.963|TWO_SIDED|95.0|-10.3|10.7|||Mixed Models Analysis|||||10.7|-10.3|0.963
82411180|NCT03454555|164530882|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.253|TWO_SIDED|95.0|-16.8|4.4|||Mixed Models Analysis|||||4.4|-16.8|0.253
82411181|NCT03454555|164530883|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.9|TWO_SIDED|95.0|-10.1|11.5|||Mixed Models Analysis|||||11.5|-10.1|0.90
82411182|NCT03454555|164530884|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.65|TWO_SIDED|95.0|-13.7|8.6|||Mixed Models Analysis|||||8.6|-13.7|0.65
82411183|NCT03454555|164530885|SUPERIORITY||Mean Difference (Final Values)|9.4||||0.102|TWO_SIDED|95.0|-1.9|20.8|||Mixed Models Analysis|||||20.8|-1.9|0.102
82411184|NCT03454555|164530886|SUPERIORITY||Odds Ratio (OR)|0.93||||0.83|TWO_SIDED|95.0|0.5|1.75|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.75|0.50|0.83
82411185|NCT03454555|164530887|SUPERIORITY||Odds Ratio (OR)|0.79||||0.47|TWO_SIDED|95.0|0.42|1.5|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.50|0.42|0.47
82411186|NCT03454555|164530888|SUPERIORITY||Odds Ratio (OR)|1.02||||0.96|TWO_SIDED|95.0|0.54|1.9|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.90|0.54|0.96
82411187|NCT03454555|164530889|SUPERIORITY||Odds Ratio (OR)|0.71||||0.28|TWO_SIDED|95.0|0.38|1.33|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.33|0.38|0.28
82411188|NCT03454555|164530890|SUPERIORITY||Odds Ratio (OR)|0.9||||0.75|TWO_SIDED|95.0|0.47|1.71|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.71|0.47|0.75
82446586|NCT04099511|164601280|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
82532075|NCT04212169|164761705|SUPERIORITY||Odds Ratio (OR)|1.53||||0.6396|TWO_SIDED|90.0|0.19|9.94|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||9.94|0.19|0.6396
82532076|NCT04212169|164761705|SUPERIORITY||Odds Ratio (OR)|0.76||||0.9999|TWO_SIDED|90.0|0.03|6.38|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||6.38|0.03|0.9999
82532077|NCT04212169|164761705|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0935|TWO_SIDED|90.0|0.91|10.49|||Regression, Logistic||Odds ratio greater than 1 favours MEDI3506|||10.49|0.91|0.0935
82532078|NCT04212169|164761707|SUPERIORITY||Odds Ratio (OR)|3.06||||0.445|TWO_SIDED|90.0|0.08|119.65|||Fisher Exact||Odds ratio greater than one favour MEDI3506|||119.65|0.08|0.4450
82532079|NCT04212169|164761707|SUPERIORITY||Odds Ratio (OR)|0.0||||0.9999|TWO_SIDED|90.0|0.0|28.0|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||28.0|0.0|0.9999
82532080|NCT04212169|164761707|SUPERIORITY||Odds Ratio (OR)|5.5||||0.1132|TWO_SIDED|90.0|0.75|130.35|||Fisher Exact||Odds ratio greater than 1 favours MEDI3506|||130.35|0.75|0.1132
82411189|NCT03454555|164530891|SUPERIORITY||Odds Ratio (OR)|0.68||||0.25|TWO_SIDED|95.0|0.35|1.31|||Mixed Models Analysis|Used a logistic mixed model for repeated measures||||1.31|0.35|0.25
82411190|NCT03454555|164530892|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.7|TWO_SIDED|95.0|-0.9|1.4|||Mixed Models Analysis|||||1.4|-0.9|0.70
82411191|NCT03454555|164530893|SUPERIORITY||Median Difference (Final Values)|0.1||||0.92|TWO_SIDED|95.0|-1.1|1.2|||Mixed Models Analysis|||||1.2|-1.1|0.92
82411192|NCT03454555|164530894|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.64|TWO_SIDED|95.0|-0.7|1.2|||Mixed Models Analysis|||||1.2|-0.7|0.64
82411193|NCT03454555|164530895|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.75|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|0.75
82411194|NCT03454555|164530896|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.69|TWO_SIDED|95.0|-0.9|1.4|||Mixed Models Analysis|||||1.4|-0.9|0.69
82411195|NCT03454555|164530897|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.33|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||||1.8|-0.6|0.33
82411196|NCT03454555|164530898|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|||||1.5|-1.8|0.86
82411197|NCT03454555|164530899|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.76|TWO_SIDED|95.0|-1.4|1.9|||Mixed Models Analysis|||||1.9|-1.4|0.76
82411198|NCT03454555|164530900|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.55|TWO_SIDED|95.0|-2.0|1.1|||Mixed Models Analysis|||||1.1|-2.0|0.55
82446587|NCT04099511|164601281|SUPERIORITY|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||||||0.826
82532081|NCT03699124|164761772|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|0.936|||||TWO_SIDED|95.0|0.816|1.073||||||||1.073|0.816|
82532082|NCT03699124|164761772|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|1.115|||||TWO_SIDED|95.0|0.967|1.287||||||||1.287|0.967|
82532083|NCT03699124|164761772|EQUIVALENCE|Equivalence between two lot groups is demonstrated if the confidence interval of the ratio of the GMTs lies within the interval \[½, 2\]. For the trial to be successful, all three lot group comparisons must be equivalent by this definition.|GMT Ratio|1.044|||||TWO_SIDED|95.0|0.915|1.191||||||||1.191|0.915|
82411199|NCT03454555|164530901|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.52|TWO_SIDED|95.0|-2.1|1.1|||Mixed Models Analysis|||||1.1|-2.1|0.52
82411200|NCT03454555|164530902|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.37|TWO_SIDED|95.0|-0.2|0.4|||Mixed Models Analysis|||||0.4|-0.2|0.37
82411201|NCT03454555|164530903|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.91|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||||0.3|-0.3|0.91
82411202|NCT03454555|164530904|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.33|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.33
82411203|NCT03454555|164530905|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|95.0|-0.3|0.6|||Mixed Models Analysis|||||0.6|-0.3|0.46
82411204|NCT03454555|164530906|SUPERIORITY||Risk Difference (RD)|-0.02||||0.52|TWO_SIDED|95.0|-0.08|0.04|||Chi-squared|||||0.04|-0.08|0.52
82411205|NCT03454555|164530907|SUPERIORITY||Odds Ratio (OR)|1.48||||0.17|TWO_SIDED|95.0|0.85|2.59|||Mixed Models Analysis|Used a generalized logistic model for repeated measurements; modeled the outcome of intention to taper.||||2.59|0.85|0.17
82411206|NCT03454555|164530908|SUPERIORITY||Odds Ratio (OR)|1.28||||0.41|TWO_SIDED|95.0|0.71|2.31|||Mixed Models Analysis|Used a generalized logistic model for repeated measurements; modeled the outcome of intention to taper.||||2.31|0.71|0.41
82411207|NCT03454555|164530909|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
82411208|NCT03454555|164530910|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||0.67
82411209|NCT05172609|164530939|EQUIVALENCE|Margin difference of 1 standard deviation (SD) or higher was considered evidence of non-equivalence comparison||||||0.47|||||||t-test, 2 sided|||T-tests between EBIS and IAU conditions at 12-week follow up for AIM||||.47
82411210|NCT05172609|164530940|EQUIVALENCE|Margin difference of 1 SD or higher was considered evidence of non-equivalence comparison||||||0.88|||||||t-test, 2 sided|||T-tests between EBIS and IAU conditions at 12-week follow up for FIM||||.88
82411211|NCT05172609|164530941|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS screening rating at Time 3: two weeks after completing the training||||.46
82411212|NCT05172609|164530941|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS screening rating at Time 4: 12 weeks after completing the training||||.40
82411213|NCT05172609|164530941|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS planning rating at Time 3: two weeks after completing the training||||.56
82411214|NCT05172609|164530941|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing SUDS planning rating at Time 4: 12 weeks after completing the training||||.68
82446588|NCT04099511|164601282|SUPERIORITY|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||||||0.388
82446589|NCT04099511|164601283|SUPERIORITY|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
82532084|NCT03954158|164761872|SUPERIORITY||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.53||0.0071|TWO_SIDED|95.0|-2.7|-0.5|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures (MMRM) included the fixed effect of visit, and the covariance structure UN was used.||-0.5|-2.7|0.0071
82532085|NCT03954158|164761872|SUPERIORITY||Least squares mean of difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.0029|TWO_SIDED|95.0|-3.3|-0.8|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.8|-3.3|0.0029
82411215|NCT05172609|164530941|SUPERIORITY|||||||0.87|||||||ANCOVA|||Repeated measures analysis of covariance (ANCOVA), controlling for organization: SUDS screening at timepoints 1, 3, and 4||||.87
82411216|NCT05172609|164530941|SUPERIORITY|||||||0.43|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: SUDS planning at timepoints 1, 3, and 4||||.43
82411217|NCT05172609|164530942|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening self-efficacy rating at Time 3: two weeks after completing the training||||.59
82411218|NCT05172609|164530942|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening self-efficacy rating at Time 4: 12 weeks after completing the training||||.59
82411219|NCT05172609|164530942|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing intervening self-efficacy rating at Time 3: two weeks after completing the training||||.25
82411220|NCT05172609|164530942|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing intervening self-efficacy rating at Time 4: 12 weeks after completing the training||||.35
82411221|NCT05172609|164530942|SUPERIORITY|||||||0.88|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: Self-efficacy screening at timepoints 1, 3, and 4||||.88
82411222|NCT05172609|164530942|SUPERIORITY|||||||0.71|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: Self-efficacy intervening at timepoints 1, 3, and 4||||.71
82411223|NCT05172609|164530943|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening use at Time 3: two weeks after completing the training||||.88
82411224|NCT05172609|164530943|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing screening use at Time 4: 12 weeks after completing the training||||.55
82411225|NCT05172609|164530943|SUPERIORITY|||||||0.36|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: CSR screening at timepoints 1, 3, and 4||||.36
82411226|NCT05172609|164530944|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing total SPIRS score at Time 3: two weeks after completing the training||||.24
82411227|NCT05172609|164530944|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Test of superiority between EBIS and IAU groups comparing total SPIRS score at Time 4: 12 weeks after completing the training||||.88
82411228|NCT05172609|164530944|SUPERIORITY|||||||0.1|||||||ANCOVA|||repeated measures analysis of covariance (ANCOVA), controlling for organization: SPIRS at timepoints 3 and 4||||.10
82411229|NCT00498550|164530946|SUPERIORITY||difference in treatment means|-4.54|STANDARD_ERROR_OF_MEAN|2.57||0.088|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.088
82411230|NCT00320086|164530947|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||ANOVA||||<0.05
82411231|NCT00300053|164530952|SUPERIORITY|||||||0.02|||||||ANCOVA|||Frequency of angina episodes per week 6 months after treatment.||||0.020
82411232|NCT00300053|164530952|SUPERIORITY|||||||0.035|||||||ANCOVA|||Frequency of angina episodes per week 12 months after treatment.||||0.035
82411233|NCT00300053|164530952|SUPERIORITY|||||||0.167|||||||ANCOVA|||Frequency of angina episodes per week 6 months after treatment.||||0.167
82411234|NCT00300053|164530952|SUPERIORITY|||||||0.181|||||||ANCOVA|||Frequency of angina episodes per week 12 months after treatment.||||0.181
82411235|NCT00300053|164530953|SUPERIORITY|||||||0.014|||||||ANCOVA|||Change from baseline to 6 months||||0.014
82411236|NCT00300053|164530953|SUPERIORITY|||||||0.017|||||||ANCOVA|||Change from baseline to 12 months||||0.017
82411237|NCT00300053|164530953|SUPERIORITY|||||||0.097|||||||ANCOVA|||Change from baseline to 6 months||||0.097
82411238|NCT00300053|164530953|SUPERIORITY|||||||0.134|||||||ANCOVA|||Change from baseline to 12 months||||0.134
82411239|NCT00614393|164531001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.41||||0.06|TWO_SIDED|95.0|0.99|2.0|||Regression, Cox|||||2.00|0.99|0.06
82411240|NCT00614393|164531001|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.18|TWO_SIDED|95.0|0.89|1.79|||Regression, Cox|||||1.79|0.89|0.18
82411241|NCT00614393|164531002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||0.07|TWO_SIDED|95.0|0.98|1.83|||Regression, Cox|||||1.83|0.98|0.07
82411242|NCT00614393|164531002|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.44|TWO_SIDED|95.0|0.83|1.55|||Regression, Cox|||||1.55|0.83|0.44
82411243|NCT02328105|164531008|SUPERIORITY|Assuming the true overall response rate is 0.20 under the null hypothesis, then this design will provide 81% power to detect a difference of 0.15 under the alternative hypothesis, assuming a one-sided alpha = 0.09 significance level. A three stage design with n=15, 30 and 45 subjects was determined with the following rejection regions: For n = 15, the rejection region in number of responses (CR or PR) is 0 - 2, for n = 30 it is 3 - 6, and for n = 45 it is 7 - 12.|Response Rate|0.364||||0.161|TWO_SIDED|95.0|0.109|0.692||This p-value is only based on partial enrollment of stage 1. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|||0.692|0.109|0.161
82411244|NCT02328105|164531009|OTHER|Estimation only.|Disease Control Rate|0.818|||||TWO_SIDED|95.0|0.482|0.977|||||Confidence interval estimated using the Clopper Pearson method.|||0.977|0.482|
82411245|NCT02328105|164531010|OTHER|Estimation only.|Median|7.3|||||TWO_SIDED|95.0|2.2|13.0|||||The Kaplan Meier method was used to estimate the median PFS(in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||13.0|2.2|
82532086|NCT03954158|164761872|SUPERIORITY||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.025|TWO_SIDED|95.0|-2.7|-0.2|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.7|0.0250
82532087|NCT03954158|164761872|SUPERIORITY||Least squares mean of difference|-2.1|STANDARD_ERROR_OF_MEAN|0.56||0.0014|TWO_SIDED|95.0|-3.3|-0.9|||Mixed Models Analysis|||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of visit, and the covariance structure UN was used.||-0.9|-3.3|0.0014
82532088|NCT03954158|164761873|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.4295|||TWO_SIDED|95.0|-2.0|0.9||||||Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.9|-2.0|
82532089|NCT03954158|164761873|OTHER||Difference of least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.1|0.4||||||Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.4|-2.1|
82411246|NCT02328105|164531011|OTHER|Estimation only.|Median|30.0|||||TWO_SIDED|95.0|2.2||Upper limit of the confidence interval is not reached due to censoring rate.||||The Kaplan Meier method was used to estimate median OS(in months). The Greenwood method was used to estimate confidence limits of median overall survival.||||2.2|
82411247|NCT02328105|164531012|OTHER|Estimation only.|Median|10.8|||||TWO_SIDED|95.0|4.9|11.9|||||The Kaplan Meier method was used to estimate median duration of response (in months). The Greenwood method was used to estimate confidence limits of median duration of response.|||11.9|4.9|
82411248|NCT02328105|164531013|OTHER|Estimation only.|Median|7.3|||||TWO_SIDED|95.0|3.0|13.0|||||The Kaplan Meier method was used to estimate median duration of disease control (in months). The Greenwood method was used to estimate confidence limits of median disease control duration.|||13.0|3.0|
82411249|NCT00855582|164531014|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|0.58|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411250|NCT00855582|164531015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|0.66|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411251|NCT00855582|164531016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.59||0.181||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.181
82411252|NCT00855582|164531017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|0.67|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0271 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411253|NCT00855582|164531018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7|STANDARD_ERROR_OF_MEAN|2.8|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0228 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411254|NCT00855582|164531019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. The pre-specified alpha level of 0.0228 was used.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411255|NCT00855582|164531020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|2.85|<|0.001||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. Based on the results of prior tests under this procedure, the statistical significance of this hypothesis was not assessed.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411256|NCT00855582|164531021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.26||0.156||95.0||||Statistical significance was assessed using a Dunnett-Bonferroni gatekeeping procedure for multiple hypothesis testing. Based on the results of prior tests under this procedure, the statistical significance of this hypothesis was not assessed.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.156
82411257|NCT00855582|164531022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.51||0.226||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.226
82446590|NCT00997620|164601333|OTHER||Mean Difference (Net)|0.5|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||The statistical analysis was of t testing of the difference of the mean between the baseline and after two weeks. The power analysis was prior to data collection was not performed for this test. The null hypothesis is no different, no difference between placebo and active treatment.||||< .05
82411258|NCT00855582|164531022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.5|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82646805|NCT00883129|165008364|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in dyspnea as measured by the Transitional Dyspnea Index Score.||||>0.05
82646806|NCT00883129|165008364|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for dyspnea using the Transitional Dyspnea Index Score for each treatment arm independently.||||<0.05
82411259|NCT00855582|164531023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.53||0.121||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.121
82411260|NCT00855582|164531023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.57||0.169||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.169
82411261|NCT00855582|164531023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.52|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411262|NCT00855582|164531023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.56|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411263|NCT00855582|164531024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411264|NCT00855582|164531024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.71|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411265|NCT00855582|164531024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|0.59|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411266|NCT00855582|164531024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|0.71|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411267|NCT00855582|164531025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|3.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411268|NCT00855582|164531025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411269|NCT00855582|164531025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.5|STANDARD_ERROR_OF_MEAN|3.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411270|NCT00855582|164531025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.9|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411271|NCT00855582|164531026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.215||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.215
82532090|NCT03954158|164761874|OTHER||Least squares mean of difference|-1.9|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-3.1|-0.7||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.7|-3.1|
82446591|NCT02250664|164601393|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
82446592|NCT02250664|164601393|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANOVA|||The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.|Group difference = 0.03 mg nicotine - 0.8 mg nicotine|-5.57|-9.51|<0.0001
82446593|NCT03847909|164601399|SUPERIORITY|P value is from an ANCOVA model with treatment group as the main effect, age category, baseline eGFR category, baseline Uox value as covariates for adjustment.|Difference of Least Mean Square|5171.7|STANDARD_ERROR_OF_MEAN|1144.07|<|0.0001|TWO_SIDED|95.0|2929.3|7414.2|||ANCOVA|||||7414.2|2929.3|<0.0001
82446594|NCT04268173|164601436|EQUIVALENCE|A two sample t-test was conducted to test the null hypothesis that the pre-intervention mean response was equivalent to the post-intervention mean response in the Prevention Navigation group. Hypothesis: A p-value greater than 0.05 suggests the means are not statistically different from one another.||||||0.84|||||||t-test, 2 sided|||||||0.84
82446595|NCT00975143|164601448|NON_INFERIORITY_OR_EQUIVALENCE|Pre-defined criterion for non-inferiority: upper bound of the 95% CI for the treatment difference \< 4.|LS Mean Difference|0.1382||||0.5077|TWO_SIDED|95.0|-0.2712|0.5475||P values are from analysis of covariance (ANCOVA) controlling for Baseline total nodular lesion count, gender and analysis site.|ANCOVA|The 95% CI of the adjusted least square mean difference (CIP-ISOTRETINOIN minus Isotretinoin) was calculated using the ANCOVA model.||Change from Baseline was calculated as the post-Baseline value minus the Baseline value||0.5475|-0.2712|0.5077
82646807|NCT00883129|165008366|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||A modified intention-to-treat inferential joint model combined a mixed-effects model for longitudinal outcomes and a survival model to handle non-ignorable missing data due to study dropout, treatment failure, or death, to assess the course over time, from baseline to 24 months, for the change in modified Rodnan Skin Score (mRSS).||||>0.05
82646808|NCT00883129|165008366|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Mixed Models Analysis|||The inferential joint model, as described for the primary analysis, was used to estimate the change from baseline to 24 months for the modified Rodnan Skin Score for each treatment arm independently.||||<0.05
82646809|NCT00883129|165008366|SUPERIORITY_OR_OTHER||||||>|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|||Based on the absolute difference between the value of the mRSS at baseline and at 24 months for each subject who returned for a 24-month assessment, a frequency distributions was prepared, stratified by treatment arm, to assess the relative distribution of subjects who either had improvements or worsening in the mRSS.||||>0.05
82646810|NCT00883129|165008367|SUPERIORITY_OR_OTHER||||||<|0.05||||||The threshold for statistical significance was a P-Value of \</=0.05.|Fisher Exact|The threshold for statistical significance was met only for the frequency of leukopenia and thrombocytopenia, but not for total SAE or death.||Fisher's Exact Test was utilized to compare the number of participants with a protocol-defined adverse event of interest, SAE or death between the MMF and CYC treatment arms.||||<0.05
82646811|NCT00883129|165008368|SUPERIORITY_OR_OTHER|||||||0.019||||||The threshold for statistical significance was a P-Value of \</=0.05.|Log Rank|||A log-rank test was utilized to assess differences between the MMF and CYC treatment arms with respect to the time to withdrawal from study drug or meeting protocol-defined criteria for treatment failure.||||0.019
82646812|NCT03273257|165008369|SUPERIORITY|||||||0.139|||||||2-sample Wilcoxon rank sum test|||The null hypothesis is that there is no difference between the treatment groups in percent change from baseline in PVR immediately before PEA.||||0.139
82646813|NCT02200614|165008400|SUPERIORITY||Hazard Ratio (HR)|0.413|||<|1e-06|TWO_SIDED|95.0|0.341|0.5|||Log Rank||Hazard ratio and 95% Confidence Interval (CI) was based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.500|0.341|<0.000001
82646814|NCT02200614|165008401|SUPERIORITY||Hazard Ratio (HR)|0.706||||0.04521|TWO_SIDED|95.0|0.501|0.994|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.994|0.501|0.045210
82446596|NCT00975143|164601449|NON_INFERIORITY_OR_EQUIVALENCE|If the two co-primary endpoints were significant, a 95% 2 sided CI on the difference between treatments (CIP-Isotretinoin minus Isotretinoin) was calculated.|Proportion difference|-3.48|||>|0.05|TWO_SIDED|95.0|-8.4|1.4|||Normal approximation|95% CI on difference in proportions (CIP-Isotretinoin minus Isotretinoin) was estimated using normal approximation.||The analysis of the secondary efficacy endpoint was based on observed cases only, with no imputation for missing values.||1.4|-8.4|>0.05
82446597|NCT00975143|164601450|NON_INFERIORITY_OR_EQUIVALENCE|Pre-defined criterion for non-inferiority: lower bound of the 95% CI for the treatment difference \> -10.|Proportion difference|-2.1|||>|0.05|TWO_SIDED|95.0|-7.94|3.74|||Normal approximation|||||3.74|-7.94|>0.05
82446598|NCT00545103|164601475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.778||95.0|||||Cochran-Mantel-Haenszel|||||||0.778
82446599|NCT00545103|164601475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.159||95.0|||||Cochran-Mantel-Haenszel|||||||0.159
82446600|NCT00545103|164601475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.368||95.0|||||Cochran-Mantel-Haenszel|||||||0.368
82446601|NCT00545103|164601476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||95.0|||||Cochran-Mantel-Haenszel|||||||0.685
82446602|NCT00545103|164601476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198||95.0|||||Cochran-Mantel-Haenszel|||||||0.198
82446603|NCT00545103|164601476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441||95.0|||||Cochran-Mantel-Haenszel|||||||0.441
82446604|NCT00082381|164601490|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 0.4% (i.e., noninferiority is demonstrated if the upper limit of a two-sided 95% confidence interval for the difference in change in HbA1c between exenatide and insulin glargine is less than 0.4%.)|Mean Difference (Final Values)|0.05||||0.4602||95.0|-0.09|0.2|||ANCOVA|||||0.20|-0.09|0.4602
82446605|NCT00082381|164601491|SUPERIORITY_OR_OTHER|||||||0.7839||95.0|||||Fisher Exact|||||||0.7839
82446606|NCT00082381|164601492|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82446607|NCT00082381|164601493|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82446608|NCT00082381|164601495|SUPERIORITY_OR_OTHER|||||||0.3002||95.0|||||Fisher Exact|||||||0.3002
82446609|NCT00082381|164601496|SUPERIORITY_OR_OTHER|||||||0.3385||95.0|||||ANCOVA|||||||0.3385
82446610|NCT02219503|164601497|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority of the Ombitasvir/Paritaprevir/Ritonavir and Dasabuvir regimen in SVR12 to a historical threshold for sofosbuvir plus pegIFN/ ribavirin (RBV) for the treatment of participants with HCV Genotype 1b (GT1b) infection and cirrhosis was calculated using a 2-sided 95% CI from Wilson's score method. Non-inferiority was to be declared if the lower confidence bound was greater than 72.7%.|Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.0|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|||100.0|94.0|
82446611|NCT02219503|164601497|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|100.0|||||TWO_SIDED|95.0|94.0|100.0|||||95% confidence interval (CI) was calculated using Wilson score method.|The superiority of the Ombitasvir/Paritaprevir/Ritonavir and Dasabuvir regimen in SVR12 to a historical threshold for sofosbuvir plus pegIFN/ ribavirin (RBV) for the treatment of participants with HCV Genotype 1b (GT1b) infection and cirrhosis was calculated using a 2-sided 95% CI from Wilson's score method. Superiority was declared if the lower confidence bound was greater than 83.2%.||100.0|94.0|
82446612|NCT03249103|164601500|OTHER|||||||0.032|||||||t-test, 2 sided|||placebo - NYX-2925 20 mg||||0.032
82646815|NCT02200614|165008402|SUPERIORITY||Hazard Ratio (HR)|0.647||||8e-06|TWO_SIDED|95.0|0.533|0.785|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.785|0.533|0.000008
82446613|NCT03249103|164601501|OTHER|||||||0.039|||||||t-test, 2 sided|||placebo - NYX-2925 200 mg||||0.039
82446614|NCT03249103|164601502|OTHER|||||||0.0072|||||||t-test, 2 sided|comparing Week 2 (Placebo) to Week 6 (NYX-2925 200 mg)||||||0.0072
82446615|NCT01786252|164601506|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular and stromal dating within the vehicle group.||||<0.05
82576397|NCT01370655|164862381|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 80% CI (equivalent to a one-sided upper 90% CI) for the difference is \<13 mmol/day the hypothesis will be supported for the 3-mg dose and testing will continue with construction of a two-sided 80% CI for the 6-mg dose (6 mg MK-7145 - placebo). The hypothesis will be supported if one or both doses meet the test criterion.|Difference in LS means|7.9|||||TWO_SIDED|80.0|-2.3|18.2|||||MK-7145 3 mg LS mean minus Placebo LS mean|||18.2|-2.3|
82646816|NCT02200614|165008403|SUPERIORITY||Hazard Ratio (HR)|0.433|||<|1e-06|TWO_SIDED|95.0|0.314|0.595|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.595|0.314|<0.000001
82446616|NCT01786252|164601506|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular and stromal dating within the hCG group.||||>0.05
82446617|NCT01786252|164601506|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare stromal staging between hCG and IVF media group.||||<0.01
82646817|NCT02200614|165008404|SUPERIORITY||Hazard Ratio (HR)|0.428||||0.011262|TWO_SIDED|95.0|0.218|0.842|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.842|0.218|0.011262
82646818|NCT02200614|165008405|SUPERIORITY||Hazard Ratio (HR)|0.685||||0.003048|TWO_SIDED|95.0|0.533|0.881|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.881|0.533|0.003048
82446618|NCT01786252|164601506|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|Sidak-multiple comparison test was performed to detect significant differences between groups.||Statistical analysis to compare differences between endometrial glandular dating between hCG and IVF media groups.||||>0.05
82446619|NCT01786252|164601507|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82446620|NCT01786252|164601508|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82446621|NCT01786252|164601509|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82446622|NCT02337725|164601536|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.39|||<|0.0001|TWO_SIDED|95.0|-8.53|-4.25|||ANCOVA||Estimated Value was reported for the least squares mean difference between TVP-1012 1mg and Placebo (TVP-1012 1mg - Placebo).|||-4.250|-8.530|<0.0001
82446623|NCT02096263|164601545|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|1.1|||||TWO_SIDED|95.0|0.92|1.31|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Infanrix vaccination history of the mother during pregnancy as continuous regressor).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, pertussis toxoid (PT), one month after the third dose of the primary vaccination.||1.31|0.92|
82646819|NCT02200614|165008406|SUPERIORITY||Hazard Ratio (HR)|0.647||||8e-06|TWO_SIDED|95.0|0.533|0.785|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.785|0.533|0.000008
82532091|NCT03954158|164761874|OTHER||Least squares mean of difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-2.7|-0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.7|
82411272|NCT00855582|164531026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.325||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.325
82411273|NCT00855582|164531026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 4. Change= Week 4 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411274|NCT00855582|164531026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.23||0.011||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for change from Baseline at Week 8. Change= Week 8 minus Baseline|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.011
82411275|NCT00855582|164531027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.23||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.230
82411276|NCT00855582|164531027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.37|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411277|NCT00855582|164531028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.191||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.191
82411278|NCT00855582|164531028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411279|NCT00855582|164531029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.763||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.763
82411280|NCT00855582|164531029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.075||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.075
82411281|NCT00855582|164531030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.384||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.384
82411282|NCT00855582|164531030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.082||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||0.082
82411283|NCT00855582|164531031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411284|NCT00855582|164531031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411285|NCT00855582|164531032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411286|NCT00855582|164531032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411287|NCT00855582|164531033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82532092|NCT03954158|164761874|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.2|-0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-2.2|
82446624|NCT02096263|164601545|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|1.14|||||TWO_SIDED|95.0|0.97|1.35|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Infanrix vaccination history of the mother during pregnancy as continuous regressor).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, filamentous hemagglutinin (FHA), one month after the third dose of the primary vaccination.||1.35|0.97|
82446625|NCT02096263|164601545|NON_INFERIORITY|Non-inferiority in terms of immune response to pertussis antigens will be demonstrated if, for each of the three antigens, the upper limit of the 95% confidence interval (CI) on the GMC ratio \[Pediarix Group divided by Infanrix hexa Group\] is ≤ 1.5.|Adjusted GMC ratio|0.79|||||TWO_SIDED|95.0|0.63|0.99|||||Adjusted GMC (ANCOVA model adjusted with the vaccine group as fixed effect and the Tdap vaccination history of the mother during pregnancy as continuous regressor.).|To demonstrate the non-inferiority of Infanrix hexa to Pediarix co-administered with ActHIB, in terms of antibody geometric mean concentrations (GMCs) for pertussis antigen, pertactin (PRN), one month after the third dose of the primary vaccination.||0.99|0.63|
82446626|NCT00500760|164601610|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.07|||||TWO_SIDED|95.0|-0.23|0.09|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|||0.09|-0.23|
82446627|NCT00500760|164601611|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.03|||||TWO_SIDED|95.0|-0.18|0.12|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|Difference between treatment groups at 6 months||0.12|-0.18|
82446628|NCT00500760|164601611|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimate|-0.03|||||TWO_SIDED|95.0|-1.09|0.12|||||The difference between the treatment groups is calculated as panitumumab plus chemoradiation minus chemoradiotherapy alone.|Difference between treatment groups at 12 months||0.12|-1.09|
82446629|NCT00500760|164601612|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.328||||0.3106|TWO_SIDED|95.0|0.767|2.299|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||2.299|0.767|0.3106
82446630|NCT00500760|164601613|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6069|TWO_SIDED|95.0|0.675|1.961|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||1.961|0.675|0.6069
82446631|NCT00500760|164601614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.628||||0.1223|TWO_SIDED|95.0|0.877|3.019|||Regression, Cox||Hazard ratio is presented as panitumumab plus chemoradiation:chemoradiotherapy alone.|||3.019|0.877|0.1223
82532093|NCT03954158|164761874|OTHER||Least squares mean of difference|-1.7|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-2.8|-0.5||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.5|-2.8|
82532094|NCT03954158|164761874|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.5|1.3||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||1.3|-1.5|
82532095|NCT03954158|164761874|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-1.2|1.0||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||1.0|-1.2|
82532096|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.9|-0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.1|-0.9|
82532097|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.9|0.0||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-0.9|
82532098|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-0.8|0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.1|-0.8|
82576398|NCT01370655|164862381|NON_INFERIORITY_OR_EQUIVALENCE|If the upper bound of the two-sided 80% CI (equivalent to a one-sided upper 90% CI) for the difference is \<13 mmol/day the hypothesis will be supported for the 3-mg dose and testing will continue with construction of a two-sided 80% CI for the 6-mg dose (6 mg MK-7145 - placebo). The hypothesis will be supported if one or both doses meet the test criterion.|Difference in LS means|1.1|||||TWO_SIDED|80.0|-8.5|10.7|||||MK-7145 6 mg LS mean minus Placebo LS mean|||10.7|-8.5|
82446632|NCT00500760|164601615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.535||||0.1737|TWO_SIDED|95.0|0.217|1.262|||Regression, Logistic||The odds ratio is defined as the odds of having an overall response in the panitumumab plus chemoradiation arm relative to the odds in the chemoradiotherapy alone arm.|||1.262|0.217|0.1737
82532099|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.8|0.0||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-0.8|
82532100|NCT03954158|164761875|OTHER||Difference of least square mean|0.1|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.4|0.6||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.6|-0.4|
82446633|NCT00500760|164601615|SUPERIORITY_OR_OTHER||Difference in rate|-10.99|||||TWO_SIDED|95.0|-24.56|4.14|||||Difference is presented as the rate in panitumumab plus chemoradiation arm minus the rate in chemoradiotherapy alone arm.|||4.14|-24.56|
82446634|NCT00500760|164601616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.087||||1|TWO_SIDED|95.0|0.448|2.712|||Regression, Logistic||The odds ratio is defined as the odds of having a complete response in the panitumumab plus chemoradiation arm relative to the odds in the chemoradiotherapy alone arm.|||2.712|0.448|1.0000
82446635|NCT00500760|164601616|SUPERIORITY_OR_OTHER||Difference in rate|1.33|||||TWO_SIDED|95.0|-13.23|14.71|||||Difference is presented as the rate in panitumumab plus chemoradiation arm minus the rate in chemoradiotherapy alone arm.|||14.71|-13.23|
82411288|NCT00855582|164531033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411289|NCT00855582|164531034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411290|NCT00855582|164531034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411291|NCT00855582|164531035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411292|NCT00855582|164531035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.8|STANDARD_ERROR_OF_MEAN|2.4|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411293|NCT00855582|164531036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.9|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411294|NCT00855582|164531036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.7|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411295|NCT00855582|164531037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANCOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411296|NCT00855582|164531037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.4|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|ANOVA|ANCOVA model includes terms for treatment group, region, baseline covariate, baseline-by-treatment interaction and treatment-by-region interaction.||||||<0.001
82411297|NCT00855582|164531038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
82411298|NCT00855582|164531038|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
82411299|NCT00855582|164531039|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||0.006
82411300|NCT00855582|164531039|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was adjusted for baseline LUTS severity.||||||<0.001
82411301|NCT00855582|164531040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 1.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
82411302|NCT00855582|164531040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 2.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
82411303|NCT00855582|164531040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 1.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
82411304|NCT00855582|164531040|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons. P-value is for Question 2.|Regression, Logistic|Logistic regression model includes terms for treatment group, region and centered-baseline IIEF EF Domain score.||||||<0.001
82576399|NCT01370655|164862381|SUPERIORITY_OR_OTHER||Difference in LS means|3.0|||||TWO_SIDED|90.0|-9.6|15.6|||||MK-7145 3 mg LS mean minus HCTZ 25 mg LS mean|||15.6|-9.6|
82576400|NCT01370655|164862381|SUPERIORITY_OR_OTHER||Difference in LS means|-3.9|||||TWO_SIDED|90.0|-15.0|7.2|||||MK-7145 6 mg LS mean minus HCTZ 25 mg LS mean|||7.2|-15.0|
82411305|NCT00855582|164531041|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Ranked ANOVA|||||||0.027
82411306|NCT00855582|164531041|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||Statistical significance was assessed at an alpha level of 0.05 with no adjustments for multiple comparisons.|Ranked ANOVA|||||||0.186
82411307|NCT03556683|164531080|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Effect immediately following hypertonic saline treatment.||||<0.001
82411308|NCT03556683|164531081|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||Effect of hypertonic saline 4 hours after treatment.||||0.99
82446636|NCT01600092|164601617|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|0.92|||||TWO_SIDED|95.0|0.79|1.07|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G1||1.07|0.79|
82446637|NCT01600092|164601617|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.15|||||TWO_SIDED|95.0|0.99|1.33|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G2||1.33|0.99|
82446638|NCT01600092|164601617|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|3.2|||||TWO_SIDED|95.0|2.75|3.74|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G3||3.74|2.75|
82446639|NCT01600092|164601617|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.06|||||TWO_SIDED|95.0|0.94|1.2|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype G4||1.20|0.94|
82446640|NCT01600092|164601617|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the 2-sided 95% confidence interval of the GMT ratio is \>0.67|GMT Ratio (Experimental/Existing)|1.16|||||TWO_SIDED|95.0|1.0|1.35|||||GMTs and GMT ratio were based on a model with terms for treatment and country, with the constraint that the mean baseline value is the same for both treatment groups|Serotype P1A\[8\]||1.35|1.00|
82446641|NCT02914561|164601622|SUPERIORITY||Stratified Percentage Difference|12.7||||0.0017|TWO_SIDED|95.0|4.7|20.7|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||20.7|4.7|0.0017
82446642|NCT02914561|164601622|SUPERIORITY||Stratified Percentage Difference|5.2||||0.173|TWO_SIDED|95.0|-2.4|12.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.7|-2.4|0.1730
82446643|NCT02914561|164601622|SUPERIORITY||Stratified Percentage Difference|12.0||||0.0023|TWO_SIDED|95.0|4.1|19.9|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||19.9|4.1|0.0023
82532101|NCT03954158|164761875|OTHER||Difference of least square mean|0.2|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-0.3|0.7||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.7|-0.3|
82532102|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-1.4|-0.4||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.4|-1.4|
82532103|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|-1.2|-0.2||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-1.2|
82532104|NCT03954158|164761875|OTHER||Least squares mean of difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-1.2|-0.2||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.2|-1.2|
82576401|NCT01370655|164862381|SUPERIORITY_OR_OTHER||Difference in LS means|5.0|||||TWO_SIDED|90.0|-7.7|17.6|||||HCTZ 25 mg LS mean minus Placebo LS mean|||17.6|-7.7|
82646820|NCT02200614|165008407|SUPERIORITY||Hazard Ratio (HR)|0.579||||4.4e-05|TWO_SIDED|95.0|0.444|0.755|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.755|0.444|0.000044
82446644|NCT02914561|164601622|SUPERIORITY||Stratified Percentage Difference|1.8||||0.6038|TWO_SIDED|95.0|-5.2|8.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.7|-5.2|0.6038
82446645|NCT02914561|164601623|SUPERIORITY||Stratified Percentage Difference|5.5||||0.1365|TWO_SIDED|95.0|-2.0|12.9|||Cochran-Mantel-Haenszel|CMH test stratified by use of corticosteroids (Yes/No), immunomodulators (Yes/No), and prior exposure to biologic agents (0, \>=1) at Day 1.||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.9|-2.0|0.1365
82446646|NCT02914561|164601623|SUPERIORITY||Stratified Percentage Difference|2.4||||0.5103|TWO_SIDED|95.0|-4.8|9.5|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||9.5|-4.8|0.5103
82446647|NCT02914561|164601623|SUPERIORITY||Stratified Percentage Difference|0.1||||0.9797|TWO_SIDED|95.0|-6.5|6.6|||Cochran-Mantel-Haenszel|CMH test stratified by use of corticosteroids (Yes/No), immunomodulators (Yes/No), and prior exposure to biologic agents (\<=1, \>1) at Day 1.||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||6.6|-6.5|0.9797
82532105|NCT03954158|164761875|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-1.4|-0.6||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||-0.6|-1.4|
82532106|NCT03954158|164761875|OTHER||Difference of least square mean|0.0|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-0.5|0.6||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.6|-0.5|
82532107|NCT03954158|164761875|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.7|0.5||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, visit, dosing regimen-by-visit interaction, and baseline value and the covariance structure UN was used.||0.5|-0.7|
82532108|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.0|-0.2||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.2|-1.0|
82646821|NCT02200614|165008408|SUPERIORITY||Hazard Ratio (HR)|0.484||||0.005294|TWO_SIDED|95.0|0.287|0.815|||Log Rank||The hazard ratio and its 95% CI were based on Cox Regression Model, stratified by Prostate-specific antigen doubling time (PSADT) (≤ 6 months vs. \> 6 months) and use of osteoclast-targeted therapy (No, Yes).|||0.815|0.287|0.005294
82411309|NCT03286504|164531083|SUPERIORITY||proportion difference|0.05||||0.55|TWO_SIDED|95.0|-0.112|0.212|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.212|-0.112|0.55
82411310|NCT03286504|164531084|SUPERIORITY||proportion difference|0.033||||0.71|TWO_SIDED|95.0|-0.145|0.211|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.211|-0.145|0.71
82411311|NCT03286504|164531086|SUPERIORITY||proportion difference|-0.05||||0.65|TWO_SIDED|95.0|-0.269|0.169|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.169|-0.269|0.65
82411312|NCT03286504|164531087|SUPERIORITY||proportion difference|0.226||||0.04|TWO_SIDED|95.0|0.015|0.438|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm|||0.438|0.015|0.04
82411313|NCT03286504|164531088|SUPERIORITY||proportion difference|0.208||||0.03|TWO_SIDED|95.0|0.023|0.393|||Chi-squared||Direction of proportion difference = FANMI arm minus Standard of Care arm.|||0.393|0.023|0.03
82411314|NCT02030600|164531091|SUPERIORITY_OR_OTHER||Treatment ratio|0.7|||<|0.0001|TWO_SIDED|95.0|0.61|0.8|||Poisson||Superiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was entirely below 1.0.|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: Number of treatment emergent severe or BG confirmed symptomatic hypoglycaemic episodes during the maintenance period"||0.80|0.61|<0.0001
82411315|NCT02030600|164531092|SUPERIORITY_OR_OTHER||Treatment ratio|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.74|||Poisson||Superiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was entirely below 1.0.|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Number of treatment-emergent severe or BG confirmed symptomatic nocturnal hypoglycaemic episodes during the maintenance period."||0.74|0.46|<0.0001
82411316|NCT02030600|164531093|SUPERIORITY_OR_OTHER|||||||0.3458||||||Superiority was confirmed if the p-value was less than 0.025.|McNemar|||"Stepwise hierarchical testing procedure:~Step 3: Proportion of subjects with one or more severe hypoglycaemic episodes in the maintenance period."||||0.3458
82411317|NCT02030600|164531095|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of IDeg against IGlar was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%.|Treatment contrast|0.09|||||TWO_SIDED|95.0|-0.04|0.23||||||"Change from baseline in HbA1c at week 32 (treatment period 1). Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was performed using a mixed model for repeated measurement (MMRM) with treatment, sex, antidiabetic therapy at screening, visit and dosing time as fixed effects, and age and baseline HbA1c as covariates."||0.23|-0.04|
82411318|NCT02030600|164531095|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%|Treatment contrast|0.06|||||TWO_SIDED|95.0|-0.07|0.18||||||"Change from baseline in HbA1c at week 64 (treatment period 2). The baseline values are week 32 values. Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was performed using a MMRM with treatment, sex, antidiabetic therapy at screening, visit and dosing time as fixed effects, and age and baseline HbA1c as covariates."||0.18|-0.07|
82411319|NCT01107015|164531097|OTHER|Sample size was determined on the basis of the primary outcome, change in glycated hemoglobin. The comparison of UC, which included 56 patients from nine practices, to CPDS, which included 62 patients from seven practices, had 80% power to detect a difference in mean glycated hemoglobin changes of 0.65 SD, corresponding to 1.0% if SD was 1.58%, using a two-sided test with 0.05 type I error after accounting for a within cluster correlation of 0.10.||||||0.027||||||CO (P = 0.027) and CPP (0.40) mean HbA1c levels decreased over 12 months.|Mixed Models Analysis|||Linear mixed-effects models were used to compare mean changes in primary and secondary outcomes between UC and each active intervention. The primary analysis examined 12-month changes for glycated hemoglobin. Secondary analyses jointly compared 3-, 6-, 9-, and 12-month changes between groups. Random effects accounted for within-practice clustering and within-patient correlation.||||0.027
82411320|NCT01107015|164531097|SUPERIORITY||Mean Difference (Net)|0.05||||0.001|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed-effects models were used to compare mean changes in primary and secondary outcomes between UC and each active intervention. The primary analysis examined 12-month changes for glycated hemoglobin.||||0.001
82411321|NCT02110693|164531099|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Alcohol Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.7|||||TWO_SIDED|95.0|0.64|0.75||||||Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.75|.64|
82532109|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|-0.7|0.5||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.5|-0.7|
82532110|NCT03954158|164761876|OTHER||Difference of least squares mean|0.6|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.5|1.7||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.7|-0.5|
82532111|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-1.3|0.1||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.1|-1.3|
82446648|NCT02914561|164601623|SUPERIORITY||Stratified Percentage Difference|2.4||||0.4264|TWO_SIDED|95.0|-3.9|8.8|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.8|-3.9|0.4264
82446649|NCT02914561|164601624|SUPERIORITY||Stratified Percentage Difference|13.7||||0.0839|TWO_SIDED|95.0|-1.0|28.4|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||28.4|-1.0|0.0839
82446650|NCT02914561|164601624|SUPERIORITY||Stratified Percentage Difference|1.5||||0.8288|TWO_SIDED|95.0|-12.1|15.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||15.0|-12.1|0.8288
82446651|NCT02914561|164601625|SUPERIORITY||Stratified Percentage Difference|20.6||||0.0038|TWO_SIDED|95.0|8.2|33.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||33.1|8.2|0.0038
82446652|NCT02914561|164601625|SUPERIORITY||Stratified Percentage Difference|5.8||||0.3466|TWO_SIDED|95.0|-6.6|18.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||18.3|-6.6|0.3466
82446653|NCT02914561|164601626|SUPERIORITY||Stratified Percentage Difference|6.9||||0.0963|TWO_SIDED|95.0|-1.4|15.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||15.2|-1.4|0.0963
82446654|NCT02914561|164601626|SUPERIORITY||Stratified Percentage Difference|4.2||||0.305|TWO_SIDED|95.0|-3.9|12.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, \>=1).||12.2|-3.9|0.3050
82446655|NCT02914561|164601626|SUPERIORITY||Stratified Percentage Difference|11.9||||0.0039|TWO_SIDED|95.0|3.7|20.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||20.2|3.7|0.0039
82446656|NCT02914561|164601626|SUPERIORITY||Stratified Percentage Difference|1.1||||0.7556|TWO_SIDED|95.0|-6.2|8.5|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||8.5|-6.2|0.7556
82446657|NCT02914561|164601627|SUPERIORITY||Stratified Percentage Difference|12.0||||0.0074|TWO_SIDED|95.0|3.2|20.8|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, ≥1).||20.8|3.2|0.0074
82532112|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.9|0.4||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.4|-0.9|
82532113|NCT03954158|164761876|OTHER||Difference of least square mean|0.2|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-0.9|1.3||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.3|-0.9|
82446658|NCT02914561|164601627|SUPERIORITY||Stratified Percentage Difference|5.5||||0.2159|TWO_SIDED|95.0|-3.2|14.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (0, ≥1).||14.1|-3.2|0.2159
82446659|NCT02914561|164601627|SUPERIORITY||Stratified Percentage Difference|11.6||||0.011|TWO_SIDED|95.0|2.6|20.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||20.6|2.6|0.0110
82446660|NCT02914561|164601627|SUPERIORITY||Stratified Percentage Difference|8.2||||0.0593|TWO_SIDED|95.0|-0.4|16.7|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and of immunomodulators (Yes/No) at Day 1, and number of prior exposures to biologic agent (\<=1, \>1).||16.7|-0.4|0.0593
82446661|NCT02914561|164601628|SUPERIORITY||Stratified Percentage Difference|16.8||||0.0382|TWO_SIDED|95.0|2.0|31.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||31.6|2.0|0.0382
82446662|NCT02914561|164601628|SUPERIORITY||Stratified Percentage Difference|5.8||||0.4263|TWO_SIDED|95.0|-8.5|20.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||20.0|-8.5|0.4263
82446663|NCT02914561|164601629|SUPERIORITY||Stratified Percentage Difference|10.9||||0.1827|TWO_SIDED|95.0|-4.7|26.4|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||26.4|-4.7|0.1827
82446664|NCT02914561|164601629|SUPERIORITY||Stratified Percentage Difference|4.0||||0.5944|TWO_SIDED|95.0|-11.1|19.2|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||19.2|-11.1|0.5944
82446665|NCT02914561|164601630|SUPERIORITY||Stratified Percentage Difference|15.2||||0.0512|TWO_SIDED|95.0|1.0|29.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||29.3|1.0|0.0512
82532114|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.1|-0.5||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-2.1|
82646822|NCT00759759|165008455|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|90.46||||||90.0|82.9|98.7|||ANOVA|||ANOVA of ln-transformed plasma morphine Cmax||98.7|82.9|
82446666|NCT02914561|164601630|SUPERIORITY||Stratified Percentage Difference|-0.2||||0.9801|TWO_SIDED|95.0|-13.3|13.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use of immunomodulators (Yes/No) at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||13.0|-13.3|0.9801
82446667|NCT02914561|164601631|SUPERIORITY||Stratified Percentage Difference|14.0||||0.19|TWO_SIDED|95.0|-5.1|33.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||33.1|-5.1|0.1900
82446668|NCT02914561|164601631|SUPERIORITY||Stratified Percentage Difference|-5.5||||0.4248|TWO_SIDED|95.0|-22.6|11.6|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||11.6|-22.6|0.4248
82446669|NCT02914561|164601632|SUPERIORITY||Stratified Percentage Difference|19.9||||0.0122|TWO_SIDED|95.0|5.7|34.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||34.0|5.7|0.0122
82446670|NCT02914561|164601632|SUPERIORITY||Stratified Percentage Difference|2.0||||0.7708|TWO_SIDED|95.0|-12.0|16.1|||Cochran-Mantel-Haenszel|||CMH test was stratified by concomitant use immunomodulators (Yes/No), at Maintenance baseline, and history of exposure to a biologic agent (Yes/No).||16.1|-12.0|0.7708
82446671|NCT02914561|164601633|SUPERIORITY||Stratified Percentage Difference|12.0||||0.2631|TWO_SIDED|95.0|-8.3|32.3|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||32.3|-8.3|0.2631
82446672|NCT02914561|164601633|SUPERIORITY||Stratified Percentage Difference|-3.4||||0.6444|TWO_SIDED|95.0|-20.9|14.0|||Cochran-Mantel-Haenszel|||CMH test was stratified by immunomodulators (Yes) at Maintenance baseline, immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (Yes), and immunomodulators (No) at Maintenance baseline and history of exposure to biologic agent (No).||14.0|-20.9|0.6444
82446673|NCT01300455|164601642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66|||||TWO_SIDED|90.0|0.22|5.09|||Difference of the Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||5.09|0.22|
82446674|NCT01300455|164601645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|90.0|-0.49|0.42|||Difference in the Least Squares Means|||Day 1, Difference (Suvorexant - Placebo) of Least Squares Means||0.42|-0.49|
82446675|NCT01300455|164601645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.45|0.33|||Difference of the Least Squares Means|||Day 4, Difference (Suvorexant - Placebo) of Least Squares Means||0.33|-0.45|
82532115|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.5|-0.1||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.5|
82532116|NCT03954158|164761876|OTHER||Difference of least square mean|0.4|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.6|1.4||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.4|-0.6|
82532117|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.9|-0.3||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-1.9|
82446676|NCT01300455|164601646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||||TWO_SIDED|90.0|-1.31|2.79|||Difference in the Least Squares Means|||Day 1, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||2.79|-1.31|
82446677|NCT01300455|164601646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|90.0|-0.1|0.59|||Difference in the Least Squares Means|||Day 1, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.59|-0.10|
82446678|NCT01300455|164601646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|90.0|-0.59|1.01|||Difference in the Least Squares Means|||Day 4, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||1.01|-0.59|
82446679|NCT01300455|164601646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.09|0.65|||Difference in the Least Squares Means|||Day 4, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.65|-0.09|
82446680|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.61|0.49|||Difference of Least Squares Means|||Day 1, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.49|-0.61|
82446681|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|90.0|-0.41|0.5|||Difference of the Least Sqares Means|||Day 1, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.41|
82446682|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|90.0|-1.13|0.1|||Difference of the Least Squares Means|||Day 1, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.10|-1.13|
82446683|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||||TWO_SIDED|90.0|-0.24|0.5|||Difference of the Least Squares Means|||Day 4, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.24|
82446684|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02|||||TWO_SIDED|90.0|-0.4|0.43|||Difference in the Least Squares Means|||Day 4, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.43|-0.40|
82446685|NCT01300455|164601647|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.18|||||TWO_SIDED|90.0|-0.61|0.25|||Difference in the Least Squares Means|||Day 4, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.25|-0.61|
82446686|NCT01300455|164601648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|90.0|-3.2|2.26|||Difference of Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||2.26|-3.20|
82532118|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.5|-0.1||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.5|
82646823|NCT00759759|165008457|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA performed on the ratio of geometric means|mean ratio|101.1||||||90.0|96.9|105.4|||ANOVA|||Statistical analysis of ln-transformed plasma morphine AUClast||105.4|96.9|
82532119|NCT03954158|164761876|OTHER||Difference of least square mean|-0.1|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.1|1.0||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.0|-1.1|
82532120|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.1|-0.4||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.4|-2.1|
82532121|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-1.1|0.4||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.4|-1.1|
82532122|NCT03954158|164761876|OTHER||Difference of least square mean|0.5|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.6|1.5||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.5|-0.6|
82532123|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.3|-0.1||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.3|
82532124|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|95.0|-1.0|0.2||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.2|-1.0|
82411322|NCT02110693|164531099|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Alcohol Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.74|||||TWO_SIDED|95.0|0.68|0.79||||||Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.79|.68|
82532125|NCT03954158|164761876|OTHER||Difference of least square mean|0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-0.6|1.3||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.3|-0.6|
82532126|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-2.0|-0.3||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-2.0|
82532127|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.3|0.1||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.1|-1.3|
82532128|NCT03954158|164761876|OTHER||Difference of least square mean|0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.6|1.2||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.2|-0.6|
82532129|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.7|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.4|-0.9||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.9|-2.4|
82532130|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.5|0.7||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.7|-1.5|
82646824|NCT00759759|165008458|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|101.3||||||90.0|96.2|106.7|||ANOVA|||||106.7|96.2|
82411323|NCT02110693|164531100|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cannabis Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.71|||||TWO_SIDED|95.0|0.63|0.79||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.79|.63|
82532131|NCT03954158|164761876|OTHER||Difference of least square mean|0.5|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-0.7|1.6||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||1.6|-0.7|
82532132|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-2.3|-0.9||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.9|-2.3|
82532133|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.1|-0.1||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.1|
82532134|NCT03954158|164761876|OTHER||Difference of Least Squares Mean|0.2|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-0.8|1.2||||||Change at Day 10, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.2|-0.8|
82532135|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.7|0.0||||||Change at Day 11, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.0|-1.7|
82532136|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.3|-0.7||||||Change at Day 11, Intra-participant: MMRM included the fixed effect of day, and the covariance structure UN was used.||-0.7|-2.3|
82646825|NCT03958071|165008485|OTHER||Absolute standardized differences (ASD)|-0.1027||||0.281|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.2810
82446687|NCT00552409|164601673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||||TWO_SIDED|95.0|-56.0|251.0|||Regression, Linear||Mean urine ACR on treatment was 17% lower among participants assigned to cholecalciferol, compared to participants assigned to placebo, adjusted for baseline values.|||251|-56|
82532137|NCT03954158|164761876|OTHER||Difference of Least Squares Mean|0.2|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.7|1.1||||||Change at Day 11, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.1|-0.7|
82532138|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-2.0|-0.5||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-2.0|
82411324|NCT02110693|164531100|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cannabis Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.7|||||TWO_SIDED|95.0|0.62|0.77||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.77|.62|
82411325|NCT02110693|164531101|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cocaine and Amphetamine (Stimulant) Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.57|||||TWO_SIDED|95.0|0.47|0.67||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.67|.47|
82411326|NCT02110693|164531101|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Cocaine and Amphetamine (Stimulant) Use Disorder using receiver operator characteristic (ROC) curves.|Sensitivity|0.6|||||TWO_SIDED|95.0|0.5|0.69||||||Each administration approach (interviewer and tablet) were separately tested against the reference measure.||.69|.50|
82411327|NCT02110693|164531102|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Heroin Use Disorder using receiver operator characteristic (ROC) curves.|sensivity|0.66|||||TWO_SIDED|95.0|0.53|0.77||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.77|.53|
82411328|NCT02110693|164531102|OTHER|Concurrent validity of the interviewer and self-administered versions of the TAPS Tool compared to the reference standard was assessed for Heroin Use Disorder using receiver operator characteristic (ROC) curves.|Sensivity|0.66|||||TWO_SIDED|95.0|0.53|0.77||||||Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.77|.53|
82411329|NCT02110693|164531106|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard AUDIT-C score was assessed using Spearman Correlation.|Spearman Correlation|0.63|||||TWO_SIDED|95.0|0.59|0.66|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Alcohol Score and the AUDIT-C score. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.66|.59|
82411330|NCT02110693|164531106|OTHER|The association on the interviewer and tablet administered versions of the TAPS Tool compared to the reference standard of the AUDIT C score was assessed using Spearman Correlation.|Spearman Correlation|0.64|||||TWO_SIDED|95.0|0.61|0.68|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Alcohol Score and the AUDIT-C Score. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) was tested separately against the reference measure.||.68|.61|
82411331|NCT02110693|164531108|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard Smokeless Tobacco Questionnaire was assessed using Spearman Correlation.|Spearman Correlation|0.29|||||TWO_SIDED|95.0|0.25|0.33|||||The estimated value is a Spearman Correlation point estimate between the TAPS Tool Tobacco Score and the Smokeless Tobacco Questionnare. Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet computer) was tested separately against the reference measure.||.33|.25|
82411332|NCT02110693|164531108|OTHER||Spearman Correlation|0.28|||||TWO_SIDED|95.0|0.24|0.32|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Tobacco Score and the score on the Smokeless Tobacco Questionnaire. A Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.32|.24|
82411333|NCT02110693|164531109|OTHER|The association on the interviewer and tablet computer administered versions of the TAPS Tool compared to the reference standard of the results of the oral fluid test was assessed using Spearman Correlation.|Spearman Correlation|0.42|||||TWO_SIDED|95.0|0.35|0.48|||||The estimated value is a Spearman Correlation point estimate between TAPS Tool Cannabis Score and the results of the Oral Fluid Test. Confidence Interval rather than a dispersion value is therefore reported.|Each administration approach (interviewer and tablet) were tested separately against the reference measure.||.48|.35|
82411334|NCT02110693|164531109|OTHER||Spearman Correlation|0.4|||||TWO_SIDED|95.0|0.33|0.46|||||The estimated value is a point estimate of the Spearman Correlation between the TAPS Tool Cannabis Score and the Oral Fluid Cannabis Screen. A Confidence Interval rather than a dispersion value is therefore reported.|||.46|.33|
82411335|NCT01928849|164531110|OTHER||Odds Ratio (OR)|0.77||||0.53|TWO_SIDED|95.0|0.34|1.74|||Regression, Logistic|Univariable Logistic regression||||1.74|0.34|0.53
82411336|NCT01928849|164531111|OTHER|||||||0.95|||||||Chi-squared|||Comparison of rate of residual limb pain between treatment groups||||0.95
82411337|NCT01928849|164531111|OTHER|||||||0.74|||||||Chi-squared|||Comparison of rate of Phantom limb pain between treatment groups||||0.74
82411338|NCT01928849|164531112|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of opioid consumption postoperative hours 0-24||||0.27
82411339|NCT01928849|164531112|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of opioid consumption postoperative hours 24-48||||0.27
82532139|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||0.0|-2.0|
82532140|NCT03954158|164761876|OTHER||Difference of Least Squares Mean|0.1|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-0.9|1.2||||||Change at Day 12, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||1.2|-0.9|
82646826|NCT03958071|165008485|OTHER||Absolute standardized differences (ASD)|-0.078||||0.1421|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.1421
82411340|NCT01928849|164531113|OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Comparison of BPI average pain score||||0.59
82411341|NCT01928849|164531113|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Comparison of BPI Interference question sum||||0.16
82532141|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.8|-0.3||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.3|-1.8|
82532142|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.0|-0.1||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-2.0|
82532143|NCT03954158|164761876|OTHER||Difference of Least Squares Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.3|0.9||||||Change at Day 13, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||0.9|-1.3|
82532144|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.9|-0.5||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.5|-1.9|
82532145|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.8|-0.1||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.1|-1.8|
82532146|NCT03954158|164761876|OTHER||Difference of Least Squares Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.5|0.7||||||Change at Day 14, Inter-participant: Mixed effect Model for Repeated Measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value, and the covariance structure UN was used.||0.7|-1.5|
82532147|NCT03954158|164761876|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-2.2|-0.8||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of day, and the covariance structure UN was used.||-0.8|-2.2|
82646827|NCT03958071|165008485|OTHER||Absolute standardized differences (ASD)|0.0159||||0.0048|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.0048
82411342|NCT01928849|164531114|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
82411343|NCT01928849|164531115|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Comparison of DVPRS numeric pain score||||0.42
82411344|NCT01928849|164531115|OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Comparison of DVPRS supplemental question sum||||0.19
82411345|NCT01928849|164531116|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Comparison of RASS postoperative hours 0-24||||0.27
82411346|NCT01928849|164531116|OTHER|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Comparison of RASS postoperative hours 24-48||||0.26
82411347|NCT04154956|164531118|SUPERIORITY||Hazard Ratio (HR)|1.143||||0.8204|TWO_SIDED|95.0|0.864|1.512||One-sided significance level was 0.01|Log Rank||Hazard ratio and confidence intervals (CIs) were computed from a stratified Cox model according to stratification factors as per IRT.|||1.512|0.864|0.8204
82411348|NCT04154956|164531119|SUPERIORITY||Hazard Ratio (HR)|0.846||||0.112|TWO_SIDED|95.0|0.644|1.109||One-sided significance level was 0.00174.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||1.109|0.644|0.1120
82411349|NCT04154956|164531120|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6972|TWO_SIDED|95.0|0.55|1.42||P-value is provided for information only, there is no statistical inference based on this P-value.|Cochran-Mantel-Haenszel||Odds ratio and its 2-sided CI were provided from a Cochran-Mantel-Haenszel (CMH) test stratified according to the stratification factors.|||1.42|0.55|0.6972
82411350|NCT04154956|164531121|SUPERIORITY||Hazard Ratio (HR)|0.729||||0.0157|TWO_SIDED|95.0|0.546|0.972||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||0.972|0.546|0.0157
82411351|NCT04154956|164531122|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.0002|TWO_SIDED|95.0|0.388|0.763||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||0.763|0.388|0.0002
82411352|NCT04154956|164531123|SUPERIORITY||Hazard Ratio (HR)|0.735||||0.0305|TWO_SIDED|95.0|0.533|1.014||P-value is provided for information only, there is no statistical inference based on this P-value.|Log Rank||Hazard ratio and CIs were computed from a stratified Cox model according to stratification factors as per IRT.|||1.014|0.533|0.0305
82411353|NCT01348269|164531138|OTHER|T-test (with MITT, omitting outlier value of one patient in placebo group)|||||=|0.006|||||||t-test, 2 sided|||||||=0.006
82411354|NCT01348269|164531138|OTHER|Mann-Whitney-Test|||||=|0.015|||||||Wilcoxon (Mann-Whitney)|||||||=0.015
82532148|NCT03954158|164761876|OTHER||Least squares mean of difference|-0.8|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.5|0.0||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures included the fixed effect of visit, and the covariance structure UN was used.||0.0|-1.5|
82532149|NCT03954158|164761876|OTHER||Difference of least square mean|-0.3|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.4|0.8||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen, day, dosing regimen-by-day interaction, and baseline value and the covariance structure UN was used.||0.8|-1.4|
82532150|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.0|0.2||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.2|-1.0|
82532151|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.1|0.5||||||Change at Day 2, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.1|
82532152|NCT03954158|164761877|OTHER||Difference of least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.5|1.1||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.1|-0.5|
82411355|NCT01186770|164531197|SUPERIORITY||Least square (LS) mean difference|2.83||||0.1692||95.0|-1.21|6.86||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with treatment as effect and analysis region as covariate.||6.86|-1.21|0.1692
82411356|NCT01186770|164531197|SUPERIORITY||LS mean difference|6.51||||0.0016|TWO_SIDED|95.0|2.47|10.55||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA with treatment as effect and analysis region as covariate.||10.55|2.47|0.0016
82411357|NCT01186770|164531197|SUPERIORITY||LS mean difference|9.13|||<|0.0001|TWO_SIDED|95.0|5.09|13.18||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA with treatment as effect and analysis region as covariate.||13.18|5.09|< 0.0001
82411358|NCT01186770|164531198|SUPERIORITY||Odds Ratio (OR)|1.23||||0.3076|TWO_SIDED|95.0|0.82|1.84||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||1.84|0.82|0.3076
82411359|NCT01186770|164531198|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0339|TWO_SIDED|95.0|1.03|2.29||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||2.29|1.03|0.0339
82411360|NCT01186770|164531198|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0043||95.0|1.2|2.66||Threshold for significance at 0.0167 level.|Regression, Logistic|||Analysis was performed using logistic regression model with treatment as effect and analysis region as covariate.||2.66|1.20|0.0043
82411361|NCT01186770|164531199|SUPERIORITY||LS mean difference|0.09||||0.692|TWO_SIDED|95.0|-0.36|0.55||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.55|-0.36|0.6920
82411362|NCT01186770|164531199|SUPERIORITY||LS mean difference|0.51||||0.0274|TWO_SIDED|95.0|0.06|0.97||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.97|0.06|0.0274
82411363|NCT01186770|164531199|SUPERIORITY||LS mean difference|0.53||||0.0237|TWO_SIDED|95.0|0.07|0.98||Threshold for significance at 0.0167 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment as effect and analysis region and baseline as covariates.||0.98|0.07|0.0237
82411364|NCT03620162|164531248|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-3.4|||=|0.525|TWO_SIDED|95.0|-13.6|7.0|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 5 vs 1)||7.0|-13.6|= 0.525
82411365|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.5|||=|0.396|TWO_SIDED|95.0|-14.7|5.8|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 4 vs 1)||5.8|-14.7|= 0.396
82411366|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.7|||=|0.097|TWO_SIDED|95.0|-18.8|1.6|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 3 vs 1)||1.6|-18.8|= 0.097
82532153|NCT03954158|164761877|OTHER||Least squares mean of difference|0.1|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.6|0.7||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-0.6|
82411367|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-9.9|||=|0.057|TWO_SIDED|95.0|-19.9|0.3|||Miettinen & Nurminen method|||Difference in Percentage: Erythema(Group 2 vs 1)||0.3|-19.9|= 0.057
82411368|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.4|||=|0.085|TWO_SIDED|95.0|-17.8|1.2|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 5 vs 1)||1.2|-17.8|= 0.085
82411369|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-9.5|||=|0.05|TWO_SIDED|95.0|-18.9|0.0|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 4 vs 1)||-0.0|-18.9|= 0.050
82411370|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-6.5|||=|0.183|TWO_SIDED|95.0|-16.1|3.1|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 3 vs 1)||3.1|-16.1|= 0.183
82411371|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.7|||=|0.074|TWO_SIDED|95.0|-18.1|0.8|||Miettinen & Nurminen method|||Difference in Percentage: Induration(Group 2 vs 1)||0.8|-18.1|= 0.074
82411372|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|3.4|||=|0.525|TWO_SIDED|95.0|-7.0|13.6|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 5 vs 1)||13.6|-7.0|= 0.525
82411373|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.915|TWO_SIDED|95.0|-10.8|9.7|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 4 vs 1)||9.7|-10.8|= 0.915
82532154|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 3, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
82646828|NCT03958071|165008487|OTHER||Absolute standardized differences (ASD)|0.0214||||0.7681|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.7681
82646829|NCT03958071|165008487|OTHER||Absolute standardized differences (ASD)|0.371|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
82411374|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.9|||=|0.714|TWO_SIDED|95.0|-8.4|12.2|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 3 vs 1)||12.2|-8.4|= 0.714
82411375|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.5|||=|0.926|TWO_SIDED|95.0|-10.7|9.7|||Miettinen & Nurminen method|||Difference in Percentage: Tenderness(Group 2 vs 1)||9.7|-10.7|= 0.926
82411376|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||>|0.999|TWO_SIDED|95.0|-8.7|8.7|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 5 vs 1)||8.7|-8.7|> 0.999
82411377|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-2.2|||=|0.609|TWO_SIDED|95.0|-10.8|6.4|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 4 vs 1)||6.4|-10.8|= 0.609
82411378|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.8|||=|0.688|TWO_SIDED|95.0|-7.1|10.7|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 3 vs 1)||10.7|-7.1|= 0.688
82411379|NCT03620162|164531248|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.1|||=|0.336|TWO_SIDED|95.0|-12.6|4.3|||Miettinen & Nurminen method|||Difference in Percentage: Swelling(Group 2 vs 1)||4.3|-12.6|= 0.336
82411380|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.1|||=|0.825|TWO_SIDED|95.0|-11.0|8.8|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group5 vs1)||8.8|-11.0|= 0.825
82411381|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.912|TWO_SIDED|95.0|-10.4|9.3|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group4 vs1)||9.3|-10.4|= 0.912
82411382|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-8.8|||=|0.074|TWO_SIDED|95.0|-18.3|0.9|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group3 vs1)||0.9|-18.3|= 0.074
82411383|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Percentage of Participants|-3.7|||=|0.458|TWO_SIDED|95.0|-13.4|6.1|||Miettinen & Nurminen method|||Difference in Percentage:Appetite lost(Group2 vs1)||6.1|-13.4|= 0.458
82411384|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|2.8|||=|0.568|TWO_SIDED|95.0|-6.8|12.3|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 5 vs1)||12.3|-6.8|= 0.568
82411385|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.6|||=|0.91|TWO_SIDED|95.0|-9.1|10.2|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 4 vs1)||10.2|-9.1|= 0.910
82411386|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-4.7|||=|0.354|TWO_SIDED|95.0|-14.5|5.2|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 3 vs1)||5.2|-14.5|= 0.354
82411387|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-6.8|||=|0.178|TWO_SIDED|95.0|-16.6|3.1|||Miettinen & Nurminen method|||Difference in Percentage:Irritability(Group 2 vs1)||3.1|-16.6|= 0.178
82411388|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|3.4|||=|0.52|TWO_SIDED|95.0|-6.8|13.5|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 5 vs 1)||13.5|-6.8|= 0.520
82411389|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||>|0.999|TWO_SIDED|95.0|-10.2|10.2|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 4 vs 1)||10.2|-10.2|> 0.999
82411390|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.2|||=|0.963|TWO_SIDED|95.0|-10.5|10.0|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 3 vs 1)||10.0|-10.5|= 0.963
82411391|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.2|||=|0.821|TWO_SIDED|95.0|-11.4|9.0|||Miettinen & Nurminen method|||Difference in Percentage: Drowsiness(Group 2 vs 1)||9.0|-11.4|= 0.821
82411392|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-0.6|||=|0.836|TWO_SIDED|95.0|-6.1|5.0|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 5 vs 1)||5.0|-6.1|= 0.836
82411393|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|1.7|||=|0.562|TWO_SIDED|95.0|-4.2|7.6|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 4 vs 1)||7.6|-4.2|= 0.562
82411394|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-1.6|||=|0.527|TWO_SIDED|95.0|-7.1|3.7|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 3 vs 1)||3.7|-7.1|= 0.527
82411395|NCT03620162|164531249|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|-3.4|||=|0.16|TWO_SIDED|95.0|-8.6|1.5|||Miettinen & Nurminen method|||Difference in Percentage: Hives(Group 2 vs 1)||1.5|-8.6|= 0.160
82411396|NCT03620162|164531250|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 5 vs 1)||2.1|-2.1|
82411397|NCT03620162|164531250|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 4 vs 1)||2.1|-2.1|
82411398|NCT03620162|164531250|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.6|||||TWO_SIDED|95.0|-1.6|3.1||||||Difference in Percentage (Group 3 vs 1)||3.1|-1.6|
82411399|NCT03620162|164531250|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Difference in Percentage (Group 2 vs 1)||2.1|-2.1|
82411400|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.0||||||GMC Ratio: Serotype 1 (Group 4 vs 1)||1.00|0.69|
82411401|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||GMC Ratio: Serotype 1 (Group 3 vs 1)||1.12|0.77|
82411402|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|1.0||||||GMC Ratio: Serotype 1 (Group 2 vs 1)||1.00|0.70|
82411403|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.01|||||TWO_SIDED|95.0|0.86|1.19||||||GMC Ratio: Serotype 3 (Group 4 vs 1)||1.19|0.86|
82411404|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.12||||||GMC Ratio: Serotype 3 (Group 3 vs 1)||1.12|0.80|
82532155|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.0|0.5||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.0|
82411405|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||GMC Ratio: Serotype 3 (Group 2 vs 1)||1.25|0.90|
82411406|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.66|1.0||||||GMC Ratio: Serotype 4 (Group 4 vs 1)||1.00|0.66|
82411407|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.68|1.03||||||GMC Ratio: Serotype 4 (Group 3 vs 1)||1.03|0.68|
82411408|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08||||||GMC Ratio: Serotype 4 (Group 2 vs 1)||1.08|0.72|
82411409|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.98||||||GMC Ratio: Serotype 5 (Group 4 vs 1)||0.98|0.64|
82411410|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||GMC Ratio: Serotype 5 (Group 3 vs 1)||1.29|0.84|
82411411|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.75|1.14||||||GMC Ratio: Serotype 5 (Group 2 vs 1)||1.14|0.75|
82411412|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.66|0.98||||||GMC Ratio: Serotype 6A (Group 4 vs 1)||0.98|0.66|
82411413|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.11|||||TWO_SIDED|95.0|0.91|1.37||||||GMC Ratio: Serotype 6A (Group 3 vs 1)||1.37|0.91|
82411414|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.92|1.36||||||GMC Ratio: Serotype 6A (Group 2 vs 1)||1.36|0.92|
82532156|NCT03954158|164761877|OTHER||Least squares mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|96.0|-1.1|1.1||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.1|-1.1|
82532157|NCT03954158|164761877|OTHER||Least squares mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.8|0.8||||||Change at Day 4, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.8|-0.8|
82532158|NCT03954158|164761877|OTHER||Difference of least squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-0.9|0.8||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.9|
82646830|NCT03958071|165008487|OTHER||Absolute standardized differences (ASD)|0.349|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
82646831|NCT03958071|165008488|OTHER||Absolute standardized differences (ASD)|-0.1257||||0.1659|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.1659
82411415|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.31||||||GMC Ratio: Serotype 6B (Group 4 vs 1)||1.31|0.88|
82411416|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.32||||||GMC Ratio: Serotype 6B (Group 3 vs 1)||1.32|0.88|
82411417|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.23|||||TWO_SIDED|95.0|1.02|1.49||||||GMC Ratio: Serotype 6B (Group 2 vs 1)||1.49|1.02|
82411418|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.64|0.95||||||GMC Ratio: Serotype 7F (Group 4 vs 1)||0.95|0.64|
82411419|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.81|1.21||||||GMC Ratio: Serotype 7F (Group 3 vs 1)||1.21|0.81|
82411420|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.11|||||TWO_SIDED|95.0|0.92|1.35||||||GMC Ratio: Serotype 7F (Group 2 vs 1)||1.35|0.92|
82411421|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||GMC Ratio: Serotype 9V (Group 4 vs 1)||1.01|0.70|
82411422|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06||||||GMC Ratio: Serotype 9V (Group 3 vs 1)||1.06|0.73|
82411423|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.79|1.13||||||GMC Ratio: Serotype 9V (Group 2 vs 1)||1.13|0.79|
82411424|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.83|1.28||||||GMC Ratio: Serotype 14 (Group 4 vs 1)||1.28|0.83|
82411425|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.15|1.78||||||GMC Ratio: Serotype 14 (Group 3 vs 1)||1.78|1.15|
82411426|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.39|||||TWO_SIDED|95.0|1.13|1.71||||||GMC Ratio: Serotype 14 (Group 2 vs 1)||1.71|1.13|
82411427|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.07|||||TWO_SIDED|95.0|0.88|1.3||||||GMC Ratio: Serotype 18C (Group 4 vs 1)||1.30|0.88|
82411428|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.44|||||TWO_SIDED|95.0|1.18|1.76||||||GMC Ratio: Serotype 18C (Group 3 vs 1)||1.76|1.18|
82532159|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.2|0.3||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-1.2|
82532160|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.4||||||Change at Day 5, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.4|-1.2|
82532161|NCT03954158|164761877|OTHER||Difference of least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-0.8|1.0||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.0|-0.8|
82646832|NCT03958071|165008488|OTHER||Absolute standardized differences (ASD)|0.1566||||0.0112|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.0112
82446688|NCT01972789|164601708|NON_INFERIORITY|This is a non-inferiority study design, with a pre-specified non-inferiority margin of 5 letters between intensive and relaxed groups. That is, if the change from Baseline in BCVA at Month 24 in the intensive group is not more than 5 letters higher than the relaxed group, then the relaxed group is regarded not inferior to the intensive group|Odds Ratio (OR)|0.4||||0.787|TWO_SIDED|95.0|-2.51|3.32|||Mixed Models Analysis|||||3.32|-2.51|0.787
82446689|NCT01972789|164601709|OTHER||Odds Ratio (OR)|-0.31||||0.833|TWO_SIDED|95.0|-3.2|2.58|||Mixed Models Analysis|||||2.58|-3.20|0.833
82446690|NCT01972789|164601710|OTHER||Odds Ratio (OR)|-21.39||||0.054|TWO_SIDED|95.0|-43.17|0.39|||Mixed Models Analysis|||||0.39|-43.17|0.054
82446691|NCT01972789|164601711|OTHER||Negative Binomial Regression|1.11||||0.001|TWO_SIDED|95.0|1.04|1.18|||Mixed Model|||||1.18|1.04|0.001
82411429|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.51|||||TWO_SIDED|95.0|1.25|1.83||||||GMC Ratio: Serotype 18C (Group 2 vs 1)||1.83|1.25|
82411430|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.69|1.01||||||GMC Ratio: Serotype 19A (Group 4 vs 1)||1.01|0.69|
82411431|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||GMC Ratio: Serotype 19A (Group 3 vs 1)||1.07|0.72|
82411432|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.13||||||GMC Ratio: Serotype 19A (Group 2 vs 1)||1.13|0.77|
82446692|NCT01972789|164601712|OTHER||Odds Ratio (OR)|0.26||||0.338|TWO_SIDED|95.0|-0.28|0.8|||Mixed Models Analysis|||||0.80|-0.28|0.338
82446693|NCT01972789|164601713|OTHER||Odds Ratio (OR)|1.44||||0.284|TWO_SIDED|95.0|0.74|2.8|||Regression, Logistic|||Month 12||2.80|0.74|0.284
82446694|NCT01972789|164601713|OTHER||Odds Ratio (OR)|1.29||||0.407|TWO_SIDED|95.0|0.71|2.33|||Regression, Logistic|||Month 24||2.33|0.71|0.407
82446695|NCT01972789|164601714|OTHER||Odds Ratio (OR)|0.35||||0.217|TWO_SIDED|95.0|0.12|1.04|||Regression, Logistic|||||1.04|0.12|0.217
82446696|NCT01972789|164601715|OTHER||Odds Ratio (OR)|0.84||||0.615|TWO_SIDED|95.0|0.42|1.66|||Regression, Logistic|||||1.66|0.42|0.615
82446697|NCT01972789|164601716|OTHER||Odds Ratio (OR)|1.08||||0.819|TWO_SIDED|95.0|0.54|2.18|||Regression, Logistic|||||2.18|0.54|0.819
82446698|NCT01972789|164601718|OTHER||Odds Ratio (OR)|4.32||||0.565|TWO_SIDED|95.0|0.03|630.5|||Regression, Logistic|||||630.5|0.03|0.565
82446699|NCT01972789|164601719|OTHER||Odds Ratio (OR)|1.39||||0.034|TWO_SIDED|95.0|1.03|1.9|||Regression, Logistic|||||1.90|1.03|0.034
82446700|NCT00086411|164601723|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32|STANDARD_ERROR_OF_MEAN|0.2734|<|0.017|TWO_SIDED|95.0|0.77|2.25||The p-value was adjusted for multiple comparisons.|GEE model for repeated binary outcomes|Model included hx of heavy smoking, elevated depression, cigarettes per day, gender, and race|The above was for the main effect of BUP versus NTX on cessation.|Rates of abstinence were addressed using a generalized estimating equations (GEE) logistic regression model. Counseling type and medication type were entered as the main explanatory variables along with time and the interaction of these factors, together with some covariates (described below). The sample size provided 80% power to detect a difference of about 14% between groups across three time points (i.e., 12, 26, and 52 weeks post-treatment initiation.||2.25|0.77|<0.017
82411433|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.96|||||TWO_SIDED|95.0|0.81|1.15||||||GMC Ratio: Serotype 19F (Group 4 vs 1)||1.15|0.81|
82446701|NCT01078168|164601729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3769||||0.0347|TWO_SIDED|95.0|0.03025|0.7235||threshold: p\<0.05|t-test, 2 sided|||||0.7235|0.03025|0.0347
82411434|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.26||||||GMC Ratio: Serotype 19F (Group 3 vs 1)||1.26|0.88|
82446702|NCT03109184|164601751|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED||||||||3-Month follow-up between groups odds ratio of DV perpetration|||||
82446703|NCT03109184|164601751|SUPERIORITY||Odds Ratio (OR)|0.61|||||TWO_SIDED||||||||9-month follow-up between group odds ratio of DV perpetration|||||
82446704|NCT03109184|164601751|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED||||||||3-month follow-up between groups odds ratio of DV victimization|||||
82446705|NCT03109184|164601751|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED||||||||9-month follow-up between groups odds ratio of DV victimization|||||
82446706|NCT03109184|164601752|SUPERIORITY||Effect Size (d)|-0.07|||||TWO_SIDED||||||||3-month follow-up between groups effect size of general aggression|||||
82446707|NCT03109184|164601752|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||9-month follow-up between groups effect size of general aggression|||||
82446708|NCT03109184|164601753|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent attitudes support aggression|||||
82446709|NCT03109184|164601753|SUPERIORITY||Effect Size (d)|-0.17|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent attitudes support aggression|||||
82446710|NCT03109184|164601753|SUPERIORITY||Effect Size (d)|0.19|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent attitudes support aggression|||||
82446711|NCT03109184|164601753|SUPERIORITY||Effect Size (d)|0.2|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent attitudes support aggression|||||
82446712|NCT03109184|164601754|SUPERIORITY||Effect Size (d)|0.09|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent short-term self-regulation|||||
82446713|NCT03109184|164601754|SUPERIORITY||Effect Size (d)|0.36|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent short-term self-regulation|||||
82446714|NCT03109184|164601754|SUPERIORITY||Effect Size (d)|-0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent long-term self-regulation|||||
82411435|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.21||||||GMC Ratio: Serotype 19F (Group 2 vs 1)||1.21|0.86|
82411436|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.61|0.96||||||GMC Ratio: Serotype 23F (Group 4 vs 1)||0.96|0.61|
82411437|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.63|0.99||||||GMC Ratio: Serotype 23F (Group 3 vs 1)||0.99|0.63|
82411438|NCT03620162|164531251|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.76|1.17||||||GMC Ratio: Serotype 23F (Group 2 vs 1)||1.17|0.76|
82411439|NCT03620162|164531252|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (Group 5/Group 1+Group 2) to be \>-10 percentage points.|Difference in Percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-3.7|2.0|||Miettinen & Nurminen method|||Difference in Percentage (Group 5 vs Group 1+2)||2.0|-3.7|< 0.001
82411440|NCT03620162|164531253|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT ratio (Group 5/Group 1+Group 2) to be \>0.5.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.7|1.34|||ANCOVA|||GMT Ratio (Group 5 vs Group 1+2)||1.34|0.70|< 0.001
82411441|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.6|0.86||||||GMC Ratio: Serotype 1 (Group 5 vs 1)||0.86|0.60|
82411442|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.22|||||TWO_SIDED|95.0|1.04|1.44||||||GMC Ratio: Serotype 3 (Group 5 vs 1)||1.44|1.04|
82411443|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.73|1.1||||||GMC Ratio: Serotype 4 (Group 5 vs 1)||1.10|0.73|
82411444|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.97||||||GMC Ratio: Serotype 5 (Group 5 vs 1)||0.97|0.64|
82411445|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.69|||||TWO_SIDED|95.0|0.57|0.84||||||GMC Ratio: Serotype 6A (Group 5 vs 1)||0.84|0.57|
82411446|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.95|||||TWO_SIDED|95.0|0.78|1.15||||||GMC Ratio: Serotype 6B (Group 5 vs 1)||1.15|0.78|
82411447|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.67|||||TWO_SIDED|95.0|0.55|0.82||||||GMC Ratio: Serotype 7F (Group 5 vs 1)||0.82|0.55|
82411448|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.82|1.18||||||GMC Ratio: Serotype 9V (Group 5 vs 1)||1.18|0.82|
82411449|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.7|1.07||||||GMC Ratio: Serotype 14 (Group 5 vs 1)||1.07|0.70|
82411450|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.85|1.25||||||GMC Ratio: Serotype 18C (Group 5 vs 1)||1.25|0.85|
82411451|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.65|0.95||||||GMC Ratio: Serotype 19A (Group 5 vs 1)||0.95|0.65|
82411452|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||GMC Ratio: Serotype 19F (Group 5 vs 1)||1.02|0.72|
82411453|NCT03620162|164531256|OTHER|GMC ratio and CI are estimated from a serotype-specific ANCOVA model utilizing the natural log-transformed antibody concentration as the response and vaccination group and stratification factor as covariates.|GMC Ratio|0.73|||||TWO_SIDED|95.0|0.59|0.91||||||GMC Ratio: Serotype 23F (Group 5 vs 1)||0.91|0.59|
82411454|NCT05824026|164531276|OTHER||||||||||||||||||"The purpose of the primary analysis was to show non-inferiority to the performance of a historical control (a silver containing gelling fiber) on proportion of wounds healed, 77%, with a non-inferiority margin of 20%. Non-inferiority was demonstrated if the lower limit of the 95% confidence interval is above 57%. An exact confidence interval for the proportion was applied. In the primary analysis missing data was not included. In the post hoc sensitivity analysis missing data was imputed using multiple imputation for 3 wounds where data was assumed to be missing at random, and otherwise imputed as wound not healed.~The supplemental analysis addressed a more conservative analysis than performed for the historical control. Hence, no formal non-inferiority criteria was applied for this analysis."|||
82411455|NCT01394276|164531296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0237|||||||Exact binomial proportion test|||||||0.0237
82532162|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.2|0.6||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.6|-1.2|
82646833|NCT03958071|165008488|OTHER||Absolute standardized differences (ASD)|0.3019|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
82411456|NCT01394276|164531297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Exact binomial proportion test|||||||0.0003
82411457|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.808|TWO_SIDED|95.0|-0.3|0.4|||t-test, 2 sided|||At Baseline: mean difference of scores of DAS28 between the two groups was calculated.||0.4|-0.3|0.8080
82411458|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.4884|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||At Month 1: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.5|0.4884
82411459|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.3||||0.0947|TWO_SIDED|95.0|-0.7|0.1|||t-test, 2 sided|||At Month 2: mean difference of scores of DAS28 between the two groups was calculated.||0.1|-0.7|0.0947
82411460|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.8181|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||At Month 4: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.4|0.8181
82411461|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9721|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||At Month 6: mean difference of scores of DAS28 between the two groups was calculated.||0.3|-0.4|0.9721
82411462|NCT01394276|164531309|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.5832|TWO_SIDED|95.0|-0.3|0.5|||t-test, 2 sided|||At Month 12: mean difference of scores of DAS28 between the two groups was calculated.||0.5|-0.3|0.5832
82411463|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.5||||0.4211|TWO_SIDED|95.0|-5.1|12.2|||t-test, 2 sided|||At Baseline: mean difference of scores of fatigue between the two groups was calculated.||12.2|-5.1|0.4211
82411464|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.1||||0.6749|TWO_SIDED|95.0|-7.9|12.1|||t-test, 2 sided|||At Month 1: mean difference of scores of fatigue between the two groups was calculated.||12.1|-7.9|0.6749
82411465|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.4||||0.1817|TWO_SIDED|95.0|-3.0|15.9|||t-test, 2 sided|||At Month 2: mean difference of scores of fatigue between the two groups was calculated.||15.9|-3.0|0.1817
82411466|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.8||||0.5182|TWO_SIDED|95.0|-5.8|11.4|||t-test, 2 sided|||At Month 4: mean difference of scores of fatigue between the two groups was calculated.||11.4|-5.8|0.5182
82411467|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.7||||0.0025|TWO_SIDED|95.0|4.9|22.6|||t-test, 2 sided|||At Month 6: mean difference of scores of fatigue between the two groups was calculated.||22.6|4.9|0.0025
82532163|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-0.9|0.7||||||Change at Day 6, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.7|-0.9|
82411468|NCT01394276|164531310|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.9||||0.354|TWO_SIDED|95.0|-4.4|12.1|||t-test, 2 sided|||At Month 12: mean difference of scores of fatigue between the two groups was calculated.||12.1|-4.4|0.3540
82411469|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.7343|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||At Baseline: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.2|0.7343
82411470|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.1098|TWO_SIDED|95.0|-0.4|0.0|||t-test, 2 sided|||At Month 1: mean difference of scores of HAQ between the two groups was calculated.||0.0|-0.4|0.1098
82411471|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.4932|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||At Month 2: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.3|0.4932
82411472|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.2468|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided|||At Month 4: mean difference of scores of HAQ between the two groups was calculated.||0.1|-0.4|0.2468
82411473|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9639|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||At Month 6: mean difference of scores of HAQ between the two groups was calculated.||0.2|-0.2|0.9639
82411474|NCT01394276|164531311|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1||||0.6696|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||At Month 12: mean difference of scores of HAQ between the two groups was calculated.||0.3|-0.2|0.6696
82411475|NCT03573297|164531328|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.5745|TWO_SIDED|95.0|0.48|1.43||P-value is based on the log-rank test stratified by modified index episode (manic or depressive) and region (US, non-US).|Log Rank||Hazard ratio (Cariprazine 1.5 or 3.0 mg/day vs. Placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable, stratified by modified index episode (manic or depressive) and region (US, non-US).|||1.43|0.48|0.5745
82411476|NCT03573297|164531328|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6308|TWO_SIDED|95.0|0.52|1.51||P-value is based on the log-rank test stratified by modified index episode (manic or depressive) and region (US, non-US).|Log Rank||Hazard ratio (Cariprazine 1.5 or 3.0 mg/day vs. Placebo) is based on Cox proportional hazards regression model, with treatment group as an explanatory variable, stratified by modified index episode (manic or depressive) and region (US, non-US).|||1.51|0.52|0.6308
82446715|NCT03109184|164601754|SUPERIORITY||Effect Size (d)|0.11|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent long-term self-regulation|||||
82446716|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported open family communication|||||
82446717|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.06|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported open family communication|||||
82446718|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|-0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported problems in family communication|||||
82646834|NCT03958071|165008489|OTHER||Absolute standardized differences (ASD)|-0.0209||||0.326|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||0.3260
82446719|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.06|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported problems in family communication|||||
82411477|NCT02273167|164531341|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits (CL) were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CL. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of 2 NER1006 regimens a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in success rate|4.5||||0.055|ONE_SIDED|97.5|-4.0|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate non-inferiority (NI) of NER1006 2-Day to MOVIPREP (10% margin). Success rate was no. of patients with successful overall bowel cleansing as proportion of no. of patients in each group. Treatment effect was NER1006 2-Day success rate - MOVIPREP success rate. Hochberg procedure used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-4.00|0.055
82646835|NCT03958071|165008489|OTHER||Absolute standardized differences (ASD)|-0.2694|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
82411478|NCT02273167|164531341|NON_INFERIORITY_OR_EQUIVALENCE|The CLs were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson confidences limits. To accommodate the comparison of two NER1006 regimens a hierarchical testing approach will be used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in success rate|1.59||||0.328|ONE_SIDED|97.5|-6.91|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 1-Day to MOVIPREP (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 1-Day success rate - MOVIPREP success rate. A Hochberg procedure was used to control Type I error since there were two alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-6.91|0.328
82411479|NCT02273167|164531342|NON_INFERIORITY_OR_EQUIVALENCE|Confidence limits (CL) were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of two NER1006 regimens a hierarchical testing approach will be used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in excellent plus good rate|16.56|||<|0.001|ONE_SIDED|97.5|8.11|||The p-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 2-Day to MOVIPREP (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 2-Day success rate - MOVIPREP success rate. Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||8.11|<0.001
82411480|NCT02273167|164531342|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits (CLs) were adjusted for multiple comparisons (2 alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of MOVIPREP using lower 1-sided 97.5% CLs. Calculated using exact Clopper-Pearson CLs. To accommodate the comparison of 2 NER1006 regimens a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated.|Difference in excellent plus good rate|18.74|||<|0.001|ONE_SIDED|97.5|10.32|||The p-value was adjusted for multiple comparisons (2 alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||Hypothesis was to demonstrate NI of NER1006 1-Day to MOVIPREP (10% margin). Success rate was no. of patients with highly effective cleansing of the colon ascendens as proportion of no. of patients in each group. Treatment effect was NER1006 1-Day success rate - MOVIPREP success rate. Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||10.32|<0.001
82411481|NCT02273167|164531343|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.55||||0.106|TWO_SIDED|95.0|-4.8|12.0||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 2-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 2-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||12.00|-4.80|0.106
82446720|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.62|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent reported number of relationship topics discussed|||||
82446721|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.13|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent reported number of relationship topics discussed|||||
82446722|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported open family communication|||||
82646836|NCT03958071|165008489|OTHER||Absolute standardized differences (ASD)|-0.2352|||<|0.0001|||||||t-test, 2 sided||ASD=(X1-X2)/sqrt((s1\^2+s2\^2)/2). Where X denotes sample means in each cohort, and s denotes sample variances.|||||<.0001
82411482|NCT02273167|164531343|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|3.55||||0.106|TWO_SIDED|95.0|-4.8|12.0||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 1-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 1-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||12.00|-4.80|0.106
82411483|NCT02273167|164531344|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|-0.29||||0.569|TWO_SIDED|95.0|-8.74|8.02||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 2-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 2-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||8.02|-8.74|0.569
82411484|NCT02273167|164531344|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of MOVIPREP using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|0.8||||0.455|TWO_SIDED|95.0|-7.65|9.11||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 1-Day relative to MOVIPREP with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 1-Day rate - MOVIPREP rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||9.11|-7.65|0.455
82411485|NCT02273167|164531345|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the colon ascendens was calculated as NER1006 2-Day rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits.|Difference in PDR|7.1||||0.024|TWO_SIDED|95.0|-1.41|15.47|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||15.47|-1.41|0.024
82411486|NCT02273167|164531345|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the colon ascendens was calculated as NER1006 rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits. Non-inferiority of NER1006 1-Day to MOVIPREP was proven.|Difference in PDR|2.37||||0.268|TWO_SIDED|95.0|-6.12|10.82||Superiority of NER1006 1-Day to MOVIPREP not demonstrated statistically.|Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||10.82|-6.12|0.268
82411487|NCT02273167|164531346|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the overall colon was calculated as NER1006 rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence intervals.|Difference in PDR|-0.49||||0.579|TWO_SIDED|95.0|-8.85|8.0|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||8.00|-8.85|0.579
82446723|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.01|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported open family communication|||||
82446724|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|-0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported problems in family communication|||||
82446725|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.25|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported problems in family communication|||||
82446726|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|0.66|||||TWO_SIDED||||||||3-month follow-up between groups effect size of parent reported number of relationship topics discussed|||||
82446727|NCT03109184|164601755|SUPERIORITY||Effect Size (d)|-0.1|||||TWO_SIDED||||||||9-month follow-up between groups effect size of parent reported number of relationship topics discussed|||||
82646837|NCT03958071|165008490|OTHER||Absolute standardized differences (ASD)|0.09||||0.2042|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.2042
82411488|NCT02273167|164531346|NON_INFERIORITY_OR_EQUIVALENCE|To accommodate the comparison of two NER1006 regimens, a hierarchical testing approach was used whereby NER1006 2-Day was assessed first and, if successful, then NER1006 1-Day was evaluated. Difference in Polyp Detection Rate in the overall colon was calculated as NER1006 1-Day rate - MOVIPREP rate (10% margin) determined using exact Clopper-Pearson confidence limits.|Difference in PDR|0.61||||0.478|TWO_SIDED|95.0|-7.78|9.09|||Fisher Exact|||If at least one of the primary endpoints were met, then key secondary endpoints were evaluated hierarchically in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of MOVIPREP. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||9.09|-7.78|0.478
82411489|NCT03405870|164531395|OTHER|Determined maximum tolerated dose|Value of Maximum Tolerated Dose (g/kg)|1.6|||||TWO_SIDED|||||||||Using sequential dose escalation, participants received 2 doses of 1.0 to 1.6 g/kg of lipid emulsion (Smoflipid 20% lipid emulsion) within 48 hours of enrollment to test the maximum tolerated dose of study drug. The maximum tolerated dose was defined by patients exhibiting specific dose-related toxicities from administration of escalating doses of the study drug. Of 9 patients, adverse events were only considered dose-limiting toxicities if they met the predefined study protocol criteria.||||
82411490|NCT03643848|164531404|SUPERIORITY||variance components; inferring mean diff|0.068|STANDARD_DEVIATION|0.033|<|0.046|TWO_SIDED|||||a priori threshold p\<.05|Mixed Models Analysis|REML; Satterwaite method for t-tests.Participant is random effect. Addtnl fixed effects: Valence, Condition, Anxiety Severity, Gender, Age (months).||Condition (TMR, Sham) x Valence (Negative, Neutral) predicting Lure Generalization Index at 1 week. We hypothesized a significant interaction, with a reduction in negative generalization and an increase in neutral generalization in the TMR condition.||||<.046
82411491|NCT03643848|164531405|SUPERIORITY||variance components; inferring mean diff|-0.033|STANDARD_ERROR_OF_MEAN|0.064|=|0.61|TWO_SIDED|||||a priori p\<.05|Mixed Models Analysis|included additional fixed effects: Anxiety severity, gender, age (months)||Condition (TMR, Sham) x Valence (Negative, Neutral) predicting Lure Generalization Index at 12 hour test. We hypothesized a significant interaction, with a reduction in negative generalization and an increase in neutral generalization in the TMR condition.||||=.61
82411492|NCT04761822|164531416|SUPERIORITY||Risk Difference (RD)|0.026||||0.066|TWO_SIDED|95.0|-0.002|0.06||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.060|-0.002|0.066
82411493|NCT04761822|164531417|SUPERIORITY||Risk Difference (RD)|0.012||||0.267|TWO_SIDED|95.0|-0.016|0.042||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.042|-0.016|0.267
82411494|NCT04761822|164531418|SUPERIORITY||Risk Difference (RD)|0.016||||0.165|TWO_SIDED|95.0|-0.011|0.046||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.046|-0.011|0.165
82411495|NCT04761822|164531419|SUPERIORITY||Risk Difference (RD)|0.006||||0.572|TWO_SIDED|95.0|-0.021|0.033||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.033|-0.021|0.572
82411496|NCT04761822|164531420|SUPERIORITY||Risk Difference (RD)|0.016||||0.165|TWO_SIDED|95.0|-0.011|0.046|||Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.046|-0.011|0.165
82411497|NCT04761822|164531421|SUPERIORITY||Risk Difference (RD)|0.006||||0.572|TWO_SIDED|95.0|-0.021|0.033||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.033|-0.021|0.572
82411498|NCT04761822|164531422|SUPERIORITY||Risk Difference (RD)|0.015||||0.4574|TWO_SIDED|95.0|-0.045|0.055||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their first active dose as their first injection proportion minus the participants that received their first active dose as their second injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.055|-0.045|0.4574
82411499|NCT04761822|164531423|SUPERIORITY||Risk Difference (RD)|-0.016||||0.3242|TWO_SIDED|95.0|-0.086|0.018||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their first active dose as their first injection proportion minus the participants that received their first active dose as their second injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.018|-0.086|0.3242
82411500|NCT04761822|164531424|SUPERIORITY||Risk Difference (RD)|0.024||||0.31|TWO_SIDED|95.0|-0.037|0.07||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their second active dose as their second injection proportion minus the participants that received their second active dose as their third injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.070|-0.037|0.3100
82446728|NCT03109184|164601756|SUPERIORITY||Effect Size (d)|0.15|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent emotion-regulation|||||
82446729|NCT03109184|164601756|SUPERIORITY||Effect Size (d)|0.32|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent emotion-regulation|||||
82532164|NCT03954158|164761877|OTHER||Difference of least squares mean|0.1|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.5|0.8||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.5|
82646838|NCT03958071|165008490|OTHER||Absolute standardized differences (ASD)|0.21|||<|0.0001|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||<.0001
82411501|NCT04761822|164531425|SUPERIORITY||Risk Difference (RD)|-0.007||||0.807|TWO_SIDED|95.0|-0.0783|0.0366||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the participants that received their second active dose as their second injection proportion minus the participants that received their second active dose as their third injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.0366|-0.0783|0.8070
82411502|NCT04761822|164531426|SUPERIORITY||Risk Difference (RD)|0.001||||1|TWO_SIDED|95.0|-0.04|0.042||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the Pfizer-BioNTech COVID-19 vaccine first injection proportion minus comparison placebo first injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.042|-0.040|1.000
82411503|NCT04761822|164531427|SUPERIORITY||Risk Difference (RD)|-0.015||||0.25|TWO_SIDED|95.0|-0.053|0.018||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the Moderna COVID-19 vaccine first injection proportion minus comparison placebo first injection proportion, is not statistically different from 0 (i.e. there is no difference).||0.018|-0.053|0.250
82411504|NCT04761822|164531428|SUPERIORITY||Risk Difference (RD)|0.058||||0.004|TWO_SIDED|95.0|0.024|0.101||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.101|0.024|0.004
82411505|NCT04761822|164531429|SUPERIORITY||Risk Difference (RD)|0.075|||<|0.001|TWO_SIDED|95.0|0.039|0.124||Two-sided test using the central method of doubling the one-sided p-value.|Barnard's Exact Unconditional Test|||The null hypothesis is that the risk difference, where the difference is represented as the high allergy/mast cell disorder cohort proportion minus comparison cohort proportion, is not statistically different from 0 (i.e. there is no difference).||0.124|0.039|<0.001
82411506|NCT00362232|164531430|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.71|||<|0.001||95.0|-5.25|-0.17|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the primary efficacy endpoint in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||-0.17|-5.25|<0.001
82411507|NCT00362232|164531430|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.71||||0.036||95.0|-5.25|-0.17|||Mantel Haenszel|weighted treatment differences||Null hypothesis: The incidence of the primary efficacy endpoint is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided).||-0.17|-5.25|0.036
82411508|NCT00362232|164531431|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.19||||0.012||95.0|-5.67|-0.71|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the primary efficacy endpoint is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided).||-0.71|-5.67|0.012
82411509|NCT00362232|164531432|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.37||||0.456||95.0|-1.34|0.6|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the major VTE is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.6|-1.34|0.456
82411510|NCT00362232|164531432|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.37|||<|0.001||95.0|-1.34|0.6|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the major VTE in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.6|-1.34|<0.001
82411511|NCT00362232|164531433|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.8||||0.124||95.0|-1.82|0.22|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence of the major VTE is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.22|-1.82|0.124
82411512|NCT00362232|164531433|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.8|||<|0.001||95.0|-1.82|0.22|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence of the major VTE in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.22|-1.82|<0.001
82411513|NCT00362232|164531434|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.44||||||95.0|-1.59|0.66|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.66|-1.59|
82411514|NCT00362232|164531435|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.72||||||95.0|-1.81|0.36|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.36|-1.81|
82411515|NCT00362232|164531436|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.38||||||95.0|-4.84|0.07|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.07|-4.84|
82411516|NCT00362232|164531437|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.67||||||95.0|-5.02|-0.32|||||Mantel-Haenszel weighted difference to Enoxaparin|||-0.32|-5.02|
82411517|NCT00362232|164531438|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.24||||||95.0|-0.22|0.71|||||Mantel-Haenszel weighted difference to Enoxaparin|||0.71|-0.22|
82532165|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-1.0|0.9||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.9|-1.0|
82577070|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6371|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Suicide, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6371
82646839|NCT03958071|165008490|OTHER||Absolute standardized differences (ASD)|0.11||||0.02|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.02
82411518|NCT00362232|164531439|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11||||||95.0|-0.35|0.56||||||||0.56|-0.35|
82411519|NCT00362232|164531440|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3||||||95.0|-1.56|0.94|||||Exact methods for difference to Enoxaparin|||0.94|-1.56|
82411520|NCT00362232|164531441|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.47||||0.054||95.0|-4.99|0.04|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.04|-4.99|0.054
82411521|NCT00362232|164531441|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.47|||<|0.001||95.0|-4.49|0.04|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||0.04|-4.49|<0.001
82411522|NCT00362232|164531442|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.97||||0.017||95.0|-5.42|-0.53|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||-0.53|-5.42|0.017
82411523|NCT00362232|164531442|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-2.97|||<|0.001||95.0|-5.42|-0.53|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 4% (absolute) compared to the comparator group.||-0.53|-5.42|<0.001
82411524|NCT00362232|164531443|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.57||||0.27||95.0|-1.57|0.44|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.44|-1.57|0.270
82411525|NCT00362232|164531443|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided).|Risk Difference (RD)|-0.57|||<|0.001||95.0|-1.57|0.44|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.44|-1.57|<0.001
82411526|NCT00362232|164531444|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.98||||0.074||95.0|-2.06|0.1|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.10|-2.06|0.074
82646840|NCT03958071|165008491|OTHER||Absolute standardized differences (ASD)|0.0241||||0.7395|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.7395
82411527|NCT00362232|164531444|NON_INFERIORITY_OR_EQUIVALENCE|P-values were calculated based on the Mantel-Haenszel weighted estimator (one-sided) .|Risk Difference (RD)|-0.98|||<|0.001||95.0|-2.06|0.1|||Mantel Haenszel|weighted treatment differences||Null hypothesis: rivaroxaban is inferior to the comparator, ie, the incidence rate in the rivaroxaban group is larger by more than 1.5% (absolute) compared to the comparator group.||0.10|-2.06|<0.001
82411528|NCT00362232|164531445|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.39||||0.11||95.0|-0.09|0.88|||Mantel Haenszel|weighted treatment differences|Mantel-Haenszel weighted difference to Enoxaparin|Null hypothesis: The incidence rate is equal in the rivaroxaban group and the comparator group. P-values were calculated based on the Mantel-Haenszel weighted estimator (two-sided)||0.88|-0.09|0.110
82411529|NCT06023563|164531447|OTHER|The required sample size for medium effect size (f = 0.25) and power of 0.80 was calculated to be 6 participants in each group (n =12) (G\*power 3.1.9.7 software). Data were analyzed using IBM SPSS statistical package (version 29.0.1.0).|||||<|0.05|||||||Friedman's test|||A virtual reality active video gaming intervention will be more effective than traditional physical therapy based balance exercises, both based on motor learning principles, in improving static and dynamic balance in youth and young adults with ASD and these improvements will be retained at 4 weeks after the intervention.||||< 0.05
82411530|NCT06023563|164531448|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411531|NCT06023563|164531449|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411532|NCT06023563|164531450|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411533|NCT06023563|164531451|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411534|NCT06023563|164531452|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411535|NCT06023563|164531453|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411536|NCT06023563|164531454|OTHER||||||<|0.05|||||||Friedman's test|||||||< 0.05
82411537|NCT00090103|164531484|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.8||||0.18||95.0|0.58|1.11||Log-rank test with stratification by cluster.|Log Rank|||||1.11|0.58|0.18
82411538|NCT00090103|164531484|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.34|||<|0.001||95.0|0.26|0.45||Log-rank test with stratification by cluster.|Log Rank|||||0.45|0.26|<0.001
82411539|NCT00090103|164531486|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||Log rank test with stratification by cluster.|Log Rank|||||||0.18
82411540|NCT00090103|164531486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Log rank test with stratification by cluster.|Log Rank|||||||<0.001
82646841|NCT03958071|165008491|OTHER||Absolute standardized differences (ASD)|0.1644||||0.0017|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.0017
82646842|NCT03958071|165008491|OTHER||Absolute standardized differences (ASD)|0.1403||||0.0034|||||||Chi-squared||ASD=(p1-p2)/(sqrt(p1\^(1-p1)+p2(1-p2))/2). Where p denotes proportion of a binary variable in each cohort.|||||0.0034
82411541|NCT00090103|164531488|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.65|||<|0.001||95.0|0.52|0.8|||Log Rank|Log-rank test with stratification by cluster.||||0.80|0.52|<0.001
82446730|NCT03109184|164601757|SUPERIORITY||Effect Size (d)|-0.11|||||TWO_SIDED||||||||3-month follow-up between groups effect size of adolescent distress tolerance|||||
82446731|NCT03109184|164601757|SUPERIORITY||Effect Size (d)|0.23|||||TWO_SIDED||||||||9-month follow-up between groups effect size of adolescent distress tolerance|||||
82446732|NCT00602420|164601758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67||||0.037|TWO_SIDED|95.0|0.1|3.24|||t-test, 2 sided|||Tested at the two-sided 0.05 significance level.||3.24|0.10|0.037
82446733|NCT00602420|164601758|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Tested at the two-sided 0.05 significance level.||||0.007
82446734|NCT01209078|164601822|SUPERIORITY_OR_OTHER||Difference|-22.2|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for end of therapy Clinical Success.||||
82446735|NCT01209078|164601822|SUPERIORITY_OR_OTHER||Difference|-24.0|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Follow-up Clinical Success.||||
82446736|NCT01209078|164601823|SUPERIORITY_OR_OTHER||Difference|-35.0|||||TWO_SIDED|95.0|-60.6|-9.4|||Regression, Logistic|||||-9.4|-60.6|
82446737|NCT01209078|164601824|SUPERIORITY_OR_OTHER||Difference|-35.0|||||TWO_SIDED|95.0|-60.6|-9.4|||Regression, Logistic|||||-9.4|-60.6|
82532166|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.7||||||Change at Day 7, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.7|-1.0|
82446738|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.41|0.74|||Mixed Models Analysis|||GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 exudate or pus score.||0.74|-0.41|
82446739|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.7|0.45|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 exudate or pus score.||0.45|-0.70|
82446740|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.74|0.43|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 exudate or pus score.||0.43|-0.74|
82446741|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||||TWO_SIDED|95.0|-0.25|0.95|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 exudate or pus score.||0.95|-0.25|
82646843|NCT01142466|165008492|SUPERIORITY_OR_OTHER|||||||0.1384|||||||Log Rank|||Two-sided log rank test with alpha equal to 0.05 was used as the appropriate nonparametric method to compare the two groups.||||0.1384
82411542|NCT00090103|164531488|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.59|||<|0.001||95.0|0.48|0.72|||Log Rank|||||0.72|0.48|<0.001
82446742|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.49|0.72|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 exudate or pus score.||0.72|-0.49|
82411543|NCT00090103|164531489|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.65
82446743|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.53|0.66|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow- up exudate or pus score.||0.66|-0.53|
82446744|NCT01209078|164601827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.65|0.58|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow- up exudate or pus score.||0.58|-0.65|
82446745|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|||||TWO_SIDED|95.0|-3.04|1.33|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 total SIS.||1.33|-3.04|
82446746|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-2.94|1.41|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 total SIS.||1.41|-2.94|
82446747|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|||||TWO_SIDED|95.0|-1.68|2.75|||||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 total SIS.||2.75|-1.68|
82446748|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-0.46|4.05|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 total SIS.||4.05|-0.46|
82446749|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|-1.09|3.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 total SIS.||3.47|-1.09|
82532167|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.2|
82411544|NCT00090103|164531489|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Log Rank|Mantel-Hanenszel test with stratification by cluster.||||||0.10
82411545|NCT00090103|164531490|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.95
82532168|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.3|0.5||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-1.3|
82646844|NCT01142466|165008493|SUPERIORITY_OR_OTHER|||||||0.2635||95.0|||||Fisher Exact|||||||0.2635
82446750|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||||TWO_SIDED|95.0|-1.49|2.98|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up total SIS.||2.98|-1.49|
82446751|NCT01209078|164601828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|-2.09|2.52|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (final values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up total SIS.||2.52|-2.09|
82446752|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|||||TWO_SIDED|95.0|-3.04|1.33|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 total SIS.||1.33|-3.04|
82446753|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.77|||||TWO_SIDED|95.0|-2.94|1.41|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 total SIS.||1.41|-2.94|
82446754|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54|||||TWO_SIDED|95.0|-1.68|2.75|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 total SIS.||2.75|-1.68|
82446755|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.79|||||TWO_SIDED|95.0|-0.46|4.05|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 total SIS.||4.05|-0.46|
82446756|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.19|||||TWO_SIDED|95.0|-1.09|3.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 total SIS.||3.47|-1.09|
82446757|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|-1.49|2.98|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up total SIS.||2.98|-1.49|
82646845|NCT04084028|165008499|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
82411546|NCT00090103|164531490|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Log Rank|Mantel-Haenszel test with stratification by cluster.||||||0.24
82446758|NCT01209078|164601829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-2.09|2.52|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up total SIS.||2.52|-2.09|
82446759|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-68.85|||||TWO_SIDED|95.0|-132.8|-4.95|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 2 wound area.||-4.95|-132.8|
82446760|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.06|||||TWO_SIDED|95.0|-66.54|60.43|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 3 wound area.||60.43|-66.54|
82446761|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Median Difference (Net)|31.47|||||TWO_SIDED|95.0|-33.53|96.47|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 4 wound area.||96.47|-33.53|
82446762|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.94|||||TWO_SIDED|95.0|-22.43|110.31|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 8 wound area.||110.31|-22.43|
82411547|NCT03345004|164531519|SUPERIORITY||Estimated ratio|1.091|||=|0.5009|TWO_SIDED|95.0|0.845|1.408|||Mixed Models Analysis|||||1.408|0.845|= 0.5009
82446763|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.21|||||TWO_SIDED|95.0|-33.03|101.45|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for Day 11 wound area.||101.45|-33.03|
82446764|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.57|||||TWO_SIDED|95.0|-28.25|103.4|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 7 Day Follow-up wound area.||103.40|-28.25|
82446765|NCT01209078|164601830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.4|||||TWO_SIDED|95.0|-30.77|105.56|||Mixed Models Analysis||The point estimate was calculated as least square mean difference (net values) of GSK1322322 1500 mg and Linezolid 600 mg.|GSK1322322 1500 mg versus Linezolid 600 mg for 28 Day Follow-up wound area.||105.56|-30.77|
82446766|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-35.4|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Staphylococcus aureus (all).||||
82446767|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-37.5|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for MRSA.||||
82446768|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-28.6|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for MSSA.||||
82446769|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-66.7|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Streptococcus pyogenes.||||
82446770|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-25.0|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for Gram-negative pathogens.||||
82646846|NCT04084028|165008500|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82646847|NCT04084028|165008501|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||||||0.91
82646848|NCT04084028|165008502|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||.19
82411548|NCT03345004|164531519|SUPERIORITY||Estimated ratio|1.557|||=|0.0078|TWO_SIDED|95.0|1.126|2.153|||Mixed Models Analysis|||||2.153|1.126|= 0.0078
82411549|NCT01013753|164531541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.097|0.182|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.182|0.097|<0.0001
82446771|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|-37.5|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for All pathogens.||||
82446772|NCT01209078|164601831|SUPERIORITY_OR_OTHER||Difference|2.2|||||||||||Regression, Logistic|||GSK1322322 1500 mg versus Linezolid 600 mg for No pathogens.||||
82446773|NCT00924508|164601833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
82446774|NCT00924508|164601833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
82446775|NCT00924508|164601833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Baseline and post-treatment comparison||||<0.001
82446776|NCT03464019|164601835|SUPERIORITY||Hazard Ratio (HR)|1.086||||0.1212|TWO_SIDED|95.0|0.726|1.623|||Peto-Peto test|||In Part 1, participants who converted following medical assistance were censored at the time of conversion after medical assistance. Participants who presented missing data from time t to the end were censored at the time of last available data. Participants who did not convert or were not censored before 5 hours were censored at 5 hours.||1.623|0.726|0.1212
82446777|NCT03464019|164601835|SUPERIORITY||Hazard Ratio (HR)|2.857|||<|0.001|TWO_SIDED|95.0|1.868|4.371||The threshold for statistical significance was p \< 0.05.|Wilcoxon|||In Parts 2 and 3, participants converting after additional medication interventions were censored after the end of the observation period.||4.371|1.868|<0.001
82446778|NCT00767806|164601836|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory 24-hour average pain score after 12 weeks of treatment.||||0.001
82646849|NCT04084028|165008503|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||||||.77
82646850|NCT04084028|165008504|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||.06
82446779|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.002|TWO_SIDED|95.0|-1.12|-0.25||P-value is for BPI severity of worst pain - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of worst pain score during 12 weeks of treatment.||-0.25|-1.12|0.002
82446780|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.006|TWO_SIDED|95.0|-0.85|-0.14||P-value is for BPI severity of least pain - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of least pain score during 12 weeks of treatment.||-0.14|-0.85|0.006
82446781|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.001|TWO_SIDED|95.0|-1.25|-0.46||P-value is for BPI severity of pain right now - change|ANCOVA|Main effect model: Change = Treatment + Investigator + Baseline (Type III sums of square)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory severity of pain right now score during 12 weeks of treatment.||-0.46|-1.25|<0.001
82446782|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|||<|0.001|TWO_SIDED|95.0|-1.16|-0.35||P-value is for BPI interference with general activity - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with general activity score during 12 weeks of treatment.||-0.35|-1.16|<0.001
82446783|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.09|-0.34||P-value is for BPI interference with mood score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with mood score during 12 weeks of treatment.||-0.34|-1.09|<0.001
82446784|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.02|TWO_SIDED|95.0|-0.84|-0.07||P-value is for BPI interference with walking ability - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with walking ability score during 12 weeks of treatment.||-0.07|-0.84|0.020
82446785|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.012|TWO_SIDED|95.0|-0.9|-0.11||P-value is for BPI interference with normal work - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with normal work score during 12 weeks of treatment.||-0.11|-0.90|0.012
82446786|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.001|TWO_SIDED|95.0|-0.92|-0.22||P-value is for BPI interference with relations to others - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with relations to others score during 12 weeks of treatment.||-0.22|-0.92|0.001
82446787|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.002|TWO_SIDED|95.0|-1.13|-0.27||P-value is for BPI interference with sleep score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with sleep score during 12 weeks of treatment.||-0.27|-1.13|0.002
82446788|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.005|TWO_SIDED|95.0|-0.96|-0.18||P-value is for BPI interference with enjoyment of life score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory interference with enjoyment of life score during 12 weeks of treatment.||-0.18|-0.96|0.005
82446789|NCT00767806|164601837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.92|-0.25||P-value is for BPI average interference score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Brief Pain Inventory average interference score during 12 weeks of treatment.||-0.25|-0.92|<0.001
82446790|NCT00767806|164601838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.05|-0.35||p-value is for weekly 24-hour average pain rating score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour average pain rating score during 12 weeks of treatment.||-0.35|-1.05|<0.001
82446791|NCT00767806|164601838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.08|-0.33||p-value is for weekly 24-hour worst pain score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour worst pain score during 12 weeks of treatment.||-0.33|-1.08|<0.001
82446792|NCT00767806|164601838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.004|TWO_SIDED|95.0|-0.87|-0.17||p-value is for weekly 24-hour night pain score - change|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the weekly 24-hour night pain score during 12 weeks of treatment.||-0.17|-0.87|0.004
82446793|NCT00767806|164601839|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||p-value is for number of patients who achieve a \>=30% reduction of the Brief Pain Inventory average pain severity rating - difference between placebo and duloxetine|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=30% reduction of the Brief Pain Inventory average pain severity rating after 12 weeks of treatment.||||0.108
82446794|NCT00767806|164601840|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for number of patients who achieve a \>=50% reduction of the Brief Pain Inventory average pain severity rating - difference between placebo and duloxetine|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=50% reduction of the Brief Pain Inventory average pain severity rating after 12 weeks of treatment.||||0.006
82446795|NCT00767806|164601841|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||p-value is difference between duloxetine and placebo in number of patients who achieve criteria described in null hypothesis|Fisher Exact|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in number of patients who achieve a \>=30% reduction of the Brief Pain Inventory (BPI) average pain severity rating from baseline to endpoint and baseline to earlier visit than last visit and maintains a \>=20% reduction of BPI average pain rating from baseline at every visit.||||0.082
82446796|NCT00767806|164601842|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for difference between duloxetine and placebo groups in the empirical overall cumulated distribution of the percentage pain reduction|Kolnogorov-Smirnov test|||Tested was the null hypothesis that there is no difference between duloxetine and placebo groups in the empirical cumulated distribution of the percentage pain reduction.||||0.013
82446797|NCT00767806|164601843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.077|TWO_SIDED|95.0|-0.33|0.02||p-value is for difference between placebo and duloxetine groups in change of the Clinical Global Impression of Severity score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Clinical Global Impression of Severity score after 12 weeks of treatment.||0.02|-0.33|0.077
82446798|NCT00767806|164601844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.011|TWO_SIDED|95.0|-0.56|-0.07||p-value is for difference between placebo and duloxetine groups Patient's Global Impression of Improvement endpoint value|ANCOVA|Main Effect Model: PGI-I=Treatment+Investigator+Baseline(Type III sums of squares). PGI-Severity score from baseline visit was used as the baseline.||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups Patient's Global Impression of Improvement endpoint value during 12 weeks of treatment.||-0.07|-0.56|0.011
82446799|NCT00767806|164601845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.255|TWO_SIDED|95.0|-1.28|0.34||p-value is for difference between placebo and duloxetine groups in change of the Roland Morris Disability Questionnaire total score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Roland Morris Disability Questionnaire total score during 12 weeks of treatment.||0.34|-1.28|0.255
82446800|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.38|-0.37||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Tension-Anxiety subscore|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Tension-Anxiety subscore during 12 weeks of treatment.||-0.37|-1.38|<0.001
82446801|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.133|TWO_SIDED|95.0|-0.9|0.12||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Depression-Dejection subscore|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Depression-Dejection subscore during 12 weeks of treatment.||0.12|-0.90|0.133
82532169|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.4|0.2||||||Change at Day 8, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.4|
82532170|NCT03954158|164761877|OTHER||Difference of least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.5|0.8||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-0.5|
82532171|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.2|0.6||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.6|-1.2|
82648022|NCT04133519|165011388|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0232|TWO_SIDED|95.0|1.08|2.87|||Cochran-Mantel-Haenszel||Odds ratio reflects the odds of the number of GDH responders being greater than the number of MR responders for abdominal pain intensity.|The final 4 weeks of the on-treatment period (weeks 9-12) was a pre-specified period for analysis of the primary endpoint measure of abdominal pain due to IBS. An abdominal pain intensity responder was defined as a participant whose daily abdominal pain intensity averaged over the last 4 weeks of phase s (weeks 9 through 12) was at least 30% reduced compared with the daily abdominal pain intensity averaged over the 4 weeks of phase 1.||2.87|1.08|0.0232
82411550|NCT01013753|164531541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.14|0.224|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.224|0.140|<0.0001
82411551|NCT01013753|164531541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.205|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.163|0.248|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.248|0.163|<0.0001
82411552|NCT01013753|164531541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.186|0.272|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.272|0.186|<0.0001
82411553|NCT01013753|164531541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.126|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.211|0.126|<0.0001
82411554|NCT01013753|164531542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.116|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.211|0.116|<0.0001
82411555|NCT01013753|164531542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.166|0.259|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.259|0.166|<0.0001
82411556|NCT01013753|164531542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.186|0.28|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.280|0.186|<0.0001
82411557|NCT01013753|164531542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.203|0.298|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.298|0.203|<0.0001
82411558|NCT01013753|164531542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.137|0.231|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.231|0.137|<0.0001
82411559|NCT01013753|164531543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.073|0.158|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.158|0.073|<0.0001
82411560|NCT01013753|164531543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.11|0.193|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.193|0.110|<0.0001
82411561|NCT01013753|164531543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.135|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.219|0.135|<0.0001
82411562|NCT01013753|164531543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.164|0.25|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.250|0.164|<0.0001
82411563|NCT01013753|164531543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.11|0.194|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.194|0.110|<0.0001
82411564|NCT01013753|164531544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.056|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.148|0.056|<0.0001
82411565|NCT01013753|164531544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.09|0.18|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.180|0.090|<0.0001
82411566|NCT01013753|164531544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.116|0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.207|0.116|<0.0001
82532172|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.4||||||Change at Day 9, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.4|-1.2|
82411567|NCT01013753|164531544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.134|0.226|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.226|0.134|<0.0001
82411568|NCT01013753|164531544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.12|0.211|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.211|0.120|<0.0001
82411569|NCT01013753|164531545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.058|0.148|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.148|0.058|<0.0001
82411570|NCT01013753|164531545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.088|0.177|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.177|0.088|<0.0001
82411571|NCT01013753|164531545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.124|0.214|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.214|0.124|<0.0001
82411572|NCT01013753|164531545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.153|0.244|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.244|0.153|<0.0001
82411573|NCT01013753|164531545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.058|0.147|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.147|0.058|<0.0001
82411574|NCT01013753|164531546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.052|0.154|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.154|0.052|<0.0001
82411575|NCT01013753|164531546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.106|0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.207|0.106|<0.0001
82411576|NCT01013753|164531546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.091|0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.192|0.091|<0.0001
82411577|NCT01013753|164531546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.118|0.221|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.221|0.118|<0.0001
82411578|NCT01013753|164531546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.051|0.153|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.153|0.051|<0.0001
82411579|NCT01013753|164531547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.024||0.0107||95.0|0.014|0.107|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.107|0.014|0.0107
82411580|NCT01013753|164531547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.069|0.16|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.160|0.069|<0.0001
82411581|NCT01013753|164531547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.069|0.161|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.161|0.069|<0.0001
82411582|NCT01013753|164531547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.098|0.191|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.191|0.098|<0.0001
82411583|NCT01013753|164531547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.024||0.0001||95.0|0.044|0.137|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.137|0.044|0.0001
82411584|NCT01013753|164531548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.023||0.0005||95.0|0.036|0.128|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.128|0.036|0.0005
82411585|NCT01013753|164531548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.09|0.181|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.181|0.090|<0.0001
82411586|NCT01013753|164531548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.083|0.174|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.174|0.083|<0.0001
82532173|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-1.2|0.1||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.1|-1.2|
82411587|NCT01013753|164531548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.111|0.203|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.203|0.111|<0.0001
82532174|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.3|0.7||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-1.3|
82532175|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 10, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.6|-1.0|
82532176|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.1|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-0.8|0.5||||||Change at Day 10, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-0.8|
82532177|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.6|0.3||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-1.6|
82532178|NCT03954158|164761877|OTHER||Difference of least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-0.4|1.0||||||Change at Day 11, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.0|-0.4|
82532179|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 11, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.2|
82532180|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-1.9|0.0||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-1.9|
82532181|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 12, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
82532182|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-1.0|0.5||||||Change at Day 12, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.0|
82532183|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-1.5|0.4||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.4|-1.5|
82411588|NCT01013753|164531548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.051|0.143|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.143|0.051|<0.0001
82411589|NCT01013753|164531549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.028||0.0952||95.0|-0.008|0.103|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.103|-0.008|0.0952
82411590|NCT01013753|164531549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.028||0.0003||95.0|0.048|0.158|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.158|0.048|0.0003
82411591|NCT01013753|164531549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.028||0.0016||95.0|0.034|0.145|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.145|0.034|0.0016
82411592|NCT01013753|164531549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.071|0.183|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.183|0.071|<0.0001
82411593|NCT01013753|164531549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.028||0.0096||95.0|0.018|0.129|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.129|0.018|0.0096
82411594|NCT01013753|164531550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.147||95.0|-0.013|0.088|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.088|-0.013|0.1470
82411595|NCT01013753|164531550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.025||0.0003||95.0|0.042|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.141|0.042|0.0003
82411596|NCT01013753|164531550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.06|0.16|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.160|0.060|<0.0001
82446802|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|||<|0.001|TWO_SIDED|95.0|-1.46|-0.37||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Anger-Hostility score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Anger-Hostility score during 12 weeks of treatment.||-0.37|-1.46|<0.001
82446803|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13||||0.003|TWO_SIDED|95.0|0.38|1.88||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Vigor-Activity score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Vigor-Activity score during 12 weeks of treatment.||1.88|0.38|0.003
82532184|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.5|0.2||||||Change at Day 13, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.2|-1.5|
82532185|NCT03954158|164761877|OTHER||Least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-1.1|0.3||||||Change at Day 13, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.3|-1.1|
82532186|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-1.4|0.4||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.4|-1.4|
82532187|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.1|0.5||||||Change at Day 14, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.1|
82532188|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 14, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.0|
82411597|NCT01013753|164531550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.078|0.179|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.179|0.078|<0.0001
82411598|NCT01013753|164531550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.025||0.0448||95.0|0.001|0.101|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.101|0.001|0.0448
82411599|NCT01013753|164531551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.408|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.277|0.539|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.539|0.277|<0.0001
82411600|NCT01013753|164531551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.566|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.438|0.695|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.695|0.438|<0.0001
82411601|NCT01013753|164531551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.612|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.482|0.743|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.743|0.482|<0.0001
82411602|NCT01013753|164531551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.539|0.801|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.801|0.539|<0.0001
82411603|NCT01013753|164531551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.588|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001||95.0|0.457|0.718|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.718|0.457|<0.0001
82411604|NCT01013753|164531552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.337|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.213|0.461|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.461|0.213|<0.0001
82411605|NCT01013753|164531552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.485|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.363|0.606|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.606|0.363|<0.0001
82411606|NCT01013753|164531552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.531|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.408|0.655|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.655|0.408|<0.0001
82411607|NCT01013753|164531552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.648|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.524|0.772|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.772|0.524|<0.0001
82411608|NCT01013753|164531552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.551|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|0.428|0.674|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.674|0.428|<0.0001
82411609|NCT01013753|164531553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.373|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.253|0.493|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.493|0.253|<0.0001
82411610|NCT01013753|164531553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.527|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.409|0.645|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.645|0.409|<0.0001
82446804|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.469|TWO_SIDED|95.0|-0.93|0.43||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Fatigue-Inertia score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Fatigue-Inertia score during 12 weeks of treatment.||0.43|-0.93|0.469
82446805|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.006|TWO_SIDED|95.0|-0.98|-0.17||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Confusion-Bewilderment score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Confusion-Bewilderment score during 12 weeks of treatment.||-0.17|-0.98|0.006
82446806|NCT00767806|164601846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.001|TWO_SIDED|95.0|-6.41|-1.6||p-value is for difference between placebo and duloxetine groups in change of the Profile of Mood States Total Mood Disturbance score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Profile of Mood States Total Mood Disturbance score during 12 weeks of treatment.||-1.60|-6.41|0.001
82446807|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.168|TWO_SIDED|95.0|-0.53|3.02||p-value is for difference between placebo and duloxetine groups in change of the 36-SF Health Survey Physical Component score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the 36-SF Health Survey Physical Component score during 12 weeks of treatment.||3.02|-0.53|0.168
82446808|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.01|TWO_SIDED|95.0|0.53|3.96||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Component score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Component score during 12 weeks of treatment.||3.96|0.53|0.010
82446809|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.58||||0.016|TWO_SIDED|95.0|0.86|8.3||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Bodily Pain Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Bodily Pain Transformed score during 12 weeks of treatment.||8.30|0.86|0.016
82532189|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.9|0.5||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-0.9|
82446810|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.88|||<|0.001|TWO_SIDED|95.0|2.15|7.61||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Health Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Mental Health Transformed score during 12 weeks of treatment.||7.61|2.15|<0.001
82446811|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.58||||0.101|TWO_SIDED|95.0|-0.5|5.67||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey General Health Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey General Health Transformed score during 12 weeks of treatment.||5.67|-0.50|0.101
82446812|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.058|TWO_SIDED|95.0|-0.12|7.12||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Physical Functioning Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Physical Functioning Transformed score during 12 weeks of treatment.||7.12|-0.12|0.058
82446813|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43||||0.227|TWO_SIDED|95.0|-1.52|6.37||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Emotional Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Emotional Transformed score during 12 weeks of treatment.||6.37|-1.52|0.227
82532190|NCT03954158|164761877|OTHER||Least squares mean of difference|-0.4|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|-1.2|0.5||||||Change at Day 15, Intra-participant: Mixed effect model for repeated measures includes the fixed effect of day and the covariance structure AR1 is used.||0.5|-1.2|
82532191|NCT03954158|164761877|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.0|0.6||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.0|
82532192|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-0.9|0.7||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.7|-0.9|
82532193|NCT03954158|164761878|OTHER||Least squares mean of difference|0.2|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-0.6|1.0||||||Change at Day 2, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.0|-0.6|
82532194|NCT03954158|164761878|OTHER||Difference of least squares mean|0.2|STANDARD_ERROR_OF_MEAN|0.5|||TWO_SIDED|95.0|-0.8|1.2||||||Change at Day 2, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.2|-0.8|
82532195|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|-0.9|0.5||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-0.9|
82532196|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.3|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-1.5|1.0||||||Change at Day 3, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.0|-1.5|
82411611|NCT01013753|164531553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.572|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.453|0.692|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.692|0.453|<0.0001
82411612|NCT01013753|164531553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.54|0.781|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.781|0.540|<0.0001
82411613|NCT01013753|164531553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.451|0.689|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.689|0.451|<0.0001
82411614|NCT01013753|164531554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.168|0.436|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.436|0.168|<0.0001
82411615|NCT01013753|164531554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.429|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001||95.0|0.297|0.561|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.561|0.297|<0.0001
82411616|NCT01013753|164531554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.333|0.599|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.599|0.333|<0.0001
82411617|NCT01013753|164531554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.4|0.669|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.669|0.400|<0.0001
82411618|NCT01013753|164531554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.504|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001||95.0|0.371|0.637|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.637|0.371|<0.0001
82446814|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91||||0.383|TWO_SIDED|95.0|-2.39|6.21||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Physical Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Role-Physical Transformed score during 12 weeks of treatment.||6.21|-2.39|0.383
82532197|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|95.0|-1.6|0.5||||||Change at Day 3, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-1.6|
82411619|NCT01013753|164531555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.264|STANDARD_ERROR_OF_MEAN|0.07||0.0002||95.0|0.127|0.401|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.401|0.127|0.0002
82411620|NCT01013753|164531555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.468|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.333|0.602|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.602|0.333|<0.0001
82411621|NCT01013753|164531555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.348|0.62|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.620|0.348|<0.0001
82411622|NCT01013753|164531555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.624|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.487|0.761|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.761|0.487|<0.0001
82411623|NCT01013753|164531555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.447|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|0.311|0.583|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.583|0.311|<0.0001
82411624|NCT01013753|164531556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.012|STANDARD_ERROR_OF_MEAN|3.671|<|0.0001||95.0|14.802|29.223|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||29.223|14.802|<0.0001
82411625|NCT01013753|164531556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.022|STANDARD_ERROR_OF_MEAN|3.61|<|0.0001||95.0|21.931|36.114|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||36.114|21.931|<0.0001
82411626|NCT01013753|164531556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.887|STANDARD_ERROR_OF_MEAN|3.631|<|0.0001||95.0|20.755|35.019|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||35.019|20.755|<0.0001
82411627|NCT01013753|164531556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.935|STANDARD_ERROR_OF_MEAN|3.668|<|0.0001||95.0|25.73|40.139|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||40.139|25.730|<0.0001
82411628|NCT01013753|164531556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.528|STANDARD_ERROR_OF_MEAN|3.644|<|0.0001||95.0|16.371|30.686|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||30.686|16.371|<0.0001
82411629|NCT01013753|164531557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.92|STANDARD_ERROR_OF_MEAN|3.64|<|0.0001||95.0|7.77|22.071|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||22.071|7.770|<0.0001
82411630|NCT01013753|164531557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.834|STANDARD_ERROR_OF_MEAN|3.58|<|0.0001||95.0|17.801|31.866|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||31.866|17.801|<0.0001
82411631|NCT01013753|164531557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.613|STANDARD_ERROR_OF_MEAN|3.601|<|0.0001||95.0|16.539|30.686|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||30.686|16.539|<0.0001
82411632|NCT01013753|164531557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.449|STANDARD_ERROR_OF_MEAN|3.637|<|0.0001||95.0|21.305|35.594|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||35.594|21.305|<0.0001
82411633|NCT01013753|164531557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.439|STANDARD_ERROR_OF_MEAN|3.614|<|0.0001||95.0|13.341|27.538|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||27.538|13.341|<0.0001
82411634|NCT01013753|164531558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.994|STANDARD_ERROR_OF_MEAN|0.507|<|0.0001||95.0|-2.989|-0.999|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.999|-2.989|<0.0001
82411635|NCT01013753|164531558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.095|STANDARD_ERROR_OF_MEAN|0.498|<|0.0001||95.0|-3.073|-1.116|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-1.116|-3.073|<0.0001
82532198|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-1.1|0.8||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.8|-1.1|
82532199|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.5|1.1||||||Change at Day 4, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.1|-1.5|
82532200|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.9|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.4|0.6||||||Change at Day 4, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-2.4|
82648023|NCT04133519|165011388|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0254|TWO_SIDED|95.0|1.07|2.89||P-value from Cochran-Mantel-Haenszel Test testing H0: OR=1; H1: OR\<\>1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel||Odds ratio reflects the odds of GDH being superior to MR.|"Abdominal pain scores were averaged each week on treatment (1-12) and compared with the average baseline abdominal pain score. Participants that recorded a \> 30% decrease in abdominal pain in at least half the weeks on treatment were considered responders.~This analysis was specified in FDA Guidance for Industry, Irritable Bowel Syndrome - Clinical Evaluation of Drugs for Treatment, May 2012. Both the analysis period and the responder threshold (30%) are specified by the FDA Guidance."|Among all subjects, 64.0% reported Adequate Relief and 67.7% reported overall satisfaction with Regulora.|2.89|1.07|0.0254
82411636|NCT01013753|164531558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.836|STANDARD_ERROR_OF_MEAN|0.503||0.0003||95.0|-2.824|-0.849|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.849|-2.824|0.0003
82411637|NCT01013753|164531558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.789|STANDARD_ERROR_OF_MEAN|0.506||0.0004||95.0|-2.783|-0.795|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.795|-2.783|0.0004
82411638|NCT01013753|164531558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.503||0.0118||95.0|-2.258|-0.283|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.283|-2.258|0.0118
82411639|NCT01013753|164531559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.025||0.0002||95.0|0.045|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.141|0.045|0.0002
82411640|NCT01013753|164531559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.081|0.176|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.081|<0.0001
82411641|NCT01013753|164531559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.087|0.183|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.183|0.087|<0.0001
82411642|NCT01013753|164531559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.121|0.217|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.217|0.121|<0.0001
82532201|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.4|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-2.2|-0.5||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.5|-2.2|
82648024|NCT04133519|165011389|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.8115|TWO_SIDED|95.0|-0.434|0.554|||ANOVA|||The least square (LS) mean difference between the GDH and MR groups using an analysis of variance (ANOVA) model||0.554|-0.434|0.8115
82411643|NCT01013753|164531559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.024||0.0001||95.0|0.045|0.141|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.141|0.045|0.0001
82411644|NCT01013753|164531560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.024||0.0362||95.0|0.003|0.097|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.097|0.003|0.0362
82411645|NCT01013753|164531560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.023||0.0006||95.0|0.035|0.127|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.127|0.035|0.0006
82411646|NCT01013753|164531560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.024||0.0002||95.0|0.042|0.135|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.135|0.042|0.0002
82411647|NCT01013753|164531560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.07|0.164|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.164|0.070|<0.0001
82411648|NCT01013753|164531560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.024||0.001||95.0|0.032|0.125|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.125|0.032|0.0010
82411649|NCT01013753|164531561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001||95.0|-0.77|-0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.282|-0.770|<0.0001
82411650|NCT01013753|164531561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.432|STANDARD_ERROR_OF_MEAN|0.122||0.0004||95.0|-0.671|-0.192|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.192|-0.671|0.0004
82411651|NCT01013753|164531561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.478|STANDARD_ERROR_OF_MEAN|0.123||0.0001||95.0|-0.72|-0.237|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.237|-0.720|0.0001
82532202|NCT03954158|164761878|OTHER||Least squares mean of difference|0.1|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-1.3|1.5||||||Change at Day 5, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||1.5|-1.3|
82532203|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.7|1.2||||||Change at Day 5, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||1.2|-1.7|
82532204|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.0|
82532205|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-1.4|0.5||||||Change at Day 6, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.5|-1.4|
82532206|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.4|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-1.7|0.8||||||Change at Day 6, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.8|-1.7|
82532207|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.0|-0.2||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.2|-2.0|
82532208|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-2.1|-0.1||||||Change at Day 7, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.1|
82532209|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.9|0.6||||||Change at Day 7, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.6|-1.9|
82532210|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.0|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.0|0.0||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.0|
82532211|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.4|-0.2||||||Change at Day 8, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.2|-2.4|
82532212|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.6|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.9|0.7||||||Change at Day 8, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.7|-1.9|
82532213|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.3|-0.1||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.3|
82576402|NCT01735175|164862384|EQUIVALENCE|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta® was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|0.07||||0.05|TWO_SIDED|95.0|-0.12|0.26|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).|The difference between LA-EP2006 and reference pegfilgrastim was 0.07 days (95% CI \[-0.12, 0.26\]). 95% CIs were within the predefined margin of ±1 day confirming equivalence.|"The hierarchical test procedure aimed to show that~1. LA-EP2006 and Neulasta® are equivalent with respect to DSN duration in Cycle 1 (margin±1 day), and, if so~2. LA-EP2006 is non-inferior to Neulasta® with respect to DSN duration in Cycle 1 (margin of -0.6 days)."||0.26|-0.12|0.05
82576403|NCT01735175|164862384|NON_INFERIORITY|The testing procedure was set up in a hierarchical structure, where first equivalence between LA-EP2006 and Neulasta was assessed (margin ±1 day) and only if this was successfully established, non-inferiority between the two products was tested using a tighter margin of -0.6 days.|Mean Difference (Net)|0.07||||0.05|TWO_SIDED|95.0|-0.12|0.26|||ANCOVA|The primary endpoints was analyzed with analysis of covariance (ANCOVA).|LA-EP2006 is non-inferior to Neulasta® because the lower bound of the 95% CI is entirely above the non-inferiority margin of -0.6 days.|"The hierarchical test procedure aimed to show that~1. LA-EP2006 and Neulasta® are equivalent with respect to DSN duration in Cycle 1 (margin±1 day), and, if so~2. LA-EP2006 is non-inferior to Neulasta® with respect to DSN duration in Cycle 1 (margin of -0.6 days)."||0.26|-0.12|0.05
82576404|NCT00659880|164862396|SUPERIORITY_OR_OTHER|||||||0.06|||||||Friedman|||||||0.06
82646851|NCT02414854|165008505|SUPERIORITY|Hierarchical testing procedure was used to control type I error rate at 0.05 level. The procedure included the 2 primary outcome measures and the first 13 secondary outcome measures reported and considered 2 pair-wise comparisons: Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w and Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w. Testing order is specified in analysis description.|Relative risk|0.54|||<|0.0001|TWO_SIDED|95.0|0.43|0.68||Hierarchical testing sequence performed continued only when previous outcome measures was statistically significant at 0.05. Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 1 of testing order.||0.68|0.43|<0.0001
82446815|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.03|TWO_SIDED|95.0|0.38|7.61||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Social Functioning Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Social Functioning Transformed score during 12 weeks of treatment.||7.61|0.38|0.030
82446816|NCT00767806|164601847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.022|TWO_SIDED|95.0|0.59|7.6||p-value is for difference between placebo and duloxetine groups in change of the SF-36 Health Survey Vitality Transformed score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the SF-36 Health Survey Vitality Transformed score during 12 weeks of treatment.||7.60|0.59|0.022
82446817|NCT00767806|164601848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||<|0.001|TWO_SIDED|95.0|0.03|0.12||p-value is for difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United Kingdom population-based Index score|ANCOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United Kingdom population-based Index score during 12 weeks of treatment.||0.12|0.03|<0.001
82446818|NCT00767806|164601848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.002|TWO_SIDED|95.0|0.02|0.08||p-value is for difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United States population-based index score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the European Quality of Life Questionnaire - 5 Dimension - United States population-based index score during 12 weeks of treatment.||0.08|0.02|0.002
82646852|NCT02414854|165008505|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.523|||<|0.0001|TWO_SIDED|95.0|0.413|0.662||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 3 of testing order.||0.662|0.413|<0.0001
82446819|NCT00767806|164601849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.461|TWO_SIDED|95.0|-0.03|0.06||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Absenteeism score|ANCOVA|Main Effect Model: Change = Treatment + Investigator + Baseline (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Absenteeism score during 12 weeks of treatment.||0.06|-0.03|0.461
82446820|NCT00767806|164601849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.374|TWO_SIDED|95.0|-0.09|0.03||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Presenteeism score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Presenteeism score during 12 weeks of treatment.||0.03|-0.09|0.374
82446821|NCT00767806|164601849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.557|TWO_SIDED|95.0|-0.09|0.05||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Work Productivity Loss score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Work Productivity Loss score during 12 weeks of treatment.||0.05|-0.09|0.557
82446822|NCT00767806|164601849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.007|TWO_SIDED|95.0|-0.1|-0.02||p-value is for difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Activity Impairment score|ANCOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of the Work Productivity and Activity Impairment Instrument (WPAI) - Activity Impairment score during 12 weeks of treatment.||-0.02|-0.10|0.007
82446823|NCT00767806|164601851|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for difference between placebo and duloxetine groups in uric acid - change|ANOVA|Change Variable = Treatment + Investigator (Type III sums of squares). Rank-transformed change was used as change variable in the ANOVA model.||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of uric acid during 12 weeks of treatment.||||0.010
82446824|NCT00767806|164601852|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||p-value is for difference between duloxetine and placebo in albumin - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of Albumin during 12 weeks of treatment.||||0.031
82446825|NCT00767806|164601853|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for difference between duloxetine and placebo in alkaline phosphatase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of alkaline phosphatase during 12 weeks of treatment.||||0.004
82446826|NCT00767806|164601854|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for difference between duloxetine and placebo in alanine aminotransferase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of Alanine Aminotransferase during 12 weeks of treatment.||||0.013
82446827|NCT00767806|164601855|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||p-value for difference between duloxetine and placebo in aspartate aminotransferase - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of aspartate aminotransferase during 12 weeks of treatment.||||0.039
82446828|NCT00767806|164601856|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value is for difference between duloxetine and placebo in creatinine - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of creatinine during 12 weeks of treatment.||||0.024
82446829|NCT00767806|164601857|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for difference between duloxetine and placebo in total protein - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of total protein during 12 weeks of treatment.||||0.019
82446830|NCT00767806|164601858|SUPERIORITY_OR_OTHER|||||||0.329||95.0||||p-value is for difference between placebo and duloxetine groups in change of systolic blood pressure|ANOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of systolic blood pressure during 12 weeks of treatment.||||0.329
82446831|NCT00767806|164601858|SUPERIORITY_OR_OTHER|||||||0.562||95.0||||p-value is for difference between placebo and duloxetine groups in change of diastolic blood pressure|ANOVA|Main Effect Model: Change = Treatment + Investigator (Type III sums of squares)||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of diastolic blood pressure during 12 weeks of treatment.||||0.562
82446832|NCT00767806|164601860|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||p-value is for difference between duloxetine and placebo in pulse rate - change|ANOVA|||Tested was the null hypothesis that there is no difference between placebo and duloxetine groups in change of pulse rate during 12 weeks of treatment.||||0.680
82446833|NCT01815840|164601869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.3|||||TWO_SIDED|95.0|-22.2|5.7|||||Asymptotic confidence intervals are presented for the difference between treatment arms.|The mean difference in the mean relative reduction between treatment arms, along with the corresponding 95% confidence interval, was estimated by fitting an ANCOVA model with treatment as main effect and the following covariates: number of basal cell carcinomas at baseline, geographical region, immunosuppression status, confirmed basal cell carcinoma nevus syndrome.||5.7|-22.2|
82446834|NCT00568126|164601906|SUPERIORITY|Remission rates for maca vs. placebo were compared by chi-squared and by odds ratio (with 95% confidence interval).|Odds Ratio (OR)|2.1||||0.55|TWO_SIDED|95.0|0.18|25.2||P values above are calculated. No multiple comparisons. Threshold for significance set a priori as P\<0.05.|Chi-squared||Odds ratio for attaining remission while taking maca vs taking placebo|"Treatment groups were compared based on percentage reaching remission thresholds per scale: a total score of 12 (minimally diminished) or less on the MGH-SFQ scale, and a total score of 10 (very strong/very easily/very satisfying) or less on the ASEX."||25.2|0.18|0.55
82446835|NCT00568126|164601907|SUPERIORITY|Remission rates for maca vs. placebo were compared by chi-squared and by odds ratio (with 95% confidence interval).|Odds Ratio (OR)|1.71||||0.47|TWO_SIDED|95.0|0.4|7.34||P values above are calculated. No multiple comparisons. Threshold for significance set a priori as P\<0.05.|Chi-squared||Odds ratio for attaining remission while taking maca vs taking placebo|"Treatment groups were compared based on percentage reaching remission thresholds per scale: a total score of 12 (minimally diminished) or less on the MGH-SFQ scale, and a total score of 10 (very strong/very easily/very satisfying) or less on the ASEX."||7.34|0.40|0.47
82446836|NCT03446456|164601926|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in changes of BOLD signal in the brain.|Mean Difference (Final Values)|0.00264||||0.982|TWO_SIDED|||||Bonferroni corrected|t-test, 2 sided|||Percentage of BOLD signal change was calculated as the BOLD signal in the right supplementary motor area (SMA, a typical brain area responding to pain stimulation), divided by the BOLD signal of the whole-brain average during the 24 trials of 20-second painful stimulations. The percentage of BOLD signal changes in SMA during the 20-second painful stimulations were compared between the Saline group and the Vasopressin group using an equivalence test.||||0.982
82411652|NCT01013753|164531561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.657|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001||95.0|-0.901|-0.413|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.413|-0.901|<0.0001
82446837|NCT03446456|164601927|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in heating temperature that was used for the testing phase.|Mean Difference (Final Values)|-0.282||||0.269|TWO_SIDED|||||Bonferroni corrected|ANCOVA|The drug group (Vasopressin vs. Saline) was set as a between-subject factor. Age and race were treated as covariates.||||||0.269
82446838|NCT03446456|164601928|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in implicit racial biases.|Mean Difference (Final Values)|-0.04||||0.378|TWO_SIDED||||||ANCOVA|Drug group (Vasopressin vs. Saline) was set as between-subject factor. Age and race were treated as covariates.||"Response latencies were recorded to calculate the IAT difference score (D). A difference score (D) was calculated based on the following steps: 1) Compute the standard deviation (SD) of response latencies from overall trials; 2) M1 is the mean of the response latencies in the condition where White people and good share the same response key. M2 is the mean of the latencies in the condition where African-American/Asian people and good share the same response key; 3) D = (M2-M1)/SD."||||0.378
82411653|NCT01013753|164531561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.449|STANDARD_ERROR_OF_MEAN|0.123||0.0003||95.0|-0.691|-0.207|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.207|-0.691|0.0003
82411654|NCT01013753|164531566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.289|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.178|0.4|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||0.400|0.178|<0.0001
82411655|NCT01013753|164531566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.056||0.0002||95.0|0.099|0.318|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.318|0.099|0.0002
82411656|NCT01013753|164531566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.151|0.374|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.374|0.151|<0.0001
82411657|NCT01013753|164531566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.205|0.429|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.429|0.205|<0.0001
82411658|NCT01013753|164531566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.315|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.203|0.426|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||0.426|0.203|<0.0001
82411659|NCT01013753|164531567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.321|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|-0.432|-0.21|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||-0.210|-0.432|<0.0001
82446839|NCT03446456|164601929|EQUIVALENCE|An equivalence test was conducted to compare if the vasopressin group differed from the saline group in self-reported pain intensity ratings.|Mean Difference (Final Values)|-2.35||||0.014|TWO_SIDED|||||Bonferroni corrected|Mixed Models Analysis|Age, race, and heating temperature used during the testing phase were treated as covariates.||||||0.014
82446840|NCT02227394|164601982|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.187||||0.727|TWO_SIDED|90.0|-1.098|0.724|||t-test, 2 sided|||||0.724|-1.098|0.727
82446841|NCT02227394|164601983|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.003||||0.366|TWO_SIDED|90.0|-0.002|0.007|||t-test, 2 sided|||||0.007|-0.002|0.366
82446842|NCT02227394|164601985|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.025||||0.486|TWO_SIDED|90.0|-0.035|0.084|||t-test, 2 sided|||||0.084|-0.035|0.486
82411660|NCT01013753|164531567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.293|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.403|-0.184|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||-0.184|-0.403|<0.0001
82411661|NCT01013753|164531567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.326|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.436|-0.215|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||-0.215|-0.436|<0.0001
82411662|NCT01013753|164531567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.394|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|-0.505|-0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||-0.282|-0.505|<0.0001
82411663|NCT01013753|164531567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-0.457|-0.235|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||-0.235|-0.457|<0.0001
82411664|NCT01013753|164531568|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.996||||0.6187||95.0|0.981|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.011|0.981|0.6187
82411665|NCT01013753|164531568|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.996||||0.6022||95.0|0.981|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||1.011|0.981|0.6022
82411666|NCT01013753|164531568|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.999||||0.8641||95.0|0.984|1.014|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||1.014|0.984|0.8641
82411667|NCT01013753|164531568|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.998||||0.7664||95.0|0.983|1.013|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||1.013|0.983|0.7664
82411668|NCT01013753|164531568|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.003||||0.6757||95.0|0.988|1.018|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.018|0.988|0.6757
82411669|NCT01013753|164531569|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.993||||0.4423||95.0|0.975|1.011|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.011|0.975|0.4423
82411670|NCT01013753|164531569|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.979||||0.0218||95.0|0.962|0.997|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||0.997|0.962|0.0218
82411671|NCT01013753|164531569|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.977||||0.0109||95.0|0.96|0.995|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||0.995|0.960|0.0109
82411672|NCT01013753|164531569|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0283||95.0|0.962|0.998|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||0.998|0.962|0.0283
82411673|NCT01013753|164531569|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.991||||0.3085||95.0|0.973|1.009|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.009|0.973|0.3085
82411674|NCT01013753|164531570|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.999||||0.9112||95.0|0.984|1.015|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 2 mcg qd minus Placebo|||1.015|0.984|0.9112
82411675|NCT01013753|164531570|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.992||||0.2955||95.0|0.977|1.007|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 5 mcg qd minus Placebo|||1.007|0.977|0.2955
82411676|NCT01013753|164531570|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.987||||0.1029||95.0|0.973|1.003|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 10 mcg qd minus Placebo|||1.003|0.973|0.1029
82411677|NCT01013753|164531570|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.991||||0.2552||95.0|0.975|1.007|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Olo 20 mcg qd minus Placebo|||1.007|0.975|0.2552
82411678|NCT01013753|164531570|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.994||||0.4803||95.0|0.979|1.01|||Mixed Models Analysis|Adjusted using a mixed model with treatment, period and study baseline value as fixed effects; and patients as random effect.|Form 12 mcg bid minus Placebo|||1.010|0.979|0.4803
82411679|NCT04757636|164531572|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|1.03||0.861409|TWO_SIDED|95.0|-2.2|1.84|||MMRM|||||1.84|-2.20|0.861409
82411680|NCT04757636|164531572|SUPERIORITY||Least Squares Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|1.029||0.416264|TWO_SIDED|95.0|-2.86|1.18|||MMRM|||||1.18|-2.86|0.416264
82411681|NCT04757636|164531573|SUPERIORITY||Risk Difference (RD)|0.1||||0.981348|TWO_SIDED|95.0|-7.5|7.7|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||7.7|-7.5|0.981348
82411682|NCT04757636|164531573|SUPERIORITY||Risk Difference (RD)|-0.7||||0.856|TWO_SIDED|95.0|-8.5|7.0|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||7.0|-8.5|0.856000
82411683|NCT04757636|164531574|SUPERIORITY||Risk Difference (RD)|-1.7||||0.655104|TWO_SIDED|95.0|-8.9|5.6|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||5.6|-8.9|0.655104
82411684|NCT04757636|164531574|SUPERIORITY||Risk Difference (RD)|-0.8||||0.821257|TWO_SIDED|95.0|-8.2|6.5|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||6.5|-8.2|0.821257
82411685|NCT04757636|164531575|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.234||0.199828|TWO_SIDED|95.0|-0.76|0.16|||MMRM|||||0.16|-0.76|0.199828
82411686|NCT04757636|164531575|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.235||0.188725|TWO_SIDED|95.0|-0.77|0.15|||MMRM|||||0.15|-0.77|0.188725
82411687|NCT04757636|164531576|SUPERIORITY||Risk Difference (RD)|-0.5||||0.84781|TWO_SIDED|95.0|-5.6|4.6|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||4.6|-5.6|0.847810
82411688|NCT04757636|164531576|SUPERIORITY||Risk Difference (RD)|0.9||||0.718699|TWO_SIDED|95.0|-4.2|6.1|||Mantel Haenszel||The rate/rate differences are estimated and compared by aggregating the MH estimates adjusted for the Baseline BCVA category and baseline lesion type read by independent reading center on each of the 100 multiple imputed datasets using Rubin's rule.|||6.1|-4.2|0.718699
82446843|NCT02227394|164601986|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.049||||0.413|TWO_SIDED|90.0|-0.052|0.15|||t-test, 2 sided|||||0.150|-0.052|0.413
82446844|NCT02227394|164601987|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.1||||0.375|TWO_SIDED|90.0|-0.289|0.09|||t-test, 2 sided|||||0.090|-0.289|0.375
82446845|NCT02227394|164601988|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.009||||0.879|TWO_SIDED|90.0|-0.092|0.11|||t-test, 2 sided|||||0.110|-0.092|0.879
82446846|NCT02227394|164601989|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.023||||0.819|TWO_SIDED|90.0|-0.149|0.195|||t-test, 2 sided|||||0.195|-0.149|0.819
82446847|NCT02227394|164601990|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.4||||0.643|TWO_SIDED|90.0|-1.87|1.07|||t-test, 2 sided|||||1.070|-1.870|0.643
82446848|NCT02227394|164601991|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.011||||0.866|TWO_SIDED|90.0|-0.1|0.122|||t-test, 2 sided|||||0.122|-0.100|0.866
82446849|NCT02227394|164601992|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.054||||0.346|TWO_SIDED|90.0|-0.043|0.152|||t-test, 2 sided|||||0.152|-0.043|0.346
82446850|NCT02227394|164601993|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.029||||0.093|TWO_SIDED|90.0|0.001|0.058|||t-test, 2 sided|||||0.058|0.001|0.093
82446851|NCT02227394|164601994|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.074||||0.686|TWO_SIDED|90.0|-0.386|0.238|||t-test, 2 sided|||||0.238|-0.386|0.686
82411689|NCT00984867|164531591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.62|-0.34||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives, based on data from both strata combined|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-0.34|-0.62|<0.0001
82446852|NCT02227394|164601996|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-10.368||||0.312|TWO_SIDED|90.0|-27.659|6.922|||t-test, 2 sided|||||6.922|-27.659|0.312
82446853|NCT02227394|164601997|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|-0.02||||0.92|TWO_SIDED|90.0|-0.361|0.321|||t-test, 2 sided|||||0.321|-0.361|0.920
82446854|NCT02227394|164601998|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|0.08||||0.818|TWO_SIDED|90.0|-0.513|0.673|||t-test, 2 sided|||||0.673|-0.513|0.818
82446855|NCT02227394|164601999|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|11.4||||0.034|TWO_SIDED|90.0|2.789|20.011|||t-test, 2 sided|||||20.011|2.789|0.034
82446856|NCT02227394|164602000|OTHER|The difference between the predose and postdose values of test product and the reference product was compared after applying Benjamini-Hochberg correction (BH) to control the false discovery rate and after Holm-Bonferroni correction (Holm) to control the family-wise error rate.|Mean Difference (Net)|5.6||||0.427|TWO_SIDED|90.0|-6.323|17.523|||t-test, 2 sided|||||17.523|-6.323|0.427
82446857|NCT03836677|164602066|OTHER||Geometric Mean ratio to baseline|1.72|||<|0.0001|TWO_SIDED|95.0|1.38|2.13||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||2.13|1.38|<0.0001
82532214|NCT03954158|164761878|OTHER||Least squares mean of difference|-0.9|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-1.9|0.1||||||Change at Day 9, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.1|-1.9|
82446858|NCT03836677|164602066|OTHER||Geometric mean ratio to baseline|1.53|||<|0.0001|TWO_SIDED|95.0|1.28|1.83||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test.||||1.83|1.28|<0.0001
82446859|NCT03836677|164602067|OTHER||Geometric mean ratio to baseline|0.5|||<|0.0001|TWO_SIDED|95.0|0.39|0.63||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.63|0.39|<0.0001
82446860|NCT03836677|164602067|OTHER||Geometric mean ratio to baseline|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.67||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment.|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.67|0.40|<0.0001
82446861|NCT03836677|164602068|OTHER||Geometric mean ratio to baseline|1.7|||<|0.0001||95.0|1.37|2.11|||t-test, 2 sided|Within-group comparison to baseline using paired test||||2.11|1.37|<0.0001
82446862|NCT03836677|164602068|OTHER||Geometric mean ratio to baseline|1.51||||0.0001|TWO_SIDED|95.0|1.26|1.8|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.80|1.26|0.0001
82446863|NCT03836677|164602069|OTHER||Geometric mean ratio to baseline|0.5|||<|0.0001|TWO_SIDED|95.0|0.4|0.63|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.63|0.40|<0.0001
82446864|NCT03836677|164602069|OTHER||Geometric mean ratio to baseline|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.68|0.40|<0.0001
82446865|NCT03836677|164602070|OTHER||Mean Change from Baseline|0.346||||0.0003|TWO_SIDED|95.0|0.182|0.509|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.509|0.182|0.0003
82446866|NCT03836677|164602070|OTHER||Mean Change from Baseline|0.273||||0.0004|TWO_SIDED|95.0|0.14|0.405|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.405|0.140|0.0004
82446867|NCT03836677|164602071|OTHER||Mean ratio to baseline|-0.28||||0.2515|TWO_SIDED|95.0|-0.77|0.21|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||0.21|-0.77|0.2515
82446868|NCT03836677|164602071|OTHER||Mean ratio to baseline|-0.5||||0.004|TWO_SIDED|95.0|-0.81|-0.18|||t-test, 2 sided|Within-group comparison to baseline using paired test.||||-0.18|-0.81|0.0040
82446869|NCT03233438|164602100|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|2.5||0.003|TWO_SIDED|95.0|0.6|2.6|||t-test, 2 sided|||||2.6|0.6|0.003
82446870|NCT03233438|164602101|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|2.56||0.003|TWO_SIDED|95.0|0.6|2.8|||t-test, 2 sided|||||2.8|0.6|0.003
82446871|NCT03178669|164602140|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1806|TWO_SIDED|80.0|0.75|5.47||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||5.47|0.75|0.1806
82446872|NCT03178669|164602140|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6649|TWO_SIDED|80.0|0.2|2.24||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.24|0.20|0.6649
82446873|NCT03178669|164602140|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0247|TWO_SIDED|80.0|1.53|9.47||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||9.47|1.53|0.0247
82446874|NCT03178669|164602140|SUPERIORITY||Odds Ratio (OR)|1.4||||0.3279|TWO_SIDED|80.0|0.52|3.88||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||3.88|0.52|0.3279
82446875|NCT03178669|164602141|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2115|TWO_SIDED|80.0|0.69|4.99||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||4.99|0.69|0.2115
82411690|NCT00984867|164531592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|0.2466|<|0.0001|TWO_SIDED|95.0|-2.37|-1.4||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-1.40|-2.37|<0.0001
82411691|NCT00984867|164531593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.1106|<|0.0001|TWO_SIDED|95.0|-1.05|-0.62||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-0.62|-1.05|<0.0001
82446876|NCT03178669|164602141|SUPERIORITY||Odds Ratio (OR)|0.3||||0.8498|TWO_SIDED|80.0|0.06|1.34||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.34|0.06|0.8498
82446877|NCT03178669|164602141|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0977|TWO_SIDED|80.0|1.01|6.62||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||6.62|1.01|0.0977
82446878|NCT03178669|164602141|SUPERIORITY||Odds Ratio (OR)|1.0||||0.522|TWO_SIDED|80.0|0.32|2.84||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.84|0.32|0.5220
82446879|NCT03178669|164602142|SUPERIORITY||Odds Ratio (OR)|1.5||||0.2335|TWO_SIDED|80.0|0.74|2.94||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.94|0.74|0.2335
82446880|NCT03178669|164602142|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2511|TWO_SIDED|80.0|0.73|2.69||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.69|0.73|0.2511
82446881|NCT03178669|164602142|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1162|TWO_SIDED|80.0|0.96|3.52||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||3.52|0.96|0.1162
82446882|NCT03178669|164602142|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3467|TWO_SIDED|80.0|0.63|2.4||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.40|0.63|0.3467
82411692|NCT00984867|164531594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.92|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|-34.45|-21.4||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-21.40|-34.45|<0.0001
82411693|NCT00984867|164531595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|1.4659||0.5583||95.0|-3.75|2.03||Not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||2.03|-3.75|0.5583
82411694|NCT00984867|164531596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.82|STANDARD_ERROR_OF_MEAN|3.516|||TWO_SIDED|95.0|-21.73|-7.9||Not significant. Hierarchical testing procedure stopped at previous endpoint|ANCOVA|with treatment group and stratum as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0. The study consisted of two strata: sitagliptin monotherapy group and sitagliptin plus metformin group||-7.90|-21.73|
82411695|NCT00984867|164531597|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7|STANDARD_ERROR_OF_MEAN|41.2|||TWO_SIDED|95.0|11.1|26.4||Not significant. Hierarchical testing procedure stopped at previous endpoint|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0.||26.4|11.1|
82411696|NCT00920816|164531659|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.767|||||TWO_SIDED|95.0|0.559|1.053||||||First-line participants: hazard ratio was stratified by eastern cooperative oncology group (ECOG) performance status (0 versus 1).||1.053|0.559|
82411697|NCT00920816|164531660|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.731|||||TWO_SIDED|95.0|0.506|1.058||||||Second-line participants: hazard ratio was stratified by eastern cooperative oncology group (ECOG) performance status (0 versus 1) and prior treatment (sunitinib versus cytokine-containing regimen).||1.058|0.506|
82411698|NCT03416179|164531696|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6579|TWO_SIDED|95.0|0.755|1.532|||Log Rank|||Hazard ratio based on Cox proportional hazards model; under proportional hazards, hazard ratio less than (\<) 1 indicated a reduction in hazard rate in favor of Glasdegib 100 mg PO + Cytarabine 100 mg/m\^2 IV + Daunorubicin 60 mg/m\^2 compared to Placebo + Cytarabine 100 mg/m\^2 IV + Daunorubicin 60 mg/m\^2.||1.532|0.755|0.6579
82411699|NCT03416179|164531697|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5955|TWO_SIDED|95.0|0.775|1.388|||Log Rank|||Hazard ratio based on Cox proportional hazards model; under proportional hazards, hazard ratio \< 1 indicated a reduction in hazard rate in favor of Glasdegib 100 mg PO QD + Azacitidine compared to Placebo + Azacitidine||1.388|0.775|0.5955
82411700|NCT03416179|164531698|OTHER|||||||0.5095|||||||Mantel Haenszel|||||||0.5095
82411701|NCT03416179|164531699|OTHER|||||||0.8359|||||||Mantel Haenszel|||||||0.8359
82411702|NCT05233761|164531758|SUPERIORITY|The mean nightly difference in SWS + REM sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority.|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.6||0.035|TWO_SIDED|95.0|0.1|2.5|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS + REM (% TST) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.5|0.1|0.0350
82411703|NCT05233761|164531759|SUPERIORITY|The mean nightly difference in SWS Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0019|TWO_SIDED|95.0|0.4|1.6|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||1.6|0.4|0.0019
82411704|NCT05233761|164531759|SUPERIORITY|The mean nightly difference in REM Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.52|TWO_SIDED|95.0|-0.6|1.2|||t-test, 2 sided|||The null hypothesis was that there was no difference in REM Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||1.2|-.6|0.52
82411705|NCT05233761|164531759|SUPERIORITY|The mean nightly difference in Light Sleep (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.004|TWO_SIDED|95.0|-2.8|-0.5|||t-test, 2 sided|||The null hypothesis was that there was no difference in Light Sleep (% TST) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||-0.5|-2.8|0.0040
82446883|NCT03178669|164602143|SUPERIORITY||Odds Ratio (OR)|0.9||||0.6326|TWO_SIDED|80.0|0.5|1.5||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.50|0.50|0.6326
82411706|NCT05233761|164531759|SUPERIORITY|The mean nightly difference in Awake Time (% TST) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.6||0.24|TWO_SIDED|95.0|-0.5|2.0|||t-test, 2 sided|||The null hypothesis was that there was no difference in Awake Time (% TST) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.0|-.5|0.24
82411707|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in SWS + REM Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|2.6||0.0117|TWO_SIDED|95.0|1.7|13.3|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS + REM Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||13.3|1.7|0.0117
82411708|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in SWS Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|1.3||0.0126|TWO_SIDED|95.0|0.7|5.9|||t-test, 2 sided|||The null hypothesis was that there was no difference in SWS Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||5.9|0.7|0.0126
82446884|NCT03178669|164602143|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7127|TWO_SIDED|80.0|0.45|1.37||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.37|0.45|0.7127
82446885|NCT03178669|164602143|SUPERIORITY||Odds Ratio (OR)|1.3||||0.2658|TWO_SIDED|80.0|0.75|2.34||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.34|0.75|0.2658
82446886|NCT03178669|164602143|SUPERIORITY||Odds Ratio (OR)|0.6||||0.8301|TWO_SIDED|80.0|0.36|1.16||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.16|0.36|0.8301
82446887|NCT03178669|164602144|SUPERIORITY||Odds Ratio (OR)|0.6||||0.7994|TWO_SIDED|80.0|0.32|1.27||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.27|0.32|0.7994
82446888|NCT03178669|164602144|SUPERIORITY||Odds Ratio (OR)|0.3||||0.9665|TWO_SIDED|80.0|0.16|0.72||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.72|0.16|0.9665
82411709|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in REM sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.0||0.51|TWO_SIDED|95.0|-2.7|5.3|||t-test, 2 sided|||The null hypothesis was that there was no difference in REM Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||5.3|-2.7|0.51
82411710|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in Light Sleep (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.6||0.0574|TWO_SIDED|95.0|-13.7|0.2|||t-test, 2 sided|||The null hypothesis was that there was no difference in Light Sleep (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||0.2|-13.7|0.0574
82446889|NCT03178669|164602144|SUPERIORITY||Odds Ratio (OR)|1.5||||0.2049|TWO_SIDED|80.0|0.8|2.82||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||2.82|0.80|0.2049
82446890|NCT03178669|164602144|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6504|TWO_SIDED|80.0|0.42|1.6||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.60|0.42|0.6504
82446891|NCT03178669|164602145|SUPERIORITY||Odds Ratio (OR)|0.4||||0.9207|TWO_SIDED|80.0|0.18|0.93||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.93|0.18|0.9207
82446892|NCT03178669|164602145|SUPERIORITY||Odds Ratio (OR)|0.4||||0.9228|TWO_SIDED|80.0|0.19|0.92||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||0.92|0.19|0.9228
82446893|NCT03178669|164602145|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6636|TWO_SIDED|80.0|0.39|1.61||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.61|0.39|0.6636
82446894|NCT03178669|164602145|SUPERIORITY||Odds Ratio (OR)|0.7||||0.7449|TWO_SIDED|80.0|0.34|1.41||one-sided and adjusted for stratification factors, p values of less than 0.10 were regarded as statistically significant.|Cochran-Mantel-Haenszel|||||1.41|0.34|0.7449
82446895|NCT00651625|164602221|SUPERIORITY_OR_OTHER||non-applicable|||||0.05|TWO_SIDED||||||t-test, 2 sided|||group comparisons using t-test and confidence intervals.||||0.05
82576405|NCT01304498|164862408|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.11|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 16||1.11|0.85|<0.001
82411711|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in Awake Time (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|2.4||0.3|TWO_SIDED|95.0|-2.4|6.9|||t-test, 2 sided|||The null hypothesis was that there was no difference in Awake Time (min) in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||6.9|-2.4|0.3
82411712|NCT05233761|164531760|SUPERIORITY|The mean nightly difference in Total Sleep Time (min) in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment difference in percentages was estimated and constructed using the above-mentioned method.|Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|4.7||0.14|TWO_SIDED|95.0|-16.1|2.4|||t-test, 2 sided|||The null hypothesis was that there was no difference in Total Sleep Time (min) sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups.||2.4|-16.1|0.14
82411713|NCT05233761|164531761|SUPERIORITY|"The mean nightly difference in the perception of better sleep in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.5||0.53|TWO_SIDED|95.0|-0.7|1.3|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of better sleep in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.3|-.7|0.53
82411714|NCT05233761|164531761|SUPERIORITY|"The mean nightly difference in the perception of sleep induction in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.6||0.32|TWO_SIDED|95.0|-0.6|1.7|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep induction in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.7|-0.6|0.32
82411715|NCT05233761|164531761|SUPERIORITY|"The mean nightly difference in the perception of sleep duration in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2|TWO_SIDED|95.0|-0.4|1.9|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep duration in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.9|-0.4|0.20
82411716|NCT05233761|164531761|SUPERIORITY|"The mean nightly difference in the perception of sleep depth in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.6||0.45|TWO_SIDED|95.0|-0.7|1.6|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of sleep depth in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.6|-0.7|0.45
82411717|NCT05233761|164531761|SUPERIORITY|"The mean nightly difference in the perception of vivid dreams in participants that received CBD-terpenes and the placebo control at the end of the two four-week treatment phases was analyzed using a two-sided test with an alpha level at 0.05 to evaluate superiority. The P-value and 95% confidence interval for the estimate of treatment differences was estimated and constructed using the above-mentioned method."|Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.4|TWO_SIDED|95.0|-0.8|1.9|||t-test, 2 sided|||"The null hypothesis was that there was no difference in the perception of vivid dreams in participants that received CBD-terpenes and the placebo control; the alternative hypothesis was that there was a significant difference among the two treatment groups."||1.9|-0.8|0.4
82411718|NCT04058717|164531766|OTHER||H-statistic|10.23||||0.017|TWO_SIDED||||||Kruskal-Wallis|||||||0.017
82411719|NCT04058717|164531767|OTHER||H-statistic|7.57||||0.056|TWO_SIDED||||||Kruskal-Wallis|||||||0.056
82411720|NCT04058717|164531768|OTHER||H-statistic|1.26||||0.74|TWO_SIDED||||||Kruskal-Wallis|||||||0.74
82646853|NCT02414854|165008506|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Least Square (LS) Mean Difference|0.13|||<|0.0001|TWO_SIDED|95.0|0.08|0.18||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using mixed-effect model with repeated measures (MMRM) model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 2 of testing order.||0.18|0.08|<0.0001
82532215|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.1|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.4|0.2||||||Change at Day 9, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.2|-2.4|
82411721|NCT04058717|164531769|OTHER||Slope|4.13||||0.248|TWO_SIDED||||||Kruskal-Wallis|||||||0.248
82411722|NCT04058717|164531770|OTHER||H-statistic|9.33||||0.025|TWO_SIDED||||||Kruskal-Wallis|||||||0.025
82446896|NCT04018313|164602226|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|105.62|||||TWO_SIDED|90.0|95.91|116.31||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||116.31|95.91|
82411723|NCT04058717|164531771|OTHER|||||||0.289|||||||Fisher Exact|||||||0.289
82411724|NCT02696798|164531790|SUPERIORITY||Odds Ratio (OR)|2.41||||0.017|TWO_SIDED|95.0|1.17|4.95|||Regression, Logistic|||||4.95|1.17|0.017
82411725|NCT02696798|164531790|SUPERIORITY||Odds Ratio (OR)|3.06||||0.003|TWO_SIDED|95.0|1.48|6.33|||Regression, Logistic|||||6.33|1.48|0.003
82411726|NCT02696798|164531791|SUPERIORITY||Odds Ratio (OR)|2.2||||0.006|TWO_SIDED|95.0|1.26|3.84|||Regression, Logistic|||||3.84|1.26|0.006
82411727|NCT02696798|164531791|SUPERIORITY||Odds Ratio (OR)|2.08||||0.013|TWO_SIDED|95.0|1.16|3.73|||Regression, Logistic|||||3.73|1.16|0.013
82411728|NCT02696798|164531792|SUPERIORITY||LS Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.135|<|0.001|TWO_SIDED|95.0|-1.32|-0.79|||Mixed Models Analysis|||||-0.79|-1.32|<0.001
82411729|NCT02696798|164531792|SUPERIORITY||LS Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.3|-0.75|||Mixed Models Analysis|||||-0.75|-1.30|<0.001
82411730|NCT02696798|164531793|SUPERIORITY||Odds Ratio (OR)|2.65||||0.015|TWO_SIDED|95.0|1.21|5.84|||Regression, Logistic|||||5.84|1.21|0.015
82411731|NCT02696798|164531793|SUPERIORITY||Odds Ratio (OR)|2.9||||0.01|TWO_SIDED|95.0|1.29|6.49|||Regression, Logistic|||||6.49|1.29|0.010
82411732|NCT02696798|164531794|SUPERIORITY||LS Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.291|<|0.001|TWO_SIDED|95.0|-1.81|-0.67|||Mixed Models Analysis|||||-0.67|-1.81|<0.001
82411733|NCT02696798|164531794|SUPERIORITY||LS Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.301|<|0.001|TWO_SIDED|95.0|-1.76|-0.57|||Mixed Models Analysis|||||-0.57|-1.76|<0.001
82411734|NCT02696798|164531795|SUPERIORITY||LS Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.295|<|0.001|TWO_SIDED|95.0|-1.63|-0.47|||Mixed Models Analysis|||||-0.47|-1.63|<0.001
82411735|NCT02696798|164531795|SUPERIORITY||LS Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.307|<|0.001|TWO_SIDED|95.0|-1.89|-0.68|||Mixed Models Analysis|||||-0.68|-1.89|<0.001
82411736|NCT02696798|164531796|SUPERIORITY||Odds Ratio (OR)|3.73||||0.242|TWO_SIDED|95.0|0.41|33.98|||Regression, Logistic|||||33.98|0.41|0.242
82411737|NCT02696798|164531796|SUPERIORITY||Odds Ratio (OR)|5.42||||0.127|TWO_SIDED|95.0|0.62|47.54|||Regression, Logistic|||||47.54|0.62|0.127
82411738|NCT02696798|164531797|SUPERIORITY||Odds Ratio (OR)|4.22||||0.006|TWO_SIDED|95.0|1.5|11.86|||Regression, Logistic|||||11.86|1.50|0.006
82411739|NCT02696798|164531797|SUPERIORITY||Odds Ratio (OR)|4.52||||0.006|TWO_SIDED|95.0|1.55|13.18|||Regression, Logistic|||||13.18|1.55|0.006
82411740|NCT02696798|164531798|SUPERIORITY||LS Mean Difference (Final Values)|0.7689|STANDARD_ERROR_OF_MEAN|1.2863||0.55|TWO_SIDED|95.0|-1.7629|3.3007|||Mixed Models Analysis|||MCS||3.3007|-1.7629|0.550
82411741|NCT02696798|164531798|SUPERIORITY||LS Mean Difference (Final Values)|0.9104|STANDARD_ERROR_OF_MEAN|1.3338||0.495|TWO_SIDED|95.0|-1.7151|3.536|||Mixed Models Analysis|||MCS||3.5360|-1.7151|0.495
82411742|NCT02696798|164531798|SUPERIORITY||LS Mean Difference (Final Values)|5.2147|STANDARD_ERROR_OF_MEAN|1.1149|<|0.001|TWO_SIDED|95.0|3.0204|7.409|||Mixed Models Analysis|||PCS||7.4090|3.0204|<0.001
82411743|NCT02696798|164531798|SUPERIORITY||LS Mean Difference (Final Values)|4.7585|STANDARD_ERROR_OF_MEAN|1.1505|<|0.001|TWO_SIDED|95.0|2.494|7.023|||Mixed Models Analysis|||PCS||7.0230|2.4940|<0.001
82411744|NCT02696798|164531799|SUPERIORITY||LS Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.46||0.026|TWO_SIDED|95.0|-1.94|-0.13|||Mixed Models Analysis|||||-0.13|-1.94|0.026
82411745|NCT02696798|164531799|SUPERIORITY||LS Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.477||0.149|TWO_SIDED|95.0|-1.63|0.25|||Mixed Models Analysis|||||0.25|-1.63|0.149
82411746|NCT02696798|164531800|SUPERIORITY||LS Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.512|<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||ANCOVA|||||-0.9|-3.0|<0.001
82411747|NCT02696798|164531800|SUPERIORITY||LS Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.534|<|0.001|TWO_SIDED|95.0|-3.2|-1.1|||ANCOVA|||||-1.1|-3.2|<0.001
82411748|NCT02696798|164531801|SUPERIORITY||LS Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|1.896||0.001|TWO_SIDED|95.0|-10.0|-2.5|||ANCOVA|||||-2.5|-10.0|0.001
82411749|NCT02696798|164531801|SUPERIORITY||LS Mean Difference (Final Values)|-7.27|STANDARD_ERROR_OF_MEAN|1.978|<|0.001|TWO_SIDED|95.0|-11.2|-3.4|||ANCOVA|||||-3.4|-11.2|<0.001
82411750|NCT02696798|164531802|SUPERIORITY||LS Mean Difference (Final Values)|-20.816|STANDARD_ERROR_OF_MEAN|3.7463|<|0.001|TWO_SIDED|95.0|-28.187|-13.444|||Mixed Models Analysis|||||-13.444|-28.187|<0.001
82411751|NCT02696798|164531802|SUPERIORITY||LS Mean Difference (Final Values)|-17.841|STANDARD_ERROR_OF_MEAN|3.9018|<|0.001|TWO_SIDED|95.0|-25.518|-10.163|||Mixed Models Analysis|||||-10.163|-25.518|<0.001
82411752|NCT02696798|164531803|SUPERIORITY||LS Mean Difference (Final Values)|-0.304|STANDARD_ERROR_OF_MEAN|0.1275||0.018|TWO_SIDED|95.0|-0.555|-0.053|||Mixed Models Analysis|||||-0.053|-0.555|0.018
82411753|NCT02696798|164531803|SUPERIORITY||LS Mean Difference (Final Values)|-0.172|STANDARD_ERROR_OF_MEAN|0.1319||0.194|TWO_SIDED|95.0|-0.431|0.088|||Mixed Models Analysis|||||0.088|-0.431|0.194
82411754|NCT02696798|164531804|SUPERIORITY||LS Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|0.893||0.17|TWO_SIDED|95.0|-0.53|2.99|||Mixed Models Analysis|||||2.99|-0.53|0.170
82411755|NCT02696798|164531804|SUPERIORITY||LS Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.916||0.8|TWO_SIDED|95.0|-1.57|2.04|||Mixed Models Analysis|||||2.04|-1.57|0.800
82411756|NCT02696798|164531805|SUPERIORITY||LS Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.521||0.547|TWO_SIDED|95.0|-1.34|0.71|||Mixed Models Analysis|||||0.71|-1.34|0.547
82411757|NCT02696798|164531805|SUPERIORITY||LS Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.538||0.064|TWO_SIDED|95.0|-2.06|0.06|||Mixed Models Analysis|||||0.06|-2.06|0.064
82411758|NCT02696798|164531806|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.861|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|||||1.3|-1.0|0.861
82411759|NCT02696798|164531806|SUPERIORITY||LS Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.59||0.626|TWO_SIDED|95.0|-1.4|0.9|||Mixed Models Analysis|||||0.9|-1.4|0.626
82411760|NCT02696798|164531807|SUPERIORITY||LS Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.59||0.504|TWO_SIDED|95.0|-1.6|0.8|||Mixed Models Analysis|||||0.8|-1.6|0.504
82411761|NCT02696798|164531807|SUPERIORITY||LS Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.86|TWO_SIDED|95.0|-1.1|1.3|||Mixed Models Analysis|||||1.3|-1.1|0.860
82411762|NCT02696798|164531808|SUPERIORITY||LS Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.03||0.362|TWO_SIDED|95.0|-3.0|1.1|||Mixed Models Analysis|||||1.1|-3.0|0.362
82411763|NCT02696798|164531808|SUPERIORITY||LS Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.08||0.303|TWO_SIDED|95.0|-3.3|1.0|||Mixed Models Analysis|||||1.0|-3.3|0.303
82411764|NCT02696798|164531809|SUPERIORITY||LS Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.813|TWO_SIDED|95.0|-1.5|1.2|||Mixed Models Analysis|||||1.2|-1.5|0.813
82411765|NCT02696798|164531809|SUPERIORITY||LS Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.71||0.41|TWO_SIDED|95.0|-2.0|0.8|||Mixed Models Analysis|||||0.8|-2.0|0.410
82411766|NCT02696798|164531811|SUPERIORITY||LS Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.9|-0.6|||Mixed Models Analysis|||||-0.6|-1.9|<0.001
82411767|NCT02696798|164531811|SUPERIORITY||LS Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.34||0.005|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|||||-0.3|-1.6|0.005
82411768|NCT02696798|164531812|SUPERIORITY||LS Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.68||0.088|TWO_SIDED|95.0|-2.5|0.2|||Mixed Models Analysis|||||0.2|-2.5|0.088
82532216|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
82532217|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-2.5|-0.7||||||Change at Day 10, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.7|-2.5|
82411769|NCT02696798|164531812|SUPERIORITY||LS Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.366|TWO_SIDED|95.0|-2.0|0.7|||Mixed Models Analysis|||||0.7|-2.0|0.366
82411770|NCT02696798|164531813|SUPERIORITY||LS Mean Difference (Final Values)|-11.13|STANDARD_ERROR_OF_MEAN|5.323||0.038|TWO_SIDED|95.0|-21.65|-0.6|||ANCOVA|||Overall Work Impairment Score||-0.60|-21.65|0.038
82411771|NCT02696798|164531813|SUPERIORITY||LS Mean Difference (Final Values)|-13.66|STANDARD_ERROR_OF_MEAN|5.341||0.012|TWO_SIDED|95.0|-24.23|-3.1|||ANCOVA|||Overall Work Impairment Score||-3.10|-24.23|0.012
82411772|NCT02696798|164531813|SUPERIORITY||LS Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|3.5||0.071|TWO_SIDED|95.0|-13.2|0.5|||ANCOVA|||Percentage of Activity Impairment||0.5|-13.2|0.071
82411773|NCT02696798|164531813|SUPERIORITY||LS Mean Difference (Final Values)|-8.3|STANDARD_ERROR_OF_MEAN|3.65||0.024|TWO_SIDED|95.0|-15.5|-1.1|||ANCOVA|||Percentage of Activity Impairment||-1.1|-15.5|0.024
82411774|NCT03857256|164531831|SUPERIORITY|Mean changes from Week 0 in LDL-C were analyzed using a restricted maximum likelihood (REML)-based repeated measures approach including effects of treatment group, time (Week 6 and Week 12) and treatment group x time interaction as well as the covariates of Week 0 value of LDL-C and Week 0 value of LDL-C x time interaction. An unstructured covariance structure were used to model the within-patient errors. Contrasts under this model allowed for the three main comparisons.||||||0.0167||||||Tests involving the comparisons of each of the active groups versus placebo for the primary endpoint were conducted at the 0.0167 significance level (to account for three main comparisons).|Mixed Models Analysis|The Kenward-Roger approximation were used to estimate denominator degrees of freedom.||Tests involving the comparisons of each of the active groups versus placebo for the primary endpoint were conducted at the 0.0167 significance level (to account for three main comparisons).||||0.0167
82411775|NCT05352763|164531854|OTHER|No statistical analysis performed|||||||||||||||||The classical summary of count and percentages will be provided for basic safety tabulations and dispositions as appropriate. All data will be presented in by-subject data listings. No inferential statistics will be produced.|||
82411776|NCT04476043|164531964|SUPERIORITY||Least squares mean (LSM) difference|-2.7|STANDARD_ERROR_OF_MEAN|1.23||0.0277|TWO_SIDED|95.0|-5.2|-0.3|||MMRM|||||-0.3|-5.2|0.0277
82411777|NCT04476043|164531964|SUPERIORITY||LSM difference|-4.4|STANDARD_ERROR_OF_MEAN|1.25||0.0006|TWO_SIDED|95.0|-6.8|-1.9|||MMRM|||||-1.9|-6.8|0.0006
82411778|NCT04476043|164531964|SUPERIORITY||LSM difference|-3.8|STANDARD_ERROR_OF_MEAN|1.22||0.0021|TWO_SIDED|95.0|-6.2|-1.4|||MMRM|||||-1.4|-6.2|0.0021
82411779|NCT04476043|164531965|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0445|TWO_SIDED|95.0|1.0|5.3|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||5.3|1.0|0.0445
82411780|NCT04476043|164531965|SUPERIORITY||Difference in response rate|19.2|STANDARD_ERROR_OF_MEAN|9.35|||||||||||Standard error of difference between response rates was from normal approximation.|||||
82411781|NCT04476043|164531965|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0998|TWO_SIDED|95.0|0.9|4.6|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||4.6|0.9|0.0998
82411782|NCT04476043|164531965|SUPERIORITY||Difference in response rate|15.4|STANDARD_ERROR_OF_MEAN|9.32|||||||||||Standard error of difference between response rates was from normal approximation.|||||
82411783|NCT04476043|164531965|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0829|TWO_SIDED|95.0|0.9|4.7|||Wald test||Logistic regression model with treatment group and stratification factors (disease severity and geographical region).|||4.7|0.9|0.0829
82411784|NCT04476043|164531965|SUPERIORITY||Difference in response rate|16.4|STANDARD_ERROR_OF_MEAN|9.29|||||||||||Standard error of difference between response rates was from normal approximation.|||||
82532218|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.4|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-2.6|-0.2||||||Change at Day 10, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.2|-2.6|
82411785|NCT02469233|164531982|SUPERIORITY||Time by treatment interaction coeff.|-3.18||||0.025|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.025
82411786|NCT02469233|164531982|SUPERIORITY||Time by treatment interaction coeff.|-1.52||||0.28|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.28
82411787|NCT02469233|164531983|SUPERIORITY||time by treatment interaction coeff.|-5.88||||0.001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.001
82411788|NCT02469233|164531983|SUPERIORITY||maximum likelihood estimation|-3.9||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.03
82411789|NCT02469233|164531984|SUPERIORITY||time by treatment interaction coeff.|-5.55|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||<0.0001
82411790|NCT02469233|164531984|SUPERIORITY||Time by treatment interaction coeff.|-4.92|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||<0.0001
82411791|NCT02469233|164531985|SUPERIORITY||Time by treatment interaction coeff.|-9.14|||<|0.0001|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||<0.0001
82411792|NCT02469233|164531985|SUPERIORITY||Time by treatment interaction coeff.|-5.37||||0.027|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.027
82411793|NCT02469233|164531986|SUPERIORITY||Time by treatment interaction coeff.|-0.95||||0.32|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.32
82411794|NCT02469233|164531986|SUPERIORITY||Time by treatment interaction coeff.|-1.67||||0.08|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.08
82411795|NCT02469233|164531987|SUPERIORITY||Time by treatment interaction coeff.|-0.09||||0.72|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.72
82411796|NCT02469233|164531987|SUPERIORITY||Time by treatment interaction coeff.|-0.08||||0.74|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.74
82411797|NCT02469233|164531988|SUPERIORITY||Time by treatment interaction coeff.|-2.46||||0.73|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.73
82411798|NCT02469233|164531988|SUPERIORITY||Time by treatment interaction coeff.|-17.52||||0.02|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.02
82411799|NCT02469233|164531989|SUPERIORITY||Time by treatment interaction coeff.|5.68||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.03
82411800|NCT02469233|164531989|SUPERIORITY||Time by treatment interaction coeff.|5.89||||0.03|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.03
82411801|NCT02469233|164531989|SUPERIORITY||Time by treatment interaction coeff.|-1.45||||0.43|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE variability (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.43
82411802|NCT02469233|164531989|SUPERIORITY||Time by treatment interaction coeff.|-1.55||||0.4|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||SE variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.40
82411803|NCT02469233|164531990|SUPERIORITY||Time by treatment interaction coeff.|-12.68||||0.59|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.59
82411804|NCT02469233|164531990|SUPERIORITY||Time by treatment interaction coeff.|-28.33||||0.22|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.22
82411805|NCT02469233|164531990|SUPERIORITY||Time by treatment interaction coeff.|4.65||||0.8|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.80
82411806|NCT02469233|164531990|SUPERIORITY||Time by treatment interaction coeff.|-7.57||||0.68|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TST variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.68
82411807|NCT02469233|164531991|SUPERIORITY||Time by treatment interaction coeff.|-76.85||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.34
82411808|NCT02469233|164531991|SUPERIORITY||Time by treatment interaction coeff.|-87.15||||0.28|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.28
82411809|NCT02469233|164531991|SUPERIORITY||Time by treatment interaction coeff.|-0.15||||0.18|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.18
82411810|NCT02469233|164531991|SUPERIORITY||Time by treatment interaction coeff.|-0.27||||0.02|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Waking activity count variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.02
82411811|NCT02469233|164531992|SUPERIORITY||Time by treatment interaction coeff.|-7.19||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.09
82446897|NCT04018313|164602226|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax|Ratio of geometric least square means|98.72|||||TWO_SIDED|90.0|89.76|108.58||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||108.58|89.76|
82532219|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
82532220|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-2.2|-0.1||||||Change at Day 11, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.2|
82532221|NCT03954158|164761878|OTHER||Difference of least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.2|0.5||||||Change at Day 11, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||0.5|-2.2|
82532222|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.9|0.0||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.0|-2.9|
82411812|NCT02469233|164531992|SUPERIORITY||Time by treatment interaction coeff.|-1.13||||0.79|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcome.||Treatment effect on change from pre to 6-month follow-up||||0.79
82411813|NCT02469233|164531993|SUPERIORITY||Time by treatment interaction coeff.|0.16||||0.46|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcome,||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.46
82411814|NCT02469233|164531993|SUPERIORITY||Time by treatment interaction coeff.|-0.34||||0.1|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up||||0.10
82411815|NCT02469233|164531994|SUPERIORITY||Time by treatment interaction coeff.|0.91||||0.002|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.002
82411816|NCT02469233|164531994|SUPERIORITY||Time by treatment interaction coeff.|0.64||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Treatment effect on change from pre to 6-month follow-up.||||0.03
82411817|NCT02469233|164531995|SUPERIORITY||Time by treatment interaction coeff.|24.85||||0.23|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Means of Total sleep time: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.23
82411818|NCT02469233|164531995|SUPERIORITY||Time by treatment interaction coeff.|34.31||||0.09|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Means of total sleep time: Treatment effect on change from pre to 6-month follow-up||||0.09
82411819|NCT02469233|164531995|SUPERIORITY||Time by treatment interaction coeff.|-19.9||||0.19|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Variability of Total sleep time: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.19
82411820|NCT02469233|164531995|SUPERIORITY||Time by treatment interaction coeff.|-1.76||||0.91|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Variability of Total sleep time: Treatment effect on change from pre to 6-month follow-up||||0.91
82411821|NCT02469233|164531996|SUPERIORITY||Time by treatment interaction coeff.|-39.33||||0.04|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.04
82411822|NCT02469233|164531996|SUPERIORITY||Time by treatment interaction coeff.|-28.56||||0.13|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.13
82411823|NCT02469233|164531996|SUPERIORITY||Time by treatment interaction coeff.|-17.57||||0.21|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min) : Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.21
82411824|NCT02469233|164531996|SUPERIORITY||Time by treatment interaction coeff.|-16.05||||0.25|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.25
82411825|NCT02469233|164531997|SUPERIORITY||Time by treatment interaction coeff.|-0.55||||0.1|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||Bedtime (BT) mean: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.10
82411826|NCT02469233|164531997|SUPERIORITY||Time by treatment interaction coeff.|-0.71||||0.04|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT mean: Treatment effect on change from pre to 6-month follow-up.||||0.04
82411827|NCT02469233|164531997|SUPERIORITY||Time by treatment interaction coeff.|-0.31||||0.2|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT variability: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.20
82411828|NCT02469233|164531997|SUPERIORITY||Time by treatment interaction coeff.|-0.45||||0.07|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||BT variability: Treatment effect on change from pre to 6-month follow-up.||||0.07
82411829|NCT02469233|164531998|SUPERIORITY||Time by treatment interaction coeff.|-0.33||||0.39|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT mean: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.39
82411830|NCT02469233|164531998|SUPERIORITY||Time by treatment interaction coeff.|-0.02||||0.96|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT mean: Treatment effect on change from pre to 6-month follow-up.||||0.96
82411831|NCT02469233|164531998|SUPERIORITY||Time by treatment interaction coeff.|-0.39||||0.047|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT variability: Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.047
82411832|NCT02469233|164531998|SUPERIORITY||Time by treatment interaction coeff.|0.2||||0.3|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||WT variability: Treatment effect on change from pre to 6-month follow-up.||||0.30
82411833|NCT02469233|164531999|SUPERIORITY||Time by treatment interaction coeff.|-4.42||||0.66|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.66
82411834|NCT02469233|164531999|SUPERIORITY||Time by treatment interaction coeff.|-13.34||||0.19|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT mean (min): Treatment effect on change from pre to 6-month follow-up.||||0.19
82411835|NCT02469233|164531999|SUPERIORITY||Time by treatment interaction coeff.|-0.05||||0.77|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to post, which is 9-14 weeks after the beginning of treatment.||||0.77
82532223|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-2.4|-0.7||||||Change at Day 12, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.7|-2.4|
82532224|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.6|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.9|-0.3||||||Change at Day 12, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.3|-2.9|
82532225|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.1|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-2.5|0.3||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.3|-2.5|
82532226|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.5|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-2.4|-0.6||||||Change at Day 13, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.6|-2.4|
82532227|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.7|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-3.0|-0.5||||||Change at Day 13, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.5|-3.0|
82532228|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-2.5|-0.6||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.6|-2.5|
82532229|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.6|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-2.8|-0.4||||||Change at Day 14, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.4|-2.8|
82532230|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.2|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-2.5|0.1||||||Change at Day 14, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||0.1|-2.5|
82532231|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-2.4|-0.1||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.1|-2.4|
82532232|NCT03954158|164761878|OTHER||Least squares mean of difference|-1.3|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.2|-0.3||||||Change at Day 15, Intra-participant: Mixed effect Model for Repeated Measures included the fixed effect of day and the covariance structure UN was used.||-0.3|-2.2|
82532233|NCT03954158|164761878|OTHER||Difference of least squares mean|-1.4|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.8|-0.1||||||Change at Day 15, Inter-participant: Mixed effect model for repeated measures included the fixed effects of dosing regimen day dosing regimen-by-day interaction and baseline value and the covariance structure UN was used.||-0.1|-2.8|
82532234|NCT02204293|164761901|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.||||||0.1811|||||||Fisher Exact|||||||0.1811
82532235|NCT02204293|164761916|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|19.9||||0.3175|TWO_SIDED|95.0|-15.0|51.3|||Fisher Exact|||||51.3|-15.0|0.3175
82532236|NCT02204293|164761917|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|31.7||||0.0922|TWO_SIDED|95.0|-2.9|61.8|||Fisher Exact|||||61.8|-2.9|0.0922
82532237|NCT02204293|164761918|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|32.0||||0.0858|TWO_SIDED|95.0|-1.5|61.1|||Fisher Exact|||||61.1|-1.5|0.0858
82532238|NCT02204293|164761919|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|32.4||||0.075|TWO_SIDED|95.0|-0.7|60.5|||Fisher Exact|||||60.5|-0.7|0.075
82532239|NCT02204293|164761920|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|16.0||||0.4018|TWO_SIDED|95.0|-12.6|43.4|||Fisher Exact|||||43.4|-12.6|0.4018
82532240|NCT02204293|164761921|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|5.2||||1|TWO_SIDED|95.0|-18.8|29.2|||Fisher Exact|||||29.2|-18.8|1
82532241|NCT02204293|164761922|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|24.8||||0.1642|TWO_SIDED|95.0|-8.0|54.2|||Fisher Exact|||EULAR DAS28-ESR Response||54.2|-8.0|0.1642
82532242|NCT02204293|164761922|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|25.2||||0.1756|TWO_SIDED|95.0|-9.1|55.1|||Fisher Exact|||EULAR DAS28-CRP Response||55.1|-9.1|0.1756
82532243|NCT02204293|164761923|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|3.9||||1|TWO_SIDED|95.0|-27.7|35.0|||Fisher Exact|||DAS28 (ESR) LDA||35.0|-27.7|1
82532244|NCT02204293|164761923|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|26.5||||0.1642|TWO_SIDED|95.0|-6.6|56.0|||Fisher Exact|||DAS28 (CRP) LDA||56.0|-6.6|0.1642
82532245|NCT02204293|164761924|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|21.6||||0.2285|TWO_SIDED|95.0|-8.1|49.9|||Fisher Exact|||DAS28 (ESR) remission||49.9|-8.1|0.2285
82532246|NCT02204293|164761924|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|27.1||||0.1212|TWO_SIDED|95.0|-4.6|54.6|||Fisher Exact|||DAS28 (CRP) Remission||54.6|-4.6|0.1212
82532247|NCT02204293|164761924|SUPERIORITY|Fisher's exact test with a two-tailed level of significance of α = 0.05.|Difference in Response Rates|16.0||||0.4018|TWO_SIDED|95.0|-12.6|43.4|||Fisher Exact|||Extended Remission||43.4|-12.6|0.4018
82532248|NCT00614198|164761935|SUPERIORITY_OR_OTHER||||||<|0.01||||||A priori p threshold set for stage 1 (baseline - 8m; p\<0.01) or (baseline - 12 months, p\<0.05) in order to progress to stage 2 (8 or 12 months - 20 or 24 months).|Mixed Models Analysis|||1st stage analysis (baseline-8m or 12m) used a repeated measures model for all assessment measures. Model included baseline, age, time and time\*treatment interaction. Results informed 2nd stage (8 or 12 months - 20 or 24 months). 2nd stage analysis based on various statistical scenarios (baseline vs 12 months on intervention, 12 months of no intervention vs 12 on intervention, baseline vs 24 months on intervention). No ADOS assessments were used at 12 months because of risk of practice effects.||||<0.01
82532249|NCT01225835|164761937|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The significance level is 0.05.|t-test, 2 sided|||||||0.003
82532250|NCT01225835|164761937|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||The significance level is 0.05.|t-test, 2 sided|||Age \< 39 years||||0.015
82532251|NCT01225835|164761937|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||The significance level is 0.05.|t-test, 2 sided|||Age \>= 39 years||||0.027
82532252|NCT01225835|164761939|SUPERIORITY_OR_OTHER|||||||1||95.0||||The significance level is 0.05.|Fisher Exact|||||||1.00
82532253|NCT01225835|164761940|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.004
82576406|NCT01304498|164862408|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.91|1.29|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|HPV Type 18||1.29|0.91|<0.001
82576407|NCT01151215|164862416|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.485|TWO_SIDED|95.0|0.77|1.75||Statistical significance threshold at this interim analysis was 5%|Log Rank|The log rank test was stratified for the IVRS stratification factor of disease classification (locally advanced / metastatic disease)|The Hazard Ratio is for AZD8931 40mg + anastrozole 1mg / Placebo + anastrozole 1mg, ie a hazard ratio \<1 favours AZD8931 40mg + anastrozole 1mg|345 patients were to be randomised to observe at least 233 progression events, based on HR=0.60, 90% power, 2-sided 5% significant level and a median of 9 months for the placebo arm. An interim analysis with futility boundary was introduced based on an IDMC recommendation.||1.75|0.77|0.485
82576408|NCT01151215|164862416|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.135|TWO_SIDED|95.0|0.91|2.06|||Log Rank|The log rank test was stratified for the IVRS stratification factor of disease classification (locally advanced / metastatic disease)|The Hazard ratio is for AZD8931 20mg + anastrozole 1mg / Placebo + anastrozole 1mg, ie a hazard ratio \< 1 favours AZD8931 20mg + anastrozole 1mg|345 patients were to be randomised to observe at least 233 progression events, based on HR=0.6, 90% power, 2-sided 5% significant level and a median of 9 months for the placebo arm. An interim analysis with futility boundary was introduced based on an IDMC recommendation.||2.06|0.91|0.135
82576409|NCT02627118|164862418|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82576410|NCT01154140|164862419|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.454|||<|0.0001|TWO_SIDED|95.0|0.346|0.596||P-value was obtained from 1-sided log rank test, stratified by eastern cooperative oncology group performance status (ECOG PS),race,brain metastases. 1-sided log-rank test at 0.0247 level of significance was used to compare PFS between the 2 arms.|Log Rank|||||0.596|0.346|<0.0001
82411836|NCT02469233|164531999|SUPERIORITY||Time by treatment interaction coeff.|-0.22||||0.2|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||TWT variability (min): Treatment effect on change from pre to 6-month follow-up.||||0.20
82532254|NCT01225835|164761941|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||The significance level is 0.05.|t-test, 2 sided|||||||0.121
82532255|NCT01225835|164761942|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Level of significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82532256|NCT01225835|164761943|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||<0.001
82576411|NCT01154140|164862420|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0489|TWO_SIDED|95.0|0.548|1.053||P-value was obtained from 1-sided log rank test, stratified by ECOG PS, race group and brain metastases.|Log Rank||HR was calculated based on the Cox Proportional hazards model stratified by ECOG PS, race group, and brain metastases. Assuming proportional hazards, a hazard ratio (less than)\<1 indicates a reduction in hazard rate in favor of crizotinib.|||1.053|0.548|0.0489
82532257|NCT01225835|164761945|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.482
82532258|NCT01225835|164761946|SUPERIORITY_OR_OTHER|||||||0.871||||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Chi-squared|||||||0.871
82532259|NCT01225835|164761947|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||<0.001
82532260|NCT01225835|164761948|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|t-test, 2 sided|||||||0.620
82532261|NCT01225835|164761949|SUPERIORITY_OR_OTHER|||||||0.478||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|t-test, 2 sided|||||||0.478
82532262|NCT01225835|164761950|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Fisher Exact|||||||0.69
82532263|NCT01225835|164761951|SUPERIORITY_OR_OTHER|||||||0.295||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.295
82532264|NCT01225835|164761952|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Wilcoxon (Mann-Whitney)|||||||0.405
82532265|NCT01225835|164761953|SUPERIORITY_OR_OTHER|||||||1||95.0||||The significance level is 0.05. P-values are not adjusted for multiple tests and have to be interpreted exploratively.|Fisher Exact|||||||1.000
82532266|NCT02293837|164761994|SUPERIORITY|||||||0.277||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52; Primary imputation method used for missing Week 52 mAUC.||||0.277
82411837|NCT02385318|164532030|EQUIVALENCE|85% power of success|Equivalence ratio|1.11|||||TWO_SIDED|90.0|-4.38|14.44|||Yates correction|||||14.44|-4.38|
82411838|NCT02594111|164532044|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82411839|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.57|1.76|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.76|0.57|
82532267|NCT02293837|164761995|SUPERIORITY|||||||0.499||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.499
82532268|NCT02293837|164761995|SUPERIORITY|||||||0.267||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.267
82532269|NCT02293837|164761995|SUPERIORITY|||||||0.226||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.226
82411840|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.52|0.94|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Dabigatran vs. Warfarin (as reference group).||0.94|0.52|
82411841|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.58|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.98|0.58|
82411842|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.53|1.35|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.35|0.53|
82411843|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.57|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Rivaroxaban vs. Warfarin (as reference group).||0.98|0.57|
82411844|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.61|0.98|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.98|0.61|
82411845|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.53|1.51|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.51|0.53|
82411846|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.38|0.89|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Apixaban vs. Warfarin (as reference group).||0.89|0.38|
82532270|NCT02293837|164761995|SUPERIORITY|||||||0.758||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.758
82532271|NCT02293837|164761995|SUPERIORITY|||||||0.341||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.341
82532272|NCT02293837|164761995|SUPERIORITY|||||||0.969||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.969
82532273|NCT02293837|164761995|SUPERIORITY|||||||0.689||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 24||||0.689
82532274|NCT02293837|164761995|SUPERIORITY|||||||0.4||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.400
82411847|NCT02081807|164532077|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.5|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.96|0.50|
82411848|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.38|0.69|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.69|0.38|
82411849|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.86|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Dabigatran vs. Warfarin (as reference group).||0.86|0.68|
82411850|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.65|0.8|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.80|0.65|
82411851|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.88|1.26|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.26|0.88|
82411852|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.92|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Rivaroxaban vs. Warfarin (as reference group).||1.12|0.92|
82411853|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.94|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.12|0.94|
82411854|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.39|0.66|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.66|0.39|
82411855|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.49|0.68|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute Hazard ratios (HR) and corresponding 95% confidence intervals (CI).||MarketScan-Apixaban vs. Warfarin (as reference group).||0.68|0.49|
82411856|NCT02081807|164532078|OTHER||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.49|0.64|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.64|0.49|
82532275|NCT02293837|164761995|SUPERIORITY|||||||0.969||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.969
82411857|NCT02081807|164532079|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.11|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.11|0.69|
82411858|NCT02081807|164532079|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.66|1.02|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.02|0.66|
82411859|NCT02081807|164532079|OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.47|0.88|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.88|0.47|
82411860|NCT02081807|164532080|OTHER||Hazard Ratio (HR)|1.85|||||TWO_SIDED|95.0|1.03|3.3|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||3.30|1.03|
82411861|NCT02081807|164532080|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.65|1.71|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.71|0.65|
82411862|NCT02081807|164532080|OTHER||Hazard Ratio (HR)|0.31|||||TWO_SIDED|95.0|0.1|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.96|0.10|
82446898|NCT04018313|164602226|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|93.47|||||TWO_SIDED|90.0|85.09|102.68||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||102.68|85.09|
82532276|NCT02293837|164761996|SUPERIORITY|||||||0.679||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.679
82532277|NCT02293837|164761996|SUPERIORITY|||||||0.373||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.373
82411863|NCT02081807|164532081|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.63|1.12|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.12|0.63|
82411864|NCT02081807|164532081|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.57|0.96|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.96|0.57|
82411865|NCT02081807|164532081|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.45|0.94|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.94|0.45|
82411866|NCT02081807|164532082|OTHER||Hazard Ratio (HR)|0.37|||||TWO_SIDED|95.0|0.18|0.78|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.78|0.18|
82411867|NCT02081807|164532082|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.58|1.72|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.72|0.58|
82411868|NCT02081807|164532082|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.38|1.87|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.87|0.38|
82576412|NCT01154140|164862422|SUPERIORITY_OR_OTHER||Difference in Percentage|29.4|||<|0.0001|TWO_SIDED|95.0|19.5|39.3||P-value was obtained from a Pearson chi-square test.|Pearson chi-square test||95% CI was calculated based on normal distribution.|If the PFS endpoint was significant, ORR was to be considered significant if the 2-sided p-value from Pearson chi-square test was (less than or equal to)\<= 0.0494.||39.3|19.5|<0.0001
82576413|NCT01154140|164862425|SUPERIORITY_OR_OTHER||Difference in Percentage|10.067||||0.0381|TWO_SIDED|95.0|0.8|19.4|||Pearson chi-square test|||The confidence interval for the difference in percentage was based on normal distribution.||19.4|0.8|0.0381
82576414|NCT01154140|164862426|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.441|||<|0.0001|TWO_SIDED|95.0|0.335|0.582||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR \<1 indicated a reduction in hazard rate in favor of Crizotinib.||0.582|0.335|<0.0001
82411869|NCT02081807|164532084|OTHER||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.25|0.59|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.59|0.25|
82411870|NCT02081807|164532084|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.51|0.95|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||0.95|0.51|
82411871|NCT02081807|164532084|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.43|1.03|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.03|0.43|
82411872|NCT02081807|164532085|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.67|0.84|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.84|0.67|
82411873|NCT02081807|164532085|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.97|1.16|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.16|0.97|
82411874|NCT02081807|164532085|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.47|0.63|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.63|0.47|
82411875|NCT02081807|164532086|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.77|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.04|0.77|
82411876|NCT02081807|164532086|OTHER||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|1.07|1.36|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.36|1.07|
82411877|NCT02081807|164532086|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.48|0.72|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.72|0.48|
82411878|NCT02081807|164532087|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.44|0.8|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.80|0.44|
82411879|NCT02081807|164532087|OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.98|1.57|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.57|0.98|
82411880|NCT02081807|164532087|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.54|1.14|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.14|0.54|
82411881|NCT02081807|164532088|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.08|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.08|0.79|
82411882|NCT02081807|164532088|OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|1.05|1.35|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.35|1.05|
82411883|NCT02081807|164532088|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.67|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.67|0.44|
82411884|NCT02081807|164532090|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.59|78.0|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||078|0.59|
82576415|NCT01154140|164862427|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.595||||0.0347|TWO_SIDED|95.0|0.338|1.048||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of Crizotinib.||1.048|0.338|0.0347
82411885|NCT02081807|164532090|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.93|1.16|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.16|0.93|
82411886|NCT02081807|164532090|OTHER||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.47|0.67|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.67|0.47|
82411887|NCT02081807|164532091|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.34|0.82|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.82|0.34|
82411888|NCT02081807|164532091|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.55|1.29|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.29|0.55|
82411889|NCT02081807|164532091|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.41|1.42|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.42|0.41|
82411890|NCT02081807|164532092|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.6|1.15|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||1.15|0.60|
82411891|NCT02081807|164532092|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.63|1.14|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.14|0.63|
82446899|NCT04018313|164602227|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|104.0|||||TWO_SIDED|90.0|94.96|113.89||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||113.89|94.96|
82576416|NCT01154140|164862428|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.286|0.524||P-value was obtained from 1-sided unstratified log-rank test.|Log Rank|||Analysis was based on the Cox Proportional hazards model assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of Crizotinib.||0.524|0.286|<0.0001
82576417|NCT01154140|164862435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.591||||0.0002|TWO_SIDED|95.0|0.452|0.773||Two-sided p-value from the unstratified log rank test was used.|Log Rank|||HR was calculated based on the Cox Proportional hazards model. Assuming proportional hazards, a HR less than 1 indicated a reduction in hazard rate in favor of crizotinib.||0.773|0.452|0.0002
82411892|NCT02081807|164532092|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.53|1.18|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||1.18|0.53|
82411893|NCT02081807|164532093|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.5|0.84|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.84|0.50|
82411894|NCT02081807|164532093|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.69|1.01|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Rivaroxaban vs. Warfarin (as reference group).||1.01|0.69|
82411895|NCT02081807|164532093|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.37|0.76|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.76|0.37|
82411896|NCT02081807|164532094|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.47|0.88|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic-Dabigatran vs. Warfarin (as reference group).||0.88|0.47|
82411897|NCT02081807|164532094|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.65|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.04|0.65|
82411898|NCT02081807|164532094|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.39|0.92|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.92|0.39|
82411899|NCT02081807|164532095|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.47|1.04|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Dabigatran vs. Warfarin (as reference group).||1.04|0.47|
82411900|NCT02081807|164532095|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.6|1.05|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Rivaroxaban vs. Warfarin (as reference group).||1.05|0.60|
82411901|NCT02081807|164532095|OTHER||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.24|0.73|||Regression, Cox|Cox proportional-hazards regression analysis was used to compute pooled HR and corresponding 95% CI using fixed effect meta-analysis.||This is a pooled analysis involving data from both MarketScan and Optum databases. MarketScan and Optum Clinformatic- Apixaban vs. Warfarin (as reference group).||0.73|0.24|
82411902|NCT03104413|164532096|SUPERIORITY||Adjusted Risk Difference|22.1|||<|0.001|TWO_SIDED|95.0|13.1|31.0|||Cochran-Mantel-Haenszel|||||31.0|13.1|<0.001
82411903|NCT03104413|164532096|SUPERIORITY||Adjusted Risk Difference|20.5|||<|0.001|TWO_SIDED|95.0|11.6|29.5|||Cochran-Mantel-Haenszel|||||29.5|11.6|< 0.001
82411904|NCT03104413|164532097|SUPERIORITY||Adjusted Risk Difference|17.6|||<|0.001|TWO_SIDED|95.0|9.9|25.4|||Cochran-Mantel-Haenszel|||||25.4|9.9|< 0.001
82411905|NCT03104413|164532097|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.1|||Cochran-Mantel-Haenszel|||||31.1|15.1|<0.001
82411906|NCT03104413|164532098|SUPERIORITY||Adjusted Risk Difference|17.6|||<|0.001|TWO_SIDED|95.0|9.9|25.4|||Cochran-Mantel-Haenszel|||||25.4|9.9|<0.001
82411907|NCT03104413|164532098|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|15.1|31.1|||Cochran-Mantel-Haenszel|||||31.1|15.1|<0.001
82411908|NCT03104413|164532099|SUPERIORITY||Adjusted Risk Difference|15.2||||0.001|TWO_SIDED|95.0|6.4|24.0|||Cochran-Mantel-Haenszel|||||24.0|6.4|0.001
82411909|NCT03104413|164532099|SUPERIORITY||Adjusted Risk Difference|20.4|||<|0.001|TWO_SIDED|95.0|11.5|29.3|||Cochran-Mantel-Haenszel|||||29.3|11.5|<0.001
82411910|NCT03104413|164532100|SUPERIORITY||Adjusted Risk Difference|15.7||||0.001|TWO_SIDED|95.0|6.8|24.6|||Cochran-Mantel-Haenszel|||||24.6|6.8|0.001
82411911|NCT03104413|164532100|SUPERIORITY||Adjusted Risk Difference|11.8||||0.008|TWO_SIDED|95.0|3.0|20.5|||Cochran-Mantel-Haenszel|||||20.5|3.0|0.008
82411912|NCT03104413|164532101|SUPERIORITY||Adjusted Risk Difference|29.4|||<|0.001|TWO_SIDED|95.0|19.9|39.0|||Cochran-Mantel-Haenszel|||||39.0|19.9|< 0.001
82411913|NCT03104413|164532101|SUPERIORITY||Adjusted Risk Difference|30.6|||<|0.001|TWO_SIDED|95.0|21.1|40.1|||Cochran-Mantel-Haenszel|||||40.1|21.1|<0.001
82446900|NCT04018313|164602227|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|99.3|||||TWO_SIDED|90.0|90.79|108.61||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||108.61|90.79|
82411914|NCT03104413|164532102|SUPERIORITY||LS Mean Difference|2.8||||0.02|TWO_SIDED|95.0|0.4|5.1|||Mixed-Effect Model Repeat Measurement|||||5.1|0.4|0.020
82411915|NCT03104413|164532102|SUPERIORITY||LS Mean Difference|3.0||||0.01|TWO_SIDED|95.0|0.7|5.3|||Mixed-Effect Model Repeat Measurement|||||5.3|0.7|0.010
82411916|NCT03104413|164532103|SUPERIORITY||Adjusted Risk Difference|9.6||||0.01|TWO_SIDED|95.0|2.3|16.9|||Cochran-Mantel-Haenszel|||||16.9|2.3|0.010
82411917|NCT03104413|164532103|SUPERIORITY||Adjusted Risk Difference|8.2||||0.023|TWO_SIDED|95.0|1.1|15.3|||Cochran-Mantel-Haenszel|||||15.3|1.1|0.023
82411918|NCT03104413|164532104|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.5|21.5|||Cochran-Mantel-Haenszel|||||21.5|8.5|<0.001
82411919|NCT03104413|164532104|SUPERIORITY||Adjusted Risk Difference|17.8|||<|0.001|TWO_SIDED|95.0|11.1|24.5|||Cochran-Mantel-Haenszel|||||24.5|11.1|<0.001
82411920|NCT03104413|164532105|SUPERIORITY||Adjusted Risk Difference|17.5|||<|0.001|TWO_SIDED|95.0|8.0|26.9|||Cochran-Mantel-Haenszel|||||26.9|8.0|<0.001
82411921|NCT03104413|164532105|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|10.8|29.8|||Cochran-Mantel-Haenszel|||||29.8|10.8|<0.001
82411922|NCT03104413|164532106|SUPERIORITY||Adjusted Risk Difference|21.8|||<|0.001|TWO_SIDED|95.0|12.1|31.6|||Cochran-Mantel-Haenszel|||||31.6|12.1|<0.001
82411923|NCT03104413|164532106|SUPERIORITY||Adjusted Risk Difference|22.7|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
82411924|NCT03104413|164532107|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.9|21.2|||Cochran-Mantel-Haenszel|||||21.2|8.9|<0.001
82411925|NCT03104413|164532107|SUPERIORITY||Adjusted Risk Difference|16.2|||<|0.001|TWO_SIDED|95.0|9.9|22.4|||Cochran-Mantel-Haenszel|||||22.4|9.9|<0.001
82411926|NCT03104413|164532108|SUPERIORITY||Adjusted Risk Difference|13.6||||0.006|TWO_SIDED|95.0|4.0|23.3|||Cochran-Mantel-Haenszel|||||23.3|4.0|0.006
82411927|NCT03104413|164532108|SUPERIORITY||Adjusted Risk Difference|7.1||||0.142|TWO_SIDED|95.0|-2.4|16.6|||Cochran-Mantel-Haenszel|||||16.6|-2.4|0.142
82411928|NCT03104413|164532109|SUPERIORITY||Adjusted Risk Difference|9.4||||0.001|TWO_SIDED|95.0|3.8|15.1|||Cochran-Mantel-Haenszel|||||15.1|3.8|0.001
82576418|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.8303|||<|0.0001|TWO_SIDED|95.0|10.74|16.92|||Mixed Models Analysis|||QLQ-C30 Global QoL: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||16.92|10.74|<0.0001
82411929|NCT03104413|164532109|SUPERIORITY||Adjusted Risk Difference|11.2|||<|0.001|TWO_SIDED|95.0|5.3|17.0|||Cochran-Mantel-Haenszel|||||17.0|5.3|<0.001
82411930|NCT03104413|164532110|SUPERIORITY||Adjusted Risk Difference|22.8|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
82411931|NCT03104413|164532110|SUPERIORITY||Adjusted Risk Difference|20.0|||<|0.001|TWO_SIDED|95.0|10.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|10.2|<0.001
82411932|NCT03104413|164532111|SUPERIORITY||Adjusted Risk Difference|5.6||||0.377|TWO_SIDED|95.0|-6.8|17.9|||Cochran-Mantel-Haenszel|||||17.9|-6.8|0.377
82411933|NCT03104413|164532111|SUPERIORITY||Adjusted Risk Difference|13.4||||0.039|TWO_SIDED|95.0|0.7|26.1|||Cochran-Mantel-Haenszel|||||26.1|0.7|0.039
82411934|NCT03104413|164532112|SUPERIORITY||Risk Difference (RD)|-8.1||||0.002|TWO_SIDED|95.0|-13.2|-2.9|||Chi-squared|||||-2.9|-13.2|0.002
82411935|NCT03104413|164532112|SUPERIORITY||Risk Difference (RD)|-9.1|||<|0.001|TWO_SIDED|95.0|-14.1|-4.2|||Chi-squared|||||-4.2|-14.1|<0.001
82411936|NCT03104413|164532113|SUPERIORITY||Risk Difference (RD)|-6.2||||1|TWO_SIDED|95.0|-28.1|15.7|||Chi-squared|||||15.7|-28.1|1
82411937|NCT03104413|164532113|SUPERIORITY||Risk Difference (RD)|30.4||||0.113|TWO_SIDED|95.0|0.6|60.2|||Chi-squared|||||60.2|0.6|0.113
82411938|NCT03104413|164532114|SUPERIORITY||Adjusted Risk Difference|22.1|||<|0.001|TWO_SIDED|95.0|13.1|31.0|||Cochran-Mantel-Haenszel|||||31.0|13.1|<0.001
82411939|NCT03104413|164532114|SUPERIORITY||Adjusted Risk Difference|20.5|||<|0.001|TWO_SIDED|95.0|11.6|29.5|||Cochran-Mantel-Haenszel|||||29.5|11.6|<0.001
82411940|NCT03104413|164532115|SUPERIORITY||Adjusted Risk Difference|15.7||||0.001|TWO_SIDED|95.0|6.8|24.6|||Cochran-Mantel-Haenszel|||||24.6|6.8|0.001
82411941|NCT03104413|164532115|SUPERIORITY||Adjusted Risk Difference|11.8||||0.008|TWO_SIDED|95.0|3.0|20.5|||Cochran-Mantel-Haenszel|||||20.5|3|0.008
82411942|NCT03104413|164532116|SUPERIORITY||Adjusted Risk Difference|9.2||||0.006|TWO_SIDED|95.0|2.6|15.7|||Cochran-Mantel-Haenszel|||||15.7|2.6|0.006
82411943|NCT03104413|164532116|SUPERIORITY||Adjusted Risk Difference|10.3||||0.002|TWO_SIDED|95.0|3.7|16.8|||Cochran-Mantel-Haenszel|||||16.8|3.7|0.002
82411944|NCT03104413|164532117|SUPERIORITY||Adjusted Risk Difference|29.4|||<|0.001|TWO_SIDED|95.0|19.9|39.0|||Cochran-Mantel-Haenszel|||||39.0|19.9|<0.001
82411945|NCT03104413|164532117|SUPERIORITY||Adjusted Risk Difference|30.6|||<|0.001|TWO_SIDED|95.0|21.1|40.1|||Cochran-Mantel-Haenszel|||||40.1|21.1|<0.001
82411946|NCT03104413|164532118|SUPERIORITY||LS Mean Difference|2.8||||0.02|TWO_SIDED|95.0|0.4|5.1|||Mixed-Effect Model Repeat Measurement|||||5.1|0.4|0.020
82411947|NCT03104413|164532118|SUPERIORITY||LS Mean Difference|3.0||||0.01|TWO_SIDED|95.0|0.7|5.3|||Mixed-Effect Model Repeat Measurement|||||5.3|0.7|0.010
82411948|NCT03104413|164532119|SUPERIORITY||LS Mean Difference|12.4||||0.001|TWO_SIDED|95.0|5.0|19.8|||Mixed-Effect Model Repeat Measurement|||||19.8|5.0|0.001
82411949|NCT03104413|164532119|SUPERIORITY||LS Mean Difference|15.0|||<|0.001|TWO_SIDED|95.0|7.7|22.4|||Mixed-Effect Model Repeat Measurement|||||22.4|7.7|<0.001
82411950|NCT03104413|164532120|SUPERIORITY||Adjusted Risk Difference|13.9|||<|0.001|TWO_SIDED|95.0|7.1|20.7|||Cochran-Mantel-Haenszel|||||20.7|7.1|<0.001
82411951|NCT03104413|164532120|SUPERIORITY||Adjusted Risk Difference|17.3|||<|0.001|TWO_SIDED|95.0|10.3|24.2|||Cochran-Mantel-Haenszel|||||24.2|10.3|<0.001
82411952|NCT03104413|164532121|SUPERIORITY||Adjusted Risk Difference|15.0|||<|0.001|TWO_SIDED|95.0|8.9|21.2|||Cochran-Mantel-Haenszel|||||21.2|8.9|<0.001
82411953|NCT03104413|164532121|SUPERIORITY||Adjusted Risk Difference|16.2|||<|0.001|TWO_SIDED|95.0|9.9|22.4|||Cochran-Mantel-Haenszel|||||22.4|9.9|<0.001
82411954|NCT03104413|164532122|SUPERIORITY||Adjusted Risk Difference|13.6||||0.006|TWO_SIDED|95.0|4.0|23.3|||Cochran-Mantel-Haenszel|||||23.3|4|0.006
82411955|NCT03104413|164532122|SUPERIORITY||Adjusted Risk Difference|7.1||||0.142|TWO_SIDED|95.0|-2.4|16.6|||Cochran-Mantel-Haenszel|||||16.6|-2.4|0.142
82411956|NCT03104413|164532123|SUPERIORITY||Adjusted Risk Difference|9.4||||0.001|TWO_SIDED|95.0|3.8|15.1|||Cochran-Mantel-Haenszel|||||15.1|3.8|0.001
82411957|NCT03104413|164532123|SUPERIORITY||Adjusted Risk Difference|11.2|||<|0.001|TWO_SIDED|95.0|5.3|17.0|||Cochran-Mantel-Haenszel|||||17.0|5.3|<0.001
82411958|NCT03104413|164532124|SUPERIORITY||Adjusted Risk Difference|22.8|||<|0.001|TWO_SIDED|95.0|13.0|32.5|||Cochran-Mantel-Haenszel|||||32.5|13.0|<0.001
82411959|NCT03104413|164532124|SUPERIORITY||Adjusted Risk Difference|20.0|||<|0.001|TWO_SIDED|95.0|10.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|10.2|<0.001
82411960|NCT03104413|164532125|SUPERIORITY||Adjusted Risk Difference|5.6||||0.377|TWO_SIDED|95.0|-6.8|17.9|||Cochran-Mantel-Haenszel|||||17.9|-6.8|0.377
82411961|NCT03104413|164532125|SUPERIORITY||Adjusted Risk Difference|13.4||||0.039|TWO_SIDED|95.0|0.7|26.1|||Cochran-Mantel-Haenszel|||||26.1|0.7|0.039
82411962|NCT03104413|164532126|SUPERIORITY||LS Mean Difference|-8.1||||0.002|TWO_SIDED|95.0|-13.2|-2.9|||Mixed-Effect Model Repeat Measurement|||||-2.9|-13.2|0.002
82411963|NCT03104413|164532126|SUPERIORITY||LS Mean Difference|-9.1|||<|0.001|TWO_SIDED|95.0|-14.1|-4.2|||Mixed-Effect Model Repeat Measurement|||||-4.2|-14.1|<0.001
82411964|NCT03104413|164532127|SUPERIORITY||LS Mean Difference|-6.2||||1|TWO_SIDED|95.0|-28.1|15.7|||Mixed-Effect Model Repeat Measurement|||||15.7|-28.1|1.00
82411965|NCT03104413|164532127|SUPERIORITY||LS Mean Difference|30.4||||0.113|TWO_SIDED|95.0|0.6|60.2|||Mixed-Effect Model Repeat Measurement|||||60.2|0.6|0.113
82411966|NCT03104413|164532128|SUPERIORITY||LS Mean Difference|-7.323||||0.113|TWO_SIDED|95.0|-16.399|1.753|||Mixed-Effect Model Repeat Measurement|||||1.753|-16.399|0.113
82411967|NCT03104413|164532128|SUPERIORITY||LS Mean Difference|-8.759||||0.05|TWO_SIDED|95.0|-17.518|-0.001|||Mixed-Effect Model Repeat Measurement|||||-0.001|-17.518|0.050
82411968|NCT03104413|164532129|SUPERIORITY||LS Mean Difference|2.221||||0.008|TWO_SIDED|95.0|0.577|3.865|||Mixed-Effect Model Repeat Measurement|||||3.865|0.577|0.008
82411969|NCT03104413|164532129|SUPERIORITY||LS Mean Difference|2.714||||0.001|TWO_SIDED|95.0|1.077|4.351|||Mixed-Effect Model Repeat Measurement|||||4.351|1.077|0.001
82411970|NCT03104413|164532130|SUPERIORITY||Adjusted Risk Difference|15.2||||0.001|TWO_SIDED|95.0|6.4|24.0|||Cochran-Mantel-Haenszel|||||24|6.4|0.001
82411971|NCT03104413|164532130|SUPERIORITY||Adjusted Risk Difference|20.4|||<|0.001|TWO_SIDED|95.0|11.5|29.3|||Cochran-Mantel-Haenszel|||||29.3|11.5|<0.001
82411972|NCT01208051|164532132|SUPERIORITY|||||||0.26||||||p-value is stratified by randomization factors.|Log Rank|The conditional power was 7.8%, reaching the futility boundary of \<15%. Patients on the combination arm were then crossed over to cediranib alone.||||||0.26
82411973|NCT01208051|164532133|SUPERIORITY|||||||0.36|||||||Log Rank|||||||0.36
82411974|NCT01208051|164532135|SUPERIORITY|||||||0.8|||||||Log Rank|||||||0.80
82411975|NCT01208051|164532136|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
82411976|NCT00973973|164532140|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.107||0.0262|TWO_SIDED|95.0|-0.45|-0.03|||ANCOVA|Analysis of covariance (ANCOVA) model including baseline value as a covariate.||Comparison of Change from Baseline at Week 4||-0.03|-0.45|0.0262
82411977|NCT00973973|164532140|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.152|<|0.0001|TWO_SIDED|95.0|-1.06|-0.46|||ANCOVA|Analysis of covariance (ANCOVA) model, including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.46|-1.06|< 0.0001
82411978|NCT00973973|164532142|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.086||0.0163|TWO_SIDED|95.0|-0.38|-0.04|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.04|-0.38|0.0163
82411979|NCT00973973|164532142|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.101||0.0066|TWO_SIDED|95.0|-0.48|-0.08|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.08|-0.48|0.0066
82411980|NCT00973973|164532144|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.082||0.0089|TWO_SIDED|95.0|-0.38|-0.06|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.06|-0.38|0.0089
82411981|NCT00973973|164532144|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.0011|TWO_SIDED|95.0|-0.53|-0.14|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.14|-0.53|0.0011
82411982|NCT00973973|164532146|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.127||0.036|TWO_SIDED|95.0|-0.52|-0.02|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change form baseline at week 4||-0.02|-0.52|0.0360
82411983|NCT00973973|164532146|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.137||0.007|TWO_SIDED|95.0|-0.65|-0.11|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-0.11|-0.65|0.0070
82411984|NCT00973973|164532152|SUPERIORITY||LS Mean Difference|-9.84|STANDARD_ERROR_OF_MEAN|3.939||0.0137|TWO_SIDED|95.0|-17.63|-2.05|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-2.05|-17.63|0.0137
82411985|NCT00973973|164532152|SUPERIORITY||LS Mean Difference|-12.44|STANDARD_ERROR_OF_MEAN|3.913||0.0019|TWO_SIDED|95.0|-20.19|-4.7|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-4.70|-20.19|0.0019
82411986|NCT00973973|164532154|SUPERIORITY||LS Mean Difference|-6.21|STANDARD_ERROR_OF_MEAN|2.728||0.0244|TWO_SIDED|95.0|-11.61|-0.81|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||-0.81|-11.61|0.0244
82411987|NCT00973973|164532154|SUPERIORITY||LS Mean Difference|-6.35|STANDARD_ERROR_OF_MEAN|2.549||0.0141|TWO_SIDED|95.0|-11.39|-1.3|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||-1.30|-11.39|0.0141
82411988|NCT00973973|164532156|SUPERIORITY||LS Mean Difference|-3.12|STANDARD_ERROR_OF_MEAN|1.821||0.0893|TWO_SIDED|95.0|-6.72|0.49|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 4||0.49|-6.72|0.0893
82411989|NCT00973973|164532156|SUPERIORITY||LS Mean Difference|-3.52|STANDARD_ERROR_OF_MEAN|1.938||0.072|TWO_SIDED|95.0|-7.35|0.32|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline at week 8||0.32|-7.35|0.0720
82411990|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|0.505|<|0.0001|TWO_SIDED|95.0|-3.26|-1.26|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of the change from baseline in CPSSS total score||-1.26|-3.26|< 0.0001
82411991|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.41|-0.69|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of dysmenorrhea score||-0.69|-1.41|< 0.0001
82411992|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.143||0.0139|TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of non-menstrual pelvic pain score||-0.07|-0.64|0.0139
82411993|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.173||0.1052|TWO_SIDED|95.0|-0.63|0.06|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of dyspareunia score||0.06|-0.63|0.1052
82411994|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.143||0.0081|TWO_SIDED|95.0|-0.67|-0.1|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of pelvic tenderness score||-0.10|-0.67|0.0081
82411995|NCT00973973|164532158|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.125||0.024|TWO_SIDED|95.0|-0.53|-0.04|||ANCOVA|ANCOVA model including baseline value as a covariate.||Comparison of change from baseline in CPSSS component of induration score||-0.04|-0.53|0.0240
82411996|NCT00973973|164532160|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0012|TWO_SIDED|95.0|-1.2|-0.3|||ANOVA|||Comparison of Patient Global Impression of Change at week 4||-0.3|-1.2|0.0012
82411997|NCT00973973|164532160|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.26||0.0002|TWO_SIDED|95.0|-1.5|-0.5|||ANOVA|||Comparison of Patient Global Impression of Change at week 8||-0.5|-1.5|0.0002
82411998|NCT00973973|164532162|SUPERIORITY||Difference|19.4||||0.0136|TWO_SIDED|95.0|4.4|34.4|||Pearson chi-squared|||Comparison of response rates at week 4||34.4|4.4|0.0136
82646854|NCT02414854|165008506|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.19||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 200 mg q2w vs Placebo (for Dupilumab 200 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 4 of testing order.||0.19|0.08|<0.0001
82411999|NCT00973973|164532162|SUPERIORITY||Difference|30.2||||0.0007|TWO_SIDED|95.0|13.6|46.7|||Pearson chi-squared|||Comparison of response rates at week 8||46.7|13.6|0.0007
82412000|NCT02471339|164532168|SUPERIORITY|||||||0.05|||||||ANCOVA|||Analysis of covariance. Analyses for primary and secondary outcomes were two-tailed and alpha was set to 0.05. An a priori analysis suggested that, to detect a change of .68 standard deviation on the primary outcome measure between the two groups at .80 power, 41 patients per group would be needed.||||0.05
82412001|NCT02471339|164532169|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82412002|NCT02471339|164532172|SUPERIORITY|||||||0.05|||||||t-test|||||||.05
82412003|NCT02471339|164532176|SUPERIORITY|||||||0.042|||||||ANOVA|||||||0.042
82412004|NCT00267670|164532207|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.46|||||||ANOVA|||Sample size estimates were based on 30% reduction in ALT in the treatment group \& 15% reduction in the placebo group. With a sample size of 30 planned (20 treatment:10 placebo), the study was designed to have a power of 90% to detect a difference in means of 1.25 standard deviations (ES=1.25), \& a power of 80% to detect a difference in means of 1.1 standard deviations (ES=1.1), based on calculations using power index, z-table, \& accounting for unequal sample size: n1 = 20, n2 = 10, a = 0.05.||||0.46
82412005|NCT00267670|164532208|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||Null hypothesis was that there was no difference between mean hepatic expression of TNF-alpha receptors in patient with NASH. This was a secondary outcome and no power analysis was done.||||0.16
82412006|NCT00267670|164532209|SUPERIORITY_OR_OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
82412007|NCT00267670|164532210|SUPERIORITY_OR_OTHER|||||||0.49|||||||t-test, 2 sided|||||||0.49
82412008|NCT02326883|164532211|SUPERIORITY||Cox Proportional Hazard|1.07|STANDARD_ERROR_OF_MEAN|0.12||0.61|TWO_SIDED|95.0|0.86|1.33||A priori two-sided comparison of Care Management condition to Usual Care|Log Rank|A priori Bonferonni-corrected threshold for statistical significance was 0.025.|To clarify direction of comparison: relative hazard of suicide attempt among participants assigned to Care Management was 1.07 (95% CI 0.86 - 1.33) higher compared to participants assigned to Usual Care|Comparison of participants assigned to Care Management intervention to those assigned to continued Usual Care||1.33|0.86|0.61
82412009|NCT02326883|164532211|SUPERIORITY|A priori two-sided comparison of Skills Training to usual care.|Cox Proportional Hazard|1.29|STANDARD_ERROR_OF_MEAN|0.14||0.02|TWO_SIDED|95.0|1.05|1.59||A priori Bonferonni-corrected threshold for statistical significance was 0.025.|Log Rank||To clarify direction of comparison: relative hazard of suicide attempt in participants assigned to Skills Training was 1.29 (95% CI 1.05-1.59) times higher than in those assigned to Usual Care|Comparison of Skills Training to Usual Care||1.59|1.05|0.02
82412010|NCT02107898|164532212|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.1|||<|0.0001|TWO_SIDED|95.0|-68.5|-59.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-59.8|-68.5|<0.0001
82412011|NCT02107898|164532213|SUPERIORITY_OR_OTHER||LS Mean Difference|-65.3|||<|0.0001|TWO_SIDED|95.0|-69.4|-61.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-61.3|-69.4|<0.0001
82412012|NCT02107898|164532214|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.5|||<|0.0001|TWO_SIDED|95.0|-65.3|-57.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-57.7|-65.3|<0.0001
82412013|NCT02107898|164532215|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.1|||<|0.0001|TWO_SIDED|95.0|-65.8|-58.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-58.3|-65.8|<0.0001
82412014|NCT02107898|164532216|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.3|||<|0.0001|TWO_SIDED|95.0|-57.5|-49.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.1|-57.5|<0.0001
82412015|NCT02107898|164532217|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.8|||<|0.0001|TWO_SIDED|95.0|-57.8|-49.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-49.8|-57.8|<0.0001
82446901|NCT04018313|164602227|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|95.48|||||TWO_SIDED|90.0|87.36|104.37||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||104.37|87.36|
82412016|NCT02107898|164532218|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.5|||<|0.0001|TWO_SIDED|95.0|-61.5|-53.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.5|-61.5|<0.0001
82412017|NCT02107898|164532219|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.6|||<|0.0001|TWO_SIDED|95.0|-62.3|-54.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.8|-62.3|<0.0001
82446902|NCT04018313|164602228|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|113.14|||||TWO_SIDED|90.0|103.15|124.11||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||124.11|103.15|
82412018|NCT02107898|164532220|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.5|||<|0.0001|TWO_SIDED|95.0|-44.6|-38.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-38.4|-44.6|<0.0001
82412019|NCT02107898|164532221|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-54.9|-47.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.6|-54.9|<0.0001
82412020|NCT02107898|164532222|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.5|||<|0.0001|TWO_SIDED|95.0|-57.9|-51.1|||Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.1|-57.9|<0.0001
82412021|NCT02107898|164532223|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-41.7|-36.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.4|-41.7|<0.0001
82412022|NCT02107898|164532224|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|552.1|||<|0.0001|TWO_SIDED|95.0|105.6|2886.8||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||2886.8|105.6|<0.0001
82412023|NCT02107898|164532225|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1367.8|||<|0.0001|TWO_SIDED|95.0|137.8|13578.3||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||13578.3|137.8|<0.0001
82412024|NCT02107898|164532226|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-36.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.0|-48.0|<0.0001
82412025|NCT02107898|164532227|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-30.9|-13.1||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.1|-30.9|<0.0001
82412026|NCT02107898|164532228|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8||||0.002|TWO_SIDED|95.0|2.1|9.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.4|2.1|0.0020
82412027|NCT02107898|164532229|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0||||0.0382|TWO_SIDED|95.0|0.2|7.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.9|0.2|0.0382
82412028|NCT02107898|164532230|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-41.4|||<|0.0001|TWO_SIDED|95.0|-47.0|-35.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35.7|-47.0|<0.0001
82412029|NCT02107898|164532231|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.5||||0.0007|TWO_SIDED|95.0|-24.4|-6.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.6|-24.4|0.0007
82412030|NCT02107898|164532232|SUPERIORITY_OR_OTHER||LS Mean Difference|6.5|||<|0.0001|TWO_SIDED|95.0|3.7|9.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.3|3.7|<0.0001
82532278|NCT02293837|164761996|SUPERIORITY|||||||0.395||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was 2-hour C-peptide mAUC and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.395
82412031|NCT02107898|164532233|SUPERIORITY_OR_OTHER||LS Mean Difference|6.3|||<|0.0001|TWO_SIDED|95.0|3.6|9.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.0|3.6|<0.0001
82412032|NCT02469857|164532255|SUPERIORITY|||||||0.135|||||||Chi-squared|||This analysis utilized the mITT analysis population.||||0.135
82412033|NCT02469857|164532255|SUPERIORITY|||||||0.025|||||||Chi-squared|||This analysis utilized the US-mITT analysis population.||||0.025
82412034|NCT02469857|164532259|SUPERIORITY|||||||0.069|||||||Chi-squared|||||||0.069
82412035|NCT02469857|164532260|SUPERIORITY|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||||||0.401
82412036|NCT02469857|164532261|SUPERIORITY|||||||0.195|||||||Wilcoxon (Mann-Whitney)|||||||0.195
82412037|NCT02469857|164532262|SUPERIORITY|||||||0.596|||||||Wilcoxon (Mann-Whitney)|||||||0.596
82532279|NCT02293837|164761997|SUPERIORITY|||||||0.176||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.176
82412038|NCT02469857|164532263|SUPERIORITY|||||||0.512|||||||Wilcoxon (Mann-Whitney)|||||||0.512
82412039|NCT02469857|164532264|SUPERIORITY|||||||0.033|||||||Chi-squared|||||||0.033
82412040|NCT02469857|164532265|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.554|TWO_SIDED|95.0|0.5|1.46|||Log Rank|||||1.46|0.50|0.554
82412041|NCT02469857|164532266|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.148|TWO_SIDED|95.0|0.23|1.26|||Log Rank|||||1.26|0.23|0.148
82412042|NCT02469857|164532267|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.736|TWO_SIDED|95.0|0.46|1.73|||Log Rank|||||1.73|0.46|0.736
82412043|NCT02469857|164532268|SUPERIORITY||Hazard Ratio (HR)|0.34||||0.093|TWO_SIDED|95.0|0.09|1.25|||Log Rank|||||1.25|0.09|0.093
82412044|NCT02469857|164532269|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.352|TWO_SIDED|95.0|0.35|1.46|||Log Rank|||||1.46|0.35|0.352
82412045|NCT02469857|164532270|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.031|TWO_SIDED|95.0|0.04|0.99|||Log Rank|||||0.99|0.04|0.031
82446903|NCT04018313|164602228|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|103.88|||||TWO_SIDED|90.0|94.83|113.8||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||113.80|94.83|
82532280|NCT02293837|164761997|SUPERIORITY|||||||0.285||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.285
82532281|NCT02293837|164761997|SUPERIORITY|||||||0.435||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52||||0.435
82412046|NCT02469857|164532271|SUPERIORITY|||||||0.024|||||||Chi-squared|||||||0.024
82412047|NCT02469857|164532272|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
82412048|NCT02469857|164532273|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||0.034
82412049|NCT02469857|164532274|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
82412050|NCT03483103|164532275|SUPERIORITY||||||<|0.0001||||||One sided P-value is calculated based on the null hypothesis ORR \<= 50.2%|Exact binomial test|||||||<.0001
82412051|NCT00297167|164532315|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-25.52|||<|0.001|TWO_SIDED|95.0|-31.73|-19.32|||ANOVA|||P-Value was calculated using analysis of variance (ANOVA) model which included main effects for treatment and sequence and participant nested in sequence as a random effect.||-19.32|-31.73|<0.001
82532282|NCT02293837|164761997|SUPERIORITY|||||||0.931||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104||||0.931
82412052|NCT00297167|164532316|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|||<|0.001|TWO_SIDED|95.0|-26.85|-16.14|||ANOVA|||P-Value was calculated using analysis of variance (ANOVA)model which included main effects for treatment and sequence and participant nested in sequence as a random effect.||-16.14|-26.85|<0.001
82412053|NCT01953237|164532325|SUPERIORITY_OR_OTHER_LEGACY|||||||0.558|||||||Mixed Models Analysis|||||||0.5580
82412054|NCT04167462|164532326|SUPERIORITY||Odds Ratio (OR)|16.49|||<|0.0001|TWO_SIDED|95.0|6.33|42.98|||Cochran-Mantel-Haenszel|||||42.98|6.33|<0.0001
82412055|NCT04167462|164532327|SUPERIORITY||Odds Ratio (OR)|24.29|||<|0.0001|TWO_SIDED|95.0|9.6|61.46|||Cochran-Mantel-Haenszel|||||61.46|9.60|<0.0001
82412056|NCT04167462|164532328|SUPERIORITY||Odds Ratio (OR)|41.19|||<|0.0001|TWO_SIDED|95.0|5.82|291.26|||Cochran-Mantel-Haenszel|||||291.26|5.82|<0.0001
82412057|NCT04167462|164532332|SUPERIORITY||Odds Ratio (OR)|17.27|||<|0.0001|TWO_SIDED|95.0|6.06|49.25|||Cochran-Mantel-Haenszel|||||49.25|6.06|<0.0001
82412058|NCT04167462|164532333|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.0001|TWO_SIDED|95.0|2.19|11.91|||Cochran-Mantel-Haenszel|||||11.91|2.19|<0.0001
82412059|NCT04167462|164532334|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0947|TWO_SIDED|95.0|0.64|53.28|||Cochran-Mantel-Haenszel|||||53.28|0.64|0.0947
82412060|NCT04167462|164532335|SUPERIORITY||Odds Ratio (OR)|4.11||||0.1741|TWO_SIDED|95.0|0.47|35.74|||Cochran-Mantel-Haenszel|||||35.74|0.47|0.1741
82412061|NCT01033136|164532339|EQUIVALENCE|To test if MCET is equivalent to CPT in decreasing PTSD symptoms, we test the equivalence of the proportion of patients whose CAPS scores decrease by 10 from baseline, by testing whether the difference in proportions between the 2 interventions ≤ to the equivalence margin δb of .20. Results are reported based on 3-month follow-up data.||||||0.3||||||The threshold for statistical significance is p \<.05 and is not adjusted for multiple comparisons.|Fisher Exact|||||||0.30
82412062|NCT01033136|164532340|OTHER|||||||0.68||||||The threshold for statistical significance is p \<.05 and is not adjusted for multiple comparisons.|Mixed Models Analysis|Degrees of freedom: 2, 54||Longitudinal analysis of PDSS scores||||0.68
82412063|NCT00142415|164532342|OTHER|The maximum tolerated dose (MTD) was determined using a standard 3 + 3 dose-escalation design. The occurrence of DLTs was compared across cohorts.|Maximum tolerated dose (mCi/m^2)|65.0|||||TWO_SIDED|||||||||||||
82412064|NCT01129128|164532353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-173.0||||0.87|TWO_SIDED|95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of TNF alpha levels to account for skewed distribution of values||comparison of peak level of TNF alpha after controlling for baseline level. Based on data from 20 participants in a group, there was a power of 0.9 to detect a difference of 1000 pg/ml with a standard deviation of 700 pg/ml||||0.87
82412065|NCT01129128|164532353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|705.0||||0.82||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of TNF alpha levels to account for skewed distribution of values||comparison of peak level of TNF alpha after controlling for baseline level. Based on data from 20 participants in a group, there was a power of .9 to detect a difference of 1000 pg/ml with a standard deviation of 700 pg/ml||||0.82
82412066|NCT01129128|164532354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15793.0||||0.82||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of IL-6 levels to account for skewed distribution of values||||||0.82
82412067|NCT01129128|164532354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23472.0||||0.68||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of IL-6 levels to account for skewed distribution of values||||||0.68
82646855|NCT02414854|165008507|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|9.41|||<|0.0001|TWO_SIDED|95.0|5.74|13.07||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis performed using MMRM model(n=954 for 300 vs placebo)with percent change from baseline in FEV1 values up to Week 12 as response variable; \& treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value \& baseline-by-visit interaction as covariates. Hierarchical testing procedure used to control type I error \& handle multiple secondary endpoint analyses. Here, it is test no. 5 of testing order.||13.07|5.74|<0.0001
82412068|NCT01129128|164532355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.0||||0.9||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of Interferon gamma levels to account for skewed distribution of values||||||0.90
82532283|NCT02293837|164761997|SUPERIORITY|||||||0.28||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 52. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.280
82532284|NCT02293837|164761997|SUPERIORITY|||||||0.985||||||P-value comes from an analysis of covariance with outcome variable of change in mAUC from screening and covariates of treatment, screening mAUC, and age.|ANCOVA|||Week 104. Only participants \>=12 years old had the 4-hour MMTT performed.||||0.985
82532285|NCT02293837|164761998|SUPERIORITY|||||||0.762||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.762
82532286|NCT02293837|164761998|SUPERIORITY|||||||0.64||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 52||||0.640
82412069|NCT01129128|164532355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0||||0.76||95.0|||||Regression, Linear|controlled for baseline levels and performed log transformation of Interferon gamma levels to account for skewed distribution of values||||||0.76
82412070|NCT01129128|164532356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.98||95.0|||||Regression, Linear|controlled for baseline levels||||||0.98
82412071|NCT01129128|164532356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.0||||0.34||95.0|||||Regression, Linear|controlled for baseline levels||||||0.34
82412072|NCT00844519|164532358|SUPERIORITY_OR_OTHER|||||||0.17||||||significant at p\<0.05|t-test, 2 sided|||within-arm, pre-post change in FMD||||0.17
82412073|NCT00844519|164532358|SUPERIORITY_OR_OTHER|||||||0.9||||||significant at p\<0.05|t-test, 2 sided|||within-arm, pre-post change in FMD||||0.90
82412074|NCT04497883|164532361|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|110.41|||||TWO_SIDED|90.0|91.7|132.94|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||132.94|91.70|
82412075|NCT04497883|164532362|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|122.49|||||TWO_SIDED|90.0|96.83|154.95|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||154.95|96.83|
82412076|NCT04497883|164532363|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric least square means|125.08|||||TWO_SIDED|90.0|97.99|159.64|||ANOVA|||The comparison analysis was planned between Cohort A: Maribavir 400 mg and Cohort B: Maribavir 400 mg group participants only.||159.64|97.99|
82412077|NCT04530344|164532371|SUPERIORITY||Hazard Ratio (HR)|0.422||||0.0414|TWO_SIDED|95.0|0.18|0.99|||Log Rank|The p-value was based on the log-rank test stratified by randomization stratification factor between treatment and vehicle.||Cox regression model stratified by stratification factor (treatment assignment in the parent studies) was conducted to compare the difference in hazard rate between treatment and vehicle.||0.990|0.180|0.0414
82412078|NCT04530344|164532372|SUPERIORITY||Hazard Ratio (HR)|0.316||||0.0003|TWO_SIDED|95.0|0.165|0.606|||Log Rank|The p-value was based on the log-rank test stratified by randomization stratification factor between treatment and vehicle.||Cox regression model stratified by stratification factor (treatment assignment in the parent studies) was conducted to compare the difference in hazard rate between treatment and vehicle.||0.606|0.165|0.0003
82412079|NCT01654276|164532407|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
82412080|NCT00846365|164532466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-8.4|-3.8||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment as a fixed effect and Baseline as a covariate.||-3.8|-8.4|<0.001
82412081|NCT00846365|164532466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.001|TWO_SIDED|95.0|-9.1|-4.4||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-4.4|-9.1|<0.001
82412082|NCT00846365|164532467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-8.5|-3.7||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-3.7|-8.5|<0.001
82412083|NCT00846365|164532467|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-9.6|-4.8||Statistical significance was set at the 0.05 level per the predefined stepwise testing strategy used.|ANCOVA|||ANCOVA model with treatment as a fixed effect and Baseline as a covariate.||-4.8|-9.6|<0.001
82412084|NCT00846365|164532471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-7.5|-3.7||Tested at the 0.05 significance level.|ANCOVA|||Statistical analysis for Week 8. ANOVA model with treatment as a fixed effect. Post-baseline p-values are obtained from an ANCOVA model with treatment as a fixed effect and baseline as a covariate.||-3.7|-7.5|<0.001
82412085|NCT00846365|164532471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-9.1|-5.2||Tested at the 0.05 significance level.|ANCOVA|||Statistical analysis for Week 8. ANOVA model with treatment as a fixed effect. Post-baseline p-values are obtained from an ANCOVA model with treatment as a fixed effect and baseline as a covariate.||-5.2|-9.1|<0.001
82412086|NCT00782067|164532491|OTHER|Single arm study|||||<|0.001|TWO_SIDED|95.0||||Null hypothesis: ORR \<= 30% Alternative hypothesis: ORR \>= 50%|Exact Binomial Test||||Exact Binomial 95% Confidence Interval|||<0.001
82446904|NCT04018313|164602228|EQUIVALENCE|The similarity of PK between CT-P39 versus EU-approved Xolair, CT-P39 versus US-licensed Xolair, and EU-approved Xolair versus US-licensed Xolair was concluded if the 90% confidence intervals (CIs) of the ratios of geometric means of each comparison are entirely contained within 80% to 125% for AUC0-inf, AUC0-last, and Cmax.|Ratio of geometric least square means|91.82|||||TWO_SIDED|90.0|83.87|100.52||||||The statistical analysis of the log-transformed primary endpoints was based on an ANCOVA model with treatment as fixed effect and baseline body weight, total IgE level and sex as covariates.||100.52|83.87|
82412087|NCT00621530|164532500|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.94|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Power calculation assumed that all subjects would have an area of hypersensitivity surrounding the wound at 48 hours. We found that only 1 subject in the placebo group and 3 subjects in the ketorolac group had non-zero areas of hypersensitivity.||||=0.94
82412088|NCT00621530|164532501|SUPERIORITY||||||=|0.78|||||||ANOVA|Repeated measures ANOVA||||||=0.78
82412089|NCT00621530|164532502|SUPERIORITY||||||=|0.87|||||||ANOVA|Repeated measures ANOVA||||||=0.87
82412090|NCT00621530|164532503|SUPERIORITY||||||=|0.66|||||||ANOVA|Repeated measures ANOVA||||||=0.66
82412091|NCT00621530|164532504|SUPERIORITY||||||=|0.83|||||||ANOVA|Repeated measures ANOVA||||||=0.83
82412092|NCT03813654|164532505|OTHER|Mixed model analysis with post-hoc tests.|Mean Difference (Final Values)|90.0|STANDARD_DEVIATION|68.7|<|0.05|TWO_SIDED|||||A priori threshold was \<0.05.|Mixed Models Analysis||This is the difference between the control and 8-h Free Sleep Group.|||||<0.05
82412093|NCT03813654|164532510|SUPERIORITY|||||||0.09||||||The groups had unequal variances, so we adjusted for unequal variances when doing the t-test. The a priori threshold for statistical significance was p\<0.05.|t-test, 1 sided|Adjusted for unequal variances between the two groups.||We compared the PVT taken at the start of the final night shift between Group B and those in Group C who slept in the morning and had complete data. Our hypothesis was that Group B would have faster RTs.||||0.09
82412094|NCT01732692|164532527|NON_INFERIORITY_OR_EQUIVALENCE|The primary endpoint was analyzed by a non-inferiority test using the exact Farrington-Manning method. Non-inferiority of the two treatments was to be concluded if the lower end of the confidence interval of the difference the experimental treatment group (morning-only dose) - control treatment group (split dose) was above a non-inferiority margin of -0.15%.|Treatment Difference|0.0286|||<|0.001|ONE_SIDED|95.0|-0.097||||Exact Farrington - Manning||Treatment Difference is the difference in proportion of participants with successful colon cleansing between treatments -experimental vs. control||||-0.097|<0.001
82412095|NCT01155323|164532532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.21|0.23|||Mixed Models Analysis||Mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be superior to omafilcon A for comfort.||0.23|-0.21|
82412096|NCT01155323|164532533|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.19|0.25|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for vision.||0.25|-0.19|
82412097|NCT01155323|164532534|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.22|0.22|||||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for lens handling.||0.22|-0.22|
82412098|NCT01155323|164532535|NON_INFERIORITY_OR_EQUIVALENCE|Margin = +/-0.50|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be equivalent to omafilcon A for corneal staining.||0.01|-0.03|
82412099|NCT01155323|164532536|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.50|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.15|0.29|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be non-inferior to omafilcon A for quality perceptions.||0.29|-0.15|
82412100|NCT01155323|164532537|NON_INFERIORITY_OR_EQUIVALENCE|Margin = +/- 0.50|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus omafilcon A.|The alternative hypothesis was that etafilcon A would be equivalent to omafilcon A from limbal hyperemia.||0.06|-0.01|
82412101|NCT00671060|164532538|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.682|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||Rates of success were compared across study arms. The study was a separate, non-comparative efficacy study. In order to have 80% power (alpha=.05) to demonstrate that each misoprostol regimen was 95%, ± 5%, effective, we enrolled 73 women in each arm of the study, or 146 women total. The sample size also provided 80% power (alpha=.05) to detect a significant difference between treatments should 200μg prove 98% effective and 100μg prove 88% effective.||||<0.05
82412102|NCT00303186|164532544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_DEVIATION|7.03|<|0.0001|TWO_SIDED|95.0|2.4|5.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||5.10|2.40|<0.0001
82412103|NCT00303186|164532544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.72|STANDARD_DEVIATION|7.47|<|0.001|TWO_SIDED|95.0|1.65|5.78|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||5.78|1.65|<0.001
82412104|NCT00303186|164532544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_DEVIATION|4.1||0.518|TWO_SIDED|95.0|-1.5|0.76|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.76|-1.50|0.518
82412105|NCT00303186|164532545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.72|STANDARD_DEVIATION|27.89|<|0.0001|TWO_SIDED|95.0|12.38|23.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||23.07|12.38|<0.0001
82412106|NCT00303186|164532545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_DEVIATION|20.36|<|0.0001|TWO_SIDED|95.0|6.99|18.21|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||18.21|6.99|<0.0001
82446905|NCT04566692|164602247|NON_INFERIORITY|The bi-weekly treatment was considered non-inferior to the weekly treatment if the lower bound of the 90% CI was \> 0.8.|GLSM Ratio|1.035|||||TWO_SIDED|90.0|1.003|1.0685||||||Geometric least-squares means (GLSMs), GLSM ratio, and 90% CI of GLSM ratio were determined from a mixed-effect model for the log-transformed parameter value with treatment period (weekly or bi-weekly) as a fixed effect and participant as a random effect.||1.0685|1.0030|
82446906|NCT04566692|164602250|NON_INFERIORITY|The biweekly treatment was considered non-inferior to the weekly treatment if the lower bound of the 90% CI was \> 0.8.|GLSM Ratio|0.97|||||TWO_SIDED|90.0|0.9447|0.9957||||||GLSMs, GLSM ratio, and 90% CI of GLSM ratio were determined from a mixed-effect model for the log-transformed parameter value with treatment period (weekly or bi-weekly) as a fixed effect and participants as a random effect.||0.9957|0.9447|
82412107|NCT00303186|164532545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_DEVIATION|18.7||0.833|TWO_SIDED|95.0|-5.7|4.61|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||4.61|-5.70|0.833
82412108|NCT00303186|164532546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|STANDARD_DEVIATION|2.39|<|0.0001|TWO_SIDED|95.0|2.26|3.18|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||3.18|2.26|<0.0001
82412109|NCT00303186|164532546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|2.36|<|0.0001|TWO_SIDED|95.0|1.59|2.87|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.87|1.59|<0.0001
82412110|NCT00303186|164532546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_DEVIATION|2.03||0.309|TWO_SIDED|95.0|-0.83|0.27|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.27|-0.83|0.309
82412111|NCT00303186|164532548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_DEVIATION|11.75||0.004|TWO_SIDED|95.0|1.619|8.301|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||8.301|1.619|0.004
82412112|NCT00303186|164532549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.76|STANDARD_DEVIATION|18.8||0.015|TWO_SIDED|95.0|-12.155|-1.355|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-1.355|-12.155|0.015
82412113|NCT00303186|164532550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|7.41||0.676|TWO_SIDED|95.0|-1.666|2.546|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.546|-1.666|0.676
82412114|NCT00303186|164532551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.486|STANDARD_DEVIATION|2.96|<|0.0001|TWO_SIDED|95.0|0.918|2.05|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||2.05|0.918|<0.0001
82412115|NCT00303186|164532551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|3.64|<|0.001|TWO_SIDED|95.0|1.01|2.99|||t-test, 1 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||2.99|1.01|<0.001
82412116|NCT00303186|164532551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|3.32||0.223|TWO_SIDED|95.0|-0.35|1.46|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||1.46|-0.35|0.223
82412117|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33|STANDARD_DEVIATION|5.94|<|0.0001|TWO_SIDED|95.0|5.1|7.47|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: swollen joints and Month 12: swollen joints.||7.47|5.10|<0.0001
82412118|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|STANDARD_DEVIATION|6.35|<|0.0001|TWO_SIDED|95.0|4.48|7.92|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: swollen joints and Month 60: swollen joints.||7.92|4.48|<0.0001
82412119|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|2.09||0.479|TWO_SIDED|95.0|-0.36|0.76|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: swollen joints and Month 60: swollen joints.||0.76|-0.36|0.479
82412120|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.0|STANDARD_DEVIATION|11.16|<|0.0001|TWO_SIDED|95.0|6.86|11.13|||t-test, 1 sided|||Statistical analysis was carried out between categories, Baseline: tender joints and Month 12: tender joints.||11.13|6.86|<0.0001
82412121|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_DEVIATION|9.25|<|0.0001|TWO_SIDED|95.0|6.1|11.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: tender joints and Month 60: tender joints.||11.10|6.10|<0.0001
82412122|NCT00303186|164532552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|8.92||0.588|TWO_SIDED|95.0|-1.76|3.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: tender joints and Month 60: tender joints.||3.07|-1.76|0.588
82412123|NCT00303186|164532556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|11.29||0.33|TWO_SIDED|95.0|-1.3|3.82|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||3.82|-1.30|0.330
82412124|NCT00303186|164532556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.56|STANDARD_DEVIATION|32.28||0.449|TWO_SIDED|95.0|-33.37|16.26|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||16.26|-33.37|0.449
82412125|NCT00303186|164532556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|38.17||0.165|TWO_SIDED|95.0|-37.04|7.04|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||7.04|-37.04|0.165
82446907|NCT04033068|164602269|SUPERIORITY||||||=|0.2003|||||||Fisher-Freeman-Halton Test|||||||= 0.2003
82412126|NCT00303186|164532557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.18|STANDARD_DEVIATION|24.48|<|0.0001|TWO_SIDED|95.0|26.44|35.91|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||35.91|26.44|<0.0001
82446908|NCT04033068|164602270|SUPERIORITY||||||=|0.1448|||||||Fisher-Freeman-Halton Test|||||||= 0.1448
82412127|NCT00303186|164532557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.76|STANDARD_DEVIATION|23.24|<|0.0001|TWO_SIDED|95.0|22.42|35.1|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||35.10|22.42|<0.0001
82532287|NCT02293837|164761998|SUPERIORITY|||||||0.145||||||P-value comes from an analysis of covariance with outcome variable of change in avg insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.145
82532288|NCT02293837|164761998|SUPERIORITY|||||||0.033||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.033
82532289|NCT02293837|164761998|SUPERIORITY|||||||0.591||||||P-value comes from an analysis of covariance with outcome variable of change in avg insulin use per kg from baseline and covariates of treatment, baseline avg insulin use per kg, and age.|ANCOVA|||Week 52||||0.591
82532290|NCT02293837|164761998|SUPERIORITY|||||||0.81||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.810
82532291|NCT02293837|164761998|SUPERIORITY|||||||0.178||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 24||||0.178
82532292|NCT02293837|164761998|SUPERIORITY|||||||0.43||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 52||||0.430
82532293|NCT02293837|164761998|SUPERIORITY|||||||0.149||||||P-value comes from an analysis of covariance with outcome variable of change in average insulin use per kg from baseline and covariates of treatment, baseline average insulin use per kg, and age.|ANCOVA|||Week 104||||0.149
82532294|NCT02293837|164761999|SUPERIORITY|||||||0.103||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.103
82412128|NCT00303186|164532557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05|STANDARD_DEVIATION|24.6||0.538|TWO_SIDED|95.0|-8.7|4.6|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||4.60|-8.70|0.538
82412129|NCT00303186|164532558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.83|STANDARD_DEVIATION|19.6|<|0.0001|TWO_SIDED|95.0|30.04|37.63|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||37.63|30.04|<0.0001
82446909|NCT04033068|164602271|SUPERIORITY||||||=|0.9111|||||||Fisher-Freeman-Halton Test|||||||= 0.9111
82446910|NCT04033068|164602272|SUPERIORITY||||||=|1|||||||Fisher-Freeman-Halton Test|||||||= 1.0000
82532295|NCT02293837|164761999|SUPERIORITY|||||||0.452||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.452
82532296|NCT02293837|164761999|SUPERIORITY|||||||0.091||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was average insulin use per kg and covariates were treatment, study week, age, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept and study week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.091
82412130|NCT00303186|164532558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.04|STANDARD_DEVIATION|21.17|<|0.0001|TWO_SIDED|95.0|31.96|44.12|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||44.12|31.96|<0.0001
82446911|NCT04033068|164602274|SUPERIORITY||GMT Ratio|0.9|||=|0.999|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 0||5.5|0.2|= 0.9990
82446912|NCT04033068|164602274|SUPERIORITY||GMT Ratio|0.8|||=|0.9798|TWO_SIDED|95.0|0.1|5.2|||ANOVA|||Day 0||5.2|0.1|= 0.9798
82532297|NCT02293837|164762000|SUPERIORITY|||||||0.154||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.154
82532298|NCT02293837|164762000|SUPERIORITY|||||||0.193||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.193
82532299|NCT02293837|164762000|SUPERIORITY|||||||0.397||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.397
82532300|NCT02293837|164762000|SUPERIORITY|||||||0.125||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.125
82532301|NCT02293837|164762000|SUPERIORITY|||||||0.705||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.705
82532302|NCT02293837|164762000|SUPERIORITY|||||||0.378||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.378
82532303|NCT02293837|164762000|SUPERIORITY|||||||0.035||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 24||||0.035
82532304|NCT02293837|164762000|SUPERIORITY|||||||0.262||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 52||||0.262
82532305|NCT02293837|164762000|SUPERIORITY|||||||0.338||||||P-value comes from an analysis of covariance with outcome variable of change in HbA1c from baseline and covariates of treatment, baseline HbA1c, and age.|ANCOVA|||Week 104||||0.338
82446913|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.2|||=|0.9958|TWO_SIDED|95.0|0.1|10.1|||ANOVA|||Day 0||10.1|0.1|= 0.9958
82446914|NCT04033068|164602274|SUPERIORITY||GMT Ratio|0.8|||=|0.9935|TWO_SIDED|95.0|0.1|5.5|||ANOVA|||Day 0||5.5|0.1|= 0.9935
82412131|NCT00303186|164532558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38|STANDARD_DEVIATION|17.59||0.343|TWO_SIDED|95.0|-2.62|7.38|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||7.38|-2.62|0.343
82412132|NCT00303186|164532559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.18|STANDARD_DEVIATION|27.56|<|0.0001|TWO_SIDED|95.0|25.88|36.49|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||36.49|25.88|<0.0001
82412133|NCT00303186|164532559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.8|STANDARD_DEVIATION|25.89|<|0.0001|TWO_SIDED|95.0|21.52|36.09|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||36.09|21.52|<0.0001
82412134|NCT00303186|164532559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|STANDARD_DEVIATION|22.77||0.301|TWO_SIDED|95.0|-9.74|3.07|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||3.07|-9.74|0.301
82412135|NCT00303186|164532560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.21|STANDARD_DEVIATION|123.2|<|0.0001|TWO_SIDED|95.0|2.01|50.4|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 12.||50.40|2.01|<0.0001
82412136|NCT00303186|164532560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.19|STANDARD_DEVIATION|18.3|<|0.0001|TWO_SIDED|95.0|7.81|18.57|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 60.||18.57|7.81|<0.0001
82412137|NCT00303186|164532560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31|STANDARD_DEVIATION|14.07||0.132|TWO_SIDED|95.0|-6.4|1.77|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Month 12 and Month 60.||1.77|-6.40|0.132
82412138|NCT00303186|164532561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.26|STANDARD_DEVIATION|150.1|<|0.0005|TWO_SIDED|95.0|-13.52|46.04|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 12.||46.04|-13.52|<0.0005
82412139|NCT00303186|164532561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.81|STANDARD_DEVIATION|100.25|<|0.0001|TWO_SIDED|95.0|22.33|83.29|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Baseline and Month 60.||83.29|22.33|<0.0001
82412140|NCT00303186|164532561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.4|STANDARD_DEVIATION|147.25||0.034|TWO_SIDED|95.0|-10.84|77.64|||Wilcoxon (Mann-Whitney)|||Statistical analysis was carried out between categories, Month 12 and Month 60.||77.64|-10.84|0.034
82412141|NCT00303186|164532563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_DEVIATION|0.66|<|0.0001|TWO_SIDED|95.0|0.35|0.62|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||0.62|0.35|<0.0001
82412142|NCT00303186|164532563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_DEVIATION|0.56|<|0.0001|TWO_SIDED|95.0|0.26|0.56|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||0.56|0.26|<0.0001
82412143|NCT00303186|164532563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_DEVIATION|0.61||0.6|TWO_SIDED|95.0|-0.24|0.14|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.14|-0.24|0.600
82412144|NCT00303186|164532564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.31|<|0.0001|TWO_SIDED|95.0|0.18|0.3|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||0.30|0.18|<0.0001
82412145|NCT00303186|164532564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_DEVIATION|0.34|<|0.0001|TWO_SIDED|95.0|-0.31|-0.12|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-0.12|-0.31|<0.0001
82412146|NCT00303186|164532564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.27||0.789|TWO_SIDED|95.0|-0.08|0.06|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||0.06|-0.08|0.789
82412147|NCT00303186|164532565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.4|STANDARD_DEVIATION|25.0|<|0.0001|TWO_SIDED|95.0|14.59|24.22|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 12.||24.22|14.59|<0.0001
82412148|NCT00303186|164532565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|STANDARD_DEVIATION|22.08||0.0001|TWO_SIDED|95.0|-18.77|-6.59|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline and Month 60.||-6.59|-18.77|0.0001
82412149|NCT00303186|164532565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.85|STANDARD_DEVIATION|22.22||0.115|TWO_SIDED|95.0|-1.21|10.92|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12 and Month 60.||10.92|-1.21|0.115
82412150|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|STANDARD_DEVIATION|10.1|<|0.0001|TWO_SIDED|95.0|-10.34|-4.47|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: physical component score and Month 12: physical component score.||-4.47|-10.34|<0.0001
82412151|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94|STANDARD_DEVIATION|9.13|<|0.0001|TWO_SIDED|95.0|-8.56|-3.32|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: physical component score and Month 60: physical component score.||-3.32|-8.56|<0.0001
82412152|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|STANDARD_DEVIATION|8.83||0.308|TWO_SIDED|95.0|-1.19|3.68|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: physical component score and Month 60: physical component score.||3.68|-1.19|0.308
82412153|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_DEVIATION|8.51||0.589|TWO_SIDED|95.0|-3.14|1.8|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: mental component score and Month 12: mental component score.||1.80|-3.14|0.589
82412154|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.59|STANDARD_DEVIATION|12.29||0.003|TWO_SIDED|95.0|-9.12|-2.06|||t-test, 2 sided|||Statistical analysis was carried out between categories, Baseline: mental component score and Month 60: mental component score.||-2.06|-9.12|0.003
82412155|NCT00303186|164532566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_DEVIATION|12.8||0.002|TWO_SIDED|95.0|-9.23|-2.18|||t-test, 2 sided|||Statistical analysis was carried out between categories, Month 12: mental component score and Month 60: mental component score.||-2.18|-9.23|0.002
82446915|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.3|||=|0.9852|TWO_SIDED|95.0|0.2|10.7|||ANOVA|||Day 0||10.7|0.2|= 0.9852
82446916|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.6|||=|0.944|TWO_SIDED|95.0|0.2|14.4|||ANOVA|||Day 0||14.4|0.2|= 0.9440
82446917|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.2|||=|0.9943|TWO_SIDED|95.0|0.2|5.5|||ANOVA|||Day 28||5.5|0.2|= 0.9943
82446918|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.0|||=|0.9999|TWO_SIDED|95.0|0.2|5.1|||ANOVA|||Day 28||5.1|0.2|= 0.9999
82446919|NCT04033068|164602274|SUPERIORITY||GMT Ratio|2.2|||=|0.6476|TWO_SIDED|95.0|0.4|14.3|||ANOVA|||Day 28||14.3|0.4|= 0.6476
82446920|NCT04033068|164602274|SUPERIORITY||GMT Ratio|0.8|||=|0.9911|TWO_SIDED|95.0|0.2|4.3|||ANOVA|||Day 28||4.3|0.2|= 0.9911
82446921|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.9|||=|0.7647|TWO_SIDED|95.0|0.3|12.0|||ANOVA|||Day 28||12.0|0.3|= 0.7647
82446922|NCT04033068|164602274|SUPERIORITY||GMT Ratio|2.3|||=|0.6447|TWO_SIDED|95.0|0.3|15.8|||ANOVA|||Day 28||15.8|0.3|= 0.6447
82446923|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.3|||=|0.9638|TWO_SIDED|95.0|0.3|5.3|||ANOVA|||Day 56||5.3|0.3|= 0.9638
82446924|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.7|||=|0.7837|TWO_SIDED|95.0|0.4|7.7|||ANOVA|||Day 56||7.7|0.4|= 0.7837
82446925|NCT04033068|164602274|SUPERIORITY||GMT Ratio|2.9|||=|0.3427|TWO_SIDED|95.0|0.5|15.3|||ANOVA|||Day 56||15.3|0.5|= 0.3427
82446926|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.3|||=|0.9578|TWO_SIDED|95.0|0.3|5.8|||ANOVA|||Day 56||5.8|0.3|= 0.9578
82576419|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3532||||0.017|TWO_SIDED|95.0|0.6|6.11|||Mixed Models Analysis|||QLQ-C30 cognitive functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||6.11|0.60|0.0170
82576420|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5165|||<|0.0001|TWO_SIDED|95.0|4.57|10.46|||Mixed Models Analysis|||QLQ-C30 emotional functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||10.46|4.57|<0.0001
82446927|NCT04033068|164602274|SUPERIORITY||GMT Ratio|2.2|||=|0.5637|TWO_SIDED|95.0|0.4|11.7|||ANOVA|||Day 56||11.7|0.4|= 0.5637
82446928|NCT04033068|164602274|SUPERIORITY||GMT Ratio|1.7|||=|0.8471|TWO_SIDED|95.0|0.3|9.6|||ANOVA|||Day 56||9.6|0.3|= 0.8471
82446929|NCT02540265|164602294|OTHER||Effect Size|1.01|||||TWO_SIDED|||||||||||||
82446930|NCT02540265|164602294|OTHER||Effect Size|0.87|||||TWO_SIDED|||||||||||||
82446931|NCT02540265|164602295|SUPERIORITY|||||||0.0049|||||||t-test, 2 sided|||||||0.0049
82446932|NCT02540265|164602295|SUPERIORITY|||||||0.0076|||||||t-test, 2 sided|||||||0.0076
82446933|NCT02540265|164602296|SUPERIORITY||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, SPID 0-24, SPID 12-24, SPID 12-48, and SPID 24-48|t-test, 2 sided|||||||<0.05
82446934|NCT02540265|164602296|SUPERIORITY||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, SPID 0-24, SPID 12-24, SPID 12-48, and SPID 24-48|t-test, 2 sided|||||||<0.05
82446935|NCT04836247|164602298|SUPERIORITY||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
82446936|NCT04836247|164602299|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
82446937|NCT04836247|164602300|SUPERIORITY||Mean Difference (Final Values)|2.61|||<|0.001|TWO_SIDED|||||\<.001 is calculated p-value in SPSS.|t-test, 2 sided|||||||<.001
82446938|NCT04836247|164602301|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.74|TWO_SIDED||||||t-test, 2 sided|||||||0.74
82446939|NCT04836247|164602302|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.76|TWO_SIDED||||||t-test, 2 sided|||||||0.76
82446940|NCT04836247|164602303|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
82446941|NCT04016077|164602304|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Geometric Means|118.5|||||TWO_SIDED|90.0|87.96|159.64|||ANOVA|||||159.64|87.96|
82446942|NCT04016077|164602305|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Geometric Means|104.0|||||TWO_SIDED|90.0|74.48|145.23|||ANOVA|||||145.23|74.48|
82446943|NCT00649428|164602448|SUPERIORITY_OR_OTHER|||||||1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||.00001
82446944|NCT00649428|164602451|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||<.00001
82446945|NCT02702180|164602470|SUPERIORITY||Least Square Means (LSmean)|-4.6||||0.1688|TWO_SIDED|95.0|-11.1|2.0|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|Primary endpoint was evaluated using analysis of covariance with treatment, whole lung lavage within 2 months before baseline, and geographic region as factors, and baseline values as covariates. To control type I error, key secondary endpoints were analyzed using a testing hierarchy wherein once daily molgramostim and placebo was compared and if statistical significance was reached, evaluation of intermittent molgramostim and placebo would proceed.||2.0|-11.1|0.1688
82446946|NCT02702180|164602470|SUPERIORITY||Least Square Means (LSmean)|-2.8||||0.3968|TWO_SIDED|95.0|-9.3|3.7|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24.|||3.7|-9.3|0.3968
82446947|NCT02702180|164602471|SUPERIORITY||Least Square Means (LSmean)|20.6||||0.3159|TWO_SIDED|95.0|-19.8|61.0|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|||61.0|-19.8|0.3159
82576421|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.4035|||<|0.0001|TWO_SIDED|95.0|7.48|13.32|||Mixed Models Analysis|||QLQ-C30 physical functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||13.32|7.48|<0.0001
82412156|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0145||||||Adjusted for multiplicity.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0145
82412157|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0148||||||Adjusted for multiplicity.|MCP-Mod linear in log model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0148
82412158|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0089||||||Adjusted for multiplicity.|MCP-Mod Emax model fit|Model assumption: 20% of the maximum effect is achieved at 2 mg of BI 425809 .||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0089
82412159|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0038||||||Adjusted for multiplicity.|MCP-Mod Sigmoid Emax model fit|Model assumption: 25% of the maximum effect is achieved at 5 mg and 75% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0038
82412160|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.0085||||||Adjusted for multiplicity.|MCP-Mod logistic model fit|Model assumption: 10% of the maximum effect is achieved at 5 mg and 50% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0085
82426465|NCT00565409|164561885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|3.2|9.0||P-value from Cochran-Mantel-Haenszel(CMH) test of general association, testing treatment effect on response. P-value and Odds Ratio (OR) stratified by geographic region.|Cochran-Mantel-Haenszel|Loss of efficacy (LOE) imputation defined as LOE drop-outs were treated as non-responders/all other participants had LOCF applied as primary analysis.||Sample size estimated based on moderate/severe rheumatoid arthritis(RA) trial. Study design included only moderate RA participants, thus a low disease activity estimate of 85% (ETN+MTX) vs 70% (MTX only) assumed, required 175 randomized participants in 3 treatments for a 90% power and Type I error of 0.05 to reject the null hypothesis of no ETN+MTX vs MTX only differences. More participants qualified for Period 2 than expected, Period 2 sample size roughly 15% larger than protocol-specified.||9.0|3.2|<0.0001
82446948|NCT02702180|164602471|SUPERIORITY||Least Square Means (LSmean)|5.6||||0.7809|TWO_SIDED|95.0|-34.1|45.2|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24.|||45.2|-34.1|0.7809
82446949|NCT02702180|164602472|SUPERIORITY||Least Square Means (LSmean)|-7.6||||0.0103|TWO_SIDED|95.0|-13.4|-1.8|||ANCOVA||The estimated value represents the estimated difference between once daily molgramostim and placebo groups in LSmean change from baseline to week 24.|||-1.8|-13.4|0.0103
82446950|NCT02702180|164602472|SUPERIORITY||Least Square Means (LSmean)|-7.0||||0.0173|TWO_SIDED|95.0|-12.7|-1.3|||ANCOVA||The estimated value represents the estimated difference between intermittent molgramostim and placebo groups in LSmean change from baseline to week 24..|||-1.3|-12.7|0.0173
82576422|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.5513|||<|0.0001|TWO_SIDED|95.0|11.29|19.81|||Mixed Models Analysis|||QLQ-C30 role functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||19.81|11.29|<0.0001
82446951|NCT02702180|164602473|SUPERIORITY||Risk Ratio (RR)|0.284||||0.1918|TWO_SIDED|95.0|0.043|1.881|||Negative binomial regression||The estimated value represents the RR between once daily molgramostim and placebo groups.|||1.881|0.043|0.1918
82446952|NCT02702180|164602473|SUPERIORITY||Risk Ratio (RR)|0.367||||0.2421|TWO_SIDED|95.0|0.068|1.968|||Negative binomial regression||The estimated value represents the RR between intermittent molgramostim and placebo groups.|||1.968|0.068|0.2421
82446953|NCT02893917|164602483|SUPERIORITY||Hazard Ratio (HR)|0.617||||0.0359|TWO_SIDED|95.0|0.392|0.969|||Regression, Cox|||||0.969|0.392|0.0359
82446954|NCT02893917|164602484|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.705|2.399||no p value provided|Regression, Cox|||||2.399|0.705|
82446955|NCT02893917|164602487|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.272|1.504|||Regression, Cox|||HRD positive ONLY||1.504|0.272|
82446956|NCT02893917|164602487|OTHER||Hazard Ratio (HR)|0.777|||||TWO_SIDED|95.0|0.448|1.348|||Regression, Cox|||HRD negative ONLY||1.348|0.448|
82446957|NCT03392649|164602506|SUPERIORITY|||||||0.6|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
82446958|NCT03392649|164602507|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||0.34
82446959|NCT03392649|164602508|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82446960|NCT03392649|164602509|SUPERIORITY|||||||0.09|||||||Fisher Exact|||||||0.09
82446961|NCT03392649|164602510|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.16
82446962|NCT03392649|164602511|SUPERIORITY|||||||0.67|||||||Fisher Exact|||||||0.67
82576423|NCT01154140|164862436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7641|||<|0.0001|TWO_SIDED|95.0|4.69|12.84|||Mixed Models Analysis|||QLQ-C30 social functioning: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||12.84|4.69|<0.0001
82576424|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.4976|||<|0.0001|TWO_SIDED|95.0|-18.03|-8.97|||Mixed Models Analysis|||QLQ-C30 appetite loss: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-8.97|-18.03|<0.0001
82446963|NCT03392649|164602512|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82446964|NCT03392649|164602513|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82446965|NCT03927144|164602549|SUPERIORITY||Odds Ratio (OR)|6.48|||<|0.0001|TWO_SIDED|95.0|4.28|9.82|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (no. of prior prophylactic migraine treatment failures=1 vs 2) after missing data were imputed as non-response.||||9.82|4.28|<0.0001
82446966|NCT03927144|164602550|SUPERIORITY||Odds Ratio (OR)|11.27|||<|0.0001|TWO_SIDED|95.0|7.53|16.87|||Cochran-Mantel-Haenszel|Adjusted for number of prior prophylactic migraine treatment failures=1 vs 2 after missing data were imputed as non-response.||||16.87|7.53|<0.0001
82446967|NCT03927144|164602551|SUPERIORITY||Treatment difference|-2.13|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.74|-1.52|||Linear mixed effects model||AMG334 70 mg/140 mg vs Oral Prophylactic|Comparison of mean change from baseline in monthly migraine days at Week 52||-1.52|-2.74|<0.001
82446968|NCT03927144|164602552|SUPERIORITY||Odds Ratio (OR)|13.75|||<|0.001|TWO_SIDED|95.0|9.08|20.83|||Cochran-Mantel-Haenszel|Adjusted for number of prior prophylactic migraine treatment failures=1 vs 2 after missing data were imputed as non-response.||||20.83|9.08|<0.001
82446969|NCT01463072|164602561|OTHER||Percent|35.0|||||TWO_SIDED|95.0|21.0|52.0|||||35% of participants were responders (CR+PR).|||52|21|
82446970|NCT01463072|164602563|SUPERIORITY||Odds Ratio (OR)|5.8||||0.01|TWO_SIDED|95.0|1.3|33.1|||Fisher Exact||Ratio is intermediate/high toxicity risk over low toxicity risk|CARG chemotherapy toxicity risk predictive of chemotherapy toxicity (grade 3)||33.1|1.3|0.01
82446971|NCT01463072|164602563|SUPERIORITY||Ratio of group means|1.38||||0.02|TWO_SIDED|95.0|1.04|1.8|||t-test, 2 sided||Ratio is dose reduction over no dose reduction.|CARG chemotherapy toxicity risk predictive of dose reduction due to chemotherapy toxicity||1.80|1.04|0.02
82446972|NCT01452919|164602580|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.73|STANDARD_ERROR_OF_MEAN|1.25||0.17||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.170
82446973|NCT01452919|164602581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.8|STANDARD_ERROR_OF_MEAN|0.5||0.109||95.0||||Two-sided p-value. P-value is for Week 0.5.|Type 3 sums of squares|||||||0.109
82446974|NCT01452919|164602581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.4|STANDARD_ERROR_OF_MEAN|0.4||0.372||95.0||||Two-sided p-value. P-value is for Week 1.|Type 3 sums of squares|||||||0.372
82446975|NCT01452919|164602581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.555||95.0||||Two-sided p-value. P-value is for Week 1.5.|Type 3 sums of squares|||||||0.555
82446976|NCT01452919|164602581|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.806||95.0||||Two-sided p-value. P-value is for Week 2.|Type 3 sums of squares|||||||0.806
82446977|NCT01452919|164602582|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.762||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.762
82446978|NCT01452919|164602583|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.506||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.506
82446979|NCT01452919|164602584|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.515||95.0||||Two-sided p-value.|Type 3 sums of squares|||||||0.515
82446980|NCT01452919|164602587|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.966||95.0||||One-sided p-value.|Type 3 sums of squares|||||||0.966
82446981|NCT01452919|164602588|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.92|STANDARD_ERROR_OF_MEAN|0.73||0.895||95.0||||One-sided p-value.|Type 3 sums of squares|||||||0.895
82446982|NCT03002311|164602634|SUPERIORITY|We conducted a conditional power analysis 120 days after 6 months of enrollment. We determined the effect size based on the difference of proportions of follow-up attendance in the intervention and control arms. We used the effect size of 20% to estimate the sample size needed for a two-sided alpha of 0.05 at 90% power and a 1:1 ratio to require 266 participants. Loss to follow-up was estimated to be 20%, increasing target enrollment to 334 total participants.|||||<|0.001|||||||Gray's test|We compared the cumulative incidence function.||||||<0.001
82446983|NCT03002311|164602635|SUPERIORITY|This was a secondary analysis so no power analysis was done.||||||0.8||||||We used a two-sided alpha of 0.05 to determine significance.|Gray's test|We compared the cumulative incidence functions.||||||0.8
82412161|NCT02832037|164532573|OTHER|Mixed-effects Model Repeated Measures (MMRM) estimates were used as input for the MCP-Mod. MMRM included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.||||||0.228||||||Adjusted for multiplicity.|MCP-Mod beta model fit|Assumption:75% of maximum (max) effect at 2mg, 87.5% of max effect at 5mg,25% of max effect at 25mg,max effect at 10mg BI 425809, scalar parameter=26.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.2280
82412162|NCT02832037|164532573|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|0.28|STANDARD_ERROR_OF_MEAN|0.8205||0.733|TWO_SIDED|95.0|-1.332|1.892||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.892|-1.332|0.7330
82412163|NCT02832037|164532573|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|0.137|STANDARD_ERROR_OF_MEAN|0.8074||0.8655|TWO_SIDED|95.0|-1.45|1.724||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.724|-1.450|0.8655
82412164|NCT02832037|164532573|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|1.982|STANDARD_ERROR_OF_MEAN|0.7875||0.0122|TWO_SIDED|95.0|0.434|3.53||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||3.530|0.434|0.0122
82412165|NCT02832037|164532573|OTHER|Mixed Model Repeated Measures included fixed, categorical factors of treatment, analysis visit as repeated measures per subject, and treatment by analysis visit interaction, continuous fixed covariate of baseline value and baseline value by analysis visit interaction, subject as random effect, covariance structure= Unstructured.|Difference of adjusted means|1.73|STANDARD_ERROR_OF_MEAN|0.7884||0.0287|TWO_SIDED|95.0|0.181|3.28||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger was used to estimate denominator degrees of freedom.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||3.280|0.181|0.0287
82412166|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.066||||||P-value is considered nominal.|MCP-Mod linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0660
82412167|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.1619||||||P-value is considered nominal.|MCP-Mod linear in log model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.1619
82412168|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0832||||||P-value is considered nominal.|MCP-Mod Emax model fit|Model assumption: 20% of the maximum effect is achieved at 2 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0832
82412169|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0625||||||P-value is considered nominal.|MCP-Mod Sigmoid Emax model fit|Model assumption: 25% of the maximum effect is achieved at 5 mg and 75% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0625
82412170|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.0768||||||P-value is considered nominal.|MCP-Mod logistic model fit|Model assumption: 10% of the maximum effect is achieved at 5 mg and 50% of the maximum effect is achieved at 10 mg of BI 425809.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.0768
82532306|NCT02293837|164762001|SUPERIORITY|||||||0.493||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.493
82532307|NCT02293837|164762001|SUPERIORITY|||||||0.659||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.659
82412171|NCT02832037|164532574|OTHER|Analysis of covariance (ANCOVA) model estimates were used as input for the MCP-Mod. ANCOVA included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.||||||0.7479||||||P-value is considered nominal.|MCP-Mod beta model fit|Assumption:75% of maximum (max) effect at 2mg, 87.5% of max effect at 5mg,25% of max effect at 25mg,max effect at 10mg BI 425809, scalar parameter=26.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 425809 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, linear in log, Emax, Sigmoid Emax, logistic, and beta) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.7479
82412172|NCT02832037|164532574|OTHER||Difference of adjusted means|1.178|STANDARD_ERROR_OF_MEAN|0.7306||0.11|TWO_SIDED|95.0|-0.258|2.613||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||2.613|-0.258|0.11
82412173|NCT02832037|164532574|OTHER||Difference of adjusted means|-0.837|STANDARD_ERROR_OF_MEAN|0.7224||0.25|TWO_SIDED|95.0|-2.257|0.582||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||0.582|-2.257|0.25
82412174|NCT02832037|164532574|OTHER||Difference of adjusted means|-0.263|STANDARD_ERROR_OF_MEAN|0.7152||0.71|TWO_SIDED|95.0|-1.669|1.142||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||1.142|-1.669|0.71
82412175|NCT02832037|164532574|OTHER||Difference of adjusted means|-1.072|STANDARD_ERROR_OF_MEAN|0.7125||0.13|TWO_SIDED|95.0|-2.473|0.328||P-value is considered nominal.|ANCOVA|Analysis of covariance (ANCOVA) model included treatment as fixed categorical factor, and baseline score as continuous fixed covariate.|Difference was calculated as BI 425809 - placebo.|Secondary analysis. No formal hypotheses were tested.||0.328|-2.473|0.13
82412176|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.957|||||TWO_SIDED|95.0|0.903|0.986|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial confidence interval (CI) were determined.|||0.986|0.903|
82412177|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.964|||||TWO_SIDED|95.0|0.908|0.986|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.986|0.908|
82446984|NCT04856904|164602741|SUPERIORITY||Bilateral difference|-3.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.4|-2.0|||Student's t-test for paired samples|||||-2|-4.4|< 0.0001
82412178|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.874|||||TWO_SIDED|95.0|0.801|0.928|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.928|0.801|
82412179|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.892|||||TWO_SIDED|95.0|0.804|0.943|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.943|0.804|
82412180|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.839|||||TWO_SIDED|95.0|0.76|0.9|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.900|0.760|
82446985|NCT04856904|164602742|SUPERIORITY||Bilateral difference|0.0|STANDARD_ERROR_OF_MEAN|0.14|=|0.9476|TWO_SIDED|95.0|-0.3|0.3|||Student's t-test for paired samples|||Week 1: Trifarotene 50 mcg/g, vehicle cream||0.3|-0.3|= 0.9476
82446986|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25|=|0.0248|TWO_SIDED|95.0|-1.1|-0.1|||Student's t-test for paired samples|||Week 2: Trifarotene 50 mcg/g, vehicle cream||-0.1|-1.1|= 0.0248
82532308|NCT02293837|164762001|SUPERIORITY|||||||0.407||||||P-value is for group difference in time trends from a longitudinal mixed effects model. Response variable was HbA1c and covariates were treatment, study week, spline week (at week 4), age, treatment\*spline week, treatment\*study week, age\*study week.|Longitudinal mixed model|Random within-subject effects for intercept, study week, and spline week were included assuming an unstructured covariance matrix.||Screening to Week 104||||0.407
82532309|NCT02293837|164762002|SUPERIORITY|||||||0.634||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.634
82412181|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.874|||||TWO_SIDED|95.0|0.776|0.933|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.933|0.776|
82446987|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-0.8|STANDARD_ERROR_OF_MEAN|0.29|=|0.0072|TWO_SIDED|95.0|-1.4|-0.2|||Student's t-test for paired samples|||Week 4: Trifarotene 50 mcg/g, vehicle cream||-0.2|-1.4|= 0.0072
82446988|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-1.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.1|-0.7|||Student's t-test for paired samples|||Week 8: Trifarotene 50 mcg/g, vehicle cream||-0.7|-2.1|< 0.0001
82532310|NCT02293837|164762002|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||1.000
82412182|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.885|||||TWO_SIDED|95.0|0.811|0.937|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding exact binomial CI were determined.|||0.937|0.811|
82412183|NCT01401166|164532578|SUPERIORITY_OR_OTHER||Estimated Proportion|0.911|||||TWO_SIDED|95.0|0.827|0.956|||||The estimated proportion of participants who preferred SC Herceptin and the corresponding CI were determined using logistic regression with factors of previous Herceptin status and treatment.|||0.956|0.827|
82446989|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-2.1|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-2.9|-1.3|||Student's t-test for paired samples|||Week 12: Trifarotene 50 mcg/g, vehicle cream||-1.3|-2.9|< 0.0001
82446990|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-2.7|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|-3.8|-1.6|||Student's t-test for paired samples|||Week 16: Trifarotene 50 mcg/g, vehicle cream||-1.6|-3.8|< 0.0001
82446991|NCT04856904|164602742|SUPERIORITY||Bilateral difference|-2.5|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-3.5|-1.5|||Student's t-test for paired samples|||Week 20: Trifarotene 50 mcg/g, vehicle cream||-1.5|-3.5|< 0.0001
82446992|NCT00454584|164602759|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
82446993|NCT00454584|164602759|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||To control the overall type I error rate at 0.05 level in the primary endpoint analysis, a step-down test procedure was applied. First, ustekinumab 90 mg and etanercept were compared. Then ustekinumab 45 mg and etanercept would be compared.|Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05. Sample Size: Assuming the PASI 75 response rates of ustekinumab 90 mg, 45 mg, etanercept are 65%, 64%, and 50% , respectively, with 325 participants each in the ustekinumab 90 mg and etanercept groups, the power to detect a treatment difference is 97%. With 200 participants in the ustekinumab 45 mg group, the complete power to further detect a treatment difference was 87%.||||0.012
82446994|NCT00454584|164602760|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
82446995|NCT00454584|164602760|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05.||||<0.001
82446996|NCT00454584|164602761|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||||||<0.001
82532311|NCT02293837|164762002|SUPERIORITY|||||||0.329||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.329
82532312|NCT02293837|164762002|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||1.000
82412184|NCT04383132|164532586|OTHER|||||||0.388||||||Independent t-test was used to compare mean CIT between two groups. The statistical significance level was accepted as p\<0.05|t-test, 2 sided|||In sample size calculation, CIT and SD were used. It was found that 326 patients (163 per group) were required to detect a 60-second difference in CIT (SD 192 secs), with 80% power and two-sided alpha 0.05. The frequency of the auxiliary maneuvers was calculated that 324 patients were required for a 20% reduction in the auxiliary maneuvers. In case of becoming lost to follow up and withdrawal, the number of patients was expanded by 5%, and a total of 346 patients, were included in the study.||||0.388
82446997|NCT00454584|164602761|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|The test was stratified by baseline weight \[\<90kg vs. ≥ 90 kg).||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and etanercept at an overall significant level of 0.05.||||<0.001
82446998|NCT01716104|164602763|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
82446999|NCT01716104|164602764|SUPERIORITY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
82447000|NCT01716104|164602765|SUPERIORITY|||||||0.0008|||||||Mixed Models Analysis|||||||0.0008
82532313|NCT02293837|164762002|SUPERIORITY|||||||0.847||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 52||||0.847
82447001|NCT01716104|164602766|SUPERIORITY|||||||0.0011|||||||Mixed Models Analysis|||||||0.0011
82447002|NCT01716104|164602767|SUPERIORITY|||||||0.0054|||||||Mixed Models Analysis|||||||0.0054
82447003|NCT01716104|164602768|SUPERIORITY|||||||0.0437|||||||Mixed Models Analysis|||||||0.0437
82447004|NCT01716104|164602769|SUPERIORITY|||||||0.0862|||||||Mixed Models Analysis|||||||0.0862
82447005|NCT01716104|164602770|SUPERIORITY|||||||0.0621|||||||Mixed Models Analysis|||||||0.0621
82447006|NCT01716104|164602771|SUPERIORITY|||||||0.0142|||||||Mixed Models Analysis|||||||0.0142
82447007|NCT03429543|164602787|OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.33||0.2935|TWO_SIDED|95.0|-0.99|0.3|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 1 (TG1) consisting of Placebo, Linagliptin 5 mg and Empagliflozin pooled Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||0.30|-0.99|0.2935
82532314|NCT02293837|164762002|SUPERIORITY|||||||0.858||||||P-value is from comparing the number of participants with a hypoglycemic event between the two treatment groups using Fisher's exact test.|Fisher Exact|||Baseline to Week 104/End of Study||||0.858
82532315|NCT02293837|164762003|SUPERIORITY|||||||0.296||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.296
82532316|NCT02293837|164762003|SUPERIORITY|||||||0.145||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.145
82532317|NCT02293837|164762003|SUPERIORITY|||||||0.027||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.027
82412185|NCT04383132|164532587|OTHER|||||||0.069||||||For the comparison of ancillary maneuvers Pearson chi-square test, Fisher's exact test, and Fisher-Freeman-Halton exact test were used.|Chi-squared|||||||0.069
82412186|NCT04383132|164532588|OTHER|||||||0.487||||||Independent t-test was used to compare mean CIL between two groups.|t-test, 2 sided|||||||0.487
82412187|NCT04383132|164532589|OTHER|||||||0.822|||||||Chi-squared|||||||0.822
82412188|NCT04383132|164532590|OTHER|||||||0.016|||||||Chi-squared|||||||0.016
82412189|NCT04383132|164532591|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82412190|NCT04383132|164532592|OTHER|||||||0.184|||||||Fisher Exact|||||||0.184
82412191|NCT00435942|164532625|NON_INFERIORITY_OR_EQUIVALENCE|The proportion of subjects in the Effectiveness sample who were free from major device-related AEs at 1-year post-procedure was compared against a performance goal of 0.80 using a 1-sided z-test (normal approximation to the binomial) at an alpha level of 0.025. Rejection of the null hypothesis would provide evidence that this performance goal (proportion-free greater than 0.80) was met.|Proportion free|0.97|||>|0.8|ONE_SIDED|97.5|0.93||||1-sided z-test|97.5% 1-sided confidence interval||The proportion of subjects in the Effectiveness sample who were free from major device-related AEs at 1-year post-procedure was compared against a performance goal of 0.80 using a 1-sided z-test (normal approximation to the binomial) at an alpha level of 0.025. Rejection of the null hypothesis would provide evidence that this performance goal (proportion-free greater than 0.80) was met.|||.93|>0.80
82412192|NCT02320396|164532637|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.14|-0.51|||cLDA model|||The LS mean change from BL to post BL (average score of 2 weeks) in TNSS was estimated using a constrained longitudinal data analysis (cLDA) model, where both BL and post-BL measurements (average score of 2 weeks) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value.||-0.51|-1.14|<0.001
82412193|NCT02320396|164532640|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.82|||<|0.001|TWO_SIDED|95.0|-1.14|-0.5|||cLDA model|||"Change from BL in TNSS at Week 1: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in TNSS was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.50|-1.14|<0.001
82412194|NCT02320396|164532640|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.84|||<|0.001|TWO_SIDED|95.0|-1.23|-0.46|||cLDA model|||"Change from BL in TNSS at Week 2: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in TNSS was estimated using a cLDA model, where both BL and post- BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.46|-1.23|<0.001
82412195|NCT02320396|164532641|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL to Week 1 in Sneezing: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
82412196|NCT02320396|164532641|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.21|||<|0.001|TWO_SIDED|95.0|-0.32|-0.1|||cLDA model|||"Change from BL to Week 1 in Rhinorrhea: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.10|-0.32|<0.001
82412197|NCT02320396|164532641|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.008|TWO_SIDED|95.0|-0.16|-0.02|||cLDA model|||"Change from BL to Week 1 in Nasal Congestion: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.02|-0.16|0.008
82576425|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4336||||0.057|TWO_SIDED|95.0|-9.0|0.13|||Mixed Models Analysis|||QLQ-C30 constipation: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||0.13|-9.00|0.0570
82412198|NCT02320396|164532641|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.27|||<|0.001|TWO_SIDED|95.0|-0.38|-0.15|||cLDA model|||"Change from BL to Week 1 in Nasal Itching: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.38|<0.001
82412199|NCT02320396|164532642|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.36|-0.13|||cLDA model|||"Change from BL to Week 2 in Sneezing: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.13|-0.36|<0.001
82412200|NCT02320396|164532642|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Rhinorrhea: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
82532318|NCT02293837|164762004|SUPERIORITY|||||||0.547||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.547
82532319|NCT02293837|164762004|SUPERIORITY|||||||0.551||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 52||||0.551
82532320|NCT04779242|164762005|OTHER|Difference was observed difference in early clinical success rate between the omadacycline and moxifloxacin groups|Percentage difference|1.9|||||TWO_SIDED|95.0|-3.0|6.8|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification.|||6.8|-3.0|
82576426|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.4906|||<|0.0001|TWO_SIDED|95.0|8.98|16.0|||Mixed Models Analysis|||QLQ-C30 diarrhea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||16.00|8.98|<0.0001
82412201|NCT02320396|164532642|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.037|TWO_SIDED|95.0|-0.18|-0.01|||cLDA model|||"Change from BL to Week 2 in Nasal Congestion: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.01|-0.18|0.037
82412202|NCT02320396|164532642|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.26|||<|0.001|TWO_SIDED|95.0|-0.4|-0.12|||cLDA model|||"Change from BL to Week 2 in Nasal Itching: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.40|<0.001
82412203|NCT02320396|164532643|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL in Sneezing During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Sneezing was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
82412204|NCT02320396|164532643|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.23|||<|0.001|TWO_SIDED|95.0|-0.33|-0.12|||cLDA model|||"Change from BL in Rhinorrhea During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Rhinorrhea was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.33|<0.001
82412205|NCT02320396|164532643|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.09||||0.009|TWO_SIDED|95.0|-0.16|-0.02|||cLDA model|||"Change from BL in Nasal Congestion During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Nasal Congestion was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.02|-0.16|0.009
82412206|NCT02320396|164532643|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.26|||<|0.001|TWO_SIDED|95.0|-0.38|-0.15|||cLDA model|||"Change from BL in Nasal Itching During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Nasal Itching was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value.~cLDA model"||-0.15|-0.38|<0.001
82412207|NCT02320396|164532644|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||"Change from BL to Week 1 in Eye Pruritus: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.35|<0.001
82412208|NCT02320396|164532644|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16|||<|0.001|TWO_SIDED|95.0|-0.24|-0.08|||cLDA model|||"Change from BL to Week 1 in Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.08|-0.24|<0.001
82532321|NCT04779242|164762006|OTHER|Difference was observed difference in overall clinical success rate at PTE between the omadacycline and moxifloxacin groups.|Percentage difference|-1.7|||||TWO_SIDED|95.0|-6.9|3.4|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification|||3.4|-6.9|
82532322|NCT04779242|164762007|OTHER|Difference was observed difference in overall clinical success rate at PTE between the omadacycline and moxifloxacin groups|Percentage difference|-1.8|||||TWO_SIDED|95.0|-5.7|2.0|||||95% CI is constructed based on the Miettinen and Nurminen method without stratification|||2.0|-5.7|
82532323|NCT01448044|164762020|SUPERIORITY_OR_OTHER||difference in percentages|38.85|||<|0.0001|TWO_SIDED|95.0|21.703|55.997||The pvalue was based on the CochranMantelHaenszel (CMH) test, stratified by IL28B host genotype, geography, and baseline cirrhosis status.|Cochran-Mantel-Haenszel|||||55.997|21.703|<0.0001
82532324|NCT04230980|164762025|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.01|TWO_SIDED|95.0|-2.02|-0.24|||t-test, 2 sided||Direction of mean difference is Gabapentin arm minus placebo arm.|Mean NRS-11 score at post-operative day 7 (compared between the two arms).||-0.24|-2.02|0.01
82532325|NCT04230980|164762026|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.19|TWO_SIDED|95.0|-0.13|0.03|||t-test, 2 sided||Direction of mean difference is Gabapentin arm minus placebo arm.|Mean number of opioid tablets taken at post-operative day 7 (compared between the two arms).||0.03|-0.13|0.19
82412209|NCT02320396|164532644|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||"Change from BL to Week 1 in Worse of Pruritus or Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in the worse symptom of Pruritus or Watering Eyes estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.15|-0.35|<0.001
82412210|NCT02320396|164532645|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Eye Pruritus: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
82412211|NCT02320396|164532645|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.13||||0.01|TWO_SIDED|95.0|-0.24|-0.03|||cLDA model|||"Change from BL to Week 2 in Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.03|-0.24|0.010
82412212|NCT02320396|164532645|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.24|||<|0.001|TWO_SIDED|95.0|-0.37|-0.12|||cLDA model|||"Change from BL to Week 2 in Worse of Pruritus or Watering Eyes: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in the worse symptom of Pruritus or Watering Eyes estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.12|-0.37|<0.001
82412213|NCT02320396|164532646|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.14|||cLDA model|||"Change from BL in Eye Pruritus During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Eye Pruritus was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.14|-0.35|<0.001
82412214|NCT02320396|164532646|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.15|||<|0.001|TWO_SIDED|95.0|-0.23|-0.07|||cLDA model|||"Change from BL in Watering Eyes During 2 Weeks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1 to Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.07|-0.23|<0.001
82412215|NCT02320396|164532646|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.25|||<|0.001|TWO_SIDED|95.0|-0.35|-0.15|||cLDA model|||The LS mean change from BL to post BL (average score of 2 weeks) in the worse of Pruritus or Watering Eyes was estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1-Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value||-0.15|-0.35|<0.001
82412216|NCT02320396|164532647|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.16|||<|0.001|TWO_SIDED|95.0|-0.24|-0.07|||cLDA model|||"Change from BL to Week 1 in Interference with Daily Activities: Desloratadine vs. Placebo~The LS mean change from BL to Week 1 post BL in Interference with Daily Activities was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 1) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.07|-0.24|<0.001
82412217|NCT02320396|164532647|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.19|||<|0.001|TWO_SIDED|95.0|-0.3|-0.09|||cLDA model|||"Change from BL to Week 2 in Interference with Daily Activities: Desloratadine vs. Placebo~The LS mean change from BL to Week 2 post BL in Interference with Daily Activities was estimated using a cLDA model, where both BL and post-BL measurements (average score of 1 week prior to Week 2) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo was evaluated with the 95% confidence interval and P-value."||-0.09|-0.30|<0.001
82426466|NCT00565409|164561885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.3805|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|LOE imputation defined as LOE drop-outs were treated as non-responders and all other participants had LOCF applied as primary analysis.||||2.0|0.7|0.3805
82426467|NCT00565409|164561885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|LOE imputation defined as LOE drop-outs were treated as non-responders and all other participants had LOCF applied as primary analysis.||||7.6|3.0|<0.0001
82426468|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.11||||0.0853|TWO_SIDED|95.0|0.5|21.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||21.4|0.5|0.0853
82426469|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8491|TWO_SIDED|95.0|0.2|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||4.8|0.2|0.8491
82426470|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97||||0.1278|TWO_SIDED|95.0|0.4|42.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Low Disease Activity||42.5|0.4|0.1278
82447008|NCT03429543|164602787|OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.33||0.0116|TWO_SIDED|95.0|-1.5|-0.19|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 1 (TG1) consisting of Placebo, Linagliptin 5 mg and Empagliflozin pooled Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||-0.19|-1.50|0.0116
82447009|NCT03429543|164602787|OTHER|Only after having obtained statistically significant results for both hypotheses of the primary family of hypotheses (TG1), the secondary hypotheses were to compare the individual empagliflozin doses versus placebo based on TG2 and TG3.The ANCOVA utilised a weight of zero for patients who were not in the hypothesis test of interest, a value of 2 for re-randomised patients who were in the hypothesis test of interest and a value of 1 otherwise.|Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.4||0.1943|TWO_SIDED|95.0|-1.31|0.27|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 2 (TG2) consisting of Placebo, Empagliflozin 25mg Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||0.27|-1.31|0.1943
82532326|NCT01952301|164762043|NON_INFERIORITY_OR_EQUIVALENCE|The primary hypothesis of the study evaluated whether CM was not inferior to Control in the generation of KT width from baseline to 6 months. A paired t-test was used to test for non-inferiority, using a one-sided significance level of 0.05 and a non-inferiority margin of 1.0 mm.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82532327|NCT04285229|164762053|SUPERIORITY||Odds Ratio (OR)|7.64|||<|0.001|TWO_SIDED|95.0|2.68|21.76|||Regression, Logistic|||||21.76|2.68|<0.001
82412218|NCT02320396|164532647|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.17|||<|0.001|TWO_SIDED|95.0|-0.26|-0.08|||cLDA model|||"Change from BL in Interference with Daily Activities During 2 Wks: Desloratadine vs. Placebo~The LS mean change from BL to post BL (average score of 2 weeks) in Interference with Daily Activities estimated using a cLDA model, where both BL and post-BL measurements (average score from Day 1-Day 13) were included in the response variable. The treatment difference in terms of LS mean change from BL between desloratadine 5 mg and placebo evaluated with the 95% confidence interval and P-value."||-0.08|-0.26|<0.001
82412219|NCT02320396|164532648|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.492||||0.071|TWO_SIDED|95.0|0.966|2.303|||Regression, Logistic|||"Impression Rate as Assessed by Investigator: Desloratadine 5 mg/Placebo Odds Ratio~Impression was evaluated using a logistic model with impression rate (percentage of assessments of Better + Much better) as a response variable and treatment and severity as factors. Odds ratio was estimated and tested. A point estimate of \>1 indicated that desloratadine 5mg was more effective than placebo."||2.303|0.966|0.071
82412220|NCT02320396|164532649|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.149|||<|0.001|TWO_SIDED|95.0|1.408|3.28|||Regression, Logistic|||"Impression Rate as Assessed by Participant: Desloratadine 5 mg/Placebo Odds Ratio~Impression was evaluated using a logistic model with impression rate (percentage of assessments of Better + Much better) as a response variable and treatment and severity as factors. Odds ratio was estimated and tested. A point estimate of \>1 indicated that desloratadine 5mg was more effective than placebo"||3.280|1.408|<0.001
82412221|NCT03331562|164532650|SUPERIORITY||Risk Ratio (RR)|0.0||||0.31|ONE_SIDED|95.0|0.0||||Fisher Exact||Lower bound cannot be estimated because there were 0 events in the comparison group.||||0|.31
82412222|NCT05383209|164532709|OTHER||Difference in response percentage|-5.0|||||TWO_SIDED|95.0|-24.9|13.4||||||||13.4|-24.9|
82412223|NCT05383209|164532709|OTHER||Slope|-0.2|||||TWO_SIDED|95.0|-20.6|20.6||||||||20.6|-20.6|
82532328|NCT04285229|164762054|SUPERIORITY||Odds Ratio (OR)|6.4|||<|0.001|TWO_SIDED|95.0|2.42|16.9|||Regression, Logistic|||||16.90|2.42|<0.001
82532329|NCT04285229|164762055|SUPERIORITY||Odds Ratio (OR)|2.58||||0.006|TWO_SIDED|95.0|1.31|5.09|||Regression, Logistic|||||5.09|1.31|0.006
82412224|NCT05383209|164532710|OTHER||Difference in response percentage|5.3|||||TWO_SIDED|95.0|-13.2|26.0||||||||26.0|-13.2|
82412225|NCT00149643|164532750|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||Groups' categorical baseline measures were compared by chi-square analysis, corrected for continuity. Statistical analyses were completed on an intent to-treat study group basis. Outcome measures for depression and for cannabis use and alcohol use across treatment groups were compared by repeated measures analysis of variance. The last observation carried forward (LOCF)method was used for handling missing data in the data analyses.||||<0.05
82412226|NCT01900314|164532797|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANCOVA|||Repeated measures ANCOVA at 4 weeks with baseline MADRS as co-variate||||0.16
82532330|NCT04285229|164762056|SUPERIORITY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-1.38|-0.9|||Mixed Models Analysis|||||-0.90|-1.38|<0.001
82532331|NCT04285229|164762057|SUPERIORITY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.04|-0.94|||Mixed Models Analysis|||||-0.94|-2.04|<0.001
82532332|NCT04285229|164762058|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.28||0.002|TWO_SIDED|95.0|-1.43|-0.32|||Mixed Models Analysis|||||-0.32|-1.43|0.002
82532333|NCT04285229|164762059|SUPERIORITY||LS Mean Difference|-7.72|STANDARD_ERROR_OF_MEAN|1.58|<|0.001|TWO_SIDED|95.0|-10.85|-4.6|||ANCOVA|||||-4.60|-10.85|<0.001
82412227|NCT01900314|164532798|SUPERIORITY_OR_OTHER|||||||0.04|||||||ANCOVA|||Repeated measures ANCOVA with baseline MADRS as co-variate||||0.04
82532334|NCT04285229|164762060|SUPERIORITY||LS Mean Difference|2.62|STANDARD_ERROR_OF_MEAN|0.785||0.001|TWO_SIDED|95.0|1.07|4.17|||Mixed Models Analysis|||||4.17|1.07|0.001
82532335|NCT04285229|164762061|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.152||0.66|TWO_SIDED|95.0|-1.77|2.79|||Mixed Models Analysis|||||2.79|-1.77|0.660
82532336|NCT04285229|164762062|SUPERIORITY||LS Mean Difference|-12.75|STANDARD_ERROR_OF_MEAN|1.594|<|0.001|TWO_SIDED|95.0|-15.91|-9.59|||Mixed Models Analysis|||||-9.59|-15.91|<0.001
82532337|NCT04285229|164762063|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.57|-0.15|||Mixed Models Analysis|||||-0.15|-0.57|<0.001
82532338|NCT04285229|164762064|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.413||0.086|TWO_SIDED|95.0|-1.54|0.1|||Mixed Models Analysis|||||0.10|-1.54|0.086
82532339|NCT04285229|164762065|SUPERIORITY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|1.034|<|0.001|TWO_SIDED|95.0|-7.71|-3.62|||ANCOVA|||||-3.62|-7.71|<0.001
82412228|NCT01104766|164532799|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.0044|TWO_SIDED|95.0|-10.1|-1.9|||ANCOVA|||||-1.9|-10.1|0.0044
82412229|NCT01104766|164532799|SUPERIORITY||Mean Difference (Final Values)|-8.8|||<|0.0001|TWO_SIDED|95.0|-12.9|-4.7|||ANCOVA|||||-4.7|-12.9|<0.0001
82412230|NCT01104766|164532799|SUPERIORITY||Median Difference (Final Values)|-7.0||||0.0008|TWO_SIDED|95.0|-11.0|-2.9|||ANCOVA|||||-2.9|-11.0|0.0008
82412231|NCT01104766|164532800|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0004
82412232|NCT01104766|164532800|SUPERIORITY||Median Difference (Final Values)|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||||-0.3|-0.7|<0.0001
82412233|NCT01104766|164532800|SUPERIORITY||Median Difference (Final Values)|-0.4||||0.0001|TWO_SIDED|95.0|-0.6|-0.2|||ANCOVA|||||-0.2|-0.6|0.0001
82412234|NCT03282097|164532805|SUPERIORITY|||||||0.4393|||||||ANCOVA|||||||0.4393
82412235|NCT03282097|164532806|SUPERIORITY|||||||0.2262|||||||ANCOVA|||||||.2262
82412236|NCT03282097|164532807|SUPERIORITY|||||||0.0023|||||||ANCOVA|||||||0.0023
82412237|NCT03282097|164532808|SUPERIORITY|||||||0.6075|||||||Regression, Logistic|||||||0.6075
82412238|NCT03282097|164532809|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<.0001
82412239|NCT03282097|164532810|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
82532340|NCT01012973|164762070|SUPERIORITY_OR_OTHER||CMH adjusted difference|38.3|||<|0.0001|TWO_SIDED|95.0|24.4|52.1|||Cochran-Mantel-Haenszel||The estimate is calculated as Eylea minus Sham. A positive value shows Eylea showed a higher BCVA total score compared to Sham.|Null hypothesis of difference of Eylea minus Sham of 0 was tested. In the database close after Week 24, basis for primary efficacy evaluation, 56 Sham / 96 Eylea subjects were considered as week 24 completers.||52.1|24.4|<.0001
82412240|NCT05722015|164532850|NON_INFERIORITY|Non-inferiority margin is 0.8.|Geometric Mean Ratio (GMR)|1.14|||<|1e-05|TWO_SIDED|96.0|1.06|1.22|||Welch's t test|One-sided p-value was calculated using the Welch's t test.|GMR was calculated as the ratio of geometric mean (GM) of Cycle 1 AUC0-6 weeks in Arm 1 to that of Arm 2. The associated 96% confidence interval (CI) were calculated using Welch's t test.|||1.22|1.06|<0.00001
82412241|NCT05722015|164532851|NON_INFERIORITY|Non-inferiority margin is 0.8.|GMR|1.67|||<|1e-05|TWO_SIDED|94.0|1.52|1.84|||Welch's t test|One sided p-value was calculated using Welch's t test.|GMR was calculated as the ratio of GM of Cycle 3 Ctrough in Arm 1 to that of Arm 2. The associated 94% CI were calculated using Welch's t test.|||1.84|1.52|<0.00001
82412242|NCT04478266|164532870|SUPERIORITY||Hazard Ratio (HR)|1.209||||0.9304|TWO_SIDED|95.0|0.939|1.557||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025 level.|Stratified Log-Rank test|Stratified on presence of De-novo metastatic disease, Postmenopausal women and Visceral metastasis according to IRT.|Letrozole + Palbociclib versus Amcenestrant + Palbociclib|A hierarchical testing procedure was used to ensure a strong control of the overall Type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at one-sided 2.5% for the primary and the first secondary outcome.||1.557|0.939|0.9304
82412243|NCT01101178|164532887|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|110.0|||||TWO_SIDED|90.0|105.21|114.47|||ANOVA||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||114.47|105.21|
82412244|NCT01101178|164532888|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.7|||||TWO_SIDED|90.0|92.71|96.64|||ANOVA||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||96.64|92.71|
82412245|NCT01101178|164532889|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.9|||||TWO_SIDED|90.0|92.9|97.02|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.02|92.90|
82412246|NCT00720759|164532900|SUPERIORITY_OR_OTHER||Slope|0.83|STANDARD_ERROR_OF_MEAN|8.54|<|0.05|TWO_SIDED|95.0|||||Regression, Linear|||A general linear model was employed. The independent variables were baseline WMFT score, treatment (condensed vs distributed), treatment (d-cycloserine vs placebo), and treatment interaction effect. The dependent measure was WMFT score at 3 months post treatment.||||<0.05
82412247|NCT01134042|164532939|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.193|||<|0.001|TWO_SIDED|95.0|0.108|0.277|||ANCOVA|||||0.277|0.108|<0.001
82412248|NCT01134042|164532939|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.21|||<|0.001|TWO_SIDED|95.0|0.127|0.294|||ANCOVA|||||0.294|0.127|<0.001
82412249|NCT01134042|164532939|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the lower limit of the confidence interval (CI: 0.025, 1-sided significance level) for the mean difference in change from Baseline in clinic visit trough FEV1 of FF 200 µg OD versus FP 500 µg BID was greater than -125 milliliters.|Median Difference (Final Values)|0.018|||||TWO_SIDED|95.0|-0.066|0.102||||||||0.102|-0.066|
82412250|NCT01134042|164532940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136||||0.048|TWO_SIDED|95.0|0.001|0.27|||ANCOVA|||||0.270|0.001|0.048
82412251|NCT01134042|164532940|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.206||||0.003|TWO_SIDED|95.0|0.073|0.339|||ANCOVA|||||0.339|0.073|0.003
82412252|NCT03320369|164533001|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82426471|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||6.4|2.1|<0.0001
82426472|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43||||0.3027|TWO_SIDED|95.0|0.8|2.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||2.7|0.8|0.3027
82532341|NCT01012973|164762071|SUPERIORITY_OR_OTHER||Difference in Least square means|14.7|||<|0.0001|TWO_SIDED|95.0|10.8|18.7||As primary efficacy evaluation was significant, and this p-value was below significance level of two-sided \<.05, the fixed sequence testing did continue with next secondary endpoint.|ANOVA|ANOVA, adjusting for region and baseline BCVA category as fixed factors.|The difference is calculated as Eylea minus Sham. A positive value indicates Eylea showed a higher change in BCVA total score until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in BCVA total letter score between Eylea and Sham. If primary efficacy was successful, secondary efficacy endpoints were tested in a pre-specified fixed sequence testing procedure. Change in BCVA letter score was to be tested first in this sequence.||18.7|10.8|<.0001
82576427|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Median Difference (Net)|-13.4622|||<|0.0001|TWO_SIDED|95.0|-17.2|-9.73|||Mixed Models Analysis|||QLQ-C30 dysponea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-9.73|-17.20|<0.0001
82412253|NCT00770367|164533008|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED||||||t-test, 2 sided|||A twosample comparison of mean treatment differences conducted using a pre-determined significance level of alpha level \<0.05. 2 a comparison of means for NOx levels at 12 weeks b/w groups. 3 on the change F2-isoprostanes at 12 weeks b/w groups.||||.37
82646856|NCT02414854|165008508|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.402|||<|0.0001|TWO_SIDED|95.0|0.307|0.526||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 6 of testing order.||0.526|0.307|<0.0001
82412254|NCT03769493|164533046|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||< .001
82412255|NCT03769493|164533047|SUPERIORITY|||||||0.875|||||||t-test, 2 sided|||||||.875
82412256|NCT05850494|164533111|NON_INFERIORITY|Non-inferiority margin of -0.200 L at a one-sided significance level of 0.025.|Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.0136|||TWO_SIDED|95.0|-0.037|0.018||P-Value not applicable since a non-inferiority test was used for the analysis.|Mixed Models Analysis|||||0.018|-0.037|
82412257|NCT03034967|164533187|OTHER|Emax|Median Posterior Difference|0.08|||||TWO_SIDED|90.0|0.0|0.66|||||Median posterior difference, 90 percent (%) credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.66|0.00|
82412258|NCT03034967|164533187|OTHER|Emax|Median Posterior Difference|0.61|||||TWO_SIDED|90.0|0.0|1.52|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||1.52|0.00|
82412259|NCT03034967|164533187|OTHER|Emax|Median Posterior Difference|1.25|||||TWO_SIDED|90.0|0.43|1.97|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||1.97|0.43|
82412260|NCT03034967|164533187|OTHER|Emax|Median Posterior Difference|1.34|||||TWO_SIDED|90.0|0.72|2.03|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||2.03|0.72|
82412261|NCT03034967|164533187|OTHER|Emax|Median Posterior Difference|1.38|||||TWO_SIDED|90.0|0.79|2.07|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||2.07|0.79|
82412262|NCT03034967|164533188|OTHER|Emax|Median Posterior Difference|0.09|||||TWO_SIDED|90.0|0.0|0.42|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.42|0.00|
82412263|NCT03034967|164533188|OTHER|Emax|Median Posterior Difference|0.43|||||TWO_SIDED|90.0|0.0|0.87|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||0.87|0.00|
82412264|NCT03034967|164533188|OTHER|Emax|Median Posterior Difference|0.68|||||TWO_SIDED|90.0|0.23|1.08|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||1.08|0.23|
82412265|NCT03034967|164533188|OTHER|Emax|Median Posterior Difference|0.72|||||TWO_SIDED|90.0|0.37|1.1|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||1.10|0.37|
82412266|NCT03034967|164533188|OTHER|Emax|Median Posterior Difference|0.73|||||TWO_SIDED|90.0|0.4|1.12|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||1.12|0.40|
82412267|NCT03034967|164533189|OTHER|Emax|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|0.0|0.16|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|4-parameter Emax model selected.||0.16|0.00|
82412268|NCT03034967|164533189|OTHER|Emax|Median Posterior Difference|0.12|||||TWO_SIDED|90.0|0.0|0.43|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|4-parameter Emax model||0.43|0.00|
82412269|NCT03034967|164533189|OTHER|Emax|Median Posterior Difference|0.38|||||TWO_SIDED|90.0|0.04|0.61|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|4-parameter Emax model selected.||0.61|0.04|
82412270|NCT03034967|164533189|OTHER|Emax|Median Posterior Difference|0.42|||||TWO_SIDED|90.0|0.21|0.64|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|4-parameter Emax model selected.||0.64|0.21|
82412271|NCT03034967|164533189|OTHER|Emax|Median Posterior Difference|0.45|||||TWO_SIDED|90.0|0.26|0.66|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|4-parameter Emax model selected.||0.66|0.26|
82412272|NCT03034967|164533190|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.21|0.23|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|Log-linear model.||0.23|-0.21|
82412273|NCT03034967|164533190|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.23|0.25|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|Log-linear model||0.25|-0.23|
82532342|NCT01012973|164762072|SUPERIORITY_OR_OTHER||Difference in Least square (LS) means|-239.42|||<|0.0001|TWO_SIDED|95.0|-286.31|-192.53||As fixed sequence testing did reject nullhypothesis of change from baseline in BCVA until week 24, and this p-value was below significance level of two-sided \<.05, the fixed sequence testing did continue with next secondary endpoint.|ANCOVA|ANCOVA, stratified by region and baseline BCVA category, baseline central retinal thickness added as covariate.|The difference is calculated as Eylea minus Sham. A negative value indicates Eylea showed a higher reduction in change in central retinal thickness until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in central retinal thickness between Eylea and Sham. If primary efficacy was successful, secondary efficacy end points were to be tested in a pre-specified fixed sequence testing procedure. Change in central retinal thickness was to be tested at second place in this sequence.||-192.53|-286.31|<.0001
82532343|NCT01012973|164762073|SUPERIORITY_OR_OTHER||CMH adjusted Difference|-1.5||||0.5947|TWO_SIDED|95.0|-7.4|4.4||As fixed sequence testing did reject nullhypothesis of change from baseline in CRT until week 24, and this p-value was not below significance level of two-sided \<.05, the fixed sequence testing did end with this evaluation.|Cochran-Mantel-Haenszel|Cochrane-Mantel-Haenszel test, stratified by region and baseline BCVA category.||Nullhypothesis of no difference in development of neovascularizations between Eylea and Sham group was tested. (Any neovascularization)||4.4|-7.4|0.5947
82532344|NCT01012973|164762074|SUPERIORITY_OR_OTHER||Difference in LS means|4.2|||||TWO_SIDED|95.0|1.7|6.8|||||As the fixed sequence of secondary endpoints stopped with proportion of neovascularizations developed until week 24, 95% confidence interval is only of descriptive nature.|||6.8|1.7|
82412274|NCT03034967|164533190|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.27|0.29|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|Log-linear model||0.29|-0.27|
82412275|NCT03034967|164533190|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.28|0.3|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|Log-linear model||0.30|-0.28|
82412276|NCT03034967|164533190|OTHER|Log-linear|Median Posterior Difference|0.01|||||TWO_SIDED|90.0|-0.29|0.31|||||Median posterior difference, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|Log-linear model||0.31|-0.29|
82412277|NCT03034967|164533197|OTHER||Odds Ratio (OR)|1.71||||0.089|TWO_SIDED|90.0|1.02|2.86||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||2.86|1.02|0.089
82412278|NCT03034967|164533197|OTHER||Odds Ratio (OR)|1.05||||0.881|TWO_SIDED|90.0|0.62|1.79||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||1.79|0.62|0.881
82412279|NCT03034967|164533197|OTHER||Odds Ratio (OR)|0.87||||0.674|TWO_SIDED|90.0|0.51|1.48||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||1.48|0.51|0.674
82412280|NCT03034967|164533197|OTHER||Odds Ratio (OR)|0.92||||0.804|TWO_SIDED|90.0|0.54|1.58||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||1.58|0.54|0.804
82412281|NCT03034967|164533197|OTHER||Odds Ratio (OR)|1.01||||0.987|TWO_SIDED|90.0|0.59|1.71||Analysis performed using a generalized linear mixed model with a logit link function including treatment, relevant Baseline E-RS: COPD score, smoking status at Screening, country, month, Baseline by month and treatment by month interactions.|linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||1.71|0.59|0.987
82412282|NCT03034967|164533199|OTHER||Median Posterior Hazard Ratio|1.2|||||TWO_SIDED|90.0|0.5|2.6|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX versus (vs.) Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted Forced Expiratory Volume in one second (FEV1)at Screening.|2.6|0.5|
82412283|NCT03034967|164533199|OTHER||Median Posterior Hazard Ratio|1.0|||||TWO_SIDED|90.0|0.4|2.4|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.4|0.4|
82412284|NCT03034967|164533199|OTHER||Median Posterior Hazard Ratio|1.4|||||TWO_SIDED|90.0|0.6|3.2|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|3.2|0.6|
82426473|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|||<|0.0001|TWO_SIDED|95.0|1.5|4.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Low Disease Activity||4.2|1.5|<0.0001
82426474|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.55|||<|0.0001|TWO_SIDED|95.0|2.7|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||7.6|2.7|<0.0001
82447010|NCT03429543|164602787|OTHER|Only after having obtained statistically significant results for both hypotheses of the primary family of hypotheses (TG1), the secondary hypotheses were to compare the individual empagliflozin doses versus placebo based on TG2 and TG3.The ANCOVA utilised a weight of zero for patients who were not in the hypothesis test of interest, a value of 2 for re-randomised patients who were in the hypothesis test of interest and a value of 1 otherwise.|Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|0.37||0.0015|TWO_SIDED|95.0|-1.9|-0.45|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Treatment group 3 (TG3) consisting of Placebo, Empagliflozin 10mg Patients: Analysis of covariance (ANCOVA) model with a continuous covariate (baseline HbA1c) and categorical covariates (treatment and age). The effect of linagliptin and of empagliflozin (including responders and non-responders) was compared with placebo at an overall α of 0.05 (2-sided) using the Hochberg method to account for multiple testing.||-0.45|-1.90|0.0015
82447011|NCT03429543|164602788|OTHER||Risk Difference (RD)|-10.0||||1|TWO_SIDED|90.0|-58.7|43.7|||Fisher Exact||Risk difference calculated as \[treatment\]-\[placebo\].|Risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 90% confidence interval based on the method of Chan and Zhang. Patients were assigned to the treatment they were randomised to at the initial randomisation.||43.7|-58.7|1.0000
82447012|NCT03429543|164602788|OTHER||Risk Difference (RD)|-10.0||||1|TWO_SIDED|90.0|-58.7|43.7|||Fisher Exact||Risk difference calculated as \[treatment\]-\[placebo\].|Risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 90% confidence interval based on the method of Chan and Zhang. Patients were assigned to the treatment they were randomised to at the initial randomisation.||43.7|-58.7|1.0000
82447013|NCT03429543|164602789|OTHER||Adjusted mean difference|-0.68||||0.4828|TWO_SIDED|95.0|-2.86|1.49|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Restricted maximum likelihood (REML) approach with mixed model for repeated measures (MMRM). Fixed categorical effects of treatment, visit, and treatment-by-visit interaction and categorical covariate age (baseline) and continuous, fixed covariates of baseline of response variable and baseline of response variable-by-visit interaction. Covariate visit was treated as repeated measure with an unstructured covariance structure used to model within-patient measurements.||1.49|-2.86|0.4828
82447014|NCT03429543|164602789|OTHER||Adjusted mean difference|-0.38||||0.7047|TWO_SIDED|95.0|-2.64|1.88|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Restricted maximum likelihood (REML) approach with mixed model for repeated measures (MMRM). Fixed categorical effects of treatment, visit, and treatment-by-visit interaction and categorical covariate age (baseline) and continuous, fixed covariates of baseline of response variable and baseline of response variable-by-visit interaction. Covariate visit was treated as repeated measure with an unstructured covariance structure used to model within-patient measurements.||1.88|-2.64|0.7047
82447015|NCT03429543|164602790|OTHER|||||||0.8626|||||||Log Rank|||Time to treatment failure was analysed by Kaplan-Meier estimates up to the end of the study. A log-rank test compared linagliptin and empagliflozin pooled versus placebo up to Week 26.||||0.8626
82447016|NCT03429543|164602790|OTHER|||||||0.2827|||||||Log Rank|||Time to treatment failure was analysed by Kaplan-Meier estimates up to the end of the study. A log-rank test compared linagliptin and empagliflozin pooled versus placebo up to Week 26.||||0.2827
82447017|NCT03429543|164602791|OTHER||Mean Difference (Final Values)|-5.41||||0.6438|TWO_SIDED|95.0|-28.49|17.67|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||17.67|-28.49|0.6438
82532345|NCT01012973|164762075|SUPERIORITY_OR_OTHER||Difference in LS Means|0.044|||||TWO_SIDED|95.0|-0.002|0.09|||||As the fixed sequence of secondary endpoints stopped with proportion of neovascularizations developed until week 24, 95% confidence interval is only of descriptive nature.|||0.09|-0.002|
82532346|NCT02138747|164762112|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|0.997||0.004|TWO_SIDED|95.0|-4.86|-0.93||p-value based on the ANOVA model|ANOVA|||Tolerability score was analyzed using the ANOVA model (Model #1), with sequence group, study period, period-by-sequence interaction, gender and treatment group as factors, and subject-within-sequence as a random term. p-value based on the ANOVA model. Difference used mirabegron as the reference (difference =tolterodine ER -mirabegron). A negative difference indicates better reported tolerability with mirabegron than with tolterodine ER.||-0.93|-4.86|0.004
82532347|NCT02138747|164762113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||P value was obtained using Mainland-Gart test to compare the proportion of preference for each treatment group. The denominator excluded patients with No Preference.|Mainland-Gart|||Participants who selected Mirabegron or Tolterodine ER were included in the denominator and participants with No Preference were excluded. Comparison was between Mirabegron vs Tolterodine ER.||||0.77
82532348|NCT02138747|164762122|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.224||0.971|TWO_SIDED|95.0|-0.39|0.49||Adjusted P value was generated from the ANCOVA model for the period-by-treatment interaction.|ANCOVA|||Adjusted difference vs mirabegron where difference used mirabegron as the reference (difference = tolterodine ER - mirabegron).||0.49|-0.39|0.971
82447018|NCT03429543|164602791|OTHER||Mean Difference (Final Values)|-35.18||||0.0035|TWO_SIDED|95.0|-58.61|-11.74|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||-11.74|-58.61|0.0035
82532349|NCT02138747|164762123|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.199||0.211|TWO_SIDED|95.0|-0.28|0.5||Adjusted P value was generated from the ANCOVA model for the period-by-treatment interaction.|ANCOVA|||Adjusted difference vs mirabegron where difference used mirabegron as the reference (difference = tolterodine ER - mirabegron).||0.50|-0.28|0.211
82646857|NCT02414854|165008509|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.21||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 7 of testing order.||0.21|0.09|<0.0001
82412285|NCT03034967|164533199|OTHER||Median Posterior Hazard Ratio|2.0|||||TWO_SIDED|90.0|1.0|4.3|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|4.3|1.0|
82412286|NCT03034967|164533199|OTHER||Median Posterior Hazard Ratio|2.0|||||TWO_SIDED|90.0|0.9|4.5|||||Median Posterior Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|4.5|0.9|
82412287|NCT03034967|164533202|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.5|||||TWO_SIDED|90.0|1.0|2.2|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator %predicted FEV1 at Screening.|2.2|1.0|
82412288|NCT03034967|164533202|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.8|1.7|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|1.7|0.8|
82412289|NCT03034967|164533202|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.1|||||TWO_SIDED|90.0|0.7|1.6|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|1.6|0.7|
82412290|NCT03034967|164533202|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.4|||||TWO_SIDED|90.0|1.0|2.1|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.1|1.0|
82412291|NCT03034967|164533202|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.6|||||TWO_SIDED|90.0|1.1|2.3|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.3|1.1|
82412292|NCT03034967|164533203|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.8|||||TWO_SIDED|90.0|0.7|5.5|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.5|0.7|
82412293|NCT03034967|164533203|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.9|||||TWO_SIDED|90.0|0.7|5.8|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.8|0.7|
82412294|NCT03034967|164533203|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|1.8|||||TWO_SIDED|90.0|0.7|5.6|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|5.6|0.7|
82412295|NCT03034967|164533203|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|2.3|||||TWO_SIDED|90.0|0.9|6.9|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|6.9|0.9|
82412296|NCT03034967|164533203|OTHER|Bayesian proportional hazards model|Hazard Ratio (HR)|0.8|||||TWO_SIDED|90.0|0.2|2.7|||||Hazard Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.||DNX vs. Placebo statistics calculated using a Bayesian proportional hazards model including treatment, gender, exacerbation history (\<=1/\>=2 moderate/severe), smoking status at Screening, country and post-bronchodilator % predicted FEV1 at Screening.|2.7|0.2|
82412297|NCT03034967|164533206|OTHER||Odds Ratio (OR)|1.51||||0.208|TWO_SIDED|90.0|0.88|2.59||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||2.59|0.88|0.208
82412298|NCT03034967|164533206|OTHER||Odds Ratio (OR)|1.27||||0.482|TWO_SIDED|90.0|0.73|2.2||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||2.20|0.73|0.482
82412299|NCT03034967|164533206|OTHER||Odds Ratio (OR)|1.47||||0.239|TWO_SIDED|90.0|0.86|2.53||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||2.53|0.86|0.239
82412300|NCT03034967|164533206|OTHER||Odds Ratio (OR)|1.31||||0.426|TWO_SIDED|90.0|0.75|2.26||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||2.26|0.75|0.426
82447019|NCT03429543|164602791|OTHER||Mean Difference (Final Values)|38.62||||0.031|TWO_SIDED|95.0|4.54|72.7|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||72.70|4.54|0.0310
82447020|NCT03429543|164602791|OTHER||Mean Difference (Final Values)|20.05||||0.1994|TWO_SIDED|95.0|-13.01|53.11|||ANCOVA||Mean difference calculated as \[Treatment\] - Placebo.|Analysis of covariance (ANCOVA) model with treatment as a fixed classification effect, baseline FPG as linear covariate and age at randomisation as categorical covariate. The random error was assumed to be normally distributed.||53.11|-13.01|0.1994
82412301|NCT03034967|164533206|OTHER||Odds Ratio (OR)|0.9||||0.763|TWO_SIDED|90.0|0.52|1.58||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline SGRQ total score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||1.58|0.52|0.763
82412302|NCT03034967|164533208|OTHER||Odds Ratio (OR)|1.01||||0.973|TWO_SIDED|90.0|0.58|1.76||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 5 mg has been presented.|||1.76|0.58|0.973
82412303|NCT03034967|164533208|OTHER||Odds Ratio (OR)|0.93||||0.825|TWO_SIDED|90.0|0.53|1.63||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 10 mg has been presented.|||1.63|0.53|0.825
82412304|NCT03034967|164533208|OTHER||Odds Ratio (OR)|0.95||||0.887|TWO_SIDED|90.0|0.55|1.66||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 25 mg has been presented.|||1.66|0.55|0.887
82412305|NCT03034967|164533208|OTHER||Odds Ratio (OR)|1.21||||0.567|TWO_SIDED|90.0|0.69|2.13||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 35 mg has been presented.|||2.13|0.69|0.567
82412306|NCT03034967|164533208|OTHER||Odds Ratio (OR)|1.26||||0.501|TWO_SIDED|90.0|0.72|2.2||Analysis performed using a generalized linear mixed model with a logit link function including treatment, Baseline CAT score, smoking status at Screening, country, visit, Baseline by visit and treatment by visit interactions.|Linear mixed model||Odds Ratio, 90% credible interval for Placebo and Danirixin 50 mg has been presented.|||2.20|0.72|0.501
82412307|NCT03806296|164533219|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.018|TWO_SIDED|95.0|-0.77|-0.07|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||-0.07|-0.77|0.018
82447021|NCT03429543|164602792|OTHER||Mean Difference (Final Values)|1.46||||0.1394|TWO_SIDED|95.0|-0.48|3.41|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||3.41|-0.48|0.1394
82447022|NCT03429543|164602792|OTHER||Mean Difference (Final Values)|-0.75||||0.4476|TWO_SIDED|95.0|-2.68|1.19|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.19|-2.68|0.4476
82447023|NCT03429543|164602792|OTHER||Mean Difference (Final Values)|0.05||||0.9789|TWO_SIDED|95.0|-3.8|3.9|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||3.90|-3.80|0.9789
82532350|NCT00653263|164762125|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for the continuous baseline characteristics.For data with 5 time points (baseline and weeks 1 through 4), hypothesis tests were performed to test for a differences between baseline and each subsequent time point as well as differences between each time point For data with 3 time points hypothesis tests were performed to test for a differences between baseline and wk 2, wk 2 and wk 4, as well as between baseline and wk 4.||||<0.05
82412308|NCT03806296|164533219|SUPERIORITY||Time X Group interaction|0.67||||0.001|TWO_SIDED|95.0|0.28|1.07|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||1.07|0.28|0.001
82412309|NCT03806296|164533220|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.61|1.59|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||1.59|0.61|<0.001
82412310|NCT03806296|164533220|SUPERIORITY||Time X Group interaction|-0.76|||<|0.001|TWO_SIDED|95.0|-1.09|-0.43|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||-0.43|-1.09|<0.001
82412311|NCT03806296|164533221|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.365|TWO_SIDED|95.0|-0.64|0.24|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.24|-0.64|0.365
82412312|NCT03806296|164533221|SUPERIORITY||Time X Group interaction|-0.43||||0.067|TWO_SIDED|95.0|-0.88|0.03|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoints, and sex.||0.03|-0.88|0.067
82412313|NCT03806296|164533222|SUPERIORITY||Mean Difference (Final Values)|3.32||||0.234|TWO_SIDED|95.0|-2.18|8.82|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||8.82|-2.18|0.234
82412314|NCT03806296|164533222|SUPERIORITY||Time X Group interaction|-6.15||||0.018|TWO_SIDED|95.0|-11.25|-1.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||-1.06|-11.25|0.018
82412315|NCT03806296|164533223|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.024|TWO_SIDED|95.0|0.07|0.94|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.94|0.07|0.024
82412316|NCT03806296|164533223|SUPERIORITY||Time X Group interaction|-0.1||||0.66|TWO_SIDED|95.0|-0.55|0.35|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.35|-0.55|0.660
82412317|NCT03806296|164533224|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.592|TWO_SIDED|95.0|-0.03|0.06|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.06|-0.03|0.592
82412318|NCT03806296|164533224|SUPERIORITY||Time X Group interaction|-0.03||||0.55|TWO_SIDED|95.0|-0.11|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.11|0.550
82412319|NCT03806296|164533225|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.55|TWO_SIDED|95.0|-0.07|0.04|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.04|-0.07|0.550
82412320|NCT03806296|164533225|SUPERIORITY||Time X Group interaction|-0.02||||0.556|TWO_SIDED|95.0|-0.1|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.10|0.556
82412321|NCT03806296|164533226|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.124|TWO_SIDED|95.0|-0.01|0.06|||Regression, Linear|||For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a linear regression model to test the effect of group (Early/Mid vs Late) on each a priori outcome, accounting for age and sex.||0.06|-0.01|0.124
82532351|NCT00653263|164762126|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for continuous baseline(BL)characteristics.For longitudinal data,Proc GLIMMIX in SAS was used to fit a Mixed Model with Random Intercept.For data with 5 time points, hypothesis tests were performed to test for a differences between BL and each subsequent time point as well as differences between each time point. For data with 3 time points, hypothesis tests were performed to test for a differences between BL and wk 2,wk 2and wk 4,as well as between BL and wk 4.||||<0.05
82412322|NCT03806296|164533226|SUPERIORITY||Time X Group interaction|0.0||||0.925|TWO_SIDED|95.0|-0.05|0.06|||Mixed Models Analysis|||For Aim 2, this mixed effect model tested the effect of group (Control vs Manipulation) on changes in each a priori outcome, accounting for group, timepoint, and sex.||0.06|-0.05|0.925
82412323|NCT03806296|164533227|SUPERIORITY||Risk Ratio (RR)|0.752||||0.42|TWO_SIDED|95.0|0.374|1.513|||Poisson GLM with robust standard error||Early/Middle Sleep group was the reference group (lower RR indicates less likelihood of cannabis use in the Late Sleep group)|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a Poisson generalized linear model (GLM) to test the effect of group (Early/Mid vs Late) on a binary cannabis use outcome (yes/no in the past 3 months), accounting for age and sex.||1.513|0.374|0.42
82412324|NCT03806296|164533228|SUPERIORITY||Risk Ratio (RR)|1.236||||0.461|TWO_SIDED|95.0|0.704|2.171|||Poisson GLM with robust standard error||Early/Middle Sleep group was the reference group (higher RR indicates higher likelihood of alcohol use in the Late Sleep group)|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a Poisson generalized linear model (GLM) to test the effect of group (Early/Mid vs Late) on a binary alcohol use outcome (yes/no in the past 3 months), accounting for age and sex.||2.171|0.704|0.461
82412325|NCT03806296|164533228|SUPERIORITY||Incident Rate Ratio|3.29||||0.007|TWO_SIDED|95.0|1.36|7.9|||negative binomial glm||Early/Middle Sleep group was the reference group (higher IRR indicates greater days of alcohol use in the Late Sleep group than in the Early/Middle Sleep group).|For these Aim 1 analyses comparing the Early/Middle vs Late Sleep groups, the Late Sleep-Control and Late Sleep-Manipulation were combined into a single Late Sleep group. We used a negative binomial GLM to test the effect of group (Early/Mid vs Late) on days of alcohol use, accounting for age and sex.||7.90|1.36|0.007
82532352|NCT00653263|164762127|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Mixed Models Analysis|||Means and ranges were computed for continuous baseline(BL)characteristics.For longitudinal data,Proc GLIMMIX in SAS was used to fit a Mixed Model with Random Intercept.For data with 5 time points, hypothesis tests were performed to test for a differences between BL and each subsequent time point as well as differences between each time point. For data with 3 time points, hypothesis tests were performed to test for a differences between BL and wk 2,wk 2and wk 4,as well as between BL and wk 4.||||<0.05
82532353|NCT04793464|164762134|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.26|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.26
82532354|NCT04793464|164762135|SUPERIORITY||Mean Difference (Final Values)|0.87||||0.02|TWO_SIDED||||||ANCOVA|Ratio of Means||Number analyzed is the number of participants with valid baseline and follow-up data.||||.02
82412326|NCT00790036|164533281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.276|TWO_SIDED|95.0|0.69|1.22||P-value was obtained from the one-sided unstratified log rank test.|Log Rank|||||1.22|0.69|0.276
82412327|NCT00790036|164533282|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.52|1.09||There was no formal testing of the OS between treatment since the primary endpoint was not statistically significant.||||||1.09|0.52|
82412328|NCT00790036|164533283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.41|1.07||||||||1.07|0.41|
82412329|NCT05845619|164533301|SUPERIORITY|There was no power calculation because this was a pilot study.|Odds Ratio (OR)|1.21||||0.33|TWO_SIDED|95.0|0.83|1.76|||Regression, Logistic||Numerator: pilot; denominator: prospective controls|In this pilot study, we hypothesized that pilot participants would have a reduced risk of viremia 6 months after the intervention compared to controls.||1.76|0.83|0.33
82412330|NCT05845619|164533301|SUPERIORITY|No power calculation, pilot study.|Odds Ratio (OR)|1.25||||0.41|TWO_SIDED|95.0|0.73|2.14|||Regression, Logistic|||||2.14|0.73|0.41
82412331|NCT05168800|164533323|SUPERIORITY|||||||0.99||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or greater than 2.15 standard deviations of the mean for the superiority analyses.|Groupwise binomial comparison|||||||0.99
82412332|NCT05168800|164533323|SUPERIORITY|||||||0.98||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or greater than 2.15 standard deviations of the mean for the superiority analyses.|Groupwise binomial comparison|||||||0.98
82412333|NCT05168800|164533323|EQUIVALENCE|A sample size of 1800 LTCWs (600 per arm) was identified to provide 80% power to detect an 8% difference in the rate of individuals reporting vaccine confidence between arms with 95% confidence. This sample size was sufficient to retain 80% power to detect a 10% difference after 40% attrition. Per study design, the equivalence margin is +/- 10% with anticipated attrition using the binomial confidence interval.||||||0.85||||||To achieve a group-wise 95% confidence for the primary outcome, each of the three tests were evaluated with acceptance based on a 98.4% confidence interval, or +/- 2.45 standard deviations of the mean for the equivalency test.|Groupwise binomial comparison|||||||0.85
82412334|NCT05168800|164533324|SUPERIORITY|||||||0.93|||||||Fisher Exact|||||||0.93
82412335|NCT05168800|164533324|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.90
82412336|NCT05168800|164533324|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.83|||||||Fisher Exact|||||||0.83
82412337|NCT05168800|164533325|SUPERIORITY|||||||0.22|||||||Fisher Exact|||||||0.22
82412338|NCT05168800|164533325|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
82412339|NCT05168800|164533325|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.61|||||||Fisher Exact|||||||0.61
82412340|NCT05168800|164533326|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||0.65
82412341|NCT05168800|164533326|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
82412342|NCT05168800|164533326|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.48|||||||Fisher Exact|||||||0.48
82412343|NCT05168800|164533327|SUPERIORITY|||||||0.88|||||||Adjusted Wald test|||||||0.88
82412344|NCT05168800|164533327|SUPERIORITY|||||||0.97|||||||Adjusted Wald test|||||||0.97
82532355|NCT04793464|164762136|SUPERIORITY||Odds Ratio (OR)|1.1||||0.68|TWO_SIDED||||||ANCOVA|Logistic regression||Number analyzed is the number of participants with valid baseline and follow-up data.||||.68
82532356|NCT04793464|164762137|SUPERIORITY||Odds Ratio (OR)|1.19||||0.44|TWO_SIDED||||||ANCOVA|Logistic regression||Number analyzed is the number of participants with valid baseline and follow-up data.||||.44
82532357|NCT04793464|164762138|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.77|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.77
82532358|NCT04793464|164762139|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.66|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.66
82412345|NCT05168800|164533327|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.48|||||||Adjusted Wald test|||||||0.48
82412346|NCT05168800|164533328|SUPERIORITY|||||||0.95|||||||Adjusted Wald test|||||||0.95
82412347|NCT05168800|164533328|SUPERIORITY|||||||0.98|||||||Adjusted Wald test|||||||0.98
82412348|NCT05168800|164533328|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.66|||||||Adjusted Wald test|||||||0.66
82412349|NCT05168800|164533329|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
82412350|NCT05168800|164533329|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.64
82412351|NCT05168800|164533329|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.09|||||||Fisher Exact|||||||0.09
82412352|NCT05168800|164533330|SUPERIORITY|||||||0.13|||||||Fisher Exact|||||||0.13
82412353|NCT05168800|164533330|SUPERIORITY|||||||0.73|||||||Fisher Exact|||||||0.73
82412354|NCT05168800|164533330|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.1|||||||Fisher Exact|||||||0.10
82412355|NCT05168800|164533331|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
82412356|NCT05168800|164533331|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
82412357|NCT05168800|164533331|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.88|||||||Fisher Exact|||||||0.88
82412358|NCT05168800|164533332|SUPERIORITY|||||||0.92|||||||Adjusted Wald test|||||||0.92
82447024|NCT03429543|164602792|OTHER||Mean Difference (Final Values)|-1.35||||0.5092|TWO_SIDED|95.0|-5.68|2.99|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||2.99|-5.68|0.5092
82447025|NCT03429543|164602793|OTHER||Mean Difference (Final Values)|0.91||||0.587|TWO_SIDED|95.0|-2.4|4.22|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.22|-2.40|0.5870
82447026|NCT03429543|164602793|OTHER||Mean Difference (Final Values)|-1.42||||0.3967|TWO_SIDED|95.0|-4.72|1.88|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.88|-4.72|0.3967
82447027|NCT03429543|164602793|OTHER||Mean Difference (Final Values)|2.53||||0.5414|TWO_SIDED|95.0|-6.42|11.47|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||11.47|-6.42|0.5414
82447028|NCT03429543|164602793|OTHER||Mean Difference (Final Values)|0.0||||0.9995|TWO_SIDED|95.0|-10.13|10.13|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||10.13|-10.13|0.9995
82447029|NCT03429543|164602794|OTHER||Mean Difference (Final Values)|1.5||||0.2433|TWO_SIDED|95.0|-1.03|4.02|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.02|-1.03|0.2433
82447030|NCT03429543|164602794|OTHER||Mean Difference (Final Values)|0.02||||0.9878|TWO_SIDED|95.0|-2.52|2.56|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||2.56|-2.52|0.9878
82447031|NCT03429543|164602794|OTHER||Mean Difference (Final Values)|3.33||||0.567|TWO_SIDED|95.0|-9.0|15.65|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||15.65|-9.00|0.5670
82447032|NCT03429543|164602794|OTHER||Mean Difference (Final Values)|-6.62||||0.2348|TWO_SIDED|95.0|-18.19|4.95|||Mixed Models Analysis||Mean difference calculated as \[Treatment\] - Placebo.|Mixed model for repeated measures (MMRM) with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the categorical covariate age at randomisation and the continuous, fixed covariates of baseline of the response variable and baseline of the response variable-by-visit interaction. The covariate visit was treated as repeated measure with an unstructured covariance structure used to model the within-patient measurements.||4.95|-18.19|0.2348
82447033|NCT03429543|164602795|OTHER||Rate difference (percentage)|6.0||||0.3536|TWO_SIDED|95.0|-7.7|19.9|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||19.9|-7.7|0.3536
82447034|NCT03429543|164602795|OTHER||Rate difference (percentage)|11.7||||0.0914|TWO_SIDED|95.0|-2.4|26.3|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||26.3|-2.4|0.0914
82532359|NCT04793464|164762140|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.44|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||.44
82532360|NCT04793464|164762141|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.017|TWO_SIDED||||||ANCOVA|||Number analyzed is the number of participants with valid baseline and follow-up data.||||0.017
82532361|NCT03844321|164762183|SUPERIORITY||Difference in Slopes|-0.02||||0.82|TWO_SIDED|95.0|-0.24|0.19||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|df = 1607|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|We used a linear mixed effects model to examine the difference in effect of time on weekly WHO-5 scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks. This model accounts for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing assessment scores. The model includes a random slope and intercept, and fixed effects for intervention, time, and an intervention by time interaction.||0.19|-0.24|.820
82412359|NCT05168800|164533332|SUPERIORITY|||||||0.97|||||||Adjusted Wald test|||||||0.97
82412360|NCT05168800|164533332|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.83|||||||Adjusted Wald test|||||||0.83
82412361|NCT05168800|164533333|SUPERIORITY|||||||0.88|||||||Adjusted Wald test|||||||0.88
82412362|NCT05168800|164533333|SUPERIORITY|||||||0.49|||||||Adjusted Wald test|||||||0.49
82412363|NCT05168800|164533333|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.23|||||||Adjusted Wald test|||||||0.23
82412364|NCT05168800|164533334|SUPERIORITY|||||||0.9|||||||Adjusted Wald test|||||||0.90
82412365|NCT05168800|164533334|SUPERIORITY|||||||0.94|||||||Adjusted Wald test|||||||0.94
82412366|NCT05168800|164533334|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.86|||||||Adjusted Wald test|||||||0.86
82412367|NCT05168800|164533335|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.00
82412368|NCT05168800|164533335|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.0
82412369|NCT05168800|164533335|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.49|||||||Two-sample z test|||||||0.49
82412370|NCT05168800|164533336|SUPERIORITY|||||||0.88|||||||Two-sample z test|||||||0.88
82412371|NCT05168800|164533336|SUPERIORITY|||||||1|||||||Two-sample z test|||||||1.00
82412372|NCT05168800|164533336|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.02|||||||Two-sample z test|||||||0.02
82412373|NCT05168800|164533337|SUPERIORITY|||||||0.82|||||||Two-sample z test|||||||0.82
82412374|NCT05168800|164533337|SUPERIORITY|||||||0.97|||||||Two-sample z test|||||||0.97
82412375|NCT05168800|164533337|EQUIVALENCE|The study was not powered for secondary outcome analyses.||||||0.18|||||||Two-sample z test|||||||0.18
82412376|NCT00296517|164533393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2||||0.805||95.0|-1.6|2.0|||ANOVA|||Null Hypothesis: The population mean change from baseline on HAM-D total score at Week 12 of the placebo group is equal to the population mean change from baseline on HAMD total score at Week 12 of the Bupropion hydrochloride sustained release group.||2.0|-1.6|0.805
82412377|NCT00296517|164533403|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||Log Rank|||||||0.036
82412378|NCT03513952|164533410|SUPERIORITY|||||||0.428||||||A one-sided significance level of 0.10 will be considered for the test.|Cochran-Mantel-Haenszel||||Estimations were done separately in each treatment arm; the difference between treatments was not calculated.|||0.428
82412379|NCT03513952|164533411|EQUIVALENCE|"Two-sided Cochran-Mantel-Haenszel test for the CBR was performed, which is used for testing zero effect or equivalence between treatments. A two-sided significance level of 0.05 will be considered for the test."|Risk Difference (RD)|-6.0||||0.702|TWO_SIDED|95.0|-36.3|24.3|||Cochran-Mantel-Haenszel|||||24.3|-36.3|0.702
82412380|NCT01143324|164533418|SUPERIORITY_OR_OTHER||Mean|1.3|STANDARD_DEVIATION|0.5|||TWO_SIDED|95.0|1.2|1.3||||||||1.3|1.2|
82412381|NCT01143324|164533419|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.9|||t-test, 2 sided|||||-2.9|-3.6|<0.0001
82412382|NCT01143324|164533420|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.2|-3.3|||t-test, 2 sided|||||-3.3|-4.2|<0.0001
82412383|NCT01143324|164533421|SUPERIORITY_OR_OTHER||Difference from pre-op mean|0.35|||<|0.0001|TWO_SIDED|95.0|0.3|0.41|||t-test, 2 sided|||||0.41|0.30|<0.0001
82412384|NCT01143324|164533423|SUPERIORITY_OR_OTHER||Percentage|27.0|||||||||||||61/226 patients underwent a rehabilitation programs between 6 and 12 months follow up visit, making it 27.0 % of the total.|||||
82412385|NCT01143324|164533424|SUPERIORITY_OR_OTHER||Percentage|1.2|||||||||||||The rate of additional lumbar spinal surgeries at treated level was 1.2% (3/252) patients.|||||
82412386|NCT01143324|164533425|SUPERIORITY_OR_OTHER||Percentage|1.6|||||||||||||The rate of additional lumbar spinal surgeries at the same level was 1.6% (4/252) patients.|||||
82412387|NCT01143324|164533426|SUPERIORITY_OR_OTHER||Percentage at 12 months|47.6||||||||||||||||||
82412388|NCT01143324|164533428|SUPERIORITY_OR_OTHER||Difference from pre-op mean|-23.0|||<|0.0001|TWO_SIDED|95.0|-25.5|-20.5|||t-test, 2 sided|||||-20.5|-25.5|<0.0001
82412389|NCT01143324|164533429|SUPERIORITY_OR_OTHER||Percentage|42.7||||||||||||||||||
82412390|NCT01143324|164533430|SUPERIORITY_OR_OTHER||Mean|3.2|STANDARD_DEVIATION|2.0||||95.0|2.9|3.4||||||||3.4|2.9|
82412391|NCT02774889|164533446|SUPERIORITY||Rate Ratio|0.72||||0.55|TWO_SIDED|95.0|0.27|2.57|||Fisher Exact|||||2.57|0.27|0.55
82412392|NCT02774889|164533447|SUPERIORITY||Mean Difference (Final Values)|-4.74||||0.001|TWO_SIDED|95.0|-6.61|-2.89|||Fisher Exact|||at 3 months||-2.89|-6.61|0.001
82412393|NCT02774889|164533447|SUPERIORITY||Mean Difference (Final Values)|-4.07||||0.001|TWO_SIDED|95.0|-6.47|-1.68|||Fisher Exact|||at 6 months||-1.68|-6.47|0.001
82412394|NCT02774889|164533448|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.05|TWO_SIDED|95.0|0.0|0.16|||Fisher Exact|||3 months||0.16|0.00|0.05
82412395|NCT02774889|164533448|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.0003|TWO_SIDED|95.0|0.07|0.22|||Fisher Exact|||6 months||0.22|0.07|0.0003
82412396|NCT02774889|164533449|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.88|TWO_SIDED|95.0|-0.4|0.44|||Fisher Exact|||3 months||0.44|-0.40|0.88
82412397|NCT02774889|164533449|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.83|TWO_SIDED|95.0|-0.48|0.37|||Fisher Exact|||6 months||0.37|-0.48|0.83
82412398|NCT02774889|164533450|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.36|TWO_SIDED|95.0|-0.2|0.54|||Fisher Exact|||3 months||0.54|-0.20|0.36
82412399|NCT02774889|164533450|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.14|TWO_SIDED|95.0|-0.11|0.77|||Fisher Exact|||6 months||0.77|-0.11|0.14
82412400|NCT02774889|164533451|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.52|TWO_SIDED|95.0|-0.43|0.85|||Fisher Exact|||3 months||0.85|-0.43|0.52
82412401|NCT02774889|164533451|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.36|TWO_SIDED|95.0|-0.31|0.85|||Fisher Exact|||6 months||0.85|-0.31|0.36
82412402|NCT02774889|164533452|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.43|TWO_SIDED|95.0|-0.58|1.32|||Fisher Exact|||3 months||1.32|-0.58|0.43
82412403|NCT02774889|164533452|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.26|TWO_SIDED|95.0|-0.42|1.49|||Fisher Exact|||6 months||1.49|-0.42|0.26
82412404|NCT02774889|164533453|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.16|TWO_SIDED|95.0|-0.09|0.61|||Fisher Exact|||3 months||0.61|-0.09|0.16
82412405|NCT02774889|164533453|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.29|TWO_SIDED|95.0|-0.55|0.17|||Fisher Exact|||6 months||0.17|-0.55|0.29
82412406|NCT02774889|164533455|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.91|TWO_SIDED|95.0|-2.66|2.4|||Fisher Exact|||3 months||2.40|-2.66|0.91
82412407|NCT02774889|164533455|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.8|TWO_SIDED|95.0|-2.79|2.15|||Fisher Exact|||6 months||2.15|-2.79|0.80
82412408|NCT02774889|164533456|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.54|TWO_SIDED|95.0|-1.44|2.64|||Fisher Exact|||3 months||2.64|-1.44|0.54
82412409|NCT02774889|164533456|SUPERIORITY||Mean Difference (Final Values)|1.18||||0.38|TWO_SIDED|95.0|-1.49|3.81|||Fisher Exact|||6 months||3.81|-1.49|0.38
82412410|NCT02774889|164533458|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.04|TWO_SIDED|95.0|0.06|3.71|||Fisher Exact|||Inside Balance||3.71|0.06|0.04
82412411|NCT02774889|164533458|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.05|TWO_SIDED|95.0|-0.02|3.51|||Fisher Exact|||Outside Balance||3.51|-0.02|0.05
82412412|NCT02774889|164533458|SUPERIORITY||Mean Difference (Final Values)|1.86||||0.06|TWO_SIDED|95.0|-0.08|3.81|||Fisher Exact|||Strength||3.81|-0.08|0.06
82412413|NCT02774889|164533459|SUPERIORITY||Mean Difference (Final Values)|1.63||||0.003|TWO_SIDED|95.0|0.54|2.17|||Fisher Exact|||Balance Exercises at 3 months||2.17|0.54|0.003
82412414|NCT02774889|164533459|SUPERIORITY||Mean Difference (Final Values)|1.01||||0.11|TWO_SIDED|95.0|-0.22|2.24|||Fisher Exact|||Balance Exercises at 6 Months||2.24|-0.22|0.11
82412415|NCT02774889|164533460|SUPERIORITY||Mean Difference (Final Values)|1.06||||0.01|TWO_SIDED|95.0|0.23|1.89|||Fisher Exact|||Strength Exercises at 3 months||1.89|0.23|0.01
82412416|NCT02774889|164533460|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.11|TWO_SIDED|95.0|-0.16|1.67|||Fisher Exact|||Strength Exercises at 6 months||1.67|-0.16|0.11
82412417|NCT02774889|164533461|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.38|TWO_SIDED|95.0|-1.3|3.3|||Fisher Exact|||3 months||3.30|-1.30|0.38
82412418|NCT02774889|164533461|SUPERIORITY||Mean Difference (Final Values)|2.6||||0.02|TWO_SIDED|95.0|0.43|4.73|||Fisher Exact|||6 months||4.73|0.43|0.02
82412419|NCT02774889|164533462|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.33|TWO_SIDED|95.0|-0.33|0.97|||Fisher Exact|||3 months||0.97|-0.33|0.33
82576428|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.9987|||<|0.0001|TWO_SIDED|95.0|-18.52|-11.48|||Mixed Models Analysis|||QLQ-C30 fatigue: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-11.48|-18.52|<0.0001
82412420|NCT02774889|164533462|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.06|TWO_SIDED|95.0|-0.02|1.27|||Fisher Exact|||6 months||1.27|-0.02|0.06
82412421|NCT02774889|164533463|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.06|TWO_SIDED|95.0|-0.03|1.28|||Fisher Exact|||3 months||1.28|-0.03|0.06
82412422|NCT02774889|164533463|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.59|TWO_SIDED|95.0|-0.45|0.81|||Fisher Exact|||||0.81|-0.45|0.59
82412423|NCT04901624|164533496|SUPERIORITY||Slope|1.19|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|0.42|1.97|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Personal + Loss Protection relative to reference group (Personal + Lottery).|||1.97|0.42|0.003
82412424|NCT04901624|164533496|SUPERIORITY||Slope|1.46|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|0.68|2.24|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Family + Loss Protection relative to reference group (Personal + Lottery).|||2.24|0.68|<0.001
82412425|NCT04901624|164533496|SUPERIORITY||Slope|1.11|STANDARD_ERROR_OF_MEAN|0.44||0.01|TWO_SIDED|95.0|0.26|1.96|||Mixed Models Analysis||Coefficient for mixed effects regression comparing Time 2 attendance to Time 1 attendance for Family + Lottery relative to reference group (Personal + Lottery).|||1.96|0.26|0.01
82412426|NCT04901624|164533497|SUPERIORITY||Slope|-0.29|STANDARD_ERROR_OF_MEAN|0.35||0.409|TWO_SIDED|95.0|-0.98|0.4|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||0.4|-0.98|0.409
82412427|NCT04901624|164533497|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.3||0.098|TWO_SIDED|95.0|-0.09|1.1|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||1.10|-0.09|0.098
82412428|NCT04901624|164533497|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.37||0.982|TWO_SIDED|95.0|-0.71|0.73|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that money was the biggest barrier to getting the vaccine.||0.73|-0.71|0.982
82412429|NCT04901624|164533497|SUPERIORITY||Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.177|TWO_SIDED|95.0|-0.67|0.12|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.12|-0.67|0.177
82412430|NCT04901624|164533497|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.21||0.117|TWO_SIDED|95.0|-0.08|0.74|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.74|-0.08|0.117
82412431|NCT04901624|164533497|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.23||0.809|TWO_SIDED|95.0|-0.39|0.5|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who indicated that their medical provider was the most trusted source of COVID-19 information.||0.50|-0.39|0.809
82412432|NCT04901624|164533497|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.19||0.847|TWO_SIDED|95.0|-0.34|0.41|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.41|-0.34|0.847
82412433|NCT04901624|164533497|SUPERIORITY||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.2||0.993|TWO_SIDED|95.0|-0.39|0.38|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.38|-0.39|0.993
82412434|NCT04901624|164533497|SUPERIORITY||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.22||0.671|TWO_SIDED|95.0|-0.51|0.33|||Regression, Logistic|||Comparison of Time 2 attendance between study arms among respondents who scored below or equal to 5 on the risk aversion scale (scale of 0-10, with 0 being more risk averse and 10 being more risk prone).||0.33|-0.51|0.671
82412435|NCT03479905|164533510|SUPERIORITY|||||||0.0004|||||||Kruskal-Wallis|||||||0.0004
82412436|NCT03100747|164533522|SUPERIORITY||Odds Ratio (OR)|1.21||||0.039|TWO_SIDED|98.3|0.97|1.52||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||1.52|0.97|0.039
82412437|NCT03100747|164533522|SUPERIORITY||Odds Ratio (OR)|1.91|||<|0.0001|TWO_SIDED|98.3|1.54|2.36||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||2.36|1.54|<0.0001
82412438|NCT03100747|164533522|SUPERIORITY||Odds Ratio (OR)|1.57|||<|0.0001|TWO_SIDED|98.3|1.29|1.92||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||1.92|1.29|<0.0001
82412439|NCT03100747|164533527|SUPERIORITY||Odds Ratio (OR)|0.84||||0.094|TWO_SIDED|98.3|0.65|1.08||p-values adjusted for multiple comparisons|Regression, Logistic|||||1.08|0.65|0.094
82412440|NCT03100747|164533527|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.0001|TWO_SIDED|98.3|0.38|0.67||p-value adjusted for multiple comparisons, the a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||0.67|0.38|<0.0001
82412441|NCT03100747|164533527|SUPERIORITY||Odds Ratio (OR)|0.6|||<|0.0001|TWO_SIDED|98.3|0.45|0.8||The a priori threshold for statistical significance (adjusted for multiple comparisons) is 0.0167.|Regression, Logistic|||||0.80|0.45|<0.0001
82412442|NCT03100747|164533532|SUPERIORITY||Odds Ratio (OR)|0.86||||0.24|TWO_SIDED|98.3|0.64|1.17|||Regression, Logistic|||||1.17|0.64|0.24
82412443|NCT03100747|164533532|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0037|TWO_SIDED|98.3|0.49|0.93|||Regression, Logistic|||||0.93|0.49|0.0037
82412444|NCT03100747|164533532|SUPERIORITY||Odds Ratio (OR)|0.78||||0.08|TWO_SIDED|98.3|0.57|1.09|||Regression, Logistic|||||1.09|0.57|0.08
82412445|NCT01431976|164533582|SUPERIORITY_OR_OTHER||percentage of participants|35.0|||||TWO_SIDED|95.0|15.39|59.22||||||||59.22|15.39|
82412446|NCT00460798|164533595|SUPERIORITY_OR_OTHER||Obective Response Rate (Percent)|40.6|||||TWO_SIDED|95.0|35.5|46.0|||||Exact method based on binomial distribution|Objective Response Rate (ORR) = Percentage of participants with best overall response of CR or PR||46.0|35.5|
82412447|NCT04666298|164533633|SUPERIORITY||Mean Difference (Net)|-56.6|STANDARD_ERROR_OF_MEAN|3.24|<|0.0001|TWO_SIDED|95.0|-64.2|-49.0||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-49.0|-64.2|<.0001
82412448|NCT04666298|164533633|SUPERIORITY||Mean Difference (Net)|-60.9|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|TWO_SIDED|95.0|-67.6|-54.3||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-54.3|-67.6|<.0001
82412449|NCT04666298|164533633|SUPERIORITY||Mean Difference (Net)|-65.3|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|95.0|-72.0|-58.6||One-sided adjusted p-value for multiple comparisons using Dunnett´s multiple t-test|Mixed Models Analysis|||||-58.6|-72.0|<.0001
82412450|NCT02178956|164533649|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8596|TWO_SIDED|95.0|0.86|1.02||two-sided|Log Rank|stratified log rank test stratified by region, time to progression on 1st line therapy and disease measurability.|HR is for napabucasin + Paclitaxel vs Placebo + Paclitaxel. Based on Cox Proportional hazards model stratified by actual stratification variables including region, time to progression on first line therapy and disease measurability.|||1.02|0.86|0.8596
82412451|NCT02178956|164533650|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9028|TWO_SIDED|95.0|0.85|1.19||two sided|Log Rank|stratified log rank test stratified by region, time to progression on 1st line therapy and disease measurability.|HR is for napabucuasin + Paclitaxel vs Placebo + Paclitaxel. Based on Cox Proportional hazards model stratified by actual stratification variables including region, time to progression on first line therapy and disease measurability.|||1.19|0.85|0.9028
82412452|NCT02178956|164533651|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7359|TWO_SIDED|95.0|0.6|1.44||2-sided|Cochran-Mantel-Haenszel|Based on CMH test stratified by actual stratification variables at baseline including region, and time to progression on first-line therapy.|Odds ratio for napabucasin vs. Placebo. Based on Logistic Regression Model adjusting for actual Stratification variables at baseline including region, and time to progression on first-line therapy.|||1.44|0.60|0.7359
82412453|NCT02178956|164533652|SUPERIORITY||Odds Ratio (OR)|0.93||||0.6555|TWO_SIDED|95.0|0.66|1.3||2-sided|Cochran-Mantel-Haenszel|Based on CMH test stratified by actual stratification variables at baseline including region, and time to progression on first-line therapy.|Odds ratio for napabucasin vs. Placebo. Based on Logistic Regression Model adjusting for actual Stratification variables at baseline including region, and time to progression on first-line therapy.|||1.30|0.66|0.6555
82412454|NCT01138735|164533685|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustment for multiplicity is required. The tests will be conducted as two-sided, each at the 0.05 significance level. The trial will be claimed 'positive' if all primary analyses are shown statistically significant at the 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by analysis center, using general association statistics||"null hypothesis: no difference in Success rate in two treatment groups (adapalene/benzoyl peroxide vs Topical Gel Vehicle).~power calculation: 90%"||||<0.001
82426475|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.5871|TWO_SIDED|95.0|0.7|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||2.1|0.7|0.5871
82412455|NCT01138735|164533686|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustment for multiplicity is required. The tests will be conducted as two-sided, each at the 0.05 significance level. The trial will be claimed 'positive' if all primary analyses are shown statistically significant at the 0.05 level.|ANCOVA|normality assumption is not met. ANCOVA Model: Ranked Change in Total Lesion Counts = Ranked Baseline Lesion Counts, Analysis Center, Treatment.||null hypothesis: no difference in change from baseline in total lesion count in two treatment groups (adapalene/benzoyl peroxide vs Topical Gel Vehicle)||||<0.001
82412456|NCT01138735|164533687|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|CMH test with row mean difference statistic using relative to an identified distribution(RIDIT) score, controlling for analysis center||||||<0.001
82412457|NCT01138735|164533688|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Ranked Change in Inflammatory Lesion Counts = Ranked Baseline Inflammatory Lesion Counts, Analysis Center, Treatment||||||<0.001
82412458|NCT05473039|164533704|SUPERIORITY|||||||0.2629|||||||Wilcoxon (Mann-Whitney)|||||||0.2629
82412459|NCT05473039|164533705|SUPERIORITY|||||||0.3582|||||||Wilcoxon (Mann-Whitney)|||||||0.3582
82412460|NCT05473039|164533706|SUPERIORITY|||||||0.2187|||||||Wilcoxon (Mann-Whitney)|||||||0.2187
82412461|NCT05473039|164533707|SUPERIORITY|||||||0.3005|||||||Wilcoxon (Mann-Whitney)|||||||0.3005
82412462|NCT05473039|164533708|SUPERIORITY|||||||0.0314|||||||Wilcoxon (Mann-Whitney)|||||||0.0314
82412463|NCT05473039|164533709|SUPERIORITY|||||||0.9214|||||||t-test, 2 sided|||||||0.9214
82412464|NCT05473039|164533709|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||Fasting glucose at the start of COH compared to baseline fasting glucose.||||0.042
82412465|NCT05473039|164533709|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Fasting glucose at the start of COH compared to baseline fasting glucose.||||<0.001
82412466|NCT05473039|164533710|SUPERIORITY|||||||0.59695|||||||t-test, 2 sided|||||||0.59695
82412467|NCT05473039|164533710|SUPERIORITY|||||||0.466503|||||||t-test, 2 sided|||AST at the start of COH compared to baseline AST.||||0.466503
82412468|NCT05473039|164533710|SUPERIORITY|||||||0.959877|||||||t-test, 2 sided|||AST at the start of COH compared to baseline AST.||||0.959877
82412469|NCT05473039|164533711|SUPERIORITY|||||||0.06281|||||||t-test, 2 sided|||||||0.062810
82412470|NCT05473039|164533711|SUPERIORITY|||||||0.417757|||||||t-test, 2 sided|||ALT at the start of COH compared to baseline ALT.||||0.417757
82412471|NCT05473039|164533711|SUPERIORITY|||||||0.968525|||||||t-test, 2 sided|||ALT at the start of COH compared to baseline ALT.||||0.968525
82412472|NCT05473039|164533712|SUPERIORITY|||||||0.686488|||||||t-test, 2 sided|||||||0.686488
82412473|NCT05473039|164533712|SUPERIORITY|||||||0.39512|||||||t-test, 2 sided|||Cholesterol at the start of COH compared to baseline cholesterol.||||0.395120
82412474|NCT05473039|164533712|SUPERIORITY|||||||0.127135|||||||t-test, 2 sided|||Cholesterol at the start of COH compared to baseline cholesterol.||||0.127135
82412475|NCT05473039|164533713|SUPERIORITY|||||||0.257496|||||||t-test, 2 sided|||||||0.257496
82412476|NCT04279483|164533740|SUPERIORITY|Linear mixed effects|Slope|-0.64|STANDARD_ERROR_OF_MEAN|1.95||0.74|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the Nontobacco retailer group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.74
82412477|NCT04279483|164533740|SUPERIORITY|Linear mixed effects|Slope|-0.84|STANDARD_ERROR_OF_MEAN|2.12||0.69|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the control group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.69
82412478|NCT04279483|164533741|SUPERIORITY|Linear mixed effects|Slope|-0.37|STANDARD_ERROR_OF_MEAN|0.54||0.49|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that cigarettes smoked would be higher for those in the Tobacco retailer group, relative to the Nontobacco retailer group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.49
82412479|NCT04279483|164533741|SUPERIORITY|Linear mixed effects|Slope|0.21|STANDARD_ERROR_OF_MEAN|0.59||0.72|TWO_SIDED|||||Statistical significance was evaluated at α = 0.05.|Mixed Models Analysis|||Our hypothesis was that craving would be higher for those in the Tobacco retailer group, relative to the control group, during the intervention phase but not the baseline phase. We tested the interaction between study phase and experimental condition, in a model where the baseline was the reference study phase and Tobacco group was the reference experimental condition.||||0.72
82412480|NCT02763566|164533776|SUPERIORITY||Hazard Ratio (HR)|0.499||||0.0001|TWO_SIDED|95.0|0.346|0.719|||Log Rank|||||0.719|0.346|0.0001
82412481|NCT02763566|164533777|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.24|0.588|||Log Rank|||||0.588|0.240|<0.0001
82412482|NCT02763566|164533779|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82412483|NCT02763566|164533779|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82412484|NCT02763566|164533781|SUPERIORITY|||||||0.0456|||||||Cochran-Mantel-Haenszel|||||||0.0456
82412485|NCT02763566|164533781|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
82412486|NCT02763566|164533782|SUPERIORITY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82412487|NCT02763566|164533782|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82412488|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-1.89|STANDARD_ERROR_OF_MEAN|1.77||0.287|TWO_SIDED|95.0|-5.36|1.59|||Mixed Models Analysis|||Global Health Status||1.59|-5.36|0.287
82412489|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.46||0.597|TWO_SIDED|95.0|-3.64|2.1|||Mixed Models Analysis|||Functional Scales - Physical functioning||2.10|-3.64|0.597
82412490|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-0.31|STANDARD_ERROR_OF_MEAN|2.15||0.885|TWO_SIDED|95.0|-4.55|3.93|||Mixed Models Analysis|||Functional Scales - Role Functioning||3.93|-4.55|0.885
82412491|NCT02763566|164533783|SUPERIORITY||LSMean Difference|1.67|STANDARD_ERROR_OF_MEAN|1.74||0.34|TWO_SIDED|95.0|-1.77|5.1|||Mixed Models Analysis|||Functional Scales - Emotional Functioning||5.10|-1.77|0.340
82412492|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.17|STANDARD_ERROR_OF_MEAN|1.62||0.182|TWO_SIDED|95.0|-5.37|1.03|||Mixed Models Analysis|||Functional Scales - Cognitive Functioning||1.03|-5.37|0.182
82412493|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-0.88|STANDARD_ERROR_OF_MEAN|2.12||0.678|TWO_SIDED|95.0|-5.05|3.29|||Mixed Models Analysis|||||3.29|-5.05|0.678
82412494|NCT02763566|164533783|SUPERIORITY||LSMean Difference|1.57|STANDARD_ERROR_OF_MEAN|1.7||0.355|TWO_SIDED|95.0|-1.77|4.91|||Mixed Models Analysis|||Symptom Scales - Fatigue||4.91|-1.77|0.355
82412495|NCT02763566|164533783|SUPERIORITY||LSMean Difference|0.95|STANDARD_ERROR_OF_MEAN|1.06||0.372|TWO_SIDED|95.0|-1.14|3.03|||Mixed Models Analysis|||Symptom Scales - Nausea and Vomiting||3.03|-1.14|0.372
82412496|NCT02763566|164533783|SUPERIORITY||LSMean Difference|0.74|STANDARD_ERROR_OF_MEAN|1.63||0.74|TWO_SIDED|95.0|-3.75|2.66|||Mixed Models Analysis|||Symptom Scales - Pain||2.66|-3.75|0.740
82412497|NCT02763566|164533783|SUPERIORITY||LSMean Difference|2.16|STANDARD_ERROR_OF_MEAN|1.84||0.24|TWO_SIDED|95.0|-1.46|5.78|||Mixed Models Analysis|||Symptom Scales - Dyspnoea||5.78|-1.46|0.240
82412498|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-0.81|STANDARD_ERROR_OF_MEAN|1.92||0.673|TWO_SIDED|95.0|-4.6|2.97|||Mixed Models Analysis|||Symptom scales - Insomnia||2.97|-4.60|0.673
82412499|NCT02763566|164533783|SUPERIORITY||LSMean Difference|5.65|STANDARD_ERROR_OF_MEAN|1.74||0.001|TWO_SIDED|95.0|2.23|9.07|||Mixed Models Analysis|||Symptom Scales - Appetite||9.07|2.23|0.001
82412500|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.76||0.375|TWO_SIDED|95.0|-5.04|1.91|||Mixed Models Analysis|||Symptom Scales - Constipation||1.91|-5.04|0.375
82412501|NCT02763566|164533783|SUPERIORITY||LSMean Difference|15.82|STANDARD_ERROR_OF_MEAN|1.53||0|TWO_SIDED|95.0|12.81|18.84|||Mixed Models Analysis|||Symptom Scales - Diarrhoea||18.84|12.81|0.000
82412502|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-1.75|STANDARD_ERROR_OF_MEAN|2.97||0.557|TWO_SIDED|95.0|-7.59|4.1|||Mixed Models Analysis|||Symptom Scales - Financial Difficulties||4.10|-7.59|0.557
82412503|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-3.47|STANDARD_ERROR_OF_MEAN|2.51||0.169|TWO_SIDED|95.0|-8.43|1.49|||Mixed Models Analysis|||Global Health Status||1.49|-8.43|0.169
82412504|NCT02763566|164533783|SUPERIORITY||LSMean Difference|1.58|STANDARD_ERROR_OF_MEAN|1.87||0.4|TWO_SIDED|95.0|-2.12|5.29|||Mixed Models Analysis|||Functional Scales - Physical Functioning||5.29|-2.12|0.400
82412505|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-1.72|STANDARD_ERROR_OF_MEAN|2.38||0.472|TWO_SIDED|95.0|-6.42|2.99|||Mixed Models Analysis|||Functional Scales - Role functioning||2.99|-6.42|0.472
82412506|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.42|STANDARD_ERROR_OF_MEAN|0.31||0.31|TWO_SIDED|95.0|-7.12|2.28|||Mixed Models Analysis|||Functional Scales - Emotional Functioning||2.28|-7.12|0.310
82412507|NCT02763566|164533783|SUPERIORITY||LSMean Difference|0.64|STANDARD_ERROR_OF_MEAN|2.98||0.83|TWO_SIDED|95.0|-5.26|6.55|||Mixed Models Analysis|||Functional Scales - Social Functioning||6.55|-5.26|0.830
82412508|NCT02763566|164533783|SUPERIORITY||LSMean Difference|2.73|STANDARD_ERROR_OF_MEAN|2.52||0.281|TWO_SIDED|95.0|-2.26|7.72|||Mixed Models Analysis|||Symptom Scales - Fatigue||7.72|-2.26|0.281
82412509|NCT02763566|164533783|SUPERIORITY||LSMean Difference|2.59|STANDARD_ERROR_OF_MEAN|1.99||0.194|TWO_SIDED|95.0|-1.33|6.52|||Mixed Models Analysis|||Symptom Scales - Nausea and Vomiting||6.52|-1.33|0.194
82412510|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.66|STANDARD_ERROR_OF_MEAN|2.42||0.275|TWO_SIDED|95.0|-7.45|2.14|||Mixed Models Analysis|||Symptom Scales - Pain||2.14|-7.45|0.275
82412511|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.49|STANDARD_ERROR_OF_MEAN|4.39||0.28|TWO_SIDED|95.0|-7.04|2.06|||Mixed Models Analysis|||Symptom Scales - Dyspnoea||2.06|-7.04|0.280
82412512|NCT02763566|164533783|SUPERIORITY||LSMean Difference|1.97|STANDARD_ERROR_OF_MEAN|2.9||0.499|TWO_SIDED|95.0|-3.78|7.72|||Mixed Models Analysis|||Symptom Scales - Insomnia||7.72|-3.78|0.499
82412513|NCT02763566|164533783|SUPERIORITY||LSMean Difference|7.46|STANDARD_ERROR_OF_MEAN|2.92||0.012|TWO_SIDED|95.0|1.68|13.23|||Mixed Models Analysis|||Symptom Scales - Appetite||13.23|1.68|0.012
82412514|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.28|STANDARD_ERROR_OF_MEAN|2.29||0.321|TWO_SIDED|95.0|-6.83|2.27|||Mixed Models Analysis|||Symptom Scales - Constipation||2.27|-6.83|0.321
82412515|NCT02763566|164533783|SUPERIORITY||LSMean Difference|17.83|STANDARD_ERROR_OF_MEAN|2.32||0|TWO_SIDED|95.0|13.25|22.41|||Mixed Models Analysis|||Symptom Scales - Diarrhoea||22.41|13.25|0.000
82412516|NCT02763566|164533783|SUPERIORITY||LSMean Difference|2.99|STANDARD_ERROR_OF_MEAN|3.14||0.342|TWO_SIDED|95.0|-3.21|9.19|||Mixed Models Analysis|||Symptom Scales - Financial DIfficulties||9.19|-3.21|0.342
82412517|NCT02763566|164533783|SUPERIORITY||LSMean Difference|-2.42|STANDARD_ERROR_OF_MEAN|2.38||0.31|TWO_SIDED|95.0|-7.12|2.28|||Mixed Models Analysis|||Functional Scales - Cognitive functioning||2.28|-7.12|0.310
82412518|NCT04896385|164533786|OTHER|||||||0.004|||||||repeated measures correlation|||F-VASI||||0.004
82412519|NCT04896385|164533786|OTHER|||||||0.41|||||||repeated measures correlation|||F-VASI||||0.41
82412520|NCT04896385|164533786|OTHER|||||||0.0002|||||||repeated measures correlation|||T-VASI||||0.0002
82412521|NCT04896385|164533786|OTHER|||||||0.91|||||||repeated measures correlation|||T-VASI||||0.91
82412522|NCT00879658|164533857|SUPERIORITY||Negative binomial regression model|0.524||||0.148|TWO_SIDED|95.0|0.219|1.257||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.|||An ARR-ratio \<1 favors active treatment.|1.257|0.219|0.148
82412523|NCT00879658|164533857|SUPERIORITY||Negative binomial regression model|0.34||||0.041|TWO_SIDED|95.0|0.121|0.956||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.||||0.956|0.121|0.041
82412524|NCT00879658|164533857|SUPERIORITY||Negative binomial regression model|1.051||||0.899|TWO_SIDED|95.0|0.486|2.273||Pairwise comparison and p-values refer to ARR on active treatment compared to placebo. An ARR-ratio \<1 favors active treatment.|Mixed Models Analysis|Treatment compared to placebo based on negative binomial regression model, adjusted for treatment group and baseline number of relapses in prev 2 yrs.||||2.273|0.486|0.899
82412525|NCT00879658|164533858|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.915||||0.879|TWO_SIDED|95.0|0.288|2.925|||Regression, Logistic|"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."||||2.925|0.288|0.879
82412526|NCT00879658|164533858|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.745||||0.399|TWO_SIDED|95.0|0.484|7.167||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||7.167|0.484|0.399
82412527|NCT00879658|164533858|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.697||||0.454|TWO_SIDED|95.0|0.438|8.296||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||8.296|0.438|0.454
82412528|NCT00879658|164533858|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.509||||0.223|TWO_SIDED|95.0|0.166|1.511||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||1.511|0.166|0.223
82412529|NCT00879658|164533858|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|0.785||||0.668|TWO_SIDED|95.0|0.253|2.392||"Proportions are estimated from the logistic regression model.~\- An odds ratio of \> 1 indicates an increased odds in favor of the active treatment."|Regression, Logistic|||||2.392|0.253|0.668
82412530|NCT00879658|164533859|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.996||||0.178|TWO_SIDED|95.0|0.731|5.669|||Regression, Logistic|Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.||||5.669|0.731|0.178
82412531|NCT00879658|164533859|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|4.12||||0.014|TWO_SIDED|95.0|1.328|14.681||Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.|Regression, Logistic|||||14.681|1.328|0.014
82412532|NCT00879658|164533859|OTHER|Pairwise comparison of treatments to placebo are based on odds ratios estimated from a logistic regression model adjusted for treatment group and using number of relapses in the previous 2 years as a covariate.|Logistic regression model|1.266||||0.642|TWO_SIDED|95.0|0.468|3.494||Proportions are estimated from the logistic regression model. - An odds ratio of \> 1 indicates an increased odds in favor of the active treatment.|Regression, Logistic|||||3.494|0.468|0.642
82412533|NCT00879658|164533860|SUPERIORITY||lesion ratio|0.138|||<|0.001|TWO_SIDED|95.0|0.047|0.408|||Regression, Logistic|new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model||Pairwise treatment comparison between different BAF312 dose groups and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.408|0.047|<0.001
82412534|NCT00879658|164533860|SUPERIORITY||lesion ratio|0.307||||0.012|TWO_SIDED|95.0|0.123|0.771||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.771|0.123|0.012
82412535|NCT00879658|164533860|SUPERIORITY||lesion ratio|0.113|||<|0.001|TWO_SIDED|95.0|0.036|0.358||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.358|0.036|<0.001
82412536|NCT00879658|164533860|SUPERIORITY||lesion ratio|0.375||||0.021|TWO_SIDED|95.0|0.163|0.86||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.860|0.163|0.021
82412537|NCT00879658|164533860|SUPERIORITY||lesion ratio|0.478||||0.062|TWO_SIDED|95.0|0.22|1.037||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.037|0.220|0.062
82426476|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.3|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Low Disease Activity||6.1|2.3|<0.0001
82576429|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8186||||0.6681|TWO_SIDED|95.0|-4.56|2.92|||Mixed Models Analysis|||QLQ-C30 financial difficulties: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||2.92|-4.56|0.6681
82412538|NCT00879658|164533861|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|Lesion ratio|0.154|||<|0.001|TWO_SIDED|95.0|0.063|0.376|||Regression, Logistic|new lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model||||0.376|0.063|<0.001
82412539|NCT00879658|164533861|SUPERIORITY||lesion ratio|0.228||||0.005|TWO_SIDED|95.0|0.081|0.641||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.641|0.081|0.005
82412540|NCT00879658|164533861|SUPERIORITY||lesion ratio|0.188|||<|0.001|TWO_SIDED|95.0|0.07|0.509||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.509|0.070|<0.001
82412541|NCT00879658|164533862|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.279||||0.002|TWO_SIDED|95.0|0.124|0.628||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.628|0.124|0.002
82412542|NCT00879658|164533862|SUPERIORITY||lesion ratio|0.396||||0.019|TWO_SIDED|95.0|0.182|0.861||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.861|0.182|0.019
82412543|NCT00879658|164533862|SUPERIORITY||lesion ratio|0.154|||<|0.001|TWO_SIDED|95.0|0.059|0.4||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.400|0.059|<0.001
82412544|NCT00879658|164533862|SUPERIORITY||lesion ratio|0.454||||0.035|TWO_SIDED|95.0|0.219|0.945||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.945|0.219|0.035
82412545|NCT00879658|164533862|SUPERIORITY||lesion ratio|0.555||||0.087|TWO_SIDED|96.0|0.283|1.09||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.090|0.283|0.087
82412546|NCT00879658|164533863|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.095|||<|0.001|TWO_SIDED|95.0|0.033|0.273||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.273|0.033|<0.001
82412547|NCT00879658|164533863|SUPERIORITY||lesion ratio|0.18|||<|0.001|TWO_SIDED|95.0|0.069|0.47||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.470|0.069|<0.001
82412548|NCT00879658|164533863|SUPERIORITY||lesion ratio|0.173|||<|0.001|TWO_SIDED|95.0|0.069|0.434||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.434|0.069|<0.001
82412549|NCT00879658|164533864|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.259||||0.005|TWO_SIDED|95.0|0.1|0.67||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.670|0.100|0.005
82412550|NCT00879658|164533864|SUPERIORITY||lesion ratio|0.276||||0.005|TWO_SIDED|95.0|0.112|0.676||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.676|0.112|0.005
82412551|NCT00879658|164533864|SUPERIORITY||lesion ratio|0.118|||<|0.001|TWO_SIDED|95.0|0.034|0.409||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.409|0.034|<0.001
82412552|NCT00879658|164533864|SUPERIORITY||lesion ratio|0.683||||0.485|TWO_SIDED|95.0|0.234|1.991||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.991|0.234|0.485
82412553|NCT00879658|164533864|SUPERIORITY||lesion ratio|0.591||||0.142|TWO_SIDED|95.0|0.292|1.193||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.193|0.292|0.142
82532362|NCT03844321|164762183|SUPERIORITY||Difference in Slopes|-0.08||||0.11|TWO_SIDED|95.0|-0.18|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1147|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|We used a linear mixed effects model to examine the difference in effect of time on weekly WHO-5 scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks. This model accounts for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing assessment scores. The model includes a random slope and intercept, and fixed effects for intervention, time, and an intervention by time interaction.||0.02|-0.18|.110
82532363|NCT03844321|164762184|SUPERIORITY||Difference in Slopes|-0.03||||0.284|TWO_SIDED|95.0|-0.07|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df= 1726|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PSS scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.02|-0.07|.284
82412554|NCT00879658|164533865|SUPERIORITY|Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.|lesion ratio|0.161|||<|0.001|TWO_SIDED|95.0|0.062|0.421||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model|Regression, Logistic|||||0.421|0.062|<0.001
82412555|NCT00879658|164533865|SUPERIORITY||lesion ratio|0.197||||0.001|TWO_SIDED|95.0|0.074|0.527||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||0.527|0.074|0.001
82412556|NCT00879658|164533865|SUPERIORITY||lesion ratio|0.416||||0.139|TWO_SIDED|95.0|0.13|1.331||new Gd-enhanced T1 lesions was compared between treatment groups using a negative binomial generalized estimating equation regression model.|Regression, Logistic|||Pairwise treatment comparison between different BAF312 dose group and placebo used a two-sided significance level of 5% without adjusting for multiplicity.||1.331|0.130|0.139
82412557|NCT00879658|164533866|SUPERIORITY|||||||0.227||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.227
82412558|NCT00879658|164533866|SUPERIORITY|||||||0.02||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.020
82412559|NCT00879658|164533866|SUPERIORITY|||||||0.001||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.001
82412560|NCT00879658|164533866|SUPERIORITY|||||||0.122||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.122
82412561|NCT00879658|164533866|SUPERIORITY|||||||0.034||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.034
82412562|NCT00879658|164533867|SUPERIORITY|||||||0.335||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.335
82412563|NCT00879658|164533867|SUPERIORITY|||||||0.022||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.022
82412564|NCT00879658|164533867|SUPERIORITY|||||||0.124||||||Calculated using weighted logistic regression model adj. for tx group and baseline number of Gd-enhanced T1 lesions. Weight used is equal to 1 if all post-baseline scans up to month 3 are available and (k-x)/k if x scans out of k scans are missing.|Regression, Logistic|||||||0.124
82412565|NCT00879658|164533868|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.129||||0.006|TWO_SIDED|95.0|0.03|0.561||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.561|0.030|0.006
82412566|NCT00879658|164533868|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.159||||0.005|TWO_SIDED|95.0|0.044|0.578||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.578|0.044|0.005
82412567|NCT00879658|164533868|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.052||||0.005|TWO_SIDED|95.0|0.007|0.405||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.405|0.007|0.005
82576430|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.043|||<|0.0001|TWO_SIDED|95.0|-14.22|-5.87|||Mixed Models Analysis|||QLQ-C30 insomnia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-5.87|-14.22|<0.0001
82532364|NCT03844321|164762184|SUPERIORITY||Difference in Slopes|0.01||||0.394|TWO_SIDED|95.0|-0.01|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1018|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PSS scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|-0.01|.394
82412568|NCT00879658|164533868|SUPERIORITY||lesion ratio|0.271||||0.019|TWO_SIDED|95.0|0.091|0.807||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.||0.807|0.091|0.019
82412569|NCT00879658|164533868|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.504||||0.169|TWO_SIDED|95.0|0.19|1.337||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||1.337|0.190|0.169
82412570|NCT00879658|164533869|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.214|||<|0.001|TWO_SIDED|95.0|0.091|0.499||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.499|0.091|<0.001
82412571|NCT00879658|164533869|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.24||||0.018|TWO_SIDED|95.0|0.074|0.779||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.779|0.074|0.018
82412572|NCT00879658|164533869|SUPERIORITY|Pairwise comparison of treatments are based on a negative binomial GEE regression model accounting for repeated measures on each patient, adjusted for baseline number of Gd-enhanced T1 lesions and treatment group x month (the month number of each lesion count measurement) interaction, using the log link.|lesion ratio|0.231||||0.006|TWO_SIDED|95.0|0.081|0.653||p-value corresponds to the lesion ratio and 95% CI of lesion ratio for active treatment in comparison to placebo.|Regression, Logistic|||||0.653|0.081|0.006
82412573|NCT00157755|164533962|SUPERIORITY_OR_OTHER|||||||0.215||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in the frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.215
82412574|NCT00157755|164533962|SUPERIORITY_OR_OTHER|||||||1||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in the frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in frequency of weekly vomiting episodes from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||1.0
82412575|NCT00157755|164533963|SUPERIORITY_OR_OTHER|||||||0.903||||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.903
82412576|NCT00157755|164533963|SUPERIORITY_OR_OTHER|||||||0.932||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ = 0;~Alternative hypothesis: There was a change in total symptom score from when stimulation was turned OFF to when stimulation was turned ON, µ ≠ 0"||||0.932
82412577|NCT00157755|164533964|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change from baseline in the long-term frequency of weekly vomiting episodes, µ = 0;~Alternative hypothesis: There was a change from baseline in the long-term frequency of weekly vomiting episodes, µ ≠ 0"||||<0.001
82576431|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4446||||0.0468|TWO_SIDED|95.0|-6.84|-0.05|||Mixed Models Analysis|||QLQ-C30 nausea and vomiting: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-0.05|-6.84|0.0468
82426477|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.52|||<|0.0001|TWO_SIDED|95.0|3.9|11.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||11.0|3.9|<0.0001
82576432|NCT01154140|164862437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.9277|||<|0.0001|TWO_SIDED|95.0|-13.23|-6.62|||Mixed Models Analysis|||QLQ-C30 pain: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects).||-6.62|-13.23|<0.0001
82426478|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.6716|TWO_SIDED|95.0|0.6|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||2.0|0.6|0.6716
82412578|NCT00157755|164533964|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change from baseline in the long-term frequency of weekly vomiting episodes, µ = 0;~Alternative hypothesis: There was a change from baseline in the long-term frequency of weekly vomiting episodes, µ ≠ 0"||||<0.001
82412579|NCT00157755|164533965|SUPERIORITY_OR_OTHER|||||||0.014||||||A one-sided significance level of 0.025 was applied to the test. No adjustments were made for multiple comparisons.|binomial, 1 sided|||"Null hypothesis: The percentage of responders was less than or equal to 50%;~Alternative hypothesis: The percentage of responders was greater than 50%"||||0.014
82412580|NCT00157755|164533965|SUPERIORITY_OR_OTHER||||||<|0.001||||||A one-sided significance level of 0.025 was applied to the test. No adjustments were made for multiple comparisons.|binomial, 1 sided|||"Null hypothesis: The percentage of responders was less than or equal to 50%;~Alternative hypothesis: The percentage of responders was greater than 50%"||||<0.001
82412581|NCT00157755|164533966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in total symptom score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in total symptom score from baseline to 12 months, µ ≠ 0"||||<0.001
82412582|NCT00157755|164533966|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in total symptom score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in total symptom score from baseline to 12 months, µ ≠ 0"||||<0.001
82412583|NCT00157755|164533967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in PCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in PCS score from baseline to 12 months, µ ≠ 0"||||<0.001
82412584|NCT00157755|164533967|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in PCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in PCS score from baseline to 12 months, µ ≠ 0"||||0.043
82412585|NCT00157755|164533968|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in MCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in MCS score from baseline to 12 months, µ ≠ 0"||||0.009
82412586|NCT00157755|164533968|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Paired t-test|||"Null hypothesis: There was no change in MCS score from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in MCS score from baseline to 12 months, µ ≠ 0"||||0.001
82412587|NCT00157755|164533969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 2-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 2-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||<0.001
82412588|NCT00157755|164533969|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 2-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 2-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||<0.001
82412589|NCT00157755|164533970|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 4-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 4-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||0.016
82412590|NCT00157755|164533970|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||A significance level of 0.05 was applied to the test. No adjustments were made for multiple comparisons.|Wilcoxon Signed Rank Test|||"Null hypothesis: There was no change in 4-hour gastric emptying from baseline to 12 months, µ = 0;~Alternative hypothesis: There was a change in 4-hour gastric emptying from baseline to 12 months, µ ≠ 0"||||0.236
82412591|NCT01719653|164533975|OTHER||||||<|0.005||||||Chicago BPS Total Score -- 1 was lower than 3,4,5; 2 was lower than 5. Modified Chicago BPS Total Score -- 1 were lower than 5. Chicago BPS Fluid Score -- 1 was dryer than 3,4,5; 2 was dryer than 3,4,5; 3 was wetter than 4,5.|t-test, 2 sided|||"All 5 arms were compared pair-wise.~1=G+PEG-306 2=G+PEG-357 3=G+PEG-Split 4=PEG+Asc-Split 5=SS-Split"||||<0.005
82412592|NCT01719653|164533976|OTHER||||||<|0.001||||||1 was lower than 4,5.|t-test, 2 sided|||"All 5 arms were compared pair-wise.~1=G+PEG-306 2=G+PEG-357 3=G+PEG-Split 4=PEG+Asc-Split 5=SS-Split"||||<0.001
82412593|NCT01719653|164533977|OTHER||||||>|0.005|||||||Chi-squared|||All 5 arms were compared pair-wise.||||>0.005
82447035|NCT03429543|164602795|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
82412594|NCT04357795|164533978|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
82412595|NCT04357795|164533979|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
82412596|NCT04357795|164533980|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
82412597|NCT04357795|164533981|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
82412598|NCT04357795|164533982|OTHER|Single group analysis||||||0.0323|||||||Paired t-test|OD- Right eye p value||||||0.0323
82412599|NCT04357795|164533982|OTHER|Single group analysis||||||0.3447||||||OS: P-Value|Paired t-test|||||||0.3447
82412600|NCT04357795|164533983|OTHER|Single group analysis|||||<|0.0001|||||||Paired t-test|||||||<0.0001
82532365|NCT03844321|164762185|SUPERIORITY||Difference in Slopes|0.03||||0.431|TWO_SIDED|95.0|-0.04|0.09||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1591|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Depression Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.09|-0.04|.431
82412601|NCT04357795|164533984|OTHER|Single group analysis||||||0.0029|||||||Paired t-test|||||||0.0029
82412602|NCT02629159|164534013|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|34.1|||<|0.001|TWO_SIDED|95.0|29.0|39.2||This comparison was the primary analysis for US/FDA regulatory purposes, and a ranked key secondary endpoint for EU/EMA regulatory purposes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||39.2|29.0|<0.001
82412603|NCT02629159|164534013|SUPERIORITY||Response Rate Difference|7.5||||0.018|TWO_SIDED|95.0|1.2|13.8||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||13.8|1.2|0.018
82412604|NCT02629159|164534014|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|22.6|||<|0.001|TWO_SIDED|95.0|18.6|26.5||This comparison was the primary analysis for EU/EMA regulatory purposes, and a ranked key secondary endpoint for US/FDA regulatory purposes.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||26.5|18.6|<0.001
82412605|NCT02629159|164534014|SUPERIORITY||Response Rate Difference|10.7|||<|0.001|TWO_SIDED|95.0|5.3|16.1||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.1|5.3|<0.001
82412606|NCT02629159|164534015|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-1.33|||<|0.001|TWO_SIDED|95.0|-1.469|-1.194||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, prior biological DMARD use, and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-1.194|-1.469|<0.001
82412607|NCT02629159|164534015|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.638|-0.295||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||-0.295|-0.638|<0.001
82412608|NCT02629159|164534016|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.97|-0.37||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.37|-0.97|<0.001
82412609|NCT02629159|164534016|SUPERIORITY||LS Mean Difference|0.14||||0.448|TWO_SIDED|95.0|-0.23|0.51||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||0.51|-0.23|0.448
82412610|NCT02629159|164534017|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.372|-0.253||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Placebo|||-0.253|-0.372|<0.001
82412611|NCT02629159|164534017|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-0.11||||0.004|TWO_SIDED|95.0|-0.184|-0.036||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|ANCOVA|ANCOVA model with treatment, prior biological DMARD use and Baseline value as covariates.|Treatment Difference = Upadacitinib - Adalimumab|||-0.036|-0.184|0.004
82412612|NCT02629159|164534018|NON_INFERIORITY|A non-inferiority test of upadacitinib versus adalimumab was evaluated using the lower bound of the 95% confidence interval (CI) of the treatment difference against a non-inferiority margin of 10%. This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Response Rate Difference|16.1|||||TWO_SIDED|95.0|9.9|22.3|||||Response Rate Difference = Upadacitinib - Adalimumab|||22.3|9.9|
82426479|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|95.0|3.4|8.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Low Disease Activity||8.6|3.4|<0.0001
82412613|NCT02629159|164534018|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|||||<|0.001||||||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.||||||<0.001
82412614|NCT02629159|164534018|SUPERIORITY||Response Rate Difference|30.3|||<|0.001|TWO_SIDED|95.0|25.6|35.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||35.0|25.6|<0.001
82412615|NCT02629159|164534019|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|4.33|||<|0.001|TWO_SIDED|95.0|3.52|5.15||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.15|3.52|<0.001
82412616|NCT02629159|164534019|SUPERIORITY||LS Mean Difference|1.62||||0.002|TWO_SIDED|95.0|0.62|2.62||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||2.62|0.62|0.002
82412617|NCT02629159|164534020|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|26.5|35.8||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||35.8|26.5|<0.001
82412618|NCT02629159|164534020|NON_INFERIORITY|A non-inferiority test of upadacitinib versus adalimumab was evaluated using the lower bound of the 95% confidence interval (CI) of the treatment difference against a non-inferiority margin of 10%. This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for EU/EMA only.|Response Rate Difference|16.3|||||TWO_SIDED|95.0|10.0|22.5|||||Response Rate Difference = Upadacitinib - Adalimumab|||22.5|10.0|
82412619|NCT02629159|164534020|SUPERIORITY||||||<|0.001||||||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use||||||<0.001
82412620|NCT02629159|164534021|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|24.1|||<|0.001|TWO_SIDED|95.0|19.4|28.8||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.|Response Rate Difference = Upadacitinib - Placebo|||28.8|19.4|<0.001
82412621|NCT02629159|164534021|SUPERIORITY||Response Rate Difference|10.4||||0.001|TWO_SIDED|95.0|4.2|16.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.7|4.2|0.001
82412622|NCT02629159|164534022|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-44.04|||<|0.001|TWO_SIDED|95.0|-55.39|-32.69||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-32.69|-55.39|<0.001
82412623|NCT02629159|164534022|SUPERIORITY||LS Mean Difference|-9.92||||0.164|TWO_SIDED|95.0|-23.89|4.05||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||4.05|-23.89|0.164
82426480|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.62|||<|0.0001|TWO_SIDED|95.0|2.8|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||7.6|2.8|<0.0001
82426481|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.9399|TWO_SIDED|95.0|0.5|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||1.5|0.5|0.9399
82426482|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.78|||<|0.0001|TWO_SIDED|95.0|3.0|7.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Low Disease Activity||7.7|3.0|<0.0001
82532366|NCT03844321|164762185|SUPERIORITY||Difference in Slopes|0.05|||<|0.001|TWO_SIDED|95.0|0.02|0.08||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1159|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Depression Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.08|0.02|<.001
82412624|NCT02629159|164534023|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|4.15|||<|0.001|TWO_SIDED|95.0|3.13|5.16||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA and EU/EMA.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate|Treatment Difference = Upadacitinib - Placebo|||5.16|3.13|<0.001
82412625|NCT02629159|164534023|SUPERIORITY||LS Mean Difference|1.51||||0.017|TWO_SIDED|95.0|0.27|2.76||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||2.76|0.27|0.017
82412626|NCT02629159|164534024|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|LS Mean Difference|-6.45|||<|0.001|TWO_SIDED|95.0|-9.63|-3.27||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for US/FDA only.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-3.27|-9.63|<0.001
82412627|NCT02629159|164534024|SUPERIORITY||LS Mean Difference|-16.3|||<|0.001|TWO_SIDED|95.0|-18.89|-13.71||This comparison was not part of the pre-specified multiplicity testing sequence.|Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit, and treatment-by-visit interaction, previous bDMARD use, and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-13.71|-18.89|<0.001
82412628|NCT02629159|164534025|SUPERIORITY|In order to preserve Type I error, a step-down approach was used to test the primary and ranked key secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.|Response Rate Difference|7.5|||<|0.001|TWO_SIDED|95.0|3.0|12.1||This comparison was a ranked key secondary endpoint in the pre-specified multiplicity testing sequence for EU/EMA only.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||12.1|3.0|<0.001
82412629|NCT02629159|164534025|SUPERIORITY||Response Rate Difference|-3.4||||0.187|TWO_SIDED|95.0|-8.2|1.5||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use.|Response Rate Difference = Upadacitinib - Adalimumab|||1.5|-8.2|0.187
82412630|NCT02629159|164534026|SUPERIORITY||Response Rate Difference|20.0|||<|0.001|TWO_SIDED|95.0|16.3|23.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Placebo|||23.7|16.3|<0.001
82412631|NCT02629159|164534026|SUPERIORITY||Response Rate Difference|11.4|||<|0.001|TWO_SIDED|95.0|6.5|16.4||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for the stratification factor of prior biological DMARD use|Response Rate Difference = Upadacitinib - Adalimumab|||16.4|6.5|<0.001
82412632|NCT05523297|164534030|NON_INFERIORITY|The test for non-inferiority was one-sided Farrington-Manning score test with non-inferiority margin 10% at a significance level of 2.5%. If the 95% CI for treatment effect not only lay above -10% (the non-inferiority margin) but also above 0, then there was evidence of superiority.|percent difference|17.55|||<|0.0001|TWO_SIDED|95.0|8.7|26.4|||Two-sided Farrington-Manning score test.||Difference between Octaplex and FP arms for effectiveness|||26.4|8.7|<0.0001
82412633|NCT05523297|164534031|OTHER||Odds Ratio (OR)|1.91||||0.0022|TWO_SIDED|95.0|1.26|2.88|||Regression, Logistic|||||2.88|1.26|0.0022
82412634|NCT05523297|164534032|OTHER||Least Squares Mean Difference|-170.73|||<|0.0001|TWO_SIDED|95.0|-250.24|-91.22|||ANOVA|||12 hours after chest closure||-91.22|-250.24|<0.0001
82412635|NCT05523297|164534032|OTHER||Least Squares Mean Difference|-231.92|||<|0.0001|TWO_SIDED|95.0|-338.17|-125.67|||ANOVA|||24 hours after chest closure||-125.67|-338.17|<0.0001
82412636|NCT05523297|164534033|OTHER||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.97|5.15|||Regression, Logistic|||Within 24 hours after IMP start||5.15|1.97|<0.0001
82412637|NCT05523297|164534033|OTHER||Odds Ratio (OR)|2.88|||<|0.0001|TWO_SIDED|95.0|1.83|4.52|||Regression, Logistic|||Within 24 hours after surgery start||4.52|1.83|<0.0001
82412638|NCT05523297|164534033|OTHER||Odds Ratio (OR)|3.19|||<|0.0001|TWO_SIDED|95.0|1.97|5.15|||Regression, Logistic|||Within 24 hours after CPB end||5.15|1.97|<0.0001
82412639|NCT05523297|164534034|OTHER||Mean ratio|0.48|||<|0.0001|TWO_SIDED|95.0|0.41|0.57|||Counting regression|||||0.57|0.41|<0.0001
82412640|NCT05523297|164534035|OTHER||Mean ratio|0.71||||0.0015|TWO_SIDED|95.0|0.57|0.88|||Counting regression|||||0.88|0.57|0.0015
82412641|NCT05523297|164534036|OTHER||Mean ratio|0.61||||0.001|TWO_SIDED|95.0|0.46|0.82|||Counting regression|||During the first 24 hours after IMP start||0.82|0.46|0.0010
82412642|NCT05523297|164534036|OTHER||Mean ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.45|0.76|||Counting regression|||During the first 7 days after IMP start||0.76|0.45|<0.0001
82412643|NCT05523297|164534037|OTHER||Mean ratio|0.04|||<|0.0001|TWO_SIDED|95.0|0.03|0.06|||Negative binomial regression|||FP including IMP (During the first 24 hours after IMP start)||0.06|0.03|<0.0001
82532367|NCT03844321|164762186|SUPERIORITY||Difference in Slopes|-0.01||||0.399|TWO_SIDED|95.0|-0.05|0.02||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1601|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Anxiety Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.02|-0.05|.399
82412644|NCT05523297|164534037|OTHER||Mean ratio|0.85||||0.8522|TWO_SIDED|95.0|0.15|4.82|||Negative binomial regression|||FP excluding IMP (During the first 24 hours after IMP start)||4.82|0.15|0.8522
82412645|NCT05523297|164534037|OTHER||Mean ratio|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||Negative binomial regression|||RBCs (During the first 24 hours after IMP start)||0.68|0.40|<0.0001
82412646|NCT05523297|164534037|OTHER||Mean ratio|0.65||||0.0169|TWO_SIDED|95.0|0.45|0.92|||Negative binomial regression|||Platelets (During the first 24 hours after IMP start)||0.92|0.45|0.0169
82412647|NCT05523297|164534037|OTHER||Mean ratio|0.57||||0.3288|TWO_SIDED|95.0|0.18|1.76|||Negative binomial regression|||Cryoprecipitate (During the first 24 hours after IMP start)||1.76|0.18|0.3288
82412648|NCT05523297|164534037|OTHER||Mean ratio|0.05|||<|0.0001|TWO_SIDED|95.0|0.04|0.06|||Negative binomial regression|||FP including IMP (During the first 7 days after IMP start)||0.06|0.04|<0.0001
82412649|NCT05523297|164534037|OTHER||Mean ratio|0.63||||0.5439|TWO_SIDED|95.0|0.14|2.84|||Negative binomial regression|||FP excluding IMP (During the first 7 days after IMP start)||2.84|0.14|0.5439
82412650|NCT05523297|164534037|OTHER||Mean ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.47|0.74|||Negative binomial regression|||Red blood cells (During the first 7 days after IMP start)||0.74|0.47|<0.0001
82412651|NCT05523297|164534037|OTHER||Mean ratio|0.58||||0.0042|TWO_SIDED|95.0|0.4|0.84|||Negative binomial regression|||Platelets (During the first 7 days after IMP start)||0.84|0.40|0.0042
82412652|NCT05523297|164534037|OTHER||Mean ratio|0.49||||0.2241|TWO_SIDED|95.0|0.15|1.56|||Negative binomial regression|||Cryoprecipitate (During the first 7 days after IMP start)||1.56|0.15|0.2241
82412653|NCT05523297|164534038|OTHER||Odds Ratio (OR)|0.9||||0.8364|TWO_SIDED|95.0|0.32|2.52|||Regression, Logistic|||FP excluding IMP (Within 24 hours after IMP start)||2.52|0.32|0.8364
82412654|NCT05523297|164534038|OTHER||Odds Ratio (OR)|2.11||||0.0002|TWO_SIDED|95.0|1.42|3.11|||Regression, Logistic|||RBCs (Within 24 hours after IMP start)||3.11|1.42|0.0002
82412655|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.31||||0.1742|TWO_SIDED|95.0|0.89|1.91|||Regression, Logistic|||Platelets (Within 24 hours after IMP start)||1.91|0.89|0.1742
82412656|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.4||||0.4618|TWO_SIDED|95.0|0.58|3.38|||Regression, Logistic|||Cryoprecipitate (Within 24 hours after IMP start)||3.38|0.58|0.4618
82412657|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.69||||0.0129|TWO_SIDED|95.0|1.12|2.55|||Regression, Logistic|||Any individual ABP (Within 24 hours after IMP start)||2.55|1.12|0.0129
82412658|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.58||||0.3297|TWO_SIDED|95.0|0.63|3.94|||Regression, Logistic|||FP excluding IMP (Within 7 days after IMP start)||3.94|0.63|0.3297
82412659|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.82||||0.0049|TWO_SIDED|95.0|1.2|2.76|||Regression, Logistic|||RBCs (Within 7 days after IMP start)||2.76|1.20|0.0049
82412660|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.26||||0.2417|TWO_SIDED|95.0|0.86|1.84|||Regression, Logistic|||Platelets (Within 7 days after IMP start)||1.84|0.86|0.2417
82412661|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.4||||0.4618|TWO_SIDED|95.0|0.58|3.38|||Regression, Logistic|||Cryoprecipitate (Within 7 days after IMP start)||3.38|0.58|0.4618
82412662|NCT05523297|164534038|OTHER||Odds Ratio (OR)|1.56||||0.0564|TWO_SIDED|95.0|0.99|2.47|||Regression, Logistic|||Any individual ABP (Within 7 days after IMP start)||2.47|0.99|0.0564
82412663|NCT05523297|164534039|OTHER||Odds Ratio (OR)|1.1||||0.6956|TWO_SIDED|95.0|0.69|1.73|||Regression, Logistic|||Fibrinogen concentrate (Within 24 hours after IMP start)||1.73|0.69|0.6956
82412664|NCT05523297|164534039|OTHER||Odds Ratio (OR)|5.337||||0.0317|TWO_SIDED|95.0|1.12|50.7|||Regression, Logistic|||||50.70|1.12|0.0317
82412665|NCT05523297|164534039|OTHER||Odds Ratio (OR)|18.88|||<|0.0001|TWO_SIDED|95.0|2.9|796.37|||Regression, Logistic|||PCC excluding IMP (Within 24 hours after IMP start)||796.37|2.90|<0.0001
82412666|NCT05523297|164534039|OTHER||Odds Ratio (OR)|1.334||||0.1981|TWO_SIDED|95.0|0.86|2.07|||Regression, Logistic|||Any coagulation factor product (Within 24 hours after IMP start)||2.07|0.86|0.1981
82412667|NCT05523297|164534039|OTHER||Odds Ratio (OR)|1.187||||0.4599|TWO_SIDED|95.0|0.75|1.87|||Regression, Logistic|||Fibrinogen concentrate (Within 7 days after IMP start)||1.87|0.75|0.4599
82412668|NCT05523297|164534039|OTHER||Odds Ratio (OR)|5.337||||0.0317|TWO_SIDED|95.0|1.12|50.7|||Regression, Logistic|||rFVIIa (Within 7 days after IMP start)||50.70|1.12|0.0317
82412669|NCT05523297|164534039|OTHER||Odds Ratio (OR)|18.88|||<|0.0001|TWO_SIDED|95.0|2.9|796.37|||Regression, Logistic|||PCC excluding IMP (Within 7 days after IMP start)||796.37|2.90|<0.0001
82412670|NCT05523297|164534039|OTHER||Odds Ratio (OR)|1.431||||0.1073|TWO_SIDED|95.0|0.93|2.21|||Regression, Logistic|||Any coagulation factor product (Within 7 days after IMP start)||2.21|0.93|0.1073
82412671|NCT05523297|164534042|OTHER||Odds Ratio (OR)|1.435||||0.3782|TWO_SIDED|95.0|0.6429|3.2013|||Regression, Logistic|||Within 24 hours after CPB end||3.2013|0.6429|0.3782
82412672|NCT05523297|164534042|OTHER||Odds Ratio (OR)|1.435||||0.3782|TWO_SIDED|95.0|0.6429|3.2013|||Regression, Logistic|||Within 24 hours after IMP start||3.2013|0.6429|0.3782
82412673|NCT05523297|164534042|OTHER||Odds Ratio (OR)|1.332||||0.4899|TWO_SIDED|95.0|0.5902|3.0062|||Regression, Logistic|||Within 24 hours after surgery start||3.0062|0.5902|0.4899
82412674|NCT05523297|164534043|OTHER||Least Squares Mean Difference|-0.15||||0.0081|TWO_SIDED|95.0|-0.26|-0.04|||ANOVA|||||-0.04|-0.26|0.0081
82412675|NCT05523297|164534044|OTHER||Least Squares Mean Difference|-9.63||||0.6735|TWO_SIDED|95.0|-60.45|41.18|||ANOVA|||||41.18|-60.45|0.6735
82412676|NCT05523297|164534045|OTHER||Least Squares Mean Difference|-17.93||||0.9033|TWO_SIDED|95.0|-450.13|414.28|||ANOVA|||||414.28|-450.13|0.9033
82412677|NCT05523297|164534046|OTHER||Least Squares Mean Difference|-0.41||||0.1808|TWO_SIDED|95.0|-1.1|0.29|||ANOVA|||||0.29|-1.10|0.1808
82412678|NCT05523297|164534047|OTHER||Least Squares Mean Difference|0.28||||0.9698|TWO_SIDED|95.0|-14.78|15.34|||ANOVA|||||15.34|-14.78|0.9698
82447036|NCT03429543|164602795|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
82412679|NCT05523297|164534048|OTHER||Least Squares Mean Difference|-3.1||||0.3363|TWO_SIDED|95.0|-9.61|3.42|||ANOVA|||||3.42|-9.61|0.3363
82412680|NCT05523297|164534049|OTHER||Least Squares Mean Difference|2.42||||0.5736|TWO_SIDED|95.0|-6.33|11.16|||ANOVA|||||11.16|-6.33|0.5736
82412681|NCT05523297|164534050|OTHER||Least Squares Mean Difference|-13.19||||0.2667|TWO_SIDED|95.0|-37.05|10.67|||ANOVA|||||10.67|-37.05|0.2667
82412682|NCT05523297|164534051|OTHER||Least Squares Mean Difference|12.25||||0.0658|TWO_SIDED|95.0|-0.87|25.38|||ANOVA|||||25.38|-0.87|0.0658
82412683|NCT05523297|164534052|OTHER||Least Squares Mean Difference|-0.19||||0.0726|TWO_SIDED|95.0|-0.4|0.02|||ANOVA|||||0.02|-0.40|0.0726
82412684|NCT05523297|164534057|OTHER||Odds Ratio (OR)|1.183||||0.7497|TWO_SIDED|95.0|0.4211|3.3235|||Regression, Logistic|||||3.3235|0.4211|0.7497
82412685|NCT02512419|164534073|SUPERIORITY||regression parameter (median diff)|37.52|STANDARD_ERROR_OF_MEAN|18.01||0.04|TWO_SIDED||||||quantile regression|Models regressed outcome at 6 months on treatment assigned, baseline value of the outcome and actigraph wear time. Effect sizes reported are adjusted|Effects are unstandardized regression coefficients. They represent difference in median outcome between conditions at 6m controlling for baseline and covariates.|To examine potential intervention effects on the primary outcome (MVPA at 6 months), we used a series of quantile regression models which model median outcome at follow-up as a function of baseline value of the outcome (MVPA), treatment condition and covariates. Note that the adjusted difference in median MVPA between conditions at follow-up will not equal the difference in median minutes as seen in the unadjusted tables as these estimates are adjusted||||.04
82412686|NCT02512419|164534074|SUPERIORITY||Median Difference (Final Values)|42.36|STANDARD_ERROR_OF_MEAN|38.83||0.1|TWO_SIDED||||||quantile regression|||Quantile regression was used.||||0.10
82412687|NCT00315445|164534076|SUPERIORITY_OR_OTHER|||||||0.035||||||P values are from a repeated measures model|Mixed Models Analysis|||A repeated measures analysis was performed to assess the effects due to treatment, center, and treatment by center interaction. Observations within each subject were assumed to follow a first-order autoregressive model. Missing values were extrapolated by the last observation carried forward (LOCF). Covariates were gender, age, race, weight, baseline pain, and previous opioid use which were incorporated into the model when P \< 0.10, using a backward elimination procedure.||||0.0350
82412688|NCT00315445|164534076|SUPERIORITY_OR_OTHER|||||||0.0624||||||Repeated measures analysis to assess the effects due to treatment, center, and treatment by center. Missing values = last observation carried forward (LOCF). Covariates: gender, age, race, weight, baseline pain, and previous opioid use.|Mixed Models Analysis|||||||0.0624
82412689|NCT00315445|164534077|SUPERIORITY_OR_OTHER||Day 84 Mean|46.4|||||TWO_SIDED|90.0|40.2|48.7|||Day 84 Mean|||||48.7|40.2|
82412690|NCT00315445|164534077|SUPERIORITY_OR_OTHER||Day 84 Mean|44.5|||||TWO_SIDED|90.0|43.3|52.4|||Day 84 Mean|||||52.4|43.3|
82412691|NCT00315445|164534077|SUPERIORITY_OR_OTHER||Day 84 Mean|46.5|||||TWO_SIDED|90.0|41.7|50.2|||Day 84 Mean|||||50.2|41.7|
82412692|NCT00315445|164534078|SUPERIORITY_OR_OTHER||Day 84 Mean|18.9|||||TWO_SIDED|90.0|5.2|26.2|||Day 84 Mean|||||26.2|5.2|
82412693|NCT00315445|164534078|SUPERIORITY_OR_OTHER||Day 84 Mean|24.4|||||TWO_SIDED|90.0|10.7|32.0|||Day 84 Mean|||||32.0|10.7|
82412694|NCT00315445|164534078|SUPERIORITY_OR_OTHER||Day 84 Mean|33.9|||||TWO_SIDED|90.0|16.0|35.2|||Day 84 Mean|||||35.2|16.0|
82412695|NCT00315445|164534079|SUPERIORITY_OR_OTHER|||||||0.0452||||||Multiple linear regression|Mixed Models Analysis|||A repeated measures analysis was performed to assess the effects due to treatment, center, and treatment by center interaction. Observations within each subject were assumed to follow a first-order autoregressive model. Missing values were extrapolated by the last observation carried forward (LOCF). Covariates were gender, age, race, weight, baseline pain, and previous opioid use which were incorporated into the model when P \< 0.10, using a backward elimination procedure.||||0.0452
82412696|NCT00315445|164534079|SUPERIORITY_OR_OTHER|||||||0.0962|||||||Mixed Models Analysis|||||||0.0962
82412697|NCT00315445|164534080|SUPERIORITY_OR_OTHER||Day 84 Mean|35.3|||||TWO_SIDED|90.0|24.3|35.6|||Day 84 Mean|||||35.6|24.3|
82412698|NCT00315445|164534080|SUPERIORITY_OR_OTHER||Day 84 Mean|39.0|||||TWO_SIDED|90.0|29.0|40.3|||Day 84 Mean|||||40.3|29.0|
82412699|NCT00315445|164534080|SUPERIORITY_OR_OTHER||Day 84 Mean|41.9|||||TWO_SIDED|90.0|32.1|42.5|||Day 84 Mean|||||42.5|32.1|
82412700|NCT00315445|164534081|SUPERIORITY_OR_OTHER||Day 84 Mean|52.4||||||90.0|50.3|56.6|||Day 84 Mean|||||56.6|50.3|
82412701|NCT00315445|164534081|SUPERIORITY_OR_OTHER||Day 84 Mean|52.5|||||TWO_SIDED|90.0|51.8|58.3|||Day 84 Mean|||||58.3|51.8|
82412702|NCT00315445|164534081|SUPERIORITY_OR_OTHER||Day 84 Mean|57.7|||||TWO_SIDED|90.0|52.3|58.6|||Day 84 Mean|||||58.6|52.3|
82412703|NCT00315445|164534084|SUPERIORITY_OR_OTHER||Day 84 Mean|55.3|||||TWO_SIDED|90.0|49.8|67.9|||Day 84 Mean|||||67.9|49.8|
82412704|NCT00315445|164534084|SUPERIORITY_OR_OTHER||Day 84 Mean|56.3|||||TWO_SIDED|90.0|45.9|65.3|||Day 84 Mean|||||65.3|45.9|
82412705|NCT00315445|164534084|SUPERIORITY_OR_OTHER||Day 84 Mean|63.0|||||TWO_SIDED|90.0|53.1|70.9|||Day 84 Mean|||||70.9|53.1|
82412706|NCT00315445|164534085|SUPERIORITY_OR_OTHER||Day 84 Mean|67.4|||||TWO_SIDED|90.0|61.3|68.6|||Day 84 Mean|||||68.6|61.3|
82412707|NCT00315445|164534085|SUPERIORITY_OR_OTHER||Day 84 Mean|68.8|||||TWO_SIDED|90.0|61.7|68.8|||Day 84 Mean|||||68.8|61.7|
82412708|NCT00315445|164534085|SUPERIORITY_OR_OTHER||Day 84 Mean|67.8|||||TWO_SIDED|90.0|62.0|68.7|||Day 84 Mean|||||68.7|62.0|
82412709|NCT00315445|164534090|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.67||||0.054|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.054
82412710|NCT00315445|164534090|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.138|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.138
82412711|NCT00315445|164534091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.0105|||||||Regression, Cox|For the secondary outcomes no alpha adjustment for multiple comparison was performed.||||||0.0105
82412712|NCT00315445|164534091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.04||||0.0024|||||||Regression, Cox|For the secondary outcome measure no alpha adjustment for multiple comparison was performed.||||||0.0024
82412713|NCT00315445|164534092|SUPERIORITY_OR_OTHER|||||||0.033|||||||Mixed Models Analysis|||||||.033
82447037|NCT03429543|164602796|OTHER||Rate difference (percentage)|2.4||||0.7789|TWO_SIDED|95.0|-15.2|19.5|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||19.5|-15.2|0.7789
82447038|NCT03429543|164602796|OTHER||Rate difference (percentage)|10.1||||0.2548|TWO_SIDED|95.0|-7.7|28.1|||Wald test||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and two-sided Wald test.||28.1|-7.7|0.2548
82447039|NCT03429543|164602796|OTHER||Rate difference (percentage)|-23.3||||0.5455|TWO_SIDED|90.0|-67.9|27.1|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||27.1|-67.9|0.5455
82447040|NCT03429543|164602796|OTHER||Rate difference (percentage)|26.7||||0.5671|TWO_SIDED|90.0|-30.8|70.8|||Fisher Exact||Difference calculated as \[Treatment\] - Placebo.|The risk difference of active treatments versus placebo was determined and assessed by an exact 2-sided 95% confidence interval. Exact 95% CI by Chan and Zhang. Asymptotic and Fisher's exact test.||70.8|-30.8|0.5671
82447041|NCT01818492|164602797|SUPERIORITY|||||||0.0134|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%.||||0.0134
82447042|NCT01818492|164602798|SUPERIORITY|||||||0.0031|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%||||0.0031
82447043|NCT01818492|164602799|SUPERIORITY|||||||0.0205|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%||||0.0205
82447044|NCT01818492|164602800|SUPERIORITY|||||||0.0053|||||||Exact binomial test|This test was undertaken at the one-sided 0.025 significance level.||Pre-specified null hypothesis that ORR is at most 40%.||||0.0053
82447045|NCT02025439|164602808|OTHER||Mean Difference (Final Values)|0.071|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82447046|NCT00454181|164602829|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Chi-squared|||Chi-square analysis of the proportion of subjects in each group meeting the definition of positive response.||||0.30
82447047|NCT00454181|164602830|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Chi-squared|||Chi-square analysis of the proportion of subjects in each group meeting the definition of positive response||||0.26
82447048|NCT00454181|164602831|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects in each group reporting change in oral warts from baseline to week 24 as better."||||0.50
82447049|NCT00454181|164602832|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects in each group reporting change in global oral health from baseline to week 24 as better."||||0.29
82447050|NCT00454181|164602833|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects rated as improved with respect to changes in oral warts from baseline to week 24 by the attending investigator."||||0.74
82412714|NCT00315445|164534092|SUPERIORITY_OR_OTHER|||||||0.043|||||||Mixed Models Analysis|||||||.043
82447051|NCT00454181|164602834|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Chi-squared|||"Chi-square analysis of the proportion of subjects rated as improved with resepect to changes from baseline to week 24 in global oral health by the attending investigator."||||.71
82412715|NCT00315445|164534093|SUPERIORITY_OR_OTHER|||||||0.011|||||||Mixed Models Analysis|||||||.011
82412716|NCT00315445|164534093|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||||||.034
82412717|NCT00315445|164534094|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||.038
82412718|NCT00315445|164534094|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mixed Models Analysis|||||||0.63
82412719|NCT00315445|164534095|SUPERIORITY_OR_OTHER|||||||0.064|||||||Mixed Models Analysis|||||||.064
82412720|NCT00315445|164534095|SUPERIORITY_OR_OTHER|||||||0.066|||||||Mixed Models Analysis|||||||.066
82412721|NCT00315445|164534096|SUPERIORITY_OR_OTHER|||||||0.607|||||||Mixed Models Analysis|||||||.607
82412722|NCT00315445|164534096|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||||||.940
82412723|NCT00315445|164534097|SUPERIORITY_OR_OTHER|||||||0.702|||||||Mixed Models Analysis|||||||.702
82412724|NCT00315445|164534097|SUPERIORITY_OR_OTHER|||||||0.634|||||||Mixed Models Analysis|||||||.634
82412725|NCT01299909|164534098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.35|TWO_SIDED|95.0|0.67|3.51|||Regression, Logistic|||||3.51|0.67|0.35
82412726|NCT01299909|164534099|SUPERIORITY||Mean Difference (Final Values)|4.81||||0.03|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.03
82412727|NCT01299909|164534100|SUPERIORITY||Mean Difference (Final Values)|6.09||||0.02|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.02
82412728|NCT01299909|164534101|SUPERIORITY||Mean Difference (Final Values)|4.96||||0.03|TWO_SIDED||||||ANOVA|df=(1,57)||||||0.03
82412729|NCT01192178|164534102|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.971||||0.928|TWO_SIDED|95.0|0.519|1.819||Cox Proportional Hazards model adjusted for investigative center|Regression, Cox||The risk of having an asthma exacerbation during the treatment period was analyzed.|||1.819|0.519|0.928
82447052|NCT00079677|164602842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.0003||95.0|1.67|5.46||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|ANOVA|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05||5.46|1.67|0.0003
82447053|NCT00079677|164602843|SUPERIORITY_OR_OTHER|||||||0.0069||||||The p-value for each treatment group is for the comparison of that treatment group to the placebo treatment group.|Cochran-Mantel-Haenszel|||Assumption: both primary treatment comparisons would be with a 2 sided test at an alpha level of 0.05.||||0.0069
82447054|NCT03927404|164602862|OTHER|We used median (Inter-quartile range) to describe the continuous measures of limb health such as TEWL, Hydration, and Oxygenation levels at each visit and each location of the measurements in the sound (SL) and residual limbs (RL).|||||<|0.05||||||In a bivariate analysis, we used two-sided equality of the median test for the matched pairs of observations|bivariate analysis|||||||<0.05
82447055|NCT03927404|164602864|OTHER|We used median (Inter-quartile range) to describe the continuous measures of limb health such as TEWL, Hydration, and Oxygenation levels at each visit and each location of the measurements in the sound (SL) and residual limbs (RL).||||||0.05||||||In a bivariate analysis, we used two-sided equality of the median test for the matched pairs of observations|bivariate analysis|||||||0.05
82447056|NCT01229449|164602865|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82447057|NCT01229449|164602865|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82447058|NCT01229449|164602865|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
82447059|NCT01229449|164602865|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
82447060|NCT01229449|164602865|SUPERIORITY|||||||0.72|||||||ANOVA|||||||0.72
82447061|NCT01229449|164602865|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82447062|NCT01229449|164602865|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82532368|NCT03844321|164762186|SUPERIORITY||Difference in Slopes|0.02||||0.048|TWO_SIDED|95.0|0.0|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1171|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Emotional Distress-Anxiety Short Form scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|0.00|.048
82447063|NCT01229449|164602865|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82447064|NCT01229449|164602865|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82447065|NCT01229449|164602865|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82532369|NCT03844321|164762187|SUPERIORITY||Difference in Slopes|-0.02||||0.488|TWO_SIDED|95.0|-0.06|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1560|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Ability to Participate in Social Roles and Activities Short Form scores (reverse scored) in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.03|-0.06|.488
82532370|NCT03844321|164762187|SUPERIORITY||Difference in Slopes|0.01||||0.446|TWO_SIDED|95.0|-0.01|0.03||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1179|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly PROMIS: Ability to Participate in Social Roles and Activities Short Form scores (reverse scored) in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 20 weeks.||0.03|-0.01|.446
82447066|NCT02641067|164602875|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|90.0|1.0|2.04||||||||2.04|1.00|
82447067|NCT02641067|164602876|OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|90.0|0.99|1.92||||||||1.92|0.99|
82447068|NCT02641067|164602877|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|90.0|0.61|1.15||||||||1.15|0.61|
82447069|NCT02102399|164602906|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.001
82447070|NCT02102399|164602907|SUPERIORITY_OR_OTHER|||||||0.345|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.345
82447071|NCT02102399|164602908|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Fisher Exact|||||||0.003
82447072|NCT02102399|164602909|SUPERIORITY_OR_OTHER|||||||0.171|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.171
82447073|NCT02102399|164602910|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.022
82447074|NCT02102399|164602911|SUPERIORITY_OR_OTHER|||||||0.451|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.451
82447075|NCT02102399|164602912|SUPERIORITY_OR_OTHER|||||||0.477|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.477
82447076|NCT02102399|164602913|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.007
82447077|NCT02102399|164602914|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.049
82447078|NCT02102399|164602915|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.323
82447079|NCT02102399|164602916|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.296
82447080|NCT02102399|164602917|SUPERIORITY_OR_OTHER|||||||0.776|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.776
82447081|NCT02102399|164602918|SUPERIORITY_OR_OTHER|||||||0.959|TWO_SIDED||||||Wilcoxon's signed-rank test|||||||0.959
82447082|NCT02102399|164602919|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.76
82447083|NCT02102399|164602920|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
82447084|NCT02102399|164602921|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.20
82447085|NCT02102399|164602922|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.77
82447086|NCT02102399|164602923|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.49
82447087|NCT02102399|164602924|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.74
82447088|NCT02102399|164602925|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Fisher Exact|||||||0.120
82447089|NCT02102399|164602926|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.030
82447090|NCT02102399|164602927|SUPERIORITY_OR_OTHER|||||||0.107|TWO_SIDED||||||Fisher Exact|||||||0.107
82447091|NCT00324233|164602936|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||equivalence testing|||||||0.56
82447092|NCT01707381|164602939|OTHER||Treatment difference|-1.773|||<|0.001|TWO_SIDED|95.0|-2.38|-1.166|||ANCOVA||Treatment Difference = BOL-303259-X 0.024% - Timolol maleate 0.5%.|||-1.166|-2.380|<0.001
82447093|NCT01707381|164602940|OTHER||Bonferroni t-test used for paired compar|0.01|||<|0.05|TWO_SIDED||||||ANOVA||the bonferroni result applies to nocturnal supine OPP data comparing BOL group to timolol group|Statistical analysis of nocturnal (supine) OPP was performed among baseline, the BOL-303259-X treatment and timolol treatment using ANOVA. the criteria for statistical significance was P\<0.05. Post hoc Bonferroni T-tests were then utilized to compare BOL and timolol groups.||||<0.05
82646858|NCT02414854|165008510|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.326|||<|0.0001|TWO_SIDED|95.0|0.234|0.454||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 8 of testing order.||0.454|0.234|<0.0001
82447094|NCT01707381|164602941|OTHER||Mean Difference (Final Values)|-1.77||||0.004|TWO_SIDED|95.0|-2.915|-0.625|||ANOVA||Treatment Difference = BOL-303259-X 0.024% - Timolol maleate 0.5%.|||-0.625|-2.915|0.004
82447095|NCT04583956|164602961|SUPERIORITY||Odds Ratio (OR)|0.98||||0.927|TWO_SIDED|95.0|0.59|1.61|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using multiple imputation (MI) for participants lost to follow-up before Day 8 while hospitalized, in hospice, long term acute care, or transferred to other hospital while participants lost to follow-up after discharge to home are assigned a score of 2.||1.61|0.59|0.927
82447096|NCT04583956|164602962|SUPERIORITY||Odds Ratio (OR)|0.9||||0.829|TWO_SIDED|95.0|0.36|2.25|||Regression, Logistic||Odds ratio greater than 1 favors Remdesivir plus Risankizumab.|Odds ratio, confidence interval, and p-value estimated from a logistic regression model adjusted for baseline dexamethasone use, baseline ordinal score, age, and baseline C-Reactive Protein (CRP).||2.25|0.36|0.829
82447097|NCT04583956|164602963|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.399|TWO_SIDED|95.0|0.84|1.56|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio, confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.56|0.84|0.399
82447098|NCT04583956|164602964|SUPERIORITY||Odds Ratio (OR)|1.03||||0.91|TWO_SIDED|95.0|0.62|1.71|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for those lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.71|0.62|0.910
82447099|NCT04583956|164602965|SUPERIORITY||Odds Ratio (OR)|1.14||||0.617|TWO_SIDED|95.0|0.68|1.93|||Proportional odds model||Odds ratio above 1 favors Remdesivir plus Risankizumab.|Includes all ordinal score categories. Odds ratio of a better clinical status score, confidence interval, and p-value estimated from a proportional odds model adjusted for baseline steroid use and baseline ordinal score. Missing data imputed using last observation carried forward for those lost to follow-up before Day 15 while hospitalized, in hospice, long term acute care, or transferred to other hospital. Participants lost to follow-up before Day 15 after discharge are given a score of 2.||1.93|0.68|0.617
82646859|NCT02414854|165008511|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|LS Mean Difference|0.24|||<|0.0001|TWO_SIDED|95.0|0.16|0.32||Threshold for significance at 0.05 level.|Mixed Models Analysis||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using MMRM model with change from baseline in FEV1 values up to Week 12 as response variable; and treatment, age, sex, baseline height, region, baseline eosinophil strata, baseline ICS dose level, visit, treatment by-visit interaction, baseline FEV1 value and baseline-by-visit interaction as covariates. Here, it is test no. 9 of testing order.||0.32|0.16|<0.0001
82447100|NCT04583956|164602998|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.55|TWO_SIDED|95.0|0.82|1.46|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio (HR), confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.46|0.82|0.550
82447101|NCT04583956|164602999|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.523|TWO_SIDED|95.0|0.82|1.48|||Regression, Cox||HR greater than 1 favors Remdesivir plus Risankizumab.|Hazard ratio (HR), confidence interval, and p-value estimated from a Cox model adjusted for baseline steroid use and baseline ordinal score.||1.48|0.82|0.523
82447102|NCT04407234|164603005|SUPERIORITY||Ratio of geometric least squares mean|0.881|||||TWO_SIDED|90.0|0.803|0.967|||Wilcoxon signed rank test|||||0.967|0.803|
82447103|NCT04407234|164603005|SUPERIORITY||Ratio of geometric least squares mean|1.16|||||TWO_SIDED|90.0|1.05|1.28|||Wilcoxon signed rank test|||||1.28|1.05|
82447104|NCT04407234|164603006|SUPERIORITY||Ratio of geometric least squares mean|0.446|||||TWO_SIDED|90.0|0.39|0.509|||Wilcoxon signed rank test|||||0.509|0.390|
82532371|NCT03844321|164762188|SUPERIORITY||Difference in Slopes|-0.04||||0.469|TWO_SIDED|95.0|-0.16|0.07||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1618|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used a linear mixed effects model to examine the difference in effect of time on weekly FFMQ scores in Mindfulness Light vs. Mindfulness-Based Cognitive Therapy conditions from baseline to 8 weeks.||0.07|-0.16|.469
82646860|NCT02414854|165008512|SUPERIORITY|Testing according to the hierarchical testing procedure (performed only if previous outcome measures were statistically significant).|Relative risk|0.834||||0.2599|TWO_SIDED|95.0|0.608|1.144||Threshold for significance at 0.05 level.|Negative binomial regression model||Dupilumab 300 mg q2w vs Placebo (for Dupilumab 300 mg) q2w|Analysis was performed using negative binomial model with total number of events onset from randomization up to Week 52 or last contact date (whichever comes earlier) as response variable; with 4 treatment groups, age, region, baseline eosinophil strata, baseline ICS dose level, number of severe exacerbation events within 1 year prior to study as covariates; and log transformed standardized observation duration as an offset variable. Here, it is test no. 10 of testing order.||1.144|0.608|0.2599
82646861|NCT01355523|165008548|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Chi-squared|||||||0.008
82447105|NCT04407234|164603006|SUPERIORITY||Ratio of geometric least squares mean|0.679|||||TWO_SIDED|90.0|0.589|0.783|||Wilcoxon signed rank test|||||0.783|0.589|
82646862|NCT01355523|165008548|SUPERIORITY_OR_OTHER||Number need to treat|2.95|||||TWO_SIDED|95.0|1.703|11.024||||||||11.024|1.703|
82447106|NCT04407234|164603008|SUPERIORITY||Ratio of geometricleast squares mean|0.888|||||TWO_SIDED|90.0|0.778|1.01||||||||1.01|0.778|
82447107|NCT04407234|164603008|SUPERIORITY||Ratio of geometricleast squares mean|1.23|||||TWO_SIDED|90.0|1.07|1.42||||||||1.42|1.07|
82447108|NCT04407234|164603009|SUPERIORITY||Ratio of geometricleast squares mean|0.875|||||TWO_SIDED|90.0|0.766|0.999||||||||0.999|0.766|
82447109|NCT04407234|164603009|SUPERIORITY||Ratio of geometricleast squares mean|1.08|||||TWO_SIDED|90.0|0.938|1.25||||||||1.25|0.938|
82447110|NCT04407234|164603010|SUPERIORITY||Ratio of geometricleast squares mean|0.453|||||TWO_SIDED|90.0|0.376|0.545||||||||0.545|0.376|
82447111|NCT04407234|164603010|SUPERIORITY||Ratio of geometricleast squares mean|0.804|||||TWO_SIDED|90.0|0.66|0.979||||||||0.979|0.660|
82447112|NCT04407234|164603011|SUPERIORITY||Ratio of geometricleast squares mean|0.438|||||TWO_SIDED|90.0|0.364|0.527||||||||0.527|0.364|
82447113|NCT04407234|164603011|SUPERIORITY||Ratio of geometricleast squares mean|0.574|||||TWO_SIDED|90.0|0.471|0.698||||||||0.698|0.471|
82447114|NCT04943432|164603014|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||T2 - T1||||0.06
82447115|NCT04943432|164603014|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||T3 - T1||||0.68
82447116|NCT04943432|164603016|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||T2-T1||||.01
82412730|NCT02164916|164534115|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.001|TWO_SIDED|95.0|0.31|0.75|||Log Rank|||||0.75|0.31|0.001
82412731|NCT01155570|164534123|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
82412732|NCT01155570|164534124|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 8||||<0.0001
82412733|NCT01155570|164534125|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412734|NCT01155570|164534126|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412735|NCT01155570|164534127|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412736|NCT01155570|164534128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412737|NCT01155570|164534133|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412738|NCT01155570|164534134|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412739|NCT01155570|164534135|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
82412740|NCT01155570|164534136|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412741|NCT01155570|164534138|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412742|NCT01155570|164534139|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
82412743|NCT01155570|164534140|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412744|NCT01155570|164534141|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412745|NCT01155570|164534142|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 4||||<0.0001
82412746|NCT01155570|164534143|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 16||||<0.0001
82412747|NCT01155570|164534144|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||comparison versus Baseline at Week 24||||<0.0001
82412748|NCT04070703|164534189|SUPERIORITY|The co-primary outcome data were analyzed via a Group by Time mixed-effects model with repeated measures on the second factor (i.e., outcome measures assessed at baseline and 6 months. In the presence of a Group by Time interaction effect, pre-specified follow-up pair-wise comparisons were performed to determine between-group differences.|Mean Difference (Final Values)|2.8||||0.0125|TWO_SIDED|98.75|2.1|3.6|||Mixed Models Analysis|||||3.6|2.1|0.0125
82412749|NCT04070703|164534189|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.0125|TWO_SIDED|98.75|0.07|2.2|||Mixed Models Analysis|||||2.2|.07|.0125
82412750|NCT04070703|164534190|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.0125|TWO_SIDED|98.75|2.8|16.6|||Mixed Models Analysis|||||16.6|2.8|.0125
82447117|NCT04943432|164603016|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||T3-T1||||.32
82447118|NCT04943432|164603017|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||T2-T1||||.44
82447119|NCT04943432|164603017|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||T3-T1||||.007
82447120|NCT04943432|164603021|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||T2-T1||||.01
82447121|NCT04943432|164603021|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||T3-T1||||.11
82447122|NCT04943432|164603022|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||T2-T1||||.82
82447123|NCT04943432|164603022|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||T3-T1||||.36
82447124|NCT04943432|164603023|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||T2-T1||||.34
82447125|NCT04943432|164603023|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||T3-T1||||.02
82447126|NCT04943432|164603025|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||T2-T1||||.14
82447127|NCT04943432|164603025|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||T3-T1||||.29
82447128|NCT04943432|164603027|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||T2-T1||||<.001
82447129|NCT04943432|164603027|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||T3-T1||||.23
82447130|NCT02684188|164603036|SUPERIORITY|||||||0.03||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 3 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 112(68 baseline and 44 intervention) patients were used in this analysis.|||0.030
82447131|NCT02684188|164603036|SUPERIORITY|||||||0.025||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 7 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 110 (66 baseline and 44 intervention) patients were used in this analysis.|||0.025
82646863|NCT01355523|165008548|SUPERIORITY_OR_OTHER||Relative Risk|0.25|||||TWO_SIDED|95.0|0.076|0.797||||||||0.797|0.076|
82412751|NCT04070703|164534190|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.0125|TWO_SIDED|98.75|12.6|31.2|||Mixed Models Analysis|||||31.2|12.6|.0125
82412752|NCT04070703|164534191|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.05|TWO_SIDED|95.0|-0.5|-0.1|||Mixed Models Analysis|||||-.1|-.5|0.05
82412753|NCT04070703|164534191|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.05|TWO_SIDED|95.0|-0.7|-0.3|||Mixed Models Analysis|||||-.3|-.7|.05
82412754|NCT04070703|164534192|SUPERIORITY||Mean Difference (Final Values)|-14.1||||0.05|TWO_SIDED|95.0|-20.0|-8.0|||Mixed Models Analysis|||||-8|-20|.05
82412755|NCT04070703|164534192|SUPERIORITY||Mean Difference (Final Values)|-22.0||||0.05|TWO_SIDED|95.0|-28.0|-16.0|||Mixed Models Analysis|||||-16|-28|.05
82412756|NCT04070703|164534193|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.4|0.1|||Mixed Models Analysis|||||.1|-.4|<.05
82412757|NCT04070703|164534193|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|0.4|1.2|||Mixed Models Analysis|||||1.2|.4|<.05
82412758|NCT04070703|164534194|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.05|TWO_SIDED|95.0|0.5|1.6|||Mixed Models Analysis|||||1.6|.5|<.05
82412759|NCT04070703|164534194|SUPERIORITY||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|1.6|2.7|||Mixed Models Analysis|||||2.7|1.6|<.05
82412760|NCT04070703|164534195|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.05|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||||2.1|-.4|<.05
82412761|NCT04070703|164534195|SUPERIORITY||Mean Difference (Final Values)|4.4|||<|0.05|TWO_SIDED|95.0|3.1|5.0|||Mixed Models Analysis|||||5|3.1|<.05
82412762|NCT04070703|164534196|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||.7|-.3|<.05
82412763|NCT04070703|164534196|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.05|TWO_SIDED|95.0|-2.4|-1.4|||Mixed Models Analysis|||||-1.4|-2.4|<.05
82412764|NCT04070703|164534197|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.05|TWO_SIDED|95.0|-1.4|0.4|||Mixed Models Analysis|||||.4|-1.4|<.05
82412765|NCT04070703|164534197|SUPERIORITY||Mean Difference (Final Values)|1.7|||<|0.05|TWO_SIDED|95.0|0.8|2.3|||Mixed Models Analysis|||||2.3|.8|<.05
82412766|NCT04070703|164534198|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED|95.0|-0.1|1.1|||Mixed Models Analysis|||||1.1|-.1|<.05
82412767|NCT04070703|164534198|SUPERIORITY||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|1.6|2.8|||Mixed Models Analysis|||||2.8|1.6|<.05
82412768|NCT04070703|164534199|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis|||||.8|-.7|<.05
82412769|NCT04070703|164534199|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.05|TWO_SIDED|95.0|-3.1|-1.3|||Mixed Models Analysis|||||-1.3|-3.1|<.05
82412770|NCT04070703|164534200|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.05|TWO_SIDED|95.0|-0.3|1.2|||Mixed Models Analysis|||||1.2|-.3|<.05
82412771|NCT04070703|164534200|SUPERIORITY||Mean Difference (Final Values)|-1.0|||<|0.05|TWO_SIDED|95.0|-1.8|-0.2|||Mixed Models Analysis|||||-.2|-1.8|<.05
82412772|NCT04070703|164534201|SUPERIORITY||Mean Difference (Final Values)|1.4|||<|0.05|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||||2|-.4|<.05
82412773|NCT04070703|164534201|SUPERIORITY||Mean Difference (Final Values)|5.7|||<|0.05|TWO_SIDED|95.0|3.1|7.9|||Mixed Models Analysis|||||7.9|3.1|<.05
82412774|NCT04070703|164534202|SUPERIORITY||Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.04|0.03|||Mixed Models Analysis|||||.03|-.04|<.05
82412775|NCT04070703|164534202|SUPERIORITY||Mean Difference (Final Values)|0.07|||<|0.05|TWO_SIDED|95.0|0.03|0.11|||Mixed Models Analysis|||||.11|.03|<.05
82412776|NCT04070703|164534203|SUPERIORITY||Mean Difference (Final Values)|4.0|||<|0.05|TWO_SIDED|95.0|-2.0|6.0|||Mixed Models Analysis|||||6|-2|<.05
82412777|NCT04070703|164534203|SUPERIORITY||Mean Difference (Final Values)|125.5|||<|0.05|TWO_SIDED|95.0|84.0|166.0|||Mixed Models Analysis|||||166|84|<.05
82412778|NCT04070703|164534204|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.05|TWO_SIDED|95.0|-0.3|-0.1|||Mixed Models Analysis|||||-.1|-.3|<.05
82412779|NCT04070703|164534204|SUPERIORITY||Mean Difference (Final Values)|-0.5|||<|0.05|TWO_SIDED|95.0|-0.7|-0.4|||Mixed Models Analysis|||||-.4|-.7|<.05
82412780|NCT01080261|164534226|NON_INFERIORITY_OR_EQUIVALENCE|Study had 91% statistical power to demonstrate that the 9-month rate for MACE (accounting for an expected 9-month attrition rate of 10%) is less than the performance goal, assuming a 9-month MACE rate of 8.2%.|Percent of patients experiencing a MACE|0.0|||<|0.0001|ONE_SIDED|95.0||4.9|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the percentage of patients experiencing a MACE event (primary endpoint) in the PROMUS Element cohort is less than the predefined performance goal of 24.1% (based on historical outcomes with plain balloon angioplasty \[20.2%\] plus an adjustment of 3.9% for small vessels).||4.9||<0.0001
82412781|NCT01787838|164534238|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||<|0.0001|TWO_SIDED|95.0|1.65|1.96|||Chi-squared|||Prospective data from 12 months were compared to data that had been collected for the previous 12 month period to determine statistical significance and trended outcomes for comparative periods. Patients were screened for eligibility during the first 12 months, and staff and patients received the interventions during the second 12 month period.||1.96|1.65|<.0001
82412782|NCT00055237|164534254|SUPERIORITY_OR_OTHER||proportion estimate,binomial exact 95%CI|31.0|STANDARD_DEVIATION|11.6|||TWO_SIDED|95.0|11.0|58.7|||sample estimate with 95% CI||As stated in the Outcome statistical Analysis 1. Section, the confidence interval was calculated using binomial exact statistics. The standard deviation is based on that calculation.|||58.7|11|
82412783|NCT01126424|164534264|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-20.986||||0.3771|TWO_SIDED|95.0|-68.58|26.607|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||26.607|-68.580|0.3771
82412784|NCT01126424|164534264|SUPERIORITY_OR_OTHER||Least Square Mean Difference|17.508||||0.4487|TWO_SIDED|95.0|-28.854|63.87|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||63.870|-28.854|0.4487
82646864|NCT01355523|165008549|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|||||||0.125
82532372|NCT03844321|164762188|SUPERIORITY||Difference in Slopes|-0.06||||0.033|TWO_SIDED|95.0|-0.11|-0.01||A two-sided significance level of .05 was used.|Mixed Models Analysis|df = 1067|Slope estimate = difference in slopes between conditions (Mindfulness Light vs. Mindfulness-Based Cognitive Therapy) during time frame.|As with the primary outcome, we used linear mixed effects models to examine the effect of time on weekly FFMQ scores across both intervention conditions from baseline to 20 weeks.||-0.01|-0.11|.033
82412785|NCT01126424|164534265|SUPERIORITY_OR_OTHER||Least Square Mean Difference|9.152||||0.0505|TWO_SIDED|95.0|-0.023|18.326|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||18.326|-0.023|0.0505
82412786|NCT01126424|164534265|SUPERIORITY_OR_OTHER||Least Square Mean Difference|1.846||||0.6753|TWO_SIDED|95.0|-7.02|10.713|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||10.713|-7.020|0.6753
82412787|NCT01126424|164534266|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.507||||0.5684|TWO_SIDED|95.0|-2.293|1.279|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||1.279|-2.293|0.5684
82412788|NCT01126424|164534266|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.792||||0.2348|TWO_SIDED|95.0|-2.122|0.538|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.538|-2.122|0.2348
82412789|NCT01126424|164534267|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.04||||0.6275|TWO_SIDED|95.0|-0.208|0.127|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.127|-0.208|0.6275
82412790|NCT01126424|164534267|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.046||||0.5361|TWO_SIDED|95.0|-0.194|0.103|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||0.103|-0.194|0.5361
82412791|NCT01126424|164534268|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.655||||0.6315|TWO_SIDED|95.0|-14.858|24.167|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||24.167|-14.858|0.6315
82412792|NCT01126424|164534268|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.457||||0.867|TWO_SIDED|95.0|-18.976|16.062|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||16.062|-18.976|0.8670
82412793|NCT01126424|164534269|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-77.919||||0.5953|TWO_SIDED|95.0|-372.814|216.976|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of solifenacin versus placebo change from Baseline at 6 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||216.976|-372.814|0.5953
82412794|NCT01126424|164534269|SUPERIORITY_OR_OTHER||Least Square Mean Difference|157.783||||0.3526|TWO_SIDED|95.0|-182.015|497.581|||ANCOVA|The analysis was performed using an ANCOVA model with fixed effect for treatment, period, subjects as a random effect and baseline as a covariate.||"Comparison of oxybutynin versus placebo change from Baseline at 2 hours~The null hypothesis was that the mean change from baseline was the same in both treatments."||497.581|-182.015|0.3526
82412795|NCT02127671|164534270|SUPERIORITY||Mean Difference (Net)|-12.7|||||TWO_SIDED|95.0|-22.9|-2.5||||||||-2.5|-22.9|
82412796|NCT02127671|164534272|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.7|0.9||||||||0.9|-0.7|
82412797|NCT02127671|164534276|SUPERIORITY||Mean Difference (Net)|-7.6|||||TWO_SIDED|95.0|-17.6|2.4||||||||2.4|-17.6|
82412798|NCT02127671|164534277|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.3|0.2||||||||0.2|-0.3|
82412799|NCT02127671|164534278|SUPERIORITY||Mean Difference (Net)|-10.5|||||TWO_SIDED|95.0|-18.4|-2.6||||||||-2.6|-18.4|
82412800|NCT02127671|164534279|SUPERIORITY||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-5.1|1.5||||||systolic||1.5|-5.1|
82412801|NCT02127671|164534279|SUPERIORITY||Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-3.8|0.5||||||diastolic||0.5|-3.8|
82412802|NCT02127671|164534281|SUPERIORITY||Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-13.3|4.7||||||||4.7|-13.3|
82412803|NCT02127671|164534282|SUPERIORITY||Mean Difference (Net)|-5.4|||||TWO_SIDED|95.0|-12.7|2.0||||||||2.0|-12.7|
82412804|NCT02127671|164534283|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|-1.8|3.8||||||||3.8|-1.8|
82412805|NCT02127671|164534284|SUPERIORITY||Mean Difference (Net)|8.1|||||TWO_SIDED|95.0|-13.4|29.6||||||||29.6|-13.4|
82412806|NCT00248560|164534290|SUPERIORITY_OR_OTHER||Response rate|0.17|||||TWO_SIDED|95.0|0.08|0.32||||||||0.32|0.08|
82412807|NCT03834168|164534294|OTHER|||||||0.003|||||||Regression (Cosinor Fit)|||||||0.003
82412808|NCT03834168|164534294|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<0.001
82412809|NCT00764517|164534300|OTHER||Hazard Ratio (HR)|0.33||||0.002|TWO_SIDED|95.0|0.16|0.69|||Log Rank|||||0.69|0.16|0.002
82412810|NCT00764517|164534301|OTHER||Hazard Ratio (HR)|0.42||||0.011|TWO_SIDED|95.0|0.21|0.84|||Log Rank|||||0.84|0.21|0.011
82412811|NCT01433913|164534305|OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
82412812|NCT01433913|164534306|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82646865|NCT01355523|165008550|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Fisher Exact|||||||0.460
82412813|NCT01433913|164534307|OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82412814|NCT01433913|164534308|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
82412815|NCT01433913|164534309|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82412816|NCT01433913|164534313|OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82412817|NCT01433913|164534314|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82412818|NCT01433913|164534315|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82412819|NCT01433913|164534316|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82412820|NCT01433913|164534317|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82412821|NCT02239328|164534320|OTHER|Multilevel random coefficient models estimated the mean score of each PROMIS domain as a function of time elapsed between date of surgery and assessment (in years), and patient comorbidity. Statistical significance of estimated fixed effects were assessed by the F-test statistic for type 3 tests, p \< 0.05.|||||<|0.05|||||||ANOVA|||||||<0.05
82412822|NCT03755076|164534329|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82412823|NCT03755076|164534330|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82412824|NCT02313155|164534388|SUPERIORITY_OR_OTHER||Difference|-6.6|||||TWO_SIDED|95.0|-24.858|11.592|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|A/H1N1 Strain||11.592|-24.858|
82412825|NCT02313155|164534388|SUPERIORITY_OR_OTHER||Difference|-15.5|||||TWO_SIDED|95.0|-33.779|2.87|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|A/H3N2 Strain||2.870|-33.779|
82412826|NCT02313155|164534388|SUPERIORITY_OR_OTHER||Difference|-11.8|||||TWO_SIDED|95.0|-30.048|6.547|||||Seroconversion rate difference between treatment groups was obtained by subtracting the value of TAK-850 I.M. from TAK-850 S.C.|B Strain||6.547|-30.048|
82412827|NCT06525727|164534415|OTHER||Sensitivity|97.96|||||TWO_SIDED|95.0|89.15|99.95|||Diagnostic accuracy|Diagnostic performance was analyzed in terms of sensitivity, specificity, NPV, PPV and likelihood ratios, all reported with 95% confidence interval||The primary objective of the study was to assess the external validation of the Falls Decision Rule. In this evaluation, patients were categorized into two groups based on the rule: those for whom a CT scan was recommended and those for whom it was not.||99.95|89.15|
82412828|NCT06525727|164534415|OTHER||Specificity|31.96|||||TWO_SIDED|95.0|28.63|35.42|||Diagnostic accuracy|||||35.42|28.63|
82412829|NCT06525727|164534415|OTHER||Negative predictive value|99.59|||||TWO_SIDED|95.0|97.17|99.94|||Diagnostic accuracy|||||99.94|97.17|
82576433|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8149||||0.0108|TWO_SIDED|95.0|-8.52|-1.11|||Mixed Models Analysis|||QLQ-LC13 alopecia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-1.11|-8.52|0.0108
82412830|NCT06525727|164534415|OTHER||Positive predictive value|8.59|||||TWO_SIDED|95.0|8.1|9.1|||Diagnostic accuracy|||||9.1|8.1|
82412831|NCT06525727|164534415|OTHER||Negative likelihood ratio|0.06|||||TWO_SIDED|95.0|0.01|0.42|||Diagnostic accuracy|||||0.42|0.01|
82412832|NCT06525727|164534415|OTHER||Positive likelihood ratio|1.44|||||TWO_SIDED|95.0|1.35|1.53|||Diagnostic accuracy|||||1.53|1.35|
82646866|NCT01355523|165008551|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Chi-squared|||||||0.002
82412833|NCT03881371|164534418|SUPERIORITY||Least-Square Mean|-1.1|STANDARD_ERROR_OF_MEAN|0.277|<|0.0001|TWO_SIDED|95.0|-1.643|-0.555||"Analysis was based on a covariance model (ANCOVA) with treatment and centre as independent factors, baseline mean total daily OFF time measurement as covariate and change from baseline as dependent variable."|ANCOVA|||Treatment difference (Safinamide - Placebo)||-0.555|-1.643|<.0001
82412834|NCT03881371|164534419|SUPERIORITY||Least-Square Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8901|TWO_SIDED|95.0|-0.44|0.382||ANCOVA with treatment and centre as independent factors, baseline NRS measurement as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||0.382|-0.440|0.8901
82412835|NCT03881371|164534420|SUPERIORITY||Least-Square Mean|0.89|STANDARD_ERROR_OF_MEAN|0.315||0.0049|TWO_SIDED|95.0|0.274|1.515||"ANCOVA with treatment and centre as independent factors, baseline mean total daily ON time measurement as covariate and change from baseline as dependent variable."|ANCOVA|||Treatment difference (Safinamide - Placebo)||1.515|0.274|0.0049
82412836|NCT03881371|164534421|SUPERIORITY||Least-Square Mean|1.07|STANDARD_ERROR_OF_MEAN|0.345||0.0021|TWO_SIDED|95.0|0.392|1.753||"ANCOVA with treatment and centre as independent factors, baseline mean total daily ON time with no/non-troublesome Dyskinesia measurement as covariate and change from baseline as dependent variable."|ANCOVA|||||1.753|0.392|0.0021
82412837|NCT03881371|164534422|SUPERIORITY||Least-Square Mean|-5.99|STANDARD_ERROR_OF_MEAN|1.447|<|0.0001|TWO_SIDED|95.0|-8.842|-3.141||ANCOVA with treatment and centre as independent factors, baseline UPDRS score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-3.141|-8.842|<.0001
82412838|NCT03881371|164534423|SUPERIORITY||Least-Square Mean|-1.52|STANDARD_ERROR_OF_MEAN|0.51||0.0033|TWO_SIDED|95.0|-2.521|-0.511||ANCOVA with treatment and centre as independent factors, baseline UPDRS part II (ADL) score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-0.511|-2.521|0.0033
82412839|NCT03881371|164534424|SUPERIORITY||Least-Square Mean|-3.8|STANDARD_ERROR_OF_MEAN|0.988||0.0002|TWO_SIDED|95.0|-5.749|-1.856||ANCOVA with treatment and centre as independent factors, baseline UPDRS part III (motor function) score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-1.856|-5.749|0.0002
82412840|NCT03881371|164534425|SUPERIORITY||Median|0.0||||0.015|TWO_SIDED|95.0|0.0|0.0||Analysis was based on the Wilcoxon-Mann-Whitney test stratified by centre.|Wilcoxon (Mann-Whitney)||Non-parametric 95% confidence interval was presented for the treatment difference in CGI-S at each post-baseline visit as reported by the Hodges-Lehmann estimator.|Treatment difference (Safinamide - Placebo)||0.000|0.000|0.0150
82412841|NCT03881371|164534426|SUPERIORITY||Median|0.5||||0.0007|TWO_SIDED|95.0|0.0|1.0||Analysis was based on the Wilcoxon-Mann-Whitney test stratified by centre.|Wilcoxon (Mann-Whitney)||Non-parametric 95% confidence interval was presented for the treatment difference in CGI-C score at each post-baseline visit as reported by the Hodges-Lehmann estimator.|Treatment difference (Safinamide - Placebo)||1.000|0.000|0.0007
82646867|NCT01355523|165008552|SUPERIORITY_OR_OTHER|||||||0.264||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.264
82412842|NCT03881371|164534427|SUPERIORITY||Least-Square Mean|-3.36|STANDARD_ERROR_OF_MEAN|1.132||0.0033|TWO_SIDED|95.0|-5.589|-1.128||ANCOVA with treatment and centre as independent factor, baseline Summary Index score as covariate and change from baseline as dependent variable.|ANCOVA|||Treatment difference (Safinamide - Placebo)||-1.128|-5.589|0.0033
82412843|NCT00933933|164534429|SUPERIORITY_OR_OTHER||Clinical Specificity|99.77|||||TWO_SIDED|95.0|99.62|99.88|||Exact binomial|||||99.88|99.62|
82412844|NCT00933933|164534430|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.31|100.0|||Exact binomial|||||100.00|94.31|
82412845|NCT00933933|164534430|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|99.63|100.0|||Exact binomial|||||100.00|99.63|
82412846|NCT00933933|164534430|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|98.18|100.0|||Exact binomial|||||100.00|98.18|
82412847|NCT00933933|164534431|SUPERIORITY_OR_OTHER||Clinical Specificity|100.0|||||TWO_SIDED|95.0|99.18|100.0|||Exact binomial|||||100.00|99.18|
82412848|NCT00933933|164534431|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.48|100.0|||Exact binomial|||||100.00|94.48|
82412849|NCT00933933|164534432|SUPERIORITY_OR_OTHER||Clinical Specificity|99.83|||||TWO_SIDED|95.0|99.06|100.0|||Exact binomial|||||100.00|99.06|
82412850|NCT00933933|164534432|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0|||||TWO_SIDED|95.0|94.4|100.0|||Exact binomial|||||100.00|94.40|
82447132|NCT02684188|164603036|SUPERIORITY|||||||0.037||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 14 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 104 (61 baseline and 43 intervention) patients were used in this analysis.|||0.037
82646868|NCT01355523|165008553|SUPERIORITY_OR_OTHER|||||||0.351||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.351
82412851|NCT01532089|164534435|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.39|TWO_SIDED|95.0|0.5|1.31|||Log Rank|Comparisons of PFS between arms were conducted using a stratified log-rank test.||||1.31|0.50|0.39
82412852|NCT01532089|164534436|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.33|TWO_SIDED|95.0|0.71|2.81|||Log Rank|||||2.81|0.71|0.33
82412853|NCT01532089|164534437|SUPERIORITY|||||||0.81|||||||Chi-squared|||||||0.81
82412854|NCT01995201|164534445|OTHER|||||||0.5231|||||||Chi-squared|||||||0.5231
82412855|NCT03329001|164534488|OTHER||Ratio of geometric least square mean|0.911|||||TWO_SIDED|90.0|0.855|0.9706|||||Relative bioavailability (AUC\[tablet\]/AUC\[capsule\]) was assessed using analysis of variance (ANOVA) model accounting for sequence, participants nested with sequences, period and treatment.|||0.9706|0.8550|
82412856|NCT03329001|164534489|OTHER||Ratio of geometric least square mean|0.9216|||||TWO_SIDED|90.0|0.8631|0.9841|||||Relative bioavailability (AUC\[tablet\]/AUC\[capsule\]) was assessed using ANOVA model accounting for sequence, participants nested with sequences, period and treatment.|||0.9841|0.8631|
82412857|NCT03329001|164534490|OTHER||Ratio of geometric least square mean|0.9483|||||TWO_SIDED|90.0|0.8489|1.0593|||||Relative bioavailability (Cmax\[tablet\]/Cmax\[capsule\]) was assessed using ANOVA model accounting for sequence, participants nested with sequences, period and treatment.|||1.0593|0.8489|
82412858|NCT03329001|164534495|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for AUC0-t|Ratio of geometric least square mean|0.9594|||||TWO_SIDED|90.0|0.9199|1.0006|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||1.0006|0.9199|
82412859|NCT03329001|164534496|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for AUC0-inf|Ratio of geometric least square mean|0.9566|||||TWO_SIDED|90.0|0.9164|0.9986|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||0.9986|0.9164|
82412860|NCT03329001|164534497|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval of the ratio of geometric least-squares means of the test (tablet) to reference (capsule) product was within 0.80 - 1.25% for Cmax|Ratio of geometric least square mean|0.9619|||||TWO_SIDED|90.0|0.9124|1.014|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence. Ratio of geometric least square mean of niraparib tablet to niraparib capsule is presented.|||1.0140|0.9124|
82412861|NCT03329001|164534502|OTHER||Ratio of geometric least square mean|1.3154|||||TWO_SIDED|90.0|1.1742|1.4735|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.4735|1.1742|
82412862|NCT03329001|164534503|OTHER||Ratio of geometric least square mean|1.2771|||||TWO_SIDED|90.0|1.1537|1.4137|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.4137|1.1537|
82412863|NCT03329001|164534504|OTHER||Ratio of geometric least square mean|1.1129|||||TWO_SIDED|90.0|0.9408|1.3164|||||Analysis was performed using linear mixed model with fixed effects of treatment, period, sequence, and random effect for participant nested within sequence.|||1.3164|0.9408|
82412864|NCT00622518|164534518|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0||||P value is based on rating\*group interaction term|linear mixed model|||||||.002
82412865|NCT04225832|164534595|SUPERIORITY||Odds Ratio (OR)|2.51||||0.049|TWO_SIDED|95.0|1.01|6.26||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Logistic|Regression results control for immigration status and length of time in U.S.|Odds ratio is for indicator of intervention arm||Regression results control for immigration status and length of time in U.S.|6.26|1.01|.049
82412866|NCT04225832|164534596|SUPERIORITY||Odds Ratio (OR)|1.06||||0.83|TWO_SIDED|95.0|0.62|1.81||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Logistic|Regression results control for immigration status and length of time in U.S.|Odds ratio is for indicator of intervention arm|||1.81|0.62|.83
82646869|NCT01355523|165008554|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.446
82412867|NCT04225832|164534597|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.14|TWO_SIDED|||||a-priori threshold was p\<.05 for two-sided p-value Regression employed nonresponse weights to account for any bias associated with completing any follow-up survey.|Regression, Linear|Regression results control for immigration status, length of time in U.S., and baseline value of the outcome|Slope is adjusted regression coefficient for indicator of intervention arm|"Unlike the observed at any FU primary outcomes which have a single value for each participant, for this outcome we employed a repeated measures style structure with one record for each of up to 3 FU observations. A sandwich estimator (SAS Proc Surveyreg) was employed to account for clustering of observations within participant."||||.14
82447133|NCT02684188|164603036|SUPERIORITY|||||||0.011||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 21 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 98 (57 baseline and 41 intervention) patients were used in this analysis.|||0.011
82412868|NCT00311168|164534598|SUPERIORITY|A target of an 80% reduction in percentage of ventricular pacing with VIP™ is proposed in this study. In order to achieve an 80% power of detecting an 80% reduction in the percentage of ventricular paced events and using a two group two-sided t-test of equal means, a minimum sample size of 39 patients per group was required. To account for possible withdrawal or loss to follow-up, this study targeted to enroll 100 patients (50 per group).|Mean Difference (Final Values)|-60.2|STANDARD_DEVIATION|19.0|<|0.0001|TWO_SIDED|95.0|-67.5|-52.9|||t-test, 2 sided||Mean difference in the percentage of intrinsic ventricular events is presented as, VIP Off - VIP On.|||-52.9|-67.5|<0.0001
82412869|NCT03323502|164534618|SUPERIORITY||Incidence Rate Ratio (IRR)|0.94|STANDARD_ERROR_OF_MEAN|0.062||0.3164|TWO_SIDED|95.0|0.83|1.06|||Poisson Regression|||||1.06|0.83|0.3164
82412870|NCT03323502|164534619|SUPERIORITY||Odds Ratio (OR)|0.94||||0.4828|TWO_SIDED|95.0|0.8|1.11|||Regression, Logistic|||||1.11|0.80|0.4828
82412871|NCT03323502|164534620|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3946|TWO_SIDED|95.0|0.85|1.49|||Regression, Logistic|||||1.49|0.85|0.3946
82412872|NCT02452190|164534638|SUPERIORITY|A fixed-sequence multiple testing procedure was implemented to test the primary and secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.|CAE rate ratio (reslizumab vs placebo)|0.79||||0.194|TWO_SIDED|95.0|0.562|1.124||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group, randomization stratification factors, and number of prior exacerbations as model factors and the logarithm of treatment duration excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.124|0.562|0.194
82412873|NCT06001021|164534652|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|-35.55|STANDARD_DEVIATION|17.78||0|TWO_SIDED|90.0|-38.9|-32.19||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||-32.19|-38.90|0.000
82412874|NCT06001021|164534653|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008). Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis.~2008;66(2):150-4. PMID: 18537788"|Mean Difference (Final Values)|23.96|STANDARD_DEVIATION|23.14||0|TWO_SIDED|90.0|19.59|28.32||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||28.32|19.59|0.000
82412875|NCT06001021|164534654|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|86.89|STANDARD_DEVIATION|45.43||0|TWO_SIDED|90.0|78.33|95.46||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||95.46|78.33|0.00
82412876|NCT06001021|164534655|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008).~Lesaffre E. Superiority, equivalence, and non-inferiority trials. Bull NYU Hosp Jt Dis. 2008;66(2):150-4. PMID: 18537788."|Mean Difference (Final Values)|22.26|STANDARD_DEVIATION|15.15||0|TWO_SIDED|90.0|19.41|25.12||The significance level is 0.10 with 90% confidence interval|ANCOVA|||||25.12|19.41|0.000
82412877|NCT06001021|164534656|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|16.44|STANDARD_DEVIATION|7.55||0|TWO_SIDED|90.0|15.02|17.87||The significance level is 0.10 with 90% confidence interval|ANCOVA|||Physical Domain of Quality of Life||17.87|15.02|0.000
82412878|NCT06001021|164534656|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|16.6|STANDARD_DEVIATION|7.62||0|TWO_SIDED|90.0|15.16|18.04||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||Psychological Domain of Quality of Life||18.04|15.16|0.000
82646870|NCT01355523|165008555|SUPERIORITY_OR_OTHER|||||||0.122||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.122
82646871|NCT01355523|165008556|SUPERIORITY_OR_OTHER|||||||0.907||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.907
82412879|NCT06001021|164534656|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|8.26|STANDARD_DEVIATION|3.96||0|TWO_SIDED|90.0|7.52|9.01||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||Social Domain of Quality of Life||9.01|7.52|0.000
82412880|NCT06001021|164534656|SUPERIORITY|"In the Superiority Trial, the statistical test aims to show that the treatment group gives better results than the control group. In an equivalence trial, the statistical test aims to show that two treatments are not too different in characteristics, where not too different is defined in a clinical manner (Lesaffre, 2008)."|Mean Difference (Final Values)|23.73|STANDARD_DEVIATION|11.07||0|TWO_SIDED|90.0|21.64|25.81||The significance level is 0.10 with 90% confidence interval.|ANCOVA|||||25.81|21.64|0.000
82412881|NCT00695019|164534670|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Chi-squared|||||||0.61
82447134|NCT02684188|164603036|SUPERIORITY|||||||0.05||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 30 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 95 (56 baseline and 39 intervention) patients were used in this analysis.|||0.050
82447135|NCT02684188|164603036|SUPERIORITY|||||||0.055|||||||Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 60 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 87 (53 baseline and 34 intervention) patients were used in this analysis.|||0.055
82447136|NCT02684188|164603036|SUPERIORITY|||||||0.137||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 90 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 83 (49 baseline and 34 intervention) patients were used in this analysis.|||0.137
82532373|NCT03844321|164762189|SUPERIORITY|||||||0.046||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Age measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.046
82532374|NCT03844321|164762189|SUPERIORITY|||||||0.275||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Age measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.275
82532375|NCT03844321|164762190|SUPERIORITY|||||||0.977||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PSS measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.977
82532376|NCT03844321|164762190|SUPERIORITY|||||||0.341||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PSS measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.341
82532377|NCT03844321|164762191|SUPERIORITY|||||||0.885||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDD measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.885
82532378|NCT03844321|164762191|SUPERIORITY|||||||0.319||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDD measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.319
82576434|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.3926|||<|0.0001|TWO_SIDED|95.0|-12.06|-4.72|||Mixed Models Analysis|||QLQ-LC13 coughing: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-4.72|-12.06|<0.0001
82412882|NCT00695019|164534671|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0|||||Chi-squared|||||||0.48
82412883|NCT00695019|164534672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||95.0|||||Kruskal-Wallis|||||||0.77
82412884|NCT00695019|164534673|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Kruskal-Wallis|||||||0.30
82412885|NCT00695019|164534674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72||95.0|||||Chi-squared|||||||0.72
82412886|NCT00695019|164534675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0023||95.0||||Analysis not adjusted to account for baseline differences between the groups.|Kruskal-Wallis|||||||0.0023
82412887|NCT00695019|164534676|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||95.0|||||Kruskal-Wallis|||Fibrotest provides an estimate of liver fibrosis based on the values of 5 serum markers. Scores range from 0 to 1 with higher scores indicating a greater level of liver fibrosis. A negative change in Fibrotest score is therefore deemed to indicate improvement (reduction in fibrosis), while a positive change indicates worsening condition.||||0.21
82412888|NCT00695019|164534677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Chi-squared|||||||0.03
82412889|NCT00695019|164534677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Chi-squared|||||||0.005
82412890|NCT03116230|164534695|OTHER|||||||0.005|||||||t-test, 2 sided|Treatment A vs Control||||||0.005
82447137|NCT02684188|164603037|SUPERIORITY|||||||0.279||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 3 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 112(68 baseline and 44 intervention) patients were used in this analysis.|||0.279
82412891|NCT03116230|164534695|OTHER|||||||0.64|||||||t-test, 2 sided|Treatment B vs Control||||||0.64
82412892|NCT05258721|164534699|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82412893|NCT05258721|164534700|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p =0.05|Kruskal-Wallis|||||||<0.001
82412894|NCT05258721|164534701|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82412895|NCT00230737|164534725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3594.0|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82412896|NCT02612155|164534798|OTHER|||||||0.06|||||||Fisher Exact|||||||0.06
82532379|NCT03844321|164762192|SUPERIORITY|||||||0.838||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.838
82412897|NCT04133909|164534925|SUPERIORITY||Rate ratio (Mepolizumab 100 mg/Placebo)|0.79||||0.011|TWO_SIDED|95.0|0.66|0.94|||Negative binomial model|||Analysis performed using a negative binomial model with covariates of treatment group, geographic region, number of moderate/severe exacerbations in previous year (less than or equal to \[\<=\]2, 3, \>=4 as ordinal), baseline percent (%) predicted Forced expiratory volume in one second (FEV1) and smoking status (current vs. former smoker), and with logarithm (time on- and off-treatment) as an offset variable.||0.94|0.66|0.011
82412898|NCT04133909|164534926|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.009|TWO_SIDED|95.0|0.64|0.93|||Cox Proportional Hazards Model|||Estimated from a Cox Proportional Hazards Model with covariates of treatment group, geographic region, number of moderate or severe exacerbations in previous year \<=2, 3, \>=4 as ordinal), baseline % predicted FEV1 and smoking status (current vs former).||0.93|0.64|0.009
82412899|NCT04133909|164534927|SUPERIORITY||Odds Ratio (OR)|0.81||||0.161|TWO_SIDED|95.0|0.6|1.09|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.09|0.60|0.161
82412900|NCT04133909|164534928|SUPERIORITY||Odds Ratio (OR)|1.17||||0.291|TWO_SIDED|95.0|0.87|1.57|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.57|0.87|0.291
82412901|NCT04133909|164534929|SUPERIORITY||Odds Ratio (OR)|0.82||||0.209|TWO_SIDED|95.0|0.6|1.12|||Regression, Logistic|||A logistic regression model was used to compare the proportion of responders between the mepolizumab and placebo arms in the mITT and mITT2 populations. The model includes fixed categorical covariates (treatment group, smoking status, geographic region) and a fixed continuous covariate (baseline score).||1.12|0.60|0.209
82412902|NCT04133909|164534930|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.65||||0.032|TWO_SIDED|95.0|0.43|0.96|||Negative binomial model|||Analysis performed using a negative binomial model with covariates of treatment group, geographic region, number of moderate/severe exacerbations in previous year (\<=2, 3, \>=4 as ordinal), baseline % predicted FEV1 and smoking status (current vs. former smoker), and with logarithm (time on- and off-treatment) as an offset variable. Estimates based on weighting applied to each level of class variable determined from observed proportions.||0.96|0.43|0.032
82412903|NCT01970371|164534950|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|26.5|||||TWO_SIDED|90.0|-0.7|51.2|||1-sided Fisher's exact test|||||51.2|-0.7|
82412904|NCT01970371|164534951|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|28.2|||||TWO_SIDED|90.0|0.7|52.5|||1-sided Fisher's exact test|||||52.5|0.7|
82412905|NCT01970371|164534952|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the difference in clinical cure percentage at the TOC visit between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|-0.3|||||TWO_SIDED|90.0|-26.9|26.8|||1-sided Fisher's exact test|||||26.8|-26.9|
82412906|NCT01970371|164534953|SUPERIORITY|The 2-sided 90% confidence interval (CI) for the unadjusted hazard ratio between groups in Cohort 1 (colistin:plazomicin) is based on a Cox proportional hazards regression model.|Hazard Ratio (HR)|3.97|||||TWO_SIDED|90.0|1.08|14.61|||1-sided logrank test|||||14.61|1.08|
82412907|NCT01970371|164534954|SUPERIORITY|The two-sided 90% confidence interval for the difference between groups in Cohort 1 (colistin minus plazomicin) is based on the unconditional exact method.|Difference Estimate|14.1|||||TWO_SIDED|90.0|-13.0|40.3|||1-sided Fisher's exact test|||||40.3|-13|
82646872|NCT01355523|165008557|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.555
82646873|NCT01355523|165008558|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.930
82532380|NCT03844321|164762192|SUPERIORITY|||||||0.89||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: EDA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.890
82412908|NCT00689936|164535045|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||6e-05|TWO_SIDED|95.0|0.61|0.85||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||0.85|0.61|0.00006
82412909|NCT00689936|164535045|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||1e-05|TWO_SIDED|95.0|0.6|0.82||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||0.82|0.60|0.00001
82412910|NCT00689936|164535045|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.70349|TWO_SIDED|95.0|0.89|1.2||The p-value is based on the unstratified log-rank test.|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.20|0.89|0.70349
82412911|NCT00689936|164535046|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|1e-05|TWO_SIDED|95.0|0.59|0.79||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.79|0.59|<0.00001
82412912|NCT00689936|164535046|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||<|1e-05|TWO_SIDED|95.0|0.6|0.81||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.81|0.60|<0.00001
82412913|NCT00689936|164535046|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.91161|TWO_SIDED|95.0|0.86|1.14||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.14|0.86|0.91161
82412914|NCT00689936|164535047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78||||0.00234|TWO_SIDED|95.0|0.67|0.92||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.92|0.67|0.00234
82412915|NCT00689936|164535047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.82903|TWO_SIDED|95.0|0.86|1.2||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.20|0.86|0.82903
82412916|NCT00689936|164535047|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.00119|TWO_SIDED|95.0|0.66|0.9||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.90|0.66|0.00119
82412917|NCT00689936|164535048|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83|||<|1e-05|TWO_SIDED|95.0|1.41|2.37|||Fisher Exact|||||2.37|1.41|<0.00001
82412918|NCT00689936|164535048|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.1||||0.53065|TWO_SIDED|95.0|0.83|1.44|||Fisher Exact|||||1.44|0.83|0.53065
82412919|NCT00689936|164535048|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.67||||0.0001|TWO_SIDED|95.0|1.29|2.15|||Fisher Exact|||||2.15|1.29|0.00010
82412920|NCT00689936|164535049|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02|||<|1e-05|TWO_SIDED|95.0|1.53|2.68|||Fisher Exact|||||2.68|1.53|<0.00001
82532381|NCT03844321|164762193|SUPERIORITY|||||||0.425||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: APRA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.425
82576435|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6651||||0.5938|TWO_SIDED|95.0|-1.78|3.11|||Mixed Models Analysis|||QLQ-LC13 dysphagia: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||3.11|-1.78|0.5938
82646874|NCT01355523|165008559|SUPERIORITY_OR_OTHER|||||||0.386||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.386
82412921|NCT00689936|164535049|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.405|TWO_SIDED|95.0|0.85|1.54|||Fisher Exact|||||1.54|0.85|0.40500
82412922|NCT00689936|164535049|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||4e-05|TWO_SIDED|95.0|1.35|2.32|||Fisher Exact|||||2.32|1.35|0.00004
82412923|NCT00689936|164535050|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|1e-05|TWO_SIDED|95.0|0.51|0.76||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.76|0.51|<0.00001
82412924|NCT00689936|164535050|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|1e-05|TWO_SIDED|95.0|0.5|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.72|0.50|<0.00001
82412925|NCT00689936|164535050|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.7674|TWO_SIDED|95.0|0.86|1.23||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||1.23|0.86|0.76740
82412926|NCT00689936|164535051|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.51|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.72|0.51|<0.00001
82412927|NCT00689936|164535051|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.61|||<|1e-05|TWO_SIDED|95.0|0.52|0.72||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.72|0.52|<0.00001
82412928|NCT00689936|164535051|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.99537|TWO_SIDED|95.0|0.85|1.17||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.17|0.85|0.99537
82412929|NCT00689936|164535052|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
82412930|NCT00689936|164535052|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46672|||||||Wilcoxon (Mann-Whitney)|||||||0.46672
82412931|NCT00689936|164535052|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
82576436|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.008|||<|0.0001|TWO_SIDED|95.0|-11.96|-6.06|||Mixed Models Analysis|||QLQ-LC13 dyspnoea: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-6.06|-11.96|<0.0001
82412932|NCT00689936|164535053|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
82412933|NCT00689936|164535053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46987|||||||Wilcoxon (Mann-Whitney)|||||||0.46987
82412934|NCT00689936|164535053|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
82412935|NCT00689936|164535054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.00012|TWO_SIDED|95.0|0.68|0.88||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.88|0.68|0.00012
82412936|NCT00689936|164535054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.00187|TWO_SIDED|95.0|0.71|0.93||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.93|0.71|0.00187
82412937|NCT00689936|164535054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.45973|TWO_SIDED|95.0|0.84|1.08||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.08|0.84|0.45973
82412938|NCT00689936|164535055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||2e-05|TWO_SIDED|95.0|0.67|0.86||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.86|0.67|0.00002
82412939|NCT00689936|164535055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.00126|TWO_SIDED|95.0|0.72|0.92||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.92|0.72|0.00126
82412940|NCT00689936|164535055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.27704|TWO_SIDED|95.0|0.83|1.06||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.06|0.83|0.27704
82412941|NCT00689936|164535056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66|||<|1e-05|TWO_SIDED|95.0|0.56|0.78||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.78|0.56|<0.00001
82412942|NCT00689936|164535056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.00067|TWO_SIDED|95.0|0.63|0.88||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||0.88|0.63|0.00067
82412943|NCT00689936|164535056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.12333|TWO_SIDED|95.0|0.75|1.03||The p-value is based on the unstratified log-rank test.|Log Rank||Based on a stratified Cox proportional hazards model|||1.03|0.75|0.12333
82412944|NCT00689936|164535057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|1e-05|TWO_SIDED|95.0|0.54|0.73||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||.73|0.54|<0.00001
82412945|NCT00689936|164535057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||1e-05|TWO_SIDED|95.0|0.61|0.83||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||0.83|0.61|0.00001
82412946|NCT00689936|164535057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.05821|TWO_SIDED|95.0|0.76|1.0||The p-value is based on the unstratified log-rank test.|Log Rank||Based on unstratified Cox proportional hazards model.|||1.00|0.76|0.05821
82412947|NCT00689936|164535058|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.93824|TWO_SIDED|95.0|0.75|1.38|||Fisher Exact|||||1.38|0.75|0.93824
82412948|NCT00689936|164535058|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.08836|TWO_SIDED|95.0|0.56|1.03|||Fisher Exact|||||1.03|0.56|0.08836
82412949|NCT00689936|164535058|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34||||0.04974|TWO_SIDED|95.0|1.01|1.79|||Fisher Exact|||||1.79|1.01|0.04974
82412950|NCT00689936|164535059|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.02134|TWO_SIDED|95.0|1.08|2.59|||Fisher Exact|||||2.59|1.08|0.02134
82412951|NCT00689936|164535059|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.64|1.59|||Fisher Exact|||||1.59|0.64|1.00000
82412952|NCT00689936|164535059|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.65||||0.02374|TWO_SIDED|95.0|1.08|2.53|||Fisher Exact|||||2.53|1.08|0.02374
82412953|NCT00689936|164535060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7||||0.11152|TWO_SIDED|95.0|0.91|3.21|||Fisher Exact|||||3.21|0.91|0.11152
82412954|NCT00689936|164535060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93||||0.86336|TWO_SIDED|95.0|0.47|1.83|||Fisher Exact|||||1.83|0.47|0.86336
82412955|NCT00689936|164535060|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.84||||0.07321|TWO_SIDED|95.0|0.96|3.55|||Fisher Exact|||||3.55|0.96|0.07321
82412956|NCT00689936|164535061|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.62||||0.00043|TWO_SIDED|95.0|1.55|4.45|||Fisher Exact|||||4.45|1.55|0.00043
82412957|NCT00689936|164535061|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.31274|TWO_SIDED|95.0|0.78|2.43|||Fisher Exact|||||2.43|0.78|0.31274
82412958|NCT00689936|164535061|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.01936|TWO_SIDED|95.0|1.13|3.19|||Fisher Exact|||||3.19|1.13|0.01936
82412959|NCT00689936|164535062|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.82128|TWO_SIDED|95.0|0.46|2.8|||Fisher Exact|||||2.80|0.46|0.82128
82412960|NCT00689936|164535062|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.46||||0.11041|TWO_SIDED|95.0|0.19|1.14|||Fisher Exact|||||1.14|0.19|0.11041
82412961|NCT00689936|164535062|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.44||||0.07302|TWO_SIDED|95.0|1.01|5.91|||Fisher Exact|||||5.91|1.01|0.07302
82412962|NCT01932606|164535090|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|||||||0.0003
82412963|NCT01932606|164535091|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in right atrial pressure.||||0.0003
82412964|NCT01932606|164535091|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery systolic pressure.||||0.01
82412965|NCT01932606|164535091|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean pulmonary artery pressure.||||0.002
82412966|NCT01932606|164535091|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Comparison between the 2 arms for change in PCWP.||||<0.0001
82412967|NCT01932606|164535092|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
82646875|NCT01355523|165008560|SUPERIORITY_OR_OTHER|||||||0.241||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.241
82412968|NCT01932606|164535093|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in systolic blood pressure.||||0.11
82412969|NCT01932606|164535093|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean blood pressure.||||0.2
82412970|NCT01932606|164535094|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PVR.||||0.7
82412971|NCT01932606|164535095|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery compliance.||||0.1
82412972|NCT01932606|164535096|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in SVR.||||0.3
82412973|NCT01932606|164535097|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in LVSW.||||0.3
82412974|NCT01932606|164535098|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in VO\_2.||||0.8
82412975|NCT01932606|164535099|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for arteriovenous oxygen content difference.||||0.1
82412976|NCT01932606|164535100|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in cardiac output.||||0.4
82412977|NCT01932606|164535101|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in stroke volume.||||0.4
82412978|NCT01932606|164535102|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in right atrial pressure (exercise).||||0.0002
82412979|NCT01932606|164535102|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in pulmonary artery systolic pressure (exercise).||||0.01
82412980|NCT01932606|164535102|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in mean pulmonary artery pressure (exercise).||||0.0002
82412981|NCT01932606|164535102|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PCWP (exercise).||||0.0002
82412982|NCT01932606|164535103|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in heart rate.||||0.3
82412983|NCT01932606|164535104|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in systolic blood pressure.||||0.2
82412984|NCT01932606|164535104|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in diastolic blood pressure.||||0.05
82412985|NCT01932606|164535105|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PVR after study drug (exercise)||||0.3
82412986|NCT01932606|164535106|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in PA compliance after study drug (exercise)||||0.3
82412987|NCT01932606|164535107|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in SVR after study drug (exercise).||||0.007
82412988|NCT01932606|164535108|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in LVSW after study drug (exercise)||||0.0003
82412989|NCT01932606|164535109|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in oxygen consumption (VO\_2) after study drug (exercise).||||0.02
82412990|NCT01932606|164535110|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in arteriovenous oxygen difference after study drug (exercise).||||0.6
82412991|NCT01932606|164535111|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in cardiac output after study drug (exercise).||||0.002
82412992|NCT01932606|164535112|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for change in stroke volume after study drug (exercise).||||0.0002
82412993|NCT06001866|164535113|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
82412994|NCT06001866|164535113|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82412995|NCT06001866|164535114|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82412996|NCT06001866|164535114|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82412997|NCT06001866|164535115|SUPERIORITY||||||=|0.78|||||||LSD test|||||||=0.78
82412998|NCT06001866|164535115|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<.00001
82412999|NCT06001866|164535116|SUPERIORITY||||||=|1|||||||LSD test|||||||=1.00
82413000|NCT06001866|164535116|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82413001|NCT06001866|164535117|SUPERIORITY||||||=|0.75|||||||LSD test|||||||=0.75
82413002|NCT06001866|164535117|SUPERIORITY||||||<|0.01|||||||LSD test|||||||<0.01
82413003|NCT06001866|164535118|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82413004|NCT06001866|164535118|SUPERIORITY||||||=|0.62|||||||LSD test|||||||=0.62
82413005|NCT06001866|164535119|SUPERIORITY||||||=|0.16|||||||LSD test|||||||=0.16
82413006|NCT06001866|164535119|SUPERIORITY||||||=|0.33|||||||LSD test|||||||=0.33
82413007|NCT06001866|164535120|SUPERIORITY||||||=|0.54|||||||t-test, 2 sided|||||||=.54
82413008|NCT06001866|164535121|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82413009|NCT04235374|164535129|SUPERIORITY||Mean Difference (Final Values)|0.06|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
82413010|NCT04235374|164535130|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
82413011|NCT04235374|164535131|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
82413012|NCT04235374|164535132|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
82413013|NCT04235374|164535133|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
82413014|NCT05495997|164535144|SUPERIORITY|||||||0.015|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 6 weeks compared to baseline (group-by-time interaction)||||0.015
82413015|NCT05495997|164535145|SUPERIORITY|||||||0.993|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 18 weeks compared to baseline (group-by-time interaction)||||0.993
82413016|NCT05495997|164535146|SUPERIORITY|||||||0.517|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 6 weeks compared to baseline (group-by-time interaction)||||0.517
82532382|NCT03844321|164762193|SUPERIORITY|||||||0.733||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||PROMIS: APRA measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.733
82413017|NCT05495997|164535147|SUPERIORITY|||||||0.817|||||||ANCOVA|||Mental Imagery Group (PD-MI) compared to Psychoeducation Control Group (PD-Con) at 18 weeks compared to baseline (group-by-time interaction)||||0.817
82413018|NCT04435626|164535153|SUPERIORITY||Rate ratio|0.84||||0.0072|TWO_SIDED|95.0|0.74|0.95||Two-sided p-value; p-value threshold =0.04967;|stratified Andersen-Gill model|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|Rate Ratio (Finerenone/Placebo)||0.95|0.74|0.0072
82413019|NCT04435626|164535155|SUPERIORITY||Rate ratio|0.82||||0.0062|TWO_SIDED|95.0|0.71|0.94||Two-sided p-value; p-value threshold=0.04967;|Stratified Andersen-Gill model|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|stratified Andersen-Gill model with robust sandwich estimate for the covariance matrix of recurrent events|Rate Ratio (Finerenone/Placebo)||0.94|0.71|0.0062
82413020|NCT04435626|164535157|OTHER|mixed-effects model for repeated measures (MMRM)|Difference in LS Mean|1.56|||<|0.0001|TWO_SIDED|95.0|0.79|2.34||Two-sided p-value;|Mixed Models Analysis|The analysis was performed using mixed-effects model for repeated measures (MMRM)||Difference in LS Mean||2.34|0.79|<.0001
82413021|NCT04435626|164535158|OTHER|Logistic regression analysis|Odds Ratio (OR)|1.01||||0.9295|TWO_SIDED|95.0|0.88|1.15||Two-sided p-value|Regression, Logistic|||Odds ratio (finerenone /placebo)||1.15|0.88|0.9295
82413022|NCT04435626|164535159|OTHER|Stratified log-rank test|Cause-specific Hazard Ratio|1.33||||0.1071|TWO_SIDED|95.0|0.94|1.89||two-sided p-value|Stratified log-rank test||stratified Cox proportional hazards model|Cause-specific Hazard Ratio||1.89|0.94|0.1071
82413023|NCT04435626|164535160|OTHER|Stratified log-rank test|cause-specific hazard ratio|0.93||||0.2794|TWO_SIDED|95.0|0.83|1.06||two-sided p-value|stratified log-rank||stratified Cox proportional hazards model|Hazard Ratio||1.06|0.83|0.2794
82413024|NCT04426656|164535161|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using the outcome variable measured at Week 12.||||0.85
82413025|NCT04426656|164535162|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
82413026|NCT04426656|164535163|SUPERIORITY|||||||0.318|||||||Fisher Exact|||||||0.318
82413027|NCT04426656|164535164|SUPERIORITY|||||||0.527|||||||Fisher Exact|||||||0.527
82413028|NCT04426656|164535165|SUPERIORITY|||||||0.928|||||||Fisher Exact|||||||0.928
82413029|NCT04426656|164535166|SUPERIORITY|||||||0.678|||||||Fisher Exact|||||||0.678
82413030|NCT04426656|164535167|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||The comparison test was made using the outcome variable measured at Week 12.||||0.26
82413031|NCT04426656|164535168|SUPERIORITY|||||||0.08|||||||Fisher Exact|||The comparison was made using data measured at Week 12.||||0.08
82413032|NCT04426656|164535169|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using data measured at Week 12.||||0.03
82413033|NCT04426656|164535170|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||This comparison was made using data at Week 12.||||0.58
82413034|NCT04426656|164535171|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||The comparison was made using data measured at Week 12.||||0.85
82413035|NCT02296125|164535217|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.37|0.57|||Log Rank|||||0.57|0.37|<0.0001
82413036|NCT02296125|164535217|OTHER|The china cohort was not powered for superiority|Hazard Ratio (HR)|0.56||||0.0065|TWO_SIDED|95.0|0.37|0.85|||Log Rank|||||0.85|0.37|0.0065
82413037|NCT02296125|164535219|SUPERIORITY||Odds Ratio (OR)|1.51||||0.036|TWO_SIDED|95.0|1.03|2.22|||Regression, Logistic|||||2.22|1.03|0.036
82413038|NCT02296125|164535219|OTHER|The china cohort was not powered for superiority|Odds Ratio (OR)|1.31||||0.485|TWO_SIDED|95.0|0.61|2.84|||Regression, Logistic|||||2.84|0.61|0.485
82413039|NCT02296125|164535220|OTHER|The china cohort was not powered for superiority|Mean Difference (Final Values)|2.48||||0.0133|TWO_SIDED|95.0|1.21|5.09|||Regression, Linear|||||5.09|1.21|0.0133
82413040|NCT02296125|164535220|SUPERIORITY||Mean Difference (Final Values)|2.27|||<|0.0001|TWO_SIDED|95.0|1.68|3.08|||Regression, Linear|||||3.08|1.68|<0.0001
82413041|NCT02296125|164535221|SUPERIORITY||Odds Ratio (OR)|2.78||||0.011|TWO_SIDED|95.0|1.25|6.78|||Regression, Logistic||An odds ratio \> 1 favours osimertinib|||6.78|1.25|0.0110
82413042|NCT02296125|164535221|OTHER|The china cohort was not powered for superiority|Odds Ratio (OR)|1.67||||0.5772|TWO_SIDED|95.0|0.27|12.98|||Regression, Logistic||An odds ratio \>1 favours osimertinib|||12.98|0.27|0.5772
82413043|NCT02296125|164535222|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0025|TWO_SIDED|95.0|-11.205|-2.403|||Regression, Linear|||||-2.403|-11.205|0.0025
82413044|NCT02296125|164535222|OTHER|The china cohort was not powered for superiority|Mean Difference (Final Values)|-6.59||||0.1348|TWO_SIDED|95.0|-15.246|2.072|||Regression, Linear|||||2.072|-15.246|0.1348
82413045|NCT02296125|164535223|SUPERIORITY||Hazard Ratio (HR)|0.799||||0.0462|TWO_SIDED|95.0|0.6409|0.9963|||Log Rank|||||0.9963|0.6409|0.0462
82413046|NCT02296125|164535223|OTHER|The china cohort was not powered for superiority|Hazard Ratio (HR)|0.848||||0.4416|TWO_SIDED|95.0|0.5568|1.291|||Log Rank|||||1.2910|0.5568|0.4416
82413047|NCT03785366|164535276|OTHER|"For the primary analysis, a ANOVA model with treatment as a fixed effect and subject as a random effect was used to analyze the uncorrected PK parameters Cmax, Cmean, and AUC0-56 days.~Analysis methodology for the secondary analysis mirrored the approach for the primary analysis applied to the baseline-corrected PK parameters."|test to Reference geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.8|1.25|||ANCOVA|||||1.25|0.80|
82426483|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.25|||<|0.0001|TWO_SIDED|95.0|3.7|10.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||10.5|3.7|<0.0001
82646876|NCT01355523|165008561|SUPERIORITY_OR_OTHER|||||||0.339||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.339
82447138|NCT02684188|164603037|SUPERIORITY|||||||0.211||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 7 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 110 (66 baseline and 44 intervention) patients were used in this analysis.|||0.211
82447139|NCT02684188|164603037|SUPERIORITY|||||||0.424||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 14 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 104 (61 baseline and 43 intervention) patients were used in this analysis.|||0.424
82447140|NCT02684188|164603037|SUPERIORITY|||||||0.191||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 21 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 98 (57 baseline and 41 intervention) patients were used in this analysis.|||0.191
82447141|NCT02684188|164603037|SUPERIORITY|||||||0.478||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 30 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 95 (56 baseline and 39 intervention) patients were used in this analysis.|||0.478
82447142|NCT02684188|164603037|SUPERIORITY|||||||0.452||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 60 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 87 (53 baseline and 34 intervention) patients were used in this analysis.|||0.452
82447143|NCT02684188|164603037|SUPERIORITY|H0: There is no difference in the proportion of patients with at least one ED visits by day 90 (null hypothesis); H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 90.||||||0.381||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic||||For day 90, 83 (49 baseline and 34 intervention) patients were used in this analysis.|||0.381
82532383|NCT03844321|164762194|SUPERIORITY|||||||0.582||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||FFMQ measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.582
82532384|NCT03844321|164762194|SUPERIORITY|||||||0.666||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||FFMQ measured at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.666
82532385|NCT03844321|164762195|SUPERIORITY|||||||0.355||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of psychiatric illness at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.355
82532386|NCT03844321|164762195|SUPERIORITY|||||||0.361||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of psychiatric illness at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.361
82532387|NCT03844321|164762196|SUPERIORITY|||||||0.64||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of medical problems at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.640
82576437|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8828||||0.0656|TWO_SIDED|95.0|-1.82|0.06|||Mixed Models Analysis|||QLQ-LC13 haemoptysis: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||0.06|-1.82|0.0656
82413048|NCT05252702|164535298|SUPERIORITY|"The primary safety endpoint hypothesis at 3 months was formally expressed as:~H0: CFR ≤ 78% vs. H1: CFR \> 78%~where 78% was the performance goal (PG)."|binomial proportion|90.3|||<|0.0001|ONE_SIDED|97.5|87.0|||The CFR was estimated as a binomial proportion and a one-sided 97.5% lower confidence bound of the CFR was calculated using the normal approximation. The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG|one-sided Z-test|The p-value from a one-sided Z-test for the binomial proportion was calculated and compared to the 0.025 significance level.|||||87|<0.0001
82646877|NCT01355523|165008562|SUPERIORITY_OR_OTHER|||||||0.578||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.578
82413049|NCT05252702|164535299|SUPERIORITY|"The primary safety endpoint hypothesis at 12 months was formally expressed as:~H0: CFR ≤ 76.5% vs. H1: CFR \> 76.5%~where 76.5% is the performance goal. The CFR was estimated using a Kaplan-Meier survival analysis and the 97.5% lower confidence bound of CFR was calculated using the Greenwood variance estimates."|Kaplan-Meier|88.6|||<|0.0001|ONE_SIDED|97.5|84.5|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the Performance Goal (PG) of 76.5%.|one-sided Z-test|The p-value for the one-sided Z-test was calculated and compared to the 2.5% significance level.|||||84.5|<0.0001
82413050|NCT05252702|164535300|SUPERIORITY||binomial proportion|90.8|||<|0.0001|ONE_SIDED|97.5|87.5|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 82.5%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.||"The primary effectiveness endpoint #1 hypothesis at 3 month was formally expressed as:~H0: Rate ≤ 82.5% vs. H1: Rate \> 82.5%~where 82.5% was the performance goal (PG)."|||87.5|<0.0001
82413051|NCT05252702|164535301|SUPERIORITY||binomial proportion|92.8|||<|0.0001|ONE_SIDED|97.5|89.7|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 80%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.|The Rate at 12 months was estimated as a binomial proportion and the one-sided 97.5% LCB of the Rate was calculated using the normal approximation.|"The primary effectiveness endpoint #1 hypothesis at 12 months was formally expressed as:~H0: Rate ≤ 80% vs. H1: Rate \> 80%~where 80% was the performance goal (PG)."|||89.7|<0.0001
82413052|NCT05252702|164535302|SUPERIORITY||binomial proportion|98.2|||<|0.0001|ONE_SIDED|97.5|96.6|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the PG of 83%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.||"The primary effectiveness endpoint #2 hypothesis was formally expressed as:~H0: RateAV ≤ 83% vs. H1: RateAV \> 83%~where 83% is the performance goal."|||96.6|<0.0001
82413053|NCT05252702|164535303|SUPERIORITY||binomial proportion|91.3||||0.0003|ONE_SIDED|97.5|88.1|||The null hypothesis was to be rejected at the 2.5% significance level if the lower confidence bound exceeded the Performance Goal (PG) of 84%.|one-sided Z-test|The p-value from a one-sided Z-test for the binomial proportion was to be calculated and compared to the 0.025 significance level.||"The secondary safety endpoint hypothesis at 3 months was formally expressed as:~H0: CFRA ≤ 84% vs. H1: CFRA \> 84%~where 84% was the performance goal."|||88.1|0.0003
82413054|NCT05252702|164535304|SUPERIORITY||Kaplan-Meier|91.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|ONE_SIDED|97.5|87.1|||The null hypothesis was to be rejected at the 2.5% significance level if the LCB exceeded the Performance Goal (PG) of 82%.|one-sided Z-test|The p-value for the one-sided Z-test was to be calculated and compared to the 2.5% significance level.|The 97.5% lower confidence bound (LCB) of CFRA was calculated using the Greenwood variance estimates.|"The secondary safety endpoint hypothesis at 12 months was formally expressed as:~H0: CFRA ≤ 82% vs. H1: CFRA \> 82%~where 82% is the performance goal."|||87.1|<0.0001
82413055|NCT05252702|164535305|OTHER||mixed effects model for repeated measure|0.91|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.78|1.04|||t-test, 1 sided|Two one-sided t-tests (TOST), with an alpha level of 0.025, and n-1 degrees of freedom.||"An analysis of these data provided an estimate of the 95% confidence interval for the mean slope across analyzable subjects, which had a pre-specified success criterion requiring that this confidence interval must fall between slopes of 65% and 135%. The following hypothesis was evaluated:~H0: Mean Slope \< 0.65 or Mean Slope \> 1.35~H1: 0.65 ≤ Mean Slope ≤ 1.35"||1.04|0.78|<0.001
82413056|NCT04153864|164535306|NON_INFERIORITY|The Non-Inferiority Margin (NIM) was defined as 10% of the mean EPDS score in the Specialist group (8.91), which corresponded to a value of 0.89. This predetermined NIM of 10% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.36|||<|0.05|ONE_SIDED|95.0||0.86|||t-test, 1 sided|||Behavioral Activation (BA) delivered by Non-Specialists will be non-inferior to BA delivered by Specialists if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 10% non-inferiority margin (NIM).||0.86||<0.05
82413057|NCT04153864|164535306|NON_INFERIORITY|The NIM was defined as 13% of the mean EPDS score in the In-Person group (8.92), which corresponded to a value of 1.16. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.23|||<|0.05|ONE_SIDED|95.0||0.77|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this presents the Intention to Treat (ITT) analysis.||0.77||<0.05
82413058|NCT04153864|164535306|NON_INFERIORITY|The NIM was defined as 13% of the mean EPDS score in the In-Person group (8.81), which corresponded to a value of 1.15. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.36|||<|0.05|ONE_SIDED|95.0||0.91|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in EPDS scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this is per protocol analysis. Due to institutional pandemic-related restrictions, 21 participants were switched from In-Person to Telemedicine and met criteria for the per protocol analyses.||0.91||<0.05
82413059|NCT04153864|164535308|NON_INFERIORITY|The NIM was defined as 10% of the mean GAD-7 score for the Specialist group (6.36), which corresponded to a value of 0.64. This predetermined NIM of 10% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.08|||<|0.05|ONE_SIDED|95.0||0.57|||t-test, 1 sided|||Behavioral Activation (BA) delivered by Non-Specialists will be non-inferior to BA delivered by Specialists if the upper limit of the 95% confidence interval for the estimated mean difference in GAD-7 scores is less than the pre-specified 10% non-inferiority margin (NIM).This analysis was performed on 3-months post-randomization scores.||0.57||<0.05
82426484|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.6692|TWO_SIDED|95.0|0.6|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||1.9|0.6|0.6692
82646878|NCT01355523|165008563|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.000
82447144|NCT02684188|164603038|SUPERIORITY|||||||0.502||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of hospital visits for day 3 (null hypothesis); H1: The cumulative number of hospital visits for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 115 (70 baseline and 45 intervention) patients were used in this analysis.|||0.502
82447145|NCT02684188|164603038|SUPERIORITY|||||||0.286||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 7 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 113 (68 baseline and 45 intervention) patients were used in this analysis.|||0.286
82413060|NCT04153864|164535308|NON_INFERIORITY|The NIM was defined as 13% of the mean GAD-7 score in the In-Person group (6.29), which corresponded to a value of 0.82. This predetermined NIM of 13% aligns with noninferiority guidelines and ensures clinically meaningful conclusions.|Mean Difference (Final Values)|0.14|||<|0.05|ONE_SIDED|95.0||0.73|||t-test, 1 sided|||Behavioral Activation (BA) delivered via Telemedicine will be non-inferior to BA delivered In-Person if the upper limit of the 95% confidence interval for the estimated mean difference in GAD-7 scores is less than the pre-specified 13% non-inferiority margin (NIM). Please note, this presents the Intention to Treat (ITT) analysis.||0.73||<0.05
82413061|NCT03033355|164535319|OTHER|||||||0.0012||||||Threshold for statistical significance used P-value \<0.05|Student t-Test|||Right Cingulate Body||||0.0012
82413062|NCT03033355|164535319|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Posterior Cingulate||||0.02
82413063|NCT03033355|164535319|OTHER|||||||0.0015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Anterior Cingulate||||0.0015
82413064|NCT03033355|164535319|OTHER|||||||0.0015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Right Prefrontal Cortex||||0.0015
82413065|NCT03033355|164535319|OTHER|||||||0.0138||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Insula||||0.0138
82413066|NCT03033355|164535319|OTHER|||||||0.049||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Pons Micturition Center||||0.049
82413067|NCT03033355|164535319|OTHER|||||||0.001||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Cerebellum||||0.001
82413068|NCT03033355|164535319|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Lentiform Nucleus||||0.026
82413069|NCT03033355|164535319|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Right Lentiform Nucleus||||0.026
82447146|NCT02684188|164603038|SUPERIORITY|||||||0.347||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 14 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 107 (63 baseline and 44 intervention) patients were used in this analysis.|||0.347
82646879|NCT01222715|165008578|SUPERIORITY_OR_OTHER|||||||0.0124|TWO_SIDED|95.0|||||Log Rank|||The event free survival distributions of patients in Regimen A and Regimen B were compared using the log-rank test.||||0.0124
82413070|NCT03033355|164535319|OTHER|||||||0.015||||||Threshold for statistical significance used P-value \<0.05|student t-test|||Left Amygdala/parahippocampal Gyrus||||0.015
82413071|NCT01811238|164535330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_DEVIATION|2.18|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|"The primary endpoint will be the actual reduction rate of pain intensity (0 -10) score at 8 weeks.~It will be analyzed by using paired t-test."||||||<0.05
82413072|NCT01811238|164535331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|0.37|<|0.05|TWO_SIDED|95.0|0.0|1.12|||t-test, 2 sided|The change(difference) in EQ-5D score at Week 8 from baseline was analyzed by using paired t-test.||||1.12|0|<0.05
82413073|NCT01706328|164535352|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.137|TWO_SIDED|95.0|-0.008|0.059|||ANCOVA|||||0.059|-0.008|0.137
82413074|NCT04835441|164535379|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|||||||0.107
82413075|NCT04835441|164535380|SUPERIORITY|||||||0.308|||||||Cochran-Mantel-Haenszel|||||||0.308
82413076|NCT04835441|164535381|SUPERIORITY|||||||0.442|||||||ANOVA|||||||0.442
82413077|NCT04835441|164535382|SUPERIORITY|||||||0.788|||||||Kaplan-Meier methods|||||||0.788
82413078|NCT04835441|164535383|SUPERIORITY|||||||0.792|||||||Cochran-Mantel-Haenszel|||||||0.792
82413079|NCT04835441|164535384|SUPERIORITY|||||||0.302|||||||Mixed models for repeated measures|||||||0.302
82413080|NCT04835441|164535385|SUPERIORITY|||||||0.506|||||||ANOVA|||||||0.506
82413081|NCT04835441|164535386|SUPERIORITY|||||||0.659|||||||Fisher Exact|||||||0.659
82413082|NCT00770809|164535419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED|||||Participants were stratified by clinical stage (II vs III) and hormone receptor status (positive/negative).|Log Rank|||||||0.13
82413083|NCT00770809|164535419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|TWO_SIDED|||||Participants were stratified by clinical stage (II vs III) and hormone receptor status (positive/negative).|Log Rank|||||||0.072
82413084|NCT05370326|164535445|SUPERIORITY||Mean Difference (Net)|0.89||||0.69|TWO_SIDED|95.0|-3.67|5.46|||t-test, 2 sided|||||5.46|-3.67|0.69
82413085|NCT05370326|164535450|SUPERIORITY||Mean Difference (Net)|0.23||||0.67|TWO_SIDED|95.0|-0.89|1.36|||t-test, 2 sided|||||1.36|-0.89|0.67
82413086|NCT05370326|164535451|SUPERIORITY||Mean Difference (Net)|0.59||||0.5|TWO_SIDED|95.0|-1.16|2.34|||t-test, 2 sided|||||2.34|-1.16|0.50
82413087|NCT05370326|164535452|SUPERIORITY||Mean Difference (Net)|0.2||||0.74|TWO_SIDED|95.0|-1.09|1.51|||t-test, 2 sided|||||1.51|-1.09|0.74
82413088|NCT05370326|164535454|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
82413089|NCT05370326|164535455|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
82413090|NCT03112603|164535494|OTHER||Odds Ratio (OR)|2.99|||<|0.0001|TWO_SIDED|95.0|1.86|4.8|||Cochran-Mantel-Haenszel|||||4.80|1.86|<0.0001
82413091|NCT03112603|164535496|OTHER||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.268|0.51||The p-value was derived from a 1-sided stratified log-rank test.|Log Rank||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||0.510|0.268|<0.0001
82447147|NCT02684188|164603038|SUPERIORITY|||||||0.25||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 21 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 101 (59 baseline and 42 intervention) patients were used in this analysis.|||0.250
82447148|NCT02684188|164603038|SUPERIORITY|||||||0.22||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 30 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.220
82447149|NCT02684188|164603038|SUPERIORITY|||||||0.116||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 60 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 90 (55 baseline and 35 intervention) patients were used in this analysis.|||0.116
82447150|NCT02684188|164603038|SUPERIORITY|||||||0.126||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Poisson regression|||H0: There is no difference in the cumulative number of ED visits for day 90 (null hypothesis); H1: The cumulative number of ED visits for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 86 (51 baseline and 35 intervention) patients were used in this analysis.|||0.126
82413092|NCT03112603|164535497|OTHER||Hazard Ratio (HR)|0.361|||||TWO_SIDED|95.0|0.268|0.485|||||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||0.485|0.268|
82413093|NCT03112603|164535498|OTHER||Odds Ratio (OR)|2.17||||0.0011|TWO_SIDED|95.0|1.34|3.52||The one-sided p-value was calculated using a stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel||The odds ratio and 95% confidence interval (CI) were calculated using a stratified Cochran-Mantel-Haenszel test.|||3.52|1.34|0.0011
82413094|NCT03112603|164535500|OTHER||Odds Ratio (OR)|2.77|||<|0.0001|TWO_SIDED|95.0|1.75|4.39||The one-sided p-value was calculated using a stratified Cochran-Mantel-Haenszel (CMH) test.|Cochran-Mantel-Haenszel||The odds ratio and 95% CI were calculated using a stratified CMH test.|||4.39|1.75|<0.0001
82413095|NCT03112603|164535502|OTHER||Hazard Ratio (HR)|0.851||||0.2396|TWO_SIDED|95.0|0.544|1.331||The p-value was derived from a 1-sided stratified log-rank test.|Log Rank||The hazard ratio was obtained from a stratified Cox model using cGvHD severity at randomization as strata.|||1.331|0.544|0.2396
82413096|NCT00207740|164535518|SUPERIORITY_OR_OTHER|||||||0.802||||||When interpreting this p-value along with the other co-primary endpoint, Hochberg procedure was used.|ANCOVA|||The null hypothesis was that the endpoint for placebo is the same as that for combined 100 mg and 200 mg golimumab. Assuming a standard deviation of 23%, there is 86% power to detect a 10% difference at a 0.05 significance level.||||0.802
82413097|NCT00207740|164535518|SUPERIORITY_OR_OTHER|||||||0.945||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.945
82413098|NCT00207740|164535518|SUPERIORITY_OR_OTHER|||||||0.717||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.717
82413099|NCT00207740|164535518|SUPERIORITY_OR_OTHER|||||||0.357||||||The nominal p-value is for descriptive purpose only.|ANCOVA|||This is a secondary analysis.||||0.357
82413100|NCT00207740|164535519|SUPERIORITY_OR_OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.286
82447151|NCT02684188|164603039|SUPERIORITY|||||||0.597||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 3; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 3.|For day 3, 115 (70 baseline and 45 intervention) patients were used in this analysis.|||0.597
82413101|NCT00207740|164535519|SUPERIORITY_OR_OTHER|||||||0.742|||||||Wilcoxon (Mann-Whitney)|||||||0.742
82413102|NCT00207740|164535519|SUPERIORITY_OR_OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
82413103|NCT00207740|164535519|SUPERIORITY_OR_OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
82413104|NCT00207740|164535520|SUPERIORITY_OR_OTHER|||||||0.718||||||When interpreting this p-value along with the other co-primary endpoint, Hochberg procedure was used.|Cochran-Mantel-Haenszel|||The null hypothesis was that the number of severe exacerbations per patient from baseline through week 24 for placebo is the same as that in the combined 100 mg and 200 mg golimumab. Assuming 1 severe exacerbation over 6 months per patient in the placebo group, there is 79% power to detect a 35% reduction in the combined 100 mg and 200 mg golimumab group at a 0.05 significance level.||||0.718
82413105|NCT00207740|164535520|SUPERIORITY_OR_OTHER|||||||0.779||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.779
82413106|NCT00207740|164535520|SUPERIORITY_OR_OTHER|||||||0.649||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.649
82413107|NCT00207740|164535520|SUPERIORITY_OR_OTHER|||||||0.256||||||The nominal p-value is for descriptive purpose only.|Cochran-Mantel-Haenszel|||This is a secondary analysis.||||0.256
82413108|NCT00207740|164535521|SUPERIORITY_OR_OTHER|||||||0.894|||||||Kruskal-Wallis|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.894
82413109|NCT00207740|164535521|SUPERIORITY_OR_OTHER|||||||0.572|||||||Kruskal-Wallis|||||||0.572
82413110|NCT00207740|164535521|SUPERIORITY_OR_OTHER|||||||0.731|||||||Kruskal-Wallis|||||||0.731
82413111|NCT00207740|164535521|SUPERIORITY_OR_OTHER|||||||0.856|||||||Kruskal-Wallis|||||||0.856
82413112|NCT00207740|164535522|SUPERIORITY_OR_OTHER|||||||0.273|||||||Cochran-Mantel-Haenszel|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.273
82413113|NCT00207740|164535522|SUPERIORITY_OR_OTHER|||||||0.382|||||||Cochran-Mantel-Haenszel|||||||0.382
82413114|NCT00207740|164535522|SUPERIORITY_OR_OTHER|||||||0.35|||||||Cochran-Mantel-Haenszel|||||||0.350
82576438|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.0475||||0.0002|TWO_SIDED|95.0|-9.22|-2.88|||Mixed Models Analysis|||QLQ-LC13 pain in arm or shoulder: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-2.88|-9.22|0.0002
82413115|NCT00207740|164535522|SUPERIORITY_OR_OTHER|||||||0.341|||||||Cochran-Mantel-Haenszel|||||||0.341
82413116|NCT00207740|164535523|SUPERIORITY_OR_OTHER|||||||0.986|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.986
82413117|NCT00207740|164535523|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
82413118|NCT00207740|164535523|SUPERIORITY_OR_OTHER|||||||0.858|||||||Wilcoxon (Mann-Whitney)|||||||0.858
82413119|NCT00207740|164535523|SUPERIORITY_OR_OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82413120|NCT00207740|164535524|SUPERIORITY_OR_OTHER|||||||0.833||95.0|||||ANOVA|||The null hypothesis was that the endpoint for placebo is the same as that in the combined 100 mg and 200 mg golimumab.||||0.833
82413121|NCT00207740|164535524|SUPERIORITY_OR_OTHER|||||||0.814||95.0|||||ANOVA|||||||0.814
82413122|NCT00207740|164535524|SUPERIORITY_OR_OTHER|||||||0.897||95.0|||||ANOVA|||||||0.897
82413123|NCT00207740|164535524|SUPERIORITY_OR_OTHER|||||||0.726||95.0|||||ANOVA|||||||0.726
82413124|NCT04725188|164535533|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.091|TWO_SIDED|95.0|0.53|1.13|||Regression, Cox|||||1.13|0.53|0.0910
82413125|NCT04725188|164535533|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.9622|TWO_SIDED|95.0|0.96|2.02|||Regression, Cox|||||2.02|0.96|0.9622
82413126|NCT04725188|164535534|SUPERIORITY||Difference in percentage|14.7||||0.0113|TWO_SIDED|95.0|2.1|26.9|||Miettinen & Nurminen method|||||26.9|2.1|0.0113
82413127|NCT04725188|164535534|SUPERIORITY||Difference in percentage|-9.4||||0.975|TWO_SIDED|95.0|-19.6|0.0|||Miettinen & Nurminen method|||||0.0|-19.6|0.9750
82413128|NCT04725188|164535535|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0943|TWO_SIDED|95.0|0.5|1.15|||Regression, Cox|||||1.15|0.50|0.0943
82413129|NCT04725188|164535535|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.5974|TWO_SIDED|95.0|0.7|1.58|||Regression, Cox|||||1.58|0.70|0.5974
82413130|NCT00088153|164535556|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||After controlling for baseline age and weight changes|t-test, 2 sided|We also used a mixed model analysis of variance (PROC MIXED), to analyze longitudinal data.||Power analysis: We have previously demonstrated that normal female adolescents gain bone density at the rate of 0.039 +/- 0.0507 per year. The pooled SD in that study was 0.046. Based on these data, with a sample size of 110 girls with anorexia nervosa (AN), half of whom are randomized to receive estrogen and half placebo (with a 10% drop-out rate), there will be an 80% chance that we will detect an increase in bone density to 75% of normal in the girls who receive estrogen.||||<0.05
82413131|NCT00088153|164535557|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||The null hypothesis was that there would be no differences between the groups for changes in P1NP levels over time||||>0.05
82413132|NCT00088153|164535558|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||The p value was adjusted for age and weight changes|t-test, 2 sided|||The null hypothesis was that the groups would not differ for changes in spine bone density z-scores over the study duration||||<0.05
82413133|NCT06354257|164535582|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|0.88|||||TWO_SIDED|90.0|0.55|1.41|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the AUC(0-inf) of EE.||1.41|0.55|
82413134|NCT06354257|164535582|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|1.1|||||TWO_SIDED|90.0|0.98|1.23|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the AUC(0-inf) of LNG.||1.23|0.98|
82413135|NCT06354257|164535583|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.85|1.09|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the Cmax of EE.||1.09|0.85|
82413136|NCT06354257|164535583|EQUIVALENCE|The 90% CI for each ratio was compared to 0.8 and 1.25.|Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.97|1.19|||Mixed Models Analysis|Analysis was performed using linear mixed effect models with treatment as a fixed effect and subject as a random effect.|One-sided tests (alpha=0.05) were used. 90% CIs for each ratio were compared to 0.8-1.25. No drug interaction is shown if CIs for AUC(0-inf) and Cmax of EE and LNG fall within 0.8-1.25.|A confirmatory hypothesis testing to test the effect of GSK3036656 on the Cmax of LNG.||1.19|0.97|
82413137|NCT02685735|164535600|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without gabapentin treatment group. A statistically significant result is interpreted as evidence to support that the gabapentin treatment impacts some element of change after surgery (i.e, intercept or slope).||||||0.882||||||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the gabapentin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, age, sex, pupil diameter, and catastophizing-optimism construct.||||0.882
82426485|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.46|||<|0.0001|TWO_SIDED|95.0|3.4|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Low Disease Activity||8.7|3.4|<0.0001
82413138|NCT02685735|164535606|SUPERIORITY|A likelihood-ratio test for change in pain was conducted for each outcome comparing a model with and without gabapentin treatment group. A statistically significant result is interpreted as evidence to support that the gabapentin treatment impacts some element of change after surgery (i.e, intercept or slope).||||||0.137||||||P value not adjusted for multiple comparisons, with threshold of statistical significance set at \<0.05|Mixed Models Analysis|||The estimates were conducted using a linear mixed effects model contrasting differences in the gabapentin group versus placebo. In all cases, these differences are adjusted for prognostic variables including baseline pain, age, sex, pupil diameter, and catastrophizing-optimism construct.||||0.137
82413139|NCT02685735|164535607|SUPERIORITY||||||<|0.0001|||||||Chi-squared|14 degrees of freedom||The null hypothesis (H0) is that modeled trajectory of change in pain intensity report after total hip or total knee arthroplasty does not differ between oral gabapentin and placebo in a manner dependent on its interaction with preferred cognitive style and pre-surgery pupil resting diameter . The alternative hypothesis (H1) is that there is a difference between the two groups which is dependent on these interactions.|A likelihood ratio test was conducted to compare these two models, conditional on the difference in the degrees of freedom in both models. A statistically significant likelihood ratio test would be interpreted as evidence that the three mechanistic predictors (Catastrophising-Optimism construct, Study Group, resting Pupil diameter) impact some aspect of the change in pain that occurs after surgery. If a statistically significant effect is observed, the individual interaction parameters will be interpreted.|||<0.0001
82413140|NCT04132050|164535608|SUPERIORITY||Difference in Percent of Participants|36.4||||0.03|TWO_SIDED|95.0|3.1|59.3|||Fisher Exact||"The difference in the achievement rate of Stable platelet response (= platelet count of ≥ 50000/μL at 4 or more of the 6 visits from Weeks 14 to 24) between two groups and its two-sided 95% CI were calculated."|||59.3|3.1|0.030
82413141|NCT01063114|164535616|OTHER||3-Year Cumulative incidence|26.0|||||TWO_SIDED|95.0|16.0|37.0||||||||37|16|
82413142|NCT01063114|164535616|OTHER||5-Year Cumulative incidence|27.0|||||TWO_SIDED|95.0|17.0|38.0||||||||38|17|
82413143|NCT01063114|164535617|OTHER||3-Year Cumulative incidence|46.0|||||TWO_SIDED|95.0|34.0|57.0||||||||57|34|
82413144|NCT01063114|164535617|OTHER||5-Year Cumulative incidence|67.0|||||TWO_SIDED|95.0|54.0|77.0||||||||77|54|
82413145|NCT01063114|164535618|OTHER||Mean Difference (Net)|-11.0||||0.01024|TWO_SIDED|95.0|-19.2|-2.9|||t-test, 2 sided|Paired t test||||-2.9|-19.2|0.01024
82413146|NCT01063114|164535619|OTHER||3-Year Survival Probability|83.2|||||TWO_SIDED|95.0|75.8|91.3||||||||91.3|75.8|
82413147|NCT01063114|164535619|OTHER||5-Year Survival Probability|79.6|||||TWO_SIDED|95.0|71.7|88.5||||||||88.5|71.7|
82413148|NCT04635423|164535622|SUPERIORITY||Observed Efficacy (%)|89.3|||<|0.001|TWO_SIDED|95.0|55.4|98.2||one-sided p-value based on exact binomial method proposed by Chan and Bohidar|Exact Binomial Method Chan and Bohidar||The statistical criterion for success requires that the lower bound of the 2-sided 95% confidence interval (CI) for vaccine efficacy (VE) against the primary efficacy endpoint is greater than 0%.|||98.2|55.4|<0.001
82413149|NCT04635423|164535623|OTHER||Difference in Percentages|40.1|||||TWO_SIDED|95.0|34.5|45.5|||Miettinen & Nurminen method||Difference in percentages calculated as % V503 minus % Placebo.|||45.5|34.5|
82413150|NCT04635423|164535624|OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-4.4|5.2|||Miettinen & Nurminen method||Difference in percentages calculated as % V503 minus % Placebo.|||5.2|-4.4|
82413151|NCT04635423|164535627|SUPERIORITY||Observed Efficacy (%)|63.5||||0.023|TWO_SIDED|95.0|2.7|86.0||one-sided p-value based on exact binomial method proposed by Chan and Bohidar|Exact Binomial Method Chan and Bohidar||The statistical criterion for success requires that the lower bound of the 2-sided 95% confidence interval (CI) for vaccine efficacy (VE) against the primary efficacy endpoint is greater than 0%.|||86.0|2.7|0.023
82413152|NCT03488524|164535699|SUPERIORITY||Mean Difference (Final Values)|4.23|STANDARD_ERROR_OF_MEAN|1.87||0.0239|TWO_SIDED|95.0|0.56|7.9||Significance testing was 2-tailed and considered statistically significant if the calculated p-value was ≤0.05.|Mixed Models Analysis|Random-slope, shared-baseline, linear mixed model was adjusted for age and prebaseline ALSFRS-R slope.||Participants who did not enter the open-label extension (OLE) were included in this analysis.||7.90|0.56|0.0239
82413153|NCT03488524|164535700|SUPERIORITY||Hazard Ratio (HR)|0.644||||0.0475|TWO_SIDED|95.0|0.416|0.995|||Hazard ratio|||Cox Proportional Hazards analysis||0.995|0.416|0.0475
82646880|NCT03555890|165008595|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.975|||||TWO_SIDED|90.0|0.948|1.003||||||||1.003|0.948|
82413154|NCT03488524|164535701|SUPERIORITY||Hazard Ratio (HR)|0.621||||0.0308|TWO_SIDED|95.0|0.403|0.957|||Hazard Ratio|||||0.957|0.403|0.0308
82413155|NCT03488524|164535702|SUPERIORITY||Mean Difference (Final Values)|7.77|STANDARD_ERROR_OF_MEAN|3.55||0.0291|TWO_SIDED|95.0|0.8|14.75|||Mixed Models Analysis|||||14.75|0.80|0.0291
82447152|NCT02684188|164603039|SUPERIORITY|||||||0.504||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 7; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 7.|For day 7, 113 (68 baseline and 45 intervention) patients were used in this analysis.|||0.504
82413156|NCT03488524|164535703|SUPERIORITY||Mean Difference (Final Values)|4.76|STANDARD_ERROR_OF_MEAN|3.923||0.2261|TWO_SIDED|95.0|-2.95|12.47|||Mixed Models Analysis|||||12.47|-2.95|0.2261
82413157|NCT03488524|164535704|SUPERIORITY||Mean Difference (Final Values)|10.66|STANDARD_ERROR_OF_MEAN|5.103||0.0372|TWO_SIDED|95.0|0.63|20.69||Nominal p-value|Mixed Models Analysis|||||20.69|0.63|0.0372
82413158|NCT03488524|164535705|SUPERIORITY|||||||0.0503||||||Nominal p-value|Mixed Models Analysis|||||||0.0503
82413159|NCT00434434|164535710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.13
82413160|NCT00434434|164535710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.0133
82413161|NCT00434434|164535711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.09
82413162|NCT00434434|164535711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0028||95.0|||||Wilcoxon (Mann-Whitney)|exact Wilcoxon-Mann-Whitney||||||0.0028
82413163|NCT01922934|164535712|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82646881|NCT03555890|165008596|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.978|||||TWO_SIDED|90.0|0.958|0.998||||||||0.998|0.958|
82413164|NCT02290184|164535717|SUPERIORITY_OR_OTHER|A multi-level regression was employed to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected confidence interval (CI).|cross-level interaction|-2.0|||||TWO_SIDED|0.05|-3.0|-1.1|||||"Multilevel regression analysis was used. The primary test of between-group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: the intervention group will have a significantly greater reduction in weight (kg) compared to the active control from baseline to 3-months.||-1.1|-3.0|
82413165|NCT02290184|164535718|SUPERIORITY|Multi-level regression was used to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected CI.|cross-level interaction|-2.6|||||TWO_SIDED|0.05|-3.9|-1.4|||||"Multilevel regression was used. The primary test of between group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: Intervention group will have a significantly greater reduction in % weight change compared to the active control from baseline to 3-months||-1.4|-3.9|
82413166|NCT02290184|164535719|SUPERIORITY|A multi-level regression was used to test differences between the 2 arm's change trajectories of their estimated simple slopes. Bootstrapped full information maximum likelihood models were estimated to obtain nonparametric, bias-corrected CI.|cross-level interaction|-2.7|||||TWO_SIDED|95.0|-4.5|-0.91|||||"Multilevel regression was used. The primary test of between -group change effect is also called the cross-level interaction between time and group. Simple slopes were also tested to determine if the change was significant within each group."|Hypothesis: Intervention group will have a significantly greater reduction in waist-circumference (cm) compared to the Active Control from baseline to 3-months||-.91|-4.5|
82413167|NCT02354118|164535724|NON_INFERIORITY|10% non-inferiority margin||||||1|||||||Chi-squared|||||||1.0
82413168|NCT01069939|164535725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.09|||<|0.001|TWO_SIDED|96.65|0.02|0.41||An interim analysis was done so that the significance level was adjusted using the Pocock-like alpha-spending function with Lan-DeMets approach. The adjusted significance level was the two-sided 3.35%.|Log Rank|||The above two groups were compared.||0.41|0.02|<0.001
82413169|NCT00724945|164535735|SUPERIORITY_OR_OTHER||Least Square Mean|-0.08591|STANDARD_ERROR_OF_MEAN|0.008816||||95.0|-0.08591|-0.06857|||Mixed Models Analysis|||Alternative hypothesis: senofilcon A multifocal would be better than or equal to 0.1 logMAR units.||-0.06857|-0.08591|
82413170|NCT00724945|164535736|SUPERIORITY_OR_OTHER||Least Square Mean|0.02711|STANDARD_ERROR_OF_MEAN|0.008816||||97.5|0.02711|0.04445|||Mixed Models Analysis|||Alternative hypothesis: senofilcon A multifocal lens would be better than or equal to 0.17 logMAR units.||0.04445|0.02711|
82413171|NCT00724945|164535737|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is -0.5.|Mean Difference (Final Values)|0.07407|STANDARD_ERROR_OF_MEAN|0.1279||||97.5|-0.1797|0.07407|||Mixed Models Analysis||Mean difference was calculated as senofilcon A multifocal minus balafilcon A multifocal.|Alternative hypothesis: senofilcon A multifocal lens will have subjective vision that is non-inferior to balafilcon A multifocal.||0.07407|-0.1797|
82413172|NCT01147458|164535747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.374||0.067|TWO_SIDED|80.0|0.08|1.04|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.04|0.08|0.067
82413173|NCT01147458|164535747|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.369||0.701|TWO_SIDED|80.0|-0.67|0.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.28|-0.67|0.701
82413174|NCT01147458|164535748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56|STANDARD_ERROR_OF_MEAN|0.374||0.067|TWO_SIDED|80.0|0.08|1.04|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.04|0.08|0.067
82413175|NCT01147458|164535748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.369||0.701|TWO_SIDED|80.0|-0.67|0.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.28|-0.67|0.701
82413176|NCT01147458|164535749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.172|||TWO_SIDED|80.0|-0.15|0.29|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.29|-0.15|
82413177|NCT01147458|164535749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|80.0|-0.09|0.35|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.35|-0.09|
82413178|NCT01147458|164535750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.26|STANDARD_ERROR_OF_MEAN|1.239|||TWO_SIDED|80.0|-0.34|2.85|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||2.85|-0.34|
82447153|NCT02684188|164603039|SUPERIORITY|||||||0.558||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 14; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 14.|For day 14, 107 (63 baseline and 44 intervention) patients were used in this analysis.|||0.558
82646882|NCT03555890|165008597|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.934|||||TWO_SIDED|90.0|0.875|0.998||||||||0.998|0.875|
82576439|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0959|||<|0.0001|TWO_SIDED|95.0|-11.35|-4.84|||Mixed Models Analysis|||QLQ-LC13 pain in chest: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-4.84|-11.35|<0.0001
82413179|NCT01147458|164535750|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|1.252|||TWO_SIDED|80.0|-1.95|1.28|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.28|-1.95|
82413180|NCT01147458|164535751|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.06|STANDARD_ERROR_OF_MEAN|1.699|||TWO_SIDED|80.0|-0.13|4.25|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||4.25|-0.13|
82413181|NCT01147458|164535751|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.709|||TWO_SIDED|80.0|-2.53|1.88|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.88|-2.53|
82413182|NCT01147458|164535752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|0.624|||TWO_SIDED|80.0|-0.03|1.58|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||1.58|-0.03|
82413183|NCT01147458|164535752|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.628|||TWO_SIDED|80.0|-0.97|0.65|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.65|-0.97|
82413184|NCT01147458|164535753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|80.0|-0.18|0.2|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.20|-0.18|
82413185|NCT01147458|164535753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.147|||TWO_SIDED|80.0|-0.07|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.07|
82413186|NCT01147458|164535754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|80.0|-0.12|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.12|
82413187|NCT01147458|164535754|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.162|||TWO_SIDED|80.0|-0.11|0.31|||ANCOVA|||The analysis was a mixed model with random participant effect, period and treatment as fixed effects, utilizing the baseline scores (one for each treatment period) as inter- and intra- participant covariates.||0.31|-0.11|
82413188|NCT01017250|164535771|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.04
82413189|NCT01017250|164535772|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.002
82447154|NCT02684188|164603039|SUPERIORITY|||||||0.472||||||Comments (covariates): P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 21; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 21.|For day 21, 101 (59 baseline and 42 intervention) patients were used in this analysis.|||0.472
82447155|NCT02684188|164603039|SUPERIORITY|||||||0.462||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 30; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 30.|For day 30, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.462
82447156|NCT02684188|164603039|SUPERIORITY|||||||0.394||||||P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 60; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 60.|For day 60, 90 (55 baseline and 35 intervention) patients were used in this analysis.|||0.394
82413190|NCT01017250|164535773|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.02
82413191|NCT01017250|164535774|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.0005
82413192|NCT01017250|164535775|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.53
82413193|NCT01017250|164535776|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.002
82413194|NCT01017250|164535777|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.76
82413195|NCT01017250|164535778|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon signed rank|||This was a test on the change from baseline to the post-SRS time point for all patients.||||0.34
82576440|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7717||||0.0001|TWO_SIDED|95.0|-10.24|-3.31|||Mixed Models Analysis|||QLQ-LC13 pain in other parts: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||-3.31|-10.24|0.0001
82413196|NCT03160170|164535789|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82413197|NCT03160170|164535790|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82413198|NCT03160170|164535791|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82413199|NCT04603066|164535795|SUPERIORITY||Mean Difference (Final Values)|0.0204257||||0.8651|TWO_SIDED|95.0|-0.2624635|0.2216122|||t-test, 2 sided|||||0.2216122|-0.2624635|0.8651
82413200|NCT04603066|164535796|SUPERIORITY||Mean Difference (Net)|0.01727052||||0.056|TWO_SIDED|95.0|-0.0005895|0.03513063|||t-test, 2 sided|||||0.03513063|-0.0005895|0.056
82413201|NCT03459846|164535805|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.789|TWO_SIDED|95.0|0.641|1.387|||Regression, Cox|||||1.387|0.641|0.789
82413202|NCT03459846|164535806|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.728|TWO_SIDED|95.0|0.719|1.606|||Regression, Cox|||||1.606|0.719|0.728
82413203|NCT03459846|164535807|SUPERIORITY||Odds Ratio (OR)|1.76||||0.142|TWO_SIDED|95.0|0.821|3.778|||Regression, Logistic|||||3.778|0.821|0.142
82413204|NCT00177671|164535865|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.97|STANDARD_DEVIATION|2.09||0.05|TWO_SIDED|95.0|1.0|4.41|||Log Rank|||We followed the intention to treat principle. We used Kaplan-Meier curves to quantify the percentage of participants who were free of depression recurrence over time. Cox proportional hazard models quantified hazard ratios comparing the 2 treatment groups.||4.41|1.00|.05
82413205|NCT02293499|164535867|SUPERIORITY||partial eta squared|0.003||||0.043|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.043
82413206|NCT02293499|164535867|SUPERIORITY||partial eta squared|0.21||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
82413207|NCT02293499|164535867|SUPERIORITY||Sobel Statistic|2.4119||||0.0079|TWO_SIDED||||||Sobel|||Mediator analysis of AMI-SEI subscale on quality of life||||.0079
82413208|NCT02293499|164535867|SUPERIORITY||Sobel Statistic|2.1132||||0.0172|TWO_SIDED||||||Sobel|||Mediator analysis of ACQ Total score subscale on quality of life||||.0172
82413209|NCT02293499|164535868|SUPERIORITY||partial eta squared|0.001||||0.295|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||0.295
82413210|NCT02293499|164535868|SUPERIORITY||partial eta squared|0.15||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
82413211|NCT02293499|164535869|SUPERIORITY||partial eta squared|0.002||||0.14|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.140
82413212|NCT02293499|164535869|SUPERIORITY||partial eta squared|0.15||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
82413213|NCT02293499|164535870|SUPERIORITY||partial eta squared|0.001||||0.268|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.268
82413214|NCT02293499|164535870|SUPERIORITY||partial eta squared|0.06||||0.14|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.14
82413215|NCT02293499|164535871|SUPERIORITY||partial eta squared|0.001||||0.238|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.238
82413216|NCT02293499|164535871|SUPERIORITY||partial eta squared|0.03||||0.43|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.43
82576441|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3521||||0.0427|TWO_SIDED|95.0|0.11|6.59|||Mixed Models Analysis|||QLQ-LC13 peripheral neuropathy: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||6.59|0.11|0.0427
82413217|NCT02293499|164535871|SUPERIORITY||Slope|-0.203||||0.024|TWO_SIDED||||||Mixed Models Analysis|||||||.024
82413218|NCT02293499|164535872|SUPERIORITY||partial eta squared|0.0||||0.484|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.484
82413219|NCT02293499|164535872|SUPERIORITY||partial eta squared|0.12||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
82413220|NCT02293499|164535873|SUPERIORITY||partial eta squared|0.0||||0.648|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.648
82413221|NCT02293499|164535873|SUPERIORITY||partial eta squared|0.07||||0.04|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.04
82413222|NCT02293499|164535874|SUPERIORITY||partial eta squared|0.003||||0.02|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.020
82413223|NCT02293499|164535874|SUPERIORITY||partial eta squared|0.04||||0.23|TWO_SIDED|||||A priori threshold for statistical significance is \<.05|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.23
82413224|NCT02293499|164535875|SUPERIORITY||partial eta squared|0.002||||0.049|TWO_SIDED|||||A priori threshold for statistical significance is \<.05.|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the change between treatment groups (Adult led vs. peer led asthma self-management). Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.049
82413225|NCT02293499|164535875|SUPERIORITY||partial eta squared|0.12||||0|TWO_SIDED|||||A priori threshold for statistical significance is \<.05|Mixed Models Analysis|||For each model, partial eta squared (η2) was reported as the effect size for the overall change over time. Partialη2 is the proportion of variance explained by a given variable out of the variance remaining after excluding variance explained by other predictors. Partial η2\> 0.14 indicates large effects, while η2= 0.06 to 0.14 medium and \< 0.06 small effects||||.00
82413226|NCT02293499|164535875|SUPERIORITY||Slope|-0.294||||0.004|TWO_SIDED||||||Mixed Models Analysis|||||||.004
82413227|NCT02293499|164535875|SUPERIORITY||Sobel Statistic|-2.3505||||0.0093|TWO_SIDED||||||Sobel|||Mediator analysis of AMI-SEI subscale on ACQ total||||.0093
82413228|NCT01991314|164535880|NON_INFERIORITY_OR_EQUIVALENCE|We calculated, on the premise that there is non-inferiority between adolescent and adult groups in the difference in increase of mean haemoglobin levels of 0.35g/dL, with estimated standard deviation 0.7g/dL following treatment, that 45 patients in each group would be required, derived using power 80% power, 1-sided significance level 0.05 and R 0.5 for the covariate; this calculation took into account planned ANCOVA methodology and 20% patients who might be lost to follow up or withdraw.|Mean Difference (Net)|0.08||||0.23|TWO_SIDED|||||To test the hypothesis of non-inferiority with maximal statistical power, ANCOVA (one-tailed P\<0.05) was employed to compare the change in mean haemoglobin levels between adults and adolescents after accounting for necessary covariates|ANCOVA|||||||0.23
82413229|NCT01991314|164535881|SUPERIORITY_OR_OTHER||difference in proportions|3.6|||<|0.05|TWO_SIDED||||||Fisher Exact|Fisher's exact test was used to compare proportions (expressed as percentages) of total number of participants in each group who were iron intolerant||Chi squared test or Fisher's exact test, as appropriate.||||<0.05
82413230|NCT01991314|164535882|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0||||0.96|TWO_SIDED||||||t-test, 2 sided|||Unpaired Students t test||||0.96
82413231|NCT01991314|164535883|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test||||0.49
82413232|NCT01991314|164535884|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann Whitney U test||||0.85
82413233|NCT01991314|164535885|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann Whitney U test||||0.69
82413234|NCT01991314|164535886|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.9|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U test||||<0.0001
82413235|NCT01035788|164535905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|7.24||0.849|TWO_SIDED|95.0|-1.39|13.2|||Mixed Models Analysis|p value was obtained from the contrast of the linear mixed model||We sought to obtain a sample size of 18 per group to provide 80% power to detect a .97 standard deviation difference in mean change in CAPS between MB-CBCT and the CBCT-Communication Skills at treatment end based on a two-tailed t-test at 5% significance. Linear mixed models with repeated measures were performed to address the primary hypotheses that MB-CBCT would result in a greater improvement for Veterans and their partners than CBCT-Communication Skills at the end of treatment.||13.2|-1.39|.849
82413236|NCT02034591|164535913|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.682|||||TWO_SIDED|90.0|0.621|0.748||||||||0.748|0.621|
82413237|NCT02034591|164535914|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.813|||||TWO_SIDED|90.0|0.766|0.863||||||||0.863|0.766|
82413238|NCT02034591|164535915|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.81|||||TWO_SIDED|90.0|0.764|0.86||||||||0.860|0.764|
82413239|NCT02034591|164535916|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.884|||||TWO_SIDED|90.0|0.83|0.942||||||||0.942|0.830|
82413240|NCT02034591|164535917|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.95|||||TWO_SIDED|90.0|0.905|0.997||||||||0.997|0.905|
82413241|NCT02034591|164535918|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|0.947|||||TWO_SIDED|90.0|0.903|0.994||||||||0.994|0.903|
82413242|NCT00817063|164535921|SUPERIORITY||Odds Ratio (OR)|3.78|||<|0.001|TWO_SIDED|95.0|2.55|5.62|||Chi-squared, Corrected|||||5.62|2.55|<0.001
82413243|NCT00817063|164535921|SUPERIORITY||Difference in Percentage|24.8|||<|0.001|TWO_SIDED|95.0|18.0|31.7|||Chi-squared, Corrected|||||31.7|18.0|<0.001
82413244|NCT00817063|164535922|SUPERIORITY||Mean Difference (Net)|-24.13|||<|0.001|TWO_SIDED|95.0|-30.4|-17.85|||Kruskal-Wallis|||||-17.85|-30.40|<0.001
82413245|NCT00817063|164535923|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.001|TWO_SIDED|95.0|2.71|6.07|||Chi-squared, Corrected|||||6.07|2.71|<0.001
82413246|NCT00817063|164535923|SUPERIORITY||Difference in Percentage|25.5|||<|0.001|TWO_SIDED|95.0|18.7|32.3|||Chi-squared, Corrected|||||32.3|18.7|<0.001
82413247|NCT00817063|164535924|SUPERIORITY||Mean Difference (Net)|-22.36|||<|0.001|TWO_SIDED|95.0|-31.0|-13.73|||Kruskal-Wallis|||||-13.73|-31.00|<0.001
82413248|NCT00817063|164535925|SUPERIORITY|||||||0.047|||||||Log Rank|||||||0.047
82413249|NCT00817063|164535926|SUPERIORITY|||||||0.068|||||||Log Rank|||||||0.068
82413250|NCT00817063|164535927|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82413251|NCT00817063|164535936|SUPERIORITY||Mean Difference (Net)|0.489||||0.179|TWO_SIDED|95.0|-0.226|1.204||The analysis of covariance model includes treatment, age at Baseline, gender, menopausal status of females, baseline BMD score and duration of treatment exposure (\<12weeks, \>=12 weeks) as covariates.|ANCOVA|||Lumbar Spine BMD||1.204|-0.226|0.179
82413252|NCT00817063|164535936|SUPERIORITY||Mean Difference (Net)|0.497||||0.089|TWO_SIDED|95.0|-0.077|1.071||The analysis of covariance model includes treatment, age at Baseline, gender, menopausal status of females, baseline BMD score and duration of treatment exposure (\<12weeks, \>=12 weeks) as covariates.|ANCOVA|||Femur BMD||1.071|-0.077|0.089
82413253|NCT01496456|164535940|SUPERIORITY_OR_OTHER|||||||0.002|||||||Regression, Logistic|Ordinal logistic regression, controlled for baseline lesion size and for correlation among pairs of teeth using the GEE method.||||||0.002
82413254|NCT01496456|164535941|SUPERIORITY_OR_OTHER|||||||0.045|||||||Regression, Logistic|Ordinal logistic regression, controlled for correlation among pairs of teeth using the GEE method.||||||0.045
82413255|NCT01496456|164535942|SUPERIORITY_OR_OTHER|||||||0.0077|||||||Discreet Time Survival Analysis|Controlled for correlation among tooth pairs (GEE model).||||||0.0077
82413256|NCT04919161|164535943|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due sample size differences and pairwise nature of the data, a Kruskal-Wallis was conducted.||Null hypothesis for this analysis is that there will be no differences between pre-scores and post-scores across the different treatment arms. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
82413257|NCT04919161|164535943|SUPERIORITY||||||=|0.0025||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||=0.0025
82413258|NCT04919161|164535943|SUPERIORITY||||||=|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||=0.0001
82413259|NCT04919161|164535943|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
82413260|NCT04919161|164535943|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison would be that there would be no significant difference between post-scores of the two treatment groups.||||>0.9999
82413261|NCT04919161|164535944|SUPERIORITY|Prior to analysis, the score change or difference between post-test and pre-test were calculated for each participant as: ScoreChange=(PostTest) - (PreTest). These changes in score were then compared.|||||=|0.3045||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|t-test, 2 sided|||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=0.3045
82413262|NCT04919161|164535945|SUPERIORITY|Prior to analysis, the score change or difference between post-test and pre-test were calculated for each participant as: PercentScoreChange = (\[(PostTest)-(PreTest)\]/\[PreTest\]) x 100%|||||=|3152||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Two-Tailed Welch t test|Due to unequal standard deviation, a two-tailed Welch's t test was used.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=3152
82413263|NCT04919161|164535946|SUPERIORITY||||||=|0.9568||||||Prior to analysis, the score change between post assessment and pre-assessment was calculated. The threshold for significance was p\<0.05.|t-test, 2 sided|An unpaired T-test was used. Normality and F-test for Variances were conducted and found to be normal.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||=0.9568
82413264|NCT04919161|164535947|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due to the pairwise nature and abnormal distribution of the pre- and post-scores, a Kruskal Wallis test was completed.||Null Hypothesis, there would be no difference between the pre-score and post-score of each treatment group. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
82413265|NCT04919161|164535947|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||<0.0001
82413266|NCT04919161|164535947|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||<0.0001
82413267|NCT04919161|164535947|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
82413268|NCT04919161|164535947|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis. The reported P-value is adjusted for multiple comparisons.|Dunn's Multiple Comparison Test|||Null hypothesis for this comparison is that there would be no significant difference in the pre-score measurements between groups.||||>0.9999
82413269|NCT04919161|164535948|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Kruskal-Wallis|Due to missing measurements and the pairwise nature of the pre- and post-scores, a Kruskal Wallis test was completed.||Null hypothesis is that there are no differences between groups. Prior to hypothesis testing, datasets were tested for normality using a Shapiro-Wilk test to inform if parametric or non-parametric testing was required.||||<0.0001
82413270|NCT04919161|164535948|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||<0.0001
82413271|NCT04919161|164535948|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||<0.0001
82413272|NCT04919161|164535948|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||>0.9999
82413273|NCT04919161|164535948|SUPERIORITY||||||>|0.9999||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Dunn's Multiple Comparison Test|||||||>0.9999
82413274|NCT04919161|164535949|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p\<0.05.|Kruskal-Wallis|Due to the missing measurement and the pairwise nature of the perturbation levels between participants, a Kruskal Wallis test was completed.||Null hypothesis is there are no differences between groups. Prior to hypothesis testing, normality testing was conducted using a Shapiro-Wild test to inform if parametric or non-parametric testing was required.||||<0.0001
82413275|NCT04919161|164535949|SUPERIORITY||||||>|0.9999||||||Reported p-value is adjusted for multiple comparisons. The a priori threshold for statistical significance was established as p\<0.05.|Dunn's Multiple Comparison Test|||Null hypothesis for any comparisons would be that there is no significant mean perturbation level between sessions.|The p-value reported above was the result for 15 comparisons of the recorded perturbation levels in sessions: 1 vs 2, 2 vs 3, 3 vs 4, 3 vs 5, 3 vs 6, 4 vs 5, 4 vs 6, 4 vs 7, 4 vs 8, 5 vs 6, 5 vs 7, 5 vs 8, 6 vs 7, 6 vs 8, and 7 vs 8.|||>0.9999
82413276|NCT04919161|164535949|SUPERIORITY||||||=|0.0629|||||||Dunn's Multiple Comparison Test|||||||=0.0629
82447157|NCT02684188|164603039|SUPERIORITY|||||||0.368||||||Comments (covariates): P-values comparing the counts for the 2 groups after adjusting for PAM10.|Regression, Logistic|||H0: There is no difference in the proportion of patients with at least one ED visits by day 90; H1: The proportion of patients with at least one ED visit for the standard discharge group is greater than that for the enhanced discharge group for day 90.|For day 90, 86 (51 baseline and 35 intervention) patients were used in this analysis.|||0.368
82576442|NCT01154140|164862438|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1521||||0.1382|TWO_SIDED|95.0|-5.0|0.69|||Mixed Models Analysis|||QLQ-LC13 sore mouth: Analysis was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects).||0.69|-5.00|0.1382
82413277|NCT04919161|164535949|SUPERIORITY||||||=|0.0069|||||||Dunn's Multiple Comparison Test|||||||=0.0069
82413278|NCT04919161|164535949|SUPERIORITY||||||=|0.0003|||||||Dunn's Multiple Comparison Test|||||||=0.0003
82413279|NCT04919161|164535949|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
82413280|NCT04919161|164535949|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
82413281|NCT04919161|164535949|SUPERIORITY||||||<|0.0001|||||||Dunn's Multiple Comparison Test|||||||<0.0001
82413282|NCT04919161|164535949|SUPERIORITY||||||=|0.6497|||||||Dunn's Multiple Comparison Test|||||||=0.6497
82413283|NCT04919161|164535949|SUPERIORITY||||||=|0.0743|||||||Dunn's Multiple Comparison Test|||||||=0.0743
82413284|NCT04919161|164535949|SUPERIORITY||||||=|0.0198|||||||Dunn's Multiple Comparison Test|||||||=0.0198
82413285|NCT04919161|164535949|SUPERIORITY||||||=|0.0017|||||||Dunn's Multiple Comparison Test|||||||=0.0017
82413286|NCT04919161|164535949|SUPERIORITY||||||=|0.0006|||||||Dunn's Multiple Comparison Test|||||||=0.0006
82532388|NCT03844321|164762196|SUPERIORITY|||||||0.396||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Presence of medical problems at the beginning of the intervention period was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.396
82413287|NCT04919161|164535949|SUPERIORITY||||||=|0.5297|||||||Dunn's Multiple Comparison Test|||||||=0.5297
82447158|NCT02684188|164603040|SUPERIORITY|||||||0.946||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||The following hypotheses were tested: H0: There is no difference in the cumulative number of PCP visits for day 3 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 3.|For day 3, 114 (70 baseline and 44 intervention) patients were used in this analysis.|||0.946
82646883|NCT03555890|165008598|EQUIVALENCE|If the 90 percent (%) confidence interval of the geometric mean ratio (Levocetirizine ODT/ Levocetirizine IRT) was within the acceptable range of 0.80 to 1.25 then Levocetirizine ODT was to be considered bioequivalent to the Levocetirizine IRT.|Ratio of geometric mean|0.857|||||TWO_SIDED|90.0|0.815|0.902||||||||0.902|0.815|
82413288|NCT04919161|164535949|SUPERIORITY||||||=|0.2595|||||||Dunn's Multiple Comparison Test|||||||=0.2595
82413289|NCT04919161|164535950|OTHER|This is a descriptive analysis.|Odds Ratio (OR)|2.6|||=|0.3898|TWO_SIDED|95.0|0.4671|15.3||Threshold for statistical significance was p\<0.05|Fisher Exact|||Null hypothesis was that there would be no difference in the proportion of males and females between treatment arms.||15.300|0.4671|=0.3898
82413290|NCT00712920|164535951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.03||95.0|-1.7|-0.1|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.10|-1.70|0.03
82413291|NCT00712920|164535951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.08||95.0|-1.5|0.1|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.1|-1.5|0.08
82413292|NCT00712920|164535952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6419|STANDARD_DEVIATION|0.3924||0.102||95.0|-1.41|0.13|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||0.13|-1.41|0.102
82413293|NCT00712920|164535952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7925|STANDARD_DEVIATION|0.3935||0.044||95.0|-1.56|-0.02|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.02|-1.56|0.044
82413294|NCT00712920|164535953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4394|STANDARD_DEVIATION|0.3631||0.226||95.0|-1.15|0.27|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 28||0.27|-1.15|0.226
82413295|NCT00712920|164535953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1252|STANDARD_DEVIATION|0.3649||0.002||95.0|-1.84|-0.41|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Change in baseline to Day 28||-0.41|-1.84|0.002
82413296|NCT00712920|164535954|SUPERIORITY_OR_OTHER|||||||0.292||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||||||0.292
82413297|NCT00712920|164535954|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANCOVA|ANCOVA was used as a model containing treatment group and site as fixed effects with the baseline value used as covariate||||||0.040
82413298|NCT02489773|164535956|OTHER|Calculate the pearson correlation within whole subjects (across Group 1 and Group 2)|pearson correlation coefficient|0.6342|||||TWO_SIDED|||||||||||||
82413299|NCT02489773|164535956|OTHER|Diffenrence between Pearson correlations within whole subjects (accross Group 1 and Group 2) and PG, 0.8.|Difference with PG 0.8|-0.1658|||>|0.9999|TWO_SIDED|95.0|-0.2204|-0.1113|||t-test, 2 sided|||||-0.1113|-0.2204|>0.9999
82413300|NCT02489773|164535957|OTHER|The difference in Spearman correlation coefficient between GA and MBG vs HbA1c and MBG in the first 3-month period in Group 1.|Difference in correlation coefficients|0.249|||<|0.0001|TWO_SIDED|95.0|0.13|0.364|||t-test, 2 sided|||||0.364|0.130|<0.0001
82413301|NCT02489773|164535958|OTHER|The difference in Kendall correlation coefficient between GA and MBG vs HbA1c and MBG in the first 3-month period in Group 1.|Difference in correlation coefficient|0.181|||<|0.0001|TWO_SIDED|95.0|0.096|0.265|||t-test, 2 sided|||||0.265|0.096|<0.0001
82413302|NCT00884065|164535964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|4.08|>|0.05|TWO_SIDED|95.0|-9.93|6.49|||t-test, 2 sided|||||6.49|-9.93|>0.05
82413303|NCT00884065|164535965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.01||95.0|5.72|17.08|||t-test, 2 sided|||||17.08|5.72|<0.01
82413304|NCT00884065|164535966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.24|STANDARD_ERROR_OF_MEAN|2.59|<|0.01|TWO_SIDED|95.0|2.03|12.45|||t-test, 2 sided|||||12.45|2.03|<0.01
82413305|NCT00884065|164535967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.72|>|0.05|TWO_SIDED|95.0|-1.53|5.37|||t-test, 2 sided|||||5.37|-1.53|>0.05
82413306|NCT00884065|164535968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|2.18|>|0.05|TWO_SIDED|95.0|-3.81|5.01|||t-test, 2 sided|||||5.01|-3.81|>0.05
82413307|NCT00884065|164535969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.08|STANDARD_ERROR_OF_MEAN|1.49|<|0.01|TWO_SIDED|95.0|0.08|6.09|||t-test, 2 sided|||||6.09|0.08|<0.01
82532389|NCT03844321|164762197|SUPERIORITY|||||||0.004||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Percentage of sessions completed was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.004
82532390|NCT03844321|164762197|SUPERIORITY|||||||0.291||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Percentage of sessions completed was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.291
82532391|NCT03844321|164762198|SUPERIORITY|||||||0.603||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Level of education was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.603
82532392|NCT03844321|164762198|SUPERIORITY|||||||0.333||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Level of education was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.333
82532393|NCT03844321|164762199|SUPERIORITY|||||||0.224||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Race was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.224
82532394|NCT03844321|164762199|SUPERIORITY|||||||0.885||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Race was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.885
82532395|NCT03844321|164762200|SUPERIORITY|||||||0.49||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Sex was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.490
82413308|NCT02903914|164536078|OTHER|||||||0.0731|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.0731
82413309|NCT02903914|164536078|OTHER||pairwise geometric mean ratio (GMR)|0.933|||||TWO_SIDED|90.0|0.784|1.11||||||||1.110|0.784|
82447159|NCT02684188|164603040|SUPERIORITY|||||||0.613|||||||Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 7 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 7.|For day 7, 111 (67 baseline and 44 intervention) patients were used in this analysis.|||0.613
82532396|NCT03844321|164762200|SUPERIORITY|||||||0.266||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Sex was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.266
82646884|NCT04682639|165008659|OTHER||LS mean difference|-18.54||||0.0103|TWO_SIDED|95.0|-32.6|-4.49|||ANCOVA||Estimates were from ANCOVA model for rank score of percent change from baseline in esophageal PEC.|||-4.49|-32.60|0.0103
82646885|NCT04682639|165008659|OTHER||LS mean difference|-7.53||||0.2861|TWO_SIDED|95.0|-21.48|6.42|||ANCOVA||Estimates were from ANCOVA model for rank score of percent change from baseline in esophageal PEC.|||6.42|-21.48|0.2861
82646886|NCT04682639|165008660|OTHER||LS mean difference|2.38||||0.4894|TWO_SIDED|95.0|-4.43|9.19|||Linear mixed effects model|||||9.19|-4.43|0.4894
82646887|NCT04682639|165008660|OTHER||LS mean difference|4.7||||0.1671|TWO_SIDED|95.0|-2.0|11.41|||Linear mixed effects model|||||11.41|-2.00|0.1671
82413310|NCT02903914|164536078|OTHER||pairwise GMR|1.074|||||TWO_SIDED|90.0|0.908|1.271||||||||1.271|0.908|
82413311|NCT02903914|164536078|OTHER||pairwise GMR|1.23|||||TWO_SIDED|90.0|1.034|1.463||||||||1.463|1.034|
82413312|NCT02903914|164536079|OTHER|||||||0.1496|||||||Kruskal-Wallis|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1496
82413313|NCT02903914|164536080|OTHER|||||||0.2867|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.2867
82413314|NCT02903914|164536080|OTHER||pairwise GMR|1.007|||||TWO_SIDED|90.0|0.825|1.23||||||||1.230|0.825|
82413315|NCT02903914|164536080|OTHER||pairwise GMR|1.081|||||TWO_SIDED|90.0|0.892|1.311||||||||1.311|0.892|
82413316|NCT02903914|164536080|OTHER||pairwise GMR|1.234|||||TWO_SIDED|90.0|1.011|1.507||||||||1.507|1.011|
82413317|NCT02903914|164536081|OTHER|||||||0.6167|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.6167
82413318|NCT02903914|164536081|OTHER||pairwise GMR|1.014|||||TWO_SIDED|90.0|0.82|1.255||||||||1.255|0.820|
82532397|NCT03844321|164762201|SUPERIORITY|||||||0.928||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Ethnicity was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 8.||||.928
82532398|NCT03844321|164762201|SUPERIORITY|||||||0.307||||||Reported p-value is for estimated weekly change in WHO-5 score by treatment by moderator interaction.|Mixed Models Analysis|||Ethnicity was analyzed as a moderator of the relationship between treatment and weekly WHO-5 scores. We added a main effect for the moderator, as well as treatment by time, moderator by time, and treatment by moderator by time interactions to the linear mixed model and used a likelihood ratio test to compare this interaction model to one without the three-way interaction. These analyses were completed over Baseline to Week 20.||||.307
82413319|NCT02903914|164536081|OTHER||pairwise GMR|1.043|||||TWO_SIDED|90.0|0.849|1.281||||||||1.281|0.849|
82413320|NCT02903914|164536081|OTHER||pairwise GMR|1.17|||||TWO_SIDED|90.0|0.945|1.447||||||||1.447|0.945|
82413321|NCT02903914|164536085|OTHER|||||||0.0745|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.0745
82413322|NCT02903914|164536085|OTHER||pairwise GMR|1.127|||||TWO_SIDED|90.0|0.947|1.341||||||||1.341|0.947|
82413323|NCT02903914|164536085|OTHER||pairwise GMR|0.991|||||TWO_SIDED|90.0|0.833|1.18||||||||1.180|0.833|
82413324|NCT02903914|164536085|OTHER||pairwise GMR|1.258|||||TWO_SIDED|90.0|1.064|1.486||||||||1.486|1.064|
82413325|NCT02903914|164536086|OTHER|||||||0.0518|||||||Kruskal-Wallis|||||||0.0518
82413326|NCT02903914|164536087|OTHER|||||||0.1723|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1723
82413327|NCT02903914|164536087|OTHER||pairwise GMR|1.156|||||TWO_SIDED|90.0|0.941|1.42||||||||1.420|0.941|
82413328|NCT02903914|164536087|OTHER||pairwise GMR|0.976|||||TWO_SIDED|90.0|0.794|1.198||||||||1.198|0.794|
82413329|NCT02903914|164536087|OTHER||pairwise GMR|1.233|||||TWO_SIDED|90.0|1.012|1.503||||||||1.503|1.012|
82413330|NCT02903914|164536088|OTHER|||||||0.1705|||||||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||||||0.1705
82413331|NCT02903914|164536088|OTHER||pairwise GMR|1.083|||||TWO_SIDED|90.0|0.863|1.359||||||||1.359|0.863|
82413332|NCT02903914|164536088|OTHER||pairwise GMR|0.902|||||TWO_SIDED|90.0|0.719|1.132||||||||1.132|0.719|
82532399|NCT05822921|164762210|OTHER|Independent t-test was used.||||||0.871|||||||t-test, 2 sided|||||||.871
82532400|NCT05822921|164762211|OTHER|Independent t-test was used.||||||0.896|||||||t-test, 2 sided|||||||0.896
82413333|NCT02903914|164536088|OTHER||pairwise GMR|1.212|||||TWO_SIDED|90.0|0.945|1.554||||||||1.554|0.945|
82413334|NCT02903914|164536092|OTHER||pairwise GMR|1.057||||0.7702|TWO_SIDED|90.0|0.753|1.483|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.483|0.753|0.7702
82413335|NCT02903914|164536092|OTHER||pairwise GMR|1.012||||0.9384|TWO_SIDED|90.0|0.762|1.346|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.346|0.762|0.9384
82413336|NCT02903914|164536092|OTHER||pairwise GMR|1.07||||0.6733|TWO_SIDED|90.0|0.809|1.415|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.415|0.809|0.6733
82413337|NCT02903914|164536092|OTHER||pairwise GMR|1.238||||0.3456|TWO_SIDED|90.0|0.83|1.847|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.847|0.830|0.3456
82413338|NCT02903914|164536093|OTHER|||||||0.0441|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.0441
82413339|NCT02903914|164536093|OTHER|||||||0.4092|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.4092
82413340|NCT02903914|164536093|OTHER|||||||0.7748|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.7748
82413341|NCT02903914|164536093|OTHER|||||||0.1948|||||||Wilcoxon (Mann-Whitney)|||Fed versus Fasted||||0.1948
82413342|NCT02903914|164536094|OTHER||pairwise GMR|0.92||||0.705|TWO_SIDED|90.0|0.62|1.363|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.363|0.620|0.7050
82413343|NCT02903914|164536094|OTHER||pairwise GMR|0.929||||0.703|TWO_SIDED|90.0|0.658|1.31|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.310|0.658|0.7030
82413344|NCT02903914|164536094|OTHER||pairwise GMR|0.999||||0.9952|TWO_SIDED|90.0|0.725|1.377|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.377|0.725|0.9952
82413345|NCT02903914|164536094|OTHER||pairwise GMR|0.742||||0.4012|TWO_SIDED|90.0|0.394|1.397|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = food effect)||Fed versus Fasted||1.397|0.394|0.4012
82413346|NCT02903914|164536095|OTHER||pairwise GMR|0.992||||0.9623|TWO_SIDED|90.0|0.729|1.349|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = formulation)||Tablet (test) versus Capsule (reference)||1.349|0.729|0.9623
82413347|NCT02903914|164536096|OTHER|||||||0.754|||||||Wilcoxon (Mann-Whitney)|||Tablet (test) versus Capsule (reference)||||0.7540
82413348|NCT02903914|164536097|OTHER||pairwise GMR|0.951||||0.7514|TWO_SIDED|90.0|0.718|1.261|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = dose)||Tablet (test) versus Capsule (reference)||1.261|0.718|0.7514
82413349|NCT02903914|164536098|OTHER||pairwise GMR|0.954||||0.7707|TWO_SIDED|90.0|0.712|1.277|||ANOVA|1-factor ANOVA of log-transformed, dose-normalized data (factor = formulation)||Tablet (test) versus Capsule (reference)||1.277|0.712|0.7707
82413350|NCT02320175|164536164|OTHER|We compared percent top-box experience ratings pre- vs. post-intervention using a GEE chi-squared test for binary outcomes, clustered by site. Top-box score was calculated as the percentage of participants that gave the top-most response for the given survey item (e.g., 5=Extremely; 5=Excellent). Missing data was accounted for through use of multiple imputations appropriate for missing data in clustered studies.|||||<|0.05|||||||GEE chi-squared test for binary outcomes|||||||<.05
82413351|NCT00876343|164536170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.006|TWO_SIDED|95.0|-3.7|-0.6|||ANCOVA|||||-0.6|-3.7|0.006
82413352|NCT00876343|164536170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.6|-1.5|||ANCOVA|||||-1.5|-4.6|<0.001
82413353|NCT00848185|164536173|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||ANOVA for three groups||||<0.001
82532401|NCT05822921|164762212|OTHER|Independent t-test was used.||||||0.351|||||||t-test, 2 sided|||||||0.351
82532402|NCT00544544|164762215|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<.001
82413354|NCT04717557|164536174|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82413355|NCT04717557|164536174|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413356|NCT04717557|164536175|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413357|NCT04717557|164536176|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413358|NCT04717557|164536177|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|t-test, 2 sided|||||||>0.5
82413359|NCT04717557|164536178|SUPERIORITY||||||>|0.5|||||||Cochran-Mantel-Haenszel|||Underpowered - no statistically significant difference.||||>0.5
82413360|NCT04717557|164536179|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413361|NCT04717557|164536180|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82532403|NCT00544544|164762216|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82532404|NCT00544544|164762217|SUPERIORITY_OR_OTHER|||||||0.38|||||||Mixed Models Analysis|||||||0.38
82532405|NCT00544544|164762218|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82532406|NCT03277378|164762219|NON_INFERIORITY|The hypothesis was tested at the 5% significance level.||||||0.0003|||||||Farrington- Manning non-inferioirty test|||"The hypothesis was formally addressed as:~H0: AB - TB ≤ -15% H1: AB - TB \> -15% where AB = permanent system qualification rate of Group 1 (AB) TB = permanent system qualification rate of Group 2 (TB)"||||0.0003
82413362|NCT04717557|164536181|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413363|NCT04717557|164536182|SUPERIORITY||||||>|0.5||||||Underpowered due to early termination.|Chi-squared, Corrected|||||||>0.5
82413364|NCT05965427|164536213|SUPERIORITY|||||||0.097|||||||Chi-squared|||||||0.097
82413365|NCT05965427|164536214|SUPERIORITY|||||||0.005|||||||Chi-squared|||"Statistical analysis of Any of the specified clinical complications measure"||||0.005
82413366|NCT05965427|164536215|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
82413367|NCT05965427|164536217|SUPERIORITY|||||||0.002|||||||Chi-squared|||"Statistical analysis relates to not presenting with skin lesions measure"||||0.002
82413368|NCT05965427|164536221|SUPERIORITY|||||||0.114|||||||Chi-squared|||"Statistical analysis relates to any drug treatment for mpox measure"||||0.114
82413369|NCT05965427|164536222|SUPERIORITY||||||<|0.001|||||||Chi-squared|||"Statistical analysis relates to any drug for complications measure"||||<0.001
82413370|NCT05965427|164536223|SUPERIORITY|"Statistical analysis relates to lesion onset measure"|||||<|0.001|||||||Chi-squared|||||||<0.001
82413371|NCT00927472|164536236|SUPERIORITY_OR_OTHER|||||||0.0386|||||||t-test, 2 sided|||||||0.0386
82413372|NCT00927472|164536237|SUPERIORITY_OR_OTHER|||||||0.3675|||||||t-test, 2 sided|||||||0.3675
82413373|NCT00927472|164536238|SUPERIORITY_OR_OTHER|||||||0.049|||||||t-test, 2 sided|||||||0.0490
82413374|NCT00927472|164536239|SUPERIORITY_OR_OTHER|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82413375|NCT00927472|164536240|SUPERIORITY_OR_OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82413376|NCT00927472|164536241|SUPERIORITY_OR_OTHER|||||||0.0012|||||||t-test, 2 sided|||||||0.0012
82413377|NCT00927472|164536242|SUPERIORITY_OR_OTHER|||||||0.3817|||||||t-test, 2 sided|||||||0.3817
82532407|NCT03277378|164762220|OTHER|||||||0.25|||||||Chi-squared|||"The hypothesis was formally addressed as:~H0: P ≤ 60% H1: P \> 60% where P= percentage of physician prefer anatomic placement over targeted placement.~The analysis population included physicians who have performed both placement procedures. The hypothesis was tested at the 5% significance level."||||0.2500
82532408|NCT01370603|164762242|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence was declared if the 97.5% expanded confidence interval for the mean difference between the fixed-dose combination and co-administration in percent change from baseline was contained within ±4%.|Difference in Least-squares means|-0.2|||||TWO_SIDED|97.5|-1.9|1.4|||ANCOVA|||It was anticipated that 85% of the enrolled participants would be evaluable to achieve 95% power in order to establish equivalence between the Ezetimibe/Atorvastatin Fixed Dose Combination and the co-administration of Ezetimibe and Atorvastatin with respect to percent change from baseline in LDL-C after 6 weeks of treatment using two one-sided tests each at 2.5% α-level, assuming the underlying true treatment difference is ±1.08% and that the standard deviation of the difference is 12.8%.||1.4|-1.9|
82532409|NCT01370603|164762243|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.1|||||TWO_SIDED|97.5|-1.4|1.2|||ANCOVA|||||1.2|-1.4|
82532410|NCT01370603|164762244|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.3|||||TWO_SIDED|97.5|-1.8|1.2|||ANCOVA|||||1.2|-1.8|
82532411|NCT01370603|164762245|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-0.2|||||TWO_SIDED|97.5|-1.7|1.4|||ANCOVA|||||1.4|-1.7|
82413378|NCT00927472|164536243|SUPERIORITY_OR_OTHER|||||||0.1059|||||||t-test, 2 sided|||||||0.1059
82413379|NCT00927472|164536244|SUPERIORITY_OR_OTHER|||||||0.1088|||||||t-test, 2 sided|||||||0.1088
82413380|NCT00927472|164536245|SUPERIORITY_OR_OTHER|||||||0.1527|||||||t-test, 2 sided|||||||0.1527
82413381|NCT02811159|164536256|OTHER|||||||0.1797|||||||Chi-Square Test|||||||0.1797
82413382|NCT02811159|164536257|OTHER|||||||0.125|||||||Wilcoxon Signed-Rank Test|||||||0.1250
82413383|NCT02811159|164536258|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
82413384|NCT02811159|164536259|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
82413385|NCT02811159|164536260|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
82413386|NCT02811159|164536261|OTHER|||||||1|||||||Wilcoxon Signed-Rank Test|||||||1.0000
82413387|NCT02811159|164536262|OTHER|||||||0.875|||||||Wilcoxon Signed-Rank Test|||||||0.8750
82413388|NCT02811159|164536263|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
82413389|NCT02811159|164536264|OTHER|||||||0.5|||||||Wilcoxon Signed-Rank Test|||||||0.5000
82413390|NCT02811159|164536265|OTHER|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.2500
82413391|NCT02811159|164536266|OTHER|||||||0.0645|||||||Wilcoxon Signed-Rank Test|||||||0.0645
82532412|NCT01370603|164762246|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-0.5|||||TWO_SIDED|97.5|-1.9|1.0|||ANCOVA|||||1.0|-1.9|
82413392|NCT01525589|164536270|SUPERIORITY|||||||0.0909|||||||Log Rank|||||||0.0909
82413393|NCT01525589|164536274|SUPERIORITY|||||||0.002|||||||Log Rank|||||||0.002
82413394|NCT01525589|164536278|SUPERIORITY|||||||0.0561|||||||Log Rank|||||||0.0561
82413395|NCT06717399|164536281|OTHER|The number of participants (n=15) was calculated using an effect size of 0.89. This effect size was based on a randomized clinical trial utilizing a structured mindfulness meditation program on moderate sleep disturbances in older adults (Black et al. 2015). A power of 0.8 and a significance level of 0.05 was utilized to calculate the sample size, a minimum of 12 participants is required to demonstrate significance in this study. To account for 20% attrition total participants needed is 15.||||||0.00058|||||||t-test, 2 sided|||"Null Hypothesis:~● There will not be a change in sleep quality after participation in eight mindfulness meditation sessions as measured by the Pittsburgh Sleep Quality Index."||||0.00058
82413396|NCT06717399|164536282|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
82413397|NCT00143507|164536290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.945|TWO_SIDED|95.0|0.91|1.1|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.10|0.91|0.945
82413398|NCT00143507|164536291|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.316|TWO_SIDED|95.0|0.94|1.22|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.22|0.94|0.316
82413399|NCT00143507|164536292|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.159|TWO_SIDED|95.0|0.72|1.06|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.06|0.72|0.159
82413400|NCT00143507|164536293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.85|TWO_SIDED|95.0|0.86|1.13|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.13|0.86|0.850
82413401|NCT00143507|164536294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.547|TWO_SIDED|95.0|0.92|1.16|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.16|0.92|0.547
82413402|NCT00143507|164536295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.331|TWO_SIDED|95.0|0.71|1.12|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.12|0.71|0.331
82413403|NCT00143507|164536296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.078|TWO_SIDED|95.0|0.67|1.02|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.02|0.67|0.078
82413404|NCT00143507|164536297|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.583|TWO_SIDED|95.0|0.83|1.4|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.40|0.83|0.583
82413405|NCT00143507|164536298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.501|TWO_SIDED|95.0|0.81|1.11|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.11|0.81|0.501
82532413|NCT01370603|164762247|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|0.0|||||TWO_SIDED|97.5|-4.9|4.9|||constrained Longitudinal Data Analysis|||||4.9|-4.9|
82413406|NCT00143507|164536299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.141|TWO_SIDED|95.0|0.78|1.04|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.04|0.78|0.141
82413407|NCT00143507|164536300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.411|TWO_SIDED|95.0|0.86|1.06|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.06|0.86|0.411
82413408|NCT00143507|164536301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.484|TWO_SIDED|95.0|0.94|1.15|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.15|0.94|0.484
82413409|NCT00143507|164536302|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.835|TWO_SIDED|95.0|0.9|1.13|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake as a covariate. P-value: Log-rank test stratified on beta-blocker intake factor.|||1.13|0.90|0.835
82413410|NCT00876395|164536303|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1166|TWO_SIDED|95.0|0.73|1.08|||Log Rank|||||1.08|0.73|0.1166
82532414|NCT00518713|164762248|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Analysis of covariance (ANCOVA) with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0120
82532415|NCT00518713|164762248|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0015
82413411|NCT00876395|164536304|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0049|TWO_SIDED|95.0|0.48|0.91|||Log Rank|||||0.91|0.48|0.0049
82413412|NCT00876395|164536307|SUPERIORITY|||||||0.7276|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.7276
82413413|NCT00876395|164536308|SUPERIORITY|||||||0.4085|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.4085
82413414|NCT00876395|164536309|SUPERIORITY|||||||0.9573|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.9573
82413415|NCT00876395|164536310|SUPERIORITY|||||||0.6382|||||||Exact Cochran-Mantel-Haenzel chi-square|||||||0.6382
82447160|NCT02684188|164603040|SUPERIORITY|||||||0.541||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 14 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 14.|For day 14, 105 (62 baseline and 43 intervention) patients were used in this analysis.|||0.541
82447161|NCT02684188|164603040|SUPERIORITY|||||||0.765||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 21 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 21.|For day 21, 98 (58 baseline and 40 intervention) patients were used in this analysis.|||0.765
82447162|NCT02684188|164603040|SUPERIORITY|||||||0.919||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE+ score.|Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 30 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 30.|For day 30, 95 (57 baseline and 38 intervention) patients were used in this analysis.|||0.919
82447163|NCT02684188|164603040|SUPERIORITY|||||||0.999||||||P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.|Poisson regression|P-values comparing the counts for the 2 groups after adjusting for sex, age, number in household, county, and LACE score.||H0: There is no difference in the cumulative number of PCP visits for day 60 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 60.|For day 60, 87 (54 baseline and 33 intervention) patients were used in this analysis.|||0.999
82447164|NCT02684188|164603040|SUPERIORITY|||||||0.995|||||||Poisson regression|||H0: There is no difference in the cumulative number of PCP visits for day 90 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 90.|For day 90, 83 (50 baseline and 33 intervention) patients were used in this analysis.|||0.995
82447165|NCT02684188|164603041|EQUIVALENCE|A repeated measures ANOVA model was used to model the SF12 Physical Health score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, and the number of people in a household. All hypotheses were 2-sided and p-values \< 0.05 were considered statistically significant.||||||0.371||||||The P-value comparing the means for the 2 groups averaged across the 7 days is p = 0.371, after adjusting for covariates.|ANOVA|||The following hypotheses were tested: Hoi: There is no difference in mean SF12 Physical Health scores between the standard and enhanced discharge groups (null hypothesis); H1i: The mean SF12 Physical Health scores differ between the standard and enhanced discharge groups.||||0.371
82447166|NCT02684188|164603042|EQUIVALENCE|A repeated measures ANOVA model was used to model the SF-12 Mental Health score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, income, and county. All hypotheses were 2-sided and p-values \< 0.05 were considered statistically significant.||||||0.232||||||The P-value comparing the means for the 2 groups averaged across the 7 days is p = 0.232, after adjusting for covariates.|ANOVA|||The following hypotheses were tested: Hoi: There is no difference in mean SF-12 Mental Health scores between the standard and enhanced discharge groups (null hypothesis); H1i: The mean SF-12 Mental Health scores differ between the standard and enhanced discharge groups.||||0.232
82447167|NCT02684188|164603043|SUPERIORITY|||||||0.806|||||||ANCOVA|||The following hypotheses were tested: H0: There is no difference in the mean CTM3 score between the standard and enhanced discharge groups (null hypothesis); H1: Patients in the enhanced discharge group will have a higher mean CTM3 rating than patients in the standard discharge group.|An analysis of covariance was used to model the CTM3 discharge planning score as a function of treatment group. An ANOVA F-test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of patient age and income. The hypothesis test for the group comparison was 1-sided, hypotheses to assess significance of covariates were 2-sided, and p-values \< 0.05 were considered statistically significant. The covariates Sex, County, Number in Household, LACE+ score, and PAM10 score did not differ in their mean CTM3 scores so were not retained in the model.|||0.806
82447168|NCT02684188|164603044|SUPERIORITY|||||||0.742|||||||ANOVA|||The following hypotheses were tested: H0: There is no difference in the mean RTM14 score between the standard and enhanced discharge groups (null hypothesis); H1: Patients in the enhanced discharge group will have a higher mean RTM14 rating than patients in the standard discharge group.|A repeated measures ANOVA model (over the 6 time measurement periods) was used to model the RTM14 score as a function of treatment group. The likelihood ratio test was used to calculate the p-values for the treatment effect and covariates. No adjustments for multiple comparisons were made. Hypotheses were tested after adjusting for the effects of the repeated measures, patient age, income, and whether or not a patient had visited a hospital or ED prior to that day. The hypothesis test for the group comparison was 1-sided, hypotheses to assess significance of covariates were 2-sided, and p-values \< 0.05 were considered statistically significant. The covariates Sex, Number in household, LACE+ score, and PAM10 score were not significant in explaining SF-12 scores so were not retained in the model.|||0.742
82447169|NCT02684188|164603045|SUPERIORITY|||||||0.717||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||: H0: There is no difference in the cumulative number of PCP visits for day 3 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 3.|For day 3, 114 (70 baseline and 44 intervention) patients were used in this analysis.|||0.717
82532416|NCT00518713|164762248|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82646888|NCT04682639|165008661|OTHER||LS mean difference|-54.53||||0.0565|TWO_SIDED|95.0|-110.59|1.54|||ANCOVA|||||1.54|-110.59|0.0565
82447170|NCT02684188|164603045|SUPERIORITY|||||||0.479||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 7 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 7.|For day 7, 111 (67 baseline and 44 intervention) patients were used in this analysis.|||0.479
82413416|NCT01121926|164536330|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax,ss is between 80% and 125%.|Mean ratio|56.53|||||TWO_SIDED|90.0|49.99|63.94|||||Test/reference (%)|||63.94|49.99|
82413417|NCT01121926|164536331|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUCss is between 80% and 125%.|Mean ratio|85.72|||||TWO_SIDED|90.0|81.05|90.67|||||Test/reference (%)|||90.67|81.05|
82413418|NCT02299167|164536348|OTHER|The ED50% of spinal bupivacaine was estimated using a modified Dixon's up-and-down method|Mean (95% CI) of effective dose in 90% (|1.9|||||TWO_SIDED|95.0|1.7|2.1|||||The ED50% of spinal bupivacaine was estimated using a modified Dixon's up-and-down method|Descriptive statistics were considered to calculate the mathematic mean (SD) of demographic, surgical, and other postoperative continuous data and to calculate the median (range) of sensory and motor block levels, as well as the degree of patient and surgeon satisfaction||2.1|1.7|
82413419|NCT00975923|164536395|SUPERIORITY_OR_OTHER||infection rates per device days|2.0|STANDARD_ERROR_OF_MEAN|0.05|<|0.05|TWO_SIDED|95.0|1.0|3.0||p-value and confidence intervals|Regression, Linear|||Infection rates were analyzed using hierarchical negative binomial regression models to model infection rate changes over time and account for clustering of ICUs within hospitals and adjusting for baseline covariates. Power was calculated a priori with a 1-tailed alpha of 0.05 and group size of 30; a 50% decrease in infection rates in the Collaborative group and 15% for the Tool Kit group, yielding power ranging from 82% to 91% for testing group differences.||3.0|1.0|<.05
82413420|NCT00975923|164536396|SUPERIORITY_OR_OTHER||percentages|10.0|||<|5|TWO_SIDED|95.0|||||Chi-squared||Power calculation used alpha = .05 and group size = 30.The estimated effect was a 50% decrease in infection rates for the Collaborative Group and from 10% to 15% decrease in the Tool Kit group.Power ranged from 82%-91% for testing group differences.|It was hypothesized that the Collaborative group would engage in more processes and tools than the Tool Kit group. Power was based on infection rates.||||<05
82413421|NCT02595892|164536403|OTHER||Hazard Ratio (HR)|0.57||||0.044|TWO_SIDED|90.0|0.33|0.98|||Log Rank|||||.98|.33|0.044
82413422|NCT02595892|164536406|OTHER|||||||0.44|||||||Fisher Exact|Two-Sided Fisher's exact test.||||||0.44
82413423|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.31|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
82413424|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.19|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
82413425|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.17|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
82413426|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.15|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
82532417|NCT00518713|164762249|SUPERIORITY_OR_OTHER|||||||0.0027||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0027
82532418|NCT00518713|164762249|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82447171|NCT02684188|164603045|SUPERIORITY|||||||0.329|||||||Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 14 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 14.|For day 14, 105 (62 baseline and 43 intervention) patients were used in this analysis.|||0.329
82413427|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
82413428|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|1.11|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
82413429|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|0.98|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
82532419|NCT00518713|164762249|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82413430|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|0.81|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||<0.001
82413431|NCT06442800|164536412|SUPERIORITY||Mean Difference (Final Values)|0.58|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
82413432|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.75|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
82413433|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.59|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
82413434|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.54|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
82413435|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
82413436|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.66|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
82413437|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
82413438|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.45|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
82413439|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||<0.001
82413440|NCT06442800|164536413|SUPERIORITY||Mean Difference (Final Values)|0.93|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
82413441|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.38|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Multiple cancers vs. Control||||<0.001
82413442|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.34|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Dementia vs. Control||||<0.001
82413443|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.4|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Colorectal cancer vs. Control||||<0.001
82413444|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver cancer vs. Control||||<0.001
82413445|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.37|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Throat and mouth cancer vs. Control||||<0.001
82413446|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.11|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Liver disease vs. Control||||<0.001
82413447|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.25|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Hypertension vs. Control||||<0.001
82413448|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.04||||0.02|TWO_SIDED||||||Mixed Models Analysis|||Current warning vs. Control||||0.02
82413449|NCT06442800|164536414|SUPERIORITY||Difference in predicted proportions|0.14|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Guidelines vs. Control||||<0.001
82646889|NCT04682639|165008661|OTHER||LS mean difference|-13.95||||0.6193|TWO_SIDED|95.0|-69.61|41.71|||ANCOVA|||||41.71|-69.61|0.6193
82413450|NCT00373672|164536415|SUPERIORITY||||||<|0.016|||||||t-test, 2 sided|||Treatment effects were analyzed using a repeated measures analysis of variance model with time (baseline, 6 weeks) as the within-subjects factor and treatment group (armodafinil, placebo) as the between-subjects factor.||||<0.016
82413451|NCT05317546|164536476|SUPERIORITY|We used linear mixed effects models containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) with random intercepts. For 1H-MRS models, brain tissue composition \[Gray Matter: Brain Matter or GM:BM defined as GM/(GM+WM)\] was included as a covariate.||||||0.33||||||alpha \< 0.05|Mixed Models Analysis|Adjusted for brain tissue composition||An a priori power analysis was conducted to ensure power to detect differences in neurometabolite levels in the dACC. Due to type of modeling, participants were included even if they did not complete the second medication allocation.||||0.33
82413452|NCT05317546|164536477|SUPERIORITY|We used linear mixed effects models containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) with random intercepts. For 1H-MRS models, brain tissue composition \[Gray Matter: Brain Matter or GM:BM defined as GM/(GM+WM)\] was included as a covariate.||||||0.75||||||alpha \<0.05|Mixed Models Analysis|Adjusted for brain tissue composition||Due to type of modeling, participants were included even if they did not complete the second medication allocation.||||0.75
82413453|NCT05317546|164536478|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Several studies have demonstrated that CBD can modulate resting-state or task-based BOLD signal under similar study design (acute dosing, 600 mg CBD) with sample sizes smaller than our sample. Due to the modeling, only participants with usable data from both medication allocation visits were included. Contrast of interest was alcohol beverages vs. non-alcohol beverages.||||>0.05
82413454|NCT05317546|164536479|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||We were not able to complete a power calculation for this task. We used linear mixed effects models, containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) and cue-by-medication interaction terms. Random intercepts were included to account for individual differences.||||0.82
82413455|NCT05317546|164536480|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||We were not able to complete a power calculation for this task. We used linear mixed effects models, containing the main effect of medication (CBD vs. placebo), visit (visit 1 vs. visit 2), and sequence (CBD/placebo vs. placebo/CBD) and cue-by-medication interaction terms. Random intercepts were included to account for individual differences.||||0.21
82413456|NCT04590963|164536485|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.989|TWO_SIDED|95.0|0.66|1.537|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.537|0.660|0.989
82413457|NCT04590963|164536486|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.891|TWO_SIDED|95.0|0.704|1.528|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for HPV status, WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for HPV status, WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.528|0.704|0.891
82413458|NCT04590963|164536487|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.574|TWO_SIDED|95.0|0.79|1.568|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.568|0.790|0.574
82413459|NCT04590963|164536488|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.53|TWO_SIDED|95.0|0.818|1.512|||Log Rank|P-value was calculated using stratified log-rank test, adjusted for HPV status, WHO/ECOG PS (0/1) and number of prior lines of therapy in R/M setting.|HR and CIs were calculated using a stratified Cox proportional hazards model, adjusted for HPV status, WHO/ECOG PS, and number of lines of prior therapy in R/M setting.|||1.512|0.818|0.530
82426486|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.4|9.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||9.8|3.4|<0.0001
82426487|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.4326|TWO_SIDED|95.0|0.7|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||2.1|0.7|0.4326
82646890|NCT04682639|165008662|OTHER||Adjusted difference from placebo|21.9||||0.0007|TWO_SIDED|95.0|9.23|34.57|||Mantel Haenszel|||||34.57|9.23|0.0007
82413460|NCT04590963|164536489|SUPERIORITY||Odds Ratio (OR)|0.56||||0.115|TWO_SIDED|95.0|0.274|1.154|||Regression, Logistic|P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|The analysis was performed using a logistic regression model, with treatment as a covariate and adjusting for WHO/ECOG PS, and number of lines of prior therapy in the R/M setting with 95% CI calculated by profile likelihood.|||1.154|0.274|0.115
82413461|NCT04590963|164536490|SUPERIORITY||Odds Ratio (OR)|0.6||||0.162|TWO_SIDED|95.0|0.297|1.231|||Regression, Logistic|P-value is based on twice the change in log-likelihood resulting from the addition of a treatment factor to the model.|The analysis was performed using a logistic regression model, with treatment as a covariate and adjusting for HPV Status, WHO/ECOG PS, and number of lines of prior therapy in the R/M setting with 95% CI calculated by profile likelihood.|||1.231|0.297|0.162
82413462|NCT02141113|164536526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|||||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These changed scores show the total change in ADHD symptoms over the course of the trial. Higher values indiicate improved functioning at the end of the trial compared to the beginning.||||.779
82532420|NCT00518713|164762250|SUPERIORITY_OR_OTHER|||||||0.1041||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1041
82532421|NCT00518713|164762250|SUPERIORITY_OR_OTHER|||||||0.2207||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.2207
82532422|NCT00518713|164762250|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0025
82532423|NCT00518713|164762251|SUPERIORITY_OR_OTHER|||||||0.1469||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1469
82532424|NCT00518713|164762251|SUPERIORITY_OR_OTHER|||||||0.0161||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0161
82413463|NCT02141113|164536527|SUPERIORITY|||||||0.834|||||||ANOVA|||||||.834
82413464|NCT02141113|164536528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.705|TWO_SIDED||||||ANOVA|||||||.705
82413465|NCT02141113|164536529|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322|TWO_SIDED||||||ANOVA|||||||.322
82413466|NCT02141113|164536530|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED||||||ANOVA|||||||.043
82413467|NCT02141113|164536531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212|TWO_SIDED||||||ANOVA|||||||.212
82413468|NCT00879359|164536624|SUPERIORITY_OR_OTHER||Hazard Ratio, log|92.0|||||TWO_SIDED|95.0|64.0|99.0||||||||99|64|
82413469|NCT00970944|164536627|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Mixed Models Analysis|||We will have 80% power to detect a one point difference in DRS score between the groups across the four week treatment window. With this sample size, we will be able to detect any unforeseen adverse events that have a prevalence of at least 2.5% in each group with 90% probability. With 92 patients per group we will be able to estimate the rate of adverse events to within ±10%.||||0.045
82426488|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.12|||<|0.0001|TWO_SIDED|95.0|3.2|8.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Low Disease Activity||8.2|3.2|<0.0001
82426489|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|2.8|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||7.8|2.8|<0.0001
82426490|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.6064|TWO_SIDED|95.0|0.6|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||1.8|0.6|0.6064
82426491|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|3.0|7.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Low Disease Activity||7.4|3.0|<0.0001
82426492|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.4626|TWO_SIDED|95.0|0.5|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||3.3|0.5|0.4626
82426493|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.2886|TWO_SIDED|95.0|0.6|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||3.3|0.6|0.2886
82426494|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.7779|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36 Remission||1.9|0.4|0.7779
82426495|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.94|||<|0.0001|TWO_SIDED|95.0|1.8|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||4.7|1.8|<0.0001
82426496|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.2091|TWO_SIDED|95.0|0.8|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||2.0|0.8|0.2091
82426497|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.5|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40 Remission||3.6|1.5|<0.0001
82413470|NCT00970944|164536628|SUPERIORITY_OR_OTHER||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.088||0.007||95.0|-0.41|-0.07||The final analysis used a significance level of 0.045.|Mixed Models Analysis|Final analysis adjusted for early v. late enrollment relative to date of injury, baseline CRS-R rating category (MCS vs. VS), and site.||The planned sample size of 184 patients provided 80% power to detect a difference between the AH and placebo in the rate of Disability Rating Scale (DRS) score change of 0.3 points/week (1.22 DRS point mean difference by the end of the 4-week treatment interval). Two blinded interim analyses were conducted at 60 and 120 patients recruited using the O'Brien-Fleming boundary, with alpha levels of 0.0005 and 0.014. The final analysis used an alpha level of 0.045.||-0.07|-0.41|0.007
82413471|NCT03915067|164536644|SUPERIORITY||Rate Difference|65.8|||<|0.0001|TWO_SIDED|95.0|51.5|80.1||P-value derived from CMH model stratified by investigator site and C-APPS at Day 1.|Cochran-Mantel-Haenszel|||||80.1|51.5|<0.0001
82413472|NCT03915067|164536644|SUPERIORITY||Rate Difference|76.2|||<|0.0001|TWO_SIDED|95.0|63.6|88.9||P-value derived from CMH model stratified by investigator site and C-APPS at Day 1.|Cochran-Mantel-Haenszel|||||88.9|63.6|<0.0001
82413473|NCT03915067|164536667|SUPERIORITY||Rate Difference|57.9|||<|0.0001|TWO_SIDED|95.0|42.3|73.5||P-value was derived from CMH model stratified by investigator site and P-APPS at Day 1.|Cochran-Mantel-Haenszel|||||73.5|42.3|<0.0001
82413474|NCT03915067|164536667|SUPERIORITY||Rate Difference|70.2|||<|0.0001|TWO_SIDED|95.0|56.4|84.1||P-value derived from CMH model stratified by investigator site and P-APPS at Day 1.|Cochran-Mantel-Haenszel|||||84.1|56.4|<0.0001
82413475|NCT01001104|164536679|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at 12 weeks.|Mixed Models Analysis|||||||<.001
82413476|NCT01001104|164536679|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.72|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82413477|NCT01001104|164536679|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.97|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82413478|NCT01001104|164536679|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.17|||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82413479|NCT01001104|164536680|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value from the Cochran-Armitage trend test.|Cochran-Armitage|||||||<0.001
82413480|NCT01001104|164536680|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82413481|NCT01001104|164536680|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82413482|NCT01001104|164536680|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82413483|NCT01001104|164536681|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value from the Cochran-Armitage trend test.|Cochran-Armitage|||||||<0.001
82413484|NCT01001104|164536681|SUPERIORITY_OR_OTHER|||||||0.358||95.0|||||Fisher Exact|||||||0.358
82413485|NCT01001104|164536681|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Fisher Exact|||||||0.014
82413486|NCT01001104|164536681|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82413487|NCT01001104|164536682|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
82413488|NCT01001104|164536682|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.2||||0.003||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.003
82413489|NCT01001104|164536682|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-19.54||||0.003||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.003
82413490|NCT01001104|164536682|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-28.48|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
82413491|NCT01001104|164536683|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
82413492|NCT01001104|164536683|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-33.2|||<|0.001||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
82413493|NCT01001104|164536683|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-45.63|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
82413494|NCT01001104|164536683|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-41.49|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
82413495|NCT01001104|164536684|SUPERIORITY_OR_OTHER|||||||0.987||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||0.987
82413496|NCT01001104|164536684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.26||||0.005||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.005
82413497|NCT01001104|164536684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.45||||0.311||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.311
82413498|NCT01001104|164536684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.26||||0.556||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.556
82413499|NCT01001104|164536685|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||This is the p-value from the linear trend test at week 12.|Mixed Models Analysis|||||||0.202
82413500|NCT01001104|164536685|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.91||||0.917||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.917
82413501|NCT01001104|164536685|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.81||||0.264||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.264
82413502|NCT01001104|164536685|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-8.4||||0.346||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.346
82413503|NCT01001104|164536686|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the linear trend test at week 12.|Mixed Models Analysis|||||||<0.001
82413504|NCT01001104|164536686|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.1||||0.036||95.0||||Primary comparisons are based on the MMRM Least Squares (LS) Mean Value at week 12.|Mixed Models Analysis|||||||0.036
82413505|NCT01001104|164536686|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|19.73||||0.002||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||0.002
82413506|NCT01001104|164536686|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|31.68|||<|0.001||95.0||||Primary comparisons are based on the MMRM LS Mean Value at week 12.|Mixed Models Analysis|||||||<0.001
82413507|NCT01001104|164536688|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||This is the p-value from the Cochran-Armitage trend test (dose-effect).|Cochran-Armitage|||||||0.073
82413508|NCT01001104|164536688|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82413509|NCT01001104|164536688|SUPERIORITY_OR_OTHER|||||||0.233||95.0|||||Fisher Exact|||||||0.233
82413510|NCT01201863|164536752|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.07816|STANDARD_ERROR_OF_MEAN|1.3315||0.954|TWO_SIDED||||||comparison of slopes|Slopes by group and slope difference||To investigate a difference in change in outcome over time between treatment and control, a trend analysis was used in place of a profile analysis, where both control and treatment arms are described more parsimoniously i.e. by a slope (change in outcome over time) (Fitzmaurice 2011).||||0.9540
82413511|NCT01149785|164536753|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|316.36|||||TWO_SIDED|90.0|286.17|349.73||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||349.73|286.17|
82413512|NCT01149785|164536754|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|328.31|||||TWO_SIDED|90.0|296.42|363.63||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||363.63|296.42|
82413513|NCT01149785|164536757|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|144.13|||||TWO_SIDED|90.0|126.42|164.33||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||164.33|126.42|
82413514|NCT01149785|164536760|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|519.65|||||TWO_SIDED|90.0|460.42|586.5||||||Natural log transformed AUClast of crizotinib metabolite (PF-06260182) was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||586.50|460.42|
82413515|NCT01149785|164536761|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|516.98|||||TWO_SIDED|90.0|457.88|583.72||||||Natural log transformed AUC (0-∞) of crizotinib metabolite (PF-06260182) was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||583.72|457.88|
82413516|NCT01149785|164536763|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|161.42|||||TWO_SIDED|90.0|143.09|182.09||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as fixed effect and subject as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||182.09|143.09|
82413517|NCT03439514|164536767|SUPERIORITY||Median Difference (Net)|4.936||||0.818|TWO_SIDED|95.0|-24.246|34.118||Two-sided p-value|Van Elteren test||The Week 24 change from baseline in 6MWT between PF 07265803 and placebo was estimated using the stratified HL median difference, considering only participants who survived 24 weeks.|||34.118|-24.246|0.818
82413518|NCT03439514|164536773|OTHER||Hazard Ratio (HR)|0.43||||0.2257|TWO_SIDED|95.0|0.13|1.39|||Log Rank|||||1.39|0.13|0.2257
82413519|NCT03439514|164536774|OTHER||Hazard Ratio (HR)|1.19||||0.837|TWO_SIDED|95.0|0.3|4.63|||Log Rank|||||4.63|0.30|0.8370
82413520|NCT02175758|164536780|EQUIVALENCE|Equivalence was determined if the 90% confidence intervals (CI) were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|129.48|||||TWO_SIDED|90.0|109.96|152.48||||||AUCtau of GS-331007 for the 12 to \< 18 Years old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||152.48|109.96|
82413521|NCT02175758|164536780|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|109.8|||||TWO_SIDED|90.0|93.25|129.29||||||AUCtau of GS-331007 for the 6 to \< 12 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||129.29|93.25|
82413522|NCT02175758|164536780|EQUIVALENCE|Equivalence was determined if the 90% CIs were within the predefined equivalence boundaries of 50% to 200% for all age groups.|Percentage Geometric Mean Ratio|149.67|||||TWO_SIDED|90.0|127.12|176.21||||||AUCtau of GS-331007 for the 3 to \< 6 Years Old group in the PK Lead-in Phase was compared against historical data collected in adult Phase 2/3 studies.||176.21|127.12|
82413523|NCT02175758|164536782|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate for the 12 to \< 18 Years Old group was compared with the historical SVR12 rate of 80% using a 2-sided exact 1-sample binomial test at the 0.05 significance level. If superiority was demonstrated in the 12 to \< 18 Years Old group, then the SVR12 rate for participants aged 3 to \< 12 years would be compared with 80% at the 0.05 significance level.||||<0.001
82413524|NCT02175758|164536782|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate for the 3 to \< 12 Years Old group was compared with the historical SVR12 rate of 80% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.||||<0.001
82413525|NCT04871074|164536885|SUPERIORITY|||||||0.74|||||||DeLong's Test|||||||.74
82413526|NCT04871074|164536886|SUPERIORITY|||||||0.66|||||||DeLong's Test|||||||.66
82413527|NCT04871074|164536887|SUPERIORITY|||||||0.135|||||||Mixed Models Analysis|Linear mixed effects model, fixed effects coefficient test with a Wald test||||||.135
82413528|NCT04871074|164536891|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|Fixed effects estimate, Wald test||||||.39
82413529|NCT04556097|164536953|SUPERIORITY||Rate Ratio|0.61|STANDARD_ERROR_OF_MEAN|0.35||0.05|TWO_SIDED|95.0|0.31|1.2|||Difference in differences|Difference in differences model with a negative binomial distribution and log link that provides rate ratio estimate of the relative difference.|The rate ratio is estimated for intervention patients as compared to controls.|||1.20|0.31|0.05
82426498|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.1|5.2||p-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||5.2|2.1|<0.0001
82413530|NCT04556097|164536954|SUPERIORITY||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.95||0.05|TWO_SIDED|95.0|-6.53|1.12|||Difference in differences|Difference in differences model with a Gaussian distribution and identity link that provides linear estimate of the relative point difference.||||1.12|-6.53|0.05
82413531|NCT02516241|164536955|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0751|TWO_SIDED|98.66|0.688|1.063||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.063|0.688|0.0751
82413532|NCT02516241|164536956|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.3039|TWO_SIDED|96.99|0.695|1.139||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.139|0.695|0.3039
82413533|NCT02516241|164536957|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.8637|TWO_SIDED|95.0|0.83|1.169||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.169|0.830|0.8637
82413534|NCT02516241|164536958|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0091|TWO_SIDED|95.0|0.589|0.928||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.928|0.589|0.0091
82413535|NCT02516241|164536959|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7599|TWO_SIDED|95.0|0.799|1.359||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.359|0.799|0.7599
82413536|NCT02516241|164536959|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.4424|TWO_SIDED|95.0|0.692|1.175||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.175|0.692|0.4424
82413537|NCT02516241|164536963|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.2579|TWO_SIDED|95.0|0.931|1.304||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.304|0.931|0.2579
82413538|NCT02516241|164536963|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.0008|TWO_SIDED|95.0|1.124|1.567||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.567|1.124|0.0008
82413539|NCT02516241|164536964|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.2395|TWO_SIDED|95.0|0.705|1.091||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.091|0.705|0.2395
82413540|NCT02516241|164536964|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.2431|TWO_SIDED|95.0|0.917|1.406||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.406|0.917|0.2431
82413541|NCT02516241|164536965|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.0014|TWO_SIDED|95.0|1.177|1.99||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.990|1.177|0.0014
82413542|NCT02516241|164536965|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6236|TWO_SIDED|95.0|0.729|1.209||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.209|0.729|0.6236
82413543|NCT02516241|164536969|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0477|TWO_SIDED|95.0|0.683|0.998||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.998|0.683|0.0477
82413544|NCT02516241|164536969|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7885|TWO_SIDED|95.0|0.809|1.175||The 2-sided p-value was calculated using a stratified log-rank test adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.175|0.809|0.7885
82646891|NCT04682639|165008662|OTHER||Adjusted difference from placebo|13.85||||0.0121|TWO_SIDED|95.0|3.03|24.66|||Mantel Haenszel|||||24.66|3.03|0.0121
82532425|NCT00518713|164762251|SUPERIORITY_OR_OTHER|||||||0.0024||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0024
82532426|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.1324||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.1324
82532427|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.0026||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0026
82532428|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANCOVA|||≥ 25% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0004
82532429|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.3383||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.3383
82532430|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.0159||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0159
82532431|NCT00518713|164762252|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||≥ 50% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82532432|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0279
82576443|NCT01154140|164862439|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.9908||||0.0139|TWO_SIDED|95.0|0.81|7.17|||Mixed Models Analysis|||Analysis was based on a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EQ-5D VAS subscale baseline score (intercept and time from first dose were included as random effects).||7.17|0.81|0.0139
82413545|NCT02516241|164536970|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0053|TWO_SIDED|95.0|0.549|0.901||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||0.901|0.549|0.0053
82413546|NCT02516241|164536970|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1336|TWO_SIDED|95.0|0.651|1.059||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.059|0.651|0.1336
82576444|NCT02078492|164862477|NON_INFERIORITY_OR_EQUIVALENCE|We assumed a minimal clinically significant difference (MCSD) of 1.3 between the three ketorolac groups at the 30-minute pain assessment and a standard deviation of 3.0. A power analysis determined that a sample of 78 subjects per group provided at least 80% power to detect an MCSD of at least 1.3 at 30 minutes with α=0.05.||||||0.783|||||||ANOVA|2 degrees of freedom||The main hypothesis was that there would be equivalence of dose effect across the three groups at every time point, and the primary comparison consisted of the pain assessment at 30 minutes.||||.783
82576445|NCT03321253|164862498|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82576446|NCT03168542|164862545|SUPERIORITY|Superiority was concluded if the lower 95% of the confidence limit of the proportion of subjects who require no more than one modification was greater than 50%.|Proportion|0.952|||||TWO_SIDED|95.0|0.756|1.0|||Agresti-Coull confidence interval|Agresti-Coull method was used to estimate the confidence interval of the binomial proportions.||||1.000|0.756|
82576447|NCT00664534|164862565|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin is defined as 0.4%. If the upper 95%CI for difference in LSMeans is below 0.4% then MIX arm will be declared noninferior to GLAR arm|Least squares mean difference|-0.14|||||TWO_SIDED|95.0|-0.42|0.13|||||Least squares mean difference = (Premix insulin Lispro -Glargine)|||0.13|-0.42|
82413547|NCT02516241|164536971|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.8148|TWO_SIDED|95.0|0.772|1.391||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|||1.391|0.772|0.8148
82532433|NCT00518713|164762252|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0010
82532434|NCT00518713|164762252|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||≥ 75% reduction. ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82532435|NCT00518713|164762259|SUPERIORITY_OR_OTHER|||||||0.721||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.7210
82532436|NCT00518713|164762259|SUPERIORITY_OR_OTHER|||||||0.2505||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.2505
82413548|NCT02516241|164536971|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.2684|TWO_SIDED|95.0|0.636|1.134||The 2-sided p-value was calculated using a stratified log-rank test adjusting for visceral metastases and cisplatin eligibility status.|Log Rank||The HR and confidence interval (CI) were calculated using a stratified Cox proportional hazards model, adjusting for visceral metastases and cisplatin eligibility status with ties handled by the Breslow approach.|monotherapy as reference.||1.134|0.636|0.2684
82413549|NCT02516241|164536972|SUPERIORITY||Odds Ratio (OR)|0.58||||0.0005|TWO_SIDED|95.0|0.422|0.788||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.788|0.422|0.0005
82413550|NCT02516241|164536972|SUPERIORITY||Odds Ratio (OR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.253|0.485||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.485|0.253|<0.0001
82413551|NCT02516241|164536973|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7708|TWO_SIDED|95.0|0.639|1.394||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.394|0.639|0.7708
82413552|NCT02516241|164536973|SUPERIORITY||Odds Ratio (OR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.268|0.61||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.610|0.268|<0.0001
82413553|NCT02516241|164536974|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.135|0.406||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.406|0.135|<0.0001
82413554|NCT02516241|164536974|SUPERIORITY||Odds Ratio (OR)|0.86||||0.6195|TWO_SIDED|95.0|0.469|1.566||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.566|0.469|0.6195
82413555|NCT02516241|164536976|SUPERIORITY||Odds Ratio (OR)|0.56||||0.0002|TWO_SIDED|95.0|0.41|0.759||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.759|0.410|0.0002
82413556|NCT02516241|164536976|SUPERIORITY||Odds Ratio (OR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.267|0.5||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.500|0.267|<0.0001
82413557|NCT02516241|164536977|SUPERIORITY||Odds Ratio (OR)|0.87||||0.4959|TWO_SIDED|95.0|0.59|1.291||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.291|0.590|0.4959
82413558|NCT02516241|164536977|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0001|TWO_SIDED|95.0|0.305|0.679||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.679|0.305|0.0001
82413559|NCT02516241|164536978|SUPERIORITY||Odds Ratio (OR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.16|0.448||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.448|0.160|<0.0001
82413560|NCT02516241|164536978|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8074|TWO_SIDED|95.0|0.623|1.836||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.836|0.623|0.8074
82413561|NCT02516241|164536979|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0008|TWO_SIDED|95.0|0.432|0.802||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.802|0.432|0.0008
82576448|NCT00664534|164862567|SUPERIORITY_OR_OTHER||Least squares mean difference|0.05|||||TWO_SIDED|95.0|-0.18|0.29|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 16 weeks|||0.29|-0.18|
82576449|NCT00664534|164862567|SUPERIORITY_OR_OTHER||Least squares mean difference|0.04|||||TWO_SIDED|95.0|-0.22|0.29|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 32 weeks|||0.29|-0.22|
82426499|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5351|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||1.7|0.7|0.5351
82576450|NCT00664534|164862567|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.08|||||TWO_SIDED|95.0|-0.33|0.18|||||Least squares mean difference = (Premix insulin Lispro - Glargine). 48 weeks|||0.18|-0.33|
82447172|NCT02684188|164603045|SUPERIORITY|||||||0.78|||||||Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 21 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 21.|This Hypothesis was tested with no adjustments for covariates since none were significant.|||0.780
82447173|NCT02684188|164603045|SUPERIORITY|||||||0.779||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 30 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 30.|For day 30, 95 (57 baseline and 38 intervention) patients were used in this analysis.|||0.779
82532437|NCT00518713|164762259|SUPERIORITY_OR_OTHER|||||||0.0924||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0924
82576451|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.2127||95.0||||P-value is for Week 16 HbA1c \<=7.0%.|Chi-squared|||||||0.2127
82413562|NCT02516241|164536979|SUPERIORITY||Odds Ratio (OR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.27|0.512||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|||0.512|0.270|<0.0001
82413563|NCT02516241|164536980|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7717|TWO_SIDED|95.0|0.639|1.394||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||1.394|0.639|0.7717
82413564|NCT02516241|164536980|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0001|TWO_SIDED|95.0|0.303|0.682||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.682|0.303|0.0001
82413565|NCT02516241|164536981|SUPERIORITY||Odds Ratio (OR)|0.26|||<|0.0001|TWO_SIDED|95.0|0.151|0.439||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|||0.439|0.151|<0.0001
82413566|NCT02516241|164536981|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9692|TWO_SIDED|95.0|0.556|1.759||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status.|monotherapy as reference.||1.759|0.556|0.9692
82413567|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.1617|TWO_SIDED|95.0|-0.6|3.59||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||3.59|-0.6|0.1617
82413568|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.0578|TWO_SIDED|95.0|-0.07|4.29||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||4.29|-0.07|0.0578
82413569|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.2003|TWO_SIDED|95.0|-0.91|4.32||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||4.32|-0.91|0.2003
82413570|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.0178|TWO_SIDED|95.0|0.57|6.0||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||6.00|0.57|0.0178
82413571|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.3765|TWO_SIDED|95.0|-1.96|5.17||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||5.17|-1.96|0.3765
82413572|NCT02516241|164536989|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.03|TWO_SIDED|95.0|0.4|7.81||MMRM model included patient, treatment, cisplatin eligibility, PD-L1 status and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||7.81|0.40|0.0300
82532438|NCT00518713|164762260|SUPERIORITY_OR_OTHER|||||||0.0414||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0414
82532439|NCT00518713|164762260|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||0.0044
82532440|NCT00518713|164762260|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||ANCOVA with the percent reduction in drop seizures as the dependent variable and treatment, pooled center, and baseline drop seizure rate as the independent variables. A step-down procedure used, starting with the high dose versus placebo.||||<0.0001
82576452|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.3281||95.0||||P-value is for Week 16 HbA1c \<=6.5%|Chi-squared|||||||0.3281
82576453|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.2812||95.0||||P-value is for Week 32 HbA1c \<=7.0%|Chi-squared|||||||0.2812
82413573|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.1373|TWO_SIDED|95.0|-0.6|4.36||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||4.36|-0.6|0.1373
82413574|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.0034|TWO_SIDED|95.0|1.26|6.27||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||6.27|1.26|0.0034
82413575|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.1774|TWO_SIDED|95.0|-1.0|5.39||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||5.39|-1.00|0.1774
82413576|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|5.4||||0.0011|TWO_SIDED|95.0|2.19|8.65||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||8.65|2.19|0.0011
82413577|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3494|TWO_SIDED|95.0|-2.27|6.38||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||6.38|-2.27|0.3494
82413578|NCT02516241|164536990|SUPERIORITY||Mean Difference (Final Values)|7.3||||0.0011|TWO_SIDED|95.0|2.96|11.71||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||11.71|2.96|0.0011
82413579|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.3865|TWO_SIDED|95.0|-4.35|1.69||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||1.69|-4.35|0.3865
82413580|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.284|TWO_SIDED|95.0|-5.05|1.49||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||NFBLSI- 18 score (Average overall visits)||1.49|-5.05|0.2840
82413581|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.297|TWO_SIDED|95.0|-5.41|1.66||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||1.66|-5.41|0.2970
82413582|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.3026|TWO_SIDED|95.0|-5.85|1.83||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL TOI (Average overall visits)||1.83|-5.85|0.3026
82413583|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.3168|TWO_SIDED|95.0|-7.29|2.38||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||2.38|-7.29|0.3168
82413584|NCT02516241|164536991|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.2179|TWO_SIDED|95.0|-8.51|1.96||MMRM model included patient, treatment, cisplatin eligibility and visceral metastasis, visit and treatment by visit interaction as explanatory variables, and the appropriate baseline FACT-BL value as a covariate.|Mixed Models Analysis|||FACT-BL Total score (Average overall visits)||1.96|-8.51|0.2179
82413585|NCT02516241|164536992|SUPERIORITY||Odds Ratio (OR)|1.4||||0.2419|TWO_SIDED|95.0|0.8|2.6||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patients with improvement in fatigue||2.6|0.8|0.2419
82413586|NCT02516241|164536992|SUPERIORITY||Odds Ratio (OR)|1.5||||0.1553|TWO_SIDED|95.0|0.9|2.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||2.8|0.9|0.1553
82532441|NCT00050089|164762272|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.165||||0.69|TWO_SIDED|95.0|0.856|1.585|||Log Rank||The comparison was Mega-ART (intensification) vs Standard-ART (standard).|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison.||1.585|0.856|0.69
82532442|NCT00050089|164762273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.49|TWO_SIDED|95.0|0.674|1.275|||Log Rank||The comparison was ARDFP (interruption) vs No ARDFP (continuation)|Time-to-event (Kaplan-Meier) and stratified log-rank analysis was performed.||1.275|0.674|0.49
82532443|NCT00050089|164762274|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Log Rank|||Stratified Log-rank test was used to compare the four treatment||||0.87
82532444|NCT00050089|164762275|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008||||0.92|TWO_SIDED|95.0|0.75|1.35|||Log Rank||The comparison was Standard-ART (standard) vs Mega-ART (intensification)|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison||1.35|0.75|0.92
82532445|NCT00050089|164762276|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.68|TWO_SIDED|95.0|0.8|1.46|||Log Rank||The comparison was ARDFP (interruption) vs No ARDFP (continuation) of ART|Time-to-event (Kaplan-Meier) and stratified log-rank test was used for the comparison.||1.46|0.8|0.68
82413587|NCT02516241|164536992|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0003|TWO_SIDED|95.0|1.4|2.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.8|1.4|0.0003
82413588|NCT02516241|164536992|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0148|TWO_SIDED|95.0|1.1|2.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for PD-L1 status, visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.3|1.1|0.0148
82413589|NCT02516241|164536993|SUPERIORITY||Odds Ratio (OR)|1.6||||0.2473|TWO_SIDED|95.0|0.7|3.4||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.4|0.7|0.2473
82413590|NCT02516241|164536993|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0148|TWO_SIDED|95.0|0.8|3.8||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.8|0.8|0.0148
82413591|NCT02516241|164536993|SUPERIORITY||Odds Ratio (OR)|1.9||||0.009|TWO_SIDED|95.0|1.2|3.0||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patient with deterioration in pain||3.0|1.2|0.0090
82413592|NCT02516241|164536993|SUPERIORITY||Odds Ratio (OR)|1.4||||0.151|TWO_SIDED|95.0|0.9|2.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||2.3|0.9|0.1510
82413593|NCT02516241|164536994|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6763|TWO_SIDED|95.0|0.5|3.2||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.2|0.5|0.6763
82413594|NCT02516241|164536994|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6539|TWO_SIDED|95.0|0.5|3.3||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patients with improvement in fatigue||3.3|0.5|0.6539
82413595|NCT02516241|164536994|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0092|TWO_SIDED|95.0|1.2|4.0||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood|Patient with deterioration in pain||4.0|1.2|0.0092
82532446|NCT01216293|164762284|SUPERIORITY_OR_OTHER_LEGACY||Difference|19.2|||||TWO_SIDED|95.0|7.0|30.2|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||30.2|7.0|
82413596|NCT02516241|164536994|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0324|TWO_SIDED|95.0|1.1|3.5||P-value was based on twice the change in log-likelihood resulting from logistic regression model, adjusting for visceral metastases and cisplatin eligibility status.|Regression, Logistic||The OR and confidence interval (CI) were calculated using logistic regression, adjusting for visceral metastases and cisplatin eligibility status, with 95% CI calculated by profile likelihood.|Patient with deterioration in pain||3.5|1.1|0.0324
82413597|NCT04738487|164536999|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6712|TWO_SIDED|95.0|0.83|1.35||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.35|0.83|0.6712
82413598|NCT04738487|164537000|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.332|TWO_SIDED|95.0|0.82|1.13||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.13|0.82|0.3320
82413599|NCT04738487|164537001|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1646|TWO_SIDED|95.0|0.72|1.11||One-sided p-value based on log-rank test.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.11|0.72|0.1646
82413600|NCT03409367|164537049|EQUIVALENCE|The risk ratio is equal to 1.|Risk Ratio (RR)|0.84||||0.019|TWO_SIDED|95.0|0.73|0.97|||Regression, log-binomial||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.|The null hypothesis is that the cumulative incidence of atopic dermatitis does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio is equal to 1.||0.97|0.73|0.019
82426500|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12|||<|0.0001|TWO_SIDED|95.0|2.0|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48 Remission||4.8|2.0|<0.0001
82426501|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.0001|TWO_SIDED|95.0|2.6|6.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||6.5|2.6|<0.0001
82413601|NCT03409367|164537050|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.76||||0.002|TWO_SIDED|95.0|0.65|0.9|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of parent-reported AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.90|0.65|0.002
82413602|NCT03409367|164537051|EQUIVALENCE|Risk ratio is equal to 1.|Risk Ratio (RR)|0.86||||0.323|TWO_SIDED|95.0|0.65|1.15||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.|Regression, log-binomial|||The null hypothesis is that the cumulative incidence of AD by modified UK Working Party criteria does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.15|0.65|0.323
82413603|NCT03409367|164537052|EQUIVALENCE|Risk ratio is equal to 1.|Risk Ratio (RR)|0.83||||0.044|TWO_SIDED|95.0|0.7|0.99|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of AD by CEQ does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.99|0.70|0.044
82532447|NCT01216293|164762284|SUPERIORITY_OR_OTHER_LEGACY||Difference|18.2|||||TWO_SIDED|95.0|6.7|30.4|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||30.4|6.7|
82413604|NCT03409367|164537053|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.68||||0.0004|TWO_SIDED|95.0|0.55|0.84|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations.||The null hypothesis is that the cumulative incidence of AD with prescription or OTC therapies in the health record does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.84|0.55|0.0004
82413605|NCT03409367|164537054|EQUIVALENCE|The odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD, as operationalized here by the type of recommended treatment.|Odds Ratio (OR)|0.7||||0.004|TWO_SIDED|95.0|0.55|0.89||Adjusted for family history of atopy (stratified randomization) and primary care site. Adjusted for multiple imputations of 199 missing outcomes.|Regression, proportional odds|||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms.||0.89|0.55|0.004
82413606|NCT03409367|164537055|EQUIVALENCE|Odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD, as operationalized here by the type of treatment.|Odds Ratio (OR)|0.72||||0.013|TWO_SIDED|95.0|0.56|0.93|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms.||0.93|0.56|0.013
82413607|NCT03409367|164537056|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.92||||0.509|TWO_SIDED|95.0|0.73|1.17|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of skin infections in the health record does not differ between the Daily Emollient and Natural Skin arms.||1.17|0.73|0.509
82413608|NCT03409367|164537057|EQUIVALENCE|The risk ratio is equal to 1.|Risk Ratio (RR)|1.05||||0.9|TWO_SIDED|95.0|0.5|2.18|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of asthma in the health record does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||2.18|0.50|0.900
82413609|NCT03409367|164537058|EQUIVALENCE|An ordinal OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.47||||0.064|TWO_SIDED|95.0|0.98|2.21|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|The daily emollient is in the numerator and the natural skin is in the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.21|0.98|0.064
82413610|NCT03409367|164537059|EQUIVALENCE|An ordinal OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.62||||0.007|TWO_SIDED|95.0|1.14|2.3|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|Daily emollient in the numerator and natural skin in the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.30|1.14|0.007
82532448|NCT01216293|164762285|SUPERIORITY_OR_OTHER_LEGACY||Difference|27.366|||||TWO_SIDED|95.0|12.749|42.957|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||42.957|12.749|
82413611|NCT03409367|164537060|EQUIVALENCE|The ordinal odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.45||||0.07|TWO_SIDED|95.0|0.97|2.18|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).|Daily moisturizer is the numerator and natural skin is the denominator.|The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the ordinal odds ratio (OR) is equal to 1.||2.18|0.97|0.070
82413612|NCT03409367|164537061|EQUIVALENCE|Odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.|Odds Ratio (OR)|1.36||||0.085|TWO_SIDED|95.0|0.96|1.91|||Regression, proportional odds|Adjusted for family history of atopy (stratified randomization).||The null hypothesis is that the odds of belonging to the next higher category of severity are equal in the Daily Emollient and Natural Skin arms, or that the odds ratio (OR) is equal to 1. An OR \< 1 could be considered evidence that daily emollient use is associated with lower severity of AD symptoms among those diagnosed with AD.||1.91|0.96|0.085
82426502|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.4574|TWO_SIDED|95.0|0.5|1.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||1.3|0.5|0.4574
82413613|NCT03409367|164537062|EQUIVALENCE|The risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.75||||0.079|TWO_SIDED|95.0|0.55|1.03|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of immediate food allergy reactions does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.03|0.55|0.079
82413614|NCT03409367|164537063|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.87||||0.669|TWO_SIDED|95.0|0.45|1.66|||Regression, log-binomial|||The null hypothesis is that the cumulative incidence of food allergies does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.66|0.45|0.669
82413615|NCT03409367|164537064|EQUIVALENCE|Risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.|Risk Ratio (RR)|0.77||||0.013|TWO_SIDED|95.0|0.62|0.95|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.||0.95|0.62|0.013
82413616|NCT03409367|164537065|EQUIVALENCE|Risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.|Risk Ratio (RR)|0.8||||0.009|TWO_SIDED|95.0|0.67|0.94|||Regression, log-binomial|Adjusted for family history of atopy (stratified randomization) and primary care site.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1. Alternatively, a RR \< 1 could be considered evidence that daily emollient is associated with lower incidence of AD.||0.94|0.67|0.009
82413617|NCT03409367|164537066|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.77||||0.012|TWO_SIDED|95.0|0.63|0.94|||Regression, log-binomial|Adjusted for primary care site. Adjusted for multiple imputations of 121 missing outcomes.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||0.94|0.63|0.012
82413618|NCT03409367|164537067|EQUIVALENCE|Risk ratio (RR) is equal to 1.|Risk Ratio (RR)|0.9||||0.303|TWO_SIDED|95.0|0.73|1.1|||Regression, log-binomial|Adjusted for primary care site. Adjusted for multiple imputations of 78 missing outcomes.||The null hypothesis is that the cumulative incidence of AD does not differ between the Daily Emollient and Natural Skin arms, or that the risk ratio (RR) is equal to 1.||1.10|0.73|0.303
82413619|NCT03824158|164537093|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||||||0.0014
82413620|NCT03824158|164537094|SUPERIORITY|||||||0.76|||||||Regression, Logistic|||||||0.76
82413621|NCT03824158|164537095|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82413622|NCT03824158|164537096|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
82447174|NCT02684188|164603045|SUPERIORITY|||||||0.848||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 60 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 60.|For day 60, 87 (54 baseline and 33 intervention) patients were used in this analysis.|||0.848
82447175|NCT02684188|164603045|SUPERIORITY|||||||0.857||||||This Hypothesis was tested with no adjustments for covariates since none were significant.|Regression, Logistic|||H0: There is no difference in the cumulative number of PCP visits for day 90 (null hypothesis); H1: The cumulative number of PCP visits for the standard discharge group is less than that for the enhanced discharge group for day 90.|For day 90, 83 (50 baseline and 33 intervention) patients were used in this analysis.|||0.857
82532449|NCT01216293|164762285|SUPERIORITY_OR_OTHER_LEGACY||Difference|22.025|||||TWO_SIDED|95.0|8.357|35.714|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||35.714|8.357|
82413623|NCT03824158|164537097|SUPERIORITY|||||||0.002|||||||Chi-squared|||Advance directive or living will||||0.002
82413624|NCT03824158|164537097|SUPERIORITY|||||||0.02|||||||Fisher Exact|||POLST||||0.02
82413625|NCT03824158|164537097|SUPERIORITY|||||||0.78|||||||Chi-squared|||Code Status||||0.78
82413626|NCT03824158|164537097|SUPERIORITY|||||||0.61|||||||Chi-squared|||Goals of Care discussion||||0.61
82413627|NCT03824158|164537098|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
82413628|NCT03824158|164537099|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82413629|NCT03279458|164537181|OTHER|least square regression analysis|correlation coefficient (R)|0.94|||<|0.05|TWO_SIDED|95.0|0.88|0.97|||Regression, Linear|||||0.97|0.88|<0.05
82413630|NCT01260948|164537190|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.72|||||TWO_SIDED|90.0|94.13|103.53|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.53|94.13|
82413631|NCT01260948|164537191|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.81|||||TWO_SIDED|90.0|91.3|98.47|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.47|91.30|
82413632|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.66|||=|0.101|TWO_SIDED|95.0|0.4|1.09|||Log Rank|||Statistical analysis for primary efficacy composite endpoint.||1.09|0.40|= 0.101
82413633|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|1.12|||=|0.814|TWO_SIDED|95.0|0.43|2.91|||Log Rank|||Statistical analysis for Symptomatic lower extremity proximal DVT.||2.91|0.43|= 0.814
82413634|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.4|||=|0.26|TWO_SIDED|95.0|0.08|2.07|||Log Rank|||Statistical analysis for symptomatic lower extremity distal DVT.||2.07|0.08|= 0.260
82413635|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.67|||=|0.538|TWO_SIDED|95.0|0.19|2.39|||Log Rank|||Statistical analysis for symptomatic upper extremity DVT.||2.39|0.19|= 0.538
82413636|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|1.02|||=|0.977|TWO_SIDED|95.0|0.29|3.52|||Log Rank|||Statistical analysis for symptomatic non-fatal PE.||3.52|0.29|= 0.977
82413637|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.35|||=|0.063|TWO_SIDED|95.0|0.11|1.11|||Log Rank|||Statistical analysis for asymptomatic lower extremity proximal DVT.||1.11|0.11|= 0.063
82413638|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.59|||=|0.301|TWO_SIDED|95.0|0.21|1.62|||Log Rank|||Statistical analysis for incidental PE.||1.62|0.21|= 0.301
82413639|NCT02555878|164537192|SUPERIORITY||Hazard Ratio (HR)|0.33|||=|0.314|TWO_SIDED|95.0|0.03|3.18|||Log Rank|||Statistical analysis for VTE-related death.||3.18|0.03|= 0.314
82413640|NCT02555878|164537193|SUPERIORITY||Hazard Ratio (HR)|1.96|||=|0.265|TWO_SIDED|95.0|0.59|6.49|||Log Rank|||||6.49|0.59|= 0.265
82413641|NCT00768053|164537229|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||F test for H0: ICC = 0|F test|||Intraclass correlation coefficient (ICC)||||0.000
82413642|NCT00768053|164537229|SUPERIORITY_OR_OTHER||standard error of measurement|0.65|||||TWO_SIDED|95.0|0.57|0.75||||||Standardized response mean: standard error of measurement||0.75|0.57|
82413643|NCT00768053|164537231|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 4||||<0.001
82413644|NCT00768053|164537232|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 12||||<0.001
82413645|NCT00768053|164537233|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Time-normalized average||||<0.001
82413646|NCT00768053|164537234|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 4||||<0.001
82413647|NCT00768053|164537235|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Week 12||||<0.001
82532450|NCT01216293|164762286|SUPERIORITY_OR_OTHER_LEGACY||Difference|20.1|||||TWO_SIDED|95.0|4.0|34.4|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||34.4|4.0|
82532451|NCT01216293|164762286|SUPERIORITY_OR_OTHER_LEGACY||Difference|11.6|||||TWO_SIDED|95.0|-2.7|28.3|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||28.3|-2.7|
82447176|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|1097.0||||||90.0|793.6|1461.0||P-Values were not calculated.|||This analysis is for Serotype 4.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||1461|793.6|
82532452|NCT01216293|164762287|SUPERIORITY_OR_OTHER_LEGACY||Difference|6.83|||||TWO_SIDED|95.0|0.4|12.78|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||12.78|0.40|
82532453|NCT01216293|164762287|SUPERIORITY_OR_OTHER_LEGACY||Difference|7.23|||||TWO_SIDED|95.0|0.59|12.86|||||Difference estimated using Hodges-Lehmann estimation, and corresponding 95% CIs calculated using Moses method.|||12.86|0.59|
82532454|NCT02451930|164762307|OTHER|||||||0.4491|||||||Fisher Exact|||||||0.4491
82413648|NCT00768053|164537236|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test for the Pearson correlation|||Time-normalized average||||<0.001
82413649|NCT00768053|164537237|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Pain NRS value||||<0.001
82413650|NCT00768053|164537237|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Functional disability NRS value||||<0.001
82413651|NCT00768053|164537237|SUPERIORITY_OR_OTHER|||||||0.837|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Fatigue NRS value||||0.837
82413652|NCT00768053|164537237|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Sleep NRS value||||0.035
82413653|NCT00768053|164537237|SUPERIORITY_OR_OTHER|||||||0.351|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Physical well-being NRS value||||0.351
82413654|NCT00768053|164537237|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Emotional well-being NRS value||||0.025
82413655|NCT00768053|164537237|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Coping NRS value||||<0.001
82413656|NCT00768053|164537238|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Pain NRS value||||<0.001
82413657|NCT00768053|164537238|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Functional disability NRS value||||0.052
82413658|NCT00768053|164537238|SUPERIORITY_OR_OTHER|||||||0.895|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Fatigue NRS value||||0.895
82413659|NCT00768053|164537238|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Sleep NRS value||||0.153
82532455|NCT05454449|164762326|OTHER|||||||0.047|||||||t-test, 2 sided|||||||0.047
82532456|NCT05454449|164762327|OTHER|||||||0.009|||||||t-test, 2 sided|||||||0.009
82413660|NCT00768053|164537238|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Physical well-being NRS value||||0.029
82413661|NCT00768053|164537238|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Emotional well-being NRS value||||0.043
82413662|NCT00768053|164537238|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||paired t-test|A non significant test (p-value ≥ 0.05) would indicate the component had a significant influence to the global EULAR-RAID score.||Comparison of change from baseline between EULAR-RAID score and Coping NRS value||||<0.001
82413663|NCT01164475|164537255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.395|TWO_SIDED|95.0|0.44|9.17|||Regression, Logistic|||The comparison was done using the logistic regression model, adjusted for country and baseline PB CD34+ cell count.||9.17|0.44|0.395
82413664|NCT03018938|164537306|NON_INFERIORITY|If Lower limit (L) \>-0.4%, the Non-inferiority (NI) of basal insulin analog QD to insulin analog mid mixture BID is established; If Upper limit (U) \<0.4%, the NI of insulin analog mid mixture BID to basal insulin analog QD is established|LS Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.0959||0.1009|TWO_SIDED|95.0|-0.346|0.031|||ANCOVA|||||0.031|-0.346|0.1009
82413665|NCT03018938|164537307|SUPERIORITY||LS Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.0891||0.0246|TWO_SIDED|95.0|-0.376|-0.026|||ANCOVA|||||-0.026|-0.376|0.0246
82413666|NCT03018938|164537308|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0941|TWO_SIDED|95.0|0.95|1.87|||Regression, Logistic|||||1.87|0.95|0.0941
82413667|NCT03018938|164537309|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8592|TWO_SIDED|95.0|0.72|1.49|||Regression, Logistic|||||1.49|0.72|0.8592
82413668|NCT03018938|164537310|SUPERIORITY||LS Mean Difference (Final Values)|0.423|STANDARD_ERROR_OF_MEAN|0.2152||0.0497|TWO_SIDED|95.0|0.0|0.846|||ANCOVA|||||0.846|0.000|0.0497
82532457|NCT05454449|164762328|OTHER|||||||0.082|||||||t-test, 2 sided|||||||0.082
82413669|NCT03018938|164537311|SUPERIORITY||LS Mean Difference (Final Values)|0.647|STANDARD_ERROR_OF_MEAN|0.1955||0.001|TWO_SIDED|95.0|0.263|1.031|||ANCOVA|||||1.031|0.263|0.0010
82413670|NCT03018938|164537312|SUPERIORITY||LS Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.2191||0.2193|TWO_SIDED|95.0|-0.161|0.7|||ANCOVA|||FBG||0.700|-0.161|0.2193
82413671|NCT03018938|164537312|SUPERIORITY||LS Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.3331||0.8014|TWO_SIDED|95.0|-0.739|0.571|||ANCOVA|||PPG||0.571|-0.739|0.8014
82413672|NCT03018938|164537313|SUPERIORITY||LS Mean Difference (Final Values)|0.491|STANDARD_ERROR_OF_MEAN|0.2033||0.016|TWO_SIDED|95.0|0.092|0.891|||ANCOVA|||FBG||0.891|0.092|0.0160
82413673|NCT03018938|164537313|SUPERIORITY||LS Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.3028||0.9661|TWO_SIDED|95.0|-0.608|0.582|||ANCOVA|||PPG||0.582|-0.608|0.9661
82413674|NCT03018938|164537315|SUPERIORITY||LS Mean Difference|0.667|STANDARD_ERROR_OF_MEAN|0.2776||0.0166|TWO_SIDED|95.0|0.122|1.211|||ANCOVA|||||1.211|0.122|0.0166
82413675|NCT03018938|164537316|SUPERIORITY||LS Mean Difference (Final Values)|0.754|STANDARD_ERROR_OF_MEAN|0.2864||0.0086|TWO_SIDED|95.0|0.192|1.316|||ANCOVA|||||1.316|0.192|0.0086
82413676|NCT03018938|164537319|SUPERIORITY||Odds Ratio (OR)|1.25||||0.2009|TWO_SIDED|95.0|0.89|1.77|||Regression, Logistic|||||1.77|0.89|0.2009
82532458|NCT05454449|164762329|OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
82413677|NCT03018938|164537320|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8054|TWO_SIDED|95.0|0.72|1.53|||Regression, Logistic|||||1.53|0.72|0.8054
82413678|NCT03018938|164537321|SUPERIORITY||LS Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.7553|TWO_SIDED|95.0|-0.8|0.5|||Mixed Models Analysis|||||0.5|-0.8|0.7553
82413679|NCT00191100|164537322|SUPERIORITY_OR_OTHER||PFS Probability Difference at 3 Years|0.095||||0.029||95.0|0.01|0.179||The p-value is two-sided and was tested at the 0.05 significance level.|Z Statistic||Difference in progression-free survival probability between Gem/Cis/Rad and Cis/Rad. The difference in PFS probability between the two treatment arms can also be presented as a percentage (ie, PFS at 3 years was 9.5% better in the Gem/Cis/Rad arm).|||0.179|0.010|0.029
82413680|NCT00191100|164537323|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Log Rank|||||||0.0008
82413681|NCT00191100|164537324|SUPERIORITY_OR_OTHER|||||||0.096||95.0||||The p-value is two-sided and was tested at the 0.05 significance level.|Fisher Exact|||"Note: There were 2 patients with unknown site of progressive disease; these patients were counted as a Local failure.~Note: There was 1 patient with both local and distant failure; this patient was counted as a Local failure."||||0.096
82413682|NCT00191100|164537325|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||The p-value is two-sided and was tested at the 0.05 significance level.|Fisher Exact|||||||0.250
82413683|NCT00191100|164537326|SUPERIORITY_OR_OTHER|||||||0.0224||95.0|||||Log Rank|||||||0.0224
82413684|NCT00191100|164537327|SUPERIORITY_OR_OTHER|||||||0.0227||95.0|||||Log Rank|||||||0.0227
82413685|NCT01769586|164537328|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.38|||<|0.001|TWO_SIDED|95.0|0.24|0.5|||Chi-squared|||||.50|.24|<0.001
82413686|NCT04253626|164537347|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||< 0.001
82413687|NCT04253626|164537351|OTHER|||||||0.88||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.88
82413688|NCT04253626|164537352|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|The a priori threshold for statistical significance was \< 0.05.||Between-group analysis of change at week 4||||0.27
82413689|NCT04253626|164537353|OTHER|||||||0.72||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.72
82413690|NCT04253626|164537354|OTHER|||||||0.009||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||Between-group analysis of change at week 4||||0.009
82413691|NCT02266576|164537365|OTHER|||||||0.04||||||The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.|Regression, Linear|||Baseline vs month 6||||0.04
82532459|NCT05454449|164762330|OTHER|||||||0.016|||||||t-test, 2 sided|||||||0.016
82532460|NCT05454449|164762331|OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
82532461|NCT05454449|164762332|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
82576454|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.6963||95.0||||P-value is for Week 32 HbA1c \<=6.5%|Chi-squared|||||||0.6963
82413692|NCT02266576|164537365|OTHER|||||||0.02|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 12||||0.02
82413693|NCT02266576|164537366|OTHER|||||||0.004|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 6 in physical component score||||0.004
82413694|NCT02266576|164537366|OTHER|||||||0.01|||||||Regression, Linear|The linear regression model was used, adjusted for within cohort correlation, within participant correlation, and gender.||Baseline vs month 12 in physical component score||||0.01
82576455|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.0643||95.0||||P-value is for Week 48 HbA1c \<=7.0%|Chi-squared|||||||0.0643
82413695|NCT02111980|164537414|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||t-test, 2 sided|||||||1.0
82413696|NCT01482221|164537424|SUPERIORITY_OR_OTHER||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|1.695||0.63|TWO_SIDED|95.0|-4.519|2.152||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.152|-4.519|0.630
82413697|NCT01482221|164537424|SUPERIORITY_OR_OTHER||LS mean difference|-1.21|STANDARD_ERROR_OF_MEAN|1.701||0.476|TWO_SIDED|95.0|-4.563|2.134||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.134|-4.563|0.476
82413698|NCT01482221|164537425|SUPERIORITY_OR_OTHER||LS mean difference|-2.05|STANDARD_ERROR_OF_MEAN|1.816||0.63|TWO_SIDED|95.0|-5.628|1.522||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.522|-5.628|0.630
82413699|NCT01482221|164537425|SUPERIORITY_OR_OTHER||LS mean difference|0.88|STANDARD_ERROR_OF_MEAN|1.83||0.63|TWO_SIDED|95.0|-2.72|4.485||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline MADRS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline MADRS score by visit interaction are fixed effects in the model; pooled center is a random effect.||4.485|-2.720|0.630
82447177|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|54.6||||||90.0|35.36|85.49||P-Values were not calculated.|||This analysis is for Serotype 6B.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||85.49|35.36|
82447178|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|99.48||||||90.0|79.81|142.0||P-Values were not calculated.|||This analysis is for Serotype 9V|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||142.0|79.81|
82532462|NCT01950273|164762349|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) mean ratio|89.53|||||TWO_SIDED|90.0|75.42|106.29|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||106.29|75.42|
82413700|NCT01482221|164537426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07|STANDARD_ERROR_OF_MEAN|0.366||0.852|TWO_SIDED|95.0|0.544|2.089||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Regression, Logistic|||Logistic regression model including treatment as a fixed effect and the baseline MADRS total score as a covariate.||2.089|0.544|0.852
82532463|NCT01950273|164762350|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|94.6||||||90.0|85.04|105.23|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||105.23|85.04|
82532464|NCT01950273|164762351|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|89.94|||||TWO_SIDED|90.0|77.62|104.23|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||104.23|77.62|
82532465|NCT01950273|164762352|NON_INFERIORITY_OR_EQUIVALENCE|Standard equivalence limit 80% to 125%.|Least Squares (LS) means ratio|97.65|||||TWO_SIDED|90.0|90.45|105.42|||||Ratio of the adjusted geometric means calculated as (LS mean ratio of BI 695500/Rituximab (MabThera®)).|||105.42|90.45|
82532466|NCT01950273|164762353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|249.2|||||TWO_SIDED|90.0|-210.6|709.0|||||Mean difference calculated as BI 695500-Rituximab (MabThera®).|||709|-210.6|
82532467|NCT01950273|164762355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|||||TWO_SIDED|95.0|-29.4|11.1|||||Difference in ORR calculated as ORR (BI695500) - ORR (MabThera®). The confidence interval represented is 95% difference in proportions.|||11.1|-29.4|
82532468|NCT01950273|164762356|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-18.0|22.1|||||Difference in TEAE incidence calculated as BI695500 - TEAE incidence (MabThera®). The confidence interval represented is 95% difference in proportions.|||22.1|-18.0|
82532469|NCT01154036|164762387|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-12.7|||<|0.001|TWO_SIDED|95.0|-16.6|-8.7||The primary hypotheses were tested at 0.045, applying Hochberg's procedure.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-8.7|-16.6|<0.001
82532470|NCT01154036|164762387|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimate|-9.1|||<|0.001|TWO_SIDED|95.0|-12.9|-5.4||The primary hypotheses were tested at 0.045, applying Hochberg's procedure.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.4|-12.9|<0.001
82413701|NCT01482221|164537426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.37||0.821|TWO_SIDED|95.0|0.552|2.115||The adjusted p-values protect the overall family-wise error rate across the 6 key comparisons of AZD6765 100 mg and 50 mg to placebo (for MADRS change from baseline to 6 weeks and to 12 weeks and for Sustained Response).|Regression, Logistic|||Logistic regression model including treatment as a fixed effect and the baseline MADRS total score as a covariate.||2.115|0.552|0.821
82413702|NCT01482221|164537427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.318||0.751|TWO_SIDED|95.0|0.485|1.686|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.686|0.485|0.751
82413703|NCT01482221|164537427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.315||0.555|TWO_SIDED|95.0|0.65|2.233|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.233|0.650|0.555
82413704|NCT01482221|164537428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27|STANDARD_ERROR_OF_MEAN|0.304||0.434|TWO_SIDED|95.0|0.699|2.301|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.301|0.699|0.434
82413705|NCT01482221|164537428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.322||0.286|TWO_SIDED|95.0|0.377|1.334|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.334|0.377|0.286
82413706|NCT01482221|164537429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|STANDARD_ERROR_OF_MEAN|0.382||0.357|TWO_SIDED|95.0|0.672|3.007|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||3.007|0.672|0.357
82413707|NCT01482221|164537429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|STANDARD_ERROR_OF_MEAN|0.387||0.463|TWO_SIDED|95.0|0.622|2.84|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.840|0.622|0.463
82413708|NCT01482221|164537430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.342||0.911|TWO_SIDED|95.0|0.532|2.031|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||2.031|0.532|0.911
82413709|NCT01482221|164537430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|STANDARD_ERROR_OF_MEAN|0.368||0.509|TWO_SIDED|95.0|0.382|1.613|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline MADRS total score as a covariate.||1.613|0.382|0.509
82413710|NCT01482221|164537431|SUPERIORITY_OR_OTHER||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|1.238||0.889|TWO_SIDED|95.0|-2.609|2.264||Analysis for change in SDS total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.264|-2.609|0.889
82413711|NCT01482221|164537431|SUPERIORITY_OR_OTHER||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.264||0.992|TWO_SIDED|95.0|-2.477|2.501||Analysis for change in SDS total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||2.501|-2.477|0.992
82413712|NCT01482221|164537431|SUPERIORITY_OR_OTHER||LS mean difference|1.11|STANDARD_ERROR_OF_MEAN|1.301||0.392|TWO_SIDED|95.0|-1.448|3.678||Analysis for change in SDS total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.678|-1.448|0.392
82413713|NCT01482221|164537431|SUPERIORITY_OR_OTHER||LS mean difference|1.29|STANDARD_ERROR_OF_MEAN|1.329||0.333|TWO_SIDED|95.0|-1.327|3.908||Analysis for changed in SDS total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline SDS score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline SDS score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.908|-1.327|0.333
82413714|NCT01482221|164537432|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.728|TWO_SIDED|95.0|-0.49|0.34||Analysis for change in CGI-S total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.34|-0.49|0.728
82532471|NCT01154036|164762388|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.5|||<|0.001|TWO_SIDED|95.0|-15.9|-5.1||The secondary hypotheses were tested at an adaptive alpha level depending on the hypotheses testing result of the primary hypotheses.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.1|-15.9|<0.001
82576456|NCT00664534|164862568|SUPERIORITY_OR_OTHER|||||||0.2524||95.0||||P-value is for Week 48 HbA1c \<=6.5%|Chi-squared|||||||0.2524
82576457|NCT00664534|164862570|SUPERIORITY_OR_OTHER|||||||0.6615||95.0||||P-value for Baseline|Wilcoxon (Mann-Whitney)|||||||0.6615
82413715|NCT01482221|164537432|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.562|TWO_SIDED|95.0|-0.54|0.29||Analysis for change in CGI-S total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.29|-0.54|0.562
82413716|NCT01482221|164537432|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.283|TWO_SIDED|95.0|-0.64|0.19||Analysis for change in CGI-S total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.19|-0.64|0.283
82413717|NCT01482221|164537432|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.54|TWO_SIDED|95.0|-0.29|0.55||Analysis for changed in CGI-S total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline CGI-S score by visit interaction are fixed effects in the model; pooled center is a random effect.||0.55|-0.29|0.540
82413718|NCT01482221|164537433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74|STANDARD_ERROR_OF_MEAN|0.302||0.067|TWO_SIDED|95.0|0.962|3.141|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||3.141|0.962|0.067
82413719|NCT01482221|164537433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|STANDARD_ERROR_OF_MEAN|0.297||0.23|TWO_SIDED|95.0|0.798|2.558|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||2.558|0.798|0.230
82413720|NCT01482221|164537434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38|STANDARD_ERROR_OF_MEAN|0.292||0.268|TWO_SIDED|95.0|0.78|2.447|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||2.447|0.780|0.268
82413721|NCT01482221|164537434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.303||0.909|TWO_SIDED|95.0|0.533|1.75|||GEE for repeated measures|||Generalized linear model of the repeated measures (GEE) with logic link including treatment, visit, and treatment by visit interaction as fixed effects and the baseline CGI-S total score as a covariate.||1.750|0.533|0.909
82413722|NCT01482221|164537435|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.505|TWO_SIDED|95.0|-2.29|1.13||Analysis for change in QIDS-SR-16 total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.13|-2.29|0.505
82413723|NCT01482221|164537435|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.88||0.842|TWO_SIDED|95.0|-1.56|1.91||Analysis for change in QIDS-SR-16 total score from baseline to Week 6|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.91|-1.56|0.842
82413724|NCT01482221|164537435|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.89||0.788|TWO_SIDED|95.0|-1.98|1.51||Analysis for change in QIDS-SR-16 total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||1.51|-1.98|0.788
82413725|NCT01482221|164537435|SUPERIORITY_OR_OTHER||LS mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.9||0.133|TWO_SIDED|95.0|-0.42|3.12||Analysis for changed in QIDS-SR-16 total score from baseline to Week 12|Mixed models for repeated measures|||MMRM includes treatment, pooled center, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction as explanatory variables. Treatment, visit, treatment by visit interaction, and baseline QIDS-SR-16 total score by visit interaction are fixed effects in the model; pooled center is a random effect.||3.12|-0.42|0.133
82413726|NCT03086343|164537436|NON_INFERIORITY|The non-inferiority of upadacitinib 15 mg versus abatacept was tested using the 95% confidence interval (CI) of treatment difference against a non-inferiority margin of 0.6.|LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.35||The ANCOVA model included treatment as the fixed factor; corresponding baseline value and the stratification factor of prior bDMARD used as covariates.|ANCOVA||Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||-0.35|-0.69|< 0.001
82426503|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.04|||<|0.0001|TWO_SIDED|95.0|3.2|8.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56 Remission||8.0|3.2|<0.0001
82576458|NCT00664534|164862570|SUPERIORITY_OR_OTHER|||||||0.9798||95.0||||P-value is for Week 16|Wilcoxon (Mann-Whitney)|||||||0.9798
82576459|NCT00664534|164862570|SUPERIORITY_OR_OTHER|||||||0.6169||95.0||||P-value for Week 32|Wilcoxon (Mann-Whitney)|||||||0.6169
82576460|NCT00664534|164862570|SUPERIORITY_OR_OTHER|||||||0.7834||95.0||||P-value for Week 48|Wilcoxon (Mann-Whitney)|||||||0.7834
82576461|NCT00664534|164862572|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-0.89|0.7|||||Least Squares Mean Difference = Premix Insulin Lispro minus Glargine.|||0.70|-0.89|
82413727|NCT03086343|164537437|SUPERIORITY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.35||This comparison was a ranked secondary endpoint in the pre-specified multiplicity testing sequence.|ANCOVA|The ANCOVA model included treatment as the fixed factor; corresponding baseline value and the stratification factor of prior bDMARD used as covariates|Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||-0.35|-0.69|< 0.001
82532472|NCT01154036|164762388|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.5|||<|0.001|TWO_SIDED|95.0|-13.6|-5.5||The secondary hypotheses were tested at an adaptive alpha level depending on the hypotheses testing result of the primary hypotheses.|Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-5.5|-13.6|<0.001
82413728|NCT03086343|164537438|SUPERIORITY||Mean Difference|16.8|||<|0.001|TWO_SIDED|95.0|10.4|23.2||This comparison was a ranked secondary endpoint in the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|The stratification factor of prior failed bDMARD was used.|Treatment Difference = Upadacitinib 15 mg - Abatacept|In order to preserve Type I error, a step-down approach was used to test the primary and ranked secondary endpoints in a pre-specified order where statistical significance at the 0.05 level could be claimed for a lower ranked endpoint only if the previous endpoint in the sequence met the requirements of significance.||23.2|10.4|< 0.001
82413729|NCT04837521|164537468|SUPERIORITY||γ01|0.25||||0.03|TWO_SIDED||||||t-test, 2 sided||analysis completed using the 1 week follow up data|||||.03
82413730|NCT04837521|164537469|OTHER|The conditions were expected to be similar, and the primary interest of the analysis was changes over time across both groups.|Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|2.32|4.49||To estimate the mean improvement in PSFS across the entire sample, we calculated a posterior predictive distribution of within-person change scores between time fixed equal to 0 and equal to -1.|Bayesian framework|||PSFS scores were analyzed using mixed-effects linear growth models with time, treatment condition, and their interaction as predictors. Random effects modeled variation in intercepts, slopes over time, and their covariance. Time was specified as a continuous variable, centered on the final observation date. The SG group served as the reference level for the treatment factor. Models were estimated in a Bayesian framework using default priors in the brms package.||4.49|2.32|
82413731|NCT00221104|164537481|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.8234|TWO_SIDED|95.0|0.73|1.29|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||1.29|0.73|0.8234
82413732|NCT00221104|164537482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.0047|TWO_SIDED|95.0|0.15|0.74|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||0.74|0.15|0.0047
82413733|NCT00221104|164537483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.3075|TWO_SIDED|95.0|0.81|1.91|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||1.91|0.81|0.3075
82426504|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.7|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||6.6|2.7|<0.0001
82426505|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5229|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||1.8|0.7|0.5229
82426506|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84|||<|0.0001|TWO_SIDED|95.0|2.5|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64 Remission||6.0|2.5|<0.0001
82426507|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|3.3|8.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||8.6|3.3|<0.0001
82532473|NCT01154036|164762389|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.51|||<|0.001|TWO_SIDED|95.0|1.62|3.89|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||3.89|1.62|<0.001
82532474|NCT01154036|164762389|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||0.007|TWO_SIDED|95.0|1.17|2.67|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||2.67|1.17|0.007
82576462|NCT00664534|164862573|SUPERIORITY_OR_OTHER|||||||0.4935||95.0|||||Fisher Exact|||||||0.4935
82576463|NCT03041792|164862576|SUPERIORITY||Least Square Mean Difference|-235.75|STANDARD_ERROR_OF_MEAN|43.13||0|TWO_SIDED|95.0|-322.25|-149.25||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 4||-149.25|-322.25|0.0000
82413734|NCT00221104|164537484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36||||0.1986|TWO_SIDED|95.0|0.61|9.14|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||9.14|0.61|0.1986
82413735|NCT00221104|164537485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9953|TWO_SIDED|95.0|0.45|2.22|||Stratified log-rank test|log-rank test adjusted for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|The adjusted hazard ratio (HR) and the 95% confidence interval (CI) were calculated by the Cox proportional hazard model with for the stratification factors at randomization: stroke subtype, high blood pressure, and diabetes mellitus|the stratification factors at randomization: stroke subtype (atherothrombotic infarction vs. others), high blood pressure (≥150/90 mmHg vs. not), and diabetes mellitus (absence vs. presence)||2.22|0.45|0.9953
82413736|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-11.57||||0.215|TWO_SIDED|90.0|-29.52|10.96|||Mixed Models Analysis|||Aβ 1-40||10.96|-29.52|0.215
82413737|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-60.53|||<|0.001|TWO_SIDED|90.0|-69.79|-48.43|||Mixed Models Analysis|||Aβ 1-40||-48.43|-69.79|<0.001
82413738|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-87.07|||<|0.001|TWO_SIDED|90.0|-90.21|-82.92|||Mixed Models Analysis|||Aβ 1-40||-82.92|-90.21|<0.001
82413739|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-19.6||||0.015|TWO_SIDED|90.0|-33.69|-2.51|||Mixed Models Analysis|||Aβ 1-42||-2.51|-33.69|0.015
82413740|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-65.41|||<|0.001|TWO_SIDED|90.0|-72.23|-56.92|||Mixed Models Analysis|||Aβ 1-42||-56.92|-72.23|<0.001
82413741|NCT02989389|164537492|SUPERIORITY||Mean Difference (Final Values)|-84.56|||<|0.001|TWO_SIDED|90.0|-88.97|-78.38|||Mixed Models Analysis|||Aβ 1-42||-78.38|-88.97|<0.001
82413742|NCT01018979|164537495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|t-test, 2 sided|||Analyze whether the mean fold increase from the baseline to the peak time change was significant or not.||||0.023
82413743|NCT01018979|164537495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|TWO_SIDED|||||P values less than 0.05 are considered statistically significant in this study.|t-test, 2 sided|||Analyze whether the mean fold increase from the baseline to the peak time change was significant or not.||||0.038
82532475|NCT01154036|164762390|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|1.55|4.73|||Logistic regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||4.73|1.55|<0.001
82532476|NCT01154036|164762390|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.38|||<|0.001|TWO_SIDED|95.0|1.56|3.63|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||3.63|1.56|<0.001
82532477|NCT01154036|164762391|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|9.46|||<|0.001|TWO_SIDED|95.0|4.56|19.62|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||19.62|4.56|<0.001
82413744|NCT03976375|164537517|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4342|TWO_SIDED|95.0|0.78|1.23||Stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50)|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status|||1.23|0.78|0.4342
82413745|NCT03976375|164537518|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.1563|TWO_SIDED|95.0|0.7|1.12||Stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50)|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.12|0.70|0.1563
82413746|NCT03976375|164537519|SUPERIORITY||Difference in Percentage vs Docetaxel|8.4||||0.01818|TWO_SIDED|95.0|0.5|16.3||One-sided p-value for testing. H0: difference in % =0 versus H1: difference in % \> 0.|Miettinen and Nurminen method||Based on Miettinen \& Nurminen method stratified by Baseline ECOG performance status (0 versus 1), anti-PD-1/PD-L1 mAb (immediate prior therapy versus not the immediate prior therapy), and Baseline PD-L1 Status (\<50% versus \>=50%)|||16.3|0.5|0.01818
82413747|NCT03976375|164537520|SUPERIORITY||Difference in Percentage vs Lenvatinib|10.2||||0.06009|TWO_SIDED|95.0|-3.1|19.9||One-sided p-value for testing. H0: difference in % =0 versus H1: difference in % \> 0.|Miettinen & Nurminen method|||||19.9|-3.1|0.06009
82413748|NCT03976375|164537524|OTHER||Difference in least squares means|-1.36||||0.4998|TWO_SIDED|95.0|-5.32|2.6|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||2.60|-5.32|0.4998
82413749|NCT03976375|164537525|OTHER||Difference in Least Squares Mean|-3.86||||0.1531|TWO_SIDED|95.0|-9.16|1.44|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||1.44|-9.16|0.1531
82532478|NCT01154036|164762391|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.23|6.82|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||6.82|2.23|<0.001
82532479|NCT01154036|164762392|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|27.77||||0.001|TWO_SIDED|95.0|3.64|211.83|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||211.83|3.64|0.001
82532480|NCT01154036|164762392|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|7.08|||<|0.001|TWO_SIDED|95.0|2.85|17.56|||Logistic Regression Model|Logistic regression model included terms for treatment and baseline LDL-C (where baseline LDL-C was fitted as 3 categories based on tertiles)||||17.56|2.85|<0.001
82532481|NCT01154036|164762393|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.1|||<|0.001|TWO_SIDED|95.0|-9.7|-4.4|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.4|-9.7|<0.001
82532482|NCT01154036|164762393|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.8|||<|0.001|TWO_SIDED|95.0|-8.3|-3.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.3|-8.3|<0.001
82532483|NCT01154036|164762394|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.8|||<|0.001|TWO_SIDED|95.0|-10.7|-3.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.0|-10.7|<0.001
82413750|NCT03976375|164537526|OTHER||Difference in Least Squares Means|2.48||||0.3084|TWO_SIDED|95.0|-2.31|7.27|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, timing of anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||7.27|-2.31|0.3084
82413751|NCT03976375|164537527|OTHER||Difference in Least Squares Means|-8.04||||0.0058|TWO_SIDED|95.0|-13.73|-2.35|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||-2.35|-13.73|0.0058
82413752|NCT03976375|164537528|OTHER||Difference in Least Squares Means|2.89||||0.1681|TWO_SIDED|95.0|-1.23|7.01|||t-test, 2 sided||Based on cLDA model with covariates for treatment by time interaction, stratification factors of baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and baseline PD-L1 Status|||7.01|-1.23|0.1681
82413753|NCT03976375|164537529|OTHER||Hazard Ratio (HR)|0.91||||0.6145|TWO_SIDED|95.0|0.63|1.31||stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.31|0.63|0.6145
82413754|NCT03976375|164537530|OTHER||Hazard Ratio (HR)|0.61||||0.0398|TWO_SIDED|95.0|0.38|0.98|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||0.98|0.38|0.0398
82413755|NCT03976375|164537531|OTHER||Hazard Ratio (HR)|1.05||||0.8724|TWO_SIDED|95.0|0.59|1.85|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status|||1.85|0.59|0.8724
82413756|NCT03976375|164537532|OTHER||Hazard Ratio (HR)|0.75||||0.1944|TWO_SIDED|95.0|0.49|1.16||Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Log Rank||Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.16|0.49|0.1944
82413757|NCT03976375|164537533|OTHER||Hazard Ratio (HR)|1.0||||0.9837|TWO_SIDED|95.0|0.71|1.41|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.41|0.71|0.9837
82413758|NCT03976375|164537534|OTHER||Hazard Ratio (HR)|0.84||||0.2903|TWO_SIDED|95.0|0.6|1.16|||Log Rank|Stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|Based on stratified Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by Baseline ECOG performance status, anti-PD-1/PD-L1 mAb therapy, and Baseline PD-L1 Status.|||1.16|0.60|0.2903
82413759|NCT01913353|164537571|NON_INFERIORITY|The non-inferiority margin to show that Group 1 (after 2 doses of MVA-BN) is non-inferior to Group 2 (after 1 dose of ACAM2000) in terms of PRNT GMTs at the respective peak visit (Week 6 in Group 1 / Week 4 in Group 2) was predefined as '1/2 (i.e. 0.5)' for the GMT ratio (Group 1 / Group 2).|GMT Ratio (Group 1 / Group 2)|1.935|||||TWO_SIDED|95.0|1.562|2.397||||||||2.397|1.562|
82413760|NCT01913353|164537572|SUPERIORITY|Predefined threshold of clinical relevance for the area attenuation ratio (AAR): 40%|Area attenuation ratio (AAR)|97.9|||||TWO_SIDED|95.0|96.6|98.3|||||The AAR, i.e. the reduction in MLA \[1 - MLA ratio (Group 1/Group 2)\] after scarification was to be significantly above 40%. The MLA ratio and the corresponding 95% CI were based on the Hodges-Lehmann estimate of the shift for log-transformed MLAs.|||98.3|96.6|
82413761|NCT03043573|164537624|SUPERIORITY||Mean Difference (Final Values)|-0.7011||||0.9644|TWO_SIDED|95.0|-31.8605|30.4583|||t-test, 2 sided|||Baseline||30.4583|-31.8605|0.9644
82413762|NCT03043573|164537624|SUPERIORITY||Mean Difference (Final Values)|2.4595||||0.888|TWO_SIDED|95.0|-32.3472|37.2661|||t-test, 2 sided|||Week 12||37.2661|-32.3472|0.8880
82413763|NCT03043573|164537624|SUPERIORITY||Mean Difference (Final Values)|-0.5119||||0.9773|TWO_SIDED|95.0|-36.5024|35.4785|||t-test, 2 sided|||Week 24||35.4785|-36.5024|0.9773
82413764|NCT03043573|164537624|SUPERIORITY||Mean Difference (Final Values)|15.6667||||0.6173|TWO_SIDED|95.0|-47.0598|78.3931|||t-test, 1 sided|||Week 52||78.3931|-47.0598|0.6173
82413765|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|1.1302||||0.5454|TWO_SIDED|95.0|-2.5767|4.8371|||t-test, 2 sided|||Baseline||4.8371|-2.5767|0.5454
82413766|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|2.9618||||0.1212|TWO_SIDED|95.0|-0.8038|6.7275|||t-test, 2 sided|||Week 6||6.7275|-0.8038|0.1212
82532484|NCT01154036|164762394|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.4|||<|0.001|TWO_SIDED|95.0|-10.2|-4.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.5|-10.2|<0.001
82413767|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|1.095||||0.571|TWO_SIDED|95.0|-2.7476|4.9377|||t-test, 2 sided|||Week 12||4.9377|-2.7476|0.5710
82413768|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|-1.5524||||0.4377|TWO_SIDED|95.0|-5.5256|2.4209|||t-test, 2 sided|||Week 24||2.4209|-5.5256|0.4377
82532485|NCT01154036|164762395|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-2.1||||0.466|TWO_SIDED|95.0|-7.8|3.5|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||3.5|-7.8|0.466
82532486|NCT01154036|164762395|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-4.9||||0.081|TWO_SIDED|95.0|-10.3|0.5|||Constrained Longitudinal Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||0.5|-10.3|0.081
82413769|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|0.8937||||0.6813|TWO_SIDED|95.0|-3.4439|5.2312|||t-test, 2 sided|||Week 36||5.2312|-3.4439|0.6813
82413770|NCT03043573|164537625|SUPERIORITY||Mean Difference (Final Values)|2.9457||||0.162|TWO_SIDED|95.0|-1.2234|7.1148|||t-test, 2 sided|||||7.1148|-1.2234|0.1620
82413771|NCT03043573|164537626|SUPERIORITY||Mean Difference (Final Values)|0.0319||||0.9813|TWO_SIDED|95.0|-2.6668|2.7305|||t-test, 2 sided|||Baseline||2.7305|-2.6668|0.9813
82413772|NCT03043573|164537626|SUPERIORITY||Mean Difference (Final Values)|-0.0564||||0.9735|TWO_SIDED|95.0|-3.4397|3.3268|||t-test, 2 sided|||Week 6||3.3268|-3.4397|0.9735
82413773|NCT03043573|164537626|SUPERIORITY|Week 12|Mean Difference (Final Values)|1.0611||||0.5164|TWO_SIDED|95.0|-2.1885|4.3107|||t-test, 2 sided|||||4.3107|-2.1885|0.5164
82413774|NCT03043573|164537626|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.197|TWO_SIDED|95.0|-5.0651|1.0651|||t-test, 2 sided|||Week 24||1.0651|-5.0651|0.1970
82413775|NCT03043573|164537626|SUPERIORITY||Mean Difference (Net)|0.362||||0.8342|TWO_SIDED|95.0|-3.0907|3.8146|||t-test, 2 sided|||Week 36||3.8146|-3.0907|0.8342
82413776|NCT03043573|164537626|SUPERIORITY||Mean Difference (Final Values)|1.2667||||0.4717|TWO_SIDED|95.0|-2.2424|4.7758|||t-test, 2 sided|||Week 52||4.7758|-2.2424|0.4717
82413777|NCT03043573|164537627|SUPERIORITY||Mean Difference (Final Values)|-2.9318||||0.513|TWO_SIDED|95.0|-11.8176|5.9539|||t-test, 2 sided|||Baseline||5.9539|-11.8176|0.5130
82413778|NCT03043573|164537627|SUPERIORITY||Mean Difference (Final Values)|0.4835||||0.4835|TWO_SIDED|95.0|-15.2306|7.2967|||t-test, 2 sided|||Week 12||7.2967|-15.2306|0.4835
82413779|NCT03043573|164537627|SUPERIORITY||Mean Difference (Final Values)|-5.156||||0.359|TWO_SIDED|95.0|-16.3357|6.0238|||t-test, 2 sided|||Week 24||6.0238|-16.3357|0.3590
82413780|NCT03043573|164537627|SUPERIORITY||Mean Difference (Final Values)|1.1083||||0.876|TWO_SIDED|95.0|-13.1598|15.3765|||t-test, 2 sided|||Week 52||15.3765|-13.1598|0.8760
82413781|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|-0.0606||||0.3248|TWO_SIDED|95.0|-0.1841|0.0628|||t-test, 2 sided|||Trails A Baseline||0.0628|-0.1841|0.3248
82413782|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|-0.6953||||0.3615|TWO_SIDED|95.0|-2.2261|0.8354|||t-test, 2 sided|||Trails A - Week 12||0.8354|-2.2261|0.3615
82413783|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|0.9917||||0.5046|TWO_SIDED|95.0|-1.9664|3.9498|||t-test, 2 sided|||Trails B - Baseline||3.9498|-1.9664|0.5046
82413784|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|-2.0607||||0.0679|TWO_SIDED|95.0|-4.2821|0.1607|||t-test, 2 sided|||Trails B - Week 12||0.1607|-4.2821|0.0679
82576464|NCT03041792|164862576|SUPERIORITY||Least Square Mean Difference|-243.63|STANDARD_ERROR_OF_MEAN|47.6||0|TWO_SIDED|95.0|-339.1|-148.15||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 5||-148.15|-339.10|0.0000
82532487|NCT01154036|164762396|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-2.8||||0.466|TWO_SIDED|95.0|-10.2|4.7|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||4.7|-10.2|0.466
82576465|NCT03041792|164862581|SUPERIORITY||Least Square Mean Difference|-859.58|STANDARD_ERROR_OF_MEAN|167.76||0|TWO_SIDED|95.0|-1196.1|-523.1||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 4||-523.10|-1196.1|0.0000
82413785|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|-0.8929||||0.1669|TWO_SIDED|95.0|-2.1825|0.3968|||t-test, 2 sided|||Trails B - Week 24||0.3968|-2.1825|0.1669
82413786|NCT03043573|164537628|SUPERIORITY||Mean Difference (Final Values)|-1.4286||||0.2178|TWO_SIDED|95.0|-3.8115|0.9543|||t-test, 2 sided|||Trails B - Week 52||0.9543|-3.8115|0.2178
82413787|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|1.558||||0.2932|TWO_SIDED|95.0|-1.3747|4.4908|||t-test, 2 sided|||Baseline||4.4908|-1.3747|0.2932
82413788|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|1.7043||||0.2871|TWO_SIDED|95.0|-1.4659|4.8744|||t-test, 2 sided|||Week 6||4.8744|-1.4659|0.2871
82413789|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|0.9167||||0.591|TWO_SIDED|95.0|-2.4737|4.307|||t-test, 2 sided|||Week 12||4.3070|-2.4737|0.5910
82413790|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|-1.0238||||0.6128|TWO_SIDED|95.0|-5.0469|2.9993|||t-test, 2 sided|||||2.9993|-5.0469|0.6128
82413791|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|1.9276||||0.3326|TWO_SIDED|95.0|-2.0231|5.8783|||t-test, 2 sided|||Week 36||5.8783|-2.0231|0.3326
82413792|NCT03043573|164537629|SUPERIORITY||Mean Difference (Final Values)|2.0741||||0.2935|TWO_SIDED|95.0|-1.8522|6.0004|||t-test, 2 sided|||Week 52||6.0004|-1.8522|0.2935
82413793|NCT02734667|164537648|SUPERIORITY||t statistic from GLM/regression|-0.47||||0.64|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.64
82413794|NCT02734667|164537649|SUPERIORITY||t-statistic from GLM/regression results|-2.6||||0.013|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.013
82413795|NCT02734667|164537650|SUPERIORITY||t-statistic from GLM/regression results|3.12||||0.003|TWO_SIDED|||||Generalized linear models were used to compare outcomes between the CGM and control groups at 6 months while adjusting for participant gender, age, annual household income, days since diagnosis, and baseline A1c.|Regression, Linear|||||||0.003
82413796|NCT05177094|164537664|SUPERIORITY||Posterior Mean Difference|-0.15|||||TWO_SIDED|95.0|-0.7|0.4|||||Posterior mean difference with 95% credible interval is reported.|||0.40|-0.70|
82413797|NCT05177094|164537665|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.66|0.64|||||Posterior mean difference with 95% credible interval is reported.|||0.64|-0.66|
82532488|NCT01154036|164762396|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squarres Means|-7.1||||0.011|TWO_SIDED|95.0|-12.6|-1.6|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||-1.6|-12.6|0.011
82532489|NCT01154036|164762397|SUPERIORITY_OR_OTHER_LEGACY||Difference in M--estimates|1.7||||0.133|TWO_SIDED|95.0|-0.5|4.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||4.0|-0.5|0.133
82532490|NCT01154036|164762397|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.6||||0.61|TWO_SIDED|95.0|-2.7|1.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.6|-2.7|0.610
82413798|NCT05177094|164537666|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.72|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.72|
82413799|NCT05177094|164537667|SUPERIORITY||Posterior Mean Difference|-0.26|||||TWO_SIDED|95.0|-0.98|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.98|
82413800|NCT05177094|164537668|SUPERIORITY||Posterior Mean Difference|-0.22|||||TWO_SIDED|95.0|-0.61|0.18|||||Posterior mean difference with 95% credible interval is reported.|||0.18|-0.61|
82413801|NCT05177094|164537669|SUPERIORITY||Posterior Mean Difference|-0.17|||||TWO_SIDED|95.0|-0.58|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.58|
82413802|NCT05177094|164537670|SUPERIORITY||Posterior Mean Difference|-0.12|||||TWO_SIDED|95.0|-0.68|0.45|||||Posterior mean difference with 95% credible interval is reported.|||0.45|-0.68|
82413803|NCT05177094|164537671|SUPERIORITY||Posterior Mean Difference|0.06|||||TWO_SIDED|95.0|-0.65|0.77|||||Posterior mean difference with 95% credible interval is reported.|||0.77|-0.65|
82413804|NCT05177094|164537672|SUPERIORITY||Posterior Mean Difference|-3.09|||||TWO_SIDED|95.0|-10.43|4.28|||||Posterior mean difference with 95% credible interval is reported.|||4.28|-10.43|
82413805|NCT05177094|164537673|SUPERIORITY||Posterior Mean Difference|-1.5|||||TWO_SIDED|95.0|-10.04|7.0|||||Posterior mean difference with 95% credible interval is reported.|||7.00|-10.04|
82413806|NCT05177094|164537674|SUPERIORITY||Posterior Mean Difference|0.12|||||TWO_SIDED|95.0|-0.32|0.54|||||Posterior mean difference with 95% credible interval is reported.|||0.54|-0.32|
82413807|NCT05177094|164537675|SUPERIORITY||Posterior Mean Difference|0.2|||||TWO_SIDED|95.0|-0.24|0.65|||||Posterior mean difference with 95% credible interval is reported.|||0.65|-0.24|
82413808|NCT05177094|164537676|SUPERIORITY||Posterior Mean Difference|44.36|||||TWO_SIDED|95.0|-114.73|204.0|||||Posterior mean difference with 95% credible interval is reported.|||204.00|-114.73|
82413809|NCT05177094|164537677|SUPERIORITY||Posterior Mean Difference|-98.76|||||TWO_SIDED|95.0|-231.86|34.49|||||Posterior mean difference with 95% credible interval is reported.|||34.49|-231.86|
82413810|NCT05177094|164537678|SUPERIORITY||Posterior Mean Difference|0.01|||||TWO_SIDED|95.0|-0.05|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.05|
82532491|NCT01154036|164762398|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-1.0||||0.52|TWO_SIDED|95.0|-4.2|2.1|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||2.1|-4.2|0.520
82532492|NCT01154036|164762398|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.7||||0.567|TWO_SIDED|95.0|-3.1|1.7|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.7|-3.1|0.567
82413811|NCT05177094|164537679|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.09|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.09|
82413812|NCT01033942|164537683|SUPERIORITY_OR_OTHER|||||||0.6983||||||The p-value is for the difference in treatment (TX) groups overall. The interaction between TX group and study time that tests whether the TX groups differed over time could not be tested due to small no. of subjects that missed visits during study.|Chi-squared|||||||0.6983
82413813|NCT01033942|164537684|SUPERIORITY_OR_OTHER|||||||0.8722|TWO_SIDED||||||Fisher Exact|||||||0.8722
82413814|NCT01033942|164537685|SUPERIORITY_OR_OTHER|||||||0.6921||||||Not all subjects answered every question.|Fisher Exact|||||||0.6921
82413815|NCT01033942|164537686|SUPERIORITY_OR_OTHER|||||||0.4655||||||Not all participants answered every question|Fisher Exact|||||||0.4655
82413816|NCT01033942|164537687|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED|||||Not all participants answered every question|Fisher Exact|||||||0.9999
82413817|NCT01033942|164537688|SUPERIORITY_OR_OTHER|||||||0.2297|TWO_SIDED|||||Not all participants answered every question|Fisher Exact|||||||0.2297
82413818|NCT01033942|164537689|SUPERIORITY_OR_OTHER|||||||0.1886||||||Not all participants answered every question|Fisher Exact|||||||0.1886
82413819|NCT01033942|164537690|SUPERIORITY_OR_OTHER|||||||0.1908|||||||Fisher Exact|||||||0.1908
82413820|NCT01033942|164537691|SUPERIORITY_OR_OTHER|||||||0.224||||||Not all participants answered every question|Fisher Exact|||||||0.2240
82413821|NCT01033942|164537692|SUPERIORITY_OR_OTHER|||||||0.1538||||||Not all participants answered every question|Fisher Exact|||||||0.1538
82413822|NCT01033942|164537693|SUPERIORITY_OR_OTHER|||||||0.2151||||||Not all participants answered every question|Fisher Exact|||||||0.2151
82413823|NCT01033942|164537694|SUPERIORITY_OR_OTHER|||||||0.2809||||||Not all participants answered every question|Fisher Exact|||||||0.2809
82413824|NCT01033942|164537695|SUPERIORITY_OR_OTHER|||||||0.185||||||Not all participants answered every question|Fisher Exact|||||||0.1850
82413825|NCT01033942|164537696|SUPERIORITY_OR_OTHER|||||||0.2366||||||Not all participants answered every question|Fisher Exact|||||||0.2366
82413826|NCT01033942|164537697|SUPERIORITY_OR_OTHER|||||||0.4089||||||Not all subjects answered every question.|Fisher Exact|||||||0.4089
82413827|NCT01033942|164537698|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413828|NCT01033942|164537699|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413829|NCT01033942|164537700|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413830|NCT01033942|164537701|SUPERIORITY_OR_OTHER|||||||0.7007|||||||Fisher Exact|||||||0.7007
82413831|NCT01033942|164537702|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413832|NCT01033942|164537703|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82532493|NCT01154036|164762399|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.3||||0.003|TWO_SIDED|95.0|-8.8|-1.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.8|-8.8|0.003
82532494|NCT01154036|164762399|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.3||||0.011|TWO_SIDED|95.0|-7.7|-1.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.0|-7.7|0.011
82532495|NCT01154036|164762400|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.3||||0.079|TWO_SIDED|95.0|-9.2|0.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||0.5|-9.2|0.079
82532496|NCT01154036|164762400|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.7|||<|0.001|TWO_SIDED|95.0|-11.4|-4.1|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.1|-11.4|<0.001
82576466|NCT03041792|164862581|SUPERIORITY||Least Square Mean Difference|-928.56|STANDARD_ERROR_OF_MEAN|193.8||0|TWO_SIDED|95.0|-1317.3|-539.86||The p-value was calculated and was rounded to 4th decimal presenting as 0.0000, which was smaller than the required threshold of \<0.05.|Mixed Models Analysis|||Visit 5||-539.86|-1317.3|0.0000
82576467|NCT03041792|164862582|SUPERIORITY||Least Square Mean Difference|4.95|STANDARD_ERROR_OF_MEAN|2.16||0.0263|TWO_SIDED|95.0|0.61|9.29|||Mixed Models Analysis|||Visit 4||9.29|0.61|0.0263
82413833|NCT01033942|164537704|SUPERIORITY_OR_OTHER|||||||0.8934|||||||Chi-squared|||||||0.8934
82413834|NCT01033942|164537705|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413835|NCT01033942|164537706|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82413836|NCT01033942|164537707|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED||||||Fisher Exact|||||||0.9999
82532497|NCT01154036|164762401|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|1.6||||0.156|TWO_SIDED|95.0|-0.6|3.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||3.8|-0.6|0.156
82532498|NCT01154036|164762401|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-0.9||||0.425|TWO_SIDED|95.0|-2.9|1.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.2|-2.9|0.425
82576468|NCT03041792|164862582|SUPERIORITY||Least Square Mean Difference|5.35|STANDARD_ERROR_OF_MEAN|2.06||0.0121|TWO_SIDED|95.0|1.22|9.48|||Mixed Models Analysis|||Visit 5||9.48|1.22|0.0121
82576469|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|3.98|STANDARD_ERROR_OF_MEAN|2.91||0.1768|TWO_SIDED|95.0|-1.85|9.82|||Mixed Models Analysis|||Satiety (Visit 4)||9.82|-1.85|0.1768
82576470|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|2.13||0.1137|TWO_SIDED|95.0|-0.85|7.7|||Mixed Models Analysis|||Satiety (Visit 5)||7.70|-0.85|0.1137
82413837|NCT01033942|164537708|SUPERIORITY_OR_OTHER|||||||0.4003|||||||Fisher Exact|||||||0.4003
82413838|NCT01033942|164537709|SUPERIORITY_OR_OTHER|||||||0.6462|||||||Fisher Exact|||||||0.6462
82413839|NCT01033942|164537710|SUPERIORITY_OR_OTHER|||||||0.8505|||||||Chi-squared|||||||0.8505
82447179|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|134.3||||||90.0|80.83|197.1||P-Values were not calculated.|||This analysis is for Serotype 14.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||197.1|80.83|
82532499|NCT01154036|164762402|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|0.5||||0.739|TWO_SIDED|95.0|-2.5|3.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||3.6|-2.5|0.739
82532500|NCT01154036|164762402|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-1.0||||0.41|TWO_SIDED|95.0|-3.3|1.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||1.3|-3.3|0.410
82532501|NCT01154036|164762403|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.1|||<|0.001|TWO_SIDED|95.0|-13.6|-6.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.6|-13.6|<0.001
82576471|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|2.85|STANDARD_ERROR_OF_MEAN|2.12||0.1858|TWO_SIDED|95.0|-1.41|7.11|||Mixed Models Analysis|||Fullness (Visit 4)||7.11|-1.41|0.1858
82576472|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|1.41|STANDARD_ERROR_OF_MEAN|2.22||0.5288|TWO_SIDED|95.0|-3.05|5.86|||Mixed Models Analysis|||Fullness (Visit 5)||5.86|-3.05|0.5288
82413840|NCT01033942|164537718|SUPERIORITY_OR_OTHER|||||||0.7434|TWO_SIDED||||||Chi-squared|||||||0.7434
82413841|NCT01033942|164537719|SUPERIORITY_OR_OTHER|||||||0.6153|TWO_SIDED||||||Chi-squared|||||||0.6153
82413842|NCT01033942|164537720|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|||||||0.2000
82413843|NCT01033942|164537721|SUPERIORITY_OR_OTHER|||||||0.5265|TWO_SIDED||||||Chi-squared|||||||0.5265
82413844|NCT01033942|164537722|SUPERIORITY_OR_OTHER|||||||0.2559|TWO_SIDED||||||Chi-squared|||||||0.2559
82413845|NCT01033942|164537723|SUPERIORITY_OR_OTHER|||||||0.3846|TWO_SIDED||||||Chi-squared|||||||0.3846
82413846|NCT01033942|164537724|SUPERIORITY_OR_OTHER|||||||0.5133|TWO_SIDED||||||Chi-squared|||||||0.5133
82413847|NCT01033942|164537725|SUPERIORITY_OR_OTHER|||||||0.1661|TWO_SIDED||||||Chi-squared|||||||0.1661
82413848|NCT01033942|164537726|SUPERIORITY_OR_OTHER|||||||0.0729|TWO_SIDED||||||Chi-squared|||||||0.0729
82413849|NCT01033942|164537727|SUPERIORITY_OR_OTHER|||||||0.1912|TWO_SIDED||||||Chi-squared|||||||0.1912
82413850|NCT01033942|164537728|SUPERIORITY_OR_OTHER|||||||0.2829|TWO_SIDED||||||Chi-squared|||||||0.2829
82413851|NCT01033942|164537729|SUPERIORITY_OR_OTHER|||||||0.2685|TWO_SIDED||||||Chi-squared|||||||0.2685
82413852|NCT01033942|164537730|SUPERIORITY_OR_OTHER|||||||0.2342|TWO_SIDED||||||Chi-squared|||||||0.2342
82413853|NCT01033942|164537731|SUPERIORITY_OR_OTHER|||||||0.7314|TWO_SIDED||||||Fisher Exact|||||||0.7314
82413854|NCT01033942|164537732|SUPERIORITY_OR_OTHER|||||||0.377|||||||Fisher Exact|||||||0.3770
82413855|NCT01033942|164537733|SUPERIORITY_OR_OTHER|||||||0.7004|||||||Fisher Exact|||||||0.7004
82413856|NCT01033942|164537734|SUPERIORITY_OR_OTHER|||||||0.4668|||||||Fisher Exact|||||||0.4668
82413857|NCT01033942|164537735|SUPERIORITY_OR_OTHER|||||||0.7573|||||||Fisher Exact|||||||0.7573
82413858|NCT01033942|164537736|SUPERIORITY_OR_OTHER|||||||0.0356|||||||Fisher Exact|||||||0.0356
82413859|NCT01033942|164537737|SUPERIORITY_OR_OTHER|||||||0.3176|||||||Fisher Exact|||||||0.3176
82413860|NCT01033942|164537738|SUPERIORITY_OR_OTHER|||||||0.1348|||||||Fisher Exact|||||||0.1348
82413861|NCT01033942|164537739|SUPERIORITY_OR_OTHER|||||||0.042|||||||Fisher Exact|||||||0.0420
82413862|NCT01033942|164537740|SUPERIORITY_OR_OTHER|||||||0.4906|||||||Fisher Exact|||||||0.4906
82413863|NCT01033942|164537741|SUPERIORITY_OR_OTHER|||||||0.0544|||||||Fisher Exact|||||||0.0544
82413864|NCT01033942|164537742|SUPERIORITY_OR_OTHER|||||||0.5645|||||||Fisher Exact|||||||0.5645
82413865|NCT01033942|164537743|SUPERIORITY_OR_OTHER|||||||0.7847|||||||Fisher Exact|||||||0.7847
82413866|NCT01033942|164537744|SUPERIORITY_OR_OTHER|||||||0.0288|||||||Fisher Exact|||||||0.0288
82413867|NCT01033942|164537745|SUPERIORITY_OR_OTHER|||||||0.0945|||||||Fisher Exact|||||||0.0945
82413868|NCT01033942|164537746|SUPERIORITY_OR_OTHER|||||||0.3884|||||||Fisher Exact|||||||0.3884
82413869|NCT01033942|164537747|SUPERIORITY_OR_OTHER|||||||0.2235|||||||Fisher Exact|||||||0.2235
82413870|NCT01033942|164537748|SUPERIORITY_OR_OTHER|||||||0.0467|||||||Fisher Exact|||||||0.0467
82413871|NCT01033942|164537749|SUPERIORITY_OR_OTHER|||||||0.6331|||||||Fisher Exact|||||||0.6331
82413872|NCT01033942|164537750|SUPERIORITY_OR_OTHER|||||||0.0948|||||||Fisher Exact|||||||0.0948
82413873|NCT01033942|164537751|SUPERIORITY_OR_OTHER|||||||0.5826|||||||Fisher Exact|||||||0.5826
82413874|NCT01033942|164537752|SUPERIORITY_OR_OTHER|||||||0.0087|||||||Fisher Exact|||||||0.0087
82413875|NCT01033942|164537753|SUPERIORITY_OR_OTHER|||||||0.1934|||||||Fisher Exact|||||||0.1934
82413876|NCT01033942|164537754|SUPERIORITY_OR_OTHER|||||||0.2146|||||||Fisher Exact|||||||0.2146
82413877|NCT01033942|164537755|SUPERIORITY_OR_OTHER|||||||0.5317|||||||Fisher Exact|||||||0.5317
82413878|NCT01033942|164537756|SUPERIORITY_OR_OTHER|||||||0.1733|||||||Fisher Exact|||||||0.1733
82413879|NCT01033942|164537757|SUPERIORITY_OR_OTHER|||||||0.1747|||||||Fisher Exact|||||||0.1747
82413880|NCT01033942|164537758|SUPERIORITY_OR_OTHER|||||||0.1203|||||||Fisher Exact|||||||0.1203
82413881|NCT01033942|164537759|SUPERIORITY_OR_OTHER|||||||0.8243|||||||Fisher Exact|||||||0.8243
82413882|NCT01033942|164537760|SUPERIORITY_OR_OTHER|||||||0.6202|||||||Fisher Exact|||||||0.6202
82413883|NCT01033942|164537761|SUPERIORITY_OR_OTHER|||||||0.8351|||||||Fisher Exact|||||||0.8351
82413884|NCT01033942|164537762|SUPERIORITY_OR_OTHER|||||||0.0484|||||||Fisher Exact|||||||0.0484
82413885|NCT01033942|164537763|SUPERIORITY_OR_OTHER|||||||0.4207|||||||Fisher Exact|||||||0.4207
82413886|NCT01033942|164537764|SUPERIORITY_OR_OTHER|||||||0.2187|||||||Fisher Exact|||||||0.2187
82413887|NCT01033942|164537765|SUPERIORITY_OR_OTHER|||||||0.5369|||||||Fisher Exact|||||||0.5369
82413888|NCT01033942|164537766|SUPERIORITY_OR_OTHER|||||||0.1524|||||||Fisher Exact|||||||0.1524
82413889|NCT01033942|164537767|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||||||0.4700
82413890|NCT01033942|164537768|SUPERIORITY_OR_OTHER|||||||0.4686|||||||Fisher Exact|||||||0.4686
82413891|NCT01033942|164537769|SUPERIORITY_OR_OTHER|||||||0.3791|||||||Fisher Exact|||||||0.3791
82413892|NCT01033942|164537770|SUPERIORITY_OR_OTHER|||||||0.7374|||||||Fisher Exact|||||||0.7374
82413893|NCT01033942|164537771|SUPERIORITY_OR_OTHER|||||||0.9363|||||||Fisher Exact|||||||0.9363
82413894|NCT01033942|164537772|SUPERIORITY_OR_OTHER|||||||0.6267|||||||Fisher Exact|||||||0.6267
82413895|NCT01033942|164537773|SUPERIORITY_OR_OTHER|||||||0.6434|TWO_SIDED||||||Fisher Exact|||||||0.6434
82413896|NCT01033942|164537774|SUPERIORITY_OR_OTHER|||||||0.8582|TWO_SIDED||||||Fisher Exact|||||||0.8582
82413897|NCT01033942|164537775|SUPERIORITY_OR_OTHER|||||||0.5778|TWO_SIDED||||||Fisher Exact|||||||0.5778
82413898|NCT01033942|164537776|SUPERIORITY_OR_OTHER|||||||0.9881|TWO_SIDED||||||Fisher Exact|||||||0.9881
82413899|NCT01033942|164537777|SUPERIORITY_OR_OTHER|||||||0.9771|TWO_SIDED||||||Fisher Exact|||||||0.9771
82413900|NCT01033942|164537778|SUPERIORITY_OR_OTHER|||||||0.2301|TWO_SIDED||||||Fisher Exact|||||||0.2301
82413901|NCT01115231|164537787|OTHER|multivariable logistic regression model|Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|0.93|4.42||||||||4.42|0.93|
82413902|NCT02260986|164537799|SUPERIORITY||difference in percentages|26.3|||<|0.0001|TWO_SIDED|95.0|16.34|36.26||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 16 were considered as non-responders.||36.26|16.34|<0.0001
82413903|NCT02260986|164537799|SUPERIORITY||difference in percentages|26.8|||<|0.0001|TWO_SIDED|95.0|20.33|33.28||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 16 were considered as non-responders.||33.28|20.33|<0.0001
82413904|NCT02260986|164537800|SUPERIORITY|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 16 were considered as non-responders.|difference in percentages|45.7|||<|0.0001|TWO_SIDED|95.0|35.72|55.66||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level for both comparisons.||55.66|35.72|<0.0001
82426508|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6464|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||1.8|0.7|0.6464
82532502|NCT01154036|164762403|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.6|||<|0.001|TWO_SIDED|95.0|-10.9|-4.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.3|-10.9|<0.001
82532503|NCT01154036|164762404|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.3|||<|0.001|TWO_SIDED|95.0|-14.0|-4.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.5|-14.0|<0.001
82532504|NCT01154036|164762404|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.8||||0.001|TWO_SIDED|95.0|-13.5|-6.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.2|-13.5|0.001
82532505|NCT01154036|164762405|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.1|||<|0.001|TWO_SIDED|95.0|-11.2|-4.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.9|-11.2|<0.001
82532506|NCT01154036|164762405|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-4.8||||0.001|TWO_SIDED|95.0|-7.8|-1.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-1.9|-7.8|0.001
82532507|NCT01154036|164762406|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.9|||<|0.001|TWO_SIDED|95.0|-11.0|-2.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.8|-11.0|<0.001
82413905|NCT02260986|164537800|SUPERIORITY|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 16 were considered as non-responders.|difference in percentages|40.8|||<|0.0001|TWO_SIDED|95.0|33.74|47.81||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level for both comparisons.||47.81|33.74|<0.0001
82413906|NCT02260986|164537801|SUPERIORITY||difference in percentages|39.1|||<|0.0001|TWO_SIDED|95.0|28.53|49.65||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||49.65|28.53|<0.0001
82413907|NCT02260986|164537801|SUPERIORITY||difference in percentages|31.1|||<|0.0001|TWO_SIDED|95.0|23.84|38.39||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||38.39|23.84|<0.0001
82413908|NCT02260986|164537802|SUPERIORITY||difference in percentages|37.9|||<|0.0001|TWO_SIDED|95.0|27.56|48.31||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||48.31|27.56|<0.0001
82426509|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.79|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72 Remission||7.6|3.0|<0.0001
82532508|NCT01154036|164762406|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.4|||<|0.001|TWO_SIDED|95.0|-9.4|-3.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.3|-9.4|<0.001
82532509|NCT01154036|164762407|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-13.7|||<|0.001|TWO_SIDED|95.0|-18.1|-9.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-9.3|-18.1|<0.001
82532510|NCT01154036|164762407|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-7.8|||<|0.001|TWO_SIDED|95.0|-11.9|-3.6|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.6|-11.9|<0.001
82532511|NCT01154036|164762408|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.4|||<|0.001|TWO_SIDED|95.0|-15.8|-4.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.9|-15.8|<0.001
82532512|NCT01154036|164762408|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.3|||<|0.001|TWO_SIDED|95.0|-12.5|-4.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.2|-12.5|<0.001
82532513|NCT01154036|164762409|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.3|||<|0.001|TWO_SIDED|95.0|-10.0|-2.5|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.5|-10.0|<0.001
82532514|NCT01154036|164762409|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-3.5||||0.052|TWO_SIDED|95.0|-7.1|0.0|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||0.0|-7.1|0.052
82532515|NCT01154036|164762410|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-5.8||||0.024|TWO_SIDED|95.0|-10.8|-0.8|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-0.8|-10.8|0.024
82576473|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|-8.46|STANDARD_ERROR_OF_MEAN|2.91||0.0054|TWO_SIDED|95.0|-14.3|-2.61|||Mixed Models Analysis|||Prospective food consumption (Visit 4)||-2.61|-14.30|0.0054
82413909|NCT02260986|164537802|SUPERIORITY||difference in percentages|34.7|||<|0.0001|TWO_SIDED|95.0|27.31|42.05||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing peak NRS at Week 16 were considered as non-responders.||42.05|27.31|<0.0001
82413910|NCT02260986|164537803|SUPERIORITY||difference in percentages|23.5|||<|0.0001|TWO_SIDED|95.0|12.72|34.19||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 52 were considered as non-responders.||34.19|12.72|<0.0001
82413911|NCT02260986|164537803|SUPERIORITY||difference in percentages|27.5|||<|0.0001|TWO_SIDED|95.0|20.42|34.58||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing IGA scores at Week 52 were considered as non-responders.||34.58|20.42|<0.0001
82413912|NCT02260986|164537804|SUPERIORITY||difference in percentages|43.6|||<|0.0001|TWO_SIDED|95.0|32.5|54.65||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 52 were considered as non-responders.||54.65|32.50|<0.0001
82413913|NCT02260986|164537804|SUPERIORITY||difference in percentages|42.5|||<|0.0001|TWO_SIDED|95.0|34.91|50.06||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment use were set to missing and participants with missing EASI score at Week 52 were considered as non-responders.||50.06|34.91|<0.0001
82413914|NCT02260986|164537805|SUPERIORITY||Least square (LS) mean difference|-26.2|||<|0.0001|TWO_SIDED|95.0|-35.04|-17.43||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-17.43|-35.04|<0.0001
82413915|NCT02260986|164537805|SUPERIORITY||LS mean difference|-26.8|||<|0.0001|TWO_SIDED|95.0|-32.83|-20.73||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-20.73|-32.83|<0.0001
82576474|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|-9.78|STANDARD_ERROR_OF_MEAN|3.75||0.0117|TWO_SIDED|95.0|-17.29|-2.27|||Mixed Models Analysis|||Prospective food consumption (Visit 5)||-2.27|-17.29|0.0117
82413916|NCT02260986|164537806|SUPERIORITY||difference in percentages|38.3|||<|0.0001|TWO_SIDED|95.0|26.96|49.66||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||49.66|26.96|<0.0001
82413917|NCT02260986|164537806|SUPERIORITY||difference in percentages|26.1|||<|0.0001|TWO_SIDED|95.0|18.76|33.45||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||33.45|18.76|<0.0001
82426510|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96|||<|0.0001|TWO_SIDED|95.0|3.1|7.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Remission||7.9|3.1|<0.0001
82532516|NCT01154036|164762410|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.1||||0.002|TWO_SIDED|95.0|-9.9|-2.3|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.3|-9.9|0.002
82576475|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|-6.58|STANDARD_ERROR_OF_MEAN|2.44||0.0093|TWO_SIDED|95.0|-11.48|-1.69|||Mixed Models Analysis|||Hunger (Visit 4)||-1.69|-11.48|0.0093
82576476|NCT03041792|164862583|SUPERIORITY||Least Square Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|2.86||0.0296|TWO_SIDED|95.0|-12.12|-0.66|||Mixed Models Analysis|||Hunger (Visit 5)||-0.66|-12.12|0.0296
82447180|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|200.3||||||90.0|151.9|302.4||P-Values were not calculated.|||This analysis is for Serotype 18C.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||302.4|151.9|
82447181|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|181.3||||||90.0|119.8|253.1||P-Values were not calculated.|||This analysis is for Serotype 19F.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||253.1|119.8|
82646892|NCT04682639|165008663|OTHER||Adjusted difference from placebo|12.15||||0.0173|TWO_SIDED|95.0|2.15|22.16|||Mantel Haenszel|||||22.16|2.15|0.0173
82646893|NCT04682639|165008663|OTHER||Adjusted difference from placebo|8.37||||0.059|TWO_SIDED|95.0|-0.32|17.07|||Mantel Haenszel|||||17.07|-0.32|0.0590
82413918|NCT02260986|164537807|SUPERIORITY||difference in percentages|40.1|||<|0.0001|TWO_SIDED|95.0|28.76|51.35||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||51.35|28.76|<0.0001
82413919|NCT02260986|164537807|SUPERIORITY||difference in percentages|27.3|||<|0.0001|TWO_SIDED|95.0|19.81|34.76||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 52 were considered as non-responders.||34.76|19.81|<0.0001
82646894|NCT03471182|165008668|SUPERIORITY|||||||0.035||||||Primary hypothesis of a group difference (i.e., CUD vs HHC-PET participants) in mGluR5 availability was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||Outcome Measure Data were tested using a single linear mixed effects model. The 9 regions of interest (i.e., all 9 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of region. Group (i.e., CUD, HHC-PET) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the region-by-group interaction term and a factor to model the random-effect of participant.||||0.035
82413920|NCT02260986|164537808|SUPERIORITY||difference in percentages|37.9|||<|0.0001|TWO_SIDED|95.0|27.34|48.4||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 24 were considered as non-responders.||48.40|27.34|<0.0001
82413921|NCT02260986|164537808|SUPERIORITY||difference in percentages|27.7|||<|0.0001|TWO_SIDED|95.0|20.65|34.7||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 24 were considered as non-responders.||34.70|20.65|<0.0001
82413922|NCT02260986|164537809|SUPERIORITY||difference in percentages|20.9|||<|0.0001|TWO_SIDED|95.0|10.59|31.15||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 4 were considered as non-responders.||31.15|10.59|<0.0001
82413923|NCT02260986|164537809|SUPERIORITY||difference in percentages|10.7||||0.0021|TWO_SIDED|95.0|4.15|17.31||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 4 were considered as non-responders.||17.31|4.15|0.0021
82413924|NCT02260986|164537810|SUPERIORITY||difference in percentages|9.6||||0.0062|TWO_SIDED|95.0|1.61|17.63||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 2 were considered as non-responders.||17.63|1.61|0.0062
82413925|NCT02260986|164537810|SUPERIORITY||difference in percentages|5.5||||0.0344|TWO_SIDED|95.0|0.56|10.51||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity (IGA baseline values: IGA=3 vs IGA=4). Values after first rescue treatment were set to missing and participants with missing peak NRS at Week 2 were considered as non-responders.||10.51|0.56|0.0344
82447182|NCT00488826|164603046|SUPERIORITY_OR_OTHER||Geometric mean ratio|90.02||||||90.0|57.93|150.5||P-Values were not calculated.|||This analysis is for Serotype 23F.|"The ratio of the 7vPnC Separately group to the DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||150.5|57.93|
82447183|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|665.1||||||90.0|473.3|851.2||P-Values were not calculated.|||This analysis is for Serotype 4.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||851.2|473.3|
82413926|NCT02260986|164537811|SUPERIORITY||LS mean difference|-1.81|||<|0.0001|TWO_SIDED|95.0|-2.297|-1.322||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-1.322|-2.297|<0.0001
82413927|NCT02260986|164537812|SUPERIORITY||LS mean difference|-32.1|||<|0.0001|TWO_SIDED|95.0|-46.37|-17.82||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-17.82|-46.37|<0.0001
82413928|NCT02260986|164537813|SUPERIORITY||LS mean difference|-18.38|||<|0.0001|TWO_SIDED|95.0|-22.583|-14.187||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-14.187|-22.583|<0.0001
82413929|NCT02260986|164537814|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-33.46|-21.9||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-21.9|-33.46|<0.0001
82413930|NCT02260986|164537815|SUPERIORITY||LS mean difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.31|-3.02||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-3.02|-5.31|<0.0001
82413931|NCT02260986|164537816|SUPERIORITY||LS mean difference|-7.4|||<|0.0001|TWO_SIDED|95.0|-8.85|-5.93||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||-5.93|-8.85|<0.0001
82413932|NCT02260986|164537817|SUPERIORITY||LS mean difference|-1.0||||0.1596|TWO_SIDED|95.0|-2.27|0.37||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w v Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with baseline measurements as covariate and the treatment, region and baseline IGA strata as fixed factors.||0.37|-2.27|0.1596
82413933|NCT02397837|164537840|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
82413934|NCT02397837|164537841|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
82413935|NCT02397837|164537842|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82532517|NCT01154036|164762411|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-10.6|||<|0.001|TWO_SIDED|95.0|-14.9|-6.4|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-6.4|-14.9|<0.001
82413936|NCT02397837|164537843|OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
82413937|NCT02397837|164537844|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
82413938|NCT02397837|164537845|OTHER|||||||0.98|||||||t-test, 2 sided|||||||0.98
82413939|NCT02397837|164537846|OTHER||||||||||||||||||Tabulation of participants with suicidal acknowledgements over 12-week study|||
82413940|NCT02397837|164537847|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
82413941|NCT02397837|164537848|OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
82413942|NCT02397837|164537849|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82413943|NCT00407511|164537866|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||End of treatment/last observation carried forward (EOT/LOCF): value consists of the mean of the last 7 post-baseline visits scores. Mean change: the arithmetic mean change and p-value from the single sample t-test. If \< = 7 and \> = 4 post-baseline scores were available, the mean pain score was computed using the available scores. The mean was not calculated if there were less than 4 post-baseline scores prior to study termination.||||< 0.0001
82413944|NCT00407511|164537867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.6|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4||-2.8|-3.6|< 0.0001
82413945|NCT00407511|164537867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.3|-3.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8||-3.5|-4.3|< 0.0001
82413946|NCT00407511|164537867|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.5|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12||-3.7|-4.5|< 0.0001
82413947|NCT00407511|164537868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.7|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8, FAS. Week 8: subjects were only included if their visit fell within the computed week (49 to 63 days).||-3.7|-4.7|< 0.0001
82413948|NCT00407511|164537868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-5.1|-4.1|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: subjects were only included if their visit fell within the computed week (\>= 78 days).||-4.1|-5.1|< 0.0001
82447184|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|22.2||||||90.0|13.99|31.77||P-Values were not calculated.|||This analysis is for Serotype 6B.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||31.77|13.99|
82532518|NCT01154036|164762411|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-6.2||||0.002|TWO_SIDED|95.0|-10.2|-2.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-2.2|-10.2|0.002
82532519|NCT01154036|164762412|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-9.3|||<|0.001|TWO_SIDED|95.0|-14.8|-3.9|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-3.9|-14.8|<0.001
82532520|NCT01154036|164762412|SUPERIORITY_OR_OTHER_LEGACY||Difference in M-estimates|-8.4|||<|0.001|TWO_SIDED|95.0|-12.6|-4.2|||Multiple Imputation Robust Regression|M-Estimates, 95% CI, and p-value obtained from a robust regression model with terms for treatment and baseline values, after imputing missing values||||-4.2|-12.6|<0.001
82532521|NCT01154036|164762413|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-3.9||||0.613|TWO_SIDED|95.0|-18.9|11.1|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||11.1|-18.9|0.613
82532522|NCT01154036|164762413|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-1.5||||0.831|TWO_SIDED|95.0|-15.7|12.6|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||12.6|-15.7|0.831
82413949|NCT00407511|164537868|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline value; mean change from Baseline was the arthmetic mean change and the p-value was from the single-sample t-test.||||< 0.0001
82413950|NCT00407511|164537869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.2|-3.4|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: subjects were only included if their visit fell within the computed week (Day 49 to 63).||-3.4|-4.2|< 0.0001
82413951|NCT00407511|164537869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-4.5|-3.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: subjects were only included if their visit fell within the computed week (\>= Day 78)||-3.7|-4.5|< 0.0001
82413952|NCT00407511|164537869|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline value; mean change from Baseline was the arthmetic mean change and the p-value was from the single-sample t-test.||||< 0.0001
82413953|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.1|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-22.3|-14.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 1: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 1 assessment if their visit fell within Days 4 to 10.||-14.0|-22.3|< 0.0001
82413954|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-28.2|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-32.4|-24.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 2: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 2 assessment if their visit fell within Days 11 to 17.||-24.0|-32.4|< 0.0001
82413955|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.3|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001||95.0|-38.5|-30.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 3: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 3 assessment if their visit fell within Days 18 to 24.||-30.0|-38.5|< 0.0001
82532523|NCT01154036|164762414|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-13.1||||0.187|TWO_SIDED|95.0|-32.6|6.4|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||6.4|-32.6|0.187
82532524|NCT01154036|164762414|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares Means|-11.6||||0.153|TWO_SIDED|95.0|-27.7|4.4|||Constrained Longitudinal Data Analysis|Geometric mean percent changes from baseline were calculated based on back-transformation via exponentiation of the model-based least square means||||4.4|-27.7|0.153
82532525|NCT02264574|164762415|SUPERIORITY||Hazard Ratio (HR)|0.231|||<|0.0001|TWO_SIDED|95.0|0.145|0.367|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||0.367|0.145|<0.0001
82413956|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.9|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-45.2|-36.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 4 assessment if their visit fell within days 25 to 35.||-36.7|-45.2|< 0.0001
82532526|NCT02264574|164762416|SUPERIORITY||Hazard Ratio (HR)|0.119|||<|0.0001|TWO_SIDED|95.0|0.046|0.307|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||0.307|0.046|< 0.0001
82576477|NCT03041792|164862584|SUPERIORITY||Least Square Mean Difference|35.56|STANDARD_ERROR_OF_MEAN|52.46||0.5008|TWO_SIDED|95.0|-69.64|140.76|||Mixed Models Analysis|||AUC0-60min (Visit 4)||140.76|-69.64|0.5008
82576478|NCT03041792|164862584|SUPERIORITY||Least Square Mean Difference|106.15|STANDARD_ERROR_OF_MEAN|48.95||0.0348|TWO_SIDED|95.0|7.86|204.44|||Mixed Models Analysis|||AUC0-60min (Visit 5)||204.44|7.86|0.0348
82576479|NCT03041792|164862584|SUPERIORITY||Least Square Mean Difference|214.24|STANDARD_ERROR_OF_MEAN|129.48||0.104|TWO_SIDED|95.0|-45.59|474.07|||Mixed Models Analysis|||AUC0-300min (Visit 4)||474.07|-45.59|0.1040
82447185|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|73.7||||||90.0|56.41|103.6||P-Values were not calculated.|||This analysis is for Serotype 9V.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||103.6|56.41|
82447186|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|99.48||||||90.0|61.09|147.5||P-Values were not calculated.|||This analysis is for Serotype 14.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||147.5|61.09|
82447187|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|164.0||||||90.0|114.9|232.9||P-Values were not calculated.|||This analysis is for Serotype 18C.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||232.9|114.9|
82447188|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|81.45||||||90.0|57.98|119.1||P-Values were not calculated.|||This analysis is for Serotype 19F.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||119.1|57.98|
82447189|NCT00488826|164603047|SUPERIORITY_OR_OTHER||Geometric mean ratio|44.7||||||90.0|29.48|68.71||P-Values were not calculated.|||This analysis is for Serotype 23F.|"The ratio of the 7vPnC + DTaP Concurrently group to DTaP Alone group geometric mean comparisons (GMC) was provided with a corresponding 90% confidence interval."||68.71|29.48|
82447190|NCT00006400|164603053|SUPERIORITY|The primary analysis was done using an intention-to-treat principle.||||||0.21||||||The spleen endpoint was to be tested at an overall alpha = 0.04. Originally there was a second primary outcome to be tested at alpha = 0.01, but this outcome was dropped.|Fisher Exact|||The primary analysis compared the frequency of worsening spleen function (from normal to decreased or absent, or decreased to absent) and not worsening (from decreased to decreased, normal to normal, or decreased to normal) as measured by splenic uptake on a technetium-99m (99mTc) sulfur colloid liver-spleen scan. Children with missing data or absent spleen function at baseline were excluded from the analysis (26 subjects from hydroxyurea and 23 subjects from placebo group were excluded).||||0.21
82447191|NCT00006400|164603054|SUPERIORITY|||||||0.93||||||This was originally a second primary outcome to be tested at alpha = 0.01, but was later dropped from the protocol. We analyzed the available data.|ANOVA|||The change from baseline to exit as measured by DTPA GFR were compared between treatment groups.||||0.93
82447192|NCT00006400|164603055|SUPERIORITY|||||||0.43||||||All secondary outcomes were tested at alpha=0.01|ANOVA|||The change from baseline to exit as measured by GFR (calculated using Shwartz formula) were compared between treatment groups.||||0.43
82532527|NCT02264574|164762417|SUPERIORITY|||||||0.5253|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.5253
82532528|NCT02264574|164762418|SUPERIORITY|||||||0.5465|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.5465
82447193|NCT00006400|164603056|SUPERIORITY|||||||0.48||||||All secondary outcomes were to be tested at alpha = 0.01|ANOVA|||The change in GFR from baseline to exit were compared between treatment groups. GFR was calculated using new Schwartz formula.||||0.48
82532529|NCT02264574|164762419|SUPERIORITY||Rate Ratio|1.208||||0.0035|TWO_SIDED|95.0|1.062|1.373|||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||1.373|1.062|0.0035
82447194|NCT00605345|164603095|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was met if the lower limit of the confidence interval for the response rate of the CERA group was greater than the observed response rate of the darbepoetin group minus 15%. The calculated lower limit of an acceptable difference in response rates thus, was based on the actual percentage of responders in the darbepoetin group and this percentage minus 15% had to be excluded."||||||0.5947|||||||Fisher Exact|||||||0.5947
82447195|NCT05399290|164603101|OTHER|Chi square analysis was conducted to detect any significant between group differences (100 mg vs 20 mg) in perceived acne severity.||||||0.677|||||||Chi-squared|||||||0.677
82447196|NCT05399290|164603101|OTHER|Friedman's test was conducted for the 100 mg treatment arm to detect any significant within group differences in perceived acne severity.||||||0.002|||||||Friedman's test|||||||0.002
82447197|NCT05399290|164603101|OTHER|Friedman's test was conducted for the 20 mg treatment arm to detect any significant within group differences in perceived acne severity.||||||0.018|||||||Fried|||||||0.018
82447198|NCT02008227|164603110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0003|TWO_SIDED|95.0|0.62|0.87|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.87|0.62|0.0003
82447199|NCT02008227|164603110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.62|0.86|||Log Rank|||Unstratified Analysis||0.86|0.62|0.0002
82447200|NCT02008227|164603111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0102|TWO_SIDED|95.0|0.58|0.93|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.93|0.58|0.0102
82447201|NCT02008227|164603111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.0052|TWO_SIDED|95.0|0.58|0.91|||Log Rank|||Unstratified Analysis||0.91|0.58|0.0052
82532530|NCT02264574|164762420|SUPERIORITY||Hazard Ratio (HR)|0.921||||0.8057|TWO_SIDED|95.0|0.479|1.772|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||1.772|0.479|0.8057
82576480|NCT03041792|164862584|SUPERIORITY||Least Square Mean Difference|348.43|STANDARD_ERROR_OF_MEAN|138.29||0.0152|TWO_SIDED|95.0|70.2|626.66|||Mixed Models Analysis|||AUC0-300min (Visit 5)||626.66|70.20|0.0152
82413957|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-45.8|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-50.2|-41.4|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 8 assessment if their visit fell within Days 49 to 63.||-41.4|-50.2|< 0.0001
82413958|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-48.4|STANDARD_ERROR_OF_MEAN|2.2|<|0.0001||95.0|-52.8|-44.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on a repeated measures mixed effect model with baseline value, center, and week as fixed effects; subject was included as a random effect. Subjects were only included in the Week 12 assessment if their visit fell \>= Day 78.||-44.0|-52.8|< 0.0001
82413959|NCT00407511|164537872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline assessment. Mean change is the arithmetic mean change; p-value is from a single-sample t-test.||||< 0.0001
82413960|NCT00407511|164537873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-43.4|-33.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on a repeated measures effect model with baseline value, center, and week as fixed effects; subjects were included as a random effect. Subjects were included in the Week 8 assessment only if their visit fell within Days 49 and 63.||-33.9|-43.4|< 0.0001
82413961|NCT00407511|164537873|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-40.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-45.5|-35.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on a repeated measures effect model with baseline value, center, and week as fixed effects; subjects were included as a random effect. Subjects were included in the Week 12 assessment only if their visit fell \>=Day 78.||-35.9|-45.5|< 0.0001
82413962|NCT00407511|164537873|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF: last post-baseline assessment. Mean change= arithmetic mean change; p-value is from a single-sample t-test.||||< 0.0001
82413963|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-1.4|-0.7|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 1: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-0.7|-1.4|< 0.0001
82413964|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-2.2|-1.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 2: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-1.5|-2.2|< 0.0001
82413965|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-2.9|-2.2|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 3: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.2|-2.9|< 0.0001
82413966|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.2|-2.5|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 4: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.5|-3.2|< 0.0001
82413967|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.3|-2.6|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 5: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.6|-3.3|< 0.0001
82413968|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.4|-2.6|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 6: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.6|-3.4|< 0.0001
82413969|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.5|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 7: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.8|-3.5|< 0.0001
82413970|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.6|-2.8|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 8: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.8|-3.6|< 0.0001
82413971|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-2.9|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 9: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-2.9|-3.7|< 0.0001
82532531|NCT02264574|164762421|SUPERIORITY|||||||0.0835|||||||Fisher Exact|||"IRR Preferred Term~To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record."||||0.0835
82532532|NCT02264574|164762421|SUPERIORITY|||||||0.1944|||||||Fisher Exact|||"IRR By Customized SMQ~To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record."||||0.1944
82413972|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 10: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.7|< 0.0001
82413973|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.8|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Visit 11: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.8|< 0.0001
82413974|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|-3.7|-3.0|||Mixed Models Analysis||Parameter estimate: Mean Difference (Final Values) = least squares mean.|Week 12: LS mean, p-value, and confidence interval are based on repeated measures mixed effect model with baseline value, pooled center, and weeks 1, 4, 8 and 12 as fixed effects; subjects were included as a random effect.||-3.0|-3.7|< 0.0001
82413975|NCT00407511|164537874|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||EOT/LOCF value consists of the mean of the last 7 post-baseline sleep scores; mean change = arithmetic mean change; p-value: from single sample t-test.||||< 0.0001
82413976|NCT02493855|164537877|SUPERIORITY|This study was an exploratory study to evaluate the effect of ribavirin on the slope of the second phase of HCV RNA decline in participants who received the 3-direct-acting antiviral agent regimen.||||||0.311|||||||Wilcoxon Rank Sum Test|||||||0.311
82413977|NCT02493855|164537877|SUPERIORITY|This study was an exploratory study to evaluate the effect of ribavirin on the slope of the second phase of HCV RNA decline in participants who received the 3-direct-acting antiviral agent regimen.||||||0.561|||||||Wilcoxon Rank Sum Test|||||||0.561
82413978|NCT00924482|164537904|SUPERIORITY_OR_OTHER_LEGACY||Correlation Coefficient (R^2)|0.63||||||95.0|||||Regression, Linear|Linear regression between the average of six thermodilution cardiac output measurements was compared to the average of six ECOM output measurements||||||
82413979|NCT02202616|164537920|OTHER||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|0.34|||TWO_SIDED|95.0|0.14|0.21|||Descriptive Statistics with 95% CI|The mean change from baseline along with the 95% confidence interval used to assess the precision of the estimate||||0.21|0.14|
82413980|NCT02202616|164537921|OTHER||Mean Difference (Final Values)|0.14|STANDARD_DEVIATION|0.278|||TWO_SIDED|95.0|0.11|0.17|||Descriptive Statistics with 95% CI|The mean change from baseline along with the 95% confidence interval used to assess the precision of the estimate||||0.17|0.11|
82413981|NCT02202616|164537922|OTHER||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|2.47|||TWO_SIDED|95.0|1.74|2.3|||Standard Descriptive Statistics|The estimated mean change from baseline and corresponding 95% confidence intervals will be displayed for each visit.||Week 4||2.30|1.74|
82413982|NCT02202616|164537922|OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|2.92|||TWO_SIDED|95.0|2.21|2.85|||Standard Descriptive Statistics|The estimated mean change from baseline and corresponding 95% confidence intervals will be displayed for each visit||Week 16||2.85|2.21|
82413983|NCT02202616|164537923|OTHER||Mean Difference (Final Values)|-5.0|STANDARD_DEVIATION|6.25|||TWO_SIDED|95.0|-5.7|-4.3|||standard descriptive statistics|The estimated mean change from baseline to Week 4 along with the 95% confidence interval||Week 4||-4.3|-5.7|
82413984|NCT02202616|164537923|OTHER||Mean Difference (Final Values)|-6.5|STANDARD_DEVIATION|7.03|||TWO_SIDED|95.0|-7.3|-5.7|||standard descriptive statistics|The estimated mean change from baseline to Week 4 along with the 95% confidence interval||Week 16||-5.7|-7.3|
82413985|NCT04502524|164537924|OTHER|||||||0.999|||||||Fisher Exact|||For overall satisfaction, a reliable estimate could not be calculated using a logistic regression model as all the responses were the same in the Vet Flexiquit arm. We calculated the p-value using the Fisher's exact test.||||.999
82447202|NCT02008227|164603114|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.4928|TWO_SIDED|95.0|0.82|1.1|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||1.10|0.82|0.4928
82532533|NCT02264574|164762422|SUPERIORITY|||||||0.0045|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.0045
82577071|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.124||0.5655|TWO_SIDED|95.0|-0.32|0.18|||MMRM|||Suicide, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.32|0.5655
82413986|NCT04502524|164537925|OTHER||Slope|0.05||||0.852|TWO_SIDED|95.0|-0.46|0.56|||Regression, negative binomial|||||0.56|-0.46|0.852
82413987|NCT04502524|164537926|OTHER||Slope|-0.44||||0.451|TWO_SIDED|95.0|-1.6|0.71|||Regression, negative binomial|||||0.71|-1.60|0.451
82413988|NCT04502524|164537927|OTHER||Slope|-0.73||||0.508|TWO_SIDED|95.0|-1.46|0.003|||Regression, negative binomial|||||0.003|-1.46|0.508
82413989|NCT04502524|164537928|OTHER||Odds Ratio (OR)|0.65||||0.602|TWO_SIDED|95.0|0.13|3.32|||Regression, Logistic|||||3.32|0.13|0.602
82413990|NCT04502524|164537929|OTHER||Odds Ratio (OR)|0.94||||0.941|TWO_SIDED|95.0|0.17|5.29|||Regression, Logistic|||||5.29|0.17|0.941
82447203|NCT02008227|164603114|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.3596|TWO_SIDED|95.0|0.81|1.08|||Log Rank|||Unstratified Analysis||1.08|0.81|0.3596
82532534|NCT02264574|164762423|SUPERIORITY|||||||0.859|||||||Chi-squared|||To preserve the study wise type I error rate of 0.05, the primary and secondary endpoints were tested based on serial gatekeeping testing procedure at the two-sided significance level of 0.05 according to the hierarchical order of the primary analysis outcome measures presented in this record.||||0.8590
82447204|NCT02008227|164603115|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3806|TWO_SIDED|95.0|0.74|1.12|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||1.12|0.74|0.3806
82447205|NCT02008227|164603115|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.3249|TWO_SIDED|95.0|0.74|1.1|||Log Rank|||Unstratified Analysis||1.10|0.74|0.3249
82532535|NCT02264574|164762424|SUPERIORITY||Hazard Ratio (HR)|0.169|||<|0.0001|TWO_SIDED|95.0|0.102|0.282|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||0.282|0.102|< 0.0001
82532536|NCT02264574|164762425|SUPERIORITY|||||||0.9657|||||||Chi-squared|||||||0.9657
82413991|NCT04502524|164537930|OTHER||Odds Ratio (OR)|0.61||||0.612|TWO_SIDED|95.0|0.09|4.12|||Regression, Logistic|||||4.12|0.09|0.612
82413992|NCT04502524|164537931|OTHER||Slope|0.56||||0.504|TWO_SIDED|95.0|-1.13|2.26|||Regression, Linear|||||2.26|-1.13|0.504
82413993|NCT04502524|164537932|OTHER||Slope|0.11||||0.67|TWO_SIDED|95.0|-0.4|0.61|||Regression, Linear|||||0.61|-0.40|0.670
82532537|NCT02264574|164762426|SUPERIORITY|||||||0.1612|||||||Chi-squared|||||||0.1612
82532538|NCT02264574|164762427|SUPERIORITY||Rate Ratio|1.125||||0.0273|TWO_SIDED|95.0|1.013|1.25|||Chi-squared|||||1.250|1.013|0.0273
82532539|NCT02264574|164762428|SUPERIORITY||Hazard Ratio (HR)|1.083||||0.7934|TWO_SIDED|95.0|0.595|1.973|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||1.973|0.595|0.7934
82532540|NCT02264574|164762429|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.0050
82413994|NCT03487445|164537939|SUPERIORITY|The statistical analysis comprised a 2-step testing strategy. The first test, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 50% (null hypothesis: proportion of responders \<50%) and is reported below. The second step for the Selatogrel 8 mg is described in statistical analysis 2: In this second analysis the subsequent null hypothesis of treatment effect less or equal to 85% was tested for the 8 mg dose.|||||<|0.001||||||P-value for hypotheses (H0: p \<= 50% vs. H1: p \> 50%)|one-sided z-test|A p-value significance level was set to 0.025.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||<0.001
82413995|NCT03487445|164537939|SUPERIORITY|This statistical analysis reports the second of the 2-step testing strategy. This second test for the 8 mg Selatogrel dose, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 85% (null hypothesis: proportion of responders \<85%).||||||0.142||||||P-value for hypotheses (H0: p \<= 85% vs. H1: p \> 85%)|one-sided z-test|A p-value significance level was set to 0.025, an overall level of 0.05 and adjusted for multiplicity using the Bonferroni approach.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||0.142
82413996|NCT03487445|164537939|SUPERIORITY|The statistical analysis comprised a 2-step testing strategy. The first test, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 50% (null hypothesis: proportion of responders \<50%) and is reported below. The second step for the Selatogrel 16 mg is described in statistical analysis 4: In this second analysis the subsequent null hypothesis of treatment effect less or equal to 85% was tested for the 16 mg dose.|||||<|0.0001||||||P-value for hypotheses (H0: p \<= 50% vs. H1: p \> 50%)|one-sided z-test|A p-value significance level was set to 0.025.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||<0.0001
82413997|NCT03487445|164537939|SUPERIORITY|This statistical analysis reports the second of the 2-step testing strategy. This second test for the 16 mg Selatogrel dose, carried out at an alpha level of 0.025, determined whether the proportion of responders (patients with a PRU value \<100) was ≥ 85% (null hypothesis: proportion of responders \<85%).||||||0.009||||||P-value for hypotheses (H0: p \<= 85% vs. H1: p \> 85%)|one-sided z-test|A p-value significance level was set to 0.025, an overall level of 0.05 and adjusted for multiplicity using the Bonferroni approach.||The main analysis (mFAS, treatment dose as received) of treatment effect on the primary endpoint was conducted independently for each dose.||||0.009
82447206|NCT02008227|164603118|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.18|0.55|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.55|0.18|<0.0001
82447207|NCT02008227|164603118|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.55|||Log Rank|||Unstratified Analysis||0.55|0.21|<0.0001
82532541|NCT02264574|164762430|SUPERIORITY||Hazard Ratio (HR)|0.251|||<|0.0001|TWO_SIDED|95.0|0.162|0.389|||Log Rank|The treatment effect was tested with an unstratified log rank test.|The hazard ratio and its 95% confidence interval were estimated using a Cox regression model with treatment as the only covariate.|||0.389|0.162|< 0.0001
82447208|NCT02008227|164603119|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31||||0.0006|TWO_SIDED|95.0|0.15|0.62|||Log Rank|||Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.62|0.15|0.0006
82532542|NCT00906503|164762433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|STANDARD_DEVIATION|1.6|||TWO_SIDED|95.0|0.06|31.1||||||||31.1|0.06|
82532543|NCT01567163|164762435|SUPERIORITY_OR_OTHER||Ratio geometric least squares (LS) means|0.97|||||TWO_SIDED|90.0|0.84|1.1|||Mixed Models Analysis||The ratio of geometric LS means was calculated using a mixed effect model adjusted for cycle, participant and random error. Ratio of geometric LS means is AUC(0-∞) of Cycle 2/Cycle 1.|||1.10|0.84|
82532544|NCT01567163|164762437|SUPERIORITY_OR_OTHER||Ratio of geometric least squares means|1.14|||||TWO_SIDED|90.0|0.84|1.55|||Mixed Models Analysis||The ratio of geometric least squares means was calculated using a mixed effect model adjusted for cycle, participant and random error. Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1.|||1.55|0.84|
82532545|NCT03405662|164762443|SUPERIORITY|||||||0.07|||||||non-parametric Kolmogorov-Smirnov test|||||||0.07
82532546|NCT03405662|164762444|SUPERIORITY|||||||0.29|||||||non-parametric Kolmogorov-Smirnov test|||||||0.29
82532547|NCT03405662|164762445|SUPERIORITY|||||||0.07|||||||non-parametric Kolmogorov-Smirnov test|||||||0.07
82532548|NCT03405662|164762446|SUPERIORITY|||||||0.23|||||||non-parametric Kolmogorov-Smirnov test|||||||0.23
82413998|NCT03487445|164537940|SUPERIORITY|||||||0.228||||||P-value for hypotheses (H0: p \<= 85% versus H1: p \> 85%)|One-sided Z-test|||As per the main analysis (mFAS) the supporting analysis on the per-protocol set this analysis of treatment effect was conducted independently for each dose, i.e., 8 and 16 mg.||||0.2280
82413999|NCT03487445|164537940|SUPERIORITY|||||||0.0201||||||P-value for hypotheses (H0: p \<= 85% versus H1: p \> 85%)|One-sided Z-test|||As per the main analysis (mFAS) the supporting analysis on the per-protocol set this analysis of treatment effect was conducted independently for each dose, i.e., 8 and 16 mg.||||0.0201
82414000|NCT04470427|164537954|OTHER||VE|93.2|||<|0.0001|TWO_SIDED|95.0|91.0|94.8|||Vaccine Efficacy (VE)|VE (percent) is demonstrated if the lower limit of the 2-sided confidence interval for the VE is above 30%.|VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|"Vaccine efficacy was defined as the percent reduction in the hazard of the primary endpoint (mRNA-1273 vs. placebo).~Null hypothesis of Vaccine Efficacy ≤30%, 95% CI."||94.8|91.0|<.0001
82414001|NCT04470427|164537960|OTHER||VE|98.2|||||TWO_SIDED|95.0|92.8|99.6|||VE||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||99.6|92.8|
82414002|NCT04470427|164537961|OTHER||VE|82.0|||||TWO_SIDED|95.0|79.5|84.2|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model|||84.2|79.5|
82414003|NCT04470427|164537962|OTHER|VE|VE|93.4|||||TWO_SIDED|95.0|91.4|94.9|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||94.9|91.4|
82414004|NCT04470427|164537964|OTHER||VE|93.3|||||TWO_SIDED|95.0|91.1|94.9|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||94.9|91.1|
82414005|NCT04470427|164537965|OTHER||VE|82.0|||||TWO_SIDED|95.0|79.5|84.3|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||84.3|79.5|
82414006|NCT04470427|164537966|OTHER||VE|63.0|||||TWO_SIDED|95.0|56.6|68.5|||||VE (percent) was estimated with 1 - Hazard Ratio (mRNA-1273 vs. placebo) from stratified Cox proportional hazard model.|||68.5|56.6|
82414007|NCT04470427|164537972|NON_INFERIORITY|Non-inferiority of a booster as compared with mRNA-1273 after second dose based on Ratio of GMC is demonstrated if lower bound of 95% CI of Ratio of GMC ≥ 0.67.|Ratio of GMC|6.996|||||TWO_SIDED|95.0|6.509|7.52||||||Ratio of GMC 28 days following the booster dose (BD-Day 29) compared with 28 days following second dose (Part A-Day 57).||7.520|6.509|
82414008|NCT04470427|164537973|NON_INFERIORITY|Non-inferiority of a booster as compared with mRNA-1273 after second dose based on SRR difference is demonstrated if lower bound of 95% CI of SRR difference \> -10%.|Difference in Seroresponse|0.9|||||TWO_SIDED|95.0|0.1|1.8|||||95% CI were calculated using adjusted Wald method for the paired binary data.|Seroresponse 28 days following the booster dose (BD-Day 29) compared with 28 days following second dose (Part A-Day 57)||1.8|0.1|
82414009|NCT03244189|164538013|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.77|1.2||||||||1.20|0.77|
82414010|NCT03244189|164538014|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.72|1.37||||||||1.37|0.72|
82414011|NCT03244189|164538015|OTHER||Odds Ratio (OR)|1.44|||||TWO_SIDED|95.0|0.91|2.29||||||||2.29|0.91|
82414012|NCT04950686|164538039|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.08||0.983|TWO_SIDED||||||Mixed Models Analysis|||||||0.983
82414013|NCT04950686|164538039|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.465|TWO_SIDED||||||Mixed Models Analysis|||||||0.465
82414014|NCT04950686|164538040|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.579|TWO_SIDED||||||Mixed Models Analysis|||||||0.579
82414015|NCT04950686|164538040|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Median Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.12||0.536|TWO_SIDED||||||Mixed Models Analysis|||||||0.536
82532549|NCT03405662|164762447|SUPERIORITY|||||||0.68|||||||non-parametric Kolmogorov-Smirnov test|||||||0.68
82414016|NCT04950686|164538041|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.745|TWO_SIDED||||||Mixed Models Analysis|||||||0.745
82414017|NCT04950686|164538041|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.14||0.972|TWO_SIDED||||||Mixed Models Analysis|||||||0.972
82414018|NCT04950686|164538042|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.12||||0.682|TWO_SIDED|95.0|0.24|5.25|||Mixed Models Analysis|||||5.25|0.24|0.682
82414019|NCT04950686|164538042|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.15||||0.63|TWO_SIDED|95.0|0.28|4.69|||Mixed Models Analysis|||||4.69|0.28|0.630
82447209|NCT02008227|164603119|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.38||||0.0003|TWO_SIDED|95.0|0.22|0.65|||Log Rank|||Unstratified Analysis||0.65|0.22|0.0003
82532550|NCT03405662|164762448|SUPERIORITY|||||||0.13|||||||non-parametric Kolmogorov-Smirnov test|||||||0.13
82414020|NCT04950686|164538043|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.26||||0.418|TWO_SIDED|95.0|0.12|12.82|||Mixed Models Analysis|||||12.82|0.12|0.418
82414021|NCT04950686|164538043|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.47||||0.194|TWO_SIDED|95.0|0.13|17.29|||Mixed Models Analysis|||||17.29|0.13|0.194
82414022|NCT04950686|164538044|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.91||||0.731|TWO_SIDED|95.0|0.1|8.07|||Mixed Models Analysis|||||8.07|0.10|0.731
82414023|NCT04950686|164538044|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08||||0.786|TWO_SIDED|95.0|0.16|7.34|||Mixed Models Analysis|||||7.34|0.16|0.786
82414024|NCT04950686|164538045|SUPERIORITY|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.11||||0.71|TWO_SIDED|95.0|0.16|7.49|||Mixed Models Analysis|||||7.49|0.16|0.710
82414025|NCT04950686|164538045|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.16||||0.61|TWO_SIDED|95.0|0.16|8.73|||Mixed Models Analysis|||||8.73|0.16|0.610
82414026|NCT04950686|164538046|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.37||||0.27|TWO_SIDED|95.0|0.09|20.33|||Mixed Models Analysis|||||20.33|.09|0.270
82414027|NCT04950686|164538046|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.25||||0.465|TWO_SIDED|95.0|0.08|18.57|||Mixed Models Analysis|||||18.57|0.08|0.465
82414028|NCT04950686|164538047|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.91||||0.702|TWO_SIDED|95.0|0.07|11.95|||Mixed Models Analysis|||||11.95|0.07|0.702
82414029|NCT04950686|164538047|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.21||||0.538|TWO_SIDED|95.0|0.19|7.56|||Mixed Models Analysis|||||7.56|0.19|0.538
82414030|NCT04950686|164538048|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.084|TWO_SIDED||||||Mixed Models Analysis|||||||0.084
82414031|NCT04950686|164538048|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.501|TWO_SIDED||||||Mixed Models Analysis|||||||0.501
82414032|NCT04950686|164538049|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.614|TWO_SIDED||||||Mixed Models Analysis|||||||0.614
82447210|NCT02008227|164603123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72||||0.0111|TWO_SIDED|95.0|0.55|0.93|||Log Rank|||Pain in Chest: Stratified analysis based on the strata of IC levels per IxRS, the number of prior chemotherapy regimens per IxRS, and histology per eCRF.||0.93|0.55|0.0111
82414033|NCT04950686|164538049|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.854|TWO_SIDED||||||Mixed Models Analysis|||||||0.854
82414034|NCT04950686|164538050|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.499|TWO_SIDED||||||Mixed Models Analysis|||||||0.499
82447211|NCT02008227|164603123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.06||||0.6305|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||Cough: Unstratified Analysis||1.33|0.84|0.6305
82447212|NCT02008227|164603123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.7406|TWO_SIDED|95.0|0.81|1.16|||Log Rank|||Dyspnea: Unstratified Analysis||1.16|0.81|0.7406
82532551|NCT03405662|164762449|SUPERIORITY|||||||0.32|||||||non-parametric Kolmogorov-Smirnov test|||||||0.32
82532552|NCT03405662|164762450|SUPERIORITY|||||||0.68|||||||non-parametric Kolmogorov-Smirnov test|||||||0.68
82532553|NCT03405662|164762451|SUPERIORITY|||||||0.86|||||||non-parametric Kolmogorov-Smirnov test|||||||0.86
82414035|NCT04950686|164538050|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.623|TWO_SIDED||||||Mixed Models Analysis|||||||0.623
82414036|NCT04950686|164538051|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.84||||0.618|TWO_SIDED|95.0|0.14|5.15|||Mixed Models Analysis|||||5.15|0.14|0.618
82414037|NCT04950686|164538051|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.19||||0.626|TWO_SIDED|95.0|0.1|14.13|||Mixed Models Analysis|||||14.13|0.10|0.626
82414038|NCT04950686|164538052|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.47||||0.232|TWO_SIDED|95.0|0.23|9.18|||Mixed Models Analysis|||||9.18|0.23|.232
82414039|NCT04950686|164538052|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08||||0.811|TWO_SIDED|95.0|0.22|5.38|||Mixed Models Analysis|||||5.38|0.22|0.811
82414040|NCT04950686|164538053|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.26||||0.427|TWO_SIDED|95.0|0.16|9.94|||Mixed Models Analysis|||||9.94|0.16|0.427
82414041|NCT04950686|164538053|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.39||||0.337|TWO_SIDED|95.0|0.25|7.68|||Mixed Models Analysis|||||7.68|0.25|0.337
82414042|NCT04950686|164538054|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.11||0.419|TWO_SIDED||||||Mixed Models Analysis|||||||0.419
82414043|NCT04950686|164538054|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.808|TWO_SIDED||||||Mixed Models Analysis|||||||0.808
82414044|NCT04950686|164538055|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.12||0.616|TWO_SIDED||||||Mixed Models Analysis|||||||0.616
82414045|NCT04950686|164538055|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.12||0.486|TWO_SIDED||||||Mixed Models Analysis|||||||0.486
82414046|NCT04950686|164538056|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.638|TWO_SIDED||||||Mixed Models Analysis|||||||0.638
82414047|NCT04950686|164538056|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.226|TWO_SIDED||||||Mixed Models Analysis|||||||0.226
82414048|NCT04950686|164538057|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.14||0.63|TWO_SIDED||||||Mixed Models Analysis|||||||0.630
82414049|NCT04950686|164538057|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.880
82447213|NCT02008227|164603123|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.5221|TWO_SIDED|95.0|0.73|1.17|||Log Rank|||Arm/Shoulder Pain||1.17|0.73|0.5221
82532554|NCT03405662|164762452|SUPERIORITY|||||||0.32|||||||non-parametric Kolmogorov-Smirnov test|||||||0.32
82532555|NCT03220737|164762469|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to co-primary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
82576481|NCT00935532|164862611|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of exenatide QW to insulin glargine with respect to change in HbA1c was to be concluded if the upper limit of the 95% confidence interval (CI) for the treatment difference was less than 0.4%. Change in HbA1c from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, baseline HbA1c stratum (\<8.5%, \>=8.5%), background OAD, and presence/absence of pretreatment with SU as factors and baseline HbA1c as a covariate.|Least Squares Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.59|-0.26||No adjustments for multiplicity will be performed|ANCOVA|||The expected changes in HbA1c from baseline were considered to be the same between the groups, and the common standard deviation assumed to be 1.2%. Assuming a type I error of 0.025 (one-sided), a power of 0.9 and a noninferiority margin of 0.4%, 191 subjects per group would be necessary to confirm the noninferiority by the two-sample t-test. When the proportion of the subjects missing post-baseline data was assumed to be 10%, the target number of subjects were 420 in total (210 subjects/group).||-0.26|-0.59|<.001
82576482|NCT00935532|164862612|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of subjects achieving HbA1c\<=7% at endpoint were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which background OAD and presence/absence of pretreatment with SU served as the stratification factors.||||<.001
82414050|NCT04950686|164538058|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.569|TWO_SIDED||||||Mixed Models Analysis|||||||0.569
82414051|NCT04950686|164538058|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.12||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.980
82414052|NCT04950686|164538059|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.466|TWO_SIDED||||||Mixed Models Analysis|||||||0.466
82414053|NCT04950686|164538059|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.13||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.990
82414054|NCT04950686|164538060|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.14||0.989|TWO_SIDED||||||Mixed Models Analysis|||||||0.989
82414055|NCT04950686|164538060|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.678|TWO_SIDED||||||Mixed Models Analysis|||||||0.678
82414056|NCT04950686|164538061|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.075|TWO_SIDED||||||Mixed Models Analysis|||||||0.075
82414057|NCT04950686|164538061|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.15||0.024|TWO_SIDED||||||Mixed Models Analysis|||||||0.024
82414058|NCT04950686|164538062|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.16||0.301|TWO_SIDED||||||Mixed Models Analysis|||||||0.301
82414059|NCT04950686|164538062|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.17||0.702|TWO_SIDED||||||Mixed Models Analysis|||||||0.702
82414060|NCT04950686|164538063|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.76||||0.352|TWO_SIDED|95.0|0.1|6.13|||Mixed Models Analysis|||||6.13|0.10|0.352
82414061|NCT04950686|164538063|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.82||||0.445|TWO_SIDED|95.0|0.11|6.16|||Mixed Models Analysis|||||6.16|0.11|0.445
82414062|NCT04950686|164538064|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.55||||0.039|TWO_SIDED|95.0|0.12|2.6|||Mixed Models Analysis|||||2.60|0.12|0.039
82414063|NCT04950686|164538064|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.59||||0.073|TWO_SIDED|95.0|0.17|2.12|||Mixed Models Analysis|||||2.12|0.17|0.073
82414064|NCT04950686|164538065|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.62||||0.11|TWO_SIDED|95.0|0.13|2.93|||Mixed Models Analysis|||||2.93|0.13|0.110
82414065|NCT04950686|164538065|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.65||||0.174|TWO_SIDED|95.0|0.11|3.78|||Mixed Models Analysis|||||3.78|0.11|0.174
82414066|NCT04950686|164538066|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.31||0.208|TWO_SIDED||||||Mixed Models Analysis|||||||0.208
82414067|NCT04950686|164538066|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.35||0.302|TWO_SIDED||||||Mixed Models Analysis|||||||0.302
82414068|NCT04950686|164538067|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.35||0.483|TWO_SIDED||||||Mixed Models Analysis|||||||0.483
82414069|NCT04950686|164538067|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.3||0.933|TWO_SIDED||||||Mixed Models Analysis|||||||0.933
82414070|NCT04950686|164538068|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.32||0.877|TWO_SIDED||||||Mixed Models Analysis|||||||0.877
82414071|NCT04950686|164538068|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.32||0.418|TWO_SIDED||||||Mixed Models Analysis|||||||0.418
82414072|NCT04950686|164538069|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|2.23||||0.22|TWO_SIDED|95.0|0.05|98.76|||Mixed Models Analysis|||||98.76|0.05|0.220
82414073|NCT04950686|164538069|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.1|11.3||||||||11.30|0.10|
82414074|NCT04950686|164538070|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.48||||0.506|TWO_SIDED|95.0|0.03|63.29|||Mixed Models Analysis|||||63.29|0.03|0.506
82414075|NCT04950686|164538070|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.04|36.32||||||||36.32|0.04|
82414076|NCT04950686|164538071|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.09||||0.877|TWO_SIDED|95.0|0.04|28.37|||Mixed Models Analysis|||||28.37|0.04|0.877
82414077|NCT04950686|164538071|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.02|26.92||||||||26.92|0.02|
82414078|NCT04950686|164538072|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.04||0.005|TWO_SIDED||||||Mixed Models Analysis|||||||0.005
82414079|NCT04950686|164538072|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.05||1e-05|TWO_SIDED||||||Mixed Models Analysis|||||||0.00001
82414080|NCT04950686|164538073|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.314|TWO_SIDED||||||Mixed Models Analysis|||||||0.314
82414081|NCT04950686|164538073|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.176|TWO_SIDED||||||Mixed Models Analysis|||||||0.176
82532556|NCT03220737|164762470|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to coprimary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval.|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
82414082|NCT04950686|164538074|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.009|TWO_SIDED||||||Mixed Models Analysis|||||||0.009
82414083|NCT04950686|164538074|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.008|TWO_SIDED||||||Mixed Models Analysis|||||||0.008
82414084|NCT04950686|164538075|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.132|TWO_SIDED||||||Mixed Models Analysis|||||||0.132
82414085|NCT04950686|164538075|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.04||0.008|TWO_SIDED||||||Mixed Models Analysis|||||||0.008
82414086|NCT04950686|164538076|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.05||0.941|TWO_SIDED||||||Mixed Models Analysis|||||||0.941
82532557|NCT03220737|164762471|NON_INFERIORITY|This analysis was based on the lower confidence limit and did not entail a comparative group. The requirement was for the lower limit of the 98.3% CI be at least 70%. Multiplicity adjustment due to coprimary endpoints allotted alpha=0.017 to this endpoint resulting in a 98.3% confidence interval.|Proportion|0.985|||||ONE_SIDED|98.3|0.7||||||||||0.7|
82532558|NCT03220737|164762472|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|5.8|||||TWO_SIDED|96.7|2.4|7.1|||||Newcombe method of determining the difference between two independent binomial distributions|||7.1|2.4|
82532559|NCT03220737|164762473|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|4.3|||||TWO_SIDED|96.7|-0.3|6.2||||||||6.2|-0.3|
82414087|NCT04950686|164538076|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.569|TWO_SIDED||||||Mixed Models Analysis|||||||0.569
82414088|NCT04950686|164538077|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.354|TWO_SIDED||||||Mixed Models Analysis|||||||0.354
82414089|NCT04950686|164538077|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.038|TWO_SIDED||||||Mixed Models Analysis|||||||0.038
82414090|NCT04950686|164538078|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.501|TWO_SIDED||||||Mixed Models Analysis|||||||0.501
82447214|NCT02008227|164603138|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.0012|TWO_SIDED|95.0|0.7|0.92|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.92|0.70|0.0012
82532560|NCT03220737|164762474|NON_INFERIORITY|Non-inferiority was determined using the Newcombe method of determining the difference between two independent binomial distributions. Multiple comparison adjustment for co-primary endpoints allotted alpha=0.033 to this comparison. The lower limit of the 96.7% CI needed to be greater than -10 percentage points to prove non-inferiority.|Risk Difference (RD)|4.5|||||TWO_SIDED|96.7|-1.1|6.4||||||||6.4|-1.1|
82532561|NCT03220737|164762475|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82532562|NCT03220737|164762476|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82532563|NCT03220737|164762477|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82414091|NCT04950686|164538078|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.385|TWO_SIDED||||||Mixed Models Analysis|||||||0.385
82414092|NCT04950686|164538079|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.095|TWO_SIDED||||||Mixed Models Analysis|||||||0.095
82414093|NCT04950686|164538079|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.349|TWO_SIDED||||||Mixed Models Analysis|||||||0.349
82414094|NCT04950686|164538080|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.846|TWO_SIDED||||||Mixed Models Analysis|||||||0.846
82414095|NCT04950686|164538080|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.103|TWO_SIDED||||||Mixed Models Analysis|||||||0.103
82414096|NCT04950686|164538081|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.864|TWO_SIDED||||||Mixed Models Analysis|||||||0.864
82414097|NCT04950686|164538081|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.054|TWO_SIDED||||||Mixed Models Analysis|||||||0.054
82414098|NCT04950686|164538082|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.05||0.168|TWO_SIDED||||||Mixed Models Analysis|||||||0.168
82414099|NCT04950686|164538082|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.063|TWO_SIDED||||||Mixed Models Analysis|||||||0.063
82532564|NCT03220737|164762481|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82576483|NCT00935532|164862613|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of subjects achieving HbA1c\<=6.5% at endpoint were compared between treatments using a CMH test, in which background OAD and presence/absence of pretreatment with SU served as the stratification factors.||||<.001
82414100|NCT04950686|164538083|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.819|TWO_SIDED||||||Mixed Models Analysis|||||||0.819
82414101|NCT04950686|164538083|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.775|TWO_SIDED||||||Mixed Models Analysis|||||||0.775
82414102|NCT04950686|164538084|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.034|TWO_SIDED||||||Mixed Models Analysis|||||||0.034
82414103|NCT04950686|164538084|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.579|TWO_SIDED||||||Mixed Models Analysis|||||||0.579
82414104|NCT04950686|164538085|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.485|TWO_SIDED||||||Mixed Models Analysis|||||||0.485
82532565|NCT03220737|164762482|SUPERIORITY|Fisher's exact test was used to compare Vaxchora vaccine to placebo on the percent of subjects who seroconverted. For Vaxchora vs placebo within each cohort at each Day on study timepoint, the p-value was the same (p\<0.0001).|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82414105|NCT04950686|164538085|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.911|TWO_SIDED||||||Mixed Models Analysis|||||||0.911
82532566|NCT01183650|164762578|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.05|||||TWO_SIDED|90.0|0.84|1.32|||||Day 1 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.32|0.84|
82532567|NCT01183650|164762578|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.8|||||TWO_SIDED|90.0|0.64|1.0|||||Day 10 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.00|0.64|
82532568|NCT01183650|164762578|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.31|||||TWO_SIDED|90.0|1.05|1.64|||||Day 1 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.64|1.05|
82532569|NCT01183650|164762578|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.99|||||TWO_SIDED|90.0|0.79|1.24|||||Day 10 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.24|0.79|
82414106|NCT04950686|164538086|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.583|TWO_SIDED||||||Mixed Models Analysis|||||||0.583
82414107|NCT04950686|164538086|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.971|TWO_SIDED||||||Mixed Models Analysis|||||||0.971
82414108|NCT04950686|164538087|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.602|TWO_SIDED||||||Mixed Models Analysis|||||||0.602
82414109|NCT04950686|164538087|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.04||0.948|TWO_SIDED||||||Mixed Models Analysis|||||||0.948
82414110|NCT04950686|164538088|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.763|TWO_SIDED||||||Mixed Models Analysis|||||||0.763
82414111|NCT04950686|164538088|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.578|TWO_SIDED||||||Mixed Models Analysis|||||||0.578
82414112|NCT04950686|164538089|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.863|TWO_SIDED||||||Mixed Models Analysis|||||||0.863
82414113|NCT04950686|164538089|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.538|TWO_SIDED||||||Mixed Models Analysis|||||||0.538
82414114|NCT04950686|164538090|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|1.41||0.662|TWO_SIDED||||||Mixed Models Analysis|||||||0.662
82414115|NCT04950686|164538090|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|1.81||0.406|TWO_SIDED||||||Mixed Models Analysis|||||||0.406
82414116|NCT04950686|164538091|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|1.64||0.105|TWO_SIDED||||||Mixed Models Analysis|||||||0.105
82532570|NCT01183650|164762579|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.98|||||TWO_SIDED|90.0|0.81|1.18|||||Day 1 Tadalafil Ratio of Geometric Least Squares Means(Japanese/Caucasian)|||1.18|0.81|
82532571|NCT01183650|164762579|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.81|||||TWO_SIDED|90.0|0.67|0.97|||||Day 10 Tadalafil Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||0.97|0.67|
82532572|NCT01183650|164762579|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Mean|1.33|||||TWO_SIDED|90.0|1.07|1.67|||||Day 1 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.67|1.07|
82532573|NCT01183650|164762579|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.03|||||TWO_SIDED|90.0|0.83|1.29|||||Day 10 Metabolite IC710 Ratio of Geometric Least Squares Means (Japanese/Caucasian)|||1.29|0.83|
82532574|NCT01183650|164762580|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||||95.0|||||Wilcoxon (Mann-Whitney)|Tadalafil Median Difference (Day 1 - Day 10) in Japanese Participants||||||
82532575|NCT01183650|164762580|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||||95.0|||||Wilcoxon (Mann-Whitney)|Tadalafil Median Difference (Day 1 - Day 10) in Caucasian Participants||||||
82532576|NCT01183650|164762580|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|19.83||||||95.0|||||Wilcoxon (Mann-Whitney)|Metabolite IC710 Median Difference (Day 1 - Day 10) in Japanese participants||||||
82414117|NCT04950686|164538091|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-1.33|STANDARD_ERROR_OF_MEAN|1.91||0.487|TWO_SIDED||||||Mixed Models Analysis|||||||0.487
82414118|NCT04950686|164538092|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|1.68||0.171|TWO_SIDED||||||Mixed Models Analysis|||||||0.171
82414119|NCT04950686|164538092|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.06|STANDARD_ERROR_OF_MEAN|1.9||0.278|TWO_SIDED||||||Mixed Models Analysis|||||||0.278
82414120|NCT04950686|164538093|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.283|TWO_SIDED||||||Mixed Models Analysis|||||||0.283
82414121|NCT04950686|164538093|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.824|TWO_SIDED||||||Mixed Models Analysis|||||||0.824
82414122|NCT04950686|164538094|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.965|TWO_SIDED||||||Mixed Models Analysis|||||||0.965
82414123|NCT04950686|164538094|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.902|TWO_SIDED||||||Mixed Models Analysis|||||||0.902
82414124|NCT04950686|164538095|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.074|TWO_SIDED||||||Mixed Models Analysis|||||||0.074
82414125|NCT04950686|164538095|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.828|TWO_SIDED||||||Mixed Models Analysis|||||||0.828
82414126|NCT04950686|164538096|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.25||0.336|TWO_SIDED||||||Mixed Models Analysis|||||||0.336
82414127|NCT04950686|164538096|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.28||0.902|TWO_SIDED||||||Mixed Models Analysis|||||||0.902
82414128|NCT04950686|164538097|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.24||0.629|TWO_SIDED||||||Mixed Models Analysis|||||||0.629
82414129|NCT04950686|164538097|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.29||0.318|TWO_SIDED||||||Mixed Models Analysis|||||||0.318
82414130|NCT04950686|164538098|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.24||0.863|TWO_SIDED||||||Mixed Models Analysis|||||||0.863
82414131|NCT04950686|164538098|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.299|TWO_SIDED||||||Mixed Models Analysis|||||||0.299
82414132|NCT04950686|164538099|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.010
82414133|NCT04950686|164538099|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.119|TWO_SIDED||||||Mixed Models Analysis|||||||0.119
82532577|NCT01183650|164762580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.02||||||95.0|||||Wilcoxon (Mann-Whitney)|Metabolite IC710 Median Difference (Day 1 - Day 10) in Caucasian participants||||||
82414134|NCT04950686|164538100|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.161|TWO_SIDED||||||Mixed Models Analysis|||||||0.161
82414135|NCT04950686|164538100|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.087|TWO_SIDED||||||Mixed Models Analysis|||||||0.087
82414136|NCT04950686|164538101|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.810
82414137|NCT04950686|164538101|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.901|TWO_SIDED||||||Mixed Models Analysis|||||||0.901
82414138|NCT04950686|164538102|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.145|TWO_SIDED||||||Mixed Models Analysis|||||||0.145
82414139|NCT04950686|164538102|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.096|TWO_SIDED||||||Mixed Models Analysis|||||||0.096
82414140|NCT04950686|164538103|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.08||0.272|TWO_SIDED||||||Mixed Models Analysis|||||||0.272
82414141|NCT04950686|164538103|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.689|TWO_SIDED||||||Mixed Models Analysis|||||||0.689
82414142|NCT04950686|164538104|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.08||0.824|TWO_SIDED||||||Mixed Models Analysis|||||||0.824
82414143|NCT04950686|164538104|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.271|TWO_SIDED||||||Mixed Models Analysis|||||||0.271
82414144|NCT04950686|164538105|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.04||0.391|TWO_SIDED||||||Mixed Models Analysis|||||||0.391
82414145|NCT04950686|164538105|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.002|STANDARD_ERROR_OF_MEAN|0.04||0.952|TWO_SIDED||||||Mixed Models Analysis|||||||0.952
82414146|NCT04950686|164538106|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.04||0.925|TWO_SIDED||||||Mixed Models Analysis|||||||0.925
82414147|NCT04950686|164538106|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.05||0.153|TWO_SIDED||||||Mixed Models Analysis|||||||0.153
82414148|NCT04950686|164538107|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.495|TWO_SIDED||||||Mixed Models Analysis|||||||0.495
82414149|NCT04950686|164538107|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.06||0.229|TWO_SIDED||||||Mixed Models Analysis|||||||0.229
82414150|NCT04950686|164538108|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.753|TWO_SIDED||||||Mixed Models Analysis|||||||0.753
82426511|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.5499|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80 Remission||1.7|0.7|0.5499
82532578|NCT04827134|164762585|OTHER||Ratio of Geometric Least Square Means|0.88|||||TWO_SIDED|90.0|0.8344|0.9282|||||An analysis of variance (ANOVA) was performed on parameter AUC(0-inf) for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9282|0.8344|
82532579|NCT04827134|164762585|OTHER||Ratio of Geometric Least Square Means|0.8578|||||TWO_SIDED|90.0|0.8168|0.9007|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9007|0.8168|
82532580|NCT04827134|164762585|OTHER||Ratio of Geometric Least Square Means|0.8919|||||TWO_SIDED|90.0|0.8316|0.9566|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9566|0.8316|
82532581|NCT04827134|164762586|OTHER||Ratio of Geometric Least Square Means|0.8744|||||TWO_SIDED|90.0|0.8293|0.9219|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9219|0.8293|
82532582|NCT04827134|164762586|OTHER||Ratio of Geometric Least Square Means|0.8567|||||TWO_SIDED|90.0|0.8159|0.8995|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.8995|0.8159|
82532583|NCT04827134|164762586|OTHER||Ratio of Geometric Least Square Means|0.8798|||||TWO_SIDED|90.0|0.8202|0.9438|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.9438|0.8202|
82532584|NCT04827134|164762587|OTHER||Ratio of Geometric Least Square Means|0.7102|||||TWO_SIDED|90.0|0.6598|0.7643|||||An analysis of variance was performed on parameter Cmax for Analyte DTG to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.7643|0.6598|
82532585|NCT04827134|164762587|OTHER||Ratio of Geometric Least Square Means|0.4503|||||TWO_SIDED|90.0|0.3976|0.51|||||An analysis of variance was performed on parameter Cmax for Analyte ABC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.5100|0.3976|
82532586|NCT04827134|164762587|OTHER||Ratio of Geometric Least Square Means|0.6373|||||TWO_SIDED|90.0|0.5594|0.726|||||An analysis of variance was performed on parameter Cmax for Analyte 3TC to compare treatment arms Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fed with Cohort 1: TRIUMEQ (DTG/ABC/3TC) Fasted.|||0.7260|0.5594|
82576484|NCT00935532|164862614|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.28|STANDARD_ERROR_OF_MEAN|3.23||0.103|TWO_SIDED|95.0|-11.62|1.07|||ANCOVA|||Change in FSG from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline FSG as a covariate.||1.07|-11.62|0.103
82414151|NCT04950686|164538108|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.350
82414152|NCT04950686|164538109|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.541|TWO_SIDED||||||Mixed Models Analysis|||||||0.541
82426512|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.11|||<|0.0001|TWO_SIDED|95.0|2.6|6.4|||Cochran-Mantel-Haenszel|||Week 80 Remission||6.4|2.6|<0.0001
82426513|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.8|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||7.0|2.8|<0.0001
82426514|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.1109|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||1.9|0.8|0.1109
82426515|NCT00565409|164561887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.0001|TWO_SIDED|95.0|2.5|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88 Remission||6.0|2.5|<0.0001
82426516|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||-0.4|-0.7|<0.0001
82426517|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9344|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||0.2|-0.2|0.9344
82426518|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 40||-0.4|-0.7|<0.0001
82426519|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||-0.7|-1.0|<0.0001
82426520|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.6173|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||0.2|-0.1|0.6173
82426521|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 48||-0.7|-1.1|<0.0001
82426522|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||-0.7|-1.1|<0.0001
82426523|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.5136|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||0.3|-0.1|0.5136
82426524|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 56||-0.8|-1.2|<0.0001
82426525|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||-0.7|-1.1|<0.0001
82447215|NCT02008227|164603139|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0045|TWO_SIDED|95.0|0.64|0.92|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.92|0.64|0.0045
82447216|NCT02008227|164603140|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.0012|TWO_SIDED|95.0|0.49|0.84|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.84|0.49|0.0012
82447217|NCT02008227|164603141|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.3|0.68|||Log Rank|||Stratified analysis based on the strata of IC levels per interactive voice/web response system (IxRS), the number of prior chemotherapy regimens per IxRS, and histology per electronic case report form (eCRF).||0.68|0.30|<0.0001
82447218|NCT02008227|164603142|SUPERIORITY_OR_OTHER_LEGACY||Stratified Hazard Ratio|0.96||||0.4981|TWO_SIDED|95.0|0.85|1.08|||Log Rank|||||1.08|0.85|0.4981
82532587|NCT04827134|164762588|OTHER||Ratio of Geometric Least Square Means|0.9148|||||TWO_SIDED|90.0|0.8834|0.9472|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9472|0.8834|
82648025|NCT04133519|165011390|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.7564|TWO_SIDED|95.0|-0.236|0.325|||ANOVA|||Average abdominal pain frequency at Week 13-16 will be statistically compared between GDH and comparator using an ANOVA model adjusted for gender and IBS subtype. The daily pain frequency measurement was derived from the daily pain intensity measurement. Days where severity was \>0 were considered a day with pain and were recorded as positive. Days with a score of 0 were days without pain. Mean represents the mean number of days in each time period with abdominal pain.||0.325|-0.236|0.7564
82414153|NCT04950686|164538109|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.887|TWO_SIDED||||||Mixed Models Analysis|||||||0.887
82414154|NCT04950686|164538110|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.375|TWO_SIDED||||||Mixed Models Analysis|||||||0.375
82414155|NCT04950686|164538110|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.293|TWO_SIDED||||||Mixed Models Analysis|||||||0.293
82447219|NCT02008227|164603144|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.32|||||TWO_SIDED|95.0|0.21|0.48||||||||0.48|0.21|
82447220|NCT00757822|164603160|SUPERIORITY_OR_OTHER||Difference in Percentages|4.6|||>|0.76|TWO_SIDED|90.0|-9.5|18.6|||Fisher Exact|||The incidence of PON per arm will be determined and expressed as a percentage of the total patients per arm. Treatment efficacy will be measured as the percentage-point decrease in PON in the treatment arm (Marinol) compared to the standard therapy arm (ondansetron). Null hypothesis: Marinol treatment is not superior to ondansetron treatment. We will test the statistical significance with Fisher's Exact test at a significance level of 0.05||18.6|-9.5|>0.76
82447221|NCT00757822|164603161|SUPERIORITY_OR_OTHER||||||>|0.92|||||||Fisher Exact|One-sided Fisher's Exact test was performed comparing the percentage of subjects with at least one VAS score \> 0. (Marinol\>Ondansetron).||||||>0.92
82414156|NCT04950686|164538111|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.97|STANDARD_ERROR_OF_MEAN|1.89||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
82414157|NCT04950686|164538111|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.08|STANDARD_ERROR_OF_MEAN|2.21||0.163|TWO_SIDED||||||Mixed Models Analysis|||||||0.163
82414158|NCT04950686|164538112|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.09|STANDARD_ERROR_OF_MEAN|1.99||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.011
82447222|NCT00757822|164603162|SUPERIORITY_OR_OTHER||Difference in Percentages|7.7|||>|0.55|TWO_SIDED|90.0|-12.1|13.3|||Fisher Exact|||||13.3|-12.1|>0.55
82447223|NCT00757822|164603163|SUPERIORITY_OR_OTHER||||||=|0.981|TWO_SIDED||||||Wilcoxon Rank-Sum test|||||||=0.981
82447224|NCT00757822|164603164|SUPERIORITY_OR_OTHER||||||>|0.9|||||||Fisher Exact|||||||>0.90
82447225|NCT00757822|164603165|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Fisher Exact|||||||>0.37
82532588|NCT04827134|164762588|OTHER||Ratio of Geometric Least Square Means|0.8847|||||TWO_SIDED|90.0|0.8303|0.9426|||||An analysis of variance was performed on parameter AUC(0-inf) for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9426|0.8303|
82532589|NCT04827134|164762589|OTHER||Ratio of Geometric Least Square Means|0.9163|||||TWO_SIDED|90.0|0.8862|0.9475|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9475|0.8862|
82447226|NCT00757822|164603166|SUPERIORITY_OR_OTHER||||||>|0.75|TWO_SIDED||||||FREQ Procedure|||Comparisons at 24-48 hr post-surgery. Null hypothesis: dronabinol is not superior to ondansetron in patient satisfaction.||||>0.75
82447227|NCT00757822|164603166|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||FREQ procedure|||Comparisons of both arms at 2-6 weeks; null hypothesis: dronabinol is not superior to ondansetron in patient satisfaction||||>0.10
82447228|NCT00757822|164603167|SUPERIORITY_OR_OTHER||||||>|0.29|TWO_SIDED||||||FREQ procedure|||Comparison of both group responses at 24-48 hours.||||>0.29
82532590|NCT04827134|164762589|OTHER||Ratio of Geometric Least Square Means|0.8806|||||TWO_SIDED|90.0|0.8251|0.9398|||||An analysis of variance was performed on parameter AUC(0-t) for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.9398|0.8251|
82532591|NCT04827134|164762590|OTHER||Ratio of Geometric Least Square Means|0.7284|||||TWO_SIDED|90.0|0.6576|0.8068|||||An analysis of variance was performed on parameter Cmax for Analyte DTG to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.8068|0.6576|
82414159|NCT04950686|164538112|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.21|STANDARD_ERROR_OF_MEAN|2.27||0.159|TWO_SIDED||||||Mixed Models Analysis|||||||0.159
82414160|NCT04950686|164538113|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.83|STANDARD_ERROR_OF_MEAN|2.06||0.064|TWO_SIDED||||||Mixed Models Analysis|||||||0.064
82414161|NCT04950686|164538113|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.37|STANDARD_ERROR_OF_MEAN|2.27||0.137|TWO_SIDED||||||Mixed Models Analysis|||||||0.137
82414162|NCT04950686|164538114|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-5.05|STANDARD_ERROR_OF_MEAN|1.52||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||0.001
82414163|NCT04950686|164538114|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.25|STANDARD_ERROR_OF_MEAN|1.76||0.065|TWO_SIDED||||||Mixed Models Analysis|||||||0.065
82447229|NCT00757822|164603167|SUPERIORITY_OR_OTHER||||||>|0.55|TWO_SIDED||||||FREQ Procedure|||Comparisons of both arms at 2-6 weeks.||||>0.55
82414164|NCT04950686|164538115|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.67|STANDARD_ERROR_OF_MEAN|1.51||0.015|TWO_SIDED||||||Mixed Models Analysis|||||||0.015
82414165|NCT04950686|164538115|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-2.56|STANDARD_ERROR_OF_MEAN|1.78||0.152|TWO_SIDED||||||Mixed Models Analysis|||||||0.152
82414166|NCT04950686|164538116|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.78|STANDARD_ERROR_OF_MEAN|1.78||0.034|TWO_SIDED||||||Mixed Models Analysis|||||||0.034
82414167|NCT04950686|164538116|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-3.13|STANDARD_ERROR_OF_MEAN|1.84||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.090
82414168|NCT04950686|164538117|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.282|TWO_SIDED||||||Mixed Models Analysis|||||||0.282
82414169|NCT04950686|164538117|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.532|TWO_SIDED||||||Mixed Models Analysis|||||||0.532
82414170|NCT04950686|164538118|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.675|TWO_SIDED||||||Mixed Models Analysis|||||||0.675
82414171|NCT04950686|164538118|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.443|TWO_SIDED||||||Mixed Models Analysis|||||||0.443
82414172|NCT04950686|164538119|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.685|TWO_SIDED||||||Mixed Models Analysis|||||||0.685
82532592|NCT04827134|164762590|OTHER||Ratio of Geometric Least Square Means|0.5191|||||TWO_SIDED|90.0|0.4535|0.5943|||||An analysis of variance was performed on parameter Cmax for Analyte 3TC to compare treatment arms Cohort 2: DOVATO (DTG/3TC) Fed with Cohort 2: DOVATO (DTG/3TC) Fasted.|||0.5943|0.4535|
82532593|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.23|2.69||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 5 min||2.69|-1.23|
82576485|NCT00935532|164862615|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.46|-1.56|||ANCOVA|||Change in body weight from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline body weight as a covariate.||-1.56|-2.46|<.001
82414173|NCT04950686|164538119|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.726|TWO_SIDED||||||Mixed Models Analysis|||||||0.726
82414174|NCT04950686|164538120|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.04||0.282|TWO_SIDED||||||Mixed Models Analysis|||||||0.282
82414175|NCT04950686|164538120|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.591|TWO_SIDED||||||Mixed Models Analysis|||||||0.591
82414176|NCT04950686|164538121|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.675|TWO_SIDED||||||Mixed Models Analysis|||||||0.675
82414177|NCT04950686|164538121|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.359|TWO_SIDED||||||Mixed Models Analysis|||||||0.359
82414178|NCT04950686|164538122|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.rt-type scale from 1 (strongly disagree) to 4 (strongly agree); higher scores indicate greater self-efficacy to use a dental dam; range = 1-4|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.685|TWO_SIDED||||||Mixed Models Analysis|||||||0.685
82414179|NCT04950686|164538122|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.198|TWO_SIDED||||||Mixed Models Analysis|||||||0.198
82414180|NCT04950686|164538123|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.-type scale from 1 (strongly disagree) to 4 (strongly agree); higher scores indicate greater self-efficacy to use a dental dam; range = 1-4|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.46|TWO_SIDED||||||Mixed Models Analysis|||||||0.460
82414181|NCT04950686|164538123|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.822|TWO_SIDED||||||Mixed Models Analysis|||||||0.822
82414182|NCT04950686|164538124|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.671|TWO_SIDED||||||Mixed Models Analysis|||||||0.671
82414183|NCT04950686|164538124|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.939|TWO_SIDED||||||Mixed Models Analysis|||||||0.939
82414184|NCT04950686|164538125|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.655|TWO_SIDED||||||Mixed Models Analysis|||||||0.655
82414185|NCT04950686|164538125|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.315|TWO_SIDED||||||Mixed Models Analysis|||||||0.315
82414186|NCT04950686|164538126|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.002|STANDARD_ERROR_OF_MEAN|0.04||0.966|TWO_SIDED||||||Mixed Models Analysis|||||||0.966
82414187|NCT04950686|164538126|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.708|TWO_SIDED||||||Mixed Models Analysis|||||||0.708
82414188|NCT04950686|164538127|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.04||0.887|TWO_SIDED||||||Mixed Models Analysis|||||||0.887
82414189|NCT04950686|164538127|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.077|TWO_SIDED||||||Mixed Models Analysis|||||||0.077
82532594|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|-1.32|2.29||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 10 min||2.29|-1.32|
82532595|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.76|2.08||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 20 min||2.08|-1.76|
82532596|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.09|2.35||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 30 min||2.35|-1.09|
82532597|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-1.88|2.25||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1 hour||2.25|-1.88|
82532598|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.47|2.37||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1.5 hours||2.37|-1.47|
82414190|NCT04950686|164538128|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.217|TWO_SIDED||||||Mixed Models Analysis|||||||0.217
82414191|NCT04950686|164538128|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.879|TWO_SIDED||||||Mixed Models Analysis|||||||0.879
82414192|NCT04950686|164538129|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.866|TWO_SIDED||||||Mixed Models Analysis|||||||0.866
82414193|NCT04950686|164538129|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.695|TWO_SIDED||||||Mixed Models Analysis|||||||0.695
82414194|NCT04950686|164538130|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.06||0.94|TWO_SIDED||||||Mixed Models Analysis|||||||0.940
82414195|NCT04950686|164538130|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.451|TWO_SIDED||||||Mixed Models Analysis|||||||0.451
82532599|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-1.99|1.92||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 2 hours||1.92|-1.99|
82414196|NCT04950686|164538131|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.442|TWO_SIDED||||||Mixed Models Analysis|||||||0.442
82414197|NCT04950686|164538131|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.082|TWO_SIDED||||||Mixed Models Analysis|||||||0.082
82414198|NCT04950686|164538132|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED||||||Mixed Models Analysis|||||||0.236
82414199|NCT04950686|164538132|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.674|TWO_SIDED||||||Mixed Models Analysis|||||||0.674
82426526|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.4868|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||0.3|-0.1|0.4868
82414200|NCT04950686|164538133|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.135|TWO_SIDED||||||Mixed Models Analysis|||||||0.135
82414201|NCT04950686|164538133|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.500
82414202|NCT04950686|164538134|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.09||0.956|TWO_SIDED||||||Mixed Models Analysis|||||||0.956
82414203|NCT04950686|164538134|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.09||0.214|TWO_SIDED||||||Mixed Models Analysis|||||||0.214
82414204|NCT04950686|164538135|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.337|TWO_SIDED||||||Mixed Models Analysis|||||||0.337
82414205|NCT04950686|164538135|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.07||0.957|TWO_SIDED||||||Mixed Models Analysis|||||||0.957
82414206|NCT04950686|164538136|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.086|TWO_SIDED||||||Mixed Models Analysis|||||||0.086
82414207|NCT04950686|164538136|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.515|TWO_SIDED||||||Mixed Models Analysis|||||||0.515
82414208|NCT04950686|164538137|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.597|TWO_SIDED||||||Mixed Models Analysis|||||||0.597
82414209|NCT04950686|164538137|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.551|TWO_SIDED||||||Mixed Models Analysis|||||||0.551
82414210|NCT04950686|164538138|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.634|TWO_SIDED||||||Mixed Models Analysis|||||||0.634
82414211|NCT04950686|164538138|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.308|TWO_SIDED||||||Mixed Models Analysis|||||||0.308
82414212|NCT04950686|164538139|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.415|TWO_SIDED||||||Mixed Models Analysis|||||||0.415
82414213|NCT04950686|164538139|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.721|TWO_SIDED||||||Mixed Models Analysis|||||||0.721
82532600|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|2.39|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|0.35|4.43||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 3 hours||4.43|0.35|
82414214|NCT04950686|164538140|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.261|TWO_SIDED||||||Mixed Models Analysis|||||||0.261
82414215|NCT04950686|164538140|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.369|TWO_SIDED||||||Mixed Models Analysis|||||||0.369
82426527|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 64||-0.7|-1.1|<0.0001
82414216|NCT04950686|164538141|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.124|TWO_SIDED||||||Mixed Models Analysis|||||||0.124
82414217|NCT04950686|164538141|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.794|TWO_SIDED||||||Mixed Models Analysis|||||||0.794
82414218|NCT04950686|164538142|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.011|TWO_SIDED||||||Mixed Models Analysis|||||||0.011
82414219|NCT04950686|164538142|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED||||||Mixed Models Analysis|||||||0.068
82414220|NCT04950686|164538143|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.585|TWO_SIDED||||||Mixed Models Analysis|||||||0.585
82414221|NCT04950686|164538143|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.338|TWO_SIDED||||||Mixed Models Analysis|||||||0.338
82414222|NCT04950686|164538144|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.259|TWO_SIDED||||||Mixed Models Analysis|||||||0.259
82414223|NCT04950686|164538144|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.003|STANDARD_ERROR_OF_MEAN|0.05||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.950
82414224|NCT04950686|164538145|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.411|TWO_SIDED||||||Mixed Models Analysis|||||||0.411
82414225|NCT04950686|164538145|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.491|TWO_SIDED||||||Mixed Models Analysis|||||||0.491
82414226|NCT04950686|164538146|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.498|TWO_SIDED||||||Mixed Models Analysis|||||||0.498
82414227|NCT04950686|164538146|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.573|TWO_SIDED||||||Mixed Models Analysis|||||||0.573
82414228|NCT04950686|164538147|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.128|TWO_SIDED||||||Mixed Models Analysis|||||||0.128
82414229|NCT04950686|164538147|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.013|TWO_SIDED||||||Mixed Models Analysis|||||||0.013
82426528|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||-0.8|-1.3|<0.0001
82426529|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.7847|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||0.2|-0.2|0.7847
82532601|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-1.57|2.12||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 4 hours||2.12|-1.57|
82532602|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-1.15|3.37||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 8 hours||3.37|-1.15|
82414230|NCT04950686|164538148|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.0001|STANDARD_ERROR_OF_MEAN|0.07||0.999|TWO_SIDED||||||Mixed Models Analysis|||||||0.999
82414231|NCT04950686|164538148|EQUIVALENCE|This arm will receive Health Aware for Young Adults in between the pretest and posttest questionnaire. Health Aware for Young Adults is a web-based sexual and relationship health promotion program. The program contains the same health content as Media Aware for Young Adults but without the media literacy education components. The program is self-paced and includes four modules.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.08||0.638|TWO_SIDED||||||Mixed Models Analysis|||||||0.638
82414232|NCT04950686|164538149|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.841|TWO_SIDED||||||Mixed Models Analysis|||||||0.841
82414233|NCT04950686|164538149|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.08||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.270
82414234|NCT04950686|164538150|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.94|TWO_SIDED||||||Mixed Models Analysis|||||||0.940
82414235|NCT04950686|164538150|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.09||0.992|TWO_SIDED||||||Mixed Models Analysis|||||||0.992
82414236|NCT04950686|164538151|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.470
82414237|NCT04950686|164538151|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.130
82414238|NCT04950686|164538152|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.931|TWO_SIDED||||||Mixed Models Analysis|||||||0.931
82414239|NCT04950686|164538152|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.666|TWO_SIDED||||||Mixed Models Analysis|||||||0.666
82414240|NCT04950686|164538153|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.822|TWO_SIDED||||||Mixed Models Analysis|||||||0.822
82532603|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|-1.52|2.14||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 24 hours||2.14|-1.52|
82414241|NCT04950686|164538153|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.721|TWO_SIDED||||||Mixed Models Analysis|||||||0.721
82414242|NCT04950686|164538154|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.54|TWO_SIDED||||||Mixed Models Analysis|||||||0.540
82414243|NCT04950686|164538154|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.06||0.956|TWO_SIDED||||||Mixed Models Analysis|||||||0.956
82414244|NCT04950686|164538155|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.175|TWO_SIDED||||||Mixed Models Analysis|||||||0.175
82414245|NCT04950686|164538155|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.136|TWO_SIDED||||||Mixed Models Analysis|||||||0.136
82414246|NCT04950686|164538156|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.829|TWO_SIDED||||||Mixed Models Analysis|||||||0.829
82414247|NCT04950686|164538156|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.748|TWO_SIDED||||||Mixed Models Analysis|||||||0.748
82414248|NCT04950686|164538157|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.490
82414249|NCT04950686|164538157|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.13||0.831|TWO_SIDED||||||Mixed Models Analysis|||||||0.831
82414250|NCT04950686|164538158|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.1||0.35|TWO_SIDED||||||Mixed Models Analysis|||||||0.350
82414251|NCT04950686|164538158|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.1||0.235|TWO_SIDED||||||Mixed Models Analysis|||||||0.235
82414252|NCT04950686|164538159|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.682|TWO_SIDED||||||Mixed Models Analysis|||||||0.682
82414253|NCT04950686|164538159|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.11||0.373|TWO_SIDED||||||Mixed Models Analysis|||||||0.373
82414254|NCT04950686|164538160|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|1.25||||0.242|TWO_SIDED|95.0|0.24|6.63|||Mixed Models Analysis|||||6.63|0.24|0.242
82532604|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|4.81|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|2.84|6.78||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 5 min||6.78|2.84|
82532605|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|1.93|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|0.12|3.73||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 10 min||3.73|0.12|
82532606|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-1.71|2.12||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 20 min||2.12|-1.71|
82532607|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.29|2.15||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 30 min||2.15|-1.29|
82532608|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|90.0|-1.6|2.53||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1 hour||2.53|-1.60|
82414255|NCT04950686|164538160|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.78||||0.207|TWO_SIDED|95.0|0.11|5.72|||Mixed Models Analysis|||||5.72|0.11|0.207
82414256|NCT04950686|164538161|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.88||||0.576|TWO_SIDED|95.0|0.51|1.52|||Mixed Models Analysis|||||1.52|0.51|0.576
82426530|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 72||-0.8|-1.2|<0.0001
82532609|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-3.03|0.81||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 1.5 hours||0.81|-3.03|
82447230|NCT02814175|164603168|OTHER|Between group difference|point estimate difference|28.3|||<|0.001|TWO_SIDED|95.0|17.8|38.9|||Cochran-Mantel-Haenszel|Adjusted for the stratification factor which is the duration of prior MTX 15 mg ew use of ≤ 3 months or \> 3 months.||||38.9|17.8|< 0.001
82532610|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|90.0|-3.13|0.78||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 2 hours||0.78|-3.13|
82414257|NCT04950686|164538161|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.97||||0.888|TWO_SIDED|95.0|0.46|2.03|||Mixed Models Analysis|||||2.03|0.46|0.888
82414258|NCT04950686|164538162|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.87||||0.467|TWO_SIDED|95.0|0.22|3.45|||Mixed Models Analysis|||||3.45|0.22|0.467
82414259|NCT04950686|164538162|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Odds Ratio (OR)|0.97||||0.888|TWO_SIDED|95.0|0.46|2.03|||Mixed Models Analysis|||||2.03|0.46|0.888
82414260|NCT04950686|164538163|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.07||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
82414261|NCT04950686|164538163|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.432|TWO_SIDED||||||Mixed Models Analysis|||||||0.432
82414262|NCT04950686|164538164|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.031|TWO_SIDED||||||Mixed Models Analysis|||||||0.031
82414263|NCT04950686|164538164|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.09||0.794|TWO_SIDED||||||Mixed Models Analysis|||||||0.794
82414264|NCT04950686|164538165|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School ID was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.277|TWO_SIDED||||||Mixed Models Analysis|||||||0.277
82414265|NCT04950686|164538165|EQUIVALENCE|To examine intervention effects on primary outcomes, we used multilevel regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect. School identifier (ID) was included as a random intercept to adjust for data nesting.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.115|TWO_SIDED||||||Mixed Models Analysis|||||||0.115
82414266|NCT04333498|164538253|OTHER||Mean Difference (Net)|-221.03||||0.014|TWO_SIDED|95.0|-396.33|-45.73|||t-test, 2 sided|||||-45.73|-396.33|.014
82414267|NCT04333498|164538254|OTHER||Mean Difference (Net)|1103.96||||0.122|TWO_SIDED|95.0|-296.532|2502.722|||t-test, 2 sided|||||2502.722|-296.532|0.122
82414268|NCT04333498|164538255|OTHER||Mean Difference (Net)|-2.61||||0.218|TWO_SIDED|95.0|-8.614|3.391|||t-test, 2 sided|||Adherence percentage||3.391|-8.614|.218
82532611|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|-3.36|0.71||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 3 hours||0.71|-3.36|
82414269|NCT04333498|164538255|OTHER|Linear regression with generalized estimating equations (GEE)|Slope|0.046||||0.272|TWO_SIDED|95.0|-0.036|0.128|||Regression, Linear|||||0.128|-0.036|0.272
82414270|NCT01565694|164538256|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414271|NCT01565694|164538256|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82414272|NCT01565694|164538257|OTHER|P-Value was obtained from a 2-sided one sample t-test, testing the null hypothesis that Change from Baseline=0.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82414273|NCT01565694|164538258|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.029|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.029
82414274|NCT01565694|164538258|OTHER|P-Value was from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.026|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.026
82414275|NCT01565694|164538259|OTHER|From a Wilcoxon Signed Rank testing the null hypothesis is that the Median at Week 24 is equal to Baseline Median.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Analysis of change from baseline to Week 24.||||<0.001
82414276|NCT01565694|164538260|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.006|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 in bladder volume at 30 cmH20.||||0.006
82414277|NCT01565694|164538260|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF in bladder volume at 30 cmH20.||||0.001
82414278|NCT01565694|164538261|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.001|||||||t-test, 2 sided|||Analysis of change from baseline to week 24 in bladder volume at 40 cmH20.||||0.001
82414279|NCT01565694|164538261|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.004|||||||t-test, 2 sided|||Analysis of change from baseline to week 24 LOCF in bladder volume at 40 cmH20.||||0.004
82414280|NCT01565694|164538262|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.003|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.003
82414281|NCT01565694|164538262|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0||||||0.028|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.028
82414282|NCT01565694|164538263|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.068|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.068
82414283|NCT01565694|164538263|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.075|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.075
82414284|NCT01565694|164538264|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414285|NCT01565694|164538264|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82414286|NCT01565694|164538265|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414287|NCT01565694|164538265|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82532612|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-2.69|1.0||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 4 hours||1.00|-2.69|
82532613|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|1.36|||TWO_SIDED|90.0|-4.19|0.32||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 8 hours||0.32|-4.19|
82532614|NCT03657264|164762666|NON_INFERIORITY|The upper limit of the 90% confidence interval was expected lower to the margin of 10 milliseconds for all tests.|Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-1.62|2.04||p-value is not shown, as this is a non-inferiority study.|ANCOVA|Each timepoint was tested through a separate model.||For the timepoint 24 hours||2.04|-1.62|
82414288|NCT01565694|164538266|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414289|NCT01565694|164538266|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82414290|NCT01565694|164538267|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414291|NCT01565694|164538267|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82414292|NCT01565694|164538268|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.01|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.010
82414293|NCT01565694|164538268|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.004|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.004
82414294|NCT01565694|164538269|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||<0.001
82414295|NCT01565694|164538269|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.|||||<|0.001|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||<0.001
82414296|NCT01565694|164538270|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.568|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24.||||0.568
82414297|NCT01565694|164538270|OTHER|P-Value was calculated from a 2-sided one sample t-test, testing the null hypothesis that change from baseline = 0.||||||0.573|||||||t-test, 2 sided|||Analysis of change from baseline to Week 24 LOCF.||||0.573
82414298|NCT02906618|164538302|OTHER|A mixed-effect analysis of variance model was applied to the log-transformed dose-adjusted AUC(0-∞) of LY3039478 after oral dosing and IV administration of 13C 15N 2H-LY3039478. The model contained a fixed effect for formulation (oral or IV) and a random effect for participant.|Ratio of geometric LS means|0.572|||||TWO_SIDED|90.0|0.532|0.615||||||||0.615|0.532|
82648026|NCT04133519|165011391|SUPERIORITY||Odds Ratio (OR)|1.17||||0.4753|TWO_SIDED|95.0|0.76|1.81||P-value from Cochran-Mantel-Haenszel Test testing H0: OR=1; H1: OR\<\>1 adjusting for IBS subtype and gender|Cochran-Mantel-Haenszel||GDH:MR Relative Risk|A Stool Consistency Responder is defined as a \>=30% improvement in the proportion of Bristol Stool Form Scale (BSFS) scores that fall within Group 2 (normal stools)||1.81|0.76|0.4753
82414299|NCT04766333|164538311|SUPERIORITY||Odds Ratio (OR)|0.45|||<|0.05|TWO_SIDED|95.0|0.17|1.23|||Regression, Logistic||Healthcare Arm is the reference category|||1.23|0.17|<0.05
82414300|NCT03807843|164538328|OTHER||V184 GMFR/Placebo GMFR Ratio|1.6||||0.004|TWO_SIDED|95.0|1.2|2.1|||Mixed Effects Model|||"Day 28 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 28 was derived from the mixed effects model used to determine GMFR."||2.1|1.2|0.004
82414301|NCT03807843|164538328|OTHER||V184 GMFR/Placebo GMFR Ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.5|2.8|||Mixed Effects Model|||"Day 56 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 56 was derived from the mixed effects model used to determine GMFR."||2.8|1.5|<0.001
82414302|NCT03807843|164538328|OTHER||V184 GMFR/Placebo GMFR Ratio|1.3||||0.121|TWO_SIDED|95.0|0.9|1.7|||Mixed Effects Model|||"Day 196 V184 GMFR/Placebo GMFR Ratio~The ratio of V184 GMFR/Placebo GMFR at Day 196 was derived from the mixed effects model used to determine GMFR."||1.7|0.9|0.121
82414303|NCT01312129|164538331|SUPERIORITY_OR_OTHER||||||=|0.05|TWO_SIDED|||||=0.05 is the actual computed p-value via the ANOVA.|ANOVA|The ANOVA is comparing the % increase in BOLD response above baseline during cue presentation (Alcohol vs. Control) b/w placebo \& Sulfasalazine .||||||=.05
82414304|NCT03720847|164538332|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.012|TWO_SIDED||||||t-test, 2 sided|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.|Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|||||.012
82414305|NCT03720847|164538333|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.03|TWO_SIDED||||||t-test, 2 sided|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.|Positive estimated value indicates a greater perimenstrual increase in the outcome in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.030
82414306|NCT03720847|164538334|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.013|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.013
82414307|NCT03720847|164538335|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.018|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual change in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.018
82414308|NCT03720847|164538336|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.073|TWO_SIDED||||||t-test, 2 sided||Positive estimated value indicates greater perimenstrual increase in symptoms in the placebo condition relative to the active condition.|paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.073
82414309|NCT03720847|164538337|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.25|TWO_SIDED||||||t-test, 2 sided|||paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.25
82414310|NCT03720847|164538338|SUPERIORITY||Mean Difference (Final Values)|-1.32||||0.23|TWO_SIDED||||||t-test, 2 sided|||paired sample t-test comparing perimenstrual change in the placebo vs. active conditions within a given participant.||||.23
82414311|NCT01047501|164538359|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-21.5|||<|0.0001|TWO_SIDED|95.0|-26.7|-16.2||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A sample size of 194 was required to provide 90.6% power to detect a difference of 15% between AMR101 4 g/day and placebo in percent change from baseline in fasting TG levels, assuming an SD of 45% in TG measurements and a significance level (p value) of 0.05, and 80% power to demonstrate noninferiority (p 0.025, 1-sided) of the LDL-cholesterol response between AMR101 4 g/day and placebo with a +6% margin. To accommodate a 10% drop-out rate, recruitment was planned for 648 randomized patients.||-16.2|-26.7|<0.0001
82532615|NCT03657264|164762667|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|4.62|STANDARD_ERROR_OF_MEAN|1.23|||TWO_SIDED|90.0|2.58|6.66||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 1 hour||6.66|2.58|
82414312|NCT01047501|164538359|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.1||||0.0005|TWO_SIDED|95.0|-15.7|-4.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-4.5|-15.7|0.0005
82414313|NCT01047501|164538360|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo with a significance level of 0.05. Non-inferiority tests for percent change from baseline in LDL-C were performed between AMR101 and placebo to determine if AMR101 was statistically non-inferior to placebo with regard to increases in LDL-C. The pre-specified LDL-C criterion for noninferiority was the upper boundary 97.5% confidence interval not crossing the +6% threshold.|Median Difference (Final Values)|-6.2||||0.0067|TWO_SIDED|95.0|-10.5|-1.7|||Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|A sample size of 194 was required to provide 90.6% power to detect a difference of 15% between AMR101 4 g/day and placebo in percent change from baseline in fasting TG levels, assuming an SD of 45% in TG measurements and a significance level (p value) of 0.05, and 80% power to demonstrate noninferiority (p 0.025, 1-sided) of the LDL-cholesterol response between AMR101 4 g/day and placebo with a +6% margin. To accommodate a 10% drop-out rate, recruitment was planned for 648 randomized patients.||-1.7|-10.5|0.0067
82426531|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||-0.8|-1.2|<0.0001
82426532|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.981|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||0.2|-0.2|0.9810
82414314|NCT01047501|164538360|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo with a significance level of 0.05. Non-inferiority tests for percent change from baseline in LDL-C were performed between AMR101 and placebo to determine if AMR101 was statistically non-inferior to placebo with regard to increases in LDL-C. The pre-specified LDL-C criterion for noninferiority was the upper boundary 97.5% confidence interval not crossing the +6% threshold.|Median Difference (Final Values)|-3.6||||0.0867|TWO_SIDED|95.0|-7.9|0.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||0.5|-7.9|0.0867
82414315|NCT01047501|164538361|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-13.6||||0.0001|TWO_SIDED|95.0|-17.2|-9.9||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-9.9|-17.2|0.0001
82414316|NCT01047501|164538361|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.5||||0.014|TWO_SIDED|95.0|-9.4|-1.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-1.7|-9.4|0.0140
82414317|NCT01047501|164538362|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-24.4||||0.0001|TWO_SIDED|95.0|-31.9|-17.0||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-17.0|-31.9|0.0001
82414318|NCT01047501|164538362|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-10.5||||0.017|TWO_SIDED|95.0|-18.3|-2.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-2.5|-18.3|0.0170
82414319|NCT01047501|164538363|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.0||||0.0001|TWO_SIDED|95.0|-22.2|-15.7||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-15.7|-22.2|0.0001
82414320|NCT01047501|164538363|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-8.0||||0.0004|TWO_SIDED|95.0|-11.6|-4.5|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-4.5|-11.6|0.0004
82414321|NCT01047501|164538364|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-9.3||||0.0001|TWO_SIDED|95.0|-12.3|-6.1||Nonparametric analysis p values were planned using Wilcoxon rank-sum test for each comparison between AMR101 and placebo. Comparisons between AMR101 and placebo were made using a significance level of 0.05.|Wilcoxon rank-sum test|A prespecified step-down testing procedure was used to control Type I error rate using 4 g/day vs placebo then, if significant, 2 g/day vs placebo.|Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-6.1|-12.3|0.0001
82414322|NCT01047501|164538364|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-3.8||||0.017|TWO_SIDED|95.0|-6.9|-0.7|||Wilcoxon rank-sum test||Median differences between the treatment groups and 95% CIs were estimated with the Hodges-Lehmann method.|||-0.7|-6.9|0.0170
82414323|NCT04602000|164538369|SUPERIORITY||Difference estimated using CMH weights|-8.0|||<|0.0001|TWO_SIDED|95.0|-11.7|-4.5|||Cochran-Mantel-Haenszel|P-value was calculated using CMH test stratified by age (≥60 vs. \<60 years), baseline comorbidities (Yes vs. No) and region (US vs. EU vs. Other)|The 95% stratified Newcombe CI with CMH weights was presented.|||-4.5|-11.7|<0.0001
82414324|NCT01846871|164538398|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
82414325|NCT01846871|164538399|OTHER|||||||0.028|||||||t-test, 2 sided|||||||0.028
82414326|NCT01846871|164538400|OTHER|||||||0.0019|||||||t-test, 2 sided|||||||0.0019
82414327|NCT01846871|164538401|OTHER|||||||0.033|||||||t-test, 2 sided|||||||0.033
82414328|NCT00429299|164538403|NON_INFERIORITY_OR_EQUIVALENCE|An exploratory comparison between the combined two single anti-HER2 arms and the dual anti-HER2 arm was performed (Arm 3 versus Arms 1 and 2).|percentage of participants|25.0||||0.019||90.0|13.1|36.9||Exploratory analysis|Chi-squared||The estimated value represents the percentage of particpants in the CT plus trastuzumab treatment group with pathological complete response.|||36.9|13.1|0.019
82414329|NCT00429299|164538403|SUPERIORITY_OR_OTHER||percentage of participants|26.3||||||90.0|14.5|38.1|||||The estimated value represents the percentage of particpants in the CT plus lapatinib 1500 mg treatment group with pathological complete response.|||38.1|14.5|
82414330|NCT00429299|164538403|SUPERIORITY_OR_OTHER||percentage of participants|46.7|||||TWO_SIDED|90.0|34.4|58.9|||||The estimated value represents the percentage of particpants in the CT plus traztuzumab plus lapatinib 1000 mg treatment group with pathological complete response.|||58.9|34.4|
82414331|NCT04871113|164538423|OTHER||Emax|-1.848|||||TWO_SIDED|95.0|-2.225|-1.472|||||Emax is defined as maximum response.|||-1.472|-2.225|
82414332|NCT04871113|164538423|OTHER||EC50|68.578|||||TWO_SIDED|95.0|15.866|121.29|||||EC50 is defined as the dose (in mg) that attains the 50% of the maximal effect.|||121.290|15.866|
82414333|NCT04871113|164538423|OTHER||s2e|0.257|||||TWO_SIDED|95.0|0.145|0.368|||||e is defined as random error assumed to be normally distributed with mean zero and constant variance (s2).|||0.368|0.145|
82414334|NCT00081458|164538440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||ANCOVA|||||||0.007
82414335|NCT00081458|164538441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||ANCOVA|||An efficacy responder was defined as achieving at least a 20% reduction from Baseline to Week 20 and maintained at Week 24 in weekly actual PN infusion volume.||||0.005
82414336|NCT00693303|164538442|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||||||.27
82414337|NCT00063622|164538479|SUPERIORITY_OR_OTHER|||||||0.001||||||Given the fact that there were two planned primary comparisons, Bonferroni-adjusted P values of less than 0.025 were considered to indicate statistical significance.|Mantel Haenszel|||The proportions in each active-treatment group (pioglitazone and vitamin E) in whom there was improvement in non-alcoholic steatohepatitis were compared with the proportion of subjects in the placebo group in whom there was improvement.||||0.001
82414338|NCT00063622|164538479|SUPERIORITY_OR_OTHER|||||||0.04||||||Given the fact that there were two planned primary comparisons, Bonferroni-adjusted P values of less than 0.025 were considered to indicate statistical significance.|Mantel Haenszel|||The proportions in each active-treatment group (pioglitazone and vitamin E) in whom there was improvement in non-alcoholic steatohepatitis were compared with the proportion of subjects in the placebo group in whom there was improvement.||||0.04
82414339|NCT00063622|164538480|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Fisher Exact|||||||0.005
82414340|NCT00063622|164538480|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82414341|NCT00063622|164538481|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||||||0.02
82414342|NCT00063622|164538481|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|||||||0.004
82414343|NCT00063622|164538482|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Fisher Exact|||||||0.01
82414344|NCT00063622|164538482|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Fisher Exact|||||||0.08
82414345|NCT00063622|164538483|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Fisher Exact|||||||0.24
82414346|NCT00063622|164538483|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||||||0.12
82414347|NCT00063622|164538484|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Fisher Exact|||||||0.05
82414348|NCT00063622|164538484|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
82414349|NCT03384966|164538485|SUPERIORITY||Odds Ratio (OR)|58.9|||<|0.0001|TWO_SIDED|97.5|22.4|154.8||A p-value significance level was set to 0.025, based on an overall Type-I error rate of 0.05 adjusted for multiple comparisons using a Bonferroni approach (two comparisons).|Chi-squared|||"The study aimed at assessing the efficacy of each selatogrel dose versus placebo. The proportion of responders for each of the two doses of selatogrel was compared to placebo.~No imputation was considered for handling missing values."||154.8|22.4|< 0.0001
82414350|NCT03384966|164538485|SUPERIORITY||Odds Ratio (OR)|61.2|||<|0.0001|TWO_SIDED|97.5|23.1|162.3||A p-value significance level was set to 0.025, based on an overall Type-I error rate of 0.05 adjusted for multiple comparisons using a Bonferroni approach (two comparisons).|Chi-squared|||"The study aimed at assessing the efficacy of each selatogrel dose versus placebo. The proportion of responders for each of the two doses of selatogrel was compared to placebo.~No imputation was considered for handling missing values in the main analysis."||162.3|23.1|< 0.0001
82414351|NCT03384966|164538489|OTHER|Logistic regression (Type III analysis)||||||0.1915|||||||Chi-squared|||||||0.1915
82414352|NCT03384966|164538491|OTHER||LS Mean difference with placebo|-27.49|||<|0.0001|TWO_SIDED|95.0|-35.4|-19.6|||Mixed Models Analysis|P-value significance level is set to 0.025, i.e. type I error (0.05) adjusted for multiplicity (2 comparisons) using a Bonferroni approach.||Longitudinal analysis of the treatment effect, from start of treatment to 8 hours after injection.||-19.6|-35.4|<.0001
82414353|NCT03384966|164538491|OTHER||LS Mean difference with placebo|-31.06|||<|0.0001|TWO_SIDED|95.0|-39.0|-23.1|||Mixed Models Analysis|P-value significance level is set to 0.025, i.e. type I error (0.05) adjusted for multiplicity (2 comparisons) using a Bonferroni approach||Longitudinal analysis of the treatment effect, from start of treatment up to 8 hours after injection.||-23.1|-39.0|<.0001
82414354|NCT04327271|164538502|NON_INFERIORITY|Non-inferiority margin of -0.25% set as lower bound of 95% CI for the maximum mean difference between the proportion of cumulative AEs between control and 2wT arms to conclude that 2wT is non-inferior. This margin was set considering the average AE rate of 0.5% from routine SSA MC programs at scale, and assuming that 2wT increases AE ascertainment to 2.0%, similar to 1.9% of Zimbabwe RCT and the widely-accepted standard 2% AE rate.|Mean Difference (Final Values)|1.2|||||ONE_SIDED|95.0|-0.09|||||||With 10% loss to follow-up (LTFU), a sample size of 1104 men provides at least 80% power to rule out a decrease in AE ascertainment of more than 0.25% based on the lower bound of the one-sided 95% CI. The one tailed alpha was set 0.05.|||-.09|
82414355|NCT04327271|164538503|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.001|TWO_SIDED|95.0|1.03|1.21|||Fisher Exact|||The mean number of in-person clinic visit, excluding non-study visits, were compared between the two arms using a t-test. The proportion of potential AEs was calculated as number of potential AE responses divided by the total number of daily responses (no AE and potential AE). A superiority test was performed on the safety outcomes using a two-sided 95% confidence interval and p-value using Fisher's exact test.||1.21|1.03|0.001
82414356|NCT01479530|164538528|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0228|TWO_SIDED|95.0|-0.92|-0.07|||ANCOVA|||||-0.07|-0.92|0.0228
82414357|NCT01479530|164538529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.22|||ANCOVA|||||-0.22|-0.61|<0.0001
82414358|NCT01479530|164538530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.37||0.0075|TWO_SIDED|95.0|-1.75|-0.27|||ANCOVA|||||-0.27|-1.75|0.0075
82414359|NCT01479530|164538531|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.74||0.0317|TWO_SIDED|95.0|-3.05|-0.14|||ANCOVA|||||-0.14|-3.05|0.0317
82414360|NCT00303628|164538548|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876|TWO_SIDED|||||Stratified log rank test. The above P value was for one-sided test|Log Rank|||||||0.876
82414361|NCT00303628|164538549|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299|TWO_SIDED|||||two-sided stratified log rank test p value|Log Rank|||||||0.299
82414362|NCT05643794|164538580|SUPERIORITY||Difference from Placebo|-0.54||||0.129|TWO_SIDED|95.0|-1.24|0.16|||Longitudinal linear mixed effect model||The difference presented is RLZ 12 weeks minus Placebo.|||0.16|-1.24|0.129
82414363|NCT05643794|164538583|SUPERIORITY||Difference from Placebo|-0.51||||0.358|TWO_SIDED|95.0|-1.6|0.58|||Longitudinal mixed effects model||The difference presented is RLZ 24 weeks minus PBO 24 weeks.|||0.58|-1.60|0.358
82414364|NCT05643794|164538584|SUPERIORITY||Difference from Placebo|-8.4||||0.003|TWO_SIDED|95.0|-13.84|-2.96|||Longitudinal mixed effects model||The difference presented is RLZ 12 weeks minus Placebo|||-2.96|-13.84|0.003
82414365|NCT05643794|164538585|SUPERIORITY||Differences from Placebo|0.05||||0.878|TWO_SIDED|95.0|-0.55|0.64|||Longitudinal mixed effects model||The differences presented is RLZ 12 weeks minus Placebo.|||0.64|-0.55|0.878
82414366|NCT05643794|164538586|SUPERIORITY||Difference from Placebo|-0.28||||0.352|TWO_SIDED|95.0|-0.86|0.31|||Longitudinal mixed effects model||The difference presented is RLZ 12 weeks minus Placebo.|||0.31|-0.86|0.352
82414367|NCT04167670|164538593|NON_INFERIORITY|P-value based on a Farrington and Manning test with a noninferiority margin of 10%.|Percentage Difference|-0.3||||0.0037|TWO_SIDED|95.0|-7.39|6.76|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Noninferiority of vonoprazan dual therapy to lansoprazole triple therapy.||6.76|-7.39|0.0037
82414368|NCT04167670|164538593|NON_INFERIORITY|P-value based on a Farrington and Manning test with a noninferiority margin of 10%.|Percentage Difference|5.9|||<|0.0001|TWO_SIDED|95.0|-0.75|12.62|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Noninferiority of vonoprazan triple therapy to lansoprazole triple therapy.||12.62|-0.75|<0.0001
82414369|NCT04167670|164538594|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|37.7|||<|0.0001|TWO_SIDED|95.0|20.54|52.56|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan dual therapy to lansoprazole triple therapy.||52.56|20.54|<0.0001
82414370|NCT04167670|164538594|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|33.8|||<|0.0001|TWO_SIDED|95.0|17.74|48.12|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan triple therapy to lansoprazole triple therapy.||48.12|17.74|<0.0001
82414371|NCT04167670|164538595|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|8.7||||0.0063|TWO_SIDED|95.0|1.86|15.44|||Farrington and Manning test||The confidence interval of the difference in H pylori eradication rates between vonoprazan dual therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|Superiority of vonoprazan dual therapy to lansoprazole triple therapy.||15.44|1.86|0.0063
82414372|NCT04167670|164538595|SUPERIORITY|P-value based on a Farrington and Manning test with the null hypothesis difference ≤0 versus the alternative hypothesis difference \>0.|Percentage Difference|12.3||||0.0001|TWO_SIDED|95.0|5.72|18.81|||Farrington and Manning test|||Superiority of vonoprazan triple therapy to lansoprazole triple therapy.|The confidence interval of the difference in H pylori eradication rates between vonoprazan triple therapy and lansoprazole triple therapy was calculated via the Miettinen and Nurminen method.|18.81|5.72|0.0001
82414373|NCT01112267|164538612|SUPERIORITY_OR_OTHER|||||||0.0367|||||||Cochran-Mantel-Haenszel|p-value for percentage of participants with reduction in pain intensity was calculated for tramadol HCl/acetaminophen and placebo groups||||||0.0367
82414374|NCT01112267|164538613|SUPERIORITY_OR_OTHER|||||||0.0095||||||p-value for change in reduction in pain intensity at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups|Mann-Whitney U test|||||||0.0095
82414375|NCT01112267|164538614|SUPERIORITY_OR_OTHER|||||||0.0202||||||p-value for percentage of participants with pain relief at Day 8 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.0202
82414376|NCT01112267|164538614|SUPERIORITY_OR_OTHER|||||||0.0102||||||p-value for percentage of participants with pain relief at Day 15 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.0102
82414377|NCT01112267|164538614|SUPERIORITY_OR_OTHER|||||||0.4652||||||p-value for percentage of participants with pain relief at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups|Chi-squared|||||||0.4652
82414378|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.3524||||||p-value for change from Baseline in physical conditioning at Day 29 was calculated using for tramadol HCl/acetaminophen and placebo groups|Wilcoxon (Mann-Whitney)|||||||0.3524
82414379|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.0224||||||p-value for change from Baseline in role physical at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0224
82414380|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.5712||||||p-value for change from Baseline in bodily pain at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.5712
82414381|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.0395||||||p-value for change from Baseline in general health at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0395
82414382|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.0524||||||p-value for change from Baseline in vitality at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0524
82414383|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.115||||||p-value for change from Baseline in social functioning at Day 29 was calculated using for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.115
82414384|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.7788||||||p-value for change from Baseline in role emotional at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.7788
82414385|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.7776||||||p-value for change from Baseline in mental health at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.7776
82414386|NCT01112267|164538615|SUPERIORITY_OR_OTHER|||||||0.0047||||||p-value for change from Baseline in Reptd. health transition at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0047
82414387|NCT01112267|164538616|SUPERIORITY_OR_OTHER|||||||0.0527||||||p-value for change from Baseline in ODI- Korean version at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Wilcoxon (Mann-Whitney)|||||||0.0527
82414388|NCT01112267|164538617|SUPERIORITY_OR_OTHER|||||||0.0917||||||p-value for investigator's global assessment on investigational product at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Chi-squared|||||||0.0917
82532616|NCT03657264|164762667|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|9.4|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|7.14|11.66||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 1.5 hours||11.66|7.14|
82414389|NCT01112267|164538618|SUPERIORITY_OR_OTHER|||||||0.5632||||||p-value for participant's global assessment on investigational product at Day 29 was calculated for tramadol HCl/acetaminophen and placebo groups.|Chi-squared|||||||0.5632
82414390|NCT02827708|164538647|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.6||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.0|<0.0001
82414391|NCT02827708|164538647|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-1.0|||<|0.0001||95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata, interaction strata and region as categorical fixed effects and the baseline value as covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.8|-1.2|<0.0001
82414392|NCT02827708|164538648|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-2.5|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.8||Unadjusted two-sided p-value for test of no difference from 0.|Pattern Mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-1.8|-3.2|<0.0001
82414393|NCT02827708|164538648|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-2.7|||<|0.0001|TWO_SIDED|95.0|-3.5|-1.9||Unadjusted two-sided p-value for test of no difference from 0.|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata, interaction strata and region as categorical fixed effects and the baseline value as covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.9|-3.5|<0.0001
82414394|NCT02827708|164538664|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.64|||=|0.1834|TWO_SIDED|95.0|0.34|1.23||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.23|0.34|=0.1834
82414395|NCT02827708|164538665|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.43|||=|0.061|TWO_SIDED|95.0|0.17|1.04||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, interaction strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.04|0.17|=0.0610
82414396|NCT00898807|164538687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93||||0.036|TWO_SIDED|95.0|-1.8|-0.06||P-value was not adjusted for multiple comparisons. All p-values are two-sided and p\<0.05 was the threshold for statistical significance.|Mixed Models Analysis|Mixed effects model w/ random intercept for patient, visit indicator, treatment by visit interactions and adjusted for baseline NBRS-A \& cognition.|Negative numbers favor citalopram group.|Primary assessment of efficacy was based on intention-to-treat comparison of the difference in the NBRS-A scores at week 9 and comparison at week 9 for the CGIC. For the NBRS-A, the study was designed to have 85% power to detect a standardized difference at week 9 of 40% for citalopram compared to placebo at week 9.||-0.06|-1.80|0.036
82426533|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 80||-0.8|-1.2|<0.0001
82532617|NCT03657264|164762667|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.55|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|7.92|13.17||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 2 hours||13.17|7.92|
82426534|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||-0.8|-1.3|<0.0001
82414397|NCT00898807|164538688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.007|TWO_SIDED|95.0|1.23|3.69||All p-values are two-sided and p \<0.05 was the threshold for statistical significance. No adjustments were made for multiple comparisons.|Proportional odds|estimated treatment effect from the proportional odds model|Positive numbers favors citalopram.|Primary assessment of efficacy was based on intention-to-treat comparison of the difference in the NBRS-A scores at week 9 and comparison at week 9 for the CGIC. For the CGIC proportional odds analysis, the study was designed to have power greater than 80% to detect a difference of 20% between citalopram and placebo in the proportions of patients who improve (or worsen).||3.69|1.23|0.007
82414398|NCT03928327|164538691|OTHER||Geometric Least Squares (LS) Mean Ratio|2.86|||||TWO_SIDED|90.0|2.48|3.3|||||Linear mixed-effects model was used for analysis, using fixed-effect(treatment), random-effect(participants). Geometric mean ratios(GMR), 90% confidence interval(CI) calculated using exponentiation of treatment least squares means(LSMs) difference.|||3.30|2.48|
82414399|NCT03928327|164538692|OTHER||Geometric LS Mean Ratio|0.08|||||TWO_SIDED|90.0|0.07|0.11|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||0.11|0.07|
82414400|NCT03928327|164538693|OTHER||Geometric LS Mean Ratio|6.27|||||TWO_SIDED|90.0|5.2|7.56|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||7.56|5.20|
82414401|NCT03928327|164538694|OTHER||Geometric LS Mean Ratio|0.05|||||TWO_SIDED|90.0|0.04|0.07|||||Linear mixed-effects model was used for analysis, using fixed-effect (treatment) and random-effect (participants). GMR and 90% CI was calculated using exponentiation of treatment LSMs difference.|||0.07|0.04|
82414402|NCT02383173|164538726|OTHER|||||||0.445|||||||Generalized Estimating Equation (GEE)|Sandwich estimators were used to adjust for the small number of clusters.||Generalized Estimating Equation (GEE) analyses of post-intervention data were used to account for clustering. We adjusted for age, race, cancer, length of stay and study year.||||0.445
82532618|NCT03657264|164762667|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.33|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|90.0|7.7|12.95||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 3 hours||12.95|7.70|
82414403|NCT04900272|164538735|OTHER|||||||0.785|||||||ANOVA|||||||0.785
82414404|NCT04900272|164538736|OTHER|||||||0.583|||||||ANOVA|||||||0.583
82414405|NCT04900272|164538737|OTHER|||||||0.5015|||||||ANOVA|||||||0.5015
82414406|NCT04900272|164538738|OTHER|||||||0.3536|||||||ANOVA|||||||0.3536
82414407|NCT04900272|164538739|OTHER|||||||0.2688|||||||ANOVA|||||||0.2688
82414408|NCT04900272|164538740|OTHER|||||||0.728|||||||ANOVA|||||||0.728
82414409|NCT04900272|164538741|OTHER|||||||0.473|||||||ANOVA|||||||0.473
82414410|NCT04900272|164538742|OTHER|||||||0.4161|||||||ANOVA|||||||0.4161
82414411|NCT04900272|164538743|OTHER|||||||0.3356|||||||ANOVA|||||||0.3356
82414412|NCT04900272|164538744|OTHER|||||||0.9825|||||||ANOVA|||||||0.9825
82414413|NCT01625182|164538745|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9838|TWO_SIDED|95.0|0.6|1.7|||Regression, Cox|||||1.7|0.6|0.9838
82414414|NCT01922011|164538763|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% CI is greater than -15%|Common Difference|-6.1||||0.421|TWO_SIDED|95.0|-19.4|7.4|||Wald||Daptomycin - Comparator|95% confidence interval of the common difference was based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.||7.4|-19.4|0.421
82414415|NCT01922011|164538764|SUPERIORITY_OR_OTHER||Common difference|-7.1||||0.467|TWO_SIDED|95.0|-21.6|7.9|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|||7.9|-21.6|0.467
82414416|NCT01922011|164538765|SUPERIORITY_OR_OTHER||Common difference|-6.2||||0.313|TWO_SIDED|95.0|-17.5|5.0|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At EOIV visit||5.0|-17.5|0.313
82414417|NCT01922011|164538765|SUPERIORITY_OR_OTHER||Common difference|-7.9||||0.239|TWO_SIDED|95.0|-19.8|4.0|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At EOT visit||4.0|-19.8|0.239
82414418|NCT01922011|164538765|SUPERIORITY_OR_OTHER||Common difference|-6.7||||0.37|TWO_SIDED|95.0|-19.1|5.8|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|At TOC visit||5.8|-19.1|0.370
82414419|NCT01922011|164538766|SUPERIORITY_OR_OTHER||Common difference|-10.5||||0.23|TWO_SIDED|95.0|-26.3|5.4|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|Overall Baseline Infecting Pathogen||5.4|-26.3|0.230
82426535|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3562|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||0.1|-0.3|0.3562
82426536|NCT00565409|164561889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||ANCOVA|ANCOVA model: Change = Week 36 score + treatment + geographic region.||Week 88||-0.7|-1.2|<0.0001
82426537|NCT00565409|164561890|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||<0.0001
82426538|NCT00565409|164561890|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||<0.0001
82414420|NCT01922011|164538766|SUPERIORITY_OR_OTHER||Common difference|-12.3||||0.164|TWO_SIDED|95.0|-28.5|4.4|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|SA||4.4|-28.5|0.164
82414421|NCT01922011|164538766|SUPERIORITY_OR_OTHER||Common difference|-15.5||||0.043|TWO_SIDED|95.0|-31.2|1.1|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|MSSA||1.1|-31.2|0.043
82414422|NCT01922011|164538766|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wald|||MRSA||||0.450
82414423|NCT01922011|164538766|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wald|||Other Pathogen||||0.280
82414424|NCT01922011|164538767|SUPERIORITY_OR_OTHER||Common difference|-6.3||||0.272|TWO_SIDED|95.0|-18.2|5.5|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|EOT||5.5|-18.2|0.272
82414425|NCT01922011|164538767|SUPERIORITY_OR_OTHER||Common difference|-4.8||||0.48|TWO_SIDED|95.0|-17.6|7.9|||Wald||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|TOC||7.9|-17.6|0.480
82414426|NCT01922011|164538768|SUPERIORITY_OR_OTHER||Common difference|-10.1|||||TWO_SIDED|95.0|-24.8|4.2|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|Overall Baseline Infecting Pathogen||4.2|-24.8|
82414427|NCT01922011|164538768|SUPERIORITY_OR_OTHER||Common difference|-12.2|||||TWO_SIDED|95.0|-27.2|2.8|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|SA||2.8|-27.2|
82414428|NCT01922011|164538768|SUPERIORITY_OR_OTHER||Common difference|-10.4|||||TWO_SIDED|95.0|-25.4|5.2|||||95% confidence interval of the common difference ( Daptomycin minus Vancomycin or Nafcillin) is based on stratified Newcombe confidence interval (CI) with minimum risk weights, with age cohort as the stratification factor.|MSSA||5.2|-25.4|
82414429|NCT00315822|164538778|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94||||0.8|TWO_SIDED|95.0|0.52|1.68|||Cochran-Mantel-Haenszel|||||1.68|0.52|0.80
82414430|NCT01257542|164538779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.252|TWO_SIDED|95.0|0.59|1.15||p-value was calculated using negative binomial regression model with treatment, site and baseline of cough count terms with log (exposure time) as the offset parameter.|Negative binomial regression|||Odds Ratio and corresponding 95 percent (%) confidence interval (CI) were assessed from the negative binomial regression model.||1.15|0.59|0.252
82532619|NCT03657264|164762667|SUPERIORITY|The lower limit of the adjusted confidence interval was expected upper to the margin of 5 milliseconds.|Least Squares Mean Difference|10.65|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|90.0|8.05|13.25||p-value is not shown, as this is a non-inferiority study.|ANCOVA|As multiple timepoints were examined separately, the overall type I error rate needed to be adjusted.||For the timepoint 4 hours||13.25|8.05|
82414431|NCT01257542|164538780|SUPERIORITY_OR_OTHER||LS mean difference|-0.26||||0.134|TWO_SIDED|95.0|-0.6|0.08||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||Treatment difference and corresponding 95% CI were calculated based on least-square (LS) means from analysis of variance (ANOVA) model.||0.08|-0.60|0.134
82414432|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.768|TWO_SIDED|95.0|-0.45|0.33||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||1 hour: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.33|-0.45|0.768
82414433|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.358|TWO_SIDED|95.0|-0.64|0.23||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||2 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.23|-0.64|0.358
82447231|NCT01754493|164603186|SUPERIORITY_OR_OTHER_LEGACY||Slope|-18.24|||<|0.05|TWO_SIDED|95.0|-23.44|-12.63|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in total MADRS symptom scores for MDD. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-12.63|-23.44|<.05
82532620|NCT03875911|164762679|EQUIVALENCE|ANOVA was used to analyze equivalence between arms||||||0.52|||||||ANOVA|||||||0.52
82414434|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.32||||0.139|TWO_SIDED|95.0|-0.74|0.1||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||3 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.10|-0.74|0.139
82414435|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.364|TWO_SIDED|95.0|-0.68|0.25||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||4 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.25|-0.68|0.364
82414436|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.46||||0.039|TWO_SIDED|95.0|-0.9|-0.02||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||5 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||-0.02|-0.90|0.039
82414437|NCT01257542|164538781|SUPERIORITY_OR_OTHER||LS mean difference|-0.29||||0.206|TWO_SIDED|95.0|-0.75|0.16||p-value was calculated using ANOVA model with treatment, site and baseline cough severity verbal rating scale terms.|ANOVA|||6 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.16|-0.75|0.206
82414438|NCT01257542|164538782|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.304|TWO_SIDED|95.0|-1.43|0.45||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||Treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.45|-1.43|0.304
82414439|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.954|TWO_SIDED|95.0|-1.03|0.97||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||1 hour: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.97|-1.03|0.954
82414440|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.426|TWO_SIDED|95.0|-1.54|0.65||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||2 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.65|-1.54|0.426
82414441|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.45||||0.396|TWO_SIDED|95.0|-1.49|0.6||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||3 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.60|-1.49|0.396
82414442|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.402|TWO_SIDED|95.0|-1.63|0.66||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||4 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.66|-1.63|0.402
82414443|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.69||||0.204|TWO_SIDED|95.0|-1.75|0.38||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||5 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.38|-1.75|0.204
82414444|NCT01257542|164538783|SUPERIORITY_OR_OTHER||LS mean difference|-0.84||||0.179|TWO_SIDED|95.0|-2.06|0.39||p-value was calculated using ANOVA model with treatment, site and baseline cough severity numerical rating scale terms.|ANOVA|||6 hours: treatment difference and corresponding 95% CI were calculated based on LS means from ANOVA model.||0.39|-2.06|0.179
82414445|NCT01257542|164538784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.523|TWO_SIDED|95.0|-0.21|0.39||p-value was calculated from the Cochran-Mantel-Haenszel (CMH) test with modified ridit scores controlling site.|Cochran-Mantel-Haenszel|||Treatment difference and the associated 95% CI were based on the weighted Gamma statistics.||0.39|-0.21|0.523
82532621|NCT03875911|164762680|EQUIVALENCE|Equivalence calculated using ANOVA||||||0.01|||||||ANOVA|||||||0.01
82532622|NCT03875911|164762681|EQUIVALENCE|Equivalence was assessed using ANOVA||||||0.25|||||||ANOVA|||||||0.25
82532623|NCT03875911|164762682|EQUIVALENCE|Equivalence determined by ANOVA||||||0.93|||||||ANOVA|||||||0.93
82414446|NCT01257542|164538785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.796|TWO_SIDED|95.0|-0.35|0.24||p-value was calculated from the CMH test with modified ridit scores controlling site.|Cochran-Mantel-Haenszel|||Treatment difference and the associated 95% CI were based on the weighted Gamma statistics.||0.24|-0.35|0.796
82414447|NCT00195429|164538798|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.0
82414448|NCT00195429|164538799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||Student's t-test|||||||0.361
82414449|NCT04925934|164538800|SUPERIORITY||Rate Difference|2.8|||=|0.7474|TWO_SIDED|90.0|-11.4|17.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||17.0|-11.4|=0.7474
82414450|NCT04925934|164538800|SUPERIORITY||Rate Difference|-0.1|||=|0.9942|TWO_SIDED|90.0|-14.2|14.1|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||14.1|-14.2|=0.9942
82414451|NCT04925934|164538801|SUPERIORITY||Rate Difference|37.2|||=|0.1626|TWO_SIDED|90.0|-0.3|74.7|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, randomization stratification factors and Baseline CLASI-A score in the model.||74.7|-0.3|=0.1626
82414452|NCT04925934|164538801|SUPERIORITY||Rate Difference|24.1|||=|0.2873|TWO_SIDED|90.0|-7.5|55.8|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, randomization stratification factors and Baseline CLASI-A score in the model.||55.8|-7.5|=0.2873
82414453|NCT04925934|164538802|SUPERIORITY||Rate Difference|8.6|||=|0.322|TWO_SIDED|90.0|-5.6|22.7|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||22.7|-5.6|=0.3220
82414454|NCT04925934|164538802|SUPERIORITY||Rate Difference|2.9|||=|0.7364|TWO_SIDED|90.0|-11.2|17.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||17.0|-11.2|=0.7364
82414455|NCT04925934|164538803|SUPERIORITY||Rate Difference|11.7|||=|0.2805|TWO_SIDED|90.0|-6.1|29.4|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, stratification factors (SLEDAI-2K only) and Baseline OGC dose included in the model.||29.4|-6.1|=0.2805
82414456|NCT04925934|164538803|SUPERIORITY||Rate Difference|9.4|||=|0.3926|TWO_SIDED|90.0|-8.6|27.3|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment, stratification factors (SLEDAI-2K only) and Baseline OGC dose included in the model.||27.3|-8.6|=0.3926
82414457|NCT04925934|164538804|SUPERIORITY||Rate Difference|16.5|||=|0.037|TWO_SIDED|90.0|4.0|29.0|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||29.0|4.0|=0.0370
82532624|NCT03875911|164762683|EQUIVALENCE|Equivalence determined by ANOVA||||||0.83|||||||ANOVA|||||||0.83
82532625|NCT03875911|164762684|EQUIVALENCE|Equivalence was determined using ANOVA||||||0.54|||||||ANOVA|||||||0.54
82532626|NCT02144519|164762685|SUPERIORITY||Odds Ratio (OR)|1.88||||0.008|TWO_SIDED|95.0|1.18|3.0|||Mixed Models Analysis|||||3.00|1.18|0.008
82532627|NCT02144519|164762686|SUPERIORITY||Odds Ratio (OR)|3.8||||0.003|TWO_SIDED|95.0|1.45|9.95|||Regression, Logistic|||||9.95|1.45|0.003
82532628|NCT05126459|164762687|SUPERIORITY|||||||0.016||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in Musculo skeletal related sedation related events during sedation.||||0.016
82532629|NCT05126459|164762688|SUPERIORITY|||||||0.211||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in Musculo skeletal related sedation related events at 8 hours after sedation.||||0.211
82414458|NCT04925934|164538804|SUPERIORITY||Rate Difference|4.9|||=|0.4939|TWO_SIDED|90.0|-6.7|16.4|||Regression, Logistic|||Adjusted response rate, rate difference and p-value are from logistic regression analysis with treatment and randomization stratification factors in the model.||16.4|-6.7|=0.4939
82414459|NCT03158688|164538816|SUPERIORITY||Stratified Cox model hazard ratio|0.63||||0.0014|TWO_SIDED|95.0|0.464|0.854||alpha level of 0.025|Log Rank||KdD/Kd|Stratification factors used in the Log-rank p-value (1-sided) and the Cox model hazard ratio (KdD/Kd) were as assessed at randomization: International Staging System stage at screening (Stage 1 or 2 vs Stage 3); prior proteasome inhibitor exposure (yes vs no); number of prior lines of therapy (1 vs \>= 2).||0.854|0.464|0.0014
82414460|NCT03158688|164538817|SUPERIORITY||Odds Ratio (OR)|1.925||||0.004|TWO_SIDED|95.0|1.184|3.129|||Cochran-Mantel-Haenszel||KdD/Kd|"Odds ratios and corresponding 95% CIs were estimated using the stratified Mantel-Haenszel method.~P-values were calculated using the stratified Cochran-Mantel-Haenszel Chi-Square test."||3.129|1.184|0.0040
82414461|NCT03158688|164538818|SUPERIORITY||Odds Ratio (OR)|7.819|||||TWO_SIDED|95.0|2.364|25.858|||||KdD/Kd|Odds ratios and corresponding 95% CIs were estimated using the stratified Mantel-Haenszel method.||25.858|2.364|
82414462|NCT03158688|164538819|SUPERIORITY||Cox Proportional Hazard|0.784||||0.0417|TWO_SIDED|95.0|0.595|1.033|||Log Rank||KdD/Kd|"Hazard ratio and corresponding 95% CIs were estimated using the stratified Cox proportional hazards models.~1-sided p-value from the log-rank test controlling for the randomization stratification factors."||1.033|0.595|0.0417
82414463|NCT03158688|164538828|SUPERIORITY||Odds Ratio (OR)|4.403|||||TWO_SIDED|95.0|2.007|9.656|||||KdD/Kd|Odds ratios and corresponding 95% CIs were estimated by a stratified analysis using the Mantel-Haenszel method.||9.656|2.007|
82414464|NCT03158688|164538829|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|1.24||0.948|TWO_SIDED|95.0|-2.52|2.35|||linear mixed effects model||The overall treatment difference (KdD - Kd)|Analysis was performed based on a linear mixed effects model. The model included fixed effects of treatment (all baseline responses were modeled with a dummy treatment), baseline QLQ-C30 GHS/QoL score, randomization stratification factors (ISS stage at screening (Stage 1 or 2 vs Stage 3), prior proteasome inhibitor exposure (yes vs no), number of prior lines of therapy (1 vs ≥ 2)), interaction between treatment and time, and random effects of participant intercept and random slope of time.||2.35|-2.52|0.9480
82414465|NCT02949934|164538882|SUPERIORITY|||||||0.013|||||||ANCOVA|Covariates were age, baseline AUDIT score, baseline drinks per day, and whether participant participated before vs. during the COVID-19 pandemic.||Analysis was an ANCOVA testing the interaction between rs4680 genotype and medication group.||||0.013
82414466|NCT02949934|164538883|SUPERIORITY|||||||0.014|||||||ANCOVA|Covariates were age, baseline AUDIT score, and baseline drinks per day.||Analysis was an ANCOVA testing the interaction between rs4680 genotype and medication group||||0.014
82414467|NCT02949934|164538884|SUPERIORITY|||||||0.062|||||||Mixed Models Analysis|Linear mixed model testing interaction between rs4680 genotype, medication group, and time, controlling for scanner||||||0.062
82414468|NCT02949934|164538885|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Linear mixed model testing interaction between rs4680 genotype, medication group, and time, controlling for scanner||||||0.83
82414469|NCT02949934|164538885|SUPERIORITY|||||||0.026|||||||Mixed Models Analysis|Linear mixed model testing interaction between medication group and time, controlling for scanner||||||0.026
82414470|NCT00849472|164538899|SUPERIORITY_OR_OTHER||Percentage of participants|17.98|||||TWO_SIDED|95.0|10.64|27.55|||||The estimated value (EV) represents the percentage of participants with pCR. Participants with missing data were excluded from the denominator (n=89; 4 participants with missing data) for the calculation of the EV.|||27.55|10.64|
82414471|NCT04822194|164538911|SUPERIORITY|||||||0.053|||||||Mixed Models Analysis|Ran linear mixed model, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups. Power analyses using an approximate effect size (d=.70) previously reported for within and between-subjects behavioral analyses of longitudinal reappraisal training data indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=.05) to detect between-group effects require 36 per group.||||0.053
82414472|NCT04822194|164538912|SUPERIORITY|||||||0.741|||||||Mixed Models Analysis|Ran linear mixed models on natural log of RMSSD, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups. Power analyses using an approximate effect size (d=.70) previously obtained for within and between-subjects analyses of respiratory sinus arrhythmia data indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=.05) to detect between-group effects should be achieved with 36 per group.||||0.741
82532630|NCT05126459|164762689|SUPERIORITY|||||||0.374||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.374
82532631|NCT05126459|164762690|SUPERIORITY|||||||0.55|||||||ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens.||||0.55
82414473|NCT04822194|164538913|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|Ran linear mixed model, p-value above reflects a group by session interaction.||Null hypothesis: no difference between groups. Power analyses using a within-subject fMRI effect size estimate for right amygdala affective reactivity from a meta-analysis of Human Connectome Project data of approx. d=.70, applying to between-subjects effects as well, indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=0.05) to detect between-group effects should be achieved with 36 participants per group.||||0.021
82414474|NCT04822194|164538914|SUPERIORITY|||||||0.724|||||||Mixed Models Analysis|We ran linear mixed models, p-value reflects a group by session interaction for the UGRS composite scores.||Null hypothesis: no difference between groups. Power analyses of an effect size (d=.70) previously reported for within and between-subjects analyses of questionnaire outcomes (i.e., depressive symptoms, grief rumination, perceived stress, reappraisal usage) indicate over 95% power (α=.05) to detect within-group effects and 90% power (α=0.05) for between-group effects should be achieved with 36 per group.||||0.724
82414475|NCT04822194|164538914|SUPERIORITY|||||||0.835|||||||Mixed Models Analysis|Ran linear mixed model on counterfactuals adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.835
82414476|NCT04822194|164538914|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|Ran linear mixed model on injustice adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups.||||0.090
82532632|NCT05126459|164762691|SUPERIORITY|||||||0.16||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens 8 hours after sedation.||||0.16
82646895|NCT03471182|165008669|SUPERIORITY|Outcome Measure Data were tested using a single linear mixed effects model. The 4 brain networks of interest (i.e., all 4 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of network. Group (i.e., CUD, HC-MRI) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the network-by-group interaction term and a factor to model the random-effect of participant.||||||0.024||||||Primary hypothesis of group differences (i.e., CUD vs HC-MRI participants) in functional brain network engagement was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||||||0.024
82646896|NCT03471182|165008670|SUPERIORITY|||||||0.87||||||Primary hypothesis of group differences (i.e., CUD vs HC-MRI participants) in fALFF was assessed as the significance level of the fixed-effect of group at a threshold of p\<0.05.|Mixed Models Analysis|||Outcome Measure Data were tested using a single linear mixed effects model. The 5 brain networks of interest (i.e., all 5 Rows of the Outcome Measure Data) were included in the model as a within-subjects factor for the fixed-effect of network. Group (i.e., CUD, HC-MRI) was included in the model as a between-subjects factor for the fixed-effect of group. The model also included the network-by-group interaction term and a factor to model the random-effect of participant.||||0.870
82646897|NCT04440163|165008672|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was greater than (\>) minus (-)10 percent (%), the non-inferiority was concluded.|Difference in percentage of participants|2.5|||||TWO_SIDED|95.0|-0.2|6.0|||Based on Miettinen and Nurminen method.|||MenA||6.0|-0.2|
82646898|NCT04440163|165008672|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|41.0|||||TWO_SIDED|95.0|34.4|47.5||||||MenC||47.5|34.4|
82646899|NCT04440163|165008672|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|24.3|||||TWO_SIDED|95.0|18.8|30.4||||||MenW||30.4|18.8|
82414477|NCT04822194|164538914|SUPERIORITY|||||||0.983|||||||Mixed Models Analysis|Ran linear mixed model on meaning adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.983
82414478|NCT04822194|164538914|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|Ran linear mixed model on reaction adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.760
82414479|NCT04822194|164538914|SUPERIORITY|||||||0.402|||||||Mixed Models Analysis|Ran linear mixed model on relations adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups.||||0.402
82414480|NCT04822194|164538915|SUPERIORITY|||||||0.092|||||||Mixed Models Analysis|We ran a linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.092
82532633|NCT05126459|164762692|SUPERIORITY|||||||0.012||||||The threshold for statistical significance was p=0.05.|ANOVA|||Null hypothesis: there is no significant difference in GI reaction between the 3 regimens at 24 hours after sedation.||||0.012
82414481|NCT04822194|164538916|SUPERIORITY|||||||0.585|||||||Mixed Models Analysis|Ran a linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.585
82414482|NCT04822194|164538917|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Ran linear mixed model, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.70
82414483|NCT04822194|164538918|SUPERIORITY|||||||0.696|||||||Mixed Models Analysis|Ran linear mixed model on emotional problems adjusted for covariates, p-value above reflects group by session interaction||Null hypothesis: no difference between groups.||||0.696
82414484|NCT04822194|164538918|SUPERIORITY|||||||0.452|||||||Mixed Models Analysis|Ran linear mixed model on emotional well-being adjusted for covariates, p-value reflects group by session interaction||Null hypothesis: no difference between groups||||0.452
82414485|NCT04822194|164538918|SUPERIORITY|||||||0.65|||||||Mixed Models Analysis|Ran a linear mixed model on energy adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.650
82414486|NCT04822194|164538918|SUPERIORITY|||||||0.224|||||||Mixed Models Analysis|Ran linear mixed model on general health perceptions adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.224
82414487|NCT04822194|164538918|SUPERIORITY|||||||0.256|||||||Mixed Models Analysis|Ran linear mixed model on pain adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference in groups||||0.256
82414488|NCT04822194|164538918|SUPERIORITY|||||||0.984|||||||Mixed Models Analysis|Ran linear mixed model on physical function adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.984
82414489|NCT04822194|164538918|SUPERIORITY|||||||0.363|||||||Mixed Models Analysis|Ran linear mixed model on physical health adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.363
82414490|NCT04822194|164538918|SUPERIORITY|||||||0.045|||||||Mixed Models Analysis|Ran linear mixed model on social functioning adjusted for covariates, p-value above reflects group by session interaction.||Null hypothesis: no difference between groups||||0.045
82414491|NCT04822194|164538919|SUPERIORITY|||||||0.422|||||||ANCOVA|Ran a repeated measures ANCOVA of logged IL-6 serum, p-value above reflects time by ER group interaction effect.||Null hypothesis: no difference between groups||||0.422
82532634|NCT00065468|164762696|NON_INFERIORITY_OR_EQUIVALENCE|2 null hypotheses (Ho) were tested: 1) Survival distributions for temsirolimus alone and Interferon Alfa (IFN)-alone treatment groups were identical. 2) Survival distributions for temsirolimus in combination with IFN and IFN-alone treatment groups were identical. The alternative hypothesis (Ha) for each test was that the survival distributions differed.|Cox Proportional Hazard|0.78||||0.0252|TWO_SIDED|95.0|0.63|0.97|||Log Rank|Stratified by prior nephrectomy and region||||0.97|0.63|0.0252
82414492|NCT04822194|164538919|SUPERIORITY|||||||0.438|||||||ANCOVA|Ran a repeated measures ANCOVA of TNFα, p-value above reflects time by ER group interaction effect.||Null hypothesis: no difference between groups||||0.438
82414493|NCT04615507|164538920|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.00 logMAR for Distance.|Mean estimate|-0.132|STANDARD_ERROR_OF_MEAN|0.0201|||TWO_SIDED|95.0|-0.18|-0.083|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||-0.083|-0.180|
82414494|NCT04615507|164538920|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.17 logMAR for Intermediate.|Mean estimate|-0.066|STANDARD_ERROR_OF_MEAN|0.0202|||TWO_SIDED|95.0|-0.115|-0.017|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||-0.017|-0.115|
82414495|NCT04615507|164538920|SUPERIORITY|The superiority of the Test lens will be concluded if the upper confidence limit of the mean is below the predefined threshold +0.17 logMAR for Near.|Mean estimate|0.072|STANDARD_ERROR_OF_MEAN|0.0217|||TWO_SIDED|95.0|0.022|0.121|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom.||||0.121|0.022|
82414496|NCT04615507|164538921|SUPERIORITY|The superiority of the Test lens will be concluded if the lower confidence limit of the LSM is above the predefined threshold 32 points.|Least-square mean|59.6|STANDARD_ERROR_OF_MEAN|3.05|||TWO_SIDED|95.0|52.3|66.8|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom||||66.8|52.3|
82414497|NCT04615507|164538921|NON_INFERIORITY|The non-Inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above -5 points.|Least-square mean difference|5.5|STANDARD_ERROR_OF_MEAN|2.36|||TWO_SIDED|95.0|0.9|10.2|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom|LSM difference was calculated as Test minus Control|||10.2|0.9|
82414498|NCT00248547|164538922|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon Rank Sum Test|||||||0.041
82532635|NCT00065468|164762696|NON_INFERIORITY_OR_EQUIVALENCE|2 null hypotheses (Ho) were tested: 1) Survival distributions for temsirolimus alone and IFN-alone treatment groups were identical. 2) Survival distributions for temsirolimus in combination with IFN and IFN-alone treatment groups were identical. The alternative hypothesis (Ha) for each test was that the survival distributions differed.|Cox Proportional Hazard|0.93||||0.4902|TWO_SIDED|95.0|0.75|1.15|||Log Rank|Stratified by prior nephrectomy and region||||1.15|0.75|0.4902
82532636|NCT00065468|164762697|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.74||||0.0042|TWO_SIDED|95.0|0.6|0.91|||Log Rank|Stratified by prior nephrectomy and region||||0.91|0.60|0.0042
82414499|NCT05494632|164538927|SUPERIORITY||Median Difference (Net)|1.0|||<|0.001|TWO_SIDED|||||the threshold for statistical significance was \<=0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82414500|NCT03010501|164538961|SUPERIORITY||||||<|0.0001||||||According to predefined comparisons, outcomes of the 80% and 120% Food Energy Density interventions were compared to the outcome of the baseline (100%) intervention.|Mixed Models Analysis|||||||< 0.0001
82414501|NCT03010501|164538962|SUPERIORITY|||||||0.1||||||According to predefined comparisons, intake by weight in the 80% intervention was compared to the 100% intervention.|Mixed Models Analysis|||||||0.10
82414502|NCT03010501|164538962|SUPERIORITY|||||||0.15||||||According to predefined comparisons, intake by weight in the 120% intervention was compared to the 100% intervention.|Mixed Models Analysis|||||||0.15
82414503|NCT03010501|164538963|SUPERIORITY||||||<|0.0001||||||According to predefined comparisons, outcomes of the 80% and 120% Food Energy Density interventions were compared to the outcome of the baseline (100%) intervention.|Mixed Models Analysis|||||||< 0.0001
82414504|NCT01590875|164539065|EQUIVALENCE|Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose|||||<|0.01|||||||no relevant statistical analysis|||Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose||||<0.01
82414505|NCT01590875|164539066|EQUIVALENCE|Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose|||||<|0.01|||||||kappa statistic|||Kappa statistics on per pulmonary vein basis were used to determine the probability of recovery, transient recovery or no recovery with second adenosine dose compared with probability of same response after first adenosine dose||||< 0.01
82414506|NCT02347787|164539067|SUPERIORITY|||||||0.3|||||||Regression, Linear|||Determination of targeted sample size was based on detecting a between-arm difference in mean change in SF-12 Physical Component Summary of 3 points, which is the minimal clinically significant difference for this instrument. To achieve at least 80% power with a type I error rate of 5%, we required 444 total participants. To account for 25% attrition, we aimed to accrue 592 participants.||||0.30
82414507|NCT02347787|164539068|SUPERIORITY||Risk Difference (RD)|-0.2||||0.21|TWO_SIDED|95.0|-1.3|0.9|||Regression, Linear|||||0.9|-1.3|0.21
82414508|NCT02347787|164539069|SUPERIORITY||Risk Difference (RD)|-0.2||||0.21|TWO_SIDED|95.0|-0.7|0.4|||Regression, Linear|||||0.4|-0.7|0.21
82414509|NCT02347787|164539070|SUPERIORITY||Risk Difference (RD)|-0.5||||0.21|TWO_SIDED|95.0|-2.2|1.2|||Regression, Linear|||||1.2|-2.2|0.21
82414510|NCT02347787|164539071|SUPERIORITY||Risk Difference (RD)|-6.3||||0.21|TWO_SIDED|95.0|-14.3|1.8|||Regression, Linear|||||1.8|-14.3|0.21
82414511|NCT02347787|164539072|SUPERIORITY|||||||0.41|||||||Regression, Linear|||||||0.41
82414512|NCT02347787|164539073|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82414513|NCT02347787|164539074|SUPERIORITY||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||||1.5|0.6|0.98
82414514|NCT02347787|164539076|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82414515|NCT02347787|164539077|SUPERIORITY|||||||0.02|||||||Regression, Logistic|||||||0.02
82414516|NCT02347787|164539078|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||||||0.04
82414517|NCT02347787|164539080|SUPERIORITY|||||||0.09|||||||Regression, Linear|||||||0.09
82414518|NCT02347787|164539081|SUPERIORITY|||||||0.06|||||||Regression, Linear|||||||0.06
82532637|NCT00065468|164762697|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76||||0.0107|TWO_SIDED|95.0|0.62|0.94|||Log Rank|Stratified by prior nephrectomy and region||||0.94|0.62|0.0107
82532638|NCT00065468|164762698|SUPERIORITY_OR_OTHER|||||||0.1361|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.1361
82414519|NCT01059851|164539096|NON_INFERIORITY_OR_EQUIVALENCE|"AUC(0-∞) GMR = AUC(0-∞) GM for Severe Renal Impairment Participants ÷ AUC(0-∞) GM for Healthy Participants.~A 90% CI for the AUC(0-∞) GMR was computed from the ANCOVA model. As prespecified by the analysis plan, if the 90% CI for the AUC(0-∞) GMR was contained within the interval \[0.50, 2.00\], then the hypothesis would be met and the AUC(0-∞) of suvorexant would be similar in both groups of participants. That is, if the true ratio of the GM AUC(0-∞) is greater than 0.50 and no more than 2.00."|AUC(0-∞) Geometric Mean Ratio|1.22|||||TWO_SIDED|90.0|0.93|1.6|||ANCOVA|||"The geometric mean (GM) for each participant group and the corresponding 95% confidence interval (CI) were calculated for AUC(0-∞) using an analysis of covariance (ANCOVA) model.~The AUC(0-∞) geometric mean ratio (GMR) of the 2 participant groups was used to test the primary hypothesis, which was that the AUC(0-∞) of suvorexant following a single oral dose would be similar between participants with renal impairment and healthy matched control participants."||1.60|0.93|
82414520|NCT00541229|164539123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.8||||0.004||95.0|-53.1|-10.5|||ANOVA|Model term: treatment||For this comparison, the mean in the placebo group was subtracted from the mean in the sitagliptin 200 mg group.||-10.5|-53.1|0.004
82414521|NCT00541229|164539123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.9|||<|0.001||95.0|-63.6|-20.2|||ANOVA|Model term: treatment||For this comparison, the mean in the placebo group was subtracted from the mean in the sitagliptin 100 mg group.||-20.2|-63.6|<0.001
82414522|NCT00541229|164539123|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis stated that the lower bound of 80% one-sided confidence interval for the comparison in 24-hour WMG reduction between sitagliptin 200 mg and sitagliptin 100 mg is above -5 mg/dL.|Mean Difference (Final Values)|10.1||||||80.0|0.61|9999999.0|||||This is a 1-sided 80% confidence interval and the upper bound 9999999 was used here to indicate positive infinity.|This was pre-defined as a non-superiority test, i.e., to show that sitagliptin 200 mg is not superior to sitagliptin 100 mg. For this comparison, the mean in the sitagliptin 100 mg group was subtracted from the mean in the sitagliptin 200 mg group.||9999999|0.61|
82414523|NCT00924651|164539124|OTHER||Mean Difference (Final Values)|-0.01916|STANDARD_ERROR_OF_MEAN|0.1791||0.9148|TWO_SIDED|95.0|-0.371|0.3327|||ANCOVA|||||0.3327|-0.3710|0.9148
82414524|NCT03927157|164539173|SUPERIORITY||Rate Ratio|0.26|||<|0.001|TWO_SIDED|95.0|0.17|0.39|||Negative Binomial Regression|||||0.39|0.17|<0.001
82414525|NCT03927157|164539174|SUPERIORITY||Least Squares Mean Difference|0.24|||<|0.001|TWO_SIDED|95.0|0.16|0.32|||Mixed Models Analysis|||||0.32|0.16|<0.001
82414526|NCT03927157|164539175|SUPERIORITY||Least Squares Means Difference|0.35||||0.001|TWO_SIDED|95.0|0.14|0.55|||Mixed Models Analysis|||||0.55|0.14|0.001
82414527|NCT03927157|164539176|SUPERIORITY||Least Squares Means Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.47|-0.15|||Mixed Models Analysis|||||-0.15|-0.47|<0.001
82414528|NCT03927157|164539177|SUPERIORITY||Least Squares Means Difference|-0.16||||0.001|TWO_SIDED|95.0|-0.27|-0.06|||Mixed Models Analysis|||||-0.06|-0.27|0.001
82414529|NCT05561140|164539211|SUPERIORITY||Difference in percentage|-0.3|||=|1|TWO_SIDED|95.0|-10.9|10.2|||Cochran-Mantel-Haenszel|||||10.2|-10.9|=1.0000
82414530|NCT05561140|164539213|SUPERIORITY||Least Square (LS) Mean Difference|-8.2|||=|0.0297|TWO_SIDED|95.0|-15.6|-0.8|||Mixed Models Analysis|||The mixed model for repeated measures (MMRM) model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for stratification factors.||-0.8|-15.6|=0.0297
82414531|NCT05561140|164539214|SUPERIORITY||Difference in percentage|-8.1|||=|0.3456|TWO_SIDED|95.0|-26.9|10.7|||Cochran-Mantel-Haenszel|||||10.7|-26.9|=0.3456
82414532|NCT03301714|164539221|EQUIVALENCE|equivalence analysis|Mean Difference (Final Values)|7.62||||0|TWO_SIDED|95.0||||baseline demographics, correlated errors due to repeated measures, and bias due to lost to follow-up were accounted for via Generalized Estimating Equation (statistical threshold \<0.01)|Regression, Linear||Mean change difference in oral health related quality of life among control, intervention 1: group-based oral health education and intervention 2: individual-based oral health education using motivational interviewing.|||||.000
82414533|NCT03491917|164539239|NON_INFERIORITY|Non-inferiority margin is delta = 0.05.|||||<|0.01||||||The average difference in AUC was 0.023 (two-sided 95% CI: -0.012, 0.059; non-inferiority p \< 0.01 for non-inferiority margin delta = -0.05).|t-test, 2 sided|df: 417.0 for FFDM, 424.6 for DBT plus S-View, and (1, 18.9) for the difference.||The primary endpoint for this study was a non-inferior per-subject average area under the receiver operating characteristic (ROC) curve (AUC) requiring correct lesion localization for DBT (digital breast tomosynthesis) plus S-View (synthesized view) versus FFDM (full field digital mammography). AUCs for each reader were estimated in each review condition based on per-subject probability of malignancy (POM) scores requiring correct lesion localization.||||<0.01
82414534|NCT01068912|164539240|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||A step-down approach was applied to the primary analysis, with the higher dose of favipiravir first tested against placebo.|Gehan-Wilcoxon|||Time required from first study drug administration to alleviation of the 6 primary influenza symptoms and fever. The primary influenza symptoms included cough, sore throat, headache, nasal congestion, body aches and pains, and fatigue. Symptoms were considered alleviated when all were decreased to ≤1 and decrease persisted unchanged ≥ 21.5 hours. Fever was considered alleviated when maintained at \< 38.0°C (age 20 to \< 65 years) or \< 37.8°C (age ≥ 65 years) ≥ 21.5 hours.||||.05
82414535|NCT02762604|164539241|SUPERIORITY||Mean Difference (Net)|-2.12|STANDARD_ERROR_OF_MEAN|8.79|||TWO_SIDED|95.0|-19.36|15.12|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in normal pace gait speed pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||15.12|-19.36|
82414536|NCT02762604|164539241|SUPERIORITY||Mean Difference (Net)|17.19|STANDARD_ERROR_OF_MEAN|8.05|||TWO_SIDED|95.0|1.4|32.97|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in gait speed during walking while talking pre and post intervention||32.97|1.40|
82414537|NCT02762604|164539242|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|0.21|2.99|||||The estimate parameter reflects change in the number of correct letters generated pre to post intervention as a function intervention (Imagined Gait vs. Visual Imagery).|A linear mixed effects model was used to compare changes in correct letters generated pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.99|0.21|
82447232|NCT01754493|164603187|SUPERIORITY_OR_OTHER_LEGACY||Slope|-20.71|||<|0.05|TWO_SIDED|95.0|-27.44|-13.97|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in total GSRS symptom scores for IBS. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-13.97|-27.44|<0.05
82447233|NCT01754493|164603188|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.59|||<|0.05|TWO_SIDED|95.0|-2.16|-1.03|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in CGI-MDD score. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.03|-2.16|<0.05
82447234|NCT01754493|164603188|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.55|||<|0.05|TWO_SIDED|95.0|-1.99|-1.11|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in CGI-IBS score. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.11|-1.99|<0.05
82447235|NCT01754493|164603189|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.03|||<|0.05|TWO_SIDED|95.0|-1.16|1.1|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of overall pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.10|-1.16|<0.05
82447236|NCT01754493|164603189|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.47|||<|0.05|TWO_SIDED|95.0|-1.07|2.01|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample with all subjects dispensed medication (n=17). This repeated-measures mixed-effects regression analysis assessed the rate of change in VAS score of pain interfering with daily activities. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a 1st-order autocorrelation structure. Data from each time point (wks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis||2.01|-1.07|<0.05
82447237|NCT01754493|164603189|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.59|||<|0.05|TWO_SIDED|95.0|-2.28|1.1|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of headaches. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.10|-2.28|<0.05
82447238|NCT01754493|164603189|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.35|||<|0.05|TWO_SIDED|95.0|-1.56|0.87|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of back pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||.87|-1.56|<0.05
82447239|NCT01754493|164603189|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.48|||<|0.05|TWO_SIDED|95.0|-2.0|1.03|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample, including all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in VAS score of shoulder pain. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||1.03|-2.00|<0.05
82447240|NCT01754493|164603190|SUPERIORITY_OR_OTHER_LEGACY||Slope|-4.38|||<|0.05|TWO_SIDED|95.0|-7.39|-1.36|||Mixed Models Analysis|||We used the intention-to-treat (ITT) sample with all subjects dispensed medication (n=17). This was a repeated-measures mixed-effects regression analysis assessing the rate of change in PHQ-15 scores of somatization symptoms. To account for the correlation of observations within individuals, we used mixed-effects models with random intercepts and a first-order autocorrelation structure. Data from each time point (weeks 0, 1, 2, 3, 4, 6, 8, 12) were used in the single repeated-measures analysis.||-1.36|-7.39|<0.05
82414538|NCT02762604|164539243|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|7.37|||TWO_SIDED|95.0|-12.04|16.85|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (Imagined Gait vs. Visual Imagery).|Linear mixed effects model were used to compare changes in the functional activation/deactivation pattern (factor score) during imagery of walking-while talking (relative to walking and talking alone) pre and post intervention - as a function of of intervention (Imagined Gait vs. Visual Imagery)||16.85|-12.04|
82414539|NCT02762604|164539244|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|6.94|||TWO_SIDED|95.0|-14.15|13.07|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails a time pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||13.07|-14.15|
82447241|NCT01272635|164603194|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.04|TWO_SIDED|95.0|0.41|0.98|||Discrete time survival analysis||Hazard ratio: Numerator is Azithromycin and Denominator is Placebo|||0.98|0.41|0.04
82447242|NCT01543776|164603202|NON_INFERIORITY|The above criteria for non-inferiority corresponds to a response rate in the low dose arm that is no more than 15% lower than the response rate in the high dose arm (i.e., non-inferiority margin of 15%), under the assumption that the log ratios are approximately normally distributed.|Mean Difference (Final Values)|0.3976|||<|0.1|ONE_SIDED|90.0|-0.1111|||Calculated p-value.|t-test, 1 sided||||||-0.1111|<0.10
82447243|NCT01543776|164603203|SUPERIORITY|||||||0.38|||||||Log Rank|||||||0.38
82532639|NCT00065468|164762698|SUPERIORITY_OR_OTHER|||||||0.1062|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.1062
82532640|NCT00065468|164762699|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||<0.0001
82532641|NCT00065468|164762699|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by prior nephrectomy and region||||||0.0011
82532642|NCT00065468|164762701|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.76|||Log Rank|Stratified by prior nephrectomy and region||||0.76|0.51|<0.0001
82532643|NCT00065468|164762701|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.73||||0.002|TWO_SIDED|95.0|0.6|0.89|||Log Rank|Stratified by prior nephrectomy and region||||0.89|0.60|0.0020
82532644|NCT05515679|164762704|SUPERIORITY||Median Difference (Final Values)|0.72|STANDARD_DEVIATION|0.48|<|0.01|TWO_SIDED|95.0|0.51|0.94|||t-test, 2 sided|||Using a paired sample t-test (two tailed), we wished to examine whether there was an increase in Constructive Engagement and Pleasure and a reduction in Passive Engagement, Distracted Engagement, and Non-Engagement, from baseline to treatment. With an anticipated PWD sample of 24, and using means and standard deviations from the PI's previous studies, we calculated a power of 90% to detect effects (alpha = .05; one-tailed test). (3) PWD and staff report high satisfaction wi||.94|.51|<0.01
82532645|NCT05515679|164762705|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|0.6||0.017|TWO_SIDED|95.0|-0.59|-0.07|||t-test, 2 sided|||||-0.07|-0.59|.017
82532646|NCT05515679|164762706|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|0.41||0.008|TWO_SIDED|95.0|-0.43|-0.07|||t-test, 2 sided|||||-0.07|-0.43|.008
82532647|NCT05515679|164762707|SUPERIORITY||Median Difference (Final Values)|-0.15|STANDARD_DEVIATION|0.34||0.053|TWO_SIDED|95.0|-0.3|0.0|||t-test, 2 sided|||||-.00|-.30|0.053
82532648|NCT05515679|164762708|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|0.28|<|0.01|TWO_SIDED|95.0|0.54|0.79|||t-test, 2 sided|||||.79|.54|<.01
82414540|NCT02762604|164539245|SUPERIORITY||Mean Difference (Net)|-12.21|STANDARD_ERROR_OF_MEAN|20.26|||TWO_SIDED|95.0|-51.92|27.51|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails b time pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||27.51|-51.92|
82414541|NCT02762604|164539246|SUPERIORITY||Mean Difference (Net)|-10.83|STANDARD_ERROR_OF_MEAN|19.03|||TWO_SIDED|95.0|-48.12|26.47|||||The estimate parameter is the difference in change pre to post intervention between Imagined Gait and Visual Imagery group.|Linear mixed effects model were used to compare changes in trails B minus A time pre and post intervention.||26.47|-48.12|
82414542|NCT02762604|164539247|SUPERIORITY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-2.65|0.79|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in correct letter number sequences pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.79|-2.65|
82414543|NCT02762604|164539248|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|12.95|||TWO_SIDED|95.0|-24.0|26.78|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in Stroop interference pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||26.78|-24.00|
82414544|NCT02762604|164539249|SUPERIORITY||Mean Difference (Net)|6.76|STANDARD_ERROR_OF_MEAN|79.95|||TWO_SIDED|95.0|-149.94|163.47|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in flanker interference pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||163.47|-149.94|
82447244|NCT01543776|164603204|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82532649|NCT05515679|164762709|SUPERIORITY||Mean Difference (Final Values)|4.11|STANDARD_DEVIATION|3.35|<|0.001|TWO_SIDED|95.0|2.62|5.6|||t-test, 2 sided|||||5.60|2.62|<.001
82532650|NCT05515679|164762710|SUPERIORITY||Mean Difference (Final Values)|-1.07|STANDARD_DEVIATION|1.1|<|0.001|TWO_SIDED|95.0|-1.55|-0.58|||t-test, 2 sided|||||-0.58|-1.55|<.001
82532651|NCT05515679|164762711|SUPERIORITY||Median Difference (Final Values)|6.02|STANDARD_DEVIATION|11.4||0.022|TWO_SIDED|95.0|0.97|11.1|||t-test, 2 sided|||||11.1|0.97|.022
82532652|NCT05515679|164762712|SUPERIORITY||Mean Difference (Final Values)|1.23|STANDARD_DEVIATION|9.5||0.551|TWO_SIDED|95.0|-2.9|5.44|||t-test, 2 sided|||||5.44|-2.90|.551
82532653|NCT05515679|164762713|SUPERIORITY||Mean Difference (Final Values)|27.43|STANDARD_DEVIATION|0.11|<|0.001|TWO_SIDED|95.0|17.7|37.2|||t-test, 2 sided|||||37.2|17.7|<.001
82532654|NCT02571439|164762717|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82532655|NCT02571439|164762718|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82532656|NCT02571439|164762719|OTHER|||||||0.61|||||||Kruskal-Wallis|||||||0.61
82532657|NCT02571439|164762720|OTHER|||||||0.46|||||||Kruskal-Wallis|||||||0.46
82532658|NCT02571439|164762721|OTHER|||||||0.33|||||||Kruskal-Wallis|||||||0.33
82532659|NCT02571439|164762722|OTHER|||||||0.13|||||||Kruskal-Wallis|||||||0.13
82532660|NCT02571439|164762723|OTHER|||||||0.17|||||||Kruskal-Wallis|||||||0.17
82532661|NCT02571439|164762724|OTHER|||||||0.87|||||||Kruskal-Wallis|||||||0.87
82532662|NCT02571439|164762725|OTHER|||||||0.27|||||||Chi-squared|||||||0.27
82532663|NCT02571439|164762726|OTHER|||||||0.91|||||||Kruskal-Wallis|||||||0.91
82532664|NCT01058863|164762736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.88|1.42||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.42|0.88|<0.0001
82447245|NCT01543776|164603205|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.26
82447246|NCT01543776|164603206|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
82447247|NCT03626545|164603208|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.633|TWO_SIDED|95.0|0.76|1.48|||Log Rank||Hazard ratio was estimated using a Cox Proportional Hazards regression model stratified by line of therapy and histology|||1.48|0.76|0.633
82414545|NCT02762604|164539250|SUPERIORITY||Mean Difference (Net)|15.2|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|5.99|24.41|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in stride length during walking while talking pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||24.41|5.99|
82414546|NCT02762604|164539251|SUPERIORITY||Mean Difference (Net)|-1.96|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-3.73|-0.2|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in gait variability during walking while talking pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||-0.20|-3.73|
82414547|NCT02762604|164539253|SUPERIORITY||Mean Difference (Net)|2.43|STANDARD_ERROR_OF_MEAN|4.29|||TWO_SIDED|95.0|-5.98|10.84|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in total free recall pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||10.84|-5.98|
82414548|NCT02762604|164539254|SUPERIORITY||Mean Difference (Net)|-1.94|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-5.88|2.0|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in delayed figure copy recall pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.00|-5.88|
82414549|NCT02762604|164539255|SUPERIORITY||Mean Difference (Net)|-6.36|STANDARD_ERROR_OF_MEAN|6.96|||TWO_SIDED|95.0|-20.01|7.28|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in word fluency pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||7.28|-20.01|
82414550|NCT02762604|164539256|SUPERIORITY||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|6.25|||TWO_SIDED|95.0|-6.51|17.97|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in semantic fluency pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||17.97|-6.51|
82414551|NCT02762604|164539257|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|8.2|||TWO_SIDED|95.0|-16.1|16.03||||||A linear mixed effects model was used to compare changes in digit symbol substitution performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)|The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|16.03|-16.10|
82414552|NCT02762604|164539259|SUPERIORITY||Mean Difference (Net)|3.64|STANDARD_ERROR_OF_MEAN|7.54|||TWO_SIDED|95.0|-11.14|18.42|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in immediate maze performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||18.42|-11.14|
82414553|NCT02762604|164539260|SUPERIORITY||Mean Difference (Net)|3.26|STANDARD_ERROR_OF_MEAN|12.2|||TWO_SIDED|95.0|-20.65|27.18|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in delayed maze performance pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||27.18|-20.65|
82414554|NCT02762604|164539261|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|-0.45|0.9|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in maze errors pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.90|-0.45|
82414555|NCT02762604|164539262|SUPERIORITY||Mean Difference (Net)|0.26|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-1.74|2.26|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in depressive symptoms pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||2.26|-1.74|
82414556|NCT02762604|164539263|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|1.24|||TWO_SIDED|95.0|-3.38|1.49|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in anxiety symptoms pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||1.49|-3.38|
82414557|NCT02762604|164539264|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.04|0.12|||||The estimate parameter reflects the difference in pre to post change between Imagined Gait and Visual Imagery groups.|A linear mixed effects model was used to compare changes in cortical thickness pre and post intervention - as a function of intervention (Imagined Gait vs. Visual Imagery)||0.12|-0.04|
82447248|NCT00434642|164603243|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.484|||<|0.0001|TWO_SIDED|95.0|0.388|0.605||A P-value \< 0.05 was required for significance.|Log Rank|The analysis was stratified for time since the last platinum therapy (6-12, \> 12 months) and cytoreductive surgery for recurrent disease (yes, no).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the carboplatin and gemcitabine + placebo group.|The null hypothesis was that there was no difference between the 2 treatment groups, ie, that the hazard ratio is equal to 1. The alternative hypothesis was that progression free survival was longer in the carboplatin and gemcitabine + bevacizumab group, ie, that the hazard ratio is not equal to 1.||0.605|0.388|<0.0001
82576486|NCT00935532|164862616|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-12.33|-3.45|||ANCOVA|||Change in total cholesterol from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline total cholesterol as a covariate.||-3.45|-12.33|<.001
82414558|NCT01257438|164539272|SUPERIORITY_OR_OTHER||Greenwood's estimate of variance|0.59|||<|0.001|TWO_SIDED|95.0|0.44|0.79|||Log Rank|||Subjects at risk (at 6 months) is a calculation in Kaplan-Meier time-to-event analyses that refers to subjects who have not had ACPP failure through the 6 months (i.e., are event-free through 6 months).||0.79|0.44|<0.001
82414559|NCT01257438|164539273|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is based on a non-inferiority Farrington and Manning Exact Test. The non-inferiority margin is 0.075 (or 7.5%).||||||0.007|TWO_SIDED||||||Farrington and Manning Exact Test|The non-inferiority margin is 0.075 (or 7.5%)||||||0.007
82414560|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6346|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.6346
82414561|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2757|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.2757
82414562|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1321|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.1321
82414563|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5543|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.5543
82414564|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.394|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||0.3940
82532665|NCT01058863|164762736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.7|1.24||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.24|0.70|<0.0001
82646900|NCT04440163|165008672|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|23.8|||||TWO_SIDED|95.0|18.0|30.1||||||MenY||30.1|18.0|
82414565|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7891|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.7891
82414566|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4829|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 25 time point.||||0.4829
82414567|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4526|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.4526
82414568|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2485|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 28 time point.||||0.2485
82414569|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6252|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.6252
82646901|NCT04440163|165008673|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-3.2|||||TWO_SIDED|95.0|-6.5|0.5||||||MenA||0.5|-6.5|
82414570|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4003|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 4 time point.||||0.4003
82414571|NCT00544882|164539326|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8841|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.8841
82414572|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8892|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.8892
82414573|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7678|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.7678
82414574|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5782|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.5782
82414575|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8083|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.8083
82414576|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||1.0000
82414577|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4122|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.4122
82414578|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6675|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 25 time point.||||0.6675
82414579|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8445|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.8445
82414580|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3772|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 28 time point.||||0.3772
82414581|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1918|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.1918
82414582|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6675|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 4 time point.||||0.6675
82414583|NCT00544882|164539328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9226|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.9226
82414584|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0979|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 2 time point. p-values \< 0.05 were considered statistically significant.||||0.0979
82414585|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0629|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 4 time point.||||0.0629
82414586|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8464|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 6 time point.||||0.8464
82414587|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6316|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Days 19-20 time point.||||0.6316
82447249|NCT00434642|164603244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.1|||<|0.0001|TWO_SIDED|95.0|13.0|29.2||A P-value \< 0.05 was required for significance.|Cochran-Mantel-Haenszel|The analysis was stratified for time since the last platinum therapy (6-12, \> 12 months) and cytoreductive surgery for recurrent disease (yes, no).|The difference in response rates and the 95% confidence intervals for response rates were computed using the normal approximation to the binomial distribution.|The null hypothesis was that there was no difference in the percentage of patients with an objective response between the 2 treatment groups. The alternative hypothesis was that a larger percentage of patients had an objective response in the carboplatin and gemcitabine + bevacizumab group.||29.2|13.0|<0.0001
82447250|NCT00434642|164603246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.6479|TWO_SIDED|95.0|0.771|1.176||Summaries of duration of overall survival (median, percentiles) were estimated from Kaplan-Meier curves. The 95% confidence interval for the median was computed using the method of Brookmeyer and Crowley.|Log Rank|The analysis was stratified for time since the last platinum therapy (≤12, \>12 months) and cytoreductive surgery for recurrent disease (Yes, No).|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the carboplatin and gemcitabine + placebo group.|||1.176|0.771|0.6479
82576487|NCT00935532|164862617|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.69||0.689|TWO_SIDED|95.0|-1.64|1.09|||ANCOVA|||Change in HDL-C from baseline to endpoint was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pre-treatment with SU as factors and baseline HDL-C as a covariate.||1.09|-1.64|0.689
82646902|NCT04440163|165008673|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-0.9|||||TWO_SIDED|95.0|-4.6|3.3||||||MenC||3.3|-4.6|
82414588|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 23 time point.||||0.3000
82414589|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0955|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 24 time point.||||0.0955
82414590|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1523|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 25 time point.||||0.1523
82414591|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2809|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 2 - Day 27 time point.||||0.2809
82414592|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8829|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 28 time point.||||0.8829
82414593|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9262|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 2 time point.||||0.9262
82414594|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7811|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 -Day 4 time point.||||0.7811
82414595|NCT00544882|164539329|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3703|||||||Wilcoxon (Mann-Whitney)|||Comparison of treatment groups at Cycle 3 - Day 6 time point.||||0.3703
82414596|NCT00308685|164539335|OTHER||Difference in adjusted means|5.163||||0.0002|TWO_SIDED|95.0|2.478|7.847||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) with baseline FEV1 as covariate and fixed effects of pooled center and treatment group.||7.847|2.478|0.0002
82447251|NCT02421588|164603249|SUPERIORITY||Hazard Ratio (HR)|1.057||||0.6294|TWO_SIDED|95.0|0.854|1.309|||Log Rank|||PFS between treatments||1.309|0.854|0.6294
82447252|NCT02421588|164603249|SUPERIORITY||PFS at 6 months|24.3|||||TWO_SIDED|95.0|18.4|30.7|||||Percent of Participants|PFS (%) at 6 months||30.7|18.4|
82447253|NCT02421588|164603249|SUPERIORITY||PFS at 6 months|27.5|||||TWO_SIDED|95.0|20.9|34.4|||||Percent of Participants|PFS (%) at 6 months||34.4|20.9|
82414597|NCT04937387|164539341|OTHER||Least Squares Mean Difference|0.059|STANDARD_ERROR_OF_MEAN|0.0449|||TWO_SIDED|95.0|-0.03|0.147|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline trough FEV1 value, visit, and interaction terms for baseline trough FEV1-by-visit and treatment-by-visit, covariance structure = unstructured.|0.147|-0.030|
82414598|NCT04937387|164539341|OTHER||Posterior Mean|0.076|||||TWO_SIDED|90.0|0.025|0.115|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 100/62.5/25 and FF/VI 100/25 estimated in the MMRM analysis.|||0.115|0.025|
82414599|NCT04937387|164539341|OTHER||Posterior Median|0.079|||||TWO_SIDED|95.0|0.005|0.123|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 100/62.5/25 and FF/VI 100/25 estimated in the MMRM analysis.|||0.123|0.005|
82414600|NCT04937387|164539342|OTHER||Least Squares Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.0455|||TWO_SIDED|95.0|-0.094|0.084|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline trough FEV1 value, visit, and interaction terms for baseline trough FEV1-by-visit and treatment-by-visit, covariance structure = unstructured.|0.084|-0.094|
82414601|NCT04937387|164539342|OTHER||Posterior Mean|0.023|||||TWO_SIDED|90.0|-0.071|0.103|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 200/62.5/25 and FF/VI 200/25 estimated in the MMRM analysis.|||0.103|-0.071|
82414602|NCT04937387|164539342|OTHER||Posterior Median|0.023||||||95.0|-0.086|0.11|||||Analysis was conducted in the Bayesian paradigm using the pre-specified mixture prior distribution, which was updated with the treatment difference between FF/UMEC/VI 200/62.5/25 and FF/VI 200/25 estimated in the MMRM analysis.|||0.110|-0.086|
82414603|NCT04937387|164539343|OTHER||Least Squares Mean Difference|-0.028|STANDARD_ERROR_OF_MEAN|0.0823|||TWO_SIDED|95.0|-0.19|0.134|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline ACQ-7 total score, visit, and interaction terms for baseline ACQ-7 total score-by-visit and treatment-by-visit, covariance structure = unstructured.|0.134|-0.190|
82414604|NCT04937387|164539343|OTHER||Least Squares Mean Difference|0.112|STANDARD_ERROR_OF_MEAN|0.0832|||TWO_SIDED|95.0|-0.052|0.276|||||||Analysis performed using mixed effect model for repeated measures with covariates of treatment, age, sex, eCRF-reported pre-study ICS dosage at screening (med, high), baseline ACQ-7 total score, visit, and interaction terms for baseline ACQ-7 total score-by-visit and treatment-by-visit, covariance structure = unstructured.|0.276|-0.052|
82414605|NCT02583269|164539349|OTHER|||||||0.76|||||||ANOVA|||Overall FACT G score p value baseline to week 8||||0.76
82414606|NCT02583269|164539349|OTHER|||||||0.25|||||||ANOVA|||Fact G functional well being p value baseline to week 8||||0.25
82414607|NCT02583269|164539349|OTHER|||||||0.18|||||||ANOVA|||FACT G emotional well being p value baseline to week 8||||0.18
82414608|NCT02583269|164539349|OTHER|||||||0.87|||||||ANOVA|||Fact G physical well being p value baseline to week 8||||0.87
82414609|NCT02583269|164539349|OTHER|||||||0.22|||||||ANOVA|||Fact G social well being p value baseline to week 8||||0.22
82414610|NCT02583269|164539357|OTHER|||||||0.67|||||||ANOVA|||||||0.67
82414611|NCT02583269|164539358|OTHER|||||||0.119|||||||ANOVA|||Baseline v. 4 weeks log IL-8||||0.119
82414612|NCT02583269|164539358|OTHER|||||||0.414|||||||ANOVA|||Baseline v. 8 weeks log IL-8||||0.414
82414613|NCT02583269|164539359|OTHER|||||||0.851|||||||ANOVA|||Baseline v. 4 weeks p value log VEGF||||0.851
82414614|NCT02583269|164539359|OTHER|||||||0.688|||||||ANOVA|||Baseline vs. 8 weeks p value log VEGF||||0.688
82414615|NCT00223821|164539360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|STANDARD_ERROR_OF_MEAN|7.65||0.16|TWO_SIDED|95.0|-5.13|25.54|||ANCOVA|ANCOVA, with baseline frequency of incontinent episodes as the covariate, was used to compare the treatment groups.||The effectiveness of each intervention was calculated by comparing the weekly frequency of incontinent episodes (derived from seven-day bladder diaries) during baseline to that in the immediate post-intervention period (week 8). The primary analysis was based on intent-to-treat, in which post-treatment frequency of incontinence for non-completers was derived from the most recent week of diaries.||25.54|-5.13|.16
82414616|NCT00223821|164539361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|8.71||0.37|TWO_SIDED|95.0|-10.73|24.33|||ANCOVA|ANCOVA, with baseline frequency of incontinent episodes as the covariate, was used to compare the treatment groups.||||24.33|-10.73|.37
82414617|NCT01039675|164539362|NON_INFERIORITY_OR_EQUIVALENCE|UMEC/VI will be declared non-inferior to placebo in terms of weighted mean pulse rate if the upper limit of the 95% confidence interval around the estimated treatment difference for weighted mean pulse rate is less than the non-inferiority margin of +10bpm.|Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-5.5|4.5|||||Estimated from repeated measures analysis of covariance.|||4.5|-5.5|
82414618|NCT03921541|164539372|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82414619|NCT03921541|164539373|SUPERIORITY|||||||0.5961|||||||Mixed Models Analysis|||||||0.5961
82414620|NCT03921541|164539374|SUPERIORITY|||||||0.1087|||||||Mixed Models Analysis|||||||0.1087
82414621|NCT03921541|164539375|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82414622|NCT03921541|164539376|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82414623|NCT03921541|164539377|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82447254|NCT02421588|164603249|SUPERIORITY|||||||0.5032|||||||Normal approximation|||PFS (%) at 6 months between treatments||||0.5032
82414624|NCT03921541|164539379|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
82414625|NCT03921541|164539380|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82414626|NCT03921541|164539381|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82414627|NCT03921541|164539382|SUPERIORITY|||||||0.0208|||||||Mixed Models Analysis|||||||0.0208
82414628|NCT03921541|164539383|SUPERIORITY|||||||0.4434|||||||Mixed Models Analysis|||||||0.4434
82414629|NCT03921541|164539384|SUPERIORITY|||||||0.5301|||||||Mixed Models Analysis|||||||0.5301
82414630|NCT03921541|164539385|SUPERIORITY|||||||0.2515|||||||Mixed Models Analysis|||||||0.2515
82414631|NCT05399485|164539390|SUPERIORITY||[Difference in Least square (LS) Mean]|-1.1||||0.0021|TWO_SIDED|95.0|-1.73|-0.38|||Mixed Models Analysis|||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as a covariate, treatment group, randomization stratum (stable prophylactic migraine medication use throughout randomization), month, and month-by treatment group interaction as fixed effects.||-0.38|-1.73|0.0021
82414632|NCT05399485|164539391|SUPERIORITY||Difference in Percentage|7.3||||0.0989|TWO_SIDED|95.0|-1.4|15.9||P-value \>0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Mantel Haenszel|||The percentages of participants with reductions were compared between treatment groups using Mantel-Haenszel risk estimation with stratification by randomization stratum (stable prophylactic migraine medication use throughout randomization; yes, no).||15.9|-1.4|0.0989
82414633|NCT02642679|164539424|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we had 95% power to detect an improvement of 2 points in VAS score assuming a common standard deviation of 1 point with a two sided two sample t-test each at alpha=0.17 level.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in pain. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
82414634|NCT02642679|164539425|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we will have 80% power to detect an improvement in re-epithelialization from 14.6 days to 10 days assuming a common standard deviation of 2.9 days.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in healing rate. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
82426539|NCT00565409|164561890|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||Imputation of failure defined as participants who did not reach the endpoint and discontinued due to lack of efficacy, with reason of unsatisfactory response-efficacy, adverse event, other or protocol violation were set to an event at time of discontinuation.||||0.8622
82426540|NCT00565409|164561891|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||<0.0001
82414635|NCT02642679|164539426|OTHER|We set alpha=0.05/3=0.17 to account for multiple outcomes for sample size and power calculations. With 10 patients in each group, we will have 95% power to detect an improvement of 2 points in VSS score assuming a common standard deviation of 1 point.|||||||||||||||||A student t-test was used for correlated samples to determine if there were significant differences in healing quality. Microsoft Excel 2010 (Microsoft Corp., Redmond, WA) was used for statistical analysis. Data that were considered normally distributed are reported as the mean ± standard deviation (SD) and percentage. P-values \<0.05 were considered significant.|||
82414636|NCT04633447|164539461|SUPERIORITY||Difference in Percentage|6.6|||=|0.638|TWO_SIDED|90.0|-14.7|27.9|||Cochran-Mantel-Haenszel|||||27.9|-14.7|=0.638
82414637|NCT06059066|164539484|OTHER|||||||0.57||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Willingness to repeat procedure immediately after received intradetrusor BTX-A injections||||0.57
82414638|NCT06059066|164539484|OTHER|||||||0.83||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Willingness to repeat procedure asses 6-weeks after intradetrusor BTX-A injections||||0.83
82414639|NCT06059066|164539485|OTHER|||||||0.59||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in total ICIQ-SF score assessed before and 6-weeks after treatment||||0.59
82414640|NCT06059066|164539485|OTHER|||||||0.29||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in ICIQ QoL score assessed before and 6-weeks after treatment||||0.29
82414641|NCT06059066|164539486|OTHER|||||||0.57||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in total NBSS-SF score assessed before and 6-weeks after treatment||||0.57
82414642|NCT06059066|164539486|OTHER|||||||0.42||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF QoL score assessed before and 6-weeks after treatment||||0.42
82414643|NCT06059066|164539486|OTHER|||||||0.24||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF incontinence domain score assessed before and 6-weeks after treatment||||0.24
82414644|NCT06059066|164539486|OTHER|||||||0.93||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF storage and voiding domain score assessed before and 6-weeks after treatment||||0.93
82414645|NCT06059066|164539486|OTHER|||||||0.64||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Difference in NBSS-SF consequences domain score assessed before and 6-weeks after treatment||||0.64
82414646|NCT06059066|164539487|OTHER|||||||0.21||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||||||0.21
82414647|NCT06059066|164539488|OTHER||||||<|2e-05||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|||Change in post-procedural pain as compared to baseline||||<0.00002
82414648|NCT01022580|164539503|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|TWO_SIDED||||||unadj GEE|||||||0.89
82414649|NCT01022580|164539504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33|TWO_SIDED||||||unadj GEE|||||||0.33
82414650|NCT01807520|164539563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.7|STANDARD_ERROR_OF_MEAN|6.26|<|0.0001|TWO_SIDED|95.0|-39.1|-14.3|||Mixed model reapeated measures|||||-14.3|-39.1|<0.0001
82414651|NCT01807520|164539563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.4|STANDARD_ERROR_OF_MEAN|5.47|<|0.0001|TWO_SIDED|95.0|-45.2|-23.5|||Mixed model repeated measures|||||-23.5|-45.2|<0.0001
82414652|NCT01500096|164539569|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.15
82414653|NCT01500096|164539569|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms||||0.73
82414654|NCT01500096|164539570|SUPERIORITY|||||||0.1329|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.1329
82414655|NCT01500096|164539570|SUPERIORITY|||||||0.1191|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.1191
82414656|NCT01500096|164539571|SUPERIORITY|||||||0.7454|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7454
82414657|NCT01500096|164539571|SUPERIORITY|||||||0.7391|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7391
82414658|NCT01500096|164539572|SUPERIORITY|||||||0.6818|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.6818
82414659|NCT01500096|164539572|SUPERIORITY|||||||0.0579|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.0579
82414660|NCT01500096|164539573|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.17
82414661|NCT01500096|164539573|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.51
82414662|NCT01500096|164539574|SUPERIORITY|||||||0.7884|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.7884
82414663|NCT01500096|164539574|SUPERIORITY|||||||0.5532|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.5532
82414664|NCT01500096|164539575|SUPERIORITY|||||||0.9885|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.9885
82414665|NCT01500096|164539575|SUPERIORITY|||||||0.2898|||||||Wilcoxon (Mann-Whitney)|2 sides Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.2898
82414666|NCT01500096|164539576|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the IL-6 level changes from baseline to week 4 are significantly different between arms.||||0.60
82414667|NCT01500096|164539576|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the IL-6 level changes from baseline to week 4 are significantly different between arms.||||0.28
82532666|NCT01058863|164762736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.81|1.35||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level..||1.35|0.81|<0.0001
82576488|NCT00935532|164862618|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|1.03||0.99|TWO_SIDED|95.0|0.94|1.06|||ANCOVA|||Triglycerides data were logarithm-transformed and the change at endpoint to baseline, expressed as the ratio, was analyzed using a LOCF ANCOVA model with treatment, background OAD, and presence/absence of pretreatment with SU as factors and baseline triglycerides as a covariate.||1.06|0.94|0.990
82576489|NCT00402051|164862657|SUPERIORITY_OR_OTHER||6-Month PFS Rate|52.8|||||TWO_SIDED|95.0|40.3|65.3||||||Hypothesis testing was done independently for each treatment arm (no direct treatment group comparison).||65.3|40.3|
82576490|NCT00402051|164862657|SUPERIORITY_OR_OTHER||6-Month PFS Rate|39.3|||||TWO_SIDED|95.0|27.8|50.8||||||Hypothesis testing was done independently for each treatment arm (no direct treatment group comparison).||50.8|27.8|
82414668|NCT01500096|164539576|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR1 level changes from baseline to week 4 are significantly different between arms.||||0.41
82414669|NCT01500096|164539576|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR1 level changes from baseline to week 4 are significantly different between arms.||||0.72
82414670|NCT01500096|164539576|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR2 level changes from baseline to week 4 are significantly different between arms.||||0.34
82414671|NCT01500096|164539576|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the sTNFR2 level changes from baseline to week 4 are significantly different between arms.||||0.58
82414672|NCT01500096|164539577|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 5 are significantly different between arms.||||0.31
82414673|NCT01500096|164539577|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.71
82414674|NCT01500096|164539578|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.18
82414675|NCT01500096|164539578|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.19
82414676|NCT01500096|164539579|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.47
82414677|NCT01500096|164539579|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|2 sided Wilcoxon (Mann-Whitney)||Testing whether the changes from baseline to week 4 are significantly different between arms.||||0.41
82414678|NCT00639379|164539594|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.65|Odds Ratio (OR)|0.967|||||TWO_SIDED|98.98|0.436|0.967|||Regression, Logistic||Odds ratio is senofilcon A toric / alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for proportion of eyes with lens orientation within 5 degrees.||0.967|0.436|
82414679|NCT00639379|164539595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.65|Odds Ratio (OR)|1.416|||||TWO_SIDED|98.98|0.68|1.416|||Regression, Logistic||Odds ratio is senofilcon A toric / alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for proportion of eyes with lens stability within 5 degrees.||1.416|0.680|
82414680|NCT00639379|164539596|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.4|Mean Difference (Final Values)|0.1868|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|98.98|-0.0517|0.1868|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for lens comfort.||0.1868|-0.0517|
82414681|NCT00639379|164539597|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = -0.4|Mean Difference (Final Values)|-0.01185|STANDARD_ERROR_OF_MEAN|0.08566|||TWO_SIDED|98.98|-0.2337|-0.01185|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is that senofilcon A toric is non-inferior to alphafilcon A toric for subjective vision.||-0.01185|-0.2337|
82414682|NCT00639379|164539598|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 0.5|Mean Difference (Final Values)|-0.01267|STANDARD_ERROR_OF_MEAN|0.01265|||TWO_SIDED|98.98|-0.01267|0.01986|||||The mean difference was calculated as senofilcon A toric minus alphafilcon A toric.|Alternative hypothesis is senofilcon A toric is non-inferior to alphafilcon A toric by having a lower level of corneal staining.||0.01986|-0.01267|
82414683|NCT04307394|164539635|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|||||||0.957
82414684|NCT00138294|164539637|OTHER||Incidence Rate Ratio|0.89|||||TWO_SIDED|95.0|0.87|0.91||||||Overall Effectiveness against MAARI during the Epidemic Period (2007-2008)||0.91|0.87|
82414685|NCT00138294|164539638|OTHER||Incidence Rate Ratio|0.69|||||TWO_SIDED|95.0|0.67|0.71||||||Overall Effectiveness against MAARI during the Epidemic Period (2008-2009)||0.71|0.67|
82576491|NCT00402051|164862659|SUPERIORITY_OR_OTHER||Best Overall Response Rate (%)|32.3||||||95.0|21.2|45.1||||||Response rates were evaluated separately for each treatment arm||45.1|21.2|
82576492|NCT00402051|164862659|SUPERIORITY_OR_OTHER||Best Overall Response Rate (%)|20.0||||||95.0|11.1|31.8||||||Response rates were evaluated separately for each treatment arm||31.8|11.1|
82576493|NCT05472740|164862759|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82414686|NCT00138294|164539639|OTHER||Incidence Rate Ratio|0.75|||||TWO_SIDED|95.0|0.73|0.76||||||Overall Effectiveness against MAARI during the Epidemic Period (2008-2009)||0.76|0.73|
82532667|NCT01058863|164762736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.88|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.61|1.15||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline FEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||1.15|0.61|<0.0001
82532668|NCT01058863|164762737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.47|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|26.21|40.74||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||40.74|26.21|<0.0001
82532669|NCT01058863|164762737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.73|STANDARD_ERROR_OF_MEAN|3.686|<|0.001|TWO_SIDED|95.0|20.47|34.99||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||34.99|20.47|<0.001
82532670|NCT01058863|164762737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.1|STANDARD_ERROR_OF_MEAN|3.686|<|0.0001|TWO_SIDED|95.0|25.84|40.35||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||40.35|25.84|<0.0001
82532671|NCT01058863|164762737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.61|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|18.36|32.85||Significance at the 0.05 level.|ANOVA|Fixed effects of baseline PPFEV1 as a covariate, sequence, treatment group, period, and center, and random effect for subject within sequence.||Of interest was the mean difference between each active group and placebo at each dose level. Analyses were performed at the 2-sided 0.05 significance level in this sequence: Albuterol Spiromax 180 mcg versus placebo; Albuterol Spiromax 90 mcg versus placebo, ProAir HFA 180 mcg versus placebo, and ProAir HFA 90 mcg versus placebo. If a test was not significant, no further tests were done. This sequential procedure preserved the error rate for the family of tests at the 0.05 level.||32.85|18.36|<0.0001
82532672|NCT00507026|164762739|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82414687|NCT01137812|164539674|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and sitagliptin of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.025, it was estimated that 234 patients per group would provide approximately 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with sitagliptin.|Least-Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.064|<|0.05|TWO_SIDED|95.0|-0.5|-0.25|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to sitagliptin at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus sitagliptin\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to sitagliptin would be concluded.||-0.250|-0.500|<0.05
82414688|NCT01137812|164539675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.3|2.48|||Regression, Logistic|||||2.48|1.30|
82414689|NCT01137812|164539676|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-29.89|-18.24|||ANCOVA|||||-18.24|-29.89|<0.001
82414690|NCT01137812|164539677|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.3|-2.2|||ANCOVA|||||-2.2|-3.3|<0.001
82414691|NCT01137812|164539678|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.91|STANDARD_ERROR_OF_MEAN|0.883|<|0.001|TWO_SIDED|95.0|-7.642|-4.175|||ANCOVA|||||-4.175|-7.642|<0.001
82414692|NCT01137812|164539679|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|3.9||0.554|TWO_SIDED|95.0|-9.8|5.3|||ANCOVA|||||5.3|-9.8|0.554
82414693|NCT01137812|164539680|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|4.6|9.3|||ANCOVA|||||9.3|4.6|<0.001
82414694|NCT02421211|164539683|SUPERIORITY_OR_OTHER||LS means ratio|4.7|||||TWO_SIDED|90.0|3.4|6.5||||||||6.5|3.4|
82414695|NCT02421211|164539684|SUPERIORITY_OR_OTHER||LS means ratio|2.3|||||TWO_SIDED|90.0|2.0|2.8||||||||2.8|2.0|
82414696|NCT02421211|164539685|SUPERIORITY_OR_OTHER||LS means ratio|3.1|||||TWO_SIDED|90.0|2.4|3.8||||||||3.8|2.4|
82414697|NCT02421211|164539686|SUPERIORITY_OR_OTHER||LS means ratio|1.7|||||TWO_SIDED|90.0|1.5|2.0||||||||2.0|1.5|
82414698|NCT02421211|164539687|SUPERIORITY_OR_OTHER||LS means ratio|1.6|||||TWO_SIDED|90.0|1.4|1.9||||||||1.9|1.4|
82414699|NCT02421211|164539688|SUPERIORITY_OR_OTHER||LS means ratio|1.7|||||TWO_SIDED|90.0|1.6|2.0||||||||2.0|1.6|
82414700|NCT01177410|164539703|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.369||||0.0432|TWO_SIDED|95.0|1.027|5.467|||Regression, Logistic|||||5.467|1.027|0.0432
82414701|NCT01177410|164539703|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.267||||0.6059|TWO_SIDED|95.0|0.515|3.115|||Regression, Logistic|||||3.115|0.515|0.6059
82426541|NCT00565409|164561891|SUPERIORITY_OR_OTHER|||||||0.9841|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||0.9841
82447255|NCT02421588|164603249|SUPERIORITY||PFS at 12 months|8.3|||||TWO_SIDED|95.0|4.7|13.3|||||Percent of Participants|PFS (%) at 12 months||13.3|4.7|
82447256|NCT02421588|164603249|SUPERIORITY||PFS at 12 months|7.0|||||TWO_SIDED|95.0|3.3|12.5|||||Percent of Participants|PFS (%) at 12 months||12.5|3.3|
82576494|NCT03832595|164862764|EQUIVALENCE|We determined that 1,653 patients provide 80% power to detect a hazard ratio of 0.64, or a 5% absolute risk reduction in intervention arm, assuming a primary end-point rate of 15% in the usual care group at 24 months, 20% loss to follow-up, α = 0.05, and within-practice intra-class correlation of 0.01|Hazard Ratio (HR)|0.96||||0.82|TWO_SIDED|95.0|0.67|1.38|||Mixed Models Analysis|||||1.38|0.67|0.82
82646903|NCT04440163|165008673|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|0.7|||||TWO_SIDED|95.0|-2.2|4.3||||||MenW||4.3|-2.2|
82646904|NCT04440163|165008673|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-0.7|||||TWO_SIDED|95.0|-4.6|3.8||||||MenY||3.8|-4.6|
82414702|NCT01177410|164539704|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.232||||0.0327|TWO_SIDED|95.0|1.068|4.664|||Proportional Odds Model|||Proportional odds model was used to compare the number of months the subjects are responders.||4.664|1.068|0.0327
82414703|NCT01177410|164539704|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.148||||0.726|TWO_SIDED|95.0|0.531|2.483|||Proportional Odds Model|||||2.483|0.531|0.7260
82414704|NCT00471354|164539705|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||Spearman Partial Rank Order Correlation|||||||0.293
82414705|NCT00471354|164539706|SUPERIORITY_OR_OTHER|||||||0.276||95.0||||P-value for Correlation with Language Scores|Spearman Partial Rank Order Correlation|||||||0.276
82414706|NCT00471354|164539706|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||P-value for Correlation with Math Scores.|Spearman Partial Rank Order Correlation|||||||0.110
82414707|NCT00471354|164539706|SUPERIORITY_OR_OTHER|||||||0.464||95.0||||P-value for Correlation with Science Scores.|Spearman Partial Rank Order Correlation|||||||0.464
82414708|NCT00471354|164539707|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Language Scores.|Paired t-test|||||||<0.001
82414709|NCT00471354|164539707|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Math Scores.|Paired t-test|||||||<0.001
82414710|NCT00471354|164539707|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Science Scores.|Paired t-test|||||||<0.001
82414711|NCT00471354|164539707|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline in Total Scores.|Paired t-test|||||||<0.001
82414712|NCT00471354|164539708|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
82414713|NCT00471354|164539709|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
82414714|NCT00471354|164539711|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
82414715|NCT05630755|164539741|NON_INFERIORITY|A margin of 4 percentage points is used to define non-inferiority.|Risk Difference (RD)|0.88||||0.003|TWO_SIDED|95.0|-1.86|2.9|||Miettinen and Nurminen method|Unstratified Miettinen and Nurminen method was used|||The estimated difference was calculated using the unstratified Miettinen and Nurminen method.|2.90|-1.86|0.003
82414716|NCT05630755|164539741|SUPERIORITY||Risk Difference (RD)|0.88||||0.192|TWO_SIDED|95.0|-1.86|2.9|||Miettinen and Nurminen method|Unstratified Miettinen and Nurminen method was used|||The estimated difference was calculated using the unstratified Miettinen and Nurminen method.|2.90|-1.86|0.192
82414717|NCT04868682|164539774|SUPERIORITY||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.32||0.0001|TWO_SIDED|95.0|0.65|1.91|||t-test, 2 sided||The parameter estimate is the difference in means (treatment vs. control) during the first 180 nights following randomization.|||1.91|0.65|.0001
82447257|NCT02421588|164603249|SUPERIORITY|||||||0.6742|||||||Normal approximation|||PFS (%) at 12 months between treatments||||0.6742
82447258|NCT02421588|164603250|SUPERIORITY||Hazard Ratio (HR)|0.987||||0.7673|TWO_SIDED|95.0|0.805|1.209|||Log Rank|||PFS between treatments||1.209|0.805|0.7673
82447259|NCT02421588|164603250|SUPERIORITY||PFS at 6 months|29.0|||||TWO_SIDED|95.0|22.8|35.4|||||Percent of Participants|PFS (%) at 6 months||35.4|22.8|
82447260|NCT02421588|164603250|SUPERIORITY||PFS at 6 months|27.4|||||TWO_SIDED|95.0|21.3|33.9|||||Percent of Participants|PFS (%) at 6 months||33.9|21.3|
82576495|NCT03832595|164862765|EQUIVALENCE|α = 0.05|Slope difference|0.011|||||TWO_SIDED|95.0|-0.008|0.029||||||||0.029|-0.008|
82414718|NCT04868682|164539775|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.81||0.378|TWO_SIDED|95.0|-2.29|0.87|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||0.87|-2.29|0.378
82414719|NCT04868682|164539776|SUPERIORITY||Mean Difference (Net)|-2.78|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|-4.09|-1.27|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||-1.27|-4.09|<0.001
82414720|NCT04868682|164539777|SUPERIORITY||Median Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.66||0.865|TWO_SIDED|95.0|-1.4|1.18|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 6-months for the treatment group versus the same improvement in respect to the control group.|||1.18|-1.40|0.865
82414721|NCT05073315|164539794|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Ratio Geometric Least Square Mean (GMR)|1.0516|||||TWO_SIDED|90.0|0.901|1.2273||||||||1.2273|0.9010|
82447261|NCT02421588|164603250|SUPERIORITY|||||||0.7385|||||||Normal approximation|||PFS (%) at 6 months between treatments||||0.7385
82447262|NCT02421588|164603250|SUPERIORITY||PFS (%) at 12 months|8.2|||||TWO_SIDED|95.0|4.8|12.7|||||Percent of Participants|PFS (%) at 12 months||12.7|4.8|
82447263|NCT02421588|164603250|SUPERIORITY||PFS (%) at 12 months|7.5|||||TWO_SIDED|95.0|4.2|12.2|||||Percent of Participants|PFS (%) at 12 months||12.2|4.2|
82576496|NCT03832595|164862766|EQUIVALENCE|α = 0.05|Rate ratio|1.21|||||TWO_SIDED|95.0|1.02|1.43||||||||1.43|1.02|
82447264|NCT02421588|164603250|SUPERIORITY|||||||0.8245|||||||Normal approximation|||PFS (%) at 12 months between treatments||||0.8245
82576497|NCT03832595|164862767|EQUIVALENCE|α = 0.05|Rate ratio|0.8|||||TWO_SIDED|95.0|0.51|1.25||||||||1.25|0.51|
82576498|NCT03832595|164862768|EQUIVALENCE|α = 0.05|Rate ratio|1.18|||||TWO_SIDED|95.0|0.03|53.78||||||||53.78|0.03|
82414722|NCT05073315|164539795|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Least Square Mean Ratio|1.0044|||||TWO_SIDED|90.0|0.8717|1.1574||||||||1.1574|0.8717|
82414723|NCT05073315|164539798|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Mean Difference (Final Values)|-2.47|||||TWO_SIDED|90.0|-5.23|0.29||||||||0.29|-5.23|
82414724|NCT02232698|164539811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.239|<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82414725|NCT02232698|164539812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.059||0.9556|TWO_SIDED||||||ANCOVA|||||||0.9556
82414726|NCT02232698|164539813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.175|<|0.0001|TWO_SIDED|||||Statistical analysis of time spent \<55 mg/dL|ANCOVA|||||||<0.0001
82414727|NCT02232698|164539813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.122||0.0003|TWO_SIDED|||||Statistical analysis of time spent \<40 mg/dL|ANCOVA|||||||0.0003
82414728|NCT02232698|164539814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<70 mg/dL||||<0.0001
82414729|NCT02232698|164539814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<55 mg/dL||||<0.0001
82414730|NCT02232698|164539814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<40 mg/dL||||<0.0001
82414731|NCT02232698|164539815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.329||0.5623|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>180 mg/dL||||0.5623
82414732|NCT02232698|164539815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.163||0.0247|TWO_SIDED||||||ANCOVA|||Statistical analysis for time spent \>240 mg/dL||||0.0247
82414733|NCT02232698|164539816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3||0.0006|TWO_SIDED||||||ANCOVA|||||||0.0006
82414734|NCT02232698|164539819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of perceived frequency of hyperglycaemia||||<0.0001
82414735|NCT02232698|164539819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0713|TWO_SIDED||||||ANCOVA|||Statistical analysis of perceived frequency of hypoglycaemia||||0.0713
82414736|NCT02232698|164539819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED||||||ANCOVA|||Statistical analysis of total treatment satisfaction score||||<0.0001
82414737|NCT02337946|164539820|SUPERIORITY||Difference of PFS rate between groups|0.9|||||TWO_SIDED|95.0|-17.2|19.0|||||||Agresti-Caffo method was used for estimation of 95% CI.|19.0|-17.2|
82414738|NCT02337946|164539821|SUPERIORITY||Adjusted Hazard Ratio (HR)|0.93||||0.7349|TWO_SIDED|95.0|0.6|1.43|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||1.43|0.60|0.7349
82414739|NCT02337946|164539822|SUPERIORITY||Adjusted Hazard Ratio (HR)|1.41||||0.3485|TWO_SIDED|95.0|0.69|2.88|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||2.88|0.69|0.3485
82414740|NCT02337946|164539824|SUPERIORITY||Multivariable Hazard Ratio (HR)|0.9||||0.5901|TWO_SIDED|95.0|0.6|1.33|||Regression, Multivariable Cox|The Cox regression model was adjusted by stratification factors except for study sites.||||1.33|0.60|0.5901
82414741|NCT01917773|164539863|NON_INFERIORITY_OR_EQUIVALENCE|"Reported MIs and SDs in healthy volunteers from an adult study were used to calculate sample size (1). A sample size of 13 patients was deemed adequate to detect a 25% change in MI with 80% power.~Reference: Rao SS, Kavelock R, Beaty J, Ackerson K, et al. Effects of fat and carbohydrate meals on colonic motor response. Gut. Feb 2000;46(2):205-211."||||||0.087|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 15 minutes. Values were considered to be significant if P \<0.05.||||0.087
82414742|NCT01917773|164539863|SUPERIORITY_OR_OTHER|||||||0.552|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 30 minutes. Values were considered to be significant if P \<0.05.||||0.552
82414743|NCT01917773|164539863|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed rank test was used to analyze change in MI at 45 minutes. Values were considered to be significant if P \<0.05.||||0.807
82414744|NCT03712852|164539880|SUPERIORITY||Mean Difference (Net)|0.92|||||TWO_SIDED|95.0|0.68|1.17|||||||Multiple univariate analyses for each variable were performed. GT was analyzed by non-parametric Cliff's delta tests to assess group dominance and by a Heteroscedastic ANOVA with Games-Howell posthoc tests. A sensitivities analysis with different types of robust analyses (M-estimators and High Breakdown LTS Estimators, both with Huber's, Hampel's and Biweight's loss functions) was conducted to get an effect-size estimate by means of Bootstrap Bias Corrected and accelerated (BCa) 95% Confidence Intervals.|1.17|0.68|
82447265|NCT02421588|164603251|SUPERIORITY||Hazard Ratio (HR)|0.956||||0.8021|TWO_SIDED|95.0|0.772|1.183|||Log Rank|||OS between treatments||1.183|0.772|0.8021
82447266|NCT02421588|164603251|SUPERIORITY||OS at 12 months|48.2|||||TWO_SIDED|95.0|41.3|54.8|||||Percent of Participants|OS (%) at 12 months||54.8|41.3|
82414745|NCT03712852|164539881|SUPERIORITY||Median Difference (Final Values)|3.28|||||TWO_SIDED|95.0|3.0|3.55|||||||This outcome was analyzed by posthoc Nemenyi's tests|3.55|3.00|
82447267|NCT02421588|164603251|SUPERIORITY||OS (%) at 12 months|45.3|||||TWO_SIDED|95.0|38.4|52.0|||||Percent of Participants|OS (%) at 12 months||52.0|38.4|
82447268|NCT02421588|164603251|SUPERIORITY|||||||0.5515|||||||Normal approximation|||OS (%) at 12 months between treatments||||0.5515
82576499|NCT03832595|164862769|EQUIVALENCE|α = 0.05|Rate ratio|1.12|||||TWO_SIDED|95.0|0.12|9.96||||||||9.96|0.12|
82646905|NCT04440163|165008674|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|9.6|||||TWO_SIDED|95.0|4.2|15.2||||||||15.2|4.2|
82414746|NCT03712852|164539882|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.46|2.46|||||||This outcome was analyzed by posthoc Nemenyi's tests|2.46|-0.46|
82414747|NCT03712852|164539883|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.4|0.69|||||||This outcome was analyzed by posthoc Nemenyi's tests|0.69|-0.40|
82414748|NCT03712852|164539884|SUPERIORITY||Mean Difference (Final Values)|3.38|||||TWO_SIDED|95.0|2.96|3.81|||||||CAL was analyzed with both Nemenyi's tests and a Moderated Regression (Treatment by Baseline values)|3.81|2.96|
82414749|NCT01771913|164539891|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.310
82414750|NCT01771913|164539892|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.026
82414751|NCT01771913|164539893|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Fisher Exact|||||||0.103
82414752|NCT01952678|164539899|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
82414753|NCT01952678|164539899|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-7.0||||0.4608|TWO_SIDED|95.0|-25.8|12.1|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.1|-25.8|0.4608
82414754|NCT01952678|164539899|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
82414755|NCT01952678|164539899|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.3|20.7|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.7|-17.3|1.0000
82414756|NCT01952678|164539900|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
82414757|NCT01952678|164539900|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-7.1||||0.4599|TWO_SIDED|95.0|-26.1|12.2|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.2|-26.1|0.4599
82414758|NCT01952678|164539900|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
82414759|NCT01952678|164539900|EQUIVALENCE|Analysis was performed using the hypothesis: PPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.8||||1|TWO_SIDED|95.0|-17.5|20.9|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.9|-17.5|1.0000
82414760|NCT01952678|164539901|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-22.0|22.0|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||22.0|-22.0|1.0000
82447269|NCT02421588|164603251|SUPERIORITY||OS (%) at 24 months|22.3|||||TWO_SIDED|95.0|16.8|28.2|||||Percent of Participants|OS (%) at 24 months||28.2|16.8|
82447270|NCT02421588|164603251|SUPERIORITY||OS (%) at 24 months|22.7|||||TWO_SIDED|95.0|17.1|28.7|||||Percent of Participants|OS (%) at 24 months||28.7|17.1|
82414761|NCT01952678|164539901|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.4||||1|TWO_SIDED|95.0|-20.8|20.8|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.8|-20.8|1.0000
82414762|NCT01952678|164539901|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-2.0||||1|TWO_SIDED|95.0|-23.0|18.5|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||18.5|-23.0|1.0000
82414763|NCT01952678|164539901|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.3||||1|TWO_SIDED|95.0|-20.8|20.8|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||20.8|-20.8|1.0000
82414764|NCT01952678|164539902|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-22.8|22.8|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||22.8|-22.8|1.0000
82414765|NCT01952678|164539902|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|5.2||||0.5187|TWO_SIDED|95.0|-16.7|26.2|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||26.2|-16.7|0.5187
82414766|NCT01952678|164539902|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.2||||1|TWO_SIDED|95.0|-21.5|21.5|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||21.5|-21.5|1.0000
82414767|NCT01952678|164539902|EQUIVALENCE|Analysis was performed using the hypothesis: NPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|2.7||||0.7123|TWO_SIDED|95.0|-19.1|23.9|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||23.9|-19.1|0.7123
82414768|NCT01952678|164539903|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.0||||1|TWO_SIDED|95.0|-13.3|15.3|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.3|-13.3|1.0000
82414769|NCT01952678|164539903|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-3.8||||0.5731|TWO_SIDED|95.0|-17.7|9.8|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||9.8|-17.7|0.5731
82447271|NCT02421588|164603251|SUPERIORITY|||||||0.9253|||||||Normal approximation|||OS (%) at 24 months between treatments||||0.9253
82414770|NCT01952678|164539903|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|0.1||||1|TWO_SIDED|95.0|-13.8|13.8|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||13.8|-13.8|1.0000
82414771|NCT01952678|164539903|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.1||||0.834|TWO_SIDED|95.0|-12.8|14.7|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||14.7|-12.8|0.8340
82414772|NCT01952678|164539904|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.0||||1|TWO_SIDED|95.0|-13.5|15.6|||Fisher Exact|||Reader A: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.6|-13.5|1.0000
82414773|NCT01952678|164539904|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|-1.9||||0.8429|TWO_SIDED|95.0|-16.1|12.0|||Fisher Exact|||Reader B: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||12.0|-16.1|0.8429
82414774|NCT01952678|164539904|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|1.1||||0.8214|TWO_SIDED|95.0|-13.0|15.0|||Fisher Exact|||Reader C: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||15.0|-13.0|0.8214
82414775|NCT01952678|164539904|EQUIVALENCE|Analysis was performed using the hypothesis: OPA was equal for Caucasian and non-Caucasian populations.|Mean Difference (Net)|2.2||||0.6577|TWO_SIDED|95.0|-12.0|16.1|||Fisher Exact|||Majority Read: DaTscan™- Non-Caucasian Participants vs DaTscan™- Caucasian Participants||16.1|-12.0|0.6577
82414776|NCT00845182|164539905|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<0.05
82414777|NCT00845182|164539905|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82414778|NCT04621760|164539908|SUPERIORITY|||||||0.51||||||a priori threshold for statistical significance: 0.05|Fisher Exact|||||||0.51
82414779|NCT04621760|164539909|SUPERIORITY|||||||0.62||||||threshold for significance: 0.05|Fisher Exact|one sided Fisher's exct test, given small cell sizes.||||||0.62
82414780|NCT04621760|164539910|SUPERIORITY|||||||0.207||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small sample size||||||0.207
82414781|NCT04621760|164539911|SUPERIORITY|||||||0.496||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small cell size||||||0.496
82532673|NCT00507026|164762739|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82414782|NCT04621760|164539912|SUPERIORITY|||||||0.02||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion correctly identifying PrEP is a daily pill to prevent HIV"||||0.02
82414783|NCT04621760|164539912|SUPERIORITY|||||||0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion correctly responding to prompt: PrEP is for all adults"||||0.01
82414784|NCT04621760|164539912|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified: PrEP will not work if taken once a week"||||<0.01
82414785|NCT04621760|164539912|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test of proportion who correctly identified PrEP does not prevent STDs other than HIV"||||<0.01
82414786|NCT04621760|164539912|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified, PrEP side effects do not last forever"||||<0.01
82414787|NCT04621760|164539912|SUPERIORITY|||||||0.03||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified, A baby could be norm to HIV discordant parents without transmitting HIV"||||0.03
82414788|NCT04621760|164539912|SUPERIORITY||||||<|0.01||||||a priori threshold for significance: 0.05|Chi-squared|||"Test comparing proportion who correctly identified There is medication you can take after sex to prevent HIV"||||<0.01
82414789|NCT04621760|164539912|SUPERIORITY|||||||0.29||||||a priori threshold for significance: 0.05|Chi-squared|||"Test for proportion who correctly identified PrEP efficacy is \> 95%"||||0.29
82414790|NCT04621760|164539913|SUPERIORITY|||||||0.04||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.04
82414791|NCT04621760|164539914|SUPERIORITY|||||||0.02||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.02
82414792|NCT04621760|164539915|SUPERIORITY|||||||0.05||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.05
82414793|NCT04621760|164539916|SUPERIORITY|||||||0.03||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.03
82414794|NCT04621760|164539917|SUPERIORITY|||||||0.07||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.07
82414795|NCT04621760|164539918|SUPERIORITY|||||||0.1||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong positive skew of responses, transformed into a binary variable comparing those with lowest possible score versus higher score. Data then tested through tests of proportions.||||0.10
82532674|NCT00507026|164762740|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532675|NCT00507026|164762740|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532676|NCT00507026|164762741|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532677|NCT00507026|164762741|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532678|NCT00507026|164762742|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532679|NCT00507026|164762742|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532680|NCT00507026|164762743|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82532681|NCT00507026|164762743|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82414796|NCT04621760|164539919|SUPERIORITY|||||||0.22||||||a priori threshold for significance: 0.05|Chi-squared|||Given strong negative skew of responses, transformed into a binary variable comparing those with highest possible score versus higher score. Data then tested through tests of proportions.||||0.22
82414797|NCT04621760|164539920|SUPERIORITY|||||||0.51||||||a priori threshold for significance: 0.05|Fisher Exact|Fisher's exact test used due to small cell size||||||0.51
82414798|NCT04621760|164539921|SUPERIORITY|||||||0.9||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use PrEP||||0.90
82414799|NCT04621760|164539921|SUPERIORITY|||||||0.75||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use abstinence||||0.75
82414800|NCT04621760|164539921|SUPERIORITY|||||||0.32||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use PEP||||0.32
82414801|NCT04621760|164539921|SUPERIORITY|||||||0.4||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use HIV testing||||0.40
82414802|NCT04621760|164539921|SUPERIORITY|||||||0.34||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use STD testing||||0.34
82414803|NCT04621760|164539921|SUPERIORITY|||||||0.1||||||a priori threshold for significance: 0.05|Fisher Exact|||Comparing confidence between treatment groups of those who said they intended to use Treatment as Prevention||||0.10
82414804|NCT04621760|164539922|SUPERIORITY|||||||0.01||||||a priori threshold for significance: 0.05|Chi-squared|||||||0.01
82414805|NCT04621760|164539923|SUPERIORITY|||||||0.26||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt The information was easy to understand"||||0.26
82414806|NCT04621760|164539923|SUPERIORITY|||||||0.26||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt: I got all of the information I needed"||||0.26
82414807|NCT04621760|164539923|SUPERIORITY|||||||0.59||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.59
82414808|NCT04621760|164539923|SUPERIORITY|||||||0.17||||||a priori threshold for significance: 0.05|Fisher Exact|||"Comparing proportions in response to prompt: The information felt useful to me"||||0.17
82414809|NCT04621760|164539924|SUPERIORITY|||||||0.74|||||||Chi-squared|||"Testing proportion of acceptability of abstinence method (proportion that responded great for me)"||||0.74
82414810|NCT04621760|164539924|SUPERIORITY|||||||0.59|||||||Chi-squared|||"Testing proportion of acceptability of condoms method (proportion that responded great for me)"||||0.59
82447272|NCT02421588|164603252|SUPERIORITY||ORR|14.5|||||TWO_SIDED|95.0|10.1|19.8|||||Percent of Participants|Overall response rate||19.8|10.1|
82414811|NCT04621760|164539924|SUPERIORITY|||||||0.66|||||||Chi-squared|||"Testing proportion of acceptability of PEP method (proportion that responded great for me)"||||0.66
82414812|NCT04621760|164539924|SUPERIORITY|||||||0.49|||||||Chi-squared|||"Testing proportion of acceptability of PrEP method (proportion that responded great for me)"||||0.49
82414813|NCT04621760|164539924|SUPERIORITY|||||||0.94|||||||Chi-squared|||"Testing proportion of acceptability of HIV testing method (proportion that responded great for me)"||||0.94
82414814|NCT04621760|164539924|SUPERIORITY|||||||0.95|||||||Chi-squared|||"Testing proportion of acceptability of STD testing method (proportion that responded great for me)"||||0.95
82414815|NCT04621760|164539924|SUPERIORITY|||||||0.39|||||||Chi-squared|||"Testing proportion of acceptability of Treatment as prevention method (proportion that responded great for me)"||||0.39
82414816|NCT04621760|164539930|SUPERIORITY|||||||0.13||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.13
82414817|NCT04621760|164539931|SUPERIORITY|||||||0.08||||||a priori threshold for significance: 0.05|Fisher Exact|||||||0.08
82414818|NCT00447278|164539932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.36|||<|0.001|TWO_SIDED|95.0|-6.47|-2.25||P-value for Change from Baseline at 6 Months. P-value is not adjusted and the threshold is 0.05.|Mixed Models Analysis|Mixed model repeated measure analysis with terms for corresponding baseline T-score, treatment, country, visit, and treatment-by-visit interaction.|Least Squares Mean Difference = Atomoxetine minus OEST.|||-2.25|-6.47|<0.001
82414819|NCT00447278|164539932|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.6|||<|0.001|TWO_SIDED|95.0|-6.56|-2.63||P-value for Change from Baseline: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-2.63|-6.56|<0.001
82414820|NCT00447278|164539933|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.1||||0.002|TWO_SIDED|95.0|-5.08|-1.13||P-value for Change from Baseline: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.13|-5.08|0.002
82447273|NCT02421588|164603252|SUPERIORITY||ORR|12.7|||||TWO_SIDED|95.0|8.6|17.8|||||Percent of Participants|Overall response rate||17.8|8.6|
82414821|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.04||||0.002|TWO_SIDED|95.0|-4.92|-1.15||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.15|-4.92|0.002
82414822|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.1||||0.031|TWO_SIDED|95.0|-4.01|-0.2||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.20|-4.01|0.031
82447274|NCT02421588|164603252|SUPERIORITY|||||||0.6772|||||||Fisher Exact|||Overall response rate between treatments||||0.6772
82447275|NCT02421588|164603253|SUPERIORITY||ORR|15.8|||||TWO_SIDED|95.0|11.3|21.3|||||Percent of Participants|Overall response rate (ORR)||21.3|11.3|
82447276|NCT02421588|164603253|SUPERIORITY||Overall response rate (ORR)|16.7|||||TWO_SIDED|95.0|12.1|22.3|||||Percent of Participants|Overall response rate (ORR)||22.3|12.1|
82447277|NCT02421588|164603253|SUPERIORITY|||||||0.8976|||||||Fisher Exact|||Overall response rate (ORR) between treatments||||0.8976
82414823|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.55||||0.629|TWO_SIDED|95.0|-1.68|2.77||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.77|-1.68|0.629
82447278|NCT02421588|164603254|SUPERIORITY||Hazard Ratio (HR)|1.406||||0.2631|TWO_SIDED|95.0|0.769|2.569|||Log Rank|||Duration of response between treatments||2.569|0.769|0.2631
82447279|NCT02421588|164603255|SUPERIORITY|Duration of response between treatments|Hazard Ratio (HR)|1.056||||0.8276|TWO_SIDED|95.0|0.64|1.743|||Log Rank|||||1.743|0.64|0.8276
82532682|NCT03055832|164762806|NON_INFERIORITY|"This study provides a combined power of co-primary endpoints of 88% given the following primary endpoint assumptions:~* MGS non-inferiority delta of 5 points and standard deviation of 8 points provides power of 93.9%~* TBT non-inferiority delta of 2.5 seconds and standard deviation of 4 seconds, provides a TBT primary endpoint power of 93.9%~* Power that both endpoitns are significant, assuming independence was 0.939\^2 = 0.882 or 88.2% power."|Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-3.82|3.56||||||||3.56|-3.82|
82414824|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96||||0.421|TWO_SIDED|95.0|-3.3|1.38||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.38|-3.30|0.421
82414825|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.05||||0.388|TWO_SIDED|95.0|-3.44|1.34||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.34|-3.44|0.388
82414826|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.29||||0.059|TWO_SIDED|95.0|-4.66|0.09||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.09|-4.66|0.059
82414827|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.56||||0.006|TWO_SIDED|95.0|-6.09|-1.04||P-value for Satisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.04|-6.09|0.006
82414828|NCT00447278|164539934|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.91||||0.027|TWO_SIDED|95.0|-5.49|-0.33||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.33|-5.49|0.027
82414829|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.073||||0.015|TWO_SIDED|95.0|0.014|0.131||P-value for Total Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.131|0.014|0.015
82414830|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085||||0.004|TWO_SIDED|95.0|0.027|0.143||P-value for Total Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.143|0.027|0.004
82646906|NCT04440163|165008675|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|4.0|||||TWO_SIDED|95.0|-0.7|8.9||||||A22||8.9|-0.7|
82414831|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.094||||0.063|TWO_SIDED|95.0|-0.005|0.192||P-value for Home Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.192|-0.005|0.063
82414832|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.075||||0.131|TWO_SIDED|95.0|-0.022|0.172||P-value for Home Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.172|-0.022|0.131
82414833|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.052||||0.156|TWO_SIDED|95.0|-0.02|0.124||P-value for Daily Living Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.124|-0.020|0.156
82414834|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.072||||0.046|TWO_SIDED|95.0|0.001|0.143||P-value for Daily Living Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.143|0.001|0.046
82414835|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.04||||0.068|TWO_SIDED|95.0|-0.003|0.084||P-value for Risk Taking Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.084|-0.003|0.068
82414836|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.028||||0.212|TWO_SIDED|95.0|-0.016|0.073||P-value for Risk Taking Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.073|-0.016|0.212
82414837|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.121||||0.006|TWO_SIDED|95.0|0.034|0.208||P-value for School Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.208|0.034|0.006
82414838|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.15|||<|0.001|TWO_SIDED|95.0|0.064|0.236||P-value for School Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.236|0.064|<0.001
82414839|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.125||||0.034|TWO_SIDED|95.0|0.009|0.24||P-value for Self-Concept Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.240|0.009|0.034
82414840|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.119||||0.04|TWO_SIDED|95.0|0.005|0.233||P-value for Self-Concept Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.233|0.005|0.040
82414841|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.085||||0.042|TWO_SIDED|95.0|0.003|0.166||p-value for Social Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.166|0.003|0.042
82414842|NCT00447278|164539935|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.048||||0.271|TWO_SIDED|95.0|-0.038|0.134||P-value for Social Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.134|-0.038|0.271
82414843|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.307||||0.034|TWO_SIDED|95.0|0.173|4.44||P-value for Total Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||4.440|0.173|0.034
82414844|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.072||||0.005|TWO_SIDED|95.0|0.942|5.202||P-value for Total Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||5.202|0.942|0.005
82414845|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.721||||0.004|TWO_SIDED|95.0|0.544|2.899||P-value for Inattention Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.899|0.544|0.004
82414846|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.269|||<|0.001|TWO_SIDED|95.0|1.086|3.453||P-value for Inattention Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||3.453|1.086|<0.001
82414847|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.58||||0.298|TWO_SIDED|95.0|-0.515|1.676||P-value for Hyperactivity Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.676|-0.515|0.298
82414848|NCT00447278|164539936|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.865||||0.119|TWO_SIDED|95.0|-0.225|1.956||P-value for Hyperactivity Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.956|-0.225|0.119
82532683|NCT03055832|164762807|NON_INFERIORITY|"This study provides a combined power of co-primary endpoints of 88% given the following primary endpoint assumptions:~* MGS non-inferiority delta of 5 points and standard deviation of 8 points provides power of 93.9%~* TBT non-inferiority delta of 2.5 seconds and standard deviation of 4 seconds, provides a TBT primary endpoint power of 93.9%~* Power that both endpoitns are significant, assuming independence was 0.939\^2 = 0.882 or 88.2% power."|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|95.0|-0.97|1.16||||||||1.16|-0.97|
82646907|NCT04440163|165008675|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-1.0|4.3||||||A56||4.3|-1.0|
82414849|NCT00447278|164539937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.104||||0.366|TWO_SIDED|95.0|-0.122|0.329||P-value for Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.329|-0.122|0.366
82414850|NCT00447278|164539937|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.169||||0.165|TWO_SIDED|95.0|-0.07|0.407||P-value for Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.407|-0.070|0.165
82414851|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.35||||0.054|TWO_SIDED|95.0|-4.74|0.04||P-value for Achievement Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.04|-4.74|0.054
82414852|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.71||||0.003|TWO_SIDED|95.0|-6.16|-1.26||P-value for Achievement Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-1.26|-6.16|0.003
82414853|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.74||||0.033|TWO_SIDED|95.0|-3.33|-0.14||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.14|-3.33|0.033
82414854|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.5||||0.003|TWO_SIDED|95.0|-4.12|-0.88||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.88|-4.12|0.003
82447280|NCT02421588|164603256|SUPERIORITY||ORR (%)|26.6|||||TWO_SIDED|95.0|20.2|33.8|||||Percent of Participants|ORR (%) by CA-125||33.8|20.2|
82447281|NCT02421588|164603256|SUPERIORITY||ORR (%)|19.4|||||TWO_SIDED|95.0|13.7|26.3|||||Percent of Participants|ORR (%) by CA-125||26.3|13.7|
82447282|NCT02421588|164603256|SUPERIORITY|||||||0.1231|||||||Fisher Exact|||ORR (%) by CA-125 between treatments||||0.1231
82447283|NCT04071158|164603279|SUPERIORITY||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.4|2.8||||||Difference in percentage||2.8|-1.4|
82414855|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.5||||0.623|TWO_SIDED|95.0|-1.5|2.5||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.50|-1.50|0.623
82414856|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.16||||0.88|TWO_SIDED|95.0|-1.96|2.29||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.29|-1.96|0.880
82414857|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.4||||0.149|TWO_SIDED|95.0|-3.31|0.5||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.50|-3.31|0.149
82414858|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.78||||0.003|TWO_SIDED|95.0|-4.58|-0.98||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.98|-4.58|0.003
82414859|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.62||||0.015|TWO_SIDED|95.0|-4.71|-0.52||P-value for Satisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.52|-4.71|0.015
82414860|NCT00447278|164539938|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.12||||0.004|TWO_SIDED|95.0|-5.26|-0.98||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.98|-5.26|0.004
82414861|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.39||||0.263|TWO_SIDED|95.0|-1.83|6.6||P-value for Achievement Change at 4 Month LOCF. Achievement was derived from the academic achievement subdomain only.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||6.60|-1.83|0.263
82414862|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.38||||0.848|TWO_SIDED|95.0|-3.6|4.36||P-value for Achievement Change at 6 Month LOCF. Achievement was derived from the academic achievement subdomain only.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||4.36|-3.60|0.848
82414863|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.19||||0.895|TWO_SIDED|95.0|-3.01|2.64||P-value for Statisfaction Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.64|-3.01|0.895
82414864|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.2||||0.038|TWO_SIDED|95.0|-6.22|-0.19||P-value for Satisfaction Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||-0.19|-6.22|0.038
82414865|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3||||0.854|TWO_SIDED|95.0|-3.59|2.98||P-value for Comfort Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||2.98|-3.59|0.854
82414866|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.26||||0.161|TWO_SIDED|95.0|-5.45|0.92||P-value for Comfort Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.92|-5.45|0.161
82414867|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.7||||0.54|TWO_SIDED|95.0|-2.98|1.58||P-value for Risk Avoidance Change: 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||1.58|-2.98|0.540
82414868|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.98||||0.106|TWO_SIDED|95.0|-4.4|0.44||P-value for Risk Avoidance Change: 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.44|-4.40|0.106
82414869|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3||||0.833|TWO_SIDED|95.0|-2.49|3.08||P-value for Resilience Change at 4 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||3.08|-2.49|0.833
82447284|NCT04071158|164603280|SUPERIORITY||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-4.6|1.7||||||Difference in percentage||1.7|-4.6|
82414870|NCT00447278|164539939|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.34||||0.11|TWO_SIDED|95.0|-5.21|0.54||P-value for Resilience Change at 6 Month LOCF.|ANCOVA||Least Squares Mean Difference = Atomoxetine minus OEST.|||0.54|-5.21|0.110
82414871|NCT03677401|164539941|SUPERIORITY|P-value from a Cochran-Mantel- Haenszel (CMH) test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.||||||0.158|||||||Cochran-Mantel-Haenszel|||At Week 10||||0.158
82447285|NCT04071158|164603281|SUPERIORITY||Ratio of Geometric Mean|0.8|||||TWO_SIDED|95.0|0.64|1.0||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||1.00|0.64|
82532684|NCT03055832|164762808|OTHER|A formal hypothesis was not proposed for this endpoint and therefore a power calculation was not performed. A Fisher's Exact test was performed post hoc to determine if a significant difference existed between the two arms.||||||0.12|||||||Fisher Exact|||||||0.12
82532685|NCT03055832|164762809|NON_INFERIORITY|A standard deviation of 14 was assumed based on pilot data and the non-inferiority delta was set to 7. The chosen sample size and alpha = 0.025 provides 80% power for this endpoint|Mean Difference (Net)|-3.08|STANDARD_ERROR_OF_MEAN|2.89|||TWO_SIDED|95.0|-8.75|2.59||||||All questions||2.59|-8.75|
82414872|NCT03677401|164539942|SUPERIORITY|P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.||||||0.75|||||||Cochran-Mantel-Haenszel|||At Week 4||||0.750
82414873|NCT03677401|164539943|SUPERIORITY|P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation||||||0.674|||||||Cochran-Mantel-Haenszel|||At Week 2||||0.674
82414874|NCT03677401|164539944|SUPERIORITY|P-values, least squares means (LS Mean) and standard deviations (LS SD) from an analysis of covariance (ANCOVA) with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.06|||||||ANCOVA|||At Week 2||||0.060
82414875|NCT03677401|164539944|SUPERIORITY|||||||0.401||||||P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.401
82414876|NCT03677401|164539944|SUPERIORITY|P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.185|||||||ANCOVA|||At Week 6||||0.185
82447286|NCT04071158|164603281|SUPERIORITY||Ratio of Geometric Mean|0.59|||||TWO_SIDED|95.0|0.5|0.7||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||0.70|0.50|
82447287|NCT04071158|164603281|SUPERIORITY||Ratio of Geometric Mean|0.6|||||TWO_SIDED|95.0|0.48|0.76||||||Anti-PT: Ratio of geometric mean was calculated by dividing the GMC of RSV vaccine with aluminum hydroxide with Tdap arm by GMC of placebo/Tdap arm.||0.76|0.48|
82447288|NCT04071158|164603282|SUPERIORITY||Ratio of Geometric Mean|0.97|||||TWO_SIDED|95.0|0.84|1.13|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|2.0-fold margin (related to primary objective): primary objective was demonstrated if the lower limit of 95% confidence interval (CI) from the ratio of titers with 50 percent cut off from two treatment groups greater than (\>) 0.5.||1.13|0.84|
82447289|NCT04071158|164603283|SUPERIORITY||Ratio of Geometric Mean|0.96|||||TWO_SIDED|95.0|0.81|1.14|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|2.0-fold margin (related to primary objective): primary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.5.||1.14|0.81|
82532686|NCT01991197|164762822|SUPERIORITY||U value|43.5||||0.648|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.648
82532687|NCT01991197|164762825|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82532688|NCT01991197|164762828|SUPERIORITY||U|29.5||||0.128|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.128
82414877|NCT03677401|164539944|SUPERIORITY|P-values, LS Mean and LS SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.||||||0.164|||||||ANCOVA|||At Week 10||||0.164
82414878|NCT03677401|164539945|SUPERIORITY|||||||0.283||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 2||||0.283
82414879|NCT03677401|164539945|SUPERIORITY|||||||0.701||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 4||||0.701
82414880|NCT03677401|164539945|SUPERIORITY|||||||0.033||||||P-value from a CMH test stratified by Baseline WI-NRS used for randomization stratification. Value has been adjusted for multiple imputation.|Cochran-Mantel-Haenszel|||At Week 10||||0.033
82414881|NCT03677401|164539946|SUPERIORITY|||||||0.797||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.797
82414882|NCT03677401|164539947|SUPERIORITY|||||||0.845||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.845
82414883|NCT03677401|164539948|SUPERIORITY|||||||0.385||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.385
82414884|NCT03677401|164539948|SUPERIORITY|||||||0.786||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.786
82414885|NCT03677401|164539948|SUPERIORITY|||||||0.502||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.502
82414886|NCT03677401|164539949|SUPERIORITY|||||||0.197||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 2||||0.197
82414887|NCT03677401|164539949|SUPERIORITY|||||||0.694||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 4||||0.694
82414888|NCT03677401|164539949|SUPERIORITY|||||||0.916||||||P-values, LS mean and SD from ANCOVA with treatment group and stratification factor as fixed effects, and baseline value as a covariate.|ANCOVA|||At Week 10||||0.916
82414889|NCT02810327|164539954|OTHER|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||The MUSC Bioinformatics Core analyzed group genomic data for variant association with COPD severity score, including single variant association or type of variant association with symptoms. Descriptive statistical analysis was performed using statistical package SAS 9.4 for Windows (SAS Institute Inc., Cary, NC, USA).||||0.054
82414890|NCT06262607|164539955|SUPERIORITY||Least square (LS) mean difference|6.0|STANDARD_ERROR_OF_MEAN|7.74||0.4422|TWO_SIDED|95.0|-9.54|21.53|||Mixed Models Repeated Measures (MMRM)|||||21.53|-9.54|0.4422
82414891|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.82|4.38|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual. Sample sizing calculated based on results from previous methodology studies performed using the same cold pain test; primary criteria was ability to detect a significant gabapentin effect over placebo.||4.38|-3.82|
82414892|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.53|4.68|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.68|-3.53|
82414893|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|90.0|-3.99|4.22|||Mixed Models Analysis|||Pre-dose; mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.22|-3.99|
82414894|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-1.15|5.44|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||5.44|-1.15|
82414895|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.18|STANDARD_ERROR_OF_MEAN|1.97|||TWO_SIDED|90.0|-14.48|-7.89|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-7.89|-14.48|
82414896|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|90.0|2.2|8.78|||Mixed Models Analysis|||1 hour post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||8.78|2.20|
82414897|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|90.0|-5.53|4.08|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.08|-5.53|
82414898|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|90.0|-18.74|-9.13|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-9.13|-18.74|
82414899|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.88|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|90.0|-2.01|7.78|||Mixed Models Analysis|||1.5 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||7.78|-2.01|
82414900|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|3.66|||TWO_SIDED|90.0|-5.32|6.96|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||6.96|-5.32|
82414901|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.12|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|90.0|-19.14|-7.09|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-7.09|-19.14|
82414902|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|STANDARD_ERROR_OF_MEAN|3.59|||TWO_SIDED|90.0|-4.45|7.6|||Mixed Models Analysis|||2 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||7.60|-4.45|
82414903|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-7.39|2.32||||||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||2.32|-7.39|
82414904|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.59|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-14.44|-4.73|||Mixed Models Analysis|||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-4.73|-14.44|
82414905|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|90.0|-4.85|4.85|||Mixed Models Analysis|||4 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.85|-4.85|
82414906|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-3.23|4.22|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||4.22|-3.23|
82414907|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.47|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-11.19|-3.75|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||-3.75|-11.19|
82426542|NCT00565409|164561891|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Week 88 censored data was censored at 372 days.|Log Rank|||||||<0.0001
82426543|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
82426544|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8015|TWO_SIDED|95.0|-0.3|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.3|0.8015
82414908|NCT01119222|164539959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|2.22|||TWO_SIDED|90.0|-3.99|3.45|||Mixed Models Analysis|||8 hours post-dose: mixed effect model with random subject effect, fixed period and treatment effects and random subject-by-visit effect as residual.||3.45|-3.99|
82414909|NCT01119222|164539960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-4.24|3.04|||Mixed Models Analysis|||||3.04|-4.24|
82414910|NCT01119222|164539960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.43|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-13.07|-5.79|||Mixed Models Analysis|||||-5.79|-13.07|
82414911|NCT01119222|164539960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|90.0|-2.8|4.48|||Mixed Models Analysis|||||4.48|-2.80|
82414912|NCT02942407|164539973|NON_INFERIORITY|Due to a lower recruitment rate than anticipated in the early stage of the trial, the sample size was curtailed from 760 to 230 patients. Thus, under the initial protocol assumptions, the study is considered under-powered for the two-sided upper 95% CI on the HR to rule-out the non-inferiority margin of 1.40.|Hazard Ratio (HR)|1.2||||0.321|TWO_SIDED|95.0|0.63|2.3|||Regression, Cox|Cox model was adjusted for prior warfarin status (naive vs experienced) and treatment (apixaban vs warfarin)|Time from randomization to first occurrence of outcome was modeled. If no event, censored at earliest of: most recent date of evaluation of outcome, month 15 target (460 days + randomization date), or end of study date (July 27, 2019).|Exploratory analysis due to failure to reach initial sample size: Non-inferiority (NI) null hypothesis: HR \>= 1.4 (Non-inferiority).||2.3|0.63|0.321
82414913|NCT02942407|164539973|SUPERIORITY|Exploratory analysis due to lack of achieving initial sample size.|Hazard Ratio (HR)|1.2||||0.583|TWO_SIDED|95.0|0.63|2.3||If upper limit of 95% confidence interval \< 1 this would be considered evidence of superiority.|Regression, Cox|Cox model was adjusted for prior warfarin status (naive vs experienced) and treatment (apixaban vs warfarin).|Time from randomization to first occurrence of outcome was modeled. If no event, censored at earliest of: most recent date of evaluation of outcome, month 15 target (460 days + randomization date), or end of study date (July 27, 2019).|||2.3|0.63|0.583
82414914|NCT02942407|164539975|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.74|2.93||No p-value provided as analysis is considered exploratory due to study being under powered.||||Hazard ratios (apixaban vs warfarin) and 95% confidence intervals obtained using Cox model adjusted for prior warfarin status (naive vs experienced) and treatment. Time from randomization to first occurrence of the composite outcome/censoring date modeled. Those that did not experience the outcome are censored at the earliest of the following: 1) most recent date of evaluation of all of the components, 2) month 15 target (460 days + randomization date), and end of study date (July 27, 2019).||2.93|0.74|
82414915|NCT02942407|164539984|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.67|2.17||No p-value provided as analysis is considered exploratory due to study being under powered.||||Hazard ratios (apixaban vs warfarin) and 95% confidence intervals obtained using Cox model adjusted for prior warfarin status (naive vs experienced) and treatment. Time from randomization to first occurrence of the composite outcome/censoring date modeled. Those that did not experience the outcome are censored at the earliest of the following: 1) most recent date of evaluation of all of the components, 2) month 15 target (460 days + randomization date), and end of stud date (July 27, 2019).||2.17|0.67|
82414916|NCT03188185|164540003|SUPERIORITY|Hypothesis tests were two-sided with an alpha of 0.05 .|Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.99||0.128|TWO_SIDED|95.0|-3.5|0.4||ALK 5461 was compared to placebo using stage-specific MMRM for MADRS-10 Change from Baseline.Model-derived estimates were combined using equal weights|Mixed Models Analysis|||Analysis was conducted for each stage separately, and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2).||0.4|-3.5|0.128
82447290|NCT04071158|164603288|SUPERIORITY||Ratio of Geometric Mean|0.97|||||TWO_SIDED|95.0|0.84|1.13|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|1.5-fold margin (related to secondary objective): secondary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.67.||1.13|0.84|
82532689|NCT04675242|164762904|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.4434|TWO_SIDED|95.0|-11.5|15.3|||Fisher Exact|||Difference in the proportion of study eyes with complete cure||15.3|-11.5|0.4434
82414917|NCT01529268|164540053|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.8|2.1|||Cochran-Mantel-Haenszel|||||2.1|0.8|0.34
82414918|NCT01529268|164540054|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.0||||0.9|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.90
82414919|NCT01529268|164540055|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|0.7||||0.15|TWO_SIDED|95.0|0.5|1.1|||Cochran-Mantel-Haenszel|||Steatosis: patients with improvement||1.1|0.5|0.15
82414920|NCT01529268|164540056|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.1||||0.59|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Steatosis: change in score||0.4|-0.2|0.59
82532690|NCT04675242|164762905|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.2105|TWO_SIDED|95.0|-9.5|2.1|||ANCOVA|adjusted for baseline eye dryness VAS score||Difference in the change from baseline between treatment groups||2.1|-9.5|0.2105
82532691|NCT04675242|164762906|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.5936|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|adjusted for baseline eye dryness VAS score||Difference in the mean change from baseline||0.1|-0.2|0.5936
82532692|NCT03216902|164762909|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
82447291|NCT04071158|164603289|SUPERIORITY||Ratio of Geometric Mean|0.96|||||TWO_SIDED|95.0|0.81|1.14|||||Ratio of geometric mean was calculated by dividing GMT of RSV vaccine with aluminum hydroxide with Tdap arm by GMT of RSV vaccine with aluminum hydroxide with placebo arm.|1.5-fold margin (related to secondary objective): secondary objective was demonstrated if the lower limit of 95% CI from the ratio of titers with 50 percent cut off from two treatment groups \> 0.67.||1.14|0.81|
82447292|NCT01178099|164603294|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.05|||||TWO_SIDED|90.0|0.829|1.33|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall).|||1.33|0.829|
82414921|NCT01529268|164540057|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.8||||0.03|TWO_SIDED|95.0|1.1|2.9|||Cochran-Mantel-Haenszel|||||2.9|1.1|0.03
82414922|NCT01529268|164540058|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|-0.2||||0.06|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.06
82414923|NCT01529268|164540059|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|0.8||||0.29|TWO_SIDED|95.0|0.4|1.3|||Cochran-Mantel-Haenszel|||||1.3|0.4|0.29
82414924|NCT01529268|164540060|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.1||||0.15|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|||||0.3|-0.1|0.15
82414925|NCT01529268|164540061|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.2||||0.57|TWO_SIDED|95.0|0.6|2.3|||Cochran-Mantel-Haenszel|||||2.3|0.6|0.57
82414926|NCT01529268|164540062|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|0.0||||0.76|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.76
82414927|NCT01529268|164540063|SUPERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.6|1.6|||Cochran-Mantel-Haenszel|||||1.6|0.6|0.98
82447293|NCT01178099|164603294|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.895|||||TWO_SIDED|90.0|0.718|1.12|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD.|||1.12|0.718|
82447294|NCT01178099|164603294|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.905|||||TWO_SIDED|90.0|0.656|1.25|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 5 mg MD.|||1.25|0.656|
82447295|NCT01178099|164603295|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.953|||||TWO_SIDED|90.0|0.664|1.37|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall).|||1.37|0.664|
82532693|NCT03216902|164762909|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
82414928|NCT01529268|164540064|SUPERIORITY|P-values and mean changes from baseline were calculated using ANCOVA, regressing change from baseline to 52 weeks on treatment group and baseline value of the outcome, for outcome scores.|Mean Difference (Net)|-0.2||||0.24|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.24
82414929|NCT01529268|164540065|NON_INFERIORITY|Relative risks and p-values were calculated with the Cochran-Mantel-Haenszel chi-square tests, stratified by clinic and weight group, for binary outcomes.|Risk Ratio (RR)|2.7||||0.29|TWO_SIDED|95.0|0.4|18.3|||Cochran-Mantel-Haenszel|Stratified by clinic and weight group||||18.3|0.4|0.29
82414930|NCT01529268|164540066|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing change from baseline to 52 weeks in serum alanine aminotransferase on treatment group and baseline value of serum alanine aminotransferase.|Adjusted difference in mean changes|-24.0||||0.02|TWO_SIDED|95.0|-44.0|-4.0|||ANCOVA|Adjusted for baseline serum alanine aminotransferase||Adjusted difference in mean changes in serum alanine aminotransferase (ALT). The change in ALT is adjusted for the baseline ALT value; therefore, the adjusted difference in mean changes is not equal to the net change.||-4|-44|0.02
82414931|NCT01529268|164540066|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in serum aspartate aminotransferase on treatment group and baseline value of serum aspartate aminotransferase.|Mean Difference (Net)|-15.0||||0.008|TWO_SIDED|95.0|-26.0|-4.0|||ANCOVA|Adjusted for baseline serum aspartate aminotransferase.||Adjusted difference in mean changes in serum aspartate aminotransferase (AST). The change in AST is adjusted for the baseline AST value; therefore, the adjusted difference in mean changes is not equal to the net change.||-4|-26|0.008
82414932|NCT01529268|164540066|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in gamma-glutamyl transpeptidase on treatment group and baseline value of gamma-glutamyl transpeptidase.|Mean Difference (Net)|-7.0||||0.02|TWO_SIDED|95.0|-13.0|-1.0|||ANCOVA|Adjusted for baseline gamma-glutamyl transpeptidase||Adjusted difference in mean changes in serum gamma-glutamyl transpeptidase (GGT). The change in GGT is adjusted for the baseline GGTvalue; therefore, the adjusted difference in mean changes is not equal to the net change.||-1|-13|0.02
82447296|NCT01178099|164603295|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.612|||||TWO_SIDED|90.0|0.436|0.86|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD.|||0.860|0.436|
82447297|NCT01178099|164603295|SUPERIORITY_OR_OTHER||Geometric LS Means, SCD:Healthy|1.03|||||TWO_SIDED|90.0|0.625|1.68|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD.|||1.68|0.625|
82447298|NCT01178099|164603296|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.070
82447299|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.52|||||TWO_SIDED|90.0|1.1|2.1|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-95913 metabolite.|||2.10|1.10|
82447300|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.44|||||TWO_SIDED|90.0|1.06|1.94|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-95913 metabolite.|||1.94|1.06|
82447301|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.43|||||TWO_SIDED|90.0|0.918|2.21|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-95913 metabolite.|||2.21|0.918|
82447302|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.971|||||TWO_SIDED|90.0|0.742|1.27|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 10 mg SD (overall) for the R-106583 metabolite.|||1.27|0.742|
82447303|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.815|||||TWO_SIDED|90.0|0.633|1.05|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 7.5 mg MD for the R-106583 metabolite.|||1.05|0.633|
82447304|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.952|||||TWO_SIDED|90.0|0.658|1.38|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for the 5 mg MD for the R-106583 metabolite.|||1.38|0.658|
82447305|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.17|||||TWO_SIDED|90.0|0.833|1.65|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-119251 metabolite.|||1.65|0.833|
82447306|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.07|||||TWO_SIDED|90.0|0.779|1.48|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-119251 metabolite.|||1.48|0.779|
82447307|NCT01178099|164603297|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.813|||||TWO_SIDED|95.0|0.51|1.3|||Mixed Models Analysis|Log(AUC) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-119251 metabolite.|||1.30|0.510|
82447308|NCT01178099|164603298|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.018
82532694|NCT03216902|164762909|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
82447309|NCT01178099|164603299|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.060
82447310|NCT01178099|164603300|SUPERIORITY_OR_OTHER|||||||0.219||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.219
82447311|NCT01178099|164603301|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.177
82447312|NCT01178099|164603302|SUPERIORITY_OR_OTHER|||||||0.168||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.168
82447313|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.5|||||TWO_SIDED|90.0|1.01|2.22|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-95913 metabolite.|||2.22|1.01|
82447314|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.09|||||TWO_SIDED|90.0|0.751|1.58|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-95913 metabolite.|||1.58|0.751|
82447315|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.87|||||TWO_SIDED|90.0|1.09|3.2|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-95913 metabolite.|||3.20|1.09|
82447316|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.873|||||TWO_SIDED|90.0|0.66|1.15|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-106583 metabolite.|||1.15|0.660|
82447317|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.681|||||TWO_SIDED|90.0|0.524|0.886|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-106583 metabolite.|||0.886|0.524|
82447318|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.898|||||TWO_SIDED|90.0|0.612|1.32|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-106583 metabolite.|||1.32|0.612|
82447319|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.06|||||TWO_SIDED|90.0|0.773|1.46|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 10 mg SD (overall) for the R-119251 metabolite.|||1.46|0.773|
82447320|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|0.785|||||TWO_SIDED|90.0|0.582|1.06|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 7.5 mg MD for the R-119251 metabolite.|||1.06|0.582|
82447321|NCT01178099|164603303|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means, SCD:Healthy|1.0|||||TWO_SIDED|90.0|0.648|1.55|||Mixed Models Analysis|Log(Cmax) = Participant + Population + Dose + Population\*Dose + Random Error|This is the estimated value for 5 mg MD for the R-119251 metabolite.|||1.55|0.648|
82414933|NCT01529268|164540067|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-value and adjusted difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in weight (kg) on treatment group and baseline weight (kg).|Adjusted difference in mean changes|-1.5||||0.25|TWO_SIDED|95.0|-4.1|1.1|||ANCOVA|Adjusted for baseline weight (kg).||Adjusted difference in mean changes in weight (kg). The change in weight is adjusted for the baseline weight value; therefore, the adjusted difference in mean changes is not equal to the net change.||1.1|-4.1|0.25
82414934|NCT01529268|164540068|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks on treatment group and baseline value of the outcome.|Adjusted difference in mean changes|-0.3||||0.42|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA|Adjusted for baseline BMI (kg/m2)||Adjusted difference in mean changes in body mass index (BMI). The change in BMI is adjusted for the baseline BMI value; therefore, the adjusted difference in mean changes is not equal to the net change.||0.5|-1.1|0.42
82414935|NCT01529268|164540069|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks on treatment group and baseline value of the outcome.|Mean Difference (Net)|-0.1||||0.11|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|||||0.0|-0.1|0.11
82414936|NCT01529268|164540070|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in waist circumference on treatment group and baseline value of waist circumference.|Adjusted difference in mean changes|0.2||||0.89|TWO_SIDED|95.0|-2.3|2.6|||ANCOVA|Adjusted for baseline waist circumference (cm)||Adjusted difference in mean changes in waist circumference (cm). The change in waist circumference is adjusted for the baseline waist circumference value; therefore, the adjusted difference in mean changes is not equal to the net change.||2.6|-2.3|0.89
82414937|NCT01529268|164540071|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in fasting serum glucose on treatment group and baseline fasting serum glucose value.|Adjusted difference in mean changes|-4.0||||0.24|TWO_SIDED|95.0|-11.0|3.0|||ANCOVA|Adjusted for baseline serum glucose value.||Adjusted difference in mean changes in fasting serum glucose. The change in fasting serum glucose is adjusted for the baseline fasting serum glucose value; therefore, the adjusted difference in mean changes is not equal to the net change.||3|-11|0.24
82414938|NCT01529268|164540072|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in fasting insulin on treatment group and baseline fasting insulin.|Adjusted difference in mean changes|-6.0||||0.34|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA|Adjusted for baseline fasting insulin.||Adjusted difference in mean changes in fasting insulin. The change in fasting insulin is adjusted for the baseline fasting insulin value; therefore, the adjusted difference in mean changes is not equal to the net change.||6|-18|0.34
82414939|NCT01529268|164540073|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in HOMA-IR on treatment group and baseline HOMA-IR value.|Adjusted difference in mean changes|-2.6||||0.15|TWO_SIDED|95.0|-6.2|1.0|||ANCOVA|Adjusted for baseline HOMA-IR.||Adjusted difference in mean changes in HOMA-IR. The change in HOMA-IR is adjusted for the baseline HOMA-IR value; therefore, the adjusted difference in mean changes is not equal to the net change.||1.0|-6.2|0.15
82414940|NCT01529268|164540074|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in systolic blood pressure on treatment group and baseline systolic blood pressure value.|Adjusted difference in mean changes|1.0||||0.71|TWO_SIDED|95.0|-3.0|4.0|||ANCOVA|Adjusted for baseline systolic blood pressure.||Adjusted difference in mean changes in systolic blood pressure. The change in systolic blood pressure is adjusted for the baseline systolic blood pressure value; therefore, the adjusted difference in mean changes is not equal to the net change.||4|-3|0.71
82414941|NCT01529268|164540075|SUPERIORITY|P-values and differences in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in diastolic blood pressure on treatment group and baseline diastolic blood pressure value.|Adjusted difference in mean changes|-1.0||||0.31|TWO_SIDED|95.0|-4.0|1.0|||ANCOVA|Adjusted for baseline diastolic blood pressure.||Adjusted difference in mean changes in diastolic blood pressure. The change in diastolic blood pressure is adjusted for the baseline diastolic blood pressure value; therefore, the adjusted difference in mean changes is not equal to the net change.||1|-4|0.31
82414942|NCT01529268|164540076|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in self-reported Physical Health summary score on treatment group and baseline value of the Physical Health summary score.|Adjusted difference in mean changes|-1.0||||0.77|TWO_SIDED|95.0|-5.0|3.0|||ANCOVA|Adjusted for baseline self-reported Physical Health summary score.||Adjusted difference in mean changes from baseline in self-reported Physical Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in Physical Health summary score is adjusted for the baseline Physical Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||3|-5|0.77
82414943|NCT01529268|164540076|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in Pyschosocial Health summary score on treatment group and baseline Psychosocial Health summary score.|Adjusted difference in mean changes|-1.0||||0.64|TWO_SIDED|95.0|-5.0|3.0|||ANCOVA|Adjusted for baseline Psychosocial Health summary score.||Adjusted difference in mean changes from baseline in self-reported Psychosocial Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in Psychosocial Health summary score is adjusted for the baseline Psychosocial Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||3|-5|0.64
82447322|NCT01178099|164603304|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.060
82646908|NCT04440163|165008675|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|10.9|||||TWO_SIDED|95.0|5.2|16.6||||||B24||16.6|5.2|
82532695|NCT03216902|164762909|SUPERIORITY|Claim superiority of DE-126 compare to Placebo at 3 timepoints (9:00, 13:00 and 17:00)|||||<|0.0001||||||P value is adjusted for multiple comparisons using Hochberg step-up procedure.|t-test, 2 sided|||This endpoint is to test if one of four concentrations of DE-126 is superior to the placebo in lowering IOP at each specified timepoint (9:00, 13:00 and 17:00) at Week 6 compared to baseline. Therefore, 0.005% Latanoprost group is not included in the analysis.||||<0.0001
82532696|NCT01556763|164762931|SUPERIORITY_OR_OTHER||||||=|0.1||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.10
82646909|NCT04440163|165008675|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage|7.3|||||TWO_SIDED|95.0|2.9|11.9||||||B44||11.9|2.9|
82414944|NCT01529268|164540076|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in parent/guardian-reported Physical Health summary score on treatment group and baseline value of the parent/guardian-reported Physical Health summary score.|Adjusted difference in mean changes|-2.0||||0.58|TWO_SIDED|95.0|-9.0|5.0|||ANCOVA|Adjusted for baseline parent/guardian-reported Physical Health summary score.||Adjusted difference in mean changes from baseline in parent/guardian-reported Physical Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in parent/guardian-reported Physical Health summary score is adjusted for the baseline parent/guardian-reported Physical Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||5|-9|0.58
82414945|NCT01529268|164540076|SUPERIORITY|P-value and difference in mean changes from baseline were calculated using ANCOVA models, regressing changes from baseline to 52 weeks in parent/guardian-reported Psychosocial Health summary score on treatment group and baseline value of the parent/guardian-reported Psychosocial Health summary score.|Adjusted difference in mean changes|-1.0||||0.85|TWO_SIDED|95.0|-6.0|5.0|||ANCOVA|||Adjusted difference in mean changes from baseline in parent/guardian-reported Psychosocial Health summary score from the Pediatric Quality of Life Inventory (PedsQL). The difference in mean changes in parent/guardian-reported Psychosocial Health summary score is adjusted for the baseline parent/guardian-reported Psychosocial Health summary score; therefore, the adjusted difference in mean changes is not equal to the net change. Higher scores indicate better health-related quality of life.||5|-6|0.85
82414946|NCT01529268|164540077|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.11|TWO_SIDED||||||ANCOVA|||||||0.11
82414947|NCT02743494|164540149|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0003|TWO_SIDED|96.4|0.56|0.86|||Stratified log-rank test||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Placebo.|||0.86|0.56|0.0003
82414948|NCT02743494|164540150|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1064|TWO_SIDED|95.0|0.07|1.03|||Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Placebo.|||1.03|0.070|0.1064
82414949|NCT04764539|164540157|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_DEVIATION|0.294|<|0.555|TWO_SIDED|95.0|-1.276|0.796||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|The Mean Length of Utterance (MLU) will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||0.796|-1.276|<0.555
82414950|NCT04764539|164540157|SUPERIORITY||Mean Difference (Final Values)|0.5383|STANDARD_DEVIATION|0.659|<|0.2128|TWO_SIDED|95.0|-0.471|1.548||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||1.548|-0.471|<0.2128
82414951|NCT04764539|164540157|SUPERIORITY||Mean Difference (Final Values)|0.298|STANDARD_DEVIATION|0.365|<|0.533|TWO_SIDED|95.0|-0.915|1.511||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||1.511|-0.915|<0.533
82414952|NCT04764539|164540158|SUPERIORITY||Mean Difference (Final Values)|1.388|STANDARD_DEVIATION|1.7|<|0.289|TWO_SIDED|95.0|-1.763|4.539||Sample size too small for statistical power. In addition, automated speech recognition for child speech had a very poor state-of-the-art at the time of this study.|ANOVA||Difference = (iPad Pro group - VR goggles group)|The percentage of correctly transcribed words using automatic speech recognition will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||4.539|-1.763|<0.289
82414953|NCT04764539|164540159|SUPERIORITY||Mean Difference (Final Values)|-3.51|STANDARD_DEVIATION|4.3||0.4296|TWO_SIDED|95.0|-49.68|42.66||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|Articulation Accuracy does not statistically differ for the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||42.66|-49.68|0.4296
82414954|NCT04764539|164540159|SUPERIORITY||Mean Difference (Final Values)|19.75|STANDARD_DEVIATION|24.19|<|0.294|TWO_SIDED|95.0|-25.7|65.2||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||65.2|-25.7|<0.294
82414955|NCT04764539|164540159|SUPERIORITY||Mean Difference (Final Values)|16.25|STANDARD_DEVIATION|19.9|<|0.419|TWO_SIDED|95.0|-33.86|66.36||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||66.36|-33.86|<0.419
82414956|NCT04764539|164540160|SUPERIORITY||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|1.63|<|0.659|TWO_SIDED|95.0|-6.436|9.096||Sample size to small for statistical power.|ANOVA||difference = (iPad group mean - VR goggles group mean)|||9.096|-6.436|<0.659
82414957|NCT04764539|164540161|SUPERIORITY||Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|9.67|<|0.789|TWO_SIDED|95.0|-68.91|84.7|||ANOVA|Sample size too small for statistical power.|Difference = (iPad Pro group - VR Goggles group)|||84.7|-68.91|<0.789
82532697|NCT01556763|164762932|SUPERIORITY_OR_OTHER||||||=|0.07||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.07
82646910|NCT04440163|165008707|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.7|||||TWO_SIDED|95.0|-1.0|5.3||||||MenA||5.3|-1.0|
82414958|NCT04764539|164540161|SUPERIORITY||Mean Difference (Final Values)|30.16|STANDARD_DEVIATION|36.94|<|0.304|TWO_SIDED|95.0|-40.85|101.17||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||101.17|-40.85|<0.304
82414959|NCT04764539|164540161|SUPERIORITY||Mean Difference (Final Values)|22.26|STANDARD_DEVIATION|27.26|<|0.403|TWO_SIDED|95.0|-43.91|88.43||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||88.43|-43.91|<0.403
82414960|NCT04764539|164540162|SUPERIORITY||Mean Difference (Final Values)|-2.34|STANDARD_DEVIATION|2.87|<|0.485|TWO_SIDED|95.0|-10.79|6.11||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group - iPad Pro group)|The response to treatment stimuli will not increase from baseline for the either the iPad Pro or VR goggle participant group after having used the VAST system for 2 months.||6.11|-10.79|<0.485
82414961|NCT04764539|164540162|SUPERIORITY||Mean Difference (Final Values)|5.66|STANDARD_DEVIATION|6.94|<|0.065|TWO_SIDED|95.0|-0.569|11.9||Sample size is too small for statistical power.|ANOVA||Difference = (iPad Pro group Post-Treatment - iPad Pro group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||11.9|-0.569|<0.065
82414962|NCT04764539|164540162|SUPERIORITY||Mean Difference (Final Values)|3.34|STANDARD_DEVIATION|4.09|<|0.549|TWO_SIDED|95.0|-10.85|17.53||Sample size is too small for statistical power.|ANOVA||Difference = (VR goggles group Post-Treatment - VR goggles group Pre-Treatment)|Comparison of pre-test and post-test outcome per group.||17.53|-10.85|<0.549
82414963|NCT05558410|164540181|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82414964|NCT05558410|164540182|SUPERIORITY|||||||0.2781|||||||ANCOVA|||||||0.2781
82414965|NCT05558410|164540183|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82414966|NCT05558410|164540184|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82447323|NCT01178099|164603305|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||This is the p-value for PRI by flow cytometry. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error|ANCOVA|||||||0.086
82414967|NCT05558410|164540185|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82414968|NCT05558410|164540186|SUPERIORITY||||||<|0.0001|||||||Pearson's chi-squared test|||||||<0.0001
82447324|NCT01178099|164603305|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||This is the p-value for PRI by ELISA. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error|ANCOVA|||||||0.679
82414969|NCT05558410|164540187|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82414970|NCT05558410|164540188|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82414971|NCT05558410|164540189|SUPERIORITY|||||||0.0237|||||||Cochran-Mantel-Haenszel|||||||0.0237
82414972|NCT05558410|164540190|SUPERIORITY|||||||0.008|||||||Wilcoxon rank-sum|||||||0.0080
82414973|NCT02265744|164540192|SUPERIORITY|||||||0.9745|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.9745
82414974|NCT02265744|164540192|SUPERIORITY|||||||0.6217|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.6217
82414975|NCT02265744|164540192|SUPERIORITY|||||||0.8295|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.8295
82414976|NCT02265744|164540192|SUPERIORITY|||||||0.9439|||||||Chi-squared|Nominal p-values that are not adjusted for multiplicity.||||||0.9439
82414977|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|8.09||||0.004|TWO_SIDED|95.0|3.2|12.98|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||12.98|3.20|.004
82414978|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|6.74||||0.06|TWO_SIDED|95.0|-0.4|13.87|||t-test, 2 sided||Paired t-test|Repeated measures analysis at BL and Wk 8 for control arm||13.87|-0.40|.060
82414979|NCT05278065|164540231|SUPERIORITY||Slope|-0.932||||0.766|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.766
82414980|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.533|TWO_SIDED|95.0|-3.41|6.19|||t-test, 2 sided|Paired t-test||Repeated measures analysis at Wk 8 and Wk 16 for experimental arm||6.19|-3.41|0.533
82414981|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|-3.69||||0.296|TWO_SIDED|95.0|-12.21|4.84|||t-test, 2 sided|Paired t-test||Repeated measures analysis at Wk 8 and Wk 16 for control arm||4.84|-12.21|0.296
82414982|NCT05278065|164540231|SUPERIORITY||Slope|-5.075||||0.14|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.14
82447325|NCT01178099|164603306|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||This is the p-value for AU\*min to 6.5 µM ADP. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.396
82414983|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|9.48||||0.002|TWO_SIDED|95.0|4.24|14.71|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 16 for experimental arm||14.71|4.24|.002
82414984|NCT05278065|164540231|SUPERIORITY||Mean Difference (Final Values)|3.05||||0.291|TWO_SIDED|95.0|-3.91|10.01|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||10.01|-3.91|.291
82414985|NCT05278065|164540231|SUPERIORITY||Slope|-5.834||||0.067|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.067
82414986|NCT05278065|164540232|SUPERIORITY||Mean Difference (Final Values)|0.82||||0.068|TWO_SIDED|95.0|-0.07|1.71|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||1.71|-0.07|.068
82414987|NCT05278065|164540232|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-2.32|2.32|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||2.32|-2.32|1.00
82414988|NCT05278065|164540232|SUPERIORITY||Slope|-0.66||||0.44|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.44
82414989|NCT05278065|164540233|SUPERIORITY||Mean Difference (Final Values)|0.447||||0.145|TWO_SIDED|95.0|-0.184|1.078|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||1.078|-0.184|.145
82414990|NCT05278065|164540233|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.28|TWO_SIDED|95.0|-1.5|3.95|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||3.95|-1.50|0.280
82414991|NCT05278065|164540233|SUPERIORITY||Slope|0.802||||0.38|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.38
82414992|NCT05278065|164540234|SUPERIORITY||Mean Difference (Final Values)|0.086||||0.268|TWO_SIDED|95.0|-0.077|0.25|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.250|-0.077|0.268
82414993|NCT05278065|164540234|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.624|TWO_SIDED|95.0|-0.291|0.198|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.198|-0.291|0.624
82447326|NCT01178099|164603306|SUPERIORITY_OR_OTHER|||||||0.288||95.0||||This is the p-value for AU\*min to 20 µM ADP. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.288
82646911|NCT04440163|165008707|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|10.5|||||TWO_SIDED|95.0|3.0|17.9||||||MenC||17.9|3.0|
82646912|NCT04440163|165008707|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|6.3|||||TWO_SIDED|95.0|-0.1|13.1||||||MenW||13.1|-0.1|
82414994|NCT05278065|164540234|SUPERIORITY||Slope|-0.15||||0.17|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.17
82447327|NCT01178099|164603306|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||This is the p-value for AU\*min to Collagen. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.095
82646913|NCT04440163|165008707|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|11.4|||||TWO_SIDED|95.0|5.0|18.2||||||MenY||18.2|5.0|
82414995|NCT05278065|164540235|SUPERIORITY||Mean Difference (Final Values)|-0.077||||0.574|TWO_SIDED|95.0|-0.374|0.219|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.219|-0.374|0.574
82414996|NCT05278065|164540235|SUPERIORITY||Mean Difference (Final Values)|0.116||||0.077|TWO_SIDED|95.0|-0.02|0.252|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.252|-0.020|.077
82414997|NCT05278065|164540235|SUPERIORITY||Slope|0.193||||0.149|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.149
82414998|NCT05278065|164540236|SUPERIORITY||Mean Difference (Final Values)|-0.116||||0.376|TWO_SIDED|95.0|-0.396|0.163|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.163|-0.396|0.376
82414999|NCT05278065|164540236|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.065|TWO_SIDED|95.0|-0.036|0.78|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.78|-0.036|0.065
82415000|NCT05278065|164540236|SUPERIORITY||Slope|0.486||||0.006|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||.006
82415001|NCT05278065|164540237|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.849|TWO_SIDED|95.0|-0.483|0.576|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.576|-0.483|0.849
82415002|NCT05278065|164540237|SUPERIORITY||Mean Difference (Final Values)|-0.302||||0.107|TWO_SIDED|95.0|-0.706|0.102|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||0.102|-0.706|.107
82415003|NCT05278065|164540237|SUPERIORITY||Slope|-0.34||||0.19|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.19
82415004|NCT05278065|164540238|SUPERIORITY||Mean Difference (Final Values)|-0.085||||0.828|TWO_SIDED|95.0|-0.929|0.76|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for experimental arm||0.760|-0.929|0.828
82415005|NCT05278065|164540238|SUPERIORITY||Mean Difference (Final Values)|0.762||||0.249|TWO_SIDED|95.0|-0.81|2.33|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||2.33|-0.81|0.249
82415006|NCT05278065|164540238|SUPERIORITY||Slope|0.857||||0.17|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.17
82415007|NCT05278065|164540239|SUPERIORITY||Mean Difference (Final Values)|-0.182||||0.965|TWO_SIDED|95.0|-9.25|8.89|||t-test, 2 sided|Paired t-test||||8.89|-9.25|0.965
82415008|NCT05278065|164540239|SUPERIORITY||Mean Difference (Final Values)|3.25||||0.522|TWO_SIDED|95.0|-11.1|17.6|||t-test, 2 sided|Paired t-test||Repeated measures analysis at BL and Wk 8 for control arm||17.6|-11.1|0.522
82415009|NCT05278065|164540239|SUPERIORITY||Slope|1.41||||0.781|TWO_SIDED||||||GEE|Corstr = AR1; test of condition x time interaction||||||0.781
82447328|NCT01178099|164603306|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||This is the p-value for AU\*min to TRAP-6. The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.086
82447329|NCT01178099|164603307|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.083
82447330|NCT01178099|164603308|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||The p-value is from model: Change from Baseline = Baseline + Treatment + Population + Treatment\*Population + Random Error.|ANCOVA|||||||0.124
82415010|NCT01692756|164540259|SUPERIORITY|||||||0.33|||||||Kruskal-Wallis|||||||0.33
82415011|NCT01692756|164540260|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||||||0.08
82415012|NCT01692756|164540261|SUPERIORITY|||||||0.93|||||||Kruskal-Wallis|||||||0.93
82415013|NCT01692756|164540262|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
82415014|NCT01692756|164540263|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
82415015|NCT01692756|164540264|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||||||.003
82447331|NCT02473367|164603312|SUPERIORITY_OR_OTHER||Geom. least-squares mean ratio (GLSMR)|0.28|||||TWO_SIDED|90.0|0.24|0.32|||||Raltegravir+TUMS/Raltegravir only|||0.32|0.24|
82532698|NCT01556763|164762933|SUPERIORITY_OR_OTHER||||||=|0.02||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.02
82415016|NCT01692756|164540265|SUPERIORITY|||||||0.007|||||||Kruskal-Wallis|||||||.007
82415017|NCT01692756|164540266|SUPERIORITY|||||||0.63|||||||Kruskal-Wallis|||||||.63
82415018|NCT01692756|164540267|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||||||0.17
82415019|NCT01692756|164540268|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||||||.62
82415020|NCT01692756|164540269|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||.02
82415021|NCT01692756|164540270|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||.20
82532699|NCT01556763|164762934|SUPERIORITY_OR_OTHER||||||=|0.008||95.0|||||ANCOVA|||Baseline value was the covariate and all values obtained during the treatment period were averaged together. This value was adjusted by regression against the baseline and estimation of a new value as if all subjects possessed the same baseline.||||=0.008
82415022|NCT01692756|164540271|SUPERIORITY|||||||0.87|||||||Kruskal-Wallis|||||||.87
82415023|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-8.64|STANDARD_ERROR_OF_MEAN|2.232||0.0005|TWO_SIDED|90.0|-12.33|-4.95||Hochberg adjusted p-value|Mixed Models Analysis|||||-4.95|-12.33|0.0005
82646914|NCT04440163|165008708|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-2.2|||||TWO_SIDED|95.0|-5.2|1.4||||||MenA||1.4|-5.2|
82415024|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-3.34|STANDARD_ERROR_OF_MEAN|2.206||0.0963|TWO_SIDED|90.0|-6.99|0.3||Hochberg adjusted p-value|Mixed Models Analysis|||||0.30|-6.99|0.0963
82415025|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-7.07|STANDARD_ERROR_OF_MEAN|2.233||0.0046|TWO_SIDED|90.0|-10.76|-3.37||Hochberg adjusted p-value|Mixed Models Analysis|||||-3.37|-10.76|0.0046
82415026|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.238||0.0963|TWO_SIDED|90.0|-6.63|0.77||Hochberg adjusted p-value|Mixed Models Analysis|||||0.77|-6.63|0.0963
82415027|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-10.07|STANDARD_ERROR_OF_MEAN|2.152|<|0.0001|TWO_SIDED|90.0|-13.63|-6.51||Hochberg adjusted p-value|Mixed Models Analysis|||||-6.51|-13.63|<0.0001
82415028|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-6.06|STANDARD_ERROR_OF_MEAN|2.255||0.0158|TWO_SIDED|90.0|-9.79|-2.33||Hochberg adjusted p-value|Mixed Models Analysis|||||-2.33|-9.79|0.0158
82415029|NCT02969018|164540272|OTHER||Least Squares Mean Difference|-4.66|STANDARD_ERROR_OF_MEAN|2.163||0.0488|TWO_SIDED|90.0|-8.24|-1.09||Hochberg adjusted p-value|Mixed Models Analysis|||||-1.09|-8.24|0.0488
82415030|NCT02969018|164540273|OTHER||Odds Ratio (OR)|10.0|||||TWO_SIDED|90.0|2.95|33.87|||||||Logistic regression|33.87|2.95|
82415031|NCT02969018|164540273|OTHER||Odds Ratio (OR)|2.12|||||TWO_SIDED|90.0|0.61|7.36|||||||Logistic regression|7.36|0.61|
82415032|NCT02969018|164540273|OTHER||Odds Ratio (OR)|9.09|||||TWO_SIDED|90.0|2.71|30.48|||||||Logistic regression|30.48|2.71|
82415033|NCT02969018|164540273|OTHER||Odds Ratio (OR)|2.11|||||TWO_SIDED|90.0|0.59|7.55|||||||Logistic regression|7.55|0.59|
82415034|NCT02969018|164540273|OTHER||Odds Ratio (OR)|41.67|||||TWO_SIDED|90.0|10.8|160.68|||||||Logistic regression|160.68|10.80|
82415035|NCT02969018|164540273|OTHER||Odds Ratio (OR)|2.11|||||TWO_SIDED|90.0|0.59|7.55|||||||Logistic regression|7.55|0.59|
82415036|NCT02969018|164540273|OTHER||Odds Ratio (OR)|3.86|||||TWO_SIDED|90.0|1.17|12.74|||||||Logistic regression|12.74|1.17|
82415037|NCT02969018|164540274|OTHER||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|90.0|-11.43|-6.57|||Mixed Models Analysis|||||-6.57|-11.43|<0.0001
82415038|NCT02969018|164540274|OTHER||Least Squares Mean Difference|-7.99|STANDARD_ERROR_OF_MEAN|1.502|<|0.0001|TWO_SIDED|90.0|-10.48|-5.51|||Mixed Models Analysis|||||-5.51|-10.48|<0.0001
82447332|NCT02473367|164603312|SUPERIORITY_OR_OTHER||GLSMR|0.86|||||TWO_SIDED|90.0|0.73|1.03|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||1.03|0.73|
82532700|NCT02258464|164762935|OTHER||Hazard Ratio (Radium 223/Placebo)|0.745||||0.3339|TWO_SIDED|80.0|0.504|1.102||The SSE-FS was compared using a stratified log-rank test with a 2-sided alpha of 0.2|Log Rank|||The null hypothesis that both treatment groups have the same SSE-FS distribution will be tested against the alternative hypothesis that the distribution of SSE-FS time in radium-223 dichloride is different from the placebo group||1.102|0.504|0.3339
82415039|NCT04425018|164540325|SUPERIORITY||Risk Difference (RD)|11.6||||0.188|TWO_SIDED|95.0|-5.8|29.0|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms."|||29.0|-5.8|0.188
82415040|NCT04425018|164540326|SUPERIORITY||Risk Difference (RD)|18.9||||0.0715|TWO_SIDED|95.0|-2.2|40.1|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms among HR+ subjects"|||40.1|-2.2|0.0715
82415041|NCT04425018|164540327|SUPERIORITY||Risk Difference (RD)|-5.2||||0.7754|TWO_SIDED|95.0|-36.5|26.1|||Fisher Exact||"Estimate and corresponding Wald 95% confidence interval of the difference in pCR response rates (%) between the Paclitaxel + Pertuzumab + Margetuximab and Paclitaxel + Pertuzumab + Trastuzumab arms among HR- subjects."|||26.1|-36.5|0.7754
82415042|NCT01944774|164540355|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.291||||0.133|TWO_SIDED|95.0|0.058|1.457||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.457|0.058|0.133
82447333|NCT02473367|164603312|SUPERIORITY_OR_OTHER||GLSMR|0.9|||||TWO_SIDED|90.0|0.8|1.03|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||1.03|0.80|
82447334|NCT02473367|164603313|SUPERIORITY_OR_OTHER||GLSMR|0.26|||||TWO_SIDED|90.0|0.21|0.32|||||Raltegravir+TUMS/Raltegravir only|||0.32|0.21|
82576500|NCT03939689|164862794|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test with adjustment for stratification factor (prostate cancer risk factor at Screening) was carried out by using complete cases for the FAS population (missing data were not imputed for this analysis). Intermediate risk at Screening: hemoglobin (Hgb) ≥11 g/dL and LDH \<262 IU/L and ALP \<414 IU/L. High-risk at Screening: Hgb \<11 g/dL or LDH ≥262 IU/L or ALP ≥414 IU/L.||||0.0025
82415043|NCT01944774|164540355|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.492||||0.423|TWO_SIDED|95.0|0.087|2.788||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.788|0.087|0.423
82415044|NCT01944774|164540356|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.276||||0.118|TWO_SIDED|95.0|0.055|1.385||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.385|0.055|0.118
82415045|NCT01944774|164540356|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.644||||0.636|TWO_SIDED|95.0|0.104|3.999||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||3.999|0.104|0.636
82415046|NCT01944774|164540357|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.517||||0.456|TWO_SIDED|95.0|0.091|2.93||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.930|0.091|0.456
82415047|NCT01944774|164540357|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.508||||0.445|TWO_SIDED|95.0|0.09|2.883||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.883|0.090|0.445
82415048|NCT01944774|164540358|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 500mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.518||||0.458|TWO_SIDED|95.0|0.091|2.941||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||2.941|0.091|0.458
82415049|NCT01944774|164540358|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Clinical success rate was assumed for the experimental group (Nemonoxacin 650mg) and the control group (Moxifloxacin 400mg) were both 88%. The non-inferiority margin was defined as 15%, one-sided significance value was 0.05 (one-tailed α=0.05), power was 80%, and the assignment ratio was 1:1:1.|Odds Ratio (OR)|0.667||||0.664|TWO_SIDED|95.0|0.107|4.144||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.144|0.107|0.664
82415050|NCT01944774|164540359|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.959|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.959
82415051|NCT01944774|164540359|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.961|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.961
82415052|NCT01944774|164540360|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.96|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.960
82415053|NCT01944774|164540360|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
82415054|NCT01944774|164540361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.95|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.950
82415055|NCT01944774|164540361|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
82415056|NCT01944774|164540362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.949|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.949
82415057|NCT01944774|164540362|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.962|TWO_SIDED|||||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic||The 2-sided 95% confidence interval of OR is (\<0.001, \>999.999).|||||0.962
82415058|NCT01944774|164540363|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.438||||0.491|TWO_SIDED|95.0|0.042|4.609||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.609|0.042|0.491
82415059|NCT01944774|164540363|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.531||||0.619|TWO_SIDED|95.0|0.044|6.444||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.444|0.044|0.619
82415060|NCT01944774|164540364|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.444||||0.501|TWO_SIDED|95.0|0.042|4.708||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||4.708|0.042|0.501
82415061|NCT01944774|164540364|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
82447335|NCT02473367|164603313|SUPERIORITY_OR_OTHER||GLSMR|0.86|||||TWO_SIDED|90.0|0.65|1.15|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||1.15|0.65|
82447336|NCT02473367|164603313|SUPERIORITY_OR_OTHER||GLSMR|0.98|||||TWO_SIDED|90.0|0.81|1.17|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||1.17|0.81|
82447337|NCT02473367|164603314|SUPERIORITY_OR_OTHER||GLSMR|0.52|||||TWO_SIDED|90.0|0.45|0.61|||||Raltegravir+TUMS/Raltegravir only|||0.61|0.45|
82447338|NCT02473367|164603314|SUPERIORITY_OR_OTHER||GLSMR|0.42|||||TWO_SIDED|90.0|0.34|0.52|||||Raltegravir+12 Hrs Leader Antacid/Raltegravir only|||0.52|0.34|
82447339|NCT02473367|164603314|SUPERIORITY_OR_OTHER||GLSMR|0.43|||||TWO_SIDED|90.0|0.36|0.51|||||Raltegravir+12 Hrs TUMS/Raltegravir only|||0.51|0.36|
82532701|NCT02258464|164762936|OTHER||Hazard ratio (Radium 223/Placebo)|0.888||||0.7259|TWO_SIDED|80.0|0.576|1.37|||Log Rank|||||1.370|0.576|0.7259
82646915|NCT04440163|165008708|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|-1.3|||||TWO_SIDED|95.0|-4.9|2.9||||||MenC||2.9|-4.9|
82447340|NCT04816721|164603317|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.96||||0.1249|TWO_SIDED|95.0|-2.21|0.28|||Mixed-effect Model of Repeated Measures|||Day 3: EDP-938 Versus Placebo||0.28|-2.21|0.1249
82447341|NCT04816721|164603317|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-1.41||||0.058|TWO_SIDED|95.0|-2.88|0.05|||Mixed-effect Model of Repeated Measures|||Day 5: EDP-938 Versus Placebo||0.05|-2.88|0.0580
82447342|NCT04816721|164603317|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.43||||0.5877|TWO_SIDED|95.0|-2.02|1.16|||Mixed-effect Model of Repeated Measures|||Day 9: EDP-938 Versus Placebo||1.16|-2.02|0.5877
82447343|NCT04816721|164603317|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|0.84||||0.2932|TWO_SIDED|95.0|-0.76|2.43|||Mixed-effect Model of Repeated Measures|||Day 14: EDP-938 Versus Placebo||2.43|-0.76|0.2932
82447344|NCT04816721|164603318|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.17||||0.6574|TWO_SIDED|95.0|-0.93|0.59|||Mixed-effect Model of Repeated Measures|||Day 3: EDP-938 Versus Placebo||0.59|-0.93|0.6574
82447345|NCT04816721|164603318|SUPERIORITY||Least Squares Mean Difference|-0.33||||0.4728|TWO_SIDED|95.0|-1.23|0.58|||Mixed-effect Model of Repeated Measures|||Day 5: EDP-938 Versus Placebo||0.58|-1.23|0.4728
82447346|NCT04816721|164603318|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.7||||0.2058|TWO_SIDED|95.0|-1.79|0.39|||Mixed-effect Model of Repeated Measures|||Day 9: EDP-938 Versus Placebo||0.39|-1.79|0.2058
82447347|NCT04816721|164603318|OTHER|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|0.33||||0.5391|TWO_SIDED|95.0|-0.74|1.41|||Mixed-effect Model of Repeated Measures|||Day 14: EDP-938 Versus Placebo||1.41|-0.74|0.5391
82447348|NCT04816721|164603320|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.17||||0.6574|TWO_SIDED|95.0|-0.93|0.59|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 3: EDP-938 Versus Placebo||0.59|-0.93|0.6574
82447349|NCT04816721|164603320|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-0.67||||0.5359|TWO_SIDED|95.0|-2.81|1.47|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 5: EDP-938 Versus Placebo||1.47|-2.81|0.5359
82447350|NCT04816721|164603320|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-2.73||||0.3029|TWO_SIDED|95.0|-7.95|2.5|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 9: EDP-938 Versus Placebo||2.50|-7.95|0.3029
82532702|NCT02258464|164762937|OTHER||Hazard ratio (Radium 223/Placebo)|0.932||||0.8785|TWO_SIDED|80.0|0.513|1.693|||Log Rank|||||1.693|0.513|0.8785
82532703|NCT02258464|164762938|OTHER||Hazard ratio (Radium 223/Placebo)|0.824||||0.524|TWO_SIDED|80.0|0.556|1.22|||Log Rank|||||1.220|0.556|0.5240
82532704|NCT02258464|164762939|OTHER||Difference (Radium 223 - Placebo) %|11.8||||0.345|TWO_SIDED|80.0|-2.7|26.3|||Cochran-Mantel-Haenszel|||||26.3|-2.7|0.345
82532705|NCT02258464|164762940|OTHER||Hazard ratio (Radium 223/Placebo)|0.968||||0.9128|TWO_SIDED|80.0|0.657|1.425|||Log Rank|||||1.425|0.657|0.9128
82532706|NCT02258464|164762941|OTHER||Hazard ratio (Radium 223/Placebo)|1.023||||0.9227|TWO_SIDED|80.0|0.753|1.391|||Log Rank|||||1.391|0.753|0.9227
82447351|NCT04816721|164603320|SUPERIORITY|The model included treatment group (EDP-938, placebo) and Day (3, 5, 9, and 14) as fixed effect, associated baseline, and treatment group by day interaction term as factors. An unstructured covariance matrix was imposed. The Satterthwaite approximation was used to estimate the denominator degrees of freedom.|Least Squares Mean Difference|-3.64||||0.3871|TWO_SIDED|95.0|-11.98|4.69|||Mixed-effect Model of Repeated Measures|||Day 1 through Day 14: EDP-938 Versus Placebo||4.69|-11.98|0.3871
82646916|NCT04440163|165008708|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|1.0|||||TWO_SIDED|95.0|-1.6|4.6||||||MenW||4.6|-1.6|
82415062|NCT01944774|164540365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.733||||0.807|TWO_SIDED|95.0|0.061|8.832||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||8.832|0.061|0.807
82447352|NCT03445559|164603348|SUPERIORITY||Odds Ratio (OR)|0.54||||0.006|TWO_SIDED|95.0|0.3|0.98|||Chi-squared|||||0.98|0.30|0.006
82532707|NCT00932646|164762944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.139|0.205|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.205|0.139|<0.0001
82532708|NCT00932646|164762944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.14|0.208|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.208|0.140|<0.0001
82415063|NCT01944774|164540365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
82415064|NCT01944774|164540366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7||||0.779|TWO_SIDED|95.0|0.058|8.445||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||8.445|0.058|0.779
82415065|NCT01944774|164540366|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.567||||0.656|TWO_SIDED|95.0|0.047|6.895||Only P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||6.895|0.047|0.656
82415066|NCT01835756|164540367|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED||||||t-test, 2 sided|||||||<0.00001
82415067|NCT01835756|164540368|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82415068|NCT00387127|164540370|SUPERIORITY_OR_OTHER||Difference in percentage of par. with CR|10.7||||0.3658|TWO_SIDED|95.0|-13.4|37.3||From exact test that common odds ratio equals 1|Fisher Exact||Complete response was defined as the percentage of participants achieving a CR as determined by an independent radiological review.|||37.3|-13.4|0.3658
82415069|NCT00387127|164540371|SUPERIORITY_OR_OTHER||Difference in percentage of par. with CR|28.8||||0.013|TWO_SIDED|95.0|5.7|53.6||From exact test that common odds ratio equals 1|Fisher Exact||Complete response was defined as the percentage of participants achieving a CR as determined by the investigator.|||53.6|5.7|0.0130
82415070|NCT00387127|164540380|SUPERIORITY_OR_OTHER||Difference in overall response rate|16.3||||0.1969|TWO_SIDED|95.0|-8.6|42.1||From exact test that common odds ratio equals 1|Fisher Exact||Overall response was defined as the percentage of participants achieving a PR or CR as determined by the investigator.|||42.1|-8.6|0.1969
82415071|NCT03998462|164540417|SUPERIORITY||Mean Difference (Final Values)|1.85|STANDARD_ERROR_OF_MEAN|1.92||0.34|||||||Mixed Models Analysis|||||||0.34
82415072|NCT03998462|164540418|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|1.25||0.41|||||||Mixed Models Analysis|||||||0.41
82415073|NCT03998462|164540419|SUPERIORITY||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|1.05||0.71|||||||Mixed Models Analysis|||||||0.71
82415074|NCT02965833|164540437|SUPERIORITY||||||=|0.0073|||||||Mixed Models Analysis|||||||=0.0073
82415075|NCT05942040|164540464|OTHER|Pre-post test|Odds Ratio (OR)|0.7|STANDARD_ERROR_OF_MEAN|0.18||0.17|TWO_SIDED|95.0|0.43|1.16|||Regression, Logistic|||||1.16|0.43|0.17
82415076|NCT03695094|164540530|OTHER||Geometric mean ratio|0.725|||||TWO_SIDED|90.0|0.586|0.896|||ANOVA|||The analysis of variance model (ANOVA) included the fixed effects of treatment group. The natural logs were taken of the dependent variables and were back-transformed after the analysis. The geometric mean ratio and the respective 90% confidence interval (CI) was derived for the Inducers group vs the Neutral-control group from the ANOVA model using least-squares means difference.||0.896|0.586|
82415077|NCT03695094|164540532|OTHER||Geometric mean ratio|0.636|||||TWO_SIDED|90.0|0.504|0.801|||ANOVA|||The analysis of variance model (ANOVA) included the fixed effects of treatment group. The natural logs were taken of the dependent variables and were back-transformed after the analysis. The geometric mean ratio and the respective 90% confidence interval (CI) was derived for the Inducers group vs the Neutral-control group from the ANOVA model using least-squares means difference.||0.801|0.504|
82415078|NCT04999020|164540601|SUPERIORITY||Difference in response rates|-15.38||||0.4192|TWO_SIDED|80.0|-38.55|8.48|||Barnard's unconditional exact test|||||8.48|-38.55|0.4192
82415079|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio (PR)|2.86|||<|0.001|TWO_SIDED|95.0|2.02|4.04||"At 3 months:~Parent-reported frequency of conversations on drinking alcohol"|Generalized estimation|||A sample size of 400 parents and children was calculated to yield 80% power to detect one or more differences between the intervention and control arms, of 45% in talking about alcohol, 20% about marijuana, and 20% about other drugs, using a two-sided Bonferroni-corrected 1.5% level of significance (based on estimates from the pilot trial).||4.04|2.02|<0.001
82415080|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio [PR]|2.4|||<|0.001|TWO_SIDED|95.0|1.67|3.45||"At 3 months:~Parent-reported frequency of conversations on using e-cigarettes or vaping"|Generalized estimation|||||3.45|1.67|<0.001
82415081|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio [PR]|2.36|||<|0.001|TWO_SIDED|95.0|1.62|3.43||"At 3 months:~Parent-reported frequency of conversations on using marijuana"|Generalized estimation|||||3.43|1.62|<0.001
82532709|NCT00932646|164762944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.124|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.124|<0.0001
82576501|NCT03939689|164862795|SUPERIORITY|||||||0.806||||||The p-value is based on the chi-squared test of the difference in proportions between treatment groups if expected cell frequencies are all greater than 5; otherwise, the p-value is from the Fisher's exact test.|Chi-squared|||||||0.8060
82415082|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio [PR]|3.45|||<|0.001|TWO_SIDED|95.0|2.34|5.08||"At 3 months:~Parent-reported frequency of conversations on smoking cigarettes"|Generalized estimation|||||5.08|2.34|<0.001
82415083|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio [PR]|2.47|||<|0.001|TWO_SIDED|95.0|1.58|3.86||"At 3 months:~Parent-reported frequency of conversations on using other drugs"|Generalized estimation|||||3.86|1.58|<0.001
82415084|NCT03925220|164540619|SUPERIORITY||Prevalence Ratio [PR]|1.45||||0.04|TWO_SIDED|95.0|1.02|2.06||"At 18 months:~Parent-reported frequency of conversations on drinking alcohol"|Generalized estimation|||||2.06|1.02|0.04
82415085|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio (PR)|1.31|||<|0.001|TWO_SIDED|95.0|1.18|1.45||"At 3 months:~Parent-reported have warned your child about the dangers of drinking alcohol and using drugs"|Generalized estimation|||||1.45|1.18|<0.001
82415086|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.55|||<|0.001|TWO_SIDED|95.0|1.32|1.83||"At 3 months:~Parent-reported 'have talked to your child about how to handle offers of alcoholic drinks and drugs'"|Generalized estimation|||||1.83|1.32|<0.001
82415087|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|2.13|||<|0.001|TWO_SIDED|95.0|1.73|2.63||"At 3 months:~Parent-reported 'have given your child rules to obey about drinking alcohol and using drugs'"|Generalized estimation|||||2.63|1.73|<0.001
82415088|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.67||||0.001|TWO_SIDED|95.0|1.25|2.25||"At 3 months:~Parent-reported 'have lectured or given your child a speech about drinking alcohol and using drugs'"|Generalized estimation|||||2.25|1.25|0.001
82415089|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.51|||<|0.001|TWO_SIDED|95.0|1.21|1.9||"At 3 months:~Parent-reported 'have made a comment to your child about how drinking alcohol and using drugs is bad if a character on TV is drinking or drunk'"|Generalized estimation|||||1.90|1.21|<0.001
82415090|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.25||||0.008|TWO_SIDED|95.0|1.06|1.47||"At 3 months:~Parent-reported 'have told your child stories of people who drink alcohol, have been drunk, or use drugs'"|Generalized estimation|||||1.47|1.06|0.008
82415091|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.65|||<|0.001|TWO_SIDED|95.0|1.29|2.1||"At 3 months:~Parent-reported 'have told your child you would be disappointed in her/him if they were to drink alcohol or use drugs'"|Generalized estimation|||||2.10|1.29|<0.001
82415092|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.64|||<|0.001|TWO_SIDED|95.0|1.24|2.15||"At 3 months:~Parent-reported 'have shown your child information on the web, TV, or in the news about the dangers of drinking alcohol and using drugs'"|Generalized estimation|||||2.15|1.24|<0.001
82415093|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.65|||<|0.001|TWO_SIDED|95.0|1.4|1.93||"At 3 months:~Parent-reported 'have asked your child about their thoughts and opinions about drinking alcohol and using drugs'"|Generalized estimation|||||1.93|1.40|<0.001
82415094|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.4||||0.003|TWO_SIDED|95.0|1.12|1.74||"At 18 months:~Parent-reported 'have given your child rules to obey about drinking alcohol and using drugs'"|Generalized estimation|||||1.74|1.12|0.003
82415095|NCT03925220|164540620|SUPERIORITY||Prevalence Ratio [PR]|1.38||||0.01|TWO_SIDED|95.0|1.06|1.78||"At 18 months:~Parent-reported 'have made a comment to your child about how drinking alcohol and using drugs is bad if a character on TV is drinking or drunk'"|Generalized estimation|||||1.78|1.06|0.01
82415096|NCT00896233|164540639|SUPERIORITY_OR_OTHER||ICC|0.9|||||TWO_SIDED|90.0|0.81|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.81|
82415097|NCT00896233|164540639|SUPERIORITY_OR_OTHER||ICC|0.85|||||TWO_SIDED|90.0|0.71|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.98|0.71|
82415098|NCT00896233|164540639|SUPERIORITY_OR_OTHER||ICC|0.88|||||TWO_SIDED|90.0|0.78|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||0.98|0.78|
82415099|NCT00896233|164540639|SUPERIORITY_OR_OTHER||ICC|0.86|||||TWO_SIDED|90.0|0.75|0.98||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||0.98|0.75|
82415100|NCT00896233|164540640|SUPERIORITY_OR_OTHER||ICC|0.9|||||TWO_SIDED|90.0|0.8|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.80|
82415101|NCT00896233|164540640|SUPERIORITY_OR_OTHER||ICC|0.88|||||TWO_SIDED|90.0|0.78|0.99||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Common ROI.||0.99|0.78|
82415102|NCT00896233|164540640|SUPERIORITY_OR_OTHER||ICC|0.93|||||TWO_SIDED|90.0|0.87|1.0||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||1.00|0.87|
82415103|NCT00896233|164540640|SUPERIORITY_OR_OTHER||ICC|0.94|||||TWO_SIDED|90.0|0.88|1.0||||||ICC for measures of liver stiffness obtained by MRE (i.e., average over all 4 slices of the maximum stiffness for each slice) with respect to repeatability (precision) of multiple MRE assessments. This pertains to the Individual ROI.||1.00|0.88|
82415104|NCT02965456|164540643|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
82415105|NCT02965456|164540644|SUPERIORITY||||||<|0.001||||||Threshold for significance at 0.05.|ANCOVA|||Analysis was performed using ANCOVA with factors of treatment group and analysis center and the respective baseline lesion count as a covariate.||||<0.001
82447353|NCT03445559|164603349|SUPERIORITY||Odds Ratio (OR)|1.36||||0.42|TWO_SIDED|95.0|0.7|2.66|||Chi-squared|||||2.66|0.70|0.42
82447354|NCT03445559|164603350|SUPERIORITY||Median Difference (Final Values)|2.7|||||TWO_SIDED|||||||||||||
82447355|NCT02678923|164603358|SUPERIORITY||LS mean difference|0.73||||0.0738|TWO_SIDED|95.0|-0.07|1.52||Baseline parameter value as a covariate and treatment group as factor, adjusting for country and prior statin use.|ANCOVA|||||1.52|-0.07|0.0738
82447356|NCT00300365|164603385|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82447357|NCT01641822|164603406|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.743||||0.25|TWO_SIDED|95.0|0.446|1.238|||Negative binomial regression|||Ratio between rates||1.238|0.446|0.25
82447358|NCT01641822|164603407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.16|TWO_SIDED|95.0|-0.55|3.2||The p-value is from an MMRM analysis. The model includes terms for baseline value, previous exacerbations (1, 2, ≥ 3), treatment, visit (categorical), and treatment by visit interaction.|Mixed Models Analysis|||Difference in change in FEV1 % predicted||3.2|-0.55|0.16
82447359|NCT01641822|164603408|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||Comparison of percentages||||0.67
82576502|NCT03939689|164862796|SUPERIORITY|||||||0.5924||||||Log-rank test of no difference between treatment groups, stratified by prostate cancer risk groups.|Log Rank|||Kaplan-Meier analysis and Greenwood formula used for estimating event-free rates and 95% confidence intervals.||||.5924
82447360|NCT01641822|164603409|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.71|TWO_SIDED|95.0|0.5|1.59|||Log Rank|||Comparison of time to exacerbation||1.59|0.50|0.71
82447361|NCT01641822|164603410|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.642||||0.14|TWO_SIDED|95.0|0.355|1.164|||Negative binomial regression|||Comparison of hospitalization rate||1.164|0.355|0.14
82447362|NCT01641822|164603411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06||||0.21|TWO_SIDED|95.0|-1.71|7.82||The p-value is from an MMRM analysis. The model includes terms for baseline value, previous exacerbations (1, 2, ≥ 3), treatment, visit (categorical), and treatment by visit interaction.|Mixed Models Analysis|||Difference in change in CFQ-R RSS||7.82|-1.71|0.21
82447363|NCT02522442|164603423|OTHER|Pilot study, not powered for any endpoint.||||||0.377|||||||Chi-squared|||Pilot study, not powered for any endpoint.||||0.377
82447364|NCT02522442|164603424|OTHER|Pilot study, not powered for any endpoint.||||||0.624|||||||Chi-squared|||||||.624
82447365|NCT00599638|164603430|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.306||0.391|TWO_SIDED|80.0|-0.31|0.48|||Mixed Models Analysis|||||0.48|-0.31|0.3910
82447366|NCT00599638|164603430|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.357||0.0002|TWO_SIDED|80.0|-1.78|-0.86|||Mixed Models Analysis|||||-0.86|-1.78|0.0002
82447367|NCT00599638|164603431|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0055||||0.4959|TWO_SIDED|80.0|0.3|1.71|||Regression, Logistic|||The statistical analysis was performed compositely for all categories.||1.71|0.30|0.4959
82447368|NCT00599638|164603431|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.0763||||0.0011|TWO_SIDED|80.0|1.69|8.46|||Regression, Logistic|||The statistical analysis was performed compositely for all categories.||8.46|1.69|0.0011
82447369|NCT00599638|164603433|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|1.18|STANDARD_ERROR_OF_MEAN|2.819||0.338|TWO_SIDED|80.0|-2.47|4.84|||Mixed Models Analysis|||||4.84|-2.47|0.3380
82447370|NCT00599638|164603433|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-9.65|STANDARD_ERROR_OF_MEAN|3.268||0.0022|TWO_SIDED|80.0|-13.89|-5.42|||Mixed Models Analysis|||||-5.42|-13.89|0.0022
82447371|NCT00462748|164603462|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Hochberg's FDR was used to power the study; the power was based on a two-sided p value of 0.025.|Regression, Logistic|The logistic regression model included terms for treatment and stratum; treatment by stratum interaction was assessed.||Ho is no difference in proportion achieving the target of LDL-C \< 2mmol/l.. 240 patients per group give a power of at least 85% to detect a 15% difference in this proportion, assuming the percentage decrease from baseline in LDL-C was 25% in the E/S group and 15% in the two comparator groups. A two-sided 0.025 test to allow for multiple comparisons was used.||||<0.001
82447372|NCT00462748|164603462|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Hochberg's FDR was used to power the study; the power was based on a two-sided p value of 0.025.|Regression, Logistic|The logistic regression model included terms for treatment and stratum; treatment by stratum interaction was assessed.||Ho is no difference in proportion achieving the target of LDL-C \< 2mmol/l.. 240 patients per group give a power of at least 85% to detect a 15% difference in this proportion, assuming the percentage decrease from baseline in LDL-C was 25% in the E/S group and 15% in the two comparator groups. A two-sided 0.025 test to allow for multiple comparisons was used.||||<0.001
82447373|NCT02428413|164603476|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
82447374|NCT02428413|164603477|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||||||0.26
82447375|NCT02772978|164603493|SUPERIORITY|||||||0.04||||||The threshold for statistical significance was set to p \< 0.05.|Fisher transformation|||The comparison group represents the difference in ICR and the baseline impulsiveness scale, non-planning subscale.||||0.04
82447376|NCT02772978|164603494|SUPERIORITY||||||<|0.05||||||The threshold is set to p \< 0.05, corrected for multiple comparisons.|Fisher transformation|||||||< 0.05
82447377|NCT00727558|164603549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.554|STANDARD_ERROR_OF_MEAN|0.1943||||97.47|0.1721|0.554|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.554|0.1721|
82447378|NCT00727558|164603550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1734|STANDARD_ERROR_OF_MEAN|0.03555||||97.47|-0.1734|-0.1037|||Mixed Models Analysis||Mean difference is narafilcon A minus nelfilcon A|Alternative hypothesis: narafilcon A is superior to nelfilcon A.||-0.1037|-0.1734|
82447379|NCT00727558|164603551|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3968|STANDARD_ERROR_OF_MEAN|0.1548||||98.7|0.04983|0.3968|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.3968|0.04983|
82447380|NCT00727558|164603552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3875|STANDARD_ERROR_OF_MEAN|0.2054||||98.7|0.03714|0.3875|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A.||0.3875|0.03714|
82415106|NCT02965456|164540645|SUPERIORITY|||||||0.007||||||Threshold for significance at 0.05.|Regression, Logistic|||Analysis was performed using a logistic regression test (using Firth's Penalized Likelihood) with factors of treatment group and analysis center.||||0.007
82415107|NCT04465955|164540648|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.4345|TWO_SIDED|95.0|-0.528|0.227|||Random coefficient model|Covariates included terms for time, treatment-by-time interaction, baseline fellow eye CNV status, baseline focality, and baseline GA lesion location||Rate of Change Difference Between NGM621 Q4W and Pooled Sham||0.227|-0.528|0.4345
82415108|NCT04465955|164540648|SUPERIORITY||Mean Difference (Final Values)|-0.155||||0.4217|TWO_SIDED|95.0|-0.536|0.225|||Random coefficient model|Covariates included terms for time, treatment-by-time interaction, baseline fellow eye CNV status, baseline focality, and baseline GA lesion location||Rate of Change Difference Between NGM621 Q8W and Pooled Sham||0.225|-0.536|0.4217
82415109|NCT01327703|164540722|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval (CI) of Panzytrat® versus Kreon® exceeded -10%.|Treatment difference|-2.08||||0.459|TWO_SIDED|95.0|-7.23|4.02||As there was only a single pre-specified primary analysis, there was no adjustment for multiplicity.|Mixed Models Analysis|||Mixed model analysis method was used for comparison using log-transformed percent CFA as the response variable, fixed effect factors for treatment, period, treatment sequence and pooled site and participant within treatment sequence as a random effect.||4.02|-7.23|0.4590
82415110|NCT06042855|164540769|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.89|1.03|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.03|0.89|
82415111|NCT06042855|164540770|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.32|6.38||||||No hypothesis test or decision rule was evaluated.||6.38|0.32|
82415112|NCT06042855|164540773|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.82|1.78|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.78|0.82|
82415113|NCT06042855|164540774|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.66|1.31|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.31|0.66|
82415114|NCT06042855|164540775|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.57|1.41|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.41|0.57|
82415115|NCT06042855|164540776|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.78|1.42|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.42|0.78|
82415116|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Day 7||1.32|0.85|
82415117|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||Day 14||1.28|0.85|
82532710|NCT00932646|164762945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.114|0.176|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.176|0.114|<0.0001
82415118|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.94|1.53||||||Day 28||1.53|0.94|
82415119|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||Day 90||1.48|0.91|
82415120|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.06|1.77||||||Day 120||1.77|1.06|
82415121|NCT06042855|164540777|OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|1.02|1.66||||||Day 180||1.66|1.02|
82415122|NCT06042855|164540778|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.86|1.15||||||Day 7||1.15|0.86|
82415123|NCT06042855|164540778|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.87|1.21||||||Day 14||1.21|0.87|
82415124|NCT06042855|164540778|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.58|0.92||||||Day 28||0.92|0.58|
82415125|NCT06042855|164540778|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.7|1.02||||||Day 90||1.02|0.70|
82415126|NCT06042855|164540778|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.68|0.99||||||Day 120||0.99|0.68|
82415127|NCT06042855|164540778|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||Day 180||1.01|0.70|
82415128|NCT06042855|164540779|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.7|1.06||||||Day 7||1.06|0.70|
82415129|NCT06042855|164540779|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.79|1.14||||||Day 14||1.14|0.79|
82415130|NCT06042855|164540779|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.69|1.1||||||Day 28||1.10|0.69|
82415131|NCT06042855|164540779|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.8|1.25||||||Day 90||1.25|0.80|
82415132|NCT06042855|164540779|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.08||||||Day 120||1.08|0.70|
82415133|NCT06042855|164540779|OTHER||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.66|1.04||||||Day 180||1.04|0.66|
82415134|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.09||||||Day 7||1.09|0.70|
82415135|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.65|0.98||||||Day 14||0.98|0.65|
82415136|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.47|0.85||||||Day 28||0.85|0.47|
82415137|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.7|1.08||||||Day 90||1.08|0.70|
82532711|NCT00932646|164762945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.116|0.179|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.179|0.116|<0.0001
82646917|NCT04440163|165008708|NON_INFERIORITY|95% CI for the difference in percentage of participants was calculated based on Miettinen and Nurminen. If the lower limit of the 2-sided 95% CI for the difference in percentage of participants was \> -10%, the non-inferiority was concluded.|Difference in percentage of participants|0.6|||||TWO_SIDED|95.0|-3.0|5.0||||||MenY||5.0|-3.0|
82646918|NCT02229487|165008709|OTHER|||||||0.209|||||||Wilcoxon (Mann-Whitney)|||||||0.209
82646919|NCT00666718|165008860|NON_INFERIORITY_OR_EQUIVALENCE|"Assuming a drop-out rate after randomization of approximately 15%, the remaining 160 patients in each treatment group should allow confirmation of noninferiority with no true treatment difference and a noninferiority limit of 0.4% using the upper limit of a 2-sided 95% confidence interval (insulin lispro protamine suspension + insulin lispro minus insulin glargine+insulin lispro) at a significance level of 0.025 with 90% power."|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.11|0.31|||ANCOVA|||||0.31|-0.11|
82646920|NCT00666718|165008861|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||p-value is for Week 12 Change.|Mixed Models Analysis|Change from baseline=Treatment+country+baseline HbA1c+week+treatment\*country+treatment\*week+baseline HbA1c\*treatment (unstructured covariance used).||||||0.4580
82646921|NCT00666718|165008861|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||p-value is for Week 24 Change.|Mixed Models Analysis|Change from baseline=Treatment+country+baseline HbA1c+week+treatment\*country+treatment\*week+baseline HbA1c\*treatment (unstructured covariance used).||||||0.1070
82415138|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.62|0.96||||||Day 120||0.96|0.62|
82415139|NCT06042855|164540780|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.61|0.95||||||Day 180||0.95|0.61|
82415140|NCT06042855|164540781|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.83|1.22||||||Day 7||1.22|0.83|
82415141|NCT06042855|164540781|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.76|1.13||||||Day 14||1.13|0.76|
82415142|NCT06042855|164540781|OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.45|0.8||||||Day 28||0.80|0.45|
82646922|NCT00666718|165008862|SUPERIORITY_OR_OTHER|||||||0.1333||95.0||||p-value is for HbA1c \<7.0%.|Fisher Exact|||||||0.1333
82646923|NCT00666718|165008862|SUPERIORITY_OR_OTHER|||||||0.1213||95.0||||p-value is for HbA1c \<=6.5%|Fisher Exact|||||||0.1213
82646924|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37|||||TWO_SIDED|95.0|-0.43|1.17|||Mixed Models Analysis|Morning Pre-Meal measurement = Treatment+country+week+treatment\*country + treatment\*week (unstructured covariance was used)||||1.17|-0.43|
82646925|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26|||||TWO_SIDED|95.0|-0.66|1.19|||Mixed Models Analysis|Morning Postprandial measurement = Treatment +country+week+treatment\*country + treatment\*week (unstructured covariance was used)||||1.19|-0.66|
82646926|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|||||TWO_SIDED|95.0|-1.15|0.57|||Mixed Models Analysis|Midday Pre-Meal measurement = Treatment +country + week +treatment\*country + treatment\*week (unstructured covariance was used).||||0.57|-1.15|
82415143|NCT06042855|164540781|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.59|0.9||||||Day 90||0.90|0.59|
82415144|NCT06042855|164540781|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.97||||||Day 120||0.97|0.61|
82415145|NCT06042855|164540781|OTHER||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.62|0.94||||||Day 180||0.94|0.62|
82415146|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.95|1.43||||||Day 7||1.43|0.95|
82415147|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.87|1.25||||||Day 14||1.25|0.87|
82415148|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.99|1.59||||||Day 28||1.59|0.99|
82415149|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.89|1.35||||||Day 90||1.35|0.89|
82415150|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.98|1.48||||||Day 120||1.48|0.98|
82646927|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|||||TWO_SIDED|95.0|-0.46|1.4|||Mixed Models Analysis|Midday Postprandial measurement = Treatment+country+week+treatment\*country + treatment\*week (unstructured covariance was used).||||1.40|-0.46|
82646928|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|||||TWO_SIDED|95.0|-0.93|0.83|||Mixed Models Analysis|Evening Pre-Meal measurement = Treatment +country+week+treatment\*country + treatment\*week (unstructured covariance was used).||||0.83|-0.93|
82646929|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|0.46|||||TWO_SIDED|95.0|-0.41|1.34|||Mixed Models Analysis|Evening Postprandial measurement = Treatment+country+week +treatment\*country + treatment\*week (unstructured covariance was used).||||1.34|-0.41|
82415151|NCT06042855|164540782|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.96|1.46||||||Day 180||1.46|0.96|
82415152|NCT06042855|164540783|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||Day 7||1.26|0.96|
82415153|NCT06042855|164540783|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.87|1.14||||||Day 14||1.14|0.87|
82415154|NCT06042855|164540783|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||Day 28||1.07|0.81|
82415155|NCT06042855|164540783|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.76|1.07||||||Day 90||1.07|0.76|
82415156|NCT06042855|164540783|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.78|1.06||||||Day 120||1.06|0.78|
82415157|NCT06042855|164540783|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.75|1.04||||||Day 180||1.04|0.75|
82415158|NCT06042855|164540784|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|0.03|||||TWO_SIDED|95.0|-0.21|0.28|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.28|-0.21|
82646930|NCT00666718|165008863|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|||||TWO_SIDED|95.0|-0.67|0.96|||Mixed Models Analysis|0300 Hours measurement = Treatment+country+week+treatment\*country+treatment\*week (unstructured covariance was used).||||0.96|-0.67|
82646931|NCT00666718|165008864|SUPERIORITY_OR_OTHER|||||||0.5568||95.0||||p-value is for Fasting.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.5568
82646932|NCT00666718|165008864|SUPERIORITY_OR_OTHER|||||||0.7523||95.0||||p-value is for Post-breakfast.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.7523
82646933|NCT00666718|165008864|SUPERIORITY_OR_OTHER|||||||0.6448||95.0||||p-value is for Post-lunch.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+treatment\*country (Mediterranean, rest of Europe)||||||0.6448
82415159|NCT06042855|164540785|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimate time unwell|-0.04|||||TWO_SIDED|95.0|-0.34|0.26|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.26|-0.34|
82415160|NCT06038643|164540811|OTHER||||||<|0.001||||||Adjusted for multiple comparisons using False Discovery Rate.|Wilcoxon (Mann-Whitney)|||||||<0.001
82415161|NCT06038643|164540814|SUPERIORITY||||||<|0.01|||||||ANCOVA|||We conducted one-way analyses of covariance (ANCOVAs) to assess the effect of group (intervention vs. control) on post-intervention secondary outcomes, including cognition (Test My Brain Digital Neuropsychology Toolkit). Covariates in all models included age, sex, years of education, APOE4 status, and baseline scores.||||<0.01
82415162|NCT05710224|164540828|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.87|||<|0.001|TWO_SIDED|95.0|0.76|0.99||p-value, GMT Ratio, and CI are calculated using t-distribution with the variance estimate from serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-1 GMT Ratio (V181/Butantan - DV)||0.99|0.76|<0.001
82415163|NCT05710224|164540828|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|7.1|||<|0.001|TWO_SIDED|95.0|6.03|8.35||p-value, GMT ratio, and CI are calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-2 GMT Ratio (V181 / Butantan - DV)||8.35|6.03|<0.001
82415164|NCT05710224|164540828|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.45||||1|TWO_SIDED|95.0|0.39|0.53||p-value, GMT ratio, and CI were calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t- distribution|||DENV-3 GMT Ratio (V181 / Butantan - DV)||0.53|0.39|1.000
82415165|NCT05710224|164540828|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the GMT Ratio (V181 / Butantan - DV) to be \>0.67.|GMT Ratio|0.35||||1|TWO_SIDED|95.0|0.29|0.42||p-value, GMT ratio, and CI were calculated using the t-distribution with the variance estimate from a serotype specific linear model utilizing the natural log-transformed antibody titers as the response and a single term for vaccination group.|t-distribution|||DENV-4 GMT Ratio (V181 / Butantan - DV)||0.42|0.29|1.000
82447381|NCT00727558|164603553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6735|STANDARD_ERROR_OF_MEAN|0.1563||||98.7|0.213|0.6735|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.6735|0.213|
82532712|NCT00932646|164762945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.125|0.187|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.187|0.125|<0.0001
82415166|NCT05710224|164540829|NON_INFERIORITY|The statistical criterion for non-inferiority required the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan-DV) to be \>-10 percentage points|Difference in Percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.8|1.3||p-value, estimated difference in percentage, and CI were calculated using the unstratified Miettinen \& Nurminen method|Miettinen & Nurminen method|||DENV-1 Difference in percentage (V181 - Butantan-DV)||1.3|-1.8|<0.001
82415167|NCT05710224|164540829|NON_INFERIORITY|The statistical criterion for non-inferiority required the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan - DV) to be \>-10 percentage points.|Difference in Percentage|15.0|||<|0.001|TWO_SIDED|95.0|12.0|18.5||p-value, estimated difference in percentage, and CI were calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-2 Difference in Percentage (V181 - Butantan-DV)||18.5|12.0|<0.001
82415168|NCT05710224|164540829|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan-DV) to be \>-10 percentage points.|Difference in percentage|-3.5|||<|0.001|TWO_SIDED|95.0|-5.8|-1.6||p-value, estimated difference in percentage, and CI are calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-3 Difference in Percentage (V181 - Butantan-DV)||-1.6|-5.8|<0.001
82532713|NCT00932646|164762946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.149|0.223|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.223|0.149|<0.0001
82532714|NCT00932646|164762946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.162|0.235|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.235|0.162|<0.0001
82415169|NCT05710224|164540829|NON_INFERIORITY|The statistical criterion for non-inferiority requires the lower bound of the 2-sided 95% CI for the difference in percentages (V181 - Butantan - DV) to be \>-10 percentage points.|Difference in Percentage|-3.6|||<|0.001|TWO_SIDED|95.0|-6.7|-0.8||p-value, estimated difference in percentage, and CI are calculated using the unstratified Miettinen \& Nurminen method.|Miettinen & Nurminen method|||DENV-4 Difference in Percentage (V181 - Butantan - DV)||-0.8|-6.7|<0.001
82415170|NCT05710224|164540831|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in percentage|4.2|||||TWO_SIDED|95.0|1.4|7.2||||||Erythema: Difference in Percentage (V181-Butantan - DV)||7.2|1.4|
82415171|NCT05710224|164540831|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-0.2|||||TWO_SIDED|95.0|-4.3|3.9||||||Pain: Difference in Percentage (V181 - Butantan - DV).||3.9|-4.3|
82447382|NCT00727558|164603554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.1648||||98.7|-0.2375|0.132|||Mixed Models Analysis||Mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A||0.132|-0.2375|
82532715|NCT00932646|164762946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.176|0.25|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.250|0.176|<0.0001
82532716|NCT00932646|164762947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.154|0.23|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.230|0.154|<0.0001
82415172|NCT05710224|164540831|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|0.6|||||TWO_SIDED|95.0|-1.1|2.3||||||Swelling: Difference in Percentage (V181 - Butantan - DV)||2.3|-1.1|
82532717|NCT00932646|164762947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.197|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.158|0.235|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.235|0.158|<0.0001
82532718|NCT00932646|164762947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.178|0.255|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.255|0.178|<0.0001
82576503|NCT03939689|164862797|SUPERIORITY|||||||0.5924||||||Log-rank test of no difference between treatment groups, stratified by prostate cancer risk groups.|Log Rank|||Kaplan-Meier analysis and Greenwood formula used for estimating event-free rates and 95% confidence intervals.||||0.5924
82415173|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in percentage|-1.1|||||TWO_SIDED|95.0|-5.5|3.3||||||Arthralgia: Difference in Percentage (V181 - Butantan - DV)||3.3|-5.5|
82415174|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-2.2|||||TWO_SIDED|95.0|-7.5|3.1||||||Fatigue: Difference in Percentage (V181 - Butantan - DV)||3.1|-7.5|
82415175|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-3.1|||||TWO_SIDED|95.0|-8.2|1.9||||||Headache: Difference in Percentage (V181 - Butantan - DV)||1.9|-8.2|
82415176|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-7.9|||||TWO_SIDED|95.0|-13.1|-2.7||||||Myalgia: Difference in Percentage (V181 - Butantan - DV)||-2.7|-13.1|
82415177|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI are calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|-5.2|||||TWO_SIDED|95.0|-8.2|-2.3||||||Pyrexia: Difference in Percentage (V181 - Butantan - DV)||-2.3|-8.2|
82447383|NCT00727558|164603555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2469|STANDARD_ERROR_OF_MEAN|0.04448||||97.47|-0.2469|-0.1599|||Mixed Models Analysis||The mean difference is narafilcon A minus nelfilcon A.|Alternative hypothesis: narafilcon A is superior to nelfilcon A by having a lower level of inferior region corneal staining||-0.1599|-0.2469|
82532719|NCT00932646|164762948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.026||0.0003||95.0|0.045|0.148|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.148|0.045|0.0003
82532720|NCT00932646|164762948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.026||0.0001||95.0|0.051|0.155|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.155|0.051|0.0001
82415178|NCT05710224|164540832|OTHER|Estimated difference in percentage and CI were calculated using the unstratified Miettinen \& Nurminen method.|Difference in Percentage|6.9|||||TWO_SIDED|95.0|1.9|11.8||||||Rash: Difference in Percentage (V181 - Butantan - DV)||11.8|1.9|
82415179|NCT06375655|164540863|OTHER||Odds Ratio (OR)|0.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
82415180|NCT06375655|164540864|SUPERIORITY||Odds Ratio (OR)|1.901509||||0.5007|TWO_SIDED|95.0|0.41|10.25|||Fisher Exact|||This analysis did not power the study||10.25|0.41|0.5007
82415181|NCT06375655|164540865|SUPERIORITY||Odds Ratio (OR)|4.43||||0.3497|TWO_SIDED|95.0|0.3986|232.3218|||Fisher Exact|||||232.3218|0.3986|0.3497
82415182|NCT06375655|164540866|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.7
82447384|NCT03281304|164603561|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|0.5|25.0||||||Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.0|0.5|
82532721|NCT00932646|164762948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.026||0.0026||95.0|0.028|0.132|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.132|0.028|0.0026
82415183|NCT06375655|164540867|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.2302|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 1 month|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.2302
82415184|NCT06375655|164540867|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.3|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 3 months|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.3
82415185|NCT06375655|164540867|SUPERIORITY||Odds Ratio (OR)|0.6909776||||0.3|TWO_SIDED|95.0|0.4025454|1.1860776||Value at 6 months|Cochran-Mantel-Haenszel|||||1.1860776|0.4025454|0.3
82415186|NCT06375655|164540868|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.01692|TWO_SIDED|95.0|1.253958|5.929833||Value at 1 month postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.01692
82415187|NCT06375655|164540868|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.7|TWO_SIDED|95.0|1.253958|5.929833||Value at 2 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.7
82532722|NCT00932646|164762949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.195|0.306|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.306|0.195|<0.0001
82532723|NCT00932646|164762949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.246|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.19|0.302|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.302|0.190|<0.0001
82447385|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-7.5|13.4||||||Month 1: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.4|-7.5|
82447386|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|0.1|22.8||||||Month 3: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.8|0.1|
82415188|NCT06375655|164540868|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.3|TWO_SIDED|95.0|1.253958|5.929833||Value at 3 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.3
82415189|NCT06375655|164540868|SUPERIORITY||Odds Ratio (OR)|2.726859||||0.15|TWO_SIDED|95.0|1.253958|5.929833||Value at 6 months postpartum|Cochran-Mantel-Haenszel|||||5.929833|1.253958|0.15
82415190|NCT03837938|164540881|NON_INFERIORITY|According to the protocol and SAP non-inferiority margin was defined as 20%.|Difference in rates Levopront®-Libexin®|5.81|||||ONE_SIDED|97.5|-7.17|||||||Difference in daytime resolved rates Levopront® (Test) vs Libexin® (Control) was reported|||-7.17|
82415191|NCT03837938|164540882|NON_INFERIORITY|According to the protocol and SAP non-inferiority margin was defined as 20%|difference in rates Levopront®-Libexin®|5.43|||||ONE_SIDED|97.5|-7.31|||||||Difference in daytime resolved rates Levopront® (Test) vs Libexin® (Control) was reported|||-7.31|
82415192|NCT03837938|164540883|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||>|0.999|||||||Fisher Exact|||||||>0.999
82415193|NCT03837938|164540884|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||=|0.861|||||||Fisher Exact|||||||=0.861
82415194|NCT03837938|164540885|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Daytime at Visit 2, Day 4||||<0.001
82415195|NCT03837938|164540885|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 2 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Daytime at Visit 3, Day 8||||<0.001
82447387|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|2.9|25.2||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.2|2.9|
82415196|NCT03837938|164540885|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Nightime at Visit 2, Day 4||||<0.001
82415197|NCT03837938|164540885|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Nighttime at Visit 3, Day 8||||<0.001
82415198|NCT03837938|164540886|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||Visit 2, Day 4||||<0.001
82415199|NCT03837938|164540886|NON_INFERIORITY|non-inferiority margin was defined as 20%|||||<|0.001|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||at Visit 3, Day 8||||<0.001
82415200|NCT03837938|164540887|NON_INFERIORITY|non-inferiority margin is defined as 20%|||||=|0.336|||||||t-test, 1 sided|Between groups change was tested using two sample t-test (normal data) or Mann-Whitney test (violation of normality).||||||=0.336
82415201|NCT01121575|164540921|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|69.25|||||TWO_SIDED|90.0|54.22|88.44|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib AUClast for participants who had both Day -1 and C2D1 data. Result for the analysis of AUClast was based on data from 11 participants. No statistical analysis was performed for PF-06260182.||88.44|54.22|
82415202|NCT01121575|164540922|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|78.84|||||TWO_SIDED|90.0|58.9|105.54|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib AUC10 for participants who had both Day -1 and C2D1 data. Result for the analysis of AUC10 was based on data from 6 participants. No statistical analysis was performed for PF-06260182.||105.54|58.90|
82415203|NCT01121575|164540924|SUPERIORITY_OR_OTHER||Ration of adjust geometric mean|70.6|||||TWO_SIDED|90.0|54.71|91.12|||||Ratio of crizotinib + dacomitinib / crizotinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for crizotinib Cmax for participants who had both Day -1 and C2D1 data. Result for the analysis of Cmax was based on data from 11 participants. No statistical analysis was performed for PF-06260182.||91.12|54.71|
82415204|NCT01121575|164540927|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|117.81|||||TWO_SIDED|90.0|64.97|213.61|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib AUClast for participants who had both Day -1 and C2D1 data. Result for the analysis of AUClast was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||213.61|64.97|
82415205|NCT01121575|164540928|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|121.9|||||TWO_SIDED|90.0|70.2|211.66|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib AUC24 for participants who had both Day -1 and C2D1 data. Result for the analysis of AUC24 was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||211.66|70.20|
82447388|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|8.0|31.8||||||Month 9: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||31.8|8.0|
82447389|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|2.2|28.7||||||Month 12: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.7|2.2|
82447390|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|0.0|27.9||||||Month 15: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||27.9|0.0|
82447391|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|-0.7|28.5||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.5|-0.7|
82415206|NCT01121575|164540930|SUPERIORITY_OR_OTHER||Ratio of adjust geometric mean|130.57|||||TWO_SIDED|90.0|82.46|206.73|||||Ratio of crizotinib + dacomitinib / dacomitinib alone adjust geometric mean was analyzed using the mixed effect model and displayed as percentage.|Statistical analysis was performed for dacomitinib Cmax for participants who had both Day -1 and C2D1 data. Result for the analysis of Cmax was based on data from 3 participants. No statistical analysis was performed for PF-05199265.||206.73|82.46|
82415207|NCT00835978|164541004|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.578||||0.0189|TWO_SIDED|95.0|1.017|2.448||A priori defined threshold for statistical significance was: alpha=0.10 (one-sided)|Cochran-Mantel-Haenszel|||ORR for the 2 treatment arms was compared with the Cochran-Mantel-Haenszel test stratified by ECOG performance status. The relative risk ratio estimator was used to contrast the treatment effects on the endpoint. Both a point estimate and a 2-sided 95% CI were calculated using a normal approximation.||2.448|1.017|0.0189
82415208|NCT00835978|164541005|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.849||||0.2444|TWO_SIDED|95.0|0.535|1.348|||Log Rank|||||1.348|0.535|0.2444
82415209|NCT03083379|164541023|EQUIVALENCE|Equivalency is defined as no statistically significant difference in dorsal region redistribution of ventilation following breath cycle 1, 2, and 3 lung expansion therapy sequences.||||||0.9|||||||Mann-Whitney U test|||||||.90
82415210|NCT02400736|164541024|SUPERIORITY|"Proportion of steady workers in each group was analyzed using a logistic regression model to calculate an odds ratio and 95% Confidence Interval. Adhering to the principle of intent-to-treat, participants were retained in the arm to which they were randomized for the 12-month follow-up period despite discontinuing the treatment intervention or exiting the study early. Missing data was counted as not worked."|Odds Ratio (OR)|2.49||||0.02|TWO_SIDED|95.0|1.14|5.43||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Chi-squared|||Using SamplePower 3.0 to estimate the statistical power, the target sample size of 120 (60 per group) provided 84% power to detect a 25% or greater absolute difference between groups in the percent of participants achieving 'steady worker' status (e.g., 40% in IPS vs. 15% in control arm), at the .05 level of significance, assuming a 10% attrition.||5.43|1.14|0.02
82415211|NCT02400736|164541025|SUPERIORITY|Intent to treat analysis.||||||0.003||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||Total mean time worked was compared using an analysis of variance (ANOVA).||||0.003
82415212|NCT02400736|164541026|SUPERIORITY|||||||0.005||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|||intent to treat analysis||||0.005
82415213|NCT02400736|164541027|SUPERIORITY|a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.||||||0.033|||||||t-test, 2 sided|||||||0.033
82532724|NCT00932646|164762949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.235|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.179|0.291|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.291|0.179|<0.0001
82532725|NCT00932646|164762950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.101|0.222|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.222|0.101|<0.0001
82415214|NCT02400736|164541028|SUPERIORITY|||||||0.853||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|Effect of treatment on outcome was analyzed using longitudinal mixed-effects regression model.Group by time interaction tested for treatment effect.||||||0.853
82415215|NCT02400736|164541029|SUPERIORITY|a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.||||||0.004|||||||t-test, 2 sided|||||||0.004
82415216|NCT02400736|164541030|SUPERIORITY|||||||0.47||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Mixed Models Analysis|Effect of treatment on outcome was analyzed using longitudinal mixed-effects regression model.Group by time interaction tested for treatment effect.||The effect of treatment on each of secondary outcome measures were analyzed using a longitudinal mixed-effects regression model. The group by time interaction tested for the treatment effect.||||0.47
82415217|NCT02400736|164541031|SUPERIORITY|||||||0.062||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.062
82415218|NCT02400736|164541032|SUPERIORITY||||||>|0.3||||||a priori threshold for statistical significance p \</= 0.05 or lower. No adjustments were made for multiple comparisons.|ANOVA|||||||>0.3
82415219|NCT02400736|164541033|SUPERIORITY|||||||0.001||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.001
82415220|NCT02400736|164541034|SUPERIORITY|||||||0.006||||||a priori threshold for statistical significance p \</=0.05; not adjusted for multiple comparisons.|Chi-squared|||||||0.006
82415221|NCT01363440|164541042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.19|||<|0.0001|TWO_SIDED|97.5|9.35|15.04|||ANCOVA|||||15.04|9.35|<.0001
82415222|NCT01363440|164541042|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.45|||<|0.0001|TWO_SIDED|97.5|7.73|13.17|||ANCOVA|||||13.17|7.73|<.0001
82415223|NCT01363440|164541043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.9||||0.0001|TWO_SIDED|97.5|34.7|57.0|||Cochran-Mantel-Haenszel|||||57.0|34.7|.0001
82415224|NCT01363440|164541043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.8||||0.0001|TWO_SIDED|97.5|27.2|50.3|||Cochran-Mantel-Haenszel|||||50.3|27.2|.0001
82415225|NCT01363440|164541044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.2|||<|0.0001|TWO_SIDED|97.5|24.1|44.4|||Cochran-Mantel-Haenszel|||||44.4|24.1|<0.0001
82415226|NCT01363440|164541044|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.3|||<|0.0001|TWO_SIDED|97.5|13.5|33.1|||Cochran-Mantel-Haenszel|||||33.1|13.5|<.0001
82415227|NCT01363440|164541045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.7|||<|0.0001|TWO_SIDED|97.5|9.0|30.4|||Cochran-Mantel-Haenszel|||||30.4|9.0|<.0001
82415228|NCT01363440|164541045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.9||||0.0017|TWO_SIDED|97.5|4.4|25.4|||Cochran-Mantel-Haenszel|||||25.4|4.4|0.0017
82532726|NCT00932646|164762950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.096|0.218|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.218|0.096|<0.0001
82576504|NCT03939689|164862798|SUPERIORITY|||||||0.6199||||||P value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event-free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||0.6199
82646934|NCT00666718|165008864|SUPERIORITY_OR_OTHER|||||||0.9122||95.0||||p-value is for Post-dinner.|ANCOVA|Glycemic variability = Treatment+country grouping (Mediterranean, rest of Europe)+ treatment\*country (Mediterranean, rest of Europe)||||||0.9122
82646935|NCT00666718|165008865|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|||||TWO_SIDED|95.0|-1.19|0.12|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.12|-1.19|
82646936|NCT00666718|165008865|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.2|0.11|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.11|-0.20|
82415229|NCT01363440|164541046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-110.8|||<|0.0001|TWO_SIDED|97.5|-141.3|-80.22|||ANCOVA|||||-80.22|-141.3|<.0001
82415230|NCT01363440|164541046|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-113.5|||<|0.0001|TWO_SIDED|97.5|-144.2|-82.75|||ANCOVA|||||-82.75|-144.2|<.0001
82415231|NCT01363440|164541047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.19||||0.0168||97.5|0.33|10.04|||ANCOVA|||||10.04|0.33|0.0168
82415232|NCT01363440|164541047|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.36||||0.0323|TWO_SIDED|97.5|-0.21|8.93|||ANCOVA|||||8.93|-0.21|0.0323
82415233|NCT01363440|164541048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.86||||0.1702|TWO_SIDED|97.5|-1.82|7.54|||ANCOVA|||||7.54|-1.82|0.1702
82415234|NCT01363440|164541048|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||0.4067|TWO_SIDED|97.5|-2.83|6.13|||ANCOVA|||||6.13|-2.83|0.4067
82415235|NCT00923702|164541099|NON_INFERIORITY|To test for non-inferiority of antibody concentrations in different dose groups, log-transformed mean MFIs in linear regression models were used to obtain MFI ratios and their corresponding 95% confidence intervals (CIs). Antibody titres at months 0, 7, 12, 36 and 48 were compared and non-inferiority was inferred when the lower bound of the confidence interval of the ratio of the immunogenicity measures exceeded 0.5.|Risk Ratio (RR)|0.5|||||ONE_SIDED||||||Regression, Linear||The lower bound of the 95% CI ratio of immunogeneicity measures was used instead. No p-values were estimated.|||||
82415236|NCT00923702|164541100|SUPERIORITY||Vaccine efficacy|95.0|||||TWO_SIDED|||||||||||||
82415237|NCT01086475|164541104|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
82415238|NCT01086475|164541105|SUPERIORITY_OR_OTHER|||||||0.927|||||||Chi-squared|||||||0.927
82415239|NCT01086475|164541106|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||t-test, 2 sided|||||||0.048
82415240|NCT00827242|164541120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.66||0.004||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.004
82415241|NCT00827242|164541121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.26||0.029||95.0||||The p-value associates with LS Mean difference of changes from baseline to 4 weeks between treatment groups for BII. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.029
82415242|NCT00827242|164541122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.057||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for BII. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.057
82415243|NCT00827242|164541123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.002||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS storage subscore. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.002
82415244|NCT00827242|164541124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.43||0.02||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS voiding subscore. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.020
82415245|NCT00827242|164541125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.233||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS nocturia question. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.233
82415246|NCT00827242|164541126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.013||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IPSS QoL Index. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.013
82415247|NCT00827242|164541127|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||The p-value associates with difference between treatment groups for the 7 response categories.|Cochran-Mantel-Haenszel|Results were adjusted for baseline LUTS severity (moderate \[total IPSS \< 20\]; severe \[total IPSS \>= 20\]||||||0.021
82415248|NCT00827242|164541128|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||The p-value associates with difference between treatment groups for the 7 response categories.|Cochran-Mantel-Haenszel|Results were adjusted for baseline LUTS severity (moderate \[total IPSS \< 20\]; severe \[total IPSS \>= 20\]||||||0.009
82415249|NCT00827242|164541129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.49||0.146||95.0||||The p-value associates with LS Mean difference of changes from baseline to 1 week between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.146
82447392|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|7.1|||||TWO_SIDED|95.0|-8.0|21.9||||||Month 21: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||21.9|-8.0|
82646937|NCT00666718|165008865|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|||||TWO_SIDED|95.0|-1.06|0.16|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.16|-1.06|
82532727|NCT00932646|164762950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.162|0.284|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.284|0.162|<0.0001
82532728|NCT00932646|164762951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.155|0.258|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.258|0.155|<0.0001
82532729|NCT00932646|164762951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.15|0.255|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.255|0.150|<0.0001
82532730|NCT00932646|164762951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.176|0.281|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.281|0.176|<0.0001
82532731|NCT00932646|164762952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.233|0.365|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.365|0.233|<0.0001
82532732|NCT00932646|164762952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.236|0.369|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.369|0.236|<0.0001
82532733|NCT00932646|164762952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.338|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.271|0.405|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.405|0.271|<0.0001
82532734|NCT00932646|164762953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.055||0.0163||95.0|0.024|0.239|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.239|0.024|0.0163
82532735|NCT00932646|164762953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.055||0.0118||95.0|0.031|0.247|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.247|0.031|0.0118
82532736|NCT00932646|164762953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.055||0.0076||95.0|0.04|0.256|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.256|0.040|0.0076
82532737|NCT00932646|164762954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.082|0.154|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.154|0.082|<0.0001
82646938|NCT00666718|165008865|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-0.86|0.06|||Mixed Models Analysis|Hypoglycemia rate per 30 days = Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.06|-0.86|
82415250|NCT00827242|164541130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.003||95.0||||The p-value associates with LS Mean difference of changes from baseline to 4 weeks between treatment groups for IPSS. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||0.003
82532738|NCT00932646|164762954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.084|0.157|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.157|0.084|<0.0001
82532739|NCT00932646|164762954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.119|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.119|<0.0001
82415251|NCT00827242|164541131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001||95.0||||The p-value associates with LS Mean difference of changes from baseline to 12 weeks between treatment groups for IIEF-EF domain score. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ANCOVA|||||||<0.001
82415252|NCT00827242|164541132|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The p-value associates with mean difference of changes from baseline to 12 weeks between treatment groups for Qmax. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ranked ANOVA|||||||0.300
82532740|NCT02611830|164762956|SUPERIORITY||Risk Difference (RD)|32.3|||<|0.001|TWO_SIDED|95.0|19.7|45.0||P-value was calculated by Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||45.0|19.7|<0.001
82532741|NCT02611830|164762957|SUPERIORITY||Risk Difference (RD)|35.7|||<|0.001|TWO_SIDED|95.0|22.1|49.3||P-value was calculated by CMH test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||49.3|22.1|<0.001
82532742|NCT02611830|164762958|SUPERIORITY||Risk Difference (RD)|36.1|||<|0.001|TWO_SIDED|95.0|21.2|50.9||P-value was calculated by CMH test stratified by randomization strata according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-α antagonist failure/concomitant immunomodulator.|Cochran-Mantel-Haenszel|||||50.9|21.2|<0.001
82646939|NCT00666718|165008865|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.14|0.12|||Mixed Models Analysis|Hypoglycemia rate per 30 days=Treatment+Country+Week+Treatment\*Country+Treatment\*Week (unstructured covariance structure was used)||||0.12|-0.14|
82646940|NCT00666718|165008866|SUPERIORITY_OR_OTHER|||||||0.1701||95.0||||p-value is for \>=1 hypoglycemic episode.|Fisher Exact|||||||0.1701
82532743|NCT02611830|164762959|SUPERIORITY||Risk Difference (RD)|9.7||||0.076|TWO_SIDED|95.0|-6.6|25.7||P-value was calculated by Fisher's Exact Test.|Fisher Exact|||||25.7|-6.6|0.076
82646941|NCT00666718|165008866|SUPERIORITY_OR_OTHER|||||||0.1727||95.0||||p-value is for \>=1 nocturnal hypoglycemic episode.|Fisher Exact|||||||0.1727
82646942|NCT00666718|165008866|SUPERIORITY_OR_OTHER|||||||0.2094||95.0||||p-value is for \>=1 non-nocturnal hypoglycemic episode.|Fisher Exact|||||||0.2094
82646943|NCT00666718|165008866|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||p-value is for \>=1 severe hypoglycemic episode.|Fisher Exact|||||||0.6230
82646944|NCT00666718|165008868|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|||||TWO_SIDED|95.0|-0.86|0.55|||ANCOVA|weight change from baseline = Treatment + country + baseline Hb1Ac + baseline weight + treatment\*HbA1c baseline value||||0.55|-0.86|
82646945|NCT00666718|165008869|SUPERIORITY_OR_OTHER||LS Mean Difference|2.18|||||TWO_SIDED|95.0|-8.33|12.68|||Mixed Models Analysis|Total daily insulin dose=Treatment+country+week+treatment\*country+ treatment\*week (unstructured covariance was used).||||12.68|-8.33|
82646946|NCT01032330|165008888|SUPERIORITY||Risk Difference (RD)|0.054||||0.004|ONE_SIDED|95.0|0.02||||One-sided Barnard's Test||||||0.020|0.004
82415253|NCT00827242|164541135|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||The p-value associates with mean difference of changes from baseline to 12 weeks between treatment groups for PVR volume. Under the pre-specified fixed sequence testing procedure, the significance level of 0.05 is used for assessment.|ranked ANOVA|||||||0.500
82415254|NCT00997126|164541189|SUPERIORITY_OR_OTHER|||||||0.657|||||||Chi-squared|||||||0.657
82415255|NCT00471107|164541190|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||Power analysis was based on WMS-III Word Lists performance. With an effect comparable to the effect on verbal fluency in an earlier study of left frontal TDCS in healthy subjects, it would require 10 subjects per group (30 total) for a significance level of 0.05 and 80% power.||||>0.05
82532744|NCT02611830|164762960|SUPERIORITY||Risk Difference (RD)|20.6||||0.067|TWO_SIDED|95.0|-4.5|43.7||P-value was calculated by Fisher's Exact Test.|Fisher Exact|||||43.7|-4.5|0.067
82646947|NCT01032330|165008889|OTHER||cumulative probability|0.15|||||TWO_SIDED|95.0|0.1|0.22|||||Kaplan-Meier estimate of cumulative probability of deterioration by 3 years|||.22|.10|
82646948|NCT01032330|165008890|SUPERIORITY||Risk Difference (RD)|0.024||||0.27|TWO_SIDED|95.0|-0.038|0.094|||One-sided Barnard's Test|||||0.094|-0.038|0.27
82646949|NCT01032330|165008892|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 years. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
82646950|NCT01032330|165008893|OTHER|||||||0.38|||||||ANCOVA|||Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome; P values for comparisons of binary outcomes are from logistic regression models adjusting for the baseline level of the outcome.||||0.38
82646951|NCT01032330|165008894|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 years. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
82415256|NCT05259033|164541221|SUPERIORITY|Responses were analysed using an analysis of covariance (ANCOVA) model with region and randomised treatment as fixed factors and baseline HbA1c as covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.|Estimated treatment difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.33|||ANCOVA|||Treatment policy strategy||-0.33|-0.56|<0.0001
82415257|NCT04337021|164541242|SUPERIORITY|||||||0.513|||||||Chi-squared|||There were no statistical differences between the two treatment groups (chi-square=0.43, p=0.513)||||0.513
82415258|NCT04337021|164541243|SUPERIORITY|||||||0.184|||||||Mixed Models Analysis|||||||.184
82415259|NCT04337021|164541244|SUPERIORITY|||||||0.525|||||||Chi-squared|||||||0.525
82415260|NCT04337021|164541245|SUPERIORITY|||||||0.723|||||||Chi-squared|||||||0.723
82415261|NCT04337021|164541246|SUPERIORITY|||||||0.569|||||||Chi-squared|||||||0.569
82415262|NCT01405911|164541247|OTHER||Difference in Least Squares Means|-7.11|||<|0.001|TWO_SIDED|95.0|-9.85|-4.36|||Constrained Longitudinal Data Analysis|||||-4.36|-9.85|<0.001
82576505|NCT03939689|164862799|SUPERIORITY|||||||0.1823||||||P-value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||.1823
82646952|NCT01032330|165008895|OTHER|||||||0.09|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.09
82646953|NCT01032330|165008895|OTHER|||||||0.02|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.02
82646954|NCT01032330|165008896|OTHER||||||<|0.001|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||<.001
82646955|NCT01032330|165008896|OTHER|||||||0.33|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.33
82646956|NCT01032330|165008897|OTHER|||||||0.013|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.013
82646957|NCT01032330|165008897|OTHER|||||||0.26|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.26
82646958|NCT01032330|165008898|OTHER|||||||0.42|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.42
82646959|NCT01032330|165008898|OTHER|||||||0.61|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.61
82415263|NCT01405911|164541247|OTHER||Difference in Least Squares Means|-9.08|||<|0.001|TWO_SIDED|95.0|-11.82|-6.33|||Constrained Longitudinal Data Analysis|||||-6.33|-11.82|<0.001
82415264|NCT01405911|164541247|OTHER||Difference in Least Squares Means|-1.97||||0.143|TWO_SIDED|95.0|-4.61|0.67|||Constrained Longitudinal Data Analysis|||||0.67|-4.61|0.143
82532745|NCT01671748|164762974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4||||0.565|TWO_SIDED|95.0|-33.4|18.6||ANCOVA was used to analyse differences between the NLFU+SOC and SOC arms of the primary endpoint, percentage change in wound area from baseline (week 5) to final visit (week 13). Patients' baseline (week 5) wound area was used as the covariate.|ANCOVA|||The study was powered to detect a difference in the change in wound area of 20% between the two arms with a two sided significance level and power of 90%. A standard deviation of 17.5% came from published literature. A minimum of 17 patients in each arm was required.||18.6|-33.4|0.565
82415265|NCT01405911|164541248|OTHER||Difference in Least Squares Means|-17.7|||<|0.001|TWO_SIDED|95.0|-21.55|-13.86|||Constrained Longitudinal Data Analysis|||||-13.86|-21.55|<0.001
82415266|NCT01405911|164541248|OTHER||Difference in Least Squares Means|-16.41|||<|0.001|TWO_SIDED|95.0|-20.32|-12.5|||Constrained Longitudinal Data Analysis|||||-12.50|-20.32|<0.001
82415267|NCT01405911|164541248|OTHER||Difference in Least Squares Means|1.3||||0.469|TWO_SIDED|95.0|-2.22|4.82|||Constrained Longitudinal Data Analysis|||||4.82|-2.22|0.469
82415268|NCT01181479|164541252|EQUIVALENCE|Comparison of AG200-15 and Lessina for cycles 1-6.||||||0.067|||||||Chi-squared|||||||0.067
82415269|NCT00002874|164541264|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.02|TWO_SIDED|95.0|0.59|0.98||One-sided significance level = 0.046 to preserve overall significance level of 0.05 for the study.|Log Rank||Stratifying variables were fixed covariates: prior hormone therapy (yes/no), entry prostate-specific antigen (PSA) (1.6-4.0 vs. 0.2-1.5), PSA nadir after surgery (\< 0.5 vs. \>= 0.5), positive surgical margins (yes/no). Reference level = placebo arm.|||0.98|0.59|0.020
82415270|NCT00002874|164541265|SUPERIORITY||Cox Proportional Hazard|1.1||||0.289|TWO_SIDED|95.0|0.79|1.53|||Gray's test|One-sided test|||Reference level = placebo arm|1.53|0.79|0.289
82415271|NCT00002874|164541266|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.4|0.58|||Gray's test|One-sided test|Reference level = placebo arm|||0.58|0.40|<0.001
82415272|NCT00002874|164541267|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.213|TWO_SIDED|95.0|0.85|1.46|||Gray's test|One-sided test|Reference level = placebo arm|||1.46|0.85|0.213
82415273|NCT00002874|164541268|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82415274|NCT00002874|164541269|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.002|TWO_SIDED|95.0|0.46|0.87|||Gray's test|One-sided test|Reference level = placebo arm|||0.87|0.46|0.002
82415275|NCT00002874|164541270|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.32|0.74|||Gray's test|One-sided test|Reference level = placebo arm|||0.74|0.32|<0.001
82415276|NCT00002874|164541271|SUPERIORITY||Cox Proportional Hazard|0.6|||<|0.001|TWO_SIDED|95.0|0.5|0.71|||Log Rank|One-side test|||Reference level = placebo arm|0.71|0.50|< 0.001
82415277|NCT00002874|164541272|SUPERIORITY|||||||0.06|||||||Chi-squared|||Acute radiotherapy toxicity||||0.060
82415278|NCT00002874|164541272|SUPERIORITY|||||||0.029|||||||Chi-squared|||Hormone therapy and late radiotherapy toxicity||||0.029
82415279|NCT00504309|164541292|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|Tukey p-values were used for post hoc comparisons.||Fasting triglycerides (mg/dL) were measured on two consecutive days and averaged for analysis at the end of each treatment period. The null hypothesis was that triglycerides did not differ between groups.||||0.002
82415280|NCT00504309|164541292|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Mixed Models Analysis|||Cholesterol values were compared as the average of two fasting values at the end of each treatment. Cholesterol values included LDL-C, HDL-C, total cholesterol, and calculated ratios.||||> 0.05
82415281|NCT03345095|164541307|SUPERIORITY||Mean Difference (Net)|-6.4||||0.0004|TWO_SIDED|95.0|-8.6|-2.5|||Wilcoxon (Mann-Whitney)|||||-2.5|-8.6|0.0004
82415282|NCT03345095|164541308|SUPERIORITY||Mean Difference (Net)|-0.55||||0.15|TWO_SIDED|95.0|-1.27|0.16|||Wilcoxon (Mann-Whitney)|||||0.16|-1.27|0.15
82415283|NCT03158311|164541309|NON_INFERIORITY|Non-inferiority margin: 0.25 points|Least Square mean (LS Mean)|-0.038|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|ONE_SIDED|97.5|-0.139|||P-Value is one-sided|Mixed Model for Repeated Measures (MMRM)||||||-0.139|<0.001
82415284|NCT03158311|164541309|NON_INFERIORITY|Non-inferiority margin: 0.25 points|LS Mean|0.073|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|ONE_SIDED|97.5|-0.027|||P-Value is one-sided|MMRM||||||-0.027|<0.001
82415285|NCT03158311|164541310|SUPERIORITY||LS Mean|0.003|STANDARD_ERROR_OF_MEAN|0.025||0.892|TWO_SIDED|95.0|-0.046|0.052||P-value is two-sided|MMRM|||Week 8||0.052|-0.046|0.892
82415286|NCT03158311|164541310|SUPERIORITY||LS Mean|0.067|STANDARD_ERROR_OF_MEAN|0.025||0.007|TWO_SIDED|95.0|0.018|0.115||P-value is two-sided|MMRM|||Week 8||0.115|0.018|0.007
82415287|NCT03158311|164541310|SUPERIORITY||LS Mean|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.945|TWO_SIDED|95.0|-0.05|0.047||P-value is two-sided|MMRM|||Week 16||0.047|-0.050|0.945
82415288|NCT03158311|164541310|SUPERIORITY||LS Mean|0.066|STANDARD_ERROR_OF_MEAN|0.025||0.007|TWO_SIDED|95.0|0.018|0.114||P-value is two-sided|MMRM|||Week 16||0.114|0.018|0.007
82415289|NCT03158311|164541310|SUPERIORITY||LS Mean|0.009|STANDARD_ERROR_OF_MEAN|0.026||0.713|TWO_SIDED|95.0|-0.041|0.06||P-value is two-sided|MMRM|||Week 24||0.060|-0.041|0.713
82415290|NCT03158311|164541310|SUPERIORITY||LS Mean|0.096|STANDARD_ERROR_OF_MEAN|0.026|<|0.001|TWO_SIDED|95.0|0.046|0.146||P-value is two-sided|MMRM|||Week 24||0.146|0.046|<0.001
82415291|NCT03158311|164541311|SUPERIORITY||LS Mean|-0.023|STANDARD_ERROR_OF_MEAN|0.046||0.308|TWO_SIDED|95.0|-0.113|0.067||P-value is one-sided|MMRM|||Week 16||0.067|-0.113|0.308
82415292|NCT03158311|164541311|SUPERIORITY||LS Mean|-0.079|STANDARD_ERROR_OF_MEAN|0.046||0.044|TWO_SIDED|95.0|-0.169|0.012||P-value is one-sided|MMRM|||Week 16||0.012|-0.169|0.044
82415293|NCT03158311|164541311|SUPERIORITY||LS Mean|-0.032|STANDARD_ERROR_OF_MEAN|0.047||0.245|TWO_SIDED|95.0|-0.125|0.06||P-value is one sided|MMRM|||Week 24||0.060|-0.125|0.245
82415294|NCT03158311|164541311|SUPERIORITY||LS Mean|-0.124|STANDARD_ERROR_OF_MEAN|0.047||0.004|TWO_SIDED|95.0|-0.216|-0.032||P-value is one sided|MMRM|||Week 24||-0.032|-0.216|0.004
82415295|NCT03158311|164541312|SUPERIORITY||LS Mean|0.018|STANDARD_ERROR_OF_MEAN|0.049||0.719|TWO_SIDED|95.0|-0.079|0.115||P-value is two-sided|MMRM|||||0.115|-0.079|0.719
82415296|NCT03158311|164541312|SUPERIORITY||LS Mean|0.082|STANDARD_ERROR_OF_MEAN|0.049||0.097|TWO_SIDED|95.0|-0.015|0.179||P-value is two-sided|MMRM|||||0.179|-0.015|0.097
82532746|NCT01671748|164762975|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||ANCOVA|||ANCOVA was used for change in HRQoL from week 1 to week 13 (with week 1 HRQoL score as the covariate).||||0.490
82415297|NCT03158311|164541313|SUPERIORITY||Odds Ratio (OR)|1.23||||0.061|TWO_SIDED|95.0|0.94|1.61||P-value is one sided|Regression, Logistic|Logistic Regression Model via Generalized estimating equations (GEE)||||1.61|0.94|0.061
82415298|NCT03158311|164541313|SUPERIORITY||Odds Ratio (OR)|1.11||||0.227|TWO_SIDED|95.0|0.85|1.46||P-value is one-sided|Regression, Logistic|Logistic Regression Model via GEE||||1.46|0.85|0.227
82415299|NCT03158311|164541314|SUPERIORITY||Odds Ratio (OR)|1.17||||0.108|TWO_SIDED|95.0|0.91|1.49||P-value is one sided|Regression, Logistic|Logistic regression model via the GEE||||1.49|0.91|0.108
82415300|NCT03158311|164541314|SUPERIORITY||Odds Ratio (OR)|1.33||||0.013|TWO_SIDED|95.0|1.03|1.7||P-Value is one sided|Regression, Logistic|Logistic regression model via the GEE||||1.70|1.03|0.013
82415301|NCT03158311|164541315|SUPERIORITY||LS Mean|-0.003|STANDARD_ERROR_OF_MEAN|0.027||0.908|TWO_SIDED|95.0|-0.055|0.049||P-Value is two-sided|MMRM|||Week 8||0.049|-0.055|0.908
82415302|NCT03158311|164541315|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.026||0.046|TWO_SIDED|95.0|0.001|0.104||P-Value is two-sided|MMRM|||Week 8||0.104|0.001|0.046
82415303|NCT03158311|164541315|SUPERIORITY||LS Mean|0.004|STANDARD_ERROR_OF_MEAN|0.026||0.87|TWO_SIDED|95.0|-0.047|0.056||P-Value is two-sided|MMRM|||Week 16||0.056|-0.047|0.870
82415304|NCT03158311|164541315|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.026||0.028|TWO_SIDED|95.0|0.006|0.109||P-Value is two-sided|MMRM|||Week 16||0.109|0.006|0.028
82415305|NCT03158311|164541315|SUPERIORITY||LS Mean|0.028|STANDARD_ERROR_OF_MEAN|0.028||0.303|TWO_SIDED|95.0|-0.026|0.083||P-Value is two-sided|MMRM|||Week 24||0.083|-0.026|0.303
82415306|NCT03158311|164541315|SUPERIORITY||LS Mean|0.095|STANDARD_ERROR_OF_MEAN|0.027|<|0.001|TWO_SIDED|95.0|0.041|0.148||P-Value is two-sided|MMRM|||Week 24||0.148|0.041|<0.001
82415307|NCT03158311|164541316|SUPERIORITY||LS Mean|0.02|STANDARD_ERROR_OF_MEAN|0.034||0.563|TWO_SIDED|95.0|-0.048|0.087||P-value is two-sided|MMRM|||Week 8||0.087|-0.048|0.563
82415308|NCT03158311|164541316|SUPERIORITY||LS Mean|0.062|STANDARD_ERROR_OF_MEAN|0.034||0.068|TWO_SIDED|95.0|-0.005|0.129||P-Value is two-sided|MMRM|||Week 8||0.129|-0.005|0.068
82415309|NCT03158311|164541316|SUPERIORITY||LS Mean|-0.007|STANDARD_ERROR_OF_MEAN|0.035||0.844|TWO_SIDED|95.0|-0.076|0.062||P-Value is two-sided|MMRM|||Week 16||0.062|-0.076|0.844
82415310|NCT03158311|164541316|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.035||0.097|TWO_SIDED|95.0|-0.01|0.125||P-Value is two-sided|MMRM|||Week 16||0.125|-0.010|0.097
82415311|NCT03158311|164541316|SUPERIORITY||LS Mean|0.003|STANDARD_ERROR_OF_MEAN|0.036||0.927|TWO_SIDED|95.0|-0.067|0.074||P-Value is two-sided|MMRM|||Week 24||0.074|-0.067|0.927
82415312|NCT03158311|164541316|SUPERIORITY||LS Mean|0.089|STANDARD_ERROR_OF_MEAN|0.036||0.013|TWO_SIDED|95.0|0.019|0.159||P-Value is two-sided|MMRM|||Week 24||0.159|0.019|0.013
82415313|NCT06922760|164541328|OTHER|Statistical Test of Hypothesis||||||0.411|||||||Regression, Linear|||||||0.411
82415314|NCT06922760|164541328|OTHER|Statistical Test of Hypothesis||||||0.161|||||||Regression, Linear|||||||0.161
82415315|NCT06922760|164541329|OTHER|Statistical Test of Hypothesis||||||0.007|||||||Regression, Linear|||||||0.007
82415316|NCT06922760|164541329|OTHER|Statistical Test of Hypothesis||||||0.5|||||||Regression, Linear|||||||0.5
82415317|NCT00327171|164541341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.123||||0.5043|TWO_SIDED|95.0|0.8|1.58|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor|||1.58|0.80|0.5043
82415318|NCT00327171|164541344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.093||||0.5592|TWO_SIDED|95.0|0.81|1.48|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor (4mg/kg vs. 2mg/kg)|||1.48|0.81|0.5592
82415319|NCT00327171|164541345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.124||||0.5457|TWO_SIDED|95.0|0.77|1.64|||Log Rank||Estimated using Cox proportional Hazard model using treatment as the factor (4 mg/kg vs. 2mg/kg)|||1.64|0.77|0.5457
82415320|NCT01779362|164541394|SUPERIORITY||||||>|0.05||||||All analyses were conducted with values on a log scale and re-exponentiated for presentation.|Regression, Linear|Measures of ß-cell response were modeled simultaneously with insulin sensitivity (M/I) using 2-df seemingly unrelated regression models.||Seemingly unrelated regression was used to compare treatment arms on the combination of insulin sensitivity (M/I as calculated from the hyperglycemic clamp) and insulin secretion (steady-state C-peptide and ACPRmax as co-primary; ACPRg as major secondary,). See statistical analysis plan for further details and R code.||||>0.05
82415321|NCT01779362|164541395|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
82415322|NCT01779362|164541396|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||||||>0.05
82415323|NCT01779362|164541397|SUPERIORITY||||||<|0.001||||||For all 3 secondary outcomes at M12, p\<0.001, with the Liraglutide+Metformin group different from the 3 others (all p\<0.001).|ANOVA|||Analyses were completed on a log scale and re-exponentiated for display.||||<0.001
82415324|NCT00422461|164541400|SUPERIORITY||Least square (LS) mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.6||0.0822|TWO_SIDED|95.0|-5.97|0.36|||Nonlinear dose response regression model|||||0.36|-5.97|0.0822
82415325|NCT00422461|164541400|SUPERIORITY||LS mean difference|-4.66|STANDARD_ERROR_OF_MEAN|1.92||0.017|TWO_SIDED|95.0|-8.47|-0.85|||Nonlinear dose response regression model|||||-0.85|-8.47|0.0170
82415326|NCT00422461|164541400|SUPERIORITY||LS mean difference|-6.97|STANDARD_ERROR_OF_MEAN|2.26||0.0026|TWO_SIDED|95.0|-11.45|-2.48|||Nonlinear dose response regression model|||||-2.48|-11.45|0.0026
82415327|NCT00422461|164541401|SUPERIORITY||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|1.2||0.0264|TWO_SIDED|95.0|-5.09|-0.32|||Nonlinear dose response regression model|||||-0.32|-5.09|0.0264
82532747|NCT01671748|164762976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.08||||0.078|TWO_SIDED|95.0|-19.23|1.06|||ANCOVA|||ANCOVA was used for change in pain score (VAS) from week 5 to week 13 (covariate was baseline pain score).||1.06|-19.23|0.078
82415328|NCT00422461|164541401|SUPERIORITY||LS mean difference|-4.56|STANDARD_ERROR_OF_MEAN|1.41||0.0016|TWO_SIDED|95.0|-7.35|-1.77|||Nonlinear dose response regression model|||||-1.77|-7.35|0.0016
82415329|NCT00422461|164541401|SUPERIORITY||LS mean difference|-6.96|STANDARD_ERROR_OF_MEAN|1.55|<|0.0001|TWO_SIDED|95.0|-10.03|-3.89|||Nonlinear dose response regression model|||||-3.89|-10.03|<0.0001
82415330|NCT00422461|164541402|SUPERIORITY||LS mean difference|0.13|STANDARD_ERROR_OF_MEAN|1.98||0.9479|TWO_SIDED|95.0|-3.79|4.05|||ANCOVA|||For SBP||4.05|-3.79|0.9479
82415331|NCT00422461|164541402|SUPERIORITY||LS mean difference|-4.75|STANDARD_ERROR_OF_MEAN|2.03||0.0215|TWO_SIDED|95.0|-8.78|-0.72|||ANCOVA|||For SBP||-0.72|-8.78|0.0215
82415332|NCT00422461|164541402|SUPERIORITY||LS mean difference|-3.43|STANDARD_ERROR_OF_MEAN|2.0||0.0886|TWO_SIDED|95.0|-7.39|0.53|||ANCOVA|||For SBP||0.53|-7.39|0.0886
82415333|NCT00422461|164541402|SUPERIORITY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.44||0.3173|TWO_SIDED|95.0|-4.3|1.41|||ANCOVA|||For DBP||1.41|-4.30|0.3173
82415334|NCT00422461|164541402|SUPERIORITY||LS mean difference|-3.81|STANDARD_ERROR_OF_MEAN|1.42||0.0087|TWO_SIDED|95.0|-6.64|-0.99|||ANCOVA|||For DBP||-0.99|-6.64|0.0087
82415335|NCT00422461|164541402|SUPERIORITY||LS mean difference|-3.95|STANDARD_ERROR_OF_MEAN|1.41||0.0062|TWO_SIDED|95.0|-6.76|-1.15|||ANCOVA|||For DBP||-1.15|-6.76|0.0062
82415336|NCT00422461|164541404|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|2.48||0.8091|TWO_SIDED|95.0|-5.51|4.31|||ANCOVA|||For cuff SBP||4.31|-5.51|0.8091
82415337|NCT00422461|164541404|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|2.44||0.8809|TWO_SIDED|95.0|-5.21|4.48|||ANCOVA|||For cuff SBP||4.48|-5.21|0.8809
82415338|NCT00422461|164541404|SUPERIORITY||LS mean difference|-5.16|STANDARD_ERROR_OF_MEAN|2.46||0.0382|TWO_SIDED|95.0|-10.04|-0.29|||ANCOVA|||For cuff SBP||-0.29|-10.04|0.0382
82415339|NCT00422461|164541404|SUPERIORITY||LS mean difference|-3.03|STANDARD_ERROR_OF_MEAN|1.67||0.0731|TWO_SIDED|95.0|-6.35|0.29|||ANCOVA|||For cuff DBP||0.29|-6.35|0.0731
82415340|NCT00422461|164541404|SUPERIORITY||LS mean difference|-4.49|STANDARD_ERROR_OF_MEAN|1.65||0.0077|TWO_SIDED|95.0|-7.77|-1.22|||ANCOVA|||For cuff DBP||-1.22|-7.77|0.0077
82415341|NCT00422461|164541404|SUPERIORITY||LS mean difference|-4.29|STANDARD_ERROR_OF_MEAN|1.66||0.0111|TWO_SIDED|95.0|-7.58|-1.0|||ANCOVA|||For cuff DBP||-1.00|-7.58|0.0111
82415342|NCT00422461|164541406|SUPERIORITY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|1.7||0.2567|TWO_SIDED|95.0|-5.32|1.44|||ANCOVA|||||1.44|-5.32|0.2567
82415343|NCT00422461|164541406|SUPERIORITY||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|1.69||0.086|TWO_SIDED|95.0|-6.29|0.42|||ANCOVA|||||0.42|-6.29|0.0860
82415344|NCT00422461|164541406|SUPERIORITY||LS mean difference|-4.46|STANDARD_ERROR_OF_MEAN|1.71||0.0103|TWO_SIDED|95.0|-7.85|-1.08|||ANCOVA|||||-1.08|-7.85|0.0103
82415345|NCT02357485|164541412|SUPERIORITY_OR_OTHER||||||<|0.004|TWO_SIDED|||||Baseline vs 1 year Post-treatment|t-test, 2 sided|||||||<0.004
82415346|NCT02357485|164541413|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Baseline vs 1 year Post-treatment|t-test, 2 sided|||||||<0.001
82415347|NCT02357485|164541414|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||0.053
82415348|NCT02357485|164541415|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82415349|NCT01795937|164541416|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|198.55|STANDARD_DEVIATION|14.2|||TWO_SIDED|90.0|182.43|216.09|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison faldaprevir+itraconazole : faldaprevir||216.09|182.43|
82415350|NCT01795937|164541417|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|180.63|STANDARD_DEVIATION|14.5|||TWO_SIDED|90.0|165.68|196.93|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison faldaprevir+itraconazole : faldaprevir.||196.93|165.68|
82415351|NCT01795937|164541418|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|946.45|STANDARD_DEVIATION|27.3|||TWO_SIDED|90.0|797.61|1123.07|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||1123.07|797.61|
82415352|NCT01795937|164541419|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|3372.72|STANDARD_DEVIATION|20.5|||TWO_SIDED|90.0|2961.95|3840.47|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||3840.47|2961.95|
82415353|NCT01795937|164541422|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1358.91|STANDARD_DEVIATION|16.4|||TWO_SIDED|90.0|1224.32|1508.29|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison atorvastatin+faldaprevir : atorvastatin.||1508.29|1224.32|
82415354|NCT01795937|164541423|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1466.35|STANDARD_DEVIATION|23.3|||TWO_SIDED|90.0|1277.62|1682.95|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||1682.95|1277.62|
82415355|NCT01795937|164541424|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|3288.7|STANDARD_DEVIATION|28.5|||TWO_SIDED|90.0|2782.04|3887.63|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||3887.63|2782.04|
82415356|NCT01795937|164541425|NON_INFERIORITY_OR_EQUIVALENCE|Investigation of relative bioavailability (no formal testing).|Geometric Mean Ratio|1678.23|STANDARD_DEVIATION|22.6|||TWO_SIDED|90.0|1468.52|1917.89|||ANOVA|ANOVA with fixed effect for treatment and random effect for subject.|The standard deviation is actually the geometric coefficient of variation.|Relative bioavailability comparison rosuvastatin+faldaprevir : rosuvastatin.||1917.89|1468.52|
82415357|NCT00412451|164541469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.001||||0.131|TWO_SIDED|95.0|0.001|999.999|||Fisher Exact|||||999.999|0.001|0.131
82415358|NCT00412451|164541469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.562||||0.67|TWO_SIDED|95.0|0.132|2.4|||Fisher Exact|||||2.400|0.132|0.670
82415359|NCT00412451|164541469|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.346||||0.372||95.0|0.07|1.703|||Fisher Exact|||||1.703|0.070|0.372
82415360|NCT03300336|164541470|SUPERIORITY||Odds Ratio (OR)|0.77||||0.01|TWO_SIDED|95.0|0.64|0.93||a priori threshold for statistical significance p \<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the 7 post-baseline timepoints), and a site-level random effect. Model was not adjusted for patient characteristics. Estimated means and standard errors are provided in Outcome Measure Data table.||0.93|0.64|0.01
82415361|NCT03300336|164541471|SUPERIORITY||rate ratio|1.05||||0.25|TWO_SIDED|95.0|0.97|1.15||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a log link and negative binomial distribution.|The rate ratio compares the intervention rate in the numerator vs the usual care rate in the denominator|Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the 7 post-baseline time points), a site-level random effect and random effects for each of the time periods. Model was not adjusted for patient characteristics. Estimated means and standard errors are provided in Outcome Measure Data table.||1.15|0.97|0.25
82415362|NCT03300336|164541472|SUPERIORITY||Mean Difference (Net)|1.32||||0.52|TWO_SIDED|95.0|-2.7|5.33||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 18 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||5.33|-2.70|0.52
82415363|NCT03300336|164541473|SUPERIORITY||Mean Difference (Net)|1.56||||0.66|TWO_SIDED|95.0|-3.14|6.25||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 18 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||6.25|-3.14|0.66
82415364|NCT03300336|164541474|SUPERIORITY||Mean Difference (Net)|-0.52||||0.81|TWO_SIDED|95.0|-4.74|3.7||a priori threshold for significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect.. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care group: 5 out of 227 Missing data due to item nonresponse in intervention group: 14 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.70|-4.74|0.81
82415365|NCT03300336|164541475|SUPERIORITY||Odds Ratio (OR)|1.13||||0.74|TWO_SIDED|95.0|0.55|2.32||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 0 out of 227 Missing data due to item nonresponse in intervention: 5 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||2.32|0.55|0.74
82415366|NCT03300336|164541476|SUPERIORITY||Mean Difference (Net)|0.02||||0.4|TWO_SIDED|95.0|-0.03|0.06||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 14 out of 227 Missing data due to item nonresponse in intervention: 33 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||0.06|-0.03|0.40
82415367|NCT03300336|164541477|SUPERIORITY||Mean Difference (Net)|0.03||||0.18|TWO_SIDED|95.0|-0.01|0.07||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 7 out of 227 Missing data due to item nonresponse in intervention: 23 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||0.07|-0.01|0.18
82415368|NCT03300336|164541478|SUPERIORITY||Mean Difference (Net)|0.8||||0.83|TWO_SIDED|95.0|-6.38|7.98||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 1 out of 227 Missing data due to item nonresponse in intervention: 4 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||7.98|-6.38|0.83
82532748|NCT01671748|164762977|SUPERIORITY_OR_OTHER|||||||0.346|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Change in number of infections were not normally distributed and differences between the arms were tested using the non-parametric Mann-Whitney U test.||||0.346
82646960|NCT01032330|165008899|OTHER|||||||0.012|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.012
82415369|NCT03300336|164541479|SUPERIORITY||Mean Difference (Net)|1.46||||0.25|TWO_SIDED|95.0|-1.05|3.96||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 2 out of 227 Missing data due to item nonresponse in intervention: 6 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.96|-1.05|0.25
82532749|NCT01671748|164762979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.618|TWO_SIDED|95.0|-4.7|2.9|||ANCOVA|Patients' baseline (week 5) wound area was used as the covariate.||||2.9|-4.7|0.618
82532750|NCT01682538|164763011|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80-1.25)|Ratio of geometric means|0.858|||||TWO_SIDED|90.0|0.81|0.91|||ANOVA|||||0.91|0.81|
82576506|NCT03939689|164862800|SUPERIORITY|||||||0.0006||||||P-value from the log-rank test of no difference between treatment groups, stratified by prostate cancer risk group at Screening.|Log Rank|||Event-free rates and 95% CI were estimated by using Kaplan-Meier method and Greenwood formula.||||0.0006
82576507|NCT04944290|164862819|EQUIVALENCE|8AM Day 14|Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-0.71|0.51||||||||0.51|-0.71|
82415370|NCT03300336|164541480|SUPERIORITY||Odds Ratio (OR)|1.16||||0.59|TWO_SIDED|95.0|0.68|1.99||a priori threshold for statistical significance p\<.05|generalized linear model|generalized linear model with a logit link and a binomial distribution|Odds in intervention numerator vs odds in usual care denominator|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 1 out of 227 Missing data due to item nonresponse in intervention: 3 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||1.99|0.68|0.59
82415371|NCT03300336|164541481|SUPERIORITY||Mean Difference (Net)|0.99||||0.47|TWO_SIDED|95.0|-1.71|3.69||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 11 out of 227 Missing data due to item nonresponse in intervention: 20 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||3.69|-1.71|0.47
82415372|NCT03300336|164541482|SUPERIORITY||Mean Difference (Net)|-0.07||||0.94|TWO_SIDED|95.0|-1.76|1.62||a priori threshold for statistical significance p\<.05|Mixed Models Analysis||Estimated difference calculated as intervention minus control|"Model included a time-varying indicator for when STRIDE program launched, fixed effects for time (indicator variables for each of the time periods) and a site-level random effect. Model was not adjusted for patient characteristics.~Missing data due to item nonresponse in usual care: 2 out of 227 Missing data due to item nonresponse in intervention group: 7 out of 399~Estimated means and standard errors are provided in Outcome Measure Data table."||1.62|-1.76|0.94
82415373|NCT00505362|164541514|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82415374|NCT00505362|164541515|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
82415375|NCT02400580|164541519|OTHER|||||||0.517|||||||Fisher Exact|||||||0.517
82415376|NCT02400580|164541521|OTHER|||||||0.508|||||||Fisher Exact|||||||0.508
82415377|NCT02384460|164541522|OTHER||Hazard Ratio (HR)|1.004||||0.985|TWO_SIDED|95.0|0.651|1.549||p-value is for Type 3 chi-square test for comparison between treatments.|Cox Model Analysis|||Cox proportional hazards model compares treatment groups with baseline target wound size, target wound age, and EB type as covariates.||1.549|0.651|0.985
82415378|NCT02384460|164541523|OTHER|Multiple imputation was implemented by 2 steps. The first step used Markov Chain Monte Carlo (MCMC) to get monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 010005 and the number of imputations was 5.|Odds Ratio (OR)|0.733||||0.39|TWO_SIDED|95.0|0.365|1.474||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Comparison between treatment groups of complete closure of target wound within 3 months was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||1.474|0.365|0.39
82415379|NCT02384460|164541524|OTHER|Multiple imputation was implemented by 2 steps. The first step used MCMC to get the monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation method: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|Odds Ratio (OR)|1.633||||0.212|TWO_SIDED|95.0|0.758|3.517||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Logistic Regression Analysis at Month 1 visit. Comparison between treatment groups of complete closure of target wound within 1 month was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||3.517|0.758|0.212
82415380|NCT02384460|164541524|OTHER|Multiple imputation was implemented by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a logistic regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline target wound size, target wound age, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|Odds Ratio (OR)|0.891||||0.802|TWO_SIDED|95.0|0.436|1.821||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||Logistic Regression Analysis at Month 2 visit. Comparison between treatment groups of complete closure of target wound within 2 months was performed using a logistic regression model with multiple imputation with EB type, baseline target wound size, and baseline target wound age as covariates.||1.821|0.436|0.802
82532751|NCT01682538|164763012|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80-1.25)|Ratio of geometric means|0.954|||||TWO_SIDED|90.0|0.85|1.07|||ANOVA|||||1.07|0.85|
82532752|NCT01682538|164763013|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence (no food effect) was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80 - 1.25).|Ratio of geometric means|1.013|||||TWO_SIDED|90.0|0.96|1.07|||ANOVA|||||1.07|0.96|
82576508|NCT04944290|164862819|EQUIVALENCE|10AM Day 14|Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.86|0.26||||||10AM Day 14||0.26|-0.86|
82576509|NCT04944290|164862819|EQUIVALENCE|8AM Day 42|Mean Difference (Net)|-0.04|||||TWO_SIDED|95.0|-0.58|0.58||||||||0.58|-0.58|
82532753|NCT01682538|164763014|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence (no food effect) was established if the 90% confidence interval of the ratio was completely within the acceptance range (0.80 - 1.25)|Ratio of geometric means|0.802|||||TWO_SIDED|90.0|0.71|0.9|||ANOVA|||||0.90|0.71|
82576510|NCT04944290|164862819|EQUIVALENCE|10AM Day 42|Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.7|0.47||||||||0.47|-0.70|
82576511|NCT02271984|164862830|SUPERIORITY_OR_OTHER||Ratio (%)|39.9|||||TWO_SIDED|90.0|34.7|46.0|||||Percentage of Geometric Least Squares (LS) Mean Ratio (Treatment A/Treatment B) is reported.|||46.0|34.7|
82415381|NCT02384460|164541525|OTHER|Multiple imputation was used by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a linear regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline BSAI of lesional skin, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|LS means difference|0.682||||0.706|TWO_SIDED|95.0|-2.873|4.238||The p-value is calculated based on the hypothesis testing for the difference of least-squares (LS)-means between treatment and placebo.|Mixed Models Analysis|||Mixed Model Repeated Measures (MMRM) Analysis. The MMRM approach (using restricted maximum likelihood \[REML\] estimation) was used on each multiply-imputed data set. The model included treatment, baseline BSAI of lesional skin, EB type, visit, and visit-treatment interaction as the fixed effects.||4.238|-2.873|0.706
82415382|NCT02384460|164541526|OTHER|Multiple imputation was used by 2 steps. The first step used MCMC to get monotonic missing data pattern. In the second step, a linear regression model was used, with the following covariates included in the imputation model: treatment, EB type, baseline BSAI of lesional skin, and non-missing data from earlier time points. The seed number was 01005 and the number of imputations was 5.|LS means difference|0.128||||0.9|TWO_SIDED|95.0|-2.116|1.861||The p-value is calculated based on the hypothesis testing for the difference of LS-means between treatment and placebo.|Mixed Models Analysis|||MMRM Analysis. The MMRM approach (using REML estimation) was used on each multiply-imputed data set. The model included treatment, baseline BSAI of lesional skin, EB type, visit, and visit-treatment interaction as the fixed effects.||1.861|-2.116|0.9
82415383|NCT02384460|164541527|OTHER|Pre-specified.|Odds Ratio (OR)|1.445||||0.262|TWO_SIDED|95.0|0.759|2.752||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||The proportion of participants experiencing improvement in itching versus non-improvement (including missing) was compared between the 2 treatment groups for Day 7 using the logistic regression model with baseline itching score, and EB type as covariates.||2.752|0.759|0.262
82415384|NCT02384460|164541528|OTHER|Pre-specified.|Odds Ratio (OR)|0.596||||0.098|TWO_SIDED|95.0|0.323|1.1||p-value is from the logistic regression model for treatment comparison.|Regression, Logistic|||The proportion of participants experiencing improvement in pain versus non-improvement (including missing) was compared between the 2 treatment groups for Day 7 using the logistic regression model with baseline pain score and EB type as covariates.||1.1|0.323|0.098
82415385|NCT01579305|164541529|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is pre-defined as 15% i.e., if the difference in responder rates is significantly greater than -15% (i.e., the lower confidence limit is greater than -15%), statistical non-inferiority of VOLBELLA® to Restylane-L® is established.|Difference in responder rates|4.9|||||ONE_SIDED|97.5|-6.7||||||Difference in responder rates is calculated as the responder rate at Month 3 for VOLBELLA® minus the responder rate at Month 3 for Restylane-L®.|The null hypothesis is that VOLBELLA® is inferior to Restylane-L® in terms of responder rate at Month 3, and the alternative hypothesis is that VOLBELLA® is inferior to Restylane-L® in terms of responder rate at Month 3 with 15% pre-defined non-inferiority margin. To test the null hypothesis, a difference in responder rates of these products (VOLBELLA® - Restylane-L®) at Month 3 and a 1-sided 97.5% Wald confidence interval for the difference is calculated.|||-6.7|
82415386|NCT01060111|164541535|SUPERIORITY_OR_OTHER|||||||0.6207|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.6207
82415387|NCT01060111|164541535|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferioirity was to be concluded if the ratio of percentage decrease in migraine episodes was greater than 0.7. Power of calculation was 0.9, significance level was 0.025.|Ratio of percentage decrease|0.95||||0.5|TWO_SIDED|95.0|0.519|1.737|||t-test, 1 sided|||||1.737|0.519|0.5
82415388|NCT01060111|164541536|SUPERIORITY_OR_OTHER|||||||0.7247|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.7247
82415389|NCT01060111|164541537|SUPERIORITY_OR_OTHER|||||||0.9872|||||||ANOVA|Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.||||||0.9872
82415390|NCT01060111|164541538|SUPERIORITY_OR_OTHER|||||||0.4326||||||Analysis of Variance (ANOVA) for treatment groups (Topiramate standard, Topiramate slow, Topiramate slow and Propranolol booster) was used.|ANOVA|||||||0.4326
82646961|NCT01032330|165008899|OTHER|||||||0.02|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.02
82415391|NCT01004393|164541546|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED||||||ANOVA|||||||0.161
82415392|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
82415393|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paited t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
82576512|NCT02271984|164862830|SUPERIORITY_OR_OTHER||Ratio (%)|27.3|||||TWO_SIDED|90.0|22.5|33.2|||||Percentage of Geometric LS Mean Ratio (Treatment C1/Treatment A) is reported.|||33.2|22.5|
82576513|NCT02271984|164862830|SUPERIORITY_OR_OTHER||Ratio (%)|260.2|||||TWO_SIDED|90.0|214.0|316.4|||||Percentage of Geometric LS Mean Ratio (Treatment C2/Treatment A) is reported.|||316.4|214.0|
82576514|NCT02271984|164862830|SUPERIORITY_OR_OTHER||Ratio (%)|167.1|||||TWO_SIDED|90.0|143.9|194.0|||||Percentage of Geometric LS Mean Ratio (Treatment A/Treatment D) is reported.|||194.0|143.9|
82532754|NCT00777803|164763026|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Newcombe confidence interval for proportions (paired data) was applied. The lower bound of the Newcombe-Wilson confidence interval of the difference in response rates between groups was compared to the non-inferiority margin of -15%.|difference of response rates|0.7|||||TWO_SIDED|95.0|-3.2|7.1|||||Difference of response rates = response rate in IncobotulinumtoxinA (Xeomin®/Bocouture®) - response rate in OnabotulinumtoxinA (Vistabel®)|Null Hypothesis: Response rate of IncobotulinumtoxinA (Xeomin®/Bocouture®) minus the response rate of OnabotulinumtoxinA (Vistabel®) is lower or equal -15% (non-inferiority margin).||7.1|-3.2|
82532755|NCT03615482|164763072|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-0.9||||0.617|TWO_SIDED|95.0|-4.5|2.7|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Erythema||2.7|-4.5|0.617
82532756|NCT03615482|164763072|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.6||||0.32|TWO_SIDED|95.0|-7.8|2.6|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Pain||2.6|-7.8|0.320
82646962|NCT01032330|165008900|OTHER|||||||0.002|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||.002
82646963|NCT01032330|165008900|OTHER|||||||0.01|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.01
82646964|NCT01032330|165008901|OTHER|||||||0.11|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.11
82415394|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415395|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415396|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415397|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415398|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415399|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82447393|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|5.7|||||TWO_SIDED|95.0|-9.3|20.4||||||Month 24: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||20.4|-9.3|
82447394|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|8.6|||||TWO_SIDED|95.0|-7.0|23.6||||||Month 27: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||23.6|-7.0|
82447395|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-12.8|18.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.3|-12.8|
82447396|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.4|17.2||||||Month 33: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||17.2|-14.4|
82646965|NCT01032330|165008901|OTHER|||||||0.1|||||||ANCOVA|||P-value for the change between baseline and 6 months in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.10
82646966|NCT01032330|165008902|OTHER|||||||0.6|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Older cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.60
82646967|NCT01032330|165008902|OTHER|||||||0.09|||||||ANCOVA|||P-value for the change between baseline and 3 Years in the Younger cohort. Two-sided p values for comparisons of continuous outcomes are from analysis of covariance models adjusting for the baseline level of the outcome.||||0.09
82646968|NCT00190684|165008904|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for systolic BP|Wilcoxon signed-rank test|Change = endpoint-baseline||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646969|NCT00190684|165008904|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for diastolic BP|Wilcoxon sign-rank test|Change = endpoint-baseline||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646970|NCT00190684|165008905|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for pulse|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415400|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
82415401|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415402|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82532757|NCT03615482|164763072|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.1||||0.31|TWO_SIDED|95.0|-6.2|2.0|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Injection-Site Swelling||2.0|-6.2|0.310
82532758|NCT03615482|164763073|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.2||||0.205|TWO_SIDED|95.0|-5.8|1.2|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Arthralgia||1.2|-5.8|0.205
82532759|NCT03615482|164763073|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.9||||0.273|TWO_SIDED|95.0|-8.0|2.3|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Fatigue||2.3|-8.0|0.273
82415403|NCT01336972|164541550|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415404|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415405|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415406|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82646971|NCT00190684|165008906|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415407|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415408|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82447397|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 36: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
82532760|NCT03615482|164763073|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|-2.2||||0.372|TWO_SIDED|95.0|-6.9|2.6|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Headache||2.6|-6.9|0.372
82415409|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415410|NCT01336972|164541551|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415411|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Final Treatment versus Baseline|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415412|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare Post Treatment versus Baseline for all treatment groups|paired t-test|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82447398|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|-4.3|||||TWO_SIDED|95.0|-20.2|11.9||||||Month 39: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||11.9|-20.2|
82576515|NCT02271984|164862830|SUPERIORITY_OR_OTHER||Ratio (%)|115.7|||||TWO_SIDED|90.0|99.8|134.1|||||Percentage of Geometric LS Mean Ratio (Treatment E/Treatment A) is reported.|||134.1|99.8|
82532761|NCT03615482|164763073|OTHER|Difference in Percent vs. Non-concomitant Group|Difference in Percent|2.4||||0.329|TWO_SIDED|95.0|-2.4|7.1|||Miettinen & Nurminen|Estimated differences, confidence intervals (CIs), and p-values were calculated based on Miettinen \& Nurminen method.||Myalgia||7.1|-2.4|0.329
82532762|NCT03615482|164763074|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.6|0.6||||||||0.6|-0.6|
82532763|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.66||||0.004|TWO_SIDED|95.0|0.54|0.82|||cLDA|GMT ratio, 95% CI and p-value were estimated from a constrained longitudinal data analysis (cLDA) model including all vaccinated participants.||Serotype 1||0.82|0.54|0.004
82532764|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.81|1.09|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 3||1.09|0.81|<0.001
82532765|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.69|1.01|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 4||1.01|0.69|<0.001
82532766|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.64|0.98|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 5||0.98|0.64|<0.001
82532767|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.71|1.0|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 6A||1.00|0.71|<0.001
82532768|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.74|1.04|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 6B||1.04|0.74|<0.001
82646972|NCT00190684|165008907|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82532769|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.86|||<|0.001|TWO_SIDED|95.0|0.75|0.99|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 7F||0.99|0.75|<0.001
82532770|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.86|1.15|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 9V||1.15|0.86|<0.001
82576516|NCT01088984|164862845|SUPERIORITY_OR_OTHER|||||||1||||||1-sided p-value is calculated against the null hypothesis of a response rate of 5%.|binomial parameter exact method|||||||1.0000
82646973|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415413|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415414|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding||||>0.05
82415415|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415416|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82415417|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||<0.05
82415418|NCT01336972|164541552|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||A change of 10% was chosen as representing a clinically significant change in mGFR or ERPF. For this purpose, the alpha level was set at 0.05 and the beta level (power) at 95% instead of 80%, to decrease the chance of a false-negative finding.||||>0.05
82532771|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.91|||<|0.001|TWO_SIDED|95.0|0.77|1.08|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 14||1.08|0.77|<0.001
82646974|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415419|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
82415420|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
82532772|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.68|0.92|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 18C||0.92|0.68|<0.001
82532773|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.73|0.95|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 19A||0.95|0.73|<0.001
82415421|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
82415422|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||<0.05
82415423|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Test to compare treatment groups at Final Treatment||||||>0.05
82415424|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|paired t-test|||||||>0.05
82415425|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Final Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
82415426|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
82415427|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||>0.05
82415428|NCT01336972|164541553|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Test to compare treatment groups at Post Treatment|Wilcoxon (Mann-Whitney)|||||||<0.05
82415429|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Comparison of all treatment groups versus Baseline at Final Treatment||||<0.05
82415430|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Comparison of all treatment groups versus Baseline at Post Treatment||||<0.05
82415431|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415432|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
82415433|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415434|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82532774|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.89|1.17|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 19F||1.17|0.89|<0.001
82415435|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415436|NCT01336972|164541557|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415437|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
82415438|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
82415439|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415440|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||<0.05
82415441|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Paired t-test|||Test to compare PostTreatment versus Baseline for all treatment groups||||>0.05
82415442|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415443|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415444|NCT01336972|164541558|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||<0.05
82415445|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired te-test|||Test to compare Final Treatment versus Baseline for all treatment groups||||<0.05
82415446|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415447|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415448|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Final Treatment||||>0.05
82415449|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||<0.05
82415450|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
82415451|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Paired t-test|||Test to compare Post Treatment versus Baseline||||>0.05
82415452|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415453|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415454|NCT01336972|164541559|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Test to compare treatment groups at Post Treatment||||>0.05
82415455|NCT03446573|164541574|NON_INFERIORITY|Non-inferiority of switching to DTG + 3TC compared to continuation of TBR (as per FDA snapshot algorithm) was to be concluded if the upper bound of a two-sided 95% confidence interval (CI) for the difference in virologic failure rates between the two treatment arms was smaller than 4%.|Adjusted difference in proportion (ADP)|-0.3|||||TWO_SIDED|95.0|-1.2|0.7|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (protease inhibitor \[PI\], non-nucleoside reverse transcriptase inhibitor \[NNRTI\], and integrase inhibitor \[INI\]).|||0.7|-1.2|
82415456|NCT03446573|164541575|NON_INFERIORITY|Non-inferiority of switching to DTG + 3TC compared to continuation of TBR (as per FDA snapshot algorithm) was to be concluded when the lower bound of a 2-sided 95% confidence interval for the difference in success rates between the two treatment arms was greater than -8%.|Adjusted difference in proportion|0.2|||||TWO_SIDED|95.0|-3.4|3.9|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor: Baseline third agent (PI, NNRTI, and INSTI).|||3.9|-3.4|
82415457|NCT03446573|164541601|OTHER||Treatment ratio|1.057||||0.257|TWO_SIDED|95.0|0.96|1.164|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 24 has been presented.|||1.164|0.960|0.257
82415458|NCT03446573|164541601|OTHER||Treatment ratio|1.062||||0.35|TWO_SIDED|95.0|0.936|1.205|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 48 has been presented.|||1.205|0.936|0.350
82415459|NCT03446573|164541601|OTHER||Treatment ratio|0.979||||0.473|TWO_SIDED|95.0|0.924|1.037|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 24 has been presented.|||1.037|0.924|0.473
82415460|NCT03446573|164541601|OTHER||Treatment ratio|0.956||||0.212|TWO_SIDED|95.0|0.891|1.026|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 48 has been presented.|||1.026|0.891|0.212
82415461|NCT03446573|164541603|OTHER||Treatment ratio|0.977||||0.7|TWO_SIDED|95.0|0.866|1.102|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 96 has been presented.|||1.102|0.866|0.700
82415462|NCT03446573|164541603|OTHER||Treatment ratio|0.971||||0.7|TWO_SIDED|95.0|0.835|1.129|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UA/C at Week 144 has been presented.|||1.129|0.835|0.700
82415463|NCT03446573|164541603|OTHER||Treatment ratio|0.969||||0.356|TWO_SIDED|95.0|0.907|1.036|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 96 has been presented.|||1.036|0.907|0.356
82415464|NCT03446573|164541603|OTHER||Treatment ratio|0.991||||0.814|TWO_SIDED|95.0|0.916|1.071|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for UP/C at Week 144 has been presented.|||1.071|0.916|0.814
82415465|NCT03446573|164541604|OTHER||Treatment ratio|0.958||||0.56|TWO_SIDED|95.0|0.83|1.106|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 24 has been presented.|||1.106|0.830|0.560
82415466|NCT03446573|164541604|OTHER||Treatment ratio|1.055||||0.489|TWO_SIDED|95.0|0.906|1.229|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 48 has been presented.|||1.229|0.906|0.489
82415467|NCT03446573|164541606|OTHER||Treatment ratio|1.165||||0.081|TWO_SIDED|95.0|0.981|1.384|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 96 has been presented.|||1.384|0.981|0.081
82415468|NCT03446573|164541606|OTHER||Treatment ratio|0.981||||0.834|TWO_SIDED|95.0|0.819|1.175|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine beta-2 microglobulin/urine creatinine at Week 144 has been presented.|||1.175|0.819|0.834
82415469|NCT03446573|164541607|OTHER||Treatment ratio|1.017||||0.758|TWO_SIDED|95.0|0.915|1.13|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 24 has been presented.|||1.130|0.915|0.758
82415470|NCT03446573|164541607|OTHER||Treatment ratio|0.999||||0.985|TWO_SIDED|95.0|0.894|1.116|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 48 has been presented.|||1.116|0.894|0.985
82415471|NCT03446573|164541609|OTHER||Treatment ratio|1.015||||0.806|TWO_SIDED|95.0|0.904|1.139|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 96 has been presented.|||1.139|0.904|0.806
82415472|NCT03446573|164541609|OTHER||Treatment ratio|1.019||||0.745|TWO_SIDED|95.0|0.909|1.142|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine phosphate at Week 144 has been presented.|||1.142|0.909|0.745
82415473|NCT03446573|164541610|OTHER||Treatment ratio|0.935||||0.264|TWO_SIDED|95.0|0.83|1.052|||Mixed Model Reported Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 24 has been presented.|||1.052|0.830|0.264
82415474|NCT03446573|164541610|OTHER||Treatment ratio|0.996||||0.932|TWO_SIDED|95.0|0.903|1.098|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 48 has been presented.|||1.098|0.903|0.932
82415475|NCT03446573|164541612|OTHER||Treatment ratio|1.15||||0.011|TWO_SIDED|95.0|1.032|1.281|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 96 has been presented.|||1.281|1.032|0.011
82415476|NCT03446573|164541612|OTHER||Treatment ratio|1.007||||0.895|TWO_SIDED|95.0|0.905|1.121|||Mixed Model Repeated Measures||Treatment ratio (DTG+3TC/ TAF based regimen) and 95% CI for Urine retinol binding protein 4/urine creatinine at Week 144 has been presented.|||1.121|0.905|0.895
82415477|NCT03446573|164541620|OTHER||Mean Difference (Net)|0.29||||0.047|TWO_SIDED|95.0|0.0|0.57|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 24 has been presented|||0.57|0.00|0.047
82415478|NCT03446573|164541620|OTHER||Mean Difference (Net)|0.31||||0.094|TWO_SIDED|95.0|-0.05|0.68|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 48 has been presented|||0.68|-0.05|0.094
82415479|NCT03446573|164541620|OTHER||Mean Difference (Net)|-1.34|||<|0.001|TWO_SIDED|95.0|-2.01|-0.68|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 24 has been presented|||-0.68|-2.01|<0.001
82646975|NCT00190684|165008908|SUPERIORITY_OR_OTHER|||||||0.644||95.0||||p-value is for weight 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.644
82646976|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for weight 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646977|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415480|NCT03446573|164541620|OTHER||Mean Difference (Net)|-1.84|||<|0.001|TWO_SIDED|95.0|-2.59|-1.09|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 48 has been presented|||-1.09|-2.59|<0.001
82415481|NCT03446573|164541620|OTHER||Mean Difference (Net)|2.1||||0.066|TWO_SIDED|95.0|-0.1|4.3|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 24 has been presented|||4.3|-0.1|0.066
82415482|NCT03446573|164541620|OTHER||Mean Difference (Net)|2.9||||0.046|TWO_SIDED|95.0|0.0|5.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 48 has been presented|||5.8|0.0|0.046
82415483|NCT03446573|164541620|OTHER||Mean Difference (Net)|0.0381||||0.005|TWO_SIDED|95.0|0.0117|0.0646|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 24 has been presented|||0.0646|0.0117|0.005
82415484|NCT03446573|164541620|OTHER||Mean Difference (Net)|0.0292||||0.032|TWO_SIDED|95.0|0.0025|0.0559|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 48 has been presented|||0.0559|0.0025|0.032
82415485|NCT03446573|164541622|OTHER||Mean Difference (Net)|0.17||||0.386|TWO_SIDED|95.0|-0.22|0.57|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 96 has been presented|||0.57|-0.22|0.386
82415486|NCT03446573|164541622|OTHER||Mean Difference (Net)|0.14||||0.573|TWO_SIDED|95.0|-0.34|0.61|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Bone-ALP at Week 144 has been presented|||0.61|-0.34|0.573
82415487|NCT03446573|164541622|OTHER||Mean Difference (Net)|-1.87|||<|0.001|TWO_SIDED|95.0|-2.7|-1.04|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 96 has been presented|||-1.04|-2.70|< 0.001
82532775|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.64|0.91|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 22F||0.91|0.64|<0.001
82646978|NCT00190684|165008908|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for height 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.001
82646979|NCT00190684|165008908|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value is for height 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.044
82646980|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for height 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646981|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for BMI 0 to 25th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415488|NCT03446573|164541622|OTHER||Mean Difference (Net)|-1.95|||<|0.001|TWO_SIDED|95.0|-2.77|-1.14|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for Osteocalcin at Week 144 has been presented|||-1.14|-2.77|< 0.001
82415489|NCT03446573|164541622|OTHER||Mean Difference (Net)|2.1||||0.082|TWO_SIDED|95.0|-0.3|4.4|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 96 has been presented.|||4.4|-0.3|0.082
82415490|NCT03446573|164541622|OTHER||Mean Difference (Net)|0.4||||0.765|TWO_SIDED|95.0|-2.3|3.2|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for P1NP at Week 144 has been presented|||3.2|-2.3|0.765
82415491|NCT03446573|164541622|OTHER||Mean Difference (Net)|0.0151||||0.301|TWO_SIDED|95.0|-0.0136|0.0438|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 96 has been presented|||0.0438|-0.0136|0.301
82415492|NCT03446573|164541622|OTHER||Mean Difference (Net)|0.0126||||0.34|TWO_SIDED|95.0|-0.0133|0.0384|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for CTX-1 at Week 144 has been presented|||0.0384|-0.0133|0.340
82415493|NCT03446573|164541623|OTHER||Mean Difference (Net)|-2.2||||0.173|TWO_SIDED|95.0|-5.3|1.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 24 has been presented|||1.0|-5.3|0.173
82415494|NCT03446573|164541623|OTHER||Mean Difference (Net)|-2.3||||0.168|TWO_SIDED|95.0|-5.5|1.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 48 has been presented|||1.0|-5.5|0.168
82415495|NCT03446573|164541625|OTHER||Mean Difference (Net)|-9.4|||<|0.001|TWO_SIDED|95.0|-14.0|-4.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 96 has been presented.|||-4.7|-14.0|<0.001
82415496|NCT03446573|164541625|OTHER||Mean Difference (Net)|-5.6||||0.005|TWO_SIDED|95.0|-9.4|-1.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum 25 hydroxyvitamin D at Week 144 has been presented.|||-1.7|-9.4|0.005
82415497|NCT03446573|164541626|OTHER||Mean Difference (Net)|-0.01||||0.027|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 24 has been presented|||0.00|-0.03|0.027
82646982|NCT00190684|165008908|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||p-value is for BMI 25th to 50th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.032
82415498|NCT03446573|164541626|OTHER||Mean Difference (Net)|-0.01||||0.061|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 48 has been presented|||0.00|-0.03|0.061
82415499|NCT03446573|164541628|OTHER||Mean Difference (Net)|-0.03||||0.004|TWO_SIDED|95.0|-0.06|-0.01|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 96 has been presented|||-0.01|-0.06|0.004
82415500|NCT03446573|164541628|OTHER||Mean Difference (Net)|-0.01||||0.094|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum cystatin C at Week 144 has been presented|||0.00|-0.03|0.094
82415501|NCT03446573|164541629|OTHER||Mean Difference (Net)|1.8||||0.012|TWO_SIDED|95.0|0.4|3.1|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 24 has been presented|||3.1|0.4|0.012
82415502|NCT03446573|164541629|OTHER||Mean Difference (Net)|1.6||||0.059|TWO_SIDED|95.0|-0.1|3.3|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 48 has been presented|||3.3|-0.1|0.059
82415503|NCT03446573|164541629|OTHER||Mean Difference (Net)|-5.0|||<|0.001|TWO_SIDED|95.0|-6.3|-3.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 24 has been presented|||-3.7|-6.3|<0.001
82415504|NCT03446573|164541629|OTHER||Mean Difference (Net)|-4.8|||<|0.001|TWO_SIDED|95.0|-6.1|-3.4|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 48 has been presented|||-3.4|-6.1|<0.001
82415505|NCT03446573|164541631|OTHER||Mean Difference (Net)|4.1||||0.002|TWO_SIDED|95.0|1.5|6.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 96 has been presented|||6.7|1.5|0.002
82415506|NCT03446573|164541631|OTHER||Mean Difference (Net)|1.9||||0.064|TWO_SIDED|95.0|-0.1|3.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from cystatin C adjusted using CKD-EPI at Week 148 has been presented|||3.8|-0.1|0.064
82415507|NCT03446573|164541631|OTHER||Mean Difference (Net)|-5.2|||<|0.001|TWO_SIDED|95.0|-6.7|-3.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 96 has been presented|||-3.8|-6.7|<0.001
82415508|NCT03446573|164541631|OTHER||Mean Difference (Net)|-4.5|||<|0.001|TWO_SIDED|95.0|-6.2|-2.8|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TAF based regimen) and its 95% CI for serum GFR from creatinine adjusted using CKD-EPI at Week 144 has been presented|||-2.8|-6.2|<0.001
82415509|NCT03446573|164541632|OTHER||Mean Difference (Net)|4.37|||<|0.001|TWO_SIDED|95.0|3.03|5.7|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 24 has been presented.|||5.70|3.03|<0.001
82415510|NCT03446573|164541632|OTHER||Mean Difference (Net)|4.49|||<|0.001|TWO_SIDED|95.0|3.18|5.81|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 48 has been presented.|||5.81|3.18|<0.001
82415511|NCT03446573|164541634|OTHER||Mean Difference (Net)|4.95|||<|0.001|TWO_SIDED|95.0|3.47|6.43|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 96 has been presented.|||6.43|3.47|<0.001
82415512|NCT03446573|164541634|OTHER||Mean Difference (Net)|4.08|||<|0.001|TWO_SIDED|95.0|2.32|5.85|||Mixed Model Repeated Measures||Mean difference (DTG+3TC - TBR) and its 95% CI for serum creatinine at Week 144 has been presented.|||5.85|2.32|<0.001
82415513|NCT03446573|164541635|OTHER||Mean Difference (Net)|-0.0017||||0.741|TWO_SIDED|95.0|-0.0119|0.0085|||Mixed Model Repeated Measures||Week 24. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0085|-0.0119|0.741
82415514|NCT03446573|164541635|OTHER||Mean Difference (Net)|0.0015||||0.792|TWO_SIDED|95.0|-0.0094|0.0123|||Mixed Model Repeated Measures||Week 48. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0123|-0.0094|0.792
82415515|NCT03446573|164541636|OTHER||Mean Difference (Net)|0.0003||||0.965|TWO_SIDED|95.0|-0.0121|0.0126|||Mixed Model Repeated Measures||Week 96. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0126|-0.0121|0.965
82415516|NCT03446573|164541636|OTHER||Mean Difference (Net)|-0.0109||||0.12|TWO_SIDED|95.0|-0.0247|0.0029|||Mixed Model Repeated Measures||Week 144. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Utility (continuous), Treatment by Visit interaction, and Baseline EQ-5D Utility by Visit interaction, with Visit as the repeated factor.|||0.0029|-0.0247|0.120
82415517|NCT03446573|164541637|OTHER||Mean Difference (Net)|-0.1||||0.879|TWO_SIDED|95.0|-1.4|1.2|||Mixed Model Repeated Measures||Week 24. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||1.2|-1.4|0.879
82415518|NCT03446573|164541637|OTHER||Mean Difference (Net)|-0.5||||0.414|TWO_SIDED|95.0|-1.9|0.8|||Mixed Model Repeated Measures||Week 48. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.8|-1.9|0.414
82532776|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.7|1.03|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 23F||1.03|0.70|<0.001
82532777|NCT03615482|164763075|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.72|0.96|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||Serotype 33F||0.96|0.72|<0.001
82447399|NCT03281304|164603563|OTHER||Adjusted (weighted) difference|4.3|||||TWO_SIDED|95.0|-11.7|19.9||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||19.9|-11.7|
82447400|NCT03281304|164603564|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-1.5|24.1||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||24.1|-1.5|
82447401|NCT03281304|164603564|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|3.6|35.0||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||35.0|3.6|
82447402|NCT03281304|164603564|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.5|28.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.3|-3.5|
82447403|NCT03281304|164603564|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-12.5|18.0||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.0|-12.5|
82447404|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-7.5|13.4||||||Month 1: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.4|-7.5|
82447405|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|0.1|22.8||||||Month 3: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.8|0.1|
82447406|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|2.4|25.6||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.6|2.4|
82646983|NCT00190684|165008908|SUPERIORITY_OR_OTHER|||||||0.351||95.0||||p-value is for BMI 50th to 75th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.351
82447407|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|20.0|||||TWO_SIDED|95.0|8.0|31.8||||||Month 9: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||31.8|8.0|
82447408|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|2.2|28.7||||||Month 12: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.7|2.2|
82447409|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|14.3|||||TWO_SIDED|95.0|0.0|27.9||||||Month 15: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||27.9|0.0|
82447410|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|0.7|29.9||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||29.9|0.7|
82447411|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|5.7|||||TWO_SIDED|95.0|-9.5|20.6||||||Month 21: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||20.6|-9.5|
82447412|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|7.1|||||TWO_SIDED|95.0|-8.0|21.9||||||Month 24: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||21.9|-8.0|
82447413|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|10.0|||||TWO_SIDED|95.0|-5.7|25.1||||||Month 27: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.1|-5.7|
82447414|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|4.3|||||TWO_SIDED|95.0|-11.4|19.7||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||19.7|-11.4|
82447415|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.4|17.2||||||Month 33: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||17.2|-14.4|
82447416|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 36: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
82447417|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|-2.9|||||TWO_SIDED|95.0|-18.8|13.3||||||Month 39: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||13.3|-18.8|
82447418|NCT03281304|164603565|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
82447419|NCT03281304|164603566|OTHER||Adjusted (weighted) difference|15.7|||||TWO_SIDED|95.0|-0.4|30.8||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||30.8|-0.4|
82447420|NCT03281304|164603566|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.5|28.3||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.3|-3.5|
82447421|NCT03281304|164603566|OTHER||Adjusted (weighted) difference|1.4|||||TWO_SIDED|95.0|-14.0|16.7||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||16.7|-14.0|
82447422|NCT03281304|164603567|OTHER||Mean Difference|-0.3|||||TWO_SIDED|95.0|-0.8|0.1||||||||0.1|-0.8|
82447423|NCT03281304|164603569|OTHER||Least Squares (LS) Mean Difference|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Month 1||0.3|-0.1|
82447424|NCT03281304|164603569|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||Month 3||0.2|-0.2|
82447425|NCT03281304|164603569|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.2|0.3||||||Month 6||0.3|-0.2|
82447426|NCT03281304|164603571|OTHER||LS Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.2|0.1||||||||0.1|-1.2|
82447427|NCT03281304|164603573|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Month 1||0.3|-0.3|
82447428|NCT03281304|164603573|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.2||||||Month 3||0.2|-0.3|
82447429|NCT03281304|164603573|OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Month 6||0.3|-0.3|
82447430|NCT03281304|164603575|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-0.3|23.1||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||23.1|-0.3|
82532778|NCT03615482|164763076|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.94|1.25|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||H1N1||1.25|0.94|<0.001
82532779|NCT03615482|164763076|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.9|1.17|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||H3N2||1.17|0.90|<0.001
82415519|NCT03446573|164541638|OTHER||Mean Difference (Net)|-1.2||||0.102|TWO_SIDED|95.0|-2.5|0.2|||Mixed Model Repeated Measures||Week 96. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.2|-2.5|0.102
82415520|NCT03446573|164541638|OTHER||Mean Difference (Net)|-1.3||||0.093|TWO_SIDED|95.0|-2.8|0.2|||Mixed Model Repeated Measures||Week 144. MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Baseline EQ-5D Thermometer (continuous), Treatment by Visit interaction, and Baseline EQ-5D Thermometer by Visit interaction, with Visit as the repeated factor.|||0.2|-2.8|0.093
82415521|NCT04270760|164541655|SUPERIORITY||Treatment difference|-70.51|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-75.12|-65.9||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Group 1 versus (vs) Group 5||-65.90|-75.12|<0.001
82415522|NCT04270760|164541655|SUPERIORITY||Treatment difference|-97.38|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-101.98|-92.77||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Group 2 vs Group 5||-92.77|-101.98|<0.001
82415523|NCT04270760|164541655|SUPERIORITY||Treatment difference|-101.13|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-105.79|-96.47||Adjusted p-value is reported based on the Hochberg procedure to control the type I error for multiple comparisons. Each individual adjusted p-value is compared to 0.05 to determine statistical significance.|Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Group 3 vs Group 5||-96.47|-105.79|<0.001
82426545|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
82426546|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.7|-1.5|<0.0001
82426547|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.8534|TWO_SIDED|95.0|-0.4|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.4|-0.4|0.8534
82426548|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.8|-1.6|<0.0001
82426549|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.7|<0.0001
82426550|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9074|TWO_SIDED|95.0|-0.4|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.5|-0.4|0.9074
82426551|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.7|<0.0001
82426552|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.8|<0.0001
82426553|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.9229|TWO_SIDED|95.0|-0.4|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.5|-0.4|0.9229
82426554|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.8|<0.0001
82426555|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.9|<0.0001
82415524|NCT04270760|164541655|SUPERIORITY||Treatment difference|-100.49|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-105.16|-95.82|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Group 4 vs Group 5||-95.82|-105.16|< 0.001
82415525|NCT04270760|164541656|SUPERIORITY||Treatment difference|-68.47|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-74.27|-62.67|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Group 1 vs Group 5||-62.67|-74.27|<0.001
82415526|NCT04270760|164541656|SUPERIORITY||Treatment difference|-96.12|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-101.92|-90.33|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Group 2 vs Group 5||-90.33|-101.92|<0.001
82415527|NCT04270760|164541656|SUPERIORITY||Treatment difference|-100.88|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-106.74|-95.02|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Group 3 vs Group 5||-95.02|-106.74|<0.001
82415528|NCT04270760|164541656|SUPERIORITY||Treatment difference|-85.94|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-91.83|-80.06|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Group 4 vs Group 5||-80.06|-91.83|< 0.001
82415529|NCT04270760|164541657|SUPERIORITY||Treatment difference|-23.659|STANDARD_ERROR_OF_MEAN|5.874|<|0.001|TWO_SIDED|95.0|-35.176|-12.143|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 1 vs Group 5||-12.143|-35.176|<0.001
82415530|NCT04270760|164541657|SUPERIORITY||Treatment difference|-22.518|STANDARD_ERROR_OF_MEAN|5.875|<|0.001|TWO_SIDED|95.0|-34.036|-11.0|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 2 vs Group 5||-11.000|-34.036|<0.001
82415531|NCT04270760|164541657|SUPERIORITY||Treatment difference|-22.967|STANDARD_ERROR_OF_MEAN|5.962|<|0.001|TWO_SIDED|95.0|-34.656|-11.278|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 3 vs Group 5||-11.278|-34.656|<0.001
82415532|NCT04270760|164541657|SUPERIORITY||Treatment difference|-24.696|STANDARD_ERROR_OF_MEAN|5.969|<|0.001|TWO_SIDED|95.0|-36.399|-12.993|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 4 vs Group 5||-12.993|-36.399|< 0.001
82415533|NCT04270760|164541657|SUPERIORITY||Treatment difference|-24.856|STANDARD_ERROR_OF_MEAN|6.119|<|0.001|TWO_SIDED|95.0|-36.853|-12.859|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 1 vs Group 5||-12.859|-36.853|<0.001
82415534|NCT04270760|164541657|SUPERIORITY||Treatment difference|-21.594|STANDARD_ERROR_OF_MEAN|6.118|<|0.001|TWO_SIDED|95.0|-33.59|-9.598|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 2 vs Group 5||-9.598|-33.590|<0.001
82532780|NCT03615482|164763076|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.86|1.08|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||B-Victoria||1.08|0.86|<0.001
82532781|NCT03615482|164763076|NON_INFERIORITY|Non-inferiority is based on the lower bound of the 95% confidence interval (CI) on the estimated GMT ratio (Concomitant Group/Nonconcomitant Group) being \>0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.9|1.13|||cLDA|GMT ratio, 95% CI and p-value were estimated from a cLDA model.||B-Yamagata||1.13|0.90|<0.001
82576517|NCT00770029|164862869|SUPERIORITY_OR_OTHER||Difference response rate|0.6|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|0.52|0.68|||Fisher Exact|||The efficacy of the treatment was confirmed if H0 was rejected at a given α of 5%, that means if the two sided p-value was ≤0.05. Power of 90%||0.68|0.52|<0.0001
82415535|NCT04270760|164541657|SUPERIORITY||Treatment difference|-27.421|STANDARD_ERROR_OF_MEAN|6.194|<|0.001|TWO_SIDED|95.0|-39.565|-15.277|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 3 vs Group 5||-15.277|-39.565|<0.001
82415536|NCT04270760|164541657|SUPERIORITY||Treatment difference|-27.021|STANDARD_ERROR_OF_MEAN|6.232|<|0.001|TWO_SIDED|95.0|-39.24|-14.801|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 4 vs Group 5||-14.801|-39.240|<0.001
82532782|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.89||||||Serotype 1||0.89|0.67|
82415537|NCT04270760|164541658|SUPERIORITY||Treatment difference|-18.89|STANDARD_ERROR_OF_MEAN|3.779|<|0.001|TWO_SIDED|95.0|-26.303|-11.477|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 1 vs Group 5||-11.477|-26.303|<0.001
82415538|NCT04270760|164541658|SUPERIORITY||Treatment difference|-16.696|STANDARD_ERROR_OF_MEAN|3.778|<|0.001|TWO_SIDED|95.0|-24.107|-9.284|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 2 vs Group 5||-9.284|-24.107|<0.001
82415539|NCT04270760|164541658|SUPERIORITY||Treatment difference|-17.635|STANDARD_ERROR_OF_MEAN|3.825|<|0.001|TWO_SIDED|95.0|-25.139|-10.131|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 3 vs Group 5||-10.131|-25.139|<0.001
82415540|NCT04270760|164541658|SUPERIORITY||Treatment difference|-18.772|STANDARD_ERROR_OF_MEAN|3.839|<|0.001|TWO_SIDED|95.0|-26.303|-11.241|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 36.|Week 36: Group 4 vs Group 5||-11.241|-26.303|< 0.001
82415541|NCT04270760|164541658|SUPERIORITY||Treatment difference|-20.04|STANDARD_ERROR_OF_MEAN|4.443|<|0.001|TWO_SIDED|95.0|-28.757|-11.323|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 1 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 1 vs Group 5||-11.323|-28.757|<0.001
82646984|NCT00190684|165008908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for BMI 75th to 100th percentile|paired t-test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415542|NCT04270760|164541658|SUPERIORITY||Treatment difference|-17.06|STANDARD_ERROR_OF_MEAN|4.442|<|0.001|TWO_SIDED|95.0|-25.774|-8.345|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 2 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 2 vs Group 5||-8.345|-25.774|<0.001
82415543|NCT04270760|164541658|SUPERIORITY||Treatment difference|-19.509|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-28.336|-10.682|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 3 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 3 vs Group 5||-10.682|-28.336|<0.001
82415544|NCT04270760|164541658|SUPERIORITY||Treatment difference|-21.839|STANDARD_ERROR_OF_MEAN|4.517|<|0.001|TWO_SIDED|95.0|-30.7|-12.979|||Repeated measures linear effects model|Includes treatment group, stratification factors, scheduled visit and the interaction of treatment group with scheduled visit as covariates.|Treatment difference = percentage change in Group 4 - percentage change in Group 5 from Baseline at Week 48.|Week 48: Group 4 vs Group 5||-12.979|-30.700|<0.001
82415545|NCT02070991|164541660|SUPERIORITY_OR_OTHER||Difference between maci. and placebo|10.08||||0.3372|TWO_SIDED|95.0|-15.07|33.26|||Fisher Exact|||||33.26|-15.07|0.3372
82415546|NCT02070991|164541661|SUPERIORITY_OR_OTHER||Treatment effect (ratio of geom. means)|0.77|||||TWO_SIDED|95.0|0.55|1.08||||||||1.08|0.55|
82415547|NCT02070991|164541662|SUPERIORITY_OR_OTHER||Treatment effect (ratio of geom. means)|0.93|||||TWO_SIDED|95.0|0.64|1.36||||||||1.36|0.64|
82415548|NCT02070991|164541663|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.3|||||TWO_SIDED|95.0|-4.3|4.9||||||||4.9|-4.3|
82415549|NCT02070991|164541664|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.7|||||TWO_SIDED|95.0|-2.2|3.6||||||||3.6|-2.2|
82415550|NCT02070991|164541665|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|-0.3|||||TWO_SIDED|95.0|-4.2|3.7||||||||3.7|-4.2|
82415551|NCT02070991|164541666|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|0.4|||||TWO_SIDED|95.0|0.11|0.69||||||||0.69|0.11|
82415552|NCT02070991|164541667|SUPERIORITY_OR_OTHER||Treatment effect (mean change from BL)|-0.4|||||TWO_SIDED|95.0|-4.5|3.6||||||||3.6|-4.5|
82415553|NCT04018001|164541668|SUPERIORITY|||||||0.0115|||||||Chi-squared|||||||0.0115
82415554|NCT04018001|164541668|SUPERIORITY||Odds Ratio (OR)|1.410198||||0.0227|TWO_SIDED|95.0|1.0492535|1.8953079||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.8953079|1.0492535|0.0227
82415555|NCT04018001|164541669|SUPERIORITY|||||||0.3564|||||||t-test, 2 sided|||||||0.3564
82415556|NCT04018001|164541669|SUPERIORITY||Hazard Ratio (HR)|0.9022||||0.2629|TWO_SIDED|95.0|0.7534|1.0803||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Cox|||||1.0803|0.7534|0.2629
82415557|NCT04018001|164541670|SUPERIORITY|||||||0.0123|||||||t-test, 2 sided|||||||0.0123
82415558|NCT04018001|164541670|SUPERIORITY||Difference in Least Squares (LS) Means|0.0300853||||0.0047|TWO_SIDED|95.0|0.0092322|0.0509385||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0509385|0.0092322|0.0047
82415559|NCT04018001|164541671|SUPERIORITY|||||||0.0002|||||||Chi-squared|||||||0.0002
82415560|NCT04018001|164541671|SUPERIORITY||Odds Ratio (OR)|1.7910474||||0.0002|TWO_SIDED|95.0|1.3167136|2.4362554||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||2.4362554|1.3167136|0.0002
82415561|NCT04018001|164541672|SUPERIORITY|||||||0.4071|||||||t-test, 2 sided|||||||0.4071
82415562|NCT04018001|164541672|SUPERIORITY||Difference in LS Means|0.0104065||||0.6143|TWO_SIDED|95.0|-0.030062|0.0508746||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0508746|-0.030062|0.6143
82415563|NCT04018001|164541673|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.0010
82532783|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|0.99||||||Serotype 3||0.99|0.76|
82532784|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.68|0.91||||||Serotype 4||0.91|0.68|
82532785|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||Serotype 5||1.02|0.77|
82532786|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.87||||||Serotype 6A||0.87|0.61|
82532787|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.64|0.91||||||Serotype 6B||0.91|0.64|
82532788|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.76|1.01||||||Serotype 7F||1.01|0.76|
82415564|NCT04018001|164541673|SUPERIORITY||Odds Ratio (OR)|1.5211586||||0.0025|TWO_SIDED|95.0|1.1594614|1.9956882||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.9956882|1.1594614|0.0025
82415565|NCT04018001|164541674|SUPERIORITY|||||||0.4595|||||||t-test, 2 sided|||||||0.4595
82415566|NCT04018001|164541674|SUPERIORITY||Hazard Ratio (HR)|1.1225||||0.3354|TWO_SIDED|95.0|0.8873|1.4201||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Cox|||||1.4201|0.8873|0.3354
82415567|NCT04018001|164541675|SUPERIORITY|||||||0.113|||||||t-test, 2 sided|||||||0.1130
82415568|NCT04018001|164541675|SUPERIORITY||Difference in LS Means|0.0151242||||0.1194|TWO_SIDED|95.0|-0.003908|0.0341568||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0341568|-0.003908|0.1194
82415569|NCT04018001|164541676|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.0200
82415570|NCT04018001|164541676|SUPERIORITY||Odds Ratio (OR)|1.4143816||||0.0364|TWO_SIDED|95.0|1.0221455|1.9571335||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.9571335|1.0221455|0.0364
82415571|NCT04018001|164541677|SUPERIORITY|||||||0.9031|||||||t-test, 2 sided|||||||0.9031
82532789|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03||||||Serotype 9V||1.03|0.79|
82415572|NCT04018001|164541677|SUPERIORITY||Difference in LS Means|-0.008587||||0.6376|TWO_SIDED|95.0|-0.044317|0.0271416||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Generalized linear model|||||0.0271416|-0.044317|0.6376
82415573|NCT04018001|164541678|SUPERIORITY|||||||0.3584|||||||Chi-squared|||||||0.3584
82415574|NCT04018001|164541678|SUPERIORITY||Odds Ratio (OR)|1.1077385||||0.451|TWO_SIDED|95.0|0.8489444|1.4454238||To better assess true effect of treatment,analysis with participant's baseline characteristic was adjusted to remove influence on the outcome measure.|Regression, Logistic|||||1.4454238|0.8489444|0.4510
82415575|NCT04018001|164541679|SUPERIORITY|||||||0.0624|||||||Chi-squared|||||||0.0624
82415576|NCT04018001|164541680|SUPERIORITY|||||||0.4914|||||||Chi-squared|||||||0.4914
82532790|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||Serotype 14||0.99|0.73|
82532791|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.68|0.91||||||Serotype 18C||0.91|0.68|
82532792|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.02||||||Serotype 19A||1.02|0.78|
82532793|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.03||||||Serotype 19F||1.03|0.77|
82415577|NCT02448043|164541681|SUPERIORITY|||||||0.532||||||Threshold is p\<0.05|t-test, 2 sided|||||||0.532
82415578|NCT02448043|164541682|SUPERIORITY|||||||0.523||||||Threshold is p\<0.05|t-test, 2 sided|||||||0.523
82415579|NCT02448043|164541683|SUPERIORITY|||||||0.912||||||Threshold is p\<0.05|t-test, 2 sided|||Comparing baseline values of both arms to completion values of both arms||||0.912
82415580|NCT02448043|164541684|SUPERIORITY|||||||0.062||||||Threshold is p\<0.05|t-test, 2 sided|||Comparison between baseline nail brittleness values and completion values||||0.062
82415581|NCT02508207|164541718|OTHER|||||||0.7151||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.7151
82415582|NCT02508207|164541719|OTHER|||||||0.0004||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.0004
82415583|NCT02508207|164541720|OTHER|||||||0.3345|||||||t-test, 2 sided|p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.||||||0.3345
82415584|NCT02508207|164541721|OTHER|||||||0.0002||||||p-value for within TEZ/IVA group was analyzed using a 2-sided, paired, t-test at a 5% level of significance.|t-test, 2 sided|||||||0.0002
82415585|NCT02122952|164541726|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial Test|||Data for the current study were compared to historical control data (Pediatric Neuromuscular Clinical Research \[PNCR\], Finkel et al 2014 - PubMed 25080519) where 0 participants were able to sit independently.||||<0.001
82415586|NCT03296345|164541728|OTHER||Mean Difference (Final Values)|-15.0||||0.004|TWO_SIDED|95.0|-28.0|-2.3|||Wilcoxon (Mann-Whitney)|||||-2.3|-28|0.004
82415587|NCT03296345|164541729|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82532794|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 22F||0.89|0.65|
82532795|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 23F||0.98|0.70|
82532796|NCT03615482|164763077|OTHER|GMC ratio and 95% CI were estimated from cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|0.99||||||Serotype 33F||0.99|0.75|
82532797|NCT00322868|164763085|SUPERIORITY_OR_OTHER|||||||0.2772|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum white cell count||||||0.2772
82532798|NCT00322868|164763086|SUPERIORITY_OR_OTHER|||||||0.2467|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum neutrophil count||||||0.2467
82532799|NCT00322868|164763087|SUPERIORITY_OR_OTHER|||||||0.0288|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in sputum percent neutrophils||||||0.0288
82532800|NCT00322868|164763088|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum active elastase||||||0.50
82532801|NCT00322868|164763089|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum TNFα||||||0.62
82532802|NCT00322868|164763090|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-1ß||||||0.50
82532803|NCT00322868|164763091|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-6||||||0.55
82415588|NCT03296345|164541730|OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
82415589|NCT03296345|164541732|OTHER|A Wilcoxon sign-rank, given non parametric data, was used to compare the intervention and historical control groups for statistical significance, while a student's t-test was used to estimate effect size||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82415590|NCT02068599|164541744|SUPERIORITY||LSM difference from placebo|4.26||||0.1213|TWO_SIDED|95.0|-1.13|9.66||5% level of significance|mixed model for repeated measures|||LSM = least square mean||9.66|-1.13|0.1213
82415591|NCT02068599|164541744|SUPERIORITY||LSM difference from placebo|1.74||||0.5231|TWO_SIDED|95.0|-3.62|7.11||5% level of significance|mixed model for repeated measures|||LSM = least square mean||7.11|-3.62|0.5231
82415592|NCT02068599|164541745|SUPERIORITY||LSM difference from placebo|17.86||||0.1795|TWO_SIDED|95.0|-8.26|43.98||5% level of significance|mixed model for repeated measures|||LSM = least square mean||43.98|-8.26|0.1795
82415593|NCT02068599|164541745|SUPERIORITY||LSM difference from placebo|9.0||||0.4956|TWO_SIDED|95.0|-16.95|34.96||5% level of significance|mixed model for repeated measures|||LSM = least square mean||34.96|-16.95|0.4956
82415594|NCT02068599|164541746|SUPERIORITY||LSM difference from placebo|3.61||||0.1963|TWO_SIDED|95.0|-1.87|9.08||5% level of significance|mixed model for repeated measures|||||9.08|-1.87|0.1963
82415595|NCT02068599|164541746|SUPERIORITY||LSM difference from placebo|2.06||||0.4584|TWO_SIDED|95.0|-3.39|7.5||5% level of significance|mixed model for repeated measures|||||7.50|-3.39|0.4584
82532804|NCT00322868|164763092|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||t-test, 1 sided|Paired t-test analysis of the intra-subject change in log10 sputum IL-8||||||0.75
82532805|NCT01852162|164763097|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||An analysis of covariance (ANCOVA) method with a general linear model, using the corresponding baseline PD value as a covariate, was used to evaluate the comparisons between dabigatran and placebo at 7 days.|ANCOVA|||Assuming a 20% relative difference in TRAP induced MPA between dabigatran and placebo with a common standard deviation of 10%, 13 patients with available data needed to be randomized to obtain a 95% power and 2-sided alpha=0.05.||||<0.05
82415596|NCT02068599|164541747|SUPERIORITY||LSM difference from placebo|23.51||||0.642|TWO_SIDED|95.0|-75.83|122.84||5% level of significance|mixed model for repeated measures|||||122.84|-75.83|0.6420
82415597|NCT02068599|164541747|SUPERIORITY||LSM difference from placebo|-50.4||||0.3141|TWO_SIDED|95.0|-148.72|47.92||5% level of significance|mixed model for repeated measures|||||47.92|-148.72|0.3141
82415598|NCT02068599|164541748|SUPERIORITY||LSM difference from placebo|3.16||||0.6184|TWO_SIDED|95.0|-9.31|15.63||5% level of significance|mixed model for repeated measures|||||15.63|-9.31|0.6184
82415599|NCT02068599|164541748|SUPERIORITY||LSM difference from placebo|-3.48||||0.5775|TWO_SIDED|95.0|-15.78|8.81||5% level of significance|mixed model for repeated measures|||||8.81|-15.78|0.5775
82415600|NCT02068599|164541749|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1011|TWO_SIDED|95.0|0.345|1.099||5% level of significance|mixed model for repeated measures|||\>=50% responder rate||1.099|0.345|0.1011
82532806|NCT01603940|164763136|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.616
82532807|NCT01603940|164763137|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.28
82415601|NCT02068599|164541749|SUPERIORITY||Odds Ratio (OR)|1.06||||0.84|TWO_SIDED|95.0|0.615|1.819||5% level of significance|mixed model for repeated measures|||\>=50% responder rate||1.819|0.615|0.8400
82415602|NCT02068599|164541749|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6607|TWO_SIDED|95.0|0.531|1.494||5% level of significance|mixed model for repeated measures|||\>=30% responder rate||1.494|0.531|0.6607
82415603|NCT02068599|164541749|SUPERIORITY||Odds Ratio (OR)|0.87||||0.5777|TWO_SIDED|95.0|0.52|1.441||5% level of significance|mixed model for repeated measures|||\>=30% responder rate||1.441|0.520|0.5777
82415604|NCT02068599|164541750|SUPERIORITY||LSM difference from placebo|3.94||||0.4316|TWO_SIDED|95.0|-5.9|13.79||5% level of significance|mixed model for repeated measures|||||13.79|-5.90|0.4316
82415605|NCT02068599|164541750|SUPERIORITY||LSM difference from placebo|2.51||||0.6126|TWO_SIDED|95.0|-7.24|12.26||5% level of significance|mixed model for repeated measures|||||12.26|-7.24|0.6126
82415606|NCT02068599|164541751|SUPERIORITY||LSM difference from placebo|0.01||||0.9208|TWO_SIDED|95.0|-0.232|0.257||5% level of significance|mixed model for repeated measures|||Week 2||0.257|-0.232|0.9208
82415607|NCT02068599|164541751|SUPERIORITY||LSM difference from placebo|0.04||||0.7344|TWO_SIDED|95.0|-0.2|0.284||5% level of significance|mixed model for repeated measures|||Week 2||0.284|-0.200|0.7344
82415608|NCT02068599|164541751|SUPERIORITY||LSM difference from placebo|0.21||||0.1199|TWO_SIDED|95.0|-0.056|0.486||5% level of significance|mixed model for repeated measures|||Week 4||0.486|-0.056|0.1199
82415609|NCT02068599|164541751|SUPERIORITY||LSM difference from placebo|0.06||||0.6357|TWO_SIDED|95.0|-0.204|0.334||5% level of significance|mixed model for repeated measures|||Week 4||0.334|-0.204|0.6357
82415610|NCT02068599|164541752|SUPERIORITY||LSM difference from placebo|2.77||||0.2906|TWO_SIDED|95.0|-2.377|7.916||5% level of significance|mixed model for repeated measures|||Week 2||7.916|-2.377|0.2906
82532808|NCT01603940|164763138|SUPERIORITY_OR_OTHER|||||||0.618|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.618
82532809|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.02||||||The a priori alpha level was \< 0.10 and was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Mobility functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.02
82576518|NCT04624243|164862883|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 PANSS change from baseline|LS Mean Difference|-2.8||||0.241|TWO_SIDED|97.5|-8.3|2.6|||ANCOVA|||||2.6|-8.3|0.241
82415611|NCT02068599|164541752|SUPERIORITY||LSM difference from placebo|1.41||||0.5892|TWO_SIDED|95.0|-3.707|6.518||5% level of significance|mixed model for repeated measures|||Week 2||6.518|-3.707|0.5892
82415612|NCT02068599|164541752|SUPERIORITY||LSM difference from placebo|0.82||||0.7699|TWO_SIDED|95.0|-4.678|6.315||5% level of significance|mixed model for repeated measures|||Week 4||6.315|-4.678|0.7699
82415613|NCT02068599|164541752|SUPERIORITY||LSM difference from placebo|1.74||||0.532|TWO_SIDED|95.0|-3.721|7.193||5% level of significance|mixed model for repeated measures|||Week 4||7.193|-3.721|0.5320
82415614|NCT02068599|164541753|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5358|TWO_SIDED|95.0|0.501|1.433||5% level of significance|generalized estimating equation (GEE)|||For the responder analyses, participants with missing values were deemed non-responders. Analysis performed using a generalized estimating equation (GEE) method where binary variable responder rate (Yes/No) was modeled through logit link function, with treatment, center, week, and treatment\*week as explanatory factors. The unstructured working correlation structure was applied.||1.433|0.501|0.5358
82415615|NCT02068599|164541753|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1532|TWO_SIDED|95.0|0.87|2.423||5% level of significance|generalized estimating equation (GEE)|||For the responder analyses, participants with missing values were deemed non-responders. Analysis performed using a generalized estimating equation (GEE) method where binary variable responder rate (Yes/No) was modeled through logit link function, with treatment, center, week, and treatment\*week as explanatory factors. The unstructured working correlation structure was applied.||2.423|0.870|0.1532
82415616|NCT00699751|164541755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||5e-05|TWO_SIDED|95.0|0.578|0.827|||Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of overall survival, and also for the secondary endpoints, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.827|0.578|0.00005
82415617|NCT00699751|164541756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.169|||<|1e-05|TWO_SIDED|95.0|0.131|0.22|||Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to total ALP progression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.22|0.131|<0.00001
82415618|NCT00699751|164541757|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415619|NCT00699751|164541757|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415620|NCT00699751|164541757|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=30%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=30%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415621|NCT00699751|164541757|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=50%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415622|NCT00699751|164541758|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415623|NCT00699751|164541758|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415624|NCT00699751|164541758|SUPERIORITY_OR_OTHER||||||<|0.001||||||Confirmed Total ALP Response (\>=50%)|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed Total ALP Response (\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415625|NCT00699751|164541759|SUPERIORITY_OR_OTHER||||||<|0.001||||||Total ALP normalization|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Total ALP normalization, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415626|NCT00699751|164541760|SUPERIORITY_OR_OTHER||||||<|0.001||||||Percentage Change from Baseline|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82426556|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9279|TWO_SIDED|95.0|-0.5|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.4|-0.5|0.9279
82646985|NCT00190684|165008909|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for RR interval|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646986|NCT00190684|165008909|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for QRS Interval|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646987|NCT00190684|165008909|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for QT Bazett Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82415627|NCT00699751|164541761|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage decrease from baseline to week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage decrease from baseline to week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415628|NCT00699751|164541762|SUPERIORITY_OR_OTHER||||||<|0.001||||||Percentage change from baseline|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415629|NCT00699751|164541763|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage decrease from baseline during the 24 week treatment|ANCOVA|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage decrease from baseline during the 24 week treatment, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415630|NCT00699751|164541764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.643|||<|1e-05|TWO_SIDED|95.0|0.539|0.768||Time to Prostate Specific Antigen (PSA) progression|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to PSA progression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.768|0.539|<0.00001
82415631|NCT00699751|164541765|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415632|NCT00699751|164541765|SUPERIORITY_OR_OTHER|||||||0.106||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.106
82415633|NCT00699751|164541765|SUPERIORITY_OR_OTHER|||||||0.032||||||Confirmed PSA Response(\>=50%)|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed PSA Response(\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.032
82415634|NCT00699751|164541766|SUPERIORITY_OR_OTHER||||||<|0.001||||||\>=30% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=30% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415635|NCT00699751|164541766|SUPERIORITY_OR_OTHER|||||||0.002||||||\>=50% reduction in blood level|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of \>=50% reduction in blood level, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.002
82415636|NCT00699751|164541766|SUPERIORITY_OR_OTHER|||||||0.005||||||Confirmed PSA Response(\>=50%)|Cochran-Mantel-Haenszel|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Confirmed PSA Response(\>=50%), is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.005
82415637|NCT00699751|164541767|SUPERIORITY_OR_OTHER|||||||0.16||||||Percentage change from baseline in PSA at Week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline in PSA at Week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.160
82415638|NCT00699751|164541768|SUPERIORITY_OR_OTHER|||||||0.004||||||Maximum Percentage Decrease from Baseline up to Week 12|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage Decrease from Baseline up to Week 12, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.004
82646988|NCT00190684|165008909|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||p-value is for QT Data Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.310
82646989|NCT00190684|165008909|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||p-value is for QT Fridericia Correction|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.632
82646990|NCT00190684|165008910|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for HR.|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646991|NCT00190684|165008912|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for Total Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
82646992|NCT00190684|165008912|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Inattentive Subscale Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646993|NCT00190684|165008912|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for Hyperactive Subscale Score|Wilcoxon signed-rank test|||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
82646994|NCT00190684|165008913|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CGI ADHD Severity within group|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||||||<0.001
82415639|NCT00699751|164541769|SUPERIORITY_OR_OTHER|||||||0.009||||||Percentage change from baseline in PSA at EOT|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Percentage change from baseline in PSA at EOT, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||0.009
82415640|NCT00699751|164541770|SUPERIORITY_OR_OTHER||||||<|0.001||||||Maximum Percentage Decrease from Baseline in PSA response During the 24 Week Treatment Period|ANCOVA|Adjusting for the binary stratification factors, total ALP, current use of Bisphosphonates and prior use of Docetaxel.||The null hypothesis for the comparison of Maximum Percentage Decrease from Baseline in PSA response During the 24 Week Treatment Period, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||||<0.001
82415641|NCT00699751|164541771|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.657||||0.00012|TWO_SIDED|95.0|0.529|0.814||Time to first Skeletal Related Event (SRE)|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to first SRE, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.814|0.529|0.00012
82415642|NCT00699751|164541772|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.639||||8e-05|TWO_SIDED|95.0|0.511|0.8||Time to External Beam Radiotherapy|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of time to EBRT, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.8|0.511|0.00008
82415643|NCT00699751|164541773|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.344||||0.00191|TWO_SIDED|95.0|0.17|0.695||stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Receiving Radio-isotope, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||0.695|0.17|0.00191
82426557|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.9|<0.0001
82532810|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.52||||||The a priori alpha level was \<0.10 and was not adjusted for multiple comparisons|Wilcoxon Signed-Rank Test|||"Self-care functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.52
82646995|NCT00190684|165008914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CPRS ADHD Index Subscale within group|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82532811|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.38||||||The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Social function functional skills~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.38
82576519|NCT04624243|164862883|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 PANSS change from baseline|LS Mean Difference|-0.7||||0.784|TWO_SIDED|97.5|-6.3|4.9|||ANCOVA|||||4.9|-6.3|0.784
82646996|NCT00190684|165008914|SUPERIORITY_OR_OTHER||||||p<|0||95.0||||p-value is for CPRS Cognitive Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||p<0.001
82646997|NCT00190684|165008914|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||p-value is for CPRS Hyperactive Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||0.026
82646998|NCT00190684|165008914|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for CPRS Oppositional Subscale|Wilcoxon signed-rank test|This test is for a significance of a location shift from zero of the change from baseline within a treatment group.||Tested was the null hypothesis that there would be no statistically significant difference between baseline and endpoint.||||<0.001
82646999|NCT03496207|165008919|SUPERIORITY||Difference in Least Squares Means|-151.1|STANDARD_ERROR_OF_MEAN|49.53||0.003|TWO_SIDED|95.0|-249.59|-52.63|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||-52.63|-249.59|0.0030
82415644|NCT00699751|164541774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.847||||0.53277|TWO_SIDED|95.0|0.504|1.426||Time to Pathological Bone Fracture|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Pathological Bone Fracture, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||1.426|0.504|0.53277
82415645|NCT00699751|164541775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949||||0.89567|TWO_SIDED|95.0|0.435|2.07||Time to Surgical Intervention|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Surgical Intervention, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists||2.07|0.435|0.89567
82447431|NCT03281304|164603575|OTHER||Adjusted (weighted) difference|18.6|||||TWO_SIDED|95.0|3.5|32.6||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||32.6|3.5|
82415646|NCT00699751|164541776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.14486|TWO_SIDED|95.0|0.404|1.145||Time to Spinal Cord Compression|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Spinal Cord Compression, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||1.145|0.404|0.14486
82415647|NCT00699751|164541777|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.727||||0.00932|TWO_SIDED|95.0|0.571|0.925||Time to Other Cancer Treatment|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Other Cancer Treatment, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.925|0.571|0.00932
82415648|NCT00699751|164541778|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.00187|TWO_SIDED|95.0|0.546|0.873||Time to Marked Deterioration of ECOG PS|Log Rank|Stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The hazard ratio (Alpharadin:Placebo) is from a Cox proportional hazards model stratified by total ALP, current use of bisphosphonates and prior use of Docetaxel.|The null hypothesis for the comparison of Time to Marked Deterioration of ECOG PS, is that there is no difference between Alpharadin and placebo for that endpoint; the alternative hypothesis is that a difference exists.||0.873|0.546|0.00187
82415649|NCT00294398|164541798|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||t-test, 2 sided|||||||0.87
82415650|NCT00762177|164541816|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415651|NCT00762177|164541817|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415652|NCT00762177|164541818|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82532812|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.03||||||The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Mobility care giver assistance.~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.03
82532813|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon Signed-Rank Test|The a priori alpha level was 0.10 and it was not adjusted for multiple comparisons.||"Self-care caregiver assistance~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||.006
82532814|NCT01115998|164763179|SUPERIORITY_OR_OTHER|||||||0.45||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Social function caregiver assistance~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.45
82532815|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.92||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Adaptive total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.92
82532816|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.38||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Cognitive total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.38
82532817|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.42||90.0||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Communication total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.42
82415653|NCT00762177|164541819|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415654|NCT00762177|164541820|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82532818|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.57||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Motor total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.57
82447432|NCT03281304|164603575|OTHER||Adjusted (weighted) difference|12.9|||||TWO_SIDED|95.0|-3.3|28.1||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||28.1|-3.3|
82447433|NCT03281304|164603575|OTHER||Adjusted (weighted) difference|0.0|||||TWO_SIDED|95.0|-16.1|16.1||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||16.1|-16.1|
82447434|NCT03281304|164603576|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|1.3|22.0||||||Month 6: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||22.0|1.3|
82415655|NCT00762177|164541821|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82532819|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.69||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"Personal-social total~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.69
82415656|NCT00762177|164541822|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415657|NCT00762177|164541823|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||the tongue will be scrapped 5 times with the edge of a tongue depressor. The depressor is vortex in sterile phosphate buffered saline(PBS) and the sample is then sonicated using a Branson 450A sonicator with a cup horn for 30 seconds. Samples diluted (10 fold) in PBS and plated using a spiral systems autoplate 4000 spiral plater on CFAT Agar||||0.05
82415658|NCT00762177|164541824|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415659|NCT00762177|164541825|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415660|NCT00762177|164541826|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415661|NCT00762177|164541827|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415662|NCT00762177|164541828|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415663|NCT00762177|164541829|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415664|NCT00762177|164541830|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415665|NCT00762177|164541831|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415666|NCT00762177|164541832|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415667|NCT00762177|164541833|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82532820|NCT01115998|164763180|SUPERIORITY_OR_OTHER|||||||0.28||||||The a priori alpha level was \<0.10 and it was not adjusted for multiple comparisons.|Wilcoxon Signed-Rank Test|||"BID total score~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||0.28
82415668|NCT00762177|164541834|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415669|NCT00762177|164541835|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415670|NCT00762177|164541836|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415671|NCT00762177|164541837|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415672|NCT00762177|164541838|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415673|NCT00762177|164541839|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82415674|NCT02184156|164541841|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82415675|NCT02184156|164541842|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
82415676|NCT02114684|164541857|SUPERIORITY|||||||0.46|||||||Fisher Exact|||comparison of culture negative results at week 8||||0.46
82415677|NCT02114684|164541857|SUPERIORITY|||||||0.43|||||||Fisher Exact|||comparison of culture negative results at month 6||||0.43
82415678|NCT02114684|164541858|SUPERIORITY|||||||0.018|||||||Gehan-Breslow-Wilcoxon test|||||||0.018
82415679|NCT02114684|164541859|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
82415680|NCT02114684|164541860|SUPERIORITY|||||||0.01||||||There are significantly more adverse events in the active arm|Mantel Haenszel|||Comparison of the number of adverse events in the two arms, controlling for HIV status||||0.01
82415681|NCT02114684|164541860|SUPERIORITY|||||||0.45|||||||Mantel Haenszel|||Comparison of the 8-week culture conversion rates in the two arms, controlling for HIV status||||0.45
82415682|NCT02114684|164541861|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
82415683|NCT01214720|164541868|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.61|0.86|||Log Rank|||||0.86|0.61|0.0002
82415684|NCT01214720|164541869|SUPERIORITY_OR_OTHER||Difference in Response Rates|3.62||||0.3621|TWO_SIDED|95.0|-4.3|11.6|||Chi-squared|Approximate 95% confidence interval (CI) for difference of two rates using Hauck-Anderson method.||||11.6|-4.3|0.3621
82415685|NCT01214720|164541870|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2087||95.0|0.74|1.07|||Log Rank|||||1.07|0.74|0.2087
82415686|NCT02507284|164541900|NON_INFERIORITY|Results for the secondary safety endpoint, adverse events (AEs) in study subjects, was performed using a test for non-inferiority with a threshold of 0.50. The null hypothesis is that the treatment minus placebo proportion difference is greater than (or equal to) the margin of 0.50 and the alternative hypothesis is that the difference is less than 0.50.|Risk Ratio (RR)|0.025||||0.5|ONE_SIDED|97.5|||||t-test, 1 sided|||||||0.50
82415687|NCT01033071|164541901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|||<|0.001||95.0|-7.6|-3.1||"Overall Type 1 error rate of 0.05 controlled using 'Closed Testing' principle (hypothesis of all treatment groups equal first tested at 0.05 significance level; upon rejection of this hypothesis, pairwise comparison was tested at the 0.05 level."|ANCOVA|||Analysis of covariance (ANCOVA) model with treatment group as a fixed effect and baseline value as a covariate.||-3.1|-7.6|<0.001
82447435|NCT03281304|164603576|OTHER||Adjusted (weighted) difference|11.4|||||TWO_SIDED|95.0|-4.2|26.4||||||Month 18: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||26.4|-4.2|
82532821|NCT01115998|164763181|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon Signed-Rank Test|||"Reactive scale~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||>0.10
82415688|NCT01033071|164541901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||<|0.001|TWO_SIDED|95.0|-9.2|-4.6||"Overall Type 1 error rate of 0.05 controlled using 'Closed Testing' principle (hypothesis of all treatment groups equal first tested at 0.05 significance level; upon rejection of this hypothesis, pairwise comparison was tested at the 0.05 level."|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.6|-9.2|<0.001
82415689|NCT01033071|164541904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|||<|0.001|TWO_SIDED|95.0|-9.4|-4.7||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.7|-9.4|<0.001
82415690|NCT01033071|164541904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-11.5|-6.6||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-6.6|-11.5|<0.001
82415691|NCT01033071|164541906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|||<|0.001|TWO_SIDED|95.0|-8.5|-4.3||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-4.3|-8.5|<0.001
82415692|NCT01033071|164541906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.0|-6.7||Tested at the 0.05 significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate.||-6.7|-11.0|<0.001
82415693|NCT02564978|164541919|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.39|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.39
82415694|NCT02564978|164541920|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.48|TWO_SIDED|95.0|-0.06|0.03||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.03|-0.06|0.48
82415695|NCT02564978|164541920|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.15|TWO_SIDED|95.0|-0.24|0.04||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.04|-0.24|0.15
82415696|NCT02564978|164541920|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.15|TWO_SIDED|95.0|-0.09|0.01||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes (Study eye + QFE) together. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.01|-0.09|0.15
82415697|NCT02564978|164541921|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.05||0.61|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.61
82415698|NCT02564978|164541921|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.08||0.43|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||The estimate was the difference in rates of change in mean of appropriately transformed GA area between the treatment phase and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on qualifying fellow eyes alone. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.43
82415699|NCT02564978|164541921|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.89|TWO_SIDED|||||Result of statistical analyses were considered significant if the p-value from the one-sided test was \<0.025. No adjustments for multiplicity were made.|Mixed Models Analysis||Study eye + QFE: study \& qualifying fellow eyes analyzed as separate observations. Estimate: difference in rate of change in mean of appropriately transformed GA area between treatment and run-in phase.|Analysis: linear spline regression with fixed knot @ Month 9 on study and qualifying fellow eyes together. Null hypothesis: difference in rates of change in mean of square-root transformed GA area between treatment phase \& run-in phase \>= 0. Square root transformation used to satisfy the linear trend assumption. Missing values: treated as missing completely at random. Covariance structure of random effect that provided best model fit chosen (Spatial Power). One-sided Type I error rate: 2.5%.||||0.89
82576520|NCT04624243|164862885|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 PANSS PSS change from baseline|LS Mean Difference|-1.3||||0.096|TWO_SIDED|97.5|-3.1|0.5|||ANCOVA|||||0.5|-3.1|0.096
82415700|NCT02564978|164541922|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.44|TWO_SIDED|95.0|-0.4|0.9||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.9|-0.4|0.44
82415701|NCT02564978|164541922|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.21|TWO_SIDED|95.0|-0.8|0.2||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.2|-0.8|0.21
82415702|NCT02564978|164541922|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.52|TWO_SIDED|95.0|-0.4|0.8||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rates of change in BCVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.8|-0.4|0.52
82415703|NCT02564978|164541923|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.48|TWO_SIDED|95.0|-0.4|0.9||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.9|-0.4|0.48
82415704|NCT02564978|164541923|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.09|TWO_SIDED|95.0|-0.9|0.1||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.1|-0.9|0.09
82415705|NCT02564978|164541923|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.54|TWO_SIDED|95.0|-0.4|0.7||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rates of change in LLVA between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||0.7|-0.4|0.54
82415706|NCT02564978|164541924|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.2|TWO_SIDED|95.0|-0.4|1.8||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on study eyes alone. Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||1.8|-0.4|0.20
82415707|NCT02564978|164541924|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.02|TWO_SIDED|95.0|0.4|3.1||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided|||Analysis: two-sided Student's paired t-test on qualifying fellow eyes alone. Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||3.1|0.4|0.02
82415708|NCT02564978|164541924|SUPERIORITY|Number of eyes contributing to this analysis exceeds the number of eyes contributing to the study eye only analysis since one participant had relevant data for the qualifying fellow eye but not the study eye.|Mean Difference (Final Values)|1.0||||0.06|TWO_SIDED|95.0|0.0|2.0||Result of statistical analyses were considered significant if the p-value from the two-sided Student's paired t-test was \<0.05. No adjustments for multiplicity were made.|t-test, 2 sided||No. of units analyzed = no. of study eyes + no. qualifying fellow eyes (QFE). However, the value contributing to analysis is the avg. of study eye \& QFE from a participant if both values are available, otherwise equal to eye with data available.|Analysis: two-sided Student's paired t-test on study and qualifying fellow eyes together (Study eye + QFE). Null hypothesis: difference in the mean rate of change of central retinal thickness as measured on OCT between the treatment phase and run-in phase is not equal to 0. Missing values: treated as missing completely at random. Two-sided Type I error rate: 5%.||2.0|0.0|0.06
82415709|NCT01501513|164541936|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82426558|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.1|-2.1|<0.0001
82576521|NCT04624243|164862885|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 PANSS PSS change from baseline|LS Mean Difference|-1.4||||0.094|TWO_SIDED|97.5|-3.2|0.5|||ANCOVA|||||0.5|-3.2|0.094
82415710|NCT05675020|164542018|OTHER|The descriptive analysis yields frequencies and percentages for categorical variables. The statistical analysis was conducted using IBM SPSS V27.0. We analyzed the percentage of correct responses for knowledge survey questions from pre- and post-intervention survey responses.|||||||||||||||||Participant data was collected from the REDCap pre- and post-intervention questionnaires completed by the adolescents and parents/legal guardians that participated in the project. Data was collected from October to December 2022. The sample size was nine parent-adolescent dyads. Descriptive analysis was used to assess differences in sociodemographic variables, including age, gender, race, material status, employment status, salary, height, and weight. The descriptive analysis yields frequencies and percentages for categorical variables. The statistical analysis was conducted using IBM SPSS V27.0.|||
82415711|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|115.78|||||TWO_SIDED|90.0|107.04|125.22|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||125.22|107.04|
82415712|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Astellas Ratio|103.7|||||TWO_SIDED|90.0|95.91|112.12|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.12|95.91|
82415713|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|99.79|||||TWO_SIDED|90.0|92.3|107.89|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.89|92.30|
82415714|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio|103.65|||||TWO_SIDED|90.0|95.83|112.11|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 and Cmax parameters||112.11|95.83|
82415715|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X100|101.7|||||TWO_SIDED|90.0|94.03|110.0|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 and parameters||110.0|94.03|
82415716|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddys Ratio X 100|111.64|||||TWO_SIDED|90.0|103.26|120.7|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.70|103.26|
82415717|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|116.02|||||TWO_SIDED|90.0|107.27|125.49|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||125.49|107.27|
82415718|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|111.7|||||TWO_SIDED|90.0|103.27|120.81|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.81|103.27|
82415719|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|113.84|||||TWO_SIDED|90.0|105.3|123.08|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||123.08|105.30|
82415720|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan Ratio X 100|103.92|||||TWO_SIDED|90.0|96.08|112.4|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.40|96.08|
82532822|NCT01115998|164763181|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon Signed-Rank Test|||"Self Initiated Scale~Null hypothesis: The change scores of children in the power mobility and control groups will not differ from baseline to 12 months."||||>0.10
82415721|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Panacea Ratio x 100|100.05|||||TWO_SIDED|90.0|92.5|108.21|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||108.21|92.50|
82415722|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|101.97|||||TWO_SIDED|90.0|94.28|110.29|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||110.29|94.28|
82415723|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|96.28|||||TWO_SIDED|90.0|89.05|104.09|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.09|89.05|
82415724|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|98.12|||||TWO_SIDED|90.0|90.72|106.12|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||106.12|90.72|
82415725|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|101.92|||||TWO_SIDED|90.0|94.27|110.19|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||110.19|94.27|
82576522|NCT04624243|164862886|SUPERIORITY|It was hypothesized that MK-8189 16 mg is superior to placebo in reducing Week 6 CGI-S change from baseline|LS Mean Difference|-0.2||||0.254|TWO_SIDED|97.5|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.254
82532823|NCT02819479|164763183|OTHER||eta^2|0.37||||0.012|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(1,14) = 8.29||CHANGE IN VOLUME OF RADIATION NECROSIS: To explore durability of radiographic responses, we invoked a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.012
82415726|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|109.75|||||TWO_SIDED|90.0|100.42|119.25|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||119.25|100.42|
82415727|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|99.76|||||TWO_SIDED|90.0|91.28|109.03|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||109.03|91.28|
82415728|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|101.63|||||TWO_SIDED|90.0|92.99|111.06|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||111.06|92.99|
82415729|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|106.2|||||TWO_SIDED|90.0|97.17|116.06|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||116.06|97.17|
82415730|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|104.09|||||TWO_SIDED|90.0|95.25|113.75|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||113.75|95.25|
82415731|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddy Ratio X 100|110.02|||||TWO_SIDED|90.0|100.66|120.24|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||120.24|100.66|
82415732|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|108.0|||||TWO_SIDED|90.0|98.82|118.02|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||118.02|98.82|
82415733|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|103.34|||||TWO_SIDED|90.0|94.56|112.94|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||112.94|94.56|
82415734|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|105.44|||||TWO_SIDED|90.0|96.48|115.23|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||115.23|96.48|
82415735|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan Ration X 100|98.16|||||TWO_SIDED|90.0|89.82|107.28|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.28|89.82|
82415736|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Panacea Ratio X 100|93.93|||||TWO_SIDED|90.0|85.96|102.65|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||102.65|85.96|
82415737|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|95.84|||||TWO_SIDED|90.0|87.69|104.74|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.74|87.69|
82415738|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|95.69|||||TWO_SIDED|90.0|87.56|104.58|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||104.58|87.56|
82415739|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|97.63|||||TWO_SIDED|90.0|89.34|107.71|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||107.71|89.34|
82415740|NCT02014103|164542021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Pancea/Sandoz Ratio X 100|102.03|||||TWO_SIDED|90.0|93.36|111.51|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed AUC 0-12 parameters||111.51|93.36|
82447436|NCT03281304|164603576|OTHER||Adjusted (weighted) difference|10.0|||||TWO_SIDED|95.0|-5.8|25.2||||||Month 30: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||25.2|-5.8|
82532824|NCT02819479|164763183|OTHER||eta^2|0.19||||0.09|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(1,14) = 3.29||CHANGE IN VOLUME OF CEREBRAL EDEMA: To explore durability of radiographic responses, we invoked a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.09
82415741|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|141.91|||||TWO_SIDED|90.0|125.73|160.16|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||160.16|125.73|
82415742|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|104.13|||||TWO_SIDED|90.0|92.33|117.45|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||117.45|92.33|
82415743|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astellas Ratio X 100|116.02|||||TWO_SIDED|90.0|102.87|130.87|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||130.87|102.87|
82415744|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|108.92|||||TWO_SIDED|90.0|96.51|122.94|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||122.94|96.51|
82415745|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|94.06|||||TWO_SIDED|90.0|83.33|106.16|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||106.16|83.33|
82415746|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr. Reddys Ratio X 100|136.27|||||TWO_SIDED|90.0|120.82|153.7|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||153.70|120.82|
82415747|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|122.31|||||TWO_SIDED|90.0|108.37|138.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||138.04|108.37|
82447437|NCT03281304|164603576|OTHER||Adjusted (weighted) difference|2.9|||||TWO_SIDED|95.0|-13.0|18.5||||||Month 42: Adjusted (weighted) difference and its 95% CI based on normal approximation for the difference in binomial proportions.||18.5|-13.0|
82447438|NCT03208088|164603590|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|95.0|0.1|11.6|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 1 - Control.|||11.6|0.1|
82532825|NCT02819479|164763184|OTHER||eta^2|0.29||||0.02|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,34) = 2.74||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) TOTAL SCORES were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance)||||0.02
82532826|NCT02819479|164763185|OTHER||eta^2|0.37||||0.019|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,34) = 3.17||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) DAYS OF HEADACHE were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.019
82415748|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|130.28|||||TWO_SIDED|90.0|115.43|147.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||147.04|115.43|
82415749|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|150.88|||||TWO_SIDED|90.0|133.77|170.18|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||170.18|133.77|
82415750|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Mylan Ratio X 100|89.75|||||TWO_SIDED|90.0|79.52|101.3|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||101.30|79.52|
82415751|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Panacea Ratio X 100|95.6|||||TWO_SIDED|90.0|84.71|107.9|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||107.90|84.71|
82447439|NCT03208088|164603590|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-4.0|8.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 2 - Control.|||8.1|-4.0|
82447440|NCT03208088|164603591|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.06|||TWO_SIDED|95.0|-7.5|4.6|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 3 - Control.|||4.6|-7.5|
82447441|NCT03208088|164603591|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least Square Mean|-3.4|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-9.0|2.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test 4 - Control.|||2.3|-9.0|
82415752|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Sandoz Ratio X 100|110.72|||||TWO_SIDED|90.0|98.1|124.96|||||Bioequivalence is established when 90% confidence interval falls within 80-125|||124.96|98.10|
82415753|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|106.52|||||TWO_SIDED|90.0|94.44|120.15|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||120.15|94.44|
82415754|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|123.36|||||TWO_SIDED|90.0|109.3|139.23|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||139.23|109.30|
82415755|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|115.81|||||TWO_SIDED|90.0|102.68|130.62|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||130.62|102.68|
82415756|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Astellas Ratio X 100|112.96|||||TWO_SIDED|90.0|100.32|127.2|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||127.20|100.32|
82415757|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Astellas Ratio X 100|101.75|||||TWO_SIDED|90.0|90.37|114.57|||||Bioequivalence is established when 90% confidence interval falls within 80-125|||114.57|90.37|
82415758|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Astella Ratio X 100|113.52|||||TWO_SIDED|90.0|100.82|127.83|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||127.83|100.82|
82415759|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Astellas Ratio X 100|99.16|||||TWO_SIDED|90.0|88.06|111.64|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||111.64|88.06|
82415760|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Sandoz/Astellas Ratio X 100|95.57|||||TWO_SIDED|90.0|84.89|107.61|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||107.61|84.89|
82415761|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Dr Reddy Ratio X 100|111.01|||||TWO_SIDED|90.0|98.59|125.0|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||125.00|98.59|
82415762|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Mylan Ratio X 100|99.51|||||TWO_SIDED|90.0|88.38|112.04|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||112.04|88.38|
82415763|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Panacea Ratio X 100|113.93|||||TWO_SIDED|90.0|101.18|128.28|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||128.28|101.18|
82415764|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Accord/Sandoz Ratio X 100|118.19|||||TWO_SIDED|90.0|104.96|133.08|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||133.08|104.96|
82415765|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr Reddys/Mylan|89.64|||||TWO_SIDED|90.0|79.61|100.93|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||100.93|79.61|
82415766|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Panacea Ratio X 100|102.63|||||TWO_SIDED|90.0|91.15|115.55|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||115.55|91.15|
82576523|NCT04624243|164862886|SUPERIORITY|It was hypothesized that MK-8189 24 mg is superior to placebo in reducing Week 6 CGI-S change from baseline|LS Mean Difference|0.0||||0.959|TWO_SIDED|97.5|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.959
82415767|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Dr. Reddys/Sandoz Ratio X 100|106.46|||||TWO_SIDED|90.0|94.55|119.88|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||119.88|94.55|
82415768|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Panacea Ratio X 100|114.49|||||TWO_SIDED|90.0|110.68|128.92|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||128.92|110.68|
82415769|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Mylan/Sandoz Ratio X 100|118.77|||||TWO_SIDED|90.0|105.48|133.74|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||133.74|105.48|
82576524|NCT04624243|164862890|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-8.5|||<|0.001|TWO_SIDED|97.5|-10.4|-6.5|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-6.5|-10.4|<0.001
82415770|NCT02014103|164542022|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% confidence interval falls within 80-125|Geometric Panacea/Sandoz Ratio X 100|103.74|||||TWO_SIDED|90.0|92.13|116.81|||||Bioequivalence is established when 90% confidence interval falls within 80-125|Analysis of variance (PROC MIXED) was performed on log transformed Cmax parameters||116.81|92.13|
82415771|NCT05638737|164542024|SUPERIORITY|One-sided test where a negative change in relative to baseline is favourable|%-change in relative to base vs placebo|7.5||||0.893|TWO_SIDED|95.0|-4.1|20.5|||Mixed Models Analysis|Participant as random effect; treatment, visit and trt:vis interaction as fixed effects; baseline ALT as covariate. Model uses log-scaled variables.||||20.5|-4.1|0.893
82415772|NCT05638737|164542025|SUPERIORITY|One-sided test where a negative change in relative to baseline is favourable|%-change in relative to base vs placebo|-0.9||||0.396|TWO_SIDED|95.0|-7.5|6.1|||Mixed Models Analysis|Participant as random effect; treatment, visit and trt:vis interaction as fixed effects; baseline Pro-C3 as covariate. Model uses log-scaled variables||||6.1|-7.5|0.396
82415773|NCT00567580|164542027|SUPERIORITY||||||<|0.001||||||One-sided significance level = 0.001|Z test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||<0.001
82415774|NCT00567580|164542027|SUPERIORITY|||||||0.003|||||||Z-test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||0.003
82415775|NCT00567580|164542027|SUPERIORITY||||||<|0.001|||||||Z-test|||Alternative hypotheses: 10% improvement in 5-year FFP in Arm 2 and 20% improvement in Arm 3, both relative to Arm 1, which has an assumed 5-year FFP of 70%. Sample size of 1587 (529/arm) with overall one-sided 0.025 alpha provides 90% power. Interim analyses (reported here) tested at one-sided significance level of 0.001. P\<0.001 indicates comparison crossed interim efficacy boundary. See Limitations and Caveats section.||||<0.001
82576525|NCT04624243|164862890|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-7.3|||<|0.001|TWO_SIDED|97.5|-9.3|-5.2|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-5.2|-9.3|<0.001
82576526|NCT04624243|164862891|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-6.0|||<|0.001|TWO_SIDED|97.5|-7.4|-4.6|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-4.6|-7.4|<0.001
82415776|NCT00567580|164542028|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|97.5|0.45|0.72||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.72|0.45|<0.001
82415777|NCT00567580|164542028|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|97.5|0.51|0.89||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||0.89|0.51|<0.001
82415778|NCT00567580|164542028|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|97.5|0.3|0.51||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.51|0.30|<0.001
82415779|NCT00567580|164542029|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.137|TWO_SIDED|97.5|0.39|1.39||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.39|0.39|0.137
82576527|NCT04624243|164862891|SUPERIORITY|Estimated Treatment Difference vs Risperidone|LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|97.5|-7.0|-4.2|||ANCOVA|Covariates were treatment, stratum (US Black, US-Non-Black, Other), gender (male, female), and with baseline value, the duration of illness and age||||-4.2|-7.0|<0.001
82576528|NCT03119233|164862998|OTHER||Lower 97.5% Exact Confidence Limit|68.1|||||ONE_SIDED|97.5|60.9|||||||"The primary effectiveness endpoint is defined as primary patency at 12 months as evidenced by a peak systolic velocity ratio (PSVR)~≤2.5 from DUS and no clinically-driven re-intervention within the stented segment. The primary effectiveness endpoint hypotheses are:~* H0: 12-month success rate of the PQ Bypass System ≤60.4%~* HA: 12-month success rate of the PQ Bypass System \>60.4%"|||60.9|
82415780|NCT00567580|164542029|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.007|TWO_SIDED|97.5|0.16|0.95||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||0.95|0.16|0.007
82415781|NCT00567580|164542029|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|97.5|0.12|0.68||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.68|0.12|<0.001
82415782|NCT00567580|164542030|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.01|TWO_SIDED|97.5|0.14|1.01||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.01|0.14|0.010
82415783|NCT00567580|164542030|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.177|TWO_SIDED|97.5|0.14|2.3||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||2.30|0.14|0.177
82415784|NCT00567580|164542030|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|97.5|0.06|0.71||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.71|0.06|<0.001
82415785|NCT00567580|164542031|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.105|TWO_SIDED|97.5|0.49|1.22||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.22|0.49|0.105
82415786|NCT00567580|164542031|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.022|TWO_SIDED|97.5|0.36|1.06||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.06|0.36|0.022
82415787|NCT00567580|164542031|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|97.5|0.29|0.81||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||0.81|0.29|<0.001
82415788|NCT00567580|164542032|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.137|TWO_SIDED|97.5|0.35|1.43||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.43|0.35|0.137
82577072|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.121||0.3326|TWO_SIDED|95.0|-0.12|0.36|||MMRM|||Suicide, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.12|0.3326
82415789|NCT00567580|164542032|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.141|TWO_SIDED|97.5|0.3|1.54||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.54|0.30|0.141
82415790|NCT00567580|164542032|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.014|TWO_SIDED|97.5|0.21|1.03||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.03|0.21|0.014
82415791|NCT00567580|164542033|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.235|TWO_SIDED|97.5|0.54|1.38||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.38|0.54|0.235
82415792|NCT00567580|164542033|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.481|TWO_SIDED|97.5|0.61|1.6||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT + STAD|||1.60|0.61|0.481
82415793|NCT00567580|164542033|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.213|TWO_SIDED|97.5|0.53|1.35||One-sided significance level = 0.0125|Log Rank||Reference level = PBRT Alone|||1.35|0.53|0.213
82415794|NCT00567580|164542034|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.001|TWO_SIDED|97.5|1.81|3.37||One-sided significance level = 0.025|Regression, Logistic|Model was adjusted for entry PSA level, pathology, seminal vesicle involvement, Gleason score, race, and age.|Reference level = PBRT Alone|Acute grade 2+ acute adverse events||3.37|1.81|<0.001
82415795|NCT00567580|164542034|SUPERIORITY||Odds Ratio (OR)|1.35||||0.007|TWO_SIDED|97.5|1.03|1.77||One-sided significance level = 0.025|Regression, Logistic|Model was adjusted for entry PSA level, pathology, seminal vesicle involvement, Gleason score, race, and age.|Reference level = PBRT + STAD|Acute grade 2+ acute adverse events||1.77|1.03|0.007
82415796|NCT00567580|164542034|SUPERIORITY||Odds Ratio (OR)|2.04||||0.002|TWO_SIDED|97.5|1.16|3.6||One-sided significance level = 0.025|Regression, Logistic|Univariate model was used due to the low number of events.|Reference level = PBRT Alone|Acute grade 3+ acute adverse events||3.60|1.16|0.002
82415797|NCT00567580|164542034|SUPERIORITY||Odds Ratio (OR)|1.47||||0.025|TWO_SIDED|95.0|0.975|2.27||One-sided significance level = 0.025|Regression, Logistic|Univariate model was used due to the low number of events.|Reference level = PBRT + STAD|Acute grade 3+ adverse events||2.27|0.975|0.025
82415798|NCT00567580|164542035|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.268|TWO_SIDED|97.5|0.88|1.26||One-sided significance level = 0.025|Log Rank||Reference level = PBRT Alone|Late grade 2+ adverse events||1.26|0.88|0.268
82415799|NCT00567580|164542035|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.101|TWO_SIDED|97.5|0.93|1.32||One-sided significance level = 0.025|Log Rank||Reference level = PBRT + STAD|Late grade 2+ adverse events||1.32|0.93|0.101
82415800|NCT00567580|164542035|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.119|TWO_SIDED|97.5|0.83|1.8||One-sided significance level = 0.025|Log Rank||Reference level = PBRT Alone|Late grade 3+ adverse events||1.80|0.83|0.119
82415801|NCT00567580|164542035|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.17|TWO_SIDED|97.5|0.82|1.65||One-sided significance level = 0.025|Log Rank||Reference level = PBRT + STAD|Late grade 3+ adverse events||1.65|0.82|0.170
82415802|NCT01734928|164542082|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.001|TWO_SIDED|95.0|0.49|0.77|||Based on Cox proportional hazards model|||||0.77|0.49|0.001
82415803|NCT01734928|164542083|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.571|TWO_SIDED|95.0|0.77|1.15|||Log Rank|The p-value is based on a stratified log-rank test with stratification factors as above Cox model.|Based on Cox proportional hazards model, comparing the hazard functions associated with treatment groups, stratified by age, prior number of anti-myeloma regimens, and beta-2 macroglobulin at Screening.|||1.15|0.77|0.571
82415804|NCT01734928|164542085|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.064|TWO_SIDED|95.0|0.56|1.02|||Unstratified log-rank test|The p-value is based on an unstratified log-rank test.|Based on Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.02|0.56|0.064
82415805|NCT01778985|164542098|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
82415806|NCT01778985|164542099|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82415807|NCT01778985|164542100|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
82415808|NCT01778985|164542101|SUPERIORITY_OR_OTHER|||||||0.088|||||||t-test, 2 sided|t(18)=1.78, p=0.088||||||0.088
82415809|NCT01778985|164542102|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82415810|NCT01778985|164542103|SUPERIORITY_OR_OTHER|||||||0.91||||||t(28)=0.11, p=0.91|t-test, 2 sided|||||||0.91
82415811|NCT01778985|164542104|SUPERIORITY_OR_OTHER|||||||0.1||||||t(18)=1.69, p=.10|t-test, 2 sided|||||||0.10
82415812|NCT01778985|164542105|SUPERIORITY_OR_OTHER|||||||0.02||||||t(10)=2.76, p=0.020|t-test, 2 sided|||||||0.020
82415813|NCT01778985|164542106|SUPERIORITY_OR_OTHER|||||||0.78||||||t(23)=0.28, p=0.78|t-test, 2 sided|||||||0.78
82415814|NCT01778985|164542107|SUPERIORITY_OR_OTHER|||||||0.51||||||t(28)=0.67, p=0.51|t-test, 2 sided|||||||0.51
82415815|NCT01778985|164542108|SUPERIORITY_OR_OTHER|||||||0.24||||||t(23)=1.23, p=0.24|t-test, 2 sided|||||||0.24
82415816|NCT01778985|164542109|SUPERIORITY_OR_OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
82415817|NCT01778985|164542110|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
82415818|NCT01778985|164542111|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82415819|NCT01778985|164542112|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
82415820|NCT01778985|164542113|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
82415821|NCT01778985|164542114|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
82415822|NCT01778985|164542115|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
82415823|NCT01778985|164542116|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82415824|NCT01778985|164542117|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||||||1
82415825|NCT00758043|164542128|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR24planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of -10.5%).|Difference in proportions|4.5|||||TWO_SIDED|95.0|-2.1|11.1||||||Primary efficacy analysis was based on CI estimates (using the normal approximation, confidence limits were constructed for the difference in proportions) to rule out the inferiority of the T12/PR24/eRVR+ treatment regimen relative to the T12/PR48/eRVR+ treatment regimen. SVR24 was defined as undetectable HCV RNA at end of treatment through 24 weeks after the last planned dose.||11.1|-2.1|
82447442|NCT02577016|164603598|SUPERIORITY||Difference in least squares means|-0.83|||<|0.001|TWO_SIDED|95.0|-1.05|-0.62|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-0.62|-1.05|<0.001
82415826|NCT00758043|164542128|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR24planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of -10.5%).|Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.3|8.2||||||SVR24 was defined as below the limit of quantitation at 24 weeks after the planned end of treatment. For subjects who had missing data at week 24 after the planned end of treatment, the week 12 data or the last follow-up time point after week 12 was carried forward for determining SVR24.||8.2|-4.3|
82415827|NCT00758043|164542129|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR at Week 72 planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of 10.5%).|Difference in Proportion|-0.5|||||TWO_SIDED|95.0|-7.7|6.8||||||||6.8|-7.7|
82415828|NCT00758043|164542129|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimated by evaluating the treatment differences in the SVR at Week 72 planned rates (T12PR24/eRVR+ minus T12PR48/eRVR+) and the 95% CI for these groups (the entire 2 sided CI is to the right of the predefined non-inferiority margin of 10.5%).|Odds Ratio, log|0.94|||||TWO_SIDED|95.0|0.49|1.82||||||||1.82|0.49|
82576529|NCT03119233|164862999|OTHER|The rate of freedom from 30-day MAE is expected to be no less than 92%. Based on a PG of 84% and an estimated 30-day freedom from MAE rate of 92% for the PQ Bypass System, a sample size of 169 evaluable subjects provides 88% power to test the primary safety hypothesis at the one-sided alpha level of 0.025. The Exact Test Method and Commercial software PASS14 was used to determine the sample size.|Lower 97.5% Exact Confidence Limit|93.0|||||ONE_SIDED|97.5|88.5|||||||"The primary safety endpoint hypotheses are:~* H0: 30-day Freedom from MAE rate of the PQ Bypass System~  ≤84%~* HA: 30-day Freedom from MAE rate of the PQ Bypass System \>84%"|||88.5|
82415829|NCT05788328|164542147|OTHER||Ratio of Adjusted Geometric Means|86.5|||||TWO_SIDED|90.0|66.05|113.29|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||113.29|66.05|
82576530|NCT02057575|164863003|SUPERIORITY||||||<|0.0001||||||PG324 0.01% vs netarsudil|t-test, 2 sided|||||||<0.0001
82415830|NCT05788328|164542147|OTHER||Ratio of Adjusted Geometric Means|82.64|||||TWO_SIDED|90.0|63.1|108.24|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||108.24|63.10|
82415831|NCT05788328|164542148|OTHER||Ratio of Adjusted Geometric Means|85.65|||||TWO_SIDED|90.0|64.96|112.94|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||112.94|64.96|
82415832|NCT05788328|164542148|OTHER||Ratio of Adjusted Geometric Means|80.81|||||TWO_SIDED|90.0|61.28|106.55|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||106.55|61.28|
82415833|NCT05788328|164542149|OTHER||Ratio of Adjusted Geometric Means|229.11|||||TWO_SIDED|90.0|185.23|283.37|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||283.37|185.23|
82415834|NCT05788328|164542149|OTHER||Ratio of Adjusted Geometric Means|214.73|||||TWO_SIDED|90.0|173.38|265.94|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||265.94|173.38|
82415835|NCT05788328|164542150|OTHER||Ratio of Adjusted Geometric Means|213.05|||||TWO_SIDED|90.0|170.46|266.29|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||266.29|170.46|
82415836|NCT05788328|164542150|OTHER||Ratio of Adjusted Geometric Means|232.32|||||TWO_SIDED|90.0|185.88|290.38|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||290.38|185.88|
82415837|NCT05788328|164542158|OTHER||Ratio of Adjusted Geometric Means|45.25|||||TWO_SIDED|90.0|33.97|60.27|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 80mg QD + DE 150mg (Period 4). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||60.27|33.97|
82415838|NCT05788328|164542158|OTHER||Ratio of Adjusted Geometric Means|47.44|||||TWO_SIDED|90.0|35.62|63.19|||||Ratio was of test to reference of adjusted geometric means. Reference arm was DE 150mg (Period 1) and test arm was PF-07081532 240mg QD + DE 150mg (Period 7). Ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||63.19|35.62|
82576531|NCT02057575|164863003|SUPERIORITY||||||<|0.0001||||||PG324 0.02% vs. netarsudil|t-test, 2 sided|||||||<0.0001
82576532|NCT02057575|164863003|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 0.01% vs. latanoprost||||||<0.0001
82576533|NCT02057575|164863003|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 0.02% vs. latanoprost||||||<0.0001
82647000|NCT03496207|165008919|SUPERIORITY||Difference in Least Squares Means|-269.4|STANDARD_ERROR_OF_MEAN|48.48|<|0.0001|TWO_SIDED|95.0|-365.81|-173.03|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||-173.03|-365.81|<.0001
82415839|NCT05788328|164542163|OTHER||Ratio of Adjusted Geometric Means|176.39|||||TWO_SIDED|90.0|135.51|229.6|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 80 mg QD+rosuvastatin 10 mg (Period 5). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||229.60|135.51|
82415840|NCT05788328|164542163|OTHER||Ratio of Adjusted Geometric Means|221.62|||||TWO_SIDED|90.0|170.26|288.48|||||Ratio was of test to reference of adjusted geometric means. The reference arm was rosuvastatin 10 mg (Period 2) and test arm was PF-07081532 240 mg QD+rosuvastatin 10 mg (Period 8). The ratios (and 90% CIs) were expressed as percentages.|Analysis was performed using mixed effect model with treatment as a fixed effect and participant as a random effect.||288.48|170.26|
82415841|NCT03593629|164542197|NON_INFERIORITY|Non-inferiority margin was defined as -10%|Risk Difference (RD)|2.37|||||ONE_SIDED|95.0|-5.05||||||||||-5.05|
82415842|NCT03593629|164542198|NON_INFERIORITY|non-inferiority margin is defined as -10%|Risk Difference (RD)|-2.6|||||ONE_SIDED|95.0|-8.88||||||||||-8.88|
82415843|NCT03593629|164542199|NON_INFERIORITY|non-inferiority margin is defined as -10%|Risk Difference (RD)|-1.15|||||ONE_SIDED|95.0|-6.89||||||||||-6.89|
82415844|NCT00666978|164542276|SUPERIORITY|The x2 test was used to determine whether there was a difference between treatment groups (bupropion SR vs placebo) in verified 7-day point prevalence abstinence at week 26, imputing the missing participants as smokers.|Odds Ratio (OR)|1.39||||0.23|TWO_SIDED|95.0|0.82|2.35||All tests of statistical significance were two-sided, and all P values less than .05 were considered statistically significant.|t-test, 2 sided||Raw proportions were used to estimate the verified cessation rate in each group and corresponding odds ratio along with its 95% confidence interval .|Based on our previous studies, sample size was determined a priori assuming a two-sided x2 test with a type I error rate of .05, a power of 80%, and a cotinine-verified abstinence rate of 15% in the placebo group and 25% in the bupropion SR group at week 26, with the assumption that those lost to follow-up would be imputed as smokers.||2.35|0.82|.23
82415845|NCT00666978|164542277|OTHER||Odds Ratio (OR)|0.97||||0.0022|TWO_SIDED|95.0|0.95|0.99||This reflects Week 7.|Regression, Logistic||This reflects Week 7.|||0.99|0.95|0.0022
82415846|NCT00666978|164542278|OTHER||Odds Ratio (OR)|2.82|||<|0.05|TWO_SIDED|||||Analysis relied on examining quit rates using linear regression, where the hydroxybupropion was a significant predictor of smoking cessation. CYP2B6 genotype was not a direct significant predictor of cessation in either the placebo or bupropion arm.|Regression, Linear||Bupropion adherent individuals with higher hydroxybupropion levels were more likely to be abstinent at Weeks 3, 7 and 26 compared to individuals with lower hydroxybupropion levels.|||||<0.05
82415847|NCT00875667|164542280|SUPERIORITY||Stratified Hazard Ratio|0.63||||0.012|TWO_SIDED|95.0|0.43|0.9||Stratification factors were: time from diagnosis to first dose, time from last prior anti-lymphoma therapy to first dose, prior stem cell transplant, and MIPI at baseline|Stratified Log Rank Test|||||0.90|0.43|0.012
82532827|NCT02819479|164763186|OTHER||eta^2|0.3||||0.0006|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5,35) = 3.96||To explore durability of clinical response, Migraine Disability Assessment (MIDAS) MIDAS PAIN LEVEL data were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.0006
82415848|NCT00875667|164542281|SUPERIORITY||Stratified Hazard Ratio|0.6||||0.003|TWO_SIDED|95.0|0.43|0.85||Stratification factors were: time from diagnosis to first dose, time from last prior anti-lymphoma therapy to first dose, prior stem cell transplant, and MIPI at baseline|Stratified Log Rank Test||The weights are based on observed events at the time the third DMC meeting was held and based on the difference between observed and expected events at the time of the primary analysis.|||0.85|0.43|0.003
82415849|NCT00875667|164542282|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82415850|NCT00875667|164542283|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82415851|NCT00875667|164542284|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.421|TWO_SIDED|95.0|0.29|1.68|||Log Rank|||||1.68|0.29|0.421
82415852|NCT00875667|164542285|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.875|TWO_SIDED|95.0|0.52|1.74|||Log Rank|||||1.74|0.52|0.875
82415853|NCT00875667|164542286|SUPERIORITY|||||||0.313|||||||Chi-squared|||||||0.313
82415854|NCT00875667|164542287|SUPERIORITY|||||||0.465|||||||Chi-squared|||||||0.465
82415855|NCT00875667|164542288|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.005|TWO_SIDED|95.0|0.45|0.87|||Log Rank|||||0.87|0.45|0.005
82415856|NCT00875667|164542289|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.003|TWO_SIDED|95.0|0.46|0.86|||Log Rank|||||0.86|0.46|0.003
82415857|NCT00875667|164542290|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.046|TWO_SIDED|95.0|0.54|1.0|||Log Rank|||||1.00|0.54|0.046
82415858|NCT00875667|164542291|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.095|TWO_SIDED|95.0|0.58|1.05|||Log Rank|||||1.05|0.58|0.095
82415859|NCT00875667|164542292|SUPERIORITY||Hazard Ratio (HR)|3.91|||<|0.001|TWO_SIDED|95.0|1.95|7.85|||Log Rank|||||7.85|1.95|<0.001
82415860|NCT00875667|164542293|SUPERIORITY||Hazard Ratio (HR)|2.06|||<|0.004|TWO_SIDED|95.0|1.24|3.42|||Log Rank|||||3.42|1.24|<0.004
82415861|NCT00875667|164542294|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.519|TWO_SIDED|95.0|0.62|1.28|||Log Rank|||||1.28|0.62|0.519
82415862|NCT00875667|164542295|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.558|TWO_SIDED|95.0|0.67|1.25|||Log Rank|||||1.25|0.67|0.558
82415863|NCT03019588|164542375|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.29|TWO_SIDED|95.0|0.58|1.36|||Log Rank|One-sided p-value based on log-rank test stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||1.36|0.58|0.2900
82415864|NCT03019588|164542376|SUPERIORITY||Hazard Ratio (HR)|1.77||||0.9954|TWO_SIDED|95.0|1.14|2.74|||Log Rank|One-sided p-value based on log-rank test stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||2.74|1.14|0.9954
82447443|NCT02577016|164603601|SUPERIORITY||Difference in least squares means|-42.5|||<|0.001|TWO_SIDED|95.0|-53.7|-31.2|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-31.2|-53.7|<0.001
82415865|NCT03019588|164542377|SUPERIORITY||Difference in percentage|-6.0||||0.7884|TWO_SIDED|95.0|-21.6|9.3|||Z-test|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by time to progression on first line therapy (\< 6 months vs. ≥ 6 months) and ECOG PS (0 vs. 1).|||9.3|-21.6|0.7884
82415866|NCT00106535|164542414|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415867|NCT00106535|164542414|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415868|NCT00106535|164542415|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415869|NCT00106535|164542415|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415870|NCT00106535|164542416|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415871|NCT00106535|164542416|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82415872|NCT00106535|164542425|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
82415873|NCT00106535|164542425|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
82415874|NCT00106535|164542426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.26|||<|0.0001|TWO_SIDED|95.0|-96.96|-43.56|||ANOVA|Adjusted for region and original treatment group.||||-43.56|-96.96|<0.0001
82532828|NCT02819479|164763187|OTHER||eta^2|0.3||||0.02|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(5, 35) = 2.98||To explore durability of clinical response, Headache Impact Test (HIT-6™) scores were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.02
82532829|NCT02819479|164763188|OTHER||eta^2|0.19||||0.23|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|F(2,14) = 1.62||To explore durability of clinical response, Karnofsky Performance Status Scale (KPS) data were analyzed using a linear mixed model in which we addressed heterogeneity of time points by fitting the most appropriate model among compound symmetry, Huyhn-Felt structure, and an unstructured covariance matrix (multivariate analysis of variance).||||0.23
82415875|NCT00106535|164542426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-85.95|||<|0.0001|TWO_SIDED|95.0|-112.69|-59.22|||ANOVA|Adjusted for region and original treatment group.||||-59.22|-112.69|<0.0001
82415876|NCT00106535|164542428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-148.1|||<|0.0001|TWO_SIDED|95.0|-205.22|-90.98|||ANOVA|Adjusted for region.||||-90.98|-205.22|<0.0001
82532830|NCT02819479|164763189|OTHER||Pearson's r|-0.199||||0.374|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|Z = -0.889||Wilcoxon signed rank test (2-sided) was used to compare the total number of days on steroids in the 12 months prior versus the 12 months immediately following single dose IA Avastin (bevacizumab).||||0.374
82415877|NCT00106535|164542428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-181.4|||<|0.0001|TWO_SIDED|95.0|-238.6|-124.21|||ANOVA|Adjusted for region.||||-124.21|-238.60|<0.0001
82415878|NCT00106535|164542453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5212.28|||<|0.0001|TWO_SIDED|95.0|3139.4|7285.16|||ANOVA|Adjusted for region.||||7285.16|3139.40|<0.0001
82415879|NCT00106535|164542453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7092.76|||<|0.0001|TWO_SIDED|95.0|5066.16|9119.36||Adjusted for region.|ANOVA|||||9119.36|5066.16|<0.0001
82415880|NCT00106535|164542469|SUPERIORITY_OR_OTHER|||||||0.0023||95.0|||||Van Elteren's test|Stratified by region.||||||0.0023
82415881|NCT00106535|164542469|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|||||||<0.0001
82415882|NCT00106535|164542470|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||0.0001
82415883|NCT00106535|164542470|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's test|Stratified by region.||||||<0.0001
82415884|NCT06100250|164542544|OTHER|Paired sample t-test, 2 sided|Mean Difference (Net)|0.82||||0.01|TWO_SIDED|||||A priori threshold for statistical significance = 0.05|Paired sample t-test, 2 sided|Degrees of freedom = 66|Estimation parameter represents the average of the differences between the paired observations (post-intervention score minus pre-intervention score)|Null hypothesis = Mean difference between the paired STI-related knowledge scores (pre-intervention and post-intervention) is 0||||0.01
82415885|NCT06100250|164542546|OTHER|Paired sample t-test, 2 sided|Mean Difference (Net)|-1.29|||<|0.01|TWO_SIDED|||||A priori threshold for statistical significance = 0.05|Paired sample t-test, 2 sided|Degrees of freedom = 47|Estimation parameter represents the average of the differences between the paired observations (post-intervention score minus pre-intervention score)|Null hypothesis = Mean difference between the paired self-efficacy for specimen self-collection scores (pre-intervention and post-intervention) is 0||||<0.01
82415886|NCT04180696|164542570|SUPERIORITY|Endpoint for statistical analysis is the proportion Improved.||||||0.61|||||||Chi-squared|||||||0.61
82415887|NCT04180696|164542571|SUPERIORITY||Odds Ratio (OR)|1.192|STANDARD_ERROR_OF_MEAN|0.367||0.63|TWO_SIDED|95.0|0.579|2.455|||Regression, Logistic|Proportional odds logistic regression model. Baseline NYHA class and time included as fixed covariates.||Due to limited number of subjects with NYHA class III or IV during follow-up, class III, IV, and death were grouped as a single category for analysis.||2.455|0.579|0.63
82415888|NCT04180696|164542572|SUPERIORITY||Hazard Ratio (HR)|1.25|STANDARD_ERROR_OF_MEAN|0.476||0.64|TWO_SIDED|95.0|0.492|3.175|||Regression, Cox|Adjusted for NYHA class and sex.||||3.175|0.492|0.64
82415889|NCT04180696|164542573|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
82415890|NCT04180696|164542574|SUPERIORITY||Hazard Ratio (HR)|1.02|STANDARD_ERROR_OF_MEAN|0.817||0.98|TWO_SIDED|95.0|0.206|5.056|||Regression, Cox|||||5.056|0.206|0.98
82415891|NCT05537571|164542575|SUPERIORITY||Mean Difference (Final Values)|-82.8|||<|0.0001|TWO_SIDED|95.0|-88.19|-77.39|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.39|-88.19|<0.0001
82415892|NCT05537571|164542575|SUPERIORITY||Mean Difference (Final Values)|-81.3|||<|0.0001|TWO_SIDED|95.0|-86.68|-76.0|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-76.0|-86.68|<0.0001
82415893|NCT05537571|164542575|SUPERIORITY||Mean Difference (Final Values)|-85.6|||<|0.0001|TWO_SIDED|95.0|-90.88|-80.26|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-80.26|-90.88|<0.0001
82415894|NCT05537571|164542576|SUPERIORITY||Mean Difference (Final Values)|-83.1|||<|0.0001|TWO_SIDED|95.0|-88.7|-77.57|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.57|-88.7|<0.0001
82415895|NCT05537571|164542576|SUPERIORITY||Mean Difference (Final Values)|-78.7|||<|0.0001|TWO_SIDED|95.0|-84.18|-73.17|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-73.17|-84.18|<0.0001
82415896|NCT05537571|164542576|SUPERIORITY||Mean Difference (Final Values)|-83.0|||<|0.0001|TWO_SIDED|95.0|-88.43|-77.49|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-77.49|-88.43|<0.0001
82415897|NCT05537571|164542577|SUPERIORITY||Mean Difference (Final Values)|-79.2|||<|0.0001|TWO_SIDED|95.0|-85.25|-73.1|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-73.1|-85.25|<0.0001
82415898|NCT05537571|164542577|SUPERIORITY||Mean Difference (Final Values)|-71.8|||<|0.0001|TWO_SIDED|95.0|-77.81|-65.8|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-65.8|-77.81|<0.0001
82415899|NCT05537571|164542577|SUPERIORITY||Mean Difference (Final Values)|-77.1|||<|0.0001|TWO_SIDED|95.0|-83.09|-71.15|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-71.15|-83.09|<0.0001
82415900|NCT05537571|164542578|SUPERIORITY||Mean Difference (Final Values)|-13.3|||<|0.0001|TWO_SIDED|95.0|-18.55|-8.09|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.09|-18.55|<0.0001
82415901|NCT05537571|164542578|SUPERIORITY||Mean Difference (Final Values)|-9.9|||=|0.0002|TWO_SIDED|95.0|-15.02|-4.68|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-4.68|-15.02|=0.0002
82415902|NCT05537571|164542578|SUPERIORITY||Mean Difference (Final Values)|-15.0|||<|0.0001|TWO_SIDED|95.0|-20.1|-9.82|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-9.82|-20.1|<0.0001
82532831|NCT02819479|164763190|OTHER||partial eta^2|0.153||||0.66|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.451||DIGITS FORWARD: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DIGITS FORWARD variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.660
82415903|NCT05537571|164542579|SUPERIORITY||Mean Difference (Final Values)|-12.3|||<|0.0001|TWO_SIDED|95.0|-17.62|-7.08|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.08|-17.62|<0.0001
82415904|NCT05537571|164542579|SUPERIORITY||Mean Difference (Final Values)|-8.6|||=|0.0013|TWO_SIDED|95.0|-13.85|-3.44|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-3.44|-13.85|=0.0013
82415905|NCT05537571|164542579|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-19.2|-8.84|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.84|-19.2|<0.0001
82415906|NCT05537571|164542580|SUPERIORITY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.81|-5.73|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-5.73|-16.81|<0.0001
82415907|NCT05537571|164542580|SUPERIORITY||Mean Difference (Final Values)|-7.2|||=|0.0106|TWO_SIDED|95.0|-12.64|-1.69|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-1.69|-12.64|=0.0106
82415908|NCT05537571|164542580|SUPERIORITY||Mean Difference (Final Values)|-12.6|||<|0.0001|TWO_SIDED|95.0|-18.04|-7.15|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.15|-18.04|<0.0001
82415909|NCT05537571|164542581|SUPERIORITY||Mean Difference (Final Values)|-31.9|||=|0.0051|TWO_SIDED|95.0|-54.07|-9.72|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-9.72|-54.07|=0.0051
82415910|NCT05537571|164542581|SUPERIORITY||Mean Difference (Final Values)|-29.7|||=|0.0081|TWO_SIDED|95.0|-51.62|-7.81|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.81|-51.62|=0.0081
82415911|NCT05537571|164542581|SUPERIORITY||Mean Difference (Final Values)|-25.1|||=|0.0241|TWO_SIDED|95.0|-46.89|-3.33|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-3.33|-46.89|=0.0241
82415912|NCT05537571|164542582|SUPERIORITY||Mean Difference (Final Values)|-29.8|||=|0.0023|TWO_SIDED|95.0|-48.86|-10.76|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-10.76|-48.86|=0.0023
82415913|NCT05537571|164542582|SUPERIORITY||Mean Difference (Final Values)|-27.4|||=|0.0046|TWO_SIDED|95.0|-46.23|-8.58|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.58|-46.23|=0.0046
82532832|NCT02819479|164763190|OTHER||partial eta^2|0.602||||0.1|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 3.78||DIGITS BACKWARD: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DIGITS BACKWARD variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.100
82532833|NCT02819479|164763190|OTHER||partial eta^2|0.532||||0.149|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 2.847||NUMBERS \& LETTERS SPEED: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS SPEED variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.149
82647001|NCT03496207|165008920|SUPERIORITY||Difference in Least Squares Means|-13.9|STANDARD_ERROR_OF_MEAN|50.95||0.7851|TWO_SIDED|95.0|-113.85|86.06|||ANCOVA|ANCOVA was used to compare change from baseline values with randomization stratification factor (WHO functional class) and baseline PVR as covariate.||Analysis based on calculated LS means.||86.06|-113.85|0.7851
82415914|NCT05537571|164542582|SUPERIORITY||Mean Difference (Final Values)|-26.0|||=|0.0068|TWO_SIDED|95.0|-44.67|-7.24|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-7.24|-44.67|=0.0068
82415915|NCT05537571|164542583|SUPERIORITY||Mean Difference (Final Values)|-28.7|||=|0.0057|TWO_SIDED|95.0|-48.91|-8.46|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-8.46|-48.91|=0.0057
82415916|NCT05537571|164542583|SUPERIORITY||Mean Difference (Final Values)|-26.1|||||TWO_SIDED|95.0|-46.13|-6.16||||||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-6.16|-46.13|
82415917|NCT05537571|164542583|SUPERIORITY||Mean Difference (Final Values)|-24.1||||0.0179|TWO_SIDED|95.0|-43.93|-4.2|||ANOVA|||Analysis of variance (ANOVA) was used to test for differences between each active treatment group and the pooled placebo groups in the primary outcome measure.||-4.2|-43.93|0.0179
82415918|NCT00990769|164542601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|5.0|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample size calculation concluded that 20 patients in each group would have 80% power to detect a mean difference of 4 ± 4 with alpha equal to 0.05, as would be determined by a two-sample T test.||||>0.05
82415919|NCT01186419|164542623|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0765|TWO_SIDED||||||t-test, 2 sided|||||||0.0765
82415920|NCT02370394|164542660|SUPERIORITY||Mean Difference (Final Values)|-4.14||||0.4016|TWO_SIDED|95.0|-14.02|5.75|||t-test, 2 sided|Unequal variances handled by Satterthwaite's degrees of freedom||CAS Victimization Total Score at Follow Up||5.75|-14.02|0.4016
82415921|NCT02370394|164542660|SUPERIORITY||Mean Difference (Net)|14.46||||0.0072|TWO_SIDED|95.0|4.11|24.82|||t-test, 2 sided|||Change in CAS Victimization Total score from Baseline to Follow Up||24.82|4.11|0.0072
82415922|NCT02370394|164542661|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6011|TWO_SIDED|95.0|-0.21|0.12|||t-test, 2 sided|||Safety Behavior Change Score at Follow Up||0.12|-0.21|0.6011
82415923|NCT02370394|164542661|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9116|TWO_SIDED|95.0|-0.16|0.15|||t-test, 2 sided|||Change is Safety Behavior Change Score from Baseline to Follow Up||0.15|-0.16|0.9116
82415924|NCT02370394|164542662|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.8646|TWO_SIDED|95.0|-1.62|1.36|||t-test, 2 sided|Unequal variances handled by Satterthwaite's degrees of freedom||EOR Number of issues Effective at Accomplishing at Follow Up||1.36|-1.62|0.8646
82532834|NCT02819479|164763190|OTHER||partial eta^2|0.721||||0.041|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 6.470||NUMBERS \& LETTERS ERRORS: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS ERRORS variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.041
82647002|NCT03496207|165008921|SUPERIORITY||Multiple Imputation Mean Difference|-223.2|STANDARD_ERROR_OF_MEAN|57.45|<|0.0001|TWO_SIDED|95.0|-335.83|-110.49||Comparison of baseline and final value|ANCOVA||Standard multiple imputations are done with imputed values that are within the range of the minimum and maximum observed values using linear regression including baseline measurements.|||-110.49|-335.83|<.0001
82415925|NCT02370394|164542662|SUPERIORITY||Mean Difference (Net)|-0.86||||0.3045|TWO_SIDED|95.0|-2.54|0.82|||t-test, 2 sided|||Change in Number of Issues Effective at Accomplishing from Baseline to Follow Up||0.82|-2.54|0.3045
82415926|NCT02370394|164542663|SUPERIORITY|||||||0.9085|||||||Wilcoxon (Mann-Whitney)|||Motivation Scale at Follow Up||||0.9085
82415927|NCT02370394|164542663|SUPERIORITY|||||||0.3256|||||||Wilcoxon (Mann-Whitney)|||Change in Motivation Scale from Baseline to Follow Up||||0.3256
82415928|NCT02370394|164542664|SUPERIORITY|||||||0.4085|||||||Wilcoxon (Mann-Whitney)|||Readiness at Follow Up||||0.4085
82415929|NCT02370394|164542664|SUPERIORITY|||||||0.2467|||||||Wilcoxon (Mann-Whitney)|||Change in Readiness from Baseline to Follow Up||||0.2467
82415930|NCT00983957|164542707|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.105|||||TWO_SIDED|90.0|1.023|1.195|||||Point estimates and 90% Confidence Interval (CIs) for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.195|1.023|
82415931|NCT00983957|164542708|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.071|||||TWO_SIDED|90.0|0.988|1.16|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.160|0.988|
82415932|NCT00983957|164542709|SUPERIORITY_OR_OTHER||Adjusted geometric mean|1.009|||||TWO_SIDED|90.0|0.951|1.07|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.070|0.951|
82415933|NCT00983957|164542710|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.121|||||TWO_SIDED|90.0|1.018|1.234|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.234|1.018|
82447444|NCT02577016|164603602|SUPERIORITY||Difference in least squares means|-67.0|||<|0.001|TWO_SIDED|95.0|-84.0|-50.0|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-50.0|-84.0|<0.001
82415934|NCT00983957|164542713|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.059|||||TWO_SIDED|90.0|0.988|1.135|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.135|0.988|
82415935|NCT00983957|164542718|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.115|||||TWO_SIDED|90.0|1.063|1.171|||||Point estimates and 90% CIs for treatment differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale.|Mixed effect models were fitted to log-transformed data with treatment as a fixed effect, and measurements within each participant as repeated measurements.||1.171|1.063|
82415936|NCT03055195|164542720|OTHER||Proportions Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC versus Placebo SC has been presented.|||23.3|-1.1|
82415937|NCT03055195|164542722|OTHER||Proportion Difference|-1.0|||||TWO_SIDED|90.0|-14.0|12.6|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 4 has been presented.|||12.6|-14.0|
82415938|NCT03055195|164542722|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 8 has been presented.|||23.3|-1.1|
82415939|NCT03055195|164542722|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 12 has been presented.|||23.3|-1.1|
82415940|NCT03055195|164542722|OTHER||Proportion Difference|11.0|||||TWO_SIDED|90.0|-1.1|23.3|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 16 has been presented.|||23.3|-1.1|
82415941|NCT03055195|164542722|OTHER||Proportion Difference|6.0|||||TWO_SIDED|90.0|-3.3|14.4|||||Difference in Proportions between Mepolizumab 100 mg SC Versus Placebo SC at Week 20 has been presented.|||14.4|-3.3|
82415942|NCT01967277|164542816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||H0: µL ≤ µs Versus Ha: µL \> µs||||<0.001
82532835|NCT02819479|164763190|OTHER||partial eta^2|0.566||||0.124|TWO_SIDED||||||One way Repeat Meas ANOVA|F (2,5) = 3.256||NUMBERS \& LETTERS EFFICIENCY: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NUMBERS \& LETTERS EFFICIENCY variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.124
82532836|NCT02819479|164763190|OTHER||partial eta^2|0.042||||0.898|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.110||NAMING: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the NAMING variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.898
82647003|NCT00068445|165008942|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.56
82415943|NCT01028560|164542832|OTHER||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.22||0.38|TWO_SIDED|95.0|-0.24|0.63|||Mixed Models Analysis||The above is the slope for immunotherapy group . The (quadratic) slope is for 1 month increase in time.|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection were smoothed over two month period with a median score values.||0.63|-0.24|0.38
82415944|NCT01028560|164542832|OTHER||Slope|0.55|STANDARD_ERROR_OF_MEAN|0.22||0.013|TWO_SIDED|95.0|0.11|0.99|||Mixed Models Analysis|The above (quadratic) slope is for control group|The above is the (quadratic) slope is for control group and is for 1 month increase in time.|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection were smoothed over two month period with median score values.||0.99|0.11|0.013
82415945|NCT01028560|164542832|OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|4.97||0.978|TWO_SIDED|95.0|-11.76|12.03||Post estimation means were tested between the intervention arms after LME model at year 1 and the p- values were adjusted using Bonferroni correction.|contrast testing post mixed model||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||12.03|-11.76|0.978
82415946|NCT01028560|164542832|OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|5.89||0.77|TWO_SIDED|95.0|-15.83|12.38||Post estimation means were tested between the intervention arms after LME model at year 2 and the p- value was unadjusted p value|contrast testing post mixed model]||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||12.38|-15.83|0.77
82415947|NCT01028560|164542832|OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|7.39||0.8|TWO_SIDED|95.0|-19.54|15.84||Post estimation means were tested between the intervention arms after LME model at year 3 and the p- values were adjusted using Bonferroni correction.|contrast testing post mixed model||The difference is IT-Control group and the confidence interval is Bonferroni CI|Linear mixed effects model (LME) with random coefficients model was fitted with Restricted Maximum Likelihood estimation. The functional form of the model was quadratic and the model adjusted for gender, race, ethnicity and number of asthma hospitalizations since birth. Unequal data collection between immunotherapy and control groups were smoothed over two month period with a median score values.||15.84|-19.54|0.80
82415948|NCT01028560|164542833|SUPERIORITY|||||||0.677||||||Chi-square test (proportion of new sensitizations versus unchanged or lost sensitizations in each group, intention-to treat analysis).|Chi-squared|||||||0.677
82647004|NCT00068445|165008943|SUPERIORITY|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82647005|NCT00068445|165008944|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82647006|NCT00068445|165008945|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82415949|NCT01028560|164542834|SUPERIORITY||Slope|0.56||||0.546|TWO_SIDED|95.0|-2.18|3.29||Test of parallelism (group x time) hypothesis P-value.|covariance pattern (rep. measure) model|Within group difference p-values ( baseline vs 3-years) in control and intervention arm were 0.56 and 0.20 respectively.|The estimated slope reported is for year 3 from the covariance pattern model with autoregressive covariance structure.|Covariance Pattern Model with autoregressive covariance structure with REML (Restricted Estimation of Maximum Likelihood) with time and role as categorical variable was modeled.||3.29|-2.18|0.5460
82647007|NCT00068445|165008946|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82647008|NCT00068445|165008947|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82647009|NCT00068445|165008948|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82415950|NCT01028560|164542835|SUPERIORITY||Rate ratio|1.27||||0.289|TWO_SIDED|95.0|0.82|1.96||Poisson regression model for treatment arm adjusting for gender, race and history of hospitalization was used to analyze the corticosteroid burst and the time period contributed by each child in years were fitted as offset.|Poisson regression|Poisson regression model with robust variance with contributed person years used as offset was modeled.||Null hypothesis = Incidence rate of CSB in each group are same. Poisson regression adjusting for gender, race and history of hospitalization was used to analyze the corticosteroid burst.||1.96|0.82|0.289
82415951|NCT01960842|164542843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.64|||<|0.001|TWO_SIDED|95.0|-5.78|-3.5|||One-sample t-test, 2-sided|||||-3.50|-5.78|<0.001
82415952|NCT01960842|164542844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.58|||<|0.001|TWO_SIDED|95.0|4.21|6.95|||One-sample t-test, 2-sided|||||6.95|4.21|<0.001
82415953|NCT01960842|164542845|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.0|||<|0.001|TWO_SIDED|95.0|-16.3|-7.7|||One-sample t-test, 2-sided|||||-7.7|-16.3|<0.001
82415954|NCT01960842|164542846|SUPERIORITY_OR_OTHER||Mean change from score = 4|-2.1|STANDARD_DEVIATION|0.77|<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||The p-value is based on a one-sample Wilcoxon signed-rank test with the hypothesis of no change (score = 4).||||<0.001
82532837|NCT02819479|164763190|OTHER||partial eta^2|0.107||||0.754|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.299||LIST LEARNING LIST IMMEDIATE RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the LIST LEARNING LIST IMMEDIATE RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.754
82532838|NCT02819479|164763190|OTHER||partial eta^2|0.751||||0.031|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 7.556||LIST LEARNING LIST LONG DELAYED RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the LIST LEARNING LIST LONG DELAYED RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.031
82576534|NCT01621776|164863125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|145.1|STANDARD_DEVIATION|78.04||0.971||95.0|129.73|160.47|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||160.47|129.73|.971
82647010|NCT00068445|165008949|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82647011|NCT00068445|165008950|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82647012|NCT00068445|165008951|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82647013|NCT01155284|165008952|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|||||The p value between treatment groups of C-peptide log (AUC+1) with covariate analysis adjusted for age, sex, baseline C-peptide concentration and duration of diabetes.|ANCOVA|||||||0.81
82647014|NCT01155284|165008953|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED||||||ANCOVA|||||||0.869
82415955|NCT01960842|164542847|SUPERIORITY_OR_OTHER||Mean change from score = 4|-2.0|STANDARD_DEVIATION|0.94|<|0.001|TWO_SIDED||||||Wilcoxon signed-rank test|||The p-value is based on a one-sample Wilcoxon signed-rank test with the hypothesis of no change (score = 4).||||<0.001
82415956|NCT01960842|164542848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|||=|0.101|TWO_SIDED|95.0|-4.0|0.4|||One-sample t-test, 2-sided|||||0.4|-4.0|=0.101
82415957|NCT01960842|164542849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1|||=|0.182|TWO_SIDED|95.0|-5.3|1.1|||One-sample t-test, 2-sided|||||1.1|-5.3|=0.182
82415958|NCT01960842|164542850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|||=|0.032|TWO_SIDED|95.0|-1.9|-0.09|||One-sample t-test, 2-sided|||||-0.09|-1.90|=0.032
82415959|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.2|||<|0.001|TWO_SIDED|95.0|-27.8|-10.6|||One-sample t-test, 2-sided|||Mobility Domain analysis.||-10.6|-27.8|<0.001
82415960|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.5|||=|0.059|TWO_SIDED|95.0|-13.3|0.3|||One-sample t-test, 2-sided|||Emotional Well-Being Domain analysis.||0.3|-13.3|=0.059
82415961|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.5|||=|0.07|TWO_SIDED|95.0|-15.6|0.6|||One-sample t-test, 2-sided|||Stigma Domain analysis.||0.6|-15.6|=0.070
82415962|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5|||=|0.591|TWO_SIDED|95.0|-7.3|4.2|||One-sample t-test, 2-sided|||Social Support Domain analysis.||4.2|-7.3|=0.591
82415963|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-20.7|-7.3|||One-sample t-test, 2-sided|||Cognition Domain analysis.||-7.3|-20.7|<0.001
82415964|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|||=|0.67|TWO_SIDED|95.0|-4.2|6.4|||One-sample t-test, 2-sided|||Communication Domain analysis.||6.4|-4.2|=0.670
82415965|NCT01960842|164542851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.8|||<|0.001|TWO_SIDED|95.0|-25.2|-10.3|||One-sample t-test, 2-sided|||Bodily Discomfort Domain analysis.||-10.3|-25.2|<0.001
82647015|NCT00123487|165008962|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the QD schedule relative to the BID schedule was claimed if the lower bound of the 95% CI for difference (QD - BD) was ≥ -12%.|Percent Difference|0.2|||||TWO_SIDED|95.0|-7.8|8.1||||||Primary endpoint was to be assessed at 6-Months: Assuming a 45% MaHR rate in the 70 mg BID participants, the primary efficacy analysis required a total of 540 participants, approximately 270 in each dosing schedule, giving at least 80% power to deduce non-inferiority of the QD schedule relative to the BID schedule if the lower bound of the 95% CI for the difference in MaHR rates (MaHRRQD - MaHRRBID) is greater than -12%.||8.1|-7.8|
82532839|NCT02819479|164763190|OTHER||partial eta^2|0.289||||0.426|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 1.018||SHAPE LEARNING IMMEDIATE RECOGNITION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the SHAPE LEARNING IMMEDIATE RECOGNITION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.426
82576535|NCT01621776|164863126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|161.09|STANDARD_DEVIATION|62.67||0.698|TWO_SIDED|95.0|144.91|177.28|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||177.28|144.91|.698
82415966|NCT01960842|164542852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|||=|0.056|TWO_SIDED|95.0|-9.8|0.1|||One-sample t-test, 2-sided|||||0.1|-9.8|=0.056
82415967|NCT01960842|164542853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||=|0.011|TWO_SIDED|95.0|-1.6|-0.2|||One-sample t-test, 2-sided|||||-0.2|-1.6|=0.011
82415968|NCT01960842|164542854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.001|TWO_SIDED|95.0|-4.4|-1.9|||One-sample t-test, 2-sided|||||-1.9|-4.4|<0.001
82415969|NCT01960842|164542855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.65|||<|0.001|TWO_SIDED|95.0|-5.83|-3.47|||One-sample t-test, 2-sided|||||-3.47|-5.83|<0.001
82415970|NCT01960842|164542856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.58|||<|0.001|TWO_SIDED|95.0|-5.73|-3.44|||One-sample t-test, 2-sided|||||-3.44|-5.73|<0.001
82532840|NCT02819479|164763190|OTHER||partial eta^2|0.361||||0.326|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 1.412||SHAPE LEARNING DELAYED RECOGNITION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the SHAPE LEARNING DELAYED RECOGNITION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.326
82532841|NCT02819479|164763190|OTHER||partial eta^2|0.09||||0.79|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.247||STORY LEARNING PHRASE UNIT IMMEDIATE RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the STORY LEARNING PHRASE UNIT IMMEDIATE RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.790
82532842|NCT02819479|164763190|OTHER||partial eta^2|0.239||||0.505|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.786||STORY LEARNING PHRASE UNIT DELAYED RECALL: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the STORY LEARNING PHRASE UNIT DELAYED RECALL variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.505
82576536|NCT01621776|164863127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|220.46|STANDARD_DEVIATION|89.97||0.806|TWO_SIDED|95.0|197.22|243.71|||ANOVA||This is a three arm study that is not seeking to engage in comparison between individual arms, therefore the mean difference across the study arms is reported.|||243.71|197.22|.806
82647016|NCT00423488|165008985|SUPERIORITY_OR_OTHER_LEGACY||least-squares means|-11.5||||0.005||95.0|-19.4|-3.5|||ANOVA|The analysis of variance (ANOVA) model included term of treatment effect. If more than one basal value was available, the latest was used.||||-3.5|-19.4|0.005
82576537|NCT02269423|164863136|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82647017|NCT01255722|165009003|NON_INFERIORITY_OR_EQUIVALENCE|The clinical non-inferiority margin was set to -10% maximum difference with the best comparator (i.e. iopromide).|Mean Difference (Final Values)|-0.033||||0.05|TWO_SIDED|95.0|-0.088|0.021|||Chi-squared|||Iobitridol was compared to the best of the two comparators. The two-sided 95% confidence interval (CI) of the difference between both proportions (Iobitridol - Comparator) was computed and the lower limit of the CI compared to the clinical non-inferiority limit in the study. The non-inferiority of iobitridol over the best comparator was established if the lower limit of the two-sided 95% CI was equal to or higher than the clinical non-inferiority limit.||0.021|-0.088|0.05
82647018|NCT01255722|165009004|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher Exact|||||||0.750
82415971|NCT00397930|164542865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.3||0.009|TWO_SIDED|||||Between-group differences are expressed as differences in mean Post-Pre change for the global sleep quality PSQI score.|ANCOVA|ANCOVA with post-intervention PSQI score as the outcome, with Group as the factor, and pre-intervention PSQI score as the covariate.|The negative estimated value indicates that the mean Post-Pre change for the YOCAS group was less than that of the Control group.|"H0: There is no statistically significant difference in global sleep quality between post-treatment cancer survivors under the standardized yoga intervention and control protocol at the 0.05 two-sided significance level.~Ha: There is a statistically significant difference in global sleep quality between post-treatment cancer survivors under the standardized yoga intervention and control protocol at the 0.05 two-sided significance level."||||0.009
82415972|NCT02391584|164542866|SUPERIORITY||||||<|0.0001||||||p\<0.025 was considered significant.|t-test, 1 sided|||||||<0.0001
82415973|NCT02391584|164542870|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
82415974|NCT02391584|164542871|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
82415975|NCT02391584|164542872|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
82415976|NCT02391584|164542873|SUPERIORITY||||||<|0.0001||||||Dunnett's t-test was used for the multiple comparisons with baseline. A p value \<0.05 was considered significant.|Mixed Models Analysis|||||||<0.0001
82415977|NCT03676725|164542876|SUPERIORITY||Odds Ratio (OR)|5.17||||0.017|ONE_SIDED||||||Fisher Exact|||Women with PMS vs. without PMS.||||0.017
82415978|NCT03676725|164542876|SUPERIORITY||Odds Ratio (OR)|16.0||||0.001|TWO_SIDED||||||Fisher Exact|||Women with PMS and with ADHD vs. other women||||0.001
82415979|NCT03676725|164542876|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8|TWO_SIDED||||||Fisher Exact|||ADHD vs. no ADHD||||0.8
82415980|NCT02030418|164542940|SUPERIORITY|"The primary safety hypothesis is:~H0: CFR ≤ 86% vs. H1: CFR \> 86% Where CFR is the Complication Free Rate. The CFR is estimated as a binomial proportion and the 95% confidence interval (CI) of CFR is calculated using the Clopper-Pearson exact method. The null hypothesis is rejected at the 2.5% significance level if the lower bound of this CI exceeds the Performance Goal (PG) of 86%."|binomial proportion|93.3|||<|0.001|TWO_SIDED|95.0|89.9|95.9|||1-sided exact test for binomial proporti|||||95.9|89.9|<0.001
82415981|NCT02030418|164542941|SUPERIORITY|"The primary effectiveness hypothesis is:~H0: Rate ≤ 85.0% vs. H1: Rate \> 85.0%~where Rate is the proportion of subjects experiencing success, and success is defined as: pacing threshold voltage ≤ 2.0 V at 0.4 ms at 6-month visit and sensed R-wave amplitude either ≥ 5.0 mV at the 6-month visit or ≥ value at implant."|binomial proportion|93.4|||<|0.001|TWO_SIDED|95.0|89.9|96.0||The null hypothesis is rejected at the 2.5% significance level if the lower bound of the CI exceeds the Performance Goal (PG) of 85%.|1-sided exact test for binomial proporti|||||96.0|89.9|<0.001
82415982|NCT02030418|164542942|OTHER|"The hypothesis is intended to test whether the mean slope is within 35% of 1. The hypothesis is stated as follows:~H0: absolute value (Mean Slope - 100%) ≥ equivalence margin, equal to 35%~H1: absolute value (Mean Slope - 100%) \< equivalence margin, equal to 35%~The calculation of slope for individual subjects in the CAEP exercise protocol is done by setting the y-intercept to zero."|Slope|0.83|STANDARD_DEVIATION|0.27||0.001|TWO_SIDED|95.0|0.73|0.93|||two 1-sided test (TOST)|||||0.93|0.73|0.001
82415983|NCT01179516|164542943|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.488||0.597|TWO_SIDED|95.0|-3.71|2.14||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure for each dose was applied to compare 10 mg and 15 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||2.14|-3.71|0.597
82415984|NCT01179516|164542943|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|1.501||0.745|TWO_SIDED|95.0|-3.44|2.46||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||2.46|-3.44|0.745
82415985|NCT01179516|164542944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.232||||0.396|TWO_SIDED|95.0|0.761|1.995|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.995|0.761|0.396
82415986|NCT01179516|164542944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.212||||0.435|TWO_SIDED|95.0|0.748|1.963|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||1.963|0.748|0.435
82415987|NCT01179516|164542945|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.149||0.554|TWO_SIDED|95.0|-0.38|0.21|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.21|-0.38|0.554
82415988|NCT01179516|164542945|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.151||0.739|TWO_SIDED|95.0|-0.35|0.25|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.25|-0.35|0.739
82415989|NCT01179516|164542946|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|2.261||0.67|TWO_SIDED|95.0|-5.43|3.5|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||3.50|-5.43|0.670
82415990|NCT01179516|164542946|SUPERIORITY_OR_OTHER||LS Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.295||0.451|TWO_SIDED|95.0|-2.8|6.26|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||6.26|-2.80|0.451
82415991|NCT01179516|164542947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.291||||0.352|TWO_SIDED|95.0|0.754|2.211|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS total score.||||2.211|0.754|0.352
82415992|NCT01179516|164542947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.116||||0.694|TWO_SIDED|95.0|0.646|1.928|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS total score.||||1.928|0.646|0.694
82532843|NCT02819479|164763190|OTHER||partial eta^2|0.636||||0.08|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 4.362||DESIGN CONSTRUCTION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the DESIGN CONSTRUCTION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.080
82532844|NCT02819479|164763190|OTHER||partial eta^2|0.693||||0.052|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 5.654||MAZES: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the MAZES variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.052
82415993|NCT01179516|164542948|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|1.25||0.464|TWO_SIDED|95.0|-3.38|1.55|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||1.55|-3.38|0.464
82415994|NCT01179516|164542948|SUPERIORITY_OR_OTHER||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|1.322||0.6|TWO_SIDED|95.0|-1.91|3.3|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||3.30|-1.91|0.600
82415995|NCT02697422|164542959|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82415996|NCT02697422|164542960|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82415997|NCT02697422|164542961|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82647019|NCT01255722|165009006|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.001
82532845|NCT02819479|164763190|OTHER||partial eta^2|0.013||||0.968|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.033||CATEGORIES: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the CATEGORIES variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.968
82576538|NCT02269423|164863136|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82576539|NCT02269423|164863136|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82415998|NCT02697422|164542962|SUPERIORITY|||||||0.9|TWO_SIDED|95.0||||Smoker/tobacco use results were calculated using logistic regression.|Regression, Logistic|||Smoker/tobacco use results were calculated using logistic regression. A P value of .90 was found comparing smoking/tobacco use in intervention vs control participants. A difference was not reported between intervention and control because smoking/ tobacco use was a binary variable.||||0.90
82415999|NCT02697422|164542963|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416000|NCT02697422|164542964|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416001|NCT02697422|164542965|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416002|NCT02697422|164542966|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416003|NCT02697422|164542967|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416004|NCT02697422|164542968|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||||||0.05
82416005|NCT03501277|164542969|EQUIVALENCE|Alogliptin: For each analyte, an analysis of variance (ANOVA) was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative bioavailability (BA) determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90 percent (%) confidence interval (CI) for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|Least Square Mean (LSM) difference|1.0706||||0.014|TWO_SIDED|90.0|1.023|1.1204|||ANOVA|||||1.1204|1.0230|0.014
82416006|NCT03501277|164542969|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0276||||0.326|TWO_SIDED|90.0|0.9817|1.0757|||ANOVA|||||1.0757|0.9817|0.326
82416007|NCT03501277|164542969|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|LSM diiference|0.9594||||0.405|TWO_SIDED|90.0|0.8837|1.0415|||ANOVA|||||1.0415|0.8837|0.405
82532846|NCT02819479|164763190|OTHER||partial eta^2|0.261||||0.469|TWO_SIDED|||||The threshold for statistical significance was p \< 0.05.|One way Repeat Meas ANOVA|F(2,5) = 0.884||WORD GENERATION: To explore post-operative change in Neurocognitive performance after intra-arterial bevacizumab, repeated measures ANOVA was performed for the WORD GENERATION variable across 3 time points (BL, 3 months, 12 months) where IQ was placed in the model as covariate.||||0.469
82416008|NCT03501277|164542969|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed Cmax with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen C (test) versus Regimen D (reference).|LSM difference|0.9257||||0.124|TWO_SIDED|90.0|0.8523|1.0053|||ANOVA|||||1.0053|0.8523|0.124
82416009|NCT03501277|164542970|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of Cmax for Regimen A (test) versus Regimen B (reference).|LSM difference|1.0157||||0.081|TWO_SIDED|90.0|1.0009|1.0308|||ANOVA|||||1.0308|1.0009|0.081
82416010|NCT03501277|164542970|EQUIVALENCE|Alogliptin: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0009||||0.922|TWO_SIDED|90.0|0.9862|1.0158|||ANOVA|||||1.0158|0.9862|0.922
82576540|NCT02269423|164863136|OTHER|||||||0.161||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.161
82576541|NCT02269423|164863136|OTHER|||||||0.008||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.008
82576542|NCT02269423|164863136|OTHER|||||||0.173||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.173
82576543|NCT02269423|164863137|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82647020|NCT01255722|165009007|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED||||||Fisher Exact|||||||0.109
82647021|NCT01255722|165009008|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Fisher Exact|||||||0.09
82416011|NCT03501277|164542970|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen A (test) versus Regimen B (reference).|LSM difference|1.0486||||0.066|TWO_SIDED|90.0|1.0051|1.0939|||ANOVA|||||1.0939|1.0051|0.066
82416012|NCT03501277|164542970|EQUIVALENCE|Pioglitazone: For each analyte, ANOVA was performed on natural logarithm transformed AUC(0-72) with factors for sequence, the participant nested within sequence, period, and regimen. For the relative BA determination, pairwise comparisons were performed to assess the relative BA of alogliptin and pioglitazone via point estimates and 90% CI for the ratio of AUC(0-72) for Regimen C (test) versus Regimen D (reference).|LSM difference|1.0267||||0.308|TWO_SIDED|90.0|0.9839|1.0714|||ANOVA|||||1.0714|0.9839|0.308
82416013|NCT00963508|164542978|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82416014|NCT00963508|164542979|SUPERIORITY_OR_OTHER|||||||0.0005|||||||t-test, 2 sided|||||||0.0005
82416015|NCT04739709|164542998|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416016|NCT04739709|164542999|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416017|NCT04739709|164543001|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416018|NCT04739709|164543002|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416019|NCT04739709|164543003|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416020|NCT04739709|164543004|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416021|NCT04739709|164543005|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416022|NCT04739709|164543006|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416023|NCT04739709|164543007|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416024|NCT04739709|164543008|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416025|NCT04739709|164543009|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-1.8|-1.3|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-1.3|-1.8|<0.001
82416026|NCT04739709|164543010|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.6|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.6|-0.9|<0.001
82647022|NCT00947518|165009020|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.99
82416027|NCT04739709|164543011|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.8|-0.5|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.5|-0.8|<0.001
82416028|NCT04739709|164543012|SUPERIORITY||Mean Difference (Net)|-0.03||||0.017|TWO_SIDED|95.0|-0.06|-0.01|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.01|-0.06|0.017
82416029|NCT04739709|164543013|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.001|TWO_SIDED|95.0|-0.1|-0.04|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.04|-0.10|<0.001
82416030|NCT04739709|164543014|SUPERIORITY||Mean Difference (Net)|-0.09|||<|0.001|TWO_SIDED|95.0|-0.11|-0.06|||ANCOVA||Treatment Difference = APP13007-Placebo. Mean Difference Is the least-squares mean difference from the ANCOVA model with treatment as a fixed effect and baseline as a covariate.|||-0.06|-0.11|<0.001
82416031|NCT04739709|164543015|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82416032|NCT04625972|164543027|SUPERIORITY||Relative Risk Reduction|33.31||||0.212|TWO_SIDED|95.0|-25.92|64.68|||Poisson regression||Primary Analysis Estimates are based on Poisson regression with robust variance. The model includes covariate for treatment and the log of follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||64.68|-25.92|0.212
82416033|NCT04625972|164543027|SUPERIORITY||Relative Risk Reduction|43.28||||0.044|TWO_SIDED|95.0|1.4|67.37|||Poisson regression||Final Analysis Estimates are based on Poisson regression with robust variance. The model includes covariate for treatment and the log of follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||67.37|1.40|0.044
82416034|NCT04625972|164543029|SUPERIORITY||Relative Risk Reduction|100.0||||0.664|ONE_SIDED|97.5|-1836.98||||Poisson regression||||||-1836.98|0.664
82416035|NCT04625972|164543030|SUPERIORITY||Relative Risk Reduction|13.9||||0.163|TWO_SIDED|95.0|-6.23|30.21|||Poisson regression|||||30.21|-6.23|0.163
82416036|NCT04625972|164543032|SUPERIORITY||Relative Risk Reduction|25.75||||0.744|TWO_SIDED|95.0|-343.53|87.57|||Poisson regression|||||87.57|-343.53|0.744
82416037|NCT00433290|164543035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 4 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
82416038|NCT00433290|164543035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 7 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
82447445|NCT02577016|164603603|SUPERIORITY||Difference in least squares means|-11.2|||<|0.001|TWO_SIDED|95.0|-17.2|-5.2|||Constrained longitudinal data analysis|Based on a cLDA model with the terms listed above.||||-5.2|-17.2|<0.001
82647023|NCT00947518|165009021|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||||||0.46
82647024|NCT00947518|165009022|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82647025|NCT00947518|165009023|SUPERIORITY||||||<|0.05|||||||Chi-squared||||For comparison of categorical variables among the three groups, Chi2 test followed by Bonferroni's correction was used.|||<0.05
82416039|NCT00433290|164543035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Week 13 Change from Baseline. Treatment effects and interaction effects were evaluated based on two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|Mixed Models Analysis|Repeated Measures Model: Change=Treatment,NSAID use, Pooled Investigator, Visit, Baseline, Treatment\*Visit, Baseline\*Visit||Null hypothesis=the difference in the BPI average pain score between the duloxetine and placebo treatment goups at the last visit of the treatment phase is zero.||||<0.001
82416040|NCT00433290|164543036|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||ANCOVA|Model: PGI-Improvement=Treatment, Pooled Investigator, baseline severity and NSAID used for main effect p-values.||||||0.164
82416041|NCT00433290|164543037|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for Change from Baseline (change = endpoint - baseline)|ANCOVA|Model: Change=Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.016
82416042|NCT00433290|164543038|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline value.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.068
82416043|NCT00433290|164543039|SUPERIORITY_OR_OTHER|||||||0.064||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline value.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.064
82416044|NCT00433290|164543040|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Change in Weekly 24-Hour Average Pain. Change = endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.008
82416045|NCT00433290|164543040|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value for Change in Weekly 24-Hour Worst Pain. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.047
82416046|NCT00433290|164543041|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.009
82416047|NCT00433290|164543042|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82416048|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-value for Mental Component Summary Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.897
82416049|NCT00433290|164543043|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Physical Component Summary Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||<0.001
82416050|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Bodily Pain Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.004
82416051|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value for General Health Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.051
82416052|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.508||95.0||||P-value for Mental Health Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.508
82416053|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-value for Physical Functioning Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.019
82416054|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.415||95.0||||P-value for Role-Emotional Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.415
82416055|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for Role-Physical Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.006
82416056|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-value for Social Functioning Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.342
82416057|NCT00433290|164543043|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for Vitality Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-values.||||||0.135
82416058|NCT00433290|164543044|SUPERIORITY_OR_OTHER|||||||0.209||95.0||||P-value for EQ-5D Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change=Treament, Pooled Investigator, NSAID use and Baseline for main effect p-value.||||||0.209
82416059|NCT00433290|164543045|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||P-value for Change from Baseline. Change = Week 13 value minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.871
82416060|NCT00433290|164543046|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|Model: Change = Treatment, Pooled Investigator, NSAID use and Baseline for main effects p-value.||||||0.138
82416061|NCT00433290|164543047|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.003
82416062|NCT00433290|164543048|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.015
82416063|NCT00433290|164543049|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||<0.001
82416064|NCT00433290|164543049|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for direct analgesic effect. The null hypothesis was tested by testing a1=0 versus a1≠0.|Regression, Linear|||Path analysis was used to test null hypothesis that change in BPI average pain severity depends on improvement of BDI or HADS-A, versus improvement in BPI average pain severity is due to a direct analgesic effect of treatment and not dependent on improvement in depression or anxiety symptoms. Model:Change in BPI average pain score=a0+a1\*treatment group+a2\*change in BDI total+a3\*change in HADS-A+a4\*BL of BPI average pain+a5\*BL of BDI total+a6\*BL of HADS-A.||||0.002
82416065|NCT00433290|164543050|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Change from Baseline. Change=Endpoint minus baseline.|ANCOVA|||||||0.007
82416066|NCT00433290|164543051|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.050
82416067|NCT00433290|164543052|SUPERIORITY_OR_OTHER|||||||0.913||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.913
82416068|NCT00433290|164543053|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.066
82416069|NCT00433290|164543054|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.001
82416070|NCT00433290|164543055|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.260
82416071|NCT00433290|164543056|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.489
82416072|NCT00433290|164543057|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.131
82416073|NCT00433290|164543058|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANCOVA|||||||0.082
82416074|NCT00433290|164543060|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Alkaline Phosphatase Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
82416075|NCT00433290|164543060|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for AST Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.010
82416076|NCT00433290|164543060|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for GGT Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.023
82416077|NCT00433290|164543061|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.042
82416078|NCT00433290|164543062|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.005
82576544|NCT02269423|164863137|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82416079|NCT00433290|164543063|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-value for SBP Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.285
82416080|NCT00433290|164543063|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||P-value for DBP Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||0.668
82416081|NCT00433290|164543064|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
82416082|NCT00433290|164543065|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||||||0.040
82416083|NCT00724503|164543074|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.551|TWO_SIDED|95.0|0.77|1.12|||Log Rank|||The null hypothesis tested for the primary efficacy endpoint is rate of progression (months) of SIRT/FOLFOX treatment versus FOLFOX is equal for both groups. The two-sided alternative hypothesis tested with 95% confidence is PFS rate for SIRT/FOLFOX treatment lower to that of FOLFOX.||1.12|0.77|0.551
82416084|NCT00724503|164543075|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.05|TWO_SIDED|95.0|||||Log Rank|||A sample size of at least 450 patients for the SIRFLOX study was estimated to be needed to detect an increase in the median PFS at any site from 9.4 months to 12.5 months with 80% power and 95% confidence. Taking into account the number of patients who might receive the alternative treatment or lack of imaging data, the sample size was increased to 530. The Null hypothesis is no difference between the treatment arms with respect to PFS.||||< 0.05
82416085|NCT01928771|164543083|SUPERIORITY_OR_OTHER||Rate ratio|0.55|||<|0.001|TWO_SIDED|95.0|0.42|0.71|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.71|0.42|<0.001
82416086|NCT01928771|164543083|SUPERIORITY_OR_OTHER||Rate ratio|0.49|||<|0.001|TWO_SIDED|95.0|0.37|0.64|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.64|0.37|<0.001
82416087|NCT01928771|164543084|SUPERIORITY_OR_OTHER||Rate ratio|0.7||||0.047|TWO_SIDED|95.0|0.5|1.0|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||1.0|0.5|0.047
82416088|NCT01928771|164543084|SUPERIORITY_OR_OTHER||Rate ratio|0.83||||0.268|TWO_SIDED|95.0|0.59|1.16|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||1.16|0.59|0.268
82416089|NCT01928771|164543085|SUPERIORITY_OR_OTHER||Rate ratio|0.61||||0.053|TWO_SIDED|95.0|0.37|1.01|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations resulting in ER/hospitalization in the previous year, and use of OCS||||1.01|0.37|0.053
82416090|NCT01928771|164543085|SUPERIORITY_OR_OTHER||Rate ratio|0.37|||<|0.001|TWO_SIDED|95.0|0.2|0.67|||Negative binomial|Model includes covariates treatment group, region, number of exacerbations resulting in ER/hospitalization in the previous year, and use of OCS||||0.67|0.2|<0.001
82416091|NCT01928771|164543086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54|||<|0.001|TWO_SIDED|95.0|0.37|0.78|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.78|0.37|<0.001
82416092|NCT01928771|164543086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.01|TWO_SIDED|95.0|0.43|0.9|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations from the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.90|0.43|0.01
82416093|NCT01928771|164543087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.49|0.82|||Regression, Cox|Model includes treatment, number of exacerbations in the previous year, region, use of OCS||Time to first exacerbation||0.82|0.49|<0.001
82416094|NCT01928771|164543087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.46|0.78|||Regression, Cox|Model includes treatment, number of exacerbations from the previous year, region, use of OCS||Time to first exacerbation||0.78|0.46|<0.001
82416095|NCT01928771|164543088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106||||0.022|TWO_SIDED|95.0|0.016|0.196|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.196|0.016|0.022
82416096|NCT01928771|164543088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.001|TWO_SIDED|95.0|0.068|0.249|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.249|0.068|0.001
82416097|NCT01928771|164543089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.644|TWO_SIDED|95.0|-0.134|0.083|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.083|-0.134|0.644
82376630|NCT00384930|164459518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|||<|0.001||95.0|-3.69|-1.51||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 5 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.51|-3.69|<0.001
82376631|NCT00384930|164459518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9|||<|0.001||95.0|-3.99|-1.81||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 10 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.81|-3.99|<0.001
82376632|NCT00384930|164459518|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.94|||<|0.001||95.0|-4.04|-1.84||P-values are from an ANCOVA model with effect of treatment group, geographic region, and IPSS baseline value (at Visit 3) as a covariate, and were not adjusted for multiple comparisons.|ANCOVA||Mean Difference = 20 mg Tadalafil minus Placebo|This is a supportive analysis of the primary outcome.||-1.84|-4.04|<0.001
82376633|NCT02686138|164459519|SUPERIORITY||Risk Difference (RD)|12.85|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82376634|NCT02686138|164459520|SUPERIORITY||Risk Difference (RD)|14.11|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82376635|NCT02686138|164459521|SUPERIORITY||Risk Difference (RD)|11.5||||0.004|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.004
82376636|NCT02686138|164459522|SUPERIORITY||Risk Difference (RD)|11.16||||0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.003
82376637|NCT02686138|164459523|SUPERIORITY||Risk Difference (RD)|10.3||||0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.01
82376638|NCT02686138|164459524|SUPERIORITY||Risk Difference (RD)|10.17||||0.013|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.013
82376639|NCT02686138|164459525|SUPERIORITY||Risk Difference (RD)|13.1|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82376640|NCT02686138|164459526|SUPERIORITY||Risk Difference (RD)|16.18|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82376641|NCT02686138|164459527|SUPERIORITY||Risk Difference (RD)|9.17||||0.015|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.015
82376642|NCT02027428|164459548|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.3486|TWO_SIDED|95.0|0.61|1.19||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.19|0.61|0.3486
82376643|NCT02027428|164459549|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0365|TWO_SIDED|95.0|0.47|0.98||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||0.98|0.47|0.0365
82376644|NCT02027428|164459550|SUPERIORITY||Overall response rate ratio|1.2||||0.087|TWO_SIDED|95.0|0.948|1.519||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at the end of Induction, and tumor response (CR/PR or SD) at the end of Induction.|Cochran-Mantel-Haenszel||response ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. The rate ratio and its 95% CI were based on the non-stratified analysis.||1.519|0.948|0.0870
82376645|NCT02027428|164459551|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4164|TWO_SIDED|95.0|0.62|1.22||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.22|0.62|0.4164
82376646|NCT02027428|164459552|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0381|TWO_SIDED|95.0|0.47|0.98||Stratification factors evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at end of Induction.|stratified log-rank test||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|5% level of significance. Hazard ratio is based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||0.98|0.47|0.0381
82376647|NCT02027428|164459553|SUPERIORITY||Overall response rate ratio|3.15||||0.0978|TWO_SIDED|95.0|0.733|13.574||5% level of significance.|Cochran-Mantel-Haenszel||Response rate ratio: nab-paclitaxel + BSC / BSC Alone|||13.574|0.733|0.0978
82376648|NCT02027428|164459554|SUPERIORITY||disease control rate ratio|0.99|||||TWO_SIDED|95.0|0.978|1.007|||||Disease control rate ratio: nab-paclitaxel + BSC / BSC Alone|The rate ratio and its 95% confidence interval are based on non-stratified analysis.||1.007|0.978|
82376649|NCT02027428|164459556|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.59|1.47|||||Hazard ratio: nab-paclitaxel + BSC / BSC Alone|Hazard ratio was based on stratified Cox proportional hazards regression model. The following stratification factors were evaluated in the sparse strata elimination algorithm: stage of disease (IIIB or IV) at diagnosis, ECOG performance status (0 or 1) at the end of Induction, and tumor response (CR/PR or SD) at the end of Induction.||1.47|0.59|
82416098|NCT01928771|164543089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102||||0.057|TWO_SIDED|95.0|-0.003|0.208|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit and treatment by visit||||0.208|-0.003|0.057
82416099|NCT01928771|164543090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.442|TWO_SIDED|95.0|-0.27|0.12|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||0.12|-0.27|0.442
82416100|NCT01928771|164543090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.012|TWO_SIDED|95.0|-0.45|-0.06|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||-0.06|-0.45|0.012
82416101|NCT01928771|164543091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.169|TWO_SIDED|95.0|-0.48|0.08|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||0.08|-0.48|0.169
82416102|NCT01928771|164543091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.043|TWO_SIDED|95.0|-0.57|-0.01|||Mixed Models Analysis|Model includes treatment, baseline asthma symptom score, region, use of OCS, visit and visit by treatment||||-0.01|-0.57|0.043
82416103|NCT01928771|164543092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.1|TWO_SIDED|95.0|-1.16|0.1|||Mixed Models Analysis|Model includes treatment, baseline asthma medication use, region, use of OCS, visit and visit by treatment||||0.10|-1.16|0.1
82416104|NCT01928771|164543092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.081|TWO_SIDED|95.0|-1.21|0.07|||Mixed Models Analysis|Model includes treatment, baseline asthma medication use, region, use of OCS, visit and visit by treatment||||0.07|-1.21|0.081
82416105|NCT01928771|164543093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.32||||0.001|TWO_SIDED|95.0|9.2|37.43|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit and visit by treatment||Morning PEF change from baseline to Week 48||37.43|9.20|0.001
82416106|NCT01928771|164543093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.46||||0.025|TWO_SIDED|95.0|2.08|30.83|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit and visit by treatment||Morning PEF change from baseline to Week 48||30.83|2.08|0.025
82416107|NCT01928771|164543094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.75||||0.002|TWO_SIDED|95.0|7.86|35.65|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit and visit by treatment||Evening PEF change from baseline to Week 48||35.65|7.86|0.002
82416108|NCT01928771|164543094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.18||||0.008|TWO_SIDED|95.0|5.09|33.28|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit and visit by treatment||Evening PEF change from baseline to Week 48||33.28|5.09|0.008
82416109|NCT01928771|164543095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.964|TWO_SIDED|95.0|-0.05|0.04|||Mixed Models Analysis|Model includes treatment, baseline proportion of nights with nocturnal awakenings, region, use of OCS, visit and visit by treatment||||0.04|-0.05|0.964
82532847|NCT02718417|164763198|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.989|TWO_SIDED|95.0|1.051|1.946||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||1.946|1.051|0.9890
82416110|NCT01928771|164543095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.012|TWO_SIDED|95.0|-0.11|-0.01|||Mixed Models Analysis|Model includes treatment, baseline proportion of nights with nocturnal awakenings, region, use of OCS, visit and visit by treatment||||-0.01|-0.11|0.012
82416111|NCT01928771|164543096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.111|TWO_SIDED|95.0|-0.34|0.04|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.04|-0.34|0.111
82416112|NCT01928771|164543096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.003|TWO_SIDED|95.0|-0.48|-0.1|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||-0.10|-0.48|0.003
82416113|NCT01928771|164543097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.27|0.27|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.27|-0.27|0.99
82416114|NCT01928771|164543097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.107|TWO_SIDED|95.0|-0.48|0.05|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit and visit by treatment||||0.05|-0.48|0.107
82416115|NCT01928771|164543101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.081|TWO_SIDED|95.0|-0.02|0.37|||Mixed Models Analysis|Model includes covariates treatment, baseline AQLQ(S)+12 score, region, use of OCS, visit, and visit by treatment||||0.37|-0.02|0.081
82416116|NCT01928771|164543101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|Model includes covariates treatment, baseline AQLQ(S)+12 score, region, use of OCS, visit, and visit by treatment||||0.5|0.1|0.004
82416117|NCT01271855|164543124|SUPERIORITY||Z-Score|0.93||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized version of the Wilcoxon test statistic. In this study, z-scores with an absolute value exceeding 1.96 signal the two groups have meaningfully different pain scores. Other values would fail to reject the null hypothesis.|The null hypothesis is that there is no difference in the visual analogue pain score scale (VAS) between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group 24-hours after delivery.||||.35
82416118|NCT01271855|164543125|SUPERIORITY||Odds Ratio (OR)|1.88||||0.3|TWO_SIDED|95.0|0.57|6.21|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of taking additional pain medications between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group 24-hours after delivery.||6.21|0.57|.30
82416119|NCT01271855|164543126|SUPERIORITY||Z-Score|2.34||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The z-score is a standardized version of the Wilcoxon test statistic. In this study, z-scores with an absolute value exceeding 1.96 signal the two groups have meaningfully different satisfaction scores. Other values fail to reject the null hypothesis|The null hypothesis is that there is no difference in the pain satisfaction score between participants in the Glycerin suppository group and those in the Belladonna and opioid suppository group at discharge||||.02
82416120|NCT01407367|164543130|OTHER||Hazard Ratio (HR)|0.38||||0.04|TWO_SIDED|95.0|0.16|0.94||calculated p-value. Results adjusted for gender, race, age, BMI, MAP, eGFR, smoking history, diabetes, hypertension, cardiovascular disease, cancer, education employment status, health literacy and RAAS use.|Regression, Cox|||||0.94|0.16|.04
82416121|NCT01407367|164543131|OTHER||Hazard Ratio (HR)|1.03||||0.86|TWO_SIDED|95.0|0.53|1.99||calculated p-value. Results adjusted for gender, race, age, BMI, MAP, eGFR, smoking history, diabetes, hypertension, cardiovascular disease, cancer, education employment status, health literacy and RAAS use.|Regression, Cox|||||1.99|0.53|0.86
82416122|NCT01245062|164543133|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.31|0.64||P-value from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|Log Rank||Investigator-Assessed PFS. HR \<1 indicates a lower risk with Trametinib compared with CT. HR from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|||0.64|0.31|<0.0001
82416123|NCT01245062|164543133|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.29|0.6||P-value from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|Log Rank||Independent Review PFS. HR \<1 indicates a lower risk with Trametinib compared with CT. HR from a stratified log-rank test was adjusted for prior chemotherapy for advanced or metastatic disease and Baseline lactate dehydrogenase.|||0.60|0.29|<0.0001
82416124|NCT01452347|164543150|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|74.22|STANDARD_ERROR_OF_MEAN|1.05||||95.0|68.08|80.91|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||80.91|68.08|
82416125|NCT01452347|164543151|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|84.46|STANDARD_ERROR_OF_MEAN|1.11||||95.0|70.32|101.44|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||101.44|70.32|
82416126|NCT01452347|164543152|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|95.5|STANDARD_ERROR_OF_MEAN|1.05||||95.0|88.69|102.84|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||102.84|88.69|
82416127|NCT01452347|164543153|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean ratio|103.25|STANDARD_ERROR_OF_MEAN|1.11||||95.0|86.4|123.4|||ANOVA|The Ctrough,ss (predicted or observed) was log transformed (natural logarithm) prior to fitting the ANOVA model.|"The standard error of the mean is actually the geometric standard error.~(Observed vs Predicted)"|"Null hypothesis: The difference of the population average responses was either ≤ to the lower bound or ≥ to the upper bound of the acceptance range .~Alternative hypothesis: The difference of the population average responses was both \> than the lower bound and \< than the upper bound of the acceptance range \[Note: The acceptance range for the geometric mean is 80-125%\]"||123.40|86.40|
82416128|NCT01452347|164543154|SUPERIORITY_OR_OTHER||||||<|0.001||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||<0.001
82416129|NCT01452347|164543155|SUPERIORITY_OR_OTHER|||||||0.05||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.05
82416130|NCT01452347|164543156|SUPERIORITY_OR_OTHER|||||||0.46||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.46
82447446|NCT02126839|164603604|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.02|STANDARD_ERROR_OF_MEAN|4.52|<|0.0001|TWO_SIDED|95.0|16.1|33.94|||mixed model repeated measures analysis|Fixed effects of treatment group, treatment day, and study day by treatment interaction, with baseline measured at each study day as a covariate.||||33.94|16.10|<0.0001
82648027|NCT04133519|165011392|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.6793|TWO_SIDED|95.0|-0.301|0.46|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model for IBS-C participants:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random Means are the mean daily number of bowel movements for a 24-hour period."||0.460|-0.301|0.6793
82416131|NCT01452347|164543157|SUPERIORITY_OR_OTHER|||||||0.65||||||Probability that P remains \< 10% are presented, where P=Percentage of patients with observed Ctrough,ss value \< 50 ng/mL|Beta Function|Probability calculated using Beta function \~B(1 + r, 1 + n - r),r=no. of patients(observed Ctrough,ss value \< 50 ng/mL), n=no. of patients evaluated||||||0.65
82416132|NCT00727064|164543181|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||<0.001
82447447|NCT02126839|164603605|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|76.33|STANDARD_ERROR_OF_MEAN|14.47|<|0.0001|TWO_SIDED|95.0|47.76|104.91|||mixed model repeated measures|Fixed effects of treatment group, treatment day, and study day by treatment interaction, with baseline measured at each study day as a covariate.||||104.91|47.76|<0.0001
82416133|NCT00727064|164543182|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||<0.001
82416134|NCT00727064|164543183|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.004
82416135|NCT00727064|164543184|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.018
82416136|NCT00727064|164543185|SUPERIORITY_OR_OTHER|||||||0.081|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.081
82416137|NCT00727064|164543186|SUPERIORITY_OR_OTHER|||||||0.427|||||||ANOVA|PM compared to EM using least squares geometric means. Analysis of variance with phenotype and sequence as factors.||||||0.427
82416138|NCT00004859|164543189|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED|95.0|||||Log Rank|||||||0.99
82416139|NCT01258855|164543225|OTHER|||||||0.002|||||||Log Rank|||||||0.002
82416140|NCT01258855|164543226|OTHER|||||||0.43|||||||Log Rank|||||||0.43
82416141|NCT01258855|164543229|OTHER|||||||0.003|||||||Log Rank|||||||0.003
82416142|NCT01258855|164543230|OTHER|||||||0.02|||||||Log Rank|||||||0.02
82532848|NCT02718417|164763198|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.7935|TWO_SIDED|95.0|0.832|1.565||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||1.565|0.832|0.7935
82532849|NCT02718417|164763199|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.8848|TWO_SIDED|95.0|0.76|3.08||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||3.080|0.760|0.8848
82532850|NCT02718417|164763199|SUPERIORITY||Hazard Ratio (HR)|1.55||||0.8953|TWO_SIDED|95.0|0.776|3.111||One-sided log-rank test was used.|Log Rank|Analysis was performed using a Cox's Proportional Hazard model stratified by the randomization strata and a stratified log-rank test.||||3.111|0.776|0.8953
82532851|NCT02718417|164763200|OTHER||Hazard Ratio (HR)|1.21||||0.9278|TWO_SIDED|95.0|0.935|1.578||One-sided log-rank test was used.|Log Rank|||||1.578|0.935|0.9278
82416143|NCT05890586|164543232|SUPERIORITY|The posterior was based on a covariate adjusted Cox proportional hazards regression with skeptical prior. The baseline hazard was a degree 5 M-spline function.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.86|1.07|||||Hazard ratios greater than one favored the active intervention for a faster time to recovery.|||1.07|0.86|
82416144|NCT05890586|164543233|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.03|2.88|||||Low event rate precluded covariate adjustment.|||2.88|0.03|
82416145|NCT05890586|164543236|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.7|||||Hazard ratios less than one favor the active intervention of inhaled fluticasone furoate. The interval is a highest density credible interval.|The posterior was based on a covariate adjusted Cox proportional hazards regression with skeptical prior. The baseline hazard was a degree 5 M-spline function.||1.7|0.6|
82416146|NCT05890586|164543237|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.74|1.98|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||1.98|0.74|
82416147|NCT05890586|164543238|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.53|2.06|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||2.06|0.53|
82416148|NCT05890586|164543239|SUPERIORITY|No hypothesis test or decision rule was evaluated.|Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|0.74|2.22|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Adjustment variables are randomization assignment, age (as restricted cubic spline), sex, duration of symptoms prior to receipt of study drug, calendar time (as restricted cubic spline), vaccination status, geographic region (Northeast, Midwest, South, West), call center indicator, and baseline symptom severity.||2.22|0.74|
82532852|NCT02718417|164763200|OTHER||Hazard Ratio (HR)|0.9||||0.2367|TWO_SIDED|95.0|0.688|1.189||One-sided log-rank test was used.|Log Rank|||||1.189|0.688|0.2367
82576545|NCT02269423|164863137|OTHER||||||<|0.001||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||<0.001
82416149|NCT05890586|164543240|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.51|0.83|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||0.83|0.51|
82416150|NCT05890586|164543240|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.7|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.21|0.70|
82426559|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.7695|TWO_SIDED|95.0|-0.6|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.4|-0.6|0.7695
82416151|NCT05890586|164543240|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.55|1.03|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.03|0.55|
82416152|NCT05890586|164543240|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.68|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.39|0.68|
82416153|NCT05890586|164543241|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|1.04|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.60|1.04|
82416154|NCT05890586|164543241|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.98|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.51|0.98|
82416155|NCT05890586|164543241|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.84|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.35|0.84|
82416156|NCT05890586|164543241|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.92|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.47|0.92|
82416157|NCT05890586|164543242|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.8|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.29|0.80|
82416158|NCT05890586|164543242|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.84|1.47|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.47|0.84|
82416159|NCT05890586|164543242|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.8|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.46|0.80|
82416160|NCT05890586|164543242|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.77|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.44|0.77|
82416161|NCT05890586|164543243|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.16|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.16|0.70|
82426560|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-2.0|<0.0001
82532853|NCT01646320|164763262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.0964|<|0.0001|TWO_SIDED|95.0|-0.91|-0.53||Tested at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-0.53|-0.91|<0.0001
82532854|NCT01646320|164763263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.5|STANDARD_ERROR_OF_MEAN|4.015|<|0.0001|TWO_SIDED|95.0|-35.4|-19.6||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-19.6|-35.4|<0.0001
82532855|NCT01646320|164763264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|STANDARD_ERROR_OF_MEAN|5.493|<|0.0001|TWO_SIDED|95.0|-46.3|-24.7||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-24.7|-46.3|<0.0001
82532856|NCT01646320|164763265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.3126|<|0.0001|TWO_SIDED|95.0|-2.12|-0.89||Secondary endpoints are tested following a sequential testing procedure at alpha=0.05|Longitudinal Repeated Measures Analysis|||||-0.89|-2.12|<0.0001
82576546|NCT02269423|164863137|OTHER|||||||0.102||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.102
82416162|NCT05890586|164543243|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.63|1.1|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.10|0.63|
82416163|NCT05890586|164543243|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.54|0.99|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||0.99|0.54|
82416164|NCT05890586|164543243|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.66|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.18|0.66|
82416165|NCT05890586|164543244|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.85|1.37|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.37|0.85|
82416166|NCT05890586|164543244|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.85|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.44|0.85|
82416167|NCT05890586|164543244|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.7|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.24|0.70|
82447448|NCT00422383|164603607|SUPERIORITY_OR_OTHER||Weighted Difference|-0.01||||0.8156|TWO_SIDED|95.0|-0.13|0.1|||Cochran-Mantel-Haenszel||Analysis stratified by region, prior biologic use, rheumatoid factor (RF) status, and treatment.|||0.10|-0.13|0.8156
82416168|NCT05890586|164543244|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.78|1.37|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.37|0.78|
82416169|NCT05890586|164543245|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.68|1.05|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.05|0.68|
82416170|NCT05890586|164543245|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.7|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.11|0.70|
82416171|NCT05890586|164543245|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.21|0.72|
82447449|NCT00422383|164603607|SUPERIORITY_OR_OTHER||Weighted Difference|0.07||||0.2419|TWO_SIDED|95.0|-0.05|0.19|||Cochran-Mantel-Haenszel||Analysis stratified by region, prior biologic use, RF status, and treatment.|||0.19|-0.05|0.2419
82447450|NCT00422383|164603610|SUPERIORITY_OR_OTHER|||||||0.7127|TWO_SIDED|||||Stratified by region, prior biologic use, RF status and treatment.|ANOVA|||||||0.7127
82532857|NCT01646320|164763266|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.5|||<|0.0001|TWO_SIDED|95.0|16.7|34.4||Secondary end points are tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||34.4|16.7|<0.0001
82532858|NCT03354637|164763287|SUPERIORITY||Mean Difference (Final Values)|13.88|STANDARD_ERROR_OF_MEAN|4.707||0.038|TWO_SIDED|95.0|0.77|27.0||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||Since this was the first multicenter study evaluating the effect of ATI-50002 Topical Solution in subjects with stable patchy alopecia areata, the sample size was based upon feasibility issues rather than a formal power calculation. Planned data from 120 subjects, utilizing LOCF for missing data, provides 80% power to detect a 24-point difference in percent change from baseline in SALT score between any two treatment groups. This power computation is based upon assumed standard deviation of 38%.||27.00|0.77|0.038
82447451|NCT00422383|164603610|SUPERIORITY_OR_OTHER|||||||0.1018|TWO_SIDED|||||Stratified by region, prior biologic use, RF status and treatment.|ANOVA|||||||0.1018
82447452|NCT00422383|164603611|SUPERIORITY_OR_OTHER|||||||0.5029|TWO_SIDED|||||Stratified by region, prior biologic use, RF status, and treatment.|Cochran-Mantel-Haenszel|||||||0.5029
82576547|NCT02269423|164863137|OTHER|||||||0.124||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.124
82447453|NCT00422383|164603611|SUPERIORITY_OR_OTHER|||||||0.0495|TWO_SIDED|||||Stratified by region, prior biologic use, RF status, and treatment.|Cochran-Mantel-Haenszel|||||||0.0495
82416172|NCT05890586|164543245|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.29|0.75|
82416173|NCT05890586|164543246|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio, log|1.3|||||TWO_SIDED|95.0|1.05|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.60|1.05|
82416174|NCT05890586|164543246|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|1.0|1.52|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.52|1.00|
82416175|NCT05890586|164543246|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.27|0.84|
82416176|NCT05890586|164543246|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.21|0.80|
82416177|NCT05890586|164543247|SUPERIORITY||Difference in model estimate time unwell|-0.07|||||TWO_SIDED|95.0|-0.43|0.31|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.31|-0.43|
82416178|NCT05890586|164543248|SUPERIORITY||Difference in model estimated means|0.08|||||TWO_SIDED|95.0|-0.37|0.52|||||The interval is a highest-density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.52|-0.37|
82416179|NCT03197935|164543266|SUPERIORITY||Absolute difference in pCR rate|16.5||||0.0044|TWO_SIDED|95.0|5.91|27.1||(one-sided)|Cochran-Mantel-Haenszel|||Stratified analysis. Strata are: tumor PD-L1 status (IC0 vs. IC1/2/3) and clinical stage at presentation (Stage II vs. III).||27.10|5.91|0.0044
82416180|NCT03197935|164543267|SUPERIORITY||Difference in pCR|19.5||||0.0206|TWO_SIDED|95.0|4.17|34.83||(one-sided)|Cochran-Mantel-Haenszel|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||34.83|4.17|0.0206
82416181|NCT03197935|164543268|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of EFS. The analyses of this secondary endpoint is descriptive in nature.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.47|1.21|||Stratified log-rank test|||"Stratified analysis. Strata are:~Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III)."||1.21|0.47|
82416182|NCT03197935|164543269|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of EFS. The analyses of this secondary endpoint is descriptive in nature.|Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.26|1.18|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.18|0.26|
82416183|NCT03197935|164543270|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of DFS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.44|1.3|||Stratified log-rank test|||Stratified analysis. Strata are: Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III).||1.30|0.44|
82416184|NCT03197935|164543271|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoint of DFS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.23|1.43|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.43|0.23|
82416185|NCT03197935|164543272|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoints of OS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.3|1.04|||Stratified log-rank test|||"Stratified analysis. Strata are:~Tumor PD-L1 status (IC0 vs IC1/2/3) and AJCC stage at diagnosis (II vs. III)."||1.04|0.30|
82416186|NCT03197935|164543273|OTHER|This study was not designed nor formally powered to demonstrate statistically significant improvements in the secondary efficacy endpoints of EFS, DFS and OS. The analyses of this secondary endpoint are descriptive in nature.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.26|1.91|||Stratified log-rank test|||Stratified analysis. Strata are: AJCC stage at diagnosis (II vs. III).||1.91|0.26|
82416187|NCT00908388|164543280|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||(1-Posterior probability of meeting performance goal given the data)|Bayesian adaptive|||||||.006
82416188|NCT01286324|164543392|SUPERIORITY|||||||0.21||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.21
82416189|NCT01286324|164543393|SUPERIORITY|||||||0.6||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.60
82416190|NCT01286324|164543394|SUPERIORITY|||||||0.47||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||Statistical Analysis for State Subscale||||0.47
82576548|NCT02269423|164863137|OTHER|||||||0.918||||||p-values are pairwise comparisons of log-transformed titers between each V920 dose, between each V920 dose and placebo, between all V920 dose levels combined and placebo and are from an ANOVA model.|ANOVA|Adjustments for multiple comparisons were not performed.||Day 28||||0.918
82416191|NCT01286324|164543394|SUPERIORITY|||||||0.45||||||Adjusted p-value based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||P-value for Trait Subscale||||0.45
82576549|NCT04916730|164863144|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82532859|NCT03354637|164763287|SUPERIORITY||Mean Difference (Final Values)|9.32|STANDARD_ERROR_OF_MEAN|4.784||0.166|TWO_SIDED|95.0|-3.9|22.55||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||Since this was the first multicenter study evaluating the effect of ATI-50002 Topical Solution in subjects with stable patchy alopecia areata, the sample size was based upon feasibility issues rather than a formal power calculation. Planned data from 120 subjects, utilizing LOCF for missing data, provides 80% power to detect a 24-point difference in percent change from baseline in SALT score between any two treatment groups. This power computation is based upon assumed standard deviation of 38%.||22.55|-3.90|0.166
82647026|NCT00370396|165009025|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix-Synflorix minus Prevenar-Prevenar\] in terms of percentages of subjects reporting rectal fever \>39.0°C was computed.|Difference in percentage|-4.43|||||TWO_SIDED|95.0|-11.85|-0.21||||||Analysis aimed at demonstrating the non-inferiority of Synflorix™ vs Prevenar™ vaccine, both co-administered with Infanrix hexa™ vaccine, in terms of post-immunization febrile reactions with rectal fever \> 39.0°C.||-0.21|-11.85|
82647027|NCT04529499|165009041|SUPERIORITY|||||||0.67|||||||Log Rank|||||||0.67
82647028|NCT04529499|165009041|SUPERIORITY||Cox Proportional Hazard|0.991|||||TWO_SIDED|95.0|0.767|1.28|||||Favipiravir + supportive care in numerator and Placebo+ Supportive care in denominator for CPH ratio analysis|||1.280|0.767|
82647029|NCT04529499|165009042|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
82647030|NCT02441179|165009053|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Kruskal-Wallis|||||||0.006
82647031|NCT02441179|165009054|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Kruskal-Wallis|||||||0.012
82647032|NCT02441179|165009055|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Kruskal-Wallis|||||||0.16
82647033|NCT02441179|165009056|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Chi-squared|||||||0.57
82647034|NCT02441179|165009057|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
82647035|NCT02441179|165009058|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.43
82647036|NCT02441179|165009059|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.55
82416192|NCT01286324|164543395|SUPERIORITY|||||||0.11||||||P value is adjusted based on a general linear model adjusted for group and the baseline of the measure|t-test, 2 sided|||||||0.11
82416193|NCT00421733|164543438|SUPERIORITY_OR_OTHER|||||||0.071||||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA using treatment group as the factor and baseline FMV UACR as the covariate.||||||0.071
82416194|NCT00421733|164543438|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA with treatment group as the factor and baseline FMV UACR as the covariate.||||||0.229
82416195|NCT00421733|164543438|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||There were no P-value adjustments for multiple comparisons.|ANCOVA|1-way ANCOVA using treatment group as the factor and baseline FMV UACR as the covariate.||||||0.053
82416196|NCT00421733|164543439|SUPERIORITY_OR_OTHER|||||||0.102||95.0|||||Fisher Exact|||||||0.102
82416197|NCT00421733|164543439|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Fisher Exact|||||||0.038
82416198|NCT00421733|164543440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.855|TWO_SIDED|95.0|-0.26|0.22|||ANCOVA|2-way ANCOVA: baseline UACR as covariate; fixed factors for treatment group, stratification level, and treatment by stratification level interaction||||0.22|-0.26|0.855
82416199|NCT00421733|164543440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33||||0.009|TWO_SIDED|95.0|-0.57|-0.08|||ANCOVA|2-way ANCOVA: baseline UACR as covariate; fixed factors for treatment group, stratification level, and treatment by stratification level interaction||||-0.08|-0.57|0.009
82416200|NCT00421733|164543441|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|1-way ANCOVA with treatment group as the factor and baseline iPTH as covariate.||||||<0.001
82416201|NCT00421733|164543441|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|1-way ANCOVA with treatment group as the factor and baseline iPTH as covariate.||||||<0.001
82416202|NCT04676646|164543483|SUPERIORITY||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|95.0|2.89|6.86|||GEE model||An odds ratio greater than 1 indicated increased odds of response on SZC compared to placebo.|||6.86|2.89|<0.001
82416203|NCT04676646|164543484|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.78|7.55|||GEE model||An odds ratio \>1 indicated increased odds of response on SZC compared to placebo.|||7.55|2.78|<0.001
82647037|NCT01494649|165009060|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.1||||0.2294|TWO_SIDED|95.0|-0.26|0.06||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|The model included treatment as a fixed factor and basline Schiff score as a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favoured stannous fluoride toothpaste.|Null hypothesis is no difference between treatments. Tests were 2-sided.||0.06|-0.26|0.2294
82647038|NCT01494649|165009061|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.12||||0.1792||95.0|-0.3|0.06||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Schiff Sensitivity Score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||0.06|-0.30|0.1792
82647039|NCT01494649|165009062|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.3||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Schiff Sensitivity Score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||-0.30|-0.74|<0.0001
82647040|NCT01494649|165009063|SUPERIORITY_OR_OTHER||Mean adjusted difference|-0.08||||0.9445|TWO_SIDED|95.0|-2.49|2.32||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline Tactile Threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||2.32|-2.49|0.9445
82447454|NCT03831100|164603652|SUPERIORITY||Mean Difference (Net)|-2.1||||0.25|TWO_SIDED|90.0|-5.0|0.9||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||0.9|-5.0|0.25
82447455|NCT03831100|164603653|SUPERIORITY||Mean Difference (Net)|-5.8||||0.006|TWO_SIDED|90.0|-9.1|-2.5||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||-2.5|-9.1|.006
82532860|NCT03354637|164763288|SUPERIORITY||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|4.511||0.302|TWO_SIDED|95.0|-5.97|19.17|||Mixed Models Analysis|||||19.17|-5.97|0.302
82416204|NCT04676646|164543485|SUPERIORITY||Odds Ratio (OR)|4.33|||<|0.001|TWO_SIDED|95.0|2.5|7.52|||GEE model||An odds ratio greater than 1 indicated increased odds of response on SZC compared to placebo.|||7.52|2.50|<0.001
82416205|NCT04676646|164543486|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.001||95.0|0.37|0.71|||Regression, Cox||A hazard ratio less than 1 favors SZC to be associated with a longer time to first hyperkalaemia episode than placebo.|||0.71|0.37|<0.001
82416206|NCT04676646|164543487|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.006|TWO_SIDED|95.0|0.17|0.73|||Regression, Cox||A hazard ratio less than 1 favored SZC to be associated with a longer time to first instance of a decrease of spironolactone dose due to hyperkalaemia than placebo.|||0.73|0.17|0.006
82416207|NCT04676646|164543488|SUPERIORITY||Least-squares Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|2.84||0.724|TWO_SIDED|95.0|-6.64|4.63|||t-test, 2 sided||A least-squares mean difference greater than 0 favors SZC compared to placebo.|||4.63|-6.64|0.724
82416208|NCT02421510|164543490|SUPERIORITY||Least squares mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.058|<|0.001|TWO_SIDED|95.0|-0.48|-0.25||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C-by-time interaction as a covariate.||-0.25|-0.48|< 0.001
82416209|NCT02421510|164543490|SUPERIORITY||Least squares mean difference|-0.35|||<|0.001|TWO_SIDED|95.0|-0.47|-0.24||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from Mixed effect Model Repeat Measurement (MMRM) model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C- by-time interaction as a covariate.||-0.24|-0.47|< 0.001
82426561|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.3|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.2|-2.3|<0.0001
82532861|NCT03354637|164763288|SUPERIORITY||Mean Difference (Final Values)|3.23|STANDARD_ERROR_OF_MEAN|4.584||0.616|TWO_SIDED|95.0|-9.44|15.9|||Mixed Models Analysis|||||15.90|-9.44|0.616
82532862|NCT03354637|164763289|SUPERIORITY||Mean Difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|2.074||0.125|TWO_SIDED|95.0|-1.26|10.3|||Mixed Models Analysis|||||10.30|-1.26|0.125
82532863|NCT03354637|164763289|SUPERIORITY||Mean Difference (Final Values)|3.53|STANDARD_ERROR_OF_MEAN|2.107||0.234|TWO_SIDED|95.0|-2.3|9.36|||Mixed Models Analysis|||||9.36|-2.30|0.234
82532864|NCT03354637|164763290|SUPERIORITY||Mean Difference (Final Values)|1.55|STANDARD_ERROR_OF_MEAN|2.131||0.607|TWO_SIDED|95.0|-4.39|7.49|||Mixed Models Analysis|||||7.49|-4.39|0.607
82426562|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.2182|TWO_SIDED|95.0|-0.8|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.2|-0.8|0.2182
82532865|NCT03354637|164763290|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.165||0.981|TWO_SIDED|95.0|-6.06|5.92|||Mixed Models Analysis|||||5.92|-6.06|0.981
82532866|NCT03354637|164763291|SUPERIORITY||Odds Ratio (OR)|1.4||||0.62|TWO_SIDED|95.0|0.4|4.6|||Mixed Models Analysis|||||4.6|0.4|0.620
82532867|NCT03354637|164763291|SUPERIORITY||Odds Ratio (OR)|1.7||||0.366|TWO_SIDED|95.0|0.5|5.8|||Mixed Models Analysis|||||5.8|0.5|0.366
82532868|NCT03354637|164763292|SUPERIORITY||Odds Ratio (OR)|0.1||||0.157|TWO_SIDED|95.0|0.0|2.3|||Mixed Models Analysis|||||2.3|0.0|0.157
82532869|NCT03354637|164763292|SUPERIORITY||Odds Ratio (OR)|0.4||||0.353|TWO_SIDED|95.0|0.1|2.8|||Mixed Models Analysis|||||2.8|0.1|0.353
82532870|NCT03354637|164763293|SUPERIORITY||Odds Ratio (OR)|1.7||||0.333|TWO_SIDED|95.0|0.6|5.4|||Mixed Models Analysis|||||5.4|0.6|0.333
82447456|NCT03831100|164603654|SUPERIORITY||Mean Difference (Net)|-7.9||||0.1|TWO_SIDED|90.0|-15.9|0.0||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear||The mean for each study arm represents the mean difference in the score at the post-treatment timepoint relative to the score at baseline. The mean difference (net) represents the mean model-based difference between study arms.|||0.0|-15.9|.10
82447457|NCT03831100|164603655|SUPERIORITY||Mean Difference (Net)|-17.1||||0.002|TWO_SIDED|90.0|-25.6|-8.6||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|Regression, Linear|||||-8.6|-25.6|.002
82532871|NCT03354637|164763293|SUPERIORITY||Odds Ratio (OR)|1.7||||0.388|TWO_SIDED|95.0|0.5|5.2|||Mixed Models Analysis|||||5.2|0.5|0.388
82532872|NCT03354637|164763294|SUPERIORITY||Odds Ratio (OR)|0.7||||0.435|TWO_SIDED|95.0|0.3|1.8|||Mixed Models Analysis|||||1.8|0.3|0.435
82532873|NCT03354637|164763294|SUPERIORITY||Odds Ratio (OR)|0.6||||0.37|TWO_SIDED|95.0|0.2|1.7|||Mixed Models Analysis|||||1.7|0.2|0.370
82532874|NCT03354637|164763295|SUPERIORITY||Odds Ratio (OR)|1.7||||0.333|TWO_SIDED|95.0|0.6|5.4|||Mixed Models Analysis|||||5.4|0.6|0.333
82532875|NCT03354637|164763295|SUPERIORITY||Odds Ratio (OR)|1.7||||0.388|TWO_SIDED|95.0|0.5|5.2|||Mixed Models Analysis|||||5.2|0.5|0.388
82532876|NCT03354637|164763296|SUPERIORITY|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||||||0.505
82416210|NCT02421510|164543491|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Percentage difference|16.3|||<|0.001|TWO_SIDED|95.0|9.17|23.43||Threshold for significance \<= 0.05|Cochran-Mantel-Haenszel||Sotagliflozin 200 mg versus Placebo|P-values were obtained from a Cochran-Mantel-Haenszel (CMH) test stratified by the different levels of the randomization stratification factors of insulin delivery method (MDI, CSII) and Week -2 A1C (\<=8.5%, \>8.5%). The 95% Confidence Limits (CL) were calculated using asymptotic Wald method. Only positively adjudicated severe hypoglycemia and diabetic ketoacidosis were included in the analysis.||23.43|9.17|< 0.001
82416211|NCT02421510|164543491|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Percentage difference|17.2|||<|0.001|TWO_SIDED|95.0|10.06|24.35||Threshold for significance \<= 0.05|Cochran-Mantel-Haenszel||Sotagliflozin 400 mg versus Placebo|P-values were obtained from a CMH test stratified by the different levels of the randomization stratification factors of insulin delivery method (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%). The 95% CL were calculated using asymptotic Wald method.||24.35|10.06|< 0.001
82416212|NCT02421510|164543492|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-1.98|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-2.53|-1.44||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects.||-1.44|-2.53|< 0.001
82426563|NCT00565409|164561895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-0.9|-1.9|<0.0001
82532877|NCT03354637|164763296|SUPERIORITY|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||||||0.359
82532878|NCT03354637|164763297|SUPERIORITY|||||||0.602|||||||Wilcoxon (Mann-Whitney)|||||||0.602
82532879|NCT03354637|164763297|SUPERIORITY|||||||0.643|||||||Wilcoxon (Mann-Whitney)|||||||0.643
82532880|NCT03354637|164763298|SUPERIORITY|||||||0.992|||||||Wilcoxon (Mann-Whitney)|||||||0.992
82532881|NCT03354637|164763298|SUPERIORITY|||||||0.257|||||||Wilcoxon (Mann-Whitney)|||||||0.257
82532882|NCT03354637|164763300|SUPERIORITY|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||||||0.374
82532883|NCT03354637|164763300|SUPERIORITY|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
82532884|NCT03354637|164763302|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||||||0.102
82426564|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.0003|TWO_SIDED|95.0|-1.3|-0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.4|-1.3|0.0003
82426565|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.6088|TWO_SIDED|95.0|-0.3|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.6|-0.3|0.6088
82426566|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.4|<0.0001
82532885|NCT03354637|164763302|SUPERIORITY|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
82532886|NCT03354637|164763303|SUPERIORITY|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
82532887|NCT03354637|164763303|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
82532888|NCT03123263|164763321|OTHER|Repeated measures one sided ANOVA was used to analyze changes in ejection fraction over time.|||||<|0.0005|||||||ANOVA|F (2,98) =13.974||||||<0.0005
82532889|NCT03249376|164763335|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-6.34|-2.83|||Mixed Effects Model for Repeated Measure|||||-2.83|-6.34|<0.0001
82532890|NCT03249376|164763336|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.37|-0.51|||Mixed Effects Model for Repeated Measure|||||-0.51|-1.37|<0.0001
82532891|NCT03249376|164763337|SUPERIORITY||Least Squares Mean Difference|4.6||||0.005|TWO_SIDED|95.0|1.42|7.69|||ANCOVA|||||7.69|1.42|0.005
82532892|NCT04102540|164763353|OTHER|In this analysis, our null hypothesis was that the median CD4 count at baseline/exposure 1 was exactly equivalent to the median CD4 count following exposure 2 to the intervention.|Median Difference (Net)|57.39||||0.283|TWO_SIDED|95.0|-48.9|163.7||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median CD4 count between baseline/exposure 1 and exposure 2.|Statistical analysis of CD4 count between baseline/exposure 1 and exposure 2 to the intervention.||163.7|-48.9|0.283
82532893|NCT04102540|164763353|OTHER|In this analysis, our null hypothesis was that the median CD4 count at baseline/exposure 1 was exactly equivalent to the median CD4 count following the exposure 3 to the intervention.|Median Difference (Net)|60.83||||0.1823|TWO_SIDED|95.0|-29.5|151.2||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile regression|Random intercepts for subjects were included in the model.|This is the difference in median CD4 count between baseline/exposure 1 and exposure 3.|Statistical analysis of CD4 count between baseline/exposure 1 and exposure 3 to the intervention.||151.2|-29.5|0.1823
82416213|NCT02421510|164543492|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-2.58|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-3.12|-2.04|||MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects.||-2.04|-3.12|< 0.001
82416214|NCT02421510|164543493|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.847|<|0.001|TWO_SIDED|95.0|-4.86|-1.53||Threshold for significance \<=0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-1.53|-4.86|< 0.001
82532894|NCT04102540|164763354|OTHER|In this analysis, our null hypothesis was that the median viral load at baseline/exposure 1 was exactly equivalent to the median viral load following exposure 2 to the intervention.|Median Difference (Net)|-42.0||||0.7795|TWO_SIDED|95.0|-339.8|255.8||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression||This is the difference in median viral load between baseline/exposure 1 and exposure 2.|Statistical analysis of viral load between baseline/exposure 1 and exposure 2 to the intervention.||255.8|-339.8|0.7795
82416215|NCT02421510|164543493|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-3.59|STANDARD_ERROR_OF_MEAN|0.845|<|0.001|TWO_SIDED|95.0|-5.25|-1.93||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-1.93|-5.25|< 0.001
82416216|NCT02421510|164543494|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-21.6|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-32.2|-11.0||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline Fasting Plasma Glucose-by-time interaction as a covariate.||-11|-32.2|< 0.001
82416217|NCT02421510|164543494|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-25.7|STANDARD_ERROR_OF_MEAN|5.37|<|0.001|TWO_SIDED|95.0|-36.2|-15.1||Threshold for significance \<= 0.05|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline Fasting Plasma Glucose-by-time interaction as a covariate.||-15.1|-36.2|< 0.001
82416218|NCT02421510|164543495|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|1.3|2.7||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DTSQs total score-by-time interaction as a covariate.||2.7|1.3|< 0.001
82426567|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.4|-2.6|<0.0001
82532895|NCT04102540|164763354|OTHER|In this analysis, our null hypothesis was that the median viral load at baseline/exposure 1 was exactly equivalent to the median viral load following exposure 3 to the intervention.|Median Difference (Net)|-63.0||||0.5971|TWO_SIDED|95.0|-296.1|170.1||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|||Statistical analysis of viral load between baseline/exposure 1 and exposure 3 to the intervention.|This is the difference in median viral load between baseline/exposure 1 and exposure 3.|170.1|-296.1|0.5971
82576550|NCT02514551|164863166|SUPERIORITY||Hazard Ratio (HR)|0.617|||||TWO_SIDED|95.0|0.447|0.853|||||Unstratified cox proportional hazards model comparing Ramucirumab I4T-MC-JVCZ and I4T-IE-JVBE (NCT01170663)|"This analysis were comparison of PFS for participants treated with ramucirumab 12 mg/kg plus paclitaxel in Study I4T-MC-JVCZ versus placebo plus paclitaxel in I4T-IE-JVBE (NCT01170663) using meta-analysis.~Placebo + 80 mg/m² Paclitaxel in I4T-IE-JVBE Number of participants: 335, Median (95% CI), months: 2.86 (2.79 to 3.02)"||0.853|0.447|
82576551|NCT02514551|164863167|SUPERIORITY||Hazard Ratio (HR)|0.963|||||TWO_SIDED|95.0|0.727|1.274|||||Unstratified cox proportional hazards model.|||1.274|0.727|
82416219|NCT02421510|164543495|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|1.0|2.4||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DTSQs total score-by-time interaction as a covariate.||2.4|1|< 0.001
82416220|NCT02421510|164543496|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.025|TWO_SIDED|95.0|-0.6|0.0||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 200 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<= 8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DDS2 total score-by-time interaction as a covariate.||0|-0.6|0.025
82416221|NCT02421510|164543496|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.003|TWO_SIDED|95.0|-0.7|-0.2||Threshold for significance \<= 0.05.|MMRM||Sotagliflozin 400 mg versus Placebo|LS means and p-values were obtained from MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week -2 A1C (\<=8.5%, \>8.5%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline DDS2 total score-by-time interaction as a covariate.||-0.2|-0.7|0.003
82416222|NCT01623752|164543522|OTHER|||||||0.278|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.278
82416223|NCT01623752|164543522|OTHER|||||||0.222|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.222
82416224|NCT01623752|164543523|OTHER|||||||0.251|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.251
82416225|NCT01623752|164543523|OTHER|||||||0.218|||||||Paired t-test|||P-value was calculated using Paired t-test for the change in normalized progression.||||0.218
82416226|NCT01623752|164543526|OTHER|||||||0.675|||||||Regression, Linear|||||||0.675
82416227|NCT01623752|164543526|OTHER|||||||0.357|||||||Regression, Linear|||||||0.357
82416228|NCT01623752|164543527|OTHER|||||||0.106|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.106
82416229|NCT01623752|164543527|OTHER|||||||0.181|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.181
82416230|NCT01623752|164543528|OTHER|||||||0.015|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.015
82532896|NCT04102540|164763355|OTHER|In this analysis, our null hypothesis was that the median HIV-related knowledge score at baseline/exposure 1 was exactly equivalent to the median HIV-related knowledge score following exposure 2 to the intervention.|Median Difference (Net)|2.12|||<|0.0001|TWO_SIDED|95.0|1.2|3.0||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median HIV-Related knowledge scores between baseline/exposure 1 and exposure 2.|Statistical analysis of HIV-related knowledge scores between baseline/exposure 1 and exposure 2 to the intervention.||3.0|1.2|<.0001
82416231|NCT01623752|164543528|OTHER|||||||0.969|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.969
82416232|NCT01623752|164543529|OTHER|||||||0.489|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.489
82416233|NCT01623752|164543529|OTHER|||||||0.386|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.386
82416234|NCT01623752|164543530|OTHER|||||||0.364|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.364
82416235|NCT01623752|164543530|OTHER|||||||0.849|||||||ANOVA|||Statistical analysis (P value) composite for all categories.||||0.849
82416236|NCT01755637|164543559|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean Ratio of treatments|114.37|||||TWO_SIDED|90.0|100.49|130.16|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||130.16|100.49|
82426568|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.9048|TWO_SIDED|95.0|-0.5|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANOVA|||Week 48||0.6|-0.5|0.9048
82426569|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.5|-2.6|<0.0001
82426570|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-1.5|-2.6|<0.0001
82426571|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8437|TWO_SIDED|95.0|-0.6|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.5|-0.6|0.8437
82532897|NCT04102540|164763355|OTHER|In this analysis, our null hypothesis was that the median HIV-related knowledge score at baseline/exposure 1 was exactly equivalent to the median HIV-related knowledge score following exposure 3 to the intervention.|Median Difference (Net)|2.0|||<|0.0001|TWO_SIDED|95.0|1.2|2.8||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median HIV-related knowledge score between baseline/exposure 1 and exposure 3.|Statistical analysis of HIV-related knowledge scores between baseline/exposure 1 and exposure 3 to the intervention.||2.8|1.2|<.0001
82576552|NCT01791972|164863263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|STANDARD_ERROR_OF_MEAN|1.982|<|0.0001|TWO_SIDED|95.0|-20.19|-12.14||Significance level is 0.05.|mixed-effect analysis of covariance|Fixed effects of sequence, trt group, period, and center, within period baseline FEV1 as a covariate, and random effect for patient within sequence.||||-12.14|-20.19|<0.0001
82416237|NCT01755637|164543560|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|107.41|||||TWO_SIDED|90.0|69.03|167.13|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||167.13|69.03|
82416238|NCT01755637|164543561|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range of 70% -143%.|Geometric mean ratio of treatments|111.28|||||TWO_SIDED|90.0|94.76|130.68|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||130.68|94.76|
82416239|NCT01755637|164543562|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0167||||0.0011||95.0|||||Wilcoxon signed rank test|The values were not adjusted for this non-parametric analysis.|The median difference was calculated as = (Experimental-Reference)|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.0011
82416240|NCT01755637|164543563|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|112.05|||||TWO_SIDED|90.0|103.65|121.12|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||121.12|103.65|
82416241|NCT01755637|164543564|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range 80%-125%|Geometric mean ratio of treatments|113.1|||||TWO_SIDED|90.0|103.4|123.71|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||123.71|103.40|
82416242|NCT01755637|164543565|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence between the two products was concluded if the 90% CIs (based on log transformed data and anti-logged) for the ratio of the geometric means lie completely within the range of 70% -143%.|Geometric mean ratio of treatments|114.33|||||TWO_SIDED|90.0|102.99|126.93|||||Geometric mean ratio of experimental and reference product was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||126.93|102.99|
82416243|NCT02933476|164543571|SUPERIORITY||||||>|0.05|||||||ANOVA|||We compared off therapy UPDRS III scores at baseline to one and four weeks after stimulation.||||>0.05
82416244|NCT02933476|164543572|SUPERIORITY|||||||0.008|||||||ANOVA|||||||0.008
82416245|NCT02933476|164543573|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82416246|NCT05987540|164543574|SUPERIORITY|||||||0.8125|||||||Wilcoxon matched-pairs signed rank|||||||.8125
82416247|NCT05987540|164543577|SUPERIORITY||||||>|0.9999|||||||Wilconxon matched-pairs signed rank test|||||||>0.9999
82416248|NCT05061706|164543584|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-6.03|-3.02|||Mixed Effects Model for Repeated Measure|||||-3.02|-6.03|<0.0001
82416249|NCT05061706|164543585|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.72|-0.33|||Mixed Effects Model for Repeated Measure|||||-0.33|-0.72|<0.0001
82416250|NCT00888849|164543595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|7.69||0.7774|TWO_SIDED|95.0|-19.4|10.9||Adjusted for multiplicity via the Bonferroni-Holm method|ANOVA|||||10.9|-19.4|0.7774
82416251|NCT00888849|164543596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9|STANDARD_ERROR_OF_MEAN|0.8||0.0008|TWO_SIDED|95.0|1.4|4.5||Adjusted for multiplicity via Bonferroni-Holm procedure|ANOVA|||||4.5|1.4|0.0008
82416252|NCT00888849|164543597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.7774|TWO_SIDED|95.0|-0.2|0.6||Adjusted for multiplicity via Bonferroni-Holm procedure|ANOVA|||||0.6|-0.2|0.7774
82416253|NCT01659541|164543624|OTHER|Statistical analyses were performed using a repeated measures analysis of variance and Paired t test. A p value was calculated.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control (Pre-Implant); comparisons was made at various points in the study (Week #28, #40 and #52).||||<0.05
82416254|NCT01659541|164543625|OTHER|Statistical analyses were performed using a repeated measures analysis of variance and Paired t test. A p value was calculated.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control (Pre-Implant); comparisons were made at various points in the study (Week #28, #40 and #52).||||<0.05
82416255|NCT01659541|164543626|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant)) were compared with data obtained after implantation (Week ##28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
82416256|NCT01659541|164543627|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
82416257|NCT01659541|164543628|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28 ,#40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. Paired t test. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
82416258|NCT01659541|164543629|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation (Pre-Implant) were compared with data obtained after implantation (Week #28, #40, #52) of the cough system using a nonparametric analog (Friedman Test) to the standard repeated measures analysis of variance. A p value was calculated. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± Standard Error.||||<0.05
82416259|NCT03055507|164543643|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.05|TWO_SIDED|96.0|-2.4|0.5|||t-test, 1 sided|||||0.5|-2.4|<0.05
82416260|NCT01740427|164543651|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.576|||<|1e-06|TWO_SIDED|95.0|0.463|0.718||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||0.718|0.463|<0.000001
82416261|NCT01740427|164543652|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.428||||0.0224|TWO_SIDED|95.0|1.008|2.03||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral vs non-visceral) per randomization.||2.030|1.008|0.0224
82416262|NCT01740427|164543653|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.594||||0.009|TWO_SIDED|95.0|1.08|2.347||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral vs non-visceral) per randomization.||2.347|1.080|0.0090
82532898|NCT04102540|164763357|OTHER|In this analysis, our null hypothesis was that the median self-efficacy to manage HIV scale score at baseline/exposure 1 was exactly equivalent to the median self-efficacy to manage HIV scale score following exposure 2 to the intervention.|Median Difference (Net)|0.01||||0.9879|TWO_SIDED|95.0|-0.7|0.7||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median self-efficacy to manage HIV scale scores between baseline/exposure 1 and exposure 2.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 2 to the intervention.||0.7|-0.7|0.9879
82576553|NCT01791972|164863264|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|0.53|0.84||Terms for treatment and period, computed with the generalized estimating equations (GEE) algorithm, which adjusts for potential correlation between measurements on the same patient. Significance level of 0.05.|Regression, Logistic|||||0.84|0.53|<0.0001
82416263|NCT01740427|164543655|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.451|||<|0.0001|TWO_SIDED|95.0|1.619|3.722||1-sided p-value is from exact test.|Fisher Exact|||Stratified analysis: Stratified by disease site (visceral, non-visceral) per randomization.||3.722|1.619|<0.0001
82416264|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.571|||<|0.0001|TWO_SIDED|95.0|0.443|0.737|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for ER positive||0.737|0.443|<0.0001
82416265|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.405||||0.003|TWO_SIDED|95.0|0.218|0.751|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for ER Negative||0.751|0.218|0.0030
82416266|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.531|||<|0.0001|TWO_SIDED|95.0|0.416|0.68|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Rb Positive||0.680|0.416|<0.0001
82416267|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.675||||0.3237|TWO_SIDED|95.0|0.308|1.481|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Rb Negative||1.481|0.308|0.3237
82576554|NCT00305344|164863275|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Fisher Exact|||Null hypothesis: there will be no difference between AUC C-peptide at baseline and 1 or 2 years post cord blood infusion||||>0.05
82416268|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.555|||<|0.0001|TWO_SIDED|95.0|0.437|0.705|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Cyclin D1 Positive||0.705|0.437|<0.0001
82416269|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.997||||0.9964|TWO_SIDED|95.0|0.287|3.461|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Cyclin D1 Negative||3.461|0.287|0.9964
82416270|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.518|||<|0.0001|TWO_SIDED|95.0|0.4|0.67|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 Positive||0.670|0.400|<0.0001
82416271|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.731||||0.3221|TWO_SIDED|95.0|0.392|1.364|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 Negative||1.364|0.392|0.3221
82416272|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.581|||<|0.0001|TWO_SIDED|95.0|0.455|0.742|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 HScore\<175||0.742|0.455|<0.0001
82416273|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.255||||0.0022|TWO_SIDED|95.0|0.1|0.65|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for p16 HScore\>=175||0.650|0.100|0.0022
82532899|NCT04102540|164763357|OTHER|In this analysis, our null hypothesis was that the median self-efficacy to manage HIV scale score at baseline/exposure 1 was exactly equivalent to the median self-efficacy to manage HIV scale score following exposure 3 to the intervention.|Median Difference (Net)|0.57||||0.155|TWO_SIDED|95.0|-0.2|1.4||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median self-efficacy to manage HIV scale scores between baseline/exposure 1 and exposure 3.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 3 to the intervention.||1.4|-0.2|0.1550
82532900|NCT04102540|164763358|OTHER|In this model, the null hypothesis was that the odds of being non-adherent at baseline/exposure 1 were exactly equal to the odds of being non-adherent at exposure 2 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.17||||0.819|TWO_SIDED|95.0|0.3|4.52||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|In this model, the odds ratio estimate is for the odds of being non-adherent at exposure 2 relative to the odds of being non-adherent at baseline/exposure 1.|"For analysis, we dichotomized participants adherence as adherent or non-adherent."||4.52|0.30|0.8190
82416274|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53||||0.0002|TWO_SIDED|95.0|0.379|0.742|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Ki67 \<=20%||0.742|0.379|0.0002
82416275|NCT01740427|164543656|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.569||||0.0007|TWO_SIDED|95.0|0.409|0.791|||Unstratified log-rank test||Unstratified Cox proportional hazards model was used.|Statistical analysis for Ki67 \>20%||0.791|0.409|0.0007
82416276|NCT01740427|164543660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.023||||0.0925|TWO_SIDED|95.0|-0.004|0.051|||Mixed Models Analysis|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||||0.051|-0.004|0.0925
82416277|NCT01740427|164543661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.325||||0.7822|TWO_SIDED|95.0|-2.63|1.98|||Mixed Models Analysis|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||||1.98|-2.63|0.7822
82416278|NCT01740427|164543663|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.956||||0.33775|TWO_SIDED|95.0|0.777|1.177||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||1.177|0.777|0.337750
82416279|NCT01740427|164543664|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.921||||0.208706|TWO_SIDED|95.0|0.755|1.124||1-sided p-value from the stratified log-rank test.|Stratified Log Rank|||||1.124|0.755|0.208706
82416280|NCT06025695|164543667|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit (LL) of the two-sided asymptotic standardized 95% confidence interval (CI) for the difference in seroconversion rate between the HRV PCV-free group and HRV group is greater than or equal to -10%.|Difference in seroconversion rate|-3.73|||||TWO_SIDED|95.0|-6.93|-0.55|||||The asymptotic standardized 95% CI for the difference in seroconversion rate between HRV PCV-free Group minus HRV Group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of HRV PCV-free Group as compared to HRV Group in terms of seroconversion rates 1 month post-Dose 2.||-0.55|-6.93|
82416281|NCT06025695|164543668|NON_INFERIORITY|NI was to be demonstrated if the LL of the two-sided 95% CI for the ratio of anti-RV IgA Ab GMC between the HRV PCV-free group and HRV group is greater than or equal to 0.67.|GMC Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.84|||||The comparison is done using the group GMC ratio (HRV PCV-free/HRV) (ANOVA model applied to the log10-transformed titers). The ANOVA model included the group as a fixed effect.|To demonstrate the non-inferiority of the HRV PCV-free Group as compared to HRV Group in terms of serum anti-RV IgA Ab concentrations 1 month post-Dose 2.||0.84|0.60|
82416282|NCT06025695|164543669|NON_INFERIORITY|NI was to be demonstrated if the LL of the two-sided asymptotic standardized 95% CI for the difference in the percentage between the HRV PCV-free group and HRV group is greater than or equal to -10%.|Difference in percentage|-6.37|||||TWO_SIDED|95.0|-10.81|-1.92|||||The asymptotic standardized 95% CI for the difference in in the percentage between HRV PCV-free Group minus HRV Group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of HRV PCV-free Group as compared to HRV Group in terms of percentage of participants with anti-RV IgA antibody concentrations \>=90 U/mL 1 month post-Dose 2.||-1.92|-10.81|
82416283|NCT05762744|164543673|OTHER|Unpaired two-tailed t-test to test null hypothesis||||||0.37||||||The t-test was conducted on the logarithms of the variable.|t-test, 2 sided|||Null hypothesis: the order of FSIGTs (saline or exenatide-stimulated) does not affect the response during an FSIGT||||0.37
82416284|NCT05762744|164543674|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.66|||||||t-test, 2 sided|||Null hypothesis: The order of FSIGT (exenatide-stimulated or saline) does not affect the response to an FSIGT.||||0.66
82416285|NCT05762744|164543675|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.55|||||||t-test, 2 sided|||Null hypothesis: the order of testing (exenatide-stimulated or saline FSIGT) does not affect data obtained in the FSIGTs.||||0.55
82416286|NCT05762744|164543676|OTHER|Unpaired, two-tailed t-test to test the null hypothesis||||||0.45|||||||t-test, 2 sided|||The order of FSIGTs (exenatide-stimulated or saline) does not affect the response during an FSIGT||||0.45
82416287|NCT05762744|164543677|OTHER|Two-tailed unpaired t-test to test null hypothesis||||||0.86||||||The t-test was conducted on the logarithms of the variable|t-test, 2 sided|||Null hypothesis: the order of FSIGT (exenatide or saline) does not affect the response during an FSIGT||||0.86
82416288|NCT05762744|164543678|OTHER|Two-tailed p-test for unpaired data||||||0.44||||||The t-test was conducted on the logarithms of the variable.|t-test, 2 sided|||Null hypothesis: The order of FSIGTs (exenatide-stimulated or saline) does not affect the response to an FSIGT||||0.44
82416289|NCT05762744|164543679|OTHER|||||||0.41|||||||t-test, 2 sided|||"Null hypothesis: no differences between the two groups with respect to exenatide's effect on first-phase insulin secretion.~t-test conducted on logarithms of the values"||||0.41
82416290|NCT05762744|164543679|OTHER|||||||0.38|||||||t-test, 2 sided|||Null hypothesis: no difference between two groups with respect to exenatide's effect on first phase insulin secretion||||0.38
82416291|NCT05762744|164543680|OTHER|||||||0.8|||||||t-test, 2 sided|||Null hypothesis: the two genotype groups do not differ with respect to the effect of exenatide on the rate of glucose disappearance||||0.80
82416292|NCT05762744|164543680|OTHER|||||||0.98|||||||t-test, 2 sided|||Null hypothesis: the two genotype groups do not differ with respect to the effect of exenatide on the rate of glucose disappearance during an FSIGT||||0.98
82416293|NCT01560416|164543707|SUPERIORITY|||||||0.79|||||||Log Rank|||||||0.79
82416294|NCT01560416|164543709|SUPERIORITY|||||||0.68|||||||Fisher Exact|||||||0.68
82416295|NCT00669331|164543772|SUPERIORITY_OR_OTHER||Rate Ratio Mannitol:Control|0.92||||0.3115|TWO_SIDED|95.0|0.78|1.08|||Negative binomial regression model|Negative binomial regression model with treatment, region and baseline PE rate as predictors and log of follow-up time as an offset variable|For rate ratio, Mannitol rate is the numerator, Control rate is the denominator|||1.08|0.78|0.3115
82416296|NCT00669331|164543773|SUPERIORITY_OR_OTHER||LS mean difference across the 52 weeks|-2.4||||0.0457|TWO_SIDED|95.0|-4.76|-0.05|||Mixed model repeated measures analysis|Model included treatment, visit, treatment\*visit, region and baseline SGRQ Total score.|difference calculated Mannitol-control. Negative difference is in favour of mannitol since lower scores indicate improved quality of life.|||-0.05|-4.76|0.0457
82416297|NCT00669331|164543774|SUPERIORITY_OR_OTHER||Rate ratio|0.91||||0.2754|TWO_SIDED|95.0|0.77|1.08|||Negative binomial regression model|Negative binomial regression model with treatment, region and baseline pulmonary exacerbation rate as predictors, log follow-up as offset|Rate ratio is for mannitol vs control.|||1.08|0.77|0.2754
82416298|NCT00669331|164543775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0218|TWO_SIDED|95.0|0.63|0.96|||Regression, Cox|Cox regression model was stratified by region and baseline PE rate||||0.96|0.63|0.0218
82416299|NCT00669331|164543776|SUPERIORITY_OR_OTHER||Rate ratio|0.88||||0.3602|TWO_SIDED|95.0|0.67|1.16|||Negative binomial model|treatment, region and baseline pulmonary exacerbation rate as predictors, and with log of follow-up time as the offset variable||Analysed using a negative binomial model with treatment, region and baseline pulmonary exacerbation rate as predictors, and with log of follow-up time as the offset variable||1.16|0.67|0.3602
82416300|NCT00669331|164543777|SUPERIORITY_OR_OTHER||ls mean difference across 52 weeks|2.76||||0.0355|TWO_SIDED|95.0|0.19|5.33|||Mixed Models Analysis|Model includes treatment, visit, treatment\*visit, region and baseline sputum weight (g).|Difference mannitol-control|||5.33|0.19|0.0355
82416301|NCT00669331|164543778|SUPERIORITY_OR_OTHER||LS mean diff across post-baseline visits|-0.44||||0.1159|TWO_SIDED|95.0|-0.99|0.11|||Mixed Models Analysis|Model includes treatment, visit, treatment\*visit, region and baseline ESS score|Negative change indicates an improvement in ESS score. Difference calculated Mannitol - Control.|||0.11|-0.99|0.1159
82416302|NCT00669331|164543779|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.56||||0.6677|TWO_SIDED|95.0|-27.01|42.13|||Mixed Models Analysis|Model of absolute change from baseline in FEV1. Model includes terms for treatment, visit, trt\*visit, region and baseline value|ls mean difference Mannitol-Control|||42.13|-27.01|0.6677
82416303|NCT00669331|164543786|SUPERIORITY_OR_OTHER||Rate ratio|0.61||||0.0928|TWO_SIDED|95.0|0.34|1.09|||Negative binomial regression|||||1.09|0.34|0.0928
82416304|NCT01454063|164543791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.577|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001||95.0|0.475|0.678||p-value based on the generalized Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS - Placebo) adjusted for randomization strata.||||0.678|0.475|<0.0001
82416305|NCT01454063|164543792|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.199|STANDARD_ERROR_OF_MEAN|1.076|<|0.0001||95.0|-7.307|-3.091||p-value based on the generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302-placebo) adjusted for randomization strata.||||-3.091|-7.307|<0.0001
82416306|NCT01454063|164543793|SUPERIORITY_OR_OTHER|||||||0.0514||||||Treatment comparisons based on CMH test adjusting for randomization strata.|Cochran-Mantel-Haenszel|||||||0.0514
82416307|NCT01454063|164543794|SUPERIORITY_OR_OTHER|||||||0.0034||||||Treatment comparisons based on CMH test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.0034
82416308|NCT01454063|164543795|SUPERIORITY_OR_OTHER|||||||0.0963||||||Treatment comparisons based on Wilcoxon rank-sum test stratified by randomization strata. For subjects without a score due to inability to read the ETDRS chart, the log score will be imputed as 1.6 for the purpose of treatment comparisons.|Wilcoxon rank-sum test|||||||0.0963
82416309|NCT01454063|164543796|SUPERIORITY_OR_OTHER|||||||0.0532||||||Treatment comparisons are based on generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.0532
82416310|NCT01454063|164543797|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||<0.0001
82416311|NCT00976391|164543847|NON_INFERIORITY_OR_EQUIVALENCE|P-value from a one-sided t-test to test whether the difference of least square means (albiglutide - preprandial lispro insulin) is less than or equal to the pre-specified non-inferiority margin of 0.4%|Mean Difference (Net)|-0.16|||<|0.0001|TWO_SIDED|95.0|-0.32|0.0|||t-test, 1 sided|||||0.00|-0.32|<0.0001
82416312|NCT05156125|164543858|SUPERIORITY||Risk Difference (RD)|16.1||||0.0184|TWO_SIDED|95.0|2.58|29.05|||Cochran-Mantel-Haenszel|||At 13 weeks||29.05|2.58|0.0184
82416313|NCT05156125|164543858|SUPERIORITY||Risk Difference (RD)|13.1||||0.041|TWO_SIDED|95.0|-0.03|25.58|||Cochran-Mantel-Haenszel|||At 13 weeks||25.58|-0.03|0.0410
82416314|NCT05156125|164543859|SUPERIORITY||Risk Difference (RD)|20.6||||0.007|TWO_SIDED|95.0|5.73|34.42|||Cochran-Mantel-Haenszel|||At 13 weeks||34.42|5.73|0.0070
82416315|NCT05156125|164543859|SUPERIORITY||Risk Difference (RD)|17.3||||0.0162|TWO_SIDED|95.0|2.75|30.67|||Cochran-Mantel-Haenszel|||At Week 13||30.67|2.75|0.0162
82416316|NCT05156125|164543860|SUPERIORITY||Risk Difference (RD)|16.5||||0.0448|TWO_SIDED|95.0|0.65|31.37|||Cochran-Mantel-Haenszel|||||31.37|0.65|0.0448
82416317|NCT05156125|164543860|SUPERIORITY||Risk Difference (RD)|16.0||||0.0417|TWO_SIDED|95.0|0.23|30.58|||Cochran-Mantel-Haenszel|||At Week 13||30.58|0.23|0.0417
82416318|NCT05156125|164543861|SUPERIORITY||Risk Difference (RD)|11.5||||0.0499|TWO_SIDED|95.0|-0.99|23.38|||Cochran-Mantel-Haenszel|||||23.38|-0.99|0.0499
82416319|NCT05156125|164543861|SUPERIORITY||Risk Difference (RD)|21.4||||0.0011|TWO_SIDED|95.0|7.94|33.53|||Cochran-Mantel-Haenszel|||At Week 13||33.53|7.94|0.0011
82416320|NCT05156125|164543862|SUPERIORITY|||||||0.0072|||||||Cochran-Mantel-Haenszel|||At Week 13||||0.0072
82416321|NCT05156125|164543862|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||At Week 13||||<0.0001
82416322|NCT05075772|164543871|OTHER||Ratio of gMeans (%)|46.3|||||TWO_SIDED|90.0|38.3|55.9|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)).~Intra-matched-pair geometric coefficient of variation=28.2."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||55.9|38.3|
82416323|NCT05075772|164543872|OTHER||Ratio of gMeans (%)|26.8|||||TWO_SIDED|90.0|23.2|31.1|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)). Intra-matched-pair geometric coefficient of variation=22.5"|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||31.1|23.2|
82416324|NCT05075772|164543873|OTHER||Ratio of gMeans (%)|47.0|||||TWO_SIDED|90.0|39.0|56.6|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of SC injection (T))/(gMean of IV infusion (R)).~Intra-matched-pair geometric coefficient of variation=27.7."|The statistical model used for the analysis of this secondary endpoint was an analysis of variance (ANOVA). The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. The model included a fixed effect for treatment assignment and a random effect for matching pair (each matched pair in the study was assigned a number for the analysis).||56.6|39.0|
82416325|NCT03203512|164543875|SUPERIORITY||||||<|0.001||||||Treatment effect: p\<0.001; period effect : p=0.552; treatment x period interaction: p=0.622|ANOVA|||Null hypothesis is that there was no difference in change of total EV numbers detected by NTA between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total EV numbers.||||<0.001
82416326|NCT03203512|164543876|SUPERIORITY||||||=|0.001||||||Treatment: p=0.001; period: p=0.646; treatment x period interaction: p=0.267|ANOVA|||Null hypothesis is that there was no difference in change of total PS+EV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total PS+EV numbers.||||=0.001
82416327|NCT03203512|164543877|SUPERIORITY||||||=|0.002||||||Treatment: p=0.002; period: p=0.350; treatment x period interaction: p=0.572|ANOVA|||Null hypothesis is that there was no difference in change of PDEV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on PDEV numbers.||||=0.002
82416328|NCT03203512|164543877|SUPERIORITY|Null hypothesis is that there was no difference in change of EDEV numbers detected by FCM between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EDEV numbers.|||||<|0.001||||||Treatment: p\<0.001; period: p=0.362; treatment x period interaction: p=0.225|ANOVA|||||||<0.001
82416329|NCT03203512|164543878|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.010; treatment x period: p=0.608|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting lag time for TF-dependent thrombin generation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
82416330|NCT03203512|164543879|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.073; treatment x period: p=0.667|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent thrombin peak concentration between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
82416331|NCT03203512|164543880|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.138; treatment x period: p=0.872|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting the time to reach peak TF-dependent thrombin concentration between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
82416332|NCT03203512|164543881|SUPERIORITY||||||=|0.015||||||Treatment: p=0.015; period: p=0.059; treatment x period: p=0.220|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent velocity index between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||=0.015
82577073|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.201||0.3577|TWO_SIDED|95.0|-0.59|0.22|||MMRM|||Suicide, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.59|0.3577
82416333|NCT03203512|164543882|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.118; treatment x period: p=0.802|ANOVA|||Null hypothesis is that there was no difference in change of EV thrombogenicity in affecting TF-dependent endogenous thrombin potential (ETP) between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EV thrombogenicity.||||<0.001
82416334|NCT03203512|164543883|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to ADP between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
82416335|NCT03203512|164543883|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to epinephrine between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
82416336|NCT03203512|164543883|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to TRAP-6 between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
82416337|NCT03203512|164543883|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to U46619 between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
82416338|NCT03203512|164543884|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of platelet function in affecting LogEC50 values in response to CRP-XL between fish oil and placebo capsules. Comparisons of this parameter after each intervention were drawn using 2-way ANOVA with the Turkey multiple comparisons test.||||>0.05
82416339|NCT03203512|164543885|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affecting endpoint for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
82416340|NCT03203512|164543885|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affectingamximum for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
82416341|NCT03203512|164543886|SUPERIORITY||||||>|0.05|||||||ANOVA|||Null hypothesis is that there was no difference in change of pro-thrombotic activity of PDEVs in affecting area under curve for ex vivo thrombus formation between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on the pro-thrombotic activity of PDEVs.||||>0.05
82416342|NCT03203512|164543887|SUPERIORITY||||||<|0.001||||||Treatment: \<0.001; period: p=0.978; treatment x period interaction: p=0.140|ANOVA|||Null hypothesis is that there was no difference in change of EPA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EPA in circulating EV total lipids.||||<0.001
82416343|NCT03203512|164543887|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.699; treatment x period interaction: p=0.114|ANOVA|||Null hypothesis is that there was no difference in change of DHA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DHA in circulating EV total lipids.||||<0.001
82416344|NCT03203512|164543887|SUPERIORITY||||||=|0.011||||||Treatment: p=0.011; period: p=0.381; treatment x period interaction: p=0.762|ANOVA|||Null hypothesis is that there was no difference in change of oleic acid in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on oleic acid in circulating EV total lipids.||||=0.011
82416345|NCT03203512|164543887|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.512; treatment x period interaction: p=0.812|ANOVA|||Null hypothesis is that there was no difference in change of AA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on AA in circulating EV total lipids.||||<0.001
82416346|NCT03203512|164543887|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.160; treatment x period interaction: p=0.132|ANOVA|||Null hypothesis is that there was no difference in change of total n-3 PUFA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-3 PUFA in circulating EV total lipids.||||<0.001
82416347|NCT03203512|164543887|SUPERIORITY||||||=|0.013||||||Treatment: p=0.013; period: p=0.500; treatment x period interaction: p=0.522|ANOVA|||Null hypothesis is that there was no difference in change of total MUFA in circulating EV total lipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total MUFA in circulating EV total lipids.||||=0.013
82416348|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.169; treatment x period interaction: p=0.629|ANOVA|||Null hypothesis is that there was no difference in change of EPA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on EPA in plasma total phospholipids.||||<0.001
82416349|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.262; treatment x period interaction: p=0.150|ANOVA|||Null hypothesis is that there was no difference in change of DHA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DHA in plasma total phospholipids.||||<0.001
82416350|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.302; treatment x period interaction: p=0.385|ANOVA|||Null hypothesis is that there was no difference in change of DPA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DPA in plasma total phospholipids.||||<0.001
82416351|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.793; treatment x period interaction: p=0.522|ANOVA|||Null hypothesis is that there was no difference in change of linoleic acid in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on linoleic acid in plasma total phospholipids.||||<0.001
82532901|NCT04102540|164763358|OTHER|In this model, the null hypothesis was that the odds of being non-adherent at baseline/exposure 1 were exactly equal to the odds of being non-adherent at exposure 3 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|0.3||||0.1332|TWO_SIDED|95.0|0.07|1.43||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|In this model, the odds ratio estimate is for the odds of being non-adherent at exposure 3 relative to the odds of being non-adherent at baseline/exposure 1.|"For analysis, we dichotomized participants adherence as adherent or non-adherent."||1.43|0.07|0.1332
82416352|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.956; treatment x period interaction: p=0.238|ANOVA|||Null hypothesis is that there was no difference in change of dihomo-γ-linolenic acid (DGLA) in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DGLA in plasma total phospholipids.||||<0.001
82416353|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.457; treatment x period interaction: p=0.613|ANOVA|||Null hypothesis is that there was no difference in change of AA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on AA in plasma total phospholipids.||||<0.001
82416354|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.134; treatment x period interaction: p=0.260|ANOVA|||Null hypothesis is that there was no difference in change of total n-3 PUFA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-3 PUFA in plasma total phospholipids.||||<0.001
82416355|NCT03203512|164543888|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period: p=0.917; treatment x period interaction: p=0.603|ANOVA|||Null hypothesis is that there was no difference in change of total n-6 PUFA in plasma total phospholipids between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on total n-6 PUFA in plasma total phospholipids.||||<0.001
82416356|NCT03203512|164543889|SUPERIORITY||||||=|0.016||||||Treatment: p=0.016; period: p=0.566; treatment x period interaction: p=0.659|ANOVA|||Null hypothesis is that there was no difference in change of plasma TAG between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TAG.||||=0.016
82416357|NCT03203512|164543889|SUPERIORITY||||||=|0.014||||||Treatment: p=0.014; period: p=0.842; treatment x period interaction: p=0.943|ANOVA|||Null hypothesis is that there was no difference in change of plasma LDL-C between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma LDL-C.||||=0.014
82647041|NCT01494649|165009064|SUPERIORITY_OR_OTHER||Adjusted mean|-2.07||||0.22|TWO_SIDED|95.0|-5.38|1.25||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline tactile threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||1.25|-5.38|0.220
82416358|NCT03203512|164543889|SUPERIORITY||||||=|0.077||||||Treatment: p=0.077; period: p=0.921; treatment x period interaction: p=0.793|ANOVA|||Null hypothesis is that there was no difference in change of plasma TC between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TC.||||=0.077
82447458|NCT03831100|164603656|SUPERIORITY||Mean Difference (Net)|-3.4||||0.3|TWO_SIDED|90.0|-8.8|2.0||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores|||2.0|-8.8|0.30
82447459|NCT03831100|164603657|SUPERIORITY||Median Difference (Net)|-9.7||||0.005|TWO_SIDED|90.0|-15.2|-4.2||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-4.2|-15.2|0.005
82447460|NCT03831100|164603658|SUPERIORITY||Mean Difference (Net)|-3.4||||0.064|TWO_SIDED|90.0|-6.4|0.4||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||0.4|-6.4|0.064
82416359|NCT03203512|164543889|SUPERIORITY||||||=|0.379||||||Treatment: p=0.379; period: p=0.938; treatment x period interaction: p=0.341|ANOVA|||Null hypothesis is that there was no difference in change of plasma HDL-C between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma HDL-C.||||=0.379
82447461|NCT03831100|164603659|SUPERIORITY||Mean Difference (Net)|-4.3||||0.046|TWO_SIDED|90.0|-7.8|-0.8||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.8|-7.8|0.046
82447462|NCT03831100|164603660|SUPERIORITY||Mean Difference (Net)|-1.5||||0.49|TWO_SIDED|90.0|-5.2|2.1||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||2.1|-5.2|0.49
82416360|NCT03203512|164543890|SUPERIORITY||||||=|0.285||||||Treatment: p=0.285; period: p=0.954; treatment x period interaction: p=0.528|ANOVA|||Null hypothesis is that there was no difference in change of plasma TC/HDL-C ratio between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on plasma TC/HDL-C ratio.||||=0.285
82416361|NCT03203512|164543891|SUPERIORITY||||||<|0.001||||||Treatment: p\<0.001; period effect: p=0.011; treatment x period interaction: p=0.033|ANOVA|||Null hypothesis is that there was no difference in change of SBP between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on SBP.||||<0.001
82416362|NCT03203512|164543891|SUPERIORITY||||||=|0.002||||||Treatment: p=0.002; period: p=0.952; treatment x period interaction: p=0.114|ANOVA|||Null hypothesis is that there was no difference in change of DBP between fish oil and placebo capsules. A general linear model with fixed factors of treatment and period was conducted to determine the differences in the effect of two treatments and two periods on DBP.||||=0.002
82416363|NCT04053452|164543933|OTHER||Area under the curve|0.7262|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
82416364|NCT04053452|164543934|OTHER||Area under the curve|0.6667|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
82416365|NCT04053452|164543935|OTHER||Area under the curve|0.7083|||||TWO_SIDED||||||||Area under the receiver operating characteristic (ROC) curve.|||||
82416366|NCT04053452|164543936|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.0623|||||TWO_SIDED|95.0|-0.5005|0.4791||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4791|-0.5005|
82416367|NCT04053452|164543936|OTHER|Median at forearm|Kendall's tau correlation coefficient|-0.1628|||||TWO_SIDED|95.0|-0.6503|0.4222||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4222|-0.6503|
82416368|NCT04053452|164543936|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|-0.185|||||TWO_SIDED|95.0|-0.549|0.1829||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.1829|-0.5490|
82416369|NCT04053452|164543936|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.0512|||||TWO_SIDED|95.0|-0.3411|0.5017||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5017|-0.3411|
82416370|NCT04053452|164543936|OTHER|Median at axilla|Kendall's tau correlation coefficient|0.0476|||||TWO_SIDED|95.0|-0.4335|0.5592||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5592|-0.4335|
82416371|NCT04053452|164543936|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.1229|||||TWO_SIDED|95.0|-0.5092|0.304||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3040|-0.5092|
82416372|NCT04053452|164543936|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.0603|||||TWO_SIDED|95.0|-0.3057|0.4137||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4137|-0.3057|
82416373|NCT04053452|164543936|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|0.1059|||||TWO_SIDED|95.0|-0.4028|0.57||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.5700|-0.4028|
82416374|NCT04053452|164543936|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|-0.1786|||||TWO_SIDED|95.0|-0.6503|0.2838||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.2838|-0.6503|
82532902|NCT04102540|164763359|OTHER|In this model, the null hypothesis was that the odds of good health at baseline/exposure 1 were exactly equal to the odds of good health at exposure 2 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.77||||0.316|TWO_SIDED|95.0|0.57|5.46||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|This is the estimated odds ratio of having good health at exposure 2 relative to baseline/exposure 1.|"For analysis, we dichotomized participants' responses into the following categories: good vs bad health, where good included participant responses: excellent, very good, good, and bad included the participant responses: more or less and bad."||5.46|0.57|0.3160
82416375|NCT04053452|164543936|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|-0.2396|||||TWO_SIDED|95.0|-0.5714|0.195||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.1950|-0.5714|
82416376|NCT04053452|164543936|OTHER|C6|Kendall's tau correlation coefficient|-0.0671|||||TWO_SIDED|95.0|-0.4667|0.3336||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3336|-0.4667|
82416377|NCT04053452|164543936|OTHER|C7|Kendall's tau correlation coefficient|-0.2134|||||TWO_SIDED|95.0|-0.7018|0.3193||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.3193|-0.7018|
82416378|NCT04053452|164543936|OTHER|Vagus|Kendall's tau correlation coefficient|0.0246|||||TWO_SIDED|95.0|-0.3506|0.4596||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and length of hospital stay.||0.4596|-0.3506|
82416379|NCT04053452|164543937|OTHER|Median at wrist|Odds Ratio (OR)|0.7686494||||0.36|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.360
82416380|NCT04053452|164543937|OTHER|Median at forearm|Odds Ratio (OR)|0.9315228||||0.521|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.521
82416381|NCT04053452|164543937|OTHER|Median at cubital fossa|Odds Ratio (OR)|0.7949528||||0.245|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.245
82416382|NCT04053452|164543937|OTHER|Median at humerus|Odds Ratio (OR)|0.8603349||||0.541|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.541
82416383|NCT04053452|164543937|OTHER|Median at axilla|Odds Ratio (OR)|0.8767973||||0.415|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.415
82416384|NCT04053452|164543937|OTHER|Ulnar at wrist|Odds Ratio, log|0.7613965||||0.504|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.504
82532903|NCT04102540|164763359|OTHER|In this model, the null hypothesis was that the odds of having good health at baseline/exposure 1 were exactly equal to the odds of having good health at exposure 3 giving an odds ratio of one for the null hypothesis.|Odds Ratio (OR)|1.12||||0.8609|TWO_SIDED|95.0|0.32|3.93||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Regression, Logistic|This model included random effects for subjects.|This is the estimated odds ratio of having good health at exposure 3 relative to baseline/exposure 1.|"For analysis, we dichotomized participants' responses into the following categories: good vs bad health, where good included participant responses: excellent, very good, good, and bad included the participant responses: more or less and bad."||3.93|0.32|0.8609
82416385|NCT04053452|164543937|OTHER|Ulnar at forearm|Odds Ratio (OR)|0.8061505||||0.393|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.393
82416386|NCT04053452|164543937|OTHER|Ulnar at cubital fossa|Odds Ratio (OR)|0.8336885||||0.222|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.222
82416387|NCT04053452|164543937|OTHER|Ulnar at humerus|Odds Ratio (OR)|1.1214848||||0.615|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.615
82416388|NCT04053452|164543937|OTHER|Ulnar at axilla|Odds Ratio (OR)|0.9898411||||0.926|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.926
82416389|NCT04053452|164543937|OTHER|C6|Odds Ratio (OR)|0.9402829||||0.519|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.519
82416390|NCT04053452|164543937|OTHER|C7|Odds Ratio (OR)|0.9347906||||0.379|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.379
82416391|NCT04053452|164543937|OTHER|Vagus|Odds Ratio (OR)|0.8968658||||0.511|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of walking (i.e., nerve ultrasound measurements do not predict whether a subject is ambulatory at discharge).||||0.511
82416392|NCT04053452|164543938|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.057735|||||TWO_SIDED|95.0|-0.4273|0.3293||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.3293|-0.4273|
82416393|NCT04053452|164543938|OTHER|Median at forearm|Kendall's tau correlation coefficient|-0.0359442|||||TWO_SIDED|95.0|-0.548|0.5248||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.5248|-0.5480|
82416394|NCT04053452|164543938|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|0.1429483|||||TWO_SIDED|95.0|-0.1938|0.4763||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.4763|-0.1938|
82416395|NCT04053452|164543938|OTHER|Median at humerus|Kendall's tau correlation coefficient|-0.3955939|||||TWO_SIDED|95.0|-0.6811|-0.0874||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.0874|-0.6811|
82416396|NCT04053452|164543938|OTHER|Median at axilla|Kendall's tau correlation coefficient|-0.3681051|||||TWO_SIDED|95.0|-0.7032|0.1185||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.1185|-0.7032|
82416397|NCT04053452|164543938|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.4938292|||||TWO_SIDED|95.0|-0.7112|-0.1978||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.1978|-0.7112|
82416398|NCT04053452|164543938|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.1304373|||||TWO_SIDED|95.0|-0.2201|0.5014||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.5014|-0.2201|
82416399|NCT04053452|164543938|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|0.3273268|||||TWO_SIDED|95.0|-0.0679|0.6612||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.6612|-0.0679|
82416400|NCT04053452|164543938|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|-0.0552157|||||TWO_SIDED|95.0|-0.4213|0.361||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.3610|-0.4213|
82577074|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.192||0.1646|TWO_SIDED|95.0|-0.66|0.11|||MMRM|||Suicide, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.66|0.1646
82416401|NCT04053452|164543938|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|-0.1666667|||||TWO_SIDED|95.0|-0.5389|0.2057||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.2057|-0.5389|
82416402|NCT04053452|164543938|OTHER|C6|Kendall's tau correlation coefficient|-0.3194892|||||TWO_SIDED|95.0|-0.6539|0.2288||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.2288|-0.6539|
82416403|NCT04053452|164543938|OTHER|C7|Kendall's tau correlation coefficient|-0.4959498|||||TWO_SIDED|95.0|-0.686|-0.2065||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||-0.2065|-0.6860|
82416404|NCT04053452|164543938|OTHER|Vagus|Kendall's tau correlation coefficient|-0.3228883|||||TWO_SIDED|95.0|-0.6487|0.0||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and respiratory dysfunction.||0.0000|-0.6487|
82416405|NCT04053452|164543939|OTHER|Median at wrist|Kendall's tau correlation coefficient|-0.1415346|||||TWO_SIDED|95.0|-0.735|0.4247||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4247|-0.7350|
82416406|NCT04053452|164543939|OTHER|Median at forearm|Kendall's tau correlation coefficient|0.1987845|||||TWO_SIDED|95.0|-0.4377|0.8004||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.8004|-0.4377|
82447463|NCT03831100|164603661|SUPERIORITY||Mean Difference (Net)|-3.1||||0.14|TWO_SIDED|90.0|-6.5|0.3||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||0.3|-6.5|0.14
82416407|NCT04053452|164543939|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|-0.0789747|||||TWO_SIDED|95.0|-0.5256|0.3778||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.3778|-0.5256|
82416408|NCT04053452|164543939|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.1621509|||||TWO_SIDED|95.0|-0.3591|0.5606||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5606|-0.3591|
82416409|NCT04053452|164543939|OTHER|Median at axilla|Kendall's tau correlation coefficient|0.1499412|||||TWO_SIDED|95.0|-0.3901|0.6374||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.6374|-0.3901|
82416410|NCT04053452|164543939|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.0140441|||||TWO_SIDED|95.0|-0.5773|0.5407||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5407|-0.5773|
82416411|NCT04053452|164543939|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|0.01383297|||||TWO_SIDED|95.0|-0.5288|0.5485||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5485|-0.5288|
82416412|NCT04053452|164543939|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|-0.2935683|||||TWO_SIDED|95.0|-0.6968|0.2414||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.2414|-0.6968|
82416413|NCT04053452|164543939|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|0.1067521|||||TWO_SIDED|95.0|-0.5204|0.6392||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.6392|-0.5204|
82416414|NCT04053452|164543939|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|0.0549235|||||TWO_SIDED|95.0|-0.4633|0.5594||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.5594|-0.4633|
82532904|NCT04102540|164763360|OTHER|In this analysis, our null hypothesis was that the median current health status at baseline/exposure 1 was exactly equivalent to the median current health status following exposure 2 to the intervention.|Median Difference (Net)|9.13||||0.0572|TWO_SIDED|95.0|-0.3|18.6||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median current health status between baseline/exposure 1 and exposure 2.|Statistical analysis of current health status between baseline/exposure 1 and exposure 2 to the intervention.||18.6|-0.3|0.0572
82416415|NCT04053452|164543939|OTHER|C6|Kendall's tau correlation coefficient|-0.2597622|||||TWO_SIDED|95.0|-0.6816|0.1857||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.1857|-0.6816|
82416416|NCT04053452|164543939|OTHER|C7|Kendall's tau correlation coefficient|-0.0129034|||||TWO_SIDED|95.0|-0.4476|0.4025||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4025|-0.4476|
82416417|NCT04053452|164543939|OTHER|Vagus|Kendall's tau correlation coefficient|0.02457737|||||TWO_SIDED|95.0|-0.3506|0.4596||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by hand dynamometer.||0.4596|-0.3506|
82416418|NCT04053452|164543940|OTHER|Median at wrist|Kendall's tau correlation coefficient|0.1704986|||||TWO_SIDED|95.0|-0.395|0.6584||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6584|-0.3950|
82416419|NCT04053452|164543940|OTHER|Median at forearm|Kendall's tau correlation coefficient|0.1704986|||||TWO_SIDED|95.0|-0.395|0.6584||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6584|-0.3950|
82416420|NCT04053452|164543940|OTHER|Median at cubital fossa|Kendall's tau correlation coefficient|0.09040847|||||TWO_SIDED|95.0|-0.3821|0.5979||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.5979|-0.3821|
82416421|NCT04053452|164543940|OTHER|Median at humerus|Kendall's tau correlation coefficient|0.02501955|||||TWO_SIDED|95.0|-0.4158|0.479||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4790|-0.4158|
82416422|NCT04053452|164543940|OTHER|Median at axilla|Kendall's tau correlation coefficient|-0.0349215|||||TWO_SIDED|95.0|-0.5033|0.443||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4430|-0.5033|
82416423|NCT04053452|164543940|OTHER|Ulnar at wrist|Kendall's tau correlation coefficient|-0.0961|||||TWO_SIDED|95.0|-0.5458|0.4037||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4037|-0.5458|
82416424|NCT04053452|164543940|OTHER|Ulnar at forearm|Kendall's tau correlation coefficient|-0.2239171|||||TWO_SIDED|95.0|-0.6514|0.2935||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.2935|-0.6514|
82416425|NCT04053452|164543940|OTHER|Ulnar at cubital fossa|Kendall's tau correlation coefficient|-0.0805076|||||TWO_SIDED|95.0|-0.5371|0.2974||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.2974|-0.5371|
82416426|NCT04053452|164543940|OTHER|Ulnar at humerus|Kendall's tau correlation coefficient|0.2910126|||||TWO_SIDED|95.0|-0.2791|0.7651||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.7651|-0.2791|
82416427|NCT04053452|164543940|OTHER|Ulnar at axilla|Kendall's tau correlation coefficient|0.02342428|||||TWO_SIDED|95.0|-0.4531|0.5267||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.5267|-0.4531|
82447464|NCT03831100|164603662|SUPERIORITY||Mean Difference (Net)|3.2||||0.082|TWO_SIDED|90.0|0.2|6.3||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||6.3|0.2|0.082
82416428|NCT04053452|164543940|OTHER|C6|Kendall's tau correlation coefficient|0.06536087|||||TWO_SIDED|95.0|-0.2786|0.4454||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4454|-0.2786|
82416429|NCT04053452|164543940|OTHER|C7|Kendall's tau correlation coefficient|0.2207792|||||TWO_SIDED|95.0|-0.2459|0.6708||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.6708|-0.2459|
82416430|NCT04053452|164543940|OTHER|Vagus|Kendall's tau correlation coefficient|0.14415|||||TWO_SIDED|95.0|-0.2333|0.4899||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and strength by MRC sum score.||0.4899|-0.2333|
82416431|NCT04053452|164543941|OTHER|Median at wrist|Odds Ratio (OR)|0.9310743||||0.548|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.548
82416432|NCT04053452|164543941|OTHER|Median at forearm|Odds Ratio (OR)|0.9310743||||0.548|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.548
82416433|NCT04053452|164543941|OTHER|Median at cubital fossa|Odds Ratio (OR)|1.23944918||||0.25|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.250
82416434|NCT04053452|164543941|OTHER|Median at humerus|Odds Ratio (OR)|0.9613236||||0.874|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.874
82416435|NCT04053452|164543941|OTHER|Median at axilla|Odds Ratio (OR)|0.9442314||||0.698|TWO_SIDED|95.0|||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.698
82416436|NCT04053452|164543941|OTHER|Ulnar at wrist|Odds Ratio (OR)|1.193941||||0.665|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.665
82416437|NCT04053452|164543941|OTHER|Ulnar at forearm|Odds Ratio (OR)|1.0524489||||0.82|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.820
82447465|NCT03831100|164603663|SUPERIORITY||Mean Difference (Net)|2.7||||0.15|TWO_SIDED|90.0|-0.4|5.7||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||5.7|-0.4|0.15
82532905|NCT04102540|164763360|OTHER|In this analysis, our null hypothesis was that the median current health status at baseline/exposure 1 was exactly equivalent to the median current health status following exposure 3 to the intervention.|Median Difference (Net)|13.1||||0.0332|TWO_SIDED|95.0|1.1|25.1||The p-value was not adjusted for multiple comparisons and the a priori threshold for significance was alpha = 0.05.|Quantile Regression|Random intercepts for subjects were included in the model.|This is the difference in median current health status between baseline/exposure 1 and exposure 3.|Statistical analysis of self-efficacy to manage HIV scale score between baseline/exposure 1 and exposure 3 to the intervention.||25.1|1.1|0.0332
82416438|NCT04053452|164543941|OTHER|Ulnar at cubital fossa|Odds Ratio (OR)|1.21669122||||0.193|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.193
82416439|NCT04053452|164543941|OTHER|Ulnar at humerus|Odds Ratio (OR)|1.2994068||||0.314|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.314
82416440|NCT04053452|164543941|OTHER|Ulnar at axilla|Odds Ratio (OR)|1.1015629||||0.405|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.405
82416441|NCT04053452|164543941|OTHER|C6|Odds Ratio (OR)|0.9140133||||0.389|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.389
82416442|NCT04053452|164543941|OTHER|C7|Odds Ratio (OR)|0.7982946||||0.139|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.139
82416443|NCT04053452|164543941|OTHER|Vagus|Odds Ratio (OR)|0.9330042||||0.622|TWO_SIDED||||||Regression, Logistic|||Null hypothesis: Nerve ultrasound measurement has no effect on the log-odds of having autonomic dysfunction (i.e., higher ultrasound measurements do not predict whether a subject has autonomic dysfunction during their hospitalization).||||0.622
82416444|NCT04053452|164543942|OTHER|Median at wrist, 3 months|Kendall's tau correlation coefficient|0.2641183|||||TWO_SIDED|95.0|-0.2344|0.7511||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.7511|-0.2344|
82447466|NCT03831100|164603664|SUPERIORITY||Mean Difference (Net)|-2.2||||0.22|TWO_SIDED|90.0|-5.2|-0.7||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.7|-5.2|0.22
82416445|NCT04053452|164543942|OTHER|Median at forearm, 3 months|Kendall's tau correlation coefficient|0.02596308|||||TWO_SIDED|95.0|-0.4859|0.5555||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.5555|-0.4859|
82447467|NCT03831100|164603665|SUPERIORITY||Mean Difference (Net)|-2.9||||0.093|TWO_SIDED|90.0|-5.8|-0.1||A two-sided P \< .10 indicates the a priori threshold for statistical significance. P-values are not adjusted for multiple comparisons.|ANCOVA||Model-based treatment effect estimated using ANCOVA with change score modeled as a function of treatment group (AC, BRIGHT/Therapist A, BRIGHT/Therapist B), with adjustment for baseline scores.|||-0.1|-5.8|0.093
82416446|NCT04053452|164543942|OTHER|Median at cubital fossa, 3 months|Kendall's tau correlation coefficient|0.05162687|||||TWO_SIDED|95.0|-0.3342|0.417||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4170|-0.3342|
82416447|NCT04053452|164543942|OTHER|Median at humerus, 3 months|Kendall's tau correlation coefficient|-0.1714461|||||TWO_SIDED|95.0|-0.6473|0.2723||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.2723|-0.6473|
82416448|NCT04053452|164543942|OTHER|Median at axilla, 3 months|Kendall's tau correlation coefficient|-0.0531775|||||TWO_SIDED|95.0|-0.583|0.4451||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4451|-0.5830|
82416449|NCT04053452|164543942|OTHER|Ulnar at wrist, 3 months|Kendall's tau correlation coefficient|0.1371924|||||TWO_SIDED|95.0|-0.3592|0.6944||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.6944|-0.3592|
82416450|NCT04053452|164543942|OTHER|Ulnar at forearm, 3 months|Kendall's tau correlation coefficient|-0.0134595|||||TWO_SIDED|95.0|-0.5145|0.4627||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4627|-0.5145|
82416451|NCT04053452|164543942|OTHER|Ulnar at cubital fossa, 3 months|Kendall's tau correlation coefficient|0.01313517|||||TWO_SIDED|95.0|-0.5056|0.4833||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4833|-0.5056|
82447468|NCT04566601|164603666|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.7||||0.4994|TWO_SIDED|95.0|-1.31|2.69||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||2.69|-1.31|0.4994
82416452|NCT04053452|164543942|OTHER|Ulnar at humerus, 3 months|Kendall's tau correlation coefficient|-0.1196495|||||TWO_SIDED|95.0|-0.5876|0.3467||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.3467|-0.5876|
82416453|NCT04053452|164543942|OTHER|Ulnar at axilla, 3 months|Kendall's tau correlation coefficient|0.0|||||TWO_SIDED|95.0|-0.3682|0.3885||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.3885|-0.3682|
82416454|NCT04053452|164543942|OTHER|C6, 3 months|Kendall's tau correlation coefficient|0.1194695|||||TWO_SIDED|95.0|-0.422|0.6686||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.6686|-0.4220|
82416455|NCT04053452|164543942|OTHER|C7, 3 months|Kendall's tau correlation coefficient|-0.0593456|||||TWO_SIDED|95.0|-0.5651|0.454||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.4540|-0.5651|
82447469|NCT04566601|164603666|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.6||||0.6014|TWO_SIDED|95.0|-2.6|1.51||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.51|-2.60|0.6014
82416456|NCT04053452|164543942|OTHER|Vagus, 3 months|Kendall's tau correlation coefficient|-0.1920694|||||TWO_SIDED|95.0|-0.549|0.238||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 3 months after enrollment.||0.238|-0.5490|
82416457|NCT04053452|164543942|OTHER|Median at wrist, 6 months|Kendall's tau correlation coefficient|0.3150905|||||TWO_SIDED|||||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||||
82416458|NCT04053452|164543942|OTHER|Median at forearm, 6 months|Kendall's tau correlation coefficient|0.1203751|||||TWO_SIDED|||||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||||
82416459|NCT04053452|164543942|OTHER|Median at cubital fossa, 6 months|Kendall's tau correlation coefficient|0.2526605|||||TWO_SIDED|95.0|-0.1865|0.643||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6430|-0.1865|
82416460|NCT04053452|164543942|OTHER|Median at humerus, 6 months|Kendall's tau correlation coefficient|-0.073601|||||TWO_SIDED|95.0|-0.5806|0.4223||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.4223|-0.5806|
82447470|NCT04566601|164603666|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.2||||0.8166|TWO_SIDED|95.0|-2.17|1.72||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.72|-2.17|0.8166
82532906|NCT00581256|164763365|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||A Perfusion Defect (PD) increase of greater than 5% for a 2.5 SD threshold was considered significant.||||0.6
82416461|NCT04053452|164543942|OTHER|Median at axilla, 6 months|Kendall's tau correlation coefficient|0.01369735|||||TWO_SIDED|95.0|-0.5619|0.5236||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5236|-0.5619|
82416462|NCT04053452|164543942|OTHER|Ulnar at wrist, 6 months|Kendall's tau correlation coefficient|0.2685663|||||TWO_SIDED|95.0|-0.2488|0.7683||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.7683|-0.2488|
82416463|NCT04053452|164543942|OTHER|Ulnar at forearm, 6 months|Kendall's tau correlation coefficient|0.1802776|||||TWO_SIDED|95.0|-0.2573|0.6027||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6027|-0.2573|
82416464|NCT04053452|164543942|OTHER|Ulnar at cubital fossa, 6 months|Kendall's tau correlation coefficient|0.2571327|||||TWO_SIDED|95.0|-0.2595|0.6227||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.6227|-0.2595|
82416465|NCT04053452|164543942|OTHER|Ulnar at humerus, 6 months|Kendall's tau correlation coefficient|-0.0684867|||||TWO_SIDED|95.0|-0.5757|0.3944||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.3944|-0.5757|
82416466|NCT04053452|164543942|OTHER|Ulnar at axilla, 6 months|Kendall's tau correlation coefficient|0.1929429|||||TWO_SIDED|95.0|-0.1828|0.555||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5550|-0.1828|
82416467|NCT04053452|164543942|OTHER|C6, 6 months|Kendall's tau correlation coefficient|0.1975146|||||TWO_SIDED|95.0|-0.3557|0.7344||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.7344|-0.3557|
82416468|NCT04053452|164543942|OTHER|C7, 6 months|Kendall's tau correlation coefficient|-0.0754722|||||TWO_SIDED|95.0|-0.615|0.5083||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.5083|-0.6150|
82416469|NCT04053452|164543942|OTHER|Vagus, 6 months|Kendall's tau correlation coefficient|-0.0706753|||||TWO_SIDED|95.0|-0.5042|0.3963||||||Null hypothesis: There is no correlation between nerve ultrasound measurements and GBS Disability score at 6 months after enrollment.||0.3963|-0.5042|
82416470|NCT01421134|164543943|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|1.37|<|0.0001|TWO_SIDED|95.0|-10.2|-4.8|||Mixed Models Analysis|||||-4.8|-10.2|<0.0001
82416471|NCT01421134|164543944|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.157|<|0.0001|TWO_SIDED|95.0|-0.96|-0.34|||Mixed Models Analysis|||||-0.34|-0.96|<0.0001
82416472|NCT01421134|164543945|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.1|-1.1|||Mixed Models Analysis|||||-1.1|-3.1|<0.0001
82416473|NCT01421134|164543946|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.2|-2.4|||ANCOVA|||||-2.4|-7.2|0.0001
82416474|NCT01421134|164543947|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-6.1|-2.9|||ANCOVA|||||-2.9|-6.1|<0.0001
82416475|NCT01421134|164543948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.615|||<|0.0001|TWO_SIDED|95.0|3.251|13.459|||Regression, Logistic||Odds Ratio was based on a logistic regression of response, with treatment group, baseline MADRS total score, and pooled center as fixed effects.|||13.459|3.251|<0.0001
82416476|NCT01421134|164543949|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.27|||<|0.0001|TWO_SIDED|95.0|2.105|8.663|||Regression, Logistic|||||8.663|2.105|<0.0001
82416477|NCT02734147|164543950|OTHER|||||||0.631|||||||Other|||||||0.631
82416478|NCT02734147|164543951|OTHER|||||||0.64|||||||Other|||||||0.640
82416479|NCT02734147|164543952|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
82416480|NCT02734147|164543953|SUPERIORITY|||||||0.655|||||||Fisher Exact|||||||0.655
82416481|NCT02734147|164543954|SUPERIORITY|||||||0.133|||||||Fisher Exact|||||||0.133
82416482|NCT02734147|164543955|OTHER|||||||0.566|||||||Other|||||||0.566
82416483|NCT02734147|164543956|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82416484|NCT04098302|164543989|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
82416485|NCT04098302|164543990|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|||||||0.019
82416486|NCT04098302|164543991|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82416487|NCT04098302|164543992|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.29
82416488|NCT01810952|164544073|SUPERIORITY_OR_OTHER|||||||0.35||||||This is the p-value for Day 5|t-test, 2 sided|||||||0.35
82416489|NCT01810952|164544074|SUPERIORITY_OR_OTHER|||||||0.65|||||||Chi-squared|||||||0.65
82416490|NCT01810952|164544075|SUPERIORITY_OR_OTHER|||||||0.06||||||Comparison of the 5 day averages resulted in a p-value of 0.06.|t-test, 2 sided|||Daily values for each protocol were compared using t-tests.||||0.06
82416491|NCT01810952|164544076|SUPERIORITY_OR_OTHER||difference in binomial proportions|||||0.795||||||Comparison of the number of participants in each group with glucose value \<70 mg/dL resulted in p-value 0.795.|Chi-squared|||||||0.795
82416492|NCT01810952|164544077|SUPERIORITY_OR_OTHER|||||||0.055||||||Comparison between groups of percent of glucose values \>180 mg/dL.|Chi-squared|||Values in each group were compared by Chi squared.||||0.055
82416493|NCT01668537|164544108|NON_INFERIORITY|The non-inferiority margin to show that the FD formulation is non-inferior to the LF formulation in terms of ELISA GMTs at the peak visit (Week 6) was predefined as '1.5' for the GMT ratio (LF/FD). Non-inferiority is demonstrated if the upper 95% CI of the GMT ratio (LF/FD) is entirely below 1.5|GMT ratio (LF/FD)|0.796|||||TWO_SIDED|95.0|0.707|0.896||||||||0.896|0.707|
82416494|NCT04576949|164544128|SUPERIORITY||Odds Ratio (OR)|8.0|||<|0.0001|TWO_SIDED|95.0|3.94|16.25||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 3 to Week 6||16.25|3.94|< 0.0001
82416495|NCT04576949|164544128|SUPERIORITY||Marginal Difference in Proportions|0.21|||<|0.0001|TWO_SIDED|95.0|0.16|0.25||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.25|0.16|<0.0001
82416496|NCT04576949|164544129|SUPERIORITY||Odds Ratio (OR)|6.29|||<|0.0001|TWO_SIDED|95.0|3.69|11.57||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 9 to Week 12||11.57|3.69|< 0.0001
82416497|NCT04576949|164544129|SUPERIORITY||Marginal Difference in Proportions|0.26|||<|0.0001|TWO_SIDED|95.0|0.2|0.3||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.30|0.20|<0.0001
82416498|NCT04576949|164544130|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0016|TWO_SIDED|95.0|1.5|10.24||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations|||Abstinence from Week 6 to Week 24|Stratified by site|10.24|1.50|0.0016
82416499|NCT04576949|164544130|SUPERIORITY||Marginal Difference in Proportions|0.06||||0.0015|TWO_SIDED|95.0|0.03|0.09||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.09|0.03|0.0015
82532907|NCT00581256|164763365|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||A PD increase of greater than 10% for a 1.5 SD threshold was considered significant.||||0.46
82416500|NCT04576949|164544131|SUPERIORITY||Odds Ratio (OR)|5.32|||<|0.0001|TWO_SIDED|95.0|2.81|11.09||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Abstinence from Week 12 to Week 24||11.09|2.81|< 0.0001
82416501|NCT04576949|164544131|SUPERIORITY||Marginal Difference in Proportions|0.16|||<|0.0001|TWO_SIDED|95.0|0.11|0.2||p-value for difference in proportions|Cochran-Mantel-Haenszel|||||0.20|0.11|<.0001
82416502|NCT04576949|164544132|SUPERIORITY||Odds Ratio (OR)|1.31||||0.3484|TWO_SIDED|95.0|0.75|2.33||Two-sided, calculated by exact computations with clinical site as a stratifier.|exact computations||Stratified by site|Relapse free from Week 6 to Week 24||2.33|0.75|0.3484
82416503|NCT03767894|164544157|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|1.36||||0.24|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|t-test, 2 sided|Adjustment for p-value is 2.||Baseline scores compared to Post Unassisted condition (ARAT performed unassisted/without the use of the MyHand device).||||0.24
82416504|NCT03767894|164544157|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|-1.72||||0.207|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|t-test, 2 sided|Adjustment for p-value is 2.||Post Unassisted condition (ARAT performed unassisted/without the use of the MyHand device) compared to Post Assisted condition (ARAT performed assisted with the use of the MyHand device).||||0.207
82416505|NCT03767894|164544158|OTHER|Descriptive analysis (paired sample t-test)|Mean Difference (Final Values)|2.64||||0.026|TWO_SIDED|||||a priori threshold: p\<0.05|Paired sample T-test|2-tailed||Baseline scores compared to Post Unassisted condition (UEMF performed unassisted/without the use of the MyHand device).||||0.026
82416506|NCT03767894|164544160|OTHER|Descriptive analysis (paired Wilcoxon)|Mean Difference (Final Values)|-1.09||||0.442|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|Wilcoxon (Mann-Whitney)|Adjustment for p-value is 2.||Baseline scores compared to Post Unassisted condition (BBT performed unassisted/without the use of the MyHand device) of the impaired (hemiparetic) hand.||||0.442
82532908|NCT00594932|164763387|SUPERIORITY_OR_OTHER_LEGACY||superiority|4.0|||=|0.041||||||This was the primary endpoint therefore no adjustment for multiple comparisons was necessary|Fisher Exact|||this is a categorical assessment. Prespecified. Fishers exact test. Significant is calculated as \< 0.05||||=0.041
82416507|NCT03767894|164544160|OTHER|Descriptive analysis (paired Wilcoxon)|Mean Difference (Final Values)|-1.0||||1|TWO_SIDED|||||a priori threshold: p\<0.05 p-value is adjusted for multiple comparisons using Bonferroni correction.|Wilcoxon (Mann-Whitney)|Adjustment for p-value is 2.||Post Unassisted condition (BBT performed unassisted/without the use of the MyHand device) compared to Post Assisted condition (BBT performed assisted with the use of the MyHand device).||||1.0
82416508|NCT01860404|164544165|SUPERIORITY|||||||0.871|||||||Kruskal-Wallis|||||||0.871
82416509|NCT01860404|164544166|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||||||0.140
82416510|NCT01860404|164544167|SUPERIORITY|||||||0.267|||||||Kruskal-Wallis|||||||0.267
82416511|NCT01860404|164544168|SUPERIORITY|||||||0.476|||||||Kruskal-Wallis|||||||0.476
82416512|NCT01860404|164544169|SUPERIORITY|||||||0.581|||||||Kruskal-Wallis|||||||0.581
82416513|NCT01860404|164544170|SUPERIORITY|||||||0.203|||||||Fisher Exact|||||||0.203
82416514|NCT01860404|164544171|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82416515|NCT01860404|164544172|SUPERIORITY|||||||0.482|||||||Kruskal-Wallis|||||||0.482
82416516|NCT01860404|164544173|SUPERIORITY|||||||0.393|||||||Kruskal-Wallis|||||||0.393
82416517|NCT01860404|164544174|SUPERIORITY|||||||0.629|||||||Kruskal-Wallis|||||||0.629
82416518|NCT01860404|164544175|SUPERIORITY|||||||0.624|||||||Regression, Linear|||||||0.624
82416519|NCT01860404|164544176|SUPERIORITY|||||||0.2554|||||||Regression, Linear|||||||0.2554
82416520|NCT01860404|164544177|SUPERIORITY|||||||0.7964|||||||Regression, Linear|||||||0.7964
82416521|NCT01860404|164544178|SUPERIORITY|||||||0.7749|||||||Regression, Linear|||||||0.7749
82532909|NCT05199233|164763425|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|The mean change from baseline was compared to zero using a one-sample t-test.||||||<0.001
82532910|NCT05199233|164763426|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|The mean change from baseline was compared to zero using a one-sample t-test.||||||<0.001
82416522|NCT01860404|164544179|SUPERIORITY|||||||0.0036|||||||Regression, Linear|||||||0.0036
82416523|NCT01860404|164544180|SUPERIORITY|||||||0.0053|||||||Regression, Linear|||||||0.0053
82416524|NCT01860404|164544181|SUPERIORITY|||||||0.8234|||||||Regression, Linear|||||||0.8234
82416525|NCT02187055|164544200|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|-7.73||||0.2101|TWO_SIDED|98.34|-16.29|0.83|||Normal approximation to proportions|Multiplicity-adjusted||||0.83|-16.29|0.2101
82416526|NCT02187055|164544200|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|-5.5||||0.0512|TWO_SIDED|98.34|-13.98|2.98|||Normal approximation to proportions|Multiplicity-adjusted||||2.98|-13.98|0.0512
82416527|NCT02187055|164544200|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was a treatment difference larger than -13% at the population level|Difference in response rate|2.23|||<|0.0001|TWO_SIDED|98.34|-6.4|10.86|||Normal approximation to proportions|Multiplicity adjusted||||10.86|-6.40|<0.0001
82416528|NCT02187055|164544201|SUPERIORITY_OR_OTHER||LS mean difference|2.8|||||TWO_SIDED|95.0|1.23|4.41||||||||4.41|1.23|
82416529|NCT02187055|164544201|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|0.33|3.49||||||||3.49|0.33|
82416530|NCT02187055|164544201|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.51|0.68||||||||0.68|-2.51|
82416531|NCT02187055|164544202|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||||TWO_SIDED|95.0|1.08|4.18||||||||4.18|1.08|
82416532|NCT02187055|164544202|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|0.4|3.48||||||||3.48|0.40|
82416533|NCT02187055|164544202|SUPERIORITY_OR_OTHER||LS mean difference|-0.7|||||TWO_SIDED|95.0|-2.24|0.86||||||||0.86|-2.24|
82416534|NCT02187055|164544203|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.16|0.5||||||||0.50|0.16|
82416535|NCT02187055|164544203|SUPERIORITY_OR_OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|0.05|0.39||||||||0.39|0.05|
82416536|NCT02187055|164544203|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-0.28|0.06||||||||0.06|-0.28|
82416537|NCT02187055|164544204|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.15|0.51||||||||0.51|0.15|
82416538|NCT02187055|164544204|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|0.1|0.46||||||||0.46|0.10|
82416539|NCT02187055|164544204|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.23|0.13||||||||0.13|-0.23|
82416540|NCT02187055|164544205|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.21|||||TWO_SIDED|95.0|-4.99|2.56||||||||2.56|-4.99|
82416541|NCT02187055|164544205|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.78|||||TWO_SIDED|95.0|-5.59|2.04||||||||2.04|-5.59|
82532911|NCT00688259|164763436|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Mixed Models Analysis|||||||.30
82416542|NCT02187055|164544205|SUPERIORITY_OR_OTHER||Difference in remission rate|-0.56|||||TWO_SIDED|95.0|-4.53|3.4||||||||3.40|-4.53|
82416543|NCT02187055|164544206|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.4|||||TWO_SIDED|95.0|-7.95|1.15||||||||1.15|-7.95|
82416544|NCT02187055|164544206|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.06|||||TWO_SIDED|95.0|-7.55|1.43||||||||1.43|-7.55|
82416545|NCT02187055|164544206|SUPERIORITY_OR_OTHER||Difference in remission rate|0.34|||||TWO_SIDED|95.0|-4.45|5.14||||||||5.14|-4.45|
82416546|NCT02187055|164544207|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.67|||||TWO_SIDED|95.0|-8.29|0.94||||||||0.94|-8.29|
82416547|NCT02187055|164544207|SUPERIORITY_OR_OTHER||Difference in remission rate|-3.06|||||TWO_SIDED|95.0|-7.59|1.48||||||||1.48|-7.59|
82416548|NCT02187055|164544207|SUPERIORITY_OR_OTHER||Difference in remission rate|0.62|||||TWO_SIDED|95.0|-4.24|5.47||||||||5.47|-4.24|
82416549|NCT02187055|164544208|SUPERIORITY_OR_OTHER||Difference in remission rate|-1.55|||||TWO_SIDED|95.0|-6.03|2.93||||||||2.93|-6.03|
82416550|NCT02187055|164544208|SUPERIORITY_OR_OTHER||Difference in remission rate|-2.02|||||TWO_SIDED|95.0|-6.51|2.47||||||||2.47|-6.51|
82416551|NCT02187055|164544208|SUPERIORITY_OR_OTHER||Difference in remission rate|-0.47|||||TWO_SIDED|95.0|-5.11|4.18||||||||4.18|-5.11|
82416552|NCT02187055|164544209|SUPERIORITY_OR_OTHER||Difference in remission rate|-9.49|||||TWO_SIDED|95.0|-15.68|-3.3||||||||-3.30|-15.68|
82416553|NCT02187055|164544209|SUPERIORITY_OR_OTHER||Difference in remission rate|-6.89|||||TWO_SIDED|95.0|-12.94|-0.83||||||||-0.83|-12.94|
82416554|NCT02187055|164544209|SUPERIORITY_OR_OTHER||Difference in remission rate|2.61|||||TWO_SIDED|95.0|-3.86|9.07||||||||9.07|-3.86|
82416555|NCT02187055|164544210|SUPERIORITY_OR_OTHER||Difference in response rate|-6.24|||||TWO_SIDED|95.0|-13.32|0.84||||||||0.84|-13.32|
82416556|NCT02187055|164544210|SUPERIORITY_OR_OTHER||Difference in response rate|-3.66|||||TWO_SIDED|95.0|-10.69|3.37||||||||3.37|-10.69|
82416557|NCT02187055|164544210|SUPERIORITY_OR_OTHER||Difference in response rate|2.58|||||TWO_SIDED|95.0|-4.51|9.68||||||||9.68|-4.51|
82416558|NCT02187055|164544211|SUPERIORITY_OR_OTHER||Difference in response rate|-6.22|||||TWO_SIDED|95.0|-13.29|0.85||||||||0.85|-13.29|
82416559|NCT02187055|164544211|SUPERIORITY_OR_OTHER||Difference in response rate|-3.93|||||TWO_SIDED|95.0|-10.94|3.09||||||||3.09|-10.94|
82416560|NCT02187055|164544211|SUPERIORITY_OR_OTHER||Difference in response rate|2.3|||||TWO_SIDED|95.0|-4.79|9.39||||||||9.39|-4.79|
82416561|NCT02187055|164544212|SUPERIORITY_OR_OTHER||Difference in response rate|-6.02|||||TWO_SIDED|95.0|-12.05|0.0||||||||0.00|-12.05|
82416562|NCT02187055|164544212|SUPERIORITY_OR_OTHER||Difference in response rate|-6.89|||||TWO_SIDED|95.0|-12.9|-0.87||||||||-0.87|-12.90|
82416563|NCT02187055|164544212|SUPERIORITY_OR_OTHER||Difference in response rate|-0.87|||||TWO_SIDED|95.0|-7.17|5.44||||||||5.44|-7.17|
82416564|NCT02187055|164544213|SUPERIORITY_OR_OTHER||Difference in response rate|-4.87|||||TWO_SIDED|95.0|-11.92|2.18||||||||2.18|-11.92|
82416565|NCT02187055|164544213|SUPERIORITY_OR_OTHER||Difference in response rate|-5.48|||||TWO_SIDED|95.0|-12.49|1.52||||||||1.52|-12.49|
82416566|NCT02187055|164544213|SUPERIORITY_OR_OTHER||Difference in rresponse rate|-0.61|||||TWO_SIDED|95.0|-7.7|6.47||||||||6.47|-7.70|
82416567|NCT02187055|164544214|SUPERIORITY_OR_OTHER||Difference in response rate|-8.29|||||TWO_SIDED|95.0|-14.84|-1.75||||||||-1.75|-14.84|
82416568|NCT02187055|164544214|SUPERIORITY_OR_OTHER||Difference in response rate|-6.14|||||TWO_SIDED|95.0|-12.72|0.44||||||||0.44|-12.72|
82416569|NCT02187055|164544214|SUPERIORITY_OR_OTHER||Difference in response rate|2.15|||||TWO_SIDED|95.0|-4.22|8.52||||||||8.52|-4.22|
82416570|NCT02187055|164544215|SUPERIORITY_OR_OTHER||Difference in response rate|-6.77|||||TWO_SIDED|95.0|-12.61|-0.93||||||||-0.93|-12.61|
82416571|NCT02187055|164544215|SUPERIORITY_OR_OTHER||Difference in response rate|-2.5|||||TWO_SIDED|95.0|-8.09|3.1||||||||3.10|-8.09|
82416572|NCT02187055|164544215|SUPERIORITY_OR_OTHER||Difference in response rate|4.27|||||TWO_SIDED|95.0|-1.68|10.23||||||||10.23|-1.68|
82416573|NCT02187055|164544216|SUPERIORITY_OR_OTHER||LS mean difference|0.07|||||TWO_SIDED|95.0|-0.011|0.148||||||||0.148|-0.011|
82416574|NCT02187055|164544216|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.054|0.105||||||||0.105|-0.054|
82416575|NCT02187055|164544216|SUPERIORITY_OR_OTHER||LS mean difference|-0.04|||||TWO_SIDED|95.0|-0.122|0.037||||||||0.037|-0.122|
82416576|NCT02187055|164544217|SUPERIORITY_OR_OTHER||Difference in response rate|-4.07|||||TWO_SIDED|95.0|-10.68|2.55||||||||2.55|-10.68|
82416577|NCT02187055|164544217|SUPERIORITY_OR_OTHER||Difference in response rate|-1.21|||||TWO_SIDED|95.0|-7.87|5.44||||||||5.44|-7.87|
82416578|NCT02187055|164544217|SUPERIORITY_OR_OTHER||Difference in response rate|2.86|||||TWO_SIDED|95.0|-3.72|9.43||||||||9.43|-3.72|
82416579|NCT02187055|164544218|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|||||TWO_SIDED|95.0|-2.28|-0.11||||||||-0.11|-2.28|
82416580|NCT02187055|164544218|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-2.16|0.01||||||||0.01|-2.16|
82416581|NCT02187055|164544218|SUPERIORITY_OR_OTHER||LS mean difference|0.1|||||TWO_SIDED|95.0|-0.97|1.2||||||||1.20|-0.97|
82647042|NCT01494649|165009065|SUPERIORITY_OR_OTHER||Mean adjusted difference|8.69||||0.0004|TWO_SIDED|95.0|3.96|13.43||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|Treatment was a fixed factor and baseline tactile threshold score was a covariate.|Difference was calculated as adjusted mean change from baseline in 0.454% stannous fluoride toothpaste minus 0.76% sodium fluoride toothpaste. Negative difference favored stannous fluoride toothpaste.|Null hypothesis was no difference between treatments. Tests were 2-sided.||13.43|3.96|0.0004
82647043|NCT03467971|165009066|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|175.6652|||||TWO_SIDED|90.0|153.779|200.6664||||||Statistical Analysis for Metformin||200.6664|153.7790|
82647044|NCT03467971|165009066|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|104.457|||||TWO_SIDED|90.0|97.766|111.606||||||Statistical Analysis for Gliclazide||111.6060|97.7660|
82416582|NCT02187055|164544219|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-1.74|0.85||||||||0.85|-1.74|
82416583|NCT02187055|164544219|SUPERIORITY_OR_OTHER||LS mean difference|0.8|||||TWO_SIDED|95.0|-0.48|2.11||||||||2.11|-0.48|
82416584|NCT02187055|164544219|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||||TWO_SIDED|95.0|-0.04|2.56||||||||2.56|-0.04|
82416585|NCT02187055|164544220|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.22|0.39||||||||0.39|-2.22|
82532912|NCT00688259|164763437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|||||||Mixed Models Analysis|||||||.09
82416586|NCT02187055|164544220|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.19|0.42||||||||0.42|-2.19|
82416587|NCT02187055|164544220|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-1.27|1.34||||||||1.34|-1.27|
82416588|NCT02187055|164544221|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-1.52|0.87||||||||0.87|-1.52|
82416589|NCT02187055|164544221|SUPERIORITY_OR_OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.8|1.58||||||||1.58|-0.80|
82416590|NCT02187055|164544221|SUPERIORITY_OR_OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.47|1.91||||||||1.91|-0.47|
82532913|NCT00688259|164763438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.46|||||||Mixed Models Analysis|||||||.46
82532914|NCT00688259|164763439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|||||||Mixed Models Analysis|||||||.55
82532915|NCT00688259|164763440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||||||.50
82532916|NCT00688259|164763441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||Mixed Models Analysis|||||||.25
82532917|NCT01676220|164763445|NON_INFERIORITY_OR_EQUIVALENCE|"Stepwise closed testing approach was used to assess non-inferiority and superiority sequentially:~1. Non-inferiority of HOE901-U300 vs Lantus: Upper bound of two-sided 95% confidence interval (CI) of difference between HOE901-U300 and Lantus on mITT population is \<0.4%.~2. Superiority (only if non-inferiority has been demonstrated): Upper bound of two-sided 95% CI for difference in mean change in HbA1c from baseline to endpoint between HOE901-U300 and Lantus on mITT population is \<0."|Least Squares (LS) Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.067|||TWO_SIDED|95.0|-0.09|0.174||||||Analysis was performed using mixed model for repeated measurements (MMRM) with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline HbA1c and baseline HbA1c-by-visit interaction as continuous fixed covariates.||0.174|-0.090|
82532918|NCT01676220|164763446|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.89||||0.4536|TWO_SIDED|95.0|0.66|1.2|||Cochran-Mantel-Haenszel|||A one-sided test (at alpha=0.025) for superiority of HOE901-U300 over Lantus was to be performed in case the non-inferiority of HOE901-U300 vs Lantus for the primary endpoint was demonstrated. Analysis was performed using Cochran-Mantel-Haenszel (CMH) method stratified by randomization strata of screening HbA1c (\<8.0, \>=8.0%), randomization strata of geographical region (Non-Japan; Japan).||1.20|0.66|0.4536
82532919|NCT01676220|164763447|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|95.0|-0.275|0.605||||||Change in pre-injection SMPG was analyzed using MMRM model with treatment groups, strata of screening HbA1c (\<8.0, \>=8.0%), geographical region (Non-Japan; Japan), visit and visit-by-treatment groups interaction as fixed categorical effects; baseline preinjection SMPG value and baseline preinjection SMPG value-by-visit interaction as continuous fixed covariates.||0.605|-0.275|
82532920|NCT02397460|164763466|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment effects on Emax following capsaicin challenge were modeled for dose dependence and were estimated on the basis of disease status for participants who were healthy or had chronic cough and received gefapixant 50 mg, gefapixant 300 mg, or placebo.||||< 0.0001
82532921|NCT02397460|164763467|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment effects following capsaicin challenge were modeled for dose. dependence and were estimated on the basis of disease status for participants who had chronic cough and received gefapixant 50 mg, gefapixant 300 mg, or placebo.||||< 0.0001
82532922|NCT02971891|164763564|SUPERIORITY|||||||0.1789|||||||Cochran-Mantel-Haenszel|||||||0.1789
82532923|NCT03226457|164763598|OTHER|Details of the power calculation are published in the Circulation, DOI: 10.1161/CIRCULATIONAHA.120.048739|||||=|0.005||||||(calculated)|ANCOVA|||"Details on the statistical analysis are published in the Circulation, DOI: 10.1161/CIRCULATIONAHA.120.048739~Analyses were performed on the primary and secondary measures comparing empagliflozin versus placebo and assessed by 2-way analysis of covariance correcting for treatment order, baseline value, and any percentage change in furosemide dose at the visit. Data for continuous outcome measures were assessed for normality before analysis."||||= 0.005
82532924|NCT01196104|164763616|NON_INFERIORITY_OR_EQUIVALENCE|Study terminated early due to business reasons, results are not properly powered.|Mean Difference (Final Values)|-0.0473|STANDARD_ERROR_OF_MEAN|0.2158||0.8283|TWO_SIDED|95.0|-0.4901|0.3956|||ANCOVA|||ANCOVA model with terms of treatment as a fixed effect and baseline HbA1c as covariate||0.3956|-0.4901|0.8283
82532925|NCT04227340|164763679|OTHER|The count, percentage and confidence interval will be calculated for allogeneic HCT patients who receive PBM and develop Grade 3 mucositis|Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.091|0.356|||||Odds of grade 3 in Allogeneic group compared to historical rates. The study efficacy of mucositis reduction by 20% with an estimation of 51% developing grade 3 mucositis.|The count, percentage and confidence interval were calculated for allogeneic HCT participants who receive PBM and developed Grade 3 mucositis. Whether the percentage of the prospective sample is significantly different from the estimated rate of 71% was accessed.||0.356|0.091|
82532926|NCT04227340|164763680|SUPERIORITY|||||||0.03|||||||Wilcox Rank Sum|||||||0.03
82416591|NCT02187055|164544222|SUPERIORITY_OR_OTHER||LS mean difference|-2.0|||||TWO_SIDED|95.0|-3.25|-0.8||||||||-0.80|-3.25|
82416592|NCT02187055|164544222|SUPERIORITY_OR_OTHER||LS mean difference|-1.7|||||TWO_SIDED|95.0|-2.91|-0.47||||||||-0.47|-2.91|
82416593|NCT02187055|164544222|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-0.89|1.55||||||||1.55|-0.89|
82416594|NCT02187055|164544223|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|||||TWO_SIDED|95.0|-2.27|-0.05||||||||-0.05|-2.27|
82416595|NCT02187055|164544223|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|||||TWO_SIDED|95.0|-1.4|0.82||||||||0.82|-1.40|
82416596|NCT02187055|164544223|SUPERIORITY_OR_OTHER||LS mean difference|0.9|||||TWO_SIDED|95.0|-0.25|1.98||||||||1.98|-0.25|
82416597|NCT02187055|164544224|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|||||TWO_SIDED|95.0|-1.71|0.68||||||||0.68|-1.71|
82416598|NCT02187055|164544224|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|||||TWO_SIDED|95.0|-1.33|1.05||||||||1.05|-1.33|
82416599|NCT02187055|164544224|SUPERIORITY_OR_OTHER||LS mean difference|0.4|||||TWO_SIDED|95.0|-0.83|1.57||||||||1.57|-0.83|
82532927|NCT04227340|164763682|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82577075|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.118||0.0545|TWO_SIDED|95.0|-0.46|0.0|||MMRM|||Suicide, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.46|0.0545
82416600|NCT02187055|164544225|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|||||TWO_SIDED|95.0|-2.2|0.45||||||||0.45|-2.20|
82416601|NCT02187055|164544225|SUPERIORITY_OR_OTHER||LS mean difference|0.2|||||TWO_SIDED|95.0|-1.13|1.51||||||||1.51|-1.13|
82416602|NCT02187055|164544225|SUPERIORITY_OR_OTHER||LS mean difference|1.1|||||TWO_SIDED|95.0|-0.26|2.39||||||||2.39|-0.26|
82416603|NCT02187055|164544226|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-2.54|0.39||||||||0.39|-2.54|
82416604|NCT02187055|164544226|SUPERIORITY_OR_OTHER||LS mean difference|0.7|||||TWO_SIDED|95.0|-0.76|2.16||||||||2.16|-0.76|
82416605|NCT02187055|164544226|SUPERIORITY_OR_OTHER||LS mean difference|1.8|||||TWO_SIDED|95.0|0.3|3.24||||||||3.24|0.30|
82416606|NCT02187055|164544227|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|||||TWO_SIDED|95.0|-1.55|1.08||||||||1.08|-1.55|
82416607|NCT02187055|164544227|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||||TWO_SIDED|95.0|-1.01|1.62||||||||1.62|-1.01|
82416608|NCT02187055|164544227|SUPERIORITY_OR_OTHER||LS mean difference|0.5|||||TWO_SIDED|95.0|-0.78|1.86||||||||1.86|-0.78|
82416609|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|||||TWO_SIDED|95.0|-2.279|1.427||||||Work hours missed due to problems||1.427|-2.279|
82416610|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.87|||||TWO_SIDED|95.0|-2.783|1.044||||||Work hours missed due to problems||1.044|-2.783|
82416611|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.44|||||TWO_SIDED|95.0|-2.349|1.462||||||Work hours missed due to problems||1.462|-2.349|
82416612|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.29|||||TWO_SIDED|95.0|-2.928|2.346||||||Work hours missed other reason||2.346|-2.928|
82416613|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.9|||||TWO_SIDED|95.0|-1.832|3.64||||||Work hours missed other reason||3.640|-1.832|
82416614|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||||TWO_SIDED|95.0|-1.52|3.911||||||Work hours missed other reason||3.911|-1.520|
82416615|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|4.95|||||TWO_SIDED|95.0|0.52|9.37||||||Hours worked in past 7 days||9.370|0.520|
82416616|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|2.85|||||TWO_SIDED|90.0|-1.736|7.43||||||Hours worked in past 7 days||7.430|-1.736|
82416617|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-2.1|||||TWO_SIDED|95.0|-6.65|2.454||||||Hours worked in past 7 days||2.454|-6.650|
82416618|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.21|||||TWO_SIDED|95.0|-0.373|0.786||||||Problems affecting productivity||0.786|-0.373|
82416619|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.578|0.607||||||Problems affecting productivity||0.607|-0.578|
82416620|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.19|||||TWO_SIDED|95.0|-0.784|0.4||||||Problems affecting productivity||0.400|-0.784|
82416621|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.24|||||TWO_SIDED|95.0|-0.112|0.587||||||Problem affecting daily activities||0.587|-0.112|
82416622|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.341|0.357||||||Problem affecting daily activities||0.357|-0.341|
82416623|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.23|||||TWO_SIDED|95.0|-0.582|0.122||||||Problem affecting daily activities||0.122|-0.582|
82416624|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|||||TWO_SIDED|95.0|-5.748|3.553||||||% work time missed due to health||3.553|-5.748|
82416625|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-2.64|||||TWO_SIDED|95.0|-7.339|2.067||||||% work time missed due to health||2.067|-7.339|
82416626|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-1.54|||||TWO_SIDED|95.0|-6.283|3.207||||||% work time missed due to health||3.207|-6.283|
82416627|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|2.07|||||TWO_SIDED|95.0|-3.726|7.858||||||% impairment while working due to health||7.858|-3.726|
82416628|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.15|||||TWO_SIDED|95.0|-5.777|6.068||||||% impairment while working due to health||6.068|-5.777|
82416629|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-1.92|||||TWO_SIDED|95.0|-7.839|3.998||||||% impairment while working due to health||3.998|-7.839|
82416630|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|2.11|||||TWO_SIDED|95.0|-4.664|8.877||||||% overall work impairment due to health||8.877|-4.664|
82416631|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|1.71|||||TWO_SIDED|95.0|-5.164|8.58||||||% overall work impairment due to health||8.580|-5.164|
82532928|NCT04227340|164763684|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82532929|NCT04227340|164763686|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.1
82532930|NCT04227340|164763688|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82532931|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.011||||90.0|-0.064|-0.026|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M3||-0.026|-0.064|
82416632|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-0.4|||||TWO_SIDED|95.0|-7.307|6.51||||||% overall work impairment due to health||6.510|-7.307|
82416633|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|2.38|||||TWO_SIDED|95.0|-1.118|5.873||||||% activity impairment due to health||5.873|-1.118|
82416634|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|0.08|||||TWO_SIDED|95.0|-3.411|3.573||||||% activity impairment due to health||3.573|-3.411|
82416635|NCT02187055|164544228|SUPERIORITY_OR_OTHER||LS mean difference|-2.3|||||TWO_SIDED|95.0|-5.818|1.225||||||% activity impairment due to health||1.225|-5.818|
82416636|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.057|0.011||||||Utility score||0.011|-0.057|
82447471|NCT04566601|164603666|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.4||||0.6588|TWO_SIDED|95.0|-1.96|1.24||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95 % confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. LS means differences (95 % confidence intervals) for Week 10 are reported.||1.24|-1.96|0.6588
82447472|NCT04566601|164603666|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.3914|||||||MCP-Mod sigmoid Emax model fit|Model assumption: 50% of the maximum effect is achieved at 25 mg, and 90% of the maximum effect is achieved at 75 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.3914
82447473|NCT04566601|164603666|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10 and 12) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4104|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of the maximum effect is achieved at 25 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4104
82647045|NCT03467971|165009067|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|180.7734|||||TWO_SIDED|90.0|157.0135|208.1287||||||Statistical Analysis for Metformin||208.1287|157.0135|
82647046|NCT03467971|165009067|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|105.0818|||||TWO_SIDED|90.0|98.0047|112.6699||||||Statistical Analysis for Gliclazide||112.6699|98.0047|
82416637|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.054|0.013||||||Utility score||0.013|-0.054|
82416638|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.031|0.036||||||Utility score||0.036|-0.031|
82416639|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.03|||||TWO_SIDED|95.0|-0.098|0.042||||||Mobility score||0.042|-0.098|
82416640|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-0.079|0.06||||||Mobility score||0.060|-0.079|
82416641|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.02|||||TWO_SIDED|95.0|-0.051|0.089||||||Mobility score||0.089|-0.051|
82416642|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.06|||||TWO_SIDED|95.0|-0.014|0.127||||||Self-care score||0.127|-0.014|
82416643|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-0.027|0.114||||||Self-care score||0.114|-0.027|
82416644|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.01|||||TWO_SIDED|95.0|-0.083|0.058||||||Self-care score||0.058|-0.083|
82416645|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.062|0.084||||||Usual activities score||0.084|-0.062|
82416646|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.06|||||TWO_SIDED|95.0|-0.018|0.129||||||Usual activities score||0.129|-0.018|
82416647|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.04|||||TWO_SIDED|95.0|-0.029|0.118||||||Usual activities score||0.118|-0.029|
82416648|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.041|0.091||||||Pain/discomfort score||0.091|-0.041|
82416649|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.05|||||TWO_SIDED|95.0|-0.015|0.116||||||Pain/discomfort score||0.116|-0.015|
82416650|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.041|0.091||||||Pain/discomfort score||0.091|-0.041|
82416651|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.03|||||TWO_SIDED|95.0|-0.046|0.103||||||Anxiety/depression score||0.103|-0.046|
82416652|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|0.01|||||TWO_SIDED|95.0|-0.066|0.083||||||Anxiety/depression score||0.083|-0.066|
82416653|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.02|||||TWO_SIDED|95.0|-0.094|0.055||||||Anxiety/depression score||0.055|-0.094|
82416654|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|-0.14|||||TWO_SIDED|95.0|-2.934|2.648||||||VAS score||2.648|-2.934|
82416655|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|1.23|||||TWO_SIDED|95.0|-1.556|4.016||||||VAS score||4.016|-1.556|
82532932|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.025|0.02|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M6||0.020|-0.025|
82532933|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.033|0.013|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M9||0.013|-0.033|
82447474|NCT04566601|164603666|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.456|||||||MCP-Mod linear model fit|Model assumption: No parameter assumptions required.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4560
82647047|NCT03467971|165009068|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|127.7779|||||TWO_SIDED|90.0|110.2732|148.0612||||||Statistical Analysis for Metformin||148.0612|110.2732|
82447475|NCT04566601|164603666|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4908|||||||MCP-Mod exponential model fit|Model assumption: 5% of the maximum effect is achieved at 25 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4908
82447476|NCT04566601|164603666|OTHER|MMRM estimates were used as input for the MCP-Mod. MMRM included the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the baseline ZAN-BPD total score strata indicator (\<=18 vs. \>=19), the continuous fixed covariate of baseline ZAN-BPD total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction.||||||0.4974|||||||MCP-Mod Emax2 model fit|Model assumption: 70% of the maximum effect is achieved at 5 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 1358894 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different plausible dose-response patterns (linear, exponential, Emax 1, Emax 2 and Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 0.100).||||0.4974
82447477|NCT04566601|164603667|OTHER||Odds Ratio (OR)|0.486|||||TWO_SIDED|95.0|0.207|1.14|||||Odds Ratio of BI 1358894 5mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||1.140|0.207|
82447478|NCT04566601|164603667|OTHER||Odds Ratio (OR)|2.294|||||TWO_SIDED|95.0|0.829|7.48|||||Odds Ratio of BI 1358894 25mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||7.480|0.829|
82647048|NCT03467971|165009068|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.0% - 125.0%.|Ratio of mean values|105.4183|||||TWO_SIDED|90.0|94.5723|117.5081||||||Statistical Analysis for Gliclazide||117.5081|94.5723|
82647049|NCT00725725|165009119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5299||||0.3934|TWO_SIDED|95.0|-2.0781|5.138|||Mixed Models Analysis|||||5.1380|-2.0781|0.3934
82647050|NCT00725725|165009119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2667||||0.3515|TWO_SIDED|95.0|-1.4665|4.0|||Mixed Models Analysis|||||4.0000|-1.4665|0.3515
82647051|NCT00725725|165009120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8246||||0.3597|TWO_SIDED|95.0|-5.8307|2.1815|||Mixed Models Analysis|||||2.1815|-5.8307|0.3597
82647052|NCT00725725|165009120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4414||||0.777|TWO_SIDED|95.0|-3.5952|2.7124|||Mixed Models Analysis|||||2.7124|-3.5952|0.7770
82647053|NCT00725725|165009121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3356||||0.2683|TWO_SIDED|95.0|-1.8933|6.5644|||Mixed Models Analysis|||||6.5644|-1.8933|0.2683
82647054|NCT00725725|165009121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1317||||0.0844|TWO_SIDED|95.0|-0.4518|6.7152|||Mixed Models Analysis|||||6.7152|-0.4518|0.0844
82647055|NCT00725725|165009125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3456||||0.8894|TWO_SIDED|95.0|-4.6211|5.3124|||Mixed Models Analysis|||||5.3124|-4.6211|0.8894
82647056|NCT00725725|165009125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0417||||0.3765|TWO_SIDED|95.0|-2.5526|6.636|||Mixed Models Analysis|||||6.6360|-2.5526|0.3765
82647057|NCT00725725|165009126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2502||||0.8073|TWO_SIDED|95.0|-11.4963|8.9958|||Mixed Models Analysis|||||8.9958|-11.4963|0.8073
82447479|NCT04566601|164603667|OTHER||Odds Ratio (OR)|1.753|||||TWO_SIDED|95.0|0.698|4.861|||||Odds Ratio of BI 1358894 75mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||4.861|0.698|
82447480|NCT04566601|164603667|OTHER||Odds Ratio (OR)|1.352|||||TWO_SIDED|95.0|0.642|2.913|||||Odds Ratio of BI 1358894 125mg vs. Placebo.|The odds ratio (OR) and associated confidence intervals between the active treatment arm versus placebo were calculated through a logistic regression model that was adjusted for fixed factors of treatment, baseline ZAN-BPD strata indicator (≤18 vs. ≥19), and the continuous covariate of baseline ZAN-BPD total score.||2.913|0.642|
82447481|NCT04566601|164603668|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.1||||0.9675|TWO_SIDED|95.0|-5.11|4.9||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.90|-5.11|0.9675
82532934|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.044|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M12||0.004|-0.044|
82532935|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.048|0.003|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M15||0.003|-0.048|
82416656|NCT02187055|164544229|SUPERIORITY_OR_OTHER||LS mean difference|1.37|||||TWO_SIDED|95.0|-1.425|4.171||||||VAS score||4.171|-1.425|
82416657|NCT02187055|164544230|SUPERIORITY_OR_OTHER||LS mean difference|-0.45|||||TWO_SIDED|95.0|-1.706|0.808||||||||0.808|-1.706|
82416658|NCT02187055|164544230|SUPERIORITY_OR_OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-0.178|2.325||||||||2.325|-0.178|
82416659|NCT02187055|164544230|SUPERIORITY_OR_OTHER||LS mean difference|1.52|||||TWO_SIDED|95.0|0.266|2.779||||||||2.779|0.266|
82416660|NCT02021318|164544270|NON_INFERIORITY|Non-inferiority of roxadustat versus darbepoetin alfa, margin = -15% (non-inferiority is concluded if the lower limit of the 95% confidence interval of the difference was \>-15%).|Difference in percentage|11.51|||||TWO_SIDED|95.0|5.66|17.36||||||A generalized linear model as an approximation for the Miettinen and Nurminen method, adjusted for stratification factors (actual) was used to estimate the difference of proportions and 95% confidence interval.||17.36|5.66|
82416661|NCT02021318|164544271|NON_INFERIORITY|Non-Inferiority, margin = -0.75 (non-inferiority is concluded if the lower bound of the 95% CI of the least square mean difference (LSM) is \> -0.75 g/dL).|LSM Difference|0.015||||0.839|TWO_SIDED|95.0|-0.131|0.162|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.162|-0.131|0.839
82416662|NCT02021318|164544272|SUPERIORITY||LSM Difference|-0.403|||<|0.001|TWO_SIDED|95.0|-0.51|-0.296|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline LDL, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.296|-0.510|<0.001
82416663|NCT02021318|164544273|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.004|TWO_SIDED|95.0|0.26|0.78|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||0.78|0.26|0.004
82532936|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.016||||90.0|-0.05|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M18||0.004|-0.050|
82647058|NCT00725725|165009126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0291||||0.661|TWO_SIDED|95.0|-7.2132|11.2714|||Mixed Models Analysis|||||11.2714|-7.2132|0.6610
82416664|NCT02021318|164544274|NON_INFERIORITY|Non-Inferiority, margin = -3 (non-inferiority is concluded if the lower bound of the 95% confidence interval of the LSM difference is \> -3 points).|LSM Difference|-1.284||||0.027|TWO_SIDED|95.0|-2.423|-0.145|||Mixed Models Analysis|||The model included treatment, visit (weeks 8, 12 and 28) visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PF, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.145|-2.423|0.027
82416665|NCT02021318|164544275|NON_INFERIORITY|Non-Inferiority, margin = -3 (non-inferiority is concluded if the lower bound of the 95% confidence interval of the LSM difference is \> -3 points).|LSM Difference|-0.457||||0.454|TWO_SIDED|95.0|-1.656|0.742|||Mixed Models Analysis|||The model included treatment, visit (weeks 8, 12 and 28), visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 VT, baseline Hb, baseline eGFR as continuous covariates.||0.742|-1.656|0.454
82416666|NCT02021318|164544276|NON_INFERIORITY|Non-Inferiority, margin = 1 mmHg (non-inferiority is concluded if the upper bound of the 95% confidence interval of the LSM difference is \< 1).|LSM Difference|-0.372||||0.547|TWO_SIDED|95.0|-1.587|0.842|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||0.842|-1.587|0.547
82416667|NCT02021318|164544277|NON_INFERIORITY|Non-inferiority (hazard ratio margin of 1.3). Non-Inferiority was declared if the upper bound of the 95% CI is below 1.3.|Hazard Ratio (HR)|0.83||||0.336|TWO_SIDED|95.0|0.56|1.22|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.22|0.56|0.336
82416668|NCT02021318|164544278|SUPERIORITY||LSM Difference|-0.136||||0.818|TWO_SIDED|95.0|-1.299|1.026|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||1.026|-1.299|0.818
82416669|NCT02021318|164544279|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.452|TWO_SIDED|95.0|0.6|1.26|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is lower than 1.||1.26|0.60|0.452
82416670|NCT02021318|164544280|SUPERIORITY||LSM Difference|0.038||||0.529|TWO_SIDED|95.0|-0.081|0.157|||Mixed Models Analysis|||The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.157|-0.081|0.529
82532937|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.047|0.007|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|M21||0.007|-0.047|
82532938|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.054|0.002|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M24||0.002|-0.054|
82532939|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.021|0.034|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M1||0.034|-0.021|
82416671|NCT02021318|164544281|SUPERIORITY||Hazard Ratio (HR)|1.64|||<|0.001|TWO_SIDED|95.0|1.38|1.96|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on cardiovascular history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.96|1.38|<0.001
82532940|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.018||||90.0|-0.016|0.044|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M3||0.044|-0.016|
82416672|NCT02021318|164544282|SUPERIORITY||Hazard Ratio (HR)|1.66|||<|0.001|TWO_SIDED|95.0|1.39|1.98|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.98|1.39|<0.001
82416673|NCT02021318|164544283|SUPERIORITY||LSM Difference|0.051||||0.478|TWO_SIDED|95.0|-0.091|0.194|||Mixed Models Analysis|||Weeks 28-36 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.194|-0.091|0.478
82416674|NCT02021318|164544283|SUPERIORITY||LSM Difference|-0.003||||0.969|TWO_SIDED|95.0|-0.149|0.143|||Mixed Models Analysis|||Weeks 44-52 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.143|-0.149|0.969
82416675|NCT02021318|164544283|SUPERIORITY||LSM Difference|0.009||||0.91|TWO_SIDED|95.0|-0.14|0.157|||Mixed Models Analysis|||Weeks 72-80 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.157|-0.140|0.910
82416676|NCT02021318|164544283|SUPERIORITY||LSM Difference|0.024||||0.775|TWO_SIDED|95.0|-0.14|0.188|||Mixed Models Analysis|||Weeks 96-104 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.188|-0.140|0.775
82416677|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.087||||0.086|TWO_SIDED|95.0|-0.012|0.185|||Mixed Models Analysis|||Week 1- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.185|-0.012|0.086
82447482|NCT04566601|164603668|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.01||||0.9969|TWO_SIDED|95.0|-5.08|5.1||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.10|-5.08|0.9969
82532941|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.017||||90.0|-0.002|0.055|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M6||0.055|-0.002|
82577076|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.115||0.2903|TWO_SIDED|95.0|-0.35|0.11|||MMRM|||Suicide, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.35|0.2903
82416678|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.278|||<|0.001|TWO_SIDED|95.0|0.165|0.391|||Mixed Models Analysis|||Week 2- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.391|0.165|<0.001
82416679|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.435|||<|0.001|TWO_SIDED|95.0|0.284|0.586|||Mixed Models Analysis|||Week 4- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.586|0.284|<0.001
82416680|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.422|||<|0.001|TWO_SIDED|95.0|0.254|0.59|||Mixed Models Analysis|||Week 6- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.590|0.254|<0.001
82416681|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.38|||<|0.001|TWO_SIDED|95.0|0.205|0.556|||Mixed Models Analysis|||Week 8- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.556|0.205|<0.001
82416682|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.33|||<|0.001|TWO_SIDED|95.0|0.155|0.505|||Mixed Models Analysis|||Week 10- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.505|0.155|<0.001
82416683|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.3||||0.001|TWO_SIDED|95.0|0.119|0.482|||Mixed Models Analysis|||Week 12- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.482|0.119|0.001
82532942|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.04|0.032|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M1||0.032|-0.040|
82532943|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.07|0.004|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M3||0.004|-0.070|
82532944|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.077|-0.002|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M6||-0.002|-0.077|
82416684|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.159||||0.079|TWO_SIDED|95.0|-0.018|0.336|||Mixed Models Analysis|||Week 14- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.336|-0.018|0.079
82416685|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.183||||0.044|TWO_SIDED|95.0|0.005|0.361|||Mixed Models Analysis|||Week 16- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.361|0.005|0.044
82416686|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.173||||0.037|TWO_SIDED|95.0|0.01|0.336|||Mixed Models Analysis|||Week 18- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.336|0.010|0.037
82416687|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.085||||0.319|TWO_SIDED|95.0|-0.083|0.253|||Mixed Models Analysis|||Week 20- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.253|-0.083|0.319
82416688|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.03||||0.709|TWO_SIDED|95.0|-0.19|0.129|||Mixed Models Analysis|||Week 22- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.129|-0.190|0.709
82416689|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.061||||0.45|TWO_SIDED|95.0|-0.219|0.097|||Mixed Models Analysis|||Week 24- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.097|-0.219|0.450
82416690|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.065||||0.44|TWO_SIDED|95.0|-0.231|0.101|||Mixed Models Analysis|||Week 28- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.101|-0.231|0.440
82416691|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.014||||0.874|TWO_SIDED|95.0|-0.157|0.184|||Mixed Models Analysis|||Week 32- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.184|-0.157|0.874
82416692|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.131||||0.132|TWO_SIDED|95.0|-0.039|0.302|||Mixed Models Analysis|||Week 36- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.302|-0.039|0.132
82416693|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.187||||0.024|TWO_SIDED|95.0|0.024|0.351|||Mixed Models Analysis|||Week 40- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.351|0.024|0.024
82532945|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.075|0.003|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M9||0.003|-0.075|
82416694|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.022||||0.807|TWO_SIDED|95.0|-0.153|0.197|||Mixed Models Analysis|||Week 44- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.197|-0.153|0.807
82416695|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.012||||0.89|TWO_SIDED|95.0|-0.16|0.185|||Mixed Models Analysis|||Week 48- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.185|-0.160|0.890
82416696|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.029||||0.746|TWO_SIDED|95.0|-0.201|0.144|||Mixed Models Analysis|||Week 52- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.144|-0.201|0.746
82416697|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.032||||0.715|TWO_SIDED|95.0|-0.202|0.139|||Mixed Models Analysis|||Week 56- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.139|-0.202|0.715
82416698|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.066||||0.463|TWO_SIDED|95.0|-0.11|0.242|||Mixed Models Analysis|||Week 60- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.242|-0.110|0.463
82416699|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.002||||0.987|TWO_SIDED|95.0|-0.187|0.184|||Mixed Models Analysis|||Week 64- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.184|-0.187|0.987
82416700|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.104||||0.251|TWO_SIDED|95.0|-0.074|0.281|||Mixed Models Analysis|||Week 68- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.281|-0.074|0.251
82416701|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.067||||0.473|TWO_SIDED|95.0|-0.117|0.251|||Mixed Models Analysis|||Week 72- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.251|-0.117|0.473
82416702|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.022||||0.813|TWO_SIDED|95.0|-0.204|0.16|||Mixed Models Analysis|||Week 76- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.160|-0.204|0.813
82532946|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.058|0.022|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M12||0.022|-0.058|
82447483|NCT04566601|164603668|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.79||||0.7542|TWO_SIDED|95.0|-5.73|4.15||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.15|-5.73|0.7542
82532947|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.034|0.048|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M15||0.048|-0.034|
82647059|NCT00725725|165009127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7296||||0.7895|TWO_SIDED|95.0|-4.7291|6.1883|||Mixed Models Analysis|||||6.1883|-4.7291|0.7895
82647060|NCT00725725|165009127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.526||||0.5488|TWO_SIDED|95.0|-3.5495|6.6015|||Mixed Models Analysis|||||6.6015|-3.5495|0.5488
82647061|NCT00725725|165009128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2766||||0.6516|TWO_SIDED|95.0|-6.9269|4.3738|||Mixed Models Analysis|||||4.3738|-6.9269|0.6516
82647062|NCT00725725|165009128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1867||||0.0256|TWO_SIDED|95.0|-11.5864|-0.7869|||Mixed Models Analysis|||||-0.7869|-11.5864|0.0256
82647063|NCT01345058|165009132|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.49|TWO_SIDED|95.0|0.35|1.65|||Chi-squared||Hazard ratio for seizure occurrence for polytherapy relative to monotherapy.|||1.65|0.35|0.49
82647064|NCT03162354|165009138|OTHER||Odds Ratio (OR)|0.64||||0.11|TWO_SIDED|95.0|0.37|1.11||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|We powered this hypothesis to detect a 17% increase (from 73% to 90%) in higher risk patients evaluated thoroughly for abuse at intervention sites, compared to baseline in prior PediBIRN studies. Generalized linear mixed-effects models were adopted to analyze 1,000 Monte Carlo datasets from simulation. For the target sample size of 304 higher risk patients (152 in each arm), the proportion of simulated datasets that yielded a statistically significant result for the primary hypothesis was 95.7%.||1.11|0.37|0.11
82647065|NCT03162354|165009139|OTHER||Odds Ratio (OR)|0.69||||0.49|TWO_SIDED|95.0|0.24|1.98||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||1.98|0.24|0.49
82416703|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.045||||0.622|TWO_SIDED|95.0|-0.223|0.134|||Mixed Models Analysis|||Week 80- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.134|-0.223|0.622
82416704|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.045||||0.632|TWO_SIDED|95.0|-0.138|0.227|||Mixed Models Analysis|||Week 84- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.227|-0.138|0.632
82647066|NCT03162354|165009140|OTHER||Odds Ratio (OR)|1.88||||0.22|TWO_SIDED|95.0|0.69|5.13||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||5.13|0.69|0.22
82647067|NCT03162354|165009141|OTHER||Odds Ratio (OR)|0.48||||0.01|TWO_SIDED|95.0|0.27|0.85||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||0.85|0.27|0.01
82647068|NCT03162354|165009142|OTHER||Odds Ratio (OR)|1.09||||0.84|TWO_SIDED|95.0|0.46|2.6||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||2.60|0.46|0.84
82647069|NCT03162354|165009143|OTHER||Odds Ratio (OR)|1.84||||0.05|TWO_SIDED|95.0|1.0|3.38||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||3.38|1.00|0.05
82647070|NCT03162354|165009144|OTHER||Odds Ratio (OR)|1.22||||0.71|TWO_SIDED|95.0|0.43|3.49||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||3.49|0.43|0.71
82647071|NCT03162354|165009145|OTHER||Odds Ratio (OR)|1.04||||0.86|TWO_SIDED|95.0|0.7|1.53||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||1.53|0.70|0.86
82416705|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.055||||0.568|TWO_SIDED|95.0|-0.133|0.242|||Mixed Models Analysis|||Week 88- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.242|-0.133|0.568
82416706|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.034||||0.729|TWO_SIDED|95.0|-0.158|0.226|||Mixed Models Analysis|||Week 92- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.226|-0.158|0.729
82532948|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.055|0.033|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M18||0.033|-0.055|
82647072|NCT03162354|165009146|OTHER||Odds Ratio (OR)|2.02||||0.01|TWO_SIDED|95.0|1.16|3.52||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline prior studies to the cluster randomized trial|||3.52|1.16|0.01
82647073|NCT03162354|165009147|OTHER||Odds Ratio (OR)|0.42|||<|0.001|TWO_SIDED|95.0|0.26|0.67||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline in prior studies to the cluster randomized trial.|||0.67|0.26|<.001
82647074|NCT03162354|165009148|OTHER||Odds Ratio (OR)|0.46||||0.14|TWO_SIDED|95.0|0.16|1.31||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from baseline in prior PediBIRN studies to the clinical trial.|||1.31|0.16|0.14
82647075|NCT03162354|165009150|OTHER||Odds Ratio (OR)|0.74||||0.57|TWO_SIDED|95.0|0.27|2.05||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||2.05|0.27|0.57
82416707|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.025||||0.797|TWO_SIDED|95.0|-0.168|0.218|||Mixed Models Analysis|||Week 96- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.218|-0.168|0.797
82416708|NCT02021318|164544284|SUPERIORITY||LSM Difference|-0.11||||0.28|TWO_SIDED|95.0|-0.31|0.09|||Mixed Models Analysis|||Week 100- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.090|-0.310|0.280
82416709|NCT02021318|164544284|SUPERIORITY||LSM Difference|0.037||||0.733|TWO_SIDED|95.0|-0.177|0.251|||Mixed Models Analysis|||Week 104- The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit as continuous covariates.||0.251|-0.177|0.733
82416710|NCT02021318|164544285|SUPERIORITY||LSM Difference|0.026||||0.727|TWO_SIDED|95.0|-0.119|0.17|||Mixed Models Analysis|||Weeks 28-36 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.170|-0.119|0.727
82416711|NCT02021318|164544285|SUPERIORITY||LSM Difference|-0.001||||0.985|TWO_SIDED|95.0|-0.151|0.148|||Mixed Models Analysis|||Weeks 44-52 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.148|-0.151|0.985
82416712|NCT02021318|164544285|SUPERIORITY||LSM Difference|0.003||||0.965|TWO_SIDED|95.0|-0.148|0.154|||Mixed Models Analysis|||Weeks 72-80 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.154|-0.148|0.965
82416713|NCT02021318|164544285|SUPERIORITY||LSM Difference|-0.016||||0.856|TWO_SIDED|95.0|-0.188|0.157|||Mixed Models Analysis|||Weeks 96-104 - The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline estimated glomerular filtration rate and baseline Hb by visit as continuous covariates.||0.157|-0.188|0.856
82416714|NCT02021318|164544287|SUPERIORITY||Hazard Ratio (HR)|1.74|||<|0.001|TWO_SIDED|95.0|1.36|2.22|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates.||2.22|1.36|<0.001
82416715|NCT02021318|164544290|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.079|TWO_SIDED|95.0|0.98|1.5|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||1.50|0.98|0.079
82416716|NCT02021318|164544291|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.3|TWO_SIDED|95.0|0.79|2.11|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||2.11|0.79|0.300
82532949|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.058|0.029|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M21||0.029|-0.058|
82416717|NCT02021318|164544295|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.055|TWO_SIDED|95.0|0.99|2.54|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and Region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI is below 1.0.||2.54|0.99|0.055
82416718|NCT02021318|164544298|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.052|TWO_SIDED|95.0|0.51|1.0|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI is below 1.0.||1.00|0.51|0.052
82416719|NCT02021318|164544308|SUPERIORITY||LSM Difference|-1.068||||0.027|TWO_SIDED|95.0|-2.012|-0.124|||Mixed Models Analysis|||Weeks 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||-0.124|-2.012|0.027
82416720|NCT02021318|164544308|SUPERIORITY||LSM Difference|-0.603||||0.239|TWO_SIDED|95.0|-1.606|0.401|||Mixed Models Analysis|||Weeks 36-52 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||0.401|-1.606|0.239
82416721|NCT02021318|164544309|SUPERIORITY||LSM Difference|-0.528||||0.517|TWO_SIDED|95.0|-2.127|1.072|||Mixed Models Analysis|||Weeks 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An AnS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||1.072|-2.127|0.517
82416722|NCT02021318|164544309|SUPERIORITY||LSM Difference|-0.947||||0.308|TWO_SIDED|95.0|-2.771|0.877|||Mixed Models Analysis|||Weeks 36-52 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An AnS, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||0.877|-2.771|0.308
82416723|NCT02021318|164544310|SUPERIORITY||LSM Difference|-0.904||||0.57|TWO_SIDED|95.0|-4.032|2.224|||Mixed Models Analysis|||Week 12-28 - The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An total score, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||2.224|-4.032|0.570
82416724|NCT02021318|164544310|SUPERIORITY||LSM Difference|-1.767||||0.334|TWO_SIDED|95.0|-5.354|1.82|||Mixed Models Analysis|||Weeks 36-52 -The model included treatment, visit, visit by treatment interaction, region and history of cardiovascular disease as fixed class factors and baseline FACT-An total score, baseline Hb, baseline estimated glomerular filtration rate as continuous covariates.||1.820|-5.354|0.334
82416725|NCT02021318|164544312|SUPERIORITY||LSM Difference|0.784||||0.497|TWO_SIDED|95.0|-1.481|3.049|||Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline EQ-5D 5L VAS, baseline Hb, baseline eGFR as continuous covariates.||3.049|-1.481|0.497
82416726|NCT02021318|164544323|SUPERIORITY||LSM Difference|-0.05||||0.902|TWO_SIDED|95.0|-0.93|0.82|||Mixed Models Analysis|||||0.82|-0.93|0.902
82416727|NCT02021318|164544325|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96|TWO_SIDED|95.0|0.79|1.29|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.29|0.79|0.960
82416728|NCT02021318|164544327|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.939|TWO_SIDED|95.0|0.79|1.25|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.25|0.79|0.939
82416729|NCT02021318|164544328|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.948|TWO_SIDED|95.0|0.77|1.27|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.27|0.77|0.948
82416730|NCT02021318|164544329|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.568|TWO_SIDED|95.0|0.75|1.17|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.17|0.75|0.568
82416731|NCT02547935|164544353|SUPERIORITY||Difference in adjusted mean change|-0.58|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.8|-0.37||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e. anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||-0.37|-0.80|<0.001
82416732|NCT02547935|164544354|SUPERIORITY||Difference in adjusted mean change|-38.0|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|-48.2|-25.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline UACR value and log-baseline UACR value-by-week interaction.||-25.8|-48.2|<0.001
82416733|NCT02547935|164544354|SUPERIORITY||Difference in adjusted mean change|-21.0|STANDARD_ERROR_OF_MEAN|7.3||0.011|TWO_SIDED|95.0|-34.1|-5.2||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline UACR value and log-baseline UACR value-by-week interaction.||-5.2|-34.1|0.011
82447484|NCT04566601|164603668|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.17||||0.5683|TWO_SIDED|95.0|-2.86|5.19||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by REML-based MMRM including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline DERS-16 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.19|-2.86|0.5683
82532950|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.028||||90.0|-0.061|0.03|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M24||0.030|-0.061|
82416734|NCT02547935|164544355|SUPERIORITY||Difference in adjusted mean change|-0.04|STANDARD_ERROR_OF_MEAN|0.66||0.953|TWO_SIDED|95.0|-1.32|1.26||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline total body weight value and log-baseline total body weight value-by-week interaction.||1.26|-1.32|0.953
82416735|NCT02547935|164544355|SUPERIORITY||Difference in adjusted mean change|-0.87|STANDARD_ERROR_OF_MEAN|0.66||0.193|TWO_SIDED|95.0|-2.17|0.44||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation stratification factor (i.e. anti-diabetic treatment strata), as well as the continuous fixed covariates of log-baseline total body weight value and log-baseline total body weight value-by-week interaction.||0.44|-2.17|0.193
82416736|NCT02547935|164544356|SUPERIORITY||Difference in adjusted mean change|-6.1|STANDARD_ERROR_OF_MEAN|5.8||0.298|TWO_SIDED|95.0|-17.5|5.4||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e.anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||5.4|-17.5|0.298
82416737|NCT02547935|164544356|SUPERIORITY||Difference in adjusted mean change|-1.9|STANDARD_ERROR_OF_MEAN|5.9||0.746|TWO_SIDED|95.0|-13.6|9.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e.anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||9.8|-13.6|0.746
82532951|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.044|0.043|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M27||0.043|-0.044|
82647076|NCT03162354|165009151|OTHER||Odds Ratio (OR)|0.63||||0.04|TWO_SIDED|95.0|0.4|0.99||The threshold for statistical significance was p = 0.05.|Chi-squared||The direction of the comparison is from intervention sites to control sites.|||0.99|0.40|0.04
82647077|NCT02989610|165009168|SUPERIORITY|Superiority hypothesis was that 95% lower confidence bound on proportion exceeded a threshold of 60%.|||||<|0.0001|||||||Clopper-Pearson method|||Proportion with wider therapeutic window using directional stimulation was compared to a performance goal of 60%.||||<0.0001
82647078|NCT02989610|165009169|NON_INFERIORITY|Non-inferiority hypothesis was that 95% lower confidence bound on proportion exceeded a threshold of 40%.|||||<|0.0001|||||||Clopper-Pearson method|||Proportion with wider therapeutic window using directional stimulation was compared to a performance goal of 60%.||||<0.0001
82647079|NCT02989610|165009170|SUPERIORITY|||||||1|||||||t-test, 1 sided|Paired t-test.||"Comparison of UPDRS part III on medication from 3 months using omnidirectional stimulation to 6 months using directional stimulation.~The p-value presented is calculated and does not represent the threshold. The statistical test used for this endpoint is single sided, and the observed difference was in the opposite direction of the tested difference, leading to a p-value that is equivalent to 1 within the significance of the statistical software used."||||1.0000
82647080|NCT04508621|165009172|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.115|TWO_SIDED|95.0|-0.6|0.1|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment difference = TNX-102 SL - Placebo|||0.1|-0.6|0.115
82647081|NCT04508621|165009173|SUPERIORITY|Patients with missing data considered non-responders.|Difference in Proportions|8.0||||0.038|TWO_SIDED|95.0|0.5|15.5|||Pearson Chi-Squared|||||15.5|0.5|0.038
82647082|NCT04508621|165009174|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.55||0.03|TWO_SIDED|95.0|-6.4|-0.3|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment difference = TNX-102 SL - Placebo|||-0.3|-6.4|0.030
82647083|NCT04508621|165009175|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.46||0.797|TWO_SIDED|95.0|-3.2|2.5|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||2.5|-3.2|0.797
82647084|NCT04508621|165009176|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.8||0.004|TWO_SIDED|95.0|-3.8|-0.7|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||-0.7|-3.8|0.004
82647085|NCT04508621|165009177|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.74||0.101|TWO_SIDED|95.0|-2.7|0.2|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||0.2|-2.7|0.101
82647086|NCT04508621|165009178|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.094|TWO_SIDED|95.0|-0.6|0.0|||Mixed Model Repeated Measures|Multiple imputation used for missing data.|Treatment Difference = TNX-102 SL - Placebo|||0.0|-0.6|0.094
82376650|NCT01307748|164459559|OTHER|||||||0.005||||||The p value was adjusted for multiple comparisons using false discovery rate.|ANCOVA|Repeated-measures ANOVA with time (stress, post-stress) as a within factor and aroma (lavender, coconut, water) as a between-group factor was used.||The null hypothesis stated that there were no differences between the groups in cortisol level trajectory over time.||||.005
82376651|NCT01307748|164459561|OTHER|||||||0.01||||||P value was adjusted for multiple comparisons using false discovery rate|ANCOVA|A 3 (lavender, coconut, water) by 2 ( prime, no prime) Analysis of Covariance (ANCOVA), with years of education as a covariate was used.||||||.01
82376652|NCT03097991|164459562|SUPERIORITY||Slope|1.86|STANDARD_ERROR_OF_MEAN|1.86||0.32|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.32
82376653|NCT03097991|164459562|SUPERIORITY||Slope|-0.84|STANDARD_ERROR_OF_MEAN|1.33||0.53|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.53
82376654|NCT03097991|164459563|SUPERIORITY||Slope|-3.04|STANDARD_ERROR_OF_MEAN|1.63||0.07|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.07
82376655|NCT03097991|164459563|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.36||0.69|TWO_SIDED||||||Mixed Models Analysis||||Group Effect|||.69
82376656|NCT03097991|164459564|SUPERIORITY||Slope|2.44|STANDARD_ERROR_OF_MEAN|2.0||0.22|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.22
82376657|NCT03097991|164459564|SUPERIORITY||Slope|0.84|STANDARD_ERROR_OF_MEAN|1.33||0.53|TWO_SIDED||||||Mixed Models Analysis||Group effect|||||.53
82376658|NCT03097991|164459565|SUPERIORITY||Slope|-1.73|STANDARD_ERROR_OF_MEAN|1.76||0.33|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.33
82376659|NCT03097991|164459565|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.36||0.69|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.69
82376660|NCT03097991|164459566|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.81|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.81
82376661|NCT03097991|164459566|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.56|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.56
82376662|NCT03097991|164459567|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.77|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.77
82376663|NCT03097991|164459567|SUPERIORITY||Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.85
82376664|NCT03097991|164459568|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.56|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint Effect|||||.56
82376665|NCT03097991|164459568|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.81|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.81
82376666|NCT03097991|164459569|SUPERIORITY||Slope|-0.003|STANDARD_ERROR_OF_MEAN|0.02||0.85|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint effect|||||.85
82376667|NCT03097991|164459569|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.77|TWO_SIDED||||||Mixed Models Analysis||Group Effect|||||.77
82376668|NCT03097991|164459570|SUPERIORITY||Slope|21.01|STANDARD_ERROR_OF_MEAN|5.91|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||<.001
82376669|NCT03097991|164459570|SUPERIORITY||Slope|2.98|STANDARD_ERROR_OF_MEAN|4.75|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group|||||<.001
82376670|NCT03097991|164459571|SUPERIORITY||Slope|0.68|STANDARD_ERROR_OF_MEAN|0.49|<|0.05|TWO_SIDED||||||Mixed Models Analysis|linear mixed effects|Group|||||<.05
82416738|NCT02547935|164544357|SUPERIORITY||Odds Ratio (OR)|2.98|||<|0.001|TWO_SIDED|95.0|1.8|4.8||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline UACR and pooled randomisation strata.||4.8|1.8|<0.001
82416739|NCT02547935|164544357|SUPERIORITY||Odds Ratio (OR)|1.86||||0.013|TWO_SIDED|95.0|1.1|3.0||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline UACR and pooled randomisation strata.||3.0|1.1|0.013
82416740|NCT02547935|164544358|SUPERIORITY||Odds Ratio (OR)|5.43|||<|0.001|TWO_SIDED|95.0|2.6|11.2||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline HbA1c and pooled randomisation strata.||11.2|2.6|<0.001
82416741|NCT02547935|164544358|SUPERIORITY||Odds Ratio (OR)|1.74||||0.167|TWO_SIDED|95.0|0.8|3.8||Statistical significance level = 0.025.|Regression, Logistic|||Logistic regression model analysis with adjustment for baseline HbA1c and pooled randomisation strata.||3.8|0.8|0.167
82416742|NCT02547935|164544359|SUPERIORITY||Difference in adjusted mean change|-4.8|STANDARD_ERROR_OF_MEAN|1.8||0.009|TWO_SIDED|95.0|-8.3|-1.2||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios, included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation strata, as well as the continuous fixed covariates of log-baseline SBP value and log-baseline SBP value-by-week interaction.||-1.2|-8.3|0.009
82532952|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.027||||90.0|-0.051|0.04|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M30||0.040|-0.051|
82532953|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.03||||90.0|-0.042|0.058|||||Adjusted Primary Analysis Model includes terms of treatment, baseline pulmonary function tests (PFTs), center, age, sex, and height.|Ext M33||0.058|-0.042|
82416743|NCT02547935|164544359|SUPERIORITY||Difference in adjusted mean change|-2.8|STANDARD_ERROR_OF_MEAN|1.8||0.122|TWO_SIDED|95.0|-6.4|0.8||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures model of the logarithms of the post-baseline to baseline ratios, included the fixed categorical effects of treatment, week, treatment-by-week interaction, and randomisation strata, as well as the continuous fixed covariates of log-baseline SBP value and log-baseline SBP value-by-week interaction.||0.8|-6.4|0.122
82416744|NCT02547935|164544360|SUPERIORITY||Difference in adjusted mean change|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.142|TWO_SIDED|95.0|-0.38|0.05||Statistical significance level = 0.025.|MMRM|||A longitudinal repeated measures analysis included the fixed categorical effects of treatment, week, randomisation stratification factor (i.e. anti-diabetic treatment strata), and treatment-by-week interaction, as well as the continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.||0.05|-0.38|0.142
82416745|NCT01301092|164544377|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|0.443|||||TWO_SIDED|90.0|0.395|0.497|||Mixed Linear effects model analyses|||||0.497|0.395|
82416746|NCT01301092|164544378|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Mean|2.1|||||TWO_SIDED|90.0|1.84|2.41|||Mixed Linear effects model analyses|||||2.41|1.84|
82416747|NCT01301092|164544379|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|0.962|||||TWO_SIDED|90.0|0.858|1.08|||Mixed Linear effects model analyses|||||1.08|0.858|
82416748|NCT01301092|164544380|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.05|||||TWO_SIDED|90.0|0.924|1.19|||Mixed Linear effects model analyses|||||1.19|0.924|
82416749|NCT01350973|164544389|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.876|TWO_SIDED|95.0|-4.2491|4.983||An ANCOVA model was employed, using the baseline triglyceride level as covariate and the treatment group as an independent variable.|ANCOVA|||||4.9830|-4.2491|0.8760
82416750|NCT01350973|164544389|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.35|||<|0.0001|TWO_SIDED|95.0|-15.9442|-6.7637||An ANCOVA model was employed, using the baseline triglyceride level as covariate and the treatment group as an independent variable.|ANCOVA|||||-6.7637|-15.9442|< 0.0001
82416751|NCT03738215|164544399|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.005|TWO_SIDED|95.0|-4.17|-0.89||Adjusted P-Value (based on truncated Hochberg with parameter=0.9)|MMRM|MMRM = mixed-effects model for repeated measures||||-0.89|-4.17|0.0050
82416752|NCT03738215|164544399|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.0727|TWO_SIDED|95.0|-3.16|0.12||Adjusted P-Value (based on truncated Hochberg with parameter=0.9)|MMRM|MMRM = mixed-effects model for repeated measures||||0.12|-3.16|0.0727
82416753|NCT03738215|164544400|SUPERIORITY||Lease Squares Mean Difference|-0.3||||0.0727|TWO_SIDED|95.0|-0.49|-0.07||Adjusted P-Value (based on Hochberg procedure)|MMRM|MMRM = mixed-effects model for repeated measures||||-0.07|-0.49|0.0727
82416754|NCT03738215|164544400|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.0944|TWO_SIDED|95.0|-0.39|0.03||Adjusted P-Value (based on Hochberg procedure)|MMRM|MMRM = mixed-effects model for repeated measures.||||0.03|-0.39|0.0944
82416755|NCT05894564|164544409|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.88|1.1|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.10|0.88|
82416756|NCT05894564|164544410|SUPERIORITY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.05|5.65|||||Low event rate precluded covariate adjustment.|No hypothesis test or decision rule was evaluated.||5.65|0.05|
82416757|NCT05894564|164544413|SUPERIORITY|Posterior probability of efficacy (P(HR\<1))|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.31|1.28|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.28|0.31|
82532954|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.032||||90.0|-0.03|0.077|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M36||0.077|-0.030|
82532955|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.042|0.035|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height. Ext M36 (LOCF) based on data in the extension phase only.|Ext M36 LOCF||0.035|-0.042|
82532956|NCT00136916|164763703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.026||||90.0|-0.023|0.062|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext FU M3||0.062|-0.023|
82416758|NCT05894564|164544414|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.56|1.87|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.87|0.56|
82416759|NCT05894564|164544415|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.25|1.16|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.16|0.25|
82416760|NCT05894564|164544416|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.33|1.74|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.74|0.33|
82532957|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.058||||90.0|-0.215|-0.023|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M3||-0.023|-0.215|
82648028|NCT04133519|165011392|SUPERIORITY||Mean Difference (Final Values)|0.173||||0.9468|TWO_SIDED|95.0|-4.904|5.249|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model for IBS-D participants:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random Means are the mean daily number of bowel movements for a 24-hour period."||5.249|-4.904|0.9468
82532958|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023|STANDARD_ERROR_OF_MEAN|0.067||||90.0|-0.133|0.087|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M6||0.087|-0.133|
82376671|NCT03097991|164459571|SUPERIORITY||Slope|0.26|STANDARD_ERROR_OF_MEAN|0.6|<|0.05|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||<.05
82376672|NCT03097991|164459572|SUPERIORITY||Slope|3.52|STANDARD_ERROR_OF_MEAN|4.14||0.39|TWO_SIDED||||||Mixed Models Analysis||Group|"We analyzed the CTS scales Psychological Aggression and Physical Assault. Inspection of the latter in the raw data and descriptives showed extremely consistent selection of the lowest value of the scale (no incidents of assault) across all respondents, so we did not conduct inferential tests."||||.39
82376673|NCT03097991|164459572|SUPERIORITY||Slope|-13.38|STANDARD_ERROR_OF_MEAN|4.86|<|0.005|TWO_SIDED||||||Mixed Models Analysis||Group x Time|||||<.005
82376674|NCT03097991|164459573|SUPERIORITY||Slope|-1.17|STANDARD_ERROR_OF_MEAN|1.25||0.24|TWO_SIDED||||||Mixed Models Analysis||Group|||||.24
82376675|NCT03097991|164459573|EQUIVALENCE|ANOVA found a main effect of group, F(1, 155) = 6.85, p \< .05, η2G = .04.|Mean Difference (Final Values)|6.85|||<|0.05|TWO_SIDED||||||ANOVA||Group|||||<.05
82376676|NCT03097991|164459574|SUPERIORITY||Slope|-2.53|STANDARD_ERROR_OF_MEAN|1.04||0.02|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.02
82376677|NCT03097991|164459574|SUPERIORITY||Slope|0.45|STANDARD_ERROR_OF_MEAN|0.78||0.56|TWO_SIDED||||||Mixed Models Analysis||Group|||||.56
82376678|NCT03097991|164459575|SUPERIORITY||Slope|0.94|STANDARD_ERROR_OF_MEAN|0.9||0.3|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.30
82376679|NCT03097991|164459575|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.67||0.36|TWO_SIDED||||||Mixed Models Analysis||Group|||||.36
82376680|NCT03097991|164459576|SUPERIORITY||Slope|-0.75|STANDARD_ERROR_OF_MEAN|0.55||0.17|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.17
82376681|NCT03097991|164459576|SUPERIORITY||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.48|TWO_SIDED||||||Mixed Models Analysis||Group|||||.48
82376682|NCT03097991|164459577|SUPERIORITY||Slope|1.15|STANDARD_ERROR_OF_MEAN|7.34||0.88|TWO_SIDED||||||Mixed Models Analysis||Group|||||.88
82376683|NCT03097991|164459577|SUPERIORITY||Slope|7.94|STANDARD_ERROR_OF_MEAN|9.0||0.38|TWO_SIDED||||||Mixed Models Analysis||Group x Time|||||.38
82376684|NCT03097991|164459578|SUPERIORITY||Slope|-1.89|STANDARD_ERROR_OF_MEAN|1.05||0.07|TWO_SIDED||||||Mixed Models Analysis||Parent x Group|||||.07
82376685|NCT03097991|164459578|SUPERIORITY||Slope|2.52|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED||||||Mixed Models Analysis||Group|||||<.001
82376686|NCT03097991|164459579|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.38||0.92|TWO_SIDED||||||Mixed Models Analysis||Group|||||.92
82376687|NCT03097991|164459579|SUPERIORITY||Slope|1.12|STANDARD_ERROR_OF_MEAN|0.57||0.05|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.05
82376688|NCT03097991|164459580|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.47||0.81|TWO_SIDED||||||Mixed Models Analysis||Group|||||.81
82376689|NCT03097991|164459580|SUPERIORITY||Slope|-0.67|STANDARD_ERROR_OF_MEAN|0.7||0.34|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.34
82376690|NCT03097991|164459581|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.33||0.76|TWO_SIDED||||||Mixed Models Analysis||Group|||||.76
82376691|NCT03097991|164459581|SUPERIORITY||Slope|0.31|STANDARD_ERROR_OF_MEAN|0.49||0.53|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.53
82376692|NCT03097991|164459582|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.88|TWO_SIDED||||||Mixed Models Analysis||Group|||||.88
82376693|NCT03097991|164459582|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.23||0.95|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.95
82376694|NCT03097991|164459583|SUPERIORITY||Slope|0.82|STANDARD_ERROR_OF_MEAN|1.13||0.47|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.47
82376695|NCT03097991|164459583|SUPERIORITY||Slope|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.07|TWO_SIDED||||||Mixed Models Analysis||Group|||||.07
82376696|NCT03097991|164459584|SUPERIORITY||Slope|0.54|STANDARD_ERROR_OF_MEAN|1.32||0.68|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.68
82376697|NCT03097991|164459584|SUPERIORITY||Slope|-1.68|STANDARD_ERROR_OF_MEAN|0.93||0.07|TWO_SIDED||||||Mixed Models Analysis||Group|||||.07
82376698|NCT03097991|164459585|SUPERIORITY||Slope|-0.85|STANDARD_ERROR_OF_MEAN|1.9||0.65|TWO_SIDED||||||Mixed Models Analysis||Group|||||.65
82376699|NCT03097991|164459585|SUPERIORITY||Slope|-1.65|STANDARD_ERROR_OF_MEAN|2.44||0.5|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.50
82376700|NCT03097991|164459586|SUPERIORITY||Slope|0.92|STANDARD_ERROR_OF_MEAN|1.3||0.48|TWO_SIDED||||||Mixed Models Analysis||Group|||||.48
82416761|NCT05894564|164544417|OTHER||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.71|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.21|0.71|
82416762|NCT05894564|164544417|OTHER||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.67|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.19|0.67|
82416763|NCT05894564|164544417|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.61|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.19|0.61|
82416764|NCT05894564|164544417|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.61|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.28|0.61|
82416765|NCT05894564|164544417|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.7|1.49|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.49|0.70|
82416766|NCT05894564|164544418|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.8|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.27|0.80|
82416767|NCT05894564|164544418|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.77|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.26|0.77|
82416768|NCT05894564|164544418|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.67|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.67|
82416769|NCT05894564|164544418|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.77|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.36|0.77|
82416770|NCT05894564|164544418|OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.76|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.33|0.76|
82416771|NCT05894564|164544419|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.65|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.09|0.65|
82532959|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.069||||90.0|-0.104|0.124|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M9||0.124|-0.104|
82648029|NCT04133519|165011393|SUPERIORITY||Median Difference (Final Values)|-1.602||||0.5015|TWO_SIDED|95.0|-6.282|3.077|||Mixed Models Analysis|||"The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model:~parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random The unstructured covariance matrix was used to model the within-participant correlation. The model-based least square (LS) means and LS mean differences (GDH minus comparator) and associated 95% CIs for each week and overall were estimated."||3.077|-6.282|0.5015
82447485|NCT04566601|164603669|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-2.07||||0.3568|TWO_SIDED|95.0|-6.49|2.35||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||2.35|-6.49|0.3568
82416772|NCT05894564|164544419|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.32|0.74|
82416773|NCT05894564|164544419|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.21|0.64|
82416774|NCT05894564|164544419|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.87|1.73|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.73|0.87|
82416775|NCT05894564|164544419|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.85|1.64|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.64|0.85|
82532960|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.075||||90.0|-0.033|0.214|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M12||0.214|-0.033|
82532961|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.081||||90.0|-0.081|0.185|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M15||0.185|-0.081|
82576555|NCT04954326|164863287|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for AUCinf should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|102.8||||0.05|TWO_SIDED|90.0|91.4|115.6|||ANOVA|||AUCinf was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||115.6|91.4|0.05
82576556|NCT04954326|164863288|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for Cmax should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|93.5||||0.05|TWO_SIDED|90.0|82.9|105.5|||ANOVA|||Cmax was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||105.5|82.9|0.05
82576557|NCT04954326|164863289|EQUIVALENCE|The 90% Confidence Interval of the geometric mean ratios of the Lyophilisate compared to the Liquid formulations for Cday14 should be completely contained within the predefined \[80.00%-125.00%\] equivalence interval.|Geometric Mean Ratio (%)|121.5||||0.05|TWO_SIDED|90.0|98.7|149.6|||ANOVA|||Cday14 was natural log-transformed and analyzed using an analysis of variance (ANOVA) with fixed effect for formulation. The two one-sided tests procedures were performed on the geometric mean ratio (GMR) between test (S95014 lyophilizate) and reference (S95014 liquid formulation) treatments. The 90% confidence interval for the ratio was obtained within the framework of the ANOVA.||149.6|98.7|0.05
82576558|NCT00630734|164863295|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||Threshold of significance was P\<0.05.|ANOVA|||Relative change data were compared between SLCO1B1 diplotype groups using one-way ANOVA (with post-hoc Bonferroni tests).||||0.43
82576559|NCT00630734|164863296|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||||||0.28
82576560|NCT00630734|164863297|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||ANOVA|||||||0.66
82576561|NCT00630734|164863298|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
82648030|NCT04133519|165011394|SUPERIORITY||Mean Difference (Final Values)|4.586||||0.2117|TWO_SIDED|95.0|-2.619|11.79|||Mixed Models Analysis|||"Percent Overall Work Impairment Due to IBS defined as the percent time missed by not showing up for work, plus the percent time missed while working, and calculated as: Q2/(Q2+Q4)+\[(1-(Q2/(Q2+Q4))x(Q5/10)\]."||11.790|-2.619|0.2117
82447486|NCT04566601|164603669|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.21||||0.6009|TWO_SIDED|95.0|-3.33|5.75||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||5.75|-3.33|0.6009
82447487|NCT04566601|164603669|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.36||||0.8705|TWO_SIDED|95.0|-4.7|3.98||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||3.98|-4.70|0.8705
82447488|NCT04566601|164603669|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|1.15||||0.5262|TWO_SIDED|95.0|-2.41|4.71||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline STAI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||4.71|-2.41|0.5262
82576562|NCT00630734|164863299|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||||||0.11
82576563|NCT00630734|164863300|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
82576564|NCT00630734|164863301|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
82376701|NCT03097991|164459586|SUPERIORITY||Slope|-1.92|STANDARD_ERROR_OF_MEAN|1.72||0.27|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.27
82447489|NCT04566601|164603670|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-1.83||||0.0782|TWO_SIDED|95.0|-3.87|0.21||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.21|-3.87|0.0782
82576565|NCT00630734|164863302|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
82576566|NCT00630734|164863303|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||||||0.006
82576567|NCT00630734|164863304|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.08
82576568|NCT05239598|164863370|SUPERIORITY||Mean Difference (Net)|4.5||||0.287|TWO_SIDED|95.0|-4.0|13.0|||t-test, 2 sided|||||13.0|-4.0|0.287
82576569|NCT05239598|164863371|SUPERIORITY||Mean Difference (Net)|1.7||||0.625|TWO_SIDED|95.0|-5.2|8.6|||t-test, 2 sided|||5 minutes post intervention||8.6|-5.2|0.625
82416776|NCT05894564|164544420|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.33|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.33|0.74|
82416777|NCT05894564|164544420|OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.59|1.1|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.10|0.59|
82416778|NCT05894564|164544420|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.59|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.12|0.59|
82416779|NCT05894564|164544420|OTHER||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.83|1.62|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.62|0.83|
82416780|NCT05894564|164544420|OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.7|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.34|0.70|
82576570|NCT05239598|164863371|SUPERIORITY||Mean Difference (Net)|2.5||||0.526|TWO_SIDED|95.0|-5.5|10.5|||t-test, 2 sided|||30 minutes post intervention||10.5|-5.5|0.526
82416781|NCT05894564|164544421|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.79|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.34|0.79|
82416782|NCT05894564|164544421|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.74|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.32|0.74|
82416783|NCT05894564|164544421|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.64|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.20|0.64|
82416784|NCT05894564|164544421|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.7|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.34|0.70|
82416785|NCT05894564|164544421|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.64|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.25|0.64|
82416786|NCT05894564|164544422|OTHER||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.61|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.01|0.61|
82416787|NCT05894564|164544422|OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.64|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.11|0.64|
82416788|NCT05894564|164544422|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.63|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.12|0.63|
82416789|NCT05894564|164544422|OTHER||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.6|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.12|0.60|
82416790|NCT05894564|164544422|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.67|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.24|0.67|
82416791|NCT05894564|164544423|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.81|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.27|0.81|
82416792|NCT05894564|164544423|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.18|0.76|
82416793|NCT05894564|164544423|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.72|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.72|
82416794|NCT05894564|164544423|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.79|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.26|0.79|
82416795|NCT05894564|164544423|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.64|1.01|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.01|0.64|
82576571|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|0.04||||0.511|TWO_SIDED|95.0|-4.2|8.1|||Signed Rank|||Povidone-iodine: 5 minutes Post-Intervention||8.1|-4.2|0.511
82416796|NCT05894564|164544424|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|-0.17|||||TWO_SIDED|95.0|-0.56|0.26|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.26|-0.56|
82416797|NCT05894564|164544425|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimated means|0.21|||||TWO_SIDED|95.0|-0.29|0.68|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.68|-0.29|
82416798|NCT03882801|164544426|SUPERIORITY||Least Square Geometric Means Ratio|0.92|||||TWO_SIDED|90.0|0.73|1.17|||||Back transformed least squares mean and confidence interval from linear mixed effects model performed on natural log-transformed values.|||1.17|0.73|
82416799|NCT04193176|164544429|SUPERIORITY||Mean Difference (Net)|-11.67||||0.004|TWO_SIDED|95.0|-19.67|-3.67|||ANCOVA|||||-3.67|-19.67|0.004
82416800|NCT00944645|164544432|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis I: The Cmax of nicotinuric acid (NUA) following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of NUA Cmax is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|0.98||||||90.0|0.93|1.03||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.03|0.93|
82416801|NCT00944645|164544433|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis II: The total urinary excretion of niacin and niacin metabolites following the administration of MK0524 (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of total urinary excretion of niacin and its metabolites is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|0.94||||||90.0|0.89|0.98||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||0.98|0.89|
82416802|NCT00944645|164544434|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis III: The AUC0-infinity of laropiprant following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of MK0524 AUC0-∞ is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|1.0||||||95.0|0.95|1.05||||||"Group B: MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~Group A: MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.05|0.95|
82416803|NCT00944645|164544435|NON_INFERIORITY_OR_EQUIVALENCE|Primary research hypothesis IV: The Cmax of laropiprant following the administration of MK0524A (ER niacin 1000 mg/ laropiprant 20 mg) tablets from 2 manufacturing sites is similar (i.e., the true GMR of MK0524 Cmax is contained within the bioequivalence interval (0.80, 1.25)).|Geometric Mean Ratio|1.02||||||95.0|0.96|1.09||||||"MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) tablet from new manufacturing site (Source 2)~MK0524A (1000 mg ER Niacin/20 mg MK-laropiprant) Phase III tablet (Source 1)"||1.09|0.96|
82416804|NCT03928704|164544438|SUPERIORITY||Odds Ratio (OR)|3.51|||<|0.001|TWO_SIDED|95.0|2.0|6.16|||Regression, Logistic|||||6.16|2.00|<0.001
82416805|NCT03928704|164544439|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.71|5.54|||Regression, Logistic|||||5.54|1.71|<0.001
82416806|NCT03928704|164544440|SUPERIORITY||LS Mean difference|-1.51|||<|0.001||95.0|-2.04|-0.98|||ANCOVA|||||-0.98|-2.04|<0.001
82416807|NCT03928704|164544440|SUPERIORITY||LS Mean difference|-0.91||||0.22|TWO_SIDED|95.0|-2.42|0.61|||ANCOVA|||||0.61|-2.42|0.220
82416808|NCT03928704|164544441|SUPERIORITY||Odds Ratio (OR)|3.69|||<|0.001|TWO_SIDED|95.0|2.17|6.26|||Regression, Logistic|||||6.26|2.17|<0.001
82416809|NCT03928704|164544442|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.001|TWO_SIDED|95.0|2.06|9.93|||Regression, Logistic|||||9.93|2.06|<0.001
82416810|NCT03928704|164544443|SUPERIORITY||Odds Ratio (OR)|5.43|||<|0.001|TWO_SIDED|95.0|2.41|12.23|||Regression, Logistic|||||12.23|2.41|<0.001
82416811|NCT03928704|164544444|SUPERIORITY||Odds Ratio (OR)|3.31|||<|0.001|TWO_SIDED|95.0|1.87|5.84|||Regression, Logistic|||||5.84|1.87|<0.001
82416812|NCT03928704|164544445|SUPERIORITY||LS Mean difference|-1.48|||<|0.001||95.0|-1.99|-0.97|||ANCOVA|||||-0.97|-1.99|<0.001
82416813|NCT03928704|164544445|SUPERIORITY||LS Mean difference|-1.25||||0.019|TWO_SIDED|95.0|-2.26|-0.24|||ANCOVA|||||-0.24|-2.26|0.019
82416814|NCT03928704|164544446|SUPERIORITY||LS Mean difference|-1.8|||<|0.001||95.0|-2.42|-1.18|||ANCOVA|||||-1.18|-2.42|<0.001
82416815|NCT03928704|164544446|SUPERIORITY||LS Mean difference|-1.09||||0.199|TWO_SIDED|95.0|-2.83|0.65|||ANCOVA|||||0.65|-2.83|0.199
82416816|NCT03928704|164544447|SUPERIORITY||LS Mean difference|-2.63|||<|0.001||95.0|-3.66|-1.61|||ANCOVA|||||-1.61|-3.66|<0.001
82416817|NCT03928704|164544447|SUPERIORITY||LS Mean difference|-1.84||||0.17|TWO_SIDED|95.0|-4.56|0.89|||ANCOVA|||||0.89|-4.56|0.170
82576572|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|5.4||||0.408|TWO_SIDED|95.0|-10.7|18.6|||Signed Rank|||Povidone-iodine: 30 minutes post-intervention||18.6|-10.7|0.408
82416818|NCT03928704|164544448|SUPERIORITY||LS Mean difference|3.96|||<|0.001|TWO_SIDED|95.0|2.08|5.83|||ANCOVA|||||5.83|2.08|<0.001
82416819|NCT03928704|164544448|SUPERIORITY||LS Mean difference|7.27||||0.035|TWO_SIDED|95.0|0.6|13.95|||ANCOVA|||||13.95|0.60|0.035
82416820|NCT03928704|164544449|SUPERIORITY||LS Mean difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.52|-0.14|||ANCOVA|||||-0.14|-0.52|<0.001
82416821|NCT03928704|164544449|SUPERIORITY||LS Mean difference|-0.5||||0.086|TWO_SIDED|95.0|-1.07|0.07|||ANCOVA|||||0.07|-1.07|0.086
82416822|NCT03928704|164544450|SUPERIORITY||LS Mean difference|-1.06|||=|0.013|TWO_SIDED|95.0|-1.88|-0.23|||ANCOVA|||||-0.23|-1.88|=0.013
82416823|NCT03928704|164544451|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.84|6.62|||Regression, Logistic|||||6.62|1.84|<0.001
82416824|NCT03403517|164544490|SUPERIORITY||Risk Ratio (RR)|0.859||||0.213|TWO_SIDED|95.0|0.682|1.082|||Fisher Exact|||||1.082|0.682|0.213
82416825|NCT03403517|164544494|SUPERIORITY||Risk Ratio (RR)|0.977|||>|0.999|TWO_SIDED|95.0|0.557|1.715|||Fisher Exact|||||1.715|0.557|>0.999
82416826|NCT03403517|164544495|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.160
82576573|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|-4.9||||0.907|TWO_SIDED|95.0|-15.2|17.5|||Signed Rank|||Povidone-iodine: 60 minutes post-intervention||17.5|-15.2|0.907
82647087|NCT04355767|165009179|SUPERIORITY|||||||||||||||||Analysis is of patients with a disease-progression event. The trial required a sample size of 900 patients to detect an absolute between-group difference of 10 percentage points (the minimum difference that we considered to be clinically important) with a power of 85%.|A Bayesian framework was used to calculate a risk difference of 1.9 percentage points (placebo group minus convalescent-plasma group) with a 95% credible interval of -6.0 to 9.8. The posterior probability of superiority was calculated to be 0.68. Efficacy was defined as a posterior probability of 0.975 or more that the proportion of patients with outcome events was higher in the placebo group.|||
82647088|NCT04355767|165009179|SUPERIORITY||Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-5.9|10.4|||||Risk difference after adjustment for age, sex, symptom duration.|Analysis is of patients with a disease-progression event.||10.4|-5.9|
82647089|NCT04355767|165009180|SUPERIORITY|||||||||||||||||Analysis is of patients with a disease-progression event.|A Bayesian framework was used to calculate a risk difference of 3.0 percentage points (placebo group minus convalescent-plasma group) with a 95% credible interval of -4.9 to 10.8. The posterior probability of superiority was calculated to be 0.76. Efficacy was defined as a posterior probability of 0.975 or more that the proportion of patients with outcome events was higher in the placebo group.|||
82647090|NCT04355767|165009182|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
82647091|NCT04355767|165009183|OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.4|1.1||||||||1.1|-0.4|
82647092|NCT00301873|165009193|SUPERIORITY_OR_OTHER||Slope|-0.107|STANDARD_ERROR_OF_MEAN|0.0855||0.2212||95.0||||The p-value is a test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between baseline baseline steroid use and BMD change at 6 months (outcome).||59 patients were accrued to the study. The 27 patients with follow-up at 6 months are included in an analysis to assess the association between baseline steroid use and bone mass density at 6 months using linear regression.||||.2212
82647093|NCT00301873|165009193|SUPERIORITY_OR_OTHER||Slope|0.2357|STANDARD_ERROR_OF_MEAN|0.1091||0.0413||95.0||||this p-value is at test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between anticonvulsant use and BMD change at 6 months (outcome).||59 patients were accrued to the study. The 27 patients with follow-up at 6 months are included in an analysis to assess the association between baseline anticonvulsant use and bone mass density at 6 months using linear regression||||.0413
82647094|NCT00301873|165009193|SUPERIORITY_OR_OTHER||Slope|-0.232|STANDARD_ERROR_OF_MEAN|0.1029||0.0418||95.0||||this p-value is at test of whether the slope of the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between baseline steroid use and BMD change at 12 months (outcome).||59 patients were accrued to the study. The 19 patients with follow-up at 12 months are included in an analysis to assess the association between baseline steroid use and bone mass density at 12 months using linear regression||||.0418
82416827|NCT01245751|164544505|NON_INFERIORITY_OR_EQUIVALENCE|Week 6 GMT value for Group 1 is statistically non-inferior to Group 2 for the prespecified clinically relevant 1.5-fold ratio if the lower bound of the 95% confidence interval for the GMT ratio is \>0.67|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.97|1.15||The alpha threshold for statistical significance is 0.025 (1-sided)|Longitudinal regression model|The analyzed GMT ratio, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age and vaccination group||Week 6 analysis||1.15|0.97|<0.001
82416828|NCT01245751|164544506|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.54|||<|0.001|TWO_SIDED|95.0|1.44|1.66||The alpha threshold for statistical significance is 0.025 (1-sided)|Longitudinal regression model|The analyzed GMFR, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age||A booster dose induces a statistically acceptable VZV antibody response if the lower bound of the 95% confidence interval is \>1.0.||1.66|1.44|<0.001
82532962|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.087||||90.0|-0.054|0.234|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M18||0.234|-0.054|
82647095|NCT00301873|165009193|SUPERIORITY_OR_OTHER||Slope|0.2123|STANDARD_ERROR_OF_MEAN|0.1209||0.1026||95.0||||the p-value is a test of whether the slope ofl the regression line is non-zero.|Regression, Linear|The linear regression assesses the relationship between anticonvulsant use and BMD change at 12 months.||59 patients were accrued to the study. The 19 patients with follow-up at 12 months are included in an analysis to assess the association between baseline anti-convulsant use and bone mass density at 12 months using linear regression||||.1026
82647096|NCT02450760|165009197|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82416829|NCT01524705|164544526|SUPERIORITY||Wilcoxon||||<|0.024||||||Wilcoxon rank sum test was used due to nonnormality distribution|Wilcoxon (Mann-Whitney)|||Two-tailed t test with type I error = 0.05, a sample of 110 participants (55 per group) would give 90% power to detect a difference of a mean change from baseline of 5 CV units (SD = 8) between control and treatment groups. An ANCOVA model, adjusting for baseline value and clinical site, was to be performed. If residual values from the ANCOVA indicated nonnormality in distribution by Shapiro-Wilk testing, a Wilcoxon rank sum test was used instead.||||<0.024
82532963|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.085||||90.0|-0.073|0.208|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M21||0.208|-0.073|
82647097|NCT02450760|165009198|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
82647098|NCT02450760|165009202|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
82647099|NCT02450760|165009203|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
82647100|NCT02450760|165009204|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
82647101|NCT02464059|165009232|SUPERIORITY||Mean Difference (Final Values)|-65.5|STANDARD_DEVIATION|207.8||0.21|TWO_SIDED|95.0|-172.4|41.3||P-value is not adjusted for multiple comparisons. A priori threshold for significance is p\<0.05.|t-test, 2 sided|||||41.3|-172.4|0.21
82647102|NCT02464059|165009233|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_DEVIATION|12.6||0.86|TWO_SIDED|95.0|-7.02|5.91||P-value is not adjusted for multiple comparisons. A priori threshold for significance is p\<0.05.|t-test, 2 sided|||||5.91|-7.02|0.86
82416830|NCT01524705|164544528|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82416831|NCT01524705|164544529|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82532964|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.096||||90.0|-0.058|0.257|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|M24||0.257|-0.058|
82532965|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.09||||90.0|-0.143|0.154|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|FU M3||0.154|-0.143|
82532966|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.094||||90.0|-0.119|0.19|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|FU M6||0.190|-0.119|
82648031|NCT04133519|165011395|SUPERIORITY||Mean Difference (Net)|2.372||||0.3676|TWO_SIDED|95.0|-2.793|7.537|||Mixed Models Analysis|||The analysis is based on the mixed model repeated measures (MMRM) analysis of variance model: parameter = treatment + timepoint + treatment\*timepoint + gender + subject error + random||7.537|-2.793|0.3676
82416832|NCT01243424|164544530|NON_INFERIORITY|This was the first step in a pre-defined hierarchical testing approach. The upper bound of the confidence interval (CI) of the Hazard ratio (HR) of linagliptin vs. glimepiride was compared with this noninferiority margin for the testing of non-inferiority. All non-inferiority tests were based on a margin of 1.3.|Hazard Ratio (HR)|0.98|||<|0.0001|TWO_SIDED|95.47|0.84|1.14||P-values derived from Wald´s Chi-square test for non-inferiority were calculated.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride||||1.14|0.84|<0.0001
82416833|NCT01243424|164544530|SUPERIORITY|This was the second step in a pre-defined hierarchical testing approach.|Hazard Ratio (HR)|0.98||||0.3813|TWO_SIDED|95.47|0.84|1.14||P-values derived from Wald´s Chi-square test.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride.||||1.14|0.84|0.3813
82416834|NCT01243424|164544531|SUPERIORITY|This was the third step in a pre-defined hierarchical testing approach.|Hazard Ratio (HR)|0.99||||0.4334|TWO_SIDED|95.47|0.86|1.14||P-values derived from Wald´s Chi-square test for non-inferiority.|Regression, Cox|Cox proportional-hazard model with factor treatment was applied to compare linagliptin with glimepiride.||||1.14|0.86|0.4334
82416835|NCT01243424|164544532|OTHER||Odds Ratio (OR)|1.68|||<|0.0001|TWO_SIDED|95.47|1.43|1.96||p-value derived from logistic regression.|Regression, Logistic||Odds ratio and confidence interval are based on logistic regression with factor for treatment.|||1.96|1.43|<0.0001
82416836|NCT01243424|164544533|OTHER||Odds Ratio (OR)|1.29||||0.0004|TWO_SIDED|95.47|1.11|1.48||p-value derived from logistic regression.|Regression, Logistic||Odds ratio and confidence interval are based on logistic regression with factor for treatment.|This was the fifth step in a pre-defined hierarchical testing approach.||1.48|1.11|0.0004
82416837|NCT01243424|164544537|OTHER||Hazard Ratio (HR)|0.96||||0.5249|TWO_SIDED|95.0|0.85|1.09||p-value derived from Wald´s chi-square test.|Regression, Cox||Hazard ratio and confidence interval derived from Cox regression with factor treatment.|This was the fifth step in a pre-defined hierarchical testing approach.||1.09|0.85|0.5249
82416838|NCT01243424|164544538|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0023|TWO_SIDED|95.0|-0.15|-0.03|||ANCOVA|The Analysis of Covariance (ANCOVA) model includes the fixed categorical effect of treatment and the continuous covariate of baseline HbA1c.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||-0.03|-0.15|0.0023
82416839|NCT01243424|164544539|OTHER||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-9.7|-4.8|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline FPG.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||-4.8|-9.7|<0.0001
82416840|NCT01243424|164544540|OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.64|TWO_SIDED|95.47|-1.3|2.1|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline LDL cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|LDL cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||2.1|-1.3|0.6400
82416841|NCT01243424|164544540|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0497|TWO_SIDED|95.0|0.0|1.0|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline HDL cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|HDL cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||1.0|0.0|0.0497
82416842|NCT01243424|164544540|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.6823|TWO_SIDED|95.0|-2.4|1.6|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline total cholesterol.|Mean difference = Linagliptin mean - Glimepiride mean|Total cholesterol, this was the fifth step in a pre-defined hierarchical testing approach.||1.6|-2.4|0.6823
82416843|NCT01243424|164544541|OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|3.1||0.2678|TWO_SIDED|95.0|-9.6|2.7|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline FPG.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||2.7|-9.6|0.2678
82416844|NCT01243424|164544542|OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.5165|TWO_SIDED|95.0|-0.03|0.01|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline creatinine.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||0.01|-0.03|0.5165
82416845|NCT01243424|164544543|OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.4||0.5165|TWO_SIDED|95.0|0.2|1.8|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline eGFR.|Mean difference = Linagliptin mean - Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||1.8|0.2|0.5165
82416846|NCT01243424|164544544|OTHER||geometric mean (gMean) ratio (%)|0.97||||0.2921|TWO_SIDED|95.0|0.91|1.03|||ANCOVA|The ANCOVA model includes the fixed categorical effect of treatment and the continuous covariate of baseline UACR.|gMean ration= Linagliptin mean/ Glimepiride mean|This was the fifth step in a pre-defined hierarchical testing approach.||1.03|0.91|0.2921
82576574|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|-2.4||||0.008|TWO_SIDED|95.0|-6.5|-0.9|||Signed Rank|||Placebo: 5 minutes post intervention||-0.9|-6.5|0.008
82416847|NCT01243424|164544546|EQUIVALENCE|This was the fifth step in a pre-defined hierarchical testing approach.|Mean Difference (Net)|4.13||||0.8402|TWO_SIDED|95.0|-36.46|44.71|||ANCOVA|The ANCOVA model includes the fixed categorical effects of treatment and the continuous covariate of baseline ISR.|Mean difference= Linagliptin mean- Glimepiride mean|||44.71|-36.46|0.8402
82416848|NCT01243424|164544547|OTHER||Odds Ratio (OR)|1.01||||0.9112|TWO_SIDED|95.0|0.86|1.18|||Regression, Logistic|Logistic regression model with terms for treatment as a fixed effect with Wald confidence Interval was used.|Linagliptin vs. Glimepiride odds is presented.|This was the fifth step in a pre-defined hierarchical testing approach.||1.18|0.86|0.9112
82416849|NCT01160744|164544557|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.1318|TWO_SIDED|90.0|0.55|1.03|||Log Rank|||||1.03|0.55|0.1318
82416850|NCT01160744|164544557|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.5215|TWO_SIDED|90.0|0.64|1.22|||Log Rank|||||1.22|0.64|0.5215
82416851|NCT01160744|164544558|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.58||||0.1797|TWO_SIDED|90.0|0.9|2.78|||Chi-squared|||||2.78|0.90|0.1797
82416852|NCT01160744|164544558|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.66||||0.007|TWO_SIDED|90.0|1.45|4.86|||Chi-squared|||||4.86|1.45|0.0070
82416853|NCT01160744|164544559|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.8916|TWO_SIDED|90.0|0.74|1.42|||Log Rank|||||1.42|0.74|0.8916
82416854|NCT01160744|164544559|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.6847|TWO_SIDED|90.0|0.68|1.27|||Log Rank|||||1.27|0.68|0.6847
82416855|NCT01160744|164544562|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.48||||0.0316|TWO_SIDED|90.0|1.22|5.02|||Chi-squared|||||5.02|1.22|0.0316
82416856|NCT01160744|164544562|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.3962|TWO_SIDED|90.0|0.74|2.52|||Chi-squared|||||2.52|0.74|0.3962
82648032|NCT01133392|165011415|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.99|||||TWO_SIDED|90.0|0.948|1.034||||||||1.034|0.948|
82648033|NCT01133392|165011416|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|0.933|||||TWO_SIDED|90.0|0.897|0.972||||||||0.972|0.897|
82416857|NCT01160744|164544563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1571|TWO_SIDED||||||t-test, 2 sided|||||||0.1571
82416858|NCT01160744|164544563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1597|TWO_SIDED||||||t-test, 2 sided|||||||0.1597
82416859|NCT02993302|164544575|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82416860|NCT02993302|164544576|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82416861|NCT02993302|164544577|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82416862|NCT03338023|164544581|NON_INFERIORITY|Noninferiority of LY2963016 to Lantus® was demonstrated at the 0.4% noninferiority margin and over 80 percent power.|Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.32|0.08||||||||0.08|-0.32|
82416863|NCT03338023|164544582|NON_INFERIORITY|Noninferiority of Lantus® to LY2963016 was demonstrated at the 0.4% noninferiority margin.|Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.32|0.08||||||||0.08|-0.32|
82416864|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-6.8||||0.191|TWO_SIDED|95.0|-17.0|3.4|||Mixed Models Analysis|||Before Morning Meal Glucose||3.4|-17.0|0.191
82416865|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-7.8||||0.25|TWO_SIDED|95.0|-21.2|5.5|||Mixed Models Analysis|||2 Hours After Morning Meal Glucose||5.5|-21.2|0.250
82416866|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-13.1||||0.028|TWO_SIDED|95.0|-24.7|-1.5|||Mixed Models Analysis|||Before Mid-Day Meal Glucose||-1.5|-24.7|0.028
82416867|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-3.6||||0.599|TWO_SIDED|95.0|-16.8|9.7|||Mixed Models Analysis|||2 Hours After Mid-Day Meal Glucose||9.7|-16.8|0.599
82416868|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-11.0||||0.109|TWO_SIDED|95.0|-24.4|2.5|||Mixed Models Analysis|||Before Evening Meal Glucose||2.5|-24.4|0.109
82416869|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-5.4||||0.452|TWO_SIDED|95.0|-19.4|8.6|||Mixed Models Analysis|||Bedtime Glucose||8.6|-19.4|0.452
82416870|NCT03338023|164544583|SUPERIORITY||Mean Difference (Net)|-7.4||||0.18|TWO_SIDED|95.0|-18.3|3.5|||Mixed Models Analysis|||0300 Am Glucose||3.5|-18.3|0.180
82416871|NCT03338023|164544584|SUPERIORITY|||||||0.787|||||||Fisher Exact|||||||0.787
82416872|NCT03338023|164544585|SUPERIORITY|||||||0.201|||||||Fisher Exact|||||||0.201
82416873|NCT03338023|164544586|SUPERIORITY||Mean Difference (Net)|-0.3||||0.885|TWO_SIDED|95.0|-0.4|3.4|||Mixed Models Analysis|||||3.4|-0.4|0.885
82416874|NCT03338023|164544587|SUPERIORITY||Mean Difference (Net)|-3.5||||0.328|TWO_SIDED|95.0|-10.6|3.6|||Mixed Models Analysis|||Morning Pre-meal Standard Deviation||3.6|-10.6|0.328
82416875|NCT03338023|164544587|SUPERIORITY||Mean Difference (Net)|-1.7||||0.467|TWO_SIDED|95.0|-6.5|3.0|||Mixed Models Analysis|||Daily Mean Standard Deviation||3.0|-6.5|0.467
82416876|NCT03338023|164544588|SUPERIORITY||Mean Difference (Net)|-0.8||||0.09|TWO_SIDED|95.0|-1.7|0.1|||Mixed Models Analysis|||||0.1|-1.7|0.090
82416877|NCT03338023|164544589|SUPERIORITY||Mean Difference (Net)|-1.2||||0.089|TWO_SIDED|95.0|-2.6|0.2|||Mixed Models Analysis|||||0.2|-2.6|0.089
82416878|NCT03338023|164544590|SUPERIORITY||Mean Difference (Net)|-0.1||||0.77|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.770
82416879|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|-0.3||||0.879|TWO_SIDED|95.0|-3.9|3.3|||ANCOVA|||ITSQ Inconvenience of Regimen Transformed Score||3.3|-3.9|0.879
82416880|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|-0.7||||0.788|TWO_SIDED|95.0|-5.9|4.5|||ANCOVA|||ITSQ Lifestyle Flexibility Transformed Score||4.5|-5.9|0.788
82416881|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|-0.6||||0.775|TWO_SIDED|95.0|-4.5|3.3|||ANCOVA|||ITSQ Hypoglycemic Control Transformed Score||3.3|-4.5|0.775
82416882|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|1.0||||0.681|TWO_SIDED|95.0|-3.6|5.6|||ANCOVA|||ITSQ Glycemic Control Transformed Score||5.6|-3.6|0.681
82416883|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|0.4||||0.819|TWO_SIDED|95.0|-3.1|3.9|||ANCOVA|||ITSQ Insulin Delivery Device Satisfaction Transformed Score||3.9|-3.1|0.819
82416884|NCT03338023|164544591|SUPERIORITY||Mean Difference (Net)|-0.8||||0.605|TWO_SIDED|95.0|-3.9|2.3|||ANCOVA|||ITSQ Total Transformed Score||2.3|-3.9|0.605
82426572|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-1.4|-2.6|<0.0001
82648034|NCT01133392|165011417|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.005|||||TWO_SIDED|90.0|0.958|1.054||||||||1.054|0.958|
82532967|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.2|0.161|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M1||0.161|-0.200|
82532968|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.11||||90.0|-0.101|0.263|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M3||0.263|-0.101|
82532969|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.108||||90.0|-0.038|0.32|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M6||0.320|-0.038|
82532970|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.116||||90.0|-0.041|0.342|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M9||0.342|-0.041|
82532971|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.118||||90.0|-0.09|0.298|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M12||0.298|-0.090|
82532972|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|STANDARD_ERROR_OF_MEAN|0.125||||90.0|-0.132|0.279|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M15||0.279|-0.132|
82532973|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.12||||90.0|-0.111|0.284|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M18||0.284|-0.111|
82532974|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.141|0.27|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M21||0.270|-0.141|
82532975|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.123||||90.0|-0.156|0.249|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M24||0.249|-0.156|
82532976|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.138|0.272|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M27||0.272|-0.138|
82532977|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.132||||90.0|-0.171|0.264|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M30||0.264|-0.171|
82532978|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.824|STANDARD_ERROR_OF_MEAN|8.319||||90.0|-3.92|23.569|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M33||23.569|-3.920|
82576575|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|-6.6||||0.08|TWO_SIDED|95.0|-10.1|-2.2|||Signed Rank|||Placebo: 30 minutes post-intervention||-2.2|-10.1|0.080
82576576|NCT05239598|164863372|SUPERIORITY||Median Difference (Net)|-8.6||||0.001|TWO_SIDED|95.0|-22.3|-3.9|||Signed Rank|||Placebo: 60 minutes post-intervention||-3.9|-22.3|0.001
82532979|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.197||||90.0|-0.316|0.337|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext M36||0.337|-0.316|
82532980|NCT00136916|164763709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.163||||90.0|-0.245|0.292|||||Adjusted Primary Analysis Model includes terms of treatment, baseline HbA1c, and center.|Ext FU M3||0.292|-0.245|
82532981|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.39|STANDARD_ERROR_OF_MEAN|4.054||||90.0|-19.07|-5.71|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M3||-5.710|-19.07|
82532982|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.21|STANDARD_ERROR_OF_MEAN|4.795||||90.0|-22.11|-6.312|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M6||-6.312|-22.11|
82532983|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.96|STANDARD_ERROR_OF_MEAN|4.92||||90.0|-19.07|-2.852|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M12||-2.852|-19.07|
82532984|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.56|STANDARD_ERROR_OF_MEAN|5.052||||90.0|-20.89|-4.232|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|M24||-4.232|-20.89|
82532985|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.83|STANDARD_ERROR_OF_MEAN|21.867||||90.0|-80.69|47.019|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|FU M3||47.019|-80.69|
82532986|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.578|STANDARD_ERROR_OF_MEAN|7.173||||90.0|-9.257|14.412|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|FU M6||14.412|-9.257|
82532987|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.46|STANDARD_ERROR_OF_MEAN|6.007||||90.0|-19.37|0.45|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M1||0.450|-19.37|
82532988|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.481|STANDARD_ERROR_OF_MEAN|6.446||||90.0|-20.11|1.153|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M3||1.153|-20.11|
82532989|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.76|STANDARD_ERROR_OF_MEAN|6.785||||90.0|-21.95|0.438|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M6||0.438|-21.95|
82532990|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.827|STANDARD_ERROR_OF_MEAN|6.154||||90.0|-16.98|3.328|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M9||3.328|-16.98|
82532991|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.287|STANDARD_ERROR_OF_MEAN|7.192||||90.0|-19.15|4.579|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M12||4.579|-19.15|
82532992|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.848|STANDARD_ERROR_OF_MEAN|7.219||||90.0|-13.76|10.066|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M15||10.066|-13.76|
82576577|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|3.1||||0.212|TWO_SIDED|95.0|-2.2|5.8|||Signed Rank|||Povidone-iodine 5 minutes post-intervention||5.8|-2.2|0.212
82576578|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|1.8||||0.334|TWO_SIDED|95.0|-2.3|6.9|||Signed Rank|||Povidone-iodine 30 minutes post-intervention||6.9|-2.3|0.334
82416885|NCT05064800|164544660|OTHER||Ratio of Adjusted Geometric Means|233.06|||||TWO_SIDED|90.0|172.14|315.54|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed Cmax of dabigatran was analyzed using mixed effect model with treatment, period, sequence as fixed effects; participant within sequence as a random effect. Estimates of the adjusted mean differences(AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||315.54|172.14|
82416886|NCT05064800|164544661|OTHER||Ratio of Adjusted Geometric Means|169.07|||||TWO_SIDED|90.0|135.25|211.35|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed AUCinf of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||211.35|135.25|
82416887|NCT05064800|164544662|OTHER||Ratio of Adjusted Geometric Means|160.05|||||TWO_SIDED|90.0|119.19|214.9|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 2 was Test. Natural log-transformed AUClast of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model.The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||214.90|119.19|
82416888|NCT05064800|164544663|OTHER||Ratio of Adjusted Geometric Means|171.91|||||TWO_SIDED|90.0|127.51|231.77|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed Cmax of dabigatran was analyzed using mixed effect model with treatment, period, sequence as fixed effects; participant within sequence as a random effect. Estimates of the adjusted mean differences(AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||231.77|127.51|
82416889|NCT05064800|164544664|OTHER||Ratio of Adjusted Geometric Means|169.07|||||TWO_SIDED|90.0|135.25|211.35|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed AUCinf of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||211.35|135.25|
82416890|NCT05064800|164544665|OTHER||Ratio of Adjusted Geometric Means|160.05|||||TWO_SIDED|90.0|119.19|214.9|||Mixed Models Analysis|||Treatment 1 was Reference and Treatment 3 was Test. Natural log-transformed AUClast of dabigatran was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences(AMD)(Test-Reference) and 90%CIs were obtained from the model.The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means(Test/Reference) and 90%CI for the ratios.||214.90|119.19|
82416891|NCT01181128|164544685|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.05|0.13|||negative binomial model|||The null hypothesis for the primary endpoint is no difference between the individualized (tailored) prophylaxis regimen and the on-demand regimen. The sample size of this study was mainly based on clinical rather than statistical considerations. However it was projected to have \> 90% power at the 2-sided 0.05 level of significance to detect a 60% reduction in annualized bleeding episodes, based upon this hypothesis test.||0.13|0.05|<0.001
82416892|NCT01181128|164544691|SUPERIORITY_OR_OTHER_LEGACY||Bleeding Rate Ratio|0.24|||<|0.001|TWO_SIDED|95.0|0.12|0.46|||negative binomial model|||||0.46|0.12|<0.001
82532993|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.022|STANDARD_ERROR_OF_MEAN|7.156||||90.0|-20.83|2.79|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M18||2.790|-20.83|
82532994|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.078|STANDARD_ERROR_OF_MEAN|7.217||||90.0|-18.99|4.834|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M21||4.834|-18.99|
82532995|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.53|STANDARD_ERROR_OF_MEAN|7.329||||90.0|-24.63|-0.429|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M24||-0.429|-24.63|
82532996|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.07|STANDARD_ERROR_OF_MEAN|6.895||||90.0|-30.45|-7.685|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M27||-7.685|-30.45|
82416893|NCT04477486|164544738|SUPERIORITY|Comparing against a historical reference of 12.5% CRR.|||||<|0.001|||||||Exact Binomial Distribution|||||||<0.001
82416894|NCT01543503|164544784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.851|||<|0.001|TWO_SIDED|95.0|-1.112|-0.589|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor: Analysis is based on an analysis of covariance (ANCOVA) model with change from baseline in DAS28-ESR at 24 weeks as dependent variable; therapy, site country, and treatment as fixed effects; DAS28-ESR at baseline as covariates.||-0.589|-1.112|<0.001
82416895|NCT01543503|164544785|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91|||<|0.001|TWO_SIDED|95.0|-1.204|-0.617|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor: Analysis is based on an ANCOVA model with change from baseline to 12 months in DAS28-ESR as dependent variable; therapy and treatment as fixed effects; DAS28-ESR at baseline as covariates.||-0.617|-1.204|<0.001
82416896|NCT01543503|164544786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.23|||<|0.001|TWO_SIDED|95.0|-15.513|-10.947|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for ESR at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in ESR as a dependent variable; therapy and treatment as fixed effects; ESR at baseline as the covariate.||-10.947|-15.513|<0.001
82532997|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.22|STANDARD_ERROR_OF_MEAN|7.223||||90.0|-15.15|8.705|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M30||8.705|-15.15|
82532998|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49|STANDARD_ERROR_OF_MEAN|7.625||||90.0|-21.09|4.107|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M33||4.107|-21.09|
82576579|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|1.5||||0.269|TWO_SIDED|95.0|-3.1|6.8|||Signed Rank|||Povidone-iodine 60 minutes post-intervention||6.8|-3.1|0.269
82576580|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|-4.1||||0.026|TWO_SIDED|95.0|-7.1|-0.7|||Signed Rank|||Placebo 5 minutes post-intervention||-0.7|-7.1|0.026
82576581|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|-0.7||||0.182|TWO_SIDED|95.0|-9.4|2.0|||Signed Rank|||Placebo 30 minutes post-intervention||2.0|-9.4|0.182
82576582|NCT05239598|164863373|SUPERIORITY||Median Difference (Net)|-3.6||||0.353|TWO_SIDED|95.0|-7.7|4.0|||Signed Rank|||Placebo 60 minutes post-intervention||4.0|-7.7|0.353
82576583|NCT03238963|164863397|OTHER||Risk Difference (RD)|0.057|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|-0.053|0.192|||Chan and Zhang method|95% confidence interval was calculating using the Chan and Zhang method.|Risk difference of BI 1467335 10 milligram (mg) group minus Placebo group.|||0.192|-0.053|
82576584|NCT01424813|164863449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.128|<|0.0001|TWO_SIDED|95.0|0.57|1.08||Significance at the 0.05 level.|mixed-model repeated-measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.08|0.57|<0.0001
82576585|NCT01424813|164863450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|STANDARD_ERROR_OF_MEAN|0.198|<|0.0001|TWO_SIDED|95.0|0.68|1.46||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.46|0.68|<0.0001
82576586|NCT01424813|164863465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.164|<|0.0001|TWO_SIDED|95.0|0.41|1.06||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||1.06|0.41|<0.0001
82576587|NCT01424813|164863466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|0.38|0.99||To adjust for multiplicity, so that the overall alpha level for all tests was controlled at the 0.05 level, tests were done sequentially \[day 1, then day 8, then day 85\] and terminated if individual results were not significant at the 0.05 level.|mixed model repeated measures (MMRM)|Fixed effects- pooled center, treatment group, study day, and study day by drug interaction, with baseline measured at each study day as covariate.||||0.99|0.38|<0.0001
82576588|NCT01681277|164863487|SUPERIORITY_OR_OTHER||Slope|1.2208|STANDARD_ERROR_OF_MEAN|0.1386|||TWO_SIDED|95.0|0.9354|1.5062|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope"|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 for Cmax,ss was analysed.||1.5062|0.9354|
82576589|NCT01681277|164863489|SUPERIORITY_OR_OTHER||Slope|1.3135|STANDARD_ERROR_OF_MEAN|0.1206|||TWO_SIDED|95.0|1.0652|1.5618|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope"|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 for AUCt,ss was analysed.||1.5618|1.0652|
82576590|NCT03838731|164863493|SUPERIORITY||Hazard Ratio (HR)|0.36|||=|0.0083|TWO_SIDED|95.0|0.17|0.77|||Cox Proportional Hazard|||||0.77|0.17|= 0.0083
82576591|NCT03838731|164863494|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.12|0.48|||Cox Hazard Model|||Day 29||0.48|0.12|< 0.0001
82576592|NCT03838731|164863494|SUPERIORITY||Hazard Ratio (HR)|0.45|||=|0.0222||95.0|0.22|0.89|||Cox Hazard Model|||Day 57||0.89|0.22|= 0.0222
82576593|NCT03838731|164863494|SUPERIORITY||Hazard Ratio (HR)|0.27|||=|0.0003||95.0|0.13|0.56|||Cox Hazard Model|||Day 85||0.56|0.13|= 0.0003
82576594|NCT03838731|164863495|SUPERIORITY|Day 8|LS Mean Difference|13.56|STANDARD_ERROR_OF_MEAN|3.59|<|0.001|TWO_SIDED|95.0|6.35|20.77|||MMRM|||||20.77|6.35|<0.001
82576595|NCT03838731|164863495|SUPERIORITY|Day 29|LS Mean Difference|16.21|STANDARD_ERROR_OF_MEAN|4.97|=|0.002|TWO_SIDED|95.0|6.18|26.24|||MMRM|||||26.24|6.18|= 0.002
82576596|NCT03838731|164863495|SUPERIORITY|Day 57|LS Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|4.94|=|0.016|TWO_SIDED|95.0|2.4|22.2|||MMRM|||||22.20|2.40|= 0.016
82576597|NCT03838731|164863495|SUPERIORITY|Day 85|LS Mean Difference|12.54|STANDARD_ERROR_OF_MEAN|4.54|=|0.008|TWO_SIDED|95.0|3.43|21.65|||MMRM|||||21.65|3.43|= 0.008
82576598|NCT03838731|164863496|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.21|0.53|||MMRM|||Day 8||0.53|0.21|< 0.001
82576599|NCT03838731|164863496|SUPERIORITY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.23|0.68|||MMRM|||Day 29||0.68|0.23|<0.001
82576600|NCT03838731|164863496|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|0.13|0.55|||MMRM|||Day 57||0.55|0.13|= 0.002
82576601|NCT03838731|164863496|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.11|=|0.002|TWO_SIDED|95.0|0.15|0.47|||MMRM|||Day 85||0.47|0.15|= 0.002
82576602|NCT03838731|164863497|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.53|=|0.675|TWO_SIDED|95.0|-0.85|1.29|||MMRM|||Day 8||1.29|-0.85|= 0.675
82576603|NCT03838731|164863497|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.51|=|0.182|TWO_SIDED|95.0|-1.7|0.33|||MMRM|||Day 29||0.33|-1.70|= 0.182
82576604|NCT03838731|164863497|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61|=|0.866|TWO_SIDED|95.0|-1.12|1.32|||MMRM|||Day 57||1.32|-1.12|= 0.866
82576605|NCT03838731|164863497|SUPERIORITY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.6|=|0.146|TWO_SIDED|95.0|-2.08|0.32|||MMRM|||Day 85||0.32|-2.08|= 0.146
82576606|NCT03838731|164863498|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.24|=|0.572|TWO_SIDED|95.0|-0.35|0.63|||MMRM|||Day 8||0.63|-0.35|= 0.572
82576607|NCT03838731|164863498|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2|=|0.997|TWO_SIDED|95.0|-0.41|0.41|||MMRM|||Day 29||0.41|-0.41|= 0.997
82416897|NCT01543503|164544786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.648|||<|0.001|TWO_SIDED|95.0|-15.419|-9.876|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for ESR at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in ESR, as the dependent variable; therapy and treatment as fixed effects; ESR at baseline as the covariate.||-9.876|-15.419|<0.001
82416898|NCT01543503|164544787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.673|||<|0.001|TWO_SIDED|95.0|-10.271|-3.074|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CRP at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in CRP as a dependent variable; therapy and treatment as fixed effects; CRP at baseline as the covariate.||-3.074|-10.271|<0.001
82416899|NCT01543503|164544787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.116||||0.659|TWO_SIDED|95.0|-6.074|3.842|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CRP at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in CRP as the dependent variable; therapy and treatment as fixed effects; CRP at baseline as the covariate.||3.842|-6.074|0.659
82416900|NCT01543503|164544788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.576||||0.024|TWO_SIDED|95.0|-1.078|-0.075|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SJC at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in SJC as the dependent variable; therapy and treatment as fixed effects; SJC at baseline as the covariate.||-0.075|-1.078|0.024
82416901|NCT01543503|164544788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.752||||0.002|TWO_SIDED|95.0|-1.238|-0.267|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SJC at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in SJC, as the dependent variable; therapy and treatment as fixed effects; SJC, at baseline as the covariate.||-0.267|-1.238|0.002
82416902|NCT01543503|164544789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.62||||0.123|TWO_SIDED|95.0|-1.408|0.169|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for TJC at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in TJC as the dependent variable; therapy and treatment as fixed effects; TJC at baseline as the covariate.||0.169|-1.408|0.123
82416903|NCT01543503|164544789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.216||||0.004|TWO_SIDED|95.0|-2.039|-0.393|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for TJC at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in TJC as the dependent variable; therapy and treatment as fixed effects; TJC at baseline as the covariate.||-0.393|-2.039|0.004
82532999|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.88|STANDARD_ERROR_OF_MEAN|8.906||||90.0|-36.66|-7.105|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext M36||-7.105|-36.66|
82533000|NCT00136916|164763710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.673|STANDARD_ERROR_OF_MEAN|8.77||||90.0|-19.16|9.812|||||Adjusted Primary Analysis Model includes terms of treatment, baseline fasting plasma glucose, and center.|Ext FU M3||9.812|-19.16|
82533001|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059|STANDARD_ERROR_OF_MEAN|0.217||||90.0|-0.416|0.299|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M3||0.299|-0.416|
82533002|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.735|STANDARD_ERROR_OF_MEAN|0.297||||90.0|-1.224|-0.246|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M6||-0.246|-1.224|
82648035|NCT01133392|165011418|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-0.4|0.5||||||||0.500|-0.400|
82648036|NCT01133392|165011419|SUPERIORITY_OR_OTHER||Ratio of geometric least square means|1.014|||||TWO_SIDED|90.0|0.961|1.07||||||||1.070|0.961|
82416904|NCT01543503|164544790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.475|||<|0.001|TWO_SIDED|95.0|-5.481|-1.469|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CDAI score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in CDAI the dependent variable; therapy and treatment as fixed effects; CDAI at baseline as the covariate.||-1.469|-5.481|<0.001
82416905|NCT01543503|164544790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.6|||<|0.001|TWO_SIDED|95.0|-6.708|-2.492|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for CDAI score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in CDAI as the dependent variable; therapy and treatment as fixed effects; CDAI at baseline as the covariate.||-2.492|-6.708|<0.001
82416906|NCT01543503|164544790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.229||||0.014|TWO_SIDED|95.0|-5.806|-0.652|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SDAI score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in SDAI as the dependent variable; therapy and treatment as fixed effects; SDAI at baseline as the covariate.||-0.652|-5.806|0.014
82416907|NCT01543503|164544790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.245||||0.027|TWO_SIDED|95.0|-6.121|-0.37|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for SDAI score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in SDAI as the dependent variable; therapy and treatment as fixed effects; SDAI at baseline as the covariate.||-0.370|-6.121|0.027
82416908|NCT01543503|164544791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.03|||<|0.001|TWO_SIDED|95.0|-12.655|-5.404|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Physician Global Assessment score at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in Physician Global Assessment of Disease Activity as the dependent variable; therapy and treatment as fixed effects; Physician Global Assessment of Disease Activity at baseline as covariates.||-5.404|-12.655|<0.001
82533003|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.642|STANDARD_ERROR_OF_MEAN|0.37||||90.0|-1.251|-0.032|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M12||-0.032|-1.251|
82533004|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.355|STANDARD_ERROR_OF_MEAN|0.464||||90.0|-2.12|-0.589|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|M24||-0.589|-2.120|
82533005|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.303|STANDARD_ERROR_OF_MEAN|0.475||||90.0|-2.086|-0.52|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|FU M3||-0.520|-2.086|
82533006|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.557|STANDARD_ERROR_OF_MEAN|0.596||||90.0|-2.539|-0.575|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|FU M6||-0.575|-2.539|
82416909|NCT01543503|164544791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.237|||<|0.001|TWO_SIDED|95.0|-14.13|-6.345|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Physician Global Assessment score at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in Physician Global Assessment of Disease Activity as the dependent variable; therapy and treatment as fixed effects; Physician Global Assessment of Disease Activity at baseline as covariates.||-6.345|-14.130|<0.001
82416910|NCT01543503|164544795|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
82416911|NCT01543503|164544799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.146||||0.02|TWO_SIDED|95.0|-0.269|-0.024|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in HAQ-DI as dependent variable; therapy and treatment as fixed effects; HAQ-DI at baseline as covariates.||-0.024|-0.269|0.020
82416912|NCT01543503|164544799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.164||||0.02|TWO_SIDED|95.0|-0.301|-0.026|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in HAQ-DI as dependent variable; therapy and treatment as fixed effects; HAQ-DI at baseline as covariates.||-0.026|-0.301|0.020
82416913|NCT01543503|164544800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.893||||0.032|TWO_SIDED|95.0|-7.457|-0.329|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in FACIT-F score as dependent variable; therapy and treatment as fixed effects; FACIT-F score at baseline as covariates.||-0.329|-7.457|0.032
82416914|NCT01543503|164544800|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.787||||0.168|TWO_SIDED|95.0|-6.763|1.189|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor for Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in FACIT-F score as dependent variable; therapy and treatment as fixed effects; FACIT-F score at baseline as covariates.||1.189|-6.763|0.168
82416915|NCT01543503|164544801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.661||||0.009|TWO_SIDED|95.0|-9.912|-1.411|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in participant's VAS score as dependent variable; therapy and treatment as fixed effects; participant's VAS score at baseline as covariates.||-1.411|-9.912|0.009
82576608|NCT03838731|164863498|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.21|=|0.756|TWO_SIDED|95.0|-0.36|0.49|||MMRM|||Day 57||0.49|-0.36|= 0.756
82576609|NCT03838731|164863498|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.15|=|0.333|TWO_SIDED|95.0|-0.46|0.16|||MMRM|||Day 85||0.16|-0.46|= 0.333
82576610|NCT03838731|164863499|SUPERIORITY||LS Mean Difference|39.5|STANDARD_ERROR_OF_MEAN|12.5|=|0.003|TWO_SIDED|95.0|14.36|64.65|||MMRM|||Day 8||64.65|14.36|= 0.003
82576611|NCT03838731|164863499|SUPERIORITY||LS Mean Difference|54.07|STANDARD_ERROR_OF_MEAN|11.97|<|0.001|TWO_SIDED|95.0|30.01|78.12|||MMRM|||Day 29||78.12|30.01|< 0.001
82416916|NCT01543503|164544801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.802|||<|0.001|TWO_SIDED|95.0|-14.245|-5.36|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in participant's VAS score as dependent variable; therapy and treatment as fixed effects; participant's VAS score at baseline as covariates.||-5.360|-14.245|<0.001
82416917|NCT01543503|164544803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.108||||0.01|TWO_SIDED|95.0|-9.017|-1.2|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 24: Analysis is based on an ANCOVA model with change from baseline to 6 months in Patient's Global Assessment of Disease as dependent variable; therapy and treatment as fixed effects; Patient's Global Assessment of Disease at baseline as covariates.||-1.200|-9.017|0.010
82416918|NCT01543503|164544803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.767|||<|0.001|TWO_SIDED|95.0|-12.161|-3.372|||ANCOVA|||Treatment Difference between Tocilizumab and TNF inhibitor at Week 52: Analysis is based on an ANCOVA model with change from baseline to 12 months in Patient's Global Assessment of Disease as dependent variable; therapy and treatment as fixed effects; Patient's Global Assessment of Disease at baseline as covariates.||-3.372|-12.161|<0.001
82416919|NCT00395512|164544812|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.78|-0.33||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||The primary efficacy variable was defined as change from Baseline in HbA1c level at Week 26. The null hypothesis was that the average change from Baseline in HbA1c at Week 26 for the A25 + P30 group would be equal to the average changes for the P30 alone and A25 alone groups; further, under the null hypothesis, the average change from Baseline in HbA1c at Week 26 for the A12.5 + P30 group was equal to the average change for the P30 alone group.||-0.33|-0.78|<0.001
82416920|NCT00395512|164544812|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||||-0.53|-0.98|<0.001
82416921|NCT00395512|164544812|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.63|-0.18||ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.|ANCOVA|||||-0.18|-0.63|<0.001
82576612|NCT03838731|164863499|SUPERIORITY||LS Mean Difference|33.44|STANDARD_ERROR_OF_MEAN|14.28|=|0.023|TWO_SIDED|95.0|4.79|62.08|||MMRM|||Day 57||62.08|4.79|= 0.023
82576613|NCT03838731|164863499|SUPERIORITY||LS Mean Difference|41.1|STANDARD_ERROR_OF_MEAN|12.92|=|0.003|TWO_SIDED|95.0|15.1|67.09|||MMRM|||Day 85||67.09|15.10|= 0.003
82576614|NCT03838731|164863500|SUPERIORITY||LS Mean Difference|205.43|STANDARD_ERROR_OF_MEAN|102.09|=|0.049|TWO_SIDED|95.0|0.69|410.17|||MMRM|||Day 8||410.17|0.69|= 0.049
82576615|NCT03838731|164863500|SUPERIORITY||LS Mean Difference|244.6|STANDARD_ERROR_OF_MEAN|99.05|=|0.017|TWO_SIDED|95.0|45.6|443.59|||MMRM|||Day 29||443.59|45.60|= 0.017
82576616|NCT03838731|164863500|SUPERIORITY||LS Mean Difference|183.03|STANDARD_ERROR_OF_MEAN|96.91|=|0.064|TWO_SIDED|95.0|-11.29|377.35|||MMRM|||Day 57||377.35|-11.29|= 0.064
82576617|NCT03838731|164863500|SUPERIORITY||LS Mean Difference|241.01|STANDARD_ERROR_OF_MEAN|114.0|=|0.039|TWO_SIDED|95.0|12.44|469.57|||MMRM|||Day 85||469.57|12.44|= 0.039
82648037|NCT00500656|165011440|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.475|||<|0.001|TWO_SIDED|95.0|1.901|6.355|||The Wilcoxon version of the log rank|The median time to onset was calculated using Kaplan Meier methodology. The Wilcoxon version of the log rank test of SAS was used||||6.355|1.901|< 0.001
82416922|NCT00395512|164544813|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33||||0.003|TWO_SIDED|95.0|-0.55|-0.12|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Pioglitazone 30 mg and Alogliptin 12.5 mg + Pioglitazone 30 mg.||-0.12|-0.55|0.003
82416923|NCT00395512|164544813|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Pioglitazone 30 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-0.30|-0.74|<0.001
82416924|NCT00395512|164544813|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-0.94|-0.51|||ANCOVA|ANCOVA model with treatment and geographic region as class variables and baseline HbA1c as a covariate.||Comparison of change from Baseline at Week 20 between Alogliptin 25 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-0.51|-0.94|<0.001
82647103|NCT00289731|165009287|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus Engerix-B+Havrix Group), in terms of seropositivity rates for anti-HAV antibody, being - 10%.|Difference in seropositivity rate|-1.66|||||TWO_SIDED|95.0|-5.34|1.48||||||Difference in seropositivity rates against hepatitis A virus (HAV) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines Engerix-B at Months 0, 1 and 6 and Havrix at Months 0 and 6 (Engerix-B+Havrix Group), in terms of anti-HAV seropositivity rates, at Month 7.||1.48|-5.34|
82416925|NCT00395512|164544814|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.2||||0.017|TWO_SIDED|95.0|-20.3|-2.0|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Pioglitazone 30 mg and Alogliptin 12.5 mg + Pioglitazone 30 mg.||-2.0|-20.3|0.017
82416926|NCT00395512|164544814|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.9||||0.006|TWO_SIDED|95.0|-22.0|-3.8|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Pioglitazone 30 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-3.8|-22.0|0.006
82416927|NCT00395512|164544814|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.5|||<|0.001|TWO_SIDED|95.0|-33.5|-15.4|||ANCOVA|P-value is from an ANCOVA model with treatment and geographic region as class variables and Baseline fasting plasma glucose as covariate.||Comparison of change from Baseline in fasting plasma glucose at Week 26 between Alogliptin 25 mg and Alogliptin 25 mg + Pioglitazone 30 mg.||-15.4|-33.5|<0.001
82416928|NCT02618187|164544861|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.766|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.766
82533007|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.904|STANDARD_ERROR_OF_MEAN|0.603||||90.0|-1.898|0.09|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M1||0.090|-1.898|
82648038|NCT00500656|165011441|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||The Wilcoxon version of the log rank|The median time to almost complete symptom relief was calculated using Kaplan Meier methodology.The Wilcoxon version of the log rank test SAS was used||||||< 0.001
82416929|NCT02618187|164544861|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.037|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.037
82416930|NCT02618187|164544861|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.313|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.313
82416931|NCT02618187|164544861|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.384|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.384
82416932|NCT02618187|164544861|OTHER|Null hypothesis: the two groups compared show no difference in mean ranks Alternative hypothesis: the two groups compared show a difference in mean ranks||||||0.237|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.237
82416933|NCT02618187|164544862|SUPERIORITY|Weekly SER-287, after Placebo Pre-Treat. tested against Daily placebo, after Placebo Pre-Treat., for superiority||||||0.257|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.257
82416934|NCT02618187|164544862|SUPERIORITY|Daily SER-287, After Vanco. Pre-Treat. tested against Daily Placebo, After Placebo Pre-Treat., for superiority||||||0.001|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.001
82416935|NCT02618187|164544862|SUPERIORITY|Weekly SER-287, After Vanco. Pre-Treat. tested against Daily Placebo, After Placebo Pre-Treat., for superiority||||||0.001|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.001
82416936|NCT02618187|164544862|SUPERIORITY|Weekly SER-287, After Vanco. Pre-Treat. tested against Weekly SER-287, After Placebo Pre-Treat., for superiority||||||0.009|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.009
82416937|NCT02618187|164544862|SUPERIORITY|Daily SER-287, After Vanco. Pre-Treat., tested against Weekly SER-287, After Vanco. Pre-Treat., for superiority||||||0.168|||||||Wilcoxon (Mann-Whitney)|1-sided||||||0.168
82416938|NCT02618187|164544863|SUPERIORITY||Rate difference (SER-287 - placebo)|13.3||||0.4923|TWO_SIDED|95.0|-3.87|30.54|||Fisher Exact|||||30.54|-3.87|0.4923
82416939|NCT02618187|164544863|SUPERIORITY||Rate difference (SER-287 - placebo)|40.0||||0.0237|TWO_SIDED|95.0|15.21|64.79|||Fisher Exact|||||64.79|15.21|0.0237
82416940|NCT02618187|164544863|SUPERIORITY||Rate difference (SER-287 - placebo)|17.6||||0.2579|TWO_SIDED|95.0|-0.47|35.77|||Fisher Exact|||||35.77|-0.47|0.2579
82416941|NCT02618187|164544864|SUPERIORITY||Rate difference (SER-287 - placebo)|24.2||||0.1973|TWO_SIDED|95.0|-5.04|53.53|||Fisher Exact|||||53.53|-5.04|0.1973
82416942|NCT02618187|164544864|SUPERIORITY||Rate difference (SER-287 - placebo)|30.9||||0.1783|TWO_SIDED|95.0|0.86|60.96|||Fisher Exact|||||60.96|0.86|0.1783
82416943|NCT02618187|164544864|SUPERIORITY||Rate difference (SER-287 - placebo)|14.4||||0.6195|TWO_SIDED|95.0|-11.93|40.81|||Fisher Exact|||||40.81|-11.93|0.6195
82533008|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.573||||90.0|-2.225|-0.334|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M3||-0.334|-2.225|
82533009|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.834|STANDARD_ERROR_OF_MEAN|0.652||||90.0|-1.909|0.241|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M6||0.241|-1.909|
82647104|NCT00289731|165009287|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus HB VAX PRO+Vaqta Group), in terms of seropositivity rates for anti-HAV antibody, being - 10%.|Difference in seropositivity rate|-1.63|||||TWO_SIDED|95.0|-5.31|1.6||||||Difference in seropositivity rates against hepatitis A virus (HAV) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines HB VAX PRO at Months 0, 1 and 6 and Vaqta at Months 0 and 6 (HB VAX PRO+Vaqta Group), in terms of anti-HAV seropositivity rates, at Month 7.||1.60|-5.31|
82648039|NCT05788237|165011453|OTHER||GMR|0.84|||||TWO_SIDED|95.0|0.662|1.062||||||GMR for RSV A: RSVpreF + qIRV combination to RSVpreF alone.||1.062|0.662|
82648040|NCT05788237|165011453|OTHER||GMR|0.79|||||TWO_SIDED|95.0|0.614|1.013||||||GMR for RSV B: RSVpreF + qIRV combination to RSVpreF alone.||1.013|0.614|
82416944|NCT00514917|164544897|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0501|TWO_SIDED|95.0|1.0|1.65||A priori threshold for statistical significance = 0.05|Log Rank|P-value was not adjusted for multiplicity of tests.|The hazard ratio Leuprolide+Bicalutamide vs. Docetaxel+Leuprolide+Bicalutamide was estimated using an un-stratified Cox proportional hazards model. A hazard ratio \>1 indicates a lower risk of Docetaxel+Leuprolide, compared to Leuprolide.|"Null hypothesis: No difference between new treatment combination (Docetaxel+Leuprolide+Bicalutamide) and conventional treatment (Leuprolide+Bicalutamide).~The study was sized to have 90% power to detect a difference between treatment arms at a 2-sided 0.05 significance level with 186 events and anticipating 10% non-evaluable participants."||1.65|1.00|0.0501
82416945|NCT01222351|164544909|EQUIVALENCE|The null hypothesis was that there is no difference in the rate of cognitive decline between participants with and without amyloid.|Slope|-0.034||||0.02|TWO_SIDED||||||latent growth curve model|Latent growth curve models tested cognitive decline rate by amyloid status.|B weights were the estimates for the association between Aβ and cognitive change.|||||0.02
82533010|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.001|STANDARD_ERROR_OF_MEAN|0.654||||90.0|-2.08|0.078|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M9||0.078|-2.080|
82533011|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.316|STANDARD_ERROR_OF_MEAN|0.676||||90.0|-2.431|-0.2|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M12||-0.200|-2.431|
82533012|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.512|STANDARD_ERROR_OF_MEAN|0.696||||90.0|-2.661|-0.363|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M15||-0.363|-2.661|
82533013|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.313|STANDARD_ERROR_OF_MEAN|0.916||||90.0|-2.824|0.198|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M18||0.198|-2.824|
82533014|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.399|STANDARD_ERROR_OF_MEAN|0.904||||90.0|-3.891|-0.907|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M21||-0.907|-3.891|
82533015|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.566|STANDARD_ERROR_OF_MEAN|0.788||||90.0|-2.867|-0.265|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M24||-0.265|-2.867|
82533016|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|1.041||||90.0|-4.439|-1.001|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M27||-1.001|-4.439|
82533017|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.401|STANDARD_ERROR_OF_MEAN|0.82||||90.0|-2.755|-0.047|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M30||-0.047|-2.755|
82533018|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.281|STANDARD_ERROR_OF_MEAN|0.908||||90.0|-3.781|-0.782|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M33||-0.782|-3.781|
82533019|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.766|STANDARD_ERROR_OF_MEAN|1.305||||90.0|-4.932|-0.599|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext M36||-0.599|-4.932|
82533020|NCT00136916|164763711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.637|STANDARD_ERROR_OF_MEAN|0.898||||90.0|-3.12|-0.153|||||Adjusted Primary Analysis Model includes terms of treatment, baseline weight, and center.|Ext FU M3||-0.153|-3.120|
82533021|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.13||||90.0|-0.466|-0.037|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M3||-0.037|-0.466|
82533022|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.095|STANDARD_ERROR_OF_MEAN|0.139||||90.0|-0.323|0.134|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M6||0.134|-0.323|
82533023|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.146||||90.0|-0.158|0.325|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M9||0.325|-0.158|
82533024|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.156||||90.0|-0.524|-0.009|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M12||-0.009|-0.524|
82533025|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.181|STANDARD_ERROR_OF_MEAN|0.165||||90.0|-0.453|0.091|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M15||0.091|-0.453|
82533026|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141|STANDARD_ERROR_OF_MEAN|0.173||||90.0|-0.427|0.145|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M18||0.145|-0.427|
82533027|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.155|STANDARD_ERROR_OF_MEAN|0.176||||90.0|-0.445|0.134|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M21||0.134|-0.445|
82533028|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.189||||90.0|-0.193|0.431|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|M24||0.431|-0.193|
82533029|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.617|STANDARD_ERROR_OF_MEAN|0.179||||90.0|0.322|0.911|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M1||0.911|0.322|
82416946|NCT03193307|164544934|OTHER||Geometric Mean (T1/R1) ratio (%)|153.2|||||TWO_SIDED|90.0|134.34|174.7|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) =21.4."|||174.70|134.34|
82416947|NCT03193307|164544935|OTHER||Geometric Mean (T1/R1) ratio (%)|115.91|||||TWO_SIDED|90.0|104.559|128.502|||||"Analysis of variance (ANOVA) including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 16.7."|||128.502|104.559|
82416948|NCT03193307|164544936|OTHER||Geometric Mean (T2/R2) ratio (%)|104.82|||||TWO_SIDED|90.0|102.092|107.613|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) =4.3."|||107.613|102.092|
82416949|NCT03193307|164544937|OTHER||Geometric Mean (T2/R2) ratio (%)|102.77|||||TWO_SIDED|90.0|100.66|104.92|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 3.3."|||104.92|100.66|
82416950|NCT03193307|164544938|OTHER||Geometric Mean (T2/R2) ratio (%)|114.12|||||TWO_SIDED|90.0|109.266|119.183|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\])=7.0."|||119.183|109.266|
82416951|NCT03193307|164544939|OTHER||Geometric Mean (T2/R2) ratio (%)|110.7|||||TWO_SIDED|90.0|105.8|115.83|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 7.3."|||115.83|105.80|
82416952|NCT03193307|164544940|OTHER||Geometric Mean (T1/R1) ratio (%)|154.15|||||TWO_SIDED|90.0|133.81|177.58|||||"Analysis of variance (ANOVA) model including random effect for 'subject' and fixed effect for 'treatment' was used.~Intra-individual geometric coefficient of variation (gCV \[%\]) = 22.4."|||177.58|133.81|
82416953|NCT04560309|164544953|SUPERIORITY|||||||0.993||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.993
82416954|NCT04560309|164544954|SUPERIORITY|||||||0.883||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.883
82416955|NCT04560309|164544955|SUPERIORITY|||||||0.034||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.034
82416956|NCT04560309|164544956|SUPERIORITY|||||||0.038||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.038
82533030|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354|STANDARD_ERROR_OF_MEAN|0.184||||90.0|0.051|0.657|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M3||0.657|0.051|
82533031|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.186||||90.0|0.011|0.626|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|FU M6||0.626|0.011|
82416957|NCT04560309|164544957|SUPERIORITY|||||||0.423||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.423
82416958|NCT04560309|164544958|SUPERIORITY|||||||0.216||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.216
82416959|NCT04560309|164544959|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.001
82648041|NCT05788237|165011454|OTHER||GMR|0.81|||||TWO_SIDED|95.0|0.632|1.044||||||GMR for HAI: H1N1 A/Wisconsin: RSVpreF + qIRV combination to RSVpreF alone.||1.044|0.632|
82416960|NCT04560309|164544960|SUPERIORITY|||||||0.043||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.043
82416961|NCT04560309|164544961|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p \< 0.05|Unpaired T-Test|||||||0.011
82416962|NCT04560309|164544962|SUPERIORITY|||||||0.975||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.975
82416963|NCT04560309|164544963|SUPERIORITY|||||||0.031||||||The threshold for statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.031
82416964|NCT04560309|164544964|SUPERIORITY|||||||0.549||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.549
82416965|NCT04560309|164544965|SUPERIORITY|||||||0.645||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.645
82416966|NCT04560309|164544966|SUPERIORITY|||||||0.33||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||After induction to anesthesia||||0.330
82416967|NCT04560309|164544966|SUPERIORITY|||||||0.352||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||5 minutes after cardiopulmonary bypass||||0.352
82416968|NCT04560309|164544966|SUPERIORITY|||||||0.544||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||2 hours after cardiopulmonary bypass||||0.544
82416969|NCT04560309|164544966|SUPERIORITY|||||||0.022||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||6 hours after cardiopulmonary bypass||||0.022
82416970|NCT04560309|164544966|SUPERIORITY|||||||0.038||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||24 hour after cardiopulmonary bypass||||0.038
82416971|NCT04560309|164544967|SUPERIORITY|||||||0.2||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.200
82416972|NCT04560309|164544968|SUPERIORITY|||||||0.72||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.720
82416973|NCT04560309|164544969|SUPERIORITY|||||||0.042||||||The threshold of statistical significance was p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.042
82416974|NCT04560309|164544970|SUPERIORITY|||||||0.044||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.044
82416975|NCT04560309|164544971|SUPERIORITY|||||||0.349||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.349
82416976|NCT04560309|164544972|SUPERIORITY|||||||0.95||||||The threshold of statistical significance was p \< 0.05|Unpaired T-Test|||||||0.950
82416977|NCT04560309|164544973|SUPERIORITY|The threshold of statistical significance was p \< 0.05||||||0.862|||||||Wilcoxon (Mann-Whitney)|||||||0.862
82416978|NCT04560309|164544974|SUPERIORITY|The threshold of statistical significance was p \< 0.05||||||0.075|||||||Wilcoxon (Mann-Whitney)|||||||0.075
82533032|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.22||||90.0|-0.227|0.5|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M1||0.500|-0.227|
82648042|NCT05788237|165011454|OTHER||Geometric Mean Ratio|0.74|||||TWO_SIDED|95.0|0.567|0.957||||||GMR for HAI: H3N2 A/Darwin: RSVpreF + qIRV combination to RSVpreF alone.||0.957|0.567|
82533033|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.235||||90.0|-0.289|0.485|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M3||0.485|-0.289|
82416979|NCT00309244|164545004|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was set to meet regulatory requirement of 250 subjects per arm with 52-week data, resulting in \> 90% power for a non-inferiority test of the difference in 12-month change of HbA1c scores between treatment groups with non-inferiority margin of 0.4%, standard deviation of 1.2 and 1-sided alpha of 0.025. Allowing for a 25% drop-out rate, 677 subjects were randomized.|Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|95.0|-0.05|0.29|||ANCOVA|||||0.29|-0.05|
82416980|NCT00309244|164545005|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.41||0.0002|TWO_SIDED|95.0|-2.4|-0.7|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline weight as covariate||-0.7|-2.4|0.0002
82416981|NCT00309244|164545006|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7|STANDARD_ERROR_OF_MEAN|5.9||0.0029|TWO_SIDED|95.0|-29.3|-6.1|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline fasting plasma glucose as covariate||-6.1|-29.3|0.0029
82416982|NCT00309244|164545007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.774||||0.2793|TWO_SIDED|95.0|0.486|1.231|||Regression, Logistic|||logistic regression analysis with the terms of treatment and baseline HbA1c in the model||1.231|0.486|0.2793
82416983|NCT00309244|164545008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.423|||<|0.001|TWO_SIDED|95.0|0.307|0.581|||Regression, Logistic||Model: Treatment + Site|||0.581|0.307|<0.001
82416984|NCT00309244|164545009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.409||||0.0066|TWO_SIDED|95.0|0.215|0.78|||Regression, Logistic||Model: Treatment + Site|||0.780|0.215|0.0066
82416985|NCT00309244|164545010|SUPERIORITY_OR_OTHER|||||||0.0027|||||||Generalized Estimation Equation|Based on Poisson distribution||||||0.0027
82416986|NCT00309244|164545011|SUPERIORITY_OR_OTHER|||||||0.0591|||||||Generalized Estimating Equation|Based on Poission distribution||||||0.0591
82416987|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82533034|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.226||||90.0|-0.576|0.172|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M6||0.172|-0.576|
82533035|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.257||||90.0|-0.18|0.669|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M9||0.669|-0.180|
82416988|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82426573|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.4|-2.6|<0.0001
82426574|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.8587|TWO_SIDED|95.0|-0.6|0.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.7|-0.6|0.8587
82426575|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.4|-2.6|<0.0001
82426576|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.8|-3.0|<0.0001
82533036|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.248||||90.0|-0.284|0.535|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M12||0.535|-0.284|
82533037|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.253||||90.0|-0.395|0.441|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M15||0.441|-0.395|
82648043|NCT05788237|165011454|OTHER||GMR|0.94|||||TWO_SIDED|95.0|0.741|1.181||||||GMR for HAI: B/Austria: RSVpreF + qIRV combination to RSVpreF alone.||1.181|0.741|
82648044|NCT05788237|165011454|OTHER||GMR|0.91|||||TWO_SIDED|95.0|0.707|1.174||||||GMR for HAI: B/Phuket: RSVpreF + qIRV combination to RSVpreF alone.||1.174|0.707|
82533038|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146|STANDARD_ERROR_OF_MEAN|0.247||||90.0|-0.262|0.554|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M18||0.554|-0.262|
82416989|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416990|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416991|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416992|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416993|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82426577|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.6323|TWO_SIDED|95.0|-0.8|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.5|-0.8|0.6323
82426578|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.23|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.6|-2.9|<0.0001
82533039|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.321|STANDARD_ERROR_OF_MEAN|0.278||||90.0|-0.138|0.78|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M21||0.780|-0.138|
82533040|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-0.419|0.506|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M24||0.506|-0.419|
82533041|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.284||||90.0|-0.279|0.659|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M27||0.659|-0.279|
82533042|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.117|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-0.579|0.346|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M30||0.346|-0.579|
82533043|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.273||||90.0|-0.189|0.714|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M33||0.714|-0.189|
82533044|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.267|STANDARD_ERROR_OF_MEAN|0.383||||90.0|-0.37|0.904|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext M36||0.904|-0.370|
82648045|NCT05788237|165011455|OTHER||Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.82|1.339||||||GMR for RSV A: RSVpreF + qIRV 1.0 mL (Group 1) combination to RSVpreF + qIRV 0.5 mL (Group 2)||1.339|0.820|
82416994|NCT03336866|164545019|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: AUCinf. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82447490|NCT04566601|164603670|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|0.23||||0.8266|TWO_SIDED|95.0|-1.86|2.32||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||2.32|-1.86|0.8266
82447491|NCT04566601|164603670|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.27||||0.791|TWO_SIDED|95.0|-2.28|1.74||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||1.74|-2.28|0.7910
82533045|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.399|STANDARD_ERROR_OF_MEAN|0.244||||90.0|-0.003|0.802|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height. Ext M36 (LOCF) based on data in the extension phase only.|Ext M36 LOCF||0.802|-0.003|
82533046|NCT00136916|164763717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.619|STANDARD_ERROR_OF_MEAN|0.292||||90.0|0.137|1.102|||||Adjusted Primary Analysis Model includes terms of treatment, baseline PFTs, center, age, sex, and height.|Ext FU M3||1.102|0.137|
82648046|NCT05788237|165011455|OTHER||Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.833|1.352||||||GMR for RSV B: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.352|0.833|
82648047|NCT05788237|165011456|OTHER||GMR|1.19|||||TWO_SIDED|95.0|0.875|1.614||||||GMR for HAI: H1N1 A/Sydney: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.614|0.875|
82648048|NCT05788237|165011456|OTHER||Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.867|1.473||||||GMR for HAI: H3N2 A/Darwin: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.473|0.867|
82416995|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416996|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416997|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82448990|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|0.998|||||TWO_SIDED|95.0|0.867|1.148|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.148|0.867|
82416998|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 26. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82416999|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 5 (primary). Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82417000|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 12. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82417001|NCT03336866|164545020|OTHER|The effect of IXT-m200 on METH exposure was evaluated with a linear mixed effects model. The response variable in the model was the natural-log transformed change in METH exposure parameters: Cmax. The model contained fixed effects for treatment, day (categorical day postdose), natural-log transformed Day 1 baseline parameter and a treatment-by-day interaction, and a random effect for subject.|||||<|0.0001||||||Geometric LS Means Ratios of change in METH exposure for IXT-m200 compared to Placebo on Day 19. Threshold for statistical significance was p\<0.05.|Mixed Models Analysis|||Values were compared by a statistical analysis of change from Day 1 in METH PK parameters following IXT-m200 dosing. Geometric LS Mean change from Day 1 for each treatment on each day were calculated. Geometric LS Means Ratios of change in METH exposure for each dose level of IXT-m200 compared to Placebo on each Day 5 (primary), Day 12, Day 19 and Day 26 were calculated along with the 95% confidence intervals.||||<0.0001
82417002|NCT04906421|164545040|SUPERIORITY|||||||0.0018||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||ITT Population analysis||||0.0018
82417003|NCT04906421|164545040|SUPERIORITY|||||||0.0035||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||ITT Population Analysis||||0.0035
82417004|NCT04906421|164545040|SUPERIORITY|||||||0.0001||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|t-test, 1 sided|One-sided||mITT Population Analysis||||0.0001
82417005|NCT04906421|164545040|SUPERIORITY|||||||0.0003||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0003
82417006|NCT04906421|164545041|SUPERIORITY|||||||0.0087||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||ITT Population Analysis||||0.0087
82417007|NCT04906421|164545041|SUPERIORITY|||||||0.0173||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||ITT Population Analysis||||0.0173
82417008|NCT04906421|164545041|SUPERIORITY|||||||0.0022||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|One-sided||mITT Population Analysis||||0.0022
82417009|NCT04906421|164545041|SUPERIORITY|||||||0.0044||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0044
82533047|NCT01767129|164763764|SUPERIORITY||Mean Difference (Final Values)|-83.4||||0.1907|TWO_SIDED|95.0|-215.02|48.23|||ANOVA|The standard analysis of variance (ANOVA) model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The least squares (LS) mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||48.23|-215.02|0.1907
82417010|NCT04906421|164545042|SUPERIORITY|||||||0.0102|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0102
82417011|NCT04906421|164545042|SUPERIORITY|||||||0.59|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||Subgroup Fibrosis Stage F2 at Baseline Population Analysis||||0.59
82417012|NCT04906421|164545042|SUPERIORITY|||||||0.0032|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-Sided||Subgroup Fibrosis Stage F3 at Baseline Population Analysis||||0.0032
82648049|NCT05788237|165011456|OTHER||Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.849|1.383||||||GMR for HAI: B/Austria: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.383|0.849|
82533048|NCT01767129|164763765|SUPERIORITY||Median Difference (Final Values)|-18.9||||0.388|TWO_SIDED|95.0|-65.28|27.42|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||27.42|-65.28|0.3880
82533049|NCT01767129|164763766|SUPERIORITY||Mean Difference (Final Values)|171.9||||0.7574|TWO_SIDED|95.0|-1022.79|1366.64|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||1366.64|-1022.79|0.7574
82533050|NCT01767129|164763767|SUPERIORITY||Mean Difference (Final Values)|48.8||||0.4203|TWO_SIDED|95.0|-80.63|178.3|||ANOVA|The standard ANOVA model for a 2-period crossover trial was used. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||178.30|-80.63|0.4203
82533051|NCT01767129|164763768|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.1067|TWO_SIDED|95.0|-2.41|0.27|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part I||0.27|-2.41|0.1067
82533052|NCT01767129|164763768|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.865|TWO_SIDED|95.0|-2.64|3.09|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part II||3.09|-2.64|0.8650
82533053|NCT01767129|164763768|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.0745|TWO_SIDED|95.0|-4.94|0.27|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part IV||0.27|-4.94|0.0745
82533054|NCT01767129|164763769|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.0625|TWO_SIDED|95.0|-8.1|0.24|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part 1||0.24|-8.10|0.0625
82647105|NCT00289731|165009288|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus Engerix-B+Havrix Group), in terms of seroprotection rates for anti-HBs antibody, being - 10%.|Difference in seroprotection rate|12.04|||||TWO_SIDED|95.0|4.97|19.35||||||Difference in seroprotection rates against hepatitis B surface (HBs) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines Engerix-B at Months 0, 1 and 6 and Havrix at Months 0 and 6 (Engerix-B+Havrix Group), in terms of anti-HBs seroprotection rates, at Month 7.||19.35|4.97|
82417013|NCT04906421|164545042|SUPERIORITY|||||||0.0764|TWO_SIDED|95.0||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||Subgroup Type 2 Diabetes Mellitus at Baseline Population Analysis||||0.0764
82533055|NCT01767129|164763769|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.2474|TWO_SIDED|95.0|-3.74|1.07|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Part 2||1.07|-3.74|0.2474
82533056|NCT01767129|164763770|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9764|TWO_SIDED|95.0|-3.1|3.01|||ANOVA|Change from Day 1 values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||3.01|-3.10|0.9764
82533057|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.6359|TWO_SIDED|95.0|-9.94|6.36|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Mobility||6.36|-9.94|0.6359
82533058|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.0167|TWO_SIDED|95.0|-15.2|-1.87|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Activities of Daily Living||-1.87|-15.20|0.0167
82533059|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.0959|TWO_SIDED|95.0|-16.54|1.56|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Emotional Well Being||1.56|-16.54|0.0959
82376702|NCT03097991|164459587|SUPERIORITY||Slope|-1.15|STANDARD_ERROR_OF_MEAN|1.22||0.01|TWO_SIDED||||||Mixed Models Analysis||Group|||||.01
82376703|NCT03097991|164459587|SUPERIORITY||Slope|1.08|STANDARD_ERROR_OF_MEAN|1.96||0.58|TWO_SIDED||||||Mixed Models Analysis||Group x Timepoint|||||.58
82376704|NCT03301623|164459606|SUPERIORITY||Mean Difference (Net)|-0.69||||0.541|TWO_SIDED|95.0|-2.9|1.52|||Mixed Models Analysis|Test is on interaction term between time (pre/post intervention) and treatment group (CDSvsPEAT) dummy variables in the regression model.|The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in reducing pain interference over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the participant level."||1.52|-2.9|.541
82376705|NCT03301623|164459607|SUPERIORITY||Odds Ratio (OR)|2.96||||0.019|TWO_SIDED|95.0|1.2|7.31|||Regression, Logistic|There were 69 providers with at least one CG-CAHPS response.|The interaction term describes the change in the PEAT group's scores in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in improving how satisfied patients feel over time after communicating with their physician about chronic pain treatment risks and benefits?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the PCP level."||7.31|1.20|.019
82417014|NCT04906421|164545043|SUPERIORITY|||||||0.0043||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0043
82417015|NCT04906421|164545044|SUPERIORITY|||||||0.0018||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||0.0018
82417016|NCT04906421|164545045|SUPERIORITY||||||<|0.0001||||||Stratified CMH test stratified by T2DM status at baseline (yes or no) and amount of fibrosis at baseline (F2 or F3).|Cochran-Mantel-Haenszel|Two-sided||mITT Population Analysis||||<0.0001
82533060|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.5108|TWO_SIDED|95.0|-16.72|8.83|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Stigma||8.83|-16.72|0.5108
82417017|NCT02405962|164545055|SUPERIORITY||Adjusted Incidence Rate Ratio|0.2|||<|0.05|TWO_SIDED|95.0|0.08|0.53|||Mixed Models Analysis|||||0.53|0.08|<0.05
82417018|NCT00165698|164545070|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Symbols rank sum test|||||||0.26
82533061|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-9.8||||0.0806|TWO_SIDED|95.0|-21.06|1.42|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Social support||1.42|-21.06|0.0806
82533062|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.4205|TWO_SIDED|95.0|-15.66|7.03|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Cognitive impairment (Cognitions)||7.03|-15.66|0.4205
82533063|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-6.1||||0.1065|TWO_SIDED|95.0|-13.63|1.53|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Communication||1.53|-13.63|0.1065
82648050|NCT05788237|165011456|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.866|1.392||||||GMR for HAI: B/Phuket: RSVpreF + qIRV 1.0 mL (Group 1) to RSVpreF + qIRV 0.5 mL (Group 2)||1.392|0.866|
82417019|NCT00165698|164545071|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Symbols rank sum test|||||||0.19
82417020|NCT00165698|164545072|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Symbols rank sum test|||||||0.31
82417021|NCT00165698|164545073|SUPERIORITY_OR_OTHER|||||||0.869||95.0|||||symbols rank sum test|||||||0.869
82417022|NCT00165698|164545074|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||symbols rank sum test|||||||0.174
82417023|NCT00165698|164545075|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
82417024|NCT00165698|164545076|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
82417025|NCT00165698|164545077|SUPERIORITY_OR_OTHER|||||||0||95.0|||||symbols rank sum test|||||||0.000
82417026|NCT01107457|164545080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079|TWO_SIDED||||||Fisher Exact|||||||0.079
82417027|NCT01107457|164545080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82417028|NCT01107457|164545080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82417029|NCT01107457|164545080|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82417030|NCT01107457|164545081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82417031|NCT01107457|164545081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82417032|NCT01107457|164545081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82417033|NCT01107457|164545081|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82417034|NCT02186171|164545112|SUPERIORITY||LS Mean Difference|10.9|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|9.6|12.2||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||12.2|9.6|< 0.0001
82417035|NCT02186171|164545113|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 12 months in total hip and femoral neck to maintain the overall significance level at 0.05.|LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.3|3.7||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||3.7|2.3|< 0.0001
82417036|NCT02186171|164545114|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 12 months in total hip and femoral neck to maintain the overall significance level at 0.05.|LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|1.5|3.3||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||3.3|1.5|< 0.0001
82417037|NCT02186171|164545115|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|8.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|7.6|9.7||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||9.7|7.6|< 0.0001
82533064|NCT01767129|164763771|SUPERIORITY||Mean Difference (Final Values)|-5.2||||0.4456|TWO_SIDED|95.0|-19.51|9.19|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Bodily discomfort||9.19|-19.51|0.4456
82648051|NCT01406873|165011495|SUPERIORITY||||||<|0.01|||||||ANCOVA|||||||<0.01
82417038|NCT02186171|164545116|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|0.8|2.0||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||2.0|0.8|< 0.0001
82417039|NCT02186171|164545117|SUPERIORITY|The Hochberg procedure was employed to control the overall type 1 error for the percent change from baseline at 6 months at the lumbar spine, total hip and femoral neck BMD in order to maintain the overall significance level at 0.05.|LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.4|=|0.0033|TWO_SIDED|95.0|0.4|2.1||ANCOVA model adjusting for treatment, baseline BMD value, machine type, machine type-by-baseline BMD value, baseline testosterone level, geographic region, and using a variance structure allowing for heterogeneity between treatment groups.|ANCOVA|||||2.1|0.4|= 0.0033
82417040|NCT00441896|164545125|SUPERIORITY|||||||0.7391|||||||ANCOVA|||||||0.7391
82417041|NCT00441896|164545125|SUPERIORITY|||||||0.537|||||||ANCOVA|||||||0.5370
82417042|NCT00441896|164545125|SUPERIORITY|||||||0.908|||||||ANCOVA|||||||0.9080
82447492|NCT04566601|164603670|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.8743|TWO_SIDED|95.0|-1.77|1.51||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PHQ-9 total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||1.51|-1.77|0.8743
82447493|NCT04566601|164603671|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.05||||0.8016|TWO_SIDED|95.0|-0.47|0.37||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.37|-0.47|0.8016
82447494|NCT04566601|164603671|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.23||||0.2929|TWO_SIDED|95.0|-0.67|0.2||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.20|-0.67|0.2929
82533065|NCT01767129|164763772|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.0233|TWO_SIDED|95.0|-11.72|-1.07|||ANOVA|Change from Baseline values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||-1.07|-11.72|0.0233
82417043|NCT00441896|164545125|SUPERIORITY|||||||0.2539|||||||ANCOVA|||||||0.2539
82417044|NCT00441896|164545125|SUPERIORITY|||||||0.6657|||||||ANCOVA|||||||0.6657
82417045|NCT00441896|164545126|SUPERIORITY|||||||0.4249|||||||ANCOVA|||||||0.4249
82417046|NCT00441896|164545126|SUPERIORITY|||||||0.4177|||||||ANCOVA|||||||0.4177
82417047|NCT00441896|164545126|SUPERIORITY|||||||0.3033|||||||ANCOVA|||||||0.3033
82417048|NCT00441896|164545126|SUPERIORITY|||||||0.3014|||||||ANCOVA|||||||0.3014
82417049|NCT00441896|164545126|SUPERIORITY|||||||0.1839|||||||ANCOVA|||||||0.1839
82417050|NCT03277274|164545134|OTHER|TAK-954 (Total): An analysis of variance (ANOVA) were performed on log transformed Cmax (total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.579|||||||ANOVA|||||||0.579
82417051|NCT03277274|164545134|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed Cmax (total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.026|||||||ANOVA|||||||0.026
82417052|NCT03277274|164545134|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed Cmax (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.02|||||||ANOVA|||||||0.020
82417053|NCT03277274|164545134|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed Cmax (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.031|||||||ANOVA|||||||0.031
82417054|NCT03277274|164545135|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.151|||||||ANOVA|||||||0.151
82417055|NCT03277274|164545135|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUClast (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.017|||||||ANOVA|||||||0.017
82417056|NCT03277274|164545135|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUClast (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.129|||||||ANOVA|||||||0.129
82417057|NCT03277274|164545135|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUClast (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.023|||||||ANOVA|||||||0.023
82448991|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.043|||||TWO_SIDED|95.0|0.907|1.2|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.200|0.907|
82417058|NCT03277274|164545136|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUCinf (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.138|||||||ANOVA|||||||0.138
82417059|NCT03277274|164545136|OTHER|TAK-954 (Total): An ANOVA were performed on log transformed AUCinf (Total TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.029|||||||ANOVA|||||||0.029
82417060|NCT03277274|164545136|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUCinf (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.201|||||||ANOVA|||||||0.201
82417061|NCT03277274|164545136|OTHER|TAK-954 (Free): An ANOVA were performed on log transformed AUCinf (Free TAK-954) to compare each hepatically impaired group with the normal hepatic function group.||||||0.023|||||||ANOVA|||||||0.023
82417062|NCT00126737|164545142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.395||||0.0129|TWO_SIDED|95.0|-11.41|-1.38|||ANCOVA|Co-variates entered into the model were BMI and WOMAC function subscale.||||-1.38|-11.41|0.0129
82417063|NCT00126737|164545142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.174||||0.0535|TWO_SIDED|95.0|-10.43|0.079|||ANCOVA|Covariates entered into the model were BMI and WOMAC function||||0.079|-10.43|0.0535
82447495|NCT04566601|164603671|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.01||||0.9666|TWO_SIDED|95.0|-0.42|0.4||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.40|-0.42|0.9666
82533066|NCT01767129|164763773|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.193|TWO_SIDED|95.0|-1.39|0.31|||ANOVA|Change from Screening values were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|||0.31|-1.39|0.1930
82648052|NCT00207714|165011499|SUPERIORITY_OR_OTHER|||||||0.01||||||A positive test is concluded if there is a significant difference between combined golimumab and placebo groups and at least one of the pair-wise comparisons at 0.05 level.|Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Week 16 between combined golimumab groups and Placebo +MTX group. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25 % response in Placebo +MTX.||||0.010
82417064|NCT00126737|164545143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.545||||0.0307|TWO_SIDED|95.0|0.432|8.659|||ANCOVA|||||8.659|0.432|0.0307
82417065|NCT00126737|164545145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.94||||0.0158|TWO_SIDED|95.0|7.655|72.215|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||72.215|7.655|0.0158
82417066|NCT00126737|164545145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|62.25||||0.0002|TWO_SIDED|95.0|29.97|94.54|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||94.54|29.97|0.0002
82417067|NCT00126737|164545145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.95||||0.0056|TWO_SIDED|95.0|12.54|75.36|||ANCOVA|Total disease (co-morbidity) as covariate was entered into the model||||75.36|12.54|0.0056
82417068|NCT00126737|164545146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.129||||0.0018|TWO_SIDED|95.0|10.767|45.492|||ANCOVA|Kellgren Lawrence Scale was entered into the model||||45.492|10.767|0.0018
82417069|NCT00126737|164545146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.71||||0.0024|TWO_SIDED|95.0|9.675|43.746|||ANCOVA|Kellgren Lawrence scale was entered into the model||||43.746|9.675|0.0024
82417070|NCT00126737|164545146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.747||||0.0368|TWO_SIDED|95.0|1.169|36.325|||ANCOVA|Kellgren Lawrence Scale was entered into the model||||36.325|1.169|0.0368
82417071|NCT06765889|164545147|OTHER||Bayes Factor (BF₁₀)|0.03|||||TWO_SIDED|||||||||||||
82417072|NCT06765889|164545150|OTHER||Mean (of both conditions)|4.17|||||TWO_SIDED|||||||||||||
82417073|NCT03737032|164545156|SUPERIORITY|||||||0.8|||||||ANOVA|||Null hypothesis: post-TBS dmPFC activation will not vary by TBS condition. This is tested using the main effect of condition in a repeated measures model.||||0.80
82417074|NCT03737032|164545157|SUPERIORITY|||||||0.23|||||||ANOVA|Repeated measures ANOVA with time (pre or post), condition (cTBS, iTBS, sham TBS), and time\*condition effects.||Null hypothesis: pre-post change in positive affect will not vary by TBS condition. This is tested using the interaction of time\*condition in a repeated measures model.||||0.23
82417075|NCT03737032|164545158|SUPERIORITY|||||||0.84|||||||ANOVA|||Null hypothesis: post-TBS functional connectivity between the dmPFC and ventral striatum (VS) will not vary by TBS condition. This is tested using the main effect of condition in a repeated measures model.||||0.84
82417076|NCT01145222|164545170|SUPERIORITY|Overall comparison between remimazolam and midazolam||||||0.007|||||||Fisher Exact|||||||0.007
82417077|NCT00986583|164545231|SUPERIORITY_OR_OTHER||Ratio of medians|1.34||||0.018|TWO_SIDED|95.0|1.05|1.72||This is for the primary comparison at 20 minute|ANCOVA||Ratio of medians of myoglobin measured at 20 minute for statin users vs. non-statin users|||1.72|1.05|0.018
82417078|NCT05001165|164545277|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.1|0.7|||Regression, Linear|||||0.7|-0.1|
82417079|NCT05001165|164545278|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.84|2.14|||Regression, Logistic|||||2.14|0.84|
82417080|NCT05001165|164545279|SUPERIORITY||Odds Ratio (OR)|1.06|||<|0.05|TWO_SIDED|95.0|0.64|1.76|||Regression, Logistic|||||1.76|0.64|<0.05
82417081|NCT05001165|164545280|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.73|1.93|||Regression, Logistic|||||1.93|0.73|
82417082|NCT05001165|164545281|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.68|2.05|||Regression, Logistic|||||2.05|0.68|
82417083|NCT05001165|164545282|SUPERIORITY||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.88|2.51|||Regression, Logistic|||||2.51|0.88|
82417084|NCT05001165|164545283|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|0.99|3.64|||Regression, Logistic|||||3.64|0.99|
82417085|NCT05001165|164545284|SUPERIORITY||Odds Ratio (OR)|0.68|||||TWO_SIDED|95.0|0.34|1.33|||Regression, Logistic|||||1.33|0.34|
82417086|NCT00676689|164545304|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|0.971|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|0.889|0.993||||||||0.993|0.889|
82533067|NCT01767129|164763774|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0511|TWO_SIDED|95.0|-2.17|0.01|||ANOVA|Change were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Dyskinesia||0.01|-2.17|0.0511
82647106|NCT00289731|165009288|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two treatment groups (Twinrix Group minus HB VAX PRO+Vaqta Group), in terms of seroprotection rates for anti-HBs antibody, being - 15%.|Difference in seroprotection rates|20.69|||||TWO_SIDED|95.0|12.92|28.62||||||Difference in seropositivity rates against hepatitis B surface (HBs) antigen: To demonstrate that the immunogenicity of Twinrix vaccine (Twinrix Group) administered at Months 0, 1 and 6 was non-inferior to that of separately administered monovalent vaccines HB VAX PRO at Months 0, 1 and 6 and Vaqta at Months 0 and 6 (HB VAX PRO+Vaqta Group), in terms of anti-HBs seroprotection rates, at Month 7.||28.62|12.92|
82647107|NCT02660385|165009316|SUPERIORITY||Effect Size|-0.6||||0.0002|TWO_SIDED||||||Generalized Linear Mixed Model (GLMM)|GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.||||||0.0002
82647108|NCT02660385|165009317|SUPERIORITY|||||||0.0723||||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0723
82647109|NCT02660385|165009318|SUPERIORITY||effect size|0.42||||0.011|TWO_SIDED||||||GLMM|GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.||||||0.0110
82417087|NCT00676689|164545305|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier|0.941|STANDARD_ERROR_OF_MEAN|0.028|||TWO_SIDED|95.0|0.851|0.978||||||Freedom from Major Adverse Cardiovascular and Cerebrovascular Event (MACCE) at 6 months in the valve implant population.||0.978|0.851|
82417088|NCT00676689|164545306|SUPERIORITY_OR_OTHER_LEGACY||Percentage|87.9|||||TWO_SIDED|||||||||Overall functional improvement at 6 months for patients in the valve implant population with baseline and 6 month data.||||
82417089|NCT01487161|164545321|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.1249|TWO_SIDED|90.0|-1.2|0.2|||Longitudinal mixed effect model|||||0.2|-1.2|0.1249
82417090|NCT01487161|164545322|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2002|TWO_SIDED|90.0|-1.1|0.3|||Longitudinal mixed effect model|||||0.3|-1.1|0.2002
82417091|NCT01487161|164545323|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5541|TWO_SIDED|90.0|-0.7|0.8|||Longitudinal mixed effect model|||||0.8|-0.7|0.5541
82417092|NCT02945046|164545340|OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.3||0.9093|TWO_SIDED|95.0|-2.72|2.42||Threshold for significance at 0.05 level.|ANCOVA|||||2.42|-2.72|0.9093
82417093|NCT02945046|164545340|OTHER||LS mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.1345|TWO_SIDED|95.0|-4.49|0.61||Threshold for significance at 0.05 level.|ANCOVA|||||0.61|-4.49|0.1345
82417094|NCT00567112|164545356|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (fasted)/DFC (fasted)|Geometric Mean Ratio|0.98|||>|0.2|TWO_SIDED|90.0|0.92|1.05|||ANOVA|||OCT (fasted)/DFC (fasted)||1.05|0.92|>0.200
82417095|NCT00567112|164545357|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (fasted)/DFC (fasted)|Geometric Mean Ratio|0.98|||>|0.2|TWO_SIDED|90.0|0.8|1.19|||ANOVA|||OCT (fasted)/DFC (fasted)||1.19|0.80|>0.200
82647110|NCT02660385|165009319|SUPERIORITY||effect size|-0.7|||<|0.0001|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||<0.0001
82647111|NCT02660385|165009320|SUPERIORITY||effect size|-0.12||||0.4356|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.4356
82647112|NCT02660385|165009321|SUPERIORITY|||||||0.0148||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0148
82417096|NCT00567112|164545358|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio of OCT (after meal)/OCT (fasted)|Geometric Mean Ratio|0.92||||0.026|TWO_SIDED|90.0|0.86|0.98|||ANOVA|||OCT (after meal)/OCT (fasted)||0.98|0.86|0.026
82417097|NCT00567112|164545359|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio OCT (after meal)/OCT (fasted)|Geometric Mean Ratio|0.59|||<|0.001|TWO_SIDED|90.0|0.49|0.72|||ANOVA|||OCT (after meal)/OCT (fasted)||0.72|0.49|<0.001
82417098|NCT00567112|164545360|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||ANOVA|||OCT (fasted)/DFC (fasted)||||>0.200
82417099|NCT00567112|164545361|SUPERIORITY_OR_OTHER||||||>|0.2||95.0|||||ANOVA|||OCT (fasted)/DFC (fasted)||||>0.200
82417100|NCT00567112|164545362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||OCT (after meal)/OCT (fasted)||||<0.001
82417101|NCT00567112|164545363|SUPERIORITY_OR_OTHER||||||>|0.2|||||||ANOVA|||OCT (after meal)/OCT (fasted)||||>0.200
82417102|NCT02362412|164545391|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.5|||||TWO_SIDED|95.0|-3.4|2.3||p-value was not adjusted|||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||2.3|-3.4|
82417103|NCT02362412|164545392|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-1.7|1.9|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||1.9|-1.7|
82417104|NCT02362412|164545393|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.4|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.4|-0.3|
82417105|NCT02362412|164545394|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.4|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.4|-0.3|
82417106|NCT02362412|164545396|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.5|-0.5|
82417107|NCT02362412|164545397|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||||Analysis of variance with treatment sequence, time point, and formulation as fixed effects and patient as a random effect using the data at Week 12 and Week 20 of the treatment period.|||0.5|-0.5|
82417108|NCT03467945|164545417|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.4421|||||TWO_SIDED|90.0|75.2805|88.1079||||||||88.1079|75.2805|
82417109|NCT03467945|164545417|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|102.293|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
82417110|NCT03467945|164545417|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.0112|||||TWO_SIDED|90.0|74.8823|87.6417||||||||87.6417|74.8823|
82417111|NCT03467945|164545418|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|102.293|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
82417112|NCT03467945|164545418|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|105.7255|||||TWO_SIDED|90.0|101.1665|110.49||||||||110.4900|101.1665|
82417113|NCT03467945|164545418|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|96.7533|||||TWO_SIDED|90.0|92.5812|101.1135||||||||101.1135|92.5812|
82417114|NCT03467945|164545419|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|77.6923|||||TWO_SIDED|90.0|70.383|85.7606||||||||85.7606|70.3830|
82417115|NCT03467945|164545419|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|108.0819|||||TWO_SIDED|90.0|102.237|114.2609||||||||114.2609|102.2370|
82417116|NCT03467945|164545419|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|79.4367|||||TWO_SIDED|90.0|71.9633|87.6861||||||||87.6861|71.9633|
82417117|NCT03467945|164545420|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|108.0819|||||TWO_SIDED|90.0|102.237|114.2609||||||||114.2609|102.2370|
82417118|NCT03467945|164545420|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|93.6828|||||TWO_SIDED|90.0|88.6166|99.0386||||||||99.0386|88.6166|
82417119|NCT03467945|164545420|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|115.37|||||TWO_SIDED|90.0|109.131|121.9658||||||||121.9658|109.1310|
82417120|NCT03467945|164545421|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|82.6022|||||TWO_SIDED|90.0|76.5513|89.1314||||||||89.1314|76.5513|
82417121|NCT03467945|164545421|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|101.8499|||||TWO_SIDED|90.0|97.8819|106.9028||||||||106.9028|97.8819|
82447496|NCT04566601|164603671|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.18||||0.2833|TWO_SIDED|95.0|-0.52|0.15||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline CGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.15|-0.52|0.2833
82447497|NCT04566601|164603672|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.4552|TWO_SIDED|95.0|-0.45|0.2||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 5mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.20|-0.45|0.4552
82647113|NCT02660385|165009322|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
82417122|NCT03467945|164545421|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|81.0112|||||TWO_SIDED|90.0|74.8823|87.6417||||||||87.6417|74.8823|
82417123|NCT03467945|164545422|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|101.8499|||||TWO_SIDED|90.0|97.5947|106.2906||||||||106.2906|97.5947|
82417124|NCT03467945|164545422|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|105.915|||||TWO_SIDED|90.0|101.49|110.533||||||||110.5330|101.4900|
82417125|NCT03467945|164545422|EQUIVALENCE|Bioequivalence boundaries of 80.000% to 125.00% were used.|Geometric Least Squares Mean Ratio|96.1619|||||TWO_SIDED|90.0|92.1443|100.3546||||||||100.3546|92.1443|
82417126|NCT00541775|164545461|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<=|0.001||95.0|-0.7|-0.32|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-0.32|-0.70|<=0.001
82417127|NCT00541775|164545462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.8|STANDARD_ERROR_OF_MEAN|5.0|<=|0.001||95.0|-27.6|-8.1|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-8.1|-27.6|<=0.001
82417128|NCT00541775|164545463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-30.5|STANDARD_ERROR_OF_MEAN|7.9|<=|0.001||95.0|-46.0|-15.0|||ANCOVA|Analysis of covariance with a term for treatment, and a covariate for baseline value.||||-15.0|-46.0|<=0.001
82417129|NCT00032487|164545464|NON_INFERIORITY_OR_EQUIVALENCE|The statistical analysis tested was for equivalence. We assumed 86% power with 21% of effect size and the sample size 1700 with 5% drop out rate.|Cox Proportional Hazard|0.79|||<|0.05|TWO_SIDED|95.0|0.79|0.99|||Log Rank|||It was hypothesized 21% reduction in intensive glycemic control group compared to standard control group on primary cardiovascular composite outcomes.||.99|.79|<0.05
82417130|NCT01666314|164545466|SUPERIORITY_OR_OTHER|||||||0.1078|TWO_SIDED||||||Fisher Exact|||||||0.1078
82417131|NCT01666314|164545467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.145||||0.0355|TWO_SIDED|95.0|0.9895|18.7606|||Fisher Exact||Odds ratio \>1 favors orteronel.|||18.7606|0.9895|0.0355
82533068|NCT01767129|164763774|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7745|TWO_SIDED|95.0|-0.7|0.91|||ANOVA|Change were compared using ANOVA for a 2-period crossover trial. Factors in the model were participant, treatment, and period.|The LS mean difference was calculated as the AVP-923-45 LS mean minus the placebo LS mean.|Other symptoms||0.91|-0.70|0.7745
82533069|NCT01406717|164763802|OTHER||ANCOVA|0.0002|||||TWO_SIDED|95.0|-0.31377|0.31418||||||||0.31418|-0.31377|
82533070|NCT01406717|164763803|OTHER||ANCOVA|5.898|||||TWO_SIDED|95.0|-6.7565|18.5535||||||||18.5535|-6.7565|
82447498|NCT04566601|164603672|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.13||||0.4734|TWO_SIDED|95.0|-0.47|0.22||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 25mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.22|-0.47|0.4734
82647114|NCT02660385|165009323|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
82417132|NCT04913675|164545489|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of 500 mg IM dose versus 500 mg IV using a non-inferiority margin of 3.5 percent (%) on the risk difference scale. A post-hoc weekly imputation algorithm imputes the missing outcome iteratively for each week, where missing outcomes at Day 8, 15, 22, 29 are imputed.|Risk Difference (RD)|1.06|||||TWO_SIDED|95.0|-1.15|3.26|||||Analysis was performed using a binomial regression model with identity link function and with treatment (Sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old) and gender (male, female) as covariates.|||3.26|-1.15|
82417133|NCT04913675|164545489|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of 500 mg IM vs 500 mg IV using a non-inferiority margin of 3.5 percent (%) on the risk difference scale. A pre-specified daily imputation algorithm imputed the missing outcome iteratively for each study day starting with Day 2 and ending at Day 29.|Risk Difference (RD)|1.16|||||TWO_SIDED|95.0|-1.23|3.56|||||Analysis was performed using a binomial regression model with identity link function and with treatment (Sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old) and gender (male, female) as covariates.|||3.56|-1.23|
82417134|NCT04913675|164545507|NON_INFERIORITY|This outcome measure was analyzed using a hypothetical estimand and assessing non-inferiority of IM dose versus IV using a non-inferiority margin of 3.5% on the risk difference scale. Weekly imputation algorithm imputes the missing outcome iteratively for each week, where missing outcomes at Day 8, 15, 22, 29 are imputed.|Risk Difference (RD)|0.86|||||TWO_SIDED|95.0|-1.56|3.28|||||Post-hoc analysis was performed using a binomial regression model with identify link function and with treatment (Sotrovimab 500 mg IM, 500 mg IV), age (\<65, \>-65 years old), and sex (male, female) as covariates.|||3.28|-1.56|
82417135|NCT04913675|164545510|EQUIVALENCE|IM dose was assessed for equivalence to IV based on the two-sided 90% confidence interval for the treatment ratio falling within equivalence bounds of 0.5 to 2.0.|Ratio of least square(LS) geometric mean|1.04|||||TWO_SIDED|90.0|1.0|1.07|||||LS geometric mean was calculated for 500mg IV versus IM by using an Analysis of Covariance (ANCOVA) Model with treatment group (sotrovimab 500mg IM, 500mg IV), age (\<65, =\>65 years old), gender (male, female) and Baseline viral load as covariates.|||1.07|1.00|
82417136|NCT01125748|164545598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3|||||TWO_SIDED|95.0|5.0|33.6||||||||33.6|5.0|
82417137|NCT01028391|164545607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|4.0||||95.0|-0.76|-0.26|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0 of the 24-week base study) HbA1c.|||-0.26|-0.76|
82417138|NCT01028391|164545608|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.5|STANDARD_ERROR_OF_MEAN|4.0||||95.0|-16.3|-0.7|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0 of the 24-week base study) FPG.|||-0.7|-16.3|
82417139|NCT01227395|164545658|SUPERIORITY_OR_OTHER||||||=|0.696|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.696
82417140|NCT01227395|164545659|SUPERIORITY_OR_OTHER||||||=|0.334|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.334
82417141|NCT01227395|164545660|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was concomitant drugs. The null hypothesis is there is no difference between with and without concomitant drugs  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
82417142|NCT01227395|164545661|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
82417143|NCT01227395|164545662|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Allergies. The null hypothesis is there is no difference between with and without allergies in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.015
82417144|NCT01227395|164545663|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between \<65 years and \>=65 years  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=1.000
82417145|NCT01227395|164545664|SUPERIORITY_OR_OTHER||||||=|0.29|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between Male and Female  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.290
82417146|NCT01227395|164545665|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal Dysfunction. The null hypothesis is there is no difference between with and without renal dysfunction  in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.003
82417147|NCT01227395|164545666|SUPERIORITY_OR_OTHER||||||=|0.707|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Allergies. The null hypothesis is there is no difference between with and without allergies in the frequency of Treatment Related Adverse Events(TRAEs)."||||=0.707
82533071|NCT01406717|164763804|OTHER||||||<|0.0001|||||||Mantel Haenszel|||||||<0.0001
82533072|NCT01406717|164763806|OTHER|||||||0.6318|||||||ANCOVA|||||||0.6318
82533073|NCT01406717|164763807|OTHER|||||||0.4887|||||||ANOVA|||||||0.4887
82533074|NCT01406717|164763808|OTHER|||||||0.3813|||||||ANOVA|||||||0.3813
82533075|NCT01406717|164763809|OTHER|||||||0.99|||||||ANOVA|||||||0.9900
82647115|NCT02660385|165009324|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
82417148|NCT02641353|164545670|OTHER||Geometric Mean Ratio|84.9|||||TWO_SIDED|90.0|77.3|93.2|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an analysis of variance (ANOVA) model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax.||93.2|77.3|
82533076|NCT01406717|164763810|OTHER|||||||0.0017|||||||ANOVA|||||||0.0017
82417149|NCT02641353|164545670|OTHER||Geometric Mean Ratio|78.2|||||TWO_SIDED|90.0|71.2|86.0|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax.||86.0|71.2|
82417150|NCT02641353|164545671|OTHER||Geometric Mean Ratio|87.6|||||TWO_SIDED|90.0|83.0|92.5|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t.||92.5|83.0|
82417151|NCT02641353|164545671|OTHER||Geometric Mean Ratio|115.3|||||TWO_SIDED|90.0|109.2|121.7|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t.||121.7|109.2|
82417152|NCT02641353|164545672|OTHER||Geometric Mean Ratio|87.8|||||TWO_SIDED|90.0|83.2|92.6|||||Ratio of adjusted geometric means (Treatment B / Treatment A) expressed as a percentage.|To assess the bioavailability between the apremilast oral suspension and tablet formulation an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞.||92.6|83.2|
82417153|NCT02641353|164545672|OTHER||Geometric Mean Ratio|115.0|||||TWO_SIDED|90.0|109.0|121.7|||||Ratio of adjusted geometric means (Treatment C / Treatment B) expressed as a percentage.|To assess the effect of food on the PK of apremilast oral suspension formulation, an ANOVA model, with treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞.||121.7|109.0|
82417154|NCT02641353|164545673|OTHER||Median Difference|0.25||||0.1508|TWO_SIDED|90.0|0.0|0.5|||Wilcoxon signed-rank test||Median difference (Treatment B - Treatment A) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% confidence interval (CI) of the median difference were calculated from the Hodges-Lehrmann estimate.||0.50|0.00|0.1508
82417155|NCT02641353|164545673|OTHER||Median Difference|2.25|||<|0.0001|TWO_SIDED|90.0|1.27|3.25|||Wilcoxon signed-rank test||Median difference (Treatment C - Treatment B) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.25|1.27|<0.0001
82447499|NCT04566601|164603672|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.03||||0.8388|TWO_SIDED|95.0|-0.36|0.29||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 75mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.29|-0.36|0.8388
82533077|NCT01406717|164763811|OTHER|||||||0.6098|||||||Mantel Haenszel|||||||0.6098
82647116|NCT02660385|165009325|SUPERIORITY|||||||0.6358||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.6358
82417156|NCT03259308|164545680|SUPERIORITY|||||||0.027|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.027
82417157|NCT03259308|164545680|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.014
82417158|NCT03259308|164545681|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.001
82417159|NCT03259308|164545681|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.003
82417160|NCT03259308|164545682|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
82533078|NCT01406717|164763812|OTHER|||||||0.7324|||||||ANOVA|||||||0.7324
82533079|NCT01406717|164763813|OTHER|||||||0.2984|||||||ANOVA|||||||0.2984
82533080|NCT03257995|164763814|OTHER||Mean Difference (Final Values)|0.1861|||<|0.001|TWO_SIDED|95.0|0.1293|0.2429|||ANOVA|||||0.2429|0.1293|<0.001
82533081|NCT03257995|164763814|OTHER||Mean Difference (Final Values)|0.1463|||<|0.001|TWO_SIDED|95.0|0.0898|0.2029|||ANOVA|||||0.2029|0.0898|<0.001
82533082|NCT03257995|164763814|OTHER||Mean Difference (Final Values)|-0.0398|||||TWO_SIDED|95.0|-0.0942|0.0147|||ANOVA|||||0.0147|-0.0942|
82533083|NCT03257995|164763820|OTHER||Median Difference (Final Values)|-0.02||||0.823|TWO_SIDED|95.0|-0.83|0.33|||Wilcoxon (Mann-Whitney)|||||0.33|-0.83|0.823
82533084|NCT03257995|164763820|OTHER||Median Difference (Final Values)|-0.02||||0.801|TWO_SIDED|95.0|-0.82|0.51|||Wilcoxon (Mann-Whitney)|||||0.51|-0.82|0.801
82533085|NCT03257995|164763820|OTHER||Median Difference (Final Values)|0.0||||0.984|TWO_SIDED|95.0|-0.5|0.73|||Wilcoxon (Mann-Whitney)|||||0.73|-0.50|0.984
82533086|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2177|||<|0.001|TWO_SIDED|95.0|0.1482|0.2872|||ANOVA|||at 5 min||0.2872|0.1482|<0.001
82647117|NCT02660385|165009326|SUPERIORITY||effect size|0.35||||0.0318|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0318
82647118|NCT02660385|165009327|SUPERIORITY|||||||0.2722||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.2722
82417161|NCT03259308|164545682|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
82417162|NCT03259308|164545683|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
82417163|NCT03259308|164545683|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||<0.001
82417164|NCT03259308|164545684|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.002
82417165|NCT03259308|164545684|SUPERIORITY|||||||0.017|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.017
82417166|NCT01398475|164545704|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.02|||||TWO_SIDED|90.0|0.951|1.1|||||The geometric LS mean ratio (TF1 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.10|0.951|
82417167|NCT01398475|164545704|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|1.02|||||TWO_SIDED|90.0|0.947|1.09|||||The geometric LS mean ratio (TF2 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.09|0.947|
82447500|NCT04566601|164603672|OTHER|No formal hypotheses were tested.|Mean Difference (Net)|-0.08||||0.554|TWO_SIDED|95.0|-0.35|0.19||P-value is considered nominal.|Mixed effects model repeated measures||"Least Squares Mean of BI 1358894 125mg - Least Squares Mean of Placebo."|Least Squares (LS) mean difference and 95% confidence interval were estimated by restricted maximum likelihood-based mixed effects model repeated measures (REML-based MMRM) including the fixed categorical covariates of treatment, visit (baseline and Week 1, 2, 4, 6, 8, 10) and the continuous fixed covariate of baseline PGI-S total score, and treatment-by-visit interaction, as well as baseline-by-visit interaction. Patient was considered as random. Unstructured covariance matrix was used.||0.19|-0.35|0.5540
82447501|NCT04207749|164603687|NON_INFERIORITY|Noninferiority in CLCDVA was declared if the upper confidence limit was less than 0.10 logMAR.|Least Squares Mean Difference|0.01|||||TWO_SIDED|95.0|0.0|0.02||Since noninferiority hypotheses are being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Mixed effects repeated measures||Least squares mean difference (LID015385 minus Biofinity).|||0.02|-0.00|
82417168|NCT01398475|164545704|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.888|||||TWO_SIDED|90.0|0.827|0.953|||||The geometric LS mean ratio (TF2 fed divided by TF2 fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||0.953|0.827|
82417169|NCT01398475|164545705|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|0.979|||||TWO_SIDED|90.0|0.868|1.1|||||The geometric LS mean ratio (TF1 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.10|0.868|
82417170|NCT01398475|164545705|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.962|||||TWO_SIDED|90.0|0.852|1.08|||||The geometric LS mean ratio (TF2 fasted divided by RF fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||1.08|0.852|
82417171|NCT01398475|164545705|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|0.82|||||TWO_SIDED|90.0|0.727|0.925|||||The geometric LS mean ratio (TF2 fed divided by TF2 fasted) was calculated using a linear mixed-effects model adjusted for treatment, sequence, period, and participant.|||0.925|0.727|
82417172|NCT01398475|164545706|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.719|TWO_SIDED|90.0|-0.25|0.5|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF1 fasted minus RF fasted.|||0.500|-0.250|0.719
82417173|NCT01398475|164545706|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.96|TWO_SIDED|90.0|-0.25|0.75|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF2 fasted minus RF fasted.|||0.750|-0.250|0.960
82417174|NCT01398475|164545706|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.006|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon (Mann-Whitney)||The median difference was calculated as TF2 fed minus TF2 fasted.|||2.00|0|0.006
82417175|NCT00694122|164545707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|277.9|STANDARD_ERROR_OF_MEAN|164.9|<|0.05|TWO_SIDED|95.0|-75.9|631.6|||t-test, 2 sided|No adjustments were made. T-test type: Paired samples t-test (df=14) was performed using 15 within subject differences.|The comparative measures was defined as (mean AUC of glargine (Lantus)) minus (mean AUC of NPH).|||631.6|-75.9|<0.05
82417176|NCT00694122|164545708|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82417177|NCT00694122|164545712|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82417178|NCT00086307|164545717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.826|STANDARD_ERROR_OF_MEAN|2.296||0.018|TWO_SIDED|95.0|1.111|12.541||This is the omnibus effect of drug.|Mixed Models Analysis|||A linear mixed model with restricted maximum likelihood estimation and a first order autoregressive covariance structure was used to examine depressive symptoms over time. Fixed factors for drug, time, and a time by drug interaction were included in the model along with the intercept. No random factors were included because the subject factor did not contribute significantly to the model. Baseline symptoms were used as a covariate.||12.541|1.111|.018
82447502|NCT04207749|164603688|NON_INFERIORITY|Proportion of subjects is presented. Noninferiority in proportion of subjects achieving CLCDVA 20/20 or better in each eye was declared if the lower confidence limit was greater than -0.10.|Difference in proportion|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||Since noninferiority hypotheses are being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Farrington-Manning||Lens difference (LID015385 minus Biofinity)|||0.04|-0.06|
82447503|NCT03416127|164603697|OTHER|||||||0.031|||||||Kruskal-Wallis|||||||0.031
82447504|NCT03416127|164603698|OTHER|||||||0.963|||||||Kruskal-Wallis|||||||0.963
82447505|NCT03416127|164603699|OTHER|||||||0.236|||||||Kruskal-Wallis|||||||0.236
82447506|NCT03416127|164603700|OTHER|||||||0.015|||||||Kruskal-Wallis|||||||0.015
82447507|NCT03416127|164603701|OTHER|||||||0.017|||||||Kruskal-Wallis|||||||0.017
82417179|NCT00086307|164545717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.826|STANDARD_ERROR_OF_MEAN|2.296||0.014|TWO_SIDED|95.0|1.111|12.541||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The pramipexole group had a lower MADRS score than the pramipexole and escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the pramipexole group to the pramipexole and escitalopram combination group.||12.541|1.111|.014
82417180|NCT00086307|164545717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.353|STANDARD_ERROR_OF_MEAN|2.296||0.454|TWO_SIDED|95.0|-2.36|9.066||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The escitalopram group had a lower MADRS score than the pramipexole and escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the escitalopram group to the pramipexole and escitalopram combination group.||9.066|-2.360|.454
82417181|NCT00086307|164545717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.473|STANDARD_ERROR_OF_MEAN|2.162||0.349|TWO_SIDED|95.0|-1.942|8.888||The significance level was adjusted using a Bonferroni correction.|Post hoc simple effects test||The pramipexole group had a lower MADRS score than the escitalopram group.|Post-hoc simple effects tests with Bonferroni correction were used to compare the pramipexole group to the escitalopram group.||8.888|-1.942|.349
82417182|NCT01348490|164545746|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.025||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0250
82417183|NCT01348490|164545746|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.0163||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0163
82417184|NCT01348490|164545746|OTHER|1-sample t-test with null hypothesis mean \>= 0|||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
82417185|NCT01348490|164545746|OTHER|1-sample t-test with null hypothesis mean \>= 0||||||0.2019||||||1-sample t-test was used.|t-test, 1 sided|||||||0.2019
82417186|NCT01348490|164545747|OTHER|||||||0.6887||||||1-sample t-test was used.|t-test, 1 sided|||||||0.6887
82417187|NCT01348490|164545747|OTHER||||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
82417188|NCT01348490|164545747|OTHER|||||||0.8701||||||1-sample t-test was used.|t-test, 1 sided|||||||0.8701
82447508|NCT03416127|164603702|OTHER|||||||0.162|||||||Kruskal-Wallis|||||||0.162
82417189|NCT01348490|164545751|OTHER||||||<|0.0001||||||1-sample t-test was used.|t-test, 1 sided|||||||<0.0001
82417190|NCT01348490|164545752|OTHER|||||||0.0028||||||1-sample t-test was used.|t-test, 1 sided|||||||0.0028
82417191|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.77|||||TWO_SIDED|95.0|1.3|2.4||||||1 min post bolus (Bolus time: 3 hours)||2.40|1.30|
82417192|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.91|||||TWO_SIDED|95.0|1.42|2.59||||||1 min post bolus (Bolus time: 3 hours)||2.59|1.42|
82417193|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.84|||||TWO_SIDED|95.0|1.37|2.49||||||1 min post bolus (Bolus time: 3 hours)||2.49|1.37|
82417194|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.42|||||TWO_SIDED|95.0|1.05|1.92||||||1 min post bolus (Bolus time: 3 hours)||1.92|1.05|
82417195|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.08|||||TWO_SIDED|95.0|0.8|1.46||||||1 min post bolus (Bolus time: 3 hours)||1.46|0.80|
82417196|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.77|1.41||||||1 min post bolus (Bolus time: 3 hours)||1.41|0.77|
82417197|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.8|||||TWO_SIDED|95.0|0.59|1.08||||||1 min post bolus (Bolus time: 3 hours)||1.08|0.59|
82417198|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.96|||||TWO_SIDED|95.0|0.72|1.3||||||1 min post bolus (Bolus time: 3 hours)||1.30|0.72|
82417199|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||1 min post bolus (Bolus time: 3 hours)||1.00|0.55|
82417200|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.77|||||TWO_SIDED|95.0|0.57|1.04||||||1 min post bolus (Bolus time: 3 hours)||1.04|0.57|
82417201|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.49|||||TWO_SIDED|95.0|1.09|2.02||||||1 min post bolus (Bolus time: 6 hours)||2.02|1.09|
82417202|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.68|||||TWO_SIDED|95.0|1.25|2.28||||||1 min post bolus (Bolus time: 6 hours)||2.28|1.25|
82417203|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.84|||||TWO_SIDED|95.0|1.36|2.48||||||1 min post bolus (Bolus time: 6 hours)||2.48|1.36|
82417204|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.16|||||TWO_SIDED|95.0|0.85|1.56||||||1 min post bolus (Bolus time: 6 hours)||1.56|0.85|
82417205|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.13|||||TWO_SIDED|95.0|0.83|1.54||||||1 min post bolus (Bolus time: 6 hours)||1.54|0.83|
82417206|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.24|||||TWO_SIDED|95.0|0.91|1.68||||||1 min post bolus (Bolus time: 6 hours)||1.68|0.91|
82417207|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.78|||||TWO_SIDED|95.0|0.57|1.05||||||1 min post bolus (Bolus time: 6 hours)||1.05|0.57|
82417208|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.09|||||TWO_SIDED|95.0|0.81|1.47||||||1 min post bolus (Bolus time: 6 hours)||1.47|0.81|
82417209|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.69|||||TWO_SIDED|95.0|0.51|0.93||||||1 min post bolus (Bolus time: 6 hours)||0.93|0.51|
82417210|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.63|||||TWO_SIDED|95.0|0.47|0.85||||||1 min post bolus (Bolus time: 6 hours)||0.85|0.47|
82417211|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.49|||||TWO_SIDED|95.0|1.1|2.03||||||1 min post bolus (Bolus time: 9 hours)||2.03|1.10|
82417212|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.96|||||TWO_SIDED|95.0|1.45|2.65||||||1 min post bolus (Bolus time: 9 hours)||2.65|1.45|
82417213|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|2.03|||||TWO_SIDED|95.0|1.5|2.74||||||1 min post bolus (Bolus time: 9 hours)||2.74|1.50|
82417214|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.25|||||TWO_SIDED|95.0|0.93|1.69||||||1 min post bolus (Bolus time: 9 hours)||1.69|0.93|
82417215|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.31|||||TWO_SIDED|95.0|0.97|1.78||||||1 min post bolus (Bolus time: 9 hours)||1.78|0.97|
82447509|NCT03416127|164603703|OTHER|||||||0.686|||||||Kruskal-Wallis|||||||0.686
82447510|NCT03416127|164603704|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82447511|NCT03416127|164603705|OTHER|||||||0.945|||||||Kruskal-Wallis|||||||0.945
82447512|NCT03416127|164603706|OTHER|||||||0.332|||||||Kruskal-Wallis|||||||0.332
82447513|NCT03416127|164603707|OTHER|||||||0.075|||||||Kruskal-Wallis|||||||0.075
82447514|NCT03416127|164603708|OTHER|||||||0.903|||||||Kruskal-Wallis|||||||0.903
82533087|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2724|||<|0.001|TWO_SIDED|95.0|0.203|0.3417|||ANOVA|||15min||0.3417|0.2030|<0.001
82533088|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.273|||<|0.001|TWO_SIDED|95.0|0.2036|0.3423|||ANOVA|||30 min||0.3423|0.2036|<0.001
82533089|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2609|||<|0.001|TWO_SIDED|95.0|0.1915|0.3302|||ANOVA|||1 hour||0.3302|0.1915|<0.001
82533090|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2494|||<|0.001|TWO_SIDED|95.0|0.18|0.3188|||ANOVA|||2 hour||0.3188|0.1800|<0.001
82533091|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2273|||<|0.001|TWO_SIDED|95.0|0.1578|0.2968|||ANOVA|||4 hour||0.2968|0.1578|<0.001
82533092|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2396|||<|0.001|TWO_SIDED|95.0|0.1697|0.3096|||ANOVA|||8 hour||0.3096|0.1697|<0.001
82533093|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2443|||<|0.001|TWO_SIDED|95.0|0.1742|0.3144|||ANOVA|||12 hour||0.3144|0.1742|<0.001
82533094|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.228|||<|0.001|TWO_SIDED|95.0|0.1563|0.2997|||ANOVA|||23 hour 15 min||0.2997|0.1563|<0.001
82533095|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.1954|||<|0.001|TWO_SIDED|95.0|0.1237|0.2671|||ANOVA|||23 hour 45 min||0.2671|0.1237|<0.001
82533096|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2195|||<|0.001|TWO_SIDED|95.0|0.1502|0.2889|||ANOVA|||5 min||0.2889|0.1502|<0.001
82533097|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2684|||<|0.001|TWO_SIDED|95.0|0.1988|0.338|||ANOVA|||15 min||0.3380|0.1988|<0.001
82533098|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2572|||<|0.001|TWO_SIDED|95.0|0.1879|0.3266|||ANOVA|||30 min||0.3266|0.1879|<0.001
82533099|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2348|||<|0.001|TWO_SIDED|95.0|0.1656|0.304|||ANOVA|||1 hour||0.3040|0.1656|<0.001
82533100|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2546|||<|0.001|TWO_SIDED|95.0|0.1852|0.3239|||ANOVA|||2 hour||0.3239|0.1852|<0.001
82533101|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2322|||<|0.001|TWO_SIDED|95.0|0.1627|0.3017|||ANOVA|||4 hour||0.3017|0.1627|<0.001
82533102|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2324|||<|0.001|TWO_SIDED|95.0|0.1627|0.302|||ANOVA|||8 hour||0.3020|0.1627|<0.001
82533103|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.2057|||<|0.001|TWO_SIDED|95.0|0.1359|0.2755|||ANOVA|||12 hour||0.2755|0.1359|<0.001
82533104|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.1625|||<|0.001|TWO_SIDED|95.0|0.0912|0.2337|||ANOVA|||23 hour 15 min||0.2337|0.0912|<0.001
82533105|NCT03257995|164763821|OTHER||Mean Difference (Final Values)|0.1793|||<|0.001|TWO_SIDED|95.0|0.108|0.2505|||ANOVA|||23 hour 45 min||0.2505|0.1080|<0.001
82533106|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.2|||ANOVA|||at 5 min||9.2|5.0|<.001
82533107|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|8.5|||<|0.001|TWO_SIDED|95.0|6.4|10.6|||ANOVA|||at 15 min||10.6|6.4|<.001
82533108|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|8.6|||<|0.001|TWO_SIDED|95.0|6.5|10.7|||ANOVA|||at 30||10.7|6.5|<0.001
82533109|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|8.0|||<|0.001|TWO_SIDED|95.0|6.0|10.1|||ANOVA|||at 1 hour||10.1|6.0|<0.001
82533110|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|5.5|9.7|||ANOVA|||at 2 hours||9.7|5.5|<0.001
82533111|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.1|||ANOVA|||at 4 hours||9.1|5.0|<0.001
82533112|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.3|||<|0.001|TWO_SIDED|95.0|5.2|9.4|||ANOVA|||at 8 hours||9.4|5.2|<0.001
82447515|NCT03416127|164603709|OTHER|||||||0.697|||||||Kruskal-Wallis|||||||0.697
82447516|NCT03416127|164603710|OTHER|||||||0.668|||||||Kruskal-Wallis|||||||0.668
82447517|NCT03416127|164603711|OTHER|||||||0.308|||||||Kruskal-Wallis|||||||0.308
82447518|NCT03416127|164603712|OTHER|||||||0.318|||||||Kruskal-Wallis|||||||0.318
82447519|NCT03416127|164603713|OTHER|||||||0.88|||||||Kruskal-Wallis|||||||0.880
82447520|NCT03416127|164603714|OTHER|||||||0.376|||||||Kruskal-Wallis|||||||0.376
82447521|NCT03416127|164603715|OTHER|||||||0.21|||||||Kruskal-Wallis|||||||0.210
82447522|NCT03416127|164603716|OTHER|||||||0.88|||||||Kruskal-Wallis|||||||0.880
82447523|NCT03416127|164603717|OTHER|||||||0.059|||||||Kruskal-Wallis|||||||0.059
82447524|NCT03416127|164603718|OTHER|||||||0.978|||||||Kruskal-Wallis|||||||0.978
82447525|NCT03416127|164603719|OTHER|||||||0.122|||||||Kruskal-Wallis|||||||0.122
82533113|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|5.5|9.7|||ANOVA|||at 12 hours||9.7|5.5|<0.001
82533114|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.0|||<|0.001|TWO_SIDED|95.0|4.8|9.1|||ANOVA|||at 23 hours 15 min||9.1|4.8|<0.001
82533115|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|6.4|||<|0.001|TWO_SIDED|95.0|4.2|8.6|||ANOVA|||at 23 hours 45 min||8.6|4.2|<0.001
82533116|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.1|||<|0.001|TWO_SIDED|95.0|5.0|9.2|||ANOVA|||at 5 min||9.2|5.0|<0.001
82533117|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|8.3|||<|0.001|TWO_SIDED|95.0|6.2|10.4|||ANOVA|||at 15 min||10.4|6.2|<0.001
82533118|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|8.1|||<|0.001|TWO_SIDED|95.0|6.0|10.2|||ANOVA|||at 30 min||10.2|6.0|<0.001
82533119|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|95.0|5.3|9.4|||ANOVA|||at 1 hour||9.4|5.3|<0.001
82533120|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.8|||<|0.001|TWO_SIDED|95.0|5.7|9.9|||ANOVA|||at 2 hours||9.9|5.7|<0.001
82533121|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.3|||<|0.001|TWO_SIDED|95.0|5.2|9.4|||ANOVA|||at 4 hours||9.4|5.2|<0.001
82533122|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|95.0|5.3|9.5|||ANOVA|||at 8 hours||9.5|5.3|<0.001
82533123|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|6.3|||<|0.001|TWO_SIDED|95.0|4.2|8.4|||ANOVA|||at 12 hours||8.4|4.2|<0.001
82533124|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|5.1|||<|0.001|TWO_SIDED|95.0|2.9|7.2|||ANOVA|||at 23 hours 15 min||7.2|2.9|<0.001
82533125|NCT03257995|164763822|OTHER||Mean Difference (Final Values)|5.9|||<|0.001|TWO_SIDED|95.0|3.7|8.0|||ANOVA|||at 23 hours 45 min||8.0|3.7|<0.001
82533126|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1866|||<|0.001|TWO_SIDED|95.0|0.1121|0.2611|||ANOVA|||5 min||0.2611|0.1121|<0.001
82417216|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.36|||||TWO_SIDED|95.0|1.01|1.84||||||1 min post bolus (Bolus time: 9 hours)||1.84|1.01|
82417217|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.84|||||TWO_SIDED|95.0|0.62|1.14||||||1 min post bolus (Bolus time: 9 hours)||1.14|0.62|
82417218|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.77|1.4||||||1 min post bolus (Bolus time: 9 hours)||1.40|0.77|
82417219|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.64|||||TWO_SIDED|95.0|0.47|0.86||||||1 min post bolus (Bolus time: 9 hours)||0.86|0.47|
82417220|NCT05067270|164545762|OTHER||Geometric Least Squares Mean Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.83||||||1 min post bolus (Bolus time: 9 hours)||0.83|0.46|
82417221|NCT03461861|164545763|SUPERIORITY||Median Difference (Final Values)|-0.083|STANDARD_DEVIATION|0.0056||0.007567|TWO_SIDED|95.0|-0.0886|-0.0774|||t-test, 2 sided|||The null hypothesis (H0) of this superiority trials asserts that there is no true difference in functional connectivity between the interventions of placebo and AGB101, and the alternative hypothesis (H1) states that there is a difference between the interventions of placebo and AGB101. A type I error is the error of rejecting H0 when it is actually true.||-0.0774|-0.0886|0.007567
82533127|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2249|||<|0.001|TWO_SIDED|95.0|0.1506|0.2992|||ANOVA|||15 min||0.2992|0.1506|<0.001
82533128|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2404|||<|0.001|TWO_SIDED|95.0|0.1661|0.3148|||ANOVA|||30 min||0.3148|0.1661|<0.001
82533129|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2074|||<|0.001|TWO_SIDED|95.0|0.133|0.2817|||ANOVA|||1 hour||0.2817|0.1330|<0.001
82533130|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1802|||<|0.001|TWO_SIDED|95.0|0.1059|0.2545|||ANOVA|||2 hours||0.2545|0.1059|<0.001
82533131|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1621|||<|0.001|TWO_SIDED|95.0|0.0876|0.2366|||ANOVA|||4 hours||0.2366|0.0876|<0.001
82533132|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.199|||<|0.001|TWO_SIDED|95.0|0.1239|0.2742|||ANOVA|||8 hours||0.2742|0.1239|<0.001
82533133|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1747|||<|0.001|TWO_SIDED|95.0|0.0994|0.2501|||ANOVA|||12 hours||0.2501|0.0994|<0.001
82417222|NCT03461861|164545764|SUPERIORITY||Mean Difference (Final Values)|3.12|STANDARD_DEVIATION|1.4||0.900593|TWO_SIDED|95.0|1.72|4.52|||t-test, 2 sided|||The null hypothesis (H0) of this trial asserts that there is no true difference in AVLT between the interventions of placebo and AGB101, and the alternative hypothesis (H1) states that there is a difference between the interventions of placebo and AGB101. A type I error is the error of rejecting H0 when it is actually true.||4.52|1.72|0.900593
82417223|NCT01567085|164545771|OTHER|Exact binomial test|||||<|0.001||||||The p-value was calculated from an exact binomial test, where the null hypothesis was that the true failure rate = 40%.|Exact binomial test|Exact 95% confidence interval (3.6, 17.2)||Analysis of post-transplantation treatment failure rate||||< 0.001
82417224|NCT00324857|164545776|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||"Please note that although the outcome is measured using a Likert scale, for the analysis we dichotomized the results.~P-value not adjusted for multiple comparison. Lastly, \<0.05 is the actual computed P-value."|Regression, Logistic|||Comparisons of the baseline demographic and clinical characteristics (TKR) across the 4 intervention groups were performed using chi-square tests for categorical data and analysis of variance for continuous variables. Willingness were compared across the groups over time using mixed-effect logistic regressions for dichotomous outcomes.||||<0.05
82426579|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28|||<|0.0001|TWO_SIDED|95.0|-2.9|-1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.6|-2.9|<0.0001
82426580|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.6558|TWO_SIDED|95.0|-0.8|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.5|-0.8|0.6558
82447526|NCT03416127|164603720|OTHER|||||||0.551|||||||Kruskal-Wallis|||||||0.551
82447527|NCT00858208|164603737|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED||||||paired t-test|||||||0.0072
82533134|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1856|||<|0.001|TWO_SIDED|95.0|0.1081|0.2631|||ANOVA|||23 hours 15 min||0.2631|0.1081|<0.001
82533135|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1484|||<|0.001|TWO_SIDED|95.0|0.0709|0.2259|||ANOVA|||23 hours 45 min||0.2259|0.0709|<0.001
82533136|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.1386|0.2873|||ANOVA|||5 min||0.2873|0.1386|<0.001
82533137|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2173|||<|0.001|TWO_SIDED|95.0|0.1426|0.292|||ANOVA|||15 min||0.2920|0.1426|<0.001
82533138|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2375|||<|0.001|TWO_SIDED|95.0|0.1632|0.3118|||ANOVA|||30 min||0.3118|0.1632|<0.001
82533139|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2013|||<|0.001|TWO_SIDED|95.0|0.1272|0.2754|||ANOVA|||1 hour||0.2754|0.1272|<0.001
82533140|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.2005|||<|0.001|TWO_SIDED|95.0|0.1262|0.2749|||ANOVA|||2 hours||0.2749|0.1262|<0.001
82533141|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1946|||<|0.001|TWO_SIDED|95.0|0.1201|0.2691|||ANOVA|||4 hours||0.2691|0.1201|<0.001
82533142|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1937|||<|0.001|TWO_SIDED|95.0|0.119|0.2684|||ANOVA|||8 hours||0.2684|0.1190|<0.001
82533143|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1619|||<|0.001|TWO_SIDED|95.0|0.087|0.2369|||ANOVA|||12 hour||0.2369|0.0870|<0.001
82533144|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1249|||<|0.001|TWO_SIDED|95.0|0.048|0.2018|||ANOVA|||23 hour 15 min||0.2018|0.0480|<0.001
82447528|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.0433|TWO_SIDED||||||paired t-test|||Change from baseline at Week 6||||0.0433
82533145|NCT03257995|164763823|OTHER||Mean Difference (Final Values)|0.1546|||<|0.001|TWO_SIDED|95.0|0.0777|0.2315|||ANOVA|||23 hour 45 min||0.2315|0.0777|<0.001
82533146|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.1|7.0|||ANOVA|||5 min||7.0|3.1|<0.001
82533147|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|6.0|||<|0.001|TWO_SIDED|95.0|4.0|7.9|||ANOVA|||15 min||7.9|4|<0.001
82533148|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|6.6|||<|0.001|TWO_SIDED|95.0|4.6|8.5|||ANOVA|||30 min||8.5|4.6|<0.001
82417225|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.19|<|0.01|TWO_SIDED|95.0|0.18|0.91||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.91|0.18|<.01
82426581|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.5|-2.8|<0.0001
82426582|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.41|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.7|-3.1|<0.0001
82576618|NCT01182441|164863507|SUPERIORITY|Success for this endpoint was achieved if the probability of experiencing an event was statistically less than the performance goal, defined as 2.67%, with an upper bound of the one-sided 95% credible interval less than the performance goal.|probability of experiencing an event|2.2|||||ONE_SIDED|95.0||2.652||||||Bayesian calculations were used to incorporate the data from PROTECT AF CAP Registry through a conjugate beta-binomial model. A one-sided upper 95% credible interval for the event rate was calculated based off this posterior distribution.||2.652||
82533149|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.4|||ANOVA|||1 hour||7.4|3.5|<0.001
82533150|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.7|||<|0.001|TWO_SIDED|95.0|2.8|6.7|||ANOVA|||2 hour||6.7|2.8|<0.001
82533151|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.3|||<|0.001|TWO_SIDED|95.0|2.3|6.3|||ANOVA|||4 hour||6.3|2.3|<0.001
82533152|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.0|7.0|||ANOVA|||8 hour||7|3|<0.001
82533153|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.5|||<|0.001|TWO_SIDED|95.0|2.5|6.5|||ANOVA|||12 hour||6.5|2.5|<0.001
82533154|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.6|||<|0.001|TWO_SIDED|95.0|2.6|6.7|||ANOVA|||23 hour 15 min||6.7|2.6|<0.001
82533155|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.1|||<|0.001|TWO_SIDED|95.0|2.0|6.2|||ANOVA|||23 hour 45 min||6.2|2.0|<0.001
82533156|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.9|7.8|||ANOVA|||5 min||7.8|3.9|<0.001
82533157|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.9|7.8|||ANOVA|||15 min||7.8|3.9|<0.001
82533158|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|6.3|||<|0.001|TWO_SIDED|95.0|4.4|8.3|||ANOVA|||30 min||8.3|4.4|<0.001
82533159|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.5|||ANOVA|||1 hour||7.5|3.5|<0.001
82533160|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.5|||<|0.001|TWO_SIDED|95.0|3.5|7.4|||ANOVA|||2 hour||7.4|3.5|<0.001
82533161|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.1|7.0|||ANOVA|||4 hour||7.0|3.1|<0.001
82533162|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|5.0|||<|0.001|TWO_SIDED|95.0|3.0|7.0|||ANOVA|||8 hour||7.0|3.0|<0.001
82533163|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.2|||<|0.001|TWO_SIDED|95.0|2.2|6.2|||ANOVA|||12 hour||6.2|2.2|<0.001
82533164|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|3.0||||0.004|TWO_SIDED|95.0|1.0|5.0|||ANOVA|||23 hour 15 min||5.0|1.0|0.004
82533165|NCT03257995|164763824|OTHER||Mean Difference (Final Values)|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||ANOVA|||23 hour 45 min||6.1|2.1|<0.001
82533166|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0249|||<|0.001|TWO_SIDED|95.0|0.0139|0.0359|||ANOVA|||5 min||0.0359|0.0139|<.001
82533167|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.033|||<|0.001|TWO_SIDED|95.0|0.022|0.044|||ANOVA|||15 min||0.0440|0.0220|<.001
82533168|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0306|||<|0.001|TWO_SIDED|95.0|0.0197|0.0416|||ANOVA|||30 min||0.0416|0.0197|<0.001
82533169|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0324|||<|0.001|TWO_SIDED|95.0|0.0214|0.0434|||ANOVA|||1 hour||0.0434|0.0214|<0.001
82533170|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0338|||<|0.001|TWO_SIDED|95.0|0.0228|0.0447|||ANOVA|||2 hour||0.0447|0.0228|<0.001
82533171|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0325|||<|0.001|TWO_SIDED|95.0|0.0215|0.0435|||ANOVA|||4 hour||0.0435|0.0215|<0.001
82533172|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0311|||<|0.001|TWO_SIDED|95.0|0.02|0.0422|||ANOVA|||8 hour||0.0422|0.0200|<0.001
82533173|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0359|||<|0.001|TWO_SIDED|95.0|0.0248|0.047|||ANOVA|||12 hour||0.0470|0.0248|<0.001
82533174|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0326|||<|0.001|TWO_SIDED|95.0|0.0211|0.044|||ANOVA|||23 hour 15 min||0.0440|0.0211|<0.001
82533175|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0301|||<|0.001|TWO_SIDED|95.0|0.0187|0.0415|||ANOVA|||23 hour 45 min||0.0415|0.0187|<0.001
82533176|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0222|||<|0.001|TWO_SIDED|95.0|0.0113|0.0332|||ANOVA|||5 min||0.0332|0.0113|<0.001
82533177|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0344|||<|0.001|TWO_SIDED|95.0|0.0234|0.0454|||ANOVA|||15 min||0.0454|0.0234|<0.001
82533178|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.029|||<|0.001|TWO_SIDED|95.0|0.018|0.0399|||ANOVA|||30 min||0.0399|0.0180|<0.001
82533179|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0278|||<|0.001|TWO_SIDED|95.0|0.0169|0.0387|||ANOVA|||1 hour||0.0387|0.0169|<0.001
82533180|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0338|||<|0.001|TWO_SIDED|95.0|0.0228|0.0447|||ANOVA|||2 hour||0.0447|0.0228|<0.001
82417226|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.18||0.96|TWO_SIDED|95.0|-0.35|0.37||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.37|-0.35|.96
82417227|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.18|<|0.01|TWO_SIDED|95.0|-0.89|-0.18||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||-0.18|-0.89|<.01
82417228|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|95.0|-0.09|0.38||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.38|-0.09|.23
82417229|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.12||0.9|TWO_SIDED|95.0|-0.25|0.22||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.22|-0.25|.90
82417230|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED|95.0|-0.38|0.07||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.07|-0.38|.17
82417231|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.58|TWO_SIDED|95.0|-0.16|0.28||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.28|-0.16|.58
82417232|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.11||0.15|TWO_SIDED|95.0|-0.06|0.37||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.37|-0.06|.15
82426583|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.8688|TWO_SIDED|95.0|-0.7|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.6|-0.7|0.8688
82533181|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0278|||<|0.001|TWO_SIDED|95.0|0.0168|0.0387|||ANOVA|||4 hour||0.0387|0.0168|<0.001
82533182|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0316|||<|0.001|TWO_SIDED|95.0|0.0206|0.0426|||ANOVA|||8 hour||0.0426|0.0206|<0.001
82533183|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0285|||<|0.001|TWO_SIDED|95.0|0.0175|0.0396|||ANOVA|||12 hour||0.0396|0.0175|<0.001
82576619|NCT01182441|164863508|NON_INFERIORITY|This endpoint is met if the 95% Credible Interval for the rate ratio of WATCHMAN versus Warfarin is entirely less than 1.75.|Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.57|1.89||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval model were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately by treatment group and event type. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||1.89|0.57|
82576620|NCT01182441|164863509|NON_INFERIORITY|This endpoint is met if either the 95% Credible Interval for the risk ratio \< 2.0 or the 95% Credible Interval for the risk difference is \< 0.0275.|Risk Difference (RD)|0.0053|||||TWO_SIDED|95.0|-0.019|0.0273||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately for the WATCHMAN and Warfarin groups. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||0.0273|-0.0190|
82647119|NCT02660385|165009328|SUPERIORITY||effect size|-0.27||||0.0954|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0954
82417233|NCT03537729|164545780|SUPERIORITY|Power was based on planned 12 sites and effect size Cohen's d=0.42 for pairwise differences between arms, intraclass correlation coefficient of 0.0012, and reduction in variance due to adjustment for baseline and repeated measures with correlation of 0.4 between pairs of measures. The sample size requirement was 38 per group, or 114 total for power of .80 in two-sided tests at .05 level of significance.|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.1||0.37|TWO_SIDED|95.0|-0.11|0.29||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.29|-0.11|.37
82417234|NCT03537729|164545781|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.04|TWO_SIDED|95.0|-0.07|-0.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Cues minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||-0.01|-0.07|.04
82417235|NCT03537729|164545781|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1|TWO_SIDED|95.0|-0.07|0.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus control.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.01|-0.07|.10
82417236|NCT03537729|164545781|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.69|TWO_SIDED|95.0|-0.03|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms on the low complexity route are equal, the alternative was that means were not equal.||0.04|-0.03|.69
82417237|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.65||||0.04|TWO_SIDED|95.0|0.44|0.99||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for cues divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means for two arms was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.99|0.44|0.04
82417238|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.59||||0.01|TWO_SIDED|95.0|0.39|0.9||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||0.90|0.39|.01
82417239|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.9||||0.61|TWO_SIDED|95.0|0.6|1.35||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for cues. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the moderate complexity route are equal, the alternative was that means were not equal.||1.35|0.60|.61
82426584|NCT00565409|164561898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.7|-3.0|<0.0001
82417240|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|1.26||||0.26|TWO_SIDED|95.0|0.84|1.88||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for cues divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||1.88|0.84|.26
82417241|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.79||||0.25|TWO_SIDED|95.0|0.53|1.19||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for control. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||1.19|0.53|.25
82417242|NCT03537729|164545782|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Ratio of mean proportions of errors|0.63||||0.03|TWO_SIDED|95.0|0.42|0.94||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Generalized mixed model analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline, and use of wheelchair on the route.|Ratio of mean proportion of errors for spaced retrieval divided by proportion of errors for cues. Log of the mean was estimated from generalized linear mixed effects models for each arm. The difference between logs of means was exponentiated.|The null hypothesis was that means of two arms on the high complexity route are equal, the alternative was that means were not equal.||0.94|0.42|.03
82417243|NCT03537729|164545783|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|1.69||0.31|TWO_SIDED|95.0|-5.03|1.6||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Cues minus control.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||1.60|-5.03|.31
82417244|NCT03537729|164545783|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|1.75||0.66|TWO_SIDED|95.0|-4.23|2.66||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Spaced retrieval minus control.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||2.66|-4.23|.66
82417245|NCT03537729|164545783|SUPERIORITY|Sample size was determined by power analysis for the adjusted wayfinding speed.|Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|1.65||0.57|TWO_SIDED|95.0|-2.3|4.17||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Covariates included baseline value of the outcome, age, sex, and cognition score at baseline.|Spaced retrieval minus cues only.|The null hypothesis was that means of two arms are equal, the alternative was that means were not equal.||4.17|-2.30|.57
82417246|NCT02802865|164545844|SUPERIORITY||Rate ratio|1.8||||0.007|TWO_SIDED|95.0|1.18|2.75|||Chi-squared, Corrected|||||2.75|1.18|0.007
82417247|NCT02802865|164545845|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417248|NCT02802865|164545846|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82417249|NCT02802865|164545847|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82417250|NCT02802865|164545848|SUPERIORITY|||||||0.709|||||||Chi-squared|||This study was not powered to detect significant between-group differences for this conception.||||0.709
82533184|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0281|||<|0.001|TWO_SIDED|95.0|0.0167|0.0394|||ANOVA|||23 hour 15 min||0.0394|0.0167|<0.001
82417251|NCT02802865|164545849|SUPERIORITY|||||||0.356|||||||Chi-squared|||This study was not powered to detect significant between-group differences for clinical pregnancy.||||0.356
82417252|NCT02802865|164545851|SUPERIORITY|||||||0.356|||||||Chi-squared|||This study was not powered to detect significant between-group differences for live birth.||||0.356
82417253|NCT02802865|164545852|SUPERIORITY|||||||0.486|||||||Chi-squared, Corrected|||This study was not powered to detect significant between-group differences for pregnancy loss.||||0.486
82417254|NCT02504775|164545853|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|94.704|||||TWO_SIDED|90.0|88.329|101.54|||ANOVA|||||101.540|88.329|
82417255|NCT02504775|164545854|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|95.989|||||TWO_SIDED|90.0|89.826|102.574|||ANOVA|||||102.574|89.826|
82533185|NCT03257995|164763825|OTHER||Mean Difference (Final Values)|0.0266|||<|0.001|TWO_SIDED|95.0|0.0152|0.0379|||ANOVA|||23 hour 45 min||0.0379|0.0152|<0.001
82533186|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2025|||<|0.001|TWO_SIDED|95.0|0.1059|0.2952|||ANOVA|||5 min||0.2952|0.1059|<0.001
82533187|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2923|||<|0.001|TWO_SIDED|95.0|0.1979|0.3867|||ANOVA|||15 min||0.3867|0.1979|<0.001
82533188|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2657|||<|0.001|TWO_SIDED|95.0|0.1713|0.3601|||ANOVA|||30 min||0.3601|0.1713|<0.001
82533189|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2752|||<|0.001|TWO_SIDED|95.0|0.1808|0.3696|||ANOVA|||1 hour||0.3696|0.1808|<0.001
82417256|NCT02504775|164545855|NON_INFERIORITY_OR_EQUIVALENCE|Log-transformed PK parameter was compared between products using a linear mixed effects model including terms for product, period, sequence as fixed effect and subject nested within sequence as random effect. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Ratio of Averages of Tylenol/Mejoral|106.132|||||TWO_SIDED|90.0|85.151|132.283|||ANOVA|||||132.283|85.151|
82417257|NCT00676052|164545880|SUPERIORITY||Mean Difference (Net)|0.067||||0.009|TWO_SIDED|95.0|0.017|0.117||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.117|0.017|0.009
82417258|NCT00676052|164545880|SUPERIORITY||Mean Difference (Net)|0.097|||<|0.001|TWO_SIDED|95.0|0.047|0.147||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.147|0.047|<0.001
82417259|NCT00676052|164545880|SUPERIORITY||Mean Difference (Net)|0.069||||0.007|TWO_SIDED|95.0|0.019|0.118||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.118|0.019|0.007
82417260|NCT00676052|164545880|SUPERIORITY||Mean Difference (Net)|0.082||||0.001|TWO_SIDED|95.0|0.032|0.132||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.132|0.032|0.001
82417261|NCT00676052|164545880|SUPERIORITY||Mean Difference (Net)|0.137|||<|0.001|TWO_SIDED|95.0|0.086|0.187||Analysis performed using ANCOVA with covariates of Baseline, sex, age, smoking status, responsiveness stratum and treatment. Missing trough FEV1 data at Day 29 was imputed using LOCF.|ANCOVA|||||0.187|0.086|<0.001
82417262|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.106|||<|0.001|TWO_SIDED|95.0|0.065|0.146||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.146|0.065|<0.001
82417263|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.107|||<|0.001|TWO_SIDED|95.0|0.067|0.147||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.147|0.067|<0.001
82417264|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.123|||<|0.001|TWO_SIDED|95.0|0.083|0.163||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 1||0.163|0.083|<0.001
82417265|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.152|||<|0.001|TWO_SIDED|95.0|0.112|0.193||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 1||0.193|0.112|<0.001
82417266|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.176|||<|0.001|TWO_SIDED|95.0|0.135|0.216||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 1||0.216|0.135|<0.001
82533190|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2819|||<|0.001|TWO_SIDED|95.0|0.1875|0.3763|||ANOVA|||2 hours||0.3763|0.1875|<0.001
82533191|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.282|||<|0.001|TWO_SIDED|95.0|0.1874|0.3766|||ANOVA|||4 hours||0.3766|0.1874|<0.001
82533192|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2538|||<|0.001|TWO_SIDED|95.0|0.1585|0.3492|||ANOVA|||8 hours||0.3492|0.1585|<0.001
82417267|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.106|||<|0.001|TWO_SIDED|95.0|0.056|0.157||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 28||0.157|0.056|<0.001
82417268|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.142|||<|0.001|TWO_SIDED|95.0|0.092|0.192||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV, Day 28||0.192|0.092|<0.001
82417269|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.124|||<|0.001|TWO_SIDED|95.0|0.074|0.174||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions|Repeated Measures Model|||FEV1, Day 28||0.174|0.074|<0.001
82417270|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.142|||<|0.001|TWO_SIDED|95.0|0.092|0.193||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 28||0.193|0.092|<0.001
82417271|NCT00676052|164545881|SUPERIORITY||Mean Difference (Net)|0.17|||<|0.001|TWO_SIDED|95.0|0.12|0.22||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||FEV1, Day 28||0.220|0.120|<0.001
82417272|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.166|||<|0.001|TWO_SIDED|95.0|0.094|0.237||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.237|0.094|<0.001
82417273|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.186|||<|0.001|TWO_SIDED|95.0|0.115|0.258||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.258|0.115|<0.001
82447529|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.0133|TWO_SIDED||||||paired t-test|||Change from baseline at Week 12||||0.0133
82447530|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||paired t-test|||Change from baseline at Week 18||||0.0278
82533193|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2687|||<|0.001|TWO_SIDED|95.0|0.1732|0.3643|||ANOVA|||12 hours||0.3643|0.1732|<0.001
82533194|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2453|||<|0.001|TWO_SIDED|95.0|0.1473|0.3434|||ANOVA|||23 hours 15 min||0.3434|0.1473|<0.001
82533195|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.1862|||<|0.001|TWO_SIDED|95.0|0.0882|0.2842|||ANOVA|||23 hours 45 min||0.2842|0.0882|<0.001
82417274|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.198|||<|0.001|TWO_SIDED|95.0|0.127|0.268||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.268|0.127|<0.001
82417275|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.244|||<|0.001|TWO_SIDED|95.0|0.172|0.315||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.315|0.172|<0.001
82417276|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.301|||<|0.001|TWO_SIDED|95.0|0.229|0.372||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 1||0.372|0.229|<0.001
82417277|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.178|||<|0.001|TWO_SIDED|95.0|0.098|0.258||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.258|0.098|<0.001
82417278|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.219|||<|0.001|TWO_SIDED|95.0|0.139|0.298||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.298|0.139|<0.001
82417279|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.191|||<|0.001|TWO_SIDED|95.0|0.111|0.27||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.270|0.111|<0.001
82417280|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.232|||<|0.001|TWO_SIDED|95.0|0.152|0.312||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.312|0.152|<0.001
82417281|NCT00676052|164545882|SUPERIORITY||Mean Difference (Net)|0.294|||<|0.001|TWO_SIDED|95.0|0.214|0.373||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||Day 28||0.373|0.214|<0.001
82417282|NCT00676052|164545883|SUPERIORITY||Mean Difference (Net)|0.099||||0.021|TWO_SIDED|95.0|0.015|0.182||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.182|0.015|0.021
82417283|NCT00676052|164545883|SUPERIORITY||Mean Difference (Net)|0.15|||<|0.001|TWO_SIDED|95.0|0.067|0.233||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.233|0.067|<0.001
82417284|NCT00676052|164545883|SUPERIORITY||Mean Difference (Net)|0.094||||0.026|TWO_SIDED|95.0|0.011|0.177||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.177|0.011|0.026
82417285|NCT00676052|164545883|SUPERIORITY||Mean Difference (Net)|0.163|||<|0.001|TWO_SIDED|95.0|0.08|0.247||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.247|0.080|<0.001
82417286|NCT00676052|164545883|SUPERIORITY||Mean Difference (Net)|0.235|||<|0.001|TWO_SIDED|95.0|0.152|0.319||Analysis performed using repeated measures with covariates of Baseline, sex, age, smoking status, responsiveness stratum, Day (nominal), treatment and Day by treatment and Day by Baseline interactions.|Repeated Measures Model|||||0.319|0.152|<0.001
82417287|NCT01428713|164545884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|536.4|STANDARD_ERROR_OF_MEAN|162.12||0.01||||||P value \< 0.05 is considered significant in this study|Mixed Models Analysis||Comparing PBAC score value at baseline vs. end of 3 cycles for TA|||||0.01
82417288|NCT01428713|164545884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|430.6|STANDARD_ERROR_OF_MEAN|157.35||0.03||||||P value \< 0.05 is considered significant for this study|Mixed Models Analysis||Comparing PBAC score value at baseline vs. end of 3 cycles for COCP|||||0.03
82417289|NCT01428713|164545884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|STANDARD_ERROR_OF_MEAN|5.08||0.03||||||P value \< 0.05 is considered significant for this study|Mixed Models Analysis||Comparing Peds QL score value at baseline vs. end of 3 cycles for TA|||||0.03
82417290|NCT01428713|164545884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.75|STANDARD_ERROR_OF_MEAN|4.87||0.01|||||||Mixed Models Analysis||Comparing Peds QL score value at baseline vs. end of 3 cycles for COCP|||||0.01
82533196|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.1956|||<|0.001|TWO_SIDED|95.0|0.1012|0.2899|||ANOVA|||5 min||0.2899|0.1012|<0.001
82533197|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2927|||<|0.001|TWO_SIDED|95.0|0.1979|0.3875|||ANOVA|||15 min||0.3875|0.1979|<0.001
82533198|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2723|||<|0.001|TWO_SIDED|95.0|0.178|0.3667|||ANOVA|||30 min||0.3667|0.1780|<0.001
82533199|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2386|||<|0.001|TWO_SIDED|95.0|0.1445|0.3328|||ANOVA|||1 hour||0.3328|0.1445|<0.001
82417291|NCT00299221|164545902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.4||0.44||95.0|||||t-test, 2 sided|||comparing ISHLT biopsy score between groups at 1 year||||0.44
82447531|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||paired t-test|||Change from baseline at Week 24||||0.0160
82533200|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2986|||<|0.001|TWO_SIDED|95.0|0.2042|0.393|||ANOVA|||2 hours||0.3930|0.2042|<0.001
82533201|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2661|||<|0.001|TWO_SIDED|95.0|0.1715|0.3607|||ANOVA|||4 hours||0.3607|0.1715|<0.001
82533202|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2558|||<|0.001|TWO_SIDED|95.0|0.1609|0.3506|||ANOVA|||8 hours||0.3506|0.1609|<0.001
82533203|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.1987|||<|0.001|TWO_SIDED|95.0|0.1036|0.2938|||ANOVA|||12 hours||0.2938|0.1036|<0.001
82533204|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.2044|||<|0.001|TWO_SIDED|95.0|0.1071|0.3017|||ANOVA|||23 hours 15 min||0.3017|0.1071|<0.001
82533205|NCT03257995|164763826|OTHER||Mean Difference (Final Values)|0.1997|||<|0.001|TWO_SIDED|95.0|0.1023|0.297|||ANOVA|||23 hours 45 min||0.2970|0.1023|<0.001
82533206|NCT03257995|164763827|OTHER||Mean Difference (Final Values)|0.2476|||<|0.001|TWO_SIDED|95.0|0.1857|0.3095|||ANOVA|||||0.3095|0.1857|<.001
82533207|NCT03257995|164763827|OTHER||Mean Difference (Final Values)|0.2448|||<|0.001|TWO_SIDED|95.0|0.183|0.3066|||ANOVA|||||0.3066|0.1830|<.001
82533208|NCT03257995|164763827|OTHER||Mean Difference (Net)|-0.0028|||||TWO_SIDED|95.0|-0.0647|0.059|||ANOVA|||||0.0590|-0.0647|
82533209|NCT03257995|164763828|OTHER||Mean Difference (Final Values)|-0.42||||0.009|TWO_SIDED|95.0|-0.73|0.11|||ANOVA|||||0.11|-0.73|0.009
82533210|NCT03257995|164763828|OTHER||Mean Difference (Final Values)|-0.42||||0.008|TWO_SIDED|95.0|-0.73|0.11|||ANOVA|||||0.11|-0.73|0.008
82533211|NCT03257995|164763829|OTHER||Mean Difference (Final Values)|33.0|||<|0.001|TWO_SIDED|95.0|25.6|40.3|||ANOVA|||||40.3|25.6|<0.001
82533212|NCT03257995|164763829|OTHER||Mean Difference (Final Values)|30.8|||<|0.001|TWO_SIDED|95.0|23.5|38.2|||ANOVA|||||38.2|23.5|<0.001
82533213|NCT01168674|164763830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.57|STANDARD_DEVIATION|1.67||0.48|TWO_SIDED||||||Mixed Models Analysis||The report is of the mean MADRS difference between ziprasidone versus placebo after linear mixed regression, correcting for confounding effects of order of treatment as well as other identified potential confounders.|Linear mixed effects regression model||||0.48
82533214|NCT03786094|164763848|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.445|TWO_SIDED|96.0|0.85|1.41|||t-test, 2 sided||HR and associated 2-sided 96% CI are estimated by a Cox proportional hazards model stratified for randomization stratification factors including a fixed effect term for treatment arm.|||1.41|0.85|0.4450
82577077|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.112||0.0395|TWO_SIDED|95.0|0.01|0.45|||MMRM|||Insomnia - Early, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|0.01|0.0395
82417292|NCT00710554|164545908|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-0.34||||0.139|TWO_SIDED|95.0|-0.79|0.11|||ANCOVA|||The model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline value as a covariate and treatment group and centre group as main effect. Due to the low power of the test for interaction, the test was performed at the 10% significance level as a possible indicator of an interactive effect. The null hypothesis was one of no difference between treatments.||0.11|-0.79|0.139
82447532|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED||||||paired t-test|||Change from baseline at Week 30||||0.0264
82447533|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED||||||paired t-test|||Change from baseline at Week 36||||0.0278
82447534|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.1854|TWO_SIDED||||||paired t-test|||Change from baseline at Week 42||||0.1854
82447535|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.1684|TWO_SIDED||||||paired t-test|||Change from baseline at Week 48||||0.1684
82447536|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.4718|TWO_SIDED||||||paired t-test|||Change from baseline at Week 54||||0.4718
82533215|NCT03786094|164763849|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6158|TWO_SIDED|96.0|0.81|1.41|||t-test, 2 sided||HR and associated 2-sided 96% CI are estimated by a Cox proportional hazards model stratified for randomization stratification factors including a fixed effect term for treatment arm.|||1.41|0.81|0.6158
82533216|NCT03786094|164763850|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.6126|TWO_SIDED|99.9|0.66|1.77|||t-test, 2 sided|||||1.77|0.66|0.6126
82533217|NCT01706965|164763856|SUPERIORITY|||||||0.38|||||||ANOVA|||Univariate ANOVA, controlling for baseline PANSS total||||.38
82533218|NCT01706965|164763857|SUPERIORITY|ANOVA, controlled for baseline MATRICS||||||0.99|||||||ANOVA|||||||.99
82533219|NCT00556374|164763863|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.504|||<|0.0001|TWO_SIDED|95.0|0.39|0.65|||Cox Proportional Hazards Model|Stratification factors are hospital type, prior use of aromatase inhibitor, and baseline lumbar spine BMD.|From the Cox proportional hazard model with treatment as the independent variable and stratified by randomization strata. A hazard ratio \< 1.0 indicates a lower average event rate and a longer fracture-free time for denosumab relative to placebo.|The efficacy clinical hypothesis is that denosumab, when administered subcutaneously at a dose of 60 mg every 6 months, will be considered efficacious in patients with non-metastatic breast cancer receiving AIT if the rate of first clinical fracture in denosumab-treated patients is lower than that in placebo-treated patients. It is anticipated that denosumab will reduce the rate by 30% compared with placebo (ie, the true hazard ratio of denosumab compared with placebo is 0.70).||0.65|0.39|<0.0001
82533220|NCT00556374|164763864|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|10.02|||<|0.0001|TWO_SIDED|95.0|9.04|11.01||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||11.01|9.04|<0.0001
82533221|NCT00556374|164763865|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|7.92|||<|0.0001|TWO_SIDED|95.0|6.87|8.97||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||8.97|6.87|<0.0001
82533222|NCT00556374|164763866|SUPERIORITY_OR_OTHER_LEGACY||Difference from Placebo|6.51|||<|0.0001|TWO_SIDED|95.0|5.62|7.39||The Hochberg procedure was used to control for multiplicity.|ANCOVA|Model includes treatment group as the independent variable and adjusted for baseline value and the randomization stratification factors.||||7.39|5.62|<0.0001
82447537|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||paired t-test|||Change from baseline at Week 60||||0.4340
82447538|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.7765|TWO_SIDED||||||paired t-test|||Change from baseline at Week 66||||0.7765
82417293|NCT00710554|164545909|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.86||||0.198|TWO_SIDED|95.0|-7.22|1.5|||ANCOVA|||The change from baseline in mean Neuropathic Pain Scale score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||1.50|-7.22|0.198
82417294|NCT00710554|164545910|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.83||||0.007|TWO_SIDED|95.0|-1.43|-0.23|||ANCOVA|||The change from baseline score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||-0.23|-1.43|0.007
82417295|NCT00710554|164545911|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.08||||0.795|TWO_SIDED|95.0|-0.52|0.68|||ANCOVA|||The change in the dynamic allodynia pain score from baseline to the end of treatment was analysed using ANCOVA with the baseline value as a covariate and country and treatment group as factors.||0.68|-0.52|0.795
82417296|NCT00710554|164545912|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.14||||0.233|TWO_SIDED|95.0|-0.37|0.09|||ANCOVA|||The change in the punctate allodynia pain threshold force from baseline to the end of treatment was analysed using ANCOVA with the baseline value as a covariate and country and treatment group as factors.||0.09|-0.37|0.233
82417297|NCT00710554|164545913|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.762||||0.023|TWO_SIDED|95.0|1.08|2.88|||Regression, Logistic|||The two treatment groups were compared using ordinal logistic regression and the proportional odds model. The initial model incorporated treatment and centre group as factors. The odds ratio together with its 95% CI and associated p-value are presented.||2.88|1.08|0.023
82417298|NCT00710554|164545914|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.25||||0.288|TWO_SIDED|95.0|-0.72|0.21|||ANCOVA|||The change from baseline in mean Brief Pain Inventory (short form) score was compared between treatment groups and centres using ANCOVA. The model was to include treatment and centre group as factors and baseline mean usage as a covariate.||0.21|-0.72|0.288
82417299|NCT00710554|164545915|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.01||||0.617|TWO_SIDED|95.0|-0.06|0.04|||ANCOVA|||The change from baseline in mean EuroQol-5D score was compared between treatment groups and centres using ANCOVA. The model included treatment and centre groups as factors and baseline mean usage as a covariate.||0.04|-0.06|0.617
82417300|NCT00710554|164545916|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|2.459||0.76|TWO_SIDED|95.0|-5.6|4.09|||ANCOVA|||The change from baseline in mean EuroQol-5D score was compared between treatment groups and centres using ANCOVA. The model included treatment and centre groups as factors and baseline mean usage as a covariate.||4.09|-5.60|0.76
82417301|NCT00710554|164545917|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.38||||0.112|TWO_SIDED|95.0|-0.85|0.09|||ANCOVA|||The model used for the analysis of the end of study value was an ANCOVA with baseline value as a covariate and treatment group and centre group as main effect. The null hypothesis was one of no difference between treatments.||0.09|-0.85|0.112
82417302|NCT01301001|164545921|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||||0.0|-0.7|0.07
82417303|NCT01301001|164545922|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.76|TWO_SIDED|95.0|-0.9|0.6|||Mixed Models Analysis|||||0.6|-0.9|0.76
82417304|NCT01301001|164545923|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.36|TWO_SIDED|95.0|-0.5|0.2|||Mixed Models Analysis|||||0.2|-0.5|0.36
82417305|NCT04250363|164545959|OTHER||Odds Ratio (OR)|3.57||||0.00284|TWO_SIDED|95.0|1.85|10.6|||Regression, Logistic|||||10.6|1.85|0.00284
82417306|NCT04250363|164545959|OTHER||Odds Ratio (OR)|4.19||||0.00367|TWO_SIDED|95.0|2.0|14.8|||Regression, Logistic|||||14.8|2.00|0.00367
82417307|NCT04250363|164545959|OTHER||Odds Ratio (OR)|4.22||||0.0137|TWO_SIDED|95.0|1.9|23.7|||Regression, Logistic|||||23.7|1.90|0.0137
82417308|NCT04250363|164545959|OTHER||Odds Ratio (OR)|2.23||||0.00349|TWO_SIDED|95.0|1.47|4.48|||Regression, Logistic|||||4.48|1.47|0.00349
82417309|NCT04250363|164545959|OTHER||Odds Ratio (OR)|11.6||||0.00594|TWO_SIDED|95.0|3.19|129.0|||Regression, Logistic|||||129|3.19|0.00594
82426585|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.0|<0.0001
82426586|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9636|TWO_SIDED|95.0|-0.2|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.2|0.9636
82426587|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.0|<0.0001
82426588|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.8|-1.4|<0.0001
82426589|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.4605|TWO_SIDED|95.0|-0.2|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.4|-0.2|0.4605
82426590|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.9|-1.5|<0.0001
82426591|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.4|<0.0001
82426592|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8404|TWO_SIDED|95.0|-0.3|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.3|-0.3|0.8404
82417310|NCT04535362|164545965|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.63||0.93|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.93
82417311|NCT04535362|164545966|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.3||0.68|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.68
82417312|NCT04535362|164545968|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.51||0.37|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.37
82417313|NCT04535362|164545969|SUPERIORITY||Mean Difference (Net)|1.26|STANDARD_ERROR_OF_MEAN|0.98||0.2|TWO_SIDED||||||Mixed Models Analysis|||The fixed effects in the mixed models were infusion rate (2.5 minutes, 5 minutes and 10 minutes (placebo)), cigarette condition (menthol vs. non-menthol), and their interaction. We also controlled for order effects of cigarette condition by including session in the models Subject was a clustering factor and different variance-covariance structures were considered within each condition and subject. The best-fitting structure was selected based on Schwartz's Bayesian Criterion.||||0.20
82417314|NCT00927186|164545980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The pre-specified significance level 0.05 was used.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417315|NCT00927186|164545981|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82417316|NCT00927186|164545982|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417317|NCT00927186|164545982|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
82417318|NCT00927186|164545983|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417319|NCT00927186|164545983|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417320|NCT00927186|164545984|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
82417321|NCT00927186|164545984|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
82417322|NCT00927186|164545985|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82533223|NCT00556374|164763867|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.53||||0.0088|TWO_SIDED|95.0|0.33|0.85|||Regression, Logistic|Logistic regression model includes treatment groups as the independent variable and stratified by the randomization stratification factors.|Values \< 1 for odds ratio favor denosumab.|||0.85|0.33|0.0088
82647120|NCT02660385|165009329|SUPERIORITY|||||||0.4222||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.4222
82417323|NCT00927186|164545985|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417324|NCT00927186|164545985|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
82447539|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.7544|TWO_SIDED||||||paired t-test|||Change from baseline at Week 72||||0.7544
82447540|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.7201|TWO_SIDED||||||paired t-test|||Change from baseline at Week 84||||0.7201
82447541|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.5692|TWO_SIDED||||||paired t-test|||Change from baseline at Week 90||||0.5692
82417325|NCT00927186|164545985|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
82417326|NCT00927186|164545986|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417327|NCT00927186|164545986|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417328|NCT00927186|164545987|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
82417329|NCT00927186|164545987|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.002
82417330|NCT00927186|164545988|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417331|NCT00927186|164545988|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417332|NCT00927186|164545988|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
82417333|NCT00927186|164545988|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.002
82417334|NCT00927186|164545989|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417335|NCT00927186|164545989|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82447542|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED||||||paired t-test|||Change from baseline at Week 96||||0.2749
82447543|NCT00858208|164603738|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED||||||paired t-test|||Change from baseline at Week 102||||0.2749
82447544|NCT00858208|164603740|SUPERIORITY_OR_OTHER|||||||0.297|TWO_SIDED||||||paired t-test|||Change at Month 6||||0.2970
82417336|NCT00927186|164545990|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.020
82417337|NCT00927186|164545990|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.005
82417338|NCT00927186|164545991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82447545|NCT00858208|164603740|SUPERIORITY_OR_OTHER|||||||0.1392|TWO_SIDED||||||paired t-test|||Change at Month 12||||0.1392
82447546|NCT00858208|164603740|SUPERIORITY_OR_OTHER|||||||0.0573|TWO_SIDED||||||paired t-test|||Change at Month 18||||0.0573
82447547|NCT00858208|164603740|SUPERIORITY_OR_OTHER|||||||0.7625|TWO_SIDED||||||paired t-test|||Change at Month 24||||0.7625
82447548|NCT00858208|164603741|SUPERIORITY_OR_OTHER|||||||0.2759|TWO_SIDED||||||paired t-test|||||||0.2759
82417339|NCT00927186|164545991|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417340|NCT00927186|164545991|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.039
82417341|NCT00927186|164545991|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.025
82447549|NCT02397057|164603756|OTHER|Observed cases, logistic regression analysis. Subjects with missing data on Day 42 were excluded from the statistical testing.|Odds Ratio (OR)|1.35||||0.369|TWO_SIDED|95.0|0.7|2.63||p-value was estimated by logistic regression with treatment, region (US, EUR), and baseline RLS medication-related augmentation as fixed factors, and baseline IRLS as a covariate.|Regression, Logistic|||||2.63|0.70|0.3690
82447550|NCT02397057|164603760|OTHER||Least square(LS) mean difference|-4.071|STANDARD_ERROR_OF_MEAN|2.542||0.1108|TWO_SIDED|95.0|-9.083|0.941|||ANCOVA|||LOCF, ANCOVA Analysis||0.941|-9.083|0.1108
82447551|NCT02397057|164603761|OTHER|||||||0.0002||||||p-value was estimated using continuity-corrected chi-square test.|Chi-squared, Corrected|||||||0.0002
82417342|NCT00927186|164545992|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417343|NCT00927186|164545992|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417344|NCT00927186|164545993|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.050
82417345|NCT00927186|164545993|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.016
82417346|NCT00927186|164545994|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417347|NCT00927186|164545994|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417348|NCT00927186|164545994|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
82417349|NCT00927186|164545994|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.003
82417350|NCT00927186|164545995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82447552|NCT02870101|164603766|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|94.7|||||TWO_SIDED|95.0|90.7|97.0|||||PPA estimated with two-sided 95% score confidence interval.|||97.0|90.7|
82447553|NCT02870101|164603766|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.8|||||TWO_SIDED|95.0|98.2|99.1|||||NPA estimated with two-sided 95% score confidence interval.|||99.1|98.2|
82447554|NCT02870101|164603767|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|91.2|||||TWO_SIDED|95.0|86.5|94.4|||||PPA estimated with two-sided 95% score confidence interval.|||94.4|86.5|
82447555|NCT02870101|164603767|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.6|||||TWO_SIDED|95.0|99.3|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.3|
82447556|NCT02870101|164603768|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|95.1|||||TWO_SIDED|95.0|91.3|97.3|||||PPA estimated with two-sided 95% score confidence interval.|||97.3|91.3|
82447557|NCT02870101|164603768|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.8|||||TWO_SIDED|95.0|98.3|99.2|||||NPA estimated with two-sided 95% score confidence interval.|||99.2|98.3|
82447558|NCT02870101|164603769|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|96.5|||||TWO_SIDED|95.0|92.9|98.3|||||PPA estimated with two-sided 95% score confidence interval.|||98.3|92.9|
82647121|NCT02660385|165009330|SUPERIORITY||effect size|0.09||||0.5781|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.5781
82647122|NCT02660385|165009331|SUPERIORITY|||||||0.1238||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.1238
82647123|NCT02660385|165009332|SUPERIORITY||effect size|-0.3||||0.0558|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0558
82647124|NCT02660385|165009333|SUPERIORITY|||||||0.023||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0230
82647125|NCT02660385|165009334|SUPERIORITY||effect size|0.06||||0.4597|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.4597
82647126|NCT02660385|165009335|SUPERIORITY|||||||0.1943||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.1943
82647127|NCT02660385|165009336|SUPERIORITY||effect size|-0.23||||0.0027|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0027
82647128|NCT02660385|165009337|SUPERIORITY|||||||0.0792||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0792
82647129|NCT02660385|165009338|SUPERIORITY||effect size|0.13||||0.0656|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.0656
82417351|NCT00927186|164545995|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417352|NCT00927186|164545996|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.906
82533224|NCT00556374|164763868|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.54||||0.007|TWO_SIDED|95.0|0.34|0.84|||Regression, Logistic|Logistic regression model includes treatment groups as the independent variable and stratified by the randomization stratification factors.|Values \< 1 for odds ratio favor denosumab.|||0.84|0.34|0.0070
82533225|NCT00556374|164763869|SUPERIORITY||Hazard Ratio (HR)|0.816||||0.0515|TWO_SIDED|95.0|0.66|1.0|||Cox Proportional Hazards Model|Stratified by randomization strata (hospital type, use of aromatase inhibitor, baseline lumbar spine BMD).|From the Cox Proportional hazards model with treatment fitted as a covariate and stratified by randomization strata. A hazard ratio \< 1.0 indicates a lower average event rate and a longer disease-free time for denosumab relative to placebo.|||1.00|0.66|0.0515
82533226|NCT00556374|164763870|SUPERIORITY|Analysis of BMFS was conditional on the outcome of DFS due to hierarchical testing strategy, therefore p-value not reported.|Hazard Ratio (HR)|0.808|||||TWO_SIDED|95.0|0.654|0.997|||||A hazard ratio \< 1.0 indicates a lower average event rate and a longer bone metastases-free time for denosumab relative to placebo.|||0.997|0.654|
82533227|NCT00556374|164763871|SUPERIORITY|Analysis of OS was conditional on the outcome of DFS due to hierarchical testing strategy, therefore p-value not reported.|Hazard Ratio (HR)|0.802|||||TWO_SIDED|95.0|0.635|1.013|||||A hazard ratio \< 1.0 indicates a lower average event rate and a longer overall survival time for denosumab relative to placebo.|||1.013|0.635|
82647130|NCT02660385|165009339|SUPERIORITY|||||||0.2174||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.2174
82647131|NCT02660385|165009340|SUPERIORITY||effect size|0.07||||0.7028|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.7028
82647132|NCT02660385|165009341|SUPERIORITY|||||||0.0509||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0509
82647133|NCT02660385|165009342|SUPERIORITY||Mean Difference (Final Values)|275.0|STANDARD_ERROR_OF_MEAN|1525.0||0.955|TWO_SIDED|95.0|-3288.0|2739.0|||t-test, 2 sided|||||2739|-3288|0.955
82647134|NCT02660385|165009343|SUPERIORITY|||||||0.013||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.0130
82647135|NCT02660385|165009344|SUPERIORITY||effect size|-0.05||||0.7496|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.7496
82647136|NCT02660385|165009345|SUPERIORITY||effect size|0.06||||0.3821|TWO_SIDED|||||GLMM with random intercepts and unstructured covariances with changes within groups and time-group interactions to compare the intervention effects.|GLMM|||||||0.3821
82647137|NCT02660385|165009346|SUPERIORITY|||||||0.7204||||||The p value is from the group X time interaction adjusted at 12 months based on the false discovery rate|Mixed Models Analysis|||||||0.7204
82647138|NCT01347879|165009392|SUPERIORITY_OR_OTHER||Difference in least square means|-7.35||||0.006|TWO_SIDED|95.0|-12.5|-2.2|||ANCOVA|Lesion count at baseline and center as covariates||||-2.2|-12.5|0.006
82647139|NCT01347879|165009393|SUPERIORITY_OR_OTHER||Difference in least square means|-0.6||||0.8527|TWO_SIDED|95.0|-6.6|5.5|||ANCOVA|Lesion count at baseline and center as covariates||||5.5|-6.6|0.8527
82417353|NCT00927186|164545996|SUPERIORITY_OR_OTHER|||||||0.159||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.159
82417354|NCT00927186|164545997|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.049
82417355|NCT00927186|164545997|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82647140|NCT01347879|165009394|SUPERIORITY_OR_OTHER||Difference in least square means|-20.0||||0.0032|TWO_SIDED|95.0|-33.2|-6.8|||ANCOVA|Lesion count at baseline and center as covariates||||-6.8|-33.2|0.0032
82647141|NCT01347879|165009395|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||Regression, Logistic|||||||0.0125
82647142|NCT01347879|165009400|SUPERIORITY_OR_OTHER||Difference in least square means|-2.56||||0.7161|TWO_SIDED|95.0|-16.5|11.3|||ANCOVA|Lesion count at baseline and center as covariate||||11.3|-16.5|0.7161
82647143|NCT00068770|165009406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5|STANDARD_DEVIATION|1.0||0.82|TWO_SIDED|95.0|1.5|5.5||not adjusted|t-test, 2 sided|||two independent group comparisons||5.5|1.5|0.82
82417356|NCT00927186|164545997|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.151
82417357|NCT00927186|164545997|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.196
82417358|NCT00927186|164545998|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.502
82417359|NCT00927186|164545998|SUPERIORITY_OR_OTHER|||||||0.597||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.597
82417360|NCT00927186|164545999|SUPERIORITY_OR_OTHER|||||||0.077||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.077
82417361|NCT00927186|164545999|SUPERIORITY_OR_OTHER|||||||0.358||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.358
82417362|NCT00927186|164546000|SUPERIORITY_OR_OTHER|||||||0.647||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.647
82417363|NCT00927186|164546000|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.120
82417364|NCT00927186|164546000|SUPERIORITY_OR_OTHER|||||||0.695||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.695
82417365|NCT00927186|164546000|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||1.00
82417366|NCT00927186|164546001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82417367|NCT00927186|164546001|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||<0.001
82533228|NCT02036515|164763874|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.69|||<|0.001|TWO_SIDED|95.0|-0.87|-0.5|||Constrained longitudinal data analysis|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.50|-0.87|<0.001
82533229|NCT02036515|164763874|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.76|||<|0.001|TWO_SIDED|95.0|-0.95|-0.58|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.58|-0.95|<0.001
82533230|NCT02036515|164763875|SUPERIORITY_OR_OTHER||Difference in percentage|-5.7|||||TWO_SIDED|95.0|-16.5|5.2||||||||5.2|-16.5|
82533231|NCT02036515|164763875|SUPERIORITY_OR_OTHER||Difference in percentage|-3.3|||||TWO_SIDED|95.0|-14.1|7.6||||||||7.6|-14.1|
82417368|NCT00927186|164546002|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||1.00
82417369|NCT00927186|164546002|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.198
82417370|NCT00927186|164546003|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.022
82417371|NCT00927186|164546003|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417372|NCT00927186|164546003|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.151
82417373|NCT00927186|164546003|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.139
82417374|NCT00927186|164546004|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.154
82417375|NCT00927186|164546004|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.052
82417376|NCT00927186|164546005|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-value is for double labels (DL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.906
82417377|NCT00927186|164546005|SUPERIORITY_OR_OTHER|||||||0.159||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL).|Wilcoxon (Mann-Whitney)|||||||0.159
82417378|NCT00927186|164546006|SUPERIORITY_OR_OTHER|||||||0.979||95.0||||P-value is for double labels (DL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.979
82417379|NCT00927186|164546006|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.002
82417380|NCT00927186|164546006|SUPERIORITY_OR_OTHER|||||||0.695||95.0||||P-value is for double labels (DL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.695
82417381|NCT00927186|164546006|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||P-value is for double labels (DL), imputed single labels (ISL) and no labels (NL) at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.853
82417382|NCT00927186|164546007|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for sLS/BS.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417383|NCT00927186|164546007|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for dLS/BS.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417384|NCT00927186|164546008|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for sLS/BS.|Wilcoxon (Mann-Whitney)|||||||0.006
82417385|NCT00927186|164546008|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is for dLS/BS.|Wilcoxon (Mann-Whitney)|||||||0.001
82417386|NCT00927186|164546009|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for sLS/BS at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417387|NCT00927186|164546009|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for dLS/BS at 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417388|NCT00927186|164546009|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value is for sLS/BS at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.004
82417389|NCT00927186|164546009|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for dLS/BS at 24 months.|Wilcoxon (Mann-Whitney)|||||||0.006
82533232|NCT02036515|164763876|SUPERIORITY_OR_OTHER||Difference in percentage|0.6|||||TWO_SIDED|95.0|-4.4|5.6||||||||5.6|-4.4|
82533233|NCT02036515|164763876|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-4.9|4.9||||||||4.9|-4.9|
82647144|NCT00068770|165009407|NON_INFERIORITY_OR_EQUIVALENCE|equivalence analysis|Hazard Ratio (HR)|2.7|STANDARD_DEVIATION|1.8||0.11|TWO_SIDED|95.0|1.1|6.3|||Log Rank|||||6.3|1.1|0.11
82417390|NCT00927186|164546010|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label."|Fisher Exact|||||||<0.001
82417391|NCT00927186|164546011|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label."|Fisher Exact|||||||0.033
82417392|NCT00927186|164546012|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label at 6 months."|Fisher Exact|||||||<0.001
82417393|NCT00927186|164546012|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||"P-value is a comparison of No Label vs. Single, Double, Single and Double Label at 24 months."|Fisher Exact|||||||0.009
82533234|NCT02036515|164763877|SUPERIORITY_OR_OTHER||Differenc in least squares means|-25.15|||<|0.001|TWO_SIDED|95.0|-32.76|-17.54|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-17.54|-32.76|<0.001
82533235|NCT02036515|164763877|SUPERIORITY_OR_OTHER||Difference in least squares means|-31.28|||<|0.001|TWO_SIDED|95.0|-38.9|-23.66|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-23.66|-38.90|<0.001
82647145|NCT02572427|165009457|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|TWO_SIDED||||||t-test, 2 sided|||||||0.039
82647146|NCT02572427|165009458|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82647147|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.39|TWO_SIDED|95.0|-4.29|1.68|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 13.~Results are from a restricted maximum likelihood (REML)-based mixed model for repeated measures (MMRM) with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.68|-4.29|0.390
82647148|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.264|TWO_SIDED|95.0|-1.37|4.97|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.97|-1.37|0.264
82647149|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.357|TWO_SIDED|95.0|-4.74|1.72|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.72|-4.74|0.357
82417394|NCT00927186|164546013|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82417395|NCT00927186|164546014|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.906
82417396|NCT00927186|164546015|SUPERIORITY_OR_OTHER|||||||0.536||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.536
82417397|NCT00927186|164546015|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.896
82417398|NCT00927186|164546016|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417399|NCT00927186|164546017|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82417400|NCT00927186|164546018|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82447559|NCT02870101|164603769|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.2|||||TWO_SIDED|95.0|98.8|99.5|||||NPA estimated with two-sided 95% score confidence interval.|||99.5|98.8|
82417401|NCT00927186|164546019|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.008
82417402|NCT00927186|164546020|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417403|NCT00927186|164546020|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.006
82417404|NCT00927186|164546021|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417405|NCT00927186|164546022|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.079
82417406|NCT00927186|164546023|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82417407|NCT00927186|164546023|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.039
82417408|NCT00927186|164546024|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.014
82417409|NCT00927186|164546025|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.079
82417410|NCT00927186|164546026|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.027
82417411|NCT00927186|164546026|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.268
82417412|NCT00927186|164546027|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417413|NCT00927186|164546028|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.025
82417414|NCT00927186|164546029|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value is for 6 months.|Wilcoxon (Mann-Whitney)|||||||0.012
82417415|NCT00927186|164546029|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for 24 months.|Wilcoxon (Mann-Whitney)|||||||0.092
82417416|NCT00927186|164546030|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
82417417|NCT00927186|164546030|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
82417418|NCT00927186|164546030|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
82417419|NCT00927186|164546031|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82417420|NCT00927186|164546032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
82417421|NCT00927186|164546032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
82417422|NCT00927186|164546032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
82417423|NCT00927186|164546033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82417424|NCT00927186|164546034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 1 month.|t-test, 2 sided|||||||<0.001
82417425|NCT00927186|164546034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 3 months.|t-test, 2 sided|||||||<0.001
82417426|NCT00927186|164546034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for change from baseline at 6 months.|t-test, 2 sided|||||||<0.001
82417427|NCT00927186|164546035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82417428|NCT00604383|164546036|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.034
82417429|NCT00793611|164546043|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.07|||||||t-test, 2 sided|19 degrees of freedom||ITT between group differences in change scores compared for behavioral therapy and hypnotherapy groups. Power analysis: This is a pilot study underpowered find between group differences based on our power analysis(a 20% difference between groups would require 88 women, assuming 80% power and α=0.05 based on Freeman's study cited later). The purpose of this pilot study is to evaluate the feasibility of the larger study and determine the appropriate control intervention and outcomes||||.07
82417430|NCT00793611|164546044|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||intent to treat.||||.17
82417431|NCT00793611|164546045|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||intent to treat||||.009
82533236|NCT02036515|164763878|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.03|||<|0.001|TWO_SIDED|95.0|-2.65|-1.4|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.40|-2.65|<0.001
82533237|NCT02036515|164763878|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.72|||<|0.001|TWO_SIDED|95.0|-2.35|-1.09|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.09|-2.35|<0.001
82533238|NCT02036515|164763879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.74|5.72|||Regression, Logistic|Logistic regression model fitted with terms for treatment, baseline A1C, baseline eGFR and prior antihyperglycemic medication.||||5.72|1.74|<0.001
82417432|NCT02864914|164546060|OTHER||Adjusted incidence rate ratio|0.77|||||TWO_SIDED|95.0|0.5|1.19|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.19|0.50|
82417433|NCT02864914|164546060|OTHER||Adjusted incidence rate ratio|0.55|||||TWO_SIDED|95.0|0.23|1.32|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.32|0.23|
82417434|NCT02864914|164546060|OTHER||Adjusted incidence rate ratio|0.86|||||TWO_SIDED|95.0|0.52|1.41|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.41|0.52|
82417435|NCT02864914|164546061|OTHER||Adjusted incidence rate ratio|0.54|||||TWO_SIDED|95.0|0.41|0.73|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.73|0.41|
82417436|NCT02864914|164546061|OTHER||Adjusted incidence rate ratio|0.41|||||TWO_SIDED|95.0|0.3|0.55|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.55|0.30|
82417437|NCT02864914|164546061|OTHER||Adjusted incidence rate ratio|0.69|||||TWO_SIDED|95.0|0.45|1.05|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.05|0.45|
82447560|NCT02870101|164603770|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|84.8|||||TWO_SIDED|95.0|79.4|89.0|||||PPA estimated with two-sided 95% score confidence interval.|||89.0|79.4|
82417438|NCT02864914|164546061|OTHER||Adjusted incidence rate ratio|0.41|||||TWO_SIDED|95.0|0.2|0.86|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.86|0.20|
82417439|NCT02864914|164546061|OTHER||Adjusted incidence rate ratio|0.65|||||TWO_SIDED|95.0|0.56|0.76|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.76|0.56|
82417440|NCT02864914|164546062|OTHER||Adjusted incidence rate ratio|2.19|||||TWO_SIDED|95.0|1.74|2.76|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||2.76|1.74|
82417441|NCT02864914|164546062|OTHER||Adjusted incidence rate ratio|2.78|||||TWO_SIDED|95.0|1.77|4.36|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.36|1.77|
82417442|NCT02864914|164546062|OTHER||Adjusted incidence rate ratio|2.14|||||TWO_SIDED|95.0|1.11|4.12|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.12|1.11|
82417443|NCT02864914|164546062|OTHER||Adjusted incidence rate ratio|1.99|||||TWO_SIDED|95.0|1.48|2.66|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||2.66|1.48|
82417444|NCT02864914|164546063|OTHER||Adjusted incidence rate ratio|0.51|||||TWO_SIDED|95.0|0.37|0.72|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.72|0.37|
82417445|NCT02864914|164546064|OTHER||Adjusted incidence rate ratio|4.04|||||TWO_SIDED|95.0|3.46|4.71|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.71|3.46|
82447561|NCT02870101|164603770|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.5|||||TWO_SIDED|95.0|99.2|99.7|||||NPA estimated with two-sided 95% score confidence interval.|||99.7|99.2|
82447562|NCT02870101|164603771|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|88.3|||||TWO_SIDED|95.0|83.2|92.0|||||PPA estimated with two-sided 95% score confidence interval.|||92.0|83.2|
82447563|NCT02870101|164603771|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.6|||||TWO_SIDED|95.0|99.2|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.2|
82447564|NCT02870101|164603772|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|95.9|||||TWO_SIDED|95.0|86.3|98.9|||||PPA estimated with two-sided 95% score confidence interval.|||98.9|86.3|
82648053|NCT00207714|165011499|SUPERIORITY_OR_OTHER|||||||0.056|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between golimumab 50 mg every 4 weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.056
82417446|NCT02864914|164546065|OTHER||Adjusted incidence rate ratio|3.24|||||TWO_SIDED|95.0|2.81|3.74|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||3.74|2.81|
82417447|NCT02864914|164546066|OTHER||Adjusted incidence rate ratio|0.7|||||TWO_SIDED|95.0|0.56|0.88|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.88|0.56|
82417448|NCT02864914|164546066|OTHER||Adjusted incidence rate ratio|0.5|||||TWO_SIDED|95.0|0.29|0.85|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.85|0.29|
82417449|NCT02864914|164546066|OTHER||Adjusted incidence rate ratio|0.66|||||TWO_SIDED|95.0|0.34|1.29|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||1.29|0.34|
82417450|NCT02864914|164546066|OTHER||Adjusted incidence rate ratio|0.77|||||TWO_SIDED|95.0|0.61|0.97|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.97|0.61|
82417451|NCT02864914|164546067|OTHER||Adjusted incidence rate ratio|0.53|||||TWO_SIDED|95.0|0.43|0.65|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||0.65|0.43|
82417452|NCT02864914|164546068|OTHER||Adjusted incidence rate ratio|4.04|||||TWO_SIDED|95.0|3.44|4.75|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||4.75|3.44|
82417453|NCT02864914|164546069|OTHER||Adjusted incidence rate ratio|3.34|||||TWO_SIDED|95.0|2.83|3.95|||||Adjusted incidence rate ratio = incidence rate empagliflozin / incidence rate DPP-4 inhibitors|Adjusted IR ratio was generated overall with corresponding 95% CIs through the application of a Poisson regression model where the outcome was modelled as a function of treatment cohort (empagliflozin or DPP-4 inhibitors) and propensity score decile (specified as a categorical variable) with the log of time of exposure (in years) as the offset. If any variable remained unbalanced after trimming, it was added as an independent variable in the Poisson regression model.||3.95|2.83|
82417454|NCT00137280|164546094|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.01|TWO_SIDED|95.0|1.47|3.58|||Regression, Logistic||Comparison group is the control (denominator)|||3.58|1.47|<0.01
82417455|NCT00137280|164546095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.02|STANDARD_ERROR_OF_MEAN|5.93||0.03|||||||ANCOVA|||||||.03
82417456|NCT00137280|164546096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.01|TWO_SIDED|95.0|1.22|4.34|||Regression, Logistic||Comparison group is the control (denominator)|||4.34|1.22|<0.01
82533239|NCT02036515|164763879|SUPERIORITY_OR_OTHER||Difference in least squares means|4.43|||<|0.001|TWO_SIDED|95.0|2.44|8.02|||Regression, Logistic|Logistic regression model fitted with terms for treatment, baseline A1C, baseline eGFR and prior antihyperglycemic medication.||||8.02|2.44|<0.001
82533240|NCT02036515|164763880|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.93||||0.019|TWO_SIDED|95.0|-5.36|-0.49|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-0.49|-5.36|0.019
82417457|NCT00137280|164546097|SUPERIORITY_OR_OTHER|||||||0.11|||||||Chi-squared|||||||.11
82533241|NCT02036515|164763880|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.94||||0.002|TWO_SIDED|95.0|-6.39|-1.5|||cLDA|Model is fitted with effects for treatment, time, interaction of time by treatment, effects for baseline eGFR and prior antihyperglycemic medication||||-1.50|-6.39|0.002
82533242|NCT02036515|164763881|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76|||||TWO_SIDED|95.0|-0.98|-0.54||||||||-0.54|-0.98|
82533243|NCT02036515|164763881|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.83|||||TWO_SIDED|95.0|-1.05|-0.61||||||||-0.61|-1.05|
82533244|NCT02036515|164763882|SUPERIORITY_OR_OTHER||Difference in least squares means|-28.76|||||TWO_SIDED|95.0|-36.44|-21.09||||||||-21.09|-36.44|
82533245|NCT02036515|164763882|SUPERIORITY_OR_OTHER||Difference in least squares means|-29.58|||||TWO_SIDED|95.0|-37.3|-21.85||||||||-21.85|-37.30|
82417458|NCT00809146|164546134|NON_INFERIORITY_OR_EQUIVALENCE|Assay sensitivity established by extensive review of lorazepam efficacy data. Noninferiority margin of 10% established by both clinical and statistical reasoning.|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|0.04|0.16|||one-sided z statistic|||The null hypothesis of inferiority was tested with a one-sided z statistic. Sample size was estimated assuming independent proportions, 2 interim analyses, 70% control event rate; 90% power; a noninferiority margin of 10%; and a 1-sided test with type I error probability of 0.025. A sample size of 890 (445 per treatment group) was inflated by 15% (1024 subjects) to account for inadvertent repeated enrollment of the same subjects. Repeated enrollments of the same subject were not analyzed.||0.16|0.04|<0.001
82417459|NCT00809146|164546135|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.7|1.34||||||||1.34|0.70|
82417460|NCT00809146|164546136|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||||0.98|0.79|
82417461|NCT00809146|164546137|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.65|0.95||||||||0.95|0.65|
82417462|NCT00809146|164546138|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.74|1.56||||||All participants were included in this analysis of rate of recurrence because this is the most clinically relevant denominator, although, by definition, only participants who stopped could have recurrent seizures.||1.56|0.74|
82447565|NCT02870101|164603772|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.7|||||TWO_SIDED|95.0|99.4|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.4|
82417463|NCT00809146|164546139|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.42|1.98||||||||1.98|0.42|
82577078|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.108||0.469|TWO_SIDED|95.0|-0.14|0.29|||MMRM|||Insomnia - Early, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.14|0.4690
82417464|NCT00809146|164546140|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.99|||||TWO_SIDED|95.0|0.3|10.7||||||||10.70|0.30|
82417465|NCT00809146|164546142|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||t-test, 2 sided|||||||0.09
82417466|NCT00809146|164546143|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
82417467|NCT03389750|164546148|EQUIVALENCE|An F-test was used to assess for significant differences among the 13 dose conditions.||||||0.0001|||||||ANOVA|F = 7.06 (DF=12)||||||.0001
82417468|NCT01049828|164546152|OTHER|The analysis is based on a threshold-free cluster enhancement permutation technique.|||||<|0.01||||||all correlations were transformed into z scores using Fisher's transformation and a t test evaluated group differences.|Fisher Exact|The analysis is based on a threshold-free cluster enhancement permutation technique.||Null hypothesis: Fisher's transform z scores for a seed region were comparable between the control and non-bothered tinnitus groups.||||<0.01
82417469|NCT03834883|164546155|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.07
82417470|NCT03834883|164546156|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
82417471|NCT03834883|164546157|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
82417472|NCT03834883|164546158|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82417473|NCT03834883|164546159|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82417474|NCT03834883|164546160|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82417475|NCT03834883|164546162|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||||||0.015
82417476|NCT03834883|164546163|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||||||0.0005
82417477|NCT03834883|164546164|SUPERIORITY|||||||0.017|||||||Mixed Models Analysis|||||||0.017
82417478|NCT03834883|164546165|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||0.83
82417479|NCT03834883|164546166|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82417480|NCT03572218|164546171|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.22|TWO_SIDED||||||Mixed Models Analysis|||||||0.22
82417481|NCT03572218|164546172|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
82417482|NCT03572218|164546173|SUPERIORITY||Mean Difference (Net)|-4.4|STANDARD_ERROR_OF_MEAN|1.9||0.03|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.03
82417483|NCT03572218|164546173|SUPERIORITY||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|1.1||0.02|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.02
82417484|NCT03572218|164546173|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|1.2||0.19|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.19
82417485|NCT03572218|164546174|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|2.1||0.11|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.11
82417486|NCT03572218|164546174|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|1.1||0.03|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.03
82417487|NCT03572218|164546174|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.3||0.53|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.53
82417488|NCT03572218|164546175|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||0.12
82417489|NCT03572218|164546176|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.09|TWO_SIDED||||||Mixed Models Analysis|||||||0.09
82417490|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|2.9||0.84|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Impact of Weight on Quality of Life Questionnaire-Lite for Total score||||0.84
82447566|NCT02870101|164603773|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Negative; ASIS Indeterminate)|PPA|86.0|||||TWO_SIDED|95.0|80.9|89.9|||||PPA estimated with two-sided 95% score confidence interval.|||89.9|80.9|
82447567|NCT02870101|164603773|OTHER|Estimated Negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.3|||||TWO_SIDED|95.0|98.9|99.6|||||NPA estimated with two-sided 95% score confidence interval.|||99.6|98.9|
82447568|NCT02870101|164603774|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|88.2|||||TWO_SIDED|95.0|76.6|94.5|||||PPA estimated with two-sided 95% score confidence interval.|||94.5|76.6|
82447569|NCT02870101|164603774|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.7|||||TWO_SIDED|95.0|99.4|99.8|||||NPA estimated with two-sided 95% score confidence interval.|||99.8|99.4|
82447570|NCT02870101|164603775|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|88.7|||||TWO_SIDED|95.0|83.9|92.3|||||PPA estimated with two-sided 95% score confidence interval.|||92.3|83.9|
82447571|NCT02870101|164603775|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|98.7|||||TWO_SIDED|95.0|98.2|99.1|||||NPA estimated with two-sided 95% score confidence interval.|||99.1|98.2|
82447572|NCT02870101|164603776|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|84.0|||||TWO_SIDED|95.0|71.5|91.7|||||PPA estimated with two-sided 95% score confidence interval.|||91.7|71.5|
82533246|NCT02036515|164763883|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.51|||||TWO_SIDED|95.0|-3.43|-1.59||||||||-1.59|-3.43|
82533247|NCT02036515|164763883|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.88|||||TWO_SIDED|95.0|-2.81|-0.95||||||||-0.95|-2.81|
82533248|NCT02036515|164763884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||||TWO_SIDED|95.0|1.98|6.64||||||||6.64|1.98|
82533249|NCT02036515|164763884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.02|||||TWO_SIDED|95.0|2.22|7.28||||||||7.28|2.22|
82533250|NCT02036515|164763885|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.99|||||TWO_SIDED|95.0|-7.82|-2.15||||||||-2.15|-7.82|
82533251|NCT02036515|164763885|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.92|||||TWO_SIDED|95.0|-7.76|-2.07||||||||-2.07|-7.76|
82533252|NCT02036515|164763886|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.24|||||TWO_SIDED|95.0|-2.97|0.48||||||||0.48|-2.97|
82447573|NCT02870101|164603776|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.8|||||TWO_SIDED|95.0|99.5|99.9|||||NPA estimated with two-sided 95% score confidence interval.|||99.9|99.5|
82447574|NCT02870101|164603777|OTHER|Estimated positive percent agreement (PPA) defined as: (Index Test Positive; ASIS Positive) / (Index Test Negative; ASIS Positive + Index Test Positive; ASIS Positive + Index Test Equivocal; ASIS Indeterminate + Index Test Negative; ASIS Indeterminate)|PPA|83.0|||||TWO_SIDED|95.0|77.6|87.3|||||PPA estimated with two-sided 95% score confidence interval.|||87.3|77.6|
82447575|NCT02870101|164603777|OTHER|Estimated negative percent agreement (NPA) defined as: (Index Test Negative; ASIS Negative) / (Index Test Negative; ASIS Negative + Index Test Positive; ASIS Negative + Index Test Equivocal; ASIS Negative + Index Test Positive; ASIS Indeterminate)|NPA|99.1|||||TWO_SIDED|95.0|98.6|99.4|||||NPA estimated with two-sided 95% score confidence interval.|||99.4|98.6|
82447576|NCT00793325|164603780|SUPERIORITY_OR_OTHER||||||=|0.575|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<15 years and \>=15 years in the frequency of treatment related adverse events."||||=0.575
82447577|NCT00793325|164603781|SUPERIORITY_OR_OTHER||||||=|0.206|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of treatment related adverse events."||||=0.206
82447578|NCT00793325|164603782|SUPERIORITY_OR_OTHER||||||=|0.033|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Severity. The null hypothesis is that there is no association between mild, moderate and severe in the frequency of treatment related adverse events."||||=0.033
82447579|NCT00793325|164603782|SUPERIORITY_OR_OTHER||||||=|0.207|TWO_SIDED||||||Cochran-Armitage Exact|||"The risk factor tested was Severity. The null hypothesis is that there is no linear trend in the frequency of treatment related adverse events across increasing levels of severity."||||=0.207
82447580|NCT00793325|164603783|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Past history of any disease. The null hypothesis is that there is no difference between With past history of any disease and Without past history any disease in the frequency of treatment related adverse events."||||=0.013
82447581|NCT00793325|164603784|SUPERIORITY_OR_OTHER||||||=|0.009|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Complication(s). The null hypothesis is that there is no difference between With complication(s) and Without complication(s)in the frequency of treatment related adverse events."||||=0.009
82533253|NCT02036515|164763886|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.38|||||TWO_SIDED|95.0|-3.11|0.36||||||||0.36|-3.11|
82533254|NCT02036515|164763887|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.99|||||TWO_SIDED|95.0|-2.82|0.84||||||||0.84|-2.82|
82533255|NCT02036515|164763887|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.85|||||TWO_SIDED|95.0|-2.69|0.99||||||||0.99|-2.69|
82533256|NCT02036515|164763888|SUPERIORITY_OR_OTHER||Difference in percent|-15.1|||||TWO_SIDED|95.0|-21.9|-9.4||||||||-9.4|-21.9|
82533257|NCT02036515|164763888|SUPERIORITY_OR_OTHER||Difference in percent|-14.4|||||TWO_SIDED|95.0|-21.3|-8.5||||||||-8.5|-21.3|
82533258|NCT02036515|164763889|SUPERIORITY_OR_OTHER||Difference in percentage|-29.0|||||TWO_SIDED|95.0|-38.3|-19.4||||||||-19.4|-38.3|
82533259|NCT02036515|164763889|SUPERIORITY_OR_OTHER||Difference in percentage|-28.1|||||TWO_SIDED|95.0|-37.5|-18.4||||||||-18.4|-37.5|
82533260|NCT02036515|164763893|SUPERIORITY_OR_OTHER||Difference in least squares means|12.75|||||TWO_SIDED|95.0|6.83|18.68||||||||18.68|6.83|
82533261|NCT02036515|164763893|SUPERIORITY_OR_OTHER||Difference in least squares means|11.91|||||TWO_SIDED|95.0|5.94|17.88||||||||17.88|5.94|
82533262|NCT02036515|164763894|SUPERIORITY_OR_OTHER||Difference in least squares means|12.78|||||TWO_SIDED|95.0|6.54|19.03||||||||19.03|6.54|
82647150|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.981|TWO_SIDED|95.0|-3.5|3.42|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.42|-3.50|0.981
82417491|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|4.0||0.82|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Physical Function Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.82
82417492|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|4.3||0.39|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Self Esteem Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.39
82417493|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|-4.0|STANDARD_ERROR_OF_MEAN|5.0||0.42|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Sexual Life Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.42
82417494|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|4.3||0.64|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Work Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.64
82417495|NCT03572218|164546177|SUPERIORITY||Mean Difference (Net)|-2.0|STANDARD_ERROR_OF_MEAN|3.6||0.59|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Public Distress Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.59
82417496|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|3.0||0.58|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Impact of Weight on Quality of Life Questionnaire-Lite for Total score||||0.58
82417497|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|4.0||0.89|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Physical Function Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.89
82417498|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|4.7||0.9|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Self Esteem Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.90
82417499|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|-7.1|STANDARD_ERROR_OF_MEAN|5.0||0.16|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Sexual Life Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.16
82417500|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|4.3||0.68|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Work Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.68
82417501|NCT03572218|164546178|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|3.6||0.72|TWO_SIDED||||||Mixed Models Analysis|||Estimated mean change score on the Public Distress Subscale of the Impact of Weight on Quality of Life Questionnaire-Lite||||0.72
82417502|NCT03572218|164546179|SUPERIORITY||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|1.7||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||0.08
82417503|NCT03572218|164546180|SUPERIORITY||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|1.7||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||0.10
82417504|NCT03572218|164546181|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|1.1||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
82417505|NCT03572218|164546182|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|1.1||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
82417506|NCT03572218|164546183|SUPERIORITY||Mean Difference (Net)|9.7|STANDARD_ERROR_OF_MEAN|6.5||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
82417507|NCT03572218|164546184|SUPERIORITY||Mean Difference (Net)|12.1|STANDARD_ERROR_OF_MEAN|6.5||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||0.06
82417508|NCT03572218|164546185|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|4.4||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82417509|NCT03572218|164546186|SUPERIORITY||Mean Difference (Net)|3.1|STANDARD_ERROR_OF_MEAN|4.4||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
82417510|NCT03572218|164546187|SUPERIORITY||Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.4||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||0.31
82417511|NCT03572218|164546188|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.3||0.54|TWO_SIDED||||||Mixed Models Analysis|||||||0.54
82417512|NCT03572218|164546189|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|2.2||0.94|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.94
82417513|NCT03572218|164546189|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|1.6||0.64|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.64
82417514|NCT03572218|164546190|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.58|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.58
82417515|NCT03572218|164546190|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.49|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.49
82417516|NCT03572218|164546190|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.96|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.96
82417517|NCT03572218|164546190|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.71|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.71
82417518|NCT03572218|164546190|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.41|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.41
82417519|NCT03572218|164546191|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.61|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.61
82533263|NCT02036515|164763894|SUPERIORITY_OR_OTHER||Difference in least squares means|12.86|||||TWO_SIDED|95.0|6.54|19.18||||||||19.18|6.54|
82533264|NCT02036515|164763896|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||||||||0.02|-0.04|
82533265|NCT02036515|164763896|SUPERIORITY_OR_OTHER||Difference in least squares means|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||||0.04|-0.02|
82533266|NCT02036515|164763897|SUPERIORITY_OR_OTHER||Difference in least squares means|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||||0.04|-0.04|
82417520|NCT03572218|164546191|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.73|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.73
82417521|NCT03572218|164546191|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.94|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.94
82417522|NCT03572218|164546191|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.47|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.47
82533267|NCT02036515|164763897|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.02|||||TWO_SIDED|95.0|-0.07|0.02||||||||0.02|-0.07|
82533268|NCT02404493|164763917|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One-sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82417523|NCT03572218|164546191|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.99|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.99
82417524|NCT03572218|164546192|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82417525|NCT03572218|164546193|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82417526|NCT03572218|164546194|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
82417527|NCT03572218|164546195|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
82417528|NCT03572218|164546196|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.83|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.83
82417529|NCT03572218|164546196|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.69|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.69
82533269|NCT02404493|164763917|SUPERIORITY_OR_OTHER|||||||0.023||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.023
82533270|NCT02404493|164763917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|422.81|STANDARD_ERROR_OF_MEAN|122.905||0.003|TWO_SIDED|95.0|166.435|679.186||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||679.186|166.435|0.003
82417530|NCT03572218|164546196|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.30
82417531|NCT03572218|164546196|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.99|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.99
82417532|NCT03572218|164546196|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.36|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.36
82533271|NCT02404493|164763918|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533272|NCT02404493|164763918|SUPERIORITY_OR_OTHER|||||||0.754||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.754
82417533|NCT03572218|164546197|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.30
82417534|NCT03572218|164546197|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.69|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.69
82417535|NCT03572218|164546197|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.70
82417536|NCT03572218|164546197|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.26|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.26
82417537|NCT03572218|164546197|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.18|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.18
82417538|NCT03572218|164546198|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|1.0||0.69|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.69
82417539|NCT03572218|164546198|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.28|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.28
82417540|NCT03572218|164546198|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.8||0.02|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.02
82417541|NCT03572218|164546199|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.29|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.29
82417542|NCT03572218|164546199|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.34|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.34
82417543|NCT03572218|164546199|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|0.8||0.001|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.001
82417544|NCT03572218|164546200|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|1.1||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
82417545|NCT03572218|164546201|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.2||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
82417546|NCT03572218|164546202|SUPERIORITY||Mean Difference (Net)|2.6|STANDARD_ERROR_OF_MEAN|4.8||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
82417547|NCT03572218|164546203|SUPERIORITY||Mean Difference (Net)|-10.2|STANDARD_ERROR_OF_MEAN|13.1||0.44|TWO_SIDED||||||Mixed Models Analysis|||||||0.44
82417548|NCT03572218|164546204|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.46|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.46
82417549|NCT03572218|164546204|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|0.4||0.12|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.12
82417550|NCT03572218|164546204|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.42|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.42
82417551|NCT03572218|164546204|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|0.4||0.03|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.03
82417552|NCT03572218|164546205|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.23|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.23
82417553|NCT03572218|164546205|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.9|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.90
82417554|NCT03572218|164546205|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.5||0.36|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.36
82417555|NCT03572218|164546205|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.4||0.29|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.29
82417556|NCT03572218|164546206|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.25|TWO_SIDED||||||Mixed Models Analysis|||||||0.25
82417557|NCT03572218|164546207|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|2.2||0.27|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-Total||||0.27
82417558|NCT03572218|164546207|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.13|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-SD||||0.13
82417559|NCT03572218|164546207|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|1.4||0.65|TWO_SIDED||||||Mixed Models Analysis|||WSSQ-FNE||||0.65
82417560|NCT03572218|164546208|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
82417561|NCT03572218|164546209|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.2||0.7|TWO_SIDED||||||Mixed Models Analysis|||||||0.7
82447582|NCT00793325|164603785|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Hepatic Function Disorder. The null hypothesis is that there is no difference between with Hepatic Function Disorder and without Hepatic Function Disorder in the frequency of treatment related adverse events."||||<0.001
82533273|NCT02404493|164763918|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|52.3|STANDARD_ERROR_OF_MEAN|19.21||0.013|TWO_SIDED|95.0|12.23|92.373||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||92.373|12.230|0.013
82533274|NCT02404493|164763919|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82417562|NCT03572218|164546210|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_ERROR_OF_MEAN|1.8||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.2
82417563|NCT03572218|164546211|SUPERIORITY||Mean Difference (Net)|3.7|STANDARD_ERROR_OF_MEAN|6.9||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
82533275|NCT02404493|164763919|SUPERIORITY_OR_OTHER|||||||0.271||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.271
82533276|NCT02404493|164763919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|167.95|STANDARD_ERROR_OF_MEAN|48.21||0.002|TWO_SIDED|95.0|67.046|268.854||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||268.854|67.046|0.002
82417564|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|3.5||0.81|TWO_SIDED||||||Mixed Models Analysis|||Total||||0.81
82417565|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|4.4||0.86|TWO_SIDED||||||Mixed Models Analysis|||Physical Function||||0.86
82417566|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_ERROR_OF_MEAN|7.0||0.87|TWO_SIDED||||||Mixed Models Analysis|||Self Esteem||||0.87
82417567|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|1.8|STANDARD_ERROR_OF_MEAN|5.2||0.73|TWO_SIDED||||||Mixed Models Analysis|||Sexual Life||||0.73
82417568|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|4.4||0.95|TWO_SIDED||||||Mixed Models Analysis|||Work||||0.95
82417569|NCT03572218|164546212|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.8||0.19|TWO_SIDED||||||Mixed Models Analysis|||Public Distress||||0.19
82417570|NCT03572218|164546213|SUPERIORITY||Mean Difference (Net)|7.3|STANDARD_ERROR_OF_MEAN|4.9||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||0.14
82417571|NCT03572218|164546214|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|1.5||0.53|TWO_SIDED||||||Mixed Models Analysis|||||||0.53
82417572|NCT03572218|164546215|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.5||0.99|TWO_SIDED||||||Mixed Models Analysis|||||||0.99
82417573|NCT03572218|164546216|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|3.6||0.71|TWO_SIDED||||||Mixed Models Analysis|||Systolic Blood Pressure||||0.71
82417574|NCT03572218|164546216|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|1.9||0.72|TWO_SIDED||||||Mixed Models Analysis|||Diastolic Blood Pressure||||0.72
82417575|NCT03572218|164546217|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
82417576|NCT03572218|164546218|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.52|TWO_SIDED||||||Mixed Models Analysis|||Full Scale||||0.52
82417577|NCT03572218|164546218|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.02|TWO_SIDED||||||Mixed Models Analysis|||Negative Affect||||0.02
82417578|NCT03572218|164546218|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.63|TWO_SIDED||||||Mixed Models Analysis|||Maladaptive Eating||||0.63
82447583|NCT00793325|164603786|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Renal Impairment. The null hypothesis is that there is no difference between With Renal Impairment and Without Renal Impairment in the frequency of treatment related adverse events."||||<0.001
82447584|NCT00793325|164603787|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Concomitant Drug(s). The null hypothesis is that there is no difference between With Concomitant Drug(s) and Without Concomitant Drug(s) in the frequency of treatment related adverse events."||||=0.003
82647151|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.584|TWO_SIDED|95.0|-4.37|2.47|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.47|-4.37|0.584
82533277|NCT02404493|164763920|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|One-sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
82647152|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58||||0.392|TWO_SIDED|95.0|-2.05|5.2|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.20|-2.05|0.392
82647153|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.345|TWO_SIDED|95.0|-6.34|2.24|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.24|-6.34|0.345
82647154|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.922|TWO_SIDED|95.0|-4.73|4.28|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.28|-4.73|0.922
82647155|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44||||0.384|TWO_SIDED|95.0|-7.97|3.1|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.10|-7.97|0.384
82647156|NCT00996918|165009484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.961|TWO_SIDED|95.0|-6.08|5.78|||Mixed Models Analysis|||"Change from base study baseline in ADAS-Cog score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.78|-6.08|0.961
82647157|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.837|TWO_SIDED|95.0|-1.91|2.35|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.35|-1.91|0.837
82647158|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14||||0.064|TWO_SIDED|95.0|-0.13|4.41|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.41|-0.13|0.064
82647159|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.99|TWO_SIDED|95.0|-2.32|2.35|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.35|-2.32|0.990
82647160|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.817|TWO_SIDED|95.0|-2.22|2.82|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.82|-2.22|0.817
82647161|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.697|TWO_SIDED|95.0|-2.04|3.05|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.05|-2.04|0.697
82533278|NCT02404493|164763920|SUPERIORITY_OR_OTHER|||||||0.26||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.260
82533279|NCT02404493|164763920|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|221.97|STANDARD_ERROR_OF_MEAN|100.674||0.04|TWO_SIDED|95.0|11.254|432.68||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||432.680|11.254|0.040
82417579|NCT03572218|164546218|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.74|TWO_SIDED||||||Mixed Models Analysis|||Exercise Avoidance||||0.74
82533280|NCT02404493|164763921|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533281|NCT02404493|164763921|SUPERIORITY_OR_OTHER|||||||0.22||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.220
82533282|NCT02404493|164763921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|194.0|STANDARD_ERROR_OF_MEAN|68.461||0.011|TWO_SIDED|95.0|50.712|337.291||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||337.291|50.712|0.011
82533283|NCT02404493|164763922|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
82533284|NCT02404493|164763922|SUPERIORITY_OR_OTHER|||||||0.06||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.060
82533285|NCT02404493|164763922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|134.9|STANDARD_ERROR_OF_MEAN|79.567||0.107|TWO_SIDED|95.0|-32.266|302.063||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||302.063|-32.266|0.107
82417580|NCT03572218|164546218|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.49|TWO_SIDED||||||Mixed Models Analysis|||Healthy Lifestyle||||0.49
82533286|NCT02404493|164763923|SUPERIORITY_OR_OTHER|||||||0.692||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.692
82533287|NCT02404493|164763923|SUPERIORITY_OR_OTHER|||||||0.541||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.541
82533288|NCT02404493|164763923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.492|TWO_SIDED|95.0|-0.25|0.502||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.502|-0.250|0.492
82533289|NCT02404493|164763924|SUPERIORITY_OR_OTHER|||||||0.017||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.017
82533290|NCT02404493|164763924|SUPERIORITY_OR_OTHER|||||||0.223||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.223
82417581|NCT03572218|164546219|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
82417582|NCT03572218|164546220|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.2||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||0.11
82417583|NCT03572218|164546221|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.35|TWO_SIDED||||||Mixed Models Analysis|||Global||||0.35
82417584|NCT03572218|164546221|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.46|TWO_SIDED||||||Mixed Models Analysis|||Eating Restraint||||0.46
82417585|NCT03572218|164546221|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.3||0.33|TWO_SIDED||||||Mixed Models Analysis|||Eating Concern||||0.33
82417586|NCT03572218|164546221|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.18|TWO_SIDED||||||Mixed Models Analysis|||Weight Concern||||0.18
82533291|NCT02404493|164763924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.231||0.518|TWO_SIDED|95.0|-0.635|0.331||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.331|-0.635|0.518
82533292|NCT02404493|164763925|SUPERIORITY_OR_OTHER|||||||0.005||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.005
82533293|NCT02404493|164763925|SUPERIORITY_OR_OTHER|||||||0.821||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.821
82533294|NCT02404493|164763925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.351||0.06|TWO_SIDED|95.0|-1.435|0.032||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.032|-1.435|0.060
82417587|NCT03572218|164546221|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.16|TWO_SIDED||||||Mixed Models Analysis|||Shape Concern||||0.16
82417588|NCT03572218|164546222|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|1.3||0.82|TWO_SIDED||||||Mixed Models Analysis|||Dietary Restraint||||0.82
82417589|NCT03572218|164546222|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.8||0.45|TWO_SIDED||||||Mixed Models Analysis|||Disinhibition||||0.45
82417590|NCT03572218|164546222|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.007|TWO_SIDED||||||Mixed Models Analysis|||Hunger||||0.007
82417591|NCT03572218|164546223|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.23|TWO_SIDED||||||Mixed Models Analysis|||Self-Reported Weighing||||0.23
82417592|NCT03572218|164546223|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.48|TWO_SIDED||||||Mixed Models Analysis|||Track Food/Drink||||0.48
82417593|NCT03572218|164546223|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.89|TWO_SIDED||||||Mixed Models Analysis|||Track Calories||||0.89
82533295|NCT02404493|164763926|SUPERIORITY_OR_OTHER|||||||0.007||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.007
82533296|NCT02404493|164763926|SUPERIORITY_OR_OTHER|||||||0.051||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.051
82533297|NCT02404493|164763926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.188||0.926|TWO_SIDED|95.0|-0.41|0.375||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.375|-0.410|0.926
82533298|NCT02404493|164763927|SUPERIORITY_OR_OTHER|||||||0.58||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.580
82533299|NCT02404493|164763927|SUPERIORITY_OR_OTHER|||||||0.363||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.363
82417594|NCT03572218|164546223|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.3|TWO_SIDED||||||Mixed Models Analysis|||Track Activity||||0.30
82417595|NCT03572218|164546224|SUPERIORITY|||||||0.32|||||||ANOVA|||BWL component||||0.32
82417596|NCT03572218|164546225|SUPERIORITY|||||||0.14|||||||ANOVA|||||||0.14
82417597|NCT04826731|164546230|OTHER|||||||0.374|||||||Wilcoxon (Mann-Whitney)|||Nonparametric testing was utilized due to non-standard distribution and reduced sample size. Comparison between groups was made by Mann-Whitney U testing. Spearman's rho was utilized for correlation analysis. No subgroup analyses were planned for the study.||||0.374
82417598|NCT04826731|164546231|OTHER|||||||0.635|||||||Wilcoxon (Mann-Whitney)|||Nonparametric testing was utilized due to non-standard distribution and reduced sample size. Comparison between groups was made by Mann-Whitney U testing. Spearman's rho was utilized for correlation analysis. No subgroup analyses were planned for the study.||||0.635
82417599|NCT01793129|164546237|SUPERIORITY|This trial estimated the probability that the intervention has no effect on the outcome (or conversely, the probability that id does), given the data obtained in the trial and any prior evidence.|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.74|2.0|||||The relative risk estimate was calculated by dividing risk under hypothermia by risk under normothermia.|Whole-body Hypothermia vs. Normothermia (Normothermia is the comparison group)|To get estimates of RR from the Bayesian logistic regression model, predicted probabilities of the outcome were generated for all infants assuming the infants were treated with and without hypothermia and with/without severe encephalopathy. Next subject level RR values were estimated for all infants and 2.5, 50, and 97.5 percentiles were calculated.|2.00|0.74|
82417600|NCT03931785|164546247|SUPERIORITY||Least squares (LS) mean difference|0.08||||0.7467|TWO_SIDED|95.0|-0.42|0.58|||MMRM||MD-7246 minus placebo|||0.58|-0.42|0.7467
82533300|NCT02404493|164763927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.539|TWO_SIDED|95.0|-0.531|0.286||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.286|-0.531|0.539
82417601|NCT03931785|164546247|SUPERIORITY||LS mean difference|0.43||||0.0941|TWO_SIDED|95.0|-0.07|0.93|||MMRM||MD-7246 minus placebo|||0.93|-0.07|0.0941
82417602|NCT03931785|164546247|SUPERIORITY||LS mean difference|0.06||||0.8098|TWO_SIDED|95.0|-0.44|0.56|||MMRM||MD-7246 minus placebo|||0.56|-0.44|0.8098
82417603|NCT03931785|164546248|SUPERIORITY||Difference in Responder Rate|1.0|||||TWO_SIDED|95.0|-12.9|15.0|||||Difference in responder rate (MD-7246 - placebo). 95% confidence intervals (CIs) for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||15.0|-12.9|
82417604|NCT03931785|164546248|SUPERIORITY||Difference in Responder Rate|-11.3|||||TWO_SIDED|95.0|-25.3|2.6|||||Difference in responder rate (MD-7246 - placebo). 95% CIs for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||2.6|-25.3|
82417605|NCT03931785|164546248|SUPERIORITY||Difference in Responder Rate|-7.2|||||TWO_SIDED|95.0|-21.2|6.8|||||Difference in responder rate (MD-7246 - placebo). 95% CIs for differences in responder rates were obtained using the normal approximation to the binomial distribution.|||6.8|-21.2|
82417606|NCT03931785|164546248|SUPERIORITY||Odds Ratio (OR)|1.043||||0.8852|TWO_SIDED|95.0|0.591|1.839|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.839|0.591|0.8852
82417607|NCT03931785|164546248|SUPERIORITY||Odds Ratio (OR)|0.634||||0.1152|TWO_SIDED|95.0|0.36|1.117|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.117|0.360|0.1152
82533301|NCT02404493|164763928|SUPERIORITY_OR_OTHER|||||||0.055||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.055
82533302|NCT02404493|164763928|SUPERIORITY_OR_OTHER|||||||0.076||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.076
82647162|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.158|TWO_SIDED|95.0|-0.76|4.63|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.63|-0.76|0.158
82647163|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.829|TWO_SIDED|95.0|-4.06|3.26|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.26|-4.06|0.829
82647164|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.95|TWO_SIDED|95.0|-3.69|3.93|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.93|-3.69|0.950
82533303|NCT02404493|164763928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.682|TWO_SIDED|95.0|-0.672|0.449||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.449|-0.672|0.682
82533304|NCT02404493|164763929|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
82533305|NCT02404493|164763929|SUPERIORITY_OR_OTHER|||||||0.025||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.025
82533306|NCT02404493|164763929|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.991|TWO_SIDED|95.0|-0.509|0.514||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.514|-0.509|0.991
82533307|NCT02404493|164763930|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533308|NCT02404493|164763930|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533309|NCT02404493|164763930|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.334|TWO_SIDED|95.0|-0.214|0.6||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.600|-0.214|0.334
82533310|NCT02404493|164763931|SUPERIORITY_OR_OTHER|||||||0.169||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.169
82533311|NCT02404493|164763931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.317|TWO_SIDED|95.0|-0.778|0.278||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.278|-0.778|0.317
82533312|NCT02404493|164763932|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82647165|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.816|TWO_SIDED|95.0|-5.35|4.23|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.23|-5.35|0.816
82647166|NCT00996918|165009485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.751|TWO_SIDED|95.0|-4.32|5.96|||Mixed Models Analysis|||"Change from extension study baseline in ADAS-Cog score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.96|-4.32|0.751
82417608|NCT03931785|164546248|SUPERIORITY||Odds Ratio (OR)|0.749||||0.3157|TWO_SIDED|95.0|0.425|1.317|||Cochran-Mantel-Haenszel||Odds ratio for response (MD-7246 : placebo)|||1.317|0.425|0.3157
82533313|NCT02404493|164763932|SUPERIORITY_OR_OTHER|||||||0.182||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.182
82533314|NCT02404493|164763932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.027|TWO_SIDED|95.0|-0.931|-0.069||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||-0.069|-0.931|0.027
82533315|NCT02404493|164763933|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533316|NCT02404493|164763933|SUPERIORITY_OR_OTHER|||||||0.08||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.080
82533317|NCT02404493|164763933|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.699|TWO_SIDED|95.0|-0.824|0.574||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.574|-0.824|0.699
82533318|NCT02404493|164763934|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533319|NCT02404493|164763934|SUPERIORITY_OR_OTHER|||||||0.058||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.058
82533320|NCT02404493|164763934|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.33||0.711|TWO_SIDED|95.0|-0.607|0.857||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.857|-0.607|0.711
82533321|NCT02404493|164763935|SUPERIORITY_OR_OTHER|||||||0.006||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.006
82533322|NCT02404493|164763935|SUPERIORITY_OR_OTHER|||||||0.012||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.012
82533323|NCT02404493|164763935|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.194||0.932|TWO_SIDED|95.0|-0.391|0.424||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.424|-0.391|0.932
82533324|NCT02404493|164763936|SUPERIORITY_OR_OTHER|||||||0.003||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.003
82533325|NCT02404493|164763936|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533326|NCT02404493|164763936|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.228||0.767|TWO_SIDED|95.0|-0.41|0.547||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.547|-0.410|0.767
82533327|NCT02404493|164763937|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82533328|NCT02404493|164763937|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|One sample t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
82533329|NCT02404493|164763937|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.242||0.571|TWO_SIDED|95.0|-0.65|0.37||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.370|-0.650|0.571
82533330|NCT05220501|164764088|NON_INFERIORITY|The justification of the noninferiority margin is based on review of 11 studies reporting on the benefit of multiparametric MRI-directed biopsy over systematic biopsy. The differences between the multiparametric MRI-directed biopsy and systematic biopsy were tabulated and found to range from 5%to 18%. Panel selected 10% noninferiority and a 1-sided α of .025 as a reasonable threshold that would demonstrate clinically similar outcomes.|||||<|0.001|||||||Jeffreys interval|||||||<0.001
82533331|NCT05160025|164764091|SUPERIORITY||||||<|0.001||||||"rmANOVA \< 0.001~post hoc paired t-tests or nonparametric equivalent with correction (x3) indicated the following: self-competition \> feedback (p \< 0.001) other-competition \> feedback (p \< 0.001) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||<0.001
82533332|NCT05160025|164764094|SUPERIORITY|||||||0.111||||||"rmANOVA p = 0.111~post hoc paired t-tests not performed"|ANOVA|||||||0.111
82533333|NCT05160025|164764097|SUPERIORITY||||||<|0.001||||||"rmANOVA \< 0.001~post hoc paired t-tests or nonparametric equivalent corrected (x3) indicated the following: self-competition \> feedback (p = 0.003) other-competition \> feedback (p = 0.007) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||<0.001
82533334|NCT05160025|164764100|SUPERIORITY||||||>|0.05||||||"rmANOVA p \> 0.05 with a partial eta squared effect size = 0.073~post hoc paired t-tests not performed"|ANOVA|||||||> 0.05
82533335|NCT05160025|164764105|SUPERIORITY|||||||0.004||||||"rmANOVA = 0.004~post hoc paired t-tests or nonparametric equivalent corrected (x3) indicated the following: self-competition \> feedback (p = 0.007) other-competition \> feedback (p = 0.002) self-competition = other-competition (p \> 0.05)"|ANOVA|||||||0.004
82647167|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.967|TWO_SIDED|95.0|-7.22|7.53|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.53|-7.22|0.967
82417609|NCT03548415|164546249|SUPERIORITY|||||||0.306||||||The p-value was analyzed using the nonparametric test, Van Elteren test with IGF-1 level as stratification factor.|Van Elteren test|||||||0.306
82417610|NCT01230814|164546260|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.69|TWO_SIDED|95.0|0.62|1.37||The a priori threshold for statistical significance for VVC was p\<0.020 (two-sided).|Clustered chi-squared statistic||For the relative risk estimate, the metronidazole plus miconazole arm represented the numerator and the placebo arm represented the denominator such that a relative risk \<1 indicates a lower percentage of positive test visits in the treated arm.|Each participant within a study arm was considered a cluster, with observations at a maximum of 6 visits. The percentage of visits at which VVC was detected was compared between metronidazole plus miconazole arm versus placebo arm using a chi-squared statistic adjusted for clustering using the method of Donner and Klar (2000).||1.37|0.62|0.690
82417611|NCT01230814|164546261|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65||||0.005|TWO_SIDED|95.0|0.48|0.87||The a priori threshold for statistical significance for BV was p\<0.030 (two-sided).|clutstered chi-squared statistic||For the relative risk estimate, the metronidazole plus miconazole arm represented the numerator and the placebo arm represented the denominator such that a relative risk \<1 indicates a lower percentage of test visits in the treated arm.|Each participant within a study arm was considered a cluster, with observations at a maximum of 6 visits. The percentage of visits at which BV was detected was compared between metronidazole plus miconazole arm versus placebo arm using a chi-squared statistic adjusted for clustering using the method of Donner and Klar (2000).||0.87|0.48|0.005
82417612|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.367|TWO_SIDED||||||Fisher Exact|||All bleeds||||.367
82417613|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Fisher Exact|||All bleeds||||.104
82417614|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.864|TWO_SIDED||||||Fisher Exact|||All bleeds||||.864
82417615|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Fisher Exact|||All bleeds||||.002
82417616|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||1.000
82417617|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.029
82417618|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.807
82533336|NCT05160025|164764113|SUPERIORITY||||||>|0.05||||||ranking compared to expected value for each condition and the p-value was adjusted for 3 comparisons for each condition: self-competition (p \> 0.05) other-competition (p \> 0.05) feedback (p \> 0.05)|Chi-squared|||||||> 0.05
82533337|NCT05160025|164764114|SUPERIORITY||||||>|0.05||||||ranking compared to expected value for each condition and the p-value was adjusted for 3 comparisons for each condition: self-competition (p \> 0.05) other-competition (p \> 0.05) feedback (p \> 0.05)|Chi-squared|||||||> 0.05
82533338|NCT05516342|164764119|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82533339|NCT05516342|164764120|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82533340|NCT05516342|164764121|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82533341|NCT05516342|164764122|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82533342|NCT05516342|164764123|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82533343|NCT05516342|164764124|SUPERIORITY|||||||0.89|||||||ANOVA|||||||0.89
82533344|NCT05516342|164764125|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
82533345|NCT05516342|164764126|SUPERIORITY|||||||0.19|||||||ANOVA|||||||0.19
82533346|NCT05516342|164764127|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
82417619|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Fisher Exact|||Major or Clinically Relevant (CR) non-major bleeding||||0.002
82417620|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major bleeds||||1.000
82417621|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||Fisher Exact|||Major bleeds||||0.119
82417622|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||Major bleeds||||1.000
82417623|NCT00504556|164546288|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||Fisher Exact|||Major bleeds||||0.023
82417624|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.01|||||TWO_SIDED|95.0|0.01|0.01|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 18 to 34||0.01|0.01|
82417625|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.01|||||TWO_SIDED|95.0|0.01|0.01|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 35 to 44||0.01|0.01|
82417626|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.03|||||TWO_SIDED|95.0|0.03|0.04|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 45 to 54||0.04|0.03|
82533347|NCT01866475|164764142|NON_INFERIORITY|This study is designed to test the hypothesis that the IO device has no greater than a 4 percent infection rate. Equivalently, we define success as having at least a 96 percent infection free 48-hour placement.|||||||||||||||||The historical data for the device suggests an infection rate of 0.6 percent per 48 hours or a success rate of 99.4 percent. The formal objective in the design is to reject the one-sided null hypothesis that the success rate is no higher than 96 percent. The analysis will use the exact binomial test and will tolerate a Type I Error rate of 0.05 or less. If we assume a 99.4 percent success rate, the study will have 84 percent power with a sample size of 117 to reject the null hypothesis. If the null hypothesis is rejected, we conclude that the infection rate is less than 4 percent.|||
82417627|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.08|||||TWO_SIDED|95.0|0.07|0.09|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 55 to 64||0.09|0.07|
82417628|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.12|||||TWO_SIDED|95.0|0.11|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age 65 to 74||0.14|0.11|
82417629|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.18|||||TWO_SIDED|95.0|0.15|0.21|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Age ≥75||0.21|0.15|
82417630|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.09|||||TWO_SIDED|95.0|0.06|0.13|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 18 to 34||0.13|0.06|
82417631|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.11|||||TWO_SIDED|95.0|0.08|0.16|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 35 to 44||0.16|0.08|
82417632|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.37|||||TWO_SIDED|95.0|0.3|0.45|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 45 to 54||0.45|0.30|
82417633|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.83|||||TWO_SIDED|95.0|2.68|5.47|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age 65 to 74||5.47|2.68|
82417634|NCT01260324|164546299|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.73|||||TWO_SIDED|95.0|4.0|8.22|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Age ≥75||8.22|4.00|
82417635|NCT01260324|164546300|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Female||0.05|0.04|
82417636|NCT01260324|164546300|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.05|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Male||0.06|0.05|
82417637|NCT01260324|164546300|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.83|||||TWO_SIDED|95.0|1.5|2.22|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Male||2.22|1.50|
82417638|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2003||0.05|0.04|
82417639|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2004||0.05|0.04|
82417640|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2005||0.05|0.04|
82417641|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2006||0.05|0.04|
82533348|NCT01268059|164764152|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.205||||0.027|TWO_SIDED|95.0|1.1|4.5|||Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by histology, disease stage, and ECOG performance status.|Hazard ratio and its 95 percent (%) confidence interval ( CIs) were calculated using the Cox proportional hazard model stratified by histology, disease stage, and Eastern Cooperative Oncology Group (ECOG) performance status.|||4.5|1.1|0.027
82417642|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Year 2007||0.05|0.04|
82417643|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2004||0.96|0.61|
82417644|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.58|0.91|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2005||0.91|0.58|
82417645|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.68|1.12|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2006||1.12|0.68|
82417646|NCT01260324|164546301|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.72|1.19|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Year 2007||1.19|0.72|
82417647|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Northeast||0.06|0.04|
82417648|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Midwest||0.05|0.04|
82417649|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.05|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate South||0.06|0.05|
82417650|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.04|0.05|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate West||0.05|0.04|
82417651|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.31|0.56|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Northeast||0.56|0.31|
82417652|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.68|||||TWO_SIDED|95.0|0.56|0.84|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Midwest||0.84|0.56|
82417653|NCT01260324|164546302|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.57|0.93|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio West||0.93|0.57|
82417654|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.09|||||TWO_SIDED|95.0|0.08|0.1|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Diabetes||0.10|0.08|
82417655|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.11|||||TWO_SIDED|95.0|0.08|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Smoking||0.14|0.08|
82417656|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.04|||||TWO_SIDED|95.0|0.03|0.06|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Obesity||0.06|0.03|
82417657|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.07|||||TWO_SIDED|95.0|0.06|0.09|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Nitrates||0.09|0.06|
82417658|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.15|||||TWO_SIDED|95.0|0.12|0.18|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Anti-platelet agents||0.18|0.12|
82417659|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.13|||||TWO_SIDED|95.0|0.09|0.17|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Diuretics||0.17|0.09|
82417660|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.03|||||TWO_SIDED|95.0|0.01|0.04|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Recent PDE-5 inhibitors use||0.04|0.01|
82417661|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.82|||||TWO_SIDED|95.0|1.47|2.25|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Diabetes||2.25|1.47|
82417662|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.63|2.85|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Smoking||2.85|0.63|
82533349|NCT01268059|164764154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.487||||||The 2-sided p-value was calculated by adjusting for the stratification factors histology, disease stage, and Eastern Cooperative Oncology Group (ECOG) performance status.|Cochran-Mantel-Haenszel|||Treatment effect Carboplatin/Paclitaxel + MEDI-575 versus Carboplatin/Paclitaxel.||||0.487
82533350|NCT01268059|164764154|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||||||The 2-sided p-value was calculated by adjusting for the stratification factors histology, disease stage, and ECOG performance status.|Cochran-Mantel-Haenszel|||Treatment effect Carboplatin/Paclitaxel + MEDI-575 versus Carboplatin/Paclitaxel.||||0.386
82417663|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.43|||||TWO_SIDED|95.0|0.23|0.81|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Obesity||0.81|0.23|
82417664|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.63|||||TWO_SIDED|95.0|0.42|0.94|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Nitrates||0.94|0.42|
82417665|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.12|||||TWO_SIDED|95.0|1.53|2.94|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Anti-platelet agents||2.94|1.53|
82417666|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24|||||TWO_SIDED|95.0|1.46|3.43|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Diuretics||3.43|1.46|
82417667|NCT01260324|164546303|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.57|||||TWO_SIDED|95.0|0.31|1.04|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Recent PDE-5 inhibitors use||1.04|0.31|
82417668|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.33|||||TWO_SIDED|95.0|0.28|0.39|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other retinal disorders||0.39|0.28|
82417669|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.13|||||TWO_SIDED|95.0|0.11|0.16|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Glaucoma||0.16|0.11|
82417670|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.2|||||TWO_SIDED|95.0|0.08|0.41|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Cataract||0.41|0.08|
82417671|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.99|||||TWO_SIDED|95.0|0.83|1.17|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Visual disturbances||1.17|0.83|
82417672|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|2.0|||||TWO_SIDED|95.0|1.6|2.46|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Blindness and low vision||2.46|1.60|
82417673|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.19|||||TWO_SIDED|95.0|0.16|0.23|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other disorders of eye||0.23|0.16|
82417674|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.22|||||TWO_SIDED|95.0|0.18|0.27|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Occlusion and stenosis of precerebral arteries||0.27|0.18|
82417675|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.07|||||TWO_SIDED|95.0|0.05|0.08|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Acute sinusitis||0.08|0.05|
82417676|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.05|0.08|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other dermatoses||0.08|0.05|
82417677|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.08|||||TWO_SIDED|95.0|0.06|0.1|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other disorders of bone and cartilage||0.10|0.06|
82417678|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.12|||||TWO_SIDED|95.0|0.1|0.14|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Symptoms involving head and neck||0.14|0.10|
82417679|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.14|||||TWO_SIDED|95.0|0.1|0.18|||||Standardized to the quintiles of the probability of having NAION predicted by all the other risk factors of NAION among the Controls.|Incidence rate Other ill defined and unknown causes of morbidity and mortality||0.18|0.10|
82417680|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.65|||||TWO_SIDED|95.0|4.72|9.38|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other retinal disorders||9.38|4.72|
82417681|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.77|3.81|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Glaucoma||3.81|1.77|
82417682|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|1.02|1.68|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Cataract||1.68|1.02|
82417683|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|14.2|||||TWO_SIDED|95.0|10.4|19.3|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Visual disturbances||19.30|10.40|
82417684|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|15.1|||||TWO_SIDED|95.0|6.6|34.5|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Blindness and low vision||34.50|6.60|
82417685|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02|||||TWO_SIDED|95.0|1.44|2.82|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other disorders of eye||2.82|1.44|
82417686|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.64|2.31|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Occlusion and stenosis of precerebral arteries||2.31|0.64|
82417687|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.96|1.74|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Acute sinusitis||1.74|0.96|
82417688|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|1.02|1.77|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other dermatoses||1.77|1.02|
82417689|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.98|1.77|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Other disorders of bone and cartilage||1.77|0.98|
82417690|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|1.02|1.84|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Symptoms involving head and neck||1.84|1.02|
82417691|NCT01260324|164546304|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.08|2.49|||||Odds ratio derived from covariate-adjusted logisitic regression model and adjusted for all other covariates in the table.|Odds ratio Ill defined and unknown causes of morbidity and mortality||2.49|1.08|
82417692|NCT01260324|164546305|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.03|0.07|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Recent use||0.07|0.03|
82417693|NCT01260324|164546305|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.04|0.08|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Any use (includes chronic and non-chronic use)||0.08|0.04|
82417694|NCT01260324|164546305|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.05|||||TWO_SIDED|95.0|0.03|0.08|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Chronic use||0.08|0.03|
82417695|NCT01260324|164546305|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.06|||||TWO_SIDED|95.0|0.03|0.11|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Non-chronic use||0.11|0.03|
82417696|NCT01260324|164546305|SUPERIORITY_OR_OTHER_LEGACY||Incidence rate per 1000 person-years|0.09|||||TWO_SIDED|95.0|0.08|0.1|||||Standardized to the quintiles of the probability predicted by all the other risk factors of NAION among the Controls.|Incidence rate Never use||0.10|0.08|
82417697|NCT00292370|164546340|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82417698|NCT02123511|164546378|SUPERIORITY|||||||0.1232|||||||t-test, 1 sided|||||||0.1232
82417699|NCT02123511|164546379|SUPERIORITY|||||||0.0422|||||||t-test, 1 sided|||||||0.0422
82417700|NCT02123511|164546380|SUPERIORITY|||||||0.5634|||||||t-test, 1 sided|||||||0.5634
82417701|NCT02123511|164546381|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||0.02
82417702|NCT02123511|164546382|SUPERIORITY|||||||0.22|||||||t-test, 1 sided|||||||0.22
82417703|NCT02123511|164546383|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||||||0.02
82417704|NCT02123511|164546384|SUPERIORITY|||||||0.95|||||||t-test, 1 sided|||||||0.95
82417705|NCT02123511|164546385|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||||||0.17
82417706|NCT02123511|164546386|SUPERIORITY|||||||0.48|||||||t-test, 1 sided|||||||0.48
82417707|NCT02123511|164546387|SUPERIORITY|||||||0.3824|||||||Wilcoxon (Mann-Whitney)|||||||0.3824
82447585|NCT00793325|164603788|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at one year and SGA at baseline.||||<0.001
82447586|NCT00793325|164603788|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at two years and SGA at baseline.||||<0.001
82417708|NCT00378560|164546402|SUPERIORITY_OR_OTHER||Percent Relative Risk Reduction|87.6|||||TWO_SIDED|95.0|59.2|97.6|||||Binomial probability conditional on the fixed number of events.|||97.6|59.2|
82533351|NCT01268059|164764157|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.017|||||TWO_SIDED|95.0|1.2|7.4|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||7.4|1.2|
82533352|NCT01268059|164764157|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.134|||||TWO_SIDED|95.0|0.3|4.3|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||4.3|0.3|
82533353|NCT01268059|164764158|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.315|||||TWO_SIDED|95.0|0.7|2.4|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||2.4|0.7|
82533354|NCT01268059|164764158|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.083|||||TWO_SIDED|95.0|0.4|10.8|||||The 95% confidence interval calculated using the Cox proportional hazard model stratified by histology, disease stage, and ECOG performance status.|||10.8|0.4|
82533355|NCT03660943|164764171|SUPERIORITY||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|1.192||0.0833|TWO_SIDED|95.0|-4.42|0.27|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.27|-4.42|0.0833
82417709|NCT00378560|164546403|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417710|NCT00378560|164546404|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417711|NCT00378560|164546405|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417712|NCT00378560|164546406|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82417713|NCT03992482|164546418|OTHER|||||||1|||||||Kruskal-Wallis|||||||1.000
82417714|NCT03992482|164546419|OTHER|||||||0.0044|||||||Mixed Models Analysis|||||||0.0044
82417715|NCT03992482|164546420|OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
82417716|NCT01368185|164546421|SUPERIORITY_OR_OTHER_LEGACY||% change SUA from baseline|4.6|STANDARD_DEVIATION|0.9|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 SUA minus baseline SUA.|Comparison between Month 3 and Baseline||||<0.01
82417717|NCT01368185|164546422|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||||||<0.0001
82417718|NCT01368185|164546423|SUPERIORITY_OR_OTHER_LEGACY||% change DBP from Baseline|-7.1|STANDARD_DEVIATION|0.4|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 DBP minus baseline DBP (n=1239).|Comparison between Month 3 and Baseline||||<0.01
82417719|NCT01368185|164546424|SUPERIORITY_OR_OTHER_LEGACY||% change SBP from Baseline|-9.1|STANDARD_DEVIATION|0.3|<|0.01||95.0|||||t-test, 2 sided||Percent change of month 3 SBP minus baseline SBP (n=1245).|Comparison between Month 3 and Baseline||||<0.01
82417720|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|-0.04||||0.794|TWO_SIDED|95.0|-0.72|0.65||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an analysis of covariance (ANCOVA) model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.65|-0.72|0.794
82417721|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|-0.2||||0.794|TWO_SIDED|95.0|-0.82|0.43||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.43|-0.82|0.794
82447587|NCT00793325|164603788|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the growth rate SD score for calendar age between SGA at three years and SGA at baseline.||||<0.001
82447588|NCT00793325|164603789|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at one year and SGA at baseline.||||<0.001
82447589|NCT00793325|164603789|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the null hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at two years and SGA at baseline.||||<0.001
82447590|NCT00793325|164603789|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||t-test, 1 sided|A one-sided paired t-test was performed to test the hypothesis.||The null hypothesis is that there is no difference in the mean value of the change in the height SD score for calendar age between SGA at three years and SGA at baseline.||||<0.001
82533356|NCT03660943|164764172|SUPERIORITY|The number of NPRS subjects differed from the WOMAC outcomes because of differences in missing data.|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.251||0.0935|TWO_SIDED|95.0|-0.91|0.07|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.07|-0.91|0.0935
82533357|NCT03660943|164764173|SUPERIORITY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|0.506||0.0163|TWO_SIDED|95.0|-2.22|-0.23|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||-0.23|-2.22|0.0163
82533358|NCT03660943|164764174|SUPERIORITY||Mean Difference (Final Values)|-7.99|STANDARD_ERROR_OF_MEAN|4.076||0.0509|TWO_SIDED|95.0|-16.01|0.03|||Mixed Models Analysis|||The MMRM analysis included the change from study baseline in scores as the dependent variable, with terms for treatment, pooled study center, study baseline K-L grade category for the index knee, study baseline BMI category, study baseline OA type (unilateral or bilateral knee OA), sex, study visit, treatment by visit interaction, and study baseline score as covariates, using an unstructured covariance structure.||0.03|-16.01|0.0509
82533359|NCT03850444|164764175|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.38|1.0|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||1.00|0.38|
82417722|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|0.16||||0.794|TWO_SIDED|95.0|-0.49|0.82||Arm effect|type III SS F-test|||Category: CD8+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.82|-0.49|0.794
82417723|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|0.02||||0.654|TWO_SIDED|95.0|-0.52|0.57||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.57|-0.52|0.654
82417724|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|-0.19||||0.654|TWO_SIDED|95.0|-0.69|0.31||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.31|-0.69|0.654
82417725|NCT01507103|164546425|SUPERIORITY_OR_OTHER||Effect estimate|0.21||||0.654|TWO_SIDED|95.0|-0.31|0.74||Arm effect|type III SS F-test|||Category: CD8+/GrB+ The difference between baseline and surgical tumor samples was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value as covariate. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B||0.74|-0.31|0.654
82533360|NCT03850444|164764176|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.41|0.95|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||0.95|0.41|
82533361|NCT03850444|164764177|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.45|0.94|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||0.94|0.45|
82533362|NCT03850444|164764178|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.57|1.28|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), and histology (squamous vs. non-squamous).|||1.28|0.57|
82533363|NCT03850444|164764179|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.7|1.39|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||1.39|0.70|
82533364|NCT03850444|164764180|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.74|1.35|||||Hazard ratio based on Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||1.35|0.74|
82533365|NCT03850444|164764181|OTHER||Difference in Percentage (DP)|17.2|||||TWO_SIDED|95.0|1.8|31.6|||Stratified Miettinen and Nurminen||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1) and histology (squamous vs. non-squamous).|||31.6|1.8|
82533366|NCT03850444|164764182|OTHER||Difference in Percentage (DP)|11.3|||||TWO_SIDED|95.0|-1.4|23.7|||||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||23.7|-1.4|
82533367|NCT03850444|164764183|OTHER||Difference in Percentage (DP)|8.0|||||TWO_SIDED|95.0|-3.0|18.9|||||DP for pembrolizumab vs. chemotherapy based on Miettinen \& Nurminen method stratified by ECOG PS (0 vs. 1), PD-L1 expression status (TPS=≥50% vs. TPS=1-49%), and histology (squamous vs. non-squamous).|||18.9|-3.0|
82533368|NCT03531905|164764186|SUPERIORITY||Difference of Least Squares (LS) means|-39.6|STANDARD_ERROR_OF_MEAN|3.14|<|0.001|TWO_SIDED|95.0|-45.8|-33.4|||ANCOVA|||||-33.4|-45.8|<0.001
82533369|NCT03531905|164764186|SUPERIORITY||Difference of LS means|-19.5|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-25.7|-13.4|||ANCOVA|||||-13.4|-25.7|<0.001
82417726|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|-0.03||||0.921|TWO_SIDED|95.0|-0.73|0.67|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.67|-0.73|0.921
82417727|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|-0.2||||0.921|TWO_SIDED|95.0|-0.83|0.44|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.44|-0.83|0.921
82417728|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|0.17||||0.921|TWO_SIDED|95.0|-0.5|0.83|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category: CD8+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline = Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.83|-0.50|0.921
82417729|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|0.02||||0.89|TWO_SIDED|95.0|-0.54|0.58|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm C) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.58|-0.54|0.890
82417730|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|-0.19||||0.89|TWO_SIDED|95.0|-0.7|0.31|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm B vs Arm C) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.31|-0.70|0.890
82417731|NCT01507103|164546426|SUPERIORITY_OR_OTHER||LS Means estimate|0.21||||0.89|TWO_SIDED|95.0|-0.32|0.74|||type III SS F-test||Difference between Means adjusted on covariates baseline value and MSI category.|Category:CD8+/GrB+ The difference in T cell infiltration from baseline to surgery was analysed and compared across the 3 treatment arms (effect estimate for Arm A vs Arm B) based on an ANCOVA model. Difference from baseline=Surgery value-Baseline value. Adjustment was based on ANCOVA model with treatment arm as factor and baseline value and MSI category as covariates. No interaction included. Pairwise tests have been performed to compare Arm A with Arm C, Arm B with Arm C, and Arm A with Arm B.||0.74|-0.32|0.890
82417732|NCT03074643|164546431|SUPERIORITY|||||||0.16|||||||ANCOVA|Adjusted for age, sex, race||||||0.16
82447591|NCT00117793|164603828|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on limb volume was analyzed using repeated measures one-way analyses of variance.||||||>0.05
82447592|NCT00117793|164603829|SUPERIORITY_OR_OTHER||||||=|0.0056||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on activity level was analyzed using repeated measures one-way analyses of variance.||||||=0.0056
82533370|NCT03531905|164764186|SUPERIORITY||Difference of LS means|-20.1|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|-26.2|-14.0|||ANCOVA|||||-14.0|-26.2|<0.001
82417733|NCT03074643|164546431|SUPERIORITY|||||||0.45|||||||ANCOVA|Adjusted for age, sex, race||||||0.45
82417734|NCT03074643|164546432|SUPERIORITY|||||||0.81|||||||ANCOVA|Adjusted for age, sex, race||||||0.81
82417735|NCT03074643|164546432|SUPERIORITY|||||||0.8|||||||ANCOVA|Adjusted for age, sex, race||||||0.80
82417736|NCT03074643|164546433|SUPERIORITY|||||||0.56|||||||ANCOVA|Adjusted for age, sex, race||||||0.56
82417737|NCT03074643|164546433|SUPERIORITY|||||||0.96|||||||ANCOVA|Adjusted for age, sex, race||||||0.96
82417738|NCT03074643|164546434|SUPERIORITY|||||||0.76|||||||ANCOVA|Adjusted for age, sex, race||||||0.76
82417739|NCT03074643|164546434|SUPERIORITY|||||||0.45|||||||ANCOVA|Adjusted for age, sex, race||||||0.45
82417740|NCT03074643|164546435|SUPERIORITY|||||||0.75|||||||ANCOVA|Adjusted for age, sex, race||||||0.75
82417741|NCT03074643|164546435|SUPERIORITY|||||||0.95|||||||ANCOVA|Adjusted for age, sex, race||||||0.95
82417742|NCT03074643|164546436|SUPERIORITY|||||||0.06|||||||ANCOVA|Adjusted for age, sex, race||||||0.06
82447593|NCT00117793|164603830|SUPERIORITY_OR_OTHER||||||=|0.0021||95.0||||Statistical significance was set a-priori at p \< 0.05.|Mixed Models Analysis|The effect of study limb on limb pistoning was analyzed using repeated measures one-way analyses of variance.||||||=0.0021
82447594|NCT03688100|164603878|SUPERIORITY||ratio of means|0.62||||0.005|TWO_SIDED|95.0|0.45|0.86||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Emergency Department visits AT 3 MONTHS||0.86|0.45|0.005
82447595|NCT03688100|164603878|SUPERIORITY||ratio of means|0.7||||0.008|TWO_SIDED|95.0|0.6|0.86||The a priori threshold for statistical significance is p\<0.05|Zero Inflated Poisson (ZIP) Model||For the ratio of means for ED visits, BA is the numerator and MEDS is the denominator.|Emergency Department visits AT 6 MONTHS||0.86|0.60|0.008
82533371|NCT03531905|164764187|SUPERIORITY||Difference of LS means|-20.1|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|-26.2|-14.0|||ANCOVA|||||-14.0|-26.2|<0.001
82533372|NCT03531905|164764188|SUPERIORITY||Location shift|-36.7|STANDARD_ERROR_OF_MEAN|9.77|<|0.001|TWO_SIDED|95.0|-55.97|-17.67|||Wilcoxon rank sum test|||||-17.67|-55.97|<0.001
82533373|NCT03531905|164764188|SUPERIORITY||Location shift|-29.2|STANDARD_ERROR_OF_MEAN|10.03||0.005|TWO_SIDED|95.0|-48.92|-9.62|||Wilcoxon rank sum test|||||-9.62|-48.92|0.005
82417743|NCT03074643|164546436|SUPERIORITY|||||||0.22|||||||ANCOVA|Adjusted for age, sex, race||||||0.22
82417744|NCT03074643|164546437|SUPERIORITY|||||||0.48|||||||ANCOVA|Adjusted for age, sex, race||||||0.48
82417745|NCT03074643|164546437|SUPERIORITY|||||||0.22|||||||ANCOVA|Adjusted for age, sex, race||||||0.22
82533374|NCT03531905|164764188|SUPERIORITY||Location shift|-7.5|STANDARD_ERROR_OF_MEAN|11.29||0.48|TWO_SIDED|95.0|-30.51|13.76|||Wilcoxon rank sum test|||||13.76|-30.51|0.480
82533375|NCT03531905|164764189|SUPERIORITY||Difference of LS means|-33.1|STANDARD_ERROR_OF_MEAN|2.81|<|0.001|TWO_SIDED|95.0|-38.6|-27.5|||ANCOVA|||||-27.5|-38.6|<0.001
82533376|NCT03531905|164764189|SUPERIORITY||Difference of LS means|-15.3|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-20.8|-9.7|||ANCOVA|||||-9.7|-20.8|<0.001
82533377|NCT03531905|164764189|SUPERIORITY||Difference of LS means|-17.8|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-23.3|-12.4|||ANCOVA|||||-12.4|-23.3|<0.001
82533378|NCT03531905|164764190|SUPERIORITY||Difference of LS means|-27.2|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-31.7|-22.8|||ANCOVA|||||-22.8|-31.7|<0.001
82533379|NCT03531905|164764190|SUPERIORITY||Difference of LS means|-13.4|STANDARD_ERROR_OF_MEAN|2.24|<|0.001|TWO_SIDED|95.0|-17.8|-9.0|||ANCOVA|||||-9.0|-17.8|<0.001
82533380|NCT03531905|164764190|SUPERIORITY||Difference of LS means|-13.9|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-18.2|-9.5|||ANCOVA|||||-9.5|-18.2|<0.001
82533381|NCT03531905|164764191|SUPERIORITY||Difference of LS means|-27.2|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-32.6|-21.8|||ANCOVA|||||-21.8|-32.6|<0.001
82417746|NCT03892915|164546568|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.73|1.93||||||||1.93|0.73|
82417747|NCT03892915|164546569|SUPERIORITY||beta coefficient|5.33|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|||||||||||||
82417748|NCT03892915|164546571|SUPERIORITY||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.53|6.5||||||||6.50|0.53|
82417749|NCT03892915|164546572|SUPERIORITY||Odds Ratio (OR)|2.73|||||TWO_SIDED|95.0|0.45|16.64||||||||16.64|0.45|
82417750|NCT03892915|164546573|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.05|0.83||||||||0.83|0.05|
82417751|NCT00191152|164546574|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Log Rank|||||||0.145
82417752|NCT00191152|164546575|SUPERIORITY_OR_OTHER|||||||0.361||95.0|||||Log Rank|||||||0.361
82417753|NCT00191152|164546576|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Log Rank|||||||0.145
82417754|NCT00191152|164546577|SUPERIORITY_OR_OTHER|||||||0.385||95.0|||||Log Rank|||||||0.385
82417755|NCT00191152|164546578|SUPERIORITY_OR_OTHER|||||||0.377||95.0|||||Log Rank|||||||0.377
82417756|NCT00191152|164546579|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Log Rank|||||||0.446
82417757|NCT00191152|164546580|SUPERIORITY_OR_OTHER|||||||0.785||95.0|||||Log Rank|||||||0.785
82417758|NCT00191152|164546581|SUPERIORITY_OR_OTHER|||||||0.364||95.0|||||Fisher Exact|||||||0.364
82417759|NCT00191152|164546582|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Fisher Exact|||||||0.446
82417760|NCT00191152|164546583|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Mixed Models Analysis|||||||0.990
82417761|NCT00191152|164546584|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||Mixed Models Analysis|||||||0.117
82417762|NCT00191152|164546585|SUPERIORITY_OR_OTHER|||||||0.801||95.0|||||Mixed Models Analysis|||||||0.801
82417763|NCT00191152|164546586|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Mixed Models Analysis|||||||0.190
82417764|NCT00114777|164546587|SUPERIORITY_OR_OTHER||Treament Difference|1.1|||||TWO_SIDED|97.3|-7.2|9.4|||||The treatment differences between each belatacept treatment group and cyclosporin group was tested at the 0.027 significance level for participant and graft survival (based on 10% non-inferiority margin).|||9.4|-7.2|
82417765|NCT00114777|164546587|SUPERIORITY_OR_OTHER||Treatment difference|3.2|||||TWO_SIDED|97.3|-5.0|11.4|||||The treatment differences between each belatacept treatment group and cyclosporin group was tested at the 0.027 significance level for participant and graft survival (based on 10% non-inferiority margin).|||11.4|-5.0|
82417766|NCT00114777|164546588|SUPERIORITY_OR_OTHER||Percentage difference|-14.4||||0.0018|TWO_SIDED|97.3|-24.0|-4.7|||Chi-squared||A continuity-corrected chi-squared test at the significance level 0.027 was performed to assess the effect of each belatacept regimen compared with cyclosporin A.|||-4.7|-24|0.0018
82533382|NCT03531905|164764191|SUPERIORITY||Difference of LS means|-12.8|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-18.1|-7.4|||ANCOVA|||||-7.4|-18.1|<0.001
82533383|NCT03531905|164764191|SUPERIORITY||Difference of LS means|-14.4|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-19.7|-9.1|||ANCOVA|||||-9.1|-19.7|<0.001
82533384|NCT03531905|164764192|SUPERIORITY||Location shift|-3.9|STANDARD_ERROR_OF_MEAN|5.44||0.457|TWO_SIDED|95.0|-14.55|6.79|||Wilcoxon rank sum test|||||6.79|-14.55|0.457
82533385|NCT03531905|164764192|SUPERIORITY||Difference of LS means|4.7|STANDARD_ERROR_OF_MEAN|5.25||0.351|TWO_SIDED|95.0|-4.93|15.63|||ANCOVA|||||15.63|-4.93|0.351
82533386|NCT03531905|164764192|SUPERIORITY||Difference of LS means|-9.2|STANDARD_ERROR_OF_MEAN|4.75||0.068|TWO_SIDED|95.0|-17.92|0.68|||ANCOVA|||||0.68|-17.92|0.068
82533387|NCT03531905|164764193|SUPERIORITY||Difference of LS means|-5.9|STANDARD_ERROR_OF_MEAN|2.14||0.007|TWO_SIDED|95.0|-10.1|-1.7|||ANCOVA|||||-1.7|-10.1|0.007
82533388|NCT03531905|164764193|SUPERIORITY||Difference of LS means|-7.3|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-11.5|-3.1|||ANCOVA|||||-3.1|-11.5|<0.001
82533389|NCT03531905|164764193|SUPERIORITY||Difference of LS means|1.4|STANDARD_ERROR_OF_MEAN|2.11||0.517|TWO_SIDED|95.0|-2.8|5.5|||ANCOVA|||||5.5|-2.8|0.517
82533390|NCT03531905|164764194|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82533391|NCT03531905|164764194|SUPERIORITY|||||||0.118|||||||Fisher Exact|||||||0.118
82533392|NCT03531905|164764194|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82533393|NCT03531905|164764195|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82533394|NCT03531905|164764195|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82533395|NCT03531905|164764197|SUPERIORITY||Difference of LS means|-0.3|STANDARD_ERROR_OF_MEAN|1.83||0.877|TWO_SIDED|95.0|-3.9|3.3|||ANCOVA|||||3.3|-3.9|0.877
82533396|NCT03531905|164764197|SUPERIORITY||Difference of LS means|0.8|STANDARD_ERROR_OF_MEAN|1.83||0.669|TWO_SIDED|95.0|-2.8|4.4|||ANCOVA|||||4.4|-2.8|0.669
82533397|NCT03531905|164764197|SUPERIORITY||Difference of LS means|-1.1|STANDARD_ERROR_OF_MEAN|1.81||0.556|TWO_SIDED|95.0|-4.6|2.5|||ANCOVA|||||2.5|-4.6|0.556
82417767|NCT00114777|164546588|SUPERIORITY_OR_OTHER||Percentage difference|-8.5||||0.0616|TWO_SIDED|97.3|-18.0|0.9|||Chi-squared||A continuity-corrected chi-squared test at the significance level 0.027 was performed to assess the effect of each belatacept regimen compared with cyclosporin A.|||0.9|-18|0.0616
82417768|NCT02046200|164546610|SUPERIORITY_OR_OTHER|||||||0.0563|||||||ANOVA|||||||0.0563
82417769|NCT02046200|164546611|SUPERIORITY_OR_OTHER|||||||0.0342|||||||ANOVA|||||||0.0342
82417770|NCT02046200|164546612|SUPERIORITY_OR_OTHER|||||||0.1597|||||||ANOVA|||||||0.1597
82417771|NCT02046200|164546613|SUPERIORITY_OR_OTHER|||||||0.7617|||||||ANOVA|||||||0.7617
82417772|NCT02046200|164546614|SUPERIORITY_OR_OTHER|||||||0.93|||||||ANOVA|||||||0.93
82417773|NCT02046200|164546615|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||||||0.95
82533398|NCT03531905|164764198|SUPERIORITY||Difference of LS means|2.5|STANDARD_ERROR_OF_MEAN|4.64||0.589|TWO_SIDED|95.0|-6.7|11.7|||ANCOVA|||||11.7|-6.7|0.589
82533399|NCT03531905|164764198|SUPERIORITY||Difference of LS means|0.6|STANDARD_ERROR_OF_MEAN|4.64||0.904|TWO_SIDED|95.0|-8.6|9.7|||ANCOVA|||||9.7|-8.6|0.904
82533400|NCT03531905|164764198|SUPERIORITY||Difference of LS means|2.0|STANDARD_ERROR_OF_MEAN|4.66||0.676|TWO_SIDED|95.0|-7.3|11.2|||ANCOVA|||||11.2|-7.3|0.676
82417774|NCT02046200|164546616|SUPERIORITY_OR_OTHER|||||||0.43|||||||ANOVA|||||||0.43
82417775|NCT02046200|164546617|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||||||0.06
82417776|NCT02046200|164546618|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANOVA|||||||0.21
82417777|NCT02046200|164546619|SUPERIORITY_OR_OTHER|||||||0.09|||||||ANOVA|||||||0.09
82417778|NCT02046200|164546620|SUPERIORITY_OR_OTHER|||||||0.99|||||||ANOVA|||||||0.99
82417779|NCT00682838|164546627|SUPERIORITY_OR_OTHER|||||||0.5|||||||t-test, 1 sided|||||||0.50
82417780|NCT00185900|164546628|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82417781|NCT03566550|164546644|OTHER|||||||0.04|||||||Log Rank|||||||0.04
82417782|NCT03566550|164546645|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82417783|NCT03566550|164546646|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82417784|NCT03566550|164546647|OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82417785|NCT03566550|164546648|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82417786|NCT00098293|164546651|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was greater than (\>) -10%.|Difference in Percentage|-3.0|||||ONE_SIDED|97.5|-9.5|||||||Less than 400 copies/mL: Treatment difference in percentages stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% confidence interval (CI) based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-9.5|
82533401|NCT03531905|164764200|SUPERIORITY||Difference of LS means|-15.8|STANDARD_ERROR_OF_MEAN|13.95||0.258|TWO_SIDED|95.0|-43.4|11.7|||ANCOVA|||||11.7|-43.4|0.258
82533402|NCT03531905|164764200|SUPERIORITY||Difference of LS means|0.5|STANDARD_ERROR_OF_MEAN|13.79||0.972|TWO_SIDED|95.0|-26.8|27.7|||ANCOVA|||||27.7|-26.8|0.972
82417787|NCT00098293|164546651|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.2|||||ONE_SIDED|97.5|-10.9|||||||Less than 50 copies/mL: Treatment difference in percentages stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.9|
82417788|NCT00098293|164546652|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.1|||||ONE_SIDED|97.5|-10.5|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.5|
82417789|NCT00098293|164546652|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-4.4|||||ONE_SIDED|97.5|-11.2|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata (screening viral load and geographic region) was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-11.2|
82417790|NCT00098293|164546653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.4485|TWO_SIDED|95.0|0.64|1.22|||Regression, Logistic|||Less than 400 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates was used. Odds ratio \> 1 would favor maraviroc.||1.22|0.64|0.4485
82417791|NCT00098293|164546653|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.2724|TWO_SIDED|95.0|0.61|1.15|||Regression, Logistic|||Less than 50 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.15|0.61|0.2724
82426593|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.9|-1.4|<0.0001
82533403|NCT03531905|164764200|SUPERIORITY||Difference of LS means|-16.3|STANDARD_ERROR_OF_MEAN|13.68||0.235|TWO_SIDED|95.0|-43.3|10.7|||ANCOVA|||||10.7|-43.3|0.235
82533404|NCT03251144|164764209|OTHER||Mean Difference (Final Values)|20.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82533405|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.2|1.4||||||Unmasked minus masked||1.4|-2.2|
82533406|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.5||||||Unmasked minus masked||2.5|-1.5|
82447596|NCT03688100|164603878|SUPERIORITY||ratio of means|0.73||||0.0001|TWO_SIDED|95.0|0.62|0.85||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means for ED visits , BA is numerator and MEDS is the denominator.|Emergency Department visits AT 12 MONTHS||0.85|0.62|0.0001
82533407|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|-0.1|2.2||||||Unmasked minus masked||2.2|-0.1|
82417792|NCT00098293|164546654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.3943|TWO_SIDED|95.0|0.65|1.19|||Regression, Logistic|||Less than 400 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.19|0.65|0.3943
82417793|NCT00098293|164546654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.1289|TWO_SIDED|95.0|0.59|1.07|||Regression, Logistic|||Less than 50 copies/mL: Two-sided 95% CI was presented for the odds ratio between treatment groups. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), geographic region (Northern or Southern Hemisphere) as covariates were used. Odds ratio \> 1 would favor maraviroc.||1.07|0.59|0.1289
82417794|NCT00098293|164546655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.1077||0.2741|TWO_SIDED|95.0|-0.094|0.329|||ANCOVA|||Change at week 48: P-value was calculated using Analysis of Covariance (ANCOVA) with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment least squares means (LS means) adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.329|-0.094|0.2741
82417795|NCT00098293|164546655|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1162||0.3899|TWO_SIDED|95.0|-0.128|0.328|||ANCOVA|||Change at week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.328|-0.128|0.3899
82417796|NCT00098293|164546656|SUPERIORITY_OR_OTHER||LS Mean Difference|0.111|STANDARD_ERROR_OF_MEAN|0.1002||0.2693|TWO_SIDED|95.0|-0.086|0.307|||ANCOVA|||Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.307|-0.086|0.2693
82417797|NCT00098293|164546656|SUPERIORITY_OR_OTHER||LS Mean Difference|0.089|STANDARD_ERROR_OF_MEAN|0.1121||0.427|TWO_SIDED|95.0|-0.131|0.309|||ANCOVA|||Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Negative value would favor maraviroc.||0.309|-0.131|0.4270
82417798|NCT00098293|164546657|SUPERIORITY_OR_OTHER||LS Mean Difference|26.34|STANDARD_ERROR_OF_MEAN|9.827||0.0075|TWO_SIDED|95.0|7.04|45.63|||ANCOVA|||Change at Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD4 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||45.63|7.04|0.0075
82417799|NCT00098293|164546657|SUPERIORITY_OR_OTHER||LS Mean Difference|35.44|STANDARD_ERROR_OF_MEAN|11.419||0.002|TWO_SIDED|95.0|13.02|57.86|||ANCOVA|||Change at Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD4 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||57.86|13.02|0.0020
82447597|NCT03688100|164603879|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model|||Differences in the number of hospital readmissions between BA and MEDS at 3, 6, and 12 months||||>0.05
82533408|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|0.2|3.5||||||Unmasked minus masked||3.5|0.2|
82533409|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.3|1.2||||||Partial masked minus masked||1.2|-3.3|
82447598|NCT03688100|164603880|SUPERIORITY||ratio of means|0.83||||0.002|TWO_SIDED|95.0|0.75|0.92||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Days in the Hospital at 3 months||0.92|0.75|0.002
82533410|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.9|1.1||||||Partial masked minus masked||1.1|-1.9|
82533411|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.9|2.7||||||Partial masked minus masked||2.7|-2.9|
82533412|NCT01155726|164764210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-1.1|1.9||||||Partial masked minus masked||1.9|-1.1|
82533413|NCT02892409|164764216|EQUIVALENCE|LS Mean Ratio (TAK-438/Lansoprazole), 95 percent (%) confidence interval (CI) of the ratio were obtained by taking the anti-log of the difference or confidence limits of difference between the LS means of test and reference on the natural logarithmic scale.|Least Square (LS) Mean Ratio|105.1|||||TWO_SIDED|95.0|66.051|167.183||||||||167.183|66.051|
82533414|NCT02892409|164764217|EQUIVALENCE|LS Mean Ratio (TAK-438/Lansoprazole), 95% CI of the ratio were obtained by taking the anti-log of the difference or confidence limits of difference between the LS means of test and reference on the natural logarithmic scale.|LS Mean Ratio|93.6|||||TWO_SIDED|95.0|67.137|130.569||||||||130.569|67.137|
82533415|NCT05305040|164764219|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.049||0.5603|TWO_SIDED|95.0|-0.09|0.1||1-sided p-value|ANCOVA|||||0.10|-0.09|0.5603
82533416|NCT02054247|164764222|SUPERIORITY|||||||0.442|||||||ANOVA|||||||0.442
82533417|NCT02054247|164764223|SUPERIORITY|||||||0.083|||||||ANOVA|||||||0.083
82533418|NCT02054247|164764224|SUPERIORITY|||||||0.125|||||||ANOVA|||||||0.125
82533419|NCT02054247|164764225|SUPERIORITY|||||||0.146|||||||ANOVA|||||||0.146
82647168|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13||||0.593|TWO_SIDED|95.0|-5.72|9.98|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 13.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.98|-5.72|0.593
82647169|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.968|TWO_SIDED|95.0|-7.32|7.62|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.62|-7.32|0.968
82647170|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92||||0.473|TWO_SIDED|95.0|-10.92|5.08|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.08|-10.92|0.473
82647171|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95||||0.63|TWO_SIDED|95.0|-9.91|6.02|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.02|-9.91|0.630
82417800|NCT00098293|164546658|SUPERIORITY_OR_OTHER||LS Mean Difference|166.29|STANDARD_ERROR_OF_MEAN|25.04|<|0.0001|TWO_SIDED|95.0|117.13|215.46|||ANCOVA|||Change at Week 48: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD8 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||215.46|117.13|<0.0001
82417801|NCT00098293|164546658|SUPERIORITY_OR_OTHER||LS Mean Difference|172.22|STANDARD_ERROR_OF_MEAN|25.471|<|0.0001|TWO_SIDED|95.0|122.21|222.23|||ANCOVA|||Change at Week 96: P-value was calculated using ANCOVA with the model including treatment arm and, as covariates, baseline CD8 count and the randomization strata (screening viral load and geographic region). The difference between the treatment LS means adjusted for the covariates was presented in addition to 2-sided 95% CI. Positive value would favor maraviroc.||222.23|122.21|<0.0001
82417802|NCT00098293|164546659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.5874|TWO_SIDED|95.0|0.83|1.45|||Log Rank|||Week 48: P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio was calculated by fitting a Cox proportional hazards model including treatment group and the two randomization strata, HIV-1 RNA at screening and geographic region. Hazard ratio \< 1 would favor maraviroc.||1.45|0.83|0.5874
82417803|NCT00098293|164546659|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.4811|TWO_SIDED|95.0|0.86|1.4|||Log Rank|||Week 96: P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio was calculated by fitting a Cox proportional hazards model including treatment group and the two randomization strata, HIV-1 RNA at screening and geographic region. Hazard ratio \< 1 would favor maraviroc.||1.40|0.86|0.4811
82417804|NCT00098293|164546666|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was greater than (\>) -10%.|Difference in Percentage|-3.2|||||ONE_SIDED|97.5|-10.2|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-10.2|
82417805|NCT00098293|164546666|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 1-sided 97.5% CI was \> -10%.|Difference in Percentage|-5.8|||||ONE_SIDED|97.5|-12.8|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Step down procedure used to control for multiple comparisons.|||-12.8|
82417806|NCT00098293|164546667|SUPERIORITY_OR_OTHER||Difference in Percentage|0.6|||||ONE_SIDED|97.5|-6.4|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-6.4|
82417807|NCT00098293|164546667|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.2|||||ONE_SIDED|97.5|-7.4|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-7.4|
82417808|NCT00098293|164546668|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4|||||ONE_SIDED|97.5|-7.9|||||||Less than 400 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-7.9|
82417809|NCT00098293|164546668|SUPERIORITY_OR_OTHER||Difference in Percentage|-3.9|||||ONE_SIDED|97.5|-11.5|||||||Less than 50 copies/mL: Treatment difference in percentage stratified by randomization strata was presented along with the lower bound of the 1-sided 97.5% CI based on the normal approximation to the binomial distribution. Positive value would favor maraviroc. Due to its post-hoc nature, this analysis was considered descriptive only rather than inferential.|||-11.5|
82648054|NCT00207714|165011499|SUPERIORITY_OR_OTHER|||||||0.281|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 50 mg every 2 or 4 Weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.281
82417810|NCT00754559|164546692|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Exact Binomial Test|||Null hypothesis: Proportion of participants reaching LDAS (≤ 3.2) at Week 24 equals (=) expected proportion of 42%.||||<0.001
82417811|NCT04000724|164546713|SUPERIORITY||Average treatment effect|-0.54||||0.141|TWO_SIDED|95.0|-1.26|0.18|||Longitudinal Targeted Maximum Likelihood|||||0.18|-1.26|0.141
82417812|NCT04000724|164546713|SUPERIORITY||Average treatment effect|-0.51||||0.123|TWO_SIDED|95.0|-1.16|0.14|||Longitudinal Targeted Maximum Likelihood|||||0.14|-1.16|0.123
82417813|NCT04000724|164546714|SUPERIORITY||Average treatment effect|-0.24||||0.127|TWO_SIDED|95.0|-0.56|0.07|||Longitudinal Targeted Maximum Likelihood|||||.07|-.56|.127
82417814|NCT04000724|164546714|SUPERIORITY||Average treatment effect|-0.02||||0.899|TWO_SIDED|95.0|-0.34|0.3|||Longitudinal Targeted Maximum Likelihood|||||.30|-.34|.899
82417815|NCT04595370|164546724|OTHER||F test statistics|1.07||||0.3645|||||||F-Test|||||||0.3645
82417816|NCT04595370|164546725|OTHER||Percent difference between treatment|-33.606||||0.1588|TWO_SIDED|95.0|-62.53|17.644|||Mixed Models Analysis|||||17.644|-62.530|0.1588
82417817|NCT04595370|164546725|OTHER||Percent difference between treatment|-11.826||||0.6846|TWO_SIDED|95.0|-52.195|62.634|||Mixed Models Analysis|||||62.634|-52.195|0.6846
82447599|NCT03688100|164603880|SUPERIORITY||ratio of means|0.81||||0.005|TWO_SIDED|95.0|0.75|0.87||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is numerator and MEDS is the denominator.|Days in the Hospital at 6 MONTHS||0.87|0.75|0.005
82447600|NCT03688100|164603880|SUPERIORITY||ratio of means|0.64|||<|0.0001|TWO_SIDED|95.0|0.6|0.68||The a priori threshold for statistical significance is p\<0.05.|Zero Inflated Poisson (ZIP) Model||For the ratio of means, BA is the numerator and MEDS is the denominator.|Days in the Hospital AT 12 MONTHS||0.68|0.60|<0.0001
82447601|NCT03688100|164603881|SUPERIORITY||||||>|0.05||||||The a priori threshold for statistical significance is p\<0.05.|Kaplan Meier survival plots|||||||>0.05
82417818|NCT04595370|164546725|OTHER||Percent difference between treatment|-36.127||||0.1398|TWO_SIDED|95.0|-64.85|16.066|||Mixed Models Analysis|||||16.066|-64.850|0.1398
82417819|NCT03632720|164546739|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95 percent (%) confidence interval (CI) was greater (\>) -10% for all four serogroups.|Difference in Percentage|0.64|||||TWO_SIDED|95.0|-1.78|3.54||||||Serogroup A||3.54|-1.78|
82417820|NCT03632720|164546739|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.24|2.28||||||Serogroup C||2.28|-2.24|
82417821|NCT03632720|164546739|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-2.33|2.36||||||Serogroup Y||2.36|-2.33|
82417822|NCT03632720|164546739|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for all four serogroups.|Difference in Percentage|-0.58|||||TWO_SIDED|95.0|-3.22|1.81||||||Serogroup W||1.81|-3.22|
82417823|NCT01117350|164546783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.54||||0.439|TWO_SIDED|95.0|-3.88|8.93||"If superiority not demonstrated, switching from superiority to non-inferiority considered.~Conclusion of non-inferiority reached if lower limit of 2-sided 95% confidence interval of the difference (insulin glargine - liraglutide) \> or = to - 3.5%"|Chi-squared|||"Superiority testing~H0: Rate measured with insulin glargine = rate measured with liraglutide~H1: Rate measured with insulin glargine ≠ rate measured with liraglutide~Sample size calculation (465 randomized patients per arm) was based on the assumption of an expected success rate of 46% with insulin glargine and 35% with liraglutide, an alpha risk of 5% (2-sided) and a power of 90%, taking into account an estimated non evaluability rate of 10%."||8.93|-3.88|0.439
82417824|NCT01557244|164546835|SUPERIORITY|||||||0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an analysis of covariance (ANCOVA) model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||0.0001
82417825|NCT01557244|164546835|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on ANCOVA model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||<.0001
82417826|NCT01557244|164546835|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline maximum cystometric bladder capacity and baseline weight.||||<.0001
82417827|NCT01557244|164546835|OTHER||Difference in Least square (LS) Mean|-29.06|||||TWO_SIDED|95.0|-71.42|13.31||||||||13.31|-71.42|
82417828|NCT01557244|164546835|OTHER||Difference in LS Mean|-3.82|||||TWO_SIDED|95.0|-45.87|38.23||||||||38.23|-45.87|
82417829|NCT01557244|164546836|SUPERIORITY|||||||0.2334|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.2334
82447602|NCT04783077|164603884|SUPERIORITY||Odds Ratio (OR)|2.28||||0.23|TWO_SIDED|95.0|0.61|8.5|||Regression, Logistic||The estimated odds ratio of return donation attempt represents WhatsApp compared to control.|The primary analysis applies only to the RCT participants (N=130). Docudrama participants were not assessed for return blood donation. Analysis used fitted logistic regression with outcome donation attempted (Y/N) on the modiﬁed intention-to-treat (mITT) population, adjusted for type of donor (FRD, VNRBD).|Missing data on the primary outcome from the mITT analysis was handled using multiple imputation via chained equations with 50 imputations, and included stratum, group assignment (WhatsApp, Control) and ethnicity. Ethnicity was the only baseline variable with a minimum Kendall's tau of 0.2 with donation attempt.|8.50|0.61|0.23
82447603|NCT02453555|164603885|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.36|-0.91|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 24 in Empagliflozin 10 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 24 in Linagliptin 5 mg + Placebo 10 mg group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.91|-1.36|<0.0001
82417830|NCT01557244|164546836|SUPERIORITY|||||||0.5087|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.5087
82417831|NCT01557244|164546836|SUPERIORITY|||||||0.3333|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline detrusor pressure at maximum bladder capacity and baseline weight.||||0.3333
82417832|NCT01557244|164546836|OTHER||Difference in LS Mean|-0.47|||||TWO_SIDED|95.0|-7.28|6.33||||||||6.33|-7.28|
82417833|NCT01557244|164546836|OTHER||Difference in LS Mean|0.82|||||TWO_SIDED|95.0|-5.96|7.6||||||||7.60|-5.96|
82417834|NCT01557244|164546838|SUPERIORITY|||||||0.0336|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0336
82417835|NCT01557244|164546838|SUPERIORITY|||||||0.0327|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0327
82417836|NCT01557244|164546838|SUPERIORITY|||||||0.0017|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder volume at first IDC and baseline weight.||||0.0017
82417837|NCT01557244|164546838|OTHER||Difference in LS Mean|-10.78|||||TWO_SIDED|95.0|-48.75|27.19||||||||27.19|-48.75|
82417838|NCT01557244|164546838|OTHER||Difference in LS Mean|-15.25|||||TWO_SIDED|95.0|-50.15|19.64||||||||19.64|-50.15|
82417839|NCT01557244|164546839|SUPERIORITY|||||||0.0679|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.0679
82577079|NCT02942004|164864076|SUPERIORITY||LS difference|0.07|STANDARD_ERROR_OF_MEAN|0.139||0.6066|TWO_SIDED|95.0|-0.2|0.35|||MMRM|||Insomnia - Early, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.20|0.6066
82417840|NCT01557244|164546839|SUPERIORITY|||||||0.1233|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.1233
82417841|NCT01557244|164546839|SUPERIORITY|||||||0.0019|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline bladder compliance and baseline weight.||||0.0019
82417842|NCT01557244|164546839|OTHER||Difference in LS Mean|-4.96|||||TWO_SIDED|95.0|-14.81|4.89||||||||4.89|-14.81|
82417843|NCT01557244|164546839|OTHER||Difference in LS Mean|-5.95|||||TWO_SIDED|95.0|-15.85|3.95||||||||3.95|-15.85|
82417844|NCT01557244|164546840|SUPERIORITY|||||||0.0116|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0116
82417845|NCT01557244|164546840|SUPERIORITY|||||||0.0765|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0765
82417846|NCT01557244|164546840|SUPERIORITY|||||||0.0061|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions per 24 hours and baseline weight.||||0.0061
82417847|NCT01557244|164546840|OTHER||Difference in LS Mean|-0.1|||||TWO_SIDED|95.0|-1.16|0.97||||||||0.97|-1.16|
82417848|NCT01557244|164546840|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.74|1.31||||||||1.31|-0.74|
82417849|NCT01557244|164546841|SUPERIORITY|||||||0.0787|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0787
82417850|NCT01557244|164546841|SUPERIORITY|||||||0.0727|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0727
82417851|NCT01557244|164546841|SUPERIORITY|||||||0.0666|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of catheterizations per 24 hours and baseline weight.||||0.0666
82417852|NCT01557244|164546841|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.45|0.54||||||||0.54|-0.45|
82417853|NCT01557244|164546841|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-0.49|0.52||||||||0.52|-0.49|
82417854|NCT01557244|164546842|SUPERIORITY|||||||0.0111|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0111
82417855|NCT01557244|164546842|SUPERIORITY|||||||0.0171|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0171
82417856|NCT01557244|164546842|SUPERIORITY|||||||0.0028|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of micturitions and catheterizations combined per 24 hours and baseline weight.||||0.0028
82417857|NCT01557244|164546842|OTHER||Difference in LS Mean|0.14|||||TWO_SIDED|95.0|-0.53|0.82||||||||0.82|-0.53|
82417858|NCT01557244|164546842|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.54|0.84||||||||0.84|-0.54|
82417859|NCT01557244|164546843|SUPERIORITY|||||||0.0496|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||0.0496
82417860|NCT01557244|164546843|SUPERIORITY|||||||0.0002|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||0.0002
82417861|NCT01557244|164546843|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of incontinence episodes per 24 hours and baseline weight.||||<.0001
82417862|NCT01557244|164546843|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.09|1.19||||||||1.19|-0.09|
82417863|NCT01557244|164546843|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-0.52|0.77||||||||0.77|-0.52|
82417864|NCT01557244|164546844|SUPERIORITY|||||||0.0298|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.0298
82417865|NCT01557244|164546844|SUPERIORITY|||||||0.1417|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.1417
82417866|NCT01557244|164546844|SUPERIORITY|||||||0.6219|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline number of urgency episodes per 24 hours and baseline weight.||||0.6219
82417867|NCT01557244|164546844|OTHER||Difference in LS Mean|-0.48|||||TWO_SIDED|95.0|-1.28|0.32||||||||0.32|-1.28|
82417868|NCT01557244|164546844|OTHER||Difference in LS Mean|-0.36|||||TWO_SIDED|95.0|-1.24|0.52||||||||0.52|-1.24|
82417869|NCT01557244|164546845|SUPERIORITY|||||||0.7986|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.7986
82417870|NCT01557244|164546845|SUPERIORITY|||||||0.2313|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.2313
82417871|NCT01557244|164546845|SUPERIORITY|||||||0.7571|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition and baseline weight.||||0.7571
82417872|NCT01557244|164546845|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-42.11|42.0||||||||42.00|-42.11|
82417873|NCT01557244|164546845|OTHER||Difference in LS Mean|15.07|||||TWO_SIDED|95.0|-26.5|56.63||||||||56.63|-26.50|
82417874|NCT01557244|164546846|SUPERIORITY|||||||0.061|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0610
82417875|NCT01557244|164546846|SUPERIORITY|||||||0.0048|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0048
82417876|NCT01557244|164546846|SUPERIORITY|||||||0.01|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per catheterization and baseline weight.||||0.0100
82417877|NCT01557244|164546846|OTHER||Difference in LS Mean|-16.43|||||TWO_SIDED|95.0|-63.14|30.29||||||||30.29|-63.14|
82417878|NCT01557244|164546846|OTHER||Difference in LS Mean|1.28|||||TWO_SIDED|95.0|-46.0|48.57||||||||48.57|-46.00|
82417879|NCT01557244|164546847|SUPERIORITY|||||||0.2246|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.2246
82417880|NCT01557244|164546847|SUPERIORITY|||||||0.0003|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.0003
82417881|NCT01557244|164546847|SUPERIORITY|||||||0.0161|||||||ANCOVA|||P-value was calculated for change from Baseline at Week 12, based on an ANCOVA model with terms for treatment group, baseline mean volume voided per micturition or catheterization and baseline weight.||||0.0161
82417882|NCT01557244|164546847|OTHER||Difference in LS Mean|-18.24|||||TWO_SIDED|95.0|-61.0|24.53||||||||24.53|-61.00|
82417883|NCT01557244|164546847|OTHER||Difference in LS Mean|18.86|||||TWO_SIDED|95.0|-22.93|60.65||||||||60.65|-22.93|
82417884|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.137|TWO_SIDED|95.0|0.739|1.042|||Cox Proportional Hazards Model|||||1.042|0.739|0.137
82417885|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|12.2|||||TWO_SIDED|95.0|-4.2|26.1|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||26.1|-4.2|
82417886|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.911||||0.284|TWO_SIDED|95.0|0.767|1.081|||Cox Proportional Hazards Model|||||1.081|0.767|0.284
82417887|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|8.9|||||TWO_SIDED|95.0|-8.1|23.3|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.3|-8.1|
82417888|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.962||||0.655|TWO_SIDED|95.0|0.813|1.139|||Cox Proportional Hazards Model|||||1.139|0.813|0.655
82417889|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|3.8|||||TWO_SIDED|95.0|-13.9|18.7|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||18.7|-13.9|
82417890|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.964||||0.681|TWO_SIDED|95.0|0.808|1.149|||Cox Proportional Hazards Model|||||1.149|0.808|0.681
82417891|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|3.6|||||TWO_SIDED|95.0|-14.9|19.2|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||19.2|-14.9|
82417892|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912||||0.299|TWO_SIDED|95.0|0.767|1.085|||Cox Proportional Hazards Model|||||1.085|0.767|0.299
82417893|NCT01313676|164546883|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|8.8|||||TWO_SIDED|95.0|-8.5|23.3|||||Confidence Interval (95%) and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.3|-8.5|
82417894|NCT01313676|164546884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.4||0.019|TWO_SIDED|95.0|1.0|15.0|||Mixed Models Analysis|||||15|1|0.019
82533420|NCT01195675|164764226|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo|Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-0.69|1.87|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||1.87|-0.69|
82417895|NCT01313676|164546884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.5||0.026|TWO_SIDED|95.0|1.0|14.0|||Mixed Models Analysis|||||14|1|0.026
82417896|NCT01313676|164546884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.4||0.654|TWO_SIDED|95.0|-8.0|5.0|||Mixed Models Analysis|||||5|-8|0.654
82417897|NCT01313676|164546884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|3.4||0.913|TWO_SIDED|95.0|-6.0|7.0|||Mixed Models Analysis|||||7|-6|0.913
82417898|NCT01313676|164546884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|3.4||0.004|TWO_SIDED|95.0|3.0|16.0|||Mixed Models Analysis|||||16|3|0.004
82417899|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.926||||0.475|TWO_SIDED|95.0|0.75|1.143|||Cox Proportional Hazards Model|||||1.143|0.750|0.475
82417900|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Percent reduction in risk of CV event|7.4|||||TWO_SIDED|95.0|-14.3|25.0|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||25.0|-14.3|
82417901|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.317|TWO_SIDED|95.0|0.723|1.111|||Cox Proportional Hazards Model|||||1.111|0.723|0.317
82417902|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Percent reduction in risk of CV event|10.4|||||TWO_SIDED|95.0|-11.1|27.7|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||27.7|-11.1|
82417903|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.908|TWO_SIDED|95.0|0.802|1.217|||Cox Proportional Hazards Model|||||1.217|0.802|0.908
82417904|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|1.2|||||TWO_SIDED|95.0|-21.7|19.8|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||19.8|-21.7|
82417905|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.033||||0.763|TWO_SIDED|95.0|0.834|1.281|||Cox Proportional Hazards Model|||||1.281|0.834|0.763
82417906|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|-3.3|||||TWO_SIDED|95.0|-28.1|16.6|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||16.6|-28.1|
82417907|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.938||||0.545|TWO_SIDED|95.0|0.761|1.155|||Cox Proportional Hazards Model|||||1.155|0.761|0.545
82417908|NCT01313676|164546885|SUPERIORITY_OR_OTHER||Percent reduction in risk of death|6.2|||||TWO_SIDED|95.0|-15.5|23.9|||||Confidence Interval and Estimated Value is presented for the percent reduction in risk of death at any time up to or on the CED, calculated as (1-hazard ratio)\*100|||23.9|-15.5|
82417909|NCT03636269|164546937|SUPERIORITY||Odds Ratio (OR)|1.61||||0.02|TWO_SIDED|95.0|1.08|2.41|||Cui, Hung, Wang|||||2.41|1.08|0.020
82417910|NCT03636269|164546938|SUPERIORITY||Odds Ratio (OR)|1.77||||0.01|TWO_SIDED|95.0|1.14|2.74|||Cui, Hung, Wang|||||2.74|1.14|0.010
82417911|NCT03636269|164546939|SUPERIORITY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.29||0.171|TWO_SIDED|95.0|-4.3|0.8|||ANCOVA|||||0.8|-4.3|0.171
82417912|NCT03636269|164546940|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.35||0.002|TWO_SIDED|95.0|-1.7|-0.4|||ANCOVA|||||-0.4|-1.7|0.002
82417913|NCT00337194|164546998|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Chi-squared|||||||0.06
82417914|NCT00337194|164546999|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
82417915|NCT03615534|164547007|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line TG levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: TG= 240.4 mg/dl, HDL-C = 31.8 mg/dl, ApoA1 = 144.6 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline TG level as a covariate, with further adjustments for baseline HDL-C, ApoA1levels.||||0.0001
82417916|NCT03615534|164547008|SUPERIORITY|||||||0.06||||||Results were evaluated in terms of adjusted end line TC levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: TC=199.9 mg/dl, Non HDL-C= 168.0 mg/dl, d-LDL-C= 119.1 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline TC level as a covariate, with further adjustments for baseline Non HDL-C and d-LDL-C.||||0.060
82417917|NCT03615534|164547008|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line HDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: HDL-C = 31.8 mg/dL,TG= 240.4 mg/dL, ApoA1 = 144.6 mg/dL.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline HDL-C level as a covariate, with further adjustments for baselineTG, ApoA1levels.||||0.0001
82417918|NCT03615534|164547008|SUPERIORITY|||||||0.334||||||Results were evaluated in terms of adjusted end line d-LDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: d-LDL-C= 119.1 mg/dl.TC=199.9 mg/dl, Non HDL-C= 168.0 mg/dl,||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline d-LDL-C level as a covariate, with further adjustments for baseline TC and Non HDL-C .||||0.334
82417919|NCT03615534|164547008|SUPERIORITY|||||||0.012||||||Results were evaluated in terms of adjusted end line Non HDL-C levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: Non HDL-C= 168.0 mg/dl,TC=199.9 mg/dl, d-LDL-C= 119.1 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline Non HDL-C level as a covariate, with further adjustments for baseline TC and d-LDL-C.||||0.012
82417920|NCT03615534|164547008|SUPERIORITY|||||||0.001||||||Results were evaluated in terms of adjusted end line RC levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values:RC=48.9,TC=199.9, Non HDL-C=168.0, d-LDL-C=119.1, ApoB=133.1mg/dl||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline RC level as a covariate, with further adjustments for baselineTC, Non HDL-C, d-LDL-C, and ApoB.||||0.001
82417921|NCT03615534|164547009|SUPERIORITY|||||||0.058||||||Results were evaluated in terms of adjusted end line ApoA1 levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values: ApoA1 = 144.6 mg/dl, TG= 240.4 mg/dl, HDL-C = 31.8 mg/dl.||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ApoA1 level as a covariate, with further adjustments for baseline TG and HDL-C levels.||||0.058
82417922|NCT03615534|164547009|SUPERIORITY|||||||0.067||||||Results were evaluated in terms of adjusted end line ApoB levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|MANCOVA|Covariates appearing in MANCOVA model are evaluated at the following baseline values:ApoB=133.1, RC=48.9,TC=199.9, Non HDL-C=168.0, d-LDL-C=119.1mg/dl||Multivariate Analysis of Covariance (MANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ApoB level as a covariate, with further adjustments for baselineTC, Non HDL-C, dLDL-C, and RC .||||0.067
82417923|NCT03615534|164547010|SUPERIORITY|||||||0.001||||||Results were evaluated in terms of adjusted end line FSG levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: FSG= 95.7 mg/dl.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline FSG level as a covariate.||||0.001
82417924|NCT03615534|164547011|SUPERIORITY|||||||0.786||||||Results were evaluated in terms of adjusted end line eGFR levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: eGFR= 88.0 ml/min per 1.73 m\^2.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline eGFR level as a covariate.||||0.786
82417925|NCT03615534|164547012|SUPERIORITY|||||||0.0001||||||Results were evaluated in terms of adjusted end line serum uric acid levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: serum uric acid= 5.0 mg/dl.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline serum uric acid level as a covariate.||||0.0001
82417926|NCT03615534|164547013|OTHER|||||||0.201||||||Results were evaluated in terms of adjusted end line AST levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|"Covariates appearing in ANCOVA model are evaluated at the following baseline values: AST= 18.1 IU/L.~."||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline AST level as a covariate.||||0.201
82417927|NCT03615534|164547013|SUPERIORITY|||||||0.033||||||Results were evaluated in terms of adjusted end line ALT levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: ALT= 16.0 IU/L.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline ALT level as a covariate.||||0.033
82417928|NCT03615534|164547013|SUPERIORITY|||||||0.511||||||Results were evaluated in terms of adjusted end line CK levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: CK= 28.0 IU/L.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline CK level as a covariate.||||0.511
82417929|NCT03615534|164547014|OTHER|||||||0.434||||||Results were evaluated in terms of adjusted end line diastolic blood pressure levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: diastolic blood pressure= 80.0 mmHg.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline diastolic blood pressure level as a covariate.||||0.434
82417930|NCT03615534|164547014|SUPERIORITY|||||||0.966||||||Results were evaluated in terms of adjusted end line systolic blood pressure levels, embracing the least significant difference (LSD) for pair-wise comparison. Probability of less than 0.05 was considered statistically significant.|ANCOVA|Covariates appearing in ANCOVA model are evaluated at the following baseline values: systolic blood pressure= 121.5 mmHg.||Analysis of Covariance (ANCOVA), was applied to assess treatment effects among different arms, comprising the influence of the baseline systolic blood pressure level as a covariate.||||0.966
82417931|NCT01750281|164547045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.12||||0.584|TWO_SIDED|90.0|0.8|1.61|||Cox Proportional Hazards|||||1.61|0.80|0.584
82417932|NCT01750281|164547045|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|0.92||||0.69|TWO_SIDED|90.0|0.65|1.31|||Cox Proportional Hazards|||||1.31|0.65|0.690
82417933|NCT01750281|164547046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.43||||0.126|TWO_SIDED|90.0|0.97|2.13|||Cox Proportional Hazards|||||2.13|0.97|0.126
82417934|NCT01750281|164547046|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A hazard ratio \<1 favours selumetinib in combination with docetaxel|Hazard Ratio (HR)|1.18||||0.485|TWO_SIDED|90.0|0.8|1.78|||Cox Proportional Hazards|||||1.78|0.80|0.485
82647172|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53||||0.293|TWO_SIDED|95.0|-13.02|3.95|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 39.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.95|-13.02|0.293
82647173|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.733|TWO_SIDED|95.0|-7.28|10.33|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||10.33|-7.28|0.733
82417935|NCT03757715|164547052|SUPERIORITY|||||||0.16|||||||t-test, 1 sided|||||||0.16
82417936|NCT03757715|164547053|SUPERIORITY|||||||0.42|||||||t-test, 1 sided|||||||0.42
82417937|NCT03156621|164547054|SUPERIORITY||Least squares (LS) mean difference|-35.6|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|95.0|-51.2|-19.9||P-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM||p-value vs Placebo|||-19.9|-51.2|<0.0001
82417938|NCT03156621|164547055|SUPERIORITY||Least squares (LS) mean difference|-29.8|STANDARD_ERROR_OF_MEAN|6.3|<|0.0001|TWO_SIDED|95.0|-42.3|-17.3||p-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM|||||-17.3|-42.3|< 0.0001
82417939|NCT03156621|164547056|SUPERIORITY||Least squares (LS) mean difference|-32.9|STANDARD_ERROR_OF_MEAN|7.4|<|0.0001|TWO_SIDED|95.0|-47.6|-18.2||P-value taken from MMRM (mixed-effect model with repeated measures) analysis|MMRM|||||-18.2|-47.6|< 0.0001
82417940|NCT03156621|164547057|SUPERIORITY||Least squares (LS) mean difference|-26.5|STANDARD_DEVIATION|6.2|<|0.0001|TWO_SIDED|95.0|-38.9|-14.0||P-value taken from MMRM (mixed-effect model with repeated measures) analysis.|MMRM|||||-14.0|-38.9|< 0.0001
82417941|NCT03156621|164547058|SUPERIORITY||Odds Ratio, log|12.2|||=|0.0004|TWO_SIDED|95.0|3.1|48.8|||Regression, Logistic|||||48.8|3.1|= 0.0004
82417942|NCT03156621|164547059|SUPERIORITY||Odds Ratio, log|36.5|||=|0.001|TWO_SIDED|95.0|4.3|308.9|||Regression, Logistic|||||308.9|4.3|= 0.0010
82447604|NCT02453555|164603887|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.45|-0.99|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in All Empagliflozin group) - (adjusted mean change from baseline in HbA1c at Week 52 in All Placebo group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.99|-1.45|<0.0001
82447605|NCT02453555|164603888|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.21|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.45|-0.96|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in Empagliflozin 25 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 52 in Linagliptin 5 mg + Placebo 25 mg group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.96|-1.45|<0.0001
82533421|NCT01195675|164764227|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|90.0|-0.38|1.71|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||1.71|-0.38|
82417943|NCT03156621|164547060|SUPERIORITY||Mean Difference (Final Values)|-28.4|STANDARD_DEVIATION|6.7|<|0.0001|TWO_SIDED|95.0|-41.5|-15.2|||Regression model|||||-15.2|-41.5|< 0.0001
82417944|NCT03156621|164547061|SUPERIORITY||Odds Ratio (OR)|17.7|||=|0.0017|TWO_SIDED|95.0|3.3||Maximum likelihood estimate does not exist||Exact Conditional Logistic Regression||||||3.3|= 0.0017
82417945|NCT03156621|164547062|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.8|=|0.3541|TWO_SIDED|95.0|-4.1|11.3||P-value taken from MMRM (mixed-effect model with repeated measures) analysis.|MMRM|||||11.3|-4.1|= 0.3541
82417946|NCT03156621|164547063|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-25.2|2.6||||||||2.6|-25.2|
82417947|NCT03156621|164547064|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_DEVIATION|3.6|||TWO_SIDED|95.0|-3.6|10.7||||||||10.7|-3.6|
82417948|NCT03156621|164547065|SUPERIORITY||Least squares (LS) mean difference|-35.6|STANDARD_ERROR_OF_MEAN|7.8|||TWO_SIDED|95.0|-51.2|-19.9||||||||-19.9|-51.2|
82417949|NCT03156621|164547066|SUPERIORITY||Least squares (LS) mean difference|-29.8|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.0|-43.3|-17.3||||||||-17.3|-43.3|
82417950|NCT03156621|164547067|SUPERIORITY||Least squares (LS) mean difference|-32.9|STANDARD_ERROR_OF_MEAN|7.4|||TWO_SIDED|95.0|-47.6|-18.2||||||||-18.2|-47.6|
82417951|NCT03156621|164547068|SUPERIORITY||Least squares (LS) mean difference|-26.5|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-28.9|-14.0||||||||-14.0|-28.9|
82417952|NCT03156621|164547069|SUPERIORITY||Mean Difference (Final Values)|-28.4|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|95.0|-41.5|-15.2||||||||-15.2|-41.5|
82417953|NCT03156621|164547070|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.8|||TWO_SIDED|95.0|-4.1|11.3||||||||11.3|-4.1|
82417954|NCT03156621|164547071|SUPERIORITY||Mean Difference (Final Values)|-11.3|STANDARD_ERROR_OF_MEAN|7.1|||TWO_SIDED|95.0|-25.2|2.6||||||||2.6|-25.2|
82417955|NCT03156621|164547072|SUPERIORITY||Least squares (LS) mean difference|3.6|STANDARD_ERROR_OF_MEAN|3.6|||TWO_SIDED|95.0|-3.6|10.7||||||||10.7|-3.6|
82417956|NCT03156621|164547073|SUPERIORITY||Odds Ratio (OR)|12.2|||||TWO_SIDED|95.0|3.1|48.8||||||≥15% reduction||48.8|3.1|
82417957|NCT03156621|164547073|SUPERIORITY|≥ 30% reduction|Odds Ratio (OR)|36.5|||||TWO_SIDED|95.0|4.3|308.9||||||||308.9|4.3|
82417958|NCT03156621|164547073|SUPERIORITY||Odds Ratio (OR)|17.7|||||TWO_SIDED|95.0|3.3||Maximum likelihood estimate does not exist|||||≥ 50% reduction|||3.3|
82533422|NCT01195675|164764228|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|-1.23|0.93|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||0.93|-1.23|
82533423|NCT01195675|164764229|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.42|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|90.0|10.73|14.11|||ANCOVA|Based on ANCOVA with terms for treatment, period, treatment sequence, baseline and subject within sequence.|Non-confirmatory testing. Mean difference = Moxifloxacin minus placebo.|||14.11|10.73|<0.0001
82533424|NCT01195675|164764230|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|2.16|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|90.0|-0.34|4.67|||Repeated measures analysis|Based on repeated measured analysis with terms for subject, baseline, period, treatment, time, baseline by time, period by time and treatment by time.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||4.67|-0.34|
82533425|NCT01195675|164764231|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo. Non-confirmatory testing.|Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|90.0|-0.35|3.53|||Repeated measures analysis|Based on repeated measured analysis with terms for subject, baseline, period, treatment, time, baseline by time, period by time and treatment by time.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||3.53|-0.35|
82576621|NCT01182441|164863509|NON_INFERIORITY|This endpoint is met if either the 95% Credible Interval for the risk ratio \< 2.0 or the 95% Credible Interval for the risk difference is \< 0.0275.|Risk Ratio (RR)|1.6|||||TWO_SIDED|95.0|0.5|4.2||||||A Bayesian piecewise exponential model was used to model the 18-month event rates. Historical priors for each interval were based on PROTECT AF. Hazards were modeled for 0-7 day, 7-60 day, 60-182 day, and 182+ day intervals. Event rates were estimated separately for the WATCHMAN and Warfarin groups. The posterior distribution for the 18-month event rate ratio (WATCHMAN vs. Warfarin), and the corresponding equitailed 95% credible interval, were determined via Monte Carlo simulations.||4.2|0.5|
82417959|NCT03156621|164547074|SUPERIORITY||Least squares (LS) mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.6|-0.1||||||||-0.1|-0.6|
82533426|NCT01195675|164764232|NON_INFERIORITY_OR_EQUIVALENCE|Empa vs placebo|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|90.0|-1.39|0.94|||ANCOVA|Based on ANCOVA with terms for sequence, subjects within sequence, period, treatment and baseline.|Mean difference = Empa minus placebo|Non-inferiority margin: 10ms||0.94|-1.39|
82533427|NCT02424344|164764236|SUPERIORITY_OR_OTHER||Least Square mean difference|-0.125||||0.069|TWO_SIDED|95.0|-0.259|0.01|||ANCOVA|Adjusted by baseline and age as covariates, and treatment group, sex and smoking-status as fixed effect factors||||0.010|-0.259|0.069
82533428|NCT05257837|164764247|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82533429|NCT05257837|164764248|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82533430|NCT05257837|164764249|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||.012
82533431|NCT05257837|164764251|SUPERIORITY|||||||0.217|||||||t-test, 2 sided|||||||.217
82533432|NCT05257837|164764252|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||.745
82576622|NCT05620108|164863510|SUPERIORITY|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||||||0.036
82417960|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.039||0.0043||95.0|0.036|0.19||First step of closed testing procedure, where the active treatments are compared to placebo. If this statisical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Placebo||0.190|0.036|0.0043
82426594|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.4|<0.0001
82426595|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.3118|TWO_SIDED|95.0|-0.1|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.5|-0.1|0.3118
82533433|NCT03639675|164764262|OTHER||Mean change|-8.3||||0.0004|TWO_SIDED|95.0|-12.2|-4.4|||one-sample t-statistics|||||-4.4|-12.2|0.0004
82533434|NCT02459587|164764264|SUPERIORITY|Survival analysis using start/stop counting method to identify time until event, structured to allow for multiple events per person. VCL contacts with and without suicide ideation were combined, due to low counts.|Hazard Ratio (HR)|1.24|STANDARD_ERROR_OF_MEAN|0.222||0.33|TWO_SIDED|95.0|0.8|1.92||2-tailed P-value above was calculated from type III test.|Regression, Cox|Model was structured to allow multiple events per person. No covariates.|Model was structured to allow multiple events per person. No covariates. HR based on parameter estimate = -0.218 (SEM=0.222)|||1.92|0.80|0.33
82533435|NCT02459587|164764265|SUPERIORITY|Survival analysis using start/stop counting method to identify time until event, structured to allow for multiple events per person.|Hazard Ratio (HR)|0.52|STANDARD_ERROR_OF_MEAN|0.153|<|0.0001|TWO_SIDED|95.0|0.38|0.7||All tests of significance were 2-tailed. P-value above is type III. No covariates.|Regression, Cox||Cox Proportional Hazards Model was structured to allow multiple events per person. No covariates. HR based on parameter estimate = -0.660 (SEM=0.153)|||0.70|0.38|<0.0001
82426596|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-1.0|-1.6|<0.0001
82576623|NCT02038842|164863512|OTHER|The co-primary immunogenicity endpoint is analysed per arm, in a frequentist framework, in all randomised participants having received at least one vaccine administration and still HIV-negative at W30.|||||=|0.02||||||One-sided test for the observed proportion being superior to the theoretical decision threshold of 50%.|Binomial|||Trial was designed to compare the observed proportion of responders at week 30 within each group to a predefined minimum immunogenicity level of 50%.||||=0.02
82576624|NCT05504954|164863515|SUPERIORITY||Odds Ratio (OR)|0.26||||0.15|TWO_SIDED|95.0|0.04|1.59|||Regression, Logistic|||||1.59|0.04|0.15
82417961|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.039||0.1484||95.0|-0.021|0.135||Second step of closed testing procedure. If this statisical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R2.5 minus Placebo||0.135|-0.021|0.1484
82417962|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.036||0.0664||95.0|-0.005|0.138||This test is considered as descriptive.|Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R1.25 minus Placebo||0.138|-0.005|0.0664
82417963|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.039||||95.0|-0.031|0.124|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Tio R1.25||0.124|-0.031|
82417964|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.036||||95.0|-0.014|0.126|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R5 minus Tio R2.5||0.126|-0.014|
82417965|NCT01122680|164547080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.088|0.069|||Mixed effect repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R2.5 minus Tio R1.25||0.069|-0.088|
82417966|NCT03760640|164547094|SUPERIORITY||LS Mean Difference|-0.86||||0.339|TWO_SIDED|90.0|-2.35|0.63|||Mixed Models Analysis|||||0.63|-2.35|0.339
82417967|NCT03760640|164547095|SUPERIORITY||LS Mean Difference|3.0||||0.011|TWO_SIDED|90.0|1.1|4.9|||Mixed Models Analysis|||||4.90|1.10|0.011
82417968|NCT03760640|164547096|SUPERIORITY||LS Mean Difference|0.56||||0.557|TWO_SIDED|90.0|-1.02|2.14|||Mixed Models Analysis|||||2.14|-1.02|0.557
82417969|NCT03760640|164547097|SUPERIORITY||LS Mean Difference|-0.04||||0.548|TWO_SIDED|90.0|-0.15|0.07|||Mixed Models Analysis|||||0.07|-0.15|0.548
82417970|NCT03760640|164547099|SUPERIORITY||LS Mean Difference|0.49||||0.577|TWO_SIDED|90.0|-0.97|1.94|||Mixed Models Analysis|||||1.94|-0.97|0.577
82417971|NCT03016403|164547100|SUPERIORITY||Mean Difference (Final Values)|1.75||||0.0057|TWO_SIDED|95.0|0.52|2.98||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.98|0.52|0.0057
82417972|NCT03016403|164547101|SUPERIORITY||Mean Difference (Final Values)|1.46||||0.0243|TWO_SIDED|95.0|0.19|2.73||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|Linear mixed models (LMM) have been used with time and the interaction between time and group as fixed effects. A structure of random effects that includes random intercepts for patients was used. The study was powered for testing the hypothesis of no group differences in change over the four time points. A significant group by time interaction was hypothesized.||2.73|0.19|0.0243
82417973|NCT03016403|164547102|SUPERIORITY||Mean Difference (Final Values)|-15.31||||0.0061|TWO_SIDED|95.0|-26.23|-4.39||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of an interaction between time and intervention arm.|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|Linear mixed models (LMM) have been used with time and the interaction between time and group as fixed effects. A structure of random effects that includes random intercepts for patients was used. The study was powered for testing the hypothesis of no group differences in change over the four time points. A significant group by time interaction was hypothesized.||-4.39|-26.23|0.0061
82417974|NCT03016403|164547103|SUPERIORITY||Mean Difference (Final Values)|-7.73||||0.21|TWO_SIDED|95.0|-19.73|4.27||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||4.27|-19.73|0.21
82417975|NCT03016403|164547104|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.052|TWO_SIDED|95.0|-0.01|3.05||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||3.05|-0.01|0.052
82426597|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-0.9|-1.6|<0.0001
82576625|NCT05504954|164863517|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1|TWO_SIDED|95.0|0.81|9.89|||Regression, Logistic|||||9.89|0.81|0.10
82533436|NCT02459587|164764266|SUPERIORITY|Two binary variables were derived from Treatment Services Review responses to identify any general mental health service utilization, one binary variable for Baseline and another for any outpatient mental health service utilization at any time point in the 1 year follow-up period. The Baseline variable was included as a main-effects covariate.|Odds Ratio, log|1.146||||0.66|TWO_SIDED|95.0|0.604|2.176|||Regression, Logistic|Bivariate logistic, adjusted for (1) if any general outpatient mental heath visits at baseline (0) otherwise||||2.176|0.604|0.66
82533437|NCT04496167|164764330|OTHER||Least Square Mean Treatment Difference|1.386||||0.659|TWO_SIDED|95.0|-4.804|7.577||Considered significant if p-value is less than 0.05.|MMRM||"The model included treatment, visit and interaction of treatment, visit as fixed effects, Baseline as a covariate, and repeated measures with visit/participant.~Treatment difference: EN3835 - Placebo"|Mixed Model Repeated Measures (MMRM) was performed to estimate the change from Baseline treatment effect of the adapted ASES composite score in the affected shoulder comparing EN3835 to placebo treatment.||7.577|-4.804|0.659
82417976|NCT03016403|164547105|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.214|TWO_SIDED|95.0|-0.52|2.36||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.36|-0.52|0.214
82417977|NCT03016403|164547106|SUPERIORITY||Mean Difference (Final Values)|-4.16||||0.0134|TWO_SIDED|95.0|-7.45|-0.87||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||-0.87|-7.45|0.0134
82417978|NCT03016403|164547107|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.42|TWO_SIDED|95.0|-0.9|2.12||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||2.12|-0.9|0.42
82426598|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.61|TWO_SIDED|95.0|-0.2|0.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.4|-0.2|0.6100
82533438|NCT03088137|164764361|EQUIVALENCE|Study power of at least 80% at a significance level (alpha error) 5% and a pre-determined clinical equivalence margin of +/- 3.4 oocytes for the relevant population.|Mean Difference (Final Values)|0.546|STANDARD_DEVIATION|1.297||0.002|TWO_SIDED|95.0|-2.026|3.116|||Wilcoxon (Mann-Whitney)|||||3.116|-2.026|0.002
82533439|NCT03088137|164764362|SUPERIORITY||Mean Difference (Final Values)|0.709|STANDARD_DEVIATION|1.067||0.806|TWO_SIDED|95.0|-1.405|2.824|||Wilcoxon (Mann-Whitney)|||||2.824|-1.405|0.806
82533440|NCT03088137|164764363|SUPERIORITY||Mean Difference (Final Values)|0.218|STANDARD_DEVIATION|1.129||0.617|TWO_SIDED|95.0|-2.455|2.019|||Wilcoxon (Mann-Whitney)|||||2.019|-2.455|0.617
82533441|NCT03088137|164764364|SUPERIORITY||Mean Difference (Final Values)|0.636|STANDARD_DEVIATION|1.19||0.445|TWO_SIDED|95.0|-2.995|1.723|||Wilcoxon (Mann-Whitney)|||||1.723|-2.995|0.445
82533442|NCT03088137|164764365|SUPERIORITY|||||||0.623|||||||ANOVA|||||||0.623
82533443|NCT03088137|164764366|SUPERIORITY||Mean Difference (Final Values)|14.9|STANDARD_DEVIATION|49.8||0.488|TWO_SIDED|95.0|-83.9|113.6|||Wilcoxon (Mann-Whitney)|||||113.6|-83.9|0.488
82533444|NCT03088137|164764367|SUPERIORITY||Mean Difference (Final Values)|0.018|STANDARD_DEVIATION|0.201||0.629|TWO_SIDED|95.0|-0.379|0.416|||Wilcoxon (Mann-Whitney)|||||0.416|-0.379|0.629
82533445|NCT03088137|164764368|SUPERIORITY|||||||0.644|||||||Wilcoxon (Mann-Whitney)|||||||0.644
82533446|NCT03088137|164764371|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.833|TWO_SIDED|95.0|-21.0|17.0|||Chi-squared|||95% confidence intervals (CIs) of point estimates were calculated using the exact binomial distribution (Clopper-Pearson method) for proportions.||17.0|-21.0|0.833
82533447|NCT03088137|164764372|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.507|TWO_SIDED|95.0|-24.3|11.9|||Chi-squared|||95% confidence intervals (CIs) of point estimates were calculated using the exact binomial distribution (Clopper-Pearson method) for proportions.||11.9|-24.3|0.507
82576626|NCT05504954|164863518|SUPERIORITY||beta coefficient|5.0||||0.65|TWO_SIDED|95.0|-17.78|27.78|||Regression, Linear|||||27.78|-17.78|0.65
82533448|NCT00598481|164764374|SUPERIORITY|||||||0.005|||||||One-sided Poisson-regression|||||||0.005
82533449|NCT00598481|164764375|SUPERIORITY||Geometric mean ratio|3.0||||0.003|TWO_SIDED|95.0|1.45|6.19||P value related to geometric mean ratio at 1 year post gene therapy compared to baseline|Mixed Model Repeated Measures|||||6.19|1.45|0.003
82533450|NCT00598481|164764375|SUPERIORITY||Geometric mean ratio|5.4|||<|0.001|TWO_SIDED|95.0|2.63|11.25||P value related to geometric mean ratio at 2 years post gene therapy compared to baseline|Mixed Model Repeated Measures|||||11.25|2.63|<0.001
82576627|NCT05504954|164863519|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
82576628|NCT05504954|164863520|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||.70
82576629|NCT05504954|164863521|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82576630|NCT05504954|164863522|SUPERIORITY|||||||0.64|||||||Fisher Exact|||||||0.64
82417979|NCT03016403|164547108|SUPERIORITY||Mean Difference (Final Values)|1.77||||0.0269|TWO_SIDED|95.0|0.2|3.34||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||3.34|0.2|0.0269
82417980|NCT03016403|164547109|SUPERIORITY||Mean Difference (Final Values)|2.56||||0.0044|TWO_SIDED|95.0|0.8|4.32||Since there are three primary outcomes (depression, anxiety and coping scores) in the study, the significance level was set a priori at 0.0167 (alpha = 0.05/3).|Mixed Models Analysis|The pvalue corresponds to the hypothesis of the interaction effect between time and group (intervention arm).|The estimate represents the difference in expected means at the 6-month time point between the intervention and usual care arms.|A linear mixed model (LMM) with random intercepts for both patients and clinics has been used, with adjustment for cancer type and cancer stage. The study was powered for testing the hypothesis of no group differences in change over the four time points (baseline, 6-weeks, 3-months and 6-months). A significant group by time interaction was hypothesized.||4.32|0.8|0.0044
82417981|NCT05463705|164547110|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.88|1.96||||||||1.96|0.88|
82417982|NCT05463705|164547110|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system),72,73 an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||||1.52|0.66|
82417983|NCT05463705|164547111|SUPERIORITY|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.83|1.61||||||||1.61|0.83|
82417984|NCT05463705|164547111|EQUIVALENCE|We estimated that 178 providers caring for 1,249 eligible patients would provide 80% power to observe an 11 percentage-point difference in prescribing rates between each intervention arm and control, assuming a control arm prescribing rate of 30%, an ICC of 0.07 (estimated based on prior studies in this system), an average of 7 patients per provider, and a type I error rate of 5%.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.64|1.3||||||||1.30|0.64|
82417985|NCT05463705|164547112|SUPERIORITY||Difference in HbA1c %|0.18|||||TWO_SIDED|95.0|-0.07|0.43||||||||0.43|-0.07|
82417986|NCT05463705|164547112|SUPERIORITY||Difference in HbA1c %|0.06|||||TWO_SIDED|95.0|-0.22|0.34||||||||0.34|-0.22|
82533451|NCT00598481|164764375|SUPERIORITY||Geometric mean ratio|6.5|||<|0.001|TWO_SIDED|95.0|3.08|13.64||P value related to geometric mean ratio at 3 years post gene therapy compared to baseline|Mixed Model Repeated Measures|||||13.64|3.08|<0.001
82533452|NCT00918749|164764385|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.598|STANDARD_ERROR_OF_MEAN|4.215||0.3946|TWO_SIDED|90.0|-10.568|3.372|||ANOVA|Fixed effects for treatment and center.||A two group t-test with a 0.100 one-sided significance level would have 96% power to detect the difference between a risedronate 150 mg IRBB mean, µ1, of -46.000 and a risedronate 75 mg DRFB mean, µ2, of -29.900 (a difference in means of -16.100), assuming that the common SD was 28.000, with sample sizes of 60 per group, respectively. Estimates were based on Study 2005107 (35 mg DR once a week Phase 2 study). The sample size calculation was not adjusted for multiplicity.||3.372|-10.568|0.3946
82533453|NCT00918749|164764385|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.197|STANDARD_ERROR_OF_MEAN|4.241||0.0045|TWO_SIDED|90.0|-19.208|-5.185|||ANOVA|Fixed effects for treatment and center.||||-5.185|-19.208|0.0045
82533454|NCT00918749|164764386|SUPERIORITY_OR_OTHER||LS Mean Difference|4.765|STANDARD_ERROR_OF_MEAN|4.952||0.3372|TWO_SIDED|90.0|-3.421|12.952|||ANOVA|Fixed effects for treatment and center.||||12.952|-3.421|0.3372
82533455|NCT00918749|164764386|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.218|STANDARD_ERROR_OF_MEAN|4.966||0.965|TWO_SIDED|90.0|-8.427|7.991|||ANOVA|Fixed effects for treatment and center.||||7.991|-8.427|0.9650
82417987|NCT06399471|164547157|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.126||||||One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.|ANOVA|||An ANOVA was used to compare the Power Knee and the C-Leg 4.0 when used during Ten Meter Walking Test.||||0.126
82417988|NCT06399471|164547157|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.015|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the Rheo when used during Ten Meter Walking Test.||||0.015
82417989|NCT06399471|164547157|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.852|||||||ANOVA|||An ANOVA was used to compare the Rheo and the C-Leg 4.0 when used during Ten Meter Walking Test.||||0.852
82417990|NCT06399471|164547158|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.003|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the C-Leg 4.0 when used during Two Meter Walking Test.||||0.003
82417991|NCT06399471|164547158|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.027|||||||ANOVA|||An ANOVA was used to compare the Power Knee and the Rheo when used during Two Meter Walking Test.||||0.027
82417992|NCT06399471|164547158|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.425|||||||ANOVA|||An ANOVA was used to compare the Rheo and the C-Leg 4.0 when used during Two Meter Walking Test.||||0.425
82417993|NCT06399471|164547159|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.006|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Power Knee and the C-Leg 4.0.||||0.006
82417994|NCT06399471|164547159|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.236|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Power Knee and the Rheo.||||0.236
82417995|NCT06399471|164547159|OTHER|Non-parametric Friedman's test with multiple comparison correction||||||0.118|||||||Non-parametric Friedman's test with mult|||The Non-parametric Friedman's test was used to compare the survey results between the participants using the Rheo and the C-Leg 4.0.||||0.118
82417996|NCT06399471|164547160|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.687|||||||ANOVA|||An ANOVA was used to compare the Power Knee, the C-Leg 4.0, and the Rheo when used during Stance Time Asymmetry Index test.||||0.687
82417997|NCT06399471|164547161|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.082|||||||ANOVA|||An ANOVA was used to compare the Power Knee, the C-Leg 4.0, and Rheo when used during the Narrowing beam walking test.||||0.082
82417998|NCT06399471|164547162|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.943|||||||ANOVA|||An ANOVA was used to compare the reported falls when for when the Power Knee, C-Leg 4.0, and the Rheo were used.||||0.943
82417999|NCT06399471|164547163|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.535|||||||ANOVA|||An ANOVA was used to compare the Physiological cost index for when the Power Knee, the C-Leg 4.0, and the Rheo were used.||||0.535
82418000|NCT06399471|164547164|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.229|||||||ANOVA|||An ANOVA was used to compare the Stair Ascent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.229
82418001|NCT06399471|164547165|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.528|||||||ANOVA|||An ANOVA was used to compare the Stair Descent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.528
82418002|NCT06399471|164547166|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.144|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Power Knee and the C-Leg 4.0.||||0.144
82418003|NCT06399471|164547166|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.024|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Power Knee and the Rheo.||||0.024
82418004|NCT06399471|164547166|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary.||||||0.949|||||||ANOVA|||An ANOVA was used to compare the Ramp Ascent Speed between the Rheo and the C-Leg 4.0.||||0.949
82418005|NCT06399471|164547167|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.051|||||||ANOVA|||An ANOVA was used to compare the Ramp Descent Speed for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.051
82418006|NCT06399471|164547168|OTHER|One-way Repeated Measures ANOVA with sphericity correction (Huynh-Feldt) applied if necessary||||||0.367|||||||ANOVA|||An ANOVA was used to compare the Steps per Day for the Power Knee, C-Leg 4.0, and the Rheo when used.||||0.367
82418007|NCT05529173|164547169|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82447606|NCT02453555|164603889|SUPERIORITY_OR_OTHER||Adjusted Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.34|-0.84|||Mixed Models Analysis||Adjusted Mean Difference was calculated as: (adjusted mean change from baseline in HbA1c at Week 52 in Empagliflozin 25 mg/linagliptin 5 mg group) - (adjusted mean change from baseline in HbA1c at Week 52 in All Placebo group)|A restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) approach was used with baseline HbA1c as linear covariate and baseline estimated glomerular filtration rate (eGFR) (Modification of Diet in Renal Disease \[MDRD\] formula), prior use of antidiabetic drug, treatment, visit, visit by Treatment interaction as fixed effect(s). The covariance used to fit the model was unstructured.||-0.84|-1.34|<0.0001
82447607|NCT03045341|164603890|SUPERIORITY|Analyses used all available data.||||||0.0001|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||BWL versus no BWL||||0.0001
82447608|NCT03045341|164603890|SUPERIORITY|Analyses used all available data.||||||0.58|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||NB versus placebo||||0.58
82447609|NCT03045341|164603891|SUPERIORITY|Analyses used all available data.||||||0.0001|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||BWL versus no BWL||||0.0001
82447610|NCT03045341|164603891|SUPERIORITY|Analyses used all available data.||||||0.63|||||||Mixed Models Analysis|Analyses to compare treatments were all intent-to-treat. Analyses were performed for all randomized patients who attended the first treatment session.||NB versus placebo||||0.63
82447611|NCT03045341|164603892|SUPERIORITY|||||||0.004|||||||Chi-squared|||Analyses used all available data.||||.004
82447612|NCT01727336|164603904|OTHER||recommended dose for Part 2|0.9|||||TWO_SIDED||||||||The recommended dose level for Part 2 was determined to be 0.9 mg/kg|||||
82447613|NCT00849862|164603918|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.2||||||90.0|85.0|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|85.0|
82447614|NCT00849862|164603919|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|100.0||||||90.0|96.3|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|96.3|
82447615|NCT00849862|164603920|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.6||||||90.0|96.2|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|96.2|
82447616|NCT01532869|164603938|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) mean|-2.7||||0.0915|TWO_SIDED|95.0|-5.85|0.45|||Mixed Models Analysis|||The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.45|-5.85|0.0915
82576631|NCT01757197|164863533|OTHER|Not evaluable.|Other|0.0|||||TWO_SIDED|||||Not evaluable.||||Not evaluable.|Not evaluable.|||
82418008|NCT00407030|164547211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-12.0|-5.9||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||-5.9|-12.0|<0.001
82647174|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81||||0.55|TWO_SIDED|95.0|-12.06|6.45|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.45|-12.06|0.550
82418009|NCT00407030|164547217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||<|0.001|TWO_SIDED|95.0|-10.4|-4.6||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||-4.6|-10.4|<0.001
82418010|NCT00407030|164547218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.447|TWO_SIDED|95.0|-2.1|4.6||Due to the hierarchical testing no adjustment of type I error was necessary.|ANCOVA|Independent variables in the model were treatment, baseline TWSTRS-Total score, gender, age, pre-treatment of cervical dystonia, and pooled center.||Hierarchical testing: Primary null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to placebo. Rejection of 1st hypothesis lead to test of 2nd null hypothesis: incobotulinumtoxinA (Xeomin) (120 Units) identical to placebo. Rejection of 2nd hypothesis lead to test of 3rd null hypothesis: incobotulinumtoxinA (Xeomin) (240 Units) identical to incobotulinumtoxinA (Xeomin) (120 Units). 3 separate models were used to test these hypotheses which results in different LS means estimates.||4.6|-2.1|0.447
82418011|NCT03518203|164547271|EQUIVALENCE|A binomial test was used to test 6 month survival in study cohort against an 18% historical rate.|Proportion|0.714|||<|0.0001|TWO_SIDED|||||The a priori threshold was 0.05.|binomial test|||||||<0.0001
82418012|NCT00345592|164547275|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.987|||||TWO_SIDED|95.0|0.684|1.503||||||||1.503|0.684|
82418013|NCT04223687|164547294|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||<0.01
82418014|NCT04223687|164547295|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|t-test, 2 sided|||||||<0.01
82418015|NCT04223687|164547296|SUPERIORITY|||||||0.03||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.03
82418016|NCT04223687|164547297|SUPERIORITY|||||||0.37||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||0.37
82418017|NCT04223687|164547298|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82418018|NCT04223687|164547299|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82418019|NCT04223687|164547300|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82418020|NCT04223687|164547301|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Chi-squared|||||||<0.001
82418021|NCT04223687|164547302|SUPERIORITY|||||||0.06||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.06
82418022|NCT04223687|164547303|SUPERIORITY|||||||0.37||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.37
82418023|NCT04223687|164547304|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82418024|NCT04223687|164547305|SUPERIORITY|||||||0.42||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.42
82418025|NCT04223687|164547306|SUPERIORITY|||||||0.13||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.13
82418026|NCT04223687|164547307|SUPERIORITY||||||<|0.01||||||a priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
82418027|NCT00286455|164547333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.76|-0.31||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint (HbA1c) as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=325 subjects had 95% power to detect a treatment difference as small as 0.5% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.31|-0.76|<0.001
82426599|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.0|-1.6|<0.0001
82533456|NCT00918749|164764387|SUPERIORITY_OR_OTHER||LS Mean Difference|0.388|STANDARD_ERROR_OF_MEAN|4.269||0.9276|TWO_SIDED|90.0|-6.67|7.447|||ANOVA|Fixed effects for treatment and center.||||7.447|-6.670|0.9276
82418028|NCT00286455|164547333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.8|-0.35|||ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint (HbA1c) as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=325 subjects had 95% power to detect a treatment difference as small as 0.5% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.35|-0.80|<0.001
82418029|NCT00286455|164547334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.14||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.14|-0.39|<0.001
82418030|NCT00286455|164547334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.46|-0.21||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.21|-0.46|<0.001
82418031|NCT00286455|164547335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.57|-0.23||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.23|-0.57|<0.001
82418032|NCT00286455|164547335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.68|<0.001
82418033|NCT00286455|164547336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|||<|0.001|TWO_SIDED|95.0|-0.63|-0.25||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.25|-0.63|<0.001
82418034|NCT00286455|164547336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.73|-0.35||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.35|-0.73|<0.001
82418035|NCT00286455|164547337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.68|-0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.68|<0.001
82418036|NCT00286455|164547337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.74|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.74|<0.001
82418037|NCT00286455|164547338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||<|0.001|TWO_SIDED|95.0|-0.67|-0.24||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.67|<0.001
82418038|NCT00286455|164547338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.7|-0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.70|<0.001
82418039|NCT00286455|164547339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2||||0.002|TWO_SIDED|95.0|-21.5|-5.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.0|-21.5|0.002
82418040|NCT00286455|164547339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|||<|0.001|TWO_SIDED|95.0|-27.0|-10.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.4|-27.0|<0.001
82418041|NCT00286455|164547340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.4|||<|0.001|TWO_SIDED|95.0|-26.7|-10.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.1|-26.7|<0.001
82533457|NCT00918749|164764387|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.787|STANDARD_ERROR_OF_MEAN|4.313||0.0133|TWO_SIDED|90.0|-17.917|-3.657|||ANOVA|Fixed effects for treatment and center.||||-3.657|-17.917|0.0133
82418042|NCT00286455|164547340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4|||<|0.001|TWO_SIDED|95.0|-29.7|-13.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.0|-29.7|<0.001
82418043|NCT00286455|164547341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.4|||<|0.001|TWO_SIDED|95.0|-27.1|-9.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.7|-27.1|<0.001
82418044|NCT00286455|164547341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.4|||<|0.001|TWO_SIDED|95.0|-33.2|-15.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-15.7|-33.2|<0.001
82418045|NCT00286455|164547342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7||||0.001|TWO_SIDED|95.0|-26.8|-6.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.7|-26.8|0.001
82426600|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-1.6|<0.0001
82426601|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.6552|TWO_SIDED|95.0|-0.4|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||0.2|-0.4|0.6552
82426602|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.0|-1.6|<0.0001
82426603|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.1|-1.8|<0.0001
82426604|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.4753|TWO_SIDED|95.0|-0.4|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.2|-0.4|0.4753
82426605|NCT00565409|164561901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.0|-1.6|<0.0001
82426606|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.6|-1.2|<0.0001
82426607|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.7427|TWO_SIDED|95.0|-0.4|0.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.3|-0.4|0.7427
82533458|NCT00918749|164764388|SUPERIORITY_OR_OTHER||LS Mean Difference|14.528|STANDARD_ERROR_OF_MEAN|9.28||0.1192|TWO_SIDED|90.0|-0.813|29.868|||ANOVA|Fixed effects for treatment and center.||||29.868|-0.813|0.1192
82426608|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-0.5|-1.1|<0.0001
82426609|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-1.1|-1.7|<0.0001
82426610|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.3129|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||0.2|-0.5|0.3129
82426611|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-0.9|-1.6|<0.0001
82426612|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.9|-1.6|<0.0001
82426613|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.4645|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||0.2|-0.5|0.4645
82426614|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-0.8|-1.5|<0.0001
82418046|NCT00286455|164547342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.3|||<|0.001|TWO_SIDED|95.0|-32.4|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-32.4|<0.001
82533459|NCT00918749|164764388|SUPERIORITY_OR_OTHER||LS Mean Difference|14.215|STANDARD_ERROR_OF_MEAN|9.343||0.1298|TWO_SIDED|90.0|-1.23|29.659|||ANOVA|Fixed effects for treatment and center.||||29.659|-1.230|0.1298
82533460|NCT00918749|164764389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.119|STANDARD_ERROR_OF_MEAN|6.093||0.8546|TWO_SIDED|90.0|-8.956|11.193|||ANOVA|Fixed effects for treatment and center.||||11.193|-8.956|0.8546
82533461|NCT00918749|164764389|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.393|STANDARD_ERROR_OF_MEAN|6.126||0.2291|TWO_SIDED|90.0|-17.522|2.737|||ANOVA|Fixed effects for treatment and center.||||2.737|-17.522|0.2291
82647175|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.902|TWO_SIDED|95.0|-11.04|12.5|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||12.50|-11.04|0.902
82418047|NCT00286455|164547343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.5||||0.002|TWO_SIDED|95.0|-26.8|-6.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.2|-26.8|0.002
82418048|NCT00286455|164547343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|||<|0.001|TWO_SIDED|95.0|-31.6|-10.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.8|-31.6|<0.001
82418049|NCT00286455|164547344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.8|||<|0.001|TWO_SIDED|95.0|-30.9|-8.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.7|-30.9|<0.001
82533462|NCT00918749|164764390|SUPERIORITY_OR_OTHER||LS Mean Difference|5.505|STANDARD_ERROR_OF_MEAN|9.046||0.5436|TWO_SIDED|90.0|-9.452|20.462|||ANOVA|Fixed effects for treatment and center.||||20.462|-9.452|0.5436
82533463|NCT00918749|164764390|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.914|STANDARD_ERROR_OF_MEAN|9.1||0.9201|TWO_SIDED|90.0|-15.959|14.132|||ANOVA|Fixed effects for treatment and center.||||14.132|-15.959|0.9201
82647176|NCT00996918|165009486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07||||0.43|TWO_SIDED|95.0|-17.75|7.61|||Mixed Models Analysis|||"Change from base study baseline in DAD score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||7.61|-17.75|0.430
82533464|NCT00918749|164764391|SUPERIORITY_OR_OTHER||LS Mean Difference|3.108|STANDARD_ERROR_OF_MEAN|4.052||0.444|TWO_SIDED|90.0|-3.59|9.807|||ANOVA|Fixed effects for treatment and center.||||9.807|-3.590|0.4440
82533465|NCT00918749|164764391|SUPERIORITY_OR_OTHER||LS Mean Difference|4.842|STANDARD_ERROR_OF_MEAN|4.063||0.2349|TWO_SIDED|90.0|-1.874|11.559|||ANOVA|Fixed effects for treatment and center.||||11.559|-1.874|0.2349
82533466|NCT00918749|164764392|SUPERIORITY_OR_OTHER||LS Mean Difference|4.966|STANDARD_ERROR_OF_MEAN|4.327||0.2527|TWO_SIDED|90.0|-2.189|12.12|||ANOVA|Fixed effects for treatment and center.||||12.120|-2.189|0.2527
82418050|NCT00286455|164547344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4|||<|0.001|TWO_SIDED|95.0|-34.6|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-34.6|<0.001
82418051|NCT00286455|164547345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.001|TWO_SIDED|95.0|-30.6|-8.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.0|-30.6|<0.001
82426615|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.7|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.9|-1.7|<0.0001
82533467|NCT00918749|164764392|SUPERIORITY_OR_OTHER||LS Mean Difference|4.926|STANDARD_ERROR_OF_MEAN|4.371||0.2613|TWO_SIDED|90.0|-2.301|12.153|||ANOVA|Fixed effects for treatment and center.||||12.153|-2.301|0.2613
82533468|NCT00918749|164764393|SUPERIORITY_OR_OTHER||LS Mean Difference|1.269|STANDARD_ERROR_OF_MEAN|4.16||0.7606|TWO_SIDED|90.0|-5.609|8.148|||ANOVA|Fixed effects for treatment and center.||||8.148|-5.609|0.7606
82533469|NCT00918749|164764393|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.825|STANDARD_ERROR_OF_MEAN|4.185||0.5006|TWO_SIDED|90.0|-9.744|4.095|||ANOVA|Fixed effects for treatment and center.||||4.095|-9.744|0.5006
82533470|NCT01439711|164764412|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82533471|NCT01439711|164764413|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82533472|NCT04033991|164764436|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82418052|NCT00286455|164547345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.3|||<|0.001|TWO_SIDED|95.0|-35.7|-12.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.9|-35.7|<0.001
82418053|NCT00286455|164547346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|||<|0.001|TWO_SIDED|95.0|-34.1|-9.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.0|-34.1|<0.001
82418054|NCT00286455|164547346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.8|||<|0.001|TWO_SIDED|95.0|-40.4|-15.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-15.1|-40.4|<0.001
82418055|NCT00286455|164547347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.569||||0.165|TWO_SIDED|95.0|0.257|1.262|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.262|0.257|0.165
82418056|NCT00286455|164547347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.008|TWO_SIDED|95.0|0.138|0.739|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.739|0.138|0.008
82418057|NCT00286455|164547348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.194||||0.001|TWO_SIDED|95.0|0.073|0.516|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.516|0.073|0.001
82418058|NCT00286455|164547348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.145|||<|0.001|TWO_SIDED|95.0|0.052|0.405|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.405|0.052|<0.001
82418059|NCT00286455|164547349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6||||0.056|TWO_SIDED|95.0|-15.3|0.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.2|-15.3|0.056
82418060|NCT00286455|164547349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3|||<|0.001|TWO_SIDED|95.0|-21.1|-5.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.5|-21.1|<0.001
82533473|NCT04033991|164764436|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82418061|NCT00286455|164547350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.85|TWO_SIDED|95.0|-7.8|9.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.4|-7.8|0.850
82418062|NCT00286455|164547350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.571|TWO_SIDED|95.0|-6.2|11.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||11.2|-6.2|0.571
82418063|NCT00286455|164547351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.917|TWO_SIDED|95.0|-7.8|7.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.0|-7.8|0.917
82418064|NCT00286455|164547351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.133|TWO_SIDED|95.0|-13.2|1.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.7|-13.2|0.133
82418065|NCT00286455|164547352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.348|TWO_SIDED|95.0|-12.1|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.3|-12.1|0.348
82418066|NCT00286455|164547352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.152|TWO_SIDED|95.0|-14.3|2.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.2|-14.3|0.152
82426616|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.3793|TWO_SIDED|95.0|-0.5|0.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||0.2|-0.5|0.3793
82533474|NCT04033991|164764437|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82418067|NCT00286455|164547353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.2||||0.12|TWO_SIDED|95.0|-11.7|1.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.4|-11.7|0.120
82418068|NCT00286455|164547353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.5||||0.104|TWO_SIDED|95.0|-12.1|1.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.1|-12.1|0.104
82418069|NCT00286455|164547354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.247|TWO_SIDED|95.0|-10.9|2.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.8|-10.9|0.247
82418070|NCT00286455|164547354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.129|TWO_SIDED|95.0|-12.3|1.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.6|-12.3|0.129
82418071|NCT00286455|164547355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.671|TWO_SIDED|95.0|-4.14|2.67||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.67|-4.14|0.671
82418072|NCT00286455|164547355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.218|TWO_SIDED|95.0|-5.57|1.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.27|-5.57|0.218
82418073|NCT00286455|164547356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54||||0.403|TWO_SIDED|95.0|-2.07|5.14||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.14|-2.07|0.403
82418074|NCT00286455|164547356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.487|TWO_SIDED|95.0|-2.35|4.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.93|-2.35|0.487
82418075|NCT00286455|164547357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.143|TWO_SIDED|95.0|-0.88|6.08||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.08|-0.88|0.143
82418076|NCT00286455|164547357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.974|TWO_SIDED|95.0|-3.46|3.57||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.57|-3.46|0.974
82418077|NCT00286455|164547358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97||||0.612|TWO_SIDED|95.0|-2.78|4.71||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.71|-2.78|0.612
82418078|NCT00286455|164547358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.587|TWO_SIDED|95.0|-4.82|2.74||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.74|-4.82|0.587
82418079|NCT00286455|164547359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.514|TWO_SIDED|95.0|-2.0|3.99||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.99|-2.00|0.514
82418080|NCT00286455|164547359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.899|TWO_SIDED|95.0|-2.83|3.22||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.22|-2.83|0.899
82418081|NCT00286455|164547360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.885|TWO_SIDED|95.0|-3.09|3.58||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.58|-3.09|0.885
82426617|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-0.8|-1.5|<0.0001
82647177|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.683|TWO_SIDED|95.0|-6.01|3.95|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.95|-6.01|0.683
82647178|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.177|TWO_SIDED|95.0|-1.68|9.06|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 13.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.06|-1.68|0.177
82418082|NCT00286455|164547360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.958|TWO_SIDED|95.0|-3.28|3.46||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.46|-3.28|0.958
82418083|NCT00286455|164547361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.003|TWO_SIDED|95.0|-0.084|-0.018||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.018|-0.084|0.003
82418084|NCT00286455|164547361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.072|||<|0.001|TWO_SIDED|95.0|-0.105|-0.038||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.038|-0.105|<0.001
82418085|NCT00286455|164547362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|||<|0.001|TWO_SIDED|95.0|-0.099|-0.038||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.038|-0.099|<0.001
82418086|NCT00286455|164547362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052||||0.001|TWO_SIDED|95.0|-0.083|-0.021||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.021|-0.083|0.001
82418087|NCT00286455|164547363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|||<|0.001|TWO_SIDED|95.0|-0.103|-0.032||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.032|-0.103|<0.001
82418088|NCT00286455|164547363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|||<|0.001|TWO_SIDED|95.0|-0.109|-0.037||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.037|-0.109|<0.001
82447617|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.43||||0.9336|TWO_SIDED|95.0|-10.78|9.91|||Mixed Models Analysis|||Change From Baseline in Intestinal VAS Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.91|-10.78|0.9336
82447618|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-4.12||||0.4609|TWO_SIDED|95.0|-15.21|6.96|||Mixed Models Analysis|||Change From Baseline in Breathing VAS Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||6.96|-15.21|0.4609
82447619|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-1.28||||0.8493|TWO_SIDED|95.0|-14.7|12.13|||Mixed Models Analysis|||Change From Baseline in Raynaud Syndrome Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||12.13|-14.70|0.8493
82447620|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|4.89||||0.4717|TWO_SIDED|95.0|-8.59|18.37|||Mixed Models Analysis|||Change From Baseline in Finger Ulcers Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||18.37|-8.59|0.4717
82533475|NCT04033991|164764437|OTHER|||||||0.0068|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0068
82533476|NCT04033991|164764439|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82533477|NCT04033991|164764439|OTHER|||||||0.0004|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0004
82533478|NCT04033991|164764440|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82533479|NCT04033991|164764440|OTHER|||||||0.0014|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0014
82418089|NCT00286455|164547364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045||||0.021|TWO_SIDED|95.0|-0.084|-0.007||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.007|-0.084|0.021
82576632|NCT05332912|164863537|SUPERIORITY||||||=|0.066|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in number of correct items in Mental Rotation performance following 8 weeks of experiential training.||||=.066
82647179|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.734|TWO_SIDED|95.0|-6.03|4.25|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.25|-6.03|0.734
82418090|NCT00286455|164547364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.043|TWO_SIDED|95.0|-0.079|-0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.001|-0.079|0.043
82418091|NCT00286455|164547365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.162|||<|0.001|TWO_SIDED|95.0|-0.255|-0.069||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.069|-0.255|<0.001
82418092|NCT00286455|164547365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159||||0.001|TWO_SIDED|95.0|-0.254|-0.065||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.065|-0.254|0.001
82418093|NCT00286455|164547366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.086||||0.001|TWO_SIDED|95.0|-0.138|-0.034||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.034|-0.138|0.001
82418094|NCT00286455|164547366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084||||0.002|TWO_SIDED|95.0|-0.137|-0.032||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.032|-0.137|0.002
82418095|NCT00286455|164547367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.216||||0.23|TWO_SIDED|95.0|-0.568|0.137||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.137|-0.568|0.230
82418096|NCT00286455|164547367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.154||||0.393|TWO_SIDED|95.0|-0.508|0.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.200|-0.508|0.393
82418097|NCT00286455|164547368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084||||0.703|TWO_SIDED|95.0|-0.348|0.515||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.515|-0.348|0.703
82418098|NCT00286455|164547368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.203|TWO_SIDED|95.0|-0.153|0.717||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.717|-0.153|0.203
82418099|NCT00286455|164547369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169||||0.408|TWO_SIDED|95.0|-0.232|0.569||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.569|-0.232|0.408
82418100|NCT00286455|164547369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013||||0.949|TWO_SIDED|95.0|-0.391|0.417||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.417|-0.391|0.949
82418101|NCT00286455|164547370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.886|TWO_SIDED|95.0|-0.44|0.38||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.380|-0.440|0.886
82648055|NCT00207714|165011499|SUPERIORITY_OR_OTHER|||||||0.119|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 100 mg every 4 weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||0.119
82418102|NCT00286455|164547370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097||||0.645|TWO_SIDED|95.0|-0.51|0.317||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.317|-0.510|0.645
82418103|NCT00286455|164547371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.656|TWO_SIDED|95.0|-0.378|0.239||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.239|-0.378|0.656
82418104|NCT00286455|164547371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036||||0.819|TWO_SIDED|95.0|-0.347|0.275||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.275|-0.347|0.819
82418105|NCT00286455|164547372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079||||0.642|TWO_SIDED|95.0|-0.411|0.253||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.253|-0.411|0.642
82418106|NCT00286455|164547372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.986|TWO_SIDED|95.0|-0.332|0.338||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.338|-0.332|0.986
82418107|NCT00286455|164547373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.686||||0.305|TWO_SIDED|95.0|0.622|4.571|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.571|0.622|0.305
82418108|NCT00286455|164547373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.349||||0.091|TWO_SIDED|95.0|0.873|6.321|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.321|0.873|0.091
82418109|NCT00286455|164547374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.704||||0.001|TWO_SIDED|95.0|1.694|8.1|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||8.100|1.694|0.001
82418110|NCT00286455|164547374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.305||||0.003|TWO_SIDED|95.0|1.505|7.255|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.255|1.505|0.003
82418111|NCT00286455|164547375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.905||||0.006|TWO_SIDED|95.0|1.359|6.21|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.210|1.359|0.006
82418112|NCT00286455|164547375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.552|||<|0.001|TWO_SIDED|95.0|2.068|10.017|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||10.017|2.068|<0.001
82418113|NCT00286455|164547376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.663||||0.004|TWO_SIDED|95.0|1.367|5.188|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.188|1.367|0.004
82418114|NCT00286455|164547376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.277|||<|0.001|TWO_SIDED|95.0|1.671|6.429|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.429|1.671|<0.001
82418115|NCT00286455|164547377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.331||||0.002|TWO_SIDED|95.0|1.714|10.947|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||10.947|1.714|0.002
82418116|NCT00286455|164547377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.732||||0.001|TWO_SIDED|95.0|1.862|12.025|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||12.025|1.862|0.001
82418117|NCT00286455|164547378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.766||||0.153|TWO_SIDED|95.0|0.685|11.16|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.160|0.685|0.153
82533480|NCT04033991|164764445|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82533481|NCT04033991|164764445|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82533482|NCT04033991|164764446|OTHER||||||<|0.0001|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||<0.0001
82533483|NCT04033991|164764446|OTHER|||||||0.0094|||||||Log Rank|||Data were compared statistically across all 3 categories (favorable, intermediate and poor).||||0.0094
82418118|NCT00286455|164547378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.632||||0.029|TWO_SIDED|95.0|1.169|18.354|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, diabetes duration and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||18.354|1.169|0.029
82418119|NCT00286455|164547379|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||No multiplicity adjustments.|Mantel Haenszel|Odd's Ratio and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.102
82418120|NCT00286455|164547379|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||No multiplicity adjustments.|Mantel Haenszel|Odd's Ratio and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.063
82418121|NCT00286455|164547380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.186|TWO_SIDED|95.0|-0.18|0.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.93|-0.18|0.186
82418122|NCT00286455|164547380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.237|TWO_SIDED|95.0|-0.22|0.89||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.89|-0.22|0.237
82418123|NCT00286455|164547381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.702|TWO_SIDED|95.0|-0.74|0.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.50|-0.74|0.702
82418124|NCT00286455|164547381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.338|TWO_SIDED|95.0|-0.32|0.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.93|-0.32|0.338
82418125|NCT00286455|164547382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.978|TWO_SIDED|95.0|-0.74|0.72||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.72|-0.74|0.978
82418126|NCT00286455|164547382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.73|0.74||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.74|-0.73|0.991
82418127|NCT00286455|164547383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.539|TWO_SIDED|95.0|-1.16|0.61||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.61|-1.16|0.539
82418128|NCT00286455|164547383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.379|TWO_SIDED|95.0|-1.29|0.49||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.49|-1.29|0.379
82418129|NCT00286455|164547384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.616|TWO_SIDED|95.0|-4.4|7.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.5|-4.4|0.616
82418130|NCT00286455|164547384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.93|TWO_SIDED|95.0|-6.4|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.4|0.930
82418131|NCT00286455|164547385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.915|TWO_SIDED|95.0|-5.3|6.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.0|-5.3|0.915
82418132|NCT00286455|164547385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.745|TWO_SIDED|95.0|-4.8|6.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.7|-4.8|0.745
82418133|NCT00286455|164547386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.466|TWO_SIDED|95.0|-3.4|7.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.5|-3.4|0.466
82418134|NCT00286455|164547386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.154|TWO_SIDED|95.0|-1.5|9.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.6|-1.5|0.154
82647180|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.595|TWO_SIDED|95.0|-7.06|4.05|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.05|-7.06|0.595
82418135|NCT00286455|164547387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.774|TWO_SIDED|95.0|-5.1|6.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.9|-5.1|0.774
82418136|NCT00286455|164547387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.761|TWO_SIDED|95.0|-5.2|7.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.1|-5.2|0.761
82418137|NCT00286455|164547388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.559|TWO_SIDED|95.0|-4.2|7.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.7|-4.2|0.559
82447621|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.08||||0.9876|TWO_SIDED|95.0|-9.93|9.78|||Mixed Models Analysis|||Change From Baseline in Overall Disease Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.78|-9.93|0.9876
82447622|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-6.8||||0.2407|TWO_SIDED|95.0|-18.3|4.71|||Mixed Models Analysis|||Change From Baseline in Intestinal VAS Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||4.71|-18.30|0.2407
82447623|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|1.54||||0.7742|TWO_SIDED|95.0|-9.18|12.26|||Mixed Models Analysis|||Change From Baseline in Breathing VAS Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||12.26|-9.18|0.7742
82447624|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-4.48||||0.5182|TWO_SIDED|95.0|-18.28|9.31|||Mixed Models Analysis|||Change From Baseline in Raynaud Syndrome Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||9.31|-18.28|0.5182
82447625|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-5.8||||0.3106|TWO_SIDED|95.0|-17.2|5.59|||Mixed Models Analysis|||Change From Baseline in Finger Ulcers Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.59|-17.20|0.3106
82447626|NCT01532869|164603940|SUPERIORITY_OR_OTHER||Difference in LS mean|-7.82||||0.1717|TWO_SIDED|95.0|-19.11|3.48|||Mixed Models Analysis|||Change From Baseline in Overall Disease Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||3.48|-19.11|0.1717
82447627|NCT01532869|164603941|SUPERIORITY_OR_OTHER||Difference in LS mean|0.02||||0.8503|TWO_SIDED|95.0|-0.186|0.225|||Mixed Models Analysis|||Change From Baseline in HAQ-DI Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction||0.225|-0.186|0.8503
82447628|NCT01532869|164603941|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.207||||0.1212|TWO_SIDED|95.0|-0.471|0.056|||Mixed Models Analysis|||Change From Baseline in HAQ-DI Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.056|-0.471|0.1212
82447629|NCT01532869|164603942|SUPERIORITY_OR_OTHER||Difference in LS mean|-0.99||||0.8118|TWO_SIDED|95.0|-9.2|7.23|||Mixed Models Analysis|||Change From Baseline in Clinician's Global Assessment at Week 24.The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||7.23|-9.20|0.8118
82447630|NCT01532869|164603942|SUPERIORITY_OR_OTHER||Difference in LS mean|-9.02||||0.0768|TWO_SIDED|95.0|-19.04|1.0|||Mixed Models Analysis|||Change From Baseline in Clinician's Global Assessment at Week 48.The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||1.00|-19.04|0.0768
82447631|NCT01532869|164603943|SUPERIORITY_OR_OTHER||Difference in LS mean|-3.85||||0.4063|TWO_SIDED|95.0|-13.04|5.34|||Mixed Models Analysis|||Change From Baseline in Patient's Global Assessment at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.34|-13.04|0.4063
82418138|NCT00286455|164547388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.523|TWO_SIDED|95.0|-4.1|8.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||8.0|-4.1|0.523
82418139|NCT00286455|164547389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.739|TWO_SIDED|95.0|-7.4|5.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.2|-7.4|0.739
82418140|NCT00286455|164547389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.388|TWO_SIDED|95.0|-9.3|3.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; diabetes duration and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.6|-9.3|0.388
82647181|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35||||0.409|TWO_SIDED|95.0|-7.95|3.24|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.24|-7.95|0.409
82647182|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.368|TWO_SIDED|95.0|-8.73|3.24|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 39.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.24|-8.73|0.368
82647183|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44||||0.458|TWO_SIDED|95.0|-4.01|8.89|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||8.89|-4.01|0.458
82647184|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||0.76|TWO_SIDED|95.0|-7.77|5.68|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.68|-7.77|0.760
82647185|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.597|TWO_SIDED|95.0|-5.67|9.86|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.86|-5.67|0.597
82418141|NCT04641975|164547460|SUPERIORITY||LS Mean difference|2.22|STANDARD_ERROR_OF_MEAN|1.34||0.121|TWO_SIDED|90.0|-0.15|4.59|||ANCOVA|||Analysis of Covariance (ANCOVA) was performed with change from baseline at week 12 Last Observation Carried Forward (LOCF) as response, treatment group, sex and geographical region as fixed effects and the mean number of micturitions per 24 hours at baseline as covariate.||4.59|-0.15|0.121
82418142|NCT04641975|164547461|SUPERIORITY||Mean Difference (Final Values)|-15.51|STANDARD_ERROR_OF_MEAN|18.91||0.43|TWO_SIDED|90.0|-49.47|18.46|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||18.46|-49.47|0.430
82447632|NCT01532869|164603943|SUPERIORITY_OR_OTHER||Difference in LS mean|-8.3||||0.1371|TWO_SIDED|95.0|-19.31|2.71|||Mixed Models Analysis|||Change From Baseline in Patient's Global Assessment at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||2.71|-19.31|0.1371
82418143|NCT04641975|164547461|SUPERIORITY||Mean Difference (Final Values)|-15.51|STANDARD_ERROR_OF_MEAN|18.91||0.43|TWO_SIDED|90.0|-49.47|18.46|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||18.46|-49.47|0.430
82447633|NCT01532869|164603944|SUPERIORITY_OR_OTHER||Difference in LS mean|1.43||||0.5197|TWO_SIDED|95.0|-2.97|5.82|||Mixed Models Analysis|||Change From Baseline in FACIT-Fatigue Score at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||5.82|-2.97|0.5197
82447634|NCT01532869|164603944|SUPERIORITY_OR_OTHER||Difference in LS mean|2.75||||0.1886|TWO_SIDED|95.0|-1.38|6.88|||Mixed Models Analysis|||Change From Baseline in FACIT-Fatigue Score at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||6.88|-1.38|0.1886
82533484|NCT00577720|164764458|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|1.437|||||TWO_SIDED|90.0|1.091|1.964||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.964|1.091|
82418144|NCT04641975|164547462|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|31.08||0.935|TWO_SIDED|90.0|-53.23|58.38|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||58.38|-53.23|0.935
82418145|NCT04641975|164547462|SUPERIORITY||Mean Difference (Final Values)|2.58|STANDARD_ERROR_OF_MEAN|31.08||0.935|TWO_SIDED|90.0|-53.23|58.38|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||58.38|-53.23|0.935
82418146|NCT04641975|164547463|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.53||0.073|TWO_SIDED|90.0|-1.99|-0.1|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||-0.10|-1.99|0.073
82418147|NCT04641975|164547463|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.45||0.044|TWO_SIDED|90.0|-1.8|-0.2|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean volume voided per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||-0.20|-1.80|0.044
82418148|NCT04641975|164547464|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.91|TWO_SIDED|90.0|-0.74|0.64|||ANCOVA|||ANCOVA as performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime incontinence episodes per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||0.64|-0.74|0.910
82418149|NCT04641975|164547464|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.39||0.91|TWO_SIDED|90.0|-0.74|0.64|||ANCOVA|||ANCOVA as performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime incontinence episodes per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||0.64|-0.74|0.910
82418150|NCT04641975|164547465|SUPERIORITY||Mean Difference (Final Values)|2.48|STANDARD_ERROR_OF_MEAN|0.85||0.012|TWO_SIDED|90.0|0.97|3.99|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 without LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime micturitions per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||3.99|0.97|0.012
82418151|NCT04641975|164547465|SUPERIORITY||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|0.77||0.007|TWO_SIDED|90.0|1.1|3.82|||ANCOVA|||ANCOVA was performed with change from baseline at week 12 with LOCF as response, treatment group, sex and geographical region as fixed effects and the mean number of daytime micturitions per 24 hours at baseline as covariate. Statistically significant treatment difference at 0.10 level for mirabegron vs placebo.||3.82|1.10|0.007
82418152|NCT04641975|164547466|SUPERIORITY||Rate ratio|0.2||||0.105|TWO_SIDED|90.0|0.04|1.02|||Binomial regression|||Without LOCF: From a negative binomial regression model including treatment group, sex and region as factors and the log baseline rate of number of dry days (the log of the ratio of dry days at baseline and number of diary days at baseline) as covariate.||1.02|0.04|0.105
82418153|NCT04641975|164547466|SUPERIORITY||Rate ratio|0.22||||0.111|TWO_SIDED|90.0|0.05|1.05|||Binomial regression|||With LOCF: From a negative binomial regression model including treatment group, sex and region as factors and the log baseline rate of number of dry days (the log of the ratio of dry days at baseline and number of diary days at baseline) as covariate.||1.05|0.05|0.111
82418154|NCT04299425|164547477|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82418155|NCT04299425|164547478|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82418156|NCT04299425|164547480|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82418157|NCT04299425|164547481|SUPERIORITY|||||||0.36|||||||Chi-squared|||||||0.36
82418158|NCT01657500|164547494|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|See above|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Main outcome measure was endothelial cell loss at 6 months after EK. Sample size and statistical power calculations for testing equivalence of means within 10% range were performed at 80% power/0.025 level of significance. 20% variability was assumed. 6-month endothelial cell loss) should not differ significantly for surgeon-prepared versus eye bank-prepared tissue. Assuming pairs of corneas matched by pt. diagnosis and other characteristics, the required sample size was 34 donor pairs.||||< 0.05
82418159|NCT00564070|164547498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.2|||<|0.0001|TWO_SIDED|95.0|17.37|42.9|||Mixed Models Analysis|General linear model, controlling for baseline values|The Mean Difference was calculated as percent adherence to glucose monitoring for the CBT-AD Arm minus the adherence to glucose monitoring for the Enhanced Treatment as Usual Arm.|Multiple imputation was used to handle missing data; analyses are reported for the acute outcomes of glucose monitoring (i.e., 4 month)||42.9|17.37|<.0001
82418160|NCT00564070|164547499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|||=|0.001|TWO_SIDED|95.0|0.29|1.15|||ANCOVA|General linear model; Controlling for baseline values|The Mean Difference was calculated as percent of HbA1c for the Enhanced Treatment as Usual Arm minus percent of HbA1c for the CBT-AD Arm.|Multiple imputation was used to handle missing data; results are reported for HbA1c at the acute outcome (i.e., 4 months)||1.15|.29|=.001
82418161|NCT00564070|164547500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.22|31.14|||Mixed Models Analysis||The Mean Difference was calculated as percent pill adherence via MEMs for the CBT-AD Arm minus the percent pill adherence for the Enhanced Treatment as Usual Arm.|Analyses are reported for the acute outcomes of MEMs monitoring (4 month). Higher percentages represent better adherence.||31.14|10.22|<0.0001
82418162|NCT00564070|164547501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22|||=|0.002|TWO_SIDED|95.0|2.33|10.56|||Mixed Models Analysis|General linear model, controlling for baseline values.|The Mean Difference was calculated as MADRS unit scale for the CBT-AD Arm minus the MADRS unit scale for the Enhanced Treatment as Usual Arm.|Analyses are reported for the acute outcomes of depression as assessed on the MADRS at acute outcome.||10.56|2.33|=.002
82418163|NCT00564070|164547502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||=|0.01|TWO_SIDED|95.0|0.16|1.32|||ANCOVA|using GLM|The Mean Difference was calculated as CGI unit scale for the Enhanced Treatment as Usual Arm minus the CGI unit scale for the CBT-AD Arm.|||1.32|.16|=.01
82647186|NCT00996918|165009487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87||||0.501|TWO_SIDED|95.0|-11.24|5.5|||Mixed Models Analysis|||"Change from extension study baseline in DAD score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.50|-11.24|0.501
82418164|NCT00564070|164547503|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|22.3|STANDARD_ERROR_OF_MEAN|7.0|=|0.002|TWO_SIDED|95.0|8.6|36.1|||Mixed Models Analysis|||We hypothesized that differences in glucose monitoring adherence would continue to be superior in the CBT-AD condition compared to ETAU||36.1|8.6|=.002
82418165|NCT00564070|164547504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.3|STANDARD_ERROR_OF_MEAN|5.0|=|0.001|TWO_SIDED|95.0|6.5|26.1|||Mixed Models Analysis|||We hypothesized that the CBT-AD condition would maintain higher medication adherence over follow up compared to ETAU||26.1|6.5|=.001
82418166|NCT00564070|164547505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.1||0.16|TWO_SIDED|95.0|-1.2|7.2|||Mixed Models Analysis|||We hypothesized that the lower depression scores would remain in the CBT arm compared to ETAU over follow up.||7.2|-1.2|.16
82418167|NCT00564070|164547506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.29||0.1|TWO_SIDED|95.0|-0.1|1.1|||Mixed Models Analysis|||We hypothesized that depression scores would remain lower in the CBT-AD arm compared to the ETAU arm||1.1|-.1|.10
82418168|NCT00564070|164547507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.29||0.03|TWO_SIDED|95.0|0.6|1.2|||Mixed Models Analysis|||We hypothesized that glucose control (HbA1C) would remain superior in the CBT-AD arm compared to the ETAU arm over follow up.||1.2|.6|.03
82418169|NCT03142334|164547523|OTHER|HR and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.68||||0.001|TWO_SIDED|95.0|0.53|0.87|||Log Rank|One-sided p-value was based on log-rank test stratified by metastasis status, ECOG PS, US participant within M0 group by investigator.|Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastasis status, ECOG PS, and US participant within M0 group by investigator was used to calculate HR and 95% CIs.|||0.87|0.53|0.0010
82533485|NCT00577720|164764458|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.507|||||TWO_SIDED|90.0|1.139|2.066||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||2.066|1.139|
82647187|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.183|TWO_SIDED|95.0|-8.91|1.71|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.71|-8.91|0.183
82418170|NCT01655069|164547535|OTHER||Adjusted change from baseline|-0.95|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.19|-0.71|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.71|-1.19|
82418171|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.11|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.34|-0.88|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.88|-1.34|
82418172|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.26|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-1.53|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-1.53|
82418173|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.39|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.63|-1.16|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.16|-1.63|
82418174|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.54|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-1.76|-1.32|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.32|-1.76|
82533486|NCT00577720|164764458|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.535|||||TWO_SIDED|90.0|1.177|2.086||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||2.086|1.177|
82647188|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.92|TWO_SIDED|95.0|-5.92|5.35|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 26.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||5.35|-5.92|0.920
82647189|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.99||||0.133|TWO_SIDED|95.0|-11.52|1.53|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.53|-11.52|0.133
82533487|NCT00577720|164764458|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.068|||||TWO_SIDED|90.0|0.867|1.321||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.321|0.867|
82418175|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.56|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-1.81|-1.31|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-1.31|-1.81|
82418176|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.93|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-2.19|-1.67|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.67|-2.19|
82418177|NCT01655069|164547535|OTHER||Adjusted change from baseline|-0.93|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-1.62|-0.23|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.23|-1.62|
82418178|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.38|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.09|-0.68|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.68|-2.09|
82418179|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.4|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.09|-0.7|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.70|-2.09|
82418180|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.58|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.27|-0.88|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.88|-2.27|
82418181|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.8|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-2.5|-1.1|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.10|-2.50|
82418182|NCT01655069|164547535|OTHER||Adjusted change from baseline|-1.57|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-2.29|-0.85|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.85|-2.29|
82418183|NCT01655069|164547535|OTHER||Adjusted change from baseline|-2.0|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-2.83|-1.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.17|-2.83|
82418184|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.35|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.97|1.73|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||1.73|0.97|
82418185|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.43|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.02|1.83|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||1.83|1.02|
82426618|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-2.0|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-1.2|-2.0|<0.0001
82533488|NCT00577720|164764458|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.018|||||TWO_SIDED|90.0|0.824|1.267||||||For power calculations, assumed that variability in test treatment groups is no more than 50% higher than reference group. If true ratio of CTX is 0.65, the power to detect this departure from a ratio of 1.0 in the primary analysis is 0.88.||1.267|0.824|
82533489|NCT00577720|164764459|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|1.208|||||TWO_SIDED|90.0|0.749|2.099||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.099|0.749|
82533490|NCT00577720|164764459|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.132|||||TWO_SIDED|90.0|0.665|2.003||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.003|0.665|
82533491|NCT00577720|164764459|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.407|||||TWO_SIDED|90.0|0.913|2.404||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.404|0.913|
82418186|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.72|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|1.27|2.16|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.16|1.27|
82418187|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.8|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|1.36|2.24|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.24|1.36|
82418188|NCT01655069|164547536|OTHER||Adjusted change from baseline|2.21|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|1.74|2.67|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.67|1.74|
82447635|NCT01532869|164603945|SUPERIORITY_OR_OTHER||Difference in LS mean|0.79||||0.3651|TWO_SIDED|95.0|-0.94|2.51|||Mixed Models Analysis|||Change From Baseline in 5-D Itch Scale at Week 24. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||2.51|-0.94|0.3651
82447636|NCT01532869|164603945|SUPERIORITY_OR_OTHER||Difference in LS mean|-1.11||||0.2841|TWO_SIDED|95.0|-3.16|0.94|||Mixed Models Analysis|||Change From Baseline in 5-D Itch Scale at Week 48. The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.94|-3.16|0.2841
82533492|NCT00577720|164764459|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg DRFB)|1.165|||||TWO_SIDED|90.0|0.797|1.752||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.752|0.797|
82418189|NCT01655069|164547536|OTHER||Adjusted change from baseline|2.28|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|1.79|2.77|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.77|1.79|
82447637|NCT01532869|164603946|SUPERIORITY_OR_OTHER||Difference in LS mean|-3.55||||0.0579|TWO_SIDED|95.0|-7.23|0.12|||Mixed Models Analysis|||The analysis included the fixed, categorical effects of treatment, visit, the stratification factor of joint involvement at the baseline visit, and treatment-by-visit interaction, as well as the continuous covariates of baseline score and baseline score-by-visit interaction.||0.12|-7.23|0.0579
82533493|NCT00577720|164764459|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mg DRBB)|1.243|||||TWO_SIDED|90.0|0.828|1.99||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.990|0.828|
82533494|NCT00577720|164764460|SUPERIORITY_OR_OTHER||Ratio (LS Mean 35 mg DRFB/35 mg IRBB)|0.947|||||TWO_SIDED|90.0|0.316|2.993||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||2.993|0.316|
82447638|NCT01532869|164603947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|STANDARD_ERROR_OF_MEAN|0.704||0.2159|TWO_SIDED|95.0|0.6|9.5|||Regression, Logistic|||The logistic regression model included the fixed categorical effects of treatment and the stratification factor of joint involvement at the baseline visit. The continuous covariate of baseline mRSS score was also included in the model.||9.50|0.60|0.2159
82447639|NCT01009086|164603987|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447640|NCT01009086|164603987|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447641|NCT01009086|164603987|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447642|NCT01009086|164603988|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447643|NCT01009086|164603988|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447644|NCT01009086|164603988|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447645|NCT01009086|164603989|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447646|NCT01009086|164603989|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447647|NCT01009086|164603989|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82418190|NCT01655069|164547536|OTHER||Adjusted change from baseline|2.84|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|95.0|2.19|3.49|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.49|2.19|
82418191|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.53|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.17|2.89|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||2.89|0.17|
82418192|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.9|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|0.52|3.27|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.27|0.52|
82418193|NCT01655069|164547536|OTHER||Adjusted change from baseline|1.75|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.39|3.1|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.10|0.39|
82418194|NCT01655069|164547536|OTHER||Adjusted change from baseline|2.69|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|1.34|4.05|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||4.05|1.34|
82418195|NCT01655069|164547536|OTHER||Adjusted change from baseline|3.07|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|1.7|4.43|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||4.43|1.70|
82418196|NCT01655069|164547536|OTHER||Adjusted change from baseline|2.45|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|1.05|3.85|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||3.85|1.05|
82418197|NCT01655069|164547536|OTHER||Adjusted change from baseline|3.93|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|2.34|5.53|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||5.53|2.34|
82418198|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.98|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.27|-0.69|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.69|-1.27|
82418199|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.15|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.44|-0.86|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.86|-1.44|
82418200|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.31|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.6|-1.02|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-1.02|-1.60|
82418201|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.22|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.51|-0.93|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.93|-1.51|
82418202|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.5|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-1.8|-1.21|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.21|-1.80|
82418203|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.52|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-1.83|-1.22|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.22|-1.83|
82447648|NCT01009086|164603990|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447649|NCT01009086|164603990|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447650|NCT01009086|164603990|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82418204|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.83|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-2.22|-1.43|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.43|-2.22|
82418205|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.93|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-1.73|-0.13|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.13|-1.73|
82418206|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.94|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.48|-0.4|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.40|-1.48|
82418207|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.81|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|-1.46|-0.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.17|-1.46|
82418208|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.91|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-1.53|-0.28|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.28|-1.53|
82418209|NCT01655069|164547537|OTHER||Adjusted change from baseline|-0.71|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-1.8|-0.38|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.38|-1.80|
82533495|NCT00577720|164764460|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRBB/35 mg IRBB)|1.82|||||TWO_SIDED|90.0|0.929|5.429||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||5.429|0.929|
82418210|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.18|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|95.0|-1.92|-0.44|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.44|-1.92|
82418211|NCT01655069|164547537|OTHER||Adjusted change from baseline|-1.79|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|95.0|-2.59|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-2.59|
82418212|NCT01655069|164547538|OTHER||Adjusted change from baseline|-0.74|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.65|0.17|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 3 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||0.17|-1.65|
82418213|NCT01655069|164547538|OTHER||Adjusted change from baseline|-1.3|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.23|-0.36|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 6 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.36|-2.23|
82418214|NCT01655069|164547538|OTHER||Adjusted change from baseline|-1.14|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|95.0|-2.06|-0.22|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 9 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.22|-2.06|
82447651|NCT01009086|164603991|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447652|NCT01009086|164603991|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447653|NCT01009086|164603991|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82533496|NCT00577720|164764460|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg IRBB)|1.58|||||TWO_SIDED|90.0|0.801|4.718||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||4.718|0.801|
82447654|NCT01009086|164603992|SUPERIORITY_OR_OTHER|||||||0.017|||||||re-randomization test|||||||0.017
82447655|NCT01009086|164603992|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447656|NCT01009086|164603992|SUPERIORITY_OR_OTHER||||||<|0.001|||||||re-randomization test|||||||<0.001
82447657|NCT01192828|164604002|OTHER|Descriptive analysis||||||0.235|||||||t-test, 2 sided|paired||Null hypothesis applied.||||0.235
82418215|NCT01655069|164547538|OTHER||Adjusted change from baseline|-1.28|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-2.18|-0.38|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 12 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.38|-2.18|
82533497|NCT00577720|164764460|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/35 mg DRFB)|1.668|||||TWO_SIDED|90.0|0.856|4.668||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||4.668|0.856|
82533498|NCT00577720|164764460|SUPERIORITY_OR_OTHER||Ratio (LS Mean 50 mg DRFB/50 mgDRBB)|0.868|||||TWO_SIDED|90.0|0.504|1.488||||||The target numbers of subjects assessable for the primary analysis are 70 in the 50 mg DRFB group and 35 in the 35 mg IRBB group. Sample sizes are determined to provide adequate power for the primary comparison (ie, serum CTX for 50 mg DRFB vs. 35 mg IRBB).||1.488|0.504|
82418216|NCT01655069|164547538|OTHER||Adjusted change from baseline|-1.04|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|95.0|-1.95|-0.12|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 24 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant"||-0.12|-1.95|
82418217|NCT01655069|164547538|OTHER||Adjusted change from baseline|-1.96|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|-2.93|-1.0|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 40 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-1.00|-2.93|
82418218|NCT01655069|164547538|OTHER||Adjusted change from baseline|-2.2|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-3.48|-0.93|||Repeated Measures ANCOVA|Duration of solifenacin treatment: 52 weeks||"Repeated measures ANCOVA (analysis of covariance) was used in this analysis, which included double-blind and/or open-label solifenacin treatment duration, gender, geographic region and randomized treatment group in Study 905-CL-076 as fixed effects, baseline as a covariate and duration repeated within participant."||-0.93|-3.48|
82418219|NCT06083493|164547540|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82418220|NCT06083493|164547541|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
82418221|NCT00601107|164547595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||1|TWO_SIDED|95.0|0.17|4.22||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.22|0.17|1.000
82418222|NCT00601107|164547595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.992||95.0|0.13|4.14||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.14|0.13|0.992
82418223|NCT00601107|164547595|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||1|TWO_SIDED|95.0|0.15|4.59||The p-value was not adjusted for multiple comparisons or a prior significance threshold.|Regression, Exact Logistic|||Estimate of the log odds, relative to the Placebo, in participants with at least 50 % reduction in PASI score at Week 12 or early termination was analyzed using exact logistic regression model adjusted for site and baseline PASI strata (\<=16, \>16).||4.59|0.15|1.000
82418224|NCT00147537|164547674|SUPERIORITY_OR_OTHER||||||=|0.027|TWO_SIDED||||||binomial test|||A one-sided p-value for H0: objective response rate \<=0.28 using exact binomial test at level 0.05.||||=0.027
82418225|NCT00147537|164547675|SUPERIORITY_OR_OTHER||||||=|0.121|TWO_SIDED||||||binomial test|||A One-sided p-value for H0: objective response rate \<=0.30 using exact binomial test at level 0.05.||||=0.121
82418226|NCT01927861|164547705|OTHER||Treatment difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.38|0.88|||ANCOVA|||The change from baseline (week 0) in the height SDS after 104 weeks of treatment was analysed using an ANCOVA model with treatment as a fixed effect and baseline height SDS as a covariate.||0.88|0.38|< 0.0001
82418227|NCT02006654|164547777|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.46||0.2365|TWO_SIDED|95.0|-1.45|0.36||Corrected for multiplicity|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A negative mean difference indicates a treatment effect in favor of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested for idalopirdine at significance level 5%.||0.36|-1.45|0.2365
82426619|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0816|TWO_SIDED|95.0|-0.7|0.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.0|-0.7|0.0816
82576633|NCT05332912|164863537|SUPERIORITY||||||=|0.056|||||||t-test, 1 sided|||Null Hypothesis: Amount of change in Mental Rotation performance following 8 weeks of experiential training will not differ for participants with Down Syndrome who received 8 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention who had not received 8 weeks of intervention.||||=.056
82426620|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-0.9|-1.6|<0.0001
82418228|NCT02006654|164547778|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4064|TWO_SIDED|95.0|-0.09|0.23||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A negative mean difference indicates a treatment effect in favor of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested at significance level 5%.||0.23|-0.09|0.4064
82418229|NCT02006654|164547779|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.63||0.4064|TWO_SIDED|95.0|-0.57|1.92||Corrected for multiplicity according to the multiple testing procedure|Mixed Models Analysis|Adjusted for effects of country, MMSE stratum-by-week, treatment-by-week, base treatment stratum-by-week, and baseline score-by-week interactions|A positive mean difference indicates a treatment effect in favour of idalopirdine|For demonstrating efficacy, change in cognition (ADAS-cog) and either change in daily functioning (ADCS-ADL23) or change in global clinical impression (ADCS-CGIC) had to show statistically significant favourable differences compared to placebo at Week 24. Multiple testing procedures were used to control the overall type 1 error at 5%. The null hypothesis of no difference in mean change from baseline in ADAS-cog total score at Week 24 was tested at significance level 5%.||1.92|-0.57|0.4064
82533499|NCT03862482|164764461|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-1.22|-0.49||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 35 Brånemark® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-0.49|-1.22|<0.05
82533500|NCT03862482|164764461|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-1.35|-0.64||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 36 Swede-Vent® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-0.64|-1.35|<0.05
82533501|NCT03862482|164764461|EQUIVALENCE|Intraclass Correlation Coefficient (ICC, two-way mixed-effect model) assessed inter- and intra-examiner reliability of bone level measurement on 20 radiographs. Dahlberg measurement error. Two-way, mixed effect model|Median Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|-2.13|-1.41||Bonferroni correction was applied for pairwise comparisons|ANOVA|Repeated measures ANOVA. Dahlberg measurement error||Total 36 Screw-Vent® implants analyzed for all Configurations. Size difference expected 0.95 bone level change between B/SW/SC. Sample size 16 participants ensured 80% power to reject null hypothesis (two-sided Bonferroni-adjusted α level 0.017, pairwise comparisons between implant groups). Repeated measures ANOVA. Mixed models, repeated measures within subject. Implant type/site/configuration independent variables (length covariate). (B/SW/SC lengths compared with Kruskal-Wallis test)||-1.41|-2.13|<0.05
82418230|NCT03907579|164547798|SUPERIORITY|||||||0.0001|||||||Wilcoxon Signed Rank Test|z= -3.861||||||0.0001
82418231|NCT04128228|164547800|OTHER|"Single group: All individuals with alcohol use disorder received the same treatment.~Brain responses were examined at baseline in individuals with alcohol use disorder (AUD) with and without early trauma (AUD/ET, AUD/NT), as well as in moderate drinkers (MD) with and without early trauma (MD/ET, MD/NT)."|F value for the 2 X 2 Group Interaction|5.5|||<|0.05|TWO_SIDED|||||A 2 × 2 × 3 Linear Mixed Model was conducted with Early Trauma Group (ET, NT) and Drinking Group (AUD, MD) as between-subjects factors, and Condition (stress, alcohol, neutral) as the within-subjects factor.|Linear Mixed Model|||A regions of interest (ROI) analysis was conducted to evaluate brain activity in the right ventromedial prefrontal cortex (VmPFC, BA10), a region identified a priori. The VmPFC ROI was defined using the Yale-Brodmann atlas in the BioImage Suite application, from which the beta value for the VmPFC ROI was obtained for a Linear Mixed Model analysis.||||<0.05
82533502|NCT01656759|164764470|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||||||0.2
82533503|NCT01656759|164764471|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
82533504|NCT01656759|164764473|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
82647190|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.505|TWO_SIDED|95.0|-4.55|9.22|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 52.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||9.22|-4.55|0.505
82447658|NCT01192828|164604003|OTHER|Descriptive analysis.||||||0.701|||||||t-test, 2 sided|paired||Null hypothesis assumed.||||0.701
82576634|NCT05332912|164863537|SUPERIORITY||||||=|0.65|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Mental Rotation performance following 8 weeks of experiential training will not differ for Typically Developing Children Immediate Intervention and Down Syndrome Participants Immediate intervention.||||=.65
82576635|NCT05332912|164863538|SUPERIORITY||||||=|0.039|||||||t-test, 1 sided|||Null Hypothesis: Participants with Down Syndrome will exhibit no change in number of correct items in Mental Rotation performance following 16 weeks of experiential training.||||=.039
82533505|NCT04707391|164764474|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for serogroup A.|Difference in percentage of participants|0.2|||||TWO_SIDED|0.95|-4.38|3.5||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups A at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.50|-4.38|
82533506|NCT04707391|164764474|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for serogroup C.|Difference in percentage of participants|0.5|||||TWO_SIDED|0.95|-4.14|3.98||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups C at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.98|-4.14|
82533507|NCT04707391|164764474|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for each serogroup W.|Difference in percentage of participants|1.6|||||TWO_SIDED|0.95|-2.73|4.89||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups W at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||4.89|-2.73|
82533508|NCT04707391|164764474|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers between MenABCWY group and MenACWY group was above -10% for each serogroup Y.|Difference in percentage of participants|0.6|||||TWO_SIDED|0.95|-3.93|3.91||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups Y at 1 month after the second MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.91|-3.93|
82533509|NCT04707391|164764475|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in the 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup A.|Difference in percentage of participants|-2.5|||||TWO_SIDED|0.95|-5.59|0.47||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups A at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||0.47|-5.59|
82533510|NCT04707391|164764475|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup C.|Difference in percentage of participants|0.1|||||TWO_SIDED|0.95|-2.76|2.94||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups C at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||2.94|-2.76|
82418232|NCT04128228|164547801|OTHER|Single group (all individuals with alcohol use disorder received the same treatment). Hormone responses were examined at baseline in individuals with alcohol use disorder (AUD) with and without early trauma (AUD/ET, AUD/NT), as well as in moderate drinkers (MD) with and without early trauma (MD/ET, MD/NT).|F value|4.79|||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
82418233|NCT04128228|164547802|OTHER|Single Group|Hazard Ratio (HR)|0.71|||<|0.05|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|||||.95|.53|<0.05
82533511|NCT04707391|164764475|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup W.|Difference in percentage of participants|0.4|||||TWO_SIDED|0.95|-2.41|3.25||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroupsW at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||3.25|-2.41|
82576636|NCT05332912|164863538|SUPERIORITY||||||=|0.32|||||||t-test, 2 sided|df = 48||Null Hypothesis: Participants with Down Syndrome in the Immediate Intervention condition and received 16 weeks of experiential training in Mental Rotation will exhibit a similar change in performance as Typically Developing Children in the Delayed Intervention condition who received only 8 weeks of experiential training.||||= .32
82418234|NCT04128228|164547803|OTHER|Single Group. All individuals with alcohol use disorder received the same treatment.|t value|-3.35|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82418235|NCT04128228|164547804|OTHER|Single Group (All individuals with alcohol use disorder received the same treatment.)|t value|-2.6|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82418236|NCT02057666|164547819|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.406||||0.027|TWO_SIDED|95.0|0.182|0.903|||Log Rank|Stratified as per randomisation.|Stratified as per randomisation.|||0.903|0.182|0.027
82418237|NCT02057666|164547820|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.465||||0.448|TWO_SIDED|95.0|0.065|3.355|||Log Rank|||||3.355|0.065|0.448
82447659|NCT01192828|164604004|OTHER|Descriptive analysis.||||||0.19|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.190
82418238|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.81|||||TWO_SIDED|95.0|0.61|1.07||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.07|0.61|
82418239|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC Ratio|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.52|0.87|
82418240|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC Ratio|1.42|||||TWO_SIDED|95.0|1.03|1.96||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.96|1.03|
82418241|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.62|||||TWO_SIDED|95.0|0.46|0.84||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.84|0.46|
82418242|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.89|||||TWO_SIDED|95.0|0.66|1.2||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.66|
82418243|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.44|||||TWO_SIDED|95.0|1.02|2.04||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.04|1.02|
82418244|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.82|1.32||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.32|0.82|
82418245|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.86|1.39||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.86|
82418246|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.05|||||TWO_SIDED|95.0|0.79|1.39||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.79|
82533512|NCT04707391|164764475|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval(CI) for the difference in percenatge of participants achieving a 4-fold rise in hSBA titers (p\_MenABCWY- p\_MenACWY) is above -10% for serogroup Y.|Difference in percentage of participants|-0.8|||||TWO_SIDED|0.95|-3.62|2.09||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine, compared to MenACWY vaccine given to healthy participants, previously primed with a MenACWY vaccine, as measured by the percentages of participants achieving a 4-fold rise in hSBA titers against N. meningitidis serogroups Y at 1 month after the first MenABCWY vaccination (0,6-months) and 1 month after the MenACWY vaccination (single dose).||2.09|-3.62|
82533513|NCT02923895|164764496|SUPERIORITY|All statistical analyses were conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.|Mean Difference (Net)|-1.31|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.128||From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment as a factor and baseline Schiff sensitivity score as a covariate.|ANCOVA||Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-1.128|-1.500|<.0001
82418247|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.77|1.34||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.34|0.77|
82418248|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.79|
82418249|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.74|1.4||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.40|0.74|
82418250|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.57|0.97||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.97|0.57|
82418251|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.85|||||TWO_SIDED|95.0|0.65|1.11||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.11|0.65|
82418252|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMCratio|1.14|||||TWO_SIDED|95.0|0.84|1.56||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.56|0.84|
82418253|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.37|||||TWO_SIDED|95.0|0.97|1.94||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.94|0.97|
82418254|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.1|||||TWO_SIDED|95.0|0.78|1.55||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.55|0.78|
82418255|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.54|1.19||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.19|0.54|
82418256|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.61|1.05||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.05|0.61|
82418257|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.95|||||TWO_SIDED|95.0|0.73|1.25||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.25|0.73|
82418258|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.19|||||TWO_SIDED|95.0|0.87|1.64||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.64|0.87|
82418259|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|3.62|||||TWO_SIDED|95.0|2.76|4.74||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.74|2.76|
82418260|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.4|0.68||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.68|0.40|
82418261|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.14|||||TWO_SIDED|95.0|0.1|0.2||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.20|0.10|
82418262|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.13|||||TWO_SIDED|95.0|0.8|1.59||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.59|0.80|
82418263|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.87|||||TWO_SIDED|95.0|0.62|1.23||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.62|
82418264|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.52|1.15||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.15|0.52|
82418265|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|3.49|||||TWO_SIDED|95.0|2.68|4.54||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.54|2.68|
82533514|NCT02040090|164764505|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|We will reject the null hypothesis at the one-sided 5% significance level, and conclude that Cp \> -0.1, if the lower bound of an exact 90% binomial confidence interval (CI) exceeds0.1. A sample size of 53 in each group provides 80% power to reject the null hypothesis.|Mean Difference (Net)|-0.018|||||TWO_SIDED|90.0|-0.082|0.031||||||The null hypothesis was that Cp ≤ -0.1.||0.031|-0.082|
82647191|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.86||||0.003|TWO_SIDED|95.0|-21.46|-4.25|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||-4.25|-21.46|0.003
82418266|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.4|0.68||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.68|0.40|
82418267|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.15|||||TWO_SIDED|95.0|0.11|0.2||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.20|0.11|
82418268|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.61|||||TWO_SIDED|95.0|1.15|2.23||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.23|1.15|
82418269|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.24|||||TWO_SIDED|95.0|0.89|1.72||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.72|0.89|
82418270|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.77|||||TWO_SIDED|95.0|0.53|1.13||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.53|
82418271|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.63|||||TWO_SIDED|95.0|1.28|2.08||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.08|1.28|
82418272|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.03|||||TWO_SIDED|95.0|0.81|1.3||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.81|
82418273|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.63|||||TWO_SIDED|95.0|0.47|0.83||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.83|0.47|
82447660|NCT01192828|164604005|OTHER|Descriptive analysis.||||||0.052|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.052
82533515|NCT02584855|164764535|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and conventional disease-modifying antirheumatic drug (cDMARD) use at the time of double blind randomization.||||<0.001
82533516|NCT02584855|164764536|SUPERIORITY||Odds Ratio (OR)|-45.6|||||TWO_SIDED|95.0|-58.8|-32.3||||||Logistic regression adjusting for treatment, geographic region, and cDMARD use at the time of double-blind randomization .||-32.3|-58.8|
82533517|NCT02584855|164764539|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
82647192|NCT00996918|165009488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||0.76|TWO_SIDED|95.0|-7.95|10.88|||Mixed Models Analysis|||"Change from base study baseline in NPI score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||10.88|-7.95|0.760
82418274|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.99|||||TWO_SIDED|95.0|1.51|2.63||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.63|1.51|
82418275|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.79|
82418276|NCT01026038|164547836|SUPERIORITY_OR_OTHER||GMC ratio|0.52|||||TWO_SIDED|95.0|0.38|0.72||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.72|0.38|
82418277|NCT01026038|164547837|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
82418278|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.429||95.0|||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.429
82418279|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||Fisher Exact|||Pain (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.314
82418280|NCT01026038|164547837|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
82418281|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.552||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.552
82418282|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.499||95.0|||||Fisher Exact|||Pain (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.499
82418283|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.376||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.376
82418284|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.633||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.633
82418285|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.658||95.0|||||Fisher Exact|||Pain (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.658
82418286|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.544||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.544
82418287|NCT01026038|164547837|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418288|NCT01026038|164547837|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Pain (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418289|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.859||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.859
82418290|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.197||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.197
82418291|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.198||95.0|||||Fisher Exact|||Swelling (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.198
82418292|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.443||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.443
82418293|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.261
82418294|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Fisher Exact|||Swelling (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.687
82418295|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.671
82418296|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.253||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.253
82447661|NCT01192828|164604006|OTHER|Descriptive analysis.||||||0.014|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed.||||0.014
82533518|NCT02584855|164764540|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
82533519|NCT02584855|164764541|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
82447662|NCT01192828|164604008|OTHER|Descriptive analysis||||||0.541|||||||Spearman's rank correlation|||Null hypothesis assumed|Spearman's rank correlation rho is 0.179, with p value 0.541, N is 14|||.541
82447663|NCT01192828|164604010|OTHER|Descriptive analysis||||||0.014|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed||||0.014
82447664|NCT01192828|164604011|OTHER|Descriptive analysis||||||0.012|||||||t-test, 2 sided|paired t-test||Null hypothesis assumed||||0.012
82533520|NCT02584855|164764542|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
82533521|NCT02584855|164764543|SUPERIORITY||||||<|0.001|||||||Log Rank|||Log Rank Test adjusting for geographic region and cDMARD use at the time of double blind randomization.||||<0.001
82418297|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Fisher Exact|||Swelling (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.074
82418298|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Fisher Exact|||Swelling (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.323
82418299|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Swelling (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.489
82418300|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.607||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.607
82418301|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.549
82418302|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.864||95.0|||||Fisher Exact|||Redness (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.864
82418303|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.859||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.859
82418304|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.836||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.836
82418305|NCT01026038|164547837|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Redness (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418306|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.297||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.297
82418307|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.145
82418308|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.517||95.0|||||Fisher Exact|||Redness (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.517
82418309|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Fisher Exact|||Redness (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.323
82418310|NCT01026038|164547837|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Redness (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.489
82418311|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC||||0.075
82447665|NCT01192828|164604012|OTHER|Descriptive analysis.||||||0.16|||||||t-test, 2 sided|paired t-test||Null hypothesis applied.||||0.160
82447666|NCT01192828|164604013|OTHER|Descriptive analysis||||||0.1|||||||t-test, 2 sided|||||||0.10
82447667|NCT02533726|164604017|SUPERIORITY||Odds Ratio (OR)|0.27||||0.012|TWO_SIDED|95.0|0.1|0.75|||Fisher Exact|||Per-protocol (PP) analysis, consistent with regulatory guidance (FDA).||.75|.1|.012
82447668|NCT02533726|164604017|OTHER||Odds Ratio (OR)|0.2||||0.015|TWO_SIDED|95.0|0.06|0.74|||Fisher Exact|||Per protocol analysis adjusted for admitting team, unit of admission, and risk for pressure injury.||0.74|0.06|0.015
82447669|NCT01147848|164604019|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.037||||0.162|TWO_SIDED|95.0|-0.088|0.015|||ANCOVA||Analysis was performed using ANCOVA with covariates of Baseline FEV1, region, sex, age, and treatment.|||0.015|-0.088|0.162
82447670|NCT03596450|164604039|SUPERIORITY||Treatment effect|1.36||||0.033|TWO_SIDED|95.0|1.03|1.79|||Regression, Logistic|||Estimate and p-value are based on logistic regression model with logit link function, treatment as categorical effect, and baseline HbA1c as covariate.||1.79|1.03|0.033
82447671|NCT03624127|164604108|SUPERIORITY||Odds Ratio (OR)|18.71|||<|0.0001|TWO_SIDED|95.0|9.51|36.81|||Cochran-Mantel-Haenszel|||||36.81|9.51|<0.0001
82447672|NCT03624127|164604109|SUPERIORITY||Odds Ratio (OR)|11.09|||<|0.0001|TWO_SIDED|95.0|6.49|18.95|||Cochran-Mantel-Haenszel|||||18.95|6.49|<0.0001
82447673|NCT03624127|164604110|SUPERIORITY||Odds Ratio (OR)|16.15|||<|0.0001|TWO_SIDED|95.0|6.91|37.72|||Cochran-Mantel-Haenszel|||||37.72|6.91|<0.0001
82447674|NCT03624127|164604110|SUPERIORITY||Odds Ratio (OR)|2.4||||0.0002|TWO_SIDED|95.0|1.51|3.6|||Cochran-Mantel-Haenszel|||||3.60|1.51|0.0002
82447675|NCT03624127|164604111|SUPERIORITY||Odds Ratio (OR)|31.3|||<|0.0001|TWO_SIDED|95.0|4.09|239.36|||Cochran-Mantel-Haenszel|||||239.36|4.09|<0.0001
82447676|NCT03624127|164604112|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.0001|TWO_SIDED|95.0|2.07|9.84|||Cochran-Mantel-Haenszel|||||9.84|2.07|<0.0001
82447677|NCT03624127|164604112|SUPERIORITY||Odds Ratio (OR)|39.54|||<|0.0001|TWO_SIDED|95.0|5.29|295.75|||Cochran-Mantel-Haenszel|||||295.75|5.29|<0.0001
82533522|NCT01607411|164764569|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.59|||<|0.0001|TWO_SIDED|95.0|3.6|7.58||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||7.58|3.60|<0.0001
82647193|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08||||0.373|TWO_SIDED|95.0|-6.68|2.52|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.52|-6.68|0.373
82648056|NCT00207714|165011499|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference in ACR 20 response at Wk 16 between Golimumab 100 mg every 2 or 4 Weeks and Placebo + MTX. Sample of 35 participants per treatment groups (140 in combined golimumab group and 35 in Placebo +MTX group) provides greater than 90% power assuming 60% golimumab response and 25% response in placebo.||||<0.001
82418312|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC||||0.345
82418313|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.628||95.0|||||Fisher Exact|||Fever (\>=38 degree C to \<=39 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC||||0.628
82418314|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.592||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.592
82418315|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.608||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.608
82418316|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fever (\>=39 degree C to \<=40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418317|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fever (\>40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418318|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||Fisher Exact|||Fever (\>40 degree C): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.333
82418319|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.215
82418320|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.714
82418321|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.397||95.0|||||Fisher Exact|||Vomiting (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.397
82418322|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.215
82418323|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.714
82418324|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.397||95.0|||||Fisher Exact|||Vomiting (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.397
82418325|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.161
82418326|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.226
82418327|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418328|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.161||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.161
82418329|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.226
82418330|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418331|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
82418332|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Diarrhea (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418333|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.237
82418334|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.045
82418335|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Fisher Exact|||Fatigue (Any): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.285
82418336|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
82418337|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.174
82447678|NCT03624127|164604113|SUPERIORITY||Adjusted Mean Difference|-8.8|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED|95.0|-12.8|-4.9|||ANCOVA|||||-4.9|-12.8|<0.0001
82418338|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|||Fatigue (Mild): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.125
82418339|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||0.058
82418340|NCT01026038|164547838|SUPERIORITY_OR_OTHER|||||||0.092||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||0.092
82418341|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Moderate): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418342|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/7vPnC/13vPnC.||||>0.990
82418343|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 7vPnC/7vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418344|NCT01026038|164547838|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Fatigue (Severe): Fisher exact test, 2-sided was used. Pairwise comparison was made between 13vPnC/13vPnC/13vPnC and 7vPnC/13vPnC/13vPnC.||||>0.990
82418345|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.56|1.0||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.00|0.56|
82418346|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.73|1.28||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.28|0.73|
82418347|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC Ratio|1.29|||||TWO_SIDED|95.0|0.92|1.79||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.79|0.92|
82418348|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.7|||||TWO_SIDED|95.0|0.49|1.0||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.00|0.49|
82418349|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.89|||||TWO_SIDED|95.0|0.62|1.27||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.27|0.62|
82418350|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.27|||||TWO_SIDED|95.0|0.84|1.94||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.94|0.84|
82418351|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.78|||||TWO_SIDED|95.0|0.58|1.03||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.03|0.58|
82418352|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.01|||||TWO_SIDED|95.0|0.76|1.33||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.33|0.76|
82418353|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.29|||||TWO_SIDED|95.0|0.93|1.8||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.80|0.93|
82418354|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.04|||||TWO_SIDED|95.0|0.69|1.58||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.58|0.69|
82418355|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.3|||||TWO_SIDED|95.0|0.86|1.97||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.97|0.86|
82418356|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.25|||||TWO_SIDED|95.0|0.77|2.03||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.03|0.77|
82418357|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.58|||||TWO_SIDED|95.0|0.42|0.78||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.78|0.42|
82418358|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.67|1.23||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.67|
82418359|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.58|||||TWO_SIDED|95.0|1.11|2.25||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.25|1.11|
82418360|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.05|||||TWO_SIDED|95.0|0.66|1.68||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.68|0.66|
82418361|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.54|||||TWO_SIDED|95.0|0.97|2.44||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.44|0.97|
82447679|NCT03624127|164604114|SUPERIORITY||Odds Ratio (OR)|13.67||||0.0013|TWO_SIDED|95.0|1.77|105.5|||Cochran-Mantel-Haenszel|||||105.50|1.77|0.0013
82447680|NCT03624127|164604114|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1702|TWO_SIDED|95.0|0.76|4.42|||Cochran-Mantel-Haenszel|||||4.42|0.76|0.1702
82447681|NCT03624127|164604115|SUPERIORITY||Odds Ratio (OR)|6.04|||<|0.0001|TWO_SIDED|95.0|3.46|10.53|||Cochran-Mantel-Haenszel|||||10.53|3.46|<0.0001
82447682|NCT03624127|164604116|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1049|TWO_SIDED|95.0|0.73|10.96|||Cochran-Mantel-Haenszel|||||10.96|0.73|0.1049
82447683|NCT03624127|164604117|SUPERIORITY||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.78|3.91|||Cochran-Mantel-Haenszel|||||3.91|1.78|<0.0001
82447684|NCT03624127|164604118|SUPERIORITY||Odds Ratio (OR)|2.53|||<|0.0001|TWO_SIDED|95.0|1.7|3.78|||Cochran-Mantel-Haenszel|||||3.78|1.70|<0.0001
82418362|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.46|||||TWO_SIDED|95.0|0.85|2.51||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.51|0.85|
82447685|NCT03624127|164604119|SUPERIORITY||Odds Ratio (OR)|11.92|||<|0.0001|TWO_SIDED|95.0|6.69|21.25|||Cochran-Mantel-Haenszel|||||21.25|6.69|<0.0001
82576637|NCT05332912|164863538|SUPERIORITY||||||=|0.73||||||df = 55|t-test, 2 sided|||Null Hypothesis: Amount of change in Mental Rotation performance following 16 weeks of experiential training will not differ for Typically Developing Children Immediate Intervention and Down Syndrome Participants Immediate intervention.||||=.73
82418363|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.56|1.15||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.56|
82418364|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.06|||||TWO_SIDED|95.0|0.74|1.52||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.52|0.74|
82418365|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.32|||||TWO_SIDED|95.0|0.87|2.01||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.01|0.87|
82447686|NCT03624127|164604119|SUPERIORITY||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.21|6.04|||Cochran-Mantel-Haenszel|||||6.04|2.21|<0.0001
82447687|NCT03624127|164604120|SUPERIORITY||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|2.16|4.83|||Cochran-Mantel-Haenszel|||||4.83|2.16|<0.0001
82447688|NCT03624127|164604121|SUPERIORITY||Odds Ratio (OR)|3.76|||<|0.0001|TWO_SIDED|95.0|2.53|5.6|||Cochran-Mantel-Haenszel|||||5.60|2.53|<0.0001
82447689|NCT03624127|164604122|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.71|4.05|||Cochran-Mantel-Haenszel|||||4.05|1.71|<0.0001
82447690|NCT03624127|164604123|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.96|4.69|||Cochran-Mantel-Haenszel|||||4.69|1.96|<0.0001
82447691|NCT03624127|164604124|SUPERIORITY||Odds Ratio (OR)|3.11|||<|0.0001|TWO_SIDED|95.0|2.06|4.69|||Cochran-Mantel-Haenszel|||||4.69|2.06|<0.0001
82447692|NCT03624127|164604125|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0002|TWO_SIDED|95.0|1.55|4.19|||Cochran-Mantel-Haenszel|||||4.19|1.55|0.0002
82447693|NCT00915551|164604126|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82447694|NCT00915551|164604127|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82447695|NCT03262441|164604144|OTHER||Slope|-0.00033|||||TWO_SIDED|95.0|-0.002|0.0014||||||||0.0014|-0.0020|
82447696|NCT03262441|164604145|OTHER||Slope|0.001|||||TWO_SIDED|95.0|-0.0036|0.0056||||||||0.0056|-0.0036|
82447697|NCT03262441|164604146|OTHER||Slope|0.0024|||||TWO_SIDED|95.0|-0.003|0.0078||||||||0.0078|-0.003|
82447698|NCT00559988|164604189|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.064||||0.732|TWO_SIDED|95.0|0.75|1.51|||Regression, Cox|||||1.51|0.75|0.732
82447699|NCT01455194|164604199|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.122|STANDARD_ERROR_OF_MEAN|0.1175||0.2988|TWO_SIDED|95.0|-0.353|0.109|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.109|-0.353|0.2988
82447700|NCT01455194|164604199|SUPERIORITY_OR_OTHER||LS Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.118||0.7741|TWO_SIDED|95.0|-0.198|0.266|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.266|-0.198|0.7741
82447701|NCT01455194|164604199|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.156|STANDARD_ERROR_OF_MEAN|0.1172||0.1835|TWO_SIDED|95.0|-0.387|0.074|||ANCOVA|||Least square (LS) mean difference were derived from an ANCOVA model with baseline ACQ and age as covariates, and treatment, centre pool, sex, and prestudy ICS dose as factors.||0.074|-0.387|0.1835
82447702|NCT01455194|164604201|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate|0.0||||0.8465|TWO_SIDED|95.0|-3.0|4.0|||Wilcoxon (Mann-Whitney)||Treatment comparisons were carried out using an exact Wilcoxon Mann Whitney test.|||4.000|-3.000|0.8465
82447703|NCT01455194|164604201|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate|1.0||||0.4175|TWO_SIDED|95.0|-2.0|5.0|||Wilcoxon (Mann-Whitney)||Treatment comparisons were carried out using an exact Wilcoxon Mann Whitney test.|||5.000|-2.000|0.4175
82447704|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.4186|||||||Fisher Exact|||Well-controlled Asthma||||0.4186
82447705|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.146|||||||Fisher Exact|||Well-controlled Asthma||||0.1460
82447706|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.6017|||||||Fisher Exact|||Well-controlled Asthma||||0.6017
82447707|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.3305|||||||Fisher Exact|||ACQ Improvement||||0.3305
82447708|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.486|||||||Fisher Exact|||ACQ Improvement||||0.4860
82447709|NCT01455194|164604202|SUPERIORITY_OR_OTHER|||||||0.8922|||||||Fisher Exact|||ACQ Improvement||||0.8922
82447710|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.042|STANDARD_ERROR_OF_MEAN|0.0806||0.6062|TWO_SIDED|95.0|0.89|1.221|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.221|0.890|0.6062
82447711|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.0669||0.4674|TWO_SIDED|95.0|0.921|1.197|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.197|0.921|0.4674
82533523|NCT01607411|164764569|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.36|||<|0.0001|TWO_SIDED|95.0|2.37|6.35||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||6.35|2.37|<0.0001
82418366|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|2.59|||||TWO_SIDED|95.0|1.8|3.73||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||3.73|1.80|
82418367|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.26|||||TWO_SIDED|95.0|0.88|1.79||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.79|0.88|
82418368|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.49|||||TWO_SIDED|95.0|0.32|0.74||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.74|0.32|
82418369|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.06|||||TWO_SIDED|95.0|0.61|1.87||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.87|0.61|
82418370|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.19|||||TWO_SIDED|95.0|0.68|2.09||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.09|0.68|
82418371|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.12|||||TWO_SIDED|95.0|0.59|2.15||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.15|0.59|
82418372|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.15|||||TWO_SIDED|95.0|0.87|1.52||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.52|0.87|
82418373|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.69|1.2||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.69|
82418374|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.79|||||TWO_SIDED|95.0|0.57|1.1||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.10|0.57|
82418375|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|2.14|||||TWO_SIDED|95.0|1.52|3.02||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||3.02|1.52|
82418376|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.64|||||TWO_SIDED|95.0|1.16|2.3||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.30|1.16|
82418377|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.76|||||TWO_SIDED|95.0|0.51|1.14||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.14|0.51|
82418378|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|3.11|||||TWO_SIDED|95.0|2.23|4.33||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.33|2.23|
82418379|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.84|||||TWO_SIDED|95.0|0.61|1.17||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.17|0.61|
82647194|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.677|TWO_SIDED|95.0|-5.92|3.86|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 26.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.86|-5.92|0.677
82418380|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.27|||||TWO_SIDED|95.0|0.19|0.4||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.40|0.19|
82418381|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratrio|1.82|||||TWO_SIDED|95.0|1.25|2.66||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.66|1.25|
82418382|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|1.33|||||TWO_SIDED|95.0|0.91|1.94||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.94|0.91|
82418383|NCT01026038|164547839|SUPERIORITY_OR_OTHER||GMC ratio|0.73|||||TWO_SIDED|95.0|0.47|1.13||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.47|
82418384|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.63|||||TWO_SIDED|95.0|0.23|1.76||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.76|0.23|
82533524|NCT01607411|164764569|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.16||||0.0021|TWO_SIDED|95.0|1.17|5.15||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||5.15|1.17|0.0021
82647195|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.28|TWO_SIDED|95.0|-9.61|2.8|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.80|-9.61|0.280
82418385|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.3|1.99||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.99|0.30|
82418386|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC Ratio|1.21|||||TWO_SIDED|95.0|0.38|3.86||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.86|0.38|
82418387|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.93|||||TWO_SIDED|95.0|0.43|1.99||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.99|0.43|
82418388|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.54|2.22||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.22|0.54|
82418389|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.18|||||TWO_SIDED|95.0|0.5|2.79||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.79|0.50|
82418390|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.11|||||TWO_SIDED|95.0|0.56|2.19||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.19|0.56|
82418391|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.58|2.06||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.06|0.58|
82418392|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.46|2.13||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.13|0.46|
82418393|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.38|2.55||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.55|0.38|
82418394|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.23|||||TWO_SIDED|95.0|0.5|3.0||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.00|0.50|
82418395|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.25|||||TWO_SIDED|95.0|0.42|3.72||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.72|0.42|
82418396|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.69|||||TWO_SIDED|95.0|0.29|1.68||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.68|0.29|
82418397|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.92|||||TWO_SIDED|95.0|0.4|2.1||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.10|0.40|
82418398|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.33|||||TWO_SIDED|95.0|0.49|3.64||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.64|0.49|
82418399|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.7|||||TWO_SIDED|95.0|0.7|4.12||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.12|0.70|
82418400|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.37|||||TWO_SIDED|95.0|0.6|3.14||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.14|0.60|
82418401|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.81|||||TWO_SIDED|95.0|0.3|2.21||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.21|0.30|
82418402|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.43|1.89||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.89|0.43|
82576638|NCT05332912|164863539|SUPERIORITY||||||=|0.023|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in Perspective Taking performance following 8 weeks of experiential training.||||=.023
82418403|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.83|||||TWO_SIDED|95.0|0.42|1.67||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.67|0.42|
82418404|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.93|||||TWO_SIDED|95.0|0.4|2.16||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.16|0.40|
82418405|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|7.53|||||TWO_SIDED|95.0|2.86|19.78||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||19.78|2.86|
82418406|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.53|||||TWO_SIDED|95.0|0.22|1.31||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.31|0.22|
82418407|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.07|||||TWO_SIDED|95.0|0.02|0.21||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.21|0.02|
82418408|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.11|||||TWO_SIDED|95.0|0.53|2.3||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||2.30|0.53|
82418409|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.5|1.97||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.97|0.50|
82418410|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.39|2.07||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.07|0.39|
82418411|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|4.2|||||TWO_SIDED|95.0|2.18|8.09||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||8.09|2.18|
82418412|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.61|||||TWO_SIDED|95.0|0.33|1.13||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.13|0.33|
82418413|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.15|||||TWO_SIDED|95.0|0.07|0.31||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.31|0.07|
82418414|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|3.11|||||TWO_SIDED|95.0|1.51|6.4||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||6.40|1.51|
82418415|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.88|||||TWO_SIDED|95.0|0.96|3.69||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.69|0.96|
82576639|NCT05332912|164863539|SUPERIORITY|||||||0.23|||||||t-test, 1 sided|df = 48||Null Hypothesis: Amount of change in Perspective Taking performance following 8 weeks of experiential training will not differ for participants with Down Syndrome who received 8 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention who had not received 8 weeks of intervention.||||.23
82647196|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.95|TWO_SIDED|95.0|-6.34|6.76|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 52.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||6.76|-6.34|0.950
82418416|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.6|||||TWO_SIDED|95.0|0.27|1.37||||||Serotype 6A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.37|0.27|
82418417|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|2.88|||||TWO_SIDED|95.0|1.39|5.98||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||5.98|1.39|
82418418|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.15|||||TWO_SIDED|95.0|0.58|2.28||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.28|0.58|
82418419|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.4|||||TWO_SIDED|95.0|0.17|0.92||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.92|0.17|
82418420|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|2.57|||||TWO_SIDED|95.0|1.5|4.39||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.39|1.50|
82418421|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|1.24|||||TWO_SIDED|95.0|0.75|2.05||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.05|0.75|
82418422|NCT01026038|164547840|SUPERIORITY_OR_OTHER||GMC ratio|0.48|||||TWO_SIDED|95.0|0.26|0.89||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.89|0.26|
82418423|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT Ratio|0.2|||||TWO_SIDED|95.0|0.04|0.73||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.73|0.04|
82418424|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT Ratio|0.2|||||TWO_SIDED|95.0|0.04|0.64||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.64|0.04|
82418425|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.19|5.46||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.46|0.19|
82418426|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.17|5.85||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||5.85|0.17|
82418427|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.15|3.72||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.72|0.15|
82418428|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.1|5.37||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.37|0.10|
82418429|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.23|6.25||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||6.25|0.23|
82418430|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.17|3.92||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.92|0.17|
82418431|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.11|4.43||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||4.43|0.11|
82418432|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|2.4|||||TWO_SIDED|95.0|0.48|12.35||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||12.35|0.48|
82418433|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|0.45|9.05||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||9.05|0.45|
82533525|NCT01607411|164764570|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.23||||0.2225|TWO_SIDED|95.0|-0.76|3.22||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||3.22|-0.76|0.2225
82576640|NCT05332912|164863539|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Mental Rotation will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received 8 weeks of experiential intervention and Typically Developing Children in the Immediate Intervention who also received 8 weeks of intervention.||||.42
82418434|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.13|5.14||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||5.14|0.13|
82418435|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.04|0.8||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.80|0.04|
82418436|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.12|2.03||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.03|0.12|
82418437|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|2.7|||||TWO_SIDED|95.0|0.48|14.92||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||14.92|0.48|
82418438|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.23|4.36||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.36|0.23|
82418439|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.31|4.84||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||4.84|0.31|
82418440|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.23|6.65||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||6.65|0.23|
82447712|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.201|STANDARD_ERROR_OF_MEAN|0.1597||0.2523|TWO_SIDED|95.0|0.878|1.642|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.642|0.878|0.2523
82576641|NCT05332912|164863540|SUPERIORITY||||||=|0.01|||||||t-test, 1 sided|df = 26||Null Hypothesis: Participants with Down Syndrome will exhibit no change in Perspective Taking performance following 16 weeks of experiential training.||||=.01
82418441|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.17|4.17||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.17|0.17|
82418442|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.3|||||TWO_SIDED|95.0|0.07|1.24||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.24|0.07|
82418443|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.3|||||TWO_SIDED|95.0|0.06|2.08||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.08|0.06|
82418444|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.79|1.97||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.97|0.79|
82418445|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.38|0.88||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.88|0.38|
82418446|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.27|0.77||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.77|0.27|
82418447|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|0.85|4.9||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.90|0.85|
82418448|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.49|2.48||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.48|0.49|
82418449|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.2|1.45||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.45|0.20|
82418450|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.87|1.15||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.87|
82647197|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.06||||0.13|TWO_SIDED|95.0|-23.16|3.05|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.05|-23.16|0.130
82418451|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.79|1.03||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.03|0.79|
82418452|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.76|1.06||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.06|0.76|
82418453|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|16.5|||||TWO_SIDED|95.0|3.56|76.14||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||76.14|3.56|
82418454|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|2.3|||||TWO_SIDED|95.0|0.56|9.06||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||9.06|0.56|
82418455|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.1|||||TWO_SIDED|95.0|0.02|0.78||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.78|0.02|
82418456|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.22|7.07||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||7.07|0.22|
82418457|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.03|0.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.74|0.03|
82418458|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.1|||||TWO_SIDED|95.0|0.02|0.84||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.84|0.02|
82418459|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|4.8|||||TWO_SIDED|95.0|1.35|16.98||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||16.98|1.35|
82418460|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.28|3.23||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||3.23|0.28|
82418461|NCT01026038|164547841|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.05|0.85||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.85|0.05|
82418462|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.38||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.38|0.80|
82418463|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.76|1.3||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.76|
82418464|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.69|1.3||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.30|0.69|
82418465|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.49|0.9||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.90|0.49|
82418466|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.55|1.01||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.01|0.55|
82418467|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.79|1.59||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.59|0.79|
82418468|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.3|||||TWO_SIDED|95.0|0.98|1.63||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.63|0.98|
82418469|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.76|1.27||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.27|0.76|
82418470|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.58|1.05||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.05|0.58|
82418471|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.67|1.21||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.21|0.67|
82418472|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.7|1.25||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.25|0.70|
82418473|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.73|1.46||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.46|0.73|
82418474|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.83|1.43||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.43|0.83|
82418475|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.7|1.2||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.20|0.70|
82418476|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.61|1.15||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.15|0.61|
82418477|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.51|1.15||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.15|0.51|
82418478|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.7|||||TWO_SIDED|95.0|0.46|1.03||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.03|0.46|
82418479|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.56|1.44||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.44|0.56|
82418480|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.74|1.37||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.37|0.74|
82418481|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.67|1.23||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.23|0.67|
82418482|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.63|1.29||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.29|0.63|
82418483|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|3.1|||||TWO_SIDED|95.0|2.4|4.06||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||4.06|2.40|
82418484|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.39|0.66||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.66|0.39|
82418485|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.2|||||TWO_SIDED|95.0|0.12|0.22||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.22|0.12|
82418486|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.4|||||TWO_SIDED|95.0|1.11|1.78||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.78|1.11|
82418487|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.66|1.06||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.06|0.66|
82418488|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.45|0.78||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.78|0.45|
82418489|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.2|||||TWO_SIDED|95.0|0.84|1.62||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.62|0.84|
82418490|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.6|||||TWO_SIDED|95.0|0.45|0.87||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.87|0.45|
82418491|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.36|0.79||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||0.79|0.36|
82418492|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.71|1.4||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.40|0.71|
82418493|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.66|1.31||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.31|0.66|
82648057|NCT00207714|165011500|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and combined golimumab groups.||||0.001
82418494|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.9|||||TWO_SIDED|95.0|0.63|1.39||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.39|0.63|
82418495|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.5|||||TWO_SIDED|95.0|0.41|0.7||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||0.70|0.41|
82418496|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.1|||||TWO_SIDED|95.0|0.82|1.38||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.38|0.82|
82418497|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|2.0|||||TWO_SIDED|95.0|1.46|2.69||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||2.69|1.46|
82418498|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|1.0|||||TWO_SIDED|95.0|0.74|1.28||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/7vPnC/13vPnC).||1.28|0.74|
82418499|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.59|1.02||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/13vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.02|0.59|
82418500|NCT01026038|164547842|SUPERIORITY_OR_OTHER||GMT ratio|0.8|||||TWO_SIDED|95.0|0.58|1.1||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (7vPnC/7vPnC/13vPnC - 7vPnC/13vPnC/13vPnC).||1.10|0.58|
82418501|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.7||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.5|
82418502|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
82418503|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.8|6.6||||||Serotype 4: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.8|
82418504|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.3||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.7|
82533526|NCT01607411|164764570|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.44||||0.0168|TWO_SIDED|95.0|0.44|4.43||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels.||4.43|0.44|0.0168
82418505|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
82418506|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.4|6.5||||||Serotype 6B: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.4|
82418507|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
82418508|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
82418509|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 9V: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
82647198|NCT00996918|165009489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48||||0.732|TWO_SIDED|95.0|-11.97|16.94|||Mixed Models Analysis|||"Change from extension study baseline in NPI score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||16.94|-11.97|0.732
82418510|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.6||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.7|
82418511|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.5||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.7|
82418512|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 14: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
82418513|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
82418514|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.3||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.7|
82418515|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.6|6.4||||||Serotype 18C: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-6.6|
82418516|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|-1.7|||||TWO_SIDED|95.0|-6.2|4.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||4.5|-6.2|
82418517|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.1|||||TWO_SIDED|95.0|-4.8|7.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||7.5|-4.8|
82418518|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|1.8|||||TWO_SIDED|95.0|-4.8|9.5||||||Serotype 19F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||9.5|-4.8|
82447713|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.913|STANDARD_ERROR_OF_MEAN|0.1354||0.5026|TWO_SIDED|95.0|0.7|1.191|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.191|0.700|0.5026
82648058|NCT00207714|165011500|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and Golimumab 50 mg every 4 weeks||||0.006
82418519|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.7||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.5|
82447714|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898|STANDARD_ERROR_OF_MEAN|0.156||0.4893|TWO_SIDED|95.0|0.661|1.219|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|Well-controlled Asthma||1.219|0.661|0.4893
82418520|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
82418521|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.7|6.5||||||Serotype 23F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-6.7|
82418522|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.4||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.5|
82418523|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.3||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-3.6|
82418524|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.5|6.3||||||Serotype 1: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.3|-6.5|
82418525|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|1.8|||||TWO_SIDED|95.0|-1.7|9.6||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||9.6|-1.7|
82418526|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.7|6.2||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.2|-3.7|
82418527|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|-1.8|||||TWO_SIDED|95.0|-9.6|4.5||||||Serotype 3: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||4.5|-9.6|
82418528|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|2.8|||||TWO_SIDED|95.0|-2.0|11.3||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||11.3|-2.0|
82418529|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|-0.8|||||TWO_SIDED|95.0|-4.9|5.6||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||5.6|-4.9|
82418530|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|-3.6|||||TWO_SIDED|95.0|-12.5|3.2||||||Serotype 5: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||3.2|-12.5|
82418531|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
82418532|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.5||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.5|-3.6|
82533527|NCT01607411|164764570|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.2||||0.2352|TWO_SIDED|95.0|-0.79|3.19||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||3.19|-0.79|0.2352
82418533|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.6|6.6||||||Serotype 6A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.6|
82426621|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-1.2|-1.9|<0.0001
82426622|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0256|TWO_SIDED|95.0|-0.8|-0.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-0.1|-0.8|0.0256
82418534|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.4||||||Serotype 7F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.4|-3.6|
82418535|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.5|6.6||||||Serotype 7F: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.5|
82418536|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.5|6.7||||||Serotype 7F:Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-6.5|
82418537|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.7||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC along with exact 2-sided 95% CI.||6.7|-3.6|
82418538|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-3.6|6.6||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 13vPnC/13vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-3.6|
82418539|NCT01026038|164547845|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.8|6.6||||||Serotype 19A: Difference in proportion, expressed as percentage, was calculated by percentage of participants achieving at least LLOQ in 7vPnC/7vPnC/13vPnC minus the percentage of participants achieving at least LLOQ in 7vPnC/13vPnC/13vPnC along with exact 2-sided 95% CI.||6.6|-6.8|
82418540|NCT02933151|164547881|SUPERIORITY||Cox Proportional Hazard|1.03|||||TWO_SIDED|95.0|0.92|1.14|||||Reference group is usual care|||1.14|0.92|
82418541|NCT03052257|164547885|SUPERIORITY||Median Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.15|0.3|||Regression, Linear|||||0.30|0.15|<0.0001
82418542|NCT00004228|164547893|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Regression, Cox|||"A Cox model was used to assess evidence of a difference in event-free survival comparing regimens A1+A2 (A: CCG BFM) to regimens B1+B2 (B: NHL/BFM-95) while adjusting for the other intervention through stratification."||||.97
82418543|NCT00004228|164547893|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Regression, Cox|||"A Cox model was used to assess evidence of a difference in event-free survival comparing A1+B1 (1: no intensification) to A2 +B2 (2: intensification), while adjusting for the other intervention through stratification."||||.63
82418544|NCT02683954|164547895|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality of numerical data distribution was examined by the Shapiro-Wilk. Normally distributed numerical variables were presented as mean±SD and inter-group differences were compared using unpaired t test. Skewed numerical variables were presented as median and interquartile range and between-group differences were compared using Mann-Whitney U test. Ordinal data were compared using the chi-squared test for trend. Correlations among numerical variables were tested by Spearman rank correlation.||||0.05
82418545|NCT01755156|164547907|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.55|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-0.34|-0.75|<0.001
82418546|NCT01755156|164547908|SUPERIORITY_OR_OTHER||Difference in %|0.5|||||TWO_SIDED|95.0|-8.8|9.8|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in 1 or more treatment groups.|||9.8|-8.8|
82418547|NCT01755156|164547909|SUPERIORITY_OR_OTHER||Difference in %|-2.5|||||TWO_SIDED|95.0|-6.6|1.1|||||Based on Miettinen \& Nurminen method. The 95% CI was computed only for those endpoints with at least 4 participants having events in 1 or more treatment groups.|||1.1|-6.6|
82418548|NCT01755156|164547910|SUPERIORITY_OR_OTHER||Difference in %|4.5|||||TWO_SIDED|95.0|-3.3|12.3||||||||12.3|-3.3|
82533528|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|34.65|||<|0.0001|TWO_SIDED|95.0|30.07|39.24||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||39.24|30.07|<0.0001
82418549|NCT01755156|164547911|SUPERIORITY_OR_OTHER||Difference in %|-14.5||||0.011|TWO_SIDED|95.0|-25.6|-3.4|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-3.4|-25.6|0.011
82418550|NCT01755156|164547912|SUPERIORITY_OR_OTHER||Difference in least squares means|-9.5||||0.01|TWO_SIDED|95.0|-16.7|-2.3|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-2.3|-16.7|0.010
82418551|NCT01755156|164547915|SUPERIORITY_OR_OTHER||Between-group rate difference (%)|19.2|||<|0.001|TWO_SIDED|95.0|10.1|28.0|||Miettinen & Nurminen method|||||28.0|10.1|<0.001
82418552|NCT01755156|164547916|SUPERIORITY_OR_OTHER||Between-group rate difference (%)|4.2||||0.164|TWO_SIDED|95.0|-1.8|10.5|||Miettinen & Nurminen method|||||10.5|-1.8|0.164
82418553|NCT01755156|164547919|SUPERIORITY_OR_OTHER||Difference in least squares means|-27.8||||0.001|TWO_SIDED|95.0|-44.8|-10.8|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||-10.8|-44.8|0.001
82533529|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean difference|34.86|||<|0.0001|TWO_SIDED|95.0|30.28|39.44||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||39.44|30.28|<0.0001
82576642|NCT05332912|164863540|SUPERIORITY||||||=|0.28|||||||t-test, 2 sided|df = 48||Null Hypothesis: Amount of change in Perspective Taking will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received16 weeks of experiential intervention and Typically Developing Children in the Delayed Intervention condition who received 8 weeks of intervention.||||=.28
82418554|NCT01755156|164547920|SUPERIORITY_OR_OTHER||Difference in least squares means|3.7||||0.025|TWO_SIDED|95.0|0.5|6.9|||cLDA|Based on a cLDA method with a restriction of the same baseline mean.||||6.9|0.5|0.025
82418555|NCT01755156|164547922|SUPERIORITY_OR_OTHER||Kaplan-Meier difference %|-1.2||||0.654|TWO_SIDED|95.0|-7.0|4.7|||Log Rank|||||4.7|-7.0|0.654
82418556|NCT03606213|164547948|OTHER|||||||0.56||||||P-value week 14 versus baseline (Cohort A, arm 1; placebo)|Wilcoxon (Mann-Whitney)|||||||0.56
82418557|NCT03071965|164547969|SUPERIORITY||Median Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.0881||0.5455|TWO_SIDED|95.0|-0.226|0.12|||Mixed Models Analysis|||||0.120|-0.226|0.5455
82418558|NCT01691482|164547985|SUPERIORITY_OR_OTHER||Adjusted Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.049|0.067|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.067|0.049|
82418559|NCT01691482|164547985|SUPERIORITY_OR_OTHER||Adjusted Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.062|0.08|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.080|0.062|
82418560|NCT01691482|164547985|SUPERIORITY_OR_OTHER||Adjusted Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.044|0.062|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.062|0.044|
82418561|NCT01691482|164547985|SUPERIORITY_OR_OTHER||Slope|0.062|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.053|0.071|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.071|0.053|
82418562|NCT01691482|164547989|SUPERIORITY_OR_OTHER||Adjusted Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.049|0.067|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.067|0.049|
82418563|NCT01691482|164547989|SUPERIORITY_OR_OTHER||Adjusted Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.062|0.08|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.080|0.062|
82418564|NCT01691482|164547989|SUPERIORITY_OR_OTHER||Adjusted Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0046||||95.0|0.044|0.062|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.062|0.044|
82418565|NCT01691482|164547989|SUPERIORITY_OR_OTHER||Adjusted Mean|0.062||||||95.0|0.053|0.071|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), FEV1 Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.071|0.053|
82418566|NCT01691482|164547990|SUPERIORITY_OR_OTHER||Adjusted Mean|0.067|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.058|0.076|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.076|0.058|
82418567|NCT01691482|164547990|SUPERIORITY_OR_OTHER||Adjusted Mean|0.07|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.061|0.079|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.079|0.061|
82418568|NCT01691482|164547990|SUPERIORITY_OR_OTHER||Adjusted Mean|0.069|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.06|0.078|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.078|0.060|
82418569|NCT01691482|164547990|SUPERIORITY_OR_OTHER||Adjusted Mean|0.064|STANDARD_ERROR_OF_MEAN|0.0045||||95.0|0.055|0.073|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.073|0.055|
82418570|NCT01691482|164547991|SUPERIORITY_OR_OTHER||Adjusted Mean|0.228|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.2|0.255|||||Treatment: A/S alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.255|0.200|
82576643|NCT05332912|164863540|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|df = 55||Null Hypothesis: Amount of change in Perspective Taking will not differ for participants with Down Syndrome in the Immediate Intervention Condition who received16 weeks of experiential intervention and Typically Developing Children in the Immediate Intervention who also received 16 weeks of intervention.||||.23
82647199|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.938|TWO_SIDED|95.0|-1.12|1.21|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 6.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.21|-1.12|0.938
82418571|NCT01691482|164547991|SUPERIORITY_OR_OTHER||Adjusted Mean|0.231|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.203|0.258|||||Treatment: ipratropium alone. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.258|0.203|
82418572|NCT01691482|164547991|SUPERIORITY_OR_OTHER||Adjusted Mean|0.232|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.204|0.259|||||Treatment: A+I. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.259|0.204|
82418573|NCT01691482|164547991|SUPERIORITY_OR_OTHER||Adjusted Mean|0.217|STANDARD_ERROR_OF_MEAN|0.014||||95.0|0.19|0.245|||||Treatment: I+A. A mixed model analysis, with period, treatment (A+I, I+A, Albuterol alone, Ipratropium alone), IC Baseline, smoking status at Screening, and center fitted as fixed effects and participant as a random effect was used.|||0.245|0.190|
82418574|NCT00449007|164548002|SUPERIORITY||Mean Difference (Final Values)|4.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Difference between 6 months and baseline for Bupropion treated group.~Due to the low number of participants, the results are unreliable."||||1.0
82418575|NCT01452789|164548034|SUPERIORITY||||||<|0.05|||||||van Elteren|||||||<0.05
82533530|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|28.55|||<|0.0001|TWO_SIDED|95.0|23.97|33.13||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||33.13|23.97|< 0.0001
82418576|NCT01452789|164548035|SUPERIORITY||||||<|0.05|||||||van Elteren|||||||<0.05
82418577|NCT01452789|164548036|SUPERIORITY||||||<|0.05|||||||Cochran-Mantel-Haenszel|||||||<0.05
82418578|NCT02222181|164548040|SUPERIORITY_OR_OTHER|||||||0.23|||||||t-test, 1 sided|||||||0.23
82418579|NCT02222181|164548041|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82418580|NCT02222181|164548042|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 1 sided|||||||0.03
82418581|NCT02222181|164548043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82418582|NCT02222181|164548044|SUPERIORITY_OR_OTHER|||||||0.025|||||||t-test, 1 sided|||||||0.025
82418583|NCT02222181|164548045|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82418584|NCT02222181|164548046|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82418585|NCT00472641|164548068|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Random Regression Mixed Effects Modeling|||||||<0.00001
82533531|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21||||0.9292|TWO_SIDED|95.0|-4.79|4.38||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||4.38|-4.79|0.9292
82648059|NCT00207714|165011500|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX and Golimumab 50 mg every 2 or 4 Weeks||||0.095
82418586|NCT00472641|164548069|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Random Regression Mixed Effects Modeling|||||||<0.00001
82418587|NCT01933425|164548070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.05|TWO_SIDED|95.0|0.07|0.59|||t-test, 2 sided|||||0.59|0.07|<0.05
82418588|NCT01933425|164548071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|||<|0.05|TWO_SIDED|95.0|0.06|0.54|||t-test, 2 sided|||||0.54|0.06|<0.05
82418589|NCT02991859|164548084|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||FF E0 (Response of Placebo participants)|||19.39|9.39|
82418590|NCT02991859|164548084|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||Emax-Maximum Dose response|||25.40|8.21|
82418591|NCT02991859|164548084|OTHER||3 parameter Emax model|48.52|||||TWO_SIDED|95.0|18.21|129.32|||||ED50-Dose at which 50% of the maximum dose response reached (mcg)|||129.32|18.21|
82418592|NCT02991859|164548084|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||FP E0-Response of Placebo participants|||19.39|9.39|
82418593|NCT02991859|164548084|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||FP Emax-Maximum Dose response|||25.40|8.21|
82418594|NCT02991859|164548084|OTHER||3 parameter Emax model|1081.27|||||TWO_SIDED|95.0|448.0|2609.66|||||FP ED50-Dose at which 50% of the maximum dose response reached (mcg)|||2609.66|448.00|
82418595|NCT02991859|164548084|OTHER||3 parameter Emax model|13.5|||||TWO_SIDED|95.0|9.39|19.39|||||BUD E0-Response of Placebo participants|||19.39|9.39|
82418596|NCT02991859|164548084|OTHER||3 parameter Emax model|14.44|||||TWO_SIDED|95.0|8.21|25.4|||||BUD Emax-Maximum Dose response|||25.40|8.21|
82418597|NCT02991859|164548084|OTHER||3 parameter Emax model|1467.36|||||TWO_SIDED|95.0|546.51|3939.84|||||BUD ED50-Dose at which 50% of the maximum dose response reached (mcg)|||3939.84|546.51|
82418598|NCT02991859|164548085|OTHER||Exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||FF E0-Response of Placebo participants|||190.38|162.87|
82418599|NCT02991859|164548085|OTHER||exponential power-law model|899.99|||||TWO_SIDED|95.0|698.36|1101.62|||||FF ED50 Dose at which 50% of the maximum dose response reached|||1101.62|698.36|
82418600|NCT02991859|164548085|OTHER||exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||FP E0-Response of Placebo participants|||190.38|162.87|
82418601|NCT02991859|164548085|OTHER||exponential power-law model|1986.05|||||TWO_SIDED|95.0|1574.7|2397.39|||||FP ED50 - Dose at which 50% of the maximum dose response reached (mcg)|||2397.39|1574.70|
82418602|NCT02991859|164548085|OTHER||exponential power-law model|176.09|||||TWO_SIDED|95.0|162.87|190.38|||||BUD E0 - Response of Placebo participants|||190.38|162.87|
82418603|NCT02991859|164548085|OTHER||exponential power-law model|1927.42|||||TWO_SIDED|95.0|1698.47|2156.37|||||BUD ED50 - Dose at which 50% of the maximum dose response reached (mcg)|||2156.37|1698.47|
82418604|NCT02991859|164548086|OTHER||Emax Model|289.73|||||TWO_SIDED|95.0|224.82|354.64|||||ED20 Cortisol Suppression 0-24 Hours Weighted Mean|||354.64|224.82|
82418605|NCT02991859|164548086|OTHER||Emax Model|194.09|||||TWO_SIDED|95.0|72.82|517.28|||||ED80 for AMP PC20|||517.28|72.82|
82418606|NCT02991859|164548087|OTHER||Emax Model|639.36|||||TWO_SIDED|95.0|506.94|771.79|||||ED20 for Cortisol Suppression 0-24 Hours Weighted Mean|||771.79|506.94|
82418607|NCT02991859|164548087|OTHER||Emax Model|4325.07|||||TWO_SIDED|95.0|1792.02|10438.64|||||ED80 for AMP PC20|||10438.64|1792.02|
82418608|NCT02991859|164548088|OTHER||Emax Model|620.49|||||TWO_SIDED|95.0|546.79|694.2|||||ED20 for Cortisol Suppression 0-24 Hours Weighted Mean|||694.20|546.79|
82418609|NCT02991859|164548088|OTHER||Emax Model|5869.45|||||TWO_SIDED|95.0|2186.03|15759.35|||||ED80 for AMP PC20|||15759.35|2186.03|
82418610|NCT03520387|164548134|SUPERIORITY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-10.2|3.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with LRFA over simulated LRFA.|||3.7|-10.2|
82418611|NCT03520387|164548134|SUPERIORITY||Mean Difference (Final Values)|-6.3|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-11.0|-1.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with AcTIVE-CBT over TBSCE.|||-1.6|-11.0|
82418612|NCT03520387|164548135|SUPERIORITY||Mean Difference (Final Values)|-6059.0|STANDARD_ERROR_OF_MEAN|2832.7|||TWO_SIDED|95.0|-12467.0|349.1|||||This is an analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on CHANGE in step counts, after adjustment for age and baseline step counts. Positive values show increased steps with LRFA over simulated LRFA.|||349.1|-12467.0|
82418613|NCT03520387|164548135|SUPERIORITY||Mean Difference (Final Values)|2081.9|STANDARD_ERROR_OF_MEAN|2983.2|||TWO_SIDED|95.0|-4666.6|8830.4|||||This is an analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on CHANGE in step counts, after adjustment for age and baseline step counts.Positive values show increased steps with AcTIVE-CBT over TBSCE.|||8830.4|-4666.6|
82418614|NCT03520387|164548136|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|95.0|-5.2|3.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with LRFA over simulated LRFA.|||3.1|-5.2|
82418615|NCT03520387|164548136|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-4.2|3.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate benefit with AcTIVE-CBT over TBSCE.|||3.6|-4.2|
82418616|NCT03520387|164548137|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-8.1|10.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with LRFA vs. simulated LRFA.|PROMIS physical health scores||10.1|-8.1|
82418617|NCT03520387|164548137|SUPERIORITY||Mean Difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-0.4|12.9|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with AcTIVE-CBT vs. TBSCE|PROMIS physical health scores||12.9|-0.4|
82418618|NCT03520387|164548137|SUPERIORITY||Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|-5.4|12.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with LRFA vs. simulated LRFA.|PROMIS mental health scores||12.7|-5.4|
82418619|NCT03520387|164548137|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-7.0|10.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Positive scores indicate better health with AcTIVE-CBT vs. TBSCE|PROMIS mental health scores||10.6|-7.0|
82418620|NCT03520387|164548138|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-7.7|1.9|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate lower doses with LRFA over simulated LRFA.|||1.9|-7.7|
82418621|NCT03520387|164548138|SUPERIORITY||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|-7.5|1.0|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Negative scores indicate lower doses with AcTIVE-CBT over TBSCE.|||1.0|-7.5|
82418622|NCT03520387|164548139|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-1.4|1.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate perceived benefit with LRFA over simulated LRFA.|||1.7|-1.4|
82418623|NCT03520387|164548139|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.3|1.5|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age and baseline value of the outcome. Positive scores indicate perceived benefit with AcTIVE-CBT over TBSCE.|||1.5|-1.3|
82418624|NCT03520387|164548140|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-5.5|3.7|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Negative scores indicate less pain with LRFA over simulated LRFA.|||3.7|-5.5|
82418625|NCT03520387|164548140|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.8|||TWO_SIDED|95.0|-5.4|2.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months after adjustment for age and baseline value of the outcome. Negative scores indicate less pain with AcTIVE-CBT vs. TBSCE|||2.6|-5.4|
82418626|NCT03520387|164548141|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-0.5|3.0|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate more satisfaction with LRFA over simulated LRFA.|||3.0|-0.5|
82418627|NCT03520387|164548141|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-0.4|2.8|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months, after adjustment for age. Positive scores indicate more satisfaction with AcTIVE-CBT over TBSCE.|||2.8|-0.4|
82418628|NCT03520387|164548142|SUPERIORITY||Mean Difference (Final Values)|-637.0|STANDARD_ERROR_OF_MEAN|433.3|||TWO_SIDED|95.0|-1636.2|362.1|||||Analysis of the MAIN EFFECT of LRFA (Group A + Group C) vs. simulated LRFA (Group B + Group D) on the outcome at 3 months adjusting for age and baseline value of the outcome. Positive scores indicate greater activity with LRFA over simulated LRFA.|||362.1|-1636.2|
82418629|NCT03520387|164548142|SUPERIORITY||Mean Difference (Final Values)|572.2|STANDARD_ERROR_OF_MEAN|334.5|||TWO_SIDED|95.0|-199.3|1343.6|||||Analysis of the MAIN EFFECT of AcTIVE-CBT (Group A + Group B) vs. TBSCE (Group C + Group D) on the outcome at 3 months adjusting for age and baseline value of the outcome. Positive scores indicate more satisfaction with AcTIVE-CBT over TBSCE.|||1343.6|-199.3|
82647200|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.753|TWO_SIDED|95.0|-1.43|1.04|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 6.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.04|-1.43|0.753
82418630|NCT03163264|164548153|SUPERIORITY||Mean Difference (Net)|0.05||||0.05|TWO_SIDED|95.0|0.0|3.45||"Statistical test was 2 sided with p\<0.05 indicating statistical significance. Note: Estimated p-value was calculated at 0.050"|Mixed Models Analysis|This analysis was in our grant and protocol paper but was added late to clinicaltrials.gov.||||3.45|0|0.050
82418631|NCT03163264|164548153|SUPERIORITY||Mean Difference (Net)|0.05||||0.05|TWO_SIDED|||||"Statistical test was 2 sided with p\<0.05 indicating statistical significance. Note: Estimated p-value was calculated at 0.05"|Wilcoxon (Mann-Whitney)|The investigators will also use repeated measures modeling based on mixed models using baseline and follow up data to adjust for characteristics||||||0.05
82418632|NCT03163264|164548154|SUPERIORITY||Mean Difference (Net)|0.069||||0.069|TWO_SIDED|95.0|-0.13|3.39||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|This analysis was in our grant and protocol paper but was added late to clinicaltrials.gov.||||3.39|-0.13|0.069
82447715|NCT01455194|164604203|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.181|STANDARD_ERROR_OF_MEAN|0.1351||0.2193|TWO_SIDED|95.0|0.906|1.538|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ Improvement||1.538|0.906|0.2193
82447716|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.058|STANDARD_ERROR_OF_MEAN|0.0917||0.5397|TWO_SIDED|95.0|0.884|1.266|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.266|0.884|0.5397
82447717|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.005|STANDARD_ERROR_OF_MEAN|0.0738||0.9458|TWO_SIDED|95.0|0.87|1.161|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.161|0.870|0.9458
82576644|NCT01128270|164863549|SUPERIORITY_OR_OTHER||Mean of one group (2A)|1.64|STANDARD_DEVIATION|0.4|||TWO_SIDED|95.0|1.31|1.97||||Analysis applies only to Arm 2A. (Period 3)|Only arm 2A is relevant to this variable. There is no intended statistical comparison, but the point estimate for the mean level and 95% confidence interval are provided.|No comparison is relevant. The statistical method is how we obtained the point estimate and confidence interval. No test was intended.||1.97|1.31|
82418633|NCT03163264|164548154|SUPERIORITY||Mean Difference (Final Values)|1.53||||0.028|TWO_SIDED|95.0|0.21|3.76||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Wilcoxon (Mann-Whitney)|The investigators will also use repeated measures modeling based on mixed models using baseline and follow up data to adjust for characteristics||||3.76|0.21|0.028
82418634|NCT03163264|164548155|SUPERIORITY||Percent Difference|11.18||||0.033|TWO_SIDED|95.0|0.92|21.45|||Mixed Models Analysis|||||21.45|0.92|0.033
82418635|NCT03163264|164548156|SUPERIORITY||Percent Difference|11.08||||0.073|TWO_SIDED|95.0|-1.05|23.2||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis||Adjusted|||23.2|-1.05|0.073
82418636|NCT03163264|164548158|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.065|TWO_SIDED|95.0|-0.05|1.48||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||1.48|-0.05|0.065
82418637|NCT03163264|164548159|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.378|TWO_SIDED|95.0|-0.52|1.37||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||1.37|-0.52|0.378
82418638|NCT03163264|164548161|SUPERIORITY||Mean Difference (Final Values)|8.35||||0.911|TWO_SIDED|95.0|-138.25|154.95||Statistical test was 2 sided with p\<0.05 indicating statistical significance|Mixed Models Analysis|||||154.95|-138.25|0.911
82418639|NCT03163264|164548162|SUPERIORITY||Mean Difference (Final Values)|32.83||||0.648|TWO_SIDED|95.0|-108.15|173.81||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||173.81|-108.15|0.648
82418640|NCT03163264|164548163|SUPERIORITY||Percent Difference|10.32||||0.736|TWO_SIDED|95.0|-49.73|70.37||Statistical test was 2 sided with p\<0.05 indicating statistical significance|Mixed Models Analysis|||||70.37|-49.73|0.736
82418641|NCT03163264|164548164|SUPERIORITY||Percent Difference|19.36||||0.53|TWO_SIDED|95.0|-41.09|79.8||Statistical test was 2 sided with p\<0.05 indicating statistical significance.|Mixed Models Analysis|||||79.8|-41.09|0.53
82447718|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026|STANDARD_ERROR_OF_MEAN|0.0708||0.7213|TWO_SIDED|95.0|0.893|1.178|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.178|0.893|0.7213
82447719|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.0692||0.4807|TWO_SIDED|95.0|0.917|1.202|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.202|0.917|0.4807
82447720|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.326|STANDARD_ERROR_OF_MEAN|0.1791||0.115|TWO_SIDED|95.0|0.934|1.884|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.884|0.934|0.1150
82447721|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.074|STANDARD_ERROR_OF_MEAN|0.1467||0.6281|TWO_SIDED|95.0|0.805|1.431|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.431|0.805|0.6281
82447722|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.059|STANDARD_ERROR_OF_MEAN|0.1415||0.6853|TWO_SIDED|95.0|0.803|1.397|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.397|0.803|0.6853
82447723|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.055|STANDARD_ERROR_OF_MEAN|0.1388||0.6995|TWO_SIDED|95.0|0.804|1.385|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.385|0.804|0.6995
82447724|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.837|STANDARD_ERROR_OF_MEAN|0.1744||0.308|TWO_SIDED|95.0|0.595|1.178|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 0.5||1.178|0.595|0.3080
82447725|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.939|STANDARD_ERROR_OF_MEAN|0.1461||0.6645|TWO_SIDED|95.0|0.705|1.25|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.0||1.250|0.705|0.6645
82418642|NCT05181657|164548193|OTHER|The intervention effect was determined via a two sided, 0.05 level of significance, multivariable Poisson regression model, with Intervention group as the primary predictor.|Risk Ratio (RR)|1.45|||<|0.05|TWO_SIDED|95.0|1.18|1.78||"Alpha significance levels used:~For the primary predictor (i.e., intervention group): alpha=0.05; For covariates: alpha=0.10; For interactions: alpha=0.15"|Poisson Regression||The estimate refers to the relative risk of getting a COVID-19 test onsite (Intervention/Control). Also, the above estimate is from the unadjusted Poisson regression model (i.e., model not adjusted for covariates and interactions).|To assess whether the active intervention was more successful than the control condition at increasing COVID-19 testing, we used univariable and multivariable Poisson regression models, with whether one received onsite testing right after the intervention as the outcome and intervention group as the main predictor. Potential clustering due to the randomization by week was accounted for by specifying an exchangeable correlation structure for participants who were recruited during the same week.||1.78|1.18|<0.05
82418643|NCT03782103|164548195|NON_INFERIORITY|Investigational product upper bounds must be less than 0.5.|Median Difference (Final Values)|-0.2845|||||TWO_SIDED|95.0|-0.6033|0.0334||||||Groin 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and the predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.0334|-0.6033|
82418644|NCT03782103|164548195|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|2.8535|||||TWO_SIDED|95.0|2.5415|3.1655||||||Groin 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||3.1655|2.5415|
82418645|NCT03782103|164548196|NON_INFERIORITY|Investigational product average treatment effect upper bounds cannot be more than 0.5.|Mean Difference (Final Values)|0.0577|||||TWO_SIDED|95.0|-0.1457|0.2611||||||Abdomen 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||0.2611|-0.1457|
82418646|NCT03782103|164548196|SUPERIORITY|Investigational product lower bounds must be greater than 1.2.|Mean Difference (Final Values)|1.8208|||||TWO_SIDED|95.0|1.6153|2.0264||||||Abdomen 30 seconds post product application, Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 CFU/cm\^2 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 CFU/cm\^2 bacterial counts as a covariate.||2.0264|1.6153|
82418647|NCT00066937|164548198|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline to each timepoint||||||<.05
82418648|NCT00066937|164548199|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
82418649|NCT00066937|164548200|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
82418650|NCT00066937|164548201|OTHER||||||<|0.05|||||||ANOVA|Repeated measures ANOVAs compared baseline scores to each period of follow-up (post-treatment, 3-months, 6 months)||||||<.05
82418651|NCT03339453|164548237|NON_INFERIORITY|95% Confidence Interval of the treatment differences in treatment success rate.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.52|1.52||||||||1.52|-1.52|
82533532|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.1||||0.0094|TWO_SIDED|95.0|1.52|10.69||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||10.69|1.52|0.0094
82418652|NCT00063232|164548243|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||paired t-test|||"self-controlled comparison of NASH activity index at 48 weeks and baseline. Null hypothesis is no change."||||<0.001
82533533|NCT01607411|164764571|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.31||||0.0073|TWO_SIDED|95.0|1.72|10.89||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||10.89|1.72|0.0073
82533534|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.78|||<|0.0001|TWO_SIDED|95.0|0.58|0.98||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random factor|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.98|0.58|<0.0001
82533535|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.79|||<|0.0001|TWO_SIDED|95.0|0.58|0.99||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.99|0.58|<0.0001
82418653|NCT00063232|164548244|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Fisher Exact|||self-controlled comparison of serum aminotransferase levels at 48 weeks and baseline. Null hypothesis: No change||||0.04
82418654|NCT00063232|164548245|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||paired t-test|||||||0.04
82447726|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992|STANDARD_ERROR_OF_MEAN|0.1408||0.9564|TWO_SIDED|95.0|0.753|1.308|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.25||1.308|0.753|0.9564
82533536|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.29|0.69||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.69|0.29|< 0.0001
82418655|NCT05486065|164548278|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.82||||0.0002|TWO_SIDED|95.0|-1.25|-0.39|||ANCOVA|||||-0.39|-1.25|0.0002
82418656|NCT05486065|164548278|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.77||||0.0003|TWO_SIDED|95.0|-1.19|-0.35|||ANCOVA|||||-0.35|-1.19|0.0003
82418657|NCT05486065|164548278|SUPERIORITY|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.64|||ANCOVA|||||-0.64|-1.50|<.0001
82418658|NCT05486065|164548278|OTHER||Treatment difference|0.05||||0.8305|TWO_SIDED|95.0|-0.38|0.47|||ANCOVA|||The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.||0.47|-0.38|0.8305
82533537|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.005||||0.9631|TWO_SIDED|95.0|-0.21|0.2||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.20|-0.21|0.9631
82418659|NCT05486065|164548278|OTHER|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.3||||0.1678|TWO_SIDED|95.0|-0.72|0.13|||ANCOVA|||||0.13|-0.72|0.1678
82418660|NCT05486065|164548278|OTHER|The change in HbA1c from baseline was analysed using an ANCOVA (Analysis of Covariance) with randomised treatment and stratification factor, sex as fixed effect and baseline HbA1c as a covariate. Missing values were imputed using Jump to reference method.|Treatment difference|-0.25||||0.2445|TWO_SIDED|95.0|-0.67|0.17|||ANCOVA|||||0.17|-0.67|0.2445
82418661|NCT01064622|164548282|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.15|TWO_SIDED|95.0|0.55|1.22||Reported p-value is one-sided. p\<0.10 required for statistical significance.|Log Rank|Stratified by Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|Hazard ratio is for (gemcitabine hydrochloride plus vismodegib)/(gemcitabine hydrochloride plus placebo), adjusted for Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|||1.22|0.55|0.15
82418662|NCT01064622|164548283|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.37|TWO_SIDED|95.0|0.64|1.46|||Log Rank|Stratified by Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|Hazard ratio is for (gemcitabine hydrochloride plus vismodegib)/(gemcitabine hydrochloride plus placebo), adjusted for Karnofsky performance status (90-100 vs. 80) and disease status (newly diagnosed vs. recurrent after surgery)|||1.46|0.64|0.37
82418663|NCT01064622|164548284|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|TWO_SIDED|||||Two-sided p-value for Cochran-Mantel-Haenszel test stratified by Karnofsky performance status and disease status.|Cochran-Mantel-Haenszel|||||||0.42
82418664|NCT05330429|164548316|SUPERIORITY||Hazard Ratio (HR)|0.956||||0.9323|TWO_SIDED|95.0|0.339|2.691|||Unstratified Log-rank Test|2-Sided P-value was based on unstratified log-rank test.|Hazard ratio and its 95% CI were calculated using unstratified Cox proportional hazards regression model.|||2.691|0.339|0.9323
82418665|NCT05330429|164548319|SUPERIORITY||Hazard Ratio (HR)|0.299|||||TWO_SIDED|95.0|0.056|1.6|||||Hazard ratio and its 95% CI were calculated using unstratified Cox proportional hazards regression model.|||1.600|0.056|
82418666|NCT01245049|164548326|NON_INFERIORITY|To assess the Non-inferiority of the Boostrix Polio Group compared to the Repevax Group in terms of booster response to diphtheria, standardized asymptotic 95% CI for the groups'difference \[Repevax Group minus Boostrix Polio Group\] was computed. Non-inferiority criterion: Upper limit of the 95% CI of the groups' difference in booster response rate ≤10%.|Percentage difference|0.56|||||TWO_SIDED|95.0|-3.55|3.14|||Standardized asymptotic|||Non-inferiority in terms of booster response to D||3.14|-3.55|
82647201|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.809|TWO_SIDED|95.0|-1.04|1.33|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 19.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.33|-1.04|0.809
82418667|NCT01245049|164548326|NON_INFERIORITY|To assess the Non-inferiority of the Boostrix Polio Group compared to the Repevax Group in terms of booster response to tetanus, standardized asymptotic 95% CI for the groups' difference \[Repevax Group minus Boostrix Polio Group\] was computed. Non-inferiority criterion: Upper limit of the 95% CI of the groups' difference in booster response rate ≤10%.|Percentage difference|1.7|||||TWO_SIDED|95.0|-2.43|4.9||||||Non-inferiority in terms of booster response to T||4.9|-2.43|
82426623|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-0.8|-1.5|<0.0001
82576645|NCT01128270|164863550|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2432.0|STANDARD_DEVIATION|1403.0||0.0017|TWO_SIDED|95.0|1260.0|3606.0|||t-test, 2 sided|||Only relevant to Arm 2B.||3606|1260|0.0017
82418668|NCT01245049|164548328|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: Upper limit (UL) of the 95% confidence interval (CI) on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) was lower than or equal to (≤) 2.|Difference in adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.65|1.28|||ANCOVA|||Immune response difference to anti-Polio 1 antigen||1.28|0.65|
82418669|NCT01245049|164548328|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: UL of the 95% CI on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) ≤ 2.|Difference in adjusted GMT ratio|0.78|||||TWO_SIDED|95.0|0.54|1.12|||ANCOVA|||Immune response difference to anti-Polio 2 antigen||1.12|0.54|
82418670|NCT01245049|164548328|NON_INFERIORITY|Criterion for evaluation of the corresponding objective: UL of the 95% CI on the GMT ratio for the groups' (Repevax Group divided by Boostrix-Polio Group) ≤ 2.|Difference in adjusted GMT ratio|1.3|||||TWO_SIDED|95.0|0.93|1.84|||ANCOVA|||Immune response difference to anti-Polio 3 antigen||1.84|0.93|
82418671|NCT02151604|164548349|OTHER||Pearson's coefficient|-0.57||||0.041|TWO_SIDED||||||Pearson's correlation analysis|||Correlation with field of irradiation||||0.041
82447727|NCT01455194|164604204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047|STANDARD_ERROR_OF_MEAN|0.1375||0.7367|TWO_SIDED|95.0|0.8|1.371|||Log Rank||A hazard ratio of \>1 represented a benefit for the test treatment.|ACQ cut-off at 1.5||1.371|0.800|0.7367
82447728|NCT01455194|164604205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.367|STANDARD_ERROR_OF_MEAN|0.2583||0.2264|TWO_SIDED|95.0|0.824|2.267|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||2.267|0.824|0.2264
82447729|NCT01455194|164604205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.102|STANDARD_ERROR_OF_MEAN|0.5001||0.1373|TWO_SIDED|95.0|0.789|5.602|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||5.602|0.789|0.1373
82533538|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.29||||0.0047|TWO_SIDED|95.0|0.09|0.49||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.49|0.09|0.0047
82418672|NCT02151604|164548351|OTHER||Pearson's coefficient|0.6||||0.037|TWO_SIDED|||||Pearson's correlation coefficient: 0.60|Pearson's Correlation Analysis|0.60||Correlation of change in ventilation signal with that of alveolar volume (VA)||||0.037
82418673|NCT02151604|164548351|OTHER||Pearson's correlation coefficient|0.7||||0.012|TWO_SIDED||||||Pearson's correlation analysis|Pearson's correlation coefficient: 0.70||Correlation of change in ventilation signal with that of diffusing capacity for carbon monoxide(TLCO)||||0.012
82533539|NCT01607411|164764572|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.3||||0.004|TWO_SIDED|95.0|0.1|0.5||No adjustment was required for multiple comparisons as the primary comparison was pre-specified|ANOVA|The fixed factors for ANOVA were study period and treatment and the subject was random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis was no difference between treatments, being compared. Tests were 2 sided at 5% significance levels||0.50|0.10|0.0040
82418674|NCT02151604|164548351|OTHER||Pearson's correlation coefficient|-0.85||||0.032|TWO_SIDED||||||Pearson's correlation analysis|R = -0.85||Correlation of change in ventilation signal with that of residual volume (RV)||||0.032
82418675|NCT02151604|164548351|OTHER||Pearson's correlation coefficient|-0.95||||0.004|TWO_SIDED||||||Pearson's correlation analysis|R = -0.95||Correlation of change in ventilation signal with that of functional residual capacity (FRC)||||0.004
82418676|NCT02151604|164548351|OTHER||Pearson's correlation coefficient|-0.88||||0.012|TWO_SIDED||||||Pearson's correlation analysis|Pearson's correlation coefficient = -0.88||Correlation of change in ventilation signal with that of inspiratory capacity(IC)||||0.012
82418677|NCT02931539|164548355|SUPERIORITY||Difference in percentage of responders|32.8|||<|0.001|TWO_SIDED|95.0|22.8|42.74|||Cochran-Mantel-Haenszel|||||42.74|22.80|<0.001
82418678|NCT02931539|164548356|SUPERIORITY||Difference in percentage of responders|9.5||||0.013|TWO_SIDED|95.0|2.02|16.88|||Cochran-Mantel-Haenszel|||||16.88|2.02|0.013
82447730|NCT01455194|164604205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882|STANDARD_ERROR_OF_MEAN|0.4365||0.7732|TWO_SIDED|95.0|0.375|2.074|||Log Rank||A hazard ratio of \<1 represented a benefit for the test treatment.|||2.074|0.375|0.7732
82447731|NCT01455194|164604206|SUPERIORITY_OR_OTHER|||||||0.288|||||||Fisher Exact|||||||0.2880
82447732|NCT01455194|164604206|SUPERIORITY_OR_OTHER|||||||0.2864|||||||Fisher Exact|||||||0.2864
82447733|NCT00788710|164604223|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447734|NCT00788710|164604223|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447735|NCT00788710|164604224|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447736|NCT00788710|164604224|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447737|NCT00788710|164604225|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447738|NCT00788710|164604225|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82447739|NCT02467582|164604337|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
82447740|NCT02467582|164604337|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|90.0|0.27|1.22|||||Unstratified|||1.22|0.27|
82447741|NCT02467582|164604337|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|90.0|0.22|1.46|||||Stratified|||1.46|0.22|
82447742|NCT02467582|164604338|SUPERIORITY|||||||0.089|||||||Log Rank|||||||0.089
82447743|NCT02467582|164604338|SUPERIORITY||Hazard Ratio (HR)|0.49|||||TWO_SIDED|90.0|0.21|1.19|||||Unstratified|||1.19|0.21|
82447744|NCT02467582|164604338|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|90.0|0.2|1.55|||||Stratified|||1.55|0.20|
82447745|NCT02467582|164604339|SUPERIORITY|||||||0.3|||||||Log Rank|||||||0.3
82447746|NCT02467582|164604339|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|90.0|0.23|2.13|||||Unstratified|||2.13|0.23|
82447747|NCT02467582|164604339|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|90.0|0.15|2.43|||||Stratified|||2.43|0.15|
82447748|NCT01031979|164604348|SUPERIORITY_OR_OTHER||Beta|-1.44|||<|0.001|TWO_SIDED|95.0|-2.29|-0.59|||mixed effects/hierarchical linear model|||||-0.59|-2.29|<0.001
82576646|NCT01128270|164863551|SUPERIORITY_OR_OTHER||Mean|0.38|STANDARD_DEVIATION|0.17|||TWO_SIDED|95.0|0.24|0.51||||||Only relevant for arm 2B||0.51|0.24|
82647202|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.421|TWO_SIDED|95.0|-1.8|0.75|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 19.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.75|-1.80|0.421
82648060|NCT00207714|165011500|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA on van der Waerden normal scores.|ANOVA on van der Waerden normal scores||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX Golibumab 100 mg every 4 weeks||||0.010
82418679|NCT02931539|164548371|OTHER||Hazard Ratio (HR)|1.14||||0.647|TWO_SIDED|95.0|0.549|2.357|||Log Rank|Two-sided p-value comparing treatment groups was calculated from the log rank test by Kaplan-Meier Method.|Stratified Cox regression model was used as transplant type and baseline plasma CMV DNA level as stratification factors.|||2.357|0.549|0.647
82533540|NCT00519636|164764686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.24|<|0.001||95.0|-1.3|-0.3|||ANCOVA||Mean Difference = Mean Change in FFNS - Mean Change in Placebo.|FFNS combined across treatment arms 1 (FFNS/FPNS) \& 2 (Placebo FF/FP) compared with Placebo FFNS combined across treatment arms 1 (FFNS/FPNS) \& 2 (Placebo FF/FP).||-0.3|-1.3|<0.001
82533541|NCT00519636|164764686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.014||95.0|-1.1|-0.1|||ANCOVA||Mean Difference = Mean Change in FPNS - Mean Change in Placebo.|FPNS combined across treatment arms 1 (FPNS/FFNS) \& 2 (Placebo FP/FF) compared with Placebo FPNS combined across treatment arms 1 (FPNS/FFNS)\& 2 (Placebo FP/FF).||-0.1|-1.1|0.014
82533542|NCT00519636|164764687|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH): stratified approximate to Prescotts test; variation of chi-square test for treatment sequence/subjects no preference.||||||<0.001
82533543|NCT00950937|164764695|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533544|NCT00950937|164764695|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533545|NCT00950937|164764695|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533546|NCT00950937|164764696|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533547|NCT00950937|164764696|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533548|NCT00950937|164764696|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533549|NCT00950937|164764697|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533550|NCT00950937|164764697|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533551|NCT00950937|164764697|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533552|NCT00950937|164764698|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533553|NCT00950937|164764698|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533554|NCT00950937|164764698|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533555|NCT00950937|164764699|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533556|NCT00950937|164764699|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533557|NCT00950937|164764699|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533558|NCT00950937|164764700|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon test was utilized to compare the three moments: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance.||||||<0.05
82533559|NCT00950937|164764700|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533560|NCT00950937|164764700|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Friedman Test|Friedman to compare: baseline vs. aerobic, baseline vs. resistance and aerobic vs. resistance. Wilcoxon was applied to locate the differences||||||<0.05
82533561|NCT00950937|164764701|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|Paired t-test was utilized to compare the two groups (HIV group and Control group)||||||<0.05
82533562|NCT00904150|164764709|SUPERIORITY_OR_OTHER|||||||0.513|||||||Chi-squared|||Statistical analysis is of the distribution of PR PROGINS polymorphism frequencies between groups||||0.513
82533563|NCT00904150|164764710|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared|||Statistical analysis is of the distribution of Estrogen receptor 1 G594a polymorphism frequencies between groups||||0.75
82533564|NCT00904150|164764711|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.434||||0.002743||95.0|0.24|0.75|||Chi-squared|||Analysis of distribution of TNF genotype frequencies between groups||0.75|0.24|0.002743
82418680|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.155|||||TWO_SIDED|97.5|1.086|1.229||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||1.229|1.086|
82418681|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>1.|GMR|1.155|||||TWO_SIDED|95.0|1.094|1.22||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||1.220|1.094|
82418682|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.063|||||TWO_SIDED|97.5|0.999|1.13||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||1.130|0.999|
82418683|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.063|||||TWO_SIDED|95.0|1.007|1.122||||||GMR (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||1.122|1.007|
82418684|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.414|||||TWO_SIDED|97.5|1.322|1.513||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||1.513|1.322|
82418685|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.414|||||TWO_SIDED|95.0|1.333|1.5||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||1.500|1.333|
82418686|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.38|||||TWO_SIDED|97.5|1.3|1.465||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||1.465|1.300|
82418687|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.38|||||TWO_SIDED|95.0|1.31|1.454||||||GMR (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||1.454|1.310|
82418688|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.118|||||TWO_SIDED|97.5|1.063|1.175||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Victoria-lineage Antibody||1.175|1.063|
82418689|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.118|||||TWO_SIDED|95.0|1.07|1.167||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Victoria-lineage Antibody||1.167|1.070|
82418690|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.007|||||TWO_SIDED|97.5|0.969|1.047||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Yamagata-lineage Antibody||1.047|0.969|
82418691|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.007|||||TWO_SIDED|95.0|0.973|1.042||||||GMR (Cohort A1 vs Cohort A2) for Influenza B Yamagata-lineage Antibody||1.042|0.973|
82418692|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.216|||||TWO_SIDED|97.5|1.156|1.278||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Victoria-lineage Antibody||1.278|1.156|
82418693|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.216|||||TWO_SIDED|95.0|1.163|1.27||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Victoria-lineage Antibody||1.270|1.163|
82418694|NCT06097273|164548387|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.154|||||TWO_SIDED|97.5|1.109|1.201||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Yamagata-lineage Antibody||1.201|1.109|
82418695|NCT06097273|164548387|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.154|||||TWO_SIDED|95.0|1.115|1.195||||||GMR (Cohort B1 vs Cohort B2) for Influenza B Yamagata-lineage Antibody||1.195|1.115|
82418696|NCT06097273|164548388|SUPERIORITY|The superiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.641|||||TWO_SIDED|95.0|1.526|1.765||||||GMR (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||1.765|1.526|
82418697|NCT06097273|164548388|NON_INFERIORITY|The noninferiority in GM level in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.641|||||TWO_SIDED|97.5|1.51|1.783||||||GMR (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||1.783|1.510|
82418698|NCT06097273|164548388|SUPERIORITY|The superiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the GMR was \>1.|GMR|1.308|||||TWO_SIDED|95.0|1.219|1.404||||||GMR (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||1.404|1.219|
82418699|NCT06097273|164548388|NON_INFERIORITY|The noninferiority in GM level in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the GMR was \>0.667.|GMR|1.308|||||TWO_SIDED|97.5|1.207|1.418||||||GMR (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||1.418|1.207|
82418700|NCT06097273|164548389|SUPERIORITY|The superiority in seroconversion rate (SCR) in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|5.4|||||TWO_SIDED|95.0|2.4|8.4||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||8.4|2.4|
82418701|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|5.4|||||TWO_SIDED|97.5|1.9|8.8||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H1N1 Antibody||8.8|1.9|
82533565|NCT00904150|164764712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.02462||95.0|0.49|0.95|||Chi-squared|||Analysis of distribution of SYNE1 genotype frequencies between groups||0.95|0.49|0.02462
82647203|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.535|TWO_SIDED|95.0|-0.85|1.63|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 32.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.63|-0.85|0.535
82418702|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|4.0|||||TWO_SIDED|95.0|1.0|7.1||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||7.1|1.0|
82418703|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|4.0|||||TWO_SIDED|97.5|0.5|7.6||||||Percentage Difference (Cohort A1 vs Cohort A2) for Influenza A H3N2 Antibody||7.6|0.5|
82418704|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|4.5|||||TWO_SIDED|95.0|1.9|7.2||||||Percentage Difference (Cohort A1 vs Cohort A2) for Victoria-lineage Antibody||7.2|1.9|
82418705|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|4.5|||||TWO_SIDED|95.0|1.5|7.5||||||Percentage Difference (Cohort A1 vs Cohort A2) for Victoria-lineage Antibody||7.5|1.5|
82418706|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|-1.4|||||TWO_SIDED|95.0|-3.3|0.4||||||Percentage Difference (Cohort A1 vs Cohort A2) for Yamagata-lineage Antibody||0.4|-3.3|
82418707|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|-1.4|||||TWO_SIDED|97.5|-3.6|0.7||||||Percentage Difference (Cohort A1 vs Cohort A2) for Yamagata-lineage Antibody||0.7|-3.6|
82418708|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|17.9|||||TWO_SIDED|95.0|14.8|21.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||21.0|14.8|
82418709|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|17.9|||||TWO_SIDED|97.5|14.3|21.4||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H1N1 Antibody||21.4|14.3|
82533566|NCT00904150|164764713|SUPERIORITY_OR_OTHER|||||||0.18|||||||Chi-squared|||Statistical analysis is of the distribution of Estrogen receptor 1 C325G polymorphism frequencies between groups||||0.18
82418710|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|14.6|||||TWO_SIDED|95.0|11.6|17.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||17.6|11.6|
82418711|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|14.6|||||TWO_SIDED|97.5|11.1|18.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Influenza A H3N2 Antibody||18.0|11.1|
82418712|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|8.6|||||TWO_SIDED|95.0|6.0|11.2||||||Percentage Difference (Cohort B1 vs Cohort B2) for Victoria-lineage Antibody||11.2|6.0|
82418713|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|8.6|||||TWO_SIDED|97.5|5.6|11.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for Victoria-lineage Antibody||11.6|5.6|
82418714|NCT06097273|164548389|SUPERIORITY|The superiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SCR difference was \>0%.|Percentage Difference|2.7|||||TWO_SIDED|95.0|0.6|4.7||||||Percentage Difference (Cohort B1 vs Cohort B2) for Yamagata-lineage Antibody||4.7|0.6|
82418715|NCT06097273|164548389|NON_INFERIORITY|The noninferiority in SCR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SCR difference was \>-10%.|Percentage Difference|2.7|||||TWO_SIDED|97.5|0.3|5.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for Yamagata-lineage Antibody||5.0|0.3|
82418716|NCT06097273|164548390|SUPERIORITY|The superiority in seroresponse rate (SRR) in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 95% CI of the SRR difference was \>0%.|Percentage Difference|12.8|||||TWO_SIDED|95.0|10.0|15.5||||||Percentage Difference (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||15.5|10.0|
82533567|NCT00904150|164764714|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82533568|NCT00904150|164764715|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82533569|NCT04731714|164764725|SUPERIORITY|||||||0.0104|||||||Mixed Models Analysis|See publication for details||||||0.0104
82533570|NCT04731714|164764726|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|See publication for details||||||0.079
82533571|NCT04731714|164764727|SUPERIORITY|||||||0.9222|||||||Mixed Models Analysis|See publication for details||||||0.9222
82533572|NCT04731714|164764728|SUPERIORITY|||||||0.7995|||||||Mixed Models Analysis|See publication for details||||||0.7995
82533573|NCT04731714|164764729|OTHER|||||||0.314||||||rhythmic days|Friedman Test|See publication for further details||||||0.3140
82533574|NCT04731714|164764729|OTHER|||||||0.239||||||arrhythmic days|Friedman Test|See publication for further details||||||0.239
82447749|NCT01031979|164604349|SUPERIORITY_OR_OTHER||Slope|-0.87||||0.39|TWO_SIDED||||||Hierarchical Linear Modeling|||||||.39
82447750|NCT01031979|164604350|SUPERIORITY_OR_OTHER||Slope|-0.55||||0.58|TWO_SIDED||||||Hierarchical Linear Modeling|||||||.58
82447751|NCT01031979|164604351|SUPERIORITY_OR_OTHER||Beta|-1.6||||0.03|TWO_SIDED|95.0|-2.71|-0.49|||Hierarchical Linear Modeling|||||-0.49|-2.71|.03
82447752|NCT03592368|164604355|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82447753|NCT03592368|164604357|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82533575|NCT04731714|164764733|SUPERIORITY|||||||0.8844|||||||Mixed Models Analysis|See publication for details||||||0.8844
82647204|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.445|TWO_SIDED|95.0|-0.82|1.86|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 32.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.86|-0.82|0.445
82647205|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.309|TWO_SIDED|95.0|-0.67|2.12|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 45.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.12|-0.67|0.309
82533576|NCT04731714|164764735|OTHER|||||||0.73|||||||binomial|One-sided||||||0.73
82447754|NCT03592368|164604358|SUPERIORITY|||||||0.12|||||||t-test, 1 sided|||||||0.12
82447755|NCT01593592|164604362|SUPERIORITY_OR_OTHER||percentage|0.0|||||TWO_SIDED|95.0||||||||A total of 70 patients were included; 35 in each arm. The sample size was calculated assuming eradication of H. pylori in at least 70% of treated patients, aiming to detect a difference of 30% based on a 0.80 power to detect significant difference (p =0.05, two-sided).||||
82447756|NCT03335774|164604364|SUPERIORITY|To determine if the 'hydrocortisone' arm was indeed superior than 'placebo' to reduce swelling and itching associated with internal hemorrhoids||||||0.8918|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analyses were conducted using SAS software Version 9.4.All statistical tests were two-sided at a significance level of α = 0.05. Continuous data were presented using descriptive statistics (i.e. number of subjects, mean, SD, median, minimum, and maximum).Baseline value of each assessment was defined as the latest available assessment obtained prior to the first administration of the study drug.||||0.8918
82447757|NCT03335774|164604365|SUPERIORITY|To determine if the 'hydrocortisone' arm was indeed superior than 'placebo' to reduce swelling and itching associated with internal hemorrhoids||||||0.8323|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analyses were conducted using SAS software Version 9.4.All statistical tests were two-sided at a significance level of α = 0.05. Continuous data were presented using descriptive statistics (i.e. number of subjects, mean, SD, median, minimum, and maximum).Baseline value of each assessment was defined as the latest available assessment obtained prior to the first administration of the study drug.||||0.8323
82447758|NCT03354273|164604366|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 1: Sensitivity||||<0.0001
82447759|NCT03354273|164604366|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0182|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 1: Specificity||||0.0182
82447760|NCT03354273|164604366|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 2: Sensitivity||||<0.0001
82447761|NCT03354273|164604366|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0002|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 2: Specificity||||0.0002
82447762|NCT03354273|164604366|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 3: Sensitivity||||<0.0001
82447763|NCT03354273|164604366|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.997|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Reader 3: Specificity||||0.9970
82447764|NCT03354273|164604366|OTHER|Sensitivity was compared to a pre-specified threshold of 60%.|||||<|0.0001|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Majority Rule: Sensitivity||||<0.0001
82447765|NCT03354273|164604366|OTHER|Specificity was compared to a pre-specified threshold of 60%.||||||0.0781|||||||One-sided z-tests|The hypothesis tests were one-sided z-tests with a significance level of 0.025.||Majority Rule: Specificity||||0.0781
82447766|NCT03354273|164604367|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|14.5|||<|0.0001|TWO_SIDED|95.0|6.5|22.4|||McNemar|The hypothesis tests were 1-sided McNemar's tests with a significance level of 0.025 for sensitivity.||Reader 1: Sensitivity||22.4|6.5|<0.0001
82533577|NCT02033993|164764771|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.31|TWO_SIDED|90.0|0.68|1.23||1-sided p-value|Log Rank|||||1.23|0.68|0.31
82533578|NCT02033993|164764772|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.4|TWO_SIDED|90.0|0.7|1.3||1-sided p-value|Log Rank|||||1.30|0.70|0.40
82533579|NCT02033993|164764773|SUPERIORITY||Odds Ratio (OR)|1.41||||0.28|TWO_SIDED|95.0|0.76|2.59|||Cochran-Mantel-Haenszel|||||2.59|0.76|0.28
82533580|NCT02033993|164764774|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.54|TWO_SIDED|95.0|0.46|1.51|||Log Rank|||||1.51|0.46|0.54
82576647|NCT03296800|164863553|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|118.66|||||TWO_SIDED|90.0|111.12|126.72|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||126.72|111.12|
82648061|NCT00207714|165011500|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal scores.|||No difference in ACRn scores measured as percentage of improvement from baseline at Week 16 between Placebo + MTX Golimumab 100 mg every 2 or 4 Weeks||||<0.001
82447767|NCT03354273|164604367|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.4||||0.0004|TWO_SIDED|95.0|-4.9|9.7|||Nam's RMLE|||Reader 1: Specificity||9.7|-4.9|0.0004
82447768|NCT03354273|164604367|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|12.9||||0.0002|TWO_SIDED|95.0|4.7|21.0|||McNemar|||Reader 2: Sensitivity||21.0|4.7|0.0002
82533581|NCT02096081|164764808|NON_INFERIORITY_OR_EQUIVALENCE|"The analysis of response defined as the difference (D) in response rates between two treatment groups at 1 month was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group. The hypothesis testing procedure to test the equivalence of the two products is as follows:~Ho (null): D ≤ -∆ OR D ≥ ∆ versus Ha (alternate): -∆ \< D \< ∆, where ∆ is the margin of equivalence = 0.15."|Difference in proportions of response|-3.5|||||TWO_SIDED|95.0|-7.5|0.6|||||If the confidence interval lies within the limits of ±0.15, then Ho is rejected in favor of Ha (i.e., equivalence of incobotulinumtoxinA and onabotulinumtoxinA can be concluded); otherwise, treatment equivalence cannot be concluded.|With assumptions of an alpha of 5%, an equivalence margin of 15% for each side, the real response rate expected as 90% for incobotulinumtoxinA and onabotulinumtoxinA at day 30 and a 1:1 allocation ratio, a total of 225 subjects were needed to achieve a statistical power of 90% in order to make an equivalence conclusion at day 30. Results are based on the Newcombe-Wilson confidence interval. To account for exclusions from the PPS of about 10%, approximately 250 subjects were enrolled.||0.6|-7.5|
82576648|NCT03296800|164863553|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|119.62|||||TWO_SIDED|90.0|94.39|151.59||||||Geometric LS Mean was used as PK parameters|Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|151.59|94.39|
82418717|NCT06097273|164548390|NON_INFERIORITY|The noninferiority in SRR in the Cohort A1 group compared with that of Cohort A2 group was demonstrated if the lower bound of the 97.5% CI of the SRR difference was \>-10%.|Percentage Difference|12.8|||||TWO_SIDED|97.5|9.6|15.9||||||Percentage Difference (Cohort A1 vs Cohort A2) for SARS-CoV-2 Antibody||15.9|9.6|
82418718|NCT06097273|164548390|SUPERIORITY|The superiority in SRR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 95% CI of the SRR difference was \>0%.|Percentage Difference|8.1|||||TWO_SIDED|95.0|5.5|10.6||||||Percentage Difference (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||10.6|5.5|
82418719|NCT06097273|164548390|NON_INFERIORITY|The noninferiority in SRR in the Cohort B1 group compared with that of Cohort B2 group was demonstrated if the lower bound of the 97.5% CI of the SRR difference was \>-10%.|Percentage Difference|8.1|||||TWO_SIDED|97.5|5.2|11.0||||||Percentage Difference (Cohort B1 vs Cohort B2) for SARS-CoV-2 Antibody||11.0|5.2|
82418720|NCT01027754|164548432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Fisher Exact|||||||0.03
82418721|NCT01027754|164548433|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|||||||Fisher Exact|||||||0.24
82418722|NCT01027754|164548442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82418723|NCT05033561|164548450|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
82418724|NCT05033561|164548450|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
82418725|NCT05033561|164548451|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
82418726|NCT05033561|164548451|NON_INFERIORITY|Non-inferiority would be verified if the lower bound of the two-sided 95% CI around each difference (shorter interval minus standard interval) is greater than -10%.||||||0.05||||||This is the nominal alpha level for the two-sided confidence interval comparison.|Miettinen-Nurminen|Pairwise comparisons with two-sided Miettinen-Nurminen confidence intervals.||This study was designed to demonstrate the non-inferiority of Group A (1-week interval nOPV2 administration) and Group B (2-weeks interval nOPV2 administration) versus Group C (standard 4-week interval).||||0.05
82447769|NCT03354273|164604367|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|4.9|||<|0.0001|TWO_SIDED|95.0|-2.1|11.8|||Nam's RMLE|||Reader 2: Specificity||11.8|-2.1|<0.0001
82447770|NCT03354273|164604367|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|13.3|||<|0.0001|TWO_SIDED|95.0|6.6|19.9|||McNemar|||Reader 3: Sensitivity||19.9|6.6|<0.0001
82447771|NCT03354273|164604367|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|1.2||||0.0011|TWO_SIDED|95.0|-6.0|8.4|||Nam's RMLE|||Reader 3: Specificity||8.4|-6.0|0.0011
82418727|NCT02935036|164548474|SUPERIORITY||LS Mean Difference|1.33||||0.5947|TWO_SIDED||||||ANOVA|||||||0.5947
82418728|NCT02935036|164548475|SUPERIORITY||LS Mean Difference|2.75||||0.2912|TWO_SIDED||||||ANOVA|||||||0.2912
82418729|NCT02935036|164548476|SUPERIORITY||Percent difference|2.4||||0.692|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6920
82418730|NCT04359680|164548517|SUPERIORITY||Odds Ratio (OR)|1.029||||0.9434|TWO_SIDED|95.0|0.4696|2.2546|||Cochran-Mantel-Haenszel|||||2.2546|0.4696|0.9434
82418731|NCT04359680|164548518|SUPERIORITY||Odds Ratio (OR)|1.1162||||0.6805|TWO_SIDED|95.0|0.6623|1.8813|||Cochran-Mantel-Haenszel|||||1.8813|0.6623|0.6805
82418732|NCT04359680|164548520|SUPERIORITY|||||||0.3459|||||||Cochran-Mantel-Haenszel|||||||0.3459
82418733|NCT01654250|164548529|SUPERIORITY_OR_OTHER||Least Square(LS) Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-10.9|-3.1|||Mixed Models Analysis|||Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point, and time point by treatment interaction as main effects and participant intercept as a random effect.||-3.1|-10.9|<0.001
82418734|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-12.7|-3.7|||Mixed Models Analysis|||Hour 0.75 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-3.7|-12.7|<0.001
82418735|NCT01654250|164548530|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 0.75 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||0.133
82418736|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-17.3|-8.3|||Mixed Models Analysis|||Hour 2 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-8.3|-17.3|<0.001
82647206|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.872|TWO_SIDED|95.0|-1.34|1.57|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 45.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.57|-1.34|0.872
82418737|NCT01654250|164548530|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 2 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
82418738|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-16.8|-7.8|||Mixed Models Analysis|||Hour 4 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-7.8|-16.8|<0.001
82418739|NCT01654250|164548530|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 4 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
82418740|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-12.3|-3.3|||Mixed Models Analysis|||Hour 8 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effect and participant intercept as a random effect.||-3.3|-12.3|<0.001
82418741|NCT01654250|164548530|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Hour 8 post-dose: Adjusted p-values were generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||<0.001
82418742|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.28||0.133|TWO_SIDED|95.0|-7.9|1.1|||Mixed Models Analysis|||Hour 10 post-dose: Nominal p-value -treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.1|-7.9|0.133
82418743|NCT01654250|164548530|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 10 post-dose: Adjusted p-value were generated using a fixed sequence testing procedure from p-values generated from the mixed effects model.||||0.133
82418744|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.28||0.206|TWO_SIDED|95.0|-7.4|1.6|||Mixed Models Analysis|||Hour 12 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.6|-7.4|0.206
82418745|NCT01654250|164548530|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 12 post-dose: Adjusted p-values are generated using a fixed sequence testing procedure from p-values which were generated from the mixed effects model.||||0.133
82418746|NCT01654250|164548530|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.28||0.496|TWO_SIDED|95.0|-6.0|2.9|||Mixed Models Analysis|||Hour 13 post-dose: Nominal p value-treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||2.9|-6.0|0.496
82418747|NCT01654250|164548530|SUPERIORITY_OR_OTHER|||||||0.133|||||||Mixed Models Analysis|||Hour 13 post-dose: Adjusted p-value were generated using a fixed sequence testing procedure from p-values generated from the mixed effects model.||||0.133
82418748|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.56||0.007|TWO_SIDED|95.0|-2.6|-0.4|||Mixed Models Analysis|||Hour 0.75 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.4|-2.6|0.007
82418749|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-3.6|-1.4|||Mixed Models Analysis|||Hour 2 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-1.4|-3.6|<0.001
82418750|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-3.4|-1.2|||Mixed Models Analysis|||Hour 4 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-1.2|-3.4|<0.001
82418751|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.56||0.003|TWO_SIDED|95.0|-2.8|-0.6|||Mixed Models Analysis|||Hour 8 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.6|-2.8|0.003
82418752|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.56||0.097|TWO_SIDED|95.0|-2.0|0.2|||Mixed Models Analysis|||Hour 10 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.2|-2.0|0.097
82418753|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.49|TWO_SIDED|95.0|-1.5|0.7|||Mixed Models Analysis|||Hour 12 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.7|-1.5|0.490
82418754|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.56||0.164|TWO_SIDED|95.0|-1.9|0.3|||Mixed Models Analysis|||Hour 13 post-dose attention subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.3|-1.9|0.164
82418755|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.94||0.004|TWO_SIDED|95.0|-4.6|-0.9|||Mixed Models Analysis|||Hour 0.75 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.9|-4.6|0.004
82447772|NCT03354273|164604367|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|11.6||||0.0003|TWO_SIDED|95.0|4.1|19.2|||McNemar|||Majority Rule: Sensitivity||19.2|4.1|0.0003
82447773|NCT03354273|164604367|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.1||||0.0004|TWO_SIDED|95.0|-5.0|9.3|||Nam's RMLE|||Majority Rule: Specificity||9.3|-5.0|0.0004
82418756|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-5.8|-2.1|||Mixed Models Analysis|||Hour 2 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-2.1|-5.8|<0.001
82533582|NCT02096081|164764809|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 2 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-5.3|||||TWO_SIDED|95.0|-12.1|1.5|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||1.5|-12.1|
82576649|NCT03296800|164863553|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|106.05|||||TWO_SIDED|90.0|88.81|126.65||||||Geometric LS Mean was used as PK parameters|Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|126.65|88.81|
82418757|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-5.8|-2.1|||Mixed Models Analysis|||Hour 4 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-2.1|-5.8|<0.001
82418758|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.94||0.042|TWO_SIDED|95.0|-3.8|-0.1|||Mixed Models Analysis|||Hour 8 post-dose deportment subscale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||-0.1|-3.8|0.042
82447774|NCT03354273|164604368|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|24.4||||0.0127|TWO_SIDED|95.0|5.4|43.4|||McNemar|||Reader 1: Sensitivity||43.4|5.4|0.0127
82447775|NCT03354273|164604368|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|9.5||||0.0001|TWO_SIDED|95.0|-1.2|20.2|||Nam's RMLE|||Reader 1: Specificity||20.2|-1.2|0.0001
82418759|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.94||0.118|TWO_SIDED|95.0|-3.3|0.4|||Mixed Models Analysis|||Hour 10 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||0.4|-3.3|0.118
82418760|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.94||0.342|TWO_SIDED|95.0|-2.7|1.9|||Mixed Models Analysis|||Hour 12 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.9|-2.7|0.342
82418761|NCT01654250|164548531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.94||0.962|TWO_SIDED|95.0|-1.8|1.9|||Mixed Models Analysis|||Hour 13 post-dose deportment sub scale: Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||1.9|-1.8|0.962
82418762|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean difference|25.3|STANDARD_ERROR_OF_MEAN|11.12||0.024|TWO_SIDED|95.0|3.4|47.1|||Mixed Models Analysis|||Hour 0.75 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||47.1|3.4|0.024
82418763|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1|STANDARD_ERROR_OF_MEAN|11.12||0.001|TWO_SIDED|95.0|14.2|57.9|||Mixed Models Analysis|||Hour 2 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||57.9|14.2|0.001
82418764|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|34.7|STANDARD_ERROR_OF_MEAN|11.12||0.002|TWO_SIDED|95.0|12.8|56.6|||Mixed Models Analysis|||Hour 4 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||56.6|12.8|0.002
82418765|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|29.3|STANDARD_ERROR_OF_MEAN|11.12||0.009|TWO_SIDED|95.0|7.4|51.1|||Mixed Models Analysis|||Hour 8 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||51.1|7.4|0.009
82418766|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|11.12||0.261|TWO_SIDED|95.0|-9.3|34.4|||Mixed Models Analysis|||Hour 10 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||34.4|-9.3|0.261
82418767|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1|STANDARD_ERROR_OF_MEAN|11.12||0.175|TWO_SIDED|95.0|-6.7|37.0|||Mixed Models Analysis|||Hour 12 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||37.0|-6.7|0.175
82418768|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|18.7|STANDARD_ERROR_OF_MEAN|11.12||0.094|TWO_SIDED|95.0|-3.2|40.5|||Mixed Models Analysis|||Hour 13 post-dose (Problems attempted): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||40.5|-3.2|0.094
82418769|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|22.6|STANDARD_ERROR_OF_MEAN|11.44||0.049|TWO_SIDED|95.0|0.1|45.1|||Mixed Models Analysis|||Hour 0.75 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||45.1|0.1|0.049
82418770|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|34.4|STANDARD_ERROR_OF_MEAN|11.44||0.003|TWO_SIDED|95.0|11.9|56.9|||Mixed Models Analysis|||Hour 2 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||56.9|11.9|0.003
82418771|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|STANDARD_ERROR_OF_MEAN|11.44||0.004|TWO_SIDED|95.0|10.5|55.4|||Mixed Models Analysis|||Hour 4 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||55.4|10.5|0.004
82418772|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|27.0|STANDARD_ERROR_OF_MEAN|11.44||0.019|TWO_SIDED|95.0|4.5|49.5|||Mixed Models Analysis|||Hour 8 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||49.5|4.5|0.019
82533583|NCT02096081|164764810|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 3 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-0.5|||||TWO_SIDED|95.0|-10.6|9.6|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||9.6|-10.6|
82447776|NCT03354273|164604368|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|22.0||||0.0195|TWO_SIDED|95.0|2.2|41.7|||McNemar|||Reader 2: Sensitivity||41.7|2.2|0.0195
82533584|NCT02096081|164764811|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 4 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-5.2|||||TWO_SIDED|95.0|-17.4|7.1|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||7.1|-17.4|
82533585|NCT02096081|164764812|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 1 month was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-2.7|||||TWO_SIDED|95.0|-8.5|3.2|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||3.2|-8.5|
82647207|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.004|TWO_SIDED|95.0|0.79|4.26|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.26|0.79|0.004
82447777|NCT03354273|164604368|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.8||||0.0004|TWO_SIDED|95.0|-3.2|16.8|||Nam's RMLE|||Reader 2: Specificity||16.8|-3.2|0.0004
82447778|NCT03354273|164604368|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|17.1||||0.0174|TWO_SIDED|95.0|1.7|32.4|||McNemar|||Reader 3: Sensitivity||32.4|1.7|0.0174
82447779|NCT03354273|164604368|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|0.7||||0.024|TWO_SIDED|95.0|-9.9|11.3|||Nam's RMLE|||||11.3|-9.9|0.0240
82447780|NCT03354273|164604368|SUPERIORITY||Difference between PET MPI and SPECT MPI|17.1||||0.0448|TWO_SIDED|95.0|-1.5|35.6|||McNemar|||Majority Rule: Sensitivity||35.6|-1.5|0.0448
82533586|NCT02096081|164764813|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 2 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-2.8|||||TWO_SIDED|95.0|-11.0|5.3|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||5.3|-11.0|
82447781|NCT03354273|164604368|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.8||||0.0004|TWO_SIDED|95.0|-3.4|17.0|||Nam's RMLE|||Majority Rule: Specificity||17.0|-3.4|0.0004
82447782|NCT03354273|164604369|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|12.0||||0.0116|TWO_SIDED|95.0|0.0|23.9|||McNemar|||Reader 1: Sensitivity||23.9|0.0|0.0116
82447783|NCT03354273|164604369|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|6.6||||0.0003|TWO_SIDED|95.0|-2.9|16.2|||Nam's RMLE|||Reader 1: Specificity||16.2|-2.9|0.0003
82447784|NCT03354273|164604369|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|6.8||||0.1085|TWO_SIDED|95.0|-5.2|18.9|||McNemar|||Reader 2: Sensitivity||18.9|-5.2|0.1085
82447785|NCT03354273|164604369|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|11.6|||<|0.0001|TWO_SIDED|95.0|2.1|21.1|||Nam's RMLE|||Reader 2: Specificity||21.1|2.1|<0.0001
82447786|NCT03354273|164604369|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|13.7||||0.0017|TWO_SIDED|95.0|3.8|23.5|||McNemar|||Reader 3: Sensitivity||23.5|3.8|0.0017
82447787|NCT03354273|164604369|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|2.8||||0.0034|TWO_SIDED|95.0|-6.6|12.1|||Nam's RMLE|||Reader 3: Specificity||12.1|-6.6|0.0034
82447788|NCT03354273|164604369|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|7.7||||0.0641|TWO_SIDED|95.0|-3.6|19.0|||McNemar|||Majority Rule: Sensitivity||19.0|-3.6|0.0641
82418773|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean difference|8.6|STANDARD_ERROR_OF_MEAN|11.44||0.451|TWO_SIDED|95.0|-13.9|31.1|||Mixed Models Analysis|||Hour 10 (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||31.1|-13.9|0.451
82418774|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|11.44||0.394|TWO_SIDED|95.0|-12.7|32.2|||Mixed Models Analysis|||Hour 12 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||32.2|-12.7|0.394
82418775|NCT01654250|164548532|SUPERIORITY_OR_OTHER||LS Mean difference|8.3|STANDARD_ERROR_OF_MEAN|11.44||0.466|TWO_SIDED|95.0|-14.1|30.8|||Mixed Models Analysis|||Hour 13 post-dose (Problems correct): Treatment comparisons for observed scores were assessed using a mixed model repeated measures analysis, with treatment (NWP09/Placebo), study center, time point and time point by treatment interaction as main effects and participant intercept as a random effect.||30.8|-14.1|0.466
82418776|NCT02596893|164548536|SUPERIORITY||Stratified Difference|-2.9||||0.2523|TWO_SIDED|95.0|-9.7|3.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||3.9|-9.7|0.2523
82418777|NCT02596893|164548536|SUPERIORITY||Slope|4.8||||0.1626|TWO_SIDED|95.0|-3.0|11.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||11.8|-3.0|0.1626
82418778|NCT02596893|164548536|SUPERIORITY||Stratified Difference|-2.1||||0.442|TWO_SIDED|95.0|-9.1|5.3|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.3|-9.1|0.4420
82418779|NCT02596893|164548537|SUPERIORITY||Stratified Difference|-2.6||||0.1799|TWO_SIDED|95.0|-9.5|5.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.0|-9.5|0.1799
82533587|NCT02096081|164764814|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 3 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-1.5|||||TWO_SIDED|95.0|-12.4|9.5|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||9.5|-12.4|
82533588|NCT02096081|164764815|NON_INFERIORITY_OR_EQUIVALENCE|This secondary analysis was performed for exploratory purposes. The analysis of response defined as the difference (D) in response rates between two treatment groups at 4 months was as follows: D = response rate in the incobotulinumtoxinA group minus the response rate in the onabotulinumtoxinA group.|Difference in proportion of responders|-1.9|||||TWO_SIDED|95.0|-14.4|10.7|||||If the confidence interval lies within the limits of ±0.15, then both incobotulinumtoxinA and onabotulinumtoxinA have similar efficacy profiles.|The study was not powered for this secondary endpoint.||10.7|-14.4|
82418780|NCT02596893|164548537|SUPERIORITY||Stratified Difference|-2.4||||0.2309|TWO_SIDED|95.0|-9.4|4.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||4.9|-9.4|0.2309
82418781|NCT02596893|164548537|SUPERIORITY||Stratified Difference|-2.1||||0.3264|TWO_SIDED|95.0|-9.1|4.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||4.6|-9.1|0.3264
82418782|NCT02596893|164548538|SUPERIORITY||Stratified Difference|-11.7||||0.0299|TWO_SIDED|95.0|-22.0|-1.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||-1.1|-22.0|0.0299
82418783|NCT02596893|164548538|SUPERIORITY||Stratified difference|-9.9||||0.0582|TWO_SIDED|95.0|-20.3|0.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||0.7|-20.3|0.0582
82418784|NCT02596893|164548538|SUPERIORITY||Stratified difference|-9.7||||0.0741|TWO_SIDED|95.0|-20.1|1.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||1.0|-20.1|0.0741
82418785|NCT02596893|164548539|SUPERIORITY||Stratified difference|-5.8||||0.2493|TWO_SIDED|95.0|-15.5|4.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.0|-15.5|0.2493
82418786|NCT02596893|164548539|SUPERIORITY||Stratified difference|-1.8||||0.716|TWO_SIDED|95.0|-11.8|8.2|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||8.2|-11.8|0.7160
82418787|NCT02596893|164548539|SUPERIORITY||Stratified difference|-5.8||||0.2452|TWO_SIDED|95.0|-15.5|4.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.1|-15.5|0.2452
82418788|NCT02596893|164548540|SUPERIORITY||Stratified difference|-1.3||||0.7541|TWO_SIDED|95.0|-9.8|7.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||7.1|-9.8|0.7541
82418789|NCT02596893|164548540|SUPERIORITY||Stratified difference|-3.7||||0.3784|TWO_SIDED|95.0|-12.0|4.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||4.6|-12.0|0.3784
82418790|NCT02596893|164548540|SUPERIORITY||Stratified difference|-4.4||||0.2865|TWO_SIDED|95.0|-12.6|3.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||3.8|-12.6|0.2865
82418791|NCT02596893|164548541|SUPERIORITY||Unstratified CMH|-2.2||||0.3572|TWO_SIDED|95.0|-11.3|7.0|||Cochran-Mantel-Haenszel|p-values were based on the unstratified CMH test when 1 and only 1 of the 2 treatment groups being compared had no subjects in a stratum.|The weighted average of the treatment differences across the strata with the CMH weights.|2-sided 95% CI were based on the unstratified Newcombe method.||7.0|-11.3|0.3572
82418792|NCT02596893|164548541|SUPERIORITY||Stratified difference|4.7||||0.2823|TWO_SIDED|95.0|-8.8|18.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||18.9|-8.8|0.2823
82418793|NCT02596893|164548541|SUPERIORITY||Stratified difference|0.0|||>|0.9999|TWO_SIDED|95.0|-12.8|13.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||13.7|-12.8|> 0.9999
82418794|NCT02596893|164548542|SUPERIORITY||Stratified difference|-0.5||||0.8031|TWO_SIDED|95.0|-6.7|5.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.9|-6.7|0.8031
82418795|NCT02596893|164548542|SUPERIORITY||Stratified difference|1.4||||0.5583|TWO_SIDED|95.0|-5.1|7.3|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||7.3|-5.1|0.5583
82647208|NCT00996918|165009490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09||||0.026|TWO_SIDED|95.0|0.25|3.93|||Mixed Models Analysis|||"Change from base study baseline in MMSE score at Week 78.~Results are from a REML-based MMRM with change from base study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.93|0.25|0.026
82647209|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.504|TWO_SIDED|95.0|-0.77|1.57|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 6.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.57|-0.77|0.504
82647210|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.592|TWO_SIDED|95.0|-1.58|0.9|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 6.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.90|-1.58|0.592
82647211|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.441|TWO_SIDED|95.0|-0.72|1.65|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 19.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.65|-0.72|0.441
82647212|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.288|TWO_SIDED|95.0|-1.97|0.59|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 19.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||0.59|-1.97|0.288
82647213|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.303|TWO_SIDED|95.0|-0.59|1.9|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 32.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.90|-0.59|0.303
82418796|NCT02596893|164548542|SUPERIORITY||Stratified difference|-1.0||||0.6123|TWO_SIDED|95.0|-7.2|6.8|||Cochran-Mantel-Haenszel||||The weighted average of the treatment differences across the strata with the CMH weights.|6.8|-7.2|0.6123
82418797|NCT02596893|164548543|SUPERIORITY||Stratified difference|-10.6||||0.0239|TWO_SIDED|95.0|-19.6|-1.4|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||-1.4|-19.6|0.0239
82418798|NCT02596893|164548543|SUPERIORITY||Stratified difference|-1.0||||0.8334|TWO_SIDED|95.0|-10.8|8.7|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||8.7|-10.8|0.8334
82418799|NCT02596893|164548543|SUPERIORITY||Stratified difference|-3.9||||0.4383|TWO_SIDED|95.0|-13.5|5.8|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights.|||5.8|-13.5|0.4383
82418800|NCT02596893|164548544|SUPERIORITY||Stratified difference|-1.6||||0.3573|TWO_SIDED|95.0|-8.3|5.9|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with CMH weights.|||5.9|-8.3|0.3573
82418801|NCT02596893|164548544|SUPERIORITY||Stratified difference|-2.0||||0.2221|TWO_SIDED|95.0|-8.7|5.1|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.1|-8.7|0.2221
82418802|NCT02596893|164548544|SUPERIORITY||Stratified difference|-2.0||||0.2578|TWO_SIDED|95.0|-8.7|5.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.6|-8.7|0.2578
82418803|NCT02596893|164548547|SUPERIORITY||Stratified Difference|0.5||||0.9141|TWO_SIDED|95.0|-8.9|10.0|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the Cochran-Mantel-Haenszel (CMH) weights|||10.0|-8.9|0.9141
82418804|NCT02596893|164548547|SUPERIORITY||Stratified Difference|-3.6||||0.4286|TWO_SIDED|95.0|-12.8|5.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||5.6|-12.8|0.4286
82418805|NCT02596893|164548547|SUPERIORITY||Stratified Difference|-2.7||||0.5591|TWO_SIDED|95.0|-12.0|6.6|||Cochran-Mantel-Haenszel||The weighted average of the treatment differences across the strata with the CMH weights.|||6.6|-12.0|0.5591
82418806|NCT03280615|164548548|SUPERIORITY|||||||0.257|||||||Fisher Exact|||A Fisher exact test was performed||||0.257
82418807|NCT03280615|164548549|SUPERIORITY|||||||0.231|||||||Fisher Exact|||A mixed linear regression model for repeated measures was performed to test if the outcome behaved differently in both treatment groups||||0.231
82418808|NCT03280615|164548550|SUPERIORITY|||||||0.043|||||||Mixed Models Analysis|||A mixed linear regression model for repeated measures was performed to test if the outcome behaved differently in both treatment groups||||0.043
82647214|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.713|TWO_SIDED|95.0|-1.09|1.6|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 32.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.60|-1.09|0.713
82418809|NCT02255279|164548557|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|4.06|||||TWO_SIDED|95.0|3.0|5.51|||ANCOVA|||Geometric mean titers (GMTs), in H1N1 strain of all the tree strains in Subjects 6 to \< 72 months of Age.||5.51|3.00|
82418810|NCT02255279|164548557|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|2.58|||||TWO_SIDED|95.0|2.05|3.25|||ANCOVA|||Geometric mean titers (GMTs), in H3N2 strain of all three homologous virus strains in Subjects 6 to \< 72 months of Age.||3.25|2.05|
82418811|NCT02255279|164548557|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis: Demonstrate non-inferiority (NI) of aTIV to TIV:~H0 : μAi - μBi ≤ -0.176 (Null) H1 : μAi - μBi \>-0.176 (alternative) (i= H1N1, H3N2, B) μA and μB are means of log10-transformed titers 21 days after last vaccination of the aTIV \& TIV vaccine groups respectively. NI is claimed if LL of 95% CI for GMT ratios is \>0.67.~Significance level is α = 2.5% (1-sided), which needs no further adjustment for multiplicity as to reach NI, above hypothesis needs to be rejected for all 3 strains."|Ratio of GMTs|4.67|||||TWO_SIDED|95.0|3.52|6.2|||ANCOVA|||Geometric mean titers (GMTs), in B strain of all three homologous virus strains in Subjects 6 to \< 72 months of Age.||6.20|3.52|
82418812|NCT02255279|164548558|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|17.0|||||TWO_SIDED|95.0|8.1|26.3|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in H1N1 strain after last vaccination with aTIV or TIV in naïve and non-naive subjects.||26.3|8.1|
82418813|NCT02255279|164548558|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|10.0|||||TWO_SIDED|95.0|-1.8|21.0|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in H3N2 strain after last vaccination with aTIV or TIV in naive and non-naive subjects.||21|-1.8|
82418814|NCT02255279|164548558|NON_INFERIORITY_OR_EQUIVALENCE|"The following hypotheses should be tested to demonstrate non-inferiority of aTIV to TIV:~H0i: πi1 \> πi2-0.1 vs. H1i: πi1 \> πi2- 0.1 where H0i and H1i represent the null and the alternative hypothesis (respectively) of the non- inferiority objective and πi1 and πi2 represent the seroresponse rates 21 days after last immunization of the aTIV and TIV vaccine groups respectively in the i-th strain (H1N1, H3N2, B). The non-inferiority criterion is -0.1 (i.e., -10%)."|Vaccine Group Differences|58.0|||||TWO_SIDED|95.0|47.5|68.5|||Loglinear model|Binary data were analyzed using loglinear models with a qualitative factor for vaccine group (αik, i = A, B) and center (δlk, k=1).||Percentage of subjects achieving seroconversion in B strains after last vaccination with aTIV or TIV in naïve and non naive subjects.||68.5|47.5|
82418815|NCT01052428|164548582|SUPERIORITY_OR_OTHER|||||||0.4568||95.0|||||Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.4568
82418816|NCT01052428|164548583|SUPERIORITY_OR_OTHER|||||||0.1967||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.1967
82533589|NCT04004208|164764822|NON_INFERIORITY|Non inferiority margin is 5%. Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|0.034|||||TWO_SIDED|90.0|-0.08|0.162||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.162|-0.08|
82533590|NCT04004208|164764823|OTHER|Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|-0.023|||||TWO_SIDED|90.0|-0.11|0.046||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.046|-0.11|
82418817|NCT01052428|164548584|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.55
82418818|NCT01052428|164548585|SUPERIORITY_OR_OTHER|||||||0.21||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.21
82418819|NCT01052428|164548586|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.006
82418820|NCT01052428|164548587|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.16
82418821|NCT01052428|164548588|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||not adjusted for multiple comparisons|Mixed Models Analysis|||The differences in the rate of progression of the outcome measures were the focus of the comparisons over time between the treatment groups. A significant interaction effect between time and treatment group in the mixed model is the measure of treatment effect. Since some visits did not occur at the scheduled 6 month intervals, the results have been divided into 3-month visit intervals for reporting purposes and the number of Participants for each interval is indicated as (n=x,y)||||0.001
82418822|NCT00382863|164548589|SUPERIORITY_OR_OTHER|||||||0.502|||||||Fisher Exact|One-sided||Null hypothesis = proportion of subjects in treatment group who successfully achieved an improvement of at least 1.0 ml/kg/min at 6 months is less than or equal to the Control group. Subjects who withdrew for cardiac-related reasons were classified as non-responders.||||0.502
82418823|NCT00382863|164548590|SUPERIORITY_OR_OTHER|||||||0.044|||||||Fisher Exact|One-sided||The null hypothesis = the proportion of subjects in the treatment group who successfully achieved an improvement of at least 45 m at 6 months from baseline is less than or equal to that of the Control group. Withdrawals due to cardiac reasons are counted as non-responders.||||0.044
82647215|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.198|TWO_SIDED|95.0|-0.49|2.34|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 45.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||2.34|-0.49|0.198
82418824|NCT00382863|164548591|SUPERIORITY_OR_OTHER|||||||0.184|||||||Fisher Exact|One-sided||The null hypothesis = the proportion of treatment subjects who successfully achieved an improvement of at least 7 points at 6 months is equal to or less than that of the control group. Withdrawals due to cardiac reasons are counted as non-responders.||||0.184
82418825|NCT00382863|164548592|NON_INFERIORITY_OR_EQUIVALENCE|Estimated survival for the treatment group was 93%. Estimated survival for the control group was 91.5%. A non-inferiority margin of 7.5%. Final test alpha level of 0.04825.||||||0.012|||||||Exact binomial test|One-sided||The null hypothesis = survival in the treatment group at 12 months is not equivalent to that of the Control group.||||0.012
82418826|NCT00382863|164548593|SUPERIORITY_OR_OTHER|||||||0.052|||||||Wilcoxon (Mann-Whitney)|||Class change from baseline.||||0.052
82418827|NCT00382863|164548594|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82418828|NCT00382863|164548595|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.032
82418829|NCT00382863|164548596|SUPERIORITY_OR_OTHER|||||||0.54|||||||Fisher Exact|One-sided||Improvement of at least 1.0 ml/kg/min from baseline.||||0.540
82418830|NCT00382863|164548597|SUPERIORITY_OR_OTHER|||||||0.067|||||||Fisher Exact|One-sided||Improvement of at least 45 m from baseline.||||0.067
82418831|NCT00382863|164548598|SUPERIORITY_OR_OTHER|||||||0.031|||||||Fisher Exact|One-sided||Improvement of at least 7 points from baseline.||||0.031
82418832|NCT00382863|164548599|SUPERIORITY_OR_OTHER|||||||0.109|||||||Log Rank|||Kaplan-Meier actuarial time-to-first-event analysis||||0.109
82418833|NCT00382863|164548600|SUPERIORITY_OR_OTHER|||||||0.031|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.031
82418834|NCT00382863|164548601|SUPERIORITY_OR_OTHER|||||||0.179|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.179
82418835|NCT00382863|164548602|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.070
82418836|NCT00382863|164548603|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.015
82418837|NCT00382863|164548604|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.032
82418838|NCT00382863|164548606|SUPERIORITY_OR_OTHER|||||||0.627|||||||Fisher Exact|Two-sided||||||0.627
82418839|NCT00382863|164548607|SUPERIORITY_OR_OTHER|||||||0.386|||||||Log Rank|||||||0.386
82418840|NCT00382863|164548608|SUPERIORITY_OR_OTHER|||||||0.154|||||||Fisher Exact|Two-sided||||||0.154
82418841|NCT00382863|164548609|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|Two-sided||||||1.000
82418842|NCT00382863|164548610|SUPERIORITY_OR_OTHER|||||||0.939|||||||Log Rank|||||||0.939
82418843|NCT00382863|164548611|SUPERIORITY_OR_OTHER|||||||0.012|||||||Fisher Exact|Two-sided||||||0.012
82418844|NCT00382863|164548612|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
82418845|NCT00382863|164548613|SUPERIORITY_OR_OTHER|||||||0.772|||||||Wilcoxon (Mann-Whitney)|Two-sided||||||0.772
82418846|NCT01292473|164548622|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.69||||0.4637|TWO_SIDED|95.0|-2.54|1.16||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||1.16|-2.54|0.4637
82418847|NCT01292473|164548622|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.04||||0.0011|TWO_SIDED|95.0|-4.85|-1.24||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-1.24|-4.85|0.0011
82533591|NCT04004208|164764824|OTHER|Confidence interval actually refers to a credible interval based on the Bayesian analysis.|Difference in proportions|0.096|||||TWO_SIDED|90.0|0.019|0.175||||||Bayesian analysis with non-informative prior distributions. Calculation of two-sided 90% credible interval for the treatment difference (aflibercept - laser photocoagulation).||0.175|0.019|
82418848|NCT01292473|164548622|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.81|||<|0.0001|TWO_SIDED|95.0|-6.49|-3.13||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-3.13|-6.49|<0.0001
82418849|NCT01292473|164548623|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.73||||0.1575|TWO_SIDED|95.0|-6.53|1.07||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||1.07|-6.53|0.1575
82533592|NCT00839982|164764837|SUPERIORITY|||||||0.03||||||Hypothesis: achieving CR provides an overall longer survival.|Chi-squared|||||||0.03
82533593|NCT01152554|164764880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.24||0.697|TWO_SIDED|95.0|0.54|1.5|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.50|0.54|0.697
82533594|NCT01152554|164764881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|STANDARD_ERROR_OF_MEAN|0.27||0.582|TWO_SIDED|95.0|0.45|1.57|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.57|0.45|0.582
82533595|NCT03486899|164764890|SUPERIORITY||Odds Ratio (OR)|2.65||||0.055|TWO_SIDED|95.0|0.88|8.52|||Cochran-Mantel-Haenszel|||||8.52|0.88|0.055
82418850|NCT01292473|164548623|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.69||||0.0001||95.0|-11.49|-3.88||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-3.88|-11.49|0.0001
82533596|NCT03486899|164764890|SUPERIORITY||Odds Ratio (OR)|1.89||||0.245|TWO_SIDED|95.0|0.61|6.27|||Cochran-Mantel-Haenszel|||||6.27|0.61|0.245
82533597|NCT03486899|164764890|SUPERIORITY||Odds Ratio (OR)|2.17||||0.129|TWO_SIDED|95.0|0.71|7.1|||Cochran-Mantel-Haenszel|||||7.10|0.71|0.129
82418851|NCT01292473|164548623|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.4|||<|0.0001|TWO_SIDED|95.0|-16.13|-8.66||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-8.66|-16.13|<0.0001
82533598|NCT03486899|164764891|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
82533599|NCT03486899|164764891|SUPERIORITY||Odds Ratio (OR)|1.83||||0.381|TWO_SIDED|95.0|0.43|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.43|0.381
82533600|NCT03486899|164764891|SUPERIORITY||Odds Ratio (OR)|2.88||||0.079|TWO_SIDED|95.0|0.75|13.48|||Cochran-Mantel-Haenszel|||||13.48|0.75|0.079
82533601|NCT03486899|164764892|SUPERIORITY||Odds Ratio (OR)|2.07||||0.18|TWO_SIDED|95.0|0.63|7.47|||Cochran-Mantel-Haenszel|||||7.47|0.63|0.180
82533602|NCT03486899|164764892|SUPERIORITY||Odds Ratio (OR)|1.37||||0.612|TWO_SIDED|95.0|0.38|5.2|||Cochran-Mantel-Haenszel|||||5.20|0.38|0.612
82533603|NCT03486899|164764892|SUPERIORITY||Odds Ratio (OR)|2.59||||0.079|TWO_SIDED|95.0|0.81|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.81|0.079
82533604|NCT03486899|164764893|SUPERIORITY||Odds Ratio (OR)|0.39||||0.038|TWO_SIDED|95.0|0.15|1.03|||Cochran-Mantel-Haenszel|||||1.03|0.15|0.038
82533605|NCT03486899|164764893|SUPERIORITY||Odds Ratio (OR)|0.6||||0.256|TWO_SIDED|95.0|0.22|1.57|||Cochran-Mantel-Haenszel|||||1.57|0.22|0.256
82533606|NCT03486899|164764893|SUPERIORITY||Odds Ratio (OR)|0.65||||0.296|TWO_SIDED|95.0|0.25|1.73|||Cochran-Mantel-Haenszel|||||1.73|0.25|0.296
82533607|NCT03486899|164764894|SUPERIORITY||Odds Ratio (OR)|1.36||||0.718|TWO_SIDED|95.0|0.22|9.8|||Cochran-Mantel-Haenszel|||||9.80|0.22|0.718
82533608|NCT03486899|164764894|SUPERIORITY||Odds Ratio (OR)|0.64||||0.632|TWO_SIDED|95.0|0.05|5.87|||Cochran-Mantel-Haenszel|||||5.87|0.05|0.632
82533609|NCT03486899|164764894|SUPERIORITY||Odds Ratio (OR)|0.32||||0.293|TWO_SIDED|95.0|0.01|4.19|||Cochran-Mantel-Haenszel|||||4.19|0.01|0.293
82533610|NCT03486899|164764895|SUPERIORITY||Odds Ratio (OR)|1.36||||0.718|TWO_SIDED|95.0|0.22|9.8|||Cochran-Mantel-Haenszel|||||9.80|0.22|0.718
82533611|NCT03486899|164764895|SUPERIORITY||Odds Ratio (OR)|0.64||||0.632|TWO_SIDED|95.0|0.05|5.87|||Cochran-Mantel-Haenszel|||||5.87|0.05|0.632
82533612|NCT03486899|164764895|SUPERIORITY||Odds Ratio (OR)|0.32||||0.293|TWO_SIDED|95.0|0.01|4.19|||Cochran-Mantel-Haenszel|||||4.19|0.01|0.293
82533613|NCT03486899|164764896|SUPERIORITY||Odds Ratio (OR)|2.55||||0.101|TWO_SIDED|95.0|0.73|10.12|||Cochran-Mantel-Haenszel|||||10.12|0.73|0.101
82533614|NCT03486899|164764896|SUPERIORITY||Odds Ratio (OR)|1.43||||0.587|TWO_SIDED|95.0|0.36|6.17|||Cochran-Mantel-Haenszel|||||6.17|0.36|0.587
82533615|NCT03486899|164764896|SUPERIORITY||Odds Ratio (OR)|1.72||||0.371|TWO_SIDED|95.0|0.45|7.2|||Cochran-Mantel-Haenszel|||||7.20|0.45|0.371
82533616|NCT03486899|164764897|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
82533617|NCT03486899|164764897|SUPERIORITY||Odds Ratio (OR)|1.83||||0.381|TWO_SIDED|95.0|0.43|9.1|||Cochran-Mantel-Haenszel|||||9.10|0.43|0.381
82533618|NCT03486899|164764897|SUPERIORITY||Odds Ratio (OR)|2.2||||0.214|TWO_SIDED|95.0|0.53|10.64|||Cochran-Mantel-Haenszel|||||10.64|0.53|0.214
82533619|NCT03486899|164764898|SUPERIORITY||Odds Ratio (OR)|2.85||||0.06|TWO_SIDED|95.0|0.83|11.21|||Cochran-Mantel-Haenszel|||||11.21|0.83|0.060
82418852|NCT01292473|164548624|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.01||||0.0603|TWO_SIDED|95.0|-4.11|0.09||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||0.09|-4.11|0.0603
82418853|NCT01292473|164548624|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.51|||<|0.0001|TWO_SIDED|95.0|-6.65|-2.36||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-2.36|-6.65|<0.0001
82418854|NCT01292473|164548624|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.09|||<|0.0001|TWO_SIDED|95.0|-9.26|-4.93||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-4.93|-9.26|<0.0001
82418855|NCT01292473|164548625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.0478|TWO_SIDED|95.0|1.0|2.05||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between Placebo and Omalizumab 75 mg.||2.05|1.00|0.0478
82418856|NCT01292473|164548625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59||||0.0101|TWO_SIDED|95.0|1.12|2.26||Refer to the Type-I error control plan.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||2.26|1.12|0.0101
82418857|NCT01292473|164548625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.48|3.03||Refer to the Type-I error control plan.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between placebo and omalizumab 300 mg groups.||3.03|1.48|<0.0001
82418858|NCT01292473|164548626|SUPERIORITY_OR_OTHER|||||||0.3419||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.3419
82418859|NCT01292473|164548626|SUPERIORITY_OR_OTHER|||||||0.001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0010
82418860|NCT01292473|164548626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between placebo and omalizumab 300 mg groups.||||<0.0001
82418861|NCT01292473|164548627|SUPERIORITY_OR_OTHER|||||||0.4366||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.4366
82418862|NCT01292473|164548627|SUPERIORITY_OR_OTHER|||||||0.0045||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0045
82418863|NCT01292473|164548627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||||<0.0001
82418864|NCT01292473|164548628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.48||||0.0082|TWO_SIDED|95.0|-4.32|-0.65||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||-0.65|-4.32|0.0082
82418865|NCT01292473|164548628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.76|||<|0.0001|TWO_SIDED|95.0|-5.61|-1.9||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-1.90|-5.61|<0.0001
82418866|NCT01292473|164548628|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.15|||<|0.0001|TWO_SIDED|95.0|-9.03|-5.27||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and the omalizumab 300 mg groups.||-5.27|-9.03|<0.0001
82418867|NCT01292473|164548629|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.68||||0.1207|TWO_SIDED|95.0|-3.82|0.45||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||0.45|-3.82|0.1207
82418868|NCT01292473|164548629|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.51||||0.0215|TWO_SIDED|95.0|-4.64|-0.38||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||-0.38|-4.64|0.0215
82418869|NCT01292473|164548629|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.79||||0.0004|TWO_SIDED|95.0|-5.85|-1.73||Refer to the Type-I error control plan.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg groups.||-1.73|-5.85|0.0004
82418870|NCT01292473|164548630|SUPERIORITY_OR_OTHER|||||||0.1361||||||Refer to the Type-I error control plan. The p-value was not evaluated for statistical significance in accordance with the Type I error control plan provided in the Detailed Description.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 75 mg groups.||||0.1361
82418871|NCT01292473|164548630|SUPERIORITY_OR_OTHER|||||||0.0905||||||Refer to the Type-I error control plan.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 150 mg groups.||||0.0905
82418872|NCT01292473|164548630|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Refer to the Type-I error control plan.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis is that there is no difference between the placebo and omalizumab 300 mg.||||<0.0001
82447789|NCT03354273|164604369|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|5.0||||0.001|TWO_SIDED|95.0|-4.6|14.6|||Nam's RMLE|||Majority Rule: Specificity||14.6|-4.6|0.0010
82533620|NCT03486899|164764898|SUPERIORITY||Odds Ratio (OR)|1.93||||0.276|TWO_SIDED|95.0|0.53|7.92|||Cochran-Mantel-Haenszel|||||7.92|0.53|0.276
82533621|NCT03486899|164764898|SUPERIORITY||Odds Ratio (OR)|1.72||||0.371|TWO_SIDED|95.0|0.45|7.2|||Cochran-Mantel-Haenszel|||||7.20|0.45|0.371
82647216|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.756|TWO_SIDED|95.0|-1.7|1.24|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 45.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||1.24|-1.70|0.756
82418873|NCT02327143|164548666|SUPERIORITY_OR_OTHER||Ratio of geometric least squares|0.448|||||TWO_SIDED|90.0|0.395|0.508|||||Absolute bioavailability of LY2835219 following the administration of 200 mg LY2835219 (oral) with 0.4 mg \[13C8\]-LY2835219 (IV).|||0.508|0.395|
82418874|NCT03777176|164548682|SUPERIORITY|The negative binomial regression used region and treatment group as fixed effects, and Baseline hypoglycemic rate as covariate and number of hypoglycemic events during Weeks 2-4 as dependent variable.|Event rate ratio|0.85||||0.5028|TWO_SIDED|95.0|0.54|1.36|||Negative binomial regression|||The primary analysis was performed as a negative binominal regression analysis on the difference of the SMPG-detected hypoglycemia episode rate between treatment groups over the Weeks 2-4.||1.36|0.54|0.5028
82418875|NCT03777176|164548683|SUPERIORITY||Mean Difference (Net)|0.84||||0.6433|TWO_SIDED|95.0|-2.71|4.39||The P value should be interpreted with caution given the procedural issues (hypoglycemia at the beginning of the test, test meals not being the same, and some children only having 1 test) which affected the preplanned statistical evaluation.|ANCOVA|||||4.39|-2.71|0.6433
82418876|NCT03777176|164548684|SUPERIORITY||Mean Difference (Net)|0.15||||0.9653|TWO_SIDED|95.0|-6.48|6.78||There was 1 missing value at Baseline for the dasiglucagon + standard of care group.|ANCOVA|||||6.78|-6.48|0.9653
82418877|NCT03777176|164548685|SUPERIORITY||Event rate ratio|0.93||||0.8114|TWO_SIDED|95.0|0.49|1.74|||Negative binominal regression|The negative binomial regression used region and treatment group as fixed effects, and Baseline hypoglycemic rate as covariate.||||1.74|0.49|0.8114
82418878|NCT01362530|164548699|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
82418879|NCT01362530|164548700|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.05
82418880|NCT01362530|164548701|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
82418881|NCT01362530|164548702|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Cochran-Mantel-Haenszel|Stratified by age group, use of dexamethasone as an anti-emetic, and receipt of very high risk emetogenic chemotherapy.||||||<0.01
82418882|NCT01133977|164548705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.23|0.75||||||The current study was not powered or designed to determine superiority of the '20 mg Lenvatinib + Dacarbazine (Phase 2)' arm compared with 'Dacarbazine (Phase 2) ' arm.||0.75|0.23|
82447790|NCT03354273|164604370|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|11.0||||0.0294|TWO_SIDED|95.0|-2.6|24.6|||McNemar|||Reader 1: Sensitivity||24.6|-2.6|0.0294
82533622|NCT03486899|164764899|SUPERIORITY||Odds Ratio (OR)|1.72||||0.242|TWO_SIDED|95.0|0.62|4.87|||Cochran-Mantel-Haenszel|||||4.87|0.62|0.242
82533623|NCT03486899|164764899|SUPERIORITY||Odds Ratio (OR)|1.1||||0.803|TWO_SIDED|95.0|0.37|3.26|||Cochran-Mantel-Haenszel|||||3.26|0.37|0.803
82533624|NCT03486899|164764899|SUPERIORITY||Odds Ratio (OR)|1.56||||0.35|TWO_SIDED|95.0|0.56|4.46|||Cochran-Mantel-Haenszel|||||4.46|0.56|0.350
82447791|NCT03354273|164604370|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|3.9||||0.0117|TWO_SIDED|95.0|-8.3|16.1|||Nam's RMLE|||Reader 1: Specificity||16.1|-8.3|0.0117
82447792|NCT03354273|164604370|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|6.6||||0.1444|TWO_SIDED|95.0|-7.1|20.3|||McNemar|||Reader 2: Sensitivity||20.3|-7.1|0.1444
82447793|NCT03354273|164604370|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|11.7||||0.0001|TWO_SIDED|95.0|-0.4|23.7|||Nam's RMLE|||Reader 2: Specificity||23.7|-0.4|0.0001
82447794|NCT03354273|164604370|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|8.8||||0.044|TWO_SIDED|95.0|-1.3|18.9|||McNemar|||Reader 3: Sensitivity||18.9|-1.3|0.0440
82418883|NCT00215553|164548720|SUPERIORITY_OR_OTHER|||||||0.794||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.794
82418884|NCT00215553|164548720|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.236
82418885|NCT00215553|164548720|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||Cochran-Mantel-Haenszel|||Null hypothesis: No difference between treatment groups||||0.396
82418886|NCT00215553|164548721|SUPERIORITY_OR_OTHER|||||||0.346||95.0|||||Cochran-Mantel-Haenszel|||||||0.346
82533625|NCT01232556|164764965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.083||||0.708|TWO_SIDED|95.0|0.82|1.44||A one sided 0.025 level testing plan was specified with two interim analyses and final testing level at one-sided 0.023.|Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are are pre-randomization investigator choice, baseline Secondary International Prognostic Index (sIPI), and best response to most recent chemo therapy.|Primary null hypothesis: Equality of survival distributions. Sample size sufficient to have power 0.96 for an experimental/control hazard ratio of 0.6.||1.44|0.82|0.708
82533626|NCT01232556|164764966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.924||||0.271|TWO_SIDED|95.0|0.72|1.19||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.|Second comparison in hierarchical testing strategy was used for power calculation.||1.19|0.72|0.271
82533627|NCT01232556|164764967|SUPERIORITY_OR_OTHER|||||||0.843||||||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Cochran-Mantel-Haenszel|The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.||Third comparison in hierarchical testing strategy was used for power calculation.||||0.843
82418887|NCT00215553|164548721|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||Cochran-Mantel-Haenszel|||||||0.286
82418888|NCT00215553|164548721|SUPERIORITY_OR_OTHER|||||||0.964||95.0|||||Cochran-Mantel-Haenszel|||||||0.964
82418889|NCT00215553|164548722|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||ANOVA|ANOVA on ranks||||||0.028
82418890|NCT00215553|164548722|SUPERIORITY_OR_OTHER|||||||0.147||95.0|||||ANOVA|ANOVA on ranks||||||0.147
82418891|NCT00215553|164548722|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||ANOVA|ANOVA on ranks||||||0.293
82447795|NCT03354273|164604370|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|7.8||||0.0022|TWO_SIDED|95.0|-4.8|20.3|||Nam's RMLE|||Reader 3: Specificity||20.3|-4.8|0.0022
82447796|NCT03354273|164604370|SUPERIORITY|The test of sensitivity comparison between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a 1-sided McNemar's test at a significance level of 0.025 using 1-sided McNemar's tests.|Difference between PET MPI and SPECT MPI|4.4||||0.2164|TWO_SIDED|95.0|-8.4|17.2|||McNemar|||Majority Rule: Sensitivity||17.2|-8.4|0.2164
82447797|NCT03354273|164604370|NON_INFERIORITY|The test of specificity noninferiority between Flurpiridaz (18F) Injection PET MPI and SPECT MPI was performed with a paired test for noninferiority at a 1-sided significance level of 0.025 using Nam's RMLE method (margin=0.1).|Difference between PET MPI and SPECT MPI|9.7||||0.0006|TWO_SIDED|95.0|-2.6|22.0|||Nam's RMLE|||Majority Rule: Specificity||22.0|-2.6|0.0006
82447798|NCT02277925|164604371|SUPERIORITY||Risk Ratio (RR)|1.74||||0.3|TWO_SIDED|95.0|0.59|5.14|||Chi-squared|||||5.14|0.59|0.30
82447799|NCT02277925|164604372|SUPERIORITY||Risk Ratio (RR)|1.03||||0.43|TWO_SIDED|95.0|0.96|1.11|||Chi-squared|||||1.11|0.96|0.43
82447800|NCT02277925|164604373|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.39|TWO_SIDED|95.0|-14.7|5.7|||t-test, 2 sided|||||5.7|-14.7|0.39
82447801|NCT00244101|164604388|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.59|1.03||||||PS group used as standard of care. Relative risk and 95 % CI calculated for PS (reference) versus ISX or NCPAP.||1.03|0.59|
82447802|NCT00244101|164604388|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.25|1.27||||||PS group used as standard of care. Relative risk and 95% CI calculated for PS (reference) versus NCPAP.||1.27|0.25|
82447803|NCT00244101|164604389|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.49|1.94||||||PS group used as standard of care. Relative risk and 95 % CI calculated for PS (reference) versus ISX.||1.94|0.49|
82576650|NCT03296800|164863556|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|140.98|||||TWO_SIDED|90.0|131.39|151.26|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||151.26|131.39|
82447804|NCT00244101|164604389|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.64|1.09||||||PS group used as standard of care. Relative risk and 95% CI calculated for PS (reference) versus NCPAP.||1.09|0.64|
82447805|NCT01959139|164604391|SUPERIORITY||Hazard Ratio (HR)|2.07|||<|0.01|TWO_SIDED|95.0|1.28|3.34|||Regression, Cox|||||3.34|1.28|<0.01
82447806|NCT01959139|164604392|SUPERIORITY||Hazard Ratio (HR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.66|||Regression, Cox|||||2.66|1.14|0.01
82533628|NCT01232556|164764968|SUPERIORITY_OR_OTHER|||||||0.714||||||An hierarchical testing strategy was specified for OS, PFS and response. PFS could be tested at the 0.023 level if the OS test result were positive. Response could be tested if both the OS and PFS test results were positive.|Cochran-Mantel-Haenszel|The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.||Third comparison in hierarchical testing strategy was used for power calculation.||||0.714
82533629|NCT01232556|164764969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.142|TWO_SIDED|95.0|0.47|1.25|||Log Rank|From one sided stratified log-rank test.|From stratified Cox proportional hazards model. The stratification factors are pre-randomization investigator choice, baseline sIPI, and best response to most recent chemo therapy.|DOR was not part of the formal hypothesis testing strategy.||1.25|0.47|0.142
82418892|NCT01429623|164548723|SUPERIORITY||Odds Ratio (OR)|1.55|||<|0.16|TWO_SIDED|95.0|0.74|3.25|||Log Rank|||||3.25|0.74|<0.16
82418893|NCT01429623|164548724|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.24|<|0.61|TWO_SIDED||||||Mixed Models Analysis|||||||<0.61
82418894|NCT01429623|164548725|SUPERIORITY||Mean Difference (Net)|-0.066|STANDARD_ERROR_OF_MEAN|0.085|<|0.32|TWO_SIDED||||||Mixed Models Analysis|||||||<0.32
82418895|NCT01429623|164548726|SUPERIORITY||Mean Difference (Net)|0.79|STANDARD_ERROR_OF_MEAN|1.17|<|0.97|TWO_SIDED||||||Mixed Models Analysis|||||||<0.97
82418896|NCT01550965|164548785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.001|TWO_SIDED|95.0|16.08|18.73|||paired t-test, 2 sided|||Hypothesis testing for the first ranked primary outcome was performed in a hierarchical order using the two-sided paired t-test for mean change equal to zero.||18.73|16.08|<0.001
82418897|NCT01550965|164548786|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1383.81|||<|0.001|TWO_SIDED|95.0|-1586.36|-1181.26|||Paired t-test, 2 sided|||Hypothesis testing for the second ranked primary outcome was performed in a hierarchical order using the two-sided paired t-test for mean change equal to zero.||-1181.26|-1586.36|<0.001
82418898|NCT01550965|164548787|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1297.77|||<|0.001|TWO_SIDED|95.0|-1562.17|-1033.36|||Paired t-test, 2 sided|||||-1033.36|-1562.17|<0.001
82418899|NCT01550965|164548788|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4308.32|||<|0.001|TWO_SIDED|95.0|-4985.13|-3631.51|||Paired t-test, 2 sided|||||-3631.51|-4985.13|<0.001
82418900|NCT01550965|164548789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.3|||<|0.001|TWO_SIDED|95.0|-9.83|-4.78|||Paired t-test, 2 sided|||||-4.78|-9.83|<0.001
82418901|NCT01550965|164548790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.37|||<|0.001|TWO_SIDED|95.0|21.5|27.25|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Effectiveness.||27.25|21.50|<0.001
82418902|NCT01550965|164548790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.95|||<|0.001|TWO_SIDED|95.0|15.42|22.48|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Side Effects.||22.48|15.42|<0.001
82418903|NCT01550965|164548790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.2|||<|0.001|TWO_SIDED|95.0|3.89|8.5|||Paired t-test, 2 sided)|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Convenience.||8.50|3.89|<0.001
82418904|NCT01550965|164548790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.6|||<|0.001|TWO_SIDED|95.0|19.55|25.64|||Paired t-test, 2 sided|||Statistical analysis for Treatment Satisfaction Questionnaire for Medication (TSQM) Global Satisfaction.||25.64|19.55|<0.001
82418905|NCT01550965|164548791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.85|||<|0.001|TWO_SIDED|95.0|-5.42|-4.27|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization.||-4.27|-5.42|<0.001
82418906|NCT01550965|164548791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.11|0.09|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization during emergency department visits.||0.09|-0.11|0.830
82418907|NCT01550965|164548791|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92|||<|0.001|TWO_SIDED|95.0|-1.18|-0.66|||Paired t-test, 2 sided|||Statistical analysis for overall UC-related outpatient utilization during primary care doctor visits.||-0.66|-1.18|<0.001
82418908|NCT01550965|164548792|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||McNemar|||Statistical analysis for percentage of participants with absence of blood in stool from week 0 to week 26.||||<0.001
82418909|NCT01550965|164548793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||<|0.001|TWO_SIDED|95.0|10.21|12.02|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 2.||12.02|10.21|<0.001
82418910|NCT01550965|164548793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.38|||<|0.001|TWO_SIDED|95.0|14.2|16.56|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 8.||16.56|14.20|<0.001
82418911|NCT01550965|164548793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.77|||<|0.001|TWO_SIDED|95.0|13.57|15.96|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||15.96|13.57|<0.001
82418912|NCT01550965|164548793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.001|TWO_SIDED|95.0|16.08|18.73|||Paired t-test, 2 sided|||Statistical analysis for mean change in SIBDQ: Total Score from week 0 to week 26.||18.73|16.08|<0.001
82418913|NCT01550965|164548794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.69|-0.57|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 2.||-0.57|-0.69|<0.001
82418914|NCT01550965|164548794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||<|0.001|TWO_SIDED|95.0|-1.16|-1.0|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 8.||-1.00|-1.16|<0.001
82418915|NCT01550965|164548794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86|||<|0.001|TWO_SIDED|95.0|-0.95|-0.77|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-0.77|-0.95|<0.001
82418916|NCT01550965|164548794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.001|TWO_SIDED|95.0|-1.23|-1.06|||Paired t-test, 2 sided|||Statistical analysis for mean change in PGA from week 0 to week 26.||-1.06|-1.23|<0.001
82418917|NCT01550965|164548795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.22|||<|0.001|TWO_SIDED|95.0|-3.46|-2.99|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 2.||-2.99|-3.46|<0.001
82418918|NCT01550965|164548795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.06|||<|0.001|TWO_SIDED|95.0|-4.37|-3.76|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 8.||-3.76|-4.37|<0.001
82418919|NCT01550965|164548795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.01|||<|0.001|TWO_SIDED|95.0|-3.36|-2.66|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-2.66|-3.36|<0.001
82418920|NCT01550965|164548795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|||<|0.001|TWO_SIDED|95.0|-4.43|-3.72|||Paired t-test, 2 sided|||Statistical analysis for mean change in total SCCAI from week 0 to week 26.||-3.72|-4.43|<0.001
82418921|NCT01550965|164548796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||<|0.001|TWO_SIDED|95.0|0.08|0.11|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 2.||0.11|0.08|<0.001
82418922|NCT01550965|164548796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.001|TWO_SIDED|95.0|0.11|0.15|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 8.||0.15|0.11|<0.001
82418923|NCT01550965|164548796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||<|0.001|TWO_SIDED|95.0|0.1|0.14|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||0.14|0.10|<0.001
82418924|NCT01550965|164548796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.12|0.17|||Paired t-test, 2 sided|||Statistical analysis for mean change in total EQ-5D-5L total score from week 0 to week 26.||0.17|0.12|<0.001
82418925|NCT01550965|164548797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.62|||<|0.001|TWO_SIDED|95.0|-12.07|-5.18|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 2.||-5.18|-12.07|<0.001
82418926|NCT01550965|164548797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.22|||<|0.001|TWO_SIDED|95.0|-16.27|-8.16|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 8.||-8.16|-16.27|<0.001
82447807|NCT00741013|164604419|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Only a single statistical analysis was performed upon completion of the study.|ANOVA|||One-way analysis of variance was performed to determine whether lovastatin or rhAPC effectively reduced endotoxin-induced lung inflammation.||||<0.05
82418927|NCT01550965|164548797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.61|||<|0.001|TWO_SIDED|95.0|-15.82|-7.4|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-7.40|-15.82|<0.001
82418928|NCT01550965|164548797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.43|||<|0.001|TWO_SIDED|95.0|-15.5|-7.35|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of work time missed from week 0 to week 26.||-7.35|-15.50|<0.001
82418929|NCT01550965|164548798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.56|||<|0.001|TWO_SIDED|95.0|-20.0|-13.12|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 2.||-13.12|-20.00|<0.001
82418930|NCT01550965|164548798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.95|||<|0.001|TWO_SIDED|95.0|-26.93|-18.97|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 8.||-18.97|-26.93|<0.001
82418931|NCT01550965|164548798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.68|||<|0.001|TWO_SIDED|95.0|-25.69|-17.67|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-17.67|-25.69|<0.001
82418932|NCT01550965|164548798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.45|||<|0.001|TWO_SIDED|95.0|-28.33|-20.58|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of impairment while working from week 0 to week 26.||-20.58|-28.33|<0.001
82418933|NCT01550965|164548799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.34|||<|0.001|TWO_SIDED|95.0|-22.1|-14.57|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 2.||-14.57|-22.10|<0.001
82418934|NCT01550965|164548799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.54|||<|0.001|TWO_SIDED|95.0|-31.08|-22.0|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 8.||-22.00|-31.08|<0.001
82418935|NCT01550965|164548799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.33|||<|0.001|TWO_SIDED|95.0|-29.97|-20.7|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using LOCF.||-20.70|-29.97|<0.001
82418936|NCT01550965|164548799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.22|||<|0.001|TWO_SIDED|95.0|-33.5|-24.93|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: overall work impairment percentage from week 0 to week 26.||-24.93|-33.50|<0.001
82447808|NCT00082407|164604421|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified non-inferiority margin was 0.4% (i.e., noninferiority is demonstrated if the upper limit of a two-sided 95% confidence interval for the difference in change in HbA1c between exenatide and biphasic insulin aspart is less than 0.4%.)|Mean Difference (Final Values)|-0.1||||0.2534||95.0|-0.28|0.08|||ANCOVA|||||0.08|-0.28|0.2534
82447809|NCT00082407|164604422|SUPERIORITY_OR_OTHER|||||||0.0779||95.0|||||Fisher Exact|||||||0.0779
82447810|NCT00082407|164604423|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
82447811|NCT00082407|164604424|SUPERIORITY_OR_OTHER|||||||0.6456||95.0|||||ANCOVA|||||||0.6456
82418937|NCT01550965|164548800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.001|TWO_SIDED|95.0|-20.47|-15.85|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 2.||-15.85|-20.47|<0.001
82418938|NCT01550965|164548800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.43|||<|0.001|TWO_SIDED|95.0|-28.3|-22.56|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 8.||-22.56|-28.30|<0.001
82533630|NCT01232556|164764970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.2892|TWO_SIDED|95.0|-0.02|0.06|||Mixed Models Analysis|Repeated measures mixed effects model with treatment, time, treatment-by-time interaction, and baseline as covariate.||||0.06|-0.02|0.2892
82533631|NCT01232556|164764971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.11||||0.1879|TWO_SIDED|95.0|-1.52|7.74|||Mixed Models Analysis|Repeated measures mixed effects model with treatment, time, treatment-by-time interaction, and baseline as covariate.||||7.74|-1.52|0.1879
82647217|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45||||0.006|TWO_SIDED|95.0|0.69|4.22|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||4.22|0.69|0.006
82418939|NCT01550965|164548800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.42|||<|0.001|TWO_SIDED|95.0|-27.33|-21.5|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 18. Efficacy assessments were not specified at week 18; missing data at week 18 were imputed using last observation carried forward (LOCF).||-21.50|-27.33|<0.001
82418940|NCT01550965|164548800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.22|||<|0.001|TWO_SIDED|95.0|-30.28|-24.16|||Paired t-test, 2 sided|||Statistical analysis for mean change in WPAI-SHP: percentage of activity impairment from week 0 to week 26.||-24.16|-30.28|<0.001
82418941|NCT03093246|164548801|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
82418942|NCT03093246|164548802|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
82418943|NCT03093246|164548803|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Generalized Estimated Equations|||||||<0.05
82418944|NCT00066170|164548834|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's|||||||<0.001
82418945|NCT00066170|164548834|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's|||||||<0.001
82418946|NCT00987935|164548836|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.357|||||TWO_SIDED|95.0|0.802|2.296|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.296|0.802|
82418947|NCT00987935|164548837|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.213|||||TWO_SIDED|95.0|0.73|2.014|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||2.014|0.730|
82418948|NCT00987935|164548841|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.186|||||TWO_SIDED|95.0|0.728|1.932|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.932|0.728|
82418949|NCT00987935|164548842|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.593|1.489|||||"Hazard ratio from Cox proportional hazards model stratified by macroscopic vacular invasion, extrahepatic spread, or both present vs both absent.~HR below 1 favors Nintedanib."|||1.489|0.593|
82418950|NCT00452530|164548850|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.5||||0.0003||||||1-sided P-value|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the secondary endpoint at a 1-sided α=0.025 level. If NI of the secondary endpoint was demonstrated, superiority was then tested at the 1-sided α=0.025 level.||||0.0003
82418951|NCT00452530|164548850|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.04||||||95.0|-2.03|-0.05|||Inverse variance method|||Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the secondary endpoint at a 1-sided α=0.025 level. If NI of the secondary endpoint was demonstrated, superiority was then tested at the 1-sided α=0.025 level.||-0.05|-2.03|
82418952|NCT00452530|164548851|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-0.33||||0.3014|TWO_SIDED|95.0|-0.95|0.29|||Mantel Haenszel||Apixaban-enoxaparin|Major bleeding||0.29|-0.95|0.3014
82418953|NCT00452530|164548851|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-0.91||||0.1668|TWO_SIDED|95.0|-2.2|0.38|||Mantel Haenszel||Apixaban-enoxaparin|CRNM||0.38|-2.20|0.1668
82418954|NCT00452530|164548851|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-1.24||||0.0881|TWO_SIDED|95.0|-2.66|0.18|||Mantel Haenszel||Apixaban-enoxaparin|Major or CRNM||0.18|-2.66|0.0881
82418955|NCT00452530|164548851|SUPERIORITY_OR_OTHER||Adjusted difference of event rates|-1.39||||0.1412|TWO_SIDED|95.0|-3.29|0.51|||Mantel Haenszel||Apixaban-enoxaparin|Any bleeding||0.51|-3.29|0.1412
82426624|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-1.2|-1.9|<0.0001
82533632|NCT01473420|164764975|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|95.0|-0.17|0.24||||||Least square (LS) mean and 95 percent confidence interval (CI) derived from an analysis of covariance (ANCOVA) model with fixed effect of treatment.||0.24|-0.17|
82533633|NCT01473420|164764976|NON_INFERIORITY_OR_EQUIVALENCE|An equivalence margin of +/- 0.5 was considered relevant to demonstrate the equivalence of the two products.|LS Mean Difference|-2.34|STANDARD_ERROR_OF_MEAN|6.175|||TWO_SIDED|95.0|-14.51|9.82||||||LS mean and 95 percent CI derived from an ANCOVA model with fixed effect of treatment.||9.82|-14.51|
82533634|NCT01473420|164764977|SUPERIORITY_OR_OTHER|||||||0.8338|||||||Two-sample t-test|||||||0.8338
82533635|NCT01473420|164764978|SUPERIORITY_OR_OTHER|||||||0.6895|||||||Wilcoxon Rank Sum test|P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.||||||0.6895
82418956|NCT00452530|164548852|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.74||P-value was statistically significant at the 1-sided 0.025 level|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If NI on primary endpoint was demonstrated, superiority for the endpoint was then tested at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the key secondary endpoint at 1-sided α=0.025 level.||0.74|0.51|<0.0001
82418957|NCT00452530|164548852|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.27|||<|0.0001||95.0|-12.74|-5.79||P-value is statistically significant at the 1-sided 0.025 level|Yanagawa, Tango, and Hiejima test||Apixaban-enoxaparin|Sequential testing was used to control for overall type-I error and to compare the effect of apixaban with that of enoxaparin. Noninferiority (NI) of apixaban compared with enoxaparin for primary endpoint was tested first at 1-sided α=0.025 level. If NI on primary endpoint was demonstrated, superiority for the endpoint was then tested at 1-sided α=0.025 level. If superiority was demonstrated on the primary endpoint, NI was then tested on the key secondary endpoint at 1-sided α=0.025 level.||-5.79|-12.74|<0.0001
82418958|NCT06868667|164548868|OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.11|1.52|||||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||1.52|0.11|
82426030|NCT02410772|164560987|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than , then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|4.4||||0.05|TWO_SIDED|95.0|1.2|7.7||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a|Cochran-Mantel-Haenszel|||For primary efficacy endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||7.7|1.2|0.05
82426031|NCT02410772|164560988|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than, then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|-0.6||||0.05|TWO_SIDED|95.0|-4.3|3.2||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary Safety endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||3.2|-4.3|0.05
82426032|NCT02410772|164560988|NON_INFERIORITY|Non-inferiority was assessed using the upper bound of the two-sided 95% CI for the difference between the percentage of patients who are classified as having an unfavorable status on the control regimen (2HRZE/ 4 HR) and the investigational regimens, Regimen 2 (2HPZ/2HP) and Regimen 3 (2HPZM/2HPM). If the upper bound of the confidence interval is less than, then the non-inferiority of Arm 2 or Arm 3 to Arm 1 with a significance level of 0.05 is established (equivalent to one-sided α=0.025).|Risk Difference (RD)|-5.1||||0.05|TWO_SIDED|95.0|-8.7|-1.5||For a significance level of 0.05, the statistical test is equivalent to obtaining the two-sided 95% confidence interval for the difference of r\_b-r\_a.|Cochran-Mantel-Haenszel|||For primary Safety endpoint, unfavorable outcomes for Arm1(control) vs Arm3(2PHZM/2PHM) will be considered first, if non-inferiority criteria are met, then Arm 1 vs Arm 2(2PHZE/2PH) will be compared. The proportion of participants with unfavorable outcome can be estimated as: if r\_a and r\_b are the proportions of unfavorable outcome for the two study arms (a=Arm1 and b = Arm2 or Arm3) and if δ is the non-inferiority margin (=6.6%), statistical hypothesis is H\_0:r\_b-r\_a≥δ vs.H\_1:r\_b-r\_a\<δ||-1.5|-8.7|0.05
82426033|NCT02410772|164560993|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-2.45|4.63||||||||4.63|-2.45|
82426034|NCT02410772|164560993|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|4.12|||||TWO_SIDED|95.0|0.45|7.79||||||||7.79|0.45|
82533636|NCT01473420|164764979|SUPERIORITY_OR_OTHER|||||||0.9177|||||||Wilcoxon Rank Sum test|P-value was calculated from a Wilcoxon Rank Sum test and t-approximation was used.||||||0.9177
82426035|NCT02410772|164560994|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|1.05|||||TWO_SIDED|95.0|-2.01|4.11||||||||4.11|-2.01|
82426036|NCT02410772|164560994|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066)|Risk Difference (RD)|3.66|||||TWO_SIDED|95.0|0.42|6.9||||||||6.90|0.42|
82426037|NCT02410772|164560996|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|3.0|||||TWO_SIDED|95.0|-0.6|6.6||||||||6.6|-0.6|
82426038|NCT02410772|164560996|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|2.29|||||TWO_SIDED|95.0|-1.12|5.7||||||||5.70|-1.12|
82533637|NCT00738530|164765014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.336|TWO_SIDED|95.0|0.76|1.1|||Log Rank|||||1.10|0.76|0.3360
82533638|NCT00738530|164765016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0004|TWO_SIDED|95.0|0.64|0.88|||Log Rank|||||0.88|0.64|0.0004
82533639|NCT00738530|164765017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0002|TWO_SIDED|95.0|0.62|0.86|||Log Rank|||||0.86|0.62|0.0002
82418959|NCT03681093|164548895|SUPERIORITY||Least Squares (LS) Mean|0.05|STANDARD_ERROR_OF_MEAN|0.323||0.979|TWO_SIDED|95.0|-0.59|0.7||Adjusted p-value is reported. The adjusted p-value was obtained from the Dunnet Multiplicity Correction applied to control the Type I error for the primary analysis.|Mixed Model for Repeated Measures (MMRM)|||||0.70|-0.59|0.979
82418960|NCT03681093|164548895|SUPERIORITY||LS Mean|-0.25|STANDARD_ERROR_OF_MEAN|0.319||0.656|TWO_SIDED|95.0|-0.88|0.39||Adjusted p-value is reported. The adjusted p-value was obtained from the Dunnet Multiplicity Correction applied to control the Type I error for the primary analysis.|MMRM|||||0.39|-0.88|0.656
82418961|NCT03681093|164548896|SUPERIORITY||LS Mean|0.64|STANDARD_ERROR_OF_MEAN|0.249||0.012|TWO_SIDED|95.0|0.15|1.14||Unadjusted p-value|MMRM|||||1.14|0.15|0.012
82418962|NCT03681093|164548896|SUPERIORITY||LS Mean|0.45|STANDARD_ERROR_OF_MEAN|0.248||0.074|TWO_SIDED|95.0|-0.04|0.94||Unadjusted p-value|MMRM|||||0.94|-0.04|0.074
82418963|NCT03681093|164548897|SUPERIORITY||LS Mean|5.22|STANDARD_ERROR_OF_MEAN|4.881||0.288|TWO_SIDED|95.0|-4.49|14.93||Unadjusted p-value|MMRM|||||14.93|-4.49|0.288
82418964|NCT03681093|164548897|SUPERIORITY||LS Mean|-2.17|STANDARD_ERROR_OF_MEAN|4.936||0.661|TWO_SIDED|95.0|-11.99|7.65||Unadjusted p-value|MMRM|||||7.65|-11.99|0.661
82533640|NCT00738530|164765019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0023|TWO_SIDED|95.0|0.66|0.92|||Log Rank|||||0.92|0.66|0.0023
82418965|NCT03681093|164548898|SUPERIORITY||LS Mean|0.61|STANDARD_ERROR_OF_MEAN|1.809||0.735|TWO_SIDED|95.0|-2.98|4.21||Unadjusted p-value|MMRM|||||4.21|-2.98|0.735
82418966|NCT03681093|164548898|SUPERIORITY||LS Mean|4.51|STANDARD_ERROR_OF_MEAN|1.821||0.015|TWO_SIDED|95.0|0.89|8.13||Unadjusted p-value|MMRM|||||8.13|0.89|0.015
82418967|NCT00368849|164548923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.63|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.63
82418968|NCT00368849|164548924|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.09|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.09
82418969|NCT00368849|164548925|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26||||0.46|||||||ANCOVA|||The primary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.46
82418970|NCT00368849|164548926|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.84|||||||ANCOVA|||The secondary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.84
82418971|NCT00368849|164548927|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.76|||||||ANCOVA|||The secondary measures were analyzed as pretreatment and posttreatment difference scores using a series of analyses of covariance controlling for age. The results were screened for model violations (e.g., outliers). Preliminary analyses assured no treatment order effects by examining block by treatment interactions.||||0.76
82418972|NCT02006836|164548928|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 1 sided|||H0: GI of pomelo for diabetic patients - GI of pomelo for healthy people = 0 H1: GI of pomelo for diabetic patients - GI of pomelo for healthy people \> 0 α=5%||||0.005
82418973|NCT02006836|164548929|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after breakfast- ∆g before breakfast = 0 H1：∆g after breakfast- ∆g before breakfast \> 0 α=5%~* g of breasfast without pomelo=mean of 3 days of postprandial blood glucose after breakfast - mean of 3 days of blood glucose before this breakfast.~* g of breasfast with pomelo=mean of 3 days of postprandial blood glucose after breakfast - mean of 3 days of blood glucose before this breakfast."||||>0.05
82418974|NCT02006836|164548930|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after lunch - ∆g before lunch = 0 H1：∆g after lunch - ∆g before lunch \> 0 α=5%~* g of lunch without pomelo=mean of 3 days of postprandial blood glucose after lunch - mean of 3 days of blood glucose before this lunch.~* g of lunch with pomelo=mean of 3 days of postprandial blood glucose after lunch - mean of 3 days of blood glucose before this lunch."||||>0.05
82418975|NCT02006836|164548931|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||"H0：∆g after dinner- ∆g before dinner = 0 H1：∆g after dinner- ∆g before dinner \> 0 α=5%~* g of dinner without pomelo=mean of 3 days of postprandial blood glucose after dinner - mean of 3 days of blood glucose before this dinner.~* g of dinner with pomelo=mean of 3 days of postprandial blood glucose after dinner - mean of 3 days of blood glucose before this dinner."||||>0.05
82418976|NCT02006836|164548932|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 1 sided|||H0: AUC||||>0.05
82418977|NCT01902303|164548933|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Chi-squared|||||||>.5000
82418978|NCT01902303|164548934|SUPERIORITY_OR_OTHER|||||||0.3835|TWO_SIDED||||||Chi-squared|||||||.3835
82418979|NCT03211858|164548935|NON_INFERIORITY|Non-inferiority of SAR341402 over NovoLog/NovoRapid was demonstrated if upper bound of the 2-sided 95% confidence interval (CI) of the difference between SAR341402 and NovoLog/NovoRapid was \<0.3%. If non-inferiority was demonstrated, using a hierarchical step down testing procedure, the inverse non-inferiority of NovoLog/NovoRapid over SAR341402 was tested and was demonstrated if lower bound of the 2-sided 95% CI of the difference between SAR341402 and NovoLog/NovoRapid was \> -0.3%.|LS Mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.059|||TWO_SIDED|95.0|-0.192|0.039|||||SAR341402 vs NovoLog/NovoRapid|Analysis was performed using ANCOVA with treatment group (SAR341402, NovoLog/NovoRapid), the randomization strata of geographical region, type of diabetes and prior use of NovoLog/NovoRapid as fixed categorical effects, as well as the continuous fixed covariate of baseline HbA1c value.||0.039|-0.192|
82418980|NCT01934231|164548953|SUPERIORITY_OR_OTHER||Rate of Cure|88.5|||||TWO_SIDED|95.0|69.85|97.55|||||"The estimated parameter represents the rate of cure, calculated as (number of participants with an outcome of Cure/number of participants analyzed) \* 100."|||97.55|69.85|
82426039|NCT02410772|164560997|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|5.9|||||TWO_SIDED|95.0|2.8|8.9||||||||8.9|2.8|
82418981|NCT02457546|164548959|NON_INFERIORITY|"The statistical hypothesis for testing the treatment difference was presented as follows:~H0: Δ ≤ -0.10 tested against the alternative hypothesis Ha: Δ \> -0.10. where:~* Δ is the difference between the success rates of Experimental (Evicel®) and Control (DuraSeal™) (Experimental minus Control)~* -0.10 is the non-inferiority difference PC is the proportion of success in DuraSeal™ Control subjects and PE is the proportion of success in EVICEL® subjects."|Difference in Success Rates|6.3|||||TWO_SIDED|95.0|-1.8|14.4||||||||14.4|-1.8|
82418982|NCT03142451|164548966|SUPERIORITY||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|0.749||0.0031|TWO_SIDED|95.0|0.75|3.68|||ANCOVA|Analysis of covariance (ANCOVA) model includes treatment, baseline inflammatory lesion count, and analysis center.||||3.68|0.75|0.0031
82418983|NCT03142451|164548967|SUPERIORITY||Risk Ratio (RR)|1.21||||0.0273|TWO_SIDED|95.0|1.022|1.434||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.434|1.022|0.0273
82418984|NCT03142451|164548968|SUPERIORITY||Risk Ratio (RR)|1.21||||0.0171|TWO_SIDED|95.0|1.028|1.425||The p-value is for the null hypothesis that the combined risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Test Stratified by Analysis Center||||1.425|1.028|0.0171
82418985|NCT03142451|164548969|SUPERIORITY||Mean Difference (Final Values)|7.62|STANDARD_ERROR_OF_MEAN|2.626||0.0039|TWO_SIDED|95.0|2.46|12.77|||ANCOVA|ANCOVA model includes treatment, Baseline inflammatory lesion count, and analysis center.||||12.77|2.46|0.0039
82418986|NCT03142451|164548970|SUPERIORITY||Mean Difference (Final Values)|2.63|STANDARD_ERROR_OF_MEAN|0.747||0.0004|TWO_SIDED|95.0|1.16|4.09|||ANCOVA|ANCOVA model included treatment, Baseline inflammatory lesion count, and analysis center.||Statistical analysis for Week 4||4.09|1.16|0.0004
82418987|NCT03142451|164548970|SUPERIORITY||Mean Difference (Final Values)|3.09|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|1.62|4.56|||ANCOVA|ANCOVA model included treatment, Baseline inflammatory lesion count, and analysis center.||Statistical analysis for Week 8||4.56|1.62|<0.0001
82647218|NCT00996918|165009491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.75||||0.066|TWO_SIDED|95.0|-0.12|3.62|||Mixed Models Analysis|||"Change from extension study baseline in MMSE score at Week 78.~Results are from a REML based MMRM with change from extension study baseline as the response and the following fixed effect model terms: treatment, visit (scheduled week), treatment-by-visit interaction, baseline value of the response variable, baseline MMSE total score stratum and cholinesterase inhibitor or memantine use stratum."||3.62|-0.12|0.066
82418988|NCT03142451|164548971|SUPERIORITY||Risk Ratio (RR)|1.685||||0.0201|TWO_SIDED|95.0|1.085|2.616||P-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical analysis for Week 4||2.616|1.085|0.0201
82418989|NCT03142451|164548971|SUPERIORITY||Risk Ratio (RR)|1.191||||0.1278|TWO_SIDED|95.0|0.951|1.492||P-value is for the null hypothesis that the risk ratio equals 1.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by analysis center.||Statistical analysis for Week 8||1.492|0.951|0.1278
82418990|NCT00090402|164548973|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0|||||Regression, Linear|Adjusted for age and body mass index||||||0.83
82418991|NCT00871000|164548993|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 1 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against poliovirus type 1, one month after vaccination.||2.7|-2.61|
82418992|NCT00871000|164548993|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 2 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against polio type 2, one month after vaccination.||2.7|-2.61|
82418993|NCT00871000|164548993|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-polio type 3 antibody titers ≥ 8 was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.72||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against polio type 3, one month after vaccination.||2.72|-2.61|
82418994|NCT00871000|164548994|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: Upper limit (UL) of the standardised asymptotic 95% confidence interval (CI) on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-D antibody concentrations ≥ 0.1 IU/mL was lower than or equal to (≤) 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against diphtheria, one month after vaccination.||2.7|-2.61|
82418995|NCT00871000|164548994|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: UL of the standardised asymptotic 95% CI on the group difference \[Tetravac Group minus Boostrix Polio Group\] in the percentage of subjects with anti-T antibody concentrations ≥ 0.1 IU/mL was ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.61|2.7||||||To demonstrate that GSK Biologicals' Boostrix Polio™ vaccine is non-inferior to Sanofi-Pasteur-MSD's Tetravac™ vaccine, in terms of seroprotection rates against tetanus, one month after vaccination.||2.7|-2.61|
82418996|NCT03400787|164549010|SUPERIORITY|||||||0.0001||||||p\<0.025 indicates statistical significance.|t-test, 1 sided|||Null hypothesis is that the responder rate for the Latera implant treatment was not superior to the sham treatment. A maximum sample size of 124 evaluable subjects is required for 90% power and preserving a 2.5% (one-sided) type I error rate.||||0.0001
82418997|NCT01644331|164549031|SUPERIORITY_OR_OTHER|||||||0.315|||||||Chi-squared|||||||0.315
82418998|NCT01644331|164549032|SUPERIORITY_OR_OTHER||Slope|0.19||||0.021|TWO_SIDED|95.0|0.03|0.34|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.34|0.03|0.021
82418999|NCT01644331|164549033|SUPERIORITY_OR_OTHER||Slope|0.99||||0.43|TWO_SIDED|95.0|-1.47|3.44|||Mixed Models Analysis|||This a repeated measure analysis so all rows (visits) are taken into account.||3.44|-1.47|0.430
82647219|NCT02981602|165009542|OTHER|||||||0.116||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.116
82419000|NCT01644331|164549034|SUPERIORITY_OR_OTHER||Slope|-493.21||||0.157|TWO_SIDED|95.0|-1176.96|190.55|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||190.55|-1176.96|0.157
82419001|NCT01644331|164549035|SUPERIORITY_OR_OTHER|||||||0.206|||||||Chi-squared|||This is a repeated measures analysis so all rows (visits) are taken into account.||||0.206
82419002|NCT01644331|164549036|SUPERIORITY_OR_OTHER||Kaplan Meier|0.98||||0.334|TWO_SIDED|95.0|0.96|0.99|||Log Rank|||||0.99|0.96|0.334
82419003|NCT01644331|164549037|SUPERIORITY_OR_OTHER|||||||0.148|||||||Chi-squared|||||||0.148
82419004|NCT01644331|164549038|SUPERIORITY_OR_OTHER|||||||0.334|||||||Chi-squared|||||||0.334
82419005|NCT01644331|164549039|SUPERIORITY_OR_OTHER||Slope|-0.67||||0.241|TWO_SIDED|95.0|-1.79|0.45|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.45|-1.79|0.241
82419006|NCT01644331|164549040|SUPERIORITY_OR_OTHER||Slope|0.28||||0.303|TWO_SIDED|95.0|-0.26|0.82|||Mixed Models Analysis|||This is a repeated measures analysis so all rows (visits) are taken into account.||0.82|-0.26|0.303
82419007|NCT01644331|164549041|SUPERIORITY_OR_OTHER|||||||0.471||||||24 hours|Chi-squared|||||||0.471
82419008|NCT01644331|164549041|SUPERIORITY_OR_OTHER|||||||0.585||||||48 hrs|Chi-squared|||||||0.585
82419009|NCT01644331|164549041|SUPERIORITY_OR_OTHER|||||||0.12||||||72 hrs|Chi-squared|||||||0.120
82419010|NCT01644331|164549042|SUPERIORITY_OR_OTHER|||||||0.037|||||||Chi-squared|||||||0.037
82419011|NCT01644331|164549043|SUPERIORITY_OR_OTHER|||||||0.373|||||||Wilcoxon (Mann-Whitney)|||||||0.373
82419012|NCT01644331|164549044|SUPERIORITY_OR_OTHER||Kaplan Meier|0.26||||0.709|TWO_SIDED|95.0|0.21|0.32|||Log Rank|||||0.32|0.21|0.709
82419013|NCT01423084|164549045|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against H44/76 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|1.0|||||TWO_SIDED|95.0|0.82|1.23||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against H44/76 strain||1.23|0.82|
82419014|NCT01423084|164549045|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against 5/99 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.92|||||TWO_SIDED|95.0|0.77|1.1||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against 5/99 strain||1.1|0.77|
82419015|NCT01423084|164549045|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of hSBA GMTs against NZ 98/254 strain if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.81|||||TWO_SIDED|95.0|0.6|1.09||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs against NZ98/254 strain||1.09|0.6|
82419016|NCT01423084|164549053|NON_INFERIORITY_OR_EQUIVALENCE|Two different lots of rMenB+OMV NZ are to be considered equivalent in terms of ELISA GMCs against vaccine antigen 287-953 if the two sided 95% Confidence Interval (CI) between groups GMTs ratio at day 31 (ie, one month after the second vaccination ) does not exceed the range 0.5 (lower limit) - 2.0 (higher limit).|between groups ratio|0.83|||||TWO_SIDED|95.0|0.67|1.02||||||Equivalence of 2 different lots of rMenB+OMV NZ in terms of hSBA GMTs||1.02|0.67|
82419017|NCT02070380|164549094|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|47.6|||<|0.0001|TWO_SIDED|95.0|34.5|60.7||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test.||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus postdose paired global assessment."||60.7|34.5|<0.0001
82419018|NCT02070380|164549094|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|7.3||||0.1295|TWO_SIDED|95.0|-2.0|16.5||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test.||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||16.5|-2.0|0.1295
82419019|NCT02070380|164549094|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|79.0|||<|0.0001|TWO_SIDED|95.0|67.1|91.0||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus postdose paired global assessment"||91.0|67.1|<0.0001
82419020|NCT02070380|164549094|SUPERIORITY_OR_OTHER||Percentage MH better minus DM better|-2.1||||0.7503|TWO_SIDED|95.0|-15.0|10.7||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||10.7|-15.0|0.7503
82647220|NCT02981602|165009542|OTHER||||||<|0.001||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||<0.001
82647221|NCT02981602|165009542|OTHER|||||||0.573||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.573
82647222|NCT02981602|165009543|OTHER|||||||0.609||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.609
82533641|NCT00738530|164765020|SUPERIORITY_OR_OTHER||Difference in response rates|19.9|||<|0.0001|TWO_SIDED|95.0|13.2|26.6|||Chi-squared|||||26.6|13.2|<.0001
82533642|NCT04179461|164765023|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the CASI was captured at clinical visits. 3. A level of statistical significance was established at \< 0.05.||||||0.52||||||Change in CASI score from V1 to V3|Wilcoxon (Mann-Whitney)|||The modified CASI score incorporates key asthma outcomes such as symptoms, healthcare utilization, and medication dose.||||0.52
82533643|NCT04179461|164765024|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the c-ACT/ACT was captured at clinical visits and from monthly phone calls. Because c-ACT/ACT could vary through time, we calculated the average c-ACT/ACT between V1-V2 and V2-V3. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.45||||||The change in ACT score from V1 to V2 (the period between V1 and V2).|Wilcoxon (Mann-Whitney)|||||||0.45
82647223|NCT02981602|165009543|OTHER|||||||0.141||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.141
82426040|NCT02410772|164560997|NON_INFERIORITY|Margin to define inferiority: 6.6% (δ = 0.066).|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|0.5|6.3||||||||6.3|0.5|
82426041|NCT00949533|164561022|SUPERIORITY_OR_OTHER|||||||0.825|||||||Pearson Chi-Square|||||||0.825
82426042|NCT00949533|164561023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||> 0.05
82426043|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||Cough: statistical difference between 2 groups was based on chi-squared test.||||1.000
82426044|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||0.284|||||||Chi-squared|||Rhinorrhea: statistical difference between 2 groups was based on chi-squared test.||||0.284
82426045|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Sore throat: statistical difference between 2 groups was based on fisher-exact test.||||1.000
82426046|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Shortness of breath: statistical difference between 2 groups was based on fisher-exact test.||||1.000
82426047|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||0.487|||||||Fisher Exact|||Diarrhea: statistical difference between 2 groups was based on fisher-exact test.||||0.487
82426048|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||0.593|||||||Fisher Exact|||Headache: statistical difference between 2 groups was based on fisher-exact test.||||0.593
82426049|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Conjunctivitis: statistical difference between 2 groups was based on fisher-exact test.||||1.000
82426050|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Vomiting: statistical difference between 2 groups was based on fisher-exact test.||||1.000
82426051|NCT00949533|164561024|SUPERIORITY_OR_OTHER|||||||0.106|||||||Fisher Exact|||Other: statistical difference between 2 groups was based on fisher-exact test.||||0.106
82426052|NCT01198587|164561027|SUPERIORITY|||||||0.88|||||||Log Rank|||||||0.88
82426053|NCT01198587|164561027|SUPERIORITY|||||||0.19|||||||Log Rank|||||||0.19
82426054|NCT01493089|164561030|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.563||95.0|||||Regression, Cox|||||||0.563
82426055|NCT01493089|164561031|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.903||||0.712||95.0|||||Regression, Cox|||||||0.712
82426056|NCT01493089|164561032|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.457|TWO_SIDED|95.0|||||Regression, Cox|||||||0.457
82426057|NCT01493089|164561033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.625||95.0|-9.7|15.3|||Regression, Cox|||Sustained partial response||15.3|-9.7|0.625
82426058|NCT01493089|164561033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.755|TWO_SIDED|95.0|-15.0|10.6|||Regression, Cox|||Sustained response||10.6|-15.0|0.755
82426059|NCT01493089|164561033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8||||0.194|TWO_SIDED|95.0|-3.6|17.2|||Regression, Cox|||Sustained total relief||17.2|-3.6|0.194
82426060|NCT01493089|164561034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.501|TWO_SIDED|95.0|-15.0|7.0|||Regression, Cox|||Sustained partial response||7.0|-15.0|0.501
82426061|NCT01493089|164561034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.518|TWO_SIDED|95.0|-17.6|8.2|||Regression, Cox|||Sustained response||8.2|-17.6|0.518
82426062|NCT01493089|164561034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.794|TWO_SIDED|95.0|-11.2|13.1|||Regression, Cox|||Sustained total relief||13.1|-11.2|0.794
82426063|NCT01493089|164561035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.494|TWO_SIDED|95.0|-6.3|11.2|||Regression, Cox|||Sustained partial response||11.2|-6.3|0.494
82426064|NCT01493089|164561035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.751|TWO_SIDED|95.0|-14.7|9.1|||Regression, Cox|||Sustained response||9.1|-14.7|0.751
82426065|NCT01493089|164561035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.69|TWO_SIDED|95.0|-16.4|9.6|||Regression, Cox|||Sustained total relief||9.6|-16.4|0.690
82426066|NCT01959529|164561036|NON_INFERIORITY|Non-inferiority of IDeg to IGlar was considered confirmed if the upper limit of the two-sided 95% confidence interval for the HR was below 1.3 or equivalent if the p-value for the one-sided test of null hypothesis (H0): HR≥1.3 against the alternative hypothesis (Ha): HR\<1.3 was less than 2.5%.|Hazard Ratio (HR)|0.908|||<|0.001|TWO_SIDED|95.0|0.781|1.055||p value : Refers to one-sided test of HR \>= 1.3 (against Ha: HR\<1.3).|Regression, Cox|||The hazard ratio (HR) (IDeg vs IGlar) was based on Cox regression with investigational medicinal product as only factor for primary analysis.||1.055|0.781|<0.001
82426625|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.1158|TWO_SIDED|95.0|-0.7|0.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||0.1|-0.7|0.1158
82426626|NCT00565409|164561904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-0.9|-1.6|<0.0001
82426627|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.67||||0.0214|TWO_SIDED|95.0|-77.1|-6.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-6.2|-77.1|0.0214
82419021|NCT02070380|164549094|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|66.1|||<|0.0001|TWO_SIDED|95.0|52.8|79.5||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment"||79.5|52.8|<0.0001
82533644|NCT04179461|164765024|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data. Data for the c-ACT/ACT was captured at clinical visits and from monthly phone calls. Because c-ACT/ACT could vary through time, we calculated the average c-ACT/ACT between V1-V2 and V2-V3. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.01||||||The change in ACT score from V1-V2 to V2-V3.|Wilcoxon (Mann-Whitney)|||||||0.01
82419022|NCT02070380|164549094|SUPERIORITY_OR_OTHER||∆Percentage MH better minus DM better|-2.1||||0.7297|TWO_SIDED|95.0|-13.8|9.6||Only 1 primary endpoint, no adjustment for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test||Difference in percentage MultiHance better minus percentage Dotarem better (%) , 2-sided 95% confidence interval was estimated using Altman's general approximate normal method.|"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of global diagnostic preference in an off-site pre-dose plus post-dose paired global assessment."||9.6|-13.8|0.7297
82419023|NCT02070380|164549095|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419024|NCT02070380|164549095|SUPERIORITY_OR_OTHER|||||||0.8238||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed-rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus post-dose paired global assessment."||||0.8238
82419025|NCT02070380|164549095|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419026|NCT02070380|164549095|SUPERIORITY_OR_OTHER|||||||0.4597||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||0.4597
82419027|NCT02070380|164549095|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419028|NCT02070380|164549095|SUPERIORITY_OR_OTHER|||||||0.8145||||||The priori threshold for statistical significance was 0.05.|Wilcoxon signed rank test|||"This is a secondary analysis.~Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Border Delineation in an off-site pre-dose plus postdose paired global assessment."||||0.8145
82419029|NCT02070380|164549096|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.0020
82419030|NCT02070380|164549096|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
82533645|NCT04179461|164765025|EQUIVALENCE|The Wilcoxon signed-rank test was employed for pairwise comparison between visits for continuous data and the Bowker's test was used to compare categorical FEV1-FVC data. Data analysis was performed in SAS version 9.4 (SAS, Cary, NC). A level of statistical significance was established at \< 0.05.||||||0.27||||||The Change in FEV1/FVC from Visit 1 to Visit 3|Wilcoxon (Mann-Whitney)|||||||0.27
82419031|NCT02070380|164549096|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.0001
82419032|NCT02070380|164549096|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||1.0000
82419033|NCT02070380|164549096|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419034|NCT02070380|164549096|SUPERIORITY_OR_OTHER|||||||0.5811|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Internal Morphology in an off-site pre-dose plus postdose paired global assessment."||||0.5811
82419035|NCT02070380|164549097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82533646|NCT04179461|164765026|EQUIVALENCE|Intervention adherence and end of study adherence were each calculated based on the 30 days prior to end of intervention and V3, respectively, in order to assess a consistent timeframe. The paired Wilcoxon signed rank test was conducted to compare controller inhaler adherence during baseline, adherence intervention, and end of study.||||||0.17||||||Change between baseline (V1) to end of study (V3)|Wilcoxon (Mann-Whitney)|||||||0.17
82419036|NCT02070380|164549097|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
82419037|NCT02070380|164549097|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419038|NCT02070380|164549097|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||1.0000
82419039|NCT02070380|164549097|SUPERIORITY_OR_OTHER|||||||0.0023|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||0.0023
82419040|NCT02070380|164549097|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Extent of Disease in an off-site pre-dose plus postdose paired global assessment."||||1.0000
82419041|NCT02070380|164549098|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419042|NCT02070380|164549098|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus post-dose paired global assessment."||||1.0000
82419043|NCT02070380|164549098|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419044|NCT02070380|164549098|SUPERIORITY_OR_OTHER|||||||0.7503|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||0.7503
82419045|NCT02070380|164549098|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.1 mmol/kg dose of MULTIHANCE is equal to a 0.1 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||<0.0001
82419046|NCT02070380|164549098|SUPERIORITY_OR_OTHER|||||||0.5983|||||||Wilcoxon signed-rank test|||"Null hypotheses:~A 0.05 mmol/kg dose of MULTIHANCE is equal to a 0.05 mmol/kg dose of DOTAREM, in terms of the assessment of Lesion Contrast Enhancement in an off-site pre-dose plus postdose paired global assessment."||||0.5983
82419047|NCT02070380|164549099|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||<0.0001
82419048|NCT02070380|164549099|SUPERIORITY_OR_OTHER|||||||0.6898|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.6898
82533647|NCT01438229|164765043|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82647224|NCT02981602|165009544|OTHER|Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group||||||0.245|||||||ANCOVA|||||||0.245
82419049|NCT02070380|164549099|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect.||||||<0.0001
82419050|NCT02070380|164549099|SUPERIORITY_OR_OTHER|||||||0.1156|||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.1156
82419051|NCT02070380|164549099|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82419052|NCT02070380|164549099|SUPERIORITY_OR_OTHER|||||||0.7726|||||||Mixed Models Analysis|||||||0.7726
82419053|NCT02070380|164549100|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.0002
82419054|NCT02070380|164549100|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
82419055|NCT02070380|164549100|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
82419056|NCT02070380|164549100|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
82419057|NCT02070380|164549100|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||<0.0001
82419058|NCT02070380|164549100|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.0003
82419059|NCT02837952|164549101|SUPERIORITY||Least Square Mean Difference|72.89|||<|0.001|TWO_SIDED|95.0|50.075|95.707|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on LS Mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical pain severity rating (PSR) as classification variables and baseline numerical PSR used as a continuous covariate.||95.707|50.075|<0.001
82419060|NCT02837952|164549102|SUPERIORITY||Least Square Mean Difference|26.45|||<|0.001|TWO_SIDED|95.0|19.895|33.005|||ANCOVA|||0 to 8 hours: Treatment difference and 95% CI were based on least square (LS) mean from analysis of covariance (ANCOVA) with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||33.005|19.895|< 0.001
82647225|NCT02981602|165009544|OTHER|||||||0.001||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.001
82419061|NCT02837952|164549102|SUPERIORITY||LS Mean Difference|7.91|||<|0.001|TWO_SIDED|95.0|5.196|10.632|||ANCOVA|||6 to 8 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||10.632|5.196|< 0.001
82419062|NCT02837952|164549102|SUPERIORITY||LS Mean Difference|51.67|||<|0.001|TWO_SIDED|95.0|37.075|66.258|||ANCOVA|||0 to 16 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||66.258|37.075|< 0.001
82419063|NCT02837952|164549102|SUPERIORITY||LS Mean Difference|27.32|||<|0.001|TWO_SIDED|95.0|18.139|36.508|||ANCOVA|||8 to 16 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||36.508|18.139|< 0.001
82419064|NCT02837952|164549102|SUPERIORITY||LS Mean Difference|138.65|||<|0.001|TWO_SIDED|95.0|91.045|186.261|||ANCOVA|||0 to 48 hours: Treatment difference and 95% CI were based on LS mean from ANCOVA with treatment, gender, baseline categorical PSR as classification variables and baseline numerical PSR used as a continuous covariate.||186.261|91.045|< 0.001
82419065|NCT02837952|164549103|SUPERIORITY||||||<|0.001||||||P-value Method was based on Gehan-Wilcoxon test, stratified by sex and baseline categorical PSR.|Gehan-Wilcoxon test|||||||<0.001
82419066|NCT02837952|164549104|SUPERIORITY||||||<|0.001||||||P-value Method was based on Gehan-Wilcoxon test, stratified by sex and baseline categorical PSR.|Gehan-Wilcoxon test|||||||<0.001
82533648|NCT03785340|164765073|SUPERIORITY|"The endpoints were tested in a fixed sequence, proceeding to the next endpoint until a p-value \>0.05 was found:~1. Change from baseline to 4 weeks (Day 28) in SANDE score~2. Change from baseline to 4 weeks (Day 28) in Lissamine Green conjunctival staining scores~3. Change from baseline to 2 weeks (Day 14) in SANDE score~4. Change from baseline to 2 weeks (Day 14) in Lissamine Green conjunctival staining scores"|Least squares mean difference|-0.844||||0.739|TWO_SIDED|95.0|-5.823|4.134|||Mixed Model Repeated Measures Analysis||Change from baseline to 4 weeks (Day 28) in SANDE score; OCU-310 vs. Placebo|Four endpoints (two primary and two secondary) were to be tested in a fixed sequence, proceeding to the next endpoint until a p-value \>0.05 was found. The analysis of the four outcomes employed a repeated measures mixed model with mean change from baseline score at the stated time point as the response with baseline score as a covariate and treatment, visit, and their interaction as fixed effects. The least squares mean difference (OCU 310 - placebo) at the stated time point was tested.||4.134|-5.823|0.739
82533649|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.031||0.79|TWO_SIDED|95.0|0.95|1.07|||fixed-effect meta-analysis|||The null hypothesis was the that proportions of patients with at least one OAC filled at one year were the same between the two groups.||1.07|0.95|0.79
82533650|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.04|STANDARD_ERROR_OF_MEAN|0.039||0.307|TWO_SIDED|95.0|0.96|1.12|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 183 days were the same between the two groups.||1.12|0.96|0.307
82647226|NCT02981602|165009544|OTHER|||||||0.762||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.762
82419067|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.139||||0.145|TWO_SIDED|95.0|0.956|1.357|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.357|0.956|0.145
82419068|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.11||||0.298|TWO_SIDED|95.0|0.912|1.35|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.35|0.912|0.298
82419069|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.178||||0.127|TWO_SIDED|95.0|0.955|1.452|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.452|0.955|0.127
82419070|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.117||||0.286|TWO_SIDED|95.0|0.911|1.37|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.37|0.911|0.286
82419071|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.179||||0.183|TWO_SIDED|95.0|0.925|1.504|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.504|0.925|0.183
82419072|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.2||||0.209|TWO_SIDED|95.0|0.903|1.595|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.595|0.903|0.209
82419073|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.144||||0.463|TWO_SIDED|95.0|0.799|1.638|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.638|0.799|0.463
82419074|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.331||||0.074|TWO_SIDED|95.0|0.972|1.822|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.822|0.972|0.074
82419075|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.169||||0.306|TWO_SIDED|95.0|0.867|1.577|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.577|0.867|0.306
82419076|NCT03850431|164549105|OTHER||Odds Ratio (OR)|1.15||||0.373|TWO_SIDED|95.0|0.845|1.565|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.565|0.845|0.373
82419077|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.923||||0.153|TWO_SIDED|95.0|0.826|1.03|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.03|0.826|0.153
82419078|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.911||||0.252|TWO_SIDED|95.0|0.777|1.068|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.068|0.777|0.252
82419079|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.941||||0.413|TWO_SIDED|95.0|0.815|1.088|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.088|0.815|0.413
82419080|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.946||||0.41|TWO_SIDED|95.0|0.83|1.079|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.079|0.83|0.41
82419081|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.887||||0.11|TWO_SIDED|95.0|0.766|1.027|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.027|0.766|0.11
82419082|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.833||||0.14|TWO_SIDED|95.0|0.654|1.062|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.062|0.654|0.14
82419083|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.882||||0.404|TWO_SIDED|95.0|0.657|1.184|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.184|0.657|0.404
82419084|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.743||||0.072|TWO_SIDED|95.0|0.538|1.027|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.027|0.538|0.072
82647227|NCT02981602|165009545|OTHER|||||||0.141||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.141
82647228|NCT02981602|165009545|OTHER|||||||0.081||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.081
82647229|NCT02981602|165009545|OTHER|||||||0.616||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.616
82647230|NCT02981602|165009548|OTHER|||||||0.763||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.763
82419085|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.778||||0.057|TWO_SIDED|95.0|0.6|1.008|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.008|0.6|0.057
82419086|NCT03850431|164549106|OTHER||Odds Ratio (OR)|0.932||||0.637|TWO_SIDED|95.0|0.697|1.247|||Regression, Logistic|Logistic regression with clustering for clinics and patients||||1.247|0.697|0.637
82419087|NCT02462057|164549107|EQUIVALENCE|The anticipated sample size of 3500 provided 80% power to detect a 3% pairwise difference between the proportions of participants who enrolled in HF with significance testing conducted at the Bonferroni-corrected significance level of 0.005 (0.05/10) to account for the 10 pairwise between-arm comparisons and pessimistically allowing for up to 10% further exclusions. The baseline monthly enrolment rate was estimated at ∼1%/month.|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82419088|NCT01791205|164549135|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.538||||0.1194|TWO_SIDED|95.0|0.65|19.33||The relation between retention rate and duration of disease for phase II was estimated with the Cox regression model.|Regression, Cox|||The relation between retention rate and DAS28 (\<2.6 vs \<3.2) was assayed with the Cox regression.||19.33|0.65|0.1194
82419089|NCT01791205|164549136|SUPERIORITY_OR_OTHER|||||||0.3895|||||||Regression, Cox|||||||0.3895
82419090|NCT01791205|164549137|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.211||||0.49|TWO_SIDED|95.0|0.703|2.086|||Regression, Logistic|||||2.086|0.703|0.4900
82419091|NCT01791205|164549138|SUPERIORITY_OR_OTHER||Delta|-0.042||||0.6908|TWO_SIDED|95.0|-0.251|0.167|||t-test, 2 sided|||||0.167|-0.251|0.6908
82419092|NCT01791205|164549139|SUPERIORITY_OR_OTHER|||||||0.021|||||||Pearson's chi-squared test|||||||0.0210
82647231|NCT02981602|165009548|OTHER|||||||0.804||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.804
82419093|NCT01697501|164549177|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7831|TWO_SIDED|95.0|0.29|2.57|||univariate logistic analysis|||||2.57|0.29|0.7831
82419094|NCT01697501|164549178|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.1951|TWO_SIDED|95.0|0.66|7.67|||univariate logistic analysis|||||7.67|0.66|0.1951
82419095|NCT01697501|164549179|SUPERIORITY_OR_OTHER|||||||0.2642|TWO_SIDED||||||Wald Chi Square|||||||0.2642
82419096|NCT01697501|164549180|SUPERIORITY_OR_OTHER|||||||0.0672|TWO_SIDED||||||Wald Chi Square|||||||0.0672
82419097|NCT01370642|164549309|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|29.0|||<|0.001|TWO_SIDED|95.0|17.2|40.5|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR24 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by Interleukin 28B (IL28B) and age utilizing Cochran-Mantel-Haenszel weights.||40.5|17.2|<0.001
82419098|NCT01370642|164549309|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|28.6|||<|0.001|TWO_SIDED|95.0|17.4|40.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR24 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||40.0|17.4|<0.001
82419099|NCT01370642|164549310|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|30.0|||<|0.001|TWO_SIDED|95.0|18.1|41.5|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR12 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||41.5|18.1|<0.001
82426628|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.57||||0.5544|TWO_SIDED|95.0|-45.6|24.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||24.5|-45.6|0.5544
82647232|NCT02981602|165009549|OTHER|||||||0.372||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.372
82647233|NCT02981602|165009549|OTHER|||||||0.954||||||Baseline was the covariate and treatment group as a factor for the comparison between GSK3228836 and placebo group|ANCOVA|||||||0.954
82647234|NCT02164539|165009602|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
82647235|NCT02164539|165009602|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
82647236|NCT02164539|165009602|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
82647237|NCT02164539|165009602|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.024|TWO_SIDED|95.0|0.014|0.193|||Final step dose response model|||||0.193|0.014|0.024
82647238|NCT02164539|165009602|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.152|TWO_SIDED|95.0|-0.027|0.172|||Final dose response model|||||0.172|-0.027|0.152
82647239|NCT02164539|165009603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.01|TWO_SIDED|95.0|-1.7|-0.2|||ANCOVA|||||-0.2|-1.7|0.010
82647240|NCT02164539|165009603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.004|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.4|-1.9|0.004
82647241|NCT02164539|165009603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.083|TWO_SIDED|95.0|-1.4|0.1|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||0.1|-1.4|0.083
82647242|NCT02164539|165009603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.014|TWO_SIDED|95.0|-1.5|-0.2|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.2|-1.5|0.014
82419100|NCT01370642|164549310|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|29.6|||<|0.001|TWO_SIDED|95.0|18.3|41.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving SVR12 between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||41.0|18.3|<0.001
82419101|NCT01370642|164549311|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|78.1|||<|0.001|TWO_SIDED|95.0|68.2|85.3|||Miettinen and Nurminen method|||To compare the percentage of participants achieving RVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||85.3|68.2|<0.001
82419102|NCT01370642|164549311|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|76.7|||<|0.001|TWO_SIDED|95.0|66.7|84.1|||Miettinen and Nurminen method|||To compare the percentage of participants achieving RVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||84.1|66.7|<0.001
82419103|NCT01370642|164549312|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|48.4|||<|0.001|TWO_SIDED|95.0|37.2|58.9|||Miettinen and Nurminen method|||To compare the percentage of participants achieving cEVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||58.9|37.2|<0.001
82419104|NCT01370642|164549312|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|49.6|||<|0.001|TWO_SIDED|95.0|38.5|60.0|||Miettinen and Nurminen method|||To compare the percentage of participants achieving cEVR between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||60.0|38.5|<0.001
82419105|NCT01370642|164549313|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|17.0|||<|0.001|TWO_SIDED|95.0|8.1|27.3|||Miettinen and Nurminen method|||To compare the percentage of participants achieving undetectable HCV RNA at EOT between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||27.3|8.1|<0.001
82419106|NCT01370642|164549313|SUPERIORITY_OR_OTHER||Adjusted Difference in Percentages|17.8|||<|0.001|TWO_SIDED|95.0|9.3|27.8|||Miettinen and Nurminen method|||To compare the percentage of participants achieving undetectable HCV RNA at EOT between the vaniprevir and control arms, 95% confidence intervals and corresponding p-values for the between-treatment difference (vaniprevir - control) were computed using Miettinen and Nurminen method stratified by IL28B and age utilizing Cochran-Mantel-Haenszel weights.||27.8|9.3|<0.001
82419107|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|4.1||||0.385|TWO_SIDED|95.0|-5.4|13.7|||Miettinen and Nurminen method|||Difference in percentage of participants with ≥1 Tier 1 AEs between vaniprevir and control.||13.7|-5.4|0.385
82533651|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.052||0.375|TWO_SIDED|95.0|0.95|1.16|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 90 days were the same between the two groups.||1.16|0.95|0.375
82419108|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|-2.2||||0.67|TWO_SIDED|95.0|-12.6|8.1|||Miettinen and Nurminen method|||Difference in percentage of participants with ≥1 Tier 1 AEs between vaniprevir and control.||8.1|-12.6|0.670
82419109|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|-4.1||||0.557|TWO_SIDED|95.0|-17.5|9.5|||Miettinen and Nurminen method|||Difference in percentage of participants with anemia Tier 1 AEs between vaniprevir and control.||9.5|-17.5|0.557
82419110|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|-12.7||||0.072|TWO_SIDED|95.0|-26.2|1.2|||Miettinen and Nurminen method|||Difference in percentage of participants with anemia Tier 1 AEs between vaniprevir and control.||1.2|-26.2|0.072
82419111|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|0.0|||>|0.999|TWO_SIDED|95.0|-7.9|7.9|||Miettinen and Nurminen method|||Difference in percentage of participants with bilirubin increased Tier 1 AEs between vaniprevir and control.||7.9|-7.9|>0.999
82419112|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|5.2||||0.22|TWO_SIDED|95.0|-3.3|14.2|||Miettinen and Nurminen method|||Difference in percentage of participants with bilirubin increased Tier 1 AEs between vaniprevir and control.||14.2|-3.3|0.220
82419113|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|15.3||||0.032|TWO_SIDED|95.0|1.3|28.7|||Miettinen and Nurminen method|||Difference in percentage of participants with GI Tier 1 AEs between vaniprevir and control.||28.7|1.3|0.032
82419114|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|5.6||||0.432|TWO_SIDED|95.0|-8.4|19.4|||Miettinen and Nurminen method|||Difference in percentage of participants with GI Tier 1 AEs between vaniprevir and control.||19.4|-8.4|0.432
82419115|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|8.2||||0.252|TWO_SIDED|95.0|-5.8|21.8|||Miettinen and Nurminen method|||Difference in percentage of participants with neutropenia Tier 1 AEs between vaniprevir and control.||21.8|-5.8|0.252
82419116|NCT01370642|164549314|SUPERIORITY_OR_OTHER||Difference in percentages|0.5||||0.942|TWO_SIDED|95.0|-13.4|14.4|||Miettinen and Nurminen method|||Difference in percentage of participants with neutropenia Tier 1 AEs between vaniprevir and control.||14.4|-13.4|0.942
82419117|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 2|-3.2|||||TWO_SIDED|95.0|-3.5|-3.0|||Constrained LDA Model|||Change from BL in HCV RNA at Week 2 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-3.0|-3.5|
82447812|NCT00082407|164604426|SUPERIORITY_OR_OTHER|||||||0.7888||95.0|||||Fisher Exact|||||||0.7888
82447813|NCT00082407|164604427|SUPERIORITY_OR_OTHER|||||||0.3722||95.0|||||ANCOVA|||||||0.3722
82419118|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 2|-3.5|||||TWO_SIDED|95.0|-3.7|-3.2|||Constrained LDA Model|||Change from BL in HCV RNA at Week 2 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-3.2|-3.7|
82447814|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|||||TWO_SIDED|60.0|5.0|15.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||15|5|
82447815|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.0|||||TWO_SIDED|60.0|18.0|31.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||31|18|
82447816|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.0|||||TWO_SIDED|60.0|25.0|39.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||39|25|
82447817|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|36.0|||||TWO_SIDED|60.0|29.0|43.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||43|29|
82576651|NCT03296800|164863556|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|86.12|||||TWO_SIDED|90.0|70.24|105.59|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||105.59|70.24|
82419119|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 4|-3.0|||||TWO_SIDED|95.0|-3.3|-2.7|||Constrained LDA Model|||Change from BL in HCV RNA at Week 4 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-2.7|-3.3|
82447818|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0|||||TWO_SIDED|60.0|6.0|22.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||22|6|
82419120|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 4|-3.1|||||TWO_SIDED|95.0|-3.4|-2.8|||Constrained LDA Model|||Change from BL in HCV RNA at Week 4 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-2.8|-3.4|
82447819|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.0|||||TWO_SIDED|60.0|27.0|42.0|||||Superiority criterion versus placebo: Lower bound of 60% credible interval \>20%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||42|27|
82447820|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.0|||||TWO_SIDED|60.0|-32.0|-17.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||-17|-32|
82447821|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0|||||TWO_SIDED|60.0|-16.0|-4.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||-4|-16|
82447822|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|60.0|-9.0|4.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||4|-9|
82447823|NCT01393639|164604450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|||||TWO_SIDED|60.0|-5.0|8.0|||||Non inferiority criterion versus prednisone 10 mg: Lower bound of 60% credible interval \>-5%. Non-responder imputation was used to handle dropouts at Week 8.|Bayesian 4 Parameter Emax Model Based Estimates are provided.||8|-5|
82447824|NCT01393639|164604451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.64|||||TWO_SIDED|95.0|-13.75|17.03|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||17.03|-13.75|
82447825|NCT01393639|164604451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.71|||||TWO_SIDED|90.0|-22.16|8.75|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||8.75|-22.16|
82447826|NCT01393639|164604451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.07|||||TWO_SIDED|90.0|-20.45|10.3|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||10.30|-20.45|
82447827|NCT01393639|164604451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.74|||||TWO_SIDED|90.0|-27.19|3.72|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||3.72|-27.19|
82447828|NCT01393639|164604452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.34|||||TWO_SIDED|95.0|-12.92|19.61|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||19.61|-12.92|
82576652|NCT03296800|164863556|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate (%)|97.93|||||TWO_SIDED|90.0|90.26|106.26|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with treatment as a fixed effect, and subject as a random effect.|Geometric LS Mean was used as PK parameters||106.26|90.26|
82647243|NCT02164539|165009603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.031|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA||Statistical analysis presented for daily rescue medication use.|||-0.1|-1.4|0.031
82419121|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 8|-1.9|||||TWO_SIDED|95.0|-2.2|-1.6|||Constrained LDA Model|||Change from BL in HCV RNA at Week 8 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.6|-2.2|
82419122|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 8|-2.0|||||TWO_SIDED|95.0|-2.3|-1.7|||Constrained LDA Model|||Change from BL in HCV RNA at Week 8 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.7|-2.3|
82419123|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 12|-1.4|||||TWO_SIDED|95.0|-1.7|-1.1|||Constrained LDA Model|||Change from BL in HCV RNA at Week 12 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.1|-1.7|
82419124|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 12|-1.4|||||TWO_SIDED|95.0|-1.7|-1.1|||Constrained LDA Model|||Change from BL in HCV RNA at Week 12 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-1.1|-1.7|
82419125|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 24|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5|||Constrained LDA Model|||Change from BL in HCV RNA at Week 24 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-0.5|-1.1|
82419126|NCT01370642|164549315|SUPERIORITY_OR_OTHER||LS Mean Difference at Week 24|-0.9|||||TWO_SIDED|95.0|-1.2|-0.6|||Constrained LDA Model|||Change from BL in HCV RNA at Week 24 was computed using a constrained longitudinal data analysis model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups as well as adjusting for IL28B and age, and their interaction terms with time will be included in the model.||-0.6|-1.2|
82419127|NCT03888482|164549322|NON_INFERIORITY|Non-inferiority margin = 0.05|Least Squares Mean Difference|0.0|||||ONE_SIDED|95.0||0.01|||Mixed effects repeated measures model|Mixed effects repeated measures model with terms for lens, period and sequence as fixed effects and subject as a random effect.|Difference = DDT2 - Clariti|||0.01||
82533652|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.09|STANDARD_ERROR_OF_MEAN|0.076||0.265|TWO_SIDED|95.0|0.94|1.26|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled at 42 days were the same between the two groups.||1.26|0.94|0.265
82533653|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.044||0.237|TWO_SIDED|95.0|0.97|1.15|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among females were the same between the two groups.||1.15|0.97|0.237
82419128|NCT00563316|164549323|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.894|1.074|||||Ratio of Cycle 2 : Cycle 1|||1.074|0.894|
82533654|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.042||0.487|TWO_SIDED|95.0|0.89|1.05|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among males were the same between the two groups.||1.05|0.89|0.487
82647244|NCT02164539|165009604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.6|-1.7|||ANCOVA|||||-1.7|-4.6|<0.001
82419129|NCT00563316|164549324|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.898|||||TWO_SIDED|90.0|0.819|0.985|||||Ratio of Cycle 2 : Cycle 1|||0.985|0.819|
82419130|NCT00563316|164549325|NON_INFERIORITY_OR_EQUIVALENCE|It would be concluded that panitumumab did not have a clinically important effect on the pharmacokinetics of irinotecan if the 90% confidence intervals of the ratio of geometric means for the Cmax and AUC values for irinotecan with and without concomitant panitumumab administration fell within the interval of 70% to 143%.|Least Squares Geometric Mean Ratio|0.897|||||TWO_SIDED|90.0|0.818|0.983|||||Ratio of Cycle 2 : Cycle 1|||0.983|0.818|
82419131|NCT00425854|164549330|SUPERIORITY_OR_OTHER||Maximum Likelihood|0.048|||||TWO_SIDED|95.0|0.001|0.238|||||Maximum Likelihood estimates. The clinical benefit rate for Cohort A was calculated by relating the number of patients with CB to all treated patients in Cohort B. The CI is an exact Clopper Pearson CI.|||0.238|0.001|
82419132|NCT00425854|164549335|SUPERIORITY_OR_OTHER||Clinical benefit rate|0.1|||||TWO_SIDED|95.0|0.02|0.27|||Maxium Likelihood||Maximum Likelihood estimates. The clinical benefit rate for Cohort A was calculated by relating the number of patients with CB to all treated patients in Cohort A. The confidence interval (CI) is an exact Clopper Pearson CI.|||0.27|0.02|
82426629|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1||||0.0826|TWO_SIDED|95.0|-66.2|4.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||4.0|-66.2|0.0826
82647245|NCT02164539|165009604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.5|-1.6|||ANCOVA|||||-1.6|-4.5|<0.001
82647246|NCT02164539|165009604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.007|TWO_SIDED|95.0|-3.4|-0.6|||ANCOVA|||||-0.6|-3.4|0.007
82419133|NCT01378273|164549340|SUPERIORITY|We assumed no effect of treatment on death, but that Epo will lead to a decrease in the rate of NDI. If we assume a multiplicative reduction in the NDI rate of 0.45 then we expect a treated NDI rate of 12 percent and an overall rate of death+NDI of 30.4% as compared to the control rate of 40.4% corresponding to an overall treatment rate ratio of 0.75. This leads to a sample size of 376 evaluated subjects per arm or a total evaluated sample size of 752 subjects.|Risk Ratio (RR)|1.03||||0.05|TWO_SIDED|0.05|0.81|1.32||A two-sided type I error of 0.05 with no formal adjustment for multiple comparisons unless otherwise specified (such as with safety outcomes).|GEE Wald test based on logistic regressi|adjustments were made for gestational age at birth and recruitment site as a fixed effect.|The numerator is the Epo group, denominator is the control group|We evaluated the primary outcome of death or neurodevelopmental impairment using generalized estimating equations to account for potential correlation within siblings from the same pregnancy, with adjustment for gestational age at birth and recruitment site as a fixed effect. The primary analysis included infants with complete data and excluded data from infants known to be alive but in whom neurodevelopmental outcomes were not assessed.||1.32|0.81|0.05
82647247|NCT02164539|165009604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.002|TWO_SIDED|95.0|-3.2|-0.7|||ANCOVA|||||-0.7|-3.2|0.002
82419134|NCT01378273|164549341|OTHER|SAEs were defined prospectively. The rate of total SAEs observed through hospital discharge were compared after accounting for potential within-sibship correlation (with multiple gestations) using Generalized Estimating Equations (GEE) with robust standard errors. We used a GEE Wald test based on Poisson or logistic regression for total SAE count and individual events respectively. All other non-categorical data were assessed with GEE regression models appropriate for continuous outcomes.|Risk Ratio (RR)|1.01||||0.05|TWO_SIDED|95.0|0.83|1.22||Statistical significance was set at 0.05 for the efficacy analysis and for the final safety analysis comparing the rate of total SAEs between treatment groups, and 0.031 for death and 0.004 for the ten individual SAEs due to sequential monitoring.|Poisson regression|Adjusted for multiple gestation and gestational age|Epo is numerator and Control is denominator|We hypothesized that Epo would be safe, with no excess of SAEs compared to control infants. Sample size was based on the primary outcome, severe neurodevelopmental impairment or death.||1.22|0.83|0.05
82419135|NCT01378273|164549342|SUPERIORITY|||||||0.36||||||Statistical significance was evaluated using a Wald's test and declared significant if p \< 0.05.|Generalized estimating equation|Adjusted for gestational age at birth and treatment assignment.||For all statistical comparisons between groups, Generalized Estimating Equations (GEE) with robust standard errors and a working independence correlation structure for infants included from a multiple gestation were used. A GEE-based Wald test was used to examine differences in the global brain injury severity score between treatment groups, with adjustment for gestational age (GA) at birth used to stratify treatment randomization (24+0 to 25+6 vs. 26+0 to 27+6 in weeks+days of GA).||||0.36
82419136|NCT01378273|164549343|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a Wald's test and declared significant if p \< 0.007.|Generalized estimating equation|Adjusted for gestational age at birth and treatment assignment.||For statistical inference, we utilized generalized estimating equations (GEE) with robust standard errors to appropriately account for potential correlation of biomarkers for same-birth siblings. Each respective GEE model adjusted for gestational age at birth and treatment assignment as fixed factors associated with the original study design. Biomarker levels at each follow-up time point were analysed using separate GEE models. Epo levels were log-transformed in all statistical analyses.||||<0.001
82419137|NCT03319654|164549387|OTHER|A generalized estimating equation (GEE)-model with an exchangeable correlation structure and a logit link function was used to analyze the probability of live birth and clinical pregnancy respectively. All IUI cycles are used in this model with correction for the fact that cycles of the same couple are not independent.|Odds Ratio (OR)|0.94||||0.04|TWO_SIDED|95.0|0.9|0.9985|||GEE-model|||The null hypothesis is: there is no association between % total Sperm DNA Fragmentation and live birth.||0.9985|0.90|0.04
82419138|NCT03319654|164549387|OTHER||Area under the ROC curve|0.576|||>|0.05|TWO_SIDED||||||Receiver Operating Characteristics curve|||||||>0.05
82419139|NCT00954538|164549417|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82419140|NCT00954538|164549418|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|||||TWO_SIDED|90.0|-0.04|0.27|||Linear Fixed Effects Model||Difference = AD group value - HE group value|A 90% confidence interval was calculated for the group difference (AD - HE) using the model results. As prespecified by the analysis plan, if the lower bound of the 90% confidence interval is above 0, then the hypothesis that \[18F\]MK-3328 can discriminate between AD patients and cognitively normal elderly controls as measured by regional tracer uptake following single IV doses of \[18F\]MK-3328 is supported.||0.27|-0.04|
82419141|NCT02059642|164549441|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.1||||0.1358|TWO_SIDED|95.0|-4.87|0.66|||Mixed Models Analysis|MMRM: Model of Repeated Measures||||0.66|-4.87|0.1358
82419142|NCT03061214|164549450|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was less than 0.3%.|Treatment difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.70|-1.00|<.0001
82419143|NCT03061214|164549450|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was less than 0.3%.|Treatment difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.36|-0.66|<.0001
82533655|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.125||0.952|TWO_SIDED|95.0|0.78|1.27|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age \<= 64 yrs were the same between the two groups.||1.27|0.78|0.952
82533656|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.057||0.696|TWO_SIDED|95.0|0.91|1.14|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of the patients with at least one OAC filled among age 65 - 74 yrs were the same between the two groups.||1.14|0.91|0.696
82419144|NCT03061214|164549450|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was below 0%.|Treatment difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.70|-1.00|<.0001
82533657|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.047||0.584|TWO_SIDED|95.0|0.94|1.13|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age 75 - 84 yrs were the same between groups.||1.13|0.94|0.584
82533658|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.069||0.911|TWO_SIDED|95.0|0.87|1.14|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among age \>= 85 yrs were the same between the two groups.||1.14|0.87|0.911
82533659|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.057||0.746|TWO_SIDED|95.0|0.88|1.1|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of the patients with at least one OAC filled among those with a CHADS-VASC of 2-3 were the same between the two groups.||1.10|0.88|0.746
82576653|NCT02224703|164863581|SUPERIORITY||Treatment Ratio|0.743||||0.0299|TWO_SIDED|95.0|0.568|0.971|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset. Null hypothesis was that the ratio of GWP42003-P to placebo would be 1.||0.971|0.568|0.0299
82419145|NCT03061214|164549450|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated difference in HbA1c between semaglutide and sitagliptin was below 0%.|Treatment difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed Models Analysis|||The post-baseline responses are analysed using a mixed model for repeated measurements with treatment and region China/Other as fixed factors and baseline value as covariate, all nested within visit. Mean estimates are adjusted according to observed baseline distribution.||-0.36|-0.66|<.0001
82419146|NCT05058456|164549524|OTHER|The primary safety hypothesis is: H0: ΠS \> PGS vs. HA: ΠS ≤ PGS where ΠS is the proportion of patients who experience a MAE within 30 days of procedure and PGS is the Safety Performance Goal. All subjects in whom a Mini S IVL catheter was introduced into the vasculature will be included in the analysis (i.e., it is an intent-to-treat analysis). The hypothesis will be tested using a one-sided Exact Binomial Test at α=0.025.|||||<|0.025|||||||Fisher Exact|||||||<.025
82419147|NCT05058456|164549525|OTHER|The primary effectiveness hypothesis is: H0: ΠE ≤ PGE vs. HA: ΠE \> PGE, where ΠE is the proportion of target lesions with technical success and PG is the effectiveness Performance Goal. One-sided statistical significance level of 0.025 = α. The hypothesis will be tested using a one-sided Exact Binomial Test.|||||<|0.025|||||||Fisher Exact|||||||<.025
82533660|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.048||0.109|TWO_SIDED|95.0|0.98|1.19|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among those with a CHADS-VASC score of 4-5 were the same between the two groups.||1.19|0.98|0.109
82647248|NCT02164539|165009604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.009|TWO_SIDED|95.0|-2.9|-0.4|||ANCOVA|||||-0.4|-2.9|0.009
82419148|NCT01866150|164549537|SUPERIORITY_OR_OTHER||Treatment Difference|1.2||||0.8222|TWO_SIDED|95.0|-9.5|12.0|||Pearson's chi-squared|||A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||12.0|-9.5|0.8222
82419149|NCT01866150|164549538|SUPERIORITY_OR_OTHER||Treatment Difference|3.7||||0.4727|TWO_SIDED|95.0|-6.2|13.6|||Pearson's chi-squared|||Comparison at Month 3. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||13.6|-6.2|0.4727
82419150|NCT01866150|164549538|SUPERIORITY_OR_OTHER||Treatment Difference|2.6||||0.6349|TWO_SIDED|95.0|-8.0|13.1|||Pearson's chi-squared|||Comparison at last visit. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved DAS28 remission.||13.1|-8.0|0.6349
82419151|NCT01866150|164549539|SUPERIORITY_OR_OTHER||Slope|-0.9||||0.8769|TWO_SIDED|95.0|-12.1|10.4|||Pearson's chi-squared|||Comparison at Month 3. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||10.4|-12.1|0.8769
82533661|NCT03259373|164765091|SUPERIORITY||Odds Ratio (OR)|0.94|STANDARD_ERROR_OF_MEAN|0.057||0.244|TWO_SIDED|95.0|0.84|1.05|||fixed-effect meta-analysis|||The null hypothesis was that the proportions of patients with at least one OAC filled among those with a CHADS-VASC score \>=6 were the same between the two groups.||1.05|0.84|0.244
82533662|NCT03259373|164765092|SUPERIORITY||Hazard Ratio (HR)|0.92|STANDARD_ERROR_OF_MEAN|0.079||0.3|TWO_SIDED|95.0|0.79|1.08|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.08|0.79|0.300
82533663|NCT03259373|164765093|SUPERIORITY||Hazard Ratio (HR)|1.31|STANDARD_ERROR_OF_MEAN|0.172||0.122|TWO_SIDED|95.0|0.93|1.83|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.83|0.93|0.122
82647249|NCT02164539|165009605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.1||||0.004||95.0|5.9|30.3|||ANCOVA|||||30.3|5.9|0.004
82647250|NCT02164539|165009605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.8|||<|0.001|TWO_SIDED|95.0|9.4|34.1|||ANCOVA|||||34.1|9.4|<0.001
82647251|NCT02164539|165009605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.7||||0.001|TWO_SIDED|95.0|7.7|31.7|||ANCOVA|||||31.7|7.7|0.001
82647252|NCT02164539|165009605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.8|||<|0.001|TWO_SIDED|95.0|14.1|35.4|||ANCOVA|||||35.4|14.1|<0.001
82419152|NCT01866150|164549539|SUPERIORITY_OR_OTHER||Treatment Difference|3.4||||0.5649|TWO_SIDED|95.0|-8.2|15.0|||Pearson's chi-squared|||Comparison at Month 6. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||15.0|-8.2|0.5649
82419153|NCT01866150|164549539|SUPERIORITY_OR_OTHER||Treatment Difference|9.9||||0.0556|TWO_SIDED|95.0|-0.3|20.2|||Pearson's chi-squared|||Comparison at the last visit. A two-sided Pearson's chi-squared test was used to assess the treatment difference in the participants who achieved LDA.||20.2|-0.3|0.0556
82419154|NCT01866150|164549540|SUPERIORITY_OR_OTHER||Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.152||0.5195|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Comparison at Month 3. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.20|-0.40|0.5195
82419155|NCT01866150|164549540|SUPERIORITY_OR_OTHER||Treatment difference|-0.17|STANDARD_ERROR_OF_MEAN|0.149||0.242|TWO_SIDED|95.0|-0.47|0.12|||Mixed Models Analysis|||Comparison at Month 6. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.12|-0.47|0.2420
82419156|NCT01866150|164549540|SUPERIORITY_OR_OTHER||Treatment difference|-0.15|STANDARD_ERROR_OF_MEAN|0.154||0.3264|TWO_SIDED|95.0|-0.45|0.15|||Mixed Models Analysis|||Comparison at the last visit. Analysis used a mixed model with month, cohort, baseline DAS28 score; cohort-by-month and cohort-by-baseline DAS28 score as fixed effects. Within-participant repeated measurements were incorporated with an unstructured variance-covariance structure.||0.15|-0.45|0.3264
82419157|NCT01866150|164549542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.81||||0.0237|TWO_SIDED|95.0|-16.44|-1.18|||General Linear Model|||Analysis was performed using a general linear model with cohort as a factor.||-1.18|-16.44|0.0237
82419158|NCT00600704|164549546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.379|STANDARD_DEVIATION|0.096|<|0.05|TWO_SIDED|95.0|0.189|0.569|||t-test, 2 sided|||Sample size calculation was based on a two-sided alpha error of .05 and 80% power. After applying the protocol in two equal groups of 10 patients, the analysis showed that the study requires 60 patients per group. However, we decided to enroll up to 100 patients per group to allow for patient attrition or missing data, and also in order to look for differences with regards to transfusion between patient subgroups.||0.569|0.189|<0.05
82533664|NCT03259373|164765094|SUPERIORITY||Hazard Ratio (HR)|0.98|STANDARD_ERROR_OF_MEAN|0.073||0.76|TWO_SIDED|95.0|0.85|1.13|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.13|0.85|0.760
82647253|NCT02164539|165009605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.5|||<|0.001|TWO_SIDED|95.0|8.0|29.1|||ANCOVA|||||29.1|8.0|<0.001
82419159|NCT00600704|164549546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.797|STANDARD_ERROR_OF_MEAN|0.168|<|0.05|TWO_SIDED|95.0|0.465|1.129|||Regression, Linear||The mean difference between groups B and A is adjusted for age, gender, BMI and preoperative HCT, while BSA, weight, height, postoperative HCT were not included in the final model to avoid collinearity.|Null hypothesis :restrictive fluid protocol does not have any effect concerning the mean number of PRC units transfused.||1.129|0.465|<0.05
82419160|NCT02722330|164549553|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||||||<0.0001
82419161|NCT02722330|164549554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Ease of communication||||<0.0001
82419162|NCT02722330|164549554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Reverberation||||<0.0001
82419163|NCT02722330|164549554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Background noise||||<0.0001
82419164|NCT02722330|164549554|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wilcoxon Signed rank Test|||Aversiveness||||0.0004
82419165|NCT02722330|164549554|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed rank Test|||Global score||||<0.0001
82419166|NCT02722330|164549555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech scale||||<0.0001
82419167|NCT02722330|164549555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Spatial scale||||<0.0001
82419168|NCT02722330|164549555|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Qualities scale||||<0.0001
82419169|NCT02722330|164549556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||||||<0.0001
82419170|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||250 Hz||||<0.0001
82419171|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||500 Hz||||<0.0001
82419172|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||750 Hz||||<0.0001
82419173|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1000 Hz||||<0.0001
82419174|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1500 Hz||||<0.0001
82419175|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||2000 Hz||||<0.0001
82419176|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||3000 Hz||||<0.0001
82419177|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||4000 Hz||||<0.0001
82419178|NCT02722330|164549557|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||6000 Hz||||<0.0001
82419179|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||250 Hz||||<0.0001
82419180|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||500 Hz||||<0.0001
82419181|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||750 Hz||||<0.0001
82419182|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1000 Hz||||<0.0001
82419183|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||1500 Hz||||<0.0001
82419184|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||2000 Hz||||<0.0001
82647254|NCT02164539|165009606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.264|TWO_SIDED|95.0|-0.034|0.125|||ANCOVA|||||0.125|-0.034|0.264
82419185|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||3000 Hz||||<0.0001
82419186|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||4000 Hz||||<0.0001
82419187|NCT02722330|164549558|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||6000 Hz||||<0.0001
82419188|NCT02722330|164549559|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon Signed Rank test|||||||0.002
82419189|NCT02722330|164549560|SUPERIORITY_OR_OTHER|||||||0.0024|||||||Wilcoxon Signed Rank test|||||||0.0024
82419190|NCT02722330|164549561|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 50 dB||||<0.0001
82419191|NCT02722330|164549561|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 65 dB||||<0.0001
82419192|NCT02722330|164549561|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 80 dB||||<0.0001
82419193|NCT02722330|164549562|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All variable had the same p value (\<0.0001).|Wolcoxon Signed rank test|||Speech Presentation Level 50 dB||||<0.0001
82533665|NCT03259373|164765095|SUPERIORITY||Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.072||0.76|TWO_SIDED|95.0|0.86|1.14|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.14|0.86|0.760
82419194|NCT02722330|164549562|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 65 dB||||<0.0001
82419195|NCT02722330|164549562|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank test|||Speech Presentation Level 80 dB||||<0.0001
82419196|NCT02722330|164549563|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon Signed Rank test|||||||0.036
82419197|NCT02722330|164549564|SUPERIORITY_OR_OTHER|||||||0.065|||||||Wilcoxon Signed Rank test|||||||0.065
82419198|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon Signed Rank test|||250 Hz||||0.47
82419199|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon Signed Rank test|||500 Hz||||0.16
82419200|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon Signed Rank test|||750 Hz||||0.59
82419201|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.034|||||||Wilcoxon Signed Rank test|||1000 Hz||||0.034
82419202|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon Signed Rank test|||1500 Hz||||0.25
82419203|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon Signed Rank test|||2000 Hz||||0.023
82419204|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.028|||||||Wilcoxon Signed Rank test|||3000 Hz||||0.028
82419205|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Wilcoxon Signed Rank test|||4000 Hz||||0.0075
82419206|NCT02722330|164549565|SUPERIORITY_OR_OTHER|||||||0.0035|||||||Wilcoxon Signed Rank test|||6000 Hz||||0.0035
82419207|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon Signed Rank test|||250 Hz||||0.12
82419208|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.072|||||||Wilcoxon Signed Rank test|||500 Hz||||0.072
82419209|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.56|||||||Wilcoxon Signed Rank test|||750 Hz||||0.56
82419210|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon Signed Rank test|||1000 Hz||||0.16
82419211|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon Signed Rank test|||1500 Hz||||0.39
82419212|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon Signed Rank test|||2000 Hz||||0.11
82419213|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon Signed Rank test|||3000 Hz||||0.38
82419214|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.014|||||||Wilcoxon Signed Rank test|||4000 Hz||||0.014
82419215|NCT02722330|164549566|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon Signed Rank test|||6000 Hz||||0.71
82419216|NCT02722330|164549567|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon Signed Rank test|||||||0.48
82419217|NCT02722330|164549568|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon Signed Rank test|||||||0.11
82419218|NCT02722330|164549569|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon Signed Rank test|||SPL 50 dB||||0.017
82419219|NCT02722330|164549569|SUPERIORITY_OR_OTHER|||||||0.095|||||||Wilcoxon Signed Rank test|||SPL 65 dB||||0.095
82419220|NCT02722330|164549569|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon Signed Rank test|||SPL 80 dB||||0.57
82419221|NCT02722330|164549570|SUPERIORITY_OR_OTHER|||||||0.096|||||||Wilcoxon Signed Rank test|||SPL 50 dB||||0.096
82419222|NCT02722330|164549570|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon Signed Rank test|||SPL 65 dB||||1.00
82419223|NCT02722330|164549570|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon Signed Rank test|||SPL 80 dB||||0.41
82419224|NCT04392362|164549576|NON_INFERIORITY|The non-inferiority margin or delta was calculated as -0.12(-12%)|Risk Ratio (RR)|0.89||||0.8982|ONE_SIDED|95.0||||0.05 was the level of significance|Wilcoxon (Mann-Whitney)|||The null hypothesis is that the AHA method is inferior to the SIM method but not lower than a pre calculated noninferiority delta of -0.12 (-12 %) and a 95% one sided confidence interval. Only 33 (instead of 151 for a power of 95%) patients could be enrolled with 25 in the SIM and 8 in the AHA arms, which resulted in an estimated power test of 59.08%.||||0.8982
82419225|NCT03160573|164549625|SUPERIORITY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||Test Flavored Rinse, Placebo Flavored Rinse||||<0.00001
82419226|NCT03160573|164549625|SUPERIORITY||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||Test Unflavored Rinse, Placebo Unflavored Rinse||||<0.00001
82419227|NCT00159874|164549692|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.02|STANDARD_ERROR_OF_MEAN|6.1||0.253|TWO_SIDED|95.0|-19.13|5.09|||ANCOVA||Least square mean difference of -7.02 was calculated as ' Sildenafil Medium Dose - Low Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||5.09|-19.13|0.253
82419228|NCT00159874|164549692|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.84|STANDARD_ERROR_OF_MEAN|5.92||0.1|TWO_SIDED|95.0|-21.6|1.93|||ANCOVA||Least square mean difference of -9.84 was calculated as ' Sildenafil High Dose - Low Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||1.93|-21.60|0.100
82647255|NCT02164539|165009606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.328|TWO_SIDED|95.0|-0.041|0.121|||ANCOVA|||||0.121|-0.041|0.328
82419229|NCT00159874|164549692|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.82|STANDARD_ERROR_OF_MEAN|6.01||0.64|TWO_SIDED|95.0|-14.75|9.11|||ANCOVA||Least square mean difference of -2.82 was calculated as ' Sildenafil High Dose - Medium Dose'|Analyses were performed using analysis of covariance with etiology, weight, day of assessment and baseline peak VO2 as the covariates.||9.11|-14.75|0.640
82419230|NCT02197065|164549750|OTHER||Proportion|0.2|||||ONE_SIDED|||||||||This was a pilot feasibility study and we were only powered to determine the frequency of troponin elevation in the entire study population, not to compare the frequency of a rise in troponin in the two study arms. Thus Aim 1 applies to the entire study cohort.||||
82419231|NCT02197065|164549751|SUPERIORITY||Median Difference (Final Values)|13.0||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.58
82419232|NCT02197065|164549752|SUPERIORITY||Median Difference (Final Values)|0.3||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82419233|NCT00276380|164549753|OTHER||Odds Ratio (OR)|0.83||||0.52|TWO_SIDED|95.0|0.46|1.48|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.48|0.46|0.52
82419234|NCT00276380|164549754|OTHER|Comparison of treatment effect at Day 28|Odds Ratio (OR)|0.86||||0.623|TWO_SIDED|95.0|0.47|1.57|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.57|0.47|0.623
82419235|NCT00276380|164549754|OTHER|Comparison of treatment effect at Day 84|Odds Ratio (OR)|0.74||||0.3|TWO_SIDED|95.0|0.42|1.3|||Cochran-Mantel-Haenszel||The homogeneity of the Odds Ratio (OR) across centres was assessed by the Breslow Day test.|The association between treatment and response after adjustment for the pooled centres was analysed using a Cochran-Mantel-Haenszel test.||1.3|0.42|0.3
82419236|NCT00276380|164549756|OTHER|||||||0.207||||||Treatment effect was derived using a parametric analysis of covariance (ANCOVA) with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.207
82419237|NCT00276380|164549756|OTHER|||||||0.59||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.590
82419238|NCT00276380|164549756|OTHER|Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.||||||0.814|||||||ANCOVA|||Comparison of treatment effect at Day 168||||0.814
82419239|NCT00276380|164549757|OTHER|||||||0.24||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.240
82419240|NCT00276380|164549757|OTHER|||||||0.441||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.441
82419241|NCT00276380|164549757|OTHER|||||||0.645||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 168||||0.645
82419242|NCT00276380|164549758|OTHER|||||||0.623||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 28||||0.623
82576654|NCT02224703|164863581|SUPERIORITY||Treatment Ratio|0.702||||0.0095|TWO_SIDED|95.0|0.538|0.916|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset. Null hypothesis was that the ratio of GWP42003-P to placebo would be 1.||0.916|0.538|0.0095
82419243|NCT00276380|164549758|OTHER|||||||0.338||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates.|ANCOVA|||Comparison of treatment effect at Day 84||||0.338
82419244|NCT00276380|164549758|OTHER|||||||0.828||||||Treatment effect was derived using an ANCOVA analysis with baseline and pooled centres as covariates|ANCOVA|||Comparison of treatment effect at Day 168||||0.828
82419245|NCT01651208|164549760|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0|||||Chi-squared|||We hypothesized that in the MINT group, at least 70% of subjects will reach an MPR of 0.80 while in the DVD group, the proportion will remain at or below 55%. Our sample size estimates showed that, using a conservative 2-sided test at the 5% Alpha level and a 90% power, we will be able to detect a significant 15% difference (70% - 55%) with a sample of 217 in each study group.||||<0.01
82419246|NCT01651208|164549761|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the mean MMAS-4 score is similar in both intervention arms||||<0.01
82419247|NCT05287685|164549764|OTHER|||||||0.29|||||||t-test, 2 sided|||Preliminary pre-post outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.29
82419248|NCT05287685|164549764|OTHER|||||||0.34|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.34
82419249|NCT05287685|164549764|SUPERIORITY|||||||0.02|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.02
82419250|NCT05287685|164549764|SUPERIORITY|||||||0.04|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.04
82419251|NCT05287685|164549765|OTHER|||||||0.88|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.88
82419252|NCT05287685|164549765|OTHER|||||||0.87|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.87
82419253|NCT05287685|164549765|SUPERIORITY|||||||0.1|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.10
82419254|NCT05287685|164549765|SUPERIORITY|||||||0.9|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.90
82419255|NCT05287685|164549766|EQUIVALENCE|Analysis to test whether groups had equivalent levels of satisfaction with treatment (defined as the groups not being significantly different at the level of p\<.05).||||||0.8|||||||t-test, 2 sided|||T-test analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups.||||.80
82419256|NCT05287685|164549767|OTHER|||||||0.35|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.35
82419257|NCT05287685|164549767|OTHER|||||||0.049|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.049
82419258|NCT05287685|164549767|SUPERIORITY|||||||0.45|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.45
82419259|NCT05287685|164549767|SUPERIORITY|||||||0.2|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.20
82419260|NCT05287685|164549768|OTHER|||||||0.006|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline (week 0) to posttest (week 8) scores.||||.006
82419261|NCT05287685|164549768|OTHER|||||||0.011|||||||t-test, 2 sided|||Preliminary outcome analysis for the open trial (n = 7). The analysis was a paired samples t-test comparing baseline(week 0) to follow-up (week 16) scores.||||.011
82419262|NCT05287685|164549768|SUPERIORITY|||||||0.22|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at posttest (Week 8) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.22
82419263|NCT05287685|164549768|SUPERIORITY|||||||0.25|||||||ANCOVA|||ANCOVA analysis for the pilot RCT, comparing the outcome variable at follow-up (Week 16) between the two groups, with pretest (baseline) scores, annual household income and household size (to approximate income-to-needs ratio), caregiver education, and child externalizing behavior as covariates.||||.25
82576655|NCT02224703|164863582|SUPERIORITY||Treatment Ratio|0.749||||0.0255|TWO_SIDED|95.0|0.581|0.965|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset.||0.965|0.581|0.0255
82576656|NCT02224703|164863582|SUPERIORITY||Treatment Ratio|0.62||||0.0003|TWO_SIDED|95.0|0.481|0.799|||Negative binomial regression|||Model includes total number of seizures as a response variable and age group, time (baseline and treatment period), treatment, and treatment by time interaction as fixed effects, and participant as a random effect. Log-transformed number of days in which seizures were reported by period is included as an offset.||0.799|0.481|0.0003
82419264|NCT04829214|164549769|SUPERIORITY||Risk Difference (RD)|-10.2|STANDARD_ERROR_OF_MEAN|7.9|=|0.385|TWO_SIDED|95.0|-26.0|5.0|||Mantel Haenszel|||The percentage of responders will be compared between the two groups using the Mantel Haenszel test controlling for category of duration of tinnitus and category of baseline TFI overall score. The primary efficacy analysis will be conducted for the comparison of OTO-313 and placebo, using a 2-sided test and an alpha level of 5%. The 95% confidence intervals (CI) around the common risk difference will also be provided.||5|-26|=0.385
82419265|NCT04543786|164549778|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 2.|Mean Difference (Final Values)|2.8||||0.0048|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|One-way||||||0.0048
82419266|NCT04543786|164549779|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 3.|Mean Difference (Final Values)|3.72|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||< 0.001
82419267|NCT04543786|164549780|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 4.|Mean Difference (Final Values)|3.24|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||<0.001
82419268|NCT04543786|164549781|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 5.|Mean Difference (Final Values)|20.84|||<|0.001|TWO_SIDED|||||Bonferroni post-hoc tests; p \< 0.05 was considered significant|ANOVA|||||||<0.001
82419269|NCT04543786|164549783|OTHER|No comparison was made to another intervention or therapy. Comparing values at baseline and Day 5.|Mean Difference (Final Values)|26.78|||<|0.001|TWO_SIDED|||||p \< 0.05 was considered significant|t-test, 2 sided|paired||||||<0.001
82419270|NCT04543786|164549784|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|1.3||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
82419271|NCT04543786|164549785|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|2.3||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
82419272|NCT04543786|164549786|OTHER|No comparison was made to another intervention or therapy|Mean Difference (Final Values)|1.2||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
82419273|NCT04543786|164549787|OTHER|No comparison was made to another intervention or therapy.|Mean Difference (Final Values)|1.5||||0.56|TWO_SIDED|||||p \< 0.05 was considered significant|ANOVA|Repeated measures||||||0.56
82419274|NCT01953354|164549797|SUPERIORITY_OR_OTHER|||||||1||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||1.000
82576657|NCT02224703|164863583|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0069|TWO_SIDED|95.0|1.32|5.7|||Cochran-Mantel-Haenszel|P-value calculated from a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-12, and 13-18 years).||||5.70|1.32|0.0069
82447829|NCT01393639|164604452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.52|||||TWO_SIDED|90.0|-22.86|9.81|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||9.81|-22.86|
82447830|NCT01393639|164604452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.22|||||TWO_SIDED|90.0|-12.11|20.55|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||20.55|-12.11|
82419275|NCT01953354|164549798|SUPERIORITY_OR_OTHER|||||||1||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||1.000
82419276|NCT01953354|164549799|SUPERIORITY_OR_OTHER|||||||0.242||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.242
82419277|NCT01953354|164549800|SUPERIORITY_OR_OTHER|||||||0.55||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.550
82419278|NCT01953354|164549803|SUPERIORITY_OR_OTHER|||||||0.55||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.550
82419279|NCT01953354|164549804|SUPERIORITY_OR_OTHER|||||||0.633||||||P-value is testing for a difference in proportions using a Fisher's exact test.|Fisher Exact|||||||0.633
82419280|NCT02965976|164549814|SUPERIORITY|||||||0.773|||||||Cochran-Mantel-Haenszel|||||||0.773
82419281|NCT02965976|164549815|SUPERIORITY|||||||0.773|||||||Cochran-Mantel-Haenszel|||||||0.773
82419282|NCT02965976|164549816|SUPERIORITY|||||||0.368|||||||t-test, 2 sided|||||||0.368
82419283|NCT02965976|164549817|SUPERIORITY|||||||0.987|||||||t-test, 2 sided|||||||0.987
82419284|NCT02965976|164549818|SUPERIORITY|||||||0.423|||||||Cochran-Mantel-Haenszel|||||||0.423
82419285|NCT02965976|164549819|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.000
82447831|NCT01393639|164604452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.83|||||TWO_SIDED|90.0|-3.49|29.15|||||Statistical analysis was performed using a repeated measures mixed model with fixed effects for treatment and visit, treatment by visit interaction and baseline value; unstructured covariance matrix was used.|||29.15|-3.49|
82419286|NCT00806026|164549849|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-4.5|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-5.9|-3.2||This analysis was step 1 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region \[United states (US) or European union (EU)\], treatment, week and treatment by week interaction as fixed effects.||-3.20|-5.90|<0.0001
82419287|NCT00806026|164549849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3603|TWO_SIDED|95.0|-2.0|0.7||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.7|-2.0|0.3603
82419288|NCT00806026|164549849|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.5|-1.9||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze RLS symptom severity score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-1.9|-4.5|<0.0001
82419289|NCT00806026|164549850|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||This analysis was step 2 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pregabalin 300 mg versus placebo: Cochran-Mantel-Haenszel (CMH) test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||<0.0001
82419290|NCT00806026|164549850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4393|TWO_SIDED|||||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pramipexole 0.25 mg versus placebo: CMH test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||0.4393
82447832|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|11.36|||||TWO_SIDED|95.0|-6.84|29.56|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||29.56|-6.84|
82447833|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.15|||||TWO_SIDED|95.0|-5.88|30.19|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||30.19|-5.88|
82447834|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.54|||||TWO_SIDED|95.0|0.91|38.17|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||38.17|0.91|
82447835|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|22.09|||||TWO_SIDED|95.0|3.6|40.58|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||40.58|3.60|
82447836|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.43|||||TWO_SIDED|95.0|-9.38|26.25|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||26.25|-9.38|
82447837|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|16.5|||||TWO_SIDED|95.0|-1.84|34.84|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||34.84|-1.84|
82447838|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.88|||||TWO_SIDED|95.0|-28.58|10.8|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.80|-28.58|
82419291|NCT00806026|164549850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022|TWO_SIDED|||||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Cochran-Mantel-Haenszel|||For pramipexole 0.5 mg versus placebo: CMH test stratified by geographical region (US or EU) was used to analyze CGI-I responder status.||||0.0022
82419292|NCT00806026|164549851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0826|TWO_SIDED|||||This analysis was step 6 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Log Rank|||For pramipexole 0.25 mg versus pregabalin 300 mg: Stratified log rank test by block (40 weeks versus 52 weeks of active treatment) was used to calculate p-value.||||0.0826
82419293|NCT00806026|164549851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|TWO_SIDED|||||This analysis was step 3 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Log Rank|||For pramipexole 0.5 mg versus pregabalin 300 mg: Stratified log rank test by block (40 weeks versus 52 weeks of active treatment) was used to calculate p-value.||||0.0012
82419294|NCT00806026|164549853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.25|STANDARD_ERROR_OF_MEAN|4.332|<|0.0001|TWO_SIDED|95.0|-25.76|-8.74||This analysis was step 7 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-8.74|-25.76|<0.0001
82419295|NCT00806026|164549853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|STANDARD_ERROR_OF_MEAN|4.408||0.8075|TWO_SIDED|95.0|-9.73|7.58||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||7.58|-9.73|0.8075
82419296|NCT00806026|164549853|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.57|STANDARD_ERROR_OF_MEAN|4.318||0.2906|TWO_SIDED|95.0|-13.05|3.91||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze SSQ-Subjective WASO score with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||3.91|-13.05|0.2906
82419297|NCT00806026|164549859|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|3.93||0.7073|TWO_SIDED|95.0|-9.3|6.3||This analysis was step 8 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||6.30|-9.30|0.7073
82419298|NCT00806026|164549859|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|3.78||0.5299|TWO_SIDED|95.0|-5.1|9.9||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||9.9|-5.1|0.5299
82419299|NCT00806026|164549859|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|3.69||0.0354|TWO_SIDED|95.0|-15.2|-0.5||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze RLS-NDI with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-0.5|-15.2|0.0354
82419300|NCT00806026|164549861|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.28||0.0004|TWO_SIDED|95.0|-1.55|-0.45||This analysis was step 9 in a step-down procedure (if p\<0.05, then continue to next step) used to control the Type I error rate. This procedure was stopped at Step 6. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pregabalin 300 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||-0.45|-1.55|0.0004
82419301|NCT00806026|164549861|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.282||0.1242|TWO_SIDED|95.0|-0.99|0.12||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.25 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.12|-0.99|0.1242
82647256|NCT02164539|165009606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.534|TWO_SIDED|95.0|-0.054|0.103|||ANCOVA|||||0.103|-0.054|0.534
82647257|NCT02164539|165009606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.005||||0.895|TWO_SIDED|95.0|-0.065|0.075|||ANCOVA|||||0.075|-0.065|0.895
82647258|NCT02164539|165009606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.076||||0.031|TWO_SIDED|95.0|0.007|0.146|||ANCOVA|||||0.146|0.007|0.031
82647259|NCT02164539|165009607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.088||||0.019|TWO_SIDED|95.0|-0.162|-0.014|||ANCOVA|||||-0.014|-0.162|0.019
82647260|NCT02164539|165009607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.091||||0.017|TWO_SIDED|95.0|-0.165|-0.016|||ANCOVA|||||-0.016|-0.165|0.017
82419302|NCT00806026|164549861|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.287||0.0553|TWO_SIDED|95.0|-1.12|0.01||This analysis was not included in the step-down procedure (if p\<0.05, then continue to next step) to control Type I error. The analysis was done at a significance level of alpha = 0.05, 2-sided.|Mixed Models Analysis|Spatial power covariance structure was used.||For pramipexole 0.5 mg versus placebo: Mixed model analysis was used to analyze limb pain-VAS with baseline value, region (US or EU), treatment, week and treatment by week interaction as fixed effects.||0.01|-1.12|0.0553
82419303|NCT02777190|164549896|NON_INFERIORITY|Margin of 4 hours|Mean Difference (Final Values)|-1.7||||0.09|ONE_SIDED|97.5||6.7|||t-test, 1 sided|one-sided two-sample t-test with alpha=0.025|Difference calculated as oral minus vaginal|||6.7||0.09
82419304|NCT02777190|164549897|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
82419305|NCT02777190|164549898|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
82419306|NCT02777190|164549899|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82419307|NCT02777190|164549900|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
82419308|NCT02777190|164549901|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82419309|NCT02777190|164549902|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.60
82419310|NCT02777190|164549904|SUPERIORITY|||||||0.4|||||||Fisher Exact|||||||0.40
82419311|NCT02777190|164549905|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82419312|NCT02777190|164549906|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
82419313|NCT02777190|164549907|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82419314|NCT02777190|164549908|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82419315|NCT01714063|164549923|OTHER|We used a paired T-test for statistical analysis to compare the filter dose. Using the 1% significance level and assuming a between-subject standard deviation of 60 lg (27%) for the difference between coordinated and doses, 32 subjects are sufficient to detect a 45 lg (20%) difference with 95% confidence.uncoordinated filter|||||<|0.001|||||||paired t-test|||||||<0.001
82419316|NCT03733483|164549934|EQUIVALENCE|Maximum likelihood estimates in a repeated measures model were used to assess the effect of insufficient sleep on P1NP levels. Change in P1NP in response to insufficient sleep was assessed using values measured every two hours on two, 24-h profiles obtained at baseline and on night 6 of sleep restriction. Circadian rhythmicity was included in the repeated-measures model as diurnal variation has been documented in prior studies. Data are presented as estimate ± standard error of the estimate.||||||0.53|||||||Mixed Models Analysis|||||||0.53
82419317|NCT03733483|164549935|EQUIVALENCE|Maximum likelihood estimates in a repeated measures model were used to assess the effect of insufficient sleep on CTX levels. Change in CTX in response to insufficient sleep was assessed using values measured every two hours on two, 24-h profiles obtained at baseline and on night 6 of sleep restriction. Circadian rhythmicity was included in the repeated-measures model as diurnal variation has been documented in prior studies. Data are presented as estimate ± standard error of the estimate.||||||0.1|||||||Mixed Models Analysis|||||||0.10
82419318|NCT02191397|164549936|NON_INFERIORITY|A one-sided 97.5% confidence interval for the between-treatment difference (bupropion XL-escitalopram) was compared with the pre-defined non-inferiority margin of 2.2. If the upper limit of the one-sided 97.5% confidence interval was below 2.2, then it indicated that bupropion was not inferior in efficacy to escitalopram.|Mean Difference (Final Values)|0.8||||0.139|TWO_SIDED|95.0|-0.27|1.94||Analysis included Baseline HAMD-17 total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Observed Cases (OC) dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.94|-0.27|0.139
82419319|NCT02191397|164549937|OTHER||Odds Ratio (OR)|0.85||||0.479|TWO_SIDED|95.0|0.55|1.33||P-value was estimated from a Generalized Estimating Equation (GEE) model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables.|GEE model|||||1.33|0.55|0.479
82419320|NCT02191397|164549938|OTHER||Odds Ratio (OR)|0.73||||0.129|TWO_SIDED|95.0|0.48|1.1||P-value was estimated from a Generalized Estimating Equation (GEE) model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.10|0.48|0.129
82419321|NCT02191397|164549939|OTHER||Odds Ratio (OR)|0.83||||0.354|TWO_SIDED|95.0|0.55|1.24||P-value was estimated from a GEE model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.24|0.55|0.354
82419322|NCT02191397|164549940|OTHER||Odds Ratio (OR)|0.85||||0.489|TWO_SIDED|95.0|0.54|1.34||P-value was estimated from a GEE model with Response based on HADM-17 as response variable and treatment, gender as explanatory variables|GEE model|||||1.34|0.54|0.489
82419323|NCT02191397|164549941|OTHER||Mean Difference (Final Values)|0.2||||0.627|TWO_SIDED|95.0|-0.7|1.16||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.16|-0.70|0.627
82419324|NCT02191397|164549941|OTHER||Mean Difference (Final Values)|1.4||||0.037|TWO_SIDED|95.0|0.08|2.66||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.66|0.08|0.037
82419325|NCT02191397|164549941|OTHER||Mean Difference (Final Values)|1.2||||0.143|TWO_SIDED|95.0|-0.4|2.78||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.78|-0.40|0.143
82419326|NCT02191397|164549941|OTHER||Mean Difference (Final Values)|0.8||||0.33|TWO_SIDED|95.0|-0.81|2.4||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.40|-0.81|0.330
82647261|NCT02164539|165009607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089||||0.017|TWO_SIDED|95.0|-0.162|-0.016|||ANCOVA|||||-0.016|-0.162|0.017
82419327|NCT02191397|164549941|OTHER||Mean Difference (Final Values)|0.9||||0.278|TWO_SIDED|95.0|-0.69|2.4||Analysis included Baseline MADRS total score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||2.40|-0.69|0.278
82419328|NCT02191397|164549942|OTHER||Mean Difference (Final Values)|0.0||||0.579|TWO_SIDED|95.0|-0.09|0.16||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.16|-0.09|0.579
82419329|NCT02191397|164549942|OTHER||Mean Difference (Final Values)|0.1||||0.163|TWO_SIDED|95.0|-0.04|0.26||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.26|-0.04|0.163
82419330|NCT02191397|164549942|OTHER||Mean Difference (Final Values)|0.2||||0.05|TWO_SIDED|95.0|0.0|0.34||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.34|0.00|0.050
82419331|NCT02191397|164549942|OTHER||Mean Difference (Final Values)|0.1||||0.337|TWO_SIDED|95.0|-0.09|0.26||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.26|-0.09|0.337
82419332|NCT02191397|164549942|OTHER||Mean Difference (Final Values)|0.0||||0.714|TWO_SIDED|95.0|-0.14|0.2||Analysis included Baseline HAMD-17 depressed mood subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.20|-0.14|0.714
82419333|NCT02191397|164549943|OTHER||Mean Difference (Final Values)|-0.2||||0.358|TWO_SIDED|95.0|-0.5|0.18||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.18|-0.50|0.358
82419334|NCT02191397|164549943|OTHER||Mean Difference (Final Values)|0.4||||0.081|TWO_SIDED|95.0|-0.04|0.75||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.75|-0.04|0.081
82419335|NCT02191397|164549943|OTHER||Mean Difference (Final Values)|0.5||||0.062|TWO_SIDED|95.0|-0.02|0.99||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.99|-0.02|0.062
82419336|NCT02191397|164549943|OTHER||Mean Difference (Final Values)|0.4||||0.118|TWO_SIDED|95.0|-0.1|0.85||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.85|-0.10|0.118
82419337|NCT02191397|164549943|OTHER||Mean Difference (Final Values)|0.3||||0.252|TWO_SIDED|95.0|-0.19|0.71||Analysis included Baseline HAMD-17 anxiety/somatization subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.71|-0.19|0.252
82419338|NCT02191397|164549944|OTHER||Mean Difference (Final Values)|0.1||||0.573|TWO_SIDED|95.0|-0.2|0.35||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.35|-0.20|0.573
82419339|NCT02191397|164549944|OTHER||Mean Difference (Final Values)|0.2||||0.209|TWO_SIDED|95.0|-0.13|0.58||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.58|-0.13|0.209
82419340|NCT02191397|164549944|OTHER||Mean Difference (Final Values)|0.2||||0.427|TWO_SIDED|95.0|-0.25|0.58||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.58|-0.25|0.427
82419341|NCT02191397|164549944|OTHER||Mean Difference (Final Values)|0.0||||0.851|TWO_SIDED|95.0|-0.4|0.48||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.48|-0.40|0.851
82533666|NCT03259373|164765096|SUPERIORITY||Hazard Ratio (HR)|0.97|STANDARD_ERROR_OF_MEAN|0.052||0.616|TWO_SIDED|95.0|0.88|1.08|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.08|0.88|0.616
82533667|NCT03259373|164765097|SUPERIORITY||Hazard Ratio (HR)|1.0|STANDARD_ERROR_OF_MEAN|0.072||0.992|TWO_SIDED|95.0|0.87|1.15|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.15|0.87|0.992
82533668|NCT03259373|164765098|SUPERIORITY||Hazard Ratio (HR)|1.01|STANDARD_ERROR_OF_MEAN|0.029||0.808|TWO_SIDED|95.0|0.95|1.07|||fixed-effect meta-analysis|||||1.07|0.95|0.808
82533669|NCT03259373|164765099|SUPERIORITY||Standardized Mean Difference (%)|-0.51|STANDARD_ERROR_OF_MEAN|0.027||0.853|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.853
82647262|NCT02164539|165009607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.066|TWO_SIDED|95.0|-0.124|0.004|||ANCOVA|||||0.004|-0.124|0.066
82419342|NCT02191397|164549944|OTHER||Mean Difference (Final Values)|0.2||||0.37|TWO_SIDED|95.0|-0.25|0.66||Analysis included Baseline HAMD-17 Retardation subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.66|-0.25|0.370
82419343|NCT02191397|164549945|OTHER||Mean Difference (Final Values)|0.1||||0.438|TWO_SIDED|95.0|-0.16|0.37||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.37|-0.16|0.438
82419344|NCT02191397|164549945|OTHER||Mean Difference (Final Values)|0.4||||0.014|TWO_SIDED|95.0|0.07|0.66||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.66|0.07|0.014
82419345|NCT02191397|164549945|OTHER||Mean Difference (Final Values)|0.2||||0.207|TWO_SIDED|95.0|-0.11|0.5||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.50|-0.11|0.207
82419346|NCT02191397|164549945|OTHER||Mean Difference (Final Values)|0.2||||0.137|TWO_SIDED|95.0|-0.07|0.54||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.54|-0.07|0.137
82419347|NCT02191397|164549945|OTHER||Mean Difference (Final Values)|0.2||||0.299|TWO_SIDED|95.0|-0.14|0.46||Analysis included Baseline HAMD-17 Sleep Disorder subscale score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.46|-0.14|0.299
82419348|NCT02191397|164549946|OTHER||Mean Difference (Final Values)|0.0||||0.804|TWO_SIDED|95.0|-0.1|0.13||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.13|-0.10|0.804
82419349|NCT02191397|164549946|OTHER||Mean Difference (Final Values)|0.1||||0.079|TWO_SIDED|95.0|-0.02|0.28||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.28|-0.02|0.079
82419350|NCT02191397|164549946|OTHER||Mean Difference (Final Values)|0.2||||0.036|TWO_SIDED|95.0|0.01|0.38||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.38|0.01|0.036
82419351|NCT02191397|164549946|OTHER||Mean Difference (Final Values)|0.1||||0.248|TWO_SIDED|95.0|-0.08|0.31||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.31|-0.08|0.248
82426630|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-80.05||||0.0001|TWO_SIDED|95.0|-120.3|-39.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-39.8|-120.3|0.0001
82647263|NCT02164539|165009607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.163|||<|0.001|TWO_SIDED|95.0|-0.227|-0.099|||ANCOVA|||||-0.099|-0.227|<0.001
82648062|NCT02290028|165011506|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||Primary endpoint 1 was evaluated by performing an exact, binomial test comparing the observed proportion (overall complication-free rate at 6 months) to the performance goal of 90.0%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the overall complication-free rate must be greater than 90.0%.||||<0.0001
82419352|NCT02191397|164549946|OTHER||Mean Difference (Final Values)|0.2||||0.11|TWO_SIDED|95.0|-0.04|0.35||Analysis included Baseline CGI-S score as covariate, treatment, gender, visit and treatment-visit interaction as fixed effects. Unstructured covariance matrix was used.|Mixed model repeated measures analysis||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.35|-0.04|0.110
82419353|NCT02191397|164549947|OTHER||Odds Ratio, log|0.78||||0.545|TWO_SIDED|95.0|0.35|1.75||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 1. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.75|0.35|0.545
82419354|NCT02191397|164549947|OTHER||Odds Ratio (OR)|0.95||||0.822|TWO_SIDED|95.0|0.58|1.54||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 2. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.54|0.58|0.822
82419355|NCT02191397|164549947|OTHER||Odds Ratio (OR)|0.57||||0.007|TWO_SIDED|95.0|0.38|0.86||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 4. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||0.86|0.38|0.007
82419356|NCT02191397|164549947|OTHER||Odds Ratio (OR)|0.83||||0.417|TWO_SIDED|95.0|0.54|1.29||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 6. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.29|0.54|0.417
82419357|NCT02191397|164549947|OTHER||Odds Ratio (OR)|0.83||||0.485|TWO_SIDED|95.0|0.49|1.4||P-value was estimated from a GEE model repeated measures with CGI-I score of 1 or 2 as response variable and treatment, gender as explanatory variables|GEE model repeated measures||Comparison for Week 8. OC dataset was used, where available data at a given time point was used with no missing values filled in with estimates.|||1.40|0.49|0.485
82419358|NCT00318136|164549963|SUPERIORITY_OR_OTHER||Percentage of patients|3.2||||||90.0|0.3|13.5|||Blyth-Still-Casella|||||13.5|0.3|
82419359|NCT03721107|164549968|SUPERIORITY||Difference in Percentage|7.9||||0.152|TWO_SIDED|95.0|-6.0|21.9||P-value is from a 1-sided Pearson chi-square test with Yates' correction with null hypothesis that the difference in proportions Blautix - placebo \<=0 versus the difference is \>0. The significance level for rejection of the null hypotheses is 0.10.|Chi-squared, Corrected|||||21.9|-6.0|0.152
82419360|NCT03721107|164549968|SUPERIORITY||Difference in Percentage|5.6||||0.216|TWO_SIDED|95.0|-6.8|18.0||P-value is from a 1-sided Pearson chi-square test with Yates' correction with null hypothesis that the difference in proportions Blautix - placebo \<=0 versus the difference is \>0. The significance level for rejection of the null hypotheses is 0.10.|Chi-squared, Corrected|||||18.0|-6.8|0.216
82419361|NCT03072875|164550096|OTHER|Descriptive statistic.|||||||||||||||||Quantitative data (descriptive statistic) from the USAQ were used to determine feasibility. Specifically, we established an a priori mean score of 3.5 or greater on the USAQ to determine feasibility.|||
82419362|NCT00452400|164550121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.027||0.0233||95.0|0.008|0.113|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.113|0.008|0.0233
82419363|NCT00452400|164550121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.027||0.0003||95.0|0.044|0.149|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.149|0.044|0.0003
82447839|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.31|||||TWO_SIDED|95.0|-4.85|35.49|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||35.49|-4.85|
82648063|NCT02290028|165011507|SUPERIORITY||||||=|0.002|||||||Exact, binomial|||Primary endpoint 2 was evaluated by performing an exact, binomial test comparing an observed proportion (rate of acceptable LV pacing thresholds at the permanently programmed pacing vector at 3 months) to 88%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the percentage of subjects with an acceptable LV pacing threshold in the permanently programmed pacing vector must be greater than 88.0%.||||=0.002
82419364|NCT00452400|164550121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.072|0.175|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.175|0.072|<0.0001
82419365|NCT00452400|164550121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.08|0.185|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.185|0.080|<0.0001
82419366|NCT00452400|164550122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.025||0.0004||95.0|0.039|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|0.039|0.0004
82419367|NCT00452400|164550122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.088|0.186|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.186|0.088|<0.0001
82419368|NCT00452400|164550122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.08|0.176|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.176|0.080|<0.0001
82447840|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|26.66|||||TWO_SIDED|95.0|6.8|46.53|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||46.53|6.80|
82447841|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|13.19|||||TWO_SIDED|95.0|-7.01|33.4|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||33.40|-7.01|
82419369|NCT00452400|164550122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.12|0.218|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.218|0.120|<0.0001
82419370|NCT00452400|164550123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.026||0.0011||95.0|0.034|0.136|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.136|0.034|0.0011
82419371|NCT00452400|164550123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.07|0.173|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.173|0.070|<0.0001
82419372|NCT00452400|164550123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.075|0.175|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.175|0.075|<0.0001
82419373|NCT00452400|164550123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.077|0.179|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.179|0.077|<0.0001
82419374|NCT00452400|164550124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.044||0.0127||95.0|0.024|0.197|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.197|0.024|0.0127
82419375|NCT00452400|164550124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001||95.0|0.087|0.261|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.261|0.087|<0.0001
82419376|NCT00452400|164550124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.043||0.0001||95.0|0.084|0.255|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.255|0.084|0.0001
82419377|NCT00452400|164550124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.044||0.0001||95.0|0.084|0.258|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.258|0.084|0.0001
82419378|NCT00452400|164550125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.052||0.0836||95.0|-0.012|0.192|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.192|-0.012|0.0836
82419379|NCT00452400|164550125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.052||0.0011||95.0|0.068|0.274|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.274|0.068|0.0011
82419380|NCT00452400|164550125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.051||0.0037||95.0|0.049|0.25|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.250|0.049|0.0037
82419381|NCT00452400|164550125|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.052||0.0047||95.0|0.046|0.251|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.251|0.046|0.0047
82419382|NCT00452400|164550126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.051||0.0695||95.0|-0.008|0.195|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.195|-0.008|0.0695
82419383|NCT00452400|164550126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.052||0.0018||95.0|0.061|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.264|0.061|0.0018
82419384|NCT00452400|164550126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.051||0.0008||95.0|0.072|0.272|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.272|0.072|0.0008
82419385|NCT00452400|164550126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.052||0.0006||95.0|0.077|0.281|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.281|0.077|0.0006
82419386|NCT00452400|164550127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.078|0.204|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.204|0.078|<0.0001
82419387|NCT00452400|164550127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.099|0.225|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.225|0.099|<0.0001
82419388|NCT00452400|164550127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.151|0.275|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.275|0.151|<0.0001
82419389|NCT00452400|164550127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.151|0.277|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.277|0.151|<0.0001
82419390|NCT00452400|164550128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.097|0.231|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.231|0.097|<0.0001
82419391|NCT00452400|164550128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.102|0.237|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.237|0.102|<0.0001
82419392|NCT00452400|164550128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.152|0.284|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.284|0.152|<0.0001
82419393|NCT00452400|164550128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.157|0.292|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.292|0.157|<0.0001
82419394|NCT00452400|164550129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.262|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.15|0.373|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.373|0.150|<0.0001
82419395|NCT00452400|164550129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.171|0.395|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.395|0.171|<0.0001
82419396|NCT00452400|164550129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.311|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|0.201|0.421|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.421|0.201|<0.0001
82419397|NCT00452400|164550129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001||95.0|0.192|0.416|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.416|0.192|<0.0001
82419398|NCT00452400|164550130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.288|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.167|0.409|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.409|0.167|<0.0001
82419399|NCT00452400|164550130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.159|0.401|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.401|0.159|<0.0001
82419400|NCT00452400|164550130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|0.178|0.416|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.416|0.178|<0.0001
82419401|NCT00452400|164550130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.286|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|0.164|0.407|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.407|0.164|<0.0001
82419402|NCT00452400|164550131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.09|0.176|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.176|0.090|<0.0001
82419403|NCT00452400|164550131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.128|0.215|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.215|0.128|<0.0001
82419404|NCT00452400|164550131|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.162|0.247|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.247|0.162|<0.0001
82419405|NCT00452400|164550131|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.159|0.246|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.246|0.159|<0.0001
82419406|NCT00452400|164550132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.131|0.243|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.243|0.131|<0.0001
82419407|NCT00452400|164550132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.159|0.271|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.271|0.159|<0.0001
82419408|NCT00452400|164550132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.163|0.273|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.273|0.163|<0.0001
82533670|NCT03259373|164765100|SUPERIORITY||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.066||0.303|TWO_SIDED|95.0|0.82|1.06|||fixed-effect meta-analysis|||||1.06|0.82|0.303
82419409|NCT00452400|164550132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.191|0.304|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.304|0.191|<0.0001
82419410|NCT00452400|164550133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.1|0.219|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.219|0.100|<0.0001
82533671|NCT03259373|164765101|SUPERIORITY||Hazard Ratio (HR)|1.03|STANDARD_ERROR_OF_MEAN|0.063||0.649|TWO_SIDED|95.0|0.91|1.16|||fixed-effect meta-analysis|||There were one or two sites that had no adverse events or just one event in either or both arms, so there was no estimated effect size/variance from the multivariable models at the site level. Therefore, depending on the specific outcome, either one or two sites did not contribute to the fixed-effect meta-analysis as there was no estimated effect size or variance to include in the meta-analysis.||1.16|0.91|0.649
82419411|NCT00452400|164550133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.134|0.253|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.253|0.134|<0.0001
82419412|NCT00452400|164550133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.144|0.262|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.262|0.144|<0.0001
82419413|NCT00452400|164550133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.145|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.264|0.145|<0.0001
82447842|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-11.56|29.33|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||29.33|-11.56|
82447843|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|25.21|||||TWO_SIDED|95.0|5.35|45.07|||||Non-responder imputation was used to handle dropouts.|Week 4 comparisons presented in this section for comparison to placebo.||45.07|5.35|
82447844|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-17.4|21.85|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||21.85|-17.40|
82447845|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.6|||||TWO_SIDED|95.0|-4.24|35.45|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||35.45|-4.24|
82447846|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|22.22|||||TWO_SIDED|95.0|2.2|42.23|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||42.23|2.20|
82648064|NCT02290028|165011508|SUPERIORITY|||||||||||||||||Primary endpoint 3 will be evaluated by performing an exact, binomial test comparing the observed proportion (overall complication-free rate at 5 years) to the performance goal of 92.5%, with Type I error (alpha) of 0.025 and power of 80%. The lower, two-sided 95% confidence bound for the overall complication-free rate must be greater than 92.5%|On September 24, 2019, BIOTRONIK received FDA approval to transition the ongoing Sentus Post Approval Registry to a new EP PASSION real-world data methodology. As of study closure, the number of subjects with complete data required to perform the hypothesis test was not met. Therefore, this outcome measure was not analyzed.|||
82419414|NCT00452400|164550134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.101|0.209|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.209|0.101|<0.0001
82419415|NCT00452400|164550134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.131|0.239|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.239|0.131|<0.0001
82419416|NCT00452400|164550134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.178|0.284|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.284|0.178|<0.0001
82447847|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.96|||||TWO_SIDED|95.0|-14.6|24.53|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||24.53|-14.60|
82447848|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|-4.51|35.63|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||35.63|-4.51|
82447849|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|23.18|||||TWO_SIDED|95.0|3.31|43.06|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||43.06|3.31|
82447850|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-5.13|||||TWO_SIDED|95.0|-24.73|14.45|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||14.45|-24.73|
82447851|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.34|||||TWO_SIDED|95.0|-23.79|15.09|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||15.09|-23.79|
82447852|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.04|||||TWO_SIDED|95.0|-16.94|23.02|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||23.02|-16.94|
82447853|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.59|||||TWO_SIDED|95.0|-14.26|25.45|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||25.45|-14.26|
82447854|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-34.1|||||TWO_SIDED|95.0|-53.4|-14.8|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-14.80|-53.40|
82447855|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.89|||||TWO_SIDED|95.0|-29.68|9.88|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||9.88|-29.68|
82447856|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.44|||||TWO_SIDED|95.0|-18.02|20.92|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||20.92|-18.02|
82447857|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-12.02|||||TWO_SIDED|95.0|-31.84|7.79|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||7.79|-31.84|
82447858|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-20.96|||||TWO_SIDED|95.0|-40.98|-0.94|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||-0.94|-40.98|
82447859|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-7.58|||||TWO_SIDED|95.0|-27.82|12.65|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||12.65|-27.82|
82447860|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.96|||||TWO_SIDED|95.0|-21.36|19.43|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||19.43|-21.36|
82419417|NCT00452400|164550134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.177|0.286|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.286|0.177|<0.0001
82419418|NCT00452400|164550135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.14|0.264|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.264|0.140|<0.0001
82419419|NCT00452400|164550135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.169|0.294|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.294|0.169|<0.0001
82419420|NCT00452400|164550135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.172|0.295|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.295|0.172|<0.0001
82419421|NCT00452400|164550135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.259|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.197|0.322|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.322|0.197|<0.0001
82419422|NCT00452400|164550136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.101|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.228|0.101|<0.0001
82419423|NCT00452400|164550136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.189|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.125|0.252|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.252|0.125|<0.0001
82419424|NCT00452400|164550136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.14|0.266|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.266|0.140|<0.0001
82419425|NCT00452400|164550136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.137|0.265|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.265|0.137|<0.0001
82419426|NCT00452400|164550137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.039||0.2392||95.0|-0.03|0.121|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.121|-0.030|0.2392
82419427|NCT00452400|164550137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.038||0.0001||95.0|0.072|0.222|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.222|0.072|0.0001
82419428|NCT00452400|164550137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.099|0.253|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.253|0.099|<0.0001
82419429|NCT00452400|164550137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.039||0.0001||95.0|0.076|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.228|0.076|0.0001
82419430|NCT00452400|164550138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.039||0.0309||95.0|0.008|0.162|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.162|0.008|0.0309
82419431|NCT00452400|164550138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.098|0.25|||ANCOVA||Olo 2 mcg qd minus Placebo|||0.250|0.098|<0.0001
82419432|NCT00452400|164550138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.04||0.0002||95.0|0.072|0.228|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.228|0.072|0.0002
82419433|NCT00452400|164550138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.039||0.0006||95.0|0.059|0.214|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.214|0.059|0.0006
82419434|NCT00452400|164550139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.043||0.215||95.0|-0.031|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|-0.031|0.2150
82419435|NCT00452400|164550139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.042||0.0024||95.0|0.046|0.212|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.212|0.046|0.0024
82533672|NCT03259373|164765102|SUPERIORITY||Standardized Mean Difference (%)|-0.4998|STANDARD_ERROR_OF_MEAN|0.009||0.587|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.587
82419436|NCT00452400|164550139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.043||0.023||95.0|0.014|0.184|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.184|0.014|0.0230
82419437|NCT00452400|164550139|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.043||0.0333||95.0|0.007|0.177|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.177|0.007|0.0333
82419438|NCT00452400|164550140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.043||0.2158||95.0|-0.031|0.137|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.137|-0.031|0.2158
82419439|NCT00452400|164550140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.042||0.0024||95.0|0.046|0.212|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.212|0.046|0.0024
82419440|NCT00452400|164550140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.043||0.0013||95.0|0.055|0.225|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.225|0.055|0.0013
82419441|NCT00452400|164550140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.043||0.0376||95.0|0.005|0.174|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.174|0.005|0.0376
82419442|NCT00452400|164550141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.705|STANDARD_ERROR_OF_MEAN|5.916||0.0211|TWO_SIDED|95.0|2.07|25.34|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||25.340|2.070|0.0211
82419443|NCT00452400|164550141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.285|STANDARD_ERROR_OF_MEAN|5.951||0.0004|TWO_SIDED|95.0|9.581|32.99|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||32.990|9.581|0.0004
82419444|NCT00452400|164550141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.077|STANDARD_ERROR_OF_MEAN|5.832|<|0.0001|TWO_SIDED|95.0|26.607|49.546|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||49.546|26.607|<.0001
82419445|NCT00452400|164550141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.063|STANDARD_ERROR_OF_MEAN|5.99||0.0001|TWO_SIDED|95.0|11.282|34.845|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||34.845|11.282|0.0001
82419446|NCT00452400|164550142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.446|STANDARD_ERROR_OF_MEAN|6.283||0.0973|TWO_SIDED|95.0|-1.911|22.803|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||22.803|-1.911|0.0973
82419447|NCT00452400|164550142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.333|STANDARD_ERROR_OF_MEAN|6.36||0.0005|TWO_SIDED|95.0|9.824|34.842|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||34.842|9.824|0.0005
82419448|NCT00452400|164550142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.232|STANDARD_ERROR_OF_MEAN|6.192|<|0.0001|TWO_SIDED|95.0|26.054|50.409|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||50.409|26.054|<.0001
82419449|NCT00452400|164550142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.408|STANDARD_ERROR_OF_MEAN|6.403|<|0.0001|TWO_SIDED|95.0|12.814|38.002|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||38.002|12.814|<.0001
82419450|NCT00452400|164550143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.364||0.1541|TWO_SIDED|95.0|-1.237|0.196|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.196|-1.237|0.1541
82419451|NCT00452400|164550143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.367||0.7065|TWO_SIDED|95.0|-0.583|0.859|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.859|-0.583|0.7065
82419452|NCT00452400|164550143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.964|STANDARD_ERROR_OF_MEAN|0.359||0.0076|TWO_SIDED|95.0|-1.671|-0.258|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.258|-1.671|0.0076
82419453|NCT00452400|164550143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.414|STANDARD_ERROR_OF_MEAN|0.369||0.2626|TWO_SIDED|95.0|-1.138|0.311|||ANCOVA|Based on an analysis of covariance with terms for baseline, treatment and center (center random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||0.311|-1.138|0.2626
82419454|NCT04679818|164550154|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.895|TWO_SIDED|99.0|-1.43|1.58|||Mixed Models Analysis|||||1.58|-1.43|0.895
82447861|NCT01393639|164604453|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-18.22|||||TWO_SIDED|95.0|-38.18|1.73|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||1.73|-38.18|
82419455|NCT04679818|164550155|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.228|TWO_SIDED|99.0|-2.66|0.99|||Mixed Models Analysis|||||0.99|-2.66|0.228
82419456|NCT04679818|164550156|SUPERIORITY||Risk Ratio (RR)|0.81||||0.565|TWO_SIDED|95.0|0.4|1.65|||generalized linear mixed effects model|||||1.65|0.40|0.565
82419457|NCT04679818|164550157|SUPERIORITY||Risk Ratio (RR)|1.48||||0.379|TWO_SIDED|95.0|0.62|3.54|||Generalized linear mixed effects model|||||3.54|0.62|0.379
82419458|NCT04679818|164550158|SUPERIORITY||Median Difference (Final Values)|0.54||||0.039|TWO_SIDED|95.0|0.3|0.97|||Wilcoxon (Mann-Whitney)|||||0.97|0.30|0.039
82419459|NCT04679818|164550159|NON_INFERIORITY|We tested noninferiority of NOL to routine care on the Ramsey score using an a priori-defined noninferiority delta of 1.2 for the proportional odds ratio; NOL would be deemed noninferior if the upper confidence limit for the odds ratio was \<1.2.|Odds Ratio (OR)|0.8||||0.169|TWO_SIDED|95.0|0.35|1.82|||proportional odds model|||||1.82|0.35|0.169
82419460|NCT04679818|164550160|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.967|TWO_SIDED|95.0|0.63|1.63|||Cox proportional hazards regression|||||1.63|0.63|0.967
82419461|NCT00907088|164550161|SUPERIORITY_OR_OTHER|||||||0.42|||||||Chi-squared|||||||0.42
82426631|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.18||||0.0344|TWO_SIDED|95.0|-83.2|-3.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-3.2|-83.2|0.0344
82426632|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.87||||0.0721|TWO_SIDED|95.0|-77.1|3.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||3.3|-77.1|0.0721
82426633|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-89.19|||<|0.0001|TWO_SIDED|95.0|-128.7|-49.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-49.7|-128.7|<0.0001
82419462|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.118|-0.038|||Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Parameter estimated is the linear effect of time (in months)|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.038|-0.118|<0.001
82419463|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.003||0.066|TWO_SIDED|95.0|-0.0004|0.011|||Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Parameter estimated is the quadratic effect of time (in months)|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.011|-0.0004|0.066
82419464|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|-0.078|STANDARD_ERROR_OF_MEAN|0.034||0.038|TWO_SIDED|95.0|-0.151|-0.004||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.05.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x linear time interaction term coefficient- Motivational Interview- Nurse vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.004|-0.151|0.038
82419465|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|-0.09|STANDARD_ERROR_OF_MEAN|0.034||0.008|TWO_SIDED|95.0|-0.157|-0.023||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.025|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x linear time interaction term coefficient- Motivational Interview- Computer vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||-0.023|-0.157|0.008
82419466|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|0.011|STANDARD_ERROR_OF_MEAN|0.005||0.031|TWO_SIDED|95.0|0.001|0.022||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.05.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x quadratic time interaction term coefficient- Motivational Interview- Nurse vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.022|0.001|0.031
82426067|NCT01959529|164561037|SUPERIORITY||Rate ratio|0.601|||<|0.001|TWO_SIDED|95.0|0.476|0.759||p-value : Refers to one-sided test of RR \>= 1.0 (against Ha: RR\<1.0)|Negative binomial regression|The model included treatment (IDeg vs IGlar) as a fixed factor and was fitted using the FAS.||Superiority was considered confirmed if the upper limit of the two-sided 95% confidence interval for the rate ratio (RR) was below 1.0 or equivalent if the p-value for the one-sided test of H0: RR ≥1.0 against Ha: RR \<1.0, was less than 2.5%||0.759|0.476|<0.001
82426068|NCT01959529|164561038|SUPERIORITY||Odds Ratio (OR)|0.729|||<|0.001|TWO_SIDED|95.0|0.6|0.866||p-value: Refers to one-sided test of OR \>= 1.0 (against Ha: OR\<1.0)|Regression, Logistic|The model was logistic regression with log-link function.The model included treatment (IDeg vs IGlar) as a fixed factor and was fitted using the FAS||Superiority of IDeg to IGlar was considered confirmed if the upper limit of the two-sided 95% confidence interval for the odds ratio (OR) was below 1.0 or equivalent if the p-value for the one-sided test of H0: OR ≥1.0 against Ha: OR\<1.0, was less than 2.5%.||0.866|0.600|<0.001
82533673|NCT03259373|164765102|SUPERIORITY||Standardized Mean Difference (%)|-0.4655|STANDARD_ERROR_OF_MEAN|0.009||0.613|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.613
82648065|NCT01681771|165011517|SUPERIORITY|||||||0.21|||||||ANCOVA|ANCOVA analysis comparing PHQ-9 mean values at 9 weeks follow-up between the I-CBT and discussion group and adjusting for PHQ-9 values baseline||||||0.21
82533674|NCT03259373|164765102|SUPERIORITY||Standardized Mean Difference (%)|0.598|STANDARD_ERROR_OF_MEAN|0.009||0.515|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.515
82533675|NCT03259373|164765102|SUPERIORITY||Standardized Mean Difference (%)|-2.17|STANDARD_ERROR_OF_MEAN|0.009||0.018|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.018
82533676|NCT03259373|164765102|SUPERIORITY||Standardized Mean Difference (%)|0.05|STANDARD_ERROR_OF_MEAN|0.009||0.956|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.956
82533677|NCT03259373|164765103|SUPERIORITY||Standardized Mean Difference (%)|-1.018|STANDARD_ERROR_OF_MEAN|0.009||0.279|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.279
82533678|NCT03259373|164765103|SUPERIORITY||Standardized Mean Difference (%)|-1.347|STANDARD_ERROR_OF_MEAN|0.009||0.143|TWO_SIDED||||||fixed-effect meta-analysis|||||||0.143
82533679|NCT01563978|164765108|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|2.93||||0.023|TWO_SIDED|95.0|0.4|5.45|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||||5.45|0.40|0.023
82419467|NCT01539525|164550164|SUPERIORITY_OR_OTHER||Slope|0.012|STANDARD_ERROR_OF_MEAN|0.0005||0.01|TWO_SIDED|95.0|0.002|0.021||P-value adjusted for multiple comparisons using Holm's step-down multiple testing procedure. The a priori threshold for statistical significance was p \< 0.025.|Generalized Estimating Equation|adjusted for stratifying variables- primary substance and pregnancy status|Estimated parameter is treatment x quadratic time interaction term coefficient- Motivational Interview- Computer vs. Treatment as Usual|Differences in days/month of primary substance use over time between treatment groups were examined using generalized estimating equations (GEE). We specified a negative binomial distribution to account for overdispersion in days/month of primary substance use, a log link function, and a first-order autoregressive working correlation structure. β coefficients were estimated using quasi-likelihood estimation methods and sandwich/empirical standard errors were calculated.||0.021|0.002|0.010
82419468|NCT01539525|164550165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.931||||0.81|TWO_SIDED|95.0|0.559|1.551|||Regression, Logistic|adjusted for stratifying variables- primary substance and pregnancy status|Estimated odds ratio is for Motivational Interview- Nurse vs. Treatment as Usual|||1.551|0.559|0.810
82419469|NCT01539525|164550165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.968||||0.99|TWO_SIDED|95.0|0.579|1.617|||Regression, Logistic|adjusted for stratifying variables- primary substance and pregnancy status|Estimated odds ratio is for Motivational Interview- Computer vs. Treatment as Usual|||1.617|0.579|0.990
82419470|NCT01539525|164550166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.258||||0.465|TWO_SIDED|95.0|0.409|3.871|||Regression, Logistic|adjusted for stratifying variables- primary drug and pregnancy status|odds ratio estimate is for Motivational Interview- Nurse vs. Treatment as Usual|||3.871|0.409|0.465
82419471|NCT01539525|164550166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.749||||0.49|TWO_SIDED|95.0|0.205|2.732|||Regression, Logistic||Odds ratio estimate is for Motivational Interview- Computer vs. Treatment as Usual|||2.732|0.205|0.490
82419472|NCT02205359|164550171|SUPERIORITY||Hazard Ratio (HR)|0.888|STANDARD_ERROR_OF_MEAN|0.067||0.077|TWO_SIDED|95.0|0.779|1.013|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.013|0.779|0.077
82419473|NCT02205359|164550172|SUPERIORITY||Hazard Ratio (HR)|0.881|STANDARD_ERROR_OF_MEAN|0.081||0.12|TWO_SIDED|95.0|0.752|1.032|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.032|0.752|0.12
82419474|NCT02205359|164550173|SUPERIORITY||Hazard Ratio (HR)|0.906|STANDARD_ERROR_OF_MEAN|0.09||0.28|TWO_SIDED|95.0|0.759|1.082|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect|Stratified by NYHA class and with investigational site as a random effect, Standard Error reported on log hazard scale|||1.082|0.759|0.28
82419475|NCT02205359|164550174|SUPERIORITY|Endpoint for statistical analysis is the proportion Improved.|Odds Ratio (OR)|0.888|STANDARD_ERROR_OF_MEAN|0.074||0.11|TWO_SIDED|95.0|0.768|1.026|||Regression, Logistic|Stratified by NYHA class and with investigational site as a random effect|Standard Error is on log-odds ratio scale|||1.026|0.768|0.11
82419476|NCT02205359|164550175|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.89|TWO_SIDED|95.0|0.85|1.16|||Regression, Cox|Stratified by NYHA class and with investigational site as a random effect||||1.16|0.85|0.89
82447862|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.27|||||TWO_SIDED|95.0|-11.93|7.38|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||7.38|-11.93|
82447863|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.87|||||TWO_SIDED|95.0|-9.15|12.91|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||12.91|-9.15|
82648066|NCT03154333|165011518|OTHER||Risk Ratio (RR)|1.01||||0.9666|TWO_SIDED|95.0|0.63|1.62|||Cochran-Mantel-Haenszel|Log transformation normalized the Risk Ratio (RR) estimates; the Standard Error (SE) of the estimate was obtained from confidence limits for the RR.||||1.62|0.63|0.9666
82419477|NCT02205359|164550176|SUPERIORITY||Difference in mean change from baseline|-0.07||||0.88|TWO_SIDED|95.0|-1.03|0.89|||ANCOVA|Stratified by NYHA class and with investigational site as a random effect||||0.89|-1.03|0.88
82419478|NCT02205359|164550177|SUPERIORITY||Difference in mean change from baseline|0.0013||||0.75|TWO_SIDED|95.0|-0.0068|0.0094|||ANCOVA|Stratified by NYHA class and with investigational site as a random effect||||0.0094|-0.0068|0.75
82419479|NCT02205359|164550178|SUPERIORITY||rate ratio|1.15||||0.52|TWO_SIDED|95.0|0.75|1.75|||negative binomial regression|Stratified by NYHA class||||1.75|0.75|0.52
82419480|NCT02792257|164550181|SUPERIORITY||Difference in slopes|-0.74|STANDARD_ERROR_OF_MEAN|0.3||0.015|TWO_SIDED|95.0|-1.328|-0.152|||Regression, Linear||standard error NOT standard error of the mean|Efficacy is assessed by fitting a longitudinal linear GEE model with the co primary outcomes and with time, treatment arm, and their interaction. Analyses are adjusted for site and for use of antidepressants and antipsychotics at baseline. The treatment by week interaction is the coefficient of interest and represents the difference in change in outcome per week between the two arms.||-0.152|-1.328|.015
82447864|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.07|||||TWO_SIDED|95.0|-9.09|13.23|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||13.23|-9.09|
82447865|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|18.71|||||TWO_SIDED|95.0|4.19|33.23|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||33.23|4.19|
82447866|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.59|||||TWO_SIDED|95.0|-13.19|4.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||4.00|-13.19|
82447867|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.74|||||TWO_SIDED|95.0|-0.92|26.41|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||26.41|-0.92|
82447868|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-14.6|10.16|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.16|-14.60|
82648067|NCT03154333|165011519|OTHER||Risk Ratio (RR)|1.53||||0.2861|TWO_SIDED|95.0|0.41|3.28|||Cochran-Mantel-Haenszel|Log transformation normalized the Risk Ratio (RR) estimates; the Standard Error (SE) of the estimate was obtained from confidence limits for the RR.||||3.28|0.41|0.2861
82419481|NCT02792257|164550182|SUPERIORITY||Difference in slopes|-1.26|STANDARD_ERROR_OF_MEAN|0.75||0.094|TWO_SIDED|95.0|-2.73|0.21|||Regression, Linear||standard error not standard error of the mean|Efficacy is assessed by fitting a longitudinal linear GEE model with the co primary outcomes and with time, treatment arm, and their interaction. Analyses are adjusted for site and for use of antidepressants and antipsychotics at baseline. The treatment by week interaction is the coefficient of interest and represents the difference in change in outcome per week between the two arms.||0.21|-2.73|.094
82419482|NCT02792257|164550183|SUPERIORITY||Incident rate ratio|1.14|STANDARD_ERROR_OF_MEAN|0.26||0.57|TWO_SIDED|95.0|0.73|1.79|||Regression, Logistic|The original analytic plan called for a logistic regression of ever/never SAE as a function of treatment assignment.|not standard error of the mean just standard error.|||1.79|0.73|.57
82419483|NCT00553475|164550184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.0075||95.0|-1.09|-0.17|||ANCOVA|Treatment groups and the CLcr strata as factors and baseline values as covariates.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.09|0.0075
82419484|NCT00553475|164550184|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.0254||95.0|-1.39|-0.09|||ANCOVA|Treatment groups and the CLcr strata as factors and baseline values as covariates.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.09|-1.39|0.0254
82419485|NCT00553475|164550185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28||||0.8731||95.0|-3.67|3.12|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.12|-3.67|0.8731
82419486|NCT00553475|164550185|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.16||||0.6337||95.0|-3.62|5.94|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.94|-3.62|0.6337
82419487|NCT00553475|164550186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.1||||0.4398||95.0|-7.44|3.24|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.24|-7.44|0.4398
82419488|NCT00553475|164550186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.9153||95.0|-7.96|7.14|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||7.14|-7.96|0.9153
82419489|NCT00553475|164550187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.4873||95.0|-2.75|5.76|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.76|-2.75|0.4873
82419490|NCT00553475|164550187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.56||||0.4008||95.0|-3.42|8.53|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.53|-3.42|0.4008
82419491|NCT00553475|164550188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.5372||95.0|-2.13|4.09|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||4.09|-2.13|0.5372
82419492|NCT00553475|164550188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.09||||0.348||95.0|-2.29|6.47|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.47|-2.29|0.3480
82419493|NCT00553475|164550189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.06||||0.0544||95.0|-0.1|10.21|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||10.21|-0.10|0.0544
82419494|NCT00553475|164550189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.15||||0.0278||95.0|0.89|15.42|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||15.42|0.89|0.0278
82419495|NCT00553475|164550190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92||||0.7394||95.0|-4.52|6.37|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||6.37|-4.52|0.7394
82419496|NCT00553475|164550190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.22||||0.5712||95.0|-5.49|9.93|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.93|-5.49|0.5712
82419497|NCT00553475|164550191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67||||0.0058||95.0|-1.14|-0.19|||ANCOVA|Treatment groups as factors and baseline values as covariates||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.19|-1.14|0.0058
82419498|NCT00553475|164550191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0333||95.0|-1.23|-0.05|||ANCOVA|Treatment groups as factors and baseline values as covariates||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-1.23|0.0333
82419499|NCT00553475|164550192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Significance level of 0.05 was used.||||0.153
82419500|NCT00553475|164550192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0|||||Cochran-Mantel-Haenszel|stratified by CLcr stratum||Significance level of 0.05 was used.||||0.059
82576658|NCT02224703|164863583|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0332|TWO_SIDED|95.0|1.06|4.62|||Cochran-Mantel-Haenszel|P-value calculated from a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-12, and 13-18 years).||||4.62|1.06|0.0332
82419501|NCT00553475|164550193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.0287||95.0|-0.82|-0.05|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.05|-0.82|0.0287
82576659|NCT02224703|164863584|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0279|TWO_SIDED|95.0|1.08|3.78|||Regression, Logistic||Proportional odds modelling was carried out by including treatment group as a fixed factor. The estimated OR tested the null hypothesis that OR was equal to 1.|||3.78|1.08|0.0279
82419502|NCT00553475|164550193|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.75||||0.0073||95.0|-1.29|-0.2|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.20|-1.29|0.0073
82419503|NCT00553475|164550194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.0021||95.0|-1.0|-0.22|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.22|-1.00|0.0021
82419504|NCT00553475|164550194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.23|||<|0.0001||95.0|-1.78|-0.69|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.69|-1.78|<0.0001
82419505|NCT00553475|164550195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0026||95.0|-0.99|-0.21|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.21|-0.99|0.0026
82419506|NCT00553475|164550195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.13|||<|0.0001||95.0|-1.69|-0.58|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.58|-1.69|<0.0001
82419507|NCT00553475|164550196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.0012||95.0|-1.03|-0.25|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-1.03|0.0012
82419508|NCT00553475|164550196|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11|||<|0.0001||95.0|-1.67|-0.56|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.67|<0.0001
82419509|NCT00553475|164550197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.0011||95.0|-1.04|-0.26|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.04|0.0011
82419510|NCT00553475|164550197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|||<|0.0001||95.0|-1.72|-0.6|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.60|-1.72|<0.0001
82419511|NCT00553475|164550198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|||<|0.0001||95.0|-1.18|-0.4|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.40|-1.18|<0.0001
82419512|NCT00553475|164550198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.12|||<|0.0001||95.0|-1.68|-0.56|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.56|-1.68|<0.0001
82419513|NCT00553475|164550199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72||||0.0003||95.0|-1.12|-0.33|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.12|0.0003
82419514|NCT00553475|164550199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.09||||0.0002||95.0|-1.66|-0.52|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.52|-1.66|0.0002
82419515|NCT00553475|164550200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67||||0.0008||95.0|-1.07|-0.28|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.07|0.0008
82419516|NCT00553475|164550200|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94||||0.0014||95.0|-1.51|-0.36|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.36|-1.51|0.0014
82533680|NCT01563978|164765109|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|3.53|||<|0.001|TWO_SIDED|95.0|2.04|5.03|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||||5.03|2.04|<0.001
82419517|NCT00553475|164550201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73||||0.0003||95.0|-1.12|-0.33|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.33|-1.12|0.0003
82426069|NCT00560417|164561040|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin was prespecified at 0.4%|Mean Difference (Final Values)|0.22|||||TWO_SIDED|95.0|0.06|0.38|||ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group.||||0.38|0.06|
82419518|NCT00553475|164550201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.0036||95.0|-1.44|-0.28|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.28|-1.44|0.0036
82419519|NCT00553475|164550202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.0005||95.0|-1.1|-0.31|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.31|-1.10|0.0005
82419520|NCT00553475|164550202|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87||||0.0034||95.0|-1.46|-0.29|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.29|-1.46|0.0034
82419521|NCT00553475|164550203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62||||0.0023||95.0|-1.02|-0.22|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.22|-1.02|0.0023
82419522|NCT00553475|164550203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.0105||95.0|-1.36|-0.18|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.36|0.0105
82419523|NCT00553475|164550204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65||||0.0016||95.0|-1.05|-0.25|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-1.05|0.0016
82419524|NCT00553475|164550204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.0111||95.0|-1.37|-0.18|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.18|-1.37|0.0111
82419525|NCT00553475|164550205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.07||||0.6118||95.0|-5.23|3.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||3.08|-5.23|0.6118
82419526|NCT00553475|164550205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.59||||0.0109||95.0|1.76|13.42|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||13.42|1.76|0.0109
82419527|NCT00553475|164550206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.49||||0.4602||95.0|-2.47|5.45|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.45|-2.47|0.4602
82419528|NCT00553475|164550206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.97||||0.1625||95.0|-1.61|9.54|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||9.54|-1.61|0.1625
82419529|NCT00553475|164550207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|||<|0.0001||95.0|-1.25|-0.46|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.46|-1.25|<0.0001
82419530|NCT00553475|164550207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.0273||95.0|-1.19|-0.07|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.07|-1.19|0.0273
82419531|NCT00553475|164550208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.79||||0.0013||95.0|-2.87|-0.71|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.71|-2.87|0.0013
82419532|NCT00553475|164550208|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.13||||0.0062||95.0|-3.65|-0.61|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.61|-3.65|0.0062
82419533|NCT00553475|164550209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0068||95.0|-1.03|-0.17|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.17|-1.03|0.0068
82533681|NCT01563978|164765110|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.3||||0.02|TWO_SIDED|95.0|0.53|6.08|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean daytime SBP (Day 28)||6.08|0.53|0.020
82576660|NCT02224703|164863584|SUPERIORITY||Odds Ratio (OR)|2.93||||0.0009|TWO_SIDED|95.0|1.56|5.53|||Regression, Logistic||Proportional odds modelling was carried out by including treatment group as a fixed factor. The estimated OR tested the null hypothesis that OR was equal to 1.|||5.53|1.56|0.0009
82419534|NCT00553475|164550209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56||||0.0707||95.0|-1.17|0.05|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.05|-1.17|0.0707
82419535|NCT00553475|164550210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.35||||0.0013||95.0|-3.76|-0.93|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.93|-3.76|0.0013
82426070|NCT00560417|164561041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.003|TWO_SIDED|95.0|0.08|0.39||p-value is for 24 weeks.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.39|0.08|0.003
82533682|NCT01563978|164765110|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.75|||<|0.001|TWO_SIDED|95.0|2.08|5.42|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean daytime DBP (Day 28)||5.42|2.08|<0.001
82533683|NCT01563978|164765110|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.07||||0.179|TWO_SIDED|95.0|-0.96|5.11|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean night-time SBP (Day 28)||5.11|-0.96|0.179
82419536|NCT00553475|164550210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.67||||0.0087||95.0|-4.67|-0.68|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.68|-4.67|0.0087
82419537|NCT00553475|164550211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.27||||0.0056||95.0|-12.4|-2.14|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.14|-12.40|0.0056
82419538|NCT00553475|164550211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.49||||0.0427||95.0|-14.74|-0.25|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.25|-14.74|0.0427
82419539|NCT00553475|164550212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.0365||95.0|-0.4|-0.01|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.01|-0.40|0.0365
82419540|NCT00553475|164550212|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37||||0.0073||95.0|-0.65|-0.1|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.10|-0.65|0.0073
82419541|NCT00553475|164550213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.37||||0.0019||95.0|-10.38|-2.36|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-2.36|-10.38|0.0019
82419542|NCT00553475|164550213|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.78||||0.1907||95.0|-9.45|1.89|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||1.89|-9.45|0.1907
82419543|NCT00553475|164550214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03||||0.9905||95.0|-5.37|5.43|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||5.43|-5.37|0.9905
82533684|NCT01563978|164765110|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.14||||0.002|TWO_SIDED|95.0|1.13|5.14|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean night-time DBP (Day 28)||5.14|1.13|0.002
82533685|NCT01563978|164765111|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.11||||0.024|TWO_SIDED|95.0|0.41|5.81|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean awake SBP (Day 28)||5.81|0.41|0.024
82533686|NCT01563978|164765111|SUPERIORITY_OR_OTHER||Least square means treatment difference|3.66|||<|0.001|TWO_SIDED|95.0|2.1|5.22|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean awake DBP (Day 28)||5.22|2.10|<0.001
82533687|NCT01563978|164765112|SUPERIORITY_OR_OTHER||Least squares mean treatment difference|1.99||||0.223|TWO_SIDED|95.0|-1.22|5.2|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean sleeping SBP||5.20|-1.22|0.223
82533688|NCT01563978|164765112|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.87||||0.007|TWO_SIDED|95.0|0.81|4.93|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in mean sleeping DBP||4.93|0.81|0.007
82533689|NCT01563978|164765113|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.24||||0.2|TWO_SIDED|95.0|-1.2|5.69|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in clinic SBP (Day 29)||5.69|-1.20|0.200
82533690|NCT01563978|164765113|SUPERIORITY_OR_OTHER||Least square means treatment difference|2.36||||0.046|TWO_SIDED|95.0|0.05|4.68|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in clinic DBP (Day 29)||4.68|0.05|0.046
82533691|NCT01563978|164765114|SUPERIORITY_OR_OTHER||Least square means treatment difference|6.31|||<|0.001|TWO_SIDED|95.0|3.6|9.03|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average pre-dose home SBP (Week 4)||9.03|3.60|<0.001
82533692|NCT01563978|164765114|SUPERIORITY_OR_OTHER||Least square means treatment difference|4.58|||<|0.001|TWO_SIDED|95.0|2.91|6.25|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average pre-dose home DBP (Week 4)||6.25|2.91|<0.001
82533693|NCT01563978|164765115|SUPERIORITY_OR_OTHER||Least square means treatment difference|7.22|||<|0.001|TWO_SIDED|95.0|4.29|10.16|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average post-dose home SBP (Week 4)||10.16|4.29|<0.001
82533694|NCT01563978|164765115|SUPERIORITY_OR_OTHER||Least square means treatment difference|4.74|||<|0.001|TWO_SIDED|95.0|2.9|6.59|||ANCOVA|Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)||Change from baseline in weekly average post-dose home DBP (Week 4)||6.59|2.90|<0.001
82576661|NCT03596762|164863602|SUPERIORITY||Difference in LS means|-1.52|||=|0.1946|TWO_SIDED|95.0|-3.83|0.78|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.78|-3.83|= 0.1946
82447869|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.29|||||TWO_SIDED|95.0|-2.9|27.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||27.48|-2.90|
82447870|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|24.44|||||TWO_SIDED|95.0|7.71|41.17|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||41.17|7.71|
82447871|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|16.54|||||TWO_SIDED|95.0|0.8|32.29|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||32.29|0.80|
82447872|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-12.98|12.98|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||12.98|-12.98|
82447873|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|19.32|||||TWO_SIDED|95.0|3.16|35.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||35.48|3.16|
82447874|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.44|||||TWO_SIDED|95.0|-18.46|9.57|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||9.57|-18.46|
82447875|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.1|||||TWO_SIDED|95.0|-4.49|28.7|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||28.70|-4.49|
82447876|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|24.44|||||TWO_SIDED|95.0|6.63|42.24|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||42.24|6.63|
82447877|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|26.99|||||TWO_SIDED|95.0|9.33|44.65|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||44.65|9.33|
82447878|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-7.53|25.31|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||25.31|-7.53|
82447879|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|21.4|||||TWO_SIDED|95.0|3.88|38.91|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||38.91|3.88|
82447880|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-6.8|24.57|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||24.57|-6.80|
82447881|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|18.58|||||TWO_SIDED|95.0|1.96|35.2|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||35.20|1.96|
82447882|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|35.55|||||TWO_SIDED|95.0|17.89|53.21|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||53.21|17.89|
82447883|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|29.21|||||TWO_SIDED|95.0|11.94|46.49|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||46.49|11.94|
82447884|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|13.33|||||TWO_SIDED|95.0|-2.96|29.63|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||29.63|-2.96|
82447885|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|32.31|||||TWO_SIDED|95.0|14.83|49.8|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||49.80|14.83|
82447886|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-15.79|15.79|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||15.79|-15.79|
82447887|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.49|||||TWO_SIDED|95.0|-12.67|19.67|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||19.67|-12.67|
82447888|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.66|||||TWO_SIDED|95.0|-10.13|23.47|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||23.47|-10.13|
82447889|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-0.75|||||TWO_SIDED|95.0|-16.25|14.74|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||14.74|-16.25|
82447890|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-8.19|25.96|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||25.96|-8.19|
82447891|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.13|||||TWO_SIDED|95.0|-10.5|22.77|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||22.77|-10.50|
82447892|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-15.01|||||TWO_SIDED|95.0|-28.03|-2.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||-2.00|-28.03|
82447893|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-10.86|||||TWO_SIDED|95.0|-24.93|3.19|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||3.19|-24.93|
82447894|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-10.67|||||TWO_SIDED|95.0|-24.83|3.48|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||3.48|-24.83|
82576662|NCT03596762|164863602|SUPERIORITY||Difference in LS means|1.29|||=|0.3682|TWO_SIDED|95.0|-4.11|1.53|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||1.53|-4.11|= 0.3682
82576663|NCT03596762|164863602|SUPERIORITY||Difference in LS means|-3.93|||=|0.0002|TWO_SIDED|95.0|-5.94|-1.92|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||-1.92|-5.94|= 0.0002
82419544|NCT00553475|164550214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.44||||0.2532||95.0|-3.19|12.08|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||12.08|-3.19|0.2532
82419545|NCT00553475|164550215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.39||||0.4538||95.0|-5.05|2.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.26|-5.05|0.4538
82533695|NCT01563978|164765117|SUPERIORITY_OR_OTHER||Least square means treatment difference|0.74|||<|0.001|TWO_SIDED|95.0|0.4|1.08||Inc. baseline (covariate); treatment, region, prior failure to biologic disease modifying antirheumatic drug \& baseline antihypertensive use (factors)|ANCOVA|||Improvement from baseline at Day 29. Non-responder imputation has been applied following premature withdrawal, or any dose of background disease modifying antirheumatic drug increased or any other RA treatment initiated including DMARDs, anti-TNFs or other biologics, or receiving any parenteral steroids, or for patients with no post baseline data.||1.08|0.40|<0.001
82533696|NCT02102464|164765179|SUPERIORITY||Mean Difference (Final Values)|11.0|||<|0.0001|TWO_SIDED|95.0|8.0|14.0|||t-test, 2 sided|||||14.0|8.0|<0.0001
82419546|NCT00553475|164550215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.84||||0.2782||95.0|-7.97|2.3|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.30|-7.97|0.2782
82419547|NCT00553475|164550216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32||||0.0177||95.0|0.06|0.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.59|0.06|0.0177
82419548|NCT00553475|164550216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17||||0.3661||95.0|-0.2|0.55|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||0.55|-0.20|0.3661
82419549|NCT00553475|164550217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.62||||0.0511||95.0|-0.03|11.26|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||11.26|-0.03|0.0511
82419550|NCT00553475|164550217|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.65||||0.0173||95.0|1.72|17.59|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||17.59|1.72|0.0173
82419551|NCT00553475|164550218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.79||||0.1123||95.0|-0.89|8.47|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||8.47|-0.89|0.1123
82419552|NCT00553475|164550218|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.79||||0.0206||95.0|1.2|14.38|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||14.38|1.20|0.0206
82419553|NCT00553475|164550219|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.54||||0.0269||95.0|-6.67|-0.41|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.41|-6.67|0.0269
82419554|NCT00553475|164550219|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.82||||0.4183||95.0|-6.24|2.6|||ANCOVA|The model included treatment and CLcr stratum as factors, and baseline score as covariate.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||2.60|-6.24|0.4183
82419555|NCT00553475|164550220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0148
82419556|NCT00553475|164550220|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0063
82419557|NCT00553475|164550221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0818||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0818
82419558|NCT00553475|164550221|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0075||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi-squared with a modified ridit transformation, stratified by stratum based on the CLcr||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||||0.0075
82419559|NCT00553475|164550222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.0013||95.0|-1.07|-0.26|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.26|-1.07|0.0013
82426071|NCT00560417|164561041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value is for Endpoint (LOCF)|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.38|0.06|0.008
82533697|NCT02102464|164765180|SUPERIORITY||Mean Difference (Final Values)|-7.7|||<|0.0001|TWO_SIDED|95.0|-10.2|-5.2|||t-test, 2 sided|||||-5.2|-10.2|<0.0001
82533698|NCT02102464|164765181|SUPERIORITY||Mean Difference (Final Values)|3.9|||<|0.0001|TWO_SIDED|95.0|2.5|5.4|||t-test, 2 sided|||||5.4|2.5|<0.0001
82533699|NCT01053637|164765185|SUPERIORITY|||||||0.05||||||Pain at 5 minutes using Children's Hospital of Eastern Ontario Pain Scale validated in the younger population. Using a 2-point difference in CHEOPS pain scale as a clinically significant change, 34 patients were required in the younger 2- to 7 group.|Fisher Exact|||Children's Hospital of Eastern Ontario Pain Scale, for children 2-7 years. This score ranks 6 categories: Cry, Facial expression, Verbal Response, Torso movement, Touch, and Leg movement. The scale varies by each category from 0-2 or 1-2 or 1-3; such that a minimum score is 4 (no pain) and a maximum score is 13 signifying greatest or worst pain.||||0.05
82533700|NCT01053637|164765186|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||State-Trait Anxiety Inventory for Children pre vs. post procedure for matched pairs. Higher numbers indicated higher state anxiety. State Trait Anxiety Inventory for Children (STAIC) scores pre vs. post procedure for matched pairs. A lower STAIC score indicates less anxiety and a greater score indicates more anxiety based on Likert-type scales and analyzed using nonparametric testing.||||0.05
82533701|NCT01778062|164765188|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82533702|NCT01824472|164765192|SUPERIORITY||Mean difference compared across 3 groups|0.43||||0.8|TWO_SIDED||||||Kruskal-Wallis||"Kruskal-Wallis test implemented as PROC NPAR1WAY in Statistical Analysis System (SAS v9.4) for a single groupwise comparison. The mean difference (baseline to follow-up) was determined for each group, and this was compared across all 3 groups."|||||0.8
82533703|NCT01815736|164765193|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|2.7||||0.051|TWO_SIDED|95.01|-0.3|5.6||The p-value for the superiority test used a 2-sided Cochran-Mantel-Haenszel (CMH) test, stratified by prior treatment regimen.|Cochran-Mantel-Haenszel||The difference in percentages and its 95.01% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportion adjusted by the prior treatment regimen.|NDA Data Cut||5.6|-0.3|0.051
82533704|NCT01815736|164765193|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|4.1|||<|0.001|TWO_SIDED|95.0|1.6|6.7||The p-value for the superiority test used a 2-sided Cochran-Mantel-Haenszel (CMH) test, stratified by prior treatment regimen.|Cochran-Mantel-Haenszel||The difference in percentages and its 95% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportion adjusted by the prior treatment regimen.|All Participants||6.7|1.6|<0.001
82533705|NCT01815736|164765194|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|2.078|||<|0.001|TWO_SIDED|95.0|1.697|2.459||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|NDA Data Cut||2.459|1.697|<0.001
82648068|NCT00331773|165011533|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This trial was designed to establish with 90% power and a two-sided significance level of 0.05 that Arm 2 (Hypofractionated 3D-CRT) results in a 5-year DFS that is not lower than Arm 1 by more than 7.65% (hazard ratio \[HR\] , 1.52). Patients analyzed according to assignment, with time-to event duration originating at random assignment. DFS distributions calculated using the Kaplan-Meier method. Treatment efficacy for DFS was tested by comparing cause-specific hazards with the log-rank statistic.|Hazard Ratio (HR)|0.85|||<|0.001|TWO_SIDED|95.0|0.64|1.14|||Log Rank||Reference arm = Conventional 3D-CRT|||1.14|0.64|<0.001
82419560|NCT00553475|164550222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.0152||95.0|-1.34|-0.14|||Mixed Model Repeated Measures Analysis|Model included treatment, CLcr stratum, week and treatment-by-week interaction, and baseline scores as fixed effects, and subject as a random effect.||Hypothesis testing was conducted using two-sided tests with significance level of 0.05.||-0.14|-1.34|0.0152
82419561|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.99|||||TWO_SIDED|95.0|0.987|0.993||95% confidence interval is used instead of p-value.|Deming Regression|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.993|0.987|
82419562|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Intercept|-0.04|||||TWO_SIDED|95.0|-0.25|0.17|||Deming Regression|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.17|-0.25|
82426072|NCT00560417|164561042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.003|TWO_SIDED|95.0|0.08|0.39||p-value is for 24 Weeks change.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||0.39|0.08|0.003
82426073|NCT00560417|164561042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value is for Endpoint (LOCF) Change.|ANCOVA|||||0.38|0.06|0.008
82533706|NCT01815736|164765194|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.807|||<|0.001|TWO_SIDED|95.0|1.488|2.126||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|All Participants||2.126|1.488|<0.001
82533707|NCT01815736|164765195|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|1.97|||<|0.001|TWO_SIDED|95.0|1.551|2.39||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|NDA Data Cut||2.390|1.551|<0.001
82533708|NCT01815736|164765195|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|2.0|||<|0.001|TWO_SIDED|95.0|1.549|2.452||P-value was from the analysis of variance (ANOVA) model including study treatment and prior treatment regimen as fixed effects.|ANOVA||Difference in least squares means (LSM) and its 95% CI were from the ANOVA model including treatment and prior treatment regimen as fixed effects.|All Participants||2.452|1.549|<0.001
82419563|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.99|||||TWO_SIDED|95.0|0.987|0.993|||Regression, Linear|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.993|0.987|
82419564|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Intercept|-0.03|||||TWO_SIDED|95.0|-0.24|0.18|||Regression, Linear|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||0.18|-0.24|
82419565|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.|Slope|0.995|||||TWO_SIDED|95.0|0.99|1.0|||Passing-Bablock|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|||1.000|0.990|
82419566|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|Intercept|-0.04|||||TWO_SIDED|95.0|-0.3|0.01|||Passing-Bablok|Analyses to determine the comparability between UHR \& DOB values from the 2 instruments included Deming, Passing-Bablok and regular regressions.|95% confidence interval is used instead of p-value.|While 40 subjects is the min req by the NCCLS guideline on method comparison (EP9-A2), we proposed to enroll a min of 60 evaluable pediatric subjects (max of 80) with at least 20 of them having a UHR value of ≥ 10.0µg/min. The expected # of positive cases is 20-30% of the subjects enrolled, we anticipated that 80 eval subj would give approximately 20 subj with a pos UHR value. The anticipated % pos/neg agreement between the 2 instruments is 95% bases on data from the adult population.||0.01|-0.30|
82419567|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|Described previously|Relative Sensitivity, %|100.0|||||TWO_SIDED|95.0|85.8|100.0|||||95% confidence interval is used instead of p-value.|Comparison of UHR Values obtained by UBit-IR300 and POCone were used to identify participants' H.pylori infection status. Participants with UHR value ≥ 10.0μg/min were considered positive for H.Pylori.||100|85.8|
82419568|NCT01623154|164550223|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously|Relative Specificity, %|100.0|||||TWO_SIDED|95.0|94.9|100.0|||||95% confidence interval is used instead of p-value.|||100|94.9|
82419569|NCT01633112|164550252|SUPERIORITY|For each of the 2 FTY720 doses, the null hypothesis was that there was no difference in the ARRs between subjects treated with FTY720 and those treated with GA versus the alternative hypothesis that there was a difference between the 2 treatment arms. In order to preserve the Type I experiment-wise error rate, the null hypothesis was rejected if the observed p-value for the between-treatment comparison was less than the significance level as specified in the multiplicity adjustment procedure.||||||0.0138|||||||negative binomial regression model|adjusted for treatment, geographical region, number of relapses in the previous year, baseline EDSS, and baseline Gd-enhancing T1 lesion count.||H01: µ FTY 0.5 mg = µ GA versus HA1: µ FTY 0.5 mg ≠µ GA H02: µ FTY 0.25 mg = µ GA versus HA2: µ FTY 0.25 mg ≠µ GA||||0.0138
82419570|NCT01633112|164550252|SUPERIORITY|For each of the 2 FTY720 doses, the null hypothesis was that there was no difference in the ARRs between subjects treated with FTY720 and those treated with GA versus the alternative hypothesis that there was a difference between the 2 treatment arms. In order to preserve the Type I experiment-wise error rate, the null hypothesis was rejected if the observed p-value for the between-treatment comparison was less than the significance level as specified in the multiplicity adjustment procedure.||||||0.4153|||||||negative binomial regression model|adjusted for treatment, geographical region, number of relapses in the previous year, baseline EDSS, and baseline Gd-enhancing T1 lesion count.||H01: µ FTY 0.5 mg = µ GA versus HA1: µ FTY 0.5 mg ≠µ GA H02: µ FTY 0.25 mg = µ GA versus HA2: µ FTY 0.25 mg ≠µ GA||||0.4153
82419571|NCT01633112|164550253|OTHER||||||<|0.0001|||||||negative binomial regression model|Adjusted for treatment, geog. region, age, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||<0.0001
82576664|NCT03596762|164863602|SUPERIORITY||Difference in LS means|-2.63|||=|0.0115|TWO_SIDED|95.0|-4.66|-0.6|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||-0.6|-4.66|= 0.0115
82419572|NCT01633112|164550253|OTHER||||||<|0.0001|||||||negative binomial regression model|Adjusted for treatment, geog. region, age, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||<0.0001
82419573|NCT01633112|164550255|OTHER||||||<|0.0001|||||||ANCOVA|rank ANCOVA with covariates: adjusted for treatment, age, region, number of relapses experienced in the previous year, and baseline T2 lesion volume.||||||<0.0001
82419574|NCT01633112|164550255|OTHER|||||||0.006|||||||ANCOVA|rank ANCOVA with covariates: adjusted for treatment, age, region, number of relapses experienced in the previous year, and baseline T2 lesion volume.||||||0.0060
82419575|NCT01633112|164550256|OTHER|||||||0.0167|||||||negative binomial regression model|adjusted for treatment, age, geog. region, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses .||||||0.0167
82419576|NCT01633112|164550256|OTHER|||||||0.0011|||||||negative binomial regression model|adjusted for treatment, age, geog. region, baseline T2 lesion count, baseline Gd-enhancing T1 lesion count, and the number of previous year relapses.||||||0.0011
82419577|NCT01633112|164550257|OTHER|||||||0.0052|||||||ANCOVA|ranked ANCOVA with covariates: treatment, region, age, baseline Gd-enhancing T1 lesion volume, and number ofrelapses experienced in the previous year.||||||0.0052
82533709|NCT01815736|164765196|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.05|||<|0.001|TWO_SIDED|95.0|-0.07|-0.03||P-value was from analysis of covariance (ANCOVA) model including study treatment and prior treatment as fixed effects and baseline serum creatinine as a covariate.|ANCOVA||Difference in least squares means (LSM) and its 95% CI were from the analysis of covariance (ANCOVA) model including study treatment and prior treatment regimen as fixed effects and baseline serum creatinine as a covariate.|NDA Data Cut||-0.03|-0.07|<0.001
82533710|NCT01815736|164765196|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-0.04|||<|0.001|TWO_SIDED|95.0|-0.05|-0.02||P-value was from analysis of covariance (ANCOVA) model including study treatment and prior treatment as fixed effects and baseline serum creatinine as a covariate.|ANCOVA||Difference in least squares means (LSM) and its 95% CI were from the analysis of covariance (ANCOVA) model including study treatment and prior treatment regimen as fixed effects and baseline serum creatinine as a covariate.|All Participants||-0.02|-0.05|<0.001
82533711|NCT01815736|164765197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The P-value comparing the 2 treatment groups was from the 2-sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||NDA Data Cut||||<0.001
82533712|NCT01815736|164765197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The P-value comparing the 2 treatment groups was from the 2-sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||All Participants||||<0.001
82533713|NCT01815736|164765198|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: The E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|3.7||||0.017|TWO_SIDED|95.0|0.4|7.0||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||The difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|||7.0|0.4|0.017
82533714|NCT01815736|164765199|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: The E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|1.8||||0.29|TWO_SIDED|95.0|-1.7|5.3||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|NDA Data Cut||5.3|-1.7|0.29
82533715|NCT01815736|164765199|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|3.2||||0.031|TWO_SIDED|95.0|0.1|6.3||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|All Participants||6.3|0.1|0.031
82533716|NCT01815736|164765200|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Null hypothesis: the E/C/F/TAF group was at least 12% worse than the Stay on Baseline Regimen group; alternative hypothesis: the E/C/F/TAF group was less than 12% worse than the in Stay on Baseline Regimen group.|Difference in percentages|5.3||||0.003|TWO_SIDED|95.0|1.6|9.0||P-value for the superiority test comparing the percentages of virologic success was from the CMH test stratified by the prior treatment regimen (STB, ATR, ATV/boosted+TVD).|Cochran-Mantel-Haenszel||Difference in percentages of virologic success and its 95% CI were calculated based on the MH proportion adjusted by the prior treatment regimen.|||9.0|1.6|0.003
82576665|NCT03596762|164863603|SUPERIORITY||Difference in LS means|-1.67|||=|0.2097|TWO_SIDED|95.0|-4.28|-0.95|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||-0.95|-4.28|= 0.2097
82533717|NCT01815736|164765201|SUPERIORITY||Difference in least squares means|6.0||||0.56|TWO_SIDED|95.0|-14.0|26.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. FTC/TDF+3rd Agent) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|NDA Data Cut: Change at Week 48||26|-14|0.56
82533718|NCT01815736|164765201|SUPERIORITY||Difference in least squares means|11.0||||0.26|TWO_SIDED|95.0|-8.0|29.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs.SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|All Participants: Change at Week 48||29|-8|0.26
82533719|NCT01815736|164765202|SUPERIORITY||Difference in least squares means|18.0||||0.074|TWO_SIDED|95.0|-2.0|38.0||P-values were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|ANOVA||Difference in least squares means and its 95% CI were from the analysis of variance (ANOVA) model including treatment (E/C/F/TAF vs. SBR) and prior treatment regimen (STB, ATR, ATV/boosted+TVD) as fixed effects.|||38|-2|0.074
82419578|NCT01633112|164550257|OTHER|||||||0.0636|||||||ANCOVA|ranked ANCOVA with covariates: treatment, region, age, baseline Gd-enhancing T1 lesion volume, and number ofrelapses experienced in the previous year.||||||0.0636
82533720|NCT04039503|164765203|SUPERIORITY||LS Mean Difference|-1.66|||<|0.001|TWO_SIDED|95.0|-1.88|-1.43|||Mixed Models Analysis|||||-1.43|-1.88|<0.001
82533721|NCT04039503|164765203|SUPERIORITY||LS Mean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-1.88|-1.43|||Mixed Models Analysis|||||-1.43|-1.88|<0.001
82533722|NCT04039503|164765204|SUPERIORITY||LS Mean Difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.52|-1.07|||Mixed Models Analysis|||||-1.07|-1.52|<0.001
82533723|NCT04039503|164765205|SUPERIORITY||LS Mean Difference|-7.8|||<|0.001|TWO_SIDED|95.0|-9.4|-6.3|||Mixed Models Analysis|||||-6.3|-9.4|<0.001
82533724|NCT04039503|164765205|SUPERIORITY||LS Mean Difference|-9.9|||<|0.001|TWO_SIDED|95.0|-11.5|-8.3|||Mixed Models Analysis|||||-8.3|-11.5|<0.001
82576666|NCT03596762|164863603|SUPERIORITY||Difference in LS means|-0.77|||=|0.6369|TWO_SIDED|95.0|-3.97|2.44|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||2.44|-3.97|= 0.6369
82576667|NCT03596762|164863603|SUPERIORITY||Difference in LS means|-2.95|||=|0.0116|TWO_SIDED|95.0|-5.22|-0.67|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||-0.67|-5.22|= 0.0116
82419579|NCT01633112|164550258|OTHER|||||||0.0011||||||adjusted for treatment, region, age, proper baseline T1 lesion variable, baseline Gd-enhancing T1 lesion count and number of previous year relapses.|Regression, Logistic|pair-wise comparisons between treatment groups using a logistic regression model.||||||0.0011
82419580|NCT01633112|164550258|OTHER|||||||0.0146||||||adjusted for treatment, region, age, proper baseline T1 lesion variable, baseline Gd-enhancing T1 lesion count and number of previous year relapses.|Regression, Logistic|pair-wise comparisons between treatment groups using a logistic regression model.||||||0.0146
82419581|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419582|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419583|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419584|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419585|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419586|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Global Satisfaction (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419587|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419588|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82576668|NCT03596762|164863603|SUPERIORITY||Difference in LS means|-1.78|||=|0.1346|TWO_SIDED|95.0|-4.12|0.56|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.56|-4.12|= 0.1346
82419589|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419590|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419591|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419592|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Effectiveness (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419593|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419594|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419595|NCT01633112|164550259|OTHER|||||||0.0005|||||||Wilcoxon signed-rank test|Side Effects (Month 6): p-values for within treatment comparison from baseline||||||0.0005
82419596|NCT01633112|164550259|OTHER||||||<|0.0051|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||<0.0051
82419597|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419598|NCT01633112|164550259|OTHER|||||||0.0051|||||||Wilcoxon signed-rank test|Side Effects (Month 12): p-values for within treatment comparison from baseline||||||0.0051
82419599|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419600|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||<0.0001
82419601|NCT01633112|164550259|OTHER|||||||0.0068|||||||Wilcoxon signed-rank test|Convenience (Month 6): p-values for within treatment comparison from baseline||||||0.0068
82419602|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419603|NCT01633112|164550259|OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||<0.0001
82419604|NCT01633112|164550259|OTHER|||||||0.4595|||||||Wilcoxon signed-rank test|Convenience (Month 12): p-values for within treatment comparison from baseline||||||0.4595
82419605|NCT01633112|164550260|OTHER|||||||0.1045|||||||ANCOVA|rank ANCOVA model adjusted for treatment, region, age, the number of relapses experienced in the previous year, and baseline normalized brain volume||||||0.1045
82419606|NCT01633112|164550260|OTHER|||||||0.1358|||||||ANCOVA|rank ANCOVA model adjusted for treatment, region, age, the number of relapses experienced in the previous year, and baseline normalized brain volume||||||0.1358
82419607|NCT01959919|164550261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.907||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between ease of using clotting factor treatment score at Final visit (Month 8) and baseline visit||||0.000
82419608|NCT01959919|164550262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.572|STANDARD_ERROR_OF_MEAN|0.584||0|TWO_SIDED|95.0|3.411|5.733|||t-test, 2 sided|||Comparison between time for reconstructing the drug at Final visit (Month 8) and baseline visit||5.733|3.411|0.000
82419609|NCT01959919|164550263|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.789||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between burden of clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.000
82419610|NCT01959919|164550264|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.98||||0|||||||Wilcoxon Signed Ranks Test|||Comparison between impact of clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.000
82419611|NCT01959919|164550265|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.445||||0.001|||||||Wilcoxon Signed Ranks Test|||Comparison between risk associated with clotting factor treatment score at Final Visit Month 8 and baseline visit||||0.001
82576669|NCT03596762|164863604|SUPERIORITY||Difference in LS means|-0.05|||=|0.7033|TWO_SIDED|95.0|-0.3|0.2|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.2|-0.3|= 0.7033
82576670|NCT03596762|164863604|SUPERIORITY||Difference in LS means|-0.14|||=|0.3724|TWO_SIDED|95.0|-0.45|0.17|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.17|-0.45|= 0.3724
82533725|NCT04039503|164765205|SUPERIORITY||LS Mean Difference|-12.6|||<|0.001|TWO_SIDED|95.0|-14.2|-11.0|||Mixed Models Analysis|||||-11.0|-14.2|<0.001
82419612|NCT02003898|164550294|NON_INFERIORITY|non-inferiority test with an A1C margin of 0.4% and a significance level of 0.025 (one-sided).|Mean Difference (Net)|0.034|||||TWO_SIDED|95.0|-0.03|0.098||||||||0.098|-0.03|
82419613|NCT01537432|164550298|SUPERIORITY_OR_OTHER||difference in proportions|0.565|||<|0.001|TWO_SIDED|95.0|0.363|0.768|||Fisher Exact|||||0.768|0.363|<0.001
82419614|NCT01104870|164550340|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||Primary comparisons are between Dose Group 1 \& Dose Group 3 and Dose Group 1 \& Dose Group 2. The study is not powered to test for a difference between Dose Group 2 \& Dose Group 3.|Wilcoxon (Mann-Whitney)|||Peak total pulmonary resistance index (TPRI) is defined as the TPRI value observed during exercise at the highest matching wattage achieved at both Baseline and Week 12. Where peak wattage cannot be matched, the closest higher wattage will be chosen for comparison.||||0.95
82419615|NCT01104870|164550340|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|||||Primary comparisons are between Dose Group 1 \& Dose Group 3 and Dose Group 1 \& Dose Group 2. The study is not powered to test for a difference between Dose Group 2 \& Dose Group 3.|Wilcoxon (Mann-Whitney)|||Peak total pulmonary resistance index (TPRI) is defined as the TPRI value observed during exercise at the highest matching wattage achieved at both Baseline and Week 12. Where peak wattage cannot be matched, the closest higher wattage will be chosen for comparison.||||0.27
82419616|NCT00835549|164550353|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.6||||||90.0|94.8|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|94.8|
82419617|NCT00835549|164550354|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|98.5|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|98.5|
82419618|NCT00835549|164550355|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|98.7|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|98.7|
82419619|NCT00835042|164550356|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.5||||||90.0|85.8|99.8|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||99.8|85.8|
82419620|NCT00835042|164550357|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.9||||||90.0|92.2|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|92.2|
82419621|NCT00835042|164550358|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.1||||||90.0|92.3|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|92.3|
82419622|NCT00835042|164550359|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|105.0||||||90.0|99.3|111.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111|99.3|
82419623|NCT00835042|164550360|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.1||||||90.0|96.4|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|96.4|
82419624|NCT00835042|164550361|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.3||||||90.0|96.7|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|96.7|
82419625|NCT00835042|164550362|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|91.0||||||90.0|81.8|101.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101|81.8|
82533726|NCT04039503|164765206|SUPERIORITY||Odds Ratio (OR)|37.77|||<|0.001|TWO_SIDED|95.0|15.23|93.7|||Regression, Logistic|||||93.70|15.23|<0.001
82533727|NCT04039503|164765206|SUPERIORITY||Odds Ratio (OR)|100.07|||<|0.001|TWO_SIDED|95.0|30.02|333.62|||Regression, Logistic|||||333.62|30.02|<0.001
82533728|NCT04039503|164765206|SUPERIORITY||Odds Ratio (OR)|43.31|||<|0.001|TWO_SIDED|95.0|16.92|110.83|||Regression, Logistic|||||110.83|16.92|<0.001
82533729|NCT04039503|164765207|SUPERIORITY||LS Mean Difference|-22.5|||<|0.001|TWO_SIDED|95.0|-29.5|-15.4|||Mixed Models Analysis|||||-15.4|-29.5|<0.001
82533730|NCT04039503|164765207|SUPERIORITY||LS Mean Difference|-29.0|||<|0.001|TWO_SIDED|95.0|-36.0|-22.0|||Mixed Models Analysis|||||-22.0|-36.0|<0.001
82419626|NCT00835042|164550363|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.9||||||90.0|94.6|103.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103|94.6|
82647264|NCT02643966|165009608|OTHER|We compared DBT cancer yield per 1,000 for first observer (usual care) vs DBT and WBUS cancer yield per 1,000 for first observer for Year/Screen 1.|simple proportions|1.3||||0.005|TWO_SIDED|95.0|0.3|2.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||2.1|0.3|0.005
82647265|NCT02643966|165009608|OTHER|We compared DBT cancer yield per 1,000 for first observer (usual care) vs DBT and WBUS cancer yield per 1,000 for first observer for Years/Screens 2 \& 3.|simple proportions|1.0|||<|0.001|TWO_SIDED|95.0|0.4|1.5||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||1.5|0.4|<0.001
82647266|NCT02643966|165009609|OTHER|We compared DBT true positive findings for first observer (usual care) vs DBT and WBUS true positive findings for first observer for Year/Screen 1.|simple proportions|17.8||||0.005|TWO_SIDED|95.0|4.4|31.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added cancer detection rate (CDR) from US of 1.1/1,000. Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||31.1|4.4|0.005
82419627|NCT00835042|164550364|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|97.6|108.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||108|97.6|
82419628|NCT02571244|164550398|SUPERIORITY||Risk Ratio (RR)|1.35|||||TWO_SIDED|95.0|0.99|1.85||||||||1.85|0.99|
82419629|NCT02571244|164550399|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
82419630|NCT02571244|164550400|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
82419631|NCT02571244|164550401|SUPERIORITY||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|1.08|1.95||||||||1.95|1.08|
82419632|NCT02571244|164550402|SUPERIORITY||Risk Ratio (RR)|1.44|||||TWO_SIDED|95.0|1.07|1.92||||||||1.92|1.07|
82419633|NCT04191733|164550411|NON_INFERIORITY|The non-inferiority analysis was demonstrated when the 1-sided upper 95% confidence interval (CI) limit was less than 1.25.|||||<|0.0001||||||one-sided p-value|t-test, 1 sided|||||||<0.0001
82419634|NCT04191733|164550412|NON_INFERIORITY|1-sided test with 5% alpha was used to demonstrate non-inferiority with greater than 99% power. The non-inferiority margin was 3.75 minutes.||||||0.1004|||||||t-test, 1 sided|||A gatekeeping strategy was used to control family-wise type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The testing sequence continued only when previous endpoint was statistically significant with a 1-sided alpha of 0.05.||||0.1004
82419635|NCT02633527|164550431|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.0899|TWO_SIDED|95.0|-13.4|1.0|||ANOVA|||||1.0|-13.4|0.0899
82419636|NCT02633527|164550431|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.031|TWO_SIDED|95.0|-15.1|-0.7|||ANOVA|||||-0.7|-15.1|0.0310
82533731|NCT04039503|164765207|SUPERIORITY||LS Mean Difference|-28.8|||<|0.001|TWO_SIDED|95.0|-35.9|-21.6|||Mixed Models Analysis|||||-21.6|-35.9|<0.001
82419637|NCT02633527|164550431|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.0268|TWO_SIDED|95.0|-15.3|-0.9|||ANOVA|||||-0.9|-15.3|0.0268
82419638|NCT02633527|164550431|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.0209|TWO_SIDED|95.0|-15.8|-1.3|||ANOVA|||||-1.3|-15.8|0.0209
82419639|NCT02633527|164550432|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.1305|TWO_SIDED|95.0|-1.0|0.1|||ANOVA|||||0.1|-1.0|0.1305
82419640|NCT02633527|164550432|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.1376|TWO_SIDED|95.0|-1.0|0.1|||ANOVA|||||0.1|-1.0|0.1376
82419641|NCT02633527|164550432|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.009|TWO_SIDED|95.0|-1.3|-0.2|||ANOVA|||||-0.2|-1.3|0.0090
82419642|NCT02633527|164550432|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0546|TWO_SIDED|95.0|-1.1|0.0|||ANOVA|||||0.0|-1.1|0.0546
82419643|NCT02633527|164550433|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0708|TWO_SIDED|95.0|-1.3|0.1|||ANCOVA|||||0.1|-1.3|0.0708
82419644|NCT02633527|164550433|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0309|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|||||-0.1|-1.4|0.0309
82419645|NCT02633527|164550433|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0148|TWO_SIDED|95.0|-1.5|-0.2|||ANCOVA|||||-0.2|-1.5|0.0148
82419646|NCT02633527|164550433|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0136|TWO_SIDED|95.0|-1.6|-0.2|||ANCOVA|||||-0.2|-1.6|0.0136
82419647|NCT04135443|164550549|SUPERIORITY||Odds Ratio (OR)|1.027||||0.94|TWO_SIDED|95.0|0.511|2.063|||Regression, Logistic|||||2.063|0.511|0.94
82419648|NCT04135443|164550551|SUPERIORITY||Slope|0.064||||0.455|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.455
82419649|NCT04135443|164550552|SUPERIORITY||Slope|0.026||||0.702|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.702
82419650|NCT04135443|164550553|SUPERIORITY||Slope|0.049||||0.375|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.375
82419651|NCT04135443|164550554|SUPERIORITY||Slope|0.076||||0.313|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.313
82419652|NCT04135443|164550555|SUPERIORITY||Slope|-0.01||||0.89|TWO_SIDED|||||Threshold set to p\<0.05.|Regression, Linear|See analysis plan for covariates screened into model.||||||0.890
82419653|NCT00728182|164550560|SUPERIORITY_OR_OTHER|||||||0.445||95.0|||||ANCOVA|Data were cubic root transformed and modelled with multiple linear regression.||Comparison of the summed volume of new FLAIR lesions in the NA-1 and placebo treated groups.||||0.445
82419654|NCT00728182|164550561|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.53||||0.018|TWO_SIDED|95.0|0.38|0.74|||Generalized linear model|With log link and negative bnomial distribution.||Comparison of the total number of new ischemic lesions on DWI for NA-1 versus placebo treated groups.||0.74|0.38|0.018
82419655|NCT00728182|164550562|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.59||||0.048|TWO_SIDED|95.0|0.42|0.83|||Generalized linear model|With log link and negative binomial distribution.||Comparison of the total number of new FLAIR lesions in the NA-1 versus placebo treated groups.||0.83|0.42|0.048
82419656|NCT00728182|164550563|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||ANCOVA|Data were cubic root transformed and modelled with multiple linear regresion.||Comparison of the summed volume of new ischemic lesions on DWI.||||0.306
82419657|NCT00728182|164550564|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||0.43|TWO_SIDED|95.0|0.9|1.1|||Chi-squared|||Number of patients obtaining a score on the NIHSS of 0-1 at Day 30.||1.1|0.9|0.43
82419658|NCT00728182|164550565|SUPERIORITY_OR_OTHER||Relative Risk|1.0||||1|TWO_SIDED|95.0|0.9|1.1|||Chi-squared|||Comparison of the number of patients with mRS scores of 0-2 at Day 30 for NA-1 and placebo treated groups.||1.1|0.9|1.00
82419659|NCT00728182|164550566|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|||||||0.023
82419660|NCT00728182|164550567|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.36||||0.027|TWO_SIDED|95.0|0.17|0.73|||Adjusted Incidence Rate Ratio|||||0.73|0.17|0.027
82419661|NCT00728182|164550568|SUPERIORITY_OR_OTHER||Adjusted Incidence Rate Ratio|0.36||||0.046|TWO_SIDED|95.0|0.17|0.75|||Generalized linear model|||||0.75|0.17|0.046
82419662|NCT00728182|164550569|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.015
82419663|NCT00728182|164550570|SUPERIORITY_OR_OTHER||Relative Risk|1.5||||0.02|TWO_SIDED|95.0|1.1|2.0|||Chi-squared|||||2.0|1.1|0.02
82419664|NCT00728182|164550571|SUPERIORITY_OR_OTHER||Relative Risk|1.3||||0.18|TWO_SIDED|95.0|0.95|1.7|||Chi-squared|||||1.7|0.95|0.18
82419665|NCT02554474|164550572|SUPERIORITY||Adjusted difference in mean change|9.4|||||TWO_SIDED|95.0|-0.5|19.3||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in MVPA at 9 weeks (primary end point) between groups, adjusting for baseline MVPA, diagnosis, and blocking.||19.3|-0.5|
82419666|NCT02554474|164550573|SUPERIORITY||Adjusted difference in mean change|-10.4|||||TWO_SIDED|95.0|-53.4|32.6||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing sedentary time at 9 weeks (primary end point) between groups, adjusting for baseline sedentary time, diagnosis, and blocking.||32.6|-53.4|
82419667|NCT02554474|164550574|SUPERIORITY||Adjusted difference in mean change|-0.31|||||TWO_SIDED|95.0|-0.63|0.01||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in the Fatigue Severity Scale at 9 weeks (primary end point) between groups, adjusting for baseline fatigue score, diagnosis, and blocking.||0.01|-0.63|
82419668|NCT02554474|164550575|SUPERIORITY||Adjusted difference in mean change|-2.45|||||TWO_SIDED|95.0|-4.78|-0.13||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing pain at 9 weeks (primary end point) between groups, adjusting for pain score, diagnosis, and blocking.||-0.13|-4.78|
82419669|NCT02554474|164550576|SUPERIORITY||Adjusted difference in mean change|-0.22|||||TWO_SIDED|95.0|-1.78|1.35||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing the PHQ-9 scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||1.35|-1.78|
82419670|NCT02554474|164550577|SUPERIORITY||Adjusted difference in mean change|1.58|||||TWO_SIDED|95.0|-1.02|4.18||||||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing the Partners In Health Scale scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||4.18|-1.02|
82419671|NCT02554474|164550578|SUPERIORITY||Adjusted difference in mean change|0.05|||||TWO_SIDED|95.0|-0.05|0.16||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Sitting at Work index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.16|-0.05|
82419672|NCT02554474|164550579|SUPERIORITY||Adjusted difference in mean change|0.0|||||TWO_SIDED|95.0|-0.37|0.37||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Sitting at Leisure index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.37|-0.37|
82533732|NCT04039503|164765209|SUPERIORITY||Odds Ratio (OR)|17.15|||<|0.001|TWO_SIDED|95.0|7.55|38.93|||Regression, Logistic|||||38.93|7.55|<0.001
82533733|NCT04039503|164765209|SUPERIORITY||Odds Ratio (OR)|27.24|||<|0.001|TWO_SIDED|95.0|11.87|62.55|||Regression, Logistic|||||62.55|11.87|<0.001
82426074|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||p-value is for Week 12: HbA1c \<7.0%|Fisher Exact|||||||0.561
82533734|NCT04039503|164765209|SUPERIORITY||Odds Ratio (OR)|79.61|||<|0.001|TWO_SIDED|95.0|32.76|193.44|||Regression, Logistic|||||193.44|32.76|<0.001
82648069|NCT00331773|165011536|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Patients who died without biochemical failure were considered as competing risk at the time of death. Patients alive without biochemical failure at last follow-up were censored at that date. Estimates were calculated using cumulative risk and non-inferiority was assessed against a HR of 1.67. The log-rank test was used with a two-sided p-value of 0.05.|Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.51|1.17|||Log Rank||Reference arm = Conventional 3D-CRT|||1.17|0.51|< 0.001
82419673|NCT02554474|164550580|SUPERIORITY||Adjusted difference in mean change|0.54|||||TWO_SIDED|95.0|0.08|0.99||||||We performed an intent-to-treat analysis. For the main comparison, analysis of covariance (ANCOVA) was used to estimate an adjusted mean difference comparing the Walking index scores at 9 weeks (primary end point) between groups, adjusting for baseline score, diagnosis, and blocking.||0.99|0.08|
82419674|NCT01725308|164550592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.4||||0.034|TWO_SIDED|95.0|-4.7|-0.2|||ANCOVA|||An analysis of covariance (ANCOVA) using a model where the total MADRS score at baseline is a covariate and the treatment group and bipolar disorder diagnosis (Type I/ II) are fixed effects.||-0.2|-4.7|0.034
82419675|NCT01725308|164550599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.7||||0.033|TWO_SIDED|95.0|-3.3|-0.1|||ANCOVA|||At End of Treatment Period I/Week 8: An analysis of covariance (ANCOVA) using a model where the total HAM-D17 score at baseline is a covariate and the treatment group and bipolar disorder diagnosis (Type I/II) are fixed effects.||-0.1|-3.3|0.033
82419676|NCT03511209|164550637|SUPERIORITY||Odds Ratio (OR)|2.13|STANDARD_ERROR_OF_MEAN|0.85||0.056|TWO_SIDED|95.0|0.98|4.64|||Regression, Logistic|||Compared CBTI plus Taper method A to CBTI plus Taper method B||4.64|0.98|0.056
82419677|NCT03511209|164550638|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|1.27||0.405|TWO_SIDED|95.0|-3.57|1.44|||Mixed Models Analysis|Interaction contrast of Treatment Group (CBTI plus Taper method A vs. CBTI plus Taper method B) by Time (6 Months vs. Baseline)||||1.44|-3.57|0.405
82419678|NCT02844075|164550644|SUPERIORITY||||||||||||||||||For sample size calculation, Minimax design to evaluate the null hypothesis that the true pCR rate will be 10% and the alternative hypothesis that the pCR rate≥ 30%, with type I error (α) level of 10% and type II error (β) of 0.10. If 1 or more successes are observed in the first 16 patients, accrual for that stratum will be continued until a total of 25 patients. If, of these 25 patients, 5 or more pCR, an additional investigation is warranted. Allowing for a follow-up loss rate of 10 %, the total sample size is expected as 28. For biomarker evaluation, the categorical groups were investigated to evaluated possible association with response and/or survival. Associations were analyzed by χ2 test or Fisher's exact test for categorical variables. The Kaplan-Meier method was used to analyze survival outcomes (EFS, OS, and DFS). To compare PD-L1 expression between paired pre- and post-neoadjuvant treatment with associated of pCR, the Wilcoxon signed-rank test was used.|||
82419679|NCT05226884|164550658|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
82419680|NCT05226884|164550659|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
82419681|NCT05226884|164550660|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
82419682|NCT05226884|164550661|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||||||||||||||The defocus curve is generated based on measurements over a dioptric range.|||
82419683|NCT05226884|164550662|NON_INFERIORITY|Non-inferiority defined as within 0.1 LogMAR (1 line on Snellen Chart).|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Normality was assumed if skewness was ±2 and kurtosis was ±7. Non-inferiority was confirmed before further statistical testing.||||||<0.05
82419684|NCT03478787|164550668|NON_INFERIORITY|Non-inferiority is met if the lower bound of the 96.25% confidence interval (CI) of adjusted treatment difference is above -12%.|Adjusted percentage difference|8.2|||||TWO_SIDED|96.25|-2.2|18.6|||||Across the strata, 96.25% confidence interval (CI) for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||18.6|-2.2|
82419685|NCT03478787|164550669|SUPERIORITY||Adjusted percentage difference|29.8|||<|0.001|TWO_SIDED|95.0|20.8|38.8||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||38.8|20.8|< 0.001
82419686|NCT03478787|164550670|SUPERIORITY||Adjusted percentage difference|26.2|||<|0.001|TWO_SIDED|95.0|15.9|36.5||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||36.5|15.9|< 0.001
82419687|NCT03478787|164550671|SUPERIORITY||Adjusted percentage difference|29.8|||<|0.001|TWO_SIDED|95.0|20.9|38.8||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||38.8|20.9|< 0.001
82419688|NCT03478787|164550672|SUPERIORITY||Adjusted percentage difference|20.0|||<|0.001|TWO_SIDED|95.0|11.7|28.3||Across the strata, p-value was calculated from the from the Cochran-Mantel-Haenszel test adjusted for strata.|Cochran-Mantel-Haenszel||Across the strata, 95% CI for adjusted difference was calculated according to the Cochran-Mantel-Haenszel test for the comparison of 2 treatment groups.|||28.3|11.7|< 0.001
82419689|NCT01712074|164550674|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.695|STANDARD_ERROR_OF_MEAN|0.8697||0.4256|TWO_SIDED|80.0|-0.424|1.814|||Mixed Models Analysis|||||1.814|-0.424|0.4256
82419690|NCT01712074|164550675|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.194|STANDARD_ERROR_OF_MEAN|1.7149||0.2027|TWO_SIDED|80.0|-0.013|4.401|||Mixed Models Analysis|||||4.401|-0.013|0.2027
82426075|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||p-value is for Week 12: HbA1c \<=6.5%|Fisher Exact|||||||0.511
82426076|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||p-value is for Week 18: HbA1c \<7.0%|Fisher Exact|||||||0.012
82419691|NCT01044693|164550698|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||0.036
82419692|NCT01044693|164550698|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||<0.001
82419693|NCT01044693|164550698|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The main comparisons were between the active treatment groups versus placebo. We hypothesized that if NO-mediated vasodilation contributes to the BP-lowering effect of nebivolol then BP will be lowered by nebivolol and sildenafil, but not by metoprolol in autonomic failure patients.||||>0.05
82419694|NCT01044693|164550699|SUPERIORITY_OR_OTHER|||||||0.607|TWO_SIDED||||||ANOVA|||The main comparisons were between the active treatment groups versus placebo.||||0.607
82419695|NCT01044693|164550700|SUPERIORITY_OR_OTHER|||||||0.597|TWO_SIDED||||||ANOVA|||The main comparisons were between the active treatment groups versus placebo.||||0.597
82419696|NCT01044693|164550701|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The main comparisons were between the negative chronotropic effect of nebivolol and metoprolol at the time when BP-lowering effects were maximal.||||0.996
82419697|NCT00480025|164550713|SUPERIORITY|RMF included: 1) Number of chemotherapy cycles received (1, 2 vs. 3, 4), if any; 2) Pathological stage of the disease (IB vs. II vs. IIIA); 3) Type of lymph-node sampling (minimal lymph-node sampling vs. systematic radical mediastinal lymphadenectomy); 4) ECOG performance status randomization (0, 1 vs. 2); 5) Smoking status ( 100 cigarettes a lifetime vs. \> 100 cigarettes and current smoker vs. \>100 cigarettes and past smoker).|Treatment Efficacy|1.024||||0.7379|TWO_SIDED|95.0|0.891|1.177||2-sided p-value of Likelihood Ratio test from RMF-adjusted Cox regression, Efron method used to handle ties.|Regression, Cox|Overall population objective reached if p-value \< 2.56%/4% in absence/presence of statistically significant effect in the No-CT population.||Analysis compared DFS PYAR between groups for period from 1st treatment dose to DLP. A Cox model was used to evaluate treatment efficacy (TE). TE was calculated as PYAR in GSK1572932 Group (PYAR1) divided by PYAR in Placebo Group (PYAR2), and weighed for adjustment factors. This comparison in all patients (overall population) also included taking into account stratification by previous CT vs. No-CT treatment and weighing using randomization-minimization factors (RMF) as regressors.||1.177|0.891|0.7379
82419698|NCT00480025|164550714|SUPERIORITY|RMF taken into account included: 1) Number of chemotherapy cycles received (1, 2 vs. 3, 4), if any; 2) Pathological stage of the disease (IB vs. II vs. IIIA); 3) Type of lymph-node sampling (minimal lymph-node sampling vs. systematic radical mediastinal lymphadenectomy); 4) ECOG performance status randomization (0, 1 vs. 2); 5) Smoking status ( 100 cigarettes a lifetime vs. \> 100 cigarettes and current smoker vs. \> 100 cigarettes and past smoker).|Treatment Efficacy|0.97||||0.7572|TWO_SIDED|95.0|0.797|1.179||2-sided p-value of Likelihood Ratio test from RMF-adjusted Cox regression, Efron method used to handle ties.|Regression, Cox|No-CT population objective reached if p-value \< 2.56%/4% in absence/presence of statistically significant effect in the No-CT population.||Analysis compared DFS PYAR between groups for the period from 1st treatment dose to DLP. A Cox model was used to evaluate treatment efficacy (TE). TE was calculated as PYAR in GSK1572932 No-CT Group (PYAR1) divided by PYAR in Placebo No-CT Group (PYAR2) and weighed for adjustment factors. This comparison in all patients (overall population) also included taking into account weighing using randomization-minimization factors (RMF) as regressors.||1.179|0.797|0.7572
82419699|NCT03726879|164550747|SUPERIORITY||Odds Ratio (OR)|0.67||||0.1846|TWO_SIDED|95.0|0.37|1.21||The threshold for statistical significance was a p-value =0.048|Cochran-Mantel-Haenszel|||||1.21|0.37|0.1846
82419700|NCT03726879|164550748|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9551|TWO_SIDED|95.0|0.67|1.46||The threshold for statistical significance was a p-value =0.002|Cochran-Mantel-Haenszel|||||1.46|0.67|0.9551
82419701|NCT03726879|164550751|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.59|||Log Rank|||All Participants||1.59|0.50|
82419702|NCT03726879|164550751|SUPERIORITY||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.65|4.32|||Log Rank|||PD-L1 IC1/2/3||4.32|0.65|
82576671|NCT03596762|164863604|SUPERIORITY||Difference in LS means|-0.19|||=|0.0896|TWO_SIDED|95.0|-0.41|0.03|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.03|-0.41|= 0.0896
82419703|NCT03726879|164550751|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.27|1.22|||Log Rank|||PD-L1 IC0 Participants||1.22|0.27|
82419704|NCT03726879|164550751|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.58|2.82|||Log Rank|||ER/PgR Negative Participants||2.82|0.58|
82419705|NCT03726879|164550751|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.24|1.36|||Log Rank|||ER/PgR Positive Participants||1.36|0.24|
82419706|NCT03726879|164550752|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.38|1.32|||Log Rank|||All Participants||1.32|0.38|
82419707|NCT03726879|164550752|SUPERIORITY||Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.51|3.69|||Log Rank|||PD-L1 IC1/2/3||3.69|0.51|
82419708|NCT03726879|164550752|SUPERIORITY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.19|1.02|||Log Rank|||PD-L1 IC0||1.02|0.19|
82419709|NCT03726879|164550753|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.4|2.0|||Log Rank|||All Participants||2.00|0.40|
82419710|NCT03726879|164550753|SUPERIORITY||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.42|7.33|||Log Rank|||PD-L1 IC1/2/3||7.33|0.42|
82419711|NCT03726879|164550753|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.21|1.59|||Log Rank|||PD-L1 IC0||1.59|0.21|
82419712|NCT03726879|164550767|SUPERIORITY||Hazard Ratio (HR)|2.38|||||TWO_SIDED|95.0|0.22|26.42|||Regression, Cox|||PIK3CA-Missing||26.42|0.22|
82419713|NCT03726879|164550767|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.23|1.9|||Regression, Cox|||PIK3CA-Mutated||1.90|0.23|
82419714|NCT03726879|164550767|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.45|1.87|||Regression, Cox|||PIK3CA-Wildtype||1.87|0.45|
82576672|NCT03596762|164863604|SUPERIORITY||Difference in LS means|-0.19|||=|0.09|TWO_SIDED|95.0|-0.41|0.03|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 4||0.03|-0.41|= 0.09
82419715|NCT03726879|164550768|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.07|18.91|||Regression, Cox|||PIK3CA-Missing||18.91|0.07|
82419716|NCT03726879|164550768|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.19|1.92||||||PIK3CA-Mutated||1.92|0.19|
82419717|NCT03726879|164550768|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.33|1.55|||Regression, Cox|||PIK3CA-Wildtype||1.55|0.33|
82419718|NCT03726879|164550769|SUPERIORITY||Hazard Ratio (HR)|999.99|||||TWO_SIDED|95.0|0.0||Upper limit of the CI was not evaluable due to low number of events||Regression, Cox||The estimated value is \>999.99|PIK3CA-Missing|||0.00|
82419719|NCT03726879|164550769|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.1|3.53|||Regression, Cox|||PIK3CA-Mutated||3.53|0.10|
82419720|NCT03726879|164550769|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.33|2.09|||Regression, Cox|||PIK3CA-Wildtype||2.09|0.33|
82419721|NCT00761137|164550770|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||"Primary outcome was analyzed by a mixed-effects ANOVA model employing subject as a random factor as well as visit and treatment as fixed factors. Intention-to-treat (ITT) sample was analyzed. Unweighted means and their 95% Confidence Interval (CI) are reported, which represent treatment group means adjusted for the effect of visit and removing the intra-subject variability. For all analyses, significance level was set at 5%."||||0.6
82419722|NCT02496156|164550785|SUPERIORITY||||||<|0.39||||||This is a computed p-value.|Mixed Models Analysis|||Missing data treatment was done using multiple imputation methods when data were determined to be Missing Completely at Random or Missing at Random. Assumptions underlying each statistical test were evaluated before proceeding with specific analyses.|For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||<0.39
82533735|NCT04039503|164765210|SUPERIORITY||Estimate Difference|-35.4|||||TWO_SIDED|95.0|-46.0|-22.8||||||||-22.8|-46.0|
82533736|NCT04039503|164765210|SUPERIORITY||Estimate Difference|-38.2|||||TWO_SIDED|95.0|-48.3|-26.1||||||||-26.1|-48.3|
82533737|NCT04039503|164765210|SUPERIORITY||Estimate Difference|-49.3|||||TWO_SIDED|95.0|-57.7|-39.4||||||||-39.4|-57.7|
82419723|NCT02496156|164550786|SUPERIORITY||||||>|0.05||||||Computed p-value exceeded the .05 level of significance.|Mixed Models Analysis||||For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
82419724|NCT02496156|164550787|SUPERIORITY||||||>|0.05||||||This is a computed p-value.|Mixed Models Analysis|||See description of analysis below.|For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
82419725|NCT02496156|164550788|SUPERIORITY||||||>|0.05||||||Computed p-value|ANCOVA|Difference in post-test scores with baseline Knowledge test score as the covariate.||||||>0.05
82419726|NCT02496156|164550790|SUPERIORITY|See analysis description below.|||||>|0.05||||||Computed p-value|ANOVA||||For each outcome, a linear mixed effects model was fit; with the exception of the Knowledge test where a linear model was fit. Separate models were fit for Parents and adolescents except for HbA1C. The predictor variable is treatment group (SMDM vs. UCP). Covariates are gender, age, social economic status, and family structure as determined by (number of siblings and of caregivers in the home). A random intercept was fit for each subject across the longitudinal data. To accommodate missing values multiple imputation methodology was applied to the data, resulting in five imputed datasets. For each imputed dataset, a linear mixed effects model (or linear model for Knowledge Test) was fit; the resulting five models were pooled into a final model and summary statistics are presented. A two-sided Wald's t test determined significance of covariates. The significance level was 0.05. Appropriate model diagnostics were performed to assess model fit.|||>0.05
82533738|NCT04039503|164765213|SUPERIORITY||Odds Ratio (OR)|12.22|||<|0.001|TWO_SIDED|95.0|3.93|38.0|||Regression, Logistic|||||38.00|3.93|<0.001
82533739|NCT04039503|164765213|SUPERIORITY||Odds Ratio (OR)|32.36|||<|0.001|TWO_SIDED|95.0|10.52|99.49|||Regression, Logistic|||||99.49|10.52|<0.001
82533740|NCT04039503|164765213|SUPERIORITY||Odds Ratio (OR)|56.26|||<|0.001|TWO_SIDED|95.0|18.27|173.26|||Regression, Logistic|||||173.26|18.27|<0.001
82533741|NCT04445155|164765286|SUPERIORITY|||||||0.125|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.125
82576673|NCT03596762|164863605|SUPERIORITY||Difference in LS means|-0.09|||=|0.5511|TWO_SIDED|95.0|-0.39|0.21|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.21|-0.39|= 0.5511
82419727|NCT04349098|164550834|SUPERIORITY||Odds Ratio (OR)|0.84||||0.675|TWO_SIDED|95.0|0.39|1.79|||Cochran-Mantel-Haenszel|||||1.79|0.39|0.6750
82419728|NCT01703221|164550847|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-0.8|||<|0.001|TWO_SIDED|95.0|-0.96|-0.63|||Constrained longitudinal analysis|Terms for treatment, prior oral antihyperglycemic agent (AHA), time, time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-0.63|-0.96|<0.001
82419729|NCT01703221|164550847|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-0.78|||<|0.001|TWO_SIDED|95.0|-0.94|-0.61|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-0.61|-0.94|<0.001
82419730|NCT01703221|164550847|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Omarigliptin will be considered non-inferior to sitagliptin if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in least squares means for change from baseline in HbA1c at Week 24 (omarigliptin minus sitagliptin) is not more than 0.3% (non-inferiority margin).|Difference in the least squares means|-0.02||||0.792|TWO_SIDED|95.0|-0.15|0.12|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||0.12|-0.15|0.792
82419731|NCT01703221|164550852|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-36.89|||<|0.001|TWO_SIDED|95.0|-48.46|-25.33|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-25.33|-48.46|<0.001
82419732|NCT01703221|164550852|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-39.76|||<|0.001|TWO_SIDED|95.0|-51.28|-28.23|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-28.23|-51.28|<0.001
82419733|NCT01703221|164550852|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|2.86||||0.555|TWO_SIDED|95.0|-6.67|12.39|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||12.39|-6.67|0.555
82419734|NCT01703221|164550853|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-12.28|||<|0.001|TWO_SIDED|95.0|-17.78|-6.78|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-6.78|-17.78|<0.001
82419735|NCT01703221|164550853|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|-14.51|||<|0.001|TWO_SIDED|95.0|-20.04|-8.98|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||-8.98|-20.04|<0.001
82419736|NCT01703221|164550853|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares means|2.23||||0.33|TWO_SIDED|95.0|-2.27|6.73|||Constrained longitudinal analysis|Terms for treatment, prior AHA therapy status (yes/no), time, and time by: treatment, prior AHA therapy status, and treatment by prior AHA status.||||6.73|-2.27|0.330
82419737|NCT05122143|164551015|SUPERIORITY|||||||0.0085||||||Treatment D (A+B) versus Treatment C|ANCOVA|||"Treatment A + B were pooled to Treatment D for the Primary endpoint. The primary objective was to compare the efficacy of the AM-301 nasal spray (treatment D= A+B) and no treatment (C) in reducing nasal symptoms induced from HDM allergen exposure.~The TNSS value from the baseline exposure (at screening exposure visit 2) was subtracted from the TNSS value of the treatment exposure to obtain change from baseline. A lower value resembles less symptoms."||||0.0085
82419738|NCT03654326|164551023|SUPERIORITY||Difference in Least Squares Mean|-0.5||||0.066|TWO_SIDED|95.0|-1.01|0.03||Based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|ANCOVA|||||0.03|-1.01|0.066
82419739|NCT03654326|164551024|OTHER|Difference in percentage of participants who experienced one or more adverse events|Difference in % vs Placebo|17.7|||||TWO_SIDED|95.0|3.4|31.3|||||Based on Miettinen \& Nurminen method|||31.3|3.4|
82419740|NCT03654326|164551025|OTHER|Difference in percentage of participants who discontinued study drug due to an adverse event|Difference in % vs Placebo|3.2|||||TWO_SIDED|95.0|-0.9|9.0|||||Based on Miettinen \& Nurminen method|||9.0|-0.9|
82419741|NCT03654326|164551026|OTHER|The difference in least squares mean was based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|Difference in Least Squares Mean|-0.6|||||TWO_SIDED|95.0|-1.18|-0.06||||||||-0.06|-1.18|
82419742|NCT03654326|164551027|OTHER|The difference in least squares mean was based on the longitudinal analysis of covariance (ANCOVA) model including factors for average pelvic pain scores at baseline cycle, stratum, treatment, cycle, interaction of stratum-by-cycle, and the interaction of treatment-by-cycle as covariates|Difference in Least Squares Mean|-0.5|||||TWO_SIDED|95.0|-1.04|0.03||||||||0.03|-1.04|
82419743|NCT02662582|164551058|SUPERIORITY||LSMean difference|-12.0||||0.734|TWO_SIDED|90.0|-71.2|47.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Least square means (LSMeans), LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||47.2|-71.2|0.734
82419744|NCT02662582|164551059|SUPERIORITY||LSMean Difference|-0.0219||||0.438|TWO_SIDED|90.0|-0.0694|0.0256||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0256|-0.0694|0.438
82419745|NCT02662582|164551059|SUPERIORITY||LSMean Difference|-0.0325||||0.114|TWO_SIDED|90.0|-0.0663|0.0014||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0014|-0.0663|0.114
82533742|NCT04445155|164765288|SUPERIORITY|||||||0.011|||||||Paired t-test|||"Null Hypothesis: The means of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The means of the scores are different at baseline and immediately post-intervention."||||0.011
82648070|NCT00331773|165011537|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed against a HR of 1.54, translated from a 5% difference in overall survival with 90% overall survival in the Conventional 3D-CRT arm. The log-rank test was used with a two-sided p-value of 0.05.|Hazard Ratio (HR)|0.95||||0.008|TWO_SIDED|95.0|0.64|1.41|||Log Rank||Reference arm = Conventional 3D-CRT|||1.41|0.64|0.008
82419746|NCT02662582|164551060|SUPERIORITY||LSMean difference|0.75||||0.612|TWO_SIDED|90.0|-1.75|3.24||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||3.24|-1.75|0.612
82419747|NCT02662582|164551060|SUPERIORITY||LSMean difference|0.29||||0.789|TWO_SIDED|90.0|-1.55|2.14||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||2.14|-1.55|0.789
82419748|NCT02662582|164551061|SUPERIORITY||LSMean difference|0.72||||0.225|TWO_SIDED|90.0|-0.26|1.7||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.70|-0.26|0.225
82419749|NCT02662582|164551061|SUPERIORITY||LSMean difference|0.92||||0.064||90.0|0.11|1.174||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.174|0.11|0.064
82419750|NCT02662582|164551062|SUPERIORITY||LSMean difference|0.052||||0.447|TWO_SIDED|90.0|-0.063|0.167||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.167|-0.063|0.447
82419751|NCT02662582|164551063|SUPERIORITY||LSMean difference|-0.8||||0.099|TWO_SIDED|90.0|-1.7|0.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Dyspnea) at Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0|-1.7|0.099
82419752|NCT02662582|164551063|SUPERIORITY||LSMean difference|-0.5||||0.255|TWO_SIDED|90.0|-1.3|0.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Dyspnea) at isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.2|-1.3|0.255
82419753|NCT02662582|164551063|SUPERIORITY||LSMean difference|-0.2||||0.651|TWO_SIDED|90.0|-1.1|0.6||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Leg Effort) at Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.6|-1.1|0.651
82419754|NCT02662582|164551063|SUPERIORITY||LSMean difference|-0.3||||0.591|TWO_SIDED|90.0|-1.0|0.5||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Borg (Leg Effort) at isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.5|-1.0|0.591
82419755|NCT02662582|164551064|SUPERIORITY||LSMean difference|0.0286||||0.04|TWO_SIDED|90.0|0.0061|0.0511||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0511|0.0061|0.040
82419756|NCT02662582|164551064|SUPERIORITY||LSMean differencce|0.0185||||0.155|TWO_SIDED|90.0|-0.0031|0.0401||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0401|-0.0031|0.155
82426077|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.269||95.0||||p-value is for Week 18: HbA1c \<=6.5%|Fisher Exact|||||||0.269
82426078|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||p-value is for Week 24: HbA1c \<7.0%|Fisher Exact|||||||0.161
82533743|NCT04445155|164765289|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.002
82533744|NCT04445155|164765289|SUPERIORITY|||||||0.008|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.008
82533745|NCT04445155|164765290|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||<0.001
82576674|NCT03596762|164863605|SUPERIORITY||Difference in LS means|0.16|||=|0.3822|TWO_SIDED|95.0|-0.2|0.52|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.52|-0.2|= 0.3822
82647267|NCT02643966|165009609|OTHER|We compared DBT true positive findings for first observer (usual care) vs DBT and WBUS true positive findings for first observer for Years/Screens 2 and 3.|simple proportions|13.5|||<|0.001|TWO_SIDED|95.0|4.9|22.3||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||The primary unit of analysis was the screening examination. A sample size of 16,700 screens (6,200 women, estimating 8%-10% loss to follow-up each year) was expected to provide 82% power to identify an added CDR from US of 1.1/1,000.Screens were included for analysis if the patient was diagnosed with breast cancer or at least 10.5-month imaging or clinical follow-up (ie, at end of study participation) showed no evidence of breast cancer.||22.3|4.9|< 0.001
82647268|NCT02643966|165009611|OTHER|We compared DBT false positive findings for first observer (usual care) vs DBT and WBUS false positive findings for first observer for Year/Screen 1.|Slope|4.5|||<|0.001|TWO_SIDED|95.0|3.8|5.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||||5.1|3.8|< 0.001
82419757|NCT02662582|164551065|SUPERIORITY||LSMean difference|0.001||||0.972|TWO_SIDED|90.0|-0.0459|0.0479||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0479|-0.0459|0.972
82419758|NCT02662582|164551065|SUPERIORITY||LSMean difference|-0.0118||||0.578|TWO_SIDED|90.0|-0.0471|0.0236||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0236|-0.0471|0.578
82419759|NCT02662582|164551066|SUPERIORITY||LSMean difference|-0.65||||0.235|TWO_SIDED|90.0|-1.55|0.26||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.26|-1.55|0.235
82419760|NCT02662582|164551066|SUPERIORITY||LSMean differencce|-0.57||||0.215|TWO_SIDED|90.0|-1.33|0.19||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.19|-1.33|0.215
82419761|NCT02662582|164551067|SUPERIORITY||LSMean difference|0.7||||0.28|TWO_SIDED|90.0|-0.38|1.77||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.77|-0.38|0.280
82419762|NCT02662582|164551067|SUPERIORITY||LSMean difference|0.46||||0.424|TWO_SIDED|90.0|-0.49|1.4||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.40|-0.49|0.424
82533746|NCT04445155|164765290|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.002
82533747|NCT04445155|164765291|SUPERIORITY||||||<|0.001|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||<0.001
82533748|NCT04445155|164765291|SUPERIORITY|||||||0.125|||||||Wilcoxon Signed-Rank test|||"Null Hypothesis: The distributions of the scores are the same at baseline and immediately post-intervention.~Alternative Hypothesis: The distributions of the scores are different at baseline and immediately post-intervention."||||0.125
82576675|NCT03596762|164863605|SUPERIORITY||Difference in LS means|-0.15|||=|0.2606|TWO_SIDED|95.0|-0.41|0.11|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0.11|-0.41|= 0.2606
82419763|NCT02662582|164551068|SUPERIORITY||LSMean difference|0.039||||0.187|TWO_SIDED|90.0|-0.0099|0.0879||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.0879|-0.0099|0.187
82419764|NCT02662582|164551068|SUPERIORITY||LSMean difference|0.0488||||0.213|TWO_SIDED|90.0|-0.0163|0.114||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.1140|-0.0163|0.213
82533749|NCT04894903|164765298|OTHER||Odds Ratio (OR)|0.45|||<|0.001|TWO_SIDED|95.0|0.3|0.68||This is the calculated p-value. We used an alpha level of 0.05|Mixed Models Analysis|Adjusted for baseline number of gaps||||0.68|0.30|<0.001
82533750|NCT04894903|164765300|OTHER||Odds Ratio (OR)|0.57||||0.29|TWO_SIDED|95.0|0.2|1.62|||Mixed Models Analysis|||||1.62|0.20|0.29
82533751|NCT04894903|164765301|OTHER||beta coefficient|-0.04||||0.74|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|||||0.17|-0.24|0.74
82533752|NCT04894903|164765302|OTHER||beta coefficient|-0.04||||0.88|TWO_SIDED|95.0|-0.6|0.51|||Mixed Models Analysis|||||0.51|-0.60|0.88
82533753|NCT04894903|164765303|OTHER||beta coefficient|-1.24||||0.21|TWO_SIDED|95.0|-3.19|0.71|||Mixed Models Analysis|||||0.71|-3.19|0.21
82576676|NCT03596762|164863605|SUPERIORITY||Difference in LS means|-0.27|||=|0.0479|TWO_SIDED|95.0|-0.53|0.0|||Mixed-Effect Model Repeated Measures|||Change from Baseline to Week 12||0|-0.53|= 0.0479
82419765|NCT02662582|164551069|SUPERIORITY||LSMean difference|-0.4||||0.64||90.0|-2.1|1.2||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.2|-2.1|0.640
82419766|NCT02662582|164551069|SUPERIORITY||LSMean difference|-0.7||||0.487|TWO_SIDED|90.0|-2.5|1.1||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.1|-2.5|0.487
82419767|NCT02662582|164551070|SUPERIORITY||LSMean difference|0.095||||0.1|TWO_SIDED|90.0|0.0|0.189||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.189|0.000|0.100
82419768|NCT02662582|164551070|SUPERIORITY||LSMean difference|0.133||||0.008|TWO_SIDED|90.0|0.053|0.213||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.213|0.053|0.008
82533754|NCT04894903|164765306|OTHER||beta coefficient|0.47||||0.21|TWO_SIDED|95.0|-0.27|1.22|||Mixed Models Analysis|||||1.22|-0.27|0.21
82419769|NCT02662582|164551071|SUPERIORITY||LSMean difference|0.051||||0.408|TWO_SIDED|90.0|-0.052|0.154||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.154|-0.052|0.408
82419770|NCT02662582|164551071|SUPERIORITY||LSMean difference|0.094||||0.058|TWO_SIDED|90.0|0.013|0.174||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.174|0.013|0.058
82533755|NCT01670500|164765308|OTHER||Risk Ratio (RR)|0.7|||||TWO_SIDED|90.0|0.39|1.2|||||The risk ratio is comparing cisplatin to doxorubicin-cyclophosphamide (AC)|||1.2|0.39|
82533756|NCT01670500|164765309|OTHER||Risk Ratio (RR)|0.73|||||TWO_SIDED|90.0|0.5|1.1|||||The risk ratio is comparing cisplatin to doxorubicin-cyclophosphamide (AC)|||1.1|.5|
82533757|NCT01923428|164765315|SUPERIORITY||Risk Difference (RD)|27.0|||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82533758|NCT02550873|164765316|SUPERIORITY||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|0.72||0.0014|TWO_SIDED|90.0|1.1|3.5||a priori threshold for statistical significance = 0.10|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||"The sample size calculation was based on the following assumptions:~Normal distribution Homogeneity of variance the same in both arms, and for both types of patients Randomization ratio PRM-151:placebo = 2:1 Expected value for patients on pirfenidone or nintedanib = -1.5 Expected value for patients on no other treatment = -3 Expected value for patients on PRM-151 ≥ 0.75 Standard deviation = 5 75% of patients on a stable dose of pirfenidone or nintedanib α=0.10 two-sided Power = 80%"||3.5|1.1|0.0014
82419771|NCT02662582|164551072|SUPERIORITY||LSMean difference|1.44||||0.648|TWO_SIDED|90.0|-3.85|6.73||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||6.73|-3.85|0.648
82426079|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||p-value is for Week 24: HbA1c \<=6.5%|Fisher Exact|||||||0.071
82533759|NCT02550873|164765317|SUPERIORITY||Mean Difference (Net)|31.3|STANDARD_ERROR_OF_MEAN|8.42||0.0002|TWO_SIDED|90.0|17.4|45.1||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction.||||45.1|17.4|0.0002
82426080|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||p-value is for Endpoint (LOCF): HbA1c \<7.0%|Fisher Exact|||||||0.177
82426081|NCT00560417|164561043|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||p-value is for Endpoint (LOCF): HbA1c \<=6.5%|Fisher Exact|||||||0.060
82576677|NCT01602510|164863703|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.438|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with Treatment Group as covariate|||1.25|0.59|=0.438
82426082|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.28||||0.179|TWO_SIDED|95.0|-1.97|10.53||p-value is for Endpoint Morning Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||10.53|-1.97|0.179
82426083|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.96|||<|0.001|TWO_SIDED|95.0|5.72|22.19||p-value is for Endpoint Morning Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||22.19|5.72|<0.001
82426084|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.325|TWO_SIDED|95.0|-3.79|11.39||p-value is for Endpoint Midday Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||11.39|-3.79|0.325
82426085|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.73||||0.051|TWO_SIDED|95.0|-0.04|17.5||p-value is for Endpoint Midday Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||17.50|-0.04|0.051
82426086|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.92||||0.003|TWO_SIDED|95.0|3.66|18.19||p-value is for Endpoint Evening Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||18.19|3.66|0.003
82426087|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.19||||0.002|TWO_SIDED|95.0|5.44|22.94||p-value is for Endpoint Evening Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||22.94|5.44|0.002
82533760|NCT02550873|164765318|SUPERIORITY||Mean Difference (Net)|93.5|STANDARD_ERROR_OF_MEAN|72.98||0.2032|TWO_SIDED|90.0|-27.7|214.7||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept and slope; dependent variable=raw values; explanatory variables=stratum, treatment, time and treatment by time interaction.||||214.7|-27.7|0.2032
82533761|NCT02550873|164765319|SUPERIORITY||Mean Difference (Net)|31.9|STANDARD_ERROR_OF_MEAN|46.33||0.4927|TWO_SIDED|90.0|-45.0|108.8||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||108.8|-45.0|0.4927
82647269|NCT02643966|165009611|OTHER|We compared DBT false positive findings for first observer (usual care) vs DBT and WBUS false positive findings for first observer for Years/Screens 2 \& 3.|simple proportions|3.7|||<|0.001|TWO_SIDED|95.0|3.3|4.1||The threshold for statistical significance was p = 0.05|nonparametric bootstrap approach|The 95% CIs for differences were estimated using nonparametric bootstrap approach on the basis of 10,000 replicates with women as resampling units||||4.1|3.3|< 0.001
82648071|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.85|TWO_SIDED|95.0|0.73|1.46||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GI toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% confidence intervals (CIs) were computed.||1.46|0.73|0.85
82419772|NCT02662582|164551072|SUPERIORITY||LSMean difference|0.85||||0.775|TWO_SIDED|90.0|-4.12|5.82||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||5.82|-4.12|0.775
82419773|NCT02662582|164551073|SUPERIORITY||LSMean difference|1.1||||0.544|TWO_SIDED|90.0|-1.9|4.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.0|-1.9|0.544
82419774|NCT02662582|164551073|SUPERIORITY||LSMean difference|2.1||||0.216|TWO_SIDED|90.0|-0.7|5.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||5.0|-0.7|0.216
82419775|NCT02662582|164551074|SUPERIORITY||LSMean difference|-7.4||||0.171|TWO_SIDED|90.0|-16.5|1.6||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||1.6|-16.5|0.171
82419776|NCT02662582|164551074|SUPERIORITY||LSMean difference|0.2||||0.976|TWO_SIDED|90.0|-10.3|10.7||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||10.7|-10.3|0.976
82419777|NCT02662582|164551075|SUPERIORITY||LSMean difference|-0.6||||0.844|TWO_SIDED|90.0|-6.1|4.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.9|-6.1|0.844
82419778|NCT02662582|164551075|SUPERIORITY||LSMean difference|-0.9||||0.751|TWO_SIDED|90.0|-5.8|4.0||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||4.0|-5.8|0.751
82419779|NCT02662582|164551076|SUPERIORITY||LSMean difference|0.2||||0.59|TWO_SIDED|90.0|-0.5|0.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.9|-0.5|0.590
82419780|NCT02662582|164551076|SUPERIORITY||LSMean difference|0.3||||0.399|TWO_SIDED|90.0|-0.3|0.9||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.9|-0.3|0.399
82426088|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.03||||0.415|TWO_SIDED|95.0|-10.35|4.28||p-value is for Endpoint 0300 Hours.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||4.28|-10.35|0.415
82533762|NCT02550873|164765320|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.96||0.5835|TWO_SIDED|90.0|-2.2|4.3||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||4.3|-2.2|0.5835
82576678|NCT01602510|164863703|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.212|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with Site as covariate|||1.25|0.59|=0.212
82648072|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.31||||0.72|TWO_SIDED|95.0|0.29|5.81||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GI toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||5.81|0.29|0.72
82648073|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.82|1.21||2-sided|Regression, Logistic||Reference Arm = Conventional 3D-CRT|Acute GU toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||1.21|0.82|0.95
82648074|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.36||||0.39|TWO_SIDED|95.0|0.67|2.74||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Acute GU toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.74|0.67|0.39
82419781|NCT02662582|164551077|SUPERIORITY||LSMean difference|-0.09||||0.151|TWO_SIDED|90.0|-0.2|0.01||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.01|-0.20|0.151
82419782|NCT02662582|164551078|SUPERIORITY||LSMean difference|-0.007||||0.857|TWO_SIDED|90.0|-0.07|0.056||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||0.056|-0.070|0.857
82419783|NCT02662582|164551079|SUPERIORITY||LSMean difference|1.56||||0.11|TWO_SIDED|90.0|-0.05|3.17||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||3.17|-0.05|0.110
82419784|NCT02662582|164551080|SUPERIORITY||LSMean difference|2.07||||0.766|TWO_SIDED|90.0|-9.57|13.71||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Peak: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||13.71|-9.57|0.766
82419785|NCT02662582|164551080|SUPERIORITY||LSMean difference|2.94||||0.642|TWO_SIDED|90.0|-7.66|13.54||Statistical comparison was performed at a 2-sided 0.10 significance level.|Mixed Models Analysis|||Isotime: LSMeans, LSMean difference of CK-2127107 minus placebo, and 90% confidence intervals are based on a mixed effect model with treatment and period as fixed effects, subject as a random effect, and a compound symmetry covariance structure.||13.54|-7.66|0.642
82419786|NCT02349477|164551096|SUPERIORITY||Odds Ratio (OR)|3.9||||0.028|TWO_SIDED||||||Regression, Logistic|This is the p-value output from the logistic regression model where medication group predicted the discrete variable for no heavy drinking days.||This analysis compares between Gabapentin and Placebo, the number of individuals who reported no heavy drinking days throughout the entire trial, corrected for %dCDT.||||.028
82419787|NCT02349477|164551097|SUPERIORITY||Odds Ratio (OR)|4.9||||0.053|TWO_SIDED||||||Regression, Logistic|This is the p-value output from the logistic regression model where medication group predicted the discrete variable for abstinence.||This analysis compares between Gabapentin and Placebo, the number of individuals who reported no drinking days (abstinence) throughout the entire trial, corrected for %dCDT.||||.053
82419788|NCT02349477|164551098|SUPERIORITY|||||||0.001|||||||Chi-squared|||For the High AWS group, a chi squared analysis compares the number of individuals with no heavy drinking days between medication groups.||||.001
82419789|NCT02349477|164551098|SUPERIORITY|||||||0.67|||||||Chi-squared|||For the Low AWS group, a chi squared analysis compares the number of individuals with no heavy drinking days between medication groups.||||.67
82419790|NCT03856177|164551104|OTHER|||||||0.071|||||||t-test, 2 sided|||||||.071
82419791|NCT01898091|164551105|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxin rank sum test|||Simulations determined power to detect significant difference defined as a mean difference of 1 unit (MTS scale). Feasibility study provided proportion of patients in control and neem group with change scores of 0, 1, 2, 3, and 4 as (5%, 10%, 10%, 45% and 30%) and (15%, 20%, 30%, 25% and 10%), respectively. Simulated 10,000 trials using multinomial distributions by the percentages above, with 20 patients per group, provided 80% power to detect 0.9 unit difference using a one-sided alpha of 0.05.||||0.84
82648075|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.59||||0.005|TWO_SIDED|95.0|1.22|2.06||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GI toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.06|1.22|0.005
82419792|NCT02592655|164551138|SUPERIORITY_OR_OTHER|||||||0.002||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that one windlass tourniquet is just as likely to occlude arterial flow as the 10 cm wide tourniquet tape.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.002
82419793|NCT02592655|164551138|SUPERIORITY_OR_OTHER|||||||0.008||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that one windlass tourniquet is just as likely to occlude arterial flow as two windlass tourniquets.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.008
82533763|NCT02550873|164765321|SUPERIORITY||Mean Difference (Net)|43.6|STANDARD_ERROR_OF_MEAN|102.28||0.6707|TWO_SIDED|90.0|-126.3|213.5||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||213.5|-126.3|0.6707
82419794|NCT02592655|164551138|SUPERIORITY_OR_OTHER|||||||0.5||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that the 10 cm wide tourniquet tape is just as likely to occlude arterial flow as using two windlass tourniquets.~Participant count of 18 to accommodate for missing windlass tourniquet ultrasound data."||||0.5
82419795|NCT02592655|164551138|SUPERIORITY_OR_OTHER|||||||0.5||||||Significance thresh hold: 0.05.|McNemar|||"Null hypothesis is that using the pneumatic tourniquet is just as likely to occlude arterial flow as using two windlass tourniquets.~Participant count of 17 to accommodate for missing ultrasound data."||||0.5
82426089|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.39||||0.015|TWO_SIDED|95.0|1.46|13.32||p-value is for Endpoint Daily Mean 7-Point Blood Glucose.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||13.32|1.46|0.015
82419796|NCT04565756|164551154|OTHER|||||||||||||||||Since the primary objective of the study was to evaluate ocular safety and tolerability, no formal hypothesis testing was performed for any continuous or categorical variables. All statistical analyses were descriptive in nature and any statistical inferences were carried out according to the analysis plan and interpreted in view of the exploratory nature of the study.|Since the primary objective of the study was to evaluate ocular safety and tolerability, no formal hypothesis testing was performed for any continuous or categorical variables.|||
82533764|NCT02550873|164765322|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|1.91||0.52|TWO_SIDED|90.0|-4.4|1.9||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||1.9|-4.4|0.52
82419797|NCT05259722|164551162|SUPERIORITY||Mean Difference (Net)|-16.1|||<|0.001|TWO_SIDED|95.0|-23.28|-8.86|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-8.86|-23.28|<0.001
82419798|NCT05259722|164551163|SUPERIORITY||Risk Difference (RD)|12.6|||=|0.003|TWO_SIDED|95.0|4.34|20.78|||Cochran-Mantel-Haenszel|||The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by hyperkeratotic/non-hyperkeratotic subtype. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||20.78|4.34|=0.003
82419799|NCT05259722|164551164|SUPERIORITY||Risk Difference (RD)|10.6|||=|0.004|TWO_SIDED|95.0|3.31|17.87|||Cochran-Mantel-Haenszel|||The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by hyperkeratotic/non-hyperkeratotic subtype. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||17.87|3.31|=0.004
82419800|NCT05259722|164551165|SUPERIORITY||Mean Difference (Net)|-0.7|||=|0.005|TWO_SIDED|95.0|-1.12|-0.2|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-0.20|-1.12|=0.005
82419801|NCT05259722|164551166|SUPERIORITY||Mean Difference (Net)|-0.6|||=|0.018|TWO_SIDED|95.0|-1.08|-0.1|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-0.10|-1.08|=0.018
82419802|NCT05259722|164551167|SUPERIORITY||Mean Difference (Net)|14.3|||<|0.001|TWO_SIDED|95.0|5.81|22.86|||ANCOVA|||The AUC was analysed using a robust ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed as non-response. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||22.86|5.81|<0.001
82419803|NCT05259722|164551168|SUPERIORITY||Mean Difference (Net)|334.0|||<|0.001|TWO_SIDED|95.0|195.69|472.26|||ANCOVA|||The AUC was analysed using a robust ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||472.26|195.69|<0.001
82419804|NCT05259722|164551169|SUPERIORITY||Mean Difference (Net)|-24.5|||<|0.001|TWO_SIDED|95.0|-32.55|-16.36|||ANCOVA|||The change from baseline was analysed using an ANCOVA model with effects of treatment group, hyperkeratotic/non-hyperkeratotic subtype and baseline value of the score. Missing data was imputed with WOCF. Data after initiation of rescue treatment or permanent discontinuation of IMP was treated as missing.||-16.36|-32.55|<0.001
82419805|NCT01887600|164551173|SUPERIORITY||Odds Ratio (OR)|34.74|||<|0.001|TWO_SIDED|95.0|20.48|58.93|||Cochran-Mantel-Haenszel||Please note Odds Ratio and CI are shown in percentages.|The Cochran-Mantel-Haenszel (CMH) test was adjusted by region, history of of cardiovascular, cerebrovascular or thromboembolic (CV) disease, baseline Hb and baseline estimated glomerular filtration rate (eGFR). Superiority of roxadustat versus placebo was to be declared if the lower bound of the two-sided 95% confidence interval of the CMH odds ratio was higher than 1.||58.93|20.48|<0.001
82419806|NCT01887600|164551174|SUPERIORITY||Least squares mean difference|1.692|||<|0.001||95.0|1.52|1.86|||ANCOVA|||The Analysis of Covariance (ANCOVA) with Multiple Imputations (MI) model, adjusting for covariates was used for the analysis. The model included treatment as fixed factor, region and history of CV disease as class factors and baseline Hb, baseline eGFR as continuous covariates. Superiority of roxadustat versus placebo was considered successful if the lower bound of the two-sided 95% confidence interval of the difference between treatment arms (roxadustat minus placebo) was higher than 0.||1.86|1.52|<0.001
82419807|NCT01887600|164551175|SUPERIORITY||Least squares mean difference|1.599|||<|0.001|TWO_SIDED|95.0|1.41|1.78||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline Hb, baseline eGFR and baseline Hb by visit interaction as continuous covariates.||1.78|1.41|<0.001
82426090|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.12||||0.021|TWO_SIDED|95.0|1.1|13.14||p-value is for Endpoint Daily Mean Pre-Meal.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||13.14|1.10|0.021
82533765|NCT02550873|164765323|OTHER|Correlation analysis||||||0.0001||||||This study was not powered to test hypotheses beyond the primary endpoint.|Pearson's correlation|||||||0.0001
82533766|NCT02550873|164765323|OTHER|Correlation analysis||||||0.0069|||||||Pearson's correlation|||This study was not powered to test hypotheses beyond the primary endpoint.||||0.0069
82426091|NCT00560417|164561044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.97|||<|0.001|TWO_SIDED|95.0|5.01|18.93||p-value is for Endpoint Daily Mean Postprandial.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group||||18.93|5.01|<0.001
82533767|NCT02550873|164765324|SUPERIORITY|||||||0.4179||||||P-Value for decline in % Predicted FVC ≥ 5%. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.4179
82447895|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.96|||||TWO_SIDED|95.0|-10.96|22.9|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||22.90|-10.96|
82447896|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-21.54|||||TWO_SIDED|95.0|-37.22|-5.86|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-5.86|-37.22|
82447897|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-7.03|||||TWO_SIDED|95.0|-25.01|10.95|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||10.95|-25.01|
82648076|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.55||||0.19|TWO_SIDED|95.0|0.8|2.99||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GI toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||2.99|0.80|0.19
82447898|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.12|||||TWO_SIDED|95.0|-14.17|24.41|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||24.41|-14.17|
82533768|NCT02550873|164765324|SUPERIORITY|||||||0.2184||||||P-Value for decline in % predicted FVC ≥ 10%. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.2184
82533769|NCT02550873|164765325|SUPERIORITY|||||||0.7773||||||P-Value for decline in FVC ≥ 100 mL. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.7773
82533770|NCT02550873|164765325|SUPERIORITY|||||||0.5976||||||P-Value for decline in FVC ≥ 200 mL. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.5976
82533771|NCT02550873|164765326|SUPERIORITY|||||||0.29||||||P-Value for increase in % predicted FVC ≥ 5%. P-Value for an increase in % predicted FVC ≥ 10% not reported. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.29
82533772|NCT02550873|164765327|SUPERIORITY|||||||0.0508||||||P-Value for increase in FVC ≥ 100 mL. P-Value for increase in FVC ≥ 200 mL not reported. This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.0508
82533773|NCT02550873|164765328|SUPERIORITY|||||||0.6308||||||This study was not powered to test hypotheses beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.6308
82533774|NCT02550873|164765329|SUPERIORITY|||||||0.1846||||||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction||||||0.1846
82533775|NCT02550873|164765330|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.31||0.7424|TWO_SIDED|90.0|-2.6|1.7||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept; dependent variable=raw values at each time point; explanatory variables=stratum, treatment, time and treatment by time interaction.||||1.7|-2.6|0.7424
82447899|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.77|||||TWO_SIDED|95.0|-21.22|15.67|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||15.67|-21.22|
82447900|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-25.84|||||TWO_SIDED|95.0|-42.54|-9.14|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||-9.14|-42.54|
82447901|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.29|||||TWO_SIDED|95.0|-28.22|9.62|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||9.62|-28.22|
82447902|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.04|||||TWO_SIDED|95.0|-16.94|23.02|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||23.02|-16.94|
82447903|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.59|||||TWO_SIDED|95.0|-14.26|25.45|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||25.45|-14.26|
82447904|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-23.42|||||TWO_SIDED|95.0|-42.26|-4.59|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||-4.59|-42.26|
82447905|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-13.73|||||TWO_SIDED|95.0|-33.35|5.87|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||5.87|-33.35|
82447906|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|3.23|||||TWO_SIDED|95.0|-17.26|23.74|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||23.74|-17.26|
82447907|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-3.09|||||TWO_SIDED|95.0|-23.27|17.07|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||17.07|-23.27|
82447908|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.13|||||TWO_SIDED|95.0|-22.77|10.5|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||10.50|-22.77|
82419808|NCT01887600|164551176|SUPERIORITY|Superiority of roxadustat versus placebo was considered successful if the upper bound of the two-sided 95% confidence interval of the difference between treatment arms (roxadustat minus placebo) is below 0.|Least squares mean difference|-0.701|||<|0.001||95.0|-0.83|-0.57||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects during the period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb, baseline eGFR and baseline LDL as continuous variables.||-0.57|-0.83|<0.001
82419809|NCT01887600|164551177|SUPERIORITY||Hazard Ratio (HR)|0.238|||<|0.001|TWO_SIDED|95.0|0.17|0.33||Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates. Superiority is declared if the upper bound of the 95% CI is below 1.0.||0.33|0.17|<0.001
82419810|NCT01887600|164551178|SUPERIORITY||Least squares mean difference|1.127|||=|0.093|TWO_SIDED|95.0|-0.19|2.44||LSM Difference p-value is for test of differences.Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects throughout the evaluation period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline SF-36 VT, baseline Hb and baseline eGFR as continuous variables.||2.44|-0.19|=0.093
82419811|NCT01887600|164551179|SUPERIORITY||Least squares mean difference|0.713|||=|0.27|TWO_SIDED|95.0|-0.56|1.98||LSM Difference p-value is for test of differences. Tested using a fixed sequence testing procedure to maintain the overall two-sided type I error rate at 0.05.|Mixed Models Analysis|||A Mixed Model of Repeated Measures has been applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms and overall mean effects throughout the evaluation period (weeks 12 to 28). The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline SF-36 PF, baseline Hb and baseline eGFR as continuous variables.||1.98|-0.56|=0.27
82419812|NCT01887600|164551180|NON_INFERIORITY|Non-inferiority can be concluded if the upper bound of the two-sided 95% CI of the difference between roxadustat and placebo (roxadustat minus placebo) is below 2 mmHg.|Least squares mean difference|0.842|||=|0.182|TWO_SIDED|95.0|-0.4|2.08||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Mixed Model of Repeated Measures was applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms with overall mean effects throughout the evaluation period (weeks 20 to 28). The model included treatment, visit, visit by treatment interaction, region and history of CV disease as fixed class factors and baseline MAP, baseline Hb, baseline eGFR as continuous covariates.||2.08|-0.40|=0.182
82419813|NCT01887600|164551181|NON_INFERIORITY|Non-inferiority is declared if the upper bound of the 95% CI is below 1.3 (hazard ratio).|Hazard Ratio (HR)|1.29|||=|0.334|TWO_SIDED|95.0|0.77|2.16|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||2.16|0.77|=0.334
82419814|NCT01887600|164551182|SUPERIORITY||Least squares mean difference|0.59|||=|0.316|TWO_SIDED|95.0|-0.57|1.75|||Mixed Models Analysis|||Annualized eGFR slope over time was estimated by a random slopes and intercepts model using all available eGFR values adjusted on baseline Hb, region, CV history at Baseline and the interaction terms.||1.75|-0.57|=0.316
82419815|NCT01887600|164551183|SUPERIORITY||Least squares mean difference|1.638|||<|0.001|TWO_SIDED|95.0|1.44|1.84||LSM Difference p-value is for test of differences|Mixed Models Analysis|||Average Level of Hb Over Weeks 28 to 36. A Mixed Model of Repeated Measures was applied using the visits over weeks 28 to 36. The results were based on the estimated difference between the two treatment arms by visit based on this MMRM model. The model included treatment arm, region, CV History, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.84|1.44|<0.001
82419816|NCT01887600|164551184|SUPERIORITY||Least squares mean difference|1.604|||<|0.001|TWO_SIDED|95.0|1.39|1.82||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Average Level of Hb Over Weeks 44 to 52. A Mixed Model of Repeated Measures was applied using the visits over weeks 44 to 52. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.82|1.39|<0.001
82426092|NCT00560417|164561045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27||||0.131|TWO_SIDED|95.0|-0.68|5.22||p-value is for Baseline.|ANOVA|Variable = Treatment + Baseline HbA1c Group + Baseline SU Group||||5.22|-0.68|0.131
82426093|NCT00560417|164561045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|||<|0.001|TWO_SIDED|95.0|2.82|9.16||p-value is for Endpoint.|ANOVA|Variable = Treatment + Baseline HbA1c Group + Baseline SU Group||||9.16|2.82|<0.001
82533776|NCT02550873|164765340|SUPERIORITY||Mean Difference (Net)|114.6|STANDARD_DEVIATION|56.1||0.0416|TWO_SIDED|90.0|22.2|207.1||This study was not powered to test hypothesis beyond the primary endpoint.|Mixed Models Analysis|Random intercept and slope; dependent variable=raw values; explanatory variables=stratum, treatment, time and treatment by time interaction.||||207.1|22.2|0.0416
82426094|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||p-value is for all reported hypoglycemic events at endpoint.|Fisher Exact|||||||0.826
82426095|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||p-value is for all reported hypoglycemic events overall.|Fisher Exact|||||||0.394
82426096|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||p-value is for non-nocturnal hypoglycemic events at endpoint.|Fisher Exact|||||||0.070
82426097|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||p-value is for non-nocturnal hypoglycemic events overall.|Fisher Exact|||||||0.133
82426098|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for nocturnal hypoglycemic events at endpoint.|Fisher Exact|||||||0.013
82426099|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||p-value is for nocturnal hypoglycemic events overall.|Fisher Exact|||||||0.061
82419817|NCT01887600|164551185|SUPERIORITY||Least squares mean difference|1.492|||<|0.001|TWO_SIDED|95.0|1.14|1.85||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Average Level of Hb Over Weeks 96 to 104. A Mixed Model of Repeated Measures was applied using the visits over weeks 96 to 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.85|1.14|<0.001
82419818|NCT01887600|164551186|SUPERIORITY||Hazard Ratio (HR)|19.001|||<|0.001|TWO_SIDED|95.0|11.98|30.15|||Regression, Cox|||Time to Achieve the First Hb Response. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||30.15|11.98|<0.001
82533777|NCT02107443|164765360|SUPERIORITY||Mean Difference (Final Values)|3.59|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.0001
82533778|NCT02107443|164765361|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.041|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.041
82533779|NCT02107443|164765363|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.03|TWO_SIDED|95.0|0.12|1.98|||Mixed Models Analysis|The above p-values is for 4-6 weeks.|The above values are for 4-6 weeks.|||1.98|0.12|0.03
82533780|NCT02107443|164765363|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.08|TWO_SIDED|95.0|-0.11|1.77|||Mixed Models Analysis|The above p-value is for is for 3 months.|The above values are for 3 months|||1.77|-0.11|.08
82533781|NCT02107443|164765363|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.2|TWO_SIDED|95.0|-0.36|1.59|||Mixed Models Analysis|The above p-value is for 6 months|The above values are for 6 months.|||1.59|-0.36|0.20
82533782|NCT03173248|164765421|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.0011|TWO_SIDED|95.0|0.16|0.69||P-value is calculated from the one-sided log-rank test stratified by the randomization stratification factors (AML status and geographic region).|Log Rank||Hazard ratio is estimated using a Cox's proportional hazards model stratified by the randomization stratification factors (AML status and geographic region) with placebo + azacitidine as the denominator.|||0.69|0.16|0.0011
82533783|NCT03077620|164765485|SUPERIORITY||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.064||0.05|TWO_SIDED|95.0|-0.017|0.256||Poor sleepers compared to good sleepers with Compound Symmetry covariance structure. Mean difference is poor sleepers minus good sleepers.|Mixed Models Analysis|||||0.256|-0.017|0.05
82533784|NCT03077620|164765486|SUPERIORITY||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.033||0.05|TWO_SIDED|95.0|-0.078|0.087||After corrected for multiple comparisons with Bonferroni test, treatment groups 1 and 2 compared to placebo with Compound Symmetry covariance structure. Mean difference is placebo minus treatment group.|Mixed Models Analysis|||||0.087|-0.078|0.05
82576679|NCT01602510|164863703|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.86|||=|0.724|TWO_SIDED|95.0|0.59|1.25|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.25|0.59|=0.724
82576680|NCT01602510|164863704|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.869|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with Treatment Group as covariate|||1.66|0.55|=0.869
82576681|NCT01602510|164863704|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.061|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with Site as covariate|||1.66|0.55|=0.061
82533785|NCT03077620|164765486|SUPERIORITY||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.033||0.05|TWO_SIDED|95.0|-0.051|0.117||After corrected for multiple comparisons with Bonferroni test, treatment groups 1 and 2 compared to placebo with Compound Symmetry covariance structure. Mean difference is placebo minus treatment group.|Mixed Models Analysis|||||0.117|-0.051|0.05
82533786|NCT00462644|164765546|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
82533787|NCT00462644|164765547|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||||||0.011
82533788|NCT00462644|164765548|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
82576682|NCT01602510|164863704|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.95|||=|0.505|TWO_SIDED|95.0|0.55|1.66|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.66|0.55|=0.505
82576683|NCT01602510|164863705|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.369|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with Treatment Group as covariate|||1.32|0.48|=0.369
82419819|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|0.396|||<|0.001|TWO_SIDED|95.0|0.29|0.5||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 1. A Mixed Model of Repeated Measures was applied using the visits up to week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||0.50|0.29|<0.001
82533789|NCT00462644|164765549|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||Normality was tested using the Kolmogorow-Smirnov test.||||0.022
82533790|NCT00462644|164765550|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82533791|NCT00462644|164765551|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82533792|NCT03317379|164765555|SUPERIORITY||estimate of fixed effects|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.8|TWO_SIDED|95.0|-0.17|0.22||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.22|-0.17|.80
82533793|NCT03317379|164765555|SUPERIORITY||estimate of fixed effects|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.32|TWO_SIDED|95.0|-0.1|0.3||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.30|-0.10|.32
82576684|NCT01602510|164863705|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.955|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with Site as covariate|||1.32|0.48|=0.955
82576685|NCT01602510|164863705|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|0.79|||=|0.874|TWO_SIDED|95.0|0.48|1.32|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.32|0.48|=0.874
82576686|NCT01602510|164863706|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.927|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with Treatment Group as covariate|||1.40|0.73|=0.927
82576687|NCT01602510|164863706|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.036|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with Site as covariate|||1.40|0.73|=0.036
82576688|NCT01602510|164863706|SUPERIORITY_OR_OTHER||Adjusted Hazard Ratio|1.02|||=|0.509|TWO_SIDED|95.0|0.73|1.4|||Regression, Cox||p value with CGI-S Baseline Score as covariate|||1.40|0.73|=0.509
82533794|NCT03317379|164765556|SUPERIORITY||estimate of fixed effects|0.14|STANDARD_ERROR_OF_MEAN|0.05||0.01|TWO_SIDED|95.0|0.03|0.24||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.24|0.03|0.01
82533795|NCT03317379|164765556|SUPERIORITY||estimate of fixed effects|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.28|TWO_SIDED|95.0|-0.07|0.23||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.23|-.07|0.28
82533796|NCT03317379|164765557|SUPERIORITY||estimate of fixed effects|0.61|STANDARD_ERROR_OF_MEAN|0.28||0.03|TWO_SIDED|95.0|0.06|1.16||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||1.16|0.06|0.03
82533797|NCT03317379|164765557|SUPERIORITY||estimate of fixed effects|0.68|STANDARD_ERROR_OF_MEAN|0.29||0.02|TWO_SIDED|95.0|0.09|1.27|||Mixed Models Analysis|||||1.27|0.09|0.02
82533798|NCT03317379|164765558|SUPERIORITY||estimate of fixed effects|0.2|STANDARD_ERROR_OF_MEAN|0.11||0.08|TWO_SIDED|95.0|-0.02|0.42||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.42|-0.02|0.08
82533799|NCT03317379|164765558|SUPERIORITY||estimate of fixed effects|0.18|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|95.0|-0.04|0.41||.05 is the a priori threshold for statistical significance.|Mixed Models Analysis|||||0.41|-0.04|0.12
82533800|NCT03317379|164765559|SUPERIORITY||estimate of fixed effects|0.03|STANDARD_ERROR_OF_MEAN|0.22||0.18|TWO_SIDED|95.0|-0.14|0.74||the a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||0.74|-0.14|0.18
82533801|NCT03317379|164765559|SUPERIORITY||estimate of fixed effects|0.16|STANDARD_ERROR_OF_MEAN|0.23||0.5|TWO_SIDED|95.0|-0.3|0.62||the a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||0.62|-0.30|0.50
82533802|NCT00550173|164765560|SUPERIORITY_OR_OTHER|||||||0.003||||||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Overall; Global null hypothesis was rejected at 2-sided 0.2 significance level.||||0.003
82533803|NCT00550173|164765560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.002|TWO_SIDED|95.0|0.4|0.81||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Primary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||0.81|0.40|0.002
82533804|NCT00550173|164765560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.005|TWO_SIDED|95.0|0.39|0.85||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Primary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||0.85|0.39|0.005
82533805|NCT00550173|164765560|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.99||||0.959|TWO_SIDED|95.0|0.7|1.4||If global test across 3 arms is significant at a 2-sided 0.2 level, then conduct 2-sided pairwise tests between combination and each single agent under the global model. Significance is claimed only if both the global and pairwise tests p\<0.05.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||Secondary Analysis; Global null hypothesis was rejected at 2-sided 0.2 significance level.||1.40|0.70|0.959
82533806|NCT00550173|164765561|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||<0.001
82648077|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.31||||0.009|TWO_SIDED|95.0|1.07|1.61||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GU toxicity rates were tabulated and dichotomized as \< grade 2 vs ≥ grade 2. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||1.61|1.07|0.009
82533807|NCT00550173|164765561|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.031|TWO_SIDED|95.0|1.07|4.09|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||4.09|1.07|0.031
82533808|NCT00550173|164765561|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.68|||<|0.001|TWO_SIDED|95.0|3.19|18.48|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||18.48|3.19|<0.001
82533809|NCT00550173|164765561|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.27||||0.004|TWO_SIDED|95.0|0.11|0.66|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.66|0.11|0.004
82533810|NCT00550173|164765562|SUPERIORITY_OR_OTHER|||||||0.194|||||||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.194
82533811|NCT00550173|164765562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.747|TWO_SIDED|95.0|0.69|1.67|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.67|0.69|0.747
82533812|NCT00550173|164765562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.168|TWO_SIDED|95.0|0.49|1.13|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.13|0.49|0.168
82576689|NCT01602510|164863707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||=|0.833|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||||0.5|-0.4|=0.833
82576690|NCT01602510|164863708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||=|0.245|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|=0.245
82576691|NCT01602510|164863709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.155|TWO_SIDED|95.0|-3.0|0.5|||ANCOVA|||||0.5|-3.0|=0.155
82576692|NCT01602510|164863710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||=|0.661|TWO_SIDED|95.0|-1.4|2.2|||ANCOVA|||||2.2|-1.4|= 0.661
82419820|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|0.938|||<|0.001|TWO_SIDED|95.0|0.81|1.07||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 2. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.07|0.81|<0.001
82419821|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.471|||<|0.001|TWO_SIDED|95.0|1.3|1.64||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 4. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.64|1.30|<0.001
82419822|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.827|||<|0.001|TWO_SIDED|95.0|1.64|2.02||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 6. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.02|1.64|<0.001
82648078|NCT00331773|165011538|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.56||||0.22|TWO_SIDED|95.0|0.76|3.18||2-sided|Regression, Logistic||Reference arm = Conventional 3D-CRT|Late GU toxicity rates were tabulated and dichotomized as \< grade 3 vs ≥ grade 3. To evaluate the differences by treatment arm, 2 X 2 subtables were formed and relative risk (RR) estimates with 95% CIs were computed.||3.18|0.76|0.22
82648079|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 6 months||||0.72
82648080|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 6 months||||0.056
82419823|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|2.058|||<|0.001|TWO_SIDED|95.0|1.87|2.25||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 8. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.25|1.87|<0.001
82419824|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.949|||<|0.001|TWO_SIDED|95.0|1.75|2.14||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 10. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.14|1.75|<0.001
82419825|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.9|2.28||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 12. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.28|1.90|<0.001
82419826|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|2.051|||<|0.001|TWO_SIDED|95.0|1.86|2.24||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 14. A Mixed Model of Repeated Measures was applied using the visits up to Week 104. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.24|1.86|<0.001
82419827|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.987|||<|0.001|TWO_SIDED|95.0|1.79|2.19||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 16. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.19|1.79|<0.001
82419828|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.841|||<|0.001|TWO_SIDED|95.0|1.64|2.05||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 18. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.05|1.64|<0.001
82419829|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.824|||<|0.001|TWO_SIDED|95.0|1.61|2.04||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 20. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||2.04|1.61|<0.001
82426100|NCT00560417|164561046|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||p-value is for severe hypoglycemic events overall.|Fisher Exact|||||||0.248
82426101|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.628||95.0||||p-value is for All reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.628
82533813|NCT00550173|164765562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.094|TWO_SIDED|95.0|0.94|2.21|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.21|0.94|0.094
82648081|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 6 months||||0.99
82648082|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 6 months||||0.49
82648083|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 12 months||||0.0037
82419830|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.651|||<|0.001|TWO_SIDED|95.0|1.43|1.87||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 22. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.87|1.43|<0.001
82419831|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.447|||<|0.001|TWO_SIDED|95.0|1.23|1.67||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 24. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.67|1.23|<0.001
82419832|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.561|||<|0.001|TWO_SIDED|95.0|1.34|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 28. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.34|<0.001
82419833|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.587|||<|0.001|TWO_SIDED|95.0|1.37|1.81||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 32. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.37|<0.001
82419834|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.46|1.92||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb Change from BL to week 36. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.92|1.46|<0.001
82419835|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.645|||<|0.001|TWO_SIDED|95.0|1.41|1.88||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 40. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.88|1.41|<0.001
82419836|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.699|||<|0.001|TWO_SIDED|95.0|1.45|1.94||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 44. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.94|1.45|<0.001
82419837|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.446|||<|0.001|TWO_SIDED|95.0|1.2|1.69||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 48. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.69|1.20|<0.001
82419838|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.641|||<|0.001|TWO_SIDED|95.0|1.39|1.89||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 52. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.89|1.39|<0.001
82419839|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.37|1.91||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 56. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit.The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.91|1.37|<0.001
82419840|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.634|||<|0.001|TWO_SIDED|95.0|1.33|1.94||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 60. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.94|1.33|<0.001
82419841|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.404|||<|0.001|TWO_SIDED|95.0|1.08|1.73||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 64. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.73|1.08|<0.001
82419842|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.499|||<|0.001|TWO_SIDED|95.0|1.18|1.82||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change From BL to week 68. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.82|1.18|<0.001
82426102|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||p-value is for All reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.570
82648084|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 12 months||||0.062
82533814|NCT00550173|164765564|SUPERIORITY_OR_OTHER|||||||0.306|||||||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.306
82648085|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 12 months||||0.94
82648086|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 12 months||||0.93
82648087|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 24 months||||0.12
82419843|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.438|||<|0.001|TWO_SIDED|95.0|1.1|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 72. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.10|<0.001
82419844|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.185|||<|0.001|TWO_SIDED|95.0|0.83|1.54||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 76. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.54|0.83|<0.001
82419845|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.443|||<|0.001|TWO_SIDED|95.0|1.11|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 80. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|1.11|<0.001
82419846|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.374|||<|0.001|TWO_SIDED|95.0|0.99|1.75||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 84. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.75|0.99|<0.001
82419847|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.171|||<|0.001|TWO_SIDED|95.0|0.79|1.55||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 88. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.55|0.79|<0.001
82419848|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.382|||<|0.001|TWO_SIDED|95.0|0.98|1.78||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 92. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.78|0.98|<0.001
82533815|NCT00550173|164765564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.127|TWO_SIDED|95.0|0.87|3.18|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||3.18|0.87|0.127
82533816|NCT00550173|164765564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.318|TWO_SIDED|95.0|0.72|2.71|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.71|0.72|0.318
82533817|NCT00550173|164765564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.599|TWO_SIDED|95.0|0.63|2.22|||Regression, Logistic|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||2.22|0.63|0.599
82533818|NCT00550173|164765565|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||||0.013
82533819|NCT00550173|164765565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.007|TWO_SIDED|95.0|0.41|0.87||Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.|Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.87|0.41|0.007
82533820|NCT00550173|164765565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.62|1.38|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||1.38|0.62|0.700
82648088|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 24 months||||0.81
82648089|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 24 months||||0.69
82648090|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 24 months||||0.68
82648091|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||EPIC Bowel Domain at 60 months||||0.071
82533821|NCT00550173|164765565|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.023|TWO_SIDED|95.0|0.44|0.94|||Regression, Cox|Model is adjusted to covariates ECOG PS (0/1 vs.2), histological subtype (adeno vs. non-adeno), race (East Asian and non-East Asian) and gender.||||0.94|0.44|0.023
82533822|NCT00550173|164765566|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Cox|||||||0.040
82533823|NCT00550173|164765566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.241|TWO_SIDED|95.0|0.27|1.38|||Regression, Cox|||||1.38|0.27|0.241
82533824|NCT00550173|164765566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32||||0.011|TWO_SIDED|95.0|0.14|0.78|||Regression, Cox|||||0.78|0.14|0.011
82533825|NCT00550173|164765566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.9||||0.128|TWO_SIDED|95.0|0.83|4.36|||Regression, Cox|||||4.36|0.83|0.128
82648092|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||EPIC Urinary Domain at 60 months||||0.047
82648093|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||EPIC Sexual Domain at 60 months||||0.4
82419849|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.563|||<|0.001|TWO_SIDED|95.0|1.15|1.97||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 96. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.97|1.15|<0.001
82419850|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.448|||<|0.001|TWO_SIDED|95.0|1.06|1.83||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 100. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.83|1.06|<0.001
82419851|NCT01887600|164551187|SUPERIORITY||Least squares mean difference|1.347|||<|0.001|TWO_SIDED|95.0|0.9|1.79||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Hb change from BL to week 104. A Mixed Model of Repeated Measures was applied. The results were based on the estimated difference between the two treatment arms by visit. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.79|0.90|<0.001
82419852|NCT01887600|164551188|SUPERIORITY||Least squares mean difference|1.614|||<|0.001|TWO_SIDED|95.0|1.42|1.81||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Change from baseline to average Hb weeks 28-36. A Mixed Model of Repeated Measures was applied using the visits up to week 36. The results were based on the estimated difference between the two treatment arms overall mean effect during week 28 to 36 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.42|<0.001
82419853|NCT01887600|164551189|SUPERIORITY||Least squares mean difference|1.594|||<|0.001|TWO_SIDED|95.0|1.38|1.81||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||Change from baseline to average Hb weeks 44-52. A Mixed Model of Repeated Measures was applied using the visits up to week 52. The results were based on the estimated difference between the two treatment arms overall mean effect during week 44 to 52 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.81|1.38|<0.001
82419854|NCT01887600|164551190|SUPERIORITY||Least squares mean difference|1.452|||<|0.001|TWO_SIDED|95.0|1.1|1.8||LSM difference p-value is for test of differences.|Mixed Models Analysis|||Change from BL to average Hb weeks 96-104. A Mixed Model of Repeated Measures was applied using the visits up to week 104. The results were based on the estimated difference between the two treatment arms overall mean effect during week 96 to 104 period based on this MMRM model. The model included treatment arm, region, CV history, visits and visit by treatment as categorical variables and baseline Hb and baseline eGFR as continuous variables.||1.80|1.10|<0.001
82419855|NCT01887600|164551194|SUPERIORITY||Hazard Ratio (HR)|0.945|||=|0.643|TWO_SIDED|95.0|0.74|1.2|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.20|0.74|=0.643
82419856|NCT01887600|164551196|SUPERIORITY||Hazard Ratio (HR)|0.139|||<|0.001|TWO_SIDED|95.0|0.08|0.23|||Regression, Cox|||Time to start rescue therapy within first 24 weeks. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.23|0.08|<0.001
82419857|NCT01887600|164551197|SUPERIORITY||Cox Proportional Hazard|0.343|||<|0.001|TWO_SIDED|95.0|0.21|0.55|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.55|0.21|<0.001
82419858|NCT01887600|164551198|SUPERIORITY||Least squares mean difference|-0.045|||=|0.128|TWO_SIDED|95.0|-0.1|0.01|||ANCOVA|||The Analysis of Covariance (ANCOVA) model was applied including treatment as fixed factor, region and history of CV disease as class factors and baseline Hb, baseline eGFR as continuous covariates.||0.01|-0.10|=0.128
82419859|NCT01887600|164551199|SUPERIORITY||Least squares mean difference|-10.429|||=|0.183|TWO_SIDED|95.0|-25.81|4.95|||ANCOVA|||The Analysis of Covariance (ANCOVA) model was applied included treatment arm, region, CV history as categorical variables and baseline Hb and baseline eGFR as continuous variables.||4.95|-25.81|=0.183
82419860|NCT01887600|164551200|SUPERIORITY||Hazard Ratio (HR)|0.101|||<|0.001|TWO_SIDED|95.0|0.06|0.17|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.17|0.06|<0.001
82533826|NCT01875861|164765575|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|1.02|1.38||||||Because of data discontinuity, assumptions for time series analysis did not hold. Repeated measures regression models were developed to compare overall weight monitoring rates at baseline across the implementation phases.||1.38|1.02|
82533827|NCT01875861|164765576|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.03|1.39||||||See comments about time series analysis for primary outcome measure. Repeated measures regression analysis of the likelihood of monitoring for each time period was conducted.||1.39|1.03|
82533828|NCT02325713|164765588|SUPERIORITY_OR_OTHER||Geometric Least square (LS) mean ratio|96.2|||||TWO_SIDED|90.0|83.7|110.6||||||||110.6|83.7|
82533829|NCT02325713|164765588|SUPERIORITY_OR_OTHER||Geometric LS mean ration|18.4|||||TWO_SIDED|90.0|15.3|22.0||||||||22.0|15.3|
82533830|NCT02325713|164765588|SUPERIORITY_OR_OTHER||Geometric LS mean ration|222.7|||||TWO_SIDED|90.0|186.8|265.6||||||||265.6|186.8|
82533831|NCT02325713|164765588|SUPERIORITY_OR_OTHER||Geometric LS mean ration|238.1|||||TWO_SIDED|90.0|198.7|285.3||||||||285.3|198.7|
82533832|NCT02325713|164765588|SUPERIORITY_OR_OTHER||Geometric LS mean ration|82.1|||||TWO_SIDED|90.0|68.5|98.3||||||||98.3|68.5|
82533833|NCT03824535|164765675|SUPERIORITY|||||||0.02||||||The threshold for statistical significance was set at p \< 0.05|Wilcoxon (Mann-Whitney)|||Analysis applies to the row 'Specificity' in the Outcome Measure data table.||||0.02
82533834|NCT03824535|164765676|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was predefined as p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.004
82648094|NCT00331773|165011539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||EPIC Hormonal Domain at 60 months||||0.91
82419861|NCT01887600|164551201|SUPERIORITY||Hazard Ratio (HR)|0.538|||=|0.045|TWO_SIDED|95.0|0.29|0.99|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||0.99|0.29|=0.045
82419862|NCT01887600|164551210|SUPERIORITY||Least squares mean difference|0.374|||=|0.475|TWO_SIDED|95.0|-0.65|1.4||LSM Difference p-value is for test of differences.|Mixed Models Analysis|||The Mixed Model of Repeated Measures included treatment, visit (week 8, week 12 and week 28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline SF-36 PCS, baseline Hb, baseline eGFR as continuous covariates.||1.40|-0.65|=0.475
82419863|NCT01887600|164551211|SUPERIORITY||Least squares mean difference|1.704|||=|0.047|TWO_SIDED|95.0|0.02|3.38||LSM difference p-value is for test of differences|Mixed Models Analysis|||A Mixed Model of Repeated Measures was applied using the visits up to week 28. The model includes treatment, visit (week 8, week 12 and week 28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, baseline eGFR as continuous covariates. Baseline FACT-An Ans is defined as the FACT-An Ans value on day 1.||3.38|0.02|=0.047
82419864|NCT01887600|164551212|SUPERIORITY||Least squares mean difference|2.086|||=|0.225|TWO_SIDED|95.0|-1.29|5.46|||Mixed Models Analysis|||A Mixed Model of Repeated Measures was applied using the visits up to week 28. The results were based on the estimated difference between the two treatment arms overall mean effect during week 12 to 28 period based on this MMRM model.The model includes treatment, visit (week8, week12 and week28), visit by treatment interaction, region and history of CV disease as fixed class factors and baseline FACT-An Total Score, baseline Hb, baseline eGFR as continuous covariates.||5.46|-1.29|=0.225
82419865|NCT01887600|164551223|SUPERIORITY||Hazard Ratio (HR)|0.995|||=|0.973|TWO_SIDED|95.0|0.75|1.32|||Regression, Cox|||Time to doubling of serum Creatinine. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.32|0.75|=0.973
82419866|NCT01887600|164551224|SUPERIORITY||Hazard Ratio (HR)|0.995|||=|0.972|TWO_SIDED|95.0|0.76|1.3|||Regression, Cox|||Time to CKD progression. Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.30|0.76|=0.972
82419867|NCT01887600|164551225|SUPERIORITY||Hazard Ratio (HR)|0.905|||=|0.439|TWO_SIDED|95.0|0.7|1.16|||Regression, Cox|||Hazard ratio was calculated using stratified Cox Proportional Hazards Regression stratifying on CV history and region and adjusting on Hb and eGFR at baseline as continuous covariates.||1.16|0.70|=0.439
82419868|NCT03688139|164551227|SUPERIORITY||difference in slopes|0.23||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
82419869|NCT03688139|164551227|OTHER|This analysis tested whether the course of LPP was associated with the course of BADS over the 9-week treatment period in the Engage group.|Slope|0.03||||0.14|TWO_SIDED||||||Mixed Models Analysis|||||||.14
82419870|NCT03688139|164551228|SUPERIORITY||difference in slopes|-0.06||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||.69
82419871|NCT03688139|164551229|SUPERIORITY||difference in slopes|-0.03||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||.69
82419872|NCT03688139|164551230|SUPERIORITY||difference in slopes|-0.45||||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||.39
82419873|NCT03688139|164551231|OTHER|This analysis tested the hypothesis that change in LPP for each assessment interval would predict severity of anhedonia at the next assessment in Engage but not in Supportive Therapy.|difference in slopes|-0.1||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||.58
82419874|NCT03688139|164551231|OTHER|This analysis tested the hypothesis that change in SHAPS for each assessment interval would predict severity of anhedonia at the next assessment in Engage but not in Supportive Therapy.|difference in slopes|0.0||||0.96|TWO_SIDED||||||Mixed Models Analysis|||||||.96
82419875|NCT00420056|164551235|SUPERIORITY_OR_OTHER|||||||0.4854|TWO_SIDED||||||Regression, Linear|||||||0.4854
82419876|NCT00420056|164551236|SUPERIORITY_OR_OTHER|||||||0.709|TWO_SIDED||||||Regression, Linear|||||||0.7090
82419877|NCT00420056|164551239|SUPERIORITY_OR_OTHER||Kappa|0.0638|||||TWO_SIDED|95.0|-0.0449|0.1726||||||FLT-PET response versus Objective response||0.1726|-0.0449|
82419878|NCT00420056|164551239|SUPERIORITY_OR_OTHER||Kappa|0.1864|||||TWO_SIDED|95.0|-0.2316|0.6045||||||FDG-PET response versus Objective response||0.6045|-0.2316|
82419879|NCT00420056|164551253|SUPERIORITY_OR_OTHER|||||||0.5954|TWO_SIDED||||||Regression, Linear|||Concentration versus Ki-67||||0.5954
82419880|NCT00420056|164551253|SUPERIORITY_OR_OTHER|||||||0.1286|TWO_SIDED||||||Regression, Linear|||Concentration versus Cyclin D1||||0.1286
82419881|NCT00420056|164551253|SUPERIORITY_OR_OTHER|||||||0.0956|TWO_SIDED||||||Regression, Linear|||Concentration versus phospho-Rb||||0.0956
82419882|NCT00420056|164551253|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Regression, Linear|||Concentration versus FLT-PET SUVmax||||0.2800
82419883|NCT00420056|164551253|SUPERIORITY_OR_OTHER|||||||0.4921|TWO_SIDED||||||Regression, Linear|||Concentration versus FDG-PET SUVmax||||0.4921
82419884|NCT02470377|164551260|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.0439||||||Only p-values \<0.05 were considered significant|ANOVA|One way ANOVA, immediate DHI changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.0439
82419885|NCT02470377|164551261|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.0316|||||||ANOVA|One way ANOVA, immediate MBRS changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.0316
82533835|NCT03824535|164765676|SUPERIORITY|||||||0.05||||||The threshold for statistical significance was predefined as p ≤ 0.05.|Wilcoxon (Mann-Whitney)|||||||0.05
82533836|NCT03824535|164765676|SUPERIORITY|||||||0.06||||||The threshold for statistical significance was predefined as p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.06
82533837|NCT01950390|164765688|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.383|ONE_SIDED|90.0||1.23||One-sided|Log Rank|Stratification factors of BRAF mutation status (wild type/mutation) and prior therapy (yes/no) were used in the stratified analysis|One-sided 90% Repeated Confidence Interval for Hazard Ratio with Arm A as Reference|||1.23||0.383
82647270|NCT03070431|165009617|SUPERIORITY|It was assumed that radiotherapy with 5x4 Gy results in 6-month LPFS of 67% and an increase by 20% is clinically relevant when using 5x5 Gy. For comparison of 5x5 Gy and a historical control (5x4 Gy), it was assumed that it can be performed with a simple Pearson-Chi-Square test (2-sided significance level of 5%, power of 79%) if 40 patients treated with 5x5 Gy and 400 patients of the control group qualified for Propensity-Score adjusted comparison, assuming 6-month LPFS rates of 87% and 67%.|Risk Difference (RD)|20.0|||<|0.05|TWO_SIDED||||||Cochran-Mantel-Haenszel|||historical control group treated with 5 x 4 Gy|"In a prospective study, 6-month LPFS rates were 86% after longer-course (mainly 3Gyx10) and 67% after short-course radiotherapy (mainly 4Gyx5) \[Rades D, et al., Int J Radiat Oncol Biol Phys 2009;73:228-34.\]. For sample size calculations, it was assumed that conventional radiotherapy with 4Gyx5 results in 6-month LPFS of 67% and that an increase by 20% is clinically relevant and realistic with 5Gyx5. A sample size of 40 eligible patients was required for the phase 2 trial assuming that that 6-month LPFS would be 87% and estimated with a precision of +/-20% expressed as the half length of the associated two-sided confidence interval (95%), and power of \>=80%.~For comparison of phase 2 cohort and historical control group, it was assumed that this could be performed with a simple Pearson-Chi-Square test using a two-sided significance level of 5% (10%) and a power of 79% (86%) if 40 patients received 5Gyx5 and N=400 of the control group qualified for Propensity-Score adjusted comparison."|||<0.05
82419886|NCT02470377|164551262|SUPERIORITY|The hypothesis was that either Target 1 (Occipital) or Target 2 (Vermis) would be more effective than the control target (Cerebellar hemisphere) but that there may be baseline differences in participants who chose Target 1 vs Target 2.||||||0.1754|||||||ANOVA|One way ANOVA, immediate HADS changes used for calculation.||This was an N-of-1 pilot study in which all participants received one session of each of 3 targets and chose which of the 3 led to the most acute reduction in intensity of rocking. The participants were treated with the target that they chose and then completed post stimulation diaries.||||0.1754
82419887|NCT00498485|164551274|SUPERIORITY_OR_OTHER||||||<|0.04|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis = drug-treated would have a higher global impression of change than placebo treated.||||<0.04
82419888|NCT03378635|164551302|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated inferentially using a pairwise two-sided log rank test. Kaplan-Meier estimate with 95% CI, p-value based on treatment group difference between dasiglucagon and placebo using a two-sided log-rank test stratified by injection site. Treatment groups without censoring utilized a distribution free method to compute the confidence interval for median time.||||<0.001
82419889|NCT03378635|164551303|SUPERIORITY||||||<|0.001||||||p-value was \<0.001 at all time points (10, 15, 20 and 30 minutes)|Fisher Exact|||Pairwise test of independent binomial proportions with Fisher's Exact test comparing dasiglucagon versus placebo. Testing followed an a priori defined hierarchical inferential test order, proceeding until the first failure to reject the null hypothesis comparing dasiglucagon versus placebo.||||<0.001
82419890|NCT03378635|164551304|SUPERIORITY||||||<|0.001||||||The p-value was \<0.001 at all time points (10, 15, 20 and 30 minutes)|ANCOVA|||Plasma glucose (PG) change from baseline at rescue was carried forward in patients who required rescue intravenous (IV) glucose before reaching PG recovery. Change from baseline was analyzed using an ANCOVA, with treatment group as fixed effect and baseline PG as covariate. Group difference was evaluated inferentially following an a priori defined hierarchical test order, proceeding until the first failure to reject the null hypothesis.||||<0.001
82533838|NCT01950390|164765689|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.358|TWO_SIDED|95.0|0.61|1.2||Two-sided|Log Rank|Stratified Log rank test||||1.20|0.61|0.358
82533839|NCT01950390|164765690|SUPERIORITY|||||||0.482||||||Two-sided|Chi-squared|||||||0.482
82533840|NCT01950390|164765692|SUPERIORITY|||||||0.937||||||Two-sided|Chi-squared|||||||0.937
82533841|NCT03280563|164765697|SUPERIORITY||Difference in Overall Response Rates|0.0|||||TWO_SIDED|95.0|-21.14|21.14||||||||21.14|-21.14|
82533842|NCT03280563|164765697|SUPERIORITY||Difference in Overall Response Rates|16.92|||||TWO_SIDED|95.0|-9.03|42.88||||||||42.88|-9.03|
82533843|NCT03280563|164765697|SUPERIORITY||Difference in Overall Response Rates|6.67|||||TWO_SIDED|95.0|-36.76|50.09||||||||50.09|-36.76|
82533844|NCT03280563|164765697|SUPERIORITY||Difference in Overall Response Rates|-3.33|||||TWO_SIDED|95.0|-27.39|20.73||||||||20.73|-27.39|
82533845|NCT03280563|164765697|SUPERIORITY||Difference in Overall Response Rates|16.32|||||TWO_SIDED|95.0|-6.71|39.34||||||||39.34|-6.71|
82533846|NCT03280563|164765698|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.5|1.66||||||||1.66|0.50|
82533847|NCT03280563|164765698|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.35|1.2||||||||1.20|0.35|
82533848|NCT03280563|164765698|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.45|3.48||||||||3.48|0.45|
82419891|NCT03378635|164551305|SUPERIORITY||||||<|0.001|||||||Log Rank|||The treatment group difference between dasiglucagon and placebo was evaluated using a Kaplan-Meier estimate with 95% confidence interval, p-value based on a pairwise two-sided log-rank test versus placebo.||||<0.001
82533849|NCT03280563|164765698|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.74|3.23||||||||3.23|0.74|
82533850|NCT03280563|164765698|SUPERIORITY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.28|0.88||||||||0.88|0.28|
82533851|NCT03280563|164765700|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.36|1.65||||||||1.65|0.36|
82533852|NCT03280563|164765700|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.34|1.58||||||||1.58|0.34|
82533853|NCT03280563|164765700|SUPERIORITY||Hazard Ratio (HR)|2.26|||||TWO_SIDED|95.0|0.55|9.34||||||||9.34|0.55|
82533854|NCT03280563|164765700|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.28|2.01||||||||2.01|0.28|
82533855|NCT03280563|164765700|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.35|1.46||||||||1.46|0.35|
82533856|NCT03280563|164765701|SUPERIORITY||Difference in Event Free Rate|-0.75|||||TWO_SIDED|95.0|-30.98|29.48||||||||29.48|-30.98|
82533857|NCT03280563|164765701|SUPERIORITY||Difference in Event Free Rate|17.7|||||TWO_SIDED|95.0|-10.84|46.23||||||||46.23|-10.84|
82533858|NCT03280563|164765701|SUPERIORITY||Difference in Event Free Rate|11.85|||||TWO_SIDED|95.0|-26.63|50.33||||||||50.33|-26.63|
82647271|NCT00701935|165009627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|4.432||0.8252|TWO_SIDED|95.0|-9.92|7.95||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline abdominal visceral fat.||"The power calculation is based on a two-sided t-test and significance level of 0.05.~Hypotheses for sample size:~Power: 80% Drop-out rate: 20% Difference in the percentage change in abdominal visceral fat from baseline to 6 months between exenatide and placebo: 10% Common standard deviation: 15%~94 patients are needed to attain the 37 patients randomized and analyzed in each group."||7.95|-9.92|0.8252
82647272|NCT00701935|165009628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|3.193||0.5207|TWO_SIDED|95.0|-8.53|4.39||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline total abdominal fat.||||4.39|-8.53|0.5207
82419892|NCT03378635|164551306|SUPERIORITY||Mean Difference (Net)|0.131|||<|0.001|TWO_SIDED|95.0|0.1|0.171|||ANCOVA|||The log-transformed AUC endpoint was analyzed using an analysis of covariance model with treatment as fixed effect and baseline plasma glucose modeled as a covariate. The least squares means treatment group differences were back-transformed (anti-logged) for presentation as a ratio of the treatment group geometric means, with their corresponding 95% confidence interval.||0.171|0.1|<0.001
82419893|NCT03378635|164551307|SUPERIORITY||Mean Difference (Net)|0.91||||0.144|TWO_SIDED|95.0|0.801|1.033|||ANCOVA|||Least square mean ratio for GlucaGen: dasiglucagon||1.033|0.801|0.144
82419894|NCT03378635|164551308|SUPERIORITY||Mean Difference (Net)|0.844||||0.006|TWO_SIDED|95.0|0.749|0.951|||ANCOVA|||Least square mean ratio for GlucaGen: dasiglucagon||0.951|0.749|0.006
82419895|NCT02474901|164551316|EQUIVALENCE|Looked for statistically-significant difference in numbers of adverse events between the two groups, used a p-value of 0.05 as the cutoff value for significance.|||||<|0.05|||||||Chi-squared, Corrected|Groups were compared with Yates-corrected chi-square test or Fisher exact test for binary or categorical variables.||||||<0.05
82419896|NCT02539394|164551325|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.394|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Burden is the same across the 2 arms||||0.394
82419897|NCT02539394|164551325|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.017|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Burden is the same across the 2 arms||||0.017
82419898|NCT02539394|164551325|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.015|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Burden is the same across the 2 arms||||0.015
82419899|NCT02539394|164551325|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.125|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Burden is the same across the 2 arms||||0.125
82419900|NCT02539394|164551326|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.043|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Eating desire is the same across the 2 arms||||0.043
82533859|NCT03280563|164765701|SUPERIORITY||Difference in Event Free Rate|10.49|||||TWO_SIDED|95.0|-16.96|37.95||||||||37.95|-16.96|
82419901|NCT02539394|164551326|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.606|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Eating desire is the same across the 2 arms||||0.606
82419902|NCT02539394|164551326|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.155|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Eating desire is the same across the 2 arms||||0.155
82419903|NCT02539394|164551326|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.019|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Eating desire is the same across the 2 arms||||0.019
82419904|NCT02539394|164551327|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.25|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Eating duration is the same across the 2 arms||||0.250
82419905|NCT02539394|164551327|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.478|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Eating duration is the same across the 2 arms||||0.478
82419906|NCT02539394|164551327|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.019|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Eating duration is the same across the 2 arms||||0.019
82419907|NCT02539394|164551327|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.049|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Eating duration is the same across the 2 arms||||0.049
82533860|NCT03280563|164765702|SUPERIORITY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.15|7.9||||||||7.90|0.15|
82419908|NCT02539394|164551328|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.376|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Food selection is the same across the 2 arms||||0.376
82533861|NCT03280563|164765702|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.15|4.2||||||||4.20|0.15|
82533862|NCT03280563|164765702|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.15|3.84||||||||3.84|0.15|
82533863|NCT04213846|164765712|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.94||||0.34|TWO_SIDED|95.0|0.81|1.07|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.07|0.81|0.34
82576693|NCT01602510|164863711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||=|0.945|TWO_SIDED|95.0|-3.7|3.5|||ANCOVA|||||3.5|-3.7|= 0.945
82576694|NCT01602510|164863712|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|||=|0.047|TWO_SIDED|95.0|-1.66|-0.01|||ANCOVA|||||-0.01|-1.66|=0.047
82533864|NCT04213846|164765712|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|1.09||||0.37|TWO_SIDED|95.0|0.91|1.3|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.30|0.91|0.37
82533865|NCT04213846|164765712|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.02||||0.8|TWO_SIDED|95.0|0.85|1.23|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.23|0.85|0.80
82533866|NCT04213846|164765713|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|1.02||||0.75|TWO_SIDED|95.0|0.88|1.2|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.20|0.88|0.75
82419909|NCT02539394|164551328|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.013|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Food selection is the same across the 2 arms||||0.013
82419910|NCT02539394|164551328|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.049|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Food selection is the same across the 2 arms||||0.049
82419911|NCT02539394|164551328|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.3|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Food selection is the same across the 2 arms||||0.300
82419912|NCT02539394|164551329|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.037|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Communication is the same across the 2 arms||||0.037
82419913|NCT02539394|164551329|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.858|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Communication is the same across the 2 arms||||0.858
82419914|NCT02539394|164551329|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Communication is the same across the 2 arms||||0.042
82419915|NCT02539394|164551329|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.031|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Communication is the same across the 2 arms||||0.031
82419916|NCT02539394|164551330|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.343|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Fear swallow is the same across the 2 arms||||0.343
82533867|NCT04213846|164765713|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|1.04||||0.72|TWO_SIDED|95.0|0.86|1.25|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.25|0.86|0.72
82533868|NCT04213846|164765713|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.01||||0.91|TWO_SIDED|95.0|0.85|1.21|||Generalized linear mixed model|Models controlled for sex, age, college type and used a Poisson error distribution. Peak eBAC multiplied by 100 and rounded up to the nearest integer.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.21|0.85|0.91
82419917|NCT02539394|164551330|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.022|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Fear swallow is the same across the 2 arms||||0.022
82576695|NCT00504777|164863718|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82419918|NCT02539394|164551330|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.018|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Fear swallow is the same across the 2 arms||||0.018
82419919|NCT02539394|164551330|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.008|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Fear swallow is the same across the 2 arms||||0.008
82419920|NCT02539394|164551331|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.28|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Social is the same across the 2 arms||||0.280
82419921|NCT02539394|164551331|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.483|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Social is the same across the 2 arms||||0.483
82419922|NCT02539394|164551331|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.07|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Social is the same across the 2 arms||||0.070
82419923|NCT02539394|164551331|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.2|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Social is the same across the 2 arms||||0.200
82647273|NCT00701935|165009629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.71|STANDARD_ERROR_OF_MEAN|2.687||0.1755|TWO_SIDED|95.0|-9.15|1.73||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline subcutaneous abdominal fat.||||1.73|-9.15|0.1755
82447909|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.63|||||TWO_SIDED|95.0|-19.63|14.35|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||14.35|-19.63|
82447910|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.53|||||TWO_SIDED|95.0|-17.06|18.12|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||18.12|-17.06|
82447911|NCT01393639|164604454|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.89|||||TWO_SIDED|95.0|-23.24|9.46|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||9.46|-23.24|
82447912|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||0.00|0.00|
82533869|NCT04213846|164765714|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.83||||0.04|TWO_SIDED|95.0|0.69|0.99|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||0.99|0.69|0.04
82533870|NCT04213846|164765714|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|0.98||||0.84|TWO_SIDED|95.0|0.77|1.23|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.23|0.77|0.84
82576696|NCT00504777|164863721|SUPERIORITY_OR_OTHER|||||||0.0054|||||||t-test, 2 sided|||||||0.0054
82576697|NCT02278484|164863730|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82647274|NCT00701935|165009630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.155|<|0.0001|TWO_SIDED|95.0|-1.19|-0.57||p-values were not adjusted for multiple comparisons.|ANCOVA|ANCOVA analysis included the following factors: treatment, gender, investigator and baseline HbA1c||||-0.57|-1.19|<0.0001
82647275|NCT00701935|165009632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|0.491||0.0073|TWO_SIDED|95.0|-2.38|-0.4||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline fasting plasma glucose.||||-0.40|-2.38|0.0073
82647276|NCT00701935|165009633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|0.725||0.0035|TWO_SIDED|95.0|-3.66|-0.76||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline body weight.||||-0.76|-3.66|0.0035
82576698|NCT00478192|164863732|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||0.028
82647277|NCT00701935|165009636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.248||0.4145|TWO_SIDED|95.0|-0.71|0.3||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline total cholesterol||||0.30|-0.71|0.4145
82447913|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.34|||||TWO_SIDED|95.0|-1.54|10.24|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||10.24|-1.54|
82447914|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-2.08|6.52|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||6.52|-2.08|
82447915|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.38|||||TWO_SIDED|95.0|-0.6|13.37|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||13.37|-0.60|
82447916|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-2.08|6.52|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||6.52|-2.08|
82447917|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.69|||||TWO_SIDED|95.0|0.55|16.83|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to placebo.||16.83|0.55|
82447918|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||0.00|0.00|
82447919|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.51|||||TWO_SIDED|95.0|0.53|16.48|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||16.48|0.53|
82447920|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|4.96|26.14|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||26.14|4.96|
82447921|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.02|||||TWO_SIDED|95.0|6.27|27.76|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||27.76|6.27|
82447922|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.44|||||TWO_SIDED|95.0|-1.57|10.46|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||10.46|-1.57|
82447923|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.21|||||TWO_SIDED|95.0|4.83|25.59|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to placebo.||25.59|4.83|
82447924|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-9.62|5.18|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||5.18|-9.62|
82447925|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.32|||||TWO_SIDED|95.0|-2.96|19.6|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||19.60|-2.96|
82447926|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|8.88|||||TWO_SIDED|95.0|-2.72|20.5|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||20.50|-2.72|
82447927|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|12.57|||||TWO_SIDED|95.0|0.26|24.89|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||24.89|0.26|
82447928|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|2.22|||||TWO_SIDED|95.0|-7.23|11.67|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||11.67|-7.23|
82447929|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|17.29|||||TWO_SIDED|95.0|3.94|30.64|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to placebo.||30.64|3.94|
82533871|NCT04213846|164765714|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|0.9||||0.34|TWO_SIDED|95.0|0.73|1.22|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.22|0.73|0.34
82533872|NCT04213846|164765715|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 1-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 1-Month Follow-Up.|Count/Rate Ratio|0.98||||0.78|TWO_SIDED|95.0|0.82|1.16|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 1-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.16|0.82|0.78
82533873|NCT04213846|164765715|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 6-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 6-Month Follow-Up.|Count/Rate Ratio|0.9||||0.27|TWO_SIDED|95.0|0.75|1.08|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 6-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.08|0.75|0.27
82533874|NCT04213846|164765715|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=408 with a Condition × 12-Month Follow-Up interaction. Assessment-only control was the reference category for Condition, and Baseline was the reference category for 12-Month Follow-Up.|Count/Rate Ratio|1.01||||0.95|TWO_SIDED|95.0|0.84|1.2|||Generalized linear mixed model|Models controlled for sex, age, and college type (2-year vs. 4-year) and used a Poisson error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.20|0.84|0.95
82533875|NCT04213846|164765716|SUPERIORITY|Generalized linear model was estimated using a sample of N=346.|Count/Rate Ratio|0.98||||0.69|TWO_SIDED|95.0|0.89|1.08|||Generalized linear mixed model|Model controlled for sex, age, and college type (2-year vs. 4-year) and used a negative binomial error distribution.||Changes from Baseline to 12-Month Follow-Up for intervention versus assessment-only control reported in this section.||1.08|0.89|0.69
82533876|NCT00802841|164765727|SUPERIORITY_OR_OTHER|||||||0.3106|TWO_SIDED||||||Fisher Exact|||||||0.3106
82576699|NCT00478192|164863732|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||0.019
82447930|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.22|||||TWO_SIDED|95.0|-14.6|10.16|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||10.16|-14.60|
82576700|NCT00478192|164863732|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Values are not adjusted on the basis of multiple comparrisons|ANCOVA|||"Statistical Analysis applies to Change from Baseline."||||<0.001
82576701|NCT00478192|164863737|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||ANCOVA|||||||0.079
82447931|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|5.91|||||TWO_SIDED|95.0|-8.22|20.04|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||20.04|-8.22|
82447932|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|15.55|||||TWO_SIDED|95.0|-0.29|31.4|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||31.40|-0.29|
82447933|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|10.16|||||TWO_SIDED|95.0|-4.7|25.03|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||25.03|-4.70|
82447934|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.44|||||TWO_SIDED|95.0|-16.16|7.27|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||7.27|-16.16|
82447935|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|14.97|||||TWO_SIDED|95.0|-0.68|30.63|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to placebo.||30.63|-0.68|
82447936|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||10.30|-10.30|
82447937|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|6.09|||||TWO_SIDED|95.0|-5.9|18.1|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||18.10|-5.90|
82447938|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-10.3|10.3|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||10.30|-10.30|
82419924|NCT02539394|164551332|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.148|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Mental is the same across the 2 arms||||0.148
82419925|NCT02539394|164551332|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Mental is the same across the 2 arms||||0.040
82419926|NCT02539394|164551332|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Mental is the same across the 2 arms||||0.042
82419927|NCT02539394|164551332|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.319|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Mental is the same across the 2 arms||||0.319
82419928|NCT02539394|164551333|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.161|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Sleep is the same across the 2 arms||||0.161
82419929|NCT02539394|164551333|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.763|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Sleep is the same across the 2 arms||||0.763
82419930|NCT02539394|164551333|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.178|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Sleep is the same across the 2 arms||||0.178
82419931|NCT02539394|164551333|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.091|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Sleep is the same across the 2 arms||||0.091
82419932|NCT02539394|164551334|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.602|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative SWAL-QOL - Fatigue is the same across the 2 arms||||0.602
82419933|NCT02539394|164551334|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.302|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 SWAL-QOL - Fatigue is the same across the 2 arms||||0.302
82419934|NCT02539394|164551334|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.114|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 SWAL-QOL - Fatigue is the same across the 2 arms||||0.114
82419935|NCT02539394|164551334|EQUIVALENCE|43 patient in each group need to achieved \>80% power to detect a 15 point differences in SWAL-QOL survey||||||0.005|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks SWAL-QOL - Fatigue is the same across the 2 arms||||0.005
82419936|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.933|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative Eat-10 is the same across the 2 arms||||0.933
82419937|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.95|||||||Wilcoxon (Mann-Whitney)|||The distribution of Pre-operative modified Eat-10 is the same across the 2 arms||||0.950
82419938|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.059|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 Eat-10 is the same across the 2 arms||||0.059
82419939|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.042|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD1 modified Eat-10 is the same across the 2 arms||||0.042
82419940|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.032|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 Eat-10 is the same across the 2 arms||||0.032
82419941|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.014|||||||Wilcoxon (Mann-Whitney)|||The distribution of POD2 modified Eat-10 is the same across the 2 arms||||0.014
82419942|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.03|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks Eat-10 is the same across the 2 arms||||0.030
82419943|NCT02539394|164551335|EQUIVALENCE|Two-sided 95% confidence interval||||||0.039|||||||Wilcoxon (Mann-Whitney)|||The distribution of 4-6 weeks modified Eat-10 is the same across the 2 arms||||0.039
82419944|NCT02539394|164551336|EQUIVALENCE|Two-sided||||||0.121|||||||Chi-squared|||Proportion of Pre-operative Bazaz Liquid is the same between the 2 arms||||0.121
82419945|NCT02539394|164551336|EQUIVALENCE|Two-sided||||||0.006|||||||Chi-squared|||Proportion of POD1 Bazaz Liquid is the same between the 2 arms||||0.006
82419946|NCT02539394|164551336|EQUIVALENCE|Two-sided||||||0.329|||||||Chi-squared|||Proportion of POD2 Bazaz Liquid is the same between the 2 arms||||0.329
82419947|NCT02539394|164551336|EQUIVALENCE|Two-sided||||||0.687|||||||Chi-squared|||Proportion of 4-6 weeks Bazaz Liquid is the same between the 2 arms||||0.687
82419948|NCT02539394|164551337|EQUIVALENCE|Two-sided||||||0.066|||||||Chi-squared|||Proportion of Pre-operative Bazaz Solid is the same between the 2 arms||||0.066
82419949|NCT02539394|164551337|EQUIVALENCE|Two-sided||||||0.252|||||||Chi-squared|||Proportion of POD1 Bazaz Solid is the same between the 2 arms||||0.252
82419950|NCT02539394|164551337|EQUIVALENCE|Two-sided||||||0.1|||||||Chi-squared|||Proportion of POD2 Bazaz Solid is the same between the 2 arms||||0.100
82419951|NCT02539394|164551337|EQUIVALENCE|Two-sided||||||0.279|||||||Chi-squared|||Proportion of 4-6 weeks Bazaz Solid is the same between the 2 arms||||0.279
82419952|NCT02539394|164551338|EQUIVALENCE|Two-sided 95% confidence interval||||||0.145|||||||t-test, 2 sided|||The means Pre-operative NDI for the two populations is equal||||0.145
82419953|NCT02539394|164551338|EQUIVALENCE|Two-sided 95% confidence interval||||||0.234|||||||t-test, 2 sided|||The means 4-6 weeks NDI for the two populations is equal||||0.234
82419954|NCT02539394|164551343|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82419955|NCT02301793|164551355|OTHER||Odds Ratio (OR)|1.0||||0.05|TWO_SIDED|95.0||||The reported p-values were calculated by reiterating the multiple outputation procedure 1000 times, we estimated the odds ratios (ORs) and their 95% confidence intervals conditional on the floor and nurse.|Regression, Logistic|||The hypothesis comparing the different educational arms was evaluated using an intention-to-treat approach (i.e. all nurses were included regardless of training completion) accounting for clustering in the data and comparing rates of VTE prophylaxis dose non-administration at baseline and during the Post-Education period. Two per-protocol sensitivity analyses were performed. They compared the Baseline vs. Post-Education periods for nurses who received training and nurses who completed training.||||0.05
82447939|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.84|||||TWO_SIDED|95.0|-8.96|12.64|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||12.64|-8.96|
82419956|NCT02301793|164551359|OTHER||Odds Ratio (OR)|1.0||||0.05|TWO_SIDED|95.0||||The reported p-values were calculated by reiterating the multiple outputation procedure 1000 times, we estimated the odds ratios (ORs) and their 95% confidence intervals conditional on the floor and nurse.|Regression, Logistic|||The hypothesis comparing the different educational arms was evaluated using an intention-to-treat approach (i.e. all nurses were included regardless of training completion) accounting for clustering in the data and comparing rates of VTE prophylaxis dose non-administration at baseline and during the Post-Education period. Two per-protocol sensitivity analyses were performed. They compared the Baseline vs. Post-Education periods for nurses who received training and nurses who completed training.||||0.05
82419957|NCT01316900|164551360|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.142|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.142|0.039|<0.001
82419958|NCT01316900|164551360|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.141||nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Tio 18 µg.|||0.141|0.039|<0.001
82419959|NCT01316900|164551360|SUPERIORITY_OR_OTHER||Least squares mean difference|0.088|||<|0.001|TWO_SIDED|95.0|0.036|0.14|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.140|0.036|<0.001
82419960|NCT01316900|164551360|SUPERIORITY_OR_OTHER||Least squares mean difference|0.088|||<|0.001|TWO_SIDED|95.0|0.036|0.14|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus TIO 18 µg.|||0.140|0.036|<0.001
82419961|NCT00562861|164551363|SUPERIORITY_OR_OTHER||F value|1.88||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
82419962|NCT03708770|164551369|OTHER|No power calculation was performed for this study.||||||||||||||||"This was not a hypothesis-driven study. Therefore, there were no primary effectiveness or safety endpoints.~The Secondary Patency endpoint was calculated using a Kaplan-Meier analysis."|The Secondary Patency rate was determined via Kaplan-Meier methods.|||
82447940|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.44|||||TWO_SIDED|95.0|-7.27|16.16|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||16.16|-7.27|
82419963|NCT03708770|164551370|OTHER|No power calculation was performed for this study.||||||||||||||||"This was not a hypothesis-driven study. Therefore, there were no primary effectiveness or safety endpoints.~The Primary Patency endpoint was calculated using a Kaplan-Meier analysis."|The primary patency rate was determined via Kaplan-Meier methods.|||
82419964|NCT00289900|164551374|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-13.2|||<|0.001|TWO_SIDED|95.0|-16.8|-9.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-9.6|-16.8|<0.001
82419965|NCT00289900|164551374|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.8|||<|0.001|TWO_SIDED|95.0|-13.8|-7.8|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-7.8|-13.8|<0.001
82419966|NCT00289900|164551374|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.1|||<|0.001|TWO_SIDED|95.0|-8.1|-2.1|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.1|-8.1|<0.001
82419967|NCT00289900|164551374|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-4.2||||0.007|TWO_SIDED|95.0|-7.2|-1.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-1.2|-7.2|0.007
82419968|NCT00289900|164551375|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|19.9|||<|0.001|TWO_SIDED|95.0|17.2|22.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||22.6|17.2|<0.001
82447941|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|4.2|||||TWO_SIDED|95.0|-7.37|15.77|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to placebo.||15.77|-7.37|
82447942|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.69|||||TWO_SIDED|95.0|-16.83|-0.55|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||-0.55|-16.83|
82419969|NCT00289900|164551375|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|21.3|||<|0.001|TWO_SIDED|95.0|19.0|23.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||23.6|19.0|<0.001
82419970|NCT00289900|164551375|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|22.1|||<|0.001|TWO_SIDED|95.0|19.8|24.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||24.4|19.8|<0.001
82419971|NCT00289900|164551375|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|23.0|||<|0.001|TWO_SIDED|95.0|20.7|25.3|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||25.3|20.7|<0.001
82419972|NCT00289900|164551376|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-17.3|||<|0.001|TWO_SIDED|95.0|-21.2|-13.3|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free confidence interval (CI) based on Wilcoxon's rank sum test|||-13.3|-21.2|<0.001
82447943|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.34|||||TWO_SIDED|95.0|-14.39|5.7|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||5.70|-14.39|
82447944|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.47|||||TWO_SIDED|95.0|-15.68|2.73|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||2.73|-15.68|
82447945|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.31|||||TWO_SIDED|95.0|-13.04|8.41|||||Non-responder imputation was used to handle dropouts.|Week 2 analysis presented in this section for comparison to prednisone 10 mg.||8.41|-13.04|
82447946|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-15.21|||||TWO_SIDED|95.0|-25.59|-4.83|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||-4.83|-25.59|
82447947|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-6.7|||||TWO_SIDED|95.0|-19.79|6.38|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||6.38|-19.79|
82447948|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.33|||||TWO_SIDED|95.0|-14.49|15.16|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||15.16|-14.49|
82419973|NCT00289900|164551376|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-19.1|-11.9|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-11.9|-19.1|<0.001
82419974|NCT00289900|164551376|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-13.7|-7.0|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-7.0|-13.7|<0.001
82447949|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.8|||||TWO_SIDED|95.0|-13.13|16.74|||||Non-responder imputation was used to handle dropouts.|Week 4 analysis presented in this section for comparison to prednisone 10 mg.||16.74|-13.13|
82447950|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-19.51|||||TWO_SIDED|95.0|-32.19|-6.84|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||-6.84|-32.19|
82447951|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.97|||||TWO_SIDED|95.0|-24.24|6.29|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||6.29|-24.24|
82447952|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-8.4|||||TWO_SIDED|95.0|-23.92|7.1|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||7.10|-23.92|
82447953|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.71|||||TWO_SIDED|95.0|-20.76|11.32|||||Non-responder imputation was used to handle dropouts.|Week 6 analysis presented in this section for comparison to prednisone 10 mg.||11.32|-20.76|
82419975|NCT00289900|164551376|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.8|||<|0.001|TWO_SIDED|95.0|-10.2|-3.4|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-3.4|-10.2|<0.001
82419976|NCT00289900|164551377|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.1|||<|0.001|TWO_SIDED|95.0|-12.1|-6.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-6.0|-12.1|<0.001
82447954|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-17.19|||||TWO_SIDED|95.0|-32.36|-2.02|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||-2.02|-32.36|
82447955|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-9.06|||||TWO_SIDED|95.0|-25.69|7.56|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||7.56|-25.69|
82447956|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|0.57|||||TWO_SIDED|95.0|-17.53|18.68|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||18.68|-17.53|
82447957|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.81|||||TWO_SIDED|95.0|-22.07|12.45|||||Non-responder imputation was used to handle dropouts.|Week 8 analysis presented in this section for comparison to prednisone 10 mg.||12.45|-22.07|
82447958|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-15.77|7.37|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||7.37|-15.77|
82447959|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|1.89|||||TWO_SIDED|95.0|-11.21|15.0|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||15.00|-11.21|
82447960|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-15.77|7.37|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||7.37|-15.77|
82447961|NCT01393639|164604455|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentage|-2.35|||||TWO_SIDED|95.0|-14.38|9.66|||||Non-responder imputation was used to handle dropouts.|Week 12 analysis presented in this section for comparison to prednisone 10 mg.||9.66|-14.38|
82447962|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.13|||||TWO_SIDED|95.0|-4.19|-0.07||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.07|-4.19|
82419977|NCT00289900|164551377|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.4|||<|0.001|TWO_SIDED|95.0|-8.0|-2.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.9|-8.0|<0.001
82533877|NCT05310084|164765826|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate-administration group) was greater than 0.67.|GMR|0.83|||||TWO_SIDED|95.0|0.77|0.89|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of concentrations (coadmin group-separate admin group), corresponding CIs based on analysis of log transformed assay results using a linear regression model.|||0.89|0.77|
82419978|NCT00289900|164551377|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.4||||0.771|TWO_SIDED|95.0|-2.2|2.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||2.9|-2.2|0.771
82419979|NCT00289900|164551377|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|2.4||||0.065|TWO_SIDED|95.0|-0.2|5.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||5.0|-0.2|0.065
82419980|NCT00289900|164551378|SUPERIORITY_OR_OTHER||Difference in least Squares Mean|-6.8|||<|0.001|TWO_SIDED|95.0|-10.2|-3.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-3.5|-10.2|<0.001
82419981|NCT00289900|164551378|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.0||||0.037|TWO_SIDED|95.0|-5.8|-0.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-0.2|-5.8|0.037
82419982|NCT00289900|164551378|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|2.8||||0.047|TWO_SIDED|95.0|0.0|5.6|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||5.6|0.0|0.047
82419983|NCT00289900|164551378|SUPERIORITY_OR_OTHER||Difference in Least Sqaures Mean|4.7|||<|0.001|TWO_SIDED|95.0|2.0|7.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||7.5|2.0|<0.001
82419984|NCT00289900|164551379|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-9.2|||<|0.001|TWO_SIDED|95.0|-12.1|-6.3|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-6.3|-12.1|<0.001
82419985|NCT00289900|164551379|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.2|||<|0.001|TWO_SIDED|95.0|-7.7|-2.8|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-2.8|-7.7|<0.001
82419986|NCT00289900|164551379|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.9||||0.476|TWO_SIDED|95.0|-3.3|1.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||1.5|-3.3|0.476
82419987|NCT00289900|164551379|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.2||||0.845|TWO_SIDED|95.0|-2.2|2.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||2.7|-2.2|0.845
82647278|NCT00701935|165009637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.279||0.4007|TWO_SIDED|95.0|-0.8|0.33||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline triglycerides||||0.33|-0.80|0.4007
82647279|NCT00701935|165009638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.048||0.7915|TWO_SIDED|95.0|-0.08|0.11||p-values were not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model includes terms of treatment, gender, investigator and baseline HDL cholesterol||||0.11|-0.08|0.7915
82419988|NCT00289900|164551380|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|9.0|||<|0.001|TWO_SIDED|95.0|6.6|11.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||11.4|6.6|<0.001
82533878|NCT05310084|164765827|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67|Geometric Mean Ratio|0.89|||||TWO_SIDED|95.0|0.77|1.04|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|B/Austria||1.04|0.77|
82419989|NCT00289900|164551380|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|7.7|||<|0.001|TWO_SIDED|95.0|5.8|9.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||9.7|5.8|<0.001
82419990|NCT00289900|164551380|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|9.0|||<|0.001|TWO_SIDED|95.0|7.0|10.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||10.9|7.0|<0.001
82419991|NCT00289900|164551380|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|10.7|||<|0.001|TWO_SIDED|95.0|8.7|12.7|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||12.7|8.7|<0.001
82419992|NCT00289900|164551381|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-3.6||||0.003|TWO_SIDED|95.0|-6.0|-1.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-1.2|-6.0|0.003
82419993|NCT00289900|164551381|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.5||||0.595|TWO_SIDED|95.0|-2.5|1.5|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||1.5|-2.5|0.595
82419994|NCT00289900|164551381|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|4.2|||<|0.001|TWO_SIDED|95.0|2.2|6.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||6.2|2.2|<0.001
82419995|NCT00289900|164551381|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|6.1|||<|0.001|TWO_SIDED|95.0|4.1|8.1|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||8.1|4.1|<0.001
82576702|NCT00477490|164863740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9303|TWO_SIDED|95.0|-0.221|0.242||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||0.242|-0.221|0.9303
82419996|NCT00289900|164551382|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-18.8|||<|0.001|TWO_SIDED|95.0|-24.2|-14.2|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-14.2|-24.2|<0.001
82647280|NCT00701935|165009639|SUPERIORITY_OR_OTHER||Ratio|3.28|STANDARD_ERROR_OF_MEAN|2.63||0.1388|TWO_SIDED|95.0|0.68|15.77||p-values were not adjusted for multiple comparisons.|Regression, Linear|Generalized linear model was used with the assumption of an underlying Poisson distribution and the logarithm of exposure (years) as offset variable.||Event rate per subject year was calculated for each subject : (number of events observed from a subject/exposure from a subject)\*365.25 where exposure = last post-baseline visit date - baseline visit date.||15.77|0.68|0.1388
82647281|NCT01783483|165009645|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Comparison of mean CT scan scores.||||<0.0001
82419997|NCT00289900|164551382|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-20.5|||<|0.001|TWO_SIDED|95.0|-25.0|-16.6|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-16.6|-25.0|<0.001
82419998|NCT00289900|164551382|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.9|||<|0.001|TWO_SIDED|95.0|-27.8|-19.4|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-19.4|-27.8|<0.001
82419999|NCT00289900|164551382|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-24.6|||<|0.001|TWO_SIDED|95.0|-28.6|-20.0|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||-20.0|-28.6|<0.001
82420000|NCT00289900|164551383|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8||||0.5|TWO_SIDED|95.0|-9.6|7.5|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||7.5|-9.6|0.500
82420001|NCT00289900|164551383|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|6.9||||0.083|TWO_SIDED|95.0|0.0|13.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||13.8|0.0|0.083
82420002|NCT00289900|164551383|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|11.9||||0.005|TWO_SIDED|95.0|5.2|18.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||18.8|5.2|0.005
82420003|NCT00289900|164551383|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.4|||<|0.001|TWO_SIDED|95.0|9.8|22.8|||Non-parametric ANOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate|Hodges-Lehmann estimate of the difference between treatments with a corresponding distribution-free CI based on Wilcoxon's rank sum test|||22.8|9.8|<0.001
82420004|NCT00289900|164551384|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-12.8|||<|0.001|TWO_SIDED|95.0|-15.6|-9.9|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-9.9|-15.6|<0.001
82420005|NCT00289900|164551384|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-10.8|||<|0.001|TWO_SIDED|95.0|-13.2|-8.4|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-8.4|-13.2|<0.001
82420006|NCT00289900|164551384|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6.4||||0.001|TWO_SIDED|95.0|-8.8|-4.0|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-4.0|-8.8|0.001
82420007|NCT00289900|164551384|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-5.6|||<|0.001|TWO_SIDED|95.0|-8.0|-3.2|||ANCOVA|Model with factors for baseline LDL-C and triglyceride stratum, gender, cohort of participants, treatment group and baseline parameter covariate||||-3.2|-8.0|<0.001
82647282|NCT01783483|165009646|SUPERIORITY_OR_OTHER|||||||0.0007|||||||t-test, 2 sided|||||||0.0007
82647283|NCT01783483|165009647|SUPERIORITY_OR_OTHER|||||||0.0539|||||||t-test, 2 sided|||At Rest||||0.0539
82420008|NCT00289900|164551385|SUPERIORITY_OR_OTHER||Difference in Proportion|-1.4||||0.008|TWO_SIDED|95.0|-2.3|-0.5|||Miettinen and Nurminen|||||-0.5|-2.3|0.008
82420009|NCT00289900|164551386|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.7||||0.042|TWO_SIDED|95.0|-1.4|0.0|||Miettinen and Nurminen|||||-0.0|-1.4|0.042
82420010|NCT00289900|164551387|SUPERIORITY_OR_OTHER||Difference in Proportion|-0.1||||0.346|TWO_SIDED|95.0|-0.5|0.4|||Miettinen and Nurminen|||||0.4|-0.5|0.346
82420011|NCT00289900|164551388|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.556|TWO_SIDED|95.0|-0.2|0.7|||Miettinen and Nurminen|||||0.7|-0.2|0.556
82420012|NCT00289900|164551389|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.134|TWO_SIDED|95.0|-0.1|0.8|||Miettinen and Nurminen|||||0.8|-0.1|0.134
82420013|NCT00289900|164551390|SUPERIORITY_OR_OTHER||Difference in Proportion|0.1||||0.134||95.0|-0.1|0.8|||Miettinen and Nurminen|||||0.8|-0.1|0.134
82420014|NCT00289900|164551391|SUPERIORITY_OR_OTHER||Difference in Percentage|0.1||||0.5625|TWO_SIDED|95.0|-0.3|0.9|||Miettinen and Nurminen|||||0.9|-0.3|0.5625
82420015|NCT00289900|164551392|SUPERIORITY_OR_OTHER||Difference in Percentage|0.7||||0.0233|TWO_SIDED|95.0|0.1|1.7|||Miettinen and Nurminen|||||1.7|0.1|0.0233
82420016|NCT00289900|164551393|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1||||0.7858|TWO_SIDED|95.0|-0.4|0.6|||Miettinen and Nurminen|||||0.6|-0.4|0.7858
82647284|NCT01783483|165009647|SUPERIORITY_OR_OTHER|||||||0.0015|||||||t-test, 2 sided|||After Forced Coughing||||0.0015
82647285|NCT01783483|165009648|SUPERIORITY_OR_OTHER|||||||0.2125|||||||t-test, 2 sided|||At Rest||||0.2125
82420017|NCT00289900|164551394|SUPERIORITY_OR_OTHER||Difference in Percentage|13.7|||||TWO_SIDED|95.0|9.4|18.0|||Miettinen and Nurminen|||||18.0|9.4|
82647286|NCT01783483|165009648|SUPERIORITY_OR_OTHER|||||||0.0014|||||||t-test, 2 sided|||After Forced Coughing||||0.0014
82647287|NCT01783483|165009649|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 2 sided|||At Rest||||0.0049
82533879|NCT05310084|164765827|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|B/Phuket||1.13|0.89|
82533880|NCT05310084|164765827|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|H1N1 A/Victoria||1.09|0.83|
82420018|NCT00289900|164551395|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.7|||||TWO_SIDED|95.0|-2.6|1.4|||Miettinen and Nurminen|||||1.4|-2.6|
82420019|NCT00289900|164551396|SUPERIORITY_OR_OTHER||Difference in Percentage|11.7|||||TWO_SIDED|95.0|8.9|14.7|||Miettinen and Nurminen|||||14.7|8.9|
82420020|NCT00289900|164551397|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1|||||TWO_SIDED|95.0|-0.8|0.9|||Miettinen and Nurminen|||||0.9|-0.8|
82420021|NCT00289900|164551398|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.1||||0.4997|TWO_SIDED|95.0|-0.4|0.5|||Miettinen and Nurminen|||||0.5|-0.4|0.4997
82420022|NCT02656173|164551407|SUPERIORITY||least square mean difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.82|-0.21|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis, including treatment group and region as fixed factors and baseline as a covariate.||-0.21|-0.82|<0.001
82420023|NCT02656173|164551408|SUPERIORITY||least square mean difference|-0.48|||<|0.001|TWO_SIDED|95.0|-0.78|-0.17|||mixed model repeated measure|||Mixed Model Repeated Measure (MMRM) was used for analysis, which included the baseline as a covariate, treatment group, analysis visits and region as a fixed effect, subject as random effect and including interaction of \[treatment group x visit\] for FAS.||-0.17|-0.78|<0.001
82420024|NCT02656173|164551409|SUPERIORITY||least square mean difference|-0.28||||0.112|TWO_SIDED|95.0|-0.63|0.07|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.07|-0.63|0.112
82533881|NCT05310084|164765827|NON_INFERIORITY|Noninferiority was declared for an influenza strain if the lower bound of the 2-sided 95% CI for the GMR (coadministration group to separate administration group) was greater than 0.67.|GMR|0.96|||||TWO_SIDED|95.0|0.85|1.09|||||GMRs and 95% CIs were calculated by exponentiating LSmeans difference of logarithms of titers (coadministration group-separate administration group), corresponding CIs based on analysis of log transformed assay results using a linear regression model|H3N2 A/Darwin||1.09|0.85|
82533882|NCT02107274|164765869|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"Sputum volume were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533883|NCT02107274|164765869|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered significant.|t-test, 1 sided|||"Sputum volume were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533884|NCT02107274|164765870|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"SGRQ scores were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533885|NCT02107274|164765870|SUPERIORITY_OR_OTHER||||||<|0.01||||||p valu of less than 0.05 was considered significant.|t-test, 1 sided|||"SGRQ scores were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables"||||<0.01
82647288|NCT01783483|165009649|SUPERIORITY_OR_OTHER|||||||0.0183|||||||t-test, 2 sided|||After Forced Coughing||||0.0183
82647289|NCT01783483|165009650|SUPERIORITY_OR_OTHER|||||||0.6653|||||||t-test, 2 sided|||At Rest||||0.6653
82420025|NCT02656173|164551410|SUPERIORITY||Cochran-Mantel-Haenszel Statistics|1.75||||0.186|||||||Stratified Rank Analysis of Covariance|||Stratified Rank Analysis of Covariance (RANCOVA), including the rank score for change from Baseline to End of Treatment stratified by region as the dependent variable, treatment group and region as fixed factors and the rank score for baseline stratified by region as a covariate for FAS.||||0.186
82420026|NCT02656173|164551411|SUPERIORITY||Cochran-Mantel-Haenszel Statistics|0.09||||0.76|||||||Stratified Rank Analysis of Covariance|||Stratified Rank Analysis of Covariance (RANCOVA), including the rank score for change from Baseline to End of Treatment stratified by region as the dependent variable, treatment group and region as fixed factors and the rank score for baseline stratified by region as a covariate for FAS.||||0.760
82420027|NCT02656173|164551412|SUPERIORITY||Least square mean difference|-0.03||||0.646|TWO_SIDED|95.0|-0.18|0.11|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.11|-0.18|0.646
82420028|NCT02656173|164551413|SUPERIORITY||Least square mean difference|12.08|||<|0.001|TWO_SIDED|95.0|6.33|17.84|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||17.84|6.33|<0.001
82420029|NCT02656173|164551414|SUPERIORITY||Least square mean difference|-0.65||||0.001|TWO_SIDED|95.0|-1.04|-0.26|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.26|-1.04|0.001
82420030|NCT02656173|164551415|SUPERIORITY||Least square mean difference|-0.11||||0.006|TWO_SIDED|95.0|-0.19|-0.03|||ANCOVA|||Subscale: Daytime Frequency. Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.03|-0.19|0.006
82420031|NCT02656173|164551415|SUPERIORITY||Least square mean difference|-0.08||||0.174|TWO_SIDED|95.0|-0.19|0.03|||ANCOVA|||Subscale: Nighttime Frequency. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.03|-0.19|0.174
82420032|NCT02656173|164551415|SUPERIORITY||Least square mean difference|-0.26||||0.037|TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||Subscale: Urgency. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.02|-0.50|0.037
82420033|NCT02656173|164551415|SUPERIORITY||Least square mean difference|-0.18||||0.014|TWO_SIDED|95.0|-0.32|-0.04|||ANCOVA|||Subscale: Urgency Incontinence. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.04|-0.32|0.014
82533886|NCT02107274|164765871|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"FEV1 values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533887|NCT02107274|164765871|SUPERIORITY_OR_OTHER||||||<|0.01||||||p value of less than 0.05 was considered significant|t-test, 1 sided|||"FEV1 values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533888|NCT02107274|164765872|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value of less than 0.05 was considered as significant.|t-test, 1 sided|||"FVC values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82647290|NCT01783483|165009650|SUPERIORITY_OR_OTHER|||||||0.2295|||||||t-test, 2 sided|||After Forced Coughing||||0.2295
82420034|NCT02656173|164551416|SUPERIORITY||Least square mean difference|-1.19||||0.002|TWO_SIDED|95.0|-1.94|-0.44|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.44|-1.94|0.002
82420035|NCT02656173|164551417|SUPERIORITY||Least square mean difference|-0.78|||<|0.001|TWO_SIDED|95.0|-1.13|-0.43|||ANCOVA|||Subscale: Storage Subscale. Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.43|-1.13|<0.001
82420036|NCT02656173|164551417|SUPERIORITY||Least square mean difference|-0.3||||0.167|TWO_SIDED|95.0|-0.72|0.13|||ANCOVA|||Subscale: Voiding Subscale-1. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.13|-0.72|0.167
82420037|NCT02656173|164551417|SUPERIORITY||Least square mean difference|-0.42||||0.103|TWO_SIDED|95.0|-0.93|0.09|||ANCOVA|||Subscale: Voiding Subscale-2. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||0.09|-0.93|0.103
82420038|NCT02656173|164551417|SUPERIORITY||Least square mean difference|-0.29||||0.009|TWO_SIDED|95.0|-0.51|-0.07|||ANCOVA|||Subscale: Quality of Life (QoL) Item. ANCOVA was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-0.07|-0.51|0.009
82420039|NCT02656173|164551418|SUPERIORITY||Least square mean difference|-4.52|||<|0.001|TWO_SIDED|95.0|-6.91|-2.13|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||-2.13|-6.91|<0.001
82420040|NCT02656173|164551419|SUPERIORITY||Least square mean difference|2.79|||<|0.001|TWO_SIDED|95.0|1.13|4.44|||ANCOVA|||Analysis of Covariance (ANCOVA) was used for analysis including treatment group and region as fixed factors and baseline as a covariate.||4.44|1.13|<0.001
82420041|NCT03449147|164551423|SUPERIORITY||Estimated Relative Reduction (%)|-1.14||||0.875|TWO_SIDED|95.0|-14.27|14.02||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||14.02|-14.27|0.875
82533889|NCT02107274|164765872|SUPERIORITY_OR_OTHER||||||<|0.01||||||p value of less than 0.05 was considered significant.|t-test, 1 sided|||"FVC values were compared between Visit 6 (Week 12) and Visit 3 (Baseline), Visit 8 (Week 24) and Visit 3 (Baseline), as well for Visit 8 (Week 24) and Visit 6 (Week 12).~Independent t-test was applied for study end points which were numerical variables."||||<0.01
82533890|NCT04730947|164765905|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||||||0.027
82647291|NCT01783483|165009652|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||Index (Day 0 to Hospital Discharge)||||0.370
82420042|NCT03449147|164551423|SUPERIORITY||Estimated Relative Reduction (%)|-14.64||||0.031|TWO_SIDED|95.0|-26.07|-1.43||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||ERR relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||-1.43|-26.07|0.031
82420043|NCT03449147|164551426|SUPERIORITY||Estimated Relative Reduction (%)|-3.03||||0.677|TWO_SIDED|95.0|-16.14|12.12||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||Estimated relative reduction (ERR) relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||12.12|-16.14|0.677
82426103|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.116||95.0||||p-value is for Non-Nocturnal reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.116
82533891|NCT04730947|164765906|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||0.029
82647292|NCT01783483|165009653|SUPERIORITY_OR_OTHER|||||||0.778|||||||t-test, 2 sided|||From Hospital Discharge to 3-week||||0.778
82647293|NCT01783483|165009654|SUPERIORITY_OR_OTHER|||||||0.055|||||||t-test, 2 sided|||From 3-week to 6-week post-op||||0.055
82647294|NCT01783483|165009656|SUPERIORITY_OR_OTHER|||||||0.113|||||||t-test, 2 sided|||From 3 month to 6-month post op||||0.113
82533892|NCT04730947|164765907|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82420044|NCT03449147|164551426|SUPERIORITY||Estimated Relative Reduction (%)|-15.79||||0.022|TWO_SIDED|95.0|-27.27|-2.5||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, region, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA|||ERR relative to Placebo (i.e. estimated percent change difference) was calculated by 100 (e\*\*DIFF -1), where e = exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.||-2.50|-27.27|0.022
82420045|NCT03449147|164551427|SUPERIORITY||Odds Ratio (OR)|1.34||||0.077|TWO_SIDED|95.0|0.97|1.85||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||1.85|0.97|0.077
82420046|NCT03449147|164551427|SUPERIORITY||Odds Ratio (OR)|1.41||||0.04|TWO_SIDED|95.0|1.02|1.96||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||1.96|1.02|0.040
82420047|NCT03449147|164551428|SUPERIORITY||Odds Ratio (OR)|1.03||||0.872|TWO_SIDED|95.0|0.75|1.4||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour as covariates.|Regression, Logistic|||||1.40|0.75|0.872
82420048|NCT03449147|164551428|SUPERIORITY||Odds Ratio (OR)|1.33||||0.082|TWO_SIDED|95.0|0.96|1.83||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour as covariates.|Regression, Logistic|||||1.83|0.96|0.082
82420049|NCT03449147|164551429|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.96|1.83||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||1.83|0.96|
82420050|NCT03449147|164551429|OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.08|2.09||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.09|1.08|
82420051|NCT03449147|164551430|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.93|1.69||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||1.69|0.93|
82420052|NCT03449147|164551430|OTHER||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.31|2.39||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.39|1.31|
82420053|NCT03449147|164551431|OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|1.14|2.05||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.||2.05|1.14|
82533893|NCT04730947|164765908|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||0.12
82533894|NCT04730947|164765909|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82533895|NCT04730947|164765910|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
82533896|NCT04730947|164765911|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
82533897|NCT04730947|164765912|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
82420054|NCT03449147|164551431|OTHER||Odds Ratio (OR)|1.65||||||95.0|1.23|2.22||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, region, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.||2.22|1.23|
82420055|NCT00530257|164551474|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||We used a Bonferroni correct to adjust for up to 5 measures across domains and use a p-value of \<=0.01. With a sample of 30 subjects the analytic model was able to detect a difference of large effect size (Cohen's d= \>0.655)|Wilcoxon (Mann-Whitney)|||We evaluated the data for cross over effects. No statistical significant sequence effect were seen for our endpoints and hence we combined the data from both periods of the crossover design There was evidence against the assumption of normality for performance on some of the measures of attention. Thus we used the non-parametric Wilcoxon Signed Ranks Test to compare performance on OROS-methylphenidate versus placebo.||||<0.01
82420056|NCT00530257|164551475|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch Walk, Don't Walk||||<0.01
82426104|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||p-value is for Non-Nocturnal reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.044
82533898|NCT04730947|164765913|SUPERIORITY|||||||0.136|||||||t-test, 2 sided|||||||0.136
82533899|NCT03527277|164765914|SUPERIORITY||Mean Difference (Net)|-0.3||||0.88|TWO_SIDED|95.0|-4.0|3.5|||ANCOVA|Effect of group on change of outcome with adjustment for BMI, Outcome at baseline and gender||||3.5|-4.0|0.88
82533900|NCT03527277|164765915|SUPERIORITY||Mean Difference (Net)|-0.7||||0.65|TWO_SIDED|95.0|-3.7|2.3|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||2.3|-3.7|0.65
82533901|NCT03527277|164765916|SUPERIORITY||Mean Difference (Net)|-0.2||||0.92|TWO_SIDED|95.0|-3.7|3.4|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||3.4|-3.7|0.92
82533902|NCT03527277|164765917|SUPERIORITY||Mean Difference (Net)|-0.4||||0.81|TWO_SIDED|95.0|-3.3|2.6|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||2.6|-3.3|0.81
82533903|NCT03527277|164765918|SUPERIORITY||Mean Difference (Net)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.49|||ANCOVA|Effect of group with adjustment for gender and BMI and outcome at baseline.||||-0.49|-1.34|<0.0001
82647295|NCT02065791|165009657|SUPERIORITY||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|95.0|0.59|0.82|||Cox Proportional Hazard|||Comparison for canagliflozin versus placebo is reported here.||0.82|0.59|< 0.0001
82420057|NCT00530257|164551476|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||This p value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||We evaluated the data for cross over effects. No statistical significant sequence effect were seen for our endpoints and hence we combined the data from both periods of the crossover design There was evidence against the assumption of normality for performance on some of the measures of attention. Thus we used the non-parametric Wilcoxon Signed Ranks Test to compare performance on OROS-methylphenidate versus placebo.||||<0.05
82420058|NCT00530257|164551478|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||We did not correct for multiple comparisons|t-test, 2 sided|We used a paired t-test||A paired t-test was used to compare the medication versus placebo.||||<0.05
82420059|NCT00530257|164551480|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk.|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
82420060|NCT00530257|164551481|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The p value adjusts for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||<0.01
82420061|NCT00530257|164551482|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
82420062|NCT00530257|164551483|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
82420063|NCT00530257|164551484|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
82420064|NCT00530257|164551485|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||Same as described for TEA-Ch: Walk, Don't Walk|Wilcoxon (Mann-Whitney)|||Same as described for TEA-Ch: Walk, Don't Walk||||<0.01
82420065|NCT06844812|164551498|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|paired t-test||||||<0.001
82420066|NCT06844812|164551499|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|paired t-test||||||0.021
82533904|NCT03527277|164765919|SUPERIORITY||Mean Difference (Net)|-3.4|||<|0.0001|TWO_SIDED|95.0|-4.7|-2.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||-2.1|-4.7|<0.0001
82420067|NCT06844812|164551500|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|paired t-test||||||0.003
82420068|NCT06844812|164551501|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82420069|NCT06844812|164551502|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82420070|NCT02410200|164551505|SUPERIORITY_OR_OTHER|||||||0.009|||||||Wilcoxon Signed Rank test|||||||0.0090
82420071|NCT01500135|164551534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62|STANDARD_ERROR_OF_MEAN|0.72||0.276|TWO_SIDED|95.0|0.68|3.88||Logistic regression model with treatment, type of surgery (Peripheral Arterial Disease, Arterio Venous Graft) and current use of Clopidogrel or other similar anti-platelet drugs (yes/no) as covariates.|Regression, Logistic|||||3.88|0.68|0.276
82533905|NCT03527277|164765920|SUPERIORITY||Mean Difference (Net)|-0.21||||0.42|TWO_SIDED|95.0|-0.74|0.31|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.31|-0.74|0.42
82420072|NCT01500135|164551535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.33||0.684|TWO_SIDED|95.0|0.4|1.82||Logistic regression model with treatment, type of surgery (Peripheral Arterial Disease, Arterio Venous Graft) and current use of Clopidogrel or other similar anti-platelet drugs (yes/no) as covariates.|Regression, Logistic|||||1.82|0.40|0.684
82420073|NCT01500135|164551536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|STANDARD_ERROR_OF_MEAN|0.24||0.684|TWO_SIDED|95.0|0.7|1.8||P-value was adjusted using Hochberg's adjustment for multiplicity.|Proportional Hazard Model|||||1.8|0.7|0.684
82420074|NCT01879826|164551549|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With a power of 0.8 and an acceptable type I error size of 0.05, 38 patients per group was estimated to achieve significance||||||0.044|||||||t-test, 2 sided|||||||0.044
82420075|NCT01879826|164551550|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With a power of 0.8 and an acceptable type I error size of 0.05, 38 patients per group was estimated to achieve significance.||||||0.04|||||||t-test, 2 sided|||||||0.04
82420076|NCT03992872|164551551|SUPERIORITY|The significance of the difference between groups in seroconversion rates was assessed using a Fisher's exact test. The percentage who seroconverted in each group was presented along with its 95% CI calculated using the Wilson method. The Newcombe method was use to estimate the 95% confidence interval for the difference between groups in the percentage of subjects who seroconverted.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-11.4|11.4|||Fisher Exact|||||11.4|-11.4|1
82420077|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.2|||||TWO_SIDED|95.0||||P- value = NE (Not estimable due to lack of response; all baseline values in this group were \<LOD and imputed as LOD/2, or 7.5)||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\]~NE = Not estimable due to lack of response."|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
82420078|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|3.11||||0.0019|TWO_SIDED|95.0|1.55|6.23|||ANOVA|P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 8: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||6.23|1.55|0.0019
82420079|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.88||||0.6223|TWO_SIDED|95.0|0.54|1.46|||ANOVA|P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.46|0.54|0.6223
82420080|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.88||||0.6444|TWO_SIDED|95.0|0.5|1.55||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.55|0.50|0.6444
82420081|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.89||||0.6198|TWO_SIDED|95.0|0.57|1.41||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 57: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.41|0.57|0.6198
82420082|NCT03992872|164551552|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|0.89||||0.6451|TWO_SIDED|95.0|0.55|1.45||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 182: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||1.45|0.55|0.6451
82420083|NCT03992872|164551553|SUPERIORITY|||||||0.0211|||||||Fisher Exact|"Day 8~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||0.0211
82420084|NCT03992872|164551553|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
82420085|NCT03992872|164551553|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 57.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
82420086|NCT03992872|164551553|SUPERIORITY|||||||0.1124|||||||Fisher Exact|"Day 182.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||0.1124
82420087|NCT03992872|164551554|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 1 : Subjects with Titer \>=40"||||>0.9999
82420088|NCT03992872|164551554|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 1: Subjects with Titer \>=160"||||>0.9999
82420089|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 1: Subjects with Titer \>=640"||||1.0000
82533906|NCT03527277|164765921|SUPERIORITY||Mean Difference (Net)|0.27||||0.28|TWO_SIDED|95.0|-0.23|0.76|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.76|-0.23|0.28
82647296|NCT02065791|165009658|SUPERIORITY||Hazard Ratio (HR)|0.69|||=|0.0001|TWO_SIDED|95.0|0.57|0.83|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||0.83|0.57|=0.0001
82420090|NCT03992872|164551554|SUPERIORITY|||||||0.0257|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 8 : Subjects with Titer \>=40"||||0.0257
82533907|NCT03527277|164765922|SUPERIORITY||Mean Difference (Net)|-9.1||||0.59|TWO_SIDED|95.0|-42.9|24.7|||ANCOVA|Effect of group on change of outcome with adjustment of gender and BMI and outcome at baseline.||||24.7|-42.9|0.59
82533908|NCT03527277|164765923|SUPERIORITY||Mean Difference (Net)|-0.07||||0.35|TWO_SIDED|95.0|-0.21|0.08|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome at baseline.||||0.08|-0.21|0.35
82533909|NCT03527277|164765924|SUPERIORITY||Mean Difference (Net)|-0.01||||0.97|TWO_SIDED|95.0|-0.61|0.59|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||||0.59|-0.61|0.97
82647297|NCT02065791|165009659|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.0121|TWO_SIDED|95.0|0.67|0.95|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||0.95|0.67|=0.0121
82420091|NCT03992872|164551554|SUPERIORITY|||||||0.037|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 8: Subjects with Titer \>=160"||||0.0370
82420092|NCT03992872|164551554|SUPERIORITY|||||||0.1806|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 8: Subjects with Titer \>=640"||||0.1806
82420093|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 22: Subjects with Titer \>=40"||||1.0000
82420094|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 22: Subjects with Titer \>=160"||||1.0000
82420095|NCT03992872|164551554|SUPERIORITY|||||||0.0797|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point~Day 22: Subjects with Titer \>=640"||||0.0797
82420096|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>=40"||||1.0000
82420097|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>=160"||||1.0000
82420098|NCT03992872|164551554|SUPERIORITY|||||||0.1284|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>= 640"||||0.1284
82420099|NCT03992872|164551554|SUPERIORITY|||||||1|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer \>= 40"||||1.0000
82420100|NCT03992872|164551554|SUPERIORITY|||||||0.6411|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer\>=160"||||0.6411
82420101|NCT03992872|164551554|SUPERIORITY|||||||0.5382|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 57: Subject with Titer\>=640"||||0.5382
82420102|NCT03992872|164551554|SUPERIORITY|||||||0.4915|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 40"||||0.4915
82647298|NCT02065791|165009660|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.0003|TWO_SIDED|95.0|0.47|0.8|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.80|0.47|=0.0003
82420103|NCT03992872|164551554|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 160"||||>0.9999
82420104|NCT03992872|164551554|SUPERIORITY|||||||0.552|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-Chikungunya neutralizing activity at or above selected thresholds by time point.~Day 182: Subject with Titer \>= 640"||||0.5520
82533910|NCT03527277|164765925|SUPERIORITY||Mean Difference (Net)|-13.9||||0.002|TWO_SIDED|95.0|-22.4|-5.4|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||Effect of group on change of outcome with adjustment for BMI, outcome at baseline and gender.||-5.4|-22.4|0.002
82533911|NCT03527277|164765926|SUPERIORITY||Mean Difference (Net)|-7.9||||0.11|TWO_SIDED|95.0|-17.6|1.8|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||1.8|-17.6|0.11
82647299|NCT02065791|165009661|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.53|0.81|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.81|0.53|<0.0001
82647300|NCT02065791|165009662|SUPERIORITY||Hazard Ratio (HR)|0.78|||=|0.0502|TWO_SIDED|95.0|0.61|1.0|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||1.00|0.61|=0.0502
82647301|NCT02065791|165009663|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.0727|TWO_SIDED|95.0|0.68|1.02|||Cox proportional hazard|||Comparison for canagliflozin versus placebo is reported here.||1.02|0.68|= 0.0727
82647302|NCT02065791|165009664|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0001|TWO_SIDED|95.0|0.63|0.86|||Cox proportional hazards|||Comparison for canagliflozin versus placebo is reported here.||0.86|0.63|0.0001
82647303|NCT00363129|165009735|SUPERIORITY_OR_OTHER|||||||0.43|||||||Chi-squared|||||||0.43
82420105|NCT03992872|164551555|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.51||||0.0277|TWO_SIDED|95.0|1.05|2.19||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.19|1.05|0.0277
82420106|NCT03992872|164551555|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.83||||0.0088|TWO_SIDED|95.0|1.17|2.86||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.86|1.17|0.0088
82420107|NCT03992872|164551555|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|1.68||||0.0475|TWO_SIDED|95.0|1.01|2.82||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||2.82|1.01|0.0475
82420108|NCT03992872|164551556|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.00
82420109|NCT03992872|164551556|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.00
82420110|NCT03992872|164551557|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|45.17|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE~NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\]~NE = Not estimable due to lack of response."|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
82420111|NCT03992872|164551557|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|47.34|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\] NE = Not estimable due to lack of response."|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
82420112|NCT03992872|164551557|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|55.74|||||TWO_SIDED|||||"P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.~P-value = NE NE = Not estimable due to lack of response."|||"Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.~95% CI \[NE,NE\] NE = Not estimable due to lack of response."|Day 29: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||||
82420113|NCT03992872|164551559|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
82420114|NCT03992872|164551559|SUPERIORITY|||||||1|||||||Fisher Exact|"Day 29.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||1.0000
82420115|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 40"||||<0.0001
82420116|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 160"||||<0.0001
82447963|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.6|||||TWO_SIDED|95.0|-5.63|-1.57||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.57|-5.63|
82447964|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.02|||||TWO_SIDED|95.0|-5.06|-0.97||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.97|-5.06|
82447965|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-5.73|-1.68||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-5.73|
82447966|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.93|||||TWO_SIDED|95.0|-3.97|0.12||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.12|-3.97|
82447967|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.43|||||TWO_SIDED|95.0|-5.46|-1.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.39|-5.46|
82447968|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.81|||||TWO_SIDED|95.0|-4.03|0.42||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-4.03|
82447969|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.83|||||TWO_SIDED|95.0|-5.04|-0.62||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.62|-5.04|
82447970|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85|||||TWO_SIDED|95.0|-5.07|-0.64||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.64|-5.07|
82447971|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.77|||||TWO_SIDED|95.0|-4.98|-0.56||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.56|-4.98|
82447972|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.63|||||TWO_SIDED|95.0|-3.85|0.59||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.59|-3.85|
82447973|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.27|||||TWO_SIDED|95.0|-5.48|-1.06||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.06|-5.48|
82533912|NCT03527277|164765927|SUPERIORITY||Mean Difference (Net)|23340.0||||0.0032|TWO_SIDED|95.0|8284.0|38396.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||38396|8284|0.0032
82447974|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.23|||||TWO_SIDED|95.0|-4.66|0.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.20|-4.66|
82447975|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|95.0|-6.62|-1.77||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.77|-6.62|
82447976|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.73|||||TWO_SIDED|95.0|-6.15|-1.31||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.31|-6.15|
82447977|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|||||TWO_SIDED|95.0|-6.09|-1.26||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.26|-6.09|
82447978|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.27|||||TWO_SIDED|95.0|-4.69|0.16||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-4.69|
82533913|NCT03527277|164765928|SUPERIORITY||Mean Difference (Net)|5558.0||||0.0003|TWO_SIDED|95.0|2680.0|8437.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||8437|2680|0.0003
82533914|NCT03527277|164765929|SUPERIORITY||Mean Difference (Net)|3824.0||||0.0012|TWO_SIDED|95.0|1611.0|6036.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline||||6036|1611|0.0012
82533915|NCT03527277|164765930|SUPERIORITY||Mean Difference (Net)|19522.0||||0.0023|TWO_SIDED|95.0|7353.0|31691.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||31691|7353|0.0023
82647304|NCT00363129|165009736|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||0.49
82647305|NCT00363129|165009737|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82420117|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 1: Subject with Titer \>= 640"||||<0.0001
82420118|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>= 40"||||<0.0001
82447979|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.11|||||TWO_SIDED|95.0|-6.52|-1.7||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.70|-6.52|
82447980|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-5.34|-0.25||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.25|-5.34|
82447981|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.38|||||TWO_SIDED|95.0|-6.93|-1.83||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.83|-6.93|
82533916|NCT03527277|164765931|SUPERIORITY||Mean Difference (Net)|21881.0||||0.0001|TWO_SIDED|95.0|11307.0|32455.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||32455|11307|0.0001
82533917|NCT03527277|164765932|SUPERIORITY||Mean Difference (Net)|9666.0||||0.0002|TWO_SIDED|95.0|4808.0|14524.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||14524|4808|0.0002
82647306|NCT02278952|165009754|OTHER|Generalized estimating equation-adjusted linear models||||||0.33|||||||GEE-adjusted models|||||||0.33
82533918|NCT03527277|164765933|SUPERIORITY||Mean Difference (Net)|3413.0||||0.0011|TWO_SIDED|95.0|1456.0|5370.0|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||5370|1456|0.0011
82533919|NCT03527277|164765934|SUPERIORITY||Mean Difference (Net)|11.5||||0.59|TWO_SIDED|95.0|-32.0|55.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||55.1|-32.0|0.59
82533920|NCT03527277|164765935|SUPERIORITY||Mean Difference (Net)|74.6||||0.046|TWO_SIDED|95.0|1.3|147.9|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||147.9|1.3|0.046
82533921|NCT03527277|164765936|SUPERIORITY||Mean Difference (Net)|0.3||||0.56|TWO_SIDED|95.0|-0.7|1.3|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome and BMI at baseline.||Effect of group on change in outcome with adjustment for BMI, Outcome at baseline and gender.||1.3|-0.7|0.56
82533922|NCT03527277|164765937|SUPERIORITY||Mean Difference (Net)|-0.8||||0.17|TWO_SIDED|95.0|-1.94|0.35|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||0.35|-1.94|0.17
82533923|NCT03527277|164765938|SUPERIORITY||Mean Difference (Net)|0.54||||0.65|TWO_SIDED|95.0|-1.9|3.0|||ANCOVA|Effect of group on change of outcome with adjustment for gender and BMI and outcome at baseline.||||3.0|-1.9|0.65
82647307|NCT02278952|165009755|OTHER|Generalized estimating equation-adjusted linear model|||||<|0.0001|||||||GEE-adjusted linear model|||||||< 0.0001
82533924|NCT03527277|164765939|SUPERIORITY||Mean Difference (Net)|0.04||||0.88|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|Effect of group on change with adjustment for gender and outcome at baseline.||||0.6|-0.5|0.88
82533925|NCT03527277|164765940|SUPERIORITY||Mean Difference (Net)|0.6||||0.81|TWO_SIDED|95.0|-4.4|5.7|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||5.7|-4.4|0.81
82647308|NCT02278952|165009756|OTHER|Generalized estimating equation-adjusted linear models||||||0.049|||||||GEE-adjusted linear models|||||||0.049
82420119|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>= 160"||||<0.0001
82420120|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 22: Subject with Titer \>=640"||||<0.0001
82533926|NCT03527277|164765941|SUPERIORITY||Mean Difference (Net)|-0.7||||0.69|TWO_SIDED|95.0|-4.4|2.9|||ANCOVA|Effect of group on change with adjustment for gender and BMI and outcome at baseline.||||2.9|-4.4|0.69
82533927|NCT03527277|164765942|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|Effect of group on change of outcome with adjustment for gender and outcome at baseline.||||0.1|-1.0|0.10
82533928|NCT03527277|164765943|SUPERIORITY||Mean Difference (Net)|-0.4||||0.55|TWO_SIDED|95.0|-2.1|1.2|||ANCOVA|Effect of group on change of Outcome with adjustment for outcome at baseline.||||1.2|-2.1|0.55
82533929|NCT00354029|164765947|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
82647309|NCT02278952|165009757|OTHER|Generalized estimating equation-adjusted linear models||||||0.114|||||||GEE-adjusted linear models|||||||0.114
82647310|NCT02278952|165009758|OTHER|Generalized estimating equation-adjusted linear models||||||0.47|||||||GEE-adjusted linear models|||P-value of tacrolimus dose||||0.470
82647311|NCT02278952|165009758|OTHER|Generalized estimating equation-adjusted linear models||||||0.037|||||||GEE-adjusted linear models|||P-value of Prednisone dose||||0.037
82647312|NCT02278952|165009758|OTHER|Generalized-estimating equation-adjusted linear models||||||0.456|||||||GEE-adjusted linear models|||P-value of mycophenolate mofetil dose||||0.456
82420121|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29: Subject with Titer \>= 40"||||<0.0001
82447982|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2|||||TWO_SIDED|95.0|-7.74|-2.66||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.66|-7.74|
82647313|NCT04542330|165009773|SUPERIORITY||||||<|0.05|||||||Andersen-Gill Cox|||Acute infection was analysed as recurrent events using an Andersen-Gill Cox proportional hazards regression model with time since inclusion as underlying time scale. The analysis was done for the composite outcome and for all subcomponents separately, presenting Hazard Ratios (HR) with 95% Confidence Intervals (CI) for each. For all recurrent outcomes, a wash-out period of 14 days was used to define new events.||||< 0.05
82647314|NCT04542330|165009774|SUPERIORITY||||||<|0.05|||||||Regression, Cox|||Verified SARS-CoV-2 infection (first event) and all-cause hospitalisation (first event) was analysed using standard Cox proportional hazards models, but otherwise as described for primary outcome.||||< 0.05
82420122|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29: Subjects with Titer \>= 160"||||<0.0001
82420123|NCT03992872|164551560|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"Null hypothesis for analysis of percentage of subjects with Anti-VEEV PRNT neutralizing activity at or above selected thresholds by time point.~Day 29 : Subjects with Titer \>=640"||||<0.0001
82420124|NCT03992872|164551561|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|23.12|||<|0.0001|TWO_SIDED|95.0|11.54|46.35||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 1: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||46.35|11.54|<0.0001
82420125|NCT03992872|164551561|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|172.51|||<|0.0001|TWO_SIDED|95.0|106.6|279.19||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 22: Geometric mean ratio (prior alpha group over naïve alpha group) and 95% confidence interval||279.19|106.60|<0.0001
82420126|NCT03992872|164551561|SUPERIORITY||GMR (Prior Alpha / Naïve Alpha)|118.45|||<|0.0001|TWO_SIDED|95.0|61.76|227.16||P-values were based on an ANOVA model with log10-transformed titer as the dependent variable and study arm, age, and gender as predictors.|ANOVA||Differences in least squares means from the ANOVA model were back-transformed and reported as geometric mean ratios with 95% confidence intervals.|Day 29: Geometric mean ratio (prior alpha group over naive alpha group) and 95% confidence interval||227.16|61.76|<0.0001
82420127|NCT03992872|164551562|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|"Day 22.~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||<0.0001
82420128|NCT03992872|164551562|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|"Day 29~Note: A subject has a 4-fold rise at a visit if they achieve a titer at that visit that is at least 4-fold higher than their Day 1 titer."||||||<0.0001
82420129|NCT00889005|164551565|SUPERIORITY_OR_OTHER|||||||0.927|||||||ANOVA|||||||0.927
82420130|NCT03704922|164551570|OTHER|||||||0.051|||||||Fisher Exact|||||||0.051
82420131|NCT04019704|164551614|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82420132|NCT01725282|164551719|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-3.1|3.6|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||3.6|-3.1|
82420133|NCT01725282|164551719|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-4.0|2.8|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||2.8|-4.0|
82420134|NCT01725282|164551719|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-2.1|4.6|||||An analysis of covariance model with the baseline as a covariate and treatment group as a fixed effect.|||4.6|-2.1|
82420135|NCT05524948|164551752|OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.206|<|0.0001|TWO_SIDED|95.0|-1.71|-0.9|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-0.90|-1.71|<0.0001
82420136|NCT05524948|164551753|OTHER||Adjusted Mean Difference|-569.64|STANDARD_ERROR_OF_MEAN|97.479|<|0.0001|TWO_SIDED|95.0|-763.11|-376.17|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-376.17|-763.11|<0.0001
82420137|NCT05524948|164551754|OTHER||Adjusted Mean Difference|-418.86|STANDARD_ERROR_OF_MEAN|64.848|<|0.0001|TWO_SIDED|95.0|-547.56|-290.15|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-290.15|-547.56|<0.0001
82420138|NCT05524948|164551754|OTHER||Adjusted Mean Difference|-108.9|STANDARD_ERROR_OF_MEAN|32.626||0.0012|TWO_SIDED|95.0|-173.66|-44.15|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-44.15|-173.66|0.0012
82420139|NCT05524948|164551754|OTHER||Adjusted Mean Difference|-26.17|STANDARD_ERROR_OF_MEAN|22.909||0.2561|TWO_SIDED|95.0|-71.64|19.29|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||19.29|-71.64|0.2561
82420140|NCT05524948|164551755|OTHER||Adjusted Mean Difference|-721.58|STANDARD_ERROR_OF_MEAN|94.584|<|0.0001|TWO_SIDED|95.0|-909.31|-533.86|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-533.86|-909.31|<0.0001
82420141|NCT05524948|164551756|OTHER||Adjusted Mean Difference|-567.89|STANDARD_ERROR_OF_MEAN|68.09|<|0.0001|TWO_SIDED|95.0|-703.03|-432.75|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-432.75|-703.03|<0.0001
82533930|NCT01782326|164766012|NON_INFERIORITY_OR_EQUIVALENCE|Study was designed to have \>95% power to rule out a 1.15-fold increase in the rate exacerbations for QVA149 vs. salmeterol/fluticasone.|Rate Ratio|0.89|||||TWO_SIDED|95.0|0.83|0.96|||Generalized linear model||If the upper limit of the confidence interval was \<1.15 then non-inferiority of QVA149 compared to SFC could be claimed|||0.96|0.83|
82647315|NCT04542330|165009775|SUPERIORITY||||||<|0.05|||||||Andersen-Gill Cox|||The secondary outcome, self-reported respiratory symptoms, was analysed the same way as the primary outcome (recurrent events).||||< 0.05
82420142|NCT05524948|164551756|OTHER||Adjusted Mean Difference|-105.39|STANDARD_ERROR_OF_MEAN|24.57|<|0.0001|TWO_SIDED|95.0|-154.15|-56.62|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-56.62|-154.15|<0.0001
82647316|NCT04542330|165009776|SUPERIORITY||||||<|0.05|||||||Regression, Cox|||Verified SARS-CoV-2 infection (first event) and all-cause hospitalisation (first event) was analysed using standard Cox proportional hazards models, but otherwise as described for the primary outcome.||||< 0.05
82647317|NCT02176642|165009780|NON_INFERIORITY|We estimated that women in the placebo group would have mean reduction of 3 UUI episodes per day. Assuming 50% improvement in UUI episodes per day is a clinically significant improvement, we estimated the experimental group would have a mean reduction of 4.5 UUI episodes per day with a SD of 1.5 UUI episodes per day. To detect such a difference with 80% power and alpha 0.05, we would need 88 participants for our analysis. To allow for a 12% dropout rate, our goal was to enroll 100 women.||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82647318|NCT02176642|165009781|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82420143|NCT05524948|164551756|OTHER||Adjusted Mean Difference|-38.04|STANDARD_ERROR_OF_MEAN|26.201||0.1498|TWO_SIDED|95.0|-90.04|13.97|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||13.97|-90.04|0.1498
82420144|NCT05524948|164551757|OTHER||Adjusted Mean Difference|-2.17|STANDARD_ERROR_OF_MEAN|0.204|<|0.0001|TWO_SIDED|95.0|-2.58|-1.77|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-1.77|-2.58|<0.0001
82420145|NCT05524948|164551758|OTHER||Adjusted Mean Difference|-396.96|STANDARD_ERROR_OF_MEAN|95.541|<|0.0001|TWO_SIDED|95.0|-586.51|-207.41|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-207.41|-586.51|<0.0001
82420146|NCT05524948|164551759|OTHER||Adjusted Mean Difference|-341.37|STANDARD_ERROR_OF_MEAN|72.446|<|0.0001|TWO_SIDED|95.0|-485.1|-197.64|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-197.64|-485.10|<0.0001
82420147|NCT05524948|164551759|OTHER||Adjusted Mean Difference|-74.15|STANDARD_ERROR_OF_MEAN|20.905||0.0006|TWO_SIDED|95.0|-115.62|-32.68|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||-32.68|-115.62|0.0006
82420148|NCT05524948|164551759|OTHER||Adjusted Mean Difference|27.98|STANDARD_ERROR_OF_MEAN|25.942||0.2834|TWO_SIDED|95.0|-23.49|79.45|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||79.45|-23.49|0.2834
82420149|NCT05524948|164551760|OTHER||Adjusted Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.138|<|0.0001|TWO_SIDED|95.0|-1.83|-1.28|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as the experimental dentifrice minus the reference dentifrice.|||-1.28|-1.83|<0.0001
82420150|NCT05524948|164551761|OTHER||Adjusted Mean Difference|-322.75|STANDARD_ERROR_OF_MEAN|67.778|<|0.0001|TWO_SIDED|95.0|-457.27|-188.23|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.||||-188.23|-457.27|<0.0001
82420151|NCT05524948|164551762|OTHER||Adjusted Mean Difference|-250.33|STANDARD_ERROR_OF_MEAN|42.838|<|0.0001|TWO_SIDED|95.0|-335.35|-165.3|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Hydrogen Sulfide|||-165.30|-335.35|<0.0001
82420152|NCT05524948|164551762|OTHER||Adjusted Mean Difference|-45.53|STANDARD_ERROR_OF_MEAN|23.439||0.055|TWO_SIDED|95.0|-92.05|0.99|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Methanethiol|||0.99|-92.05|0.0550
82420153|NCT05524948|164551762|OTHER||Adjusted Mean Difference|-32.68|STANDARD_ERROR_OF_MEAN|26.036||0.2124|TWO_SIDED|95.0|-84.36|18.99|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and baseline concentration as a covariate.|For Dimethyl Sulfide|||18.99|-84.36|0.2124
82420154|NCT05524948|164551763|OTHER||Adjusted Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.164|<|0.0001|TWO_SIDED|95.0|-1.52|-0.87|||ANCOVA|Analysis was performed using ANCOVA model with study product and gender as a factor and Baseline overall breath organoleptic score as a covariate.|Adjusted mean difference was calculated as experimental dentifrice minus reference dentifrice.|||-0.87|-1.52|<0.0001
82420155|NCT05155085|164551764|SUPERIORITY||Risk Difference (RD)|5.1||||0.4662|TWO_SIDED|95.0|-9.8|19.8|||Cochran-Mantel-Haenszel|||||19.8|-9.8|0.4662
82420156|NCT05155085|164551765|SUPERIORITY||LSM Difference from Placebo|-9.7|STANDARD_ERROR_OF_MEAN|11.4||0.3968|TWO_SIDED|95.0|-32.2|12.9|||Mixed Models Analysis|||||12.9|-32.2|0.3968
82420157|NCT05155085|164551766|SUPERIORITY||Risk Difference (RD)|3.3||||0.7625|TWO_SIDED|95.0|-15.2|21.6|||Fisher Exact|||||21.6|-15.2|0.7625
82420158|NCT02739828|164551770|SUPERIORITY|||||||0.0001|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0001
82447983|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|||||TWO_SIDED|95.0|-7.43|-2.36||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.36|-7.43|
82647319|NCT02176642|165009782|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82647320|NCT02176642|165009783|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82647321|NCT02176642|165009784|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82647322|NCT02176642|165009785|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82647323|NCT02176642|165009786|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82647324|NCT02176642|165009787|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82647325|NCT02176642|165009788|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
82647326|NCT00295620|165009789|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.425|TWO_SIDED|95.0|0.79|1.11|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a DFS event||1.11|0.79|0.425
82447984|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.74|||||TWO_SIDED|95.0|-5.28|-0.2||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.20|-5.28|
82447985|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.57|||||TWO_SIDED|95.0|-7.1|-2.05||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.05|-7.10|
82447986|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-0.73|3.33||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.33|-0.73|
82447987|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|||||TWO_SIDED|95.0|-2.18|1.84||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.84|-2.18|
82447988|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|95.0|-1.61|2.44||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.44|-1.61|
82447989|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.27|||||TWO_SIDED|95.0|-2.27|1.73||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.73|-2.27|
82533931|NCT01782326|164766012|SUPERIORITY_OR_OTHER||Rate Ratio|0.89||||0.003|TWO_SIDED|95.0|0.83|0.96|||Generalized linear method||If non-inferiority was demonstrated, superiority of QVA149A compared to SFC in reducing exacerbation rate could be claimed if the upper limit of the same CI was less than 1.|||0.96|0.83|0.003
82647327|NCT00295620|165009790|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.867|TWO_SIDED|95.0|0.83|1.25|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a death event||1.25|0.83|0.867
82647328|NCT00295620|165009791|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.052|TWO_SIDED|95.0|1.0|1.84|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of a fracture||1.84|1.00|0.052
82447990|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.47|||||TWO_SIDED|95.0|-0.74|3.68||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.68|-0.74|
82647329|NCT00295620|165009792|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.678|TWO_SIDED|95.0|0.81|1.38|||Log Rank|||Arm A: Anastrozole for 2 yerars Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of the occurrence of secondary carcinoma||1.38|0.81|0.678
82447991|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|||||TWO_SIDED|95.0|-1.76|2.65||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.65|-1.76|
82447992|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|-1.79|2.63||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.63|-1.79|
82447993|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-1.69|2.7||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.70|-1.69|
82447994|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.88|||||TWO_SIDED|95.0|-0.53|4.29||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.29|-0.53|
82447995|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-2.5|2.33||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.33|-2.50|
82447996|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-2.03|2.79||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.79|-2.03|
82533932|NCT01782326|164766013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.001|TWO_SIDED|95.0|0.78|0.91|||Regression, Cox|||||0.91|0.78|<0.001
82533933|NCT01782326|164766014|SUPERIORITY_OR_OTHER||Rate Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.91|||Generalized linear model|||||0.91|0.75|<0.001
82533934|NCT01782326|164766015|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.7|0.86|||Regression, Cox|||||0.86|0.70|<0.001
82647330|NCT00295620|165009793|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.531|TWO_SIDED|95.0|0.75|1.77|||Log Rank|||Arm A: Anastrozole for 2 years Arm B: Anastrozole for 5 years Null hypothesis: there is no difference between the two treatment arms in the probability of the occurrence of contralateral mammacarcinoma||1.77|0.75|0.531
82533935|NCT01782326|164766020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.256|TWO_SIDED|95.0|0.74|1.08|||Regression, Cox|||||1.08|0.74|0.256
82533936|NCT01782326|164766021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.008|TWO_SIDED|95.0|0.69|0.95|||Regression, Cox|||||0.95|0.69|0.008
82533937|NCT01782326|164766022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.046|TWO_SIDED|95.0|0.66|1.0|||Regression, Cox|||||1.00|0.66|0.046
82533938|NCT01782326|164766023|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.79|TWO_SIDED|95.0|0.38|2.1|||Regression, Cox|||||2.10|0.38|0.790
82533939|NCT03389893|164766046|SUPERIORITY||Geometric Mean Ratio|0.033|||<|0.001|TWO_SIDED|95.0|0.008|0.131|||ANCOVA||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator.|||0.131|0.008|<0.001
82533940|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.28||||0.019|TWO_SIDED|95.0|0.09|0.8|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 3||0.80|0.09|0.019
82533941|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.37||||0.165|TWO_SIDED|95.0|0.09|1.51|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 7||1.51|0.09|0.165
82533942|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.02|0.27|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 14||0.27|0.02|<0.001
82647331|NCT01625286|165009831|SUPERIORITY|A hazard ratio \< 1 favours AZD5363|Hazard Ratio (HR)|0.8||||0.308|TWO_SIDED|80.0|0.6|1.06||2-sided p-value|Regression, Cox|Cox PH model including treatment and PIK3CA status as factors/covariates||||1.06|0.60|0.308
82533943|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.07|||<|0.001|TWO_SIDED|95.0|0.02|0.25|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 21||0.25|0.02|<0.001
82533944|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.16||||0.004|TWO_SIDED|95.0|0.05|0.55|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 42||0.55|0.05|0.004
82533945|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.38||||0.216|TWO_SIDED|95.0|0.08|1.8|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 77||1.80|0.08|0.216
82533946|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.24||||0.071|TWO_SIDED|95.0|0.05|1.13|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 112||1.13|0.05|0.071
82533947|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.34||||0.022|TWO_SIDED|95.0|0.13|0.85|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||0.85|0.13|0.022
82533948|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.25||||0.015|TWO_SIDED|95.0|0.08|0.76|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||0.76|0.08|0.015
82647332|NCT01625286|165009832|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.081|TWO_SIDED|80.0|-17.1|-0.8||1-sided p-value|ANCOVA|||||-0.8|-17.1|0.081
82647333|NCT01625286|165009838|SUPERIORITY||Odds Ratio (OR)|1.53||||0.139|TWO_SIDED|80.0|0.93|2.54||1-sided p-value|Regression, Logistic|including treatment and PIK3CA status as factors/covariates||||2.54|0.93|0.139
82533949|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.04|0.41|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||0.41|0.04|<0.001
82533950|NCT03389893|164766047|SUPERIORITY||Geometric Mean Ratio|0.16||||0.006|TWO_SIDED|95.0|0.04|0.58|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||0.58|0.04|0.006
82533951|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.8||||0.724|TWO_SIDED|95.0|0.23|2.82|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 3||2.82|0.23|0.724
82533952|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.27||||0.033|TWO_SIDED|95.0|0.08|0.89|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 7||0.89|0.08|0.033
82533953|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.36||||0.073|TWO_SIDED|95.0|0.12|1.1|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 14||1.10|0.12|0.073
82533954|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.73||||0.579|TWO_SIDED|95.0|0.23|2.29|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 21||2.29|0.23|0.579
82533955|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.17||||0.003|TWO_SIDED|95.0|0.05|0.53|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 28||0.53|0.05|0.003
82533956|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.52||||0.297|TWO_SIDED|95.0|0.15|1.81|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 42||1.81|0.15|0.297
82533957|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.48||||0.326|TWO_SIDED|95.0|0.11|2.12|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 77||2.12|0.11|0.326
82533958|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.52||||0.401|TWO_SIDED|95.0|0.11|2.42|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is numerator and Placebo+Open Label Extension and Follow-Up arm is denominator|Day 112||2.42|0.11|0.401
82533959|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.81||||0.705|TWO_SIDED|95.0|0.28|2.4|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||2.40|0.28|0.705
82533960|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.72||||0.538|TWO_SIDED|95.0|0.25|2.08|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||2.08|0.25|0.538
82533961|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.92||||0.892|TWO_SIDED|95.0|0.25|3.34|||Mixed Models Analysis||Day 77 is numerator and Day 42 is denominator|Day 77 / Day 42||3.34|0.25|0.892
82533962|NCT03389893|164766048|SUPERIORITY||Geometric Mean Ratio|0.74||||0.624|TWO_SIDED|95.0|0.21|2.56|||Mixed Models Analysis||Day 112 is numerator and Day 42 is denominator|Day 112 / Day 42||2.56|0.21|0.624
82533963|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-9.53||||0.019|TWO_SIDED|95.0|-17.44|-1.63|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference.)|Day 3, Lesional||-1.63|-17.44|0.019
82447997|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-1.97|2.84||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.84|-1.97|
82533964|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.08||||0.837|TWO_SIDED|95.0|-11.47|9.32|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7, Lesional||9.32|-11.47|0.837
82533965|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.9|TWO_SIDED|95.0|-6.98|7.92|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14, Lesional||7.92|-6.98|0.900
82533966|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-5.97||||0.13|TWO_SIDED|95.0|-13.76|1.82|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21, Lesional||1.82|-13.76|0.130
82533967|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.069|TWO_SIDED|95.0|-14.76|0.56|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28, Lesional||0.56|-14.76|0.069
82533968|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-7.99||||0.032|TWO_SIDED|95.0|-15.25|-0.73|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42, Lesional||-0.73|-15.25|0.032
82533969|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.803|TWO_SIDED|95.0|-9.37|7.28|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||7.28|-9.37|0.803
82420159|NCT02739828|164551771|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||< 0.0001
82533970|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.972|TWO_SIDED|95.0|-9.02|9.34|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112, Lesional||9.34|-9.02|0.972
82533971|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.933|TWO_SIDED|95.0|-6.66|6.12|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Lesional||6.12|-6.66|0.933
82420160|NCT02739828|164551772|SUPERIORITY|||||||0.0004|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0004
82447998|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.78|||||TWO_SIDED|95.0|-0.75|4.3||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.30|-0.75|
82533972|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.563|TWO_SIDED|95.0|-8.1|4.45|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Lesional||4.45|-8.10|0.563
82533973|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-7.08||||0.075|TWO_SIDED|95.0|-14.88|0.73|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Lesional||0.73|-14.88|0.075
82533974|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-9.84||||0.01|TWO_SIDED|95.0|-17.19|-2.48|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Lesional||-2.48|-17.19|0.010
82533975|NCT03389893|164766049|SUPERIORITY||Median Difference (Final Values)|0.69||||0.805|TWO_SIDED|95.0|-4.86|6.23|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 3, Non-lesional||6.23|-4.86|0.805
82533976|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|2.36||||0.329|TWO_SIDED|95.0|-2.44|7.15|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7, Non-lesional||7.15|-2.44|0.329
82533977|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.97|TWO_SIDED|95.0|-5.39|5.6|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14, Non-lesional||5.60|-5.39|0.970
82533978|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-3.31||||0.18|TWO_SIDED|95.0|-8.18|1.56|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21, Non-lesional||1.56|-8.18|0.180
82420161|NCT02739828|164551773|SUPERIORITY|||||||0.0005|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0005
82420162|NCT02739828|164551773|SUPERIORITY|||||||0.0006|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0006
82420163|NCT02739828|164551774|SUPERIORITY|||||||0.0004|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0004
82420164|NCT02739828|164551774|SUPERIORITY|||||||0.0016|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0016
82420165|NCT02739828|164551775|SUPERIORITY|||||||0.0003|||||||paired t-test|||Skin pain at its worst. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0003
82420166|NCT02739828|164551775|SUPERIORITY|||||||0.0094|||||||paired t-test|||Skin pain on average. Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0094
82420167|NCT02739828|164551779|SUPERIORITY|||||||0.0278|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0278
82420168|NCT02739828|164551780|SUPERIORITY|||||||0.0215|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0215
82420169|NCT02739828|164551781|SUPERIORITY|||||||0.1652|||||||paired t-test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1652
82420170|NCT02739828|164551785|SUPERIORITY|||||||1|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||1.0000
82420171|NCT02739828|164551786|SUPERIORITY|||||||1|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||1.0000
82533979|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.342|TWO_SIDED|95.0|-5.45|1.94|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28, Non-lesional||1.94|-5.45|0.342
82533980|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-2.17||||0.234|TWO_SIDED|95.0|-5.81|1.47|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42, Non-lesional||1.47|-5.81|0.234
82533981|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.316|TWO_SIDED|95.0|-6.27|2.07|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Non-lesional||2.07|-6.27|0.316
82647334|NCT01625286|165009839|SUPERIORITY|A hazard ratio \< 1 favours AZD5363|Hazard Ratio (HR)|0.77||||0.482|TWO_SIDED|80.0|0.48|1.24||2-sided p-value|Log Rank|Cox PH model including treatment and PIK3CA status as factors/covariates||||1.24|0.48|0.482
82647335|NCT03053622|165009849|OTHER||Ratio of Geometric Least Squares Means|0.996|||||TWO_SIDED|90.0|0.807|1.23||||||||1.23|0.807|
82420172|NCT02739828|164551787|SUPERIORITY|||||||0.5|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.5000
82420173|NCT02739828|164551788|SUPERIORITY|||||||0.1797|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1797
82420174|NCT02739828|164551789|SUPERIORITY|||||||0.4531|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.4531
82420175|NCT02739828|164551790|SUPERIORITY|||||||0.0313|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0313
82420176|NCT02739828|164551791|SUPERIORITY|||||||0.3438|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.3438
82647336|NCT03053622|165009849|OTHER||Ratio of Geometric Least Squares Means|0.729|||||TWO_SIDED|90.0|0.591|0.898||||||||0.898|0.591|
82647337|NCT03053622|165009849|OTHER||Ratio of Geometric Least Squares Means|0.422|||||TWO_SIDED|90.0|0.343|0.518||||||||0.518|0.343|
82420177|NCT02739828|164551792|SUPERIORITY|||||||0.4531|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.4531
82420178|NCT02739828|164551793|SUPERIORITY|||||||0.0156|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0156
82420179|NCT02739828|164551794|SUPERIORITY|||||||0.0386|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0386
82420180|NCT02739828|164551795|SUPERIORITY|||||||0.3438|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.3438
82420181|NCT02739828|164551796|SUPERIORITY|||||||0.125|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1250
82420182|NCT02739828|164551797|SUPERIORITY|||||||0.0625|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0625
82420183|NCT02739828|164551798|SUPERIORITY|||||||0.0625|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.0625
82420184|NCT02739828|164551799|SUPERIORITY|||||||0.125|||||||Sign test|||Analysis is under the assumption of completely missing at random (deleted incomplete observations).||||0.1250
82420185|NCT01837550|164551802|NON_INFERIORITY_OR_EQUIVALENCE|To ensure a between-group effect of 80% at the 5% significance level it was estimated that 60 participants need to be included in the study. An effect size of Cohen's d=0.80 was expected. The expected standardized mean difference on the HHIE formed the basis for the obtained power.||||||0.685|||||||Mixed Models Analysis|||||||0.685
82420186|NCT04204902|164551822|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least Square Mean|91.15|||||TWO_SIDED|90.0|83.21|99.84||||||||99.84|83.21|
82420187|NCT04204902|164551823|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least square Mean|90.92|||||TWO_SIDED|90.0|82.99|99.61||||||||99.61|82.99|
82420188|NCT04204902|164551824|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90 percentage Confidence Interval (CI) as 80.00 percentage - 125.00 percentage|Ratio of Geometric Least Square Mean|104.62|||||TWO_SIDED|90.0|95.17|115.0||||||||115.00|95.17|
82420189|NCT02202577|164551831|SUPERIORITY||Risk Ratio (RR)|0.9||||0.38|ONE_SIDED|95.0||1.35||This is the calculated p-value for the intention to treat analysis of primary outcome. A 1-tailed p value of \<0.05 was selected for statistical significance.|Fisher Exact|||"We estimated a cesarean related surgical site infection rate of 7.5% with povidone-iodine and hypothesized chlorhexidine-alcohol treatment to be superior based on existing literature. We considered a 50% reduction to be significant. We performed our power analysis assuming~1-directional effects in favor of chlorhexidine, which best fit our hypothesis. Using a 1-tailed alpha of 0.05 and an 80% power to detect a difference, we estimated that 466 subjects would be required in each group."||1.35||0.38
82447999|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-2.34|2.73||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.73|-2.34|
82448000|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|95.0|-3.14|1.89||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.89|-3.14|
82533982|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.89||||0.276|TWO_SIDED|95.0|-5.37|1.59|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112, Non-lesional||1.59|-5.37|0.276
82533983|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.237|TWO_SIDED|95.0|-4.19|1.06|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Non-lesional||1.06|-4.19|0.237
82533984|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-3.03||||0.01|TWO_SIDED|95.0|-5.3|-0.77|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Non-lesional||-0.77|-5.30|0.010
82533985|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.77|TWO_SIDED|95.0|-3.57|2.65|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42, Non-lesional||2.65|-3.57|0.770
82533986|NCT03389893|164766049|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.117|TWO_SIDED|95.0|-4.84|0.56|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42, Non-lesional||0.56|-4.84|0.117
82533987|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|85.05||||0.085|TWO_SIDED|95.0|-12.02|182.12|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7||182.12|-12.02|0.085
82647338|NCT03053622|165009849|OTHER||Ratio of Geometric Least Squares Means|0.307|||||TWO_SIDED|90.0|0.249|0.379||||||||0.379|0.249|
82533988|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-21.91||||0.733|TWO_SIDED|95.0|-149.13|105.32|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14||105.32|-149.13|0.733
82533989|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-82.5||||0.129|TWO_SIDED|95.0|-189.6|24.61|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21||24.61|-189.60|0.129
82533990|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-92.11||||0.057|TWO_SIDED|95.0|-187.11|2.89|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28||2.89|-187.11|0.057
82533991|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-48.76||||0.242|TWO_SIDED|95.0|-131.52|34.0|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42||34.00|-131.52|0.242
82533992|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-54.37||||0.262|TWO_SIDED|95.0|-150.24|41.49|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||41.49|-150.24|0.262
82533993|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-22.97||||0.546|TWO_SIDED|95.0|-99.79|53.86|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112||53.86|-99.79|0.546
82533994|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-21.8||||0.503|TWO_SIDED|95.0|-86.34|42.75|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42||42.75|-86.34|0.503
82533995|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-64.0||||0.034|TWO_SIDED|95.0|-123.01|-4.98|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42||-4.98|-123.01|0.034
82533996|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-10.29||||0.789|TWO_SIDED|95.0|-86.63|66.04|||Mixed Models Analysis||Day 77 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 77 / Day 42||66.04|-86.63|0.789
82533997|NCT03389893|164766050|SUPERIORITY||Mean Difference (Final Values)|-83.9||||0.014|TWO_SIDED|95.0|-149.82|-17.98|||Mixed Models Analysis||Day 112 is minuend and Day 42 is subtrahend. (Minuend - subtrahend=difference).|Day 112 / Day 42||-17.98|-149.82|0.014
82647339|NCT03053622|165009850|OTHER||Ratio of Geometric Least Squares Means|0.986|||||TWO_SIDED|90.0|0.81|1.2||||||||1.20|0.810|
82647340|NCT03053622|165009850|OTHER||Ratio of Geometric Least Squares Means|0.753|||||TWO_SIDED|90.0|0.619|0.916||||||||0.916|0.619|
82647341|NCT03053622|165009851|OTHER||Median Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.1|48.4||||||||48.40|-0.10|
82533998|NCT03389893|164766051|SUPERIORITY||Slope|-0.07||||0.86|TWO_SIDED|95.0|-0.92|0.77|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 7||0.77|-0.92|0.860
82533999|NCT03389893|164766051|SUPERIORITY||Slope|-0.22||||0.488|TWO_SIDED|95.0|-0.85|0.41|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 14||0.41|-0.85|0.488
82647342|NCT03053622|165009851|OTHER||Median Difference (Final Values)|0.25|||||TWO_SIDED|90.0|-0.25|23.97|||||"In this outcome, the median difference is not calculated by subtracting two observations, it is derived by Hodges-Lehmann approach to estimating location shift. This method will give the value of 0.25."|||23.97|-0.25|
82647343|NCT00581386|165009855|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.125||||0.013||95.0|1.27|7.67|||Regression, Logistic|Logistic regression Number of obs = 217, LR chi2(2)=10.89, Prob\>chi2=0.0043,Log likelihood = -112.87788, Pseudo R2=0.0460|this is a simple odds ratio|||7.67|1.27|0.013
82420190|NCT02202577|164551831|SUPERIORITY||Risk Ratio (RR)|0.83||||0.26|ONE_SIDED|95.0||1.25||This is the calculated p-value for the per protocol analysis of primary outcome. A 1-tailed p value of \<0.05 was selected for statistical significance.|Fisher Exact|||Per Protocol Analysis||1.25||0.26
82420191|NCT01618708|164551833|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|0.07|||=|0.7462|TWO_SIDED|95.0|-0.38|0.52||Threshold for significance at 0.05 level|Mixed Models Analysis||Placebo vs Synvisc-One|Synvisc-One group was compared to placebo group using mixed model for repeated measures (MMRM) approach assuming missing data at random (MAR).||0.52|-0.38|= 0.7462
82420192|NCT02770365|164551837|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.14|||||TWO_SIDED|90.0|-2.92|12.53|||Wald's method|||||12.53|-2.92|
82420193|NCT02770365|164551838|EQUIVALENCE|the proportion of subjects with treatment success based on the improvement of the Most Bothersome Symptom (MBS) of vulvo-vaginal atrophy at Day 8.|equivalence ratio|0.94||||0.05|TWO_SIDED|90.0|-12.35|4.31|||Wald's method|||||4.31|-12.35|0.05
82420194|NCT00489476|164551839|SUPERIORITY|||||||0.0212|||||||Fisher Exact|||||||0.0212
82420195|NCT00489476|164551839|SUPERIORITY|||||||0.0106|||||||Fisher Exact|||||||0.0106
82420196|NCT00489476|164551840|SUPERIORITY|||||||0.0123|||||||Fisher Exact|||||||0.0123
82420197|NCT00489476|164551840|SUPERIORITY|||||||0.0228|||||||Fisher Exact|||||||0.0228
82420198|NCT00489476|164551841|SUPERIORITY|||||||0.0409|||||||Fisher Exact|||||||0.0409
82420199|NCT02628145|164551842|OTHER||Mean Difference (Final Values)|-0.01||||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
82420200|NCT02628145|164551843|SUPERIORITY|||||||0.88|||||||Chi-squared|||||||0.88
82420201|NCT02628145|164551844|SUPERIORITY|||||||0.068|||||||Fisher Exact|||||||0.068
82420202|NCT02628145|164551845|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||||||0.48
82420203|NCT02628145|164551846|SUPERIORITY|||||||0.52|||||||Mixed Models Analysis|||||||0.52
82420204|NCT02628145|164551847|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82420205|NCT02628145|164551848|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82420206|NCT02628145|164551849|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82420207|NCT02628145|164551850|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82448001|NCT01393639|164604456|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|||||TWO_SIDED|95.0|-2.84|2.19||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.19|-2.84|
82420208|NCT02628145|164551852|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
82420209|NCT03000166|164551855|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.22
82420210|NCT03000166|164551856|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
82420211|NCT03000166|164551857|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||||||0.17
82420212|NCT03000166|164551858|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82420213|NCT02757963|164551864|OTHER||Proportion|0.883|||||TWO_SIDED|95.0|0.849|0.912|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|||0.912|0.849|
82420214|NCT02757963|164551865|OTHER||Proportion|0.877|||||TWO_SIDED|95.0|0.846|0.904|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.904|0.846|
82420215|NCT02757963|164551865|OTHER||Proportion|0.889|||||TWO_SIDED|95.0|0.854|0.917|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.917|0.854|
82420216|NCT02757963|164551865|OTHER||Proportion|0.873|||||TWO_SIDED|95.0|0.843|0.9|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 or BPE/BPO \>=3||0.900|0.843|
82420217|NCT02757963|164551866|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.87|0.926|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.926|0.870|
82420218|NCT02757963|164551866|OTHER||Proportion|0.907|||||TWO_SIDED|95.0|0.873|0.934|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm BPE/BPO \>=3||0.934|0.873|
82420219|NCT02757963|164551866|OTHER||Proportion|0.907|||||TWO_SIDED|95.0|0.873|0.935|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.935|0.873|
82420220|NCT02757963|164551866|OTHER||Proportion|0.9|||||TWO_SIDED|95.0|0.87|0.925|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm PSS \>=8 or BPE/BPO \>=3||0.925|0.870|
82420221|NCT02757963|164551867|OTHER||Proportion|0.362|||||TWO_SIDED|95.0|0.337|0.386|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8||0.386|0.337|
82420222|NCT02757963|164551867|OTHER||Proportion|0.368|||||TWO_SIDED|95.0|0.341|0.395|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm BPE/BPO \>=3||0.395|0.341|
82420223|NCT02757963|164551867|OTHER||Proportion|0.377|||||TWO_SIDED|95.0|0.349|0.406|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 and BPE/BPO \>=3||0.406|0.349|
82420224|NCT02757963|164551867|OTHER||Proportion|0.355|||||TWO_SIDED|95.0|0.332|0.379|||||Proportion = Numerator / Denominator. 95% confidence interval on the proportion is calculated by using the exact (Clopper-Pearson) method.|For Arm IPSS \>=8 or BPE/BPO \>=3||0.379|0.332|
82420225|NCT02757963|164551868|OTHER||Kappa statistic|0.55|||||TWO_SIDED|95.0|0.51|0.58||||||||0.58|0.51|
82420226|NCT00655356|164551869|SUPERIORITY_OR_OTHER||||||<|1e-05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||<.00001
82647344|NCT00581386|165009855|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.003||95.0|1.57|9.29|||Odds ratio|||||9.29|1.57|0.003
82647345|NCT00581386|165009856|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.006||||0.006||95.0|||||t-test, 2 sided|||||||0.006
82420227|NCT00655356|164551870|SUPERIORITY_OR_OTHER|||||||0.0075|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|Stratified by combined treatment site.||A 5% level of significance was used as the threshold for determination of statistical significance, and all tests were two-tailed. the effect size and associated 95% confidence interval (CI) are provided for all comparative efficacy outcomes. Primary analysis of the two co-primary efficacy endpoints and the secondary efficacy endpoints were performed on the ITT population.||||.0075
82420228|NCT04105725|164551875|SUPERIORITY||||||<|0.05|||||||negative binomial regression|||||||<0.05
82420229|NCT00507507|164551889|SUPERIORITY_OR_OTHER|||||||0.016||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||The null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference. The sample size provided at least 85% power to detect a difference of 30% between the groups, assuming response rates of 30% and 60% in the Tenofovir DF and FTC+Tenofovir DF groups, respectively.||||0.016
82420230|NCT00507507|164551890|SUPERIORITY_OR_OTHER|||||||0.05||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.050
82420231|NCT00507507|164551890|SUPERIORITY_OR_OTHER|||||||0.009||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.009
82448002|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.18|||||TWO_SIDED|95.0|-2.91|0.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-2.91|
82448003|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.45|||||TWO_SIDED|95.0|-4.17|-0.73||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.73|-4.17|
82448004|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.03|||||TWO_SIDED|95.0|-3.76|-0.29||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.29|-3.76|
82420232|NCT00507507|164551890|SUPERIORITY_OR_OTHER|||||||0.03||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 400 copies/mL at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.030
82420233|NCT00507507|164551891|SUPERIORITY_OR_OTHER|||||||0.703||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.703
82420234|NCT00507507|164551891|SUPERIORITY_OR_OTHER|||||||0.034||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.034
82448005|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.11|||||TWO_SIDED|95.0|-4.82|-1.4||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.40|-4.82|
82420235|NCT00507507|164551891|SUPERIORITY_OR_OTHER|||||||0.011||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.011
82420236|NCT00507507|164551891|SUPERIORITY_OR_OTHER|||||||0.007||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with HBV DNA \< 169 copies/mL at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.007
82420237|NCT00507507|164551892|SUPERIORITY_OR_OTHER|||||||0.01||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.010
82448006|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-3.13|0.33||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.33|-3.13|
82448007|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-4.52|-1.07||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.07|-4.52|
82647346|NCT00581386|165009857|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.088||||0.003||95.0|1.728|14.99|||Regression, Logistic|||||14.99|1.728|0.003
82647347|NCT00581386|165009857|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.22||||0.0004||95.0|2.419|21.527|||Regression, Logistic|||||21.527|2.419|0.0004
82647348|NCT00681824|165009859|SUPERIORITY_OR_OTHER|||||||0.7159||95.0|||||likelihood ratio of chi squared test|||||||0.7159
82534000|NCT03389893|164766051|SUPERIORITY||Slope|-0.55||||0.144|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 21||0.20|-1.30|0.144
82534001|NCT03389893|164766051|SUPERIORITY||Slope|-0.35||||0.279|TWO_SIDED|95.0|-1.0|0.3|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 28||0.30|-1.00|0.279
82534002|NCT03389893|164766051|SUPERIORITY||Slope|-0.29||||0.461|TWO_SIDED|95.0|-1.09|0.5|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 42||0.50|-1.09|0.461
82534003|NCT03389893|164766051|SUPERIORITY||Slope|-0.27||||0.345|TWO_SIDED|95.0|-0.84|0.3|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 77, Lesional||0.30|-0.84|0.345
82534004|NCT03389893|164766051|SUPERIORITY||Slope|-0.27||||0.275|TWO_SIDED|95.0|-0.77|0.23|||Mixed Models Analysis||Dupilumab+Open Label Extension and Follow-Up arm is minuend and Placebo+Open Label Extension and Follow-Up arm is subtrahend. (Minuend - subtrahend=difference).|Day 112||0.23|-0.77|0.275
82534005|NCT04955626|164766084|OTHER||Adjusted Surveillance Time|95.3|||||TWO_SIDED|95.0|89.5|98.3||||||2-Sided CI for Relative vaccine efficacy (RVE) is derived based on the Clopper and Pearson method adjusted for surveillance time.||98.3|89.5|
82534006|NCT04955626|164766085|OTHER||Adjusted Surveillance Time|94.6|||||TWO_SIDED|95.0|88.5|97.9||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||97.9|88.5|
82647349|NCT03101293|165009974|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% confidence intervals (CIs).|LS Mean Ratio|1.343||||0.0058|TWO_SIDED|90.0|1.146|1.574|||ANOVA|||||1.574|1.146|0.0058
82647350|NCT03101293|165009975|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% CIs.|LS Mean Ratio|1.121||||0.1763|TWO_SIDED|90.0|0.969|1.298|||ANOVA|||||1.298|0.969|0.1763
82420238|NCT00507507|164551893|SUPERIORITY_OR_OTHER|||||||0.019||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.019
82420239|NCT00507507|164551894|SUPERIORITY_OR_OTHER|||||||0.186||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.186
82420240|NCT00507507|164551895|SUPERIORITY_OR_OTHER|||||||0.07||||||A Wilcoxon rank-sum (2-sided) test was used, with no adjustments for covariates.|Wilcoxon (Mann-Whitney)|||The null hypothesis was that there was no difference of change in HBV DNA from baseline between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.070
82420241|NCT00507507|164551896|SUPERIORITY_OR_OTHER|||||||0.467||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 48: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 48 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.467
82420242|NCT00507507|164551896|SUPERIORITY_OR_OTHER|||||||1||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 96 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||1.000
82420243|NCT00507507|164551896|SUPERIORITY_OR_OTHER|||||||0.529||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 144 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.529
82420244|NCT00507507|164551896|SUPERIORITY_OR_OTHER|||||||0.451||||||A Fisher exact test with a 0.05 two-sided significance level was used, with no adjustments for covariates.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with normal ALT at Week 192 between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.451
82420245|NCT00507507|164551897|SUPERIORITY_OR_OTHER|||||||0.496||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.496
82420246|NCT00507507|164551897|SUPERIORITY_OR_OTHER|||||||0.119||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.119
82420247|NCT00507507|164551897|SUPERIORITY_OR_OTHER|||||||0.365||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with HBeAg loss between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.365
82420248|NCT00507507|164551898|SUPERIORITY_OR_OTHER|||||||0.496||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 96: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.496
82420249|NCT00507507|164551898|SUPERIORITY_OR_OTHER|||||||0.119||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 144: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.119
82420250|NCT00507507|164551898|SUPERIORITY_OR_OTHER|||||||0.244||||||A Fisher exact test with a 0.05 two-sided significance level was used.|Fisher Exact|||Analysis at Week 192: the null hypothesis was that there was no difference in the proportion of subjects with seroconversion to anti-HBe between the Tenofovir DF and FTC+Tenofovir DF groups; the alternative hypothesis was that there was a difference.||||0.244
82420251|NCT01694771|164551904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.144|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.144|0.090|<0.0001
82420252|NCT01694771|164551905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.088|||Mixed Model Repeated Measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (551), Tio+Olo 5ug (548).||0.088|0.037|<0.0001
82420253|NCT01694771|164551906|SUPERIORITY_OR_OTHER||Mean change from baseline|0.119|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.09|0.147|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.147|0.090|<0.0001
82420254|NCT01694771|164551907|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.146|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.192|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.192|0.100|<0.0001
82420255|NCT01694771|164551908|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.063|STANDARD_ERROR_OF_MEAN|0.022||0.0047|TWO_SIDED|95.0|0.019|0.106|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (551), Tio+Olo 5ug (548).||0.106|0.019|0.0047
82420256|NCT01694771|164551909|SUPERIORITY_OR_OTHER||Mean difference from Tio + Placebo|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.106|0.201|||Mixed model repeated measure|||Results are from an MMRM model. Fixed effects include treatment, visit, treatment by visit interaction, baseline and baseline by visit interaction. Patient is considered random and an unstructured covariance structure was used. Number of patients contributing to models: Tio+Placebo (564), Tio+Olo 5ug (563).||0.201|0.106|<0.0001
82420257|NCT01694771|164551910|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|8.459|STANDARD_ERROR_OF_MEAN|2.192||0.0001|TWO_SIDED|95.0|4.159|12.759|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||12.759|4.159|0.0001
82420258|NCT01694771|164551911|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.478|STANDARD_ERROR_OF_MEAN|0.116|<|0.0001|TWO_SIDED|95.0|-0.706|-0.25|||ANCOVA|||"Week 12: Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.250|-0.706|<.0001
82420259|NCT01694771|164551912|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.083|STANDARD_ERROR_OF_MEAN|0.041||0.0442|TWO_SIDED|95.0|-0.164|-0.002|||ANCOVA|||"Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.002|-0.164|0.0442
82426105|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for Nocturnal reported episodes rate - Endpoint.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.006
82426106|NCT00560417|164561047|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for Nocturnal reported episodes rate - Overall.|Negative Binomial regression model|Total hypoglycemia count=Treatment+Baseline HbA1c Group+Baseline SU Group with log of patient's total number of days of exposure as an offset variable||||||0.004
82426107|NCT00560417|164561048|SUPERIORITY_OR_OTHER|||||||0.343||95.0||||p-value is for endpoint.|ANCOVA|Variable = Treatment + Baseline + Baseline HbA1c Group + Baseline SU Group (Type III sums of squares)||||||0.343
82426108|NCT00560417|164561049|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||p-value is for the change in body weight at endpoint in the ILPS treatment group.|t-test, 2 sided|||||||0.417
82426109|NCT00560417|164561049|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||p-value is for the change in body weight at endpoint in the glargine treatment group.|t-test, 2 sided|||||||0.041
82426110|NCT00560417|164561049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.343|TWO_SIDED|95.0|-1.15|0.4||p-value is for change in body weight at endpoint between ILPS and glargine treatment groups.|ANOVA|||||0.40|-1.15|0.343
82426111|NCT00560417|164561050|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Variable = Treatment + Baseline HbA1c Group+ Baseline SU Group||||||<0.001
82426112|NCT00557193|164561062|SUPERIORITY||Hazard Ratio (HR)|1.107||||0.672|ONE_SIDED|85.0||1.403||A priori significance level threshold of alpha=0.15|Log Rank||Arm C is the numerator and Arm B is the denominator of the estimated hazard ratio|A one-sided log rank test will be used for testing whether the EFS in Arm C (chemo+lest) at DL2 is greater than the EFS in Arm B (chemo). This is equivalent to testing the null hypothesis of hazard ratio (HR)=1 versus the alternative of HR\<1.||1.403||0.672
82426113|NCT02448381|164561088|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||||||0.04
82426114|NCT02448381|164561089|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
82534007|NCT04955626|164766086|OTHER||Adjusted Surveillance Time|63.9|||||TWO_SIDED|95.0|51.1|73.5||||||2-Sided CI for Relative Vaccine Efficacy (RVE) is derived based on the Clopper and Pearson method adjusted for surveillance time.||73.5|51.1|
82534008|NCT04955626|164766087|OTHER||Adjusted Surveillance Time|62.4|||||TWO_SIDED|95.0|49.5|72.2||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||72.2|49.5|
82420260|NCT01694771|164551913|SUPERIORITY_OR_OTHER||Mean difference from Tio+Placebo Week 12|-0.393|STANDARD_ERROR_OF_MEAN|0.098|<|0.0001|TWO_SIDED|95.0|-0.586|-0.2|||ANCOVA|||"Results are from non-MMRM ANCOVA models by week with LOCF up to each week. Fixed effects include treatment and baseline.~Number of patients contributing to models: Tio+Placebo (561), Tio+Olo 5ug (557)."||-0.200|-0.586|<.0001
82420261|NCT01197300|164551950|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|3.7||||0.8505|TWO_SIDED|95.0|-37.242|44.642||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMD Z-score Change at Month 18||44.642|-37.242|0.8505
82420262|NCT01197300|164551950|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|21.752||||0.218|TWO_SIDED|95.0|-14.126|57.63||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMD Z-score Change at Month 24||57.630|-14.126|0.2180
82420263|NCT01197300|164551951|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|2.36||||0.3544|TWO_SIDED|95.0|-2.886|7.606||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMC Change at Month 18||7.606|-2.886|0.3544
82420264|NCT01197300|164551951|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|1.179||||0.705|TWO_SIDED|95.0|-5.281|7.639||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Lumbar Spine BMC Change at Month 24||7.639|-5.281|0.7050
82420265|NCT01197300|164551952|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|121.129||||0.531|TWO_SIDED|95.0|-291.0|533.258||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Total body BMC Change at Month 18||533.258|-291.000|0.5310
82420266|NCT01197300|164551952|SUPERIORITY|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|65.674||||0.7347|TWO_SIDED|95.0|-344.067|475.415||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline lumbar spine BMD Z-score as explanatory variables and pooled centers as random effect.|ANCOVA|||Total body BMC Change at Month 24||475.415|-344.067|0.7347
82420267|NCT01197300|164551953|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-147.68||||0.4143|TWO_SIDED|95.0|-394.41|99.049||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum P1NP Change at Month 18||99.049|-394.410|0.4143
82420268|NCT01197300|164551953|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-132.437||||0.1266|TWO_SIDED|95.0|-286.452|21.579||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum P1NP Change at Month 24||21.579|-286.452|0.1266
82420269|NCT01197300|164551954|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-17.691||||0.2123|TWO_SIDED|95.0|-41.925|6.543||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||BSAP Change at Month 18||6.543|-41.925|0.2123
82420270|NCT01197300|164551954|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-3.662||||0.4852|TWO_SIDED|95.0|-21.479|14.155||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||BSAP Change at Month 24||14.155|-21.479|0.4852
82648095|NCT00331773|165011541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 6 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.55
82426115|NCT02448381|164561090|SUPERIORITY|||||||0.046|||||||McNemar|||||||0.046
82426116|NCT02448381|164561091|SUPERIORITY||||||=|0.0009|||||||Fisher Exact|||||||=0.0009
82426117|NCT02448381|164561092|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82420271|NCT01197300|164551955|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-4.661||||0.9009|TWO_SIDED|95.0|-16.647|7.325||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum NTX Change at Month 18||7.325|-16.647|0.9009
82420272|NCT01197300|164551955|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-2.558||||0.9472|TWO_SIDED|95.0|-8.864|3.747||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum NTX Change at Month 24||3.747|-8.864|0.9472
82448008|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.67|||||TWO_SIDED|95.0|-3.63|0.29||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.29|-3.63|
82420273|NCT01197300|164551956|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-1.482||||0.46|TWO_SIDED|95.0|-3.805|0.841||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum TRAP-5b Change at Month 18||0.841|-3.805|0.4600
82420274|NCT01197300|164551956|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.41||||0.9236|TWO_SIDED|95.0|-2.423|1.603||An analysis of covariance (ANCOVA) model was performed on the transformed data with Core treatment, pooled centers, underlying condition treated with glucocorticoids and loge as explanatory variables and pooled centers as random effect.|ANCOVA|The transformed data was calculated by dividing the post-baseline value by the baseline value and then applying the loge transformation||Serum TRAP-5b Change at Month 24||1.603|-2.423|0.9236
82420275|NCT01197300|164551957|OTHER|The number and percentage of patients with new vertebral fractures during the 12 month Extension period was presented by Core treatment group. Between-treatment differences were evaluated using Fisher's exact test.||||||1|||||||Fisher Exact|||New vertebral fractures at Month 12 Extension||||1.0000
82420276|NCT01197300|164551958|OTHER|The number and percentage of patients with new morphometric vertebral fractures during the 12 month extension period was presented by core treatment group. Between-treatment differences will be evaluated using Fisher's exact test.||||||1|||||||Fisher Exact|||New morphometric vertebral fractures at Month 12 Extension||||1.0000
82420277|NCT01197300|164551959|OTHER||Odds Ratio (OR)|4.73||||0.3971|TWO_SIDED|95.0|0.13|173.07||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 15||173.07|0.13|0.3971
82420278|NCT01197300|164551959|OTHER||Odds Ratio (OR)|0.01||||0.6046|TWO_SIDED|95.0|0.01|999.99||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 18||999.99|0.01|0.6046
82420279|NCT01197300|164551959|OTHER||Odds Ratio (OR)|0.01||||0.6046|TWO_SIDED|95.0|0.01|999.99||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 21||999.99|0.01|0.6046
82420280|NCT01197300|164551959|OTHER||Odds Ratio (OR)|1.31||||0.875|TWO_SIDED|95.0|0.05|38.04||Presented by treatment group and evaluated using a logistic regression model with Core treatment, pooled centers, underlying condition treated with glucocorticoids and Core baseline pain score as explanatory variables.|Regression, Logistic|||Reduction in Pain at Month 24||38.04|0.05|0.8750
82420281|NCT01197300|164551960|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.01||||0.9231|TWO_SIDED|95.0|-0.18|0.17||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Core baseline bone age as explanatory variables and pooled centers as random effect.|ANCOVA|||2nd metacarpal cortical width chge from BL1 at Month 24||0.17|-0.18|0.9231
82420282|NCT01197300|164551960|OTHER|Difference in least squares mean = LS mean for the Core treatment Zoledronic acid group - LS mean for the Core treatment Placebo group.|Difference in LS mean|-0.11||||0.2694|TWO_SIDED|95.0|-0.32|0.1||An analysis of covariance (ANCOVA) model was performed with Core treatment, pooled centers, underlying condition treated with GCs and Extension baseline bone age as explanatory variables and pooled centers as random effect.|ANCOVA|||2nd metacarpal cortical width chge from BL2 at Month 24||0.10|-0.32|0.2694
82420283|NCT05170061|164551987|SUPERIORITY|||||||0.05||||||see above|t-test, 2 sided|paired analysis||Sequential analysis: if the first analysis (paired t-test to determine superiority of nebivolol/valsartan over valsartan ) reached p\< 0.05, the superiority of nebivolol over valsartan was tested (paired-t test); if the second comparison reached p \< 0.05, the superiority of nebivolol/valsartan over nebivolol was tested (paired-t test)||||0.05
82420284|NCT05170061|164551988|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||||||0.05
82420285|NCT05170061|164551989|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420286|NCT05170061|164551990|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420287|NCT05170061|164551991|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420288|NCT05170061|164551992|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82534009|NCT04955626|164766125|OTHER||Geometric Mean Ration (GMR)|1.75|||||TWO_SIDED|95.0|1.39|2.22||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||2.22|1.39|
82534010|NCT04955626|164766126|OTHER||Difference in Percentages|23.0|||||TWO_SIDED|95.0|11.1|34.3||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||34.3|11.1|
82648096|NCT00331773|165011541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 12 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.29
82420289|NCT05170061|164551993|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420290|NCT05170061|164551994|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420291|NCT05170061|164551995|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420292|NCT05170061|164551996|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420293|NCT05170061|164551997|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420294|NCT05170061|164551998|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420295|NCT05170061|164551999|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420296|NCT05170061|164552000|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420297|NCT05170061|164552001|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82448009|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.98|||||TWO_SIDED|95.0|-3.94|-0.01||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-3.94|
82448010|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.07|||||TWO_SIDED|95.0|-4.03|-0.11||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.11|-4.03|
82420298|NCT05170061|164552002|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420299|NCT05170061|164552003|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420300|NCT05170061|164552004|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420301|NCT05170061|164552005|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420302|NCT05170061|164552006|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420303|NCT05170061|164552007|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420304|NCT05170061|164552008|SUPERIORITY|see primary dependent variable||||||0.05|||||||t-test, 2 sided|||see primary dependent variable||||0.05
82420305|NCT03443401|164552016|SUPERIORITY||Mean Difference (Net)|80.0||||0.004|TWO_SIDED|||||level of significance at \<0.05|Spearman's rho|||||||0.004
82420306|NCT03443401|164552017|SUPERIORITY||Mean Difference (Net)|80.0||||0.027|TWO_SIDED|||||Level of significance \<0.05|Spearman's rho|||||||0.027
82420307|NCT03829514|164552032|OTHER|||||||0.05|||||||t-test, 2 sided|Signal intensity data were loess normalized and normalized data were used to perform a limma t-test with empirical Bayes smoothing to standard errors|||Proteins were identified and quantified using EncyclopeDIA and visualized with Scaffold DIA using 1% false discovery thresholds at both the protein and peptide level. Protein exclusive intensity values were assessed for quality using an in-house ProteiNorm app, a tool for systematic evaluation of normalization methods, imputation of missing values and comparisons of multiple differential abundance methods . Cyclic loess normalization. The normalized data were used to perform statistical analysis using linear models for microarray data (limma) with empirical Bayes (eBayes) smoothing to the standard errors. Proteins with p-value \< 0.05 were considered significant.|||0.05
82420308|NCT03460704|164552082|SUPERIORITY||LS Mean rate ratio|1.004||||0.97889|TWO_SIDED|95.0|0.747|1.349|||negative binomial model|||The number of NCFB pulmonary exacerbations was compared between treatment groups using a negative binomial model including treatment, country, and baseline use of stable concomitant therapy with oral macrolides as fixed effects and log-exposure time on treatment as an offset.||1.349|0.747|0.97889
82420309|NCT04439903|164552105|OTHER||Intercept|1.9726|STANDARD_ERROR_OF_MEAN|3.8238||0.61532|TWO_SIDED||||||Regression, Linear|||||||0.61532
82420310|NCT04439903|164552105|OTHER||Slope|-0.68016|STANDARD_ERROR_OF_MEAN|1.0084||0.5128|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.5128
82420311|NCT04439903|164552105|OTHER||Slope|0.15238|STANDARD_ERROR_OF_MEAN|0.3629||0.68197|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.68197
82420312|NCT04439903|164552106|OTHER||Intercept|-0.49527|STANDARD_ERROR_OF_MEAN|0.44535||0.28789|TWO_SIDED||||||Regression, Linear|||||||0.28789
82420313|NCT04439903|164552106|OTHER||Slope|0.16785|STANDARD_ERROR_OF_MEAN|0.11745||0.17848|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.17848
82420314|NCT04439903|164552106|OTHER||Slope|-0.06091|STANDARD_ERROR_OF_MEAN|0.042266||0.17514|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.17514
82420315|NCT04439903|164552107|OTHER||Intercept|-0.28825|STANDARD_ERROR_OF_MEAN|0.59949||0.63929|TWO_SIDED||||||Regression, Linear|||||||0.63929
82420316|NCT04439903|164552107|OTHER||Slope|-0.14422|STANDARD_ERROR_OF_MEAN|0.1581||0.37964|TWO_SIDED||||||Regression, Linear||Predictor variable 1: Number of simulations per participant per week.|||||0.37964
82448011|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.13|||||TWO_SIDED|95.0|-5.09|-1.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.17|-5.09|
82448012|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-3.85|0.09||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.09|-3.85|
82448013|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.84|||||TWO_SIDED|95.0|-4.79|-0.88||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.88|-4.79|
82448014|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.32|||||TWO_SIDED|95.0|-3.25|0.6||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.60|-3.25|
82448015|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.97|||||TWO_SIDED|95.0|-3.9|-0.04||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.04|-3.90|
82448016|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.43|||||TWO_SIDED|95.0|-4.35|-0.5||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.50|-4.35|
82448017|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.75|||||TWO_SIDED|95.0|-4.66|-0.83||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.83|-4.66|
82448018|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.96|||||TWO_SIDED|95.0|-3.88|-0.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-3.88|
82534011|NCT04955626|164766127|OTHER||Geometric Mean Ration (GMR)|2.87|||||TWO_SIDED|95.0|2.18|3.78||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||3.78|2.18|
82534012|NCT04955626|164766128|OTHER||Geometric Mean Ratio (GMR)|2.64|||||TWO_SIDED|95.0|2.06|3.38||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||3.38|2.06|
82448019|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.08|||||TWO_SIDED|95.0|-5.0|-1.17||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.17|-5.00|
82448020|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.99|||||TWO_SIDED|95.0|-4.2|0.21||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.21|-4.20|
82448021|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.95|||||TWO_SIDED|95.0|-5.17|-0.72||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.72|-5.17|
82647351|NCT03101293|165009976|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as fixed effects and participant nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates of the food effect and 90% CIs.|LS Mean Ratio|1.154||||0.2745|TWO_SIDED|90.0|0.929|1.433|||ANOVA|||||1.433|0.929|0.2745
82448022|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.44|||||TWO_SIDED|95.0|-5.65|-1.23||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.23|-5.65|
82448023|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.32|||||TWO_SIDED|95.0|-5.52|-1.12||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.12|-5.52|
82448024|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.39|||||TWO_SIDED|95.0|-4.6|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-4.60|
82534013|NCT04955626|164766129|OTHER||Difference in Percentages|29.0|||||TWO_SIDED|95.0|17.2|40.3||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||40.3|17.2|
82534014|NCT04955626|164766130|OTHER||Difference in Percentages|21.0|||||TWO_SIDED|95.0|8.3|33.2||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||33.2|8.3|
82534015|NCT04955626|164766131|OTHER||Geometric Mean Ration (GMR)|9.95|||||TWO_SIDED|95.0|7.9|12.53||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]) and the corresponding CI (based on the student t distribution).||12.53|7.90|
82534016|NCT04955626|164766132|OTHER||Difference in Percentages|5.4|||||TWO_SIDED|95.0|-3.0|13.8||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||13.8|-3.0|
82534017|NCT04955626|164766139|OTHER||Geometric mean ratio (GMR)|2.23|||||TWO_SIDED|95.0|1.65|3.0||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||3.00|1.65|
82534018|NCT04955626|164766139|OTHER||Geometric mean ratio (GMR)|3.15|||||TWO_SIDED|95.0|2.38|4.16||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||4.16|2.38|
82534019|NCT04955626|164766139|OTHER||Geometric mean ratio (GMR)|1.56|||||TWO_SIDED|95.0|1.17|2.08||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||2.08|1.17|
82534020|NCT04955626|164766139|OTHER||Geometric mean ratio (GMR)|1.97|||||TWO_SIDED|95.0|1.45|2.68||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||2.68|1.45|
82534021|NCT04955626|164766140|OTHER||Difference in percentages|19.6|||||TWO_SIDED|95.0|9.3|29.7||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||29.7|9.3|
82647352|NCT03182920|165010000|SUPERIORITY||Ratio of geometric least squares means|1.21|||||TWO_SIDED|90.0|0.962|1.52||||||||1.52|0.962|
82534022|NCT04955626|164766140|OTHER||Difference in Percentages|29.1|||||TWO_SIDED|95.0|19.4|38.5||||||Difference in proportions, expressed as a percentage (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||38.5|19.4|
82534023|NCT04955626|164766140|OTHER||Difference in percentages|14.6|||||TWO_SIDED|95.0|4.0|24.9||||||Difference in proportions, expressed as a percentage (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||24.9|4.0|
82534024|NCT04955626|164766140|OTHER||Difference in Percentages|10.9|||||TWO_SIDED|95.0|0.1|21.4||||||Difference in proportions, expressed as a percentage (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 μg\]). 2-Sided CI based on the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.||21.4|0.1|
82534025|NCT04955626|164766148|OTHER||Geometric mean ratio (GMR)|0.79|||||TWO_SIDED|95.0|0.4|1.56||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.56|0.40|
82534026|NCT04955626|164766148|OTHER||Geometric mean ratio (GMR)|1.78|||||TWO_SIDED|95.0|0.93|3.43||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.43|0.93|
82534027|NCT04955626|164766148|OTHER||Geometric mean ratio (GMR)|2.35|||||TWO_SIDED|95.0|1.22|4.55||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.55|1.22|
82647353|NCT03182920|165010001|SUPERIORITY||Ratio of geometric least squares means|1.26|||||TWO_SIDED|90.0|1.03|1.55||||||||1.55|1.03|
82647354|NCT00467818|165010058|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||t-test, 2 sided|||||||1.0
82420317|NCT04439903|164552107|OTHER||Slope|0.06718|STANDARD_ERROR_OF_MEAN|0.056895||0.26057|TWO_SIDED||||||Regression, Linear||Predictor variable 2: Minutes of interaction with the Web-Based Simulation Tool per participant per week.|||||0.26057
82534028|NCT04955626|164766148|OTHER||Geometric mean ratio (GMR)|1.49|||||TWO_SIDED|95.0|0.76|2.89||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\]- BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.89|0.76|
82647355|NCT00467818|165010059|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||0.10
82647356|NCT00467818|165010061|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.5|TWO_SIDED||||||Mixed Models Analysis|||||||<0.5
82420318|NCT02899754|164552108|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Primary outcome assessed at 1 month post-intervention||||0.18
82420319|NCT02899754|164552110|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82534029|NCT04955626|164766148|OTHER||Geometric mean ratio (GMR)|2.33|||||TWO_SIDED|95.0|1.2|4.53||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.53|1.20|
82420320|NCT02899754|164552111|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82420321|NCT02899754|164552112|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82420322|NCT02899754|164552113|SUPERIORITY|||||||0.22|||||||t-test, 2 sided|||||||0.22
82420323|NCT02899754|164552114|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
82420324|NCT02899754|164552115|SUPERIORITY|||||||0.01|||||||Chi-squared|||chi-square test||||0.01
82420325|NCT02899754|164552116|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||0.64
82420326|NCT03769116|164552155|OTHER||Hodges-Lehmann treatment diff|6.11|||<|0.0001|TWO_SIDED|95.0|2.08|12.58|||Wilcoxon rank sum test|||Analysis conducted on changes from baseline.||12.58|2.08|< 0.0001
82420327|NCT03769116|164552156|OTHER||LSM Change Difference|0.8|STANDARD_ERROR_OF_MEAN|0.9|=|0.373|TWO_SIDED|95.0|-1.0|2.7|||Mixed-model for Repeated Measures|||||2.7|-1.0|= 0.3730
82420328|NCT03769116|164552164|OTHER||LSM Change Difference|2.5|STANDARD_ERROR_OF_MEAN|0.9|=|0.0172|TWO_SIDED|95.0|0.5|4.4|||Mixed-model for Repeated Measures|||Change from baseline - Age Group: 4-5 years old||4.4|0.5|= 0.0172
82420329|NCT03769116|164552164|OTHER||LSM Change Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.1|=|0.5384|TWO_SIDED|95.0|-3.0|1.6|||Mixed-model for Repeated Measures|||Change from baseline - Age Group: 6-7 years old||1.6|-3.0|= 0.5384
82420330|NCT02181413|164552174|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.582|0.89|||Log Rank|P-value was based on log-rank test stratified by pre-induction regimen, International Staging System (ISS) stage and response after transplantation.|HR was based on Cox's proportional hazard regression model stratified by pre-induction regimen, pre-induction ISS stage and response after transplantation. \<1 HR indicates better prevention of progression in Ixazomib arm compared to Placebo.|||0.890|0.582|0.002
82420331|NCT02181413|164552175|SUPERIORITY||Hazard Ratio (HR)|1.025||||0.85|TWO_SIDED|95.0|0.789|1.332||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.332|0.789|0.850
82420332|NCT02181413|164552176|SUPERIORITY||Odds Ratio (OR)|0.732||||0.37|TWO_SIDED|95.0|0.365|1.466||P-value is based on Cochran-Mantel-Haenszel (CMH) test stratified by pre-induction regimen, pre-induction international staging system (ISS), and response after transplantation at screening.|Cochran-Mantel-Haenszel||Odds ratio and CI are based on a logistic regression model with treatment group as a categorical predictor variable and pre-induction regimen, pre-induction ISS, and response after transplantation at screening as covariates.|CR||1.466|0.365|0.370
82420333|NCT02181413|164552177|SUPERIORITY||Hazard Ratio (HR)|0.716||||0.002|TWO_SIDED|95.0|0.579|0.886||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||0.886|0.579|0.002
82420334|NCT02181413|164552178|SUPERIORITY||Hazard Ratio (HR)|1.015||||0.902|TWO_SIDED|95.0|0.795|1.298||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.298|0.795|0.902
82420335|NCT02181413|164552179|SUPERIORITY||Hazard Ratio (HR)|0.833||||0.056|TWO_SIDED|95.0|0.69|1.005|||Log Rank|P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.005|0.690|0.056
82420336|NCT02181413|164552180|SUPERIORITY||Hazard Ratio (HR)|0.922||||0.431|TWO_SIDED|95.0|0.753|1.129||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage, and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.129|0.753|0.431
82420337|NCT02181413|164552181|SUPERIORITY||Hazard Ratio (HR)|1.179|||||TWO_SIDED|95.0|0.959|1.45|||||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.450|0.959|
82420338|NCT02181413|164552183|SUPERIORITY|||||||0.814||||||P-value was based on Fisher's exact test comparing conversion to MRD- at any time post study entry between treatment groups.|Fisher Exact|||||||0.814
82448025|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.87|||||TWO_SIDED|95.0|-6.07|-1.68||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-6.07|
82448026|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.62|||||TWO_SIDED|95.0|-0.1|3.34||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.34|-0.10|
82647357|NCT00467818|165010062|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.5
82647358|NCT01017029|165010063|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.482||||0.1043|TWO_SIDED|95.0|0.922|2.383|||Regression, Cox|||||2.383|0.922|0.1043
82420339|NCT02181413|164552184|SUPERIORITY|||||||0.805||||||P-value was based on fisher's exact test comparing conversion to MRD- at any time post study entry between treatment groups.|Fisher Exact|||||||0.805
82420340|NCT02181413|164552185|SUPERIORITY||Hazard Ratio (HR)|0.612||||0.034|TWO_SIDED|95.0|0.386|0.969||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD- at Study Entry||0.969|0.386|0.034
82420341|NCT02181413|164552185|SUPERIORITY||Hazard Ratio (HR)|0.704||||0.01|TWO_SIDED|95.0|0.539|0.92||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD+ at Study Entry||0.920|0.539|0.010
82647359|NCT01017029|165010065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.847||||0.0398|TWO_SIDED|95.0|1.029|3.315|||Regression, Cox|||||3.315|1.029|0.0398
82420342|NCT02181413|164552186|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.182|TWO_SIDED|95.0|0.414|1.184||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD- at Study Entry||1.184|0.414|0.182
82420343|NCT02181413|164552186|SUPERIORITY||Hazard Ratio (HR)|0.966||||0.847|TWO_SIDED|95.0|0.682|1.368||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|MRD+ at Study Entry||1.368|0.682|0.847
82420344|NCT02181413|164552187|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.905|TWO_SIDED|95.0|0.583|1.613||P-value was based on log-rank test stratified by pre-induction regimen, ISS stage and response after transplantation.|Log Rank||Hazard ratio is based on an unadjusted Cox's proportional hazard regression model stratified by induction regimen, pre-induction ISS, and response after transplantation, comparing the hazard rate of Ixazomib arm over the hazard rate of Placebo arm.|||1.613|0.583|0.905
82420345|NCT02181413|164552192|SUPERIORITY||Least Squares (LS) Mean Difference|-2.3||||0.074|TWO_SIDED|95.0|-4.9|0.2|||t-test, 2 sided|P-value was from the significance test for the coefficient of the interaction between treatment and visit.||||0.2|-4.9|0.074
82420346|NCT04003142|164552197|SUPERIORITY|Least squares Mean (LSM), Standard error (SE), Confidence interval (CI), Mixed model repeated measures (MMRM), Change from Baseline (CFB), Dependent variable (dv), Treatment (tr), Week (wk), Baseline (bl), Weight (wt)|Least squares (LS) Mean difference|-1.82|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-2.73|-0.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.91|-2.73|<0.001
82420347|NCT04003142|164552197|SUPERIORITY||LSMean difference|-2.55|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-3.45|-1.64||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.64|-3.45|<0.001
82420348|NCT04003142|164552197|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
82420349|NCT04003142|164552197|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
82420350|NCT04003142|164552198|SUPERIORITY||LSMean Difference|-1.86|STANDARD_ERROR_OF_MEAN|0.55|<|0.001||95.0|-2.94|-0.78||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.78|-2.94|<0.001
82534030|NCT04955626|164766149|OTHER||Geometric mean ratio (GMR)|0.76|||||TWO_SIDED|95.0|0.4|1.42||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.42|0.40|
82420351|NCT04003142|164552198|SUPERIORITY||LSMean difference|-2.53|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.6|-1.46||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.46|-3.60|<0.001
82420352|NCT04003142|164552198|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
82420353|NCT04003142|164552198|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
82420354|NCT04003142|164552199|SUPERIORITY||LSMean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.021||95.0|-0.27|-0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.02|-0.27|0.021
82420355|NCT04003142|164552199|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.06|<|0.001||95.0|-0.41|-0.16||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.16|-0.41|<0.001
82420356|NCT04003142|164552199|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
82420357|NCT04003142|164552199|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
82420358|NCT04003142|164552200|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.049||95.0|-0.33|0.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.00|-0.33|0.049
82420359|NCT04003142|164552200|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.45|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.13|-0.45|<0.001
82420360|NCT04003142|164552200|SUPERIORITY|||||||0.049|||||||Hochberg|||||||0.049
82420361|NCT04003142|164552200|SUPERIORITY||||||<|0.001|||||||Hochberg|||||||<0.001
82420362|NCT04003142|164552201|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.7||0.381|TWO_SIDED|95.0|-2.1|0.8||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.8|-2.1|0.381
82534031|NCT04955626|164766149|OTHER||Geometric mean ratio (GMR)|0.86|||||TWO_SIDED|95.0|0.47|1.58||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.58|0.47|
82647360|NCT01017029|165010067|SUPERIORITY_OR_OTHER|||||||0.0234|||||||Fisher Exact|||CMV infections||||0.0234
82647361|NCT01017029|165010068|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.403||||0.1966|TWO_SIDED|95.0|0.839|2.347|||Regression, Cox|||||2.347|0.839|0.1966
82534032|NCT04955626|164766149|OTHER||Geometric mean ratio (GMR)|1.06|||||TWO_SIDED|95.0|0.57|1.95||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.95|0.57|
82420363|NCT04003142|164552201|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.007|TWO_SIDED|95.0|-3.5|-0.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.6|-3.5|0.007
82420364|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.001|TWO_SIDED|95.0|-2.09|-0.51||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.51|-2.09|0.001
82420365|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.71|STANDARD_ERROR_OF_MEAN|0.4|<|0.001||95.0|-2.51|-0.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.91|-2.51|<0.001
82420366|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|-2.65|-0.87||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.87|-2.65|<0.001
82420367|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.97|STANDARD_ERROR_OF_MEAN|0.45|<|0.001||95.0|-2.86|-1.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.08|-2.86|<0.001
82420368|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-2.63|-0.84||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.84|-2.63|<0.001
82420369|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.46|<|0.001||95.0|-3.29|-1.5||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.50|-3.29|<0.001
82420370|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.84|STANDARD_ERROR_OF_MEAN|0.48|<|0.001||95.0|-2.79|-0.9||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.90|-2.79|<0.001
82420371|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.61|-1.72||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.72|-3.61|<0.001
82420372|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.78|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-2.71|-0.85||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.85|-2.71|<0.001
82420373|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.47|<|0.001||95.0|-3.59|-1.73||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.73|-3.59|<0.001
82420374|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.49|<|0.001||95.0|-2.77|-0.83||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.83|-2.77|<0.001
82420375|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.34|STANDARD_ERROR_OF_MEAN|0.49|<|0.001||95.0|-3.3|-1.37||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.37|-3.30|<0.001
82426634|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.14||||0.191|TWO_SIDED|95.0|-65.4|13.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||13.1|-65.4|0.1910
82534033|NCT04955626|164766149|OTHER||Geometric mean ratio (GMR)|1.13|||||TWO_SIDED|95.0|0.61|2.09||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.09|0.61|
82576703|NCT00477490|164863740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.3104|TWO_SIDED|95.0|-0.353|0.112||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||0.112|-0.353|0.3104
82577080|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.136||0.9737|TWO_SIDED|95.0|-0.26|0.27|||MMRM|||Insomnia - Early, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.26|0.9737
82534034|NCT04955626|164766149|OTHER||Geometric mean ratio (GMR)|1.35|||||TWO_SIDED|95.0|0.73|2.5||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.50|0.73|
82534035|NCT04955626|164766150|OTHER||Geometric mean ratio (GMR)|0.95|||||TWO_SIDED|95.0|0.58|1.56||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.56|0.58|
82534036|NCT04955626|164766150|OTHER||Geometric mean ratio (GMR)|1.22|||||TWO_SIDED|95.0|0.77|1.93||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.93|0.77|
82534037|NCT04955626|164766150|OTHER||Geometric mean ratio (GMR)|1.13|||||TWO_SIDED|95.0|0.71|1.8||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.80|0.71|
82534038|NCT04955626|164766150|OTHER||Geometric mean ratio (GMR)|1.16|||||TWO_SIDED|95.0|0.73|1.84||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.84|0.73|
82534039|NCT04955626|164766150|OTHER||Geometric mean ratio (GMR)|1.49|||||TWO_SIDED|95.0|0.94|2.37||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.37|0.94|
82420376|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.76|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.79|-0.74||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.74|-2.79|<0.001
82647362|NCT02354976|165010140|OTHER||Geometric mean ratio for difference|0.92||||0.407|TWO_SIDED|95.0|0.76|1.12|||Mixed Models Analysis|||||1.12|0.76|0.407
82420377|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.38|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-3.4|-1.35||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.35|-3.40|<0.001
82420378|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.65|STANDARD_ERROR_OF_MEAN|0.54||0.002||95.0|-2.71|-0.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.59|-2.71|0.002
82420379|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.51|STANDARD_ERROR_OF_MEAN|0.54|<|0.001||95.0|-3.57|-1.45||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.45|-3.57|<0.001
82420380|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.91|STANDARD_ERROR_OF_MEAN|0.54|<|0.001||95.0|-2.96|-0.86||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.86|-2.96|<0.001
82534040|NCT04955626|164766151|OTHER||Geometric mean ratio (GMR)|0.49|||||TWO_SIDED|95.0|0.24|1.03||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.03|0.24|
82534041|NCT04955626|164766151|OTHER||Geometric mean ratio (GMR)|1.84|||||TWO_SIDED|95.0|0.9|3.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.76|0.90|
82534042|NCT04955626|164766151|OTHER||Geometric mean ratio (GMR)|1.72|||||TWO_SIDED|95.0|0.84|3.5||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.50|0.84|
82420381|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.53|<|0.001||95.0|-3.69|-1.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.60|-3.69|<0.001
82420382|NCT04003142|164552202|SUPERIORITY||LSMean difference|-1.86|STANDARD_ERROR_OF_MEAN|0.53|<|0.001||95.0|-2.91|-0.81||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.81|-2.91|<0.001
82647363|NCT02354976|165010141|OTHER||Geometric mean ratio for difference|0.84||||0.077|TWO_SIDED|95.0|0.7|1.02|||Mixed Models Analysis|||||1.02|0.70|0.077
82647364|NCT03118765|165010142|OTHER|ANOVA|LS mean ratio (%)|29.4|||||TWO_SIDED|90.0|21.14|41.0|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||41.00|21.14|
82420383|NCT04003142|164552202|SUPERIORITY||LSMean difference|-2.56|STANDARD_ERROR_OF_MEAN|0.53|<|0.001|TWO_SIDED|95.0|-3.61|-1.52||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.52|-3.61|<0.001
82420384|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.001||95.0|-0.21|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.05|-0.21|0.001
82420385|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.24|-0.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.08|-0.24|<0.001
82420386|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.05||0.001||95.0|-0.28|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.07|-0.28|0.001
82420387|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.05||0.001|TWO_SIDED|95.0|-0.28|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.07|-0.28|0.001
82420388|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.067||95.0|-0.23|0.01||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||0.01|-0.23|0.067
82420389|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.35|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.11|-0.35|<0.001
82420390|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.02|TWO_SIDED|95.0|-0.3|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.03|-0.30|0.020
82420391|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.16||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.16|-0.43|<0.001
82420392|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.012|TWO_SIDED|95.0|-0.32|-0.04||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.04|-0.32|0.012
82420393|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001||95.0|-0.42|-0.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.14|-0.42|<0.001
82448027|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.36|2.05||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.05|-1.36|
82647365|NCT03118765|165010142|OTHER|ANOVA|LS mean ratio (%)|57.0|||||TWO_SIDED|90.0|41.37|78.46|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||78.46|41.37|
82420394|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.03|TWO_SIDED|95.0|-0.31|-0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.02|-0.31|0.030
82420395|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.14|-0.43|<0.001
82420396|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.095|TWO_SIDED|95.0|-0.28|0.02||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||0.02|-0.28|0.095
82420397|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.41|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.11|-0.41|<0.001
82420398|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.109|TWO_SIDED|95.0|-0.28|0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||0.03|-0.28|0.109
82420399|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.12|-0.43|<0.001
82420400|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02||95.0|-0.35|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.03|-0.35|0.020
82647366|NCT03118765|165010142|OTHER|ANOVA|LS mean ratio (%)|155.8|||||TWO_SIDED|90.0|111.88|216.99|||||Relative Bioavailability (%) based on CmaxSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on CmaxSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||216.99|111.88|
82420401|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.47|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.15|-0.47|<0.001
82420402|NCT04003142|164552203|SUPERIORITY||LSMean diferrence|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012||95.0|-0.37|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.05|-0.37|0.012
82420403|NCT04003142|164552203|SUPERIORITY||LSMean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001||95.0|-0.47|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.15|-0.47|<0.001
82420404|NCT04003142|164552204|SUPERIORITY||LSMean difference|-12.16|STANDARD_ERROR_OF_MEAN|3.43|<|0.001||95.0|-18.9|-5.43||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-5.43|-18.90|<0.001
82420405|NCT04003142|164552204|SUPERIORITY||LSMean difference|-15.68|STANDARD_ERROR_OF_MEAN|3.44|<|0.001||95.0|-22.44|-8.91||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-8.91|-22.44|<0.001
82420406|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.61|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-22.09|-7.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-7.13|-22.09|<0.001
82420407|NCT04003142|164552204|SUPERIORITY||LSMean difference|-15.95|STANDARD_ERROR_OF_MEAN|3.82|<|0.001|TWO_SIDED|95.0|-23.45|-8.45||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-8.45|-23.45|<0.001
82420408|NCT04003142|164552204|SUPERIORITY||LSMean difference|-15.51|STANDARD_ERROR_OF_MEAN|3.89|<|0.001||95.0|-23.16|-7.86||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-7.86|-23.16|<0.001
82420409|NCT04003142|164552204|SUPERIORITY||LSMean difference|-20.25|STANDARD_ERROR_OF_MEAN|3.9|<|0.001||95.0|-27.91|-12.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-12.59|-27.91|<0.001
82420410|NCT04003142|164552204|SUPERIORITY||LSMean difference|-16.34|STANDARD_ERROR_OF_MEAN|3.92|<|0.001||95.0|-24.04|-8.63||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-8.63|-24.04|<0.001
82448028|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77|||||TWO_SIDED|95.0|-0.94|2.48||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.48|-0.94|
82420411|NCT04003142|164552204|SUPERIORITY||LSMean difference|-21.65|STANDARD_ERROR_OF_MEAN|3.92|<|0.001||95.0|-29.36|-13.94||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-13.94|-29.36|<0.001
82420412|NCT04003142|164552204|SUPERIORITY||LSMean difference|-15.62|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-23.27|-7.98||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-7.98|-23.27|<0.001
82420413|NCT04003142|164552204|SUPERIORITY||LSMean difference|-22.88|STANDARD_ERROR_OF_MEAN|3.89|<|0.001||95.0|-30.52|-15.24||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-15.24|-30.52|<0.001
82420414|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.78|STANDARD_ERROR_OF_MEAN|3.87|<|0.001||95.0|-22.38|-7.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-7.19|-22.38|<0.001
82420415|NCT04003142|164552204|SUPERIORITY||LSMean difference|-22.66|STANDARD_ERROR_OF_MEAN|3.86|<|0.001|TWO_SIDED|95.0|-30.25|-15.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-15.07|-30.25|<0.001
82420416|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.97|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-22.86|-7.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-7.09|-22.86|<0.001
82420417|NCT04003142|164552204|SUPERIORITY||LSMean difference|-21.47|STANDARD_ERROR_OF_MEAN|4.01|<|0.001||95.0|-29.34|-13.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-13.60|-29.34|<0.001
82420418|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.38|STANDARD_ERROR_OF_MEAN|4.05|<|0.001|TWO_SIDED|95.0|-22.33|-6.43||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-6.43|-22.33|<0.001
82420419|NCT04003142|164552204|SUPERIORITY||LSMean difference|-20.57|STANDARD_ERROR_OF_MEAN|4.03|<|0.001||95.0|-28.5|-12.65||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-12.65|-28.50|<0.001
82420420|NCT04003142|164552204|SUPERIORITY||LSMean difference|-12.14|STANDARD_ERROR_OF_MEAN|4.07||0.003||95.0|-20.14|-4.14||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-4.14|-20.14|0.003
82420421|NCT04003142|164552204|SUPERIORITY||LSMean difference|-19.73|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-27.71|-11.755||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-11.755|-27.71|<0.001
82420422|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.4|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-22.25|-6.54||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-6.54|-22.25|<0.001
82420423|NCT04003142|164552204|SUPERIORITY||LSMean difference|-20.1|STANDARD_ERROR_OF_MEAN|3.98|<|0.001||95.0|-27.93|-12.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-12.27|-27.93|<0.001
82420424|NCT04003142|164552204|SUPERIORITY||LSMean difference|-14.96|STANDARD_ERROR_OF_MEAN|4.07|<|0.001||95.0|-22.96|-6.96||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-6.96|-22.96|<0.001
82420425|NCT04003142|164552204|SUPERIORITY||LSMean difference|-20.15|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.13|-12.18||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-12.18|-28.13|<0.001
82647367|NCT03118765|165010143|OTHER|ANOVA|LS mean ratio (%)|39.7|||||TWO_SIDED|90.0|29.79|52.87|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||52.87|29.79|
82647368|NCT03118765|165010143|OTHER|ANOVA|LS mean ratio (%)|85.2|||||TWO_SIDED|90.0|64.43|112.64|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||112.64|64.43|
82420426|NCT04003142|164552204|SUPERIORITY||LSMean difference|-13.64|STANDARD_ERROR_OF_MEAN|4.07|<|0.001||95.0|-21.62|-5.65||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-5.65|-21.62|<0.001
82420427|NCT04003142|164552204|SUPERIORITY||LSMean difference|-18.94|STANDARD_ERROR_OF_MEAN|4.05|<|0.001||95.0|-26.89|-10.98||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-10.98|-26.89|<0.001
82420428|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|1.881||||0.02||95.0|1.11|3.233||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||3.233|1.110|0.020
82420429|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.645|||<|0.001|TWO_SIDED|95.0|1.585|4.498||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||4.498|1.585|<0.001
82420430|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.464|||<|0.001||95.0|1.535|4.001||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.001|1.535|<0.001
82420431|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.464|||<|0.001|TWO_SIDED|95.0|1.534|4.004||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.004|1.534|<0.001
82420432|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.367|||<|0.001||95.0|1.502|3.762||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.762|1.502|<0.001
82420433|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.894|||<|0.001||95.0|1.835|4.609||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||4.609|1.835|<0.001
82420434|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.902|||<|0.001|TWO_SIDED|95.0|1.829|4.657||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.657|1.829|<0.001
82420435|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|3.218|||<|0.001||95.0|2.025|5.172||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||5.172|2.025|<0.001
82420436|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.153|||<|0.001||95.0|1.375|3.394||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||3.394|1.375|<0.001
82420437|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|3.074|||<|0.001||95.0|1.957|4.878||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||4.878|1.957|<0.001
82420438|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.05||||0.002||95.0|1.31|3.228||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.228|1.310|0.002
82420439|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.908|||<|0.001||95.0|1.856|4.599||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.599|1.856|<0.001
82420440|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.113||||0.001||95.0|1.349|3.332||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.332|1.349|0.001
82420441|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.594|||<|0.001||95.0|1.653|4.104||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||4.104|1.653|<0.001
82420442|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|1.891||||0.005|TWO_SIDED|95.0|1.21|2.973||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||2.973|1.210|0.005
82448029|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-2.01|1.38||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.38|-2.01|
82420443|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|3.314|||<|0.001||95.0|2.108|5.265||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||5.265|2.108|<0.001
82420444|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|1.646||||0.027||95.0|1.06|2.566||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||2.566|1.060|0.027
82420445|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.347|||<|0.001||95.0|1.507|3.683||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.683|1.507|<0.001
82420446|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|1.792||||0.01|TWO_SIDED|95.0|1.153|2.799||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||2.799|1.153|0.010
82420447|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.819|||<|0.001||95.0|1.805|4.441||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||4.441|1.805|<0.001
82420448|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.357|||<|0.001||95.0|1.513|3.699||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.699|1.513|<0.001
82420449|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|3.131|||<|0.001||95.0|1.999|4.95||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.950|1.999|<0.001
82420450|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|1.373||||0.152||95.0|0.891|2.122||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||2.122|0.891|0.152
82420451|NCT04003142|164552205|SUPERIORITY||Odds Ratio (OR)|2.09|||<|0.001||95.0|1.351|3.252||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||3.252|1.351|<0.001
82420452|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|0.915||||0.951||95.0|0.036|23.464||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||23.464|0.036|0.951
82420453|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.889||||0.362|TWO_SIDED|95.0|0.364|58.864||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||58.864|0.364|0.362
82420454|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.775||||0.138||95.0|0.785|12.87||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||12.870|0.785|0.138
82420455|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.342||||0.704||95.0|0.291|6.914||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||6.914|0.291|0.704
82420456|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|0.798||||0.741||95.0|0.194|3.079||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.079|0.194|0.741
82420457|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.292||||0.134||95.0|0.809|7.443||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||7.443|0.809|0.134
82420458|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|3.474||||0.062||95.0|1.039|15.712||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||15.712|1.039|0.062
82420459|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|6.184||||0.004||95.0|2.025|26.875||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||26.875|2.025|0.004
82420460|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|4.217||||0.028|TWO_SIDED|95.0|1.305|18.806||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||18.806|1.305|0.028
82420461|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|3.802||||0.044||95.0|1.157|17.075||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||17.075|1.157|0.044
82420462|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.342||||0.519||95.0|0.551|3.382||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.382|0.551|0.519
82448030|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.17|||||TWO_SIDED|95.0|-0.79|3.12||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.12|-0.79|
82420463|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.961||||0.117||95.0|0.863|4.741||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.741|0.863|0.117
82420464|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.471||||0.393||95.0|0.612|3.687||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.687|0.612|0.393
82420465|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.087||||0.086||95.0|0.923|5.043||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||5.043|0.923|0.086
82534043|NCT04955626|164766151|OTHER||Geometric mean ratio (GMR)|1.75|||||TWO_SIDED|95.0|0.85|3.59||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.59|0.85|
82420466|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.774||||0.168||95.0|0.798|4.143||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||4.143|0.798|0.168
82420467|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.374||||0.03||95.0|1.112|5.41||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||5.410|1.112|0.030
82420468|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.605||||0.287|TWO_SIDED|95.0|0.681|3.971||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.971|0.681|0.287
82420469|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.108||||0.08||95.0|0.936|5.076||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||5.076|0.936|0.080
82420470|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.599||||0.247|TWO_SIDED|95.0|0.73|3.636||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||3.636|0.730|0.247
82420471|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|2.481||||0.017||95.0|1.201|5.441||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||5.441|1.201|0.017
82534044|NCT04955626|164766151|OTHER||Geometric mean ratio (GMR)|1.56|||||TWO_SIDED|95.0|0.76|3.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.20|0.76|
82647369|NCT03118765|165010143|OTHER|ANOVA|LS mean ratio (%)|211.5|||||TWO_SIDED|90.0|158.8|281.8|||||Relative Bioavailability (%) based on AUC0-tauSS for of GSP304 in comparison to SPIRIVA RESPIMAT|GSP 304 vs SPIRIVA RESPIMAT 5 μg comparison for relative bioavailability data based on AUC0-tauSS was tested and the estimated treatment ratios for the treatment comparisons was presented.||281.80|158.80|
82647370|NCT03118765|165010144|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.228|TWO_SIDED|95.0|-0.04|0.17|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.17|-0.04|0.228
82534045|NCT04955626|164766152|OTHER||Geometric mean ratio (GMR)|0.5|||||TWO_SIDED|95.0|0.26|0.95||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||0.95|0.26|
82534046|NCT04955626|164766152|OTHER||Geometric mean ratio (GMR)|0.76|||||TWO_SIDED|95.0|0.41|1.43||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.43|0.41|
82534047|NCT04955626|164766152|OTHER||Geometric mean ratio (GMR)|0.98|||||TWO_SIDED|95.0|0.52|1.84||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.84|0.52|
82534048|NCT04955626|164766152|OTHER||Geometric mean ratio (GMR)|0.96|||||TWO_SIDED|95.0|0.51|1.8||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.80|0.51|
82534049|NCT04955626|164766152|OTHER||Geometric mean ratio (GMR)|0.71|||||TWO_SIDED|95.0|0.38|1.34||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.34|0.38|
82534050|NCT04955626|164766153|OTHER||Geometric mean ratio (GMR)|0.72|||||TWO_SIDED|95.0|0.38|1.37||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.37|0.38|
82647371|NCT03118765|165010144|SUPERIORITY||Mean Difference (Net)|0.02||||0.655|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.13|-0.08|0.655
82647372|NCT03118765|165010144|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.894|TWO_SIDED|95.0|-0.1|0.11|||MMRM|||GSP 304 vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.11|-0.10|0.894
82420472|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.728||||0.212||95.0|0.744|4.236||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.236|0.744|0.212
82420473|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|3.536||||0.002||95.0|1.666|8.207||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||8.207|1.666|0.002
82420474|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|1.701||||0.225||95.0|0.733|4.169||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||4.169|0.733|0.225
82647373|NCT03118765|165010144|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.26|TWO_SIDED|95.0|-0.04|0.16|||MMRM|||SPIRIVA RESPIMAT 5 μg vs Placebo comparison for change from baseline in trough FEV1 was tested at 0.05 significance level.||0.16|-0.04|0.260
82647374|NCT03118765|165010145|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 10 μg was (Geo mean: 108200 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
82647375|NCT03118765|165010145|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 20 μg was (Geo mean: 263100 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
82647376|NCT03118765|165010145|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 1 for GSP304 40 μg was (Geo mean: 438300 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 120300 pg).|||
82647377|NCT03118765|165010146|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 10 μg was (Geo mean: 293700 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
82420475|NCT04003142|164552206|SUPERIORITY||Odds Ratio (OR)|3.049||||0.006||95.0|1.42|7.125||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||7.125|1.420|0.006
82420476|NCT03382873|164552211|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82420477|NCT03382873|164552212|SUPERIORITY|||||||0.0001|||||||ANOVA|Intervention sequence and sex were used as independent predictors in the model.||Compares the change for the GLB/GLB intervention sequence to the GLB+/GLB+ intervention sequence (the primary comparison of interest)||||0.0001
82420478|NCT03382873|164552213|SUPERIORITY|||||||0.9476|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison of the GLB/GLB intervention sequence to the GLB+/GLB+ intervention sequence (the primary comparison of interest).||||0.9476
82420479|NCT03382873|164552214|SUPERIORITY|||||||0.0112|||||||ANOVA|Treatment group, time and their interaction were fixed effects and participants were random effects||||||0.0112
82420480|NCT03382873|164552215|SUPERIORITY|||||||0.9085|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison of GLB/GLB intervention sequence to GLB+/GLB+ intervention sequence (the primary comparison of interest).||||0.9085
82448031|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-1.1|2.82||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.82|-1.10|
82448032|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-1.19|2.72||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.72|-1.19|
82448033|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-2.24|1.66||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.66|-2.24|
82448034|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.76|||||TWO_SIDED|95.0|-0.16|3.67||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.67|-0.16|
82448035|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.12|||||TWO_SIDED|95.0|-0.81|3.04||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.04|-0.81|
82420481|NCT03382873|164552216|SUPERIORITY|||||||0.2063|||||||ANOVA|Intervention sequence and sex used as independent predictors in the model.||Comparison between the GLB/GLB intervention sequence and the GLB+/GLB+ intervention sequence (the primary comparison of interest)||||0.2063
82420482|NCT03657407|164552225|SUPERIORITY||Mean Difference (Final Values)|-0.65||||0.17|TWO_SIDED|95.0|-0.71|2.0|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||2.0|-0.71|0.17
82448036|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-1.26|2.57||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.57|-1.26|
82448037|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-1.57|2.25||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.25|-1.57|
82420483|NCT03657407|164552226|SUPERIORITY||Mean Difference (Final Values)|-2.02||||0.29|TWO_SIDED|95.0|-5.4|9.5|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||9.5|-5.4|0.29
82448038|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.88|||||TWO_SIDED|95.0|-0.31|4.07||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.07|-0.31|
82448039|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|||||TWO_SIDED|95.0|-1.28|3.13||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.13|-1.28|
82448040|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-1.76|2.62||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.62|-1.76|
82448041|NCT01393639|164604458|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-1.63|2.74||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.74|-1.63|
82448042|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.49|||||TWO_SIDED|95.0|-12.52|3.55||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.55|-12.52|
82647378|NCT03118765|165010146|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 20 μg was (Geo mean: 436500 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
82420484|NCT03657407|164552227|SUPERIORITY||Median Difference (Final Values)|-19.31||||0.05|TWO_SIDED|95.0|-43.1|4.5|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||4.5|-43.1|0.05
82420485|NCT03657407|164552228|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.42|TWO_SIDED|95.0|0.42|1.7|||t-test, 1 sided|||Null hypothesis that Belladonna \& Opium not superior to Placebo||1.7|0.42|0.42
82420486|NCT03109769|164552267|SUPERIORITY|||||||0.0444|||||||Wilcoxon (Mann-Whitney)|||"The sample size was calculated as 44 participants. Sample size calculation was carried out through a pilot study on 30 participants with the group I mean=1.31, SD=0.39 and group II mean=1.62, SD=0.30, with ⍺=0.05 and 80% power.~The null hypothesis was: there is no difference in plaque index and gingival index between verbal oral hygiene instructions and oral hygiene instructions using mobile applications in patients with orthodontic fixed appliances."||||0.0444
82420487|NCT03109769|164552267|SUPERIORITY||Mean Difference (Net)|-0.1373||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in plaque index within the first group (mobile phone application) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~plaque index at 4 weeks - plaque index at baseline"|||||0.0002
82420488|NCT03109769|164552267|SUPERIORITY||Median Difference (Final Values)|0.0932||||0.0283|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in plaque index within the second group (verbal oral hygiene instructions) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~plaque index at 4 weeks - plaque index at baseline"|||||0.0283
82534051|NCT04955626|164766153|OTHER||Geometric mean ratio (GMR)|1.19|||||TWO_SIDED|95.0|0.65|2.21||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.21|0.65|
82534052|NCT04955626|164766153|OTHER||Geometric mean ratio (GMR)|1.63|||||TWO_SIDED|95.0|0.88|3.02||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.02|0.88|
82420489|NCT03109769|164552268|SUPERIORITY|||||||0.0283|||||||Wilcoxon (Mann-Whitney)|||"The sample size was calculated as 44 participants. Sample size calculation was carried out through a pilot study on 30 participants with the group I mean=1.31, SD=0.39 and group II mean=1.62, SD=0.30, with ⍺=0.05 and 80% power.~The null hypothesis was: there is no difference in plaque index and gingival index between verbal oral hygiene instructions and oral hygiene instructions using mobile applications in patients with orthodontic fixed appliances."||||0.0283
82420490|NCT03109769|164552268|SUPERIORITY||Mean Difference (Net)|-0.1177||||0.0002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in gingival index within the first group (mobile phone application) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~gingival index at 4 weeks - gingival index at baseline"|||||0.0002
82534053|NCT04955626|164766153|OTHER||Geometric mean ratio (GMR)|1.28|||||TWO_SIDED|95.0|0.68|2.39||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.39|0.68|
82534054|NCT04955626|164766153|OTHER||Geometric mean ratio (GMR)|1.42|||||TWO_SIDED|95.0|0.76|2.67||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.67|0.76|
82534055|NCT04955626|164766154|OTHER||Geometric mean ratio (GMR)|0.52|||||TWO_SIDED|95.0|0.21|1.25||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.25|0.21|
82420491|NCT03109769|164552268|SUPERIORITY||Mean Difference (Net)|0.1014||||0.4809|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Difference in gingival index within the second group (verbal oral hygiene instructions) at 4 weeks compared to baseline.~The mean difference was calculated as follows:~gingival index at 4 weeks - gingival index at baseline"|||||0.4809
82420492|NCT00834587|164552280|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.1||||||90.0|92.4|106.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.2|92.4|
82420493|NCT00834587|164552281|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.7||||||90.0|98.8|102.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.6|98.8|
82420494|NCT00834587|164552282|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.6||||||90.0|98.8|102.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.5|98.8|
82534056|NCT04955626|164766154|OTHER||Geometric mean ratio (GMR)|2.07|||||TWO_SIDED|95.0|0.88|4.88||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.88|0.88|
82534057|NCT04955626|164766154|OTHER||Geometric mean ratio (GMR)|2.96|||||TWO_SIDED|95.0|1.24|7.06||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.06|1.24|
82534058|NCT04955626|164766154|OTHER||Geometric mean ratio (GMR)|1.52|||||TWO_SIDED|95.0|0.64|3.62||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.62|0.64|
82534059|NCT04955626|164766154|OTHER||Geometric mean ratio|1.53|||||TWO_SIDED|95.0|0.64|3.67||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.67|0.64|
82534060|NCT04955626|164766155|OTHER||Geometric mean ratio (GMR)|0.52|||||TWO_SIDED|95.0|0.25|1.09||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.09|0.25|
82647379|NCT03118765|165010146|OTHER||||||||||||||||||The mean amount of tiotropium excreted in urine over the dosing interval on Day 21 for GSP304 40 μg was (Geo mean: 1249000 pg) and for SPIRIVA RESPIMAT 5 μg was (Geo mean: 620200 pg).|||
82420495|NCT00834587|164552283|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|101.7||||||90.0|97.3|106.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.3|97.3|
82534061|NCT04955626|164766155|OTHER||Geometric mean ratio (GMR)|1.0|||||TWO_SIDED|95.0|0.49|2.04||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.04|0.49|
82534062|NCT04955626|164766155|OTHER||Geometric mean ratio (GMR)|1.29|||||TWO_SIDED|95.0|0.63|2.68||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.68|0.63|
82647380|NCT03118765|165010147|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean Fe (%) eliminated in urine was 1.082% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
82420496|NCT00834587|164552284|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.2||||||90.0|96.5|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.0|96.5|
82420497|NCT00834587|164552285|NON_INFERIORITY_OR_EQUIVALENCE|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|99.1||||||90.0|96.5|101.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.8|96.5|
82420498|NCT02037984|164552329|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.81|||||TWO_SIDED|95.0|0.6|1.1||||||||1.10|0.60|
82420499|NCT02037984|164552329|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.22|||||TWO_SIDED|95.0|1.64|3.02||||||||3.02|1.64|
82420500|NCT02037984|164552329|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.37|||||TWO_SIDED|95.0|1.01|1.84||||||||1.84|1.01|
82420501|NCT02037984|164552329|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.71|||||TWO_SIDED|95.0|0.48|1.05||||||||1.05|0.48|
82420502|NCT02037984|164552329|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.6|||||TWO_SIDED|95.0|0.32|1.13||||||||1.13|0.32|
82420503|NCT02037984|164552329|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.34|||||TWO_SIDED|95.0|0.16|0.73||||||||0.73|0.16|
82420504|NCT02037984|164552329|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.72|||||TWO_SIDED|95.0|0.51|1.02||||||||1.02|0.51|
82420505|NCT02037984|164552329|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.74|||||TWO_SIDED|95.0|0.51|1.08||||||||1.08|0.51|
82420506|NCT02037984|164552329|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.59|||||TWO_SIDED|95.0|0.39|0.9||||||||0.90|0.39|
82420507|NCT02037984|164552329|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.92|||||TWO_SIDED|95.0|0.64|1.31||||||||1.31|0.64|
82420508|NCT02037984|164552329|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.88|||||TWO_SIDED|95.0|0.61|1.27||||||||1.27|0.61|
82420509|NCT02037984|164552329|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.22|||||TWO_SIDED|95.0|0.83|1.78||||||||1.78|0.83|
82420510|NCT02037984|164552329|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.91|||||TWO_SIDED|95.0|0.57|1.45||||||||1.45|0.57|
82420511|NCT02037984|164552329|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|67.5|||||TWO_SIDED|95.0|45.58|99.97||||||||99.97|45.58|
82420512|NCT02037984|164552329|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|23.9|||||TWO_SIDED|95.0|13.21|43.24||||||||43.24|13.21|
82420513|NCT02037984|164552330|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.52|||||TWO_SIDED|95.0|0.39|0.7||||||||0.70|0.39|
82420514|NCT02037984|164552330|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|1.79|||||TWO_SIDED|95.0|1.33|2.41||||||||2.41|1.33|
82420515|NCT02037984|164552330|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|0.87|||||TWO_SIDED|95.0|0.65|1.16||||||||1.16|0.65|
82420516|NCT02037984|164552330|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.51|||||TWO_SIDED|95.0|0.35|0.74||||||||0.74|0.35|
82420517|NCT02037984|164552330|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.31|||||TWO_SIDED|95.0|0.17|0.58||||||||0.58|0.17|
82420518|NCT02037984|164552330|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.16|||||TWO_SIDED|95.0|0.08|0.34||||||||0.34|0.08|
82420519|NCT02037984|164552330|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.48|||||TWO_SIDED|95.0|0.34|0.67||||||||0.67|0.34|
82420520|NCT02037984|164552330|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.56|||||TWO_SIDED|95.0|0.39|0.82||||||||0.82|0.39|
82420521|NCT02037984|164552330|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.64|||||TWO_SIDED|95.0|0.42|0.97||||||||0.97|0.42|
82420522|NCT02037984|164552330|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.85|||||TWO_SIDED|95.0|0.6|1.21||||||||1.21|0.60|
82420523|NCT02037984|164552330|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.66|||||TWO_SIDED|95.0|0.46|0.95||||||||0.95|0.46|
82420524|NCT02037984|164552330|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.11|||||TWO_SIDED|95.0|0.77|1.6||||||||1.60|0.77|
82420525|NCT02037984|164552330|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.68|||||TWO_SIDED|95.0|0.43|1.07||||||||1.07|0.43|
82420526|NCT02037984|164552330|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|44.61|||||TWO_SIDED|95.0|30.42|65.43||||||||65.43|30.42|
82420527|NCT02037984|164552330|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|15.29|||||TWO_SIDED|95.0|8.58|27.26||||||||27.26|8.58|
82420528|NCT02037984|164552331|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.78|||||TWO_SIDED|95.0|0.57|1.07||||||||1.07|0.57|
82420529|NCT02037984|164552331|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.68|||||TWO_SIDED|95.0|1.95|3.68||||||||3.68|1.95|
82420530|NCT02037984|164552331|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.52|||||TWO_SIDED|95.0|1.11|2.07||||||||2.07|1.11|
82420531|NCT02037984|164552331|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.68|||||TWO_SIDED|95.0|0.46|1.02||||||||1.02|0.46|
82420532|NCT02037984|164552331|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.33|||||TWO_SIDED|95.0|0.17|0.64||||||||0.64|0.17|
82420533|NCT02037984|164552331|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.11|||||TWO_SIDED|95.0|0.05|0.23||||||||0.23|0.05|
82420534|NCT02037984|164552331|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.73|||||TWO_SIDED|95.0|0.51|1.04||||||||1.04|0.51|
82420535|NCT02037984|164552331|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.88|||||TWO_SIDED|95.0|0.59|1.3||||||||1.30|0.59|
82420536|NCT02037984|164552331|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|1.03|||||TWO_SIDED|95.0|0.66|1.6||||||||1.60|0.66|
82420537|NCT02037984|164552331|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.96|||||TWO_SIDED|95.0|0.66|1.39||||||||1.39|0.66|
82420538|NCT02037984|164552331|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.64|1.39||||||||1.39|0.64|
82420539|NCT02037984|164552331|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|1.24|||||TWO_SIDED|95.0|0.84|1.84||||||||1.84|0.84|
82420540|NCT02037984|164552331|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.75|||||TWO_SIDED|95.0|0.46|1.23||||||||1.23|0.46|
82420541|NCT02037984|164552331|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|77.57|||||TWO_SIDED|95.0|51.6|116.6||||||||116.60|51.60|
82420542|NCT02037984|164552331|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|15.66|||||TWO_SIDED|95.0|8.46|28.98||||||||28.98|8.46|
82420543|NCT02037984|164552332|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.68|||||TWO_SIDED|95.0|0.5|0.93||||||||0.93|0.50|
82420544|NCT02037984|164552332|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.21|||||TWO_SIDED|95.0|1.62|3.02||||||||3.02|1.62|
82420545|NCT02037984|164552332|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|0.97|||||TWO_SIDED|95.0|0.71|1.31||||||||1.31|0.71|
82420546|NCT02037984|164552332|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.53|||||TWO_SIDED|95.0|0.36|0.79||||||||0.79|0.36|
82420547|NCT02037984|164552332|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.49|||||TWO_SIDED|95.0|0.26|0.94||||||||0.94|0.26|
82420548|NCT02037984|164552332|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.36|||||TWO_SIDED|95.0|0.17|0.77||||||||0.77|0.17|
82420549|NCT02037984|164552332|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.6|||||TWO_SIDED|95.0|0.42|0.85||||||||0.85|0.42|
82420550|NCT02037984|164552332|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.79|||||TWO_SIDED|95.0|0.54|1.16||||||||1.16|0.54|
82420551|NCT02037984|164552332|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.74|||||TWO_SIDED|95.0|0.48|1.14||||||||1.14|0.48|
82420552|NCT02037984|164552332|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.66|||||TWO_SIDED|95.0|0.46|0.95||||||||0.95|0.46|
82420553|NCT02037984|164552332|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.7|||||TWO_SIDED|95.0|0.48|1.02||||||||1.02|0.48|
82420554|NCT02037984|164552332|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|0.88|||||TWO_SIDED|95.0|0.6|1.29||||||||1.29|0.60|
82647381|NCT03118765|165010147|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean Fe (%) eliminated in urine was 1.316% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
82420555|NCT02037984|164552332|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.69|||||TWO_SIDED|95.0|0.43|1.12||||||||1.12|0.43|
82420556|NCT02037984|164552332|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|56.08|||||TWO_SIDED|95.0|37.66|83.52||||||||83.52|37.66|
82420557|NCT02037984|164552332|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|25.75|||||TWO_SIDED|95.0|14.18|46.78||||||||46.78|14.18|
82420558|NCT02037984|164552333|OTHER|PT1 GMC Ratio (V114/Prevnar 13®)|PT1 GMC Ratio|0.8|||||TWO_SIDED|95.0|0.58|1.09||||||||1.09|0.58|
82420559|NCT02037984|164552333|OTHER|PT3 GMC Ratio (V114/Prevnar 13®)|PT3 GMC Ratio|2.55|||||TWO_SIDED|95.0|1.86|3.49||||||||3.49|1.86|
82420560|NCT02037984|164552333|OTHER|PT4 GMC Ratio (V114/Prevnar 13®)|PT4 GMG Ratio|1.07|||||TWO_SIDED|95.0|0.79|1.46||||||||1.46|0.79|
82420561|NCT02037984|164552333|OTHER|PT5 GMC Ratio (V114/Prevnar 13®)|PT5 GMC Ratio|0.51|||||TWO_SIDED|95.0|0.34|0.76||||||||0.76|0.34|
82420562|NCT02037984|164552333|OTHER|PT6A GMC Ratio (V114/Prevnar 13®)|PT6A GMC Ratio|0.34|||||TWO_SIDED|95.0|0.17|0.65||||||||0.65|0.17|
82420563|NCT02037984|164552333|OTHER|PT6B GMC Ratio (V114/Prevnar 13®)|PT6B GMG Ratio|0.18|||||TWO_SIDED|95.0|0.08|0.38||||||||0.38|0.08|
82420564|NCT02037984|164552333|OTHER|PT7F GMC Ratio (V114/Prevnar 13®)|PT7F GMC Ratio|0.59|||||TWO_SIDED|95.0|0.41|0.84||||||||0.84|0.41|
82420565|NCT02037984|164552333|OTHER|PT9V GMC Ratio (V114/Prevnar 13®)|PT9V GMC Ratio|0.68|||||TWO_SIDED|95.0|0.46|1.01||||||||1.01|0.46|
82420566|NCT02037984|164552333|OTHER|PT14 GMC Ratio (V114/Prevnar®)|PT9V GMC Ratio|0.79|||||TWO_SIDED|95.0|0.51|1.22||||||||1.22|0.51|
82420567|NCT02037984|164552333|OTHER|PT18C GMC Ratio (V114/Prevnar 13®)|PT18C GMC Ratio|0.72|||||TWO_SIDED|95.0|0.5|1.05||||||||1.05|0.50|
82420568|NCT02037984|164552333|OTHER|PT19A GMC Ratio (V114/Prevnar 13®)|PT19A GMC Ratio|0.55|||||TWO_SIDED|95.0|0.37|0.8||||||||0.80|0.37|
82420569|NCT02037984|164552333|OTHER|PT19F GMC Ratio (V114/Prevnar 13®)|PT19F GMC Ratio|0.97|||||TWO_SIDED|95.0|0.66|1.44||||||||1.44|0.66|
82420570|NCT02037984|164552333|OTHER|PT23F GMC Ratio (V114/Prevnar 13®)|PT23F GMC Ratio|0.79|||||TWO_SIDED|95.0|0.49|1.28||||||||1.28|0.49|
82420571|NCT02037984|164552333|OTHER|non-PT22F GMC Ratio (V114/Prevnar 13®)|non-PT22F GMC Ratio|68.64|||||TWO_SIDED|95.0|45.81|102.84||||||||102.84|45.81|
82420572|NCT02037984|164552333|OTHER|non-PT33F GMC Ratio (V114/Prevnar 13®)|non-PT33F GMC Ratio|20.03|||||TWO_SIDED|95.0|10.88|36.88||||||||36.88|10.88|
82420573|NCT02037984|164552337|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.2|||||TWO_SIDED|95.0|-16.3|6.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.5|-16.3|
82420574|NCT02037984|164552337|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|14.6|||||TWO_SIDED|95.0|-4.1|32.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||32.5|-4.1|
82420575|NCT02037984|164552337|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-7.0|||||TWO_SIDED|95.0|-22.8|5.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.7|-22.8|
82420576|NCT02037984|164552337|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420577|NCT02037984|164552337|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420578|NCT02037984|164552337|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420579|NCT02037984|164552337|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82448043|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.15|||||TWO_SIDED|95.0|-18.1|-2.2||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.20|-18.10|
82420580|NCT02037984|164552337|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82448044|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.93|||||TWO_SIDED|95.0|-18.94|-2.92||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.92|-18.94|
82448045|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.12|||||TWO_SIDED|95.0|-24.01|-8.24||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.24|-24.01|
82448046|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.45|||||TWO_SIDED|95.0|-13.45|2.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.56|-13.45|
82448047|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-22.09|-6.11||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.11|-22.09|
82448048|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.42|||||TWO_SIDED|95.0|-11.13|4.29||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.29|-11.13|
82534063|NCT04955626|164766155|OTHER||Geometric mean ratio (GMR)|0.78|||||TWO_SIDED|95.0|0.38|1.59||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.59|0.38|
82534064|NCT04955626|164766155|OTHER||Geometric mean ratio (GMR)|0.66|||||TWO_SIDED|95.0|0.32|1.36||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.36|0.32|
82534065|NCT04955626|164766156|OTHER||Geometric mean ratio (GMR)|0.75|||||TWO_SIDED|95.0|0.32|1.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||1.76|0.32|
82534066|NCT04955626|164766156|OTHER||Geometric mean ratio (GMR)|1.69|||||TWO_SIDED|95.0|0.74|3.85||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.85|0.74|
82534067|NCT04955626|164766156|OTHER||Geometric mean ratio (GMR)|2.12|||||TWO_SIDED|95.0|0.92|4.91||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.91|0.92|
82448049|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.98|||||TWO_SIDED|95.0|-15.7|-0.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.26|-15.70|
82420581|NCT02037984|164552337|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82448050|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.17|||||TWO_SIDED|95.0|-12.93|2.59||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.59|-12.93|
82448051|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.22|||||TWO_SIDED|95.0|-17.9|-2.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.54|-17.90|
82448052|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.43|||||TWO_SIDED|95.0|-5.32|10.19||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.19|-5.32|
82448053|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.14|||||TWO_SIDED|95.0|-18.83|-3.45||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.45|-18.83|
82420582|NCT02037984|164552337|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420583|NCT02037984|164552337|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420584|NCT02037984|164552337|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82448054|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.42|||||TWO_SIDED|95.0|-12.44|1.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.59|-12.44|
82448055|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.24|||||TWO_SIDED|95.0|-19.27|-5.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.20|-19.27|
82448056|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.13|||||TWO_SIDED|95.0|-16.11|-2.14||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.14|-16.11|
82420585|NCT02037984|164552337|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.2|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.2|
82420586|NCT02037984|164552337|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
82448057|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.88|||||TWO_SIDED|95.0|-16.89|-2.88||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.88|-16.89|
82448058|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.61|||||TWO_SIDED|95.0|-9.63|4.4||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.40|-9.63|
82448059|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.93|||||TWO_SIDED|95.0|-19.88|-5.98||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.98|-19.88|
82448060|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-10.03|3.83||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.83|-10.03|
82534068|NCT04955626|164766156|OTHER||Geometric mean ratio (GMR)|1.0|||||TWO_SIDED|95.0|0.43|2.33||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.33|0.43|
82647382|NCT03118765|165010147|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean Fe (%) eliminated in urine was 1.096% on Day 1 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 2.407% on Day 1|||
82420587|NCT02037984|164552337|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.1|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.1|
82420588|NCT02037984|164552338|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-4.2|||||TWO_SIDED|95.0|-20.4|5.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.6|-20.4|
82420589|NCT02037984|164552338|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|11.8|||||TWO_SIDED|95.0|-10.0|30.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||30.6|-10.0|
82420590|NCT02037984|164552338|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-1.6|||||TWO_SIDED|95.0|-18.8|10.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||10.3|-18.8|
82448061|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-17.06|-3.13||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.13|-17.06|
82448062|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.67|||||TWO_SIDED|95.0|-17.57|-3.77||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.77|-17.57|
82448063|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.79|||||TWO_SIDED|95.0|-14.72|-0.86||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.86|-14.72|
82448064|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.05|||||TWO_SIDED|95.0|-9.98|3.89||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.89|-9.98|
82448065|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.41|||||TWO_SIDED|95.0|-20.27|-6.54||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.54|-20.27|
82448066|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.61|||||TWO_SIDED|95.0|1.62|17.61||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.61|1.62|
82448067|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.95|||||TWO_SIDED|95.0|-3.96|11.85||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.85|-3.96|
82448068|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.17|||||TWO_SIDED|95.0|-4.8|11.13||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.13|-4.80|
82448069|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.03|||||TWO_SIDED|95.0|-9.86|5.81||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.81|-9.86|
82448070|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.72|||||TWO_SIDED|95.0|0.03|15.42||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.42|0.03|
82534069|NCT04955626|164766156|OTHER||Geometric mean ratio (GMR)|0.89|||||TWO_SIDED|95.0|0.39|2.04||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.04|0.39|
82534070|NCT04955626|164766157|OTHER||Geometric mean ratio (GMR)|0.99|||||TWO_SIDED|95.0|0.31|3.12||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.12|0.31|
82420591|NCT02037984|164552338|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82420592|NCT02037984|164552338|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
82420593|NCT02037984|164552338|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
82420594|NCT02037984|164552338|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82448071|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.16|||||TWO_SIDED|95.0|-4.54|10.87||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.87|-4.54|
82448072|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.97|||||TWO_SIDED|95.0|-1.77|13.71||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.71|-1.77|
82448073|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|-6.75|8.59||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.59|-6.75|
82420595|NCT02037984|164552338|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82448074|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|0.57|14.43||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.43|0.57|
82448075|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69|||||TWO_SIDED|95.0|-6.26|7.64||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.64|-6.26|
82448076|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-3.09|10.7||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.70|-3.09|
82448077|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.05|||||TWO_SIDED|95.0|-3.87|9.96||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.96|-3.87|
82420596|NCT02037984|164552338|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82420597|NCT02037984|164552338|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.5|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.5|
82420598|NCT02037984|164552338|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82420599|NCT02037984|164552338|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82420600|NCT02037984|164552338|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-14.0|9.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.6|-14.0|
82420601|NCT02037984|164552338|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|85.0|||||TWO_SIDED|95.0|65.8|93.6|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||93.6|65.8|
82420602|NCT02037984|164552338|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|92.9|||||TWO_SIDED|95.0|75.1|98.1|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||98.1|75.1|
82420603|NCT02037984|164552339|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
82420604|NCT02037984|164552339|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|24.3|||||TWO_SIDED|95.0|12.6|40.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||40.2|12.6|
82420605|NCT02037984|164552339|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|2.7|||||TWO_SIDED|95.0|-8.0|14.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||14.0|-8.0|
82420606|NCT02037984|164552339|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420607|NCT02037984|164552339|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420608|NCT02037984|164552339|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
82420609|NCT02037984|164552339|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82534071|NCT04955626|164766157|OTHER||Geometric mean ratio (GMR)|4.57|||||TWO_SIDED|95.0|1.49|14.07||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||14.07|1.49|
82420610|NCT02037984|164552339|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420611|NCT02037984|164552339|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420612|NCT02037984|164552339|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420613|NCT02037984|164552339|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420614|NCT02037984|164552339|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.6|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.6|
82420615|NCT02037984|164552339|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|-3.0|||||TWO_SIDED|95.0|-15.5|6.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.7|-15.5|
82420616|NCT02037984|164552339|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
82420617|NCT02037984|164552339|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.7|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.7|
82420618|NCT02037984|164552340|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420619|NCT02037984|164552340|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|18.4|||||TWO_SIDED|95.0|1.7|35.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||35.5|1.7|
82420620|NCT02037984|164552340|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-14.9|||||TWO_SIDED|95.0|-31.4|-1.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||-1.2|-31.4|
82534072|NCT04955626|164766157|OTHER||Geometric mean ratio (GMR)|7.3|||||TWO_SIDED|95.0|2.34|22.76||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||22.76|2.34|
82647383|NCT03118765|165010148|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean Fe (%) eliminated in urine was 2.937% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
82420621|NCT02037984|164552340|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420622|NCT02037984|164552340|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420623|NCT02037984|164552340|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420624|NCT02037984|164552340|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420625|NCT02037984|164552340|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420626|NCT02037984|164552340|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420627|NCT02037984|164552340|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420628|NCT02037984|164552340|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420629|NCT02037984|164552340|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-10.3|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-10.3|
82420630|NCT02037984|164552340|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|-5.9|||||TWO_SIDED|95.0|-19.2|3.9|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||3.9|-19.2|
82420631|NCT02037984|164552340|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
82420632|NCT02037984|164552340|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|97.3|||||TWO_SIDED|95.0|85.9|99.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||99.5|85.9|
82420633|NCT02037984|164552341|OTHER|PT1 Percentage Point Difference (V114 - Prevnar 13®)|PT1 Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
82420634|NCT02037984|164552341|OTHER|PT3 Percentage Point Difference (V114 - Prevnar 13®)|PT3 Percentage Point Difference|14.0|||||TWO_SIDED|95.0|-5.5|32.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||32.0|-5.5|
82420635|NCT02037984|164552341|OTHER|PT4 Percentage Point Difference (V114 - Prevnar 13®)|PT4 Percentage Point Difference|-7.6|||||TWO_SIDED|95.0|-24.2|5.2|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||5.2|-24.2|
82420636|NCT02037984|164552341|OTHER|PT5 Percentage Point Difference (V114 - Prevnar 13®)|PT5 Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
82420637|NCT02037984|164552341|OTHER|PT6A Percentage Point Difference (V114 - Prevnar 13®)|PT6A Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
82420638|NCT02037984|164552341|OTHER|PT6B Percentage Point Difference (V114 - Prevnar 13®)|PT6B Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
82420639|NCT02037984|164552341|OTHER|PT7F Percentage Point Difference (V114 - Prevnar 13®)|PT7F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
82420640|NCT02037984|164552341|OTHER|PT9V Percentage Point Difference (V114 - Prevnar 13®)|PT9V Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
82420641|NCT02037984|164552341|OTHER|PT14 Percentage Point Difference (V114 - Prevnar 13®)|PT14 Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
82420642|NCT02037984|164552341|OTHER|PT18C Percentage Point Difference (V114 - Prevnar 13®)|PT18C Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
82420643|NCT02037984|164552341|OTHER|PT19A Percentage Point Difference (V114 - Prevnar 13®)|PT19A Percentage Point Difference|-6.9|||||TWO_SIDED|95.0|-22.1|3.0|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||3.0|-22.1|
82420644|NCT02037984|164552341|OTHER|PT19F Percentage Point Difference (V114 - Prevnar 13®)|PT19F Percentage Point Difference|-3.4|||||TWO_SIDED|95.0|-17.3|6.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||6.3|-17.3|
82420645|NCT02037984|164552341|OTHER|PT23F Percentage Point Difference (V114 - Prevnar 13®)|PT23F Percentage Point Difference|0.0|||||TWO_SIDED|95.0|-11.9|9.5|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||9.5|-11.9|
82420646|NCT02037984|164552341|OTHER|non-PT22F Percentage Point Difference (V114 - Prevnar 13®)|non-PT22F Percentage Point Difference|89.2|||||TWO_SIDED|95.0|75.2|95.7|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||95.7|75.2|
82420647|NCT02037984|164552341|OTHER|non-PT33F Percentage Point Difference (V114 - Prevnar 13®)|non-PT33F Percentage Point Difference|93.8|||||TWO_SIDED|95.0|78.5|98.3|||||Estimated difference and 95% CI are based on the Miettinen and Nurminen method.|||98.3|78.5|
82420648|NCT00561821|164552351|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420649|NCT00561821|164552351|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420650|NCT00561821|164552351|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420651|NCT00561821|164552352|SUPERIORITY_OR_OTHER|||||||0.0146||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0146
82420652|NCT00561821|164552352|SUPERIORITY_OR_OTHER|||||||0.0234||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0234
82420653|NCT00561821|164552352|SUPERIORITY_OR_OTHER|||||||0.0102||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0102
82420654|NCT00561821|164552353|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420655|NCT00561821|164552353|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420656|NCT00561821|164552353|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420657|NCT00561821|164552354|SUPERIORITY_OR_OTHER|||||||0.001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.001
82420658|NCT00561821|164552354|SUPERIORITY_OR_OTHER|||||||0.0213||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0213
82420659|NCT00561821|164552354|SUPERIORITY_OR_OTHER|||||||0.0135||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0135
82420660|NCT00561821|164552355|SUPERIORITY_OR_OTHER|||||||0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0001
82420661|NCT00561821|164552355|SUPERIORITY_OR_OTHER|||||||0.0003||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0003
82420662|NCT00561821|164552355|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420663|NCT00561821|164552356|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82534073|NCT04955626|164766157|OTHER||Geometric mean ratio (GMR)|2.26|||||TWO_SIDED|95.0|0.72|7.1||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.10|0.72|
82420664|NCT00561821|164552356|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82534074|NCT04955626|164766157|OTHER||Geometric mean ratio (GMR)|1.28|||||TWO_SIDED|95.0|0.41|4.03||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.03|0.41|
82420665|NCT00561821|164552356|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420666|NCT00561821|164552357|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420667|NCT00561821|164552357|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420668|NCT00561821|164552357|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420669|NCT00561821|164552358|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420670|NCT00561821|164552358|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420671|NCT00561821|164552358|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420672|NCT00561821|164552359|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420673|NCT00561821|164552359|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420674|NCT00561821|164552359|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420675|NCT00561821|164552360|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420676|NCT00561821|164552360|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420677|NCT00561821|164552360|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420678|NCT00561821|164552361|SUPERIORITY_OR_OTHER|||||||0.6317||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6317
82420679|NCT00561821|164552361|SUPERIORITY_OR_OTHER|||||||0.6355||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6355
82420680|NCT00561821|164552361|SUPERIORITY_OR_OTHER|||||||0.7865||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.7865
82420681|NCT00561821|164552362|SUPERIORITY_OR_OTHER|||||||0.4033||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.4033
82420682|NCT00561821|164552362|SUPERIORITY_OR_OTHER|||||||0.4153||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.4153
82420683|NCT00561821|164552362|SUPERIORITY_OR_OTHER|||||||0.6271||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.6271
82420684|NCT00561821|164552363|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420685|NCT00561821|164552363|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82420686|NCT00561821|164552363|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||<0.0001
82534075|NCT04955626|164766158|OTHER||Geometric mean ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.38|2.7||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.70|0.38|
82420687|NCT00561821|164552364|SUPERIORITY_OR_OTHER|||||||0.0243||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0243
82420688|NCT00561821|164552364|SUPERIORITY_OR_OTHER|||||||0.0242||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0242
82420689|NCT00561821|164552364|SUPERIORITY_OR_OTHER|||||||0.0007||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0007
82420690|NCT00561821|164552365|SUPERIORITY_OR_OTHER|||||||0.0199||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0199
82420691|NCT00561821|164552365|SUPERIORITY_OR_OTHER|||||||0.0316||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0316
82420692|NCT00561821|164552365|SUPERIORITY_OR_OTHER|||||||0.0014||||||Pairwise comparisons on rank transformed data with effects for treatment and center, and baseline of variable as a covariate|ANCOVA|||||||0.0014
82420693|NCT00581100|164552380|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].||||||<0.0001
82420694|NCT00581100|164552380|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82534076|NCT04955626|164766158|OTHER||Geometric mean ratio (GMR)|1.99|||||TWO_SIDED|95.0|0.76|5.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||5.20|0.76|
82534077|NCT04955626|164766158|OTHER||Geometric mean ratio (GMR)|2.99|||||TWO_SIDED|95.0|1.13|7.94||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||7.94|1.13|
82420695|NCT00581100|164552381|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].||||||<0.0001
82420696|NCT00581100|164552381|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change = \[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420697|NCT00581100|164552382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420698|NCT00581100|164552382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420699|NCT00581100|164552382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420700|NCT00581100|164552382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion = \[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420701|NCT00581100|164552383|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.007
82420702|NCT00581100|164552383|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.006
82420703|NCT00581100|164552383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420704|NCT00581100|164552383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82534078|NCT04955626|164766158|OTHER||Geometric mean ratio (GMR)|1.8|||||TWO_SIDED|95.0|0.68|4.75||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||4.75|0.68|
82534079|NCT04955626|164766158|OTHER||Geometric mean ratio (GMR)|0.84|||||TWO_SIDED|95.0|0.32|2.24||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||2.24|0.32|
82534080|NCT04955626|164766159|OTHER||Geometric mean ratio (GMR)|1.5|||||TWO_SIDED|95.0|0.44|5.12||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||5.12|0.44|
82534081|NCT04955626|164766159|OTHER||Geometric mean ratio (GMR)|3.22|||||TWO_SIDED|95.0|0.99|10.46||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||10.46|0.99|
82647384|NCT03118765|165010148|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean Fe (%) eliminated in urine was 2.183% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
82420705|NCT00581100|164552384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420706|NCT00581100|164552384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420707|NCT00581100|164552384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420708|NCT00581100|164552384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE), with treatment and visits as fixed factors. Model for proportion =\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420709|NCT00581100|164552385|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.069
82420710|NCT00581100|164552385|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||0.006
82420711|NCT00581100|164552385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420712|NCT00581100|164552385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420713|NCT00581100|164552386|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420714|NCT00581100|164552386|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420715|NCT00581100|164552387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420716|NCT00581100|164552387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82647385|NCT03118765|165010148|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean Fe (%) eliminated in urine was 3.123% on Day 21 and for SPIRIVA RESPIMAT 5 μg, the geometric mean Fe (%) eliminated in urine was 12.4% on Day 21|||
82420717|NCT00581100|164552387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420718|NCT00581100|164552387|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420719|NCT00581100|164552388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420720|NCT00581100|164552388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 12||||<0.001
82420721|NCT00581100|164552388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82647386|NCT03118765|165010149|OTHER||||||||||||||||||For GSP304 10 μg, geometric mean Cmax of tiotropium was 2.191 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
82420722|NCT00581100|164552388|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||Week 24||||<0.001
82420723|NCT00581100|164552389|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change-\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420724|NCT00581100|164552389|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change-\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420725|NCT00581100|164552390|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
82420726|NCT00581100|164552390|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
82420727|NCT00581100|164552391|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
82420728|NCT00581100|164552391|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value from generalized linear models for correlated data using Generalized Estimating Equations (GEE) with treatment and visits as fixed factors. Model for proportion=\[Group visit Group\*visit\].|GEE model|||||||<0.001
82420729|NCT00581100|164552392|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420730|NCT00581100|164552392|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420731|NCT00581100|164552393|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420732|NCT00581100|164552393|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420733|NCT00581100|164552394|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420734|NCT00581100|164552394|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||\<Table 8-14\> Change from baseline in Physician and Patient Assessment of Nail Psoriasis Activity Visual Analog Scale (VAS)|Mixed Models Analysis|||||||<0.0001
82420735|NCT00581100|164552395|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420736|NCT00581100|164552395|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Adjusted change calculated from mixed-model. Model for change=\[Group visit Group\*visit baseline baseline\*visit\].|Mixed Models Analysis|||||||<0.0001
82420737|NCT02579759|164552397|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.14||0.008|TWO_SIDED|97.5|-0.68|-0.06|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.06|-0.68|0.008
82420738|NCT02579759|164552397|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.12||0.287|TWO_SIDED|97.5|-0.39|0.14|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.14|-0.39|0.287
82420739|NCT02579759|164552397|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.13||0.013|TWO_SIDED|97.5|-0.59|-0.03|||Longitudinal mixed model|||"This analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: Longitudinal model where the effect of each treatment over time (baseline, 6, 12 and 15 months) was estimated through a mixed model with repeated measures (MMRM) assuming time from baseline (Time) and Time-by-Treatment full interaction as fixed effects and patient as random effect and considering Time as continuous linear effect~3. Missing value imputation: No imputation"||-0.03|-0.59|0.013
82420740|NCT02579759|164552397|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.05|TWO_SIDED|97.5|-0.42|0.03|||Longitudinal mixed model|||"This analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: Longitudinal model where the effect of each treatment over time (baseline, 6, 12 and 15 months) was estimated through a mixed model with repeated measures (MMRM) assuming time from baseline (Time) and Time-by-Treatment full interaction as fixed effects and patient as random effect and considering Time as continuous linear effect~3. Missing value imputation: No imputation"||0.03|-0.42|0.05
82420741|NCT02579759|164552397|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.31|-0.04|||Regression, Linear|||"Dose effect:~Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.04|-0.31|0.013
82420742|NCT02579759|164552398|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.016|TWO_SIDED|97.5|-0.91|-0.03|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.03|-0.91|0.016
82420743|NCT02579759|164552398|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.084|TWO_SIDED|97.5|-0.65|0.08|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.08|-0.65|0.084
82420744|NCT02579759|164552398|SUPERIORITY||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.015|TWO_SIDED|95.0|-0.41|-0.04|||Regression, Linear|||"Dose effect:~Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||-0.04|-0.41|0.015
82420745|NCT02579759|164552399|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.162|TWO_SIDED|97.5|-1.01|0.23|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.23|-1.01|0.162
82420746|NCT02579759|164552399|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.556|TWO_SIDED|97.5|-0.66|0.39|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.39|-0.66|0.556
82420747|NCT02579759|164552399|SUPERIORITY||Slope|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.204|TWO_SIDED|95.0|-0.43|0.09|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.09|-0.43|0.204
82420748|NCT02579759|164552400|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.36||0.232|TWO_SIDED|97.5|-1.25|0.38|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.38|-1.25|0.232
82420749|NCT02579759|164552400|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.31||0.868|TWO_SIDED|97.5|-0.74|0.64|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.64|-0.74|0.868
82420750|NCT02579759|164552400|SUPERIORITY||Slope|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.322|TWO_SIDED|95.0|-0.53|0.17|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.17|-0.53|0.322
82420751|NCT02579759|164552401|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.46||0.377|TWO_SIDED|97.5|-1.43|0.62|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.62|-1.43|0.377
82420752|NCT02579759|164552401|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.38||0.334|TWO_SIDED|97.5|-1.21|0.48|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.48|-1.21|0.334
82420753|NCT02579759|164552401|SUPERIORITY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.22||0.373|TWO_SIDED|95.0|-0.62|0.23|||Regression, Linear|||"Dose is defined as a numerical variable proportional to quantity of PXT3003 administered (0 for Placebo, 1 for Dose 1, 2 for Dose 2).~The analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA assessing the dose-effect at the mean of 12 and 15 months, adjusting for baseline value and assuming centre as random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.23|-0.62|0.373
82420754|NCT02579759|164552405|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.13||0.023|TWO_SIDED|97.5|-0.58|0.0|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0|-0.58|0.023
82420755|NCT02579759|164552405|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.162|TWO_SIDED|97.5|-0.4|0.09|||ANCOVA|||"The main analysis was performed as follows:~1. Analysis population: modified Full Analysis Set (mFAS)~2. Statistical model: ANCOVA where the mean at 12 and 15 months of each treatment group was compared against the placebo group, adjusting for the baseline value and assuming centre as a random effect~3. Missing value imputation: multiple imputation taking into account the reason of missingness"||0.09|-0.4|0.162
82420756|NCT02579759|164552409|SUPERIORITY||Odds Ratio (OR)|2.09||||0.097|TWO_SIDED|97.5|0.77|5.68|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||5.68|0.77|0.097
82420757|NCT02579759|164552409|SUPERIORITY||Odds Ratio (OR)|1.07||||0.865|TWO_SIDED|97.5|0.42|2.7|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||2.7|0.42|0.865
82420758|NCT02579759|164552410|SUPERIORITY||Odds Ratio (OR)|3.39||||0.026|TWO_SIDED|97.5|0.99|11.62|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||11.62|0.99|0.026
82420759|NCT02579759|164552410|SUPERIORITY||Odds Ratio (OR)|1.26||||0.569|TWO_SIDED|97.5|0.5|3.16|||General Linear Mixed Model|||The proportion of responders (on Completers selection only) at the end of treatment was assessed through a Generalized Linear Mixed Model (GLMM) featuring logistic regression including treatment as a fixed effect, adjusting for the baseline value and center as a random effect.||3.16|0.5|0.569
82420760|NCT01339091|164552431|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis test is a one-sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the 95% CI for the difference in response rates in the ITT population is greater than -10% the NI of dalbavancin to vancomycin/linezolid will be concluded.|Difference in Proportions|1.5|||||TWO_SIDED|95.0|-4.6|7.9|||||Confidence intervals were adjusted for fever at baseline|||7.9|-4.6|
82420761|NCT02336555|164552441|SUPERIORITY||Mean Difference (Final Values)|-0.452||||0.075|TWO_SIDED|95.0|-1.076|0.172||Linear mixed model with a posterior probability evaluation for the treatment effect|Linear mixed model|One-sided p-value and a posterior probability greater than 90% that the treatment effect is less than 0.||||0.172|-1.076|0.075
82534082|NCT04955626|164766159|OTHER||Geometric mean ratio (GMR)|6.46|||||TWO_SIDED|95.0|1.96|21.27||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 OMI \[60 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||21.27|1.96|
82420762|NCT02336555|164552442|SUPERIORITY||Odds Ratio (OR)|1.073|||||TWO_SIDED|95.0|0.446|2.58|||||Logistic regression model with factors for treatment \& baseline pain intensity|||2.580|0.446|
82420763|NCT00993473|164552443|NON_INFERIORITY_OR_EQUIVALENCE|"Noninferiority would be demonstrated if the upper bound of the 95% confidence interval (CI) for the ratio of the rate of all hypoglycemia in the Lantus group to the rate in the NPH group was \<1.15. Superiority would be demonstrated if the upper bound of the 95% CI was \<1. The margin for noninferiority corresponded to one-half of the 30% difference in hypoglycemia event rate considered as a clinically significant difference by American Diabetes Association 2005 Working Group on Hypoglycemia."|Risk Ratio (RR)|1.18|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.97|1.44|||Generalized Linear Model|"A stepwise closed testing approach was used for the primary all hypoglycemia outcome analysis to assess noninferiority and superiority sequentially."|Risk ratio between treatment groups (Lantus/NPH) estimated by Generalized Linear Model with fixed effect terms for randomization strata and treatment.|"The sample size was calculated to ensure sufficient power so that the upper bound of the 2-sided 95% CI for the Lantus /NPH ratio would not exceed 1.15 based on an expected overall rate of all hypoglycemia of 80 events per patient-year of exposure to NPH insulin and to Lantus. It was planned to randomize at least 45 and up to approximately 60 patients in each of the 2 treatment groups so that at least 70 patients would complete the 24 weeks of treatment."||1.44|0.97|
82420764|NCT03707821|164552479|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|3.3|STANDARD_DEVIATION|2.65|||TWO_SIDED|95.0|-2.0|8.5|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|It was calculated that 224 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 5 points difference in mean overall comfort at he 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||8.5|-2.0|
82534083|NCT04955626|164766159|OTHER||Geometric mean ratio (GMR)|2.08|||||TWO_SIDED|95.0|0.63|6.89||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||6.89|0.63|
82420765|NCT03707821|164552480|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 2 was used. This margin is based on a 10% difference if the proportion of subjects that report a higher rating/experience.|Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|0.034|||TWO_SIDED|95.0|0.02|0.15|||Bayesian random -effects model|A 95% Credible Interval for the Posterior proportion mean difference between the Test and Control was used to test for non-inferiority.|mean difference was calculated as Test minus Control.|It was calculated that 40 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 10% difference in proportion of subjects that reported at higher rating (Strongly Agree and Agree) with the Test compared to the Control lens at the 2-week follow-up. Sample size was determined using simulation-based methods (alpha=0.05).||0.15|0.02|
82426118|NCT00854360|164561105|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.26||0.255|TWO_SIDED|95.0|-0.8|0.21||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.21|-0.80|0.255
82647387|NCT03118765|165010149|OTHER||||||||||||||||||For GSP304 20 μg, geometric mean Cmax of tiotropium was 4.796 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
82420766|NCT03707821|164552481|NON_INFERIORITY|A non-inferiority margin of 0.05 points was used. This margin corresponds to a half line difference.|Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.008|||TWO_SIDED|95.0|-0.04|-0.01|||Bayesian Normal Random effects model|A 95% Credible Interval for the Posterior mean difference between the Test and control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|It was calculated that 30 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect a 0.05 difference in LogMAR visual acuity at the 2-week follow-up. Sample size was determined using simulations methods for repeated measures.||-0.01|-0.04|
82420767|NCT03707821|164552482|SUPERIORITY|A superiority margin of 90% was used. Lower limit of 95% credible interval was compared to 90%|Mean Percentage of Acceptable Fitting|99.5|STANDARD_DEVIATION|0.38|||TWO_SIDED|95.0|98.5|100.0|||Bayesian Beta-Binomial Model|model for correlated data||It was calculated that 100 participants were required to show that the acceptable lens fitting for the Test lens would be superior to 90% with at least 80% power. Sample size was determined using simulations methods for repeated measures.||100|98.5|
82420768|NCT03707821|164552483|NON_INFERIORITY|A non-inferiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.0036|||TWO_SIDED|95.0|-0.007|0.008|||Bayesian beta-binomial model|model for correlated data|mean difference was calculated as Test minus Control.|It was calculated that 224 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods. Sample size for this study was primarily driven by the slit lamp findings.||0.008|-0.007|
82420769|NCT03707821|164552484|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|2.5|STANDARD_DEVIATION|1.94|||TWO_SIDED|95.0|-1.3|6.3|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|Sample Size was based on primary endpoints only.||6.3|-1.3|
82420770|NCT03707821|164552485|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores. Non-inferiority was declared in the lower limit of the 95% credible interval was above 5.|Mean Difference (Net)|8.03|STANDARD_DEVIATION|2.295|||TWO_SIDED|95.0|3.48|12.54|||Bayesian normal random-effects|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test minus Control.|Sample Size was based on primary endpoints only.||12.54|3.48|
82420771|NCT00266032|164552515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|STANDARD_DEVIATION|29.0|<|0.0001||95.0|-29.0|-20.0|||t-test, 2 sided||Mean of Yaz flexible regimen minus mean of Yaz standard was tested|Primary variable was tested for the hypothesis, whether the means are equal against the alternative (means are different) at a level of significance of alpha = 0.05 (t-test). For power calculation, a normal distribution, a absolute difference of 10 days, a Standard Deviation of 28 days and a drop-out rate of 40% was assumed.||-20|-29|<0.0001
82420772|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.75|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.48|1.0||||||1-year progression-free survival (n=8)||1.00|0.48|
82420773|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.33|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|0.09|0.57||||||1-year progression-free survival (n=12)||0.57|0.09|
82420774|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.45|STANDARD_DEVIATION|0.106|||TWO_SIDED|95.0|0.198|0.602||||||1-year progression free survival (n=20)||0.602|0.198|
82420775|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.15|STANDARD_DEVIATION|0.069|||TWO_SIDED|95.0|0.015|0.285||||||2-year progression free survival (n=20)||0.285|0.015|
82534084|NCT04955626|164766159|OTHER||Geometric mean ratio (GMR)|0.95|||||TWO_SIDED|95.0|0.28|3.17||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the difference in LS means (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on analysis of logarithmically transformed assay results using a linear regression model with terms of baseline assay results (log scale) and vaccine group.||3.17|0.28|
82420776|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.19|STANDARD_DEVIATION|0.077|||TWO_SIDED|95.0|0.039|0.341||||||1-year progression free survival (n=21)||0.341|0.039|
82420777|NCT00124657|164552533|SUPERIORITY_OR_OTHER||Kaplan-Meier|0.19|STANDARD_DEVIATION|0.077|||TWO_SIDED|95.0|0.039|0.341||||||2-year progression free survival (n=21)||0.341|0.039|
82420778|NCT03766906|164552578|SUPERIORITY||Mean Difference (Final Values)|2.03||||0.003|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pretest to posttest change was significantly greater than 0 at P \< 0.05.|||||.003
82420779|NCT03766906|164552579|SUPERIORITY||Mean Difference (Final Values)|1.18||||0.022|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than zero at P\<0.05.|||||.022
82420780|NCT03766906|164552580|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.016|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.016
82420781|NCT03766906|164552581|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.002|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.002
82534085|NCT04955626|164766184|OTHER||Adjusted Surveillance Time|100.0|||||TWO_SIDED|95.0|-358.6|100.0||||||||100.0|-358.6|
82420782|NCT03766906|164552582|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.626|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.626
82534086|NCT04955626|164766185|OTHER||Adjusted Surveillance Time|100.0|||||TWO_SIDED|95.0|-355.5|100.0||||||2-Sided CI for RVE is derived based on the Clopper and Pearson method adjusted for surveillance time.||100.0|-355.5|
82647388|NCT03118765|165010149|OTHER||||||||||||||||||For GSP304 40 μg, geometric mean Cmax of tiotropium was 10.2 pg/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean Cmax of tiotropium was 7.327 pg/mL on Day 1.|||
82420783|NCT03766906|164552582|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.909|TWO_SIDED||||||t-test, 2 sided|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.||The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.909
82534087|NCT04955626|164766194|OTHER||Geometric mean ratio (GMR)|0.99|||||TWO_SIDED|95.0|0.82|1.2||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[15 mcg\] + BNT162b2 OMI \[15 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||1.20|0.82|
82420784|NCT03766906|164552582|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.905|TWO_SIDED||||||t-test, 2 sided||Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|The statistical analyses for the Student Self-Efficacy, in terms of type of statistical test, method, and the comments which we state within-subjects paired t-tests, are the same for each of the three subscales that make up Student Self-Efficacy (i.e., Relevance to schoolwork, Future aspirations, and Family support).||||.905
82420785|NCT03766906|164552583|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.054|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||.054
82420786|NCT03766906|164552584|SUPERIORITY||Mean Difference (Final Values)|3.48|||<|0.001|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||<.001
82420787|NCT03766906|164552585|SUPERIORITY||Mean Difference (Final Values)|7.52|||<|0.001|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.|Investigators tested whether pre-test to post-test change was significantly greater than 0 at P\<0.05.|||||<.001
82420788|NCT04250207|164552637|SUPERIORITY|||||||0.0065|||||||Other (Wilcoxon Rank Sum Test)|||||||0.0065
82420789|NCT04250207|164552637|SUPERIORITY|||||||0.0344|||||||Other (Wilcoxon Rank Sum Test)|||||||0.0344
82420790|NCT04250207|164552638|SUPERIORITY|||||||0.3587|||||||Wilcoxon Rank Sum Test|||Baseline||||0.3587
82420791|NCT04250207|164552638|SUPERIORITY|||||||0.5724|||||||Wilcoxon Rank Sum Test|||Baseline||||0.5724
82420792|NCT04250207|164552638|SUPERIORITY|||||||0.3703|||||||Wilcoxon Rank Sum Test|||Week 1||||0.3703
82420793|NCT04250207|164552638|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 1||||> 0.9999
82420794|NCT04250207|164552638|SUPERIORITY|||||||0.3703|||||||Wilcoxon Rank Sum Test|||Week 2||||0.3703
82534088|NCT04955626|164766194|OTHER||Geometric mean ratio (GMR)|1.3|||||TWO_SIDED|95.0|1.07|1.58||||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the titers (BNT162b2 \[30 mcg\] + BNT162b2 OMI \[30 mcg\] - BNT162b2 \[30 mcg\]) and the corresponding CIs based on the student t distribution.||1.58|1.07|
82420795|NCT04250207|164552638|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 2||||> 0.9999
82420796|NCT04250207|164552638|SUPERIORITY|||||||0.0257|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0257
82534089|NCT04320615|164766195|OTHER||Median Difference (Final Values)|-1.0||||0.36|TWO_SIDED|95.0|-2.5|0.0|||Van Elteren Test|||||0.0|-2.5|0.3600
82420797|NCT04250207|164552638|SUPERIORITY|||||||0.7263|||||||Wilcoxon Rank Sum Test|||||||0.7263
82420798|NCT04250207|164552638|SUPERIORITY|||||||0.0607|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0607
82420799|NCT04250207|164552638|SUPERIORITY|||||||0.046|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0460
82420800|NCT04250207|164552638|SUPERIORITY|||||||0.0111|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0111
82420801|NCT04250207|164552638|SUPERIORITY|||||||0.0011|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0011
82420802|NCT04250207|164552638|SUPERIORITY|||||||0.02|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0200
82420803|NCT04250207|164552638|SUPERIORITY|||||||0.0476|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0476
82420804|NCT04250207|164552638|SUPERIORITY|||||||0.0065|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0065
82420805|NCT04250207|164552638|SUPERIORITY|||||||0.0344|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0344
82420806|NCT04250207|164552638|SUPERIORITY|||||||0.025|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0250
82420807|NCT04250207|164552638|SUPERIORITY|||||||0.0733|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0733
82420808|NCT04250207|164552638|SUPERIORITY|||||||0.0072|||||||Wilcoxon Rank Sum Test|||Week 20||||0.0072
82420809|NCT04250207|164552638|SUPERIORITY|||||||0.1124|||||||Wilcoxon Rank Sum Test|||Week 20||||0.1124
82420810|NCT04250207|164552638|SUPERIORITY|||||||0.0199|||||||Wilcoxon Rank Sum Test|||Week 24||||0.0199
82420811|NCT04250207|164552638|SUPERIORITY|||||||0.2331|||||||Wilcoxon Rank Sum Test|||Week 24||||0.2331
82420812|NCT04250207|164552638|SUPERIORITY|||||||0.0024|||||||Wilcoxon Rank Sum Test|||Week 38||||0.0024
82420813|NCT04250207|164552638|SUPERIORITY|||||||0.1672|||||||Wilcoxon Rank Sum Test|||Week 38||||0.1672
82420814|NCT04250207|164552638|SUPERIORITY|||||||0.0047|||||||Wilcoxon Rank Sum Test|||Week 52||||0.0047
82420815|NCT04250207|164552638|SUPERIORITY|||||||0.0625|||||||Wilcoxon Rank Sum Test|||Week 52||||0.0625
82420816|NCT04250207|164552639|SUPERIORITY|||||||0.2434|||||||Wilcoxon Rank Sum Test|||Week 1||||0.2434
82420817|NCT04250207|164552639|SUPERIORITY|||||||0.2126|||||||Wilcoxon Rank Sum Test|||Week 1||||0.2126
82420818|NCT04250207|164552639|SUPERIORITY|||||||0.079|||||||Wilcoxon Rank Sum Test|||Week 2||||0.0790
82420819|NCT04250207|164552639|SUPERIORITY|||||||0.3043|||||||Wilcoxon Rank Sum Test|||Week 2||||0.3043
82420820|NCT04250207|164552639|SUPERIORITY|||||||0.0357|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0357
82420821|NCT04250207|164552639|SUPERIORITY|||||||0.0803|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0803
82420822|NCT04250207|164552639|SUPERIORITY|||||||0.015|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0150
82420823|NCT04250207|164552639|SUPERIORITY|||||||0.0012|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0012
82534090|NCT04320615|164766196|OTHER||Hazard Ratio (HR)|1.448||||0.0443|TWO_SIDED|95.0|1.01|2.08|||Log Rank|||||2.08|1.01|0.0443
82534091|NCT04320615|164766197|OTHER||Hazard Ratio (HR)|1.263||||0.082|TWO_SIDED|95.0|0.97|1.64|||Log Rank|||||1.64|0.97|0.0820
82534092|NCT04320615|164766198|OTHER||Hazard Ratio (HR)|1.35||||0.037|TWO_SIDED|95.0|1.02|1.79|||Log Rank|||||1.79|1.02|0.0370
82534093|NCT04320615|164766199|OTHER||Weighted % difference|-6.2||||0.0996|TWO_SIDED|95.0|-13.8|1.4|||Cochran-Mantel-Haenszel|||||1.4|-13.8|0.0996
82420824|NCT04250207|164552639|SUPERIORITY|||||||0.0314|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0314
82420825|NCT04250207|164552639|SUPERIORITY|||||||0.0019|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0019
82420826|NCT04250207|164552639|SUPERIORITY|||||||0.017|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0170
82420827|NCT04250207|164552639|SUPERIORITY|||||||0.0021|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0021
82420828|NCT04250207|164552639|SUPERIORITY|||||||0.0127|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0127
82420829|NCT04250207|164552639|SUPERIORITY|||||||0.0014|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0014
82420830|NCT04250207|164552639|SUPERIORITY|||||||0.0677|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0677
82420831|NCT04250207|164552639|SUPERIORITY|||||||0.0243|||||||Wilcoxon Rank Sum Test|||Week 16||||0.0243
82420832|NCT04250207|164552639|SUPERIORITY|||||||0.1867|||||||Wilcoxon Rank Sum Test|||Week 20||||0.1867
82420833|NCT04250207|164552639|SUPERIORITY|||||||0.025|||||||Wilcoxon Rank Sum Test|||Week 20||||0.0250
82420834|NCT04250207|164552639|SUPERIORITY|||||||0.3213|||||||Wilcoxon Rank Sum Test|||Week 24||||0.3213
82420835|NCT04250207|164552639|SUPERIORITY|||||||0.0298|||||||Wilcoxon Rank Sum Test|||Week 24||||0.0298
82420836|NCT04250207|164552639|SUPERIORITY|||||||0.1449|||||||Wilcoxon Rank Sum Test|||Week 38||||0.1449
82420837|NCT04250207|164552639|SUPERIORITY|||||||0.0947|||||||Wilcoxon Rank Sum Test|||Week 38||||0.0947
82420838|NCT04250207|164552639|SUPERIORITY|||||||0.5181|||||||Wilcoxon Rank Sum Test|||Week 52||||0.5181
82420839|NCT04250207|164552639|SUPERIORITY|||||||0.1898|||||||Wilcoxon Rank Sum Test|||Week 52||||0.1898
82420840|NCT04250207|164552640|SUPERIORITY|||||||0.0021|||||||Log Rank|||||||0.0021
82420841|NCT04250207|164552640|SUPERIORITY|||||||0.1696|||||||Log Rank|||||||0.1696
82420842|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4872|||||||Chi-square or Fisher exact|||Week 5||||0.4872
82420843|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4634|||||||Chi-square or Fisher exact|||Week 5||||0.4634
82420844|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.605|||||||Chi-square or Fisher exact|||Week 7||||0.6050
82420845|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4762|||||||Chi-square or Fisher exact|||Week 7||||0.4762
82420846|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 9||||> 0.9999
82420847|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 9||||> 0.9999
82420848|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4227|||||||Chi-square or Fisher exact|||Week 12||||0.4227
82420849|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.6796|||||||Chi-square or Fisher exact|||Week 12||||0.6796
82420850|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4642|||||||Chi-square or Fisher exact|||Week 16||||0.4642
82420851|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4645|||||||Chi-square or Fisher exact|||Week 16||||0.4645
82420852|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2744|||||||Chi-square or Fisher exact|||Week 20||||0.2744
82420853|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.7026|||||||Chi-square or Fisher exact|||Week 20||||0.7026
82420854|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.7817|||||||Chi-square or Fisher exact|||Week 24||||0.7817
82420855|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.9285|||||||Chi-square or Fisher exact|||Week 24||||0.9285
82534094|NCT04320615|164766199|OTHER||Weighted % difference|-8.9||||0.1355|TWO_SIDED|95.0|-20.7|3.0|||Cochran-Mantel-Haenszel|||||3.0|-20.7|0.1355
82420856|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0135|||||||Chi-square or Fisher exact|||Week 38||||0.0135
82420857|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.6992|||||||Chi-square or Fisher exact|||Week 38||||0.6992
82420858|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0135|||||||Chi-square or Fisher exact|||Week 52||||0.0135
82420859|NCT04250207|164552641|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.5154|||||||Chi-square or Fisher exact|||Week 52||||0.5154
82420860|NCT04250207|164552642|SUPERIORITY|||||||0.1209|||||||Log Rank|||||||0.1209
82420861|NCT04250207|164552642|SUPERIORITY|||||||0.7116|||||||Log Rank|||||||0.7116
82534095|NCT04320615|164766200|OTHER||Median Difference (Final Values)|5.5||||0.3202|TWO_SIDED|95.0|-2.8|13.0|||Van Elteren test|||||13.0|-2.8|0.3202
82534096|NCT04320615|164766201|OTHER||Weighted % difference|-5.7||||0.1514|TWO_SIDED|95.0|-13.7|2.2|||Cochran-Mantel-Haenszel|||||2.2|-13.7|0.1514
82420862|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0915|||||||Chi-square or Fisher exact|||Week 3||||0.0915
82420863|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3282|||||||Chi-square or Fisher exact|||Week 3||||0.3282
82420864|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0648|||||||Chi-square or Fisher exact|||Week 5||||0.0648
82420865|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.031|||||||Chi-square or Fisher exact|||Week 5||||0.0310
82420866|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0187|||||||Chi-square or Fisher exact|||Week 7||||0.0187
82420867|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0036|||||||Chi-square or Fisher exact|||Week 7||||0.0036
82420868|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0687|||||||Chi-square or Fisher exact|||Week 9||||0.0687
82420869|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0016|||||||Chi-square or Fisher exact|||Week 9||||0.0016
82420870|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0218|||||||Chi-square or Fisher exact|||Week 12||||0.0218
82420871|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0013|||||||Chi-square or Fisher exact|||Week 12||||0.0013
82420872|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0348|||||||Chi-square or Fisher exact|||Week 16||||0.0348
82420873|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1028|||||||Chi-square or Fisher exact|||Week 16||||0.1028
82534097|NCT04320615|164766201|OTHER||Weighted % difference|-14.8||||0.029|TWO_SIDED|95.0|-28.6|-1.0|||Cochran-Mantel-Haenszel|||||-1.0|-28.6|0.0290
82534098|NCT04320615|164766202|OTHER||Median Difference (Final Values)|-5.8||||0.0454|TWO_SIDED|95.0|-15.0|2.9|||Van Elteren test|||||2.9|-15.0|0.0454
82534099|NCT04320615|164766203|OTHER||Median Difference (Final Values)|-1.0||||0.0548|TWO_SIDED|95.0|-2.0|0.5|||Van Elteren test|||||0.5|-2.0|0.0548
82534100|NCT04320615|164766204|OTHER||Hazard Ratio (HR)|0.79||||0.1627|TWO_SIDED|95.0|0.57|1.1|||Log Rank|||||1.10|0.57|0.1627
82534101|NCT04320615|164766205|OTHER||Weighted % difference|0.3||||0.941|TWO_SIDED|95.0|-7.6|8.2|||Cochran-Mantel-Haenszel|||||8.2|-7.6|0.9410
82534102|NCT04320615|164766206|OTHER||Hazard Ratio (HR)|1.307||||0.0528|TWO_SIDED|95.0|1.0|1.72|||Log Rank|||||1.72|1.00|0.0528
82420874|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.8677|||||||Chi-square or Fisher exact|||Week 20||||0.8677
82420875|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.4401|||||||Chi-square or Fisher exact|||Week 20||||0.4401
82420876|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.5926|||||||Chi-square or Fisher exact|||Week 24||||0.5926
82420877|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0732|||||||Chi-square or Fisher exact|||Week 24||||0.0732
82448078|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.31|||||TWO_SIDED|95.0|3.43|17.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.18|3.43|
82448079|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.31|||||TWO_SIDED|95.0|-3.59|10.22||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.22|-3.59|
82534103|NCT04320615|164766207|OTHER||Median Difference (Final Values)|-1.5||||0.0477|TWO_SIDED|95.0|-9.0|0.5|||Van Elteren test|||||0.5|-9.0|0.0477
82534104|NCT04060680|164766219|SUPERIORITY|The pre-specified Objective Performance Criterion (OPC) for the major complication free rate at 6 months is 0.79. If the lower confidence bound of two-sided 95% confidence interval for the freedom from the first major EV ICD System/procedure-related complication through 182 days post implant exceeds 0.79, the primary safety objective will be met. The freedom from the first major EV ICD System/procedure-related complication was estimated using the Kaplan-Meier method.|Major complication-free rate|92.6|||<|0.0001|TWO_SIDED|95.0|89.0|95.0||A priori threshold for statistical significance is 0.025|Kaplan-Meier method|||The primary safety objective is to demonstrate the freedom from major complications related to the EV ICD System and/or procedure at 6 months post-implant exceeds an OPC of 79%. H0: p ≤ 0.79 HA: p \> 0.79, where p denotes the 6-month (182 days) freedom from major EV ICD System/procedure-related complications rate.||95.0|89.0|<0.0001
82534105|NCT04060680|164766220|SUPERIORITY|The pre-specified OPC for the EV ICD defibrillation testing success at implant is 0.88. If the lower confidence bound of two-sided 95% confidence interval for the proportion of EV ICD patients achieving defibrillation testing success at implant exceeds 0.88, the primary efficacy objective will be met. The primary efficacy objective will be evaluated using a one-proportion binomial exact test along with a two-sided 95% Clopper-Pearson confidence bound.|Proportion|98.7|||<|0.0001|TWO_SIDED|95.0|96.6|99.6||A priori threshold for statistical significance is 0.025|One-proportion binomial exact test|||The primary efficacy is to demonstrate the EV ICD defibrillation testing success rate at implant is greater than an OPC of 88%. H0: p ≤ 0.88 HA: p \> 0.88, where p denotes the probability of EV ICD defibrillation success at implant.||99.6|96.6|<0.0001
82420878|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2497|||||||Chi-square or Fisher exact|||Week 38||||0.2497
82420879|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.2453|||||||Chi-square or Fisher exact|||Week 38||||0.2453
82420880|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
82420881|NCT04250207|164552643|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
82420882|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0093|||||||Chi-square or Fisher exact|||Week 3||||0.0093
82420883|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 3||||> 0.9999
82420884|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0006|||||||Chi-square or Fisher exact|||Week 5||||0.0006
82448080|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.73|||||TWO_SIDED|95.0|-4.1|9.57||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.57|-4.10|
82534106|NCT03990363|164766221|SUPERIORITY|||||||0.0648|||||||Repeated Measures Mixed Model|||||||0.0648
82448081|NCT01393639|164604460|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.62|||||TWO_SIDED|95.0|-1.25|12.48||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.48|-1.25|
82448082|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-7.56|8.31||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.31|-7.56|
82534107|NCT03990363|164766221|SUPERIORITY|||||||0.6296|||||||Repeated Measures Mixed Model|||||||0.6296
82534108|NCT03990363|164766221|SUPERIORITY|||||||0.0263|||||||Repeated Measures Mixed Model|||||||0.0263
82534109|NCT02320721|164766258|NON_INFERIORITY|Non-inferiority of HOE901-U300 vs Lantus was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<0.3%.|LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.056|||TWO_SIDED|95.0|-0.092|0.129||||||Analysis was performed using ANCOVA model including the fixed categorical effects of treatment group, randomization strata, as well as the continuous fixed covariates of baseline value and following multiple imputation procedure for missing data.||0.129|-0.092|
82534110|NCT02320721|164766259|SUPERIORITY_OR_OTHER_LEGACY|A hierarchical testing procedure was used to control type I error and handle multiple endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only if previous endpoint was statistically significant at 0.05 level.|Relative risk|1.01||||0.8415|TWO_SIDED|95.0|0.89|1.153||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||Analysis was done by Cochran-Mantel-Haenszel method with randomization strata (screening HbA1c \[\<8.0%; ≥8.0%\], previous use of insulin \[naive, pre-treated\], use of sulfonylurea or meglitinides at screening \[yes, no\]), following multiple imputation procedure for missing data.||1.153|0.890|0.8415
82534111|NCT05397470|164766270|OTHER||Least square mean difference|0.003||||0.7501|TWO_SIDED|95.0|-0.014|0.02|||Mixed Model Repeated Measures|||||0.020|-0.014|0.7501
82534112|NCT05567952|164766289|SUPERIORITY||Least square (LS) mean difference|-0.705|||=|0.0004|TWO_SIDED|95.0|-1.093|-0.316|||MMRM|||Mixed model for repeated measures (MMRM) included fixed effects of treatment, geographic region, baseline SARS-CoV-2 RNA level, visit, and treatment-by-visit interaction; an unstructured (co) variance structure was used.||-0.316|-1.093|= 0.0004
82448083|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.15|||||TWO_SIDED|95.0|-16.01|-0.3||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.30|-16.01|
82448084|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|||||TWO_SIDED|95.0|-22.01|-6.2||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.20|-22.01|
82534113|NCT05567952|164766290|SUPERIORITY||Hazard Ratio (HR)|1.235|||=|0.0697|TWO_SIDED|95.0|0.983|1.551|||COX proportional hazard ratio|||Analysis was based on Cox proportional hazard (PH) model which included treatment, geographic region, baseline SARS-CoV-2 RNA level (\< 4 log10 copies/mL or \>= 4 log10 copies/mL) and time since the last vaccination (less than or equal to \[\<=6\] months, \> 6 months or unvaccinated) as appropriate.||1.551|0.983|= 0.0697
82534114|NCT05567952|164766291|SUPERIORITY||Hazard Ratio (HR)|1.084|||=|0.5202|TWO_SIDED|95.0|0.848|1.385|||COX proportional hazard ratio|||Analysis was based on Cox proportional hazard (PH) model which included treatment, geographic region, baseline SARS-CoV-2 RNA level (\< 4 log10 copies/mL or \>= 4 log10 copies/mL) and time since the last vaccination (\<=6 months, \> 6 months or unvaccinated) as appropriate.||1.385|0.848|= 0.5202
82534115|NCT02331940|164766316|SUPERIORITY_OR_OTHER|||||||0.88||||||p\<0.05 was considered statistically significant|t-test, 1 sided|||||||0.88
82534116|NCT01033643|164766354|OTHER||Accumulation or Geometric Mean Ratio|2.36|||||||||||||Accumulation ratio or geometric mean ratio (GMR) was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
82534117|NCT01033643|164766355|OTHER||Accumulation or Geometric Mean Ratio|1.62|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 13) divided by the first day of multiple dosing of MK-3614 (Day 4).|||||
82534118|NCT01033643|164766357|OTHER||Accumulation or Geometric Mean Ratio|1.9|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
82448085|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.88|||||TWO_SIDED|95.0|-19.7|-4.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.06|-19.70|
82534119|NCT01033643|164766357|OTHER||Accumulation or Geometric Mean Ratio|1.63|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
82534120|NCT01033643|164766358|OTHER||Accumulation or Geometric Mean Ratio|1.91|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 10) divided by the first day of multiple dosing of MK-3614 (Day 1).|||||
82534121|NCT01033643|164766359|OTHER||Accumulation or Geometric Mean Ratio|1.38|||||||||||||Accumulation ratio or GMR was calculated as last day of multiple dosing of MK-3614 (Day 13) divided by the first day of multiple dosing of MK-3614 (Day 4).|||||
82534122|NCT01033643|164766366|OTHER|Linear Model|Mean Difference from Placebo|-4.17|||||TWO_SIDED|90.0|-9.53|1.2||||||||1.20|-9.53|
82534123|NCT01033643|164766366|OTHER|Linear Model|Mean Difference from Placebo|4.78|||||TWO_SIDED|90.0|-1.41|10.97||||||||10.97|-1.41|
82534124|NCT01033643|164766366|OTHER|Linear Model|Mean Difference from Placebo|-3.47|||||TWO_SIDED|90.0|-8.37|1.42||||||||1.42|-8.37|
82534125|NCT01033643|164766366|OTHER|Linear Model|Mean Difference from Placebo|3.53|||||TWO_SIDED|90.0|-1.37|8.42||||||||8.42|-1.37|
82534126|NCT01033643|164766367|OTHER|Linear Model|Mean Difference from Placebo|0.23|||||TWO_SIDED|90.0|-6.91|7.36||||||||7.36|-6.91|
82534127|NCT01033643|164766367|OTHER|Linear Model|Mean Difference from Placebo|-1.66|||||TWO_SIDED|90.0|-8.79|5.47||||||||5.47|-8.79|
82420885|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3449|||||||Chi-square or Fisher exact|||Week 5||||0.3449
82420886|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 7||||0.0028
82420887|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 7||||0.0028
82420888|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0001|||||||Chi-square or Fisher exact|||Week 9||||0.0001
82420889|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 9||||0.0028
82420890|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||<|0.0001|||||||Chi-square or Fisher exact|||Week 12||||< 0.0001
82420891|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0028|||||||Chi-square or Fisher exact|||Week 12||||0.0028
82420892|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||<|0.0001|||||||Chi-square or Fisher exact|||Week 16||||< 0.0001
82420893|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0011|||||||Chi-square or Fisher exact|||Week 16||||0.0011
82420894|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0094|||||||Chi-square or Fisher exact|||Week 20||||0.0094
82420895|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1281|||||||Chi-square or Fisher exact|||Week 20||||0.1281
82420896|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0051|||||||Chi-square or Fisher exact|||Week 24||||0.0051
82420897|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1313|||||||Chi-square or Fisher exact|||Week 24||||0.1313
82448086|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-7.33|8.48||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.48|-7.33|
82448087|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.89|||||TWO_SIDED|95.0|-20.8|-4.98||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.98|-20.80|
82420898|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.0268|||||||Chi-square or Fisher exact|||Week 38||||0.0268
82420899|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.3652|||||||Chi-square or Fisher exact|||Week 38||||0.3652
82420900|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.||||||0.1854|||||||Chi-square or Fisher exact|||Week 52||||0.1854
82420901|NCT04250207|164552644|SUPERIORITY|p-value is based on the Pearson Chi-square test. When the number of responders (Achieved or Not Achieved) is less than 5 in either group, Fisher's exact test is used instead. If Fisher's exact test is used, the unconditional CI for the difference in response rates is provided.|||||>|0.9999|||||||Chi-square or Fisher exact|||Week 52||||> 0.9999
82420902|NCT04250207|164552645|SUPERIORITY|||||||0.0259|||||||Wilcoxon Rank Sum Test|||||||0.0259
82534128|NCT01033643|164766367|OTHER|Linear Model|Mean Difference from Placebo|2.11|||||TWO_SIDED|90.0|-5.02|9.25||||||||9.25|-5.02|
82420903|NCT04250207|164552645|SUPERIORITY|||||||0.0068|||||||Wilcoxon Rank Sum Test|||||||0.0068
82420904|NCT04250207|164552646|SUPERIORITY|||||||0.4435|||||||Wilcoxon Rank Sum Test|||Week 1||||0.4435
82420905|NCT04250207|164552646|SUPERIORITY|||||||0.3402|||||||Wilcoxon Rank Sum Test|||Week 1||||0.3402
82420906|NCT04250207|164552646|SUPERIORITY||||||>|0.9999|||||||Wilcoxon Rank Sum Test|||Week 2||||> 0.9999
82448088|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-9.31|8.58||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.58|-9.31|
82448089|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.48|||||TWO_SIDED|95.0|-18.43|-0.53||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.53|-18.43|
82448090|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.42|||||TWO_SIDED|95.0|-22.39|-4.44||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.44|-22.39|
82448091|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.58|||||TWO_SIDED|95.0|-17.48|0.33||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.33|-17.48|
82448092|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-11.57|6.38||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.38|-11.57|
82534129|NCT01033643|164766367|OTHER|Linear Model|Mean Difference from Placebo|-1.23|||||TWO_SIDED|90.0|-9.41|6.94||||||||6.94|-9.41|
82534130|NCT01033643|164766368|OTHER|Linear Model|Mean Difference from Placebo|-0.75|||||TWO_SIDED|90.0|-9.29|7.79||||||||7.79|-9.29|
82534131|NCT01033643|164766368|OTHER|Linear Model|Mean Difference from Placebo|-3.73|||||TWO_SIDED|90.0|-14.32|6.86||||||||6.86|-14.32|
82420907|NCT04250207|164552646|SUPERIORITY|||||||0.0655|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0655
82420908|NCT04250207|164552646|SUPERIORITY|||||||0.0903|||||||Wilcoxon Rank Sum Test|||Week 3||||0.0903
82534132|NCT01033643|164766368|OTHER|Linear Model|Mean Difference from Placebo|0.66|||||TWO_SIDED|90.0|-7.88|9.2||||||||9.20|-7.88|
82534133|NCT01033643|164766368|OTHER|Linear Model|Mean Difference from Placebo|-9.92|||||TWO_SIDED|90.0|-19.54|-0.3||||||||-0.30|-19.54|
82534134|NCT01033643|164766369|OTHER|Linear Model|Mean Difference from Placebo|-1.02|||||TWO_SIDED|90.0|-9.36|7.32||||||||7.32|-9.36|
82534135|NCT01033643|164766369|OTHER|Linear Model|Mean Difference from Placebo|-2.12|||||TWO_SIDED|90.0|-12.47|8.22||||||||8.22|-12.47|
82534136|NCT01033643|164766369|OTHER|Linear Model|Mean Difference from Placebo|-0.53|||||TWO_SIDED|90.0|-8.87|7.81||||||||7.81|-8.87|
82534137|NCT01033643|164766369|OTHER|Linear Model|Mean Difference from Placebo|-10.44|||||TWO_SIDED|90.0|-19.83|-1.04||||||||-1.04|-19.83|
82420909|NCT04250207|164552646|SUPERIORITY|||||||0.0216|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0216
82420910|NCT04250207|164552646|SUPERIORITY|||||||0.002|||||||Wilcoxon Rank Sum Test|||Week 5||||0.0020
82420911|NCT04250207|164552646|SUPERIORITY|||||||0.0676|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0676
82420912|NCT04250207|164552646|SUPERIORITY|||||||0.0029|||||||Wilcoxon Rank Sum Test|||Week 7||||0.0029
82420913|NCT04250207|164552646|SUPERIORITY|||||||0.0335|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0335
82420914|NCT04250207|164552646|SUPERIORITY|||||||0.0053|||||||Wilcoxon Rank Sum Test|||Week 9||||0.0053
82420915|NCT04250207|164552646|SUPERIORITY|||||||0.0608|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0608
82420916|NCT04250207|164552646|SUPERIORITY|||||||0.0071|||||||Wilcoxon Rank Sum Test|||Week 12||||0.0071
82420917|NCT04250207|164552646|SUPERIORITY|||||||0.4406|||||||Wilcoxon Rank Sum Test|||Week 16||||0.4406
82420918|NCT04250207|164552646|SUPERIORITY|||||||0.1716|||||||Wilcoxon Rank Sum Test|||Week 16||||0.1716
82420919|NCT04250207|164552646|SUPERIORITY|||||||0.9856|||||||Wilcoxon Rank Sum Test|||Week 20||||0.9856
82420920|NCT04250207|164552646|SUPERIORITY|||||||0.2229|||||||Wilcoxon Rank Sum Test|||Week 20||||0.2229
82420921|NCT04250207|164552646|SUPERIORITY|||||||0.8817|||||||Wilcoxon Rank Sum Test|||Week 24||||0.8817
82420922|NCT04250207|164552646|SUPERIORITY|||||||0.2081|||||||Wilcoxon Rank Sum Test|||||||0.2081
82420923|NCT04250207|164552646|SUPERIORITY|||||||0.7335|||||||Wilcoxon Rank Sum Test|||Week 38||||0.7335
82420924|NCT04250207|164552646|SUPERIORITY|||||||0.5367|||||||Wilcoxon Rank Sum Test|||Week 38||||0.5367
82420925|NCT04250207|164552646|SUPERIORITY|||||||0.555|||||||Wilcoxon Rank Sum Test|||Week 52||||0.5550
82420926|NCT04250207|164552646|SUPERIORITY|||||||0.8718|||||||Wilcoxon Rank Sum Test|||Week 52||||0.8718
82420927|NCT04526158|164552650|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.031|TWO_SIDED|95.0|0.0|0.6||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.6|0.0|0.031
82420928|NCT04526158|164552650|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.002|TWO_SIDED|95.0|-0.7|-0.2||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.7|0.002
82420929|NCT04526158|164552650|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4||significance threshold = 0.0167 due to multiple comparisons|Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.4|-1.0|<0.001
82420930|NCT04526158|164552651|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.736|TWO_SIDED|95.0|-0.2|0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.3|-0.2|0.736
82420931|NCT04526158|164552651|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.6|<0.001
82420932|NCT04526158|164552651|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of BPI intensity, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-0.7|<0.001
82420933|NCT04526158|164552652|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.829|TWO_SIDED|95.0|-0.4|0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.4|-0.4|0.829
82420934|NCT04526158|164552652|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.005|TWO_SIDED|95.0|0.2|0.9|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.9|0.2|0.005
82420935|NCT04526158|164552652|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.004|TWO_SIDED|95.0|0.2|1.0|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Physical function, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.0|0.2|0.004
82448093|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.75|||||TWO_SIDED|95.0|-22.73|-4.78||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.78|-22.73|
82448094|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-9.32|8.88||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.88|-9.32|
82448095|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.28|||||TWO_SIDED|95.0|-21.39|-3.17||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.17|-21.39|
82448096|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.44|||||TWO_SIDED|95.0|-25.53|-7.36||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.36|-25.53|
82534138|NCT01033643|164766370|OTHER|Linear Model|Mean Difference from Placebo|-1.73|||||TWO_SIDED|90.0|-6.5|3.04||||||||3.04|-6.50|
82534139|NCT01033643|164766370|OTHER|Linear Model|Mean Difference from Placebo|-4.23|||||TWO_SIDED|90.0|-9.0|0.54||||||||0.54|-9.00|
82534140|NCT01033643|164766370|OTHER|Linear Model|Mean Difference from Placebo|-1.05|||||TWO_SIDED|90.0|-5.82|3.72||||||||3.72|-5.82|
82420936|NCT04526158|164552653|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.079|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.8|0.0|0.079
82420937|NCT04526158|164552653|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.296|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.2|-0.6|0.296
82420938|NCT04526158|164552653|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.005|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS Anxiety, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.0|0.005
82420939|NCT04526158|164552654|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.464|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.7|-0.3|0.464
82420940|NCT04526158|164552654|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.019|TWO_SIDED|95.0|-1.1|-0.1|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.1|-1.1|0.019
82420941|NCT04526158|164552654|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.002|TWO_SIDED|95.0|-1.3|-0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS fatigue, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.3|-1.3|0.002
82534141|NCT01033643|164766370|OTHER|Linear Model|Mean Difference from Placebo|-2.0|||||TWO_SIDED|90.0|-3.46|7.46||||||||7.46|-3.46|
82534142|NCT01033643|164766371|OTHER|Linear Model|Mean Difference from Placebo|-3.87|||||TWO_SIDED|90.0|-9.37|1.64||||||||1.64|-9.37|
82420942|NCT04526158|164552655|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.889|TWO_SIDED|95.0|-0.5|0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.4|-0.5|0.889
82420943|NCT04526158|164552655|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.004|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.1|0.004
82420944|NCT04526158|164552655|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.006|TWO_SIDED|95.0|-1.1|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS sleep disturbance, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.1|0.006
82534143|NCT01033643|164766371|OTHER|Linear Model|Mean Difference from Placebo|-7.2|||||TWO_SIDED|90.0|-14.03|-0.37||||||||-0.37|-14.03|
82534144|NCT01033643|164766371|OTHER|Linear Model|Mean Difference from Placebo|-1.33|||||TWO_SIDED|90.0|-6.83|4.18||||||||4.18|-6.83|
82534145|NCT01033643|164766371|OTHER|Linear Model|Mean Difference from Placebo|-2.24|||||TWO_SIDED|90.0|-8.45|3.96||||||||3.96|-8.45|
82534146|NCT01033643|164766372|OTHER|Linear Model|Mean Difference from Placebo|-2.74|||||TWO_SIDED|90.0|-7.92|2.43||||||||2.43|-7.92|
82534147|NCT01033643|164766372|OTHER|Linear Model|Mean Difference from Placebo|-6.67|||||TWO_SIDED|90.0|-13.09|-0.25||||||||-0.25|-13.09|
82420945|NCT04526158|164552656|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.76|TWO_SIDED|95.0|-0.4|0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.5|-0.4|0.76
82420946|NCT04526158|164552656|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.4|0.6|<0.001
82420947|NCT04526158|164552656|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.5|1.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PROMIS social roles and activities, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.3|0.5|<0.001
82420948|NCT04526158|164552657|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.89|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.6|-0.7|0.89
82420949|NCT04526158|164552657|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.003|TWO_SIDED|95.0|-1.5|-0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.3|-1.5|0.003
82420950|NCT04526158|164552657|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.007|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PHQ8, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.2|-1.5|0.007
82420951|NCT04526158|164552658|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.886|TWO_SIDED|95.0|-1.6|1.9|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||1.9|-1.6|0.886
82420952|NCT04526158|164552658|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.017|TWO_SIDED|95.0|-3.7|-0.4|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.4|-3.7|0.017
82420953|NCT04526158|164552658|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.013|TWO_SIDED|95.0|-3.9|-0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline values of PCL5, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.5|-3.9|0.013
82420954|NCT04526158|164552659|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.437|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||0.3|-0.1|0.437
82420955|NCT04526158|164552659|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.5|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.5|-0.9|<0.001
82420956|NCT04526158|164552659|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.0|-0.6|||Mixed Models Analysis|Linear mixed model adjusted for baseline Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-0.6|-1.0|<0.001
82420957|NCT04526158|164552660|SUPERIORITY||Mean Difference (Final Values)|-7.5|||||TWO_SIDED|95.0|-13.9|-1.2||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||-1.2|-13.9|
82420958|NCT04526158|164552660|SUPERIORITY||Mean Difference (Final Values)|12.0|||||TWO_SIDED|95.0|6.4|17.6||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||17.6|6.4|
82420959|NCT04526158|164552660|SUPERIORITY||Mean Difference (Final Values)|19.5|||||TWO_SIDED|95.0|13.6|25.4||Used confidence interval to determine significance.|Mixed Models Analysis|Logistic mixed model adjusted for baseline values of BPI interference, Pain Self-Efficacy, and design factors|estimates were generated from multiple imputed data|||25.4|13.6|
82420960|NCT00677040|164552661|EQUIVALENCE|t-test to determine if tissue oxygen measurements are equivalent between treated and nontreated breast|t-test|0.35||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82420961|NCT00677040|164552661|OTHER||t-test|0.35||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||.5
82420962|NCT04576481|164552665|SUPERIORITY||F-Statistic|1.18||||0.32|TWO_SIDED||||||ANOVA|||Analysis of Variance statistical testing.||||0.32
82420963|NCT04576481|164552666|SUPERIORITY||F-Statistic|0.25||||0.78|TWO_SIDED||||||ANOVA|||||||0.78
82420964|NCT04576481|164552667|SUPERIORITY|||||||0.19|||||||ANOVA|||||||0.19
82420965|NCT04576481|164552668|SUPERIORITY|||||||0.46|||||||ANOVA|||||||0.46
82534148|NCT01033643|164766372|OTHER|Linear Model|Mean Difference from Placebo|-0.74|||||TWO_SIDED|90.0|-5.91|4.44||||||||4.44|-5.91|
82420966|NCT04576481|164552669|SUPERIORITY|||||||0.3|||||||ANOVA|||||||0.30
82534149|NCT01033643|164766372|OTHER|Linear Model|Mean Difference from Placebo|-2.81|||||TWO_SIDED|90.0|-8.64|3.02||||||||3.02|-8.64|
82534150|NCT01033643|164766373|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.47|1.87|||||GMR was calculated as MK-3614 Dose divided by Placebo|||1.87|0.47|
82420967|NCT05263791|164552670|NON_INFERIORITY|The primary objective to prove the non-inferiority in between the Airmod and reference device is determined by the difference between AirRR and ManCRR.|||||<|0.001|||||||Paired t Test|||Hypothesis: airRR-mancRR ≦ -3, In the target of p\<0.05 indicates significance.||||<0.001
82420968|NCT05263791|164552671|NON_INFERIORITY|The hypothesis tested is demonstrated airRR non-inferior to acoRR when the capnostream is less sensitive.|||||<|0.001|||||||Paired t Test|||"In this study, a non-inferiority test was conducted during periods of reduced sensitivity in capnography to compare respiratory rate measurements using the Airmod device (airRR) versus manually scored auscultation sounds (referred to as acoRR, implying manARR in the statistical analysis plan). The research physician identified periods of reduced sensitivity in capnography."||||<0.001
82420969|NCT05263791|164552673|SUPERIORITY|This analysis were examined to assess the responsiveness of Airmod and Capnography.|||||<|0.001|||||||Paired t Test|||The hypothesis tested whether the response times obtained with the Airmod device were equal to those recorded with Capnography.||||<0.001
82534151|NCT01033643|164766373|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.48|||||TWO_SIDED|90.0|0.26|0.87|||||GMR was calculated as MK-3614 Dose divided by Placebo|||0.87|0.26|
82420970|NCT05263791|164552674|NON_INFERIORITY|The objective to prove the non-inferiority in between the Airmod and reference device is determined by the difference between AirRR and ManCRR by subjects.|||||<|0.05|||||||Paired t Test|||Hypothesis: airRR-mancRR ≦ -2, In the target of p\<0.05 indicates significance.||||<0.05
82420971|NCT02732145|164552697|OTHER|"Question: Determination of sensitivity of the Vulvoscopy Index as a measure of the sensitivity of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Sensitivity (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"The Sensitivity of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 1.000 (Range: 1.0000 - 1.0000)."|"Parameter: Sensitivity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
82420972|NCT02732145|164552697|OTHER|"Question: Determination of specificity of the Vulvoscopy index as a measure of the specificity of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Specificity (2x2 Table)|0.9609|||||TWO_SIDED|95.0|0.5794|1.0|||||"The Specificity of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.9609 (Range: 0.5794 - 1.0000)"|"Parameter: Specificity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.5794|
82420973|NCT02732145|164552697|OTHER|"Question: Determination of diagnostic accuracy of the Vulvoscopy index as a measure of the diagnostic value of Three Rings Vulvoscopy in comparison to the histopathological diagnosis of vulvar dermatosis."|Diagnostic Accuracy (2x2 Table)|0.9695|||||TWO_SIDED|95.0|0.6313|1.0|||||"The Diagnostic accuracy of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.9695 (Range: 0.6313 - 1.0000)"|"Parameter: Diagnostic accuracy of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.6313|
82420974|NCT02732145|164552697|SUPERIORITY|"Question: Determination of positive predictive value of the Vulvoscopy index for detection of vulvar dermatosis in comparison to the histopathology results."|PPV (2x2 Table)|0.878|||||TWO_SIDED|95.0|0.227|1.0|||||"Positive predictive value of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 0.8780 (Range: 0.2270 - 1.0000)."|"Parameter: Positive predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.2270|
82534152|NCT01033643|164766373|OTHER|Linear Model|Geometric Mean Ratio (GMR)|0.95|||||TWO_SIDED|90.0|0.51|1.79|||||GMR was calculated as MK-3614 Dose divided by Placebo|||1.79|0.51|
82534153|NCT02028884|164766383|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.0184|TWO_SIDED|95.0|0.16|0.88|||Log Rank|||Stratified by Baseline annualized relapse rate (ARR: 1, \> 1) and geographic region (Asia, EU/Other).||0.88|0.16|0.0184
82534154|NCT02028884|164766384|SUPERIORITY||Mean Difference (Final Values)|6.376|STANDARD_ERROR_OF_MEAN|3.344||0.0602|TWO_SIDED|95.0|-0.28|13.033|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||13.033|-0.280|0.0602
82534155|NCT02028884|164766385|SUPERIORITY||Mean Difference (Final Values)|-2.089|STANDARD_ERROR_OF_MEAN|1.338||0.1224|TWO_SIDED|95.0|-4.752|0.574|||ANCOVA|ANCOVA model: treatment group as fixed effect and baseline measurements, prior therapy, most recent attack (first attack/relapse) as covariates.||||0.574|-4.752|0.1224
82420975|NCT02732145|164552697|OTHER|"Question: Determination of negative predictive value of the Vulvoscopy index for detection of vulvar dermatosis in comparison to the histopathology results."|NPV (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"Negative predictive value of the Vulvoscopy Index for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Negative predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
82420976|NCT02732145|164552697|SUPERIORITY|"Question: Is there a difference in the diagnostic accuracy of the Vulvoscopy Index as an outcome measure of the diagnostic value of Three Rings Vulvoscopy, and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the diagnostic accuracy between TRIV using the Vulvoscopy Index and histopathology for detection of vulvar dermatosis."||||0.6108
82420977|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of vulvar complaints among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar complaints in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82420978|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of positive Marinoff Index among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9628|||||||t-test proportion|||Parameter: The difference in the frequency of positive Marinoff Index in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9628
82420979|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of the positive Cotton-Swab test among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9152|||||||t-test proportion|||Parameter: The difference in the frequency of the positive Cotton-Swab test in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9152
82420980|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of any lesion in any vulvar ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of any lesion in any vulvar ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82420981|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Outer Vulvar Ring among the patients with vulvar dermatosis diagnosed with vulvoscopy and histopathology?||||||0.8862|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8862
82420982|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Middle Vulvar Ring among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82534156|NCT02403674|164766414|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10.|Difference in percentages|3.537|||||TWO_SIDED|95.0|-1.951|9.026|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.026|-1.951|
82534157|NCT02403674|164766415|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-28.3|||<|0.001|TWO_SIDED|95.0|-34.0|-22.5||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Dizziness difference||-22.5|-34.0|<0.001
82534158|NCT02403674|164766415|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-13.5|||<|0.001|TWO_SIDED|95.0|-19.1|-7.9||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Sleep disorders and disturbances difference||-7.9|-19.1|<0.001
82534159|NCT02403674|164766415|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-3.8||||0.033|TWO_SIDED|95.0|-7.6|-0.3||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Altered sensorium difference||-0.3|-7.6|0.033
82534160|NCT02403674|164766416|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10|Difference in percentages|3.815|||||TWO_SIDED|95.0|-2.412|10.042|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||10.042|-2.412|
82534161|NCT02403674|164766417|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10.|Difference in percentages|4.1|||||TWO_SIDED|95.0|-1.5|9.7|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.7|-1.5|
82534162|NCT02403674|164766418|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 95% CI of the mean treatment difference was greater than -10|Difference in percentages|3.268|||||TWO_SIDED|95.0|-3.057|9.593|||||The 95% CIs for difference in percentages were calculated using stratum-adjusted Mantel-Haenszel method for each stratum (HIV-1 RNA ≤100,000 or \>100,000 copies/mL).|||9.593|-3.057|
82534163|NCT02403674|164766419|SUPERIORITY|Superiority was declared when group difference (MK-1439A-ATRIPLA®) was a positive value.|Difference in mean %change from baseline|10.1|||||TWO_SIDED|95.0|-16.1|36.3|||||95% CIs were calculated based on t-distribution.|||36.3|-16.1|
82647389|NCT03118765|165010150|OTHER||||||||||||||||||For GSP304 10 μg, geometric mean AUC0-tau of tiotropium was 8.597 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
82420983|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Inner Vulvar Ring among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3319|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3319
82420984|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of non-specific vulvar lesions among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8662|||||||t-test proportion|||Parameter: The difference in the frequency of non-specific vulvar lesions in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8662
82534164|NCT02403674|164766420|SUPERIORITY|Superiority was declared when group difference (MK-1439A-ATRIPLA) was a positive value|Diff in mean % change from baseline|14.7|||||TWO_SIDED|95.0|-18.7|48.2|||||The 95% CI for mean difference in CD4 change was based on t-distribution.|||48.2|-18.7|
82534165|NCT02403674|164766421|OTHER|Difference in percentage of participants with ≥1 AE(s)|Difference in percentages|-8.0|||||TWO_SIDED|95.0|-13.0|-3.1|||||95% CIs were calculated with the Miettinen \& Nurminen method.|||-3.1|-13.0|
82534166|NCT02403674|164766422|OTHER|Difference in percentage of participants with ≥1 AE(s)|Difference in percentages|-3.6|||||TWO_SIDED|95.0|-6.9|-0.5|||||95% CIs were calculated with the Miettinen \& Nurminen method.|||-0.5|-6.9|
82534167|NCT02403674|164766423|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-2.5|||<|0.001|TWO_SIDED|95.0|-5.9|0.8||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Depression and suicide/self-injury difference||0.8|-5.9|<0.001
82534168|NCT02403674|164766423|SUPERIORITY|Superiority was declared when the 1-sided p-value comparing treatment difference was \<0.02497.|Difference in percentages|-0.8|||<|0.001|TWO_SIDED|95.0|-2.5|0.5||2-sided P-value|t-test, 2 sided||95% CIs were calculated using the Miettinen and Nurminen method.|Psychosis and psychotic disorders difference||0.5|-2.5|<0.001
82420985|NCT02732145|164552698|SUPERIORITY|Question: Is there a difference in the frequency of specific vulvar lesions among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar lesions specific for dermatosis in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82420986|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of vulvar complaints among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5399|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar complaints in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5399
82534169|NCT02403674|164766424|SUPERIORITY||Difference in mean %change from baseline|-10.01|||<|0.0001|TWO_SIDED|95.0|-13.53|-6.49|||ANCOVA||95% CIs and 2-sided p-values for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-6.49|-13.53|<0.0001
82534170|NCT02403674|164766425|SUPERIORITY||Difference in mean %change from baseline|-17.02|||<|0.0001|TWO_SIDED|95.0|-20.89|-13.16|||ANCOVA||95% CIs and 2-sided p-values for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-13.16|-20.89|<0.0001
82420987|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of positive Marinoff Index among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9248|||||||t-test proportion|||Parameter: The difference in the frequency of positive Marinoff Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9248
82534171|NCT02403674|164766426|SUPERIORITY||Difference in mean %change from baseline|-23.44|||||TWO_SIDED|95.0|-27.57|-19.32|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-19.32|-27.57|
82534172|NCT02403674|164766427|SUPERIORITY||Difference in mean %change from baseline|-35.96|||||TWO_SIDED|95.0|-47.1|-24.82|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-24.82|-47.10|
82647390|NCT03118765|165010150|OTHER||||||||||||||||||For GSP304 20 μg, geometric mean AUC0-tau of tiotropium was 18.00 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
82647391|NCT03118765|165010150|OTHER||||||||||||||||||For GSP304 40 μg, geometric mean AUC0-tau of tiotropium was 42.69 pg\*h/mL and for SPIRIVA RESPIMAT 5 μg, geometric mean AUC0-tau of tiotropium was 19.59 pg\*h/mL on Day 1.|||
82420988|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of the positive Cotton-Swab test among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9839|||||||t-test proportion|||Parameter: The difference in the frequency of the positive Cotton-Swab test in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9839
82420989|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of any lesion in any vulvar ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.7537|||||||t|||Parameter: The difference in the frequency of any lesion in any vulvar ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.7537
82420990|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Outer Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.2054|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.2054
82420991|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Middle Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.6409|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.6409
82420992|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of any vulvar lesion of the Inner Vulvar Ring among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9753|||||||t-test proportion|||Parameter: The difference in the frequency of any vulvar lesion of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9753
82420993|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of non-specific vulvar lesions among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8986|||||||t-test proportion|||Parameter: The difference in the frequency of non-specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8986
82420994|NCT02732145|164552699|SUPERIORITY|Question: Is there a difference in the frequency of specific vulvar lesions among the patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy)?||||||0.0017|||||||t-test proportion|||Parameter: The difference in the frequency of vulvar lesions specific for dermatosis in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy).||||0.0017
82420995|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82420996|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index (mean) among patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9899|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9899
82420997|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9686|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9686
82420998|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.7055|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.7055
82420999|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8852|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8852
82421000|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82421001|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3351|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3351
82421002|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8673|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8673
82421003|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8673|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8673
82534173|NCT02403674|164766428|SUPERIORITY||Difference in mean %change from baseline|-6.47|||||TWO_SIDED|95.0|-7.97|-4.96|||||95% CIs for treatment difference were calculated from an ANCOVA model with terms for baseline lipid level and treatment.|||-4.96|-7.97|
82647392|NCT03118765|165010153|OTHER||||||||||||||||||For GSP304 10 μg, the geometric mean CavSS was 0.9536 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
82421004|NCT02732145|164552700|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for specific vulvar lesions (mean) with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82534174|NCT00826280|164766432|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534175|NCT00826280|164766432|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534176|NCT00826280|164766432|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534177|NCT00826280|164766432|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9328||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.9328
82534178|NCT00826280|164766433|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0011
82534179|NCT00826280|164766433|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0034||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0034
82534180|NCT00826280|164766433|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534181|NCT00826280|164766433|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5902||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.5902
82421005|NCT02732145|164552700|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index (mean) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8472|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (mean) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8472
82534182|NCT00826280|164766434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0037
82534183|NCT00826280|164766434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0089
82534184|NCT00826280|164766434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.0016
82534185|NCT00826280|164766434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5654||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||0.5654
82534186|NCT00826280|164766435|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-Value is from the primary analysis using ANCOVA.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534187|NCT00826280|164766435|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82421006|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82448097|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.38|||||TWO_SIDED|95.0|-18.42|-0.34||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.34|-18.42|
82534188|NCT00826280|164766435|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||<0.001
82534189|NCT00826280|164766435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4246||95.0||||The unadjusted P-Values for pairwise differences should be used for interpretation only if the treatment effect's P-Value ≤ 0.05.|ANCOVA|||P-Value applies to 'Double-Blind - Baseline (Day 5 - Day 3)'.||||.4246
82534190|NCT01341080|164766477|OTHER||Cohen's d|0.15||||0.05|TWO_SIDED|95.0|-4.01|4.61|||Repeated measures analysis or variance|||Efficacy was measured as a change on the Berg Balance Scale (BBS) from baseline to the end of study after 8 weeks on drug. The BBS has a scale range of 0-56, with 56 indicating normal balance. To evaluate efficacy, repeated measures analysis of variance was run on BBS scores. The scale score was the dependent measure, time point (baseline or end of study) was the repeat measure, and treatment group (varenicline or sugar pill) was the independent measure. Significance was defined as alpha \<0.05.||4.61|-4.01|0.05
82534191|NCT01341080|164766478|OTHER||Cohen's d|0.16||||0.05|TWO_SIDED|95.0|-1.39|1.53|||Repeated measures analysis or variance|||Change in cognitive functioning was measured in part with the Frontal Assessment Battery (FAB) from Baseline to 8 weeks on drug. Repeated analysis of variance was run on the FAB scores. Scale cores was the dependent measure, time point (Baseline or end of study) was the repeated measure, and treatment group (varenicline or sugar pill) was the independent measure. Significant was defined as \<0.05.||1.53|-1.39|0.05
82647393|NCT03118765|165010153|OTHER||||||||||||||||||For GSP304 20 μg, the geometric mean CavSS was 1.998 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
82421007|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9629|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9629
82421008|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9155|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9155
82421009|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.4913|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.4913
82421010|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8866|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8866
82421011|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82421012|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3335|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3335
82421013|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8666|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8666
82421014|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8666|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8666
82421015|NCT02732145|164552702|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||1|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for specific vulvar lesions (median) with vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||1.0000
82647394|NCT03118765|165010153|OTHER||||||||||||||||||For GSP304 40 μg, the geometric mean CavSS was 5.083 pg/mL on Day 21 and for SPIRIVA RESPIMAT 5 μg, the CavSS was 2.403 pg/mL on Day 21|||
82421016|NCT02732145|164552702|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index (median) among the patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8144|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (median) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8144
82421017|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for vulvar complaints in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5403|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar complaints (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5403
82421018|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for Marinoff Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9248|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for Marinoff Index (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9248
82421019|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for the Cotton-Swab test in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9839|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the Cotton-Swab test (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9839
82421020|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for any lesion in any vulvar ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.5124|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any lesion in any vulvar ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.5124
82421021|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.2058|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Outer Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.2058
82421022|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.6412|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Middle Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.6412
82647395|NCT03118765|165010154|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.617 for GSP304 10 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
82647396|NCT03118765|165010154|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.522 for GSP304 20 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
82421023|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for any vulvar lesion of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.9753|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for any vulvar lesion of the Inner Vulvar Ring (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.9753
82421024|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for the specificity of vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.3621|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for the specificity of vulvar lesions (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.3621
82421025|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for non-specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?||||||0.8987|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for non-specific vulvar lesions (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology.||||0.8987
82421026|NCT02732145|164552703|EQUIVALENCE|Question: Is there a difference in the score for specific vulvar lesions in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy)?||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the score for vulvar lesions specific for dermatosis (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology (first biopsy).||||0.0018
82421027|NCT02732145|164552703|EQUIVALENCE|"Question: Is there a difference in the overall sum of points for the Vulvoscopy Index in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.4409|||||||Wilcoxon (Mann-Whitney)|||"Parameter: The difference in the overall sum of points for the Vulvoscopy Index (median) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.4409
82421028|NCT02732145|164552704|OTHER|"Question: Determination of sensitivity of the N-S-P Scheme as a measure of the sensitivity of Three Rings Vulvoscopy, in comparison to the histopathological diagnosis of vulvar dermatosis."|Sensitivity (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"The Sensitivity of the N-S-P Scheme for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Sensitivity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
82421029|NCT02732145|164552704|OTHER|"Question: Determination of specificity of the N-S-P Scheme as a measure of the specificity of Three Rings Vulvoscopy, in comparison to the histopathological diagnosis of vulvar dermatosis."|Specificity (2x2 Table)|0.9609|||||TWO_SIDED|95.0|0.5794|1.0|||||"The Specificity of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.9609 (Range: 0.5794 - 1.0000)."|"Parameter: Specificity of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.5794|
82647397|NCT03118765|165010154|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on AUC of 2.926 for GSP304 40 μg and 2.815 for SPIRIVA RESPIMAT 5 μg.|||
82421030|NCT02732145|164552704|OTHER|"Question: Determination of diagnostic accuracy of the N-S-P Scheme as a measure of the diagnostic value of the Three Rings Vulvoscopy, in relation to the histopathological diagnosis of vulvar dermatosis."|Diagnostic Accuracy (2x2 Table)|0.9695|||||TWO_SIDED|95.0|0.6313|1.0|||||"The Diagnostic accuracy of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.9695 (Range: 0.6313 - 1.0000)."|"Parameter: Diagnostic accuracy of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.6313|
82421031|NCT02732145|164552704|OTHER|"Question: Determination of positive predictive value of the N-S-P Scheme for detection of vulvar dermatosis in comparison to the histopathology results."|PPV (2x2 Table)|0.878|||||TWO_SIDED|95.0|0.227|1.0|||||"Positive predictive value of the N-S-P Scheme for Detection of Vulvar Dermatosis was 0.8780 (Range: 0.2270 - 1.0000)."|"Parameter: Positive predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|0.2270|
82421032|NCT02732145|164552704|OTHER|"Question: Determination of negative predictive value of the N-S-P Scheme for detection of vulvar dermatosis in comparison to the histopathology results."|NPV (2x2 Table)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||"Negative predictive value of the N-S-P Scheme for Detection of Vulvar Dermatosis was 1.0000 (Range: 1.0000 - 1.0000)."|"Parameter: Negative predictive value of Three Rings Vulvoscopy for detection of vulvar dermatosis."||1.0000|1.0000|
82421033|NCT02732145|164552704|SUPERIORITY|"Question: Is there a difference in the diagnostic accuracy of the N-S-P Scheme as an outcome measure of the diagnostic value of Three Rings Vulvoscopy, and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the diagnostic accuracy between TRIV using the N-S-P Scheme and histopathology for detection of vulvar dermatosis."||||0.6108
82421034|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9286|||||||t-test proportion|||"Parameter: The difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9286
82421035|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8618|||||||t-test proportion|||"Parameter: The difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8618
82421036|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9786|||||||t-test proportion|||"Parameter: The difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9786
82421037|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
82647398|NCT03118765|165010155|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 1.944 for GSP304 10 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
82647399|NCT03118765|165010155|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 1.808 for GSP304 20 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
82534192|NCT01341080|164766479|OTHER||Cohen's d|0.81||||0.05|TWO_SIDED|95.0|-0.4|1.4|||Repeated measures analysis or variance|||Change in cognitive functioning was measured in part with the Mini Mental State Exam (MMSE) from Baseline to 8 weeks on drug. Repeated analysis of variance was run on the MMSE scores. Scale score was the dependent measure, time point (Baseline or end of study) was the repeated measure, and treatment group (varenicline or sugar pill) was the independent measure. Significant was defined as \<0.05.||1.40|-0.40|0.05
82534193|NCT02118714|164766480|OTHER||Percentage of Participants|23.5|||||TWO_SIDED|80.0|10.7|41.6||||||||41.6|10.7|
82534194|NCT02118714|164766480|OTHER||Percentage of Participants|23.5|||||TWO_SIDED|95.0|6.8|49.9||||||||49.9|6.8|
82534195|NCT02118714|164766481|OTHER||Percentage of Participants|11.8|||||TWO_SIDED|80.0|3.2|28.4||||||||28.4|3.2|
82534196|NCT02118714|164766481|OTHER||Percentage of Participants|11.8|||||TWO_SIDED|95.0|1.5|36.4||||||||36.4|1.5|
82534197|NCT02013687|164766494|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance of IgG values at study day 196 as compared to day 0 (pre-immune).|Wilcoxon (Mann-Whitney)|||||||<0.001
82534198|NCT02013687|164766494|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significance of IgG values at study day 196 as compared to day 0 (pre-immune).|Wilcoxon (Mann-Whitney)|||||||<0.001
82534199|NCT02013687|164766495|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82534200|NCT02013687|164766495|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
82647400|NCT03118765|165010155|OTHER||||||||||||||||||Upon repeat dosing, tiotropium had accumulated by Day 21 with a geometric mean accumulation ratio (Rac) based on Cmax of 2.125 for GSP304 40 μg and 1.929 for SPIRIVA RESPIMAT 5 μg.|||
82421038|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8634|||||||t-test proportion|||"Parameter: The difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8634
82421039|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.7992|||||||t-test proportion|||"Parameter: The difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.7992
82534201|NCT02013687|164766496|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82534202|NCT02013687|164766496|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82421040|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.3912|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.3912
82534203|NCT04770220|164766540|OTHER|"For the primary efficacy outcome of ADAS-Cog 13, this study has \>90% power to detect a 3.0-point difference between the active ALZ-801 treatment and the placebo in the CBL to Week 78. An increase in ADAS-Cog scores denotes cognitive worsening.~The primary analysis population was the full analysis set (FAS). The FAS included all study subjects who received at least one dose of the study drug and had at least one baseline assessment and any post baseline efficacy assessment."|Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.98||0.6058|TWO_SIDED|||||Statistical testing was two-sided at the α=0.05 significance level. Between-treatment group comparison (effect in ALZ-801 minus effect in placebo): LSM difference and p-value.|MMRM||ALZ-801 minus placebo|"The null hypothesis was change from baseline (CBL) of ADAS-Cog13 in the ALZ-801 arm was not different from the placebo arm. The alternative hypothesis was that the CBL of ADAS-Cog13 in ALZ-801 arm was different.~A Mixed-Effect Model Repeated Measure (MMRM) model was used with fixed terms for treatment, gender, age group, disease severity based on baseline MMSE (≤ 26 vs. \> 26), concomitant AD medications, visit, and treatment by visit interaction and baseline ADAS-Cog 13 values as covariates."||||0.6058
82534204|NCT04770220|164766542|OTHER||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|2.84||0.9966|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|"The A-IADL-W is one of 2 key secondary endpoints. The key secondary efficacy endpoints were to be compared only after the comparison of the primary endpoint has reached statistical significance. Because the primary endpoint did not reach statistical significance, the comparisons for the key secondary endpoints are descriptive only.~The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the key secondary endpoints."||||0.9966
82647401|NCT03118765|165010156|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.004|TWO_SIDED|95.0|0.04|0.21|||Mixed Models Analysis|||||0.21|0.04|0.004
82534205|NCT04770220|164766543|OTHER||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.31||0.309|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|"The CDR-SB is one of 2 key secondary endpoints. The key secondary efficacy endpoints were to be compared only after the comparison of the primary endpoint has reached statistical significance. Because the primary endpoint did not reach statistical significance, the comparisons for the key secondary endpoints are descriptive only.~The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the key secondary endpoints."||||0.3090
82534206|NCT04770220|164766544|OTHER||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.4||0.2763|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the additional secondary endpoints. The hypothesis testing was done without control for type I errors due to multiple comparisons, and the p-value was considered nominal.||||0.2763
82647402|NCT03118765|165010156|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Mixed Models Analysis|||||0.26|0.08|<0.001
82647403|NCT03118765|165010156|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.007|TWO_SIDED|95.0|0.03|0.21|||Mixed Models Analysis|||||0.21|0.03|0.007
82647404|NCT03118765|165010156|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.08|0.26|||Mixed Models Analysis|||||0.26|0.08|<0.001
82647405|NCT03118765|165010157|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.001|TWO_SIDED|95.0|0.08|0.28|||Mixed Models Analysis|||||0.28|0.08|0.001
82647406|NCT03118765|165010157|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.005|TWO_SIDED|95.0|0.05|0.25|||Mixed Models Analysis|||||0.25|0.05|0.005
82647407|NCT03118765|165010157|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.032|TWO_SIDED|95.0|0.01|0.21|||Mixed Models Analysis|||||0.21|0.01|0.032
82647408|NCT03118765|165010157|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.001|TWO_SIDED|95.0|0.07|0.27|||Mixed Models Analysis|||||0.27|0.07|0.001
82421041|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6152|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6152
82421042|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6108|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6108
82421043|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
82647409|NCT03118765|165010158|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.166|TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|||||0.21|-0.04|0.166
82421044|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.7912|||||||t-test proportion|||"Parameter: The difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.7912
82421045|NCT02732145|164552705|SUPERIORITY|"Question: Is there a difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||1|||||||t-test proportion|||"Parameter: The difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||1.0000
82421046|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.253|||||||t-test proportion|||"Parameter: The difference in the frequency of N-#-# result (no lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.2530
82421047|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8338|||||||t-test proportion|||"Parameter: The difference in the frequency of S-#-# result (non-specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8338
82421048|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0019|||||||t-test proportion|||"Parameter: The difference in the frequency of P-#-# result (specific lesions) of the Outer Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0019
82421049|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6541|||||||t-test proportion|||"Parameter: The difference in the frequency of #-N-# result (no lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6541
82421050|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8224|||||||t-test proportion|||"Parameter: The difference in the frequency of #-S-# result (non-specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8224
82426635|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.05||||0.0018|TWO_SIDED|95.0|-102.5|-23.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-23.6|-102.5|0.0018
82426636|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-84.36||||0.0002|TWO_SIDED|95.0|-129.1|-39.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-39.6|-129.1|0.0002
82647410|NCT03118765|165010158|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.182|TWO_SIDED|95.0|-0.04|0.21|||Mixed Models Analysis|||||0.21|-0.04|0.182
82647411|NCT03118765|165010158|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.401|TWO_SIDED|95.0|-0.07|0.17|||Mixed Models Analysis|||||0.17|-0.07|0.401
82647412|NCT03118765|165010158|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.574|TWO_SIDED|95.0|-0.09|0.16|||Mixed Models Analysis|||||0.16|-0.09|0.574
82647413|NCT03118765|165010159|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.493|TWO_SIDED|95.0|-0.1|0.21|||Mixed Models Analysis|||||0.21|-0.10|0.493
82647414|NCT03118765|165010159|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.864|TWO_SIDED|95.0|-0.17|0.14|||Mixed Models Analysis|||||0.14|-0.17|0.864
82647415|NCT03118765|165010159|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.978|TWO_SIDED|95.0|-0.16|0.15|||Mixed Models Analysis|||||0.15|-0.16|0.978
82647416|NCT03118765|165010159|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5|TWO_SIDED|95.0|-0.1|0.2|||Mixed Models Analysis|||||0.20|-0.10|0.500
82647417|NCT03118765|165010160|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.003|TWO_SIDED|95.0|0.04|0.2|||Mixed Models Analysis|||||0.20|0.04|0.003
82647418|NCT03118765|165010160|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.001|TWO_SIDED|95.0|0.06|0.22|||Mixed Models Analysis|||||0.22|0.06|0.001
82421051|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0064|||||||t-test proportion|||"Parameter: The difference in the frequency of #-P-# result (specific lesions) of the Middle Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0064
82421052|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9723|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-N result (no lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9723
82421053|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.8161|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-S result (non-specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.8161
82421054|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.1165|||||||t-test proportion|||"Parameter: The difference in the frequency of #-#-P result (specific lesions) of the Inner Vulvar Ring in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.1165
82534207|NCT04770220|164766545|OTHER||Least Squares Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.47||0.4484|TWO_SIDED|||||Nominal p-value|MMRM|Nominal (descriptive only)|ALZ-801 minus placebo|The same MMRM method applied to the primary efficacy endpoint was used to evaluate the between-treatment difference for the additional secondary endpoints. The hypothesis testing was done without control for type I errors due to multiple comparisons, and the p-value was considered nominal.||||0.4484
82577081|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.148||0.403|TWO_SIDED|95.0|-0.17|0.42|||MMRM|||Insomnia - Early, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.17|0.4030
82647419|NCT03118765|165010160|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.001|TWO_SIDED|95.0|0.06|0.21|||Mixed Models Analysis|||||0.21|0.06|0.001
82421055|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.6339|||||||t-test proportion|||"Parameter: The difference in the frequency of N-N-N result (no lesions) in any of the Three Vulvar Rings in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.6339
82421056|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.9724|||||||t-test proportion|||"Parameter: The difference in the frequency of S result (non-specific lesions) in any of the Three Vulvar Rings (S-#-#; S-S-#; S-S-S; S-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.9724
82421057|NCT02732145|164552706|SUPERIORITY|"Question: Is there a difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology?"||||||0.0016|||||||t-test proportion|||"Parameter: The difference in the frequency of P result (specific lesions) in any of the Three Vulvar Rings (P-#-#; P-P-; P-P-P; P-N-S etc.) in patients with absent vulvar dermatosis diagnosed by vulvoscopy and histopathology."||||0.0016
82421058|NCT02732145|164552707|EQUIVALENCE|Question: Is there a difference in the age of patients from different groups?||||||0|||||||ANOVA|||Parameter: The difference in the age of patients from different groups.||||0.0000
82421059|NCT02732145|164552708|EQUIVALENCE|Is there a difference in the weight of patients from different groups?||||||0|||||||ANOVA|||The difference in the weight of patients from different groups.||||0.0000
82421060|NCT02732145|164552709|EQUIVALENCE|Is there a difference in the height of patients from different groups.||||||0.0557|||||||ANOVA|||The difference in the height of patients from different groups.||||0.0557
82421061|NCT02732145|164552710|EQUIVALENCE|Is there a difference in the body mass index of patients from different groups.||||||0|||||||ANOVA|||The difference in the body mass index of patients from different groups.||||0.0000
82647420|NCT03118765|165010160|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.08|0.23|||Mixed Models Analysis|||||0.23|0.08|<0.001
82647421|NCT03118765|165010161|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.002|TWO_SIDED|95.0|0.06|0.24|||Mixed Models Analysis|||||0.24|0.06|0.002
82421062|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the incidence of patients older than 65 years in different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of patients older than 65 years between different groups.||||0.0000
82421063|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the incidence of menopausal patients among different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of menopausal patients among different groups.||||0.0000
82421064|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the incidence of domicile country (Croatia) as a country of birth among patients from different groups.||||||0.3708|||||||Chi-squared|||Parameter: The difference in the incidence of domicile country (Croatia) as a country of birth among patients from different groups.||||0.3708
82421065|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the incidence of patients educated equally or less than 12 years among different groups?||||||0.018|||||||Chi-squared|||Parameter: The difference in the incidence of patients educated equally or less than 12 years among different groups.||||0.0180
82647422|NCT03118765|165010161|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.061|TWO_SIDED|95.0|0.0|0.18|||Mixed Models Analysis|||||0.18|-0.00|0.061
82647423|NCT03118765|165010161|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.14|TWO_SIDED|95.0|-0.02|0.16|||Mixed Models Analysis|||||0.16|-0.02|0.140
82421066|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in marital status among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of marital status among patients from different groups.||||0.0000
82421067|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the nulliparity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the nulliparity among patients from different groups.||||0.0000
82421068|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the multiparity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the multiparity among patients from different groups.||||0.0000
82421069|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the number of abortions among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the number of abortions among patients from different groups.||||0.0000
82421070|NCT02732145|164552711|EQUIVALENCE|Question: Is there a difference in the using of contraception among patients from different groups?||||||0.1323|||||||Chi-squared|||Parameter: The difference in the using of contraception among patients from different groups.||||0.1323
82421071|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of symptoms of the dull pain of the vulva among patients with vulvar discomfort?||||||0.3158|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain of the vulva (burning, stinging, soreness, irritation, itching, inflammation, aching) among patients with vulvar discomfort.||||0.3158
82421072|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of symptoms of the sharp pain of the vulva among patients with vulvar discomfort?||||||0.0007|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the sharp pain in the vulva (stabbing, sticking, knife-like pain, paper-cuts pain) among patients with vulvar discomfort.||||0.0007
82421073|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of the dull pain versus the sharp pain of the vulva in the patients with vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain versus the sharp pain of the vulva in patients with vulvar dermatosis.||||0.0000
82421074|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of the dull pain versus the sharp pain of the vulva in the patients with vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull pain versus the sharp pain of the vulva in patients with vulvodynia.||||0.0000
82421075|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar burning among patients with vulvar discomfort?||||||0.0147|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar burning among patients with vulvar discomfort.||||0.0147
82421076|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar stinging among patients with vulvar discomfort?||||||0.8456|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar stinging among patients with vulvar discomfort.||||0.8456
82421077|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of vulvar soreness among patients with vulvar discomfort?||||||0.0076|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar soreness among patients with vulvar discomfort.||||0.0076
82534208|NCT04770220|164766546|OTHER||Least Squares Mean Difference|73.505|STANDARD_ERROR_OF_MEAN|30.711||0.0174|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo.|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0174
82421078|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of irritation of the vulva among the patients with vulvar discomfort?||||||0.0423|||||||Chi-squared|||Parameter: The difference in the incidence of irritation of the vulva among patients with vulvar discomfort.||||0.0423
82421079|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of the knife-like pain in the vulva among the patients with vulvar discomfort?||||||0.0457|||||||Chi-squared|||Parameter: The difference in the incidence of the knife-like pain in the vulva among patients with vulvar discomfort.||||0.0457
82534209|NCT04770220|164766547|OTHER||Least Squares Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.004||0.002|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0020
82421080|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of the paper-cuts pain of the vulva among the patients with vulvar discomfort?||||||0.043|||||||Chi-squared|||Parameter: The difference in the incidence of the paper-cuts pain of the vulva among patients with vulvar discomfort.||||0.0430
82421081|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of the stabbing of the vulva among the patients with vulvar discomfort?||||||0.0134|||||||Chi-squared|||Parameter: The difference in the incidence of the stabbing of the vulva among patients with vulvar discomfort.||||0.0134
82421082|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of sticking of the vulva among the patients with vulvar discomfort?||||||0.0581|||||||Chi-squared|||Parameter: The difference in the incidence of sticking of the vulva among patients with vulvar discomfort.||||0.0581
82421083|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of itching of the vulva among the patients with vulvar discomfort?||||||0.0002|||||||Chi-squared|||Parameter: The difference in the incidence of itching of the vulva among patients with vulvar discomfort.||||0.0002
82421084|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of the feeling of inflammation of the vulva among the patients with vulvar discomfort?|t-test proportion|0.0||||0.0852|TWO_SIDED||||||Chi-squared|||Parameter: The difference in the incidence of the feeling of inflammation of the vulva among patients with vulvar discomfort.||||0.0852
82421085|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the incidence of aching of the vulva among the patients with vulvar discomfort?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of aching of the vulva among patients with vulvar discomfort.||||0.0001
82421086|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the association of different symptoms of the vulva among the patients with vulvar discomfort?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of association of different vulvar symptoms among patients with vulvar discomfort.||||0.0000
82421087|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus burning in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus burning in patients with vulvar dermatosis.||||0.0000
82534210|NCT04770220|164766548|OTHER||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.007||0.004|TWO_SIDED|95.0||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0040
82534211|NCT04770220|164766549|OTHER||Least Squares Mean Difference|2821.027|STANDARD_ERROR_OF_MEAN|1366.533||0.04|TWO_SIDED|||||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0400
82647424|NCT03118765|165010161|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.002|TWO_SIDED|95.0|0.06|0.24|||Mixed Models Analysis|||||0.24|0.06|0.002
82647425|NCT03398928|165010199|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82421088|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus stinging in the patients with vulvar dermatosis?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus stinging in patients with vulvar dermatosis.||||0.0008
82421089|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus soreness in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus soreness in patients with vulvar dermatosis.||||0.0000
82421090|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus irritation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus irritation in patients with vulvar dermatosis.||||0.0000
82421091|NCT02732145|164552712|SUPERIORITY|||||||0||||||There was a statistically significant difference at p\<0.001. Patients with vulvar dermatosis had significantly more often itching than the feeling of inflammation of the vulva.|t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0000
82421092|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus aching in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus aching in patients with vulvar dermatosis.||||0.0000
82421093|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus burning in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus burning in patients with vulvar dermatosis.||||0.0000
82534212|NCT04770220|164766550|OTHER||Least Squares Mean Difference|-1157.0|STANDARD_ERROR_OF_MEAN|367.0||0.0018|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0018
82534213|NCT04770220|164766551|OTHER||Least Squares Mean Difference|-0.0000214|STANDARD_ERROR_OF_MEAN|0.00000111||0.054|TWO_SIDED|95.0|-0.0000432|0.00000037||Nominal p-value|MMRM||ALZ-801 minus placebo|Analysis of the DTI-MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline DTI-MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||0.00000037|-0.0000432|0.054
82421094|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus soreness in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus soreness in patients with vulvar dermatosis.||||0.0000
82421095|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus irritation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus irritation in patients with vulvar dermatosis.||||0.0000
82421096|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus the feeling of inflammation in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0000
82421097|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus aching in the patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus aching in patients with vulvar dermatosis.||||0.0000
82534214|NCT04770220|164766552|OTHER||Least Squares Mean Difference|-0.0000228|STANDARD_ERROR_OF_MEAN|0.00000829||0.0064|TWO_SIDED|95.0|-0.0000391|-0.0000065||Nominal p-value|MMRM|||||-0.0000065|-0.0000391|0.0064
82647426|NCT03398928|165010200|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82421098|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus burning in the patients with vulvar dermatosis?||||||0.8591|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus burning in patients with vulvar dermatosis.||||0.8591
82647427|NCT03398928|165010203|SUPERIORITY|||||||0.002||||||The statistical analysis applies to all the rows|Chi-squared|||||||0.002
82647428|NCT03398928|165010204|SUPERIORITY|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
82421099|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus soreness in the patients with vulvar dermatosis?||||||0.009|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus soreness in patients with vulvar dermatosis.||||0.0090
82421100|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus irritation in the patients with vulvar dermatosis?||||||0.0212|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus irritation in patients with vulvar dermatosis.||||0.0212
82421101|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus the feeling of inflammation in the patients with vulvar dermatosis?||||||0.0057|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus the feeling of inflammation in patients with vulvar dermatosis.||||0.0057
82421102|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus knife-like pain in the patients with vulvar dermatosis who had sharp pain?||||||0.0977|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus knife-like pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.0977
82421103|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus paper-cuts pain in the patients with vulvar dermatosis who had sharp pain?||||||0.0143|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus paper-cuts pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.0143
82421104|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus stabbing in the patients with vulvar dermatosis who had sharp pain?||||||0.2059|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus stabbing in patients with vulvar dermatosis who had sharp vulvar pain.||||0.2059
82421105|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus knife-like pain in the patients with vulvar dermatosis who had sharp pain?||||||0.682|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus knife-like pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.6820
82421106|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus paper-cuts pain in the patients with vulvar dermatosis who had sharp pain?||||||0.2059|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus paper-cuts pain in patients with vulvar dermatosis who had sharp vulvar pain.||||0.2059
82421107|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus burning in the patients with vulvodynia?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus burning in patients with vulvodynia.||||0.0000
82421108|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus soreness in the patients with vulvodynia?||||||0.0344|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus soreness in patients with vulvodynia.||||0.0344
82448098|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.52|||||TWO_SIDED|95.0|-13.61|4.57||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.57|-13.61|
82534215|NCT04770220|164766553|OTHER||Least Squares Mean Difference|0.009455|STANDARD_ERROR_OF_MEAN|0.00472||0.0465|TWO_SIDED|95.0|0.0001469|0.01876||Nominal p-value|MMRM|||||0.01876|0.0001469|0.0465
82647429|NCT01039584|165010267|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy measure was the proportion of subjects with therapeutic cure at Visit 3/Test-of-Cure. Therapeutic cure was defined as having both a mycological cure and a clinical cure.|Yates continuity correction|1.5|||||TWO_SIDED|90.0|-9.1|12.3|||Wald's method|||||12.3|-9.1|
82534216|NCT04770220|164766554|OTHER||Least Squares Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|1.05||0.0416|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0416
82421109|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus irritation in the patients with vulvodynia?||||||0.0023|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus irritation in patients with vulvodynia.||||0.0023
82534217|NCT04770220|164766555|OTHER||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|1.02||0.3945|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.3945
82421110|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus itching in the patients with vulvodynia?||||||0.5675|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus itching in patients with vulvodynia.||||0.5675
82421111|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus the feeling of inflammation in the patients with vulvodynia?||||||0.0037|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus the feeling of inflammation in patients with vulvodynia.||||0.0037
82421112|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging versus aching in the patients with vulvodynia?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stinging versus aching in patients with vulvodynia.||||0.0005
82448099|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.78|||||TWO_SIDED|95.0|-22.87|-4.69||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.69|-22.87|
82534218|NCT04770220|164766556|OTHER||Least Squares Mean Difference|-3.41|STANDARD_ERROR_OF_MEAN|3.07||0.2682|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2682
82534219|NCT04770220|164766557|OTHER||Least Squares Mean Difference|3.66|STANDARD_ERROR_OF_MEAN|2.96||0.2178|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2178
82534220|NCT04770220|164766558|OTHER||Least Squares Mean Difference|-0.646|STANDARD_ERROR_OF_MEAN|0.333||0.0533|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0533
82534221|NCT04770220|164766559|OTHER||Least Squares Mean Difference|0.127|STANDARD_ERROR_OF_MEAN|0.314||0.6854|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.6854
82534222|NCT04770220|164766560|OTHER||Least Squares Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|2.52||0.0161|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0161
82421113|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus burning in the patients with vulvodynia?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus burning in patients with vulvodynia.||||0.0000
82421114|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus soreness in the patients with vulvodynia?||||||0.1201|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus soreness in patients with vulvodynia.||||0.1201
82421115|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus irritation in the patients with vulvodynia?||||||0.0123|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus irritation in patients with vulvodynia.||||0.0123
82421116|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus the feeling of inflammation in the patients with vulvodynia?||||||0.0188|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus the feeling of inflammation in patients with vulvodynia.||||0.0188
82421117|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching versus aching in the patients with vulvodynia?||||||0.003|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar itching versus aching in patients with vulvodynia.||||0.0030
82421118|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus burning in the patients with vulvodynia?||||||0.2155|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus burning in patients with vulvodynia.||||0.2155
82421119|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus soreness in the patients with vulvodynia?||||||0.1508|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus soreness in patients with vulvodynia.||||0.1508
82421120|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus irritation in the patients with vulvodynia?||||||0.6364|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus irritation in patients with vulvodynia.||||0.6364
82448100|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.85|||||TWO_SIDED|95.0|-7.9|11.6||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.60|-7.90|
82534223|NCT04770220|164766561|OTHER||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|2.51||0.8387|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.8387
82534224|NCT04770220|164766562|OTHER||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.5||0.0795|TWO_SIDED|95.0|-0.103|1.845||Nominal p-value|MMRM|||||1.845|-0.103|0.0795
82534225|NCT04770220|164766563|OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8169|TWO_SIDED|95.0|-1.07|0.845||Nominal p-value|MMRM|||||0.845|-1.070|0.8169
82534226|NCT04770220|164766564|OTHER||Least Squares Mean Difference|108.1|STANDARD_ERROR_OF_MEAN|37.46||0.0042|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0042
82421121|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching versus the feeling of inflammation in the patients with vulvodynia?||||||0.5277|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar aching versus the feeling of inflammation in patients with vulvodynia.||||0.5277
82421122|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus knife-like pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.2041|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus knife-like pain in patients with vulvodynia who had sharp vulvar pain.||||0.2041
82421123|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus paper-cuts pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.0412|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus paper-cuts pain in patients with vulvodynia who had sharp vulvar pain.||||0.0412
82421124|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar sticking versus stabbing in the patients with vulvodynia who had sharp vulvar pain?||||||0.7978|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar sticking versus stabbing in patients with vulvodynia who had sharp vulvar pain.||||0.7978
82421125|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus knife-like pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.3094|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus knife-like pain in patients with vulvodynia who had sharp vulvar pain.||||0.3094
82534227|NCT04770220|164766565|OTHER||Least Squares Mean Difference|51.3|STANDARD_ERROR_OF_MEAN|32.42||0.1145|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1145
82534228|NCT04770220|164766566|OTHER||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.005|<|0.0001|TWO_SIDED|||||Nominal p-value|MMRM|||||||< 0.0001
82534229|NCT04770220|164766567|OTHER||Least Squares Mean Difference|0.007|STANDARD_ERROR_OF_MEAN|0.004||0.0985|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0985
82534230|NCT04770220|164766568|OTHER||Least Squares Mean Difference|0.033|STANDARD_ERROR_OF_MEAN|0.009||0.0002|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0002
82534231|NCT04770220|164766569|OTHER||Least Squares Mean Difference|0.014|STANDARD_ERROR_OF_MEAN|0.008||0.0699|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0699
82421126|NCT02732145|164552712|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stabbing versus paper-cuts pain in the patients with vulvodynia who had sharp vulvar pain?||||||0.073|||||||t-test proportion|||Parameter: The difference in the incidence of vulvar stabbing versus paper-cuts pain in patients with vulvodynia who had sharp vulvar pain.||||0.0730
82534232|NCT04770220|164766570|OTHER||Least Squares Mean Difference|3843.824|STANDARD_ERROR_OF_MEAN|1726.729||0.0267|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0267
82534233|NCT04770220|164766571|OTHER||Least Squares Mean Difference|2164.299|STANDARD_ERROR_OF_MEAN|1457.282||0.1386|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1386
82534234|NCT04770220|164766572|OTHER||Least Squares Mean Difference|-1312.0|STANDARD_ERROR_OF_MEAN|437.0||0.0029|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0029
82534235|NCT04770220|164766573|OTHER||Least Squares Mean Difference|-1057.0|STANDARD_ERROR_OF_MEAN|386.0||0.0065|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.0065
82421127|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than 24 months among patients with vulvar dermatosis and vulvodynia?||||||0.4038|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than 24 months among patients with vulvar dermatosis or vulvodynia.||||0.4038
82421128|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than 12 months among patients with vulvar dermatosis and vulvodynia?||||||0.7299|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than 12 months among patients with vulvar dermatosis or vulvodynia.||||0.7299
82421129|NCT02732145|164552712|EQUIVALENCE|Question: Is there a difference in the duration of vulvar complaints for more than six months among patients with vulvar dermatosis and vulvodynia?||||||0.7241|||||||Chi-squared|||Parameter: The difference in the duration of vulvar complaints for more than six months among patients with vulvar dermatosis or vulvodynia.||||0.7241
82421130|NCT02732145|164552713|EQUIVALENCE|Question: Is there a difference in the sexual activity among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the sexual activity among patients from different groups.||||0.0000
82421131|NCT02732145|164552713|EQUIVALENCE|Question: Is there a difference in the frequency of dyspareunia as a cause of sexual inactivity among patients from different groups?||||||0.0006|||||||Chi-squared|||Parameter: The difference in the frequency of dyspareunia as a cause of sexual inactivity among patients from different groups.||||0.0006
82421132|NCT02732145|164552713|EQUIVALENCE|Question: Is there a difference in the frequency of sexual inactivity due to dyspareunia and lack of a sexual partner among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of sexual inactivity due to dyspareunia and lack of a sexual partner among patients from different groups.||||0.0000
82421133|NCT02732145|164552714|EQUIVALENCE|Question: Is there a difference in the frequency of dyspareunia among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of dyspareunia among patients from different groups.||||0.0000
82421134|NCT02732145|164552714|EQUIVALENCE|Parameter: The difference in the degree of dyspareunia (Marinoff Index) among sexually active patients with vulvodynia or vulvar dermatosis who had dyspareunia.||||||0.2999|||||||Chi-squared|||Parameter: The difference in the degree of dyspareunia (Marinoff Index) among sexually active patients with vulvodynia or vulvar dermatosis who had dyspareunia.||||0.2999
82421135|NCT02732145|164552715|EQUIVALENCE|Question: Is there a difference in the incidence of the frequency of vulvar discomfort provoked through the intercourse in patients with vulvodynia and vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort provoked through the intercourse in patients with vulvodynia and vulvar dermatosis.||||0.0000
82448101|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|||||TWO_SIDED|95.0|-20.51|-0.93||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.93|-20.51|
82448102|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-28.28|-8.77||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.77|-28.28|
82448103|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.96|||||TWO_SIDED|95.0|-22.67|-3.25||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.25|-22.67|
82448104|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.46|||||TWO_SIDED|95.0|-17.21|2.3||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.30|-17.21|
82448105|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.24|||||TWO_SIDED|95.0|-26.0|-6.48||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.48|-26.00|
82421136|NCT02732145|164552715|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort provoked through the penetration in patients with vulvodynia and vulvar dermatosis?||||||0.0347|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort provoked through the penetration in patients with vulvodynia and vulvar dermatosis.||||0.0347
82421137|NCT02732145|164552715|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort aggravated through sexual intercourse in patients with vulvodynia and vulvar dermatosis?||||||0.7068|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort aggravated through sexual intercourse in patients with vulvodynia and vulvar dermatosis.||||0.7068
82421138|NCT02732145|164552715|EQUIVALENCE|Question: Is there a difference in the frequency of vulvar discomfort aggravated after sexual intercourse in patients with vulvodynia and vulvar dermatosis?||||||0.0025|||||||Chi-squared|||Parameter: The difference in the frequency of vulvar discomfort aggravated after sexual intercourse in patients with vulvodynia and vulvar dermatosis.||||0.0025
82421139|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of use of vaginal tampon among patients with vulvodynia and vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of use of vaginal tampon among patients with vulvodynia and vulvar dermatosis.||||0.0000
82421140|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to the use of vaginal tampon in symptomatic patients, who use vaginal tampons?||||||0.6552|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to the use of vaginal tampon in symptomatic patients, who use vaginal tampons.||||0.6552
82448106|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.27|||||TWO_SIDED|95.0|5.34|21.2||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||21.20|5.34|
82421141|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of cycling among patients with vulvodynia and vulvar dermatosis?||||||0.0002|||||||Chi-squared|||Parameter: The difference in the frequency of cycling among patients with vulvodynia and vulvar dermatosis.||||0.0002
82421142|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to the cycling in symptomatic patients, who ride a bicycle?||||||0.2877|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to the cycling in symptomatic patients, who ride a bicycle.||||0.2877
82421143|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of wearing tight clothes among patients with vulvar dermatosis and vulvodynia?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the frequency of wearing tight clothes among patients with vulvar dermatosis and vulvodynia.||||0.0001
82421144|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort due to wearing of tight clothes in symptomatic patients, who wear tight clothes?||||||0.4754|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort due to wearing of tight clothes in symptomatic patients, who wear tight clothes.||||0.4754
82421145|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort depending on the menstrual cycle in symptomatic patients of reproductive age?||||||0.1082|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort depending on the menstrual cycle in symptomatic patients of reproductive age.||||0.1082
82421146|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort before starting menstrual bleeding in symptomatic patients of reproductive age?||||||0.0179|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort before starting menstrual bleeding in symptomatic patients of reproductive age.||||0.0179
82421147|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort during menstrual bleeding in symptomatic patients of reproductive age?||||||0.5722|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort during menstrual bleeding in symptomatic patients of reproductive age.||||0.5722
82421148|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort after menstrual bleeding in symptomatic patients of reproductive age?||||||0.6148|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort after menstrual bleeding in symptomatic patients of reproductive age.||||0.6148
82421149|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort between two menstrual bleeding in symptomatic patients of reproductive age?||||||0.5307|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort between two menstrual bleeding in symptomatic patients of reproductive age.||||0.5307
82421150|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar discomfort during urination?||||||0.1546|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar discomfort during urination.||||0.1546
82421151|NCT02732145|164552716|SUPERIORITY|Question: Is there a difference in the frequency of worsening of vulvar complaints during urination after sexual intercourse in symptomatic patients, who are sexually active?||||||0.1019|||||||Chi-squared|||Parameter: The difference in the frequency of worsening of vulvar complaints during urination after sexual intercourse in symptomatic patients, who are sexually active.||||0.1019
82421152|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of problems associated with urination and defecation between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of problems associated with urination and defecation between patients from different groups.||||0.0000
82421153|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of dysuria between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of dysuria between patients from different groups.||||0.0000
82421154|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent dysuria between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent dysuria between patients from different groups.||||0.0000
82534236|NCT04770220|164766574|OTHER||Least Squares Mean Difference|149.8|STANDARD_ERROR_OF_MEAN|89.801||0.0966|TWO_SIDED|||||Nominal p-value|MMRM|||Analysis of the volumetric MRI outcomes were performed using the same MMRM approach described for analysis of the primary clinical endpoint. The MMRM model included treatment, the use of concomitant AD medications (AChEI or none), age group (50 through 65 years or \> 65 years), gender, disease severity based on baseline MMSE, baseline volumetric MRI value, visit, and treatment by visit interaction. The MRI magnet strength (1.5 or 3 Tesla) was also included as a covariate in the model.||||0.0966
82421155|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent dysuria between patients from different groups?||||||0.0003|||||||Chi-squared|||Parameter: The difference in the incidence of frequent dysuria between patients from different groups.||||0.0003
82421156|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of urinary incontinence between patients from different groups?||||||0.001|||||||Chi-squared|||Parameter: The difference in the incidence of urinary incontinence between patients from different groups.||||0.0010
82421157|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent urinary incontinence between patients from different groups?||||||0.1859|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent urinary incontinence between patients from different groups.||||0.1859
82534237|NCT04770220|164766575|OTHER||Least Squares Mean Difference|137.943|STANDARD_ERROR_OF_MEAN|112.257||0.22|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.2200
82534238|NCT04770220|164766576|OTHER||Least Squares Mean Difference|157.414|STANDARD_ERROR_OF_MEAN|95.523||0.1005|TWO_SIDED|||||Nominal p-value|MMRM|||||||0.1005
82534239|NCT04951479|164766587|SUPERIORITY|||||||0.00041|||||||t-test, 2 sided|||Paired t-test of KOOS Pain score pre and 6 months post embolization||||0.00041
82421158|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent urinary incontinence between patients from different groups?||||||0.0003|||||||Chi-squared|||Parameter: The difference in the incidence of frequent urinary incontinence between patients from different groups.||||0.0003
82534240|NCT04951479|164766588|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||||||0.008
82534241|NCT04951479|164766589|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82421159|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of difficulties at starting urination between patients from different groups?||||||0.0015|||||||Chi-squared|||Parameter: The difference in the incidence of difficulties at starting urination between patients from different groups.||||0.0015
82421160|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent difficulties at starting urination between patients from different groups?||||||0.0013|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent difficulties at starting urination between patients from different groups.||||0.0013
82421161|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent difficulties at starting urination between patients from different groups?||||||0.5673|||||||Chi-squared|||Parameter: The difference in the incidence of frequent difficulties at starting urination between patients from different groups.||||0.5673
82421162|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of urgency between patients from different groups?||||||0.0065|||||||Chi-squared|||Parameter: The difference in the incidence of urgency between patients from different groups.||||0.0065
82421163|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent urgency between patients from different groups?||||||0.083|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent urgency between patients from different groups.||||0.0830
82421164|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent urgency between patients from different groups?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of frequent urgency between patients from different groups.||||0.0001
82421165|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of nocturia between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of nocturia between patients from different groups.||||0.0000
82421166|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent nocturia between patients from different groups?||||||0.2315|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent nocturia between patients from different groups.||||0.2315
82421167|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent nocturia between patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of frequent nocturia between patients from different groups.||||0.0000
82421168|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of recurrent cystitis between patients from different groups?||||||0.0539|||||||Chi-squared|||Parameter: The difference in the incidence of recurrent cystitis between patients from different groups.||||0.0539
82421169|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of constipation between patients from different groups?||||||0.0379|||||||Chi-squared|||Parameter: The difference in the incidence of constipation between patients from different groups.||||0.0379
82421170|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent constipation between patients from different groups?||||||0.1485|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent constipation between patients from different groups.||||0.1485
82421171|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent constipation between patients from different groups?||||||0.4155|||||||Chi-squared|||Parameter: The difference in the incidence of frequent constipation between patients from different groups.||||0.4155
82448107|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.74|||||TWO_SIDED|95.0|-3.12|12.59||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.59|-3.12|
82421172|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of diarrhea between patients from different groups?||||||0.0092|||||||Chi-squared|||Parameter: The difference in the incidence of diarrhea between patients from different groups.||||0.0092
82421173|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of intermittent diarrhea between patients from different groups?||||||0.0192|||||||Chi-squared|||Parameter: The difference in the incidence of intermittent diarrhea between patients from different groups.||||0.0192
82421174|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of frequent diarrhea between patients from different groups?||||||0.5253|||||||Chi-squared|||Parameter: The difference in the incidence of frequent diarrhea between patients from different groups.||||0.5253
82421175|NCT02732145|164552717|EQUIVALENCE|Question: Is there a difference in the incidence of the irritable colon between patients from different groups?||||||0.006|||||||Chi-squared|||Parameter: The difference in the incidence of the irritable colon between patients from different groups.||||0.0060
82421176|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of any associated symptom or disease among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of any associated symptom or disease among patients from different groups.||||0.0000
82448108|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-9.1|6.68||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.68|-9.10|
82534242|NCT04951479|164766590|SUPERIORITY|||||||0.00797|||||||t-test, 2 sided|paired t-test||||||0.00797
82421177|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of a frequent headache among patients from different groups?||||||0.3957|||||||Chi-squared|||Parameter: The difference in the incidence of a frequent headache among patients from different groups.||||0.3957
82421178|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of chronic fatigue among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of chronic fatigue among patients from different groups.||||0.0000
82421179|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of lumbar pain among patients from different groups?||||||0.0001|||||||Chi-squared|||Parameter: The difference in the incidence of lumbar pain among patients from different groups.||||0.0001
82421180|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of fibromyalgia among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of fibromyalgia among patients from different groups.||||0.0000
82421181|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of energy loss among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of energy loss among patients from different groups.||||0.0000
82534243|NCT03706690|164766592|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.038|TWO_SIDED|95.0|0.578|0.986|||Log Rank|Analysis performed using stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs sCRT).||The hazard ratio and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for the level of programmed death ligand 1 (PD-L1) expression (PD-L1 \<1% versus \[vs\] PD-L1 \>=1%) and prior therapy (concurrent \[c\]CRT vs sequential \[s\]CRT), with treatment as the only covariate and ties handled by Efron approach.||0.986|0.578|0.038
82534244|NCT03706690|164766593|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.346|TWO_SIDED|95.0|0.656|1.166|||Log Rank|Analysis performed using stratified log-rank test, adjusting for level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1 \>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.166|0.656|0.346
82421182|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of sleep disorders among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of sleep disorders among patients from different groups.||||0.0000
82421183|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of pelvic pain among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of pelvic pain among patients from different groups.||||0.0000
82421184|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of unintended weight loss among patients from different groups?||||||0.1764|||||||Chi-squared|||Parameter: The difference in the incidence of unintended weight loss among patients from different groups.||||0.1764
82421185|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of endometriosis among patients from different groups?||||||0.3127|||||||Chi-squared|||Parameter: The difference in the incidence of endometriosis among patients from different groups.||||0.3127
82421186|NCT02732145|164552718|EQUIVALENCE|"Question: Is there a difference in the incidence of D-D-D Triad among patients from different groups?"||||||0.0028|||||||Chi-squared|||"Parameter: The difference in the difference in the incidence of D-D-D Triad (Dysmenorrhoea-Dyspareunia-Dysuria) among patients from different groups."||||0.0028
82421187|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of hypertension among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of hypertension among patients from different groups.||||0.0000
82421188|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of genital herpes among patients from different groups?||||||0.9323|||||||Chi-squared|||Parameter: The difference in the incidence of genital herpes among patients from different groups.||||0.9323
82421189|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of thyroid disease among patients from different groups?||||||0.0011|||||||Chi-squared|||Parameter: The difference in the incidence of thyroid disease among patients from different groups.||||0.0011
82421190|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of drug allergy among patients from different groups?||||||0.2756|||||||Chi-squared|||Parameter: The difference in the incidence of drug allergy among patients from different groups.||||0.2756
82421191|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of recurrent attacks of sinusitis among patients from different groups?||||||0.0105|||||||Chi-squared|||Parameter: The difference in the incidence of recurrent attacks of sinusitis among patients from different groups.||||0.0105
82421192|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of HPV infection among patients from different groups, who were tested for HPV?||||||0.2128|||||||Chi-squared|||Parameter: The difference in the incidence of HPV infection among patients from different groups, who were tested for HPV.||||0.2128
82421193|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of abnormal PAP smear among patients from different groups?||||||0.0018|||||||Chi-squared|||Parameter: The difference in the incidence of abnormal PAP smear among patients from different groups.||||0.0018
82421194|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of genital warts among patients from different groups?||||||0.2524|||||||Chi-squared|||Parameter: The difference in the incidence of genital warts among patients from different groups.||||0.2524
82421195|NCT02732145|164552718|EQUIVALENCE|Question: Is there a difference in the incidence of conization or LETZ among patients from different groups?||||||0.2452|||||||Chi-squared|||Parameter: The difference in the incidence of conization or LETZ among patients from different groups.||||0.2452
82421196|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of any previous treatment between patients with vulvar dermatosis and vulvodynia?||||||0.1583|||||||Chi-squared|||Parameter: The difference in the frequency of any previous treatment between patients with vulvar dermatosis and vulvodynia.||||0.1583
82421197|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with antifungals between the patients with vulvar dermatosis and vulvodynia?||||||0.038|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with antifungals among patients with vulvar dermatosis and vulvodynia.||||0.0380
82421198|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antifungals between the patients with vulvar dermatosis and vulvodynia?||||||0.6468|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antifungals among patients with vulvar dermatosis and vulvodynia.||||0.6468
82421199|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with antibiotics between the patients with vulvar dermatosis and vulvodynia?||||||0.467|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with antibiotics among patients with vulvar dermatosis and vulvodynia.||||0.4670
82421200|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antibiotics between the patients with vulvar dermatosis and vulvodynia?||||||0.2131|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antibiotics among patients with vulvar dermatosis and vulvodynia.||||0.2131
82448109|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.01|||||TWO_SIDED|95.0|-6.79|8.81||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.81|-6.79|
82448110|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.39|||||TWO_SIDED|95.0|4.39|22.38||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.38|4.39|
82448111|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.27|||||TWO_SIDED|95.0|-4.73|13.27||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.27|-4.73|
82448112|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-8.68|9.35||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.35|-8.68|
82448113|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.18|||||TWO_SIDED|95.0|-3.77|14.12||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.12|-3.77|
82448114|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.56|||||TWO_SIDED|95.0|4.44|22.68||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.68|4.44|
82448115|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-7.64|10.64||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||10.64|-7.64|
82448116|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.66|||||TWO_SIDED|95.0|-11.76|6.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.44|-11.76|
82448117|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.41|||||TWO_SIDED|95.0|-4.65|13.46||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.46|-4.65|
82421201|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous local treatment with corticosteroids between the patients with vulvar dermatosis and vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the frequency of previous local treatment with corticoids among patients with vulvar dermatosis and vulvodynia.||||0.0000
82421202|NCT02732145|164552719|SUPERIORITY|Question: Is there a difference in the frequency of previous systemic treatment with antidepressant between the patients with vulvar dermatosis and vulvodynia?||||||0.0962|||||||Chi-squared|||Parameter: The difference in the frequency of previous systemic treatment with antidepressant among patients with vulvar dermatosis and vulvodynia.||||0.0962
82448118|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.09|||||TWO_SIDED|95.0|8.34|27.84||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||27.84|8.34|
82448119|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.52|||||TWO_SIDED|95.0|-4.27|15.32||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.32|-4.27|
82448120|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.28|||||TWO_SIDED|95.0|-12.03|7.46||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.46|-12.03|
82448121|NCT01393639|164604462|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.28|||||TWO_SIDED|95.0|-6.42|12.98||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.98|-6.42|
82448122|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.06|||||TWO_SIDED|95.0|-14.07|-0.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.06|-14.07|
82448123|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.45|||||TWO_SIDED|95.0|-19.34|-5.56||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.56|-19.34|
82448124|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.85|||||TWO_SIDED|95.0|-19.79|-5.91||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.91|-19.79|
82421203|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test of the vulva among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test of the vulva among patients from different groups.||||0.0000
82421204|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 2h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 2h among patients from different groups.||||0.0000
82421205|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 4h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 4h among patients from different groups.||||0.0000
82421206|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 6h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 6h among patients from different groups.||||0.0000
82421207|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 8h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 8h among patients from different groups.||||0.0000
82421208|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 10h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 10h among patients from different groups.||||0.0000
82421209|NCT02732145|164552720|EQUIVALENCE|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 12h among patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 12h among patients from different groups.||||0.0000
82421210|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test of the vulva in patients with vulvar dermatosis versus normal vulva?||||||0.0009|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test of the vulva in patients with vulvar dermatosis versus normal vulva.||||0.0009
82421211|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 2h in patients with vulvar dermatosis versus normal vulva?||||||0.0289|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 2h in patients with vulvar dermatosis versus normal vulva.||||0.0289
82421212|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 4h in patients with vulvar dermatosis versus normal vulva?||||||0.0134|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 4h in patients with vulvar dermatosis and normal vulva.||||0.0134
82421213|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 6h in patients with vulvar dermatosis versus normal vulva?||||||0.0037|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 6h in patients with vulvar dermatosis and normal vulva.||||0.0037
82421214|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 8h in patients with vulvar dermatosis and normal vulva?||||||0.008|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 8h in patients with vulvar dermatosis and normal vulva.||||0.0080
82421215|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 10h in patients with vulvar dermatosis versus normal vulva?||||||0.0579|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 10h in patients with vulvar dermatosis and normal vulva.||||0.0579
82421216|NCT02732145|164552720|SUPERIORITY|Question: Is there a difference in the incidence of a positive Cotton-Swab test at the point marked as 12h in patients with vulvar dermatosis versus normal vulva?||||||0.072|||||||Chi-squared|||Parameter: The difference in the incidence of a positive Cotton-Swab test at the point marked as 12h in patients with vulvar dermatosis and normal vulva.||||0.0720
82421217|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421218|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421219|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421220|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82534245|NCT03706690|164766593|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.346|TWO_SIDED|95.0|0.663|1.162|||Log Rank|Analysis performed using stratified log-rank test, adjusting for level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1 \>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.162|0.663|0.346
82534246|NCT03706690|164766594|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.026|TWO_SIDED|95.0|0.575|0.966|||Log Rank|Analysis performed using stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs sCRT).||The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs PD-L1\>=1%) and prior therapy (cCRT vs sCRT), with treatment as the only covariate and ties handled by Efron approach.||0.966|0.575|0.026
82421221|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421222|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421223|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421224|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of fissures the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421225|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of the Outer Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of the Outer Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421226|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the frequency of smoothness of the Middle Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421227|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Inner Vulvar Ring between patients within different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421228|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of ischemia of the Middle Vulvar Ring between patients from different groups?||||||0.0632|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0632
82421229|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of ischemia of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421230|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of punctuation of the Middle Vulvar Ring between patients within different groups?||||||0.0043|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Middle Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0043
82577082|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.145||0.6357|TWO_SIDED|95.0|-0.36|0.22|||MMRM|||Insomnia - Early, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.36|0.6357
82534247|NCT03706690|164766596|SUPERIORITY||Odds Ratio (OR)|1.51||||0.128|TWO_SIDED|95.0|0.891|2.607|||Regression, Logistic|||For mITT set. The comparison was performed using a logistic regression model, with treatment as a covariate and adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with 95% CI calculated by profile likelihood.||2.607|0.891|0.128
82421231|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of punctuation of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Typ), evaluated with Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421232|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of papillae of the Inner Vulvar Ring between patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of papillae of the Inner Vulvar Ring in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421233|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis?||||||0.0697|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis.||||0.0697
82421234|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.0319|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0319
82421235|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.7273|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.7273
82421236|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421237|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421238|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia?||||||0.2203|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.2203
82421239|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Outer versus non-specific lesions of the Middle Vulvar Ring in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Middle Vulvar Ring in patients with impaired vulvar skin.||||0.0000
82421240|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Outer versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Outer versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin.||||0.0000
82421241|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin?||||||0.1456|||||||t-test proportion|||Parameter: The incidence of non-specific lesions of the Middle versus non-specific lesions of the Inner Vulvar Ring in patients with impaired vulvar skin.||||0.1456
82421242|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Outer versus specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis?||||||0.1133|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Outer versus specific lesions of the Middle Vulvar Ring in patients with vulvar dermatosis.||||0.1133
82421243|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Outer versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Outer versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0000
82421244|NCT02732145|164552721|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Middle versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis?||||||0.0058|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Middle versus specific lesions of the Inner Vulvar Ring in patients with vulvar dermatosis.||||0.0058
82426637|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.935|TWO_SIDED|95.0|-46.3|42.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||42.6|-46.3|0.9350
82534248|NCT03706690|164766596|SUPERIORITY||Odds Ratio (OR)|1.54||||0.105|TWO_SIDED|95.0|0.915|2.638|||Regression, Logistic|||For ITT set. The comparison was performed using a logistic regression model, with treatment as a covariate and adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with 95% CI calculated by profile likelihood.||2.638|0.915|0.105
82421245|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Mons pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421246|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421247|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421248|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421249|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421250|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421251|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of Mons Pubis among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421252|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421253|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of excoriations of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of excoriations of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421254|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of Mons Pubis among patients from different groups?||||||0.0016|||||||Chi-squared|||"Parameter: The incidence of rhagades of Mons Pubis in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0016
82421255|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of Labia Majora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of Labia Majora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421256|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of rhagades of the Perineum among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of rhagades of the Perineum in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421257|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvar dermatosis?||||||0.0014|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvar dermatosis.||||0.0014
82421258|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0000
82426638|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-82.52||||0.0003|TWO_SIDED|95.0|-127.2|-37.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-37.8|-127.2|0.0003
82421259|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvar dermatosis?||||||0.0414|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesion of Labia Majora versus non-specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0414
82421260|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvodynia?||||||0.0898|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0898
82647430|NCT01039584|165010268|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The efficacy measure was the proportion of subjects with clinicl cure at Visit 3/Test-of-Cure.|Yates continuity correction|1.5|||||TWO_SIDED|90.0|-7.3|12.8|||Wald's method|||||12.8|-7.3|
82421261|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvodynia?||||||0.0008|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0008
82421262|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvodynia?||||||0.0587|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0587
82421263|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with impaired vulvar skin?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of Labia Majora in patients with impaired vulvar skin.||||1.0000
82421264|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with impaired vulvar skin?||||||0.1352|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Mons Pubis versus non-specific lesions of the Perineum in patients with impaired vulvar skin.||||0.1352
82421265|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Majora versus non-specific lesions of the Perineum in patients with impaired vulvar skin?||||||0.1352|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesion of Labia Majora versus non-specific lesions of the Perineum in patients with impaired vulvar skin.||||0.1352
82421266|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Mons Pubis versus specific lesions of Labia Majora in patients with vulvar dermatosis?||||||0.0002|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Mons Pubis versus specific lesions of Labia Majora in patients with vulvar dermatosis.||||0.0002
82421267|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Mons Pubis versus specific lesions of the Perineum in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Mons Pubis versus specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0000
82421268|NCT02732145|164552722|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of Labia Majora versus specific lesions of the Perineum in patients with vulvar dermatosis?||||||0.0854|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Labia Majora versus specific lesions of the Perineum in patients with vulvar dermatosis.||||0.0854
82421269|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82448125|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.92|||||TWO_SIDED|95.0|-22.79|-9.06||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-9.06|-22.79|
82448126|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.95|||||TWO_SIDED|95.0|-10.89|2.99||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.99|-10.89|
82647431|NCT01039584|165010269|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The efficacy measure was the proportion of subjects with mycological cure at Visit 3/Test-of-Cure|Yates continuity correction|1.5||||0.05|TWO_SIDED|90.0|-11.7|9.4|||Wald's method|||||9.4|-11.7|0.05
82421270|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82647432|NCT03672396|165010276|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.13||||0.378|TWO_SIDED|95.0|-0.2|0.4|||t-test, 2 sided|||||0.4|-0.2|0.378
82534249|NCT03706690|164766599|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.275|TWO_SIDED|95.0|0.648|1.138|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.138|0.648|0.275
82534250|NCT03706690|164766599|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.241|TWO_SIDED|95.0|0.648|1.122|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.122|0.648|0.241
82534251|NCT03706690|164766600|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.769|TWO_SIDED|95.0|0.726|1.578|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For mITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.578|0.726|0.769
82534252|NCT03706690|164766600|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.812|TWO_SIDED|95.0|0.726|1.539|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for the level of PD-L1 expression and prior therapy (cCRT vs. sCRT).||For ITT set. The hazard ratio and CIs were calculated using a stratified Cox proportional hazards model, adjusting for the level of PD-L1 expression (PD-L1 \<1% vs. PD-L1 \>=1%) and prior therapy (cCRT vs. sCRT), with treatment as the only covariate and ties handled by Efron approach.||1.539|0.726|0.812
82534253|NCT02711826|164766621|SUPERIORITY|||||||0.425|||||||Fisher Exact|||||||0.425
82534254|NCT02711826|164766622|SUPERIORITY|||||||0.7|||||||Kruskal-Wallis|||||||0.700
82534255|NCT02711826|164766623|SUPERIORITY|||||||0.201|||||||Kruskal-Wallis|||||||0.201
82534256|NCT00729690|164766645|SUPERIORITY_OR_OTHER|||||||0.4742||95.0|||||ANOVA|||For 1st 24 hours NRS AUC Pain scores||||0.4742
82421271|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82534257|NCT00729690|164766646|SUPERIORITY_OR_OTHER|||||||0.7596||95.0|||||ANOVA|||||||0.7596
82534258|NCT00729690|164766647|SUPERIORITY_OR_OTHER|||||||0.4321||95.0|||||ANOVA|||||||0.4321
82534259|NCT00729690|164766648|SUPERIORITY_OR_OTHER|||||||0.9361||95.0|||||ANOVA|||||||0.9361
82647433|NCT03672396|165010277|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.35||||0.586|TWO_SIDED|95.0|-1.0|1.7|||t-test, 2 sided|||||1.7|-1.0|0.586
82421272|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy.. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82534260|NCT02507219|164766649|SUPERIORITY||Slope|0.000055||||0.512|TWO_SIDED|95.0|-0.00011|0.00022|||Mixed Models Analysis||Slope is percent signal change per milligram of ibuprofen.|A linear mixed effects model was run for the left amygdala with contrast and percent signal change between faces and shapes as the dependent variable and ibuprofen dose as a continuous predictor. Each subject had up to 3 visits and each visit contained 3 contrasts (happy - shape, angry - shape, fearful - shape) so subject and drug were used as random effects. Drug was nested inside of subject.||0.00022|-0.00011|0.512
82534261|NCT02507219|164766649|SUPERIORITY||Slope|-0.00012||||0.221|TWO_SIDED|95.0|-0.0003|0.000067|||Mixed Models Analysis||Slope is the percent signal change per mg of ibuprofen.|A linear mixed effects model was run for the right amygdala with contrast and percent signal change between faces and shapes as the dependent variable and ibuprofen dose as a continuous predictor. Each subject had up to 3 visits and each visit contained 3 contrasts (happy - shape, angry - shape, fearful - shape) so subject and drug were used as random effects. Drug was nested inside of subject.||0.000067|-0.00030|0.221
82534262|NCT06403605|164766668|SUPERIORITY|||||||0.78||||||Adjusted p value in the mITT analysis population.|Mixed Models Analysis|||||||0.78
82534263|NCT06403605|164766668|SUPERIORITY|||||||0.48||||||Adjusted p value in the PP analysis population.|Mixed Models Analysis|||||||0.48
82534264|NCT06403605|164766669|SUPERIORITY|||||||0.049||||||Adjusted p-value in the mITT population.|Log Rank|||||||0.049
82534265|NCT06403605|164766669|SUPERIORITY|||||||0.084||||||Adjusted p value in the PP population.|Log Rank|||||||0.084
82534266|NCT06403605|164766672|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
82534267|NCT02401529|164766700|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|||||||0.033
82534268|NCT02401529|164766701|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||||||0.026
82534269|NCT02401529|164766702|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||Chi-squared|||||||0.016
82534270|NCT02401529|164766703|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
82534271|NCT02401529|164766704|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Chi-squared|||||||0.012
82534272|NCT02401529|164766705|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||||||0.024
82534273|NCT02401529|164766706|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
82534274|NCT02401529|164766707|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Chi-squared|||||||0.017
82534275|NCT02401529|164766708|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||Chi-squared|||||||0.026
82534276|NCT02401529|164766709|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
82421273|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Anterior Commissure among patients from different groups?||||||0.0199|||||||Chi-squared|||"Parameter: The incidence of erythema of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0199
82421274|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421275|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of erythema of Labia Minora among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421276|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of erythema of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421277|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of fissures of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421278|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of fissures of the Posterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of fissures of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421279|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Anterior Commissure among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Anterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421280|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of Interlabial Sulci among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of Interlabial Sulci in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0000
82421281|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the frequency of smoothness of Labia Minora among patients from different groups?||||||0.0024|||||||Chi-squared|||"Parameter: The frequency of smoothness of Labia Minora in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0024
82421282|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of smoothness of the Posterior Commissure among patients from different groups?||||||0.0205|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Posterior Commissure in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q- Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of vulvodynia."||||0.0205
82421283|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvar dermatosis?||||||0.0158|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvar dermatosis.||||0.0158
82421284|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.0001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.0001
82421285|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.028|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.0280
82448127|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.51|||||TWO_SIDED|95.0|-20.44|-6.57||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.57|-20.44|
82448128|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.25|||||TWO_SIDED|95.0|-14.65|0.16||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-14.65|
82534277|NCT02941146|164766769|OTHER||sucess proportion|64.3|||||TWO_SIDED|95.0|35.1|87.2||||||||87.2|35.1|
82421286|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421287|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421288|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421289|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421290|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvodynia?||||||0|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0000
82421291|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Interlabial Sulci in patients with impaired vulvar skin.||||0.0000
82421292|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with impaired vulvar skin?||||||0.0006|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of Labia Minora in patients with impaired vulvar skin.||||0.0006
82421293|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Anterior Commissure versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0000
82421294|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0.0003|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Interlabial Sulci versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0003
82421295|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Labia Minora versus non-specific lesions of the Posterior Commissure in patients with impaired vulvar skin.||||0.0000
82421296|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of Interlabial Sulci in patients with vulvar dermatosis?||||||0.3053|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of Interlabial Sulci in patients with vulvar dermatosis.||||0.3053
82534278|NCT05153174|164766772|EQUIVALENCE|p \< 0.05 to reject null hypothesis of equivalence||||||0.931|||||||t-test, 2 sided|||||||0.931
82534279|NCT05153174|164766773|EQUIVALENCE|p \< 0.05 to reject null hypothesis of equivalence||||||0.224|||||||t-test, 2 sided|||||||0.224
82647434|NCT03672396|165010278|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.25||||0.252|TWO_SIDED|95.0|-0.7|0.2|||t-test, 2 sided|||||0.2|-0.7|0.252
82534280|NCT01450943|164766775|SUPERIORITY||Odds Ratio (OR)|2.712595||||0.0517|TWO_SIDED|95.0|0.9141|8.4839|||Fisher Exact|||||8.4839|0.9141|0.0517
82534281|NCT01450943|164766776|SUPERIORITY||Odds Ratio (OR)|0.812339||||0.7974|TWO_SIDED|95.0|0.2543|2.5224|||Fisher Exact|||||2.5224|0.2543|0.7974
82534282|NCT00951561|164766819|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation is performed in nQuery version 5.0 with the following stipulations: alpha is 0.05; response for both ibuprofen and Vipon is 85%; delta is 10%; no difference in response rates is expected between the two treatment arms, and power is 80%. This calculation is performed for an equivalence/non-inferiority primary analysis.|Difference in % of Uses from Mixed Model|-1.6|||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
82421297|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of Labia Minora in patients with vulvar dermatosis?||||||0.7758|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of Labia Minora in patients with vulvar dermatosis.||||0.7758
82421298|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of the Anterior Commissure versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.6676|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Anterior Commissure versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.6676
82421299|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Interlabial Sulci versus specific lesions of Labia Minora in patients with vulvar dermatosis?||||||0.4577|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Interlabial Sulci versus specific lesions of Labia Minora in patients with vulvar dermatosis.||||0.4577
82421300|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Interlabial Sulci versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.1681|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Interlabial Sulci versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.1681
82421301|NCT02732145|164552723|SUPERIORITY|Question: Is there a difference in the incidence of specific lesion of Labia Minora versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis?||||||0.8848|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of Labia Minora versus specific lesions of the Posterior Commissure in patients with vulvar dermatosis.||||0.8848
82421302|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421303|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant for the diagnosis of the vulvodynia."||||0.0000
82421304|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421305|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Urethral meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82448129|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.03|||||TWO_SIDED|95.0|-19.38|-4.68||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.68|-19.38|
82448130|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.72|||||TWO_SIDED|95.0|-23.1|-8.35||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.35|-23.10|
82448131|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.95|||||TWO_SIDED|95.0|-21.27|-6.63||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.63|-21.27|
82534283|NCT05176353|164766820|SUPERIORITY|||||||0.86|||||||Z-score test for person-time rates|||||||0.86
82448132|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.94|||||TWO_SIDED|95.0|-13.31|1.43||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.43|-13.31|
82534284|NCT05176353|164766821|SUPERIORITY|||||||0.05|||||||Z-score test for person-time rates|||||||0.05
82534285|NCT05176353|164766822|SUPERIORITY|||||||0.59|||||||Kruskal-Wallis|||||||0.59
82534286|NCT05176353|164766823|SUPERIORITY||||||<|0.01|||||||Z-score test for person-time rates|||||||<0.01
82534287|NCT05176353|164766824|SUPERIORITY|||||||0.2|||||||Z-score test for person-time rates|||||||0.20
82534288|NCT05176353|164766825|SUPERIORITY|||||||0.03|||||||Z-score test for person-time rates|||||||0.03
82534289|NCT05176353|164766826|SUPERIORITY||||||<|0.01|||||||Z-score test for person-time rates|||||||<0.01
82534290|NCT05176353|164766827|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||.05
82534291|NCT04365413|164766834|OTHER||Median Difference (Final Values)|0.069|||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
82534292|NCT04365413|164766835|OTHER||Median Difference (Final Values)|0.042|||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
82534293|NCT02037061|164766837|OTHER|||||||0.83|||||||t-test, 2 sided|||||||0.83
82647435|NCT03672396|165010279|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-16.3||||0.111|TWO_SIDED|95.0|-36.9|4.3|||t-test, 2 sided|Mean difference calculated as Post - Pre.||||4.3|-36.9|0.111
82534294|NCT03019458|164766858|SUPERIORITY|||||||0.084||||||The p value was not adjusted for multiple comparisons but rather it is the priori threshold for statistical significance at p\<0.05.|Mixed Models Analysis|We adjusted for baseline Eating Assessment Tool-10 (EAT-10), MGH-Swallowing Screening Test (MGH-SST), and the Burkes-Fahn-Marsden Dysonia Scale (BFM).||||||0.084
82534295|NCT00519779|164766870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0033|STANDARD_ERROR_OF_MEAN|0.09||0.97|TWO_SIDED|95.0|-0.18|0.18|||Mixed Models Analysis|adjusted for baseline value, visit, gender, SAD||||0.18|-0.18|0.97
82647436|NCT03672396|165010280|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.4||||0.579|TWO_SIDED|95.0|-4.3|7.2|||t-test, 2 sided|||||7.2|-4.3|0.579
82647437|NCT03672396|165010281|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.1||||0.948|TWO_SIDED|95.0|-3.9|3.7|||t-test, 2 sided|||||3.7|-3.9|0.948
82426639|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-108.73|||<|0.0001|TWO_SIDED|95.0|-157.0|-60.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-60.4|-157.0|<0.0001
82426640|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2||||0.6764|TWO_SIDED|95.0|-58.2|37.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||37.8|-58.2|0.6764
82426641|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-98.53|||<|0.0001|TWO_SIDED|95.0|-146.7|-50.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-50.3|-146.7|<0.0001
82426642|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-115.48|||<|0.0001|TWO_SIDED|95.0|-157.7|-73.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-73.3|-157.7|<0.0001
82426643|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.69||||0.5219|TWO_SIDED|95.0|-55.6|28.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||28.3|-55.6|0.5219
82426644|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.8|||<|0.0001|TWO_SIDED|95.0|-144.0|-59.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-59.6|-144.0|<0.0001
82426645|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-71.6||||0.002|TWO_SIDED|95.0|-116.9|-26.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-26.3|-116.9|0.0020
82426646|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3||||0.5917|TWO_SIDED|95.0|-32.7|57.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||57.3|-32.7|0.5917
82426647|NCT00565409|164561907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.91||||0.0003|TWO_SIDED|95.0|-129.2|-38.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-38.7|-129.2|0.0003
82426648|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.79|||<|0.0001|TWO_SIDED|95.0|-11.9|-5.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-5.7|-11.9|<0.0001
82426649|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55||||0.1033|TWO_SIDED|95.0|-5.6|0.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||0.5|-5.6|0.1033
82426650|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|||<|0.0001|TWO_SIDED|95.0|-9.3|-3.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-3.1|-9.3|<0.0001
82426651|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||<|0.0001|TWO_SIDED|95.0|-15.4|-8.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-8.8|-15.4|<0.0001
82426652|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.6802|TWO_SIDED|95.0|-4.0|2.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||2.6|-4.0|0.6802
82426653|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.39|||<|0.0001|TWO_SIDED|95.0|-14.7|-8.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-8.1|-14.7|<0.0001
82426654|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||<|0.0001|TWO_SIDED|95.0|-15.6|-8.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-8.6|-15.6|<0.0001
82426655|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.4404|TWO_SIDED|95.0|-4.8|2.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||2.1|-4.8|0.4404
82426656|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|||<|0.0001|TWO_SIDED|95.0|-14.2|-7.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-7.2|-14.2|<0.0001
82421306|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Hymenal Remnants in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421307|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Bartholin's Gland Opening among the patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of Bartholin's Gland Opening in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421308|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of the Vestibule among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of non-specific lesions of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421309|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Clitoris among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421310|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421311|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421312|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Urethral Meatus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421313|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Hymenal Remnants among patients from different groups?||||||0.0001|||||||Chi-squared|||"Parameter: The incidence of erythema of Hymenal Remnants in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0001
82534296|NCT00519779|164766871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.04|TWO_SIDED|95.0|-0.44|-0.011|||Mixed Models Analysis|||||-0.011|-0.44|0.04
82534297|NCT00519779|164766872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.039||0.06|TWO_SIDED|95.0|-0.15|0.002|||Mixed Models Analysis|||||0.002|-0.15|0.06
82534298|NCT00519779|164766873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.072||0.04|TWO_SIDED|95.0|-0.3|-0.009|||Mixed Models Analysis|||||-0.009|-0.30|0.04
82647438|NCT03672396|165010282|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.2||||0.594|TWO_SIDED|95.0|-1.1|0.7|||t-test, 2 sided|||||0.7|-1.1|0.594
82426657|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.83|||<|0.0001|TWO_SIDED|95.0|-16.2|-9.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-9.4|-16.2|<0.0001
82426658|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.4437|TWO_SIDED|95.0|-4.7|2.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||2.1|-4.7|0.4437
82426659|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.51|||<|0.0001|TWO_SIDED|95.0|-14.9|-8.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-8.1|-14.9|<0.0001
82426660|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.79|||<|0.0001|TWO_SIDED|95.0|-18.5|-11.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-11.1|-18.5|<0.0001
82426661|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.096|TWO_SIDED|95.0|-6.8|0.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||0.6|-6.8|0.0960
82426662|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.67|||<|0.0001|TWO_SIDED|95.0|-15.4|-8.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-8.0|-15.4|<0.0001
82647439|NCT03672396|165010283|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.8||||0.274|TWO_SIDED|95.0|-2.3|0.7|||t-test, 2 sided|||||0.7|-2.3|0.274
82647440|NCT03672396|165010284|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.89||||0.013|TWO_SIDED|95.0|0.48|3.29|||t-test, 2 sided|||||3.29|0.48|0.013
82421314|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of Bartholin's Gland Opening among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of Bartholin's Gland Opening in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421315|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of erythema of the Vestibule among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of erythema of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421316|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Clitoris among patients from different groups?||||||0.0023|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0023
82421317|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of smoothness of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421318|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of smoothness of the Urethral Meatus among patients from different groups?||||||0.0235|||||||Chi-squared|||"Parameter: The incidence of smoothness of Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0235
82421319|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Clitoris among patients from different groups?||||||0.0021|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Clitoris in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0021
82421320|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Urethral Sulcus among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Urethral Sulcus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82448133|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.16|||||TWO_SIDED|95.0|-23.54|-8.79||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.79|-23.54|
82448134|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.09|||||TWO_SIDED|95.0|-13.5|1.32||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.32|-13.50|
82448135|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.06|||||TWO_SIDED|95.0|-20.46|-5.65||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.65|-20.46|
82534299|NCT00519779|164766874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.086||0.08|TWO_SIDED|95.0|-0.33|0.018|||Mixed Models Analysis|||||0.018|-0.33|0.08
82534300|NCT00519779|164766875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.14||0.93|TWO_SIDED|95.0|-0.26|0.29|||Mixed Models Analysis|||||0.29|-0.26|0.93
82534301|NCT01561079|164766877|SUPERIORITY_OR_OTHER|||||||0.001||||||The p values were not adjusted for multiplicity The a priori threshold = .05|Hierarchical Linear Modeling|The p-value was calculated||||||0.001
82647441|NCT03672396|165010285|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|4.16||||0.369|TWO_SIDED|95.0|-5.54|13.85|||t-test, 2 sided|||||13.85|-5.54|0.369
82534302|NCT01561079|164766878|SUPERIORITY_OR_OTHER||||||<|0.002|||||||Hierarchical Linear Modeling|||||||<.002
82647442|NCT03672396|165010286|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.4||||0.945|TWO_SIDED|95.0|-13.5|12.7|||t-test, 2 sided|||||12.7|-13.5|0.945
82647443|NCT03672396|165010287|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.3||||0.42|TWO_SIDED|95.0|-2.0|4.6|||t-test, 2 sided|||||4.6|-2.0|0.420
82647444|NCT03672396|165010288|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|-0.6||||0.941|TWO_SIDED|95.0|-16.9|15.8|||t-test, 2 sided|||||15.8|-16.9|0.941
82647445|NCT03672396|165010289|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|2.3||||0.203|TWO_SIDED|95.0|-1.4|5.9|||t-test, 2 sided|||||5.9|-1.4|0.203
82421321|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Urethral Meatus among patients from different groups?||||||0.0038|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Urethral Meatus in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0038
82421322|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of ischemia of the Vestibule among patients from different groups?||||||0.0019|||||||Chi-squared|||"Parameter: The incidence of ischemia of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0019
82421323|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of punctuation of Hart's Line among patients from different groups?||||||0|||||||Chi-squared|||"Parameter: The incidence of punctuation of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0000
82421324|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of punctuation of the Vestibule among patients from different groups?||||||0.0198|||||||Chi-squared|||"Parameter: The incidence of punctuation of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy.. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0198
82421325|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of papillae of Hart's Line among patients from different groups?||||||0.0004|||||||Chi-squared|||"Parameter: The incidence of papillae of Hart's Line in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0004
82421326|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of papillae of the Vestibule among patients from different groups?||||||0.0053|||||||Chi-squared|||"Parameter: The incidence of papillae of the Vestibule in patients classified into four groups based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection and Q-Tip), which were examined by the Three Rings Vulvoscopy. Vulvoscopic lesions in patients with vulvodynia were not relevant to the diagnosis of the vulvodynia."||||0.0053
82421327|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with vulvar dermatosis?||||||0.001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with vulvar dermatosis.||||0.0010
82647446|NCT03672396|165010290|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|1.3||||0.057|TWO_SIDED|95.0|-0.04|2.6|||t-test, 2 sided|||||2.6|-0.04|0.057
82421328|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with vulvar dermatosis?||||||0.001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with vulvar dermatosis.||||0.0010
82421329|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0000
82421330|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0208|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0208
82421331|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
82421332|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0208|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0208
82421333|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
82421334|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.004|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0040
82647447|NCT03672396|165010291|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.1||||0.809|TWO_SIDED|95.0|-1.0|1.3|||t-test, 2 sided|||||1.3|-1.0|0.809
82421335|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.0012|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0012
82421336|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Bartholin's Gland Opening versus non-specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Bartholin's Gland Opening versus non-specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0000
82421337|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with vulvodynia?||||||0.0048|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0048
82421338|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvodynia?||||||0.0007|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0007
82421339|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with vulvodynia?||||||0.0048|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0048
82421340|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvodynia?||||||0.0007|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0007
82421341|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvodynia?||||||0.0131|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0131
82421342|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of Bartholin's Gland Opening in patients with vulvodynia?||||||0.0423|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of Bartholin's Gland Opening in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0423
82421343|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvodynia?||||||0.0021|||||||t-test proportion|||"Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with vulvodynia.~The diagnosis of vulvodynia was based on anamnestic data (ISSVD Questionnaire) and clinical examination (Inspection, Q-Tip) following Friedrich's criteria. Vulvoscopic lesions were not relevant to the diagnosis of vulvodynia."||||0.0021
82421344|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of Hart's Line in patients with impaired vulvar skin.||||0.0000
82421345|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Urethral Sulcus in patients with impaired vulvar skin.||||0.0000
82421346|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0091|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Clitoris versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0091
82421347|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin?||||||0.0002|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin.||||0.0002
82534303|NCT01561079|164766879|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Hierarchical Linear Modeling|||||||0.0001
82534304|NCT01561079|164766880|SUPERIORITY_OR_OTHER|||||||0.008|||||||Hierarchical Linear Modeling|The reported p-value was calculated||||||.008
82577083|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.134||0.8605|TWO_SIDED|95.0|-0.29|0.24|||MMRM|||Insomnia - Early, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.29|0.8605
82421348|NCT02732145|164552724|EQUIVALENCE|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin.||||0.0000
82421349|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin?||||||0.0013|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hart's Line versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin.||||0.0013
82421350|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin?||||||0.0001|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of the Urethral Meatus in patients with impaired vulvar skin.||||0.0001
82421351|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Hymenal Remnants in patients with impaired vulvar skin.||||0.0000
82421352|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Sulcus versus non-specific lesions of Bartholin's Gland Opening in patients with impaired vulvar skin.||||0.0008
82421353|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0251|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of the Urethral Meatus versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0251
82426663|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.56|||<|0.0001|TWO_SIDED|95.0|-18.1|-11.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-11.0|-18.1|<0.0001
82426664|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.2948|TWO_SIDED|95.0|-5.4|1.6||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||1.6|-5.4|0.2948
82426665|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.68|||<|0.0001|TWO_SIDED|95.0|-16.2|-9.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-9.1|-16.2|<0.0001
82426666|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.16|||<|0.0001|TWO_SIDED|95.0|-16.9|-9.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-9.5|-16.9|<0.0001
82426667|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.213|TWO_SIDED|95.0|-6.0|1.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||1.3|-6.0|0.2130
82426668|NCT00565409|164561910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.83|||<|0.0001|TWO_SIDED|95.0|-14.5|-7.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-7.1|-14.5|<0.0001
82426669|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|||<|0.0001|TWO_SIDED|95.0|-11.8|-5.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-5.3|-11.8|<0.0001
82426670|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.8033|TWO_SIDED|95.0|-3.6|2.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||2.8|-3.6|0.8033
82426671|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.14|||<|0.0001|TWO_SIDED|95.0|-11.3|-4.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 40||-4.9|-11.3|<0.0001
82426672|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.61|||<|0.0001|TWO_SIDED|95.0|-17.2|-10.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-10.0|-17.2|<0.0001
82426673|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.783|TWO_SIDED|95.0|-4.1|3.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||3.1|-4.1|0.7830
82426674|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.11|||<|0.0001|TWO_SIDED|95.0|-16.7|-9.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 48||-9.5|-16.7|<0.0001
82647448|NCT03672396|165010292|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.4||||0.191|TWO_SIDED|95.0|-0.3|1.1|||t-test, 2 sided|||||1.1|-0.3|0.191
82647449|NCT03672396|165010293|OTHER|Paired t-test analysis between baseline and post-testing values from a single group of individuals who completed both testing sessions.|Mean Difference (Final Values)|0.5||||0.237|TWO_SIDED|95.0|-0.3|1.3|||t-test, 2 sided|||||1.3|-0.3|0.237
82647450|NCT03001011|165010321|SUPERIORITY||Median difference (Renvela - Placebo)|-0.21|||<|0.0001|TWO_SIDED|||||Threshold for statistical significance at 0.05.|Wilcoxon rank sum test||Renvela Vs. Placebo|A hierarchical testing procedure was used to control type I error \& handle multiple secondary endpoint analyses. Testing was then performed sequentially in order outcome measures (OM) are reported. The hierarchical testing sequence continued only when previous OM was statistically significant at 0.05 level.||||<0.0001
82421354|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with impaired vulvar skin?||||||0.0006|||||||t-test proportion|||Parameter: The difference in the incidence of non-specific lesions of Hymenal Remnants versus non-specific lesions of the Vestibule in patients with impaired vulvar skin.||||0.0006
82421355|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hart's Line in patients with vulvar dermatosis?||||||0.0211|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hart's Line in patients with vulvar dermatosis.||||0.0211
82534305|NCT01561079|164766881|SUPERIORITY_OR_OTHER|||||||0.002|||||||Hierarchical Linear Modeling|||||||.002
82534306|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|25.0||||0.456|TWO_SIDED|95.0|-41.0|91.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||91.0|-41.0|0.456
82534307|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|74.7||||0.033|TWO_SIDED|95.0|6.0|143.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||143.4|6.0|0.033
82534308|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|30.6||||0.295|TWO_SIDED|95.0|-26.8|88.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||88.0|-26.8|0.295
82534309|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|44.4||||0.188|TWO_SIDED|95.0|-21.8|110.6||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||110.6|-21.8|0.188
82534310|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|38.8||||0.187|TWO_SIDED|95.0|-18.9|96.5||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||96.5|-18.9|0.187
82534311|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|-8.9||||0.801|TWO_SIDED|95.0|-77.8|60.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg|||60.1|-77.8|0.801
82647451|NCT00204932|165010343|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis was based on test-retest variance of body fat mass measure by DEXA|||||<|0.05||95.0|||||ANOVA|||Analysis of variance to test CLA not equal to placebo||||<0.05
82647452|NCT00204932|165010343|SUPERIORITY||||||<|0.05|||||||ANOVA|||Pre- post treatment comparison o fat oxidation found that fat oxidation increased in CLA (4 +/- 8 g) and decreased in placebo (-7 +/- 11 g) groups during sleep. after 6 mo of supplementation.||||<0.05
82421356|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Sulcus in patients with vulvar dermatosis?||||||0.3067|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Sulcus in patients with vulvar dermatosis.||||0.3067
82448136|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.31|||||TWO_SIDED|95.0|-22.69|-7.93||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.93|-22.69|
82534312|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|35.2||||0.233|TWO_SIDED|95.0|-22.7|93.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||93.1|-22.7|0.233
82534313|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|69.4||||0.003|TWO_SIDED|95.0|24.5|114.4|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||114.4|24.5|0.003
82534314|NCT01323660|164766882|SUPERIORITY_OR_OTHER||Least squares mean difference|65.8||||0.005|TWO_SIDED|95.0|20.3|111.3|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||111.3|20.3|0.005
82647453|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.04819|STANDARD_ERROR_OF_MEAN|0.02482||0.0535|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total POQ Score as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.0535
82421357|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Meatus in patients with vulvar dermatosis?||||||0.0295|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Urethral Meatus in patients with vulvar dermatosis.||||0.0295
82421358|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hymenal Remnants in patients with vulvar dermatosis?||||||0.0149|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Hymenal Remnants in patients with vulvar dermatosis.||||0.0149
82421359|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis?||||||0.0007|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of Bartholin's Gland Opening in patients with vulvar dermatosis.||||0.0007
82421360|NCT02732145|164552724|SUPERIORITY|Question: Is there a difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Vestibule in patients with vulvar dermatosis?||||||0.0295|||||||t-test proportion|||Parameter: The difference in the incidence of specific lesions of the Clitoris versus specific lesions of the Vestibule in patients with vulvar dermatosis.||||0.0295
82421361|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening between patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening between patients from different groups, with positive AWR.||||0.0000
82421362|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of coarse AWR between patients from different groups and positive AWR?||||||0.0071|||||||Chi-squared|||Parameter: The difference in the incidence of coarse AWR between patients from different groups and positive AWR.||||0.0071
82421363|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of slow AWR between patients from different groups and positive AWR?||||||0.001|||||||Chi-squared|||Parameter: The difference in the incidence of slow AWR occurrence between patients from different groups and positive AWR.||||0.0010
82421364|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of provoked erythema among patients from different groups and positive AWR?||||||0.0036|||||||Chi-squared|||Parameter: The difference in the incidence of provoked erythema among patients from different groups and positive AWR.||||0.0036
82421365|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of sharply bordered AWR between patients from different groups and positive AWR?||||||0.0032|||||||Chi-squared|||Parameter: The difference in the incidence of sharply bordered AWR between patients from different groups and positive AWR.||||0.0032
82421366|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Outer Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Outer Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
82421367|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Middle Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Middle Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
82421368|NCT02732145|164552725|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Inner Vulvar Ring between the patients from different groups and positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Inner Vulvar Ring between the patients from different groups and positive AWR.||||0.0000
82421369|NCT02732145|164552725|EQUIVALENCE|"Question: Is there a difference in the incidence of Ring sign between the patients from different groups and positive AWR?"||||||0|||||||Chi-squared|||"Parameter: The difference in the incidence of Ring sign, aceto-whitening of all structures of the Inner Vulvar Ring, between the patients from different groups and positive AWR."||||0.0000
82421370|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.0856|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.0856
82421371|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.4290
82448137|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.31|||||TWO_SIDED|95.0|-20.66|-5.96||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-5.96|-20.66|
82421372|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR?||||||0.0124|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvar dermatosis and positive AWR.||||0.0124
82421373|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with vulvodynia and positive AWR.||||0.0000
82421374|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with vulvodynia and positive AWR.||||0.0000
82421375|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvodynia and positive AWR?||||||0.1918|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with vulvodynia and positive AWR.||||0.1918
82421376|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.0000
82421377|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.0000
82421378|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR?||||||0.5822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with impaired vulvar skin and positive AWR.||||0.5822
82421379|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Middle Vulvar Ring in patients with normal vulva and positive AWR.||||0.0000
82421380|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Outer versus Inner Vulvar Ring in patients with normal vulva and positive AWR.||||0.0000
82421381|NCT02732145|164552725|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with normal vulva and positive AWR?||||||0.4975|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Middle versus Inner Vulvar Ring in patients with normal vulva and positive AWR.||||0.4975
82421382|NCT02732145|164552726|EQUIVALENCE|Question: Is there a difference in the velocity of the aceto-whitening occurrence among patients from different groups, in which the AWR was positive?||||||0.0003|||||||ANOVA|||Parameter: The difference in the velocity of the aceto-whitening occurrence (positive AWR) among patients from different groups, in which the AWR was positive.||||0.0003
82421383|NCT02732145|164552727|EQUIVALENCE|Question: Is there a difference in the velocity of the aceto-whitening occurrence among patients with positive AWR from different groups?||||||0.0004|||||||Kruskal-Wallis|||Parameter: The difference in the velocity of the aceto-whitening occurrence among patients with positive AWR from different groups.||||0.0004
82421384|NCT02732145|164552727|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between patients with vulvar dermatosis and vulvodynia, with positive AWR?||||||0.0231|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between patients with vulvar dermatosis and vulvodynia, with positive AWR.||||0.0231
82421385|NCT02732145|164552727|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between the patients with normal vulva and impaired vulvar skin, with positive AWR?||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between the patients with normal vulva and impaired vulvar skin, with positive AWR.||||0.0006
82421386|NCT02732145|164552727|SUPERIORITY|Question: Is there a difference in the velocity of the aceto-whitening occurrence between patients with normal vulva and vulvodynia, with positive AWR?||||||0|||||||Wilcoxon (Mann-Whitney)|||Parameter: The difference in the velocity of the aceto-whitening occurrence between patients with normal vulva and vulvodynia, with positive AWR.||||0.0000
82421387|NCT02732145|164552728|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis among patients from different groups, with positive AWR.||||0.0000
82421388|NCT02732145|164552728|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora among patients from different groups, with positive AWR.||||0.0000
82421389|NCT02732145|164552728|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Perineum among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Perineum among patients from different groups, with positive AWR.||||0.0000
82421390|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvar dermatosis and positive AWR?||||||0.0128|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvar dermatosis and positive AWR.||||0.0128
82421391|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvar dermatosis and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvar dermatosis and positive AWR.||||0.0000
82421392|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvar dermatosis and positive AWR?||||||0.0635|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvar dermatosis and positive AWR.||||0.0635
82421393|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvodynia and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with vulvodynia and positive AWR.||||0.0429
82421394|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvodynia and positive AWR?||||||0.0011|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with vulvodynia and positive AWR.||||0.0011
82421395|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvodynia and positive AWR?||||||0.0936|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with vulvodynia and positive AWR.||||0.0936
82534315|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.144|||<|0.001|TWO_SIDED|95.0|0.086|0.203|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||0.203|0.086|<0.001
82648097|NCT00331773|165011541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 24 months was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.23
82421396|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with impaired vulvar skin and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Labia Majora in patients with impaired vulvar skin and positive AWR.||||1.0000
82421397|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with impaired vulvar skin and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Mons Pubis versus Perineum in patients with impaired vulvar skin and positive AWR.||||0.0429
82421398|NCT02732145|164552728|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with impaired vulvar skin and positive AWR?||||||0.0429|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Majora versus Perineum in patients with impaired vulvar skin and positive AWR.||||0.0429
82421399|NCT02732145|164552729|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure among patients from different groups, with positive AWR.||||0.0000
82421400|NCT02732145|164552729|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci among patients from different groups, with positive AWR.||||0.0000
82421401|NCT02732145|164552729|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora among patients from different groups, with positive AWR.||||0.0000
82421402|NCT02732145|164552729|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Posterior Commissure among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Posterior Commissure among patients from different groups, with positive AWR.||||0.0000
82421403|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvar dermatosis and positive AWR?||||||0.0318|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvar dermatosis and positive AWR.||||0.0318
82421404|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvar dermatosis and positive AWR?||||||0.0318|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvar dermatosis and positive AWR.||||0.0318
82421405|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0000
82421406|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with vulvar dermatosis and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with vulvar dermatosis and positive AWR.||||1.0000
82421407|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0.0389|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0389
82534316|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.255|||<|0.001|TWO_SIDED|95.0|0.193|0.318|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||0.318|0.193|<0.001
82534317|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.112|||<|0.001||95.0|0.061|0.163|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||0.163|0.061|<0.001
82421408|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with vulvar dermatosis and positive AWR?||||||0.0389|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with vulvar dermatosis and positive AWR.||||0.0389
82421409|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvodynia and positive AWR?||||||1e-05|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with vulvodynia and positive AWR.||||0.00001
82421410|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with vulvodynia and positive AWR.||||0.0000
82534318|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.099|||<|0.001|TWO_SIDED|95.0|0.041|0.157|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||0.157|0.041|<0.001
82421411|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
82647454|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00163|STANDARD_ERROR_OF_MEAN|0.001826||0.3729|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Rating as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.3729
82647455|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00593|STANDARD_ERROR_OF_MEAN|0.007228||0.4124|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Mobility as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.4124
82647456|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00432|STANDARD_ERROR_OF_MEAN|0.009334||0.6442|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities of Daily Living as outcome variable. Linear mixed models were constructed with fixed effects terms for treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test if the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.6442
82421412|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Labia Minora in patients with vulvodynia and positive AWR?||||||0.0008|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Labia Minora in patients with vulvodynia and positive AWR.||||0.0008
82421413|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
82421414|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Labia Minora versus Posterior Commissure in patients with vulvodynia and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Labia Minora versus Posterior Commissure in patients with vulvodynia and positive AWR.||||0.0000
82421415|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with impaired vulvar skin and positive AWR?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with impaired vulvar skin and positive AWR.||||0.0005
82421416|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with impaired vulvar skin and positive AWR.||||0.0000
82534319|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.132|||<|0.001|TWO_SIDED|95.0|0.081|0.183|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.183|0.081|<0.001
82647457|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00898|STANDARD_ERROR_OF_MEAN|0.006436||0.1641|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Vitality as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.1641
82421417|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
82421418|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with impaired vulvar skin and positive AWR?||||||0.4505|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with impaired vulvar skin and positive AWR.||||0.4505
82421419|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Interlabial Sulci versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
82421420|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with impaired vulvar skin and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with impaired vulvar skin and positive AWR.||||0.0000
82534320|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.006||||0.849|TWO_SIDED|95.0|-0.055|0.067|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.067|-0.055|0.849
82421421|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with normal vulva and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Interlabial Sulci in patients with normal vulva and positive AWR.||||1.0000
82421422|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with normal vulva and positive AWR?||||||0.0534|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Labia Minora in patients with normal vulva and positive AWR.||||0.0534
82421423|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Anterior Commissure versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0000
82421424|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with normal vulva and positive AWR?||||||0.0534|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Labia Minora in patients with normal vulva and positive AWR.||||0.0534
82421425|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Interlabial Sulci versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0000
82421426|NCT02732145|164552729|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with normal vulva and positive AWR?||||||0.0005|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Labia Minora versus Posterior Commissure in patients with normal vulva and positive AWR.||||0.0005
82421427|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris among patients from different groups, with positive AWR.||||0.0000
82421428|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line among patients from different groups, with positive AWR.||||0.0000
82421429|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus among patients from different groups, with positive AWR.||||0.0000
82421430|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Meatus among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Meatus among patients from different groups, with positive AWR.||||0.0000
82534321|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.15|||<|0.001|TWO_SIDED|95.0|0.098|0.201|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.201|0.098|<0.001
82534322|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.243|||<|0.001|TWO_SIDED|95.0|0.202|0.284|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.284|0.202|<0.001
82534323|NCT01323660|164766883|SUPERIORITY_OR_OTHER||Least squares mean difference|0.261|||<|0.001|TWO_SIDED|95.0|0.22|0.303|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||0.303|0.220|<0.001
82421431|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants among patients from different groups, with positive AWR.||||0.0000
82421432|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening among patients from different groups, with positive AWR.||||0.0000
82421433|NCT02732145|164552730|EQUIVALENCE|Question: Is there a difference in the incidence of aceto-whitening of the Vestibule among patients from different groups, with positive AWR?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of aceto-whitening of the Vestibule among patients from different groups, with positive AWR.||||0.0000
82421434|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's line in patients with vulvar dermatosis and positive AWR?||||||0.8545|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's line in patients with vulvar dermatosis and positive AWR.||||0.8545
82534324|NCT02886728|164766914|SUPERIORITY||Difference in Response Rates|9.6|||<|0.001|TWO_SIDED|95.0|3.6|15.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||15.6|3.6|<0.001
82534325|NCT02886728|164766914|SUPERIORITY||Difference in Response Rates|8.8||||0.017|TWO_SIDED|95.0|1.5|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||16.1|1.5|0.017
82647458|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.01952|STANDARD_ERROR_OF_MEAN|0.009846||0.0487|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Neg. Affect as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.0487
82647459|NCT03593772|165010345|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0066|STANDARD_ERROR_OF_MEAN|0.004644||0.1554|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Fear as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.05. Borderline statistical significance was considered to be \<0.1.||||0.1554
82647460|NCT03593772|165010346|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00113|STANDARD_ERROR_OF_MEAN|0.000863||0.1924|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1924
82647461|NCT03593772|165010346|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0019|STANDARD_ERROR_OF_MEAN|0.001152||0.1002|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stress as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1002
82421435|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR?||||||0.8569|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR.||||0.8569
82421436|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.2478|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.2478
82421437|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.2478|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.2478
82421438|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR?||||||0.1627|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR.||||0.1627
82421439|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.5943|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.5943
82421440|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR?||||||0.7161|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvar dermatosis and positive AWR.||||0.7161
82421441|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.3301|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.3301
82534326|NCT02886728|164766914|SUPERIORITY||Difference in Response Rates|6.7||||0.058|TWO_SIDED|95.0|-0.7|14.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||14.1|-0.7|0.058
82421442|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.3301|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.3301
82421443|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR?||||||0.1627|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvar dermatosis and positive AWR.||||0.1627
82421444|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.4742|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.4742
82534327|NCT02886728|164766915|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.041|<|0.001|TWO_SIDED|95.0|-0.27|-0.11||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from mixed effects model for repeated measures (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.27|<0.001
82421445|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with vulvar dermatosis and positive AWR?||||||0.1822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with vulvar dermatosis and positive AWR.||||0.1822
82421446|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR?||||||0.1822|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with vulvar dermatosis and positive AWR.||||0.1822
82421447|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.0927|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.0927
82421448|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvar dermatosis and positive AWR?||||||0.036|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvar dermatosis and positive AWR.||||0.0360
82421449|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with vulvodynia and positive AWR?||||||0.072|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with vulvodynia and positive AWR.||||0.0720
82421450|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvodynia and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with vulvodynia and positive AWR.||||1.0000
82421451|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.4833|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.4833
82421452|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.3594|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.3594
82421453|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR?||||||0.5987|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR.||||0.5987
82421454|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvodynia and positive AWR?||||||0.4164|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with vulvodynia and positive AWR.||||0.4164
82421455|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvodynia and positive AWR?||||||0.072|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with vulvodynia and positive AWR.||||0.0720
82534328|NCT02886728|164766915|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.049||0.009|TWO_SIDED|95.0|-0.23|-0.03||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.03|-0.23|0.009
82648098|NCT00331773|165011541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||The distribution of HSCL-25 at 60 months (5 years) was calculated, and Wilcoxon test statistics were used to test the null hypothesis that responses are the same across the two treatment arms versus the alternative hypothesis that they are different. Significance level = 0.0125, two-sided test.||||0.028
82421456|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.0148|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.0148
82421457|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.0085|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.0085
82421458|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR?||||||0.1918|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with vulvodynia and positive AWR.||||0.1918
82421459|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's line versus Vestibule in patients with vulvodynia and positive AWR?||||||0.3037|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's line versus Vestibule in patients with vulvodynia and positive AWR.||||0.3037
82647462|NCT03593772|165010346|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000343|STANDARD_ERROR_OF_MEAN|0.000996||0.7311|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Tension as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7311
82648099|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|Two-sided significance level = 0.05||Baseline VAS score||||0.037
82421460|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with vulvodynia and positive AWR?||||||0.4833|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with vulvodynia and positive AWR.||||0.4833
82421461|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with vulvodynia and positive AWR?||||||0.3594|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with vulvodynia and positive AWR.||||0.3594
82421462|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Hymenal Remnants versus Vestibule in patients with vulvodynia and positive AWR?||||||0.0877|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Hymenal Remnants versus Vestibule in patients with vulvodynia and positive AWR.||||0.0877
82421463|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvodynia and positive AWR?||||||0.7726|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with vulvodynia and positive AWR.||||0.7726
82421464|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with impaired vulvar skin and positive AWR?||||||0.0191|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with impaired vulvar skin and positive AWR.||||0.0191
82421465|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR?||||||0.0287|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR.||||0.0287
82421466|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.6374|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.6374
82421467|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.7512|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.7512
82421468|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR?||||||0.2734|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR.||||0.2734
82534329|NCT02886728|164766915|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.032|TWO_SIDED|95.0|-0.2|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.20|0.032
82534330|NCT02886728|164766916|SUPERIORITY||Difference in Response Rates|25.0|||<|0.001|TWO_SIDED|95.0|18.3|31.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||31.7|18.3|<0.001
82534331|NCT02886728|164766916|SUPERIORITY||Difference in Response Rates|13.4|||<|0.001|TWO_SIDED|95.0|5.0|21.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||21.8|5.0|<0.001
82648100|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||Baseline index score||||0.12
82421469|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.0287|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.0287
82421470|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR?||||||0.8732|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with impaired vulvar skin and positive AWR.||||0.8732
82421471|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.0602|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.0602
82648101|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||6-month VAS score||||0.70
82648102|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||6-month index score||||0.20
82421472|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.0079|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.0079
82421473|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR?||||||0.2081|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with impaired vulvar skin and positive AWR.||||0.2081
82421474|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.8732|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.8732
82421475|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with impaired vulvar skin and positive AWR?||||||0.0852|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Urethral Meatus in patients with impaired vulvar skin and positive AWR.||||0.0852
82421476|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR?||||||0.0125|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Urethral Sulcus versus Hymenal Remnants in patients with impaired vulvar skin and positive AWR.||||0.0125
82421477|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.0125|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.0125
82421478|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with impaired vulvar skin and positive AWR?||||||0.2714|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with impaired vulvar skin and positive AWR.||||0.2714
82421479|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with normal vulva and positive AWR?||||||0.1692|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hart's Line in patients with normal vulva and positive AWR.||||0.1692
82421480|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with normal vulva and positive AWR?||||||0.0772|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Sulcus in patients with normal vulva and positive AWR.||||0.0772
82421481|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.5762|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.5762
82421482|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.5762|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.5762
82421483|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with normal vulva and positive AWR?||||||1|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Bartholin's Gland Opening in patients with normal vulva and positive AWR.||||1.0000
82421484|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with normal vulva and positive AWR?||||||0.0078|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of the Clitoris versus Vestibule in patients with normal vulva and positive AWR.||||0.0078
82421485|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with normal vulva and positive AWR?||||||0.6862|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Sulcus in patients with normal vulva and positive AWR.||||0.6862
82448138|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.06|||||TWO_SIDED|95.0|-16.44|-1.68||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.68|-16.44|
82421486|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.0563|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.0563
82421487|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.0563|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.0563
82448139|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.44|||||TWO_SIDED|95.0|-21.82|-7.06||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-7.06|-21.82|
82534332|NCT02886728|164766916|SUPERIORITY||Difference in Response Rates|13.3|||<|0.001|TWO_SIDED|95.0|5.0|21.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||21.6|5.0|<0.001
82421488|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with normal vulva and positive AWR?||||||0.1692|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Bartholin's Gland Opening in patients with normal vulva and positive AWR.||||0.1692
82534333|NCT02886728|164766917|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.161||0.068|TWO_SIDED|95.0|-0.61|0.02||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.02|-0.61|0.068
82421489|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with normal vulva and positive AWR?||||||0.1822|||||||t|||Parameter: The difference in the incidence of aceto-whitening of Hart's Line versus Vestibule in patients with normal vulva and positive AWR.||||0.1822
82421490|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Urethral Meatus in patients with normal vulva and positive AWR.||||0.0220
82421491|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Urethral Sulcus versus Hymenal Remnants in patients with normal vulva and positive AWR.||||0.0220
82421492|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with normal vulva and positive AWR?||||||0.022|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Hymenal Remnants versus Vestibule in patients with normal vulva and positive AWR.||||0.0220
82421493|NCT02732145|164552730|SUPERIORITY|Question: Is there a difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with normal vulva and positive AWR?||||||0.0078|||||||t-test proportion|||Parameter: The difference in the incidence of aceto-whitening of Bartholin's Gland Opening versus Vestibule in patients with normal vulva and positive AWR.||||0.0078
82421494|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of hyperkeratosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyperkeratosis in vulvar specimens of patients from different groups.||||0.0000
82534334|NCT02886728|164766917|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.195||0.14|TWO_SIDED|95.0|-0.67|0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.10|-0.67|0.14
82534335|NCT02886728|164766917|SUPERIORITY||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.199||0.006|TWO_SIDED|95.0|-0.94|-0.16||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.16|-0.94|0.006
82534336|NCT02886728|164766918|SUPERIORITY||Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|1.8|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|1.8|<0.001
82648103|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||12-month VAS score||||0.31
82648104|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||12-month index score||||0.19
82421495|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of parakeratosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of parakeratosis in vulvar specimens of patients from different groups.||||0.0000
82421496|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of acanthosis in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of acanthosis in vulvar specimens of patients from different groups.||||0.0000
82421497|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of epidermal atrophy in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of epidermal atrophy in vulvar specimens of patients from different groups.||||0.0000
82421498|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of inflammatory infiltrates in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens of patients from different groups.||||0.0000
82421499|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of mononuclear inflammatory infiltrates in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens of patients from different groups.||||0.0000
82421500|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of lymphocytes in vulvar specimens of patients from different groups?||||||0.0105|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of lymphocytes (infiltrates) in vulvar specimens of patients from different groups.||||0.0105
82648105|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||24-month VAS score||||0.86
82421501|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of mastocytes in vulvar specimens of patients from different groups?||||||0.0064|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mastocytes in vulvar specimens of patients from different groups.||||0.0064
82421502|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of collagen fibers in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens of patients from different groups.||||0.0000
82421503|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of hyalinization in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens of patients from different groups.||||0.0000
82421504|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of hyperpigmentation in vulvar specimens of patients from different groups?||||||0.0342|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyperpigmentation in vulvar specimens of patients from different groups.||||0.0342
82421505|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of elongated dermal papillae in vulvar specimens of patients from different groups?||||||0.0148|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of elongated dermal papillae in vulvar specimens of patients from different groups.||||0.0148
82421506|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of blood vessels in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of blood vessels in vulvar specimens of patients from different groups.||||0.0000
82421507|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of sebaceous glands in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of sebaceous glands in vulvar specimens of patients from different groups.||||0.0000
82421508|NCT02732145|164552731|EQUIVALENCE|Question: Is there a difference in the incidence of nerve fibers in vulvar specimens of patients from different groups?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of nerve fibers in vulvar specimens of patients from different groups.||||0.0000
82421509|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.0000
82421510|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the dull pain of the vulva on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||1|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull (slow) pain of the vulva (burning, stinging, soreness, irritation, itching, inflammation, aching) depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||1.0000
82421511|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.3533|||||||Chi-squared|||Parameter: The incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.3533
82421512|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.5641|||||||Chi-squared|||Parameter: The incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.5641
82421513|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9684|||||||Chi-squared|||Parameter: The incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9684
82421514|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8599|||||||Chi-squared|||Parameter: The incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8599
82421515|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9402|||||||Chi-squared|||Parameter: The incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9402
82421516|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8389|||||||Chi-squared|||Parameter: The incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8389
82421517|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.7617|||||||Chi-squared|||Parameter: The incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.7617
82426675|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.53|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-8.9|-16.1|<0.0001
82648106|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||24-month index score||||0.45
82648107|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||60-month VAS score||||0.39
82448140|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.72|||||TWO_SIDED|95.0|-12.53|3.09||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.09|-12.53|
82647463|NCT03593772|165010347|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00241|STANDARD_ERROR_OF_MEAN|0.001716||0.1622|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain as the outcome variable. Linear mixed models were constructed with fixed effects terms for the treatment group (MR vs. WC), time (continuous), and a treatment group x time interaction term to test whether the rate of change in the instrument score differed by treatment group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1622
82421518|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of the sharp pain of the vulva depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.4613|||||||Chi-squared|||Parameter: The difference in the incidence of the sharp (fast) pain of the vulva (knife-like pain, paper-cuts pain, stabbing, sticking) depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.4613
82421519|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.0331|||||||Chi-squared, Corrected|||Parameter: The incidence of the vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.0331
82421520|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9402|||||||Chi-squared|||Parameter: The incidence of the vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9402
82421521|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.9139|||||||Chi-squared|||Parameter: The incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.9139
82421522|NCT02732145|164552732|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis?||||||0.8925|||||||Chi-squared|||Parameter: The incidence of the vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvar dermatosis.||||0.8925
82421523|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0|||||||Chi-squared|||Parameter: The difference in the incidence of vulvar complaints depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0000
82421524|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the dull pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6921|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the dull (slow) pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6921
82421525|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar burning on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.1848|||||||Chi-squared|||Parameter: The incidence of vulvar burning depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.1848
82421526|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.9048|||||||Chi-squared|||Parameter: The incidence of vulvar stinging depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.9048
82448141|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.4|||||TWO_SIDED|95.0|-20.21|-4.59||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.59|-20.21|
82448142|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.48|||||TWO_SIDED|95.0|-24.25|-8.71||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-8.71|-24.25|
82421527|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.3953|||||||Chi-squared|||Parameter: The incidence of vulvar soreness depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.3953
82421528|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0921|||||||Chi-squared|||Parameter: The incidence of vulvar irritation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0921
82421529|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6734|||||||Chi-squared|||Parameter: The incidence of vulvar itching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6734
82421530|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.3458|||||||Chi-squared|||Parameter: The incidence of the feeling of vulvar inflammation depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.3458
82421531|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.5304|||||||Chi-squared|||Parameter: The incidence of vulvar aching depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.5304
82421532|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of symptoms of the sharp pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0012|||||||Chi-squared|||Parameter: The difference in the incidence of symptoms of the sharp (fast) pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0012
82421533|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0002|||||||Chi-squared|||Parameter: The incidence of vulvar knife-like pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0002
82421534|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0218|||||||Chi-squared, Corrected|||Parameter: The incidence of vulvar paper-cuts pain depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0218
82421535|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.0297|||||||Chi-squared|||Parameter: The incidence of vulvar pain like stabbing depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.0297
82421536|NCT02732145|164552733|SUPERIORITY|Question: Is there a difference in the incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia?||||||0.6468|||||||Chi-squared|||Parameter: The incidence of vulvar pain like sticking depending on the histopathology of the epidermis (normal versus abnormal) in patients with vulvodynia.||||0.6468
82421537|NCT02732145|164552734|SUPERIORITY|Question: Is there a difference in the incidence of the finding of inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.2045|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.2045
82421538|NCT02732145|164552734|SUPERIORITY|Question: Is there a difference in the incidence of the finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.7469|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.7469
82421539|NCT02732145|164552734|SUPERIORITY|Question: Is there a difference in the incidence of the finding of lymphocytes in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.4271|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of lymphocytes in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.4271
82534337|NCT02886728|164766918|SUPERIORITY||Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.69||0.021|TWO_SIDED|95.0|0.2|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.2|0.021
82648108|NCT00331773|165011542|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56||||||Two-sided significance level = 0.05|Wilcoxon (Mann-Whitney)|||60-month index score||||0.56
82421540|NCT02732145|164552734|SUPERIORITY|Question: Is there a difference in the incidence of the finding of collagen fibers in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.3607|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.3607
82421541|NCT02732145|164552734|SUPERIORITY|Question: Is there a difference in the incidence of the finding of hyalinization in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8672|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens from patients with vulvar dermatosis depending on the duration of vulvar discomfort.||||0.8672
82421542|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of the finding of inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0045|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0045
82421543|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of the finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0032|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of mononuclear inflammatory infiltrates in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0032
82421544|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of the finding of collagen fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.1067|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of collagen fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.1067
82648109|NCT00054275|165011579|SUPERIORITY_OR_OTHER||proportion of pts with partial response|0.39||||0.95|TWO_SIDED|95.0|0.23|0.58|||confidence interval for partial response|Confidence interval for partial response rate using Wilson's Method||||0.58|0.23|0.95
82648110|NCT00755937|165011582|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|66.3||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82421545|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of inflammatory cells in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8672|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of hyalinization in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.8672
82421546|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of blood vessels in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0219|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of blood vessels in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0219
82421547|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of sebaceous glands in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.8213|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of sebaceous glands in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.8213
82421548|NCT02732145|164552735|SUPERIORITY|Question: Is there a difference in the incidence of the finding of nerve fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort for less or more than 24 months?||||||0.0613|||||||Chi-squared|||Parameter: The difference in the incidence of the histopathological finding of nerve fibers in vulvar specimens from patients with vulvodynia depending on the duration of vulvar discomfort.||||0.0613
82421549|NCT00456365|164552739|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
82421550|NCT00456365|164552740|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANCOVA|||||||0.02
82421551|NCT00456365|164552741|SUPERIORITY_OR_OTHER|||||||0.69|||||||ANOVA|||||||0.69
82421552|NCT00456365|164552742|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANCOVA|||||||0.21
82421553|NCT06091956|164552744|SUPERIORITY|||||||0.008|||||||McNemar|||||||0.008
82534338|NCT02886728|164766918|SUPERIORITY||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.69||0.24|TWO_SIDED|95.0|-0.5|2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.2|-0.5|0.24
82421554|NCT06091956|164552745|SUPERIORITY|||||||0.629|||||||Wilcoxon (Mann-Whitney)|||||||0.629
82421555|NCT06091956|164552748|SUPERIORITY|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||||||0.175
82576704|NCT00477490|164863740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277||||0.0207|TWO_SIDED|95.0|-0.511|-0.042||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||-0.042|-0.511|0.0207
82648111|NCT00755937|165011583|SUPERIORITY_OR_OTHER||percentage (no inferential test)|72.5||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82421556|NCT06091956|164552749|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82421557|NCT00967486|164552770|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82421558|NCT01767857|164552773|SUPERIORITY|||||||0.613|||||||Log Rank|||||||0.613
82421559|NCT01767857|164552774|SUPERIORITY|||||||0.011|||||||ANCOVA|||||||0.011
82421560|NCT01767857|164552775|SUPERIORITY|||||||0.541|||||||ANCOVA|||Statistical Analysis for Global Health Status/Qol||||0.541
82421561|NCT01767857|164552775|SUPERIORITY|||||||0.56|||||||ANCOVA|||Statistical Analysis for Pain||||0.560
82421562|NCT01767857|164552775|SUPERIORITY|||||||0.603|||||||ANCOVA|||Statistical Analysis for Fatigue||||0.603
82421563|NCT01767857|164552775|SUPERIORITY|||||||0.485|||||||ANCOVA|||Statistical Analysis for Appetite Loss||||0.485
82421564|NCT01767857|164552776|SUPERIORITY|||||||0.21|||||||ANCOVA|||||||0.210
82421565|NCT01767857|164552777|SUPERIORITY|||||||0.768|||||||Log Rank|||||||0.768
82421566|NCT01421459|164552780|NON_INFERIORITY_OR_EQUIVALENCE|The primary treatment comparison was to compare LY2963016 versus Lantus at the non-inferiority margin of +0.4%. If the upper limit of the 95% confidence interval on the change from baseline to 24-week endpoint HbA1c for LY2963016 versus Lantus was below +0.4%, then LY2963016 would be declared non-inferior to Lantus.|Mean Difference (Final Values)|0.052||||0.403|TWO_SIDED|95.0|-0.07|0.175|||ANCOVA|||||0.175|-0.070|0.403
82421567|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P-value is for 4 weeks.|ANCOVA|||||||0.382
82421568|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||P-value is for 8 weeks.|ANCOVA|||||||0.910
82421569|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.869||95.0||||P-value is for 12 weeks.|ANCOVA|||||||0.869
82421570|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for 16 weeks.|ANCOVA|||||||0.345
82421571|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for 20 weeks.|ANCOVA|||||||0.161
82421572|NCT01421459|164552782|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-value is for 24 weeks.|ANCOVA|||||||0.097
82421573|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value is at Morning Pre-Meal at Baseline.|ANCOVA|||||||0.837
82421574|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-value is for Morning 2 hrs PP Meal at Baseline.|ANCOVA|||||||0.620
82421575|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P-value is for Midday Pre-Meal at Baseline|ANCOVA|||||||0.107
82421576|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for Midday 2 hrs PP Meal at Baseline.|ANCOVA|||||||0.258
82421577|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value is for Evening Pre-Meal at Baseline.|ANCOVA|||||||0.161
82421578|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||P-value is for Bed Time at Baseline.|ANCOVA|||||||0.725
82421579|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||P-value is for 0300 hrs at Baseline.|ANCOVA|||||||0.543
82421580|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.265||95.0||||P-value is for Morning Pre-Meal at Endpoint, up to 24 wk.|ANCOVA|||||||0.265
82421581|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for Morning 2 hrs PP Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.050
82421582|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-value is for Midday Pre-Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.040
82421583|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||P-value is for Midday 2 hrs PP Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.366
82421584|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.485||95.0||||P-value is for Evening Pre-Meal at Endpoint, up to 24 weeks.|ANCOVA|||||||0.485
82421585|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.537||95.0||||P-value is for Bed Time at Endpoint, up to 24 weeks.|ANCOVA|||||||0.537
82421586|NCT01421459|164552783|SUPERIORITY_OR_OTHER|||||||0.878||95.0||||P-value is for 0300 hrs at Endpoint, up to 24 weeks.|ANCOVA|||||||0.878
82421587|NCT01421459|164552784|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-value is for Baseline.|ANCOVA|||||||0.779
82421588|NCT01421459|164552784|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-value is for Endpoint, up to 24 weeks.|ANCOVA|||||||0.788
82421589|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.687||95.0||||P-value is for Baseline.|ANCOVA|||||||0.687
82421590|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value is for change at 4 wks.|ANCOVA|||||||0.036
82421591|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.323||95.0||||P-value is for change at 8 wks.|ANCOVA|||||||0.323
82647464|NCT03593772|165010347|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00235|STANDARD_ERROR_OF_MEAN|0.002052||0.254|TWO_SIDED||||||Mixed Models Analysis|||Analysis performed on Pain Interference with Activity as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2540
82421592|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-value is for change at 12 wks.|ANCOVA|||||||0.368
82421593|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value is for change at 16 wks.|ANCOVA|||||||0.089
82421594|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value is for change at 20 wks.|ANCOVA|||||||0.041
82421595|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.33||95.0||||P-value is for change at 24 wks.|ANCOVA|||||||0.330
82421596|NCT01421459|164552785|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value is for change at Endpoint, up to 24 wks.|ANCOVA|||||||0.334
82421597|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.726||95.0||||P-value is for Behavior domain at 4 weeks.|ANCOVA|||||||0.726
82421598|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for Behavior domain at 12 weeks.|ANCOVA|||||||0.502
82421599|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.437||95.0||||P-value is for Behavior domain at Endpoint, up to 24 weeks.|ANCOVA|||||||0.437
82421600|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.237||95.0||||P-value is for Worry domain at 4 weeks.|ANCOVA|||||||0.237
82421601|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.86||95.0||||P-value is for Worry domain at 12 weeks.|ANCOVA|||||||0.860
82421602|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.966||95.0||||P-value is for Worry domain at Endpoint, up to 24 weeks.|ANCOVA|||||||0.966
82421603|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.313||95.0||||P-value is for ALBSS Total Score at 4 weeks.|ANCOVA|||||||0.313
82421604|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||P-value is for ALBSS Total Score at 12 weeks.|ANCOVA|||||||0.683
82421605|NCT01421459|164552786|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||P-value is for ALBSS Total Score at Endpoint, up to 24 weeks.|ANCOVA|||||||0.765
82421606|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value is for Inconvenience of Regimen at 4 weeks.|ANCOVA|||||||0.983
82421607|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for Inconvenience of Regimen at 12 weeks.|ANCOVA|||||||0.371
82421608|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.757||95.0||||P-value is for Inconvenience of Regimen at Endpoint, up to 24 weeks.|ANCOVA|||||||0.757
82421609|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||P-value is for Lifestyle Flexibility at 4 weeks.|ANCOVA|||||||0.890
82421610|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.326||95.0||||P-value is for Lifestyle Flexibility at 12 weeks.|ANCOVA|||||||0.326
82421611|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||P-value is for Lifestyle Flexibility at Endpoint, up to 24 weeks.|ANCOVA|||||||0.831
82421612|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-value is for Hypoglycemic Control at 4 weeks.|ANCOVA|||||||0.507
82421613|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for Hypoglycemic Control at 12 weeks.|ANCOVA|||||||0.690
82421614|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||P-value is for Hypoglycemic Control at Endpoint, up to 24 weeks.|ANCOVA|||||||0.307
82421615|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value is for Glycemic Control at 4 weeks.|ANCOVA|||||||0.902
82421616|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||P-value is for Glycemic Control at 12 weeks.|ANCOVA|||||||0.109
82421617|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||P-value is for Glycemic Control at Endpoint, up to 24 weeks.|ANCOVA|||||||0.754
82421618|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||P-value is for Insulin Deliver Device at 4 weeks.|ANCOVA|||||||0.088
82421619|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.456||95.0||||P-value is for Insulin Delivery Device at 12 weeks.|ANCOVA|||||||0.456
82421620|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.531||95.0||||P-value is for Insulin Delivery Device at Endpoint, up to 24 weeks.|ANCOVA|||||||0.531
82421621|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value is for ITSQ Total Score at 4 weeks.|ANCOVA|||||||0.393
82421622|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||P-value is for ITSQ Total Score at 12 weeks.|ANCOVA|||||||0.296
82421623|NCT01421459|164552787|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||P-value is for ITSQ Total Score at Endpoint, up to 24 weeks.|ANCOVA|||||||0.662
82421624|NCT01421459|164552788|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||ANCOVA|||||||0.393
82534339|NCT02886728|164766919|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.68||0.056|TWO_SIDED|95.0|0.0|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|-0.0|0.056
82421625|NCT01421459|164552789|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value is for Insulin Dose at Endpoint, up to 24 weeks.|ANOVA|||||||0.185
82421626|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.661||95.0||||P-value is for HbA1c \<7% at Baseline.|Chi-squared|||||||0.661
82421627|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value is for HbA1c ≤ 6.5% at Baseline.|Chi-squared|||||||0.394
82421628|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-value is for HbA1c \<7% at 4 weeks.|Chi-squared|||||||0.688
82421629|NCT01421459|164552790|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||P-value is for HbA1c ≤ 6.5% at 4 weeks.|Chi-squared|||||||>0.999
82421630|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.409||95.0||||P-value is for HbA1c \<7% at 8 weeks.|Chi-squared|||||||0.409
82421631|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value is for HbA1c ≤ 6.5% at 8 weeks.|Chi-squared|||||||0.090
82421632|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||P-value is for HbA1c \<7% at 12 weeks.|Chi-squared|||||||0.319
82421633|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-value is for HbA1c ≤6.5% at 12 weeks.|Chi-squared|||||||0.463
82421634|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||P-value is for HbA1c \<7% at 16 weeks.|Chi-squared|||||||0.128
82534340|NCT02886728|164766919|SUPERIORITY||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.82||0.1|TWO_SIDED|95.0|-0.3|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-0.3|0.10
82421635|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value is for HbA1c ≤6.5% at 16 weeks.|Chi-squared|||||||0.261
82576705|NCT00477490|164863740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.613|||<|0.0001|TWO_SIDED|95.0|-0.848|-0.378||The a priori statistically significant difference versus placebo is p≤0.05.|ANCOVA|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||-0.378|-0.848|<0.0001
82421636|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value is for HbA1c \<7% at 20 weeks.|Chi-squared|||||||0.218
82421637|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value is for HbA1c ≤6.5% at 20 weeks.|Chi-squared|||||||0.092
82421638|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||P-value is for HbA1c \<7%% at 24 weeks.|Chi-squared|||||||0.186
82421639|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||P-value is for HbA1c ≤6.5% at 24 weeks.|Chi-squared|||||||0.174
82421640|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value is for HbA1c \<7% at Endpoint, up to 24 weeks.|Chi-squared|||||||0.340
82421641|NCT01421459|164552790|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||P-value is for HbA1c ≤6.5% at Endpoint, up to 24 weeks.|Chi-squared|||||||0.293
82421642|NCT01421459|164552791|SUPERIORITY_OR_OTHER|||||||0.594||95.0||||P-value is for Total Hypoglycemic with BG ≤70 mg/dL events.|Chi-squared|||||||0.594
82421643|NCT01421459|164552791|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-value is for Nocturnal Hypoglycemic with BG ≤70 mg/dL events.|Chi-squared|||||||0.462
82421644|NCT01421459|164552792|SUPERIORITY_OR_OTHER|||||||0.995||95.0||||P-value is for Total Hypoglycemia with BG ≤70 mg/dL events.|Wilcoxon (Mann-Whitney)|||||||0.995
82421645|NCT01421459|164552792|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||P-value is for Nocturnal Hypoglycemia with BG ≤70 mg/dL events.|Wilcoxon (Mann-Whitney)|||||||0.686
82421646|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-value is for Baseline.|Chi-squared|||||||0.285
82421647|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for 4 weeks.|Chi-squared|||||||0.047
82421648|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||P-value is for 12 weeks.|Chi-squared|||||||0.882
82421649|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value is for 24 weeks.|Chi-squared|||||||0.179
82421650|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.314||95.0||||P-value is for Endpoint, up to 24 weeks.|Chi-squared|||||||0.314
82421651|NCT01421459|164552793|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value is for Baseline to 24 weeks (Overall).|Chi-squared|||||||0.100
82421652|NCT01421459|164552794|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-value is for 4 weeks.|Chi-squared|||||||0.176
82421653|NCT01421459|164552794|SUPERIORITY_OR_OTHER|||||||0.999||95.0||||P-value is for 12 weeks.|Chi-squared|||||||0.999
82421654|NCT01421459|164552794|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||P-value is for 24 weeks.|Chi-squared|||||||0.618
82421655|NCT01421459|164552794|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||P-value is for Endpoint (LOCF).|Chi-squared|||||||0.874
82421656|NCT01421459|164552794|SUPERIORITY_OR_OTHER||||||>|0.233||95.0||||P-value is for Overall (Baseline to 24 weeks).|Chi-squared|||||||>0.233
82421657|NCT03257657|164552917|OTHER|||||||0.1|||||||t-test, 2 sided|||||||0.1
82421658|NCT03257657|164552919|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
82421659|NCT03257657|164552921|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82421660|NCT00137449|164552925|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|50.0||||||95.0|31.3|68.7|||F distribution|||||68.7|31.3|
82421661|NCT00137449|164552925|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|56.7||||||95.0|37.4|74.5|||F distribution|||||74.5|37.4|
82426676|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.5732|TWO_SIDED|95.0|-4.6|2.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization|ANCOVA|||Week 56||2.5|-4.6|0.5732
82534341|NCT02886728|164766919|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.83||0.67|TWO_SIDED|95.0|-1.3|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-1.3|0.67
82421662|NCT00137449|164552925|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|53.3||||||95.0|40.0|66.3|||F distribution|||Null hypothesis that the true CBR \<=20% vs the alternative hypothesis that the true clinical benefit rate is at least 35%. The sample size is determined using a single-stage design with an alpha level of 10% \& 90% power. If \>=17 CR, PR or SD for at least 24 weeks are observed, null hypothesis can be rejected with a 20% target false positive error rate. If \<= 16 CR, PR,or SD for at least 24 weeks are observed, null hypothesis can not be rejected with a target false negative error rate of 10%.||66.3|40.0|
82421663|NCT00137449|164552927|SUPERIORITY_OR_OTHER||ORR rate (percentage)|10.0||||||95.0|2.1|26.5|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||26.5|2.1|
82421664|NCT00137449|164552927|SUPERIORITY_OR_OTHER||ORR rate (percentage)|16.7||||||95.0|5.6|34.7|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||34.7|5.6|
82421665|NCT00137449|164552927|SUPERIORITY_OR_OTHER||ORR rate (percentage)|13.3||||||95.0|5.9|24.6|||F distribution||PR or CR responding tumor measurements confirmed by repeat studies performed at \> 4 weeks after the criteria for response first met.|||24.6|5.9|
82421666|NCT00137449|164552929|SUPERIORITY_OR_OTHER||median|27.0||||||95.0|22.0|73.1|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley. Median reported is progression free survival weeks.||73.1|22.0|
82421667|NCT00137449|164552929|SUPERIORITY_OR_OTHER||median|35.1||||||95.0|24.4|51.6|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Median reported is progression free survival weeks.||51.6|24.4|
82421668|NCT00137449|164552929|SUPERIORITY_OR_OTHER||median|33.6||||||95.0|24.1|49.0|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Median reported is progression free survival weeks.||49.0|24.1|
82421669|NCT00137449|164552930|SUPERIORITY_OR_OTHER||median|57.0||||||95.0|24.1|73.1|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||73.1|24.1|
82421670|NCT00137449|164552930|SUPERIORITY_OR_OTHER||median|42.1||||||95.0|26.1|65.9|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||65.9|26.1|
82421671|NCT00137449|164552930|SUPERIORITY_OR_OTHER||median|42.1||||||95.0|26.1|65.9|||Kaplan-Meier method|||95% CI calculated based on the method of Brookmeyer and Crowley.Time to progression in weeks reported as median.||65.9|26.1|
82421672|NCT00137449|164552932|SUPERIORITY_OR_OTHER||1 year survival rate|60.0||||||95.0|40.5|75.0|||Kaplan-Meier method|||||75.0|40.5|
82421673|NCT00137449|164552932|SUPERIORITY_OR_OTHER||1 year survival rate|79.7||||||95.0|60.3|90.3|||Kaplan-Meier method|||||90.3|60.3|
82421674|NCT00137449|164552932|SUPERIORITY_OR_OTHER||1 year survival rate|69.7||||||95.0|56.3|79.7|||Kaplan-Meier method|||||79.7|56.3|
82421675|NCT02296099|164552936|EQUIVALENCE|The Mann-Whitney U test was utilized.||||||0.014||||||The p-value was not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|There were no adjustments.||The null hypothesis is that there is no difference in the pain scores between the two groups.||||0.014
82421676|NCT00836901|164552953|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|97.7||||||90.0|93.19|102.43|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.43|93.19|
82421677|NCT00836901|164552954|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.28||||||90.0|97.09|101.53|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.53|97.09|
82421678|NCT00836901|164552955|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|97.64||||||90.0|96.12|99.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||99.19|96.12|
82534342|NCT02886728|164766920|SUPERIORITY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.195|<|0.001|TWO_SIDED|95.0|-1.03|-0.27||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.27|-1.03|<0.001
82576706|NCT00477490|164863741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.017||||0.942|TWO_SIDED|95.0|0.647|1.598||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids||||1.598|0.647|0.9420
82421679|NCT00836901|164552956|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.59||||||90.0|85.64|104.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.47|85.64|
82421680|NCT00836901|164552957|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.44||||||90.0|87.83|101.54|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.54|87.83|
82421681|NCT00836901|164552958|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|94.08||||||90.0|87.19|101.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.52|87.19|
82448143|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.19|||||TWO_SIDED|95.0|-19.94|-4.44||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.44|-19.94|
82448144|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.73|||||TWO_SIDED|95.0|-15.5|0.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.04|-15.50|
82448145|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.98|||||TWO_SIDED|95.0|-21.75|-6.21||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.21|-21.75|
82448146|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.45|||||TWO_SIDED|95.0|-0.53|13.42||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.42|-0.53|
82448147|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06|||||TWO_SIDED|95.0|-5.81|7.92||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.92|-5.81|
82448148|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|-6.25|7.57||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.57|-6.25|
82448149|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.42|||||TWO_SIDED|95.0|-9.26|4.42||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.42|-9.26|
82448150|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.91|||||TWO_SIDED|95.0|1.48|16.35||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||16.35|1.48|
82448151|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.13|||||TWO_SIDED|95.0|-3.24|11.51||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||11.51|-3.24|
82534343|NCT02886728|164766920|SUPERIORITY||Least Squares Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.236||0.008|TWO_SIDED|95.0|-1.09|-0.16||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.16|-1.09|0.008
82647465|NCT03593772|165010347|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00612|STANDARD_ERROR_OF_MEAN|0.002297||0.0082|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Sleep as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0082
82648112|NCT00755937|165011584|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|72.1||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82448152|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|||||TWO_SIDED|95.0|-6.96|7.84||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.84|-6.96|
82448153|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|-5.14|9.56||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.56|-5.14|
82648113|NCT00755937|165011585|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|60.3||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82448154|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.35|||||TWO_SIDED|95.0|0.92|15.77||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.77|0.92|
82448155|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.38|||||TWO_SIDED|95.0|-6.03|8.8||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.80|-6.03|
82448156|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||||TWO_SIDED|95.0|-8.26|6.52||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.52|-8.26|
82421682|NCT00830336|164552959|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|103.08||||||90.0|95.41|111.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.37|95.41|
82421683|NCT00830336|164552960|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|105.84||||||90.0|99.33|112.77|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.77|99.33|
82421684|NCT00830336|164552961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters were evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Geometric Test/Ref Ratio x 100|107.04||||||90.0|99.96|114.62|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114.62|99.96|
82421685|NCT01220687|164552964|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.0012|TWO_SIDED||||||t-test, 2 sided|||||||0.0012
82421686|NCT01220687|164552965|SUPERIORITY||Rate Ratio|1.91|||<|0.0001|TWO_SIDED|95.0|1.68|2.18|||Poisson|||||2.18|1.68|<0.0001
82421687|NCT03464461|164552989|OTHER|non-parametric||||||0.9844|||||||Kruskal-Wallis|||||||0.9844
82421688|NCT03464461|164552990|OTHER|non-parametric||||||0.158|||||||Kruskal-Wallis|||||||0.1580
82421689|NCT03464461|164552991|OTHER|non-parametric||||||0.873|||||||Kruskal-Wallis|||||||0.8730
82421690|NCT03464461|164552992|OTHER|non-parametric||||||0.074|||||||Kruskal-Wallis|||||||0.0740
82534344|NCT02886728|164766920|SUPERIORITY||Least Squares Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.242||0.006|TWO_SIDED|95.0|-1.14|-0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, campaign groups, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-1.14|0.006
82421691|NCT03464461|164552993|OTHER|non-parametric||||||0.0984|||||||Kruskal-Wallis|||||||0.0984
82421692|NCT05273437|164553026|OTHER|We conducted a Bayesian Regression for all available participants, then visualized the results. (N x 16 table, N: number of participants).|Credibility interval|80.0|||||TWO_SIDED||||||Bayesian Regression|We explicitly sought 80% credibility of at least 100 steps more within the 3-hour increment in comparison to the intervention.|We decided that 100 steps/3 hours is the minimum value of the MAP intervention effect estimate and that an INUS condition is valid only if there is at least an 80% chance of achieving an effect beyond 100 steps/3 hours.|We hypothesized that some individuals have their own time and decision-policy-specific response pattern regardless of day elapsed since the beginning of the intervention. We did not hypothesize the direction of the effect variation.|The decision point was the unit of analysis. For the Bayesian Regression, we used Markov Chain Monte Carlo (MCMC). Four sampling chains were used when performing Bayesian modeling. The number of estimation samples and target acceptance rate were gradually increased until numerical stability was achieved. The number of estimation samples was increased by multiplied by 2, as advised by previous literature, depending on the ratio of convergence diagnostics R̂ \> 1.1. We used 100 steps increase during 3 hours as the effect threshold value. We assumed that there is an effect only if the estimated effect is more than 80% probable (i.e., the credibility interval is over 100 steps/3 hours) and the Maximum A Posteriori Point (MAP) of the effect is more than 100 steps/3 hours. Otherwise, there is no effect. Among the models with effects, we clipped to 1000 steps/3hours as a maximum if the MAP was greater than 1000 steps/3 hours.|||
82421693|NCT03253627|164553073|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||baseline||||0.460
82421694|NCT03253627|164553073|SUPERIORITY|||||||0.896|||||||t-test, 2 sided|||3 months||||0.896
82421695|NCT03253627|164553074|SUPERIORITY|||||||0.374|||||||t-test, 2 sided|||baseline||||0.374
82421696|NCT03253627|164553074|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||6 months||||0.236
82421697|NCT03253627|164553075|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||baseline||||0.180
82421698|NCT03253627|164553075|SUPERIORITY|||||||0.822|||||||t-test, 2 sided|||6 months||||0.822
82421699|NCT03253627|164553076|SUPERIORITY|||||||0.715|||||||t-test, 2 sided|||baseline||||.715
82421700|NCT03253627|164553076|SUPERIORITY|||||||0.861|||||||t-test, 2 sided|||3 months||||0.861
82421701|NCT03253627|164553076|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||6 months||||.790
82421702|NCT03253627|164553077|SUPERIORITY|||||||0.452|||||||t-test, 2 sided|||baseline||||0.452
82421703|NCT03253627|164553077|SUPERIORITY|||||||0.253|||||||t-test, 2 sided|||3 months||||0.253
82421704|NCT03253627|164553077|SUPERIORITY|||||||0.469|||||||t-test, 2 sided|||6 months||||0.469
82421705|NCT03253627|164553078|SUPERIORITY|||||||0.628|||||||t-test, 2 sided|||baseline||||0.628
82448157|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|||||TWO_SIDED|95.0|-6.23|8.49||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.49|-6.23|
82421706|NCT03253627|164553078|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||3 months||||0.345
82421707|NCT03253627|164553078|SUPERIORITY|||||||0.384|||||||t-test, 2 sided|||6 months||||0.384
82421708|NCT03253627|164553079|SUPERIORITY|||||||0.398|||||||t-test, 2 sided|||baseline||||.398
82421709|NCT03253627|164553079|SUPERIORITY|||||||0.811|||||||t-test, 2 sided|||3 months||||0.811
82421710|NCT03253627|164553079|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||6 months||||0.027
82421711|NCT03163667|164553096|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.07905|TWO_SIDED|95.0|0.34|1.2||One-sided p-value comparing the treatment groups was based on a stratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CB-839+Everolimus (CBE), and a hazard ratio \> 1 favors Placebo+Everolimus (PboE).|Stratified analysis. Stratification factors were Memorial Sloan Kettering Cancer Center (MSKCC) Prognostic Risk (favorable versus intermediate/poor risk) and number of prior therapies with a tyrosine kinase inhibitor (TKI; 1 versus \> 1). Due to stratification cells having \< 10 events, TKI stratification factor was removed for analysis.||1.20|0.34|0.07905
82421712|NCT03163667|164553096|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.1184|TWO_SIDED|95.0|0.37|1.28||One-sided p-value comparing the treatment groups was based on an unstratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Unstratified analysis||1.28|0.37|0.1184
82421713|NCT03163667|164553097|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.4801|TWO_SIDED|95.0|0.42|1.5||P-value comparing the treatment groups is based on a stratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Stratified analysis: Stratification factors are MSKCC Prognostic Risk (favorable vs intermediate/poor risk) and number of prior therapies with a TKI (1 vs \> 1). Due to stratification cells having \< 10 events, TKI stratification factor was removed for analysis.||1.50|0.42|0.4801
82421714|NCT03163667|164553097|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.5603|TWO_SIDED|95.0|0.44|1.56||P-value comparing the treatment groups is based on an unstratified log-rank test with alternative hypothesis of survival functions being not equal.|Log Rank||Hazard ratio comparing treatment groups (experimental over control) is based on a Cox proportional hazards model. A hazard ratio \< 1 favors CBE, and a hazard ratio \> 1 favors PboE.|Unstratified analysis||1.56|0.44|0.5603
82421715|NCT05430919|164553119|SUPERIORITY||Least Squares (LS) Mean Difference|-2.31|||<|0.0001|TWO_SIDED|95.0|-3.229|-1.385|||ANCOVA||REGN5713-5714-5715 900 mg vs. Placebo, Day 29|||-1.385|-3.229|<0.0001
82421716|NCT05430919|164553120|SUPERIORITY||LS Mean Difference|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.634|-1.658|||ANCOVA||REGN5713-5715 600 mg vs. Placebo, Day 29|||-1.658|-3.634|<0.0001
82421717|NCT05430919|164553120|SUPERIORITY||LS Mean Difference|-1.51||||0.0023|TWO_SIDED|95.0|-2.478|-0.539|||ANCOVA||REGN5715 300 mg vs. Placebo, Day 29|||-0.539|-2.478|0.0023
82421718|NCT05430919|164553136|SUPERIORITY||LS Mean Difference|-63.18|||<|0.0001|TWO_SIDED|95.0|-73.411|-52.95|||ANCOVA||REGN5713-5714-5715 900 mg vs. Placebo, Day 29|||-52.950|-73.411|<0.0001
82421719|NCT05430919|164553136|SUPERIORITY||LS Mean Difference|-56.01|||<|0.0001|TWO_SIDED|95.0|-66.806|-45.204|||ANCOVA||REGN5713-5715 600 mg vs. Placebo, Day 29|||-45.204|-66.806|<0.0001
82421720|NCT05430919|164553136|SUPERIORITY||LS Mean Difference|-34.82|||<|0.0001|TWO_SIDED|95.0|-45.304|-24.343|||ANCOVA||REGN5715 300 mg vs. Placebo, Day 29|||-24.343|-45.304|<0.0001
82421721|NCT01469156|164553168|OTHER|Visually significant ocular or systemic AEs were predominantly mild or moderate. No significant safety signals were observed in either group.High- and standard-dose ranibizumab were generally well tolerated without evidence of ocular or systemic severe adverse events, including arterial thromboembolic events.|data survey|28.0||||0.05|TWO_SIDED|95.0|0.0|28.0||28 ocular and non-ocular adverse events collected, in mild to moderate nature|t-test, 2 sided|||Purpose was to determine safety and efficacy of intravitreal high-dose ranibizumab in the treatment of active PCV.|Visually significant ocular or systemic AEs that were either reported by subjects or identified by imaging and/or ocular exam|28|0|0.05
82421722|NCT00855166|164553205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.3885|<|0.0001|TWO_SIDED|95.0|-2.84|-1.31||Significant at alpha=0.05 (2-sided)|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.31|-2.84|<0.0001
82421723|NCT00855166|164553206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.6162||0.0143|TWO_SIDED|95.0|-2.74|-0.31||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.31|-2.74|0.0143
82421724|NCT00855166|164553207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.3731||0.0001|TWO_SIDED|95.0|-2.22|-0.74||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|ANCOVA|with treatment group and stratum (gender) as effects and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.74|-2.22|0.0001
82421725|NCT00855166|164553208|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.3|STANDARD_ERROR_OF_MEAN|5.309|<|0.0001|TWO_SIDED|95.0|15.9|36.7||Significant at alpha=0.05 (2-sided). Results of key secondary endpoints are interpreted using Hochberg's method|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value and stratum (gender).||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||36.7|15.9|<0.0001
82421726|NCT00855166|164553209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.5652||0.7013|TWO_SIDED|95.0|-0.89|1.34||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||1.34|-0.89|0.7013
82421727|NCT00855166|164553210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|0.6473||0.1521|TWO_SIDED|95.0|-2.21|0.35||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||0.35|-2.21|0.1521
82426677|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.5|||<|0.0001|TWO_SIDED|95.0|-15.1|-7.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 56||-7.9|-15.1|<0.0001
82534345|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|25.5|||<|0.001|TWO_SIDED|95.0|19.3|31.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||31.7|19.3|<0.001
82421728|NCT00855166|164553211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.4428||0.3105|TWO_SIDED|95.0|-1.32|0.43||Exploratory. Model including fixed categorical effects of treatment, week, treatment-by-week interaction, gender and rescue medication as well as continuous fixed covariates of baseline measurement and baseline measurement-by-week interaction.|Mixed Models Analysis|Percent change in BMD from baseline to week 102 evaluated via longitudinal repeated measures analysis using direct likelihood.|Natural logarithms of baseline and week 102 values were used.|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||0.43|-1.32|0.3105
82421729|NCT00803049|164553213|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.824||||0.2079|TWO_SIDED|95.0|0.602|1.128||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 7 mg vs. Teriflunomide 7 mg/7 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.128|0.602|0.2079
82421730|NCT00803049|164553213|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.3039|TWO_SIDED|95.0|0.591|1.152||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 14 mg vs.Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.152|0.591|0.3039
82421731|NCT00803049|164553213|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.8271|TWO_SIDED|95.0|0.736|1.26||Threshold for significance at 0.05 level.|Log Rank||Teriflunomide 7 mg/7 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.260|0.736|0.8271
82421732|NCT00803049|164553214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.961||||0.8017|TWO_SIDED|95.0|0.678|1.362||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 7 mg vs. Teriflunomide 7 mg/7 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.362|0.678|0.8017
82421733|NCT00803049|164553214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.1866|TWO_SIDED|95.0|0.559|1.117||Threshold for significance at 0.05 level.|Log Rank||Placebo/Teriflunomide 14 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.117|0.559|0.1866
82421734|NCT00803049|164553214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8763|TWO_SIDED|95.0|0.767|1.357||Threshold for significance at 0.05 level.|Log Rank||Teriflunomide 7 mg/7 mg vs. Teriflunomide 14 mg/14 mg|Analysis was performed using Log-rank test with treatment, EDSS strata at baseline and region as covariates. Estimation was performed using Cox proportional hazard model with treatment, EDSS strata at baseline and region as covariates.||1.357|0.767|0.8763
82421735|NCT01854762|164553220|OTHER||Odds Ratio (OR)|3.1|||<|0.01|TWO_SIDED|95.0|1.3|7.4|||Fisher Exact||||Kaplan-Meier estimates for the proportion of patients without virological failure by weeks 2, 4 and 6, and at delivery, using treatment-related discontinuation equal failure analysis|7.4|1.3|<0.01
82421736|NCT02514746|164553239|OTHER||Difference (Group A - B)|-0.6|||||TWO_SIDED|95.0|-7.5|4.5||||||Difference at Year 3||4.5|-7.5|
82421737|NCT02514746|164553239|OTHER||Difference (Group A - B)|0.6|||||TWO_SIDED|95.0|-7.4|6.5||||||Difference at Year 4||6.5|-7.4|
82421738|NCT02514746|164553240|OTHER||GMT Ratio (Group A/B)|1.0|||||TWO_SIDED|95.0|0.9|1.1||||||Geometric mean titer ratio at Year 3||1.1|0.9|
82421739|NCT02514746|164553240|OTHER||GMT Ratio (Group A/B)|1.0|||||TWO_SIDED|95.0|0.9|1.1||||||Geometric mean titer ratio at Year 4||1.1|0.9|
82448158|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.26|||||TWO_SIDED|95.0|1.46|17.06||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||17.06|1.46|
82421740|NCT02514746|164553241|OTHER||Difference (Group A - B)|-3.7|||||TWO_SIDED|95.0|-8.1|2.8||||||Difference at 7 days post booster vaccination||2.8|-8.1|
82421741|NCT02514746|164553241|OTHER||Difference (Group A - B)|-1.3|||||TWO_SIDED|95.0|-3.3|3.0||||||Difference at 28 days post booster vaccination||3.0|-3.3|
82421742|NCT02514746|164553242|OTHER||GMT Ratio (Group A/B)|0.7|||||TWO_SIDED|95.0|0.5|1.0||||||Geometric mean titer ratio 7 days after booster dose||1.0|0.5|
82421743|NCT02514746|164553242|OTHER||GMT Ratio (Group A/B)|0.7|||||TWO_SIDED|95.0|0.6|0.9||||||Geometric mean titer ratio 28 days after booster dose||0.9|0.6|
82421744|NCT02514746|164553243|OTHER||Difference (Group A - B)|-2.9|||||TWO_SIDED|95.0|-8.0|4.5||||||Difference at 7 days post booster vaccination||4.5|-8.0|
82421745|NCT02514746|164553243|OTHER||Difference (Group A - B)|-1.8|||||TWO_SIDED|95.0|-4.4|3.0||||||Difference at 28 days post booster vaccination||3.0|-4.4|
82421746|NCT03996395|164553270|OTHER||Descriptive statistic|71.0|STANDARD_DEVIATION|23.0|||TWO_SIDED|||||||||||||
82421747|NCT02691494|164553335|SUPERIORITY||Odds Ratio (OR)|28.73|||<|0.001|TWO_SIDED|95.0|12.248|67.387||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||67.387|12.248|< 0.001
82421748|NCT02691494|164553335|SUPERIORITY||Odds Ratio (OR)|28.31|||<|0.001|TWO_SIDED|95.0|13.042|61.431||The P value for test of difference is by pooling the results from a logistic regression model including treatment as the main effect and baseline MBL volume as a covariate in each data set from multiple imputation.|Regression, Logistic|||||61.431|13.042|< 0.001
82421749|NCT02691494|164553336|SUPERIORITY||LS Mean of Difference|-194.5|STANDARD_ERROR_OF_MEAN|21.7|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
82421750|NCT02691494|164553336|SUPERIORITY||LS Mean of Difference|-164.6|STANDARD_ERROR_OF_MEAN|18.87|<|0.001|TWO_SIDED|||||The P value for test of difference between each elagolix treatment group and placebo is by pooling the results from an ANCOVA model with treatment as the main effect and baseline MBL volume as a covariate in each dataset from multiple imputation.|ANCOVA|||||||< 0.001
82421751|NCT02691494|164553337|SUPERIORITY||Between-Group Difference (%)|84.2|||<|0.001|TWO_SIDED|95.0|75.99|92.37||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||92.37|75.99|< 0.001
82421752|NCT02691494|164553337|SUPERIORITY||Between-Group Difference (%)|56.3|||<|0.001|TWO_SIDED|95.0|47.77|64.91||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||64.91|47.77|< 0.001
82421753|NCT02691494|164553338|SUPERIORITY||LS Mean of Difference|-252.3|STANDARD_ERROR_OF_MEAN|24.53|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421754|NCT02691494|164553338|SUPERIORITY||LS Mean of Difference|-226.6|STANDARD_ERROR_OF_MEAN|20.5|<|0.001|TWO_SIDED|||||The P value is from mixed models repeated measures (MMRM) with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421755|NCT02691494|164553339|SUPERIORITY||LS Mean of Difference|-196.9|STANDARD_ERROR_OF_MEAN|16.66|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421756|NCT02691494|164553339|SUPERIORITY||LS Mean of Difference|-186.1|STANDARD_ERROR_OF_MEAN|14.18|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421757|NCT02691494|164553340|SUPERIORITY||Between-Group Difference (%)|19.2||||0.146|TWO_SIDED|95.0|-5.99|44.32||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||44.32|-5.99|0.146
82421758|NCT02691494|164553340|SUPERIORITY||Between-Group Difference (%)|29.2||||0.017|TWO_SIDED|95.0|7.62|50.71||The P value is calculated based on chi-square test (or Fisher's exact test if ≥ 20% of the cells have expected cell count \< 5).|chi-square or Fisher's exact test|||||50.71|7.62|0.017
82421759|NCT02691494|164553341|SUPERIORITY||LS Mean of Difference|-194.5|STANDARD_ERROR_OF_MEAN|20.56|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421760|NCT02691494|164553341|SUPERIORITY||LS Mean of Difference|-125.0|STANDARD_ERROR_OF_MEAN|17.55|<|0.001|TWO_SIDED|||||The P value is from MMRM with treatment, month, and an interaction between treatment and month as fixed effect factors, and baseline MBL volume as a covariate comparing each elagolix treatment group with placebo.|mixed model repeated measures|||||||< 0.001
82421761|NCT02657356|164553358|SUPERIORITY||LS Mean difference (Net)|-12.86|STANDARD_ERROR_OF_MEAN|7.012||0.0683|TWO_SIDED|95.0|-26.69|0.98|||Mixed Models Analysis|Covariates: screening 6MWT, day 1 hemoglobin, treatment grp, # of PAH medications, time, interactions btwn treatment \& time, and screening 6MWT \& time|Difference is bardoxolone methyl - placebo|||0.98|-26.69|0.0683
82421762|NCT02657356|164553359|SUPERIORITY||Hazard Ratio (HR)|1.984||||0.0004|TWO_SIDED|95.0|1.36|2.895|||Chi-squared||Estimated from Cox Regression adjusted by baseline PAH medication status (0-1 vs 2) as the covariate. Hazard ratio \>1 indicates a beneficial effect that favors bardoxolone methyl.|||2.895|1.360|0.0004
82421763|NCT03379870|164553360|SUPERIORITY|Analyzed Consonant Nucleus Consonant (CNC) Word scores obtained 12-months post-activation to evaluate differences between groups. Percent correct data were converted to rationalized arcsine units (RAU) prior to data analysis to control for potential floor or ceiling effects (e.g., scores \<20%).||||||0.768||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.768
82421764|NCT03379870|164553361|SUPERIORITY|Analyzed BKB-SIN scores obtained 12-months post-activation to evaluate differences between groups. Scores range from -6 to +21 and lower scores are better.||||||0.529||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.529
82421765|NCT03379870|164553362|SUPERIORITY|Analyzed SSQ scores obtained pre-operatively and at 12-months post-activation to evaluate benefit of cochlear implantation.||||||0.01||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||.010
82421766|NCT03379870|164553363|SUPERIORITY|Analyzed receptive language scores pre-operatively and 12-months post activation to test for change over time and differences between groups.|||||>|0.069||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||||||>.069
82421767|NCT03379870|164553364|SUPERIORITY|Analyzed articulation scores pre-operative and 12-months post activation to test for change over time and differences between groups.||||||0.02||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|Main effect of test point (pre-operative vs post-activation)||||||.02
82421768|NCT03379870|164553365|SUPERIORITY|Analyzed expressive language scores pre-operatively and 12-months post activation to test for change over time and differences between groups.||||||0.007||||||The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|Main effect of test point (pre-operative vs post activation)||||||.007
82421769|NCT02471144|164553366|SUPERIORITY||Odds Ratio (OR)|25.78|||<|0.0001|TWO_SIDED|95.0|7.08|114.66|||Regression, Logistic|||vs Placebo||114.66|7.08|<.0001
82421770|NCT02471144|164553366|SUPERIORITY||Odds Ratio (OR)|22.65|||<|0.0001|TWO_SIDED|95.0|6.31|98.93|||Regression, Logistic|||vs Placebo||98.93|6.31|<.0001
82421771|NCT02471144|164553367|SUPERIORITY||Odds Ratio (OR)|51.77|||<|0.0001|TWO_SIDED|95.0|10.02|538.64|||Regression, Logistic|||vs Placebo||538.64|10.02|<.0001
82421772|NCT02471144|164553367|SUPERIORITY||Odds Ratio (OR)|32.52|||<|0.0001||95.0|6.48|329.52|||Regression, Logistic|||vs Placebo||329.52|6.48|<.0001
82421773|NCT02471144|164553368|SUPERIORITY||Odds Ratio (OR)|72.5|||<|0.0001|TWO_SIDED|95.0|55.9|84.9|||Regression, Logistic|||vs Placebo||84.9|55.9|<.0001
82534346|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|20.6|||<|0.001|TWO_SIDED|95.0|12.8|28.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||28.5|12.8|<0.001
82647466|NCT03593772|165010347|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00636|STANDARD_ERROR_OF_MEAN|0.002378||0.0079|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Mood as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0079
82421774|NCT02471144|164553368|SUPERIORITY||Odds Ratio (OR)|67.5|||<|0.0001|TWO_SIDED|95.0|50.8|80.9|||Regression, Logistic|||vs Placebo||80.9|50.8|<.0001
82421775|NCT00834574|164553382|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|97.2|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|97.2|
82421776|NCT00834574|164553383|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|101.0|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|101|
82421777|NCT00834574|164553384|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|101.0|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|101|
82421778|NCT04101331|164553404|OTHER|||||||0.051||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.051
82421779|NCT04101331|164553405|OTHER|||||||0.051||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.051
82421780|NCT04101331|164553406|OTHER|||||||0.112||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.112
82421781|NCT04101331|164553408|OTHER|||||||0.537||||||One-sided p-value.|Exact binomial test|Exact binomial test compares versus a proportion of 0.25.||||||0.537
82421782|NCT05796245|164553426|OTHER|Estimation|Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.39|5.2|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||5.20|0.39|
82421783|NCT05796245|164553426|OTHER|Estimation|Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.38|5.34|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||5.34|0.38|
82421784|NCT05796245|164553426|OTHER|Estimation|Risk Difference (RD)|0.04|||||TWO_SIDED|95.0|-0.2|0.11|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.11|-0.20|
82648114|NCT00755937|165011586|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|64.8||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82421785|NCT05796245|164553426|OTHER|Estimation|Cox Proportional Hazard|1.63|||||TWO_SIDED|95.0|0.54|4.9|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||4.90|0.54|
82421786|NCT05796245|164553426|OTHER|Estimation|Risk Ratio (RR)|1.71|||||TWO_SIDED|95.0|0.55|5.26|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||5.26|0.55|
82421787|NCT05796245|164553426|OTHER|Estimation|Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.1|0.39|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.39|-0.10|
82421788|NCT05796245|164553426|OTHER|Estimation|Cox Proportional Hazard|2.44|||||TWO_SIDED|95.0|1.05|5.67|||||Crude Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||5.67|1.05|
82421789|NCT05796245|164553426|OTHER|Estimation|Risk Ratio (RR)|2.47|||||TWO_SIDED|95.0|1.02|5.99|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||5.99|1.02|
82421790|NCT05796245|164553426|OTHER|Estimation|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.06|0.32|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.32|-0.06|
82421791|NCT05796245|164553427|OTHER|Estimation|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.01|0.0|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set Note: Hazard ratio, risk ratio, and risk difference for the Comparative analysis set (IPTW weighted) and for the Comparative matched analysis set could not be calculated. Also, crude hazard ratio and crude risk ratio could not be calculated.||0.00|-0.01|
82421792|NCT05796245|164553428|OTHER|Estimation|Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.12|12.49|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||12.49|0.12|
82421793|NCT05796245|164553428|OTHER|Estimation|Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.12|17.14|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||17.14|0.12|
82421794|NCT05796245|164553428|OTHER|Estimation|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.05|0.01|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.01|-0.05|
82421795|NCT05796245|164553428|OTHER|Estimation|Cox Proportional Hazard|6.12|||||TWO_SIDED|95.0|0.81|45.94|||||Crude Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set Note: Hazard ratio, risk ratio, and risk difference for the comparative matched analysis set could not be calculated.||45.94|0.81|
82421796|NCT05796245|164553428|OTHER|Estimation|Risk Ratio (RR)|7.07|||||TWO_SIDED|95.0|0.93|53.51|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||53.51|0.93|
82421797|NCT05796245|164553428|OTHER|Estimation|Risk Difference (RD)|0.03|||||TWO_SIDED|95.0|-0.04|0.1|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.10|-0.04|
82421798|NCT05796245|164553429|OTHER|Estimation|Cox Proportional Hazard|1.7|||||TWO_SIDED|95.0|0.16|17.61|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||17.61|0.16|
82421799|NCT05796245|164553429|OTHER|Estimation|Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|0.17|19.79|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||19.79|0.17|
82421800|NCT05796245|164553429|OTHER|Estimation|Risk Difference (RD)|0.01|||||TWO_SIDED|95.0|-0.12|0.03|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.03|-0.12|
82421801|NCT05796245|164553429|OTHER|Estimation|Cox Proportional Hazard|2.61|||||TWO_SIDED|95.0|0.15|45.68|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||45.68|0.15|
82421802|NCT05796245|164553429|OTHER|Estimation|Risk Ratio (RR)|2.01|||||TWO_SIDED|95.0|0.12|34.94|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||34.94|0.12|
82421803|NCT05796245|164553429|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.1|0.26|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.26|-0.10|
82448159|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.58|||||TWO_SIDED|95.0|-6.23|9.38||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.38|-6.23|
82534347|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|22.9|||<|0.001|TWO_SIDED|95.0|15.1|30.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||30.8|15.1|<0.001
82421804|NCT05796245|164553429|OTHER|Estimation|Cox Proportional Hazard|2.7|||||TWO_SIDED|95.0|0.37|19.93|||||Crude Hazard Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||19.93|0.37|
82421805|NCT05796245|164553429|OTHER|Estimation|Risk Ratio (RR)|2.66|||||TWO_SIDED|95.0|0.37|19.31|||||Crude Risk Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||19.31|0.37|
82421806|NCT05796245|164553429|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.05|0.1|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.10|-0.05|
82448160|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-10.27|5.27||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.27|-10.27|
82421807|NCT05796245|164553430|OTHER|Estimation|Cox Proportional Hazard|0.18|||||TWO_SIDED|95.0|0.02|1.85|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||1.85|0.02|
82421808|NCT05796245|164553430|OTHER|Estimation|Risk Ratio (RR)|0.19|||||TWO_SIDED|95.0|0.02|1.99|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||1.99|0.02|
82421809|NCT05796245|164553430|OTHER|Estimation|Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.17|0.0|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set, IPTW weighted||0.00|-0.17|
82421810|NCT05796245|164553430|OTHER|Estimation|Cox Proportional Hazard|0.63|||||TWO_SIDED|95.0|0.07|6.0|||||Hazard Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||6.00|0.07|
82421811|NCT05796245|164553430|OTHER|Estimation|Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.08|6.61|||||Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||6.61|0.08|
82421812|NCT05796245|164553430|OTHER|Estimation|Risk Difference (RD)|-0.01|||||TWO_SIDED|95.0|-0.1|0.21|||||Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative matched analysis set||0.21|-0.10|
82421813|NCT05796245|164553430|OTHER|Estimation|Cox Proportional Hazard|2.07|||||TWO_SIDED|95.0|0.28|15.22|||||Crude Hazard Ratio Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||15.22|0.28|
82421814|NCT05796245|164553430|OTHER|Estimation|Risk Ratio (RR)|2.1|||||TWO_SIDED|95.0|0.29|15.08|||||Crude Risk Ratio of Exposed/Reference, where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||15.08|0.29|
82421815|NCT05796245|164553430|OTHER|Estimation|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.05|0.09|||||Crude Risk Difference (Exposed-Reference), where Exposed is Infliximab-Pfizer Biosimilar and Reference is Remicade.|Comparative analysis set||0.09|-0.05|
82421816|NCT01557569|164553451|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.413|||<|0.05|TWO_SIDED||||||Kruskal-Wallis|||Due to skewed data, Kruskal Wallis Test was used.||||<0.05
82421817|NCT02254460|164553458|SUPERIORITY_OR_OTHER||[Treatment difference]|1.74||||0.0944|TWO_SIDED|95.0|0.9|3.34|||ANOVA||Treatment difference from ANOVA of log transformed data. Back transformed data are presented. This therefore represents the iron absorption ratio of the Micronutrient Fortified Drink (Test) to the Non-Fortified Drink (Control).|||3.34|0.90|0.0944
82534348|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|28.8|||<|0.001|TWO_SIDED|95.0|22.1|35.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||35.6|22.1|<0.001
82648115|NCT00755937|165011587|SUPERIORITY_OR_OTHER||Percentage (no inferential test)|72.1||||||||||There were no comparisons between groups as this was a single-arm observational study.||||||||
82448161|NCT01393639|164604464|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-5.95|9.53||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.53|-5.95|
82448162|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.87|||||TWO_SIDED|95.0|-10.89|5.14||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.14|-10.89|
82448163|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.86|||||TWO_SIDED|95.0|-14.8|1.08||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.08|-14.80|
82448164|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.36|||||TWO_SIDED|95.0|-22.34|-6.38||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.38|-22.34|
82448165|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.32|||||TWO_SIDED|95.0|-20.22|-4.41||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-4.41|-20.22|
82448166|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.14|||||TWO_SIDED|95.0|-10.12|5.85||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.85|-10.12|
82448167|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.05|||||TWO_SIDED|95.0|-22.05|-6.04||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.04|-22.05|
82448168|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.26|||||TWO_SIDED|95.0|-9.83|7.3||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.30|-9.83|
82448169|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-18.67|-1.53||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.53|-18.67|
82534349|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|22.1|||<|0.001|TWO_SIDED|95.0|13.6|30.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||30.7|13.6|<0.001
82534350|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|19.0|||<|0.001|TWO_SIDED|95.0|10.5|27.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||27.5|10.5|<0.001
82448170|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.41|||||TWO_SIDED|95.0|-24.01|-6.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.82|-24.01|
82576707|NCT00477490|164863741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.147||||0.5527|TWO_SIDED|95.0|0.729|1.807||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||||1.807|0.729|0.5527
82448171|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.79|||||TWO_SIDED|95.0|-20.33|-3.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.26|-20.33|
82448172|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.98|||||TWO_SIDED|95.0|-14.57|2.62||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.62|-14.57|
82448173|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.37|||||TWO_SIDED|95.0|-23.98|-6.76||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.76|-23.98|
82448174|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-9.49|9.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.03|-9.49|
82534351|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|17.3|||<|0.001|TWO_SIDED|95.0|10.8|23.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||23.8|10.8|<0.001
82534352|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|12.6||||0.002|TWO_SIDED|95.0|4.5|20.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||20.7|4.5|0.002
82448175|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.36|||||TWO_SIDED|95.0|-19.64|-1.08||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.08|-19.64|
82448176|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.57|||||TWO_SIDED|95.0|-24.83|-6.32||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.32|-24.83|
82534353|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|12.1||||0.002|TWO_SIDED|95.0|4.0|20.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||20.1|4.0|0.002
82421818|NCT01149460|164553464|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|111.34|||||TWO_SIDED|90.0|100.54|123.29|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||123.29|100.54|
82421819|NCT01149460|164553465|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|100.01|||||TWO_SIDED|90.0|96.34|103.82|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||103.82|96.34|
82421820|NCT01149460|164553466|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|100.01|||||TWO_SIDED|90.0|96.38|103.78|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||103.78|96.38|
82421821|NCT01149460|164553467|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|103.48|||||TWO_SIDED|90.0|97.87|109.41|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||109.41|97.87|
82421822|NCT01149460|164553468|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means (T/R)|99.2|||||TWO_SIDED|90.0|97.14|101.31|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||101.31|97.14|
82421823|NCT01149460|164553469|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Least Squares Means|99.1|||||TWO_SIDED|90.0|97.04|101.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||101.19|97.04|
82648116|NCT03547531|165011610|OTHER||||||>|0.05|||||||t-test, 2 sided|independent t-test||Null hypothesis: the mean of plaque index between groups are not different|the statistical analysis used in this study is independent t-test|||>0.05
82421824|NCT02943499|164553475|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||To examine between-group differences in pre- vs. post-treatment cue reactivity, the post-treatment PCC BOLD response for the smoking vs neutral contrast was subtracted from the baseline response. The groups were then compared directly on this measure using a t-test.||||0.92
82421825|NCT00839930|164553484|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|93.39||||||90.0|87.33|99.86|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.86|87.33|
82448177|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.34|||||TWO_SIDED|95.0|-20.56|-2.13||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.13|-20.56|
82534354|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|7.2||||0.016|TWO_SIDED|95.0|0.9|13.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||13.5|0.9|0.016
82534355|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|5.2||||0.18|TWO_SIDED|95.0|-2.7|13.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||13.0|-2.7|0.18
82647467|NCT03593772|165010347|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00334|STANDARD_ERROR_OF_MEAN|0.002367||0.1588|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Pain Interference with Stress as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1588
82421826|NCT00839930|164553485|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|96.14||||||90.0|91.04|101.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.52|91.04|
82448178|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.36|||||TWO_SIDED|95.0|-14.61|3.89||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.89|-14.61|
82421827|NCT00839930|164553486|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|96.64||||||90.0|92.13|101.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.37|92.13|
82421828|NCT02500836|164553487|SUPERIORITY||||||<|0.0001||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||<0.0001
82421829|NCT02500836|164553488|SUPERIORITY||||||<|0.0001||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||<0.0001
82421830|NCT01356940|164553494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.586||||0.586|TWO_SIDED||||||Mixed Models Analysis||P values above 0.05 are considered statistically not significant in this study|||||0.586
82421831|NCT02272985|164553502|OTHER||||||=|0.03||||||the p value was calculated|Mixed Models Analysis|||||||=0.03
82421832|NCT02272985|164553503|OTHER|||||||0.001|||||||Mixed Models Analysis|||Left frontal gray matter:||||0.001
82534356|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|7.9||||0.03|TWO_SIDED|95.0|0.3|15.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||15.6|0.3|0.030
82421833|NCT02272985|164553503|OTHER|||||||0.08|||||||Mixed Models Analysis|||Right frontal gray matter:||||0.08
82421834|NCT03533491|164553560|EQUIVALENCE|A test of the null hypothesis that the proportion of participants from pretest to posttest change is equal to zero.|Proportion Difference|0.07|STANDARD_ERROR_OF_MEAN|0.044||0.044|TWO_SIDED||||||t-test, 2 sided||A paired t-test that evaluates whether significant pretest to posttest change in the proportion of users is different from zero.|||||.044
82421835|NCT03533491|164553561|EQUIVALENCE|A test of the null hypothesis that the proportion who use from pretest to posttest is equal to zero.|Proportion Difference|0.035|STANDARD_ERROR_OF_MEAN|0.056||0.532|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether the proportion who use from pretest to posttest change is different from zero.||||||.532
82421836|NCT03533491|164553562|EQUIVALENCE|A test of the null hypothesis that the proportion of participants who use from pretest to posttest is equal to zero.|Proportion Difference|-0.053|STANDARD_ERROR_OF_MEAN|0.058||0.37|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.370
82421837|NCT03533491|164553563|EQUIVALENCE|A test of the null hypothesis that the proportion of participants that use from pretest to posttest is equal to zero.|Proportion Difference|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.02|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether proportion who use from pretest to posttest is different from zero.||||||.020
82421838|NCT03533491|164553564|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.108||0.773|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.773
82421839|NCT03533491|164553565|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.08||0.978|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.978
82421840|NCT03533491|164553566|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.089||0.745|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.745
82421841|NCT03533491|164553567|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.154|STANDARD_ERROR_OF_MEAN|0.101||0.132|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.132
82421842|NCT03533491|164553568|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.111||0.551|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.551
82421843|NCT03533491|164553569|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.255||0.255|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.255
82421844|NCT03533491|164553570|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|||||||A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||
82448179|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-15.88|||||TWO_SIDED|95.0|-25.15|-6.61||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-6.61|-25.15|
82534357|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|13.2|||<|0.001|TWO_SIDED|95.0|6.7|19.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||19.7|6.7|<0.001
82534358|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|11.7||||0.003|TWO_SIDED|95.0|3.7|19.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||19.6|3.7|0.003
82534359|NCT02886728|164766921|SUPERIORITY||Difference in Response Rates|13.0|||<|0.001|TWO_SIDED|95.0|5.1|20.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||20.8|5.1|<0.001
82421845|NCT03533491|164553571|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.091||0.198|TWO_SIDED||||||t-test, 2 sided|||||||.198
82421846|NCT03533491|164553572|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.121||0.77|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.770
82421847|NCT03533491|164553573|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.137||0.834|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.834
82421848|NCT03533491|164553574|EQUIVALENCE|A test of the null hypothesis that the pretest to posttest change is equal to zero.|Mean Difference (Final Values)|-0.096|STANDARD_ERROR_OF_MEAN|0.07||0.175|TWO_SIDED||||||t-test, 2 sided|A paired t-test that evaluates whether significant pretest to posttest change is different from zero.||||||.175
82421849|NCT02489279|164553630|SUPERIORITY|||||||0.026|||||||GLM with repeated measures ANOVA|||We used a General Linear Model (GLM) with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report the Group x Time interaction.||||0.026
82421850|NCT02489279|164553630|SUPERIORITY|||||||0.0075|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.0075
82421851|NCT02489279|164553630|SUPERIORITY|||||||0.25|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.25
82421852|NCT02489279|164553631|SUPERIORITY|||||||0.014|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report the Group x Time interaction.||||0.014
82421853|NCT02489279|164553631|SUPERIORITY|||||||0.0005|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.0005
82421854|NCT02489279|164553631|SUPERIORITY|||||||0.21|||||||t-test, 1 sided|||We then examined the within-subjects factor of Time (Post-Treatment (10 week measure) - Baseline), for each Group, using a 1-tailed t test.||||0.21
82421855|NCT02489279|164553632|SUPERIORITY|||||||1e-06|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report only a main effect of Time.||||0.000001
82534360|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|10.1|||<|0.001|TWO_SIDED|95.0|6.2|13.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||13.9|6.2|<0.001
82421856|NCT02489279|164553633|SUPERIORITY|||||||0.00018|||||||GLM with repeated measures ANOVA|||We used a GLM with time (Baseline and 10 Weeks) as the within subjects factor, experimental group (Active and Control) as the between subjects factor, and a group by time interaction to test for differential treatment effects. We report only a main effect of Time.||||0.00018
82421857|NCT01432444|164553634|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was derived from Exact McNemar test.|McNemar|||Inpatient hospitalization for retrospective period (Months 4-6) and prospective period (Months 4-6) for closed or open unit.||||<.0001
82421858|NCT01432444|164553635|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analyses for Week 4, 12 and 24.||||<.0001
82421859|NCT01432444|164553636|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test, 2 sided|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analyses for Week 4, Week 12 and Week 24.||||<.0001
82421860|NCT01432444|164553637|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from T-test of Mean=0.|t-test, 2 sided|Mean duration was derived as the cumulative duration divided by the number of inpatient non-psychiatric hospitalization.||Statistical analysis for Week 4, 12 and 24.||||<.0001
82421861|NCT01432444|164553638|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Derived from t-test of mean=0.|t-test|||Statistical analysEs for Week 4, 12 and 24.||||<.0001
82421862|NCT00666263|164553655|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squared means|35.13||||0.005|TWO_SIDED|95.0|8.81|61.46|||ANOVA|Fixed effects ANOVA with factors for sequence (1 or 2), nested within sequence, period (Cross-Over Period 1 or 2), \& treatment (IGIV, 10% or placebo)||||61.46|8.81|0.005
82534361|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|6.3||||0.001|TWO_SIDED|95.0|1.7|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||10.9|1.7|0.001
82534362|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|13.3|||<|0.001|TWO_SIDED|95.0|7.7|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||18.9|7.7|<0.001
82448180|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-10.32|8.94||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.94|-10.32|
82448181|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.27|||||TWO_SIDED|95.0|-19.95|-0.59||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-19.95|
82448182|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.7|||||TWO_SIDED|95.0|-29.34|-10.06||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-10.06|-29.34|
82534363|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|20.0|||<|0.001|TWO_SIDED|95.0|14.5|25.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||25.4|14.5|<0.001
82534364|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|11.4|||<|0.001|TWO_SIDED|95.0|4.8|18.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||18.0|4.8|<0.001
82534365|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|9.4|23.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||23.2|9.4|<0.001
82534366|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|24.8|||<|0.001|TWO_SIDED|95.0|18.1|31.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||31.5|18.1|<0.001
82648117|NCT03547531|165011611|OTHER|this data is analyzed using independent t-test|||||>|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of gingival index between groups|this data is analyzed using independent t-test|||>0.05
82421863|NCT00666263|164553656|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
82421864|NCT00666263|164553658|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squared means|32.54|||<|0.001|TWO_SIDED|95.0|14.01|51.06|||ANOVA|||||51.06|14.01|<0.001
82421865|NCT00666263|164553659|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
82421866|NCT00666263|164553663|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|6.03||||0.002|TWO_SIDED|95.0|2.14|9.92|||ANOVA|||||9.92|2.14|0.002
82421867|NCT00666263|164553665|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-15.57|||<|0.001|TWO_SIDED|95.0|-24.37|-6.77|||ANOVA|||||-6.77|-24.37|<0.001
82421868|NCT00666263|164553667|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-26.11|||<|0.001|TWO_SIDED|95.0|-38.96|-13.26|||ANOVA|||||-13.26|-38.96|<0.001
82421869|NCT00666263|164553669|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squared Means|-216.6||||0.059|TWO_SIDED|95.0|-490.41|57.22|||ANOVA|||||57.22|-490.41|0.059
82421870|NCT00666263|164553671|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|ONE_SIDED|95.0|||||McNemar|||||||<0.001
82421871|NCT00666263|164553672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021||95.0|||||McNemar|||||||0.021
82421872|NCT00586157|164553683|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Z-test|||||||<.001
82421873|NCT00586157|164553684|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Z-test|||||||.001
82421874|NCT00586157|164553685|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Z-test|||||||.003
82421875|NCT00062764|164553690|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||paired t-test|||||||0.004
82421876|NCT02014467|164553691|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.42|||<|0.0001|TWO_SIDED|95.0|3.67|5.18|||ANCOVA|||||5.18|3.67|<0.0001
82421877|NCT02014467|164553691|SUPERIORITY_OR_OTHER|||||||0.7495||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.7495
82421878|NCT02014467|164553692|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.21|||<|0.0001|TWO_SIDED|95.0|2.45|3.96|||ANCOVA|||||3.96|2.45|<0.0001
82421879|NCT02014467|164553692|SUPERIORITY_OR_OTHER|||||||0.9029||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.9029
82421880|NCT02014467|164553693|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26|||<|0.0001|TWO_SIDED|95.0|1.72|2.8|||ANCOVA|||||2.80|1.72|<0.0001
82448183|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.65|||||TWO_SIDED|95.0|-22.25|-3.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-3.04|-22.25|
82448184|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.6|||||TWO_SIDED|95.0|-17.24|2.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.04|-17.24|
82448185|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.34|||||TWO_SIDED|95.0|-28.99|-9.68||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-9.68|-28.99|
82534367|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|16.1|||<|0.001|TWO_SIDED|95.0|7.7|24.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||24.5|7.7|<0.001
82534368|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|17.3|||<|0.001|TWO_SIDED|95.0|9.0|25.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||25.7|9.0|<0.001
82534369|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|15.9|||<|0.001|TWO_SIDED|95.0|8.9|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||22.8|8.9|<0.001
82534370|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|11.3||||0.006|TWO_SIDED|95.0|2.7|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||20.0|2.7|0.006
82647468|NCT03593772|165010348|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00974|STANDARD_ERROR_OF_MEAN|0.01379||0.4808|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PCL-5 Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4808
82421881|NCT02014467|164553693|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.1070
82421882|NCT02014467|164553694|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.59|||<|0.0001|TWO_SIDED|95.0|0.98|2.2|||ANCOVA|||||2.20|0.98|<0.0001
82421883|NCT02014467|164553694|SUPERIORITY_OR_OTHER|||||||0.4369||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.4369
82421884|NCT02014467|164553695|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.36|||<|0.0001||95.0|2.39|4.32|||ANCOVA|||||4.32|2.39|<0.0001
82421885|NCT02014467|164553695|SUPERIORITY_OR_OTHER|||||||0.6082||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.6082
82421886|NCT02014467|164553696|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.31|||<|0.0001|TWO_SIDED|95.0|2.74|3.88|||ANCOVA|||||3.88|2.74|<0.0001
82421887|NCT02014467|164553696|SUPERIORITY_OR_OTHER|||||||0.3513||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.3513
82421888|NCT02014467|164553697|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.62|||<|0.0001|TWO_SIDED|95.0|1.96|3.27|||ANCOVA|||||3.27|1.96|<0.0001
82421889|NCT02014467|164553697|SUPERIORITY_OR_OTHER|||||||0.541||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.5410
82421890|NCT02014467|164553698|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.72|||<|0.0001|TWO_SIDED|95.0|3.71|5.72|||ANCOVA|||||5.72|3.71|<0.0001
82421891|NCT02014467|164553698|SUPERIORITY_OR_OTHER|||||||0.3957||95.0||||Treatment By Region Interaction: Based on ANCOVA, Percent change from Baseline = Baseline + treatment + region + treatment by region|ANCOVA|||||||0.3957
82421892|NCT02014467|164553699|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-56.92|||<|0.0001|TWO_SIDED|95.0|-61.38|-52.65||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-CTX at Month 6|||-52.65|-61.38|<0.0001
82421893|NCT02014467|164553699|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-52.56|||<|0.0001||95.0|-59.38|-46.17||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-CTX at Month 12|||-46.17|-59.38|<0.0001
82421894|NCT02014467|164553700|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-56.94|||<|0.0001|TWO_SIDED|95.0|-61.6|-52.7||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-PINP at Month 6|||-52.70|-61.60|<0.0001
82421895|NCT02014467|164553700|SUPERIORITY_OR_OTHER||Hodges Lehmann Estimate of Difference|-51.21|||<|0.0001|TWO_SIDED|95.0|-56.26|-45.91||Two-Sided, Wilcoxon t Approximation|Wilcoxon Rank Sum test||s-PINP at Month 12|||-45.91|-56.26|<0.0001
82421896|NCT03802916|164553722|SUPERIORITY|||||||0.0074||||||A p-value was calculated for the one-sample proportion test.|One-sample proportion test|||One-sample proportion test to determine if the overall preference for deferiprone DR was greater than chance (i.e., a 50% preference for each formulation)||||0.0074
82421897|NCT03802916|164553722|SUPERIORITY|||||||0.0002||||||A p-value was calculated for the one-sample proportion test.|One-sample proportion test|||One-sample proportion test to determine if the overall preference for deferiprone DR was greater than chance (i.e., a 50% preference for each formulation)||||0.0002
82421898|NCT02069847|164553723|SUPERIORITY|||||||0.992|||||||ANOVA|||||||0.992
82421899|NCT02069847|164553724|SUPERIORITY|||||||0.531|||||||t-test, 2 sided|||Total number of budesonide subjects with 50% or greater esophageal stricture (N=4) vs total number of control subjects with 50% or greater esophageal structure (N=15)||||0.531
82421900|NCT00831389|164553728|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median change in PG concentration due to exercise for the OL and CL study phases do not differ.||||0.791
82421901|NCT00831389|164553729|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of hypoglycemic events immediately following exercise for the OL and CL study phases do not differ.||||0.5
82421902|NCT00831389|164553730|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of nocturnal hypoglycemic events following exercise for the OL and CL study phases do not differ.||||0.25
82421903|NCT00831389|164553731|SUPERIORITY_OR_OTHER|||||||0.0669||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median peak post-prandial PG for the OL and CL study phases do not differ.||||0.0669
82421904|NCT00831389|164553732|SUPERIORITY_OR_OTHER|||||||0.2256||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median nadir PG immediately following exercise for the OL and CL study phases do not differ.||||0.2256
82534371|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|12.4||||0.002|TWO_SIDED|95.0|3.9|21.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||21.0|3.9|0.002
82534372|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|12.0|||<|0.001|TWO_SIDED|95.0|5.1|19.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||19.0|5.1|<0.001
82647469|NCT03593772|165010349|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00033|STANDARD_ERROR_OF_MEAN|0.00856||0.9692|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Physical Health Domain Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9692
82647470|NCT03593772|165010349|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.01738|STANDARD_ERROR_OF_MEAN|0.007848||0.0277|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Mental Health Domain Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0277
82647471|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00188|STANDARD_ERROR_OF_MEAN|0.003253||0.5642|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total PSQI Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.5642
82648118|NCT03547531|165011612|OTHER|this data is analyzed using independent t-test|||||<|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of plaque index between groups|this data is analyzed using independent t-test|||<0.05
82421905|NCT00831389|164553733|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median overnight nadir PG for the OL and CL arms do not differ.||||0.791
82421906|NCT00831389|164553734|SUPERIORITY_OR_OTHER|||||||0.2036||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is within euglycemic range for the OL and CL phases do not differ.||||0.2036
82421907|NCT00831389|164553735|SUPERIORITY_OR_OTHER|||||||0.6221||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is above euglycemic range for the OL and CL phases do not differ.||||0.6221
82421908|NCT00831389|164553736|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median percentage of time PG is below euglycemic range for the OL and CL phases do not differ.||||0.021
82421909|NCT00831389|164553737|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||p \< 0.05 is considered significant.|Wilcoxon (Mann-Whitney)|||Null hypothesis: Median tally of hypoglycemic events over 48 hour in-patient period for the OL and CL phases do not differ.||||0.0176
82534373|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|7.0||||0.09|TWO_SIDED|95.0|-1.7|15.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||15.7|-1.7|0.090
82648119|NCT03547531|165011613|OTHER|this data is analyzed using independent t-test|||||<|0.05|||||||t-test, 2 sided|||null hypotesis: there is no difference of mean of gingival index between groups|this data is analyzed using independent t-test|||<0.05
82448186|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.17|||||TWO_SIDED|95.0|3.18|19.16||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||19.16|3.18|
82534374|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|10.0||||0.014|TWO_SIDED|95.0|1.4|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||18.6|1.4|0.014
82421910|NCT01592747|164553768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.659|TWO_SIDED|95.0|0.7|1.8|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test was performed controlling for Autism Spectrum Disorder (ASD) subtype. Odds ratio was calculated for placebo vs. memantine full dose.||1.8|0.7|0.6590
82534375|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|13.9|||<|0.001|TWO_SIDED|95.0|7.0|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||20.9|7.0|<0.001
82421911|NCT01592747|164553768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7839|TWO_SIDED|95.0|0.7|1.7|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test was performed controlling for Autism Spectrum Disorder (ASD) subtype. Odds ratio was calculated for placebo vs. Memantine reduced dose||1.7|0.7|0.7839
82421912|NCT01592747|164553770|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.8136|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.8136
82421913|NCT01592747|164553770|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9244|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.9244
82421914|NCT01592747|164553771|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.7611|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|||||0.7|-0.5|0.7611
82421915|NCT01592747|164553771|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.3176|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.3176
82421916|NCT01592747|164553772|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.902|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.9020
82421917|NCT01592747|164553772|SUPERIORITY_OR_OTHER||Least squares mean difference|0.4||||0.1279|TWO_SIDED|95.0|-0.1|1.0|||ANCOVA|||||1.0|-0.1|0.1279
82448187|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.19|||||TWO_SIDED|95.0|-0.78|15.15||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||15.15|-0.78|
82647472|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00092|STANDARD_ERROR_OF_MEAN|0.00079||0.2438|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Subjective Sleep Quality Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2438
82648120|NCT03944707|165011614|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|0.0698||0.6643|TWO_SIDED|80.0|-0.06|0.119||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.119|-0.060|0.6643
82421918|NCT01592747|164553773|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4144|TWO_SIDED|95.0|-0.4|1.1|||ANCOVA|||||1.1|-0.4|0.4144
82421919|NCT01592747|164553773|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4212|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4212
82421920|NCT01592747|164553774|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.6238|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.6238
82421921|NCT01592747|164553774|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||0.5957|TWO_SIDED|95.0|-0.5|0.9|||ANCOVA|||||0.9|-0.5|0.5957
82421922|NCT01592747|164553775|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1||||0.864|TWO_SIDED|95.0|-0.6|0.7|||ANCOVA|||||0.7|-0.6|0.8640
82421923|NCT01592747|164553775|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4362|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|||||0.9|-0.4|0.4362
82421924|NCT01592747|164553776|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.7182|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|0.7182
82534376|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|11.1||||0.008|TWO_SIDED|95.0|2.5|19.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||19.7|2.5|0.008
82421925|NCT01592747|164553776|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.839|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA|||||0.6|-0.8|0.8390
82421926|NCT01592747|164553777|SUPERIORITY_OR_OTHER||Least squares mean difference|0.7||||0.0813|TWO_SIDED|95.0|-0.1|1.4|||ANCOVA|||||1.4|-0.1|0.0813
82421927|NCT01592747|164553777|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4365|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4365
82421928|NCT01592747|164553778|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4213|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4213
82421929|NCT01592747|164553778|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.4267|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.4267
82421930|NCT01592747|164553779|SUPERIORITY_OR_OTHER||Least squares mean difference|0.3||||0.3713||95.0|-0.4|1.0|||ANCOVA|||||1.0|-0.4|0.3713
82421931|NCT01592747|164553779|SUPERIORITY_OR_OTHER||Least squares mean difference|0.4||||0.2855|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.2855
82534377|NCT02886728|164766922|SUPERIORITY||Difference in Response Rates|13.1||||0.001|TWO_SIDED|95.0|4.6|21.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||21.6|4.6|0.001
82421932|NCT01946880|164553807|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|-0.068|0.214||||||||0.214|-0.068|
82421933|NCT01946880|164553809|OTHER||Risk Difference (RD)|0.08|||||TWO_SIDED|95.0|-0.116|0.279||||||||0.279|-0.116|
82421934|NCT01946880|164553810|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.091|0.36||||||||0.360|-0.091|
82421935|NCT01946880|164553811|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|-0.07|||||TWO_SIDED|95.0|-0.475|0.333||||||||0.333|-0.475|
82421936|NCT01946880|164553812|OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|95.0|-0.286|0.249||||||The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.||0.249|-0.286|
82421937|NCT01946880|164553813|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-0.09|0.497||||||||0.497|-0.090|
82421938|NCT01946880|164553814|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.08|||||TWO_SIDED|95.0|-0.056|0.211||||||||0.211|-0.056|
82421939|NCT01946880|164553815|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.12|||||TWO_SIDED|95.0|-0.041|0.284||||||||0.284|-0.041|
82421940|NCT01946880|164553816|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|-0.04|||||TWO_SIDED|95.0|-0.285|0.206||||||||0.206|-0.285|
82421941|NCT01946880|164553817|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.09|||||TWO_SIDED|95.0|-0.118|0.289||||||||0.289|-0.118|
82421942|NCT01946880|164553818|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.05|||||TWO_SIDED|95.0|-0.103|0.212||||||||0.212|-0.103|
82421943|NCT01946880|164553821|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.06|||||TWO_SIDED|95.0|-0.028|0.149||||||||0.149|-0.028|
82421944|NCT01946880|164553822|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.06|||||TWO_SIDED|95.0|-0.02|0.134||||||||0.134|-0.020|
82448188|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-8.28|7.65||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.65|-8.28|
82448189|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.73|||||TWO_SIDED|95.0|-6.14|9.61||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.61|-6.14|
82448190|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.11|||||TWO_SIDED|95.0|5.51|22.71||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||22.71|5.51|
82448191|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.27|||||TWO_SIDED|95.0|-3.38|13.92||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.92|-3.38|
82448192|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-8.68|8.59||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.59|-8.68|
82448193|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.58|||||TWO_SIDED|95.0|-4.99|12.15||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||12.15|-4.99|
82534378|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|2.4||||0.018|TWO_SIDED|95.0|0.3|4.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||4.5|0.3|0.018
82534379|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|1.2||||0.17|TWO_SIDED|95.0|-1.2|3.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||3.6|-1.2|0.17
82534380|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|3.6||||0.004|TWO_SIDED|95.0|0.3|6.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||6.8|0.3|0.004
82421945|NCT01946880|164553823|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 24.||0.1|-0.1|
82421946|NCT01946880|164553823|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 48.||0.1|-0.1|
82448194|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.65|||||TWO_SIDED|95.0|6.38|24.93||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||24.93|6.38|
82448195|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.53|||||TWO_SIDED|95.0|-3.81|14.86||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||14.86|-3.81|
82448196|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-8.97|9.59||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.59|-8.97|
82448197|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.54|||||TWO_SIDED|95.0|-4.69|13.77||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||13.77|-4.69|
82534381|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|9.1|||<|0.001|TWO_SIDED|95.0|5.2|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||13.1|5.2|<0.001
82534382|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|2.4||||0.18|TWO_SIDED|95.0|-1.7|6.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||6.6|-1.7|0.18
82534383|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|7.6|||<|0.001|TWO_SIDED|95.0|2.5|12.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||12.6|2.5|<0.001
82534384|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|19.7|||<|0.001|TWO_SIDED|95.0|13.9|25.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||25.5|13.9|<0.001
82534385|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|6.6|21.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||21.1|6.6|<0.001
82534386|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|15.8|||<|0.001|TWO_SIDED|95.0|8.5|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||23.1|8.5|<0.001
82534387|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|17.8|||<|0.001|TWO_SIDED|95.0|11.2|24.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||24.4|11.2|<0.001
82534388|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|5.9|22.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||22.4|5.9|<0.001
82647473|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000304|STANDARD_ERROR_OF_MEAN|0.000885||0.7317|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep latency Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7317
82647474|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00062|STANDARD_ERROR_OF_MEAN|0.001327||0.6393|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep duration Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6393
82648121|NCT03944707|165011618|SUPERIORITY||Median Difference (Net)|-0.09|STANDARD_DEVIATION|0.21||0.6609|TWO_SIDED|80.0|-0.35|0.18||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.18|-0.35|0.6609
82421947|NCT01946880|164553823|OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.1|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the SLICC/DI score between the treatment groups at Week 60.||0.1|-0.2|
82448198|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.65|||||TWO_SIDED|95.0|9.03|28.27||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||28.27|9.03|
82534389|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|14.0|||<|0.001|TWO_SIDED|95.0|5.8|22.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||22.2|5.8|<0.001
82421948|NCT01946880|164553824|OTHER|The estimated risk difference (i.e. risk(MMF Withdrawal) - risk(MMF Maintenance)) and 95% confidence intervals around the risk difference at Week 60 were reported using the Kaplan-Meier product-limit estimator.|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.019|0.059||||||||0.059|-0.019|
82421949|NCT01946880|164553826|OTHER||Mean Difference (Final Values)|1.61|||||TWO_SIDED|95.0|-2.24|5.45|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 24.||5.45|-2.24|
82534390|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|13.7|||<|0.001|TWO_SIDED|95.0|6.9|20.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||20.5|6.9|<0.001
82534391|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|5.0||||0.2|TWO_SIDED|95.0|-3.3|13.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||13.3|-3.3|0.20
82534392|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|7.3||||0.056|TWO_SIDED|95.0|-1.0|15.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||15.7|-1.0|0.056
82534393|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|18.0|||<|0.001|TWO_SIDED|95.0|11.3|24.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||24.8|11.3|<0.001
82534394|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|10.3||||0.01|TWO_SIDED|95.0|1.9|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||18.6|1.9|0.010
82534395|NCT02886728|164766923|SUPERIORITY||Difference in Response Rates|15.4|||<|0.001|TWO_SIDED|95.0|7.0|23.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||23.8|7.0|<0.001
82534396|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.031|<|0.001|TWO_SIDED|95.0|-0.29|-0.17||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.17|-0.29|<0.001
82534397|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.038|<|0.001|TWO_SIDED|95.0|-0.28|-0.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.13|-0.28|<0.001
82534398|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.038|<|0.001|TWO_SIDED|95.0|-0.24|-0.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.09|-0.24|<0.001
82421950|NCT01946880|164553826|OTHER||Mean Difference (Final Values)|2.54|||||TWO_SIDED|95.0|-1.13|6.21|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 48.||6.21|-1.13|
82421951|NCT01946880|164553826|OTHER||Mean Difference (Final Values)|3.55|||||TWO_SIDED|95.0|-0.17|7.28|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the FACIT fatigue score between the treatment groups at Week 60.||7.28|-0.17|
82421952|NCT01946880|164553827|OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-1.82|2.92|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 24.||2.92|-1.82|
82421953|NCT01946880|164553827|OTHER||Mean Difference (Final Values)|1.44|||||TWO_SIDED|95.0|-1.14|4.03|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 48.||4.03|-1.14|
82421954|NCT01946880|164553827|OTHER||Mean Difference (Final Values)|1.98|||||TWO_SIDED|95.0|-0.71|4.67|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PF score between the treatment groups at Week 60.||4.67|-0.71|
82421955|NCT01946880|164553828|OTHER||Mean Difference (Final Values)|1.65|||||TWO_SIDED|95.0|-1.03|4.32|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 24.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 24.||4.32|-1.03|
82421956|NCT01946880|164553828|OTHER||Mean Difference (Final Values)|2.17|||||TWO_SIDED|95.0|-0.69|5.02|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 48.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 48.||5.02|-0.69|
82448199|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.07|||||TWO_SIDED|95.0|-0.64|18.78||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||18.78|-0.64|
82421957|NCT01946880|164553828|OTHER||Mean Difference (Final Values)|3.02|||||TWO_SIDED|95.0|0.22|5.82|||||Estimate is for the difference in the change from baseline for MMF Withdrawal - MMF Maintenance at Week 60.|Descriptive statistics (mean and 95% confidence interval) are reported for the difference in the change from baseline in the PCS score between the treatment groups at Week 60.||5.82|0.22|
82534399|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.035|<|0.001|TWO_SIDED|95.0|-0.35|-0.22||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.22|-0.35|<0.001
82421958|NCT00928720|164553843|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.045|TWO_SIDED||||||Mixed Models Analysis|||||||0.045
82421959|NCT03715829|164553858|SUPERIORITY||Least Squares Mean Difference (Net)|-23.2|STANDARD_ERROR_OF_MEAN|5.62|<|0.0001|TWO_SIDED|90.0|-32.53|-13.96||Hochberg's step-up procedure was conducted to compare ritlecitinib 200mg - 50mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-13.96|-32.53|<0.0001
82421960|NCT03715829|164553858|SUPERIORITY||Least Squares Mean Difference (Net)|-23.2|STANDARD_ERROR_OF_MEAN|5.63|<|0.0001|TWO_SIDED|90.0|-32.53|-13.93||Hochberg's step-up procedure was conducted to compare ritlecitinib 100mg - 50mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-13.93|-32.53|<0.0001
82448200|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-10.0|9.28||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.28|-10.00|
82421961|NCT03715829|164553858|SUPERIORITY||Least Squares Mean Difference (Net)|-20.6|STANDARD_ERROR_OF_MEAN|5.84||0.0003|TWO_SIDED|90.0|-30.23|-10.93||Hochberg's step-up procedure was conducted to compare the ritlecitinib 50 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. Hochberg adjusted p-value is presented here.|ANCOVA|||||-10.93|-30.23|0.0003
82421962|NCT03715829|164553858|SUPERIORITY||Least Squares Mean Difference (Net)|-16.7|STANDARD_ERROR_OF_MEAN|6.71||0.0068|TWO_SIDED|90.0|-27.77|-5.61||Hochberg's step-up procedure was conducted to compare the ritlecitinib 30 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. One-sided unadjusted p-value is presented here.|ANCOVA|||||-5.61|-27.77|0.0068
82421963|NCT03715829|164553858|SUPERIORITY||Least Squares Mean Difference (Net)|-5.1|STANDARD_ERROR_OF_MEAN|6.03||0.2015|TWO_SIDED|90.0|-15.02|4.91||Hochberg's step-up procedure was conducted to compare the ritlecitinib 10 mg QD dose group vs placebo using observed p-values. The familywise Type 1 error rate was controlled at one-sided 0.05. One-sided unadjusted p-value is presented here.|ANCOVA|||||4.91|-15.02|0.2015
82421964|NCT03647137|164553891|OTHER||Standardized β Coefficient|-2.256||||0.00468|TWO_SIDED|||||The p-value is derived from model comparison between the FEOVB model and the FEOVB\*PIB interaction model.|ChiSq Goodness of Fit Test|||L-DOPA sensitivity outcome measure was modeled with 3-level hierarchical ordinal logistic regression. The null model contained only striatal DTBZ as predictor of group, the FEOVB model additionally had FEOVB tracer, and interaction model had in addition an interaction term between FEOVB and PIB tracer. Model comparisons were performed using Chi-Square goodness of fit test.||||0.00468
82421965|NCT02034565|164553902|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.977|||||TWO_SIDED|90.0|0.756|1.261||||||||1.261|0.756|
82421966|NCT02034565|164553903|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.05|||||TWO_SIDED|90.0|0.938|1.176||||||||1.176|0.938|
82421967|NCT02034565|164553904|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|1.043|||||TWO_SIDED|90.0|0.933|1.167||||||||1.167|0.933|
82421968|NCT01603368|164553924|OTHER|Student's t-test|||||=|0.001|||||||t-test, 2 sided|||||||=0.001
82421969|NCT01813357|164553934|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.684|TWO_SIDED||||||Mixed Models Analysis|||||||0.684
82421970|NCT03773562|164553936|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Responders vs Non-responders||||0.04
82421971|NCT03773562|164553938|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Responders vs Non-Responders||||0.002
82421972|NCT03773562|164553939|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Responders vs Non-responders||||0.01
82421973|NCT03773562|164553941|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
82421974|NCT03773562|164553942|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
82421975|NCT03773562|164553943|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Responder vs non-responder||||0.0003
82421976|NCT03773562|164553944|SUPERIORITY|||||||0.0033|||||||t-test, 2 sided|||Responder vs non-responder||||0.0033
82421977|NCT03773562|164553945|SUPERIORITY|||||||0.0041|||||||t-test, 2 sided|||Responder vs non-responder||||0.0041
82421978|NCT03773562|164553946|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Responder vs non-responder||||0.0046
82421979|NCT03131479|164553947|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-9.21||||0.154|TWO_SIDED|90.0|-19.88|1.45|||Regression, Logistic|An unstructured variance-covariance structure was used. Baseline is defined to be the measurement collected on Day -1.||||1.45|-19.88|0.154
82421980|NCT03131479|164553947|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-6.05||||0.343|TWO_SIDED|90.0|-16.65|4.55|||Regression, Logistic|||||4.55|-16.65|0.343
82421981|NCT03131479|164553947|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-21.5||||0.001|TWO_SIDED|90.0|-31.79|4.55|||Regression, Logistic|||||4.55|-31.79|0.001
82534400|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.043|<|0.001|TWO_SIDED|95.0|-0.23|-0.06||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.06|-0.23|<0.001
82421982|NCT03131479|164553947|EQUIVALENCE|Change from baseline was analyzed using a repeated measures model which included diabetic status, renal function, day and renal function\*day and diabetic status\*day as fixed factors and age, baseline body weight and baseline fasting plasma glucose as covariates.|adjusted arithmetic mean difference|-35.6||||0|TWO_SIDED|90.0|-46.0|-25.11|||Regression, Logistic|||||-25.11|-46.00|0.000
82421983|NCT01272219|164553957|SUPERIORITY_OR_OTHER||Estimated mean difference|-5.39|||<|0.0001|TWO_SIDED|95.0|-5.82|-4.95|||ANCOVA||ANCOVA model with treatment, country, sex, pre-diabetes status at screening, baseline BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss, if the estimated treatment effect (liraglutide 3.0 mg - liraglutide placebo) was statistically significantly smaller than zero.||-4.95|-5.82|<0.0001
82534401|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.042|<|0.001|TWO_SIDED|95.0|-0.29|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.29|<0.001
82421984|NCT01272219|164553958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|4.12|5.6|||Regression, Logistic||The model included treatment, country, sex, pre-diabetes status at screening, BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss as assessed by the proportion of subjects losing ≥5% of their fasting baseline weight, if the estimated odds ratio (liraglutide 3.0 mg/liraglutide placebo) was statistically significantly greater than one.||5.60|4.12|<0.0001
82421985|NCT01272219|164553959|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.34|||<|0.0001|TWO_SIDED|95.0|3.54|5.32|||Regression, Logistic||The model included treatment, country, sex, pre-diabetes status at screening, BMI stratum and an interaction between pre-diabetes status at screening and BMI stratum as fixed factors, and the baseline value as covariate.|Null-hypothesis: no treatment difference between treatment arms, i.e. liraglutide 3.0 mg and liraglutide placebo. Liraglutide 3.0 mg was considered superior to placebo in inducing and maintaining weight loss as assessed by the proportion of subjects losing \>10% of their fasting baseline weight, if the estimated odds ratio (liraglutide 3.0 mg/liraglutide placebo) was statistically significantly greater than one.||5.32|3.54|<0.0001
82421986|NCT01272219|164553960|SUPERIORITY_OR_OTHER||Treatment estimate|2.681|||<|0.0001|TWO_SIDED|95.0|1.856|3.872|||Weibull analysis||The treatment estimate was the factor that the time to event is multiplied with for liraglutide 3.0 mg compared to placebo.|If the estimated time-to-event ratio (liraglutide 3.0 mg/ placebo), as assessed by the survival endpoint describing the time until onset of T2DM ('diabetes-free time'), is statistically significantly \>1, then liraglutide 3.0 mg was to be considered superior to placebo in delaying the onset of T2DM in subjects with pre-diabetes at baseline. Weibull model was used; included treatment, sex and BMI stratification factor as fixed factors and baseline FPG as a covariate.||3.872|1.856|<.0001
82421987|NCT04003389|164553987|SUPERIORITY||LSMean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.0604|TWO_SIDED|95.0|-0.36|0.21||LSM, SE, CI, \& p-values come from an analysis of covariance (ANCOVA) model with change from baseline at Week 52 timepoint as response, treatment \& smoking status (current vs former/never) as fixed effects with baseline weight \& baseline as covariate.|ANCOVA|||LSMeans (LSM), standard errors (SE), confidence intervals (CI)||0.21|-0.36|0.0604
82421988|NCT04003389|164553987|SUPERIORITY||LSMean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.45|0.11||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.11|-0.45|0.239
82647475|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00112|STANDARD_ERROR_OF_MEAN|0.000873||0.1995|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep efficiency Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1995
82421989|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.007|STANDARD_ERROR_OF_MEAN|0.003||0.029|TWO_SIDED|95.0|0.001|0.014||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.014|0.001|0.029
82421990|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.001|STANDARD_ERROR_OF_MEAN|0.003||0.867|TWO_SIDED|95.0|-0.006|0.007||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.007|-0.006|0.867
82421991|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.006|STANDARD_ERROR_OF_MEAN|0.003||0.027|TWO_SIDED|95.0|0.001|0.012||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.012|0.001|0.027
82448201|NCT01393639|164604466|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.69|||||TWO_SIDED|95.0|-2.91|16.29||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||16.29|-2.91|
82648122|NCT03944707|165011619|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|7.13||0.5107|TWO_SIDED|80.0|-9.0|9.1||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in mean morning PEF||9.1|-9.0|0.5107
82421992|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.002|STANDARD_ERROR_OF_MEAN|0.003||0.41|TWO_SIDED|95.0|-0.003|0.008||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.008|-0.003|0.410
82421993|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.005|STANDARD_ERROR_OF_MEAN|0.003||0.087||95.0|-0.001|0.011||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.011|-0.001|0.087
82421994|NCT04003389|164553989|SUPERIORITY||LSMean difference|0.003|STANDARD_ERROR_OF_MEAN|0.003||0.259||95.0|-0.002|0.009||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.009|-0.002|0.259
82448202|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.37|-0.02||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.02|-0.37|
82421995|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.048|STANDARD_ERROR_OF_MEAN|0.027||0.079|TWO_SIDED|95.0|-0.006|0.102||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.102|-0.006|0.079
82421996|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.001|STANDARD_ERROR_OF_MEAN|0.027||0.98|TWO_SIDED|95.0|-0.052|0.053||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femoral Neck)||0.053|-0.052|0.980
82421997|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.048|STANDARD_ERROR_OF_MEAN|0.023||0.042||95.0|0.002|0.094||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.094|0.002|0.042
82421998|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.02|STANDARD_ERROR_OF_MEAN|0.023||0.386||95.0|-0.025|0.065||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Femur)||0.065|-0.025|0.386
82421999|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.041|STANDARD_ERROR_OF_MEAN|0.029||0.156||95.0|-0.016|0.099||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.099|-0.016|0.156
82422000|NCT04003389|164553990|SUPERIORITY||LSMean difference|0.028|STANDARD_ERROR_OF_MEAN|0.029||0.328|TWO_SIDED|95.0|-0.028|0.084||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||Hip (Trochanter)||0.084|-0.028|0.328
82422001|NCT04003389|164553991|SUPERIORITY||LSMean difference|0.002|STANDARD_ERROR_OF_MEAN|0.004||0.497||95.0|-0.005|0.009||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.009|-0.005|0.497
82422002|NCT04003389|164553991|SUPERIORITY||LSMean difference|-0.001|STANDARD_ERROR_OF_MEAN|0.004||0.878||95.0|-0.007|0.006||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.006|-0.007|0.878
82422003|NCT04003389|164553992|SUPERIORITY||LSMean difference|0.02|STANDARD_ERROR_OF_MEAN|0.031||0.527|TWO_SIDED|95.0|-0.042|0.082||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.082|-0.042|0.527
82422004|NCT04003389|164553992|SUPERIORITY||LSMean difference|-0.005|STANDARD_ERROR_OF_MEAN|0.031||0.872||95.0|-0.066|0.056||The LSM, SE, CI, and p-values come from an ANCOVA model with change from baseline at the Week 52 timepoint as response, treatment and smoking status (current vs former/never) as fixed effects with baseline weight and baseline as covariates.|ANCOVA|||||0.056|-0.066|0.872
82422005|NCT04806373|164554003|OTHER|||||||0.863|||||||Fisher Exact|||||||0.863
82422006|NCT04806373|164554004|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Difference in pleural drainage volume day 1 post-TSP||||0.005
82422007|NCT04806373|164554005|OTHER|||||||0.891|||||||Wilcoxon (Mann-Whitney)|||Borg dyspnea scale day 3 post-TSP||||0.891
82422008|NCT04806373|164554006|OTHER|||||||0.899|||||||Wilcoxon (Mann-Whitney)|||Pain score at day 3 post-TSP||||0.899
82534402|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.039|<|0.001|TWO_SIDED|95.0|-0.35|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.20|-0.35|<0.001
82422009|NCT04806373|164554007|OTHER|||||||0.809|||||||Fisher Exact|||||||0.809
82422010|NCT04806373|164554008|OTHER|||||||0.946|||||||Wilcoxon (Mann-Whitney)|||||||0.946
82422011|NCT04806373|164554009|OTHER|||||||0.808|||||||Wilcoxon (Mann-Whitney)|||||||0.808
82422012|NCT04806373|164554010|OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
82422013|NCT04806373|164554011|OTHER|||||||0.714|||||||t-test, 2 sided|||||||0.714
82422014|NCT04806373|164554012|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82422015|NCT02214212|164554016|SUPERIORITY||Slope|-0.16||||0.955|TWO_SIDED|95.0|-5.69|5.37|||Mixed Models Analysis|Mixed-effects model used an unstructured correlation matrix, adjusting for treatment, time (linear) and the interaction as fixed effects.|The reported effect size has been expressed as the modelled difference in sleep efficiency improvement from day 1 to day 10. A positive effect size indicates a higher score in the white-light arm.|||5.37|-5.69|.955
82422016|NCT02214212|164554017|SUPERIORITY||Mean Difference (Net)|0.69||||0.807|TWO_SIDED|95.0|-4.9|6.29|||Mixed Models Analysis|||||6.29|-4.90|.807
82422017|NCT02214212|164554018|SUPERIORITY||Mean Difference (Net)|-0.48||||0.847|TWO_SIDED|95.0|-5.38|4.43|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), site, FIM admit cognitive/motor, and the treatment/time as fixed effects.||||4.43|-5.38|.847
82422018|NCT02214212|164554019|SUPERIORITY||Mean Difference (Net)|3.14||||0.252|TWO_SIDED|95.0|-2.29|8.56|||Mixed Models Analysis|Statistical significance by mixed-effects regression adjusts for time (pre/post), site, FIM admit cognitive, FIM admit motor as fixed effects.||||8.56|-2.29|.252
82534403|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.28|-0.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.09|-0.28|<0.001
82422019|NCT02214212|164554020|SUPERIORITY||Mean Difference (Net)|0.67||||0.722|TWO_SIDED|95.0|-3.08|4.4|||Mixed Models Analysis|||||4.4|-3.08|.722
82422020|NCT02214212|164554021|SUPERIORITY||Mean Difference (Net)|-2.25||||0.253|TWO_SIDED|95.0|-6.13|1.64|||Mixed Models Analysis|||||1.64|-6.13|.253
82422021|NCT02214212|164554022|SUPERIORITY||Mean Difference (Net)|-0.39||||0.351|TWO_SIDED|95.0|-1.21|0.44|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), site, FIM admit cognitive/motor, and the treatment/time as fixed effects.|A positive effect size indicates a higher score in the bright white light (BWL) intervention arm.|||0.44|-1.21|.351
82422022|NCT02214212|164554023|SUPERIORITY||Slope|0.0||||0.91|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|Mixed-effects model used an unstructured correlation matrix, adjusting for treatment, time (linear) and the interaction as fixed effects|The reported effect size has been expressed as the modelled difference in the Makley scale score improvement from day 1 to day 10. A positive effect size indicates a higher score in the white-light arm.|||0.03|-0.03|.910
82422023|NCT02214212|164554024|SUPERIORITY||Mean Difference (Net)|0.857||||0.19|TWO_SIDED|95.0|-1.93|2.32|||Mixed Models Analysis|Mixed-effects model adjusts for treatment time (pre/post)||||2.32|-1.93|0.19
82422024|NCT02214212|164554025|SUPERIORITY||Mean Difference (Net)|-4.8||||0.345|TWO_SIDED|95.0|-14.83|5.24|||Mixed Models Analysis|Mixed-effects model adjusts for treatment, time (pre/post), FIM admit cognitive, site, FIM admit motor as mixed effects.||||5.24|-14.83|.345
82422025|NCT04903093|164554035|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|96.96|||||TWO_SIDED|90.0|85.43|110.03||||||Test: Abrocitinib 200 mg oral suspension formulation 1; Reference: Abrocitinib 200 mg commercial tablet||110.03|85.43|
82422026|NCT04903093|164554035|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio (%) of adjusted geometric means|62.87|||||TWO_SIDED|90.0|54.85|72.07||||||Test: Famotidine 40 mg tablet + Abrocitinib 200 mg commecial tablet; Reference: Abrocitinib 200 mg commercial tablet||72.07|54.85|
82422027|NCT04903093|164554036|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|100.07|||||TWO_SIDED|90.0|80.28|124.74||||||Test: Abrocitinib 200 mg oral suspension formulation 1; Reference: Abrocitinib 200 mg commercial tablet||124.74|80.28|
82422028|NCT04903093|164554036|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of adjusted geometric means|15.53|||||TWO_SIDED|90.0|12.46|19.36||||||Test: Famotidine 40 mg tablet + Abrocitinib 200 mg commercial tablet; Reference: Abrocitinib 200 mg commercial tablet||19.36|12.46|
82422029|NCT03555994|164554056|SUPERIORITY||Least square mean difference|-105.7||||0.023||90.0|-178.8|-32.6|||ANCOVA|||||-32.6|-178.8|0.023
82422030|NCT03555994|164554057|SUPERIORITY||Least square mean difference|-25.87||||0.008||90.0|-40.88|-10.86|||ANCOVA|||||-10.86|-40.88|0.008
82422031|NCT03555994|164554058|SUPERIORITY||Least Square Mean difference|-21.99||||0.008||90.0|-34.55|-9.43|||ANCOVA|||||-9.43|-34.55|0.008
82422032|NCT03555994|164554059|SUPERIORITY||Least Square Mean difference|-35.06||||0.07||90.0|-66.54|-3.58|||ANCOVA|||||-3.58|-66.54|0.070
82422033|NCT03555994|164554059|SUPERIORITY||Least Square Mean difference|-11.72||||0.03||90.0|-20.13|-3.3|||ANCOVA|||||-3.30|-20.13|0.030
82648123|NCT03944707|165011619|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_DEVIATION|9.15||0.3611|TWO_SIDED|80.0|-15.2|8.1||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in mean evening PEF||8.1|-15.2|0.3611
82422034|NCT00392288|164554082|SUPERIORITY_OR_OTHER|||||||0.2696||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. In this pairwise comparison Ciclesonide was compared with Placebo by testing the average effect of Ciclesonide 40 and Ciclesonide 80 versus Placebo. As statistical test a t-test was used to compare the corresponding least-square means of both treatment groups.||||0.2696
82422035|NCT00392288|164554082|SUPERIORITY_OR_OTHER|||||||0.0703||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. A t-test was used to compare the least-square means of Ciclesonide 80 versus Placebo.||||0.0703
82422036|NCT00392288|164554082|SUPERIORITY_OR_OTHER|||||||0.9146||95.0||||Due to usage of a-priori ordered hypotheses, adjustment of p-values is not necessary. The pre-specified significance level was 0.05. The tests were carried out two-sided.|ANCOVA|ANCOVA model: Change in FEV1 = baseline FEV1 + age \[yrs\] + treatment + pooled center + previous corticosteroid therapy + holding chamber||This is an analysis of the change from baseline to week 12 or last visit. As statistical test a t-test was used to compare the corresponding least-square means of Ciclesonide 40 versus Placebo.||||0.9146
82422037|NCT02544763|164554085|SUPERIORITY||Percentage reduction|48.6|||||TWO_SIDED|95.0|40.4|55.8||||||||55.8|40.4|
82422038|NCT02544763|164554085|SUPERIORITY||Percentage reduction|47.5|||||TWO_SIDED|95.0|39.0|54.8||||||||54.8|39.0|
82422039|NCT02544763|164554085|SUPERIORITY||Percentage reduction|26.5|||||TWO_SIDED|95.0|14.9|36.5||||||||36.5|14.9|
82422040|NCT02544763|164554085|SUPERIORITY||Treatment ratio|0.699|||=|0.0009|TWO_SIDED|95.0|0.567|0.861|||Mixed Models Analysis|||||0.861|0.567|=0.0009
82422041|NCT02544763|164554085|SUPERIORITY||Treatment ratio|0.715|||=|0.0018|TWO_SIDED|95.0|0.58|0.881|||Mixed Models Analysis|||||0.881|0.580|=0.0018
82422042|NCT02544763|164554086|SUPERIORITY||Odds Ratio (OR)|1.95|||=|0.0692|TWO_SIDED|95.0|0.95|4.0|||Cochran-Mantel-Haenszel|The p-value was calculated from a Cochran-Mantel-Haenszel test stratified by age group (1-6, 7-11, 12-17 and 18-65 years).||||4.00|0.95|=0.0692
82422043|NCT02544763|164554086|SUPERIORITY||Odds Ratio (OR)|2.29|||=|0.0245|TWO_SIDED|95.0|1.12|4.67|||Cochran-Mantel-Haenszel|The p-value was calculated from a Cochran-Mantel-Haenszel test stratified by age group (1-6, 7-11, 12-17 and 18-65 years).||||4.67|1.12|=0.0245
82422044|NCT02544763|164554087|SUPERIORITY||Odds Ratio (OR)|2.25|||=|0.0074|TWO_SIDED|95.0|1.24|4.07|||nominal|The global impression of change was analyzed using an ordinal logistic regression model with treatment group as a fixed factor.||||4.07|1.24|=0.0074
82422045|NCT02544763|164554087|SUPERIORITY||Odds Ratio (OR)|1.77|||=|0.058|TWO_SIDED|95.0|0.98|3.2|||nominal|The global impression of change is analyzed using an ordinal logistic regression model with treatment group as a fixed factor.||||3.20|0.98|=0.0580
82422046|NCT02544763|164554088|SUPERIORITY|Model includes the total number of seizures as a response variable and age group, time (Baseline and treatment period), treatment and treatment by time interaction as fixed effects and participant as a random effect. The log transformed number of days seizures were reported by period is included as an offset.|Percentage reduction|0.519|||||TWO_SIDED|95.0|0.447|0.602||||||||0.602|0.447|
82422047|NCT02544763|164554088|SUPERIORITY||Percentage reduction|0.524|||||TWO_SIDED|95.0|0.452|0.607||||||||0.607|0.452|
82422048|NCT02544763|164554088|SUPERIORITY||Percentage reduction|0.731|||||TWO_SIDED|95.0|0.632|0.846||||||||0.846|0.632|
82422049|NCT02544763|164554088|SUPERIORITY||Treatment ratio|0.709|||=|0.0013|TWO_SIDED|95.0|0.576|0.873|||Mixed Models Analysis|||||0.873|0.576|=0.0013
82422050|NCT02544763|164554088|SUPERIORITY||Treatment ratio|0.716|||=|0.0018|TWO_SIDED|95.0|0.582|0.882|||Mixed Models Analysis|||||0.882|0.582|=0.0018
82422051|NCT01111552|164554090|SUPERIORITY||Treatment Difference|-1.3|||=|0.595|TWO_SIDED|95.0|-5.9|3.4|||ANCOVA|||||3.4|-5.9|=0.595
82422052|NCT01111552|164554090|SUPERIORITY||Treatment Difference|0.4|||=|0.869|TWO_SIDED|95.0|-4.4|5.1|||ANCOVA|||||5.1|-4.4|=0.869
82448203|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.46|-0.11||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.11|-0.46|
82534404|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.26|-0.07||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.07|-0.26|<0.001
82534405|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.043||0.002|TWO_SIDED|95.0|-0.22|-0.05||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.05|-0.22|0.002
82422053|NCT01111552|164554091|SUPERIORITY||Treatment Difference|-0.1|||=|0.856|TWO_SIDED|95.0|-0.7|0.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.6|-0.7|=0.856
82422054|NCT01111552|164554091|SUPERIORITY||Treatment Difference|0.1|||=|0.838|TWO_SIDED|95.0|-0.6|0.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Row Mean Scores Test was used to determine the p-value.||||0.7|-0.6|=0.838
82648124|NCT03944707|165011620|SUPERIORITY||Mean Difference (Net)|-0.133|STANDARD_DEVIATION|0.1588||0.8022|TWO_SIDED|80.0|-0.336|0.071||Probability LOU064 better than placebo|Bayesian model||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|||0.071|-0.336|0.8022
82422055|NCT01111552|164554092|SUPERIORITY||Treatment Difference|-0.2|||=|0.765|TWO_SIDED|95.0|-1.6|1.2|||ANCOVA|||||1.2|-1.6|=0.765
82422056|NCT01111552|164554092|SUPERIORITY||Treatment Difference|0.2|||=|0.76|TWO_SIDED|95.0|-1.2|1.6|||ANCOVA|||||1.6|-1.2|=0.760
82422057|NCT05135754|164554093|SUPERIORITY||Risk Ratio (RR)|0.59||||0.046|TWO_SIDED|95.0|0.35|0.99|||Mixed Models Analysis|||||0.99|0.35|0.046
82422058|NCT05135754|164554094|SUPERIORITY||Mean Difference (Final Values)|6.61|||<|0.001|TWO_SIDED|95.0|3.45|9.78|||Mixed Models Analysis|||||9.78|3.45|<0.001
82422059|NCT05135754|164554095|SUPERIORITY||Mean Difference (Final Values)|20.01|||<|0.001|TWO_SIDED|95.0|15.02|25.0|||Mixed Models Analysis|||||25.00|15.02|<0.001
82422060|NCT05135754|164554096|SUPERIORITY||Mean Difference (Final Values)|6.32|||<|0.001|TWO_SIDED|95.0|2.71|9.94|||Mixed Models Analysis|||||9.94|2.71|<0.001
82422061|NCT05135754|164554097|SUPERIORITY||Mean Difference (Final Values)|14.3|||<|0.001|TWO_SIDED|95.0|8.26|20.35|||Mixed Models Analysis|||||20.35|8.26|<0.001
82422062|NCT05135754|164554098|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.075|TWO_SIDED||||||Mixed Models Analysis|||||||0.075
82422063|NCT05135754|164554099|SUPERIORITY||Mean Difference (Final Values)|4.68||||0.004|TWO_SIDED|95.0|1.55|7.81|||Mixed Models Analysis|||||7.81|1.55|0.004
82422064|NCT00057577|164554128|SUPERIORITY_OR_OTHER||||||=|0.038|TWO_SIDED||||||Subdistribution hazard model|||||||=.038
82422065|NCT00057577|164554129|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Subdistribution hazard model|||||||<0.01
82422066|NCT02528305|164554139|SUPERIORITY_OR_OTHER|||||||0.474|||||||ANOVA|||||||0.474
82422067|NCT02528305|164554140|SUPERIORITY_OR_OTHER|||||||0.174|||||||ANOVA|||||||0.174
82422068|NCT02528305|164554141|SUPERIORITY_OR_OTHER|||||||0.303|||||||ANOVA|||||||0.303
82422069|NCT02528305|164554142|SUPERIORITY|||||||0.023|||||||ANOVA|||||||0.023
82422070|NCT02528305|164554143|SUPERIORITY_OR_OTHER|||||||0.092|||||||ANOVA|For the analysis of Total body fat||||||0.092
82422071|NCT02528305|164554143|SUPERIORITY_OR_OTHER|||||||0.101|||||||ANOVA|For the analysis of Trunk fat||||||0.101
82422072|NCT02528305|164554144|SUPERIORITY_OR_OTHER|||||||0.771|||||||ANOVA|For the analysis of systolic blood pressure||||||0.771
82422073|NCT02528305|164554144|SUPERIORITY_OR_OTHER|||||||0.028|||||||ANOVA|For the analysis of diastolic blood pressure||||||0.028
82422074|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.099|||||||ANOVA|For the analysis of Physical Function||||||0.099
82422075|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.566|||||||ANOVA|For the analysis of Social Function||||||0.566
82422076|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.246|||||||ANOVA|For the analysis of Mental Health||||||0.246
82422077|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.145|||||||ANOVA|For the analysis of Pain||||||0.145
82422078|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.085|||||||ANOVA|For the analysis of Change in Health||||||0.085
82422079|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.114|||||||ANOVA|For the analysis of Physical Role Limitation||||||0.114
82647476|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00072|STANDARD_ERROR_OF_MEAN|0.000675||0.2886|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Sleep disturbance Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2886
82647477|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002048|STANDARD_ERROR_OF_MEAN|0.001356||0.1323|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Use of sleep medication Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1323
82647478|NCT03593772|165010350|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000209|STANDARD_ERROR_OF_MEAN|0.000793||0.7923|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on PSQI Daytime dysfunction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7923
82647479|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00046|STANDARD_ERROR_OF_MEAN|0.001074||0.6679|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on COS Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6679
82422080|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.841|||||||ANOVA|For the analysis of Mental Role Limitation||||||0.841
82422081|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.366|||||||ANOVA|For the analysis of Energy/Vitality||||||0.366
82422082|NCT02528305|164554145|SUPERIORITY_OR_OTHER|||||||0.745|||||||ANOVA|For the analysis of Health Perception||||||0.745
82422083|NCT02528305|164554146|SUPERIORITY_OR_OTHER|||||||0.31|||||||ANOVA|||||||0.310
82422084|NCT02528305|164554147|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82422085|NCT02528305|164554148|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA|||||||0.005
82422086|NCT02528305|164554149|SUPERIORITY_OR_OTHER|||||||0.793|||||||ANOVA|||||||0.793
82422087|NCT02528305|164554150|SUPERIORITY_OR_OTHER|||||||0.513|||||||ANOVA|||||||0.513
82422088|NCT02528305|164554151|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANOVA|||||||0.009
82422089|NCT00107575|164554152|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||||||>.05
82422090|NCT00107575|164554153|SUPERIORITY_OR_OTHER||expected count ratio|0.81||||0.027|TWO_SIDED|95.0|0.67|0.98||a priori p-value was p \< .05|generalized estimating equations|Negative binomial model controlling for sex, motivation to change drinking, and baseline drinking||||0.98|0.67|.027
82422091|NCT00107575|164554154|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Chi-squared|||||||.18
82422092|NCT00107575|164554155|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Chi-squared|||||||.95
82422093|NCT00107575|164554156|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Chi-squared|||||||.76
82422094|NCT04378153|164554191|SUPERIORITY||Difference in % Participants|2.17||||0.1215|TWO_SIDED|95.0|-0.7|5.7|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.7|-0.7|0.1215
82422095|NCT00500331|164554192|OTHER|Tukey's trend test for dose response: Change= Baseline+Treatment|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change= Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg, GSK189075 500 mg, GSK189075 1000 mg||||<0.001
82422096|NCT00500331|164554192|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg, GSK189075 500 mg||||<0.001
82422097|NCT00500331|164554192|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg, GSK189075 250 mg||||<0.001
82422098|NCT00500331|164554192|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg, GSK189075 100 mg||||<0.001
82422099|NCT00500331|164554192|OTHER|Tukey's trend test for dose response|||||<|0.001||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||Placebo, GSK189075 50 mg||||<0.001
82422100|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.02|-0.44||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 50 mg||-0.44|-1.02|<0.001
82422101|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.94|-0.35||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 100 mg||-0.35|-0.94|<0.001
82422102|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|||<|0.001|TWO_SIDED|95.0|-1.03|-0.44||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 250 mg||-0.44|-1.03|<0.001
82448204|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.45|-0.1||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.10|-0.45|
82448205|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.52|-0.18||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.52|
82448206|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|||||TWO_SIDED|95.0|-0.35|0.0||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.00|-0.35|
82448207|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.53|-0.18||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.53|
82448208|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.31|0.07||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.07|-0.31|
82534406|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.052||0.23|TWO_SIDED|95.0|-0.17|0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.04|-0.17|0.23
82534407|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.052||0.24|TWO_SIDED|95.0|-0.16|0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.04|-0.16|0.24
82647480|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001083|STANDARD_ERROR_OF_MEAN|0.000769||0.1607|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on COS Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1607
82647481|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000984|STANDARD_ERROR_OF_MEAN|0.00064||0.126|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS- Total as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1260
82647482|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000909|STANDARD_ERROR_OF_MEAN|0.000933||0.3311|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Kindness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3311
82648125|NCT03944707|165011621|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.1573||0.6312|TWO_SIDED|80.0|-0.251|0.149||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in daytime asthma symptom score||0.149|-0.251|0.6312
82448209|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.54|-0.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.17|-0.54|
82448210|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|||||TWO_SIDED|95.0|-0.47|-0.09||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.09|-0.47|
82448211|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-0.56|-0.18||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.56|
82448212|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.39|-0.01||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-0.39|
82647483|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001041|STANDARD_ERROR_OF_MEAN|0.000887||0.2416|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Judgment Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2416
82647484|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00087|STANDARD_ERROR_OF_MEAN|0.001016||0.3903|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Common Humanity Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3903
82647485|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001186|STANDARD_ERROR_OF_MEAN|0.00095||0.2131|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Isolation Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2131
82422103|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.19|-0.61||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 500 mg||-0.61|-1.19|<0.001
82422104|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07|||<|0.001|TWO_SIDED|95.0|-1.36|-0.77||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. GSK189075 1000 mg||-0.77|-1.36|<0.001
82422105|NCT00500331|164554192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76|||<|0.001|TWO_SIDED|95.0|-1.05|-0.47||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||Placebo vs. Pioglitazone 30 mg||-0.47|-1.05|<0.001
82422106|NCT03345550|164554210|SUPERIORITY|||||||0.24|||||||Kruskal-Wallis|||Baseline||||.24
82422107|NCT03345550|164554210|SUPERIORITY|||||||0.43|||||||Kruskal-Wallis|||1 month analysis||||.43
82422108|NCT03345550|164554210|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||3 month||||.54
82422109|NCT03345550|164554213|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||.31
82422110|NCT04999267|164554219|OTHER|Pre-intervention vs. Post-intervention analysis|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82422111|NCT04999267|164554220|OTHER|Pre-intervention vs. Post-intervention analysis|||||<|0.0001|||||||Chi-squared|||||||<.0001
82648126|NCT03944707|165011621|SUPERIORITY||Mean Difference (Net)|0.075|STANDARD_DEVIATION|0.0819||0.1752|TWO_SIDED|80.0|-0.028|0.18||Probability LOU064 better than placebo|Bayesian model for repeated measures||Posterior mean difference (LOU064 - placebo) and 80% credible interval are presented.|Change from baseline in nighttime asthma symptom score||0.180|-0.028|0.1752
82422112|NCT00734032|164554274|SUPERIORITY||Ratio|0.514|||<|0.001|TWO_SIDED|95.0|0.449|0.59|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 40 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.590|0.449|<.001
82422113|NCT00734032|164554274|SUPERIORITY||Ratio|0.421|||<|0.001|TWO_SIDED|95.0|0.367|0.483|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 80 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.483|0.367|<.001
82422114|NCT00734032|164554274|SUPERIORITY||Ratio|0.326|||<|0.001|TWO_SIDED|95.0|0.284|0.375|||ANCOVA||The point estimate was calculated as adjusted geometric mean ratio of placebo and SB-480848 160 mg. Dunnett adjustment was used for comparison of each dose group to placebo.|||0.375|0.284|<.001
82422115|NCT04033640|164554289|OTHER||||||<|0.001|||||||K-sample test|The p-value was calculated using a nonparametric k-sample test on the equality of medians.||Comparison of SD Biosensor POC G6PD test results for capillary and venous samples||||<0.001
82422116|NCT04620668|164554397|SUPERIORITY||||||<|0.001|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||<0.001
82422117|NCT04620668|164554397|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|Assessing change within treatment group (follow-up to Mixed ANOVA).||||||<0.001
82422118|NCT04620668|164554397|SUPERIORITY|||||||0.044|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from baseline to week 2 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.044
82422119|NCT04620668|164554397|SUPERIORITY|||||||0.001|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from week 2 to week 4 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.001
82422120|NCT04620668|164554397|SUPERIORITY|||||||0.731|||||||Repeated Measures ANOVA|Assessing change within control group (follow-up to Mixed ANOVA).||||||0.731
82422121|NCT04620668|164554398|SUPERIORITY||||||<|0.001|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||<0.001
82422122|NCT04620668|164554398|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|Assessing change within treatment group (follow-up to Mixed ANOVA).||||||<0.001
82422123|NCT04620668|164554398|SUPERIORITY|||||||0.05|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from baseline to week 2 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.05
82422124|NCT04620668|164554398|SUPERIORITY|||||||0.024|||||||Dependent t-test (2-sided)|"Assessing change within treatment group from week 2 to week 4 (follow-up to Repeated Measures ANOVA).~Bonferroni-adjusted p value."||||||0.024
82422125|NCT04620668|164554398|SUPERIORITY|||||||0.674|||||||Repeated Measures ANOVA|Assessing change within control group (follow-up to Mixed ANOVA).||||||0.674
82422126|NCT04620668|164554399|SUPERIORITY|||||||0.159|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||0.159
82422127|NCT04620668|164554400|SUPERIORITY|||||||0.326|||||||Mixed ANOVA|Assessing interaction between experimental group and time point.||||||0.326
82422128|NCT02655601|164554402|SUPERIORITY||Hazard Ratio (HR)|0.791||||0.135|ONE_SIDED|95.0||95.0||Study was originally designed with 1 IA after approximately 42 deaths. An unplanned, 2nd IA was conducted to support a BTDR. The study was not terminated early as a result of either IAs. No further IA were conducted until the primary analysis.|Log Rank|89 study participants had passed away at the time of this analysis (41 in the RT/TMZ + BMX-001 arm and 48 in the Radiation Therapy/TMZ arm).||A 1-tailed logrank test was conducted at the 0.2 level. This test had 90% power to detect a hazard ratio of 0.63 after 84 deaths were observed among the 160 randomized patients.||95||0.135
82422129|NCT02655601|164554414|SUPERIORITY||Odds Ratio (OR)|0.45||||0.465|ONE_SIDED||||||Fisher Exact|||With 78 and 71 patients in Arms A and B, respectively, there was 80% power with a one-tailed chi-square test (α=0.05) to detect a reduction in grade 3 or 4 thrombocytopenia from 15% in Arm B (without BMX-001) to 3.7% in Arm A (with BMX-001). Given the small number of patients that experienced low platelet counts or thrombocytopenia, a one-tailed Fisher's exact test was performed instead.||||0.465
82422130|NCT02655601|164554415|SUPERIORITY||Hazard Ratio (HR)|0.978||||0.911|ONE_SIDED||||||Log Rank|||A 1-tailed logrank test was conducted at the 0.2 level.||||0.911
82422131|NCT02655601|164554416|SUPERIORITY|||||||0.401|||||||Chi-squared, Corrected|A continuity adjusted Chi-Squared test was performed.||||||0.401
82422132|NCT00829868|164554417|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|109.0||||||90.0|99.3|120.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||120|99.3|
82422133|NCT00829868|164554418|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|101.0||||||90.0|97.5|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|97.5|
82422134|NCT00829868|164554419|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|100.0||||||90.0|96.2|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|96.2|
82422135|NCT01554904|164554431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|162.24|STANDARD_ERROR_OF_MEAN|62.4||0.02|TWO_SIDED|95.0|27.32|297.16|||paired t test|||The null hypothesis is that the snore index would not be different after 6 weeks of treatment compared to baseline. The comparison group is the subjects completing the 6 weeks of training and the second sleep study.||297.16|27.32|0.02
82422136|NCT01554904|164554432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.66||0.22|TWO_SIDED|95.0|-2.28|0.584||paired t test|t-test, 2 sided|||Participants completing 6 weeks of training and the second sleep study. The null hypothesis was that the AHI would not be different after 6 weeks of training compared to baseline.||0.584|-2.28|0.22
82534408|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|95.0|-0.25|-0.08||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.08|-0.25|<0.001
82534409|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.054||0.077|TWO_SIDED|95.0|-0.2|0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.01|-0.20|0.077
82422137|NCT02951481|164554433|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
82422138|NCT02951481|164554434|SUPERIORITY|||||||0.55|TWO_SIDED|95.0|||||Fisher Exact|||||||0.55
82422139|NCT02951481|164554435|SUPERIORITY|||||||0.023|||||||Chi-squared|||||||0.023
82422140|NCT02951481|164554436|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82422141|NCT02951481|164554437|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82422142|NCT02951481|164554438|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
82422143|NCT02951481|164554439|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
82422144|NCT02951481|164554440|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
82422145|NCT01051661|164554441|SUPERIORITY|The non-inferiority objective was met if the lower limit (LL) of the 95% CI for the Vaccine Efficacy Improvement (VEI) was \> -33%. Furthermore, the superiority objective was met if the LL of the 95% CI for the VEI was \>0.|Vaccine efficacy increase|76.7|||||TWO_SIDED|95.0|18.53|93.39||||||Evaluation of the relative protective efficacy of 2 doses of Arepanrix™ vaccine (Arepanrix 2D Group) compared to two doses of GSK2340273A vaccine (GSK2340273A Group) beginning 14 days after Dose 1 vaccination (for each subject enrolled) and continuing until study conclusion on Day 385.||93.39|18.53|
82422146|NCT01051661|164554469|OTHER||Adjusted GMT ratios|5.61|||||TWO_SIDED|95.0|4.92|6.41||||||Adjusted Geometric mean titer (GMT) ratios of Hemagglutination Inhibition (HI) antibody post vaccination between Arepanrix 2D Group and GSK2340273A Group for A/California influenza strain (Arepanrix 2D Group/GSK2340273A Group).||6.41|4.92|
82422147|NCT01051661|164554469|OTHER||Adjusted GMT ratios|1.05|||||TWO_SIDED|95.0|0.93|1.19||||||Adjusted Geometric mean titer (GMT) ratios of Hemagglutination Inhibition (HI) antibody post vaccination between Arepanrix 1D Group and GSK2340273A Group for A/California influenza strain (Arepanrix 1D Group/GSK2340273A Group).||1.19|0.93|
82422148|NCT01916226|164554480|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|-0.3||0.278|TWO_SIDED|95.0|-0.7|0.2||Estimating the standard deviation of CFB in rTNSS over 2 weeks to be approximately 2.6, a two-sample t-test with α=0.05 suggests that a sample size of 144 participants per arm would provide 90% power to show a difference of 1.0 between treatments.|ANCOVA|||||0.2|-0.7|0.278
82422149|NCT00787800|164554528|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Log Rank|||||||1.0
82422150|NCT00787800|164554530|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.050
82422151|NCT00787800|164554532|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82647486|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001485|STANDARD_ERROR_OF_MEAN|0.000933||0.113|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Mindfulness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1130
82422152|NCT00373360|164554534|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
82422153|NCT00373360|164554535|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.008
82422154|NCT00373360|164554536|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
82422155|NCT00373360|164554537|SUPERIORITY_OR_OTHER|||||||0.531||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.531
82422156|NCT00373360|164554538|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
82422157|NCT00373360|164554539|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.500
82422158|NCT00373360|164554540|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
82422159|NCT00373360|164554541|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||1.000
82422160|NCT00373360|164554542|SUPERIORITY_OR_OTHER|||||||0||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0
82422161|NCT00373360|164554543|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||1.000
82422162|NCT00373360|164554544|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.031
82422163|NCT00373360|164554545|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.031
82422164|NCT00373360|164554546|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.004
82422165|NCT00373360|164554547|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.063
82422166|NCT00373360|164554548|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||Wilcoxon signed rank test|||Change Between Baseline and Week 8||||0.203
82422167|NCT00373360|164554552|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon signed rank test|||Change from Baseline to Week 8||||0.250
82422168|NCT00373360|164554553|SUPERIORITY_OR_OTHER|||||||0.207||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.207
82422169|NCT00373360|164554554|SUPERIORITY_OR_OTHER|||||||0.297||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.297
82422170|NCT00373360|164554555|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon signed rank test|||Change between Baseline and Week 8||||0.004
82422171|NCT00913835|164554588|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.054||||0.8049|TWO_SIDED|90.0|0.751|1.478|||Log Rank|Stratified by prior platinum treatment, platinum-refractory versus platinum-resistance reaction.||||1.478|0.751|0.8049
82422172|NCT00913835|164554589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.115||||0.6346|TWO_SIDED|90.0|0.768|1.618|||Log Rank|Stratified by prior platinum treatment, platinum-refractory versus platinum-resistance reaction.||||1.618|0.768|0.6346
82422173|NCT00913835|164554590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619|TWO_SIDED||||||Fisher Exact|||||||0.6190
82422174|NCT00773461|164554601|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82422175|NCT00773461|164554601|SUPERIORITY_OR_OTHER||||||<|0.0001||||||ITT Population (Sensitivity)|Cochran-Mantel-Haenszel|||||||<0.0001
82422176|NCT00773461|164554602|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Comparison of ACR 50 responders in placebo and Tocilizumab groups|Cochran-Mantel-Haenszel|||||||<0.0001
82422177|NCT00773461|164554602|SUPERIORITY_OR_OTHER|||||||0.0345||||||Comparison of ACR 70 responders in placebo and Tocilizumab groups|Cochran-Mantel-Haenszel|||||||0.0345
82422178|NCT00773461|164554604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||<|0.0001|TWO_SIDED|95.0|-6.6|-2.8||p value was calculated using the difference between core set values of the two arms.|ANCOVA|||Placebo + DMARDs Vs Tocilizumab + DMARDs analysis for Swollen Joint Count||-2.8|-6.6|<0.0001
82422179|NCT00773461|164554604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.7|||<|0.0001|TWO_SIDED|95.0|-11.3|-6.1||p value was calculated using the difference between core set values of the two arms.|ANCOVA|||Placebo + DMARDs Vs Tocilizumab + DMARDs analysis for Tender Joint Count||-6.1|-11.3|<0.0001
82422180|NCT00773461|164554605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.0001|TWO_SIDED|95.0|-25.3|-12.9|||ANCOVA|||||-12.9|-25.3|<0.0001
82422181|NCT00773461|164554606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.0001|TWO_SIDED|95.0|-24.5|-14.0|||ANCOVA|||||-14.0|-24.5|<0.0001
82422182|NCT00773461|164554607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.0|||<|0.0001|TWO_SIDED|95.0|-25.2|-12.7|||ANCOVA|||||-12.7|-25.2|<0.0001
82422183|NCT00773461|164554608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7384|||<|0.0001|TWO_SIDED|95.0|-2.1464|-1.3303|||ANCOVA|||||-1.3303|-2.1464|<0.0001
82534410|NCT02886728|164766924|SUPERIORITY||Least Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.054||0.039|TWO_SIDED|95.0|-0.22|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and subjects being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.22|0.039
82422184|NCT00773461|164554609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.2|||<|0.0001|TWO_SIDED|95.0|-44.7|-33.7|||ANCOVA|||||-33.7|-44.7|<.0001
82422185|NCT00773461|164554611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.0003|TWO_SIDED|95.0|1.8|5.9|||ANCOVA|||||5.9|1.8|0.0003
82422186|NCT00773461|164554612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-68.3||||0.0599|TWO_SIDED|95.0|-139.5|2.9|||ANCOVA|||||2.9|-139.5|0.0599
82422187|NCT00773461|164554613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.956|||<|0.0001|TWO_SIDED|95.0|9.125|16.786|||ANCOVA|||||16.786|9.125|<0.0001
82422188|NCT00773461|164554614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.28|||ANCOVA|||||-0.28|-0.56|<0.0001
82448213|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.63|-0.25||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.25|-0.63|
82534411|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-6.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.0|<0.001
82534412|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-6.0|<0.001
82576708|NCT00477490|164863741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.296||||0.2662|TWO_SIDED|95.0|0.821|2.05||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||2.050|0.821|0.2662
82647487|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001983|STANDARD_ERROR_OF_MEAN|0.000939||0.0358|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Over-identification Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0358
82422189|NCT00637156|164554622|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 0.1.|Risk Difference (RD)|0.113||||1|TWO_SIDED|95.0|0.022|0.201||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the overall success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P(p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.201|0.022|1.000
82422190|NCT00637156|164554622|SUPERIORITY_OR_OTHER|||||||0.993||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of overall success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated. If the posterior probability is at least 0.95, a claim of superiority can be made.||||0.993
82422191|NCT00637156|164554623|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.088||||1|TWO_SIDED|95.0|0.012|0.167||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the NDI success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.167|0.012|1.000
82422192|NCT00637156|164554623|SUPERIORITY_OR_OTHER|||||||0.99||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of NDI success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.990
82422193|NCT00637156|164554624|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.05||||1|TWO_SIDED|95.0|-0.014|0.119||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the neurological success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.119|-0.014|1.000
82422194|NCT00637156|164554624|SUPERIORITY_OR_OTHER|||||||0.931||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of neurological success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.931
82448214|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.34|0.05||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-0.34|
82647488|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00019|STANDARD_ERROR_OF_MEAN|0.000495||0.7027|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS- Total Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7027
82422195|NCT00637156|164554625|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.021||||1|TWO_SIDED|95.0|-0.019|0.062||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the neck pain success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.062|-0.019|1.000
82422196|NCT00637156|164554625|SUPERIORITY_OR_OTHER|||||||0.852||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of neck pain success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.852
82422197|NCT00637156|164554626|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.008||||0.997|TWO_SIDED|95.0|-0.073|0.056||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the arm pain success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.056|-0.073|0.997
82422198|NCT00637156|164554626|SUPERIORITY_OR_OTHER|||||||0.395||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of arm pain success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.395
82422199|NCT00637156|164554627|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.024||||1|TWO_SIDED|95.0|-0.042|0.088||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the SF-36 PCS success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.088|-0.042|1.000
82422200|NCT00637156|164554627|SUPERIORITY_OR_OTHER|||||||0.767||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of SF-36 PCS success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.767
82422201|NCT00637156|164554628|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.024||||0.945|TWO_SIDED|95.0|-0.12|0.067||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the SF-36 MCS success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.067|-0.120|0.945
82422202|NCT00637156|164554629|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|-0.017||||0.997|TWO_SIDED|95.0|-0.072|0.04||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the FSU success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.040|-0.072|0.997
82422203|NCT00637156|164554629|SUPERIORITY_OR_OTHER|||||||0.271||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of FSU success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.271
82422204|NCT00637156|164554630|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.1.|Risk Difference (RD)|0.013||||1|TWO_SIDED|95.0|-0.013|0.04||The posterior probability of non-inferiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean of P1-P0, along with the corresponding 95% highest posterior density (HPD) interval, was presented instead of the usual 95% CI.|"The null hypothesis H0: p1 + d ≤ p0, and the alternative hypothesis is Ha: p1 + d \> p0 where P0 and P1 are the gait success rates in the control group and the investigational group respectively, and d is the non-inferiority margin. The analyses used Bayesian methodology. Should the posterior probability P (p1 - p0 \> -d \| data) be at least 0.95, then the null non-inferiority hypothesis will be rejected, and non-inferiority of the investigational device to the control will be claimed."||0.040|-0.013|1.000
82422205|NCT00637156|164554630|SUPERIORITY_OR_OTHER|||||||0.859||||||The posterior probability of superiority was calculated and presented instead of the p-value.|Bayesian model|||Superiority comparison of gait success rates in two treatment groups was performed if non-inferiority was demonstrated.||||0.859
82422206|NCT00637156|164554631|SUPERIORITY_OR_OTHER||Posterior Mean Difference|0.4||||0|TWO_SIDED|95.0|0.252|0.548||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the operative time in two treatment groups was assessed. The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||0.548|0.252|0.0
82422207|NCT00637156|164554632|SUPERIORITY_OR_OTHER||Posterior Mean Difference|11.5||||0.02|TWO_SIDED|95.0|0.56|22.44|||Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the blood loss in two treatment groups was assessed.The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||22.440|0.560|0.02
82422208|NCT00637156|164554633|SUPERIORITY_OR_OTHER||Posterior Mean Difference|-0.1||||0.892|TWO_SIDED|95.0|-0.258|0.058||The posterior probably of superiority was calculated and presented instead of the p-value.|Bayesian model||The posterior mean difference (µ1- µ0) and the corresponding 95% highest posterior density (HPD) interval were presented instead of the usual 95% CI.|"Superiority comparison of the hospital stay in two treatment groups was assessed.The null hypothesis is H0: μ1 = μ0 and the alternative hypothesis is Ha: μ1 ≠ μ0, where μ0 and μ1 denote the mean in control group the investigational group, respectively. Should the posterior probability of superiority P(μ1- μ0 \< 0\|data) be at least 97.5%, the superiority would be claimed."||0.058|-0.258|0.892
82422209|NCT01308788|164554641|SUPERIORITY_OR_OTHER|||||||0.4414||95.0|||||ANCOVA|||||||.4414
82422210|NCT01308788|164554642|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANCOVA|||||||.7820
82422211|NCT01308788|164554643|SUPERIORITY_OR_OTHER|||||||0.5496||95.0|||||ANCOVA|||||||.5496
82422212|NCT01308788|164554644|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||ANCOVA|||||||.2930
82422213|NCT01308788|164554645|SUPERIORITY_OR_OTHER|||||||0.5058||95.0|||||ANCOVA|||||||.5058
82422214|NCT01308788|164554646|SUPERIORITY_OR_OTHER|||||||0.6156||95.0|||||ANCOVA|||||||.6156
82422215|NCT01308788|164554647|SUPERIORITY_OR_OTHER|||||||0.5443||95.0|||||ANCOVA|||||||.5443
82422216|NCT01308788|164554648|SUPERIORITY_OR_OTHER|||||||0.7847||95.0|||||ANCOVA|||||||.7847
82422217|NCT01308788|164554649|SUPERIORITY_OR_OTHER|||||||0.1331||95.0|||||ANCOVA|||||||.1331
82422218|NCT01308788|164554650|SUPERIORITY_OR_OTHER|||||||0.5431||95.0|||||ANCOVA|||||||.5431
82422219|NCT01308788|164554651|SUPERIORITY_OR_OTHER|||||||0.0684||95.0|||||ANCOVA|||||||.0684
82422220|NCT01308788|164554652|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANCOVA|||||||.2500
82422221|NCT01308788|164554653|SUPERIORITY_OR_OTHER|||||||0.6896||95.0|||||ANCOVA|||||||.6896
82422222|NCT01308788|164554654|SUPERIORITY_OR_OTHER|||||||0.7965||95.0|||||ANCOVA|||||||.7965
82422223|NCT00322218|164554656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8578|||||||Stratified Log-Rank Test|||||||0.8578
82422224|NCT04548219|164554658|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.907|||||TWO_SIDED|90.0|0.775|1.06||||||||1.06|0.775|
82422225|NCT04548219|164554659|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.915|||||TWO_SIDED|90.0|0.761|1.1||||||||1.10|0.761|
82422226|NCT04548219|164554660|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.915|||||TWO_SIDED|90.0|0.76|1.1||||||||1.10|0.760|
82422227|NCT02414841|164554670|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.932|TWO_SIDED|95.0|0.67|1.39|||Log Rank|Weighted|Performed as sensitivity analysis|||1.39|0.67|0.932
82422228|NCT02414841|164554671|SUPERIORITY|||||||0.328|||||||Chi-squared|||||||0.328
82422229|NCT03941093|164554693|OTHER||Hazard Ratio (HR)|1.08||||0.5487|TWO_SIDED|95.0|0.83|1.41|||Stratified Log Rank Test|||||1.41|0.83|0.5487
82422230|NCT02301897|164554697|SUPERIORITY|||||||0.0008|||||||Chi-Square Test|||||||0.0008
82422231|NCT02301897|164554697|SUPERIORITY||||||<|0.001|||||||Chi-Square Test|||||||<0.001
82422232|NCT02301897|164554698|SUPERIORITY|||||||0.0719|||||||Chi-Square Test|||||||0.0719
82422233|NCT02301897|164554698|SUPERIORITY|||||||0.0004|||||||Chi-Square Test|||||||0.0004
82422234|NCT02301897|164554699|SUPERIORITY|||||||0.0167|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 1||||0.0167
82534413|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
82534414|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-7.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-7.0|<0.001
82648127|NCT02444182|165011629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_DEVIATION|0.21||0.015|TWO_SIDED||||||paired t-test|||Null hypothesis was no difference in Gingival index between probiotics and control groups||||0.015
82422235|NCT02301897|164554699|SUPERIORITY|||||||0.1257|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 1||||0.1257
82422236|NCT02301897|164554699|SUPERIORITY|||||||0.9754|||||||Wilcoxon Rank-Sum Test|||CFB to ODI Course 1||||0.9754
82422237|NCT02301897|164554699|SUPERIORITY|||||||0.7672|||||||Wilcoxon Rank-Sum Test|||CFB to ODI Course 1||||0.7672
82422238|NCT02301897|164554699|SUPERIORITY|||||||0.2232|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 2||||0.2232
82647489|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000761|STANDARD_ERROR_OF_MEAN|0.00073||0.2979|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Kindness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.2979
82422239|NCT02301897|164554699|SUPERIORITY|||||||0.4512|||||||Wilcoxon Rank-Sum Test|||CFB to Week 18 Course 2||||0.4512
82422240|NCT02301897|164554699|SUPERIORITY|||||||0.3545|||||||Wilcoxon Rank-Sum Test|||CFB to Course 2 Week 28 FU||||0.3545
82422241|NCT02301897|164554699|SUPERIORITY|||||||0.2482|||||||Wilcoxon Rank-Sum Test|||CFB to Course 2 Week 28 FU||||0.2482
82422242|NCT02301897|164554700|SUPERIORITY|||||||0.0016|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0016
82422243|NCT02301897|164554700|SUPERIORITY|||||||0.0003|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0003
82422244|NCT02301897|164554700|SUPERIORITY|||||||0.6666|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to ODI Course 1||||0.6666
82422245|NCT02301897|164554700|SUPERIORITY|||||||0.3612|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to ODI Course 1||||0.3612
82422246|NCT02301897|164554700|SUPERIORITY|||||||0.0309|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0309
82422247|NCT02301897|164554700|SUPERIORITY|||||||0.0007|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0007
82422248|NCT02301897|164554700|SUPERIORITY|||||||0.0641|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 28 FU||||0.0641
82422249|NCT02301897|164554700|SUPERIORITY|||||||0.3743|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 28 FU||||0.3743
82422250|NCT02301897|164554701|SUPERIORITY|||||||0.0049|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0049
82422251|NCT02301897|164554701|SUPERIORITY|||||||0.0064|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0064
82422252|NCT02301897|164554701|SUPERIORITY|||||||0.5637|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5637
82422253|NCT02301897|164554701|SUPERIORITY|||||||0.0505|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0505
82422254|NCT02301897|164554701|SUPERIORITY|||||||0.4262|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4262
82422255|NCT02301897|164554701|SUPERIORITY|||||||0.1419|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1419
82422256|NCT02301897|164554701|SUPERIORITY|||||||0.4497|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4497
82422257|NCT02301897|164554701|SUPERIORITY|||||||0.5371|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5371
82422258|NCT02301897|164554702|SUPERIORITY|||||||0.0069|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0069
82422259|NCT02301897|164554702|SUPERIORITY|||||||0.0059|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0059
82422260|NCT02301897|164554702|SUPERIORITY|||||||0.2117|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2117
82422261|NCT02301897|164554702|SUPERIORITY|||||||0.0006|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0006
82422262|NCT02301897|164554702|SUPERIORITY|||||||0.0788|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0788
82422263|NCT02301897|164554702|SUPERIORITY|||||||0.008|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0080
82422264|NCT02301897|164554702|SUPERIORITY|||||||0.1516|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.1516
82422265|NCT02301897|164554702|SUPERIORITY|||||||0.0565|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.0565
82422266|NCT02301897|164554703|SUPERIORITY|||||||0.011|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0110
82422267|NCT02301897|164554703|SUPERIORITY|||||||0.0601|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0601
82422268|NCT02301897|164554703|SUPERIORITY|||||||0.2168|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2168
82422269|NCT02301897|164554703|SUPERIORITY|||||||0.0101|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0101
82422270|NCT02301897|164554703|SUPERIORITY|||||||0.243|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2430
82422271|NCT02301897|164554703|SUPERIORITY|||||||0.0843|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0843
82422272|NCT02301897|164554703|SUPERIORITY|||||||0.557|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5570
82422273|NCT02301897|164554703|SUPERIORITY|||||||0.5302|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5302
82422274|NCT02301897|164554704|SUPERIORITY|||||||0.0504|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0504
82422275|NCT02301897|164554704|SUPERIORITY|||||||0.0151|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0151
82422276|NCT02301897|164554704|SUPERIORITY|||||||0.5932|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5932
82422277|NCT02301897|164554704|SUPERIORITY|||||||0.0831|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0831
82422278|NCT02301897|164554704|SUPERIORITY|||||||0.1416|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1416
82422279|NCT02301897|164554704|SUPERIORITY|||||||0.0392|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0392
82422280|NCT02301897|164554704|SUPERIORITY|||||||0.8275|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8275
82422281|NCT02301897|164554704|SUPERIORITY|||||||0.8733|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8733
82422282|NCT02301897|164554705|SUPERIORITY|||||||0.0651|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0651
82422283|NCT02301897|164554705|SUPERIORITY|||||||0.0298|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0298
82422284|NCT02301897|164554705|SUPERIORITY|||||||0.4005|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.4005
82422285|NCT02301897|164554705|SUPERIORITY|||||||0.1114|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.1114
82422286|NCT02301897|164554705|SUPERIORITY|||||||0.1318|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1318
82422287|NCT02301897|164554705|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0807
82422288|NCT02301897|164554705|SUPERIORITY|||||||0.4506|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4506
82422289|NCT02301897|164554705|SUPERIORITY|||||||0.4614|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.4614
82422290|NCT02301897|164554706|SUPERIORITY|||||||0.0653|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0653
82422291|NCT02301897|164554706|SUPERIORITY|||||||0.048|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0480
82422292|NCT02301897|164554706|SUPERIORITY|||||||0.401|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.4010
82422293|NCT02301897|164554706|SUPERIORITY|||||||0.0772|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0772
82422294|NCT02301897|164554706|SUPERIORITY|||||||0.3206|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.3206
82422295|NCT02301897|164554706|SUPERIORITY|||||||0.1605|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.1605
82422296|NCT02301897|164554706|SUPERIORITY|||||||0.557|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.5570
82422297|NCT02301897|164554706|SUPERIORITY|||||||0.3437|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.3437
82422298|NCT02301897|164554707|SUPERIORITY|||||||0.2624|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.2624
82422299|NCT02301897|164554707|SUPERIORITY|||||||0.0688|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0688
82422300|NCT02301897|164554707|SUPERIORITY|||||||0.279|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2790
82422301|NCT02301897|164554707|SUPERIORITY|||||||0.6541|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.6541
82422302|NCT02301897|164554707|SUPERIORITY|||||||0.8559|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.8559
82422303|NCT02301897|164554707|SUPERIORITY|||||||0.4326|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4326
82422304|NCT02301897|164554707|SUPERIORITY|||||||0.1052|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.1052
82422305|NCT02301897|164554707|SUPERIORITY|||||||0.9206|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.9206
82422306|NCT02301897|164554708|SUPERIORITY|||||||0.1439|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.1439
82422307|NCT02301897|164554708|SUPERIORITY|||||||0.067|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0670
82422308|NCT02301897|164554708|SUPERIORITY|||||||0.6761|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.6761
82422309|NCT02301897|164554708|SUPERIORITY|||||||0.0639|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0639
82422310|NCT02301897|164554708|SUPERIORITY|||||||0.2218|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2218
82422311|NCT02301897|164554708|SUPERIORITY|||||||0.4468|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.4468
82422312|NCT02301897|164554708|SUPERIORITY|||||||0.7678|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.7678
82422313|NCT02301897|164554708|SUPERIORITY|||||||0.8922|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8922
82422314|NCT02301897|164554709|SUPERIORITY|||||||0.1262|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.1262
82422315|NCT02301897|164554709|SUPERIORITY|||||||0.2075|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.2075
82422316|NCT02301897|164554709|SUPERIORITY|||||||0.5904|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.5904
82422317|NCT02301897|164554709|SUPERIORITY|||||||0.243|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.2430
82422318|NCT02301897|164554709|SUPERIORITY|||||||0.7067|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.7067
82422319|NCT02301897|164554709|SUPERIORITY|||||||0.2725|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.2725
82422320|NCT02301897|164554709|SUPERIORITY|||||||0.7016|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.7016
82422321|NCT02301897|164554709|SUPERIORITY|||||||0.8751|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Week 24 FU||||0.8751
82422322|NCT02301897|164554710|SUPERIORITY|||||||0.0338|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0338
82422323|NCT02301897|164554710|SUPERIORITY|||||||0.0004|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 1||||0.0004
82422324|NCT02301897|164554710|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0807
82422325|NCT02301897|164554710|SUPERIORITY|||||||0.0142|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to On-Drug Course 2||||0.0142
82422326|NCT02301897|164554710|SUPERIORITY|||||||0.0807|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0807
82422327|NCT02301897|164554710|SUPERIORITY|||||||0.0142|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Week 18 Course 2||||0.0142
82422328|NCT02301897|164554710|SUPERIORITY|||||||0.1859|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Off-drug||||0.1859
82422329|NCT02301897|164554710|SUPERIORITY|||||||0.0896|||||||Wilcoxon Rank-Sum Test|||Percentage CFB to Course 2 Off-drug||||0.0896
82422330|NCT01217892|164554750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.084||0.0106|TWO_SIDED|95.0|-0.38|-0.05||significant at alpha=0.05 (2-sided) applying Hochberg's method across the two Dapagliflozin BID groups.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05 using Hochberg's method to control the overall Type I error across hypotheses in the two Dapagliflozin BID groups, two-sided)||-0.05|-0.38|0.0106
82648128|NCT02444182|165011630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.09||0.909|TWO_SIDED||||||paired t-test|||Null hypothesis was no difference in plaque index between probiotics and control groups||||0.909
82647490|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00063|STANDARD_ERROR_OF_MEAN|0.000798||0.4278|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Self-Judgment Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4278
82648129|NCT04126733|165011637|EQUIVALENCE|H0: ORR ≤ 5% versus H1: ORR \>5% The hypothesis was tested by a one-sided exact binomial test, assuming a background response rate for the combination to be at most 5%.|Rate|7.1||||0.2721||95.0|2.4|15.9||The target response rate for the combination treatment was 17%. Using a one-sided exact binomial test at a type-I error of at most 2.5% at least 8 responders out of the 70 patients were needed to achieve significance.|Exact Binomial Test|||||15.9|2.4|0.2721
82422331|NCT01217892|164554750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0843|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||significant at alpha=0.05 (2-sided) applying Hochberg's method across the two Dapagliflozin BID groups.|ANCOVA|with treatment group as effect (all treatment groups included) and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05 using Hochberg's method to control the overall Type I error across hypotheses in the two Dapagliflozin BID groups, two-sided)||-0.18|-0.52|<0.0001
82422332|NCT01217892|164554751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82|STANDARD_ERROR_OF_MEAN|0.363|<|0.0001|TWO_SIDED|95.0|-2.53|-1.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-1.10|-2.53|<0.0001
82422333|NCT01217892|164554751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|0.3636|<|0.0001|TWO_SIDED|95.0|-2.89|-1.46||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-1.46|-2.89|<0.0001
82422334|NCT01217892|164554752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|STANDARD_ERROR_OF_MEAN|3.04|<|0.0001|TWO_SIDED|95.0|-21.7|-9.7||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-9.7|-21.7|<0.0001
82422335|NCT01217892|164554752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|STANDARD_ERROR_OF_MEAN|3.039|<|0.0001|TWO_SIDED|95.0|-22.7|-10.7||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-10.7|-22.7|<0.0001
82422336|NCT01217892|164554753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.132||0.001|TWO_SIDED|95.0|-16.5|-4.2||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-4.2|-16.5|0.0010
82422337|NCT01217892|164554753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|3.139|<|0.0001|TWO_SIDED|95.0|-21.4|-9.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (HbA1c \<7.0% vs \>=7.0% at randomization) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.05, two-sided)||-9.1|-21.4|<0.0001
82422338|NCT01217892|164554754|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|6.097||0.0455|TWO_SIDED|95.0|0.2|24.1||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||24.1|0.2|0.0455
82422339|NCT01217892|164554754|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.8|STANDARD_ERROR_OF_MEAN|6.153||0.0062|TWO_SIDED|95.0|4.8|28.9||significant at alpha=0.05 (2-sided). Key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group for treatment groups tested significantly different from placebo for the primary endpoint.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||28.9|4.8|0.0062
82448215|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.59|-0.2||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.20|-0.59|
82648130|NCT01965535|165011644|SUPERIORITY_OR_OTHER||difference in proportions|1.4|||||TWO_SIDED|95.0|-5.9|8.6|||||The 2-sided 95% confidence interval (CI) on the difference in SVR12 rates between the 2 treatment groups was constructed based on stratum-adjusted Mantel-Haenszel (MH) proportions.|A sample size of 75 subjects in each treatment group would provide 80% power to detect a difference of 15% in SVR12 rates (80% vs 95%) between the 2 treatment groups.||8.6|-5.9|
82422340|NCT01052779|164554755|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of the 95% CI was ≥-0.5 g/dL and superiority if the lower bound was ≥0 g/dL.|Treatment Difference|0.1||||0.515|TWO_SIDED|95.0|-0.21|0.41||The p-value for hemoglobin change from Baseline (Day 1) was adjusted for baseline hemoglobin level and hemodialysis status.|ANOVA||The 95% CI for hemoglobin change from Baseline (Day 1) was from an ANOVA model and adjusted for baseline hemoglobin level and hemodialysis status.|With LOCF Imputation: The p-value and two-sided 95% confidence interval (CI) for the treatment difference in mean change in hemoglobin from Baseline (Day 1) to Week 5 were generated based on an analysis of variance (ANOVA) model adjusted for baseline hemoglobin level and hemodialysis status.||0.41|-0.21|0.515
82422341|NCT01052779|164554755|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of the 95% CI was ≥-0.5 g/dL and superiority if the lower bound was ≥0 g/dL.|Treatment Difference|0.09||||0.587|TWO_SIDED|95.0|-0.23|0.41||The p-value for hemoglobin change from Baseline (Day 1) was adjusted for baseline hemoglobin level and hemodialysis status.|ANOVA||The 95% CI for hemoglobin change from Baseline (Day 1) was from an ANOVA model and adjusted for baseline hemoglobin level and hemodialysis status.|Without Imputation (Sensitivity Analysis): The p-value and two-sided 95% CI for the treatment difference in mean change in hemoglobin from Baseline (Day 1) to Week 5 were generated based on an ANOVA model adjusted for baseline hemoglobin level and hemodialysis status.||0.41|-0.23|0.587
82422342|NCT02853136|164554786|OTHER||Adjusted geometric Mean ratio [%]|3107.8|||||TWO_SIDED|90.0|2332.9|4140.1|||||The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2. Intra-individual geometric coefficient of variation \[%\] =42.7.|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||4140.10|2332.90|
82422343|NCT02853136|164554787|OTHER||Adjusted geometric Mean ratio [%]|659.0|||||TWO_SIDED|90.0|489.791|886.676|||||The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2. Intra-individual geometric coefficient of variation \[%\]=44.8.|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||886.676|489.791|
82422344|NCT02853136|164554788|OTHER||Adjusted geometric Mean ratio [%]|3103.41|||||TWO_SIDED|90.0|2330.5|4132.65|||||"The estimated parameter was the adjusted geometric Mean (gMean) ratio \[%\] = adjusted gMean T2/ adjusted gMean R2.~Intra-individual geometric coefficient of variation \[%\] =42.7."|The statistical model used for the analysis of the endpoint was an ANOVA (Analysis of Variance) model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||4132.65|2330.50|
82422345|NCT00841815|164554789|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|96.43||||||90.0|91.4|101.74|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.74|91.40|
82422346|NCT00841815|164554790|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.94||||||90.0|95.6|106.58|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.58|95.60|
82422347|NCT00841815|164554791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.11||||||90.0|95.08|105.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.40|95.08|
82422348|NCT04805593|164554794|SUPERIORITY|Superiority testing was conducted to confirm the proportion is higher than the targeted value of 50%.|||||<|0.0001|||||||Exact Test of Binomial Proportion|||||||<0.0001
82422349|NCT04805593|164554795|SUPERIORITY|Superiority testing was conducted to confirm the proportion is higher than the targeted value of 75%.|||||<|0.0001|||||||Exact Test of Binomial Proportion|||||||<0.0001
82422350|NCT03685149|164554822|SUPERIORITY||percent reduction|72.0|||<|0.0001|TWO_SIDED|95.0|56.0|82.0|||Mixed Models Analysis|||||82|56|<0.0001
82422351|NCT03685149|164554823|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82422352|NCT03685149|164554824|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82422353|NCT03685149|164554825|SUPERIORITY|||||||0.207|||||||Wilcoxon (Mann-Whitney)|||||||0.207
82422354|NCT00967499|164554924|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|||||||0.4010
82422355|NCT00967499|164554925|SUPERIORITY|||||||0.5672|||||||Cochran-Mantel-Haenszel|||||||0.5672
82422356|NCT00967499|164554926|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||||||0.0570
82422357|NCT00967499|164554927|SUPERIORITY|||||||0.515|||||||Cochran-Mantel-Haenszel|||||||0.5150
82422358|NCT00967499|164554928|SUPERIORITY|||||||0.3601||||||P-values are based on Cochran-Mantel-Haenszel row mean score test with gender adjustment for the ranks of the change from baseline values.|Cochran-Mantel-Haenszel|||||||0.3601
82448216|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-0.51|-0.12||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.12|-0.51|
82534415|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.0|<0.001
82647491|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.0000074|STANDARD_ERROR_OF_MEAN|0.000877||0.9933|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Common Humanity Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9933
82647492|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00115|STANDARD_ERROR_OF_MEAN|0.000816||0.1589|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Isolation Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1589
82648131|NCT03751020|165011658|SUPERIORITY||Mean Difference (Net)|-6.34|||<|0.01|TWO_SIDED|95.0|-11.03|-1.64|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||-1.64|-11.03|<0.01
82422359|NCT00967499|164554929|SUPERIORITY|||||||0.3453|||||||Mann-Whitney Test|||24 hours postdose||||0.3453
82422360|NCT00967499|164554929|SUPERIORITY|||||||0.7874|||||||Mann-Whitney Test|||48 hours postdose||||0.7874
82422361|NCT00967499|164554929|SUPERIORITY|||||||0.8485|||||||Mann-Whitney Test|||72 Hours Postdose||||0.8485
82422362|NCT05535972|164554982|OTHER||Least Square Mean|-6.81|STANDARD_ERROR_OF_MEAN|0.241|||TWO_SIDED|95.0|-7.28|-6.33|||||CFB in CAT score was analyzed using Mixed Model Repeated Measures(MMRM) model with covariates of smoking status, CAT score at Baseline, visit, interaction of CAT score at Baseline\*visit. Estimates derived from inverse probability weighted MMRM model.|||-6.33|-7.28|
82422363|NCT04197583|164554994|OTHER||Proportion by group|0.984|||||TWO_SIDED|95.0|0.948|0.995|||||For Tria subjects with stone management indication only|||0.995|0.948|
82422364|NCT00323622|164555027|SUPERIORITY_OR_OTHER||1 - (HR1/HR2)|16.8||||0.08|TWO_SIDED|95.0|-2.5|32.4||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - GSK RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||32.40|-2.50|0.08
82422365|NCT00323622|164555027|SUPERIORITY_OR_OTHER||1 - (HR1/HR2)|11.8||||0.43|TWO_SIDED|95.0|-20.11|35.18||The p-value presented is the Wald Chi-square p-value from the Cox regression model|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||35.18|-20.11|0.43
82422366|NCT00323622|164555028|SUPERIORITY_OR_OTHER||1 - (R1/R2)|14.9||||0.11|TWO_SIDED|95.0|-3.88|30.28||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||30.28|-3.88|0.11
82422367|NCT00323622|164555028|SUPERIORITY_OR_OTHER||1 - (R1/R2)|12.79||||0.35|TWO_SIDED|95.0|-16.27|34.59||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||34.59|-16.27|0.35
82422368|NCT00323622|164555029|SUPERIORITY_OR_OTHER||1 - (R1/R2)|19.42||||0.01|TWO_SIDED|95.0|4.62|31.93||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||31.93|4.62|0.01
82426678|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.88|||<|0.0001|TWO_SIDED|95.0|-17.6|-10.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-10.2|-17.6|<0.0001
82647493|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000109|STANDARD_ERROR_OF_MEAN|0.000767||0.8875|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Mindfulness Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.8875
82422369|NCT00323622|164555029|SUPERIORITY_OR_OTHER||1 - (R1/R2)|7.08||||0.54|TWO_SIDED|95.0|-17.37|26.44||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||26.44|-17.37|0.54
82422370|NCT00323622|164555030|SUPERIORITY_OR_OTHER||1 - (R1/R2)|16.79||||0.1|TWO_SIDED|95.0|-3.75|33.25||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 21-33 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||33.25|-3.75|0.10
82422371|NCT00323622|164555030|SUPERIORITY_OR_OTHER||1 - (R1/R2)|6.31||||0.7|TWO_SIDED|95.0|-31.0|32.99||The p-value presented is the Wald Chi-square p-value from the Cox regression model.|Regression, Cox|Point estimate of efficacy was adjusted for age, geographical area of residence, bednet use and distance from health center.||The analysis aimed to compare rates of first PFMI (RPFMI) between groups over the Months 33-45 time period. Using RFPMI, a Cox model was used to evaluate vaccine efficacy (VE) allowing for adjustment factors. VE, point estimate of efficacy adjusted for covariates, was calculated as 1 - (minus) \[Hazard Ratio (HR) in Cohort 1 - RTS,S/AS02A Group \[HR1\]) divided by HR in Cohort 1 - Engerix-B/Prevnar-Hiberix Group \[HR2\])\], i. e. 1 - (HR1/HR2).||32.99|-31.00|0.70
82422372|NCT00835354|164555034|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|89.2||||||90.0|86.2|92.2|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.2|86.2|
82422373|NCT00835354|164555035|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.5||||||90.0|88.9|92.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.1|88.9|
82534416|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
82534417|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82422374|NCT00835354|164555036|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.7||||||90.0|89.1|92.3|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||92.3|89.1|
82422375|NCT01385995|164555040|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.57|TWO_SIDED|95.0|0.52|3.24|||Generalized Estimating Equation|Controlled for period and baseline 2 hour OGTT glucose level.||Based on an intent to treat approach a Generalized Estimating Equation (GEE) was used to estimate the effect of therapy (CPAP or Sham) on the odds of normalization of Impaired Glucose Tolerance (IGT). This model provides an estimate of the odds ratio of normalizing the 2-hour oral glucose tolerance test (OGTT) with CPAP compared with Sham-CPAP.||3.24|0.52|0.57
82422376|NCT01385995|164555041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.38|TWO_SIDED|95.0|-1.2|3.0|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case fasting glucose, between CPAP and sham-CPAP.||3.0|-1.2|0.38
82422377|NCT01385995|164555041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.11|TWO_SIDED|95.0|-16.3|1.7|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between measures of glucose indices, in this case, 2 hour OGTT, and therapeutic CPAP vs. Sham.||1.7|-16.3|0.11
82426679|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.94||||0.2972|TWO_SIDED|95.0|-5.6|1.7||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||1.7|-5.6|0.2972
82448217|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.55|-0.16||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.16|-0.55|
82448218|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.38|0.01||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.01|-0.38|
82448219|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-0.67|-0.27||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.27|-0.67|
82448220|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.3|0.15||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.15|-0.30|
82448221|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.63|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.63|
82448222|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.64|-0.18||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.18|-0.64|
82448223|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.59|-0.14||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.14|-0.59|
82534418|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82534419|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-6.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-6.0|<0.001
82534420|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82648132|NCT03751020|165011659|SUPERIORITY||Mean Difference (Net)|-0.33||||0.03|TWO_SIDED|95.0|-0.62|-0.03|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||-0.03|-0.62|0.03
82648133|NCT03751020|165011660|SUPERIORITY||Mean Difference (Net)|-4.03||||0.07|TWO_SIDED|95.0|-8.55|0.47|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||0.47|-8.55|0.07
82448224|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-0.54|-0.09||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.09|-0.54|
82448225|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-0.81|-0.35||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.35|-0.81|
82448226|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.01|0.34||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.34|-0.01|
82448227|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.1|0.24||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.24|-0.10|
82448228|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.1|0.25||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.25|-0.10|
82448229|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.17|0.18||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.18|-0.17|
82448230|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.13|0.51||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.51|0.13|
82448231|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|95.0|-0.11|0.27||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.27|-0.11|
82534421|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.005|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|0.005
82422378|NCT01385995|164555041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.86|TWO_SIDED|95.0|-3.3|2.7|||Regression, Linear|||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case fasting glucose, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=25.||2.7|-3.3|0.86
82422379|NCT01385995|164555041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6||||0.08|TWO_SIDED|95.0|-24.6|1.3|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of glucose indices, in this case 2-hour oral glucose tolerance test (OGTT) glucose, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N= 25.||1.3|-24.6|0.08
82422380|NCT01385995|164555042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.14|TWO_SIDED|95.0|-3.4|0.5|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case, fasting insulin, between CPAP and sham-CPAP.||0.5|-3.4|0.14
82422381|NCT01385995|164555042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7||||0.12|TWO_SIDED|95.0|-23.3|2.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case, 2-hour oral glucose tolerance test (OGTT) insulin, between CPAP and sham-CPAP.||2.8|-23.3|0.12
82422382|NCT01385995|164555042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.1|TWO_SIDED|95.0|-5.2|0.5|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case fasting insulin, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||0.5|-5.2|0.10
82422383|NCT01385995|164555042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.7||||0.002|TWO_SIDED|95.0|-46.5|-10.9|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin indices, in this case oral glucose tolerance test (OGTT) insulin, between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||-10.9|-46.5|0.002
82422384|NCT01385995|164555043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.18|TWO_SIDED|95.0|-17.6|3.8|||Regression, Linear|||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and Homeostasis Model Assessment-Insulin Resistance (HOMA-IR), between CPAP and sham-CPAP.||3.8|-17.6|0.18
82422385|NCT01385995|164555043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.1||||0.08|TWO_SIDED|95.0|-27.5|1.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and measures of insulin resistance, in this case Homeostasis Model Assessment-Insulin Resistance (HOMA-IR), between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||1.8|-27.5|0.08
82422386|NCT01385995|164555044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.2|TWO_SIDED|95.0|-2.0|9.8|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, Apnea-Hypopnea Index (AHI), gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and the Insulin Sensivity Index, between CPAP and sham-CPAP.||9.8|-2.0|0.20
82448232|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.04|0.34||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.34|-0.04|
82448233|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.13|0.25||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.25|-0.13|
82648134|NCT03751020|165011661|SUPERIORITY||Mean Difference (Net)|1.12||||0.73|TWO_SIDED|95.0|-6.48|8.77|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||8.77|-6.48|0.73
82422387|NCT01385995|164555044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.3||||0.002|TWO_SIDED|95.0|5.2|22.1|||Regression, Linear|Adjusted for period, baseline level of the outcome variable, BMI, AHI, gender and race.||Based on an intent-to-treat approach, a linear mixed effect model was used to estimate the association between therapy and the Insulin Sensitivity Index (ISI(0,120)), between CPAP and sham-CPAP, stratified for the most severe sleep apnea group (Apnea-Hypopnea Index (AHI) \>=30) in order to assess whether the differences in the effect of CPAP on outcomes were observed according to sleep apnea severity. N=23.||22.1|5.2|0.002
82422388|NCT05293314|164555118|OTHER|Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.|receiver operating characteristic|0.964|||<|0.05|TWO_SIDED|95.0|0.932|0.996|||Wilcoxon (Mann-Whitney)|||Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.||0.996|0.932|<0.05
82422389|NCT05293314|164555118|OTHER|Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.|receiver operating characteristic|0.932|||<|0.05|TWO_SIDED|95.0|0.879|0.982|||Wilcoxon (Mann-Whitney)|||Evaluate the ability of the breath test model to distinguish bronchiectasis from healthy individuals by measuring the area under the receiver operating characteristic (ROC) curves. The maximum value in the area below the receiver is 1. The closer the value is to 1, the higher the prediction accuracy of the model.||0.982|0.879|<0.05
82422390|NCT05293314|164555119|OTHER|Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.|Sensitivity|86.2|||||TWO_SIDED|95.0|77.1|95.2||||||Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.||95.2|77.1|
82422391|NCT05293314|164555119|OTHER|Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.|Sensitivity|86.2|||||TWO_SIDED|95.0|77.1|95.2||||||Sensitivity=number of true positives/(number of true positives+number of false negatives) \* 100% Sensitivity is the rate of correctly judging patients.We calculated the sensitivity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the sensitivity is 100%. The higher the percentage is , the more sensitive of the model.||95.2|77.1|
82534422|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82534423|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.063|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-2.0|0.063
82534424|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.6||0.64|TWO_SIDED|95.0|-1.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-1.0|0.64
82534425|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82576709|NCT00477490|164863741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.893|||<|0.0001|TWO_SIDED|95.0|1.795|4.715||The a priori statistically significant difference versus placebo is p≤0.05.|Regression, Logistic|Treatment difference and 95% CI were adjusted for age, absence/presence of nocturnal polyuria, and baseline number of nocturnal voids.||The trial was to be declared positive only if in the 100 μg group, a statistically significant positive effect as compared to placebo on both co-primaries was demonstrated. And only then, the next higher dose group (i.e., 50 μg) could be claimed superior to placebo, if it showed a statistically significant improvement over placebo on both co-primaries.||4.715|1.795|<0.0001
82576710|NCT01346072|164863752|SUPERIORITY|||||||0.853|||||||Wilcoxon Two-Sample Test|Wilcoxon Two Sample Test was used with Exact Test two sided p value reported||||||0.853
82648135|NCT03751020|165011662|SUPERIORITY||Mean Difference (Net)|-1.28||||0.1|TWO_SIDED|95.0|-2.8|0.24|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||0.24|-2.80|0.10
82422392|NCT05293314|164555120|OTHER|Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.|Specificity|92.5|||||TWO_SIDED|95.0|86.2|98.8||||||Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.||98.8|86.2|
82422393|NCT05293314|164555120|OTHER|Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.|Specificity|73.9|||||TWO_SIDED|95.0|56.0|91.9||||||Specificity=number of true negative cases/(number of true negative cases+number of false positive cases) \* 100% The specificity is the rate of correctly judging non patients.We calculated the specificity of the breath test model to distinguish bronchiectasis from healthy people.The maximum percentage of the specificity is 100%. The higher the percentage is , the more specificity of the model.||91.9|56|
82422394|NCT00934180|164555121|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.0||||||90.0|95.1|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|95.1|
82422395|NCT00934180|164555122|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|101.0||||||90.0|95.3|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|95.3|
82422396|NCT00934180|164555123|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|101.0||||||90.0|95.2|108.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108|95.2|
82422397|NCT00835172|164555124|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|92.1|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|92.1|
82422398|NCT00835172|164555125|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|96.8|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|96.8|
82422399|NCT00835172|164555126|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.0||||||90.0|99.3|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|99.3|
82422400|NCT02613507|164555133|SUPERIORITY|||||||0.0006|TWO_SIDED|||||The boundary for statistical significance requires the p-value to be less than 0.0231|Stratified weighted Log-Rank|Stratified weighted using G \[rho=0, gamma=1\] Fleming and Harrington.||||||0.0006
82422401|NCT02613507|164555133|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|97.7|0.52|0.9|||Stratified Cox Proportional Hazard Model|||||0.90|0.52|
82422402|NCT02613507|164555133|SUPERIORITY|||||||0.0017|||||||Log Rank|regular stratified log-rank test p-value||||||0.0017
82422403|NCT05339659|164555167|OTHER|The point null hypothesis of the significance test was a difference in expected number of log ins of 0.|Mean Difference (Final Values)|3.55||||0.219|TWO_SIDED|95.0|-2.33|9.44|||Regression, Linear||mean difference=experimental-control|A priori power calculations estimated detectable differences with 80% power with type 1 error rate=0.05, assuming a two-sided unequal variance t-test (standard deviations of 2.0 and 7.0 in the control and experimental arms, respectively) and a total sample of n=50 equally split between arms. Given a final sample size of 19 (7 control, 12 experimental), we re-calculated the detectable mean difference with these sample sizes (maintaining all other original assumptions), which is 6.51 sessions.||9.44|-2.33|0.219
82534426|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82422404|NCT05339659|164555169|OTHER|The null hypothesis for the significance test is 0 difference in average number of days of use between arms.|Mean Difference (Final Values)|-22.12||||0.153|TWO_SIDED|95.0|-53.44|9.19|||Regression, Linear||mean difference=experimental-control|||9.19|-53.44|0.153
82422405|NCT05339659|164555170|OTHER|The null hypothesis for the significance test is a relative difference=0.|Risk Difference (RD)|0.095||||0.727|TWO_SIDED|95.0|-0.352|0.558|||Barnard's exact test||risk difference=experimental-control|||0.558|-0.352|0.727
82422406|NCT05339659|164555171|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|0.5||||0.325|TWO_SIDED|95.0|-0.6|1.61|||Regression, Linear||mean difference=experimental-control|||1.61|-0.60|0.325
82422407|NCT05339659|164555172|OTHER|The null hypothesis of the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|0.22||||0.745|TWO_SIDED|95.0|-1.28|1.72|||Regression, Linear||mean difference=experimental-control|||1.72|-1.28|0.745
82422408|NCT05339659|164555173|OTHER|The null hypothesis of the significance test is a risk difference=0.|Risk Difference (RD)|0.58||||0.009|TWO_SIDED|95.0|0.16|0.85|||Barnard's exact test||risk difference=experimental-control|||0.85|0.16|0.009
82422409|NCT05339659|164555176|OTHER|The null hypothesis for the significance test is a mean difference of 0 cigarettes/day between arms.|Mean Difference (Final Values)|1.39||||0.469|TWO_SIDED|95.0|-2.66|5.44|||Regression, Linear|Adjusted for baseline cigarettes/day.|mean difference=experimental-control|||5.44|-2.66|0.469
82422410|NCT05339659|164555177|OTHER|The null hypothesis for the significance test is a mean difference of 0 cigarettes/day between arms.|Mean Difference (Final Values)|-0.66||||0.614|TWO_SIDED|95.0|-3.48|2.16|||Regression, Linear|Adjusted for baseline cigarettes/day.|mean difference=experimental-control|||2.16|-3.48|0.614
82422411|NCT05339659|164555178|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-0.14||||0.9|TWO_SIDED|95.0|-2.67|2.38|||Regression, Linear||mean difference=experimental-control|||2.38|-2.67|0.90
82422412|NCT05339659|164555179|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-0.55||||0.632|TWO_SIDED|95.0|-3.03|1.93|||Regression, Linear||mean difference=experimental-control|||1.93|-3.03|0.632
82422413|NCT05339659|164555180|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-1.31||||0.227|TWO_SIDED|95.0|-3.55|-0.94|||Regression, Linear||mean difference=experimental-control|||-0.94|-3.55|0.227
82422414|NCT05339659|164555181|OTHER|The null hypothesis for the significance test is 0 difference in average score between arms.|Mean Difference (Final Values)|-1.22||||0.274|TWO_SIDED|95.0|-3.58|1.15|||Regression, Linear||mean difference=experimental-control|||1.15|-3.58|0.274
82422415|NCT05339659|164555185|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|0.04||||0.981|TWO_SIDED|95.0|-0.39|0.39|||Barnard's exact test||risk difference=experimental-control|||0.39|-0.39|0.981
82422416|NCT05339659|164555186|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.01||||0.845|TWO_SIDED|95.0|-0.49|0.43|||Barnard's exact test||risk difference=experimental-control|||0.43|-0.49|0.845
82422417|NCT05339659|164555187|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.05||||0.56|TWO_SIDED|95.0|-0.47|0.28|||Barnard's exact test||||risk difference=experimental-control|0.28|-0.47|0.560
82422418|NCT05339659|164555188|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|0.04||||0.981|TWO_SIDED|95.0|-0.39|0.39|||Barnard's exact test||risk difference=experimental-control|||0.39|-0.39|0.981
82422419|NCT05339659|164555189|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.13||||0.632|TWO_SIDED|95.0|-0.49|0.34|||Barnard's exact test||risk difference=experimental-control|||0.34|-0.49|0.632
82422420|NCT05339659|164555190|OTHER|The null hypothesis for the significance test is 0 difference in probability of engaging with the app component.|Risk Difference (RD)|-0.03|||>|0.999|TWO_SIDED|95.0|-0.48|0.45|||Barnard's exact test||risk difference=experimental-control|||0.45|-0.48|>0.999
82422421|NCT04191135|164555219|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4556|TWO_SIDED|95.0|0.72|1.33||One-sided p-value based on log-rank test stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|Log Rank||Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.33|0.72|0.4556
82422422|NCT04191135|164555220|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3903|TWO_SIDED|95.0|0.64|1.4||One-sided p-value based on log-rank test stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|Log Rank||Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.40|0.64|0.3903
82648136|NCT03751020|165011663|SUPERIORITY||Mean Difference (Net)|0.09||||0.76|TWO_SIDED|95.0|-1.19|1.57|||Mixed Models Analysis|||The primary comparison was between EW and control to test the interaction between treatment and time.||1.57|-1.19|0.76
82422423|NCT04191135|164555221|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.59|1.43|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and BRCA status (BRCAm versus BRCAwt).|||1.43|0.59|
82422424|NCT04191135|164555222|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.53|1.76|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and BRCA status (BRCAm versus BRCAwt).|||1.76|0.53|
82422425|NCT04191135|164555223|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.33|1.48|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and tumor PD-L1 status (CPS≥1 vs CPS\<1).|||1.48|0.33|
82422426|NCT04191135|164555224|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.28|2.37|||||Estimate based on stratified Cox model with Efron's method of tie handling with treatment as a covariate stratified by response to the induction therapy (CR or PR versus SD) and tumor PD-L1 status (CPS≥1 vs CPS\<1).|||2.37|0.28|
82422427|NCT04191135|164555225|SUPERIORITY||Difference in Least Squares Means|-3.28||||0.143|TWO_SIDED|95.0|-7.69|1.12|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||1.12|-7.69|0.1430
82422428|NCT04191135|164555226|SUPERIORITY||Difference in Least Squares Means|-0.16||||0.9454|TWO_SIDED|95.0|-4.89|4.56|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||4.56|-4.89|0.9454
82422429|NCT04191135|164555227|SUPERIORITY||Difference in Least Squares Means|2.08||||0.4351|TWO_SIDED|95.0|-3.16|7.31|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||7.31|-3.16|0.4351
82422430|NCT04191135|164555228|SUPERIORITY||Difference in Least Squares Means|0.93||||0.5588|TWO_SIDED|95.0|-2.2|4.06|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||4.06|-2.20|0.5588
82422431|NCT04191135|164555229|SUPERIORITY||Difference in Least Squares Means|-0.37||||0.8408|TWO_SIDED|95.0|-4.03|3.28|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||3.28|-4.03|0.8408
82422432|NCT04191135|164555230|SUPERIORITY||Difference in Least Squares Means|-1.34||||0.795|TWO_SIDED|95.0|-11.63|8.95|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||8.95|-11.63|0.7950
82534427|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.095|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-2.0|0.095
82534428|NCT02886728|164766925|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82534429|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82422433|NCT04191135|164555231|SUPERIORITY||Difference in Least Squares Means|4.82||||0.1597|TWO_SIDED|95.0|-1.97|11.62|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||11.62|-1.97|0.1597
82422434|NCT04191135|164555232|SUPERIORITY||Difference in Least Squares Means|2.52||||0.6138|TWO_SIDED|95.0|-7.45|12.49|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||12.49|-7.45|0.6138
82422435|NCT04191135|164555233|SUPERIORITY||Difference in Least Squares Means|-1.6||||0.5567|TWO_SIDED|95.0|-7.02|3.83|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||3.83|-7.02|0.5567
82422436|NCT04191135|164555234|SUPERIORITY||Difference in Least Squares Means|5.56||||0.105|TWO_SIDED|95.0|-1.2|12.32|||cLDA|cLDA model with PRO scores as the response variable with covariates for treatment by time interaction, stratification factors as covariates.||||12.32|-1.20|0.1050
82422437|NCT04191135|164555235|SUPERIORITY||Hazard Ratio (HR)|1.78||||0.00676|TWO_SIDED|95.0|1.16|2.71|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||2.71|1.16|0.00676
82422438|NCT04191135|164555236|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96425|TWO_SIDED|95.0|0.61|1.69|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.69|0.61|0.96425
82422439|NCT04191135|164555237|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.74965|TWO_SIDED|95.0|0.69|1.71|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||1.71|0.69|0.74965
82534430|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.002|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|0.002
82534431|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82576711|NCT01346072|164863753|SUPERIORITY|||||||0.035|||||||Wilcoxon Two-Sample Test|Wilcoxon Two Sample Test was used with Exact Test two sided p value reported||||||0.035
82422440|NCT04191135|164555238|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.10502|TWO_SIDED|95.0|0.88|3.53|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and BRCA Status (BRCAm versus wild type BRCA gene).|||3.53|0.88|0.10502
82422441|NCT04191135|164555239|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.5019|TWO_SIDED|95.0|0.57|3.0|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||3.00|0.57|0.50190
82422442|NCT04191135|164555240|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.47384|TWO_SIDED|95.0|0.24|1.97|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||1.97|0.24|0.47384
82422443|NCT04191135|164555241|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.81463|TWO_SIDED|95.0|0.33|2.38|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||2.38|0.33|0.81463
82422444|NCT04191135|164555242|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.67255|TWO_SIDED|95.0|0.24|8.82|||Log Rank|Stratified log-rank test|Estimate via stratified Cox model with Efron's handling method with treatment as a covariate stratified by response to the induction therapy (CR/PR versus SD), and tumor PD-L1 status (CPS ≥1 vs CPS \<1).|||8.82|0.24|0.67255
82422445|NCT03514134|164555245|SUPERIORITY||||||<|0.001|||||||ANCOVA|Repeated measures ANCOVA||||||<0.001
82422446|NCT03514134|164555246|SUPERIORITY|||||||0.358|||||||ANCOVA|Repeated measures ANCOVA||||||0.358
82422447|NCT03514134|164555247|SUPERIORITY|||||||0.029|||||||ANCOVA|Repeated measures ANCOVA||||||0.029
82422448|NCT03514134|164555248|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82422449|NCT03514134|164555248|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
82422450|NCT03514134|164555249|SUPERIORITY|||||||0.7||||||Group by time interaction|ANOVA|Repeated measures ANOVA||||||0.70
82422451|NCT02947984|164555254|OTHER|||||||0.234|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the overall cohort.||||0.234
82448234|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.13|0.52||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.52|0.13|
82448235|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.12|0.27||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.27|-0.12|
82422452|NCT02947984|164555254|OTHER|||||||0.82|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the subgroup receiving treatment due to a sub-total resection||||.820
82422453|NCT02947984|164555254|OTHER|||||||0.061|||||||Log Rank|||Null hypothesis: Progression free survival is not significantly different by dose level in the sub-group receiving treatment due to recurrent disease||||.061
82576712|NCT01646177|164863763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82422454|NCT03360344|164555297|OTHER|non-parametric tests were used as data was not normally distributed.||||||0.48|||||||Wilcoxan signed Rank|||statistical analysis for wrist||||0.48
82422455|NCT03360344|164555297|OTHER|nonparametric test were used as the distribution was not normal.||||||0.99|||||||Wilcoxan Signed Rank|||statistical analysis for forearm||||.99
82422456|NCT03360344|164555298|OTHER|||||||0.001|||||||ANOVA|||statistical analysis for forearm||||.001
82422457|NCT03360344|164555298|OTHER|||||||0.001|||||||ANOVA|||statistical analysis for wrist||||.001
82422458|NCT03360344|164555299|OTHER|||||||0.06|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.06
82422459|NCT03360344|164555300|OTHER|||||||0.01|||||||ANCOVA|||||||.01
82422460|NCT03360344|164555301|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||.001
82422461|NCT01765400|164555316|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82422462|NCT01342666|164555319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1154|STANDARD_ERROR_OF_MEAN|0.9057|<|0.0001|TWO_SIDED|95.0|3.2925|6.9383||We did only one comparison. The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided||We compare de mean difference of the delta (final-basal levels) between groups. The values posted are the difference found in the tomato group in comparison of the control group. The mean represent the increment of HDL-c in the tomato group.|We test the effect of two daily roma tomatoes during one month in HDL-c levels. We estimate the sample size to have a 80% study power.||6.9383|3.2925|<0.0001
82422463|NCT01342666|164555319|SUPERIORITY_OR_OTHER||Slope|5.656|STANDARD_ERROR_OF_MEAN|0.789|<|0.0001|TWO_SIDED|95.0|4.027|7.232||A priori p value of \<0.05|Regression, Linear|Adjusted for adherence, smoking, age, gender, waist to hip ratio, triglycerides, body mass index, exercise, omega 3, alcohol, fish, simple sugars.|Parameters of the model: F= 4.06; r = 0.798; r2 = 0.638; p=0.001|||7.232|4.027|<0.0001
82422464|NCT01892189|164555320|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.2348|STANDARD_ERROR_OF_MEAN|0.20458||0.259|TWO_SIDED|95.0|-0.6506|0.1809|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using analysis of variance (ANOVA) model with sequence, period, regimen and participant nested within sequence as factors by regions of interest.||0.1809|-0.6506|0.259
82422465|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0367|STANDARD_ERROR_OF_MEAN|0.22075||0.869|TWO_SIDED|95.0|-0.4853|0.4119|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4119|-0.4853|0.869
82422466|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.218|STANDARD_ERROR_OF_MEAN|0.20968||0.306|TWO_SIDED|95.0|-0.6441|0.2081|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2081|-0.6441|0.306
82422467|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2525|STANDARD_ERROR_OF_MEAN|0.17956||0.169|TWO_SIDED|95.0|-0.6174|0.1124|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1124|-0.6174|0.169
82448236|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.05|0.35||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.35|-0.05|
82448237|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.08|0.31||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.31|-0.08|
82422468|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0417|STANDARD_ERROR_OF_MEAN|0.19375||0.831|TWO_SIDED|95.0|-0.4354|0.3521|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3521|-0.4354|0.831
82422469|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2421|STANDARD_ERROR_OF_MEAN|0.18403||0.197|TWO_SIDED|95.0|-0.6161|0.1319|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Anterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1319|-0.6161|0.197
82534432|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
82534433|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82534434|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82534435|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-3.0|<0.001
82576713|NCT01646177|164863763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576714|NCT01646177|164863763|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576715|NCT01646177|164863764|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82647494|NCT03593772|165010351|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00032|STANDARD_ERROR_OF_MEAN|0.00078||0.6859|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on CSS Over-identification Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6859
82422470|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1155|STANDARD_ERROR_OF_MEAN|0.1618||0.48|TWO_SIDED|95.0|-0.4443|0.2133|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2133|-0.4443|0.480
82426680|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.94|||<|0.0001|TWO_SIDED|95.0|-15.6|-8.3||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 64||-8.3|-15.6|<0.0001
82426681|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.64|||<|0.0001|TWO_SIDED|95.0|-19.4|-11.8||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-11.8|-19.4|<0.0001
82426682|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.1477|TWO_SIDED|95.0|-6.6|1.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||1.0|-6.6|0.1477
82426683|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.85|||<|0.0001|TWO_SIDED|95.0|-16.6|-9.0||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 72||-9.0|-16.6|<0.0001
82426684|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.87|||<|0.0001|TWO_SIDED|95.0|-18.6|-11.1||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-11.1|-18.6|<0.0001
82426685|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.1808|TWO_SIDED|95.0|-6.3|1.2||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||1.2|-6.3|0.1808
82426686|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.31|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 80||-8.5|-16.1|<0.0001
82647495|NCT03593772|165010352|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.01408|STANDARD_ERROR_OF_MEAN|0.01085||0.1959|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on BDI total score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1959
82448238|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|0.28|0.73||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.73|0.28|
82448239|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.05|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.05|
82448240|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.06|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.06|
82534436|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82534437|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
82534438|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
82534439|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
82534440|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82534441|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|<0.001
82534442|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.12|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-1.0|0.12
82576716|NCT01646177|164863764|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576717|NCT01646177|164863764|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82448241|NCT01393639|164604468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|||||TWO_SIDED|95.0|-0.01|0.44||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.01|
82448242|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.78|-0.04||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.04|-0.78|
82422471|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1673|STANDARD_ERROR_OF_MEAN|0.17458||0.345|TWO_SIDED|95.0|-0.1875|0.5221|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.5221|-0.1875|0.345
82422472|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1504|STANDARD_ERROR_OF_MEAN|0.16583||0.371|TWO_SIDED|95.0|-0.4874|0.1866|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1866|-0.4874|0.371
82422473|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1731|STANDARD_ERROR_OF_MEAN|0.18808||0.364|TWO_SIDED|95.0|-0.5553|0.2092|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2092|-0.5553|0.364
82422474|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1362|STANDARD_ERROR_OF_MEAN|0.20294||0.507|TWO_SIDED|95.0|-0.2762|0.5486|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.5486|-0.2762|0.507
82422475|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2464|STANDARD_ERROR_OF_MEAN|0.19276||0.21|TWO_SIDED|95.0|-0.6381|0.1453|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Posterior Cingulate Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1453|-0.6381|0.210
82422476|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3059|STANDARD_ERROR_OF_MEAN|0.14253||0.039|TWO_SIDED|95.0|-0.5955|-0.0162|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0162|-0.5955|0.039
82422477|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0134|STANDARD_ERROR_OF_MEAN|0.1538||0.931|TWO_SIDED|95.0|-0.2991|0.326|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3260|-0.2991|0.931
82448243|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||||TWO_SIDED|95.0|-1.12|-0.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.39|-1.12|
82448244|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|||||TWO_SIDED|95.0|-1.18|-0.44||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.44|-1.18|
82448245|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|95.0|-1.48|-0.74||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.74|-1.48|
82534443|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.019|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|0.019
82534444|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
82422478|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1164|STANDARD_ERROR_OF_MEAN|0.14608||0.431|TWO_SIDED|95.0|-0.4133|0.1804|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1804|-0.4133|0.431
82422479|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3269|STANDARD_ERROR_OF_MEAN|0.13362||0.02|TWO_SIDED|95.0|-0.5985|-0.0554|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0554|-0.5985|0.020
82448246|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.72|0.02||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.02|-0.72|
82448247|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|||||TWO_SIDED|95.0|-1.19|-0.46||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.46|-1.19|
82422480|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0845|STANDARD_ERROR_OF_MEAN|0.14418||0.562|TWO_SIDED|95.0|-0.3775|0.2085|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2085|-0.3775|0.562
82422481|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1727|STANDARD_ERROR_OF_MEAN|0.13695||0.216|TWO_SIDED|95.0|-0.451|0.1056|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Striatum: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1056|-0.4510|0.216
82422482|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0084|STANDARD_ERROR_OF_MEAN|0.17609||0.962|TWO_SIDED|95.0|-0.3663|0.3495|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3495|-0.3663|0.962
82422483|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0357|STANDARD_ERROR_OF_MEAN|0.19001||0.852|TWO_SIDED|95.0|-0.4218|0.3505|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3505|-0.4218|0.852
82422484|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2154|STANDARD_ERROR_OF_MEAN|0.18048||0.241|TWO_SIDED|95.0|-0.5822|0.1514|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1514|-0.5822|0.241
82422485|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.17766||0.443|TWO_SIDED|95.0|-0.4991|0.223|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2230|-0.4991|0.443
82422486|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2037|STANDARD_ERROR_OF_MEAN|0.1917||0.295|TWO_SIDED|95.0|-0.5933|0.1859|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1859|-0.5933|0.295
82422487|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0602|STANDARD_ERROR_OF_MEAN|0.18209||0.743|TWO_SIDED|95.0|-0.4303|0.3098|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Amygdala: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3098|-0.4303|0.743
82422488|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1774|STANDARD_ERROR_OF_MEAN|0.16068||0.277||95.0|-0.504|0.1491|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1491|-0.5040|0.277
82422489|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0539|STANDARD_ERROR_OF_MEAN|0.17338||0.758|TWO_SIDED|95.0|-0.4062|0.2985|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2985|-0.4062|0.758
82534445|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3||0.032|TWO_SIDED|95.0|-1.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-1.0|0.032
82576718|NCT01646177|164863765|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576719|NCT01646177|164863765|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82422490|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4377|STANDARD_ERROR_OF_MEAN|0.16468||0.012|TWO_SIDED|95.0|-0.7724|-0.1031|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.1031|-0.7724|0.012
82422491|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1037|STANDARD_ERROR_OF_MEAN|0.14849||0.49|TWO_SIDED|95.0|-0.4055|0.1981|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1981|-0.4055|0.490
82426687|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|||<|0.0001|TWO_SIDED|95.0|-18.5|-10.9||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-10.9|-18.5|<0.0001
82426688|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44||||0.2077|TWO_SIDED|95.0|-6.2|1.4||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||1.4|-6.2|0.2077
82426689|NCT00565409|164561913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.26|||<|0.0001|TWO_SIDED|95.0|-16.1|-8.5||ANCOVA model: Change = Week 36 score + treatment + geographic region + DAS28 Strata. DAS28 Strata is defined as DAS28 low disease (≤3.2) or remission (\<2.6) at randomization.|ANCOVA|||Week 88||-8.5|-16.1|<0.0001
82576720|NCT01646177|164863765|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576721|NCT01646177|164863766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576722|NCT01646177|164863766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576723|NCT01646177|164863766|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82648137|NCT01889862|165011688|SUPERIORITY||Mean Difference (Net)|-973.02|||<|0.0001|TWO_SIDED|95.0|-1204.19|-741.85||Based on Mixed-Effect Model Repeated Measure (MMRM) model with change from baseline as the response variable, and treatment, visit and treatment by visit interaction and baseline blood phe concentration as factors.|ANCOVA|||Change in blood Phe concentration during Part 2 in subjects previously exposed to BMN165 who self administer BMN165 20mg/day compared with those who self administer matching placebo.||-741.85|-1204.19|<0.0001
82422492|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1007|STANDARD_ERROR_OF_MEAN|0.16023||0.534|TWO_SIDED|95.0|-0.4263|0.2249|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2249|-0.4263|0.534
82422493|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.15219||0.169|TWO_SIDED|95.0|-0.5233|0.0953|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Substantia Nigra: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0953|-0.5233|0.169
82422494|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2641|STANDARD_ERROR_OF_MEAN|0.14118||0.07|TWO_SIDED|95.0|-0.551|0.0228|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0228|-0.5510|0.070
82422495|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0854|STANDARD_ERROR_OF_MEAN|0.15234||0.579|TWO_SIDED|95.0|-0.395|0.2242|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2242|-0.3950|0.579
82422496|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2446|STANDARD_ERROR_OF_MEAN|0.1447||0.1|TWO_SIDED|95.0|-0.5387|0.0494|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0494|-0.5387|0.100
82422497|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13533||0.113|TWO_SIDED|95.0|-0.495|0.055|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0550|-0.4950|0.113
82422498|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0527|STANDARD_ERROR_OF_MEAN|0.14603||0.72|TWO_SIDED|95.0|-0.3495|0.244|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2440|-0.3495|0.720
82426690|NCT00565409|164561914|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0001
82426691|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.8974|TWO_SIDED|95.0|0.5|2.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.5|0.5|0.8974
82426692|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.1105|TWO_SIDED|95.0|0.8|3.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||3.7|0.8|0.1105
82426693|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.19|TWO_SIDED|95.0|0.3|1.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.4|0.3|0.1900
82426694|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.18|||<|0.0001|TWO_SIDED|95.0|2.3|7.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||7.5|2.3|<0.0001
82426695|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.4032|TWO_SIDED|95.0|0.6|2.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.4|0.6|0.4032
82426696|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.23|||<|0.0001|TWO_SIDED|95.0|2.4|7.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||7.5|2.4|<0.0001
82426697|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.0001|TWO_SIDED|95.0|2.1|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.2|2.1|<0.0001
82426698|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.0272|TWO_SIDED|95.0|1.0|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||3.6|1.0|0.0272
82426699|NCT00565409|164561915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.0004|TWO_SIDED|95.0|1.4|4.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.0|1.4|0.0004
82426700|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
82534446|NCT02886728|164766926|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|<0.001
82534447|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-13.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-13.0|<0.001
82534448|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-10.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-10.0|<0.001
82422499|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.183|STANDARD_ERROR_OF_MEAN|0.1387||0.196|TWO_SIDED|95.0|-0.4649|0.0989|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Thalamus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0989|-0.4649|0.196
82422500|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2051|STANDARD_ERROR_OF_MEAN|0.20032||0.313|TWO_SIDED|95.0|-0.6122|0.202|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2020|-0.6122|0.313
82422501|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0253|STANDARD_ERROR_OF_MEAN|0.21616||0.908|TWO_SIDED|95.0|-0.414|0.4646|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4646|-0.4140|0.908
82422502|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3042|STANDARD_ERROR_OF_MEAN|0.20531||0.148|TWO_SIDED|95.0|-0.7214|0.1131|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1131|-0.7214|0.148
82422503|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3409|STANDARD_ERROR_OF_MEAN|0.17997||0.067|TWO_SIDED|95.0|-0.7066|0.0249|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0249|-0.7066|0.067
82422504|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0652|STANDARD_ERROR_OF_MEAN|0.19419||0.739|TWO_SIDED|95.0|-0.4599|0.3294|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3294|-0.4599|0.739
82422505|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4163|STANDARD_ERROR_OF_MEAN|0.18445||0.031|TWO_SIDED|95.0|-0.7912|-0.0415|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Ventrolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||-0.0415|-0.7912|0.031
82422506|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2032|STANDARD_ERROR_OF_MEAN|0.14369||0.166|TWO_SIDED|95.0|-0.4952|0.0888|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0888|-0.4952|0.166
82422507|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0932|STANDARD_ERROR_OF_MEAN|0.15504||0.552|TWO_SIDED|95.0|-0.2219|0.4083|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4083|-0.2219|0.552
82422508|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1648|STANDARD_ERROR_OF_MEAN|0.14727||0.271|TWO_SIDED|95.0|-0.4641|0.1345|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1345|-0.4641|0.271
82422509|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2516|STANDARD_ERROR_OF_MEAN|0.16169||0.129|TWO_SIDED|95.0|-0.5802|0.077|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0770|-0.5802|0.129
82426701|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
82426702|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82426703|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82422510|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1279|STANDARD_ERROR_OF_MEAN|0.17447||0.468|TWO_SIDED|95.0|-0.2266|0.4825|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4825|-0.2266|0.468
82422511|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2033|STANDARD_ERROR_OF_MEAN|0.16572||0.228|TWO_SIDED|95.0|-0.5401|0.1334|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Dorsolateral Prefrontal Cortex: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1334|-0.5401|0.228
82422512|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13268||0.141|TWO_SIDED|95.0|-0.4696|0.0696|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0696|-0.4696|0.141
82422513|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0065|STANDARD_ERROR_OF_MEAN|0.14317||0.964|TWO_SIDED|95.0|-0.2975|0.2844|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2844|-0.2975|0.964
82422514|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1935|STANDARD_ERROR_OF_MEAN|0.13599||0.164|TWO_SIDED|95.0|-0.4699|0.0828|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0828|-0.4699|0.164
82422515|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1446|STANDARD_ERROR_OF_MEAN|0.13315||0.285|TWO_SIDED|95.0|-0.4152|0.126|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1260|-0.4152|0.285
82422516|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0176|STANDARD_ERROR_OF_MEAN|0.14368||0.903|TWO_SIDED|95.0|-0.3096|0.2744|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.2744|-0.3096|0.903
82422517|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1615|STANDARD_ERROR_OF_MEAN|0.13647||0.245|TWO_SIDED|95.0|-0.4388|0.1159|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Hippocampus: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1159|-0.4388|0.245
82422518|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3659|STANDARD_ERROR_OF_MEAN|0.45708||0.429|TWO_SIDED|95.0|-0.563|1.2948|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.2948|-0.5630|0.429
82422519|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0395|STANDARD_ERROR_OF_MEAN|0.49321||0.937|TWO_SIDED|95.0|-0.9628|1.0419|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.0419|-0.9628|0.937
82422520|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7902|STANDARD_ERROR_OF_MEAN|0.46847||0.101|TWO_SIDED|95.0|-0.1618|1.7423|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.7423|-0.1618|0.101
82422521|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4404|STANDARD_ERROR_OF_MEAN|0.43756||0.321|TWO_SIDED|95.0|-1.3296|0.4488|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4488|-1.3296|0.321
82422522|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4685|STANDARD_ERROR_OF_MEAN|0.47214||0.328|TWO_SIDED|95.0|-1.428|0.491|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.4910|-1.4280|0.328
82576724|NCT01646177|164863767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82426704|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
82426705|NCT00565409|164561916|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
82426706|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.29||||0.1718|TWO_SIDED|95.0|0.5|10.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||10.7|0.5|0.1718
82426707|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.8303|TWO_SIDED|95.0|0.2|7.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||7.3|0.2|0.8303
82576725|NCT01646177|164863767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576726|NCT01646177|164863767|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82422523|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.44846||0.356|TWO_SIDED|95.0|-0.4914|1.3314|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Subgenual Cingulate/BA25: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||1.3314|-0.4914|0.356
82422524|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2254|STANDARD_ERROR_OF_MEAN|0.1679||0.188|TWO_SIDED|95.0|-0.5666|0.1158|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32. Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1158|-0.5666|0.188
82422525|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0232|STANDARD_ERROR_OF_MEAN|0.18117||0.899|TWO_SIDED|95.0|-0.3914|0.3449|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3449|-0.3914|0.899
82422526|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2534|STANDARD_ERROR_OF_MEAN|0.17208||0.15|TWO_SIDED|95.0|-0.6032|0.0963|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Left Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0963|-0.6032|0.150
82422527|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2821|STANDARD_ERROR_OF_MEAN|0.19038||0.148|TWO_SIDED|95.0|-0.669|0.1048|||ANOVA||Difference between least square means of TAK-063 3 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA3: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.1048|-0.6690|0.148
82422528|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.048|STANDARD_ERROR_OF_MEAN|0.20543||0.817|TWO_SIDED|95.0|-0.4655|0.3695|||ANOVA||Difference between least square means of TAK-063 10 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.3695|-0.4655|0.817
82422529|NCT01892189|164555320|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3395|STANDARD_ERROR_OF_MEAN|0.19513||0.091|TWO_SIDED|95.0|-0.7361|0.057|||ANOVA||Difference between least square means of TAK-063 30 mg and Placebo.|Test the equality on the means between TAK-063 and Placebo for the region Right Paracingulte gyrus/BA32: Values were obtained using an ANOVA model with sequence, period, regimen, and participant nested within sequence as factors by regions of interest.||0.0570|-0.7361|0.091
82422530|NCT00856557|164555350|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is equal distribution of proportion of successful encounters among groups||||0.33
82422531|NCT00856557|164555350|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.724|STANDARD_ERROR_OF_MEAN|0.346||0.036|TWO_SIDED||||||Mixed Models Analysis|||Considering all encounters (n=179) of all physicians for who outcomes were measured (n=111) together, are encounters in which physicians contextualized the plan of care more likely to be associated with target health outcome achievement than encounters in which physicians did not, controlling for clustering of encounters within physicians. (Generalized logistic mixed model, with random intercept for physician)||||.036
82422532|NCT00856557|164555351|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.99
82422533|NCT00856557|164555352|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.39
82422534|NCT02378480|164555362|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.7|||||TWO_SIDED|95.0|-6.3|4.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||4.9|-6.3|
82534449|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-10.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-10.0|<0.001
82422535|NCT02378480|164555363|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.5|||||TWO_SIDED|95.0|-3.2|8.2|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.2|-3.2|
82422536|NCT02378480|164555364|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.8|||||TWO_SIDED|95.0|-1.0|6.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||6.9|-1.0|
82422537|NCT04507763|164555375|OTHER|||||||0.001|||||||Regression, Logistic|||Change from Baseline at Month 12: For Early Referral||||0.001
82422538|NCT04507763|164555376|OTHER|||||||0.001|||||||Regression, Logistic|||Change from Baseline at Month 12: For Early Referral||||0.001
82422539|NCT01905540|164555377|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Ratio of geometric LS means|1.244|||||TWO_SIDED|90.0|1.081|1.43||||||||1.430|1.081|
82576727|NCT01646177|164863768|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576728|NCT01646177|164863768|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576729|NCT01646177|164863768|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82448248|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|||||TWO_SIDED|95.0|-0.85|0.0||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.00|-0.85|
82448249|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|||||TWO_SIDED|95.0|-1.15|-0.31||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.31|-1.15|
82448250|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-1.37|-0.52||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.52|-1.37|
82448251|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.39|-0.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.39|
82448252|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|||||TWO_SIDED|95.0|-0.67|0.18||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.18|-0.67|
82448253|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|95.0|-1.33|-0.49||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.49|-1.33|
82448254|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.9|0.02||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.02|-0.90|
82448255|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|||||TWO_SIDED|95.0|-1.32|-0.41||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.41|-1.32|
82448256|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.07|||||TWO_SIDED|95.0|-1.53|-0.62||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.62|-1.53|
82534450|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-15.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-15.0|<0.001
82534451|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.8||0.001|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.001
82448257|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.05|||||TWO_SIDED|95.0|-1.51|-0.6||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.60|-1.51|
82448258|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|||||TWO_SIDED|95.0|-0.89|0.03||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.03|-0.89|
82448259|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.04|||||TWO_SIDED|95.0|-1.5|-0.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-1.50|
82448260|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|95.0|-1.0|-0.03||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-1.00|
82448261|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.91|||||TWO_SIDED|95.0|-1.4|-0.43||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.43|-1.40|
82448262|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.29|||||TWO_SIDED|95.0|-1.77|-0.8||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.80|-1.77|
82448263|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.69|-0.72||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.72|-1.69|
82448264|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.98|-0.01||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.01|-0.98|
82448265|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-1.69|-0.73||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.73|-1.69|
82448266|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.41|||||TWO_SIDED|95.0|0.04|0.78||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.78|0.04|
82448267|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.29|0.44||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.29|
82448268|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.35|0.38||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.38|-0.35|
82448269|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|||||TWO_SIDED|95.0|-0.65|0.08||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.08|-0.65|
82534452|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
82576730|NCT01646177|164863769|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422540|NCT01905540|164555378|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Geometric LS Means|1.233|||||TWO_SIDED|90.0|1.07|1.422||||||||1.422|1.070|
82422541|NCT01905540|164555379|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The statistical comparison of log-transformed pharmacokinetic parameters between the single-dose treatment groups (Treatments AQ and SS) was based on the 90% CI for the ratio of the geometric means. If the 90% CI was entirely contained within the acceptance range of 0.8-1.25 then it was concluded that there was no statistically significant difference between treatments for the relevant parameter. Doses were normalized to the SSP-004184AQ (40mg/kg) dose prior to statistical analysis.|Ratio of geometric LS means|1.344|||||TWO_SIDED|90.0|1.135|1.592||||||||1.592|1.135|
82422542|NCT02743962|164555387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_DEVIATION|2.12|||TWO_SIDED|||||||||The control group reported a mean reduction in O'Leary-Sant Insterstitial Cystitis Symptom Score from baseline to 6 weeks that met the MCID (4 points), whereas the TW group reported a reduction of 1.5 times the MCID (ISCI score change: control group 4.25, + 0.95, TW group 6.2, + 0.83). From 6 to 12 weeks the control group reported no change in ISCI score (0 + 0.95) whereas the Therapeutic Wand group ISCI socre reduced by 1.8 +1.73.||||
82422543|NCT02743962|164555387|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.25|STANDARD_DEVIATION|2.67|||TWO_SIDED|||||||||There was a small mean baseline ICPI score difference of 1.2 points between the groups (control group 10.5, +, TW group 11.2, + 2.68). Both groups reported a reduction in their ICPI scores from baseline to twelve weeks; the control group nearly met the minimal clinically important difference of 4 points and the TW group reported nearly twice the control group's score change (mean change control group 3.75, + 2.44, TW group 7, + 1.87).||||
82422544|NCT04023045|164555395|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422545|NCT04023045|164555396|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82448270|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.48|||||TWO_SIDED|95.0|0.06|0.91||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.91|0.06|
82448271|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.24|0.6||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.60|-0.24|
82448272|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.46|0.38||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.38|-0.46|
82448273|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.48|0.37||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.37|-0.48|
82576731|NCT01646177|164863769|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422546|NCT04023045|164555397|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422547|NCT04023045|164555398|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422548|NCT04023045|164555399|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422549|NCT04023045|164555400|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422550|NCT04023045|164555401|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422551|NCT04023045|164555402|OTHER||||||||||||||||||Descriptive analyses (mean and standard deviation) were used to compare the Habitual condition to the Assist-Knee conditions.|||
82422552|NCT00725985|164555403|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.381|||<|0.0001|TWO_SIDED|95.0|0.248|0.584||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.584|0.248|<0.0001
82422553|NCT00725985|164555403|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.327|||<|0.0001|TWO_SIDED|95.0|0.21|0.509||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.509|0.210|< 0.0001
82422554|NCT00725985|164555404|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.331|0.547||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.547|0.331|< 0.0001
82422555|NCT00725985|164555404|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.497|||<|0.0001|TWO_SIDED|95.0|0.39|0.633||The treatment effect was also assessed by hazard ratios using the Cox's proportional hazards model.|two-sided Wald test|||||0.633|0.390|< 0.0001
82422556|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.667|||<|0.0001|TWO_SIDED|95.0|-0.971|-0.5|||ANCOVA|||CUA lesions||-0.500|-0.971|<0.0001
82422557|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.625|||<|0.0001|TWO_SIDED|95.0|-0.857|-0.429|||ANCOVA|||CUA lesions||-0.429|-0.857|<0.0001
82422558|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.333|-0.167|||ANCOVA|||T1 Gd-Enhancing Lesions||-0.167|-0.333|<0.0001
82422559|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.375|-0.167|||ANCOVA|||T1 Gd-Enhancing Lesions||-0.167|-0.375|<0.0001
82422560|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.333|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.167|||ANCOVA|||T2 Lesions||-0.167|-0.500|<0.0001
82422561|NCT00725985|164555405|SUPERIORITY||Median Difference (Final Values)|-0.286|||<|0.0001|TWO_SIDED|95.0|-0.429|-0.143|||ANCOVA|||T2 Lesions||-0.143|-0.429|<0.0001
82422562|NCT00725985|164555424|SUPERIORITY||Point Estimate|-1.7|||<|0.0001|TWO_SIDED|95.0|-37.2|0.0|||ANCOVA|||||0.000|-37.200|<0.0001
82422563|NCT00725985|164555424|SUPERIORITY||Point Estimate|-28.6|||<|0.0001|TWO_SIDED|95.0|-117.3|0.0|||ANCOVA|||||0.000|-117.300|<0.0001
82422564|NCT06045273|164555469|SUPERIORITY||Slope|0.224|STANDARD_ERROR_OF_MEAN|0.064||0.0006|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.0006
82422565|NCT06045273|164555470|SUPERIORITY||Slope|0.084|STANDARD_ERROR_OF_MEAN|0.043||0.0504|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.0504
82422566|NCT06045273|164555471|SUPERIORITY||Slope|0.131|STANDARD_ERROR_OF_MEAN|0.04||0.00134|TWO_SIDED||||||Satterthwaite approximations|Also used a mixed models analysis||||||0.00134
82422567|NCT02743221|164555472|OTHER|This was a non-comparative study.|Hazard Ratio (HR)|0.71||||0.09|TWO_SIDED|95.0|0.48|1.06|||Cox proportional hazard model|Cox proportional hazard model with adjustment for the stratification factors (RAS status, performance status ECOG)||||1.06|0.48|0.09
82422568|NCT02743221|164555473|OTHER|||||||0.73|||||||Fisher Exact|||||||0.73
82422569|NCT02743221|164555474|OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.49|2.74||||||||2.74|0.49|
82422570|NCT02743221|164555475|OTHER|||||||0.22|||||||Fisher Exact|||||||0.22
82422571|NCT02743221|164555476|OTHER||Hazard Ratio (HR)|0.56||||0.04|TWO_SIDED|95.0|0.32|0.98|||Cox proportional hazard model|||||0.98|0.32|0.04
82422572|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.108|||<|0.001|TWO_SIDED|95.0|0.055|0.161|||Mixed Models Analysis|||||0.161|0.055|<0.001
82422573|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.117|||<|0.001|TWO_SIDED|95.0|0.064|0.171|||Mixed Models Analysis|||||0.171|0.064|<0.001
82422574|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.162|||<|0.001|TWO_SIDED|95.0|0.107|0.216|||Mixed Models Analysis|||||0.216|0.107|<0.001
82422575|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.122|||<|0.001|TWO_SIDED|95.0|0.069|0.175|||Mixed Models Analysis|||||0.175|0.069|<0.001
82422576|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.009||||0.556|TWO_SIDED|95.0|-0.021|0.039|||Mixed Models Analysis|||||0.039|-0.021|0.556
82422577|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.053||||0.001|TWO_SIDED|95.0|0.021|0.085|||Mixed Models Analysis|||||0.085|0.021|0.001
82422578|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.014||||0.365|TWO_SIDED|95.0|-0.016|0.044|||Mixed Models Analysis|||||0.044|-0.016|0.365
82422579|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.044||||0.006|TWO_SIDED|95.0|0.013|0.076|||Mixed Models Analysis|||||0.076|0.013|0.006
82422580|NCT02796651|164555539|SUPERIORITY||LSMean difference|0.005||||0.756|TWO_SIDED|95.0|-0.026|0.036|||Mixed Models Analysis|||||0.036|-0.026|0.756
82422581|NCT02796651|164555539|SUPERIORITY||LSMean difference|-0.039||||0.014|TWO_SIDED|95.0|-0.071|-0.008|||Mixed Models Analysis|||||-0.008|-0.071|0.014
82422582|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.13|||<|0.001|TWO_SIDED|95.0|0.091|0.169|||Mixed Models Analysis|||||0.169|0.091|<0.001
82422583|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.167|||<|0.001|TWO_SIDED|95.0|0.128|0.206|||Mixed Models Analysis|||||0.206|0.128|<0.001
82422584|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.224|||<|0.001|TWO_SIDED|95.0|0.184|0.263|||Mixed Models Analysis|||||0.263|0.184|<0.001
82422585|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.214|||<|0.001|TWO_SIDED|95.0|0.176|0.253|||Mixed Models Analysis|||||0.253|0.176|<0.001
82422586|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.265|||<|0.001|TWO_SIDED|95.0|0.226|0.304|||Mixed Models Analysis|||||0.304|0.226|<0.001
82422587|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.037||||0.004|TWO_SIDED|95.0|0.012|0.062|||Mixed Models Analysis|||||0.062|0.012|0.004
82576732|NCT01646177|164863769|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422588|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.094|||<|0.001|TWO_SIDED|95.0|0.068|0.119|||Mixed Models Analysis|||||0.119|0.068|<0.001
82422589|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.084|||<|0.001|TWO_SIDED|95.0|0.059|0.11|||Mixed Models Analysis|||||0.110|0.059|<0.001
82422590|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.135|||<|0.001|TWO_SIDED|95.0|0.109|0.161|||Mixed Models Analysis|||||0.161|0.109|<0.001
82422591|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.057|||<|0.001|TWO_SIDED|95.0|0.031|0.082|||Mixed Models Analysis|||||0.082|0.031|<0.001
82422592|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.047|||<|0.001|TWO_SIDED|95.0|0.023|0.071|||Mixed Models Analysis|||||0.071|0.023|<0.001
82422593|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.098|||<|0.001|TWO_SIDED|95.0|0.073|0.123|||Mixed Models Analysis|||||0.123|0.073|<0.001
82422594|NCT02796651|164555540|SUPERIORITY||LSMean difference|-0.009||||0.469|TWO_SIDED|95.0|-0.035|0.016|||Mixed Models Analysis|||||0.016|-0.035|0.469
82422595|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.041||||0.002|TWO_SIDED|95.0|0.015|0.068|||Mixed Models Analysis|||||0.068|0.015|0.002
82422596|NCT02796651|164555540|SUPERIORITY||LSMean difference|0.051|||<|0.001|TWO_SIDED|95.0|0.025|0.076|||Mixed Models Analysis|||||0.076|0.025|<0.001
82422597|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.159|||<|0.001|TWO_SIDED|95.0|0.105|0.213|||Mixed Models Analysis|||||0.213|0.105|<0.001
82422598|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.17|||<|0.001|TWO_SIDED|95.0|0.116|0.224|||Mixed Models Analysis|||||0.224|0.116|<0.001
82422599|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.219|||<|0.001|TWO_SIDED|95.0|0.163|0.274|||Mixed Models Analysis|||||0.274|0.163|<0.001
82422600|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.179|||<|0.001|TWO_SIDED|95.0|0.125|0.233|||Mixed Models Analysis|||||0.233|0.125|<0.001
82422601|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.011||||0.488|TWO_SIDED|95.0|-0.02|0.042|||Mixed Models Analysis|||||0.042|-0.020|0.488
82422602|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.06|||<|0.001|TWO_SIDED|95.0|0.027|0.092|||Mixed Models Analysis|||||0.092|0.027|<0.001
82422603|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.02||||0.206|TWO_SIDED|95.0|-0.011|0.051|||Mixed Models Analysis|||||0.051|-0.011|0.206
82422604|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.049||||0.004|TWO_SIDED|95.0|0.016|0.081|||Mixed Models Analysis|||||0.081|0.016|0.004
82422605|NCT02796651|164555541|SUPERIORITY||LSMean difference|0.009||||0.567|TWO_SIDED|95.0|-0.022|0.041|||Mixed Models Analysis|||||0.041|-0.022|0.567
82422606|NCT02796651|164555541|SUPERIORITY||LSMean difference|-0.039||||0.017|TWO_SIDED|95.0|-0.072|-0.007|||Mixed Models Analysis|||||-0.007|-0.072|0.017
82422607|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.075||||0.027|TWO_SIDED|95.0|0.008|0.141|||Mixed Models Analysis|||||0.141|0.008|0.027
82422608|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.065||||0.054|TWO_SIDED|95.0|-0.001|0.131|||Mixed Models Analysis|||||0.131|-0.001|0.054
82422609|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.1||||0.004|TWO_SIDED|95.0|0.032|0.168|||Mixed Models Analysis|||||0.168|0.032|0.004
82422610|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.059||||0.075|TWO_SIDED|95.0|-0.006|0.123|||Mixed Models Analysis|||||0.123|-0.006|0.075
82422611|NCT02796651|164555542|SUPERIORITY||LSMean difference|-0.01||||0.615|TWO_SIDED|95.0|-0.048|0.028|||Mixed Models Analysis|||||0.028|-0.048|0.615
82422612|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.025||||0.209|TWO_SIDED|95.0|-0.014|0.065|||Mixed Models Analysis|||||0.065|-0.014|0.209
82422613|NCT02796651|164555542|SUPERIORITY||LSMean difference|-0.016||||0.403|TWO_SIDED|95.0|-0.053|0.022|||Mixed Models Analysis|||||0.022|-0.053|0.403
82422614|NCT02796651|164555542|SUPERIORITY||LSMean difference|0.035||||0.074|TWO_SIDED|95.0|-0.003|0.074|||Mixed Models Analysis|||||0.074|-0.003|0.074
82422615|NCT02796651|164555542|SUPERIORITY||LSMean difference|-0.006||||0.75|TWO_SIDED|95.0|-0.045|0.032|||Mixed Models Analysis|||||0.032|-0.045|0.750
82422616|NCT02796651|164555542|SUPERIORITY||LSMean difference|-0.041||||0.035|TWO_SIDED|95.0|-0.08|-0.003|||Mixed Models Analysis|||||-0.003|-0.080|0.035
82422617|NCT04918771|164555556|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.0003|TWO_SIDED|95.0|0.51|1.67|||t-test, 2 sided|||Mean time to resolution of ARVI symptoms||1.67|0.51|0.0003
82422618|NCT04918771|164555557|SUPERIORITY||Mean Difference (Final Values)|2.35||||0.3274|TWO_SIDED|95.0|-2.36|7.06|||t-test, 2 sided|||Mean AUC score for severity of ARVI (Clinically Diagnosed and/or PCR-confirmed).||7.06|-2.36|0.3274
82422619|NCT04918771|164555557|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.1171|TWO_SIDED|95.0|-1.34|11.93|||t-test, 2 sided|||Mean AUC score for severity of ARVI (PCR-confirmed).||11.93|-1.34|0.1171
82422620|NCT04918771|164555558|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82422621|NCT04918771|164555559|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.0073|TWO_SIDED|95.0|0.16|1.0|||t-test, 2 sided|||The mean time to Resolution of ARVI Symptoms was analysed.||1.00|0.16|0.0073
82422622|NCT04918771|164555560|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82422623|NCT04918771|164555561|SUPERIORITY|||||||0.3627|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 1.||||0.3627
82422624|NCT04918771|164555561|SUPERIORITY|||||||0.5578|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 2.||||0.5578
82422625|NCT04918771|164555561|SUPERIORITY|||||||0.7688|||||||Wilcoxon (Mann-Whitney)|||Dosing Frequency of Antipyretics. Comparison for Day 3.||||0.7688
82422626|NCT04918771|164555562|SUPERIORITY|||||||0.4926|||||||Fisher Exact|||||||0.4926
82422627|NCT04918771|164555563|SUPERIORITY|||||||0.021|||||||Fisher Exact|||Comparison of severity distributions.||||0.021
82422628|NCT04918771|164555563|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison for outcome distribution.||||1.00
82422629|NCT04918771|164555564|SUPERIORITY|||||||0.7848|||||||Median test|||Comparison for Visit 1.||||0.7848
82422630|NCT04918771|164555564|SUPERIORITY|||||||0.9596|||||||Median test|||Comparison for Visit 2.||||0.9596
82422631|NCT04918771|164555564|SUPERIORITY|||||||0.6902|||||||Median test|||Comparison for Visit 3.||||0.6902
82422632|NCT04918771|164555565|SUPERIORITY|||||||0.3266|||||||Median test|||Comparison for Visit 1.||||0.3266
82422633|NCT04918771|164555565|SUPERIORITY|||||||0.093|||||||Median test|||Comparison for Visit 2.||||0.0930
82422634|NCT04918771|164555565|SUPERIORITY|||||||0.2308|||||||Median test|||Comparison for Visit 3.||||0.2308
82422635|NCT04918771|164555566|SUPERIORITY|||||||0.661|||||||Median test|||Comparison for Visit 1/Systolic blood pressure.||||0.6610
82576733|NCT01646177|164863770|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422636|NCT04918771|164555566|SUPERIORITY|||||||0.4884|||||||Median test|||Comparison for Visit 2/Systolic blood pressure.||||0.4884
82422637|NCT04918771|164555566|SUPERIORITY|||||||0.3494|||||||Median test|||Comparison for Visit 3/Systolic blood pressure.||||0.3494
82422638|NCT04918771|164555566|SUPERIORITY|||||||0.9531|||||||Median test|||Comparison for Visit 1/Diastolic blood pressure.||||0.9531
82422639|NCT04918771|164555566|SUPERIORITY|||||||0.5506|||||||Median test|||Comparison for Visit 2/Diastolic blood pressure.||||0.5506
82422640|NCT04918771|164555566|SUPERIORITY|||||||0.8259|||||||Median test|||Comparison for Visit 3/Diastolic blood pressure.||||0.8259
82422641|NCT04918771|164555567|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82422642|NCT02702999|164555576|SUPERIORITY||Risk Ratio (RR)|3.9|||||TWO_SIDED|95.0|0.9|18.0|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||18.0|0.9|
82422643|NCT02702999|164555577|SUPERIORITY||Risk Ratio (RR)|3.9|||||TWO_SIDED|95.0|0.9|18.0|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||18.0|0.9|
82422644|NCT02702999|164555578|SUPERIORITY||Risk Ratio (RR)|1.9|||||TWO_SIDED|95.0|0.4|10.5|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||10.5|0.4|
82422645|NCT02702999|164555579|SUPERIORITY||Risk Ratio (RR)|5.4|||||TWO_SIDED|95.0|1.2|23.7|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||23.7|1.2|
82422646|NCT02702999|164555580|SUPERIORITY||Risk Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.03|2.1|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||2.1|0.03|
82422647|NCT02702999|164555581|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.4|2.3|||||The intervention arm and control arm were compared using a log binomial (or Poisson in case of nonconvergence) model with the intervention arm as a covariate to estimate relative risk and 95% confidence interval (CI).|||2.3|0.4|
82422648|NCT04910165|164555584|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
82422649|NCT04910165|164555585|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
82422650|NCT04910165|164555586|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
82422651|NCT04910165|164555587|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
82422652|NCT04910165|164555588|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Wilcoxon (Mann-Whitney)|||||||<0.05
82422653|NCT04910165|164555589|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Fisher Exact|||||||<0.05
82422654|NCT04910165|164555590|SUPERIORITY||||||<|0.05||||||p-values reported are calculated by the listed statistical test.|Fisher Exact|||||||<0.05
82576734|NCT01646177|164863770|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422655|NCT01287208|164555591|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82422656|NCT01287208|164555594|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82422657|NCT01441492|164555604|OTHER|||||||0.804|||||||Chi-squared|||the study is powered to be able to detect a 15% difference in the ≥ Grade II complication rate between the drain and no drain groups. A total of 342 evaluable patients will be needed for the two study groups (n=171 per group) in order to achieve 80% power to detect a 15% increase or decrease in the complication rate with a significance level of 0.05.||||0.804
82422658|NCT03863574|164555624|OTHER|Proof of Concept||||||0.7689|||||||t-test, 2 sided|||||||0.7689
82422659|NCT03863574|164555624|OTHER|Proof-of-concept||||||0.6007|||||||t-test, 2 sided|||||||0.6007
82422660|NCT03863574|164555625|OTHER|||||||0.5238|||||||Fisher Exact|||||||0.5238
82422661|NCT03863574|164555625|OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
82422662|NCT03863574|164555626|OTHER|Proof-of-concept||||||0.0476|||||||Fisher Exact|||||||0.0476
82422663|NCT03863574|164555626|OTHER|Proof-of-concept||||||0.0333|||||||Fisher Exact|||||||0.0333
82422664|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.6845|||||||t-test, 2 sided|||Outcome Variable: Steatosis||||0.6845
82422665|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.4625|||||||t-test, 2 sided|||Outcome Variable: Steatosis||||0.4625
82422666|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||Outcome Variable: Lobular Inflammation||||0.1705
82422667|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.3122|||||||t-test, 2 sided|||Outcome variable: Lobular Inflammation||||0.3122
82422668|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||Outcome Variable: Hepatocyte Ballooning||||0.1705
82422669|NCT03863574|164555627|OTHER|Proof-of-concept||||||0.3877|||||||t-test, 2 sided|||Outcome Variable: Hepatocyte Ballooning||||0.3877
82422670|NCT03863574|164555628|OTHER|Proof-of-concept||||||0.1705|||||||t-test, 2 sided|||||||0.1705
82422671|NCT03863574|164555628|OTHER|Proof-of-concept||||||0.174|||||||t-test, 2 sided|||||||0.1740
82422672|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.8019|||||||t-test, 2 sided|||Outcome variable: Alanine Aminotransferase||||0.8019
82422673|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.5396|||||||t-test, 2 sided|||Outcome Variable: Alanine Aminotransferase||||0.5396
82422674|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.774|||||||t-test, 2 sided|||Outcome Variable: Aspartate Aminotransferase||||0.7740
82422675|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.9221|||||||t-test, 2 sided|||Outcome Variable: Aspartate Aminotransferase||||0.9221
82422676|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.003|||||||t-test, 2 sided|||Outcome Variable: Alkaline Phosphatase||||0.0030
82576735|NCT01646177|164863770|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82576736|NCT01646177|164863771|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82534453|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
82534454|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.0||0.009|TWO_SIDED|95.0|-9.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-9.0|0.009
82534455|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.0||0.003|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.003
82422677|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.0177|||||||t-test, 2 sided|||Outcome Variable: Alkaline Phosphatase||||0.0177
82422678|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.1399|||||||t-test, 2 sided|||Outcome Variable: Gamma Glutamyl Transferase||||0.1399
82422679|NCT03863574|164555629|OTHER|Proof-of-concept||||||0.2384|||||||t-test, 2 sided|||Outcome Variable: Gamma Glutamyl Transferase||||0.2384
82422680|NCT03863574|164555630|OTHER|Proof-of-concept||||||0.2218|||||||t-test, 2 sided|||Outcome Variable: Albumin||||0.2218
82422681|NCT03863574|164555630|OTHER|Proof-of-Concept||||||0.1483|||||||t-test, 2 sided|||Outcome Variable: Albumin||||0.1483
82422682|NCT03863574|164555630|OTHER|Proof-of-concept||||||0.0839|||||||t-test, 2 sided|||Outcome Variable: Total Protein||||0.0839
82422683|NCT03863574|164555630|OTHER|Proof-of-concept||||||0.2895|||||||t-test, 2 sided|||Outcome Variable: Total Protein||||0.2895
82422684|NCT03863574|164555631|OTHER|Proof-of-concept||||||0.6808|||||||t-test, 2 sided|||Outcome Variable: Direct Bilirubin||||0.6808
82422685|NCT03863574|164555631|OTHER|Proof-of-concept||||||0.5351|||||||t-test, 2 sided|||Outcome Variable: Direct Bilirubin||||0.5351
82422686|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.2329|||||||t-test, 2 sided|||Outcome Variable: Triglyceride||||0.2329
82422687|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.7211|||||||t-test, 2 sided|||Outcome Variable: Triglyceride||||0.7211
82422688|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.652|||||||t-test, 2 sided|||Outcome Variables: Total Cholesterol||||0.6520
82422689|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.4302|||||||t-test, 2 sided|||Outcome Variable: Total Cholesterol||||0.4302
82422690|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.9432|||||||t-test, 2 sided|||Outcome Variable: High-density Lipoprotein||||0.9432
82534456|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
82422691|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.2133|||||||t-test, 2 sided|||Outcome Variable: High-density Lipoprotein||||0.2133
82422692|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.2446|||||||t-test, 2 sided|||Outcome Variable: Low-density lipoprotein||||0.2446
82422693|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.7075|||||||t-test, 2 sided|||Outcome Variable: Low-density lipoprotein||||0.7075
82422694|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.2195|||||||t-test, 2 sided|||Outcome Variable: Very low-density lipoprotein||||0.2195
82422695|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.7435|||||||t-test, 2 sided|||Outcome Variable: Very low-density lipoprotein||||0.7435
82422696|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.5702|||||||t-test, 2 sided|||Outcome Variable: non-HDL Cholesterol||||0.5702
82422697|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.6441|||||||t-test, 2 sided|||Outcome Variable: non-HDL Cholesterol||||0.6441
82422698|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.8415|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein A1||||0.8415
82422699|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.0786|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein A1||||0.0786
82422700|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.8878|||||||t-test, 2 sided|||Outcome Variable: Apo lipoprotein B||||0.8878
82422701|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.3219|||||||t-test, 2 sided|||Outcome variable: Apo lipoprotein B||||0.3219
82422702|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.6557|||||||t-test, 2 sided|||Outcome Variable: Small dense LDL||||0.6557
82576737|NCT01646177|164863771|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82576738|NCT01646177|164863771|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422703|NCT03863574|164555632|OTHER|Proof-of-concept||||||0.0763|||||||t-test, 2 sided|||Outcome Variable: Small dense LDL||||0.0763
82422704|NCT03863574|164555634|OTHER|Proof-of-concept||||||0.6988|||||||t-test, 2 sided|||||||0.6988
82422705|NCT03863574|164555634|OTHER|Proof-of-concept||||||0.7413|||||||t-test, 2 sided|||||||0.7413
82422706|NCT03863574|164555635|OTHER|Proof-of-concept||||||0.22|||||||t-test, 2 sided|||||||0.2200
82422707|NCT03863574|164555635|OTHER|Proof-of-concept||||||0.5798|||||||t-test, 2 sided|||||||0.5798
82422708|NCT03863574|164555636|OTHER|Proof-of-concept||||||0.4981|||||||t-test, 2 sided|||||||0.4981
82422709|NCT03863574|164555636|OTHER|Proof-of-concept||||||0.8939|||||||t-test, 2 sided|||||||0.8939
82422710|NCT03863574|164555637|OTHER|Proof-of-concept||||||0.3605|||||||t-test, 2 sided|||||||0.3605
82422711|NCT03863574|164555637|OTHER|Proof-of-concept||||||0.8394|||||||t-test, 2 sided|||||||0.8394
82422712|NCT03863574|164555638|OTHER|Proof-of-concept||||||0.2665|||||||t-test, 2 sided|||||||0.2665
82647496|NCT03593772|165010353|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00788|STANDARD_ERROR_OF_MEAN|0.005845||0.1792|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Perceived Stress Scale Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1792
82422713|NCT03863574|164555638|OTHER|Proof-of-concept||||||0.9133|||||||t-test, 2 sided|||||||0.9133
82422714|NCT03863574|164555639|OTHER|Proof-of-concept||||||0.7267|||||||t-test, 2 sided|||||||0.7267
82422715|NCT03863574|164555639|OTHER|Proof-of-concept||||||0.9211|||||||t-test, 2 sided|||||||0.9211
82422716|NCT03863574|164555640|OTHER|Proof-of-concept||||||0.8683|||||||t-test, 2 sided|||||||0.8683
82422717|NCT03863574|164555640|OTHER|Proof-of-concept||||||0.7436|||||||t-test, 2 sided|||||||0.7436
82422718|NCT05078112|164555681|OTHER|||||||0.000393|||||||t-test, 2 sided|||||||0.000393
82422719|NCT03926247|164555694|OTHER|Within-group longitudinal analysis (no comparison groups)|LSM Final Difference|-0.044|STANDARD_ERROR_OF_MEAN|0.019|=|0.019|TWO_SIDED|95.0|-0.087|-0.008|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' depression/anxiety symptoms would decrease overtime.||-0.008|-0.087|=0.019
82422720|NCT03926247|164555695|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.892|STANDARD_ERROR_OF_MEAN|0.643|=|0.168|TWO_SIDED|95.0|-2.161|0.372|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' PTSD symptoms would decrease overtime.||0.372|-2.161|=0.168
82422721|NCT03926247|164555696|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.035|=|0.051|TWO_SIDED|95.0|-0.14|0.0|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' stress would decrease overtime.||-0.000|-0.140|=0.051
82422722|NCT03926247|164555697|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.029|=|0.211|TWO_SIDED|95.0|-0.106|0.023|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' social support would increase overtime.||0.023|-0.106|=0.211
82422723|NCT03926247|164555698|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.053|=|0.074|TWO_SIDED|95.0|-0.008|0.201|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' access to resources would increase overtime.||0.201|-0.008|=0.074
82422724|NCT03926247|164555699|OTHER|Within-group longitudinal analysis (no comparison groups)=|Mean Difference (Final Values)|-0.119|STANDARD_ERROR_OF_MEAN|0.061|=|0.089|TWO_SIDED|95.0|-0.257|0.017|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' difficulty accessing resources would decrease overtime.||0.017|-0.257|=0.089
82422725|NCT03926247|164555700|OTHER|Within-group longitudinal analysis (no comparison groups)|Mean Difference (Final Values)|-0.216|STANDARD_ERROR_OF_MEAN|0.124|=|0.086|TWO_SIDED|95.0|-0.461|0.03|||Mixed Models Analysis|||Analyses were conducted using a mixed effects linear model to calculate least square means across the 4 timepoints. This was a longitudinal within-group analysis with 4 timepoints of data nested within 56 individuals. Our hypothesis was that participants' quality of life would increase overtime.||0.030|-0.461|=0.086
82422726|NCT01852214|164555701|SUPERIORITY_OR_OTHER|||||||0.022|||||||Mixed Models Analysis|||||||0.022
82422727|NCT01852214|164555702|SUPERIORITY_OR_OTHER|||||||0.086|||||||Mixed Models Analysis|||||||0.086
82422728|NCT04603560|164555725|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.54|1.66|||||The odds ratio represents Social Norming vs Control.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size||1.66|0.54|
82422729|NCT04603560|164555725|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.72|2.29|||||The odds ratio represents Pharmacist E-Detailing vs Control.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size||2.29|0.72|
82422730|NCT04603560|164555725|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.74|2.56|||||The odds ratio represents Pharmacist e-detailing vs Social Norming.|Generalized estimating equation adjusting for clustering of patients within providers as well as provider panel size.||2.56|0.74|
82422731|NCT05472870|164555726|SUPERIORITY|One-way ANOVA with repeated measures was used to examine differences in the effects of cTMS on the SRS. A P value \<0.05 was considered statistically significant for all analyses.|||||<|0.001||||||Bonferroni correction was used to adjust P values in post hoc analyses.|ANOVA|||All clinical behavioral data analysis was performed using Statistical Product and Service Solutions (SPSS) software (version 25.0). A P value \<0.05 was considered statistically significant for all analyses. One-way ANOVA with repeated measures was used to examine differences in the effects of cTMS on the SRS.||||<0.001
82422732|NCT00791648|164555736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Pearson x2|||||||.75
82422733|NCT00791648|164555737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||.56
82422734|NCT00791648|164555738|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||.71
82422735|NCT00791648|164555739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||.11
82422736|NCT00791648|164555740|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
82422737|NCT00791648|164555741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
82422738|NCT01373281|164555753|SUPERIORITY_OR_OTHER_LEGACY||Vaccine efficacy|56.5|||||TWO_SIDED|95.0|43.8|66.4||||||The statistical methodology was based on the use of the two-sided 95% confidence interval (CI) of the vaccine efficacy (expressed in %). The CI was calculated using the exact method conditional on the total number of cases in both groups (exact method by Breslow \& Day). The vaccine efficacy of the CYD dengue vaccine was considered significant if the lower bound of its 95% CI was greater than 25%.||66.4|43.8|
82422739|NCT01373281|164555756|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|55.4|||||TWO_SIDED|95.0|47.3|62.3||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||62.3|47.3|
82422740|NCT01373281|164555757|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|57.9|||||TWO_SIDED|95.0|49.0|65.2||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||65.2|49.0|
82422741|NCT01373281|164555758|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|54.8|||||TWO_SIDED|95.0|46.8|61.7||||||The statistical methodology was based on the use of the two-sided 95% CI of the vaccine efficacy (expressed in %) calculated using the exact method conditional on the total number of cases in both groups.||61.7|46.8|
82422742|NCT00775658|164555767|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Before the study, we determined that a sample size of 18 would be adequate to detect a 20% difference in wheal and flare areas with 80% power and a significance level of 0.05.||||0.57
82422743|NCT00775658|164555768|SUPERIORITY|Sample size determined that 18 participants would provide 80% power to detect a 20% difference with a significance level of 0.05.||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
82422744|NCT00488293|164555777|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||t-test, 2 sided|||||||0.66
82422745|NCT00488293|164555778|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Chi-squared|||||||0.88
82422746|NCT00488293|164555779|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||t-test, 2 sided|||||||0.39
82422747|NCT00488293|164555780|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
82422748|NCT00488293|164555781|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
82422749|NCT00488293|164555782|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||t-test, 2 sided|||||||0.61
82422750|NCT00488293|164555783|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
82534457|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.0||0.11|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.11
82576739|NCT01646177|164863772|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82576740|NCT01646177|164863772|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422751|NCT00488293|164555784|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||t-test, 2 sided|||||||0.73
82422752|NCT00488293|164555785|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
82422753|NCT00488293|164555786|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Chi-squared|||||||0.65
82422754|NCT00836706|164555798|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|85.2|120.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||120|85.2|
82422755|NCT00836706|164555799|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|88.7|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|88.7|
82422756|NCT00836706|164555800|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|101.0||||||90.0|88.4|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|88.4|
82422757|NCT02989857|164555801|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.54||P-value was calculated from the one-sided stratified log-rank test.|Log Rank||Hazard ratio was calculated from stratified Cox regression model with placebo as the denominator, with two-sided 95% confidence interval.|||0.54|0.25|<0.0001
82422758|NCT02989857|164555808|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.093|TWO_SIDED|95.0|0.56|1.12||P-value was calculated from the one-sided stratified log-rank test. Stratification factor was the number of prior line of therapies at randomization.|Log Rank||Hazard ratio was calculated from the stratified Cox regression model with placebo as the comparator, with two-sided 95% CI. Stratification factor was the number of prior line of therapies at randomization.|||1.12|0.56|0.093
82422759|NCT02989857|164555809|SUPERIORITY|||||||0.466||||||P-value was calculated from 1-sided Fisher exact test.|Fisher Exact|||||||0.466
82422760|NCT02989857|164555810|SUPERIORITY|||||||0.299||||||P-value was calculated from 1-sided Fisher exact test.|Fisher Exact|||||||0.299
82422761|NCT02989857|164555815|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.68||P-value was calculated from one-sided stratified log-rank test. Stratification factor was the number of prior line of therapies at randomization.|Log Rank||Hazard ratio was calculated from the stratified Cox regression model with placebo as the denominator, with two-sided 95% CI. Stratification factor was the number of prior line of therapies at randomization.|||0.68|0.33|<0.0001
82422762|NCT02989857|164555816|OTHER||Least-squares mean difference|11.0|||||TWO_SIDED|95.0|4.23|17.73||||||Cycle 2 Day 1: Physical Functioning||17.73|4.23|
82422763|NCT02989857|164555816|OTHER||Least-squares mean difference|-10.4|||||TWO_SIDED|95.0|-20.18|-0.52||||||Cycle 2 Day 1: Pain||-0.52|-20.18|
82422764|NCT02989857|164555816|OTHER||Least-squares mean difference|3.6|||||TWO_SIDED|95.0|-6.65|13.91||||||Cycle 2 Day 1: Appetite Loss||13.91|-6.65|
82576741|NCT01646177|164863772|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82422765|NCT02989857|164555816|OTHER||Least-squares mean difference|12.3|||||TWO_SIDED|95.0|3.85|20.78||||||Cycle 3 Day 1: Physical Functioning||20.78|3.85|
82534458|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.0||0.066|TWO_SIDED|95.0|-8.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-8.0|0.066
82534459|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
82534460|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.4|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.40
82534461|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.24|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.24
82534462|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
82534463|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.1||0.17|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.17
82534464|NCT02886728|164766927|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.1||0.008|TWO_SIDED|95.0|-10.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-10.0|0.008
82534465|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-12.0|<0.001
82534466|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-9.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-9.0|<0.001
82422766|NCT02989857|164555816|OTHER||Least-squares mean difference|4.1|||||TWO_SIDED|95.0|-8.74|17.04||||||Cycle 3 Day 1: Pain||17.04|-8.74|
82422767|NCT02989857|164555816|OTHER||Least-squares mean difference|-3.7|||||TWO_SIDED|95.0|-17.46|10.11||||||Cycle 3 Day 1: Appetite Loss||10.11|-17.46|
82422768|NCT02989857|164555817|OTHER||Least-squares mean difference|-5.1|||||TWO_SIDED|95.0|-12.93|2.8||||||Cycle 2 Day 1: Pain||2.80|-12.93|
82422769|NCT02989857|164555817|OTHER||Least-squares mean difference|0.7|||||TWO_SIDED|95.0|-6.56|7.88||||||Cycle 2 Day 1: Appetite Loss||7.88|-6.56|
82422770|NCT02989857|164555817|OTHER||Least-squares mean difference|4.4|||||TWO_SIDED|95.0|-5.82|14.55||||||Cycle 3 Day 1: Pain||14.55|-5.82|
82422771|NCT02989857|164555817|OTHER||Least-squares mean difference|-6.1|||||TWO_SIDED|95.0|-15.34|3.12||||||Cycle 3 Day 1: Appetite Loss||3.12|-15.34|
82534467|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
82534468|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|-13.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-13.0|<0.001
82422772|NCT00688740|164555845|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.795||||0.0043|TWO_SIDED|95.0|0.679|0.932||Pairwise stratified log-rank test on the number of positive axillary nodes as per randomization|Log Rank|||||0.932|0.679|0.0043
82534469|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
82422773|NCT00688740|164555846|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.742||||0.002|TWO_SIDED|95.0|0.613|0.898||Pairwise stratified log-rank test on the number of positive axillary nodes as per randomization|Log Rank|||||0.898|0.613|0.0020
82422774|NCT02541591|164555848|SUPERIORITY||Median ratio of final values|1.37||||0.0881|TWO_SIDED|95.0|0.95|1.98|||ANOVA|due to non normality of the residuals the data were log-transformed prior to the anova|the estimated mean difference obtained using the anova on the log-transformed data was back transformed thus yielding a ratio of median values|missing data were accounted for by multiple imputation||1.98|0.95|0.0881
82422775|NCT00557440|164555876|SUPERIORITY_OR_OTHER||LS Mean Difference|0.165|STANDARD_ERROR_OF_MEAN|0.0492||0.001|TWO_SIDED|95.0|0.066|0.263||Statistical significance (two-sided) at 5% level. p-values were not corrected for multiplicity.|ANCOVA|Treatment, period, sequence and center as fixed effects, period baseline FEV1 as a covariate, and patient nested within sequence as a random effect.||||0.263|0.066|0.001
82422776|NCT03524157|164555881|NON_INFERIORITY|it will be considered non-inferior if there are no differences greater than 20%.||||||0.273|||||||Kruskal-Wallis|||||||0.273
82422777|NCT03524157|164555882|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%||||||0.788|||||||Kruskal-Wallis|||||||0.788
82422778|NCT03524157|164555884|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82422779|NCT03524157|164555885|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%||||||0.008|||||||Kruskal-Wallis|||||||0.008
82422780|NCT03524157|164555886|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82422781|NCT03524157|164555888|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82422782|NCT03524157|164555889|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82422783|NCT03524157|164555890|NON_INFERIORITY|it will be considered non-inferiority if there are no differences greater than 20%|||||>|0.05|||||||Chi-squared|||||||>0.05
82422784|NCT03322566|164555891|SUPERIORITY||Difference in Percentages|-18.5||||0.9948|TWO_SIDED|95.0|-32.0|-4.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen method||Stratified by PD-L1 TPS ( \<50% vs. \>=50% ) and predominant tumor histology (squamous vs non-squamous);because of small sample size, the strata 'TPS \>= 50 percent Non-squamous' and 'TPS \>= 50% Squamous' were combined into one stratum.|||-4.3|-32.0|0.9948
82534470|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
82422785|NCT03322566|164555892|OTHER||Hazard Ratio (HR)|1.47||||0.94305|TWO_SIDED|95.0|0.91|2.36||One-sided p-value based on log-rank test stratified by TPS (\<50% vs \>=50%) and predominant histology (squamous vs non-squamous), because of small sample size, the strata 'TPS \>= 50% Non-squamous' and 'TPS \>= 50% Squamous' were combined into one.|Regression, Cox|Efron's method of tie handling||||2.36|0.91|0.94305
82422786|NCT03322566|164555893|OTHER||Hazard Ratio (HR)|1.9||||0.96272|TWO_SIDED|95.0|0.93|3.9||One-sided p-value based on log-rank test stratified by PD-L1 TPS (\<50% vs \>=50%) and predominant tumor histology (squamous vs non-squamous), because of small sample size, the strata (\<50% vs \>=50%) were combined into one stratum.|Regression, Cox|||||3.90|0.93|0.96272
82422787|NCT04330859|164555901|SUPERIORITY||Agresti-Caffo|95.0||||0.0543|TWO_SIDED|||||58.8 ± 7.2 (intervention) and 57.2 ± 11.2 (control; p = 0.0543)|t-test, 1 sided|||||||0.0543
82422788|NCT02947048|164555949|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.42||0.61|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Severity||||0.61
82422789|NCT02947048|164555949|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.52||0.33|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Severity||||0.33
82422790|NCT02947048|164555949|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.47||0.61|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Improvement||||0.61
82576742|NCT01646177|164863773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.473|TWO_SIDED||||||ANCOVA|||||||0.473
82576743|NCT01646177|164863773|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED||||||ANCOVA|||||||0.015
82422791|NCT02947048|164555949|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.43||0.91|TWO_SIDED||||||ANCOVA|||Clinical Global Impression - Improvement||||0.91
82422792|NCT00023595|164555956|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.12|TWO_SIDED|95.0|0.72|1.04|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.04|0.72|0.12
82422793|NCT00023595|164555957|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.73|0.97|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.97|0.73|0.02
82422794|NCT00023595|164555958|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.9|TWO_SIDED|95.0|0.84|1.17|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.17|0.84|0.90
82422795|NCT00023595|164555959|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio, log|0.79||||0.006|TWO_SIDED|95.0|0.66|0.93|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.93|0.66|0.006
82576744|NCT01646177|164863773|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82534471|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
82422796|NCT00023595|164555960|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.05|TWO_SIDED|95.0|0.66|1.0|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.00|0.66|0.05
82422797|NCT00023595|164555961|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||<|0.001|TWO_SIDED|95.0|0.64|0.85|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.85|0.64|<0.001
82422798|NCT00023595|164555962|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.64|0.82|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.82|0.64|<0.001
82422799|NCT00023595|164555963|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.79|1.26|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.26|0.79|0.98
82422800|NCT00023595|164555964|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.19||||0.008|TWO_SIDED|95.0|1.35|7.52|||Regression, Logistic||Odds Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||7.52|1.35|0.008
82422801|NCT00023595|164555965|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.275|TWO_SIDED|95.0|0.78|2.41|||Regression, Logistic||Odds Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||2.41|0.78|0.275
82422802|NCT00023595|164555966|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.03|TWO_SIDED|95.0|0.71|0.98|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.98|0.71|0.030
82422803|NCT00023595|164555967|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.401|TWO_SIDED|95.0|0.89|1.31|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.31|0.89|0.401
82422804|NCT00023595|164555968|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.002|TWO_SIDED|95.0|0.71|0.93|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.93|0.71|0.002
82422805|NCT00023595|164555984|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6|||<|0.001|TWO_SIDED|95.0|0.51|0.71|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.71|0.51|<0.001
82422806|NCT00023595|164555985|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.414|TWO_SIDED|95.0|0.73|1.13|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.13|0.73|0.414
82422807|NCT00023595|164555986|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.55|0.73|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.73|0.55|<0.001
82422808|NCT00023595|164555987|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.108|TWO_SIDED|95.0|0.72|1.03|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||1.03|0.72|0.108
82422809|NCT00023595|164555988|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.717|TWO_SIDED|95.0|0.83|1.32|||Log Rank||Hazard Ratio is for (H02: Medication + CABG + SVR) versus (H02: Medication + CABG)|||1.32|0.83|0.717
82422810|NCT00023595|164555989|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.018|TWO_SIDED|95.0|0.73|0.97|||Log Rank||Hazard Ratio is for (H01: Medication +CABG) versus (H01: Medication)|||0.97|0.73|0.018
82422811|NCT00023595|164556005|SUPERIORITY|||||||0.015||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.015
82422812|NCT00023595|164556005|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
82576745|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.006
82576746|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.045|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.045
82422813|NCT00023595|164556005|SUPERIORITY|||||||0.011||||||24 months|Chi-squared|||||||0.011
82422814|NCT00023595|164556005|SUPERIORITY|||||||0.44||||||36 months|Chi-squared|||||||0.44
82422815|NCT00023595|164556006|SUPERIORITY|||||||0.91||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.91
82576747|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED||||||ANCOVA|||Includes analysis only from Absenteeism Score.||||0.012
82422816|NCT00023595|164556006|SUPERIORITY|||||||0.62||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.62
82422817|NCT00023595|164556006|SUPERIORITY|||||||0.04||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.04
82422818|NCT00023595|164556006|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82422819|NCT00023595|164556006|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82422820|NCT00023595|164556007|SUPERIORITY|||||||0.31||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.31
82422821|NCT00023595|164556007|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
82422822|NCT00023595|164556007|SUPERIORITY|24 months||||||0.028|||||||Chi-squared|||||||0.028
82422823|NCT00023595|164556007|SUPERIORITY|||||||0.079||||||36 months|Chi-squared|||||||0.079
82422824|NCT00023595|164556008|SUPERIORITY|||||||0.74||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.74
82422825|NCT00023595|164556008|SUPERIORITY|||||||0.61||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.61
82422826|NCT00023595|164556008|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82422827|NCT00023595|164556008|SUPERIORITY|||||||0.94||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.94
82422828|NCT00023595|164556008|SUPERIORITY|||||||0.29||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.29
82422829|NCT00023595|164556009|SUPERIORITY|||||||0.063||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.063
82422830|NCT00023595|164556009|SUPERIORITY|||||||0.187||||||12 months|Chi-squared|||||||0.187
82422831|NCT00023595|164556009|SUPERIORITY|||||||0.168||||||24 months|Chi-squared|||||||0.168
82422832|NCT00023595|164556009|SUPERIORITY|||||||0.05||||||36 months|Chi-squared|||||||0.050
82422833|NCT00023595|164556010|SUPERIORITY|||||||0.82||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.82
82422834|NCT00023595|164556010|SUPERIORITY|||||||0.48||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.48
82534472|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-9.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-9.0|<0.001
82647497|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00132|STANDARD_ERROR_OF_MEAN|0.01039||0.8991|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total RDAS as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.8991
82647498|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002105|STANDARD_ERROR_OF_MEAN|0.002349||0.3711|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Decision Making Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.3711
82647499|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001864|STANDARD_ERROR_OF_MEAN|0.002348||0.428|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Values Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4280
82647500|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00007|STANDARD_ERROR_OF_MEAN|0.003205||0.9831|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Affection Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9831
82422835|NCT00023595|164556010|SUPERIORITY|||||||0.69||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.69
82422836|NCT00023595|164556010|SUPERIORITY|||||||0.63||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.63
82422837|NCT00023595|164556010|SUPERIORITY|||||||0.9||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.90
82422838|NCT00023595|164556011|SUPERIORITY|||||||0.039||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.039
82422839|NCT00023595|164556011|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
82422840|NCT00023595|164556011|SUPERIORITY|||||||0.008||||||24 months|Chi-squared|||||||0.008
82534473|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.6||0.001|TWO_SIDED|95.0|-8.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-8.0|0.001
82422841|NCT00023595|164556011|SUPERIORITY|||||||0.31||||||36 months|Chi-squared|||||||0.31
82448274|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|||||TWO_SIDED|95.0|0.15|1.06||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.06|0.15|
82422842|NCT00023595|164556012|SUPERIORITY|||||||0.36||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.36
82422843|NCT00023595|164556012|SUPERIORITY|||||||0.87||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.87
82422844|NCT00023595|164556012|SUPERIORITY|||||||0.17||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.17
82422845|NCT00023595|164556012|SUPERIORITY|||||||0.12||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.12
82422846|NCT00023595|164556012|SUPERIORITY|||||||0.79||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.79
82422847|NCT00023595|164556013|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|||||||<0.001
82422848|NCT00023595|164556013|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
82422849|NCT00023595|164556013|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
82422850|NCT00023595|164556013|SUPERIORITY||||||<|0.024||||||36 months|Chi-squared|||||||<0.024
82422851|NCT00023595|164556014|SUPERIORITY|||||||0.31||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.31
82422852|NCT00023595|164556014|SUPERIORITY|||||||0.42||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.42
82422853|NCT00023595|164556014|SUPERIORITY|||||||0.66||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.66
82422854|NCT00023595|164556014|SUPERIORITY|||||||0.32||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.32
82422855|NCT00023595|164556014|SUPERIORITY|||||||0.43||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.43
82422856|NCT00023595|164556015|SUPERIORITY|||||||0.051||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.051
82422857|NCT00023595|164556015|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
82534474|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
82534475|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.5||0.007|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.007
82534476|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.5||0.046|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.046
82534477|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|-6.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-6.0|0.002
82534478|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.4||0.44|TWO_SIDED|95.0|-4.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-4.0|0.44
82534479|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.4||0.21|TWO_SIDED|95.0|-5.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-5.0|0.21
82534480|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-7.0|<0.001
82534481|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.029|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.029
82534482|NCT02886728|164766928|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|95.0|-6.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-6.0|0.010
82534483|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
82576748|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
82576749|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
82576750|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Activity Impairment Score.||||<0.001
82422858|NCT00023595|164556015|SUPERIORITY|||||||0.065||||||24 months|Chi-squared|||||||0.065
82422859|NCT00023595|164556015|SUPERIORITY|||||||0.83||||||36 months|Chi-squared|||||||0.83
82422860|NCT00023595|164556016|SUPERIORITY|||||||0.71||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.71
82422861|NCT00023595|164556016|SUPERIORITY|||||||0.57||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.57
82422862|NCT00023595|164556016|SUPERIORITY|||||||0.15||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.15
82422863|NCT00023595|164556016|SUPERIORITY|||||||0.64||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.64
82422864|NCT00023595|164556016|SUPERIORITY|||||||0.07||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.07
82422865|NCT00023595|164556017|SUPERIORITY|||||||0.004||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.004
82422866|NCT00023595|164556017|SUPERIORITY|||||||0.011||||||12 months|Chi-squared|||||||0.011
82422867|NCT00023595|164556017|SUPERIORITY|||||||0.007||||||24 months|Chi-squared|||||||0.007
82422868|NCT00023595|164556017|SUPERIORITY|||||||0.044||||||36 months|Chi-squared|||||||0.044
82422869|NCT00023595|164556018|SUPERIORITY|||||||0.74||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.74
82422870|NCT00023595|164556018|SUPERIORITY|||||||0.87||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.87
82422871|NCT00023595|164556018|SUPERIORITY|||||||0.03||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.03
82422872|NCT00023595|164556018|SUPERIORITY|||||||0.6||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.60
82422873|NCT00023595|164556018|SUPERIORITY|||||||0.87||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.87
82422874|NCT00023595|164556019|SUPERIORITY|||||||0.05||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.050
82422875|NCT00023595|164556019|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
82422876|NCT00023595|164556019|SUPERIORITY|24 months||||||0.049|||||||Chi-squared|||||||0.049
82422877|NCT00023595|164556019|SUPERIORITY|||||||0.097||||||36 months|Chi-squared|||||||0.097
82422878|NCT00023595|164556020|SUPERIORITY|||||||0.4||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.40
82422879|NCT00023595|164556020|SUPERIORITY|||||||0.13||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.13
82422880|NCT00023595|164556020|SUPERIORITY|||||||0.86||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.86
82534484|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
82422881|NCT00023595|164556020|SUPERIORITY|||||||0.89||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.89
82422882|NCT00023595|164556020|SUPERIORITY|||||||0.87||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.87
82422883|NCT00023595|164556021|SUPERIORITY|||||||0.005||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.005
82422884|NCT00023595|164556021|SUPERIORITY|||||||0.023||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.023
82422885|NCT00023595|164556021|SUPERIORITY|||||||0.009||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.009
82422886|NCT00023595|164556021|SUPERIORITY|||||||0.26||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.26
82422887|NCT00023595|164556022|SUPERIORITY|||||||0.38||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.38
82422888|NCT00023595|164556022|SUPERIORITY|||||||0.45||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.45
82422889|NCT00023595|164556022|SUPERIORITY|||||||0.62||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.62
82422890|NCT00023595|164556022|SUPERIORITY|||||||0.82||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.82
82422891|NCT00023595|164556022|SUPERIORITY|||||||0.94||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.94
82422892|NCT00023595|164556023|SUPERIORITY|||||||0.205||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.205
82422893|NCT00023595|164556023|SUPERIORITY|||||||0.017||||||12 months|Chi-squared|||||||0.017
82422894|NCT00023595|164556023|SUPERIORITY|||||||0.028||||||24 months|Chi-squared|||||||0.028
82422895|NCT00023595|164556023|SUPERIORITY|||||||0.123||||||36 months|Chi-squared|||||||0.123
82422896|NCT00023595|164556024|SUPERIORITY|||||||0.19||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.19
82422897|NCT00023595|164556024|SUPERIORITY|||||||0.07||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.07
82422898|NCT00023595|164556024|SUPERIORITY|||||||0.94||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.94
82422899|NCT00023595|164556024|SUPERIORITY|||||||0.67||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.67
82422900|NCT00023595|164556024|SUPERIORITY|||||||0.44||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.44
82422901|NCT00023595|164556025|SUPERIORITY|||||||0.05||||||4 months|Chi-squared|P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.050
82422902|NCT00023595|164556025|SUPERIORITY|||||||0.006||||||12 months|Chi-squared|||||||0.006
82422903|NCT00023595|164556025|SUPERIORITY|||||||0.039||||||24 months|Chi-squared|||||||0.039
82422904|NCT00023595|164556025|SUPERIORITY|||||||0.074||||||36 months|Chi-squared|||||||0.074
82422905|NCT00023595|164556026|SUPERIORITY|||||||0.23||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.23
82422906|NCT00023595|164556026|SUPERIORITY|||||||0.43||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.43
82422907|NCT00023595|164556026|SUPERIORITY|||||||0.35||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.35
82422908|NCT00023595|164556026|SUPERIORITY|||||||0.9||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.90
82422909|NCT00023595|164556026|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
82422910|NCT00023595|164556027|SUPERIORITY|||||||0.085||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.085
82422911|NCT00023595|164556027|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
82422912|NCT00023595|164556027|SUPERIORITY|||||||0.026||||||24 months|Chi-squared|||||||0.026
82422913|NCT00023595|164556027|SUPERIORITY|||||||0.085||||||36 months|Chi-squared|||||||0.085
82422914|NCT00023595|164556028|SUPERIORITY|||||||0.18||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.18
82422915|NCT00023595|164556028|SUPERIORITY|||||||0.17||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.17
82422916|NCT00023595|164556028|SUPERIORITY|||||||0.59||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.59
82422917|NCT00023595|164556028|SUPERIORITY|||||||0.78||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.78
82422918|NCT00023595|164556028|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
82422919|NCT00023595|164556029|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
82422920|NCT00023595|164556029|SUPERIORITY||||||<|0.001||||||12 month|Chi-squared|||||||<0.001
82422921|NCT00023595|164556029|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
82422922|NCT00023595|164556029|SUPERIORITY|||||||0.018||||||36 months|Chi-squared|||||||0.018
82422923|NCT00023595|164556030|SUPERIORITY|||||||0.7||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.70
82422924|NCT00023595|164556030|SUPERIORITY|||||||0.47||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.47
82422925|NCT00023595|164556030|SUPERIORITY|||||||0.87||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.87
82422926|NCT00023595|164556030|SUPERIORITY|||||||0.84||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.84
82422927|NCT00023595|164556030|SUPERIORITY|||||||0.82||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.82
82422928|NCT00023595|164556031|SUPERIORITY|||||||0.023||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.023
82422929|NCT00023595|164556031|SUPERIORITY|||||||0.001||||||12 months|Chi-squared|||||||0.001
82422930|NCT00023595|164556031|SUPERIORITY|||||||0.077||||||24 months|Chi-squared|||||||0.077
82422931|NCT00023595|164556031|SUPERIORITY|||||||0.17||||||36 months|Chi-squared|||||||0.170
82422932|NCT00023595|164556032|SUPERIORITY|||||||0.63||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.63
82422933|NCT00023595|164556032|SUPERIORITY|||||||0.29||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.29
82422934|NCT00023595|164556032|SUPERIORITY|||||||0.68||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.68
82448275|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|||||TWO_SIDED|95.0|-0.28|0.63||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.63|-0.28|
82422935|NCT00023595|164556032|SUPERIORITY|||||||0.25||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.25
82422936|NCT00023595|164556032|SUPERIORITY|||||||0.68||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.68
82422937|NCT00023595|164556033|SUPERIORITY|||||||0.033||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.033
82422938|NCT00023595|164556033|SUPERIORITY|||||||0.002||||||12 months|Chi-squared|||||||0.002
82422939|NCT00023595|164556033|SUPERIORITY|||||||0.015||||||24 months|Chi-squared|||||||0.015
82448276|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.49|0.42||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.49|
82576751|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
82422940|NCT00023595|164556033|SUPERIORITY|||||||0.051||||||36 months|Chi-squared|||||||0.051
82422941|NCT00023595|164556034|SUPERIORITY|||||||0.26||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.26
82422942|NCT00023595|164556034|SUPERIORITY|||||||0.23||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.23
82422943|NCT00023595|164556034|SUPERIORITY|||||||0.66||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.66
82422944|NCT00023595|164556034|SUPERIORITY|||||||0.98||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.98
82422945|NCT00023595|164556034|SUPERIORITY|||||||0.86||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.86
82422946|NCT00023595|164556035|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
82422947|NCT00023595|164556035|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82422948|NCT00023595|164556035|SUPERIORITY|||||||0.006||||||24 months|Chi-squared|||||||0.006
82422949|NCT00023595|164556035|SUPERIORITY|||||||0.037||||||36 months|Chi-squared|||||||0.037
82422950|NCT00023595|164556036|SUPERIORITY|||||||0.53||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.53
82422951|NCT00023595|164556036|SUPERIORITY|||||||0.26||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.26
82422952|NCT00023595|164556036|SUPERIORITY|||||||0.76||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.76
82422953|NCT00023595|164556036|SUPERIORITY|||||||0.89||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.89
82422954|NCT00023595|164556036|SUPERIORITY|||||||0.89||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.89
82422955|NCT00023595|164556037|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
82422956|NCT00023595|164556037|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
82422957|NCT00023595|164556037|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
82422958|NCT00023595|164556037|SUPERIORITY|||||||0.01||||||36 months|Chi-squared|||||||0.010
82422959|NCT00023595|164556038|SUPERIORITY|||||||0.01||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.01
82422960|NCT00023595|164556038|SUPERIORITY|||||||0.74||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.74
82422961|NCT00023595|164556038|SUPERIORITY|||||||0.77||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.77
82422962|NCT00023595|164556038|SUPERIORITY|||||||0.46||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.46
82422963|NCT00023595|164556038|SUPERIORITY|||||||0.27||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.27
82422964|NCT00023595|164556039|SUPERIORITY|||||||0.029||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.029
82422965|NCT00023595|164556039|SUPERIORITY|||||||0.042||||||12 months|Chi-squared|||||||0.042
82422966|NCT00023595|164556039|SUPERIORITY|||||||0.3||||||24 months|Chi-squared|||||||0.30
82422967|NCT00023595|164556039|SUPERIORITY|||||||0.2||||||36 months|Chi-squared|||||||0.20
82422968|NCT00023595|164556040|SUPERIORITY|||||||0.98||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.98
82422969|NCT00023595|164556040|SUPERIORITY|||||||0.16||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.16
82422970|NCT00023595|164556040|SUPERIORITY|||||||0.88||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.88
82422971|NCT00023595|164556040|SUPERIORITY|||||||0.95||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.95
82422972|NCT00023595|164556040|SUPERIORITY|||||||0.48||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.48
82448277|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.47|0.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.47|
82576752|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
82422973|NCT00023595|164556041|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
82422974|NCT00023595|164556041|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
82422975|NCT00023595|164556041|SUPERIORITY||||||<|0.001||||||24 months|Chi-squared|||||||<0.001
82422976|NCT00023595|164556041|SUPERIORITY|||||||0.001||||||36 months|Chi-squared|||||||0.001
82422977|NCT00023595|164556042|SUPERIORITY|||||||0.86||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.86
82422978|NCT00023595|164556042|SUPERIORITY|||||||0.39||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.39
82422979|NCT00023595|164556042|SUPERIORITY|||||||0.65||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.65
82422980|NCT00023595|164556042|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
82422981|NCT00023595|164556042|SUPERIORITY|||||||0.68||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.68
82422982|NCT00023595|164556043|SUPERIORITY||||||<|0.001||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||<0.001
82422983|NCT00023595|164556043|SUPERIORITY||||||<|0.001||||||12 months|Chi-squared|||||||<0.001
82422984|NCT00023595|164556043|SUPERIORITY|||||||0.001||||||24 months|Chi-squared|||||||0.001
82422985|NCT00023595|164556043|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82448278|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|0.22|1.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.18|0.22|
82422986|NCT00023595|164556044|SUPERIORITY|||||||0.96||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.96
82422987|NCT00023595|164556044|SUPERIORITY|||||||0.53||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.53
82422988|NCT00023595|164556044|SUPERIORITY|||||||0.37||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.37
82534485|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
82576753|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Presenteeism Score.||||<0.001
82422989|NCT00023595|164556044|SUPERIORITY|||||||0.78||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.78
82422990|NCT00023595|164556044|SUPERIORITY|||||||0.21||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.21
82422991|NCT00023595|164556045|SUPERIORITY|||||||0.007||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.007
82422992|NCT00023595|164556045|SUPERIORITY|||||||0.003||||||12 months|Chi-squared|||||||0.003
82422993|NCT00023595|164556045|SUPERIORITY|||||||0.023||||||24 months|Chi-squared|||||||0.023
82422994|NCT00023595|164556045|SUPERIORITY|||||||0.06||||||36 months|Chi-squared|||||||0.060
82422995|NCT00023595|164556046|SUPERIORITY|||||||0.31||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.31
82422996|NCT00023595|164556046|SUPERIORITY|||||||0.43||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.43
82422997|NCT00023595|164556046|SUPERIORITY|||||||0.57||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.57
82422998|NCT00023595|164556046|SUPERIORITY|||||||0.95||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.95
82422999|NCT00023595|164556046|SUPERIORITY|||||||0.38||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.38
82423000|NCT00023595|164556047|SUPERIORITY|||||||0.86||||||Baseline|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.86
82423001|NCT00023595|164556047|SUPERIORITY|||||||0.78||||||4 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.78
82423002|NCT00023595|164556047|SUPERIORITY|||||||0.55||||||12 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.55
82423003|NCT00023595|164556047|SUPERIORITY|||||||0.027||||||24 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.027
82423004|NCT00023595|164556047|SUPERIORITY|||||||0.031||||||36 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.031
82423005|NCT00023595|164556048|SUPERIORITY|||||||0.4||||||Baseline|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.40
82423006|NCT00023595|164556048|SUPERIORITY|||||||0.42||||||4 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.42
82423007|NCT00023595|164556048|SUPERIORITY|||||||0.41||||||12 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.41
82423008|NCT00023595|164556048|SUPERIORITY|||||||0.25||||||24 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.25
82423009|NCT00023595|164556048|SUPERIORITY|||||||0.25||||||36 months|Chi-squared|All P-values were based on the Likelihood Ratio Chi-Square test.||||||0.25
82423010|NCT00023595|164556049|SUPERIORITY|||||||0.002||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.002
82423011|NCT00023595|164556049|SUPERIORITY|||||||0.007||||||12 months|Chi-squared|||||||0.007
82423012|NCT00023595|164556049|SUPERIORITY|||||||0.049||||||24 months|Chi-squared|||||||0.049
82423013|NCT00023595|164556049|SUPERIORITY|||||||0.038||||||36 months|Chi-squared|||||||0.038
82423014|NCT00023595|164556050|SUPERIORITY|||||||0.4||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.40
82423015|NCT00023595|164556050|SUPERIORITY|||||||0.37||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.37
82423016|NCT00023595|164556050|SUPERIORITY|||||||0.98||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.98
82423017|NCT00023595|164556050|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
82423018|NCT00023595|164556050|SUPERIORITY|||||||0.04||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.04
82423019|NCT00023595|164556051|SUPERIORITY|||||||0.036||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.036
82423020|NCT00023595|164556051|SUPERIORITY|||||||0.043||||||12 months|Chi-squared|||||||0.043
82423021|NCT00023595|164556051|SUPERIORITY|||||||0.018||||||24 months|Chi-squared|||||||0.018
82423022|NCT00023595|164556051|SUPERIORITY|||||||0.037||||||36 months|Chi-squared|||||||0.037
82423023|NCT00023595|164556052|SUPERIORITY|||||||0.75||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.75
82423024|NCT00023595|164556052|SUPERIORITY|||||||0.72||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.72
82423025|NCT00023595|164556052|SUPERIORITY|||||||0.77||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.77
82423026|NCT00023595|164556052|SUPERIORITY|||||||0.52||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.52
82423027|NCT00023595|164556052|SUPERIORITY|||||||0.12||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.12
82423028|NCT00023595|164556053|SUPERIORITY|||||||0.0002||||||4 months|Chi-squared|H01 P-values were based on the Chi-Square test applied to maximum likelihood estimates derived from an adjusted mixed model.||||||0.0002
82423029|NCT00023595|164556053|SUPERIORITY||||||<|0.0001||||||12 months|Chi-squared|||||||<0.0001
82423030|NCT00023595|164556053|SUPERIORITY|||||||0.009||||||24 months|Chi-squared|||||||0.009
82423031|NCT00023595|164556053|SUPERIORITY|||||||0.32||||||36 months|Chi-squared|||||||0.32
82423032|NCT00023595|164556054|SUPERIORITY|||||||0.6||||||Baseline|Wilcoxon (Mann-Whitney)|||||||0.60
82448279|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.18|0.78||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.78|-0.18|
82423033|NCT00023595|164556054|SUPERIORITY|||||||0.14||||||4 months|Wilcoxon (Mann-Whitney)|||||||0.14
82534486|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-16.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-16.0|<0.001
82576754|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
82423034|NCT00023595|164556054|SUPERIORITY|||||||0.57||||||12 months|Wilcoxon (Mann-Whitney)|||||||0.57
82423035|NCT00023595|164556054|SUPERIORITY|||||||0.15||||||24 months|Wilcoxon (Mann-Whitney)|||||||0.15
82423036|NCT00023595|164556054|SUPERIORITY|||||||0.84||||||36 months|Wilcoxon (Mann-Whitney)|||||||0.84
82423037|NCT00023595|164556055|SUPERIORITY||||||<|0.0001||||||Hospital costs|Wilcoxon (Mann-Whitney)|||||||<0.0001
82423038|NCT00023595|164556055|SUPERIORITY||||||<|0.0001||||||Physician fees|Wilcoxon (Mann-Whitney)|||||||<0.0001
82423039|NCT00023595|164556055|SUPERIORITY||||||<|0.0001||||||Total index cost|Wilcoxon (Mann-Whitney)|||||||<0.0001
82423040|NCT00023595|164556056|SUPERIORITY|||||||0.006||||||Hospital costs|Wilcoxon (Mann-Whitney)|||||||0.006
82423041|NCT00023595|164556056|SUPERIORITY||||||<|0.0001||||||Physician fees|Wilcoxon (Mann-Whitney)|||||||<0.0001
82576755|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
82423042|NCT00023595|164556056|SUPERIORITY|||||||0.004||||||Total index cost|Wilcoxon (Mann-Whitney)|||||||0.004
82423043|NCT05889468|164556057|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test, a non-parametric test, was used since the empirical distribution of data did not follow the normality assumption.||This was an intention-to-treat analysis.||||0.49
82423044|NCT05889468|164556058|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Intention-to-treat analysis||||0.32
82423045|NCT05889468|164556060|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Intention-to-treat analysis||||>0.99
82423046|NCT05889468|164556061|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Intention-to-treat analysis||||>0.99
82423047|NCT05468918|164556064|OTHER|||||||0.002|||||||ANOVA|||||||0.002
82423048|NCT05468918|164556065|OTHER|||||||0.023|||||||ANOVA|||||||0.023
82423049|NCT03900650|164556080|OTHER||Mean Difference (Final Values)|7.32|||<|0.01|TWO_SIDED||||||ANOVA|||||||<.01
82423050|NCT03900650|164556081|OTHER||Mean Difference (Final Values)|0.377||||0.77|TWO_SIDED|||||This p-value tests the effect of the study arms on number of sex events.|ANOVA|||||||.770
82423051|NCT02014376|164556086|SUPERIORITY||||||=|0.3699|||||||Fisher Exact|||||||=0.3699
82423052|NCT00721110|164556108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.96|TWO_SIDED|97.5|-52.0|54.0||Significant if P \< 0.003 for efficacy and P \> 0.5311 for futility; 97.5% confidence intervals adjusted for group sequential design to maintain the overall alpha of 0.025 for each primary intervention.|ANCOVA|Adjusted for baseline 6-minute walk distance||The effect of lidocaine on 6-minute walk distance on the 2nd postoperative morning was assessed using analysis of covariance. We expected the control group's mean 6-minute walk distance to be 300 meters with a standard deviation (SD) of about 20% of the mean for each group. Assuming a correlation of 0.5 between baseline and 2nd postoperative day, a maximum 128 total patients (32 for each group) was needed to have 80% power at the 0.025 significance level to detect effects of 36 meters or more.||54|-52|0.96
82423053|NCT00721110|164556108|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.54|TWO_SIDED|97.5|-65.0|44.0||97.5% confidence interval adjusted for group sequential design (using confidence coefficient of 2.97) to maintain theoverall α of 0.025 for each primary intervention and 0.05 for the trial.|ANCOVA|Adjusted for baseline 6-minute walk distance||The effect of ketamine on 6-minute walk distance on the 2nd postoperative morning was assessed using analysis of covariance. We expected the control group's mean 6-minute walk distance to be 300 meters with a standard deviation (SD) of about 20% of the mean for each group. Assuming a correlation of 0.5 between baseline and 2nd postoperative day, a maximum 128 total patients (32 for each group) was needed to have 80% power at the 0.025 significance level to detect effects of 36 meters or more.||44|-65|0.54
82448280|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.55|0.4||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.40|-0.55|
82647501|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.003052|STANDARD_ERROR_OF_MEAN|0.006364||0.632|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Consensus Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.6320
82648138|NCT01889862|165011688|SUPERIORITY||Mean Difference (Net)|-588.5|||<|0.0001|TWO_SIDED|95.0|-830.07|-346.94||Based on Mixed-Effect Model Repeated Measure (MMRM) model with change from baseline as the response variable, and treatment, visit and treatment by visit interaction and baseline blood phe concentration as factors.|ANCOVA|||Change in blood Phe concentration during Part 2 in subjects previously exposed to BMN165 who self administer BMN165 40mg/day compared with those who self administer matching placebo.||-346.94|-830.07|<0.0001
82423054|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.2|TWO_SIDED|97.5|-3.3|1.3||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Groups compared on VRS scores at PACU admit using a t test.||1.3|-3.3|0.20
82423055|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.54|TWO_SIDED|97.5|-2.8|1.9||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine compared to placebo at PACU admit using a t test||1.9|-2.8|0.54
82423056|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.11|TWO_SIDED|97.5|-2.5|0.8||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on pain severity at postoperative care unit discharge was assessed using a t test.||0.8|-2.5|0.11
82423057|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.56|TWO_SIDED|97.5|-1.4|2.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative care unit discharge pain severity was assessed using a t test.||2.0|-1.4|0.56
82423058|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.2|TWO_SIDED|97.5|-0.9|2.2||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on postoperative day 1 pain severity assessed using a t test.||2.2|-0.9|0.20
82423059|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.79|TWO_SIDED|97.5|-1.4|1.7||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative day 1 pain severity was assessed using a t test.||1.7|-1.4|0.79
82423060|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.55|TWO_SIDED|97.5|-1.1|1.7||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine versus nonlidocaine on postoperative day 2 pain severity was assessed using a t test.||1.7|-1.1|0.55
82448281|NCT01393639|164604470|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.47|0.49||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.49|-0.47|
82576756|NCT01646177|164863774|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from Work Productively Loss Score.||||<0.001
82423061|NCT00721110|164556109|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.47|TWO_SIDED|97.5|-1.1|1.8||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine versus nonketamine on postoperative day 2 pain severity was assessed using a t test.||1.8|-1.1|0.47
82423062|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.63|TWO_SIDED|97.5|-7.0|7.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on intraoperative opioid consumption was assessed using the Wilcoxon rank sum test.||7|-7|0.63
82423063|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.0||||0.27|TWO_SIDED|97.5|-10.0|5.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on intraoperative opioid consumption was assessed using a Wilcoxon rank sum test.||5|-10|0.27
82423064|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0||||0.28|TWO_SIDED|97.5|-15.0|5.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative care unit opioid consumption was assessed using a Wilcoxon rank sum test.||5|-15|0.28
82448282|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.76|0.03||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.03|-0.76|
82576757|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
82576758|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
82534487|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
82534488|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-13.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-13.0|<0.001
82534489|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-15.0|-8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-15.0|<0.001
82534490|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.1||0.019|TWO_SIDED|95.0|-9.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-9.0|0.019
82534491|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.1||0.007|TWO_SIDED|95.0|-10.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-10.0|0.007
82534492|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
82534493|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.0||0.13|TWO_SIDED|95.0|-7.0|1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-7.0|0.13
82534494|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.0||0.047|TWO_SIDED|95.0|-8.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-8.0|0.047
82534495|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-11.0|<0.001
82534496|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.34|TWO_SIDED|95.0|-6.0|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-6.0|0.34
82576759|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from PCS.||||<0.001
82648139|NCT00528879|165011694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1014||0.0002||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||0.0002
82648140|NCT00528879|165011694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1016|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
82423065|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.0||||0.22|TWO_SIDED|97.5|-15.0|4.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative care unit opioid consumption was assessed using a Wilcoxon rank sum test.||4|-15|0.22
82426708|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27||||0.213|TWO_SIDED|95.0|0.5|10.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||10.1|0.5|0.2130
82426709|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.1|8.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||8.2|2.1|<0.0001
82423066|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.76|TWO_SIDED|97.5|-13.0|21.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative day 1 opioid consumption was assessed using a Wilcoxon rank sum test.||21|-13|0.76
82423067|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.0||||0.66|TWO_SIDED|97.5|-19.0|14.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative day 1 opioid consumption was assessed using a Wilcoxon rank sum test.||14|-19|0.66
82423068|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.5||||0.3|TWO_SIDED|97.5|-5.0|10.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Lidocaine versus nonlidocaine on postoperative day 2 opioid consumption was assessed using a Wilcoxon rank sum test.||10|-5|0.30
82423069|NCT00721110|164556110|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.79|TWO_SIDED|97.5|-5.0|8.0||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Wilcoxon (Mann-Whitney)|||Ketamine versus nonketamine on postoperative day 2 opioid consumption was assessed using a Wilcoxon rank sum test.||8|-5|0.79
82423070|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.58|TWO_SIDED|97.5|-0.28|0.41||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared||numerator: lidocaine; denominator: control|Lidocaine versus nonlidocaine on PACU (postoperative care unit) nausea assessed using Pearson chi square test.||0.41|-0.28|0.58
82423071|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.02||||0.87|TWO_SIDED|97.5|-0.32|0.36||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared||Numinator: ketamine; denominator: nonketamine|Ketamine versus nonketamine on PACU (postoperative care unit) nausea assessed using Pearson chi square test.||0.36|-0.32|0.87
82423072|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.61|TWO_SIDED|97.5|-0.31|0.44||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on POD 1 (first postoperative day) nausea assessed using Pearson chi square test.||0.44|-0.31|0.61
82423073|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.03||||0.79|TWO_SIDED|97.5|-0.34|0.41||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Ketamine versus nonketamine on POD 1(first postoperative day) nausea assessed using Pearson chi square test.||0.41|-0.34|0.79
82423074|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|-0.13||||0.26|TWO_SIDED|97.5|-0.38|0.12||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on PACU (postoperative care unit) vomiting assessed using Pearson chi square test.||0.12|-0.38|0.26
82423075|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|-0.06||||0.71|TWO_SIDED|97.5|-0.31|0.19||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Ketamine versus nonketamine on PACU (postoperative care unit) vomiting assessed using a Pearson chi square test.||0.19|-0.31|0.71
82576760|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||0.031
82576761|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||<0.001
82423076|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.06||||0.52|TWO_SIDED|97.5|-0.23|0.36||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|Chi-squared|||Lidocaine versus nonlidocaine on postoperative day 1 vomiting assessed using a Pearson chi square test.||0.36|-0.23|0.52
82423077|NCT00721110|164556111|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.07||||0.44|TWO_SIDED|97.5|-0.22|0.38|||Chi-squared|||Ketamine versus nonketamine on postoperative day 1 vomiting assessed using Pearson chi square test.||0.38|-0.22|0.44
82423078|NCT00721110|164556112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.96|TWO_SIDED|97.5|-2.14|2.2||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Lidocaine was compared to nonlidocaine on mean VRS fatigue score using a t test.||2.2|-2.14|0.96
82423079|NCT00721110|164556112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.59|TWO_SIDED|97.5|-1.8|2.57||97.5% confidence intervals (CIs) adjusted for group sequential design (using confidence coefficient of 2.97) to maintain the overall α of 0.025 for each intervention and 0.05 for the trial.|t-test, 2 sided|||Ketamine was compared to nonketamine on mean VRS fatigue score using a t test.||2.57|-1.80|0.59
82426119|NCT00854360|164561105|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.25||0.257|TWO_SIDED|95.0|-0.78|0.21||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.21|-0.78|0.257
82426710|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.4337|TWO_SIDED|95.0|0.3|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||2.0|0.3|0.4337
82576762|NCT01646177|164863775|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Includes analysis only from MCS.||||<0.001
82423080|NCT01251757|164556115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022|||<|0.001|TWO_SIDED|95.0|0.011|0.034|||Regression, Linear|adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Adjusted difference in adherence for IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.034|0.011|<.001
82426120|NCT00854360|164561105|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.25||0.013|TWO_SIDED|95.0|-1.13|-0.13||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.13|-1.13|0.013
82534497|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.1||0.46|TWO_SIDED|95.0|-6.0|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-6.0|0.46
82534498|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-12.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-12.0|<0.001
82576763|NCT01646177|164863776|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82426121|NCT00854360|164561106|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.25||0.278|TWO_SIDED|95.0|-0.77|0.22||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.22|-0.77|0.278
82426122|NCT00854360|164561106|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.385|TWO_SIDED|95.0|-0.7|0.27||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.27|-0.70|0.385
82426123|NCT00854360|164561106|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.25||0.016|TWO_SIDED|95.0|-1.09|-0.11||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated Measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.11|-1.09|0.016
82426124|NCT00854360|164561107|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.26||0.082|TWO_SIDED|95.0|-0.95|0.06||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.06|-0.95|0.082
82426125|NCT00854360|164561107|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.114|TWO_SIDED|95.0|-0.9|0.1||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.10|-0.90|0.114
82426126|NCT00854360|164561107|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.26||0.001|TWO_SIDED|95.0|-1.33|-0.33||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||-0.33|-1.33|0.001
82426127|NCT00854360|164561108|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.23||0.747|TWO_SIDED|95.0|-0.52|0.37||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.37|-0.52|0.747
82426128|NCT00854360|164561108|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.21||0.605|TWO_SIDED|95.0|-0.53|0.31||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.31|-0.53|0.605
82426711|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.14|||<|0.0001|TWO_SIDED|95.0|2.5|10.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||10.8|2.5|<0.0001
82423081|NCT01251757|164556115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||<|0.001|TWO_SIDED|95.0|0.019|0.042|||Regression, Linear|adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline statin adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.042|0.019|<.001
82423082|NCT01251757|164556116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.022|TWO_SIDED|95.0|0.002|0.029|||Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.029|0.002|0.022
82423083|NCT01251757|164556116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|||<|0.001|TWO_SIDED|95.0|0.023|0.05|||Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence.|Adjusted difference in adherence for IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||0.050|0.023|<.001
82423084|NCT01251757|164556117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.002|TWO_SIDED|95.0|1.05|1.24||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.24|1.05|0.002
82423085|NCT01251757|164556117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16|||<|0.001|TWO_SIDED|95.0|1.06|1.26||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR+ group versus UC group, calculated as IVR+ - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.26|1.06|<0.001
82423086|NCT01251757|164556118|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.014|TWO_SIDED|95.0|1.02|1.23||adjusted for site, gender, age, total number of prescription medications participant was taking, comorbid diabetes/CVD, baseline ACEI/ARB adherence|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.23|1.02|0.014
82423087|NCT01251757|164556118|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21|||<|0.001|TWO_SIDED|95.0|1.1|1.32||Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline statin adherence.|Regression, Logistic||Adjusted odds ratio for good adherence in IVR group versus UC group, calculated as IVR - UC.|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline adherence level groups.||1.32|1.10|<0.001
82426129|NCT00854360|164561108|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.23||0.083|TWO_SIDED|95.0|-0.84|0.05||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|ANCOVA|Results obtained from ANCOVA with treatment, baseline and center in the model.||A priori threshold for statistical significance is p\<0.05.||0.05|-0.84|0.083
82426130|NCT00854360|164561109|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.989|TWO_SIDED|95.0|-0.45|0.46||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.46|-0.45|0.989
82576764|NCT01646177|164863776|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82576765|NCT01646177|164863776|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82576766|NCT01646177|164863777|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82426131|NCT00854360|164561109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.23||0.808|TWO_SIDED|95.0|-0.39|0.5||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.50|-0.39|0.808
82426712|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.61|||<|0.0001|TWO_SIDED|95.0|3.0|10.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||10.5|3.0|<0.0001
82648141|NCT00528879|165011694|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1021|<|0.0001||||||Tested at alpha=0.019, applying the Dunnett adjustment|ANCOVA|||||||<0.0001
82423088|NCT01251757|164556119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.041|TWO_SIDED|95.0|-1.0|0.0||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications patient is taking, comorbid diabetes/CVD, and baseline SBP group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||0.0|-1.0|.041
82423089|NCT01251757|164556119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.5|0.5||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||.5|-.5|.93
82423090|NCT01251757|164556120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.404|TWO_SIDED|95.0|0.93|1.19||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||1.19|0.93|.404
82423091|NCT01251757|164556120|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.54|TWO_SIDED|95.0|0.85|1.09||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline SBP group||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline SBP level groups.||1.09|.85|.54
82423092|NCT01251757|164556121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.38|TWO_SIDED|95.0|-1.8|0.7||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL subgroups.||0.7|-1.8|.38
82423093|NCT01251757|164556121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.019|TWO_SIDED|95.0|-2.7|-0.2||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Linear|adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.|MeanLDL levels were sig lower for IVR+ participants than for UC participants. In subgroup analyses this difference was most pronounced in those individuals with baseline LDL levels above 100 mg/dL (adj diff=-3.6 mg/dL, 95%CI= (-5.9, -1.3), p=.002).|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||-0.2|-2.7|.019
82423094|NCT01251757|164556122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.59|TWO_SIDED|95.0|0.93|1.13||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.||We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||1.13|0.93|.59
82423095|NCT01251757|164556122|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.058|TWO_SIDED|95.0|1.0|1.22||As noted above, the a priori threshold for statistical significance for this test was .025.|Regression, Logistic|Adjusted for site, gender, age, total number of prescription medications participant is taking, comorbid diabetes/CVD, and baseline LDL group.|Though higher for the IVR+ group, LDL control did not differ significantly between the IVR+ and UC arms. Among those with poor initial control, however, control was sig better for the IVR+ arm (OR = 1.21, 95%CI = (1.04, 1.42), p=.015).|We conducted separate primary analyses of each of IVR and IVR+ versus usual care at the .025 level of significance to assure a trial-wide error rate of .05. This analysis summary is for the IVR+ versus UC comparison only. Also, we only report results here for the full sample, and not also separately for the 3 baseline LDL level subgroups.||1.22|1.00|.058
82423096|NCT02412982|164556134|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||||||0.092
82423097|NCT04011241|164556135|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|173.71|||||TWO_SIDED|90.0|154.58|195.21|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 17.6.|||195.21|154.58|
82576767|NCT01646177|164863777|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576768|NCT01646177|164863777|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576769|NCT01646177|164863778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82648142|NCT00528879|165011695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|STANDARD_ERROR_OF_MEAN|3.774|<|0.0019||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0019
82534499|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.2||0.03|TWO_SIDED|95.0|-9.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-9.0|0.030
82534500|NCT02886728|164766929|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-12.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-12.0|<0.001
82534501|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-10.78|STANDARD_ERROR_OF_MEAN|0.983|<|0.001|TWO_SIDED|95.0|-12.71|-8.85||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.85|-12.71|<0.001
82534502|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-8.76|STANDARD_ERROR_OF_MEAN|1.207|<|0.001|TWO_SIDED|95.0|-11.13|-6.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.39|-11.13|<0.001
82423098|NCT04011241|164556136|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|137.4|||||TWO_SIDED|90.0|120.84|156.24|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 19.4.|||156.24|120.84|
82423099|NCT04011241|164556137|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|168.64|||||TWO_SIDED|90.0|145.59|195.34|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|Intra-individual geometric coefficient of variation (gCV%) = 18.1.|||195.34|145.59|
82423100|NCT00209131|164556141|NON_INFERIORITY_OR_EQUIVALENCE||||||<|0.05||95.0|||||Other|||No analysis was conducted.||||<0.05
82423101|NCT03243084|164556180|SUPERIORITY|||||||0.319||||||Threshold for significance is \<.05.|ANOVA|||A 2x2 ANOVA was used to measure change in HF-HRV by condition (10 Hz vs sham) and session (first vs second) as within subjects variables||||.319
82423102|NCT03243084|164556182|SUPERIORITY|||||||0.0488||||||Threshold for significance is \<.05.|Wilcoxon (Mann-Whitney)|||Investigators hypothesized that active stimulation would have a greater normalized pain change using a modulation index \[(Pre-Post)/(Pre+Post)\]||||.0488
82423103|NCT00863304|164556189|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.65|-0.62||P-value was based on pairwise comparisons.|ANCOVA|||Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.62|-1.65|<0.001
82448283|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||||TWO_SIDED|95.0|-1.17|-0.39||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.39|-1.17|
82534503|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-9.64|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-12.0|-7.29||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.29|-12.00|<0.001
82534504|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-9.92|STANDARD_ERROR_OF_MEAN|0.884|<|0.001|TWO_SIDED|95.0|-11.65|-8.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.19|-11.65|<0.001
82423104|NCT00863304|164556189|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.26||0.002|TWO_SIDED|95.0|-1.32|-0.29||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.29|-1.32|0.002
82423105|NCT00863304|164556189|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.26||0.09|TWO_SIDED|95.0|-0.96|0.07||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.07|-0.96|0.090
82423106|NCT00863304|164556189|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.26||0.009|TWO_SIDED|95.0|-1.21|-0.17||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.17|-1.21|0.009
82423107|NCT00863304|164556189|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.26||0.175|TWO_SIDED|95.0|-0.87|0.16||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.87|0.175
82423108|NCT00863304|164556190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.71|-0.75||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.75|-1.71|<0.001
82448284|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.93|||||TWO_SIDED|95.0|-1.32|-0.54||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.32|
82448285|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.17|||||TWO_SIDED|95.0|-1.56|-0.78||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.78|-1.56|
82448286|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.7|0.09||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.09|-0.70|
82448287|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-1.34|-0.55||||||Week 2 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.55|-1.34|
82448288|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.84|0.07||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.07|-0.84|
82448289|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||||TWO_SIDED|95.0|-1.23|-0.32||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.32|-1.23|
82423109|NCT00863304|164556190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.48|-0.51||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.51|-1.48|<0.001
82423110|NCT00863304|164556190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.25||0.067|TWO_SIDED|95.0|-0.94|0.03||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.94|0.067
82423111|NCT00863304|164556190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.25||0.002|TWO_SIDED|95.0|-1.26|-0.29||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.29|-1.26|0.002
82423112|NCT00863304|164556190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.25||0.031|TWO_SIDED|95.0|-1.03|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-1.03|0.031
82423113|NCT00863304|164556191|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.5|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.50|<0.001
82448290|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.06|||||TWO_SIDED|95.0|-1.52|-0.61||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.61|-1.52|
82448291|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-1.45|-0.54||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.54|-1.45|
82576770|NCT01646177|164863778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576771|NCT01646177|164863778|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82423114|NCT00863304|164556191|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-0.48|<0.001
82423115|NCT00863304|164556191|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.078|TWO_SIDED|95.0|-0.3|0.02||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.02|-0.30|0.078
82423116|NCT00863304|164556191|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.019|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.019
82423117|NCT00863304|164556191|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.029|TWO_SIDED|95.0|-0.34|-0.02||P-value was based on pairwise comparisons.|ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.02|-0.34|0.029
82448292|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.71|0.21||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.21|-0.71|
82448293|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.02|||||TWO_SIDED|95.0|-1.48|-0.57||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.57|-1.48|
82534505|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-8.34|STANDARD_ERROR_OF_MEAN|1.086|<|0.001|TWO_SIDED|95.0|-10.47|-6.21||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.21|-10.47|<0.001
82423118|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.029|TWO_SIDED|95.0|-0.94|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.94|0.029
82423119|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.214|TWO_SIDED|95.0|-0.73|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.73|0.214
82423120|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.21|<0.001
82423121|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.234|TWO_SIDED|95.0|-0.18|0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.72|-0.18|0.234
82423122|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.23||0.034|TWO_SIDED|95.0|0.04|0.93||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.93|0.04|0.034
82423123|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.63|-0.7||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.70|-1.63|<0.001
82423124|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.42|-0.49||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.49|-1.42|<0.001
82423125|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.007|TWO_SIDED|95.0|-1.11|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-1.11|0.007
82423126|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.029|TWO_SIDED|95.0|-0.99|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.99|0.029
82423127|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.24||0.193|TWO_SIDED|95.0|-0.78|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.78|0.193
82423128|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.68|-0.73||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.73|-1.68|<0.001
82423129|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.24||0.001|TWO_SIDED|95.0|-1.28|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.28|0.001
82423130|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.011|TWO_SIDED|95.0|-1.1|-0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.14|-1.10|0.011
82423131|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.06|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-1.06|0.017
82423132|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.24||0.464|TWO_SIDED|95.0|-0.66|0.3||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.30|-0.66|0.464
82423133|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.72|-0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.72|-1.72|<0.001
82423134|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.55|-0.54||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.54|-1.55|<0.001
82423135|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.26||0.014|TWO_SIDED|95.0|-1.14|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-1.14|0.014
82423136|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.26||0.023|TWO_SIDED|95.0|-1.09|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-1.09|0.023
82448294|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-0.89|0.11||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.11|-0.89|
82448295|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|95.0|-1.44|-0.45||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.45|-1.44|
82448296|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21|||||TWO_SIDED|95.0|-1.71|-0.71||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.71|-1.71|
82448297|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|95.0|-1.59|-0.59||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.59|-1.59|
82448298|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-0.95|0.05||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-0.95|
82448299|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-1.65|-0.66||||||Week 6 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.66|-1.65|
82448300|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|||||TWO_SIDED|95.0|-0.96|0.08||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.08|-0.96|
82448301|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.48|-0.44||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.44|-1.48|
82448302|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.43|||||TWO_SIDED|95.0|-1.94|-0.91||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.91|-1.94|
82448303|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|95.0|-1.8|-0.76||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.76|-1.80|
82448304|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|||||TWO_SIDED|95.0|-1.06|-0.03||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.03|-1.06|
82534506|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|-9.45|-5.21||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.21|-9.45|<0.001
82448305|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.33|||||TWO_SIDED|95.0|-1.85|-0.81||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.81|-1.85|
82423137|NCT00863304|164556192|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.26||0.114|TWO_SIDED|95.0|-0.92|0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.10|-0.92|0.114
82423138|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.029|TWO_SIDED|95.0|-0.94|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.94|0.029
82423139|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.214|TWO_SIDED|95.0|-0.73|0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.16|-0.73|0.214
82576772|NCT01646177|164863779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82576773|NCT01646177|164863779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82423140|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.21|-0.32||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.32|-1.21|<0.001
82423141|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.23||0.234|TWO_SIDED|95.0|-0.18|0.72||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.72|-0.18|0.234
82448306|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.59|||||TWO_SIDED|95.0|0.19|0.98||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.98|0.19|
82448307|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-0.22|0.56||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-0.22|
82448308|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.38|0.41||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.41|-0.38|
82448309|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.62|0.16||||||Week 2 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.16|-0.62|
82448310|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.64|||||TWO_SIDED|95.0|0.18|1.09||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.09|0.18|
82448311|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-0.21|0.7||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.70|-0.21|
82448312|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.5|0.42||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.50|
82576774|NCT01646177|164863779|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82423142|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.23||0.034|TWO_SIDED|95.0|0.04|0.93||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.93|0.04|0.034
82423143|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.59|-0.67||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.67|-1.59|<0.001
82423144|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.37|-0.45||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.45|-1.37|<0.001
82423145|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.24||0.012|TWO_SIDED|95.0|-1.05|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-1.05|0.012
82423146|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.24||0.023|TWO_SIDED|95.0|-1.0|-0.07||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.07|-1.00|0.023
82448313|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.43|0.48||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.48|-0.43|
82448314|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|0.26|1.26||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.26|0.26|
82448315|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|||||TWO_SIDED|95.0|-0.29|0.7||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.70|-0.29|
82648143|NCT00528879|165011695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|STANDARD_ERROR_OF_MEAN|3.781|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423147|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.24||0.175|TWO_SIDED|95.0|-0.78|0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.14|-0.78|0.175
82423148|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.55|-0.63||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.63|-1.55|<0.001
82423149|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.34|-0.41||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.41|-1.34|<0.001
82448316|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.55|0.44||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.44|-0.55|
82448317|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.43|0.56||||||Week 6 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.56|-0.43|
82448318|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89|||||TWO_SIDED|95.0|0.37|1.41||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.41|0.37|
82448319|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|95.0|-0.15|0.89||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.89|-0.15|
82448320|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-0.61|0.42||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.42|-0.61|
82448321|NCT01393639|164604472|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-0.46|0.57||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.57|-0.46|
82448322|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.38|||||TWO_SIDED|95.0|-4.94|2.17||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.17|-4.94|
82448323|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-3.98|3.08||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.08|-3.98|
82448324|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|||||TWO_SIDED|95.0|-3.34|3.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.82|-3.34|
82448325|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-2.75|4.28||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.28|-2.75|
82448326|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.31|||||TWO_SIDED|95.0|-4.88|2.27||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.27|-4.88|
82448327|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.25|||||TWO_SIDED|95.0|-1.32|5.82||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.82|-1.32|
82448328|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.01|||||TWO_SIDED|95.0|-5.89|1.87||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.87|-5.89|
82448329|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.49|||||TWO_SIDED|95.0|-2.41|5.4||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.40|-2.41|
82448330|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.45|||||TWO_SIDED|95.0|-2.44|5.34||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.34|-2.44|
82448331|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.89|||||TWO_SIDED|95.0|-1.98|5.76||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.76|-1.98|
82448332|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|-3.16|4.61||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.61|-3.16|
82448333|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.18|||||TWO_SIDED|95.0|0.29|8.06||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.06|0.29|
82648144|NCT00528879|165011695|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|STANDARD_ERROR_OF_MEAN|3.819|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423150|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.03|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-1.03|0.017
82423151|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.027|TWO_SIDED|95.0|-0.99|-0.06||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.06|-0.99|0.027
82423152|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.24||0.19|TWO_SIDED|95.0|-0.78|0.15||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.15|-0.78|0.190
82648145|NCT00528879|165011696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.3344|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423153|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.63|-0.68||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.68|-1.63|<0.001
82423154|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.55|-0.6||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.60|-1.55|<0.001
82423155|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.24||0.034|TWO_SIDED|95.0|-0.99|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.99|0.034
82423156|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|9.0|-1.12|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.12|0.009
82423157|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.023|TWO_SIDED|95.0|-1.04|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-1.04|0.023
82423158|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.6|-0.64||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.64|-1.60|<0.001
82423159|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.35|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.35|<0.001
82423160|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.25||0.092|TWO_SIDED|95.0|-0.9|0.07||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.07|-0.90|0.092
82423161|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.25||0.004|TWO_SIDED|95.0|-1.19|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.19|0.004
82423162|NCT00863304|164556193|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.25||0.064|TWO_SIDED|95.0|-0.94|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.94|0.064
82423163|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|-1.12|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.12|0.001
82423164|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.003|TWO_SIDED|95.0|-1.09|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.09|0.003
82423165|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.25|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.25|<0.001
82423166|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.22||0.572|TWO_SIDED|95.0|-0.31|0.55||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.55|-0.31|0.572
82426713|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.8973|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.9|0.4|0.8973
82426714|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.33|||<|0.0001|TWO_SIDED|95.0|2.8|10.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||10.1|2.8|<0.0001
82426715|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.4|8.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||8.1|2.4|<0.0001
82448334|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-7.21|-0.06||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-0.06|-7.21|
82448335|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-6.25|0.85||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.85|-6.25|
82448336|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.01|||||TWO_SIDED|95.0|-5.63|1.6||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.60|-5.63|
82448337|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.49|||||TWO_SIDED|95.0|-5.02|2.05||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.05|-5.02|
82448338|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.19|||||TWO_SIDED|95.0|-10.07|-2.31||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-2.31|-10.07|
82448339|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.69|||||TWO_SIDED|95.0|-6.6|1.23||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.23|-6.60|
82448340|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73|||||TWO_SIDED|95.0|-6.64|1.18||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.18|-6.64|
82448341|NCT01393639|164604474|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.29|||||TWO_SIDED|95.0|-6.16|1.58||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.58|-6.16|
82448342|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.73|||||TWO_SIDED|95.0|-0.83|4.3||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.30|-0.83|
82448343|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.9|||||TWO_SIDED|95.0|0.35|5.45||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||5.45|0.35|
82448344|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.12|||||TWO_SIDED|95.0|3.54|8.7||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||8.70|3.54|
82448345|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.73|||||TWO_SIDED|95.0|2.19|7.26||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.26|2.19|
82448346|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.18|||||TWO_SIDED|95.0|-0.39|4.76||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.76|-0.39|
82448347|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.41|||||TWO_SIDED|95.0|2.83|7.99||||||Week 4 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.99|2.83|
82448348|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.79|||||TWO_SIDED|95.0|-1.08|4.65||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||4.65|-1.08|
82448349|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.4|||||TWO_SIDED|95.0|1.52|7.28||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||7.28|1.52|
82534507|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-5.98|STANDARD_ERROR_OF_MEAN|0.808|<|0.001|TWO_SIDED|95.0|-7.56|-4.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.39|-7.56|<0.001
82576775|NCT01711853|164863794|SUPERIORITY_OR_OTHER|||||||0.5186|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median GFR (Glomerular filtration rate), 2: \> median GFR).~Median is calculated based on trial data of treated set"||||0.5186
82448350|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.2|||||TWO_SIDED|95.0|3.33|9.07||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.07|3.33|
82534508|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|0.987|<|0.001|TWO_SIDED|95.0|-6.14|-2.27||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.27|-6.14|<0.001
82534509|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-4.34|STANDARD_ERROR_OF_MEAN|0.993|<|0.001|TWO_SIDED|95.0|-6.29|-2.39||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.39|-6.29|<0.001
82534510|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-5.27|STANDARD_ERROR_OF_MEAN|1.003|<|0.001|TWO_SIDED|95.0|-7.24|-3.31||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.31|-7.24|<0.001
82534511|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-3.29|STANDARD_ERROR_OF_MEAN|1.222||0.007|TWO_SIDED|95.0|-5.68|-0.89||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.89|-5.68|0.007
82423167|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.22||0.467|TWO_SIDED|95.0|-0.27|0.59||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.59|-0.27|0.467
82423168|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.74|-0.83||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.83|-1.74|<0.001
82423169|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.58|-0.66||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.66|-1.58|<0.001
82423170|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.19|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.19|0.002
82423171|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.019|TWO_SIDED|95.0|-1.01|-0.09||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.09|-1.01|0.019
82423172|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.101|TWO_SIDED|95.0|-0.85|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.85|0.101
82423173|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.7|-0.78||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.78|-1.70|<0.001
82423174|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.47|-0.54||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.54|-1.47|<0.001
82448351|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|0.85|6.55||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.55|0.85|
82423175|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|95.0|-1.08|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.08|0.009
82423176|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.08|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.08|0.008
82423177|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.101|TWO_SIDED|95.0|-0.85|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.85|0.101
82423178|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.79|-0.83||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.83|-1.79|<0.001
82448352|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.61|||||TWO_SIDED|95.0|0.74|6.47||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||6.47|0.74|
82576776|NCT01711853|164863794|SUPERIORITY_OR_OTHER|||||||0.9883|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median age, 2: \> median age).~Median is calculated based on trial data of treated set"||||0.9883
82448353|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.17|||||TWO_SIDED|95.0|3.29|9.04||||||Week 8 analysis presented in this section for comparison to placebo. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||9.04|3.29|
82448354|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|||||TWO_SIDED|95.0|-6.27|-1.09||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.09|-6.27|
82448355|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.51|||||TWO_SIDED|95.0|-5.07|0.05||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.05|-5.07|
82448356|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.71|||||TWO_SIDED|95.0|-1.88|3.3||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||3.30|-1.88|
82448357|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|||||TWO_SIDED|95.0|-3.23|1.87||||||Week 4 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.87|-3.23|
82448358|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.38|||||TWO_SIDED|95.0|-7.26|-1.5||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||-1.50|-7.26|
82448359|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.76|||||TWO_SIDED|95.0|-4.65|1.12||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||1.12|-4.65|
82448360|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-2.84|2.91||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||2.91|-2.84|
82448361|NCT01393639|164604476|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.47|||||TWO_SIDED|95.0|-5.33|0.39||||||Week 8 analysis presented in this section for comparison to prednisone 10 mg. Statistical analyses presented are derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction and baseline value; unstructured covariance matrix was used.||0.39|-5.33|
82448362|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-1.73|||<|0.0001|TWO_SIDED|95.0|-3.17|-0.29|||ANCOVA|||||-0.29|-3.17|<0.0001
82448363|NCT03100058|164604496|OTHER|Dose finding study|Median Difference (Net)|-1.93|||<|0.0001|TWO_SIDED|95.0|-3.36|-0.5|||ANCOVA|||||-0.50|-3.36|<0.0001
82448364|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-3.3|||<|0.0001|TWO_SIDED|95.0|-4.86|-1.75|||ANCOVA|||||-1.75|-4.86|<0.0001
82448365|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-4.42|||<|0.0001|TWO_SIDED|95.0|-5.39|-3.44|||ANCOVA|||||-3.44|-5.39|<0.0001
82448366|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-1.14|||<|0.0001|TWO_SIDED|95.0|-2.53|-0.25|||ANCOVA|||||-0.25|-2.53|<0.0001
82448367|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-2.74|||<|0.0001|TWO_SIDED|95.0|-4.11|-1.36|||ANCOVA|||||-1.36|-4.11|<0.0001
82448368|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-4.11|||<|0.0001|TWO_SIDED|95.0|-5.54|-2.68|||ANCOVA|||||-2.68|-5.54|<0.0001
82448369|NCT03100058|164604496|OTHER|Dose finding study|Mean Difference (Net)|-4.48|||<|0.0001|TWO_SIDED|95.0|-5.54|-3.43|||ANCOVA|||||-3.43|-5.54|<0.0001
82448370|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|2.38||||0.099|TWO_SIDED|95.0|0.85|6.67|||ANCOVA|||\>=5%||6.67|0.85|0.099
82448371|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio, log|1.18||||0.779|TWO_SIDED|95.0|0.36|3.84|||ANCOVA|||\>=5%||3.84|0.36|0.779
82448372|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|3.69||||0.011|TWO_SIDED|95.0|1.35|10.11|||ANCOVA|||\>=5%||10.11|1.35|0.011
82448373|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|5.57|||<|0.001|TWO_SIDED|95.0|2.41|12.88|||ANCOVA|||\>=5%||12.88|2.41|<.001
82448374|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.15||||0.812|TWO_SIDED|95.0|0.36|3.74|||ANCOVA|||\>=5%||3.74|0.36|0.812
82448375|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.94||||0.229|TWO_SIDED|95.0|0.66|5.69|||ANCOVA|||\>=5%||5.69|0.66|0.229
82448376|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|4.29||||0.004|TWO_SIDED|95.0|1.61|11.46|||ANCOVA|||\>=5%||11.46|1.61|0.004
82448377|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|6.37|||<|0.001|TWO_SIDED|95.0|2.72|14.93|||ANCOVA|||\>=5%||14.93|2.72|<.001
82448378|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.09||||0.943|TWO_SIDED|95.0|0.1|12.41|||ANCOVA|||\>=10%||12.41|0.10|0.943
82448379|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|2.11||||0.465|TWO_SIDED|95.0|0.28|15.77|||ANCOVA|||\>=10%||15.77|0.28|0.465
82448380|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.6||||0.696|TWO_SIDED|95.0|0.15|17.15|||ANCOVA|||\>=10%||17.15|0.15|0.696
82423179|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.63|-0.67||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.67|-1.63|<0.001
82534512|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-4.61|STANDARD_ERROR_OF_MEAN|1.229|<|0.001|TWO_SIDED|95.0|-7.02|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.20|-7.02|<0.001
82423180|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.21|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-1.21|0.003
82423181|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.25||0.016|TWO_SIDED|95.0|-1.08|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-1.08|0.016
82423182|NCT00863304|164556194|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.25||0.082|TWO_SIDED|95.0|-0.91|0.06||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.06|-0.91|0.082
82423183|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|-1.12|-0.27||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.27|-1.12|0.001
82423184|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.22||0.003|TWO_SIDED|95.0|-1.09|-0.23||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.23|-1.09|0.003
82423185|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.25|-0.39||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.39|-1.25|<0.001
82423186|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.22||0.572|TWO_SIDED|95.0|-0.31|0.55||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.55|-0.31|0.572
82423187|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.22||0.467|TWO_SIDED|95.0|-0.27|0.59||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.59|-0.27|0.467
82448381|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|2.14||||0.389|TWO_SIDED|95.0|0.38|12.1|||ANCOVA|||\>=10%||12.10|0.38|0.389
82423188|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.73|-0.82||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.82|-1.73|<0.001
82423189|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.61|-0.7||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.70|-1.61|<0.001
82423190|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.23||0.003|TWO_SIDED|95.0|-1.16|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-1.16|0.003
82423191|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.23||0.015|TWO_SIDED|95.0|-1.03|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-1.03|0.015
82423192|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.23||0.053|TWO_SIDED|95.0|-0.91|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.91|0.053
82448382|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.04||||0.976|TWO_SIDED|95.0|0.09|11.87|||ANCOVA|||\>=10%||11.87|0.09|0.976
82448383|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|1.02||||0.986|TWO_SIDED|95.0|0.09|11.7|||ANCOVA|||\>=10%||11.70|0.09|0.986
82448384|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|3.51||||0.181|TWO_SIDED|95.0|0.56|22.18|||ANCOVA|||\>=10%||22.18|0.56|0.181
82448385|NCT03100058|164604497|OTHER|Dose finding study|Odds Ratio (OR)|3.97||||0.1|TWO_SIDED|95.0|0.77|20.54|||ANCOVA|||\>=10%||20.54|0.77|0.100
82448386|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|6.29||||0.048|TWO_SIDED|95.0|1.02|38.76|||ANCOVA|||\>=5% (Dysglycemic)||38.76|1.02|0.048
82448387|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio, log|3.94||||0.171|TWO_SIDED|95.0|0.55|28.03|||ANCOVA|||\>=5% (Dsyglycemic)||28.03|0.55|0.171
82448388|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|7.17||||0.041|TWO_SIDED|95.0|1.09|47.27|||ANCOVA|||\>=5% (Dysglycemic)||47.27|1.09|0.041
82448389|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|11.89||||0.003|TWO_SIDED|95.0|2.32|60.93|||ANCOVA|||\>=5% (Dysglycemic)||60.93|2.32|0.003
82534513|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-3.44|STANDARD_ERROR_OF_MEAN|0.974|<|0.001|TWO_SIDED|95.0|-5.35|-1.53||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.53|-5.35|<0.001
82423193|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.66|-0.75||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.75|-1.66|<0.001
82423194|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.56|-0.65||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.65|-1.56|<0.001
82423195|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.23||0.009|TWO_SIDED|95.0|-1.07|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.07|0.009
82423196|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.011|TWO_SIDED|95.0|-1.05|-0.14||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.14|-1.05|0.011
82423197|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.23||0.035|TWO_SIDED|95.0|-0.95|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.95|0.035
82423198|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.79|-0.85||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.85|-1.79|<0.001
82423199|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.71|-0.76||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.76|-1.71|<0.001
82423200|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.11|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.11|0.008
82423201|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.24||0.005|TWO_SIDED|95.0|-1.16|-0.21||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.21|-1.16|0.005
82423202|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.013|TWO_SIDED|95.0|-1.07|-0.12||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.12|-1.07|0.013
82423203|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.76|-0.81||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.81|-1.76|<0.001
82534514|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.72|-1.09||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.09|-5.72|0.004
82423204|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.58|-0.63||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.63|-1.58|<0.001
82423205|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.24||0.05|TWO_SIDED|95.0|-0.95|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.00|-0.95|0.050
82423206|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.29|-0.34||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.34|-1.29|<0.001
82423207|NCT00863304|164556195|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.24||0.009|TWO_SIDED|95.0|-1.11|-0.16||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.16|-1.11|0.009
82423208|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.35|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.35|0.012
82423209|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.113|TWO_SIDED|95.0|-0.28|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.28|0.113
82647502|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00007|STANDARD_ERROR_OF_MEAN|0.002259||0.9755|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stability Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9755
82647503|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00056|STANDARD_ERROR_OF_MEAN|0.001818||0.7584|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Conflict Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7584
82648146|NCT00528879|165011696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.3344|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423210|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.49|<0.001
82423211|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.01|0.29||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.29|-0.01|0.076
82423212|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.007|TWO_SIDED|95.0|0.06|0.37||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.37|0.06|0.007
82423213|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.56|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-0.56|<0.001
82423214|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.58|-0.26||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.26|-0.58|<0.001
82423215|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-0.43|<0.001
82423216|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.102|TWO_SIDED|95.0|-0.29|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.29|0.102
82423217|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.066|TWO_SIDED|95.0|-0.31|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.31|0.066
82423218|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.28||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.28|-0.60|<0.001
82423219|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.53|-0.21||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.21|-0.53|<0.001
82448390|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.96||||0.976|TWO_SIDED|95.0|0.08|11.72|||ANCOVA|||\>=5% (Dysglycemic)||11.72|0.08|0.976
82423220|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.027|TWO_SIDED|95.0|-0.34|-0.02||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.02|-0.34|0.027
82423221|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.08||0.001|TWO_SIDED|95.0|-0.42|-0.1||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.10|-0.42|0.001
82423222|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.020
82448391|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|8.78||||0.022|TWO_SIDED|95.0|1.37|56.44|||ANCOVA|||\>=5% (Dysglycemic)||56.44|1.37|0.022
82448392|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|7.5||||0.032|TWO_SIDED|95.0|1.2|46.99|||ANCOVA|||\>=5% (Dysglycemic)||46.99|1.20|0.032
82648147|NCT00528879|165011696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.3365|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423223|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.17||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.17|-0.49|<0.001
82534515|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-2.12|STANDARD_ERROR_OF_MEAN|1.18||0.072|TWO_SIDED|95.0|-4.44|0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.19|-4.44|0.072
82647504|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.000297|STANDARD_ERROR_OF_MEAN|0.003444||0.9313|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Satisfaction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9313
82423224|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08||0.001|TWO_SIDED|95.0|-0.43|-0.11||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.11|-0.43|0.001
82423225|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.328|TWO_SIDED|95.0|-0.24|0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.08|-0.24|0.328
82423226|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.41|-0.09||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.09|-0.41|0.002
82423227|NCT00863304|164556196|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.022|TWO_SIDED|95.0|-0.35|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.35|0.022
82423228|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.35|-0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.04|-0.35|0.012
82423229|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.08||0.113|TWO_SIDED|95.0|-0.28|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.28|0.113
82423230|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.49|-0.18||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.18|-0.49|<0.001
82423231|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.076|TWO_SIDED|95.0|-0.01|0.29||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.29|-0.01|0.076
82423232|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.08||0.007|TWO_SIDED|95.0|0.06|0.37||P-value was based on pairwise comparisons.|ANCOVA|||Week 2: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.37|0.06|0.007
82534516|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-4.79|STANDARD_ERROR_OF_MEAN|0.789|<|0.001|TWO_SIDED|95.0|-6.34|-3.24||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.24|-6.34|<0.001
82423233|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.26||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.26|-0.57|<0.001
82423234|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
82423235|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.45|-0.13||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.13|-0.45|<0.001
82423236|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.12|TWO_SIDED|95.0|-0.29|0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.03|-0.29|0.120
82423237|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.126|TWO_SIDED|95.0|-0.29|0.04||P-value was based on pairwise comparisons.|ANCOVA|||Week 4: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.04|-0.29|0.126
82426716|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5708|TWO_SIDED|95.0|0.4|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.7|0.4|0.5708
82448393|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|11.28||||0.005|TWO_SIDED|95.0|2.11|60.46|||ANCOVA|||\>=5% (Dysglycemic)||60.46|2.11|0.005
82448394|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|3.21||||0.227|TWO_SIDED|95.0|0.48|21.28|||ANCOVA|||\>=5% (Normoglycemic)||21.28|0.48|0.227
82448395|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.69||||0.763|TWO_SIDED|95.0|0.06|7.85|||ANCOVA|||\>=5% (Normoglycemic)||7.85|0.06|0.763
82448396|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|4.68||||0.095|TWO_SIDED|95.0|0.76|28.7|||ANCOVA|||\>=5% (Normoglycemic)||28.70|0.76|0.095
82448397|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|5.33||||0.033|TWO_SIDED|95.0|1.14|24.83|||ANCOVA|||\>=5% (Normoglycemic)||24.83|1.14|0.033
82534517|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-3.01|STANDARD_ERROR_OF_MEAN|0.957||0.002|TWO_SIDED|95.0|-4.88|-1.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.13|-4.88|0.002
82423238|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.62|-0.3||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.30|-0.62|<0.001
82423239|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
82448398|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.72||||0.788|TWO_SIDED|95.0|0.06|8.1|||ANCOVA|||\>=5% (Normoglycemic)||8.10|0.06|0.788
82448399|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.68||||0.751|TWO_SIDED|95.0|0.06|7.62|||ANCOVA|||\>=5% (Normoglycemic)||7.62|0.06|0.751
82534518|NCT02886728|164766930|SUPERIORITY||Least Squares Mean Difference|-3.77|STANDARD_ERROR_OF_MEAN|0.957|<|0.001|TWO_SIDED|95.0|-5.65|-1.89||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.89|-5.65|<0.001
82423240|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.41|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-0.41|0.003
82448400|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|8.05||||0.027|TWO_SIDED|95.0|1.27|51.09|||ANCOVA|||\>=5% (Normoglycemic)||51.09|1.27|0.027
82448401|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|6.64||||0.023|TWO_SIDED|95.0|1.3|34.0|||ANCOVA|||\>=5% (Normoglycemic)||34.00|1.30|0.023
82448402|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.48||||0.528|TWO_SIDED|95.0|0.05|4.78|||ANCOVA|||\>=5% (T2DM)||4.78|0.05|0.528
82448403|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|1.05||||0.958|TWO_SIDED|95.0|0.17|6.68|||ANCOVA|||\>=5% (T2DM)||6.68|0.17|0.958
82448404|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|1.7||||0.546|TWO_SIDED|95.0|0.3|9.49|||ANCOVA|||\>=5% (T2DM)||9.49|0.30|0.546
82448405|NCT03100058|164604498|OTHER|Dose finding test|Odds Ratio (OR)|3.09||||0.098|TWO_SIDED|95.0|0.81|11.75|||ANCOVA|||\>=5% (T2DM)||11.75|0.81|0.098
82448406|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|1.64||||0.563|TWO_SIDED|95.0|0.31|8.7|||ANCOVA|||\>=5% (T2DM)||8.70|0.31|0.563
82448407|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|0.55||||0.61|TWO_SIDED|95.0|0.06|5.38|||ANCOVA|||\>=5% (T2DM)||5.38|0.06|0.610
82448408|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|1.71||||0.528|TWO_SIDED|95.0|0.32|9.16|||ANCOVA|||\>=5% (T2DM)||9.16|0.32|0.528
82448409|NCT03100058|164604498|OTHER|Dose finding study|Odds Ratio (OR)|4.55||||0.023|TWO_SIDED|95.0|1.23|16.9|||ANCOVA|||\>=5% (T2DM)||16.90|1.23|0.023
82448410|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-0.8||||0.47|TWO_SIDED|95.0|-2.96|1.37|||ANCOVA|||||1.37|-2.96|0.470
82448411|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-1.4||||0.199|TWO_SIDED|95.0|-3.64|0.76|||ANCOVA|||||0.76|-3.64|0.199
82448412|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-1.4|||<|0.001|TWO_SIDED|95.0|-3.64|0.76|||ANCOVA|||||0.76|-3.64|<0.001
82448413|NCT03100058|164604499|OTHER|Dose finding study|Mean Difference (Net)|-1.4||||0.206|TWO_SIDED|95.0|-3.56|0.77|||ANCOVA|||||0.77|-3.56|0.206
82448414|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-3.0||||0.006|TWO_SIDED|95.0|-5.18|-0.88|||ANCOVA|||||-0.88|-5.18|0.006
82448415|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-3.5||||0.002|TWO_SIDED|95.0|-5.7|-1.3|||ANCOVA|||||-1.30|-5.70|0.002
82448416|NCT03100058|164604499|OTHER|Dose finding study|Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|95.0|-5.1|-1.51|||ANCOVA|||||-1.51|-5.10|<0.001
82448417|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-0.9||||0.391|TWO_SIDED|95.0|-2.82|1.1|||ANCOVA|||||1.10|-2.82|0.391
82448418|NCT03100058|164604499|OTHER|Dose finding study|Median Difference (Net)|-2.5||||0.259|TWO_SIDED|95.0|-3.1|0.84|||ANCOVA|||||0.84|-3.10|0.259
82448419|NCT03100058|164604499|OTHER|Dose finding study|Mean Difference (Net)|-2.5||||0.048|TWO_SIDED|95.0|-4.91|-0.02|||ANCOVA|||||-0.02|-4.91|0.048
82448420|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|1.0||||0.225|TWO_SIDED|95.0|-0.62|2.61|||ANCOVA|||||2.61|-0.62|0.225
82448421|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.0||||0.247|TWO_SIDED|95.0|-2.62|0.68|||ANCOVA|||||0.68|-2.62|0.247
82448422|NCT03100058|164604500|OTHER|Dose finding study|Median Difference (Net)|-2.0||||0.019|TWO_SIDED|95.0|-3.75|-0.34|||ANCOVA|||||-0.34|-3.75|0.019
82448423|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.6||||0.015|TWO_SIDED|95.0|-2.96|-0.33|||ANCOVA|||||-0.33|-2.96|0.015
82423241|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.009|TWO_SIDED|95.0|-0.38|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.38|0.009
82423242|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.052|TWO_SIDED|95.0|-0.32|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.00|-0.32|0.052
82423243|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.25||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.25|-0.57|<0.001
82423244|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.48|-0.15||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.15|-0.48|<0.001
82448424|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.3||||0.106|TWO_SIDED|95.0|-2.97|0.29|||ANCOVA|||||0.29|-2.97|0.106
82448425|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.02|TWO_SIDED|95.0|-3.54|-0.31|||ANCOVA|||||-0.31|-3.54|0.020
82448426|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.8||||0.035|TWO_SIDED|95.0|-3.44|-0.12|||ANCOVA|||||-0.12|-3.44|0.035
82448427|NCT03100058|164604500|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.004|TWO_SIDED|95.0|-3.22|-0.61|||ANCOVA|||||-0.61|-3.22|0.004
82423245|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.051|TWO_SIDED|95.0|-0.33|0.0||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.00|-0.33|0.051
82423246|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.41|-0.08||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.08|-0.41|0.003
82423247|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.069|TWO_SIDED|95.0|-0.32|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.32|0.069
82448428|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|0.4||||0.082|TWO_SIDED|95.0|-0.05|0.79|||ANCOVA|||||0.79|-0.05|0.082
82448429|NCT03100058|164604501|OTHER|Dose finding study|Median Difference (Net)|-0.2||||0.319|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||||0.21|-0.63|0.319
82448430|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.008|TWO_SIDED|95.0|-1.05|-0.16|||ANCOVA|||||-0.16|-1.05|0.008
82448431|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.015|TWO_SIDED|95.0|-0.76|-0.08|||ANCOVA|||||-0.08|-0.76|0.015
82448432|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.1||||0.707|TWO_SIDED|95.0|-0.5|0.34|||ANCOVA|||||0.34|-0.50|0.707
82448433|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.2||||0.28|TWO_SIDED|95.0|-0.65|0.19|||ANCOVA|||||0.19|-0.65|0.280
82534519|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|19.7|||<|0.001|TWO_SIDED|95.0|12.8|26.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||26.7|12.8|<0.001
82448434|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.086|TWO_SIDED|95.0|-0.8|0.05|||ANCOVA|||||0.05|-0.80|0.086
82448435|NCT03100058|164604501|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.03|TWO_SIDED|95.0|-0.72|-0.04|||ANCOVA|||||-0.04|-0.72|0.030
82448436|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-2.8||||0.156|TWO_SIDED|95.0|-6.64|1.07|||ANCOVA|||SBP||1.07|-6.64|0.156
82423248|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.57|-0.24||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.24|-0.57|<0.001
82448437|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-3.1||||0.127|TWO_SIDED|95.0|-7.11|0.89|||ANCOVA|||SBP||0.89|-7.11|0.127
82448438|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-6.5||||0.002|TWO_SIDED|95.0|-10.52|-2.42|||ANCOVA|||SBP||-2.42|-10.52|0.002
82448439|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-2.7||||0.089|TWO_SIDED|95.0|-5.86|0.42|||ANCOVA|||SBP||0.42|-5.86|0.089
82448440|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-2.3||||0.245|TWO_SIDED|95.0|-6.12|1.57|||ANCOVA|||SBP||1.57|-6.12|0.245
82448441|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-0.8||||0.678|TWO_SIDED|95.0|-4.65|3.02|||ANCOVA|||SBP||3.02|-4.65|0.678
82448442|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-4.1||||0.04|TWO_SIDED|95.0|-8.07|-0.19|||ANCOVA|||SBP||-0.19|-8.07|0.040
82448443|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-3.4||||0.038|TWO_SIDED|95.0|-6.61|-0.19|||ANCOVA|||SBP||-0.19|-6.61|0.038
82448444|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-0.7||||0.601|TWO_SIDED|95.0|-3.38|1.96|||ANCOVA|||DBP||1.96|-3.38|0.601
82448445|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-0.4||||0.76|TWO_SIDED|95.0|-3.2|2.34|||ANCOVA|||DBP||2.34|-3.20|0.760
82448446|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-2.8||||0.051|TWO_SIDED|95.0|-5.6|0.01|||ANCOVA|||DBP||0.01|-5.60|0.051
82448447|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-1.8||||0.105|TWO_SIDED|95.0|-3.98|0.38|||ANCOVA|||DBP||0.38|-3.98|0.105
82448448|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|0.3||||0.82|TWO_SIDED|95.0|-2.36|2.98|||ANCOVA|||DBP||2.98|-2.36|0.820
82576777|NCT01711853|164863794|SUPERIORITY_OR_OTHER|||||||0.7853|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||Patients were classified based on the gender distribution.||||0.7853
82647505|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00129|STANDARD_ERROR_OF_MEAN|0.002097||0.5401|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.5401
82423249|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.20|-0.53|<0.001
82423250|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.012|TWO_SIDED|95.0|-0.37|-0.05||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.05|-0.37|0.012
82423251|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.36|-0.03||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||-0.03|-0.36|0.020
82423252|NCT00863304|164556197|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.064|TWO_SIDED|95.0|-0.32|0.01||P-value was based on pairwise comparisons.|ANCOVA|||Week 16: ANCOVA was performed with treatment as main effects, baseline value, index joint as a covariate, and study site as a random effect.||0.01|-0.32|0.064
82423253|NCT03766399|164556270|OTHER||LS means difference|-0.44||||0.9511|TWO_SIDED|90.0|-12.9|12.0|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Cohort 2||12.0|-12.9|0.9511
82423254|NCT03766399|164556270|OTHER||LS means difference|-7.87||||0.2849|TWO_SIDED|90.0|-20.3|4.59|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 2 Vs Part 2a (MAD) Placebo||4.59|-20.3|0.2849
82423255|NCT03766399|164556270|OTHER||LS means difference|-8.31||||0.2595|TWO_SIDED|90.0|-20.8|4.14|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Placebo||4.14|-20.8|0.2595
82423256|NCT03766399|164556270|OTHER||LS means difference|-3.04||||0.3604|TWO_SIDED|90.0|-8.6|2.51|||Linear Mixed Model|||Comparison of Part 3a (DPI/PoM) Vs Part 3a (DPI/PoM) Placebo||2.51|-8.60|0.3604
82423257|NCT03766399|164556271|OTHER||LS means difference|-25.4||||0.7544|TWO_SIDED|90.0|-166.0|115.0|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Cohort 2||115|-166|0.7544
82423258|NCT03766399|164556271|OTHER||LS means difference|-73.3||||0.375|TWO_SIDED|90.0|-214.0|67.6|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 2 Vs Part 2a (MAD) Placebo||67.6|-214|0.3750
82423259|NCT03766399|164556271|OTHER||LS means difference|-98.7||||0.2377|TWO_SIDED|90.0|-240.0|42.3|||Linear Mixed Model|||Comparison of Part 2a (MAD) Cohort 1 Vs Part 2a (MAD) Placebo||42.3|-240|0.2377
82423260|NCT03766399|164556271|OTHER||LS means difference|-50.4||||0.1105|TWO_SIDED|90.0|-102.0|1.61|||Linear Mixed Model|||Comparison of Part 3a (DPI/PoM) Vs Part 3a (DPI/PoM) Placebo||1.61|-102|0.1105
82423261|NCT03895372|164556297|SUPERIORITY||Risk Difference (RD)|8.87||||0.2621|TWO_SIDED|90.0|-4.5|26.26||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||26.26|-4.50|0.2621
82423262|NCT03895372|164556297|SUPERIORITY||Risk Difference (RD)|4.76||||0.2621|TWO_SIDED|90.0|-7.07|21.48||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||21.48|-7.07|0.2621
82448449|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-1.9||||0.157|TWO_SIDED|95.0|-4.58|0.74|||ANCOVA|||DBP||0.74|-4.58|0.157
82648148|NCT00528879|165011697|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.1||||0.1775||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.1775
82423263|NCT03895372|164556297|SUPERIORITY||Risk Difference (RD)|33.02||||0.0004|TWO_SIDED|90.0|18.01|47.11||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||47.11|18.01|0.0004
82423264|NCT03895372|164556297|SUPERIORITY||Risk Difference (RD)|46.46|||<|0.0001|TWO_SIDED|90.0|30.62|60.56||One-sided Hochberg p-value, significant level is 0.05.|Chan and Zhang method|||The analysis was based on the data at Week 16.||60.56|30.62|<0.0001
82423265|NCT03895372|164556305|SUPERIORITY||Risk Difference (RD)|3.9|||||TWO_SIDED|90.0|-11.82|23.42||||||The analysis was based on the data at Week 16.||23.42|-11.82|
82423266|NCT03895372|164556305|SUPERIORITY||Risk Difference (RD)|-4.76|||||TWO_SIDED|90.0|-18.61|13.29||||||The analysis was based on the data at Week 16.||13.29|-18.61|
82423267|NCT03895372|164556305|SUPERIORITY||Risk Difference (RD)|32.38|||||TWO_SIDED|90.0|14.32|47.52||||||The analysis was based on the data at Week 16.||47.52|14.32|
82448450|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-0.2||||0.859|TWO_SIDED|95.0|-2.99|2.49|||ANCOVA|||DBP||2.49|-2.99|0.859
82423268|NCT03895372|164556305|SUPERIORITY||Risk Difference (RD)|58.89|||||TWO_SIDED|90.0|41.01|72.41||||||The analysis was based on the data at Week 16.||72.41|41.01|
82423269|NCT03895372|164556306|SUPERIORITY||Risk Difference (RD)|1.52|||||TWO_SIDED|90.0|-14.52|20.77||||||The analysis was based on the data at Week 16.||20.77|-14.52|
82423270|NCT03895372|164556306|SUPERIORITY||Risk Difference (RD)|-2.38|||||TWO_SIDED|90.0|-17.67|17.01||||||The analysis was based on the data at Week 16.||17.01|-17.67|
82423271|NCT03895372|164556306|SUPERIORITY||Risk Difference (RD)|27.78|||||TWO_SIDED|90.0|8.86|43.26||||||The analysis was based on the data at Week 16.||43.26|8.86|
82448451|NCT03100058|164604502|OTHER|Dose finding study|Mean Difference (Net)|-2.2||||0.054|TWO_SIDED|95.0|-4.41|0.04|||ANCOVA|||DBP||0.04|-4.41|0.054
82448452|NCT03100058|164604504|OTHER|Dose finding study|Median Difference (Net)|-0.6||||0.355|TWO_SIDED|95.0|-1.84|0.66|||ANCOVA|||||0.66|-1.84|0.355
82423272|NCT03895372|164556306|SUPERIORITY||Risk Difference (RD)|54.07|||||TWO_SIDED|90.0|36.46|68.27||||||The analysis was based on the data at Week 16.||68.27|36.46|
82423273|NCT03895372|164556307|SUPERIORITY||Risk Difference (RD)|1.52|||||TWO_SIDED|90.0|-14.52|20.77||||||The analysis was based on the data at Week 16.||20.77|-14.52|
82423274|NCT03895372|164556307|SUPERIORITY||Risk Difference (RD)|-2.38|||||TWO_SIDED|90.0|-17.67|17.01||||||The analysis was based on the data at Week 16.||17.01|-17.67|
82423275|NCT03895372|164556307|SUPERIORITY||Risk Difference (RD)|27.78|||||TWO_SIDED|90.0|8.86|43.26||||||The analysis was based on the data at Week 16.||43.26|8.86|
82423276|NCT03895372|164556307|SUPERIORITY||Risk Difference (RD)|54.07|||||TWO_SIDED|90.0|36.46|68.27||||||The analysis was based on the data at Week 16.||68.27|36.46|
82423277|NCT03895372|164556310|SUPERIORITY||Least Squares Mean Difference|-1.46|||||TWO_SIDED|90.0|-5.42|2.51||||||The analysis was based on the data at Week 16.||2.51|-5.42|
82423278|NCT03895372|164556310|SUPERIORITY||Least Squares Mean Difference|-3.54|||||TWO_SIDED|90.0|-7.5|0.42||||||The analysis was based on the data at Week 16.||0.42|-7.50|
82423279|NCT03895372|164556310|SUPERIORITY||Least Squares Mean Difference|-9.8|||||TWO_SIDED|90.0|-13.05|-6.56||||||The analysis was based on the data at Week 16.||-6.56|-13.05|
82423280|NCT03895372|164556310|SUPERIORITY||Least Squares Mean Difference|-12.33|||||TWO_SIDED|90.0|-15.61|-9.04||||||The analysis was based on the data at Week 16.||-9.04|-15.61|
82423281|NCT03895372|164556311|SUPERIORITY||Least Squares Mean Difference|-8.63|||||TWO_SIDED|90.0|-23.61|6.35||||||The analysis was based on the data at Week 16.||6.35|-23.61|
82423282|NCT03895372|164556311|SUPERIORITY||Least Squares Mean Difference|-13.02|||||TWO_SIDED|90.0|-27.98|1.94||||||The analysis was based on the data at Week 16.||1.94|-27.98|
82423283|NCT03895372|164556311|SUPERIORITY||Least Squares Mean Difference|-40.74|||||TWO_SIDED|90.0|-53.02|-28.46||||||The analysis was based on the data at Week 16.||-28.46|-53.02|
82423284|NCT03895372|164556311|SUPERIORITY||Least Squares Mean Difference|-53.04|||||TWO_SIDED|90.0|-65.44|-40.63||||||The analysis was based on the data at Week 16.||-40.63|-65.44|
82423285|NCT03895372|164556312|SUPERIORITY||Least Squares Mean Difference|-1.22|||||TWO_SIDED|90.0|-2.52|0.09||||||The analysis was based on the data at Week 16.||0.09|-2.52|
82423286|NCT03895372|164556312|SUPERIORITY||Least Squares Mean Difference|-1.21|||||TWO_SIDED|90.0|-2.46|0.05||||||The analysis was based on the data at Week 16.||0.05|-2.46|
82423287|NCT03895372|164556312|SUPERIORITY||Least Squares Mean Difference|-3.47|||||TWO_SIDED|90.0|-4.51|-2.43||||||The analysis was based on the data at Week 16.||-2.43|-4.51|
82423288|NCT03895372|164556312|SUPERIORITY||Least Squares Mean Difference|-3.66|||||TWO_SIDED|90.0|-4.71|-2.61||||||The analysis was based on the data at Week 16.||-2.61|-4.71|
82423289|NCT03895372|164556313|SUPERIORITY||Risk Difference (RD)|12.99|||||TWO_SIDED|90.0|-4.52|32.87||||||The analysis was based on the data at Week 16.||32.87|-4.52|
82423290|NCT03895372|164556313|SUPERIORITY||Risk Difference (RD)|23.81|||||TWO_SIDED|90.0|2.62|44.64||||||The analysis was based on the data at Week 16.||44.64|2.62|
82423291|NCT03895372|164556313|SUPERIORITY||Risk Difference (RD)|41.27|||||TWO_SIDED|90.0|23.47|56.18||||||The analysis was based on the data at Week 16.||56.18|23.47|
82423292|NCT03895372|164556313|SUPERIORITY||Risk Difference (RD)|49.13|||||TWO_SIDED|90.0|30.62|63.69||||||The analysis was based on the data at Week 16.||63.69|30.62|
82423293|NCT03895372|164556314|SUPERIORITY||Least Squares Mean Difference|-4.21|||||TWO_SIDED|90.0|-7.82|-0.59||||||The analysis was based on the data at Week 16.||-0.59|-7.82|
82423294|NCT03895372|164556314|SUPERIORITY||Least Squares Mean Difference|-6.44|||||TWO_SIDED|90.0|-9.89|-2.99||||||The analysis was based on the data at Week 16.||-2.99|-9.89|
82423295|NCT03895372|164556314|SUPERIORITY||Least Squares Mean Difference|-10.51|||||TWO_SIDED|90.0|-13.4|-7.62||||||The analysis was based on the data at Week 16.||-7.62|-13.40|
82423296|NCT03895372|164556314|SUPERIORITY||Least Squares Mean Difference|-10.81|||||TWO_SIDED|90.0|-13.68|-7.94||||||The analysis was based on the data at Week 16.||-7.94|-13.68|
82423297|NCT04047355|164556324|SUPERIORITY||Median Difference (Final Values)|3.0||||0.12|TWO_SIDED|||||The a-priori threshold for statistical significance was set at α = 0.05.|Wilcoxon (Mann-Whitney)||The placebo phase serves as the control condition and the propranolol phase serves as the treatment condition.|A post-hoc power analysis was conducted using G\*Power, v. 3.1, to determine the achieved power for the Wilcoxon signed-rank test for matched pairs.||||0.12
82423298|NCT04047355|164556324|SUPERIORITY||Effect size (r)|-0.64|||||TWO_SIDED|||||||||||||
82423299|NCT04047355|164556324|SUPERIORITY||Post-hoc power analysis|0.39|||||TWO_SIDED||||||||The alpha error probability was set at α = 0.05 (two-tailed).|||||
82423300|NCT04047355|164556325|SUPERIORITY||Median Difference (Final Values)|2.0||||0.07|TWO_SIDED|||||The a-priori threshold for statistical significance was set at α = 0.05.|Wilcoxon (Mann-Whitney)||The placebo phase serves as the control condition and the propranolol phase serves as the treatment condition.|A post-hoc power analysis was conducted using G\*Power, v. 3.1, to determine the achieved power for the Wilcoxon signed-rank test for matched pairs.||||0.07
82423301|NCT04047355|164556325|SUPERIORITY||Effect size (r)|-0.74|||||TWO_SIDED|||||||||||||
82423302|NCT04047355|164556325|SUPERIORITY||Post-hoc power analysis|0.59|||||TWO_SIDED||||||||The alpha error probability was set at α = 0.05 (two-tailed).|||||
82423303|NCT00635050|164556359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|||||||||||||
82423304|NCT00086515|164556375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|||<|0.001|TWO_SIDED|95.0|-0.77|-0.53|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline A1C||||-0.53|-0.77|<0.001
82423305|NCT00086515|164556376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.4|||<|0.001|TWO_SIDED|95.0|-31.0|-19.8|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline FPG||||-19.8|-31.0|<0.001
82423306|NCT00086515|164556377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.6|||<|0.001|TWO_SIDED|95.0|-60.5|-40.8|||ANCOVA|Model terms: treatment, prior AHA status (not on AHA, on monotherapy oral AHA, or on metformin-based oral combination AHA), and baseline 2-hour PMG||||-40.8|-60.5|<0.001
82423307|NCT00437073|164556382|SUPERIORITY_OR_OTHER||percentage of participants|38.0|||||TWO_SIDED|95.0|13.9|68.4|||||The estimated value indicates the percentage of participants with CNS OR in the Lapatinib plus Capecitabine treatment arm.|||68.4|13.9|
82448453|NCT03100058|164604504|OTHER|Dose finding study|Mean Difference (Net)|-0.6||||0.373|TWO_SIDED|95.0|-1.83|0.69|||ANCOVA|||||0.69|-1.83|0.373
82534520|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|7.6|25.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||25.0|7.6|<0.001
82534521|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|11.7||||0.004|TWO_SIDED|95.0|3.0|20.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||20.4|3.0|0.004
82534522|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|18.5|||<|0.001|TWO_SIDED|95.0|11.7|25.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||25.2|11.7|<0.001
82534523|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|7.1||||0.083|TWO_SIDED|95.0|-1.6|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||15.8|-1.6|0.083
82534524|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|6.4|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||23.1|6.4|<0.001
82534525|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|10.6|||<|0.001|TWO_SIDED|95.0|4.4|16.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||16.7|4.4|<0.001
82534526|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|4.7||||0.22|TWO_SIDED|95.0|-3.1|12.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||12.6|-3.1|0.22
82534527|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|4.3||||0.25|TWO_SIDED|95.0|-3.6|12.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||12.1|-3.6|0.25
82534528|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|2.7||||0.35|TWO_SIDED|95.0|-3.5|8.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||8.9|-3.5|0.35
82648149|NCT00528879|165011697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7||||0.0275||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0275
82423308|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.78|||||TWO_SIDED|95.0|0.66|0.92||||||Serotype 1: the ratio of GMT (GMR) (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.92|0.66|
82423309|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.89|||||TWO_SIDED|95.0|0.79|0.99||||||Serotype 3: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.99|0.79|
82423310|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.79|||||TWO_SIDED|95.0|0.67|0.94||||||Serotype 4: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.94|0.67|
82423311|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||Serotype 5: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.91|0.65|
82423312|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.87|||||TWO_SIDED|95.0|0.73|1.05||||||Serotype 6A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.05|0.73|
82423313|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.91|||||TWO_SIDED|95.0|0.77|1.08||||||Serotype 6B: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.08|0.77|
82423314|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.84|||||TWO_SIDED|95.0|0.75|0.93||||||Serotype 7F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.93|0.75|
82448454|NCT03100058|164604504|OTHER|Dose finding study|Mean Difference (Net)|-2.8|||<|0.001|TWO_SIDED|95.0|-4.36|-1.24|||ANCOVA|||||-1.24|-4.36|<0.001
82534529|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|4.6||||0.2|TWO_SIDED|95.0|-2.9|12.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||12.1|-2.9|0.20
82534530|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|3.1||||0.36|TWO_SIDED|95.0|-4.5|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||10.6|-4.5|0.36
82648150|NCT00528879|165011697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.7||||0.0062||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0062
82448455|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.07||||0.632|TWO_SIDED|95.0|0.81|1.42|||ANCOVA|||||1.42|0.81|0.632
82448456|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.15||||0.352|TWO_SIDED|95.0|0.86|1.55|||ANCOVA|||||1.55|0.86|0.352
82423315|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.88|||||TWO_SIDED|95.0|0.76|1.02||||||Serotype 9V: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.02|0.76|
82534531|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|6.3||||0.043|TWO_SIDED|95.0|-0.2|12.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||12.8|-0.2|0.043
82534532|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|9.4||||0.015|TWO_SIDED|95.0|1.6|17.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||17.2|1.6|0.015
82534533|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|6.5||||0.085|TWO_SIDED|95.0|-1.5|14.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||14.4|-1.5|0.085
82534534|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|9.9||||0.002|TWO_SIDED|95.0|3.2|16.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||16.6|3.2|0.002
82534535|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|10.5||||0.01|TWO_SIDED|95.0|2.3|18.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||18.7|2.3|0.010
82534536|NCT02886728|164766931|SUPERIORITY||Difference in Response Rates|9.6||||0.014|TWO_SIDED|95.0|1.4|17.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||17.8|1.4|0.014
82534537|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
82534538|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.7|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.7|<0.001
82534539|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
82534540|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
82534541|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.9|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.9|<0.001
82534542|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.0|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.0|<0.001
82576778|NCT01711853|164863795|SUPERIORITY_OR_OTHER|||||||0.4692|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median GFR, 2: \> median GFR).~Median is calculated based on trial data of treated set"||||0.4692
82423316|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|1.09|||||TWO_SIDED|95.0|0.92|1.29||||||Serotype 14: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.29|0.92|
82423317|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.73|||||TWO_SIDED|95.0|0.62|0.85||||||Serotype 18C: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.85|0.62|
82423318|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.74|||||TWO_SIDED|95.0|0.63|0.86||||||Serotype 19A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.86|0.63|
82534543|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.0|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.0|<0.001
82534544|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.8|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.8|<0.001
82534545|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.9|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.9|<0.001
82534546|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
82534547|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
82534548|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
82534549|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.6|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.6|<0.001
82534550|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.4|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-0.4|0.033
82576779|NCT01711853|164863795|SUPERIORITY_OR_OTHER|||||||0.9734|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||"Patients were classified into groups for renal function based on the median values for renal function (1: ≤ median age, 2: \> median age).~Median is calculated based on trial data of treated set"||||0.9734
82647506|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.00018|STANDARD_ERROR_OF_MEAN|0.002471||0.9421|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Discussion Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.9421
82423319|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.64|||||TWO_SIDED|95.0|0.53|0.76||||||Serotype 19F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.76|0.53|
82423320|NCT04875533|164556411|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/13vPnC)|0.8|||||TWO_SIDED|95.0|0.65|0.99||||||Serotype 23F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.99|0.65|
82423321|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|0.58|||||TWO_SIDED|95.0|0.5|0.67||||||Serotype 8: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||0.67|0.50|
82426717|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58|||<|0.0001|TWO_SIDED|95.0|3.0|10.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||10.3|3.0|<0.0001
82534551|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.2|-0.6|<0.001
82534552|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
82534553|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.2|-0.6|<0.001
82534554|NCT02886728|164766932|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.7|<0.001
82534555|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|18.8|||<|0.001|TWO_SIDED|95.0|13.1|24.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||24.4|13.1|<0.001
82534556|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|11.7|||<|0.001|TWO_SIDED|95.0|4.7|18.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||18.6|4.7|<0.001
82534557|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|19.9|||<|0.001|TWO_SIDED|95.0|12.5|27.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||27.3|12.5|<0.001
82534558|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|27.2|||<|0.001|TWO_SIDED|95.0|20.5|33.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||33.9|20.5|<0.001
82534559|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|21.6|||<|0.001|TWO_SIDED|95.0|13.2|30.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||30.1|13.2|<0.001
82534560|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|19.5|||<|0.001|TWO_SIDED|95.0|11.1|27.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||27.9|11.1|<0.001
82534561|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|22.6|||<|0.001|TWO_SIDED|95.0|15.8|29.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24||29.4|15.8|<0.001
82534562|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|16.6|||<|0.001|TWO_SIDED|95.0|8.1|25.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24||25.2|8.1|<0.001
82534563|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|5.3|22.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24||22.4|5.3|<0.001
82534564|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|21.4|||<|0.001|TWO_SIDED|95.0|14.6|28.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||28.2|14.6|<0.001
82534565|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|12.3||||0.003|TWO_SIDED|95.0|3.7|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||20.9|3.7|0.003
82423322|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|2.14|||||TWO_SIDED|95.0|1.8|2.53||||||Serotype 10A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.53|1.80|
82534566|NCT02886728|164766933|SUPERIORITY||Difference in Response Rates|18.1|||<|0.001|TWO_SIDED|95.0|9.7|26.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||26.5|9.7|<0.001
82423323|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.72|||||TWO_SIDED|95.0|1.44|2.06||||||Serotype 11A: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.06|1.44|
82426718|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.29|||<|0.0001|TWO_SIDED|95.0|3.3|12.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||12.0|3.3|<0.0001
82423324|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.68|||||TWO_SIDED|95.0|1.39|2.04||||||Serotype 12F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.04|1.39|
82423325|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|2.13|||||TWO_SIDED|95.0|1.72|2.64||||||Serotype 15B: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||2.64|1.72|
82423326|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.62|||||TWO_SIDED|95.0|1.33|1.98||||||Serotype 22F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.98|1.33|
82423327|NCT04875533|164556412|NON_INFERIORITY|Noninferiority for a serotype was declared if the lower bound of the 2-sided 95% CI for the ratio of GMT20vPnC/saline to GMT13vPnC/PPSV23 for that serotype is greater than 0.5 (2-fold criterion).|Ratio of GMTs (20vPnC/PPSV23)|1.14|||||TWO_SIDED|95.0|0.97|1.34||||||Serotype 33F: GMR (the 20vPnC/saline group to the 13vPnC/PPSV23 group) and the 2-sided 95% CI||1.34|0.97|
82423328|NCT01299961|164556444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4|STANDARD_DEVIATION|13.1|<|0.01|TWO_SIDED||||||t-test, 2 sided|||Most involved side: Synovitis (S), tenosynovitis (T), and power Doppler (PD) of wrist (dorsal (D), palmar (P), and ulnar (U)); S and T of MCP 2,3 (P, plus D for T); PD of the MCP joints (P and D); S and PD of PIP 2, 3 (P, plus D for PD); S and PD for MTP 2, 4 (D). S and PD graded from 0 to 3, and max individual scores are 27 and 39, respectively. T graded on 0-1 scale; max T score is 5. High score is worse. The 7-joint US score is sum of T, S, and PD scores. Change calculated baseline- month 12.||||<0.01
82423329|NCT01299961|164556445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_DEVIATION|3.7|<|0.01|TWO_SIDED||||||t-test, 2 sided|||7 joints were scanned by power doppler ultra sound of the most affected side: wrist, MCP 2/3, PIP 2/3, and MTP 2/5. PDUS was scored semi-quantitatively on a scale of 0-3 (higher score is worse). The mean score of the 2-3 views obtained for each joint was added across all 7 joints, and the total PDUS (range 0-21) scores were calculated. The change from baseline to 12 months is calculated as the baseline PDUS minus 12 month PDUS.||||<0.01
82423330|NCT01299961|164556446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|3.7||0.19|TWO_SIDED||||||t-test, 2 sided|||7 joints were scanned by grey-scale ultra sound of the most affected side: wrist, MCP 2/3, PIP 2/3, and MTP 2/5. GSUS was scored semi-quantitatively on a scale of 0-3 (higher score is worse). The mean score of the 2-3 views obtained for each joint was added across all 7 joints, and the total GSUS (range 0-21) scores were calculated. The change from baseline to 12 months is calculated as the baseline GSUS minus 12 month GSUS.||||0.19
82423331|NCT00663260|164556449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1448||0.561|TWO_SIDED|95.0|-0.37|0.2||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||0.20|-0.37|0.561
82423332|NCT00663260|164556449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.1457||0.435|TWO_SIDED|95.0|-0.4|0.17||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||0.17|-0.40|0.435
82448457|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.41||||0.027|TWO_SIDED|95.0|1.04|1.92|||ANCOVA|||||1.92|1.04|0.027
82534567|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|6.3|||<|0.001|TWO_SIDED|95.0|3.4|9.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2||9.1|3.4|<0.001
82534568|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|3.4||||0.01|TWO_SIDED|95.0|0.1|6.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2||6.7|0.1|0.010
82423333|NCT00663260|164556450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|8.142|||TWO_SIDED|95.0|-29.7|2.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||2.4|-29.7|
82423334|NCT00663260|164556450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|8.136|||TWO_SIDED|95.0|-25.0|7.0||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||7.0|-25.0|
82423335|NCT00663260|164556451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.4435|||TWO_SIDED|95.0|-2.68|-0.94||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||-0.94|-2.68|
82423336|NCT00663260|164556451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|0.4395|||TWO_SIDED|95.0|-3.03|-1.29||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05; secondary efficacy analyses were not tested since the primary endpoint was not significant.|ANCOVA|||||-1.29|-3.03|
82423337|NCT00980798|164556452|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2365||||0.1212|TWO_SIDED|95.0|-0.5357|0.0627||No adjustment for multiple comparisons necessary, as only 1 primary hypothesis was tested. Threshold for statistical significance was 0.05.|Mixed-model regression analysis|The difference above is presented as the difference OROS hydromorphone HCl minus placebo, so negative scores favour OROS hydromorphone HCl.|The analysis was adjusted for baseline BPI item 5 score, time on study, and whether the primary affected joint was the hip or knee.|The F test for treatment tested the null hypothesis of no treatment difference. Assuming that 3 baseline measures and 7 post baseline measures were collected 81 patients were required per group to detect a difference of 1 point in the BPI measure with 90% power at a significance level of 5%. To allow for a drop-out rate of approximately 40%, the study planned to recruit 135 patients per group (i.e. 270 in total).||0.0627|-0.5357|0.1212
82448458|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.07||||0.587|TWO_SIDED|95.0|0.85|1.35|||ANCOVA|||||1.35|0.85|0.587
82423338|NCT05081843|164556462|SUPERIORITY||Mean Difference (Final Values)|0.233||||0.05|TWO_SIDED|95.0|-0.056|0.522|||t-test, 2 sided|||||0.522|-0.056|0.05
82423339|NCT05081843|164556463|SUPERIORITY||Median Difference (Final Values)|0.534||||0.05|TWO_SIDED|95.0|0.078|0.99|||t-test, 2 sided|||||0.990|0.078|0.05
82423340|NCT05081843|164556464|SUPERIORITY||Mean Difference (Final Values)|0.326||||0.05|TWO_SIDED|95.0|-0.177|0.829|||t-test, 2 sided|||||0.829|-0.177|0.05
82423341|NCT05081843|164556465|SUPERIORITY||Mean Difference (Final Values)|0.756||||0.05|TWO_SIDED|95.0|0.208|1.31|||t-test, 2 sided|||||1.31|0.208|0.05
82423342|NCT03211416|164556473|SUPERIORITY||Response Rate|0.296|||||TWO_SIDED|95.0|0.151|0.483||||||||0.483|0.151|
82423343|NCT03211416|164556476|SUPERIORITY|||||||0.4||||||Significance level of 0.05.|Two-sided, one-sample t-test|||The null hypothesis is that the mean ratio of T effect cells (post / pre) is equal to 1 (no change).||||0.40
82423344|NCT02496000|164556502|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0117|||||||Kruskal-Wallis|ANOVA model on the ranks||This outcome measure requires that the the mean differences of ORMD-0801 in each of the two arms be pooled.||||0.0117
82534569|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|9.0|||<|0.001|TWO_SIDED|95.0|4.5|13.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2||13.6|4.5|<0.001
82647507|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00151|STANDARD_ERROR_OF_MEAN|0.003983||0.7042|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Cohesion Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7042
82647508|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.02128|STANDARD_ERROR_OF_MEAN|0.008331||0.0114|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total RDAS Score as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0114
82648151|NCT00528879|165011698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.3515||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
82648152|NCT00528879|165011698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.3022||0.0068||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0068
82423345|NCT01969058|164556533|SUPERIORITY|||||||0.03||||||Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference between the two arms in the change in T-cell activation from baseline to week 14/16.||||0.030
82423346|NCT02085720|164556567|NON_INFERIORITY_OR_EQUIVALENCE|Data were given as means and standard deviations, unless otherwise stated. AHI was categorized as ≥ 5, ≥ 10, ≥ 15 and ≥ 20. The frequency distribution of responses on the SHQ and their relationship to AHI was assessed with the chi-squared analysis. The association of variables such as age, BMI, neck circumference, ESS and sleep health questionnaire responses versus AHI was evaluated using one-way analysis of variance and Pearson Correlation Analysis.|||||<|0.05|||||||ANOVA|||||||<0.05
82423347|NCT04632030|164556615|OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.69|3.6|||||Adjusted for age, education, and lifetime tobacco use|||3.6|.69|
82423348|NCT04632030|164556615|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|1.28|6.55|||||Adjusted for age, education, and lifetime tobacco use|||6.55|1.28|
82423349|NCT04632030|164556616|OTHER||Odds Ratio (OR)|2.88|||||TWO_SIDED|95.0|1.28|6.47|||||Adjusted for age, education, and lifetime tobacco use|||6.47|1.28|
82423350|NCT04632030|164556616|OTHER||Odds Ratio (OR)|2.87|||||TWO_SIDED|95.0|1.26|6.5|||||Adjusted for age, education, and lifetime tobacco use|||6.50|1.26|
82423351|NCT04632030|164556617|OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.59|3.86|||||Adjusted for age, education, and lifetime tobacco use|||3.86|.59|
82423352|NCT04632030|164556617|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|0.73|4.67|||||Adjusted for age, education, and lifetime tobacco use|||4.67|.73|
82423353|NCT04632030|164556618|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.53|2.99|||||Adjusted for age, education, and lifetime tobacco use|||2.99|.53|
82423354|NCT04632030|164556618|OTHER||Odds Ratio (OR)|2.19|||||TWO_SIDED|95.0|0.94|5.13|||||Adjusted for age, education, and lifetime tobacco use|||5.13|.94|
82423355|NCT00964678|164556619|SUPERIORITY|||||||0.028|TWO_SIDED|20.0||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.028
82423356|NCT00964678|164556620|SUPERIORITY|||||||0.028||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.028
82423357|NCT00964678|164556621|SUPERIORITY||||||>|0.05|TWO_SIDED|20.0||||The threshold for statistical significance was p=0.05.|ANOVA|||||||>0.05
82423358|NCT00964678|164556622|SUPERIORITY||||||>|0.05|TWO_SIDED|20.0|||||ANOVA|||||||>0.05
82423359|NCT03977155|164556639|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.35||0.3776|TWO_SIDED|95.0|-1.0|0.38|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.38|-1.00|0.3776
82423360|NCT03977155|164556639|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|95.0|-0.73|0.82||||||Statistical Analysis 2||0.82|-0.73|
82423361|NCT03977155|164556639|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_ERROR_OF_MEAN|0.403|||TWO_SIDED|95.0|-1.41|0.19||||||Statistical Analysis 3||0.19|-1.41|
82423362|NCT03977155|164556639|SUPERIORITY||Mean Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|95.0|-0.13|1.44||||||Statistical Analysis 4||1.44|-0.13|
82448459|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.1||||0.508|TWO_SIDED|95.0|0.82|1.47|||ANCOVA|||||1.47|0.82|0.508
82647509|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002587|STANDARD_ERROR_OF_MEAN|0.001727||0.1358|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Decision Making Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1358
82647510|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.001402|STANDARD_ERROR_OF_MEAN|0.001796||0.4354|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Values Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.4354
82648153|NCT00528879|165011698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.3535||0.029||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0290
82423363|NCT03977155|164556641|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.211||0.884|TWO_SIDED|95.0|-0.45|0.39|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.39|-0.45|0.8840
82423364|NCT03977155|164556641|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.249|||TWO_SIDED|95.0|-0.6|0.39||||||Statistical Analysis 2||0.39|-0.60|
82423365|NCT03977155|164556641|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.43|0.49||||||Statistical Analysis 3||0.49|-0.43|
82423366|NCT03977155|164556641|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|95.0|-0.63|0.36||||||Statistical Analysis 4||0.36|-0.63|
82423367|NCT03977155|164556642|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.228||0.4725|TWO_SIDED|95.0|-0.62|0.29|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.29|-0.62|0.4725
82423368|NCT03977155|164556642|SUPERIORITY||Median Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.256|||TWO_SIDED|95.0|-0.71|0.31||||||Statistical Analysis 2||0.31|-0.71|
82423369|NCT03977155|164556642|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|-0.62|0.37||||||Statistical Analysis 3||0.37|-0.62|
82448460|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.01||||0.945|TWO_SIDED|95.0|0.76|1.34|||ANCOVA|||||1.34|0.76|0.945
82534570|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|11.8|||<|0.001|TWO_SIDED|95.0|7.4|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4||16.1|7.4|<0.001
82423370|NCT03977155|164556642|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.262|||TWO_SIDED|95.0|-0.6|0.45||||||Statistical Analysis 4||0.45|-0.60|
82423371|NCT03977155|164556643|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5693|TWO_SIDED|95.0|-0.28|0.51|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.51|-0.28|0.5693
82423372|NCT03977155|164556643|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|-0.35|0.63||||||Statistical Analysis 2||0.63|-0.35|
82423373|NCT03977155|164556643|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-0.33|0.51||||||Statistical Analysis 3||0.51|-0.33|
82423374|NCT03977155|164556643|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|-0.41|0.51||||||Statistical Analysis 4||0.51|-0.41|
82423375|NCT03977155|164556644|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-7.71|STANDARD_ERROR_OF_MEAN|25.208||0.7603|TWO_SIDED|95.0|-57.76|42.33|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||42.33|-57.76|0.7603
82423376|NCT03977155|164556644|SUPERIORITY||Mean Difference (Net)|24.0|STANDARD_ERROR_OF_MEAN|29.087|||TWO_SIDED|95.0|-34.22|82.22||||||Statistical Analysis 2||82.22|-34.22|
82423377|NCT03977155|164556644|SUPERIORITY||Mean Difference (Net)|-33.42|STANDARD_ERROR_OF_MEAN|27.285|||TWO_SIDED|95.0|-87.91|21.07||||||Statistical Analysis 3||21.07|-87.91|
82423378|NCT03977155|164556644|SUPERIORITY||Mean Difference (Net)|57.42|STANDARD_ERROR_OF_MEAN|28.174|||TWO_SIDED|95.0|1.16|113.69||||||Statistical Analysis 4||113.69|1.16|
82423379|NCT03977155|164556645|SUPERIORITY|Individual BOS-589 dose levels versus placebo were only to be tested if pooled BOS-589 doses versus placebo was significant at p\<0.05.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.137||0.2149|TWO_SIDED|95.0|-0.44|0.1|||t test|P-values were calculated from the independent two-sample t test with equal variance.||Statistical Analysis 1||0.10|-0.44|0.2149
82423380|NCT03977155|164556645|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.27|0.29||||||Statistical Analysis 2||0.29|-0.27|
82423381|NCT03977155|164556645|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|95.0|-0.64|-0.01||||||Statistical Analysis 3||-0.01|-0.64|
82423382|NCT03977155|164556645|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.02|0.65||||||Statistical Analysis 4||0.65|0.02|
82423383|NCT03440385|164556675|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8125|TWO_SIDED|95.0|0.66|1.39|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.39|0.66|0.8125
82448461|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.08||||0.602|TWO_SIDED|95.0|0.81|1.45|||ANCOVA|||||1.45|0.81|0.602
82423384|NCT03440385|164556676|SUPERIORITY||Odds Ratio (OR)|1.13||||0.54|TWO_SIDED|95.0|0.77|1.66|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.66|0.77|0.5400
82423385|NCT03440385|164556677|SUPERIORITY||Odds Ratio (OR)|1.28||||0.2411|TWO_SIDED|95.0|0.85|1.95|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.95|0.85|0.2411
82423386|NCT03440385|164556678|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7469|TWO_SIDED|95.0|0.67|1.34|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.34|0.67|0.7469
82448462|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|1.06||||0.612|TWO_SIDED|95.0|0.84|1.35|||ANCOVA|||||1.35|0.84|0.612
82448463|NCT03100058|164604510|OTHER|Dose finding study|Median Difference (Net)|0.89||||0.382|TWO_SIDED|95.0|0.68|1.16|||ANCOVA|||||1.16|0.68|0.382
82448464|NCT03100058|164604510|OTHER|Dose finding study|Median Difference (Net)|0.87||||0.31|TWO_SIDED|95.0|0.67|1.14|||ANCOVA|||||1.14|0.67|0.310
82448465|NCT03100058|164604510|OTHER|Dose finding study|Mean Difference (Net)|0.9||||0.525|TWO_SIDED|95.0|0.65|1.25|||ANCOVA|||||1.25|0.65|0.525
82423387|NCT03440385|164556679|SUPERIORITY||Odds Ratio (OR)|1.22||||0.4255|TWO_SIDED|95.0|0.75|1.97|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.97|0.75|0.4255
82448466|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-7.9||||0.254|TWO_SIDED|95.0|-21.37|5.65|||ANCOVA|||Triglycerides (TG)||5.65|-21.37|0.254
82448467|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-2.7||||0.716|TWO_SIDED|95.0|-17.44|11.99|||ANCOVA|||Triglycerides (TG)||11.99|-17.44|0.716
82448468|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-15.6||||0.038|TWO_SIDED|95.0|-30.3|-0.86|||ANCOVA|||Triglycerides (TG)||-0.86|-30.30|0.038
82448469|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-7.0||||0.213|TWO_SIDED|95.0|-18.15|4.06|||ANCOVA|||Triglycerides (TG)||4.06|-18.15|0.213
82448470|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-1.7||||0.806|TWO_SIDED|95.0|-15.38|11.96|||ANCOVA|||Triglycerides (TG)||11.96|-15.38|0.806
82448471|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-2.3||||0.739|TWO_SIDED|95.0|-15.8|11.21|||ANCOVA|||Triglycerides (TG)||11.21|-15.80|0.739
82448472|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|1.4||||0.837|TWO_SIDED|95.0|-12.36|15.26|||ANCOVA|||Triglycerides (TG)||15.26|-12.36|0.837
82448473|NCT03100058|164604511|OTHER||Mean Difference (Net)|-11.4||||0.049|TWO_SIDED|95.0|-22.71|-0.07|||ANCOVA|||Triglycerides (TG)||-0.07|-22.71|0.049
82448474|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|1.3||||0.764|TWO_SIDED|95.0|-7.22|9.82|||ANCOVA|||Total Cholesterol (TC)||9.82|-7.22|0.764
82534571|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|10.2|||<|0.001|TWO_SIDED|95.0|4.5|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4||15.8|4.5|<0.001
82534572|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|8.6|20.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4||20.8|8.6|<0.001
82423388|NCT03440385|164556680|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9313|TWO_SIDED|95.0|0.6|1.76|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.76|0.60|0.9313
82423389|NCT03440385|164556681|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4339|TWO_SIDED|95.0|0.7|2.31|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||2.31|0.70|0.4339
82423390|NCT03440385|164556682|SUPERIORITY||Odds Ratio (OR)|1.3||||0.333|TWO_SIDED|95.0|0.77|2.2|||Cochran-Mantel-Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||2.20|0.77|0.3330
82448475|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|2.6||||0.571|TWO_SIDED|95.0|-6.43|11.63|||ANCOVA|||Total Cholesterol (TC)||11.63|-6.43|0.571
82448476|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|0.1||||0.987|TWO_SIDED|95.0|-9.3|9.46|||ANCOVA|||Total Cholesterol (TC)||9.46|-9.30|0.987
82448477|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|9.9||||0.006|TWO_SIDED|95.0|2.85|16.87|||ANCOVA|||Total Cholesterol (TC)||16.87|2.85|0.006
82448478|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-3.3||||0.463|TWO_SIDED|95.0|-12.03|5.48|||ANCOVA|||Total Cholesterol (TC)||5.48|-12.03|0.463
82448479|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|0.4||||0.925|TWO_SIDED|95.0|-8.18|9.01|||ANOVA|||Total Cholesterol (TC)||9.01|-8.18|0.925
82448480|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|1.7||||0.711|TWO_SIDED|95.0|-7.19|10.53|||ANCOVA|||Total Cholesterol (TC)||10.53|-7.19|0.711
82448481|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|4.1||||0.265|TWO_SIDED|95.0|-3.1|11.26|||ANCOVA|||Total Cholesterol (TC)||11.26|-3.10|0.265
82448482|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|0.0||||0.995|TWO_SIDED|95.0|-7.31|7.36|||ANCOVA|||HDL Cholesterol||7.36|-7.31|0.995
82448483|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|4.1||||0.288|TWO_SIDED|95.0|-3.52|11.81|||ANCOVA|||HDL Cholesterol||11.81|-3.52|0.288
82448484|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|4.5||||0.269|TWO_SIDED|95.0|-3.5|12.5|||ANCOVA|||HDL Cholesterol||12.50|-3.50|0.269
82448485|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|7.3||||0.018|TWO_SIDED|95.0|1.23|13.27|||ANCOVA|||HDL Cholesterol||13.27|1.23|0.018
82448486|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|2.2||||0.565|TWO_SIDED|95.0|-5.32|9.73|||ANCOVA|||HDL Cholesterol||9.73|-5.32|0.565
82448487|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|1.7||||0.649|TWO_SIDED|95.0|-5.67|9.09|||ANCOVA|||HDL Cholesterol||9.09|-5.67|0.649
82423391|NCT03440385|164556683|SUPERIORITY||Odds Ratio (OR)|1.04||||0.82|TWO_SIDED|95.0|0.74|1.47|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.47|0.74|0.8200
82423392|NCT03440385|164556684|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7776|TWO_SIDED|95.0|0.71|1.59|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.59|0.71|0.7776
82423393|NCT03440385|164556685|SUPERIORITY||Odds Ratio (OR)|1.39||||0.1187|TWO_SIDED|95.0|0.92|2.11|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no)||||2.11|0.92|0.1187
82423394|NCT03440385|164556686|SUPERIORITY||Odds Ratio (OR)|1.28||||0.403|TWO_SIDED|95.0|0.72|2.26|||Cochran-Mantel-Haenszel|Odds ratio and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no)||||2.26|0.72|0.4030
82423395|NCT03440385|164556687|SUPERIORITY||Odds Ratio (OR)|0.79||||0.563|TWO_SIDED|95.0|0.35|1.78|||Mantel Haenszel|Odds ratio, and p-value are obtained using the CMH test stratified by corticosteroid use at baseline (yes or no), and prior biologic use (yes or no).||||1.78|0.35|0.5630
82423396|NCT00600340|164556767|NON_INFERIORITY|"Null hypothesis: Hazard Ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.042||||0.1983|ONE_SIDED|97.5||1.689||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, stratified).||1.689||0.1983
82423397|NCT00600340|164556767|NON_INFERIORITY|"Null hypothesis: Hazard Ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.018||||0.007|ONE_SIDED|97.5||1.261||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, stratified).||1.261||0.0070
82534573|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|22.6|||<|0.001|TWO_SIDED|95.0|16.4|28.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12||28.8|16.4|<0.001
82534574|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|14.8|||<|0.001|TWO_SIDED|95.0|7.1|22.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12||22.5|7.1|<0.001
82534575|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|12.5|||<|0.001|TWO_SIDED|95.0|4.9|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12||20.0|4.9|<0.001
82423398|NCT00600340|164556767|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.058||||0.2024|ONE_SIDED|97.5||1.674||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, unstratified).||1.674||0.2024
82423399|NCT00600340|164556767|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.134||||0.0612|ONE_SIDED|97.5||1.386||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals. Non-inferiority margin was a HR of 1.33.|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, unstratified).||1.386||0.0612
82423400|NCT00600340|164556768|NON_INFERIORITY|"Null hypothesis: Hazard ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.027||||0.1534|ONE_SIDED|97.5||1.606||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, stratified).||1.606||0.1534
82423401|NCT00600340|164556768|NON_INFERIORITY|"Null hypothesis: Hazard ratio (HR) \>= 1.33~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"|Hazard Ratio (HR)|1.035||||0.0085|ONE_SIDED|97.5||1.273||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, stratified).||1.273||0.0085
82423402|NCT00600340|164556768|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.058||||0.1778|ONE_SIDED|97.5||1.623||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (interim, unstratified).||1.623||0.1778
82426719|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.8842|TWO_SIDED|95.0|0.4|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.0|0.4|0.8842
82423403|NCT00600340|164556768|NON_INFERIORITY|Null hypothesis: Hazard Ratio (HR) \>= 1.33 Based on Cox proportional hazards model.|Hazard Ratio (HR)|1.126||||0.049|ONE_SIDED|97.5||1.37||Based on approach using repeated confidence intervals, with one-sided 97.5% repeated confidence intervals|Regression, Cox||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for OS (final, unstratified).||1.37||0.049
82423404|NCT00600340|164556774|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.67||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR) of objective response and Cochran-Mantel-Haenszel (CMH) test (stratified)||0.67|0.33|< 0.0001
82423405|NCT00600340|164556774|SUPERIORITY||Risk Difference (RD)|-17.0|||||TWO_SIDED|95.0|-24.0|-9.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-9|-24|
82423406|NCT00600340|164556774|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.43||||0.0006|TWO_SIDED|95.0|0.27|0.7||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.70|0.27|0.0006
82423407|NCT00600340|164556774|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-18.0|-6.0|||||Difference calculated as the DCR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-18|
82423408|NCT00600340|164556775|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.31|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.65|0.31|< 0.0001
82423409|NCT00600340|164556775|SUPERIORITY||Risk Difference (RD)|-18.0|||||TWO_SIDED|95.0|-26.0|-10.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-10|-26|
82423410|NCT00600340|164556775|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.39||||0.0003|TWO_SIDED|95.0|0.24|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.65|0.24|0.0003
82423411|NCT00600340|164556775|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-6.0|||||Difference calculated as the DCR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-19|
82423412|NCT00600340|164556776|SUPERIORITY|OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.31|0.63||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.63|0.31|< 0.0001
82423413|NCT00600340|164556776|SUPERIORITY||Risk Difference (RD)|-20.0|||||TWO_SIDED|95.0|-28.0|-11.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, units in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-11|-28|
82423414|NCT00600340|164556776|SUPERIORITY||Odds Ratio (OR)|0.43||||0.0006|TWO_SIDED|95.0|0.27|0.7||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.70|0.27|0.0006
82423415|NCT00600340|164556776|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-18.0|-6.0|||||Difference calculated as DCR in Bevacizumab Plus Capecitabine minus DCR in Bevacizumab plus Paclitaxel, units in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-18|
82423416|NCT00600340|164556777|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.29|0.6||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for objective response of Bevacizumab Plus Capecitabine divided by the odds for objective response of Bevacizumab plus Paclitaxel|OR of objective response and CMH test (stratified)||0.60|0.29|< 0.0001
82423417|NCT00600340|164556777|SUPERIORITY||Risk Difference (RD)|-21.0|||||TWO_SIDED|95.0|-30.0|-13.0|||||Difference calculated as ORR in Bevacizumab Plus Capecitabine minus ORR in Bevacizumab plus Paclitaxel, unit in percent.|Difference in ORR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-13|-30|
82423418|NCT00600340|164556777|SUPERIORITY|OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|Odds Ratio (OR)|0.39||||0.0003|TWO_SIDED|95.0|0.24|0.65||"Test adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age"|Cochran-Mantel-Haenszel||OR is the odds for disease control of Bevacizumab Plus Capecitabine divided by the odds for disease control of Bevacizumab plus Paclitaxel|OR of disease control and CMH test (stratified)||0.65|0.24|0.0003
82576780|NCT01711853|164863795|SUPERIORITY_OR_OTHER|||||||0.9201|TWO_SIDED||||||ANOVA|ANOVA model on the logarithmic scale; effects accounting for the following sources of variation: 'gender', 'age group', and 'renal function group'.||Patients were classified based on the gender distribution.||||0.9201
82648154|NCT00528879|165011699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.3681||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
82423419|NCT00600340|164556777|SUPERIORITY||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-19.0|-6.0|||||Difference calculated as DCR in Bevacizumab Plus Capecitabine minus DCR in Bevacizumab plus Paclitaxel, unit in percent.|Difference in DCR in Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel||-6|-19|
82423420|NCT00600340|164556778|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.32||||0.0066|TWO_SIDED|95.0|1.08|1.61|||Log Rank|Two-sided log-rank test adjusted by stratification factors at randomization|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for PFS (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.61|1.08|0.0066
82423421|NCT00600340|164556779|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.31||||0.0094|TWO_SIDED|95.0|1.07|1.61|||Log Rank|Two-sided log-rank test adjusted by stratification factors at randomization|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for PFS (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.61|1.07|0.0094
82423422|NCT00600340|164556780|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.13||||0.1957|TWO_SIDED|95.0|0.94|1.35||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for TTF (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.35|0.94|0.1957
82423423|NCT00600340|164556781|SUPERIORITY|HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.11||||0.2583|TWO_SIDED|95.0|0.92|1.34||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab plus Capecitabine vs. Bevacizumab plus Paclitaxel for TTF (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||1.34|0.92|0.2583
82423424|NCT00600340|164556782|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|0.57||||0.0001|TWO_SIDED|95.0|0.43|0.77||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for TR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||0.77|0.43|0.0001
82423425|NCT00600340|164556783|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|0.56||||0.0001|TWO_SIDED|95.0|0.41|0.75||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for TR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||0.75|0.41|0.0001
82423426|NCT00600340|164556784|SUPERIORITY|HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|Hazard Ratio (HR)|1.41||||0.0582|TWO_SIDED|95.0|0.99|2.02||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Bevacizumab Plus Capecitabine divided by hazard rate of Bevacizumab plus Paclitaxel.|"HR of Bevacizumab Plus Capecitabine vs. Bevacizumab plus Paclitaxel for DR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||2.02|0.99|0.0582
82576781|NCT03651700|164863799|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82576782|NCT03651700|164863800|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82648155|NCT00528879|165011699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.3745|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423427|NCT00600340|164556785|SUPERIORITY|HR is the hazard rate of Arm B divided by hazard rate of Arm A.|Hazard Ratio (HR)|1.45||||0.0429|TWO_SIDED|95.0|1.01|2.1||Two-sided log-rank test adjusted by stratification factors at randomization|Log Rank||HR is the hazard rate of Arm B divided by hazard rate of Arm A.|"HR of Arm B vs. Arm A for DR (stratified)~Based on Cox proportional hazards model adjusted by stratification factors at randomization:~1. estrogen and/or progesterone status (positive vs. other)~2. country~3. menopausal status (premenopausal or male \<=50 years of age vs. postmenopausal or male \>50 years of age)"||2.10|1.01|0.0429
82423428|NCT00376558|164556786|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|||||||0.003
82423429|NCT00376558|164556787|SUPERIORITY_OR_OTHER||delta bpnd|-12.0|STANDARD_DEVIATION|7.0||0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||The limbic striatum was our primary region of interest using an unpaired t test to compare BPND and deltaBPND between the treatment responders and non-responders.||||0.001
82423430|NCT04770285|164556823|SUPERIORITY||Treatment Difference|-1.78||||0.0568|TWO_SIDED|95.0|-3.6|0.05|||MMRM|p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.||||0.05|-3.60|0.0568
82423431|NCT04770285|164556824|SUPERIORITY||Treatment Difference|-0.77||||0.0705|TWO_SIDED|95.0|-1.61|0.07|||MMRM|p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.||||0.07|-1.61|0.0705
82423432|NCT04770285|164556825|SUPERIORITY||Treatment Difference|-0.62||||0.3687|TWO_SIDED|95.0|-1.99|0.74||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||0.74|-1.99|0.3687
82423433|NCT04770285|164556825|SUPERIORITY||Treatment Difference|-1.45||||0.0828|TWO_SIDED|95.0|-3.1|0.19||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||0.19|-3.10|0.0828
82423434|NCT04770285|164556826|SUPERIORITY||Treatment Difference|-0.34||||0.3549|TWO_SIDED|95.0|-1.06|0.38||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||0.38|-1.06|0.3549
82423435|NCT04770285|164556826|SUPERIORITY||Treatment Difference|-0.28||||0.4948|TWO_SIDED|95.0|-1.09|0.53||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||0.53|-1.09|0.4948
82423436|NCT04770285|164556827|SUPERIORITY||Ratio of Response Rate|1.68||||0.142|TWO_SIDED|95.0|0.84|3.34||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 2||3.34|0.84|0.1420
82534576|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|18.3|||<|0.001|TWO_SIDED|95.0|11.4|25.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36||25.1|11.4|<0.001
82648156|NCT00528879|165011699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.08|STANDARD_ERROR_OF_MEAN|0.3791|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423437|NCT04770285|164556827|SUPERIORITY||Ratio of Response Rate|1.31||||0.2939|TWO_SIDED|95.0|0.79|2.16||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 4||2.16|0.79|0.2939
82423438|NCT04770285|164556827|SUPERIORITY||Ratio of Response Rate|1.38||||0.0884|TWO_SIDED|95.0|0.96|1.99||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 6||1.99|0.96|0.0884
82423439|NCT04770285|164556828|SUPERIORITY||Treatment Difference|-0.19||||0.0039|TWO_SIDED|95.0|-0.32|-0.06||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 2||-0.06|-0.32|0.0039
82423440|NCT04770285|164556828|SUPERIORITY||Treatment Difference|-0.32||||0.0003|TWO_SIDED|95.0|-0.5|-0.15||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||-0.15|-0.50|0.0003
82423441|NCT04770285|164556828|SUPERIORITY||Treatment Difference|-0.26||||0.0098|TWO_SIDED|95.0|-0.46|-0.06||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 6||-0.06|-0.46|0.0098
82423442|NCT04770285|164556829|SUPERIORITY||Treatment Difference|-1.02||||0.4463|TWO_SIDED|95.0|-3.66|1.61||p-value was calculated by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|ANCOVA|||||1.61|-3.66|0.4463
82423443|NCT04770285|164556830|SUPERIORITY||Treatment Difference|-1.29||||0.0102|TWO_SIDED|95.0|-2.28|-0.31||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 4||-0.31|-2.28|0.0102
82423444|NCT04770285|164556830|SUPERIORITY||Treatment Difference|-1.58||||0.0029|TWO_SIDED|95.0|-2.62|-0.54||p-value was calculated by MMRM method with model terms: Treatment, trial center, visit, treatment by visit, and baseline by visit interaction.|MMRM|||Week 6||-0.54|-2.62|0.0029
82423445|NCT04770285|164556831|SUPERIORITY||Ratio of Response Rate|1.18||||0.5757|TWO_SIDED|95.0|0.65|2.16||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 2||2.16|0.65|0.5757
82423446|NCT04770285|164556831|SUPERIORITY||Ratio of Response Rate|1.16||||0.5102|TWO_SIDED|95.0|0.75|1.78||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 4||1.78|0.75|0.5102
82423447|NCT04770285|164556831|SUPERIORITY||Ratio of Response Rate|1.15||||0.5342|TWO_SIDED|95.0|0.74|1.79||p-value was calculated by Cochran-Mantel-Haenzsel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 6||1.79|0.74|0.5342
82423448|NCT04770285|164556832|SUPERIORITY||Ratio of Response Rate|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Week 8||1.22|0.82|
82423449|NCT04770285|164556832|SUPERIORITY||Ratio of Response Rate|1.05|||||TWO_SIDED|95.0|0.88|1.25||||||Week 10||1.25|0.88|
82426720|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.92|||<|0.0001|TWO_SIDED|95.0|3.2|10.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||10.8|3.2|<0.0001
82448488|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|0.7||||0.847|TWO_SIDED|95.0|-6.87|8.36|||ANCOVA|||HDL Cholesterol||8.36|-6.87|0.847
82423450|NCT01472185|164556855|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.36||P-value is from a mixed effects model including terms for baseline HbA1c value, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.5% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||-0.36|-0.76|< 0.0001
82534577|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|7.7||||0.056|TWO_SIDED|95.0|-0.8|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36||16.1|-0.8|0.056
82534578|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|9.0||||0.023|TWO_SIDED|95.0|0.5|17.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36||17.4|0.5|0.023
82576783|NCT05479734|164863808|SUPERIORITY|Expected Outcomes: greater number of activities while receiving parenting tips.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported when significant.||Null hypothesis is the number of positive activities engaged in with the child will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean activity counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
82423451|NCT00427700|164556860|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.0||||0.3|TWO_SIDED|95.0|-9.0|33.0|||Fisher Exact|||The null hypothesis is that there is no significant difference between two drugs for ovulation induction.A sample size of 40 women per arm was calculated for this superiority trial, considering an alpha and beta error of 0.05 and 0.2, respectively, to find an absolute difference of 30% in the ovulation rate between groups, based on a previous study published by Mitwally and Casper (18) where the ovulation rate with CC was approximately 45%.||33|-9|0.3
82423452|NCT00427700|164556861|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.0||||0.2|TWO_SIDED|95.0|-6.0|34.0|||t-test, 2 sided|||Null hypothesis: There is no difference between the mean values of progesterone between both groups.||34|-6|0.2
82423453|NCT02904096|164556891|NON_INFERIORITY|Estimates for PA, PB, and PA-PB were reported together with one-sided 95% confidence interval (CI) for PA-PB constructed via the Farrington-Manning likelihood method. Here PA and PB are the percentage of subjects in Group A and B (Non-inferiority margin = 12%).|Difference in percentage|1.5|||||ONE_SIDED|95.0||3.35||||||||3.35||
82423454|NCT02904096|164556892|OTHER||Difference in Percentage|1.5|||||ONE_SIDED|95.0||3.35||||||||3.35||
82534579|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|21.9|||<|0.001|TWO_SIDED|95.0|15.1|28.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52||28.7|15.1|<0.001
82534580|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|11.5||||0.004|TWO_SIDED|95.0|3.1|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52||20.0|3.1|0.004
82423455|NCT02904096|164556893|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Flexion (Left Hand)-baseline and Group A: Flexion (Left Hand)-change from baseline at Month 24.||||<.001
82534581|NCT02886728|164766934|SUPERIORITY||Difference in Response Rates|14.7|||<|0.001|TWO_SIDED|95.0|6.3|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52||23.1|6.3|<0.001
82648157|NCT00528879|165011706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.1109||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
82648158|NCT00528879|165011706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1129||0.0004||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||0.0004
82423456|NCT02904096|164556893|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Flexion (Right Hand)-baseline and Group A: Flexion (Right Hand)-change from baseline at Month 24.||||<.001
82423457|NCT02904096|164556893|OTHER|||||||0.054|||||||t-test, 1 sided|||Comparison between Group B: Flexion (Left Hand)-baseline and Group B: Flexion (Left Hand)-change from baseline at Month 24.||||.054
82423458|NCT02904096|164556893|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Flexion (Right Hand)-baseline and Group B: Flexion (Right Hand)-change from baseline at Month 24.||||<.001
82423459|NCT02904096|164556893|OTHER|||||||0.049|||||||t-test, 1 sided|||Comparison between Group A: Extension (Left Hand)-baseline and Group A: Extension (Left Hand)-change from baseline at Month 24.||||.049
82423460|NCT02904096|164556893|OTHER|||||||0.003|||||||t-test, 1 sided|||Comparison between Group A: Extension (Right Hand)-baseline and Group A: Extension (Right Hand)-change from baseline at Month 24.||||.003
82423461|NCT02904096|164556893|OTHER|||||||0.781|||||||t-test, 1 sided|||Comparison between Group B: Extension (Left Hand)-baseline and Group B: Extension (Left Hand)-change from baseline at Month 24.||||.781
82423462|NCT02904096|164556893|OTHER|||||||0.573|||||||t-test, 1 sided|||Comparison between Group B: Extension (Right Hand)-baseline and Group B: Extension (Right Hand)-change from baseline at Month 24.||||.573
82423463|NCT02904096|164556894|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Left Hand)-baseline and Group A: (Left Hand)-change from baseline at Month 24.||||<.001
82423464|NCT02904096|164556894|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Right Hand)-baseline and Group A: (Right Hand)-change from baseline at Month 24.||||<.001
82423465|NCT02904096|164556894|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Left Hand)-baseline and Group B: (Left Hand)-change from baseline at Month 24.||||<.001
82423466|NCT02904096|164556894|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Right Hand)-baseline and Group B: (Right Hand)-change from baseline at Month 24.||||<.001
82534582|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-7.3|-4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.1|-7.3|<0.001
82534583|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-6.4|-2.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.4|-6.4|<0.001
82647511|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.005759|STANDARD_ERROR_OF_MEAN|0.002113||0.007|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on AffectionSubdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0070
82647512|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.01037|STANDARD_ERROR_OF_MEAN|0.004485||0.0217|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Consensus Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0217
82423467|NCT02904096|164556895|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Left Hand)-baseline and Group A: (Left Hand)-change from baseline at Month 24.||||<.001
82423468|NCT02904096|164556895|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: (Right Hand)-baseline and Group A: (Right Hand)-change from baseline at Month 24.||||<.001
82423469|NCT02904096|164556895|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Left Hand)-baseline and Group B: (Left Hand)-change from baseline at Month 24.||||<.001
82423470|NCT02904096|164556895|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: (Right Hand)-baseline and Group B: (Right Hand)-change from baseline at Month 24.||||<.001
82423471|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand grip strength (Left Hand)-baseline and Group A: Hand grip strength (Left Hand)-change from baseline at Month 24.||||<.001
82448489|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|7.3||||0.02|TWO_SIDED|95.0|1.14|13.43|||ANCOVA|||HDL Cholesterol||13.43|1.14|0.020
82534584|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.01|<|0.001|TWO_SIDED|95.0|-7.7|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-7.7|<0.001
82534585|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|TWO_SIDED|95.0|-8.9|-5.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.6|-8.9|<0.001
82423472|NCT02904096|164556896|OTHER|||||||0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand grip strength (Right Hand)-baseline and Group A: Hand grip strength (Right Hand)-change from baseline at Month 24.||||.001
82423473|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand grip strength (Left Hand)-baseline and Group B: Hand grip strength (Left Hand)-change from baseline at Month 24.||||<.001
82423474|NCT02904096|164556896|OTHER|||||||0.002|||||||t-test, 1 sided|||Comparison between Group B: Hand grip strength (Right Hand)-baseline and Group B: Hand grip strength (Right Hand)-change from baseline at Month 24.||||.002
82423475|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand tip pinch strength (Left Hand)-baseline and Group A: Hand tip pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
82423476|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand tip pinch strength (Right Hand)-baseline and Group A: Hand tip pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
82423477|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand tip pinch strength (Left Hand)-baseline and Group B: Hand tip pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
82423478|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand tip pinch strength (Right Hand)-baseline and Group B: Hand tip pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
82423479|NCT02904096|164556896|OTHER|||||||0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand key pinch strength (Left Hand)-baseline and Group A: Hand key pinch strength (Left Hand)-change from baseline at Month 24.||||.001
82423480|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group A: Hand key pinch strength (Right Hand)-baseline and Group A: Hand key pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
82448490|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-3.8||||0.579|TWO_SIDED|95.0|-17.09|9.57|||ANCOVA|||LDL Cholesterol||9.57|-17.09|0.579
82448491|NCT03100058|164604511|OTHER||Mean Difference (Net)|5.0||||0.487|TWO_SIDED|95.0|-9.08|19.02|||ANCOVA|||LDL Cholesterol||19.02|-9.08|0.487
82423481|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand key pinch strength (Left Hand)-baseline and Group B: Hand key pinch strength (Left Hand)-change from baseline at Month 24.||||<.001
82423482|NCT02904096|164556896|OTHER||||||<|0.001|||||||t-test, 1 sided|||Comparison between Group B: Hand key pinch strength (Right Hand)-baseline and Group B: Hand key pinch strength (Right Hand)-change from baseline at Month 24.||||<.001
82423483|NCT02904096|164556896|OTHER|||||||0.01|||||||t-test, 1 sided|||Comparison between Group A: Hand palmar pinch strength (Left Hand)-baseline and Group A: Hand palmar pinch strength (Left Hand)-change from baseline at Month 24.||||.010
82423484|NCT02904096|164556896|OTHER|||||||0.06|||||||t-test, 1 sided|||Comparison between Group A: Hand palmar pinch strength (Right Hand)-baseline and Group A: Hand palmar pinch strength (Right Hand)-change from baseline at Month 24.||||.060
82534586|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-7.3|-3.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.3|-7.3|<0.001
82423485|NCT02904096|164556896|OTHER|||||||0.177|||||||t-test, 1 sided|||Comparison between Group B: Hand palmar pinch strength (Left Hand)-baseline and Group B: Hand palmar pinch strength (Left Hand)-change from baseline at Month 24.||||.177
82423486|NCT02904096|164556896|OTHER|||||||0.177|||||||t-test, 1 sided|||Comparison between Group B: Hand palmar pinch strength (Right Hand)-baseline and Group B: Hand palmar pinch strength (Right Hand)-change from baseline at Month 24.||||.177
82423487|NCT01979185|164556908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.632|||||TWO_SIDED|90.0|0.538|0.744|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.744|0.538|
82423488|NCT01979185|164556909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.63|||||TWO_SIDED|90.0|0.543|0.73|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.730|0.543|
82423489|NCT01979185|164556910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|0.594|||||TWO_SIDED|90.0|0.526|0.672|||Mixed-effects Model|||The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in pharmacokinetic parameters, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||0.672|0.526|
82423490|NCT01877278|164556931|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82423491|NCT01877278|164556931|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
82423492|NCT01877278|164556932|SUPERIORITY_OR_OTHER||||||=|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||=0.0001
82423493|NCT01877278|164556932|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
82423494|NCT04262479|164556956|OTHER||||||||||||||||||Counting number of events.|||
82423495|NCT04262479|164556957|OTHER||||||||||||||||||Counting number of events|||
82423496|NCT04262479|164556958|OTHER||||||<|0.001||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.001
82423497|NCT04262479|164556959|OTHER||||||<|0.05||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.05
82576784|NCT05479734|164863809|SUPERIORITY||||||<|1||||||Test was performed with a significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. A randomization group difference over time is reported if significant.||Null hypothesis is that the mean positive parenting subscale score would not change from the baseline to the post-intervention assessment. Mixed effects models were performed regressing mean subscale scores on a timeframe (baseline vs post) indicator and a randomization group (early vs late app-delivered parenting tips) indicator. A randomization group difference over time was evaluated. This interaction effect was not included in the final statistical model unless statistically significant.||||<1.00
82648159|NCT00528879|165011706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1146|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423498|NCT04262479|164556960|OTHER||||||<|0.61||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.61
82423499|NCT04262479|164556961|OTHER||||||<|0.3||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.30
82423500|NCT04262479|164556962|OTHER||||||<|0.002||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.002
82423501|NCT04262479|164556963|OTHER||||||<|0.72||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.72
82423502|NCT04262479|164556964|OTHER||||||<|0.03||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.03
82448492|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-4.3||||0.561|TWO_SIDED|95.0|-18.96|10.3|||ANCOVA|||LDL Cholesterol||10.30|-18.96|0.561
82423503|NCT04262479|164556965|OTHER||||||<|0.044||||||P-value threshold for significance: \<0.05|Wilcoxon signed rank test|||||||<0.044
82423504|NCT05318287|164556967|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.03||0.083|TWO_SIDED||||||t-test, 2 sided|||||||.083
82423505|NCT05318287|164556968|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||t-test, 2 sided|||||||.010
82423506|NCT05318287|164556969|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.16|TWO_SIDED||||||t-test, 2 sided|||||||.160
82423507|NCT05318287|164556970|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.167|TWO_SIDED||||||t-test, 2 sided|||||||.167
82448493|NCT03100058|164604511|OTHER||Mean Difference (Net)|9.3||||0.097|TWO_SIDED|95.0|-1.68|20.25|||ANCOVA|||LDL Cholesterol||20.25|-1.68|0.097
82448494|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-8.4||||0.227|TWO_SIDED|95.0|-22.1|5.26|||ANCOVA|||LDL Cholesterol||5.26|-22.10|0.227
82534587|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|-7.8|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-7.8|<0.001
82423508|NCT05318287|164556971|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.012|TWO_SIDED||||||t-test, 2 sided|||||||.012
82448495|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-3.8||||0.58|TWO_SIDED|95.0|-17.22|9.64|||ANCOVA|||LDL Cholesterol||9.64|-17.22|0.580
82448496|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-4.8||||0.494|TWO_SIDED|95.0|-18.67|9.03|||ANCOVA|||LDL Cholesterol||9.03|-18.67|0.494
82448497|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|-1.6||||0.782|TWO_SIDED|95.0|-12.81|9.65|||ANCOVA|||LDL Cholesterol||9.65|-12.81|0.782
82448498|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|1.9||||0.816|TWO_SIDED|95.0|-13.82|17.54|||ANCOVA|||Triglycerides (TG)||17.54|-13.82|0.816
82448499|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|8.02||||0.341|TWO_SIDED|95.0|-8.13|23.42|||ANCOVA|||Triglycerides (TG)||23.42|-8.13|0.341
82448500|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|9.99||||0.566|TWO_SIDED|95.0|-25.39|13.91|||ANCOVA|||Triglycerides (TG)||13.91|-25.39|0.566
82448501|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|2.98||||0.405|TWO_SIDED|95.0|-3.38|8.36|||ANCOVA|||Total Cholesterol (TC)||8.36|-3.38|0.405
82448502|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|2.0||||0.511|TWO_SIDED|95.0|-3.92|7.87|||ANCOVA|||Total Cholesterol (TC)||7.87|-3.92|0.511
82423509|NCT05318287|164556972|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.347|TWO_SIDED||||||t-test, 2 sided|||||||.347
82423510|NCT05318287|164556973|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.007|TWO_SIDED||||||t-test, 2 sided|||||||.007
82423511|NCT05318287|164556974|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.02||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
82423512|NCT05318287|164556975|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.403|TWO_SIDED||||||t-test, 2 sided|||||||.403
82423513|NCT05318287|164556976|EQUIVALENCE|Whether change in linear slope from pretest through the 8-week follow-up is equivalent to zero (null hypothesis).|Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.194|TWO_SIDED||||||t-test, 2 sided|||||||.194
82448503|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|2.5||||0.506|TWO_SIDED|95.0|-4.83|9.79|||ANCOVA|||Total Cholesterol (TC)||9.79|-4.83|0.506
82448504|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|3.3||||0.392|TWO_SIDED|95.0|-4.2|10.7|||ANCOVA|||HDL Cholesterol||10.70|-4.20|0.392
82448505|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|3.0||||0.426|TWO_SIDED|95.0|-4.45|10.53|||ANOVA|||HDL Cholesterol||10.53|-4.45|0.426
82448506|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|8.5||||0.071|TWO_SIDED|95.0|-0.72|17.8|||ANCOVA|||HDL Cholesterol||17.80|-0.72|0.071
82448507|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|2.9||||0.498|TWO_SIDED|95.0|-5.56|11.42|||ANCOVA|||LDL Cholesterol||11.42|-5.56|0.498
82534588|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|0.72|<|0.001|TWO_SIDED|95.0|-7.3|-4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.4|-7.3|<0.001
82648160|NCT00528879|165011707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|2.769||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|ANCOVA|||||||
82448508|NCT03100058|164604511|OTHER|Dose finding study|Median Difference (Net)|2.4||||0.586|TWO_SIDED|95.0|-6.17|10.9|||ANCOVA|||LDL Cholesterol||10.90|-6.17|0.586
82448509|NCT03100058|164604511|OTHER|Dose finding study|Mean Difference (Net)|2.1||||0.696|TWO_SIDED|95.0|-8.47|12.67|||ANCOVA|||LDL Cholesterol||12.67|-8.47|0.696
82534589|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.1|-2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.7|-6.1|<0.001
82534590|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.8|-3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.4|-6.8|<0.001
82534591|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-5.3|-2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-5.3|<0.001
82534592|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-4.3|-1.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.3|-4.3|<0.001
82534593|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-4.4|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-4.4|<0.001
82534594|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|-3.4|-1.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.1|-3.4|<0.001
82534595|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.71||0.36|TWO_SIDED|95.0|-2.0|0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.8|-2.0|0.36
82534596|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.72||0.009|TWO_SIDED|95.0|-3.3|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-3.3|0.009
82534597|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|-4.5|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-4.5|<0.001
82534598|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.69||0.042|TWO_SIDED|95.0|-2.7|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.1|-2.7|0.042
82647513|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|-0.00039|STANDARD_ERROR_OF_MEAN|0.001461||0.7881|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Stability Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.7881
82423514|NCT04983979|164556981|OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.752|0.552||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.552|-0.752|
82648161|NCT00528879|165011707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.762|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423515|NCT04983979|164556982|OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-1.97|0.65|||||Only the mean difference for the study end (week 12) is presented here|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.65|-1.97|
82423516|NCT04983979|164556983|OTHER||Mean Difference (Final Values)|25.15|||||TWO_SIDED|95.0|-48.83|99.13|||||Difference in change in systolic blood pressure between study arms.|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||99.13|-48.83|
82448510|NCT04302545|164604521|OTHER|Other Primary outcomes were the extent of injury, operative time, blood loss and proportion of subjects receiving a blood transfusion. Postoperatively, subjects were assessed for secondary outcomes of UTI, micturition problems, and fistula formation during the hospital stay and for the next 3 months. Postoperative micturition problems were feeling of incomplete evacuation, frequency, urgency, urethral and extra-urethral incontinence.|Odds Ratio (OR)|-0.178|||<|0.0001|TWO_SIDED|95.0|-0.261|-0.094||The threshold for statistical significance was \<.05.|Regression, Linear|||"Null Hypothesis: During the cesarean section of women with adhesions of the previous cesarean section that obscure the bladder, the bladder injury rate is not significantly decreased in cystoinflation group compared to the control.~In this study, the bladder injury rate was seven times lesser in cystoinflation group compared to the control, thereby strongly supporting our hypothesis. The power of the study for bladder injury was 0.988, calculated with statistical software G'Power version 3.1."||-.094|-.261|<.0001
82448511|NCT04302545|164604522|OTHER||Odds Ratio (OR)|-211.776|||<|0.0001|TWO_SIDED|95.0|-290.7|-132.84|||Regression, Linear|||||-132.84|-290.70|<0.0001
82448512|NCT04302545|164604523|OTHER||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|-3.634|3.634|||Regression, Linear|||Null Hypothsis:Cystoinflation is ineffective to prevent bladder injury in adhesions of previous C-section.The cystoinflation was to be cosidered ineffective if proportion of bladder injury in study group was less than %0% of the control.The power of the study for bladder injury prevention was.988,calculated with statistical software G'Power version3.1.||3.634|-3.634|1
82448513|NCT04302545|164604524|OTHER||Odds Ratio (OR)|-1.093||||0.001|TWO_SIDED|95.0|-1.708|-0.479|||Regression, Linear|||||-.479|-1.708|.001
82647514|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.004717|STANDARD_ERROR_OF_MEAN|0.00141||0.001|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Conflict Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0010
82423517|NCT04983979|164556983|OTHER||Mean Difference (Final Values)|8.78|||||TWO_SIDED|95.0|-22.92|40.47|||||Difference in change in diastolic blood pressure between study arms.|Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||40.47|-22.92|
82534599|NCT02886728|164766937|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-3.7|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.7|<0.001
82448514|NCT04302545|164604525|OTHER||Odds Ratio (OR)|-0.15|||<|0.0001|TWO_SIDED|95.0|-0.226|-0.073|||Regression, Linear|||||-0.073|-0.226|<0.0001
82448515|NCT04302545|164604526|OTHER||Odds Ratio (OR)|-0.103||||0.003|TWO_SIDED|95.0|-0.171|-0.035|||Regression, Linear|||||-0.035|-0.171|0.003
82448516|NCT04302545|164604527|OTHER||Odds Ratio (OR)|0.654||||0.336|TWO_SIDED|95.0|-0.682|1.991|||Regression, Linear|||||1.991|-0.682|.336
82448517|NCT04302545|164604528|OTHER||Odds Ratio (OR)|-0.393||||0.021|TWO_SIDED|95.0|-0.725|-0.06|||Regression, Linear|||||-0.06|-0.725|.021
82448518|NCT04302545|164604529|OTHER||Odds Ratio (OR)|-1.89|||<|0.0001|TWO_SIDED|95.0|-2.813|-0.963|||Regression, Linear|||||-0.963|-2.813|<0.0001
82448519|NCT04302545|164604530|OTHER||Odds Ratio (OR)|-1.318|||<|0.0001|TWO_SIDED|95.0|-2.021|-0.614|||Regression, Linear|||||-0.614|-2.021|<.0001
82448520|NCT04302545|164604532|OTHER||Odds Ratio (OR)|-0.065||||0.003|TWO_SIDED|95.0|-0.108|-0.023|||Regression, Linear|||||-.023|-.108|.003
82448521|NCT02516592|164604533|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.028|TWO_SIDED|95.0|0.005|0.084|||Mixed Models Analysis|||||0.084|0.005|0.028
82448522|NCT02516592|164604534|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.063|TWO_SIDED|95.0|-0.03|0.94|||Mixed Models Analysis|||||0.94|-0.03|0.063
82448523|NCT02516592|164604535|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.002|TWO_SIDED|95.0|0.037|0.167|||Mixed Models Analysis|||||0.167|0.037|0.002
82423518|NCT04983979|164556984|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.174|0.674||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.674|-0.174|
82423519|NCT04983979|164556985|OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.00|0.00|
82448524|NCT02516592|164604536|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.319|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||||0.4|-1.3|0.319
82448525|NCT02516592|164604537|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.662|TWO_SIDED|95.0|-0.2|0.13|||Mixed Models Analysis|||||0.13|-0.20|0.662
82448526|NCT00510744|164604544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|24.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||paired changes in fat absorption assessed by parametric (t test) or non-parametric tests (Mann-Whitney)||||<0.05
82448527|NCT00098306|164604553|SUPERIORITY_OR_OTHER||LS mean difference|-0.788|STANDARD_ERROR_OF_MEAN|0.1571|||TWO_SIDED|97.5|-1.141|-0.435||||||The difference between the treatment least square means (LS means) adjusted for the randomization strata was presented in addition to 2-sided 97.5% confidence interval (CI) as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.435|-1.141|
82448528|NCT00098306|164604553|SUPERIORITY_OR_OTHER||LS mean difference|-0.922|STANDARD_ERROR_OF_MEAN|0.1568|||TWO_SIDED|97.5|-1.275|-0.57||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.570|-1.275|
82647515|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.004393|STANDARD_ERROR_OF_MEAN|0.002415||0.0693|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Satisfaction Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.0693
82423520|NCT04983979|164556986|OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.174|0.674||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||0.674|-0.174|
82423521|NCT04983979|164556987|OTHER||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-19.5|11.4||||||Due to the small sample size only an estimate of the difference between study arms was generated. No hypothesis tests were completed.||11.4|-19.5|
82423522|NCT00391716|164556997|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||The numerator is the number of subjects completely abstinent and the denominator is the number of subjects randomized, within each treatment group.|Mantel Haenszel|Extended Mantel-Haenszel Chi-square test for linear-by-linear association.||The extended Mantel-Haenszel Chi-square test for linear trend assesses the relationship between ROW and COLUMN of a single contingency table, where both row (dose: 0mg, 900mg, 1800mg) and column (response (0= non-abstinent, 1=abstinent), and at least 1 variable has more than 2 levels. It specifically tests linear dose-response without need for multiple comparisons.||||<0.04
82423523|NCT00391716|164556997|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED|||||linear dose effects for rates of abstinence were assessed using the extended Mantel-Haenszel chi-square test for linear association.|Mantel Haenszel|The numerator is the number of subjects completely abstinent and the denominator is the number of subjects randomized, within each treatment group.||The extended Mantel-Haenszel Chi-square test for linear trend assesses the relationship between ROW and COLUMN of a single contingency table, where both row (dose: 0mg, 900mg, 1800mg) and column (response (0= heavy drinking, 1=no heavy drinking), and at least 1 variable has more than 2 levels. It specifically tests linear dose-response without need for multiple comparisons.||||<0.02
82423524|NCT00391716|164556998|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Cumulative means over 12 weeks|ANOVA|||||||<0.001
82423525|NCT00391716|164556999|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Cumulative means over 12 weeks|ANOVA|||||||<0.001
82423526|NCT00391716|164557000|SUPERIORITY_OR_OTHER||||||<|0.003||||||Cumulative means over 12 weeks|ANOVA|||||||<0.003
82423527|NCT02757768|164557001|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.039|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.02|-0.76|0.039
82423528|NCT02757768|164557002|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.18||0.558|TWO_SIDED|95.0|-0.46|0.25|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.25|-0.46|0.558
82423529|NCT02757768|164557002|SUPERIORITY||LS Mean of Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.89|-0.14|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.14|-0.89|0.007
82647516|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.002959|STANDARD_ERROR_OF_MEAN|0.001887||0.1184|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Activities Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1184
82423530|NCT02757768|164557002|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.041|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.02|-0.76|0.041
82423531|NCT02757768|164557003|SUPERIORITY||LS Mean of Difference|3.87|STANDARD_ERROR_OF_MEAN|2.8||0.167|TWO_SIDED|95.0|-1.63|9.37|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||9.37|-1.63|0.167
82648162|NCT00528879|165011707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.7|STANDARD_ERROR_OF_MEAN|2.808|<|0.0001||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|ANCOVA|||||||<0.0001
82423532|NCT02757768|164557003|SUPERIORITY||LS Mean of Difference|6.29|STANDARD_ERROR_OF_MEAN|3.28||0.056|TWO_SIDED|95.0|-0.15|12.73|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||12.73|-0.15|0.056
82426721|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.39|||<|0.0001|TWO_SIDED|95.0|3.8|14.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||14.4|3.8|<0.0001
82426722|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.1608|TWO_SIDED|95.0|0.6|3.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||3.1|0.6|0.1608
82426723|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.92|||<|0.0001|TWO_SIDED|95.0|2.9|8.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||8.4|2.9|<0.0001
82647517|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.003436|STANDARD_ERROR_OF_MEAN|0.002262||0.1301|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Discussion Subdomain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1301
82423533|NCT02757768|164557003|SUPERIORITY||LS Mean of Difference|8.99|STANDARD_ERROR_OF_MEAN|3.58||0.012|TWO_SIDED|95.0|1.97|16.01|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||16.01|1.97|0.012
82423534|NCT02757768|164557003|SUPERIORITY||LS Mean of Difference|9.25|STANDARD_ERROR_OF_MEAN|3.43||0.007|TWO_SIDED|95.0|2.53|15.98|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||15.98|2.53|0.007
82423535|NCT02757768|164557004|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.26||0.747|TWO_SIDED|95.0|-0.63|0.38|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.38|-0.63|0.747
82423536|NCT02757768|164557004|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.32||0.393|TWO_SIDED|95.0|-0.72|0.54|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.54|-0.72|0.393
82423537|NCT02757768|164557004|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.32||0.672|TWO_SIDED|95.0|-0.87|0.38|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.38|-0.87|0.672
82423538|NCT02757768|164557004|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.64|TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.30|-0.90|0.640
82423539|NCT02757768|164557005|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.21||0.222|TWO_SIDED|95.0|-0.68|0.16|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.16|-0.68|0.222
82423540|NCT02757768|164557005|SUPERIORITY||LS Mean of Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.24||0.003|TWO_SIDED|95.0|-1.18|-0.24|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.24|-1.18|0.003
82423541|NCT02757768|164557005|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.13|-0.17|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.17|-1.13|0.008
82423542|NCT02757768|164557005|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.13|-0.21|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-0.21|-1.13|0.004
82423543|NCT02757768|164557006|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.723|TWO_SIDED|95.0|-0.6|0.9|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.9|-0.6|0.723
82448529|NCT00098306|164604554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88|||<|0.0001|TWO_SIDED|95.0|1.78|4.67|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (less than \[\<\] 100,000 or greater than or equal to \[\>=\] 100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio greater than (\>) 1 favors maraviroc.||4.67|1.78|<0.0001
82423544|NCT02757768|164557006|SUPERIORITY||LS Mean of Difference|0.2|STANDARD_ERROR_OF_MEAN|0.4||0.7|TWO_SIDED|95.0|-0.7|1.0|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.0|-0.7|0.700
82423545|NCT02757768|164557006|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.5||0.4|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.5|-1.3|0.400
82423546|NCT02757768|164557006|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.812|TWO_SIDED|95.0|-1.0|0.8|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.8|-1.0|0.812
82648163|NCT00528879|165011708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.9||||||||||Sequential testing procedures were used, and no test was performed for this comparison due to the fact that the previous comparison was not significant.|Modified logistic regression|||||||
82423547|NCT02757768|164557007|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.3||0.121|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.9|-0.1|0.121
82534600|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-8.5|-5.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.2|-8.5|<0.001
82534601|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-7.3|-3.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.3|-7.3|<0.001
82534602|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|1.03|<|0.001|TWO_SIDED|95.0|-8.8|-4.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.7|-8.8|<0.001
82534603|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|-9.9|-6.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.6|-9.9|<0.001
82534604|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-8.2|-4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.1|-8.2|<0.001
82534605|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-8.5|-4.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-8.5|<0.001
82534606|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|-8.0|-5.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.1|-8.0|<0.001
82647518|NCT03593772|165010354|OTHER|Treatment is compared against a Waitlist Control Group.|Slope|0.006022|STANDARD_ERROR_OF_MEAN|0.003697||0.1049|TWO_SIDED|||||p value provided is for interaction term between Time (continuous) \* Treatment group (MR vs. WC)|Mixed Models Analysis|||Analysis performed on Total Cohesion Domain as outcome variable. Linear mixed models were constructed with fixed effects terms for the Tx group (MR vs. WC), time (continuous), and a Tx group x time interaction term to test whether the rate of change in the instrument score differed by Tx group. Random effects for the intercept and time were also included. The α p-value for statistical significance was set at 0.01. Borderline statistical significance was considered to be \<0.1.||||0.1049
82648164|NCT00528879|165011708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.8627|||||||Modified logistic regression|||||||0.8627
82423548|NCT02757768|164557007|SUPERIORITY||LS Mean of Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.241|TWO_SIDED|95.0|-0.2|0.8|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.8|-0.2|0.241
82423549|NCT02757768|164557007|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.843|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.5|-0.6|0.843
82423550|NCT02757768|164557007|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.679|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.7|-0.4|0.679
82423551|NCT02757768|164557008|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.175|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.7|0.175
82423552|NCT02757768|164557008|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.43|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.2|-0.6|0.430
82423553|NCT02757768|164557008|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.141|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.8|0.141
82423554|NCT02757768|164557008|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.288|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.2|-0.7|0.288
82423555|NCT02757768|164557009|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.3|0.128
82423556|NCT02757768|164557009|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.054|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.4|0.054
82423557|NCT02757768|164557009|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.079|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.0|-0.4|0.079
82423558|NCT02757768|164557009|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.148|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.4|0.148
82423559|NCT02757768|164557010|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.25||0.66|TWO_SIDED|95.0|-0.61|0.39|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.39|-0.61|0.660
82423560|NCT02757768|164557010|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.32||0.767|TWO_SIDED|95.0|-0.72|0.53|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.53|-0.72|0.767
82534607|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-6.5|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-6.5|<0.001
82534608|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-7.4|-3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.8|-7.4|<0.001
82423561|NCT02757768|164557010|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.372|TWO_SIDED|95.0|-0.89|0.34|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.34|-0.89|0.372
82534609|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-5.9|-3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.4|-5.9|<0.001
82534610|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.6|-1.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-4.6|<0.001
82534611|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-4.9|-1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.9|-4.9|<0.001
82534612|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.8|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-3.8|<0.001
82648165|NCT00528879|165011708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3||||0.0149||||||Statistically significant according to hierarchical testing procedure (p\<0.05).|Modified logistic regression|||||||0.0149
82647519|NCT03125915|165010357|SUPERIORITY||Beta|-3.62||||0.03|TWO_SIDED|95.0|-6.78|-0.46||A multi-level latent growth curve (LGC) with a intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-leve latent growth curve||For 1-Month Follow-Up, substance use module (SUM) among those who did not view CT Video|||-0.46|-6.78|.03
82576785|NCT05479734|164863810|SUPERIORITY||||||<|0.14||||||Test was performed with a significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported when significant.||Null hypothesis is that the number of hours spent with the child will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean number of hours on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.14
82576786|NCT05479734|164863811|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect endorsement of app helpfulness.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that the app was only slightly helpful (scored 0). A Wilcoxon signed rank test was first performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
82576787|NCT05479734|164863812|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect endorsement of future app use.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there would only be slight interest (scored 0) in using the app in the future. A Wilcoxon signed rank test was, first, performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
82576788|NCT05479734|164863813|OTHER|The model tested the significance of a non-zero location of the data. Effects significantly greater than zero reflect a desire to recommend the app.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis was that the participant was neither likely nor unlikely (scored 0) to recommend the app to friends. A Wilcoxon signed rank test was, first, performed to evaluate potential differences across randomization groups (early vs late app-delivered parenting tips). When the test of a randomization group difference was not significant, the analysis continued with a one-sample Wilcoxon signed rank test.||||<0.01
82576789|NCT05479734|164863814|SUPERIORITY||||||<|0.54||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. A randomization group difference over time is reported if significant.||Null hypothesis is that the mean general development scale score would not change from the baseline to the post-intervention assessment. Mixed effects models were performed regressing mean scale scores on a timeframe (baseline vs post) indicator and a randomization group (early vs late app-delivered parenting tips) indicator.||||<0.54
82576790|NCT05479734|164863815|SUPERIORITY||||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported if significant.||Null hypothesis is that the number of challenging child behaviors will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean behavior counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
82576791|NCT05479734|164863816|SUPERIORITY|Expected Outcomes: greater number of behaviors while receiving parenting tips.|||||<|0.01||||||Test performed with significance level of 0.05 (two-sided).|Mixed Models Analysis|The model coefficient t-test uses Satterthwaite's degrees of freedom. An intervention effect difference by sequence is reported if significant.||Null hypothesis is that the daily number of positive child behaviors will not differ during the periods with and without app-delivered parenting tips. Mixed effects models were performed regressing mean behavior counts on a 'Tips Active' indicator and a measurement-period (1st two weeks vs last two weeks) indicator.||||<0.01
82576792|NCT07025837|164863843|SUPERIORITY||||||>|0.9999||||||Week 2 compared to the baseline.|ANOVA|||||||>0.9999
82576793|NCT07025837|164863843|SUPERIORITY||||||>|0.9999||||||Week 4 compared to baseline.|ANOVA|||||||>0.9999
82576794|NCT07025837|164863843|SUPERIORITY|||||||0.6342||||||Week 6 compared to baseline.|ANOVA|||||||0.6342
82576795|NCT07025837|164863843|SUPERIORITY|||||||0.0231||||||Week 8 compared to baseline.|ANOVA|||||||0.0231
82576796|NCT07025837|164863843|SUPERIORITY|||||||0.0862||||||Week 10 compared to baseline.|ANOVA|||||||0.0862
82576797|NCT07025837|164863843|SUPERIORITY|||||||0.0033||||||Week 12 compared to baseline.|ANOVA|||||||0.0033
82576798|NCT07025837|164863844|SUPERIORITY|||||||0.1176||||||Week 2 compared to baseline|ANOVA|||||||0.1176
82576799|NCT07025837|164863844|SUPERIORITY|||||||0.003||||||Week 4 compared to baseline.|ANOVA|||||||0.0030
82576800|NCT07025837|164863844|SUPERIORITY|||||||0.0001||||||Week 6 compared to baseline.|ANOVA|||||||0.0001
82576801|NCT07025837|164863844|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576802|NCT07025837|164863844|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576803|NCT07025837|164863845|SUPERIORITY|||||||0.9751||||||Week 2 compared to baseline.|ANOVA|||||||0.9751
82576804|NCT07025837|164863845|SUPERIORITY|||||||0.0078||||||Week 4 compared to baseline.|ANOVA|||||||0.0078
82576805|NCT07025837|164863845|SUPERIORITY|||||||0.0003||||||Week 6 compared to baseline.|ANOVA|||||||0.0003
82576806|NCT07025837|164863845|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576807|NCT07025837|164863845|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576808|NCT07025837|164863845|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576809|NCT07025837|164863846|SUPERIORITY|||||||0.0544||||||Week 2 compared to baseline.|ANOVA|||||||0.0544
82576810|NCT07025837|164863846|SUPERIORITY|||||||0.0036||||||Week 4 compared to baseline.|ANOVA|||||||0.0036
82576811|NCT07025837|164863846|SUPERIORITY|||||||0.0001||||||Week 6 compared to baseline.|ANOVA|||||||0.0001
82534613|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.74||0.23|TWO_SIDED|95.0|-2.4|0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.6|-2.4|0.23
82534614|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.005|TWO_SIDED|95.0|-3.6|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-3.6|0.005
82534615|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.6|-5.0|<0.001
82576812|NCT07025837|164863846|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576813|NCT07025837|164863846|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576814|NCT07025837|164863846|SUPERIORITY||||||<|0.0001||||||Week 12 compared to Baseline|ANOVA|||||||<0.0001
82576815|NCT07025837|164863847|SUPERIORITY|||||||0.0001||||||Week 2 compared to baseline.|ANOVA|||||||0.0001
82576816|NCT07025837|164863847|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
82576817|NCT07025837|164863847|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
82576818|NCT07025837|164863847|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576819|NCT07025837|164863847|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576820|NCT07025837|164863847|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576821|NCT07025837|164863848|SUPERIORITY|||||||0.1438||||||Week 2 compared to baseline.|ANOVA|||||||0.1438
82576822|NCT07025837|164863848|SUPERIORITY|||||||0.0092||||||Week 4 compared to baseline.|ANOVA|||||||0.0092
82576823|NCT07025837|164863848|SUPERIORITY|||||||0.0003||||||Week 6 compared to baseline.|ANOVA|||||||0.0003
82576824|NCT07025837|164863848|SUPERIORITY|||||||0.0015||||||Week 8 compared to baseline.|ANOVA|||||||0.0015
82576825|NCT07025837|164863848|SUPERIORITY|||||||0.0001||||||Week 10 compared to baseline.|ANOVA|||||||0.0001
82576826|NCT07025837|164863848|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576827|NCT07025837|164863849|SUPERIORITY|||||||0.0041||||||Week 2 compared to baseline.|ANOVA|||||||0.0041
82576828|NCT07025837|164863849|SUPERIORITY|||||||0.0001||||||Week 4 compared to baseline.|ANOVA|||||||0.0001
82576829|NCT07025837|164863849|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
82576830|NCT07025837|164863849|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576831|NCT07025837|164863849|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576832|NCT07025837|164863849|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576833|NCT07025837|164863850|SUPERIORITY|||||||0.0249||||||Week 2 compared to baseline.|ANOVA|||||||0.0249
82576834|NCT07025837|164863850|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
82576835|NCT07025837|164863850|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
82576836|NCT07025837|164863850|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576837|NCT07025837|164863850|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576838|NCT07025837|164863850|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576839|NCT07025837|164863851|SUPERIORITY||||||>|0.9999||||||Week 2 compared to baseline.|ANOVA|||||||>0.9999
82576840|NCT07025837|164863851|SUPERIORITY|||||||0.7453||||||Week 4 compared to baseline|ANOVA|||||||0.7453
82576841|NCT07025837|164863851|SUPERIORITY|||||||0.2118||||||Week 6 compared to baseline.|ANOVA|||||||0.2118
82576842|NCT07025837|164863851|SUPERIORITY|||||||0.0111||||||Week 8 compared to baseline.|ANOVA|||||||0.0111
82576843|NCT07025837|164863851|SUPERIORITY|||||||0.015||||||Week 10 compared to baseline.|ANOVA|||||||0.0150
82576844|NCT07025837|164863851|SUPERIORITY|||||||0.0003||||||Week 12 compared to baseline.|ANOVA|||||||0.0003
82576845|NCT07025837|164863852|SUPERIORITY|||||||0.0199||||||Week 2 compared to baseline.|ANOVA|||||||0.0199
82576846|NCT07025837|164863852|SUPERIORITY||||||<|0.0001||||||Week 4 compared to baseline.|ANOVA|||||||<0.0001
82576847|NCT07025837|164863852|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
82576848|NCT07025837|164863852|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576849|NCT07025837|164863852|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline|ANOVA|||||||<0.0001
82576850|NCT07025837|164863852|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576851|NCT07025837|164863853|SUPERIORITY|||||||0.4438||||||Week 2 compared to baseline.|ANOVA|||||||0.4438
82576852|NCT07025837|164863853|SUPERIORITY|||||||0.0412||||||Week 4 compared to baseline.|ANOVA|||||||0.0412
82576853|NCT07025837|164863853|SUPERIORITY|||||||0.0943||||||Week 6 compared to baseline|ANOVA|||||||0.0943
82576854|NCT07025837|164863853|SUPERIORITY|||||||0.0017||||||Week 8 compared to baseline.|ANOVA|||||||0.0017
82576855|NCT07025837|164863853|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576856|NCT07025837|164863853|SUPERIORITY|||||||0.0007||||||Week 12 compared to baseline.|ANOVA|||||||0.0007
82576857|NCT07025837|164863854|SUPERIORITY|||||||0.6148||||||Week 2 compared to baseline.|ANOVA|||||||0.6148
82576858|NCT07025837|164863854|SUPERIORITY|||||||0.7953||||||Week 4 compared to baseline.|ANOVA|||||||0.7953
82423562|NCT02757768|164557010|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.3||0.272|TWO_SIDED|95.0|-0.92|0.26|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.26|-0.92|0.272
82423563|NCT02757768|164557011|SUPERIORITY||LS Mean of Difference|-1.75|STANDARD_ERROR_OF_MEAN|1.3||0.179|TWO_SIDED|95.0|-4.29|0.8|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.80|-4.29|0.179
82423564|NCT02757768|164557011|SUPERIORITY||LS Mean of Difference|-3.84|STANDARD_ERROR_OF_MEAN|1.41||0.006|TWO_SIDED|95.0|-6.6|-1.08|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||-1.08|-6.60|0.006
82534616|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.73||0.021|TWO_SIDED|95.0|-3.1|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-3.1|0.021
82534617|NCT02886728|164766938|SUPERIORITY||Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-4.3|-1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.4|-4.3|<0.001
82534618|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|7.6||||0.006|TWO_SIDED|95.0|2.2|12.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||12.9|2.2|0.006
82534619|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|4.9||||0.16|TWO_SIDED|95.0|-1.8|11.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||11.6|-1.8|0.16
82534620|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|7.6||||0.029|TWO_SIDED|95.0|1.1|14.1||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0.5||14.1|1.1|0.029
82534621|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|8.1||||0.015|TWO_SIDED|95.0|1.6|14.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||14.6|1.6|0.015
82534622|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|4.2||||0.33|TWO_SIDED|95.0|-3.9|12.2||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||12.2|-3.9|0.33
82534623|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|10.2||||0.013|TWO_SIDED|95.0|2.5|17.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= 0||17.9|2.5|0.013
82534624|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|3.6||||0.074|TWO_SIDED|95.0|-0.3|7.6||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||7.6|-0.3|0.074
82534625|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|1.9||||0.49|TWO_SIDED|95.0|-3.1|6.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||6.9|-3.1|0.49
82534626|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|4.4||||0.075|TWO_SIDED|95.0|-0.2|8.9||P-value was calculated from the logistic regression with treatment groups, and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24 for Change in mTSS \<= SDC (1.53)||8.9|-0.2|0.075
82534627|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|10.2|||<|0.001|TWO_SIDED|95.0|4.3|16.2||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||16.2|4.3|<0.001
82534628|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|7.9||||0.045|TWO_SIDED|95.0|0.7|15.2||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||15.2|0.7|0.045
82534629|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|6.5||||0.1|TWO_SIDED|95.0|-1.1|14.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0.5||14.0|-1.1|0.100
82576859|NCT07025837|164863854|SUPERIORITY|||||||0.0019||||||Week 6 compared to baseline.|ANOVA|||||||0.0019
82576860|NCT07025837|164863854|SUPERIORITY|||||||0.0008||||||Week 8 compared to baseline.|ANOVA|||||||0.0008
82576861|NCT07025837|164863854|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576862|NCT07025837|164863854|SUPERIORITY|||||||0.0002||||||Week 12 compared to baseline.|ANOVA|||||||0.0002
82576863|NCT07025837|164863855|SUPERIORITY|||||||0.0067||||||Week 2 compared to baseline.|ANOVA|||||||0.0067
82576864|NCT07025837|164863855|SUPERIORITY|||||||0.0055||||||Week 4 compared to baseline.|ANOVA|||||||0.0055
82576865|NCT07025837|164863855|SUPERIORITY||||||<|0.0001||||||Week 6 compared to baseline.|ANOVA|||||||<0.0001
82576866|NCT07025837|164863855|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576867|NCT07025837|164863855|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576868|NCT07025837|164863855|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82426724|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.44|||<|0.0001|TWO_SIDED|95.0|3.4|12.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||12.4|3.4|<0.0001
82576869|NCT07025837|164863856|SUPERIORITY|||||||0.1476||||||Week 2 compared to baseline.|ANOVA|||||||0.1476
82576870|NCT07025837|164863856|SUPERIORITY|||||||0.0106||||||Week 4 compared to baseline.|ANOVA|||||||0.0106
82576871|NCT07025837|164863856|SUPERIORITY|||||||0.0002||||||Week 6 compared to baseline.|ANOVA|||||||0.0002
82576872|NCT07025837|164863856|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline|ANOVA|||||||<0.0001
82576873|NCT07025837|164863856|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576874|NCT07025837|164863856|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576875|NCT07025837|164863857|SUPERIORITY|||||||0.3224||||||Week 2 compared to baseline.|ANOVA|||||||0.3224
82576876|NCT07025837|164863857|SUPERIORITY|||||||0.0426||||||Week 4 compared to baseline.|ANOVA|||||||0.0426
82576877|NCT07025837|164863857|SUPERIORITY|||||||0.0039||||||Week 6 compared to baseline.|ANOVA|||||||0.0039
82576878|NCT07025837|164863857|SUPERIORITY|||||||0.004||||||Week 8 compared to baseline.|ANOVA|||||||0.0040
82576879|NCT07025837|164863857|SUPERIORITY|||||||0.0013||||||Week 10 compared to baseline.|ANOVA|||||||0.0013
82576880|NCT07025837|164863857|SUPERIORITY|||||||0.0005||||||Week 12 compared to baseline.|ANOVA|||||||0.0005
82576881|NCT07025837|164863858|SUPERIORITY|||||||0.3032||||||Week 2 compared to baseline.|ANOVA|||||||0.3032
82576882|NCT07025837|164863858|SUPERIORITY|||||||0.0237||||||Week 4 compared to baseline.|ANOVA|||||||0.0237
82576883|NCT07025837|164863858|SUPERIORITY|||||||0.001||||||Week 6 compared to baseline.|ANOVA|||||||0.0010
82576884|NCT07025837|164863858|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576885|NCT07025837|164863858|SUPERIORITY|||||||0.0002||||||Week 10 compared to baseline.|ANOVA|||||||0.0002
82576886|NCT07025837|164863858|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576887|NCT07025837|164863859|SUPERIORITY||||||>|0.9999||||||Week 2 compared to baseline.|ANOVA|||||||>0.9999
82576888|NCT07025837|164863859|SUPERIORITY|||||||0.1147||||||Week 4 compared to baseline|ANOVA|||||||0.1147
82576889|NCT07025837|164863859|SUPERIORITY|||||||0.0016||||||Week 6 compared to baseline.|ANOVA|||||||0.0016
82576890|NCT07025837|164863859|SUPERIORITY|||||||0.0048||||||Week 8 compared to baseline.|ANOVA|||||||0.0048
82576891|NCT07025837|164863859|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576892|NCT07025837|164863859|SUPERIORITY|||||||0.0005||||||Week 12 compared to baseline.|ANOVA|||||||0.0005
82576893|NCT07025837|164863860|SUPERIORITY|||||||0.0461||||||Week 2 compared to baseline.|ANOVA|||||||0.0461
82576894|NCT07025837|164863860|SUPERIORITY|||||||0.002||||||Week 4 compared to baseline.|ANOVA|||||||0.002
82576895|NCT07025837|164863860|SUPERIORITY|||||||0.0002||||||Week 6 compared to baseline.|ANOVA|||||||0.0002
82576896|NCT07025837|164863860|SUPERIORITY||||||<|0.0001||||||Week 8 compared to baseline.|ANOVA|||||||<0.0001
82576897|NCT07025837|164863860|SUPERIORITY||||||<|0.0001||||||Week 10 compared to baseline.|ANOVA|||||||<0.0001
82576898|NCT07025837|164863860|SUPERIORITY||||||<|0.0001||||||Week 12 compared to baseline.|ANOVA|||||||<0.0001
82576899|NCT02304705|164863892|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||.052
82576900|NCT03412773|164863930|NON_INFERIORITY|"Overall survival (OS) was compared between the tislelizumab group (Arm A) and the sorafenib group (Arm B) by testing the null hypothesis of noninferiority: the null hypothesis assumes the hazard ratio (HR) for tislelizumab versus sorafenib is greater than or equal to 1.08, while the alternative hypothesis assumes the hazard ratio is less than 1.08.~Noninferiority was declared if the upper limit of the 95.003% confidence interval (CI) for the HR was less than 1.08"|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.003|0.712|1.019|||||The hazard ratio is based on a Cox regression model with treatment, geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG (0 vs. 1) as covariates.|||1.019|0.712|
82576901|NCT03412773|164863930|SUPERIORITY|Superiority of tislelizumab over sorafenib was tested for OS using a stratified log-rank test in the ITT analysis set only when noninferiority was demonstrated. Superiority was declared if the one-sided p-value crosses the boundary of 0.0223 (1-sided p-value \< 0.0223) in favor of Arm A in the stratified log-rank test.|Hazard Ratio (HR)|0.85||||0.0398|TWO_SIDED|95.0|0.712|1.019||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|Log Rank||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.019|0.712|0.0398
82576902|NCT03412773|164863931|OTHER||Cochran-Mantel-Haenszel ORR difference|8.28||||0.0003|TWO_SIDED|95.0|3.85|12.7||The nominal P-value from the Cochran-Mantel-Haenszel chi-square test, conducted at a 0.05 significance level, was stratified by geography, macrovascular invasion/extrahepatic spread, etiology, and ECOG.|Cochran-Mantel-Haenszel|||The null hypothesis assumed that ORR is equal in both groups, while the alternative hypothesis assumed ORR is higher in the tislelizumab group (Arm A).||12.70|3.85|0.0003
82576903|NCT03412773|164863932|OTHER||Cochran-Mantel-Haenszel ORR difference|9.24|||<|0.0001|TWO_SIDED|95.0|4.71|13.78||The nominal P-value from the Cochran-Mantel-Haenszel chi-square test, conducted at a 0.05 significance level, was stratified by geography, macrovascular invasion/extrahepatic spread, etiology, and ECOG.|Cochran-Mantel-Haenszel|||||13.78|4.71|<0.0001
82376706|NCT03301623|164459608|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.719|TWO_SIDED|95.0|-2.73|1.88|||Mixed Models Analysis||The interaction term describes the effect of PEAT in the post period.|"Question: Which communication strategy used during the clinical encounter is more effective in improving physical function over time for patients with chronic pain who were taking opioids at baseline?~Regression model includes a fixed effect for time and an interaction effect between pre/post intervention and intervention arm dummy variables. Analysis is clustered at the participant level."||1.88|-2.73|.719
82534630|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|10.0||||0.004|TWO_SIDED|95.0|3.2|16.7||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||16.7|3.2|0.004
82534631|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|5.5||||0.25|TWO_SIDED|95.0|-2.9|14.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||14.0|-2.9|0.25
82534632|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|6.5||||0.14|TWO_SIDED|95.0|-2.0|15.0||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= 0||15.0|-2.0|0.14
82534633|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|7.5||||0.002|TWO_SIDED|95.0|2.8|12.3||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||12.3|2.8|0.002
82534634|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|8.2||||0.008|TWO_SIDED|95.0|2.9|13.6||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||13.6|2.9|0.008
82534635|NCT02886728|164766939|SUPERIORITY||Difference in Response Rates|2.5||||0.47|TWO_SIDED|95.0|-3.9|8.9||P-value was calculated from the logistic regression with treatment groups, stratification factors and campaign groups in the model.|Regression, Logistic|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52 for Change in mTSS \<= SDC (1.77)||8.9|-3.9|0.47
82534636|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|2.4|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.4|<0.001
82534637|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.55||0.001|TWO_SIDED|95.0|0.7|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.7|0.001
82534638|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.3|3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|1.3|<0.001
82534639|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.001|TWO_SIDED|95.0|2.7|4.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.8|2.7|<0.001
82534640|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.66||0.008|TWO_SIDED|95.0|0.5|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|0.5|0.008
82534641|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.66||0.023|TWO_SIDED|95.0|0.2|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.2|0.023
82534642|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.59||0.003|TWO_SIDED|95.0|0.6|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.6|0.003
82534643|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.71||0.38|TWO_SIDED|95.0|-0.8|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.8|0.38
82423565|NCT02757768|164557011|SUPERIORITY||LS Mean of Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.51||0.055|TWO_SIDED|95.0|-5.86|0.06|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.06|-5.86|0.055
82423566|NCT02757768|164557011|SUPERIORITY||LS Mean of Difference|-2.11|STANDARD_ERROR_OF_MEAN|1.48||0.154|TWO_SIDED|95.0|-5.02|0.8|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.80|-5.02|0.154
82534644|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.72||0.59|TWO_SIDED|95.0|-1.0|1.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.8|-1.0|0.59
82534645|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|1.6|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|1.6|<0.001
82534646|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.76||0.11|TWO_SIDED|95.0|-0.3|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.3|0.11
82534647|NCT02886728|164766941|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.76||0.071|TWO_SIDED|95.0|-0.17|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.17|0.071
82534648|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|1.6|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.6|<0.001
82534649|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.7||0.032|TWO_SIDED|95.0|0.1|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|0.1|0.032
82534650|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.0|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.0|<0.001
82534651|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.6||0.023|TWO_SIDED|95.0|0.2|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|0.2|0.023
82534652|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.74||0.065|TWO_SIDED|95.0|-0.1|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|-0.1|0.065
82534653|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.74||0.15|TWO_SIDED|95.0|-0.4|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|-0.4|0.15
82534654|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.64||0.73|TWO_SIDED|95.0|-1.0|1.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.5|-1.0|0.73
82423567|NCT02757768|164557012|SUPERIORITY||LS Mean of Difference|-1.35|STANDARD_ERROR_OF_MEAN|1.13||0.233|TWO_SIDED|95.0|-3.57|0.87|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.87|-3.57|0.233
82423568|NCT02757768|164557012|SUPERIORITY||LS Mean of Difference|0.46|STANDARD_ERROR_OF_MEAN|1.2||0.698|TWO_SIDED|95.0|-1.89|2.82|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.82|-1.89|0.698
82423569|NCT02757768|164557012|SUPERIORITY||LS Mean of Difference|0.89|STANDARD_ERROR_OF_MEAN|1.28||0.486|TWO_SIDED|95.0|-1.62|3.4|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.40|-1.62|0.486
82423570|NCT02757768|164557012|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|1.26||0.968|TWO_SIDED|95.0|-2.52|2.42|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.42|-2.52|0.968
82423571|NCT02757768|164557013|SUPERIORITY||LS Mean of Difference|-1.89|STANDARD_ERROR_OF_MEAN|1.36||0.165|TWO_SIDED|95.0|-4.56|0.78|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.78|-4.56|0.165
82423572|NCT02757768|164557013|SUPERIORITY||LS Mean of Difference|0.76|STANDARD_ERROR_OF_MEAN|1.41||0.592|TWO_SIDED|95.0|-2.02|3.54|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.54|-2.02|0.592
82423573|NCT02757768|164557013|SUPERIORITY||LS Mean of Difference|0.9|STANDARD_ERROR_OF_MEAN|1.54||0.559|TWO_SIDED|95.0|-2.12|3.92|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.92|-2.12|0.559
82423574|NCT02757768|164557013|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|1.51||0.985|TWO_SIDED|95.0|-2.94|3.0|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.00|-2.94|0.985
82423575|NCT02757768|164557014|SUPERIORITY||LS Mean of Difference|-1.82|STANDARD_ERROR_OF_MEAN|1.29||0.161|TWO_SIDED|95.0|-4.35|0.72|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.72|-4.35|0.161
82423576|NCT02757768|164557014|SUPERIORITY||LS Mean of Difference|0.35|STANDARD_ERROR_OF_MEAN|1.38||0.798|TWO_SIDED|95.0|-2.36|3.07|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.07|-2.36|0.798
82423577|NCT02757768|164557014|SUPERIORITY||LS Mean of Difference|1.17|STANDARD_ERROR_OF_MEAN|1.42||0.408|TWO_SIDED|95.0|-1.61|3.95|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.95|-1.61|0.408
82534655|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.78||0.37|TWO_SIDED|95.0|-0.8|2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.2|-0.8|0.37
82423578|NCT02757768|164557014|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|1.39||0.919|TWO_SIDED|95.0|-2.6|2.88|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.88|-2.60|0.919
82423579|NCT02757768|164557015|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|1.49||0.99|TWO_SIDED|95.0|-2.94|2.91|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.91|-2.94|0.990
82423580|NCT02757768|164557015|SUPERIORITY||LS Mean of Difference|0.92|STANDARD_ERROR_OF_MEAN|1.55||0.554|TWO_SIDED|95.0|-2.12|3.96|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.96|-2.12|0.554
82426725|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.2825|TWO_SIDED|95.0|0.6|2.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||2.7|0.6|0.2825
82576904|NCT03412773|164863933|OTHER||Hazard Ratio (HR)|1.11||||0.1364|TWO_SIDED|95.0|0.92|1.33||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.33|0.92|0.1364
82423581|NCT02757768|164557015|SUPERIORITY||LS Mean of Difference|1.53|STANDARD_ERROR_OF_MEAN|1.63||0.348|TWO_SIDED|95.0|-1.67|4.73|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||4.73|-1.67|0.348
82423582|NCT02757768|164557015|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|1.6||0.876|TWO_SIDED|95.0|-2.89|3.38|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||3.38|-2.89|0.876
82423583|NCT02757768|164557016|SUPERIORITY||LS Mean of Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.05||0.293|TWO_SIDED|95.0|-3.16|0.95|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.95|-3.16|0.293
82423584|NCT02757768|164557016|SUPERIORITY||LS Mean of Difference|-0.32|STANDARD_ERROR_OF_MEAN|1.12||0.773|TWO_SIDED|95.0|-2.52|1.87|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.87|-2.52|0.773
82423585|NCT02757768|164557016|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|1.12||0.94|TWO_SIDED|95.0|-2.28|2.11|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||2.11|-2.28|0.940
82423586|NCT02757768|164557016|SUPERIORITY||LS Mean of Difference|-0.71|STANDARD_ERROR_OF_MEAN|1.1||0.516|TWO_SIDED|95.0|-2.86|1.44|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||1.44|-2.86|0.516
82423587|NCT02757768|164557017|SUPERIORITY|||||||0.4591|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 4 Placebo vs. Mirabegron.||||0.4591
82423588|NCT02757768|164557017|SUPERIORITY|||||||0.4073|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 8 Placebo vs. Mirabegron.||||0.4073
82423589|NCT02757768|164557017|SUPERIORITY|||||||0.774|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||Week 12 Placebo vs. Mirabegron.||||0.7740
82423590|NCT02757768|164557017|SUPERIORITY|||||||0.5121|||||||t-test, 2 sided|Statistical comparisons were be made using 2-sided tests at α = 0.05 significance level.||EoT Placebo vs. Mirabegron.||||0.5121
82423591|NCT02757768|164557018|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.223|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.223
82423592|NCT02757768|164557018|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.598|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.598
82423593|NCT02757768|164557018|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.312|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.3|0.312
82423594|NCT02757768|164557018|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.525|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.1|-0.2|0.525
82423595|NCT02757768|164557020|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.226|TWO_SIDED|95.0|-0.08|0.34|||ANCOVA|||Week 4 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.34|-0.08|0.226
82423596|NCT02757768|164557020|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.11||0.501|TWO_SIDED|95.0|-0.14|0.28|||ANCOVA|||Week 8 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.28|-0.14|0.501
82423597|NCT02757768|164557020|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.984|TWO_SIDED|95.0|-0.22|0.23|||ANCOVA|||Week 12 Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.23|-0.22|0.984
82423598|NCT02757768|164557020|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.11||0.78|TWO_SIDED|95.0|-0.18|0.24|||ANCOVA|||EoT Placebo vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||0.24|-0.18|0.780
82423599|NCT02757768|164557021|SUPERIORITY||LS Mean of Difference|3.1|STANDARD_ERROR_OF_MEAN|1.9||0.107|TWO_SIDED|95.0|-0.7|6.8|||ANCOVA|||Week 4 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.8|-0.7|0.107
82534656|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.78||0.83|TWO_SIDED|95.0|-1.7|1.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.4|-1.7|0.83
82647520|NCT03125915|165010357|SUPERIORITY||Beta|-1.67||||0.18|TWO_SIDED|95.0|-4.1|0.76||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who did view the CT video.|||0.76|-4.10|.18
82647521|NCT03125915|165010357|SUPERIORITY||Beta|-0.35||||0.75|TWO_SIDED|95.0|-2.5|1.8||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow up, effect of CT video among those who completed the SUM.|||1.80|-2.50|0.75
82647522|NCT03125915|165010357|SUPERIORITY||Beta|-2.3||||0.14|TWO_SIDED|95.0|-5.37|0.77||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-Month follow up, effect of CT video among those who did not complete SUM.|||0.77|-5.37|0.14
82647523|NCT03125915|165010357|SUPERIORITY||Beta|-2.79||||0.013|TWO_SIDED|95.0|-5.0|-0.58||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-Month follow up, effect of SUM among those who viewed the CT video.|||-0.58|-5.00|0.013
82423600|NCT02757768|164557021|SUPERIORITY||LS Mean of Difference|2.5|STANDARD_ERROR_OF_MEAN|1.9||0.19|TWO_SIDED|95.0|-1.3|6.3|||ANCOVA|||Week 8 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.3|-1.3|0.190
82647524|NCT03125915|165010357|SUPERIORITY||Beta|-2.09||||0.1|TWO_SIDED|95.0|-4.56|0.38||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-Month follow up, effect of SUM among those who did not view CT video|||0.38|-4.56|0.10
82423601|NCT02757768|164557021|SUPERIORITY||LS Mean of Difference|2.2|STANDARD_ERROR_OF_MEAN|2.1||0.297|TWO_SIDED|95.0|-1.9|6.3|||ANCOVA|||Week 12 Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||6.3|-1.9|0.297
82423602|NCT02757768|164557021|SUPERIORITY||LS Mean of Difference|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.493|TWO_SIDED|95.0|-2.7|5.5|||ANCOVA|||EoT Difference vs. Mirabegron: Differences of adjusted change from baseline values as well as the 95% CIs were generated from the ANCOVA model with treatment group, age group (\<65, \>=65 years) and geographical region as fixed factors and baseline value as a covariate.||5.5|-2.7|0.493
82534657|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.66||0.073|TWO_SIDED|95.0|-0.1|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|-0.1|0.073
82423603|NCT01425814|164557136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.259|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.219|0.298|||ANCOVA|||||0.298|0.219|<0.0001
82423604|NCT01425814|164557136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.233|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.194|0.273|||ANCOVA|||||0.273|0.194|<0.0001
82534658|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.8||0.09|TWO_SIDED|95.0|-0.2|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.2|0.090
82647525|NCT03125915|165010357|SUPERIORITY||Beta|0.4||||0.78|TWO_SIDED|95.0|-2.35|3.16||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT Video among those who completed the SUM|A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.||3.16|-2.35|0.78
82647526|NCT03125915|165010357|SUPERIORITY||Beta|-0.3||||0.75|TWO_SIDED|95.0|-2.12|1.53||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT video among those who did not complete SUM.|||1.53|-2.12|0.75
82647527|NCT03125915|165010357|SUPERIORITY||Beta|-3.93||||0.014|TWO_SIDED|95.0|-7.06|-0.81||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of SUM among those who viewed the CT video.|||-0.81|-7.06|0.014
82448530|NCT00098306|164604554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.66|||<|0.0001|TWO_SIDED|95.0|2.26|5.95|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.95|2.26|<0.0001
82647528|NCT03125915|165010357|SUPERIORITY||Beta|-0.57||||0.67|TWO_SIDED|95.0|-3.16|2.03||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow up, effect of SUM among those who did not view CT video.|||2.03|-3.16|0.67
82647529|NCT03125915|165010357|SUPERIORITY||Beta|-0.24||||0.83|TWO_SIDED|95.0|-2.39|1.91||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow up, effect of CT video among those who completed the SUM.|||1.91|-2.39|0.83
82448531|NCT00098306|164604554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.96|||<|0.0001|TWO_SIDED|95.0|2.36|6.64|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.64|2.36|<0.0001
82448532|NCT00098306|164604554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.11|||<|0.0001|TWO_SIDED|95.0|3.04|8.59|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.59|3.04|<0.0001
82448533|NCT00098306|164604555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.63|4.13|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.13|1.63|<0.0001
82448534|NCT00098306|164604555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|1.79|4.54|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.54|1.79|<0.0001
82448535|NCT00098306|164604555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93|||<|0.0001|TWO_SIDED|95.0|1.83|4.67|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.67|1.83|<0.0001
82448536|NCT00098306|164604555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||<|0.0001|TWO_SIDED|95.0|2.08|5.32|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.32|2.08|<0.0001
82448537|NCT00098306|164604556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.92|4.88|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.88|1.92|<0.0001
82448538|NCT00098306|164604556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55|||<|0.0001|TWO_SIDED|95.0|2.22|5.68|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.68|2.22|<0.0001
82534659|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.81||0.68|TWO_SIDED|95.0|-1.9|1.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.2|-1.9|0.68
82448539|NCT00098306|164604556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.0001|TWO_SIDED|95.0|2.05|5.31|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.31|2.05|<0.0001
82534660|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.67||0.3|TWO_SIDED|95.0|-0.6|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.6|0.30
82647530|NCT03125915|165010357|SUPERIORITY||Beta|3.13||||0.05|TWO_SIDED|95.0|-0.004|6.25||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of CT video among those who did not complete SUM.|||6.25|-0.004|0.05
82534661|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.82||0.69|TWO_SIDED|95.0|-1.3|1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.9|-1.3|0.69
82647531|NCT03125915|165010358|SUPERIORITY||Beta|0.05||||0.9|TWO_SIDED|95.0|-2.3|2.41||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effect of SUM on the latent intercept factor among those who did not view CT videos|||2.41|-2.30|0.90
82423605|NCT01425814|164557136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.203|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.164|0.242|||ANCOVA|||||0.242|0.164|<0.0001
82423606|NCT01425814|164557136|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.102|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.062|0.141|||ANCOVA|||||0.141|0.062|<0.0001
82423607|NCT05870345|164557150|OTHER|Sample size too small to perform additional statistical tests.|||||||||||||||||Sample size too small to perform additional statistical tests.|||
82423608|NCT05870345|164557151|OTHER|Sample size too small to perform additional statistical tests.|||||||||||||||||Sample size too small to perform additional statistical tests.|||
82423609|NCT00127439|164557152|NON_INFERIORITY_OR_EQUIVALENCE|The power analysis indicated that when the mean difference equals to 1.2 times of standard deviation, a two-sided t-test at 0.05 level will have 80% power; and for a mean difference of 1.4 times of standard deviation the power increases to 91%. To test the null hypothesis that correlation will be 0 at 0.5 level, a two-sided test based on Fisher's Z transformation will yield a power of 89% in detecting correlations of 0.6 or above with n=24 or above.||||||0.05|||||||t-test, 2 sided|||||||0.05
82423610|NCT00127439|164557152|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon rank sum test|||Pearson correlation of gait speed changes with directional difference of standardized kinematic scores (i.e. foot trajectory toe-off - degrees, foot trajectory toe-off - % cycle, foot trajectory initial contact - degrees, foot trajectory range - degrees, propulsive impulse N-s, minimum thigh angle - flexion degrees, minimum hip angle - extension degrees, trunk angle mid-stance)||||0.05
82423611|NCT00127439|164557153|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423612|NCT00127439|164557154|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously||||||0.05|||||||t-test, 2 sided|||||||0.05
82423613|NCT00127439|164557155|NON_INFERIORITY_OR_EQUIVALENCE|Provided previously||||||0.05|||||||t-test, 2 sided|||||||0.05
82423614|NCT00127439|164557156|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423615|NCT00127439|164557157|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423616|NCT00127439|164557158|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423617|NCT00127439|164557159|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423618|NCT00127439|164557160|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.05|||||||t-test, 2 sided|||||||0.05
82423619|NCT02546323|164557161|OTHER||Estimated mean difference|-0.0103|STANDARD_ERROR_OF_MEAN|0.00445||0.02|TWO_SIDED|95.0|-0.0191|-0.0016||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||-0.0016|-0.0191|0.020
82423620|NCT02546323|164557162|OTHER||Estimated mean difference|-0.011|STANDARD_ERROR_OF_MEAN|0.00442||0.013|TWO_SIDED|95.0|-0.0197|-0.0024||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||-0.0024|-0.0197|0.013
82423621|NCT02546323|164557163|OTHER||Estimated mean difference|-0.0162|STANDARD_ERROR_OF_MEAN|0.00903||0.073|TWO_SIDED|95.0|-0.0339|0.0015||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||0.0015|-0.0339|0.073
82426726|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|95.0|2.7|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.8|2.7|<0.0001
82426727|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.0001|TWO_SIDED|95.0|2.7|8.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||8.7|2.7|<0.0001
82426728|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.4471|TWO_SIDED|95.0|0.5|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||2.1|0.5|0.4471
82426729|NCT00565409|164561917|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.5|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.0|2.5|<0.0001
82426730|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
82423622|NCT02546323|164557164|OTHER||Estimated mean difference|-0.0043|STANDARD_ERROR_OF_MEAN|0.00716||0.547|TWO_SIDED|95.0|-0.0183|0.0097||Statistical significance of the MeanMax CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients.|Comparison of annualized rate of change in MeanMax CIMT measurement difference between rosuvastatin 20 mg and placebo.||0.0097|-0.0183|0.547
82423623|NCT02546323|164557165|OTHER||Estimated mean difference|-0.0086|STANDARD_ERROR_OF_MEAN|0.00272||0.002|TWO_SIDED|95.0|-0.0139|-0.0032||Statistical significance of the MeanMean CIMT annualized rate of change between rosuvastatin 20 mg and placebo was evaluated using time-by-treatment interaction term in the model.|Multi-level mixed effects model||Randomized treatment group, time, time-by-treatment interaction, ICVD risk stratification, carotid artery site, center, age, sex, and scan reader were fixed effects. Random effects were the intercept and slope for individual patients|Comparison of annualized rate of change in MeanMean CIMT measurement difference between rosuvastatin 20 mg and placebo||-0.0032|-0.0139|0.002
82423624|NCT02546323|164557166|OTHER||Least squares mean difference|-35.46|STANDARD_ERROR_OF_MEAN|2.426|<|0.001|TWO_SIDED|95.0|-40.23|-30.7|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): LDL-C||-30.70|-40.23|<0.001
82423625|NCT02546323|164557166|OTHER||Least squares mean difference|-21.85|STANDARD_ERROR_OF_MEAN|1.441|<|0.001|TWO_SIDED|95.0|-24.68|-19.02|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): total cholesterol||-19.02|-24.68|<0.001
82423626|NCT02546323|164557166|OTHER||Least squares mean difference|5.0|STANDARD_ERROR_OF_MEAN|1.347|<|0.001|TWO_SIDED|95.0|2.35|7.64|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): HDL-C||7.64|2.35|<0.001
82423627|NCT02546323|164557166|OTHER||Least squares mean difference|-19.65|STANDARD_ERROR_OF_MEAN|3.671|<|0.001|TWO_SIDED|95.0|-26.86|-12.44|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Triglycerides||-12.44|-26.86|<0.001
82423628|NCT02546323|164557166|OTHER||Least squares mean difference|-29.49|STANDARD_ERROR_OF_MEAN|1.917|<|0.001|TWO_SIDED|95.0|-33.25|-25.72|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C||-25.72|-33.25|<0.001
82423629|NCT02546323|164557166|OTHER||Least squares mean difference|-31.75|STANDARD_ERROR_OF_MEAN|2.334|<|0.001|TWO_SIDED|95.0|-36.33|-27.16|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C/HDL-C ratio||-27.16|-36.33|<0.001
82423630|NCT02546323|164557166|OTHER||Least squares mean difference|-26.12|STANDARD_ERROR_OF_MEAN|1.84|<|0.001|TWO_SIDED|95.0|-29.73|-22.5|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): ApoB||-22.50|-29.73|<0.001
82423631|NCT02546323|164557166|OTHER||Least squares mean difference|2.19|STANDARD_ERROR_OF_MEAN|1.104||0.047|TWO_SIDED|95.0|0.02|4.36|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate|Treatment difference (rosuvastatin 20 mg - placebo): ApoA-I||4.36|0.02|0.047
82534662|NCT02886728|164766943|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.82||0.95|TWO_SIDED|95.0|-1.7|1.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.5|-1.7|0.95
82423632|NCT02546323|164557166|OTHER||Least squares mean difference|-26.77|STANDARD_ERROR_OF_MEAN|2.041|<|0.001|TWO_SIDED|95.0|-30.78|-22.76|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): ApoB/ApoA-I ratio||-22.76|-30.78|<0.001
82423633|NCT02546323|164557167|OTHER||Least squares mean difference|-39.51|STANDARD_ERROR_OF_MEAN|1.819|<|0.001|TWO_SIDED|95.0|-43.08|-35.94|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): LDL-C||-35.94|-43.08|<0.001
82423634|NCT02546323|164557167|OTHER||Least squares mean difference|-25.46|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-27.7|-23.23|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): total cholesterol||-23.23|-27.70|<0.001
82423635|NCT02546323|164557167|OTHER||Least squares mean difference|3.67|STANDARD_ERROR_OF_MEAN|1.051|<|0.001|TWO_SIDED|95.0|1.6|5.73|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): HDL-C||5.73|1.60|<0.001
82423636|NCT02546323|164557167|OTHER||Least squares mean difference|-18.41|STANDARD_ERROR_OF_MEAN|2.981|<|0.001|TWO_SIDED|95.0|-24.26|-12.55|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Triglycerides||-12.55|-24.26|<0.001
82423637|NCT02546323|164557167|OTHER||Least squares mean difference|-33.78|STANDARD_ERROR_OF_MEAN|1.529|<|0.001|TWO_SIDED|95.0|-36.78|-30.78|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C||-30.78|-36.78|<0.001
82423638|NCT02546323|164557167|OTHER||Least squares mean difference|-33.93|STANDARD_ERROR_OF_MEAN|1.836|<|0.001|TWO_SIDED|95.0|-37.54|-30.32|||ANCOVA||Treatment as a fixed effect and baseline value as a covariate.|Treatment difference (rosuvastatin 20 mg - placebo): Non-HDL-C/HDL-C ratio||-30.32|-37.54|<0.001
82423639|NCT02038647|164557208|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.113|TWO_SIDED|95.0|0.557|1.067||P-value tests the hypothesis of equal event times in both treatment arms obtained using the Log-rank test stratified by disease subtype as sensitive versus resistant/refractory and the presence of brain metastases.|Log Rank||The stratification factors were: disease subtype as sensitive versus resistant/refractory and the presence of brain metastases (yes or no) with treatment (Alisertib + Paclitaxel vs Placebo + Paclitaxel) as a factor in the model.|||1.067|0.557|0.113
82426731|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
82426732|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82647532|NCT03125915|165010358|SUPERIORITY||Beta|0.26||||0.78|TWO_SIDED|95.0|-2.23|2.75||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of CT video on the latent intercept factor among those who did not view SUM.|||2.75|-2.23|0.78
82423640|NCT02038647|164557210|SUPERIORITY||Cox Proportional Hazard|0.93||||0.714|TWO_SIDED|95.0|0.652|1.341||P-value tests the hypothesis of equal event times in both treatment arms obtained using the Log-rank test stratified by disease subtype as sensitive versus resistant/refractory and the presence of brain metastases.|Log Rank||The stratification factors were: disease subtype as sensitive versus resistant/refractory and the presence of brain metastases (yes or no) with treatment (Alisertib + Paclitaxel vs Placebo + Paclitaxel) as a factor in the model.|||1.341|0.652|0.714
82423641|NCT02038647|164557211|SUPERIORITY||Odds Ratio (OR)|0.74||||0.406|TWO_SIDED|95.0|0.35|1.55||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using ORR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||1.55|0.35|0.406
82423642|NCT02038647|164557212|SUPERIORITY||Odds Ratio (OR)|0.01||||0.283|TWO_SIDED|95.0|0.01|9999.99||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using CRR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||9999.99|0.01|0.283
82423643|NCT02038647|164557213|SUPERIORITY||Odds Ratio (OR)|0.59||||0.077|TWO_SIDED|95.0|0.32|1.08||Stratification factors were disease subtypes (sensitive versus resistant/refractory), the presence of brain metastases and region.|Weighted Cochran-Mantel-Haenszel test||Logistic regression using DCR as dependent variable, treatment arm as independent variable and disease subtype (sensitive vs resistant/refractory) and presence of brain metastases as stratification factors.|||1.08|0.32|0.077
82423644|NCT04380142|164557261|SUPERIORITY||Least Squares (LS) Mean of Difference|1.75|STANDARD_ERROR_OF_MEAN|0.65||0.0083|TWO_SIDED|95.0|0.46|3.05||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||3.05|0.46|0.0083
82423645|NCT04380142|164557262|SUPERIORITY||LS Mean of Difference|-1.79|STANDARD_ERROR_OF_MEAN|0.63||0.0054|TWO_SIDED|95.0|-3.03|-0.54||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||-0.54|-3.03|0.0054
82423646|NCT04380142|164557263|SUPERIORITY||LS Mean of Difference|-1.58|STANDARD_ERROR_OF_MEAN|1.05||0.1318|TWO_SIDED|95.0|-3.65|0.48||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|mixed model repeated measures|||||0.48|-3.65|0.1318
82448540|NCT00098306|164604556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.03|||<|0.0001|TWO_SIDED|95.0|2.5|6.51|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||6.51|2.50|<0.0001
82534663|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|TWO_SIDED|95.0|2.1|4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.4|2.1|<0.001
82534664|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.1|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.1|<0.001
82647533|NCT03125915|165010358|SUPERIORITY||Beta|-1.18||||0.53|TWO_SIDED|95.0|-4.86|2.51||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of the interaction between SUM and CT video on the latent intercept.|||2.51|-4.86|0.53
82423647|NCT04380142|164557264|SUPERIORITY||Odds Ratio (OR)|0.12|STANDARD_ERROR_OF_MEAN|0.49|<=|0.001|TWO_SIDED|95.0|0.04|0.31||The generalized linear mixed model: status = treatment country visit baseline treatment\*visit. The unstructured variance-covariance structure is used.|generalized linear mixed model|||||0.31|0.04|<=0.001
82423648|NCT04380142|164557265|SUPERIORITY||Odds Ratio (OR)|1.81|STANDARD_ERROR_OF_MEAN|0.68||0.0091|TWO_SIDED|95.0|0.46|3.16|||generalized linear mixed model|||||3.16|0.46|0.0091
82423649|NCT04380142|164557266|SUPERIORITY||LS Mean of Difference|-5.4|STANDARD_ERROR_OF_MEAN|1.32|<=|0.001|TWO_SIDED|95.0|-8.03|-2.78||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||-2.78|-8.03|<=0.001
82423650|NCT04380142|164557267|SUPERIORITY||Least Squares (LS) Mean of Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.04||0.047|TWO_SIDED|95.0|-8.14|-0.05||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||-0.05|-8.14|0.0470
82423651|NCT04380142|164557268|SUPERIORITY||LS Mean of Difference|0.049|STANDARD_ERROR_OF_MEAN|0.025||0.0566|TWO_SIDED|95.0|-0.001|0.1||ANCOVA model including effects for treatment, country, and baseline.|ANCOVA|||||0.100|-0.001|0.0566
82423652|NCT04380142|164557269|SUPERIORITY||LS Mean of Difference|1.72|STANDARD_ERROR_OF_MEAN|0.72||0.0184|TWO_SIDED|95.0|0.3|3.15||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||3.15|0.30|0.0184
82423653|NCT04380142|164557270|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.69||0.7989|TWO_SIDED|95.0|-1.2|1.55||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.55|-1.20|0.7989
82423654|NCT04380142|164557271|SUPERIORITY||LS Mean of Difference|-2.73|STANDARD_ERROR_OF_MEAN|1.96||0.1656|TWO_SIDED|95.0|-6.61|1.15||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.15|-6.61|0.1656
82423655|NCT04380142|164557272|SUPERIORITY||LS Mean of Difference|-5.49|STANDARD_ERROR_OF_MEAN|3.65||0.1347|TWO_SIDED|95.0|-12.71|1.73||The model included fixed categorical effects of treatment, country and visit, baseline-by-visit and treatment-by-visit interactions, and baseline as a covariate. An unstructured variance-covariance matrix was used.|Repeated measures model|||||1.73|-12.71|0.1347
82423656|NCT02908178|164557279|OTHER||Odds Ratio (OR)|1.39|||<|0.001|TWO_SIDED|99.0|1.18|1.63||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any complication in the Aim 1 matched cohort.||1.63|1.18|<.001
82423657|NCT02908178|164557279|OTHER||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|99.0|2.27|8.75||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and lymphedema in the Aim 1 matched cohort.||8.75|2.27|<.001
82534665|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|1.3|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|1.3|<0.001
82534666|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|1.0|3.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.5|1.0|<0.001
82534667|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.78||0.13|TWO_SIDED|95.0|-0.4|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.4|0.13
82647534|NCT03125915|165010358|SUPERIORITY||Beta|1.83||||0.14|TWO_SIDED|95.0|-0.62|4.29||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effect of SUM on the latent slope factor among those who did not view CT Videos.|||4.29|-0.62|0.14
82423658|NCT02908178|164557279|OTHER||Odds Ratio (OR)|1.24|||<|0.001|TWO_SIDED|99.0|1.0|1.54||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and wound infection in the Aim 1 matched cohort.||1.54|1.00|<.001
82426733|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82426734|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
82426735|NCT00565409|164561918|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
82426736|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.6006|TWO_SIDED|95.0|0.4|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.6|0.4|0.6006
82426737|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.4967|TWO_SIDED|95.0|0.6|2.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.1|0.6|0.4967
82426738|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3648|TWO_SIDED|95.0|0.4|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.5|0.4|0.3648
82426739|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.0024|TWO_SIDED|95.0|1.2|3.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.2|1.2|0.0024
82426740|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.8308||95.0|0.6|||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.|0.6|0.8308
82426741|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.0008|TWO_SIDED|95.0|1.3|3.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.4|1.3|0.0008
82423659|NCT02908178|164557279|OTHER||Odds Ratio (OR)|1.4|||<|0.001|TWO_SIDED|99.0|1.03|1.91||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and seroma in the Aim 1 matched cohort.||1.91|1.03|<.001
82534668|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.79||0.032|TWO_SIDED|95.0|0.1|3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.2|0.1|0.032
82534669|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.67||0.028|TWO_SIDED|95.0|0.2|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.2|0.028
82534670|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.81||0.15|TWO_SIDED|95.0|-0.4|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|-0.4|0.15
82534671|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.81||0.41|TWO_SIDED|95.0|-0.9|2.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.3|-0.9|0.41
82423660|NCT02908178|164557279|OTHER||Odds Ratio (OR)|1.31||||0.003|TWO_SIDED|99.0|1.04|1.65||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Odds ratio accounts for matching and adjusted for subsequent mastectomy within 180 days after initial BCS, prior MRI, and radiation therapy status|Testing the association between use of sentinel lymph node biopsy (SLNB) and pain in the Aim 1 matched cohort.||1.65|1.04|.003
82423661|NCT02908178|164557280|OTHER||||||<|0.001||||||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared|||Testing the association between receipt of SLNB and receipt of mastectomy within 6 months of DCIS diagnosis.||||<.001
82647535|NCT03125915|165010358|SUPERIORITY||Beta|0.35||||0.76|TWO_SIDED|95.0|-2.02|2.72||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of CT Video on latent slope factor among those who did not complete the SUM.|||2.72|-2.02|0.76
82423662|NCT02908178|164557281|OTHER|||||||0.48||||||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared|||Testing the association between receipt of SLNB and receipt of radiation therapy within 9 months of DCIS diagnosis.||||.48
82423663|NCT02908178|164557282|OTHER||Hazard Ratio (HR)|0.88|||<|0.001|TWO_SIDED|99.0|0.73|1.05||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and overall mortality in the Aim 2 matched cohort.||1.05|0.73|<.001
82423664|NCT02908178|164557283|OTHER||Hazard Ratio (HR)|1.09||||0.207|TWO_SIDED|99.0|1.0|1.2||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any side effects in the matched Aim 2 cohort.||1.20|1.00|0.207
82423665|NCT02908178|164557283|OTHER||Hazard Ratio (HR)|1.53|||<|0.001|TWO_SIDED|99.0|1.12|2.11||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and lymphedema related complications in the Aim 2 matched cohort.||2.11|1.12|<.001
82423666|NCT02908178|164557283|OTHER||Hazard Ratio (HR)|0.98||||0.113|TWO_SIDED|99.0|0.87|1.1||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and any infection in the Aim 2 matched cohort.||1.10|0.87|0.113
82423667|NCT02908178|164557283|OTHER||Hazard Ratio (HR)|1.21||||0.01|TWO_SIDED|99.0|0.93|1.58||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and seroma in the Aim 2 matched cohort.||1.58|0.93|0.010
82426742|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.25|||<|0.0001|TWO_SIDED|95.0|2.0|5.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||5.2|2.0|<0.0001
82534672|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.71||0.017|TWO_SIDED|95.0|0.3|3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.1|0.3|0.017
82534673|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.86||0.27|TWO_SIDED|95.0|-0.7|2.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.6|-0.7|0.27
82534674|NCT02886728|164766945|SUPERIORITY||Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.87||0.15|TWO_SIDED|95.0|-0.5|2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.9|-0.5|0.15
82534675|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|6.0|12.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|6.0|<0.001
82423668|NCT02908178|164557283|OTHER||Hazard Ratio (HR)|1.1||||0.029|TWO_SIDED|99.0|0.98|1.25||P-value is unadjusted. Threshold for statistical significance is 0.01|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and pain in the Aim 2 matched cohort.||1.25|0.98|0.029
82423669|NCT02908178|164557284|OTHER||Hazard Ratio (HR)|1.13||||0.861|TWO_SIDED|99.0|0.54|2.35||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between between use of sentinel lymph node biopsy (SLNB) and breast cancer specific mortality.||2.35|0.54|0.861
82426743|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7374|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.8|0.7|0.7374
82426744|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.04|||<|0.0001|TWO_SIDED|95.0|1.9|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.8|1.9|<0.0001
82426745|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|1.9|4.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.8|1.9|<0.0001
82426746|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9599|TWO_SIDED|95.0|0.6|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.7|0.6|0.9599
82426747|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.98|||<|0.0001|TWO_SIDED|95.0|1.9|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.6|1.9|<0.0001
82426748|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.0001|TWO_SIDED|95.0|2.3|5.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||5.7|2.3|<0.0001
82426749|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.4509|TWO_SIDED|95.0|0.8|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||2.0|0.8|0.4509
82426750|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.0001|TWO_SIDED|95.0|1.9|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||4.6|1.9|<0.0001
82426751|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.28|||<|0.0001|TWO_SIDED|95.0|2.6|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||7.0|2.6|<0.0001
82426752|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.3037|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||2.0|0.7|0.3037
82426753|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27|||<|0.0001|TWO_SIDED|95.0|2.1|5.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||5.1|2.1|<0.0001
82426754|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.7|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.2|2.7|<0.0001
82426755|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.6076|TWO_SIDED|95.0|0.7|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.7|0.6076
82423670|NCT02908178|164557285|OTHER||Hazard Ratio (HR)|1.03||||0.603|TWO_SIDED|99.0|0.71|1.51||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and ipsilateral invasive breast cancer occurrence for the Aim 2 matched cohort.||1.51|0.71|0.603
82423671|NCT02908178|164557286|OTHER||Hazard Ratio (HR)|1.17||||0.62|TWO_SIDED|99.0|0.81|1.69||P-value is unadjusted. Threshold for statistical significance is 0.01.|Chi-squared||Reference is no SLNB. Estimates are from matched cohort and adjusted for physician visits, any hospitalization in the 3-24 months prior to DCIS diagnosis, use of preoperative breast MRI, surgeon's operation volume, and receipt of radiation therapy.|Testing the association between use of sentinel lymph node biopsy (SLNB) and treated recurrence in the Aim 2 matched cohort.||1.69|0.81|0.620
82423672|NCT02106832|164557294|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7062||||0.0511|TWO_SIDED|99.9|0.3928|1.2698|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 99.9% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.2698|0.3928|0.0511
82423673|NCT02106832|164557302|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8662||||0.3965|TWO_SIDED|95.1|0.6206|1.209|||Wald-type test|||The hazard ratio for time to first exacerbation event within 48 weeks and 95.1% Confidence Interval (CI) was calculated by using Cox proportional hazards model by comparison of Cipro 28/Pooled Placebo reporting groups. P-value was analysed using Wald-type test.||1.2090|0.6206|0.3965
82423674|NCT01968980|164557313|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-54.5|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-59.5|-49.5|||Mixed Model Repeated Measures (MMRM)|||LS-mean difference,associated 95 percent (%) confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-49.5|-59.5|<0.001
82423675|NCT01968980|164557314|SUPERIORITY_OR_OTHER||LS mean difference|-37.6|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-41.1|-34.1|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-34.1|-41.1|<0.001
82423676|NCT01968980|164557315|SUPERIORITY_OR_OTHER||LS mean difference|-51.0|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|-55.7|-46.4|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-46.4|-55.7|<0.001
82423677|NCT01968980|164557316|SUPERIORITY_OR_OTHER||LS mean difference|-48.0|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-52.8|-43.2|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-43.2|-52.8|<0.001
82423678|NCT01968980|164557317|SUPERIORITY_OR_OTHER||LS mean difference|-28.6|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-33.9|-23.2|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-23.2|-33.9|<0.001
82426756|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.8|||<|0.0001|TWO_SIDED|95.0|2.4|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.0|2.4|<0.0001
82426757|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|1.8|4.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.6|1.8|<0.0001
82426758|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.7837|TWO_SIDED|95.0|0.6|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.6|0.6|0.7837
82426759|NCT00565409|164561919|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|2.0|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||4.7|2.0|<0.0001
82426760|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
82426761|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
82426762|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82426763|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82426764|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
82426765|NCT00565409|164561920|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
82426766|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.5263|TWO_SIDED|95.0|0.7|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.0|0.7|0.5263
82426767|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.1055|TWO_SIDED|95.0|0.9|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|0.9|0.1055
82426768|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.4348|TWO_SIDED|95.0|0.5|1.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.4|0.5|0.4348
82423679|NCT01968980|164557318|SUPERIORITY_OR_OTHER||LS mean difference|7.0|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|4.1|9.9|||MMRM|||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||9.9|4.1|<0.001
82423680|NCT01968980|164557319|SUPERIORITY_OR_OTHER||LS mean difference|-52.1|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-58.2|-46.0||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-46.0|-58.2|
82423681|NCT01968980|164557319|SUPERIORITY_OR_OTHER||LS mean difference|-48.0|STANDARD_ERROR_OF_MEAN|2.87|||TWO_SIDED|95.0|-53.6|-42.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-42.3|-53.6|
82423682|NCT01968980|164557320|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.8|STANDARD_ERROR_OF_MEAN|2.12|||TWO_SIDED|95.0|-40.0|-31.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-31.6|-40.0|
82423683|NCT01968980|164557320|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.8|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|-35.8|-27.8||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-27.8|-35.8|
82423684|NCT01968980|164557321|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.5|STANDARD_ERROR_OF_MEAN|2.86|||TWO_SIDED|95.0|-54.1|-42.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-42.8|-54.1|
82448541|NCT00098306|164604557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.0006|TWO_SIDED|95.0|1.46|4.04|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||4.04|1.46|0.0006
82423685|NCT01968980|164557321|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.2|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-47.5|-36.9||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-36.9|-47.5|
82423686|NCT01968980|164557322|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.8|STANDARD_ERROR_OF_MEAN|2.67|||TWO_SIDED|95.0|-52.1|-41.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-41.6|-52.1|
82423687|NCT01968980|164557322|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.5|STANDARD_ERROR_OF_MEAN|2.53|||TWO_SIDED|95.0|-45.5|-35.5||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-35.5|-45.5|
82423688|NCT01968980|164557323|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.1|STANDARD_ERROR_OF_MEAN|12.58|||TWO_SIDED|95.0|-59.8|-10.3||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-10.3|-59.8|
82423689|NCT01968980|164557323|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|95.0|-26.3|-4.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-4.4|-26.3|
82423690|NCT01968980|164557324|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|1.42|||TWO_SIDED|95.0|3.1|8.7||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||8.7|3.1|
82423691|NCT01968980|164557324|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|1.53|||TWO_SIDED|95.0|-0.1|5.9||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||5.9|-0.1|
82423692|NCT01968980|164557325|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-25.3|-8.7||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.7|-25.3|
82423693|NCT01968980|164557325|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-27.0|-7.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-7.8|-27.0|
82423694|NCT01968980|164557325|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.04|||TWO_SIDED|95.0|-19.4|0.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||0.4|-19.4|
82423695|NCT01968980|164557326|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|2.9|7.8||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||7.8|2.9|
82423696|NCT01968980|164557326|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|2.5|6.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||6.8|2.5|
82423697|NCT01968980|164557326|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|95.0|0.5|5.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||5.4|0.5|
82423698|NCT01968980|164557327|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.5|||TWO_SIDED|95.0|-2.3|3.6||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.6|-2.3|
82423699|NCT01968980|164557327|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|-1.9|3.2||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.2|-1.9|
82423700|NCT01968980|164557327|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.39|||TWO_SIDED|95.0|-1.9|3.6||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||3.6|-1.9|
82448542|NCT00098306|164604557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|1.9|5.23|||Regression, Logistic|||Week 24: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||5.23|1.90|<0.0001
82423701|NCT01968980|164557328|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|4.22|||TWO_SIDED|95.0|-25.3|-8.7||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.7|-25.3|
82423702|NCT01968980|164557328|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|4.9|||TWO_SIDED|95.0|-27.0|-7.8||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-7.8|-27.0|
82423703|NCT01968980|164557328|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.04|||TWO_SIDED|95.0|-19.4|0.4||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||0.4|-19.4|
82423704|NCT01968980|164557329|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.8|STANDARD_ERROR_OF_MEAN|3.75|||TWO_SIDED|95.0|-86.2|-71.4||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-71.4|-86.2|
82423705|NCT01968980|164557330|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.2|STANDARD_ERROR_OF_MEAN|4.15|||TWO_SIDED|95.0|-91.3|-75.0||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-75.0|-91.3|
82423706|NCT01968980|164557331|SUPERIORITY_OR_OTHER||LS Mean Difference|-87.0|STANDARD_ERROR_OF_MEAN|4.25|||TWO_SIDED|95.0|-95.4|-78.7||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-78.7|-95.4|
82423707|NCT01968980|164557332|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.8|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-59.2|-48.5||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-48.5|-59.2|
82448543|NCT00098306|164604557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.32|7.25|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||7.25|2.32|<0.0001
82423708|NCT01968980|164557333|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|95.0|-14.7|-8.9||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-8.9|-14.7|
82423709|NCT01968980|164557334|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|2.0|4.9||||||LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||4.9|2.0|
82534676|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.6||0.006|TWO_SIDED|95.0|1.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|1.0|0.006
82534677|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|3.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|3.0|<0.001
82534678|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|<0.001
82534679|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.8||0.089|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|-0.0|0.089
82534680|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.9||0.18|TWO_SIDED|95.0|-1.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-1.0|0.18
82534681|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.5||0.003|TWO_SIDED|95.0|1.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|1.0|0.003
82534682|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.8||0.049|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|0.0|0.049
82423710|NCT01968980|164557335|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-2.2|-1.8||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.8|-2.2|
82423711|NCT01968980|164557335|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-2.1|-1.6||||||Week 24: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.6|-2.1|
82423712|NCT01968980|164557335|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-1.8|-1.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-1.3|-1.8|
82423713|NCT01968980|164557336|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.5|-0.4||||||Week 12: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.4|-0.5|
82423714|NCT01968980|164557336|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.4|-0.4||||||Week 24:LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.4|-0.4|
82423715|NCT01968980|164557336|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 52: LS-mean difference,associated 95% confidence intervals (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region.||-0.3|-0.4|
82423716|NCT01968980|164557337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|51.8|||||TWO_SIDED|95.0|25.24|106.1||||||Week 12: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||106.10|25.24|
82423717|NCT01968980|164557337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|66.9|||||TWO_SIDED|95.0|30.32|147.43||||||Week 24: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||147.43|30.32|
82423718|NCT01968980|164557337|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.8|||||TWO_SIDED|95.0|11.85|44.01||||||Week 52: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||44.01|11.85|
82423719|NCT01968980|164557338|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|200.8|||||TWO_SIDED|95.0|47.16|854.6||||||Week 12: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||854.60|47.16|
82448544|NCT00098306|164604557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97|||<|0.0001|TWO_SIDED|95.0|2.82|8.77|||Regression, Logistic|||Week 48: Two-sided 95% CI was presented for the odds ratios between treatment groups with placebo as the comparator. CIs were calculated using the Wald-approximation. Logistic model with treatment, screening HIV concentrations (\<100,000 or \>=100,000), enfuvirtide use (Yes or No) as covariates was used. Odds ratio \>1 favors maraviroc.||8.77|2.82|<0.0001
82448545|NCT00098306|164604559|SUPERIORITY_OR_OTHER||LS mean difference|54.49|STANDARD_ERROR_OF_MEAN|12.435|||TWO_SIDED|95.0|30.07|78.92||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||78.92|30.07|
82448546|NCT00098306|164604559|SUPERIORITY_OR_OTHER||LS mean difference|58.94|STANDARD_ERROR_OF_MEAN|12.378|||TWO_SIDED|95.0|34.63|83.26||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||83.26|34.63|
82448547|NCT00098306|164604559|SUPERIORITY_OR_OTHER||LS mean difference|58.56|STANDARD_ERROR_OF_MEAN|12.677|||TWO_SIDED|95.0|33.66|83.46||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||83.46|33.66|
82448548|NCT00098306|164604559|SUPERIORITY_OR_OTHER||LS mean difference|68.47|STANDARD_ERROR_OF_MEAN|12.617|||TWO_SIDED|95.0|43.69|93.25||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||93.25|43.69|
82448549|NCT00098306|164604560|SUPERIORITY_OR_OTHER||LS mean difference|284.21|STANDARD_ERROR_OF_MEAN|51.779|||TWO_SIDED|95.0|182.51|385.92||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||385.92|182.51|
82448550|NCT00098306|164604560|SUPERIORITY_OR_OTHER||LS mean difference|303.07|STANDARD_ERROR_OF_MEAN|51.507|||TWO_SIDED|95.0|201.9|404.23||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||404.23|201.90|
82448551|NCT00098306|164604560|SUPERIORITY_OR_OTHER||LS mean difference|213.34|STANDARD_ERROR_OF_MEAN|49.679|||TWO_SIDED|95.0|115.77|310.92||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||310.92|115.77|
82448552|NCT00098306|164604560|SUPERIORITY_OR_OTHER||LS mean difference|235.74|STANDARD_ERROR_OF_MEAN|49.416|||TWO_SIDED|95.0|138.68|332.8||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Positive value favors maraviroc over placebo.||332.80|138.68|
82448553|NCT00098306|164604561|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.34|0.6|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.60|0.34|<0.0001
82423720|NCT01968980|164557338|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|228.0|||||TWO_SIDED|95.0|51.95|1000.39||||||Week 24: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||1000.39|51.95|
82423721|NCT01968980|164557338|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|259.9|||||TWO_SIDED|95.0|34.87|1937.06||||||Week 52: Odds ratio, associated 95% confidence interval and p-value from a Logistic Regression Model with fixed effects for treatment group,baseline value and geographical region was used for analysis.||1937.06|34.87|
82423722|NCT00265122|164557342|SUPERIORITY_OR_OTHER|||||||0.337||95.0||||The P-Value is from a Cochran-Mantel-Haenszel (CMH) test stratified by the route of administration.|Cochran-Mantel-Haenszel|||Null hypothesis: No difference between ustekinumab and placebo at a significant level of 0.05.||||0.337
82423723|NCT00265122|164557344|SUPERIORITY_OR_OTHER|||||||0.292||95.0||||The P-Value is from a CMH test stratified by the route of administration.|Cochran-Mantel-Haenszel|||||||0.292
82423724|NCT04716894|164557345|OTHER||adjusted geometric mean (gMean) ratio(%)|197.77|||||TWO_SIDED|90.0|187.9|208.15|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 7.0.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||208.15|187.90|
82448554|NCT00098306|164604561|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.28|0.5|||Log Rank|||P-value was calculated using Log rank test controlling for the effect of the randomization strata. Hazard ratio calculated by fitting a Cox proportional hazards model including treatment group and randomization strata. Hazard ratio \<1 favors maraviroc.||0.50|0.28|<0.0001
82448555|NCT00098306|164604562|SUPERIORITY_OR_OTHER||LS mean difference|-0.697|STANDARD_ERROR_OF_MEAN|0.1347|||TWO_SIDED|95.0|-0.961|-0.432||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.432|-0.961|
82448556|NCT00098306|164604562|SUPERIORITY_OR_OTHER||LS mean difference|-0.802|STANDARD_ERROR_OF_MEAN|0.1344|||TWO_SIDED|95.0|-1.065|-0.538||||||Week 24: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.538|-1.065|
82448557|NCT00098306|164604562|SUPERIORITY_OR_OTHER||LS mean difference|-0.767|STANDARD_ERROR_OF_MEAN|0.1497|||TWO_SIDED|95.0|-1.061|-0.474||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.474|-1.061|
82534683|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.8||0.84|TWO_SIDED|95.0|-4.0|3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-4.0|0.84
82534684|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|2.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|2.0|<0.001
82534685|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.0||0.078|TWO_SIDED|95.0|0.0|7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.0|-0.0|0.078
82534686|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.39|TWO_SIDED|95.0|-2.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 36. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-2.0|0.39
82534687|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.7||0.004|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|0.004
82534688|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.1||0.45|TWO_SIDED|95.0|-3.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg + MTX vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-3.0|0.45
82534689|NCT02886728|164766948|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.1||0.85|TWO_SIDED|95.0|-4.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg Monotherapy vs MTX Monotherapy at Week 52. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|-4.0|0.85
82534690|NCT02954575|164766985|OTHER||Poisson test estimate|2.13|||<|0.0001|TWO_SIDED|95.0|1.64|2.76||versus mean TABR \>29|Poisson test estimate|||A confirmative one-sided, one-sample Poisson test was used to test whether the mean annualized bleeding rate (ABR) in patients treated prophylactically with Wilate was below the threshold of 29 BEs per patient year (alpha = 2.5%). This threshold corresponds to 50% of the TABR reported in the GENA-01 study (NCT00989196), which observed 58.1 BEs per patient per year. A corresponding two-sided 95% CI for the TABR was also analyzed.||2.76|1.64|<0.0001
82647536|NCT03125915|165010358|SUPERIORITY||Beta|-1.28||||0.45|TWO_SIDED|95.0|-4.62|2.06||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||Effects of the interaction between SUM and CT videos in the prediction of the latent slope factor.|||2.06|-4.62|0.45
82647537|NCT03125915|165010359|SUPERIORITY||Beta|-0.75||||0.02|TWO_SIDED|95.0|-1.39|-0.11||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who viewed CT videos.|||-0.11|-1.39|0.02
82534691|NCT02954575|164766986|OTHER||Poisson test estimate|1.53|||<|0.0001|TWO_SIDED|95.0|1.13|2.08||versus mean SABR \>19.1|Poisson test estimate|||A confirmative one-sided, one-sample Poisson test was used to test whether the mean SABR in patients treated prophylactically with Wilate was below the threshold of 19.1 BEs per patient year (alpha = 2.5%). This threshold corresponds to 50% of the SABR in the GENA-01 study (NCT00989196), which observed 38.2 spontaneous BEs per patient per year. A corresponding two-sided 95% CI for the SABR was also analyzed.||2.08|1.13|<0.0001
82448558|NCT00098306|164604562|SUPERIORITY_OR_OTHER||LS mean difference|-0.931|STANDARD_ERROR_OF_MEAN|0.1494|||TWO_SIDED|95.0|-1.225|-0.638||||||Week 48: The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 95% CI. Negative value favors maraviroc over placebo.||-0.638|-1.225|
82448559|NCT00098306|164604563|SUPERIORITY_OR_OTHER||LS mean difference|-0.853|STANDARD_ERROR_OF_MEAN|0.1621|||TWO_SIDED|97.5|-1.217|-0.489||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.489|-1.217|
82534692|NCT02954575|164766987|OTHER||Generalized estimation equation|84.21||||0.0096|TWO_SIDED|95.0|72.13|92.52|||Confirmatory data analysis|||"Confirmatory statistical testing tested the null hypotheses that the percentage of success is ≤70% (alternative hypothesis: percentage \>70%); the test procedure based on the generalized estimation equation took into account several BEs in one patient as correlated repeated measurements (alpha = 2.5%). Thus, π denotes the proportion of success and the following pair of hypotheses was tested:~H0: π ≤ 0.7 vs. H1: π \> 0.7"||92.52|72.13|0.0096
82534693|NCT02954575|164766993|OTHER|||||||0.0346|||||||ANOVA|||||||0.0346
82423725|NCT04716894|164557346|OTHER||adjusted geometric mean (gMean) ratio(%)|143.38|||||TWO_SIDED|90.0|121.92|168.6|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 22.1.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||168.60|121.92|
82423726|NCT04716894|164557347|OTHER||adjusted geometric mean (gMean) ratio(%)|201.64|||||TWO_SIDED|90.0|192.23|211.52|||||Ratio (%) = T/R\*100. Intra-individual geometric coefficient of variation (gCV) = 6.5.|Relative bioavailability. Model used was an analysis of variance (ANOVA) model on the logarithmic scale. Data were log-transformed (natural logarithm) prior to fitting the ANOVA model. The effect 'subjects' was considered as random effect, whereas 'treatment' was considered as fixed effect.||211.52|192.23|
82423727|NCT00608062|164557349|OTHER|Repeated measurements of FMD were modeled using a general linear mixed model with maximum likelihood estimation. An unstructured covariance structure allowing for heterogeneity in the parameter estimate for each level of menopause stage was chosen for the model based on using AIC to compare various covariance structures.||||||0.05|||||||Mixed Models Analysis|||||||0.05
82423728|NCT00608062|164557351|OTHER|Similar analyses as primary outcome||||||0.05|||||||Mixed Models Analysis|||||||0.05
82423729|NCT00608062|164557352|OTHER|same analysis as primary outcome||||||0.05|||||||Mixed Models Analysis|||||||0.05
82423730|NCT04992065|164557356|SUPERIORITY||Treatment difference|-31.95|||<|0.0001|TWO_SIDED|95.0|-43.02|-20.87|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-20.87|-43.02|<.0001
82423731|NCT04992065|164557356|SUPERIORITY||Treatment difference|-44.91|||<|0.0001|TWO_SIDED|95.0|-56.04|-33.79|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-33.79|-56.04|<.0001
82448560|NCT00098306|164604563|SUPERIORITY_OR_OTHER||LS mean difference|-1.021|STANDARD_ERROR_OF_MEAN|0.1618|||TWO_SIDED|97.5|-1.385|-0.658||||||The difference between the treatment LS means adjusted for the randomization strata was presented in addition to 2-sided 97.5% CI as an adjustment for multiplicity using a Bonferroni correction. Negative value favors maraviroc over placebo.||-0.658|-1.385|
82423732|NCT04992065|164557356|SUPERIORITY||Treatment difference|-61.83|||<|0.0001|TWO_SIDED|95.0|-72.94|-50.72|||ANCOVA|||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||-50.72|-72.94|<.0001
82423733|NCT04992065|164557356|SUPERIORITY||Treatment difference|33.32|||||TWO_SIDED|95.0|22.16|44.47||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||44.47|22.16|
82423734|NCT04992065|164557356|SUPERIORITY||Treatment difference|20.35|||||TWO_SIDED|95.0|9.21|31.48||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||31.48|9.21|
82423735|NCT04992065|164557356|SUPERIORITY||Treatment difference|3.43|||||TWO_SIDED|95.0|-7.81|14.68||||||LDL-C percentage change at week 12 from baseline responses were analysed using an analysis of covariance model with randomised treatment and strata as factors and baseline LDL-C as covariate.||14.68|-7.81|
82423736|NCT04537650|164557374|SUPERIORITY||Odds Ratio (OR)|21.0|||<|0.001|TWO_SIDED|95.0|1.8|243.24|||Chi-squared|||||243.24|1.8|<0.001
82423737|NCT04537650|164557375|SUPERIORITY||Odds Ratio (OR)|45.0|||<|0.001|TWO_SIDED|95.0|4.15|487.5|||Chi-squared|||||487.5|4.15|<0.001
82423738|NCT00330733|164557380|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||t-test, 2 sided|||Paired comparisons (follow-up vs baseline) and unpaired group comparisons were performed by Student's t tests or Wilcoxon signed rank tests.||||<0.05
82423739|NCT01506726|164557409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.23|TWO_SIDED|95.0|-2.08|0.2|||Wilcoxon (Mann-Whitney)|Wilcoxon two sample test||||0.20|-2.08|0.230
82423740|NCT01506726|164557410|SUPERIORITY_OR_OTHER|||||||0.347|TWO_SIDED||||||t-test, 2 sided|||||||0.347
82423741|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.857|TWO_SIDED|||||Correlation between change in IL-6 and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.857
82423742|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED|||||Correlation between change in IL-6 and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.706
82423743|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||Correlation between change in TNF and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.014
82423744|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.136|TWO_SIDED|||||Correlation between change in TNF and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.136
82423745|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.803|TWO_SIDED|||||Correlation between change in CRP and change in hemoglobin in the salsalate group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.803
82423746|NCT01506726|164557411|SUPERIORITY_OR_OTHER|||||||0.894|TWO_SIDED|||||Correlation between change in CRP and change in hemoglobin in the placebo group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.894
82423747|NCT01506726|164557412|SUPERIORITY_OR_OTHER|||||||0.143|TWO_SIDED|||||P value comparing change in IL6 between treatment groups.|t-test, 2 sided|||||||0.143
82423748|NCT01506726|164557412|SUPERIORITY_OR_OTHER|||||||0.257|TWO_SIDED|||||P value comparing the change in TNF between treatment groups.|t-test, 2 sided|||||||0.257
82423749|NCT01506726|164557413|SUPERIORITY_OR_OTHER|||||||0.535|TWO_SIDED|||||P-value comparing the change in EPO between treatment groups.|t-test, 2 sided|||||||0.535
82423750|NCT01506726|164557414|SUPERIORITY_OR_OTHER|||||||0.232|TWO_SIDED||||||t-test, 2 sided|||||||0.232
82423751|NCT01506726|164557415|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED||||||t-test, 2 sided|||||||0.076
82423752|NCT01506726|164557416|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
82423753|NCT01506726|164557417|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED||||||t-test, 2 sided|||||||0.187
82423754|NCT01506726|164557418|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||t-test, 2 sided|||||||0.193
82423755|NCT01506726|164557419|SUPERIORITY_OR_OTHER|||||||0.619|TWO_SIDED||||||t-test, 2 sided|||||||0.619
82423756|NCT01506726|164557420|SUPERIORITY_OR_OTHER|||||||0.642|TWO_SIDED||||||t-test, 2 sided|||||||0.642
82647538|NCT03125915|165010359|SUPERIORITY||Beta|-0.49||||0.1|TWO_SIDED|95.0|-1.07|0.09||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effect of SUM among those who did not view CT videos.|||0.09|-1.07|0.10
82647539|NCT03125915|165010359|SUPERIORITY||Beta|-0.15||||0.63|TWO_SIDED|95.0|-0.77|0.47||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effects of CT video among those who completed SUM.|||0.47|-0.77|0.63
82423757|NCT01506726|164557421|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||t-test, 2 sided|||||||0.42
82534694|NCT02954575|164766994|OTHER|||||||0.4244|||||||ANOVA|||||||0.4244
82534695|NCT02954575|164766996|OTHER||Pearson-Copper|0.0|||||TWO_SIDED|95.0|0.0|16.11||||||||16.11|0|
82534696|NCT04081298|164767070|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.8||0.24|TWO_SIDED|||||The threshold for statistical significance is p=0.05. (feasibility assessment)|Paired sample t-test|||||||0.24
82534697|NCT04081298|164767071|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.14|STANDARD_DEVIATION|0.78||0.43|TWO_SIDED|||||The threshold for statistical significance was p=0.5 (feasibility assessment)|paired t-test|||||||0.43
82534698|NCT04081298|164767072|EQUIVALENCE|McNemar's test evaluates equivalence between nominal groups. Power not calculated as this is a feasibility study with small sample size.||||||0.1|||||||McNemar|||Single arm pre-post comparison at baseline and 3-month follow-up (feasibility study)||||0.10
82534699|NCT04081298|164767073|EQUIVALENCE|feasibility assessment|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.65||0.2|TWO_SIDED|||||The threshold for statistical significance was p=0.5 (feasibility assessment)|paired-sample t-test|||||||0.20
82534700|NCT04081298|164767074|EQUIVALENCE|paired sample t-test (feasibility assessment)|Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.73||0.71|TWO_SIDED||||||paired sample t-test|||||||0.71
82534701|NCT04081298|164767075|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.94|||||||paired-sample t-test|||Single arm pre-post comparison at baseline and 3-month follow-up (feasibility study)||||0.94
82534702|NCT04081298|164767076|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up using a paired-sample t-test. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.03|||||||paired-sample t-test|||||||0.03
82423758|NCT01506726|164557422|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Chi-squared|||||||>0.999
82423759|NCT01506726|164557423|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Chi-squared|||||||0.375
82423760|NCT01506726|164557425|SUPERIORITY_OR_OTHER|||||||0.398|||||||t-test, 2 sided|||||||0.398
82534703|NCT04081298|164767077|EQUIVALENCE|The analysis is an equivalence analysis of change (H1) in mean value from baseline to 3 month follow-up using a paired-sample t-test. Power was not calculated for this analysis because this is a feasibility study. The sample size is not large enough to approach appropriate power.||||||0.36|||||||paired-sample t-test|||||||0.36
82534704|NCT02059161|164767096|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for declaring non-inferiority was for the upper bound of the 95% CI to lie below 0.4%.|Difference in the Least Squares Means|0.04|||||TWO_SIDED|95.0|-0.11|0.19|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.19|-0.11|
82534705|NCT02059161|164767097|SUPERIORITY_OR_OTHER||Difference in the Percentages|-3.9|||||TWO_SIDED|95.0|-11.8|4.0|||||Miettinen \& Nurminen|||4.0|-11.8|
82534706|NCT02059161|164767098|SUPERIORITY_OR_OTHER||Difference in Percentages|-3.0|||||TWO_SIDED|95.0|-16.1|10.1|||||Miettinen \& Nurminen|||10.1|-16.1|
82534707|NCT02059161|164767101|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.18|0.14|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.14|-0.18|
82534708|NCT02059161|164767102|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.77|||||TWO_SIDED|95.0|-4.69|1.16|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.16|-4.69|
82534709|NCT02059161|164767103|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.06|0.01|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.06|
82534710|NCT02059161|164767104|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|9.6|||||TWO_SIDED|95.0|-3.0|22.2|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||22.2|-3.0|
82534711|NCT02059161|164767105|SUPERIORITY_OR_OTHER||Differences in Percentages|-2.1|||||TWO_SIDED|95.0|-9.8|5.5|||||Miettinen \& Nurminen|||5.5|-9.8|
82534712|NCT02059161|164767106|SUPERIORITY_OR_OTHER||Difference in Percentages|0.8|||||TWO_SIDED|95.0|-12.8|14.3|||||Miettinen \& Nurminen|||14.3|-12.8|
82534713|NCT02059161|164767108|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.77|||||TWO_SIDED|95.0|-4.92|1.39|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.39|-4.92|
82647540|NCT03125915|165010359|SUPERIORITY||Beta|-0.41||||0.19|TWO_SIDED|95.0|-1.01|0.2||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||1-month follow-up, effects of CT video among those who did not complete SUM.|||0.20|-1.01|0.19
82423761|NCT01506726|164557426|SUPERIORITY_OR_OTHER|||||||0.412|||||||t-test, 2 sided|||||||0.412
82423762|NCT02231580|164557431|SUPERIORITY_OR_OTHER||GLS mean ratio|1.104|||=|0.5743|TWO_SIDED|90.0|0.823|1.482|||MMRM|||Left hand position-index statistical analysis is presented (BN82451B versus Placebo). The Mixed Effect Model Repeat Measurement (MMRM) analysis was performed on log-transformed data using the restricted maximum likelihood (REML) model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.482|0.823|=0.5743
82423763|NCT02231580|164557431|SUPERIORITY_OR_OTHER||GLS mean ratio|1.141|||=|0.4349|TWO_SIDED|90.0|0.862|1.51|||MMRM|||Right hand position-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.510|0.862|=0.4349
82423764|NCT02231580|164557432|SUPERIORITY_OR_OTHER||GLS mean ratio|1.035|||=|0.8937|TWO_SIDED|90.0|0.675|1.587|||MMRM|||Left hand orientation-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.587|0.675|=0.8937
82423765|NCT02231580|164557432|SUPERIORITY_OR_OTHER||GLS mean ratio|1.093|||=|0.636|TWO_SIDED|90.0|0.8|1.493|||MMRM|||Right hand orientation-index statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.493|0.800|=0.6360
82423766|NCT02231580|164557433|SUPERIORITY_OR_OTHER||GLS mean ratio|1.247|||=|0.2865|TWO_SIDED|90.0|0.886|1.756|||MMRM|||Left hand grip force variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.756|0.886|=0.2865
82423767|NCT02231580|164557433|SUPERIORITY_OR_OTHER||GLS mean ratio|1.16|||=|0.5338|TWO_SIDED|90.0|0.781|1.724|||MMRM|||Right hand grip force variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.724|0.781|=0.5338
82423768|NCT02231580|164557434|SUPERIORITY_OR_OTHER||GLS mean ratio|0.693|||=|0.0864|TWO_SIDED|90.0|0.487|0.985|||MMRM|||Left hand isometric grip forces statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.985|0.487|=0.0864
82423769|NCT02231580|164557434|SUPERIORITY_OR_OTHER||GLS mean ratio|0.686|||=|0.0399|TWO_SIDED|90.0|0.508|0.925|||MMRM|||Right hand isometric grip forces statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.925|0.508|=0.0399
82423770|NCT02231580|164557435|SUPERIORITY_OR_OTHER||GLS mean ratio|1.509|||=|0.0574|TWO_SIDED|90.0|1.06|2.15|||MMRM|||Left finger IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.150|1.060|=0.0574
82423771|NCT02231580|164557435|SUPERIORITY_OR_OTHER||GLS mean ratio|0.953|||=|0.8277|TWO_SIDED|90.0|0.662|1.372|||MMRM|||Right finger IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.372|0.662|=0.8277
82423772|NCT02231580|164557435|SUPERIORITY_OR_OTHER||GLS mean ratio|1.238|||=|0.0162|TWO_SIDED|90.0|1.074|1.426|||MMRM|||Left finger IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.426|1.074|=0.0162
82423773|NCT02231580|164557435|SUPERIORITY_OR_OTHER||GLS mean ratio|1.038|||=|0.632|TWO_SIDED|90.0|0.912|1.182|||MMRM|||Right finger IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.182|0.912|=0.6320
82423774|NCT02231580|164557436|SUPERIORITY_OR_OTHER||GLS mean ratio|1.308|||=|0.3005|TWO_SIDED|90.0|0.85|2.014|||MMRM|||Left finger variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.014|0.85|=0.3005
82423775|NCT02231580|164557436|SUPERIORITY_OR_OTHER||GLS mean ratio|1.177|||=|0.4793|TWO_SIDED|90.0|0.804|1.722|||MMRM|||Right finger variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.722|0.804|=0.4793
82448561|NCT01424228|164604580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367|||||||Cochran-Mantel-Haenszel|||||||0.367
82423776|NCT02231580|164557436|SUPERIORITY_OR_OTHER||GLS mean ratio|1.15|||=|0.2653|TWO_SIDED|90.0|0.934|1.416|||MMRM|||Left finger duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.416|0.934|=0.2653
82423777|NCT02231580|164557436|SUPERIORITY_OR_OTHER||GLS mean ratio|1.045|||=|0.6777|TWO_SIDED|90.0|0.875|1.248|||MMRM|||Right finger duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.248|0.875|=0.6777
82423778|NCT02231580|164557437|SUPERIORITY_OR_OTHER||GLS mean ratio|1.618|||=|0.0326|TWO_SIDED|90.0|1.124|2.331|||MMRM|||Left finger IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.331|1.124|=0.0326
82423779|NCT02231580|164557437|SUPERIORITY_OR_OTHER||GLS mean ratio|0.886|||=|0.6016|TWO_SIDED|90.0|0.605|1.299|||MMRM|||Right finger IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.299|0.605|=0.6016
82647541|NCT03125915|165010359|SUPERIORITY||Beta|-0.64||||0.01|TWO_SIDED|95.0|-1.13|-0.15||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of SUM among those who completed the CT video.|||-0.15|-1.13|0.01
82647542|NCT03125915|165010359|SUPERIORITY||Beta|-0.49||||0.12|TWO_SIDED|95.0|-1.11|0.12||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effects of SUM among those who did not complete CT video.|||0.12|-1.11|0.12
82423780|NCT02231580|164557437|SUPERIORITY_OR_OTHER||GLS mean ratio|1.242|||=|0.0152|TWO_SIDED|90.0|1.077|1.433|||MMRM|||Left finger IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.433|1.077|=0.0152
82534714|NCT02059161|164767109|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.02|||||TWO_SIDED|95.0|-0.05|0.02|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.02|-0.05|
82647543|NCT03125915|165010359|SUPERIORITY||Beta|-0.34||||0.23|TWO_SIDED|95.0|-0.89|0.21||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effects of CT video among those who completed SUM.|||0.21|-0.89|0.23
82534715|NCT02059161|164767110|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.4|||||TWO_SIDED|95.0|-19.7|8.9|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||8.9|-19.7|
82534716|NCT02059161|164767112|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.4|||||TWO_SIDED|95.0|-8.9|8.2|||||Longitudinal data analysis model including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||8.2|-8.9|
82647544|NCT03125915|165010359|SUPERIORITY||Beta|-0.19||||0.51|TWO_SIDED|95.0|-0.76|0.38||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||3-month follow-up, effect of CT video among those who did not complete SUM.|||0.38|-0.76|0.51
82647545|NCT03125915|165010359|SUPERIORITY||Beta|-0.79||||0.003|TWO_SIDED|95.0|-1.32|-0.27||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effects of SUM among those who viewed CT videos.|||-0.27|-1.32|0.003
82647546|NCT03125915|165010359|SUPERIORITY||Beta|-0.25||||0.49|TWO_SIDED|95.0|-0.96|0.46||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of SUM among those who did not view the CT video.|||0.46|-0.96|0.49
82647547|NCT03125915|165010359|SUPERIORITY||Beta|-0.53||||0.1|TWO_SIDED|95.0|-1.16|0.11||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of CT video among those who completed SUM.|||0.11|-1.16|0.10
82647548|NCT03125915|165010359|SUPERIORITY||Beta|-0.02||||0.96|TWO_SIDED|95.0|-0.6|0.64||A multi-level latent growth curve (LGC) with an intercept and linear slope was specified. The main effects of SUM and CT video were modeled at level 2 in addition to their interaction. Drug use was specified as a binomial distribution.|multi-level latent growth curve||6-month follow-up, effect of CT video among those who did not complete SUM.|||0.64|-0.60|0.96
82576905|NCT03412773|164863934|OTHER||Hazard Ratio (HR)|1.06||||0.2622|TWO_SIDED|95.0|0.9|1.26||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.26|0.90|0.2622
82576906|NCT03412773|164863937|OTHER||Hazard Ratio (HR)|1.14||||0.0859|TWO_SIDED|95.0|0.94|1.38||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.38|0.94|0.0859
82576907|NCT03412773|164863938|OTHER||Hazard Ratio (HR)|1.12||||0.1182|TWO_SIDED|95.0|0.94|1.34||One sided Log-Rank Test stratified by geography (Asia vs EU/US), macrovascular invasion and/or extrahepatic spread (present vs. absent), etiology (HCV vs. Other) and ECOG (0 vs. 1).|One-sided log-rank test||The hazard ratio was derived from a Cox regression model with treatment as a covariate and stratified by geography (Asia vs. EU/US), macrovascular invasion/extrahepatic spread (present vs. absent), etiology (HCV vs. other), and ECOG score (0 vs. 1).|||1.34|0.94|0.1182
82647549|NCT02731833|165010360|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.505|-0.3|||ANCOVA|Change from baseline in Schiff Sensitivity Score as response, treatment as factor and baseline Schiff sensitivity score as a covariate.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|Statistical analyses was conducted under the null hypothesis (H0) of no difference between treatments versus the alternate hypothesis (H1) of a difference between treatments.||-0.300|-0.505|<0.0001
82647550|NCT01735877|165010386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.52||0.77|||||||t-test, 2 sided|||At Baseline||||0.77
82534717|NCT02059161|164767113|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-8.1|||||TWO_SIDED|95.0|-18.6|2.4|||||Longitudinal data analysis including terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||2.4|-18.6|
82534718|NCT02059161|164767114|SUPERIORITY_OR_OTHER||Adjusted Difference in %s (A1C < 7.0%)|-0.8|||||TWO_SIDED|95.0|-9.7|8.1|||||Miettinen and Nurminen, stratified by prior insulin status.|||8.1|-9.7|
82576908|NCT03412773|164863944|OTHER||Least Squares (LS) Mean Difference|-2.3||||0.0033|TWO_SIDED|95.0|-3.8|-0.8||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||-0.8|-3.8|0.0033
82576909|NCT03412773|164863945|OTHER||LS Mean Difference|-2.7||||0.0096|TWO_SIDED|95.0|-4.7|-0.7||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||-0.7|-4.7|0.0096
82423781|NCT02231580|164557437|SUPERIORITY_OR_OTHER||GLS mean ratio|1.042|||=|0.6033|TWO_SIDED|90.0|0.915|1.186|||MMRM|||Right finger IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.186|0.915|=0.6033
82423782|NCT02231580|164557438|SUPERIORITY_OR_OTHER||GLS mean ratio|1.657|||=|0.052|TWO_SIDED|90.0|1.086|2.529|||MMRM|||Left finger ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.529|1.086|=0.0520
82534719|NCT02059161|164767114|SUPERIORITY_OR_OTHER||Adjusted Difference in %s (A1C <6.5%)|-1.1|||||TWO_SIDED|95.0|-8.6|6.5|||||Miettinen and Nurminen, stratified by prior insulin status.|||6.5|-8.6|
82576910|NCT03412773|164863946|OTHER||LS Mean Difference|4.3||||0.0037|TWO_SIDED|95.0|1.4|7.3||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||7.3|1.4|0.0037
82534720|NCT02059161|164767115|SUPERIORITY_OR_OTHER||Adjusted Difference (A1C < 7.0%)|0.2|||||TWO_SIDED|95.0|-8.7|9.1|||||Miettinen and Nurminen|||9.1|-8.7|
82534721|NCT02059161|164767115|SUPERIORITY_OR_OTHER||Adjusted Difference (A1C < 6.5%)|-4.4|||||TWO_SIDED|95.0|-11.5|2.8|||||Miettinen and Nurminen|||2.8|-11.5|
82647551|NCT01735877|165010386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.12|||<|0.0001|TWO_SIDED|95.0|11.02|17.25|||ANCOVA|||Mean Change from baseline to 1 month||17.25|11.02|<0.0001
82647552|NCT01735877|165010386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.56|||<|0.0001|TWO_SIDED|95.0|18.65|26.48|||ANCOVA|||Baseline to 3 month||26.48|18.65|<0.0001
82647553|NCT01735877|165010386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.28|||<|0.0001|TWO_SIDED|95.0|18.94|27.62|||ANCOVA|||Baseline to 6 month||27.62|18.94|<0.0001
82647554|NCT01735877|165010387|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At Baseline||||0.99
82647555|NCT01735877|165010387|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At 1 month||||0.99
82647556|NCT01735877|165010387|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||At 3 months||||0.03
82647557|NCT01735877|165010387|SUPERIORITY_OR_OTHER|||||||0.004|||||||Chi-squared|||At 6 months||||0.004
82647558|NCT01735877|165010388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|3.25||0.64|||||||t-test, 2 sided|||At Baseline||||0.64
82423783|NCT02231580|164557438|SUPERIORITY_OR_OTHER||GLS mean ratio|0.916|||=|0.6978|TWO_SIDED|90.0|0.63|1.333|||MMRM|||Right finger ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.333|0.630|=0.6978
82423784|NCT02231580|164557438|SUPERIORITY_OR_OTHER||GLS mean ratio|1.298|||=|0.0522|TWO_SIDED|90.0|1.043|1.614|||MMRM|||Left finger ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.614|1.043|=0.0522
82647559|NCT01735877|165010388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.92||||0.002|TWO_SIDED|95.0|2.24|9.6|||ANCOVA|||Mean change from baseline to 1 month||9.60|2.24|0.002
82423785|NCT02231580|164557438|SUPERIORITY_OR_OTHER||GLS mean ratio|1.014|||=|0.9012|TWO_SIDED|90.0|0.837|1.229|||MMRM|||Right finger ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.229|0.837|=0.9012
82423786|NCT02231580|164557439|SUPERIORITY_OR_OTHER||GLS mean ratio|1.198|||=|0.1779|TWO_SIDED|90.0|0.96|1.494|||MMRM|||Left finger TF statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.494|0.96|=0.1779
82423787|NCT02231580|164557439|SUPERIORITY_OR_OTHER||GLS mean ratio|0.966|||=|0.8036|TWO_SIDED|90.0|0.765|1.22|||MMRM|||Right finger TF statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.220|0.765|=0.8036
82423788|NCT02231580|164557440|SUPERIORITY_OR_OTHER||GLS mean ratio|0.812|||=|0.0177|TWO_SIDED|90.0|0.706|0.935|||MMRM|||Left finger freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.935|0.706|=0.0177
82423789|NCT02231580|164557440|SUPERIORITY_OR_OTHER||GLS mean ratio|0.967|||=|0.6491|TWO_SIDED|90.0|0.856|1.093|||MMRM|||Right finger freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.093|0.856|=0.6491
82423790|NCT02231580|164557441|SUPERIORITY_OR_OTHER||GLS mean ratio|1.168|||=|0.6176|TWO_SIDED|90.0|0.697|1.955|||MMRM|||Left hand IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.955|0.697|=0.6176
82423791|NCT02231580|164557441|SUPERIORITY_OR_OTHER||GLS mean ratio|0.759|||=|0.4541|TWO_SIDED|90.0|0.411|1.399|||MMRM|||Right hand IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.399|0.411|=0.4541
82423792|NCT02231580|164557441|SUPERIORITY_OR_OTHER||GLS mean ratio|1.119|||=|0.2018|TWO_SIDED|90.0|0.967|1.294|||MMRM|||Left hand IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.294|0.967|=0.2018
82423793|NCT02231580|164557441|SUPERIORITY_OR_OTHER||GLS mean ratio|1.046|||=|0.6527|TWO_SIDED|90.0|0.886|1.234|||MMRM|||Right hand IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.234|0.886|=0.6527
82423794|NCT02231580|164557442|SUPERIORITY_OR_OTHER||GLS mean ratio|0.929|||=|0.8279|TWO_SIDED|90.0|0.529|1.63|||MMRM|||Left hand variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.630|0.529|=0.8279
82426769|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.16||||0.0003|TWO_SIDED|95.0|1.4|3.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.3|1.4|0.0003
82426770|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.5511|TWO_SIDED|95.0|0.7|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.7|0.7|0.5511
82647560|NCT01735877|165010388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.71||||0.005|TWO_SIDED|95.0|2.8|14.63|||ANCOVA|||Mean change from baseline to 3 month||14.63|2.80|0.005
82647561|NCT01735877|165010388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.63||||0.006|TWO_SIDED|95.0|2.67|14.6|||ANCOVA|||Mean change from baseline to 6 month||14.60|2.67|0.006
82647562|NCT01735877|165010389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.24||0.99|||||||t-test, 2 sided|||Baseline||||0.99
82576911|NCT03412773|164863947|OTHER||LS Mean Difference|5.0||||0.0022|TWO_SIDED|95.0|1.8|8.2||Reported p-values are nominal.|Mixed Models Analysis|||Between-arm differences in the change from Baseline were assessed using a mixed model for repeated measures. The model included Baseline scores, stratification factors, treatment arms, visits, and treatment arm by visit interaction as fixed effects and visit as a repeated measure with an unstructured covariance matrix based on the missing at random assumption.||8.2|1.8|0.0022
82576912|NCT03317990|164863952|SUPERIORITY||Mean Difference (Final Values)|3.18|||<|0.0001|TWO_SIDED|95.0|1.62|4.75|||Regression, Linear|||Normal linear regression model adjusted for recruitment site, participant's age, and IIEF-5 at baseline, in participants with available data||4.75|1.62|<0.0001
82576913|NCT03317990|164863953|SUPERIORITY||Mean Difference (Final Values)|-1.41||||0.006|TWO_SIDED|95.0|-2.42|-0.41|||Regression, Linear|||||-0.41|-2.42|0.006
82576914|NCT01174446|164863964|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence will be established if 90% C.I. of ratio is contained completely in the margins of equivalence of 0.8 to 1.25.|Ratio of Geometric Means|1.063|||||TWO_SIDED|90.0|1.03|1.09||||||||1.09|1.03|
82576915|NCT01174446|164863991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779||95.0|||||Paired t-test|||||||0.7790
82576916|NCT01174446|164863991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8999||95.0|||||Paired t-test|||||||0.8999
82647563|NCT01735877|165010389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|||<|0.0001|TWO_SIDED|95.0|2.93|4.42|||ANCOVA|||Mean change from baseline to 1 month||4.42|2.93|<0.0001
82423795|NCT02231580|164557442|SUPERIORITY_OR_OTHER||GLS mean ratio|0.612|||=|0.2738|TWO_SIDED|90.0|0.292|1.283|||MMRM|||Right hand variability of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.283|0.292|=0.2738
82423796|NCT02231580|164557442|SUPERIORITY_OR_OTHER||GLS mean ratio|1.018|||=|0.9218|TWO_SIDED|90.0|0.752|1.378|||MMRM|||Left hand duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.378|0.752|=0.9218
82423797|NCT02231580|164557442|SUPERIORITY_OR_OTHER||GLS mean ratio|0.847|||=|0.5032|TWO_SIDED|90.0|0.561|1.277|||MMRM|||Right hand duration of TD statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.277|0.561|=0.5032
82423798|NCT02231580|164557443|SUPERIORITY_OR_OTHER||GLS mean ratio|1.14|||=|0.6759|TWO_SIDED|90.0|0.677|1.917|||MMRM|||Left hand IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.917|0.677|=0.6759
82423799|NCT02231580|164557443|SUPERIORITY_OR_OTHER||GLS mean ratio|0.815|||=|0.5764|TWO_SIDED|90.0|0.444|1.496|||MMRM|||Right hand IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.496|0.444|=0.5764
82576917|NCT01174446|164863992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0|||||Paired t-test|||||||0.0056
82576918|NCT01174446|164863992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413||95.0|||||Paired t-test|||||||0.4130
82576919|NCT01174446|164863993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9059||95.0|||||Paired t-test|||||||0.9059
82576920|NCT01174446|164863993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4098||95.0|||||Paired t-test|||||||0.4098
82576921|NCT01174446|164863994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0189||95.0|||||Paired t-test|||||||0.0189
82576922|NCT01174446|164863994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2974||95.0|||||Paired t-test|||||||0.2974
82576923|NCT01174446|164863995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2009||95.0|||||Paired t-test|||||||0.2009
82576924|NCT01174446|164863995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3552||95.0|||||Paired t-test|||||||0.3552
82576925|NCT01174446|164863996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5143||95.0|||||Paired t-test|||||||0.5143
82576926|NCT01174446|164863996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9223||95.0|||||Paired t-test|||||||0.9223
82576927|NCT01174446|164863997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0162||95.0|||||Paired t-test|||||||0.0162
82576928|NCT01174446|164863997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3176||95.0|||||Paired t-test|||||||0.3176
82576929|NCT01174446|164863998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.821||95.0|||||Paired t-test|||||||0.8210
82576930|NCT01174446|164863998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5565||95.0|||||Paired t-test|||||||0.5565
82576931|NCT01174446|164863999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0146||95.0|||||Paired t-test|||||||0.0146
82576932|NCT01174446|164863999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4048||95.0|||||Paired t-test|||||||0.4048
82576933|NCT01174446|164864000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1258||95.0|||||Paired t-test|||||||0.1258
82576934|NCT01174446|164864000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2567||95.0|||||Paired t-test|||||||0.2567
82576935|NCT01174446|164864001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1048||95.0|||||Paired t-test|||||||0.1048
82576936|NCT01174446|164864001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641||95.0|||||Paired t-test|||||||0.6410
82576937|NCT01174446|164864002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0663||95.0|||||Paired t-test|||||||0.0663
82576938|NCT01174446|164864002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.489||95.0|||||Paired t-test|||||||0.4890
82647564|NCT01735877|165010389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||<|0.0001|TWO_SIDED|95.0|2.61|4.21|||ANCOVA|||Mean change from baseline to 3 month||4.21|2.61|<0.0001
82647565|NCT01735877|165010389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.21|||<|0.0001|TWO_SIDED|95.0|2.4|4.02|||ANCOVA|||Mean change from baseline to 6 month||4.02|2.40|<0.0001
82647566|NCT01735877|165010390|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At Baseline||||0.99
82423800|NCT02231580|164557443|SUPERIORITY_OR_OTHER||GLS mean ratio|1.115|||=|0.2127|TWO_SIDED|90.0|0.965|1.289|||MMRM|||Left hand IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.289|0.965|=0.2127
82576939|NCT01174446|164864003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0562||95.0|||||Paired t-test|||||||0.0562
82423801|NCT02231580|164557443|SUPERIORITY_OR_OTHER||GLS mean ratio|1.059|||=|0.5661|TWO_SIDED|90.0|0.897|1.25|||MMRM|||Right hand IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.25|0.897|=0.5661
82423802|NCT02231580|164557444|SUPERIORITY_OR_OTHER||GLS mean ratio|1.571|||=|0.0874|TWO_SIDED|90.0|1.018|2.424|||MMRM|||Left hand ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.424|1.018|=0.0874
82423803|NCT02231580|164557444|SUPERIORITY_OR_OTHER||GLS mean ratio|1.18|||=|0.6431|TWO_SIDED|90.0|0.644|2.162|||MMRM|||Right hand ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.162|0.644|=0.6431
82423804|NCT02231580|164557444|SUPERIORITY_OR_OTHER||GLS mean ratio|1.193|||=|0.0389|TWO_SIDED|90.0|1.038|1.371|||MMRM|||Left hand ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.371|1.038|=0.0389
82426771|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||0.0013|TWO_SIDED|95.0|1.3|2.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||2.9|1.3|0.0013
82576940|NCT01174446|164864003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3864||95.0|||||Paired t-test|||||||0.3864
82576941|NCT01174446|164864004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5792||95.0|||||Paired t-test|||||||0.5792
82576942|NCT01174446|164864005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4208||95.0|||||Paired t-test|||||||0.4208
82576943|NCT01174446|164864006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Paired t-test|||||||0.5000
82576944|NCT01174446|164864007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0633||95.0|||||Paired t-test|||||||0.0633
82576945|NCT01174446|164864007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9363||95.0|||||Paired t-test|||||||0.9363
82647567|NCT01735877|165010390|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|||At month 1||||0.99
82576946|NCT00384189|164864056|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|9.8|STANDARD_ERROR_OF_MEAN|4.3||0.0116|TWO_SIDED|95.0|1.4|18.3|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||18.3|1.4|0.0116
82576947|NCT00384189|164864056|SUPERIORITY_OR_OTHER||Least Square Means Difference|9.4|STANDARD_ERROR_OF_MEAN|4.3||0.0148|TWO_SIDED|95.0|0.9|17.8|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||17.8|0.9|0.0148
82576948|NCT00384189|164864056|SUPERIORITY_OR_OTHER||Least Squares Means Difference|12.0|STANDARD_ERROR_OF_MEAN|4.3||0.0028|TWO_SIDED|95.0|3.5|20.4|||ANCOVA|Baseline value and age as covariates. One-sided p-value, significance level 2.5%.||||20.4|3.5|0.0028
82576949|NCT00384189|164864057|SUPERIORITY_OR_OTHER|||||||0.1362||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.1362
82576950|NCT00384189|164864057|SUPERIORITY_OR_OTHER|||||||0.0891||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.0891
82576951|NCT00384189|164864057|SUPERIORITY_OR_OTHER|||||||0.1574||||||Two-sided p-value, significance level 5%.|Log Rank|||||||0.1574
82576952|NCT00384189|164864058|SUPERIORITY_OR_OTHER|||||||0.001||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0010
82576953|NCT00384189|164864058|SUPERIORITY_OR_OTHER|||||||0.0006||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0006
82576954|NCT00384189|164864058|SUPERIORITY_OR_OTHER|||||||0.0002||||||One-sided p-value for superiority, significance level 2.5%.|Wilcoxon (Mann-Whitney)|||||||0.0002
82576955|NCT02942004|164864070|SUPERIORITY||Least Square (LS) Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|1.664||0.0013|TWO_SIDED|95.0|-8.8|-2.2|||MMRM|||Mixed effect model for repeated measures (MMRM) was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.20|-8.80|0.0013
82576956|NCT02942004|164864070|SUPERIORITY||LS mean difference|-3.68|STANDARD_ERROR_OF_MEAN|1.622||0.0252|TWO_SIDED|95.0|-6.9|-0.47|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.47|-6.90|0.0252
82647568|NCT01735877|165010390|SUPERIORITY_OR_OTHER|||||||0.04|||||||Chi-squared|||At month 3||||0.04
82647569|NCT01735877|165010390|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||At month 6||||0.01
82647570|NCT02292433|165010421|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.96|STANDARD_ERROR_OF_MEAN|4.841||0.0032|TWO_SIDED|90.0|-28.93|-10.98|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-10.98|-28.93|0.0032
82576957|NCT02942004|164864071|SUPERIORITY||LS mean difference|-5.63|STANDARD_ERROR_OF_MEAN|1.936||0.0044|TWO_SIDED|95.0|-9.46|-1.79|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.79|-9.46|0.0044
82647571|NCT02292433|165010421|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.06|STANDARD_ERROR_OF_MEAN|3.172|<|0.0001|TWO_SIDED|90.0|-46.77|-35.35|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-35.35|-46.77|<0.0001
82423805|NCT02231580|164557444|SUPERIORITY_OR_OTHER||GLS mean ratio|1.138|||=|0.1641|TWO_SIDED|90.0|0.976|1.327|||MMRM|||Right hand ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.327|0.976|=0.1641
82423806|NCT02231580|164557445|SUPERIORITY_OR_OTHER||GLS mean ratio|0.93|||=|0.5668|TWO_SIDED|90.0|0.755|1.147|||MMRM|||Left hand TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.147|0.755|=0.5668
82423807|NCT02231580|164557445|SUPERIORITY_OR_OTHER||GLS mean ratio|0.978|||=|0.8686|TWO_SIDED|90.0|0.778|1.229|||MMRM|||Right hand TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.229|0.778|=0.8686
82423808|NCT02231580|164557446|SUPERIORITY_OR_OTHER||GLS mean ratio|0.879|||=|0.1244|TWO_SIDED|90.0|0.765|1.009|||MMRM|||Left hand freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.009|0.765|=0.1244
82423809|NCT02231580|164557446|SUPERIORITY_OR_OTHER||GLS mean ratio|0.919|||=|0.3535|TWO_SIDED|90.0|0.789|1.069|||MMRM|||Right hand freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.069|0.789|=0.3535
82423810|NCT02231580|164557447|SUPERIORITY_OR_OTHER||GLS mean ratio|2.163|||=|0.015|TWO_SIDED|90.0|1.295|3.614|||MMRM|||Left foot IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.614|1.295|=0.015
82423811|NCT02231580|164557447|SUPERIORITY_OR_OTHER||GLS mean ratio|1.274|||=|0.5136|TWO_SIDED|90.0|0.688|2.361|||MMRM|||Right foot IOI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.361|0.688|=0.5136
82423812|NCT02231580|164557447|SUPERIORITY_OR_OTHER||GLS mean ratio|1.56|||=|0.0218|TWO_SIDED|90.0|1.139|2.137|||MMRM|||Left foot IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.137|1.139|=0.0218
82423813|NCT02231580|164557447|SUPERIORITY_OR_OTHER||GLS mean ratio|1.251|||=|0.372|TWO_SIDED|90.0|0.825|1.899|||MMRM|||Right foot IOI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.899|0.825|=0.3720
82423814|NCT02231580|164557448|SUPERIORITY_OR_OTHER||GLS mean ratio|1.911|||=|0.915|TWO_SIDED|90.0|1.017|3.592|||MMRM|||Left foot TD variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.592|1.017|=0.915
82423815|NCT02231580|164557448|SUPERIORITY_OR_OTHER||GLS mean ratio|1.687|||=|0.2745|TWO_SIDED|90.0|0.762|3.737|||MMRM|||Right foot TD variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.737|0.762|=0.2745
82647572|NCT02292433|165010422|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.18|STANDARD_ERROR_OF_MEAN|2.851||0.0006|TWO_SIDED|90.0|-17.16|-7.21|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-7.21|-17.16|0.0006
82647573|NCT02292433|165010422|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.81|STANDARD_ERROR_OF_MEAN|2.821|<|0.0001|TWO_SIDED|90.0|-30.73|-20.88|||Mixed Models Analysis|||Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-20.88|-30.73|<0.0001
82647574|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.521|STANDARD_ERROR_OF_MEAN|0.7237||0.0447|TWO_SIDED|90.0|-2.752|-0.29|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.290|-2.752|0.0447
82423816|NCT02231580|164557448|SUPERIORITY_OR_OTHER||GLS mean ratio|1.598|||=|0.1148|TWO_SIDED|90.0|0.98|2.608|||MMRM|||Left foot TD duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.608|0.980|=0.1148
82423817|NCT02231580|164557448|SUPERIORITY_OR_OTHER||GLS mean ratio|1.454|||=|0.308|TWO_SIDED|90.0|0.789|2.679|||MMRM|||Right foot TD duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.679|0.789|=0.3080
82423818|NCT02231580|164557449|SUPERIORITY_OR_OTHER||GLS mean ratio|2.272|||=|0.0079|TWO_SIDED|90.0|1.381|3.737|||MMRM|||Left foot IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.737|1.381|=0.0079
82423819|NCT02231580|164557449|SUPERIORITY_OR_OTHER||GLS mean ratio|1.21|||=|0.0204|TWO_SIDED|90.0|0.686|2.133|||MMRM|||Right foot IPI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.133|0.686|=0.0204
82423820|NCT02231580|164557449|SUPERIORITY_OR_OTHER||GLS mean ratio|1.564|||=|0.0204|TWO_SIDED|90.0|1.144|2.138|||MMRM|||Left foot IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.138|1.144|=0.0204
82423821|NCT02231580|164557449|SUPERIORITY_OR_OTHER||GLS mean ratio|1.269|||=|0.3144|TWO_SIDED|90.0|0.856|1.884|||MMRM|||Right foot IPI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.884|0.856|=0.3144
82423822|NCT02231580|164557450|SUPERIORITY_OR_OTHER||GLS mean ratio|1.914|||=|0.0324|TWO_SIDED|90.0|1.167|3.141|||MMRM|||Left foot ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||3.141|1.167|=0.0324
82423823|NCT02231580|164557450|SUPERIORITY_OR_OTHER||GLS mean ratio|1.462|||=|0.246|TWO_SIDED|90.0|0.85|2.515|||MMRM|||Right foot ITI variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||2.515|0.85|=0.246
82423824|NCT02231580|164557450|SUPERIORITY_OR_OTHER||GLS mean ratio|1.387|||=|0.1057|TWO_SIDED|90.0|0.994|1.935|||MMRM|||Left foot ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.935|0.994|=0.1057
82423825|NCT02231580|164557450|SUPERIORITY_OR_OTHER||GLS mean ratio|1.074|||=|0.7342|TWO_SIDED|90.0|0.758|1.523|||MMRM|||Right foot ITI duration statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.523|0.758|=0.7342
82423826|NCT02231580|164557451|SUPERIORITY_OR_OTHER||GLS mean ratio|1.392|||=|0.1027|TWO_SIDED|90.0|0.997|1.943|||MMRM|||Left foot TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.943|0.997|=0.1027
82423827|NCT02231580|164557451|SUPERIORITY_OR_OTHER||GLS mean ratio|1.158|||=|0.4494|TWO_SIDED|90.0|0.84|1.595|||MMRM|||Right foot TF variability statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.595|0.840|=0.4494
82423828|NCT02231580|164557452|SUPERIORITY_OR_OTHER||GLS mean ratio|0.699|||=|0.035|TWO_SIDED|90.0|0.53|0.922|||MMRM|||Left foot freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||0.922|0.530|=0.0350
82423829|NCT02231580|164557452|SUPERIORITY_OR_OTHER||GLS mean ratio|0.853|||=|0.3556|TWO_SIDED|90.0|0.64|1.136|||MMRM|||Right foot freq statistical analysis is presented (BN82451B versus Placebo). The MMRM analysis was performed on log-transformed data using the REML model including fixed categorical effects of treatment/cohort group, visit and treatment/cohort by visit interaction as well as the continuous fixed covariate of baseline value. Cohort was fitted as random effect.||1.136|0.640|=0.3556
82423830|NCT04724837|164557453|SUPERIORITY|Two-sided p-value is presented. A p-value \<0.10 indicates statistical significance, which is consistent with a one-sided test at the 5% level.|Adjusted % mean change from baseline|-33.7|||<|0.001|TWO_SIDED|90.0|-42.5|-23.5|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + Placebo (PBO)||-23.5|-42.5|<0.001
82647575|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.949|STANDARD_ERROR_OF_MEAN|0.7249||0.0119|TWO_SIDED|90.0|-3.183|-0.716|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.716|-3.183|0.0119
82423831|NCT04724837|164557454|SUPERIORITY|Two-sided p-value is presented. A p-value \<0.10 indicates statistical significance, which is consistent with a one-sided test at the 5% level.|Adjusted % mean change from baseline|-27.0||||0.002|TWO_SIDED|90.0|-38.4|-13.6|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-13.6|-38.4|0.002
82423832|NCT04724837|164557455|SUPERIORITY||Least Square (LS) mean CFB|-3.6|||||TWO_SIDED|90.0|-6.8|-0.5|||Mixed Models Analysis||If mean change from baseline (CFB) \>0 then the result favours Dapa 10 mg + PBO for office systolic blood pressure.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.5|-6.8|
82423833|NCT04724837|164557455|SUPERIORITY||LS mean CFB|-7.6|||||TWO_SIDED|90.0|-10.3|-4.9|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office systolic blood pressure.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-4.9|-10.3|
82423834|NCT04724837|164557456|SUPERIORITY||LS Mean CFB|-3.0|||||TWO_SIDED|90.0|-5.0|-1.0|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office diastolic blood pressure.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-1.0|-5.0|
82423835|NCT04724837|164557456|SUPERIORITY||LS Mean CFB|-5.4|||||TWO_SIDED|90.0|-7.1|-3.7|||Mixed Models Analysis||If mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for office diastolic blood pressure.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-3.7|-7.1|
82423836|NCT04724837|164557457|SUPERIORITY||Adjusted % mean change from baseline|-27.0|||||TWO_SIDED|90.0|-38.4|-13.6|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-13.6|-38.4|
82423837|NCT04724837|164557457|SUPERIORITY||Adjusted % mean change from baseline|-33.7|||||TWO_SIDED|90.0|-42.5|-23.5|||Mixed Models Analysis||If adjusted percentage mean change from baseline \>0 then the result favours Dapa 10 mg + PBO for UACR.|Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-23.5|-42.5|
82423838|NCT04724837|164557458|SUPERIORITY||LS mean CFB|1.1|||||TWO_SIDED|90.0|-0.5|2.6|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||2.6|-0.5|
82423839|NCT04724837|164557458|SUPERIORITY||LS mean CFB|-0.8|||||TWO_SIDED|90.0|-2.1|0.5|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.5|-2.1|
82423840|NCT04724837|164557458|SUPERIORITY||LS mean CFB|-1.2|||||TWO_SIDED|90.0|-2.8|0.5|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 12 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.5|-2.8|
82423841|NCT04724837|164557458|SUPERIORITY||LS mean CFB|-1.1|||||TWO_SIDED|90.0|-2.5|0.3|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 12 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||0.3|-2.5|
82423842|NCT04724837|164557458|SUPERIORITY||LS mean CFB|0.1|||||TWO_SIDED|90.0|-1.6|1.8|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 14 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||1.8|-1.6|
82423843|NCT04724837|164557458|SUPERIORITY||LS mean CFB|-2.1|||||TWO_SIDED|90.0|-3.5|-0.7|||Mixed Models Analysis||If mean change from baseline \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 14 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.7|-3.5|
82423844|NCT04724837|164557460|SUPERIORITY||LS mean change|-2.2|||||TWO_SIDED|90.0|-4.0|-0.4|||Mixed Models Analysis||If mean change \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 and Week 12 - Comparison between Zibotentan 0.25 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||-0.4|-4.0|
82423845|NCT04724837|164557460|SUPERIORITY||LS mean change|-0.3|||||TWO_SIDED|90.0|-1.8|1.3|||Mixed Models Analysis||If mean change \<0 then the result favours Dapa 10 mg + PBO for eGFR.|Week 1 and 12 - Comparison between Zibotentan 1.5 mg + Dapagliflozin and Dapagliflozin 10 mg + PBO||1.3|-1.8|
82423846|NCT03620981|164557461|SUPERIORITY||LS Mean Difference (Final Values)|-7.2|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.3|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-4.3|-10.0|< 0.0001
82423847|NCT03620981|164557461|SUPERIORITY||LS Mean Difference (Final Values)|-3.7||||0.0175|TWO_SIDED|95.0|-6.8|-0.7|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.7|-6.8|0.0175
82423848|NCT03620981|164557462|SUPERIORITY||LS Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-0.5|-1.0|< 0.0001
82423849|NCT03620981|164557462|SUPERIORITY||LS Mean Difference (Final Values)|-0.3||||0.0083|TWO_SIDED|95.0|-0.6|-0.1|||Mixed Models Analysis|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.1|-0.6|0.0083
82423850|NCT03620981|164557463|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.6|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH), Last observation carried forward (LOCF)||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 10.||-0.6|-1.2|< 0.0001
82423851|NCT03620981|164557463|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.0052|TWO_SIDED|95.0|-0.8|-0.1|||Cochran-Mantel-Haenszel|CMH, LOCF||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 10.||-0.1|-0.8|0.0052
82647576|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.967|STANDARD_ERROR_OF_MEAN|2.3324||0.6873|TWO_SIDED|90.0|-5.195|3.261|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||3.261|-5.195|0.6873
82423852|NCT04562090|164557467|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.73|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-4.3|-3.16||Repeated Measures Analysis (RMA): CFB as response, treatment group (TG), visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 12||-3.16|-4.30|<0.001
82423853|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.62|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-3.25|-1.99||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.99|-3.25|<0.001
82423854|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.47|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-2.93|-2.02||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-2.02|-2.93|<0.001
82423855|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.13|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.96|-2.3||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.30|-3.96|<0.001
82423856|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-3.39|-2.47||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.47|-3.39|<0.001
82423857|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.47|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-4.37|-2.56||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-2.56|-4.37|<0.001
82534722|NCT02059161|164767116|SUPERIORITY_OR_OTHER||Difference in Least Means Squares|-0.42|||||TWO_SIDED|95.0|-2.33|1.48|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.48|-2.33|
82534723|NCT02059161|164767117|SUPERIORITY_OR_OTHER||Difference in Least Means Squares|0.0|||||TWO_SIDED|95.0|-0.02|0.02|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.02|-0.02|
82534724|NCT02059161|164767118|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.5|||||TWO_SIDED|95.0|-3.69|0.69|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.69|-3.69|
82423858|NCT04562090|164557470|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.59|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-4.06|-3.12||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and interaction between TG and visit as fixed effects and mean (SD) number of grade 3 or 4 (PPIUS) urgency episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-3.12|-4.06|<0.001
82448992|NCT00148941|164605243|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMCs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMC ratio|1.045|||||TWO_SIDED|95.0|0.909|1.202|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of pertactin (PRN) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.202|0.909|
82423859|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.66|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.88|-0.44||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.44|-0.88|<0.001
82423860|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.81|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.97|-0.65||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.65|-0.97|<0.001
82423861|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.88|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.17|-0.58||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.58|-1.17|<0.001
82534725|NCT02059161|164767119|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02||||||95.0|-0.04|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.04|
82534726|NCT02059161|164767120|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.74|||||TWO_SIDED|95.0|-2.52|1.04|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||1.04|-2.52|
82534727|NCT02059161|164767121|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.01|||||TWO_SIDED|95.0|-0.03|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.03|
82423862|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.94|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.78||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.78|-1.10|<0.001
82423863|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.35|-0.71||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.71|-1.35|<0.001
82423864|NCT04562090|164557471|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.98|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.14|-0.81||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of daytime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.81|-1.14|<0.001
82423865|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.48|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.58|-0.37||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.37|-0.58|<0.001
82534728|NCT02059161|164767122|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-1.25|||||TWO_SIDED|95.0|-3.34|0.83|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.83|-3.34|
82534729|NCT02059161|164767123|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-0.02|||||TWO_SIDED|95.0|-0.04|0.01|||||Longitudinal data analysis model included terms for treatment, time, prior insulin status (intermediate-acting, or long-acting insulin), and the interaction of time by treatment, and time by prior insulin status.|||0.01|-0.04|
82534730|NCT03633903|164767153|SUPERIORITY||Mean Difference (Final Values)|1.04|||<|0.05|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~This applies to the change from row 1 to row 3 (e.g., baseline pre TSST-C versus follow-up timepoint pre TSST-C)"|Mixed Models Analysis|||||||<.05
82534731|NCT03633903|164767153|SUPERIORITY||Mean Difference (Final Values)|0.77|||<|0.05|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~This is for the difference from row 1 to row 2 (baseline pre versus baseline post TSST-C)"|Mixed Models Analysis|||||||<.05
82534732|NCT03633903|164767153|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.4|TWO_SIDED|||||"The reported p-value was calculated and is not indicating a threshold for significance.~Comparing row 1 and row 4 (baseline pre TSST-C versus follow-up post TSST-C)."|Mixed Models Analysis|||||||0.40
82534733|NCT03633903|164767154|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.39|TWO_SIDED||||||Mixed Models Analysis|||Comparing group differences (CRP biomarker) in mindfulness versus control at baseline versus follow-up timepoints.||||.39
82534734|NCT03633903|164767154|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.95|TWO_SIDED||||||Mixed Models Analysis|||Comparing group differences (IL-6 biomarker) in mindfulness versus control at baseline versus follow-up timepoints.||||.95
82534735|NCT03633903|164767155|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.08|TWO_SIDED|||||the calculated p value.|Mixed Models Analysis|||Comparing group differences (symptoms of anxiety/depression) in mindfulness versus control at baseline versus follow-up timepoints.||||.08
82423866|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.46|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.53|-0.38||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.38|-0.53|<0.001
82423867|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.67|-0.39||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.39|-0.67|<0.001
82534736|NCT01606189|164767198|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.58||||0.005|TWO_SIDED|95.0|-0.98|-0.18|||ANOVA|||Box Scale-11 pain scores were compared between treatment groups using an analysis of variance (ANOVA). The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Box Scale-11 Pain Score = Patient + Treatment + Period||-0.18|-0.98|0.005
82534737|NCT01606189|164767198|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.002|TWO_SIDED|95.0|-1.03|-0.24|||ANOVA|||Box Scale-11 pain scores were compared between treatment groups using an ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Box Scale-11 Pain Score = Patient + Treatment + Period||-0.24|-1.03|0.002
82534738|NCT01606189|164767199|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.2||||0.017|TWO_SIDED|95.0|-0.37|-0.04|||ANOVA|||Sleep disturbance scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep disturbance Score = Patient + Treatment + Period||-0.04|-0.37|0.017
82534739|NCT01606189|164767199|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.49|-0.16|||ANOVA|||Sleep disturbance scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep disturbance Score = Patient + Treatment + Period||-0.16|-0.49|<0.001
82647577|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.439|STANDARD_ERROR_OF_MEAN|0.9533||0.0659|TWO_SIDED|90.0|-4.502|-0.377|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.377|-4.502|0.0659
82423868|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.45|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.52|-0.37||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.37|-0.52|<0.001
82423869|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.53|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.68|-0.38||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.38|-0.68|<0.001
82423870|NCT04562090|164557472|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-0.52|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|95.0|-0.6|-0.45||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of nighttime incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.45|-0.60|<0.001
82423871|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-1.31|-0.9||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.90|-1.31|<0.001
82423872|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.11|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.25|-0.96||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 4||-0.96|-1.25|<0.001
82423873|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.26|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.53|-0.99||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-0.99|-1.53|<0.001
82423874|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.2|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.34|-1.05||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 8||-1.05|-1.34|<0.001
82423875|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.25|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.54|-0.96||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-0.96|-1.54|<0.001
82423876|NCT04562090|164557473|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.42|-1.12||RMA: CFB as response, treatment group, visit (week 4, 8 and 12), pooled site, sex and the interaction between treatment group and visit as fixed effects and mean number of urge incontinence episodes per 24 hours at baseline as covariate.|MMRM|||Week 12||-1.12|-1.42|<0.001
82423877|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-3.5|-2.43||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 4||-2.43|-3.50|<0.001
82423878|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.05|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-3.44|-2.65||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 4||-2.65|-3.44|<0.001
82423879|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-5.09|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-5.8|-4.39||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 8||-4.39|-5.80|<0.001
82423880|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-4.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-4.7|-3.9||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 8||-3.90|-4.70|<0.001
82423881|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-6.01|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-6.78|-5.24||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 12||-5.24|-6.78|<0.001
82423882|NCT04562090|164557474|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-5.4|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-5.82|-4.98||RMA: CFB as response, TG, visit (week 4, 8 and 12), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of OABSS at baseline as covariate.|MMRM|||Week 12||-4.98|-5.82|<0.001
82423883|NCT04562090|164557475|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-1.97|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.73|-1.21||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.21|-2.73|<0.001
82423884|NCT04562090|164557475|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.36|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.9|-1.81||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 4||-1.81|-2.90|<0.001
82423885|NCT04562090|164557475|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-3.2|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-4.2|-2.2||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.20|-4.20|<0.001
82534740|NCT01606189|164767200|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.55||||0.019|TWO_SIDED|95.0|0.09|1.01|||ANOVA|||Sleep quality scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep Quality Score = Patient + Treatment + Period||1.01|0.09|0.019
82423886|NCT04562090|164557475|SUPERIORITY|Statistical testing was conducted using 2-sided at a significance level of 0.05.|LS Mean|-2.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-3.47|-2.37||RMA: CFB as response, TG, visit (week 4, 8), pooled site, sex and the interaction between TG and visit as fixed effects and mean number of micturitions per 24 hours at baseline as covariate.|MMRM|||Week 8||-2.37|-3.47|<0.001
82423887|NCT04938427|164557476|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-1.17|||=|0.785|TWO_SIDED|95.0|-13.02|9.99||The p-value was calculated using Rank Analysis of Covariance (ANCOVA) model using treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% confidence interval (CI) are based on the Hodges-Lehmann estimation.|||9.99|-13.02|=0.785
82423888|NCT04938427|164557477|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|2.43|||=|0.778|TWO_SIDED|95.0|-10.86|15.14||The p-value was calculated using the Rank ANCOVA model using the treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||15.14|-10.86|=0.778
82423889|NCT04938427|164557478|SUPERIORITY||Odds Ratio (OR)|1.91|||||TWO_SIDED|95.0|0.94|3.87||||||||3.87|0.94|
82423890|NCT04938427|164557479|SUPERIORITY||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.92|4.05||||||||4.05|0.92|
82423891|NCT04938427|164557481|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|0.86|2.13||||||||2.13|0.86|
82423892|NCT04938427|164557482|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.89|2.21||||||||2.21|0.89|
82534741|NCT01606189|164767200|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.79||||0.001|TWO_SIDED|95.0|0.33|1.24|||ANOVA|||Sleep quality scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Sleep Quality Score = Patient + Treatment + Period||1.24|0.33|0.001
82534742|NCT01606189|164767201|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.55||||0.146|TWO_SIDED|95.0|-3.64|0.55|||ANOVA|||Total pain intensity scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Total Pain Intensity Score = Patient + Treatment + Period||0.55|-3.64|0.146
82534743|NCT01606189|164767201|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.2||||0.04|TWO_SIDED|95.0|-4.29|-0.1|||ANOVA|||Total pain intensity scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Total Pain Intensity Score = Patient + Treatment + Period||-0.10|-4.29|0.040
82647578|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.358|STANDARD_ERROR_OF_MEAN|1.5994||0.4031|TWO_SIDED|90.0|-4.079|1.363|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||1.363|-4.079|0.4031
82423893|NCT04938427|164557483|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.85|2.3||||||Alertness Domain||2.30|0.85|
82423894|NCT04938427|164557483|SUPERIORITY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.91|2.48||||||Communication Domain||2.48|0.91|
82423895|NCT04938427|164557483|SUPERIORITY||Odds Ratio (OR)|1.91|||||TWO_SIDED|95.0|1.06|3.43||||||Disruptive Behaviors Domain||3.43|1.06|
82423896|NCT04938427|164557484|SUPERIORITY||Least Square Mean Difference|0.52|||||TWO_SIDED|95.0|-2.2|3.24||||||||3.24|-2.20|
82423897|NCT04938427|164557485|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|1.06|2.65||||||||2.65|1.06|
82423898|NCT04938427|164557486|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-6.37|||||TWO_SIDED|95.0|-16.83|4.16|||||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||4.16|-16.83|
82423899|NCT04938427|164557487|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-6.65|||||TWO_SIDED|95.0|-16.67|3.12|||||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI are based on the Hodges-Lehmann estimation.|||3.12|-16.67|
82423900|NCT04938427|164557488|SUPERIORITY||LS Mean Difference|2.47|||||TWO_SIDED|95.0|-1.74|6.67|||||A linear model with treatment group and age stratum as factors and baseline percentage as a covariate was used for analysis.|||6.67|-1.74|
82423901|NCT04938427|164557489|SUPERIORITY||LS Mean Difference|5.4|||||TWO_SIDED|95.0|1.9|8.9||||||||8.9|1.9|
82423902|NCT04938427|164557490|SUPERIORITY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-3.7|2.0||||||||2.0|-3.7|
82423903|NCT03312543|164557515|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.18|STANDARD_DEVIATION|0.328|<|0.001|TWO_SIDED|95.0|0.09|0.26|||t-test, 2 sided|||||0.26|0.09|<0.001
82423904|NCT03312543|164557515|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.341|<|0.001|TWO_SIDED|95.0|0.21|0.39|||t-test, 2 sided|||||0.39|0.21|<0.001
82423905|NCT03312543|164557515|OTHER|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.025|TWO_SIDED|95.0|0.02|0.25|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.25|0.02|0.025
82448562|NCT00590577|164604600|SUPERIORITY_OR_OTHER||Difference in least-squares means|-9.8|STANDARD_ERROR_OF_MEAN|2.0|<|0.001||95.0|-13.71|-5.85||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-5.85|-13.71|<0.001
82448563|NCT00590577|164604600|SUPERIORITY_OR_OTHER||Difference in least-squares means|-8.7|STANDARD_ERROR_OF_MEAN|2.0|<|0.001||95.0|-12.62|-4.78||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-4.78|-12.62|<0.001
82448564|NCT00590577|164604600|SUPERIORITY_OR_OTHER||Difference in least-squares means|-5.1|STANDARD_ERROR_OF_MEAN|2.01||0.034||95.0|-9.01|-1.1||Used analysis of covariance model with treatment (placebo, paliperidone palmitate 25, 100, 150 mg eq.) and country as factors and baseline value as a covariate. P-values adjusted for multiplicity for comparison with placebo using Dunnett's test.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|The overall type I error rate for testing all paliperidone palmitate doses vs. placebo for both the primary outcome and key secondary outcome was controlled at the 2-sided 0.05 significance level. The 2 families of hypotheses (in each family, comparison of each paliperidone palmitate dose vs. placebo) were tested using a parallel gatekeeping procedure that adjusts for multiplicity by using Dunnett's method in each family of hypotheses and using Bonferroni's inequality between different families.||-1.10|-9.01|0.034
82448565|NCT00590577|164604601|SUPERIORITY_OR_OTHER||Difference in least-squares means|6.2|STANDARD_ERROR_OF_MEAN|1.49|<|0.001||95.0|3.26|9.12||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||9.12|3.26|<0.001
82448566|NCT00590577|164604601|SUPERIORITY_OR_OTHER||Difference in least-squares means|4.4|STANDARD_ERROR_OF_MEAN|1.5||0.007||95.0|1.43|7.31||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||7.31|1.43|0.007
82448567|NCT00590577|164604601|SUPERIORITY_OR_OTHER||Difference in least-squares means|1.0|STANDARD_ERROR_OF_MEAN|1.5||0.509||95.0|-1.96|3.95||P-values were adjusted for multiplicity between PANSS total score (primary efficacy endpoint) and PSP, as well as different dose levels in comparison with placebo, using the Dunnett-Bonferroni-based parallel gatekeeping method.|ANCOVA||The 95% confidence intervals were unadjusted for multiplicity.|Analysis of the key secondary endpoint was conducted using an analysis of covariance model with treatment and country as factors, and the baseline PSP score as a covariate. The Dunnett-Bonferroni-based parallel gatekeeping approach was used to adjust for multiple testing.||3.95|-1.96|0.509
82423906|NCT03312543|164557516|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.349|<|0.001|TWO_SIDED|95.0|0.11|0.29|||t-test, 2 sided|||||0.29|0.11|<0.001
82448568|NCT00590577|164604602|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||<0.001
82448569|NCT00590577|164604602|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.005
82534744|NCT01606189|164767202|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.28||||0.092|TWO_SIDED|95.0|-15.78|1.21|||ANOVA|||Intensity of Pain scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Intensity of Pain Score = Patient + Treatment + Period||1.21|-15.78|0.092
82423907|NCT03312543|164557516|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.22|STANDARD_DEVIATION|0.328|<|0.001|TWO_SIDED|95.0|0.13|0.31|||t-test, 2 sided|||||0.31|0.13|<0.001
82423908|NCT03312543|164557516|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.062||0.54|TWO_SIDED|95.0|-0.09|0.16|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.16|-0.09|0.540
82423909|NCT03312543|164557517|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.532||0.627|TWO_SIDED|95.0|-0.17|0.1|||t-test, 2 sided|||||0.10|-0.17|0.627
82423910|NCT03312543|164557517|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.21|STANDARD_DEVIATION|0.5||0.002|TWO_SIDED|95.0|0.08|0.34|||t-test, 2 sided|||||0.34|0.08|0.002
82423911|NCT03312543|164557517|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.092||0.009|TWO_SIDED|95.0|0.06|0.42|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.42|0.06|0.009
82423912|NCT03312543|164557518|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.36|STANDARD_DEVIATION|0.465|<|0.001|TWO_SIDED|95.0|0.23|0.48|||t-test, 2 sided|||||0.48|0.23|<0.001
82423913|NCT03312543|164557518|SUPERIORITY|Superiority to baseline concluded if the lower bound of the 95% confidence interval for the mean difference is above 0.5.|Mean Difference (Net)|0.47|STANDARD_DEVIATION|0.578|<|0.001|TWO_SIDED|95.0|0.32|0.63|||t-test, 2 sided|||||0.63|0.32|<0.001
82423914|NCT03312543|164557518|EQUIVALENCE|The null hypothesis was that the change from baseline to Week 12 was equal for the active cell and the sham cell. The alternative hypothesis was that the mean change from Baseline was not equal between the two cells.|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.094||0.224|TWO_SIDED|95.0|-0.07|0.3|||ANCOVA|With treatment and skin type group as factors and the corresponding averaged baseline score as a covariate.||||0.30|-0.07|0.224
82423915|NCT05852340|164557565|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|102.36|||||TWO_SIDED|90.0|95.81|109.35||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Strawberry Jam (Fasted)||109.35|95.81|
82423916|NCT05852340|164557565|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|97.15|||||TWO_SIDED|90.0|90.94|103.79||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Yoghurt (Fasted)||103.79|90.94|
82423917|NCT05852340|164557565|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|99.65|||||TWO_SIDED|90.0|93.28|106.46||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Applesauce (Fasted)||106.46|93.28|
82423918|NCT05852340|164557565|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|104.84|||||TWO_SIDED|90.0|97.3|112.96||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Given with High Fat Meal||112.96|97.30|
82423919|NCT05852340|164557566|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|96.63|||||TWO_SIDED|90.0|83.66|111.62||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Strawberry Jam (Fasted)||111.62|83.66|
82423920|NCT05852340|164557566|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|84.58|||||TWO_SIDED|90.0|73.23|97.7||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Yoghurt (Fasted)||97.70|73.23|
82534745|NCT01606189|164767202|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-8.99||||0.037|TWO_SIDED|95.0|-17.41|-0.57|||ANOVA|||Intensity of Pain scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Intensity of Pain Score = Patient + Treatment + Period||-0.57|-17.41|0.037
82534746|NCT01606189|164767203|SUPERIORITY_OR_OTHER_LEGACY||Mann-Whitney U statistic|1222.0||||0.328||95.0|||||Wilcoxon (Mann-Whitney)|||Pain at present was analysed using the Mann-Whitney test with a correction for ties. Results were presented in terms of the sums of the ranks for the two groups, the Mann-Whitney U statistic and the associated p-value.||||0.328
82423921|NCT05852340|164557566|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|93.91|||||TWO_SIDED|90.0|81.3|108.48||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Mixed with Applesauce (Fasted)||108.48|81.30|
82423922|NCT05852340|164557566|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|43.83|||||TWO_SIDED|90.0|37.5|51.23||||||Reference: Ritlecitinib 30 mg Capsule (Fasted) Test: Ritlecitinib 30 mg Capsule Given with High Fat Meal||51.23|37.50|
82423923|NCT00375713|164557569|NON_INFERIORITY_OR_EQUIVALENCE|The pre-set threshold for non inferiority is -10%.|Difference in proportion of responders|0.00069213||||||95.0|-0.0875|0.0888||||||The lower bound of the 95% two sided confidence interval for the difference (Levocetirizine - Cetirizine) in percentage of responders is compared to the pre-set threshold for non inferiority (-10% which is equal to -0.1 for the proportion of responders). Standard method for estimation of the difference in proportions incl. confidence interval using normal approximation is used.||0.0888|-0.0875|
82534747|NCT01606189|164767203|SUPERIORITY_OR_OTHER_LEGACY||Mann-Whitney U statistic|1200.5||||0.56||95.0|||||Wilcoxon (Mann-Whitney)|||Pain at present was analysed using the Mann-Whitney test with a correction for ties. Results were presented in terms of the sums of the ranks for the two groups, the Mann-Whitney U statistic and the associated p-value.||||0.560
82423924|NCT00375713|164557570|SUPERIORITY_OR_OTHER|||||||0.4369||95.0|||||ANCOVA|Pruritus score is adjusted on pruritus Baseline score.||The mean daily pruritus score at Day 14 visit or at study completion was analyzed using an analysis of covariance (ANCOVA) model, including pruritus severity score of the day before the randomization as a covariate and treatment group as a factor||||0.4369
82423925|NCT00375713|164557571|SUPERIORITY_OR_OTHER|||||||0.3549||95.0|||||ANCOVA|pruritus severity score at baseline has been used as a covariate.||The categorized duration of Pruritus at endpoint during the 14 day treatment period was analyzed using an analysis of covariance (ANCOVA) model, including pruritus severity score of the day before the randomization as a covariate and treatment group as a factor.||||0.3549
82423926|NCT00375713|164557572|SUPERIORITY_OR_OTHER|||||||0.7518||95.0|||||Cochran-Mantel-Haenszel|stratified on the prurity severity score at the previous day of randomization.||||||0.7518
82423927|NCT04116489|164557581|SUPERIORITY|||||||0.5272|||||||Regression, Linear|||||||.5272
82423928|NCT04116489|164557582|SUPERIORITY|||||||0.1657|||||||Regression, Linear|||||||.1657
82423929|NCT04116489|164557583|SUPERIORITY|||||||0.2437|||||||Regression, Linear|||||||.2437
82423930|NCT04116489|164557584|OTHER|||||||0.0373|||||||Regression, Linear|||||||.0373
82423931|NCT03781570|164557586|SUPERIORITY||Mean Difference (Final Values)|-0.0544|STANDARD_ERROR_OF_MEAN|0.00517|<|0.001|TWO_SIDED|95.0|-0.0648|-0.0441|||Mixed Models Analysis|Satterthwaite's method was used to estimate degrees of freedom for the mixed effects model.||Comparing placebo vs. control for thermal pain ratings with mixed effects models controlling for the stimulus intensity and the familial structure of the data.||-0.0441|-0.0648|<0.001
82423932|NCT01107496|164557588|SUPERIORITY||Median Difference (Net)|6.0||||0.0414|TWO_SIDED|95.0|1.0|12.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||12.00|1.00|0.0414
82423933|NCT01107496|164557589|SUPERIORITY||Median Difference (Net)|3.0||||0.0803|TWO_SIDED|95.0|0.0|7.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 1 data.||7.00|0.00|0.0803
82423934|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|0.0||||0.5308|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 1 data.||1.00|-1.00|0.5308
82423935|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|-1.0||||0.2032|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 2 data.||0.00|-2.00|0.2032
82423936|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|-1.0||||0.0677|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 3 data.||0.00|-2.00|0.0677
82423937|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|-1.0||||0.0743|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 4 data.||0.00|-2.00|0.0743
82423938|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|-1.0||||0.0437|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis pertains to Week 5 data.||0.00|-2.00|0.0437
82423939|NCT01107496|164557590|SUPERIORITY||Median Difference (Net)|-1.0||||0.1209|TWO_SIDED|95.0|-2.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||0.00|-2.00|0.1209
82423940|NCT01107496|164557591|SUPERIORITY||Median Difference (Net)|1.0||||0.6022|TWO_SIDED|95.0|-4.0|6.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 2 data.||6.00|-4.00|0.6022
82423941|NCT01107496|164557591|SUPERIORITY||Median Difference (Net)|-4.0||||0.0794|TWO_SIDED|95.0|-10.0|1.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 3 data.||1.00|-10.0|0.0794
82423942|NCT01107496|164557591|SUPERIORITY||Median Difference (Net)|-6.0||||0.0747|TWO_SIDED|95.0|-10.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 4 data.||0.00|-10.0|0.0747
82423943|NCT01107496|164557591|SUPERIORITY||Median Difference (Net)|-6.5||||0.0545|TWO_SIDED|95.0|-12.0|0.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 5 data.||0.00|-12.0|0.0545
82423944|NCT01107496|164557592|SUPERIORITY||Median Difference (Net)|7.0||||0.0349|TWO_SIDED|95.0|1.0|13.0|||Wilcoxon (Mann-Whitney)|||This analysis applies to Week 6 data.||13.00|1.00|0.0349
82423945|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-0.5||||0.4038|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 1 data||0.00|-1.00|0.4038
82423946|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-0.5||||0.446|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 2 data||0.00|-1.00|0.4460
82423947|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-0.5||||0.0549|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 3 data||0.00|-1.00|0.0549
82423948|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-0.5||||0.0759|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 4 data||0.00|-1.00|0.0759
82423949|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-0.5||||0.0342|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Analysis pertains to Week 5 data||0.00|-1.00|0.0342
82423950|NCT01107496|164557593|SUPERIORITY||Median Difference (Net)|-1.0||||0.0474|TWO_SIDED||||||Wilcoxon rank-sum test|||Analysis pertains to Week 6 data||||0.0474
82423951|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H1N1 strain)|2.44|||||TWO_SIDED|97.6|2.06|2.9||||||||2.9|2.06|
82423952|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H3N2 strain)|1.89|||||TWO_SIDED|97.6|1.69|2.1||||||||2.1|1.69|
82423953|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (B strain)|3.07|||||TWO_SIDED|97.6|2.66|3.54||||||||3.54|2.66|
82423954|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H1N1 strain)|3.2|||||TWO_SIDED|97.6|2.7|3.8||||||||3.8|2.7|
82423955|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (H3N2 strain)|2.38|||||TWO_SIDED|97.6|2.14|2.65||||||||2.65|2.14|
82423956|NCT01346592|164557594|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was established if the lower limit of the confidence interval of the day 50 ratio of GMTs was \>0.667|GMT ratio (B strain)|3.14|||||TWO_SIDED|97.6|2.72|3.62||||||||3.62|2.72|
82423957|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \>-10%.|Group difference (H1N1 strain)|9.09|||||TWO_SIDED|97.6|5.48|12.69||||||||12.69|5.48|
82534748|NCT01606189|164767204|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.75||||0.181|TWO_SIDED|95.0|-4.32|0.83|||ANOVA|||Pain Disability Index scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Pain Disability Index Score = Patient + Treatment + Period||0.83|-4.32|0.181
82534749|NCT01606189|164767204|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.43||||0.739|TWO_SIDED|95.0|-2.12|2.98|||ANOVA|||Pain Disability Index scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: Pain Disability Index Score = Patient + Treatment + Period||2.98|-2.12|0.739
82534750|NCT01606189|164767205|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.23||||0.015|TWO_SIDED|95.0|-4.01|-0.45|||ANOVA|||12-Item General Health Questionnaire scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: 12-Item General Health Questionnaire Score = Patient + Treatment + Period||-0.45|-4.01|0.015
82423958|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \>-10%|Group difference (H3N2 strain)|4.07|||||TWO_SIDED|97.6|1.58|6.55||||||||6.55|1.58|
82423959|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (B strain)|11.82|||||TWO_SIDED|97.6|8.72|14.92||||||||14.92|8.72|
82423960|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H1N1 strain)|14.21|||||TWO_SIDED|97.6|10.3|18.13||||||||18.13|10.3|
82423961|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H3N2 strain)|7.31|||||TWO_SIDED|97.6|4.47|10.14||||||||10.14|4.47|
82423962|NCT01346592|164557595|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group difference was \> -10%|Group difference (B strain)|11.1|||||TWO_SIDED|97.6|8.11|14.1||||||||14.1|8.11|
82423963|NCT01346592|164557596|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|Group ratio (H1N1 strain)|0.76|||||TWO_SIDED|97.4|0.62|0.93||||||||0.93|0.62|
82423964|NCT01346592|164557596|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|GMT ratio (H3N2 strain)|0.77|||||TWO_SIDED|97.4|0.68|0.86||||||||0.86|0.68|
82423965|NCT01346592|164557596|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 GMT group ratios was \>0.667|GMT ratio (B strain)|0.94|||||TWO_SIDED|97.4|0.8|1.11||||||||1.11|0.8|
82448570|NCT00590577|164604602|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||Comparisons with placebo were without multiplicity adjustment.|ANCOVA|||Analysis of the change in the CGI-S score at end point was performed using an analysis of covariance model on the ranks of the change in score at end point with treatment and country as factors, and (non-ranked) baseline CGI-S score as a covariate.||||0.140
82534751|NCT01606189|164767205|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.21||||0.178|TWO_SIDED|95.0|-2.97|0.56|||ANOVA|||12-Item General Health Questionnaire scores were compared between treatment groups using ANOVA. The model included factors for patient, treatment and period. The significance of the overall treatment effect was assessed using the F-test from the ANOVA. The model used was as follows: 12-Item General Health Questionnaire Score = Patient + Treatment + Period||0.56|-2.97|0.178
82647579|NCT02292433|165010423|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.766|STANDARD_ERROR_OF_MEAN|1.5951||0.0254|TWO_SIDED|90.0|-6.479|-1.052|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-1.052|-6.479|0.0254
82448571|NCT01300260|164604603|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.96|||<|0.001|TWO_SIDED|95.0|2.41|3.64||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.64|2.41|<0.001
82534752|NCT01167023|164767212|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.26||||0.304||95.0||||Pain rate was analyzed using an analysis of covariance (ANCOVA) model, with baseline pain intensity, treatment group, and stratification variable sickle-cell genotype as explanatory variables.|ANCOVA||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||0.304
82647580|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.069||0.0067|TWO_SIDED|90.0|-0.33|-0.09|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.09|-0.33|0.0067
82423966|NCT01346592|164557597|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (H1N1 strain)|-5.3|||||TWO_SIDED|97.4|-10.13|-0.47||||||||-0.47|-10.13|
82423967|NCT01346592|164557597|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (H3N2 strain)|-2.84|||||TWO_SIDED|97.4|-6.16|0.5||||||||0.5|-6.16|
82423968|NCT01346592|164557597|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of the confidence interval for day 50 vaccine group differences was \> -10%|Group difference (B strain)|-2.49|||||TWO_SIDED|97.4|-7.01|2.0||||||||2|-7.01|
82423969|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|3.63|||||TWO_SIDED|95.0|2.86|4.6||||||Superiority was concluded if the lower limit of the confidence interval for the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5.||4.6|2.86|
82423970|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|2.25|||||TWO_SIDED|95.0|1.96|2.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.59|1.96|
82423971|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|4.64|||||TWO_SIDED|95.0|3.86|5.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||5.59|3.86|
82423972|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|5.28|||||TWO_SIDED|95.0|4.16|6.7||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||6.7|4.16|
82647581|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.071||0.0282|TWO_SIDED|90.0|-0.29|-0.05|||Mixed Models Analysis|||Analysis for pre-breakfast. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||-0.05|-0.29|0.0282
82423973|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|3.1|||||TWO_SIDED|95.0|2.69|3.56||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.56|2.69|
82423974|NCT01346592|164557598|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|4.64|||||TWO_SIDED|95.0|3.86|5.59||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||5.59|3.86|
82423975|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|10.4|||||TWO_SIDED|95.0|6.1|14.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||14.7|6.1|
82423976|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|2.5|||||TWO_SIDED|95.0|-0.12|5.1||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||5.1|-0.12|
82423977|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (B strain)|12.8|||||TWO_SIDED|95.0|8.9|16.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||16.7|8.9|
82423978|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|17.7|||||TWO_SIDED|95.0|12.9|22.6||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||22.6|12.9|
82534753|NCT01167023|164767214|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-24.051|||<|0.001||95.0||||A mixed-effects model repeated measures analysis with baseline measurement, stratification variable sickle cell genotype, treatment, time, and time\*treatment interaction as fixed effects, and participant as a random effect in the model was used.|Mixed Models Analysis||Least Squares Mean Difference is for 5 mg prasugrel minus placebo.|||||<0.001
82423979|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|5.6|||||TWO_SIDED|95.0|2.5|8.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||8.7|2.5|
82423980|NCT01346592|164557599|SUPERIORITY_OR_OTHER||Group difference (B strain)|18.8|||||TWO_SIDED|95.0|14.4|23.1||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||23.1|14.4|
82423981|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (H1N1 strain)|2.38|||||TWO_SIDED|95.0|2.07|2.75||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.75|2.07|
82423982|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (H3N2 strain)|1.88|||||TWO_SIDED|95.0|1.72|2.06||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.06|1.72|
82423983|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (B strain)|2.93|||||TWO_SIDED|95.0|2.6|3.3||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.3|2.6|
82647582|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.118||0.7877|TWO_SIDED|90.0|-0.18|0.25|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.25|-0.18|0.7877
82647583|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.156||0.5064|TWO_SIDED|90.0|-0.17|0.39|||Mixed Models Analysis|||Analysis for pre-lunch. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.39|-0.17|0.5064
82423984|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (H1N1 strain)|3.21|||||TWO_SIDED|95.0|2.79|3.71||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.71|2.79|
82423985|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (H3N2 strain)|2.4|||||TWO_SIDED|95.0|2.19|2.62||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||2.62|2.19|
82423986|NCT01346592|164557600|SUPERIORITY_OR_OTHER||GMT Ratio (B strain)|3.08|||||TWO_SIDED|95.0|2.73|3.47||||||superiority was concluded if the lower limit of the confidence interval of the day 50 vaccine group GMT ratios for at least 2 homologous strains was \>1.5||3.47|2.73|
82423987|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|9.3|||||TWO_SIDED|95.0|6.3|12.4||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||12.4|6.3|
82423988|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|3.9|||||TWO_SIDED|95.0|1.8|5.9||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||5.9|1.8|
82423989|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (B strain)|10.7|||||TWO_SIDED|95.0|8.1|13.3||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||13.3|8.1|
82423990|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (H1N1 strain)|14.4|||||TWO_SIDED|95.0|11.1|17.7||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||17.7|11.1|
82647584|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.293||0.4072|TWO_SIDED|90.0|-0.75|0.25|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.25|-0.75|0.4072
82423991|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (H3N2 strain)|6.8|||||TWO_SIDED|95.0|4.5|9.1||||||superiority was concluded if the lower bound of 95% CI of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||9.1|4.5|
82423992|NCT01346592|164557601|SUPERIORITY_OR_OTHER||Group difference (B strain)|10.9|||||TWO_SIDED|95.0|8.3|13.4||||||superiority was concluded if the lower limit of the confidence interval of day 50 vaccine group difference,for at least 2 homologous strains, was \>10%||13.4|8.3|
82423993|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H1N1 strain)|2.68|||||TWO_SIDED|95.0|2.3|3.12||||||No risk subjects.||3.12|2.3|
82423994|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H3N2 strain)|1.87|||||TWO_SIDED|95.0|1.7|2.05||||||No risk subjects.||2.05|1.7|
82423995|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.04|||||TWO_SIDED|95.0|2.68|3.44||||||No risk subjects.||3.44|2.68|
82423996|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.21|||||TWO_SIDED|95.0|1.11|4.42||||||At risk subjects.||4.42|1.11|
82423997|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.45|||||TWO_SIDED|95.0|1.61|3.72||||||At risk subjects.||3.72|1.61|
82423998|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.46|||||TWO_SIDED|95.0|1.88|6.34||||||At risk subjects||6.34|1.88|
82423999|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratios (H1N1 strain)|3.52|||||TWO_SIDED|95.0|3.03|4.1||||||No risk subjects.||4.1|3.03|
82424000|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.36|||||TWO_SIDED|95.0|2.15|2.59||||||No risk subjects.||2.59|2.15|
82424001|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.14|||||TWO_SIDED|95.0|2.78|3.56||||||No risk subjects.||3.56|2.78|
82424002|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.7|||||TWO_SIDED|95.0|1.28|5.68||||||At risk subjects.||5.68|1.28|
82424003|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.25|||||TWO_SIDED|95.0|2.09|5.06||||||At risk subjects.||5.06|2.09|
82424004|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.76|||||TWO_SIDED|95.0|1.44|5.3||||||At risk subjects.||5.3|1.44|
82424005|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.81|||||TWO_SIDED|95.0|2.34|3.37||||||No risk subjects.||3.37|2.34|
82647585|NCT02292433|165010424|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.295||0.1422|TWO_SIDED|90.0|-0.95|0.06|||Mixed Models Analysis|||Analysis for pre-dinner. Analysis was done using a mixed effect model with sequence, period, dose, and baseline as fixed effects and participants within sequence as a random effect.||0.06|-0.95|0.1422
82424006|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.04|||||TWO_SIDED|95.0|1.83|2.28||||||No risk subjects.||2.28|1.83|
82424007|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.74|||||TWO_SIDED|95.0|3.22|4.34||||||No risk subjects||4.34|3.22|
82424008|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.34|||||TWO_SIDED|95.0|0.92|6.0||||||At risk subjects.||6|0.92|
82424009|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.93|||||TWO_SIDED|95.0|1.57|5.45||||||At risk subjects.||5.45|1.57|
82424010|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|5.55|||||TWO_SIDED|95.0|2.52|12.0||||||At risk subjects||12|2.52|
82424011|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|3.66|||||TWO_SIDED|95.0|3.05|4.39||||||No risk subjects.||4.39|3.05|
82424012|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.68|||||TWO_SIDED|95.0|2.4|2.99||||||No risk subjects||2.99|2.4|
82424013|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.97|||||TWO_SIDED|95.0|3.42|4.61||||||No risk subjects.||4.61|3.42|
82448572|NCT01300260|164604603|SUPERIORITY_OR_OTHER||Geometric least squares (LS) means ratio|5.4|||<|0.001|TWO_SIDED|95.0|4.09|7.13||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||7.13|4.09|<0.001
82424014|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.72|||||TWO_SIDED|95.0|1.02|7.31||||||At risk subjects.||7.31|1.02|
82424015|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.5|||||TWO_SIDED|95.0|1.85|6.62||||||At risk subjects.||6.62|1.85|
82424016|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|5.26|||||TWO_SIDED|95.0|2.32|12.0||||||At risk subjects.||12|2.32|
82424017|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.55|||||TWO_SIDED|95.0|1.21|1.97||||||No risk subjects.||1.97|1.21|
82424018|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.51|||||TWO_SIDED|95.0|1.26|1.82||||||No risk subjects||1.82|1.26|
82424019|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.9|||||TWO_SIDED|95.0|1.52|2.38||||||No risk subjects||2.38|1.52|
82424020|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.76|||||TWO_SIDED|95.0|0.57|5.4||||||At risk subjects||5.4|0.57|
82448573|NCT01300260|164604604|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|3.09|||<|0.001|TWO_SIDED|95.0|2.66|3.59||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.59|2.66|<0.001
82448574|NCT01300260|164604604|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|7.92|||<|0.001|TWO_SIDED|95.0|4.82|13.0||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||13.0|4.82|<0.001
82534754|NCT01167023|164767215|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56||||0.244||95.0||||Average pain intensity was analyzed using an analysis of covariance (ANCOVA) model, with baseline intensity, treatment group and stratification variable sickle-cell genotype as explanatory variables.|ANCOVA||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||0.244
82424021|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.78|||||TWO_SIDED|95.0|1.09|2.89||||||At risk subjects||2.89|1.09|
82424022|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.82|||||TWO_SIDED|95.0|0.73|4.54||||||At risk subjects||4.54|0.73|
82424023|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.4|||||TWO_SIDED|95.0|1.89|3.05||||||No risk subjects||3.05|1.89|
82448575|NCT01300260|164604605|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|4.15|||<|0.001|TWO_SIDED|95.0|3.45|5.0||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||5.00|3.45|<0.001
82534755|NCT01167023|164767216|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-128.3|||<|0.001||95.0||||A mixed-effects model repeated measures analysis with baseline measurement, stratification variable sickle cell genotype, treatment, time and time\*treatment interaction as fixed effects, and participant as a random effect in the model.|Mixed Models Analysis||Least Squares (LS) Mean Difference is for 5 mg prasugrel minus placebo.|||||<0.001
82576958|NCT02942004|164864071|SUPERIORITY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|1.899||0.0481|TWO_SIDED|95.0|-7.56|-0.03|||MMRM|||MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-7.56|0.0481
82424024|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.54|||||TWO_SIDED|95.0|1.29|1.85||||||No risk subjects.||1.85|1.29|
82424025|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.7|||||TWO_SIDED|95.0|1.36|2.11||||||No risk subjects||2.11|1.36|
82424026|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.12|||||TWO_SIDED|95.0|0.58|7.71||||||At risk subjects.||7.71|0.58|
82424027|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.81|||||TWO_SIDED|95.0|1.61|4.89||||||At risk subjects||4.89|1.61|
82424028|NCT01346592|164557606|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.17|||||TWO_SIDED|95.0|0.37|3.67||||||At risk subjects||3.67|0.37|
82424029|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%|Group difference (H1N1 strain)|9.0|||||TWO_SIDED|95.0|5.4|12.0||||||No risk subjects.||12|5.4|
82424030|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|1.8|6.6||||||No risk subjects.||6.6|1.8|
82424031|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|9.2|14.8||||||No risk subjects.||14.8|9.2|
82424032|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-1.0|||||TWO_SIDED|95.0|-24.0|18.7||||||At risk subjects.||18.7|-24|
82424033|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|1.0|||||TWO_SIDED|95.0|-21.2|18.9||||||At risk subjects.||18.9|-21.2|
82424034|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|14.0|||||TWO_SIDED|95.0|-1.6|29.5||||||At risk subjects.||29.5|-1.6|
82424035|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|14.0|||||TWO_SIDED|95.0|10.7|17.7||||||No risk subjects.||17.7|10.7|
82424036|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.6|9.8||||||No risk subjects.||9.8|4.6|
82424037|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|10.7|16.4||||||No risk subjects||16.4|10.7|
82424038|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-3.0|||||TWO_SIDED|95.0|-26.1|19.2||||||At risk subjects.||19.2|-26.1|
82424039|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|6.0|||||TWO_SIDED|95.0|-17.5|27.3||||||At risk subjects.||27.3|-17.5|
82424040|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|-4.4|29.2||||||At risk subjects.||29.2|-4.4|
82424041|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|11.0|||||TWO_SIDED|95.0|7.2|14.5||||||No risk subjects.||14.5|7.2|
82424042|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|2.6|7.5||||||No risk subjects.||7.5|2.6|
82424043|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|9.5|15.8||||||No risk subjects.||15.8|9.5|
82647586|NCT02314520|165010445|SUPERIORITY|||||||0.271||||||0.05 is the threshold for significance for this primary outcome.|Fisher Exact|||||||0.271
82424044|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|5.0|||||TWO_SIDED|95.0|-24.7|26.3||||||At risk subjects.||26.3|-24.7|
82424045|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|-26.9|30.3||||||At risk subjects.||30.3|-26.9|
82424046|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|9.0|||||TWO_SIDED|95.0|-16.9|27.1||||||At risk subjects.||27.1|-16.9|
82424047|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|16.0|||||TWO_SIDED|95.0|12.4|20.2||||||No risk subjects.||20.2|12.4|
82424048|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|5.1|10.5||||||No risk subjects||10.5|5.1|
82424049|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|15.0|||||TWO_SIDED|95.0|12.0|18.6||||||No risk subjects||18.6|12|
82424050|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-27.1|25.5||||||At risk subjects||25.5|-27.1|
82424051|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|10.0|||||TWO_SIDED|95.0|-23.5|37.2||||||At risk subjects||37.2|-23.5|
82424052|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|16.0|||||TWO_SIDED|95.0|-10.7|38.0||||||At risk subjects.||38|-10.7|
82424053|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-4.2|10.4||||||No risk subjects.||10.4|-4.2|
82576959|NCT02942004|164864072|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.951||0.9591|TWO_SIDED|95.0|-1.83|1.93|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.93|-1.83|0.9591
82576960|NCT02942004|164864072|SUPERIORITY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.917||0.8677|TWO_SIDED|95.0|-1.66|1.97|||MMRM|||Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.97|-1.66|0.8677
82576961|NCT02942004|164864072|SUPERIORITY||LS mean difference|-2.11|STANDARD_ERROR_OF_MEAN|1.208||0.0827|TWO_SIDED|95.0|-4.51|0.28|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-4.51|0.0827
82576962|NCT02942004|164864072|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.172||0.7968|TWO_SIDED|95.0|-2.62|2.02|||MMRM|||Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.02|-2.62|0.7968
82647587|NCT02117479|165010530|OTHER||Hazard Ratio (HR)|0.969|||||TWO_SIDED|95.0|0.747|1.256||||||||1.256|0.747|
82647588|NCT02117479|165010531|OTHER||Hazard Ratio (HR)|1.056|||||TWO_SIDED|95.0|0.827|1.348||||||||1.348|0.827|
82424054|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 subjects)|4.0|||||TWO_SIDED|95.0|-1.2|11.9||||||No risk subjects.||11.9|-1.2|
82424055|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|8.0|||||TWO_SIDED|95.0|2.9|15.1||||||No risk subjects.||15.1|2.9|
82424056|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-5.0|||||TWO_SIDED|95.0|-42.4|32.0||||||At risk subjects.||32|-42.4|
82424057|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-10.0|||||TWO_SIDED|95.0|-41.2|16.6||||||At risk subjects.||16.6|-41.2|
82424058|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|25.0|||||TWO_SIDED|95.0|-7.1|53.9||||||At risk subjects.||53.9|-7.1|
82647589|NCT01453374|165010541|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
82647590|NCT01453374|165010542|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Fisher Exact|||||||>0.05
82647591|NCT01453374|165010543|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
82647592|NCT01453374|165010549|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED||||||Fisher Exact|||||||<0.10
82647593|NCT02629133|165010558|SUPERIORITY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||||||0.560
82647594|NCT02629133|165010558|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Differences between conditions in the change in % heavy drinking/using days from baseline to 6 months||||0.760
82647595|NCT02629133|165010559|SUPERIORITY|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
82647596|NCT02629133|165010559|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||Distributions were badly skewed, and the sample was too small for ZINB or other analyses. Therefore, we analyzed differences between conditions in changes in services/day over time (i.e., from baseline to 6 month post-shelter follow-up) using the Mann-Whitney U.||||0.029
82647597|NCT02629133|165010560|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.325|TWO_SIDED|95.0|-4.5|13.5||We used hierarchical linear modeling (HLM) to predict 3-mo and 6-mo post-shelter scores from treatment condition, using baseline score as a covariate.|Mixed Models Analysis|||||13.5|-4.5|0.325
82424059|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|8.0|||||TWO_SIDED|95.0|1.0|16.4||||||No risk subjects.||16.4|1|
82424060|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|2.0|16.1||||||No risk subjects.||16.1|2|
82424061|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|4.0|||||TWO_SIDED|95.0|0.0|10.0||||||No risk subjects.||10|0|
82424062|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-1.0|||||TWO_SIDED|95.0|-42.1|43.0||||||At risk subjects.||43|-42.1|
82424063|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-10.0|||||TWO_SIDED|95.0|-41.5|28.7||||||At risk subjects||28.7|-41.5|
82424064|NCT01346592|164557607|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|0.0|||||TWO_SIDED|95.0|-29.0|36.8||||||At risk subjects.||36.8|-29|
82424065|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|10.0|||||TWO_SIDED|95.0|6.4|12.8||||||No risk subjects.||12.8|6.4|
82424066|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|1.8|6.4||||||No risk subjects.||6.4|1.8|
82448576|NCT01300260|164604605|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|3.78|||<|0.001|TWO_SIDED|95.0|2.99|4.78||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||4.78|2.99|<0.001
82424067|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|11.0|||||TWO_SIDED|95.0|8.6|13.9||||||No risk subjects.||13.9|8.6|
82448577|NCT01300260|164604606|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.04||||0.011|TWO_SIDED|95.0|1.26|3.31||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.31|1.26|0.011
82448578|NCT01300260|164604606|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|2.44|||<|0.001|TWO_SIDED|95.0|1.71|3.47||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||3.47|1.71|<0.001
82424068|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-4.0|||||TWO_SIDED|95.0|-24.7|14.9||||||At risk subjects.||14.9|-24.7|
82424069|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|4.0|||||TWO_SIDED|95.0|-14.4|20.7||||||At risk subjects.||20.7|-14.4|
82424070|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|9.0|||||TWO_SIDED|95.0|-6.8|23.4||||||At risk subjects.||23.4|-6.8|
82424071|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|15.0|||||TWO_SIDED|95.0|11.3|18.1||||||No risk subjects.||18.1|11.3|
82424072|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.2|9.1||||||No risk subjects.||9.1|4.2|
82424073|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|13.0|||||TWO_SIDED|95.0|10.5|16.1||||||No risk subjects.||16.1|10.5|
82424074|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-4.0|||||TWO_SIDED|95.0|-25.3|15.4||||||At risk subjects||15.4|-25.3|
82424075|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|6.0|||||TWO_SIDED|95.0|-12.7|24.2||||||At risk subjects.||24.2|-12.7|
82424076|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group differences (B strain)|8.0|||||TWO_SIDED|95.0|-7.8|23.2||||||At risk subjects.||23.2|-7.8|
82448579|NCT01300260|164604607|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.22||||0.021|TWO_SIDED|95.0|1.04|1.43||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.43|1.04|0.021
82448580|NCT01300260|164604607|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.39|||<|0.001|TWO_SIDED|95.0|1.27|1.53||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.53|1.27|<0.001
82448581|NCT01300260|164604608|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.43||||0.009|TWO_SIDED|95.0|1.14|1.8||P-value is two-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.80|1.14|0.009
82424077|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|12.0|||||TWO_SIDED|95.0|8.2|15.3||||||No risk subjects.||15.3|8.2|
82424078|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|5.0|||||TWO_SIDED|95.0|2.5|7.4||||||No risk subjects.||7.4|2.5|
82424079|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|12.0|||||TWO_SIDED|95.0|9.2|15.3||||||No risk subjects.||15.3|9.2|
82424080|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-2.0|||||TWO_SIDED|95.0|-28.5|20.2||||||At risk subjects.||20.2|-28.5|
82424081|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|11.0|||||TWO_SIDED|95.0|-14.9|33.5||||||At risk subjects.||33.5|-14.9|
82424082|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|2.0|||||TWO_SIDED|95.0|-20.7|19.7||||||At risk subjects.||19.7|-20.7|
82424083|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|16.0|||||TWO_SIDED|95.0|12.6|20.1||||||No risk subjects.||20.1|12.6|
82424084|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|7.0|||||TWO_SIDED|95.0|4.6|9.8||||||No risk subjects||9.8|4.6|
82424085|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|15.0|||||TWO_SIDED|95.0|11.9|18.3||||||No risk subjects.||18.3|11.9|
82424086|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-2.0|||||TWO_SIDED|95.0|-28.5|20.2||||||At risk subjects.||20.2|-28.5|
82424087|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|11.0|||||TWO_SIDED|95.0|-14.9|33.5||||||At risk subjects.||33.5|-14.9|
82424088|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|10.0|||||TWO_SIDED|95.0|-14.0|29.3||||||At risk subjects.||29.3|-14|
82424089|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|2.0|||||TWO_SIDED|95.0|-3.8|9.5||||||No risk subjects.||9.5|-3.8|
82424090|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|3.0|||||TWO_SIDED|95.0|-1.8|10.0||||||No risk subjects.||10|-1.8|
82424091|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|6.0|||||TWO_SIDED|95.0|1.5|12.5||||||No risk subjects.||12.5|1.5|
82424092|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-6.0|||||TWO_SIDED|95.0|-40.7|27.9||||||At risk subjects.||27.9|-40.7|
82424093|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-9.0|||||TWO_SIDED|95.0|-38.4|14.3||||||At risk subjects.||14.3|-38.4|
82424094|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|21.0|||||TWO_SIDED|95.0|-7.9|48.1||||||At risk subjects.||48.1|-7.9|
82424095|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|10.0|||||TWO_SIDED|95.0|3.0|18.5||||||No risk subjects.||18.5|3|
82424096|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|8.0|||||TWO_SIDED|95.0|2.2|15.6||||||No risk subjects.||15.6|2.2|
82424097|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|4.0|||||TWO_SIDED|95.0|0.0|9.6||||||No risk subjects.||9.6|0|
82448582|NCT01300260|164604608|SUPERIORITY_OR_OTHER||Geometric least squares (LS) mean ratio|1.75|||<|0.001|TWO_SIDED|95.0|1.59|1.94||P-value is 2-sided.|Mixed Models Analysis|The mixed model analysis included treatment, period, and sequence as fixed effects and participant nested in sequence as a random effect.||||1.94|1.59|<0.001
82647598|NCT02629133|165010561|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.192|TWO_SIDED|95.0|-0.61|2.98||We used HLM to predict Cyber-Stalking Scores across 3 and 6 month post shelter follow-up points from treatment condition, using baseline score as a covariate.|Mixed Models Analysis||Higher scores represent more cyber-stalking over follow-up.|||2.98|-0.61|0.192
82647599|NCT02629133|165010562|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.119|TWO_SIDED|95.0|-3.24|0.38||We conducted HLM predicting SBC Total scores at 3 and 6 months post-shelter release from treatment condition, using baseline SBC score as a covariate.|Mixed Models Analysis||Higher is better (reflecting more safety behaviors used).|||0.38|-3.24|0.119
82424098|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H1N1 strain)|-5.0|||||TWO_SIDED|95.0|-41.7|35.0||||||At risk subjects.||35|-41.7|
82424099|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (H3N2 strain)|-9.0|||||TWO_SIDED|95.0|-38.6|23.4||||||At risk subjects.||23.4|-38.6|
82424100|NCT01346592|164557608|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|Group difference (B strain)|0.0|||||TWO_SIDED|95.0|-26.9|31.0||||||At risk subjects.||31|-26.9|
82424101|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H1N1 strain)|2.29|||||TWO_SIDED|95.0|1.91|2.76||||||No risk subjects.||2.76|1.91|
82424102|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT Ratio (H3N2 strain)|1.6|||||TWO_SIDED|95.0|1.35|1.89||||||No risk subjects.||1.89|1.35|
82424103|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.92|||||TWO_SIDED|95.0|2.57|3.31||||||No risk subjects.||3.31|2.57|
82424104|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.53|||||TWO_SIDED|95.0|0.6|3.93||||||At risk subjects.||3.93|0.6|
82424105|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.02|||||TWO_SIDED|95.0|0.89|4.61||||||At risk subjects.||4.61|0.89|
82424106|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.5|||||TWO_SIDED|95.0|1.34|4.67||||||At risk subjects.||4.67|1.34|
82424107|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|3.33|||||TWO_SIDED|95.0|2.77|4.01||||||No risk subjects.||4.01|2.77|
82424108|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|2.07|||||TWO_SIDED|95.0|1.75|2.45||||||No risk subjects||2.45|1.75|
82424109|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.08|||||TWO_SIDED|95.0|2.72|3.49||||||No risk subjects||3.49|2.72|
82424110|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.71|||||TWO_SIDED|95.0|0.65|4.5||||||At risk subjects.||4.5|0.65|
82424111|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|3.22|||||TWO_SIDED|95.0|1.38|7.51||||||At risk subjects.||7.51|1.38|
82424112|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|2.1|||||TWO_SIDED|95.0|1.1|3.98||||||At risk subjects.||3.98|1.1|
82424113|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|2.59|||||TWO_SIDED|95.0|2.1|3.21||||||No risk subjects.||3.21|2.1|
82424114|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.08|||||TWO_SIDED|95.0|1.71|2.52||||||No risk subjects.||2.52|1.71|
82448583|NCT00439374|164604610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.79|1.35||||||All deliveries less than 37 weeks||1.35|0.79|
82448584|NCT00439374|164604610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.7|1.4||||||Spontaneous deliveries||1.40|0.70|
82448585|NCT00439374|164604610|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.65|1.84||||||Medically-indicated deliveries||1.84|0.65|
82448586|NCT00439374|164604611|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||||||0.93
82448587|NCT00439374|164604612|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.61|1.8||||||||1.80|0.61|
82448588|NCT00439374|164604613|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.58|1.21||||||||1.21|0.58|
82448589|NCT00439374|164604614|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.54|1.43||||||||1.43|0.54|
82448590|NCT00439374|164604615|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69|||||TWO_SIDED|95.0|0.36|1.3||||||||1.30|0.36|
82448591|NCT00439374|164604616|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.82|1.15||||||||1.15|0.82|
82424115|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|3.73|||||TWO_SIDED|95.0|3.22|4.33||||||No risk subjects.||4.33|3.22|
82424116|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
82424117|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.86|||||TWO_SIDED|95.0|0.94|8.66||||||At risk subjects.||8.66|0.94|
82424118|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
82424119|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|3.67|||||TWO_SIDED|95.0|2.97|4.54||||||No risk subjects.||4.54|2.97|
82424120|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H3N2 strain)|2.78|||||TWO_SIDED|95.0|2.29|3.37||||||No risk subjects.||3.37|2.29|
82424121|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (B strain)|4.01|||||TWO_SIDED|95.0|3.46|4.65||||||No risk subjects.||4.65|3.46|
82424122|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the lower bound of confidence interval for day 50 vaccine group difference was \> -10%.|GMT ratio (H1N1 strain)|1.4|||||TWO_SIDED|95.0|0.45|4.4||||||At risk subjects.||4.4|0.45|
82424123|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|4.32|||||TWO_SIDED|95.0|1.43|13.0||||||At risk subjects.||13|1.43|
82424124|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|3.69|||||TWO_SIDED|95.0|1.67|8.15||||||At risk subjects.||8.15|1.67|
82424125|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.35|||||TWO_SIDED|95.0|0.89|2.04||||||No risk subjects.||2.04|0.89|
82448592|NCT00439374|164604617|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.55|1.29||||||||1.29|0.55|
82448593|NCT00439374|164604618|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.77|1.55||||||||1.55|0.77|
82448594|NCT00439374|164604619|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.52|||||TWO_SIDED|95.0|0.43|5.33||||||||5.33|0.43|
82424126|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.59|||||TWO_SIDED|95.0|1.14|2.22||||||No risk subjects.||2.22|1.14|
82647600|NCT00323271|165010564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108||||0.911|TWO_SIDED|95.0|-2.106|1.888|||t-test, 2 sided|||||1.888|-2.106|.911
82647601|NCT00323271|165010565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.644||||0.32|TWO_SIDED|95.0|-1.058|2.345||Multiple imputation used to account for missing variables; pre-treatment rating and years of MS pain were covariates|ANCOVA|||||2.345|-1.058|0.320
82424127|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.68|||||TWO_SIDED|95.0|1.3|2.15||||||No risk subjects.||2.15|1.3|
82424128|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|1.73|||||TWO_SIDED|95.0|0.29|10.0||||||At risk subjects.||10|0.29|
82424129|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.16|||||TWO_SIDED|95.0|0.33|4.01||||||At risk subjects.||4.01|0.33|
82424130|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.45|||||TWO_SIDED|95.0|0.53|3.94||||||At risk subjects.||3.94|0.53|
82424131|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.24|||||TWO_SIDED|95.0|1.48|3.39||||||No risk subjects||3.39|1.48|
82424132|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.76|||||TWO_SIDED|95.0|1.26|2.46||||||No risk subjects.||2.46|1.26|
82424133|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|1.59|||||TWO_SIDED|95.0|1.24|2.04||||||No risk subjects||2.04|1.24|
82424134|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H1N1 strain)|2.48|||||TWO_SIDED|95.0|0.34|18.0||||||At risk subjects.||18|0.34|
82448595|NCT00439374|164604620|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.78|1.72||||||||1.72|0.78|
82424135|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (H3N2 strain)|1.98|||||TWO_SIDED|95.0|0.49|7.92||||||At risk subjects.||7.92|0.49|
82424136|NCT01346592|164557609|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower limit of the 2-sided 97.6% confidence interval of the postvaccination (day 50) ratio of GMTs was above 0.667.|GMT ratio (B strain)|0.71|||||TWO_SIDED|95.0|0.23|2.16||||||At risk subjects.||2.16|0.23|
82448596|NCT00439374|164604621|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.56|2.41||||||||2.41|0.56|
82448597|NCT00439374|164604623|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.34|1.58||||||||1.58|0.34|
82424137|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|4.07|||||TWO_SIDED|95.0|3.34|4.95||||||GMTs were considered to be statistically significantly higher if the lower bound of the 95% confidence interval around the vaccine group ratio was \>1.0||4.95|3.34|
82424138|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|1.95|||||TWO_SIDED|95.0|1.74|2.18||||||statistically significantly greater response was concluded if the lower bound of the 95% confidence interval around the vaccine group ratio is \>1.0||2.18|1.74|
82424139|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|2.03|||||TWO_SIDED|95.0|1.73|2.39||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.39|1.73|
82424140|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (H1N1 strain)|3.82||||||95.0|3.14|4.64||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||4.64|3.14|
82424141|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (H3N2 strain)|2.4|||||TWO_SIDED|95.0|2.15|2.68||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.68|2.15|
82424142|NCT01346592|164557612|SUPERIORITY_OR_OTHER||GMT ratio (B strain)|1.95|||||TWO_SIDED|95.0|1.65|2.29||||||statistically significantly greater response was concluded if the lower bound of the 95% CI around the vaccine group ratio was \>1.0||2.29|1.65|
82424143|NCT00835367|164557653|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|101.84||||||90.0|98.22|105.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.59|98.22|
82448598|NCT00439374|164604624|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45|||||TWO_SIDED|95.0|0.84|2.52||||||||2.52|0.84|
82448599|NCT00439374|164604625|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||||TWO_SIDED|95.0|0.79|1.46||||||||1.46|0.79|
82448600|NCT00439374|164604626|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.92|1.13||||||Any side effect||1.13|0.92|
82448601|NCT00439374|164604626|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.93|1.17||||||Injection site||1.17|0.93|
82647602|NCT05180630|165010567|OTHER|||||||0.012||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to 0.01666667 (.05/3). Comparisons were total mean scores for Open dome condition, Vented dome condition, and Custom earmolds with dynamic venting|ANOVA|||Treatment order was not analyzed. A repeated measures ANOVA was performed to compare the effect of the coupling conditions on sound quality ratings for streamed music, but there was no analysis between groups.||||0.012
82424144|NCT00835367|164557654|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Slope|102.53||||||90.0|99.71|105.44|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.44|99.71|
82424145|NCT00835367|164557655|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.49||||||90.0|99.75|105.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.30|99.75|
82424146|NCT00835367|164557656|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|91.79||||||90.0|84.83|99.32|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||99.32|84.83|
82424147|NCT00835367|164557657|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|95.85||||||90.0|92.54|99.27|||||Metabolite presented for informational purposes only.|||99.27|92.54|
82424148|NCT00835367|164557658|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|100.28||||||90.0|98.3|102.3|||||Metabolite presented for informational purposes only|||102.30|98.30|
82424149|NCT00835367|164557659|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.74||||||90.0|100.35|105.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.19|100.35|
82424150|NCT00835367|164557660|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|102.72||||||90.0|100.3|105.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.20|100.30|
82424151|NCT00835367|164557661|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|100.28||||||90.0|98.25|102.35|||||Metabolite presented for informational purposes only.|||102.35|98.25|
82424152|NCT01168596|164557723|SUPERIORITY_OR_OTHER||Slope|1.3|STANDARD_ERROR_OF_MEAN|5.26||0.81|TWO_SIDED|95.0|-9.13|11.73|||Regression, Linear|||||11.73|-9.13|0.81
82424153|NCT01168596|164557724|SUPERIORITY_OR_OTHER||Slope|4.38|STANDARD_ERROR_OF_MEAN|3.6||0.23|TWO_SIDED|95.0|-2.75|11.51|||Regression, Linear|||||11.51|-2.75|0.23
82424154|NCT01168596|164557725|SUPERIORITY_OR_OTHER||Slope|1.61|STANDARD_ERROR_OF_MEAN|5.03||0.75|TWO_SIDED|95.0|-8.37|11.59|||Regression, Linear|||||11.59|-8.37|0.75
82424155|NCT01168596|164557726|SUPERIORITY_OR_OTHER||Slope|1.88|STANDARD_ERROR_OF_MEAN|3.06||0.54|TWO_SIDED|95.0|-4.18|7.94|||Regression, Linear|||||7.94|-4.18|0.54
82424156|NCT01168596|164557727|SUPERIORITY_OR_OTHER||Slope|-5.17|STANDARD_ERROR_OF_MEAN|6.36||0.42|TWO_SIDED|95.0|-17.76|7.43|||Regression, Linear|||||7.43|-17.76|0.42
82424157|NCT01168596|164557728|SUPERIORITY_OR_OTHER||Slope|0.36|STANDARD_ERROR_OF_MEAN|0.47||0.44|TWO_SIDED|95.0|-0.56|1.29|||Regression, Linear|||||1.29|-0.56|0.44
82424158|NCT01168596|164557729|SUPERIORITY_OR_OTHER||Slope|2.27|STANDARD_ERROR_OF_MEAN|10.02||0.82|TWO_SIDED|95.0|-17.59|22.13|||Regression, Linear|||||22.13|-17.59|0.82
82424159|NCT01168596|164557730|SUPERIORITY_OR_OTHER||Slope|-4.73|STANDARD_ERROR_OF_MEAN|7.36||0.52|TWO_SIDED|95.0|-19.31|9.85|||Regression, Linear|||||9.85|-19.31|0.52
82424160|NCT01168596|164557731|SUPERIORITY_OR_OTHER||Slope|0.11|STANDARD_ERROR_OF_MEAN|1.14||0.93|TWO_SIDED|95.0|-2.15|2.36|||Regression, Linear|||||2.36|-2.15|0.93
82424161|NCT01168596|164557732|SUPERIORITY_OR_OTHER||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.47||0.82|TWO_SIDED|95.0|-1.05|0.83|||Regression, Linear|||||0.83|-1.05|0.82
82424162|NCT01168596|164557733|SUPERIORITY_OR_OTHER||Slope|-4.53|STANDARD_ERROR_OF_MEAN|7.68||0.56|TWO_SIDED|95.0|-19.74|10.69|||Regression, Linear|||||10.69|-19.74|0.56
82424163|NCT01168596|164557734|SUPERIORITY_OR_OTHER||Slope|-2.21|STANDARD_ERROR_OF_MEAN|2.93||0.45|TWO_SIDED|95.0|-8.02|3.59|||Regression, Linear|||||3.59|-8.02|0.45
82424164|NCT01168596|164557735|SUPERIORITY_OR_OTHER||Slope|2.76|STANDARD_ERROR_OF_MEAN|4.94||0.58|TWO_SIDED|95.0|-7.02|12.55|||Regression, Linear|||||12.55|-7.02|0.58
82424165|NCT01168596|164557736|SUPERIORITY_OR_OTHER||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.54||0.95|TWO_SIDED|95.0|-1.04|1.11|||Regression, Linear|||||1.11|-1.04|0.95
82424166|NCT01168596|164557737|SUPERIORITY_OR_OTHER||Slope|-0.38|STANDARD_ERROR_OF_MEAN|0.54||0.48|TWO_SIDED|95.0|-1.45|0.69|||Regression, Linear|||||0.69|-1.45|0.48
82424167|NCT01168596|164557738|SUPERIORITY_OR_OTHER||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.84|TWO_SIDED|95.0|-0.71|0.58|||Regression, Linear|||||0.58|-0.71|0.84
82424168|NCT01168596|164557739|SUPERIORITY_OR_OTHER||Slope|0.49|STANDARD_ERROR_OF_MEAN|0.64||0.44|TWO_SIDED|95.0|-0.77|1.76|||Regression, Linear|||||1.76|-0.77|0.44
82424169|NCT01168596|164557740|SUPERIORITY_OR_OTHER||Slope|-0.33|STANDARD_ERROR_OF_MEAN|0.88||0.71|TWO_SIDED|95.0|-2.06|1.41|||Regression, Linear|||||1.41|-2.06|0.71
82424170|NCT01168596|164557741|SUPERIORITY_OR_OTHER||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.64||0.31|TWO_SIDED|95.0|-0.62|1.9|||Regression, Linear|||||1.90|-0.62|0.31
82424171|NCT01168596|164557742|SUPERIORITY_OR_OTHER||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.82||0.94|TWO_SIDED|95.0|-1.68|1.56|||Regression, Linear|||||1.56|-1.68|0.94
82424172|NCT00123630|164557743|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82424173|NCT00710593|164557752|SUPERIORITY_OR_OTHER||% of participants who were responders|97.5||||0.1613|TWO_SIDED|95.0|86.8|99.9|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.9|86.8|0.1613
82424174|NCT00710593|164557753|SUPERIORITY_OR_OTHER||% of participants who were responders|96.8||||0.0534|TWO_SIDED|95.0|89.0|99.9|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.9|89.0|0.0534
82448602|NCT00439374|164604626|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.03|||||TWO_SIDED|95.0|1.11|22.78||||||Urticaria||22.78|1.11|
82647603|NCT05180630|165010568|OTHER|||||||0.154||||||When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to 0.01666667 (.05/3).|ANOVA|||Treatment order was not analyzed. A repeated measures ANOVA was performed to compare the effect of the coupling conditions on sound quality ratings for own voice, but there was no analysis between groups.||||0.154
82647604|NCT00709735|165010574|SUPERIORITY||Mean Difference (Final Values)|-13.0|||||TWO_SIDED|95.0|-30.0|4.0|||||Non-Reactivation Propranolol (NRP) - Reactivation Propranolol (RP)|||4.0|-30.0|
82424175|NCT00710593|164557754|SUPERIORITY_OR_OTHER||% of participants who were responders|96.1||||0.0427|TWO_SIDED|95.0|86.5|99.5|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||99.5|86.5|0.0427
82424176|NCT00710593|164557755|SUPERIORITY_OR_OTHER||% of participants who were responders|92.5||||0.0006|TWO_SIDED|95.0|83.4|97.5|||Fisher Exact|||Historical comparison group can be referenced in: Villa et al. Immunologic responses following administration of a vaccine targeting human papillomavirus Types 6, 11, 16, and 18; Vaccine 24 (2006):5571-5583. PMID 16753240.||97.5|83.4|0.0006
82424177|NCT00710593|164557756|SUPERIORITY_OR_OTHER||% of participants with at least 1 event|49.3||||0.8305|TWO_SIDED|95.0||||The p-value is to test the proportions of subjects with at least one event among Group A during the study at Entry, Week 8 and Week 24 after vaccine was administered.|Chi-squared, Corrected|||||||0.8305
82424178|NCT00710593|164557756|SUPERIORITY_OR_OTHER||% of participants with at least 1 event|46.7||||0.8305|TWO_SIDED|||||The p-value is to test the proportions of subjects with at least one event among Group B during the study at Entry, Week 8 and Week 24 after vaccine was administered.|Chi-squared, Corrected|||||||0.8305
82576963|NCT02942004|164864072|SUPERIORITY||LS mean difference|-2.04|STANDARD_ERROR_OF_MEAN|1.336||0.1292|TWO_SIDED|95.0|-4.69|0.61|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.61|-4.69|0.1292
82647605|NCT00709735|165010575|SUPERIORITY||Mean Difference (Final Values)|-12.7|||||TWO_SIDED|95.0|-27.4|1.9|||||Non-Reactivation Propranolol (NRP) - Reactivation Propranolol (RP)|||1.9|-27.4|
82424179|NCT00710593|164557764|SUPERIORITY_OR_OTHER||Overall aquisition rate|7.9||||1||95.0|||||Fisher Exact|P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.||||||1.000
82424180|NCT00710593|164557765|SUPERIORITY_OR_OTHER||Overall aquisition rate|1.6||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424181|NCT00710593|164557766|SUPERIORITY_OR_OTHER||Overall aquisition rate|2.0||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424182|NCT00710593|164557767|SUPERIORITY_OR_OTHER||Overall aquisition rate|4.5||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424183|NCT00710593|164557768|SUPERIORITY_OR_OTHER||Overall aquisition rate|8.3||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424184|NCT00710593|164557769|SUPERIORITY_OR_OTHER||Overall aquistion rate|3.6||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424185|NCT00710593|164557770|SUPERIORITY_OR_OTHER||Overall aquisition rate|6.3||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424186|NCT00710593|164557771|SUPERIORITY_OR_OTHER||Overall aquisition rate|8.1||||1||95.0||||P-value is from the Fisher's Exact test to compare the proportion of HPV positive between two study groups.|Fisher Exact|||||||1.000
82424187|NCT00710593|164557772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.0004|TWO_SIDED|95.0|1.02|1.1|||Regression, Logistic|||||1.1|1.02|0.0004
82424188|NCT00710593|164557773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.0012|TWO_SIDED|95.0|1.0|1.1|||Regression, Logistic|||||1.1|1.0|0.0012
82424189|NCT00710593|164557774|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82424190|NCT00189423|164557794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.019|TWO_SIDED|95.0|1.07|2.36|||Fisher Exact|||||2.36|1.07|0.019
82424191|NCT00189423|164557795|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin of 5%||||||0.0001|TWO_SIDED|95.0||||p value is for non-inferiority with a margin of 5% (exact binomial test)|Fisher Exact test, for non-inferiority|||||||0.0001
82424192|NCT00189423|164557795|SUPERIORITY_OR_OTHER|||||||0.681|TWO_SIDED|95.0|||||Fisher Exact|||||||0.681
82424193|NCT00189423|164557801|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|95.0|||||Fisher Exact|||||||0.024
82426772|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.79|||<|0.0001|TWO_SIDED|95.0|1.8|4.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.3|1.8|<0.0001
82448603|NCT00439374|164604626|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.27|1.83||||||Nausea||1.83|0.27|
82647606|NCT02059187|165010591|NON_INFERIORITY_OR_EQUIVALENCE|MK-1293 was to be considered non-inferior to Lantus in type 2 diabetes mellitus (T2DM) if the upper bound of the two-sided 95% confidence interval (CI) for the between-treatment difference (MK-1293 minus Lantus) in least-squares (LS) means was below 0.4% based on a cLDA model.|Difference in least squares means|0.03|||||TWO_SIDED|95.0|-0.12|0.18||||||||0.18|-0.12|
82647607|NCT02059187|165010592|SUPERIORITY_OR_OTHER||Difference in percentage|5.7|||||TWO_SIDED|95.0|-2.3|13.7||||||||13.7|-2.3|
82647608|NCT02059187|165010594|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-8.5|8.5||||||||8.5|-8.5|
82647609|NCT02059187|165010595|SUPERIORITY_OR_OTHER||Difference in percent|6.8|||||TWO_SIDED|95.0|-0.6|14.2||||||||14.2|-0.6|
82647610|NCT02059187|165010596|SUPERIORITY_OR_OTHER||Difference in LS means|1.4|||||TWO_SIDED|95.0|-2.2|4.9||||||||4.9|-2.2|
82647611|NCT02059187|165010597|SUPERIORITY_OR_OTHER||Dofference in LS means|0.01|||||TWO_SIDED|95.0|-0.02|0.05||||||||0.05|-0.02|
82647612|NCT02059187|165010598|SUPERIORITY_OR_OTHER||Difference in LS means|3.5|||||TWO_SIDED|95.0|-3.7|10.7||||||||10.7|-3.7|
82424194|NCT04734210|164557839|OTHER|Exploratory, descriptive analysis||||||0.2933||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.2933
82424195|NCT04734210|164557840|OTHER|Exploratory, descriptive analysis||||||0.1966||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.1966
82424196|NCT04734210|164557841|OTHER|Exploratory, descriptive analysis||||||0.0213||||||The difference in response rates between each of the SURF-200 formulations and vehicle was compared by Fisher's exact method.|Fisher Exact|The threshold for statistical significance is p=0.05.||Exploratory Phase 2 Study; approximately 120 subjects (approximately 40 subjects per each of the 3 treatment groups) were planned to be enrolled in the study. The sample size was based on medical judgment. No formal sample size calculation was performed, and the sample size was empirical. However, the sample size selected was considered sufficient to adequately characterize the general safety and efficacy profile of the study treatments.||||0.0213
82424197|NCT05093621|164557851|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Mortality at 1 year||||1.000
82424198|NCT05093621|164557852|SUPERIORITY|||||||0.729|||||||t-test, 2 sided|||||||0.729
82424199|NCT05093621|164557853|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.650
82424200|NCT05093621|164557854|SUPERIORITY|||||||0.873|||||||t-test, 2 sided|||||||0.873
82424201|NCT00895921|164557935|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.1139||0.042|TWO_SIDED|95.0|0.00943|0.47605||The a priori threshold for statistical significance is \<0.05.|t-test, 2 sided|||||.47605|.00943|0.042
82424202|NCT00895921|164557936|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.253|STANDARD_ERROR_OF_MEAN|0.224||0.269|TWO_SIDED|95.0|-0.208|0.714||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||0.714|-0.208|0.269
82424203|NCT00895921|164557937|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.149||0.012|TWO_SIDED|95.0|0.095|0.705|||Chi-squared, Corrected|||Comparison of akathisia rates between the two arms.||.705|.095|0.012
82424204|NCT01358734|164557938|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.789||||0.119|TWO_SIDED|95.0|0.861|3.718|||Log Rank|||||3.718|0.861|0.119
82424205|NCT01358734|164557938|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.659||||0.014|TWO_SIDED|95.0|1.214|5.822|||Log Rank|||||5.822|1.214|0.014
82424206|NCT01358734|164557938|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.367||||0.356|TWO_SIDED|95.0|0.704|2.653|||Log Rank|||||2.653|0.704|0.356
82424207|NCT02314923|164557996|OTHER|||||||0.951|||||||ANOVA|||||||0.951
82424208|NCT02314923|164557996|OTHER|||||||0.458|||||||ANOVA|||||||0.458
82424209|NCT02314923|164557996|OTHER|||||||0.071|||||||ANOVA|||||||0.071
82424210|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424211|NCT02314923|164557996|OTHER|||||||0.029|||||||ANOVA|||||||0.029
82647613|NCT02059187|165010599|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.4|||||TWO_SIDED|95.0|-11.3|4.4||||||||4.4|-11.3|
82424212|NCT02314923|164557996|OTHER|||||||0.325|||||||ANOVA|||||||0.325
82424213|NCT02314923|164557996|OTHER|||||||0.003|||||||ANOVA|||||||0.003
82424214|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424215|NCT02314923|164557996|OTHER|||||||0.427|||||||ANOVA|||||||0.427
82424216|NCT02314923|164557996|OTHER|||||||0.065|||||||ANOVA|||||||0.065
82424217|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424218|NCT02314923|164557996|OTHER|||||||0.027|||||||ANOVA|||||||0.027
82424219|NCT02314923|164557996|OTHER|||||||0.303|||||||ANOVA|||||||0.303
82424220|NCT02314923|164557996|OTHER|||||||0.003|||||||ANOVA|||||||0.003
82424221|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424222|NCT02314923|164557996|OTHER|||||||0.286|||||||ANOVA|||||||0.286
82424223|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424224|NCT02314923|164557996|OTHER|||||||0.094|||||||ANOVA|||||||0.094
82424225|NCT02314923|164557996|OTHER|||||||0.757|||||||ANOVA|||||||0.757
82424226|NCT02314923|164557996|OTHER|||||||0.022|||||||ANOVA|||||||0.022
82424227|NCT02314923|164557996|OTHER|||||||0.001|||||||ANOVA|||||||0.001
82424228|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424229|NCT02314923|164557996|OTHER|||||||0.348|||||||ANOVA|||||||0.348
82424230|NCT02314923|164557996|OTHER|||||||0.508|||||||ANOVA|||||||0.508
82424231|NCT02314923|164557996|OTHER|||||||0.191|||||||ANOVA|||||||0.191
82424232|NCT02314923|164557996|OTHER|||||||0.024|||||||ANOVA|||||||0.024
82424233|NCT02314923|164557996|OTHER|||||||0.169|||||||ANOVA|||||||0.169
82424234|NCT02314923|164557996|OTHER|||||||0.961|||||||ANOVA|||||||0.961
82424235|NCT02314923|164557996|OTHER|||||||0.454|||||||ANOVA|||||||0.454
82424236|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424237|NCT02314923|164557996|OTHER|||||||0.068|||||||ANOVA|||||||0.068
82424238|NCT02314923|164557996|OTHER|||||||0.007|||||||ANOVA|||||||0.007
82424239|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424240|NCT02314923|164557996|OTHER|||||||0.37|||||||ANOVA|||||||0.370
82424241|NCT02314923|164557996|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82424242|NCT03232567|164558011|SUPERIORITY|||||||0.2451|||||||Fisher Exact|||||||0.2451
82424243|NCT03232567|164558011|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
82424244|NCT03232567|164558011|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||||||0.0063
82647614|NCT02059187|165010600|SUPERIORITY_OR_OTHER||Adjusted difference in percent|2.8|||||TWO_SIDED|95.0|-6.1|11.6|||||Calculated via Miettinen and Nurminen method, stratified by prior insulin status.|||11.6|-6.1|
82424245|NCT03232567|164558012|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||||||0.4828
82424246|NCT03232567|164558012|SUPERIORITY|||||||0.0996|||||||Fisher Exact|||||||0.0996
82424247|NCT03232567|164558012|SUPERIORITY|||||||0.0421|||||||Fisher Exact|||||||0.0421
82424248|NCT03232567|164558014|SUPERIORITY|||||||0.0169|||||||Fisher Exact|||NasoVAX low dose vs placebo||||0.0169
82424249|NCT03232567|164558014|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||NasoVAX medium dose vs placebo||||0.0063
82424250|NCT03232567|164558014|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||NasoVAX high dose vs placebo||||<0.0001
82448604|NCT00439374|164604627|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.46|1.3||||||Analysis is for the total composite||1.30|0.46|
82448605|NCT00439374|164604628|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
82534756|NCT02916862|164767240|SUPERIORITY|Power calculations were done for Aim 1, so the main analysis was done only between SCF and placebo. Significance was set at a p value \<0.05.|Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.92||0.377|TWO_SIDED|95.0|-2.12|5.53||We adjusted the models for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height.|ANCOVA|We adjusted the models for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height.||The main analyses were performed on an intention-to-treat basis. For the primary analysis, percent change from baseline in whole-body BMC after one year of supplement (SCF) vs placebo (AIM 1), we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||5.53|-2.12|0.377
82534757|NCT02916862|164767240|SUPERIORITY|Significance was set at a p value \<0.05.|Mean Difference (Net)|1.95|STANDARD_DEVIATION|1.8||0.245|TWO_SIDED|95.0|-1.366|5.266|||ANCOVA|||The main analyses were performed on an intention-to-treat basis. For the secondary analysis, percent change from baseline in whole-body BMC after one year of supplement (SCF+calcium) vs placebo+calcium (AIM 2), we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||5.266|-1.366|0.245
82534758|NCT02916862|164767241|SUPERIORITY||Mean Difference (Net)|1.655||||0.05|TWO_SIDED|95.0|-0.765|8.143|||ANCOVA|||The main analyses were performed on an intention-to-treat basis. For the secondary analysis, percent change from baseline in lumbar BMC after one year of supplement (SCF) vs placebo, we used analysis of covariance, adjusted for baseline age, sex, Tanner stage (puberty status), percent change in weight, and percent change in height. Effects were considered significant at the alpha level of 0.05.||8.143|-0.765|0.05
82534759|NCT02916862|164767241|SUPERIORITY||Mean Difference (Net)|1.035|STANDARD_ERROR_OF_MEAN|2.535||0.05|TWO_SIDED|95.0|-7.68|2.435|||ANCOVA|||||2.435|-7.680|0.05
82647615|NCT02059187|165010601|SUPERIORITY_OR_OTHER||Adjusted difference in percent|-0.9|||||TWO_SIDED|95.0|-8.3|6.5|||||Calculated via Miettinen and Nurminen method, stratified by prior insulin status.|||6.5|-8.3|
82424251|NCT00071032|164558037|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.84|1.22|||||Liberal Arm (numerator) compared to Restrictive Arm (denominator)|||1.22|0.84|
82424252|NCT00071032|164558038|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.9|||||TWO_SIDED|99.0|-3.3|1.6|||||Liberal Arm (numerator) compared to Restrictive Arm (denominator)|||1.6|-3.3|
82424253|NCT05852470|164558055|NON_INFERIORITY|Non-inferiority margin = 0.1 logMAR|Difference in Means|0.034|STANDARD_ERROR_OF_MEAN|0.0167|||TWO_SIDED|95.0|0.001|0.067||Since a non-inferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the non-inferiority margin.|||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|||0.067|0.001|
82424254|NCT05852470|164558056|SUPERIORITY||Difference in Means|-0.091|STANDARD_ERROR_OF_MEAN|0.0151|<|0.001|TWO_SIDED|95.0|-0.12|-0.061|||t-test, 1 sided||||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|-0.061|-0.120|<.001
82424255|NCT05852470|164558057|SUPERIORITY||Difference in Means|-0.129|STANDARD_ERROR_OF_MEAN|0.0202|<|0.001|TWO_SIDED|95.0|-0.169|-0.089|||t-test, 1 sided||Parameter Dispersion Type is Standard Error of the Difference in Means. Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL|||-0.089|-0.169|<.001
82448606|NCT00439374|164604636|SUPERIORITY_OR_OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
82448607|NCT00418574|164604643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.099||||0.301|TWO_SIDED|95.0|0.919|1.315|||Regression, Cox|||||1.315|0.919|0.301
82424256|NCT05852470|164558058|SUPERIORITY||Difference in Percentages|17.32|||||TWO_SIDED|90.0|8.66||Upper limit is not applicable for testing.|The lower boundary of the confidence interval is reported instead of a p-value.|Miettinen-Nurminen||Difference = Vivity/Vivity Toric Extended Vision IOL minus Clareon/Clareon Toric Monofocal IOL||||8.66|
82448608|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.15||||0.03|TWO_SIDED|95.0|0.92|5.39||p-value adjusted for 6 treatment group comparisons.|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||5.39|0.92|0.03
82448609|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.98||||0.4|TWO_SIDED|95.0|-0.24|4.2||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||4.20|-0.24|0.40
82424257|NCT01903863|164558061|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82424258|NCT01903863|164558062|SUPERIORITY|||||||0.07||||||Intracranial hemorrhage|Fisher Exact|||||||0.07
82424259|NCT01903863|164558062|SUPERIORITY|||||||0.7||||||Surgical bleed|Fisher Exact|||||||0.7
82424260|NCT01903863|164558062|SUPERIORITY|||||||0.5||||||Gastrointestinal hemorrhage|Fisher Exact|||||||0.5
82424261|NCT01903863|164558063|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82424262|NCT01903863|164558064|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82424263|NCT01903863|164558065|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82424264|NCT01903863|164558066|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82424265|NCT01903863|164558067|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82424266|NCT01903863|164558068|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82424267|NCT00937105|164558088|SUPERIORITY_OR_OTHER||Cumulative Probability of no-CIE|92.8|||||TWO_SIDED|95.0|88.6|96.9|||Kaplan-Meier|Cumulative Unadjusted Probability of remaining CIE-free presented for entire cohort (both solution groups) to remain consistent with the primary aim||Cumulative Unadjusted Probability of Remaining Infiltrate Free in entire Cohort||96.9|88.6|
82647616|NCT00845026|165010612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.184||95.0||||No adjustments were made for multiplicity. All treatment comparisons were evaluated based on a two-sided significance level of 0.05.|Log Rank|||||||0.184
82647617|NCT02556632|165010679|OTHER|||||||0.9306|||||||ANOVA|||||||0.9306
82647618|NCT02556632|165010680|OTHER|||||||0.8048|||||||Fisher Exact|||||||0.8048
82424268|NCT00937105|164558089|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.737||||0.3923|TWO_SIDED|95.0|0.49|6.156|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no substantial lens bioburden|To determine if microbial contamination of lenses is a risk factor for CIE||6.156|0.49|0.3923
82424269|NCT00937105|164558090|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.316||||0.7943|TWO_SIDED|95.0|0.167|10.393|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no corneal staining|||10.393|0.167|0.7943
82424270|NCT00937105|164558091|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.674||||0.5894|TWO_SIDED|95.0|0.161|2.822|||Regression, Cox|Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|referent is no substantial case bioburden|||2.822|0.161|0.5894
82647619|NCT02556632|165010681|OTHER|||||||0.8591|||||||ANOVA|||||||0.8591
82424271|NCT00937105|164558092|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.406||||0.1742|TWO_SIDED|95.0|0.678|8.537||Univariate hazard ratio provided because non-significant finding did not enter into multivariate analyses|Regression, Cox||referent is no substantial overall lid bioburden|||8.537|0.678|0.1742
82424272|NCT00937105|164558093|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.22||||0.04|TWO_SIDED|95.0|1.1|24.7|||Regression, Cox|Multivariate model adjusted for solution, gender and age|referent is no substantial CNS lid bioburden|||24.70|1.10|0.04
82424273|NCT03537508|164558136|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|1.86|||||TWO_SIDED|95.0|-4.38|8.64||||||Statistical analysis for Serogroup A||8.64|-4.38|
82424274|NCT03537508|164558136|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|8.75|||||TWO_SIDED|95.0|4.8|13.6||||||Statistical analysis for Serogroup C||13.60|4.80|
82424275|NCT03537508|164558136|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|4.09|||||TWO_SIDED|95.0|0.68|8.44||||||Statistical analysis for Serogroup Y||8.44|0.68|
82424276|NCT03537508|164558136|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|1.19|||||TWO_SIDED|95.0|-1.18|4.45||||||Statistical analysis for Serogroup W||4.45|-1.18|
82424277|NCT03537508|164558137|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|10.21|||||TWO_SIDED|95.0|4.98|15.59||||||Statistical analysis for Serogroup A||15.59|4.98|
82424278|NCT03537508|164558137|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|7.83|||||TWO_SIDED|95.0|5.31|10.96||||||Statistical analysis for Serogroup C||10.96|5.31|
82426773|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9225|TWO_SIDED|95.0|0.6|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.5|0.6|0.9225
82426774|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.95|||<|0.0001|TWO_SIDED|95.0|1.9|4.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||4.5|1.9|<0.0001
82426775|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2|||<|0.0001|TWO_SIDED|95.0|2.7|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||6.6|2.7|<0.0001
82426776|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.2454|TWO_SIDED|95.0|0.9|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||2.0|0.9|0.2454
82426777|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|2.0|4.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||4.9|2.0|<0.0001
82426778|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.4|6.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||6.0|2.4|<0.0001
82426779|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4919|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.9|0.8|0.4919
82576964|NCT02942004|164864072|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|1.299||0.7801|TWO_SIDED|95.0|-2.94|2.21|||MMRM|||Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.21|-2.94|0.7801
82576965|NCT02942004|164864072|SUPERIORITY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|1.436||0.384|TWO_SIDED|95.0|-4.1|1.59|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.59|-4.10|0.3840
82576966|NCT02942004|164864072|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.395||0.6097|TWO_SIDED|0.71|-2.05|3.48|||MMRM|||Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.48|-2.05|0.6097
82647620|NCT04583592|165010694|SUPERIORITY|||||||0.787||||||\<0.05|Chi-squared|||||||0.787
82647621|NCT04523831|165010710|SUPERIORITY||Cox Proportional Hazard|0.53|||<|0.03|TWO_SIDED|95.0|0.3|0.96|||Regression, Linear|||||0.96|0.30|<0.03
82647622|NCT04523831|165010711|SUPERIORITY||Cox Proportional Hazard|0.51|||<|0.004|TWO_SIDED|95.0|0.32|0.8|||Regression, Logistic|||||0.80|0.32|<0.004
82424279|NCT03537508|164558137|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|6.53|||||TWO_SIDED|95.0|4.01|9.62||||||Statistical analysis for Serogroup Y||9.62|4.01|
82424280|NCT03537508|164558137|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in Percentage of Participants|5.72|||||TWO_SIDED|95.0|3.44|8.57||||||Statistical analysis for Serogroup W||8.57|3.44|
82424281|NCT04569084|164558174|SUPERIORITY|||||||0.777|||||||ANCOVA|||||||0.777
82424282|NCT04569084|164558175|SUPERIORITY|||||||0.169|||||||Mixed Model for Repeated Measures (MMRM)|||||||0.169
82424283|NCT03274466|164558180|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.22||||0.0013|TWO_SIDED|95.0|0.08|0.59||Threshold for statistical significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||0.59|0.08|0.0013
82424284|NCT03274466|164558181|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.33||||0.168|TWO_SIDED|95.0|0.07|1.7||Threshold for Statistical Significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||1.70|0.07|0.1680
82424285|NCT03274466|164558182|SUPERIORITY|Modified Intent-To-Treat|Odds Ratio (OR)|0.34||||0.3386|TWO_SIDED|95.0|0.04|3.39||Threshold for Statistical Significance: alpha = 0.048|Cochran-Mantel-Haenszel|||||3.39|0.04|0.3386
82424286|NCT03274466|164558183|SUPERIORITY||Odds Ratio (OR)|0.22||||0.0013|TWO_SIDED|95.0|0.08|0.59||Threshold for statistical significance: alpha = 0.048|Cochran-Mantel-Haenszel|||Sensitivity analysis of the Primary Endpoint using the Intent-To-Treat population.||0.59|0.08|0.0013
82647623|NCT04523831|165010712|SUPERIORITY||Cox Proportional Hazard|0.45|||<|0.013|TWO_SIDED|95.0|0.23|0.85|||Regression, Logistic|||||0.85|0.23|<0.013
82647624|NCT04523831|165010713|SUPERIORITY||Cox Proportional Hazard|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.81|||Regression, Logistic|||||0.81|0.44|<0.001
82647625|NCT03033069|165010733|SUPERIORITY||Least Squares (LS ) Mean Difference|-5.99|||=|0.0021|TWO_SIDED|95.0|-9.79|-2.19|||Mixed Model Repeated Measures (MMRM)|||MMRM analysis with an unstructured (UN) variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-2.19|-9.79|=0.0021
82424290|NCT03396445|164558224|OTHER||Difference in Percent|6.2|||||TWO_SIDED|95.0|-21.2|32.8|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2b Boserolimab 30 mg Q3W + Pembrolizumab 200 mg Q3W \[Endometrial\] - Arm 1a Boserolimab 30 mg Q3W \[Endometrial\])||32.8|-21.2|
82647626|NCT03033069|165010733|SUPERIORITY||LS Mean Difference|-1.74|||=|0.3868|TWO_SIDED|95.0|-5.7|2.22|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||2.22|-5.70|=0.3868
82424291|NCT03396445|164558224|OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|95.0|-32.1|17.2|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2c Boserolimab 30 mg Q6W + Pembrolizumab 400 mg Q6W \[Endometrial\] - Arm 1a Boserolimab 30 mg \[Endometrial\])||17.2|-32.1|
82424292|NCT03396445|164558224|OTHER||Difference in Percentage|13.3|||||TWO_SIDED|95.0|-11.7|38.4|||||Comparison based on Miettinen \& Nurminen method|Difference in percentage of participants who experienced a CR or PR (Arm 2b Boserolimab 30 mg Q3W + Pembrolizumab 200 mg Q3W \[Endometrial\] - Arm 2c Boserolimab 30 mg Q6W + Pembrolizumab 400 mg Q6W \[Endometrial\])||38.4|-11.7|
82424293|NCT02964377|164558229|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0482|||||||t-test, 2 sided|||||||0.0482
82424294|NCT02964377|164558229|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0075|||||||t-test, 2 sided|||||||0.0075
82424295|NCT02964377|164558229|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0083|||||||t-test, 2 sided|||||||0.0083
82448610|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.76||||0.49|TWO_SIDED|95.0|-0.48|4.0||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||4.00|-0.48|0.49
82647627|NCT03033069|165010733|SUPERIORITY||LS Mean Difference|-0.91|||=|0.6399|TWO_SIDED|95.0|-4.74|2.92|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||2.92|-4.74|=0.6399
82647628|NCT03033069|165010733|SUPERIORITY||LS Mean Difference|-5.08|||=|0.0106|TWO_SIDED|95.0|-8.96|-1.2|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-1.20|-8.96|=0.0106
82647629|NCT03033069|165010733|SUPERIORITY||LS Mean Difference|-4.24|||=|0.0384|TWO_SIDED|95.0|-8.26|-0.23|||MMRM|||MMRM analysis with an UN variance covariance structure was performed. The model included fixed class-effect terms for treatment, trial site, type of trauma (combat related Yes/No), visit week, and an interaction term of treatment by visit week and included the interaction term of baseline values of CAPS-5 total score by visit week as a covariate.||-0.23|-8.26|=0.0384
82647630|NCT02517099|165010736|SUPERIORITY||Median Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.384||0.05|TWO_SIDED|95.0|1.591|8.8|||Wilcoxon (Mann-Whitney)|||||8.80|1.591|0.05
82424296|NCT02964377|164558230|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0127|||||||t-test, 2 sided|||||||0.0127
82424297|NCT02964377|164558230|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0202|||||||t-test, 2 sided|||||||0.0202
82424298|NCT02964377|164558230|EQUIVALENCE|Difference in trough vs. peak values was evaluated using a paired t-test analysis.||||||0.0007|||||||t-test, 2 sided|||||||0.0007
82424299|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 1)||||<0.0001
82534760|NCT01161160|164767325|NON_INFERIORITY|Equivalence criteria were fulfilled if the 2-sided 95% confidence limits on the geometric mean titer (GMT) ratio was within the interval 0.5 to 2.0.|Adjusted GMT ratio|0.96|||||TWO_SIDED|95.0|0.73|1.26||||||To demonstrate the immunological equivalence of HA antigen adjuvanted with AS03B manufactured in Quebec (Arepanrix™) and HA antigen adjuvanted with AS03B manufactured in Dresden (Pandemrix™), 21 days after vaccination.||1.26|0.73|
82424300|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 2)||||<0.0001
82424301|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4 (Cohort 3)||||<0.0001
82424302|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 1)||||<0.0001
82424303|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 2)||||<0.0001
82647631|NCT02623426|165010740|SUPERIORITY||Ratio of the proportion of baseline|1.36|||<|0.001|TWO_SIDED|95.0|1.19|1.56||A Bonferroni correction was used to adjust for the co-primary hypotheses;a two-sided type I error rate of 0.05/2 = 0.025 was used to determine statistical significance for the two pairwise comparisons (Ozurdex vs Methotrexate and Ozurdex vs Lucentis)|mixed effects model||The treatment effect is the ratio of the proportions of baseline retinal thickness (Methotrexate/Ozurdex). Values greater than 1 indicate less reduction in retinal thickness in the Methotrexate treated group compared to Ozurdex|A sample size of 240 was calculated to provide 91% power to detect a 25% reduction for Ozurdex, a 38% reduction for Methotrexate and Lucentis assuming a standard deviation of 0.33, 25% with bilateral disease, between-eye correlation of 0.4, 10% loss to follow-up, and a two-sided type 1 error rate of 0.025 for each pairwise comparison.||1.56|1.19|<0.001
82534761|NCT03890120|164767455|SUPERIORITY||Difference in Percentages|-1.4||||0.4186|TWO_SIDED|95.0|-15.2|12.3|||Mantel Haenszel||The difference of cilofexor and placebo,95% confidence interval(CI),and P value(1-sided)were obtained by the stratum-adjusted Mantel-Haenszel (MH) method,with baseline ursodeoxycholic acid(UDCA)use and Ludwig fibrosis stage as stratification factors.|||12.3|-15.2|0.4186
82534762|NCT03890120|164767460|SUPERIORITY||Difference in Least Squares Mean (LSM)|-4.0||||0.3884|TWO_SIDED|95.0|-28.0|21.0|||ANCOVA||The LSM,95% CI and P-value(1-sided) were obtained by an analysis of covariance(ANCOVA)model with change at Week 96 as dependent variable,baseline value of outcome measure,baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||21|-28|0.3884
82534763|NCT03890120|164767461|SUPERIORITY||Difference in LSM|-9.0||||0.039|TWO_SIDED|95.0|-20.0|1.0|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||1|-20|0.0390
82534764|NCT03890120|164767462|SUPERIORITY||Difference in LSM|-2.6||||0.2845|TWO_SIDED|95.0|-11.6|6.4|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||6.4|-11.6|0.2845
82534765|NCT03890120|164767463|SUPERIORITY||Difference in Percentages|4.1||||0.1978|TWO_SIDED|95.0|-5.3|13.5|||Mantel Haenszel||The difference between cilofexor and Placebo, 95% CI, and the p-value (1-sided) were obtained by the stratum-adjusted MH method, with baseline UDCA use and Ludwig fibrosis stage as stratification factors.|||13.5|-5.3|0.1978
82534766|NCT03890120|164767464|SUPERIORITY||Difference in Percentages|8.9||||0.0797|TWO_SIDED|95.0|-3.5|21.2|||Mantel Haenszel||The difference between cilofexor and Placebo, 95% CI, and the p-value (1-sided) were obtained by the stratum-adjusted MH method, with baseline UDCA use and Ludwig fibrosis stage as stratification factors.|||21.2|-3.5|0.0797
82534767|NCT03890120|164767465|SUPERIORITY||Difference in LSM|1.0||||0.7275|TWO_SIDED|95.0|-1.0|3.0|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||3|-1|0.7275
82534768|NCT03890120|164767466|SUPERIORITY||Difference in LSM|-0.03||||0.3636|TWO_SIDED|95.0|-0.2|0.14|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||0.14|-0.20|0.3636
82534769|NCT03890120|164767467|SUPERIORITY||Difference in LSM|-0.3||||0.3595|TWO_SIDED|95.0|-2.2|1.5|||ANCOVA||The LSM, 95% CI and P-value (1-sided) were obtained by ANCOVA model to evaluate change at Week 96 as the dependent variable, baseline value of the outcome measure, baseline UDCA use, and baseline Ludwig fibrosis stage as independent variables.|||1.5|-2.2|0.3595
82534770|NCT04003974|164767468|OTHER|Mean DUX4 activity was derived for each participant at each time point (Baseline and post-Baseline) based on normalized gene expression values for the 6-gene panel. Changes from Baseline to post-Baseline were analyzed using an ANCOVA model.|Least square mean difference|0.4284||||0.5621|TWO_SIDED|95.0|-1.0376|1.8945|||ANCOVA||Results are expressed as difference in Least-Squares (LS) means of the changes from Baseline to post-Baseline in DUX4 activity for each group, losmapimod and placebo.|||1.8945|-1.0376|0.5621
82534771|NCT02400307|164767487|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|Geometric Least-Square Mean (GLSM) Ratio|72.63|||||TWO_SIDED|90.0|48.8|108.1||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.10|48.80|
82534772|NCT02400307|164767488|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|99.29|||||TWO_SIDED|90.0|79.49|124.04||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||124.04|79.49|
82534773|NCT02400307|164767489|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|72.43|||||TWO_SIDED|90.0|48.54|108.07||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.07|48.54|
82576967|NCT02942004|164864072|SUPERIORITY||LS mean difference|-4.28|STANDARD_ERROR_OF_MEAN|1.622||0.0094|TWO_SIDED|95.0|-7.5|-1.07|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.07|-7.50|0.0094
82648166|NCT03550794|165011762|OTHER||Mean Difference (Final Values)|-0.57||||0.07|TWO_SIDED|95.0|-1.18|0.04||"Mixed model controlling for repeated measures within patients used to get a mean difference in creatinine between the thiamine and placebo groups at 72 hours.~Missing creatinine imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||0.04|-1.18|0.07
82424304|NCT02964377|164558231|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8 (Cohort 3)||||<0.0001
82424305|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.002|||||||Regression, Linear|||Baseline vs. Week 4||||0.002
82424306|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.001
82534774|NCT02400307|164767490|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|99.02|||||TWO_SIDED|90.0|79.24|123.74||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||123.74|79.24|
82534775|NCT02400307|164767491|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|80.32|||||TWO_SIDED|90.0|59.56|108.3||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||108.30|59.56|
82576968|NCT02942004|164864072|SUPERIORITY||LS mean difference|-2.32|STANDARD_ERROR_OF_MEAN|1.577||0.144|TWO_SIDED|95.0|-5.45|0.8|||MMRM|||Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.80|-5.45|0.1440
82647632|NCT02623426|165010740|SUPERIORITY||Ratio of the proportion of BL|1.22||||0.012|TWO_SIDED|95.0|1.04|1.43||A Bonferroni correction was used to adjust for the co-primary hypotheses;a two-sided type I error rate of 0.05/2 = 0.025 was used to determine statistical significance for the two pairwise comparisons (Ozurdex vs Methotrexate and Ozurdex vs Lucentis)|mixed effects model||The treatment effect is the ratio of the proportions of baseline retinal thickness (Lucentis/Ozurdex) at 12 weeks. Values greater than 1 indicate less reduction in retinal thickness in the Lucentis treated group compared to Ozurdex|A sample size of 240 was calculated to provide 91% power to detect a 25% reduction for Ozurdex, a 38% reduction for methotrexate and Lucentis assuming a standard deviation of 0.33, 25% with bilateral disease, between-eye correlation of 0.4, 10% loss to follow-up, and a two-sided type 1 error rate of 0.025 for each pairwise comparison.||1.43|1.04|0.012
82647633|NCT02094937|165010741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.31|2.49||||||||2.49|0.31|
82424307|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424308|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424309|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424310|NCT02964377|164558234|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424311|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424312|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424313|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424314|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424315|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424316|NCT02964377|164558235|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424317|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424318|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424319|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82576969|NCT02942004|164864072|SUPERIORITY||LS mean difference|-5.12|STANDARD_ERROR_OF_MEAN|1.62||0.002|TWO_SIDED|95.0|-8.33|-1.91|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.91|-8.33|0.0020
82424320|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424321|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424322|NCT02964377|164558236|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424323|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.012|||||||Regression, Linear|||Baseline vs. Week 4||||0.012
82424324|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424325|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 4||||<0.0001
82424326|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.01|||||||Regression, Linear|||Baseline vs. Week 8||||0.01
82424327|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424328|NCT02964377|164558237|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.0001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.0001
82424329|NCT02964377|164558239|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.01|||||||Regression, Linear|||Baseline vs. Week 4||||0.01
82424330|NCT02964377|164558239|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.019|||||||Regression, Linear|||Baseline vs. Week 4||||0.019
82424331|NCT02964377|164558239|OTHER|Mixed Model Repeated Measures (MMRM) regression|||||<|0.001|||||||Regression, Linear|||Baseline vs. Week 8||||<0.001
82424332|NCT02964377|164558239|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.05|||||||Regression, Linear|||Baseline vs. Week 8||||0.05
82424333|NCT02964377|164558240|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.054||||||p-value for difference at Week 4|Regression, Linear|||Baseline vs. Week 8||||0.054
82424334|NCT02964377|164558240|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.009|||||||Regression, Linear|||Baseline vs. Week 4||||0.009
82424335|NCT02964377|164558241|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.025|||||||Regression, Linear|||Baseline vs. Week 8||||0.025
82424336|NCT02964377|164558241|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.026|||||||Regression, Linear|||Baseline vs. Week 4||||0.026
82424337|NCT02964377|164558242|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.006|||||||Regression, Linear|||Baseline vs. Week 4||||0.006
82424338|NCT02964377|164558242|OTHER|Mixed Model Repeated Measures (MMRM) regression||||||0.002|||||||Regression, Linear|||Baseline vs. Week 8||||0.002
82424339|NCT01098747|164558272|SUPERIORITY_OR_OTHER||Least-square (LS) mean difference|24.21|||<|0.001|TWO_SIDED|95.0|19.32|29.09||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|ANOVA|||Treatment difference (Ibuprofen sodium - placebo) and 95 percent (%) confidence interval (CI):based on LS means from analysis of variance(ANOVA). Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: Ibuprofen sodium (IBU Na) versus(vs.) Placebo for SPRID 0-8 then time to meaningful relief(TMR), IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||29.09|19.32|<0.001
82424340|NCT01098747|164558273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|12.8|||<|0.001|TWO_SIDED|95.0|6.78|24.15||p-value was calculated using the PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: IBU Na vs. Placebo for SPRID 0-8 then TMR, IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||24.15|6.78|<0.001
82647634|NCT02094937|165010741|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.28|2.19||||||||2.19|0.28|
82424341|NCT01098747|164558273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59|||<|0.001|TWO_SIDED|95.0|1.22|2.06||p-value was calculated using the PH model with treatment, baseline PSR and gender terms.|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model. Type I error controlled at 5% significance level (2-sided) by testing primary endpoints sequentially: IBU Na vs. Placebo for SPRID 0-8 then TMR, IBU Na vs. IBU (Advil and Motrin IB) for TMR. If comparison at preceding step was significant only then subsequent comparisons were significant.||2.06|1.22|<0.001
82424342|NCT01098747|164558274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|12.36|||<|0.001|TWO_SIDED|95.0|6.51|23.46||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||23.46|6.51|<0.001
82424343|NCT01098747|164558274|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8|||<|0.001|TWO_SIDED|95.0|1.38|2.34||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||2.34|1.38|<0.001
82424344|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.35||||0.007|TWO_SIDED|95.0|0.1|0.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.60|0.10|0.007
82424345|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.24||||0.01|TWO_SIDED|95.0|0.06|0.42||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.42|0.06|0.010
82448611|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39||||0.6|TWO_SIDED|95.0|-3.63|0.85||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.85|-3.63|0.60
82448612|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.85|TWO_SIDED|95.0|-2.44|2.01||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||2.01|-2.44|0.85
82424346|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|1.47|||<|0.001|TWO_SIDED|95.0|1.1|1.84||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95 % CI were calculated based on LS mean from the ANOVA model.||1.84|1.10|<0.001
82424347|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.53|||<|0.001|TWO_SIDED|95.0|0.27|0.8||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.80|0.27|<0.001
82647635|NCT02094937|165010742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.9|4.12||||||||4.12|0.90|
82647636|NCT02094937|165010742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|0.66|3.2||||||||3.20|0.66|
82448613|NCT00235716|164604648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.6|TWO_SIDED|95.0|-1.04|3.39||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.39|-1.04|0.60
82448614|NCT00235716|164604649|SUPERIORITY_OR_OTHER|||||||0.69||||||p- value is unadjusted for multiple comparisons because its a 3 degrees of freedom test for any treatment group differences|Log Rank|3 degrees of freedom test||||||0.69
82576970|NCT02942004|164864072|SUPERIORITY||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|1.572||0.3906|TWO_SIDED|95.0|-4.47|1.76|||MMRM|||Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.76|-4.47|0.3906
82647637|NCT03751124|165010751|OTHER|Chi-square test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Treatment difference|63.36|||<|0.0001|TWO_SIDED|95.0|52.85|73.86||P-value was based on the stratified test statistics via log-log transformation of the difference in survival curve at a fixed time point stratified by pivotal study baseline MBL volume and duration of prior exposure to relugolix.|Log-Log transformation|Log-Log transformation of survival curve based on stratified Kaplan-Meier analysis|The 95% confidence interval (CI) of treatment difference was calculated via linear transformation of the difference in survival function with pooled variance.|The primary efficacy analysis was the comparison of the relugolix plus E2/NETA group with the placebo group with respect to responder rate.||73.86|52.85|<0.0001
82648167|NCT03550794|165011763|OTHER||Odds Ratio (OR)|0.58||||0.34|TWO_SIDED|95.0|0.18|1.74||P-value from odds ratio from logistic regression model controlling for site, with outcome of receiving renal replacement therapy.|Regression, Logistic|||||1.74|0.18|0.34
82448615|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.84|TWO_SIDED|95.0|-0.54|0.92||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.92|-0.54|0.84
82448616|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.84|TWO_SIDED|95.0|-0.61|0.84||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.84|-0.61|0.84
82448617|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37||||0.84|TWO_SIDED|95.0|-0.36|1.1||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.10|-0.36|0.84
82448618|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.84||95.0|-0.56|0.9||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.90|-0.56|0.84
82448619|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.84|TWO_SIDED|95.0|-0.47|0.98||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.98|-0.47|0.84
82448620|NCT00235716|164604650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.84|TWO_SIDED|95.0|-0.65|0.8||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.80|-0.65|0.84
82448621|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8||||0.1|TWO_SIDED|95.0|-3.28|-0.33||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.33|-3.28|0.10
82576971|NCT02942004|164864072|SUPERIORITY||LS mean difference|-4.49|STANDARD_ERROR_OF_MEAN|1.735||0.011|TWO_SIDED|95.0|-7.93|-1.05|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.05|-7.93|0.0110
82424348|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|2.22|||<|0.001|TWO_SIDED|95.0|1.84|2.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.60|1.84|<0.001
82424349|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.39||||0.006|TWO_SIDED|95.0|0.12|0.66||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.66|0.12|0.006
82424350|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|2.0|2.77||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.77|2.00|<0.001
82424351|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.33||||0.022|TWO_SIDED|95.0|0.05|0.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.60|0.05|0.022
82424352|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|2.39|||<|0.001|TWO_SIDED|95.0|2.0|2.79||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.79|2.00|<0.001
82448622|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39||||0.25|TWO_SIDED|95.0|-2.85|0.07||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.07|-2.85|0.25
82448623|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.65||||0.14|TWO_SIDED|95.0|-3.12|-0.17||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.17|-3.12|0.14
82448624|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.84|TWO_SIDED|95.0|-1.32|1.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.63|-1.32|0.84
82448625|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.84|TWO_SIDED|95.0|-1.72|1.21||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.21|-1.72|0.84
82448626|NCT00235716|164604651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.84|TWO_SIDED|95.0|-1.88|1.06||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.06|-1.88|0.84
82576972|NCT02942004|164864072|SUPERIORITY||LS mean difference|-3.33|STANDARD_ERROR_OF_MEAN|1.69||0.0511|TWO_SIDED|95.0|-6.68|0.02|||MMRM|||Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-6.68|0.0511
82648168|NCT03550794|165011764|OTHER||Median Difference (Final Values)|22.0||||0.002|TWO_SIDED|95.0|7.4|36.6||P-value from quantile regression model controlling for site.|Quantile regression|||||36.6|7.4|0.002
82424353|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|0.13||||0.369|TWO_SIDED|95.0|-0.15|0.41||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.41|-0.15|0.369
82424354|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|2.19|||<|0.001|TWO_SIDED|95.0|1.78|2.6||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.60|1.78|<0.001
82424355|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.42|TWO_SIDED|95.0|-0.42|0.17||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.17|-0.42|0.420
82424356|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|2.02|||<|0.001|TWO_SIDED|95.0|1.58|2.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.45|1.58|<0.001
82424357|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.151|TWO_SIDED|95.0|-0.54|0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.08|-0.54|0.151
82424358|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.43|2.33||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.33|1.43|<0.001
82424359|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.16|TWO_SIDED|95.0|-0.56|0.09||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.09|-0.56|0.160
82424360|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.16|2.1||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.10|1.16|<0.001
82424361|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.33||||0.055|TWO_SIDED|95.0|-0.67|0.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||0.01|-0.67|0.055
82424362|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|1.39|||<|0.001|TWO_SIDED|95.0|0.91|1.88||p-value was calculated using ANOVA model with treatment, baseline PSR and gender PSR terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.88|0.91|<0.001
82576973|NCT02942004|164864072|SUPERIORITY||LS mean difference|-5.02|STANDARD_ERROR_OF_MEAN|1.738||0.0046|TWO_SIDED|95.0|-8.47|-1.58|||MMRM|||Change at hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-1.58|-8.47|0.0046
82647638|NCT03751124|165010752|OTHER|Stratified log-rank test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Hazard Ratio (HR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.08|0.2||P-value for comparison of relugolix plus E2/NETA to placebo was based on the stratified log-rank test.|Log Rank||Hazard ratio (95% CI) of relugolix plus E2/NETA to placebo was based on a proportional hazard model stratified by pivotal study baseline MBL volume (\<225 mL or ≥225 mL) and duration of prior exposure to relugolix (28 weeks or 52 weeks).|||0.20|0.08|<0.0001
82424363|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.37||||0.04|TWO_SIDED|95.0|-0.71|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||-0.02|-0.71|0.040
82424364|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.71|1.69||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.69|0.71|<0.001
82424365|NCT01098747|164558275|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.015|TWO_SIDED|95.0|-0.79|-0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||-0.08|-0.79|0.015
82424366|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.3|||<|0.001|TWO_SIDED|95.0|0.13|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.13|<0.001
82424367|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.22|||<|0.001|TWO_SIDED|95.0|0.11|0.34||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|0.11|<0.001
82426780|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|2.0|4.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||4.9|2.0|<0.0001
82426781|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|3.0|7.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||7.6|3.0|<0.0001
82426782|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.0658|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||2.3|1.0|0.0658
82424368|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.94|||<|0.001|TWO_SIDED|95.0|0.7|1.19||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.19|0.70|<0.001
82424369|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.38|||<|0.001|TWO_SIDED|95.0|0.2|0.55||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.55|0.20|<0.001
82424370|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.18|1.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.75|1.18|<0.001
82424371|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.017|TWO_SIDED|95.0|0.04|0.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|0.04|0.017
82424372|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.67|||<|0.001|TWO_SIDED|95.0|1.39|1.96||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.96|1.39|<0.001
82424373|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.015|TWO_SIDED|95.0|0.05|0.46||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|0.05|0.015
82424374|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.41|1.98||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.98|1.41|<0.001
82424375|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.362|TWO_SIDED|95.0|-0.11|0.3||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.30|-0.11|0.362
82424376|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.56|||<|0.001|TWO_SIDED|95.0|1.27|1.86||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.86|1.27|<0.001
82424377|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.08||||0.472|TWO_SIDED|95.0|-0.29|0.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.29|0.472
82424378|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.39|||<|0.001|TWO_SIDED|95.0|1.07|1.7||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.70|1.07|<0.001
82424379|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.17||||0.134|TWO_SIDED|95.0|-0.4|0.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.05|-0.40|0.134
82424380|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.31|||<|0.001|TWO_SIDED|95.0|1.0|1.63||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.63|1.00|<0.001
82424381|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.17||||0.135|TWO_SIDED|95.0|-0.4|0.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.05|-0.40|0.135
82426783|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.0001|TWO_SIDED|95.0|2.0|4.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||4.7|2.0|<0.0001
82426784|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.32|||<|0.0001|TWO_SIDED|95.0|2.7|6.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.8|2.7|<0.0001
82426785|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.4014|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.8|0.4014
82426786|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.54|||<|0.0001|TWO_SIDED|95.0|2.3|5.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||5.5|2.3|<0.0001
82424382|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.84|1.5||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.84|<0.001
82424383|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.036|TWO_SIDED|95.0|-0.49|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-0.49|0.036
82534776|NCT02400307|164767492|EQUIVALENCE|For the power and sample size analysis, it was assumed that a one-sided t-test was performed at an alpha level of 0.05 and the inter-subject standard deviations for the three natural log scale PK parameters are 0.466 or smaller (based on another Gilead study) and the expected difference was 0.|GLSM Ratio|109.8|||||TWO_SIDED|90.0|87.46|137.85||||||A sample size of 8 evaluable participants in each group will provide at least 88% power to reject the null hypothesis that participants with severe impairment have at least 100% increase in bictegravir AUCinf, AUClast, or Cmax compared to participants with normal renal function.||137.85|87.46|
82534777|NCT03248440|164767495|SUPERIORITY|||||||0.579|||||||2-sided Pearson's chi-square|||||||0.579
82534778|NCT03248440|164767496|SUPERIORITY|||||||0.082|||||||2-sided Pearson's chi-square|||||||0.082
82534779|NCT01052662|164767497|SUPERIORITY_OR_OTHER||Slope|-0.00935|STANDARD_ERROR_OF_MEAN|0.00356|=|0.00874|TWO_SIDED||||||Mixed Models Analysis||Z = -2.62209|We modeled the mean proportion of weekly opioid use using a mixed-effect linear regression approach to assess the treatment effect, the time effect and the interaction of time x treatment effect while adjusting for the baseline mean proportion of weekly opioid use with baseline COWS, Addiction Severity Index (ASI) psychiatric and legal composite scores as covariates.||||=0.00874
82534780|NCT01052662|164767498|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.87||||0.64|TWO_SIDED||||||Log Rank|||||||0.64
82534781|NCT01052662|164767499|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.4||||1.2|TWO_SIDED|||||These results are using survival curve estimates to first positive urine toxicology for any opioid. The last observation carried forward (LOCF) was used to perform our survival event analyses.|Log Rank|||||||1.2
82534782|NCT01852955|164767510|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.01
82647639|NCT03751124|165010753|OTHER|Chi-square test was used for the comparison between relugolix plus E2/NETA group and placebo group.|Treatment difference|58.04|||<|0.0001|TWO_SIDED|95.0|46.97|69.11||P-value was based on the stratified test statistics via log-log transformation of the difference in survival curve at a fixed time point stratified by pivotal study baseline MBL volume and duration of prior exposure to relugolix.|Log-Log transformation|Log-Log transformation of survival curve based on stratified Kaplan-Meier analysis|The 95% CI of treatment difference was calculated via linear transformation of the difference in survival function with pooled variance.|||69.11|46.97|<0.0001
82534783|NCT01852955|164767511|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.04
82648169|NCT03550794|165011765|OTHER||Hazard Ratio (HR)|0.62||||0.14|TWO_SIDED|95.0|0.32|1.18||P-value from Cox proportional hazards model adjusting for site.|Regression, Cox|||||1.18|0.32|0.14
82424384|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.61|1.26||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.26|0.61|<0.001
82534784|NCT01852955|164767512|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.36
82534785|NCT01272011|164767513|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Two-way RMANOVA Student-Newman-Keuls|||Daily acute and cumulative Pre vs Post comparisons||||<0.001
82534786|NCT01272011|164767514|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||RMANOVA and Student-Neuman-Keuls|||Compared outcomes from Baseline versus Post-Day 10 IH for mean slope of AF vs. Resistance||||<0.05
82534787|NCT01272011|164767514|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||RMANOVA and Student-Neuman-Keuls|||Compared outcomes from Baseline versus Post-Day 10 IH for mean slope of of Pressure vs. Resistance||||<0.05
82534788|NCT02240680|164767515|SUPERIORITY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.81|-0.46|||Mixed Models Analysis|Mixed model repeated measures(MMRM) included treatment, week and interaction as fixed effects, baseline HbA1c, daily basal insulin dose as covariates|Adjusted mean of all differences between HbA1c at baseline and after 24 weeks. It is based on all patients in the model (not only patients with a baseline and week 24 measurement).||MMRM including fixed effects treatment , week and treatment by week interaction linear covariates baseline HbA1c , baseline daily basal insulin and baseline HbA1c by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).|-0.46|-0.81|< 0.0001
82534789|NCT02240680|164767516|OTHER||Odds Ratio (OR)|1.464|STANDARD_ERROR_OF_MEAN|0.397||0.1594|TWO_SIDED|95.0|0.861|2.491|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error for odds ratio.|For any hypoglycemia event accompanied by prespecified glucose value||2.491|0.861|0.1594
82534790|NCT02240680|164767516|OTHER||Odds Ratio (OR)|1.149|STANDARD_ERROR_OF_MEAN|0.377||0.672|TWO_SIDED|95.0|0.604|2.188|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error for odds ratio.|For glucose value \< 54mg/dL according American Diabetes Association definition of clinically significant hypoglycaemia||2.188|0.604|0.6720
82426787|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.0001|TWO_SIDED|95.0|2.9|7.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||7.2|2.9|<0.0001
82648170|NCT03550794|165011766|OTHER||Odds Ratio (OR)|0.43||||0.07|TWO_SIDED|95.0|0.17|1.06||P-value from logistic regression model controlling for site|Regression, Logistic|||||1.06|0.17|0.07
82647640|NCT03751124|165010754|SUPERIORITY||Treatment difference|44.12|||<|0.0001|TWO_SIDED|95.0|33.13|55.11||P-value for difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by pivotal study baseline MBL volume (\<225 mL or ≥225 mL) and duration of prior exposure to relugolix (28 weeks or 52 weeks).|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||55.11|33.13|<0.0001
82647641|NCT01246973|165010826|SUPERIORITY_OR_OTHER|||||||0.6555|TWO_SIDED||||||F-test|||||||0.6555
82424385|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.22||||0.064|TWO_SIDED|95.0|-0.46|0.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.01|-0.46|0.064
82424386|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|0.85|||<|0.001|TWO_SIDED|95.0|0.52|1.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.18|0.52|<0.001
82424387|NCT01098747|164558276|SUPERIORITY_OR_OTHER||LS mean difference|-0.22||||0.074|TWO_SIDED|95.0|-0.46|0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.02|-0.46|0.074
82424388|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.65||||0.001|TWO_SIDED|95.0|0.26|1.04||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.04|0.26|0.001
82424389|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.46||||0.001|TWO_SIDED|95.0|0.18|0.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.75|0.18|0.001
82424390|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|2.41|||<|0.001|TWO_SIDED|95.0|1.82|3.01||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.01|1.82|<0.001
82424391|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.91|||<|0.001|TWO_SIDED|95.0|0.48|1.34||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.34|0.48|<0.001
82424392|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||<|0.001|TWO_SIDED|95.0|3.03|4.33||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.33|3.03|<0.001
82424393|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.64||||0.008|TWO_SIDED|95.0|0.17|1.11||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.11|0.17|0.008
82424394|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|4.06|||<|0.001|TWO_SIDED|95.0|3.4|4.72||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.72|3.40|<0.001
82534791|NCT02240680|164767517|OTHER||Odds Ratio (OR)|5.018|STANDARD_ERROR_OF_MEAN|1.818|<|0.0001|TWO_SIDED|95.0|2.468|10.206|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||10.206|2.468|< 0.0001
82424395|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.58||||0.017|TWO_SIDED|95.0|0.1|1.06||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.06|0.10|0.017
82424396|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|4.09|||<|0.001|TWO_SIDED|95.0|3.42|4.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.75|3.42|<0.001
82647642|NCT01246973|165010827|SUPERIORITY_OR_OTHER|||||||0.3504|TWO_SIDED||||||Chi-squared|||||||0.3504
82647643|NCT02082912|165010862|SUPERIORITY||F statistic|0.216||||0.651|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.651
82647644|NCT02082912|165010863|SUPERIORITY||F statistic|0.633||||0.447|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.447
82647645|NCT02082912|165010864|SUPERIORITY||F statistic|0.557||||0.471|TWO_SIDED||||||ANOVA|||Values represent the time x treatment group interaction.||||0.471
82648171|NCT03550794|165011767|OTHER||Mean Difference (Final Values)|0.96||||0.79|TWO_SIDED|95.0|0.71|1.3||"Mixed model controlling for repeated measures within patients used to get a mean difference in lactate between the thiamine and placebo groups at 72 hours.~Missing lactate imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||1.30|0.71|0.79
82424397|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|0.22||||0.359|TWO_SIDED|95.0|-0.26|0.7||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.70|-0.26|0.359
82424398|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|3.75|||<|0.001|TWO_SIDED|95.0|3.06|4.45||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.45|3.06|<0.001
82424399|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.436|TWO_SIDED|95.0|-0.7|0.3||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.30|-0.70|0.436
82424400|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|3.4|||<|0.001|TWO_SIDED|95.0|2.66|4.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.14|2.66|<0.001
82424401|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.139|TWO_SIDED|95.0|-0.93|0.13||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.93|0.139
82424402|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|3.2|||<|0.001|TWO_SIDED|95.0|2.44|3.95||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.95|2.44|<0.001
82424403|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.41||||0.144|TWO_SIDED|95.0|-0.95|0.14||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.95|0.144
82424404|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|2.8|||<|0.001|TWO_SIDED|95.0|2.01|3.58||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.58|2.01|<0.001
82424405|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.58||||0.043|TWO_SIDED|95.0|-1.15|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-1.15|0.043
82424406|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|2.33|||<|0.001|TWO_SIDED|95.0|1.53|3.12||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.12|1.53|<0.001
82424407|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.59||||0.044|TWO_SIDED|95.0|-1.16|-0.02||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.02|-1.16|0.044
82576974|NCT02942004|164864072|SUPERIORITY||LS mean difference|-2.53|STANDARD_ERROR_OF_MEAN|1.694||0.1389|TWO_SIDED|95.0|-5.88|0.83|||MMRM|||Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.83|-5.88|0.1389
82424408|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|2.05|||<|0.001|TWO_SIDED|95.0|1.25|2.85||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.85|1.25|<0.001
82424409|NCT01098747|164558277|SUPERIORITY_OR_OTHER||LS mean difference|-0.65||||0.027|TWO_SIDED|95.0|-1.23|-0.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||-0.08|-1.23|0.027
82424410|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|2.73|||<|0.001|TWO_SIDED|95.0|2.27|3.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.18|2.27|<0.001
82424411|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.007|TWO_SIDED|95.0|0.12|0.78||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.78|0.12|0.007
82647646|NCT00265083|165010921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: No difference in ASAS 20 response comparing Groups I vs II and Groups I vs III. The sample size of 75 patients (pts) in placebo and 135 pts per active group will provide \>=99% power to detect a difference in ASAS 20 response between treatment groups at alpha=0.05, assuming 50% of pts with screening CRP\<1.5mg/dL, and the difference in ASAS 20 response of 10-27.5% in pts with screening CRP\<1.5mg/dL and 32.5-45% in pts with screening CRP\>=1.5mg/dL, between Groups I vs II or III.||||<0.001
82647647|NCT00265083|165010921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||||||<0.001
82448627|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.46||||0.94|TWO_SIDED|95.0|-3.55|0.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.63|-3.55|0.94
82448628|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.94|TWO_SIDED|95.0|-2.47|1.7||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.70|-2.47|0.94
82448629|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.94|TWO_SIDED|95.0|-2.57|1.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.63|-2.57|0.94
82534792|NCT02240680|164767518|OTHER||Odds Ratio (OR)|4.689|STANDARD_ERROR_OF_MEAN|1.519|<|0.0001|TWO_SIDED|95.0|2.485|8.848|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||8.848|2.485|< 0.0001
82534793|NCT02240680|164767519|OTHER||Odds Ratio (OR)|3.731|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|2.302|6.048|||Regression, Logistic|A logistic regression model with treatment as fixed effect and baseline HbA1c and baseline daily basal insulin dose as linear covariates was applied.|The dispersion value standard error of the mean is actually standard error of odds ratio|||6.048|2.302|< 0.0001
82534794|NCT02240680|164767520|SUPERIORITY||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|4.8||0.0178|TWO_SIDED|95.0|-21.0|-2.0|||Mixed Models Analysis|Mixed model repeated measures(MMRM) included treatment, week and interaction as fixed effects, baseline HbA1c, FPG, daily insulin dose as covariates|Adjusted mean of all differences between HbA1c at baseline and after 24 weeks. It is based on all patients in the model (not only patients with a baseline and week 24 measurement).||MMRM including fixed effects treatment, week and treatment by week interaction, linear covariates baseline HbA1c, baseline daily basal insulin, baseline FPG and baseline FPG by week interaction and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix. Adjusted mean is based on all patients in the model (not only patients with a baseline and week 24 measurement).|-2.0|-21.0|0.0178
82534795|NCT01657032|164767521|NON_INFERIORITY_OR_EQUIVALENCE|The differences between the study groups were considered significant when the P value was \<0.05.||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82534796|NCT01925170|164767544|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of the two groups for all densities, significant difference p ≤ 0.05.||||<0.001
82647648|NCT00265083|165010921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||||||<0.001
82647649|NCT00265083|165010922|SUPERIORITY_OR_OTHER||||||<|0.001||||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: No difference in ASAS 20 response comparing Groups I vs. II and Groups I vs. III.||||<0.001
82534797|NCT01925170|164767544|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Comparison of two groups for all densities; significant difference p ≤ 0.05.||||0.004
82534798|NCT01925170|164767545|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
82534799|NCT01925170|164767545|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.0001
82534800|NCT01925170|164767546|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||< 0.001
82534801|NCT01925170|164767546|SUPERIORITY_OR_OTHER|||||||0.004|||||||McNemar|||Significant difference p ≤ 0.05||||0.004
82534802|NCT01925170|164767547|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||< 0.001
82647650|NCT00265083|165010922|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: no difference in ASAS 20 response between Group II and Group I.||||<0.001
82647651|NCT00265083|165010922|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel with stratification: screening CRP level (\<=1.5mg/dL, \>1.5mg/dL)||Null hypothesis: no difference in ASAS 20 response between Group III and Group I.||||<0.001
82424412|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|4.29|||<|0.001|TWO_SIDED|95.0|3.6|4.98||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.98|3.60|<0.001
82424413|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.144|TWO_SIDED|95.0|-0.13|0.87||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.87|-0.13|0.144
82424414|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|8.16|||<|0.001|TWO_SIDED|95.0|6.66|9.66||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||9.66|6.66|<0.001
82424415|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.679|TWO_SIDED|95.0|-1.31|0.85||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.85|-1.31|0.679
82648172|NCT03550794|165011769|OTHER||Mean Difference (Final Values)|-1.53||||0.16|TWO_SIDED|95.0|-3.63|0.58||"Mixed model controlling for repeated measures within patients used to get a mean difference in SOFA scores between the thiamine and placebo groups at 72 hours.~Missing SOFA imputed using a penalty (20pc increase) as described in SAP."|Mixed Models Analysis|P-value is for the comparison at 72 hours from the mixed model (i.e, not a global p-value)||||0.58|-3.63|0.16
82424416|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|9.94|||<|0.001|TWO_SIDED|95.0|7.92|11.96||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-8: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||11.96|7.92|<0.001
82534803|NCT01925170|164767547|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
82534804|NCT01925170|164767548|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
82534805|NCT01925170|164767548|SUPERIORITY_OR_OTHER||||||<|0.001|||||||McNemar|||Significant difference p ≤ 0.05||||<0.001
82534806|NCT02300311|164767559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.849|STANDARD_ERROR_OF_MEAN|0.306|<|0.0001|TWO_SIDED|95.0|-2.454|-1.244||The model included the fixed, categorical effects of treatment, country, time and treatment-by-time interaction and the continuous covariate of baseline PI.|REML based repeated measures approach|restricted maximum likelihood (REML) based repeated measures approach|Differences between the treatment group effects (Finalgon® cream - placebo).|"PID8 utilised a restricted maximum likelihood (REML) based repeated measures approach, using all available longitudinal pain intensity observations at each post-baseline time up to 8 hours.~The statistical model was applied to the analysis of change from baseline in pain intensity at 0.5, 1, 2, 3, 4, 6 and 8 hours."||-1.244|-2.454|<0.0001
82534807|NCT02300311|164767560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.341|STANDARD_ERROR_OF_MEAN|0.248|<|0.0001|TWO_SIDED|95.0|-1.832|-0.851||The statistical model included the fixed, categorical effects of treatment, country, time and treatment-by-time interaction and the continuous covariate of baseline PI.|REML based repeated measures approach|restricted maximum likelihood (REML) based repeated measures approach|Differences between the treatment group effects (Finalgon® cream - placebo)|"PID4 utilised a restricted maximum likelihood (REML) based repeated measures approach, using all available longitudinal pain intensity observations at each post-baseline time up to 4 hours.~The statistical model was applied to the analysis of change from baseline in pain intensity at 0.5, 1, 2, 3, and 4 hours."||-0.851|-1.832|<0.0001
82534808|NCT02300311|164767561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.958|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.712|-2.205|||ANCOVA|ANCOVA using the fixed, categorical effects of treatment and country as well as the continuous covariate of baseline PI.|Differences between the treatment group effects (Finalgon® cream - placebo)|The difference of average pain intensity from pre-dose baseline on the last individual treatment day was analysed using ANCOVA.||-2.205|-3.712|<0.0001
82534809|NCT02300311|164767562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.37|||<|0.0001|TWO_SIDED|95.0|5.342|24.199|||Regression, Logistic|Ordinal logistic regression models adjusting for the continuous covariate 'baseline PI' and the categorical variable 'country' was performed.|Odds ratio of (Finalgon® cream / placebo)|"For the analysis of the repeated multinomial efficacy endpoint 'patient assessment of efficacy' on the last individual treatment day, ordinal logistic regression models is used.~Only non-missing data is analysed in the statistical model."||24.199|5.342|<0.0001
82534810|NCT01449721|164767618|SUPERIORITY_OR_OTHER|||||||0.064|||||||2-sample z-test|z-test for differences in proportions||Null hypothesis: In patients with moderate severity sepsis, there is no change in the incidence of organ dysfunction within 72 hours associated with the use of an empiric fluid resuscitation algorithm.||||0.064
82534811|NCT04019561|164767647|SUPERIORITY||Mean Difference (Final Values)|-1.41||||0.439|TWO_SIDED|95.0|-5.02|2.2|||ANCOVA|||||2.20|-5.02|0.439
82534812|NCT04019561|164767647|SUPERIORITY||Mean Difference (Final Values)|-5.01||||0.006|TWO_SIDED|95.0|-8.54|-1.48|||ANCOVA|||||-1.48|-8.54|0.006
82534813|NCT04019561|164767648|SUPERIORITY||Mean Difference (Final Values)|-1.508||||0.695|TWO_SIDED|95.0|-9.191|6.174|||ANCOVA|||||6.174|-9.191|0.695
82534814|NCT04019561|164767648|SUPERIORITY||Mean Difference (Final Values)|-9.291||||0.016|TWO_SIDED|95.0|-16.76|-1.822|||ANCOVA|||||-1.822|-16.760|0.016
82534815|NCT04019561|164767649|SUPERIORITY||Mean Difference (Final Values)|-10.74||||0.468|TWO_SIDED|95.0|-40.174|18.695|||ANCOVA|||||18.695|-40.174|0.468
82534816|NCT04019561|164767649|SUPERIORITY||Mean Difference (Final Values)|-37.395||||0.012|TWO_SIDED|95.0|-66.38|-8.409|||ANCOVA|||||-8.409|-66.380|0.012
82534817|NCT04019561|164767650|SUPERIORITY||Mean Difference (Final Values)|6.26||||0.166|TWO_SIDED|95.0|-2.698|15.218|||ANCOVA|||||15.218|-2.698|0.166
82534818|NCT04019561|164767650|SUPERIORITY||Mean Difference (Final Values)|0.749||||0.856|TWO_SIDED|95.0|-7.537|9.035|||ANCOVA|||||9.035|-7.537|0.856
82424417|NCT01098747|164558278|SUPERIORITY_OR_OTHER||LS mean difference|-0.67||||0.367|TWO_SIDED|95.0|-2.12|0.79||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-8: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.79|-2.12|0.367
82424418|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|3.95|||<|0.001|TWO_SIDED|95.0|3.32|4.59||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.59|3.32|< 0.001
82424419|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|0.62||||0.009|TWO_SIDED|95.0|0.16|1.07||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.07|0.16|0.009
82424420|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|6.15|||<|0.001|TWO_SIDED|95.0|5.18|7.12||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.12|5.18|<0.001
82424421|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.166|TWO_SIDED|95.0|-0.21|1.2||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.20|-0.21|0.166
82424422|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|11.67|||<|0.001|TWO_SIDED|95.0|9.54|13.81||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||13.81|9.54|<0.001
82424423|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.703|TWO_SIDED|95.0|-1.84|1.24||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.24|-1.84|0.703
82424424|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|14.27|||<|0.001|TWO_SIDED|95.0|11.36|17.18||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-8: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||17.18|11.36|<0.001
82424425|NCT01098747|164558279|SUPERIORITY_OR_OTHER||LS mean difference|-1.1||||0.303|TWO_SIDED|95.0|-3.2|1.0||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-8: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.00|-3.20|0.303
82424426|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|6.68|||<|0.001|TWO_SIDED|95.0|5.6|7.76||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||7.76|5.60|<0.001
82424427|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|1.06||||0.007|TWO_SIDED|95.0|0.29|1.84||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.84|0.29|0.007
82448630|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.94|TWO_SIDED|95.0|-1.09|3.07||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.07|-1.09|0.94
82424428|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|10.43|||<|0.001|TWO_SIDED|95.0|8.79|12.08||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||12.08|8.79|<0.001
82424429|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|0.87||||0.152|TWO_SIDED|95.0|-0.32|2.05||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.05|-0.32|0.152
82424430|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|19.83|||<|0.001|TWO_SIDED|95.0|16.23|23.43||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-6: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||23.43|16.23|<0.001
82424431|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|-0.53||||0.69|TWO_SIDED|95.0|-3.12|2.07||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-6: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||2.07|-3.12|0.690
82424432|NCT01098747|164558280|SUPERIORITY_OR_OTHER||LS mean difference|-1.77||||0.323|TWO_SIDED|95.0|-5.29|1.75||p-value was calculated using ANOVA model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-8 Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and corresponding 95% CI were calculated based on LS mean from the ANOVA model.||1.75|-5.29|0.323
82424433|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|1.01||||0.49|TWO_SIDED|95.0|-0.97|3.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours-Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||3.00|-0.97|0.490
82424434|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|0.54||||0.623|TWO_SIDED|95.0|-1.88|2.95||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.95|-1.88|0.623
82424435|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|24.36|||<|0.001|TWO_SIDED|95.0|13.51|35.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||35.22|13.51|<0.001
82424436|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|11.82||||0.023|TWO_SIDED|95.0|1.15|22.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.48|1.15|0.023
82424437|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|61.35|||<|0.001|TWO_SIDED|95.0|48.99|73.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.70|48.99|<0.001
82424438|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|21.25|||<|0.001|TWO_SIDED|95.0|9.58|32.92||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||32.92|9.58|<0.001
82424439|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|72.65|||<|0.001|TWO_SIDED|95.0|61.59|83.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.71|61.59|<0.001
82424440|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|17.44||||0.001|TWO_SIDED|95.0|7.83|27.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.06|7.83|0.001
82424441|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|72.63|||<|0.001|TWO_SIDED|95.0|61.14|84.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.11|61.14|<0.001
82424442|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|11.7||||0.013|TWO_SIDED|95.0|3.47|19.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.93|3.47|0.013
82424443|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
82424444|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|8.01||||0.041|TWO_SIDED|95.0|1.27|14.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.75|1.27|0.041
82424445|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
82426788|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.2824|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.9|0.8|0.2824
82576975|NCT02942004|164864072|SUPERIORITY||LS mean difference|-4.07|STANDARD_ERROR_OF_MEAN|1.837||0.0288|TWO_SIDED|95.0|-7.71|-0.43|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.43|-7.71|0.0288
82647652|NCT00265083|165010923|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant (p-value \<0.05), and at least one of the pair-wise comparisons is also significant (p-value \<0.05).|ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: No difference in change from baseline in BASFI comparing Groups I vs. II and Groups I vs. III.||||<0.001
82647653|NCT00265083|165010923|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASFI between Group II and Group I.||||<0.001
82647654|NCT00265083|165010923|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASFI between Group III and Group I.||||<0.001
82534819|NCT04019561|164767651|SUPERIORITY||Mean Difference (Final Values)|-3.283||||0.302|TWO_SIDED|95.0|-9.641|3.076|||ANCOVA|||||3.076|-9.641|0.302
82534820|NCT04019561|164767651|SUPERIORITY||Mean Difference (Final Values)|-2.821||||0.304|TWO_SIDED|95.0|-8.316|2.675|||ANCOVA|||||2.675|-8.316|0.304
82534821|NCT04019561|164767652|SUPERIORITY||Mean Difference (Final Values)|1.038||||0.808|TWO_SIDED|95.0|-7.493|9.569|||ANCOVA|||||9.569|-7.493|0.808
82534822|NCT04019561|164767652|SUPERIORITY||Mean Difference (Final Values)|1.106||||0.786|TWO_SIDED|95.0|-7.043|9.255|||ANCOVA|||||9.255|-7.043|0.786
82534823|NCT04019561|164767653|SUPERIORITY||Mean Difference (Final Values)|3.448||||0.087|TWO_SIDED|95.0|-0.524|7.421|||ANCOVA|||||7.421|-0.524|0.087
82534824|NCT04019561|164767653|SUPERIORITY||Mean Difference (Final Values)|-0.387||||0.834|TWO_SIDED|95.0|-4.085|3.312|||ANCOVA|||||3.312|-4.085|0.834
82534825|NCT04019561|164767654|SUPERIORITY||Mean Difference (Final Values)|-0.386||||0.735|TWO_SIDED|95.0|-2.681|1.908|||ANCOVA|||||1.908|-2.681|0.735
82647655|NCT00265083|165010924|SUPERIORITY_OR_OTHER|||||||0.288||95.0||||The positive test is defined if the comparison between combined golimumab and placebo is significant at the 0.05, and at least one of the pair-wise comparisons is also significant at the 0.05.|ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: No difference in change from baseline in BASMI comparing Groups I vs. II and Groups I vs. III.||||0.288
82647656|NCT00265083|165010924|SUPERIORITY_OR_OTHER|||||||0.444||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASMI between Group II and Group I.||||0.444
82534826|NCT04019561|164767654|SUPERIORITY||Mean Difference (Final Values)|-1.091||||0.308|TWO_SIDED|95.0|-3.226|1.044|||ANCOVA|||||1.044|-3.226|0.308
82534827|NCT04019561|164767655|SUPERIORITY||Mean Difference (Final Values)|-19.277||||0.195|TWO_SIDED|95.0|-48.704|10.15|||ANCOVA|||||10.150|-48.704|0.195
82534828|NCT04019561|164767655|SUPERIORITY||Mean Difference (Final Values)|-24.328||||0.103|TWO_SIDED|95.0|-53.674|5.019|||ANCOVA|||||5.019|-53.674|0.103
82534829|NCT04019561|164767656|SUPERIORITY||Mean Difference (Final Values)|-10.39||||0.6|TWO_SIDED|95.0|-49.802|29.022|||ANCOVA|||||29.022|-49.802|0.600
82534830|NCT04019561|164767656|SUPERIORITY||Mean Difference (Final Values)|7.086||||0.72|TWO_SIDED|95.0|-32.163|46.336|||ANCOVA|||||46.336|-32.163|0.720
82534831|NCT04019561|164767657|SUPERIORITY||Mean Difference (Final Values)|-9.14||||0.485|TWO_SIDED|95.0|-35.134|16.854|||ANCOVA|||||16.854|-35.134|0.485
82534832|NCT04019561|164767657|SUPERIORITY||Mean Difference (Final Values)|-19.645||||0.131|TWO_SIDED|95.0|-45.288|5.999|||ANCOVA|||||5.999|-45.288|0.131
82534833|NCT04019561|164767658|SUPERIORITY||Mean Difference (Final Values)|-0.719||||0.564|TWO_SIDED|95.0|-3.191|1.754|||ANCOVA|||||1.754|-3.191|0.564
82534834|NCT04019561|164767658|SUPERIORITY||Mean Difference (Final Values)|-2.366||||0.062|TWO_SIDED|95.0|-4.854|0.122|||ANCOVA|||||0.122|-4.854|0.062
82534835|NCT04019561|164767659|SUPERIORITY||Mean Difference (Final Values)|-0.084||||0.856|TWO_SIDED|95.0|-1.007|0.838|||ANCOVA|||||0.838|-1.007|0.856
82534836|NCT04019561|164767659|SUPERIORITY||Mean Difference (Final Values)|-0.777||||0.098|TWO_SIDED|95.0|-1.7|0.147|||ANCOVA|||||0.147|-1.700|0.098
82534837|NCT01207934|164767729|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||ANOVA for reapeated measures was used to compare the three groups.|ANOVA|||The null hypothesis was that there would be no change in glucose disposal between the three groups (placebo, low dose leptin, and high dose leptin). Power calculations were done showing that 6 subjects in each arm was enough to detect a 35% between group difference in glucose disposal at the 0.05 level with 80% power.||||>0.05
82534838|NCT01207934|164767730|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||a priori threshold for significance was set at p = 0.05.|t-test, 2 sided|T-tests compared pre and post-treatment values.||The null hypothesis is that treatment would not effect plasma leptin levels.||||<0.01
82534839|NCT01207934|164767730|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||a priori threshold for significance was p = 0.05.|t-test, 2 sided|||null hypothesis was that plasma leptin levels would be equal after treatment in the placebo and high-dose leptin groups.||||<0.01
82534840|NCT01106976|164767749|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0012||||0.0009|TWO_SIDED||||||t-test, 1 sided|||Paired t-test. Hypothesis of significant cholinergic interval changes over the study interval period.||||0.0009
82534841|NCT05677867|164767751|OTHER||Ratio of Adjusted Geometric Means|97.4|||||TWO_SIDED|90.0|92.92|102.08|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% Confidence Intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||102.08|92.92|
82647657|NCT00265083|165010924|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||ANOVA on van der Waerden normal scores|ANOVA on van der Waerden normal scores with 2 factors: treatment group and screening C-reactive protein (CRP) level.||Null hypothesis: no difference in BASMI between Group III and Group I.||||0.247
82424446|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
82534842|NCT05677867|164767752|OTHER||Ratio of Geometric Adjusted Means|97.36|||||TWO_SIDED|90.0|92.77|102.17|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||102.17|92.77|
82534843|NCT05677867|164767753|OTHER||Ratio of Adjusted Means|94.7|||||TWO_SIDED|90.0|81.4|110.18|||||The ratios (and 90% CIs) are expressed as percentages.|Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios. Formulation A was the Reference treatment while Formulation B was the Test treatment.||110.18|81.40|
82534844|NCT03566680|164767779|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82534845|NCT03566680|164767780|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82534846|NCT03566680|164767781|EQUIVALENCE||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82534847|NCT03566680|164767782|EQUIVALENCE|||||||0.73|||||||t-test, 2 sided|||||||0.73
82534848|NCT03566680|164767783|EQUIVALENCE|||||||0.08|||||||t-test, 2 sided|||||||0.08
82534849|NCT03566680|164767784|EQUIVALENCE|||||||0.72|||||||t-test, 2 sided|||||||0.72
82534850|NCT02724020|164767785|SUPERIORITY||Hazard Ratio (HR)|1.33|||=|0.388|TWO_SIDED|95.0|0.75|2.36|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.36|0.75|=0.388
82576976|NCT02942004|164864072|SUPERIORITY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.797||0.3799|TWO_SIDED|95.0|-5.15|1.98|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.98|-5.15|0.3799
82426789|NCT00565409|164561921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.5|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||5.9|2.5|<0.0001
82534851|NCT02724020|164767785|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.667|TWO_SIDED|95.0|0.75|2.52|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.52|0.75|0.667
82534852|NCT02724020|164767787|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.212|TWO_SIDED|95.0|0.89|3.49|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||3.49|0.89|0.212
82534853|NCT02724020|164767787|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.546|TWO_SIDED|95.0|0.77|2.98|||Stratified Log-rank Test||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category. A hazard ratio \< 1 indicated an advantage compared to Everolimus.|||2.98|0.77|0.546
82534854|NCT02724020|164767788|SUPERIORITY||Hazard Ratio (HR)|1.57|||=|0.156|TWO_SIDED|95.0|0.81|3.05|||Log Rank||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the International Metastatic Renal Cell Carcinoma Database Consortium risk category. A hazard ratio \< 1 indicates an advantage compared to Everolimus.|||3.05|0.81|=0.156
82534855|NCT02724020|164767788|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.667|TWO_SIDED|95.0|0.72|2.79|||Log Rank||HR obtained by stratified Cox proportion hazard model adjusted for prior lines of therapy and the International Metastatic Renal Cell Carcinoma Database Consortium risk category. A hazard ratio \< 1 indicates an advantage compared to Everolimus.|||2.79|0.72|0.667
82534856|NCT02724020|164767789|SUPERIORITY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.08|2.22|||||Odds ratio and 95% CI were obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|As prespecified in the protocol, the statistical analysis was performed between arms - Arm A: Single-agent Everolimus 10 mg QD and Arm C: Combination of MLN0128 4 mg QD + MLN1117 200 mg QD only.|As prespecified in protocol, the statistical analysis was performed between arms - Arm A: Single-agent Everolimus 10 mg QD and Arm C: Combination of MLN0128 4 mg QD + MLN1117 200 mg QD only for this outcome measure.|2.22|0.08|
82534857|NCT02724020|164767790|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.24|1.69|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.69|0.24|
82534858|NCT02724020|164767790|SUPERIORITY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.28|2.21|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||2.21|0.28|
82424447|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
82424448|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
82424449|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|73.58|||<|0.001|TWO_SIDED|95.0|61.83|85.33||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.33|61.83|<0.001
82424450|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|6.79||||0.073|TWO_SIDED|95.0|0.23|13.36||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|0.23|0.073
82424451|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|74.71|||<|0.001|TWO_SIDED|95.0|63.14|86.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.27|63.14|<0.001
82424452|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|7.84||||0.035|TWO_SIDED|95.0|1.57|14.1||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.10|1.57|0.035
82424453|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424454|NCT01098747|164558281|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82534859|NCT02724020|164767791|SUPERIORITY||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.16|1.38|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.38|0.16|
82534860|NCT02724020|164767791|SUPERIORITY||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.2|1.8|||||Odds ratio and 95% CI was obtained using a stratified CMH model with prior lines of therapy and the international metastatic renal cell carcinoma database consortium risk category.|||1.80|0.20|
82424455|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|20.01||||0.004|TWO_SIDED|95.0|8.79|31.24||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.24|8.79|0.004
82424456|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|14.35||||0.003|TWO_SIDED|95.0|4.26|24.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.43|4.26|0.003
82424457|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|69.53|||<|0.001|TWO_SIDED|95.0|57.67|81.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.40|57.67|<0.001
82424458|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|23.45|||<|0.001|TWO_SIDED|95.0|13.16|33.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||33.75|13.16|<0.001
82426790|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
82426791|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
82534861|NCT03688542|164767819|SUPERIORITY||Slope|-1.4|||<|0.05|TWO_SIDED|95.0|-3.8|1.0|||Regression, Linear|Dependant variable = follow-up value; adjusted for baseline value, canton, avg number of residents, mission||||1.0|-3.8|<0.05
82534862|NCT03688542|164767820|SUPERIORITY||Slope|-0.18|||<|0.05|TWO_SIDED|95.0|-0.39|0.03|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||0.03|-0.39|<0.05
82424459|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|73.72|||<|0.001|TWO_SIDED|95.0|62.77|84.67||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.67|62.77|<0.001
82424460|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|10.14||||0.014|TWO_SIDED|95.0|3.21|17.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.08|3.21|0.014
82424461|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424462|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|8.35||||0.028|TWO_SIDED|95.0|2.02|14.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.68|2.02|0.028
82424463|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424464|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.81||||0.036|TWO_SIDED|95.0|1.54|14.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.08|1.54|0.036
82424465|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424466|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424467|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424468|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424469|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424470|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424471|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82426792|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82426793|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82426794|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
82534863|NCT03688542|164767821|SUPERIORITY||Slope|-0.035|||<|0.05|TWO_SIDED|95.0|-0.095|0.025|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||0.025|-0.095|<0.05
82647658|NCT00361257|165010931|SUPERIORITY_OR_OTHER||Slope|0.064|STANDARD_ERROR_OF_MEAN|0.164||0.651|TWO_SIDED|95.0|-0.258|0.386||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the CNS penetration score, and the baseline NPZ-8 score.|The total number used for the statistical analysis was 107 (52 in the minocycline arm and 55 in the placebo arm).|The null hypothesis was that the 24-week change of NPZ-8 in the minocycline group was the same as the one in the placebo group.||0.386|-0.258|0.651
82424472|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424473|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424474|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424475|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|72.61|||<|0.001|TWO_SIDED|95.0|61.05|84.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.17|61.05|<0.001
82424476|NCT01098747|164558282|SUPERIORITY_OR_OTHER||Difference in proportion|7.28||||0.047|TWO_SIDED|95.0|1.07|13.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.48|1.07|0.047
82424477|NCT01098747|164558283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.22|0.08|<0.001
82424478|NCT01098747|164558283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.33||||0.281|TWO_SIDED|95.0|0.79|2.22||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||2.22|0.79|0.281
82424479|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-23.93|||<|0.001|TWO_SIDED|95.0|-36.67|-11.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-11.20|-36.67|<0.001
82534864|NCT03688542|164767822|SUPERIORITY||Slope|-0.237|||<|0.05|TWO_SIDED|95.0|-0.435|-0.04|||Regression, Linear|Dependant variable = number of PIM DDD at follow-up, adjusted for baseline value, canton, avg number of residents, mission||||-0.040|-0.435|<0.05
82424480|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.483|TWO_SIDED|95.0|-4.12|1.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.70|-4.12|0.483
82424481|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-51.93|||<|0.001|TWO_SIDED|95.0|-65.63|-38.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-38.22|-65.63|<0.001
82424482|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-3.61||||0.174|TWO_SIDED|95.0|-7.97|0.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||0.75|-7.97|0.174
82426795|NCT00565409|164561922|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||week 36||||<0.0001
82426796|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0575|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|1.0|0.0575
82426797|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.063|TWO_SIDED|95.0|1.0|2.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||2.3|1.0|0.0630
82534865|NCT03688542|164767823|SUPERIORITY||Slope|1.55|||<|0.05|TWO_SIDED|95.0|0.164|2.938|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents, interaction between mission and group.||||2.938|0.164|<0.05
82424483|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-66.58|||<|0.001|TWO_SIDED|95.0|-79.8|-53.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-53.35|-79.80|<0.001
82424484|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-3.75||||0.24|TWO_SIDED|95.0|-9.38|1.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.89|-9.38|0.240
82424485|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-61.36|||<|0.001|TWO_SIDED|95.0|-75.21|-47.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-47.50|-75.21|<0.001
82424486|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|1.52||||0.668|TWO_SIDED|95.0|-5.47|8.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.52|-5.47|0.668
82424487|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-60.31|||<|0.001|TWO_SIDED|95.0|-74.28|-46.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.34|-74.28|<0.001
82424488|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|1.1||||0.98|TWO_SIDED|95.0|-7.44|7.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.63|-7.44|0.980
82424489|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-59.28|||<|0.001|TWO_SIDED|95.0|-73.05|-45.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-45.50|-73.05|<0.001
82448631|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.94|TWO_SIDED|95.0|-2.16|1.99||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.99|-2.16|0.94
82424490|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|1.56||||0.711|TWO_SIDED|95.0|-6.68|9.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.81|-6.68|0.711
82424491|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-56.84|||<|0.001|TWO_SIDED|95.0|-70.84|-42.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-42.85|-70.84|<0.001
82424492|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|3.72||||0.445|TWO_SIDED|95.0|-5.94|13.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.38|-5.94|0.445
82448632|NCT00235716|164604652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.08||||0.94|TWO_SIDED|95.0|-3.14|0.99||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||0.99|-3.14|0.94
82448633|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.79||||0.12|TWO_SIDED|95.0|-3.35|-0.23||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.23|-3.35|0.12
82448634|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38||||0.86|TWO_SIDED|95.0|-1.18|1.94||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.94|-1.18|0.86
82448635|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.86|TWO_SIDED|95.0|-1.7|1.42||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the placebo group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.42|-1.70|0.86
82448636|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||0.14|TWO_SIDED|95.0|0.11|3.19||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the vitamin E group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||3.19|0.11|0.14
82448637|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.86|TWO_SIDED|95.0|-2.07|1.02||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E + memantine group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||1.02|-2.07|0.86
82647659|NCT00361257|165010932|SUPERIORITY_OR_OTHER||Slope|0.091|STANDARD_ERROR_OF_MEAN|0.116||0.434|TWO_SIDED|95.0|-0.14|0.323||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the CNS penetration score, and the baseline GDS score.||The null hypothesis was that the 24-week changes in Global Deficit Score (GDS) between the minocycline and placebo groups are the same.||0.323|-0.140|0.434
82424493|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|-52.79|||<|0.001|TWO_SIDED|95.0|-66.77|-38.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-38.81|-66.77|<0.001
82424494|NCT01098747|164558284|SUPERIORITY_OR_OTHER||Difference in proportion|6.05||||0.256|TWO_SIDED|95.0|-4.75|16.84||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.84|-4.75|0.256
82448638|NCT00235716|164604653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.17||||0.03|TWO_SIDED|95.0|-3.71|-0.63||p-value is adjusted for 6 treatment group comparisons|Mixed Models Analysis|Mixed effects model assuming data missing at random, adjusted for medical center as a random effect and for the baseline outcome score.|Mean difference is the least squares mean changes from baseline for the vitamin E group minus the memantine group.|Longitudinal analysis to assess the average treatment effect over 48 months with visits at 6, 12, 18, 24, 30, 36, 42 and 48 months using all available data.||-0.63|-3.71|0.03
82448639|NCT00235716|164604654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.31|TWO_SIDED|95.0|0.67|1.13||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for vitamin E group relative to the placebo group.|||1.13|0.67|0.31
82448640|NCT00235716|164604654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.47|TWO_SIDED|95.0|0.91|1.24||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for the memantine group relative to the placebo group.|||1.24|0.91|0.47
82448641|NCT00235716|164604654|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8|TWO_SIDED|95.0|0.57|1.54||p-value is unadjusted for multiple comparisons|Log Rank||Hazard ratio is for the vitamin E + memantine group relative to the placebo group.|||1.54|0.57|0.80
82647660|NCT00361257|165010933|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.569|STANDARD_DEVIATION|0.469||0.337|TWO_SIDED|95.0|0.625|3.936||The p-value was not adjusted for multiple comparisons.|Regression, Cumulative Logistic|The model was adjusted for the stratification variables and the CNS penetration score.||The null hypothesis is that the 24 week changes of participants' clinical status in the minocycline group were the same as the ones in the placebo group based on ICGIS.||3.936|0.625|0.337
82424495|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|6.34||||0.078|TWO_SIDED|95.0|1.34|11.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.34|1.34|0.078
82424496|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|2.74||||0.303|TWO_SIDED|95.0|-3.01|8.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.49|-3.01|0.303
82424497|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|27.24|||<|0.001|TWO_SIDED|95.0|18.14|36.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.34|18.14|<0.001
82424498|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|6.66||||0.217|TWO_SIDED|95.0|-4.31|17.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.63|-4.31|0.217
82448642|NCT03916484|164604678|OTHER|||||||0.33||||||No a priori threshold for statistical significance was specified.|Kruskal-Wallis|||||||0.33
82448643|NCT03916484|164604679|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82424499|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|41.16|||<|0.001|TWO_SIDED|95.0|31.2|51.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||51.12|31.20|<0.001
82424500|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|8.86||||0.149|TWO_SIDED|95.0|-3.33|21.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.04|-3.33|0.149
82424501|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.61|||<|0.001|TWO_SIDED|95.0|38.49|58.73||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||58.73|38.49|<0.001
82424502|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|4.55||||0.477|TWO_SIDED|95.0|-8.03|17.13||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.13|-8.03|0.477
82424503|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|52.81|||<|0.001|TWO_SIDED|95.0|42.63|62.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||62.99|42.63|<0.001
82424504|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-2.14||||0.739|TWO_SIDED|95.0|-14.77|10.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.50|-14.77|0.739
82424505|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
82424506|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-6.8||||0.28|TWO_SIDED|95.0|-19.24|5.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||4 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.65|-19.24|0.280
82424507|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
82424508|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-8.01||||0.202|TWO_SIDED|95.0|-20.44|4.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.41|-20.44|0.202
82424509|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
82424510|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-8.61||||0.17|TWO_SIDED|95.0|-21.02|3.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||6 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.80|-21.02|0.170
82448644|NCT03916484|164604679|OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82424511|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
82448645|NCT03916484|164604679|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82448646|NCT03916484|164604679|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82448647|NCT03916484|164604679|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82448648|NCT03916484|164604680|OTHER|||||||0.45||||||No a priori threshold for statistical significance was specified.|Fisher Exact|||||||0.45
82448649|NCT03916484|164604681|OTHER||||||<|0.001|||||||McNemar|||||||<0.001
82576977|NCT02942004|164864072|SUPERIORITY||LS mean difference|-2.92|STANDARD_ERROR_OF_MEAN|2.139||0.1747|TWO_SIDED|95.0|-7.16|1.32|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.32|-7.16|0.1747
82576978|NCT02942004|164864072|SUPERIORITY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|2.08||0.631|TWO_SIDED|95.0|-5.13|3.12|||MMRM|||Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.12|-5.13|0.6310
82576979|NCT02942004|164864072|SUPERIORITY||LS mean difference|-4.92|STANDARD_ERROR_OF_MEAN|2.045||0.0178|TWO_SIDED|95.0|-8.98|-0.87|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.87|-8.98|0.0178
82448650|NCT03916484|164604681|OTHER|||||||0.07|||||||McNemar|||||||0.07
82576980|NCT02942004|164864072|SUPERIORITY||LS mean difference|-3.51|STANDARD_ERROR_OF_MEAN|1.976||0.0786|TWO_SIDED|95.0|-7.43|0.41|||MMRM|||Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D total score at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.41|-7.43|0.0786
82576981|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0052|TWO_SIDED|95.0|1.7|17.4|||GEE method|||Hour 60: Generalized estimating equation (GEE) method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||17.4|1.7|0.0052
82647661|NCT00361257|165010934|SUPERIORITY_OR_OTHER||Slope|0.502|STANDARD_ERROR_OF_MEAN|0.428||0.243|TWO_SIDED|95.0|-0.349|1.354||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline cognitive gross motor function domain score.||The null hypothesis is that the 24 week change in the cognitive gross motor function domain score in the minocycline group is the same as the one in the placebo group.||1.354|-0.349|0.243
82647662|NCT00361257|165010935|SUPERIORITY_OR_OTHER||Slope|0.293|STANDARD_ERROR_OF_MEAN|0.153||0.059|TWO_SIDED|95.0|-0.011|0.596||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline fine motor function domain score.||The null hypothesis was that the 24 week change in fine motor function domain score in the minocycline group was the same as the one in the placebo group.||0.596|-0.011|0.059
82448651|NCT03916484|164604681|OTHER|||||||0.003|||||||McNemar|||||||0.003
82448652|NCT03916484|164604682|OTHER|||||||0.25|||||||McNemar|||||||0.25
82426798|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.916|TWO_SIDED|95.0|0.7|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.6|0.7|0.9160
82426799|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||0.0147|TWO_SIDED|95.0|1.0|3.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.0|1.0|0.0147
82426800|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.8675|TWO_SIDED|95.0|0.6|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.6|0.6|0.8675
82426801|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0174|TWO_SIDED|95.0|1.1|3.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.0|1.1|0.0174
82426802|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.0001|TWO_SIDED|95.0|1.9|5.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||5.7|1.9|<0.0001
82426803|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.4941|TWO_SIDED|95.0|0.5|1.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||1.3|0.5|0.4941
82426804|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.3|7.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||7.0|2.3|<0.0001
82426805|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||<|0.0001|TWO_SIDED|95.0|2.0|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||5.9|2.0|<0.0001
82426806|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.8185|TWO_SIDED|95.0|0.6|1.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||1.5|0.6|0.8185
82426807|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.66|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||6.4|2.1|<0.0001
82576982|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0493|TWO_SIDED|95.0|1.0|6.9|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.9|1.0|0.0493
82424512|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-9.23||||0.14|TWO_SIDED|95.0|-21.62|3.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||7 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.16|-21.62|0.140
82424513|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|48.53|||<|0.001|TWO_SIDED|95.0|36.29|60.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||60.77|36.29|<0.001
82424514|NCT01098747|164558285|SUPERIORITY_OR_OTHER||Difference in proportion|-9.23||||0.14|TWO_SIDED|95.0|-21.62|3.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||8 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Advil + Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.16|-21.62|0.140
82424515|NCT01098747|164558286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.83|0.98||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference (Ibuprofen sodium - placebo) and the associated CI were calculated based on the weighted Gamma statistic.||0.98|0.83|<0.001
82424516|NCT01098747|164558286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.04||||0.667|TWO_SIDED|95.0|-0.15|0.24||p-value was calculated using the PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||0.24|-0.15|0.667
82424517|NCT01137890|164558371|SUPERIORITY||F-value for main effect of Coc dose|24.9|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose on VAQ score|||||<0.01
82424518|NCT01137890|164558371|SUPERIORITY||F-value for main effect of Zon dose|0.34||||0.72|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose on VAQ score|||||0.72
82424519|NCT01137890|164558371|SUPERIORITY||F-value for main effect of Coc x Zon|0.66||||0.63|TWO_SIDED||||||ANOVA||F-value for main effect of Cocaine x Zonisamide interaction on VAQ scores|||||0.63
82424520|NCT01137890|164558372|SUPERIORITY||F-value for main effect of Coc dose|9.91|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose on Behavioral Choice measure|||||<0.01
82424521|NCT01137890|164558372|SUPERIORITY||F-value for main effect of Zon dose|0.07||||0.93|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose on Behavioral Choice measure|||||0.93
82424522|NCT01137890|164558372|SUPERIORITY||F-value for main effect of Coc x Zon|0.24||||0.92|TWO_SIDED||||||ANOVA||F-value for main effect of Cocaine dose x Zonisamide dose interaction on Behavioral Choice measure|||||0.92
82424523|NCT01137890|164558373|SUPERIORITY||t-value for main effect of Group|1.51||||0.16|TWO_SIDED|||||Group (Zonisamide vs Placebo)|t-test, 2 sided|||||||0.16
82424524|NCT01137890|164558373|SUPERIORITY|Day (Day 1-39)|t-value for main effect of Day|-3.2||||0.0015|TWO_SIDED||||||t-test, 2 sided|||||||0.0015
82424525|NCT01137890|164558373|SUPERIORITY|Group\*Day interaction|t value for Group x Day interaction|-1.63||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
82424526|NCT01137890|164558374|SUPERIORITY||F-value for main effect of Coc dose|21.1|||<|0.01|TWO_SIDED|||||p-value was calculated as less than 0.01. Note: this is not an attempt to indicate a threshold|ANOVA||F-value for main effect of Cocaine dose|||||<0.01
82424527|NCT01137890|164558374|SUPERIORITY||F-value for main effect of Zon dose|0.77||||0.48|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide dose|||||0.48
82424528|NCT01137890|164558374|SUPERIORITY||F-value for the main effect of Zon x Coc|0.93||||0.46|TWO_SIDED||||||ANOVA||F-value for main effect of Zonisamide x Cocaine interaction on drug value (i.e., street value) measurement|||||0.46
82424529|NCT02300233|164558378|SUPERIORITY||Difference in Least Squares Mean (LSM)|-70.3|||<|0.0001|TWO_SIDED|95.0|-85.4|-55.3|||ANCOVA|||||-55.3|-85.4|<0.0001
82424530|NCT02300233|164558379|SUPERIORITY||Difference in LSM|-943.0|||<|0.0001|TWO_SIDED|95.0|-1197.0|-689.0|||ANCOVA|||||-689|-1197|<0.0001
82424531|NCT02300233|164558380|SUPERIORITY||Odds Ratio (OR)|96.02|||<|0.0001|TWO_SIDED|95.0|19.71|467.79|||Regression, Logistic|||||467.79|19.71|<0.0001
82424532|NCT02300233|164558381|SUPERIORITY||Difference in LSM|56.8|||<|0.0001|TWO_SIDED|95.0|45.1|68.6|||ANCOVA|||||68.6|45.1|<0.0001
82424533|NCT02300233|164558382|SUPERIORITY||Odds Ratio (OR)|14.93||||0.0474|TWO_SIDED|95.0|1.03|215.88|||Regression, Logistic|||||215.88|1.03|0.0474
82424534|NCT04752566|164558391|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.8938|TWO_SIDED|95.0|0.45|1.97||Log Rank Test stratified by randomization strata.|Log Rank||Cox proportional hazard model stratified by randomization strata, with treatment group as the fixed effect. Firth's adjustment was applied if no event was observed in a treatment group.|||1.97|0.45|0.8938
82424535|NCT04752566|164558392|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8987|TWO_SIDED|95.0|0.27|3.17|||Regression, Logistic|||Week 8||3.17|0.27|0.8987
82424536|NCT04752566|164558392|SUPERIORITY||Odds Ratio (OR)|0.6||||0.4083|TWO_SIDED|95.0|0.18|2.02|||Regression, Logistic|||Week 24||2.02|0.18|0.4083
82424537|NCT04752566|164558393|SUPERIORITY||Odds Ratio (OR)|0.8||||0.6739|TWO_SIDED|95.0|0.24|2.54|||Regression, Logistic|||||2.54|0.24|0.6739
82424538|NCT03331354|164558401|SUPERIORITY||Cox Proportional Hazard|1.87|||=|0.016|TWO_SIDED||||||Chi-squared|||||||=.016
82424539|NCT03331354|164558402|SUPERIORITY|||||||0.008|||||||ANCOVA|Initial interview scores were used as control in the ANCOVA||||||.008
82424540|NCT03331354|164558403|SUPERIORITY|||||||0.99|||||||ANCOVA|Change in confidence was evaluated using time one as a covariate.||||||.99
82424541|NCT03331354|164558403|SUPERIORITY|||||||0.99|||||||ANCOVA|Interview scores at enrollment were used as a covariate||||||.99
82424542|NCT03331354|164558404|OTHER||||||<|0.001|||||||Pearson Correlation|||This post-hoc analysis was performed on only the COMPASS group to determine the association between percent of the online system completed and change in interview scores||||<.001
82647663|NCT00361257|165010936|SUPERIORITY_OR_OTHER||Slope|-0.083|STANDARD_ERROR_OF_MEAN|0.147||0.572|TWO_SIDED|95.0|-0.375|0.209||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratified variables, the baseline CNS penetration score, and the baseline psychomotor function domain score.||The null hypothesis was that the 24 change of psychomotor function domain score in the minocycline group is the same as in the placebo group.||0.209|-0.375|0.572
82424543|NCT00928668|164558405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.157|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|0.657|1.657|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||1.657|0.657|<0.0001
82424544|NCT00928668|164558405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.711|STANDARD_ERROR_OF_MEAN|0.255|<|0.0001|TWO_SIDED|95.0|1.205|2.217|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.217|1.205|<0.0001
82424545|NCT00928668|164558405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.443|STANDARD_ERROR_OF_MEAN|0.248|<|0.0001|TWO_SIDED|95.0|1.952|2.935|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||2.935|1.952|<0.0001
82424546|NCT00928668|164558405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.984|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|2.486|3.483|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||3.483|2.486|<0.0001
82647664|NCT00361257|165010937|SUPERIORITY_OR_OTHER||Slope|-0.086|STANDARD_ERROR_OF_MEAN|0.182||0.637|TWO_SIDED|95.0|-0.449|0.276||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline fine motor/nonverbal function domain score.||The null hypothesis was that the 24 week change of fine motor/nonverbal function domain score in the minocycline group was the same as in the placebo group.||0.276|-0.449|0.637
82424547|NCT00928668|164558406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.139|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|1.645|2.633|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.633|1.645|<0.0001
82424548|NCT00928668|164558406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.636|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|2.135|3.136|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||3.136|2.135|<0.0001
82424549|NCT00928668|164558406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|0.245|<|0.0001|TWO_SIDED|95.0|3.074|4.046|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||4.046|3.074|<0.0001
82424550|NCT00928668|164558406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.224|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|3.731|4.717|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.717|3.731|<0.0001
82424551|NCT00928668|164558407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.025|STANDARD_ERROR_OF_MEAN|0.296|<|0.0001|TWO_SIDED|95.0|1.437|2.613|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.613|1.437|<0.0001
82424552|NCT00928668|164558407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|1.785|2.975|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.975|1.785|<0.0001
82448653|NCT03916484|164604682|OTHER|||||||0.002|||||||McNemar|||||||0.002
82424553|NCT00928668|164558407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.549|STANDARD_ERROR_OF_MEAN|0.292|<|0.0001|TWO_SIDED|95.0|2.971|4.127|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||4.127|2.971|<0.0001
82424554|NCT00928668|164558407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.208|STANDARD_ERROR_OF_MEAN|0.296|<|0.0001|TWO_SIDED|95.0|3.622|4.794|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.794|3.622|<0.0001
82424555|NCT00928668|164558408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.907|STANDARD_ERROR_OF_MEAN|0.295|<|0.0001|TWO_SIDED|95.0|1.322|2.492|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||2.492|1.322|<0.0001
82424556|NCT00928668|164558408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.474|STANDARD_ERROR_OF_MEAN|0.299|<|0.0001|TWO_SIDED|95.0|1.822|3.066|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||3.066|1.822|<0.0001
82426808|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.2|6.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||6.6|2.2|<0.0001
82448654|NCT03916484|164604682|OTHER|||||||0.453|||||||McNemar|||||||0.453
82424557|NCT00928668|164558408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.327|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|2.752|3.902|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||3.902|2.752|<0.0001
82424558|NCT00928668|164558408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.22|STANDARD_ERROR_OF_MEAN|0.294|<|0.0001|TWO_SIDED|95.0|3.637|4.803|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||4.803|3.637|<0.0001
82424559|NCT00928668|164558409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.229|STANDARD_ERROR_OF_MEAN|0.271|<|0.0001|TWO_SIDED|95.0|0.692|1.766|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 2 mcg minus Placebo|||1.766|0.692|<0.0001
82424560|NCT00928668|164558409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.825|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|1.281|2.369|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 5 mcg minus Placebo|||2.369|1.281|<0.0001
82424561|NCT00928668|164558409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.114|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|1.578|2.65|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Olo 10 mcg minus Placebo|||2.650|1.578|<0.0001
82424562|NCT00928668|164558409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.645|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|2.11|3.181|||Mixed Models Analysis|Adjusted using an analysis of variance with terms for centre, patients within centre, treatment and period (all as fixed effects)|Form 20 mcg minus Placebo|||3.181|2.110|<0.0001
82424563|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|0.69||0.0017|TWO_SIDED|90.0|-3.17|-0.89|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-0.89|-3.17|0.0017
82424564|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|90.0|-5.01|-2.74|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-2.74|-5.01|< 0.0001
82424565|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|90.0|-5.76|-3.46|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-3.46|-5.76|< 0.0001
82424566|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|0.68||0.0045|TWO_SIDED|90.0|-2.92|-0.67|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there is no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm is declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect is below zero.||-0.67|-2.92|0.0045
82424567|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|0.69||0.0005|TWO_SIDED|90.0|-3.41|-1.14|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-1.14|-3.41|0.0005
82424568|NCT02958865|164558415|SUPERIORITY||Mean Difference (Final Values)|-3.21|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|90.0|-4.34|-2.08|||Constrained Longitudinal Data Analysis|||The null hypothesis was that the there was no difference between the distributions of the total Mayo score at Week 8 between the pooled placebo group and active arm. The treatment arm was declared efficacious if an upper limit of 2-sided 90% confidence interval for the treatment effect was below zero.||-2.08|-4.34|< 0.0001
82424569|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.0626|TWO_SIDED|90.0|-1.0|19.5|||Chan and Zhang method|||||19.5|-1.0|0.0626
82424570|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|28.6||||0.0027|TWO_SIDED|90.0|13.9|41.0|||Chan and Zhang method|||||41.0|13.9|0.0027
82424571|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|34.0||||0.001|TWO_SIDED|90.0|20.2|46.5|||Chan and Zhang Method|||||46.5|20.2|0.0010
82424572|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.0774|TWO_SIDED|90.0|-4.0|18.1|||Chan and Zhang method|||||18.1|-4.0|0.0774
82424573|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|23.4||||0.0055|TWO_SIDED|90.0|8.2|35.8|||Chan and Zhang method|||||35.8|8.2|0.0055
82448655|NCT03916484|164604682|OTHER|||||||0.5|||||||McNemar|||||||0.500
82424574|NCT02958865|164558432|SUPERIORITY||Mean Difference (Final Values)|23.4||||0.0055|TWO_SIDED|90.0|8.2|35.8|||Chan and Zhang method|||||35.8|8.2|0.0055
82424575|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|21.6||||0.0111|TWO_SIDED|90.0|5.6|33.2|||Chan and Zhang method|||||33.2|5.6|0.0111
82424576|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|34.7||||0.0006|TWO_SIDED|90.0|20.2|47.4|||Chan and Zhang method|||||47.4|20.2|0.0006
82424577|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|42.0||||0.0001|TWO_SIDED|90.0|29.5|54.6|||Chan and Zhang Method|||||54.6|29.5|0.0001
82448656|NCT03916484|164604682|OTHER|||||||0.003|||||||McNemar|||||||0.003
82448657|NCT02262754|164604691|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Placebo)|0.16|||||TWO_SIDED|90.0|-0.28|0.6||||||An analysis of covariance (ANCOVA) model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward (LOCF) was used for missing data.||0.60|-0.28|
82424578|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|20.8||||0.0101|TWO_SIDED|90.0|5.6|33.0|||Chan and Zhang method|||||33.0|5.6|0.0101
82424579|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|31.9||||0.0014|TWO_SIDED|90.0|17.0|44.8|||Chan and Zhang method|||||44.8|17.0|0.0014
82647665|NCT00361257|165010938|SUPERIORITY_OR_OTHER||Slope|-0.074|STANDARD_ERROR_OF_MEAN|0.236||0.754|TWO_SIDED|95.0|-0.544|0.396||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the CNS penetration score, and the baseline information processing function domain score.||The null hypothesis was that the 24 week change of information processing function domain score in the minocycline group was the same as the one in the placebo group.||0.396|-0.544|0.754
82424580|NCT02958865|164558433|SUPERIORITY||Mean Difference (Final Values)|29.8||||0.0015|TWO_SIDED|90.0|17.0|42.6|||Chan and Zhang method|||||42.6|17.0|0.0015
82424581|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|17.2||||0.0788|TWO_SIDED|90.0|-3.4|34.4|||Chan and Zhang method|||||34.4|-3.4|0.0788
82424582|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|45.4||||0.0002|TWO_SIDED|90.0|23.6|62.1|||Chan and Zhang method|||||62.1|23.6|0.0002
82424583|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|44.0||||0.0003|TWO_SIDED|90.0|23.5|60.5|||Chan and Zhang Method|||||60.5|23.5|0.0003
82424584|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|17.7||||0.0773|TWO_SIDED|90.0|-4.0|35.1|||Chan and Zhang method|||||35.1|-4.0|0.0773
82448658|NCT02262754|164604691|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Naproxen)|0.42|||||TWO_SIDED|90.0|-0.02|0.87||||||An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward LOCF was used for missing data.||0.87|-0.02|
82448659|NCT02262754|164604691|SUPERIORITY_OR_OTHER||Mean Difference (Naproxen-Placebo)|-0.26|||||TWO_SIDED|90.0|-0.7|0.18||||||An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-2.36, 0.542\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. A last observation carried forward LOCF was used for missing data.||0.18|-0.70|
82424585|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|29.2||||0.0136|TWO_SIDED|90.0|5.6|47.0|||Chan and Zhang method|||||47.0|5.6|0.0136
82424586|NCT02958865|164558434|SUPERIORITY||Mean Difference (Final Values)|37.7||||0.0015|TWO_SIDED|90.0|13.9|54.7|||Chan and Zhang method|||||54.7|13.9|0.0015
82424587|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.2259|TWO_SIDED|90.0|-6.5|11.8|||Chan and Zhang method|||||11.8|-6.5|0.2259
82424588|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|8.2||||0.082|TWO_SIDED|90.0|-3.8|17.7|||Chan and Zhang method|||||17.7|-3.8|0.0820
82424589|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.0649|TWO_SIDED|90.0|-0.7|22.3|||Chan and Zhang Method|||||22.3|-0.7|0.0649
82424590|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.3777|TWO_SIDED|90.0|-8.6|9.7|||Chan and Zhang method|||||9.7|-8.6|0.3777
82424591|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|17.0||||0.0212|TWO_SIDED|90.0|2.9|28.6|||Chan and Zhang method|||||28.6|2.9|0.0212
82424592|NCT02958865|164558435|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.0742|TWO_SIDED|90.0|-4.2|18.4|||Chan and Zhang method|||||18.4|-4.2|0.0742
82424593|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.0872|TWO_SIDED|90.0|-3.4|17.1|||Chan and Zhang method|||||17.1|-3.4|0.0872
82424594|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|16.3||||0.0254|TWO_SIDED|90.0|3.0|27.5|||Chan and Zhang method|||||27.5|3.0|0.0254
82424595|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|26.0||||0.0034|TWO_SIDED|90.0|11.0|38.1|||Chan and Zhang Method|||||38.1|11.0|0.0034
82424596|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.1565|TWO_SIDED|90.0|-4.5|15.4|||Chan and Zhang method|||||15.4|-4.5|0.1565
82424597|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
82424598|NCT02958865|164558436|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
82424599|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.2259|TWO_SIDED|90.0|-6.5|11.8|||Chan and Zhang method|||||11.8|-6.5|0.2259
82424600|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|8.2||||0.082|TWO_SIDED|90.0|-3.8|17.7|||Chan and Zhang method|||||17.7|-3.8|0.0820
82424601|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.0649|TWO_SIDED|90.0|-0.7|22.3|||Chan and Zhang Method|||||22.3|-0.7|0.0649
82424602|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-11.3|6.1|||Chan and Zhang method|||||6.1|-11.3|1.0000
82448660|NCT02262754|164604697|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.23|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.76|0.3||||||The ANCOVA model included treatment as fixed effects.||0.30|-0.76|
82448661|NCT02262754|164604697|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|0.12|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.41|0.65||||||The ANCOVA model included treatment as fixed effects.||0.65|-0.41|
82448662|NCT02262754|164604697|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.35|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.87|0.17||||||The ANCOVA model included treatment as fixed effects.||0.17|-0.87|
82424603|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.0288|TWO_SIDED|90.0|1.7|26.2|||Chan and Zhang method|||||26.2|1.7|0.0288
82424604|NCT02958865|164558437|SUPERIORITY||Mean Difference (Final Values)|6.4||||0.1593|TWO_SIDED|90.0|-4.4|15.7|||Chan and Zhang method|||||15.7|-4.4|0.1593
82424605|NCT02284893|164558491|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1001||0.0008|||||||Mixed Models Analysis|||||||0.0008
82424606|NCT02284893|164558492|SUPERIORITY||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|4.175||0.0034|||||||Regression, Logistic|the analysis was by Zhang et.al. method with adjustment for baseline A1c.The measure of interest is NOT odds ratio but Risk Difference.||||||0.0034
82424607|NCT02284893|164558493|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.2891||0.0001|||||||Mixed Models Analysis|||||||0.0001
82576983|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0572|TWO_SIDED|95.0|1.0|6.5|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.5|1.0|0.0572
82647666|NCT00361257|165010939|SUPERIORITY_OR_OTHER||Slope|0.145|STANDARD_ERROR_OF_MEAN|0.207||0.484|TWO_SIDED|95.0|-0.266|0.558||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline verbal memory domain score.||The null hypothesis was that the 24 week change of verbal memory domain score in the minocycline group was the same as the one in the placebo group.||0.558|-0.266|0.484
82424608|NCT02284893|164558494|SUPERIORITY||Mean Difference (Final Values)|-20.9|STANDARD_ERROR_OF_MEAN|3.682||0.0001|||||||Mixed Models Analysis|||||||0.0001
82424609|NCT01983111|164558515|NON_INFERIORITY_OR_EQUIVALENCE|In the PP set, for a non-inferiority test of the reduction in the pain intensity score from Visit 1 (Baseline) to Week 6 of treatment, the lower limit of the 97.5% onesided confidence interval was compared to a clinical non-inferiority margin, -1.5.|Mean Difference (Final Values)|-0.43|STANDARD_DEVIATION|1.79||0.2658|TWO_SIDED|97.5|-6.0|3.0|||t-test, 2 sided|||In the Per protocol set||3|-6|0.2658
82424610|NCT00049543|164558594|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.14|TWO_SIDED|95.0|0.94|1.64|||Log Rank|||The Kaplan-Meier estimates of survival distribution for overall survival by treatment arm are reported, and the log rank test stratified by the stratification factors at randomization (exclude center) was used to compare the difference in the overall survival between two treatment arms. Hazard ratio of comparison of study treatment arm to placebo and it 95% C.I. were reported.||1.64|0.94|0.14
82424611|NCT00049543|164558595|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.15|TWO_SIDED|95.0|0.93|1.61||Stratified by stratification factors at randomization (except center)|Log Rank|Stratified by stratification factors at randomization (except center)||||1.61|0.93|0.15
82424612|NCT06378008|164558622|SUPERIORITY||Adjusted Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-1.98|-1.62|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 56||-1.62|-1.98|<0.0001
82424613|NCT06378008|164558623|SUPERIORITY||Adjusted Mean Difference|52.87|STANDARD_ERROR_OF_MEAN|2.428|<|0.0001|TWO_SIDED|95.0|48.08|57.65|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 56||57.65|48.08|<0.0001
82424614|NCT06378008|164558624|SUPERIORITY||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.053||0.0005|TWO_SIDED|95.0|-0.29|-0.08|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 3||-0.08|-0.29|0.0005
82424615|NCT06378008|164558624|SUPERIORITY||Adjusted Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.73|-0.49|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 7||-0.49|-0.73|<0.0001
82424616|NCT06378008|164558624|SUPERIORITY||Adjusted Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.092|<|0.0001|TWO_SIDED|95.0|-1.41|-1.04|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 14||-1.04|-1.41|<0.0001
82424617|NCT06378008|164558624|SUPERIORITY||Adjusted Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|-1.74|-1.38|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 28||-1.38|-1.74|<0.0001
82424618|NCT06378008|164558625|SUPERIORITY||Adjusted Mean Difference|7.14|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|5.75|8.53|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 3||8.53|5.75|<0.0001
82424619|NCT06378008|164558625|SUPERIORITY||Adjusted Mean Difference|14.4|STANDARD_ERROR_OF_MEAN|1.112|<|0.0001|TWO_SIDED|95.0|12.2|16.59|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 7||16.59|12.20|<0.0001
82448663|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.08|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.2|0.36||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.36|-0.20|
82448664|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.2|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.48|0.07||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.07|-0.48|
82424620|NCT06378008|164558625|SUPERIORITY||Adjusted Mean Difference|25.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.0001|TWO_SIDED|95.0|22.67|28.93|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 14||28.93|22.67|<0.0001
82424621|NCT06378008|164558625|SUPERIORITY||Adjusted Mean Difference|40.99|STANDARD_ERROR_OF_MEAN|2.254|<|0.0001|TWO_SIDED|95.0|36.55|45.43|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test toothpaste minus reference toothpaste.|Change from Baseline at Day 28||45.43|36.55|<0.0001
82424622|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.219||0.3489|TWO_SIDED|95.0|-0.64|0.23|||Mixed Model with Repeated Measures||Adjusted Mean Difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 28||0.23|-0.64|0.3489
82448665|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.28|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.01|0.56||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.56|0.01|
82647667|NCT00361257|165010940|SUPERIORITY_OR_OTHER||Slope|-0.126|STANDARD_ERROR_OF_MEAN|0.172||0.467|TWO_SIDED|95.0|-0.467|0.216||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline frontal systems function domain score.||The null hypothesis was that the 24 week change of frontal systems function domain score in the minocycline group was the same as the one in the placebo group.||0.216|-0.467|0.467
82647668|NCT00361257|165010941|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.476|STANDARD_DEVIATION|1.048||0.234|TWO_SIDED|95.0|0.575|10.668||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the CNS penetration score. The stratification variables could not be included in the model since the model fit was poor.||"The null hypothesis was that the proportion of being better at 24 weeks in minocycline group was the same as in the placebo group."||10.668|0.575|0.234
82424623|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.267||0.0876|TWO_SIDED|95.0|-0.98|0.07|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 56||0.07|-0.98|0.0876
82424624|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.252||0.9108|TWO_SIDED|95.0|-0.47|0.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 28||0.52|-0.47|0.9108
82424625|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.281||0.4854|TWO_SIDED|95.0|-0.75|0.36|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 56||0.36|-0.75|0.4854
82424626|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.261||0.8309|TWO_SIDED|95.0|-0.46|0.57|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 28||0.57|-0.46|0.8309
82424627|NCT06378008|164558626|SUPERIORITY||Adjusted Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.297||0.05|TWO_SIDED|95.0|-1.17|0.0|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 56||-0.00|-1.17|0.0500
82424628|NCT06378008|164558627|SUPERIORITY||Adjusted Mean Difference|-2.27|STANDARD_ERROR_OF_MEAN|3.859||0.5565|TWO_SIDED|95.0|-9.88|5.33|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||5.33|-9.88|0.5565
82424629|NCT06378008|164558627|SUPERIORITY||Adjusted Mean Difference|-5.96|STANDARD_ERROR_OF_MEAN|4.715||0.2078|TWO_SIDED|95.0|-15.25|3.34|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||3.34|-15.25|0.2078
82424630|NCT06378008|164558628|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.588||0.5597|TWO_SIDED|95.0|-1.5|0.82|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.82|-1.50|0.5597
82424631|NCT06378008|164558628|SUPERIORITY||Adjusted Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.705||0.4627|TWO_SIDED|95.0|-1.91|0.87|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.87|-1.91|0.4627
82424632|NCT06378008|164558629|SUPERIORITY||Adjusted Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|1.583||0.3|TWO_SIDED|95.0|-4.77|1.48|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.48|-4.77|0.3000
82424633|NCT06378008|164558629|SUPERIORITY||Adjusted Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.958||0.1974|TWO_SIDED|95.0|-6.39|1.33|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||1.33|-6.39|0.1974
82424634|NCT06378008|164558630|SUPERIORITY||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.679||0.9203|TWO_SIDED|95.0|-1.27|1.41|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.41|-1.27|0.9203
82424635|NCT06378008|164558630|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.717||0.2489|TWO_SIDED|95.0|-2.24|0.58|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.58|-2.24|0.2489
82424636|NCT06378008|164558631|SUPERIORITY||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|1.09||0.8496|TWO_SIDED|95.0|-2.36|1.94|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.94|-2.36|0.8496
82424637|NCT06378008|164558631|SUPERIORITY||Adjusted Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|1.226||0.1596|TWO_SIDED|95.0|-4.15|0.69|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.69|-4.15|0.1596
82424638|NCT06378008|164558632|SUPERIORITY||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.697||0.9577|TWO_SIDED|95.0|-1.34|1.41|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||1.41|-1.34|0.9577
82424639|NCT06378008|164558632|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.748||0.8261|TWO_SIDED|95.0|-1.64|1.31|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||1.31|-1.64|0.8261
82424640|NCT06378008|164558633|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.089||0.8895|TWO_SIDED|95.0|-0.19|0.16|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.16|-0.19|0.8895
82424641|NCT06378008|164558633|SUPERIORITY||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.101||0.8083|TWO_SIDED|95.0|-0.17|0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.22|-0.17|0.8083
82424642|NCT06378008|164558634|SUPERIORITY||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.351||0.7362|TWO_SIDED|95.0|-0.57|0.81|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 28||0.81|-0.57|0.7362
82424643|NCT06378008|164558634|SUPERIORITY||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.39||0.5568|TWO_SIDED|95.0|-1.0|0.54|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test Toothpaste minus Reference Toothpaste.|Change from Baseline at Day 56||0.54|-1.00|0.5568
82424644|NCT04604431|164558651|SUPERIORITY||Odds Ratio (OR)|14.1|||<|0.001|TWO_SIDED|95.0|6.9|29.1|||Mixed Models Analysis|||Odds ratios will be computed to describe the odds of adherence for the iREACH intervention compared to the control intervention for low-risk infants.||29.1|6.9|<0.001
82424645|NCT04604431|164558651|SUPERIORITY||Odds Ratio (OR)|3.1||||0.034|TWO_SIDED|95.0|1.1|8.8|||Mixed Models Analysis|||Odds ratios will be computed to describe the odds of adherence for the iREACH intervention compared to the control intervention for high-risk infants.||8.8|1.1|0.034
82424646|NCT00643279|164558656|SUPERIORITY|Survival estimate at 6-months|6-month survival rate|91.5|||||ONE_SIDED|95.0|88.7||||||||||88.7|
82424647|NCT00643279|164558657|SUPERIORITY|Survival estimate at 6-months|6-month survival rate|100.0|||||ONE_SIDED|95.0|98.9||||||||||98.9|
82424648|NCT03176173|164558682|SUPERIORITY|||||||0.0007|||||||Exact binomial test|||||||0.0007
82424649|NCT05715827|164558690|OTHER|The study used descriptive statistics and 95% confidence intervals to summarize data. The sample size of 40 patients (20 per surgery type) was based on prior studies with 3% device malfunction and 0.9% failure-related conversion rates. The primary endpoint was the completion rate, defined as ≥95% without conversion due to system issues or major complications within 24 hours. The Full Analysis Set included all subjects who started the procedure. No interim analyses were planned.|Completion rate|97.5|||||TWO_SIDED|95.0|86.8|99.9||The study used descriptive statistics and confidence intervals, not hypothesis testing with p-values. The main goal was to confirm the completion rate met or exceeded 95% and present a 95% confidence interval||The main goal was to confirm the completion rate met or exceeded 95% with a 95% confidence interval.|Estimated Value of 97.5% is an overall completion rate|The study aimed to confirm the Medtronic Hugo™ RAS System's performance for prostatectomy or cholecystectomy, targeting a 95% completion rate (no conversion due to system issues or major complications within 24 hours). The Full Analysis Set (FAS) included all subjects starting the procedure. Descriptive statistics and 95% confidence intervals were used to assess primary and secondary endpoints, confirming safety and effectiveness.|Descriptive Analysis was used|99.9|86.8|
82424650|NCT05715827|164558691|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Overall Complication Rate|20.0|||||TWO_SIDED|95.0|9.1|35.6||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||35.6|9.1|
82424651|NCT05715827|164558692|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Major complication rate|5.0|||||TWO_SIDED|95.0|0.6|16.9||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||16.9|0.6|
82424652|NCT05715827|164558693|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Readmission rate|10.0|||||TWO_SIDED|95.0|2.8|23.7||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||23.7|2.8|
82424653|NCT05715827|164558694|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Reoperation rate|0.0|||||TWO_SIDED|||||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||||
82426809|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.4254|TWO_SIDED|95.0|0.7|1.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.8|0.7|0.4254
82426810|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.38|||<|0.0001|TWO_SIDED|95.0|1.9|5.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||5.9|1.9|<0.0001
82426811|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.26|||<|0.0001|TWO_SIDED|95.0|1.8|5.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||5.8|1.8|<0.0001
82534866|NCT03688542|164767824|SUPERIORITY||Slope|-12.7|||<|0.05|TWO_SIDED|95.0|-21.5|-4.0|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents, interaction between mission and group.||||-4.0|-21.5|<0.05
82534867|NCT03688542|164767825|SUPERIORITY||Slope|-0.165|||<|0.05|TWO_SIDED|95.0|-0.754|0.424|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents||||0.424|-0.754|<0.05
82534868|NCT03688542|164767826|SUPERIORITY||Slope|-4.2|||<|0.05|TWO_SIDED|95.0|-16.0|7.6|||Regression, Linear|Dependent variable = follow-up value, adjusted for baseline value, canton, avg number of residents||||7.6|-16.0|<0.05
82534869|NCT00958009|164767855|SUPERIORITY_OR_OTHER||mean positive response|0.86|||||TWO_SIDED|95.0|0.8|0.93|||||Confidence Interval calculated from normal approximation to the binomial. The primary objective was met if the lower bound of the 95% confidence interval is \>0.50.|||0.93|0.80|
82534870|NCT00087490|164767868|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the Food and Drug Administration (FDA) suggested boundary of delta= -0.10.|Percent Difference|4.2||||0.249|TWO_SIDED|95.0|-3.0|11.5|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95 percent (%) confidence interval (CI).||11.5|-3.0|0.249
82647669|NCT00361257|165010942|SUPERIORITY_OR_OTHER||Slope|19.09|STANDARD_ERROR_OF_MEAN|33.75||0.574|TWO_SIDED|95.0|-48.26|86.44||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, the baseline CNS score, and the baseline CD4 cell count.||The null hypothesis was that the 24 week change in CD4 cell counts in the minocycline group was the same as the one in the placebo group.||86.44|-48.26|0.574
82424654|NCT05715827|164558695|OTHER|Descriptive statistics will be used, presenting frequency, percentage, and 95% confidence intervals for each secondary endpoint: overall complication rate, major complication rate, readmission rate, reoperation rate, and Device Deficiencies (DD) rate through 30 days post-surgery. Secondary endpoints will be assessed overall and by surgery type (prostatectomy and cholecystectomy).|Device deficiency rate|32.5|||||TWO_SIDED|95.0|18.6|49.1||Descriptive statistics and estimated rates were used. P-values were not calculated for secondary endpoints.||||The secondary objective is to assess the short-term safety outcome of the Medtronic Hugo™ RAS System when used for prostatectomy or cholecystectomy. Overall complication rate through 30-day post-surgery: A proportion of subjects with any postoperative complication within 30-days post-surgery using the investigational device||49.1|18.6|
82424655|NCT04795531|164558706|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin degludec) was strictly below 0.3%.|Treatment difference|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.34|-0.08|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment, region and sulfonylureas (SU)/glinides use as fixed factors, and baseline response as covariate.||-0.08|-0.34|<0.0001
82448666|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|90.0|-0.43|0.34||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.34|-0.43|
82448667|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.24|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.62|0.15||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.15|-0.62|
82448668|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.19|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.19|0.58||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.58|-0.19|
82448669|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.03|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.39|0.45||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.45|-0.39|
82534871|NCT00087490|164767869|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|3.9||||0.168|TWO_SIDED|95.0|-1.7|9.5|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||9.5|-1.7|0.168
82534872|NCT00087490|164767870|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|7.1||||0.048|TWO_SIDED|95.0|0.1|14.2|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||14.2|0.1|0.048
82534873|NCT00087490|164767871|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|4.8||||0.09|TWO_SIDED|95.0|-0.7|10.3|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||10.3|-0.7|0.090
82534874|NCT00087490|164767872|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|6.6||||0.127|TWO_SIDED|95.0|-1.9|15.0|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||15.0|-1.9|0.127
82534875|NCT00087490|164767873|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|16.6||||0|TWO_SIDED|95.0|9.0|24.2|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||24.2|9.0|0.000
82534876|NCT00087490|164767874|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|7.7||||0.051|TWO_SIDED|95.0|0.0|15.4|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||15.4|-0.0|0.051
82576984|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6768|TWO_SIDED|95.0|0.5|3.0|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||3.0|0.5|0.6768
82647670|NCT00361257|165010943|SUPERIORITY_OR_OTHER||Slope|40.43|STANDARD_ERROR_OF_MEAN|59.91||0.502|TWO_SIDED|95.0|-79.12|159.97||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline CD8 cell counts.||The null hypothesis was that the 24 week change in CD8 cell count in the minocycline group was the same as the one in the placebo group.||159.97|-79.12|0.502
82647671|NCT00361257|165010944|SUPERIORITY_OR_OTHER|||||||0.967||95.0|||||Log Rank|||The null hypothesis was that the time to Grade 2 or higher toxicity and/or signs and symptoms in the minocycline group was the same as the one in the placebo group.||||0.967
82647672|NCT00361257|165010946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.071|STANDARD_ERROR_OF_MEAN|0.497||0.89|TWO_SIDED|95.0|0.405|2.837||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|The model was adjusted for the stratification variables and the baseline CNS penetration score.||The null hypothesis was that the proportion of participants who got better at week 24 compared to baseline in the minocycline group was the same as the one in the placebo group.||2.837|0.405|0.890
82424656|NCT04887831|164558717|OTHER||Adjusted percentage difference|-0.101|STANDARD_ERROR_OF_MEAN|0.1052||0.34|TWO_SIDED|95.0|-0.308|0.105||The 2-sided p-value was calculated using stratified CMH method to account for the presence of visceral metastasis (yes/no) and initial chemotherapy type (cisplatin/carboplatin) as the stratification factors.|Cochran-Mantel-Haenszel|||||0.105|-0.308|0.340
82424657|NCT04887831|164558718|OTHER||Adjusted percentage difference|-0.008|STANDARD_ERROR_OF_MEAN|0.1078||0.938|TWO_SIDED|95.0|-0.22|0.203||The 2-sided p-value was calculated using stratified CMH method to account for the presence of visceral metastasis (yes/no) and initial chemotherapy type (cisplatin/carboplatin) as the stratification factors.|Cochran-Mantel-Haenszel|||||0.203|-0.220|0.938
82424658|NCT01664624|164558803|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|5.82||0.388|TWO_SIDED|95.0|-16.9|6.7||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and alogliptin alone.||6.7|-16.9|0.388
82424659|NCT01664624|164558803|SUPERIORITY_OR_OTHER||LS Mean Difference|22.7|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|11.1|34.3||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and Baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and roflumilast alone.||34.3|11.1|<0.001
82424660|NCT01664624|164558803|SUPERIORITY_OR_OTHER||LS Mean Difference|28.8|STANDARD_ERROR_OF_MEAN|5.76|<|0.001|TWO_SIDED|95.0|17.1|40.5||The comparison was evaluated at the 5% level of significance.|ANCOVA|ANCOVA model with treatment as fixed effect, and Baseline Postprandial AUC (0-8) of active GLP-1 as a continuous covariate.||ANCOVA was used to test the null hypothesis that the change from Baseline in the postprandial AUC(0-8) of active GLP-1 is no difference between the roflumilast + alogliptin and roflumilast alone.||40.5|17.1|<0.001
82424661|NCT01383005|164558817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.16||||0.001|TWO_SIDED|95.0|0.052|0.494|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'viral load change from detectable to undetectable.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 1 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with a viral load change from 'detectable to undetectable' in the last model of the Wald test.||0.494|0.052|0.001
82426132|NCT00854360|164561109|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.23||0.195|TWO_SIDED|95.0|-0.74|0.15||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.15|-0.74|0.195
82426133|NCT00854360|164561110|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.31||0.903|TWO_SIDED|95.0|-0.64|0.57||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.57|-0.64|0.903
82448670|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.27|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|-0.69|0.16||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.16|-0.69|
82448671|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.3|STANDARD_ERROR_OF_MEAN|0.25||||90.0|-0.12|0.71||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.71|-0.12|
82448672|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.07|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.4|0.55||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.55|-0.40|
82448673|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|90.0|-0.84|0.11||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.11|-0.84|
82448674|NCT02262754|164604698|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.44|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|90.0|-0.03|0.91||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.91|-0.03|
82448675|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.03|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|-0.03|0.08||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.08|-0.03|
82448676|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|-0.09|0.02||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.02|-0.09|
82576985|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0035|TWO_SIDED|95.0|1.7|16.8|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||16.8|1.7|0.0035
82448677|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.06|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|90.0|0.01|0.12||||||Week 1: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.12|0.01|
82448678|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.09|0.1||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.10|-0.09|
82448679|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.15|0.05||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.05|-0.15|
82448680|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.06|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.04|0.15||||||Week 2: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.15|-0.04|
82448681|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.12|0.12||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.12|-0.12|
82448682|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.05|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.16|0.07||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.07|-0.16|
82448683|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.05|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.07|0.16||||||Week 3: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.16|-0.07|
82448684|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.01|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.16|0.14||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.14|-0.16|
82424662|NCT01383005|164558817|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.279||||0.072|TWO_SIDED|95.0|0.07|1.118|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'viral load change from undetectable to undetectable.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 2 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with a viral load change from 'undetectable to undetectable' in the last model of the Wald test.||1.118|0.070|0.072
82424663|NCT01383005|164558818|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.996||||0.025|TWO_SIDED|95.0|0.992|0.999|||Regression, Logistic|Degree of freedom is 1 for the independent variable 'time on LPV/r.'|Stepwise procedures forward and backward were used to select variables in the model using entry and exit probabilities of 0.05 and 0.1 respectively. Identical models were obtained by forward and backward selection procedures.|Statistical Analysis 1 presents the risk of a 'mean score \<5' on the HIVTSQ overall satisfaction dimension (see Outcome Measure 8) when correlated with time on treatment with LPV/r QD in the last model of the Wald test.||0.999|0.992|0.025
82424664|NCT02369536|164558829|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||Intention-to-treat-analysis. Differences between basal values in active and control groups and between T1 vsT0 changes in the two groups assessed by ANOVA and Fisher's exact test.||||<0.05
82424665|NCT02369536|164558832|SUPERIORITY||||||<|0.05|||||||ANOVA|||Intention-to-treat-analysis. Differences between basal values in active and control groups and between T1 vsT0 changes in the two groups assessed by ANOVA and Fisher's exact test.||||<0.05
82424666|NCT02008617|164558863|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82424667|NCT02008617|164558864|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||At Rest||||0.86
82424668|NCT02008617|164558864|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Plantar Flexion||||0.89
82448685|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.24|0.05||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.05|-0.24|
82448686|NCT02262754|164604699|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.09|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.05|0.23||||||Week 4: The mixed effect repeated measures model includes treatment, week and the week\*treatment interaction as fixed effects, week repeated within each subject as a repeated effect and log baseline as a response. LS Mean Difference and 90 percent confidence interval was calculated from log values.||0.23|-0.05|
82424669|NCT02008617|164558865|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82424670|NCT02008617|164558866|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.82
82424671|NCT00583219|164558867|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline at one month||||0.004
82424672|NCT00583219|164558867|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.81
82424673|NCT00583219|164558868|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.21
82424674|NCT00583219|164558868|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.43
82424675|NCT00583219|164558870|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.005
82424676|NCT00583219|164558871|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.22
82424677|NCT00583219|164558872|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.24
82424678|NCT00583219|164558872|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.14
82424679|NCT00583219|164558873|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.24
82424680|NCT00583219|164558873|SUPERIORITY_OR_OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.033
82424681|NCT00583219|164558874|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Exact binomial sign test|||P value change from baseline to 1 month||||>0.99
82424682|NCT00583219|164558874|SUPERIORITY_OR_OTHER|||||||0.25|||||||exact binomial sign test|||P value change from baseline to 3 months||||0.25
82424683|NCT00583219|164558876|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to one month||||<0.001
82448687|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|||||TWO_SIDED|90.0|0.54|1.73||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.73|0.54|
82424684|NCT00583219|164558877|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline||||0.004
82424685|NCT00583219|164558878|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month||||0.003
82424686|NCT00583219|164558878|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months.||||0.001
82424687|NCT00583219|164558879|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to one month||||0.001
82424688|NCT00583219|164558879|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||<0.001
82424689|NCT00583219|164558880|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 1 month.||||0.007
82424690|NCT00583219|164558880|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||P value change from baseline to 3 months||||0.002
82448688|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|90.0|0.81|2.51||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||2.51|0.81|
82448689|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68|||||TWO_SIDED|90.0|0.39|1.2||||||\>=30 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.20|0.39|
82448690|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|90.0|0.37|1.81||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.81|0.37|
82424691|NCT03898180|164558885|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.4107|TWO_SIDED|95.0|0.72|1.14||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, programmed cell death ligand 1 (PD-L1) CPS, and ECOG performance status (PS).|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.14|0.72|0.4107
82424692|NCT03898180|164558886|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.3505|TWO_SIDED|95.0|0.87|1.48||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.48|0.87|0.3505
82576986|NCT02942004|164864073|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0347|TWO_SIDED|95.0|1.1|7.8|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||7.8|1.1|0.0347
82424693|NCT03898180|164558887|SUPERIORITY||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-4.0|12.2|||||Based on Miettinen \& Nurminen method stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||12.2|-4.0|
82424694|NCT03898180|164558890|OTHER||Difference in least squares means|-3.07||||0.182|TWO_SIDED|95.0|-7.57|1.44||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|cLDA model||Based on a constrained longitudinal data analysis (cLDA) model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||1.44|-7.57|0.182
82424695|NCT03898180|164558891|OTHER||Hazard Ratio (HR)|1.64||||0.0005|TWO_SIDED|95.0|1.24|2.16||Two-sided p-value based on log rank test stratified on chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by chemotherapy ineligibility, PD-L1 CPS, and ECOG PS.|||2.16|1.24|0.0005
82424696|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|8.56||||0.0129|TWO_SIDED|95.0|2.41|14.72||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Foreign body sensation - Left eye||14.72|2.41|0.0129
82424697|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|7.58||||0.0077|TWO_SIDED|95.0|1.7|13.45||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Foreign body sensation - Right eye||13.45|1.70|0.0077
82424698|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|3.99||||0.1589|TWO_SIDED|95.0|-1.64|9.62||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Burning/ Stinging - Left eye||9.62|-1.64|0.1589
82424699|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|2.78||||0.3167|TWO_SIDED|95.0|-2.78|8.35||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Burning/ Stinging - Right eye||8.35|-2.78|0.3167
82424700|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.5243|TWO_SIDED|95.0|-7.64|3.96||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Itching - Left eye||3.96|-7.64|0.5243
82424701|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.6714|TWO_SIDED|95.0|-4.45|6.82||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Itching - Right eye||6.82|-4.45|0.6714
82424702|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|-3.89||||0.0828|TWO_SIDED|95.0|-8.31|0.53||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Pain - Left eye||0.53|-8.31|0.0828
82424703|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.7823|TWO_SIDED|95.0|-4.77|3.62||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Pain - Right eye||3.62|-4.77|0.7823
82424704|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|4.93||||0.0432|TWO_SIDED|95.0|0.16|9.7||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Sticky feeling - Left eye||9.70|0.16|0.0432
82426812|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.8766|TWO_SIDED|95.0|0.7|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||1.6|0.7|0.8766
82576987|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0011|TWO_SIDED|95.0|2.1|17.8|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||17.8|2.1|0.0011
82424705|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|6.35||||0.0088|TWO_SIDED|95.0|1.7|11.0||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Sticky feeling - Right eye||11.00|1.70|0.0088
82424706|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|9.28||||0.0013|TWO_SIDED|95.0|3.9|14.66||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Blurred vision - Left eye||14.66|3.90|0.0013
82424707|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|5.31||||0.00629|TWO_SIDED|95.0|-0.3|10.92||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Blurred vision - Right eye||10.92|-0.30|0.00629
82424708|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|9.92||||0.002|TWO_SIDED|95.0|3.89|15.95||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Photophobia - Left eye||15.95|3.89|0.0020
82424709|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|7.95||||0.0111|TWO_SIDED|95.0|1.93|13.97||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Photophobia - Right eye||13.97|1.93|0.0111
82424710|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|31.67||||0.0448|TWO_SIDED|95.0|0.78|62.56||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Total score ocular tolerability - Left eye||62.56|0.78|0.0448
82424711|NCT02507934|164558894|SUPERIORITY||Mean Difference (Final Values)|26.36||||0.0834|TWO_SIDED|95.0|-3.66|56.37||For each parameter, for each eye, an ANOVA model for repeated measures has been used by including each available timepoint. The estimated mean difference between treatments (Vismed-Lubricin) over time has been reported and tested.|repeated measures ANOVA|||Analysis of variance for repeated measures on Total score ocular tolerability - Right eye||56.37|-3.66|0.0834
82424712|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.2317|TWO_SIDED|95.0|-0.14|0.57|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 7 ±1||0.57|-0.14|0.2317
82576988|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0828|TWO_SIDED|95.0|0.9|7.6|||GEE method|||Hour 60: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||7.6|0.9|0.0828
82576989|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|1.2||||0.7749|TWO_SIDED|95.0|0.4|3.1|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||3.1|0.4|0.7749
82424713|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.6017|TWO_SIDED|95.0|-0.7|0.41|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Right eye - Day 7 ±1||0.41|-0.70|0.6017
82424714|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.0232|TWO_SIDED|95.0|0.11|1.36|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 14 ±1||1.36|0.11|0.0232
82424715|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.0398|TWO_SIDED|95.0|0.03|1.17|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Right eye - Day 14 ±1||1.17|0.03|0.0398
82424716|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.0038|TWO_SIDED|95.0|0.36|1.74|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - Left eye - Day 21 ±1||1.74|0.36|0.0038
82424717|NCT02507934|164558896|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.0135|TWO_SIDED|95.0|0.17|1.33|||Student t-test for unpaired data|||T-test on changes from baseline on corneal fluorescein surface staining - right eye||1.33|0.17|0.0135
82424718|NCT02507934|164558897|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.3442|TWO_SIDED|95.0|-0.66|1.83|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 7±1||1.83|-0.66|0.3442
82424719|NCT02507934|164558897|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.772|TWO_SIDED|95.0|-1.99|1.49|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - Day 7±1||1.49|-1.99|0.7720
82424720|NCT02507934|164558897|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.9725|TWO_SIDED|95.0|-1.49|1.44|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 14±1||1.44|-1.49|0.9725
82424721|NCT02507934|164558897|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.2111|TWO_SIDED|95.0|-3.54|0.81|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - Day 14±1||0.81|-3.54|0.2111
82424722|NCT02507934|164558897|SUPERIORITY||Median Difference (Final Values)|-1.1||||0.2629|TWO_SIDED|90.0|-3.06|0.86|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Left eye - Day 21±1||0.86|-3.06|0.2629
82424723|NCT02507934|164558897|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.2862|TWO_SIDED|95.0|-3.6|1.1|||Student t-test for unpaired data|||T-test on changes from baseline on Schirmer's test type I strip wetting distance - Right eye - 21±1||1.10|-3.60|0.2862
82424724|NCT02507934|164558898|SUPERIORITY||Mean Difference (Final Values)|11.24||||0.2075|TWO_SIDED|95.0|-6.66|29.14|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 7±1||29.14|-6.66|0.2075
82424725|NCT02507934|164558898|SUPERIORITY||Mean Difference (Final Values)|18.16||||0.0435|TWO_SIDED|95.0|0.57|35.76|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 14±1||35.76|0.57|0.0435
82424726|NCT02507934|164558898|SUPERIORITY||Mean Difference (Final Values)|23.58||||0.0133|TWO_SIDED|95.0|5.24|41.93|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Frequency - Day 21±1||41.93|5.24|0.0133
82424727|NCT02507934|164558899|SUPERIORITY||Mean Difference (Final Values)|4.36||||0.613|TWO_SIDED|95.0|-12.98|21.69|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 7±1||21.69|-12.98|0.6130
82424728|NCT02507934|164558899|SUPERIORITY||Mean Difference (Final Values)|12.7||||0.1047|TWO_SIDED|95.0|-2.78|28.18|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 14±1||28.18|-2.78|0.1047
82534877|NCT00087490|164767875|NON_INFERIORITY_OR_EQUIVALENCE|Linezolid was claimed non-inferior to vancomycin if the lower limit of 95% CI for the difference in cure rate is greater than the FDA suggested boundary of delta= -0.10.|Percent Difference|15.0||||0|TWO_SIDED|95.0|8.2|21.8|||Chi-squared|||The percent difference was calculated by percentage of participants cured in linezolid arm minus the percentage of participants cured in vancomycin arm along with 2-sided 95% CI.||21.8|8.2|0.000
82534878|NCT00087490|164767878|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED|||||Alpha = 0.05 was the level of significance if the null hypothesis was rejected.|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference in the length of hospital stay between the treatment groups.||||0.022
82534879|NCT00087490|164767879|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||Alpha = 0.05 was the level of significance if the null hypothesis was rejected.|Wilcoxon (Mann-Whitney)|||Null hypothesis was that there was no difference in the length of hospital stay between the treatment groups.||||0.016
82534880|NCT00087490|164767880|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||t-test, 2 sided|||||||0.000
82424729|NCT02507934|164558899|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.1108|TWO_SIDED|95.0|-3.24|30.04|||Student t-test for unpaired data|||T-test on changes from baseline in symptom assessment in dry eye - Severity - Day 21±1||30.04|-3.24|0.1108
82424730|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.498|TWO_SIDED|95.0|-0.4|0.81|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 7±1||0.81|-0.40|0.4980
82424731|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.1986|TWO_SIDED|95.0|-0.18|0.83|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 7±1||0.83|-0.18|0.1986
82424732|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.4067|TWO_SIDED|95.0|-0.9|0.37|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 14±1||0.37|-0.90|0.4067
82424733|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.5256|TWO_SIDED|95.0|-0.81|0.42|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 14±1||0.42|-0.81|0.5256
82448691|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11|||||TWO_SIDED|90.0|0.53|2.35||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||2.35|0.53|
82448692|NCT02262754|164604700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|90.0|0.33|1.6||||||\>=50 percent sustained response rates: Odds Ratios based on a logistic regression model included treatment as a fixed effect and baseline as a covariate.||1.60|0.33|
82448693|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.18|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-1.06|0.7||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.70|-1.06|
82448694|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.91|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-1.8|-0.03||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.03|-1.80|
82534881|NCT00087490|164767881|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||t-test, 2 sided|||||||0.000
82534882|NCT00755755|164767889|SUPERIORITY_OR_OTHER||Difference in proportions|72.7|||<|0.001|TWO_SIDED|95.0|55.1|83.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p-values doubled (threshold was 0.05) and confidence intervals adjusted|Cochran-Mantel-Haenszel|Adjustment for randomization strata|Confidence intervals with the use of Newcombe-Wilson score method (uncorrected)|||83.2|55.1|<0.001
82534883|NCT00755755|164767889|SUPERIORITY_OR_OTHER||Difference in proportions|73.7|||<|0.001|TWO_SIDED|95.0|56.2|84.0||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p values doubled (threshold was 0.05) and confidence intervals adjusted|Cochran-Mantel-Haenszel|Adjustment for randomization strata|Confidence intervals with the use of Newcombe-Wilson score method (uncorrected)|||84.0|56.2|<0.001
82534884|NCT00755755|164767890|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-22.6||||0.002|TWO_SIDED|95.0|-36.1|-8.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p-values doubled (threshold was 0.05) and confidence intervals adjusted.|Wilcoxon (Mann-Whitney)|Use of the Van Elteren extension to the Wilcoxon rank-sum test with adjustment for randomization strata|Hodges-Lehmann point estimator with corresponding Moses confidence interval.|||-8.2|-36.1|0.002
82534885|NCT00755755|164767890|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-18.2||||0.006|TWO_SIDED|95.0|-33.0|-5.2||As comparison involved two doses of PGL4001 vs Placebo, Bonferroni correction used with p values doubled (threshold was 0.05) and confidence intervals adjusted.|Wilcoxon (Mann-Whitney)|Use of the Van Elteren extension to the Wilcoxon rank-sum test with adjustment for randomization strata|Hodges-Lehmann point estimator with corresponding Moses confidence interval.|||-5.2|-33.0|0.006
82534886|NCT00848211|164767899|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANOVA|||||||0.008
82534887|NCT00848211|164767901|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
82424734|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.1471|TWO_SIDED|95.0|-1.12|0.17|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Left eye - Day 21±1||0.17|-1.12|0.1471
82424735|NCT02507934|164558900|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.2455|TWO_SIDED|95.0|-0.96|0.25|||Student t-test for unpaired data|||T-test on changes from baseline in Ocular Protection Index - Right eye - Day 21±1||0.25|-0.96|0.2455
82424736|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.4233|TWO_SIDED|95.0|-1.98|0.85|||Student t-test for unpaired data|||T test p-value - Left eye - Day 7±1||0.85|-1.98|0.4233
82424737|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.6335|TWO_SIDED|95.0|-1.04|1.69|||Student t-test for unpaired data|||T test p-value - Right eye - Day 7±1||1.69|-1.04|0.6335
82424738|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|-2.04||||0.0103|TWO_SIDED|95.0|-3.56|-0.51|||Student t-test for unpaired data|||T test p-value - Left eye - Day 14±1||-0.51|-3.56|0.0103
82424739|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|-1.34||||0.1006|TWO_SIDED|95.0|-2.95|0.27|||Student t-test for unpaired data|||T test p-value - Right eye - Day 14±1||0.27|-2.95|0.1006
82424740|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0041|TWO_SIDED|95.0|-4.15|-0.85|||Student t-test for unpaired data|||T test p-value - Left eye - Day 21±1||-0.85|-4.15|0.0041
82424741|NCT02507934|164558901|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.0429|TWO_SIDED|95.0|-3.67|-0.06|||Student t-test for unpaired data|||T test p-value - Right eye - Day 21±1||-0.06|-3.67|0.0429
82424742|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.2338|TWO_SIDED|95.0|-0.75|0.19|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 7±1||0.19|-0.75|0.2338
82424743|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.3081|TWO_SIDED|95.0|-0.58|0.19|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 7±1||0.19|-0.58|0.3081
82424744|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|1.59||||0.4287|TWO_SIDED|95.0|-2.57|5.74|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 14±1||5.74|-2.57|0.4287
82424745|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.5765|TWO_SIDED|95.0|-3.14|5.44|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 14±1||5.44|-3.14|0.5765
82424746|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.0259|TWO_SIDED|95.0|-2.18|-0.15|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Left eye - Day 21±1||-0.15|-2.18|0.0259
82424747|NCT02507934|164558902|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.1496|TWO_SIDED|95.0|-2.23|0.37|||Student t-test for unpaired data|||T-test on changes from baseline in Visual acuity score - Right eye - Day 21±1||0.37|-2.23|0.1496
82424748|NCT02507934|164558903|SUPERIORITY|||||||0.2342|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 7±1||||0.2342
82424749|NCT02507934|164558903|SUPERIORITY|||||||0.8874|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 7±1||||0.8874
82424750|NCT02507934|164558903|SUPERIORITY|||||||0.0504|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 7±1||||0.0504
82424751|NCT02507934|164558903|SUPERIORITY|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Left - Day 7±1||||0.0814
82424752|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 7±1||||1.0000
82424753|NCT02507934|164558903|SUPERIORITY|||||||0.3855|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 7±1||||0.3855
82424754|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 7±1||||1.0000
82424755|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 7±1||||1.0000
82424756|NCT02507934|164558903|SUPERIORITY|||||||0.4754|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 7±1||||0.4754
82424757|NCT02507934|164558903|SUPERIORITY|||||||0.2914|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 7±1||||0.2914
82534888|NCT00811187|164767905|SUPERIORITY|\[Not Specified\]|Mean Difference (Net)|-2.03|||<|0.001|TWO_SIDED||||||Regression, Linear||Treatment pain difference= Lidocaine (0.97) - Placebo (3.00).|A sample size calculation and power analysis was conducted using PS Power and Sample Size Calculations 2.1.30 (Vanderbilt University, Department of Biostatistics, Nashville, TN) to determine necessary sample size.||||<.001
82534889|NCT02444143|164767986|OTHER|||||||0.29|||||||t-test, 2 sided|||||||0.29
82534890|NCT02444143|164767987|OTHER|||||||0.9|||||||t-test, 2 sided|||||||0.90
82534891|NCT03582137|164767988|SUPERIORITY||Mean Difference (Net)|-1.8049||||0.3785|TWO_SIDED|95.0|-5.8839|2.2741|||Mixed Models Analysis|||||2.2741|-5.8839|0.3785
82534892|NCT03582137|164767992|SUPERIORITY||Mean Difference (Net)|-4.4254||||0.2712|TWO_SIDED|95.0|-12.4018|3.551|||Mixed Models Analysis|||||3.5510|-12.4018|0.2712
82534893|NCT03582137|164767993|SUPERIORITY||Mean Difference (Net)|0.3133||||0.8974|TWO_SIDED|95.0|-4.5414|5.168|||Mixed Models Analysis|||||5.1680|-4.5414|0.8974
82448695|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.73|STANDARD_ERROR_OF_MEAN|0.53|||TWO_SIDED|90.0|-0.15|1.61||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.61|-0.15|
82448696|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.7|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-1.69|0.29||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.29|-1.69|
82448697|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.11|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-2.11|-0.11||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.11|-2.11|
82448698|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.41|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|90.0|-0.57|1.39||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.39|-0.57|
82448699|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.41|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-1.42|0.6||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||0.60|-1.42|
82534894|NCT03582137|164767994|SUPERIORITY||Mean Difference (Net)|0.1505||||0.4643|TWO_SIDED|95.0|-0.2882|0.5892|||Mixed Models Analysis|||||0.5892|-0.2882|0.4643
82534895|NCT03582137|164767995|SUPERIORITY||Mean Difference (Net)|-0.1188||||0.6245|TWO_SIDED|95.0|-0.6019|0.3644|||Mixed Models Analysis|||||0.3644|-0.6019|0.6245
82534896|NCT03582137|164768001|SUPERIORITY||Mean Difference (Net)|-0.3341||||0.5921|TWO_SIDED|95.0|-1.5749|0.9068|||Mixed Models Analysis|||||0.9068|-1.5749|0.5921
82534897|NCT03582137|164768002|SUPERIORITY||Mean Difference (Net)|1.9352||||0.1016|TWO_SIDED|95.0|-0.4372|4.3076|||Mixed Models Analysis|||||4.3076|-0.4372|0.1016
82534898|NCT03582137|164768003|SUPERIORITY||Mean Difference (Net)|19.686||||0.0661|TWO_SIDED|95.0|-1.3733|40.7452|||Mixed Models Analysis|||||40.7452|-1.3733|0.0661
82534899|NCT03582137|164768004|SUPERIORITY||Mean Difference (Net)|-3.2214||||0.088|TWO_SIDED|95.0|-6.9381|0.4953|||Mixed Models Analysis|||||0.4953|-6.9381|0.0880
82534900|NCT03582137|164768005|SUPERIORITY||Mean Difference (Net)|-4.9836||||0.2827|TWO_SIDED|95.0|-14.2093|4.2421|||Mixed Models Analysis|||||4.2421|-14.2093|0.2827
82448700|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.27|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-2.28|-0.27||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||-0.27|-2.28|
82448701|NCT02262754|164604706|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.86|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|90.0|-0.12|1.85||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline was included as a covariate.||1.85|-0.12|
82448702|NCT02262754|164604707|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Placebo)|-0.64|||||TWO_SIDED|90.0|-1.63|0.35||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||0.35|-1.63|
82448703|NCT02262754|164604707|SUPERIORITY_OR_OTHER||Mean Difference (Naproxen-Placebo)|-1.43|||||TWO_SIDED|90.0|-2.4|-0.45||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||-0.45|-2.40|
82534901|NCT03582137|164768006|SUPERIORITY||Mean Difference (Net)|0.576||||0.7703|TWO_SIDED|95.0|-3.3697|4.5216|||Mixed Models Analysis|||||4.5216|-3.3697|0.7703
82534902|NCT03582137|164768007|SUPERIORITY||Mean Difference (Net)|-0.8834||||0.1874|TWO_SIDED|95.0|-2.2172|0.4504|||Mixed Models Analysis|||||0.4504|-2.2172|0.1874
82534903|NCT03582137|164768010|SUPERIORITY||Mean Difference (Net)|1.2993||||0.1646|TWO_SIDED|95.0|-0.5533|3.1519|||Mixed Models Analysis|||||3.1519|-0.5533|0.1646
82534904|NCT03582137|164768011|SUPERIORITY||Mean Difference (Net)|-1.7519||||0.1093|TWO_SIDED|95.0|-3.9082|0.4045|||Mixed Models Analysis|||||0.4045|-3.9082|0.1093
82534905|NCT03582137|164768012|SUPERIORITY||Mean Difference (Net)|1.3532||||0.1819|TWO_SIDED|95.0|-0.6511|3.3576|||Mixed Models Analysis|||||3.3576|-0.6511|0.1819
82534906|NCT03582137|164768013|SUPERIORITY||Mean Difference (Net)|0.9667||||0.2282|TWO_SIDED|95.0|-0.6287|2.5621|||Mixed Models Analysis|||||2.5621|-0.6287|0.2282
82534907|NCT03582137|164768014|SUPERIORITY||Mean Difference (Net)|-0.2614||||0.6167|TWO_SIDED|95.0|-1.3002|0.7775|||Mixed Models Analysis|||||0.7775|-1.3002|0.6167
82534908|NCT03582137|164768015|SUPERIORITY||Mean Difference (Net)|0.3067||||0.8378|TWO_SIDED|95.0|-2.6765|3.2899|||Mixed Models Analysis|||||3.2899|-2.6765|0.8378
82534909|NCT03582137|164768017|SUPERIORITY||Mean Difference (Net)|0.3237||||0.2103|TWO_SIDED|95.0|-0.188|0.8353|||Mixed Models Analysis|||||0.8353|-0.1880|0.2103
82534910|NCT03582137|164768018|SUPERIORITY||Mean Difference (Net)|-0.504||||0.7197|TWO_SIDED|95.0|-3.3015|2.2934|||Mixed Models Analysis|||||2.2934|-3.3015|0.7197
82534911|NCT03582137|164768019|SUPERIORITY||Mean Difference (Net)|2.6158||||0.0686|TWO_SIDED|95.0|-0.2058|5.4373|||Mixed Models Analysis|||||5.4373|-0.2058|0.0686
82534912|NCT03582137|164768020|SUPERIORITY||Mean Difference (Net)|2.7891||||0.2339|TWO_SIDED|95.0|-1.8523|7.4304|||Mixed Models Analysis|||||7.4304|-1.8523|0.2339
82534913|NCT03582137|164768021|SUPERIORITY||Mean Difference (Net)|0.9536||||0.7557|TWO_SIDED|95.0|-5.1655|7.0727|||Mixed Models Analysis|||||7.0727|-5.1655|0.7557
82534914|NCT03582137|164768023|SUPERIORITY||Mean Difference (Net)|0.05126||||0.915|TWO_SIDED|95.0|-0.9086|1.0111|||Mixed Models Analysis|||||1.0111|-0.9086|0.9150
82534915|NCT03582137|164768024|SUPERIORITY||Mean Difference (Net)|-0.6699||||0.6164|TWO_SIDED|95.0|-3.3316|1.9918|||Mixed Models Analysis|||||1.9918|-3.3316|0.6164
82534916|NCT03582137|164768025|SUPERIORITY||Mean Difference (Net)|-0.1358||||0.755|TWO_SIDED|95.0|-1.0028|0.7312|||Mixed Models Analysis|||||0.7312|-1.0028|0.7550
82534917|NCT03582137|164768026|SUPERIORITY||Mean Difference (Net)|-0.09605||||0.9016|TWO_SIDED|95.0|-1.6449|1.4528|||Mixed Models Analysis|||||1.4528|-1.6449|0.9016
82534918|NCT03582137|164768027|SUPERIORITY||Mean Difference (Net)|-0.3217||||0.9219|TWO_SIDED|95.0|-6.8584|6.2151|||Mixed Models Analysis|||||6.2151|-6.8584|0.9219
82534919|NCT03582137|164768028|SUPERIORITY||Mean Difference (Net)|0.02897||||0.3178|TWO_SIDED|95.0|-0.02857|0.08651|||Mixed Models Analysis|||||0.08651|-0.02857|0.3178
82534920|NCT03582137|164768033|SUPERIORITY||Mean Difference (Net)|0.2288||||0.7693|TWO_SIDED|95.0|-1.325|1.7825|||Mixed Models Analysis|||||1.7825|-1.3250|0.7693
82534921|NCT03582137|164768034|SUPERIORITY||Mean Difference (Net)|-0.8121||||0.5285|TWO_SIDED|95.0|-3.3743|1.7501|||Mixed Models Analysis|||||1.7501|-3.3743|0.5285
82534922|NCT03582137|164768035|SUPERIORITY||Mean Difference (Net)|-0.02525||||0.9463|TWO_SIDED|95.0|-0.7717|0.7212|||Mixed Models Analysis|||||0.7212|-0.7717|0.9463
82534923|NCT03582137|164768036|SUPERIORITY||Mean Difference (Net)|-0.3042||||0.4362|TWO_SIDED|95.0|-1.0817|0.4732|||Mixed Models Analysis|||||0.4732|-1.0817|0.4362
82534924|NCT03582137|164768037|SUPERIORITY||Mean Difference (Net)|-0.06489||||0.9327|TWO_SIDED|95.0|-1.5957|1.4659|||Mixed Models Analysis|||||1.4659|-1.5957|0.9327
82534925|NCT03582137|164768040|SUPERIORITY||Mean Difference (Net)|-0.2763||||0.4401|TWO_SIDED|95.0|-0.988|0.4354|||Mixed Models Analysis|||||0.4354|-0.9880|0.4401
82534926|NCT03582137|164768041|SUPERIORITY||Mean Difference (Net)|-0.8319||||0.8085|TWO_SIDED|95.0|-7.6835|6.0197|||Mixed Models Analysis|||||6.0197|-7.6835|0.8085
82534927|NCT03582137|164768043|SUPERIORITY||Mean Difference (Net)|0.02673||||0.9674|TWO_SIDED|95.0|-1.2757|1.3292|||Mixed Models Analysis|||||1.3292|-1.2757|0.9674
82534928|NCT03582137|164768045|SUPERIORITY||Mean Difference (Net)|-46.92||||0.1128|TWO_SIDED|95.0|-105.51|11.68|||Mixed Models Analysis|||||11.68|-105.51|0.1128
82534929|NCT00483262|164768054|SUPERIORITY_OR_OTHER||>= grade 3 adverse event proportion|0.9|||||TWO_SIDED|90.0|0.72|0.98|||||Estimated proportion of patients with a adverse event of grade 3 or higher.|Single Arm Study||.98|.72|
82534930|NCT00483262|164768054|SUPERIORITY_OR_OTHER||toxicity grade >=3 proportion|0.79|||||TWO_SIDED|90.0|0.66|0.89|||||No comparison. Estimate the proportion of patients with grade 3 or higher toxicity.|Phase II toxicity||.89|.66|
82534931|NCT00483262|164768055|SUPERIORITY_OR_OTHER||response rate of PR or better|0.1|||||TWO_SIDED|90.0|0.02|0.28|||||Response of PR or better|Phase I part of this phase I/II study||.28|.02|
82534932|NCT00483262|164768055|SUPERIORITY_OR_OTHER||response rate of PR or better|0.33|||||TWO_SIDED|90.0|0.21|0.47|||||Response of PR or better|Phase II part of this phase I/II study.||0.47|0.21|
82534933|NCT02303574|164768112|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.287|STANDARD_ERROR_OF_MEAN|0.05085|||TWO_SIDED|95.0|1.183|1.391||||||||1.391|1.183|
82534934|NCT02303574|164768112|OTHER|Effect of food analysis by linear mixed effects ANOVA model with fixed effect of fasting status.|Ratio (%)|90.72|||||TWO_SIDED|90.0|83.72|98.31||||||||98.31|83.72|
82534935|NCT02303574|164768113|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|159.4|||||TWO_SIDED|90.0|140.61|180.7||||||||180.70|140.61|
82534936|NCT02303574|164768113|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|151.82|||||TWO_SIDED|90.0|138.23|166.74||||||||166.74|138.23|
82534937|NCT02303574|164768113|OTHER|Time dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|158.68|||||TWO_SIDED|90.0|146.67|171.67||||||||171.67|146.67|
82534938|NCT02303574|164768114|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.228|STANDARD_ERROR_OF_MEAN|0.1329|||TWO_SIDED|95.0|0.9513|1.504||||||||1.504|0.9513|
82424758|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 7±1||||1.0000
82424759|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 7±1||||1.0000
82424760|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 7±1||||1.0000
82424761|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 7±1||||1.0000
82534939|NCT02303574|164768114|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|159.4|||||TWO_SIDED|90.0|140.61|180.7||||||||180.70|140.61|
82534940|NCT02303574|164768114|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|151.82|||||TWO_SIDED|90.0|138.23|166.74||||||||166.74|138.23|
82534941|NCT02303574|164768114|OTHER|ime dependency was assessed via linear mixed effects ANOVA model with fixed effects of dose level, day and dose-level-by-day interaction.|Ratio (%)|158.68|||||TWO_SIDED|90.0|146.67|171.67||||||||171.67|146.67|
82534942|NCT02303574|164768115|OTHER||Slope|1.302|STANDARD_ERROR_OF_MEAN|0.05056|||TWO_SIDED|95.0|1.198|1.406||||||Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.||1.406|1.198|
82534943|NCT02303574|164768115|OTHER|Effect of food analysis by linear mixed effects ANOVA model with fixed effect of fasting status.|Ratio (%)|64.14|||||TWO_SIDED|90.0|55.07|74.7||||||||74.70|55.07|
82534944|NCT02303574|164768116|OTHER|Dose proportionality was analyzed by power model. Slope parameter was obtained via linear least squares.|Slope|1.157|STANDARD_ERROR_OF_MEAN|0.1098|||TWO_SIDED|95.0|0.9285|1.385||||||||1.385|0.9285|
82534945|NCT00994279|164768158|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|TWO_SIDED||||||Chi-squared|||Null hypothesis is that the two arms will not differ in retention at 14 weeks.||||.53
82534946|NCT00994279|164768159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis is that the two groups would not differ in fatigue at 10 weeks.||||.98
82534947|NCT00162942|164768162|SUPERIORITY_OR_OTHER|||||||0.858|||||||Fisher Exact|||||||.858
82534948|NCT00162942|164768164|SUPERIORITY_OR_OTHER|||||||0.813||95.0|||||Student's t-test|||||||0.813
82534949|NCT00162942|164768165|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
82534950|NCT00162942|164768166|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Student's t-test|||||||0.670
82534951|NCT00162942|164768167|SUPERIORITY_OR_OTHER|||||||0.977||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.977
82534952|NCT00162942|164768168|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.670
82424762|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 7±1||||1.0000
82424763|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 7±1||||1.0000
82534953|NCT00162942|164768169|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.170
82534954|NCT00162942|164768170|SUPERIORITY_OR_OTHER|||||||0.0773||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0773
82534955|NCT00162942|164768171|SUPERIORITY_OR_OTHER|||||||0.261||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.261
82534956|NCT00162942|164768172|SUPERIORITY_OR_OTHER|||||||0.379||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.379
82534957|NCT00162942|164768173|SUPERIORITY_OR_OTHER|||||||0.441||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.441
82534958|NCT00162942|164768174|SUPERIORITY_OR_OTHER|||||||0.759||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.759
82534959|NCT00162942|164768175|SUPERIORITY_OR_OTHER|||||||0.222||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.222
82534960|NCT00162942|164768176|SUPERIORITY_OR_OTHER|||||||0.256||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.256
82534961|NCT00162942|164768177|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.870
82534962|NCT00162942|164768178|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.350
82534963|NCT00162942|164768179|SUPERIORITY_OR_OTHER|||||||0.0632||95.0|||||Fisher Exact|||||||0.0632
82534964|NCT00162942|164768179|SUPERIORITY_OR_OTHER|||||||0.0504||95.0|||||Fisher Exact (Mid-P-Value)|||||||0.0504
82534965|NCT00162942|164768180|SUPERIORITY_OR_OTHER|||||||0.8265||95.0|||||Fisher Exact|||||||0.8265
82534966|NCT00162942|164768181|SUPERIORITY_OR_OTHER|||||||0.0676||95.0|||||Fisher Exact|||||||0.0676
82534967|NCT00162942|164768181|SUPERIORITY_OR_OTHER|||||||0.0506||95.0|||||Fisher Exact (Mid-P-Value)|||||||0.0506
82534968|NCT00162942|164768182|SUPERIORITY_OR_OTHER|||||||0.8721||95.0|||||Fisher Exact|||||||0.8721
82534969|NCT00162942|164768183|SUPERIORITY_OR_OTHER|||||||0.0289||95.0|||||Fisher Exact|||||||0.0289
82534970|NCT00162942|164768184|SUPERIORITY_OR_OTHER|||||||0.8618||95.0|||||Fisher Exact|||||||0.8618
82534971|NCT01163149|164768186|SUPERIORITY|If p-values were less than 0.05 and the Hodges-Lehman-Sen estimate favored asfotase alfa (eg, it had a negative sign indicating the between-group differences in change from Baseline favored treated patients), then superiority over control was claimed.|Hodges-Lehman-Sen|-302.05||||0.0285|TWO_SIDED|95.0|-626.4|-59.2||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||PLP Change from Baseline to Week 24||-59.20|-626.40|0.0285
82534972|NCT01163149|164768187|SUPERIORITY|If p-values were less than 0.05 and the Hodges-Lehman-Sen estimate favored asfotase alfa (eg, it had a negative sign indicating the between-group differences in change from Baseline favored treated patients), then superiority over control was claimed.|Hodges-Lehman-Sen|-1.825||||0.0715|TWO_SIDED|95.0|-3.21|0.23||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum||Estimate and exact confidence interval are from Hodges-Lehmann-Sen method for location shift in distribution between the treatment group and the control group.|PPi Change from Baseline to Week 24||0.230|-3.210|0.0715
82534973|NCT01163149|164768189|SUPERIORITY||Hodges-Lehmann-Sen|-0.91||||0.3301|TWO_SIDED|95.0|-3.32|1.78||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Hip Total BMC Change from Baseline to Week 24||1.780|-3.320|0.3301
82534974|NCT01163149|164768189|SUPERIORITY||Hodges-Lehmann-Sen|1.33||||0.3827|TWO_SIDED|95.0|-1.36|3.12||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Lumbar Spine BMC Change from Baseline to Week 24||3.120|-1.360|0.3827
82534975|NCT01163149|164768189|SUPERIORITY||Hodges-Lehmann-Sen|-77.1||||0.0485|TWO_SIDED|95.0|-917.44|-1.74||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Whole Body BMC Change from Baseline to Week 24||-1.740|-917.440|0.0485
82534976|NCT01163149|164768190|SUPERIORITY||Hodges-Lehmann-Sen|-0.0125||||0.7357|TWO_SIDED|95.0|-0.04|0.039||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Hip Total Change from Baseline to Week 24||0.0390|-0.0400|0.7357
82534977|NCT01163149|164768190|SUPERIORITY||Hodges-Lehmann-Sen|0.0255||||0.2439|TWO_SIDED|95.0|-0.009|0.041||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Lumbar Spine BMD Change from Baseline to Week 24||0.0410|-0.0090|0.2439
82534978|NCT01163149|164768190|SUPERIORITY||Hodges-Lehmann-Sen|-0.0315||||0.1222|TWO_SIDED|95.0|-0.059|0.012||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum|||Whole Body BMD Change from Baseline to Week 24||0.0120|-0.0590|0.1222
82534979|NCT01163149|164768191|SUPERIORITY||Hodges-Lehmann-Sen|44.0||||0.1303|TWO_SIDED|95.0|-73.0|114.0||Two-sided with p-value threshold \<0.05 for statistical significance|Wilcoxon rank-sum||Estimate and exact confidence interval are from Hodges-Lehmann-Sen method for location shift in distribution between the treatment group and the control group|Week 24 Change from Baseline||114.0|-73.0|0.1303
82534980|NCT01253980|164768217|SUPERIORITY_OR_OTHER||Relative risk|0.6|||>|0.5|TWO_SIDED|95.0|0.11|3.37|||Fisher Exact|||||3.37|0.11|>0.50
82534981|NCT01700530|164768218|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82534982|NCT02806336|164768245|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||change in combined groups||||0.03
82534983|NCT02806336|164768246|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
82534984|NCT02806336|164768247|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
82534985|NCT02806336|164768248|SUPERIORITY|||||||0.03||||||change in functional gait analysis (FGA) in combined groups compared to baseline|t-test, 2 sided|||||||0.03
82534986|NCT02806336|164768249|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82534987|NCT02806336|164768250|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||.17
82534988|NCT02806336|164768250|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82647673|NCT00361257|165010947|SUPERIORITY_OR_OTHER||Slope|-0.405|STANDARD_ERROR_OF_MEAN|0.391||0.304|TWO_SIDED|95.0|-1.182|0.373||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline medication management score.||The null hypothesis was that the 24 change of medication management test score in the minocycline group was the same as the one in the placebo group.||0.373|-1.182|0.304
82424764|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 7±1||||1.0000
82424765|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 7±1||||1.0000
82424766|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 7±1||||1.0000
82424767|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 7±1||||1.0000
82424768|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 7±1||||1.0000
82424769|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 7±1||||1.0000
82424770|NCT02507934|164558903|SUPERIORITY|||||||0.2429|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 14±1||||0.2429
82424771|NCT02507934|164558903|SUPERIORITY|||||||0.5707|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 14±1||||0.5707
82424772|NCT02507934|164558903|SUPERIORITY|||||||0.0092|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 14±1||||0.0092
82647674|NCT00361257|165010952|SUPERIORITY_OR_OTHER||Slope|-0.097|STANDARD_ERROR_OF_MEAN|0.146||0.506|TWO_SIDED|95.0|-0.388|0.193||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for the stratification variables, the baseline CNS penetration score, and the baseline alternate psychomotor function score.||The null hypothesis was that the 24 week change in alternate psychomotor function score in the minocycline group was the same as the one in the placebo group.||0.193|-0.388|0.506
82424773|NCT02507934|164558903|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Left - Day 14±1||||0.0039
82424774|NCT02507934|164558903|SUPERIORITY|||||||0.2882|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 14±1||||0.2882
82424775|NCT02507934|164558903|SUPERIORITY|||||||0.4017|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 14±1||||0.4017
82424776|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 14±1||||1.0000
82424777|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 14±1||||1.0000
82424778|NCT02507934|164558903|SUPERIORITY|||||||0.0731|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 14±1||||0.0731
82647675|NCT00361257|165010953|SUPERIORITY_OR_OTHER||Slope|0.146|STANDARD_ERROR_OF_MEAN|0.207||0.484|TWO_SIDED|95.0|-0.266|0.558||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, baseline CNS penetration score, and the baseline alternate verbal memory score.||The null hypothesis was that the 24 week change in the alternate verbal memory score in the minocycline group was the same as the one in the placebo group.||0.558|-0.266|0.484
82424779|NCT02507934|164558903|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 14±1||||0.0020
82424780|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 14±1||||1.0000
82424781|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 14±1||||1.0000
82424782|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 14±1||||1.0000
82424783|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 14±1||||1.0000
82424784|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 14±1||||1.0000
82424785|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 14±1||||1.0000
82424786|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 14±1||||1.0000
82424787|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 14±1||||1.0000
82424788|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 14±1||||1.0000
82424789|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 14±1||||1.0000
82424790|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 14±1||||1.0000
82424791|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 14±1||||1.0000
82424792|NCT02507934|164558903|SUPERIORITY|||||||0.1376|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Right - Day 21±1||||0.1376
82424793|NCT02507934|164558903|SUPERIORITY|||||||0.3252|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Meibomian Glands - Left - Day 21±1||||0.3252
82424794|NCT02507934|164558903|SUPERIORITY|||||||0.0111|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 21±1||||0.0111
82424795|NCT02507934|164558903|SUPERIORITY|||||||0.0049|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Erythema - Right - Day 21±1||||0.0049
82424796|NCT02507934|164558903|SUPERIORITY|||||||0.1178|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Right - Day 21±1||||0.1178
82424797|NCT02507934|164558903|SUPERIORITY|||||||0.9042|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Eyelid - Oedema - Left - Day 21±1||||0.9042
82424798|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Right - Day 21±1||||1.0000
82534989|NCT02806336|164768251|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82424799|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lashes - Left - Day 21±1||||1.0000
82424800|NCT02507934|164558903|SUPERIORITY|||||||0.0253|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Right - Day 21±1||||0.0253
82424801|NCT02507934|164558903|SUPERIORITY|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Erythema - Left - Day 21±1||||0.0016
82424802|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Right - Day 21±1||||1.0000
82424803|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Conjunctiva - Oedema - Left - Day 21±1||||1.0000
82424804|NCT02507934|164558903|SUPERIORITY|||||||0.3165|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Right - Day 21±1||||0.3165
82424805|NCT02507934|164558903|SUPERIORITY|||||||0.3165|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Lens - Left - Day 21±1||||0.3165
82424806|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Right - Day 21±1||||1.0000
82424807|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Iris - Left - Day 21±1||||1.0000
82424808|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Right - Day 21±1||||1.0000
82424809|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Anterior chamber inflammation - Left - Day 21±1||||1.0000
82424810|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Right - Day 21±1||||1.0000
82424811|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea transparency - Left - Day 21±1||||1.0000
82424812|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Right - Day 21±1||||1.0000
82424813|NCT02507934|164558903|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum Test on changes from baseline in slit lamp examination scores - Cornea neovascularization - Left - Day 21±1||||1.0000
82424814|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.0599|TWO_SIDED|95.0|-0.05|2.29|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 7±1||2.29|-0.05|0.0599
82424815|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.3969|TWO_SIDED|95.0|-0.68|1.66|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye - Day 7±1||1.66|-0.68|0.3969
82534990|NCT04529538|164768278|OTHER||GMT Ratio|0.68|||||TWO_SIDED|95.0|0.252|1.838|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of Type 1 neutralizing antibody GMT at Day 29||1.838|0.252|
82424816|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.7225|TWO_SIDED|95.0|-1.29|1.84|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 14±1||1.84|-1.29|0.7225
82424817|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.269|TWO_SIDED|95.0|-2.14|0.62|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye - Day 14±1||0.62|-2.14|0.2690
82424818|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.2344|TWO_SIDED|95.0|-0.53|2.1|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Left eye - Day 21±1||2.10|-0.53|0.2344
82534991|NCT04529538|164768279|OTHER||GMT Ratio|1.26|||||TWO_SIDED|95.0|0.232|6.833|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 1 neutralizing antibody GMT at Day 29||6.833|0.232|
82647676|NCT00361257|165010954|SUPERIORITY_OR_OTHER||Slope|0.055|STANDARD_ERROR_OF_MEAN|0.137||0.69|TWO_SIDED|95.0|-0.217|0.327||The p-value was not adjusted for multiple comparisons.|Regression, Linear|The model was adjusted for stratification variables, baseline CNS penetration score, and the baseline alternate frontal systems score.||The null hypothesis was the 24 week change of alternate frontal systems score in the minocycline group was the same as the one in the placebo group.||0.327|-0.217|0.690
82647677|NCT00782275|165010973|SUPERIORITY|||||||0.081|||||||exact binomial test|||The regimen was evaluated against an historical control with null and alternative 4-month PFS rates of 50% and 70%, respectively. With the final sample size of 40 eligible patients and using the same operating characteristics (alpha and beta 10%), the decision rule changes such that if 25 or more patients of 40 are alive and progression-free at 4 months then this regimen is considered promising.||||0.081
82647678|NCT04378010|165010977|OTHER||LS mean difference|1.88|STANDARD_ERROR_OF_MEAN|1.788||0.454|TWO_SIDED|95.0|-3.479|7.239|||Mixed model repeated measures|||||7.239|-3.479|0.454
82424819|NCT02507934|164558904|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.5953|TWO_SIDED|95.0|-1.3|2.24|||Student t-test for unpaired data|||T-test on changes from baseline in Intraocular pressure - Right eye||2.24|-1.30|0.5953
82424820|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.2193|TWO_SIDED|95.0|-0.54|2.11|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 7||2.11|-0.54|0.2193
82424821|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.0024|TWO_SIDED|95.0|0.51|2.18|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 8||2.18|0.51|0.0024
82424822|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.425|TWO_SIDED|95.0|-0.49|1.14|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 9||1.14|-0.49|0.4250
82424823|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.1275|TWO_SIDED|95.0|-0.17|1.29|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 10||1.29|-0.17|0.1275
82424824|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.66||||0.0844|TWO_SIDED|95.0|-0.09|1.42|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 11||1.42|-0.09|0.0844
82424825|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.0238|TWO_SIDED|95.0|0.12|1.6|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 12||1.60|0.12|0.0238
82424826|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.0369|TWO_SIDED|95.0|0.05|1.61|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 13||1.61|0.05|0.0369
82424827|NCT02507934|164558905|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.3496|TWO_SIDED|95.0|-0.61|1.64|||Student t-test for unpaired data|||T-test on number of daily administrations of IMD during the second week of the clinical investigation - Day 14||1.64|-0.61|0.3496
82424828|NCT02421094|164558969|SUPERIORITY|||||||0.1621|||||||ANCOVA|||||||0.1621
82424829|NCT02421094|164558970|SUPERIORITY|||||||0.9835|||||||ANCOVA|||||||0.9835
82424830|NCT02421094|164558971|SUPERIORITY|||||||0.266|||||||ANCOVA|||||||0.2660
82424831|NCT06203717|164558983|SUPERIORITY||Mean Difference (Net)|9.15|STANDARD_DEVIATION|10.06||0.007|TWO_SIDED|95.0|3.08|15.23||a priori threshold for statistical significance: p\<0.05|Paired-sample t-test|||||15.23|3.08|0.007
82424832|NCT06203717|164558984|SUPERIORITY||Mean Difference (Net)|7.77|STANDARD_DEVIATION|6.35||0.0009|TWO_SIDED|95.0|3.93|11.61|||Paired-sample t-test|||||11.61|3.93|0.0009
82424833|NCT01467466|164558987|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7|TWO_SIDED|95.0|0.73|1.24|||Wald's Chi-Square|||||1.24|0.73|0.70
82424834|NCT01467466|164558988|SUPERIORITY||Odds Ratio (OR)|1.02||||0.86|TWO_SIDED|95.0|0.78|1.34|||Wald's Chi-Square|||||1.34|0.78|0.86
82424835|NCT03773484|164558994|OTHER||Slope|-0.008|STANDARD_ERROR_OF_MEAN|0.011||0.43|TWO_SIDED|95.0|-0.03|0.01|||Mixed Models Analysis|||Pre post comparison for Opioid Naïve patients||0.01|-0.03|0.43
82424836|NCT03773484|164558994|OTHER||Slope|-0.019|STANDARD_ERROR_OF_MEAN|0.016||0.24|TWO_SIDED|95.0|-0.051|0.013|||Mixed Models Analysis|||Pre-post comparison for at-risk for long term use patients||0.013|-0.051|0.24
82424837|NCT04251533|164559005|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.92|2.41|||Regression, Cox|||||2.41|0.92|
82424838|NCT00210132|164559024|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Comparison of proportions.||||0.99
82424839|NCT00210132|164559025|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82424840|NCT00432965|164559031|SUPERIORITY||Odds Ratio (OR)|1.89||||0.007|TWO_SIDED|95.0|1.19|3.02|||Fisher Exact|||Time Frame: Days 0-114||3.02|1.19|0.007
82424841|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9403|TWO_SIDED|90.0|0.63|1.66|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib monotherapy.|Patient Population BRCAm||1.66|0.63|0.9403
82424842|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9282|TWO_SIDED|90.0|0.52|1.88|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib monotherapy.|Patient Population BRCAm||1.88|0.52|0.9282
82647679|NCT04378010|165010977|OTHER||LS mean difference|-0.439|STANDARD_ERROR_OF_MEAN|1.553||0.848|TWO_SIDED|95.0|-5.458|4.579|||Mixed model repeated measures|||||4.579|-5.458|0.848
82647680|NCT04378010|165010988|OTHER||LS mean difference|-11.718|STANDARD_ERROR_OF_MEAN|7.052||0.114|TWO_SIDED|95.0|-26.342|2.906|||ANCOVA|||||2.906|-26.342|0.114
82647681|NCT04378010|165010988|OTHER||LS mean difference|-11.261|STANDARD_ERROR_OF_MEAN|6.879||0.099|TWO_SIDED|95.0|-24.723|2.2|||ANCOVA|||||2.200|-24.723|0.099
82647682|NCT04378010|165010989|OTHER||LS mean difference|1.05|STANDARD_ERROR_OF_MEAN|0.331||0.003|TWO_SIDED|95.0|0.365|1.736|||ANCOVA|||||1.736|0.365|0.003
82424843|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.1274|TWO_SIDED|90.0|0.28|1.03|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non BRCAm HRRm||1.03|0.28|0.1274
82424844|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.2956|TWO_SIDED|90.0|0.23|1.26|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non BRCAm HRRm||1.26|0.23|0.2956
82424845|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2959|TWO_SIDED|90.0|0.5|1.14|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non HRRm||1.14|0.50|0.2959
82424846|NCT03330847|164559066|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0193|TWO_SIDED|90.0|0.28|0.8|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non HRRm||0.80|0.28|0.0193
82424847|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.6147|TWO_SIDED|90.0|0.53|1.39|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population BRCAm||1.39|0.53|0.6147
82424848|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.7879|TWO_SIDED|90.0|0.48|1.68|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population BRCAm||1.68|0.48|0.7879
82424849|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.3695|TWO_SIDED|90.0|0.38|1.31|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non BRCAm HRRm||1.31|0.38|0.3695
82534992|NCT04529538|164768279|OTHER||GMT Ratio|1.98|||||TWO_SIDED|95.0|0.603|6.528|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 1 neutralizing antibody GMT at Day 57||6.528|0.603|
82534993|NCT04529538|164768280|OTHER||GMT Ratio|1.56|||||TWO_SIDED|95.0|0.639|3.828|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 29||3.828|0.639|
82534994|NCT04529538|164768281|OTHER||GMT Ratio|1.79|||||TWO_SIDED|95.0|0.772|4.163|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 29||4.163|0.772|
82534995|NCT04529538|164768281|OTHER||GMT Ratio|2.51|||||TWO_SIDED|95.0|0.994|6.34|||||GMT ratios (nOPV/mOPV) were estimated via a linear model of the log₂ neutralizing antibody titer as a function of group with a fixed parameter for site and a covariate for the baseline log₂ neutralizing antibody titer level.|Comparison of type 3 neutralizing antibody GMT at Day 57||6.340|0.994|
82424850|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.4586|TWO_SIDED|90.0|0.29|1.58|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non BRCAm HRRm||1.58|0.29|0.4586
82424851|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.7452|TWO_SIDED|90.0|0.61|1.31|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + ceralasertib.|Patient Population Non HRRm||1.31|0.61|0.7452
82424852|NCT03330847|164559067|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.1185|TWO_SIDED|90.0|0.37|1.0|||Two-sided log-rank tests|Stratified for prior platinum-based therapy (no,yes) using Breslow's approach for handling of ties.|Proportional hazards models based on prior platinum-based therapy (no, yes). Hazard ratio \< 1 favours respective combination treatment related with a longer PFS than olaparib monotherapy. Here, favours olaparib + adavosertib.|Patient Population Non HRRm||1.00|0.37|0.1185
82424853|NCT05211596|164559086|SUPERIORITY||Mean Difference (Net)|0.43||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
82534996|NCT04529538|164768282|OTHER||Rate Difference|-4.0|||>|0.999|TWO_SIDED|95.0|-27.67|22.72|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-Group Seroconversion Rate (4-fold rise) in Neutralizing Antibody Titers||22.72|-27.67|>0.999
82534997|NCT04529538|164768283|OTHER||Rate Difference|-2.8|||>|0.999|TWO_SIDED|95.0|-20.47|20.86|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after first dose.||20.86|-20.47|>0.999
82534998|NCT04529538|164768283|OTHER||Rate Difference|8.3||||0.263|TWO_SIDED|95.0|-5.71|30.57|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after 2nd dose.||30.57|-5.71|0.263
82424854|NCT05211596|164559087|SUPERIORITY||Mean Difference (Net)|0.22||||0.264|TWO_SIDED||||||t-test, 2 sided|||||||0.264
82424855|NCT05211596|164559088|SUPERIORITY||Mean Difference (Net)|849.35||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82534999|NCT04529538|164768284|OTHER||Rate Difference|14.3||||0.224|TWO_SIDED|95.0|-8.3|40.45|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after vaccination||40.45|-8.30|0.224
82424856|NCT05211596|164559089|SUPERIORITY||Mean Difference (Net)|777.42||||0.054|TWO_SIDED||||||t-test, 2 sided|||||||0.054
82535000|NCT04529538|164768285|OTHER||Rate Difference|9.8||||0.275|TWO_SIDED|95.0|-7.29|35.19|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after first dose.||35.19|-7.29|0.275
82535001|NCT04529538|164768285|OTHER||Rate Difference|17.9||||0.1|TWO_SIDED|95.0|-1.27|44.93|||Fisher Exact||Rate Difference = nOPV - mOPV|Between-group comparison of seroconversion rate (4-fold rise) in neutralizing antibody titers 28 days after 2nd dose.||44.93|-1.27|0.100
82647683|NCT04378010|165010989|OTHER||LS mean difference|0.591|STANDARD_ERROR_OF_MEAN|0.315||0.064|TWO_SIDED|95.0|-0.035|1.216|||ANCOVA|||||1.216|-0.035|0.064
82424857|NCT05211596|164559090|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82424858|NCT05211596|164559091|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82424859|NCT04846868|164559092|SUPERIORITY|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on on-treatment periods.|Mean Difference (Net)|0.063|STANDARD_ERROR_OF_MEAN|0.4355||0.8854|TWO_SIDED|95.0|-0.793|0.918||"Null hypothesis: The adjusted mean change from baseline to Week 26 in MCCB overall composite T-score in iclepertin 10mg is worse than or equal to that in placebo.~one-sided p\< 0.025 required for testing subsequent key secondary endpoint hypotheses"|Mixed Models Analysis||Iclepertin 10 mg versus Placebo|MMRM, including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was the repeated measure with an unstructured covariance structure to model the within-patient measurements.||0.918|-0.793|0.8854
82424860|NCT04846868|164559093|OTHER|The estimated treatment effect included the effect of any concomitant therapies and partner change in SCoR assessment for all randomized patients on-treatment.|Mean Difference (Net)|0.234|STANDARD_ERROR_OF_MEAN|0.5867||0.6902|TWO_SIDED|95.0|-0.918|1.386|||Mixed Models Analysis||Iclepertin 10 mg versus Placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.386|-0.918|0.6902
82424861|NCT04846868|164559094|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|-0.543|STANDARD_ERROR_OF_MEAN|1.1388||0.6334|TWO_SIDED|95.0|-2.78|1.694|||Mixed Models Analysis||Iclepertin 10 mg vs. placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||1.694|-2.780|0.6334
82424862|NCT04846868|164559095|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|0.047|STANDARD_ERROR_OF_MEAN|0.0448||0.2902||95.0|-0.041|0.135|||Mixed Models Analysis||Iclepertin 10 mg vs Placebo|MMRM including the fixed effects: treatment at each visit, stratification factor using the screening MCCB overall composite T-score, and baseline MCCB overall composite T-score at each visit. Visit was treated as the repeated measure with an unstructured covariance structure used to model the within-patient measurements.||0.135|-0.041|0.2902
82424863|NCT04846868|164559096|OTHER|The estimated treatment effect included the effect of any concomitant therapies for all randomized patients on-treatment.|Mean Difference (Net)|0.628||||0.4956|TWO_SIDED|95.0|-1.181|2.437|||ANCOVA||Iclepertin 10 mg vs. Placebo|ANCOVA model including treatment, stratification factor of screening MCCB overall composite T-score, and baseline number of correct responses on Tower of London T-score.||2.437|-1.181|0.4956
82424864|NCT05819398|164559133|OTHER||Difference of least square means|-20.4|STANDARD_ERROR_OF_MEAN|10.9|||TWO_SIDED|95.0|-41.9|1.1|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||1.1|-41.9|
82424865|NCT05819398|164559133|OTHER||Difference of least square means|-17.8|STANDARD_ERROR_OF_MEAN|11.0|||TWO_SIDED|95.0|-39.5|3.9|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||3.9|-39.5|
82426813|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.1|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||6.4|2.1|<0.0001
82535002|NCT03552978|164768307|SUPERIORITY||Odds Ratio (OR)|11.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|df - 63||||||<.001
82535003|NCT03552978|164768308|SUPERIORITY||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED||||||t-test, 2 sided|df = 59||||||<.001
82535004|NCT03552978|164768312|SUPERIORITY||Mean Difference (Final Values)|90.28||||0.39|TWO_SIDED||||||Mixed Models Analysis|df = 3, 152.11||We examined total Cigarettes smoked in the past 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in cigarette use over time by treatment group.||||.39
82647684|NCT04378010|165010993|OTHER||LS mean difference|12.986|STANDARD_ERROR_OF_MEAN|5.472||0.04|TWO_SIDED|95.0|0.608|25.363|||Mixed model repeated measures|||||25.363|0.608|0.040
82647685|NCT04378010|165010993|OTHER||LS mean difference|7.211|STANDARD_ERROR_OF_MEAN|5.724||0.242|TWO_SIDED|95.0|-4.997|19.418|||Mixed model repeated measures|||||19.418|-4.997|0.242
82424866|NCT05819398|164559133|OTHER||Difference of least square means|-4.3|STANDARD_ERROR_OF_MEAN|11.0|||TWO_SIDED|95.0|-26.0|17.5|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, Tumor Necrosis Factor inhibitor (TNFi) status at baseline, and categorical baseline dT count at each visit. Visit were treated as the repeated measure with an unstructured covariance structure used to model the within-trial participant measurements.||17.5|-26.0|
82424867|NCT05819398|164559133|OTHER|||||||0.697||||||Adjusted p-value from multiple contrast test.|MCPMod Linear model|No assumptions.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.697
82424868|NCT05819398|164559133|OTHER|||||||0.844||||||Adjusted p-value from multiple contrast test.|MCPMod Exponential: model|Assumption: 30% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.844
82424869|NCT05819398|164559133|OTHER|||||||0.256||||||Adjusted p-value from multiple contrast test.|MCPMod Emax model|Assumption: 70% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.256
82424870|NCT05819398|164559133|OTHER|||||||0.571||||||Adjusted p-value from multiple contrast test.|MCPMod SigEmax model|Assumption: 70% of the maximum effect is achieved at the medium dose and 25% of the maximum effect is achieved at the low dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.571
82424871|NCT05819398|164559133|OTHER|||||||0.232||||||Adjusted p-value from multiple contrast test.|MCPMod BetaMod model|Assumption: 80% of the maximum effect is achieved at the medium dose and the maximum effect is achieved at the 70% of the high dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.232
82424872|NCT05819398|164559134|OTHER||Difference of least square means|-9.6|STANDARD_ERROR_OF_MEAN|15.0|||TWO_SIDED|95.0|-39.2|20.1|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||20.1|-39.2|
82424873|NCT05819398|164559134|OTHER||Difference of least square means|-22.2|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|95.0|-52.0|7.6|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||7.6|-52.0|
82424874|NCT05819398|164559134|OTHER||Difference of least square means|-8.8|STANDARD_ERROR_OF_MEAN|15.4|||TWO_SIDED|95.0|-39.1|21.6|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||21.6|-39.1|
82424875|NCT05819398|164559135|OTHER||Difference of least square means|2.4|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-4.5|9.4|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||9.4|-4.5|
82424876|NCT05819398|164559135|OTHER||Difference of least square means|-0.6|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-7.5|6.3|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||6.3|-7.5|
82424877|NCT05819398|164559135|OTHER||Difference of least square means|3.0|STANDARD_ERROR_OF_MEAN|3.5|||TWO_SIDED|95.0|-3.9|10.0|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||10.0|-3.9|
82424878|NCT05819398|164559135|OTHER|||||||0.887||||||Adjusted p-value from multiple contrast test.|MCPMod Linear model|No assumptions.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.887
82424879|NCT05819398|164559135|OTHER|||||||0.902||||||Adjusted p-value from multiple contrast test.|MCPMod Exponential: model|Assumption: 30% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.902
82424880|NCT05819398|164559135|OTHER|||||||0.866||||||Adjusted p-value from multiple contrast test.|MCPMod Emax model|Assumption: 70% of the maximum effect is achieved at the medium dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.866
82647686|NCT00747747|165011028|SUPERIORITY_OR_OTHER||Frequency|0.0|||<|0.05|||||||Chi-squared|||Null hypothesis: no difference among groups.||||<0.05
82424881|NCT05819398|164559135|OTHER|||||||0.825||||||Adjusted p-value from multiple contrast test.|MCPMod SigEmax model|Assumption: 70% of the maximum effect is achieved at the medium dose and 25% of the maximum effect is achieved at the low dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.825
82424882|NCT05819398|164559135|OTHER|||||||0.634||||||Adjusted p-value from multiple contrast test.|MCPMod BetaMod model|Assumption: 80% of the maximum effect is achieved at the medium dose and the maximum effect is achieved at the 70% of the high dose.||Multiple comparison and modelling techniques (MCPMod) was used to evaluate several possible dose response models (patterns: Linear, Exponential, Emax, SigEmax, BetaMod), and to identify the best-fitting model or subset of models.||||0.634
82424883|NCT05819398|164559136|OTHER||Difference of least square means|4.6|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-6.1|15.3|||||Difference = (least square mean Spesolimab low dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||15.3|-6.1|
82424884|NCT05819398|164559136|OTHER||Difference of least square means|-5.2|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-15.9|5.5|||||Difference = (least square mean Spesolimab medium dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||5.5|-15.9|
82424885|NCT05819398|164559136|OTHER||Difference of least square means|7.6|STANDARD_ERROR_OF_MEAN|5.5|||TWO_SIDED|95.0|-3.3|18.5|||||Difference = (least square mean Spesolimab high dose) - (least square mean Placebo)|The MMRM included fixed categorical effects of treatment at each visit, TNFi status at baseline, categorical baseline dT count and fixed continuous effect of baseline of outcome measures at each visit. Visit was treated as repeated measure with an unstructured covariance matrix for the within trial participant variability and all visits with planned measurements of the outcome variable as well as all dose groups were included in the model.||18.5|-3.3|
82535005|NCT03552978|164768313|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.91|TWO_SIDED||||||Mixed Models Analysis|df = 3, 140.87||We examined days of e-cigarette use in the previous 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in e-cigarette use over time by treatment group.||||.91
82535006|NCT03552978|164768314|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.66|TWO_SIDED||||||Mixed Models Analysis|df = 3,199||We examined days of chewing tobacco use in the previous 30 days using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in chewing tobacco use over time by treatment group.||||.66
82535007|NCT03552978|164768315|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.76|TWO_SIDED||||||Mixed Models Analysis|df = 3, 102.04||We examined nicotine dependence using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in nicotine dependence over time by treatment group.||||.76
82535008|NCT03552978|164768316|SUPERIORITY||Odds Ratio (OR)|1.99||||0.28|TWO_SIDED|||||Week 12|Chi-squared|df = 1||||||.28
82535009|NCT03552978|164768316|SUPERIORITY||Odds Ratio (OR)|2.3||||0.19|TWO_SIDED|||||Week 24|Chi-squared|df = 1||||||.19
82535010|NCT03552978|164768317|SUPERIORITY||Odds Ratio (OR)|1.68||||0.42|TWO_SIDED||||||Chi-squared|df = 1||Week 12||||.42
82535011|NCT03552978|164768317|SUPERIORITY||Odds Ratio (OR)|2.52||||0.17|TWO_SIDED||||||Chi-squared|df = 1||Week 24||||.17
82535012|NCT03552978|164768318|SUPERIORITY||Mean Difference (Final Values)|3.66||||0.58|TWO_SIDED||||||Mixed Models Analysis|df = 3, 100.51||We examined days of changes in PTSD symptoms using linear mixed models to account for non-independence (longitudinal data) and missing data. The null hypothesis was that the time by treatment group interaction would equal zero, indicating no difference in the change in PTSD symptoms over time by treatment group.||||.58
82535013|NCT03437668|164768321|SUPERIORITY|To test for a differential treatment effect, we fit a linear mixed with group, time, and a group by time interaction as the predictors and random intercepts to account for the correlations induced by the repeated measurements within subjects. Given the form of the trajectories and the small sample size, we chose to treat time as continuous to minimize the number of degrees of freedom and the risk of overfitting.|Slope|-0.22||||0.31|TWO_SIDED|||||p-value is for the interaction of time and treatment group in the mixed model|Mixed Models Analysis|||||||.31
82535014|NCT03714022|164768350|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.998|||||TWO_SIDED|90.0|0.941|1.058|||||Cohort A vs Cohort B|||1.058|0.941|
82535015|NCT03714022|164768351|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.929|||||TWO_SIDED|90.0|0.884|0.976|||||Cohort A vs Cohort B|||0.976|0.884|
82535016|NCT03714022|164768353|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.936|||||TWO_SIDED|90.0|0.891|0.983|||||Cohort A vs Cohort B|||0.983|0.891|
82647687|NCT00747747|165011033|SUPERIORITY_OR_OTHER||Frequency|0.0|||<|0.05|||||||Chi-squared|||Null hypotheis: no difference among the groups.||||<0.05
82647688|NCT01430182|165011038|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 1 sided|unpaired||||||0.37
82424886|NCT01649869|164559163|SUPERIORITY|||||||0.0859|||||||Generalized linear model|Generalized linear model for binary outcome based on generalized estimating equations.||||||0.0859
82424887|NCT01649869|164559164|SUPERIORITY|||||||0.7068|||||||Fisher Exact|||||||0.7068
82424888|NCT01649869|164559165|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82424889|NCT01649869|164559166|SUPERIORITY|||||||0.7068|||||||Fisher Exact|||||||0.7068
82424890|NCT01649869|164559167|SUPERIORITY|||||||0.0752|||||||Fisher Exact|||||||0.0752
82424891|NCT01649869|164559169|SUPERIORITY|||||||0.4823|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.4823
82424892|NCT01649869|164559170|SUPERIORITY|||||||0.0859|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.0859
82424893|NCT01649869|164559171|OTHER|Association of binary outcome and continuous outcome||||||0.8212|||||||Generalized linear model|For binary outcome using generalized estimating equations||||||0.8212
82535017|NCT03714022|164768354|EQUIVALENCE|Equivalence is concluded if the 90% CIs for the ratios of geometric means are contained within 0.8 to 1.25|Ratio of Geometric Means|0.957|||||TWO_SIDED|90.0|0.915|1.001|||||Cohort A vs Cohort B|||1.001|0.915|
82535018|NCT00231179|164768380|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes were established when the trial was first developed. For all power calculations, we set alpha = .05 and beta = .20 and specified 2-tailed tests.|Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|15.0||0.59|TWO_SIDED|95.0|0.31|2.13||Bonferroni corrections were made for multiple comparisons.|t-test, 2 sided|||We compared scores for verbal, performance, and full scale Intelligence Quotient (IQ).||2.13|0.31|0.59
82424894|NCT01649869|164559172|OTHER|Association of binary outcome and continuous outcome and continuous outcome||||||0.8356|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations.||||||0.8356
82424895|NCT01649869|164559173|OTHER|Association of binary outcome and continuous outcome||||||0.7961|||||||Generalized linear model|Generalized linear model for binary outcome using generalized estimating equations||||||0.7961
82424896|NCT01649869|164559174|OTHER|Association of binary outcome and continuous outcome||||||0.8675|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.8675
82424897|NCT01649869|164559175|OTHER|Association of binary outcome and continuous outcome||||||0.9682|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.9682
82424898|NCT01649869|164559176|OTHER|Association of binary outcome and continuous outcome||||||0.6063|||||||Generalized linear model|Generalized linear model for binary outcome||||||0.6063
82424899|NCT01649869|164559177|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82424900|NCT01649869|164559178|SUPERIORITY|||||||0.6043|||||||Fisher Exact|||||||0.6043
82424901|NCT01649869|164559179|SUPERIORITY|||||||0.6513|||||||Fisher Exact|||||||0.6513
82424902|NCT01649869|164559180|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82424903|NCT01649869|164559181|SUPERIORITY|||||||0.0659|||||||Fisher Exact|||||||0.0659
82424904|NCT01649869|164559182|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82424905|NCT05395338|164559222|OTHER|cox proportional hazards models with stratification by matching pairs|Hazard Ratio (HR)|0.9||||0.183|TWO_SIDED|95.0|0.78|1.05|||Regression, Cox||rt-PA/non reperfusion|||1.05|0.78|0.183
82424906|NCT05395338|164559223|OTHER|Conditional logistic regression models with stratification by matching pairs.|Odds Ratio (OR)|1.25|||<|0.001|TWO_SIDED|95.0|1.12|1.39|||Regression, Logistic|||||1.39|1.12|<0.001
82424907|NCT05395338|164559224|OTHER|Conditional logistic regression models with stratification by matching pairs.|Odds Ratio (OR)|1.23|||<|0.001|TWO_SIDED|95.0|1.11|1.36|||Regression, Logistic||rt-PA/non reperfusion|||1.36|1.11|<0.001
82424908|NCT05395338|164559225|OTHER|Conditional logistic regression models with stratification by matching pairs|Odds Ratio (OR)|0.73|||<|0.001|TWO_SIDED|95.0|0.64|0.83|||Regression, Logistic||rt-PA/non reperfusion|||0.83|0.64|<0.001
82424909|NCT05395338|164559226|OTHER|Ordinal logistic regression models|Odds Ratio (OR)|0.85|||<|0.001|TWO_SIDED|95.0|0.77|0.93|||Regression, Logistic||rt-PA/non reperfusion|||0.93|0.77|<0.001
82424910|NCT05847686|164559228|OTHER||||||<|0.0001|||||||t-test, 1 sided|||||||<.0001
82535019|NCT00231179|164768381|NON_INFERIORITY_OR_EQUIVALENCE|Please see earlier power calculation.|Hazard Ratio (HR)|10.0|STANDARD_ERROR_OF_MEAN|5.0||0.72|TWO_SIDED|95.0|||||Chi-squared|||||||0.72
82424911|NCT03309202|164559242|OTHER||Mean Difference (Final Values)|130.47|||||TWO_SIDED|90.0|101.57|167.6|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||167.60|101.57|
82424912|NCT03309202|164559242|OTHER||Mean Difference (Final Values)|117.49|||||TWO_SIDED|90.0|91.46|150.93|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||150.93|91.46|
82424913|NCT03309202|164559242|OTHER||Mean Difference (Final Values)|130.55|||||TWO_SIDED|90.0|101.63|167.7|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||167.70|101.63|
82424914|NCT03309202|164559243|OTHER||Mean Difference (Final Values)|136.37|||||TWO_SIDED|90.0|94.63|196.53|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||196.53|94.63|
82424915|NCT03309202|164559243|OTHER||Mean Difference (Final Values)|124.23|||||TWO_SIDED|90.0|86.2|179.03|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||179.03|86.20|
82424916|NCT03309202|164559243|OTHER||Mean Difference (Final Values)|118.65|||||TWO_SIDED|90.0|82.33|170.99|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||170.99|82.33|
82535020|NCT00231179|164768382|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|10.0|STANDARD_ERROR_OF_MEAN|5.0|<|0.01|TWO_SIDED|95.0|||||Chi-squared|||||||<0.01
82535021|NCT00231179|164768383|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|3.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82535022|NCT00231179|164768384|NON_INFERIORITY_OR_EQUIVALENCE|See previous.|Hazard Ratio (HR)|3.0|STANDARD_ERROR_OF_MEAN|3.0||0.64|TWO_SIDED|95.0|||||Chi-squared|||||||0.64
82535023|NCT01345292|164768387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.44|STANDARD_ERROR_OF_MEAN|1.556|<|0.001|TWO_SIDED|95.0|8.37|14.5||If Sensodyne is better than Crest Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Sensodyne and Crest Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||14.50|8.37|<0.001
82424917|NCT03309202|164559244|OTHER||Mean Difference (Final Values)|124.7309|||||TWO_SIDED|90.0|82.5275|188.5165|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||188.5165|82.5275|
82424918|NCT03309202|164559244|OTHER||Mean Difference (Final Values)|147.0778|||||TWO_SIDED|90.0|97.3132|222.2911|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||222.2911|97.3132|
82424919|NCT03309202|164559244|OTHER||Mean Difference (Final Values)|224.7373|||||TWO_SIDED|90.0|148.6962|339.6647|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||339.6647|148.6962|
82424920|NCT03309202|164559245|OTHER||Mean Difference (Final Values)|162.58|||||TWO_SIDED|90.0|103.12|256.32|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||256.32|103.12|
82424921|NCT03309202|164559245|OTHER||Mean Difference (Final Values)|172.74|||||TWO_SIDED|90.0|109.56|272.35|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||272.35|109.56|
82424922|NCT03309202|164559245|OTHER||Mean Difference (Final Values)|293.31|||||TWO_SIDED|90.0|186.04|462.44|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||462.44|186.04|
82424923|NCT03309202|164559246|OTHER||Mean Difference (Final Values)|169.84|||||TWO_SIDED|90.0|104.02|277.32|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 2 (Mild Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||277.32|104.02|
82424924|NCT03309202|164559246|OTHER||Mean Difference (Final Values)|182.51|||||TWO_SIDED|90.0|111.78|298.02|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 3 (Moderate Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||298.02|111.78|
82424925|NCT03309202|164559246|OTHER||Mean Difference (Final Values)|266.29|||||TWO_SIDED|90.0|163.08|434.8|||ANOVA|The natural log transformed parameter was used.|Estimate mean difference was derived from ratio (%) of adjusted geometric means of Test and Reference.Cohort 4 (Severe Hepatic Impairment) was Test and Cohort 1 (Without Hepatic Impairment) was Reference.|||434.80|163.08|
82424926|NCT03648385|164559278|SUPERIORITY|||||||0.83|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.83
82424927|NCT03648385|164559278|SUPERIORITY|||||||0.56|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.56
82424928|NCT03648385|164559279|SUPERIORITY|||||||0.08|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.08
82424929|NCT03648385|164559279|SUPERIORITY|||||||0.03|||||||generalized estimating equations (GEE)|with sandwich estimation to correct for model misspecification.||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.03
82424930|NCT03648385|164559280|SUPERIORITY|||||||0.047|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.047
82424931|NCT03648385|164559280|SUPERIORITY|||||||0.052|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.052
82424932|NCT03648385|164559281|SUPERIORITY|||||||0.044|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.044
82424933|NCT03648385|164559281|SUPERIORITY|||||||0.96|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.96
82535024|NCT01345292|164768387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|STANDARD_ERROR_OF_MEAN|1.566|<|0.001|TWO_SIDED|95.0|5.24|11.42||If Potassium Oxalate Mouth Rinse is better than Crest Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouth Rinse and Crest Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||11.42|5.24|<0.001
82424934|NCT03648385|164559282|SUPERIORITY|||||||0.91|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.91
82424935|NCT03648385|164559282|SUPERIORITY|||||||0.61|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.61
82424936|NCT03648385|164559283|SUPERIORITY|||||||0.14|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.14
82424937|NCT03648385|164559283|SUPERIORITY|||||||0.84|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.84
82424938|NCT03648385|164559284|SUPERIORITY|||||||0.36|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.36
82424939|NCT03648385|164559284|SUPERIORITY|||||||0.71|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.71
82424940|NCT03648385|164559285|SUPERIORITY|||||||0.55|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.55
82424941|NCT03648385|164559285|SUPERIORITY|||||||0.44|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.44
82424942|NCT03648385|164559286|SUPERIORITY|||||||0.79|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.79
82424943|NCT03648385|164559286|SUPERIORITY|||||||0.34|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.34
82535025|NCT01345292|164768388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|1.45|4.65||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.65|1.45|<0.001
82535026|NCT01345292|164768388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.818||0.004|TWO_SIDED|95.0|0.8|4.02||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.02|0.80|0.004
82535027|NCT01345292|164768389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|2.091||0.324|TWO_SIDED|95.0|-6.19|2.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.06|-6.19|0.324
82424944|NCT03648385|164559287|SUPERIORITY|||||||0.33|||||||generalized estimating equations (GEE) w|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
82424945|NCT03648385|164559287|SUPERIORITY|||||||0.99|||||||generalized estimating equations (GEE) w|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.99
82424946|NCT03648385|164559288|SUPERIORITY|Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||||0.13|||||||generalized estimating equations (GEE)|||SF-36 PCS||||0.13
82424947|NCT03648385|164559288|SUPERIORITY|Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||||0.044|||||||generalized estimating equations (GEE)|||SF-36 PCS||||0.044
82424948|NCT03648385|164559288|SUPERIORITY|Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||||0.77|||||||generalized estimating equations (GEE)|||SF-36 MCS||||0.77
82424949|NCT03648385|164559288|SUPERIORITY|Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||||0.98|||||||generalized estimating equations (GEE)|||SF-MCS||||0.98
82424950|NCT03648385|164559289|SUPERIORITY|||||||0.7|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.70
82424951|NCT03648385|164559289|SUPERIORITY|||||||0.037|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.037
82424952|NCT03648385|164559290|SUPERIORITY|||||||0.005|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||0.005
82424953|NCT03648385|164559290|SUPERIORITY|||||||0.9|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.9
82424954|NCT03648385|164559291|SUPERIORITY||||||<|0.0001|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, measurement of % change at 18 Weeks Treatment period 1: Placebo to DHEA group, % change at 18 Weeks||||<0.0001
82424955|NCT03648385|164559291|SUPERIORITY|||||||0.034|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, % change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, % change between 18 and 40 Weeks||||0.034
82424956|NCT03648385|164559292|SUPERIORITY|||||||0.36|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, at 18 Weeks||||0.36
82647689|NCT00830063|165011039|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.76|-0.72||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Least square (LS) mean was estimated from the corresponding analysis of covariance (ANCOVA) model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95 percent (%) confidence interval (CI) was calculated on LS mean difference.||-0.72|-1.76|<0.001
82424957|NCT03648385|164559292|SUPERIORITY|||||||0.23|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.23
82424958|NCT03648385|164559293|SUPERIORITY|||||||0.002|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.002
82647690|NCT00830063|165011039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.52|-0.49||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.49|-1.52|<0.001
82424959|NCT03648385|164559293|SUPERIORITY||||||<|0.0001|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||<0.0001
82424960|NCT03648385|164559294|SUPERIORITY|||||||0.42|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.42
82424961|NCT03648385|164559294|SUPERIORITY|||||||0.28|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.28
82424962|NCT03648385|164559295|SUPERIORITY|||||||0.08|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.08
82424963|NCT03648385|164559295|SUPERIORITY|||||||0.65|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.65
82424964|NCT03648385|164559296|SUPERIORITY|||||||0.07|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.07
82424965|NCT03648385|164559296|SUPERIORITY||||||<|0.01|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||<0.01
82424966|NCT03648385|164559297|SUPERIORITY|||||||0.27|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, measurement of change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.27
82424967|NCT03648385|164559297|SUPERIORITY|||||||0.26|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.26
82424968|NCT03648385|164559298|SUPERIORITY|||||||0.81|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.81
82424969|NCT03648385|164559298|SUPERIORITY|||||||0.94|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.94
82424970|NCT03648385|164559299|SUPERIORITY|||||||0.93|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.93
82424971|NCT03648385|164559299|SUPERIORITY|||||||0.83|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.83
82424972|NCT03648385|164559300|SUPERIORITY|||||||0.85|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.85
82424973|NCT03648385|164559300|SUPERIORITY|||||||0.74|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.74
82424974|NCT03648385|164559301|SUPERIORITY|||||||0.004|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.004
82424975|NCT03648385|164559301|SUPERIORITY|||||||0.05|||||||generalized estimating equations (GEE)|||||||0.05
82424976|NCT03648385|164559302|SUPERIORITY|||||||0.33|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
82424977|NCT03648385|164559302|SUPERIORITY|||||||0.23|||||||generalized estimating equations|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.23
82424978|NCT03648385|164559303|SUPERIORITY|||||||0.19|||||||generalized estimating equations (GEE)|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.19
82424979|NCT03648385|164559303|SUPERIORITY|||||||0.94|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.94
82424980|NCT03648385|164559304|SUPERIORITY|||||||0.62|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.62
82424981|NCT03648385|164559304|SUPERIORITY|||||||0.39|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.39
82424982|NCT03648385|164559305|SUPERIORITY|||||||0.33|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.33
82535028|NCT01345292|164768389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.43|STANDARD_ERROR_OF_MEAN|2.093||0.035|TWO_SIDED|95.0|-8.56|-0.31||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.31|-8.56|0.035
82424983|NCT03648385|164559305|SUPERIORITY|||||||0.88|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||0.88
82424984|NCT03648385|164559306|SUPERIORITY|||||||0.55|||||||generalized estimating equations|||Treatment period 1: DHEA to Placebo group, change at 18 Weeks Treatment period 1: Placebo to DHEA group, change at 18 Weeks||||0.55
82424985|NCT03648385|164559306|SUPERIORITY|||||||1|||||||generalized estimating equations (GEE)|||Treatment period 2: DHEA to Placebo group, change between 18 and 40 Weeks Treatment period 2: Placebo to DHEA group, change between 18 and 40 Weeks||||1.00
82424986|NCT01838226|164559308|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5|TWO_SIDED|95.0|-1.3|2.8|||Mixed Models Analysis|||||2.8|-1.3|0.50
82424987|NCT01838226|164559309|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-1.3|3.1|||Mixed Models Analysis|||||3.1|-1.3|
82424988|NCT01838226|164559310|SUPERIORITY||Mean Difference (Net)|-2.6|||||TWO_SIDED|95.0|-4.9|-0.2||||||||-0.2|-4.9|
82424989|NCT01138514|164559385|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|provides 85% power of success|equivalence ratio|98.77||||0.05|TWO_SIDED|90.0|95.2|102.5|||Fieller's method|||||102.5|95.2|0.05
82535029|NCT01345292|164768390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.55|STANDARD_ERROR_OF_MEAN|2.551|<|0.001|TWO_SIDED|95.0|-13.6|-3.52||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.52|-13.6|<0.001
82424990|NCT01138514|164559386|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|provides 85% power of success|equivalence ratio|100.27||||0.05|TWO_SIDED|90.0|95.6|105.2|||Fieller's method|||||105.2|95.6|0.05
82424991|NCT01138514|164559387|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Clinical success was defined as a score of clear (0) or almost clear (1) on Investigators Global Assessment (IGA) at Visit 4/Week 10"|equivalence difference|1.6||||0.05|TWO_SIDED|90.0|-4.2|7.4|||Wald's method Yates' continuity correct|||||7.4|-4.2|0.05
82448704|NCT02262754|164604707|SUPERIORITY_OR_OTHER||Mean Difference (PF-06372865-Naproxen)|0.79|||||TWO_SIDED|90.0|-0.22|1.8||||||Week 4: An ANCOVA model within an outlier robust Bayesian framework was applied. Baseline was included as a fixed effect. An informative N (-3.28, 1.19\^2) prior for the placebo effect was assumed. Non informative prior distributions were assumed for the rest of the model parameters. LOCF was used for missing data.||1.80|-0.22|
82424992|NCT01474109|164559388|SUPERIORITY_OR_OTHER||NB-2 estimate of new DUs per patient|1.103||||0.706|TWO_SIDED|95.0|0.663|1.834|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in Macitentan 3 mg and in Placebo|||1.834|0.663|0.706
82424993|NCT01474109|164559388|SUPERIORITY_OR_OTHER||NB-2 estimate of new DUs per patient|1.268||||0.36|TWO_SIDED|95.0|0.763|2.106|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in Macitentan 10 mg and in Placebo|||2.106|0.763|0.360
82424994|NCT01474109|164559389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.875||||0.667|TWO_SIDED|95.0|0.477|1.606|||Chi-squared|||||1.606|0.477|0.6670
82424995|NCT01474109|164559389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.832||||0.5518|TWO_SIDED|95.0|0.454|1.524|||Chi-squared|||||1.524|0.454|0.5518
82424996|NCT01474109|164559390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.696||||0.3625|TWO_SIDED|95.0|0.319|1.518|||Chi-squared|||||1.518|0.319|0.3625
82424997|NCT01474109|164559390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9362|TWO_SIDED|95.0|0.498|2.133|||Chi-squared|||||2.133|0.498|0.9362
82424998|NCT01474109|164559391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.863|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|||||0.2|-0.1|0.863
82424999|NCT01474109|164559391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.649|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.649
82425000|NCT01474109|164559392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.456|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.456
82425001|NCT01474109|164559392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.44|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.440
82425002|NCT01474109|164559393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.464|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.464
82425003|NCT01474109|164559393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.342|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.342
82425004|NCT01276106|164559394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.175||0.044|TWO_SIDED|95.0|-0.7|-0.01||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||-0.01|-0.70|0.044
82425005|NCT01276106|164559394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.176||0.0979|TWO_SIDED|95.0|-0.64|0.05||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||0.05|-0.64|0.0979
82425006|NCT01276106|164559394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.174||0.2643|TWO_SIDED|95.0|-0.54|0.15||No adjustments for multiple comparisons were made and a value of p\<0.05 was considered statistically significant.|ANCOVA|||Change from baseline in HbA1c was analyzed using an analysis of covariance model with change in HbA1c as the dependent variable, treatment as a fixed effect, and baseline HbA1c as a covariate.||0.15|-0.54|0.2643
82647691|NCT00830063|165011039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.26||0.007|TWO_SIDED|95.0|-1.23|-0.2||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.20|-1.23|0.007
82425007|NCT00862940|164559403|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|1.3||0.9754|TWO_SIDED|95.0|-2.6|2.52|||Mixed Models Analysis|||Linear mixed model relating direct change in brain volume (BBSI) to time and its interaction with treatment group. This model additionally includes a time-by-AChEI group interaction as a fixed effect.||2.52|-2.60|0.9754
82425008|NCT00862940|164559404|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.5|STANDARD_ERROR_OF_MEAN|17.52||0.842|TWO_SIDED|95.0|-38.04|31.04|||MMRM|||Mixed model repeated measurements (MMRM) with unstructured covariance including time, time-by-treatment, visit, pre-treatment HCV, and AChEI group.||31.04|-38.04|0.842
82425009|NCT00862940|164559405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|0.79||0.034|TWO_SIDED|95.0|0.13|3.23||The p-value represents the difference from placebo for COWAT at Week 52 (MMRM).|MMRM|||||3.23|0.13|0.034
82425010|NCT00862940|164559406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.46||0.602|TWO_SIDED|95.0|-0.67|1.15||The p-value represents the difference from placebo for MMSE at Week 52 (MMRM).|MMRM|||||1.15|-0.67|0.602
82425011|NCT00879398|164559409|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
82425012|NCT00879398|164559410|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
82425013|NCT00879398|164559411|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|t-test, 2 sided|||||||<0.0001
82425014|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.1319||95.0||||Statistical significant level: 0.05|Chi-squared|||Geriatric Status: \<65 years versus (vs) Geriatric Status: ≥65 years||||0.1319
82425015|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Age Categories: \<50 years, 50 to 59 years, 60 to 69 years, 70 to 79 years, and ≥80 years.||||0.6010
82425016|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.0289||95.0||||Statistical significant level: 0.05|Chi-squared|||Male vs Female||||0.0289
82425017|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.3078||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Weight Categories: \<50 kg, 50 to 60 kg, 60 to 70 kg, and ≥70 kg.||||0.3078
82425018|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.9614||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Height Categories: \<160 cm, 160 to 170 cm, and ≥170 cm.||||0.9614
82425019|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.0788||95.0||||Statistical significant level: 0.05|Fisher Exact|||Allergic History: Yes vs Allergic History: No||||0.0788
82425020|NCT00879398|164559413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Duration of Disease: \<1 week, 1 to 8 weeks, 8 to 16 weeks, and ≥16 weeks.||||<0.0001
82425021|NCT00879398|164559413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Past OAB Treatment History: Yes vs Past OAB Treatment History: No||||<0.0001
82425022|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.1147||95.0||||Statistical significant level: 0.05|Chi-squared|||Medical History of Past Disease: Yes vs Medical History of Past Disease: No||||0.1147
82425023|NCT00879398|164559413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Medical History of Present Disease: Yes vs Medical History of Present Disease: No||||<0.0001
82425024|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||1||95.0||||Statistical significant level: 0.05|Fisher Exact|||Kidney Disorder: Yes vs Kidney Disorder: No||||1.0000
82425025|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||1||95.0||||Statistical significant level: 0.05|Fisher Exact|||Liver Disorder: Yes vs Liver Disorder: No||||1.0000
82425026|NCT00879398|164559413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Comparison among Total Administration Period of Toviaz Subgroups: \<2 months, 2 to 4 months, and ≥4 months.||||<0.0001
82425027|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.0239||95.0||||Statistical significant level: 0.05|Fisher Exact|||Comparison among Daily Dose of Toviaz: 3 mg, 4 mg, \>4 mg to \<8 mg, and 8 mg.||||0.0239
82425028|NCT00879398|164559413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Statistical significant level: 0.05|Chi-squared|||Completion vs Discontinuation||||<0.0001
82425029|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.5889||95.0||||Statistical significant level: 0.05|Fisher Exact|||Total Administration Period \<274 days vs Total Administration Period ≥ 274 days||||0.5889
82425030|NCT00879398|164559413|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical significant level: 0.05|Chi-squared|||Concurrent Medication: Yes vs Concurrent Medication: No||||0.0010
82425031|NCT05047627|164559459|OTHER||Differences in slopes|0.76||||0.755|TWO_SIDED|95.0|-4.14|5.66|||Robust linear mixed models|||||5.66|-4.14|.755
82425032|NCT05047627|164559460|OTHER||Differences in slopes|1.38||||0.713|TWO_SIDED|95.0|-6.15|8.91|||Robust linear mixed models|||||8.91|-6.15|0.713
82425033|NCT05047627|164559461|OTHER||Differences in slopes|1.03||||0.323|TWO_SIDED|95.0|-1.02|3.09|||Robust linear mixed models|||||3.09|-1.02|0.323
82425034|NCT05047627|164559462|OTHER||Differences in slopes|-0.33||||0.692|TWO_SIDED|95.0|-1.95|1.3|||Robust linear mixed models|||||1.30|-1.95|.692
82425035|NCT05047627|164559463|OTHER||Differences in slopes|-2.92||||0.1|TWO_SIDED|95.0|-6.41|0.58|||Robust linear mixed models|||||0.58|-6.41|0.1
82425036|NCT01380080|164559464|SUPERIORITY_OR_OTHER_LEGACY||Cumulative probability difference|-0.06||||0.97|TWO_SIDED|95.0|-3.05|2.94|||z-test|||Treatment comparison was made using the difference (arm B- arm A) in the Kaplan-Meier estimate for 24 week cumulative probability of death or unknown vital status with 95% confidence interval||2.94|-3.05|0.97
82426814|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.0|6.4||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.4|2.0|<0.0001
82425037|NCT02303821|164559510|OTHER||||||||||||||||||The objective of this endpoint was to compare the rate of CRi or better status against an external control arm selected from an observational study (Amgen 20180065). The rate of CRi or better status in the external control arm was 26.3% (95% CI: 15.1, 37.5) for B-Cell participants with treatment difference odds ratio of 2.082 (95% CI: 0.968, 4.477). For T-Cell participants the rate of CRi or better status was 18.6% (95% CI: 7.1, 30.0) with treatment difference odds ratio of 1.646 (95% CI: 0.639. 4.245).|||
82425038|NCT02303821|164559511|OTHER||||||||||||||||||The objective of this endpoint was to compare EFS in study 20140106 with EFS in an external control arm selected from an observational study (Amgen 20180065). The median duration in months in the external control arm was 3.62 (95% CI: 1.55, 5.36) for B-cell participants, with a treatment difference hazard ration of 1.435 (95% CI: 0.976, 2.111). For T-Cell participants the median in months was 2.93 (95% CI: 0.95, 5.10) with a treatment difference hazard ratio of 1.404 (95% CI: 0.869, 2.270).|||
82425039|NCT02303821|164559512|OTHER||||||||||||||||||The objective of this endpoint was to compare the OS in study 20140106 with OS in an external control arm selected from an observational study (Amgen 20180065). The median OS in months for the B-Cell participants in the external control arm was 8.59 (95% CI: 5.26, 10.59) with a treatment difference hazard ratio of 1.245 (95% CI: 0.805, 1.927). For the T-Cell participants the median OS in months was 7.04 (95% CI: 7.04, NE) with a treatment difference hazard ratio of 1.040 (95% CI: 0.641, 1.688).|||
82425040|NCT02303821|164559513|OTHER||||||||||||||||||The DOR in study 20140106 was estimated relative to the DOR in an external control arm selected from an observational study (Amgen 20180065). The median DOR in months in the external control arm was 8.72 (95% CI: 5.07, 32.24) in B-Cell participants. For T-Cell participants the median DOR in months was 5.82 (95% CI: 1.22, 19.80).|||
82425041|NCT02303821|164559525|OTHER||||||||||||||||||The primary objective of this endpoint was to compare the percentage of participants achieving CR after the end of induction therapy in study 20140106 with the percentage of participants achieving CR in an external control arm selected from an observational study (Amgen 20180065). In the external control arm, 7.8% of B-Cell participants (95% confidence interval \[CI\]: 1.0%, 14.7%) achieved CR, with a treatment difference odds ratio of 2.04 (95% CI: 0.54, 7.66). For T-Cell participants, 9.1% (95% CI: 0.7%, 17.5%) achieved CR, with an odds ratio of 1.58 (95% CI: 0.47, 5.31).|||
82425042|NCT02302222|164559581|SUPERIORITY||Risk Difference (RD)|0.113||||0.1981|TWO_SIDED|95.0|-0.016|0.243|||Fisher Exact|||||0.243|-0.016|0.1981
82425043|NCT03909971|164559587|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82535030|NCT01345292|164768390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|2.553|<|0.001|TWO_SIDED|95.0|-15.2|-5.13||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.13|-15.2|<0.001
82425044|NCT05177354|164559615|SUPERIORITY||Proportion|89.3|||<|0.001|ONE_SIDED|97.5|71.8|||"It is hypothesized that the proportion of low-back and leg pain subjects with a reduction in overstimulation sensation during Closed Loop On compared to Closed Loop Off period exceeds a performance goal of 50%.~H0: p ≤ 50% HA: p \> 50%"|Binomial Exact Test||||||71.8|<0.001
82425045|NCT06028464|164559662|OTHER||Adjusted geometric mean ratio (%)|36.48|||||TWO_SIDED|90.0|31.96|41.64|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 21.9|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||41.64|31.96|
82425046|NCT06028464|164559663|OTHER||Adjusted geometric mean ratio (%)|56.44|||||TWO_SIDED|90.0|45.11|70.6|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 37.9.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||70.60|45.11|
82647692|NCT00830063|165011039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.26||0.068|TWO_SIDED|95.0|-0.99|0.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.03|-0.99|0.068
82425047|NCT06028464|164559664|OTHER||Adjusted geometric mean ratio (%)|36.5|||||TWO_SIDED|90.0|31.91|41.74|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.3.|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||41.74|31.91|
82425048|NCT03189719|164559665|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.43|0.75|||Stratified Log-Rank|||OS in ESCC PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to OS in ESCC PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.75|0.43|<0.0001
82425049|NCT03189719|164559666|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0006|TWO_SIDED|95.0|0.6|0.88|||Stratified Log-Rank|||OS in ESCC participants of the pembrolizumab + SOC arm was compared to OS in ESCC participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.88|0.60|0.0006
82426815|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.3535|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||1.9|0.8|0.3535
82426816|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.0001|TWO_SIDED|95.0|1.9|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||6.1|1.9|<0.0001
82426817|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.45|||<|0.0001|TWO_SIDED|95.0|2.0|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||6.1|2.0|<0.0001
82647693|NCT00830063|165011040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.73|-0.77||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.77|-1.73|<0.001
82425050|NCT03189719|164559667|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.78|||Stratified Log-Rank|||OS in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to OS in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.78|0.49|<0.0001
82425051|NCT03189719|164559668|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.62|0.86|||Stratified Log-Rank|||OS in all participants of the pembrolizumab + SOC arm was compared to OS in all participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||0.86|0.62|<0.0001
82425052|NCT03189719|164559669|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.54|0.78|||Stratified Log-Rank|||PFS in ESCC participants of the pembrolizumab + SOC arm was compared to PFS in ESCC participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.78|0.54|<0.0001
82425053|NCT03189719|164559670|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.65|||Stratified Log-Rank|||PFS in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to PFS in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.65|0.41|<0.0001
82425054|NCT03189719|164559671|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.55|0.76|||Stratified Log-Rank|||PFS in all participants of the pembrolizumab + SOC arm was compared to PFS in all participants of the placebo + SOC arm based on a Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||0.76|0.55|<0.0001
82425055|NCT03189719|164559672|SUPERIORITY||Difference in Percentage|15.8|||<|0.0001|TWO_SIDED|95.0|9.0|22.5|||One-sided p-value|||ORR in all participants of the pembrolizumab + SOC arm was compared to ORR in all participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World), tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma), and ECOG performance status (0 versus 1).||22.5|9.0|<0.0001
82425056|NCT03189719|164559673|OTHER||Difference in Percentage|22.8|||<|0.0001|TWO_SIDED|95.0|11.6|33.4|||One-sided p-value|||ORR in ESCC PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to ORR in ESCC PD-L1 CPS ≥10 participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||33.4|11.6|<0.0001
82425057|NCT03189719|164559674|OTHER||Difference in Percentage|12.8||||0.0009|TWO_SIDED|95.0|4.7|20.7|||One-sided p-value|||ORR in ESCC participants of the pembrolizumab + SOC arm was compared to ORR in ESCC participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||20.7|4.7|0.0009
82535031|NCT01345292|164768391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.91|STANDARD_ERROR_OF_MEAN|2.271||0.032|TWO_SIDED|95.0|-9.38|-0.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.43|-9.38|0.032
82535032|NCT01345292|164768391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|2.288||0.136|TWO_SIDED|95.0|-7.93|1.09||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.09|-7.93|0.136
82535033|NCT01345292|164768392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|2.508|<|0.001|TWO_SIDED|95.0|-16.1|-6.23||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-6.23|-16.1|<0.001
82647694|NCT00830063|165011040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.51|-0.55||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.55|-1.51|<0.001
82425058|NCT03189719|164559675|OTHER||Difference in Percentage|24.0|||<|0.0001|TWO_SIDED|95.0|14.3|33.2|||One-sided p-value|||ORR in PD-L1 CPS ≥10 participants of the pembrolizumab + SOC arm was compared to ORR in PD-L1 CPS ≥10 participants of the placebo + SOC arm based on the Miettinen \& Nurminen method stratified by geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||33.2|14.3|<0.0001
82426818|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.3231|TWO_SIDED|95.0|0.8|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||1.9|0.8|0.3231
82647695|NCT00830063|165011040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.24||0.002|TWO_SIDED|95.0|-1.24|-0.28||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.28|-1.24|0.002
82425059|NCT03189719|164559682|OTHER||Difference in LS Means|-0.1||||0.953|TWO_SIDED|95.0|-3.4|3.2|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a constrained longitudinal data analysis (cLDA) model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||3.20|-3.40|0.9530
82425060|NCT03189719|164559683|OTHER||Difference in LS Means|-1.95||||0.5053|TWO_SIDED|95.0|-7.72|3.82|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||3.82|-7.72|0.5053
82425061|NCT03189719|164559684|OTHER||Difference in LS Means|-0.06||||0.9742|TWO_SIDED|95.0|-3.93|3.81|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||3.81|-3.93|0.9742
82425062|NCT03189719|164559685|OTHER||Difference in LS Means|-1.77||||0.481|TWO_SIDED|95.0|-6.71|3.17|||constrained Longitudinal Data Analysis|||Change from baseline to Week 18 in EORTC-QLQ-C30 GHS/QoL combined score was compared between treatment arms based on a cLDA model with the EORTC-QLQ-C30 GHS/QoL scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||3.17|-6.71|0.4810
82425063|NCT03189719|164559686|OTHER||Difference in LS Means|-5.54||||0.0436|TWO_SIDED|95.0|-10.93|-0.16|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||-0.16|-10.93|0.0436
82425064|NCT03189719|164559686|OTHER||Difference in LS Means|-2.94||||0.0487|TWO_SIDED|95.0|-5.86|-0.02|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||-0.02|-5.86|0.0487
82425065|NCT03189719|164559686|OTHER||Difference in LS Means|-0.93||||0.5932|TWO_SIDED|95.0|-4.36|2.49|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma) and ECOG performance status (0 versus 1).||2.49|-4.36|0.5932
82425066|NCT03189719|164559687|OTHER||Difference in LS Means|-8.68||||0.0564|TWO_SIDED|95.0|-17.59|0.24|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.24|-17.59|0.0564
82425067|NCT03189719|164559687|OTHER||Difference in LS Means|-2.13||||0.3813|TWO_SIDED|95.0|-6.93|2.66|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||2.66|-6.93|0.3813
82425068|NCT03189719|164559687|OTHER||Difference in LS Means|-5.11||||0.0816|TWO_SIDED|95.0|-10.86|0.65|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||0.65|-10.86|0.0816
82425069|NCT03189719|164559688|OTHER||Difference in LS Means|-4.49||||0.1632|TWO_SIDED|95.0|-10.81|1.83|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||1.83|-10.81|0.1632
82647696|NCT00830063|165011040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.24||0.03|TWO_SIDED|95.0|-1.01|-0.05||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.05|-1.01|0.030
82425070|NCT03189719|164559688|OTHER||Difference in LS Means|-1.71||||0.3259|TWO_SIDED|95.0|-5.12|1.71|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||1.71|-5.12|0.3259
82426819|NCT00565409|164561923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|95.0|1.9|5.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 88||5.6|1.9|<0.0001
82425071|NCT03189719|164559688|OTHER||Difference in LS Means|-1.5||||0.4598|TWO_SIDED|95.0|-5.47|2.48|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and ECOG performance status (0 versus 1).||2.48|-5.47|0.4598
82425072|NCT03189719|164559689|OTHER||Difference in LS Means|-8.2||||0.0317|TWO_SIDED|95.0|-15.67|-0.73|||constrained Longitudinal Data Analysis|||DYSPHAGIA: Change from baseline to Week 18 in EORTC QLQ-OES18 Dysphagia subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||-0.73|-15.67|0.0317
82425073|NCT03189719|164559689|OTHER||Difference in LS Means|-3.57||||0.0945|TWO_SIDED|95.0|-7.77|0.62|||constrained Longitudinal Data Analysis|||PAIN: Change from baseline to Week 18 in EORTC QLQ-OES18 Pain subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.62|-7.77|0.0945
82425074|NCT03189719|164559689|OTHER||Difference in LS Means|-4.76||||0.0555|TWO_SIDED|95.0|-9.64|0.11|||constrained Longitudinal Data Analysis|||REFLUX: Change from baseline to Week 18 in EORTC QLQ-OES18 Reflux subscale was compared between treatment arms based on a cLDA model with EORTC QLQ-OES18 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors including geographic region (Asia versus Rest of the World) and tumor histology (Adenocarcinoma versus Squamous Cell Carcinoma).||0.11|-9.64|0.0555
82425075|NCT02769481|164559690|NON_INFERIORITY|A 95% CI was to be calculated to estimate the range of values in which the treatment difference was likely to lie. If the 95% CI fell below the specified non inferiority margin of 0.35%, the non inferiority of bexagliflozin treatment to glimepiride treatment would be demonstrated and the null hypothesis would be rejected.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-0.21|0.11|||||A lower value represents a better treatment effect.|The null hypothesis for the primary endpoint was that the change in HbA1c from baseline to week 60 in the bexagliflozin arm would be greater than change in the glimepiride arm by greater than 0.35%.||0.11|-0.21|
82425076|NCT02769481|164559691|SUPERIORITY||Difference of LS Means|-4.31|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.52||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, background treatment, baseline HbA1c, baseline eGFR, treatment, visit, treatment-by-visit and baseline weight as a fixed effect covariate.||||-3.52|-5.10|< 0.0001
82425077|NCT02769481|164559692|SUPERIORITY||Difference of LS Means|-6.53||||0.0008|TWO_SIDED|95.0|-10.56|-2.51||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, background treatment, baseline HbA1c, baseline eGFR, treatment, visit, treatment-by-visit and baseline weight as a fixed effect covariate.||||-2.51|-10.56|0.0008
82425078|NCT02769481|164559693|SUPERIORITY||Odds Ratio (OR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.05|0.28||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline HbA1c, background treatment, eGFR at baseline, treatment as a fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over glimepiride.|||0.28|0.05|< 0.0001
82425079|NCT02769481|164559694|SUPERIORITY|Superiority of bexagliflozin over glimepiride in HbA1c reduction from baseline to week 60 will be declared if the upper bound of 95% confidence interval is less than 0|Difference of LS Means|-0.05|||||TWO_SIDED|95.0|-0.21|0.11||||||||0.11|-0.21|
82535034|NCT01345292|164768392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|2.527|<|0.001|TWO_SIDED|95.0|-15.2|-5.25||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.25|-15.2|<0.001
82535035|NCT01345292|164768393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|2.012||0.533|TWO_SIDED|95.0|-5.22|2.71||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.71|-5.22|0.533
82425080|NCT02445911|164559721|OTHER||Least-squares Mean Difference|-6.78|||||TWO_SIDED|95.0|-23.75|10.18|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||10.18|-23.75|
82425081|NCT02445911|164559721|OTHER||Least-squares Mean Difference|-2.97|||||TWO_SIDED|95.0|-19.65|13.72|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||13.72|-19.65|
82425082|NCT02445911|164559721|OTHER||Least-squares Mean Difference|-5.05|||||TWO_SIDED|95.0|-21.97|11.88|||||Least-squares means have baseline and site as covariates. Placebo was the reference group.|||11.88|-21.97|
82425083|NCT01139515|164559739|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|98.7|||||TWO_SIDED|90.0|92.17|105.7||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||105.70|92.17|
82425084|NCT01139515|164559739|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|109.48|||||TWO_SIDED|90.0|102.23|117.24||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.24|102.23|
82426820|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4||||<0.0001
82535036|NCT01345292|164768393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.023||0.522|TWO_SIDED|95.0|-5.29|2.69||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.69|-5.29|0.522
82535037|NCT01345292|164768394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.53|STANDARD_ERROR_OF_MEAN|2.331|<|0.001|TWO_SIDED|95.0|-13.1|-3.94||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.94|-13.1|<0.001
82535038|NCT01345292|164768394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.13|STANDARD_ERROR_OF_MEAN|2.344||0.01|TWO_SIDED|95.0|-10.8|-1.51||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.51|-10.8|0.010
82425085|NCT01139515|164559739|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|109.93|||||TWO_SIDED|90.0|102.65|117.72||||||Natural log transformed, dose-normalized AUC\[0- ∞\] of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||117.72|102.65|
82425086|NCT01139515|164559740|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric means ratio|99.41|||||TWO_SIDED|90.0|92.97|106.31||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||106.31|92.97|
82425087|NCT01139515|164559740|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|110.52|||||TWO_SIDED|90.0|103.36|118.18||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.18|103.36|
82425088|NCT01139515|164559740|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|110.44|||||TWO_SIDED|90.0|103.28|118.09||||||Natural log transformed, dose-normalized AUClast of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.09|103.28|
82426821|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8||||<0.0001
82426822|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82426823|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82426824|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||<0.0001
82426825|NCT00565409|164561924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 36||||<0.0001
82426826|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14||||0.0089|TWO_SIDED|95.0|0.9|5.2||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||5.2|0.9|0.0089
82426827|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.6932|TWO_SIDED|95.0|0.5|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||1.7|0.5|0.6932
82426828|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.76||||0.0019|TWO_SIDED|95.0|1.2|6.1||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 36||6.1|1.2|0.0019
82426829|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.0797|TWO_SIDED|95.0|0.6|3.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||3.6|0.6|0.0797
82426830|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8103|TWO_SIDED|95.0|0.4|1.9||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||1.9|0.4|0.8103
82426831|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.0903|TWO_SIDED|95.0|0.8|4.5||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 40||4.5|0.8|0.0903
82426832|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.0035|TWO_SIDED|95.0|1.2|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||7.8|1.2|0.0035
82426833|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.977|TWO_SIDED|95.0|0.5|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||2.0|0.5|0.9770
82426834|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29||||0.0036|TWO_SIDED|95.0|1.3|8.3||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 48||8.3|1.3|0.0036
82426835|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8||||0.0038|TWO_SIDED|95.0|1.0|7.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||7.7|1.0|0.0038
82425089|NCT01139515|164559741|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric means ratio|101.81|||||TWO_SIDED|90.0|85.97|120.58||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||120.58|85.97|
82425090|NCT01139515|164559741|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|98.57|||||TWO_SIDED|90.0|83.23|116.73||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||116.73|83.23|
82425091|NCT01139515|164559741|SUPERIORITY_OR_OTHER_LEGACY||Adjusted ratio of geometric means|107.44|||||TWO_SIDED|90.0|90.72|127.25||||||"Natural log transformed, dose-normalized Cmax of eletriptan was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios."||127.25|90.72|
82425092|NCT03021486|164559768|OTHER|||||||0.71|||||||Wilcoxon Rank Sum Test|||||||0.71
82425093|NCT03021486|164559770|OTHER|||||||0.86|||||||Wilcoxon Rank Sum Test|||||||0.86
82425094|NCT03021486|164559771|OTHER|||||||0.12|||||||Two-tailed Fisher's exact test|||||||0.12
82647697|NCT00830063|165011041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.16||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.16|-0.50|<0.001
82425095|NCT03021486|164559772|OTHER|||||||0.007|||||||Two-tailed Fisher's exact test|||||||0.007
82425096|NCT03021486|164559773|OTHER|||||||0.83|||||||Two-tailed Fisher's exact test|||Perceived Comfort level as assessed by caregiver||||0.83
82425097|NCT03021486|164559773|OTHER|||||||0.82|||||||Two-tailed Fisher's exact test|||Perceived agitation level as assessed by caregiver||||0.82
82425098|NCT03021486|164559774|OTHER|||||||0.82|||||||Two-tailed Fisher's exact test|||Perceived Comfort level as assessed by nurse||||0.82
82425099|NCT03021486|164559774|OTHER|||||||0.91|||||||Two-tailed Fisher's exact test|||Perceived agitation level as assessed by nurse||||0.91
82425100|NCT03021486|164559775|OTHER|||||||0.12|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to time - frequency||||0.12
82425101|NCT03021486|164559775|OTHER|||||||0.07|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to place - frequency||||0.07
82425102|NCT03021486|164559775|OTHER|||||||0.051|||||||Wilcoxon Rank Sum Test|||Nursing assessment, visual hallucination - frequency||||0.051
82425103|NCT03021486|164559775|OTHER|||||||0.048|||||||Wilcoxon Rank Sum Test|||Nursing assessment, tactile hallucination - frequency||||0.048
82425104|NCT03021486|164559775|OTHER|||||||0.15|||||||Wilcoxon Rank Sum Test|||Nursing assessment, auditory hallucination - frequency||||0.15
82425105|NCT03021486|164559775|OTHER|||||||0.1|||||||Wilcoxon Rank Sum Test|||Nursing assessment, delusional thoughts - frequency||||0.10
82425106|NCT03021486|164559775|OTHER|||||||0.15|||||||Wilcoxon Rank Sum Test|||Nursing assessment, psychomotor agitation- frequency||||0.15
82425107|NCT03021486|164559775|OTHER|||||||0.98|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to time - distress||||0.98
82425108|NCT03021486|164559775|OTHER|||||||0.93|||||||Wilcoxon Rank Sum Test|||Nursing assessment, disorientation to place - distress||||0.93
82425109|NCT03021486|164559775|OTHER|||||||0.08|||||||Wilcoxon Rank Sum Test|||Nursing assessment, visual hallucination - distress||||0.08
82425110|NCT03021486|164559775|OTHER|||||||0.28|||||||Wilcoxon Rank Sum Test|||Nursing assessment, tactile hallucination - distress||||0.28
82425111|NCT03021486|164559775|OTHER|||||||0.83|||||||Wilcoxon Rank Sum Test|||Nursing assessment, auditory hallucination - distress||||0.83
82425112|NCT03021486|164559775|OTHER|||||||0.22|||||||Wilcoxon Rank Sum Test|||Nursing assessment, delusional thoughts - distress||||0.22
82425113|NCT03021486|164559775|OTHER|||||||0.75|||||||Wilcoxon Rank Sum Test|||Nursing assessment, psychomotor agitation - distress||||0.75
82425114|NCT03021486|164559776|OTHER|||||||0.09|||||||Wilcoxon Rank Sum Test|||||||0.09
82425115|NCT03021486|164559777|OTHER|||||||0.02|||||||Wilcoxon Rank Sum Test|||Mean change in pain.||||0.02
82425116|NCT03021486|164559777|OTHER|||||||0.1|||||||Wilcoxon Rank Sum Test|||Mean change in Fatigue.||||0.10
82425117|NCT03021486|164559777|OTHER|||||||0.02|||||||Wilcoxon Rank Sum Test|||Mean change in Nausea.||||0.02
82425118|NCT03021486|164559777|OTHER|||||||0.97|||||||Wilcoxon Rank Sum Test|||Mean change in Depression.||||0.97
82425119|NCT03021486|164559777|OTHER|||||||0.03|||||||Wilcoxon Rank Sum Test|||Mean change in Anxiety.||||0.03
82425120|NCT03021486|164559777|OTHER|||||||0.68|||||||Wilcoxon Rank Sum Test|||Mean change in Drowsiness.||||0.68
82425121|NCT03021486|164559777|OTHER|||||||0.8|||||||Wilcoxon Rank Sum Test|||Mean change in Appetite.||||0.80
82425122|NCT03021486|164559777|OTHER|||||||0.45|||||||Wilcoxon Rank Sum Test|||Mean change in Feeling of well being.||||0.45
82425123|NCT03021486|164559777|OTHER|||||||0.16|||||||Wilcoxon Rank Sum Test|||Mean change in Shortness of breath.||||0.16
82425124|NCT03021486|164559777|OTHER|||||||0.12|||||||Wilcoxon Rank Sum Test|||Mean change in Sleep.||||0.12
82425125|NCT04043286|164559779|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.18||0.009|TWO_SIDED|95.0|0.1|0.85|||Wilcoxon (Mann-Whitney)|The Shapiro-Wilk test assessed data normality, and paired t-tests or Wilcoxon tests were applied based on normality results.||The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.||0.85|0.10|0.009
82535039|NCT02373813|164768413|SUPERIORITY||Risk Difference (RD)|20.8|STANDARD_ERROR_OF_MEAN|6.7||0.004|TWO_SIDED|95.0|7.6|33.9||The risk difference and its p-value were estimated from the chi-squared test with continuity correction.|Chi-squared, Corrected|||||33.9|7.6|0.004
82425126|NCT04043286|164559780|SUPERIORITY||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|0.23||0.049|TWO_SIDED|95.0|-0.0000168|1.25|||Wilcoxon (Mann-Whitney)|||"The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.~Type of Statistical Test"||1.25|-0.0000168|0.049
82535040|NCT02373813|164768414|SUPERIORITY||Risk Difference (RD)|24.2|STANDARD_ERROR_OF_MEAN|8.3||0.006|TWO_SIDED|95.0|7.9|40.5||The risk difference and its p-value were estimated from the chi-squared test with continuity correction.|Chi-squared, Corrected|||||40.5|7.9|0.006
82535041|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.58|TWO_SIDED|95.0|-0.48|0.27|||two sample t-test|||Baseline||0.27|-0.48|0.58
82535042|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.85|TWO_SIDED|95.0|-0.37|0.31|||two sample t-test|||Baseline||0.31|-0.37|0.85
82425127|NCT04043286|164559781|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.15||0.053|TWO_SIDED|95.0|-0.0000522|0.75|||Wilcoxon (Mann-Whitney)|||"The null hypothesis was that there would be no significant difference in peri-implant bone levels between implants with definitive abutments delivered at the time of surgery, and those subjected to multiple abutment disconnections and reconnections. Power analysis was performed and showed that a sample size of 38 implants was needed to achieve 80% power to detect a difference between the null proportion of 0.500 at a significance level of 0.05.~Type of Statistical Test"||0.75|-0.0000522|0.053
82425128|NCT01263119|164559801|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.07|||||TWO_SIDED|90.0|1.0|1.13|||Mixed Models Analysis|||||1.13|1.00|
82425129|NCT01263119|164559802|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.12|||||TWO_SIDED|90.0|1.07|1.16|||Mixed Models Analysis|||||1.16|1.07|
82425130|NCT01263119|164559803|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.9551|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.50|-0.50|0.9551
82425131|NCT01263119|164559804|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.15|||||TWO_SIDED|90.0|1.1|1.2|||Mixed Models Analysis|||||1.20|1.10|
82425132|NCT01263119|164559805|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.13|||||TWO_SIDED|90.0|1.09|1.17|||Mixed Models Analysis|||||1.17|1.09|
82425133|NCT01263119|164559806|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.6094|TWO_SIDED|90.0|-0.5|0.02|||Wilcoxon (Mann-Whitney)|||||0.02|-0.50|0.6094
82425134|NCT01263119|164559807|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.02|1.05|||Mixed Models Analysis|||Least Squares (LS) geometric mean was based on pharmacodynamic AUCINR of warfarin.||1.05|1.02|
82425135|NCT01263119|164559808|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|1.01|1.08|||Mixed Models Analysis|||Least Squares (LS) geometric mean was based on pharmacodynamic INRmax of warfarin.||1.08|1.01|
82425136|NCT02138825|164559809|SUPERIORITY_OR_OTHER||LS mean difference|21.48||||0.2074|TWO_SIDED|95.0|-8.75|51.71|||ANCOVA|||The evaluation of primary efficacy endpoint will be based on change from baseline in 6MWD using analysis of covariance (ANCOVA) with baseline 6MWD, treatment arm and region as factors.||51.71|-8.75|0.2074
82425137|NCT02138825|164559810|SUPERIORITY_OR_OTHER|||||||0.3437|||||||Mantel Haenszel|||The difference in incidences in clinical worsening and mortality will be analyzed using Mantel-Haenszel weights, stratified by region.||||0.3437
82425138|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82425139|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425140|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82425141|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.9913|||||||Mixed Models Analysis|||||||0.9913
82425142|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.0427|||||||Mixed Models Analysis|||||||0.0427
82425143|NCT01690273|164559819|SUPERIORITY_OR_OTHER|||||||0.1856|||||||Mixed Models Analysis|||||||0.1856
82425144|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||0.04
82425145|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
82425146|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Mixed Models Analysis|||||||0.0002
82425147|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425148|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||0.935|||||||Mixed Models Analysis|||||||0.935
82425149|NCT01690273|164559820|SUPERIORITY_OR_OTHER|||||||0.876|||||||Mixed Models Analysis|||||||0.876
82425150|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82425151|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.87|||||||Mixed Models Analysis|||||||0.87
82425152|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.83|||||||Mixed Models Analysis|||||||0.83
82535043|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-2.61|STANDARD_ERROR_OF_MEAN|1.66||0.12|TWO_SIDED|95.0|-5.89|0.67|||two sample t-test|||Week 12||0.67|-5.89|0.12
82535044|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-2.64|STANDARD_ERROR_OF_MEAN|1.26||0.037|TWO_SIDED|95.0|-5.12|-0.16|||two sample t-test|||Week 12||-0.16|-5.12|0.037
82535045|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-2.33|STANDARD_ERROR_OF_MEAN|1.46||0.063|TWO_SIDED|95.0|-4.8|0.13|||two sample t-test|||Week 24||0.13|-4.80|0.063
82535046|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.34||0.64|TWO_SIDED|95.0|-3.27|2.01|||two sample t-test|||Week 24||2.01|-3.27|0.64
82535047|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.9||0.031|TWO_SIDED|95.0|-3.09|-0.15|||two sample t-test|||Week 36||-0.15|-3.09|0.031
82535048|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-1.77|STANDARD_ERROR_OF_MEAN|0.71||0.015|TWO_SIDED|95.0|-3.2|-0.35|||two sample t-test|||Week 36||-0.35|-3.20|0.015
82535049|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.87||0.58|TWO_SIDED|95.0|-2.55|1.45|||two sample t-test|||Week 48||1.45|-2.55|0.58
82647698|NCT00830063|165011041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.09||0.014|TWO_SIDED|95.0|-0.39|-0.04||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.04|-0.39|0.014
82425153|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.989|||||||Mixed Models Analysis|||||||0.989
82425154|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.022|||||||Mixed Models Analysis|||||||0.022
82425155|NCT01690273|164559821|SUPERIORITY_OR_OTHER|||||||0.119|||||||Mixed Models Analysis|||||||0.119
82425156|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82425157|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425158|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||||||0.94
82425159|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.213|||||||Mixed Models Analysis|||||||0.213
82425160|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82425161|NCT01690273|164559822|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.900
82425162|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||||||0.003
82425163|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425164|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.69|||||||Mixed Models Analysis|||||||0.69
82425165|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.874|||||||Mixed Models Analysis|||||||0.874
82535050|NCT02373813|164768415|SUPERIORITY||Treatment Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.45||0.02|TWO_SIDED|95.0|-1.99|-0.17|||two sample t-test|||Week 48||-0.17|-1.99|0.020
82535051|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-2.46|STANDARD_ERROR_OF_MEAN|1.63||0.13|TWO_SIDED|95.0|-5.68|0.77|||two sample t-test|||Change at Week 12||0.77|-5.68|0.13
82535052|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-2.53|STANDARD_ERROR_OF_MEAN|1.25||0.045|TWO_SIDED|95.0|-4.99|-0.06|||two sample t-test|||Change at Week 12||-0.06|-4.99|0.045
82647699|NCT00830063|165011041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.09||0.026|TWO_SIDED|95.0|-0.36|-0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.02|-0.36|0.026
82425166|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.057|||||||Mixed Models Analysis|||||||0.057
82425167|NCT01690273|164559823|SUPERIORITY_OR_OTHER|||||||0.526|||||||Mixed Models Analysis|||||||0.526
82425168|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0.853|||||||Mixed Models Analysis|||||||0.853
82425169|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
82425170|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
82425171|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0.889|||||||Mixed Models Analysis|||||||0.889
82425172|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0.098|||||||Mixed Models Analysis|||||||0.098
82425173|NCT01690273|164559824|SUPERIORITY_OR_OTHER|||||||0.645|||||||Mixed Models Analysis|||||||0.645
82425174|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||0.07|||||||Mixed Models Analysis|||||||0.07
82425175|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82425176|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
82425177|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425178|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||0.338|||||||Mixed Models Analysis|||||||0.338
82425179|NCT01690273|164559825|SUPERIORITY_OR_OTHER|||||||0.476|||||||Mixed Models Analysis|||||||0.476
82425180|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||0.88|||||||Mixed Models Analysis|||||||0.88
82425181|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425182|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425183|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425184|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||0.995|||||||Mixed Models Analysis|||||||0.995
82425185|NCT01690273|164559826|SUPERIORITY_OR_OTHER|||||||0.985|||||||Mixed Models Analysis|||||||0.985
82425186|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.9
82425187|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|||||||0.7
82425188|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425189|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
82425190|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.9|||||||Mixed Models Analysis|||||||0.900
82425191|NCT01690273|164559827|SUPERIORITY_OR_OTHER|||||||0.739|||||||Mixed Models Analysis|||||||0.739
82425192|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425193|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425194|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mixed Models Analysis|||||||0.37
82535053|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-2.27|STANDARD_ERROR_OF_MEAN|1.45||0.071|TWO_SIDED|95.0|-4.75|0.2|||two sample t-test|||Change at Week 24||0.20|-4.75|0.071
82535054|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-0.64|STANDARD_ERROR_OF_MEAN|1.34||0.63|TWO_SIDED|95.0|-3.28|2.0|||two sample t-test|||Change at Week 24||2.00|-3.28|0.63
82535055|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.91||0.037|TWO_SIDED|95.0|-3.11|-0.1|||two sample t-test|||Change at Week 36||-0.10|-3.11|0.037
82535056|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-1.84|STANDARD_ERROR_OF_MEAN|0.73||0.013|TWO_SIDED|95.0|-3.3|-0.39|||two sample t-test|||Change at Week 36||-0.39|-3.30|0.013
82535057|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.88||0.62|TWO_SIDED|95.0|-2.54|1.53|||two sample t-test|||Change at Week 48||1.53|-2.54|0.62
82535058|NCT02373813|164768416|SUPERIORITY||Treatment Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.45||0.015|TWO_SIDED|95.0|-2.02|-0.22|||two sample t-test|||Change at Week 48||-0.22|-2.02|0.015
82425195|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||0.618|||||||Mixed Models Analysis|||||||0.618
82425196|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82535059|NCT02373813|164768417|SUPERIORITY||Treatment Difference|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.75|TWO_SIDED|95.0|-0.19|0.26|||two sample t-test|||Baseline||0.26|-0.19|0.75
82425197|NCT01690273|164559828|SUPERIORITY_OR_OTHER|||||||0.689|||||||Mixed Models Analysis|||||||0.689
82425198|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.8|||||||Mixed Models Analysis|||||||0.8
82425199|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.97
82425200|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82425201|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
82535060|NCT02373813|164768417|SUPERIORITY||Treatment Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.43|TWO_SIDED|95.0|-0.11|0.27|||two sample t-test|||Baseline||0.27|-0.11|0.43
82425202|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.929|||||||Mixed Models Analysis|||||||0.929
82425203|NCT01690273|164559829|SUPERIORITY_OR_OTHER|||||||0.98|||||||Mixed Models Analysis|||||||0.980
82425204|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||1|||||||Mixed Models Analysis|||||||1
82425205|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
82425206|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||0.35|||||||Mixed Models Analysis|||||||0.350
82647700|NCT00830063|165011041|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.349|TWO_SIDED|95.0|-0.25|0.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.09|-0.25|0.349
82425207|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||0.997|||||||Mixed Models Analysis|||||||0.997
82425208|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||0.97|||||||Mixed Models Analysis|||||||0.970
82425209|NCT01690273|164559830|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
82425210|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0.997|||||||Mixed Models Analysis|||||||0.997
82425211|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0|||||||Mixed Models Analysis|||||||0.000
82425212|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0.503|||||||Mixed Models Analysis|||||||0.503
82425213|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0.814|||||||Mixed Models Analysis|||||||0.814
82425214|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0.643|||||||Mixed Models Analysis|||||||0.643
82425215|NCT01690273|164559831|SUPERIORITY_OR_OTHER|||||||0.999|||||||Mixed Models Analysis|||||||0.999
82425216|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.787|||||||Mixed Models Analysis|||||||0.787
82425217|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.408|||||||Mixed Models Analysis|||||||0.408
82425218|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.157|||||||Mixed Models Analysis|||||||0.157
82425219|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.835|||||||Mixed Models Analysis|||||||0.835
82425220|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.256|||||||Mixed Models Analysis|||||||0.256
82425221|NCT01690273|164559832|SUPERIORITY_OR_OTHER|||||||0.935|||||||Mixed Models Analysis|||||||0.935
82425222|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.978|||||||Mixed Models Analysis|||||||0.978
82425223|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.169|||||||Mixed Models Analysis|||||||0.169
82425224|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82425225|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.993|||||||Mixed Models Analysis|||||||0.993
82425226|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.105|||||||Mixed Models Analysis|||||||0.105
82425227|NCT01690273|164559833|SUPERIORITY_OR_OTHER|||||||0.335|||||||Mixed Models Analysis|||||||0.335
82425228|NCT00976456|164559873|NON_INFERIORITY_OR_EQUIVALENCE|The estimation was that in the pemetrexed-carboplatin plus bevacizumab Arm the median PFS will be 5.5 months. A median PFS of 4 months (5.5 - 27%) had been regarded non-inferior. Assuming the accrual period of 24 months and the whole study duration of 42 months, 246 patients had to be recruited. According to the fact, that the required statistical power of 80% will be reached by occurrence of altogether 227 events, the final analysis was done at this time point.|Hazard Ratio (HR)|1.29||||0.0583|TWO_SIDED|95.0|0.989|1.682|||Wilcoxon (Mann-Whitney)|||||1.682|0.989|0.0583
82425229|NCT00976456|164559874|NON_INFERIORITY_OR_EQUIVALENCE|The estimation was that in the pemetrexed-carboplatin plus bevacizumab Arm the median PFS will be 5.5 months. A median PFS of 4 months (5.5 - 27%) had been regarded non-inferior. Assuming the accrual period of 24 months and the whole study duration of 42 months, 246 patients had to be recruited. According to the fact, that the required statistical power of 80% will be reached by occurrence of altogether 227 events, the final analysis was done at this time Point.|Hazard Ratio (HR)|1.091||||0.3869|TWO_SIDED|95.0|0.794|1.499|||Wilcoxon (Mann-Whitney)|||||1.499|0.794|0.3869
82425230|NCT02090764|164559875|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Chi-squared|||The treatment comparison was done using only the outcomes of Clinical success and Clinical failure. The p value of the chi square test (without continuity correction) was provided. The analysis was performed to test the superiority of ozenoxacin versus placebo.||||0.001
82425231|NCT02037529|164559878|SUPERIORITY|||||||0.5623|||||||Log Rank|||||||0.5623
82425232|NCT02037529|164559883|SUPERIORITY|||||||0.984|||||||Log Rank|||||||0.9840
82425233|NCT02037529|164559884|SUPERIORITY|||||||0.5968|||||||Log Rank|||||||0.5968
82425234|NCT02384421|164559892|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82425235|NCT02384421|164559893|SUPERIORITY|||||||0.0064|||||||t-test, 2 sided|||||||0.0064
82535061|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.23||0.049|TWO_SIDED|95.0|-0.91|0.0|||two sample t-test|||Week 12||0.00|-0.91|0.049
82535062|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.032|TWO_SIDED|95.0|-0.77|-0.04|||two sample t-test|||Week 12||-0.04|-0.77|0.032
82535063|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.18|TWO_SIDED|95.0|-0.58|0.11|||two sample t-test|||Week 24||0.11|-0.58|0.18
82535064|NCT02373813|164768417|SUPERIORITY||Treatment Difference|0.14|STANDARD_ERROR_OF_MEAN|0.19||0.48|TWO_SIDED|95.0|-0.24|0.51|||two sample t-test|||Week 24||0.51|-0.24|0.48
82425236|NCT02384421|164559894|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82425237|NCT02384421|164559895|SUPERIORITY|||||||0.25|||||||Wilcoxon Signed-Rank Test|||||||0.25
82425238|NCT02384421|164559896|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82425239|NCT02384421|164559897|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82425240|NCT00718315|164559898|SUPERIORITY_OR_OTHER|||||||0.481||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.481
82425241|NCT00718315|164559898|SUPERIORITY_OR_OTHER|||||||0.933||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.933
82425242|NCT00718315|164559898|SUPERIORITY_OR_OTHER|||||||0.986||||||Test for Binomial Ratio, where H0: P \>=61%; Ha: P \< 61% (One-tailed Test)|t-test, 1 sided|||||||0.986
82425243|NCT00718315|164559900|SUPERIORITY_OR_OTHER|||||||0.095|||||||Log Rank|||||||0.095
82425244|NCT00718315|164559901|SUPERIORITY_OR_OTHER|||||||0.199|||||||Chi-squared|||||||0.199
82425245|NCT00718315|164559902|SUPERIORITY_OR_OTHER|||||||0.108|||||||Chi-squared|||||||0.108
82425246|NCT00718315|164559903|SUPERIORITY_OR_OTHER|||||||0.179|||||||Chi-squared|||||||0.179
82425247|NCT00718315|164559904|SUPERIORITY_OR_OTHER|||||||0.066|||||||Kruskal-Wallis|||||||0.066
82425248|NCT00718315|164559905|SUPERIORITY_OR_OTHER|||||||0.087|||||||Kruskal-Wallis|||||||0.087
82425249|NCT00718315|164559906|SUPERIORITY_OR_OTHER|||||||0.308|||||||Kruskal-Wallis|||||||0.308
82425250|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.1||||0.253|TWO_SIDED|95.0|-3.1|0.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.8|-3.1|0.253
82425251|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.1||||0.919|TWO_SIDED|95.0|-2.1|1.9|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.9|-2.1|0.919
82425252|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.2||||0.829|TWO_SIDED|95.0|-2.2|1.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.8|-2.2|0.829
82425253|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.1||||0.074|TWO_SIDED|95.0|-4.5|0.2|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.2|-4.5|0.074
82425254|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|1.0||||0.393|TWO_SIDED|95.0|-1.3|3.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||3.3|-1.3|0.393
82425255|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|2.0||||0.088|TWO_SIDED|95.0|-0.3|4.4|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||4.4|-0.3|0.088
82425256|NCT00806585|164559907|SUPERIORITY_OR_OTHER||Difference in least squares means|1.9||||0.108|TWO_SIDED|95.0|-0.4|4.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||4.3|-0.4|0.108
82425257|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0.543|TWO_SIDED|95.0|-4.0|2.1|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||2.1|-4.0|0.543
82425258|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.8||||0.246|TWO_SIDED|95.0|-4.9|1.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||1.3|-4.9|0.246
82425259|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.4||||0.821|TWO_SIDED|95.0|-3.5|2.7|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||2.7|-3.5|0.821
82425260|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|-7.0|||<|0.001|TWO_SIDED|95.0|-10.7|-3.3|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-3.3|-10.7|<0.001
82425261|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|6.1||||0.001|TWO_SIDED|95.0|2.4|9.8|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||9.8|2.4|0.001
82425262|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|5.2||||0.006|TWO_SIDED|95.0|1.5|8.9|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||8.9|1.5|0.006
82425263|NCT00806585|164559908|SUPERIORITY_OR_OTHER||Difference in least squares means|6.7|||<|0.001|TWO_SIDED|95.0|3.0|10.4|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||10.4|3.0|<0.001
82425264|NCT00806585|164559909|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.4||||0.684|TWO_SIDED|95.0|-8.3|5.5|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||5.5|-8.3|0.684
82425265|NCT00806585|164559909|SUPERIORITY_OR_OTHER||Difference in least squares means|1.8||||0.597|TWO_SIDED|95.0|-5.0|8.7|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||8.7|-5.0|0.597
82535065|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.35|TWO_SIDED|95.0|-0.51|0.18|||two sample t-test|||Week 36||0.18|-0.51|0.35
82535066|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.28|TWO_SIDED|95.0|-0.41|0.12|||two sample t-test|||Week 36||0.12|-0.41|0.28
82535067|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.48|TWO_SIDED|95.0|-0.44|0.21|||two sample t-test|||Week 48||0.21|-0.44|0.48
82647701|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
82425266|NCT00806585|164559909|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0.793|TWO_SIDED|95.0|-7.6|5.8|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||5.8|-7.6|0.793
82425267|NCT00806585|164559909|SUPERIORITY_OR_OTHER||Difference in least squares means|0.8||||0.854|TWO_SIDED|95.0|-7.6|9.2|||ANCOVA|Fixed effects for treatment baseline, stratification, time, interaction of time by stratification and treatments factors and a random subject effect||||9.2|-7.6|0.854
82425268|NCT00806585|164559910|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.9||||0.006|TWO_SIDED|95.0|-3.2|-0.5|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.5|-3.2|0.006
82425269|NCT00806585|164559910|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.0||||0.004|TWO_SIDED|95.0|-3.3|-0.6|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.6|-3.3|0.004
82535068|NCT02373813|164768417|SUPERIORITY||Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.92|TWO_SIDED|95.0|-0.26|0.24|||two sample t-test|||Week 48||0.24|-0.26|0.92
82535069|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.22||0.032|TWO_SIDED|95.0|-0.91|-0.04|||two sample t-test|||Change at Week 12||-0.04|-0.91|0.032
82535070|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.005|TWO_SIDED|95.0|-0.78|-0.15|||two sample t-test|||Change at Week 12||-0.15|-0.78|0.005
82535071|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.058|TWO_SIDED|95.0|-0.63|0.01|||two sample t-test|||Change at Week 24||0.01|-0.63|0.058
82425270|NCT00806585|164559910|SUPERIORITY_OR_OTHER||Diffference in least squares means|-1.3||||0.066|TWO_SIDED|95.0|-2.6|0.1|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.1|-2.6|0.066
82425271|NCT00806585|164559910|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.2||||0.008|TWO_SIDED|95.0|-3.7|-0.6|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.6|-3.7|0.008
82425272|NCT00806585|164559911|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.18||||0.152|TWO_SIDED|95.0|-0.44|0.07|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.07|-0.44|0.152
82425273|NCT00806585|164559911|SUPERIORITY_OR_OTHER||Difference in least sqaures means|-0.28||||0.035|TWO_SIDED|95.0|-0.54|-0.02|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.02|-0.54|0.035
82425274|NCT00806585|164559911|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.22||||0.095|TWO_SIDED|95.0|-0.48|0.04|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||0.04|-0.48|0.095
82425275|NCT00806585|164559911|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.32||||0.045|TWO_SIDED|95.0|-0.63|-0.01|||Constrained longitudinal data analysis|Model included terms for treatment, stratification factor, time, interaction of time by stratification factor and the interaction of time by treatment||||-0.01|-0.63|0.045
82535072|NCT02373813|164768418|SUPERIORITY||Treatment Difference|0.05|STANDARD_ERROR_OF_MEAN|0.17||0.78|TWO_SIDED|95.0|-0.29|0.38|||two sample t-test|||Change at Week 24||0.38|-0.29|0.78
82535073|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.27|TWO_SIDED|95.0|-0.49|0.14|||two sample t-test|||Change at Week 36||0.14|-0.49|0.27
82535074|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.078|TWO_SIDED|95.0|-0.47|0.03|||two sample t-test|||Change at Week 36||0.03|-0.47|0.078
82535075|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.47|TWO_SIDED|95.0|-0.43|0.2|||two sample t-test|||Week 48||0.20|-0.43|0.47
82535076|NCT02373813|164768418|SUPERIORITY||Treatment Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.39|TWO_SIDED|95.0|-0.33|0.13|||two sample t-test|||Change at Week 48||0.13|-0.33|0.39
82535077|NCT02373813|164768419|SUPERIORITY||Treatment Difference|0.03|STANDARD_ERROR_OF_MEAN|0.06||0.6|TWO_SIDED|95.0|-0.09|0.15|||two sample t-test|||Baseline||0.15|-0.09|0.60
82535078|NCT02373813|164768419|SUPERIORITY||Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.97|TWO_SIDED|95.0|-0.1|0.1|||two sample t-test|||Baseline||0.10|-0.10|0.97
82535079|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.044|TWO_SIDED|95.0|-0.82|-0.01|||two sample t-test|||Week 12||-0.01|-0.82|0.044
82535080|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.76|-0.14|||two sample t-test|||Week 12||-0.14|-0.76|0.004
82535081|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.009|TWO_SIDED|95.0|-0.66|-0.1|||two sample t-test|||Week 24||-0.10|-0.66|0.009
82535082|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.34|TWO_SIDED|95.0|-0.46|0.16|||two sample t-test|||Week 24||0.16|-0.46|0.34
82535083|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.046|TWO_SIDED|95.0|-0.47|0.0|||two sample t-test|||Week 36||0.00|-0.47|0.046
82535084|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.49|-0.08|||two sample t-test|||Week 36||-0.08|-0.49|0.006
82448705|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|-1.52|0.78||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.78|-1.52|
82448706|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.95|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|90.0|-2.1|0.2||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.20|-2.10|
82448707|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.58|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|90.0|-0.56|1.71||||||Total recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||1.71|-0.56|
82448708|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-1.02|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-2.06|0.02||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.02|-2.06|
82425276|NCT02621892|164559917|SUPERIORITY||Risk Difference (RD)|8.31|||<|0.02|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.02
82448709|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-1.21|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-2.25|-0.17||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.17|-2.25|
82448710|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.19|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|90.0|-0.82|1.19||||||Total Recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||1.19|-0.82|
82448711|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.77|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-1.39|-0.15||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.15|-1.39|
82448712|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.17|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|-0.8|0.45||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.45|-0.80|
82448713|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.6|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|90.0|-1.21|0.02||||||Delayed recall score at Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.02|-1.21|
82448714|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.85|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.42|-0.28||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.28|-1.42|
82448715|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.11|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.67|0.46||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||0.46|-0.67|
82448716|NCT02262754|164604708|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|-0.74|STANDARD_ERROR_OF_MEAN|0.33|||TWO_SIDED|90.0|-1.29|-0.2||||||Delayed recall score at Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate. Unplanned readings were excluded from the analysis.||-0.20|-1.29|
82425277|NCT02621892|164559919|SUPERIORITY||Risk Difference (RD)|10.86|||<|0.008|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.008
82425278|NCT02621892|164559920|SUPERIORITY||Risk Difference (RD)|10.34|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82425279|NCT02621892|164559921|SUPERIORITY||Risk Difference (RD)|11.92|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82425280|NCT02621892|164559922|SUPERIORITY||Risk Difference (RD)|10.9|||<|0.003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.003
82425281|NCT04562116|164559997|OTHER||Ratio|94.59||||0.5789|TWO_SIDED|90.0|79.57|112.45||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||112.45|79.57|0.5789
82448717|NCT02262754|164604709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|90.0|0.61|1.58||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||1.58|0.61|
82647702|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
82647703|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
82448718|NCT02262754|164604709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||||TWO_SIDED|90.0|1.33|3.14||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||3.14|1.33|
82448719|NCT02262754|164604709|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.48|||||TWO_SIDED|90.0|0.31|0.74||||||A repeated measures logistic regression model included treatment and week as fixed effects and LBPI baseline as a covariate. Participant was included as a repeated effect.||0.74|0.31|
82448720|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.01|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.19|0.2||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.20|-0.19|
82448721|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.34|0.05||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.05|-0.34|
82448722|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.15|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|90.0|-0.05|0.35||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.35|-0.05|
82448723|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.04|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.26|0.18||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.18|-0.26|
82448724|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.15|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.37|0.07||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.07|-0.37|
82448725|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.11|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.1|0.33||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.33|-0.10|
82448726|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.15|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.09|0.38||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.38|-0.09|
82647704|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
82647705|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.65|-0.7||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.70|-1.65|<0.001
82448727|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|0.02|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.21|0.25||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.25|-0.21|
82448728|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.13|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|-0.1|0.36||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.36|-0.10|
82448729|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|0.12|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.13|0.38||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.38|-0.13|
82535085|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.25|TWO_SIDED|95.0|-0.4|-0.1|||two sample t-test|||Week 48||-0.10|-0.40|0.25
82425282|NCT04562116|164559997|OTHER||Ratio|99.34||||0.9468|TWO_SIDED|90.0|83.66|117.96||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||117.96|83.66|0.9468
82425283|NCT04562116|164559997|OTHER||Ratio|107.81||||0.1364|TWO_SIDED|90.0|99.14|117.24||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||117.24|99.14|0.1364
82425284|NCT04562116|164559997|OTHER||Ratio|92.13||||0.1915|TWO_SIDED|90.0|82.85|102.44||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||102.44|82.85|0.1915
82425285|NCT04562116|164559997|OTHER||Ratio|101.67||||0.5059|TWO_SIDED|90.0|97.41|106.12||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||106.12|97.41|0.5059
82425286|NCT04562116|164559998|OTHER||Ratio|95.82||||0.6665|TWO_SIDED|90.0|80.72|113.75||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||113.75|80.72|0.6665
82425287|NCT04562116|164559998|OTHER||Ratio|99.15||||0.9316|TWO_SIDED|90.0|83.43|117.83||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||117.83|83.43|0.9316
82425288|NCT04562116|164559998|OTHER||Ratio|107.75||||0.1371|TWO_SIDED|90.0|99.12|117.13||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||117.13|99.12|0.1371
82425289|NCT04562116|164559998|OTHER||Ratio|88.66||||0.0962|TWO_SIDED|90.0|78.72|99.85||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||99.85|78.72|0.0962
82425290|NCT04562116|164559998|OTHER||Ratio|100.81||||0.6807|TWO_SIDED|90.0|97.45|104.29||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||104.29|97.45|0.6807
82425291|NCT04562116|164559999|OTHER||Ratio|91.22||||0.3431|TWO_SIDED|90.0|77.3|107.63||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Caffeine||107.63|77.30|0.3431
82425292|NCT04562116|164559999|OTHER||Ratio|91.05||||0.4277|TWO_SIDED|90.0|74.33|111.53||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Metoprolol Tartrate||111.53|74.33|0.4277
82425293|NCT04562116|164559999|OTHER||Ratio|94.79||||0.4963|TWO_SIDED|90.0|82.8|108.52||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Midazolam||108.52|82.80|0.4963
82425294|NCT04562116|164559999|OTHER||Ratio|88.24||||0.1931|TWO_SIDED|90.0|75.08|103.7||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Omeprazole||103.70|75.08|0.1931
82425295|NCT04562116|164559999|OTHER||Ratio|92.94||||0.296|TWO_SIDED|90.0|82.51|104.69||A linear mixed-effect model was used to compare the natural log-transformed of the value, with substrate with or without Nemolizumab as the fixed effect and subject as a random effect.|Mixed Models Analysis|||Warfarin Sodium||104.69|82.51|0.2960
82425296|NCT02329587|164560004|OTHER||Between-group effect size (Hedge's g)|0.138|||||TWO_SIDED|||||||||||||
82425297|NCT02329587|164560005|OTHER||Between-group effect size (Hedge's g)|-0.214|||||TWO_SIDED|||||||||||||
82425298|NCT02329587|164560006|OTHER||Between-groups effect size (Hedge's g)|-0.007|||||TWO_SIDED|||||||||||||
82425299|NCT02329587|164560007|OTHER||Between-group effect size (Hedge's g)|-0.151|||||TWO_SIDED|||||||||||||
82425300|NCT02329587|164560008|OTHER||Between-groups effect size (Hedge's g)|0.704|||||TWO_SIDED|||||||||||||
82425301|NCT02329587|164560009|OTHER||Odds Ratio (OR)|1.125|||||TWO_SIDED|||||||||||||
82425302|NCT03097289|164560027|NON_INFERIORITY|"The acceptance criterion for the recovery (%) of platelets is the demonstration of non-inferiority by the rejection of the Null Hypothesis (H0) defined by the following hypotheses: Null Hypothesis H0: μd ≤ 0 where μd=μT-0.66\*μC Alternate Hypothesis H1: μd \>~Let Xi = (XTi-0.66\*XCi) be a difference if recovery for patient i. The sample mean and standard deviations of these observed differences will be used to construct the lower limit of a 1-sided 97.5% confidence interval."|Mean Difference (Final Values)|8.18|||||ONE_SIDED|97.5|4.03||||||||||4.03|
82425303|NCT03097289|164560028|NON_INFERIORITY|"The acceptance criterion for the survival (days) of platelets is the demonstration of non inferiority by the rejection of the null hypothesis (H0) defined by the following hypotheses:~Null Hypothesis H0: μd ≤ 0 where μd = μT-0.58 × μC Alternate Hypothesis H1: μd \> 0"|Mean Difference (Final Values)|0.8|||||ONE_SIDED|97.5|0.39||||||||||0.39|
82425304|NCT00619866|164560034|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.25||0.2311|TWO_SIDED|95.0|-0.81|0.2|||Repeated Measures Analysis of Covariance||Difference = Elagolix - Placebo|Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.20|-0.81|0.2311
82426836|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9055|TWO_SIDED|95.0|0.5|2.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||2.0|0.5|0.9055
82426837|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36||||0.002|TWO_SIDED|95.0|1.2|9.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 56||9.8|1.2|0.0020
82448730|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.21|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.46|0.05||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.05|-0.46|
82448731|NCT02262754|164604710|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.33|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.08|0.58||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect. Baseline (recordings on Day 1) was included as a covariate.||0.58|0.08|
82448732|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.17|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.42|0.08||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.08|-0.42|
82448733|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.37|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.62|-0.12||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.12|-0.62|
82448734|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.05|0.45||||||Week 1: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.45|-0.05|
82448735|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.08|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.38|0.21||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.38|
82448736|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.29|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.58|0.01||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.01|-0.58|
82448737|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.09|0.49||||||Week 2: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.49|-0.09|
82448738|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.07|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.36|0.21||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.36|
82448739|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.38|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.67|-0.1||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.10|-0.67|
82448740|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.31|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.03|0.59||||||Week 3: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.59|0.03|
82448741|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (PF-06372865-Placebo)|-0.11|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.42|0.21||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.21|-0.42|
82448742|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference (Naproxen-Placebo)|-0.43|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.75|-0.12||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||-0.12|-0.75|
82448743|NCT02262754|164604711|SUPERIORITY_OR_OTHER||LS Mean Difference(PF-06372865-Naproxen)|0.33|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.02|0.63||||||Week 4: The mixed effect repeated measures model was used and included treatment, week, baseline, the week \* treatment interaction, and the baseline \* week interaction as fixed effects and week repeated within each participant as a repeated effect.||0.63|0.02|
82448744|NCT02262754|164604712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|||||TWO_SIDED|90.0|0.46|1.56||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||1.56|0.46|
82448745|NCT02262754|164604712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43|||||TWO_SIDED|90.0|0.23|0.81||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||0.81|0.23|
82448746|NCT02262754|164604712|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.97|||||TWO_SIDED|90.0|1.06|3.65||||||Odds Ratios were based on a logistic regression model and included treatment as a fixed effect.||3.65|1.06|
82448747|NCT01727414|164604715|SUPERIORITY|General linear mixed models were used to evaluate the subtype\*dose interaction to determine if the subtypes have unique MPH dose-response curves, with the outcome being Attention Deficit Hyperactivity Disorder total symptom scores (minimum=0, maximum=54, higher=worse)|Slope|0.29|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82647706|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.13|-2.07|<0.001
82647707|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.24||0.274|TWO_SIDED|95.0|-0.73|0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.21|-0.73|0.274
82535086|NCT02373813|164768419|SUPERIORITY||Treatment Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.37|-0.03|||two sample t-test|||Week 48||-0.03|-0.37|0.021
82425305|NCT00619866|164560034|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.25||0.1521|TWO_SIDED|95.0|-0.86|0.14|||Repeated Measures Analysis of Covariance||Difference = Elagolix - Placebo|Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.14|-0.86|0.1521
82535087|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.82|-0.04|||two sample t-test|||Change at Week 12||-0.04|-0.82|0.030
82535088|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.005|TWO_SIDED|95.0|-0.72|-0.13|||two sample t-test|||Change at Week 12||-0.13|-0.72|0.005
82535089|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.69|-0.15|||two sample t-test|||Change at Week 24||-0.15|-0.69|0.002
82535090|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.16||0.34|TWO_SIDED|95.0|-0.46|0.16|||two sample t-test|||Change at Week 24||0.16|-0.46|0.34
82535091|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.13||0.014|TWO_SIDED|95.0|-0.52|-0.06|||two sample t-test|||Change at Week 36||-0.06|-0.52|0.014
82535092|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.51|-0.1|||two sample t-test|||Change at Week 36||-0.10|-0.51|0.004
82535093|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.12|TWO_SIDED|95.0|-0.43|0.05|||two sample t-test|||Change at Week 48||0.05|-0.43|0.12
82535094|NCT02373813|164768420|SUPERIORITY||Treatment Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.01|TWO_SIDED|95.0|-0.37|-0.05|||two sample t-test|||Change at Week 48||-0.05|-0.37|0.010
82535095|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.067|TWO_SIDED|95.0|-0.62|0.02|||two sample t-test|||Baseline||0.02|-0.62|0.067
82535096|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.59|TWO_SIDED|95.0|-0.41|0.23|||two sample t-test|||Baseline||0.23|-0.41|0.59
82535097|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-2.46|STANDARD_ERROR_OF_MEAN|1.62||0.13||95.0|-5.66|0.74|||two sample t-test|||Week 12||0.74|-5.66|0.13
82535098|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-2.34|STANDARD_ERROR_OF_MEAN|1.23||0.059|TWO_SIDED|95.0|-4.76|0.09|||two sample t-test|||Week 12||0.09|-4.76|0.059
82535099|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-2.72|STANDARD_ERROR_OF_MEAN|1.38||0.017|TWO_SIDED|95.0|-4.95|-0.5|||two sample t-test|||Week 24||-0.50|-4.95|0.017
82535100|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.32||0.74|TWO_SIDED|95.0|-3.04|2.15|||two sample t-test|||Week 24||2.15|-3.04|0.74
82535101|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.9||0.039|TWO_SIDED|95.0|-3.03|-0.08|||two sample t-test|||Week 36||-0.08|-3.03|0.039
82535102|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.72||0.023|TWO_SIDED|95.0|-3.1|-0.23|||two sample t-test|||Week 36||-0.23|-3.10|0.023
82535103|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.85||0.65|TWO_SIDED|95.0|-2.43|1.52|||two sample t-test|||Week 48||1.52|-2.43|0.65
82535104|NCT02373813|164768421|SUPERIORITY||Treatment Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.44||0.017|TWO_SIDED|95.0|-1.94|-0.19|||two sample t-test|||Week 48||-0.19|-1.94|0.017
82535105|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-2.15|STANDARD_ERROR_OF_MEAN|1.59||0.18||95.0|-5.29|1.0|||two sample t-test|||Change at Week 12||1.00|-5.29|0.18
82535106|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-2.24|STANDARD_ERROR_OF_MEAN|1.21||0.067|TWO_SIDED|95.0|-4.63|0.16|||two sample t-test|||Change at Week 12||0.16|-4.63|0.067
82535107|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.37||0.035|TWO_SIDED|95.0|-4.62|-0.17|||two sample t-test|||Change at Week 24||-0.17|-4.62|0.035
82535108|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-0.34|STANDARD_ERROR_OF_MEAN|1.3||0.79|TWO_SIDED|95.0|-2.91|2.23|||two sample t-test|||Change at Week 24||2.23|-2.91|0.79
82535109|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.91||0.09|TWO_SIDED|95.0|-2.75|0.2|||two sample t-test|||Change at Week 36||0.20|-2.75|0.090
82535110|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.72||0.029|TWO_SIDED|95.0|-3.06|-0.17|||two sample t-test|||Change at Week 36||-0.17|-3.06|0.029
82535111|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.84||0.86|TWO_SIDED|95.0|-2.15|1.81|||two sample t-test|||Change at Week 48||1.81|-2.15|0.86
82535112|NCT02373813|164768422|SUPERIORITY||Treatment Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.43||0.021|TWO_SIDED|95.0|-1.88|-0.16|||two sample t-test|||Change at Week 48||-0.16|-1.88|0.021
82535113|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|3.4||1|TWO_SIDED|95.0|-6.5|6.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||6.6|-6.5|1.00
82535114|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|-3.9|STANDARD_ERROR_OF_MEAN|3.3||0.38|TWO_SIDED|95.0|-10.4|2.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||2.6|-10.4|0.38
82535115|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|24.5|STANDARD_ERROR_OF_MEAN|7.9||0.007|TWO_SIDED|95.0|9.0|40.0|||Chi-squared, Corrected|||Week 12||40.0|9.0|0.007
82448748|NCT01990612|164604761|SUPERIORITY||Risk Ratio (RR)|0.8||||0.049|TWO_SIDED|95.0|0.64|1.0|||Chi-squared|Group sequential method to control type I error w/ Lan-DeMets characterization of O'Brien-Fleming boundary. 2-tailed p-value \<0.46 considered stat sig|One interim analysis was performed; in final analysis of the primary outcome, a two-tailed P value of less than 0.046 considered to indicate statistical significance. Since adjustment is minimal, we report 95% confidence interval for relative risk.|||1.00|0.64|0.049
82448749|NCT01990612|164604762|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.12|3.33|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||3.33|0.12|
82448750|NCT01990612|164604763|SUPERIORITY||Risk Ratio (RR)|0.71|||||TWO_SIDED|95.0|0.55|0.93||||||||0.93|0.55|
82535116|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|14.0|STANDARD_ERROR_OF_MEAN|6.9||0.063|TWO_SIDED|95.0|0.4|27.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||27.6|0.4|0.063
82535117|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|23.2|STANDARD_ERROR_OF_MEAN|8.4||0.012|TWO_SIDED|95.0|6.7|39.8|||Chi-squared, Corrected|||Week 24||39.8|6.7|0.012
82576990|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3401|TWO_SIDED|95.0|0.2|1.7|||GEE method|||Day 7: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||1.7|0.2|0.3401
82576991|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1052|TWO_SIDED|95.0|0.8|6.0|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||6.0|0.8|0.1052
82576992|NCT02942004|164864074|SUPERIORITY||Odds Ratio (OR)|1.6||||0.3507|TWO_SIDED|95.0|0.6|4.2|||GEE method|||Day 30: GEE method was used for analysis. The HAM-D response at each visit was the dependent variable. Treatment, baseline HAM-D total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. An exchangeable working correlation structure is assumed for the model parameters estimation.||4.2|0.6|0.3507
82576993|NCT02942004|164864075|SUPERIORITY||LS mean difference|-12.07|STANDARD_ERROR_OF_MEAN|4.294||0.0058|TWO_SIDED|95.0|-20.58|-3.56|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-3.56|-20.58|0.0058
82576994|NCT02942004|164864075|SUPERIORITY||LS mean difference|-5.89|STANDARD_ERROR_OF_MEAN|4.188||0.1622|TWO_SIDED|95.0|-14.19|2.41|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||2.41|-14.19|0.1622
82647708|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.22|-1.16|0.004
82647709|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.74|-0.75||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.75|-1.74|<0.001
82448751|NCT01990612|164604764|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.32|1.37|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.37|0.32|
82448752|NCT01990612|164604765|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.35|1.37|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.37|0.35|
82448753|NCT01990612|164604766|SUPERIORITY||Risk Ratio (RR)|2.74|||||TWO_SIDED|95.0|0.91|8.12|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||8.12|0.91|
82448754|NCT01990612|164604767|SUPERIORITY||Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.31|1.76|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.76|0.31|
82448755|NCT01990612|164604768|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.35|1.19|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.19|0.35|
82448756|NCT01990612|164604769|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.38|1.55|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.55|0.38|
82535118|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|17.8|STANDARD_ERROR_OF_MEAN|7.0||0.018|TWO_SIDED|95.0|4.1|31.5||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||31.5|4.1|0.018
82535119|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|19.0|STANDARD_ERROR_OF_MEAN|8.6||0.044|TWO_SIDED|95.0|2.1|35.9|||Chi-squared, Corrected|||Week 36||35.9|2.1|0.044
82535120|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|19.5|STANDARD_ERROR_OF_MEAN|7.0||0.01|TWO_SIDED|95.0|5.8|33.2|||Chi-squared, Corrected|||Week 36||33.2|5.8|0.010
82535121|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|25.7|STANDARD_ERROR_OF_MEAN|8.6||0.005|TWO_SIDED|95.0|8.9|42.5||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||42.5|8.9|0.005
82535122|NCT02373813|164768423|SUPERIORITY||Risk Difference (RD)|21.6|STANDARD_ERROR_OF_MEAN|7.0||0.004|TWO_SIDED|95.0|7.9|35.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||35.2|7.9|0.004
82535123|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|11.1|STANDARD_ERROR_OF_MEAN|8.4||0.25|TWO_SIDED|95.0|-5.4|27.6||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||27.6|-5.4|0.25
82425306|NCT00619866|164560035|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2041|TWO_SIDED|95.0|-0.77|0.17|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.17|-0.77|0.2041
82425307|NCT00619866|164560035|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.24||0.3375|TWO_SIDED|95.0|-0.69|0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.24|-0.69|0.3375
82425308|NCT00619866|164560035|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.25||0.0354|TWO_SIDED|95.0|-1.01|-0.04|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.04|-1.01|0.0354
82425309|NCT00619866|164560035|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3618|TWO_SIDED|95.0|-0.71|0.26|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.26|-0.71|0.3618
82425310|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.46||0.799|TWO_SIDED|95.0|-1.01|0.78|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.78|-1.01|0.7990
82425311|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.46||0.5042|TWO_SIDED|95.0|-1.21|0.59|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.59|-1.21|0.5042
82535124|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|0.7|STANDARD_ERROR_OF_MEAN|6.7||1|TWO_SIDED|95.0|-12.5|13.8||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Baseline||13.8|-12.5|1.00
82647710|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.0|-1.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.01|-2.00|<0.001
82426838|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.35||||0.002|TWO_SIDED|95.0|1.3|8.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||8.8|1.3|0.0020
82535125|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|1.6|STANDARD_ERROR_OF_MEAN|6.8||0.98|TWO_SIDED|95.0|-11.6|14.9||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||14.9|-11.6|0.98
82535126|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|5.0|STANDARD_ERROR_OF_MEAN|5.7||0.48|TWO_SIDED|95.0|-6.2|16.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 12||16.2|-6.2|0.48
82535127|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|11.3|STANDARD_ERROR_OF_MEAN|7.3||0.16|TWO_SIDED|95.0|-3.1|25.7||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||25.7|-3.1|0.16
82535128|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|1.4|STANDARD_ERROR_OF_MEAN|5.3||0.94|TWO_SIDED|95.0|-9.0|11.9||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 24||11.9|-9.0|0.94
82535129|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|7.4||0.12|TWO_SIDED|95.0|-2.1|27.0||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 36||27.0|-2.1|0.12
82535130|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|5.6||0.4|TWO_SIDED|95.0|-5.2|16.8||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 36||16.8|-5.2|0.40
82425312|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.48||0.1459|TWO_SIDED|95.0|-1.63|0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.24|-1.63|0.1459
82647711|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.051|TWO_SIDED|95.0|-0.99|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.00|-0.99|0.051
82425313|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.48||0.0163|TWO_SIDED|95.0|-2.1|-0.21|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.21|-2.10|0.0163
82425314|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.5||0.0207|TWO_SIDED|95.0|-2.13|-0.18|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.18|-2.13|0.0207
82425315|NCT00619866|164560036|SUPERIORITY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.5||0.0038|TWO_SIDED|95.0|-2.42|-0.47|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in in monthly peak values of the NRS for overall endometriosis-associated pelvic pain was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.47|-2.42|0.0038
82425316|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5744|TWO_SIDED|95.0|-0.18|0.1|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.10|-0.18|0.5744
82425317|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.728|TWO_SIDED|95.0|-0.17|0.12|||Repeated measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.12|-0.17|0.7280
82425318|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.0195|TWO_SIDED|95.0|-0.32|-0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.03|-0.32|0.0195
82425319|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.5589|TWO_SIDED|95.0|-0.19|0.1|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.10|-0.19|0.5589
82448757|NCT01990612|164604770|SUPERIORITY||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.48|3.42|||||Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||3.42|0.48|
82425320|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5558|TWO_SIDED|95.0|-0.2|0.11|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.11|-0.20|0.5558
82425321|NCT00619866|164560037|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.08||0.7121|TWO_SIDED|95.0|-0.18|0.12|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in non-menstrual pelvic pain score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.12|-0.18|0.7121
82425322|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.13||0.0286|TWO_SIDED|95.0|-0.54|-0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.03|-0.54|0.0286
82425323|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.121|TWO_SIDED|95.0|-0.45|0.05|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.05|-0.45|0.1210
82647712|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.75|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.24|-0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.25|-1.24|0.003
82647713|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.12|-1.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-1.07|-2.12|<0.001
82647714|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-0.85|-1.90|<0.001
82647715|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.42|-0.37||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.37|-1.42|<0.001
82647716|NCT00830063|165011042|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.27||0.012|TWO_SIDED|95.0|-1.19|-0.15||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.15|-1.19|0.012
82647717|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
82425324|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.14||0.0024|TWO_SIDED|95.0|-0.68|-0.15|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.15|-0.68|0.0024
82425325|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0003|TWO_SIDED|95.0|-0.76|-0.22|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.22|-0.76|0.0003
82425326|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0021|TWO_SIDED|95.0|-0.72|-0.16|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.16|-0.72|0.0021
82425327|NCT00619866|164560038|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.14||0.0003|TWO_SIDED|95.0|-0.8|-0.24|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in dysmenorrhea score was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.24|-0.80|0.0003
82647718|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
82647719|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
82425328|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.09||0.0603|TWO_SIDED|95.0|-0.34|0.01|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.01|-0.34|0.0603
82426839|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.5763|TWO_SIDED|95.0|0.4|1.7||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||1.7|0.4|0.5763
82426840|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93||||0.0002|TWO_SIDED|95.0|1.5|10.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 64||10.0|1.5|0.0002
82426841|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21||||0.0004|TWO_SIDED|95.0|1.2|8.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||8.8|1.2|0.0004
82426842|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.4828|TWO_SIDED|95.0|0.4|1.6||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||1.6|0.4|0.4828
82535131|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|5.3|STANDARD_ERROR_OF_MEAN|7.7||0.63|TWO_SIDED|95.0|-9.8|20.4||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||20.4|-9.8|0.63
82647720|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
82425329|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.1855|TWO_SIDED|95.0|-0.29|0.06|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 4. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.06|-0.29|0.1855
82425330|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0012|TWO_SIDED|95.0|-0.48|-0.12|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||-0.12|-0.48|0.0012
82425331|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.1002|TWO_SIDED|95.0|-0.33|0.03|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 8. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.03|-0.33|0.1002
82425332|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0568|TWO_SIDED|95.0|-0.36|0.01|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.01|-0.36|0.0568
82425333|NCT00619866|164560039|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.119|TWO_SIDED|95.0|-0.33|0.04|||Repeated Measures ANCOVA||Difference = Elagolix - Placebo|Analysis at week 12. Change from baseline in total of non-menstrual pelvic pain and dysmenorrhea scores was analyzed by a repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for subject, and the baseline-by-time interaction, and the baseline value as a covariate.||0.04|-0.33|0.1190
82425334|NCT03510273|164560107|OTHER|"Type of statistical test: Independence~Description: Adequacy of baseline image"||||||0.396|||||||Fisher Exact|||||||0.396
82425335|NCT03510273|164560107|OTHER|"Type of statistical test: Independence~Description: Squamous columnar junction visibility"||||||0.351|||||||Fisher Exact|||||||0.351
82425336|NCT03510273|164560107|OTHER|"Type of statistical test: Independence~Description: Visible abnormal areas"||||||0.774|||||||Fisher Exact|||||||0.774
82425337|NCT03510273|164560107|OTHER|"Type of statistical test: Independence~Description: Location of the lesion"||||||1|||||||Fisher Exact|||||||1
82425338|NCT03510273|164560107|OTHER|"Type of statistical test: Independence~Description: Mosaic of the worst lesion"||||||0.36|||||||Fisher Exact|||||||0.36
82425339|NCT03510273|164560107|OTHER|"Type of Statistical Test: Independence~Description: Acetowhite changes"||||||0.881|||||||Fisher Exact|||||||0.881
82425340|NCT03510273|164560107|OTHER|"Type of Statistical Test: Independence~Description: Border of the worst lesion"||||||0.829|||||||Fisher Exact|||||||0.829
82425341|NCT03510273|164560107|OTHER|"Type of Statistical Test: Independence~Description: Possible diagnosis"||||||1|||||||Fisher Exact|||||||1
82425342|NCT03510273|164560107|OTHER|"Type of Statistical Test: Independence~Description: Baseline histology"||||||1|||||||Fisher Exact|||||||1
82425343|NCT03510273|164560107|OTHER|"Type of Statistical Test: Independence~Description: Size of the worst lesion (% coverage)"||||||0.493|||||||Fisher Exact|||||||0.493
82426134|NCT00854360|164561110|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.31||0.952|TWO_SIDED|95.0|-0.58|0.62||A multiplicity adjustment procedure was implemented which allowed for control of the Type I error within a particular treatment comparison, as well as within a particular endpoint, however it did not control the overall Type I error.|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||A priori threshold for statistical significance is p\<0.05.||0.62|-0.58|0.952
82535132|NCT02373813|164768424|SUPERIORITY||Risk Difference (RD)|-6.9|STANDARD_ERROR_OF_MEAN|5.7||0.31|TWO_SIDED|95.0|-18.0|4.2||The risk difference and its p-value were estimated from the Chi-squared test with continuity correction.|Chi-squared, Corrected|||Week 48||4.2|-18.0|0.31
82535133|NCT02373813|164768426|SUPERIORITY||||||<|0.001||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||< 0.001
82535134|NCT02373813|164768426|SUPERIORITY||||||<|0.001||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||< 0.001
82535135|NCT02373813|164768427|SUPERIORITY|||||||0.31||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||0.31
82535136|NCT02373813|164768427|SUPERIORITY|||||||0.51||||||P-value was based on the Log-rank test for overall difference on disease-worsening event between two groups.|Log Rank|||||||0.51
82535137|NCT02373813|164768428|SUPERIORITY||Risk Difference (RD)|12.5|STANDARD_ERROR_OF_MEAN|14.1||0.58|TWO_SIDED|95.0|-15.2|40.2|||Chi-squared, Corrected|||||40.2|-15.2|0.58
82535138|NCT02967016|164768429|OTHER|||||||0.002|||||||Kruskal-Wallis|||Cumulative Steps 6 h||||0.002
82535139|NCT02967016|164768429|OTHER|||||||0.0002|||||||Kruskal-Wallis|||Cumulative steps 12 h||||.0002
82535140|NCT02967016|164768429|OTHER|||||||0.0006|||||||Kruskal-Wallis|||Cumulative steps 24 h||||.0006
82535141|NCT02967016|164768429|OTHER|||||||0.0006|||||||Kruskal-Wallis|||Cumulative steps 36 h||||0.0006
82535142|NCT02967016|164768429|OTHER|||||||0.03|||||||Kruskal-Wallis|||Cumulative steps 48 h||||0.03
82535143|NCT02967016|164768430|OTHER|||||||0.06|||||||Kruskal-Wallis|||Pain at rest 6 h||||0.06
82576995|NCT02942004|164864075|SUPERIORITY||LS mean difference|-9.09|STANDARD_ERROR_OF_MEAN|4.51||0.0462|TWO_SIDED|95.0|-18.02|-0.16|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-0.16|-18.02|0.0462
82647721|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.98|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.45|-0.52||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.52|-1.45|<0.001
82647722|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.02|-1.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.10|-2.02|<0.001
82647723|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.361|TWO_SIDED|95.0|-0.68|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.68|0.361
82535144|NCT02967016|164768430|OTHER|||||||0.3|||||||Kruskal-Wallis|||Pain at rest 12 h||||.30
82535145|NCT02967016|164768430|OTHER|||||||0.002|||||||Kruskal-Wallis|||Pain at rest 24 h||||.002
82576996|NCT02942004|164864075|SUPERIORITY||LS mean difference|-2.24|STANDARD_ERROR_OF_MEAN|4.41||0.6124|TWO_SIDED|95.0|-10.97|6.49|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||6.49|-10.97|0.6124
82426843|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|1.4|9.0||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 72||9.0|1.4|<0.0001
82535146|NCT02967016|164768430|OTHER|||||||0.003|||||||Kruskal-Wallis|||Pain at rest 36 h||||0.003
82535147|NCT02967016|164768430|OTHER|||||||0.02|||||||Kruskal-Wallis|||Pain at rest at 48 h||||.02
82535148|NCT02967016|164768431|OTHER|||||||0.43|||||||Kruskal-Wallis|||Satisfaction with pain control 6 h||||.43
82535149|NCT02967016|164768431|OTHER|||||||0.24|||||||Kruskal-Wallis|||Satisfaction with pain control 12 h||||.24
82535150|NCT02967016|164768431|OTHER|||||||0.012|||||||Kruskal-Wallis|||Satisfaction with pain control 24 h||||.012
82535151|NCT02967016|164768431|OTHER||||||<|0.0001|||||||Kruskal-Wallis|||Satisfaction with pain control 36 h||||<0.0001
82535152|NCT02967016|164768431|OTHER|||||||0.0005|||||||Kruskal-Wallis|||Satisfaction with pain control 48 h||||.0005
82535153|NCT01764386|164768456|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.52|||<|0.0001|TWO_SIDED|95.0|-9.88|-7.15|||ANCOVA|||||-7.15|-9.88|<0.0001
82535154|NCT01764386|164768457|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|44.0|||<|0.0001|TWO_SIDED|95.0|16.6|116.3|||Regression, Logistic|||||116.3|16.6|<0.0001
82535155|NCT01764386|164768458|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.4|||<|0.0001|TWO_SIDED|95.0|6.0|76.7|||Regression, Logistic|||||76.7|6.0|<0.0001
82535156|NCT01764386|164768460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.65|||<|0.0001|TWO_SIDED|95.0|-10.07|-7.24|||ANCOVA|||||-7.24|-10.07|<0.0001
82535157|NCT01764386|164768461|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.32|||<|0.0001|TWO_SIDED|95.0|-7.14|-3.5|||ANCOVA|||||-3.50|-7.14|<0.0001
82535158|NCT01764386|164768462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.4||||0.0019|TWO_SIDED|95.0|-29.5|-3.3|||ANCOVA|||||-3.3|-29.5|0.0019
82535159|NCT01764386|164768463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.9686|TWO_SIDED|95.0|-5.96|5.73|||ANCOVA|||||5.73|-5.96|0.9686
82535160|NCT01764386|164768464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.0001|TWO_SIDED|95.0|1.99|6.06|||ANCOVA|||||6.06|1.99|0.0001
82535161|NCT01764386|164768465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0||||0.1706|TWO_SIDED|95.0|-4.9|0.9|||ANCOVA|||||0.9|-4.9|0.1706
82535162|NCT01764386|164768466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.716|TWO_SIDED|95.0|-2.6|1.8|||ANCOVA|||||1.8|-2.6|0.7160
82535163|NCT01764386|164768467|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0||||0.0913|TWO_SIDED|95.0|-0.3|4.3|||ANCOVA|||||4.3|-0.3|0.0913
82535164|NCT01764386|164768468|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.5||||0.0016|TWO_SIDED|95.0|-7.2|-1.7|||ANCOVA|||||-1.7|-7.2|0.0016
82535165|NCT01764386|164768469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.0004|TWO_SIDED|95.0|-6.2|-2.0|||ANCOVA|||||-2.0|-6.2|0.0004
82535166|NCT01764386|164768470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.0003|TWO_SIDED|95.0|-1.7|-0.7|||ANCOVA|||||-0.7|-1.7|0.0003
82535167|NCT01764386|164768471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.9|||<|0.0001|TWO_SIDED|95.0|-9.8|-6.0|||ANCOVA|||||-6.0|-9.8|<0.0001
82535168|NCT01764386|164768472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1|||<|0.0001|TWO_SIDED|95.0|-3.1|-1.1|||ANCOVA|||||-1.1|-3.1|<0.0001
82535169|NCT01764386|164768473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.4|||<|0.0001|TWO_SIDED|95.0|13.45|21.36|||ANCOVA|||||21.36|13.45|<0.0001
82425344|NCT02589938|164560108|SUPERIORITY|Repeated measures analysis of covariance (RMANCOVA) models were constructed to assess differences in each outcome adjusting for baseline outcome value, group, time, and group by time interaction assuming an unstructured covariance. The primary objective was assessed using a linear contrast of group effect at 4 weeks||||||0.0167|||||||ANCOVA|||The primary endpoint was to determine whether true acupuncture (TA) was more effective than sham acupuncture (SA) or standard oral hygiene (SOH) at treating xerostomia as assessed by the xerostomia questionnaire (XQ) at Week 4. The study was powered to detect a difference of 10 points with an assumed standard deviation (SD)=16 between each pair of groups on XQ.This assumed a t-test with a two-sided significance level of 0·0133 and 84% power with 20% dropout.||||0.0167
82425345|NCT00485173|164560111|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425346|NCT00485173|164560111|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority comparison of success rates in two treatment groups was a secondary objective of this trial. Superiority analysis was performed if non-inferiority was demonstrated.||||<0.001
82425347|NCT00485173|164560112|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425348|NCT00485173|164560112|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.002
82425349|NCT00485173|164560113|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.002
82425350|NCT00485173|164560114|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random sampling, based on covariance matrix produced by logistic regression using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425351|NCT00485173|164560114|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.011
82425352|NCT00485173|164560115|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.063
82425353|NCT00485173|164560116|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425354|NCT00485173|164560116|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||<0.001
82425355|NCT00485173|164560117|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.031
82535170|NCT00495469|164768479|OTHER|Tukey's trend test for dose response||||||0.003||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05|ANCOVA|Change=Baseline+Treatment||||||0.003
82425356|NCT00485173|164560118|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.||||||0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||0.001
82425357|NCT00485173|164560118|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.414
82425358|NCT00485173|164560119|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.030
82448758|NCT01990612|164604771|SUPERIORITY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.06|1.79|||||Exact confidence intervals are provided for rare outcomes. Widths of the confidence intervals for components of the primary outcome have not been adjusted for multiplicity, and should not be used to infer definitive effects of management strategies.|||1.79|0.06|
82425359|NCT00485173|164560120|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425360|NCT00485173|164560120|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.017
82425361|NCT00485173|164560121|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value was one-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.189
82425362|NCT00485173|164560122|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.||||||0.003||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||0.003
82425363|NCT00485173|164560122|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.466
82425364|NCT00485173|164560123|NON_INFERIORITY_OR_EQUIVALENCE|The predefined non-inferiority margin was 0.10.|||||<|0.001||95.0||||P-value was one-sided from random samplings, based on logistic regression model by using propensity score as a covariate.|Regression, Logistic|||||||<0.001
82425365|NCT00485173|164560123|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||P-value was one-sided, obtained from logistic regression model by using propensity score as a covariate.|Regression, Logistic|||Superiority analysis was performed if non-inferiority was demonstrated.||||0.133
82535171|NCT00495469|164768479|OTHER|Tukey's trend test for dose response||||||0.047||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.047
82535172|NCT00495469|164768479|OTHER|Tukey's trend test for dose response||||||0.006||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.006
82647724|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.25|-0.33||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.33|-1.25|<0.001
82647725|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.54|-0.59||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.59|-1.54|<0.001
82647726|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.04|-1.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.09|-2.04|<0.001
82647727|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.24||0.063|TWO_SIDED|95.0|-0.93|0.02||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.02|-0.93|0.063
82647728|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.43|-0.48||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.48|-1.43|<0.001
82647729|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.7|-0.71||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.71|-1.70|<0.001
82647730|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.35|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.85|-0.86||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.86|-1.85|<0.001
82647731|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.25||0.006|TWO_SIDED|95.0|-1.19|-0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.21|-1.19|0.006
82647732|NCT00830063|165011043|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.34|-0.36||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.36|-1.34|<0.001
82425366|NCT00485173|164560124|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||<0.001
82647733|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.24||0.355|TWO_SIDED|95.0|-0.69|0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.25|-0.69|0.355
82647734|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.57|STANDARD_ERROR_OF_MEAN|0.24||0.017|TWO_SIDED|95.0|-1.04|-0.1||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.10|-1.04|0.017
82647735|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|0.09|1.03||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||1.03|0.09|0.020
82647736|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.24||0.388|TWO_SIDED|95.0|-0.26|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.26|0.388
82425367|NCT00485173|164560125|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||<0.001
82425368|NCT00485173|164560126|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||P-value was two-sided, adjusted from ANCOVA with the propensity score as the covariate.|ANCOVA|||||||0.341
82425369|NCT00485173|164560127|SUPERIORITY_OR_OTHER|||||||0.479||95.0||||P-value was two-sided, obtained from Cox regression and adjusted with propensity scores.|Regression, Cox|||||||0.479
82425370|NCT00485173|164560128|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value was from logistic regression model by using propensity score and any ossification 'Yes/No' at preop as the covariates.|Regression, Logistic|||Statistical analysis at 24 months postoperation.||||<0.001
82425371|NCT00829244|164560129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.8||0.037|TWO_SIDED|95.0|-3.3|-0.1|||ANOVA|||The null hypothesis was that the difference between the mean number of oocytes \[CONSORT calculator dosing - Standard dosing\] was less than or equal to \[=\<\] (-3). The alternate hypothesis was that the difference was greater than \[\>\] (-3).||-0.1|-3.3|0.037
82647737|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.65|-0.7||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.70|-1.65|<0.001
82647738|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.13||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference||-1.13|-2.07|<0.001
82425372|NCT00829244|164560130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-511.37|STANDARD_ERROR_OF_MEAN|64.52|<|0.001|TWO_SIDED|95.0|-638.78|-383.96|||ANOVA|||||-383.96|-638.78|<0.001
82425373|NCT00829244|164560131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.6|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-53.75|-37.46|||ANOVA|||||-37.46|-53.75|<0.001
82425374|NCT00829244|164560132|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.933|TWO_SIDED|95.0|-0.4|0.5|||ANOVA|||||0.5|-0.4|0.933
82425375|NCT00829244|164560134|SUPERIORITY_OR_OTHER||Percent difference|3.6|||||TWO_SIDED|95.0|-11.0|18.2||||||||18.2|-11.0|
82425376|NCT00829244|164560136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|6.6||0.926|TWO_SIDED|95.0|-12.3|13.6|||ANOVA|||||13.6|-12.3|0.926
82425377|NCT00829244|164560138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.78||0.235|TWO_SIDED|95.0|-0.61|2.47|||ANOVA|||||2.47|-0.61|0.235
82425378|NCT00829244|164560139|SUPERIORITY_OR_OTHER||Percent difference|0.6|||||TWO_SIDED|95.0|-13.5|14.6||||||||14.6|-13.5|
82425379|NCT04222673|164560142|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
82425380|NCT04222673|164560143|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
82425381|NCT04222673|164560144|OTHER|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
82647739|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.24||0.274|TWO_SIDED|95.0|-0.73|0.21||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.21|-0.73|0.274
82425382|NCT04222673|164560145|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
82647740|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 4: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.22|-1.16|0.004
82425383|NCT04222673|164560146|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
82425384|NCT04222673|164560147|SUPERIORITY|Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||||0.05|||||||the Reliable Change Index|||||||.05
82425385|NCT04222673|164560148|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
82448759|NCT01990612|164604772|SUPERIORITY||Risk Ratio (RR)|0.84|||<|0.001|TWO_SIDED|95.0|0.76|0.93||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.93|0.76|<0.001
82535173|NCT00495469|164768479|OTHER|Tukey's trend test for dose response||||||0.085||||||Tukey's trend test adjusts for multiplicity with statistical significance based on p-value \<0.05.|ANCOVA|Change=Baseline+Treatment||||||0.085
82535174|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.085|TWO_SIDED|95.0|-0.73|0.05||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.05|-0.73|0.085
82425386|NCT04222673|164560149|SUPERIORITY|||||||0.05|||||||the Reliable Change Index|||Given the small sample size and recommendations for pilot studies, quantitative analyses were descriptive (frequencies, means) and based on the Reliable Change Index (RCI) for each participant for each outcome measure. The RCI is used to determine whether pre- to post- score differences are statistically reliable and to categorize changes as either improved, deteriorated, or indeterminate. A statistical threshold of RCI score z = + 1.96 and p \< .05 was used to establish clinical significance.||||.05
82425387|NCT02297412|164560172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0186|||||||Wilcoxon (Mann-Whitney)|||||||0.0186
82425388|NCT02297412|164560173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1146|||||||Wilcoxon (Mann-Whitney)|||||||0.1146
82425389|NCT02297412|164560174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0243|||||||Wilcoxon (Mann-Whitney)|||||||0.0243
82425390|NCT05395936|164560200|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82425391|NCT01323192|164560201|SUPERIORITY_OR_OTHER||Difference in least square means|-4.5|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-6.7|-2.4|||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||-2.4|-6.7|<0.0001
82425392|NCT01323192|164560202|SUPERIORITY_OR_OTHER||Difference in least square means|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0002|||||||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||||0.0002
82425393|NCT01323192|164560203|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82425394|NCT01323192|164560204|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82535175|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.006|TWO_SIDED|95.0|-0.95|-0.16||Pairwise comparison included for informational purposes and not controlled for multiplicity|ANCOVA|Change=Baseline+Treatment||||-0.16|-0.95|0.006
82535176|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.084|TWO_SIDED|95.0|-0.73|0.05||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.05|-0.73|0.084
82425395|NCT01323192|164560205|SUPERIORITY_OR_OTHER||Difference in least square means|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0003|||||||ANCOVA||LS mean of JNS001 minus LS mean of Placebo|||||0.0003
82425396|NCT01323192|164560206|SUPERIORITY_OR_OTHER|||||||0.4041|||||||ANCOVA|||||||0.4041
82425397|NCT02180828|164560210|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.925|||||||Chi-squared|||||||0.925
82425398|NCT02180828|164560211|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.298|||||||Chi-squared|||||||0.298
82425399|NCT02180828|164560212|NON_INFERIORITY_OR_EQUIVALENCE|90% power and a two-sided alpha level of 0.05||||||0.147|||||||Chi-squared|||||||0.147
82425400|NCT02180828|164560213|NON_INFERIORITY_OR_EQUIVALENCE|Yes||||||0.147|||||||Chi-squared|||||||0.147
82425401|NCT02180828|164560214|SUPERIORITY_OR_OTHER|||||||0.01|||||||Chi-squared|||||||0.010
82425402|NCT02180828|164560215|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
82425403|NCT02180828|164560216|SUPERIORITY_OR_OTHER|||||||0.658|||||||Chi-squared|||||||0.658
82425404|NCT02180828|164560217|SUPERIORITY_OR_OTHER|||||||0.123|||||||Chi-squared|||||||0.123
82425405|NCT02180828|164560218|SUPERIORITY_OR_OTHER|||||||0.274|||||||Chi-squared|||||||0.274
82425406|NCT03674281|164560236|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82425407|NCT03674281|164560236|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82425408|NCT00582907|164560239|SUPERIORITY_OR_OTHER||Risk Ratio, log|-1.7|STANDARD_DEVIATION|0.78||0.027|TWO_SIDED|95.0|-3.4|-0.1|||Signed rank|||Based upon FMF colchicine controlled studies showing an \~80% decrease in attacks, we estimated, based on baseline attacks every 4 weeks, there would be a difference of 0.5 attacks per month between rilonacept and placebo. With a two-sided 5% significance level and power of 80% we aimed for 14 evaluable participants who completed at least 2 treatment courses. The null hypothesis is that there would be no significant differences in the number of attacks between use of rilonacept and placebo.||-0.1|-3.4|0.027
82425409|NCT00582907|164560239|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59|STANDARD_DEVIATION|0.12||||95.0|0.39|0.85|||Bayesian modeling||Attacks while receiving rilonacept is the numerator and attacks while receiving placebo is the denominator. In Bayesian statistics credible interval equals confidence interval.|This analysis was done by Bayesian Statistics using a non-informative (neutral) prior (log normal distribution mean 9 \[SD 10\]). The null hypothesis was that the rilonacept/placebo FMF odds ratio of attacks was 1.||0.85|0.39|
82425410|NCT00582907|164560240|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0|STANDARD_DEVIATION|1.26||0.047|TWO_SIDED|95.0|-4.0|0.0|||Signed rank|||Null hypothesis: There were no significant differences between rilonacept and placebo in the occurence of injection site reactions. No power calculations for this outcome.||0|-4|0.047
82425411|NCT00582907|164560240|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.13|TWO_SIDED|95.0|-0.56|0.17|||Signed rank|||Null hypothesis: There were no significant differences between rilonacept and placebo in the occurence of infections. No power calculations for this outcome.||0.17|-0.56|0.13
82535177|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.001|TWO_SIDED|95.0|-1.05|-0.28||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.28|-1.05|0.001
82535178|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.003|TWO_SIDED|95.0|-0.97|-0.2||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.20|-0.97|0.003
82535179|NCT00495469|164768479|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.19||||0.337|TWO_SIDED|95.0|-0.58|0.2||Pairwise comparison included for informational purposes and not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.20|-0.58|0.337
82535180|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.039|TWO_SIDED|95.0|-1.67|-0.04||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.04|-1.67|0.039
82535181|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06||||0.013|TWO_SIDED|95.0|-1.89|-0.23||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.23|-1.89|0.013
82425412|NCT00582907|164560241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|0.5||0.32||95.0|-2.4|0.5|||Signed rank|||Null hypothesis: There were no significant differences in the length of attacks during rilonacept vs. placebo treatment courses. Since this was a secondary outcome there were no power calculations performed.||0.5|-2.4|0.32
82425413|NCT00582907|164560242|SUPERIORITY_OR_OTHER||Differences in percent of courses|29.0||||0.004||95.0|||||McNemar|||Null hypothesis: There are no significant differences in the number of treatment courses without attacks between rilonacept and placebo. As a secondary measure there were no power calculations.||||0.004
82425414|NCT00582907|164560243|SUPERIORITY_OR_OTHER||Difference in percent of courses|40.0||||0.006||95.0|||||McNemar|||Null hypothesis: There are no significant differences in the number of treatment courses attaining at least a 50% decrease in attacks when compared to baseline between rilonacept and placebo courses.Since this was a secondary measure there were no power calculations.||||0.006
82425415|NCT00582907|164560244|SUPERIORITY_OR_OTHER||Log Rank|0.009||||0.009||95.0|||||Kaplan-Meier survival analysis|||Null hypothesis: There were no significant differences between rilonacept and placebo in the number of days from the start of the treatment course until the development of the a second attack.||||0.009
82425416|NCT00582907|164560245|SUPERIORITY_OR_OTHER||Median Difference (Net)|6.5||||0.156|TWO_SIDED|95.0|-0.5|12.5|||Signed Rank|||Null hypothesis: There are no significant differences in the erythrocyte sedimentation rate between rilonacept and placebo. As a secondary measure there were no power calculations.||12.5|-0.5|0.156
82425417|NCT00582907|164560246|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.04||||0.22|TWO_SIDED|95.0|-0.03|0.29|||Signed Rank|||Null hypothesis: There are no differences in the C-reactive protein levels between the treatment courses. Since this was a secondary outcome measure no power calculations were performed.||0.29|-0.03|0.22
82425418|NCT00582907|164560247|SUPERIORITY_OR_OTHER||Median Difference (Net)|29.4||||0.078|TWO_SIDED|95.0|0.4|78.1|||Signed Rank|||Null hypothesis: There were no differences between the platelet count between the rilonacept and placebo courses. Since this was a secondary outcome no power calculations were performed.||78.1|0.4|0.078
82425419|NCT00582907|164560248|SUPERIORITY_OR_OTHER||Median Difference (Net)|108.0||||0.063|TWO_SIDED|95.0|6.5|139.5|||Signed Rank|||Null hypothesis: There are no differences between the treatment arms in the fibrinogen level. Since this was a secondary outcome no power calculations were performed.||139.5|6.5|0.063
82425420|NCT00582907|164560249|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5|TWO_SIDED|95.0|-4.0|0.0|||Signed Rank|||Null hypothesis: There are no differences between the treatment arms in the serum amyloid A levels. Since this was a secondary outcome no power calculations were performed.||0|-4|0.50
82425421|NCT00582907|164560250|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.5||||0.021|TWO_SIDED|95.0|-11.1|-2.3|||Signed rank|||Null hypothesis: There are no significant differences in the physical health-related quality of life between rilonacept and placebo. As a secondary measure there were no power calculations.||-2.3|-11.1|0.021
82425422|NCT00582907|164560250|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.2||||0.42|TWO_SIDED|95.0|-6.8|3.9|||Signed Rank|||||3.9|-6.8|0.42
82425423|NCT00582907|164560251|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.5||||0.136|TWO_SIDED|95.0|-2.3|9.8|||Signed rank|||Null hypothesis: There are no significant differences in the FMF Armenian Evaluation (severity) Score between rilonacept and placebo. As a secondary measure there were no power calculations.||9.8|-2.3|0.136
82425424|NCT00582907|164560252|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.0||||0.089|TWO_SIDED|95.0|-15.0|-1.0|||Signed rank|||Null hypothesis: There are no significant differences in the proportion of time participants were treated with rilonacept and placebo. As a secondary measure there were no power calculations.||-1|-15|0.089
82425425|NCT01444911|164560265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||ANOVA|||||||0.89
82425426|NCT00069641|164560273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.96|STANDARD_ERROR_OF_MEAN|6.47||0.0049|TWO_SIDED|95.0|5.99|31.93|||ANCOVA|||p-value for treatment difference based on Analysis of covariance (ANCOVA) model containing treatment, region, baseline participant age, and baseline disease score.||31.93|5.99|0.0049
82425427|NCT03186638|164560276|SUPERIORITY|||||||0.7917|||||||ANCOVA|Adjusted for Baseline values||||||0.7917
82425428|NCT05067335|164560286|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|9.37|STANDARD_ERROR_OF_MEAN|0.524|<|0.001|TWO_SIDED|95.0|8.34|10.39|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||10.39|8.34|<0.001
82425429|NCT05067335|164560289|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|2.86|STANDARD_ERROR_OF_MEAN|0.348|<|0.001|TWO_SIDED|95.0|2.18|3.54|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||3.54|2.18|<0.001
82448760|NCT01990612|164604773|SUPERIORITY||Risk Ratio (RR)|0.58||||0.02|TWO_SIDED|95.0|0.36|0.92||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.92|0.36|0.02
82425430|NCT05067335|164560290|SUPERIORITY||Difference in LSM(Romosozumab - Placebo)|3.48|STANDARD_ERROR_OF_MEAN|0.458|<|0.001|TWO_SIDED|95.0|2.58|4.38|||ANCOVA|||The ANCOVA model was used and included treatment group, Baseline DXA BMD value, machine type (hologic or lunar) at Baseline, age strata group (stratification factor), region, and interaction of Baseline DXA BMD value and machine type at Baseline as independent variables.||4.38|2.58|<0.001
82425431|NCT01440764|164560308|SUPERIORITY|||||||0.99||||||a priori threshold for significance was 0.05. Not corrected for multiple comparisons. This p-value describes the a priori analysis of comparing the furosemide test result to the saline test result.|t-test, 2 sided|||||||0.99
82425432|NCT01440764|164560308|SUPERIORITY|||||||0.32||||||a priori threshold for significance was 0.05. Not corrected for multiple comparisons. Thes p-value describes the a priori analysis of comparing the response to furosemide to the mean response to saline.|t-test, 2 sided|||||||0.32
82425433|NCT01440764|164560310|SUPERIORITY|||||||0.0006||||||a priori threshold for statistical significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||.0006
82425434|NCT01440764|164560310|SUPERIORITY||||||=|1e-05||||||a priori threshold for statistical significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||=.00001
82448761|NCT01990612|164604774|SUPERIORITY||Risk Ratio (RR)|0.85||||0.07|TWO_SIDED|95.0|0.72|1.01|||Chi-squared|||||1.01|0.72|0.07
82647741|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.25|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.74|-0.75||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.75|-1.74|<0.001
82535182|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.131|TWO_SIDED|95.0|-1.46|0.19||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.19|-1.46|0.131
82535183|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95||||0.023|TWO_SIDED|95.0|-1.77|-0.13||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.13|-1.77|0.023
82535184|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.007|TWO_SIDED|95.0|-1.95|-0.32||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-0.32|-1.95|0.007
82535185|NCT00495469|164768481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.223|TWO_SIDED|95.0|-1.34|0.32||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||0.32|-1.34|0.223
82647742|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.0|-1.01||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.01|-2.00|<0.001
82425435|NCT01440764|164560310|SUPERIORITY|||||||2e-07||||||a priori threshold for significance was 0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|||||||.0000002
82425436|NCT00261833|164560311|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.618||||0.029|TWO_SIDED|95.0|-0.024|1.261||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira minus placebo (ie, the lower bound of the 95% confidence interval \[CI\] being greater than zero) will indicate superiority of Zemaira compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (TLC+FRC combined) was a linear mixed model with country, inspiration state, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.261|-0.024|0.029
82425437|NCT00261833|164560311|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.74||||0.017|TWO_SIDED|95.0|0.059|1.42||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (TLC) was a linear mixed model with country, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.420|0.059|0.017
82425438|NCT00261833|164560311|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.478||||0.09|TWO_SIDED|95.0|-0.223|1.18||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model was used to estimate the 95% CI for the difference (Zemaira® - placebo) in annual lung density decline.|Analysis of the annual rate of change in lung density (FRC) was a linear mixed model with country, time since baseline treatment, and treatment-by-time interaction as fixed effects and participant and participant-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||1.180|-0.223|0.090
82425439|NCT00261833|164560315|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.04||||0.058|TWO_SIDED|95.0|-0.26|2.34||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (TLC+FRC combined) from baseline to Month 24 was a mixed effects analysis of covariance (ANCOVA) model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect at a 1-sided significance level of 0.025.||2.34|-0.26|0.058
82426844|NCT00565409|164561925|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28||||0.0002|TWO_SIDED|95.0|1.4|7.8||P-value from CMH test of general association, testing treatment effect on response. P-value and OR stratified by geographic region.|Cochran-Mantel-Haenszel|||Week 80||7.8|1.4|0.0002
82535186|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.1||||0.005|TWO_SIDED|95.0|-40.9|-7.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-7.4|-40.9|0.005
82535187|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.0|||<|0.001|TWO_SIDED|95.0|-52.5|-17.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-17.4|-52.5|<0.001
82535188|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.8||||0.001|TWO_SIDED|95.0|-46.9|-12.7||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-12.7|-46.9|0.001
82535189|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.5|||<|0.001|TWO_SIDED|95.0|-53.6|-19.5||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-19.5|-53.6|<0.001
82535190|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.5||||0.001|TWO_SIDED|95.0|-46.3|-12.7||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||-12.7|-46.3|0.001
82535191|NCT00495469|164768482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.8||||0.114|TWO_SIDED|95.0|-31.0|3.4||Pairwise comparison not controlled for multiplicity.|ANCOVA|Change=Baseline+Treatment||||3.4|-31.0|0.114
82535192|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.757|TWO_SIDED|95.0|0.27|6.06||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<=6.5%)||6.06|0.27|0.757
82576997|NCT02942004|164864075|SUPERIORITY||LS mean difference|-11.68|STANDARD_ERROR_OF_MEAN|4.556||0.0116|TWO_SIDED|95.0|-20.71|-2.66|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||-2.66|-20.71|0.0116
82425440|NCT00261833|164560315|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.32||||0.028|TWO_SIDED|95.0|-0.03|2.67||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (i.e., the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (TLC) from baseline to Month 24 was a mixed effects ANCOVA model with country, treatment, and baseline lung density as fixed effects at a 1-sided significance level of 0.025.||2.67|-0.03|0.028
82425441|NCT00261833|164560315|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.89||||0.115|TWO_SIDED|95.0|-0.57|2.34||A 1-sided P-value less than 0.025 and a positive estimate of the treatment difference Zemaira® minus placebo (ie, the lower bound of the 95% CI being greater than zero) will indicate superiority of Zemaira® compared with Placebo.|95% confidence interval||A mixed model ANCOVA was used to estimate the 95% CI for the difference (Zemaira® - placebo) in the change in lung density.|Analysis of the change in lung density (FRC) from baseline to Month 24 was a mixed effects ANCOVA model with country, treatment, and baseline lung density as fixed effects as a repeated random effect at a 1-sided significance level of 0.025.||2.34|-0.57|0.115
82425442|NCT04358406|164560325|SUPERIORITY||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82425443|NCT04358406|164560325|SUPERIORITY||||||>|0.1|||||||Chi-squared|||||||>0.1
82425444|NCT00402987|164560333|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.7||||0.0003||95.0|5.5|17.9|||generalized linear model|p-value was calculated using Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||Null hypothesis: No difference in SPID2 (PI-VAS) at two hours between celecoxib 100 mg and placebo. Sample size was based on an expected effect size of 0.42 (from earlier studies), 80% power and an alpha of 0.05.||17.9|5.5|0.0003
82425445|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212||95.0||||"Analysis at 15 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.212
82425446|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056||95.0||||"Analysis at 30 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.056
82425447|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 45 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82425448|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 60 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
82425449|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425450|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425451|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425452|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425453|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425454|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425455|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425456|NCT00402987|164560334|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425457|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 7 hours~Overall P-value"|Generalized Linear Model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82425458|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425459|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0||||"Analysis at 9 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.006
82425460|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||"Analysis at 10 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.007
82425461|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0||||"Analysis at 11 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.014
82448762|NCT01990612|164604775|SUPERIORITY||Risk Ratio (RR)|0.94||||0.35|TWO_SIDED|95.0|0.83|1.07|||Chi-squared|||||1.07|0.83|0.35
82535193|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.58|TWO_SIDED|95.0|0.31|8.01||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<=6.5%)||8.01|0.31|0.580
82535194|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.881|TWO_SIDED|95.0|0.22|5.73||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<=6.5%)||5.73|0.22|0.881
82535195|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.382|TWO_SIDED|95.0|0.44|8.75||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<=6.5%)||8.75|0.44|0.382
82535196|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9||||0.409|TWO_SIDED|95.0|0.42|8.68||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<=6.5%)||8.68|0.42|0.409
82535197|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.795|TWO_SIDED|95.0|0.24|6.29||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<=6.5%)||6.29|0.24|0.795
82576998|NCT02942004|164864075|SUPERIORITY||LS mean difference|-8.26|STANDARD_ERROR_OF_MEAN|4.464||0.0667|TWO_SIDED|95.0|-17.1|0.58|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D subscales at each visit as the dependent variable. Treatment, baseline HAM-D subscales, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables are included in the model. All explanatory variables including pooled center are treated as fixed effects.||0.58|-17.10|0.0667
82647743|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.051|TWO_SIDED|95.0|-0.99|0.0||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.00|-0.99|0.051
82425462|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Analysis at 12 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.012
82425463|NCT00402987|164560335|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365||95.0||||"Analysis at 24 hours~Overall P-value"|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.365
82425464|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized Linear Model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.180
82425465|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.069
82425466|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.010
82425467|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
82425468|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425469|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425470|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425471|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425472|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82448763|NCT01990612|164604776|SUPERIORITY||Risk Ratio (RR)|1.15||||0.33|TWO_SIDED|95.0|0.87|1.52|||Chi-squared|||||1.52|0.87|0.33
82535198|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.765|TWO_SIDED|95.0|0.36|3.95||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (\<7%)||3.95|0.36|0.765
82535199|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.1|TWO_SIDED|95.0|0.82|9.09||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (\<7%)||9.09|0.82|0.100
82535200|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.687|TWO_SIDED|95.0|0.38|4.3||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 500 mg QD: Responders (\<7%)||4.30|0.38|0.687
82535201|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.409|TWO_SIDED|95.0|0.5|5.52||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (\<7%)||5.52|0.50|0.409
82535202|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.81||||0.086|TWO_SIDED|95.0|0.86|9.15||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg BID: Responders (\<7%)||9.15|0.86|0.086
82535203|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.369|TWO_SIDED|95.0|0.52|5.88||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs Pioglitazone 30 mg QD: Responders (\<7%)||5.88|0.52|0.369
82425473|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425474|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425475|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425476|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.096
82425477|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.034
82425478|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.022
82425479|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.010
82425480|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.005
82425481|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.002
82425482|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.001
82425483|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425484|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425485|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425486|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425487|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425488|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.741||95.0||||"Analysis at 15 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.741
82425489|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.759||95.0||||"Analysis at 30 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.759
82425490|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775||95.0||||"Analysis at 45 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.775
82425491|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.561||95.0||||"Analysis at 60 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.561
82425492|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.419||95.0||||"Analysis at 75 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.419
82425493|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||95.0||||"Analysis at 90 min~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.237
82425494|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146||95.0||||"Analysis at 1.75 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.146
82425495|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113||95.0||||"Analysis at 2 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.113
82425496|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.086||95.0||||"Analyaia at 3 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.086
82425497|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111||95.0||||"Analysis at 4 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.111
82647744|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED|95.0|-1.24|-0.25||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.25|-1.24|0.003
82647745|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||-1.59|-1.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.12|-1.07||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-1.07|-2.12|<0.001
82425498|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183||95.0||||"Analysis at 5 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.183
82425499|NCT00402987|164560336|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259||95.0||||"Analysis at 6 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.259
82448764|NCT01990612|164604778|SUPERIORITY||Risk Ratio (RR)|0.5||||0.26|TWO_SIDED|95.0|0.13|1.55|||Chi-squared||Exact confidence intervals are provided for rare outcomes.|||1.55|0.13|0.26
82448765|NCT01990612|164604779|SUPERIORITY||Risk Ratio (RR)|0.64|||<|0.001|TWO_SIDED|95.0|0.56|0.74||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||||0.74|0.56|<0.001
82448766|NCT01990612|164604780|SUPERIORITY||Risk Ratio (RR)|1.03||||0.81|TWO_SIDED|95.0|0.82|1.29|||Chi-squared|||||1.29|0.82|0.81
82448767|NCT01990612|164604781|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for 6-96 hours after delivery||||<0.001
82535204|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.16|TWO_SIDED|95.0|0.74|6.4||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 100 mg QD: Responders (reduction\>=0.7%)||6.40|0.74|0.160
82535205|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87||||0.014|TWO_SIDED|95.0|1.31|11.42||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction\>=0.7%)||11.42|1.31|0.014
82647746|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.85|-1.90|<0.001
82425500|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425501|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82448768|NCT01990612|164604781|SUPERIORITY|||||||0.01||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for 4-8 weeks after delivery||||0.01
82448769|NCT01990612|164604782|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for Worst labor pain score||||<0.001
82448770|NCT01990612|164604782|SUPERIORITY||||||<|0.001||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Chi-squared|||Analysis for Overall labor pain score||||<0.001
82425502|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425503|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425504|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82448771|NCT01990612|164604783|SUPERIORITY||Risk Ratio (RR)|0.76||||0.15|TWO_SIDED|95.0|0.53|1.1|||Chi-squared|||||1.10|0.53|0.15
82448772|NCT01990612|164604784|SUPERIORITY||Risk Ratio (RR)|1.99||||1|TWO_SIDED|95.0|0.26|26.8|||Chi-squared|The P-values has not been adjusted for multiplicity of comparisons of secondary outcomes.|Exact confidence intervals are provided for rare outcomes.|||26.8|0.26|1.00
82448773|NCT01990612|164604786|SUPERIORITY|||||||0.01|||||||Cochran-Armitage trend test|||||||0.01
82448774|NCT01990612|164604787|SUPERIORITY||Risk Ratio (RR)|0.92||||0.56|TWO_SIDED|95.0|0.68|1.23|||Chi-squared|||||1.23|0.68|0.56
82448775|NCT01990612|164604788|SUPERIORITY||Risk Ratio (RR)|0.9||||0.56|TWO_SIDED|95.0|0.64|1.28|||Chi-squared|||||1.28|0.64|0.56
82448776|NCT01990612|164604789|SUPERIORITY||Risk Ratio (RR)|0.79||||0.75|TWO_SIDED|95.0|0.2|2.74|||Chi-squared||Exact confidence intervals are provided for rare outcomes.|||2.74|0.20|0.75
82448777|NCT01990612|164604790|SUPERIORITY||Risk Ratio (RR)|1.01||||0.91|TWO_SIDED|95.0|0.81|1.27|||Chi-squared|||||1.27|0.81|0.91
82535206|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.162|TWO_SIDED|95.0|0.73|6.44||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 250 mg QD: Responders (reduction\>=0.7%)||6.44|0.73|0.162
82535207|NCT00495469|164768483|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09||||0.011|TWO_SIDED|95.0|1.38|12.17||Pairwise comparison not controlled for multiplicity.|Regression, Logistic|||Placebo vs GSK189075 1000 mg QD: Responders (reduction\>=0.7%)||12.17|1.38|0.011
82647747|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.42|-0.37||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.37|-1.42|<0.001
82647748|NCT00830063|165011044|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.27||0.012|TWO_SIDED|95.0|-1.19|-0.15||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.15|-1.19|0.012
82425505|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425506|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425507|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425508|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425509|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82448778|NCT01990612|164604791|SUPERIORITY||Risk Ratio (RR)|1.05||||0.84|TWO_SIDED|95.0|0.66|1.66|||Chi-squared|||||1.66|0.66|0.84
82425510|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82425511|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||<0.001
82448779|NCT01990612|164604792|SUPERIORITY||Risk Ratio (RR)|0.9||||0.13|TWO_SIDED|95.0|0.79|1.03|||Chi-squared|||||1.03|0.79|0.13
82448780|NCT01990612|164604793|SUPERIORITY||||||<|0.001|||||||Wilcoxon Rank-Sum|||||||<0.001
82448781|NCT01990612|164604794|SUPERIORITY|||||||0.01||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Cochran-Armitage trend test|||||||0.01
82448782|NCT01990612|164604795|SUPERIORITY|||||||0.002||||||The P value remained significant after controlling for multiple comparisons with the false discovery rate method.|Cochran-Armitage trend test|||||||0.002
82448783|NCT01990612|164604797|OTHER||Odds Ratio, log|1.01||||0.88|TWO_SIDED|95.0|0.89|1.15||Odds ratios from multinomial logistic regression.|Regression, Logistic|||Multinomial logistic regression using participants who are breastfeeding only as the reference group. This analysis compares the participants who are breastfeeding and formula feeding to participants who are only breastfeeding.||1.15|0.89|0.88
82448784|NCT01990612|164604797|OTHER||Odds Ratio, log|0.98||||0.78|TWO_SIDED|95.0|0.86|1.12|||Regression, Logistic|||Multinomial logistic regression using participants who are breastfeeding only as the reference group. This analysis compares the participants who are only formula feeding to participants who are only breastfeeding.||1.12|0.86|0.78
82448785|NCT01345669|164604855|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.126||||0.4806|TWO_SIDED|95.0|0.809|1.569|||Log Rank||Hazard ratio (Afatinib vs. Placebo) from Cox proportional hazards model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|DFS was analysed using a stratified log-rank test with nodal status (N0- N2a vs. N2b-N3) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1) being the stratification factors.||1.569|0.809|0.4806
82425512|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.017
82425513|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.011
82425514|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.009
82425515|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
82425516|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
82425517|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
82425518|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.008
82448786|NCT01345669|164604856|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier estimates|-6.27||||0.161|TWO_SIDED|95.0|-15.04|2.5|||Log Rank||Difference in Kaplan-Meier estimates of Afatinib vs. Placebo is provided.|Kaplan-Meier (KM) curves were calculated for each treatment group, separately, and the estimates of DFS probabilities from the curves and 95% Confidence interval (CI) (using the Greenwood standard error estimate) were tabulated||2.50|-15.04|0.1610
82448787|NCT01345669|164604857|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.444||||0.1301|TWO_SIDED|95.0|0.895|2.332||p-value (two-sided) from log-rank test stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).|Log Rank|||Hazard ratio from Cox proportional hazards model stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3).||2.332|0.895|0.1301
82647749|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.23||0.026|TWO_SIDED|95.0|-0.96|-0.06||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.06|-0.96|0.026
82647750|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.32|-0.43||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||-0.43|-1.32|<0.001
82647751|NCT00830063|165011045|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.23||0.333|TWO_SIDED|95.0|-0.23|0.67||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 2: LS mean was estimated from the corresponding ANCOVA model. ANCOVA model included treatment as main effects, baseline value, and study site as a random effect. 95% CI was calculated on LS mean difference.||0.67|-0.23|0.333
82425519|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.012
82425520|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.904||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.904
82425521|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.891||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.891
82425522|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.929||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.929
82425523|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.994
82425524|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.933||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.933
82425525|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.876
82448788|NCT01345669|164604858|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.431||||0.0561|TWO_SIDED|95.0|0.991|2.068|||Regression, Logistic|||Odds ratio and p-value from logistic regression analysis of 'improved vs. not improved' stratified by baseline ECOG (0 or 1) and nodal status (N0-N2a or N2b-N3) for Swallowing (Q5-Q8 from QLQ-HN35).||2.068|0.991|0.0561
82425526|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.622
82425527|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.081||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.081
82425528|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||95.0||||"Analysis at 8 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.117
82425529|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.152||95.0||||"Analysis at 9 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.152
82425530|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.171||95.0||||"Analysis at 10 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.171
82425531|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197||95.0||||"Analysis at 11 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.197
82425532|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0||||"Analysis at 12 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.244
82425533|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||95.0||||"Analysis at 24 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.708
82425534|NCT00402987|164560337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.106||95.0||||"Analysis at 7 hours~Pairwise comparison. No adjustment made for multiplicity."|Generalized linear model|Analyzed using a Generalized Linear Model with treatment as fixed effect and baseline score as a covariate||||||0.106
82535308|NCT00783718|164768647|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.3|||<|0.0001|TWO_SIDED|95.0|24.4|48.3||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||48.3|24.4|< 0.0001
82535309|NCT00783718|164768648|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.8||||0.0079|TWO_SIDED|95.0|3.1|20.5||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||20.5|3.1|0.0079
82535310|NCT00783718|164768648|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.3||||0.0009|TWO_SIDED|95.0|6.2|24.4||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||24.4|6.2|0.0009
82535311|NCT00783718|164768649|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.6||||0.012|TWO_SIDED|95.0|3.9|31.3||P-value based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||31.3|3.9|0.0120
82535312|NCT00783718|164768649|SUPERIORITY_OR_OTHER||Risk Difference (RD)|31.4|||<|0.0001|TWO_SIDED|95.0|16.6|46.2||P-value is based on the CMH chi-square test, with 3 stratification factors: concomitant use of oral corticosteroids; previous exposure to TNFα antagonists or concomitant immunomodulator use; enrollment in Cohort 1 or 2 in the Induction Phase.|Cochran-Mantel-Haenszel|||To maintain the overall Type I error rate at 5% for the 2 dose regimen comparisons for each key secondary endpoint, the Hochberg method was used as described for the primary outcome measure. To further maintain the overall Type I error rate at 5%, the key secondary endpoints were also performed sequentially. The first was tested only if 1 or both of the primary comparisons were significant and the next endpoint was tested only if the previous endpoint was significant for at least 1 dose.||46.2|16.6|< 0.0001
82535313|NCT01072929|164768659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.0097|TWO_SIDED|95.0|-6.58|-0.92||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||-0.92|-6.58|0.0097
82535314|NCT01072929|164768659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.0385|TWO_SIDED|95.0|-5.71|-0.16||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||-0.16|-5.71|0.0385
82535315|NCT01027871|164768682|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.17||||0.433|TWO_SIDED|90.0|-0.18|0.52||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.52|-0.18|0.433
82535316|NCT01027871|164768683|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.2||||0.388|TWO_SIDED|90.0|-0.59|0.19||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.59|0.388
82535317|NCT01027871|164768684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.09||||0.197|TWO_SIDED|90.0|-0.21|0.03||The statistical significance level is 0.10.|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.03|-0.21|0.197
82652088|NCT01132118|165019416|SUPERIORITY_OR_OTHER|||||||0.93||||||Unadjusted|Wilcoxon (Mann-Whitney)|||The P-value calculated was for the difference betweeen the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.930
82535318|NCT01027871|164768685|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%"|Fisher Exact|||||||0.609
82535319|NCT01027871|164768685|SUPERIORITY_OR_OTHER|||||||0.314||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c ≤6.5%"|Fisher Exact|||||||0.314
82535320|NCT01027871|164768686|SUPERIORITY_OR_OTHER|||||||0.375||95.0||||"The statistical significance level is 0.10.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.375
82535321|NCT01027871|164768686|SUPERIORITY_OR_OTHER|||||||0.811||95.0||||"The statistical significance level is 0.10.~P- value is for HbA1c ≤6.5%"|Fisher Exact|||||||0.811
82652089|NCT01132118|165019416|SUPERIORITY_OR_OTHER|||||||0.785||||||Adjusted for weight change.|Regression, Linear|||The P-value was calculated for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.785
82535322|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.43||||0.144|TWO_SIDED|90.0|-0.92|0.05||"The statistical significance level is 0.10.~P- value is for morning 2-hr postprandial BG"|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.05|-0.92|0.144
82535323|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.25||||0.36|TWO_SIDED|90.0|-0.7|0.2||"The statistical significance level is 0.10.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.20|-0.70|0.360
82535324|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.26||||0.342|TWO_SIDED|90.0|-0.72|0.19||"The statistical significance level is 0.10.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.72|0.342
82535325|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.12||||0.654|TWO_SIDED|90.0|-0.56|0.32||"The statistical significance level is 0.10.~P-value is for evening pre-meal BG"|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.32|-0.56|0.654
82535326|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.25||||0.387|TWO_SIDED|90.0|-0.73|0.23||"The statistical significance level is 0.10.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.23|-0.73|0.387
82535327|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.29||||0.339|TWO_SIDED|90.0|-0.79|0.21||"The statistical significance level is 0.10.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.21|-0.79|0.339
82535328|NCT01027871|164768687|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.1||||0.676|TWO_SIDED|90.0|-0.3|0.5||"The statistical significance level is 0.10.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.50|-0.30|0.676
82535329|NCT01027871|164768689|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||The statistical significance level is 0.10.|Fisher Exact|||||||0.162
82535330|NCT01027871|164768690|SUPERIORITY_OR_OTHER|||||||0.804||95.0||||The statistical significance level is 0.10.|Negative Binomial Model|||||||0.804
82535331|NCT01027871|164768692|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.937||90.0|-0.16|0.14||"The statistical significance level is 0.10.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.14|-0.16|0.937
82652090|NCT01132118|165019417|SUPERIORITY_OR_OTHER|||||||0.575||||||Unadjusted P-value|Wilcoxon (Mann-Whitney)|||P-value for the difference between change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.575
82535332|NCT01027871|164768692|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.03||||0.687|TWO_SIDED|90.0|-0.16|0.1||"The statistical significance level is 0.10.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY Combined - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.10|-0.16|0.687
82535333|NCT01027871|164768694|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.4||||0.159|TWO_SIDED|90.0|-0.87|0.07||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.07|-0.87|0.159
82535334|NCT01027871|164768694|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.17||||0.542|TWO_SIDED|90.0|-0.62|0.29||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.29|-0.62|0.542
82535335|NCT01027871|164768695|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.88|TWO_SIDED|90.0|-0.16|0.13||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.13|-0.16|0.880
82535336|NCT01027871|164768695|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.17||||0.045|TWO_SIDED|90.0|-0.32|-0.03||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.03|-0.32|0.045
82535337|NCT01027871|164768696|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.273
82535338|NCT01027871|164768696|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.287
82535339|NCT01027871|164768696|SUPERIORITY_OR_OTHER|||||||0.879||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.879
82535340|NCT01027871|164768696|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.722
82535341|NCT01027871|164768697|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.139
82535342|NCT01027871|164768697|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||0.569
82535343|NCT01027871|164768697|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c \<7.0%."|Fisher Exact|||||||0.515
82652091|NCT01132118|165019417|SUPERIORITY_OR_OTHER|||||||0.308||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.308
82535344|NCT01027871|164768697|SUPERIORITY_OR_OTHER|||||||1||95.0||||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for HbA1c ≤6.5%."|Fisher Exact|||||||1.000
82535345|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.26||||0.305|TWO_SIDED|90.0|-0.16|0.67||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.67|-0.16|0.305
82535346|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.14||||0.571|TWO_SIDED|90.0|-0.54|0.26||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.26|-0.54|0.571
82535347|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.26||||0.454||90.0|-0.85|0.32||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.32|-0.85|0.454
82652092|NCT01132118|165019418|SUPERIORITY_OR_OTHER|||||||0.468||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference betweeen change during hydroxychloroquine versus placebo suing Wilcoxon signed-rank tests.||||0.468
82426914|NCT00952705|164562108|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose A/H3N2 GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the A/H3N2 post-dose GMT ratio: (FluMist B/Yamagata A/H3N2 + FluMist B/Victoria A/H3N2) divided by Q/LAIV-BFS A/H3N2.|Ratio of geometric mean titers|0.93|||||TWO_SIDED|95.0|0.85|1.0|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of A/H3N2 GMTs for the specified comparison. Geometric mean titers for the A/H3N2 influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.00|0.85|
82426915|NCT00952705|164562108|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose B/Yamagata GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Yamagata post-dose GMT ratio: FluMist B/Yamagata divided by Q/LAIV-BFS B/Yamagata.|Ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.79|1.02|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of B/Yamagata GMTs for the specified comparison. Geometric mean titers for the B/Yamagata influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.02|0.79|
82426916|NCT00952705|164562108|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of Q/LAIV-BFS was declared noninferior to that of trivalent FluMist if the upper bound of the 95% CI for the post dose B/Victoria GMT ratio was ≤ 1.5. This corresponded to the statistical hypothesis of: Ho: Rj \> 1.5 for any j and Ha: Rj ≤ 1.5 for all j, where Rj was the B/Victoria post-dose GMT ratio: FluMist B/Victoria divided by Q/LAIV-BFS B/Victoria.|Ratio of geometric mean titers|0.97|||||TWO_SIDED|95.0|0.87|1.1|||Bootstrapping method|Confidence intervals calculated based on bootstrapping method.||Noninferior immune response was assessed by evaluating the upper bound of the 2-sided 95% CIs for the ratio of B/Victoria GMTs for the specified comparison. Geometric mean titers for the B/Victoria influenza antigen measurements were calculated as: GMT = antilog\^y (mean \[log\^y x\]) where x was the assay result and y was the natural logarithm.||1.10|0.87|
82448993|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.994|||||TWO_SIDED|95.0|0.836|1.181|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.181|0.836|
82535348|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.83||||0.016|TWO_SIDED|90.0|-1.4|-0.26||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for morning 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.26|-1.40|0.016
82535349|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.07||||0.838||90.0|-0.61|0.48||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.48|-0.61|0.838
82535350|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.69||||0.033|TWO_SIDED|90.0|-1.22|-0.16||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.16|-1.22|0.033
82535351|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.4||||0.229|TWO_SIDED|90.0|-0.95|0.15||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.15|-0.95|0.229
82652093|NCT01132118|165019418|SUPERIORITY_OR_OTHER|||||||0.902||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.902
82426917|NCT02415556|164562151|OTHER|"A spatial power variance-covariance structure was used to model within-subject correlated measurements where the number of days from the baseline visit was used as the power of the autoregressive correlation coefficient. Each efficacy and safety outcome variable was modeled separately.~The independent variables included: 4 treatment groups, TIMEG (baseline, on-treatment and post-treatment period), TIMEG \* treatment group.; an average number of treatment days; subjects as random effects."|Mean Difference (Final Values)|6.52||||0.025|TWO_SIDED|95.0|0.81|12.23||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||12.23|0.81|0.025
82426918|NCT02415556|164562151|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|5.28||||0.051|TWO_SIDED|95.0|-0.03|10.6||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||10.60|-0.03|0.051
82426919|NCT02415556|164562152|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|8.31||||0.007|TWO_SIDED|95.0|2.33|14.29||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||14.29|2.33|0.007
82426920|NCT02415556|164562152|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|2.71||||0.342|TWO_SIDED|95.0|-2.9|8.32||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||8.32|-2.90|0.342
82426921|NCT02415556|164562153|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|-0.37||||0.144|TWO_SIDED|95.0|-0.87|0.13||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.13|-0.87|0.144
82448994|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.987|||||TWO_SIDED|95.0|0.831|1.172|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.172|0.831|
82535352|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.27||||0.412|TWO_SIDED|90.0|-0.8|0.27||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for midday 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.27|-0.80|0.412
82535353|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.15||||0.642|TWO_SIDED|90.0|-0.68|0.38||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.38|-0.68|0.642
82535354|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.16||||0.614|TWO_SIDED|90.0|-0.67|0.36||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening pre-meal BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.36|-0.67|0.614
82652094|NCT01132118|165019419|SUPERIORITY_OR_OTHER|||||||0.004||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.004
82535355|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.5||||0.147|TWO_SIDED|90.0|-1.07|0.07||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.07|-1.07|0.147
82535356|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.42||||0.21|TWO_SIDED|90.0|-0.98|0.13||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for evening 2-hr postprandial BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.13|-0.98|0.210
82535357|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.28||||0.438|TWO_SIDED|90.0|-0.86|0.31||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.31|-0.86|0.438
82535358|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.7||||0.043|TWO_SIDED|90.0|-1.28|-0.13||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for bed time BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||-0.13|-1.28|0.043
82535359|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.24||||0.403|TWO_SIDED|90.0|-0.23|0.72||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.72|-0.23|0.403
82535360|NCT01027871|164768698|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.29||||0.314|TWO_SIDED|90.0|-0.75|0.18||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for 0300 hours BG."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.18|-0.75|0.314
82535361|NCT01027871|164768700|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Fisher Exact|||||||0.046
82535362|NCT01027871|164768700|SUPERIORITY_OR_OTHER|||||||0.224||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Fisher Exact|||||||0.224
82535363|NCT01027871|164768701|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Negative Binomial Model|||||||0.561
82535364|NCT01027871|164768701|SUPERIORITY_OR_OTHER|||||||0.518||95.0||||The statistical significance level is 0.10 with no adjustments for multiple comparisons.|Negative Binomial Model|||||||0.518
82585959|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.9291||||||DX- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.9291
82535365|NCT01027871|164768702|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.938|TWO_SIDED|90.0|-0.2|0.18||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.18|-0.20|0.938
82535366|NCT01027871|164768702|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|0.0||||0.972|TWO_SIDED|90.0|-0.18|0.19||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for baseline."|ANOVA||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.19|-0.18|0.972
82535367|NCT01027871|164768702|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.01||||0.927|TWO_SIDED|90.0|-0.16|0.15||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 1 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.15|-0.16|0.927
82535368|NCT01027871|164768702|SUPERIORITY_OR_OTHER||Least Squares Mean Difference (Final)|-0.1||||0.293|TWO_SIDED|90.0|-0.25|0.05||"The statistical significance level is 0.10 with no adjustments for multiple comparisons.~P-value is for Week 12."|Mixed Models Analysis||The Least Squares Mean Difference = LY2605541 Algorithm 2 - Insulin Glargine; and 90% confidence interval (CI) = 90% CI of the least squares mean difference.|||0.05|-0.25|0.293
82535369|NCT04833855|164768703|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|2.2||0.99|TWO_SIDED|95.0|-4.3|4.4||Nominal p-value|Repeated measure model|Model parameters: stratification factor (prior anti-IgE status), baseline UAS7, treatment, study week, interaction between treatment and study week.|Tezepelumab 210 mg SC Q4W - Placebo|||4.4|-4.3|0.99
82535370|NCT04833855|164768703|SUPERIORITY||LSM difference|-1.1|STANDARD_ERROR_OF_MEAN|2.2||0.6|TWO_SIDED|95.0|-5.4|3.1||Nominal p-value|Repeated measure model|Model parameters: stratification factor (prior anti-IgE status), baseline UAS7, treatment, study week, interaction between treatment and study week.|Tezepelumab 420 mg SC Q2W - Placebo|||3.1|-5.4|0.60
82535371|NCT04824131|164768732|OTHER||Exact CI for Proportions|0.0|||||TWO_SIDED|95.0|0.0|6.7|||||||Exact 95% Confidence Interval for Proportion for Participants who Discontinued Early due to Intolerability of Injection or Burden of Study Procedures|6.7|0|
82535372|NCT04824131|164768733|OTHER||Exact CI for Proportions|61.5|||||TWO_SIDED|95.0|47.0|74.7|||||||Exact 95% confidence interval for proportion for Participants who received at least one injection and preferred injectable PrEP at end of step 2.|74.7|47.0|
82535373|NCT04824131|164768736|OTHER||Exact CI for Proportions|94.3|||||TWO_SIDED|95.0|84.3|98.8|||||||The Exact 95% Confidence Interval for Proportion for Number of Participants with Grade 2 or above AEs during Injection Phase|98.8|84.3|
82535374|NCT04824131|164768737|OTHER||Exact CI for Proportions|100.0|||||TWO_SIDED|95.0|93.3|100.0|||||||Exact 95% Confidence Interval for Proportion for Participants who received at least one Injection who Completed All Scheduled Injections|100|93.3|
82426922|NCT02415556|164562153|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|-0.64||||0.008|TWO_SIDED|95.0|-1.11|-0.16||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||-0.16|-1.11|0.008
82426923|NCT02415556|164562154|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|0.35||||0.149|TWO_SIDED|95.0|-0.13|0.83||Mixed model p-value represents on-treatment difference between between Type 2 Diabetes Mellitus - Insulin vs. Type 2 Diabetes Mellitus - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.83|-0.13|0.149
82426924|NCT02415556|164562154|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|0.35||||0.134|TWO_SIDED|95.0|-0.11|0.8||Mixed model p-value represents on-treatment difference between between Control - Insulin vs. Control - Placebo.|Mixed Models Analysis|||We set type-I error rate at 0.05, power of 0.80 or above, effect size of 15% improvement due to INI, and obtained n=120 for the DM group (60 DM-INI; 60 DM-Placebo) and n=90 for the Control group (45 Control-INI; 45 Control-Placebo) yielding 210 patients with data at the end of the treatment period.||0.80|-0.11|0.134
82426925|NCT02415556|164562155|OTHER|The independent variables in the model included a four-level indicator variable for the four treatment groups, a three-level time indicator variable (TIMEG) representing baseline, on-treatment and post-treatment period and an interaction term between TIMEG and treatment group. An average number of treatment days at each assessment visit was used as a continuous repeated variable and subjects were included as random effects. Each efficacy and safety outcome variable was modeled separately.|Mean Difference (Final Values)|10.29||||0.03|TWO_SIDED|95.0|1.0|19.58|||Mixed Models Analysis|||||19.58|1.00|0.030
82426926|NCT02415556|164562155|OTHER|See primary aims.|Mean Difference (Final Values)|2.21||||0.607|TWO_SIDED|95.0|-6.22|10.63||See primary aims.|Mixed Models Analysis|||See primary aims.||10.63|-6.22|0.607
82426927|NCT02415556|164562156|OTHER|See primary aims.|Mean Difference (Final Values)|-2.1||||0.576|TWO_SIDED|95.0|-9.5|5.29||See primary aims.|Mixed Models Analysis|||See primary aims.||5.29|-9.50|0.576
82426928|NCT02415556|164562156|OTHER|See primary aims.|Mean Difference (Final Values)|-0.86||||0.802|TWO_SIDED|95.0|-7.58|5.87||See primary aims.|Mixed Models Analysis|||See primary aims.||5.87|-7.58|0.802
82561722|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.36|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.13|0.36|
82652095|NCT01132118|165019419|SUPERIORITY_OR_OTHER|||||||0.004||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.004
82426929|NCT02415556|164562157|EQUIVALENCE|CBF and vasoreactivity maps were analyzed on a voxel-by-voxel basis using Statistical non-Parametric Mapping (SnPM, http://www.sph.umich.edu/ni-stat/SnPM/), voxel-level threshold p \< 0.005.||||||0.03|||||||Voxel-Based Morphometry|||||||0.03
82426930|NCT02949011|164562190|SUPERIORITY||Median Difference|-29.1|||<|0.0001|TWO_SIDED|95.0|-42.8|-14.6||Adjusted p-value, two-sided significance level of 0.05|Stratified generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||The primary analysis of the primary endpoint was a comparison between the baloxavir marboxil and placebo groups.||-14.6|-42.8|<0.0001
82426931|NCT02949011|164562190|SUPERIORITY||Median Difference|-7.7||||0.8347|TWO_SIDED|95.0|-22.7|7.9||Adjusted p-value, two-sided significance level of 0.05|Stratified generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||The comparison between the baloxavir marboxil and the oseltamivir groups was conducted as a secondary analysis only if a statistically significant difference was observed in the primary analysis in order to maintain control of overall type I error.||7.9|-22.7|0.8347
82426932|NCT02949011|164562190|SUPERIORITY|||||||0.0008||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.0008
82426933|NCT02949011|164562190|SUPERIORITY|||||||0.8449||||||The p-value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Log Rank|Log rank test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Analysis using the stratified log rank test was performed as a sensitivity analysis.||||0.8449
82561723|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.55|1.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.39|0.55|
82448995|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.993|||||TWO_SIDED|95.0|0.836|1.18|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 1 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.180|0.836|
82448996|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.118|||||TWO_SIDED|95.0|0.951|1.314|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.314|0.951|
82448997|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.006|||||TWO_SIDED|95.0|0.856|1.183|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.183|0.856|
82448998|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\] for Anti-poliovirus type 2.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.765|1.06|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 2 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.060|0.765|
82448999|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.112|||||TWO_SIDED|95.0|0.941|1.314|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.314|0.941|
82449000|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|1.034|||||TWO_SIDED|95.0|0.876|1.22|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.220|0.876|
82449001|NCT00148941|164605244|EQUIVALENCE|Lot-to-lot consistency in terms of immunogenicity would be demonstrated if the lower and upper limits of the 95% CIs for the ratios of GMTs for each antigen (D, T, PT, FHA, PRN, and Poliovirus types 1, 2, and 3) and between each pair of the three lots of SB213503 vaccine were within the pre-defined clinical limits of \[0.67; 1.5\].|GMT ratio|0.93|||||TWO_SIDED|95.0|0.787|1.099|||ANCOVA|Ancova model: adjustment for baseline titer - pooled variance with more than 2 groups.||The lot-to-lot consistency of three manufacturing lots of SB213503 vaccine in terms of poliovirus type 3 geometric mean titers (GMTs) in a subset of subjects one month after vaccination when co-administered with M-M-R II.||1.099|0.787|
82652096|NCT01132118|165019420|SUPERIORITY_OR_OTHER|||||||0.009||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.009
82449002|NCT00148941|164605244|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ration|0.792|||||TWO_SIDED|95.0|0.68|0.922|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 1 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.922|0.680|
82499573|NCT02425046|164689901|SUPERIORITY|||||||0.312|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||Null hypothesis is that there will be no difference between the two arms in change in sugar sweetened beverage intake over 12 months.||||0.312
82652097|NCT01132118|165019420|SUPERIORITY_OR_OTHER|||||||0.011||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.011
82499574|NCT02425046|164689902|SUPERIORITY||difference in change between two arms|75.0||||0.1|TWO_SIDED|95.0|-15.0|165.0|||Linear quantile mixed model|Linear quantile mixed models (a non-parametric linear mixed model) was used because of non-normal distribution that could not be transformed.|Comparison of the intervention target adult change in reported physical activity compared to the control group.|Linear quantile mixed models (a non-parametric linear mixed model) was used because because of non-normal distribution that could not be remedied by transformation.||165|-15|0.10
82426934|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82426935|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82426936|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
82426937|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
82426938|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||<0.0001
82426939|NCT02949011|164562191|SUPERIORITY|||||||0.0044||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0044
82449003|NCT00148941|164605244|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ratio|0.802|||||TWO_SIDED|95.0|0.696|0.925|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 2 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.925|0.696|
82449004|NCT00148941|164605244|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|GMT ratio|0.938|||||TWO_SIDED|95.0|0.811|1.085|||ANCOVA|ANCOVA model: adjustment for baseline titer - pooled variance||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of anti-poliovirus type 3 (measured by the GMT ratio of Infanrix + IPOL + M-M-R Group over SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.085|0.811|
82499575|NCT02425046|164689903|SUPERIORITY||difference in change between two arms|-2.54||||0.057|TWO_SIDED|95.0|-5.14|0.07|||Mixed Models Analysis||The intervention arm in comparison to the control arm.|||0.07|-5.14|0.057
82648173|NCT01864525|165011771|SUPERIORITY|||||||0.0216||||||Statistical results for Magnitude of acoustic amplitude tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test did not use the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0216
82426940|NCT02949011|164562191|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||<0.0001
82426941|NCT02949011|164562191|SUPERIORITY|||||||0.1146||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.1146
82426942|NCT02949011|164562191|SUPERIORITY|||||||0.0046||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.0046
82426943|NCT02949011|164562191|SUPERIORITY|||||||0.441||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.441
82426944|NCT02949011|164562191|SUPERIORITY|||||||0.0929||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0929
82426945|NCT02949011|164562191|SUPERIORITY|||||||0.0907||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0907
82426946|NCT02949011|164562192|SUPERIORITY|||||||0.7383||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||0.7383
82652098|NCT01132118|165019421|SUPERIORITY_OR_OTHER|||||||0.73||||||Unadjusted|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.730
82535375|NCT04824131|164768738|OTHER||Mean Difference (Final Values)|-0.2728|STANDARD_ERROR_OF_MEAN|0.1704||0.1093|TWO_SIDED|95.0|-0.61|0.06||"GEE for Change in Sexual Behavior - Number of Sexual Partners - Visit as Continuous Variable.~Difference from baselines in the number of sex partners (vaginal or anal sex) reported in the past month"|poisson model||"GEE for Change in Sexual Behavior - Number of Sexual Partners - Visit as Continuous Variable.~Difference from baselines in the number of sex partners (vaginal or anal sex) reported in the past month"|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model count outcomes (number of sexual partners) using a poisson model.||0.06|-0.61|0.1093
82535376|NCT04824131|164768739|OTHER||Mean Difference (Final Values)|-0.5859|STANDARD_ERROR_OF_MEAN|0.2253||0.0093|TWO_SIDED|95.0|-1.03|-0.14||GEE for Change in Sexual Behavior - Number of Episodes of Vaginal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of vaginal sex without a condom reported in the past month|poisson model||GEE for Change in Sexual Behavior - Number of Episodes of Vaginal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of vaginal sex without a condom reported in the past month.|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model count outcomes (number of episodes of vaginal sex without a condom) using a poisson model.||-0.14|-1.03|0.0093
82535377|NCT04824131|164768739|OTHER||Mean Difference (Final Values)|-0.3087|STANDARD_ERROR_OF_MEAN|1.4036||0.8259|TWO_SIDED|95.0|-3.06|2.44||GEE for Change in Sexual Behavior - Number of Episodes of Anal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of anal sex without a condom reported in the past month|Regression, Logistic||GEE for Change in Sexual Behavior - Number of Episodes of Anal Sex without a Condom - Visit as Continuous Variable. Difference from baselines in the number of anal sex without a condom reported in the past month|Generalized estimating equations (GEE) with robust variance to model change in self-reported sexual behavior from enrollment (W0) to follow up visits (W4, W5, W9, W17, W25, W33, W+12, W+24, W+36, W+48), with an indicator variable for all on-study visits (i.e. enrollment visit = 0) to measure change in the outcome behavior. We will model binary outcomes (any episodes of anal sex without a condom) using a logistic model.||2.44|-3.06|0.8259
82535378|NCT04824131|164768740|OTHER||CI for Incidence rate, exact Poisson|0.0|||||TWO_SIDED|95.0|0.0|10.8|||||Person-years: 34.0||Incidence rate is calculated HIV infections per 100 person years. CI for Incidence rate is calculated using exact Poisson method|10.8|0.0|
82535379|NCT04640571|164768746|EQUIVALENCE|Simple one-way t-test to assess if pravastatin AUC value is larger after metformin than after placebo.||||||0.02|||||||t-test, 1 sided|||||||0.02
82535380|NCT04640571|164768747|EQUIVALENCE|Simple one-way t-test to assess if pravastatin Cmax value is larger after metformin than after placebo|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535381|NCT04640571|164768748|EQUIVALENCE|Simple one-way t-test to assess if CDCA AUC value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535382|NCT04640571|164768749|EQUIVALENCE|Simple one-way t-test to assess if CDCA Cmax value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535383|NCT04640571|164768750|EQUIVALENCE|Simple one-way t-test to assess if acyclovir AUC value is reduced after polysorbate 80 than after placebo|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535384|NCT04640571|164768751|EQUIVALENCE|Simple one-way t-test to assess if acyclovir Cmax value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82652099|NCT01132118|165019421|SUPERIORITY_OR_OTHER|||||||0.208||||||Adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxychloroquine versus placebo from a linear regression model.||||0.208
82535385|NCT04640571|164768752|EQUIVALENCE|Simple one-way t-test to assess if CDCA AUC value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535386|NCT04640571|164768753|EQUIVALENCE|Simple one-way t-test to assess if CDCA Cmax value is reduced after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535387|NCT04640571|164768754|EQUIVALENCE|Simple one-way t-test to assess if enalaprilat AUC value is increased after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535388|NCT04640571|164768755|EQUIVALENCE|Simple one-way t-test to assess if enalaprilat Cmax value is increased after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535389|NCT04640571|164768756|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid AUC value is larger after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535390|NCT04640571|164768757|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid Cmax value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535391|NCT04640571|164768758|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid AUC value is reduced after metformin than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535392|NCT04640571|164768759|EQUIVALENCE|For each of 15 endogenous bile acid, simple one-way t-test to assess if endogenous bile acid Cmax value is larger after polysorbate 80 than after placebo.|||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82535393|NCT04883346|164768871|SUPERIORITY||Mean Difference (Final Values)|-3.2|STANDARD_DEVIATION|3.4|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 32 degrees of freedom (one participant did not have baseline DEXA data so could not be included.||||||<0.001
82535394|NCT04883346|164768872|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|1.5|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom.||||||<0.001
82535395|NCT04883346|164768873|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|0.1|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom||||||<0.001
82535396|NCT04883346|164768874|SUPERIORITY|Paired t-test.|Mean Difference (Final Values)|-4.4|STANDARD_DEVIATION|4.4|<|0.001|TWO_SIDED||||||t-test, 2 sided|Paired t-test, 33 degrees of freedom||||||<0.001
82535397|NCT04736056|164768879|OTHER||Cohen's d effect size|1.2|||||TWO_SIDED|95.0|0.73|1.66||||||0 to 12 weeks||1.66|0.73|
82535398|NCT04736056|164768879|OTHER||Cohen's d effect size|1.07|||||TWO_SIDED|95.0|0.61|1.51||||||0 to 16 weeks||1.51|0.61|
82535399|NCT04736056|164768880|OTHER||Cohen's d effect size|0.35|||||TWO_SIDED|95.0|-0.02|0.71||||||0 to 12 weeks||0.71|-0.02|
82535400|NCT04736056|164768880|OTHER||Cohen's d effect size|0.25|||||TWO_SIDED|95.0|-0.12|0.61||||||0 to 16 weeks||0.61|-0.12|
82535401|NCT04736056|164768881|OTHER||Cohen's d effect size|0.78|||||TWO_SIDED|95.0|0.38|1.18||||||0 to 12 weeks||1.18|0.38|
82535402|NCT04736056|164768881|OTHER||Cohen's d effect size|0.5|||||TWO_SIDED|95.0|0.11|0.87||||||0 to 16 weeks||0.87|0.11|
82499576|NCT02425046|164689904|SUPERIORITY|||||||0.874|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||||||0.874
82499577|NCT02425046|164689905|SUPERIORITY||% difference in change between arms|7.0||||0.31|TWO_SIDED|95.0|-7.0|23.0|||Mixed Models Analysis|Screen time was log transformed to normalized the distribution. Results have been back transformed from log 10 scale.|% change in screen time of the intervention arm compared to the control arm.|||23|-7|0.31
82499578|NCT02425046|164689906|SUPERIORITY|||||||0.516|||||||t-test, 2 sided|Multiple imputation including demographics and 6 month data used to complete dataset. 5 datasets created and t-score averaged.||||||0.516
82499579|NCT02782780|164689907|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.01||||||Test of treatment effect: t(91.6)=3.21|Mixed Models Analysis|||||||<0.01
82499580|NCT02782780|164689907|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTI group: t(92.3)=4.10|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTI group.||||||<0.001
82499581|NCT02782780|164689908|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.001||||||test of treatment effect: t(94.7)=6.10|Mixed Models Analysis|||||||<0.001
82499582|NCT02782780|164689908|SUPERIORITY||||||<|0.001||||||baseline vs. 6-month follow-up in CBTI group: t(94)=6.67|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTI group.||To compare baseline data to 6-month follow-up data in the CBT-I group, planned contrasts following the mixed models were used.||||<0.001
82499583|NCT02782780|164689909|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.001|||||||Mixed Models Analysis|test of treatment effect: t(104)=3.40||||||<0.001
82499584|NCT02782780|164689909|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(91.6)=4.37|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
82499585|NCT02782780|164689910|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.05|||||||Mixed Models Analysis|test of treatment effect: t(99.9)=2.09||||||<0.05
82499586|NCT02782780|164689910|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(92.1)=2.56||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||<0.01
82499587|NCT02782780|164689911|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||=|0.991|||||||Mixed Models Analysis|Test of treatment effect: t(110)=-0.41||||||=0.991
82499588|NCT02782780|164689911|SUPERIORITY||||||=|0.41||||||Baseline vs. 6-month follow-up in CBTi group: t(91.8)=0.94|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||=0.41
82499589|NCT02782780|164689912|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses|||||<|0.05|||||||Mixed Models Analysis|Test of treatment effect: t(83.7)=2.51||||||<0.05
82499590|NCT02782780|164689912|SUPERIORITY||||||=|0.49||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(90.9)=0.27||||||=0.49
82499591|NCT02782780|164689913|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.01|||||||Mixed Models Analysis|test of treatment effect: t(105)=4.55||||||<0.01
82499592|NCT02782780|164689913|SUPERIORITY||||||<|0.01||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(91.3)=3.23||||||<0.01
82499593|NCT02782780|164689914|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(91.6)=3.37||||||<0.001
82499594|NCT02782780|164689914|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: (92.1)=3.64|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
82499595|NCT02782780|164689915|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(99.2)=5.45||||||<0.001
82499596|NCT02782780|164689915|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(93.4)=6.06|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
82426947|NCT02949011|164562192|SUPERIORITY|||||||0.9619||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||0.9619
82426948|NCT02949011|164562192|SUPERIORITY|||||||0.0576||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0576
82426949|NCT02949011|164562192|SUPERIORITY|||||||0.1237||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.1237
82426950|NCT02949011|164562192|SUPERIORITY|||||||0.3071||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.3071
82449005|NCT00148941|164605245|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.47|||||TWO_SIDED|95.0|-0.98|1.21||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of diphtheria toxoid (D) booster responses (i.e measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.21|-0.98|
82449006|NCT00148941|164605245|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|-2.81|||||TWO_SIDED|95.0|-6.55|-0.09||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of tetanus toxoid (T) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|-0.09|-6.55|
82449007|NCT00148941|164605246|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.36|||||TWO_SIDED|95.0|-3.83|3.71||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of pertussis toxoid (PT) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|3.71|-3.83|
82449008|NCT00148941|164605246|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|0.79|||||TWO_SIDED|95.0|-2.5|3.21||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of filamentous haemagglutinin (FHA) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|3.21|-2.50|
82535403|NCT04736056|164768882|OTHER||Cohen's d effect size|0.23|||||TWO_SIDED|95.0|-0.13|0.58||||||0 to 12 weeks||0.58|-0.13|
82535404|NCT04736056|164768882|OTHER||Cohen's d effect size|0.31|||||TWO_SIDED|95.0|-0.05|0.68||||||0 to 16 weeks||0.68|-0.05|
82535405|NCT04736056|164768883|OTHER||Cohen's d effect size|0.32|||||TWO_SIDED|95.0|-0.04|0.68||||||0 to 12 weeks||0.68|-0.04|
82426951|NCT02949011|164562192|SUPERIORITY|||||||0.9603||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.9603
82426952|NCT02949011|164562192|SUPERIORITY|||||||0.0784||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.0784
82426953|NCT02949011|164562192|SUPERIORITY|||||||0.5547||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5547
82426954|NCT02949011|164562192|SUPERIORITY|||||||0.3087||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.3087
82535406|NCT04736056|164768883|OTHER||Cohen's d effect size|0.61|||||TWO_SIDED|95.0|0.22|1.0||||||0 to 16 weeks||1.00|0.22|
82535407|NCT04736056|164768884|OTHER||Cohen's d effect size|0.38|||||TWO_SIDED|95.0|0.01|0.74||||||0 to 12 weeks||0.74|0.01|
82535408|NCT04736056|164768884|OTHER||Cohen's d effect size|0.47|||||TWO_SIDED|95.0|0.09|0.85||||||0 to 16 weeks||0.85|0.09|
82449009|NCT00148941|164605246|NON_INFERIORITY|The objectives were achieved if for D, T, PT, FHA and PRN: the upper limit of the two-sided standardized asymptotic 95% CI of the difference in booster response rates was less than or equal to the pre-defined clinical limit of 10% AND for poliovirus types 1, 2 and 3: the upper limit of the two-sided 95% confidence interval (CI) for the GMT ratio was less than or equal to the pre-defined clinical limit of 1.5.|Difference between groups|-0.82|||||TWO_SIDED|95.0|-3.79|1.14||||||Analysis of the non-inferiority of SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of pertactin (PRN) booster responses (measured by the difference in percentage of subjects with a booster response between the Infanrix + IPOL + M-M-R Group and (minus) the SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups) in a subset of subjects one month after vaccination when co-administered with M-M-R II.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|1.14|-3.79|
82449010|NCT00148941|164605247|NON_INFERIORITY|Non-inferiority objective was considered demonstrated, when the upper limit of the 95% CI for the difference between groups (SB213503 + M-M-R Group = pooled lot 1, 2 \& 3 groups minus Infanrix + IPOL + M-M-R Group) in percentage of subjects reporting increased circumferential swelling was equal or less than 2%.|Difference in percentage|-0.41|||||TWO_SIDED|95.0|-1.26|0.16||||||Non-inferiority of the SB213503 vaccine compared to Infanrix + IPOL administered separately in terms of the incidence of increased circumferential swelling at the SB213503 and Infanrix injection site, defined as an injection site swelling diameter that involves \> 50% of the length of the upper arm that also is associated with a \> 30 mm increase of the mid-upper arm circumference compared to the baseline measurement.|SB213503 lot 1, SB213503 lot 2, and SB213503 lot 3 Arms/Groups were pooled for statistical analysis.|0.16|-1.26|
82449011|NCT01092663|164605283|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449012|NCT01092663|164605284|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449013|NCT01092663|164605285|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effects between the 2 groups||||>0.05
82449014|NCT01092663|164605286|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449015|NCT01092663|164605287|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449016|NCT01092663|164605288|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
82535409|NCT04736056|164768885|OTHER||Cohen's d effect size|0.29|||||TWO_SIDED|95.0|-0.07|0.65||||||0 to 12 weeks||0.65|-0.07|
82535410|NCT04736056|164768885|OTHER||Cohen's d effect size|0.6|||||TWO_SIDED|95.0|0.21|0.99||||||||0.99|0.21|
82535411|NCT04736056|164768886|OTHER||Cohen's d effect size|0.54|||||TWO_SIDED|95.0|0.16|0.91||||||0 to 12 weeks||0.91|0.16|
82449017|NCT01092663|164605289|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Treament difference in fasting EGP between the 2 groups were compared.||||>0.05
82449018|NCT01092663|164605290|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between groups was evaluated||||>0.05
82449019|NCT01092663|164605291|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired ttest||Difference in treatment effect between groups was evaluated||||>0.05
82449020|NCT01092663|164605292|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449021|NCT01092663|164605293|SUPERIORITY_OR_OTHER||||||=|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||=0.01
82449022|NCT01092663|164605294|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||differerences in treatment effect between the 2 groups||||>0.05
82449023|NCT01092663|164605295|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449024|NCT01092663|164605296|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449025|NCT01092663|164605297|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449026|NCT01092663|164605298|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449027|NCT01092663|164605299|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
82449028|NCT01092663|164605300|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.05
82449029|NCT01092663|164605301|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.01
82449030|NCT01092663|164605302|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||<0.01
82535412|NCT04736056|164768886|OTHER||Cohen's d effect size|0.51|||||TWO_SIDED|95.0|0.12|0.89||||||0 to 16 weeks||0.89|0.12|
82535413|NCT04736056|164768887|OTHER||Cohen's d effect size|0.89|||||TWO_SIDED|95.0|0.47|1.3||||||0 to 12 weeks||1.30|0.47|
82535414|NCT04736056|164768887|OTHER||Cohen's d effect size|0.66|||||TWO_SIDED|95.0|0.26|1.05||||||0 to 16 weeks||1.05|0.26|
82535415|NCT04736056|164768888|OTHER||Cohen's d effect size|-0.4|||||TWO_SIDED|95.0|-0.76|-0.03||||||0 to 12 weeks||-0.03|-0.76|
82535416|NCT04736056|164768888|OTHER||Cohen's d effect size|-0.34|||||TWO_SIDED|95.0|-0.71|0.03||||||0 to 16 weeks||0.03|-0.71|
82535417|NCT04736056|164768889|OTHER||Cohen's d effect size|0.0|||||TWO_SIDED|95.0|-0.35|0.35||||||0 to 12 weeks||0.35|-0.35|
82535418|NCT04736056|164768889|OTHER||Cohen's d effect size|-0.28|||||TWO_SIDED|95.0|-0.64|0.09||||||0 to 16 weeks||0.09|-0.64|
82535419|NCT04736056|164768890|OTHER||Cohen's d effect size|0.1|||||TWO_SIDED|95.0|-0.45|0.26||||||||0.26|-0.45|
82535420|NCT04736056|164768890|OTHER||Cohen's d effect size|0.09|||||TWO_SIDED|95.0|-0.27|0.45||||||0 to 16 weeks||0.45|-0.27|
82535421|NCT04736056|164768891|OTHER||Cohen's d effect size|-0.035|||||TWO_SIDED|95.0|-0.71|0.01||||||0 to 12 weeks||0.01|-0.71|
82535422|NCT04736056|164768891|OTHER||Cohen's d effect size|-0.29|||||TWO_SIDED|95.0|-0.65|0.08||||||0 to 16 weeks||0.08|-0.65|
82535423|NCT04736056|164768892|OTHER||Cohen's d effect size|-0.34|||||TWO_SIDED|95.0|-0.7|0.03||||||0 to 12 weeks||0.03|-0.70|
82535424|NCT04736056|164768892|OTHER||Cohen's d effect size|-0.47|||||TWO_SIDED|95.0|-0.85|-0.09||||||0 to 16 weeks||-0.09|-0.85|
82426955|NCT02949011|164562192|SUPERIORITY|||||||0.9106||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9106
82535425|NCT02322775|164768931|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.08||||0.04|TWO_SIDED|95.0|0.0|0.15||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||The null hypothesis was: H0: Change from baseline in pre-bronchodilator FEV1 (L) at Week 12 (benralizumab vs placebo)=0.||0.15|0|0.040
82535426|NCT02322775|164768932|SUPERIORITY_OR_OTHER||Difference of Least Square Means|8.84||||0.233|TWO_SIDED|95.0|-5.74|23.42||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||23.42|-5.74|0.233
82535427|NCT02322775|164768933|SUPERIORITY_OR_OTHER||Difference of Least Square Means|5.29||||0.456|TWO_SIDED|95.0|-8.67|19.25||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||19.25|-8.67|0.456
82535428|NCT02322775|164768934|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.13||||0.266|TWO_SIDED|95.0|-0.35|0.1||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.10|-0.35|0.266
82535429|NCT02322775|164768935|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.36||||0.2|TWO_SIDED|95.0|-0.91|0.19||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.19|-0.91|0.200
82535430|NCT02322775|164768936|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.03||||0.38|TWO_SIDED|95.0|-0.08|0.03||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.03|-0.08|0.380
82535431|NCT02322775|164768937|SUPERIORITY_OR_OTHER||Difference of Least Square Means|-0.17||||0.114|TWO_SIDED|95.0|-0.39|0.04||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|Mixed Models Analysis|||||0.04|-0.39|0.114
82535432|NCT02322775|164768939|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.21||||0.055|TWO_SIDED|95.0|0.0|0.42||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Total score||0.42|0|0.055
82535433|NCT02322775|164768939|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.23||||0.063|TWO_SIDED|95.0|-0.01|0.47||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Symptoms score||0.47|-0.01|0.063
82535434|NCT02322775|164768939|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.2||||0.061|TWO_SIDED|95.0|-0.01|0.41||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Activity limitation score||0.41|-0.01|0.061
82535435|NCT02322775|164768939|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.19||||0.156|TWO_SIDED|95.0|-0.07|0.45||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Emotional function score||0.45|-0.07|0.156
82535436|NCT02322775|164768939|SUPERIORITY_OR_OTHER||Difference of Least Square Means|0.19||||0.135|TWO_SIDED|95.0|-0.06|0.44||Hypothesis testing were reported using 2-sided 5% level tests with nominal p-values (i.e., not adjusted for multiplicity).|ANCOVA|||Parameter: Environmental stimuli score||0.44|-0.06|0.135
82535437|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.071|STANDARD_ERROR_OF_MEAN|0.07||0.309|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|||||0.07|-0.21|0.309
82535438|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.133|STANDARD_ERROR_OF_MEAN|0.07||0.061|TWO_SIDED|95.0|-0.27|0.01|||Mixed Models Analysis|||||0.01|-0.27|0.061
82535439|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.205|STANDARD_ERROR_OF_MEAN|0.1||0.053|TWO_SIDED|95.0|-0.41|0.0|||Mixed Models Analysis|||||0.00|-0.41|0.053
82535440|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.255|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed Models Analysis|||||-0.13|-0.38|<0.001
82535441|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.369|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.51|-0.23|||Mixed Models Analysis|||||-0.23|-0.51|<0.001
82535442|NCT02624778|164768949|SUPERIORITY||LS Mean|-0.329|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.46|-0.2|||Mixed Models Analysis|||||-0.20|-0.46|<0.001
82535443|NCT04672460|164768968|OTHER||Ratio (Test/Reference) of Adjusted Means|105.16|||||TWO_SIDED|90.0|99.0|111.7|||Mixed Models Analysis|||Treatment A were reference; treatment B were test.||111.70|99.00|
82535444|NCT04672460|164768969|OTHER||Ratio (Test/Reference) of Adjusted Means|136.62|||||TWO_SIDED|90.0|125.05|149.27|||Mixed Models Analysis|||Treatment A were reference; treatment B were test.||149.27|125.05|
82535445|NCT04672460|164768970|OTHER||Ratio (Test/Reference) of Adjusted Means|87.97|||||TWO_SIDED|90.0|81.82|94.58|||Mixed Models Analysis|||Treatment B were reference; treatment C were test.||94.58|81.82|
82535446|NCT04672460|164768971|OTHER||Ratio (Test/Reference) of Adjusted Means|58.26|||||TWO_SIDED|90.0|51.55|65.84|||Mixed Models Analysis|||Treatment B were reference; treatment C were test.||65.84|51.55|
82535447|NCT03575962|164768979|OTHER||Ratio of geometric least square mean|1.1169|||||TWO_SIDED|90.0|0.99|1.27||||||||1.27|0.99|
82535448|NCT03575962|164768980|OTHER||Ratio of geometric least square mean|1.1556|||||TWO_SIDED|90.0|0.99|1.35||||||||1.35|0.99|
82535449|NCT02949271|164769009|OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82535450|NCT02949271|164769010|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82535451|NCT02949271|164769012|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82535452|NCT02949271|164769013|OTHER|||||||0.28|||||||Chi-squared|||||||0.28
82535453|NCT02949271|164769014|OTHER|||||||0.85|||||||Chi-squared|||||||0.85
82535454|NCT02949271|164769015|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82535455|NCT02949271|164769016|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82535456|NCT02949271|164769017|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
82535457|NCT02949271|164769019|OTHER|||||||0.08|||||||Chi-squared|||||||0.08
82535458|NCT05458102|164769020|OTHER||Geometric Least-squares Mean Ratio|560.0|||||TWO_SIDED|90.0|414.0|757.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||757|414|
82535459|NCT05458102|164769020|OTHER||Geometric Least-squares Mean Ratio|137.0|||||TWO_SIDED|90.0|99.5|189.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||189|99.5|
82535460|NCT05458102|164769021|OTHER||Geometric Least-squares Mean Ratio|433.0|||||TWO_SIDED|90.0|347.0|540.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||540|347|
82535461|NCT05458102|164769021|OTHER||Geometric Least-squares Mean Ratio|118.0|||||TWO_SIDED|90.0|93.5|150.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||150|93.5|
82535462|NCT05458102|164769022|OTHER||Geometric Least-squares Mean Ratio|752.0|||||TWO_SIDED|90.0|525.0|1080.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||1080|525|
82535463|NCT05458102|164769022|OTHER||Geometric Least-squares Mean Ratio|118.0|||||TWO_SIDED|90.0|80.3|172.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||172|80.3|
82535464|NCT05458102|164769024|OTHER||Geometric Least-squares Mean Ratio|68.5|||||TWO_SIDED|90.0|45.5|103.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||103|45.5|
82535465|NCT05458102|164769024|OTHER||Geometric Least-squares Mean Ratio|65.4|||||TWO_SIDED|90.0|42.5|101.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||101|42.5|
82535466|NCT05458102|164769028|OTHER||Geometric Least-squares Mean Ratio|120.0|||||TWO_SIDED|90.0|104.0|138.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||138|104|
82535467|NCT05458102|164769028|OTHER||Geometric Least-squares Mean Ratio|111.0|||||TWO_SIDED|90.0|95.4|128.0|||||Parametric (normal theory) mixed-effects ANOVA model was fitted to the natural log-transformed values of the PK parameter under evaluation.|||128|95.4|
82652100|NCT01132118|165019422|SUPERIORITY_OR_OTHER|||||||0.487||||||Unadjusted P-value.|Wilcoxon (Mann-Whitney)|||P-value for the difference between the change during hydroxychloroquine versus placebo using Wilcoxon signed-rank tests.||||0.487
82535468|NCT00367237|164769036|SUPERIORITY_OR_OTHER||Difference in percentages of respondents|19.61||||0.021||95.0|3.27|35.95||Comparison of treatments (IFX + MTX versus MTX)|Chi-squared||Difference in percentages of respondents is (percentage of respondents in IFX+MTX group minus percentage of respondents in MTX group)|||35.95|3.27|0.0210
82535469|NCT00367237|164769036|SUPERIORITY_OR_OTHER||Proportion of Responders|0.863||||||95.0||||||||||||
82535470|NCT00367237|164769036|SUPERIORITY_OR_OTHER||Proportion of Responders|0.667||||||95.0||||||||||||
82535471|NCT01276535|164769111|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison is made of the combined application of the Erchonia MLS and the Erchonia THL. Results are analyzed at 6 weeks relative to Baseline.||||<0.01
82535472|NCT01276535|164769112|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison is made of the combined application of the Erchonia MLS and the Erchonia THL. Results are analyzed at 6 weeks relative to Baseline.||||<0.01
82535473|NCT02851511|164769130|SUPERIORITY|tDCS vs. sham superiority with cognitive training will be tested based on the 320 participants who are assigned to the two cognitive training arms. The effects of tDCS on changes in NIH Toolbox Fluid Cognition Composite Score (NIHTB FCC) from baseline to 3-month follow-up are estimated by linear regression models, with missing outcomes predicted by regression models that include demographic and baseline characteristics.|Slope|0.33|STANDARD_ERROR_OF_MEAN|0.63|<|0.05|TWO_SIDED|95.0|-0.91|1.56||Formal statistical inference of the tDCS effect was based on the inverse-normal combination of two p-values, one from the Phase I data (N=42) and the other from the Phase II data (N=292).|Regression, Linear|||"Null hypothesis: The combination of cognitive training (12 weeks) and active stimulation (over the dorsolateral prefrontal cortex) will not lead to beneficial changes on the NIH Toolbox Cognition Battery.~The study is designed to have at least 90% power to detect a difference of effect size 0.42 between cognitive training+tDCS and cognitive training+sham, using a normal inverse combination test at one-sided 0.025 level."||1.56|-0.91|<0.05
82535474|NCT00335153|164769157|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535475|NCT00335153|164769158|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
82535476|NCT00335153|164769159|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535477|NCT00335153|164769160|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535478|NCT00335153|164769161|SUPERIORITY_OR_OTHER|||||||0.974|||||||t-test, 2 sided|||||||0.974
82535479|NCT00335153|164769162|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535480|NCT00335153|164769163|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535481|NCT00335153|164769164|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535482|NCT00335153|164769165|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535483|NCT00335153|164769166|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535484|NCT00335153|164769167|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535485|NCT00335153|164769168|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535486|NCT00335153|164769169|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535487|NCT00335153|164769170|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535488|NCT00335153|164769171|SUPERIORITY_OR_OTHER|||||||0.757|||||||t-test, 2 sided|||||||0.757
82535489|NCT00335153|164769172|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535490|NCT00335153|164769173|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535491|NCT00335153|164769174|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535492|NCT00335153|164769175|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535493|NCT00335153|164769176|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535494|NCT00335153|164769177|SUPERIORITY_OR_OTHER|||||||0.824|||||||t-test, 2 sided|||||||0.824
82535495|NCT02478359|164769180|SUPERIORITY||Odds Ratio (OR)|1.09||||0.33|TWO_SIDED|95.0|0.92|1.28|||Regression, Logistic|||||1.28|0.92|0.33
82535496|NCT02478359|164769181|SUPERIORITY||Odds Ratio (OR)|1.02||||0.88|TWO_SIDED|95.0|0.77|1.36|||Regression, Logistic|||||1.36|0.77|0.88
82535497|NCT02478359|164769182|SUPERIORITY||Odds Ratio (OR)|1.05||||0.53|TWO_SIDED|95.0|0.89|1.24|||Regression, Logistic|||||1.24|0.89|0.53
82449031|NCT01092663|164605303|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|unpaired t-test||Difference in treatment effect between the 2 groups||||>0.05
82449032|NCT00360568|164605324|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82449033|NCT00360568|164605325|SUPERIORITY_OR_OTHER|||||||0.394|||||||t-test, 2 sided|||||||0.394
82449034|NCT00360568|164605326|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82449035|NCT00360568|164605327|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82449036|NCT00360568|164605328|SUPERIORITY_OR_OTHER|||||||0.055|||||||t-test, 2 sided|||||||0.055
82449037|NCT00360568|164605329|SUPERIORITY_OR_OTHER|||||||0.766|||||||t-test, 2 sided|||||||0.766
82449038|NCT00360568|164605330|SUPERIORITY_OR_OTHER|||||||0.571|||||||t-test, 2 sided|||||||0.571
82449039|NCT00360568|164605331|SUPERIORITY_OR_OTHER|||||||0.583|||||||t-test, 2 sided|||||||0.583
82585960|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.6152||||||DX- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.6152
82449040|NCT00360568|164605332|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82449041|NCT00360568|164605333|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.670
82449042|NCT00360568|164605334|SUPERIORITY_OR_OTHER|||||||0.341|||||||t-test, 2 sided|||||||0.341
82449043|NCT00360568|164605335|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.220
82449044|NCT00360568|164605336|SUPERIORITY_OR_OTHER|||||||0.174|||||||t-test, 2 sided|||||||0.174
82449045|NCT00360568|164605337|SUPERIORITY_OR_OTHER|||||||0.259|||||||t-test, 2 sided|||||||0.259
82449046|NCT00360568|164605338|SUPERIORITY_OR_OTHER|||||||0.922|||||||t-test, 2 sided|||||||0.922
82449047|NCT00360568|164605339|SUPERIORITY_OR_OTHER|||||||0.258|||||||t-test, 2 sided|||||||0.258
82449048|NCT00360568|164605340|SUPERIORITY_OR_OTHER|||||||0.104|||||||t-test, 2 sided|||||||0.104
82449049|NCT00360568|164605341|SUPERIORITY_OR_OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.650
82449050|NCT00360568|164605342|SUPERIORITY_OR_OTHER|||||||0.759|||||||t-test, 2 sided|||||||0.759
82449051|NCT00360568|164605343|SUPERIORITY_OR_OTHER|||||||0.459|||||||t-test, 2 sided|||||||0.459
82449052|NCT00360568|164605344|SUPERIORITY_OR_OTHER|||||||0.899|||||||t-test, 2 sided|||||||0.899
82449053|NCT01220180|164605357|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449054|NCT01220180|164605358|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449055|NCT01220180|164605359|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449056|NCT01220180|164605360|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449057|NCT01220180|164605361|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449058|NCT01220180|164605362|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449059|NCT01220180|164605363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449060|NCT01220180|164605364|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82449061|NCT00241904|164605404|SUPERIORITY||||||<|0.001|||||||General Linear Mixed Model|||Intention to treat analysis was used||||<0.001
82449062|NCT00241904|164605405|SUPERIORITY|||||||0.003|||||||General Linear Mixed Model|||||||0.003
82449063|NCT00241904|164605406|SUPERIORITY|||||||0.034|||||||General Linear Mixed Model|||||||0.034
82449064|NCT00241904|164605407|SUPERIORITY||||||<|0.001|||||||General Linear Mixed Model|||||||<0.001
82449065|NCT00360724|164605410|SUPERIORITY_OR_OTHER||F statistics|9.43||||0.003|||||||Repeated Measures ANOVA|df 1,55|time X Drug group, f=9.43,df 1,55, p=.003|Repeated measures ANOVA was used to compare measures between baseline and week 10.||||.003
82449066|NCT00360724|164605412|SUPERIORITY_OR_OTHER||F statistics|8.72||||0.05|||||||Repeated Measures ANOVA|d.f. 1,55|Time x Treatment: F=8.72, d.f=1,55, p=0.05|Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.05
82449067|NCT00360724|164605413|SUPERIORITY_OR_OTHER||F statistics|5.33||||0.025|||||||Repeated measures ANOVA|d.f. 1,55||Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.025
82449068|NCT00360724|164605414|SUPERIORITY_OR_OTHER||F statistics|0.26||||0.6|||||||Repeated measures ANOVA|d.f.=1,55||Repeated measures ANOVA was used to compare measures between baseline and week 10.||||0.6
82449069|NCT00360724|164605419|OTHER||Mean Difference (Final Values)|4.0||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||0.002
82449070|NCT00360724|164605420|OTHER||Mean Difference (Final Values)|0.4||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.9
82449071|NCT00516165|164605424|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kaplan Meier|||||||0.05
82449072|NCT00516165|164605425|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||||||<0.05
82449073|NCT00516165|164605426|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier|||||||<0.05
82449074|NCT00516165|164605427|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
82449075|NCT00516165|164605428|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
82449076|NCT00516165|164605429|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
82449077|NCT02478255|164605430|OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
82449078|NCT01431963|164605437|SUPERIORITY_OR_OTHER||percentage of participants|43.1|||||TWO_SIDED|95.0|30.85|55.96|||||The estimated value reflects the percentage of participants who were seizure free for all seizures.|||55.96|30.85|
82535498|NCT02478359|164769183|SUPERIORITY||Odds Ratio (OR)|1.03||||0.73|TWO_SIDED|95.0|0.88|1.2|||Regression, Logistic|||||1.20|0.88|0.73
82535499|NCT02478359|164769184|SUPERIORITY||Odds Ratio (OR)|1.13||||0.21|TWO_SIDED|95.0|0.93|1.37|||Regression, Logistic|||||1.37|0.93|0.21
82535500|NCT02478359|164769185|SUPERIORITY||Odds Ratio (OR)|1.1||||0.26|TWO_SIDED|95.0|0.93|1.31|||Regression, Logistic|||||1.31|0.93|0.26
82535501|NCT02478359|164769186|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82535502|NCT02478359|164769187|SUPERIORITY|||||||0.55|||||||Regression, Linear|||||||0.55
82449079|NCT01431963|164605437|SUPERIORITY_OR_OTHER||percentage of participants|40.0|||||TWO_SIDED|95.0|27.02|54.09|||||The estimated value reflects the percentage of participants who were seizure free for A+B+C seizures.|||54.09|27.02|
82449080|NCT01431963|164605437|SUPERIORITY_OR_OTHER||percentage of participants|40.5|||||TWO_SIDED|95.0|25.63|56.72|||||The estimated value reflects the percentage of participants who were seizure free for A+B seizures.|||56.72|25.63|
82449081|NCT01431963|164605437|SUPERIORITY_OR_OTHER||percentage of participants|69.7|||||TWO_SIDED|95.0|51.29|84.41|||||The estimated value reflects the percentage of participants who were seizure free for C seizures.|||84.41|51.29|
82449082|NCT01431963|164605437|SUPERIORITY_OR_OTHER||percentage of participants|80.0|||||TWO_SIDED|95.0|44.39|97.48|||||The estimated value reflects the percentage of participants who were seizure free for D5 seizures.|||97.48|44.39|
82449083|NCT02964767|164605448|OTHER||||||<|0.049|||||||t-test, 2 sided|||||||<0.049
82449084|NCT01107665|164605483|OTHER||Log Rank HR|0.784||||0.49|TWO_SIDED|95.0|0.41|1.54|||Log Rank|||||1.54|.41|0.49
82449085|NCT01618695|164605489|SUPERIORITY||Median Difference (Final Values)|-5.09||||0.233|TWO_SIDED|95.0|-14.112|4.519|||ANCOVA||Median Difference to placebo and the 95 percent (%) confidence interval are based on the Hodges-Lehmann method.|||4.519|-14.112|0.2330
82449086|NCT01618695|164605489|SUPERIORITY||Median Difference (Final Values)|-16.45||||0.0003|TWO_SIDED|95.0|-25.683|-7.251|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-7.251|-25.683|0.0003
82449087|NCT01618695|164605489|SUPERIORITY||Median Difference (Final Values)|-24.95|||<|0.0001|TWO_SIDED|95.0|-33.878|-16.235|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-16.235|-33.878|<0.0001
82449088|NCT01618695|164605490|SUPERIORITY|||||||0.3954|||||||Cochran-Mantel-Haenszel|||||||0.3954
82577084|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7534|TWO_SIDED|95.0|-0.3|0.22|||MMRM|||Insomnia - Early, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.30|0.7534
82449089|NCT01618695|164605490|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||||||0.0005
82449090|NCT01618695|164605490|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82449091|NCT01618695|164605491|SUPERIORITY||Median Difference (Final Values)|-8.27||||0.0552|TWO_SIDED|95.0|-18.067|1.671|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||1.671|-18.067|0.0552
82449092|NCT01618695|164605491|SUPERIORITY||Median Difference (Final Values)|-21.21|||<|0.0001|TWO_SIDED|95.0|-30.941|-11.368|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-11.368|-30.941|<0.0001
82449093|NCT01618695|164605491|SUPERIORITY||Median Difference (Final Values)|-28.65|||<|0.0001|TWO_SIDED|95.0|-37.698|-19.794|||ANCOVA||Median Difference to placebo and the 95% confidence interval are based on the Hodges-Lehmann method.|||-19.794|-37.698|<0.0001
82449094|NCT01115673|164605499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|469.37|||<|0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||<0.001
82449095|NCT01115673|164605499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|102.09||||0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||0.001
82449096|NCT01115673|164605499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|367.28|||<|0.001|||||||ANOVA|Treatment and baseline pain categorical ratings were factors.|SPRID6 = 0.25 times (PRID at 15 min + PRID at 30 min + PRID at 45 min + PRID at 60 min + PRID at 75 min + PRID at 90 min) + 0.5 times (PRID at 120 minutes) + PRID at 3 hours + PRID at 4 hours + PRID at 5 hours + PRID at 6 hours.|First test H1: acetaminophen 1000 mg vs placebo at the alpha = 0.025 one-tail level; If H1 was rejected then, Test H2: acetaminophen 1000 mg vs acetaminophen 650 mg, and Test H3: acetaminophen 650 mg vs placebo; H2 and H3 were each tested at the alpha = 0.025 one-tail level.||||<0.001
82449097|NCT01115673|164605500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.7|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449098|NCT01115673|164605500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.14||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
82449099|NCT01115673|164605500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|178.56|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449100|NCT01115673|164605501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|242.67|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449101|NCT01115673|164605501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.95||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449102|NCT01115673|164605501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|188.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449103|NCT01115673|164605502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.037||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.037
82449104|NCT01115673|164605502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.294||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.294
82535503|NCT02478359|164769188|SUPERIORITY|||||||0.34||||||adjusted p values|Regression, Logistic|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.34
82535504|NCT02478359|164769189|SUPERIORITY|||||||0.6|||||||Regression, Linear|||||||0.60
82535505|NCT02478359|164769190|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
82535506|NCT02478359|164769191|SUPERIORITY|||||||0.47|||||||Regression, Linear|||||||0.47
82535507|NCT02478359|164769192|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||0.33
82535508|NCT02478359|164769193|SUPERIORITY|||||||0.87||||||Adjusted P value|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.87
82535509|NCT02478359|164769194|SUPERIORITY|||||||0.7||||||Adjusted P value|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.70
82449105|NCT01115673|164605502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66||||0.006||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.006
82449106|NCT01115673|164605503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.85|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449107|NCT01115673|164605503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.946||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.946
82535510|NCT02478359|164769195|SUPERIORITY|||||||0.35|||||||Regression, Linear|Adjusted P Values||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.35
82535511|NCT02478359|164769196|SUPERIORITY|||||||0.09||||||Adjusted P Values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.09
82535512|NCT02478359|164769197|SUPERIORITY|||||||0.82||||||Adjusted P Values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.82
82535513|NCT02478359|164769198|SUPERIORITY|||||||0.16||||||Adjusted P values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.16
82535514|NCT02478359|164769199|SUPERIORITY|||||||0.86||||||Adjusted P values|Regression, Linear|||Covariates included in the adjusted multivariate models were age, FEV1% predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level and study site||||0.86
82535515|NCT02478359|164769200|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
82535516|NCT02478359|164769201|SUPERIORITY||Odds Ratio (OR)|1.05||||0.69|TWO_SIDED|95.0|0.82|1.35|||Regression, Logistic|||||1.35|0.82|0.69
82535517|NCT02478359|164769202|SUPERIORITY||Odds Ratio (OR)|0.62||||0.11|TWO_SIDED|95.0|0.35|1.11|||Regression, Logistic|||||1.11|0.35|0.11
82535518|NCT02478359|164769203|SUPERIORITY||Odds Ratio (OR)|0.84||||0.21|TWO_SIDED|95.0|0.65|1.1|||Regression, Logistic|||||1.10|0.65|0.21
82535519|NCT02478359|164769204|SUPERIORITY||Odds Ratio (OR)|1.07||||0.6|TWO_SIDED|95.0|0.84|1.36|||Regression, Logistic|||||1.36|0.84|0.60
82535520|NCT02478359|164769205|SUPERIORITY||Odds Ratio (OR)|0.92||||0.63|TWO_SIDED|95.0|0.66|1.28|||Regression, Logistic|||||1.28|0.66|0.63
82535521|NCT02478359|164769206|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8|TWO_SIDED|95.0|0.68|1.35|||Regression, Logistic|||||1.35|0.68|0.80
82535522|NCT02478359|164769207|SUPERIORITY|||||||0.06||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.06
82449108|NCT01115673|164605503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.99|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449109|NCT01115673|164605504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449110|NCT01115673|164605504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06||||0.661||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.661
82449111|NCT01115673|164605504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.62|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449112|NCT01115673|164605505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.56|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449113|NCT01115673|164605505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.88||||0.13||95.0||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.13
82449114|NCT01115673|164605505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.67|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449115|NCT01115673|164605506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.97|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449116|NCT01115673|164605506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42||||0.041||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.041
82449117|NCT01115673|164605506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.55|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82585961|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.704||||||DX- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.7040
82449118|NCT01115673|164605507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.97|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449119|NCT01115673|164605507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.34||||0.02||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.02
82449120|NCT01115673|164605507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.63|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449121|NCT01115673|164605508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.46|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449122|NCT01115673|164605508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.08||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
82449123|NCT01115673|164605508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.38|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449124|NCT01115673|164605509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.42|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449125|NCT01115673|164605509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.83||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449126|NCT01115673|164605509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.59|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449127|NCT01115673|164605510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.99|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449128|NCT01115673|164605510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449129|NCT01115673|164605510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.42|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449130|NCT01115673|164605511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.04|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449131|NCT01115673|164605511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449132|NCT01115673|164605511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.22|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449133|NCT01115673|164605512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.45|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449134|NCT01115673|164605512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.58||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449135|NCT01115673|164605512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449136|NCT01115673|164605513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35||||0.028||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.028
82449137|NCT01115673|164605513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.462||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.462
82535523|NCT02478359|164769208|SUPERIORITY|||||||0.07||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.07
82449138|NCT01115673|164605513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48||||0.008||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.008
82449139|NCT01115673|164605514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.81|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449140|NCT01115673|164605514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.907||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.907
82449141|NCT01115673|164605514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.11|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449142|NCT01115673|164605515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.19|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449143|NCT01115673|164605515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.655||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.655
82449144|NCT01115673|164605515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449145|NCT01115673|164605516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.15|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449146|NCT01115673|164605516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.33||||0.155||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.155
82449147|NCT01115673|164605516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449148|NCT01115673|164605517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.69|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82577085|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.201||0.0021|TWO_SIDED|95.0|-1.03|-0.23|||MMRM|||Insomnia - Early, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-1.03|0.0021
82449149|NCT01115673|164605517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.04||||0.05||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.05
82449150|NCT01115673|164605517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.65|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449151|NCT01115673|164605518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.83|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449152|NCT01115673|164605518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.74||||0.032||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.032
82449153|NCT01115673|164605518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449154|NCT01115673|164605519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|52.36|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82652101|NCT01132118|165019422|SUPERIORITY_OR_OTHER|||||||0.884||||||P-value adjusted for weight change.|Regression, Linear|||P-value for the difference between the change during hydroxycholorquine versus placebo from a linear regression model.||||0.884
82449155|NCT01115673|164605519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.52||||0.003||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.003
82449156|NCT01115673|164605519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.84|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82652102|NCT01590433|165019435|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82449157|NCT01115673|164605520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.8|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449158|NCT01115673|164605520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.04||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449159|NCT01115673|164605520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.75|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449160|NCT01115673|164605521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.84|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449161|NCT01115673|164605521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449162|NCT01115673|164605521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.02|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449163|NCT01115673|164605522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.4|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449164|NCT01115673|164605522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449165|NCT01115673|164605522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449166|NCT01115673|164605523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.94|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449167|NCT01115673|164605523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
82449168|NCT01115673|164605523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.55|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449169|NCT01115673|164605524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.65||||0.027||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.027
82449170|NCT01115673|164605524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.49||||0.365||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.365
82449171|NCT01115673|164605524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.14||||0.005||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.005
82449172|NCT01115673|164605525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.65|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82585962|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.9537||||||DX- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for DX Subjective Sleepiness/Alertness- ESS-TS.||||0.9537
82449173|NCT01115673|164605525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.923||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.923
82449174|NCT01115673|164605525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449175|NCT01115673|164605526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.87|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449176|NCT01115673|164605526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.38||||0.653||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.653
82449177|NCT01115673|164605526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449178|NCT01115673|164605527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.71|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449179|NCT01115673|164605527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.21||||0.138||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.138
82449180|NCT01115673|164605527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449181|NCT01115673|164605528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|93.66|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449182|NCT01115673|164605528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.46||||0.043||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.043
82449183|NCT01115673|164605528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|82.2|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449184|NCT01115673|164605529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|94.8|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449185|NCT01115673|164605529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.08||||0.024||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.024
82449186|NCT01115673|164605529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.72|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449187|NCT01115673|164605530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449188|NCT01115673|164605530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.6||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449189|NCT01115673|164605530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|81.23|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449190|NCT01115673|164605531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.22|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449191|NCT01115673|164605531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.87||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449192|NCT01115673|164605531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.35|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82577086|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.196||0.0394|TWO_SIDED|95.0|-0.8|-0.02|||MMRM|||Insomnia - Early, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.80|0.0394
82449193|NCT01115673|164605532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|85.82|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449194|NCT01115673|164605532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.39|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82652103|NCT02232074|165019445|SUPERIORITY||Odds Ratio (OR)|0.82||||0.77|TWO_SIDED|95.0|0.21|3.14||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||Compared to the control group, the Breast cancer INTERVENTION group will be more likely to have timely first treatment (i.e. receipt of first treatment within 90 days of diagnosis).||3.14|0.21|0.77
82449195|NCT01115673|164605532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.44|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449196|NCT01115673|164605533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.44|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449197|NCT01115673|164605533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449198|NCT01115673|164605533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.94|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449199|NCT01115673|164605534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.39|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449200|NCT01115673|164605534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.98||||0.002||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82449201|NCT01115673|164605534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|45.41|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449202|NCT01115673|164605535|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449203|NCT01115673|164605535|SUPERIORITY_OR_OTHER|||||||0.26||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.26
82426956|NCT02949011|164562192|SUPERIORITY|||||||0.0017||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0017
82449204|NCT01115673|164605535|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449205|NCT01115673|164605536|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449206|NCT01115673|164605536|SUPERIORITY_OR_OTHER|||||||0.934||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.934
82449207|NCT01115673|164605536|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test, from SAS PROC LIFETEST|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449208|NCT01115673|164605537|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
82449209|NCT01115673|164605537|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
82449210|NCT01115673|164605537|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance threshold level was 0.05 (two-sided). p-Values are based on the log-rank test from PROC LIFETEST that compared survival curves.|Log Rank|||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups. Subjects not rescuing during the 6-hour study period had their time to rescue set to 6 hours and were censored.||||<0.001
82449211|NCT01115673|164605538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.06|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449212|NCT01115673|164605538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.002||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.002
82652104|NCT02232074|165019446|SUPERIORITY||Odds Ratio (OR)|4.0||||0.26|TWO_SIDED|95.0|0.35|45.4||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||Compared to the control group, the Lung cancer INTERVENTION group will be more likely to have timely first treatment (i.e. receipt of first treatment within 90 days of diagnosis).||45.4|0.35|0.26
82426957|NCT02949011|164562192|SUPERIORITY|||||||0.3068||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.3068
82426958|NCT02949011|164562193|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82449213|NCT01115673|164605538|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.12|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449214|NCT01115673|164605539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449215|NCT01115673|164605539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449216|NCT01115673|164605539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449217|NCT01115673|164605540|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|18.45|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449218|NCT01115673|164605540|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.006||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.006
82449219|NCT01115673|164605540|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.16|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|Cochran-Mantel-Haenszel|Stratified by categorical baseline pain rating.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82449220|NCT01115673|164605541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82652105|NCT02232074|165019447|SUPERIORITY||Median Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.42||0.53|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Breast cancer INTERVENTION group will have less distress at 3 months post-enrollment||||0.53
82426959|NCT02949011|164562193|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82426960|NCT02949011|164562193|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
82426961|NCT02949011|164562193|SUPERIORITY|||||||0.0024||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0024
82426962|NCT02949011|164562193|SUPERIORITY|||||||0.9127||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ven Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.9127
82426963|NCT02949011|164562193|SUPERIORITY|||||||0.5361||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.5361
82426964|NCT02949011|164562193|SUPERIORITY|||||||0.5739||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5739
82426965|NCT02949011|164562193|SUPERIORITY|||||||0.5466||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5466
82426966|NCT02949011|164562193|SUPERIORITY|||||||0.0543||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.0543
82426967|NCT02949011|164562193|SUPERIORITY|||||||0.4677||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.4677
82426968|NCT02949011|164562193|SUPERIORITY|||||||0.0266||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.0266
82426969|NCT02949011|164562193|SUPERIORITY|||||||0.1281||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.1281
82426970|NCT02949011|164562194|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82426971|NCT02949011|164562194|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 2||||<0.0001
82426972|NCT02949011|164562194|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||<0.0001
82426973|NCT02949011|164562194|SUPERIORITY|||||||0.0015||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 3||||0.0015
82426974|NCT02949011|164562194|SUPERIORITY|||||||0.0028||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0028
82426975|NCT02949011|164562194|SUPERIORITY|||||||0.0265||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 4||||0.0265
82426976|NCT02949011|164562194|SUPERIORITY|||||||0.0247||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.0247
82577087|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.208||0.0039|TWO_SIDED|95.0|-1.03|-0.2|||Wilcoxon (Mann-Whitney)|||Insomnia - Early, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-1.03|0.0039
82426977|NCT02949011|164562194|SUPERIORITY|||||||0.5298||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 5||||0.5298
82426978|NCT02949011|164562194|SUPERIORITY|||||||0.9554||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9554
82426979|NCT02949011|164562194|SUPERIORITY|||||||0.9075||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 6||||0.9075
82426980|NCT02949011|164562194|SUPERIORITY|||||||0.7624||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.7624
82426981|NCT02949011|164562194|SUPERIORITY|||||||0.6156||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Day 9||||0.6156
82426982|NCT02949011|164562195|SUPERIORITY|||||||0.034||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0340
82426983|NCT02949011|164562195|SUPERIORITY|||||||0.2766||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.2766
82426984|NCT02949011|164562196|SUPERIORITY|||||||0.0072||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0072
82426985|NCT02949011|164562196|SUPERIORITY|||||||0.733||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|van Elteren test|Van Elteren test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.7330
82426986|NCT02949011|164562197|SUPERIORITY||Median Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-48.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||-48.0|-48.0|<0.0001
82426987|NCT02949011|164562197|SUPERIORITY||Median Difference|-48.0|||<|0.0001|TWO_SIDED|95.0|-48.0|-24.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||-24.0|-48.0|<0.0001
82426988|NCT02949011|164562198|SUPERIORITY||Median Difference|-24.0||||0.0006|TWO_SIDED|95.0|-96.0|0.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||0.0|-96.0|0.0006
82449221|NCT01115673|164605541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||0.001
82577088|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.202||0.1591|TWO_SIDED|95.0|-0.69|0.11|||MMRM|||Insomnia - Early, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.69|0.1591
82426989|NCT02949011|164562198|SUPERIORITY||Median Difference|0.0||||0.237|TWO_SIDED|95.0|-48.0|24.0||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region||||24.0|-48.0|0.2370
82426990|NCT02949011|164562199|SUPERIORITY|||||||0.7698||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.7698
82426991|NCT02949011|164562199|SUPERIORITY|||||||0.5777||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.5777
82426992|NCT02949011|164562199|SUPERIORITY|||||||0.1112||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.1112
82652106|NCT02232074|165019448|SUPERIORITY||Median Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|1.62||0.43|TWO_SIDED|||||Adjusting for baseline Distress Thermometer scores.|Regression, Linear|||Compared to the control group, the LUNG cancer INTERVENTION group will have less distress at 3 months post-enrollment||||0.43
82426993|NCT02949011|164562199|SUPERIORITY|||||||0.6483||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.6483
82426994|NCT02949011|164562199|SUPERIORITY|||||||0.0004||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.0004
82426995|NCT02949011|164562199|SUPERIORITY|||||||0.5625||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.5625
82449222|NCT01115673|164605541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||<|0.001||||||The significance threshold level was 0.05 (two-sided).|ANOVA|Treatment and baseline pain categorical ratings were factors.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||||<0.001
82426996|NCT02949011|164562199|SUPERIORITY|||||||0.0072||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.0072
82426997|NCT02949011|164562199|SUPERIORITY|||||||0.6234||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.6234
82535524|NCT02478359|164769209|SUPERIORITY|||||||0.67||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.67
82535525|NCT02478359|164769210|SUPERIORITY|||||||0.13||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.13
82577089|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.21||0.1402|TWO_SIDED|95.0|-0.73|0.1|||MMRM|||Insomnia - Early, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.73|0.1402
82426998|NCT02949011|164562199|SUPERIORITY|||||||0.0002||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.0002
82426999|NCT02949011|164562199|SUPERIORITY|||||||0.9547||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.9547
82427000|NCT02949011|164562199|SUPERIORITY|||||||0.0012||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.0012
82427001|NCT02949011|164562199|SUPERIORITY|||||||0.186||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.1860
82427002|NCT02949011|164562199|SUPERIORITY|||||||0.0274||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.0274
82427003|NCT02949011|164562199|SUPERIORITY|||||||0.9635||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.9635
82427004|NCT02949011|164562199|SUPERIORITY|||||||0.0081||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.0081
82427005|NCT02949011|164562199|SUPERIORITY|||||||0.7425||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.7425
82427006|NCT02949011|164562199|SUPERIORITY|||||||0.0209||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.0209
82427007|NCT02949011|164562199|SUPERIORITY|||||||0.7448||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.7448
82427008|NCT02949011|164562199|SUPERIORITY|||||||0.0644||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.0644
82427009|NCT02949011|164562199|SUPERIORITY|||||||0.4931||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.4931
82427010|NCT02949011|164562199|SUPERIORITY|||||||0.0708||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.0708
82427011|NCT02949011|164562199|SUPERIORITY|||||||0.4024||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel-Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.4024
82427012|NCT02949011|164562200|SUPERIORITY||Median Difference|-25.8|||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||<0.0001
82427013|NCT02949011|164562200|SUPERIORITY||Median Difference|-8.6||||0.9127||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.9127
82427014|NCT02949011|164562201|SUPERIORITY||Median Difference|-15.1||||0.0013||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0013
82427015|NCT02949011|164562201|SUPERIORITY||Median Difference|2.3||||0.8498||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.8498
82427016|NCT02949011|164562202|SUPERIORITY||Median Difference|-24.1||||0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.0001
82427017|NCT02949011|164562202|SUPERIORITY||Median Difference|1.5||||0.9237||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.9237
82427018|NCT02949011|164562203|SUPERIORITY||Median Difference|-19.8|||<|0.0001|TWO_SIDED|95.0|-28.8|-12.5||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||-12.5|-28.8|<0.0001
82427019|NCT02949011|164562203|SUPERIORITY||Median Difference|-3.5||||0.2425|TWO_SIDED|95.0|-9.1|2.7||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||2.7|-9.1|0.2425
82427020|NCT02949011|164562204|SUPERIORITY|||||||0.1713||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.1713
82535526|NCT02478359|164769211|SUPERIORITY|||||||0.34||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.34
82535527|NCT02478359|164769212|SUPERIORITY|||||||0.11||||||Adjusted P value|Regression, Linear|||Covariates included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.11
82535528|NCT02478359|164769213|SUPERIORITY|||||||0.83||||||Adjusted P value|Regression, Linear|||Covariated included in the as-treated adjusted linear regression analyses were age, FEV1%predicted, Charlson comorbidity index, oxygen use, hospitalization for COPD in previous 12 months, outpatient treated COPD exacerbation in previous 12 months, length of time since acute care utilization to randomization, use of LABA or ICS, PA level, and study site||||0.83
82535529|NCT01818700|164769216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|STANDARD_DEVIATION|1.96|<|0.05|TWO_SIDED|95.0|-10.0|10.0|||t-test, 2 sided|"The primary endpoint will be the actual reduction rate of pain intensity (0 -10) score at 8 weeks.~It will be analyzed by using paired t-test."||||10|-10|<0.05
82427021|NCT02949011|164562204|SUPERIORITY|||||||0.2249||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||12 hours||||0.2249
82427022|NCT02949011|164562204|SUPERIORITY|||||||0.0387||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.0387
82535530|NCT02987829|164769224|OTHER|||||||||||||||||Determination of the maximum tolerated dose.|One dose limiting toxicity occurred at 320 mg daily of grade 3 QTc prolongation therefore the 280 mg dose was determined to be the maximum tolerated dose and selected as the phase 2 dose.|||
82427023|NCT02949011|164562204|SUPERIORITY|||||||0.3915||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||24 hours||||0.3915
82427024|NCT02949011|164562204|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||<0.0001
82535531|NCT00558753|164769234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82535532|NCT00558753|164769235|SUPERIORITY_OR_OTHER||Independence: Chi-squared|10.3||||0.0013||95.0|||||Chi-squared|||For 3 month followup on incidence of neuropathic pain.||||0.0013
82535533|NCT00558753|164769235|SUPERIORITY_OR_OTHER||Independence: Chi-squared|6.05||||0.0139|||||||Chi-squared|||For 6 month followup on incidence of neuropathic pain.||||0.0139
82535534|NCT00558753|164769236|SUPERIORITY_OR_OTHER||Slope|-4.2||||0.0133||95.0||||Test of condition(Placebo v Pregabalin) main effect.|Mixed Models Analysis|Mixed model with main effects and time by condition interaction.||Mixed model test of condition (Placebo v Pregabalin) main effect.||||0.0133
82427025|NCT02949011|164562204|SUPERIORITY|||||||0.2617||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||36 hours||||0.2617
82427026|NCT02949011|164562204|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||<0.0001
82449223|NCT01732770|164605545|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The lower bound of the 2-sided 95% confidence interval (CI) of (denosumab - zoledronic acid) was compared with the non-inferiority margin of -0.46% for assessing non-inferiority.|Treatment Difference|2.1|||<|0.0001|TWO_SIDED|95.0|1.6|2.6|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the non-inferiority analysis the 1-sided significance level was 2.5%.||2.6|1.6|<0.0001
82449224|NCT01732770|164605546|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The lower bound of the 2-sided 95% CI) of (denosumab - zoledronic acid) was compared with the non-inferiority margin of -0.51% for assessing non-inferiority.|Treatment Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.7|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the non-inferiority analysis the 1-sided significance level was 2.5%.||1.7|1.0|<0.0001
82449225|NCT01732770|164605547|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.1|||<|0.0001|TWO_SIDED|95.0|1.6|2.6|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the superiority analysis the 2-sided significance level was 5%.||2.6|1.6|<0.0001
82449226|NCT01732770|164605548|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.4|||<|0.0001|TWO_SIDED|95.0|1.0|1.7|||ANCOVA|The model included treatment, screening sCTX, baseline BMD, DXA machine type (Hologic or Lunar), and baseline BMD-by-machine type interaction.|Treatment difference = denosumab - zoledronic acid|A step-down sequential testing procedure was used in order to maintain the overall type I error rate at 5% for the tests of primary and secondary BMD endpoints. For the superiority analysis the 2-sided significance level was 5%.||1.7|1.0|<0.0001
82449227|NCT00125957|164605563|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference in the mean change MADRS score between Wellbutrin-Placebo and Placebo-Wellbutrin treatment groups||||.04
82449228|NCT00125957|164605564|SUPERIORITY_OR_OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: There is no difference in the median HAM-D score between Wellbutrin-Placebo and Placebo-Wellbutrin treatment groups||||0.09
82449229|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio (GMR)|1.14|||||TWO_SIDED|95.0|0.95|1.37||||||Serotype 1: Geometric mean ratios (GMRs) (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% confidence intervals (CIs).||1.37|0.95|
82449230|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio (GMR)|1.01|||||TWO_SIDED|95.0|0.88|1.16||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.16|0.88|
82449231|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.17|0.78|
82449232|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.12|0.77|
82535535|NCT00558753|164769236|SUPERIORITY_OR_OTHER||Interaction Slice F-value|1.04||||0.3097||95.0|||||Mixed Models Analysis|Mixed model test of Condition Effect (Placebo v Pregabalin) at the 1-day post surgery time point (Slice)||Test of Condition Effect (Placebo v Pregabalin) at the 1-day post surgery time point (Slice)||||0.3097
82535536|NCT00558753|164769236|SUPERIORITY_OR_OTHER||Interaction Slice F-value|5.1||||0.0247||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 2-day post surgery time point (Slice)||||0.0247
82449233|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.24|||||TWO_SIDED|95.0|1.03|1.5||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.50|1.03|
82449234|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.85|1.21||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.21|0.85|
82449235|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.82|1.17||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.17|0.82|
82449236|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.33|0.93|
82449237|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.9|1.27||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.27|0.90|
82449238|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.07|0.72|
82449239|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.12|0.81|
82427027|NCT02949011|164562204|SUPERIORITY|||||||0.8808||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||48 hours||||0.8808
82449240|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.81|1.21||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.21|0.81|
82427028|NCT02949011|164562204|SUPERIORITY|||||||0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.0001
82449241|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.72|1.16||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.16|0.72|
82449242|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.19|||||TWO_SIDED|95.0|1.0|1.4||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.40|1.00|
82449243|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.91|1.36||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.36|0.91|
82449244|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.29|||||TWO_SIDED|95.0|1.03|1.6||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.60|1.03|
82535537|NCT00558753|164769236|SUPERIORITY_OR_OTHER||Interaction Slice F-value|3.11||||0.0786||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 3-day post surgery time point (Slice)||||0.0786
82427029|NCT02949011|164562204|SUPERIORITY|||||||0.5923||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||72 hours||||0.5923
82449245|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.88|1.33||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.33|0.88|
82449246|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.91|1.46||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.46|0.91|
82449247|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.12|||||TWO_SIDED|95.0|0.87|1.43||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.43|0.87|
82449248|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 2) and 2-sided 95% CIs.||1.30|0.83|
82449249|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.21|||||TWO_SIDED|95.0|1.01|1.46||||||Serotype 1: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.46|1.01|
82535538|NCT00558753|164769236|SUPERIORITY_OR_OTHER||Interaction Slice F-value|5.04||||0.0254||95.0|||||Mixed Models Analysis|||Test of Condition Effect (Placebo v Pregabalin) at the 30-day post surgery time point (Slice)||||0.0254
82535539|NCT03682536|164769249|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|2.0|4.8|||Cochran-Mantel-Haenszel|||||4.8|2.0|<.0001
82535540|NCT03682536|164769250|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0003|TWO_SIDED|95.0|1.4|3.7|||Cochran-Mantel-Haenszel|||||3.7|1.4|0.0003
82427030|NCT02949011|164562204|SUPERIORITY|||||||0.0064||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.0064
82449250|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.26|0.96|
82449251|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.22|0.82|
82449252|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.89|1.31||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.31|0.89|
82449253|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.4|||||TWO_SIDED|95.0|1.16|1.69||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.69|1.16|
82449254|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.94|1.35||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.35|0.94|
82535541|NCT03682536|164769252|SUPERIORITY||Odds Ratio (OR)|2.8|||<|0.0001|TWO_SIDED|95.0|1.8|4.5|||Cochran-Mantel-Haenszel|||||4.5|1.8|<.0001
82535542|NCT03682536|164769254|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.6|4.0|||Cochran-Mantel-Haenszel|||||4.0|1.6|<.0001
82427031|NCT02949011|164562204|SUPERIORITY|||||||0.6746||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||96 hours||||0.6746
82652107|NCT02232074|165019449|SUPERIORITY||Median Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.45||0.18|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Breast cancer INTERVENTION group will have less distress at 6 months post-enrollment||||0.18
82427032|NCT02949011|164562204|SUPERIORITY|||||||0.8167||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.8167
82427033|NCT02949011|164562204|SUPERIORITY|||||||0.3773||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||120 hours||||0.3773
82427034|NCT02949011|164562204|SUPERIORITY|||||||0.1041||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.1041
82427035|NCT02949011|164562204|SUPERIORITY|||||||0.3328||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||144 hours||||0.3328
82427036|NCT02949011|164562204|SUPERIORITY|||||||0.7867||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.7867
82427037|NCT02949011|164562204|SUPERIORITY|||||||0.864||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||168 hours||||0.8640
82427038|NCT02949011|164562204|SUPERIORITY|||||||0.6465||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.6465
82427039|NCT02949011|164562204|SUPERIORITY|||||||0.4265||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||192 hours||||0.4265
82427040|NCT02949011|164562204|SUPERIORITY|||||||0.6568||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.6568
82427041|NCT02949011|164562204|SUPERIORITY|||||||0.6102||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Mantel Haenszel|Mantel Haenszel test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||216 hours||||0.6102
82427042|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.0408|TWO_SIDED|95.0|-0.28|-0.01||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||12 hours||-0.01|-0.28|0.0408
82427043|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.5324|TWO_SIDED|95.0|-0.18|0.09||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||12 hours||0.09|-0.18|0.5324
82427044|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.06||0.0025|TWO_SIDED|95.0|-0.3|-0.06||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||24 hours||-0.06|-0.30|0.0025
82427045|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.4874|TWO_SIDED|95.0|-0.08|0.16||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||24 hours||0.16|-0.08|0.4874
82427046|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.47|-0.24||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||36 hours||-0.24|-0.47|<0.0001
82427047|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.5414|TWO_SIDED|95.0|-0.15|0.08||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||36 hours||0.08|-0.15|0.5414
82427048|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.44|-0.22||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||48 hours||-0.22|-0.44|<0.0001
82427049|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3185|TWO_SIDED|95.0|-0.17|0.05||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||48 hours||0.05|-0.17|0.3185
82427050|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.0025|TWO_SIDED|95.0|-0.26|-0.06||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||72 hours||-0.06|-0.26|0.0025
82427051|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8299|TWO_SIDED|95.0|-0.09|0.11||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||72 hours||0.11|-0.09|0.8299
82427052|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.0878|TWO_SIDED|95.0|-0.19|0.01||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||96 hours||0.01|-0.19|0.0878
82427053|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7498|TWO_SIDED|95.0|-0.09|0.12||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||96 hours||0.12|-0.09|0.7498
82427054|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.803|TWO_SIDED|95.0|-0.11|0.09||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||120 hours||0.09|-0.11|0.8030
82449255|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.97|||||TWO_SIDED|95.0|0.81|1.16||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.16|0.81|
82449256|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.25|0.87|
82449257|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.12|||||TWO_SIDED|95.0|0.94|1.33||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.33|0.94|
82449258|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.75|1.13||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.13|0.75|
82449259|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.02|||||TWO_SIDED|95.0|0.86|1.2||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.20|0.86|
82449260|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.17|0.78|
82449261|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.78|1.25||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.25|0.78|
82449262|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.83|1.16||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.16|0.83|
82449263|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.87|1.3||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.30|0.87|
82449264|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.8|1.24||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.24|0.80|
82449265|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.94|1.42||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.42|0.94|
82449266|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.82|1.33||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.33|0.82|
82652108|NCT02232074|165019450|SUPERIORITY||Median Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|1.29||0.33|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|Adjusting for baseline Distress Thermometer scores.||Compared to the control group, the Lung cancer INTERVENTION group will have less distress at 6 months post-enrollment||||0.33
82535543|NCT03682536|164769255|SUPERIORITY||Hazard Ratio (HR)|0.534||||0.0096|TWO_SIDED|95.0|0.33|0.864|||Log Rank||Calculated by Cox proportional hazard model|||0.864|0.330|0.0096
82427055|NCT02949011|164562205|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3577|TWO_SIDED|95.0|-0.05|0.15||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|ANCOVA|ANCOVA with baseline composite symptom score, preexisting and worsened symptom, region, and body temperature at baseline as covariates.||120 hours||0.15|-0.05|0.3577
82427056|NCT02949011|164562206|SUPERIORITY||Median Difference|-23.1||||0.0009||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Cough||||0.0009
82449267|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.98|||||TWO_SIDED|95.0|0.77|1.26||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.26|0.77|
82449268|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.82|1.29||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 1 to Lot 3) and 2-sided 95% CIs.||1.29|0.82|
82449269|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.06|||||TWO_SIDED|95.0|0.89|1.28||||||Serotype 1: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.28|0.89|
82449270|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.09|||||TWO_SIDED|95.0|0.95|1.24||||||Serotype 3: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.95|
82449271|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.85|1.27||||||Serotype 4: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.27|0.85|
82535544|NCT03682536|164769259|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0007|TWO_SIDED|95.0|1.4|3.8|||Cochran-Mantel-Haenszel|||||3.8|1.4|0.0007
82535545|NCT03682536|164769260|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.6|4.3|||Cochran-Mantel-Haenszel|||||4.3|1.6|<.0001
82535546|NCT05489224|164769270|EQUIVALENCE|Predefined margin: -0.6 to 0.5|Treatment difference and 90% CI|-0.1|||||TWO_SIDED|90.0|-0.3|0.1|||ANCOVA|ANCOVA with multiple imputation||||0.10|-0.30|
82535547|NCT02820051|164769293|SUPERIORITY|||||||0.281||||||threshold for statistical significance: \< 0.05|Wilcoxon (Mann-Whitney)|||The sample was calculated with alpha 0.05, beta 0.20, standard deviation of 7.3,8 minimum PtcCO2 difference to detect of 5 mmHg, loss to follow-up estimated 0.20, and two-tails. According to the above, the sample size was 42 patients per group.|We tested normal distribution with the Kolmogorov-Smirnov test. Data are shown as means and standard deviations for variables with normal distribution and as medians and interquartile ranges for non-normal variables. We used the t-test, the Mann-Whitney U-test, ANOVA, or chi-square as indicated. We defined a statistically significant difference as a P value \< 0.05. The analysis was performed using SPSS version 18.0 for Windows (SPSS Inc., Chicago, IL).|||0.281
82535548|NCT02820051|164769294|SUPERIORITY|We used the t-test, the Mann-Whitney U-test, ANOVA, or chi-square as indicated. We defined a statistically significant difference as a P value \< 0.05.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82577090|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.205||0.0143|TWO_SIDED|95.0|-0.91|-0.1|||MMRM|||Insomnia - Early, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.91|0.0143
82449272|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.41||||||Serotype 5: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.41|0.96|
82449273|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.13|||||TWO_SIDED|95.0|0.93|1.36||||||Serotype 6A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.36|0.93|
82449274|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.11|||||TWO_SIDED|95.0|0.93|1.33||||||Serotype 6B: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.33|0.93|
82449275|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.83|1.19||||||Serotype 7F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.19|0.83|
82449276|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.78|1.12||||||Serotype 9V: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.12|0.78|
82449277|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.24||||||Serotype 14: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.88|
82449278|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.86|1.29||||||Serotype 18C: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.29|0.86|
82449279|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.25||||||Serotype 19A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.25|0.91|
82535549|NCT02820051|164769295|SUPERIORITY|T test|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82535550|NCT01222247|164769303|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.8||||0.02|TWO_SIDED|95.0|0.66|0.97|||Chi-squared|||Analysis for Primary Outcome composite||0.97|0.66|0.02
82449280|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.96|||||TWO_SIDED|95.0|0.79|1.17||||||Serotype 19F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.17|0.79|
82652109|NCT02232074|165019451|SUPERIORITY||Median Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.07||0.68|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.68
82427057|NCT02949011|164562206|SUPERIORITY||Median Difference|-0.2||||0.4074||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Cough||||0.4074
82427058|NCT02949011|164562206|SUPERIORITY||Median Difference|-6.3||||0.2496||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Sore Throat||||0.2496
82427059|NCT02949011|164562206|SUPERIORITY||Median Difference|0.9||||0.2963||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Sore Throat||||0.2963
82427060|NCT02949011|164562206|SUPERIORITY||Median Difference|-10.6||||0.039||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Headache||||0.0390
82427061|NCT02949011|164562206|SUPERIORITY||Median Difference|2.0||||0.7877||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Headache||||0.7877
82427062|NCT02949011|164562206|SUPERIORITY||Median Difference|-12.1||||0.0017||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Nasal Congestion||||0.0017
82427063|NCT02949011|164562206|SUPERIORITY||Median Difference|1.5||||0.8119||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Nasal Congestion||||0.8119
82427064|NCT02949011|164562206|SUPERIORITY||Median Difference|-3.6||||0.007||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Feverishness or Chills||||0.0070
82449281|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.08|||||TWO_SIDED|95.0|0.85|1.37||||||Serotype 23F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.37|0.85|
82449282|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 8: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||0.98|0.70|
82449283|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.78|1.17||||||Serotype 10A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.17|0.78|
82449284|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.62|0.96||||||Serotype 11A: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||0.96|0.62|
82427065|NCT02949011|164562206|SUPERIORITY||Median Difference|-0.7||||0.9191||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Feverishness or Chills||||0.9191
82449285|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|1.07|||||TWO_SIDED|95.0|0.87|1.31||||||Serotype 12F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.31|0.87|
82449286|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.91|||||TWO_SIDED|95.0|0.71|1.15||||||Serotype 15B: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.15|0.71|
82449287|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.12||||||Serotype 22F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.12|0.69|
82427066|NCT02949011|164562206|SUPERIORITY||Median Difference|-7.7||||0.0232||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Muscle or Joint Pain||||0.0232
82427067|NCT02949011|164562206|SUPERIORITY||Median Difference|4.0||||0.5436||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Muscle or Joint Pain||||0.5436
82535551|NCT01222247|164769303|SUPERIORITY||Risk Ratio (RR)|0.77||||0.01|TWO_SIDED|95.0|0.63|0.95|||Chi-squared|||Analysis for CPAP or high-flow nasal cannula||0.95|0.63|0.01
82427068|NCT02949011|164562206|SUPERIORITY||Median Difference|-7.5||||0.0207||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Fatigue||||0.0207
82427069|NCT02949011|164562206|SUPERIORITY||Median Difference|-1.9||||0.371||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||Fatigue||||0.3710
82427070|NCT02949011|164562207|SUPERIORITY||Median Difference|-23.4||||0.4634||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.4634
82427071|NCT02949011|164562207|SUPERIORITY||Median Difference|-0.6||||0.6386||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Generalized Wilcoxon test|Peto-Prentice's generalized Wilcoxon test stratified by baseline composite symptom score, preexisting and worsened symptoms, and region.||||||0.6386
82427072|NCT02949011|164562208|SUPERIORITY|||||||0.0112||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||||||0.0112
82427073|NCT02949011|164562208|SUPERIORITY|||||||0.8478||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||||||0.8478
82427074|NCT02949011|164562209|SUPERIORITY||||||<|0.0001||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||<0.0001
82427075|NCT02949011|164562209|SUPERIORITY|||||||0.2558||||||The p value was not adjusted for multiplicity, testing was conducted at the two-sided significance level of 0.05.|Fisher Exact|||Any Complications||||0.2558
82427076|NCT03218917|164562230|SUPERIORITY||||||=|0.014||||||P-value is one-sided for superiority.|Stratified Log-rank test|Stratified by Pseudomonas aeruginosa (Pa) colonization status and maintenance antibiotic use at Baseline.||||||= 0.014
82427077|NCT03218917|164562230|SUPERIORITY||||||=|0.022||||||P-value is one-sided for superiority.|Stratified Log-rank test|Stratified by colonization status and maintenance antibiotic use at Baseline.||||||= 0.022
82427078|NCT01908140|164562235|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin=-0,055 L|Mean Difference (Final Values)|0.093|||<|0.001|TWO_SIDED|95.0|0.063|0.123|||MMRM|If non-inferiority on the PP was achieved then switch to superiority was tested on the ITT.||This sample size of 900 had 90% power to show that the lower bound of the two-sided 95% confidence interval for the difference between Aclidinium bromide 400 μg/Formoterol Fumarate 12 μg and SeretideTM AccuhalerTM (50/500 μg) in Peak FEV1 at 24 weeks is above -0,055 L||0.123|0.063|<0.001
82427079|NCT01908140|164562236|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority limit -0.5 units|Mean Difference (Final Values)|-0.001|||>|0.05|TWO_SIDED|95.0|-0.46|0.46|||MMRM|||The total sample size provided 81% nominal power to show that the lower bound of the two-sided 95 confidence interval for the difference between Aclidinium bromide 400 μg/Formoterol fumarate 12 μg and SeretideTM AccuhalerTM (50/500 μg) in transitional dyspnoea index (TDI) at 24 weeks is above -0,5||0.46|-0.46|>0.05
82449288|NCT03828617|164605570|EQUIVALENCE|Lots were considered equivalent if each of the pairwise 2-sided 95% CIs for the GMRs of OPA titers was contained in the interval (0.5, 2.0).|Geometric Mean Ratio|0.99|||||TWO_SIDED|95.0|0.79|1.24||||||Serotype 33F: GMRs (ratio of GMTs for 20vPnC Lot 2 to Lot 3) and 2-sided 95% CIs.||1.24|0.79|
82449289|NCT03121365|164605593|EQUIVALENCE|0.05||||||0.7635|TWO_SIDED|95.0|||||t-test, 2 sided|||Bayley Scales of Infant and Toddler Development Cognitive Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.7635
82427080|NCT00427193|164562243|OTHER||difference in mean change|0.02|STANDARD_DEVIATION|0.02||0.7|TWO_SIDED|95.0|-0.019|0.059||Type I error was controlled using a hierarchical gatekeeping strategy.|Mixed Models Analysis|||All analysis under intention-to-treat. All observations were included The primary analytic was a repeated measures analysis. The dependent variable was the change from baseline 12 \& 14mos., with treatment, time, and the treatment × time interaction as independent variables. Site, sex, BMI stratum, and the baseline value of the outcome were included as covariates. The predicted mean changes ± standard errors are the adjusted values from the contrasts of the multiple timepoints.||0.059|-0.019|0.70
82427081|NCT00427193|164562244|OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.84|TWO_SIDED|95.0|-0.0092|0.069|||Mixed Models Analysis|||||0.069|-0.0092|0.84
82427082|NCT00427193|164562245|OTHER||Mean Difference (Net)|-82.0|STANDARD_ERROR_OF_MEAN|11.12|<|0.001|TWO_SIDED|95.0|-103.8|-60.2|||Mixed Models Analysis|||||-60.2|-103.8|<0.001
82427083|NCT00427193|164562246|OTHER||Mean Difference (Final Values)|-64.0|STANDARD_DEVIATION|13.5|<|0.0001|TWO_SIDED|95.0|-90.5|-37.5|||Mixed Models Analysis|||||-37.5|-90.5|<0.0001
82427084|NCT00427193|164562247|OTHER||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.82|TWO_SIDED|95.0|-0.16|0.23|||Mixed Models Analysis|||||0.23|-0.16|0.82
82449290|NCT03121365|164605593|EQUIVALENCE|0.05||||||0.0996|||||||t-test, 2 sided|||Language Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.0996
82449291|NCT03121365|164605593|EQUIVALENCE|0.05||||||0.2291|||||||t-test, 2 sided|||Gross Motor Composite Scores between infants 12-18 months old in the Standard and Digital Arms||||.2291
82427085|NCT00427193|164562248|OTHER||Mean Difference (Net)|-5.9|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-6.5|-5.3|||Mixed Models Analysis|||Difference in change in Fat Mass between prescribed 25% Caloric Restriction (CR) and Ad Libitum (AL) at 12 and 24 months as measured by dual X-ray absorptiometry (DXA) using the Hologic 4500A, Delphi W or Discovery A, by a standardized protocol according to a standardized protocol. Fat Mass (FM) and Fat Free Mass (FFM) were determined for the whole body.||-5.3|-6.5|<0.001
82427086|NCT00427193|164562249|OTHER||Mean Difference (Net)|-5.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-6.4|-5.3|||Mixed Models Analysis|||Comparison of change in FM in 2 groups over at 24 mos, controlling for site, sex, BMI group, and baseline FM. A repeated measures Mixed Model was employed for the analysis. For any outcome, Type I error was controlled using a hierarchical gatekeeping strategy testing, first, the GroupXTime interaction, and, if non-significant, the main effects of these two factors. Bonferroni corrections were employed for non-significant effects. All tests were at p\<0.05||-5.3|-6.4|<0.0001
82427087|NCT02013609|164562259|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measure (MMRM) with model terms: Baseline, visit, and Baseline by visit interaction||The null hypothesis of zero in mean change from Baseline in MADRS total score at Week 12 was tested at significance level of 0.05. Since this is an exploratory trial, no methods to control type I error rate were performed.||||<0.0001
82427088|NCT02013609|164562260|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
82427089|NCT02013609|164562265|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction.||Statistical analysis at Week 12.||||<0.0001
82449292|NCT03121365|164605594|EQUIVALENCE|0.05||||||0.018|||||||t-test, 2 sided|||StimQ scores between infants 6 months of age and 9 months of age in the board book arm and e-book arm||||.0180
82427090|NCT02013609|164562266|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
82427091|NCT02013609|164562267|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The p-value is the same for each of single item sub-scores of tasks: work/ school, social life and family life/ home responsibilities|Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12 of single item sub-scores of tasks: work/ school, social life and family life/ home responsibilities||||<0.0001
82427092|NCT02013609|164562268|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
82427093|NCT02013609|164562269|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12||||<0.0001
82427094|NCT02013609|164562270|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12||||<0.0001
82427095|NCT02013609|164562271|SUPERIORITY_OR_OTHER|||||||0.3439|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for p-inhibition failures (Go cues)||||0.3439
82427096|NCT02013609|164562271|SUPERIORITY_OR_OTHER|||||||0.3385|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for p-inhibition failures (No-Go cues)||||0.3385
82427097|NCT02013609|164562272|SUPERIORITY_OR_OTHER|||||||0.2052|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for mean reaction time (Go cues)||||0.2052
82427098|NCT02013609|164562272|SUPERIORITY_OR_OTHER|||||||0.3224|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12 for mean reaction time (No-Go cues)||||0.3224
82427099|NCT02013609|164562273|SUPERIORITY_OR_OTHER|||||||0.3169|TWO_SIDED||||||t-test, 2 sided|p-value for change from Baseline using t-test.||Statistical analysis at Week 12||||0.3169
82427100|NCT02013609|164562274|SUPERIORITY_OR_OTHER|||||||0.3352|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12||||0.3352
82427101|NCT02013609|164562275|SUPERIORITY_OR_OTHER|||||||0.3517|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 for delay discounting task k value||||0.3517
82427102|NCT02013609|164562275|SUPERIORITY_OR_OTHER|||||||0.3799|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 for delay discounting task h value||||0.3799
82427103|NCT02013609|164562276|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for food)||||0.2610
82427104|NCT02013609|164562276|SUPERIORITY_OR_OTHER|||||||0.8138|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for money)||||0.8138
82427105|NCT02013609|164562277|SUPERIORITY_OR_OTHER|||||||0.8138|TWO_SIDED||||||t-test, 2 sided|||Statistical analysis at Week 12 (AUC for money)||||0.8138
82427106|NCT02013609|164562278|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|MMRM with model terms: Baseline, visit, and Baseline by visit interaction||Statistical analysis at Week 12.||||<0.0001
82427107|NCT01076010|164562288|OTHER||25% Quartile (months)|8.0|||||TWO_SIDED|95.0|4.4|12.9||||||||12.9|4.4|
82427108|NCT01076010|164562288|OTHER||50% Quartile (months)|15.2|||||TWO_SIDED|95.0|11.1||DR was only summarized for subjects who had an objective tumor response. Upper limit of confidence interval could not be determined.||||||||11.1|
82427109|NCT01076010|164562288|OTHER||25% Quartile (months)|12.9|||||TWO_SIDED|95.0|5.6||DR was only summarized for subjects who had an objective tumor response. Upper limit of confidence interval could not be determined.||||||||5.6|
82427110|NCT01076010|164562289|OTHER||25% Quartile (months)|3.6|||||TWO_SIDED|95.0|1.9|5.2||||||||5.2|1.9|
82427111|NCT01076010|164562289|OTHER||50% Quartile (months)|11.0|||||TWO_SIDED|95.0|7.3|12.7||||||||12.7|7.3|
82427112|NCT01076010|164562289|OTHER||75% Quartile (months)|20.9|||||TWO_SIDED|95.0|16.5||For the subjects in each treatment arm, PFS is calculated from the first dose date of the respective study drugs. Upper limit of confidence interval could not be determined.||||||||16.5|
82427113|NCT01076010|164562289|OTHER||25% Quartile (months)|7.2|||||TWO_SIDED|95.0|3.5|9.2||||||||9.2|3.5|
82427114|NCT01076010|164562290|OTHER||25% Quartile (months)|8.2|||||TWO_SIDED|95.0|6.0|12.1||||||||12.1|6.0|
82427115|NCT01076010|164562290|OTHER||50% Quartile (months)|21.6|||||TWO_SIDED|95.0|17.0|27.6||||||||27.6|17.0|
82427116|NCT01076010|164562290|OTHER||75% Quartile (months)|30.7|||||TWO_SIDED|95.0|28.8||For the subjects in each treatment arm, OS is calculated from the first dose date of the respective study drugs. Upper limit of confidence interval could not be determined.||||||||28.8|
82427117|NCT01918189|164562347|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the primary measure of pain interference (i.e., WHYMPI-Interference Scale) at 10 weeks post-baseline.||||||0.008||||||a priori threshold for statistical significance is p \<0.05|Regression, Logistic|||||||0.008
82427118|NCT01918189|164562348|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the primary measure of pain intensity at 10 weeks post-baseline.|Mean Difference (Final Values)|0.05||||0.27|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.27
82427119|NCT01918189|164562349|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of mood symptoms at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.02|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.02
82427120|NCT01918189|164562350|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of mood symptoms at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.48|TWO_SIDED|||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.48
82427121|NCT01918189|164562351|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of sleep at 10 weeks post-baseline.|Mean Difference (Net)|0.05||||0.18|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.18
82427122|NCT01918189|164562352|OTHER|Mixed models (using an unstructured correlation structure) regression over the baseline and 10-week post-baseline follow-up assessments were used to examine change in outcome measures for preliminary efficacy variables. The primary endpoint for the preliminary efficacy analyses is the mean difference in baseline to post-baseline follow-up scores on the measure of depression symptoms at 10 weeks post-baseline.|Mean Difference (Final Values)|0.05||||0.03|TWO_SIDED|95.0||||a priori threshold for statistical significance is p\<0.05|Regression, Logistic|||||||0.03
82427123|NCT01734902|164562363|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R (%)|86.97|STANDARD_ERROR_OF_MEAN|35.6|||TWO_SIDED|90.0|74.046|102.151|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.151|74.046|
82427124|NCT01734902|164562364|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R (%)|89.05|STANDARD_ERROR_OF_MEAN|31.2|||TWO_SIDED|90.0|77.26|102.62|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.62|77.26|
82535552|NCT01222247|164769303|SUPERIORITY||Risk Ratio (RR)|0.77||||0.17|TWO_SIDED|95.0|0.53|1.12|||Chi-squared|||Analysis for Fraction of inspired oxygen||1.12|0.53|0.17
82427125|NCT01734902|164562365|EQUIVALENCE|The statistical model, analysis of variance (ANOVA) on the logarithmic scale includes effects: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subject within sequences' was considered as random, whereas the other effects were considered as fixed.|Adjusted gMean ratio T/R [%]|90.03|STANDARD_ERROR_OF_MEAN|29.3|||TWO_SIDED|90.0|78.78|102.88|||||Standard error of the mean is actually intra-individual geometric coefficient variance \[%\]. Statistical analysis is based on PKS which includes 27 subjects.|||102.88|78.78|
82427126|NCT00758563|164562366|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.05
82427127|NCT00060944|164562367|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.734||||0.0302|TWO_SIDED|95.0|0.554|0.974|||Log Rank|||||0.974|0.554|0.0302
82535553|NCT01222247|164769303|SUPERIORITY||Risk Ratio (RR)|0.78||||0.26|TWO_SIDED|95.0|0.5|1.21|||Chi-squared|||Analysis for mechanical ventilation||1.21|0.50|0.26
82577091|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.204||0.2293|TWO_SIDED|95.0|-0.65|0.16|||MMRM|||Insomnia - Early, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.65|0.2293
82585963|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.0004||||||2M- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0004
82427128|NCT00060944|164562370|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.0418|TWO_SIDED|95.0|0.574|0.992|||Log Rank|||||0.992|0.574|0.0418
82427129|NCT00060944|164562371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.843||||0.192|TWO_SIDED|95.0|0.653|1.09|||Log Rank|||||1.090|0.653|0.1920
82427130|NCT02972996|164562429|OTHER|||||||0.56|||||||ANCOVA|||Values are least-squares means ± SEs (adjusted for the baseline values) from ANCOVA linear mixed model that included covariates of age, baseline (pretreatment values), BMI and weight.||||0.56
82427131|NCT02972996|164562430|OTHER|||||||0.03|||||||ANCOVA|||||||0.03
82427132|NCT02031302|164562487|OTHER|One-sided Clopper-Pearson 98.699% upper bound|||||<|0.0001||||||The proportion of patients who experience an event through 30 days post-procedure out of the patients who have either had an event within 30 days post-procedure or who were event-free with last follow-up at least 23 days post-procedure.|Chi-squared|||Note: the 95% CI is from Clopper-Pearson Exact Method. The analysis was only done for the Lotus valve arm as the Lotus with Depth Guard arm has not sufficient power for this statistical analysis.|One-sided Clopper-Pearson 98.699% upper bound: 4.11% Performance goal is 14%|||<.0001
82427133|NCT00833521|164562513|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|91.1||||||90.0|86.3|96.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.1|86.3|
82427134|NCT00833521|164562514|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.0||||||90.0|91.0|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|91.0|
82535554|NCT01222247|164769304|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.67|||<|0.001|TWO_SIDED|95.0|0.53|0.84|||Chi-squared|||||0.84|0.53|<0.001
82535555|NCT01222247|164769305|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.003|TWO_SIDED|95.0|0.66|0.92|||Chi-squared|||||0.92|0.66|0.003
82535556|NCT01222247|164769306|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.87||||0.36|TWO_SIDED|95.0|0.65|1.17|||Chi-squared|||||1.17|0.65|0.36
82427135|NCT00833521|164562515|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.8||||||90.0|90.7|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|90.7|
82449293|NCT03121365|164605594|EQUIVALENCE|0.05||||||0.4144|||||||t-test, 2 sided|||StimQ scores between infants 9 months of age and 12 months of age in the board book arm and e-book arm||||.4144
82449294|NCT03121365|164605594|EQUIVALENCE|0.05||||||0.4251|||||||t-test, 2 sided|||StimQ scores between infants 6 months of age and 12 months of age in the board book arm and e-book arm||||.4251
82652110|NCT02232074|165019452|SUPERIORITY||Median Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.26|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.26
82427136|NCT02293551|164562518|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Squares Mean|1.04||||0.2071|TWO_SIDED|90.0|0.988|1.1|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.10|0.988|0.2071
82427137|NCT02293551|164562518|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Square Means|1.11||||0.0005|TWO_SIDED|90.0|1.06|1.17|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.17|1.06|0.0005
82427138|NCT02293551|164562518|SUPERIORITY_OR_OTHER_LEGACY||Geometric of Ratio Least Square Means|1.08||||0.0123|TWO_SIDED|90.0|1.03|1.13|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.13|1.03|0.0123
82427139|NCT02293551|164562518|SUPERIORITY_OR_OTHER_LEGACY||Geometric Ratio of Least Square Means|1.07||||0.0331|TWO_SIDED|90.0|1.02|1.13|||Log Rank|Log (PK) model included treatment, period, and sequence group as fixed effects and participant as a random effect.||||1.13|1.02|0.0331
82427140|NCT02293551|164562518|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.11|||||TWO_SIDED|90.0|1.06|1.16|||||Dose proportionality and the degree of dose proportionality was assessed by fitting the power model versus dose. Estimated ratio of dose-normalized geometric means of PK parameters between the highest and lowest doses assessed dose proportionality.|||1.16|1.06|
82427141|NCT01542788|164562567|SUPERIORITY_OR_OTHER||Proportion difference|77.3|||<|0.001|TWO_SIDED|95.0|71.0|83.6||P-value is from the Cochran-Mantel-Haenszel test stratified by presence or absence of cirrhosis for the superiority of SOF+RBV over placebo.|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% confidence interval (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|A sample size of 180 subjects in the active group and 60 in the placebo group would provide 99% power to detect a difference between group SVR12 rates of 40% using a 2-sided continuity-corrected chi-square test at significance level of 0.05.||83.6|71.0|< 0.001
82449295|NCT03121365|164605595|SUPERIORITY|||||||0.235||||||Difference in Board Book Reading|Chi-squared|||||||0.235
82427142|NCT01542788|164562569|SUPERIORITY_OR_OTHER||Proportion difference|82.7|||||TWO_SIDED|95.0|76.8|88.5|||||The difference in proportions between treatment groups and associated 95% CI are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||88.5|76.8|
82427143|NCT01542788|164562570|SUPERIORITY_OR_OTHER||Proportion difference|77.3|||<|0.001|TWO_SIDED|95.0|71.0|83.6||P-value is from the Cochran-Mantel-Haenszel test stratified by randomization stratification factor for the superiority of SOF+RBV over placebo.|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% CI are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||83.6|71.0|< 0.001
82427144|NCT00542178|164562576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.003|TWO_SIDED|95.0|0.51|0.87|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 88% to detect a 15% relative reduction with intensive glycemic control as compared with standard glycemic control||0.87|0.51|0.003
82427145|NCT00542178|164562576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.29|TWO_SIDED|95.0|0.84|1.79|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 80% to detect a 20% relative reduction with intensive blood pressure control as compared with standard blood pressure control||1.79|0.84|0.29
82449296|NCT03121365|164605596|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82449297|NCT03121365|164605597|SUPERIORITY|||||||0.601|||||||Chi-squared|||||||0.601
82449298|NCT03121365|164605598|SUPERIORITY|||||||0.219|||||||Chi-squared|||||||0.219
82427146|NCT00542178|164562576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.006|TWO_SIDED|95.0|0.42|0.87|||Regression, Logistic|Comparisons made using likelihood-ratio tests from logistic-regression models with adjustment for same study-design factors used in ACCORD analysis||Our recruitment goal for the ACCORD Eye study was set in order to achieve a statistical power of 91% to detect a 20% relative reduction with lipid control with a statin and fenofibrate as compared with lipid control with a statin alone||0.87|0.42|0.006
82449299|NCT03121365|164605599|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82449300|NCT03121365|164605600|SUPERIORITY|||||||0.574|||||||Chi-squared|||||||0.574
82449301|NCT03121365|164605601|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.430
82449302|NCT03121365|164605602|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82449303|NCT03121365|164605603|SUPERIORITY|||||||0.861|||||||Chi-squared|||||||0.861
82449304|NCT00183625|164605647|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|95.0|||||Regression, Linear|||||||0.66
82449305|NCT00183625|164605648|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||The p-value listed is for the medication by time interaction.|Mixed Models Analysis|||Mixed effects regression of body mass index on medication group (risp or olanz), time (in days over first 18 months of study) and a group by time interaction with site and baseline timepoint indicators as covariates. The model included a random slope and intercept for time.||||.0176
82449306|NCT00820222|164605684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.36|TWO_SIDED|95.0|0.26|1.63|||Odds Ratio||The Odds Ratio is based on a logistic regression model. The P-value for the test of Odds Ratio is 1.|||1.63|0.26|0.360
82652111|NCT02232074|165019453|SUPERIORITY||Median Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|1.43||0.62|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||Compared to the control group, the Breast cancer INTERVENTION group will be more satisfied with patient navigation at 6 months post-enrollment||||0.62
82427147|NCT00542178|164562577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.997||||0.96|TWO_SIDED|95.0|0.901|1.104|||Regression, Cox|||||1.104|0.901|0.96
82427148|NCT00542178|164562577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.952||||0.5|TWO_SIDED|95.0|0.825|1.099|||Regression, Cox|||||1.099|0.825|0.50
82427149|NCT00542178|164562577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.08|TWO_SIDED|95.0|0.762|1.016|||Regression, Cox|||||1.016|0.762|0.08
82427150|NCT00542178|164562578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.884||||0.0355|TWO_SIDED|95.0|0.788|0.992|||Regression, Cox|||||0.992|0.788|0.0355
82449307|NCT00820222|164605685|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.021|TWO_SIDED|95.0|1.04|1.64|||Log Rank||A HR \> 1 indicates a higher risk for lapatinib+capecitabine compared with trastuzumab+capecitabine.|||1.64|1.04|0.021
82427151|NCT00542178|164562578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.891||||0.17|TWO_SIDED|95.0|0.755|1.051|||Regression, Cox|||||1.051|0.755|0.17
82427152|NCT00542178|164562578|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015||||0.86|TWO_SIDED|95.0|0.865|1.19|||Regression, Cox|||||1.190|0.865|0.86
82427153|NCT00542178|164562579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.069|TWO_SIDED|95.0|0.71|1.69|||Regression, Logistic|||||1.69|0.71|0.069
82427154|NCT00542178|164562579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.63|TWO_SIDED|95.0|0.44|1.63|||Regression, Logistic|||||1.63|0.44|0.63
82449308|NCT00820222|164605687|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.095|TWO_SIDED|95.0|0.95|1.9|||Log Rank||A HR \> 1 indicates a higher risk for lapatinib+capecitabine compared with trastuzumab+capecitabine.|||1.90|0.95|0.095
82449309|NCT00820222|164605688|SUPERIORITY||Odds Ratio (OR)|0.7984||||0.2731|TWO_SIDED|95.0|0.5407|1.1771|||Fisher Exact|||Comparison for Overall Response (CR+PR)||1.1771|0.5407|0.2731
82449310|NCT00820222|164605689|SUPERIORITY||Odds Ratio (OR)|0.9016||||0.6106|TWO_SIDED|95.0|0.6315|1.2866|||Fisher Exact|||Comparison for Clinical Benefit||1.2866|0.6315|0.6106
82449311|NCT01399866|164605699|SUPERIORITY|||||||0.574|||||||ANOVA|||||||0.574
82449312|NCT01399866|164605699|SUPERIORITY|||||||0.747|||||||ANOVA|||||||0.747
82449313|NCT01399866|164605700|SUPERIORITY|||||||0.94|||||||ANOVA|||||||0.94
82427155|NCT00542178|164562579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.78|TWO_SIDED|95.0|0.6|1.96|||Regression, Logistic|||||1.96|0.60|0.78
82427156|NCT00834197|164562585|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.59||||||90.0|95.76|105.65|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105.65|95.76|
82427157|NCT00834197|164562586|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.17||||||90.0|94.82|101.65|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.65|94.82|
82427158|NCT00834197|164562587|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.25||||||90.0|95.22|101.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.39|95.22|
82427159|NCT05270863|164562588|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<.001
82427160|NCT04712669|164562589|SUPERIORITY||Mean Difference (Final Values)|57.27|STANDARD_ERROR_OF_MEAN|24.773||0.0208|TWO_SIDED|95.0|8.716|105.824||LSM, SE, CIs for each treatment group; LSM Diff, SE, CIs, and p-value are estimated using an ANCOVA model incl. factors for treatment group and randomization strata with associated baseline value as a covariate.|ANCOVA|H0: The mean change from baseline in PVR at Week 24 is equal between placebo and rodatristat ethyl.||||105.824|8.716|0.0208
82427161|NCT04712669|164562589|SUPERIORITY||Mean Difference (Final Values)|58.406|STANDARD_ERROR_OF_MEAN|24.558||0.0174|TWO_SIDED|95.0|10.272|106.54||LSM, SE, CIs for each treatment group; LSM Diff, SE, CIs, and p-value are estimated using an ANCOVA model incl. factors for treatment group and randomization strata with associated baseline value as a covariate.|ANCOVA|H0: The mean change from baseline in PVR at Week 24 is equal between placebo and rodatristat ethyl.||||106.54|10.272|0.0174
82449314|NCT01399866|164605701|SUPERIORITY|||||||0.818|||||||ANOVA|||||||0.818
82427162|NCT04712669|164562590|SUPERIORITY|||||||0.573||||||P-value based on ordinal logistic regression with treatment group and randomization stratification strata as factors at alpha=0.05.|Regression, Logistic|H0: The distribution of change from baseline in WHO FC at Week 24 is equal between placebo and rodatristat ethyl.||||||0.573
82449315|NCT01399866|164605702|SUPERIORITY|||||||0.123|||||||ANOVA|||||||0.123
82449316|NCT01399866|164605703|SUPERIORITY|||||||0.473|||||||t-test, 2 sided|||||||0.473
82449317|NCT02332291|164605734|SUPERIORITY||Odds Ratio, log|0.8642|STANDARD_ERROR_OF_MEAN|0.475||0.0689|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|||Statistical analyses utilized a logistic regression model with remission status (defined as final MADRS \<= 7) as the dependent variable. The independent variable of interest was treatment arm assignment, and the model included age, sex, and baseline depression severity by MADRS as covariates.||||0.0689
82490009|NCT03572972|164672892|SUPERIORITY||Hazard Ratio (HR)|0.936|||||TWO_SIDED|95.0|0.801|1.094||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.094|0.801|
82490010|NCT03572972|164672893|SUPERIORITY||Hazard Ratio (HR)|0.373|||||TWO_SIDED|95.0|0.212|0.658|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.658|0.212|
82499597|NCT02782780|164689916|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|test of treatment effect: t(76.9)=-4.20||||||<0.001
82499598|NCT02782780|164689916|SUPERIORITY||||||<|0.001||||||Baseline vs. 6-month follow-up in CBTi group: t(33.1)=6.52|Mixed Models Analysis|Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.||||||<0.001
82499599|NCT02782780|164689917|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(75.6)=4.33||||||<0.001
82499600|NCT02782780|164689917|SUPERIORITY||||||<|0.001||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month follow-up in CBTi group: t(34.4)=4.75||||||<0.001
82376814|NCT00711880|164460304|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.28||||0.656|TWO_SIDED|95.0|-4.47|7.04|||ANCOVA|||The change in paced auditory serial addition task score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline paced auditory serial addition task test score as a covariate.||7.04|-4.47|0.656
82376815|NCT00711880|164460305|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.962|TWO_SIDED|95.0|-3.56|3.39|||ANCOVA|||The change in word list generation test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline word list generation test score as a covariate.||3.39|-3.56|0.962
82376816|NCT00711880|164460306|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|32.26|||<|0.001|TWO_SIDED|95.0|16.4|48.12|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups for each question, using Fisher's Exact Test.||48.12|16.40|<0.001
82376817|NCT00711880|164460308|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|29.03||||0.001||95.0|13.39|44.67|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups for each question, using Fisher's Exact Test.||44.67|13.39|0.001
82376818|NCT00704132|164460310|SUPERIORITY_OR_OTHER||Difference in Least-Squares Mean|-111.0|||<|0.001||95.0|-158.0|-63.9|||ANCOVA||Sitagliptin minus Placebo|||-63.9|-158.0|<0.001
82376819|NCT02585778|164460395|SUPERIORITY||LS Mean Difference|-47.8|||<|0.0001|TWO_SIDED|95.0|-60.7|-35.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-35.0|-60.7|<0.0001
82376820|NCT02585778|164460395|SUPERIORITY||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|95.0|-54.4|-43.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-43.6|-54.4|<0.0001
82376821|NCT02585778|164460397|SUPERIORITY||LS Mean Difference|-50.6|||<|0.0001|TWO_SIDED|95.0|-63.4|-37.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level. Hierarchical testing procedure was followed for T1DM and T2DM participants separately.||-37.9|-63.4|<0.0001
82376822|NCT02585778|164460397|SUPERIORITY||LS Mean Difference|-51.6|||<|0.0001|TWO_SIDED|95.0|-56.9|-46.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-46.4|-56.9|<0.0001
82376823|NCT02585778|164460398|SUPERIORITY||LS Mean Difference|-48.4|||<|0.0001|TWO_SIDED|95.0|-61.2|-35.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-35.5|-61.2|<0.0001
82376824|NCT02585778|164460398|SUPERIORITY||LS Mean Difference|-45.7|||<|0.0001|TWO_SIDED|95.0|-50.9|-40.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-40.4|-50.9|<0.0001
82376825|NCT02585778|164460399|SUPERIORITY||LS Mean Difference|-44.8|||<|0.0001|TWO_SIDED|95.0|-56.9|-32.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-32.8|-56.9|<0.0001
82376826|NCT02585778|164460399|SUPERIORITY||LS Mean Difference|-50.2|||<|0.0001|TWO_SIDED|95.0|-55.2|-45.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-45.3|-55.2|<0.0001
82376827|NCT02585778|164460400|SUPERIORITY||LS Mean Difference|-42.7|||<|0.0001|TWO_SIDED|95.0|-54.9|-30.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-30.5|-54.9|<0.0001
82376828|NCT02585778|164460400|SUPERIORITY||LS Mean Difference|-44.1|||<|0.0001|TWO_SIDED|95.0|-49.0|-39.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-39.2|-49.0|<0.0001
82376829|NCT02585778|164460401|SUPERIORITY||LS Mean Difference|-42.7|||<|0.0001|TWO_SIDED|95.0|-54.2|-31.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-31.3|-54.2|<0.0001
82427163|NCT04712669|164562590|SUPERIORITY|||||||0.9911||||||P-value based on ordinal logistic regression with treatment group and randomization stratification strata as factors at alpha=0.05.|Regression, Logistic|H0: The distribution of change from baseline in WHO FC at Week 24 is equal between placebo and rodatristat ethyl.||||||0.9911
82427164|NCT04712669|164562591|SUPERIORITY||Median Difference (Final Values)|-33.61|STANDARD_ERROR_OF_MEAN|18.121||0.0636|TWO_SIDED|95.0|-69.13|1.91||p-value (alpha=0.05) is estimated using the aligned rank stratified Wilcoxon test with the randomization stratification factors as strata.|Wilcoxon (Mann-Whitney)|H0: The distribution of change from baseline at Week 24 in 6MWT distance (meters) is equal between placebo and rodatristat ethyl.||||1.91|-69.13|0.0636
82427165|NCT04712669|164562591|SUPERIORITY||Median Difference (Final Values)|-19.05|STANDARD_ERROR_OF_MEAN|13.469||0.1573|TWO_SIDED|95.0|-45.45|7.35||p-value (alpha=0.05) is estimated using the aligned rank stratified Wilcoxon test with the randomization stratification factors as strata.|Wilcoxon (Mann-Whitney)|H0: The distribution of change from baseline at Week 24 in 6MWT distance (meters) is equal between placebo and rodatristat ethyl.||||7.35|-45.45|0.1573
82427166|NCT04712669|164562592|SUPERIORITY||Mean Difference (Final Values)|1125.9|STANDARD_ERROR_OF_MEAN|351.28||0.0014|TWO_SIDED|95.0|437.39|1814.39|||Mixed Models Analysis|H0: The mean change from baseline at Week 24 in NT-proBNP is equal between placebo and rodatristat ethyl.|Estimates from a REML MMRM with baseline covariate, fixed effects, and unstructured covariance.|||1814.39|437.39|0.0014
82427167|NCT04712669|164562592|SUPERIORITY||Mean Difference (Final Values)|866.3|STANDARD_ERROR_OF_MEAN|306.56||0.0047|TWO_SIDED|95.0|265.41|1467.16|||Mixed Models Analysis|H0: The mean change from baseline at Week 24 in NT-proBNP is equal between placebo and rodatristat ethyl.|Estimates from a REML MMRM with baseline covariate, fixed effects, and unstructured covariance.|||1467.16|265.41|0.0047
82427168|NCT04066829|164562597|OTHER||Difference in Differences|-29.2|||||TWO_SIDED|95.0|-42.2|-11.8||||||Pre and post difference in the treatment group as compared to the control group. A log transformation was used.||-11.8|-42.2|
82449318|NCT02332291|164605735|SUPERIORITY||Slope, fixed effect|-1.066|STANDARD_ERROR_OF_MEAN|0.264||0.0001|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|344 degrees of freedom||Statistical analyses utilized mixed model. MADRS score was the repeated measures dependent variable. Independent variables included time, age, sex, and treatment assignment. The primary variable of interest for this analysis was an interaction term between time and treatment assignment. A statistically significant interaction term would indicate that one treatment arm experienced a greater change in MADRS score over time than the other treatment arm.||||0.0001
82449319|NCT02332291|164605736|SUPERIORITY||Slope, fixed effects|-0.3117|STANDARD_ERROR_OF_MEAN|0.1566||0.0483|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|150 degrees of freedom||Statistical analyses utilized mixed models, with QIDS score being the repeated measures dependent variable. Independent variables included time, age, sex, and treatment assignment. The primary variable of interest was an interaction term between time and treatment assignment.||||0.0483
82449320|NCT02332291|164605737|OTHER|Analyses tested for effects of time in this one-arm, open-label study phase.|Slope, fixed effect|-1.186|STANDARD_ERROR_OF_MEAN|0.181|<|0.0001|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|128 degrees of freedom||Statistical analyses utilized mixed models, with MADRS score being the repeated measures dependent variable. Independent variables included time, age, and sex. The primary variable of interest was time, to indicate a change in depression severity over time with open-label treatment.||||<0.0001
82449321|NCT02332291|164605738|OTHER|Analyses tested for effects of time in this one-arm, open-label study phase.|Slope, fixed effects|-0.2342|STANDARD_ERROR_OF_MEAN|0.0908||0.0123|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Mixed Models Analysis|61 degrees of freedom||Statistical analyses utilized mixed models, with QIDS score being the repeated measures dependent variable. Independent variables included time, age, and sex. The primary variable of interest was time, to indicate a change in depression severity over time with open-label treatment.||||0.0123
82535557|NCT01222247|164769307|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.68||||0.002|TWO_SIDED|95.0|0.53|0.87|||Chi-squared|||||0.87|0.53|0.002
82535558|NCT01222247|164769308|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.57|TWO_SIDED|95.0|0.55|1.39|||Chi-squared|||||1.39|0.55|0.57
82535559|NCT01222247|164769309|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.22||||0.04|TWO_SIDED|95.0|0.02|0.92|||Chi-squared|||||0.92|0.02|0.04
82535560|NCT01222247|164769310|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.45||||0.1|TWO_SIDED|95.0|0.17|1.19|||Chi-squared|||||1.19|0.17|0.10
82427169|NCT00163293|164562622|SUPERIORITY_OR_OTHER|||||||0.6625||95.0|||||Log Rank|||||||0.6625
82427170|NCT00163293|164562622|SUPERIORITY_OR_OTHER|||||||0.7303||95.0|||||Log Rank|||||||0.7303
82427171|NCT00163293|164562623|SUPERIORITY_OR_OTHER|||||||0.1291||95.0|||||Wald Chi-square|zero inflated Poisson model: adjustment for centre and age \[yrs\] (zero model), treatment and race (Poisson model)||||||0.1291
82427172|NCT00163293|164562623|SUPERIORITY_OR_OTHER|||||||0.0145||95.0|||||Wald Chi-square|zero inflated Poisson model: adjustment for centre and age \[yrs\] (zero model), treatment and race (Poisson model)||||||0.0145
82427173|NCT00163293|164562625|SUPERIORITY_OR_OTHER|||||||0.4754|||||||Kruskal-Wallis|||||||0.4754
82427174|NCT00163293|164562625|SUPERIORITY_OR_OTHER|||||||0.6844|||||||Kruskal-Wallis|||||||0.6844
82427175|NCT00269113|164562675|SUPERIORITY_OR_OTHER||Difference in percentage of participants|17.4||||0.0009|TWO_SIDED|95.0|6.4|28.4|||Fisher Exact|||||28.4|6.4|0.0009
82427176|NCT00269113|164562676|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82427177|NCT00269113|164562677|SUPERIORITY_OR_OTHER|||||||0.0127|||||||Log Rank|||||||0.0127
82427178|NCT00269113|164562678|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82427179|NCT00269113|164562679|SUPERIORITY_OR_OTHER|||||||0.0186|||||||Log Rank|||||||0.0186
82427180|NCT00269113|164562680|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Log Rank|||||||0.0002
82427181|NCT00269113|164562681|SUPERIORITY_OR_OTHER|||||||0.0017|||||||Log Rank|||||||0.0017
82427182|NCT02122380|164562702|SUPERIORITY|||||||0.918|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of mean growth hormone (GH) levels between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided). A sample size of 16 participants was needed to provide 93% power to detect a difference in GH means of 0.5 mcg/L.||||0.918
82427183|NCT02122380|164562703|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in change of early insulin secretion between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided).||||0.054
82427184|NCT02122380|164562704|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in blood glucose levels between sitagliptin and placebo. The test was performed with a significance level of 0.05 (two sided).||||0.009
82427185|NCT02122380|164562705|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in the mass of visceral adipose tissue after sitagliptin vs. placebo. The test was performed with a significance level of 0.05 (two sided).||||0.022
82427186|NCT02122380|164562706|SUPERIORITY|||||||0.943|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in vascular function between sitagliptin and placebo treatments. The test was performed with a significance level of 0.05 (two sided).||||0.943
82449322|NCT02332291|164605739|SUPERIORITY||Slope|-0.636|STANDARD_ERROR_OF_MEAN|1.924||0.742|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Regression, Linear|||Statistical analyses used a linear model. Final AES score at week 8 was the dependent variable. Independent variables included age, sex, baseline AES score, baseline MADRS score, and treatment assignment. Treatment assignment was the independent variable of interest.||||0.742
82449323|NCT02332291|164605740|SUPERIORITY||Slope|-5.4705|STANDARD_ERROR_OF_MEAN|2.352||0.0232|TWO_SIDED|||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was p \< 0.05.|Regression, Linear|||Statistical analyses used a linear regression model. Final RRS score at week 8 was the dependent variable. Independent variables included age, sex, baseline RRS score, baseline MADRS score, and treatment assignment. Treatment assignment was the independent variable of interest.||||0.0232
82449324|NCT03036189|164605741|SUPERIORITY||Slope|-0.15||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
82449325|NCT03036189|164605742|SUPERIORITY||Slope|0.42||||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
82449326|NCT03036189|164605743|SUPERIORITY||Slope|0.12||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
82449327|NCT03036189|164605744|SUPERIORITY||Slope|0.37||||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
82449328|NCT03036189|164605745|SUPERIORITY||Slope|-0.4||||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
82449329|NCT03036189|164605746|SUPERIORITY||Slope|0.49||||0.6|TWO_SIDED||||||Mixed Models Analysis|||||||0.60
82449330|NCT03036189|164605747|SUPERIORITY||Slope|-0.03||||0.97|TWO_SIDED||||||Mixed Models Analysis|||||||0.97
82449331|NCT03036189|164605748|SUPERIORITY||Slope|0.45||||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
82427187|NCT03376516|164562746|OTHER|||||||0.9593||||||P-Value for patients aged 1-\<6 years (N=5)|ANOVA|||||||0.9593
82427188|NCT03376516|164562746|OTHER|||||||0.3752||||||P-Value for patients aged 6-\<12 years (N=5)|ANOVA|||||||0.3752
82427189|NCT03376516|164562746|OTHER|||||||0.8273||||||P-Value for total PK population (N=10)|ANOVA|||||||0.8273
82427190|NCT03376516|164562747|OTHER|P-Value for patients aged 1-\<6 years (N=5)||||||0.8536|||||||ANOVA|||||||0.8536
82427191|NCT03376516|164562747|OTHER|||||||0.9791||||||P-Value for patients aged 6-\<12 years (N=5)|ANOVA|||||||0.9791
82449332|NCT03036189|164605749|SUPERIORITY||Slope|0.25||||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
82449333|NCT03036189|164605750|SUPERIORITY||Slope|0.54|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<.05
82449334|NCT03036189|164605751|SUPERIORITY||Slope|1.99||||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
82449335|NCT03036189|164605752|SUPERIORITY||Slope|1.05||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
82449336|NCT03036189|164605753|SUPERIORITY||Slope|2.0||||0.84|TWO_SIDED||||||Mixed Models Analysis|||||||0.84
82449337|NCT03036189|164605754|SUPERIORITY||Slope|-23.01||||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
82535561|NCT01222247|164769311|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.59||||0.03|TWO_SIDED|95.0|0.37|0.96|||Chi-squared|||||0.96|0.37|0.03
82427192|NCT03376516|164562747|OTHER|||||||0.9791||||||P-Value for total PK population (N=10)|ANOVA|||||||0.9791
82427193|NCT03376516|164562749|OTHER||Pearson-Copper|0.0|||||TWO_SIDED|95.0|0.0|30.85||||||||30.85|0|
82427194|NCT01128569|164562759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||||TWO_SIDED|95.0|0.087|0.237||||||||0.237|0.087|
82427195|NCT01128569|164562759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||||TWO_SIDED|95.0|0.069|0.222||||||||0.222|0.069|
82427196|NCT01128569|164562759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|||||TWO_SIDED|95.0|-0.091|0.057||||||||0.057|-0.091|
82449338|NCT02828020|164605755|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0023|TWO_SIDED|95.0|1.25|2.66||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.66|1.25|0.0023
82449339|NCT02828020|164605755|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0003|TWO_SIDED|95.0|1.41|2.95||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.95|1.41|0.0003
82449340|NCT02828020|164605756|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0023|TWO_SIDED|95.0|1.27|2.28||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.28|1.27|0.0023
82449341|NCT02828020|164605756|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0023|TWO_SIDED|95.0|1.22|2.17||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, underlying symptom as explanatory variables.||||2.17|1.22|0.0023
82449342|NCT02828020|164605757|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0023|TWO_SIDED|95.0|1.28|2.23||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.23|1.28|0.0023
82535562|NCT01222247|164769312|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.78||||0.004|TWO_SIDED|95.0|0.66|0.93|||Chi-squared|||||0.93|0.66|0.004
82449343|NCT02828020|164605757|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0023|TWO_SIDED|95.0|1.28|2.21||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.21|1.28|0.0023
82648174|NCT01864525|165011771|SUPERIORITY|||||||0.0499||||||Statistical results for Magnitude of acoustic amplitude tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test used the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0499
82648175|NCT01864525|165011771|SUPERIORITY|||||||0.0339||||||Statistical results for Magnitude of acoustic frequency tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test did not use the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0339
82648176|NCT01864525|165011771|SUPERIORITY|||||||0.045||||||Statistical results for Magnitude of acoustic frequency tremor. A priori significance threshold was set at P\<0.05 for each of the two hypothesis-driven acoustic variables.|Mixed Models Analysis|This statistical test used the baseline scores as a covariate when comparing post-test scores between placebo and octanoic acid conditions.||Separate measures for magnitude of amplitude tremor and magnitude of frequency tremor were analyzed as these variables can respond differently to treatment and may be differentially affected in essential voice tremor. Statistical modeling tested for post-treatment drug differences, with testing session as a repeated factor. Models were run with and without inclusion of baseline averages as a covariate per recommendations for cross-over treatment studies (Fleiss, Wallenstein \& Rosenfeld, 1985).||||0.0450
82648177|NCT01864525|165011772|SUPERIORITY|||||||0.7172||||||A priori significance was set at P\<0.05 for this hypothesis-driven auditory-perceptual variable. Main effect for drug is given above. For the main task effect, P=0.9602. For the interaction effect of drug\*task, P=0.1699.|Mixed Models Analysis|||Statistical modeling tested for main effects of auditory-perceptual ratings for drug and task (sustained vowel and sentence-level ratings), and interaction effects of these variables. The summed scores, averaged across all participants, are provided separately for the sustained vowel and sentence-level ratings. Values range from 0 (no difference between baseline and post-test) to 3 (all three raters indicated that post-test sample was better (less tremor severity).||||0.7172
82648178|NCT01890785|165011773|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.708|||||TWO_SIDED|90.0|0.655|0.766||||||||0.766|0.655|
82648179|NCT01890785|165011773|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.918|||||TWO_SIDED|90.0|0.849|0.992||||||||0.992|0.849|
82648180|NCT01890785|165011774|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.641|||||TWO_SIDED|90.0|0.582|0.707||||||||0.707|0.582|
82648181|NCT01890785|165011774|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.828|||||TWO_SIDED|90.0|0.752|0.912||||||||0.912|0.752|
82449344|NCT02828020|164605758|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0023|TWO_SIDED|95.0|1.65|3.07||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||3.07|1.65|0.0023
82449345|NCT02828020|164605758|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0023|TWO_SIDED|95.0|1.77|3.24||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||3.24|1.77|0.0023
82449346|NCT02828020|164605759|SUPERIORITY||Odds Ratio (OR)|1.57||||0.0577|TWO_SIDED|95.0|1.01|2.44||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.44|1.01|0.0577
82449347|NCT02828020|164605759|SUPERIORITY||Odds Ratio (OR)|1.95||||0.0037|TWO_SIDED|95.0|1.28|2.97||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, medication use for migraine prevention, baseline headache severity were explanatory variables in model.||||2.97|1.28|0.0037
82449348|NCT02828020|164605760|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0577|TWO_SIDED|95.0|1.22|2.19||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.19|1.22|0.0577
82535563|NCT01222247|164769313|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.82||||0.74|TWO_SIDED|95.0|0.25|2.68|||Chi-squared|||||2.68|0.25|0.74
82535564|NCT01222247|164769314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Chi-squared|||||||0.50
82648182|NCT01890785|165011775|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.97|||||TWO_SIDED|90.0|0.937|1.004||||||||1.004|0.937|
82648183|NCT01890785|165011775|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.944|||||TWO_SIDED|90.0|0.912|0.977||||||||0.977|0.912|
82648184|NCT01890785|165011776|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.971|||||TWO_SIDED|90.0|0.945|0.998||||||||0.998|0.945|
82648185|NCT01890785|165011776|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric least squares means|0.97|||||TWO_SIDED|90.0|0.944|0.997||||||||0.997|0.944|
82648186|NCT00065065|165011778|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0||||0.005||95.0|1.5|10.5|||Regression, Logistic|||||10.5|1.5|.005
82427197|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|-0.21||||0.92|TWO_SIDED|95.0|-4.48|4.05|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for FACT-B 3 month Total Score||4.05|-4.48|0.92
82427198|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|1.37||||0.57|TWO_SIDED|95.0|-3.41|6.15|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for FACT-B 6 month Total Score||6.15|-3.41|0.57
82427199|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|1.18||||0.62|TWO_SIDED|95.0|-3.54|5.89|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is for the Fact-B 12 month Total Score||5.89|-3.54|0.62
82427200|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|0.12||||0.83|TWO_SIDED|95.0|-0.99|1.23|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Physical Well-Being Subscale||1.23|-0.99|0.83
82652112|NCT02232074|165019454|SUPERIORITY||Median Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.91||0.69|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||Compared to the control group, the Lung cancer INTERVENTION group will be more satisfied with patient navigation at 6 months post-enrollment||||0.69
82427201|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.15||||0.82|TWO_SIDED|95.0|-1.15|1.45|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for the Fact-B 6 month Physical Well-Being Subscale||1.45|-1.15|0.82
82449349|NCT02828020|164605760|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0037|TWO_SIDED|95.0|1.36|2.42||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, photophobia were explanatory variables.||||2.42|1.36|0.0037
82449350|NCT02828020|164605761|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0577|TWO_SIDED|95.0|1.16|2.09||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||2.09|1.16|0.0577
82449351|NCT02828020|164605761|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0577|TWO_SIDED|95.0|1.1|1.95||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, phonophobia were explanatory variables.||||1.95|1.10|0.0577
82449352|NCT02828020|164605762|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0962|TWO_SIDED|95.0|0.96|1.79||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.79|0.96|0.0962
82449353|NCT02828020|164605762|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0962|TWO_SIDED|95.0|1.0|1.83||P-value was adjusted for multiple comparisons across primary and secondary endpoints and multiple doses.|Regression, Logistic|Treatment group, historical triptan response, migraine prevention medication, baseline headache severity, nausea were explanatory variables.||||1.83|1.00|0.0962
82449354|NCT02713659|164605945|EQUIVALENCE|0.05||||||0.85|||||||t-test, 2 sided|||Auditory standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.85
82449355|NCT02713659|164605945|EQUIVALENCE|0.05||||||0.53|||||||t-test, 2 sided|||Expressive standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.53
82449356|NCT02713659|164605945|EQUIVALENCE|0.05||||||0.49|||||||t-test, 2 sided|||Total standard score between infants at 6 months and 24 months of age in the Early literacy arm and the standard literacy arm||||0.49
82427202|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.13||||0.84|TWO_SIDED|95.0|-1.41|1.15|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||Data below is for the Fact-B 12 month Physical Well-Being Subscale||1.15|-1.41|0.84
82449357|NCT02713659|164605946|EQUIVALENCE|0.05||||||0.57|||||||t-test, 2 sided|||Total read scale score between infants at 6 months and 24 months of age in the early literacy arm and the standard literacy arm||||0.57
82449358|NCT02713659|164605947|EQUIVALENCE|0.05||||||0.23|||||||Chi-squared|||Number of up to date child well visits between the early literacy arm and the standard literacy arm at 6 months of age||||0.23
82449359|NCT02713659|164605947|EQUIVALENCE|0.05||||||0.71|||||||Chi-squared|||Number of up to date child vaccinations between the early literacy arm and the standard literacy arm at 6 months of age||||0.71
82449360|NCT00223704|164605948|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||This P-value is for the main comparison of receiving any transfusion.|Chi-squared|||||||0.72
82449361|NCT00223704|164605949|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.88
82449362|NCT00223704|164605950|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.43
82535565|NCT01222247|164769315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82535566|NCT01222247|164769316|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14||||0.13|TWO_SIDED|95.0|0.96|1.34|||Chi-squared|||||1.34|0.96|0.13
82427203|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.17||||0.77|TWO_SIDED|95.0|-1.31|0.96|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Social/Family Well-Being Subscale||0.96|-1.31|0.77
82427204|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.56||||0.42|TWO_SIDED|95.0|-1.91|0.79|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 6 month Social/Family Well-Being Subscale||0.79|-1.91|0.42
82427205|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.08||||0.9|TWO_SIDED|95.0|-1.41|1.24|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Social/Family Well-Being Subscale||1.24|-1.41|0.90
82577092|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.0884|TWO_SIDED|95.0|-0.74|0.05|||MMRM|||Insomnia - Early, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.74|0.0884
82427206|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.05||||0.9|TWO_SIDED|95.0|-0.76|0.87|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Emotional Well-Being Subscale||0.87|-0.76|0.90
82449363|NCT00223704|164605951|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||The P-value reflects the difference in Interleukin-6 concentrations among the 3 treatment groups over the course of the study (baseline, post-bypass, postoperative day 1 and 2)|Mixed Models Analysis|||The time course for Interleukin-6 concentrations were analyzed using mixed-effects models with fixed effects of drug treatment (placebo, aminocaproic acid, HOE 140) and time since randomization. We included a random subject effect and a first-order autoregressive process to account for the correlation in the response variable in the mixed-effects model||||0.92
82449364|NCT00223704|164605952|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value reflects the difference in D-dimer concentrations among the 3 treatment groups over the course of the study (baseline, 30min, 60min, post-bypass, and postoperative day 1)|Mixed Models Analysis|||The time course for D-dimer concentrations were analyzed using mixed-effects models with fixed effects of drug treatment (placebo, aminocaproic acid, HOE 140) and time since randomization. We included a random subject effect and a first-order autoregressive process to account for the correlation in the response variable in the mixed-effects model||||<0.001
82449365|NCT01854281|164605960|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||null hypothesis: there is no difference in the occurence of arterial bubbles after simulated dive between closure and PFO groups.||||0.02
82449366|NCT01854281|164605960|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Fisher Exact|||null hypothesis: there is no difference in the occurence of arterial bubbles after simulated dive between closure and PFO groups.||||<0.01
82449367|NCT00238238|164605982|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher Exact|||||||0.29
82449368|NCT00238238|164605983|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|||||||0.002
82648187|NCT03567239|165011834|OTHER|"The PIADS is broken into 3 subgroups - Competence, Adaptability, and Self-Esteem. The minimum possible score is -3 and the maximum possible score is 3 for each subgroup - with positive 3 being the best. The 7-Point Likert scale was used in response to the question The device provided increased my ability to … in relation to the custom need they had. A response of 1 = Strongly disagree and 7 = strongly agree."|||||||||||||||||Median values: Overall = 2.42, Competence = 2.58, Adaptability = 2.33, Self-Esteem = 2.00, Likert = 7|||
82449369|NCT01007838|164605984|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Statistical significance was accepted if p \< 0.05.|ANCOVA|||Omnibus ANCOVA. An interaction would suggests patients responded to exercise differently than controls||||0.30
82648188|NCT03567239|165011835|OTHER|||||||||||||||||The NASA Task Load Index ranges from 1 to 21 with the lower the score the better.|Median vales: Overall = 4.83, Mental demand = 11, Physical demand = 4, Temporal demand = 6, Performance = 3, Effort = 3, Frustration = 5.|||
82449370|NCT01007838|164605984|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||Statistical significance was accepted if p \< 0.05.|ANOVA|||Follow up ANOVA in chronic kideny disease patients only. An interaction would suggest patients allocated to the resistance exercise group increased muscle size more than those allocated to the sham exercise group.||||0.0017
82449371|NCT01007838|164605984|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||Statistical sigficance was accepted if p \< 0.05.|ANOVA|||Follow up ANOVA in healthy controls only. An interaction would suggest healthy controls allocated to the resistance exercise group increased muscle size more than those allocated to the sham exercise group.||||0.024
82449372|NCT04978818|164605987|NON_INFERIORITY|The anti-PRP IgG GMC for children receiving dose 1 of Vaxelis® was defined a priori as non-inferior if it was within a 1.5-fold margin of the GMC for children receiving dose 1 of PedvaxHIB®, corresponding to the lower bound of the 95% confidence interval (CI) of the IgG GMC ratio (Vaxelis® to PedvaxHIB®) being greater than 0.67.|Ratio of Geometric Mean Concentration|1.03||||0.85|TWO_SIDED|95.0|0.75|1.41|||Constrained Longitudinal Analysis||The lower bound of the 95% confidence interval was greater than the pre-specified non-inferiority margin of 0.67. Thus, Vaxelis® post-dose 1 anti-PRP IgG immunogenicity met the non-inferiority criterion compared to PedvaxHIB®.|||1.41|0.75|0.85
82449373|NCT04978818|164605988|OTHER|||||||0.39|||||||Chi-squared|||||||0.39
82449374|NCT04978818|164605989|OTHER|||||||0.64|||||||Chi-squared|||||||0.64
82449375|NCT04978818|164605990|OTHER|||||||0.87|||||||Chi-squared|||||||0.87
82449376|NCT04978818|164605991|OTHER|||||||0.3|||||||Chi-squared|||||||0.3
82376830|NCT02585778|164460401|SUPERIORITY||LS Mean Difference|-38.7|||<|0.0001|TWO_SIDED|95.0|-43.4|-33.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-33.9|-43.4|<0.0001
82449377|NCT04978818|164605992|OTHER|||||||0.15|||||||Chi-squared|||||||0.15
82449378|NCT04978818|164605993|OTHER|||||||0.03|||||||Chi-squared|||||||0.03
82449379|NCT00061633|164606016|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was selected on the basis of clinical judgment and was deemed adequate to provide clinically meaningful descriptive results consistent with study objectives. This sample size was estimated to provide 39% power to test televancin's non-inferiority to vancomycin with respect to clinical response using a non-inferiority margin of 10%.||||||0.5289|||||||2-sided 95% confidence interval|||95% Confidence Interval: -0.1349 to 0.0485 No est. value. Parameter that was estimated: Risk Difference||||0.5289
82449380|NCT01370265|164606017|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||Statistical analysis for hyperemic global MBF between Regadenoson and Adenosine groups (per intervention), alpha level of 0.05.||||0.14
82449381|NCT01370265|164606019|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||Statistical analysis for Cardiac Flow Rate (CFR) between Regadenoson and Adenosine groups (per intervention), alpha level of 0.05||||0.21
82449382|NCT01370265|164606020|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention), for Hyperemic MBF Anterior, alpha level of 0.05.||||0.57
82449383|NCT01370265|164606020|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for Hyperemic MBF Septum, alpha level of 0.05.||||0.13
82449384|NCT01370265|164606020|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention)for Hyperemic MBF Inferior, alpha level of 0.05.||||0.44
82449385|NCT01370265|164606020|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for Hyperemic MBF Lateral, alpha level of 0.05.||||0.74
82449386|NCT01370265|164606021|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention for CFR Anterior, alpha level of 0.05.||||0.78
82449387|NCT01370265|164606021|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for CFR Septum, alpha level of 0.05||||0.42
82449388|NCT01370265|164606021|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention for CFR Inferior, alpha level of 0.05||||0.96
82449389|NCT01370265|164606021|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for CFR Lateral, alpha level of 0.05.||||0.13
82449390|NCT01370265|164606022|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for resting heart rate, alpha level of 0.05.||||0.28
82449391|NCT01370265|164606022|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for hyperemic heart rate, alpha level of 0.05.||||0.51
82449392|NCT01370265|164606023|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for systolic blood pressure, alpha level of 0.05.||||0.31
82449393|NCT01370265|164606023|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||Statistical analysis comparing Regadenoson and Adenosine groups (per intervention) for diastolic blood pressure, alpha level of 0.05.||||0.08
82449394|NCT02611817|164606024|SUPERIORITY||Clopper-Pearson method|13.7||||0.008|TWO_SIDED|95.0|3.8|23.7|||Cochran-Mantel-Haenszel|||P-value was calculated by Cochran-Mantel-Haenszel (CMH) test stratified by electronic data capture (EDC) stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||23.7|3.8|0.008
82449395|NCT02611817|164606025|SUPERIORITY||Clopper-Pearson method|7.3||||0.167|TWO_SIDED|95.0|-3.0|17.5|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||17.5|-3.0|0.167
82449396|NCT02611817|164606026|SUPERIORITY||Clopper-Pearson method|27.1||||0.002|TWO_SIDED|95.0|11.9|42.3|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||42.3|11.9|0.002
82449397|NCT02611817|164606027|SUPERIORITY||Clopper-Pearson method|4.3||||0.591|TWO_SIDED|95.0|-11.6|20.3|||Cochran-Mantel-Haenszel|||P-value was calculated by CMH test stratified by EDC stratum according to concomitant use of corticosteroids, clinical remission status at Week 6, and previous TNF-alpha antagonist failure/exposed or concomitant immunomodulator use.||20.3|-11.6|0.591
82535567|NCT01222247|164769317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||Chi-squared|||||||0.10
82535568|NCT01222247|164769319|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.8||||0.62|TWO_SIDED|95.0|0.33|1.93|||Chi-squared|||||1.93|0.33|0.62
82535569|NCT01222247|164769321|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88||||0.4|TWO_SIDED|95.0|0.66|1.18|||Chi-squared|||||1.18|0.66|0.40
82535570|NCT01222247|164769322|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.6|||<|0.001|TWO_SIDED|95.0|1.37|1.87|||Chi-squared|||||1.87|1.37|<0.001
82535571|NCT01222247|164769323|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82535572|NCT01222247|164769324|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93||||0.4|TWO_SIDED|95.0|0.78|1.1|||Chi-squared|||||1.10|0.78|0.40
82535573|NCT01222247|164769325|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.4|||Chi-squared|||||1.40|0.95|0.15
82535574|NCT01222247|164769326|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.16||||0.24|TWO_SIDED|95.0|0.91|1.47|||Chi-squared|||||1.47|0.91|0.24
82427207|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.58||||0.25|TWO_SIDED|95.0|-0.4|1.56|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact B 6 month Emotional Well-Being Subscale||1.56|-0.40|0.25
82427208|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.6||||0.22|TWO_SIDED|95.0|-0.36|1.57|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Emotional Well-Being Subscale||1.57|-0.36|0.22
82427209|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.14||||0.81|TWO_SIDED|95.0|-1.05|1.34|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for Fact-B 3 month Functional Well-Being Subscale||1.34|-1.05|0.81
82427210|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.54||||0.45|TWO_SIDED|95.0|-0.85|1.94|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for Fact-B 6 month Functional Well-Being Subscale||1.94|-0.85|0.45
82427211|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.11||||0.87|TWO_SIDED|95.0|-1.48|1.26|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Functional Well-Being Subscale||1.26|-1.48|0.87
82427212|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.16||||0.8|TWO_SIDED|95.0|-1.13|1.45|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 3 month Breast Cancer Subscale||1.45|-1.13|0.80
82427213|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.73||||0.35|TWO_SIDED|95.0|-0.79|2.24|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 6 month Breast Cancer Subscale||2.24|-0.79|0.35
82449398|NCT03738618|164606040|OTHER||Treatment difference|43.3|||<|0.001|TWO_SIDED|95.0|36.5|47.6|||Fisher Exact||95% exact Agresti-Min confidence intervals.|||47.6|36.5|<0.001
82577093|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.207||0.0622|TWO_SIDED|95.0|-0.8|0.02|||MMRM|||Insomnia - Early, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.80|0.0622
82449399|NCT03738618|164606041|OTHER||Treatment difference|22.0|||<|0.001|TWO_SIDED|95.0|14.9|25.7|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Ongoing Pregnancy Rate in the Fresh Cycle||25.7|14.9|<0.001
82449400|NCT03738618|164606045|OTHER||Treatment difference|26.8|||<|0.001|TWO_SIDED|95.0|19.8|30.8|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate in the fresh cycle||30.8|19.8|<0.001
82449401|NCT03738618|164606045|OTHER||Treatment difference|52.0|||<|0.001|TWO_SIDED|95.0|44.9|56.3|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate cumulatively||56.3|44.9|<0.001
82427214|NCT02941614|164562770|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.6||||0.42|TWO_SIDED|95.0|-0.88|2.09|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects.||The data below is for the Fact-B 12 month Breast Cancer Subscale||2.09|-0.88|0.42
82449402|NCT03738618|164606046|OTHER||Treatment difference|23.5|||<|0.001|TWO_SIDED|95.0|16.7|27.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate in the fresh cycle||27.2|16.7|<0.001
82449403|NCT03738618|164606046|OTHER||Treatment difference|45.6|||<|0.001|TWO_SIDED|95.0|38.5|49.9|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate cumulatively||49.9|38.5|<0.001
82449404|NCT03738618|164606048|OTHER||Treatment difference|32.1|||<|0.001|TWO_SIDED|95.0|24.9|36.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate in the fresh cycle||36.2|24.9|<0.001
82449405|NCT03738618|164606048|OTHER||Treatment difference|58.9|||<|0.001|TWO_SIDED|95.0|51.9|63.0|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate cumulatively||63.0|51.9|<0.001
82449406|NCT03738618|164606060|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82449407|NCT03738618|164606061|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82449408|NCT03738618|164606062|OTHER|||||||0.19|||||||Fisher Exact|||||||0.190
82449409|NCT03738618|164606063|OTHER|||||||0.396|||||||Fisher Exact|||||||0.396
82449410|NCT00826618|164606109|SUPERIORITY_OR_OTHER|||||||0.0015|||||||t-test, 2 sided|||Compare final visual acuity to baseline visual acuity||||0.0015
82577094|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.202||0.0955|TWO_SIDED|95.0|-0.74|0.06|||MMRM|||Insomnia - Early, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.74|0.0955
82427215|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction.|see above|-0.03||||0.59|TWO_SIDED|95.0|-0.15|0.09||We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects|Mixed Models Analysis|||Data below is for the BCPT survey 3 month Total Score.||0.09|-0.15|0.59
82427216|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.05||||0.47|TWO_SIDED|95.0|-0.09|0.19|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Total Score||0.19|-0.09|0.47
82427217|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.06||||0.37|TWO_SIDED|95.0|-0.2|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Total Score||0.07|-0.20|0.37
82427218|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.05||||0.65|TWO_SIDED|95.0|-0.26|0.17|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Hot Flashes Sub-Scale||0.17|-0.26|0.65
82427219|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.08||||0.54|TWO_SIDED|95.0|-0.17|0.33|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Hot Flashes Sub-Scale||0.33|-0.17|0.54
82427220|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.02||||0.87|TWO_SIDED|95.0|-0.27|0.22|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Hot Flashes Sub-Scale||0.22|-0.27|0.87
82427221|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.06||||0.32|TWO_SIDED|95.0|-0.17|0.06|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Nausea Sub-Scale||0.06|-0.17|0.32
82427222|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.0||||0.96|TWO_SIDED|95.0|-0.15|0.14|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Nausea Sub-Scale||0.14|-0.15|0.96
82449411|NCT02510001|164606139|OTHER||||||||||||||||||"The primary dose escalation analysis was to find the MTD, which was defined as the dose of PF-02341066 in combination with PD-0325901 at which no more than one out of six patients experience a DLT (dose limiting toxicity). The DLT was based on observed toxicity in cycle 1, and was defined as an almost certainly or probably drug-related adverse event to PF-02341066 and/or PD-0325901.~The MTD for the PD 0325901/PF-02341066 combination was 8mg BD(days1-21) and 200mg BD continuously in a 28 day cycle (Dose Level 4)."|||
82535575|NCT01222247|164769327|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93||||0.09|TWO_SIDED|95.0|0.85|1.01|||Chi-squared|||Analysis for NICU stay of any duration||1.01|0.85|0.09
82535576|NCT01222247|164769327|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.89||||0.03|TWO_SIDED|95.0|0.8|0.98|||Chi-squared|||Analysis for duration greater than or equal to 3 days||0.98|0.80|0.03
82427223|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.32|TWO_SIDED|95.0|-0.21|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Nausea Sub-Scale||0.07|-0.21|0.32
82427224|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.44|TWO_SIDED|95.0|-0.24|0.11|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Bladder Control Sub-Scale||0.11|-0.24|0.44
82535577|NCT01222247|164769328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
82535578|NCT01222247|164769329|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.61||||0.08|TWO_SIDED|95.0|0.35|1.07|||Chi-squared|||Statistical analysis for chorioamnionitis||1.07|0.35|0.08
82535579|NCT01222247|164769329|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.96|TWO_SIDED|95.0|0.49|1.95|||Chi-squared|||Analysis for Postpartum Endometritis||1.95|0.49|0.96
82535580|NCT01222247|164769329|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03||||0.56|TWO_SIDED|95.0|0.93|1.15|||Chi-squared|||Statistical analysis for cesarean delivery||1.15|0.93|0.56
82427225|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.38|TWO_SIDED|95.0|-0.11|0.3|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Bladder Control Sub-Scale||0.30|-0.11|0.38
82535581|NCT01222247|164769330|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Analysis for interval from randomization to delivery||||0.57
82535582|NCT01222247|164769331|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82535583|NCT00935792|164769368|OTHER||||||||||||||||||Estimated maximum tolerated dose was 2.5mg of oral everolimus thrice weekly for 9 weeks and alemtuzumab subcutaneously thrice weekly for 8 weeks.|||
82535584|NCT00764868|164769378|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|t-test of LDX at baseline and 52 weeks||||||<0.001
82535585|NCT00764868|164769380|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|t-test of LDX at baseline and 52 weeks||||||<0.001
82427226|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.07||||0.47|TWO_SIDED|95.0|-0.28|0.13|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is for the BCPT survey 12 month Bladder Control Sub-Scale||0.13|-0.28|0.47
82427227|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.17||||0.13|TWO_SIDED|95.0|-0.39|0.05|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Vaginal Problems Sub-Scale||0.05|-0.39|0.13
82427228|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.29||||0.03|TWO_SIDED|95.0|-0.55|-0.02|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Vaginal Problems Sub-Scale||-0.02|-0.55|0.03
82427229|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.19||||0.14|TWO_SIDED|95.0|-0.45|0.06|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Vaginal Problems Sub-Scale||0.06|-0.45|0.14
82427230|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.07||||0.53|TWO_SIDED|95.0|-0.14|0.28|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Musculoskeletal Pain Sub-Scale||0.28|-0.14|0.53
82427231|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.1||||0.47|TWO_SIDED|95.0|-0.16|0.35|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Musculoskeletal Pain Sub-Scale||0.35|-0.16|0.47
82427232|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.07||||0.57|TWO_SIDED|95.0|-0.18|0.33|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Musculoskeletal Pain Sub-Scale||0.33|-0.18|0.57
82449412|NCT02510001|164606141|OTHER|||||||||||||||||The primary dose escalation analysis was to find the MTD, which was defined as the dose of PF-02341066 in combination with Binimetinib at which no more than one out of six patients experience a DLT (dose limiting toxicity). The DLT was based on observed toxicity in cycle 1, and was defined as an almost certainly or probably drug-related adverse event to PF-02341066 and/or Binimetinib.|"Binimetinib 30mg BD on days 1 - 21 every 28 days with Crizotinib 250 mg OD continuously is the MTD, the recommended dose and schedule for further evaluation in our and other trials.~This was as only one DLT was experienced in 6 evaluable patients at this final dose escalation level."|||
82449413|NCT00303485|164606180|SUPERIORITY_OR_OTHER||Difference in median|-64.2|||<|0.0001|TWO_SIDED|95.0|-80.28|-46.21|||Wilcoxon rank sum test|||||-46.21|-80.28|< 0.0001
82561724|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.73|1.7|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.70|0.73|
82561725|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.5|1.63|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.63|0.50|
82561726|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.35|1.27|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.27|0.35|
82561727|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.77|2.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.05|0.77|
82427233|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.02||||0.85|TWO_SIDED|95.0|-0.18|0.21|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Cognitive Problems Sub-Scale||0.21|-0.18|0.85
82427234|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.1||||0.38|TWO_SIDED|95.0|-0.12|0.32|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Cognitive Problems Sub-Scale||0.32|-0.12|0.38
82427235|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.13||||0.23|TWO_SIDED|95.0|-0.35|0.09|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Cognitive Problems Sub-Scale||0.09|-0.35|0.23
82427236|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.14||||0.18|TWO_SIDED|95.0|-0.35|0.07|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Weight Problems Sub-Scale||0.07|-0.35|0.18
82427237|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.12||||0.35|TWO_SIDED|95.0|-0.36|0.13|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Weight Problems Sub-Scale||0.13|-0.36|0.35
82427238|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|-0.12||||0.34|TWO_SIDED|95.0|-0.36|0.12|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Weight Problems Sub-Scale||0.12|-0.36|0.34
82427239|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.22|TWO_SIDED|95.0|-0.06|0.25|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 3 month Arm Problems Sub-Scale||0.25|-0.06|0.22
82427240|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.11||||0.26|TWO_SIDED|95.0|-0.08|0.29|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 6 month Arm Problems Sub-Scale||0.29|-0.08|0.26
82427241|NCT02941614|164562771|OTHER|Conducted test of null hypothesis of no difference vs any, between intervention and control sites at three different time periods (6- vs. 3-months, 12- vs. 6-months, 12- vs. 3-months), as well as omnibus test of treatment-by-time interaction|see above|0.09||||0.34|TWO_SIDED|95.0|-0.09|0.27|||Mixed Models Analysis|We used a difference-in-differences model to estimate the time, treatment, and time-by-treatment effects||The data below is the BCPT survey 12 month Arm Problems Sub-Scale||0.27|-0.09|0.34
82427242|NCT02941614|164562772|OTHER||Rate Ratio|0.86||||0.006|TWO_SIDED|95.0|0.77|0.96|||Regression, Poisson|||||0.96|0.77|0.006
82427243|NCT02941614|164562773|OTHER||Rate Ratio|1.07||||0.356|TWO_SIDED|95.0|0.93|1.07|||Regression, Poisson|||||1.07|0.93|0.356
82427244|NCT02941614|164562774|OTHER||Rate Ratio|1.02||||0.919|TWO_SIDED|95.0|0.73|1.41|||Regression/Poisson|||||1.41|0.73|0.919
82427245|NCT02941614|164562775|OTHER||Rate Ratio|1.16||||0.367|TWO_SIDED|95.0|0.84|1.62|||Regression, Poisson|||The data below applies to Emergency Department visits||1.62|0.84|0.367
82427246|NCT02941614|164562775|OTHER||Rate Ratio|0.84||||0.497|TWO_SIDED|95.0|0.51|1.38|||Regression, Poisson|||The data below applies to Urgent Care visits||1.38|0.51|0.497
82427247|NCT03498716|164562894|SUPERIORITY|Stratified Analysis: The stratification factors used in the analysis are axillary nodal status, surgery (breast conserving vs. mastectomy),and tumor PD-L1 status.|Hazard Ratio (HR)|1.11||||0.3846|TWO_SIDED|95.0|0.87|1.42|||Log Rank|||||1.42|0.87|0.3846
82427248|NCT00265850|164562908|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.08|TWO_SIDED|95.0|0.77|1.01|||Log Rank|||||1.01|0.77|0.08
82427249|NCT00265850|164562909|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.45|TWO_SIDED|95.0|0.84|1.08|||Log Rank|||||1.08|0.84|0.45
82427250|NCT01991860|164562934|SUPERIORITY|||||||0.033||||||2-sided|Chi-squared, Corrected|Yates's continuity correction||||||0.033
82427251|NCT01991860|164562935|SUPERIORITY|||||||0.16|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.16
82427252|NCT01991860|164562936|SUPERIORITY|||||||0.68|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.68
82427253|NCT01991860|164562937|SUPERIORITY|||||||0.026|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.026
82427254|NCT01991860|164562938|SUPERIORITY|||||||0.086|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.086
82427255|NCT01991860|164562939|SUPERIORITY|||||||0.074|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.074
82427256|NCT01991860|164562940|SUPERIORITY|||||||0.15|||||||Chi-squared, Corrected|Yates's continuity correction||||||0.15
82449414|NCT01504841|164606191|OTHER||%|36.4|||||TWO_SIDED|95.0|10.9|69.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I, percentage of participants who experienced a grade 3+ AE.|||69.2|10.9|
82585964|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.3886||||||2M- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.3886
82427258|NCT01259011|164562948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.05|TWO_SIDED|95.0|1.1|3.3|||Mixed Models Analysis|||||3.3|1.1|<.05
82427259|NCT01259011|164562949|SUPERIORITY||Slope|-1.2||||0.12|TWO_SIDED|95.0|-2.8|0.3||HADS-anxiety|Regression, Linear|||||0.3|-2.8|0.12
82427260|NCT01259011|164562949|SUPERIORITY||Slope|-2.2|||<|0.05|TWO_SIDED|95.0|-4.2|-0.3||HADS-depression|Regression, Linear|||||-0.3|-4.2|<0.05
82427261|NCT01259011|164562950|SUPERIORITY||Slope|-4.0||||0.21|TWO_SIDED|95.0|-10.2|2.2|||Regression, Linear|||||2.2|-10.2|0.21
82427262|NCT01911260|164562951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|In intragroup of supplementation (zinc or placebo) we used the t-test for dependent samples in order to compare growth over time.||"Null Hypothesis: There isn't difference in the HAZ mean difference between children with Growth Deficit who received zinc amino acid or placebo.~We attributed α=0.05, β=0.20, and power=0.80."||||<0.05
82427263|NCT01911260|164562951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|2.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|In intragroup of supplementation (zinc or placebo) we used the t-test for dependent samples in order to compare growth over time.||"Null Hypothesis: There isn't difference in the HAZ mean difference between children with Normal Height who received zinc amino acid or placebo.~We attributed α=0.05, β=0.20, and power=0.80."||||<0.05
82427264|NCT01240863|164562968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.134|TWO_SIDED|95.0|-0.11|0.82||statistical significance level of 0.05.|ANCOVA|Treatment and stratification (opioid naïve/opioid experienced) factors as the fixed effects; screening and baseline APIs as covariates.|placebo - hydrocodone|||0.82|-0.11|0.134
82427265|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|8.89||||0.6498|TWO_SIDED|95.0|-24.65|42.42||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of C4d score||42.42|-24.65|0.6498
82427266|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|18.56||||0.0768|TWO_SIDED|95.0|1.43|35.68||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of margination score||35.68|1.43|0.0768
82427267|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-4.0||||0.6928|TWO_SIDED|95.0|-21.36|13.36||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of glomerulitis score||13.36|-21.36|0.6928
82427268|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|7.11||||0.0508|TWO_SIDED|95.0|1.23|12.99||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of vasculitis score||12.99|1.23|0.0508
82427269|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-4.89||||0.2042|TWO_SIDED|95.0|-11.34|1.56||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of glomerulosclerosis score||1.56|-11.34|0.2042
82427270|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.22||||0.3322|TWO_SIDED|95.0|-0.61|0.17||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of chronic glomerulopathy score||0.17|-0.61|0.3322
82427271|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|5.67||||0.4723|TWO_SIDED|95.0|-7.77|9.11||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of interstitial fibrosis score||9.11|-7.77|0.4723
82427272|NCT01147302|164563043|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|4.56||||0.5103|TWO_SIDED|95.0|-7.25|16.37||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of chronic vasculitis score||16.37|-7.25|0.5103
82427273|NCT01147302|164563044|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.08||||0.7591|TWO_SIDED|95.0|-0.35|0.51||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 20||0.51|-0.35|0.7591
82427274|NCT01147302|164563044|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.01||||0.9533|TWO_SIDED|95.0|-0.44|0.41||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 90||0.41|-0.44|0.9533
82427275|NCT01147302|164563045|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|1.45||||0.9046|TWO_SIDED|95.0|-19.34|22.24||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 20||22.24|-19.34|0.9046
82427276|NCT01147302|164563045|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|4.68||||0.5895|TWO_SIDED|95.0|-10.19|19.55||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 90||19.55|-10.19|0.5895
82427277|NCT01147302|164563046|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|1.56||||0.4558|TWO_SIDED|90.0|-2.0|5.11||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 1 through Day 20||5.11|-2.00|0.4558
82427278|NCT01147302|164563046|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.24||||0.947|TWO_SIDED|90.0|-6.05|6.52||The p-value for testing the mean for the treatment difference comparison assessed from ANOVA model analysis for CINRYZE versus placebo.|ANOVA|||Analysis of Day 1 through Day 90||6.52|-6.05|0.9470
82449415|NCT01504841|164606191|OTHER||%|100.0|||||TWO_SIDED|95.0|39.8|100.0|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II, percentage of participants who experienced a grade 3+ AE.|||100|39.8|
82427279|NCT00636181|164563056|SUPERIORITY|||||||0.3||||||PSG outcomes employed analysis of variance for approximately normally distributed outcomes (or outcomes that could be transformed to an approximately normal distribution), and the Kruskal-Wallis test for non-normal outcomes.|Kruskal-Wallis|Pairwise differences were determined using Tukey-Kramer test- ANOVA applied or by Mann-Whitney-Wilcoxon summed rank tests and Bonferroni adjustment.||||||0.3
82449416|NCT01504841|164606194|OTHER||%|18.2|||||TWO_SIDED|95.0|2.5|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I, percentage of participants who experienced a grade 3+ AE at least possibly related to study medications.|||51.8|2.5|
82449417|NCT01504841|164606194|OTHER||%|0.0|||||TWO_SIDED|95.0|0.0|60.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II, percentage of participants who experienced a grade 3+ AE at least possibly related to study medication.|||60.2|0|
82427280|NCT04549454|164563069|SUPERIORITY||Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.598||0.985|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on weekly drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.985
82449418|NCT01504841|164606195|OTHER||%|18.2|||||TWO_SIDED|95.0|2.3|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 24, percentage of participants who experienced Virologic Failure.|Week 24 time point.||51.8|2.3|
82449419|NCT01504841|164606195|OTHER||%|25.0|||||TWO_SIDED|95.0|0.6|80.6|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 24, percentage of participants who experienced Virologic Failure.|Week 24 time point.||80.6|0.6|
82449420|NCT01504841|164606195|OTHER||%|27.3|||||TWO_SIDED|95.0|6.0|61.0|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 48, percentage of participants who experienced Virologic Failure.|Week 48 time point.||61|6|
82449421|NCT01504841|164606195|OTHER||%|75.0|||||TWO_SIDED|95.0|19.4|99.4|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 48, percentage of participants who experienced Virologic Failure.|Week 48 time point.||99.4|19.4|
82449422|NCT01504841|164606199|OTHER||%|9.1|||||TWO_SIDED|95.0|0.2|41.3|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 12, percentage of participants with a \>5% decline in absolute CD4 %.|Week 12 time point.||41.3|0.2|
82449423|NCT01504841|164606199|OTHER||%|50.0|||||TWO_SIDED|95.0|6.8|93.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 12, percentage of participants with a \>5% decline in absolute CD4 %.|Week 12 time point.||93.2|6.8|
82449424|NCT01504841|164606199|OTHER||%|9.1|||||TWO_SIDED|95.0|0.2|41.3|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 24, percentage of participants with a \>5% decline in absolute CD4 %.|Week 24 time point.||41.3|0.2|
82449425|NCT01504841|164606199|OTHER||%|25.0|||||TWO_SIDED|95.0|0.6|80.6|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 24, percentage of participants with a \>5% decline in absolute CD4 %.|Week 24 time point.||80.6|0.6|
82449426|NCT01504841|164606199|OTHER||%|18.2|||||TWO_SIDED|95.0|2.3|51.8|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort I Week 48, percentage of participants with a \>5% decline in absolute CD4 %.|Week 48 time point.||51.8|2.3|
82449427|NCT01504841|164606199|OTHER||%|50.0|||||TWO_SIDED|95.0|6.8|93.2|||||Exact Binomial (Clopper-Pearson) confidence intervals for Cohort II Week 48, percentage of participants with a \>5% decline in absolute CD4 %.|Week 48 time point.||93.2|6.8|
82449428|NCT04756804|164606200|OTHER|This was a descriptive study, no hypothesis testing was performed.|||||||||||||||||This was a descriptive study, no hypothesis testing was performed.|||
82449429|NCT04120402|164606207|SUPERIORITY|||||||0.004|||||||ANCOVA|||||||0.004
82449430|NCT04120402|164606208|SUPERIORITY|||||||0.014|||||||ANCOVA|||||||0.014
82449431|NCT04120402|164606209|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82449432|NCT04120402|164606210|SUPERIORITY|||||||0.518|||||||ANCOVA|||||||0.518
82449433|NCT04120402|164606211|SUPERIORITY|||||||0.028|||||||Fisher Exact|||||||0.028
82449434|NCT01496469|164606212|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.3||||0.882|TWO_SIDED|95.0|-3.9|3.4||Analysis of covariance (ANCOVA) model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.|ANCOVA|||A total of 120 enrolled participants (60 participants per treatment group) was sufficient to achieve 80 percent (%) power to detect a difference of 6.0 mmHg between the placebo and febuxostat 80 mg treatment groups by a 2 sample t-test of the mean change from Baseline at Week 6 in 24-hour mean ambulatory SBP with a 2-sided significance level of 5%.||3.4|-3.9|0.882
82449435|NCT01496469|164606213|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.6||||0.613|TWO_SIDED|95.0|-1.9|3.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.||3.2|-1.9|0.613
82449436|NCT01496469|164606214|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-3.9|-2.9||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment as a factor, and the baseline value and prior use of an ARB or an ACEi as covariates.||-2.9|-3.9|<0.001
82490011|NCT03572972|164672893|SUPERIORITY||Hazard Ratio (HR)|0.538|||||TWO_SIDED|95.0|0.392|0.737||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.737|0.392|
82490012|NCT03572972|164672893|SUPERIORITY||Hazard Ratio (HR)|0.664|||||TWO_SIDED|95.0|0.507|0.87||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.870|0.507|
82499601|NCT02782780|164689918|SUPERIORITY|Linear mixed models with random effects for subjects were used to analyze all available data for the intent-to-treat analysis. Because sex was used as a stratification variable in the randomization procedure, it was not included as a covariate the analyses.|||||<|0.001|||||||Mixed Models Analysis|Test of treatment effect: t(75.1)=3.91||||||<0.001
82449437|NCT01357551|164606224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|0.78||0.04|TWO_SIDED|95.0|0.07|3.13||A priori threshold was p\<.05|Mixed Models Analysis|Parameters included common intercept, initial weight loss stratum, dummy-coded time, and indicators for the maintenance X each follow-up time point||The sample size estimate was based on the primary hypothesis that patients randomized to receive the maintenance intervention would have less mean weight regain at week 56 than those randomized to usual care. The week 0 standard deviation was estimated as 24.6kg, the correlation between week 0 and week 56 as 0.95, and the week 56 dropout rate as 10%. To detect a difference of 3.5 kg with 90% power and a type I error rate of 5%, 230 total (115 in each group) randomized patients were needed.||3.13|.07|.04
82449438|NCT01357551|164606225|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-125.49|STANDARD_ERROR_OF_MEAN|78.64||0.11|TWO_SIDED|95.0|-280.71|29.72|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction||The hypothesis was that patients randomized to receive the maintenance intervention would have less caloric intake at week 56 than those randomized to usual care.||29.72|-280.71|.11
82449439|NCT01357551|164606226|SUPERIORITY_OR_OTHER||incidence rate ratio|1.03|STANDARD_ERROR_OF_MEAN|0.26||0.91|TWO_SIDED|95.0|0.63|1.68|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction; negative binomial distribution with log link||The hypothesis was that patients randomized to receive the maintenance intervention would have higher rates of walking per week at week 56 than those randomized to usual care.||1.68|0.63|.91
82449440|NCT01357551|164606227|SUPERIORITY_OR_OTHER||incidence rate ratio|1.07|STANDARD_ERROR_OF_MEAN|0.35||0.83|TWO_SIDED|95.0|0.57|2.03|||Mixed Models Analysis|Common intercept, initial weight loss stratum, indicators for week 26 \& 56, group X time interaction; negative binomial distribution with log link||The hypothesis was that patients randomized to receive the maintenance intervention would have higher rates of moderate physical activity per week at week 56 than those randomized to usual care.||2.03|0.57|.83
82449441|NCT06292130|164606228|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82449442|NCT06292130|164606229|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
82577095|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.21||0.0173|TWO_SIDED|95.0|-0.92|-0.09|||MMRM|||Insomnia - Early, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.92|0.0173
82577096|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.206||0.1687|TWO_SIDED|95.0|-0.69|0.12|||MMRM|||Insomnia - Early, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.69|0.1687
82449443|NCT00118742|164606236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.9||||0.0012||95.0|14.8|35.0|||ANCOVA|||||35.0|14.8|0.0012
82449444|NCT00118742|164606237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.6|||<|0.0001||95.0|15.7|35.6|||ANCOVA|||||35.6|15.7|<0.0001
82449445|NCT00118742|164606238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.7||||0.0053||95.0|13.7|43.7|||ANCOVA|||||43.7|13.7|0.0053
82449446|NCT00118742|164606239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|21.1|||<|0.0001||95.0|12.5|29.6|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 6 months posttransplant||29.6|12.5|<0.0001
82449447|NCT00118742|164606239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.2|||<|0.0001||95.0|9.9|26.6|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 12 months posttransplant||26.6|9.9|<0.0001
82449448|NCT00118742|164606239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.6||||0.0006||95.0|10.2|37.0|||ANCOVA|||Statistical analysis for calculated creatinine clearance at 24 months posttransplant||37.0|10.2|0.0006
82449449|NCT02381015|164606240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|||||||0.29
82449450|NCT02381015|164606241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|||||||Chi-squared|||||||0.35
82449451|NCT02381015|164606242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Chi-squared|||||||0.29
82449452|NCT02381015|164606243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|||||||Kruskal-Wallis|||||||0.49
82449453|NCT02381015|164606244|OTHER||Beta|93.5|STANDARD_ERROR_OF_MEAN|1.55||0.42|TWO_SIDED||||||ANOVA|||The statistical analysis shows the relation between risk given and risk recall at the immediate post results assessment for the total number of participants.||||0.42
82449454|NCT02381015|164606245|OTHER||Beta|94.7|STANDARD_ERROR_OF_MEAN|2.93||0.33|TWO_SIDED||||||ANOVA|||||||0.33
82449455|NCT00930553|164606271|SUPERIORITY_OR_OTHER||Percentage with SAD|22.33|||||TWO_SIDED|95.0|18.33|27.06|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||27.06|18.33|
82449456|NCT00930553|164606271|SUPERIORITY_OR_OTHER||Percentage with SAD|29.69|||||TWO_SIDED|95.0|25.42|34.49|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||34.49|25.42|
82449457|NCT00930553|164606272|SUPERIORITY_OR_OTHER||Percentage with SAD|9.35|||||TWO_SIDED|95.0|5.54|15.56|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||15.56|5.54|
82449458|NCT00930553|164606272|SUPERIORITY_OR_OTHER||Percentage with SAD|7.95|||||TWO_SIDED|95.0|4.48|13.9|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||13.90|4.48|
82449459|NCT00930553|164606272|SUPERIORITY_OR_OTHER||Percentage with SAD|20.42|||||TWO_SIDED|95.0|14.67|28.03|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||28.03|14.67|
82449460|NCT00930553|164606272|SUPERIORITY_OR_OTHER||Percentage with SAD|11.99|||||TWO_SIDED|95.0|7.63|18.58|||||The percentage and 95% CI of the participants with SAD are estimated by the Kaplan Meier method.|||18.58|7.63|
82648189|NCT03567239|165011836|OTHER|Median QUEST scores: Overall = 4.33, Device = 4.38, Services = 4.25.||||||||||||||||The QUEST (Quebec User Evaluation of Satisfaction with Assistive Technology) evaluates a patient's satisfaction with various assistive technologies. It has two subgroups, Device and Service on a scale of 1-5 with 5 being the best score.|Median QUEST scores: Overall = 4.33, Device = 4.38, Services = 4.25.|||
82577097|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.258||0.3861|TWO_SIDED|95.0|-0.74|0.29|||Wilcoxon (Mann-Whitney)|||Insomnia - Early, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.74|0.3861
82427281|NCT04549454|164563070|SUPERIORITY||Mean Difference (Final Values)|0.244|STANDARD_ERROR_OF_MEAN|0.618||0.694|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on weekly drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in weekly drinks from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.694
82577098|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.249||0.706|TWO_SIDED|95.0|-0.59|0.4|||MMRM|||Insomnia - Early, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.59|0.7060
82577099|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.0112|TWO_SIDED|95.0|-1.05|-0.14|||MMRM|||Insomnia - Early, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-1.05|0.0112
82577100|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.219||0.057|TWO_SIDED|95.0|-0.86|0.01|||MMRM|||Insomnia - Early, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.86|0.0570
82577101|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.208||0.0018|TWO_SIDED|95.0|-1.08|-0.26|||MMRM|||Insomnia - Early, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.26|-1.08|0.0018
82652113|NCT02232074|165019455|SUPERIORITY||Median Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.59||0.58|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|adjusting for baseline Case scores.||Compared to the control group, the breast cancer INTERVENTION group would have higher self-efficacy was adjusting for baseline self-efficacy scores.||||0.58
82427282|NCT04549454|164563071|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.327||0.889|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on consequences. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in consequences from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.889
82427283|NCT04549454|164563072|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.338||0.582|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on consequences. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in consequences from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.582
82427284|NCT04549454|164563073|SUPERIORITY||Mean Difference (Final Values)|-0.265|STANDARD_ERROR_OF_MEAN|0.414||0.523|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on peak drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.523
82427285|NCT04549454|164563074|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.427||0.981|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on peak drinks. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in peak drinks from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.981
82427286|NCT04549454|164563075|SUPERIORITY||Median Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.327||0.889|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on HED. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in HED from baseline to the 1-month follow-up in the Intervention Arm versus the Control Arm.||||.889
82427287|NCT04549454|164563076|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.338||0.582|TWO_SIDED||||||Tukey-Kramer|||As detailed in the statistical analysis plan, a multi-level model which held constant participant age, race, ethnicity, in examining Time\*Arm interactions on HED. To probe the significant Time\*Arm interaction, a Tukey post-hoc test examined the change in HED from baseline to the 6-month follow-up in the Intervention Arm versus the Control Arm.||||.582
82427288|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Rosenberg scores compared baseline to 1 hour by Mann-Whitney U test.||||<0.001
82427289|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||mann whitney u to compare rosenberg score baseline to 1 hour||||<.001
82427290|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 2 hours||||<0.001
82449461|NCT00930553|164606273|SUPERIORITY_OR_OTHER||Percentage with SRD|32.69|||||TWO_SIDED|95.0|26.96|39.28|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||39.28|26.96|
82427291|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 4 hours||||<0.001
82427292|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 1 week||||<0.001
82427293|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 2 hours||||<0.01
82427294|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 4 hours||||<0.01
82427295|NCT00867035|164563079|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||baseline to 1 week||||<0.05
82427296|NCT00867035|164563080|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 1 hour analyzed between groups.||||>0.05
82449462|NCT00930553|164606273|SUPERIORITY_OR_OTHER||Percentage with SRD|42.46|||||TWO_SIDED|95.0|37.08|48.28|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||48.28|37.08|
82449463|NCT00930553|164606274|SUPERIORITY_OR_OTHER||Percentage with SRD|16.92|||||TWO_SIDED|95.0|9.75|28.47|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||28.47|9.75|
82427297|NCT00867035|164563081|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 2 hours analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
82427298|NCT00867035|164563082|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 4 hours analyzed between groups||||>0.05
82427299|NCT00867035|164563083|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of H2S in mouth air at 1 week analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
82427300|NCT00867035|164563084|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 1 hour analyzed between groups||||>0.05
82427301|NCT00867035|164563085|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 2 hours analyzed between groups. Each time point was compared between groups by Students t test||||>0.05
82427302|NCT00867035|164563086|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrations of MM in mouth air at 4 hours analyzed between groups. Each time point was compared between groups by Students t test.||||>0.05
82427303|NCT00867035|164563087|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Concentrtations of MM in mouth air at 1 week analyzed between groups. Each time point was compared between groups by Students t test||||>0.05
82427304|NCT00867035|164563088|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Counts of colony forming units from swab of 1square centimeter area on tongue at 1 week cultured on anaerobe plates for 1 week analyzed between groups||||>0.05
82427305|NCT00867035|164563089|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||Percentage of black colonies out of Total Viable Count cultured on anaerobe agar with lead acetate. Black colonies are those producing sulfides (H2S, MM)and creating black lead sulfide. Analyzed between groups. Groups compared at baseline and 1 week.||||>0.05
82427306|NCT05076045|164563096|SUPERIORITY|||||||0.03||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Results of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in percentage of correct answers between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||0.03
82427307|NCT05076045|164563097|SUPERIORITY|||||||0.28||||||The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|||Null hypothesis is that there was no difference in reaction time between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio as within-subject factors. Participants were included as a random factor.||||0.28
82427308|NCT05076045|164563098|SUPERIORITY|||||||0.005||||||The threshold for statistical significance was p = 0.05 (two-sided).|Wilcoxon (Mann-Whitney)|||Null hypothesis is that there was no difference in Quick Speech In Noise score between PSAPs and Control. The performance of the QuickSIN for the two sessions (PSAPs, Control) was compared using the Wilcoxon signed rank test on paired samples.||||0.005
82427309|NCT05076045|164563099|SUPERIORITY|||||||1||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||1.00
82449464|NCT00930553|164606274|SUPERIORITY_OR_OTHER||Percentage with SRD|13.89|||||TWO_SIDED|95.0|8.47|22.33|||||The percentage and 95% CI of the participants with SRD are estimated by the Kaplan Meier method.|||22.33|8.47|
82449465|NCT00921843|164606305|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82449466|NCT00787189|164606308|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0005||95.0|||||Fisher Exact|||||||<0.0005
82449467|NCT00596830|164606336|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.179||||0.064|TWO_SIDED|95.0|0.99|1.404||The p-value stated is the 2-sided p-value from the log rank test stratified by gender, prior adjuvant chemotherapy, and histology.|Log Rank|||||1.404|0.990|0.064
82449468|NCT00596830|164606337|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.103||||0.27|TWO_SIDED|95.0|0.925|1.315||2-sided p-value is from the unstratified log-rank test|Log Rank||HR was based on the Cox proportional hazards model|||1.315|0.925|0.270
82449469|NCT00596830|164606338|SUPERIORITY_OR_OTHER||Risk difference|-1.472||||0.685|TWO_SIDED|95.0|-8.6|5.6|||Chi-squared||Risk difference confidence interval was calculated based on a normal distribution.|||5.6|-8.6|0.685
82499602|NCT02782780|164689918|SUPERIORITY||||||<|0.001||||||Planned contrasts following the mixed models were used to compare baseline data to 6-month follow-up data in the CBTi group.|Mixed Models Analysis|Baseline vs. 6-month in CBTi group: t(34.5)=4.39||||||<0.001
82449470|NCT00774800|164606373|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.54||||0.0011||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0011
82449471|NCT00774800|164606373|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|3.06|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
82449472|NCT00774800|164606374|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.35||||0.0057||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0057
82449473|NCT00774800|164606374|SUPERIORITY_OR_OTHER||Geometric Least Squares Means Ratio|1.66|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
82449474|NCT00774800|164606375|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-18.33|||<|0.0001||||||Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|ANOVA|||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||<0.0001
82577102|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.205||0.0443|TWO_SIDED|95.0|-0.83|-0.01|||MMRM|||Insomnia - Early, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.83|0.0443
82577103|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.104||0.1197|TWO_SIDED|95.0|-0.04|0.37|||MMRM|||Insomnia - Middle, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.04|0.1197
82577104|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.101||0.7171|TWO_SIDED|95.0|-0.24|0.16|||MMRM|||Insomnia - Middle, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.24|0.7171
82577105|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.7151|TWO_SIDED|95.0|-0.32|0.22|||MMRM|||Insomnia - Middle, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.32|0.7151
82449475|NCT00774800|164606375|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-62.46||||0.0018|||||||ANOVA|Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.||Due to the exploratory nature of this study, the sample size is not based on a formal calculation.||||0.0018
82577106|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.134||0.521|TWO_SIDED|95.0|-0.35|0.18|||MMRM|||Insomnia - Middle, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.35|0.5210
82577107|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.142||0.7332|TWO_SIDED|95.0|-0.23|0.33|||MMRM|||Insomnia - Middle, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.23|0.7332
82652114|NCT02232074|165019456|SUPERIORITY||Median Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|2.21||0.09|TWO_SIDED||||||Regression, Linear|adjusting for baseline Case scores.||Compared to the control group, the lung cancer INTERVENTION group would have higher self-efficacy was adjusting for baseline self-efficacy scores.||||0.09
82449476|NCT01059994|164606377|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
82449477|NCT01059994|164606378|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
82449478|NCT01973998|164606379|EQUIVALENCE|The primary outcome is time from randomization to a composite outcome of all cause re-hospitalization and all-cause mortality, whichever comes first. The primary analysis will be a log-ranked test and associated Kaplan-Meier plot, unadjusted for any covariates|Hazard Ratio (HR)|1.654|STANDARD_DEVIATION|0.4789|<|0.1|TWO_SIDED|10.0|1.175|2.133||Because this is a pilot study the intent is to see if there is a signal that would justify a larger clinical trial. Therefore the significance level has been set to 0.1 and the power has been set at 0.7.|Log Rank|||||2.133|1.175|<0.1
82449479|NCT01973998|164606379|SUPERIORITY||Hazard Ratio (HR)|1.654|STANDARD_DEVIATION|0.4789||0.1|TWO_SIDED|10.0|1.175|2.133|||Log Rank|||A total of 100 patients is required in a 2 treatment parallel-design study. There is a 70% probability that the study will detect a treatment difference at a 2-sided 10% significance level, if the true hazard ratio is 1.654. This is based on the assumption that the accrual period will be 36 months and the follow up period will be 6 months and the median time to event is 8 months. The total number of events will be 73.||2.133|1.175|0.1
82535586|NCT00819234|164769395|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.23|STANDARD_ERROR_OF_MEAN|2.863||0.0135|TWO_SIDED|95.0|-12.93|-1.54|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons.||-1.54|-12.93|0.0135
82535587|NCT00819234|164769395|SUPERIORITY_OR_OTHER||LS Mean|-6.55|STANDARD_ERROR_OF_MEAN|2.681||0.0168|TWO_SIDED|95.0|-11.89|-1.21|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons||-1.21|-11.89|0.0168
82535588|NCT00819234|164769395|SUPERIORITY_OR_OTHER||LS Mean|-5.52|STANDARD_ERROR_OF_MEAN|2.887||0.0595|TWO_SIDED|95.0|-11.27|0.23|||t-test, 2 sided|||Treatment comparisons between each active treatment and placebo. Statistical tests performed two-sided at a significance level of α = 0.05. The null hypothesis tested was that there is no difference between each active treatment and the placebo treatment. The primary analysis did not incorporate any adjustment for multiple comparisons||0.23|-11.27|0.0595
82535589|NCT04438785|164769415|SUPERIORITY||Mean Difference (Final Values)|2.58|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Evaluate if the Apnea Hypopnea Index from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||<0.001
82535590|NCT04438785|164769416|SUPERIORITY||Median Difference (Final Values)|-0.971||||0.003|TWO_SIDED||||||t-test, 2 sided|||Evaluate if the O2 desaturation index (ODI) from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.003
82535591|NCT04438785|164769417|SUPERIORITY||Mean Difference (Net)|-0.364||||0.001|ONE_SIDED||||||t-test, 2 sided|||Evaluate if the IOPI tongue score from baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
82577108|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.139||0.4163|TWO_SIDED|95.0|-0.39|0.16|||MMRM|||Insomnia - Middle, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.39|0.4163
82577109|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.132||0.8625|TWO_SIDED|95.0|-0.28|0.24|||MMRM|||Insomnia - Middle, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.28|0.8625
82577110|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.128||0.6196|TWO_SIDED|95.0|-0.32|0.19|||MMRM|||Insomnia - Middle, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.32|0.6196
82577111|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.197||0.0373|TWO_SIDED|95.0|-0.8|-0.02|||MMRM|||Insomnia - Middle, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.80|0.0373
82648190|NCT04288115|165011866|NON_INFERIORITY|An one-sided α-level of 0.05 will be used to determine the statistical significance of the non-inferiority test.|Difference in Group Means|-5.3||||0.0913|TWO_SIDED|90.0|-16.1|5.4||Group differences.|Welch's two-sample t-test|A one-sided p-value \< 0.05 indicates the discontinuation mean falls within the non-inferiority limit.|Differences reported as the sham discontinuation mean minus the real discontinuation mean.|A one-sided t-test will be used to determine whether the mean Hypothyroid Symptoms score for the real discontinuation group is no more than 14 points worse than the score of the sham discontinuation group at 6 months.||5.4|-16.1|0.0913
82449480|NCT02540993|164606398|SUPERIORITY||Hazard Ratio (HR)|0.825|||=|0.0014|TWO_SIDED|95.0|0.732|0.928||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.03282695.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.928|0.732|= 0.0014
82535592|NCT04438785|164769418|SUPERIORITY||Median Difference (Final Values)|-1.131||||0.001|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the IOPI lip score from the baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
82535593|NCT04438785|164769419|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.92|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the neck circumference from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.92
82535594|NCT04438785|164769420|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.92|ONE_SIDED||||||t-test, 2 sided|||Evaluate if the waist circumference from baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.92
82577112|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.191||0.0644|TWO_SIDED|95.0|-0.74|0.02|||MMRM|||Insomnia - Middle, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.74|0.0644
82427310|NCT05076045|164563100|SUPERIORITY|This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).||||||1|||||||Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||1.00
82427311|NCT05076045|164563101|SUPERIORITY|||||||0.36||||||This p-value has been adjusted using the Bonferroni correction. The threshold for statistical significance was p = 0.05 (two-sided).|Mixed Models Analysis|Result of the pairwise comparisons for the SNR by Session interaction in the linear mixed model analysis.||Null hypothesis is that there was no difference in alpha power between PSAPs and Control. Data were analyzed using a linear mixed-effects (LME) model. The model included session (PSAPs, Control) and signal-to-noise ratio (SNR) as within-subject factors. Participants were included as a random factor.||||0.36
82648191|NCT04288115|165011866|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical difference.|Difference in Group Means|0.8||||0.8793|TWO_SIDED|95.0|-9.4|10.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates the real discontinuation mean and the sham discontinuation mean are different. Adjusted for gender and baseline HSSs.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline hypothyroid symptom scores.|Analysis of 6-week outcome||10.9|-9.4|0.8793
82427312|NCT05076045|164563102|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05 (two-sided).|Cumulative link mixed model|||Null hypothesis is that there was no difference in listening effort between PSAPs and Control. The listening effort score was analyzed using a cumulative link mixed model. A logit link function with flexible thresholds was used. The model included Session (PSAPs, Control) and Block (1, 2, 3) as within-subject factors. Participants were included as a random factor.||||<0.001
82449481|NCT02540993|164606399|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.0339|TWO_SIDED|95.0|0.747|0.989||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.989|0.747|= 0.0339
82449482|NCT02540993|164606400|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.895|||=|0.2348|TWO_SIDED|95.0|0.746|1.075||P-value from stratified log-rank test. Significance was considered to be achieved if p-value ≤ 0.04967388.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.075|0.746|= 0.2348
82449483|NCT02540993|164606401|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.946|||=|0.1623|TWO_SIDED|95.0|0.876|1.022||P-value from stratified log-rank test.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||1.022|0.876|= 0.1623
82449484|NCT02540993|164606402|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Ratio of least squares means|0.688|||<|0.0001|TWO_SIDED|95.0|0.662|0.715||P-value from F-test of equal means between the treatment groups.|ANCOVA|||||0.715|0.662|< 0.0001
82449485|NCT02540993|164606403|SUPERIORITY|If treatment effect on both primary and key secondary endpoint is significant, other secondary efficacy endpoints (i.e. all-cause mortality, all-cause hospitalization, change in UACR from baseline to Month 4, and secondary renal composite endpoint) will be tested hierarchically, starting with all-cause mortality. If treatment effect on all-cause mortality was not significant, all other endpoints would be tested in an exploratory manner.|Hazard Ratio (HR)|0.763|||=|0.0012|TWO_SIDED|95.0|0.648|0.9||P-value from stratified log-rank test.|Log Rank|Stratified log rank test|A stratified Cox proportional hazards regression model was used to provide a point estimate of the hazard ratio and a corresponding two-sided 95% confidence interval.|||0.900|0.648|= 0.0012
82449486|NCT01336023|164606411|NON_INFERIORITY|"Non-inferiority of IDegLira vs. IDeg was confirmed when 95% confidence interval for the treatment differences for change in HbA1c lies entirely below 0.3%.~IDegLira minus IDeg"|Treatment Contrast|-0.47|||||TWO_SIDED|95.0|-0.58|-0.36|||ANCOVA||IDegLira minus IDeg|||-0.36|-0.58|
82427313|NCT01347060|164563125|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.0051|TWO_SIDED|95.0|0.68|0.93||The P-value relates to differences in combined inpatient/emergency department.|Regression, Cox|Adjusted for baseline differences||||0.93|0.68|0.0051
82427314|NCT01347060|164563126|SUPERIORITY_OR_OTHER||Mean Difference (Net)|883.23||||0.001|TWO_SIDED|95.0|731.66|1041.69||The P-value is on the adjusted difference in total asthma costs.|Regression, Linear|Generalized Linear Model with a log-link and a gamma distribution adjusting for differences at baseline||||1041.69|731.66|0.001
82427315|NCT01347060|164563127|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82427316|NCT01405196|164563128|SUPERIORITY||Odds Ratio (OR)|2.23||||0.076|TWO_SIDED|90.0|0.89|5.62||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||Point estimates of the Odds ratio (ORs) as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.62|0.89|0.076
82535595|NCT04438785|164769421|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.98|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the BMI from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.98
82427317|NCT01405196|164563128|SUPERIORITY||Odds Ratio (OR)|0.96||||0.528|TWO_SIDED|90.0|0.38|2.41||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.41|0.38|0.528
82427318|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|2.77|||||TWO_SIDED|90.0|0.62|12.4||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||12.40|0.62|
82427319|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|90.0|0.31|7.71||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.71|0.31|
82427320|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|90.0|0.4|2.67||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.67|0.40|
82427321|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|0.77|||||TWO_SIDED|90.0|0.29|2.05||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.05|0.29|
82427322|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|90.0|0.35|2.24||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.24|0.35|
82427323|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|0.44|||||TWO_SIDED|90.0|0.16|1.16||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.16|0.16|
82535596|NCT04438785|164769422|SUPERIORITY||Median Difference (Final Values)|-1.23||||0.001|ONE_SIDED|95.0|||||t-test, 2 sided|||Evaluate if the Epworth Sleepiness Scale from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.001
82648192|NCT04288115|165011866|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-2.3||||0.686|TWO_SIDED|95.0|-14.0|9.3||Group differences.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline HSS.|Differences are reported as sham discontinuation mean minus real discontinuation mean. These differences have been adjusted for gender and baseline hypothyroid symptom scores.|Analysis of 6-month outcome||9.3|-14.0|0.6860
82427324|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|90.0|0.64|4.09||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.09|0.64|
82427325|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|90.0|0.27|1.77||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.77|0.27|
82427326|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|1.95|||||TWO_SIDED|90.0|0.78|4.84||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.84|0.78|
82427327|NCT01405196|164563129|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|90.0|0.38|2.32||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.32|0.38|
82427328|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|90.0|0.28|3.88||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.88|0.28|
82427329|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.19|3.01||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.01|0.19|
82427330|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|90.0|0.28|1.85||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.85|0.28|
82427331|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|90.0|0.32|2.02||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.02|0.32|
82427332|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.3|1.83||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.83|0.30|
82427333|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.45|||||TWO_SIDED|90.0|0.18|1.13||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.13|0.18|
82427334|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|90.0|0.58|3.6||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.60|0.58|
82535597|NCT04438785|164769423|SUPERIORITY||Mean Difference (Net)|0.98||||0.22|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Evaluate if the Pittsburgh sleep quality index from Baseline and after three months in the Intervention Group showed statistical significant difference p\<0.05 .||||0.22
82535598|NCT04011033|164769424|OTHER||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.16|0.63|||Log Rank|||||0.63|0.16|<0.001
82535599|NCT04011033|164769426|OTHER||||||=|0.003|||||||Fisher Exact|||||||=0.003
82535600|NCT04011033|164769427|OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82535601|NCT04011033|164769429|OTHER||Hazard Ratio (HR)|0.37|||=|0.001|TWO_SIDED|95.0|0.19|0.71|||Log Rank|||||0.71|0.19|=0.001
82535602|NCT01823341|164769430|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82535603|NCT01823341|164769431|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82535604|NCT01823341|164769431|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
82535605|NCT01823341|164769432|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82535606|NCT01823341|164769432|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||t-test, 2 sided|||||||0.005
82652115|NCT02232074|165019457|SUPERIORITY||Odds Ratio (OR)|0.85||||0.79|TWO_SIDED|95.0|0.28|2.79||a priori threshold for statistical significance p\<0.05|Regression, Logistic|||We hypothesize that compared to the control group, the Breast cancer INTERVENTION group will receive quality care (i.e. receipt of radiation within one year of diagnosis).||2.79|0.28|0.79
82535607|NCT01823341|164769433|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82535608|NCT01823341|164769433|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
82535609|NCT01823341|164769434|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
82535610|NCT01823341|164769434|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
82535611|NCT01823341|164769435|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
82535612|NCT01823341|164769435|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||||||0.77
82535613|NCT01823341|164769436|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82535614|NCT01823341|164769436|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
82535615|NCT01823341|164769437|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
82535616|NCT01823341|164769437|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
82535617|NCT01823341|164769438|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
82535618|NCT01823341|164769438|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||t-test, 2 sided|||||||0.39
82535619|NCT01823341|164769439|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||0.53
82535620|NCT01823341|164769439|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||t-test, 2 sided|||||||0.28
82535621|NCT00689104|164769442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41||||0.003|TWO_SIDED|95.0|-0.72|-0.09||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.09|-0.72|0.003
82535622|NCT00689104|164769442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29||||0.01|TWO_SIDED|95.0|-0.61|0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||0.03|-0.61|0.010
82535623|NCT00689104|164769442|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.11|TWO_SIDED|95.0|-0.42|0.21||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||0.21|-0.42|0.11
82535624|NCT00689104|164769443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.29||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.29|-0.90|<0.001
82535625|NCT00689104|164769443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44||||0.005|TWO_SIDED|95.0|-0.74|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.74|0.005
82427335|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|0.74|||||TWO_SIDED|90.0|0.3|1.84||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.84|0.30|
82535626|NCT00689104|164769443|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25||||0.11|TWO_SIDED|95.0|-0.55|0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||0.06|-0.55|0.11
82535627|NCT00689104|164769444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.9|||<|0.001|TWO_SIDED|95.0|6.3|17.4||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.4|6.3|<0.001
82535628|NCT00689104|164769444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|13.2|||<|0.001|TWO_SIDED|95.0|7.7|18.7||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||18.7|7.7|<0.001
82535629|NCT00689104|164769444|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.6|||<|0.001|TWO_SIDED|95.0|7.1|18.2||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||18.2|7.1|<0.001
82535630|NCT00689104|164769445|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39||||0.002|TWO_SIDED|95.0|-0.71|-0.06||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.06|-0.71|0.002
82535631|NCT00689104|164769445|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38||||0.002|TWO_SIDED|95.0|-0.71|-0.05||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.05|-0.71|0.002
82427336|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|1.78|||||TWO_SIDED|90.0|0.72|4.37||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.37|0.72|
82561728|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.54|1.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.44|0.54|
82561729|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.38|0.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||0.95|0.38|
82561730|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.64|1.91|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.91|0.64|
82561731|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.28|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.62|0.28|
82561732|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.4|||||TWO_SIDED|95.0|0.68|2.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.81|0.68|
82561733|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.53|1.77|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.77|0.53|
82427337|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED|90.0|0.5|2.92||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.92|0.50|
82427338|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|90.0|0.89|5.55||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.55|0.89|
82427339|NCT01405196|164563130|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|90.0|0.4|2.46||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.46|0.40|
82449487|NCT01336023|164606411|SUPERIORITY|"Superiority of IDegLira over liraglutide was confirmed when the 95% confidence interval for the treatment difference for change in HbA1c lies entirely below 0%.~IDegLira minus Liraglutide"|Treatment contrast|-0.64|||||TWO_SIDED|95.0|-0.75|-0.53|||ANCOVA||IDegLira minus Liraglutide|||-0.53|-0.75|
82449488|NCT01457846|164606424|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.57||||0.9581|TWO_SIDED|80.0|1.12|2.21||1-sided|Regression, Cox|||||2.21|1.12|0.9581
82449489|NCT01457846|164606425|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.8156|TWO_SIDED|80.0|0.89|1.95||1-sided|Regression, Cox|||||1.95|0.89|0.8156
82449490|NCT01457846|164606426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09||||0.997|TWO_SIDED|80.0|0.02|0.35||1-sided|Regression, Logistic|||||0.35|0.02|0.9970
82449491|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.008
82449492|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 months||||0.040
82449493|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 months||||0.033
82577113|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.191||0.1347|TWO_SIDED|95.0|-0.66|0.09|||MMRM|||Insomnia - Middle, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.66|0.1347
82449494|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.500
82652116|NCT02232074|165019458|SUPERIORITY||Median Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.5||0.71|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||We hypothesize that compared to the control group, the Breast cancer INTERVENTION group will have less distress at 12 months post-enrollment.||||0.71
82427340|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.34|||||TWO_SIDED|90.0|0.53|3.35||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.35|0.53|
82427341|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|90.0|0.41|2.65||||||Week 4: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.65|0.41|
82427342|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|90.0|0.33|1.96||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||1.96|0.33|
82449495|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 6 months||||0.750
82449496|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 12 months||||0.156
82449497|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.938|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 3 months||||0.938
82449498|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 6 months||||0.250
82449499|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 12 months||||0.999
82427343|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|90.0|0.39|2.23||||||Week 8: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.23|0.39|
82449500|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.057
82449501|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.031
82449502|NCT01846741|164606434|SUPERIORITY_OR_OTHER|||||||0.625|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Baseline to 18 Months||||0.625
82449503|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0008
82449504|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0544|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure Score||||0.0544
82449505|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0207|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.0207
82449506|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0163|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.0163
82449507|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.0156
82577114|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.185||0.1269|TWO_SIDED|95.0|-0.65|0.08|||MMRM|||Insomnia - Middle, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.65|0.1269
82577115|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.192||0.165|TWO_SIDED|95.0|-0.65|0.11|||MMRM|||Insomnia - Middle, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.65|0.1650
82449508|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0742|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.0742
82449509|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0884|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.0884
82449510|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0007
82449511|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.1173|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure||||0.1173
82449512|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0214|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery||||0.0214
82449513|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity||||0.0114
82449514|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery||||0.0078
82449515|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0875|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery||||0.0875
82449516|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.1526|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery||||0.1526
82449517|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0031|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0031
82449518|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0828|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizure||||0.0828
82449519|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0092|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery||||0.0092
82449520|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0096|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity||||0.0096
82449521|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0234|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery||||0.0234
82449522|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0284|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery||||0.0284
82449523|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0679|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery||||0.0679
82449524|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0003
82449525|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0728|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0728
82427344|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|90.0|0.42|2.45||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.45|0.42|
82577116|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.188||0.1291|TWO_SIDED|95.0|-0.66|0.08|||MMRM|||Insomnia - Middle, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.66|0.1291
82652117|NCT02232074|165019459|SUPERIORITY||Median Difference (Final Values)|-1.45|STANDARD_DEVIATION|2.71||0.61|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||We hypothesize that compared to the control group, the Lung cancer INTERVENTION group will have less distress at 12 months post-enrollment||||0.61
82427345|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.31|||||TWO_SIDED|90.0|0.55|3.1||||||Week 12: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||3.10|0.55|
82427346|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|2.36|||||TWO_SIDED|90.0|0.95|5.88||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.88|0.95|
82427347|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.82|||||TWO_SIDED|90.0|0.74|4.46||||||Week 16: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.46|0.74|
82427348|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|2.8|||||TWO_SIDED|90.0|1.1|7.12||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.12|1.10|
82427349|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|90.0|0.66|4.21||||||Week 20: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.21|0.66|
82449526|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.0005
82449527|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.0005
82427350|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|2.95|||||TWO_SIDED|90.0|1.18|7.41||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||7.41|1.18|
82427351|NCT01405196|164563131|SUPERIORITY||Odds Ratio (OR)|2.03|||||TWO_SIDED|90.0|0.82|5.06||||||Week 24: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||5.06|0.82|
82427352|NCT01405196|164563132|SUPERIORITY||Odds Ratio (OR)|1.59||||0.205|TWO_SIDED|90.0|0.63|4.02||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||\>=4 points reduction in SLEDAI score: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||4.02|0.63|0.205
82427353|NCT01405196|164563132|SUPERIORITY||Odds Ratio (OR)|0.84||||0.625|TWO_SIDED|90.0|0.34|2.08||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||\>=4 points reduction in SLEDAI score: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||2.08|0.34|0.625
82427354|NCT01405196|164563132|SUPERIORITY||Odds Ratio (OR)|2.81||||0.198|TWO_SIDED|90.0|0.38|20.65||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||No worsening in PhGA: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||20.65|0.38|0.198
82427355|NCT01405196|164563132|SUPERIORITY||Odds Ratio (OR)|2.88||||0.192|TWO_SIDED|90.0|0.39|21.3||P-value was displayed without adjusting for multiplicity.|Mixed Models Analysis|||No worsening in PhGA: Point estimates of the ORs as well as their confidence intervals were calculated from the generalized linear mix model that included fixed factors of the stratification factors, treatment, visit and treatment by visit.||21.30|0.39|0.192
82427356|NCT01405196|164563144|SUPERIORITY||LS mean difference|-5.41|||||TWO_SIDED|90.0|-12.3|1.49||||||Week 2: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||1.49|-12.30|
82449528|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.0078
82449529|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.0078
82427357|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-1.39|||||TWO_SIDED|90.0|-8.21|5.42||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||5.42|-8.21|
82427358|NCT01405196|164563144|SUPERIORITY||LS Mean difference|1.3|||||TWO_SIDED|90.0|-5.71|8.32||||||Week 6: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||8.32|-5.71|
82449530|NCT01846741|164606435|SUPERIORITY_OR_OTHER|||||||0.0273|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.0273
82449531|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0192|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0192
82449532|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.8069|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.8069
82449533|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.2416|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.2416
82449534|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1111|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.1111
82535632|NCT00689104|164769445|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.35||||0.019|TWO_SIDED|95.0|-0.68|-0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||-0.03|-0.68|0.019
82561734|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.69|1.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.81|0.69|
82561735|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.32|1.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.85|0.32|
82427359|NCT01405196|164563144|SUPERIORITY||LS Mean difference|4.67|||||TWO_SIDED|90.0|-2.22|11.57||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||11.57|-2.22|
82427360|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-3.98|||||TWO_SIDED|90.0|-11.04|3.07||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||3.07|-11.04|
82427361|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-2.89|||||TWO_SIDED|90.0|-9.87|4.1||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.10|-9.87|
82427362|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-6.21|||||TWO_SIDED|90.0|-13.37|0.94||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||0.94|-13.37|
82427363|NCT01405196|164563144|SUPERIORITY||LS Mean difference|1.98|||||TWO_SIDED|90.0|-5.17|9.13||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.13|-5.17|
82427364|NCT01405196|164563144|SUPERIORITY||LS Mean difference|2.07|||||TWO_SIDED|90.0|-4.7|8.84||||||Week 2: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||8.84|-4.70|
82427365|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-2.81|||||TWO_SIDED|90.0|-9.62|4.0||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.00|-9.62|
82427366|NCT01405196|164563144|SUPERIORITY||LS Mean difference|3.97|||||TWO_SIDED|90.0|-2.95|10.9||||||Week 6: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||10.90|-2.95|
82449535|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0014|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0014
82449536|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.3247|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.3247
82449537|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0826|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0826
82449538|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.1040
82449539|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0094
82449540|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.5874|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.5874
82449541|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1508|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.1508
82449542|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.0136
82449543|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0015
82427367|NCT01405196|164563144|SUPERIORITY||LS Mean difference|2.56|||||TWO_SIDED|90.0|-4.29|9.4||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.40|-4.29|
82427368|NCT01405196|164563144|SUPERIORITY||LS Mean difference|3.14|||||TWO_SIDED|90.0|-3.67|9.94||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.94|-3.67|
82427369|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-4.94|||||TWO_SIDED|90.0|-11.91|2.03||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||2.03|-11.91|
82427370|NCT01405196|164563144|SUPERIORITY||LS Mean difference|-2.64|||||TWO_SIDED|90.0|-9.61|4.32||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||4.32|-9.61|
82427371|NCT01405196|164563144|SUPERIORITY||LS Mean difference|2.66|||||TWO_SIDED|90.0|-4.48|9.8||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline VAS.||9.80|-4.48|
82449544|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.3522|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.3522
82449545|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0240
82449546|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0353|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.0353
82449547|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0361|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0361
82449548|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1921|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue||||0.1921
82652118|NCT02232074|165019460|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|0.08||0.46|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.46
82427372|NCT01405196|164563145|SUPERIORITY||LS mean difference|3.63||||||90.0|-2.56|9.83||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||9.83|-2.56|
82427373|NCT01405196|164563145|SUPERIORITY||LS mean difference|-2.02||||||90.0|-8.21|4.18||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||4.18|-8.21|
82427374|NCT01405196|164563145|SUPERIORITY||LS mean difference|2.62|||||TWO_SIDED|90.0|-3.57|8.82||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||8.82|-3.57|
82427375|NCT01405196|164563145|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-4.51|7.88||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||7.88|-4.51|
82427376|NCT01405196|164563145|SUPERIORITY||LS mean difference|4.59|||||TWO_SIDED|90.0|-1.61|10.79||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||10.79|-1.61|
82535633|NCT00689104|164769446|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.4||||0.004|TWO_SIDED|95.0|-0.66|-0.13||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.13|-0.66|0.004
82427377|NCT01405196|164563145|SUPERIORITY||LS mean difference|3.95||||||90.0|-2.24|10.15||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||10.15|-2.24|
82427378|NCT01405196|164563145|SUPERIORITY||LS mean difference|1.92||||||90.0|-4.17|8.01||||||Week 4: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||8.01|-4.17|
82427379|NCT01405196|164563145|SUPERIORITY||LS mean difference|-4.2||||||90.0|-10.25|1.85||||||Week 8: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||1.85|-10.25|
82449549|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1639|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being||||0.1639
82449550|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1738|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning||||0.1738
82449551|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0401|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning||||0.0401
82449552|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.2753|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects||||0.2753
82449553|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0056|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0056
82535634|NCT00689104|164769446|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.79|-0.26||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.26|-0.79|<0.001
82535635|NCT00689104|164769446|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33||||0.016|TWO_SIDED|95.0|-0.6|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since the comparison between tolterodine and placebo was a secondary analysis, no adjustment for multiplicity was necessary.||-0.06|-0.60|0.016
82535636|NCT04873817|164769473|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||< 0.0001
82535637|NCT00216320|164769475|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<.001
82535638|NCT00924560|164769479|NON_INFERIORITY_OR_EQUIVALENCE|91-day levonorgestrel OC was declared to be non-inferior to the untreated control group if the lower bound of the 2-sided 95% confidence interval (CI) was greater than -3%.|LS Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.67|0.2|||||Difference = OC group minus the untreated control|The primary efficacy endpoint (percent change from baseline to 12 months in lumbar spine BMD) was analyzed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.20|-0.67|
82535639|NCT00924560|164769479|NON_INFERIORITY_OR_EQUIVALENCE|28-day levonorgestrel OC was declared to be non-inferior to the untreated control group if the lower bound of the 2-sided 95% confidence interval (CI) was greater than -3%.|LS Mean Difference|-1.05|||||TWO_SIDED|95.0|-1.49|-0.61|||||Difference = OC group minus the untreated control|The primary efficacy endpoint (percent change from baseline to 12 months in lumbar spine BMD) was analyzed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.61|-1.49|
82577117|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.189||0.0402|TWO_SIDED|95.0|-0.77|-0.02|||MMRM|||Insomnia - Middle, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.77|0.0402
82427380|NCT01405196|164563145|SUPERIORITY||LS mean difference|1.5|||||TWO_SIDED|90.0|-4.56|7.55||||||Week 16: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||7.55|-4.56|
82427381|NCT01405196|164563145|SUPERIORITY||LS mean difference|0.1|||||TWO_SIDED|90.0|-5.96|6.15||||||Week 20: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||6.15|-5.96|
82427382|NCT01405196|164563145|SUPERIORITY||LS mean difference|-0.34|||||TWO_SIDED|90.0|-6.39|5.71||||||Week 24: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||5.71|-6.39|
82449554|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.1173|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.1173
82535640|NCT00924560|164769480|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|-0.00|
82652119|NCT02232074|165019461|SUPERIORITY||Median Difference (Final Values)|-0.03|STANDARD_DEVIATION|0.2||0.89|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.89
82427383|NCT01405196|164563145|SUPERIORITY||LS mean difference|-2.34|||||TWO_SIDED|90.0|-8.39|3.71||||||Week 12: Analysis was done using linear mixed effect model that included fixed factors of the stratification factors, treatment, visit, treatment by visit and baseline tender score.||3.71|-8.39|
82427384|NCT01405196|164563147|SUPERIORITY||LS mean difference|0.53|||||TWO_SIDED|90.0|-2.53|3.59||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.59|-2.53|
82535641|NCT00924560|164769480|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
82652120|NCT02232074|165019462|SUPERIORITY||Mean Difference (Final Values)|2.38|STANDARD_DEVIATION|1.66||0.16|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.16
82427385|NCT01405196|164563147|SUPERIORITY||LS mean difference|-0.48|||||TWO_SIDED|90.0|-3.54|2.58||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.58|-3.54|
82427386|NCT01405196|164563147|SUPERIORITY||LS mean difference|1.28|||||TWO_SIDED|90.0|-1.78|4.34||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.34|-1.78|
82427387|NCT01405196|164563147|SUPERIORITY||LS mean difference|1.78|||||TWO_SIDED|90.0|-1.28|4.84||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.84|-1.28|
82427388|NCT01405196|164563147|SUPERIORITY||LS mean difference|1.2|||||TWO_SIDED|90.0|-1.86|4.26||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-1.86|
82427389|NCT01405196|164563147|SUPERIORITY||LS mean difference|0.09|||||TWO_SIDED|90.0|-2.98|3.15||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.15|-2.98|
82449555|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0268|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.0268
82449556|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.4406|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final||||0.4406
82449557|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.7926|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional Well Being Final||||0.7926
82449558|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0987|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final||||0.0987
82449559|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0361|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final||||0.0361
82449560|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0615|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final||||0.0615
82449561|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry||||0.0024
82449562|NCT01846741|164606436|SUPERIORITY_OR_OTHER|||||||0.0155|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life||||0.0155
82652121|NCT02232074|165019463|SUPERIORITY||Mean Difference (Final Values)|-4.83|STANDARD_DEVIATION|2.93||0.16|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.16
82427390|NCT01405196|164563147|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|90.0|-3.03|3.03||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.03|-3.03|
82427391|NCT01405196|164563147|SUPERIORITY||LS mean difference|-0.09|||||TWO_SIDED|90.0|-3.09|2.92||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.92|-3.09|
82427392|NCT01405196|164563147|SUPERIORITY||LS mean difference|-0.02|||||TWO_SIDED|90.0|-3.03|2.99||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.99|-3.03|
82427393|NCT01405196|164563147|SUPERIORITY||LS mean difference|-0.16|||||TWO_SIDED|90.0|-3.17|2.85||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.85|-3.17|
82427394|NCT01405196|164563147|SUPERIORITY||LS mean difference|-1.58|||||TWO_SIDED|90.0|-4.58|1.43||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||1.43|-4.58|
82427395|NCT01405196|164563147|SUPERIORITY||LS mean difference|-0.71|||||TWO_SIDED|90.0|-3.72|2.3||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.30|-3.72|
82427396|NCT01405196|164563147|SUPERIORITY||LS mean difference|2.67|||||TWO_SIDED|90.0|0.14|5.2||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.20|0.14|
82427397|NCT01405196|164563147|SUPERIORITY||LS mean difference|3.36|||||TWO_SIDED|90.0|0.84|5.89||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.89|0.84|
82427398|NCT01405196|164563147|SUPERIORITY||LS mean difference|3.23|||||TWO_SIDED|90.0|0.7|5.76||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.76|0.70|
82427399|NCT01405196|164563147|SUPERIORITY||LS mean difference|3.77|||||TWO_SIDED|90.0|1.24|6.3||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.30|1.24|
82427400|NCT01405196|164563147|SUPERIORITY||LS mean difference|3.1|||||TWO_SIDED|90.0|0.57|5.63||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.63|0.57|
82427401|NCT01405196|164563147|SUPERIORITY||LS mean difference|3.03||||||90.0|0.5|5.56||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.56|0.50|
82427402|NCT01405196|164563147|SUPERIORITY||LS mean difference|1.96|||||TWO_SIDED|90.0|-0.53|4.46||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.46|-0.53|
82427403|NCT01405196|164563147|SUPERIORITY||LS mean difference|2.68||||||90.0|0.2|5.17||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.17|0.20|
82427404|NCT01405196|164563147|SUPERIORITY||LS mean difference|1.84|||||TWO_SIDED|90.0|-0.65|4.32||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.32|-0.65|
82427405|NCT01405196|164563147|SUPERIORITY||LS mean difference|2.01|||||TWO_SIDED|90.0|-0.47|4.5||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.50|-0.47|
82427406|NCT01405196|164563147|SUPERIORITY||LS mean difference|2.34|||||TWO_SIDED|90.0|-0.15|4.82||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.82|-0.15|
82427407|NCT01405196|164563147|SUPERIORITY||LS mean difference|2.59|||||TWO_SIDED|90.0|0.11|5.08||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.08|0.11|
82427408|NCT01405196|164563148|SUPERIORITY||LS mean difference|0.47||||||90.0|-6.33|7.27||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||7.27|-6.33|
82427409|NCT01405196|164563148|SUPERIORITY||LS mean difference|3.92||||||90.0|-2.88|10.72||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.72|-2.88|
82427410|NCT01405196|164563148|SUPERIORITY||LS mean difference|3.55|||||TWO_SIDED|90.0|-3.25|10.36||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.36|-3.25|
82427411|NCT01405196|164563148|SUPERIORITY||LS mean difference|7.85|||||TWO_SIDED|90.0|1.05|14.66||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||14.66|1.05|
82427412|NCT01405196|164563148|SUPERIORITY||LS mean difference|7.12|||||TWO_SIDED|90.0|0.32|13.92||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||13.92|0.32|
82577118|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.185||0.0342|TWO_SIDED|95.0|-0.76|-0.03|||MMRM|||Insomnia - Middle, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.76|0.0342
82577119|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.193||0.1269|TWO_SIDED|95.0|-0.68|0.09|||MMRM|||Insomnia - Middle, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.68|0.1269
82577120|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.188||0.3945|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Insomnia - Middle, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3945
82577121|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.185||0.5828|TWO_SIDED|95.0|-0.47|0.26|||MMRM|||Insomnia - Middle, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.47|0.5828
82577122|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.182||0.6625|TWO_SIDED|95.0|-0.28|0.44|||MMRM|||Insomnia - Middle, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.28|0.6625
82577123|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.216||0.0041|TWO_SIDED|95.0|-1.07|-0.21|||MMRM|||Insomnia - Middle, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.21|-1.07|0.0041
82577124|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.21||0.2222|TWO_SIDED|95.0|-0.67|0.16|||MMRM|||Insomnia - Middle, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.67|0.2222
82577125|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.218||0.0245|TWO_SIDED|95.0|-0.93|-0.07|||MMRM|||Insomnia - Middle, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.93|0.0245
82577126|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.209||0.5119|TWO_SIDED|95.0|-0.55|0.28|||MMRM|||Insomnia - Middle, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.55|0.5119
82577127|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.197||0.0299|TWO_SIDED|95.0|-0.82|-0.04|||MMRM|||Insomnia - Middle, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.82|0.0299
82577128|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.195||0.2824|TWO_SIDED|95.0|-0.6|0.18|||MMRM|||Insomnia - Middle, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.60|0.2824
82652122|NCT02232074|165019464|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_DEVIATION|0.75||0.13|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.13
82577129|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.129||0.1768|TWO_SIDED|95.0|-0.08|0.43|||MMRM|||Insomnia - Late, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.08|0.1768
82652123|NCT02232074|165019465|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_DEVIATION|3.7||0.8|TWO_SIDED|||||a priori threshold for statistical significance p\<0.05|Regression, Linear|||||||0.80
82427413|NCT01405196|164563148|SUPERIORITY||LS mean difference|4.33|||||TWO_SIDED|90.0|-2.47|11.13||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||11.13|-2.47|
82427414|NCT01405196|164563148|SUPERIORITY||LS mean difference|1.33|||||TWO_SIDED|90.0|-5.4|8.05||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||8.05|-5.40|
82449563|NCT01846741|164606438|SUPERIORITY_OR_OTHER|||||||0.0625|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||3 months||||0.0625
82449564|NCT01846741|164606438|SUPERIORITY_OR_OTHER|||||||0.1094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||6 months||||0.1094
82449565|NCT01846741|164606438|SUPERIORITY_OR_OTHER|||||||0.0342|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||12 months||||0.0342
82449566|NCT01846741|164606438|SUPERIORITY_OR_OTHER|||||||0.5417|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||18 Months||||0.5417
82449567|NCT01853878|164606447|EQUIVALENCE|P-value of the Wald test from a Cox regression model to test H0 = { HR=1} (Y = Time to Event)|Hazard Ratio (HR)|4.592||||0.1422|TWO_SIDED|95.0|0.6|35.167|||Regression, Cox|||Estimates of Hazard Ratio (HR) and their 95% Confidence Interval (CI) were obtained by Cox regression modelling.The Likelihood ratio test was used to compare the groups. The Cox proportional hazard regression was stratified by previous treatment \[Chemotherapy (CT) vs. no-CT\] and disease stage.||35.167|0.600|0.1422
82449568|NCT03916081|164606472|SUPERIORITY||LS Mean Difference vs Vehicle|-1.18||||0.356|TWO_SIDED|95.0|-2.983|0.619||MMRM = mixed effects model for repeated measures vIGA-AD = validated Investigator Global Assessment scale for Atopic Dermatitis|MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||0.619|-2.983|0.356
82449569|NCT03916081|164606472|SUPERIORITY||LS Mean Difference vs Vehicle|-1.6||||0.097|TWO_SIDED|95.0|-3.382|0.178|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||0.178|-3.382|0.097
82449570|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-11.37||||0.248|TWO_SIDED|95.0|-26.789|4.044|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||4.044|-26.789|0.248
82449571|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-10.28||||0.349|TWO_SIDED|95.0|-25.666|5.114|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||5.114|-25.666|0.349
82449572|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-5.82||||0.912|TWO_SIDED|-22.52|-22.52|10.88|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 2 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||10.880|-22.520|0.912
82535642|NCT00924560|164769480|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
82427415|NCT01405196|164563148|SUPERIORITY||LS mean difference|3.93|||||TWO_SIDED|90.0|-2.75|10.62||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.62|-2.75|
82427416|NCT01405196|164563148|SUPERIORITY||LS mean difference|-0.78|||||TWO_SIDED|90.0|-7.47|5.91||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.91|-7.47|
82449573|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-9.17||||0.548|TWO_SIDED|95.0|-25.686|7.341|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 2 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||7.341|-25.686|0.548
82449574|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-13.53||||0.164|TWO_SIDED|95.0|-30.157|3.097|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||3.097|-30.157|0.164
82427417|NCT01405196|164563148|SUPERIORITY||LS mean difference|3.67||||||90.0|-3.02|10.35||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||10.35|-3.02|
82427418|NCT01405196|164563148|SUPERIORITY||LS mean difference|2.99|||||TWO_SIDED|90.0|-3.7|9.68||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||9.68|-3.70|
82427419|NCT01405196|164563148|SUPERIORITY||LS mean difference|1.44|||||TWO_SIDED|90.0|-5.24|8.13||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||8.13|-5.24|
82427420|NCT01405196|164563149|SUPERIORITY||LS mean difference|0.53|||||TWO_SIDED|90.0|-2.53|3.59||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.59|-2.53|
82427421|NCT01405196|164563149|SUPERIORITY||LS mean difference|-0.48|||||TWO_SIDED|90.0|-3.54|2.58||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.58|-3.54|
82427422|NCT01405196|164563149|SUPERIORITY||LS mean difference|1.28|||||TWO_SIDED|90.0|-1.78|4.34||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.34|-1.78|
82427423|NCT01405196|164563149|SUPERIORITY||LS mean difference|1.78|||||TWO_SIDED|90.0|-1.28|4.84||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.84|-1.28|
82427424|NCT01405196|164563149|SUPERIORITY||LS mean difference|1.2|||||TWO_SIDED|90.0|-1.86|4.26||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-1.86|
82449575|NCT03916081|164606473|SUPERIORITY||LS Mean Difference|-16.48||||0.049|TWO_SIDED|95.0|-32.921|-0.048|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Percent Change from Baseline in Week 4 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||-0.048|-32.921|0.049
82449576|NCT03916081|164606474|SUPERIORITY||LS Mean Difference|-0.92||||0.44|TWO_SIDED|95.0|-2.412|0.568|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.05% vs. Vehicle Cream||0.568|-2.412|0.440
82648193|NCT04288115|165011867|NON_INFERIORITY|A one-sided α-level of 0.05 will be used to determine the statistical significance of the non-inferiority test.|Difference in Group Means|5.2||||0.0036|TWO_SIDED|90.0|-6.2|16.6||Group differences.|Welch's two-sample t-test|A one-sided p-value \< 0.05 indicates the discontinuation mean falls within the non-inferiority limit.|Differences reported as the sham discontinuation mean minus the real discontinuation mean.|A one-sided t-test will be used to determine whether the mean Tiredness score for the real discontinuation group is no more than 14 points worse than the score of the sham discontinuation group at 6 months.||16.6|-6.2|0.0036
82449577|NCT03916081|164606474|SUPERIORITY||LS Mean Difference|-0.57||||0.875|TWO_SIDED|95.0|-2.061|0.914|||MMRM|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline EASI as a covariate.|Change from Baseline in Week 1 EASI Total Score: Roflumilast Cream 0.15% vs. Vehicle Cream||0.914|-2.061|0.875
82449578|NCT03916081|164606475|SUPERIORITY|||||||0.352|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.352
82449579|NCT03916081|164606475|SUPERIORITY|||||||0.803|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.803
82427425|NCT01405196|164563149|SUPERIORITY||LS mean difference|0.09|||||TWO_SIDED|90.0|-2.98|3.15||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.15|-2.98|
82449580|NCT03916081|164606475|SUPERIORITY|||||||0.25|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.250
82449581|NCT03916081|164606475|SUPERIORITY|||||||0.756|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.756
82427426|NCT01405196|164563149|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|90.0|-3.03|3.03||||||MCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.03|-3.03|
82427427|NCT01405196|164563149|SUPERIORITY||LS mean difference|-0.09|||||TWO_SIDED|90.0|-3.09|2.92||||||MCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.92|-3.09|
82427428|NCT01405196|164563149|SUPERIORITY||LS mean difference|-0.02|||||TWO_SIDED|90.0|-3.03|2.99||||||MCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.99|-3.03|
82535643|NCT00924560|164769480|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.02|-0.01||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.01|-0.02|
82652124|NCT02637557|165019476|SUPERIORITY||LS Mean Difference|-2.952||||0.6065|TWO_SIDED|95.0|-14.222|8.318||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||8.318|-14.222|0.6065
82427429|NCT01405196|164563149|SUPERIORITY||LS mean difference|-0.16|||||TWO_SIDED|90.0|-3.17|2.85||||||MCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.85|-3.17|
82427430|NCT01405196|164563149|SUPERIORITY||LS mean difference|-1.58|||||TWO_SIDED|90.0|-4.58|1.43||||||MCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||1.43|-4.58|
82427431|NCT01405196|164563149|SUPERIORITY||LS mean difference|-0.71|||||TWO_SIDED|90.0|-3.72|2.3||||||MCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||2.30|-3.72|
82427432|NCT01405196|164563149|SUPERIORITY||LS mean difference|2.67|||||TWO_SIDED|90.0|0.14|5.2||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.20|0.14|
82427433|NCT01405196|164563149|SUPERIORITY||LS mean difference|3.36|||||TWO_SIDED|90.0|0.84|5.89||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.89|0.84|
82427434|NCT01405196|164563149|SUPERIORITY||LS mean difference|3.23|||||TWO_SIDED|90.0|0.7|5.76||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.76|0.70|
82427435|NCT01405196|164563149|SUPERIORITY||LS mean difference|3.77|||||TWO_SIDED|90.0|1.24|6.3||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.30|1.24|
82427436|NCT01405196|164563149|SUPERIORITY||LS mean difference|3.1|||||TWO_SIDED|90.0|0.57|5.63||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.63|0.57|
82535644|NCT00924560|164769481|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17|||||TWO_SIDED|95.0|-0.08|0.42||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.42|-0.08|
82535645|NCT00924560|164769481|SUPERIORITY_OR_OTHER||LS mean Difference|-0.43|||||TWO_SIDED|95.0|-0.68|-0.18||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.18|-0.68|
82535646|NCT00924560|164769481|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.39|0.24||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.24|-0.39|
82535647|NCT00924560|164769481|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74|||||TWO_SIDED|95.0|-1.05|-0.42||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.42|-1.05|
82577130|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.6498|TWO_SIDED|95.0|-0.31|0.19|||MMRM|||Insomnia - Late, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.31|0.6498
82577131|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.7689|TWO_SIDED|95.0|-0.25|0.34|||MMRM|||Insomnia - Late, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.25|0.7689
82577132|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.146||0.2236|TWO_SIDED|95.0|-0.47|0.11|||MMRM|||Insomnia - Late, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.47|0.2236
82427437|NCT01405196|164563149|SUPERIORITY||LS mean difference|3.03||||||90.0|0.5|5.56||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.56|0.50|
82427438|NCT01405196|164563149|SUPERIORITY||LS mean difference|1.96|||||TWO_SIDED|90.0|-0.53|4.46||||||PCS Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.46|-0.53|
82427439|NCT01405196|164563149|SUPERIORITY||LS mean difference|2.68||||||90.0|0.2|5.17||||||PCS Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.17|0.20|
82535648|NCT00924560|164769482|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|0.00|
82535649|NCT00924560|164769482|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
82427440|NCT01405196|164563149|SUPERIORITY||LS mean difference|1.84|||||TWO_SIDED|90.0|-0.65|4.32||||||PCS Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.32|-0.65|
82535650|NCT00924560|164769482|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|||||TWO_SIDED|95.0|0.0|0.01||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.01|0.00|
82535651|NCT00924560|164769482|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|0.95|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
82577133|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.148||0.6952|TWO_SIDED|95.0|-0.35|0.23|||MMRM|||Insomnia - Late, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.35|0.6952
82427441|NCT01405196|164563149|SUPERIORITY||LS mean difference|2.01|||||TWO_SIDED|90.0|-0.47|4.5||||||PCS Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.50|-0.47|
82427442|NCT01405196|164563149|SUPERIORITY||LS mean difference|2.34|||||TWO_SIDED|90.0|-0.15|4.82||||||PCS Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.82|-0.15|
82535652|NCT00924560|164769483|SUPERIORITY_OR_OTHER||LS mean Difference|0.13|||||TWO_SIDED|95.0|-0.03|0.28||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.28|-0.03|
82427443|NCT01405196|164563149|SUPERIORITY||LS mean difference|2.59|||||TWO_SIDED|90.0|0.11|5.08||||||PCS Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.08|0.11|
82427444|NCT01405196|164563151|SUPERIORITY||LS mean difference|2.08|||||TWO_SIDED|90.0|-1.26|5.42||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the Least Square (LS) mean difference from that model.||5.42|-1.26|
82427445|NCT01405196|164563151|SUPERIORITY||LS mean difference|1.95|||||TWO_SIDED|90.0|-1.38|5.29||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.29|-1.38|
82427446|NCT01405196|164563151|SUPERIORITY||LS mean difference|2.81|||||TWO_SIDED|90.0|-0.53|6.15||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.15|-0.53|
82577134|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.144||0.1184|TWO_SIDED|95.0|-0.51|0.06|||MMRM|||Insomnia - Late, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.51|0.1184
82585965|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.0236||||||2M- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0236
82648194|NCT04288115|165011867|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|2.3||||0.7104|TWO_SIDED|95.0|-10.1|14.7||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These mean differences have been adjusted for gender and baseline tiredness score.|Analysis of 6-week outcome||14.7|-10.1|0.7104
82427447|NCT01405196|164563151|SUPERIORITY||LS mean difference|3.88|||||TWO_SIDED|90.0|0.54|7.22||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||7.22|0.54|
82427448|NCT01405196|164563151|SUPERIORITY||LS mean difference|1.95|||||TWO_SIDED|90.0|-1.39|5.29||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.29|-1.39|
82427449|NCT01405196|164563151|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-1.65|5.03||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||5.03|-1.65|
82427450|NCT01405196|164563151|SUPERIORITY||LS mean difference|1.69|||||TWO_SIDED|90.0|-1.61|4.99||||||Week 4: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.99|-1.61|
82427451|NCT01405196|164563151|SUPERIORITY||LS mean difference|0.97|||||TWO_SIDED|90.0|-2.31|4.26||||||Week 8: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.26|-2.31|
82427452|NCT01405196|164563151|SUPERIORITY||LS mean difference|1.33|||||TWO_SIDED|90.0|-1.96|4.61||||||Week 12: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.61|-1.96|
82427453|NCT01405196|164563151|SUPERIORITY||LS mean difference|3.6|||||TWO_SIDED|90.0|0.32|6.89||||||Week 16: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||6.89|0.32|
82427454|NCT01405196|164563151|SUPERIORITY||LS mean difference|0.91|||||TWO_SIDED|90.0|-2.38|4.19||||||Week 20: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||4.19|-2.38|
82427455|NCT01405196|164563151|SUPERIORITY||LS mean difference|0.6|||||TWO_SIDED|90.0|-2.68|3.88||||||Week 24: Analysis was done using the ANCOVA model; CI parameter being the LS mean difference from that model.||3.88|-2.68|
82427456|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.955|||||TWO_SIDED|95.0|0.888|0.987||||||"Descriptive statistics only/proportion reported good or excellent~Q1a. Genetic testing is a blood test that looks for mutations in genes that can increase cancer risk"||.987|.888|
82427457|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.931|||||TWO_SIDED|95.0|0.856|0.974||||||"Descriptive statistics only/proportion reported good or excellent~Q1b. Genetic test results may help guide my treatment options"||.974|.856|
82427458|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.943|||||TWO_SIDED|95.0|0.872|0.981||||||"Descriptive statistics only/proportion reported good or excellent~Q1c. Genetic test results may help me understand the future risks of other cancers"||.981|.872|
82427459|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.851|||||TWO_SIDED|95.0|0.758|0.918||||||"Descriptive statistics only/proportion reported good or excellent~Q1d. Genetic test results may increase stress to me and my family members"||.918|.758|
82652125|NCT02637557|165019476|SUPERIORITY||LS Mean Difference|-9.036||||0.116|TWO_SIDED|95.0|-20.318|2.245||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||2.245|-20.318|0.1160
82427460|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.931|||||TWO_SIDED|95.0|0.856|0.974||||||"Descriptive statistics only/proportion reported good or excellent~Q1e. There are 3 gene panel options that include either a small, medium, or large number of genes"||.974|.856|
82427461|NCT04704193|164563152|OTHER|This arm includes descriptive statistics only.|count with proportion|0.919|||||TWO_SIDED|95.0|0.839|0.967||||||"Descriptive statistics only/proportion reported good or excellent~Q1f. Gene test results may come back as positive, negative or uncertain"||.967|.839|
82427462|NCT04704193|164563153|OTHER|Summary statistics only|Mean|13.7|STANDARD_DEVIATION|5.6|||TWO_SIDED|||||||||||||
82427463|NCT03449576|164563154|SUPERIORITY||Slope|5.3846|STANDARD_ERROR_OF_MEAN|6.5525||0.4154|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the CAPS score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.4154
82427464|NCT03449576|164563155|SUPERIORITY||Slope|0.267397|STANDARD_ERROR_OF_MEAN|0.362521||0.4636|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the SAS-SR score-- with the interaction between Visit (pre/post) and Treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.4636
82427465|NCT03449576|164563156|SUPERIORITY||Slope|2.3355|STANDARD_ERROR_OF_MEAN|6.8791||0.735129|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the PCL score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.735129
82648195|NCT04288115|165011867|OTHER|A two-sided α-level of 0.05 will be used to determine statistical significance.|Difference in Group Means|5.4||||0.3381|TWO_SIDED|95.0|-5.9|16.7||Group differences.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as sham discontinuation mean minus real discontinuation mean. These differences have been adjusted for gender and baseline tiredness scores.|Analysis of 6-month outcome||16.7|-5.9|0.3381
82427466|NCT03449576|164563157|SUPERIORITY||Slope|-2.64908|STANDARD_ERROR_OF_MEAN|4.76601||0.58|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the AQ score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.580
82427467|NCT03449576|164563158|SUPERIORITY||Slope|1.3946|STANDARD_ERROR_OF_MEAN|5.7193||0.808|TWO_SIDED|||||This P value is the interaction term between Visit and Treatment.|Regression, Linear||This is the beta value for the interaction term between Visit and Treatment.|Test of prediction of dependent variable -- the ITS score-- with the interaction between Visit (pre/post) and treatment type (TMT vs. EXP+EDU), as well as independent variable, age||||0.808
82427468|NCT00829998|164563159|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|97.4||||||90.0|89.4|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|89.4|
82427469|NCT00829998|164563160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|102.0||||||90.0|97.1|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|97.1|
82427470|NCT00829998|164563161|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Geometric Means|102.0||||||90.0|97.1|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|97.1|
82427471|NCT02735421|164563167|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82535653|NCT00924560|164769483|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.2|0.11||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.11|-0.20|
82535654|NCT00924560|164769483|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16|||||TWO_SIDED|95.0|-0.01|0.34||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.34|-0.01|
82535655|NCT00924560|164769483|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.32|0.03||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.03|-0.32|
82427472|NCT01246960|164563238|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.886|TWO_SIDED|95.0|0.69|1.37|||Stratified Log Rank|||||1.37|0.69|0.886
82427473|NCT01246960|164563239|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.712|TWO_SIDED|95.0|0.73|1.58|||Stratified Log Rank|||||1.58|0.73|0.712
82427474|NCT01246960|164563242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.516|TWO_SIDED|95.0|0.59|1.3|||Stratified Log Rank|||||1.30|0.59|0.516
82427475|NCT03235050|164563260|SUPERIORITY||LS Mean Difference|-0.83|||<|0.001|TWO_SIDED|95.0|-1.06|-0.59|||ANCOVA|||||-0.59|-1.06|<0.001
82427476|NCT03235050|164563260|SUPERIORITY||LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.23|-0.85|||ANCOVA|||||-0.85|-1.23|<0.001
82427477|NCT03235050|164563260|SUPERIORITY||LS Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.11|-0.72|||ANCOVA|||||-0.72|-1.11|<0.001
82427478|NCT03235050|164563261|SUPERIORITY||LS Mean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-3.08|-0.91|||ANCOVA|||||-0.91|-3.08|<0.001
82535656|NCT00924560|164769484|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
82652126|NCT02637557|165019476|SUPERIORITY||LS Mean Difference|-11.943||||0.04|TWO_SIDED|95.0|-23.334|-0.551||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||-0.551|-23.334|0.0400
82427479|NCT03235050|164563261|SUPERIORITY||LS Mean Difference|-2.76|||<|0.001|TWO_SIDED|95.0|-3.65|-1.87|||ANCOVA|||||-1.87|-3.65|<0.001
82427480|NCT03235050|164563261|SUPERIORITY||LS Mean Difference|-3.62|||<|0.001|TWO_SIDED|95.0|-4.51|-2.73|||ANCOVA|||||-2.73|-4.51|<0.001
82427481|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.92|-0.4|||ANCOVA|||Week 26||-0.40|-0.92|<0.001
82427482|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.03|-0.6|||ANCOVA|||Week 26||-0.60|-1.03|<0.001
82427483|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.72|||<|0.001|TWO_SIDED|95.0|-0.94|-0.51|||ANCOVA|||Week 26||-0.51|-0.94|<0.001
82427484|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.8|-0.24|||ANCOVA|||Week 54||-0.24|-0.80|<0.001
82427485|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.63|||<|0.001|TWO_SIDED|95.0|-0.86|-0.39|||ANCOVA|||Week 54||-0.39|-0.86|<0.001
82427486|NCT03235050|164563262|SUPERIORITY||LS Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.8|-0.34|||ANCOVA|||Week 54||-0.34|-0.80|<0.001
82427487|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|6.67|||<|0.001|TWO_SIDED|92.0|3.34|13.3|||Regression, Logistic|||Week 14||13.30|3.34|<0.001
82427488|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|9.95|||<|0.001|TWO_SIDED|95.0|5.39|18.36|||Regression, Logistic|||Week 14||18.36|5.39|<0.001
82427489|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|8.52|||<|0.001|TWO_SIDED|95.0|4.65|15.61|||Regression, Logistic|||Week 14||15.61|4.65|<0.001
82427490|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|3.74|||<|0.001|TWO_SIDED|95.0|1.98|7.03|||Regression, Logistic|||Week 26||7.03|1.98|<0.001
82427491|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|5.4|||<|0.001|TWO_SIDED|95.0|3.13|9.34|||Regression, Logistic|||Week 26||9.34|3.13|<0.001
82427492|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|5.2|||<|0.001|TWO_SIDED|95.0|3.02|8.97|||Regression, Logistic|||Week 26||8.97|3.02|<0.001
82535657|NCT00924560|164769484|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||0.00|-0.01|
82535658|NCT00924560|164769484|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
82535659|NCT00924560|164769484|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.0||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||-0.00|-0.01|
82535660|NCT00924560|164769485|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.48|||||TWO_SIDED|95.0|-23.57|12.61||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||12.61|-23.57|
82535661|NCT00924560|164769485|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.55|||||TWO_SIDED|95.0|-25.65|10.55||||||Comparison of Change from Baseline to Month 6. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||10.55|-25.65|
82535662|NCT00924560|164769485|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.09|||||TWO_SIDED|95.0|-34.99|10.81||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||10.81|-34.99|
82535663|NCT00924560|164769485|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.17|||||TWO_SIDED|95.0|-44.08|1.74||||||Comparison of Change from Baseline to Month 12. ANCOVA model with treatment as a fixed effect and chronological age, body weight, and Baseline value as covariates.||1.74|-44.08|
82535664|NCT00665561|164769503|SUPERIORITY||Risk Ratio (RR)|0.53|||||TWO_SIDED|95.0|0.42|0.67||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude risk ratio (RR) and CI.||0.67|0.42|
82535665|NCT00665561|164769504|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.12|5.88||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||5.88|0.12|
82535666|NCT00665561|164769505|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.66|1.33||||||All Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.33|0.66|
82577135|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.149||0.3031|TWO_SIDED|95.0|-0.14|0.45|||MMRM|||Insomnia - Late, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.14|0.3031
82577136|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.145||0.3091|TWO_SIDED|95.0|-0.44|0.14|||MMRM|||Insomnia - Late, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.44|0.3091
82535667|NCT00665561|164769505|SUPERIORITY||Risk Ratio (RR)|0.62|||||TWO_SIDED|95.0|0.29|1.31||||||AIDS defining Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.31|0.29|
82535668|NCT00665561|164769505|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.71|1.58||||||Non-AIDS defining Malignancies: Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.58|0.71|
82535669|NCT00665561|164769506|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.44|2.18||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||2.18|0.44|
82535670|NCT00665561|164769507|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.51|1.59||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.59|0.51|
82535671|NCT00665561|164769508|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.7|1.76||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.76|0.70|
82535672|NCT00665561|164769509|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.25|4.93||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||4.93|0.25|
82535673|NCT00665561|164769510|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.18|2.47||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||2.47|0.18|
82535674|NCT00665561|164769511|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.57|1.08||||||Poisson regressions were fit to the categorical events with only treatment in the model to obtain the crude RR and CI.||1.08|0.57|
82535675|NCT00665561|164769512|SUPERIORITY||Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.61|0.99||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||0.99|0.61|
82535676|NCT00665561|164769513|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.64|1.33||||||All malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.33|0.64|
82535677|NCT00665561|164769513|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.32|1.52||||||AIDS defining malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.32|
82577137|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.179||0.1525|TWO_SIDED|95.0|-0.61|0.1|||MMRM|||Insomnia - Late, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.61|0.1525
82652127|NCT02637557|165019476|SUPERIORITY|||||||0.0225||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.0225
82449582|NCT03916081|164606475|SUPERIORITY|||||||0.097|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.097
82449583|NCT03916081|164606475|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-50 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.054
82449584|NCT03916081|164606476|SUPERIORITY|||||||0.178|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.178
82449585|NCT03916081|164606476|SUPERIORITY|||||||0.046|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.046
82449586|NCT03916081|164606476|SUPERIORITY|||||||0.469|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.469
82449587|NCT03916081|164606476|SUPERIORITY|||||||0.446|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.446
82648196|NCT04288115|165011868|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-0.02||||0.4684|TWO_SIDED|95.0|-0.076|0.036||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D Descriptive scores.|Analysis of 6-week EQ-5D Descriptive score outcome.||0.036|-0.076|0.4684
82449588|NCT03916081|164606476|SUPERIORITY|||||||0.009|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.009
82449589|NCT03916081|164606476|SUPERIORITY|||||||0.045|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-75 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.045
82449590|NCT03916081|164606477|SUPERIORITY|||||||0.317|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.317
82449591|NCT03916081|164606477|SUPERIORITY|||||||0.182|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.182
82449592|NCT03916081|164606477|SUPERIORITY|||||||0.485|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.485
82449593|NCT03916081|164606477|SUPERIORITY|||||||0.913|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.913
82449594|NCT03916081|164606477|SUPERIORITY|||||||0.288|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-90 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.288
82449595|NCT03916081|164606478|SUPERIORITY|||||||0.34|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.340
82449596|NCT03916081|164606478|SUPERIORITY|||||||0.146|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.146
82449597|NCT03916081|164606478|SUPERIORITY|||||||0.967|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.967
82449598|NCT03916081|164606478|SUPERIORITY|||||||0.088|||||||Cochran-Mantel-Haenszel|Baseline vIGA-AD was included as stratification factor.||Number Achieving EASI-100 at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.088
82449599|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|0.38||||0.989|TWO_SIDED|95.0|-1.098|1.852|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||1.852|-1.098|0.989
82449600|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|-0.1|||>|0.999|TWO_SIDED|95.0|-1.566|1.367|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||1.367|-1.566|>0.999
82652128|NCT02637557|165019477|SUPERIORITY||LS Mean Difference|-3.711||||0.4795|TWO_SIDED|95.0|-14.028|6.606||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||6.606|-14.028|0.4795
82449601|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|0.6||||0.966|TWO_SIDED|95.0|-1.51|2.702|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||2.702|-1.510|0.966
82449602|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|-0.34||||0.999|TWO_SIDED|95.0|-2.415|1.744|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||1.744|-2.415|0.999
82449603|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|-0.25|||>|0.999|TWO_SIDED|95.0|-2.624|2.119|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||2.119|-2.624|>0.999
82449604|NCT03916081|164606479|SUPERIORITY||LS Mean Difference|-0.94||||0.798|TWO_SIDED|95.0|-3.285|1.398|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline BSA as a covariate.|Change from Baseline in BSA Affected at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||1.398|-3.285|0.798
82535678|NCT00665561|164769513|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||Non-AIDS defining malignancies: Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.66|
82535679|NCT00665561|164769514|SUPERIORITY||Risk Ratio (RR)|0.62|||||TWO_SIDED|95.0|0.35|1.1||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.10|0.35|
82535680|NCT00665561|164769515|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.59|1.52||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.52|0.59|
82535681|NCT00665561|164769516|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.66|1.28||||||Poisson regressions were fit to the categorical events with treatment as the main effect, PS quartile and imputed FS as covariates in the model to obtain the adjusted RR and CI.||1.28|0.66|
82535682|NCT00665561|164769517|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6225|TWO_SIDED|95.0|0.66|1.28|||Regression, Cox|||||1.28|0.66|0.6225
82535683|NCT02337361|164769518|OTHER||||||||||||||||||Generalized estimating equations (GEE)(Diggle et al. 2002) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||
82535684|NCT02337361|164769518|OTHER||||||||||||||||||Generalized estimating equations tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation|||
82535685|NCT02337361|164769519|OTHER||Odds Ratio (OR)|0.22|STANDARD_ERROR_OF_MEAN|0.12|<|0.01|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report weekly or more frequent drinking at 6 month follow-up||Generalized estimating equations (GEE) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||<.01
82535686|NCT02337361|164769520|OTHER||Odds Ratio (OR)|0.23|STANDARD_ERROR_OF_MEAN|0.14|<|0.05|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report drinking a maximum quantity of 5 or more drinks in a day at 6 month follow-up|||||<.05
82535687|NCT02337361|164769521|OTHER||Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.2|<|0.1|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report any tobacco use at 6 month follow-up||Generalized estimating equations (GEE) tested e-SBI efficacy, controlling for demographic differences between study condition and study sites. GEE models estimate population average or marginal models and account for within-subject nonindependence (clustering) of observations across multiple waves of data collection and use all available data in model estimation.|||<.10
82535688|NCT02337361|164769522|OTHER||Odds Ratio (OR)|0.26|STANDARD_ERROR_OF_MEAN|0.15|<|0.01|TWO_SIDED||||||t-test, 2 sided||the e-SBI group was at reduced odds relative to the control group to report significant depression at 6 month follow-up|||||<.01
82648197|NCT04288115|165011868|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|0.003||||0.9585|TWO_SIDED|95.0|-0.102|0.107||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D Descriptive scores.|Analysis of 6-month EQ-5D Descriptive score outcome.||0.107|-0.102|0.9585
82652129|NCT02637557|165019477|SUPERIORITY||LS Mean Difference|-2.739||||0.602|TWO_SIDED|95.0|-13.066|7.588||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||7.588|-13.066|0.6020
82535689|NCT02337361|164769523|OTHER||||||||||||||||||Generalized estimating equations (GEE) tested DrinkWise's effects on changes in depression over time controlling for demographic differences between study condition and study sites.|||
82535690|NCT01449929|164769536|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of DTG 50 mg and DRV+RTV at Week 48 can be concluded if the lower bound of a two-sided 95% confidence interval (CI) for the difference in percentages (DTG - DRV+RTV) is greater than -12%. If non-inferiority is established, superiority can be tested at the nominal 5% level based on a pre-specified testing procedure.|Difference in percentage|7.1||||0.025|TWO_SIDED|95.0|0.9|13.2||P-value is for test of superiority.|Cochran-Mantel-Haenszel|Stratified analysis|Analysis was adjusted for the Baseline (BL) stratification factors: Baseline plasma HIV-1 RNA (\<=100,000 c/mL vs \>100,000 c/mL) and Baseline background dual NRTI therapy (ABC/3TC vs TDF/FTC).|||13.2|0.9|0.025
82535691|NCT03253653|164769557|OTHER||z score|1.578||||0.115|TWO_SIDED||||||Wilcoxon signed-rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.115
82535692|NCT03253653|164769558|OTHER||z|0.497||||0.619|TWO_SIDED||||||z||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.619
82535693|NCT03253653|164769559|OTHER||z|1.72||||0.085|TWO_SIDED||||||Wilcox and signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.085
82449605|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-0.78||||0.466|TWO_SIDED|95.0|-2.075|0.506|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||0.506|-2.075|0.466
82449606|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-1.03||||0.18|TWO_SIDED|95.0|-2.322|0.255|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 1: Roflumilast Cream 0.15% vs. Vehicle Cream||0.255|-2.322|0.180
82449607|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-0.43||||0.967|TWO_SIDED|95.0|-1.921|1.069|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||1.069|-1.921|0.967
82449608|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-0.72||||0.684|TWO_SIDED|95.0|-2.205|0.762|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 2: Roflumilast Cream 0.15% vs. Vehicle Cream||0.762|-2.205|0.684
82449609|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-0.61||||0.856|TWO_SIDED|95.0|-2.221|1.003|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||1.003|-2.221|0.856
82449610|NCT03916081|164606480|SUPERIORITY||LS Mean Difference|-0.51||||0.932|TWO_SIDED|95.0|-2.105|1.089|||MMRM|Dunnett's method was used to control for multiple comparisons|Change from BL MMRM model includes treatment, visit, vIGA-AD strata, treatment-by-visit interaction as fixed effects and baseline WI-NRS as a covariate.|Change from Baseline in WI-NRS at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||1.089|-2.105|0.932
82449611|NCT03916081|164606481|SUPERIORITY|||||||0.637|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.637
82449612|NCT03916081|164606481|SUPERIORITY|||||||0.124|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 1: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.124
82449613|NCT03916081|164606481|SUPERIORITY|||||||0.196|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.196
82449614|NCT03916081|164606481|SUPERIORITY|||||||0.985|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 2: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.985
82449615|NCT03916081|164606481|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 4: Roflumilast Cream 0.05% vs. Vehicle Cream||||0.401
82449616|NCT03916081|164606481|SUPERIORITY|||||||0.996|||||||Cochran-Mantel-Haenszel|v-IGA-AD included as a stratification factor.||Number of Participants Achieving a ≥4-Point Improvement from Baseline WI-NRS at Week 4: Roflumilast Cream 0.15% vs. Vehicle Cream||||0.996
82449617|NCT04118595|164606502|SUPERIORITY|||||||0.13|||||||ANCOVA|||||||0.13
82449618|NCT04118595|164606503|SUPERIORITY|||||||0.41|||||||ANCOVA|||||||0.41
82449619|NCT04118595|164606504|SUPERIORITY|||||||0.08|||||||ANCOVA|||||||0.08
82449620|NCT04118595|164606505|SUPERIORITY|||||||0.64|||||||ANCOVA|||||||0.64
82449621|NCT04118595|164606506|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||0.57
82449622|NCT04118595|164606507|SUPERIORITY|||||||0.43|||||||ANCOVA|||||||0.43
82449623|NCT04118595|164606508|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||0.19
82449624|NCT04118595|164606509|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.15
82449625|NCT04118595|164606510|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
82449626|NCT04118595|164606511|SUPERIORITY|||||||0.36|||||||ANCOVA|||||||0.36
82449627|NCT02726022|164606512|SUPERIORITY_OR_OTHER|||||||0.647|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.647
82449628|NCT02726022|164606512|SUPERIORITY_OR_OTHER|||||||0.373|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.373
82449629|NCT02726022|164606513|SUPERIORITY_OR_OTHER|||||||0.049|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.049
82449630|NCT02726022|164606513|SUPERIORITY_OR_OTHER|||||||0.86|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.860
82449631|NCT02726022|164606514|SUPERIORITY_OR_OTHER|||||||0.921|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.921
82449632|NCT02726022|164606514|SUPERIORITY_OR_OTHER|||||||0.962|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.962
82449633|NCT02726022|164606515|SUPERIORITY_OR_OTHER|||||||0.052|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.052
82535694|NCT03253653|164769560|OTHER||z|6.154|||<|0.001|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in biomarker levels for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||<0.001
82427493|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|4.94|||<|0.001|TWO_SIDED|95.0|2.61|9.36|||Regression, Logistic|||Week 54||9.36|2.61|<0.001
82427494|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|4.55|||<|0.001|TWO_SIDED|95.0|2.62|7.89|||Regression, Logistic|||Week 54||7.89|2.62|<0.001
82427495|NCT03235050|164563263|SUPERIORITY||Odds Ratio, log|4.34|||<|0.001|TWO_SIDED|95.0|2.51|7.51|||Regression, Logistic|||Week 54||7.51|2.51|<0.001
82535695|NCT03253653|164769561|OTHER||z|-1.144||||0.253|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in systolic blood pressure for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in biomarker levels for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.253
82427496|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-2.09|||<|0.001|TWO_SIDED|95.0|-3.32|-0.85|||ANCOVA|||Week 26||-0.85|-3.32|<0.001
82427497|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-2.8|||<|0.001|TWO_SIDED|95.0|-3.82|-1.79|||ANCOVA|||Week 26||-1.79|-3.82|<0.001
82427498|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-3.46|||<|0.001|TWO_SIDED|95.0|-4.48|-2.44|||ANCOVA|||Week 26||-2.44|-4.48|<0.001
82427499|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-2.43|||<|0.001|TWO_SIDED|95.0|-3.86|-1.0|||ANCOVA|||Week 54||-1.00|-3.86|<0.001
82652130|NCT02637557|165019477|SUPERIORITY||LS Mean Difference|-8.602||||0.1055|TWO_SIDED|95.0|-19.03|1.826||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.826|-19.030|0.1055
82427500|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-2.24|||<|0.001|TWO_SIDED|95.0|-3.41|-1.06|||ANCOVA|||Week 54||-1.06|-3.41|<0.001
82427501|NCT03235050|164563264|SUPERIORITY||LS Mean Difference|-3.32|||<|0.001|TWO_SIDED|95.0|-4.49|-2.14|||ANCOVA|||Week 54||-2.14|-4.49|<0.001
82427502|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-1.95|||<|0.001|TWO_SIDED|95.0|-3.03|-0.87|||ANCOVA|||Week 14||-0.87|-3.03|<0.001
82427503|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-2.75|||<|0.001|TWO_SIDED|95.0|-3.63|-1.86|||ANCOVA|||Week 14||-1.86|-3.63|<0.001
82427504|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-3.71|||<|0.001|TWO_SIDED|95.0|-4.6|-2.82|||ANCOVA|||Week 14||-2.82|-4.60|<0.001
82427505|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-2.01||||0.002|TWO_SIDED|95.0|-3.27|-0.74|||ANCOVA|||Week 26||-0.74|-3.27|0.002
82561736|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.4|||||TWO_SIDED|95.0|0.8|2.36|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.36|0.80|
82427506|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-2.74|||<|0.001|TWO_SIDED|95.0|-3.78|-1.71|||ANCOVA|||Week 26||-1.71|-3.78|<0.001
82427507|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-3.55|||<|0.001|TWO_SIDED|95.0|-4.59|-2.52|||ANCOVA|||Week 26||-2.52|-4.59|<0.001
82427508|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-2.27||||0.003|TWO_SIDED|95.0|-3.74|-0.79|||ANCOVA|||Week 54||-0.79|-3.74|0.003
82427509|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-2.16|||<|0.001|TWO_SIDED|95.0|-3.37|-0.95|||ANCOVA|||Week 54||-0.95|-3.37|<0.001
82427510|NCT03235050|164563265|SUPERIORITY||LS Mean Difference|-3.42|||<|0.001|TWO_SIDED|95.0|-4.63|-2.2|||ANCOVA|||Week 54||-2.20|-4.63|<0.001
82427511|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|0.7||||0.211|TWO_SIDED|95.0|-0.39|1.79|||ANCOVA|||Percent change at Week 14||1.79|-0.39|0.211
82427512|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|-0.07||||0.881|TWO_SIDED|95.0|-0.96|0.83|||ANCOVA|||Percent change at Week 14||0.83|-0.96|0.881
82427513|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|-0.93||||0.042|TWO_SIDED|95.0|-1.82|-0.04|||ANCOVA|||Percent change at Week 14||-0.04|-1.82|0.042
82427514|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|0.9||||0.158|TWO_SIDED|95.0|-0.35|2.14|||ANCOVA|||Percent change at Week 26||2.14|-0.35|0.158
82427515|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|0.18||||0.734|TWO_SIDED|95.0|-0.85|1.2|||ANCOVA|||Percent change at Week 26||1.20|-0.85|0.734
82427516|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|-0.48||||0.357|TWO_SIDED|95.0|-1.51|0.54|||ANCOVA|||Percent change at Week 26||0.54|-1.51|0.357
82427517|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|-0.07||||0.921|TWO_SIDED|95.0|-1.51|1.37|||ANCOVA|||Percent change at Week 54||1.37|-1.51|0.921
82427518|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|0.12||||0.847|TWO_SIDED|95.0|-1.07|1.3|||ANCOVA|||Percent change at Week 54||1.30|-1.07|0.847
82427519|NCT03235050|164563266|SUPERIORITY||LS Mean Difference|-0.96||||0.112|TWO_SIDED|95.0|-2.15|0.22|||ANCOVA|||Percent change at Week 54||0.22|-2.15|0.112
82427520|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|0.59||||0.284|TWO_SIDED|95.0|-0.49|1.68|||ANCOVA|||Absolute change at Week 14||1.68|-0.49|0.284
82427521|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-0.2||||0.658|TWO_SIDED|95.0|-1.09|0.69|||ANCOVA|||Absolute change at Week 14||0.69|-1.09|0.658
82427522|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-1.17||||0.01|TWO_SIDED|95.0|-2.06|-0.27|||ANCOVA|||Absolute change at Week 14||-0.27|-2.06|0.010
82427523|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|0.7||||0.279|TWO_SIDED|95.0|-0.57|1.97|||ANCOVA|||Absolute change at Week 26||1.97|-0.57|0.279
82427524|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-0.04||||0.94|TWO_SIDED|95.0|-1.08|1.0|||ANCOVA|||Absolute change at Week 26||1.00|-1.08|0.940
82427525|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-0.85||||0.11|TWO_SIDED|95.0|-1.89|0.19|||ANCOVA|||Absolute change at Week 26||0.19|-1.89|0.110
82427526|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-0.26||||0.73|TWO_SIDED|95.0|-1.74|1.22|||ANCOVA|||Absolute change at Week 54||1.22|-1.74|0.730
82427527|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-0.15||||0.804|TWO_SIDED|95.0|-1.38|1.07|||ANCOVA|||Absolute change at Week 54||1.07|-1.38|0.804
82427528|NCT03235050|164563267|SUPERIORITY||LS Mean Difference|-1.41||||0.023|TWO_SIDED|95.0|-2.63|-0.19|||ANCOVA|||Absolute change at Week 54||-0.19|-2.63|0.023
82427529|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|8.37|||<|0.001|TWO_SIDED|95.0|2.38|29.43|||Regression, Logistic|||weight loss \>=5% at Week 14||29.43|2.38|<0.001
82427530|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|12.46|||<|0.001|TWO_SIDED|95.0|3.82|40.64|||Regression, Logistic|||weight loss \>=5% at Week 14||40.64|3.82|<0.001
82449634|NCT02726022|164606515|SUPERIORITY_OR_OTHER|||||||0.677|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.677
82449635|NCT02726022|164606516|SUPERIORITY_OR_OTHER|||||||0.72|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.720
82648198|NCT04288115|165011868|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|7.0||||0.0643|TWO_SIDED|95.0|-0.4|14.4||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline score.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D VAS scores.|Analysis of 6-week EQ-5D VAS score outcome.||14.4|-0.4|0.0643
82449636|NCT02726022|164606516|SUPERIORITY_OR_OTHER|||||||0.237|||||||Fisher Exact|||The statistical significance of change from baseline to EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.237
82449637|NCT02726022|164606517|SUPERIORITY_OR_OTHER|||||||0.184|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between gender status (male vs female) was tested using Fisher's exact test.||||0.184
82535696|NCT03253653|164769562|OTHER||z|-1.004||||0.315|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in diastolic blood pressure for the Charcoal-heated tobacco smoking session (n=50) significantly different from the pre-to-post change in diastolic blood pressure for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.315
82535697|NCT03253653|164769563|OTHER||z|3.089||||0.002|TWO_SIDED||||||Wilcox and signed rank test||||We used the Wilcoxon signed-rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects tests, to determine whether the pre-to-post change in heart rate for the Charcoal-heated tobacco smoking session (n=50) was significantly different from the pre-to-post change in heart rate for the Electric Head-heated tobacco smoking session (using the same 50 participants after a weeklong washout period).|||0.002
82652131|NCT02637557|165019477|SUPERIORITY|||||||0.1387||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.1387
82427531|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|21.26|||<|0.001|TWO_SIDED|95.0|6.55|68.97|||Regression, Logistic|||weight loss \>=5% at Week 14||68.97|6.55|<0.001
82535698|NCT03253653|164769564|OTHER||z|-7.024|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
82535699|NCT03253653|164769565|OTHER||z|-4.541|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the SPMA metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
82652132|NCT02637557|165019478|SUPERIORITY||LS Mean Difference|-0.058||||0.7488|TWO_SIDED|95.0|-0.415|0.299||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.299|-0.415|0.7488
82427532|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|3.68|||<|0.001|TWO_SIDED|95.0|1.72|7.89|||Regression, Logistic|||weight loss \>=5% at Week 26||7.89|1.72|<0.001
82427533|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|3.95|||<|0.001|TWO_SIDED|95.0|2.0|7.78|||Regression, Logistic|||weight loss \>=5% at Week 26||7.78|2.00|<0.001
82427534|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|7.28|||<|0.001|TWO_SIDED|95.0|3.72|14.24|||Regression, Logistic|||weight loss \>=5% at Week 26||14.24|3.72|<0.001
82449638|NCT02726022|164606517|SUPERIORITY_OR_OTHER|||||||0.889|||||||Fisher Exact|||The statistical significance of change from baseline to 24 weeks after EOT between drug addiction status (yes vs no) was tested using Fisher's exact test.||||0.889
82449639|NCT00781859|164606600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56||||0.003|TWO_SIDED|95.0|1.32|5.24||comparing placebo and ocriplasmin|Fisher Exact|||||5.24|1.32|0.003
82449640|NCT05546229|164606604|OTHER|||||||0.0049|||||||t-test, 2 sided|8 degrees of freedom||patient plasma versus isf value for methadone||||.0049
82449641|NCT05546229|164606605|OTHER|||||||0.0025|||||||t-test, 2 sided|8 degrees of freedom||||||.0025
82449642|NCT02980133|164606641|SUPERIORITY||LS mean difference|1.9||||0.285|TWO_SIDED|95.0|-1.6|5.3||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (ICS or NCS), and IMP treatment group.||5.3|-1.6|0.285
82449643|NCT02980133|164606642|SUPERIORITY||Least square (LS) mean difference|6.0|||<|0.001|TWO_SIDED|95.0|3.2|8.8||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an analysis of covariance (ANCOVA) model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (inhaled corticosteroid \[ICS\] or noncorticosteroid \[NCS\]), and investigational medicinal product (IMP) treatment group.||8.8|3.2|<0.001
82449644|NCT02980133|164606642|SUPERIORITY||LS mean difference|7.0|||<|0.001|TWO_SIDED|95.0|4.1|9.8||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using an ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, (pooled) investigational center, previous therapy (ICS or NCS), and IMP treatment group.||9.8|4.1|<0.001
82490013|NCT03572972|164672894|SUPERIORITY||Hazard Ratio (HR)|1.204|||||TWO_SIDED|95.0|0.871|1.666||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.666|0.871|
82427535|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|3.71|||<|0.001|TWO_SIDED|95.0|1.84|7.45|||Regression, Logistic|||weight loss \>=5% at Week 54||7.45|1.84|<0.001
82427536|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|2.73||||0.002|TWO_SIDED|95.0|1.46|5.09|||Regression, Logistic|||weight loss \>=5% at Week 54||5.09|1.46|0.002
82427537|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|4.48|||<|0.001|TWO_SIDED|95.0|2.42|8.3|||ANCOVA|||weight loss \>=5% at Week 54||8.30|2.42|<0.001
82427538|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|8.47||||0.048|TWO_SIDED|95.0|1.02|70.17|||Regression, Logistic|||weight loss \>=10% at Week 26||70.17|1.02|0.048
82427539|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|13.81||||0.01|TWO_SIDED|95.0|1.85|102.91|||Regression, Logistic|||weight loss \>=10% at Week 26||102.91|1.85|0.010
82427540|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|13.09||||0.012|TWO_SIDED|95.0|1.75|97.68|||Regression, Logistic|||weight loss \>=10% at Week 26||97.68|1.75|0.012
82427541|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|6.92||||0.013|TWO_SIDED|95.0|1.49|32.07|||Regression, Logistic|||weight loss \>=10% at Week 54||32.07|1.49|0.013
82648199|NCT04288115|165011868|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-6.2||||0.1742|TWO_SIDED|95.0|-15.3|2.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline scores.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline EQ-5D VAS scores.|Analysis of 6-month EQ-5D VAS score outcome.||2.9|-15.3|0.1742
82427542|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|4.98||||0.032|TWO_SIDED|95.0|1.15|21.6|||Regression, Logistic|||weight loss \>=10% at Week 54||21.60|1.15|0.032
82427543|NCT03235050|164563268|SUPERIORITY||Odds Ratio, log|7.91||||0.005|TWO_SIDED|95.0|1.86|33.64|||Regression, Logistic|||weight loss \>=10% at Week 54||33.64|1.86|0.005
82427544|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.09||||0.024|TWO_SIDED|95.0|0.01|0.73|||Regression, Logistic|||received rescue medication at 14 wks||0.73|0.01|0.024
82427545|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.11|||<|0.001|TWO_SIDED|95.0|0.03|0.4|||Regression, Logistic|||received rescue medication at 14 wks||0.40|0.03|<0.001
82427546|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.07|||<|0.001|TWO_SIDED|95.0|0.02|0.33|||Regression, Logistic|||received rescue medication at 14 wks||0.33|0.02|<0.001
82535700|NCT03253653|164769566|OTHER||z|-2.569||||0.01|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the 1-HOP metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||.010
82535701|NCT03253653|164769567|OTHER||z|-7.03|||<|0.001|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the exhaled carbon monoxide after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
82427547|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.14||||0.002|TWO_SIDED|95.0|0.04|0.48|||Regression, Logistic|||received rescue medication at 26 wks||0.48|0.04|0.002
82427548|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.14|||<|0.001|TWO_SIDED|95.0|0.06|0.34|||Regression, Logistic|||received rescue medication at 26 wks||0.34|0.06|<0.001
82427549|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.11|||<|0.001|TWO_SIDED|95.0|0.04|0.28|||Regression, Logistic|||received rescue medication at 26 wks||0.28|0.04|<0.001
82427550|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.24|||<|0.001|TWO_SIDED|95.0|0.11|0.53|||Regression, Logistic|||received rescue medication at 54 wks||0.53|0.11|<0.001
82427551|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.24|||<|0.001|TWO_SIDED|95.0|0.13|0.44|||Regression, Logistic|||received rescue medication at 54 wks||0.44|0.13|<0.001
82427552|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.22|||<|0.001|TWO_SIDED|95.0|0.12|0.41|||Regression, Logistic|||received rescue medication at 54 wks||0.41|0.12|<0.001
82427553|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.22||||0.216|TWO_SIDED|95.0|0.02|2.43|||Regression, Logistic|||discontinued IP at 14 wks||2.43|0.02|0.216
82427554|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.28||||0.253|TWO_SIDED|95.0|0.03|2.52|||Regression, Logistic|||discontinued IP at 26 wks||2.52|0.03|0.253
82427555|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.21||||0.079|TWO_SIDED|95.0|0.04|1.19|||Regression, Logistic|||discontinued IP at 26 wks||1.19|0.04|0.079
82427556|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.27||||0.252|TWO_SIDED|95.0|0.03|2.5|||Regression, Logistic|||discontinued IP at 54 wks||2.50|0.03|0.252
82427557|NCT03235050|164563269|SUPERIORITY||Odds Ratio, log|0.32||||0.143|TWO_SIDED|95.0|0.07|1.47|||Regression, Logistic|||discontinued IP at 54 wks||1.47|0.07|0.143
82427558|NCT00508521|164563273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.75|STANDARD_ERROR_OF_MEAN|0.47871||0.0001|TWO_SIDED|95.0|-22.27348|-19.22652|||t-test, 2 sided|||This was a feasibility study. Pre and post treatment analysis was performed for the study participants.||-19.22652|-22.27348|.0001
82427559|NCT01621178|164563274|NON_INFERIORITY|Non-Inferiority to Glargine with a 0.4% margin|Mean Difference (Final Values)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.26|0.15|||Mixed Models Analysis|||Week 26||0.15|-0.26|<0.001
82427560|NCT01621178|164563274|NON_INFERIORITY|Non-Inferiority to Glargine with a 0.4% margin|Mean Difference (Final Values)|0.02|||<|0.001|TWO_SIDED|95.0|-0.18|0.22|||Mixed Models Analysis|||Week 26||0.22|-0.18|<0.001
82427561|NCT02896257|164563303|SUPERIORITY||Odds Ratio (OR)|3.66|||<|0.001|TWO_SIDED|95.0|2.5|5.38|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||5.38|2.50|<0.001
82427562|NCT02896257|164563304|SUPERIORITY||Odds Ratio (OR)|0.8||||0.47|TWO_SIDED|95.0|0.44|1.47|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||1.47|0.44|0.47
82427563|NCT02896257|164563305|SUPERIORITY||Odds Ratio (OR)|0.63||||0.42|TWO_SIDED|95.0|0.2|1.96|||Regression, Logistic|Mixed-random effects for provider clustering and adjusting for smoking status. Multiple imputation by chained equations for missing smoking status.||||1.96|0.20|0.42
82449645|NCT02219334|164606688|EQUIVALENCE|Historical data at the institution for similar patients had a mean length of stay(LOS) of 25.7 hours (standard deviation-\[SD\] =10.3) from 9/2012- 9/13 was observed for 134 patients admitted to the emergency department observation unit and treated with the standard of care (NeoSucker). Given a LOS-SD of 10.3 hours, 75 subjects per treatment group would provide 80% statistical power at the 5% significance level to demonstrate equivalence in the two treatments' length of stay within ±5 hours.|Mean Difference (Final Values)|2.49|STANDARD_DEVIATION|21.4|<|0.05|TWO_SIDED|95.0|-10.74|15.72|||two one-sided t-test (TOST)||Due to slower than anticipated patient recruitment, the target size of 75 participants per treatment group was not reached.|The primary hypothesis of length of stay equivalence within a margin of ± 5 hours was tested using the two one-sided t-test (TOST) procedure, with a 5% significance level.||15.72|-10.74|<0.05
82449646|NCT05362058|164606691|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.09|||||TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||||0.04|-0.22|
82449647|NCT05362058|164606692|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.26|0.13|||ANCOVA|||||0.13|-0.26|
82449648|NCT05362058|164606693|NON_INFERIORITY|0.4% noninferiority margin (NIM)|LS Mean Difference|-0.11|||||TWO_SIDED|95.0|-0.28|0.07|||ANCOVA|||||0.07|-0.28|
82449649|NCT05362058|164606694|SUPERIORITY||LS Mean Difference|-0.09||||0.188|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||||0.04|-0.22|0.188
82449650|NCT05362058|164606695|SUPERIORITY||LS Mean Difference|3.09||||0.043|TWO_SIDED|95.0|0.09|6.08|||ANCOVA|||||6.08|0.09|0.043
82577138|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.174||0.1214|TWO_SIDED|95.0|-0.62|0.07|||MMRM|||Insomnia - Late, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.62|0.1214
82648200|NCT04288115|165011869|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-12.0||||0.1695|TWO_SIDED|95.0|-29.3|5.3||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline total cholesterol value.|Analysis of 6-month total cholesterol outcome.||5.3|-29.3|0.1695
82449651|NCT05362058|164606696|SUPERIORITY||LS Mean Difference|-0.06||||0.26|TWO_SIDED|95.0|-0.17|0.05|||ANCOVA|||||0.05|-0.17|0.260
82449652|NCT05362058|164606697|SUPERIORITY||LS Mean Difference|0.27||||0.848|TWO_SIDED|95.0|-2.48|3.02|||ANCOVA|||||3.02|-2.48|0.848
82449653|NCT05362058|164606698|SUPERIORITY||LS Mean Difference|5.18||||0.014|TWO_SIDED|95.0|1.06|9.3|||ANCOVA|||Week 26 (Statistical Analysis) - LS mean was determined using ANCOVA model with Baseline + Country + HbA1c Stratum at Baseline + GLP-1 RA Use at Randomization + SU Use at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at week 26 were imputed by return-to-baseline multiple imputations approach.||9.30|1.06|0.014
82449654|NCT05362058|164606698|SUPERIORITY||LS Mean Difference|0.2||||0.918|TWO_SIDED|95.0|-3.65|4.06|||ANCOVA|||Week 52 (Statistical Analysis) - LS mean was determined using ANCOVA model with Baseline + Country + HbA1c Stratum at Baseline + GLP-1 RA Use at Randomization + SU Use at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at week 52 were imputed by return-to-baseline multiple imputations approach.||4.06|-3.65|0.918
82449655|NCT05362058|164606699|SUPERIORITY||LS Mean Difference|-0.36||||0.31|TWO_SIDED|95.0|-1.06|0.34|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.34|-1.06|0.310
82449656|NCT05362058|164606699|SUPERIORITY||LS Mean Difference|-0.51||||0.138|TWO_SIDED|95.0|-1.19|0.17|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.17|-1.19|0.138
82449657|NCT05362058|164606700|SUPERIORITY||LS Mean Difference|-13.2||||0.136|TWO_SIDED|95.0|-30.5|4.1|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||4.1|-30.5|0.136
82449658|NCT05362058|164606700|SUPERIORITY||LS Mean Difference|-19.7||||0.026|TWO_SIDED|95.0|-37.0|-2.4|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||-2.4|-37.0|0.026
82449659|NCT05362058|164606701|SUPERIORITY||Relative Rate|1.3||||0.111|TWO_SIDED|95.0|0.94|1.78|||Negative binomial model|||||1.78|0.94|0.111
82449660|NCT05362058|164606702|SUPERIORITY||Relative Rate|1.01||||0.983|TWO_SIDED|95.0|0.53|1.89|||Negative binomial model|||||1.89|0.53|0.983
82449661|NCT05362058|164606703|SUPERIORITY||LS Mean Difference|0.5||||0.025|TWO_SIDED|95.0|0.064|0.94|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||0.94|0.064|0.025
82449662|NCT05362058|164606703|SUPERIORITY||LS Mean Difference|0.056||||0.801|TWO_SIDED|95.0|-0.38|0.5|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||0.50|-0.38|0.801
82449663|NCT05362058|164606704|SUPERIORITY||LS Mean Difference|0.13||||0.374|TWO_SIDED|95.0|-0.15|0.41|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||0.41|-0.15|0.374
82449664|NCT05362058|164606704|SUPERIORITY||LS Mean Difference|0.29||||0.13|TWO_SIDED|95.0|-0.09|0.67|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.67|-0.09|0.130
82449665|NCT05362058|164606704|SUPERIORITY||LS Mean Difference|0.3||||0.162|TWO_SIDED|95.0|-0.12|0.72|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.72|-0.12|0.162
82449666|NCT05362058|164606705|SUPERIORITY||LS Mean Difference|-0.03||||0.594|TWO_SIDED|95.0|-0.15|0.08|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||0.08|-0.15|0.594
82449667|NCT05362058|164606705|SUPERIORITY||LS Mean Difference|0.06||||0.266|TWO_SIDED|95.0|-0.04|0.16|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||0.16|-0.04|0.266
82449668|NCT05362058|164606705|SUPERIORITY||LS Mean Difference|0.02||||0.791|TWO_SIDED|95.0|-0.1|0.14|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||0.14|-0.10|0.791
82449669|NCT05362058|164606706|SUPERIORITY||LS Mean Difference|-0.41||||0.757|TWO_SIDED|95.0|-3.0|2.18|||Mixed Models Analysis|||Week 8 to Week 12 (Statistical Analysis)||2.18|-3.00|0.757
82449670|NCT05362058|164606706|SUPERIORITY||LS Mean Difference|-0.93||||0.511|TWO_SIDED|95.0|-3.72|1.85|||Mixed Models Analysis|||Week 22 to Week 26 (Statistical Analysis)||1.85|-3.72|0.511
82648201|NCT04288115|165011869|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-6.8||||0.3805|TWO_SIDED|95.0|-22.2|8.6||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline LDL values.|Analysis of 6-month LDL outcome.||8.6|-22.2|0.3805
82648202|NCT04288115|165011869|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|1.7||||0.5724|TWO_SIDED|95.0|-4.44|7.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline HDL values.|Analysis of 6-month HDL outcome.||7.9|-4.44|0.5724
82648203|NCT04288115|165011869|OTHER|A two-sided α-level of 0.05 will be used to determine the statistical significance.|Difference in Group Means|-17.8||||0.3939|TWO_SIDED|95.0|-59.4|23.9||Testing whether group means are different.|ANCOVA|A p-value \< 0.05 indicates real discontinuation mean and sham discontinuation mean are different. Analyses adjusted for gender and baseline value.|Differences reported as the sham discontinuation mean minus the real discontinuation mean. These differences have been adjusted for gender and baseline triglyceride values.|Analysis of 6-month triglyceride outcome.||23.9|-59.4|0.3939
82427564|NCT00492557|164563312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% confidence interval (CI), computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|1.7|||||TWO_SIDED|95.0|-3.1|6.5||||||Influenza virus subtype: A/H1N1. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||6.5|-3.1|
82427565|NCT00492557|164563312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% CI, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|-4.6|||||TWO_SIDED|95.0|-10.4|1.3||||||Influenza virus subtype: A/H3N2. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||1.3|-10.4|
82427566|NCT00492557|164563312|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for a given virus subtype was demonstrated if the lower bound of the 2-sided, 95% CI, computed using the Chan and Zhang procedure, for the difference in proportions (13vPnC+TIV - TIV alone) was greater than -0.10.|Percent Difference|-1.8|||||TWO_SIDED|95.0|-7.8|4.1||||||Influenza virus subtype: B. Primary null hypothesis for each of the influenza virus subtypes is: proportion of participants achieving a 4-fold increase in titer when 13vPnC+TIV were administered concomitantly, minus the proportion of participants achieving a 4-fold increase in titer when TIV was administered alone (with placebo) \<= -0.10.||4.1|-7.8|
82427567|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.6|1.04|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 1. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.04|0.60|
82449671|NCT05362058|164606706|SUPERIORITY||LS Mean Difference|-3.39||||0.027|TWO_SIDED|95.0|-6.39|-0.39|||Mixed Models Analysis|||Week 48 to Week 52 (Statistical Analysis)||-0.39|-6.39|0.027
82449672|NCT05362058|164606707|SUPERIORITY||LS Mean Difference|1.66||||0.021|TWO_SIDED|95.0|0.26|3.07|||Mixed Models Analysis|||Week 26 (Statistical Analysis)||3.07|0.26|0.021
82449673|NCT05362058|164606707|SUPERIORITY||LS Mean Difference|2.0||||0.006|TWO_SIDED|95.0|0.57|3.44|||Mixed Models Analysis|||Week 52 (Statistical Analysis)||3.44|0.57|0.006
82449674|NCT05362058|164606708|SUPERIORITY||LS Mean Difference|-0.2||||0.638|TWO_SIDED|95.0|-1.03|0.63|||Mixed Models Analysis|||Physical Component Score at Week 26 (Statistical Analysis) -LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.63|-1.03|0.638
82449675|NCT05362058|164606708|SUPERIORITY||LS Mean Difference|-0.32||||0.499|TWO_SIDED|95.0|-1.24|0.6|||Mixed Models Analysis|||Mental Component Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.60|-1.24|0.499
82449676|NCT05362058|164606708|SUPERIORITY||LS Mean Difference|0.17||||0.695|TWO_SIDED|95.0|-0.68|1.01|||Mixed Models Analysis|||Physical Component Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||1.01|-0.68|0.695
82449677|NCT05362058|164606708|SUPERIORITY||LS Mean Difference|-0.23||||0.626|TWO_SIDED|95.0|-1.17|0.71|||Mixed Models Analysis|||Mental Component Score at Week 52 (Statistical Analysis) -LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use at Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.71|-1.17|0.626
82449678|NCT05362058|164606709|SUPERIORITY||LS Mean Difference|-0.015||||0.128|TWO_SIDED|95.0|-0.034|0.004|||Mixed Models Analysis|||EQ-5D-5L Health State Index Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.004|-0.034|0.128
82449679|NCT05362058|164606709|SUPERIORITY||LS Mean Difference|-1.11||||0.196|TWO_SIDED|95.0|-2.8|0.58|||Mixed Models Analysis|||EQ VAS Score at Week 26 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.58|-2.80|0.196
82449680|NCT05362058|164606709|SUPERIORITY||LS Mean Difference|-0.01||||0.285|TWO_SIDED|95.0|-0.029|0.008|||Mixed Models Analysis|||EQ-5D-5L Health State Index Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.008|-0.029|0.285
82449681|NCT05362058|164606709|SUPERIORITY||LS Mean Difference|-0.35||||0.701|TWO_SIDED|95.0|-2.15|1.44|||Mixed Models Analysis|||EQ VAS Score at Week 52 (Statistical Analysis) - LS mean was determined using MMRM model with Baseline + HbA1c Stratum at Baseline + Country + GLP-1 RA Use Randomization Flag + SU Use at Randomization Flag + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||1.44|-2.15|0.701
82449682|NCT00711971|164606710|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||Significance for the BDI test at 26-28 weeks||||.29
82449683|NCT00711971|164606710|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||Significance for BDI at 34-36 weeks gestation||||.51
82449684|NCT00711971|164606710|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||BDI score at 6-8 weeks postpartum||||.56
82648204|NCT02766400|165011899|SUPERIORITY_OR_OTHER_LEGACY||Cohen's d effect size at 12 months|0.53|||<|0.001|TWO_SIDED|95.0|-0.12|1.19||a priori threshold was set at p\<0.05|Linear mixed models|F(4,150)=5.11|Effect size was calculated using mean change scores (baseline to month 12) and standard error of change (baseline to month 12) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||1.19|-0.12|<0.001
82449685|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.06|||||||Fisher Exact|||Gestational diabetes mellitus||||.06
82449686|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.12|||||||Fisher Exact|||Hypertension or preeclampsia||||.12
82449687|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||Induced labor||||.20
82449688|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.08|||||||Fisher Exact|||Cesarean section||||.08
82449689|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||Spontaneous vaginal delivery||||.88
82449690|NCT00711971|164606711|SUPERIORITY_OR_OTHER|||||||0.32|||||||Fisher Exact|||Operative vaginal delivery||||.32
82449691|NCT00711971|164606712|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
82449692|NCT00711971|164606713|SUPERIORITY_OR_OTHER|||||||0.81|||||||ANOVA|||||||.81
82449693|NCT00711971|164606714|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Kruskal-Wallis test was used for outliers; Tukey multiple comparisons test was also used.||||||<.001
82449694|NCT00711971|164606715|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANOVA|||||||.39
82449695|NCT00711971|164606716|SUPERIORITY_OR_OTHER|||||||0.19|||||||ANOVA|||||||.19
82449696|NCT00711971|164606717|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82449697|NCT00711971|164606718|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANOVA|||||||0.54
82648205|NCT02795780|165011929|OTHER|||||||0.0166||||||No adjustments for multiplicity. No a priori threshold defined.|ANCOVA|Adjusted for baseline SUVr, age, and diagnosis group (AD/MCI)||Test of whether difference in least squares mean change is 0||||0.0166
82449698|NCT02524158|164606800|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.340
82449699|NCT02524158|164606801|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||0.003
82449700|NCT02524158|164606802|SUPERIORITY|||||||0.005||||||The a priori specified threshold is p \< 0.05|Mixed Models Analysis|||||||0.005
82449701|NCT02524158|164606803|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
82449702|NCT02524158|164606804|SUPERIORITY|||||||0.044||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.044
82449703|NCT02524158|164606805|SUPERIORITY||||||<|0.01|||||||ANCOVA|||||||<0.01
82449704|NCT02524158|164606806|SUPERIORITY|||||||0.01||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.010
82449705|NCT02524158|164606807|SUPERIORITY|||||||0.66|||||||ANCOVA|||||||0.66
82449706|NCT02524158|164606808|SUPERIORITY||||||<|0.1|||||||Mixed Models Analysis|||||||<0.10
82449707|NCT02524158|164606809|SUPERIORITY|||||||0.202|||||||ANCOVA|||||||0.202
82449708|NCT02524158|164606810|SUPERIORITY|||||||0.369|||||||ANCOVA|||||||0.369
82449709|NCT02524158|164606811|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||0.50
82449710|NCT02524158|164606812|SUPERIORITY|||||||0.067|||||||ANCOVA|||||||0.067
82449711|NCT02524158|164606814|SUPERIORITY|||||||0.071|||||||ANCOVA|||||||0.071
82449712|NCT02524158|164606815|SUPERIORITY|||||||0.92|||||||ANCOVA|||||||0.92
82449713|NCT02524158|164606816|SUPERIORITY|||||||0.036||||||The a priori specified threshold is p \< 0.05|ANCOVA|||||||0.036
82449714|NCT02524158|164606817|SUPERIORITY|||||||0.071|||||||ANCOVA|||||||0.071
82449715|NCT00475904|164606830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.547|STANDARD_ERROR_OF_MEAN|0.2709||0.0441|TWO_SIDED|95.0|0.01|1.08||a priori threshold for statistical significance was p\<0.05|ANOVA|||In the initial analysis, the efficacy of the test treatment NP-1 cream was compared with placebo using an analysis of variance (ANOVA). The analysis was conducted using the ITT population to compare the mean changes in pain scores from baseline to endpoint for the 2 treatments; the LOCF approach was employed for patients who did not complete the trial.||1.08|0.01|0.0441
82449716|NCT00475904|164606831|NON_INFERIORITY_OR_EQUIVALENCE|To conclude that the NP-1 was not inferior to gabapentin, the upper limit of the 2-sided 90% CI for the difference between treatments for the endpoint mean pain score was required to be below the non-inferiority margin of 0.70.|Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.2311||0.8409|TWO_SIDED|90.0|-0.33|0.43||To conclude that the NP-1 was not inferior to gabapentin, the upper limit of the 2-sided 90% CI for the difference between treatments for the endpoint mean pain score was required to be below the non-inferiority margin of 0.70.|ANCOVA|||the primary hypothesis of this study was that NP-1 topical cream (amitriptyline 4%/ketamine 2%) administered twice daily in doses of 4 gm for 4 weeks is not inferior to the standard treatment (oral gabapentin 600 mg 3 times daily) for relieving the pain of adult patients with PHN.||0.43|-0.33|0.8409
82449717|NCT00773747|164606834|SUPERIORITY||Cox Proportional Hazard|0.774|||=|0.01|TWO_SIDED|95.0|0.636|0.941|||Regression, Cox|||Cox model stratified by myeloma stage at enrollment, history of a bone marrow transplant, and number of prior treatment regimens, with a single treatment covariate.||0.941|0.636|= 0.0100
82449718|NCT00773747|164606836|SUPERIORITY||Cox Proportional Hazard|0.858||||0.3496|TWO_SIDED|95.0|0.622|1.184|||Regression, Cox|||Cox model stratified by myeloma stage at enrollment, history of a bone marrow transplant, and number of prior treatment regimens, with a single treatment covariate.||1.184|0.622|0.3496
82427568|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.78|1.13|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 3. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.13|0.78|
82427569|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.66|||||TWO_SIDED|95.0|0.51|0.87|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 4. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.87|0.51|
82427570|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.69|||||TWO_SIDED|95.0|0.55|0.86|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 5. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.86|0.55|
82427571|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.76|||||TWO_SIDED|95.0|0.61|0.94|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6A. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.94|0.61|
82427572|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.97|||||TWO_SIDED|95.0|0.75|1.25|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6B. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.25|0.75|
82427573|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.67|1.07|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 7F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.07|0.67|
82427574|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.63|1.02|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 9V. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.02|0.63|
82427575|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.72|||||TWO_SIDED|95.0|0.53|0.97|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 14. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.97|0.53|
82449719|NCT04569357|164606840|SUPERIORITY|||||||0.0199|||||||Fisher Exact|||Test for comparison percentage of patients with reduction ≥ 25%.||||0.0199
82449720|NCT04569357|164606841|SUPERIORITY|||||||0.0096|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores after 8 weeks of treatment were compared.||||0.0096
82449721|NCT04569357|164606842|SUPERIORITY|||||||0.0063|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores (attention deficit subscale) after 8 weeks of treatment were compared.||||0.0063
82449722|NCT04569357|164606843|SUPERIORITY|||||||0.0525|||||||Wilcoxon (Mann-Whitney)|||Mean changes of ADHD-RS-V scores (hyperactivity/impulsivity subscale) after 8 weeks of treatment were compared.||||0.0525
82449723|NCT04569357|164606844|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect analysis.||||0.0024
82449724|NCT04569357|164606844|SUPERIORITY|||||||0.1722|||||||Wilcoxon (Mann-Whitney)|||Side effects analysis.||||0.1722
82449725|NCT04569357|164606844|SUPERIORITY|||||||0.0012|||||||Wilcoxon (Mann-Whitney)|||Efficacy index analysis.||||0.0012
82449726|NCT04569357|164606845|SUPERIORITY|||||||0.13||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.13
82648206|NCT02795780|165011929|OTHER|||||||0.0108||||||No adjustments for multiplicity. No a priori threshold defined.|ANCOVA|Adjusted for baseline SUVr, age, and diagnosis group (AD/MCI)||Test of whether difference in least squares mean change is 0||||0.0108
82449727|NCT04569357|164606846|SUPERIORITY|||||||0.81||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to Systolic pressure data.||||0.81
82449728|NCT04569357|164606846|SUPERIORITY|||||||0.22||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||This analysis applies to Diastolic pressure data.||||0.22
82449729|NCT04569357|164606847|SUPERIORITY|||||||0.13||||||"The p-value associated with treatment\*visit interaction of changes from baseline visit 1 to visit 2 and 3 endpoint between Prospekta and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.13
82449730|NCT04569357|164606848|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.2
82449731|NCT04569357|164606849|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82449732|NCT04569357|164606850|SUPERIORITY|||||||0.5|||||||Fisher Exact|||||||0.5
82449733|NCT04569357|164606851|SUPERIORITY|||||||0.0254|||||||Fisher Exact|||||||0.0254
82449734|NCT02161757|164606853|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.93||||0.5859|TWO_SIDED|95.0|0.72|1.21|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): Tralo 300 mg Q2W vs placebo.||1.21|0.72|0.5859
82648207|NCT00430638|165011932|SUPERIORITY_OR_OTHER||||||<|0.0001||||||No multiplicity adjustments|ANCOVA|The ANCOVA model included randomized treatment and baseline cuff blood pressure stage as factors and study baseline systolic BP value as a covariate.||Null hypothesis: For the entire efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82449735|NCT02161757|164606853|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate ratio|0.9||||0.4406|TWO_SIDED|95.0|0.7|1.17|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate ratio): Tralo 300 mg Q4W vs placebo.||1.17|0.70|0.4406
82449736|NCT02161757|164606853|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|7.01||||0.5859|TWO_SIDED|95.0|-20.76|28.39|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): Tralo 300 mg Q2W vs placebo.||28.39|-20.76|0.5859
82449737|NCT02161757|164606853|SUPERIORITY|The null hypothesis was that the exacerbation rate during the 52-week double-blind treatment period on tralokinumab was equal to the corresponding exacerbation rate on placebo.|Rate reduction|9.76||||0.4406|TWO_SIDED|95.0|-17.16|30.5|||Negative binominal||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations in the year before the study.|Comparison of AAER (rate reduction): Tralo 300 mg Q4W vs placebo.||30.50|-17.16|0.4406
82449738|NCT02161757|164606854|SUPERIORITY||Least square (LS) Mean difference|6.03|||||TWO_SIDED|95.0|2.34|9.73|||||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of percent change from baseline in pre-dose/pre-BD FEV1 at Week 52: Tralo 300 mg Q2W vs placebo.~Restricted maximum likelihood (REML) based repeated measures analysis performed on patients with a baseline pre-dose/pre-BD FEV1 assessment."||9.73|2.34|
82449739|NCT02161757|164606854|SUPERIORITY||LS Mean difference|2.1|||||TWO_SIDED|95.0|-1.58|5.77|||||Fixed categorical effects of treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of percent change from baseline in pre-dose/pre-BD FEV1 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis performed on patients with a baseline pre-dose/pre-BD FEV1 assessment."||5.77|-1.58|
82449740|NCT02161757|164606855|SUPERIORITY||LS Mean difference|-0.09|||||TWO_SIDED|95.0|-0.23|0.04|||||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||0.04|-0.23|
82449741|NCT02161757|164606855|SUPERIORITY||LS Mean difference|-0.02|||||TWO_SIDED|95.0|-0.15|0.12|||||Fixed categorical effects of baseline asthma symptom score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in total asthma symptom score at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.12|-0.15|
82449742|NCT02161757|164606856|SUPERIORITY||LS Mean difference|0.15|||||TWO_SIDED|95.0|-0.01|0.31|||||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||0.31|-0.01|
82449743|NCT02161757|164606856|SUPERIORITY||LS Mean difference|0.12|||||TWO_SIDED|95.0|-0.03|0.28|||||Fixed categorical effects of baseline AQLQ(S)+12 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for AQLQ(S)+12 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.28|-0.03|
82652133|NCT02637557|165019478|SUPERIORITY||LS Mean Difference|-0.254||||0.1627|TWO_SIDED|95.0|-0.611|0.103||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.103|-0.611|0.1627
82427576|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.8|||||TWO_SIDED|95.0|0.64|1.01|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 18C. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.01|0.64|
82535702|NCT03253653|164769568|OTHER||z|-1.304||||0.192|TWO_SIDED||||||Mann-Whitney U test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.192
82535703|NCT03253653|164769569|OTHER||z|-2.136||||0.033|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level diastolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.033
82427577|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.7|||||TWO_SIDED|95.0|0.56|0.87|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19A. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.87|0.56|
82427578|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.65|||||TWO_SIDED|95.0|0.49|0.85|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.85|0.49|
82427579|NCT00492557|164563313|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was the lower bound of the 2-sided, 95% CI for the geometric mean ratio greater than 0.5 (2-fold criterion).|Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.71|1.27|||||CIs for the ratio were back transformations of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 23F. The primary null hypothesis was: the log of the GMC in the group receiving 13vPnC and TIV concomitantly, minus the log of the GMC in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.27|0.71|
82427580|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.68|1.24|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 1. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.24|0.68|
82427581|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.69|1.2|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 3. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.20|0.69|
82427582|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.47|0.95|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 4. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||0.95|0.47|
82449744|NCT02161757|164606857|SUPERIORITY||LS Mean difference|-0.16|||||TWO_SIDED|95.0|-0.29|-0.02|||||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||-0.02|-0.29|
82449745|NCT02161757|164606857|SUPERIORITY||LS Mean difference|-0.12|||||TWO_SIDED|95.0|-0.26|0.01|||||Fixed categorical effects of baseline ACQ-6 score, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of change in mean score from baseline for ACQ-6 at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||0.01|-0.26|
82535704|NCT03253653|164769570|OTHER||z|-1.22||||0.223|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the heart rate after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.223
82535705|NCT03253653|164769571|OTHER||z|-7.024|||<|0.001|TWO_SIDED||||||Mann Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||<0.001
82652134|NCT02637557|165019478|SUPERIORITY||LS Mean Difference|-0.417||||0.0237|TWO_SIDED|95.0|-0.777|-0.056||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||-0.056|-0.777|0.0237
82427583|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.77|1.6|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 5. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.60|0.77|
82427584|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.08|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6A. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.08|0.54|
82427585|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.55|1.09|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 6B. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.09|0.55|
82427586|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.47|1.12|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 7F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.12|0.47|
82427587|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.42|1.03|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 9V. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.03|0.42|
82427588|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.65|1.24|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 14. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.24|0.65|
82427589|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.59|1.14|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 18C. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.14|0.59|
82449746|NCT02161757|164606858|SUPERIORITY||Rate ratio|0.54||||0.0369|TWO_SIDED|95.0|0.3|0.96|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: Tralo 300 mg Q2W vs placebo.||0.96|0.30|0.0369
82449747|NCT02161757|164606858|SUPERIORITY||Rate ratio|0.78||||0.3603|TWO_SIDED|95.0|0.46|1.33|||Negative binomial||Covariates in the model included treatment group, geographical region, age group, periostin group at baseline and number of exacerbations resulting in hospitalisation or ER treatment (yes/no) in the year before the study.|Comparison of AAER associated with an ER/UC visit or hospitalisation: Tralo 300 mg Q4W vs placebo.||1.33|0.46|0.3603
82449748|NCT02161757|164606860|SUPERIORITY||LS Mean difference|-0.11|||||TWO_SIDED|95.0|-0.51|0.29|||||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: Tralo 300 mg Q2W vs placebo. REML based repeated measures analysis.||0.29|-0.51|
82449749|NCT02161757|164606860|SUPERIORITY||LS Mean difference|-0.16|||||TWO_SIDED|95.0|-0.56|0.24|||||Fixed categorical effects of baseline rescue medication use, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|Comparison of mean change from baseline in rescue medication use at Week 52: Tralo 300 mg Q4W vs placebo. REML based repeated measures analysis.||0.24|-0.56|
82648208|NCT00430638|165011933|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|The ANCOVA Model included randomized treatment and baseline cuff BP stage as factors and study baseline diastolic BP as a covariate.||Null hypothesis: For the entire efficacy population, Olmesartan had the same effect on change from baseline in diastolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82449750|NCT02161757|164606861|SUPERIORITY||LS Mean difference|6.25|||||TWO_SIDED|95.0|-3.53|16.03|||||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||16.03|-3.53|
82449751|NCT02161757|164606861|SUPERIORITY||LS Mean difference|1.77|||||TWO_SIDED|95.0|-7.99|11.53|||||Fixed categorical effects of baseline PEF (morning), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in morning PEF at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||11.53|-7.99|
82648209|NCT00430638|165011934|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (male systolic blood pressure (SBP)): For the male efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82648210|NCT00430638|165011934|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Males - diastolic blood pressure (DBP)): For the male efficacy population, Olmesartan had the same effect on change from baseline in diastolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82427590|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.61|1.12|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19A. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.12|0.61|
82427591|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.57|1.16|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.16|0.57|
82427592|NCT00492557|164563316|NON_INFERIORITY_OR_EQUIVALENCE|The criterion upon which to declare non-inferiority was if the lower limit of the 2-sided 95%CI for the GMT ratios, (13vPnC+TIV relative to 13vPnC administered 1 month after TIV+placebo) was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.27|||||2-sided 95% CIs for the GMT ratio were calculated by back transformations of the 95% CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 23F. The primary null hypothesis was: the log of the GMT in the group receiving 13vPnC + TIV minus the log of the GMT in the group receiving 13vPnC alone (1 month after TIV) \<= -0.693.||1.27|0.54|
82427593|NCT00372957|164563329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-2.28|-1.93|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||-1.93|-2.28|
82427594|NCT00372957|164563329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|||||TWO_SIDED|95.0|-2.33|-1.98|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||-1.98|-2.33|
82427595|NCT00372957|164563329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|||||TWO_SIDED|95.0|-2.15|-1.82|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||-1.82|-2.15|
82427596|NCT00372957|164563329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12|||||TWO_SIDED|95.0|-2.28|-1.95|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||-1.95|-2.28|
82449752|NCT02161757|164606861|SUPERIORITY||LS Mean difference|7.14|||||TWO_SIDED|95.0|-2.6|16.87|||||Fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||16.87|-2.60|
82449753|NCT02161757|164606861|SUPERIORITY||LS Mean difference|0.61|||||TWO_SIDED|95.0|-9.13|10.35|||||Fixed categorical effects of baseline PEF (evening), treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in evening PEF at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||10.35|-9.13|
82449754|NCT02161757|164606862|SUPERIORITY||LS Mean difference|-1.8|||||TWO_SIDED|95.0|-5.29|1.69|||||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Tralo 300 mg Q2W vs placebo.~REML based repeated measures analysis."||1.69|-5.29|
82648211|NCT00430638|165011935|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - females): For the female efficacy population, Olmesartan had the same effect on change from baseline in systolic blood pressure at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82427597|NCT00372957|164563330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.87|||||TWO_SIDED|95.0|2.33|5.41|||Double-delta analysis||he point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||5.41|2.33|
82427598|NCT00372957|164563330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||||TWO_SIDED|95.0|3.7|6.73|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||6.73|3.70|
82427599|NCT00372957|164563330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|||||TWO_SIDED|95.0|1.9|4.54|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||4.54|1.90|
82427600|NCT00372957|164563330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.39|||||TWO_SIDED|95.0|3.1|5.68|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||5.68|3.10|
82427601|NCT00372957|164563331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56|||||TWO_SIDED|95.0|-6.0|2.89|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||2.89|-6.00|
82577139|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.187||0.3811|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Insomnia - Late, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3811
82427602|NCT00372957|164563331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||||TWO_SIDED|95.0|-3.3|5.72|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||5.72|-3.30|
82427603|NCT00372957|164563331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||||TWO_SIDED|95.0|-5.2|2.5|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||2.50|-5.20|
82427604|NCT00372957|164563331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|-2.47|5.43|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||5.43|-2.47|
82427605|NCT00372957|164563332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-20.4|4.2|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||4.2|-20.4|
82427606|NCT00372957|164563332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|||||TWO_SIDED|95.0|-28.4|-3.9|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||-3.9|-28.4|
82427607|NCT00372957|164563332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9|||||TWO_SIDED|95.0|-23.1|1.4|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.4|-23.1|
82427608|NCT00372957|164563332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||||TWO_SIDED|95.0|-27.9|-3.3|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||-3.3|-27.9|
82427609|NCT00372957|164563333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.64|1.16|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||1.16|-0.64|
82449755|NCT02161757|164606862|SUPERIORITY||LS Mean difference|-2.36|||||TWO_SIDED|95.0|-5.84|1.12|||||Fixed categorical effects of baseline number (%) of awakenings, treatment group, geographical region, age group, periostin group, visit and treatment-by-visit interaction and number of asthma exacerbations in year before study as a fixed covariate.|"Comparison of mean change from baseline in number (%) of awakenings at Week 52: Tralo 300 mg Q4W vs placebo.~REML based repeated measures analysis."||1.12|-5.84|
82577140|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.3851|TWO_SIDED|95.0|-0.51|0.2|||MMRM|||Insomnia - Late, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.51|0.3851
82427610|NCT00372957|164563333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|||||TWO_SIDED|95.0|-0.47|1.32|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||1.32|-0.47|
82427611|NCT00372957|164563333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||||TWO_SIDED|95.0|-0.37|1.07|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.07|-0.37|
82427612|NCT00372957|164563333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|||||TWO_SIDED|95.0|-0.24|1.21|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||1.21|-0.24|
82427613|NCT00372957|164563334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9|||||TWO_SIDED|95.0|-40.7|0.9|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-12 hr), Day 7||0.9|-40.7|
82427614|NCT00372957|164563334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|||||TWO_SIDED|95.0|-29.8|11.7|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-12 hr), Day 7||11.7|-29.8|
82427615|NCT00372957|164563334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|||||TWO_SIDED|95.0|-33.2|1.4|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 15 mg.|AUC(0-24 hr), Day 7||1.4|-33.2|
82427616|NCT00372957|164563334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2|||||TWO_SIDED|95.0|-23.4|11.1|||Double-delta analysis||The point estimate is the least square mean difference between placebo and GW 823093C 30 mg.|AUC(0-24 hr), Day 7||11.1|-23.4|
82427617|NCT04778592|164563336|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.291||0.4549|TWO_SIDED|95.0|-0.36|0.79|||Mixed Models Analysis|||||0.79|-0.36|0.4549
82427618|NCT04102007|164563364|OTHER|There is no statistical test for this study|Proportion of sPGA 0/1 @ WK 16|57.4|||||TWO_SIDED|95.0|51.1|63.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||63.4|51.1|
82427619|NCT04102007|164563365|OTHER|There is no statistical test for this study|Proportion of sPGA 0 @ WK 16|20.5|||||TWO_SIDED|95.0|15.4|26.0|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||26.0|15.4|
82427620|NCT04102007|164563366|OTHER|There is no statistical test for this study|Proportion of DLQI 0 or 1 @ WK 16|40.2|||||TWO_SIDED|95.0|34.2|46.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||46.4|34.2|
82427621|NCT04102007|164563367|OTHER|There is no statistical test for this study|Proportion of PSS 0 @ WK 16|20.9|||||TWO_SIDED|95.0|16.3|26.4|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||26.4|16.3|
82427622|NCT04102007|164563368|OTHER|There is no statistical test for this study|Proportion of sPGA 0/1 @ WK 52|62.3|||||TWO_SIDED|95.0|56.0|68.1|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||68.1|56.0|
82427623|NCT04102007|164563369|OTHER|There is no statistical test for this study|Proportion of sPGA 0 @ WK 52|27.1|||||TWO_SIDED|95.0|21.9|33.0|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||33.0|21.9|
82427624|NCT04102007|164563370|OTHER|There is no statistical test for this study|Proportion of DLQI 0 or 1 @ WK 52|47.2|||||TWO_SIDED|95.0|41.0|53.4|||Other|There is no test of hypothesis for this study.|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||53.4|41.0|
82427625|NCT04102007|164563371|OTHER|There is no statistical test for this study|Proportion of PSS 0 @ WK 52|27.5|||||TWO_SIDED|95.0|22.3|33.4|||Other|There is no test of hypothesis for this study|Non-Responder Imputation incorporating multiple imputation to handle missing due to COVID-19 for proportion calculation and Wilson score method for confidence interval construction|||33.4|22.3|
82427626|NCT05173974|164563374|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.037|TWO_SIDED|95.0|0.01|0.29||P-value included Bonferroni adjustment.|ANCOVA||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participants included as a random effect.|||0.29|0.01|0.037
82427627|NCT05173974|164563374|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.044|TWO_SIDED|95.0|0.0|0.28||P-value included Bonferroni adjustment.|ANCOVA||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participant included as a random effect.|||0.28|0.00|0.044
82427628|NCT05173974|164563374|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.005|TWO_SIDED|95.0|0.06|0.3||unadjusted P-value was presented.|ANCOVA||||ANCOVA with treatment and period as fixed effects; covariates for participant level baseline (natural logged) and period level baseline (natural logged) minus participant level baseline (natural logged). Participants included as a random effect.|0.30|0.06|0.005
82427629|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.218|TWO_SIDED|95.0|-0.04|0.17|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.17|-0.04|0.218
82427630|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.034|TWO_SIDED|95.0|0.01|0.21|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.21|0.01|0.034
82427631|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.004|TWO_SIDED|95.0|0.05|0.25|||ANCOVA||Statistical comparison for AOB 0-0.5|||0.25|0.05|0.004
82427632|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.058|TWO_SIDED|95.0|0.0|0.24|||ANCOVA||Statistical comparison for AOB 0-1|||0.24|-0.00|0.058
82427633|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.017|TWO_SIDED|95.0|0.03|0.27|||ANCOVA||Statistical comparison for AOB 0-1|||0.27|0.03|0.017
82648212|NCT00430638|165011935|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - females): For the female efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82427634|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.001|TWO_SIDED|95.0|0.09|0.33|||ANCOVA||Statistical comparison for AOB 0-1|||0.33|0.09|0.001
82652135|NCT02637557|165019478|SUPERIORITY|||||||0.013||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.0130
82427635|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.004|TWO_SIDED|95.0|0.06|0.3|||ANCOVA||Statistical comparison for AOB 0-3|||0.30|0.06|0.004
82427636|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.01|TWO_SIDED|95.0|0.04|0.27|||ANCOVA||Statistical comparison for AOB0-3|||0.27|0.04|0.010
82427637|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.002|TWO_SIDED|95.0|0.07|0.31|||ANCOVA||Statistical comparison for AOB0-3|||0.31|0.07|0.002
82427638|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.022|TWO_SIDED|95.0|0.02|0.29|||ANCOVA||Statistical comparison for AOB 0-6|||0.29|0.02|0.022
82427639|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.011|TWO_SIDED|95.0|0.04|0.3|||ANCOVA||Statistical comparison for AOB 0-6|||0.30|0.04|0.011
82427640|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.005|TWO_SIDED|95.0|0.06|0.33|||ANCOVA||Statistical comparison for AOB 0-6|||0.33|0.06|0.005
82427641|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.037|TWO_SIDED|95.0|0.01|0.27|||ANCOVA||Statistical comparison for AOB 0-9|||0.27|0.01|0.037
82427642|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.013|TWO_SIDED|95.0|0.04|0.3|||ANCOVA||Statistical comparison for AOB 0-9|||0.30|0.04|0.013
82427643|NCT05173974|164563375|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.005|TWO_SIDED|95.0|0.06|0.32|||ANCOVA||Statistical comparison for AOB 0-9|||0.32|0.06|0.005
82427644|NCT03289143|164563376|SUPERIORITY|||||||0.6147||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6147
82427645|NCT03289143|164563376|SUPERIORITY|||||||0.5778||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5778
82427646|NCT03289143|164563376|SUPERIORITY|||||||0.5136||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5136
82427647|NCT03289143|164563378|SUPERIORITY|||||||0.8198||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.8198
82449756|NCT02161757|164606863|SUPERIORITY||Odds Ratio (OR)|0.95||||0.732|TWO_SIDED|95.0|0.71|1.28|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from two separate models, from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Tralo 300 mg Q2W vs placebo.||1.28|0.71|0.732
82577141|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.182||0.1373|TWO_SIDED|95.0|-0.63|0.09|||MMRM|||Insomnia - Late, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.63|0.1373
82427648|NCT03289143|164563378|SUPERIORITY|||||||0.3961||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.3961
82427649|NCT03289143|164563378|SUPERIORITY|||||||0.6043||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6043
82427650|NCT03289143|164563379|SUPERIORITY|||||||0.0783||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.0783
82427651|NCT03289143|164563379|SUPERIORITY|||||||0.601||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.6010
82427652|NCT03289143|164563379|SUPERIORITY|||||||0.3961||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.3961
82427653|NCT03289143|164563380|SUPERIORITY|||||||0.9749||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.9749
82427654|NCT03289143|164563380|SUPERIORITY|||||||0.7718||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.7718
82427655|NCT03289143|164563380|SUPERIORITY|||||||0.5789||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5789
82427656|NCT03289143|164563381|SUPERIORITY|||||||0.5235||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5235
82427657|NCT03289143|164563381|SUPERIORITY|||||||0.5612||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.5612
82427658|NCT03289143|164563381|SUPERIORITY|||||||0.713||||||Unadjusted|Mixed-effect Model Repeated Measures|||||||0.7130
82427659|NCT00730756|164563386|SUPERIORITY_OR_OTHER|||||||0.845||95.0|||||ANCOVA|Center, baseline eosinophils, baseline symptom score, age, and gender were included as covariates in all efficacy analyses.||||||0.845
82427660|NCT01152307|164563402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.42|STANDARD_DEVIATION|1.6||0.01|TWO_SIDED|95.0|0.76|6.09|||t-test, 2 sided|||We tested for a difference in the mean total knowledge score between the decision aid and control groups using independent t-test (2 sided). With 100 patients in each arm, the study had more than 90% power to detect a 10% difference in knowledge assuming a common standard deviation of 18%.||6.09|0.76|0.01
82427661|NCT00524121|164563407|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wilcoxon signed rank test|||||||0.011
82427662|NCT00524121|164563408|SUPERIORITY_OR_OTHER|||||||0.115||95.0|||||Log Rank|||||||0.115
82648213|NCT00430638|165011936|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - less than 65 years of age): For the efficacy population \< 65 years of age, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82427663|NCT00524121|164563409|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82427664|NCT00524121|164563410|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82427665|NCT00524121|164563411|SUPERIORITY_OR_OTHER|||||||0.5467|||||||Fisher Exact|||||||0.5467
82427666|NCT01977898|164563440|SUPERIORITY|||||||0.877|||||||Fisher Exact|||A sample size of 65 patients in each group would be required to achieve 80% power to detect this difference between intrathecal morphine and saline administration . Sample size of 64 per group achieve 80% power to detect a difference between the group proportions of 0.25. The proportion in the treatment group is assumed to be 0.5 under the null hypothesis and 0.25 under the alternative hypothesis. The proportion in the control group is .05.The significance level of the test was targeted at .05.||||.877
82427667|NCT01977898|164563441|SUPERIORITY|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||.499
82427668|NCT01977898|164563442|SUPERIORITY|||||||0.463|||||||Chi-squared|||||||.463
82427669|NCT01977898|164563443|SUPERIORITY|||||||0.0463|||||||Chi-squared|||||||.0463
82427670|NCT01977898|164563444|SUPERIORITY|||||||0.525|||||||Chi-squared|||||||.525
82427671|NCT01977898|164563445|SUPERIORITY|||||||0.691|||||||Wilcoxon (Mann-Whitney)|||||||0.691
82427672|NCT01977898|164563446|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.610
82427673|NCT01977898|164563447|SUPERIORITY|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||.499
82427674|NCT01977898|164563448|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||.06
82427675|NCT01977898|164563449|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||.31
82427676|NCT01453166|164563455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.0|STANDARD_DEVIATION|19.0|<|0.05||95.0|100.0|140.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||140|100|<0.05
82427677|NCT01453166|164563456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.0|STANDARD_DEVIATION|15.0||0.05||95.0|66.0|95.0|||ANOVA|||||95|66|0.05
82427678|NCT01453166|164563457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|170.0|STANDARD_DEVIATION|39.0||0.05||95.0|140.0|220.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||220|140|0.05
82427679|NCT01453166|164563458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|STANDARD_DEVIATION|12.0||0.05||95.0|88.0|112.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||112|88|0.05
82427680|NCT01453166|164563459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|STANDARD_DEVIATION|30.0||0.05||95.0|77.0|137.0|||ANOVA|||"The absolute changes has been assessed by ANOVA, in which the homogeneity of variance was assessed and the Brown-Forsythe correction was used when necessary. In cases of statistically significant differences between groups, we used multiple comparisons with Bonferroni adjustment to locate the differences. Was considered statistically significant p values \<0.05. All analyzes were performed following the principle of intention to treat."||137|77|0.05
82427681|NCT01049373|164563460|SUPERIORITY_OR_OTHER|||||||0.0426|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0426
82535706|NCT03253653|164769572|OTHER||z|-1.248||||0.212|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the SPMA metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.212
82427682|NCT01049373|164563461|SUPERIORITY_OR_OTHER|||||||0.0757|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0757
82535707|NCT03253653|164769573|OTHER||z|-2.721||||0.007|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the cotinine metabolite after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.007
82427683|NCT01049373|164563462|SUPERIORITY_OR_OTHER|||||||0.0465|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0465
82427684|NCT01049373|164563463|SUPERIORITY_OR_OTHER|||||||0.04443|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04443
82427685|NCT01155050|164563483|SUPERIORITY|||||||0.296|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.296
82427686|NCT01155050|164563484|SUPERIORITY|||||||0.787|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.787
82427687|NCT01155050|164563485|SUPERIORITY|||||||0.34|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.340
82427688|NCT01155050|164563486|SUPERIORITY|||||||0.502|||||||ANOVA|||The null hypothesis is that there are no differences in the outcome across groups.||||.502
82427689|NCT01155050|164563487|SUPERIORITY|||||||0.86|||||||ANOVA|||The null hypothesis is that the outcome does not differ across the four groups.||||.860
82427690|NCT01155050|164563488|SUPERIORITY|||||||0.634|||||||ANOVA|||The null hypothesis is that the outcome does not differ across the four groups.||||.634
82427691|NCT01155050|164563489|SUPERIORITY|||||||0.879|||||||ANOVA|||The null hypothesis is that there is no difference in the outcome across the four treatment groups.||||.879
82427692|NCT02136914|164563491|SUPERIORITY||Least Squares Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|2.3||0.0009|TWO_SIDED|95.0|-12.5|-3.3|||Linear Mixed Model w/ Repeated Measures|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||46 subjects per treatment arm provided 90% power using a 2-sided test at 5% significance.||-3.3|-12.5|0.0009
82535708|NCT03253653|164769574|OTHER||z|2.778||||0.006|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of exhaled carbon monoxide after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.006
82577142|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.177||0.136|TWO_SIDED|95.0|-0.62|0.09|||MMRM|||Insomnia - Late, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.62|0.1360
82427693|NCT02136914|164563492|SUPERIORITY||Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|2.7||0.0008|TWO_SIDED|95.0|-14.7|-4.0|||Linear Mixed Model w/ Repeated Measures|||||-4.0|-14.7|0.0008
82427694|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|0.612|<|0.0001|TWO_SIDED|95.0|1.53|3.96||Change from Baseline in ON time without troublesome dyskinesia at Week 12.|Linear Mixed Model w/ Repeated Measures|||||3.96|1.53|<0.0001
82427695|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.634||0.0007|TWO_SIDED|95.0|0.96|3.47||Change from Baseline in ON time without troublesome dyskinesia at Week 24.|Linear Mixed Model w/ Repeated Measures|||||3.47|0.96|0.0007
82427696|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.373||0.0171|TWO_SIDED|95.0|-1.64|-0.16||Change from Baseline in OFF time at Week 12.|Linear Mixed Model w/ Repeated Measures|||||-0.16|-1.64|0.0171
82427697|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.389||0.0406|TWO_SIDED|95.0|-1.58|-0.04||Change from Baseline in OFF time at Week 24.|Linear Mixed Model w/ Repeated Measures|||||-0.04|-1.58|0.0406
82427698|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.508||0.0031|TWO_SIDED|95.0|-2.55|-0.53||Change from Baseline in ON time with troublesome dyskinesia at Week 12.|Linear Mixed Model w/ Repeated Measures|||||-0.53|-2.55|0.0031
82427699|NCT02136914|164563493|SUPERIORITY||Least Squares Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|0.526||0.0072|TWO_SIDED|95.0|-2.49|-0.4||Change from Baseline in ON time with troublesome dyskinesia at Week 24.|Linear Mixed Model w/ Repeated Measures|||||-0.40|-2.49|0.0072
82427700|NCT02136914|164563494|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.74||0.6833|TWO_SIDED|95.0|-6.6|4.3||Change from Baseline in MDS-UPDRS at Week 12.|Linear Mixed Model w/ Repeated Measures|||||4.3|-6.6|0.6833
82427701|NCT02136914|164563494|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.58||0.5557|TWO_SIDED|95.0|-5.0|9.2||Change from Baseline in MDS-UPDRS at Week 24.|Linear Mixed Model w/ Repeated Measures|||||9.2|-5.0|0.5557
82427702|NCT02136914|164563495|SUPERIORITY||||||<|0.0001||||||Baseline to Week 12|Cochran-Mantel-Haenszel|||||||<0.0001
82427703|NCT02136914|164563495|SUPERIORITY|||||||0.1071||||||Baseline to Week 24|Cochran-Mantel-Haenszel|||||||0.1071
82585966|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.0005||||||2M- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 2M Subjective Sleepiness/Alertness- ESS-TS.||||0.0005
82449757|NCT02161757|164606863|SUPERIORITY||Odds Ratio (OR)|0.88||||0.421|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel||The estimate of each odds ratio was obtained from two separate models, from a Cochran-Mantel-Haenszel test controlling for geographical region, age group and periostin group at baseline.|Comparison of number of patients with ≥ 1 asthma exacerbations up to Week 52: Tralo 300 mg Q4W vs placebo.||1.19|0.65|0.421
82535709|NCT03253653|164769575|OTHER||z|-0.832||||0.406|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of systolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.406
82535710|NCT03253653|164769576|OTHER||z|-1.467||||0.142|TWO_SIDED||||||Mann-Whitney U ranksum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of diastolic blood pressure after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.142
82648214|NCT00430638|165011936|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - less than 65 years of age): For the efficacy population \< 65 years of age, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||<0.0001
82648215|NCT00430638|165011937|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - \> or equal to 65 years old): For the efficacy population \> or = to 65 years of age, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||0.0125
82427704|NCT02286895|164563522|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% confidence interval (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-4.0|4.2||||||Based on results from a prior study, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||4.2|-4.0|
82427705|NCT02286895|164563523|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% CI (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-12.2|4.0||||||Based on results from a prior study completed by PATH and CVD-Mali, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||4.0|-12.2|
82427706|NCT02286895|164563524|NON_INFERIORITY|The protocol stated that non-inferiority would be achieved if the lower limit of the 95% confidence interval (2-sided) for the difference in sero-conversion percentages (group receiving rotavirus minus group not receiving rotavirus) was \> -10%.|Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-7.5|2.7||||||Based on results from a prior study completed by PATH and CVD-Mali, the sponsor assumed 90% sero-conversion rates in each Arms A and B for each antigen in the two co-primary objectives. To rule out a non-inferiority margin of no more than 10% with 95% power (95% power was chosen to give an overall power of at least 90%) and a one-sided type-one error rate of no more than 2.5%, 237 evaluable subjects were required in each group to explore the co-primary objectives.||2.7|-7.5|
82427707|NCT02286895|164563525|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean titer (GMT) of group receiving rotavirus vaccine divided by GMT of group not receiving rotavirus vaccine = 1.|geometric mean titer ratio|0.9|||||TWO_SIDED|95.0|0.8|1.1||||||||1.1|0.8|
82427708|NCT02286895|164563526|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean concentration (GMC) of group receiving rotavirus vaccine/ GMC of group not receiving rotavirus vaccine = 1|geometric mean titer ratio|-0.7|||||TWO_SIDED|95.0|-5.2|3.8||||||||3.8|-5.2|
82427709|NCT02286895|164563527|EQUIVALENCE|Definition of equivalence/null hypothesis: geometric mean titer (GMT) of group receiving rotavirus vaccine divided by GMT of group not receiving rotavirus vaccine = 1.|geometric mean titer ratio|0.9|||||TWO_SIDED|95.0|0.7|1.3||||||||1.3|0.7|
82427710|NCT02286895|164563528|SUPERIORITY||Mean Difference (Net)|17.5|||||TWO_SIDED|95.0|9.7|25.3||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||25.3|9.7|
82427711|NCT02286895|164563529|SUPERIORITY||Mean Difference (Net)|15.8|||||TWO_SIDED|95.0|8.1|23.4||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||23.4|8.1|
82427712|NCT02286895|164563530|SUPERIORITY||Mean Difference (Net)|25.4|||||TWO_SIDED|95.0|14.6|36.2||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||36.2|14.6|
82449758|NCT03997825|164606876|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82449759|NCT03997825|164606877|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82449760|NCT00383162|164606882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|||<|0.001||95.0|2.17|9.36|||Generalized Estimating Equations|||||9.36|2.17|<0.001
82535711|NCT03253653|164769577|OTHER||z|-0.596||||0.551|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the heart rate after a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.551
82648216|NCT00430638|165011937|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) \> or equal to 65): For the efficacy population \> or = to 65 years of age, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons.||||0.0006
82427713|NCT02286895|164563531|SUPERIORITY||Mean Difference (Net)|31.1|||||TWO_SIDED|95.0|23.1|39.0||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||39.0|23.1|
82427714|NCT02286895|164563532|SUPERIORITY||Mean Difference (Net)|17.7|||||TWO_SIDED|95.0|12.0|23.5||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||23.5|12.0|
82427715|NCT02286895|164563533|SUPERIORITY||Mean Difference (Net)|52.0|||||TWO_SIDED|95.0|37.7|66.3||||||Null hypothesis: percentage of the seroresponse to rotavirus in the group that received rotavirus vaccine minus the percentage of the seroresponse to rotavirus in the group that did not receive rotavirus vaccine is less than or equal to 0.||66.3|37.7|
82427716|NCT02286895|164563534|SUPERIORITY||geometric mean titer ratio|1.7|||||TWO_SIDED|95.0|1.2|2.4||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||2.4|1.2|
82427717|NCT02286895|164563535|SUPERIORITY||geometric mean titer ratio|2.3|||||TWO_SIDED|95.0|1.7|3.1||||||Null hypothesis: 28 days post-vaccination, geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||3.1|1.7|
82427718|NCT02286895|164563536|SUPERIORITY||geometric mean titer ratio|2.0|||||TWO_SIDED|95.0|1.2|3.3||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||3.3|1.2|
82427719|NCT02286895|164563537|SUPERIORITY||geometric mean titer ratio|4.6|||||TWO_SIDED|95.0|2.4|8.9||||||Null hypothesis: geometric mean titer (GMT) in group receiving rotavirus vaccine/GMT in group not receiving rotavirus vaccine ≤ 1||8.9|2.4|
82427720|NCT02441218|164563580|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||<|0.0001|TWO_SIDED|95.0|0.75|0.9|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.90|0.75|<0.0001
82427721|NCT02441218|164563581|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.128|TWO_SIDED|95.0|0.8|1.03|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||1.03|0.80|0.128
82427722|NCT02441218|164563582|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.66|0.83|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.83|0.66|< 0.0001
82427723|NCT02441218|164563583|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.092|TWO_SIDED|95.0|0.8|1.02|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||1.02|0.80|0.092
82427724|NCT02441218|164563584|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.014|TWO_SIDED|95.0|0.58|0.94|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.94|0.58|0.0140
82427725|NCT02441218|164563585|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89||||0.0027|TWO_SIDED|95.0|0.82|0.96|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.96|0.82|0.0027
82427726|NCT02441218|164563586|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.0002|TWO_SIDED|95.0|0.78|0.92|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.92|0.78|0.0002
82427727|NCT02441218|164563587|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.0013|TWO_SIDED|95.0|0.81|0.95|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.95|0.81|0.0013
82449761|NCT00767819|164606903|SUPERIORITY|The lower limit of the confidence interval was used to support the decision in favor of p0 or p1: if the lower limit of the confidence interval overlapped p0, the hypothesis that p is greater than or equal to p1 could be rejected; on the other side, if the lower limit of the confidence interval excluded p0, the hypothesis that p is greater than or equal to p1 could be accepted.|percentage of participants|40.5||||0.1|TWO_SIDED|80.0|29.5|52.4|||Clopper-Person confidence interval|||||52.4|29.5|0.1
82449762|NCT04146935|164606926|OTHER|Mixed model repeated measures||||||0.4147||||||Visit 1 (baseline) to visit 4 (peak)|Mixed Models Analysis|||||||0.4147
82449763|NCT04146935|164606927|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82449764|NCT04146935|164606928|OTHER|Mixed model repeated measures||||||0.6957|||||||Mixed Models Analysis|||||||0.6957
82449765|NCT04146935|164606929|OTHER|||||||0.0092|||||||Mixed Models Analysis|||||||0.0092
82427728|NCT02441218|164563588|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.0002|TWO_SIDED|95.0|0.77|0.92|||Regression, Cox||"Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate.~P-value: Wald test"|||0.92|0.77|0.0002
82427729|NCT02441218|164563589|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||<|0.0001|TWO_SIDED|95.0|0.74|0.89|||Regression, Cox||Estimate of the hazard ratio between treatment groups based on an adjusted Cox proportional hazards model with beta-blocker intake at randomisation as a covariate. P-value: Wald test|||0.89|0.74|< 0.0001
82427730|NCT00163189|164563598|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Student's paired t-test|||Month 36||||<0.001
82427731|NCT00163189|164563599|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Student's paired t-test|||Month 36||||0.008
82427732|NCT03435380|164563618|SUPERIORITY||Risk Ratio (RR)|2.37||||0.019|TWO_SIDED|95.0|1.11|5.07|||Mantel Haenszel|Stratified by age at consent (25-39 vs \>=40), diagnosis (Hodgkin lymphoma vs other) and previous breast imaging exam (either mammogram or breast MRI).||||5.07|1.11|0.019
82449766|NCT04146935|164606930|OTHER|Mixed model repeated measures||||||0.1383|||||||Mixed Models Analysis|||||||0.1383
82449767|NCT04146935|164606931|OTHER|mixed model repeated measures||||||0.0572|||||||Mixed Models Analysis|||||||0.0572
82449768|NCT04038567|164606944|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-1.14|1.2||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.20|-1.14|
82449769|NCT04038567|164606944|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|95.0|-2.39|-0.04||||||Values are change in model-estimated means for his vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.04|-2.39|
82449770|NCT04038567|164606944|SUPERIORITY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-1.12|1.23||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.23|-1.12|
82449771|NCT04038567|164606945|SUPERIORITY||Mean Difference (Net)|-1.14|||||TWO_SIDED|95.0|-2.12|-0.16||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.16|-2.12|
82427733|NCT03435380|164563618|SUPERIORITY||Risk Ratio (RR)|1.96||||0.092|TWO_SIDED|95.0|0.87|4.38|||Mantel Haenszel|Stratified by age at consent (25-39 vs \>=40), diagnosis (Hodgkin lymphoma vs other) and previous breast imaging exam (either mammogram or breast MRI).||||4.38|0.87|0.092
82427734|NCT02431325|164563646|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
82427735|NCT02431325|164563647|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82427736|NCT02431325|164563648|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82427737|NCT02431325|164563649|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
82427738|NCT02431325|164563650|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82427739|NCT02431325|164563651|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82427740|NCT02431325|164563652|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
82427741|NCT02431325|164563653|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82427742|NCT02431325|164563654|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82427743|NCT02431325|164563655|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82427744|NCT02431325|164563656|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82427745|NCT02431325|164563657|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82427746|NCT02431325|164563658|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82427747|NCT02431325|164563659|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
82427748|NCT02431325|164563660|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82427749|NCT02431325|164563661|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
82427750|NCT02431325|164563662|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
82427751|NCT02431325|164563663|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Change from baseline at week 24||||0.09
82427752|NCT02431325|164563663|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Change from baseline at week 12||||0.25
82427753|NCT02431325|164563664|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
82427754|NCT02431325|164563665|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82449772|NCT04038567|164606945|SUPERIORITY||Mean Difference (Final Values)|-0.82|||||TWO_SIDED|95.0|-1.8|1.49||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.49|-1.80|
82449773|NCT04038567|164606945|SUPERIORITY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.48|1.49||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.49|-0.48|
82449774|NCT04038567|164606946|SUPERIORITY||Mean Difference (Final Values)|-0.32|||||TWO_SIDED|95.0|-1.66|1.01||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.01|-1.66|
82427755|NCT05525910|164563690|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|105.03|||||TWO_SIDED|90.0|94.54|116.68||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||116.68|94.54|
82427756|NCT05525910|164563690|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.15|||||TWO_SIDED|90.0|98.08|121.47||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||121.47|98.08|
82427757|NCT05525910|164563690|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|100.72|||||TWO_SIDED|90.0|90.79|111.74||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||111.74|90.79|
82427758|NCT05525910|164563690|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|110.45|||||TWO_SIDED|90.0|99.58|122.52||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||122.52|99.58|
82427759|NCT05525910|164563691|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|104.86|||||TWO_SIDED|90.0|93.78|117.24||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||117.24|93.78|
82535712|NCT03253653|164769578|OTHER||z|-0.787||||0.431|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.431
82427760|NCT05525910|164563691|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.7|||||TWO_SIDED|90.0|97.93|122.89||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||122.89|97.93|
82427761|NCT05525910|164563691|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|100.14|||||TWO_SIDED|90.0|89.69|111.8||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||111.80|89.69|
82427762|NCT05525910|164563691|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|109.8|||||TWO_SIDED|90.0|98.36|122.57||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||122.57|98.36|
82427763|NCT05525910|164563692|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.85|||||TWO_SIDED|90.0|94.97|127.06||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||127.06|94.97|
82427764|NCT05525910|164563692|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|114.69|||||TWO_SIDED|90.0|98.92|132.98||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||132.98|98.92|
82427765|NCT05525910|164563692|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|109.26|||||TWO_SIDED|90.0|94.64|126.14||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||126.14|94.64|
82427766|NCT05525910|164563692|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|115.98|||||TWO_SIDED|90.0|100.48|133.87||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||133.87|100.48|
82427767|NCT05525910|164563693|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.85|||||TWO_SIDED|90.0|76.24|103.53||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||103.53|76.24|
82427768|NCT05525910|164563693|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|95.11|||||TWO_SIDED|90.0|81.41|111.11||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||111.11|81.41|
82427769|NCT05525910|164563693|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|85.74|||||TWO_SIDED|90.0|73.73|99.7||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||99.70|73.73|
82427770|NCT05525910|164563693|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|93.12|||||TWO_SIDED|90.0|80.09|108.26||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||108.26|80.09|
82427771|NCT05525910|164563694|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.43|||||TWO_SIDED|90.0|74.64|104.78||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||104.78|74.64|
82427772|NCT05525910|164563694|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|96.0|||||TWO_SIDED|90.0|80.8|114.06||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||114.06|80.80|
82427773|NCT05525910|164563694|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|84.11|||||TWO_SIDED|90.0|71.15|99.43||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||99.43|71.15|
82535713|NCT03253653|164769579|OTHER||z|-0.652||||0.515|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.515
82535714|NCT03253653|164769580|OTHER||z|-2.394||||0.017|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0. 017
82535715|NCT03253653|164769581|OTHER||z|-1.286||||0.199|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.199
82535716|NCT03253653|164769582|OTHER||z|-3.091||||0.002|TWO_SIDED||||||Mann-Whitney U rank sum test||||We used the Mann-Whitney U rank sum test (two-tailed alpha level p \< 0.05), appropriate for between-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level for n=25 non-smokers.|||0.002
82535717|NCT03253653|164769583|OTHER||z|0.13||||0.896|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.896
82577143|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.176||0.1264|TWO_SIDED|95.0|-0.62|0.08|||MMRM|||Insomnia - Late, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.62|0.1264
82652136|NCT02637557|165019479|SUPERIORITY||LS Mean Difference|-0.052||||0.747|TWO_SIDED|95.0|-0.369|0.265||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.265|-0.369|0.7470
82427774|NCT05525910|164563694|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|90.99|||||TWO_SIDED|90.0|76.99|107.54||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||107.54|76.99|
82427775|NCT05525910|164563695|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|82.65|||||TWO_SIDED|90.0|65.85|103.74||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) Low Disintegrant||103.74|65.85|
82427776|NCT05525910|164563695|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|94.85|||||TWO_SIDED|90.0|75.28|119.49||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) High Disintegrant||119.49|75.28|
82427777|NCT05525910|164563695|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|81.56|||||TWO_SIDED|90.0|65.18|102.07||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 2\*(150/50 mg) HDL||102.07|65.18|
82427778|NCT05525910|164563695|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio and 90% CI are expressed as percentages.|Ratio of Adjusted Geometric Means|88.38|||||TWO_SIDED|90.0|70.65|110.57||||||Reference: Nirmatrelvir/ritonavir 300(2\*150)/100 mg Test: Nirmatrelvir/ritonavir 3\*(100/33.3 mg)||110.57|70.65|
82427779|NCT01854528|164563742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.26|||<|0.001|TWO_SIDED|95.0|21.09|47.42|||Stratum adjusted Mantel-Haenszel|||P-value for the difference in sustained virologic response rates 12 weeks after the last dose between treatment groups with HCV subgenotype (1a, non-1a) from stratum adjusted Mantel-Haenszel with previous type of response to pegIFN/RBV treatment (relapser, partial or null responder) as strata.||47.42|21.09|<0.001
82427780|NCT01854528|164563743|SUPERIORITY_OR_OTHER||LS mean difference|8.64|||<|0.001|TWO_SIDED|95.0|5.43|11.85|||ANCOVA|||P-value from ANCOVA model including baseline score and region as covariates and treatment arm as a factor.||11.85|5.43|<0.001
82427781|NCT01854528|164563744|SUPERIORITY_OR_OTHER||LS mean difference|7.55|||<|0.001|TWO_SIDED|95.0|5.11|9.98|||ANCOVA|||P-value from ANCOVA model including baseline score and region as covariates and treatment arm as a factor.||9.98|5.11|<0.001
82427782|NCT01854528|164563745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|54.7|||<|0.001|TWO_SIDED|95.0|6.9|435.1|||Regression, Logistic|||P-value from logistic regression model including treatment arm, baseline log10 HCV RNA level, HCV subgenotype, and previous response to pegIFN/RBV treatment as predictors.||435.1|6.9|<0.001
82427783|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-2.0|||||TWO_SIDED|95.0|-6.0|3.0||||||Immune response to Men A when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||3|-6|
82427784|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-1.0|||||TWO_SIDED|95.0|-6.0|3.0||||||Immune response to Men C when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||3|-6|
82449775|NCT04038567|164606946|SUPERIORITY||Mean Difference (Final Values)|-1.47|||||TWO_SIDED|95.0|-2.81|-0.14||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.14|-2.81|
82577144|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.172||0.0567|TWO_SIDED|95.0|-0.67|0.01|||MMRM|||Insomnia - Late, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.67|0.0567
82648217|NCT00430638|165011938|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - Black participants): For the Black efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82427785|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-4.0|||||TWO_SIDED|95.0|-9.0|1.0||||||Immune response to Men W when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-9|
82427786|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given concomitantly with HPV and Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup I minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|0.0|||||TWO_SIDED|95.0|-4.0|5.0||||||Immune response to Men Y when MenACWY is administered concomitantly with Tdap and HPV, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||5|-4|
82427787|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|5.0|||||TWO_SIDED|95.0|1.0|10.0||||||Immune response to Men A when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||10|1|
82427788|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||||||Immune response to Men C when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||4|-6|
82427789|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-16.0|||||TWO_SIDED|95.0|-21.0|-10.0||||||Immune response to Men W when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||-10|-21|
82427790|NCT00518180|164563748|NON_INFERIORITY_OR_EQUIVALENCE|The immunogenicity of MenACWY given after Tdap was considered non inferior to the immunogenicity of MenACWY administered alone, if, for each serogroup, the lower limit of the two-sided 95% confidence interval (CI) for the difference in percentage of subjects with seroresponse at one month after MenACWY vaccination (PGroup III minus PGroup II) was greater than -10%.|Vaccine Group differences (%)|-4.0|||||TWO_SIDED|95.0|-9.0|1.0||||||Immune response to Men Y when MenACWY is administered 1 month after Tdap, compared with the immune response to MenACWY when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-9|
82427791|NCT00518180|164563749|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, was demonstrated for the diphteria and tetanus antigens if the lower limits of the two-sided 95% CIs around the difference in the percentages of subjects with ELISA anti-D toxin ≥ 1.0 IU/mL \[Group I minus Group III\] were greater than -10%.|Vaccine Group differences (%)|2.0|||||TWO_SIDED|95.0|1.0|4.0||||||Non inferiority of the immune response to diphteria antigen, when Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||4|1|
82427792|NCT00518180|164563749|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, was demonstrated for the diphteria and tetanus antigens if the lower limits of the two-sided 95% CIs around the difference in the percentages of subjects with ELISA anti-D toxin ≥ 1.0 IU/mL \[Group I minus Group III\] were greater than -10%.|Vaccine Group differences (%)|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Non inferiority of the immune response to tetanus antigen, when Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone. Method: ANCOVA. Parameter estimate: Vaccine Group Differences.||1|-1|
82449776|NCT04038567|164606946|SUPERIORITY||Mean Difference (Final Values)|0.82|||||TWO_SIDED|95.0|-0.52|2.15||||||Values are change in model-estimated means for therapist vs. app response to symptoms. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.15|-0.52|
82449777|NCT04038567|164606947|SUPERIORITY||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-1.23|0.91||||||||0.91|-1.23|
82449778|NCT04038567|164606947|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|95.0|-2.29|-0.15||||||||-0.15|-2.29|
82449779|NCT04038567|164606947|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.77|0.37||||||||0.37|-1.77|
82449780|NCT04038567|164606948|SUPERIORITY||Mean Difference (Final Values)|-1.58|||||TWO_SIDED|95.0|-4.41|1.25||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.25|-4.41|
82449781|NCT04038567|164606948|SUPERIORITY||Mean Difference (Final Values)|-0.42|||||TWO_SIDED|95.0|-3.26|2.42||||||Values are change in model-estimated means for hig vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.42|-3.26|
82449782|NCT04038567|164606948|SUPERIORITY||Mean Difference (Final Values)|1.49|||||TWO_SIDED|95.0|-1.35|4.33||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||4.33|-1.35|
82449783|NCT04038567|164606953|SUPERIORITY||Mean Difference (Final Values)|0.58|||||TWO_SIDED|95.0|-0.62|1.78||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.78|-0.62|
82449784|NCT04038567|164606953|SUPERIORITY||Mean Difference (Final Values)|0.73|||||TWO_SIDED|95.0|-0.47|1.92||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.92|-0.47|
82535718|NCT03253653|164769584|OTHER||z|-0.362||||0.717|TWO_SIDED||||||The Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.717
82535719|NCT03253653|164769585|OTHER||z|2.233||||0.026|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.026
82535720|NCT03253653|164769586|OTHER||z|0.383||||0.702|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.702
82535721|NCT03253653|164769587|OTHER||z|2.244||||0.025|TWO_SIDED||||||Wilcoxon signed rank test||||We used the Wilcoxon signed rank test (two-tailed alpha level p \< 0.05), appropriate for within-subjects analyses, to determine whether level of the furan metabolite post a tobacco smoking session for n=50 smokers differed from the level pre the tobacco smoking session.|||0.025
82535722|NCT01955382|164769588|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82535723|NCT01207908|164769600|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.53|TWO_SIDED|95.0|-37.1|20.1|||t-test, 2 sided|||||20.1|-37.1|0.53
82535724|NCT01207908|164769601|SUPERIORITY||Mean Difference (Final Values)|-2.66|||<|0.0001|TWO_SIDED|95.0|-3.78|-1.55|||t-test, 2 sided|||||-1.55|-3.78|<0.0001
82535725|NCT01207908|164769602|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.53|TWO_SIDED|95.0|-1.26|2.38|||t-test, 2 sided|||||2.38|-1.26|0.53
82535726|NCT02092987|164769608|SUPERIORITY_OR_OTHER_LEGACY||interaction term|||||0.7|||||||Mixed Models Analysis|||Hypothesis testing in changes in mean from baseline to follow-up were were conducted primarily with mixed models. Sensitivity analyses were conducted using ANOVA.||||0.70
82648218|NCT00430638|165011938|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Black participants): For the Black efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82449785|NCT04038567|164606953|SUPERIORITY||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.0|1.39||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.39|-1.00|
82449786|NCT04038567|164606954|SUPERIORITY||Mean Difference (Final Values)|0.91|||||TWO_SIDED|95.0|-0.45|2.27||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||2.27|-0.45|
82449787|NCT04038567|164606954|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-1.33|1.38||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.38|-1.33|
82449788|NCT04038567|164606954|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.72|0.99||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.99|-1.72|
82535727|NCT02092987|164769609|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||||||comparison of arms using mixed models|Mixed Models Analysis|||||||0.77
82535728|NCT02092987|164769610|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
82535729|NCT02092987|164769611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
82535730|NCT02092987|164769612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76|||||||Mixed Models Analysis|||||||0.76
82535731|NCT02092987|164769613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
82535732|NCT02092987|164769614|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Mixed Models Analysis|||||||0.62
82535733|NCT00180674|164769627|SUPERIORITY|||||||0.043|||||||Wilcoxon Signed Ranks test|||||||0.043
82535734|NCT02584790|164769641|OTHER|||||||0.004|||||||Chi-squared|||2x2 table of: Row: 1. NBI suspicious pattern 2. NBI non-suspicious pattern Category: 1. with residual disease 2. without residual disease||||0.004
82561737|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.65|2.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.44|0.65|
82427793|NCT00518180|164563758|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9||||||Non inferiority of the immune response to Tdap is administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, for PT antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.9|0.72|
82427794|NCT00518180|164563758|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.68|||||TWO_SIDED|95.0|0.58|0.81||||||Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alone, for PRN antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.81|0.58|
82427795|NCT00518180|164563758|NON_INFERIORITY_OR_EQUIVALENCE|Tdap concomitant with MenACWY a was considered non inferior to Tdap alone if, for PT, FHA and pertactin, the lower limit of the two-sided 95% CI for the ratio of the GMCs (GMC Group I / GMC Group III) at 1 month after vaccination was \> 0.67.|Vaccine Group Ratio|0.67|||||TWO_SIDED|95.0|0.58|0.76||||||Non inferiority of the immune response to Tdap when administered concomitantly with MenACWY and HPV, compared with the immune response to Tdap when administered alon, for FHA antigen. Method: ANCOVA. Parameter estimate: Vaccine Group Ratio.||0.76|0.58|
82427796|NCT03060902|164563767|SUPERIORITY||F|10.16||||0.002|TWO_SIDED||||||ANOVA|||||||.002
82427797|NCT02289469|164563768|SUPERIORITY||Mean Difference (Final Values)|23.8|||<|0.0001|TWO_SIDED|95.0|16.0|31.6|||Chi-squared|||A chi-square test was used to test for differences in proportions between intervention and control groups.||31.6|16.0|<0.0001
82427798|NCT02289469|164563769|OTHER||||||<|0.01|||||||Other|||Descriptive statistics (counts, frequencies) were used to summarize responses.||||<0.01
82427799|NCT01419119|164563786|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82427800|NCT01419119|164563787|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82427801|NCT03710889|164563788|OTHER|Within treatment paired t-tests were used to compare the differences in dynamic indices between Baseline and Month 3 using the Bone-Biopsy Population. If the normality assumption is not satisfied at the 0.01 significance level and visual inspection of the data deems it necessary, Wilcoxon signed-rank test is used. No adjustments for multiplicity were made. A 2-sided p-value \<0.05 was considered statistically significant.|||||<|0.0001|||||||Paired t-test, 2 sided|||||||<0.0001
82427802|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-5.64|||<|0.001|TWO_SIDED|95.0|-7.34|-3.94|||Mixed Models Analysis|||||-3.94|-7.34|<0.001
82427803|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-10.45|||<|0.001|TWO_SIDED|95.0|-12.21|-8.7|||Mixed Models Analysis|||||-8.70|-12.21|<0.001
82427804|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-12.25|||<|0.001|TWO_SIDED|95.0|-14.42|-10.08|||Mixed Models Analysis|||||-10.08|-14.42|<0.001
82449789|NCT04038567|164606955|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.3|0.3||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.30|-1.30|
82449790|NCT04038567|164606955|SUPERIORITY||Mean Difference (Final Values)|-0.53|||||TWO_SIDED|95.0|-1.33|0.27||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.27|-1.33|
82427805|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-15.1|||<|0.001|TWO_SIDED|95.0|-16.9|-13.3|||Mixed Models Analysis|||||-13.30|-16.90|<0.001
82427806|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-16.72|||<|0.001|TWO_SIDED|95.0|-18.86|-14.58|||Mixed Models Analysis|||||-14.58|-18.86|<0.001
82427807|NCT04881760|164563792|SUPERIORITY||LS Mean difference (Final Values)|-15.85|||<|0.001|TWO_SIDED|95.0|-17.57|-14.13|||Mixed Models Analysis|||||-14.13|-17.57|<0.001
82449791|NCT04038567|164606955|SUPERIORITY||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.55|1.05||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.05|-.55|
82427808|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-6.57|||<|0.001|TWO_SIDED|95.0|-8.94|-4.2|||Mixed Models Analysis|||||-4.20|-8.94|<0.001
82427809|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-14.21|||<|0.001|TWO_SIDED|95.0|-17.64|-10.78|||Mixed Models Analysis|||||-10.78|-17.64|<0.001
82427810|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-15.72|||<|0.001|TWO_SIDED|95.0|-19.05|-12.4|||Mixed Models Analysis|||||-12.40|-19.05|<0.001
82427811|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-19.62|||<|0.001|TWO_SIDED|95.0|-22.73|-16.51|||Mixed Models Analysis|||||-16.51|-22.73|<0.001
82427812|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-21.78|||<|0.001|TWO_SIDED|95.0|-25.05|-18.51|||Mixed Models Analysis|||||-18.51|-25.05|<0.001
82427813|NCT04881760|164563793|SUPERIORITY||LS Mean difference (Final Values)|-22.11|||<|0.001|TWO_SIDED|95.0|-24.92|-19.31|||Mixed Models Analysis|||||-19.31|-24.92|<0.001
82427814|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|33.0|||<|0.001|TWO_SIDED|95.0|17.0|49.0|||Regression, Logistic|||||49|17|<0.001
82427815|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|61.0|||<|0.001|TWO_SIDED|95.0|45.0|77.0|||Regression, Logistic|||||77|45|<0.001
82427816|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|54.0|81.0|||Regression, Logistic|||||81|54|<0.001
82427817|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|74.0|||<|0.001|TWO_SIDED|95.0|63.0|85.0|||Regression, Logistic|||||85|63|<0.001
82427818|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|74.0|||<|0.001|TWO_SIDED|95.0|63.0|85.0|||Regression, Logistic|||||85|63|<0.001
82427819|NCT04881760|164563794|SUPERIORITY||Risk Difference (RD)|71.0|||<|0.001|TWO_SIDED|95.0|59.0|82.0|||Regression, Logistic|||||82|59|<0.001
82427820|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|37.0|||<|0.001|TWO_SIDED|95.0|20.0|54.0|||Regression, Logistic|||||54|20|<0.001
82449792|NCT04038567|164606956|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-1.41|0.41||||||||0.41|-1.41|
82449793|NCT04038567|164606956|SUPERIORITY||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-1.27|0.55||||||||0.55|-1.27|
82449794|NCT04038567|164606956|SUPERIORITY||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.4|1.42||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.42|-0.40|
82449795|NCT04038567|164606957|SUPERIORITY||Mean Difference (Final Values)|2.33|||||TWO_SIDED|95.0|-3.25|7.91||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||7.91|-3.25|
82449796|NCT04038567|164606957|SUPERIORITY||Mean Difference (Final Values)|4.82|||||TWO_SIDED|95.0|-0.76|10.4||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||10.40|-0.76|
82449797|NCT04038567|164606957|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-5.6|5.56||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||5.56|-5.60|
82449798|NCT04038567|164606958|SUPERIORITY||Mean Difference (Final Values)|3.18|||||TWO_SIDED|95.0|-3.01|9.37||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||9.37|-3.01|
82449799|NCT04038567|164606958|SUPERIORITY||Mean Difference (Final Values)|1.28|||||TWO_SIDED|95.0|-4.92|7.47||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||7.47|-4.92|
82449800|NCT04038567|164606958|SUPERIORITY||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-6.09|6.3||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||6.30|-6.09|
82449801|NCT04038567|164606965|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-5.26|-0.13||||||Values are change in model-estimated means for therapist vs. app introduction. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||-0.13|-5.26|
82449802|NCT04038567|164606965|SUPERIORITY||Mean Difference (Final Values)|-1.89|||||TWO_SIDED|95.0|-4.46|0.67||||||Values are change in model-estimated means for high vs. standard dose. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||0.67|-4.46|
82449803|NCT04038567|164606965|SUPERIORITY||Mean Difference (Final Values)|-0.74|||||TWO_SIDED|95.0|-3.31|1.83||||||Values are change in model-estimated means for therapist vs. app response. Intervention components are coded as follows: introduction method (therapist \[1\] vs app \[-1\]), dose (high \[1\] vs low \[-1\]), and symptom management (therapist \[1\] vs app \[-1\]).||1.83|-3.31|
82449804|NCT03533244|164606969|SUPERIORITY|||||||0.218||||||To reserve the family-wise error rate, the main treatment effect will be first assessed at the global level at alpha = 0.05. If this is significant, then pairwise comparisons will be conducted using the Bonferroni adjustment for multiplicity.|Mixed Models Analysis|||An empirical sample size estimation was used as this was an exploratory study. The null hypothesis is that there is no difference between AG-86893 and AG-86893 Vehicle. It is expected that the active group is at least 50% better than the vehicle.||||0.218
82449805|NCT03533244|164606969|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|||||||0.290
82449806|NCT03533244|164606970|SUPERIORITY|||||||0.193|||||||Mixed Models Analysis|||||||0.193
82449807|NCT03533244|164606970|SUPERIORITY|||||||0.399|||||||Mixed Models Analysis|||||||0.399
82449808|NCT03533244|164606971|SUPERIORITY|||||||0.015|||||||Fisher Exact|||||||0.015
82449809|NCT03533244|164606971|SUPERIORITY|||||||0.022|||||||Fisher Exact|||||||0.022
82449810|NCT01817959|164606978|SUPERIORITY||least square mean difference|0.001||||0.9863|TWO_SIDED|99.75|-0.205|0.207||Treatment p value|ANOVA|||||0.207|-0.205|0.9863
82449811|NCT01817959|164606979|SUPERIORITY||least square mean difference|0.024||||0.7115|TWO_SIDED|99.75|-0.184|0.232||Treatment p value|ANOVA|||||0.232|-0.184|0.7115
82449812|NCT01817959|164606980|SUPERIORITY||Odds Ratio, log|0.21||||0.1346|TWO_SIDED|95.0|0.03|1.63||Treatment p value|Regression, Logistic|||Analytical statistics are reported for Day 75 after transplant 2||1.63|0.03|0.1346
82449813|NCT01817959|164606981|SUPERIORITY||Odds Ratio (OR)|0.91||||0.913|TWO_SIDED|95.0|0.17|4.93||Treatment p value|Regression, Logistic|||||4.93|0.17|0.9130
82449814|NCT01817959|164606982|SUPERIORITY||Odds Ratio (OR)|0.65||||0.5467|TWO_SIDED|95.0|0.16|2.66||Treatment p value|Regression, Logistic|||||2.66|0.16|0.5467
82449815|NCT01817959|164606983|SUPERIORITY|||||||0.1383|||||||Fisher Exact|||||||0.1383
82449816|NCT01817959|164606985|SUPERIORITY||least square mean difference|-0.021||||0.6952|TWO_SIDED|95.0|-0.13|0.088||Treatment p value|ANCOVA|||This is is the analytic statistics for Day 75 (Transplant 1)||0.088|-0.130|0.6952
82449817|NCT01817959|164606985|SUPERIORITY||least square mean difference|0.028||||0.556|TWO_SIDED|95.0|-0.068|0.124||This is a treatment p value|ANCOVA|||This is is the analytic statistics for Day 75 (Transplant 2)||0.124|-0.068|0.5560
82449818|NCT01817959|164606985|SUPERIORITY||least square mean difference|0.056||||0.2537|TWO_SIDED|95.0|-0.042|0.154||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 365 (last Transplant)||0.154|-0.042|0.2537
82449819|NCT01817959|164606986|SUPERIORITY||least square mean difference|-7.4||||0.591|TWO_SIDED|95.0|-35.2|20.3||Treatment p value|ANCOVA|||This is the analytic statics for Day 75 (Transplant 1)||20.3|-35.2|0.5910
82652137|NCT02637557|165019479|SUPERIORITY||LS Mean Difference|-0.047||||0.7699|TWO_SIDED|95.0|-0.364|0.27||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.270|-0.364|0.7699
82427821|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|60.0|||<|0.001|TWO_SIDED|95.0|44.0|76.0|||Regression, Logistic|||||76|44|<0.001
82427822|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|70.0|||<|0.001|TWO_SIDED|95.0|57.0|83.0|||Regression, Logistic|||||83|57|<0.001
82427823|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|62.0|84.0|||Regression, Logistic|||||84|62|<0.001
82427824|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|62.0|84.0|||Regression, Logistic|||||84|62|<0.001
82427825|NCT04881760|164563795|SUPERIORITY||Risk Difference (RD)|73.0|||<|0.001|TWO_SIDED|95.0|67.0|84.0|||Regression, Logistic|||||84|67|<0.001
82427826|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|22.0|||<|0.001|TWO_SIDED|95.0|11.0|33.0|||Regression, Logistic|||||33|11|<0.001
82427827|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.001|TWO_SIDED|95.0|38.0|73.0|||Regression, Logistic|||||73|38|<0.001
82427828|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|69.0|||<|0.001|TWO_SIDED|95.0|53.0|85.0|||Regression, Logistic|||||85|53|<0.001
82427829|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|80.0|||<|0.001|TWO_SIDED|95.0|66.0|93.0|||Regression, Logistic|||||93|66|<0.001
82427830|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|91.0|||<|0.001|TWO_SIDED|95.0|83.0|100.0|||Regression, Logistic|||||100|83|<0.001
82427831|NCT04881760|164563796|SUPERIORITY||Risk Difference (RD)|87.0|||<|0.001|TWO_SIDED|95.0|78.0|96.0|||Regression, Logistic|||||96|78|<0.001
82427832|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|18.0||||0.008|TWO_SIDED|95.0|5.0|31.0|||Regression, Logistic|||||31|5|0.008
82449820|NCT01817959|164606986|SUPERIORITY||least square mean difference|4.2||||0.5966|TWO_SIDED|95.0|-11.8|20.2||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 75 (Transplant 2)||20.2|-11.8|0.5966
82449821|NCT01817959|164606986|SUPERIORITY||least square mean difference|6.1||||0.5005|TWO_SIDED|95.0|-12.1|24.4||Treatment p value|ANCOVA|||This is the analytic statics for Day 365 (last Transplant)||24.4|-12.1|0.5005
82449822|NCT01817959|164606987|SUPERIORITY||least square mean difference|0.21||||0.3253|TWO_SIDED|95.0|-0.21|0.63||Treatment p value|ANCOVA|||This is the analytic statics for Day 75 (Transplant 1)||0.63|-0.21|0.3253
82449823|NCT01817959|164606987|SUPERIORITY||least square mean difference|0.16||||0.6069|TWO_SIDED|95.0|-0.46|0.78||Treatment p value|least square mean difference|||This is the analytic statics for Day 75 (Transplant 2)||0.78|-0.46|0.6069
82449824|NCT01817959|164606987|SUPERIORITY||Least square mean difference|0.17||||0.6437|TWO_SIDED|95.0|-0.56|0.93||Treatment p value|ANCOVA|Treatment p value||This is the analytic statics for Day 365 (last Transplant)||0.93|-0.56|0.6437
82449825|NCT01817959|164606988|SUPERIORITY||least square mean difference|2.0||||0.429|TWO_SIDED|95.0|-3.0|6.9||Treatment p value|ANCOVA|||This is the analytic statistics for Day 75 (Transplant 1)||6.9|-3.0|0.4290
82427833|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|64.0|||<|0.001|TWO_SIDED|95.0|48.0|81.0|||Regression, Logistic|||||81|48|<0.001
82427834|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|67.0|||<|0.001|TWO_SIDED|95.0|51.0|84.0|||Regression, Logistic|||||84|51|<0.001
82427835|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|81.0|||<|0.001|TWO_SIDED|95.0|69.0|94.0|||Regression, Logistic|||||94|69|<0.001
82427836|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|82.0|||<|0.001|TWO_SIDED|95.0|71.0|94.0|||Regression, Logistic|||||94|71|<0.001
82427837|NCT04881760|164563797|SUPERIORITY||Risk Difference (RD)|84.0|||<|0.001|TWO_SIDED|95.0|74.0|94.0|||Regression, Logistic|||||94|74|<0.001
82427838|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|9.0||||0.029|TWO_SIDED|95.0|1.0|17.0|||Regression, Logistic|||||17|1|0.029
82427839|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|27.0|||<|0.001|TWO_SIDED|95.0|11.0|43.0|||Regression, Logistic|||||43|11|<0.001
82427840|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|43.0|||<|0.001|TWO_SIDED|95.0|26.0|60.0|||Regression, Logistic|||||60|26|<0.001
82427841|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|49.0|||<|0.001|TWO_SIDED|95.0|33.0|66.0|||Regression, Logistic|||||66|33|<0.001
82427842|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|67.0|||<|0.001|TWO_SIDED|95.0|51.0|83.0|||Regression, Logistic|||||83|51|<0.001
82427843|NCT04881760|164563798|SUPERIORITY||Risk Difference (RD)|68.0|||<|0.001|TWO_SIDED|95.0|56.0|80.0|||Regression, Logistic|||||80|56|<0.001
82427844|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|15.0||||0.002|TWO_SIDED|95.0|6.0|24.0|||Regression, Logistic|||||24|6|0.002
82427845|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|53.0|||<|0.001|TWO_SIDED|95.0|36.0|70.0|||Regression, Logistic|||||70|36|<0.001
82427846|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|63.0|||<|0.001|TWO_SIDED|95.0|47.0|79.0|||Regression, Logistic|||||79|47|<0.001
82427847|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|71.0|||<|0.001|TWO_SIDED|95.0|55.0|87.0|||Regression, Logistic|||||87|55|<0.001
82427848|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|75.0|||<|0.001|TWO_SIDED|95.0|62.0|89.0|||Regression, Logistic|||||89|62|<0.001
82427849|NCT04881760|164563799|SUPERIORITY||Risk Difference (RD)|82.0|||<|0.001|TWO_SIDED|95.0|71.0|92.0|||Regression, Logistic|||||92|71|<0.001
82449826|NCT01817959|164606988|SUPERIORITY||least square mean difference|1.0||||0.7853|TWO_SIDED|95.0|-6.3|8.3||Treatment p value|ANCOVA|||This is the analytic statistics for Day 75 (Transplant 2)||8.3|-6.3|0.7853
82449827|NCT01817959|164606988|SUPERIORITY||least square mean difference|1.9||||0.6583|TWO_SIDED|95.0|-6.6|10.4||Treatment p value|ANCOVA|||This is the analytic statistics for Day 365 (last Transplant)||10.4|-6.6|0.6583
82449828|NCT01817959|164606992|SUPERIORITY||Least square mean difference|0.0||||0.9949|TWO_SIDED|95.0|-1.28|1.28||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 1)||1.28|-1.28|0.9949
82449829|NCT01817959|164606992|SUPERIORITY||Least square mean difference|0.1||||0.8753|TWO_SIDED|95.0|-1.18|1.38||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 2)||1.38|-1.18|0.8753
82449830|NCT01817959|164606992|SUPERIORITY||Least square mean difference|-0.59||||0.3955|TWO_SIDED|95.0|-1.97|0.8||Treatment p value|ANOVA|||This is the analytic statistics for Day 365 (last Transplant)||0.80|-1.97|0.3955
82449831|NCT01817959|164606993|SUPERIORITY||Least square mean difference|-0.105||||0.2444|TWO_SIDED|95.0|-0.286|0.075||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 1)||0.075|-0.286|0.2444
82427850|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-6.46|||<|0.001|TWO_SIDED|95.0|-8.36|-4.56|||Mixed Models Analysis|||||-4.56|-8.36|<0.001
82427851|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-11.32|||<|0.001|TWO_SIDED|95.0|-13.34|-9.3|||Mixed Models Analysis|||||-9.30|-13.34|<0.001
82427852|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-13.52|||<|0.001|TWO_SIDED|95.0|-15.99|-11.05|||Mixed Models Analysis|||||-11.05|-15.99|<0.001
82427853|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-16.43|||<|0.001|TWO_SIDED|95.0|-18.41|-14.45|||Mixed Models Analysis|||||-14.45|-18.41|<0.001
82427854|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-18.48|||<|0.001|TWO_SIDED|95.0|-20.93|-16.04|||Mixed Models Analysis|||||-16.04|-20.93|<0.001
82427855|NCT04881760|164563800|SUPERIORITY||LS Mean difference (Final Values)|-17.26|||<|0.001|TWO_SIDED|95.0|-19.11|-15.4|||Mixed Models Analysis|||||-15.40|-19.11|<0.001
82427856|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-7.53|||<|0.001|TWO_SIDED|95.0|-10.18|-4.88|||Mixed Models Analysis|||||-4.88|-10.18|<0.001
82427857|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-15.48|||<|0.001|TWO_SIDED|95.0|-19.35|-11.6|||Mixed Models Analysis|||||-11.60|-19.35|<0.001
82449832|NCT01817959|164606993|SUPERIORITY||Least square mean difference|-0.218||||0.0328|TWO_SIDED|95.0|-0.417|-0.019||Treatment p value|ANOVA|||This is the analytic statistics for Day 75 (Transplant 2)||-0.019|-0.417|0.0328
82449833|NCT01817959|164606993|SUPERIORITY||Least square mean difference|-0.177||||0.1059|TWO_SIDED|95.0|-0.393|0.039||This is the analytic statistics for Day 75 (Transplant 2)|ANOVA|||This is the analytic statistics for Day 365 (last Transplant)||0.039|-0.393|0.1059
82449834|NCT03368235|164606999|OTHER||LS mean difference|0.472|STANDARD_ERROR_OF_MEAN|0.4569||0.315|TWO_SIDED|95.0|-0.487|1.431||Based on MMRM model with the baseline DAS28-CRP score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||MMRM = mixed model repeated measures.||1.431|-0.487|0.315
82427858|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-17.29|||<|0.001|TWO_SIDED|95.0|-21.19|-13.39|||Mixed Models Analysis|||||-13.39|-21.19|<0.001
82427859|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-21.69|||<|0.001|TWO_SIDED|95.0|-25.25|-18.12|||Mixed Models Analysis|||||-18.12|-25.25|<0.001
82427860|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-24.04|||<|0.001|TWO_SIDED|95.0|-27.72|-20.36|||Mixed Models Analysis|||||-20.36|-27.72|<0.001
82427861|NCT04881760|164563801|SUPERIORITY||LS Mean difference (Final Values)|-24.34|||<|0.001|TWO_SIDED|95.0|-27.4|-21.27|||Mixed Models Analysis|||||-21.27|-27.40|<0.001
82427862|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-2.15|||<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||Mixed Models Analysis|||||-1.50|-2.80|<0.001
82427863|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-3.98|||<|0.001|TWO_SIDED|95.0|-4.66|-3.29|||Mixed Models Analysis|||||-3.29|-4.66|<0.001
82427864|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-4.64|||<|0.001|TWO_SIDED|95.0|-5.46|-3.82|||Mixed Models Analysis|||||-3.82|-5.46|<0.001
82427865|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-5.66|||<|0.001|TWO_SIDED|95.0|-6.34|-4.99|||Mixed Models Analysis|||||-4.99|-6.34|<0.001
82427866|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-6.35|||<|0.001|TWO_SIDED|95.0|-7.17|-5.53|||Mixed Models Analysis|||||-5.53|-7.17|<0.001
82427867|NCT04881760|164563802|SUPERIORITY||LS Mean difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-6.59|-5.32|||Mixed Models Analysis|||||-5.32|-6.59|<0.001
82427868|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.42|-1.57|||Mixed Models Analysis|||||-1.57|-3.42|<0.001
82427869|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-5.42|||<|0.001|TWO_SIDED|95.0|-6.81|-4.03|||Mixed Models Analysis|||||-4.03|-6.81|<0.001
82427870|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-7.23|-4.67|||Mixed Models Analysis|||||-4.67|-7.23|<0.001
82427871|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-7.4|||<|0.001|TWO_SIDED|95.0|-8.62|-6.18|||Mixed Models Analysis|||||-6.18|-8.62|<0.001
82427872|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-8.3|||<|0.001|TWO_SIDED|95.0|-9.55|-7.05|||Mixed Models Analysis|||||-7.05|-9.55|<0.001
82427873|NCT04881760|164563803|SUPERIORITY||LS Mean difference (Final Values)|-8.42|||<|0.001|TWO_SIDED|95.0|-9.49|-7.35|||Mixed Models Analysis|||||-7.35|-9.49|<0.001
82427874|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-2.82||||0.022|TWO_SIDED|95.0|-5.23|-0.41|||Mixed Models Analysis|||||-0.41|-5.23|0.022
82427875|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-7.73|||<|0.001|TWO_SIDED|95.0|-10.32|-5.13|||Mixed Models Analysis|||||-5.13|-10.32|<0.001
82427876|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-9.95|||<|0.001|TWO_SIDED|95.0|-12.47|-7.43|||Mixed Models Analysis|||||-7.43|-12.47|<0.001
82427877|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-11.14|||<|0.001|TWO_SIDED|95.0|-13.72|-8.56|||Mixed Models Analysis|||||-8.56|-13.72|<0.001
82427878|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-12.38|||<|0.001|TWO_SIDED|95.0|-14.87|-9.9|||Mixed Models Analysis|||||-9.90|-14.87|<0.001
82427879|NCT04881760|164563804|SUPERIORITY||LS Mean difference (Final Values)|-11.73|||<|0.001|TWO_SIDED|95.0|-14.04|-9.43|||Mixed Models Analysis|||||-9.43|-14.04|<0.001
82427880|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-3.84||||0.01|TWO_SIDED|95.0|-6.77|-0.91|||Mixed Models Analysis|||||-0.91|-6.77|0.010
82427881|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-11.94|||<|0.001|TWO_SIDED|95.0|-15.54|-8.33|||Mixed Models Analysis|||||-8.33|-15.54|<0.001
82427882|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-12.22|||<|0.001|TWO_SIDED|95.0|-16.11|-8.33|||Mixed Models Analysis|||||-8.33|-16.11|<0.001
82427883|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-15.88|||<|0.001|TWO_SIDED|95.0|-19.33|-12.43|||Mixed Models Analysis|||||-12.43|-19.33|<0.001
82427884|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-15.85|||<|0.001|TWO_SIDED|95.0|-19.39|-12.31|||Mixed Models Analysis|||||-12.31|-19.39|<0.001
82427885|NCT04881760|164563805|SUPERIORITY||LS Mean difference (Final Values)|-16.95|||<|0.001|TWO_SIDED|95.0|-20.13|-13.78|||Mixed Models Analysis|||||-13.78|-20.13|<0.001
82427886|NCT01538199|164563806|SUPERIORITY_OR_OTHER|||||||0.04||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|We used a modified intent-to-treat approach with LOCF and unpaired Student's t-test (one-way), comparing the change in total severity score.||||||0.04
82427887|NCT01538199|164563806|SUPERIORITY_OR_OTHER|||||||0.08||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Modified intent-to-treat approach with lost observation carried forward (LOCF) and a two-tailed t-test to compare the change in total severity score.||||||0.08
82427888|NCT01538199|164563806|SUPERIORITY_OR_OTHER|||||||0.01||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|One-tailed t-test to compare the change in total severity score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after).||||0.01
82427889|NCT01538199|164563806|SUPERIORITY_OR_OTHER|||||||0.02||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Two-tailed t-test to compare the change in total severity score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after).||||0.02
82427890|NCT01538199|164563806|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||By means of a paired t-test we tested the significance of the change in the mean HAM-D17 total score (from baseline) to week 8. Although the primary comparison was with the last assessment (week 8). A last observation carried forward (LOCF) was also performed to account for one missing value at week 8.||||0.004
82449835|NCT03368235|164607000|OTHER||Odds Ratio (OR)|0.807||||0.807|TWO_SIDED|95.0|0.12|5.34||Logistic regression model with the treatment group, country and baseline DAS28-CRP as covariate.|Regression, Logistic|||Treatment comparison ACR20: AZD9567 Vs prednisolone||5.34|0.12|0.807
82577145|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.176||0.7447|TWO_SIDED|95.0|-0.41|0.29|||MMRM|||Insomnia - Late, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.41|0.7447
82648219|NCT00430638|165011939|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - non-Black participants): For the Non-Black efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82427891|NCT01538199|164563809|SUPERIORITY_OR_OTHER|||||||0.18||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|Last observation carried forward (LOCF), one tailed t-test to compare change in QIDS score.||||||0.18
82427892|NCT01538199|164563809|SUPERIORITY_OR_OTHER|||||||0.01||||||a priori threshold for statistical significance: p≤0.05|t-test, 1 sided|One-tailed t-test to measure the change in QIDS score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after). One treatment completer in Group 1 was excluded because they consistently skipped several answers across self-rated scales for the duration of the study.||||0.01
82449836|NCT03368235|164607000|OTHER|||||||0.198|||||||Fisher Exact|||Treatment comparison ACR50: AZD9567 Vs prednisolone||||0.198
82449837|NCT03368235|164607000|OTHER|||||||0.183|||||||Fisher Exact|||Treatment comparison ACR70: AZD9567 Vs prednisolone||||0.183
82449838|NCT03368235|164607001|OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.136||0.717|TWO_SIDED|95.0|-1.98|2.81||The MMRM with the baseline SJC66 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||2.81|-1.98|0.717
82449839|NCT03368235|164607002|OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|3.115||0.724|TWO_SIDED|95.0|-7.69|5.46||The MMRM with the baseline TJC68 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||5.46|-7.69|0.724
82577146|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.172||0.7727|TWO_SIDED|95.0|-0.39|0.29|||MMRM|||Insomnia - Late, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.39|0.7727
82427893|NCT01538199|164563809|SUPERIORITY_OR_OTHER|||||||0.02||||||a priori threshold for statistical significance: p≤0.05|t-test, 2 sided|Two-tailed t-test measuring change in QIDS score for treatment completers.||This analysis includes only treatment completers (participants who who were followed for the entire 8-week study period and who received a clinical assessment immediately after). One treatment completer in Group 1 was excluded because they consistently skipped several answers across self-rated scales for the duration of the study.||||0.02
82427894|NCT01492426|164563826|NON_INFERIORITY_OR_EQUIVALENCE|Test of noninferiority was based on noninferiority margin of -12% and 2-sided alpha level of 5%. That is, if the lower bound of the 95% CI \> -12%, the Daclatasvir arm would be considered nonnferior to the telaprevir arm.|Percentage difference|4.3|STANDARD_DEVIATION|3.885|||TWO_SIDED|95.0|-3.3|11.9||Test of noninferiority carried out by taking a confidence interval (CI) for the difference in rates (daclatasvir arm minus telapravir arm). If lower bound of 95% CI difference exceeded -12%, noninferiority was demonstrated. No p-value was computed.|Stratum-adjusted Mantel-Haenszel|||Percentage difference between SVR12 rate in the experimental and control arms was computed using a stratum-adjusted Mantel-Haenszel confidence interval (95% level) for the difference in rates. The stratification factors were IL28B rs1297860 single nucleotide polymorphism (CC or non-CC) and baseline cirrhosis status (absent or present), unless otherwise indicated.||11.9|-3.3|
82427895|NCT02026011|164563836|SUPERIORITY_OR_OTHER|||||||0.39||||||Medication effect: b = -0.15, SE = 0.17, t = -0.86, p = 0.39|Mixed Models Analysis|||||||0.39
82449840|NCT03368235|164607003|OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|1.6||0.973|TWO_SIDED|95.0|-3.43|3.32||The MMRM with the baseline TJC28 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||3.32|-3.43|0.973
82449841|NCT03368235|164607004|OTHER||LS mean difference|0.26|STANDARD_ERROR_OF_MEAN|0.837||0.757|TWO_SIDED|95.0|-1.5|2.03||The MMRM with the baseline SJC28 score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||2.03|-1.50|0.757
82449842|NCT03368235|164607005|OTHER||LS mean difference|9.8|STANDARD_ERROR_OF_MEAN|9.67||0.325|TWO_SIDED|95.0|-10.5|30.1||The MMRM with the baseline GH score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||30.1|-10.5|0.325
82449843|NCT03368235|164607006|OTHER||LS mean difference|4.756|STANDARD_ERROR_OF_MEAN|3.4725||0.187|TWO_SIDED|95.0|-2.514|12.025||The MMRM with the baseline CRP score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||12.025|-2.514|0.187
82449844|NCT03368235|164607007|OTHER||LS mean difference|16.0|STANDARD_ERROR_OF_MEAN|10.49||0.144|TWO_SIDED|95.0|-6.0|38.1||The MMRM with the baseline participant's assessment of pain score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||38.1|-6.0|0.144
82449845|NCT03368235|164607008|OTHER||LS mean difference|3.8|STANDARD_ERROR_OF_MEAN|5.73||0.512|TWO_SIDED|95.0|-8.3|16.0||The MMRM with the baseline disease activity score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||16.0|-8.3|0.512
82449846|NCT03368235|164607009|OTHER||LS mean difference|0.131|STANDARD_ERROR_OF_MEAN|0.2381||0.589|TWO_SIDED|95.0|-0.37|0.631||The MMRM with the baseline physical function score as a continuous covariate and country, visit and treatment group as categorical fixed effects, as well as visit interaction with treatment group, using unstructured covariance matrix.|MMRM|||||0.631|-0.370|0.589
82449847|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.049|TWO_SIDED|95.0|-2.7|0.0||APOE4 negatives|Mixed Models Analysis|||||-0.0|-2.7|0.049
82535735|NCT04541186|164769653|SUPERIORITY||Median Percent Change Difference|-43.73|||<|0.001|TWO_SIDED|95.0|-57.08|-30.31||Significant level = 0.05|van Elteren test|Nonparametric analysis stratified by baseline TG level and background lipid therapy to test the treatment difference using pooled data.|The location shift and Hodges-Lehmann 95% confidence interval were based on Hodges-Lehman estimation. Placebo group is the reference group, and the comparison was performed in pooled pegozafermin treatment group vs. placebo pooled.|||-30.31|-57.08|<0.001
82535736|NCT04541186|164769654|SUPERIORITY||||||<|0.001||||||Significant level = 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by baseline TG level and lipid modifying therapy use.||||||<0.001
82648220|NCT00430638|165011939|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Diastolic blood pressure (DBP) - non-Black participants): For the Non-Black efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82449848|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.808|TWO_SIDED|95.0|-1.7|1.3||APOE4 negatives|Mixed Models Analysis|||||1.3|-1.7|0.808
82449849|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.035|TWO_SIDED|95.0|-1.9|-0.1||All except E4/E4s|Mixed Models Analysis|||||-0.1|-1.9|0.035
82449850|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.999|TWO_SIDED|95.0|-1.0|1.0||All except E4/E4s|Mixed Models Analysis|||||1.0|-1.0|0.999
82449851|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.02|TWO_SIDED|95.0|-1.9|-0.2||Full population|Mixed Models Analysis|||||-0.2|-1.9|0.020
82449852|NCT00348309|164607021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.661|TWO_SIDED|95.0|-1.2|0.7||Full population|Mixed Models Analysis|||||0.7|-1.2|0.661
82449853|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.056|TWO_SIDED|95.0|-1.0|0.0||APOE4 negatives|Mixed Models Analysis|||||0.0|-1.0|=0.056
82449854|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.587|TWO_SIDED|95.0|-0.4|0.7||APOE4 negatives|Mixed Models Analysis|||||0.7|-0.4|=0.587
82449855|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.004|TWO_SIDED|95.0|-0.9|-0.2||All except E4/E4s|Mixed Models Analysis|||||-0.2|-0.9|=0.004
82449856|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.402|TWO_SIDED|95.0|-0.2|0.6||All except E4/E4s|Mixed Models Analysis|||||0.6|-0.2|=0.402
82449857|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||=|0.002|TWO_SIDED|95.0|-0.9|-0.2||Full population|Mixed Models Analysis|||||-0.2|-0.9|=0.002
82449858|NCT00348309|164607022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||=|0.478|TWO_SIDED|95.0|-0.2|0.5||Full population|Mixed Models Analysis|||||0.5|-0.2|=0.478
82449859|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||=|0.34|TWO_SIDED|95.0|-2.0|0.7||Week 8|Mixed Models Analysis|||||0.7|-2.0|=0.340
82449860|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||=|0.079|TWO_SIDED|95.0|-2.5|0.1||Week 8|Mixed Models Analysis|||||0.1|-2.5|=0.079
82449861|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||=|0.91|TWO_SIDED|95.0|-1.7|1.5||Week 16|Mixed Models Analysis|||||1.5|-1.7|=0.910
82449862|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.521|TWO_SIDED|95.0|-2.1|1.0||Week 16|Mixed Models Analysis|||||1.0|-2.1|0.521
82449863|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||=|0.154|TWO_SIDED|95.0|-0.5|3.0||Week 24|Mixed Models Analysis|||||3.0|-0.5|=0.154
82449864|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.836|TWO_SIDED|95.0|-1.6|2.0||Week 24|Mixed Models Analysis|||||2.0|-1.6|=0.836
82449865|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.061|TWO_SIDED|95.0|-0.1|4.2||Week 48|Mixed Models Analysis|||||4.2|-0.1|0.061
82449866|NCT00348309|164607023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||=|0.566|TWO_SIDED|95.0|-2.9|1.6||Week 48|Mixed Models Analysis|||||1.6|-2.9|=0.566
82449867|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||=|0.414|TWO_SIDED|95.0|-1.3|0.5||Week 8|Mixed Models Analysis|||||0.5|-1.3|=0.414
82427896|NCT02026011|164563836|SUPERIORITY_OR_OTHER|||||||0.34||||||Genotype effect: b = 0.20, SE = 0.21, t = 0.96, p = 0.34|Mixed Models Analysis|||||||0.34
82427897|NCT02026011|164563836|SUPERIORITY_OR_OTHER|||||||0.04||||||BrAC effect: b = 0.13, SE = 0.06, t = 2.10, p = 0.04|Mixed Models Analysis|||||||0.04
82427898|NCT02026011|164563836|SUPERIORITY_OR_OTHER|||||||0.47||||||Medication by genotype interaction: b = 0.15, SE = 0.21, t = 0.73, p = 0.47|Mixed Models Analysis|||||||0.47
82427899|NCT02026011|164563836|SUPERIORITY_OR_OTHER|||||||0.13||||||Medication by genotype by BrAC interaction: b = -0.20, SE = 0.13, t = -1.52, p = 0.13|Mixed Models Analysis|||||||0.13
82427900|NCT02026011|164563837|SUPERIORITY_OR_OTHER|||||||0.23||||||Medication effect: b = 0.16, SE = 0.13, t = 1.20, p = 0.23|Mixed Models Analysis|||||||0.23
82427901|NCT02026011|164563837|SUPERIORITY_OR_OTHER|||||||0.09||||||Genotype effect: b = 0.37, SE = 0.22, t = 1.69, p = 0.09|Mixed Models Analysis|||||||0.09
82449868|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.931|TWO_SIDED|95.0|-1.0|1.1||Week 8|Mixed Models Analysis|||||1.1|-1.0|0.931
82427902|NCT02026011|164563837|SUPERIORITY_OR_OTHER|||||||0.84||||||Medication by genotype interaction: b = 0.04, SE = 0.21, t = 0.20, p = 0.84|Mixed Models Analysis|||||||0.84
82427903|NCT02026011|164563837|SUPERIORITY_OR_OTHER|||||||0.05||||||Medication by genotype by BrAC interaction: b = -0.32, SE = 0.16, t = -1.93, p = 0.05|Mixed Models Analysis|||||||0.05
82427904|NCT02026011|164563838|SUPERIORITY_OR_OTHER|||||||0.55||||||Medication effect: b = 0.14, SE = 0.23, t = 0.61, p = 0.55|Mixed Models Analysis|||||||0.55
82449869|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.485|TWO_SIDED|95.0|-1.4|0.7||Week 16|Mixed Models Analysis|||||0.7|-1.4|0.485
82449870|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.55|TWO_SIDED|95.0|-0.8|1.5||Week 16|Mixed Models Analysis|||||1.5|-0.8|0.550
82449871|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.264|TWO_SIDED|95.0|-1.8|0.5||Week 24|Mixed Models Analysis|||||0.5|-1.8|0.264
82427905|NCT02026011|164563838|SUPERIORITY_OR_OTHER|||||||0.77||||||Genotype effect: b = -0.11, SE = 0.37, t = -0.30, p = 0.77|Mixed Models Analysis|||||||0.77
82427906|NCT02026011|164563838|SUPERIORITY_OR_OTHER|||||||0.04||||||BrAC effect: b = 0.30, SE = 0.15, t = 2.02, p = 0.04|Mixed Models Analysis|||||||0.04
82427907|NCT02026011|164563838|SUPERIORITY_OR_OTHER|||||||0.47||||||Medication by genotype interaction: b = -0.21, SE = 0.29, t = -0.72, p = 0.47|Mixed Models Analysis|||||||0.47
82427908|NCT02026011|164563838|SUPERIORITY_OR_OTHER|||||||0.19||||||Medication by genotype by BrAC interaction: b = 0.28, SE = 0.21, t = 1.30, p = 0.19|Mixed Models Analysis|||||||0.19
82427909|NCT02026011|164563840|SUPERIORITY_OR_OTHER|||||||0.14||||||Medication effect: F(1,71) = 2.24, p = 0.14|Poisson Regression|||||||0.14
82427910|NCT02026011|164563840|SUPERIORITY_OR_OTHER|||||||0.02||||||Genotype effect: F(1, 71) = 5.79, p = 0.02|Poisson|||||||0.02
82427911|NCT02026011|164563840|SUPERIORITY_OR_OTHER|||||||0.41||||||Medication by genotype interaction: F(1, 70) = 0.68, p = 0.41.|Poisson|||||||0.41
82427912|NCT00939107|164563844|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|||>|0.05||95.0|0.2|2.8|||t-test, 2 sided|||||2.8|0.2|>0.05
82427913|NCT01622296|164563852|SUPERIORITY_OR_OTHER|||||||0.23||||||Significant at p\<0.05|t-test, 2 sided|||Inferior Alveolar nerve injection - H(0): Lidocaine VAS score = Buffered Lidocaine VAS score. Based on data from medial trials of buffered anesthetic, a power calculation for sample size indicated that 20 subjects would provide a 90% change of detecting an effect size of 0.83 (a change of 0.83 standard deviations)||||0.23
82427914|NCT01622296|164563852|SUPERIORITY_OR_OTHER|||||||0.57||||||Significant at p\<0.05|t-test, 2 sided|||Long buccal nerve injection - H(0): Lidocaine VAS score = Buffered Lidocaine VAS score. Based on data from medial trials of buffered anesthetic, a power calculation for sample size indicated that 20 subjects would provide a 90% change of detecting an effect size of 0.83 (a change of 0.83 standard deviations)||||0.57
82427915|NCT02465931|164563864|OTHER|||||||0.89|||||||t-test, 1 sided|||||||0.89
82427916|NCT03423602|164563865|NON_INFERIORITY|Based on a Meta-Analysis of a focused systematic literature review from a comparable patient population, the estimated major vascular access site complication rate or PGsafety for the conservative Random Effect Model is 0.125 with a 95% Confidence Interval of 0.09 to 0.17. Given that the upper bound was 0.17 this justified the use of 0.13 as a valid PGsafety plus a non-inferiority margin of 0.04 yielding an overall non-inferiority limit (NLs) of 0.17 for Safety. Study power is greater than 90%|Wilson's exact test|0.0487|||<|0.0001|ONE_SIDED|95.0||0.0487|||Wilson's exact test|All 75 enrolled subjects, regardless of their enrolment status at 1-month post implantation, including all reported safety data where included.||"The test for non-inferiority for safety was based on a one-sided test (at the 0.025 significance level) for a binomial proportion with hypotheses:~H0s: Psafety ≥ NLs versus H1s: Psafety \< NLs Where: Psafety is the actual proportion of device related major vascular access site complications within the study population; and NLs is the non-inferiority limit for proportion of expected major vascular access site complications associated with cut-down and suture closure."||0.0487||<.0001
82449872|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.732|TWO_SIDED|95.0|-1.5|1.0||Week 24|Mixed Models Analysis|||||1.0|-1.5|0.732
82449873|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.043|TWO_SIDED|95.0|-2.9|0.0||Week 48|Mixed Models Analysis|||||-0.0|-2.9|0.043
82449874|NCT00348309|164607024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.814|TWO_SIDED|95.0|-1.4|1.8||Week 48|Mixed Models Analysis|||||1.8|-1.4|0.814
82449875|NCT00348309|164607025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.87|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.870
82449876|NCT00348309|164607025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.617|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||||0.4|-0.7|0.617
82449877|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.789|TWO_SIDED|95.0|-5.2|6.9|||Mixed Models Analysis|||Week 12 Q1||6.9|-5.2|0.789
82449878|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.643|TWO_SIDED|95.0|-9.0|5.6||Week 12Q1|Mixed Models Analysis|||||5.6|-9.0|0.643
82535737|NCT04541186|164769655|SUPERIORITY||Least Squares Means Difference|-17.87|STANDARD_ERROR_OF_MEAN|6.425||0.007|TWO_SIDED|95.0|-30.67|-5.07||Significant level = 0.05|MMRM|||MMRM analysis of non-HDL-C comparison between pegozafermin pooled versus placebo pooled group.||-5.07|-30.67|0.007
82427917|NCT01126190|164563868|NON_INFERIORITY|Non-inferiority was demonstrated if the upper endpoint of the CI for the difference in mean DSN was less than or equal to 0.62 days|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.13|0.37||||||For the primary non-inferiority endpoint of cycle 1 DSN, the 95% confidence interval (CI) for difference in DSN was calculated by stratified bootstrap resampling.||0.37|-0.13|
82535738|NCT04541186|164769655|SUPERIORITY||Least Squares Means Difference|-11.75|STANDARD_ERROR_OF_MEAN|4.888||0.019|TWO_SIDED|95.0|-21.48|-2.01||Significant level of 0.05|MMRM|||MMRM analysis of ApoB comparison between pegozafermin pooled versus placebo pooled group.||-2.01|-21.48|0.019
82535739|NCT04541186|164769655|SUPERIORITY||Least Squares Means Difference|1.73|STANDARD_ERROR_OF_MEAN|10.519||0.87|TWO_SIDED|95.0|-19.21|22.68||Significant level = 0.05|MMRM|||MMRM analysis of LDL-C comparison between pegozafermin pooled versus placebo pooled group.||22.68|-19.21|0.870
82535740|NCT04541186|164769655|SUPERIORITY||Least Squares Means Difference|15.41|STANDARD_ERROR_OF_MEAN|8.182||0.064|TWO_SIDED|95.0|-0.89|31.7||Significant level = 0.05|MMRM|||MMRM analysis of HDL-C comparison between pegozafermin pooled versus placebo pooled group.||31.70|-0.89|0.064
82535741|NCT04541186|164769656|SUPERIORITY|||||||0.006||||||Significant level = 0.05|van Elteren Test|||Nonparametric analysis of VLDL-C comparison between pegozafermin pooled versus placebo pooled group.||||0.006
82535742|NCT04541186|164769656|SUPERIORITY|||||||0.002||||||Significant level of 0.05|van Elteren test|||Nonparametric analysis of VLDL-TG comparison between pegozafermin pooled versus placebo pooled group.||||0.002
82535743|NCT04541186|164769657|SUPERIORITY|||||||0.809||||||Significant level = 0.05|MMRM|||MMRM analysis of fasting plasma glucose comparison between pegozafermin pooled versus placebo pooled group.||||0.809
82535744|NCT04541186|164769657|SUPERIORITY||||||<|0.001||||||Significant level = 0.05|MMRM|||MMRM analysis of adiponectin comparison between pegozafermin pooled versus placebo pooled group.||||<0.001
82535745|NCT04541186|164769657|SUPERIORITY|||||||0.973||||||Significant level = 0.05|MMRM|||MMRM analysis of body weight comparison between pegozafermin pooled versus placebo pooled group.||||0.973
82535746|NCT04541186|164769658|SUPERIORITY|||||||0.012||||||Significant level = 0.05|ANCOVA|||||||0.012
82427918|NCT01114737|164563872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|2.3||0.085|TWO_SIDED|95.0|-8.9|0.6|||ANCOVA|Adjusted for baseline ADHD-RS/ASRS total score, age group, and ADHD medication.||||0.6|-8.9|0.085
82535747|NCT00058058|164769690|OTHER|Estimation of diagnostic yield|Binomial proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 4 or 5 based on Final BI-RADS||0.042|0.020|
82535748|NCT00058058|164769690|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.044||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 4 or 5 based on initial MRI and subsequent work-up||0.044|0.021|
82648221|NCT00430638|165011940|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis(Systolic blood pressure (SBP) - Stage 1 hypertensive participants): For the Stage 1 efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82652138|NCT02637557|165019479|SUPERIORITY||LS Mean Difference|-0.257||||0.1157|TWO_SIDED|95.0|-0.577|0.064||P-value based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.064|-0.577|0.1157
82427919|NCT01114737|164563873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.9||0.669|TWO_SIDED|95.0|-1.5|2.3|||ANCOVA|Adjusted for baseline HAMA Anxiety Scale Total Score, age group, ADHD symptom, and ADHD medication.||||2.3|-1.5|0.669
82535749|NCT00058058|164769690|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 4 or 5 based on initial MRI and subsequent work-up and a completed biopsy procedure||0.042|0.020|
82535750|NCT00058058|164769690|OTHER||Binomial proportion|0.031|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.02|0.042||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 4 or 5 on the initial MRI scan||0.042|0.020|
82535751|NCT00058058|164769690|OTHER||Binomial Proportion|0.032|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.043||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 3, 4 or 5 on the initial MRI scan||0.043|0.021|
82427920|NCT01114737|164563874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.588|TWO_SIDED|95.0|-1.1|1.9|||ANCOVA|Adjusted for Baseline HAM-D Rating Scale Total Score, age group, ADHD symptom, and ADHD medication.||||1.9|-1.1|0.588
82427921|NCT01114737|164563875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.531|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|Adjusted for baseline CGI-Severity Response, age group, ADHD symptom, and ADHD medication.||||0.2|-0.4|0.531
82427922|NCT01114737|164563876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.2||0.661|TWO_SIDED|95.0|-5.5|3.6|||ANCOVA|Adjusted for Baseline BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||3.6|-5.5|0.661
82535752|NCT00058058|164769690|OTHER||Binomial Proportion|0.032|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|0.021|0.043||||||Diagnostic Yield is defined as the likelihood that a test or procedure will provide the information needed to establish a diagnosis. For this analysis, a Positive Test is defined as a score of BI-RADS 0, 3, 4 or 5 based on initial MRI and subsequent work-up||0.043|0.021|
82535753|NCT00058058|164769691|OTHER||Binomial Proportion|0.9091|STANDARD_ERROR_OF_MEAN|0.05004|||TWO_SIDED|95.0|0.7567|0.9809||||||"Sensitivity estimate - estimates the P(T+\|D+) where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.9809|0.7567|
82427923|NCT01114737|164563877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1|STANDARD_ERROR_OF_MEAN|1.9||0.034|TWO_SIDED|95.0|-7.9|-0.3|||ANCOVA|Adjusted for Baseline BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||-0.3|-7.9|0.034
82427924|NCT01114737|164563878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.6||0.312|TWO_SIDED|95.0|-2.6|7.8|||ANCOVA|Adjusted for Week 13 ADHD RS/ASRS Total Score, age group, and ADHD medication.||||7.8|-2.6|0.312
82427925|NCT01114737|164563879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.0||0.59|TWO_SIDED|95.0|-2.4|1.4|||ANCOVA|Adjusted for Week 13 HAMA Anxiety Rating Scale Total Score, age group, ADHD symptom, and ADHD medication.||||1.4|-2.4|0.590
82427926|NCT01114737|164563880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.8||0.636|TWO_SIDED|95.0|-1.2|1.9|||ANCOVA|Adjusted for Week 13 HAMD Rating Scale Total Score, age group, ADHD symptom, and ADHD||||1.9|-1.2|0.636
82427927|NCT01114737|164563881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.51|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|Adjusted for Week 13 Global Impression-Severity Score, ADHD symptom, and ADHD medication.||||0.5|-0.2|0.510
82427928|NCT01114737|164563882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.8||0.395|TWO_SIDED|95.0|-2.1|5.2|||ANCOVA|Adjusted for Week 13 BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||5.2|-2.1|0.395
82427929|NCT01114737|164563883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.7||0.443|TWO_SIDED|95.0|-2.1|4.7|||ANCOVA|Adjusted for Week 13 BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||4.7|-2.1|0.443
82427930|NCT01114737|164563884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.8||0.953|TWO_SIDED|95.0|-5.5|5.8|||ANCOVA|Adjusted for Baseline ADHD-RS/ASRS Total Score, ADHD symptom, and ADHD medication.||||5.8|-5.5|0.953
82427931|NCT01114737|164563885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.733|TWO_SIDED|95.0|-2.4|1.7|||ANCOVA|Adjusted for Baseline Hamilton Anxiety Rating Scale (HAM-A) Score, ADHD symptom, and ADHD medication.||||1.7|-2.4|0.733
82427932|NCT01114737|164563886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.522|TWO_SIDED|95.0|-1.1|2.2|||ANCOVA|Adjusted for Baseline Hamilton Rating Scale For Depression (HAM-D) Score, ADHD symptom, and ADHD medication.||||2.2|-1.1|0.522
82449879|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3||||0.052|TWO_SIDED|95.0|-14.7|0.1||Week 24 Q1|Mixed Models Analysis|||||0.1|-14.7|0.052
82577147|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.183||0.659|TWO_SIDED|95.0|-0.28|0.44|||MMRM|||Insomnia - Late, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.28|0.6590
82648222|NCT00430638|165011940|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Stage 1 hypertensive participants): For the Stage 1 efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82427933|NCT01114737|164563887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.564|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|Adjusted for Baseline Clinical Global Impression-Severity (CGI-S), ADHD symptom, and ADHD medication.||||0.4|-0.2|0.564
82427934|NCT01114737|164563888|SUPERIORITY_OR_OTHER||Relative Risk|0.87||||0.67|TWO_SIDED|95.0|0.46|1.64|||Cochran-Mantel-Haenszel|Adjusted for age group, ADHD symptom, and ADHD medication||||1.64|0.46|0.67
82449880|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.481|TWO_SIDED|95.0|-14.0|6.6||Week 24 Q1|Mixed Models Analysis|||||6.6|-14.0|0.481
82449881|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.195|TWO_SIDED|95.0|-15.6|3.2||Week 36 Q1|Mixed Models Analysis|||||3.2|-15.6|0.195
82427935|NCT01114737|164563889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.8||0.833|TWO_SIDED|95.0|-6.2|5.0|||ANCOVA|Adjusted for Baseline BRIEF Adult-GEC T Score, ADHD symptom, and ADHD medication.||||5.0|-6.2|0.833
82427936|NCT01114737|164563890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|2.0||0.279|TWO_SIDED|95.0|-6.3|1.8|||ANCOVA|Adjusted for Baseline BRIEF Parent-GEC T Score, ADHD symptom, and ADHD medication.||||1.8|-6.3|0.279
82427937|NCT02727322|164563909|SUPERIORITY||Risk Ratio (RR)|1.1||||0.97|TWO_SIDED|95.0|0.5|2.04|||Chi-squared|||||2.04|0.50|0.97
82427938|NCT02727322|164563910|SUPERIORITY||Risk Ratio (RR)|1.12||||0.665|TWO_SIDED|95.0|0.885|1.43|||Chi-squared|||||1.43|0.885|0.665
82427939|NCT02727322|164563911|SUPERIORITY||Risk Ratio (RR)|1.32||||1|TWO_SIDED|95.0|0.31|5.68|||Fisher Exact|||||5.68|0.31|1.0
82427940|NCT02852967|164563912|SUPERIORITY|||||||0.6384|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg QD + placebo (n = 23) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.6384
82427941|NCT02852967|164563912|SUPERIORITY|||||||0.6419|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg BID + placebo (n = 22) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.6419
82427942|NCT02852967|164563912|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 400 mg QD + placebo (n = 21) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||> 0.9999
82449882|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.857|TWO_SIDED|95.0|-12.9|10.7||Week 36 Q1|Mixed Models Analysis|||||10.7|-12.9|0.857
82449883|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.422|TWO_SIDED|95.0|-15.9|6.7||Week 48 Q1|Mixed Models Analysis|||||6.7|-15.9|0.422
82449884|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.562|TWO_SIDED|95.0|-15.7|8.6||Week 48 Q1|Mixed Models Analysis|||||8.6|-15.7|0.562
82535754|NCT00058058|164769691|OTHER||Binomial Proportion|0.8782|STANDARD_ERROR_OF_MEAN|0.0107|||TWO_SIDED|95.0|0.8555|0.8985||||||"Specificity - estimates the P(T-\|D-) of MRI where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.8985|0.8555|
82535755|NCT00058058|164769691|OTHER||Binomial Proportion|0.2083|STANDARD_ERROR_OF_MEAN|0.0338|||TWO_SIDED|95.0|0.1452|0.2839||||||"PPV estimate - estimates the P(D+\|T+), where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)."||0.2839|0.1452|
82535756|NCT00058058|164769691|OTHER||Binomial Proportion|0.9964|STANDARD_ERROR_OF_MEAN|0.0021|||TWO_SIDED|95.0|0.9894|0.9993||||||"B. NPV Analysis for ALL Cases in Analysis Set NPV estimate - estimates the P(D-\|T-), where the MRI within 90 days of a negative mammogram is the test (T) and cancer in the contralateral breast is the Disease status(D)"||0.9993|0.9894|
82535757|NCT00058058|164769691|OTHER||Binomial Proportion|0.031|STANDARD_ERROR_OF_MEAN|0.00556|||TWO_SIDED|95.0|0.021|0.044||||||B. Diagnostic Yield for ALL Cases in Analysis Set Diagnostic Yield - estimates the likelihood that the MRI within 90 days of a negative mammogram will provide the information needed to establish a diagnosis||0.044|0.021|
82535758|NCT00058058|164769692|OTHER||ROC analysis|0.9355|||||TWO_SIDED|95.0|0.8956|0.9753|||||exact CI|ROC analysis - estimates the accuracy of MRI within 90 days of a negative mammogram to detect cancer in the contralateral breast||0.9753|0.8956|
82535759|NCT00790062|164769719|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.67|TWO_SIDED|95.0|0.63|1.59|||ANCOVA|||||1.59|0.63|0.670
82535760|NCT02374957|164769720|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EQ5D sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D than the other over initial six weeks (two-sided test)."||||0.26
82535761|NCT02374957|164769721|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EQ5D sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D than the other over three months (two-sided test)."||||0.17
82535762|NCT02374957|164769722|SUPERIORITY|||||||0.027|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EQ5D visual analog score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D visual analog score than the other over initial six weeks (two-sided test)."||||0.027
82535763|NCT02374957|164769723|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EQ5D visual analog score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EQ5D visual analog score than the other over three months (two-sided test)."||||0.014
82535764|NCT02374957|164769724|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||"Null hypothesis: six-week change in EACH Q sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EACH Q sum score than the other over initial six weeks (two-sided test)."||||0.82
82535765|NCT02374957|164769725|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||"Null hypothesis: three-month change in EACH Q sum score is the same between the two arms.~Alternate hypothesis: one arm experiences more change in EACH Q sum score than the other over three months (two-sided test)."||||0.61
82648223|NCT00430638|165011941|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Systolic blood pressure (SBP) - Stage 2 hypertensive participants): For the Stage 2 efficacy population, Olmesartan had the same effect on change from baseline in SBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82535766|NCT02374957|164769726|SUPERIORITY|||||||0.26|||||||Log Rank|||"Null hypothesis: time to patency-failure (graft occlusion) is the same between treatment arms.~Alternate hypothesis: one arm differs from the other in durability of graft patency (two-sided test)."||||0.26
82449885|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8||||0.129|TWO_SIDED|95.0|-2.6|20.2||Week 12 Q2|Mixed Models Analysis|||||20.2|-2.6|0.129
82449886|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9||||0.194|TWO_SIDED|95.0|-4.0|19.9||Week 12 Q2|Mixed Models Analysis|||||19.9|-4.0|0.194
82535767|NCT02334306|164769755|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|1.3||0.262|TWO_SIDED|90.0|-3.6|0.7|||ANCOVA||Adjusted mean difference for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval and p-value.|||0.7|-3.6|0.262
82535768|NCT02334306|164769756|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|0.33||0.82|TWO_SIDED|90.0|0.52|1.64|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For plasma cell levels||1.64|0.52|0.820
82535769|NCT02334306|164769756|SUPERIORITY||Median Difference (Net)|0.65|STANDARD_ERROR_OF_MEAN|0.4||0.291|TWO_SIDED|90.0|0.33|1.28|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For TFH cells||1.28|0.33|0.291
82535770|NCT02334306|164769757|SUPERIORITY||Mean Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|0.17||0.44|TWO_SIDED|90.0|0.65|1.18|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For total plasma cells||1.18|0.65|0.440
82535771|NCT02334306|164769757|SUPERIORITY||Median Difference (Net)|0.43|STANDARD_ERROR_OF_MEAN|0.28||0.008|TWO_SIDED|90.0|0.26|0.7|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For CD4/ICOS TFH cells||0.70|0.26|0.008
82535772|NCT02334306|164769757|SUPERIORITY||Median Difference (Net)|1.01|STANDARD_ERROR_OF_MEAN|0.26||0.972|TWO_SIDED|90.0|0.64|1.59|||ANCOVA||Adjusted Geometric mean ratio for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval, SE (log), and p-value.|For PD-1/ICOS TFH cells||1.59|0.64|0.972
82535773|NCT02334306|164769759|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.7||0.574|TWO_SIDED|90.0|-0.8|1.6|||ANCOVA||Adjusted mean difference for MEDI5872 210 mg:Placebo was calculated with associated 90% confidence interval and p-value.|||1.6|-0.8|0.574
82535774|NCT02334306|164769760|SUPERIORITY||Difference in percentages|25.0||||0.252|TWO_SIDED|90.0|-3.1|50.9|||Fisher Exact|||ESSDAI \[3\]||50.9|-3.1|0.252
82535775|NCT02334306|164769760|SUPERIORITY||Difference in precentages|25.0||||0.252|TWO_SIDED|90.0|-3.1|50.9|||Fisher Exact|||ESSDAI\[4\]||50.9|-3.1|0.252
82535776|NCT02390557|164769768|SUPERIORITY||Mean Difference (Final Values)|10.7||||0.074|TWO_SIDED||||||Chi-squared, Corrected|||we had a prior hypothesis that the survey intervention would be associated with a larger increase in perceived quality of health care compared with control from Wave 1 to Wave 2||||0.074
82427943|NCT02852967|164563912|SUPERIORITY|||||||0.3859|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 600 mg (n = 26) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75.||||0.3859
82427944|NCT02852967|164563912|SUPERIORITY|||||||0.4435|||||||Fisher Exact|||LOCF at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of all subjects treated with belumosudil (n = 92) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 18) who achieved PASI 75||||0.4435
82449887|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.832|TWO_SIDED|95.0|-10.5|13.1||Week 24 Q2|Mixed Models Analysis|||||13.1|-10.5|0.832
82648224|NCT00430638|165011941|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Null hypothesis (Diastolic blood pressure (DBP) - Stage 2 hypertensive participants): For the Stage 2 efficacy population, Olmesartan had the same effect on change from baseline in DBP at week 12 as Placebo. A statistical test was evaluated at the 2 sided significance level of 5% without adjustment for multiple comparisons||||<0.0001
82427945|NCT02852967|164563912|SUPERIORITY|||||||0.2721|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg QD + placebo (n = 14) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.2721
82449888|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1||||0.351|TWO_SIDED|95.0|-6.8|19.1||Week 24 Q2|Mixed Models Analysis|||||19.1|-6.8|0.351
82449889|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.949|TWO_SIDED|95.0|-13.3|12.5||Week 36 Q2|Mixed Models Analysis|||||12.5|-13.3|0.949
82449890|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3||||0.253|TWO_SIDED|95.0|-6.0|22.6||Week 36 Q2|Mixed Models Analysis|||||22.6|-6.0|0.253
82427946|NCT02852967|164563912|SUPERIORITY|||||||0.3577|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 200 mg BID+ Placebo (n = 15) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3577
82427947|NCT02852967|164563912|SUPERIORITY||||||>|0.9999|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 500 mg QD + Placebo (n = 17) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||> 0.9999
82449891|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.735|TWO_SIDED|95.0|-16.2|11.4||Week 48 Q2|Mixed Models Analysis|||||11.4|-16.2|0.735
82427948|NCT02852967|164563912|SUPERIORITY|||||||0.3402|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of subjects treated with belumosudil 600 mg/day (n = 16) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3402
82427949|NCT02852967|164563912|SUPERIORITY|||||||0.3542|||||||Fisher Exact|||Observed at 16 weeks (Double-blind Treatment Period): Fisher's Exact Method analysis of the percentage of all subjects treated with belumosudil 200 mg QD + Placebo (n = 62) who achieved PASI 75 compared to the percentage of subjects treated with placebo (n = 10) who achieved PASI 75.||||0.3542
82449892|NCT00348309|164607026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2||||0.046|TWO_SIDED|95.0|0.3|32.0||Week 48 Q2|Mixed Models Analysis|||||32.0|0.3|0.046
82449893|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.914|TWO_SIDED|95.0|-2.3|2.0||Week 12 Thermometer|Mixed Models Analysis|||||2.0|-2.3|0.914
82449894|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.415|TWO_SIDED|95.0|-3.3|1.4||Week 12 Thermometer|Mixed Models Analysis|||||1.4|-3.3|0.415
82449895|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.063|TWO_SIDED|95.0|-4.9|0.1||Week 36 Thermometer|Mixed Models Analysis|||||0.1|-4.9|0.063
82449896|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.03|TWO_SIDED|95.0|-5.6|-0.3||Week 36 Thermometer|Mixed Models Analysis|||||-0.3|-5.6|0.030
82449897|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.392|TWO_SIDED|95.0|-1.5|3.8||Week 48 Thermometer|Mixed Models Analysis|||||3.8|-1.5|0.392
82449898|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.557|TWO_SIDED|95.0|-3.7|2.0||Week 48 Thermometer|Mixed Models Analysis|||||2.0|-3.7|0.557
82427950|NCT02852967|164563916|SUPERIORITY|||||||0.5728|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.5728
82427951|NCT02852967|164563916|SUPERIORITY|||||||0.1962|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.1962
82449899|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.32|TWO_SIDED|95.0|-0.01|0.03||Week 12 Utility|Mixed Models Analysis|||||0.03|-0.01|0.320
82449900|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.18|TWO_SIDED|95.0|-0.04|0.01||Week 12 Utility|Mixed Models Analysis|||||0.01|-0.04|0.180
82449901|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.498|TWO_SIDED|95.0|-0.02|0.04||Week 36 Utility|Mixed Models Analysis|||||0.04|-0.02|0.498
82449902|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.081|TWO_SIDED|95.0|-0.06|0.0||Week 36 Utility|Mixed Models Analysis|||||0.00|-0.06|0.081
82449903|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.077|TWO_SIDED|95.0|0.0|0.06||Week 48 Utility|Mixed Models Analysis|||||0.06|-0.00|0.077
82449904|NCT00348309|164607027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.64|TWO_SIDED|95.0|-0.04|0.03||Week 48 Utility|Mixed Models Analysis|||||0.03|-0.04|0.640
82449905|NCT00348309|164607028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.105|TWO_SIDED|95.0|-1.6|0.2|||ANCOVA|||||0.2|-1.6|0.105
82449906|NCT00348309|164607028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.483|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|||||0.6|-1.3|0.483
82449907|NCT00348309|164607029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.004|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||||-0.2|-0.9|0.004
82449908|NCT00348309|164607029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.554|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||||0.5|-0.3|0.554
82648225|NCT02367781|165011942|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.639|||<|0.0001|TWO_SIDED|95.0|0.536|0.763|||Log Rank|||||0.763|0.536|<.0001
82577148|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.3951|TWO_SIDED|95.0|-0.51|0.2|||MMRM|||Insomnia - Late, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.51|0.3951
82449909|NCT00348309|164607030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.292|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.292
82449910|NCT00348309|164607030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.297|TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|0.297
82449911|NCT00348309|164607031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.598|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.598
82449912|NCT00348309|164607031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.073|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||||0.0|-0.4|0.073
82449913|NCT00348309|164607032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.006|TWO_SIDED|95.0|0.02|0.12|||ANCOVA|||||0.12|0.02|0.006
82449914|NCT00348309|164607032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.14|TWO_SIDED|95.0|-0.01|0.09|||ANCOVA|||||0.09|-0.01|0.140
82449915|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.027|TWO_SIDED|95.0|-1.2|-0.1||Week 12|Mixed Models Analysis|||||-0.1|-1.2|0.027
82449916|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.091|TWO_SIDED|95.0|-1.1|0.1||Week 12|Mixed Models Analysis|||||0.1|-1.1|0.091
82449917|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.268|TWO_SIDED|95.0|-1.1|0.3||Week 36|Mixed Models Analysis|||||0.3|-1.1|0.268
82449918|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.318|TWO_SIDED|95.0|-1.1|0.4||Week 36|Mixed Models Analysis|||||0.4|-1.1|0.318
82449919|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.03|TWO_SIDED|95.0|-1.6|-0.1||Week 48|Mixed Models Analysis|||||-0.1|-1.6|0.030
82449920|NCT00348309|164607042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.797|TWO_SIDED|95.0|-0.9|0.7||Week 48|Mixed Models Analysis|||||0.7|-0.9|0.797
82577149|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4576|TWO_SIDED|95.0|-0.63|0.28|||MMRM|||Insomnia - Late, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.63|0.4576
82648226|NCT02367781|165011943|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.788||||0.0298|TWO_SIDED|95.0|0.636|0.977|||Log Rank|||||0.977|0.636|0.0298
82449921|NCT00622388|164607043|SUPERIORITY_OR_OTHER||Response rate|11.0|||||TWO_SIDED|95.0|5.0|20.0|||||Response rate is calculated as the number of responses divided by the number of participants treated, expressed as a percentage.|||20|5|
82449922|NCT01743040|164607058|NON_INFERIORITY|15% equivalency margin against performance of SPECT nuclear stress test OPC. Both sensitivity and specificity were measured and the equivalency margin was set the same for both parameters.The goal was to test the Sensitivity and specificity of CADence as compared to SPECT nuclear stress test OPC. Both were measured and reported in this study. The Sensitivity of CADence was 78% (95% CI 76.1-90.8%) while the specificity was 36% (95% CI 32-39%).||||||0.012|||||||Exact binomial test|||The goal was to test the Sensitivity and specificity of CADence as compared to SPECT nuclear stress test OPC. Both were measured and reported in this study. The Sensitivity of CADence was 78% (95% CI 76.1-90.8%) while the specificity was 36% (95% CI 32-39%).||||0.012
82449923|NCT03824587|164607124|SUPERIORITY||Mean Difference (Net)|-0.65|STANDARD_ERROR_OF_MEAN|0.182||0.0004|TWO_SIDED|99.0|-1.13|-0.18|||Mixed Models Analysis|||||-0.18|-1.13|0.0004
82449924|NCT03824587|164607125|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0097|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0097
82449925|NCT03824587|164607126|SUPERIORITY|||||||0.0027|||||||ANOVA|||||||0.0027
82449926|NCT03824587|164607127|SUPERIORITY|||||||0.0011|||||||ANOVA|||||||0.0011
82449927|NCT00986362|164607128|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.613||||0.679|TWO_SIDED|95.0|0.07|4.509|||Fisher Exact|||||4.509|0.070|0.679
82449928|NCT02160145|164607144|OTHER||Treatment difference|1.271|||<|0.0001|TWO_SIDED|95.0|0.859|1.684||A 2-sided alpha of 0.05 was applied to the primary analysis of the primary endpoint.|ANCOVA|Weighted Analysis of Covariance (ANCOVA) with effects of treatment and randomization stratification factors and covariate baseline.||Tolvaptan versus placebo. Treatment difference in the change of eGFR assessed the efficacy of tolvaptan treatment as compared with placebo in subjects with late-stage CKD due to ADPKD who tolerated tolvaptan during an initial run-in period.||1.684|0.859|<0.0001
82449929|NCT02160145|164607145|OTHER||Treatment difference|1.011|||<|0.0001|TWO_SIDED|95.0|0.618|1.403||A two-sided alpha of 0.05 was applied when the primary endpoint reached a two-sided alpha of 0.05.|Mixed Models Analysis|||Difference in treatment effect was derived from a linear mixed model with effects of treatment, time, treatment ime interaction, acute haemodynamic effect, pretreatment baseline, and randomization stratification factors. An unstructured variance matrix was assumed for the random intercept and time.||1.403|0.618|<0.0001
82449930|NCT06037408|164607163|SUPERIORITY||Mean Difference (Final Values)|-57.13|STANDARD_ERROR_OF_MEAN|2.759||0.0001|TWO_SIDED|95.0|-63.99|-50.27||Sidak's test was used to adjust for multiple comparisons.|ANOVA|Degrees of freedom, 42.19||||-50.27|-63.99|0.0001
82577150|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.223||0.7609|TWO_SIDED|95.0|-0.51|0.37|||MMRM|||Insomnia - Late, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.51|0.7609
82648227|NCT02367781|165011944|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.647|||<|0.0001|TWO_SIDED|95.0|0.545|0.768|||Log Rank|||ITT Population||0.768|0.545|<0.0001
82427952|NCT02852967|164563916|SUPERIORITY|Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear|||||>|0.9999|||||||Fisher Exact|||||||> 0.9999
82427953|NCT02852967|164563916|SUPERIORITY|||||||0.5583|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.5583
82427954|NCT02852967|164563916|SUPERIORITY|||||||0.2538|||||||Fisher Exact|||Percentage of subjects treated with belumosudil compared to placebo who had a PGA rating of clear or almost clear||||0.2538
82427955|NCT03012334|164563939|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in Standard Deviation of Lateral Position (SDLP) between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|9.86|||<|0.001|TWO_SIDED|95.0|7.39|12.33||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||12.33|7.39|<.001
82427956|NCT03012334|164563939|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in SDLP between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|15.35|||<|0.001|TWO_SIDED|95.0|12.87|17.82||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||17.82|12.87|<0.001
82427957|NCT03012334|164563939|NON_INFERIORITY|Doses of lasmiditan were considered non-inferior to placebo if the upper 95% confidence limit on the difference in SDLP between that dose and placebo was less than 4.4 cm and lower doses also did not exceed the non-inferiority (NI) margin.|LS Mean|21.06|||<|0.001|TWO_SIDED|95.0|18.6|23.52||P-value is obtained from mixed effect model for testing difference versus placebo equals to zero.|Mixed Models Analysis|||||23.52|18.60|<0.001
82427958|NCT03012334|164563939|SUPERIORITY||LS Mean|22.71|||<|0.001|TWO_SIDED|95.0|20.23|25.18|||Mixed Models Analysis|||||25.18|20.23|<0.001
82427959|NCT03012334|164563939|SUPERIORITY||LS Mean|-12.85|||<|0.001|TWO_SIDED|95.0|-15.32|-10.38|||Mixed Models Analysis|||||-10.38|-15.32|<0.001
82427960|NCT03012334|164563939|SUPERIORITY||LS Mean|-7.36|||<|0.001|TWO_SIDED|95.0|-9.84|-4.88|||Mixed Models Analysis|||||-4.88|-9.84|<0.001
82535777|NCT02390557|164769768|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.069|TWO_SIDED||||||Chi-squared, Corrected|||We compared change in perception of quality of health care between Control v YES Health, wave 1 v Wave 2||||.069
82427961|NCT03012334|164563939|SUPERIORITY||LS Mean|-1.65||||0.19|TWO_SIDED|95.0|-4.11|0.82|||Mixed Models Analysis|||||0.82|-4.11|0.19
82427962|NCT03012334|164563940|SUPERIORITY||LS Mean|1.6|||<|0.0001|TWO_SIDED|95.0|1.1744|2.0335|||Mixed Models Analysis|||||2.0335|1.1744|<0.0001
82535778|NCT05349084|164769780|EQUIVALENCE|A Fisher's exact test was performed to determine the association between coronary artery stenosis and PET myocardial blood flow (MBF) values during stress. The following myocardial segments were analyzed: left anterior descending (LAD), left circumflex (LCx), and right coronary artery (RCA). Coronary arteries were categorized as coronary arteries with a diameter stenosis ≥50% or \<50%. The MBF values during stress were categorized as normal or abnormal. Normal MBF is defined as \>1.8 mL/g/min.||||||0.2522||||||The threshold for statistical significance was p = 0.05.|Fisher Exact|||||||0.2522
82427963|NCT03012334|164563940|SUPERIORITY||LS Mean|2.3|||<|0.0001|TWO_SIDED|95.0|1.8306|2.6926|||Mixed Models Analysis|||||2.6926|1.8306|<.0001
82427964|NCT03012334|164563940|SUPERIORITY||LS Mean|2.9|||<|0.0001|TWO_SIDED|95.0|2.4239|3.28|||Mixed Models Analysis|||||3.2800|2.4239|<0.0001
82427965|NCT03012334|164563940|SUPERIORITY||LS Mean|3.4|||<|0.0001|TWO_SIDED|95.0|2.9568|3.8193|||Mixed Models Analysis|||||3.8193|2.9568|<0.0001
82427966|NCT03012334|164563940|SUPERIORITY||LS Mean|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.2137|-1.3546|||Mixed Models Analysis|||||-1.3546|-2.2137|<0.0001
82427967|NCT03012334|164563940|SUPERIORITY||LS Mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5574|-0.6956|||Mixed Models Analysis|||||-0.6956|-1.5574|<0.0001
82535779|NCT05349084|164769781|OTHER|A Pearson's Correlation test was performed between PET MFR during stress and CT-FFR by territory.||||||0.028||||||The threshold for statistical significance was p = 0.05.|Pearson's correlation test|A Pearson's Correlation test was performed between PET MFR during stress and CT-FFR by territory.||||||0.028
82427968|NCT03012334|164563940|SUPERIORITY||LS Mean|-0.5||||0.0142|TWO_SIDED|95.0|-0.9642|-0.1081|||Mixed Models Analysis|||||-0.1081|-0.9642|0.0142
82427969|NCT03012334|164563942|SUPERIORITY||LS Mean|-12.6|||<|0.0001|TWO_SIDED|95.0|-18.6895|-6.5006|||Mixed Models Analysis|||||-6.5006|-18.6895|<.0001
82427970|NCT03012334|164563942|SUPERIORITY||LS Mean|-24.2|||<|0.0001|TWO_SIDED|95.0|-30.3631|-18.1357|||Mixed Models Analysis|||||-18.1357|-30.3631|<.0001
82427971|NCT03012334|164563942|SUPERIORITY||LS Mean|-28.4|||<|0.0001|TWO_SIDED|95.0|-34.442|-22.2897|||Mixed Models Analysis|||||-22.2897|-34.4420|<.0001
82427972|NCT03012334|164563942|SUPERIORITY||LS Mean|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.5068|-24.277|||Mixed Models Analysis|||||-24.2770|-36.5068|<0.0001
82427973|NCT03012334|164563942|SUPERIORITY||LS Mean|17.8|||<|0.0001|TWO_SIDED|95.0|11.7029|23.8908|||Mixed Models Analysis|||||23.8908|11.7029|<.0001
82427974|NCT03012334|164563942|SUPERIORITY||LS Mean|6.1||||0.0489|TWO_SIDED|95.0|0.0297|12.2554|||Mixed Models Analysis|||||12.2554|0.0297|0.0489
82427975|NCT03012334|164563942|SUPERIORITY||LS Mean|2.0||||0.5123|TWO_SIDED|95.0|-4.05|8.1021|||Mixed Models Analysis|||||8.1021|-4.0500|0.5123
82427976|NCT03012334|164563942|SUPERIORITY||LS Mean|-26.4|||<|0.0001|TWO_SIDED|95.0|-32.4956|-20.3628|||Mixed Models Analysis|||||-20.3628|-32.4956|<.0001
82427977|NCT03012334|164563942|SUPERIORITY||LS Mean|-37.8|||<|0.0001|TWO_SIDED|95.0|-43.927|-31.7537|||Mixed Models Analysis|||||-31.7537|-43.9270|<.0001
82427978|NCT03012334|164563942|SUPERIORITY||LS Mean|-46.8|||<|0.0001|TWO_SIDED|95.0|-52.8147|-40.7268|||Mixed Models Analysis|||||-40.7268|-52.8147|<.0001
82427979|NCT03012334|164563942|SUPERIORITY||LS Mean|-52.6|||<|0.0001|TWO_SIDED|95.0|-58.649|-46.4682|||Mixed Models Analysis|||||-46.4682|-58.6490|<0.0001
82427980|NCT03012334|164563942|SUPERIORITY||LS Mean|26.1|||<|0.0001|TWO_SIDED|95.0|20.0635|32.1953|||Mixed Models Analysis|||||32.1953|20.0635|<.0001
82427981|NCT03012334|164563942|SUPERIORITY||LS Mean|14.7|||<|0.0001|TWO_SIDED|95.0|8.6325|20.804|||Mixed Models Analysis|||||20.8040|8.6325|<.0001
82427982|NCT03012334|164563942|SUPERIORITY||LS Mean|5.8||||0.0605|TWO_SIDED|95.0|-0.256|11.8317|||Mixed Models Analysis|||||11.8317|-0.2560|0.0605
82427983|NCT03012334|164563943|SUPERIORITY||LS Mean|-4.5|||<|0.001|TWO_SIDED|95.0|-6.14|-2.85|||Mixed Models Analysis|||||-2.85|-6.14|<0.001
82427984|NCT03012334|164563943|SUPERIORITY||LS Mean|-6.9|||<|0.001|TWO_SIDED|95.0|-8.58|-5.28|||Mixed Models Analysis|||||-5.28|-8.58|<0.001
82427985|NCT03012334|164563943|SUPERIORITY||LS Mean|-8.9|||<|0.001|TWO_SIDED|95.0|-10.52|-7.23|||Mixed Models Analysis|||||-7.23|-10.52|<0.001
82427986|NCT03012334|164563943|SUPERIORITY||LS Mean|-11.2|||<|0.001|TWO_SIDED|95.0|-12.81|-9.51|||Mixed Models Analysis|||||-9.51|-12.81|<0.001
82427987|NCT03012334|164563943|SUPERIORITY||LS Mean|6.7|||<|0.001|TWO_SIDED|95.0|5.02|8.31|||Mixed Models Analysis|||||8.31|5.02|<0.001
82427988|NCT03012334|164563943|SUPERIORITY||LS Mean|4.2|||<|0.001|TWO_SIDED|95.0|2.58|5.88|||Mixed Models Analysis|||||5.88|2.58|<0.001
82427989|NCT03012334|164563943|SUPERIORITY||LS Mean|2.3|||<|0.007|TWO_SIDED|95.0|0.64|3.93|||Mixed Models Analysis|||||3.93|0.64|<0.007
82427990|NCT03012334|164563944|SUPERIORITY||LS Mean|1.439|||<|0.0001|TWO_SIDED|95.0|1.2198|1.6583|||Mixed Models Analysis|||||1.6583|1.2198|<0.0001
82427991|NCT03012334|164563944|SUPERIORITY||LS Mean|2.018|||<|0.0001|TWO_SIDED|95.0|1.7981|2.238|||Mixed Models Analysis|||||2.2380|1.7981|<0.0001
82427992|NCT03012334|164563944|SUPERIORITY||LS Mean|2.572|||<|0.0001|TWO_SIDED|95.0|2.3536|2.7909|||Mixed Models Analysis|||||2.7909|2.3536|<0.0001
82427993|NCT03012334|164563944|SUPERIORITY||LS Mean|2.553|||<|0.0001|TWO_SIDED|95.0|2.3331|2.773|||Mixed Models Analysis|||||2.7730|2.3331|<0.0001
82427994|NCT03012334|164563944|SUPERIORITY||LS Mean|-1.114|||<|0.0001|TWO_SIDED|95.0|-1.3333|-0.8948|||Mixed Models Analysis|||||-0.8948|-1.3333|<0.0001
82427995|NCT03012334|164563944|SUPERIORITY||LS Mean|-0.535|||<|0.0001|TWO_SIDED|95.0|-0.7549|-0.3151|||Mixed Models Analysis|||||-0.3151|-0.7549|<0.0001
82427996|NCT03012334|164563944|SUPERIORITY||LS Mean|0.019||||0.8629|TWO_SIDED|95.0|-0.1995|0.2379|||Mixed Models Analysis|||||0.2379|-0.1995|0.8629
82427997|NCT03012334|164563946|SUPERIORITY||LS Mean|0.18||||0.0002|TWO_SIDED|95.0|0.0849|0.2746|||Mixed Models Analysis|||||0.2746|0.0849|0.0002
82449931|NCT06037408|164607164|SUPERIORITY||Mean Difference (Final Values)|25.12|STANDARD_ERROR_OF_MEAN|4.459|<|0.0001|TWO_SIDED|95.0|13.26|36.99|||ANOVA|Degrees of freedom, 28.16.||||36.99|13.26|<0.0001
82449932|NCT01211340|164607165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.18
82535780|NCT03432533|164769843|NON_INFERIORITY|Conclusions for the primary efficacy hypothesis of efficacy of self-administration of romosozumab by AI/Pen compared with HCP-administered romosozumab by PFS at lumbar spine BMD at Month 6 was made using a 1-sided test with type 1 error rate of 0.025 and noninferiority margin of -2.0%.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.84|TWO_SIDED|95.0|-1.3|1.0|||ANCOVA|||||1.0|-1.3|0.84
82648228|NCT02367781|165011944|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.561|||<|0.0001|TWO_SIDED|95.0|0.432|0.728|||Log Rank|||TC1/2/3 or IC1/2/3-WT ITT Population||0.728|0.432|<0.0001
82427998|NCT03012334|164563946|SUPERIORITY||LS Mean|0.303|||<|0.0001|TWO_SIDED|95.0|0.2082|0.3985|||Mixed Models Analysis|||||0.3985|0.2082|<.0001
82427999|NCT03012334|164563946|SUPERIORITY||LS Mean|0.372|||<|0.0001|TWO_SIDED|95.0|0.277|0.4662|||Mixed Models Analysis|||||0.4662|0.2770|<.0001
82428000|NCT03012334|164563946|SUPERIORITY||LS Mean|0.603|||<|0.0001|TWO_SIDED|95.0|0.508|0.6983|||Mixed Models Analysis|||||0.6983|0.5080|<.0001
82428001|NCT03012334|164563946|SUPERIORITY||LS Mean|-0.423|||<|0.0001|TWO_SIDED|95.0|-0.5183|-0.3286|||Mixed Models Analysis|||||-0.3286|-0.5183|<.0001
82428002|NCT03012334|164563946|SUPERIORITY||LS Mean|-0.3|||<|0.0001|TWO_SIDED|95.0|-0.3949|-0.2047|||Mixed Models Analysis|||||-0.2047|-0.3949|<0.0001
82428003|NCT03012334|164563946|SUPERIORITY||LS Mean|-0.232|||<|0.0001|TWO_SIDED|95.0|-0.3261|-0.137|||Mixed Models Analysis|||||-0.1370|-0.3261|<0.0001
82428004|NCT00256126|164563950|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82428005|NCT01103414|164563957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.1|STANDARD_ERROR_OF_MEAN|6.77||0.1819|TWO_SIDED|95.0|-22.4|4.3|||ANCOVA|||||4.3|-22.4|0.1819
82428006|NCT01103414|164563957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.4|STANDARD_ERROR_OF_MEAN|6.59||0.0057|TWO_SIDED|95.0|-31.4|-5.4|||ANCOVA|||||-5.4|-31.4|0.0057
82428007|NCT01103414|164563957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.9|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|-42.3|-15.6|||ANCOVA|||||-15.6|-42.3|<0.0001
82428008|NCT01103414|164563957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.0|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|-43.8|-18.2|||ANCOVA|||||-18.2|-43.8|<0.0001
82428009|NCT01103414|164563958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.0273|TWO_SIDED|95.0|-0.73|-0.04|||ANCOVA|||||-0.04|-0.73|0.0273
82428010|NCT01103414|164563958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.13|-0.45|||ANCOVA|||||-0.45|-1.13|<0.0001
82428011|NCT01103414|164563958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86|STANDARD_ERROR_OF_MEAN|0.176|<|0.0001|TWO_SIDED|95.0|-1.21|-0.52|||ANCOVA|||||-0.52|-1.21|<0.0001
82428012|NCT01103414|164563958|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.98|STANDARD_ERROR_OF_MEAN|0.169|<|0.0001|TWO_SIDED|95.0|-1.32|-0.65|||ANCOVA|||||-0.65|-1.32|<0.0001
82428013|NCT01008618|164563994|SUPERIORITY_OR_OTHER|||||||0.0846|||||||Log Rank|||||||0.0846
82428014|NCT02581891|164564008|NON_INFERIORITY|The non-inferiority margin is set to 5 letters.|LS mean difference|-2.0199|STANDARD_ERROR_OF_MEAN|1.3833||0.0162|TWO_SIDED|95.0|-4.747|0.7073|||ANCOVA|||||0.7073|-4.7470|0.0162
82449933|NCT01211340|164607165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Regression, Linear|No significant difference found between groups||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.18
82449934|NCT01211340|164607165|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|TWO_SIDED|95.0|||||Spearmans rank|No differences found||To test the effects of the dose of meetings on association with overall Caregiver Perceptions of Pain Medicine Questionaire (CPMQ) change we used Spearman rank correlation coefficient||||.18
82652139|NCT02637557|165019479|SUPERIORITY|||||||0.1374||||||Dose trend test performed using linear contrast statement.|trend test|||||||0.1374
82535781|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.25||0.0464|TWO_SIDED|95.0|-0.98|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-0.98|0.0464
82535782|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.24||0.008|TWO_SIDED|95.0|-1.13|-0.17|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.17|-1.13|0.0080
82535783|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.24||0.0159|TWO_SIDED|95.0|-1.08|-0.11|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.11|-1.08|0.0159
82535784|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.29||0.2563|TWO_SIDED|95.0|-0.89|0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.24|-0.89|0.2563
82535785|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.0239|TWO_SIDED|95.0|-1.21|-0.09|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.09|-1.21|0.0239
82535786|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.28||0.028|TWO_SIDED|95.0|-1.19|-0.07|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.07|-1.19|0.0280
82535787|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.29||0.6904|TWO_SIDED|95.0|-0.7|0.46|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.46|-0.70|0.6904
82648229|NCT02367781|165011944|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.549|||<|0.0001|TWO_SIDED|95.0|0.425|0.708|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||0.708|0.425|<0.0001
82648230|NCT02367781|165011945|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.837||||0.0732|TWO_SIDED|95.0|0.689|1.017|||Log Rank|||||1.017|0.689|0.0732
82428015|NCT02797821|164564054|OTHER||Least Squares (LS) Means Difference|-1.88|||<|0.0001|TWO_SIDED|95.0|-2.544|-1.216||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥median vs \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|REML|A fixed sequence testing procedure was used to control the Type I error rate. A statistical adjustment of p-values was not performed.||A fixed sequence testing procedure was performed to compare the 3.0 mg/kg cohort with the 0.5 mg/kg cohort first. The hypothesis testing for the second comparison of the 2.0 mg/kg cohort compared with the 0.5 mg/kg cohort was only performed if the null hypothesis was rejected for the previous comparison at a significance level of 0.05 (p-value \<0.05). The primary endpoint was met if the null hypothesis was rejected for both comparisons at a significance level of 0.05 (both p-values \<0.05).||-1.216|-2.544|<0.0001
82428016|NCT02797821|164564054|OTHER||LS Means Difference|-1.193||||0.0008|TWO_SIDED|95.0|-1.805|-0.581||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥median vs \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|REML|A fixed sequence testing procedure was used to control the Type I error rate. A statistical adjustment of p-values was not performed.||A fixed sequence testing procedure was performed to compare the 3.0 mg/kg cohort with the 0.5 mg/kg cohort first. The hypothesis testing for the second comparison of the 2.0 mg/kg cohort compared with the 0.5 mg/kg cohort was only performed if the null hypothesis was rejected for the first comparison at a significance level of 0.05 (p-value \<0.05). The primary endpoint was met if the null hypothesis was rejected for both comparisons at a significance level of 0.05 (both p-values \<0.05).||-0.581|-1.805|0.0008
82428017|NCT02797821|164564055|OTHER||LS Means Difference|-34.047||||0.0128|TWO_SIDED|95.0|-60.171|-7.922||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥ median versus \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|Restricted maximum likelihood-based|A statistical adjustment of p-values was not performed.||||-7.922|-60.171|0.0128
82648231|NCT02367781|165011946|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.752||||0.083|TWO_SIDED|95.0|0.545|1.039|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||1.039|0.545|0.0830
82648232|NCT02367781|165011946|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.746||||0.0813|TWO_SIDED|95.0|0.536|1.038|||Log Rank|||TC1/2/3 or IC1/2/3 WT ITT Population||1.038|0.536|0.0813
82648233|NCT02367781|165011947|SUPERIORITY|Stratified Analysis|Difference in Response Rate|19.21|||<|0.0001|TWO_SIDED|95.0|11.05|27.37|||Cochran-Mantel-Haenszel||Wald with Continuity Correction|||27.37|11.05|<.0001
82428018|NCT02797821|164564055|OTHER||LS Means Difference|-29.492||||0.0239|TWO_SIDED|95.0|-54.723|-4.261||REML-based repeated measures mixed model (treatment, visit, sex, Baseline PPi, Baseline weight group \[≥ median versus \< median\], and study drug lot assignment as factors) with an unstructured covariance structure for within-participant correlation.|Restricted maximum likelihood-based|A statistical adjustment of p-values was not performed.||||-4.261|-54.723|0.0239
82428019|NCT01812057|164564056|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.740
82428020|NCT01812057|164564057|SUPERIORITY|Pain Score at rest at 2 hours||||||0.171|||||||t-test, 2 sided|||||||0.171
82428021|NCT01812057|164564057|SUPERIORITY|Pain Score with movement at 2 hours||||||0.204|||||||t-test, 2 sided|||||||0.204
82428022|NCT01812057|164564058|SUPERIORITY|||||||0.1965|||||||Log Rank|||||||0.1965
82428023|NCT01812057|164564059|SUPERIORITY|||||||0.709|||||||Wilcoxon (Mann-Whitney)|||||||0.709
82428024|NCT01812057|164564060|SUPERIORITY|Pain Score at rest at 24 hours||||||0.267|||||||Wilcoxon (Mann-Whitney)|||||||0.267
82428025|NCT01812057|164564060|SUPERIORITY|Pain Score with movement at 24 hours||||||0.518|||||||t-test, 2 sided|||||||0.518
82428026|NCT01812057|164564061|SUPERIORITY|Pain Score at rest at 48 hours||||||0.491|||||||Wilcoxon (Mann-Whitney)|||||||0.491
82449935|NCT01211340|164607166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED|95.0|||||Wilcxon Rank Sum Test|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.15
82648234|NCT02367781|165011948|SUPERIORITY|Unstratified Analysis|Difference in Response Rate|16.89|||<|0.0001|TWO_SIDED|95.0|8.9|24.88|||Cochran-Mantel-Haenszel||Wald with Continuity Correction|ITT Population||24.88|8.90|<.0001
82428027|NCT01812057|164564061|SUPERIORITY|Pain Scores with movement at 48 hours||||||0.525|||||||Wilcoxon (Mann-Whitney)|||||||0.525
82449936|NCT01211340|164607166|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Regression, Linear|||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.15
82449937|NCT01211340|164607167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||The first analysis examined change from baseline to last available measure prior to death or the end of the study. The pre/post change was calculated for each participant and the Wilcoxon rank sum test was used to compare usual care and intervention groups with respect to changes. All randomized caregivers with at least 1 post baseline measure were included in the analysis.||||.89
82449938|NCT01211340|164607167|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89|||||||Regression, Linear|||The secondary analysis used a linear mixed model to test for groups differences over time. To account for repeated- measures nature of the data and the varying duration of participation, both participant specific intercept and slopes were treated as random effects. To minimize the leverage of relatively small number of participants with extremely long follow-up times we limited the number of days followed to 122, which was the 75th percentile of the days in the combined study.||||.89
82648235|NCT02367781|165011948|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.22|||||TWO_SIDED|95.0|1.38|3.56||||||TC1/2/3 or IC1/2/3 ITT WT Population||3.56|1.38|
82648236|NCT02367781|165011948|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.21||||0.0007|TWO_SIDED|95.0|1.39|3.51|||Cochran-Mantel-Haenszel|||TC1/2/3 or IC1/2/3 ITT Population||3.51|1.39|0.0007
82648237|NCT02367781|165011949|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.614||||0.0002|TWO_SIDED|95.0|0.473|0.797|||Log Rank|||ITT Population||0.797|0.473|0.0002
82428028|NCT01812057|164564062|SUPERIORITY|||||||0.355|||||||Wilcoxon (Mann-Whitney)|Total opioid consumption at 24 hours|||We also performed a multivariable regression analysis to determine factors associated with 24h opioid consumption accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminate the factor with the largest p-value over 0.05.In the final model MTS was not associated with 24h opioid consumption parameter estimate (standard error) = 9.15 (5.27), p=0.09.|||0.355
82428029|NCT01812057|164564063|SUPERIORITY|||||||0.42|||||||Fisher Exact|Chronic pain at 8 weeks||||||0.420
82428030|NCT01812057|164564064|SUPERIORITY|||||||0.322|||||||Fisher Exact|||||||0.322
82428031|NCT01812057|164564065|SUPERIORITY|||||||0.805|||||||Wilcoxon (Mann-Whitney)|||24 hour pain scores at rest between MTS groups|We also performed a multivariable regression analysis to determine factors associated with Pain scores at rest at 24 hours accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminate the factors with the largest p-value over 0.05. MTS category was not included in the final model for 24 h pain scores at rest.|||0.805
82428032|NCT01812057|164564065|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Pain scores on movement at 24h|We also performed a multivariable regression analysis to determine factors associated with Pain scores at rest at 24 hours accounting for MTS category, demographic factors, study group allocation (dexamethasone vs placebo) and a preoperative questions to assess patients anxiety, anticipated pain scores after surgery and anticipated analgesic need after surgery. At each step of backward variable selection, we eliminated the factors with the largest p-value over 0.05. MTS category was not included in the final model for 24 h pain scores on movement.|||1.000
82428033|NCT01812057|164564066|SUPERIORITY|Intraoperative nausea and vomiting||||||0.245|||||||Fisher Exact|||||||0.245
82428034|NCT01812057|164564066|SUPERIORITY|||||||0.676|||||||Chi-squared|Need for intraoperative antiemetics||||||0.676
82428035|NCT01812057|164564066|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82428036|NCT01812057|164564068|SUPERIORITY|||||||0.924|||||||Chi-squared|Incidence of postoperative pruritus||||||0.924
82428037|NCT01812057|164564069|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.700
82648238|NCT02367781|165011949|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.6||||0.0002|TWO_SIDED|95.0|0.458|0.785|||Log Rank|||ITT-WT Population||0.785|0.458|0.0002
82428038|NCT01812057|164564070|SUPERIORITY|||||||0.302|||||||Chi-squared|Incidence of PONV at 24 h||||||0.302
82428039|NCT01812057|164564070|SUPERIORITY|||||||0.028|||||||Chi-squared|Postoperative need for rescue antiemetic||||||0.028
82428040|NCT01812057|164564070|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82428041|NCT01812057|164564070|SUPERIORITY|||||||0.188|||||||Chi-squared|||||||0.188
82428042|NCT01657305|164564091|SUPERIORITY_OR_OTHER||||||<|0.0001||||||2-sided, significance level = 0.05|t-test, 2 sided|||"All participants received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: δ = 0 and H1: δ ≠ 0 with δ being the difference in time to wound closure between treatments.~Negative values for the intra-individual time difference indicate faster healing of the Oleogel-S10-treated wound half.~For right-censored observations (no wound closure observed in blinded photo evaluation), wound closure was conservatively calculated as +1 day after the last photo."||||<0.0001
82428043|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_DEVIATION|13.4|<|0.0001|TWO_SIDED|95.0|6.0|11.2||Day 7|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||11.2|6.0|<0.0001
82428044|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_DEVIATION|17.0|<|0.0001|TWO_SIDED|95.0|6.9|13.4||Day 10|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||13.4|6.9|<0.0001
82449939|NCT03755661|164607178|OTHER|pilot data to estimate effect size f-squared as the parameter as primary outcome||||||0.048||||||provide inferential statistics for data completion. Study is not designed to detect significant differences between groups|Regression, Linear|R-square change = .12; F-change (1, 20) = 4.44||pilot study to calculate effect size, study is not powered to detect significant group differences|"Computed f-squared as effect size estimate where baseline value of heavy drinking episodes entered in step 1 and condition in step 2~f- squared = .22"|||.048
82449940|NCT03755661|164607179|SUPERIORITY|"The main outcome variable is f-squared as an estimate of differences between conditions controlling for baseline value.~A statistical test is provided only for completeness as this study is not powered to detect significant effects"||||||0.34||||||F-change (1, 20) = 0.97|Regression, Linear|||pilot trial to compute effect size estimate|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .05, r-squared change = .04|||.34
82428045|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|STANDARD_DEVIATION|17.0|<|0.0001|TWO_SIDED|95.0|4.6|11.1||Day 14|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||11.1|4.6|<0.0001
82449941|NCT03755661|164607180|SUPERIORITY|This is a pilot trial to estimate effect sizes and not powered to detect significant differences||||||0.2||||||data provided for completeness, not powered to test differences|Regression, Linear|F-change (1, 20) = 1.80|||Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .09, r-squared change = .058|||.20
82449942|NCT03755661|164607181|SUPERIORITY|Pilot trial not powered to detect significant group differences. Data from analyses presented for completeness. Primary outcome is effect size estimates||||||0.19|||||||Regression, Linear|F-change (1, 20) = 1.83||Pilot trial not powered to detect significant group differences|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .09, r-squared change = .048|||.19
82428046|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_DEVIATION|18.3|<|0.0001|TWO_SIDED|95.0|3.9|10.9||Day 18|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||10.9|3.9|<0.0001
82449943|NCT03755661|164607182|SUPERIORITY|||||||0.26||||||F-change (1, 19) = 1.34|Regression, Linear|||Not powered to test significant differences. provide data on effect size estimate below|Computed f-squared as effect size estimate where baseline value of CAI entered in step 1 and condition in step 2 f- squared = .05, r-squared change = .04|||.26
82449944|NCT00931606|164607183|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449945|NCT00931606|164607183|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82648239|NCT02367781|165011949|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.548||||0.0011|TWO_SIDED|95.0|0.379|0.791|||Log Rank|||TC1/2/3 or IC1/2/3 ITT Population||0.791|0.379|0.0011
82428047|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_DEVIATION|14.1|<|0.0001|TWO_SIDED|95.0|3.7|9.1||Day 21|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||9.1|3.7|<0.0001
82428048|NCT01657305|164564095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_DEVIATION|12.9|=|0.0021|TWO_SIDED|95.0|1.5|6.4||Day 28|t-test, 2 sided||Difference in degree of epithelialization \[%\] (Oleogel-S10 minus standard of care)|||6.4|1.5|=0.0021
82428049|NCT01180127|164564104|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Repeated measures ANOVA|||Repeated measures ANOVA for the interaction of time (baseline vs 12 week) and flavanol group.||||.0001
82428050|NCT01180127|164564105|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED|||||The ANCOVA model included a main effect for both flavanol and exercise, so this p-value is for the effect of flavanol on Modbent controlling for baseline Modbent and exercise|ANCOVA|||ANCOVA used to test main effect of flavanol||||0.038
82428051|NCT01180127|164564105|SUPERIORITY_OR_OTHER|||||||0.815|TWO_SIDED|||||The ANCOVA included both a main effect for flavanol and exercise, so this p-value is for the test of exercise controlling for baseline Modbent and flavanol|ANCOVA|||ANCOVA used to test main effect of exercise||||0.815
82428052|NCT01180127|164564106|SUPERIORITY_OR_OTHER|||||||0.853|TWO_SIDED||||||ANCOVA|||ANCOVA for testing main effect of flavanol||||0.853
82428053|NCT01180127|164564106|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED||||||ANCOVA|||ANCOVA for testing main effect of exercise||||0.581
82449946|NCT00931606|164607183|SUPERIORITY|||||||0.524|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.524
82449947|NCT00931606|164607183|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449948|NCT00931606|164607183|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
82449949|NCT00931606|164607183|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
82428054|NCT01180127|164564107|SUPERIORITY_OR_OTHER|||||||0.237|TWO_SIDED||||||ANCOVA|||ANCOVA was used to test for an exercise effect.||||0.237
82428055|NCT01120405|164564120|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of xenon over sevoflurane is accepted if the upper bound of the two-sided 95% CI around the estimated difference is below the prespecified non-inferiority margin of 10%.|Difference of proportion|0.19||||0.0052|TWO_SIDED|95.0|-6.7|7.07|||Difference of proportion|||"The percentage of patients with MN during the 3 postoperative days in the sevoflurane group and in the xenon group was expected to be 20%. The margin of non-inferiority was 10%. Thus the sample size to prove non-inferiority was 252 patients per group with α = 0.025, a power of 0.80 and the following hypotheses: H0: Px-Pc ≥ 10%; H1: Px-Pc \< 10%.~As it was expected that approximately 15% of patients would be non-evaluable, a total of 600 patients were included."||7.07|-6.70|0.0052
82428056|NCT01120405|164564121|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.7715|TWO_SIDED|95.0|-3.9|5.25|||Difference of proportion|||||5.25|-3.90|0.7715
82428057|NCT01120405|164564122|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.4763|TWO_SIDED|95.0|-1.19|2.54|||Difference of proportion|||||2.54|-1.19|0.4763
82428058|NCT01120405|164564123|SUPERIORITY_OR_OTHER||Difference of proportion|-0.34||||0.6533|TWO_SIDED|95.0|-1.82|1.14|||Difference of proportion|||||1.14|-1.82|0.6533
82428059|NCT01120405|164564124|SUPERIORITY_OR_OTHER||Difference of proportion|0.68||||0.1559|TWO_SIDED|95.0|-0.26|1.61|||Difference of proportion|||||1.61|-0.26|0.1559
82428060|NCT01120405|164564126|SUPERIORITY_OR_OTHER||Difference of proportion|1.69||||0.6056|TWO_SIDED|95.0|-4.74|8.13|||Difference of proportion|||||8.13|-4.74|0.6056
82428061|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.238|||||||Kruskal-Wallis|||Comparison among three groups over 4 weeks of treatment||||0.238
82428062|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.004|||||||Kruskal-Wallis|||Comparison among three groups at the 4th week of follow-up||||0.004
82428063|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.277|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.277
82428064|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.001|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.001
82428065|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.055|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 4th week of follow-up||||0.055
82428066|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||Comparison among three groups at the 12th week of follow-up||||0.001
82449950|NCT00931606|164607183|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
82449951|NCT00931606|164607183|SUPERIORITY|||||||0.236|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.236
82449952|NCT00931606|164607183|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
82648240|NCT02367781|165011949|SUPERIORITY|Unstratified Analysis|Hazard Ratio (HR)|0.551||||0.0014|TWO_SIDED|95.0|0.381|0.798|||Log Rank|||TC1/2/3 or IC1/2/3 ITT WT Population||0.798|0.381|0.0014
82428067|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.33|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||0.330
82428068|NCT00508482|164564167|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||<0.001
82428069|NCT00508482|164564167|SUPERIORITY_OR_OTHER|||||||0.018|||||||Least-Significant Difference|We translated the data of three groups through rank cases, so that we can use Least-Significant Difference for the comparison of any two groups.||at the 12th week of follow-up||||0.018
82428070|NCT00508482|164564168|SUPERIORITY_OR_OTHER|||||||0.573|||||||ANOVA|||||||0.573
82428071|NCT00508482|164564169|SUPERIORITY_OR_OTHER|||||||0.271|||||||Kruskal-Wallis|||||||0.271
82428072|NCT00508482|164564170|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82428073|NCT00508482|164564170|SUPERIORITY_OR_OTHER|||||||0.58|||||||Least-Significant Difference|||||||0.580
82428074|NCT00508482|164564170|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
82428075|NCT00508482|164564170|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
82428076|NCT00508482|164564171|SUPERIORITY_OR_OTHER|||||||0.167|||||||ANOVA|||||||0.167
82428077|NCT00508482|164564172|SUPERIORITY_OR_OTHER|||||||0.066|||||||Kruskal-Wallis|||||||0.066
82428078|NCT00508482|164564173|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82428079|NCT00508482|164564173|SUPERIORITY_OR_OTHER|||||||0.024|||||||Least-Significant Difference|||||||0.024
82428080|NCT00508482|164564173|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
82428081|NCT00508482|164564173|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Least-Significant Difference|||||||<0.001
82428082|NCT00508482|164564174|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82449953|NCT00931606|164607183|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
82449954|NCT00931606|164607186|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449955|NCT00931606|164607186|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449956|NCT00931606|164607186|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
82449957|NCT00931606|164607186|SUPERIORITY||||||>|0.999|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
82449958|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449959|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82648241|NCT02367781|165011950|SUPERIORITY||Difference in Event Free Rate|7.46||||0.0647|TWO_SIDED|95.0|-0.45|15.37|||Z-test|||Event Free Rate (%) at Year 1 ITT WT Population||15.37|-0.45|0.0647
82648242|NCT02367781|165011950|SUPERIORITY||Difference in Event Free Rate|8.07||||0.0516|TWO_SIDED|95.0|-0.06|16.19|||Z-test|||Event Free Rate (%) at Year 2 ITT WT Population||16.19|-0.06|0.0516
82428083|NCT00508482|164564174|SUPERIORITY_OR_OTHER|||||||0.627||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.627
82428084|NCT00508482|164564174|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
82428085|NCT00508482|164564174|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
82428086|NCT00508482|164564175|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82428087|NCT00508482|164564175|SUPERIORITY_OR_OTHER|||||||0.587||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.587
82428088|NCT00508482|164564175|SUPERIORITY_OR_OTHER|||||||0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.001
82428089|NCT00508482|164564175|SUPERIORITY_OR_OTHER||||||<|0.001||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||<0.001
82428090|NCT00508482|164564176|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||||||0.006
82449960|NCT00931606|164607187|SUPERIORITY|||||||0.206|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.206
82449961|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449962|NCT00931606|164607187|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
82449963|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
82449964|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999, are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
82449965|NCT00931606|164607187|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
82449966|NCT00931606|164607187|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
82449967|NCT00931606|164607187|SUPERIORITY|||||||0.143|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.143
82449968|NCT00931606|164607187|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
82449969|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82648243|NCT02367781|165011950|SUPERIORITY||Difference in Event Free Rate|7.19||||0.0683|TWO_SIDED|95.0|-0.54|14.91|||Z-test|||Event Free Rate (%) at Year 1 ITT Population||14.91|-0.54|0.0683
82428091|NCT00508482|164564176|SUPERIORITY_OR_OTHER|||||||0.507||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.507
82428092|NCT00508482|164564176|SUPERIORITY_OR_OTHER|||||||0.005||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.005
82428093|NCT00508482|164564176|SUPERIORITY_OR_OTHER|||||||0.008||||||α was corrected by the method of Bonferroni as 0.0167 (α=0.05/3=0.0167).|Chi-squared|||||||0.008
82428094|NCT01227057|164564177|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.||||||0.029||||||P value is for the group x time interaction.|Mixed Models Analysis|Adjusted for age, years of education, and presence of co-morbid obsessive-compulsive disorder due to group differences at baseline.||Linear mixed models with random intercepts were used to evaluate the change in primary and secondary outcome variables over time, the effect of group, the effect of treatment, and the treatment group by time interaction, both for the treatment phase (0-6 months) and follow up phase (6-12 months). All analyses (0-6 months) were conducted first using observed data only (i.e., completer analysis) and then using an intent to treat (ITT) sample.||||.029
82449970|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449971|NCT00931606|164607188|SUPERIORITY|||||||0.206|||||||Fisher Exact|Clopper and Pearson exact approach||Overall||||0.206
82449972|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Overall||||>0.999
82449973|NCT00931606|164607188|SUPERIORITY|||||||0.333|||||||Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||0.333
82449974|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
82449975|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Weekly Chemotherapy||||>0.999
82449976|NCT00931606|164607188|SUPERIORITY|||||||0.429|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.429
82449977|NCT00931606|164607188|SUPERIORITY||||||>|0.999||||||"P-values greater than 0.999 are reported as \>0.999."|Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||>0.999
82449978|NCT00931606|164607188|SUPERIORITY|||||||0.143|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.143
82449979|NCT00931606|164607188|SUPERIORITY|||||||0.519|||||||Fisher Exact|Clopper and Pearson exact approach||Less Frequent Chemotherapy||||0.519
82449980|NCT04255862|164607205|EQUIVALENCE|Bioequivalence (BE) was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC.|Geometric Mean Ratio|103.4|||||TWO_SIDED|90.0|86.4|123.8||||||||123.8|86.4|
82428095|NCT01227057|164564178|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.||||||0.04||||||P value is for the group x time interaction.|Mixed Models Analysis|Adjusted for age, years of education, and presence of co-morbid obsessive-compulsive disorder due to group differences at baseline.||Linear mixed models with random intercepts were used to evaluate the change in primary and secondary outcome variables over time, the effect of group, the effect of treatment, and the treatment group by time interaction, both for the treatment phase (0-6 months) and follow up phase (6-12 months). All analyses (0-6 months) were conducted first using observed data only (i.e., completer analysis) and then using an intent to treat (ITT) sample.||||.04
82428096|NCT01227057|164564179|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were based on the SI-R using effect size estimates from a previous trial comparing individual CBT with a Wait List (WL) control (Steketee2010). In this study, the effect size of Cognitive Behavioral Therapy (CBT) relative to WL was d = 2.21 on the SI-R. Accounting for a smaller effect size due to having an active control condition, we expected to have 80% power to detect a large (d = .80) effect size. The sample assessed for eligibility (n = 67) was 99% of this target.|||||>|0.1||||||P value is for the group x time interaction.|ANOVA|||||||>.1
82428097|NCT01822665|164564188|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.63|-0.59||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||-0.59|-1.63|<0.0001
82428098|NCT01822665|164564189|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.0095|TWO_SIDED|95.0|-1.23|-0.18|||t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||-0.18|-1.23|0.0095
82428099|NCT01822665|164564189|SUPERIORITY_OR_OTHER||LS mean difference|0.19||||0.4794|TWO_SIDED|95.0|-0.34|0.72||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||0.72|-0.34|0.4794
82428100|NCT01822665|164564189|SUPERIORITY_OR_OTHER||LS mean difference|0.4||||0.1429|TWO_SIDED|95.0|-0.14|0.95||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||0.95|-0.14|0.1429
82428101|NCT01822665|164564189|SUPERIORITY_OR_OTHER||LS mean difference|1.3|||<|0.0001|TWO_SIDED|95.0|0.75|1.84||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||1.84|0.75|<0.0001
82535788|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.4022|TWO_SIDED|95.0|-0.83|0.33|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.33|-0.83|0.4022
82648244|NCT02367781|165011950|SUPERIORITY||Difference in Event Free Rate|7.53||||0.0625|TWO_SIDED|95.0|-0.39|15.44|||Z-test|||Event Free Rate (%) at Year 2 ITT Population||15.44|-0.39|0.0625
82428102|NCT01822665|164564189|SUPERIORITY_OR_OTHER||LS mean difference|0.89||||0.002|TWO_SIDED|95.0|0.34|1.45||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of gastric mucosal damage between two treatments.||1.45|0.34|0.0020
82428103|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.6497|TWO_SIDED|95.0|-0.49|0.31||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.31|-0.49|0.6497
82535789|NCT00797225|164769850|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.29||0.0451|TWO_SIDED|95.0|-1.17|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean values of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-1.17|0.0451
82648245|NCT02367781|165011951|SUPERIORITY||Difference in Event Free Rate|6.69||||0.2385|TWO_SIDED|95.0|-4.44|17.83|||Z-test|||Event Free Rate (%) at Year 1 TC1/2/3 or IC1/2/3 ITT||17.83|-4.44|0.2385
82648246|NCT02367781|165011951|SUPERIORITY||Difference in Event Free Rate|8.64||||0.271|TWO_SIDED|95.0|-6.75|24.03|||Z-test|||Event Free Rate (%) at Year 2 TC1/2/3 or IC1/2/3 ITT||24.03|-6.75|0.2710
82648247|NCT02367781|165011951|SUPERIORITY||Difference in Event Free Rate|6.34||||0.2733|TWO_SIDED|95.0|-5.0|17.67|||Z-test|||Event Free Rate (%) Year 1 TC1/2/3 or IC1/2/3 ITT WT||17.67|-5.00|0.2733
82428104|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.7591|TWO_SIDED|95.0|-0.46|0.34||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.34|-0.46|0.7591
82428105|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|0.17||||0.4126|TWO_SIDED|95.0|-0.24|0.57||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.57|-0.24|0.4126
82648248|NCT02367781|165011951|SUPERIORITY||Difference in Event Free Rate|8.69||||0.2909|TWO_SIDED|95.0|-7.44|24.81|||Z-test|||Event Free Rate (%) Year 2 TC1/2/3 or IC1/2/3 ITT WT||24.81|-7.44|0.2909
82648249|NCT02367781|165011952|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.893||||0.3342|TWO_SIDED|95.0|0.711|1.123|||Log Rank|||||1.123|0.711|0.3342
82648250|NCT01529749|165011960|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82428106|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.8903|TWO_SIDED|95.0|-0.39|0.45||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.45|-0.39|0.8903
82428107|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|0.26||||0.2227|TWO_SIDED|95.0|-0.16|0.67||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments||0.67|-0.16|0.2227
82428108|NCT01822665|164564190|SUPERIORITY_OR_OTHER||LS mean difference|0.23||||0.2855|TWO_SIDED|95.0|-0.2|0.65||No multiple comparisons were carried out.|t-test, 2 sided|Period and treatment were included in the model as fixed effects, while subjects were a random effect.|Difference was first named treatment minus second named treatment, such that a positive difference favors the first named treatment.|Null hypothesis considered no significant difference in mean endoscopy score of duodenal mucosal damage between two treatments.||0.65|-0.20|0.2855
82428109|NCT01822665|164564191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.19||||0.0084|TWO_SIDED|95.0|1.6|23.97||P-value associated with chi-square testing odds ratio.|Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||23.97|1.60|0.0084
82428110|NCT01822665|164564191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19||||0.0999|TWO_SIDED|95.0|0.8|12.74||P-value associated with chi-square testing odds ratio.|Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||12.74|0.80|0.0999
82428111|NCT01822665|164564191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.2845|TWO_SIDED|95.0|0.58|6.5|||Chi-squared||Odds Ratio from logistic regression model with treatment as factor and period as covariate.|||6.50|0.58|0.2845
82428112|NCT02121509|164564193|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.79|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|98.938|106.789|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||106.789|98.938|<0.0001
82648251|NCT01529749|165011961|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648252|NCT01529749|165011962|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648253|NCT01529749|165011963|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648254|NCT01529749|165011964|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648255|NCT01529749|165011965|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648256|NCT01529749|165011966|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648257|NCT01529749|165011967|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82428113|NCT02121509|164564193|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.45|STANDARD_ERROR_OF_MEAN|1.026|<|0.0001|TWO_SIDED|90.0|96.99|106.121|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||106.121|96.990|<0.0001
82648258|NCT01529749|165011968|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82648259|NCT01529749|165011969|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648260|NCT01529749|165011970|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648261|NCT01529749|165011971|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648262|NCT01529749|165011972|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648263|NCT01529749|165011973|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648264|NCT01529749|165011974|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||||||1
82648265|NCT01529749|165011975|SUPERIORITY|||||||0.49|||||||Chi-squared, Corrected|||||||0.49
82648266|NCT01529749|165011976|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
82648267|NCT05166421|165011983|OTHER||Geometric mean ratio|0.938|||||TWO_SIDED|90.0|0.8458|1.0403||||||Statistical Comparison of AUCinf of AZD7442||1.0403|0.8458|
82648268|NCT05166421|165011983|OTHER||Geometric mean ratio|0.9968|||||TWO_SIDED|90.0|0.898|1.1066||||||Statistical Comparison of AUCinf of AZD7442||1.1066|0.8980|
82648269|NCT05166421|165011983|OTHER||Geometric mean ratio|1.0627|||||TWO_SIDED|90.0|0.9579|1.179||||||Statistical Comparison of AUCinf of AZD7442||1.1790|0.9579|
82648270|NCT05166421|165011983|OTHER||Geometric mean ratio|0.8992|||||TWO_SIDED|90.0|0.8107|0.9974||||||Statistical Comparison of AUCinf of AZD8895||0.9974|0.8107|
82449981|NCT04255862|164607205|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC.|Geometric Mean Ratio|115.0|||||TWO_SIDED|90.0|97.9|135.0||||||||135.0|97.9|
82648271|NCT05166421|165011983|OTHER||Geometric mean ratio|0.9826|||||TWO_SIDED|90.0|0.8854|1.0905||||||Statistical Comparison of AUCinf of AZD8895||1.0905|0.8854|
82428114|NCT02121509|164564194|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|106.22|STANDARD_ERROR_OF_MEAN|1.046||0.0004|TWO_SIDED|90.0|98.449|114.614|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||114.614|98.449|0.0004
82428115|NCT02121509|164564194|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|106.71|STANDARD_ERROR_OF_MEAN|1.051||0.004|TWO_SIDED|90.0|97.614|116.658|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||116.658|97.614|0.0040
82428116|NCT02121509|164564195|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|102.03|STANDARD_ERROR_OF_MEAN|1.05||0.0001|TWO_SIDED|90.0|94.03|110.72|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||110.72|94.03|0.0001
82428117|NCT02121509|164564195|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|96.36|STANDARD_ERROR_OF_MEAN|1.04||0.0002|TWO_SIDED|90.0|89.96|103.22|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||103.22|89.96|0.0002
82428118|NCT02121509|164564196|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|105.1|STANDARD_ERROR_OF_MEAN|1.057||0.0013|TWO_SIDED|90.0|95.829|115.269|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||115.269|95.829|0.0013
82449982|NCT04255862|164607206|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC0-t.|Geometric Mean Ratio|102.8|||||TWO_SIDED|90.0|87.0|121.5||||||||121.5|87.0|
82449983|NCT04255862|164607206|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for AUC0-t.|Geometric Mean Ratio|113.4|||||TWO_SIDED|90.0|97.4|131.9||||||||131.9|97.4|
82449984|NCT04255862|164607207|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for Cmax.|Geometric Mean Ratio|104.0|||||TWO_SIDED|90.0|90.3|119.7||||||||119.7|90.3|
82449985|NCT04255862|164607207|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 80 to 125 for Cmax.|Geometric Mean Ratio|114.3|||||TWO_SIDED|90.0|99.5|131.4||||||||131.4|99.5|
82428119|NCT02121509|164564196|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|113.91|STANDARD_ERROR_OF_MEAN|1.027||0.0018|TWO_SIDED|90.0|108.749|119.318|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||119.318|108.749|0.0018
82449986|NCT02391363|164607249|SUPERIORITY|||||||0.77||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.08 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PSWQ-A, controlling for baseline PSWQ-A.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate of .05."||||0.77
82449987|NCT02391363|164607250|SUPERIORITY|||||||0.07||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 3.50 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PSWQ-A, controlling for baseline PSWQ-A.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.07
82449988|NCT02391363|164607251|SUPERIORITY|||||||0.34||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.92. (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GAD-7, controlling for baseline GAD-7.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.34
82490014|NCT03572972|164672894|SUPERIORITY||Hazard Ratio (HR)|0.918|||||TWO_SIDED|95.0|0.691|1.218||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.218|0.691|
82648272|NCT05166421|165011983|OTHER||Geometric mean ratio|1.0928|||||TWO_SIDED|90.0|0.9853|1.212||||||Statistical Comparison of AUCinf of AZD8895||1.2120|0.9853|
82449989|NCT02391363|164607252|SUPERIORITY|||||||0.08||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 3.20 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GAD-7, controlling for baseline GAD-7.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.08
82428120|NCT02121509|164564197|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.45|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|95.748|107.487|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||107.487|95.748|<0.0001
82428121|NCT02121509|164564197|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|106.33|STANDARD_ERROR_OF_MEAN|1.034||0.0002|TWO_SIDED|90.0|100.268|112.763|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||112.763|100.268|0.0002
82428122|NCT02121509|164564198|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|102.07|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|90.0|94.2|110.59|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fasted/ L+M 1500 fasted)|||110.59|94.20|<0.0001
82428123|NCT02121509|164564198|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.79|STANDARD_ERROR_OF_MEAN|1.04||0.0001|TWO_SIDED|90.0|90.33|103.7|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1500 fed/ L+M 1500 fed)|||103.70|90.33|0.0001
82428124|NCT01978145|164564199|NON_INFERIORITY_OR_EQUIVALENCE|Non- inferiority was demonstrated if lower limit of the CI (0.025 one sided significance level) for the difference of the mean change from Baseline in trough FEV1 of FSC administered BID by CB DPI versus FSC administered BID by MD DPI is greater than -45 milliliter (mL).|Mean Difference (Net)|0.025|||||TWO_SIDED|95.0|0.002|0.047|||Repeated Measures Mixed Models|||||0.047|0.002|
82428125|NCT01978145|164564200|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|||||TWO_SIDED|95.0|-0.019|0.027|||||The estimated value and 95% CI values are provided for Day 28|||0.027|-0.019|
82428126|NCT01978145|164564200|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|||||TWO_SIDED|95.0|-0.005|0.044|||||The estimated value and 95% CI values are provided for Day 56|||0.044|-0.005|
82428127|NCT01978145|164564201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166||||||95.0|-0.06|0.393||||||||0.393|-0.060|
82428128|NCT01978145|164564202|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|||||TWO_SIDED|95.0|-0.278|0.272|||||The estimated and 95% CI values are presented for Day 28.|||0.272|-0.278|
82428129|NCT01978145|164564202|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.069||||||95.0|-0.349|0.212|||||The estimated and 95% CI values are presented for Day 56.|||0.212|-0.349|
82428130|NCT01978145|164564202|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.133|||||TWO_SIDED|95.0|-0.413|0.148|||||The estimated and 95% CI values are presented for Day 85.|||0.148|-0.413|
82428131|NCT01978145|164564203|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.7|1.19||||||||1.19|-0.70|
82648273|NCT05166421|165011983|OTHER||Geometric mean ratio|1.0039|||||TWO_SIDED|90.0|0.9029|1.1161||||||Statistical Comparison of AUCinf of AZD1061||1.1161|0.9029|
82428132|NCT01978145|164564204|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.1|-0.02||||||||-0.02|-1.10|
82428133|NCT00755807|164564217|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM):Change from Baseline=Baseline+Treatment+Investigator+Week+Treatment\*Week+Baseline\*Week,participant random effect.||Null hypothesis: no difference between duloxetine and placebo on pain severity reduction as measured by weekly mean of the daily 24-hour average pain scores in participants assessed at 6 weeks. Sample size is determined using 2-sided t-test with significance level of 0.05, and 5% of randomized participants without post-baseline data due to very early discontinuation. With 119 participants per arm, study has approximately 80% power to detect an effect size of 0.375 on treatment group difference.||||0.001
82428134|NCT00755807|164564218|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value is for the 30% Reduction (LOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.027
82428135|NCT00755807|164564218|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-value is for 50% Reduction (LOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.246
82428136|NCT00755807|164564218|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value is for the 30% Reduction (BOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.024
82428137|NCT00755807|164564218|SUPERIORITY_OR_OTHER|||||||0.165||95.0||||P-value is for 50% Reduction (BOCF). P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.165
82428138|NCT00755807|164564219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.121|TWO_SIDED|95.0|-0.06|0.49||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Analysis of Variance (ANOVA) Model: PGI improvement at Endpoint = Treatment + Investigator.|The mean difference is for placebo - duloxetine.|||0.49|-0.06|0.121
82428139|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.016|TWO_SIDED|95.0|0.12|1.2||P-value is for BPI Severity for Worst Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.20|0.12|0.016
82648274|NCT05166421|165011983|OTHER||Geometric mean ratio|1.0336|||||TWO_SIDED|90.0|0.9288|1.1503||||||Statistical Comparison of AUCinf of AZD1061||1.1503|0.9288|
82449990|NCT02391363|164607253|SUPERIORITY|||||||0.45||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.59 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GAI-SF, controlling for baseline GAI-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.45
82449991|NCT02391363|164607254|SUPERIORITY|||||||0.13||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 2.37 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GAI-SF, controlling for baseline GAI-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.13
82449992|NCT02391363|164607255|SUPERIORITY|||||||0.52||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.42 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PHQ-8, controlling for baseline PHQ-8.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.52
82449993|NCT02391363|164607256|SUPERIORITY|||||||0.29||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 1.14 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PHQ-8, controlling for baseline PHQ-8.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.29
82449994|NCT02391363|164607257|SUPERIORITY|||||||0.14||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 2.19 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month GDS-SF, controlling for baseline GDS-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.14
82449995|NCT02391363|164607258|SUPERIORITY|||||||0.59||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.30 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month GDS-SF, controlling for baseline GDS-SF.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.59
82449996|NCT02391363|164607259|SUPERIORITY|||||||0.64||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.22 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month ISI, controlling for baseline ISI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.64
82449997|NCT02391363|164607260|SUPERIORITY|||||||0.35||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.88 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month ISI, controlling for baseline ISI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.35
82449998|NCT02391363|164607261|SUPERIORITY|||||||0.52||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.42 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.52
82499603|NCT03562481|164689919|EQUIVALENCE|Analysis of variance for a 2x2 crossover study implemented using the pkcross routine of Stata 16.1, accounting of sequence and period effects.|F statistic|0.8||||0.38|TWO_SIDED|||||The threshold for statistical significance p\<0.05|ANOVA|Analysis of variance for a 2x2 crossover study implemented using the pkcross routine of Stata 16.1, accounting of sequence and period effects.||||||0.38
82648275|NCT05166421|165011983|OTHER||Geometric mean ratio|1.0296|||||TWO_SIDED|90.0|0.9258|1.1451||||||Statistical Comparison of AUCinf of AZD1061||1.1451|0.9258|
82648276|NCT05166421|165011984|OTHER||Geometric mean ratio|0.9418|||||TWO_SIDED|90.0|0.8512|1.0421||||||Statistical Comparison of AUClast of AZD7442||1.0421|0.8512|
82648277|NCT05166421|165011984|OTHER||Geometric mean ratio|0.9973|||||TWO_SIDED|90.0|0.9004|1.1046||||||Statistical Comparison of AUClast of AZD7442||1.1046|0.9004|
82648278|NCT05166421|165011984|OTHER||Geometric mean ratio|1.0589|||||TWO_SIDED|90.0|0.9559|1.173||||||Statistical Comparison of AUClast of AZD7442||1.1730|0.9559|
82428140|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.043|TWO_SIDED|95.0|0.02|0.95||P-value is for BPI Severity for Least Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.95|0.02|0.043
82428141|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.03|TWO_SIDED|95.0|0.05|0.99||P-value is for BPI Severity for Average Pain score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.99|0.05|0.030
82428142|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.001|TWO_SIDED|95.0|0.36|1.43||P-value is for BPI Severity for Pain Right Now score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.43|0.36|0.001
82428143|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.083|TWO_SIDED|95.0|-0.07|1.11||P-value is for BPI Interference for General Activity score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.11|-0.07|0.083
82428144|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.034|TWO_SIDED|95.0|0.05|1.27||P-value is for BPI Interference for Mood score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.27|0.05|0.034
82428145|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.089|TWO_SIDED|95.0|-0.08|1.19||P-value is for BPI Interference for Walking Ability score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.19|-0.08|0.089
82428146|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.291|TWO_SIDED|95.0|-0.28|0.93||P-value is for BPI Interference for Normal Work score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.93|-0.28|0.291
82428147|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.077|TWO_SIDED|95.0|-0.06|1.05||P-value is for BPI Interference for Relations With Others score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.05|-0.06|0.077
82428148|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.148|TWO_SIDED|95.0|-0.15|0.97||P-value is for BPI Interference for Sleep score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.97|-0.15|0.148
82428149|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.582|TWO_SIDED|95.0|-0.45|0.79||P-value is for BPI Interference for Enjoyment Of Life score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.79|-0.45|0.582
82428150|NCT00755807|164564220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.067|TWO_SIDED|95.0|-0.03|0.94||P-value is for BPI Mean Interference score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.94|-0.03|0.067
82449999|NCT02391363|164607262|SUPERIORITY|||||||0.92||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = .01(Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.92
82450000|NCT02391363|164607263|SUPERIORITY|||||||0.59||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.29 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.59
82428151|NCT00755807|164564221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.041|TWO_SIDED|95.0|0.01|0.45||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.45|0.01|0.041
82428152|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.5|TWO_SIDED|95.0|-3.9|1.91||P-value is for treatment comparison of change from baseline on MSQOL Physical Health Composite Section score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.91|-3.90|0.500
82428153|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.512|TWO_SIDED|95.0|-4.87|2.44||P-value is for treatment comparison of change from baseline on MSQOL Mental Health Composite Section score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.44|-4.87|0.512
82450001|NCT02391363|164607264|SUPERIORITY|||||||0.89||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.20 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month LL-FDI, controlling for baseline LL-FDI.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.89
82450002|NCT02391363|164607265|SUPERIORITY|||||||0.64||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F= 0.23 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.64
82428154|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.72|TWO_SIDED|95.0|-4.51|3.12||P-value is for treatment comparison of change from baseline on MSQOL Physical Health Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||3.12|-4.51|0.720
82428155|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.973|TWO_SIDED|95.0|-3.58|3.46||P-value is for treatment comparison of change from baseline on MSQOL Health Perceptions Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||3.46|-3.58|0.973
82428156|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.991|TWO_SIDED|95.0|-4.07|4.02||P-value is for treatment comparison of change from baseline on MSQOL Energy Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.02|-4.07|0.991
82428157|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.14||||0.441|TWO_SIDED|95.0|-11.14|4.87||P-value is for treatment comparison of change from baseline on MSQOL Role Limitation Due to Physical Problems Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.87|-11.14|0.441
82428158|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.108|TWO_SIDED|95.0|-7.94|0.79||P-value is for treatment comparison of change from baseline on MSQOL Pain Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.79|-7.94|0.108
82428159|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.948|TWO_SIDED|95.0|-5.77|5.39||P-value is for treatment comparison of change from baseline on MSQOL Sexual Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||5.39|-5.77|0.948
82428160|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.96||||0.374|TWO_SIDED|95.0|-2.37|6.28||P-value is for treatment comparison of change from baseline on MSQOL Social Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||6.28|-2.37|0.374
82428161|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.867|TWO_SIDED|95.0|-4.1|4.87||P-value is for treatment comparison of change from baseline on MSQOL Health Distress Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.87|-4.10|0.867
82428162|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77||||0.306|TWO_SIDED|95.0|-1.63|5.17||P-value is for treatment comparison of change from baseline on MSQOL Overall Quality Of Life Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||5.17|-1.63|0.306
82450003|NCT02391363|164607266|SUPERIORITY|||||||0.94||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.94
82648279|NCT05166421|165011984|OTHER||Geometric mean ratio|0.8812|||||TWO_SIDED|90.0|0.7933|0.9788||||||Statistical Comparison of AUClast of AZD8895||0.9788|0.7933|
82648280|NCT05166421|165011984|OTHER||Geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.8633|1.0674||||||Statistical Comparison of AUClast of AZD8895||1.0674|0.8633|
82648281|NCT05166421|165011984|OTHER||Geometric mean ratio|1.0894|||||TWO_SIDED|90.0|0.9796|1.2116||||||Statistical Comparison of AUClast of AZD8895||1.2116|0.9796|
82428163|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.733|TWO_SIDED|95.0|-4.08|2.88||P-value is for treatment comparison of change from baseline on MSQOL Emotional Well-being Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.88|-4.08|0.733
82450004|NCT02391363|164607267|SUPERIORITY|||||||0.98||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.98
82450005|NCT02391363|164607268|SUPERIORITY|||||||0.88||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F= 0.02 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month SF-12, controlling for baseline SF-12.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.88
82450006|NCT02391363|164607269|SUPERIORITY|||||||0.31||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 1.02 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 6 month PCL-5, controlling for baseline PCL-5.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.31
82450007|NCT02391363|164607270|SUPERIORITY|||||||0.96||||||P-value for treatment-group effect (CL vs ECC)|ANCOVA|Treatment group F = 0.00 (Numerator df = 1, Denominator df varies, as multiple imputation was used).||"Analyses were ITT using PROC MI and PROC MI ANALYZE in conjunction with ANCOVA. We expected to reject the null hypothesis of no treatment group difference in 9 month PCL-5, controlling for baseline PCL-5.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.96
82450008|NCT02391363|164607271|SUPERIORITY|"We expected to reject the null hypothesis of no treatment group difference in 6 month health service use, controlling for baseline health service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||||0.52||||||Parameter estimate for treatment group = 0.40 (SE = 0.63). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||||||0.52
82450009|NCT02391363|164607272|SUPERIORITY|||||||0.04||||||Parameter estimate for treatment group = 1.79 (SE = 0.85). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month health service use, controlling for baseline health service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.04
82450010|NCT02391363|164607273|SUPERIORITY|||||||0.04||||||Parameter estimate for treatment group = 1.56 (SE = 0.74). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month hospital admissions, controlling for baseline hospital admissions.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.04
82450011|NCT02391363|164607274|SUPERIORITY|||||||0.001||||||Parameter estimate for treatment group = 2.96 (SE = 0.91). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month hospital admissions, controlling for baseline hospital admissions.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.001
82450012|NCT02391363|164607275|SUPERIORITY|||||||0.42||||||Parameter estimate for treatment group = 0.42 (SE = 0.51). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month social service use, controlling for baseline social service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.42
82499604|NCT03562481|164689920|EQUIVALENCE|Equivalence was defined as a non-statistically significant difference.|F statistic|1.21||||0.28|TWO_SIDED|||||The threshold for statistical significance p\<0.05|ANOVA|||Analysis of variance for 2x2 crossover study using the pkcross routine of Stata 16.1 and accounting for sequence and period effects.||||0.28
82499605|NCT03562481|164689921|EQUIVALENCE|Equivalence was defined based on statistical significance in the cross-over ANOVA.|F statistic|11.1||||0.003|TWO_SIDED|||||This is adjusted for period and sequence effects and is statistically significant at the p\<0.05 level.|ANOVA|||Analysis of variance for 2x2 crossover study using the pkcross routine of Stata 16.1 adjusting for perio and sequence effects.||||0.003
82499606|NCT03562481|164689922|EQUIVALENCE|Equivalence was determined based on the statistical significance of the Wilcoxon signed-rank test.|Z score|-0.996||||0.33|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sign test|Wilcoxon signed-rank test||||||0.33
82648282|NCT05166421|165011984|OTHER||Geometric mean ratio|1.0065|||||TWO_SIDED|90.0|0.9061|1.118||||||Statistical Comparison of AUClast of AZD1061||1.1180|0.9061|
82428164|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.283|TWO_SIDED|95.0|-13.88|4.08||P-value is for treatment comparison of change from baseline on MSQOL Role Limitation Due to Emotional Problems score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||4.08|-13.88|0.283
82648283|NCT05166421|165011984|OTHER||Geometric mean ratio|1.0293|||||TWO_SIDED|90.0|0.9257|1.1446||||||Statistical Comparison of AUClast of AZD1061||1.1446|0.9257|
82428165|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.664|TWO_SIDED|95.0|-4.49|2.86||P-value is for treatment comparison of change from baseline on MSQOL Cognitive Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.86|-4.49|0.664
82428166|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98||||0.504|TWO_SIDED|95.0|-7.81|3.85||P-value is for treatment comparison of change from baseline on MSQOL Change in Health Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine|||3.85|-7.81|0.504
82428167|NCT00755807|164564222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02||||0.27|TWO_SIDED|95.0|-11.18|3.14||P-value is for treatment comparison of change from baseline on MSQOL Satisfaction with Sexual Function Subsection score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine|||3.14|-11.18|0.270
82428168|NCT00755807|164564223|SUPERIORITY_OR_OTHER|||||||0.119||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Ideation during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.119
82428169|NCT00755807|164564223|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Behavior during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.494
82428170|NCT00755807|164564223|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-value is for treatment comparison in number of participants with CSSR-S Suicidal Acts during first 6 weeks of acute treatment. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.494
82428171|NCT00755807|164564224|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures model:Change from Baseline=Baseline+Treatment+Investigator+Week+Treatment\*Week+Baseline\*Week; participant=random effect.||||||0.002
82428172|NCT00755807|164564225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.662|TWO_SIDED|95.0|-0.06|0.04||P-value is for treatment comparison of change from baseline on BDI-II Question #9 score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.04|-0.06|0.662
82428173|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||0.244||95.0||||This is the P-value for Discontinuation Due to Any Reason.|Fisher Exact|||||||0.244
82428174|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||This is the P-value for Adverse Event (AE).|Fisher Exact|||||||0.012
82450013|NCT02391363|164607276|SUPERIORITY|||||||0.85||||||Parameter estimate for treatment group = 0.09 (SE = 0.47). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month social service use, controlling for baseline social service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.85
82499607|NCT03562481|164689923|EQUIVALENCE|Equivalence was determined based on the statistical significance of the chi square test.|Chi-square test|0.81||||0.37|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Chi-squared|||||||0.37
82648284|NCT05166421|165011984|OTHER||Geometric mean ratio|1.0227|||||TWO_SIDED|90.0|0.9196|1.1373||||||Statistical Comparison of AUClast of AZD1061||1.1373|0.9196|
82648285|NCT05166421|165011985|OTHER||Geometric mean ratio|1.0308|||||TWO_SIDED|90.0|0.9451|1.1243||||||Statistical Comparison of Cmax of AZD7442||1.1243|0.9451|
82428175|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||This is the P-value for Protocol Violation.|Fisher Exact|||||||0.622
82428176|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Subject Decision.|Fisher Exact|||||||1.00
82428177|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Lack of Efficacy.|Fisher Exact|||||||1.00
82428178|NCT00755807|164564226|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the P-value for Physician Decision.|Fisher Exact|||||||1.00
82428179|NCT00755807|164564229|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-value is for treatment comparison of change from baseline on Bicarbonate, HCO3. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.047
82428180|NCT00755807|164564230|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value is for treatment comparison of change from baseline on creatinine. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.033
82428181|NCT00755807|164564231|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for treatment comparison of change from baseline on platelet count. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from baseline = Treatment + Investigator.||||||0.034
82450014|NCT02391363|164607277|SUPERIORITY|||||||0.55||||||Parameter estimate for treatment group = -0.28 (SE = 0.46). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 6 month psychological service use, controlling for baseline psychological service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.55
82450015|NCT02391363|164607278|SUPERIORITY|||||||0.54||||||Parameter estimate for treatment group = -0.29 (SE = 0.47). Controlled for baseline health service use, ERS-expectancies and race/ethnicity|Regression, Logistic|ITT analyses with PROC MI AND MI ANALYZE in conjunction with multiple logistic regression.||"We expected to reject the null hypothesis of no treatment group difference in 9 month psychological service use, controlling for baseline psychological service use.~Race/ethnicity and ERS-expectancies significantly differed between groups at baseline and were included as covariates.~A total of 134 participants allowed for 80% power to detect moderate group differences (d=.49) in primary and secondary outcomes given a 2-tailed type 1 error rate"||||0.54
82450016|NCT03004911|164607279|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.740
82450017|NCT03004911|164607280|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.890
82450018|NCT03004911|164607281|SUPERIORITY|||||||0.747|||||||t-test, 2 sided|||||||0.747
82450019|NCT03004911|164607282|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82450020|NCT03004911|164607283|SUPERIORITY|||||||0.459|||||||t-test, 2 sided|||||||0.459
82450021|NCT00799266|164607285|SUPERIORITY|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|0.414||||0.0392|TWO_SIDED|95.0|0.022|0.806|||ANCOVA|||Lumbar Spine BMD Z-score at Month 12||0.806|0.022|0.0392
82450022|NCT00799266|164607286|SUPERIORITY|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|0.29||||0.1322|TWO_SIDED|95.0|-0.094|0.673|||ANCOVA|||Lumbar Spine BMD Z-score at Month 6||0.673|-0.094|0.1322
82450023|NCT00799266|164607287|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|1.979||||0.0409|TWO_SIDED|95.0|0.089|3.869|||ANCOVA|||Lumbar Spine BMC at Month 6||3.869|0.089|0.0409
82450024|NCT00799266|164607287|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|2.155||||0.234|TWO_SIDED|95.0|-1.488|5.798|||ANCOVA|||Lumbar Spine BMC at Month 12||5.798|-1.488|0.2340
82450025|NCT00799266|164607288|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|34.058||||0.3827|TWO_SIDED|95.0|-45.385|113.502|||ANCOVA|||Total Body BMC at Month 6||113.502|-45.385|0.3827
82450026|NCT00799266|164607288|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|80.741||||0.2634|TWO_SIDED|95.0|-65.602|227.084|||ANCOVA|||Total Body BMC at Month 12||227.084|-65.602|0.2634
82450027|NCT00799266|164607289|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-211.782||||0.0631|TWO_SIDED|95.0|-363.765|-59.8|||ANCOVA|||Serum P1NP at Month 6||-59.800|-363.765|0.0631
82561738|NCT00824850|164832693|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.46|1.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.57|0.46|
82450028|NCT00799266|164607289|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-381.132||||0.0049|TWO_SIDED|95.0|-565.416|-196.848|||ANCOVA|||Serum P1NP at Month 12||-196.848|-565.416|0.0049
82450029|NCT00799266|164607290|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-11.223||||0.2129|TWO_SIDED|95.0|-22.595|0.149|||ANCOVA|||Serum BSAP at Month 6||0.149|-22.595|0.2129
82450030|NCT00799266|164607290|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-20.435||||0.0215|TWO_SIDED|95.0|-33.96|-6.909|||ANCOVA|||Serum BSAP at Month 12||-6.909|-33.960|0.0215
82450031|NCT00799266|164607291|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-20.938||||0.0254|TWO_SIDED|95.0|-33.766|-8.11|||ANCOVA|||Serum NTX at Month 6||-8.110|-33.766|0.0254
82450032|NCT00799266|164607291|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-27.574||||0.0002|TWO_SIDED|95.0|-39.037|-16.111|||ANCOVA|||Serum NTX at Month 12||-16.111|-39.037|0.0002
82450033|NCT00799266|164607292|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-1.874||||0.2178|TWO_SIDED|95.0|-3.931|0.182|||ANCOVA|||Serum TRAP-5b at Month 6||0.182|-3.931|0.2178
82450034|NCT00799266|164607292|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-1.837||||0.184|TWO_SIDED|95.0|-4.103|0.429|||ANCOVA|||Serum TRAP-5b at Month 12||0.429|-4.103|0.1840
82450035|NCT00799266|164607293|OTHER|The number and percentage of patients with new vertebral fractures at Month 12 were presented by treatment group and between-treatment differences were evaluated using Fisher's exact test.||||||0.2258|||||||Fisher Exact|||New vertebral fractures at Month 12||||0.2258
82450036|NCT00799266|164607294|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-0.018||||0.318|TWO_SIDED|95.0|-0.055|0.019|||ANCOVA|||Vertebral morphometry at Month 12||0.019|-0.055|0.3180
82450037|NCT00799266|164607295|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.45||||0.5226|TWO_SIDED|95.0|0.04|5.2|||Regression, Logistic|||Reduction in Pain at Month 3||5.20|0.04|0.5226
82450038|NCT00799266|164607295|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|999.99||||0.522|TWO_SIDED|95.0|0.01|999.99||\>999.99 (\<0.01, \>999.99)|Regression, Logistic|||Reduction in Pain at Month 6||999.99|0.01|0.5220
82428182|NCT00755807|164564232|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value is for treatment comparison of change from baseline on inorganic phosphorus. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.007
82428183|NCT00755807|164564233|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value is for treatment comparison of change from baseline on uric acid. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANOVA|Model: Rank-transformed change from Baseline = Treatment + Investigator.||||||0.025
82428184|NCT00755807|164564234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.322|TWO_SIDED|95.0|-2.55|0.84||P-value is for treatment comparison of change from baseline on diastolic blood pressure. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.84|-2.55|0.322
82428185|NCT00755807|164564234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.787|TWO_SIDED|95.0|-3.32|2.52||P-value is for treatment comparison of change from baseline on systolic blood pressure. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||2.52|-3.32|0.787
82428186|NCT00755807|164564235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.16|TWO_SIDED|95.0|-3.7|0.61||P-value is for treatment comparison of change from baseline on pulse rate. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||0.61|-3.70|0.160
82428187|NCT00755807|164564236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.003|TWO_SIDED|95.0|0.27|1.26||P-value is for treatment comparison of change from baseline on weight. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|Model: Change from Baseline = Treatment + Investigator + Baseline Value.|The mean difference is for placebo - duloxetine.|||1.26|0.27|0.003
82428188|NCT00755807|164564237|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean PGI-I score at 18 weeks for all participants who entered extension phase.||||||<0.001
82428189|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Worst Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Worst Pain.||||||<0.001
82428190|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Least Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Least Pain score.||||||<0.001
82450039|NCT00799266|164607295|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.52||||0.6019|TWO_SIDED|95.0|0.04|6.22|||Regression, Logistic|||Reduction in Pain at Month 9||6.22|0.04|0.6019
82648286|NCT05166421|165011985|OTHER||Geometric mean ratio|0.993|||||TWO_SIDED|90.0|0.9112|1.0822||||||Statistical Comparison of Cmax of AZD7442||1.0822|0.9112|
82428191|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-S for Average Pain. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Average Pain score.||||||<0.001
82428192|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-S for Pain Right Now score.||||||<0.001
82428193|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for BPI-I for General Activity. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for General Activity score.||||||<0.001
82428194|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Mood. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Mood score.||||||<0.001
82428195|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Walking Ability. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Walking Ability score.||||||<0.001
82428196|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Normal Work. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Normal Work score.||||||<0.001
82428197|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Relations With Others. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from baseline to endpoint on BPI-I for Relations With Others score.||||||<0.001
82450040|NCT00799266|164607295|OTHER|Presented by treatment group and evaluated using a logistic regression model with treatment, pooled centers, underlying condition treated with glucocorticoids and baseline pain score as explanatory variables.|Odds Ratio (OR)|0.45||||0.9652|TWO_SIDED|0.9652|0.01|999.99||0.45 (\<0.01, \>999.99)|Regression, Logistic|||Reduction in Pain at Month 12||999.99|0.01|0.9652
82450041|NCT00799266|164607296|OTHER|Difference in least squares (LS) = LS mean for the zoledronic acid group-LS mean for the placebo group.|Difference in LS mean|-0.04||||0.5165|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||2nd metacarpal cortical width at Month 12||0.09|-0.17|0.5165
82648287|NCT05166421|165011985|OTHER||Geometric mean ratio|0.9634|||||TWO_SIDED|90.0|0.8833|1.0507||||||Statistical Comparison of Cmax of AZD7442||1.0507|0.8833|
82428198|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Sleep. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Sleep score.||||||<0.001
82428199|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI-I for Enjoyment of Life. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI-I for Enjoyment Of Life score.||||||<0.001
82428200|NCT00755807|164564238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The P-value is for the BPI for Mean Interference Score. P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on BPI for Mean Interference score.||||||<0.001
82428201|NCT00755807|164564239|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on CGI-S score for all participants who entered extension phase.||||||<0.001
82428202|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Physical Health Composite Section score.||||||0.002
82450042|NCT00265317|164607323|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.898||||0.3206|TWO_SIDED|80.0|0.575|1.404||Primary analysis was based on an unstratified 1-sided log rank test with alpha=0.1|Log Rank|||Sample size for randomized portion of study determined based on these assumptions: median PFS (erlotinib)=10 weeks, accrual time=12 months. With 6 months follow-up, study was powered to detect a difference in PFS of 5 weeks. 1-sided log rank test comparing the 2 treatment groups with 115 events of PD or death among a target sample size of 126 participants (63 per group) achieved 80% power at a 10% significance level to detect a 50% improvement in PFS from 10 to 15 weeks.||1.404|0.575|0.3206
82450043|NCT00265317|164607324|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.546||||0.6251|TWO_SIDED|95.0|0.267|8.954|||Cochran-Mantel-Haenszel|||95% confidence interval (CI) calculated based on f-distribution||8.954|0.267|0.6251
82450044|NCT00265317|164607325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921||||0.3732|TWO_SIDED|95.0|0.572|1.485||1-sided unstratified log-rank test|Log Rank|||||1.485|0.572|0.3732
82450045|NCT00265317|164607327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.066||||0.6171|TWO_SIDED|95.0|0.705|1.612||p-value from 1-sided unstratified log-rank test|Log Rank|||||1.612|0.705|0.6171
82450046|NCT00265317|164607328|SUPERIORITY_OR_OTHER||Percentage|32.0|||||TWO_SIDED|95.0|19.7|44.3||||||Percentage of participants surviving at 1 year in the Sunitinib + Erlotinib Treatment Group, estimated using the Kaplan-Meier method||44.3|19.7|
82428203|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Mental Health Composite Section score.||||||0.054
82428204|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Physical Health Subsection score.||||||0.002
82428205|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Health Perceptions Subsection score.||||||0.025
82428206|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Energy Subsection score.||||||0.008
82450047|NCT00265317|164607328|SUPERIORITY_OR_OTHER||Percentage|42.0|||||TWO_SIDED|95.0|30.1|54.2||||||Percentage of participants surviving at 1 year in the Erlotinib + Placebo Treatment Group, estimated using the Kaplan-Meier method||54.2|30.1|
82450048|NCT00265317|164607356|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.748||||0.2247|TWO_SIDED|95.0|0.351|1.591|||Log Rank|||Positive EGFR Expression||1.591|0.351|0.2247
82450049|NCT00265317|164607356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.184||||0.6797|TWO_SIDED|95.0|0.581|2.414|||Log Rank|||Negative EGFR Expression||2.414|0.581|0.6797
82450050|NCT00265317|164607356|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.632||||0.1693|TWO_SIDED|95.0|0.245|1.627|||Log Rank|||Unmeasured EGFR Expression||1.627|0.245|0.1693
82450051|NCT00265317|164607358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.3223|TWO_SIDED|95.0|0.458|1.628|||Log Rank|||Positive EGFR Expression||1.628|0.458|0.3223
82450052|NCT00265317|164607358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.946||||0.4608|TWO_SIDED|95.0|0.362|2.474|||Log Rank|||Negative EGFR Expression||2.474|0.362|0.4608
82450053|NCT00265317|164607358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.632||||0.1693|TWO_SIDED|95.0|0.245|1.627|||Log Rank|||Unmeasured EGFR Expression||1.627|0.245|0.1693
82450054|NCT00265317|164607360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.049||||0.5526|TWO_SIDED|95.0|0.542|2.031|||Log Rank|||No EGFR Gene Copy Number Increase||2.031|0.542|0.5526
82450055|NCT00265317|164607360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.1529|TWO_SIDED|95.0|0.38|1.344|||Log Rank|||Unmeasured EGFR Gene Copy Number Increase||1.344|0.380|0.1529
82428207|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.858||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Role Limitation Due to Physical Problems Subsection score.||||||0.858
82450056|NCT00265317|164607362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078||||0.5839|TWO_SIDED|95.0|0.557|2.085|||Log Rank|||No EGFR Gene Amplification||2.085|0.557|0.5839
82450057|NCT00265317|164607362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.1529|TWO_SIDED|95.0|0.38|1.344|||Log Rank|||Unmeasured EGFR Gene Amplification||1.344|0.380|0.1529
82450058|NCT00265317|164607364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.6324|TWO_SIDED|95.0|0.516|2.608|||Log Rank|||Wild Type EGFR Gene Mutation||2.608|0.516|0.6324
82450059|NCT00265317|164607364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.813||||0.2413|TWO_SIDED|95.0|0.464|1.424|||Log Rank|||Indeterminate EGFR Gene Mutation||1.424|0.464|0.2413
82428208|NCT00755807|164564240|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Pain Subsection score.||||||<0.001
82428209|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Sexual Function Subsection score.||||||0.637
82428210|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Social Function Subsection score.||||||0.051
82428211|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Health Distress Subsection score.||||||0.270
82428212|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Overall Quality Of Life Subsection score.||||||0.061
82428213|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Emotional Well-being Subsection score.||||||0.007
82428214|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Role Limitation Due to Emotional Problems score.||||||0.253
82428215|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.942||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Cognitive Function Subsection score.||||||0.942
82428216|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Change in Health Subsection score.||||||0.016
82428217|NCT00755807|164564240|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on MSQOL Satisfaction with Sexual Function Subsection score.||||||0.381
82428218|NCT00755807|164564242|SUPERIORITY_OR_OTHER|||||||0.524||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 7). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM) Model: Change from Baseline=Baseline+Investigator+Week+Baseline\*Week; participant was treated as random effect.||||||0.524
82428219|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 8). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82561739|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.9||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-10.2|
82428220|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 9). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428221|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 10). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428222|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 11). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428223|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 12). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82450060|NCT00265317|164607366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.481||||0.2077|TWO_SIDED|95.0|0.079|2.91|||Log Rank|||Mutated KRAS Gene Mutation||2.910|0.079|0.2077
82428224|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 13). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428225|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 14). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82450061|NCT00265317|164607366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.6439|TWO_SIDED|95.0|0.534|2.531|||Log Rank|||Wild Type KRAS Gene Mutation||2.531|0.534|0.6439
82428226|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 15). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428227|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 16). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428228|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 17). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428229|NCT00755807|164564242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for test of mean change from extension phase baseline to endpoint (Week 18). P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|MMRM Model: Change from Baseline = Baseline + Investigator + Week + Baseline\* Week, where participant was treated as a random effect.||||||<0.001
82428230|NCT00755807|164564243|SUPERIORITY_OR_OTHER|||||||0.706||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|1-sample t-test of mean change from extension phase baseline to endpoint on BDI-II Question #9 score for all participants who entered extension phase.||||||0.706
82428231|NCT00755807|164564247|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on monocytes.||||||0.035
82428232|NCT00755807|164564248|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on sodium.||||||0.042
82428233|NCT00755807|164564249|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test of mean change from extension phase baseline to endpoint on total protein.||||||0.036
82428234|NCT00755807|164564250|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on diastolic blood pressure.||||||0.320
82428235|NCT00755807|164564250|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on systolic blood pressure.||||||0.182
82450062|NCT00265317|164607366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.825||||0.2664|TWO_SIDED|95.0|0.457|1.489|||Log Rank|||Indeterminate KRAS Gene Mutation||1.489|0.457|0.2664
82450063|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.7423|TWO_SIDED|95.0|0.541|2.36||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/C||2.360|0.541|0.7423
82450064|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.598||||0.157|TWO_SIDED|95.0|0.29|1.236||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/T||1.236|0.290|0.1570
82428236|NCT00755807|164564251|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on pulse rate.||||||0.032
82428237|NCT00755807|164564252|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||P-values are not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|One-sample t-test of mean change from extension phase baseline to endpoint on weight.||||||0.151
82428238|NCT01714323|164564253|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||>|0.05|TWO_SIDED|95.0|0.84|1.37|||Chi-squared|||Data from all three sites were combined after determining that outcomes did not vary by hospital using Breslow-Day tests. The proportion abstinent by treatment arm was assessed using chi-square test.||1.37|0.84|>0.05
82428239|NCT01714323|164564254|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82428240|NCT01714323|164564255|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||This compares at Month 1||||<0.001
82428241|NCT01714323|164564255|SUPERIORITY||||||<|0.01|||||||Chi-squared|||This is analysis for Month 3||||<0.01
82450065|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.7954|TWO_SIDED|95.0|0.131|4.819||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: T/T||4.819|0.131|0.7954
82450066|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.833||||0.621|TWO_SIDED|95.0|0.401|1.732||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: G/G||1.732|0.401|0.6210
82450067|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.5268|TWO_SIDED|95.0|0.385|1.64||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: G/T||1.640|0.385|0.5268
82450068|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.011||||0.9753|TWO_SIDED|95.0|0.504|2.027||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/T||2.027|0.504|0.9753
82428242|NCT01714323|164564255|SUPERIORITY||||||<|0.09|||||||Chi-squared|||This is for Month 6||||<0.09
82428243|NCT01714323|164564257|SUPERIORITY_OR_OTHER||||||<|0.001||||||This is the p value for the comparison at each follow up point: 1 mo, 3 mo, and 6 mo.|Chi-squared|||||||<0.001
82428244|NCT01714323|164564258|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82428245|NCT01714323|164564259|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82450069|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.378||||0.0141|TWO_SIDED|95.0|0.168|0.85||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/A||0.850|0.168|0.0141
82450070|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.236||||0.5596|TWO_SIDED|95.0|0.139|35.9||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: A/A||35.90|0.139|0.5596
82428246|NCT03531814|164564263|OTHER|||||||0.006||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 1-4.|ANOVA|||||||0.006
82428247|NCT03531814|164564263|OTHER|||||||0.021||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 5-8.|ANOVA|||||||0.021
82428248|NCT03531814|164564263|OTHER|||||||0.034||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 9-12.|ANOVA|||||||.034
82428249|NCT03531814|164564263|OTHER|||||||0.04||||||The Greenhouse-Geisser correction was used because Mauchly's test of sphericity was significant. The reported p-value represents the probability of the differences in the averages of adherence assessment methods for cycles 13-18.|ANOVA|||||||.040
82428250|NCT03531814|164564264|OTHER||Spearman's correlation|-0.21||||0.536|TWO_SIDED|95.0|-0.729|0.463||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.463|-0.729|0.536
82428251|NCT03531814|164564264|OTHER||Spearman's correlation|0.134||||0.713|TWO_SIDED|95.0|-0.557|0.715||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.715|-0.557|.713
82428252|NCT03531814|164564264|OTHER||Spearman's correlation|0.095||||0.823|TWO_SIDED|95.0|-0.668|0.761||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.761|-0.668|.823
82428253|NCT03531814|164564264|OTHER||Spearman's correlation|0.333||||0.42|TWO_SIDED|95.0|-0.505|0.848||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.848|-0.505|.420
82428254|NCT03531814|164564265|OTHER||Spearman's correlation|-0.333||||0.317|TWO_SIDED|95.0|-0.785|0.352||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.352|-0.785|0.317
82535790|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.48||0.0007|TWO_SIDED|95.0|-2.56|-0.69|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.69|-2.56|0.0007
82428255|NCT03531814|164564265|OTHER||Spearman's correlation|-0.309||||0.385|TWO_SIDED|95.0|-0.794|0.416||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.416|-0.794|.385
82428256|NCT03531814|164564265|OTHER||Spearman's correlation|-0.259||||0.535|TWO_SIDED|95.0|-0.824|0.563||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.563|-0.824|.535
82428257|NCT03531814|164564265|OTHER||Spearman's correlation|-0.222||||0.597|TWO_SIDED|95.0|-0.811|0.589||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.589|-0.811|.597
82428258|NCT03531814|164564266|OTHER||Spearman's correlation|-0.215||||0.526|TWO_SIDED|95.0|-0.731|0.459||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.459|-0.731|0.526
82428259|NCT03531814|164564266|OTHER||Spearman's correlation|0.049||||0.894|TWO_SIDED|95.0|-0.613|0.67||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.670|-0.613|.894
82428260|NCT03531814|164564266|OTHER||Spearman's correlation|-0.048||||0.911|TWO_SIDED|95.0|-0.74|0.694||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12|Spearman correlation (non-parametric)|||||0.694|-0.740|.911
82428261|NCT03531814|164564266|OTHER||Spearman's correlation|-0.167||||0.693|TWO_SIDED|95.0|-0.79|0.626||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18|Spearman correlation (non-parametric)|||||0.626|-0.790|.693
82428262|NCT03531814|164564267|OTHER||Spearman's correlation|-0.607||||0.048|TWO_SIDED|95.0|-0.889|0.009||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.009|-0.889|0.048
82428263|NCT03531814|164564267|OTHER||Spearman's correlation|-0.658||||0.038|TWO_SIDED|95.0|-0.914|-0.027||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||-0.027|-0.914|0.038
82428264|NCT03531814|164564267|OTHER||Spearman's correlation|-0.708||||0.5|TWO_SIDED|95.0|-0.945|0.02||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.020|-0.945|0.50
82428265|NCT03531814|164564267|OTHER||Spearman's correlation|-0.878||||0.004|TWO_SIDED|95.0|-0.979|-0.435||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||-0.435|-0.979|0.004
82428266|NCT03531814|164564268|OTHER||Spearman's correlation|0.293||||0.382|TWO_SIDED|95.0|-0.39|0.768||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.768|-0.390|0.382
82450071|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738||||0.2788|TWO_SIDED|95.0|0.422|1.288||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/C||1.288|0.422|0.2788
82450072|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.8971|TWO_SIDED|95.0|0.352|3.286||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/T||3.286|0.352|0.8971
82450073|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.775||||0.6559|TWO_SIDED|95.0|0.251|2.388||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/C||2.388|0.251|0.6559
82428267|NCT03531814|164564268|OTHER||Spearman's correlation|0.278||||0.436|TWO_SIDED|95.0|-0.444|0.781||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Spearman correlation (non-parametric)|||||0.781|-0.444|0.436
82428268|NCT03531814|164564268|OTHER||Spearman's correlation|0.229||||0.586|TWO_SIDED|95.0|-0.585|0.813||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 9-12.|Spearman correlation (non-parametric)|||||0.813|-0.585|0.586
82428269|NCT03531814|164564268|OTHER||Spearman's correlation|0.53||||0.177|TWO_SIDED|95.0|-0.302|0.904||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||0.904|-0.302|0.177
82428270|NCT03531814|164564270|OTHER||Spearman's correlation|-0.576||||0.063|TWO_SIDED|95.0|-0.879|0.056||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 1-4.|Spearman correlation (non-parametric)|||||0.056|-0.879|0.063
82428271|NCT03531814|164564270|OTHER||Spearman's correlation|-0.68||||0.031|TWO_SIDED|95.0|-0.92|-0.066||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 5-8.|Wilcoxon (Mann-Whitney)|||||-0.066|-0.920|0.031
82428272|NCT03531814|164564270|OTHER||Spearman's correlation|-0.835||||0.01|TWO_SIDED|95.0|-0.971|-0.292||The reported p-value represents the strength of the relationship between the variables at cycles 9-12.|Spearman correlation (non-parametric)|||||-0.292|-0.971|0.010
82428273|NCT03531814|164564270|OTHER||Spearman's correlation|-0.933|||<|0.001|TWO_SIDED|95.0|-0.989|-0.652||The reported p-value represents the probability that the strength of the relationship is due to chance at cycles 13-18.|Spearman correlation (non-parametric)|||||-0.652|-0.989|<0.001
82428274|NCT03531814|164564271|OTHER||Spearman's correlation|-0.035||||0.919|TWO_SIDED|95.0|-0.634|0.591||The reported p-value represents the strength of the relationship between the variables for cycles 1-4.|Spearman correlation|||||0.591|-0.634|0.919
82428275|NCT03531814|164564271|OTHER||Spearman's correlation|0.227||||0.528|TWO_SIDED|95.0|-0.487|0.759||The reported p-value represents the strength of the relationship between the variables for cycles 5-8.|Spearman correlation|||||0.759|-0.487|0.528
82428276|NCT03531814|164564271|OTHER||Spearman's correlation|0.179||||0.672|TWO_SIDED|95.0|-0.618|0.794||The reported p-value represents the strength of the relationship between the variables for cycles 9-12.|Spearman correlation|||||0.794|-0.618|0.672
82428277|NCT03531814|164564271|OTHER||Spearman's correlation|0.041||||0.923|TWO_SIDED|95.0|-0.697|0.737||The reported p-value represents the strength of the relationship between the variables for cycles 13-18.|Spearman correlation|||||0.737|-0.697|0.923
82428278|NCT03531814|164564272|OTHER||Spearman's correlation|-0.638||||0.035|TWO_SIDED|95.0|-0.899|-0.041||The reported p-value represents the strength of the relationship between the variables for cycles 1-4.|Spearman correlation|||||-0.041|-0.899|0.035
82428279|NCT03531814|164564272|OTHER||Spearman's correlation|-0.361||||0.306|TWO_SIDED|95.0|-0.815|0.367||The reported p-value represents the strength of the relationship between the variables for cycles 5-8.|Spearman correlation|||||0.367|-0.815|0.306
82428280|NCT03531814|164564272|OTHER||Spearman's correlation|-0.407||||0.317|TWO_SIDED|95.0|-0.87|0.438||The reported p-value represents the strength of the relationship between the variables for cycles 9-12.|Spearman correlation|||||0.438|-0.870|0.317
82535791|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.47||0.0006|TWO_SIDED|95.0|-2.56|-0.7|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.70|-2.56|0.0006
82535792|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.47||0.0073|TWO_SIDED|95.0|-2.21|-0.35|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.35|-2.21|0.0073
82428281|NCT03531814|164564272|OTHER||Spearman's correlation|-0.18||||0.67|TWO_SIDED|95.0|-0.795|0.0617||The reported p-value represents the strength of the relationship between the variables for cycles 13-18.|Spearman correlation|||||0.0617|-0.795|0.670
82428282|NCT02921789|164564280|SUPERIORITY||Difference|-12.7||||0.3705|TWO_SIDED|95.0|-34.5|9.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||||9.0|-34.5|0.3705
82428283|NCT02921789|164564281|SUPERIORITY||Difference|-12.7||||0.3705|TWO_SIDED|95.0|-34.5|9.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||9.0|-34.5|0.3705
82428284|NCT02921789|164564281|SUPERIORITY||Difference|-12.4||||0.389|TWO_SIDED|95.0|-35.8|11.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||11.0|-35.8|0.3890
82428285|NCT02921789|164564282|SUPERIORITY||Difference|6.9||||0.752|TWO_SIDED|95.0|-15.3|29.2||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 3||29.2|-15.3|0.7520
82428286|NCT02921789|164564282|SUPERIORITY||Difference|6.9||||0.752||95.0|-15.3|29.2||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||29.2|-15.3|0.7520
82428287|NCT02921789|164564282|SUPERIORITY||Difference|5.0||||0.7597|TWO_SIDED|95.0|-18.9|29.0||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||29.0|-18.9|0.7597
82428288|NCT02921789|164564283|SUPERIORITY||Difference|-0.3||||1||95.0|-24.9|24.3||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||||24.3|-24.9|1.0
82428289|NCT02921789|164564284|SUPERIORITY||Difference|-3.9||||1||95.0|-30.2|22.4||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 3||22.4|-30.2|1.0
82428290|NCT02921789|164564284|SUPERIORITY||Difference|-6.2||||0.772||95.0|-31.7|19.3||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 6||19.3|-31.7|0.7720
82428291|NCT02921789|164564284|SUPERIORITY||Difference|-7.5||||0.772||95.0|-32.6|17.6||Incidence rate comparisons are based on Fisher's Exact test and confidence intervals are based on Normal Approximation.|Fisher Exact|||Month 12||17.6|-32.6|0.7720
82648288|NCT05166421|165011985|OTHER||Geometric mean ratio|0.9701|||||TWO_SIDED|90.0|0.8894|1.0582||||||Statistical Comparison of Cmax of AZD8895||1.0582|0.8894|
82648289|NCT05166421|165011985|OTHER||Geometric mean ratio|0.9629|||||TWO_SIDED|90.0|0.8835|1.0494||||||Statistical Comparison of Cmax of AZD8895||1.0494|0.8835|
82648290|NCT05166421|165011985|OTHER||Geometric mean ratio|0.9926|||||TWO_SIDED|90.0|0.91|1.0826||||||Statistical Comparison of Cmax of AZD8895||1.0826|0.9100|
82648291|NCT05166421|165011985|OTHER||Geometric mean ratio|1.0976|||||TWO_SIDED|90.0|0.9992|1.2057||||||Statistical Comparison of Cmax of AZD1061||1.2057|0.9992|
82428292|NCT00339040|164564314|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.00
82428293|NCT01788943|164564343|OTHER|||||||0.037|||||||ANOVA|||||||0.037
82428294|NCT01788943|164564344|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82428295|NCT04436744|164564355|SUPERIORITY|||||||0.0433|||||||t-test, 2 sided|||||||0.0433
82428296|NCT04436744|164564356|SUPERIORITY||Difference in Overall Response Rates|-0.93||||0.8272|TWO_SIDED|95.0|-14.66|12.81|||Cochran-Mantel-Haenszel|||ORR was calculated using the stratified Cochran-Mantel-Haenszel test.||12.81|-14.66|0.8272
82428297|NCT04436744|164564357|SUPERIORITY||Difference in Rate|6.86|||||TWO_SIDED|95.0|-4.25|17.97||||||||17.97|-4.25|
82428298|NCT01374425|164564380|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0555|TWO_SIDED|95.0|0.61|1.01||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||Hazard ratio (HR) (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by high/low excision repair cross-complementing (ERCC)-1 level and region of enrollment.||1.01|0.61|0.0555
82428299|NCT01374425|164564381|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3944|TWO_SIDED|95.0|0.56|1.26||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.26|0.56|0.3944
82428300|NCT01374425|164564382|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0786|TWO_SIDED|95.0|0.55|1.03||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.03|0.55|0.0786
82428301|NCT01374425|164564383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9576|TWO_SIDED|95.0|0.77|1.28||P-value (relative to ERCC-1 Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to ERCC-1 Low subgroup) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.28|0.77|0.9576
82428302|NCT01374425|164564384|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.1658|TWO_SIDED|95.0|0.93|1.53||P-value (relative to VEGF-A Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to VEGF-A Low subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.53|0.93|0.1658
82428303|NCT01374425|164564385|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.3019|TWO_SIDED|95.0|0.41|1.32||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.32|0.41|0.3019
82428304|NCT01374425|164564386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.6035|TWO_SIDED|95.0|0.48|1.53||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.53|0.48|0.6035
82428305|NCT01374425|164564387|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.4032|TWO_SIDED|95.0|0.54|1.28||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.28|0.54|0.4032
82428306|NCT01374425|164564388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0647|TWO_SIDED|95.0|0.41|1.03||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.03|0.41|0.0647
82428307|NCT01374425|164564389|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0861|TWO_SIDED|95.0|0.56|1.04||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.04|0.56|0.0861
82428308|NCT01374425|164564390|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3295|TWO_SIDED|95.0|0.51|1.26||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.26|0.51|0.3295
82428309|NCT01374425|164564391|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.1519|TWO_SIDED|95.0|0.49|1.12||P-value (relative to Bevacizumab + mFOLFOX6) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to Bevacizumab + mFOLFOX6) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.12|0.49|0.1519
82428310|NCT01374425|164564392|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2774|TWO_SIDED|95.0|0.87|1.62||P-value (relative to ERCC-1 Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to ERCC-1 Low subgroup) was estimated by Cox regression.|Analysis stratified by region of enrollment.||1.62|0.87|0.2774
82428311|NCT01374425|164564393|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|4.3|||||TWO_SIDED|95.0|-5.5|14.0|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||14.0|-5.5|
82428312|NCT01374425|164564394|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|9.4|||||TWO_SIDED|95.0|7.2|26.1|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||26.1|7.2|
82535793|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.48||0.0054|TWO_SIDED|95.0|-2.28|-0.4|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.40|-2.28|0.0054
82535794|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.01|-1.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.12|-3.01|< 0.0001
82535795|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-2.73|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.67|-1.79|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.79|-3.67|< 0.0001
82535796|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.48||0.0509|TWO_SIDED|95.0|-1.89|0.0|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-1.89|0.0509
82535797|NCT00797225|164769851|SUPERIORITY||LS mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.48||0.0046|TWO_SIDED|95.0|-2.33|-0.43|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.43|-2.33|0.0046
82428313|NCT01374425|164564395|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|2.1|||||TWO_SIDED|95.0|-9.9|14.1|||||The difference was calculated as the percentage of participants with objective response in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||14.1|-9.9|
82428314|NCT01374425|164564396|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-3.7|||||TWO_SIDED|95.0|-14.0|6.6|||||The difference was calculated as the percentage of participants with objective response in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||6.6|-14.0|
82428315|NCT01374425|164564397|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|2.1|||||TWO_SIDED|95.0|-7.6|3.3|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||3.3|-7.6|
82428316|NCT01374425|164564398|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-8.7|||||TWO_SIDED|95.0|-19.1|1.7|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||1.7|-19.1|
82428317|NCT01374425|164564399|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|2.3|||||TWO_SIDED|95.0|-3.7|8.3|||||The difference was calculated as the percentage of participants with disease control in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||8.3|-3.7|
82428318|NCT01374425|164564400|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-4.5|||||TWO_SIDED|95.0|-10.6|1.5|||||The difference was calculated as the percentage of participants with disease control in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||1.5|-10.6|
82428319|NCT01374425|164564401|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-4.0|||||TWO_SIDED|95.0|-15.9|7.8|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||7.8|-15.9|
82428320|NCT01374425|164564402|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-6.5|||||TWO_SIDED|95.0|-16.3|3.3|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||3.3|-16.3|
82428321|NCT01374425|164564403|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-11.0|||||TWO_SIDED|95.0|-33.1|11.1|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||11.1|-33.1|
82428322|NCT01374425|164564404|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-11.0|||||TWO_SIDED|95.0|-33.1|11.1|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||11.1|-33.1|
82428323|NCT01374425|164564405|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-3.0|||||TWO_SIDED|95.0|-10.1|4.2|||||The difference was calculated as the percentage of participants with resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||4.2|-10.1|
82648292|NCT05166421|165011985|OTHER||Geometric mean ratio|1.0195|||||TWO_SIDED|90.0|0.929|1.119||||||Statistical Comparison of Cmax of AZD1061||1.1190|0.9290|
82561740|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82450074|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.939||||0.8563|TWO_SIDED|95.0|0.466|1.889||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/T||1.889|0.466|0.8563
82450075|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.382||||0.668|TWO_SIDED|95.0|0.13|1.12||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: T/T||1.120|0.130|0.668
82428324|NCT01374425|164564406|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-5.5|||||TWO_SIDED|95.0|-11.5|0.4|||||The difference was calculated as the percentage of participants with complete resection in the Bevacizumab + FOLFIRI arm minus the Bevacizumab + mFOLFOX6 arm. The 95% CI was computed using normal approximation to the binomial distribution.|||0.4|-11.5|
82428325|NCT01374425|164564407|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-4.4|||||TWO_SIDED|95.0|-9.5|0.6|||||The difference was calculated as the percentage of participants with resection in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||0.6|-9.5|
82428326|NCT01374425|164564408|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-1.6|||||TWO_SIDED|95.0|-6.2|3.1|||||The difference was calculated as the percentage of participants with complete resection in the ERCC-1 High subgroup minus the ERCC-1 Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||3.1|-6.2|
82428327|NCT01374425|164564409|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.0593|TWO_SIDED|95.0|0.99|1.69||P-value (relative to KRAS Wild-Type subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to KRAS Wild-Type subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.69|0.99|0.0593
82428328|NCT01374425|164564410|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.002|TWO_SIDED|95.0|1.2|2.24||P-value (relative to VEGF-A Low subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to VEGF-A Low subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||2.24|1.20|0.0020
82428329|NCT01374425|164564411|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.0955|TWO_SIDED|95.0|0.95|1.88||P-value (relative to KRAS Wild-Type subgroup) based on two-sided stratified log rank test and not adjusted for multiple comparisons.|Log Rank||HR (relative to KRAS Wild-Type subgroup) was estimated by Cox regression.|Analysis stratified by high/low ERCC-1 level and region of enrollment.||1.88|0.95|0.0955
82428330|NCT01374425|164564412|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-5.9|||||TWO_SIDED|95.0|-15.7|3.8|||||The difference was calculated as the percentage of participants with objective response in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||3.8|-15.7|
82428331|NCT01374425|164564413|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|-5.4|||||TWO_SIDED|95.0|-16.0|5.2|||||The difference was calculated as the percentage of participants with objective response in the KRAS Mutant subgroup minus the KRAS Wild-Type subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||5.2|-16.0|
82428332|NCT01374425|164564414|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-1.1|||||TWO_SIDED|95.0|-6.5|4.3|||||The difference was calculated as the percentage of participants with disease control in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||4.3|-6.5|
82428333|NCT01374425|164564415|SUPERIORITY_OR_OTHER||Difference in Resection Rates|-3.2|||||TWO_SIDED|95.0|-8.6|2.1|||||The difference was calculated as the percentage of participants with resection in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||2.1|-8.6|
82428334|NCT01374425|164564416|SUPERIORITY_OR_OTHER||Difference in Complete Resection Rates|-4.9|||||TWO_SIDED|95.0|-9.6|-0.2|||||The difference was calculated as the percentage of participants with complete resection in the VEGF-A High subgroup minus the VEGF-A Low subgroup. The 95% CI was computed using normal approximation to the binomial distribution.|||-0.2|-9.6|
82450076|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3681|TWO_SIDED|95.0|0.488|1.309||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs35636987 Genotype: C/C||1.309|0.488|0.3681
82450077|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.752|TWO_SIDED|95.0|0.331|2.237||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/C||2.237|0.331|0.7520
82450078|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.551||||0.0833|TWO_SIDED|95.0|0.276|1.098||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/T||1.098|0.276|0.0833
82428335|NCT01044030|164564467|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Chi-squared|||||||0.6
82428336|NCT01205503|164564472|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||This is for the interaction between baseline tnf-alpha levels and treatment received (mesna vs saline).|Mixed Models Analysis|Model was adjusted for baseline biochemical measures, time of measurement, treatment (mesna or saline), chemo type, and first-order interactions.||||||0.014
82450079|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.4772|TWO_SIDED|95.0|0.444|5.506||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: T/T||5.506|0.444|0.4772
82450080|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.034||||0.9235|TWO_SIDED|95.0|0.522|2.048||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/G||2.048|0.522|0.9235
82450081|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.501||||0.0845|TWO_SIDED|95.0|0.223|1.126||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/A||1.126|0.223|0.0845
82450082|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.724||||0.5493|TWO_SIDED|95.0|0.284|10.47||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: A/A||10.47|0.284|0.5493
82450083|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.521|TWO_SIDED|95.0|0.492|3.987||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/G||3.987|0.492|0.5210
82450084|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.538||||0.0854|TWO_SIDED|95.0|0.261|1.108||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/A||1.108|0.261|0.0854
82450085|NCT00265317|164607368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.9198|TWO_SIDED|95.0|0.365|2.489||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: A/A||2.489|0.365|0.9198
82428337|NCT02742129|164564477|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.2||||0.265|TWO_SIDED|95.0|-0.56|0.16|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.16|-0.56|0.2650
82428338|NCT02742129|164564478|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis|Mean Difference (Final Values)|-14.68||||0.9069|TWO_SIDED|95.0|-263.65|234.29|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data||234.29|-263.65|0.9069
82428339|NCT02742129|164564479|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|0.05||||0.9338|TWO_SIDED|95.0|-1.16|1.27|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||1.27|-1.16|0.9338
82428340|NCT02742129|164564480|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.29||||0.8151|TWO_SIDED|95.0|-2.79|2.2|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||2.20|-2.79|0.8151
82428341|NCT02742129|164564481|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|0.82||||0.4658|TWO_SIDED|95.0|-1.41|3.05|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||3.05|-1.41|0.4658
82428342|NCT02742129|164564482|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|1.06||||0.3902|TWO_SIDED|95.0|-1.37|3.49|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||3.49|-1.37|0.3902
82428343|NCT02742129|164564483|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|10.69||||0.7404|TWO_SIDED|95.0|-53.21|74.6|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||74.6|-53.21|0.7404
82428344|NCT02742129|164564484|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Median Difference (Final Values)|0.05||||0.4282|TWO_SIDED|95.0|-0.08|0.18|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.18|-0.08|0.4282
82428345|NCT02742129|164564486|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.49||||0.1067|TWO_SIDED|95.0|-1.08|0.11|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.11|-1.08|0.1067
82428346|NCT02742129|164564487|SUPERIORITY|The statistical analysis compared the patient level data collected during the AIR001 period to the data collected during the placebo period. The Outcome Measure data is displaying the data as collected during each study phase and is combined together based upon expected treatment assignment for analysis.|Mean Difference (Final Values)|-0.1||||0.4411|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|||The mixed models used to generate the p-values included all patients, including those with incomplete data.||0.16|-0.37|0.4411
82428347|NCT04005586|164564488|OTHER|The comparison was made by descriptive statistics.||||||||||||||||Two different historical controls implanted under NCT01496066 were used.|The LAL treatment group had a mean MRCYL of -0.14 (+/- 0.21D) compared to -0.33 (+/- 0.29D) and -0.40 (+/- 0.36D) for the LAL historical control group and the monofocal IOL historical control group in NCT01496066 respectively.|||
82428348|NCT04005586|164564489|OTHER|The comparison was made by descriptive statistics.||||||||||||||||Two different historical controls implanted under NCT01496066 were used.|The LAL treatment group MRCYL change from baseline was 0.36 (+/- 0.21D) compared to 0.17 (+/- 0.29D) and 0.10 (+/- 0.36D) for the LAL historical control group and the monofocal IOL historical control group in NCT01496066, respectively.|||
82450086|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977||||0.9486|TWO_SIDED|95.0|0.473|2.014||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/C||2.014|0.473|0.9486
82428349|NCT02765399|164564491|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82428350|NCT02765399|164564491|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82428351|NCT02765399|164564492|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82428352|NCT02765399|164564492|OTHER|||||||0.612|||||||Wilcoxon (Mann-Whitney)|||||||0.612
82428353|NCT02765399|164564493|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82450087|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.961||||0.9084|TWO_SIDED|95.0|0.487|1.897||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: C/T||1.897|0.487|0.9084
82648293|NCT05166421|165011985|OTHER||Geometric mean ratio|0.9289|||||TWO_SIDED|90.0|0.8457|1.0203||||||Statistical Comparison of Cmax of AZD1061||1.0203|0.8457|
82428354|NCT02765399|164564493|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
82428355|NCT02765399|164564494|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82428356|NCT02765399|164564494|OTHER|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||||||0.343
82428357|NCT02765399|164564495|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82428358|NCT02765399|164564495|OTHER|||||||0.865|||||||Wilcoxon (Mann-Whitney)|||||||0.865
82428359|NCT02765399|164564496|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||||||0.532
82428360|NCT02765399|164564496|OTHER|||||||0.735|||||||Wilcoxon (Mann-Whitney)|||||||0.735
82428361|NCT02765399|164564497|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
82428362|NCT02765399|164564497|OTHER|||||||0.753|||||||Wilcoxon (Mann-Whitney)|||||||0.753
82428363|NCT02765399|164564498|OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
82428364|NCT02765399|164564498|OTHER|||||||0.499|||||||Wilcoxon (Mann-Whitney)|||||||0.499
82428365|NCT02765399|164564499|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82428366|NCT02765399|164564499|OTHER|||||||0.128|||||||Wilcoxon (Mann-Whitney)|||||||0.128
82450088|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.876||||0.2009|TWO_SIDED|95.0|0.534|15.48||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1531289 Genotype: T/T||15.48|0.534|0.2009
82450089|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.098||||0.7863|TWO_SIDED|95.0|0.554|2.175||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305845 Genotype: G/G||2.175|0.554|0.7863
82450090|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.243||||0.5267|TWO_SIDED|95.0|0.633|2.442||2-sided unstratified log-rank test|Log Rank|||Locus: VEFR2/rs2305945 Genotype: G/T||2.442|0.633|0.5267
82535798|NCT00797225|164769851|SUPERIORITY||LS Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.26|-1.38|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly peak value of the NRS for overall endometriosis-associated pelvic pain was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-1.38|-3.26|< 0.0001
82535799|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0453|TWO_SIDED|95.0|-0.33|0.0|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-0.33|0.0453
82648294|NCT01335399|165011997|SUPERIORITY|||||||0.4358|||||||Stratified Log Rank|||||||0.4358
82428367|NCT02765399|164564500|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82428368|NCT02765399|164564500|OTHER|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||||||0.578
82428369|NCT02765399|164564501|OTHER|||||||0.152|||||||Wilcoxon (Mann-Whitney)|||||||0.152
82428370|NCT02765399|164564501|OTHER|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
82428371|NCT02765399|164564502|OTHER|||||||0.173|||||||Wilcoxon (Mann-Whitney)|||||||0.173
82428372|NCT02765399|164564502|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82428373|NCT02765399|164564503|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82428374|NCT02765399|164564503|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82428375|NCT02765399|164564504|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82428376|NCT02765399|164564504|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82428377|NCT02765399|164564505|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82428378|NCT02765399|164564505|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82428379|NCT02765399|164564506|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82428380|NCT02765399|164564506|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82428381|NCT02765399|164564507|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82428382|NCT02765399|164564507|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82428383|NCT02765399|164564508|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82428384|NCT02765399|164564508|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82428385|NCT02765399|164564509|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
82428386|NCT02765399|164564509|OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82428387|NCT02765399|164564510|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
82428388|NCT02765399|164564510|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82428389|NCT02765399|164564511|OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||||||0.068
82428390|NCT02765399|164564511|OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82428391|NCT00768261|164564513|OTHER|||||||0.095|TWO_SIDED|95.0|||||ANOVA|df= 3,92||||||0.095
82428392|NCT00768261|164564514|OTHER|||||||0.066|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.066
82428393|NCT00768261|164564514|OTHER|||||||0.009|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.009
82450091|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.624|TWO_SIDED|95.0|0.049|6.208||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305945 Genotype: T/T||6.208|0.049|0.6240
82450092|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.254||||0.4882|TWO_SIDED|95.0|0.66|2.384||2-sided unstratified log-rank test|Log Rank|||Locus: VEFR/rs1870377 Genotype: T/T||2.384|0.660|0.4882
82450093|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.587||||0.1307|TWO_SIDED|95.0|0.29|1.189||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: T/A||1.189|0.290|0.1307
82450094|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.236||||0.5596|TWO_SIDED|95.0|0.139|35.9||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs1870377 Genotype: A/A||35.90|0.139|0.5596
82450095|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.7966|TWO_SIDED|95.0|0.628|1.833||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/C||1.833|0.628|0.7966
82648295|NCT01335399|165011997|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.71|0.77|1.12|||||E-Ld/Ld. Calculated using Cox proportional hazards modeling|||1.12|0.77|
82648296|NCT01335399|165011998|SUPERIORITY||CMH ESTIMATE OF COMMON ODDS RATIO|1.26||||0.2232|TWO_SIDED|95.0|0.87|1.82|||CMH ESTIMATE OF COMMON ODDS RATIO|||||1.82|0.87|0.2232
82648297|NCT01335399|165011999|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.8932|TWO_SIDED|95.0|0.82|1.19|||Stratified log rank test||Stratified by stage of disease (International Staging System 1 - 2 vs 3), age (\<75 years old vs \>= 75 years old) and ECOG performance status (0 vs 1 - 2) at randomization.|||1.19|0.82|0.8932
82648298|NCT01335399|165012001|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.4358|TWO_SIDED|95.0|0.78|1.12|||Hazard Ratio|||||1.12|0.78|0.4358
82648299|NCT03202511|165012008|EQUIVALENCE|0.8 to 1.25 equivalence margin was used.|Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.47|1.77||||||||1.77|1.47|
82648300|NCT03202511|165012009|EQUIVALENCE|80 to 125% equivalence margin was used.|Geometric Mean Ratio|77.4|||||TWO_SIDED|90.0|61.4|97.6||||||||97.6|61.4|
82648301|NCT00409188|165012035|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.893||||0.1566|TWO_SIDED|95.0|0.763|1.044|||Regression, Cox|||||1.044|0.763|0.1566
82648302|NCT00409188|165012036|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.845||||0.0226|TWO_SIDED|95.0|0.732|0.977|||Regression, Cox|||||0.977|0.732|0.0226
82428394|NCT00768261|164564514|OTHER|||||||0.3|TWO_SIDED|95.0|||||ANOVA|||"There would be a treatment effect on the changes of hippocampal measures over time.~Repeated measures ANOVA on hippocampal volume slopes with hemisphere as a within-subject repeated factor, and treatment group as the main effect."||||0.30
82428395|NCT00768261|164564514|OTHER|||||||0.0288|TWO_SIDED|95.0|||||Repeated Measures ANOVA|||RM-ANOVA on hippocampal volume slope||||0.0288
82428396|NCT00120627|164564515|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|F (1,144) = 4.12, p \< .05||2 group (treatment vs. control) by 2 time (pre-intervention and post-intervention) one-way ANOVA||||<0.05
82648303|NCT00409188|165012037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.0528|TWO_SIDED|95.0|0.752|1.002|||Regression, Cox|||||1.002|0.752|0.0528
82648304|NCT00775983|165012066|NON_INFERIORITY_OR_EQUIVALENCE|Power: We assumed a standard deviation of five minutes based on historical clinic data for surgical abortions during this gestational duration range, a non-inferiority margin of five minutes, and a 10% potential attrition rate to power the study for a non-inferiority hypothesis. Thirty participants in each arm gave us 95% power to conclude non-inferiority of same day Dilapan-S compared to overnight laminaria with respect to procedure time of surgical abortions between 14-18 weeks gestation.|Mean Difference (Final Values)|2.1|||||TWO_SIDED|97.5|-0.3|4.5|||t-test, 2 sided|||Null Hypothesis: A surgical abortion performed between 14-18 weeks gestation performed after the cervix has been prepared with same-day Dilapan-S is inferior with respect to procedure time, which is specifically outside a five minute margin of non-inferiority, when compared to procedures during the same gestational duration range performed after the cervix has been prepared overnight with laminaria.||4.5|-0.3|
82648305|NCT00325403|165012087|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|23.0||||0.0125|TWO_SIDED|95.0|4.0|41.0||P-Value|ANCOVA|||Using an allocation ratio of 2:1 between oral treprostinil and placebo, a fixed sample size of approximately 195 subjects with access to 0.25 mg tablets at randomization would provide at least 90% power at a significance level of 0.01 (two-sided hypothesis) to detect a between-treatment difference in the change from Baseline to Week 12 in distance traversed during the 6-minute walk, assuming a true underlying treatment difference of 45 meters with a SD of 75 meters in both treatment groups.||41|4|0.0125
82648306|NCT00325403|165012088|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|13.0||||0.0653|TWO_SIDED|95.0|-2.0|33.0|||ANCOVA|||||33|-2|0.0653
82648307|NCT00325403|165012089|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|17.0||||0.0307|TWO_SIDED|95.0|1.0|33.0|||ANCOVA|||||33|1|0.0307
82648308|NCT00325403|165012090|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|12.0||||0.0518|TWO_SIDED|95.0|0.0|24.0|||ANCOVA|||||24|0|0.0518
82648309|NCT00325403|165012091|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.000
82648310|NCT00325403|165012092|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.738|TWO_SIDED|95.0|0.0|0.0||"In cases where the value corresponding to overall poorest relative change was imputed for walk distance, a value of IV was used for the WHO functional classification for PAH."|Wilcoxon rank sum test||The values for the estimated parameter and 95% confidence interval were calculated.|||0|0|0.7380
82648311|NCT00325403|165012093|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.4887|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||||0|-1|0.4887
82648312|NCT00325403|165012094|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|0.0||||0.6116|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon sum-rank test|||||1|0|0.6116
82648313|NCT00325403|165012096|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|26.0||||0.0326|TWO_SIDED|95.0|1.0|49.0|||ANCOVA|||||49|1|0.0326
82648314|NCT00325403|165012097|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|16.0||||0.2275|TWO_SIDED|95.0|-15.0|47.0|||ANCOVA|||||47|-15|0.2275
82648315|NCT00325403|165012098|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|32.0||||0.0024|TWO_SIDED|95.0|10.0|55.0|||ANCOVA|||||55|10|0.0024
82648316|NCT00325403|165012099|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|25.5||||0.0001|TWO_SIDED|95.0|10.0|41.0|||ANCOVA|||||41|10|0.0001
82428397|NCT00120627|164564515|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
82428398|NCT00120627|164564516|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||Intent to treat analysis using Expectation-Maximization (EM) algorithm in SPSS, a maximum-likelihood method based on group assignment, demographic variables and clinical variables.||||<0.05
82428399|NCT00120627|164564517|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||2 group (treatment vs control) by 2 time points (pre-intervention and post-intervention)||||<0.0001
82428400|NCT00120627|164564518|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82428401|NCT00120627|164564518|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mediation using Sobel Test|||||||<0.001
82648317|NCT00325403|165012100|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|17.0||||0.0025|TWO_SIDED|95.0|3.0|33.0|||ANCOVA|||||33|3|0.0025
82648318|NCT00325403|165012101|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|20.0||||0.0008|TWO_SIDED|95.0|7.0|34.0|||ANCOVA|||||34|7|0.0008
82648319|NCT00325403|165012102|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann (H-L)|14.0||||0.0025|TWO_SIDED|95.0|3.9|25.0|||ANCOVA|||||25|3.9|0.0025
82648320|NCT00936884|165012116|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|83.6|||<|0.0001|TWO_SIDED|97.5|6.5|1074.7||Comparison of the MNTX group and the placebo group in the proportion of subjects having a RFBM within 4 hours after the first injection was performed by using a 2-sided Cochran-Mantel-Haenszel Chi square test at the alpha level of 0.025.|Chi-squared|||||1074.7|6.50|<0.0001
82428402|NCT00120627|164564519|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
82428403|NCT00120627|164564520|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||2 group (treatment vs control) by 2 time (pre-intervention and post-intervention) ANOVA||||< 0.05
82428404|NCT00120627|164564521|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Depression Subscale||||<0.001
82428405|NCT00120627|164564521|SUPERIORITY_OR_OTHER||||||=|0.31|TWO_SIDED||||||ANOVA|||Anxiety Subscale||||=0.31
82428406|NCT00120627|164564521|SUPERIORITY_OR_OTHER||||||=|0.44|TWO_SIDED||||||ANOVA|||Somatization Subscale||||=0.44
82428407|NCT00120627|164564522|SUPERIORITY_OR_OTHER||||||=|0.66|TWO_SIDED||||||ANOVA|||Post-hoc analysis||||=0.66
82428408|NCT00120627|164564523|SUPERIORITY_OR_OTHER||||||=|0.18|TWO_SIDED||||||ANOVA|||||||= 0.18
82428409|NCT00120627|164564524|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||< 0.01
82428410|NCT04016714|164564525|OTHER||Difference in percentage vs Prevenar 13™|-5.5|||=|0.05|TWO_SIDED|95.0|-11.0|0.0|||Miettinen & Nurminen method|||Injection-site erythema||0.0|-11.0|= 0.050
82428411|NCT04016714|164564525|OTHER||Difference in percentage vs Prevenar 13™|-2.1|||=|0.46|TWO_SIDED|95.0|-7.7|3.5|||Miettinen & Nurminen method|||Injection-site induration||3.5|-7.7|= 0.460
82428412|NCT04016714|164564525|OTHER||Difference in percentage vs Prevenar 13™|3.4|||=|0.225|TWO_SIDED|95.0|-2.1|8.9|||Miettinen & Nurminen method|||Injection-site pain||8.9|-2.1|= 0.225
82428413|NCT04016714|164564525|OTHER||Difference in percentage vs Prevenar 13™|2.3|||=|0.43|TWO_SIDED|95.0|-3.4|7.9|||Miettinen & Nurminen method|||Injection-site swelling||7.9|-3.4|= 0.430
82428414|NCT04016714|164564526|OTHER||Difference in percentage vs Prevenar 13™|-3.5|||=|0.229|TWO_SIDED|95.0|-9.1|2.2|||Miettinen & Nurminen method|||Decreased appetite||2.2|-9.1|= 0.229
82428415|NCT04016714|164564526|OTHER||Difference in percentage vs Prevenar 13™|2.2|||=|0.077|TWO_SIDED|95.0|-0.2|4.7|||Miettinen & Nurminen method|||Irritability||4.7|-0.2|= 0.077
82428416|NCT04016714|164564526|OTHER||Difference in percentage vs Prevenar 13™|-0.6|||=|0.793|TWO_SIDED|95.0|-5.4|4.1|||Miettinen & Nurminen method|||Somnolence||4.1|-5.4|= 0.793
82428417|NCT04016714|164564526|OTHER||Difference in percentage vs Prevenar 13™|-4.6|||=|0.045|TWO_SIDED|95.0|-9.1|-0.1|||Miettinen & Nurminen method|||Urticaria||-0.1|-9.1|= 0.045
82428418|NCT04016714|164564527|OTHER||Difference in percentage vs Prevenar 13™|0.0|||||TWO_SIDED|95.0|-0.9|0.9||||||Vaccine-related SAEs||0.9|-0.9|
82428419|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% confidence interval (CI) for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-2.2|||<|0.001|TWO_SIDED|95.0|-4.3|-0.6|||Miettinen & Nurminen method|||Serotype 1||-0.6|-4.3|< 0.001
82428420|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|10.5|||<|0.001|TWO_SIDED|95.0|6.6|14.6|||Miettinen & Nurminen method|||Serotype 3||14.6|6.6|< 0.001
82428421|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-1.9|||<|0.001|TWO_SIDED|95.0|-4.0|0.0|||Miettinen & Nurminen method|||Serotype 4||0.0|-4.0|< 0.001
82428422|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.4|0.8|||Miettinen & Nurminen method|||Serotype 5||0.8|-1.4|< 0.001
82428423|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.5|1.0|||Miettinen & Nurminen method|||Serotype 6A||1.0|-1.5|< 0.001
82428424|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-1.2|1.5|||Miettinen & Nurminen method|||Serotype 6B||1.5|-1.2|< 0.001
82428425|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.4|1.4|||Miettinen & Nurminen method|||Serotype 7F||1.4|-0.4|< 0.001
82428426|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Serotype 9V||1.2|-0.8|< 0.001
82428427|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.4|||<|0.001|TWO_SIDED|95.0|-1.7|0.7|||Miettinen & Nurminen method|||Serotype 14||0.7|-1.7|< 0.001
82450096|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.954||||0.9224|TWO_SIDED|95.0|0.366|2.484||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2305948 Genotype: C/T||2.484|0.366|0.9224
82428428|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.4|||<|0.001|TWO_SIDED|95.0|-0.6|1.5|||Miettinen & Nurminen method|||Serotype 18C||1.5|-0.6|< 0.001
82428429|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|-0.2|||<|0.001|TWO_SIDED|95.0|-1.3|0.7|||Miettinen & Nurminen method|||Serotype 19A||0.7|-1.3|< 0.001
82428430|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Serotype 19F||1.2|-0.8|< 0.001
82428431|NCT04016714|164564528|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>-10 percentage points (1-sided p-value \<0.025).|Percentage point difference|0.9|||<|0.001|TWO_SIDED|95.0|-1.2|3.0|||Miettinen & Nurminen method|||Serotype 23F||3.0|-1.2|< 0.001
82428432|NCT04016714|164564528|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage point difference|94.0|||<|0.001|TWO_SIDED|95.0|91.6|95.8|||Miettinen & Nurminen method|||Serotype 22F||95.8|91.6|< 0.001
82428433|NCT04016714|164564528|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being \>10 percentage points (1-sided p-value \<0.025).|Percentage point difference|97.2|||<|0.001|TWO_SIDED|95.0|95.4|98.4|||Miettinen & Nurminen method|||Serotype 33F||98.4|95.4|< 0.001
82428434|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.58|||<|0.001|TWO_SIDED|95.0|0.54|0.63|||t-test, 1 sided|||Serotype 1||0.63|0.54|< 0.001
82428435|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|1.31|||<|0.001|TWO_SIDED|95.0|1.2|1.43|||t-test, 1 sided|||Serotype 3||1.43|1.20|< 0.001
82428436|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.78|||t-test, 1 sided|||Serotype 4||0.78|0.63|< 0.001
82428437|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.62|||<|0.001|TWO_SIDED|95.0|0.56|0.68|||t-test, 1 sided|||Serotype 5||0.68|0.56|< 0.001
82428438|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.6|||<|0.001|TWO_SIDED|95.0|0.54|0.67|||t-test, 1 sided|||Serotype 6A||0.67|0.54|< 0.001
82428439|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.0|||t-test, 1 sided|||Serotype 6B||1.00|0.79|< 0.001
82428440|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.69|0.81|||t-test, 1 sided|||Serotype 7F||0.81|0.69|< 0.001
82428441|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.64|0.76|||t-test, 1 sided|||Serotype 9V||0.76|0.64|< 0.001
82428442|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.78|||<|0.001|TWO_SIDED|95.0|0.7|0.87|||t-test, 1 sided|||Serotype 14||0.87|0.70|< 0.001
82428443|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.77|0.92|||t-test, 1 sided|||Serotype 18C||0.92|0.77|< 0.001
82428444|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.68|0.82|||t-test, 1 sided|||Serotype 19A||0.82|0.68|< 0.001
82428445|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.72|0.87|||t-test, 1 sided|||Serotype 19F||0.87|0.72|< 0.001
82535800|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0609|TWO_SIDED|95.0|-0.31|0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.01|-0.31|0.0609
82535801|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.0069|TWO_SIDED|95.0|-0.38|-0.06|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.06|-0.38|0.0069
82535802|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0556|TWO_SIDED|95.0|-0.32|0.0|||Mixed-effects Repeated Measures Model]|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.00|-0.32|0.0556
82535803|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.0387|TWO_SIDED|95.0|-0.33|-0.01|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.01|-0.33|0.0387
82535804|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08||0.0008|TWO_SIDED|95.0|-0.44|-0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.12|-0.44|0.0008
82535805|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.5879|TWO_SIDED|95.0|-0.21|0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.12|-0.21|0.5879
82648321|NCT00936884|165012117|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|56.64|||<|0.0001|TWO_SIDED|97.5|40.62|72.66||Comparison of the MNTX group and the placebo group was based on ANOVA model with the proportion of injections resulting in RFBM within 4 hours during the double-blind period as the dependent variable and the treatment group as the fixed effect. .|ANOVA||Estimated value is the difference in least squared means for MNTX vs. placebo (MNTX minus placebo). Based on the ANOVA model, there is 97.5% confidence that the difference between MNTX and placebo falls between the lower and upper limits presented.|||72.66|40.62|<0.0001
82648322|NCT00936884|165012118|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|23.38|||<|0.0001|TWO_SIDED|97.5|10.91|50.14||Comparison of the MNTX group and the placebo group in the proportion of subjects having a RFBM within 4 hours after each injection was performed by using a 2-sided Cochran-Mantel-Haenszel Chi square test at the alpha level of 0.025.|Chi-squared|||||50.14|10.91|< 0.0001
82428446|NCT04016714|164564529|NON_INFERIORITY|For the 13 shared serotypes, a conclusion of non-inferiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>0.5 (1-sided p-value \<0.025).|GMC ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.81|1.0|||t-test, 1 sided|||Serotype 23F||1.00|0.81|< 0.001
82428447|NCT04016714|164564529|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2- sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC ratio|68.34|||<|0.001|TWO_SIDED|95.0|61.73|75.65|||t-test, 1 sided|||Serotype 22F||75.65|61.73|< 0.001
82428448|NCT04016714|164564529|SUPERIORITY|For the 2 serotypes unique to V114, a conclusion of superiority of V114 to Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the GMC ratio (V114/Prevenar 13™) being \>2.0 (1-sided p-value \<0.025).|GMC ratio|48.99|||<|0.001|TWO_SIDED|95.0|44.45|54.01|||t-test, 1 sided|||Serotype 33F||54.01|44.45|< 0.001
82450097|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047||||0.9317|TWO_SIDED|95.0|0.363|3.025||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/C||3.025|0.363|0.9317
82561741|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82428449|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Diphtheria toxoid||1.0|-0.6|< 0.001
82428450|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Tetanus toxoid||1.0|-0.6|< 0.001
82428451|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Pertussis - PT||1.0|-0.6|< 0.001
82450098|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.8696|TWO_SIDED|95.0|0.546|2.044||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: C/T||2.044|0.546|0.8696
82450099|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.075||||0.8694|TWO_SIDED|95.0|0.453|2.554||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7692791 Genotype: T/T||2.554|0.453|0.8694
82428452|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.0|||Miettinen & Nurminen method|||Pertussis - FHA||1.0|-0.6|< 0.001
82428453|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Pertussis - FIM 2/3||1.2|-0.8|< 0.001
82428454|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.8|1.2|||Miettinen & Nurminen method|||Pertussis - PRN||1.2|-0.8|< 0.001
82428455|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|-1.1|||<|0.001|TWO_SIDED|95.0|-3.3|0.9|||Miettinen & Nurminen method|||Hib-PRP||0.9|-3.3|< 0.001
82428456|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|-0.6|||<|0.001|TWO_SIDED|95.0|-2.0|0.5|||Miettinen & Nurminen method|||HBsAg||0.5|-2.0|< 0.001
82428457|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.9|0.9|||Miettinen & Nurminen method|||Poliovirus 1||0.9|-0.9|< 0.001
82428458|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.2|||<|0.001|TWO_SIDED|95.0|-0.6|1.1|||Miettinen & Nurminen method|||Poliovirus 2||1.1|-0.6|< 0.001
82428459|NCT04016714|164564530|NON_INFERIORITY|A conclusion of non-inferiority of Vaxelis™ administered concomitantly with V114 to Vaxelis™ administered concomitantly with Prevenar 13™ is based on the lower bound of the 2-sided 95% CI for the difference in percentages (V114 - Prevenar 13™) being greater than the specified non-inferiority margin (1-sided p-value \<0.025).|Percentage point difference|0.0|||<|0.001|TWO_SIDED|95.0|-0.8|0.7|||Miettinen & Nurminen method|||Poliovirus 3||0.7|-0.8|< 0.001
82428460|NCT04016714|164564532|OTHER||GMC ratio|0.82|||||TWO_SIDED|95.0|0.75|0.89||||||Serotype 1||0.89|0.75|
82428461|NCT04016714|164564532|OTHER||GMC ratio|1.81|||||TWO_SIDED|95.0|1.66|1.98||||||Serotype 3||1.98|1.66|
82428462|NCT04016714|164564532|OTHER||GMC ratio|1.09|||||TWO_SIDED|95.0|0.99|1.21||||||Serotype 4||1.21|0.99|
82428463|NCT04016714|164564532|OTHER||GMC ratio|0.91|||||TWO_SIDED|95.0|0.81|1.01||||||Serotype 5||1.01|0.81|
82428464|NCT04016714|164564532|OTHER||GMC ratio|0.44|||||TWO_SIDED|95.0|0.38|0.5||||||Serotype 6A||0.50|0.38|
82428465|NCT04016714|164564532|OTHER||GMC ratio|1.73|||||TWO_SIDED|95.0|1.46|2.05||||||Serotype 6B||2.05|1.46|
82428466|NCT04016714|164564532|OTHER||GMC ratio|0.78|||||TWO_SIDED|95.0|0.71|0.84||||||Serotype 7F||0.84|0.71|
82450100|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8708|TWO_SIDED|95.0|0.654|1.652||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs3563987 Genotype: C/C||1.652|0.654|0.8708
82648323|NCT01314703|165012119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.85|STANDARD_ERROR_OF_MEAN|0.089|||TWO_SIDED|95.0|2.66|3.02|||ANOVA||ChloraPrep 10 minute abdomen|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||3.02|2.66|
82428467|NCT04016714|164564532|OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.9|1.12||||||Serotype 9V||1.12|0.90|
82428468|NCT04016714|164564532|OTHER||GMC ratio|1.02|||||TWO_SIDED|95.0|0.89|1.18||||||Serotype 14||1.18|0.89|
82428469|NCT04016714|164564532|OTHER||GMC ratio|0.75|||||TWO_SIDED|95.0|0.68|0.82||||||Serotype 18C||0.82|0.68|
82428470|NCT04016714|164564532|OTHER||GMC ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81||||||Serotype 19A||0.81|0.64|
82428471|NCT04016714|164564532|OTHER||GMC ratio|0.69|||||TWO_SIDED|95.0|0.62|0.77||||||Serotype 19F||0.77|0.62|
82428472|NCT04016714|164564532|OTHER||GMC ratio|1.32|||||TWO_SIDED|95.0|1.16|1.51||||||Serotype 23F||1.51|1.16|
82428473|NCT04016714|164564532|SUPERIORITY||GMC ratio|81.01|||||TWO_SIDED|95.0|73.12|89.75||||||Serotype 22F||89.75|73.12|
82428474|NCT04016714|164564532|OTHER||GMC ratio|7.81|||||TWO_SIDED|95.0|6.82|8.94||||||Serotype 33F||8.94|6.82|
82428475|NCT00271544|164564558|SUPERIORITY_OR_OTHER||One sample proportion|0.955||||||95.0|0.92|0.955|||||1-side 95% confidence limit lower bound|||0.955|0.92|
82428476|NCT00271544|164564559|SUPERIORITY_OR_OTHER||One sample proportion|0.96||||||95.0|0.932|0.989||||||||0.989|0.932|
82428477|NCT00271544|164564560|SUPERIORITY_OR_OTHER||One sample mean|1.1|STANDARD_DEVIATION|0.9||||95.0|1.1|1.2|||||1-side 95% confidence limit upper bound|||1.2|1.1|
82428478|NCT00271544|164564561|SUPERIORITY_OR_OTHER||One sample mean|1.9|STANDARD_DEVIATION|2.0||||97.5|1.9|2.2|||||1-sided 97.5% confidence limit upper bound|||2.2|1.9|
82428479|NCT00271544|164564562|SUPERIORITY_OR_OTHER||One sample proportion|0.989||||||95.0|0.974|1.0||||||||1|0.974|
82450101|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.157||||0.7667|TWO_SIDED|95.0|0.442|3.026||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/C||3.026|0.442|0.7667
82428480|NCT00271544|164564563|SUPERIORITY_OR_OTHER||One sample proportion|0.973||||||95.0|0.95|0.996||||||||0.996|0.950|
82450102|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.3822|TWO_SIDED|95.0|0.401|1.422||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: C/T||1.422|0.401|0.3822
82450103|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.419||||0.5089|TWO_SIDED|95.0|0.498|4.04||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs7667298 Genotype: T/T||4.040|0.498|0.5089
82428481|NCT00271544|164564564|SUPERIORITY_OR_OTHER||One sample proportion|0.973||||||95.0|0.95|0.996||||||||0.996|0.950|
82428482|NCT01685684|164564582|SUPERIORITY_OR_OTHER_LEGACY||Marginal Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|0.267|<|0.0001|TWO_SIDED||||||z-test|||||||<0.0001
82428483|NCT00902330|164564653|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Spearman correlation coefficients were computed for the biomarkers. P-Values shown are not adjusted for multiple comparisons. The a priori threshold for statistical significance was P less than 0.05. This information applies to all rows listed in the table.||||<0.05
82428484|NCT04290624|164564692|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.4|-0.2|||ANCOVA|||||-0.20|-0.40|<0.0001
82428485|NCT04290624|164564693|SUPERIORITY||Mean Difference (Final Values)|-28.6|STANDARD_ERROR_OF_MEAN|4.73|<|0.0001|TWO_SIDED|95.0|-38.1|-19.1|||ANCOVA|||At Week 6||-19.1|-38.1|<0.0001
82428486|NCT04290624|164564693|SUPERIORITY||Mean Difference (Final Values)|-27.9|STANDARD_ERROR_OF_MEAN|5.08|<|0.0001|TWO_SIDED|95.0|-38.2|-17.7|||ANCOVA|||At Week 12||-17.7|-38.2|<0.0001
82428487|NCT04290624|164564694|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.52|-0.27|||ANCOVA|||At Week 6||-0.27|-0.52|<0.0001
82428488|NCT04290624|164564694|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.47|-0.25|||ANCOVA|||At Week 12||-0.25|-0.47|<0.0001
82450104|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.326||||0.3944|TWO_SIDED|95.0|0.691|2.544||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/G||2.544|0.691|0.3944
82450105|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.3103|TWO_SIDED|95.0|0.339|1.416||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: G/A||1.416|0.339|0.3103
82450106|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.857||||0.8942|TWO_SIDED|95.0|0.089|8.294||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs41408948 Genotype: A/A||8.294|0.089|0.8942
82450107|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.665|TWO_SIDED|95.0|0.466|3.304||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/G||3.304|0.466|0.6650
82450108|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.779||||0.4415|TWO_SIDED|95.0|0.412|1.475||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: G/A||1.475|0.412|0.4415
82450109|NCT00265317|164607369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.458||||0.4682|TWO_SIDED|95.0|0.523|4.06||2-sided unstratified log-rank test|Log Rank|||Locus: VEGFR2/rs2071559 Genotype: A/A||4.060|0.523|0.4682
82561742|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82652140|NCT02637557|165019480|SUPERIORITY||Odds Ratio (OR)|0.91||||0.7903|TWO_SIDED|95.0|0.47|1.77||Odds ratio, 95% confidence interval (CI) for the odds ratio and p-value vs. placebo are obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||1.77|0.47|0.7903
82428489|NCT04290624|164564695|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|-1.14|-0.56|||ANCOVA|||At Week 6||-0.56|-1.14|<0.0001
82428490|NCT04290624|164564695|SUPERIORITY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.139|<|0.0001|TWO_SIDED|95.0|-1.23|-0.67|||ANCOVA|||At Week 12||-0.67|-1.23|<0.0001
82428491|NCT04290624|164564696|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.151|<|0.0001|TWO_SIDED|95.0|-1.22|-0.61|||ANCOVA|||At Week 6||-0.61|-1.22|<0.0001
82428492|NCT04290624|164564696|SUPERIORITY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.36|-0.74|||ANCOVA|||At Week 12||-0.74|-1.36|<0.0001
82428493|NCT04290624|164564697|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.41|-0.23|||ANCOVA|||||-0.23|-0.41|<0.0001
82428494|NCT04290624|164564698|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0039|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||At Week 6||-0.2|-0.9|0.0039
82428495|NCT04290624|164564698|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.1|-0.5|||ANCOVA|||At Week 12||-0.5|-1.1|<0.0001
82428496|NCT04290624|164564699|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0367|TWO_SIDED|95.0|-0.21|-0.01|||ANCOVA|||At Week 6||-0.01|-0.21|0.0367
82428497|NCT04290624|164564699|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.033||0.0725|TWO_SIDED|95.0|-0.14|-0.01|||Van-Elteren test|||At Week 12||-0.01|-0.14|0.0725
82428498|NCT04290624|164564700|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.075||0.0006|TWO_SIDED|95.0|-0.43|-0.13|||ANCOVA|||At Week 6||-0.13|-0.43|0.0006
82428499|NCT04290624|164564700|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.073||0.0009|TWO_SIDED|95.0|-0.41|-0.11|||ANCOVA|||At Week 12||-0.11|-0.41|0.0009
82450110|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.289||||0.7301|TWO_SIDED|95.0|0.304|5.47||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/C||5.470|0.304|0.7301
82450111|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.788||||0.5013|TWO_SIDED|95.0|0.39|1.592||2-sided unstratified log-rank test|Log Rank|||PDGFRB/rs2304060 C/A||1.592|0.390|0.5013
82450112|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.368|TWO_SIDED|95.0|0.298|1.578||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: A/A||1.578|0.298|0.3680
82450113|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738||||0.3804|TWO_SIDED|95.0|0.371|1.467||2-sided, unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/C||1.467|0.371|0.3804
82450114|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.1507|TWO_SIDED|95.0|0.261|1.247||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/T||1.247|0.261|0.1507
82428500|NCT04290624|164564701|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.117||0.002|TWO_SIDED|95.0|-0.62|-0.15|||ANCOVA|||At Week 6||-0.15|-0.62|0.0020
82428501|NCT04290624|164564701|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.52|-0.16|||ANCOVA|||At Week 12||-0.16|-0.52|0.0005
82450115|NCT00265317|164607371|SUPERIORITY_OR_OTHER|||||||0.0772||||||2-sided unstratified log-rank test|Log Rank|||Locus PDGFRB/rs17656204 Genotype: T/T||||0.0772
82450116|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.2149|TWO_SIDED|95.0|0.339|1.284||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/G||1.284|0.339|0.2149
82450117|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026||||0.9491|TWO_SIDED|95.0|0.466|2.26||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/RS2304061 Genotype: G/A||2.260|0.466|0.9491
82450118|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917||||0.8114|TWO_SIDED|95.0|0.447|1.881||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/A||1.881|0.447|0.8114
82450119|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.577||||0.1379|TWO_SIDED|95.0|0.273|1.221||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/T||1.221|0.273|0.1379
82450120|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.859||||0.5341|TWO_SIDED|95.0|0.256|13.51||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: T/T||13.51|0.256|0.5341
82450121|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.932||||0.8564|TWO_SIDED|95.0|0.431|2.014||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/A||2.014|0.431|0.8564
82450122|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.5766|TWO_SIDED|95.0|0.355|1.788||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/G||1.788|0.355|0.5766
82648324|NCT01314703|165012119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.038|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|3.74|4.33|||ANOVA||ChloraPrep 10 minute groin|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||4.33|3.74|
82428502|NCT01847443|164564702|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.107|||||TWO_SIDED|90.0|1.07|1.147|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in AUC(0-t)||1.147|1.070|
82428503|NCT01847443|164564707|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.098|||||TWO_SIDED|90.0|1.061|1.137|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in AUC(0-t)||1.137|1.061|
82450123|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.467||||0.2043|TWO_SIDED|95.0|0.14|1.557||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: G/G||1.557|0.140|0.2043
82450124|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.531||||0.1626|TWO_SIDED|95.0|0.214|1.317||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/G||1.317|0.214|0.1626
82450125|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.986||||0.968|TWO_SIDED|95.0|0.484|2.006||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/C||2.006|0.484|0.9680
82450126|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.3587|TWO_SIDED|95.0|0.171|1.92||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: C/C||1.920|0.171|0.3587
82428504|NCT01847443|164564708|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.044|||||TWO_SIDED|90.0|1.002|1.089|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in Cmax||1.089|1.002|
82450127|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.742||||0.4635|TWO_SIDED|95.0|0.331|1.662||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/G||1.662|0.331|0.4635
82450128|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.9834|TWO_SIDED|95.0|0.476|2.069||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/A||2.069|0.476|0.9834
82450129|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.353||||0.1764|TWO_SIDED|95.0|0.072|1.725||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: A/A||1.725|0.072|0.1764
82450130|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.715||||0.2018|TWO_SIDED|95.0|0.422|1.209||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/G||1.209|0.422|0.2018
82450131|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.85||||0.4592|TWO_SIDED|95.0|0.354|9.673||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/A||9.673|0.354|0.4592
82450132|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.1593|TWO_SIDED|95.0|0.373|1.184||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/T||1.184|0.373|0.1593
82450133|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.327||||0.5897|TWO_SIDED|95.0|0.469|3.755||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/C||3.755|0.469|0.5897
82450134|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.3681|TWO_SIDED|95.0|0.488|1.309||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs34586048 Genotype: C/C||1.309|0.488|0.3681
82450135|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.752||||0.3235|TWO_SIDED|95.0|0.423|1.336||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/T||1.336|0.423|0.3235
82450136|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.845||||0.7463|TWO_SIDED|95.0|0.303|2.355||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/G||2.355|0.303|0.7463
82450137|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.724||||0.4179|TWO_SIDED|95.0|0.33|1.593||2-sided unstratified log-rank test|Log Rank|||Locus: rs740751 Genotype: C/C||1.593|0.330|0.4179
82561743|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82450138|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973||||0.9423|TWO_SIDED|95.0|0.462|2.05||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/T||2.050|0.462|0.9423
82450139|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.353||||0.1764|TWO_SIDED|95.0|0.072|1.725||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs7407451 Genotype: T/T||1.725|0.072|0.1764
82450140|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.549||||0.2352|TWO_SIDED|95.0|0.201|1.501||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/G||1.501|0.201|0.2352
82450141|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.986||||0.9674|TWO_SIDED|95.0|0.485|2.003||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/A||2.003|0.485|0.9674
82450142|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.3524|TWO_SIDED|95.0|0.235|1.686||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: A/A||1.686|0.235|0.3524
82450143|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.809||||0.6652|TWO_SIDED|95.0|0.308|2.124||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/T||2.124|0.308|0.6652
82450144|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.839||||0.5931|TWO_SIDED|95.0|0.436|1.618||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/G||1.618|0.436|0.5931
82450145|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.475||||0.2625|TWO_SIDED|95.0|0.125|1.813||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: G/G||1.813|0.125|0.2625
82450146|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.2168|TWO_SIDED|95.0|0.4|1.239||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/G||1.239|0.400|0.2168
82450147|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.987||||0.9802|TWO_SIDED|95.0|0.353|2.759||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/A||2.759|0.353|0.9802
82450148|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.652||||0.1145|TWO_SIDED|95.0|0.378|1.122||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/T||1.122|0.378|0.1145
82450149|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.192||||0.7725|TWO_SIDED|95.0|0.36|3.946||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/A||3.946|0.360|0.7725
82450150|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.3286|TWO_SIDED|95.0|0.321|1.473||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/A||1.473|0.321|0.3286
82450151|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.976||||0.948|TWO_SIDED|95.0|0.47|2.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/G||2.028|0.470|0.9480
82450152|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.531||||0.3844|TWO_SIDED|95.0|0.125|2.282||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: G/G||2.282|0.125|0.3844
82450153|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.662||||0.1373|TWO_SIDED|95.0|0.381|1.153||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/G||1.153|0.381|0.1373
82652141|NCT02637557|165019480|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3518|TWO_SIDED|95.0|0.7|2.71||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||2.71|0.70|0.3518
82450154|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.114||||0.8586|TWO_SIDED|95.0|0.339|3.667||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/A||3.667|0.339|0.8586
82450155|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.935||||0.8478|TWO_SIDED|95.0|0.47|1.861||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/G||1.861|0.470|0.8478
82450156|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.634||||0.2445|TWO_SIDED|95.0|0.287|1.401||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/A||1.401|0.287|0.2445
82450157|NCT00265317|164607371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.155||||0.9191|TWO_SIDED|95.0|0.072|18.59||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: A/A||18.59|0.072|0.9191
82450158|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.121||||0.8563|TWO_SIDED|95.0|0.326|3.847||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/C||3.847|0.326|0.8563
82450159|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.7375|TWO_SIDED|95.0|0.599|2.064||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304060 Genotype: C/A||2.064|0.599|0.7375
82450160|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.897||||0.8066|TWO_SIDED|95.0|0.375|2.147||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs234060 Genotype: A/A||2.147|0.375|0.8066
82450161|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.6945|TWO_SIDED|95.0|0.449|1.708||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/C||1.708|0.449|0.6945
82450162|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.067||||0.8536|TWO_SIDED|95.0|0.536|2.122||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: C/T||2.122|0.536|0.8536
82450163|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.732||||0.3657|TWO_SIDED|95.0|0.283|26.42||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17656204 Genotype: T/T||26.42|0.283|0.3657
82450164|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.4657|TWO_SIDED|95.0|0.424|1.483||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/G||1.483|0.424|0.4657
82450165|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.364||||0.4168|TWO_SIDED|95.0|0.641|2.9||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304061 Genotype: G/A||2.900|0.641|0.4168
82450166|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.908||||0.7836|TWO_SIDED|95.0|0.456|1.809||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/A||1.809|0.456|0.7836
82428505|NCT01847443|164564709|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was to be established between the test and reference treatment if the 90% CI of ratio of geometric means (Test/Reference) was included within the bioequivalence limits of (0.80, 1.25)|Ratio of Geometric means|1.071|||||TWO_SIDED|90.0|1.028|1.116|||ANOVA|||Null hypothesis stated that there was no difference between the test and reference gums in Cmax||1.116|1.028|
82428506|NCT03571971|164564710|SUPERIORITY|Based on published data, we conservatively estimated that the standard exercise (SE) group and load modification (LM) group would have a 20% and 50% treatment success rate, respectively. We defined treatment success as either: 1) at least 'moderately better' on the Global Rating of Change scale or 2) ≥2 point decrease on the Numeric Pain Rating Scale. With one-side type I error=0.1, power=80%, and allocation ratio is 1:1, we estimated the need for 22 participants in each group (total N=44).|Odds Ratio (OR)|1.09||||0.879|TWO_SIDED|95.0|0.36|3.35||The a priori threshold for statistical significance was set at 0.05.|Chi-squared|||||3.35|0.36|0.879
82428507|NCT04067492|164564717|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|28.63||||0.1331|TWO_SIDED|95.0|4.21|53.05||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||53.05|4.21|0.1331
82450167|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.938||||0.8531|TWO_SIDED|95.0|0.472|1.863||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: A/T||1.863|0.472|0.8531
82450168|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.32||||0.3272|TWO_SIDED|95.0|0.412|13.07||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1077724 Genotype: T/T||13.07|0.412|0.3272
82450169|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984||||0.963|TWO_SIDED|95.0|0.491|1.972||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/A||1.972|0.491|0.9630
82450170|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.227||||0.6003|TWO_SIDED|95.0|0.567|2.656||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: A/G||2.656|0.567|0.6003
82561744|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82648325|NCT01314703|165012119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.53|STANDARD_ERROR_OF_MEAN|0.089|||TWO_SIDED|95.0|2.36|2.7|||ANOVA||70%Isopropyl Alcohol 10 minute abdomen|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||2.70|2.36|
82450171|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.769||||0.6703|TWO_SIDED|95.0|0.229|2.58||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs919751 Genotype: G/G||2.580|0.229|0.6703
82428508|NCT04067492|164564717|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|-2.05||||0.1331|TWO_SIDED|95.0|-30.6|26.5||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||26.50|-30.60|0.1331
82450172|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.106||||0.81|TWO_SIDED|95.0|0.485|2.525||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/G||2.525|0.485|0.8100
82450173|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.076||||0.8335|TWO_SIDED|95.0|0.541|2.141||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: G/C||2.141|0.541|0.8335
82652142|NCT02637557|165019480|SUPERIORITY||Odds Ratio (OR)|1.64||||0.1544|TWO_SIDED|95.0|0.83|3.26||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.26|0.83|0.1544
82450174|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.598|TWO_SIDED|95.0|0.268|2.141||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2304058 Genotype: C/C||2.141|0.268|0.5980
82450175|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.9287|TWO_SIDED|95.0|0.487|2.199||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/G||2.199|0.487|0.9287
82450176|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.053||||0.8842|TWO_SIDED|95.0|0.526|2.106||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: G/A||2.106|0.526|0.8842
82450177|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.129||||0.8501|TWO_SIDED|95.0|0.316|4.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs1864972 Genotype: A/A||4.028|0.316|0.8501
82450178|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.229||||0.4118|TWO_SIDED|95.0|0.749|2.017||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/G||2.017|0.749|0.4118
82450179|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.286||||0.1299|TWO_SIDED|95.0|0.051|1.596||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3733678 Genotype: G/A||1.596|0.051|0.1299
82450180|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.1859|TWO_SIDED|95.0|0.399|1.2||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/T||1.200|0.399|0.1859
82450181|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.672||||0.0091|TWO_SIDED|95.0|1.291|10.44||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs246396 Genotype: T/C||10.44|1.291|0.0091
82450182|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.039||||0.8708|TWO_SIDED|95.0|0.654|1.652||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs34586048 Genotype: C/C||1.652|0.654|0.8708
82450183|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.9888|TWO_SIDED|95.0|0.59|1.681||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/T||1.681|0.590|0.9888
82450184|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9702|TWO_SIDED|95.0|0.36|2.891||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs11740355 Genotype: T/G||2.891|0.360|0.9702
82450185|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.973||||0.9419|TWO_SIDED|95.0|0.466|2.032||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/C||2.032|0.466|0.9419
82450186|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.112||||0.7677|TWO_SIDED|95.0|0.549|2.252||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: C/T||2.252|0.549|0.7677
82450187|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.129||||0.8501|TWO_SIDED|95.0|0.316|4.028||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs740751 Genotype: T/T||4.028|0.316|0.8501
82450188|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.5233|TWO_SIDED|95.0|0.322|1.782||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/G||1.782|0.322|0.5233
82450189|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.123||||0.75|TWO_SIDED|95.0|0.549|2.297||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: G/A||2.297|0.549|0.7500
82450190|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232||||0.6614|TWO_SIDED|95.0|0.483|3.142||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs4705415 Genotype: A/A||3.142|0.483|0.6614
82450191|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.779||||0.2552|TWO_SIDED|95.0|0.652|4.855||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/T||4.855|0.652|0.2552
82450192|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.088||||0.7931|TWO_SIDED|95.0|0.577|2.052||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: T/G||2.052|0.577|0.7931
82450193|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.449||||0.1365|TWO_SIDED|95.0|0.152|1.331||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776075 Genotype: G/G||1.331|0.152|0.1365
82450194|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.854||||0.5544|TWO_SIDED|95.0|0.504|1.447||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/G||1.447|0.504|0.5544
82450195|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.721||||0.3132|TWO_SIDED|95.0|0.59|5.021||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs17708574 Genotype: G/A||5.021|0.590|0.3132
82450196|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.263||||0.3698|TWO_SIDED|95.0|0.755|2.113||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/T||2.113|0.755|0.3698
82450197|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.411||||0.1495|TWO_SIDED|95.0|0.119|1.423||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs10063714 Genotype: T/A||1.423|0.119|0.1495
82450198|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.613||||0.1911|TWO_SIDED|95.0|0.781|3.332||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/A||3.332|0.781|0.1911
82535806|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.6122|TWO_SIDED|95.0|-0.2|0.12|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.12|-0.20|0.6122
82450199|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.793||||0.5259|TWO_SIDED|95.0|0.384|1.636||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: A/G||1.636|0.384|0.5259
82450200|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.331||||0.0996|TWO_SIDED|95.0|0.082|1.339||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs3776081 Genotype: G/G||1.339|0.082|0.0996
82450201|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.752||||0.2755|TWO_SIDED|95.0|0.45|1.259||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/G||1.259|0.450|0.2755
82450202|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.85||||0.012|TWO_SIDED|95.0|1.253|18.78||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2007637 Genotype: G/A||18.78|1.253|0.0120
82450203|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.274||||0.4663|TWO_SIDED|95.0|0.661|2.457||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/G||2.457|0.661|0.4663
82450204|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.867||||0.7097|TWO_SIDED|95.0|0.406|1.848||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: G/A||1.848|0.406|0.7097
82450205|NCT00265317|164607372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.607||||0.534|TWO_SIDED|95.0|0.117|3.158||2-sided unstratified log-rank test|Log Rank|||Locus: PDGFRB/rs2302273 Genotype: A/A||3.158|0.117|0.5340
82450206|NCT00265317|164607375|SUPERIORITY_OR_OTHER|||||||0.2702|||||||Wilcoxon Rank Sum Test|||VEGF-C Ratio to Baseline for Cycle 2, Day 1||||0.2702
82450207|NCT00265317|164607375|SUPERIORITY_OR_OTHER|||||||0.7354||95.0|||||Wilcoxon Rank Sum Test|||VEGF-C ratio to Baseline for Cycle 3, Day 1||||0.7354
82450208|NCT00265317|164607377|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||VEGFR-2 Ratio to Baseline for Cycle 2, Day 1||||<0.0001
82450209|NCT00265317|164607377|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||VEGFR-2 Ratio to Baseline for Cycle 3, Day 1||||<0.0001
82450210|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.553||||0.1667|TWO_SIDED|95.0|0.159|1.921||1-sided unstratified log-rank test|Log Rank|||High CSF-1R expression||1.921|0.159|0.1667
82450211|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.451||||0.7688|TWO_SIDED|95.0|0.534|3.944||1-sided unstratified log-rank test|Log Rank|||Low CSF-1R expression||3.944|0.534|0.7688
82428509|NCT04067492|164564717|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|16.7||||0.1331|TWO_SIDED|95.0|-12.67|46.08||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||46.08|-12.67|0.1331
82535807|NCT00797225|164769852|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.08||0.0023|TWO_SIDED|95.0|-0.41|-0.09|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.09|-0.41|0.0023
82535808|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.24|-0.69|< 0.0001
82535809|NCT00797225|164769853|SUPERIORITY||LS mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.73|-0.27|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.27|-0.73|< 0.0001
82535810|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.71|-0.25|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.25|-0.71|< 0.0001
82535811|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.69|-0.23|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.23|-0.69|< 0.0001
82535812|NCT00797225|164769853|SUPERIORITY||LS mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.87|-0.4|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.40|-0.87|< 0.0001
82428510|NCT04067492|164564717|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|3.12||||0.1331|TWO_SIDED|95.0|-25.1|31.33||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\]|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||31.33|-25.10|0.1331
82535813|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.59|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.59|-1.04|< 0.0001
82535814|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.12||0.0005|TWO_SIDED|95.0|-0.65|-0.18|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.18|-0.65|0.0005
82561745|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82648326|NCT01314703|165012119|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.53|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|3.24|3.82|||ANOVA||70% Isopropyl Alcohol 10 minute groin|Hypothesis: ChloraPrep will exceed 3 log 10 reduction for the groin at 10 minutes and 2 log 10 reduction for the abdomen at 10 minutes. The 70% Isopropyl Alcohol was used as a positive control. All calculations were performed after taking the base-10 logarithm of the original values. The model was a mixed model Analysis of Variance (ANOVA).||3.82|3.24|
82652143|NCT02637557|165019481|SUPERIORITY||Odds Ratio (OR)|0.56||||0.1489|TWO_SIDED|95.0|0.25|1.23||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||1.23|0.25|0.1489
82428511|NCT04067492|164564717|OTHER|"The study was planned to randomize 85 patients: 15 patients in the RPH-104 4 mg group, and 14 patients in the RPH-104 20 mg, 40 mg, 80 mg and 160 mg groups each, a total of 14 patients in the Voltaren® (diclofenac) group.~The sample size was calculated assuming a standard deviation of 26 mm for change in pain intensity at 72 hours."|Mean Difference (Final Values)|5.96||||0.1331|TWO_SIDED|95.0|-24.22|36.14||p-value, group|ANCOVA||Adjusted mean difference. Comparison with the control group \[RPH-104 - Diclofenac\].|It was assumed that the sample size would allow constructing a 95% CI around the mean change in pain intensity at 72 hours after the start of the investigational product use in each group with an accuracy of 30 mm change in pain intensity and would reveal statistically significant differences between the groups in pairwise comparisons, without control for type I error for multiple comparisons, taking into account the type I error α = 5%, if the difference between the compared groups is ≥ 20 mm.||36.14|-24.22|0.1331
82428512|NCT04067492|164564724|OTHER|||||||0.5995|||||||Log Rank|||||||0.5995
82428513|NCT04067492|164564724|OTHER|||||||0.9012|||||||Log Rank|||||||0.9012
82428514|NCT04067492|164564726|OTHER||difference in proportions|63.5||||0.0066|TWO_SIDED|95.0|19.9|88.6|||Fisher Exact|||||88.6|19.9|0.0066
82428515|NCT04067492|164564726|OTHER||difference in proportions|-5.6|||>|0.9999|TWO_SIDED|95.0|-50.1|45.5|||Fisher Exact|||||45.5|-50.1|>0.9999
82428516|NCT04067492|164564726|OTHER||difference in proportions|27.8||||0.3287|TWO_SIDED|95.0|-26.8|71.8|||Fisher Exact|||||71.8|-26.8|0.3287
82428517|NCT04067492|164564726|OTHER||difference in proportions|27.8||||0.3287|TWO_SIDED|95.0|-26.8|71.8|||Fisher Exact|||||71.8|-26.8|0.3287
82428518|NCT04067492|164564726|OTHER||difference in proportions|17.8||||0.5804|TWO_SIDED|95.0|-33.7|67.8|||Fisher Exact|||||67.8|-33.7|0.5804
82428519|NCT00956384|164564750|SUPERIORITY|A minimally clinically important difference of 4 as statistically significant at the 0.05 level (two-sided), with a power equal to 0.85.|Mean Difference (Final Values)|-2.69||||0.05|TWO_SIDED|95.0|-10.57|5.19||Threshold for statistical significance was p= 0.05|t-test, 2 sided|||For the comparison of mean BREAST-Q subdomain score at each timepoint, Mann-Whitney U test was used for skewed data, while independent t-test was used for not skewed data. We investigated the possibly variable effects of the treatment group differences across multiple time-points, namely 2 weeks after mastectomy, at 6 months and at 12 months following the reconstruction procedure. A linear regression model was used to account for the correlation between the three time-points within each patient||5.19|-10.57|0.05
82450212|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3498|TWO_SIDED|95.0|0.503|1.574||1-sided unstratified log-rank test|Log Rank|||Indeterminate CSF-1R expression||1.574|0.503|0.3498
82535815|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.76|-0.29|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.29|-0.76|< 0.0001
82535816|NCT00797225|164769853|SUPERIORITY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.02|-0.56|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean dysmenorrhea scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.56|-1.02|< 0.0001
82561746|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82428520|NCT00956384|164564751|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Regression, Logistic|||We assessed the effect of the surgical method on the occurrences of any complications versus none via logistic regression, and results were expressed as odds ratios with 95% CIs.||||<0.05
82428521|NCT03950856|164564756|OTHER||Difference in Percentage|1.3||||0.538|TWO_SIDED|95.0|-3.3|4.8|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site erythema: V114 Combined Lots - Prevnar 13™||4.8|-3.3|0.538
82428522|NCT03950856|164564756|OTHER||Difference in Percentage|14.6|||<|0.001|TWO_SIDED|95.0|7.9|21.4|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site pain: V114 Combined Lots - Prevnar 13™||21.4|7.9|<0.001
82428523|NCT03950856|164564756|OTHER||Difference in Percentage|1.0||||0.686|TWO_SIDED|95.0|-4.3|5.3|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Injection site swelling: V114 Combined Lots - Prevnar 13™||5.3|-4.3|0.686
82428524|NCT03950856|164564758|OTHER||Difference in Percentage|2.0||||0.272|TWO_SIDED|95.0|-1.9|4.7|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Arthralgia: V114 Combined Lots - Prevnar 13™||4.7|-1.9|0.272
82428525|NCT03950856|164564758|OTHER||Difference in Percentage|-0.7||||0.812|TWO_SIDED|95.0|-6.7|4.5|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Fatigue: V114 Combined Lots - Prevnar 13™||4.5|-6.7|0.812
82428526|NCT03950856|164564758|OTHER||Difference in Percentage|0.2||||0.947|TWO_SIDED|95.0|-5.6|5.0|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Headache: V114 Combined Lots - Prevnar 13™||5.0|-5.6|0.947
82428527|NCT03950856|164564758|OTHER||Difference in Percentage|5.2||||0.091|TWO_SIDED|95.0|-0.9|10.4|||Miettinen & Nurminen||V114 Combined Lots minus Prevnar 13™|Myalgia: V114 Combined Lots - Prevnar 13™||10.4|-0.9|0.091
82428528|NCT03950856|164564760|OTHER||Miettinen & Nurminen|0.0|||||TWO_SIDED|95.0|-1.6|0.2|||||V114 Combined Lots minus Prevnar 13™|V114 Combined Lots - Prevnar 13™||0.2|-1.6|
82428529|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.83|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 1: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.83|<0.001
82450213|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.687||||0.9497|TWO_SIDED|95.0|0.79|9.143||1-sided unstratified log-rank test|Log Rank|||High PDGFRalpha expression||9.143|0.790|0.9497
82428530|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.87|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 1: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.87|<0.001
82428531|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.88|1.25||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 1: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.25|0.88|<0.001
82428532|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.75|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 3: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.97|0.75|<0.001
82428533|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.81|1.05||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 3: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.05|0.81|<0.001
82428534|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.95|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 3: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.23|0.95|<0.001
82428535|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.7|0.97||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 4: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.97|0.70|<0.001
82428536|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.85|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 4: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.85|<0.001
82428537|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.21|||<|0.001|TWO_SIDED|95.0|1.03|1.43||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 4: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.43|1.03|<0.001
82428538|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.84|||<|0.001|TWO_SIDED|95.0|0.7|1.02||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 5: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.02|0.70|<0.001
82428539|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.83|1.2||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 5: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.20|0.83|<0.001
82428540|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.98|1.42||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 5: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.42|0.98|<0.001
82428541|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 6A: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
82450214|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.386||||0.0401|TWO_SIDED|95.0|0.127|1.173||1-sided unstratified log-rank test|Log Rank|||Low PDGFRalpha expression||1.173|0.127|0.0401
82450215|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.862||||0.3128|TWO_SIDED|95.0|0.487|1.524||1-sided unstratified log-rank test|Log Rank|||Indeterminate PDGFRalpha expression||1.524|0.487|0.3128
82450216|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.823||||0.365|TWO_SIDED|95.0|0.273|2.488||1-sided unstratified log-rank test|Log Rank|||High PDGFRbeta expression||2.488|0.273|0.3650
82450217|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.192||||0.6105|TWO_SIDED|95.0|0.408|3.48||1-sided unstratified log-rank test|Log Rank|||Low PDGFRbeta expression||3.480|0.408|0.6105
82652144|NCT02637557|165019481|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8891|TWO_SIDED|95.0|0.51|2.19||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||2.19|0.51|0.8891
82652145|NCT02637557|165019481|SUPERIORITY||Odds Ratio (OR)|1.56||||0.2237|TWO_SIDED|95.0|0.76|3.2||Odds ratio, 95% CI for the odds ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.20|0.76|0.2237
82428542|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 6A: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
82428543|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.85|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 6A: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.85|<0.001
82428544|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.96|||<|0.001|TWO_SIDED|95.0|0.82|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 6B: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.82|<0.001
82428545|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.86|1.18||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 6B: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.18|0.86|<0.001
82428546|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.9|1.23||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 6B: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.23|0.90|<0.001
82428547|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.82|||<|0.001|TWO_SIDED|95.0|0.72|0.93||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 7F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|0.93|0.72|<0.001
82428548|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.79|1.01||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 7F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.01|0.79|<0.001
82428549|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.96|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 7F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.96|<0.001
82428550|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.88|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 9V: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.88|<0.001
82428551|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.85|1.12||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 9V: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.12|0.85|<0.001
82428552|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.84|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 9V: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.11|0.84|<0.001
82428553|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.81|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 14: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.81|<0.001
82428554|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|0.99|1.34||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 14: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.34|0.99|<0.001
82428555|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.22|||<|0.001|TWO_SIDED|95.0|1.05|1.43||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 14: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.43|1.05|<0.001
82652146|NCT02637557|165019482|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6566|TWO_SIDED|95.0|0.48|3.18||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||3.18|0.48|0.6566
82428556|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.1|||<|0.001|TWO_SIDED|95.0|0.96|1.26||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 18C: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.26|0.96|<0.001
82428557|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.0|1.31||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 18C: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.31|1.00|<0.001
82428558|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.91|1.19||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 18C: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.19|0.91|<0.001
82428559|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.79|1.02||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 19A: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.02|0.79|<0.001
82428560|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.97|||<|0.001|TWO_SIDED|95.0|0.85|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 19A: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.85|<0.001
82428561|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.95|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 19A: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.95|<0.001
82428562|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.81|1.05||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 19F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.05|0.81|<0.001
82428563|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.94|||<|0.001|TWO_SIDED|95.0|0.82|1.07||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 19F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.07|0.82|<0.001
82428564|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.01|||<|0.001|TWO_SIDED|95.0|0.89|1.15||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 19F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.15|0.89|<0.001
82428565|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.92|||<|0.001|TWO_SIDED|95.0|0.77|1.1||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 23F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.10|0.77|<0.001
82428566|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.04|||<|0.001|TWO_SIDED|95.0|0.87|1.24||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 23F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.24|0.87|<0.001
82428567|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.13|||<|0.001|TWO_SIDED|95.0|0.95|1.35||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 23F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.35|0.95|<0.001
82428568|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.95|||<|0.001|TWO_SIDED|95.0|0.81|1.11||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 22F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.11|0.81|<0.001
82450218|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.856||||0.3027|TWO_SIDED|95.0|0.488|1.502||1-sided unstratified log-rank test|Log Rank|||Indeterminate PDGFRbeta expression||1.502|0.488|0.3027
82450219|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.914||||0.4436|TWO_SIDED|95.0|0.262|3.184||1-sided unstratified log-rank test|Log Rank|||High VEGF expression||3.184|0.262|0.4436
82450220|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.953||||0.4582|TWO_SIDED|95.0|0.296|3.062||1-sided unstratified log-rank test|Log Rank|||Low VEGF expression||3.062|0.296|0.4582
82450221|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.911||||0.372|TWO_SIDED|95.0|0.536|1.548||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGF expression||1.548|0.536|0.3720
82428569|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|0.98|||<|0.001|TWO_SIDED|95.0|0.84|1.14||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 22F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.14|0.84|<0.001
82428570|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.03|||<|0.001|TWO_SIDED|95.0|0.88|1.21||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 22F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.21|0.88|<0.001
82428571|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.86|1.16||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 2|Serotype 33F: GMT Ratio V114 Lot 1 / V114 Lot 2|GMT ratio and 95% CI were estimated from a cLDA model.|1.16|0.86|<0.001
82428572|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.91|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 1 divided by Lot 3|Serotype 33F: GMT Ratio V114 Lot 1 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.91|<0.001
82428573|NCT03950856|164564761|EQUIVALENCE|Lower and upper p-values ≤ 0.025 support a conclusion of equivalence.|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.9|1.22||Identical p-values for the lower and upper bounds.|cLDA model|P-value for the comparison of the GMT ratio to the lower bound (0.5). P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 33F: GMT Ratio V114 Lot 2 / V114 Lot 3|GMT ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|<0.001
82428574|NCT03950856|164564762|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||Lot 1 divided by Lot 2|Serotype 1: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
82428575|NCT03950856|164564762|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.17|||||Lot 1 divided by Lot 3|Serotype 1: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.17|0.89|
82428576|NCT03950856|164564762|OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.92|1.21|||||Lot 2 divided by Lot 3|Serotype 1: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.21|0.92|
82428577|NCT03950856|164564762|OTHER||GMC Ratio|0.85|||||TWO_SIDED|95.0|0.77|0.95|||||Lot 1 divided by Lot 2|Serotype 3: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.95|0.77|
82428578|NCT03950856|164564762|OTHER||GMC Ratio|1.01|||||TWO_SIDED|95.0|0.91|1.13|||||Lot 1 divided by Lot 3|Serotype 3: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.13|0.91|
82428579|NCT03950856|164564762|OTHER||GMC Ratio|1.18|||||TWO_SIDED|95.0|1.06|1.32|||||Lot 2 divided by Lot 3|Serotype 3: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.32|1.06|
82428580|NCT03950856|164564762|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.94|||||Lot 1 divided by Lot 2|Serotype 4: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.94|0.72|
82428581|NCT03950856|164564762|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.94|1.23|||||Lot 1 divided by Lot 3|Serotype 4: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.23|0.94|
82428582|NCT03950856|164564762|OTHER||GMC Ratio|1.31|||||TWO_SIDED|95.0|1.14|1.5||||P-value for the comparison of the GMT ratio to the upper bound (2.0).|Lot 2 divided by Lot 3|Serotype 4: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.50|1.14|
82428583|NCT03950856|164564762|OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.95|||||Lot 1 divided by Lot 2|Serotype 5: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.95|0.72|
82428584|NCT03950856|164564762|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.11|||||Lot 1 divided by Lot 3|Serotype 5: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.84|
82428585|NCT03950856|164564762|OTHER||GMC Ratio|1.17|||||TWO_SIDED|95.0|1.02|1.35|||||Lot 2 divided by Lot 3|Serotype 5: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.35|1.02|
82428586|NCT03950856|164564762|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.78|1.07|||||Lot 1 divided by Lot 2|Serotype 6A: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.78|
82428587|NCT03950856|164564762|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16|||||Lot 1 divided by Lot 3|Serotype 6A: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.16|0.85|
82428588|NCT03950856|164564762|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.93|1.27|||||Lot 2 divided by Lot 3|Serotype 6A: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.27|0.93|
82450222|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.5586|TWO_SIDED|95.0|0.35|3.397||1-sided unstratified log-rank test|Log Rank|||High VEGF-C expression||3.397|0.350|0.5586
82428589|NCT03950856|164564762|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.11|||||Lot 1 divided by Lot 2|Serotype 6B: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.82|
82428590|NCT03950856|164564762|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.22|||||Lot 1 divided by Lot 3|Serotype 6B: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|
82428591|NCT03950856|164564762|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.94|1.28|||||Lot 2 divided by Lot 3|Serotype 6B: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.28|0.94|
82428592|NCT03950856|164564762|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.7|0.92|||||Lot 1 divided by Lot 2|Serotype 7F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|0.92|0.70|
82428593|NCT03950856|164564762|OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1|||||Lot 1 divided by Lot 3|Serotype 7F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.10|0.84|
82535817|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.0011|TWO_SIDED|95.0|-0.51|-0.13|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.13|-0.51|0.0011
82535818|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.51|-0.13|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.13|-0.51|0.0010
82561747|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561748|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|3.1|||||TWO_SIDED|95.0|-9.3|17.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.0|-9.3|
82652147|NCT02637557|165019482|SUPERIORITY||Odds Ratio (OR)|2.01||||0.128|TWO_SIDED|95.0|0.81|4.98||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||4.98|0.81|0.1280
82428594|NCT03950856|164564762|OTHER||GMC Ratio|1.2|||||TWO_SIDED|95.0|1.04|1.37|||||Lot 2 divided by Lot 3|Serotype 7F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.37|1.04|
82428595|NCT03950856|164564762|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.08|||l||Lot 1 divided by Lot 2|Serotype 9V: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.08|0.83|
82428596|NCT03950856|164564762|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.13|||||Lot 1 divided by Lot 3|Serotype 9V: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.13|0.87|
82428597|NCT03950856|164564762|OTHER||GMC Ratio|1.04|||||TWO_SIDED|95.0|0.91|1.19|||||Lot 2 divided by Lot 3|Serotype 9V: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.19|0.91|
82450223|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.842||||0.3652|TWO_SIDED|95.0|0.313|2.266||1-sided unstratified log-rank test|Log Rank|||Low VEGF-C expression||2.266|0.313|0.3652
82450224|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.3301|TWO_SIDED|95.0|0.493|1.554||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGF-C expression||1.554|0.493|0.3301
82450225|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.5605|TWO_SIDED|95.0|0.331|3.636||1-sided unstratified log-rank test|Log Rank|||High VEGFR1 expression||3.636|0.331|0.5605
82450226|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.599||||0.2132|TWO_SIDED|95.0|0.16|2.236||1-sided unstratified log-rank test|Log Rank|||Low VEGFR1 expression||2.236|0.160|0.2132
82561749|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82428598|NCT03950856|164564762|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|1.0|||||Lot 1 divided by Lot 2|Serotype 14: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.00|0.75|
82428599|NCT03950856|164564762|OTHER||GMC Ratio|1.13|||||TWO_SIDED|95.0|0.98|1.31|||||Lot 1 divided by Lot 3|Serotype 14: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.31|0.98|
82428600|NCT03950856|164564762|OTHER||GMC Ratio|1.31|||||TWO_SIDED|95.0|1.14|1.52|||||Lot 2 divided by Lot 3|Serotype 14: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.52|1.14|
82428601|NCT03950856|164564762|OTHER||GMC Ratio|1.19|||||TWO_SIDED|95.0|1.04|1.36|||||Lot 1 divided by Lot 2|Serotype 18C: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.36|1.04|
82428602|NCT03950856|164564762|OTHER||GMC Ratio|1.32|||||TWO_SIDED|95.0|1.15|1.51|||||Lot 1 divided by Lot 3|Serotype 18C: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.51|1.15|
82450227|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.3605|TWO_SIDED|95.0|0.53|1.537||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR1 expression||1.537|0.530|0.3605
82428603|NCT03950856|164564762|OTHER||GMC Ratio|1.11|||||TWO_SIDED|95.0|0.97|1.27|||||Lot 2 divided by Lot 3|Serotype 18C: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.27|0.97|
82428604|NCT03950856|164564762|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.02|||||Lot 1 divided by Lot 2|Serotype 19A: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.02|0.78|
82428605|NCT03950856|164564762|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.11|||||Lot 1 divided by Lot 3|Serotype 19A: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.11|0.86|
82428606|NCT03950856|164564762|OTHER||GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.25|||||Lot 2 divided by Lot 3|Serotype 19A: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.25|0.96|
82450228|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921||||0.4438|TWO_SIDED|95.0|0.304|2.784||1-sided unstratified log-rank test|Log Rank|||High VEGFR2 expression||2.784|0.304|0.4438
82450229|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.122||||0.5699|TWO_SIDED|95.0|0.403|3.125||1-sided unstratified log-rank test|Log Rank|||Low VEGFR2 expression||3.125|0.403|0.5699
82450230|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.3147|TWO_SIDED|95.0|0.489|1.528||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR2 expression||1.528|0.489|0.3147
82561750|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82428607|NCT03950856|164564762|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|1.0|||||Lot 1 divided by Lot 2|Serotype 19F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.00|0.76|
82428608|NCT03950856|164564762|OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.8|1.05|||||Lot 1 divided by Lot 3|Serotype 19F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.05|0.80|
82428609|NCT03950856|164564762|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.92|1.21|||||Lot 2 divided by Lot 3|Serotype 19F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.21|0.92|
82428610|NCT03950856|164564762|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.07|||||Lot 1 divided by Lot 2|Serotype 23F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.80|
82428611|NCT03950856|164564762|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.86|1.15|||||Lot 1 divided by Lot 3|Serotype 23F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.15|0.86|
82428612|NCT03950856|164564762|OTHER||GMC Ratio|1.07|||||TWO_SIDED|95.0|0.93|1.24|||||Lot 2 divided by Lot 3|Serotype 23F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.24|0.93|
82428613|NCT03950856|164564762|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.08|||||Lot 1 divided by Lot 2|Serotype 22F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.08|0.81|
82428614|NCT03950856|164564762|OTHER||GMC Ratio|1.08|||||TWO_SIDED|95.0|0.93|1.26|||||Lot 1 divided by Lot 3|Serotype 22F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.26|0.93|
82428615|NCT03950856|164564762|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|1.0|1.35|||||Lot 2 divided by Lot 3|Serotype 22F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.35|1.00|
82535819|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.57|-0.19|||Mixed-effects Repeated Measures Model|||Analysis at Week 4. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.19|-0.57|< 0.0001
82428616|NCT03950856|164564762|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.79|1.06|||||Lot 1 divided by Lot 2|Serotype 33F: GMC Ratio V114 Lot 1 / V114 Lot 2|GMC ratio and 95% CI were estimated from a cLDA model.|1.06|0.79|
82428617|NCT03950856|164564762|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.9|1.22|||||Lot 1 divided by Lot 3|Serotype 33F: GMC Ratio V114 Lot 1 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.22|0.90|
82428618|NCT03950856|164564762|OTHER||GMC Ratio|1.15|||||TWO_SIDED|95.0|0.99|1.34|||||Lot 2 divided by Lot 3|Serotype 33F: GMC Ratio V114 Lot 2 / V114 Lot 3|GMC ratio and 95% CI were estimated from a cLDA model.|1.34|0.99|
82428619|NCT03950856|164564763|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.62|0.91|||||V114 Combined Lots divided by Prevnar 13™|Serotype 1: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|0.91|0.62|
82428620|NCT03950856|164564763|OTHER||GMC Ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||||V114 Combined Lots divided by Prevnar 13™|Serotype 3: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.61|1.20|
82428621|NCT03950856|164564763|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94|||||V114 Combined Lots divided by Prevnar 13™|Serotype 4: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|0.94|0.66|
82428622|NCT03950856|164564763|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.74|1.07|||||V114 Combined Lots divided by Prevnar 13™|Serotype 5: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.07|0.74|
82428623|NCT03950856|164564763|OTHER||GMC Ratio|1.16|||||TWO_SIDED|95.0|0.95|1.43|||||V114 Combined Lots divided by Prevnar 13™|Serotype 6A: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.43|0.95|
82428624|NCT03950856|164564763|OTHER||GMC Ratio|1.5|||||TWO_SIDED|95.0|1.21|1.86|||||V114 Combined Lots divided by Prevnar 13™|Serotype 6B: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.86|1.21|
82428625|NCT03950856|164564763|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.73|1.04|||||V114 Combined Lots divided by Prevnar 13™|Serotype 7F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.04|0.73|
82428626|NCT03950856|164564763|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.72|1.04|||||V114 Combined Lots divided by Prevnar 13™|Serotype 9V: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.04|0.72|
82428627|NCT03950856|164564763|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.82|1.2|||||V114 Combined Lots divided by Prevnar 13™|Serotype 14: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.20|0.82|
82428628|NCT03950856|164564763|OTHER||GMC Ratio|1.26|||||TWO_SIDED|95.0|1.05|1.51|||||V114 Combined Lots divided by Prevnar 13™|Serotype 18C: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.51|1.05|
82428629|NCT03950856|164564763|OTHER||GMC Ratio|0.97|||||TWO_SIDED|95.0|0.82|1.15|||||V114 Combined Lots divided by Prevnar 13™|Serotype 19A: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.15|0.82|
82428630|NCT03950856|164564763|OTHER||GMC Ratio|1.03|||||TWO_SIDED|95.0|0.86|1.23|||||V114 Combined Lots divided by Prevnar 13™|Serotype 19F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.23|0.86|
82428631|NCT03950856|164564763|OTHER||GMC Ratio|1.26|||||TWO_SIDED|95.0|1.03|1.54|||||V114 Combined Lots divided by Prevnar 13™|Serotype 23F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|1.54|1.03|
82428632|NCT03950856|164564763|OTHER||GMC Ratio|12.21|||||TWO_SIDED|95.0|10.11|14.74|||||V114 Combined Lots divided by Prevnar 13™|Serotype 22F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|14.74|10.11|
82428633|NCT03950856|164564763|OTHER||GMC Ratio|9.42|||||TWO_SIDED|95.0|7.96|11.13|||||V114 Combined Lots divided by Prevnar 13™|Serotype 33F: GMC Ratio V114 Combined Lots / Prevnar 13™|GMC ratio and 95% CI were estimated from a cLDA model.|11.13|7.96|
82428634|NCT00656370|164564770|SUPERIORITY|||||||0.93|||||||Wilcoxon signed rank test|||||||0.93
82428635|NCT00656370|164564771|SUPERIORITY|||||||0.67|||||||Wilcoxon signed rank test|||||||0.67
82428636|NCT03366454|164564802|OTHER||AUC|0.6692|STANDARD_ERROR_OF_MEAN|0.05322||0.0048|TWO_SIDED|95.0|0.5649|0.7735|||ROC Curve Analysis|||ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value)||0.7735|0.5649|0.0048
82428637|NCT03366454|164564802|OTHER||AUC|0.6892|STANDARD_ERROR_OF_MEAN|0.05213||0.0029|TWO_SIDED|95.0|0.587|0.7914|||ROC Curve Analysis|||ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.7914|0.5870|0.0029
82428638|NCT03366454|164564803|OTHER||AUC|0.644|STANDARD_ERROR_OF_MEAN|0.05635||0.0233|TWO_SIDED|95.0|0.5335|0.7544|||ROC Curve Analysis||The optimal cutoff value for NLR was determined as 1.335 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.7544|0.5335|0.0233
82428639|NCT03366454|164564804|OTHER||AUC|0.6884|STANDARD_ERROR_OF_MEAN|0.04709||0.0018|TWO_SIDED|95.0|0.5962|0.7807|||ROC Curve Analysis||The optimal cut-off value for CRP was determined as 5.70 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value)||0.7807|0.5962|0.0018
82428640|NCT03366454|164564805|OTHER||AUC|0.7063|STANDARD_ERROR_OF_MEAN|0.04857||0.0007|TWO_SIDED|95.0|0.6111|0.8015|||ROC Curve Analysis||The optimal cutoff value for PCT was determined as 0.141 using the Youden Index.|ROC curve analysis was performed to evaluate outcome. The Area Under the Curve (AUC) was calculated along with a 95% confidence interval and statistical significance (p-value).||0.8015|0.6111|0.0007
82428641|NCT03384875|164564817|SUPERIORITY||Risk Difference (RD)|0.0||||0.517|TWO_SIDED||||||Chi-squared|||||||0.517
82428642|NCT02722408|164564823|OTHER|||||||0.0041||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0041
82428643|NCT02722408|164564824|OTHER|||||||0.001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0010
82428644|NCT02722408|164564825|OTHER|||||||0.0012||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||||||0.0012
82428645|NCT02722408|164564826|OTHER|||||||0.056||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0560
82450231|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.002||||0.5015|TWO_SIDED|95.0|0.281|3.581||1-sided unstratified log-rank test|Log Rank|||High VEGFR3 expression||3.581|0.281|0.5015
82428646|NCT02722408|164564826|OTHER|||||||0.0219||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0219
82428647|NCT02722408|164564826|OTHER|||||||0.0286||||||Mixed-effects model for repeated measures analysis with Change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0286
82428648|NCT02722408|164564827|OTHER|||||||0.0058||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0058
82428649|NCT02722408|164564827|OTHER|||||||0.0019||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0019
82450232|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.005||||0.4887|TWO_SIDED|95.0|0.334|3.025||1-sided unstratified log-rank test|Log Rank|||Low VEGFR3 expression||3.025|0.334|0.4887
82428650|NCT02722408|164564827|OTHER|||||||0.0024||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0024
82428651|NCT02722408|164564828|OTHER|||||||0.0592||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0592
82428652|NCT02722408|164564828|OTHER|||||||0.0266||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0266
82428653|NCT02722408|164564828|OTHER|||||||0.0336||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0336
82428654|NCT02722408|164564829|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
82428655|NCT02722408|164564829|OTHER|||||||0.0017||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0017
82450233|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.818||||0.2432|TWO_SIDED|95.0|0.473|1.414||1-sided unstratified log-rank test|Log Rank|||Indeterminate VEGFR3 expression||1.414|0.473|0.2432
82450234|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.446||||0.2321|TWO_SIDED|95.0|0.048|4.101||1-sided unstratified log-rank test|Log Rank|||Detected FGF expression||4.101|0.048|0.2321
82428656|NCT02722408|164564829|OTHER|||||||0.0017||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0017
82428657|NCT02722408|164564830|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
82428658|NCT02722408|164564830|OTHER|||||||0.0255||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0255
82428659|NCT02722408|164564830|OTHER|||||||0.0312||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 86||||0.0312
82428660|NCT02722408|164564831|OTHER|||||||0.4489||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4489
82428661|NCT02722408|164564831|OTHER|||||||0.5964||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 84||||0.5964
82428662|NCT02722408|164564831|OTHER|||||||0.6785||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.6785
82428663|NCT02722408|164564832|OTHER|||||||0.2177||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.2177
82428664|NCT02722408|164564832|OTHER|||||||0.3209||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.3209
82428665|NCT02722408|164564832|OTHER|||||||0.3101||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.3101
82428666|NCT02722408|164564833|OTHER|||||||0.0057||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0057
82428667|NCT02722408|164564833|OTHER|||||||0.0022||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0022
82428668|NCT02722408|164564833|OTHER|||||||0.0029||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0029
82428669|NCT02722408|164564834|OTHER|||||||0.0008||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.0008
82428670|NCT02722408|164564834|OTHER|||||||0.0005||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.0005
82428671|NCT02722408|164564834|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.0002
82428672|NCT02722408|164564835|OTHER|||||||0.4103||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4103
82428673|NCT02722408|164564835|OTHER|||||||0.6164||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.6164
82428674|NCT02722408|164564835|OTHER|||||||0.6732||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.6732
82428675|NCT02722408|164564836|OTHER|||||||0.2003||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.2003
82428676|NCT02722408|164564836|OTHER|||||||0.3323||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600mg: Day 56||||0.3323
82428677|NCT02722408|164564836|OTHER|||||||0.3047||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900mg: Day 84||||0.3047
82428678|NCT02722408|164564837|OTHER|||||||0.3601||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3601
82428679|NCT02722408|164564837|OTHER|||||||0.192||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1920
82428680|NCT02722408|164564837|OTHER|||||||0.2912||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2912
82428681|NCT02722408|164564837|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||<0.0001
82428682|NCT02722408|164564837|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||<0.0001
82428683|NCT02722408|164564837|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
82428684|NCT02722408|164564837|OTHER|||||||0.0444||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0444
82428685|NCT02722408|164564837|OTHER|||||||0.0159||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0159
82428686|NCT02722408|164564837|OTHER|||||||0.0235||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0235
82428687|NCT02722408|164564837|OTHER|||||||0.0005||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0005
82428688|NCT02722408|164564837|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
82652148|NCT02637557|165019482|SUPERIORITY||Odds Ratio (OR)|1.97||||0.1463|TWO_SIDED|95.0|0.79|4.91||Odds ratio, 95% CI (Confidence Interval) for the Odds Ratio and p-value vs. placebo are obtained from the CMH tests controlling for esophagitis status.|Cochran-Mantel-Haenszel|||||4.91|0.79|0.1463
82428689|NCT02722408|164564837|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in LDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
82428690|NCT02722408|164564838|OTHER|||||||0.3646||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3646
82428691|NCT02722408|164564838|OTHER|||||||0.1994||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1994
82428692|NCT02722408|164564838|OTHER|||||||0.2858||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2858
82428693|NCT02722408|164564838|OTHER|||||||0.0829||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0829
82652149|NCT02637557|165019483|SUPERIORITY||LS Mean Difference|-0.298||||0.5504|TWO_SIDED|95.0|-1.279|0.683||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.683|-1.279|0.5504
82428694|NCT02722408|164564838|OTHER|||||||0.0492||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0492
82428695|NCT02722408|164564838|OTHER|||||||0.0442||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0442
82428696|NCT02722408|164564838|OTHER|||||||0.736||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.7360
82428697|NCT02722408|164564838|OTHER|||||||0.6917||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.6917
82428698|NCT02722408|164564838|OTHER|||||||0.7131||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.7131
82450235|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.316||||0.7143|TWO_SIDED|95.0|0.526|3.292||1-sided unstratified log-rank test|Log Rank|||No detected FGF expression||3.292|0.526|0.7143
82450236|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.844||||0.2812|TWO_SIDED|95.0|0.486|1.465||1-sided unstratified log-rank test|Log Rank|||Indeterminate FGF expression||1.465|0.486|0.2812
82450237|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.6504|TWO_SIDED|95.0|0.248|7.96||1-sided unstratified log-rank test|Log Rank|||Detected FLT3 expression||7.960|0.248|0.6504
82450238|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.838||||0.3266|TWO_SIDED|95.0|0.375|1.876||1-sided unstratified log-rank test|Log Rank|||No detected FLT3 expression||1.876|0.375|0.3266
82450239|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.3597|TWO_SIDED|95.0|0.502|1.598||1-sided unstratified log-rank test|Log Rank|||Indeterminate FLT3 expression||1.598|0.502|0.3597
82652150|NCT02637557|165019483|SUPERIORITY||LS Mean Difference|0.252||||0.6177|TWO_SIDED|95.0|-0.741|1.244||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.244|-0.741|0.6177
82450240|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.342||||0.6907|TWO_SIDED|95.0|0.419|4.297||1-sided unstratified log-rank test|Log Rank|||Detected KIT expression||4.297|0.419|0.6907
82450241|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.199|TWO_SIDED|95.0|0.265|1.731||1-sided unstratified log-rank test|Log Rank|||Participants with no detected KIT expression||1.731|0.265|0.1990
82450242|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.896||||0.3597|TWO_SIDED|95.0|0.502|1.598||1-sided unstratified log-rank test|Log Rank|||Indeterminate KIT expression||1.598|0.502|0.3597
82450243|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.693||||0.3757|TWO_SIDED|95.0|0.071|6.765||1-sided unstratified log-rank test|Log Rank|||Detected RET expression||6.765|0.071|0.3757
82450244|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.3723|TWO_SIDED|95.0|0.358|2.13||1-sided unstratified log-rank test|Log Rank|||No detected RET expression||2.130|0.358|0.3723
82450245|NCT00265317|164607378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.3263|TWO_SIDED|95.0|0.501|1.523||1-sided unstratified log-rank test|Log Rank|||Indeterminate RET expression||1.523|0.501|0.3263
82450246|NCT00265317|164607379|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||VEGFR-3 Ratio to Baseline for Cycle 2, Day 1||||<0.0001
82450247|NCT00265317|164607379|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||VEGFR-3 Ratio to Baseline for Cycle 3, Day 1||||<0.0001
82561751|NCT00824850|164832696|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82450248|NCT00265317|164607381|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||sKIT Ratio to Baseline for Cycle 2, Day 1||||<0.0001
82652151|NCT02637557|165019483|SUPERIORITY||LS Mean Difference|0.513||||0.3138|TWO_SIDED|95.0|-0.488|1.513||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.513|-0.488|0.3138
82652152|NCT02637557|165019484|SUPERIORITY||LS Mean Difference|0.019||||0.9675|TWO_SIDED|95.0|-0.897|0.935||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.935|-0.897|0.9675
82450249|NCT00265317|164607381|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon Rank Sum Test|||sKIT Ratio to Baseline for Cycle 3, Day 1||||<0.0001
82450250|NCT00265317|164607386|SUPERIORITY_OR_OTHER|||||||0.3681||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.3681
82450251|NCT00265317|164607387|SUPERIORITY_OR_OTHER|||||||0.5982||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.5982
82450252|NCT00265317|164607388|SUPERIORITY_OR_OTHER|||||||0.9807||95.0||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.9807
82450253|NCT00265317|164607389|SUPERIORITY_OR_OTHER|||||||0.3945||||||2-sided normal approximated p-value|Wilcoxon Rank Sum Test|||||||0.3945
82450254|NCT03928717|164607461|SUPERIORITY||Mean Difference (Final Values)|0.01|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82450255|NCT03928717|164607462|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82450256|NCT02255461|164607477|OTHER|Ordinal logistic regression model was built for outcome neutropenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.97|1.15||||||||1.15|0.97|
82450257|NCT02255461|164607478|OTHER|Ordinal logistic regression model was built for outcome lymphopenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.97|1.15||||||||1.15|0.97|
82450258|NCT02255461|164607479|OTHER|Ordinal logistic regression model was built for outcome leukopenia (0/1/2). Explanatory variable AUC was transformed by dividing by 100.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|1.01|1.2||||||||1.20|1.01|
82450259|NCT01835158|164607517|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.012|TWO_SIDED|95.0|0.46|0.95|||Log Rank|||||.95|.46|0.012
82450260|NCT01835158|164607518|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.5|1.26||||||||1.26|0.50|
82450261|NCT00880191|164607524|SUPERIORITY_OR_OTHER|||||||0.2344|TWO_SIDED||||||Fisher Exact|||Complete Responders by Arm - Days 2-6, the primary analysis utilizes Fisher's exact test to compare the percentage of complete responders in each group (dex/gabapentin vs. dex/placebo), with complete response being defined as no emetic episodes and no use of rescue therapy for days 2 through 6. If a patient does not complete the study or does not provide complete data, they will be assumed to be a non-responder.||||0.2344
82450262|NCT00880191|164607525|SUPERIORITY_OR_OTHER|||||||0.3694|TWO_SIDED||||||Fisher Exact|||The primary analysis described above was repeated using a slightly different alternate definition of complete response: no emetic episodes, no more than a mean of 2.5 on the nausea numeric analogue scale, and no rescue agents.||||0.3694
82450263|NCT00939562|164607531|SUPERIORITY_OR_OTHER||Ratio|102.95||||||90.0|94.74|111.86|||||The adjusted mean differences and 90% confidence intervals (CIs) were exponentiated to provide the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Doxycycline carragenate=Reference, doxycycline monohydrate=Test.|Natural log transformed Cmax was analyzed using a mixed effects model (sequence, period and treatment were fixed effects and subject within sequence was a random effect).||111.86|94.74|
82428699|NCT02722408|164564838|OTHER|||||||0.0014||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0014
82535820|NCT00797225|164769854|SUPERIORITY||-0.33|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.0007|TWO_SIDED|95.0|-0.52|-0.14|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.14|-0.52|0.0007
82535821|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.62|-0.24|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.24|-0.62|< 0.0001
82535822|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.73|-0.35|||Mixed-effects Repeated Measures Model|||Analysis at Week 8. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.35|-0.73|< 0.0001
82535823|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.1||0.1319|TWO_SIDED|95.0|-0.34|0.04|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||0.04|-0.34|0.1319
82535824|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.0222|TWO_SIDED|95.0|-0.42|-0.03|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.03|-0.42|0.0222
82535825|NCT00797225|164769854|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.66|-0.28|||Mixed-effects Repeated Measures Model|||Analysis at Week 12. The change from baseline in monthly mean sum of dysmenorrhea and non-menstrual pelvic pain scores was analyzed using a mixed-effects repeated measures analysis of covariance model. The model included fixed effects for treatment, time, the treatment-by-time interaction, a random effect for participant, the baseline-by-time interaction and the baseline value as a covariate.||-0.28|-0.66|< 0.0001
82535826|NCT01112735|164769919|SUPERIORITY|||||||0.5621|||||||Wilcoxon (Mann-Whitney)|||||||0.5621
82535827|NCT01112735|164769920|SUPERIORITY|||||||0.3595|||||||Wilcoxon (Mann-Whitney)|||||||0.3595
82535828|NCT01112735|164769921|SUPERIORITY|||||||0.9417|||||||Wilcoxon (Mann-Whitney)|||Day 3||||0.9417
82535829|NCT01112735|164769921|SUPERIORITY|||||||0.5488|||||||Wilcoxon (Mann-Whitney)|||Day 7||||0.5488
82428700|NCT02722408|164564838|OTHER|||||||0.0009||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0009
82428701|NCT02722408|164564838|OTHER|||||||0.0007||||||Mixed-effects model for repeated measures analysis: Change in LDL-C as dependent variable, visit as fixed effect, patient as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0007
82428702|NCT02722408|164564839|OTHER|||||||0.388||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3880
82428703|NCT02722408|164564839|OTHER|||||||0.2057||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2057
82428704|NCT02722408|164564839|OTHER|||||||0.2892||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2892
82535830|NCT01112735|164769921|SUPERIORITY|||||||0.7107|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.7107
82428705|NCT02722408|164564839|OTHER|||||||0.0052||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0052
82428706|NCT02722408|164564839|OTHER|||||||0.0028||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.0028
82428707|NCT02722408|164564839|OTHER|||||||0.0026||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.0026
82428708|NCT02722408|164564839|OTHER|||||||0.0493||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0493
82652153|NCT02637557|165019484|SUPERIORITY||LS Mean Difference|0.419||||0.3741|TWO_SIDED|95.0|-0.507|1.345||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.345|-0.507|0.3741
82428709|NCT02722408|164564839|OTHER|||||||0.0253||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0253
82428710|NCT02722408|164564839|OTHER|||||||0.0394||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0394
82428711|NCT02722408|164564839|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
82428712|NCT02722408|164564839|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
82428713|NCT02722408|164564839|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with percent change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
82428714|NCT02722408|164564840|OTHER|||||||0.3833||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3833
82428715|NCT02722408|164564840|OTHER|||||||0.2172||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2172
82428716|NCT02722408|164564840|OTHER|||||||0.293||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2930
82428717|NCT02722408|164564840|OTHER|||||||0.1217||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.1217
82428718|NCT02722408|164564840|OTHER|||||||0.0901||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0901
82428719|NCT02722408|164564840|OTHER|||||||0.085||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0850
82428720|NCT02722408|164564840|OTHER|||||||0.0747||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0747
82428721|NCT02722408|164564840|OTHER|||||||0.0279||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0279
82428722|NCT02722408|164564840|OTHER|||||||0.0492||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0492
82428723|NCT02722408|164564840|OTHER|||||||0.0003||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0003
82428724|NCT02722408|164564840|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
82428725|NCT02722408|164564840|OTHER|||||||0.0002||||||Mixed-effects model for repeated measures analysis with change in Non-HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0002
82428726|NCT02722408|164564841|OTHER|||||||0.8972||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.8972
82428727|NCT02722408|164564841|OTHER|||||||0.7867||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7867
82428728|NCT02722408|164564841|OTHER|||||||0.4974||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.4974
82428729|NCT02722408|164564841|OTHER|||||||0.5464||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.5464
82428730|NCT02722408|164564841|OTHER|||||||0.7668||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.7668
82428731|NCT02722408|164564841|OTHER|||||||0.9276||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.9276
82428732|NCT02722408|164564841|OTHER|||||||0.5821||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.5821
82428733|NCT02722408|164564841|OTHER|||||||0.8881||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.8881
82428734|NCT02722408|164564841|OTHER|||||||0.8525||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.8525
82428735|NCT02722408|164564841|OTHER|||||||0.0112||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0112
82428736|NCT02722408|164564841|OTHER|||||||0.0018||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0018
82428737|NCT02722408|164564841|OTHER|||||||0.0028||||||Mixed-effects model for repeated measures analysis with percent change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH).||||0.0028
82428738|NCT02722408|164564842|OTHER|||||||0.8985||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.8985
82428739|NCT02722408|164564842|OTHER|||||||0.7664||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7664
82428740|NCT02722408|164564842|OTHER|||||||0.4755||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.4755
82428741|NCT02722408|164564842|OTHER|||||||0.2286||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.2286
82428742|NCT02722408|164564842|OTHER|||||||0.3975||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.3975
82428743|NCT02722408|164564842|OTHER|||||||0.446||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.4460
82428744|NCT02722408|164564842|OTHER|||||||0.9414||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9414
82428745|NCT02722408|164564842|OTHER|||||||0.9735||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.9735
82428746|NCT02722408|164564842|OTHER|||||||0.9825||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.9825
82428747|NCT02722408|164564842|OTHER|||||||0.442||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.4420
82428748|NCT02722408|164564842|OTHER|||||||0.0378||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0378
82428749|NCT02722408|164564842|OTHER|||||||0.0378||||||Mixed-effects model for repeated measures analysis with change in VLDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0378
82535831|NCT01112735|164769921|SUPERIORITY|||||||0.8809|||||||Wilcoxon (Mann-Whitney)|||Day 28||||0.8809
82428750|NCT02722408|164564843|OTHER|||||||0.2305||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.2305
82428751|NCT02722408|164564843|OTHER|||||||0.1836||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1836
82428752|NCT02722408|164564843|OTHER|||||||0.6501||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.6501
82428753|NCT02722408|164564843|OTHER|||||||0.0139||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0139
82428754|NCT02722408|164564843|OTHER|||||||0.0077||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0077
82428755|NCT02722408|164564843|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
82428756|NCT02722408|164564843|OTHER|||||||0.0507||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0507
82428757|NCT02722408|164564843|OTHER|||||||0.0118||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0118
82428758|NCT02722408|164564843|OTHER|||||||0.0122||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0122
82450264|NCT00939562|164607532|SUPERIORITY_OR_OTHER||Ratio|104.67||||||90.0|98.95|110.73|||||The adjusted mean differences and 90% CIs were exponentiated to provide the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Doxycycline carragenate=Reference, doxycycline monohydrate=Test.|Natural log transformed AUCinf was analyzed using a mixed effects model (sequence, period and treatment were fixed effects and subject within sequence was a random effect).||110.73|98.95|
82535832|NCT01112735|164769921|SUPERIORITY|||||||0.4598|||||||Wilcoxon (Mann-Whitney)|||Day 60||||0.4598
82535833|NCT01112735|164769921|SUPERIORITY|||||||0.3837|||||||Wilcoxon (Mann-Whitney)|||Day 90||||0.3837
82428759|NCT02722408|164564843|OTHER|||||||0.0077||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0077
82428760|NCT02722408|164564843|OTHER|||||||0.0317||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0317
82428761|NCT02722408|164564843|OTHER|||||||0.0473||||||Mixed-effects model for repeated measures analysis with percent change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH).||||0.0473
82428762|NCT02722408|164564844|OTHER|||||||0.2143||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.2143
82428763|NCT02722408|164564844|OTHER|||||||0.1874||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1874
82428764|NCT02722408|164564844|OTHER|||||||0.6731||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.6731
82428765|NCT02722408|164564844|OTHER|||||||0.0027||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0027
82428766|NCT02722408|164564844|OTHER|||||||0.002||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0020
82428767|NCT02722408|164564844|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||<0.0001
82535834|NCT01112735|164769922|SUPERIORITY|||||||0.9699|||||||Wilcoxon (Mann-Whitney)|||Day 3||||0.9699
82535835|NCT01112735|164769922|SUPERIORITY|||||||0.4709|||||||Wilcoxon (Mann-Whitney)|||Day 7||||0.4709
82535836|NCT01112735|164769922|SUPERIORITY|||||||0.1406|||||||Wilcoxon (Mann-Whitney)|||Day 14||||0.1406
82535837|NCT01112735|164769922|SUPERIORITY|||||||0.4291|||||||Wilcoxon (Mann-Whitney)|||Day 28||||0.4291
82535838|NCT01112735|164769922|SUPERIORITY|||||||0.2704|||||||Wilcoxon (Mann-Whitney)|||Day 60||||0.2704
82428768|NCT02722408|164564844|OTHER|||||||0.0258||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0258
82428769|NCT02722408|164564844|OTHER|||||||0.0044||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0044
82428770|NCT02722408|164564844|OTHER|||||||0.0011||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0011
82450265|NCT01919801|164607533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.633||||||Test was performed using a weighted log-rank test called the Peto-Prentice test with a global 2-sided significance level of 5% after adjusting for stratification factors (race, and severity) in the ITT population.|Adjusted Peto-Prentice|||A total of 121 participants were analysed, however 3 participants did not receive the study medication and were censored at time 0.||||0.633
82535839|NCT01112735|164769922|SUPERIORITY|||||||0.7564|||||||Wilcoxon (Mann-Whitney)|||Day 90||||0.7564
82652154|NCT02637557|165019484|SUPERIORITY||LS Mean Difference|0.461||||0.3275|TWO_SIDED|95.0|-0.464|1.385||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||1.385|-0.464|0.3275
82652155|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.023||||0.856|TWO_SIDED|95.0|-0.226|0.272||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.272|-0.226|0.8560
82428771|NCT02722408|164564844|OTHER|||||||0.0083||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0083
82428772|NCT02722408|164564844|OTHER|||||||0.0314||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0314
82428773|NCT02722408|164564844|OTHER|||||||0.0533||||||Mixed-effects model for repeated measures analysis with change in HDL-C as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0533
82428774|NCT02722408|164564845|OTHER|||||||0.3657||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.3657
82428775|NCT02722408|164564845|OTHER|||||||0.1983||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.1983
82535840|NCT00916006|164769927|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82428776|NCT02722408|164564845|OTHER|||||||0.297||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.2970
82428777|NCT02722408|164564845|OTHER|||||||0.0092||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.0092
82428778|NCT02722408|164564845|OTHER|||||||0.0049||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.0049
82428779|NCT02722408|164564845|OTHER|||||||0.0033||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.0033
82428780|NCT02722408|164564845|OTHER|||||||0.0618||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0618
82428781|NCT02722408|164564845|OTHER|||||||0.0298||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0298
82428782|NCT02722408|164564845|OTHER|||||||0.0352||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0352
82428783|NCT02722408|164564845|OTHER|||||||0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0001
82535841|NCT00916006|164769928|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82535842|NCT03419780|164769936|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82535843|NCT03419780|164769937|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82535844|NCT03419780|164769938|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
82428784|NCT02722408|164564845|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
82428785|NCT02722408|164564845|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with percent change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
82428786|NCT02722408|164564846|OTHER|||||||0.3672||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr||||0.3672
82428787|NCT02722408|164564846|OTHER|||||||0.2101||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.2101
82428788|NCT02722408|164564846|OTHER|||||||0.3009||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.3009
82428789|NCT02722408|164564846|OTHER|||||||0.1567||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.1567
82428790|NCT02722408|164564846|OTHER|||||||0.1207||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.1207
82428791|NCT02722408|164564846|OTHER|||||||0.1045||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.1045
82428792|NCT02722408|164564846|OTHER|||||||0.0631||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.0631
82428793|NCT02722408|164564846|OTHER|||||||0.0217||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.0217
82428794|NCT02722408|164564846|OTHER|||||||0.0359||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.0359
82428795|NCT02722408|164564846|OTHER|||||||0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0001
82428796|NCT02722408|164564846|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
82428797|NCT02722408|164564846|OTHER||||||<|0.0001||||||Mixed-effects model for repeated measures analysis with change in TC as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||<0.0001
82428798|NCT02722408|164564847|OTHER|||||||0.9417||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.9417
82428799|NCT02722408|164564847|OTHER|||||||0.7722||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7722
82535845|NCT03419780|164769939|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82428800|NCT02722408|164564847|OTHER|||||||0.5283||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.5283
82428801|NCT02722408|164564847|OTHER|||||||0.5905||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.5905
82428802|NCT02722408|164564847|OTHER|||||||0.7682||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.7682
82428803|NCT02722408|164564847|OTHER|||||||0.9245||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.9245
82428804|NCT02722408|164564847|OTHER|||||||0.6325||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.6325
82535846|NCT03419780|164769940|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82535847|NCT03419780|164769941|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82450266|NCT01843062|164607543|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8205|TWO_SIDED|95.0|0.61|1.87||The primary endpoint was to be considered statistically significant if the 2-sided p-value was less than 0.05. P-value and confidence intervals (CIs) were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.87|0.61|0.8205
82450267|NCT01843062|164607544|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6549|TWO_SIDED|95.0|0.42|1.73||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.73|0.42|0.6549
82450268|NCT01843062|164607545|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8205|TWO_SIDED|95.0|0.61|1.87||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.87|0.61|0.8205
82450269|NCT01843062|164607546|SUPERIORITY||Odds Ratio (OR)|0.85||||0.6549|TWO_SIDED|95.0|0.42|1.73||P-value and CIs were calculated using profile likelihood.|Regression, Logistic|||Selumetinib in combination with RAI was compared with placebo in combination with RAI. The analysis was performed using a logistic regression model including treatment as the only covariate. An odds ratio \>1 favours selumetinib in combination with RAI.||1.73|0.42|0.6549
82450270|NCT01677858|164607547|OTHER||Maximum Tolerated Dose (mg/m²)|70.0|||||TWO_SIDED|||||||||||||
82450271|NCT00066963|164607570|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.8|||<|0.001|TWO_SIDED|95.0|1.9|7.6|||Mantel Haenszel|2 d.f.|Counseling Only vs FV 2x/yr+Counseling|Planned sample size of 384 participants (128/study arm) (alpha = 0.05, power = 90%, 50% attrition, χ2 test) to detect caries incidence differences, based on caries incidence in the literature (20% to 50% over two years). 50% attrition in the sample size calculation was selected based on the literature (e.g. Weinstein et al., 1994 reported 53% attrition in six months.)||7.6|1.9|<0.001
82450272|NCT00988091|164607571|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.33||||0.034|TWO_SIDED|95.0|0.41|10.24||The p-value was not adjusted for multiple comparisons because there was a single treatment comparison for the primary endpoint. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||A treatment difference of \>=7.0 mm and a pooled SD of 27.6 mm, requires a sample size of 244 subjects/treatment to complete the trial at 80% power at a two-sided significance level of 5%. To account for 18% dropout rate, the sample size was increased to 298/arm (total of 596). The primary null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||10.24|0.41|0.034
82450273|NCT00988091|164607572|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.89||||0.175|TWO_SIDED|95.0|-1.29|7.08||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||7.08|-1.29|0.175
82450274|NCT00988091|164607573|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.777||||0.193|TWO_SIDED|95.0|0.532|1.136||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Regression, Logistic|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||1.136|0.532|0.193
82450275|NCT00988091|164607574|SUPERIORITY_OR_OTHER|||||||0.887||95.0||||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Cochran-Mantel-Haenszel|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||||0.887
82450276|NCT00988091|164607576|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.0||||0.116|TWO_SIDED|95.0|-0.99|8.98||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate and study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.||8.98|-0.99|0.116
82450277|NCT00988091|164607577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.081|TWO_SIDED|95.0|0.483|1.044||For secondary outcome measures, fixed-sequence testing was used in a sequentially rejective fashion. The a priori threshold for statistical significance was p \<0.05.|Regression, Logistic|The analysis included study center as a stratification variable.||The null hypothesis (Ho) is that the effect of the two treatment groups at 26 weeks is equal and the corresponding alternative hypothesis (HA) is that the effect of the two treatment groups at 26 weeks is unequal.\[||1.044|0.483|0.081
82450278|NCT04260347|164607578|OTHER||Risk Ratio (RR)|1.064||||1|TWO_SIDED|95.0|0.345|1.784|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.784|0.345|1.000
82450279|NCT04260347|164607579|OTHER||Risk Ratio (RR)|0.889||||0.254|TWO_SIDED|95.0|0.699|1.08|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.08|0.699|0.254
82450280|NCT04260347|164607580|OTHER||Risk Ratio (RR)|1.089||||0.28|TWO_SIDED|95.0|0.942|1.237|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.237|0.942|0.280
82535848|NCT03419780|164769942|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
82535849|NCT03643965|164769971|OTHER|Ratio of UPCR at 9 months compared to baseline for Nefecon compared to Placebo|Ratio of geometric LS means|0.73||||0.0003|TWO_SIDED|96.0|0.61|0.88|||MMRM model|||||0.88|0.61|0.0003
82428805|NCT02722408|164564847|OTHER|||||||0.9221||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9221
82428806|NCT02722408|164564847|OTHER|||||||0.8387||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.8387
82428807|NCT02722408|164564847|OTHER|||||||0.0089||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0089
82428808|NCT02722408|164564847|OTHER|||||||0.0013||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0013
82428809|NCT02722408|164564847|OTHER|||||||0.0019||||||Mixed-effects model for repeated measures analysis with percent change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0019
82428810|NCT02722408|164564848|OTHER|||||||0.9195||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Negative LDLr)||||0.9195
82428811|NCT02722408|164564848|OTHER|||||||0.7497||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Negative LDLr)||||0.7497
82428812|NCT02722408|164564848|OTHER|||||||0.5056||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Negative LDLr)||||0.5056
82428813|NCT02722408|164564848|OTHER|||||||0.2468||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Defective LDLr)||||0.2468
82428814|NCT02722408|164564848|OTHER|||||||0.392||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Defective LDLr)||||0.3920
82428815|NCT02722408|164564848|OTHER|||||||0.4456||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Defective LDLr)||||0.4456
82428816|NCT02722408|164564848|OTHER|||||||0.9203||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Met EAS Clinical Diagnosis of HoFH)||||0.9203
82428817|NCT02722408|164564848|OTHER|||||||0.9704||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Met EAS Clinical Diagnosis of HoFH)||||0.9704
82428818|NCT02722408|164564848|OTHER|||||||0.9755||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Met EAS Clinical Diagnosis of HoFH)||||0.9755
82450281|NCT04260347|164607581|OTHER||Standardized Mean Difference (SMD)|0.016||||0.916|TWO_SIDED|95.0|-0.096|0.128|||Wilcoxon (Mann-Whitney)||SMD = Difference in the mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.128|-0.096|0.916
82535850|NCT03643965|164769972|OTHER|Time-weighted average of eGFR, Nefecon compared to Placebo|Ratio of geometric LS means|1.1|||<|0.0001|TWO_SIDED|95.0|1.06|1.15|||robust regression|||||1.15|1.06|<0.0001
82428819|NCT02722408|164564848|OTHER|||||||0.4213||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28 (Not Met EAS Clinical Diagnosis of HoFH)||||0.4213
82428820|NCT02722408|164564848|OTHER|||||||0.03||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0300
82535851|NCT03643965|164769973|OTHER|Ratio of eGFR at 9 months comparison of Nefecon to Placebo|Ratio of geometric LS means|1.07||||0.0014|TWO_SIDED|95.0|1.03|1.13|||robust regression|||||1.13|1.03|0.0014
82535852|NCT03643965|164769974|OTHER|Ratio of eGFR at 12 months comparison of Nefecon to Placebo|Ratio of geometric LS means|1.07||||0.0106|TWO_SIDED|95.0|1.01|1.13|||robust regression|||||1.13|1.01|0.0106
82535853|NCT03643965|164769975|OTHER|Ratio of UACR at 9 months comparison of Nefecon to Placebo|Ratio of geometric LS means|0.69||||0.0005|TWO_SIDED|95.0|0.55|0.86|||MMRM model|||||0.86|0.55|0.0005
82535854|NCT03643965|164769976|OTHER|Time to 30% reduction in eGFR comparison Nefecon to Placebo|Hazard Ratio (HR)|0.45||||0.0028|TWO_SIDED|95.0|0.26|0.75|||Cox proportional hazards model|Cox proportional hazards model with individual patient censoring weighting.||||0.75|0.26|0.0028
82535855|NCT03643965|164769977|OTHER|Time to receiving rescue medication comparison Nefecon to Placebo|Hazard Ratio (HR)|0.68||||0.2647|TWO_SIDED|95.0|0.34|1.33|||Cox proportional hazards model|||||1.33|0.34|0.2647
82535856|NCT03643965|164769978|OTHER|Ratio of UPCR compared to baseline averaged over time points between 12 and 24 months, comparison Nefecon vs Placebo|Ratio of geometric LS means|0.59|||<|0.0001|TWO_SIDED|95.0|0.51|0.68|||MMRM model|||||0.68|0.51|<0.0001
82577151|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.234||0.622|TWO_SIDED|95.0|-0.58|0.35|||MMRM|||Insomnia - Late, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.58|0.6220
82450282|NCT04260347|164607582|OTHER||Risk Ratio (RR)|1.066||||0.561|TWO_SIDED|95.0|0.872|1.261|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.261|0.872|0.561
82450283|NCT04260347|164607583|OTHER||Risk Ratio (RR)|1.231||||0.522|TWO_SIDED|95.0|0.707|1.756|||Chi-squared||Actilyse® (alteplase) pre-approval participants were used as reference group.|||1.756|0.707|0.522
82450284|NCT04260347|164607584|OTHER||Standardized Mean Difference (SMD)|-0.021||||0.81|TWO_SIDED|95.0|-0.133|0.091|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.091|-0.133|0.810
82450285|NCT04260347|164607585|OTHER||Standardized Mean Difference (SMD)|-0.085||||0.179|TWO_SIDED|95.0|-0.199|0.03|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.03|-0.199|0.179
82450286|NCT04260347|164607586|OTHER||Standardized Mean Difference (SMD)|0.042||||0.275|TWO_SIDED|95.0|-0.072|0.156|||Wilcoxon (Mann-Whitney)||SMD = Difference in mean between groups / Standard deviation Actilyse® (alteplase) pre-approval participants were used as reference group.|||0.156|-0.072|0.275
82450287|NCT03549104|164607600|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
82450288|NCT03549104|164607601|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
82450289|NCT03549104|164607602|OTHER||||||||||||||||||We will evaluate the effects of within-group and between-group differences from baseline (Week 0) to program completion (Week 8) to calculate effect sizes for sample size estimation for a future larger study.|||
82450290|NCT03078855|164607608|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.26|TWO_SIDED|95.0|0.83|1.98|||Regression, Cox||The EFS hazard ratio was adjusted for enrolling site, continuous age at randomization, and (via stratification) 3 randomization strata: non-follicular histology, follicular (FL) with low/intermediate FLIPI score and FL with high FLIPI score.|||1.98|0.83|0.26
82450291|NCT03422536|164607630|EQUIVALENCE|The pre-specified significance criteria were met by exclusion of the historical control PFS of 2.0 months. As confirmation, the one-sample log rank test was computed with expected survival estimated using an exponential distribution of 2.0 months.||||||0.04||||||The a priori threshold for statistical significance is \<.05|Log Rank|||||||.04
82450292|NCT03422536|164607635|SUPERIORITY|||||||0.005|||||||Regression, Cox|||c-Met positivity was compared across groups: HPV+ vs HPV-||||.005
82450293|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|0.3||||0.02|TWO_SIDED|95.0|0.1|0.8|||Log Rank|||Post-hoc comparison of progression free survival (PFS) in cMet positive vs. c-Met negative patients.||0.8|0.1|.02
82450294|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|0.1||||0.03|TWO_SIDED|95.0|0.03|0.8|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at cMet positivity in HPV- patients in the combination arm.||0.8|0.03|0.03
82450295|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|3.2||||0.2|TWO_SIDED|95.0|0.6|17.5|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at cMet positivity in HPV+ patients in the combination arm.||17.5|0.6|.20
82450296|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|1.4||||0.1|TWO_SIDED|95.0|0.9|2.0|||Log Rank|||Post-hoc comparison of progression free survival (PFS) in HGF positive vs. HGF negative patients.||2.0|0.9|.10
82450297|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|1.4||||0.6|TWO_SIDED|95.0|0.4|4.7|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P , .10), was assessed using Cox proportional hazards models. Here we are looking at HGF expression in HPV- patients in the combination arm.||4.7|0.4|.60
82450298|NCT03422536|164607635|SUPERIORITY||Cox Proportional Hazard|3.4||||0.07|TWO_SIDED|95.0|0.9|13.1|||Log Rank|||Post hoc comparison of PFS in the combination arm by HPV subgroup, adjusted for prognostic factors marginally associated with HPV status (P \< .10), was assessed using Cox proportional hazards models. Here we are looking at HGF expression in HPV+ patients in the combination arm.||13.1|0.9|.07
82450299|NCT00479856|164607651|SUPERIORITY_OR_OTHER||percentage of participants|33.3||||||95.0|7.5|70.1||||||||70.1|7.5|
82585967|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.0005||||||6M- ESS-TS; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0005
82450300|NCT04164732|164607665|SUPERIORITY||Median Difference (Net)|0.61||||0.5506|TWO_SIDED|80.0|-0.71|1.94|||longitudinal mixed effects (MMRM) model|||||1.94|-0.71|0.5506
82499608|NCT03562481|164689924|EQUIVALENCE|Equivalence was defined based on statistical significance in the symmetry test.|Chi-square test|0.2||||0.65|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Stuart-Maxwell test of marginal homogeneity implemented with the symmetry routine in Stata 16.1||||0.65
82499609|NCT03562481|164689925|EQUIVALENCE|Equivalence was defined based on significance in the symmetry test.|Chi-square test|0.14||||0.71|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Test of symmetry or marginal homogeneity (Stuart-Maxwell) implemented with the symmetry routine in Stata 16.1.||||0.71
82499610|NCT03562481|164689926|EQUIVALENCE|Equivalence was defined based on statistical significance in the symmetry test.|Chi-square test|1.0||||0.32|TWO_SIDED|||||The threshold for statistical significance p\<0.05|Sruart-Maxwell symmetry test|||Test of symmetry (marginal homogeneity, Stuart-Maxwell) implemented using the symmetry routine in Stata 16.1.||||0.32
82450301|NCT04765202|164607849|SUPERIORITY||Percentage Difference|14.3||||1|TWO_SIDED|95.0|-11.64|40.21|||Fisher Exact||Difference was calculated as (percent area of wound closure in SOMA Tx site) - ((percent area of wound closure in AG Tx site). 95% CI was derived using the normal approximation to binomial distribution.|Comparison of complete wound closure without additional autografting at Month 2 in AG TX site and SOMA TX site in Cohort 1 Group 1.||40.21|-11.64|1.0000
82450302|NCT04765202|164607849|SUPERIORITY||Percentage Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Difference was calculated as (percent area of wound closure in SOMA Tx site) - ((percent area of wound closure in AG Tx site). 95% CI was derived using the normal approximation to binomial distribution.|Comparison of complete wound closure without additional autografting at Month 2 in AG TX site and SOMA TX site in Cohort 1 Group 2.||0|0|
82450303|NCT04929249|164607851|SUPERIORITY||LS mean difference|-53.0|||<|0.001|TWO_SIDED|97.5|-60.0|-46.0|||Mixed Models Analysis|||||-46.0|-60.0|<0.001
82450304|NCT04929249|164607852|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the one-sided 98.75% confidence interval did not exceed the non-inferiority margin of 15%.|Difference in percentage|-10.6|||||TWO_SIDED|97.5|-18.3|-3.0|||Normal approx. to binomial distribution||||Upper limit of one-sided 98.75% CI (-3.0%)|-3.0|-18.3|
82450305|NCT04929249|164607853|SUPERIORITY||LS mean difference|-47.6|||<|0.001|TWO_SIDED|95.0|-52.8|-42.3|||Mixed Models Analysis|||||-42.3|-52.8|<0.001
82450306|NCT04929249|164607854|SUPERIORITY||LS mean difference|-54.4|||<|0.001|TWO_SIDED|95.0|-59.0|-49.8|||Regression, Linear|||||-49.8|-59.0|<0.001
82450307|NCT04929249|164607855|SUPERIORITY||LS mean difference|-48.9|||<|0.001|TWO_SIDED|95.0|-52.9|-44.9|||Regression, Linear|||||-44.9|-52.9|<0.001
82450308|NCT04929249|164607856|SUPERIORITY||Odds Ratio (OR)|42.32|||<|0.001|TWO_SIDED|95.0|22.07|81.16|||Regression, Logistic|||||81.16|22.07|<0.001
82450309|NCT04929249|164607857|SUPERIORITY||Odds Ratio (OR)|17.32|||<|0.001|TWO_SIDED|95.0|6.72|44.66|||Regression, Logistic|||||44.66|6.72|<0.001
82450310|NCT04929249|164607858|SUPERIORITY||Odds Ratio (OR)|24.46|||<|0.001|TWO_SIDED|95.0|14.18|42.19|||Regression, Logistic|||||42.19|14.18|<0.001
82450311|NCT04929249|164607859|SUPERIORITY||Odds Ratio (OR)|35.12|||<|0.001|TWO_SIDED|95.0|19.51|63.24|||Regression, Logistic|||||63.24|19.51|<0.001
82450312|NCT04929249|164607860|SUPERIORITY||LS mean difference|-30.1|||<|0.001|TWO_SIDED|95.0|-33.8|-26.3|||Mixed Models Analysis|||Total Cholesterol||-26.3|-33.8|<0.001
82450313|NCT04929249|164607860|SUPERIORITY||LS mean difference|6.6|||<|0.001|TWO_SIDED|95.0|3.6|9.5|||Mixed Models Analysis|||HDL Cholesterol||9.5|3.6|<0.001
82450314|NCT04929249|164607860|SUPERIORITY||LS mean difference|-44.2|||<|0.001|TWO_SIDED|95.0|-49.1|-39.3|||Mixed Models Analysis|||Non-HDL Cholesterol||-39.3|-49.1|<0.001
82450315|NCT04929249|164607860|SUPERIORITY||LS mean difference|-16.9|||<|0.001|TWO_SIDED|95.0|-23.8|-10.0|||Mixed Models Analysis|||VLDL Cholesterol||-10.0|-23.8|<0.001
82450316|NCT04929249|164607860|SUPERIORITY||LS mean difference|-17.8|||<|0.001|TWO_SIDED|95.0|-24.7|-10.9|||Mixed Models Analysis|||Triglycerides||-10.9|-24.7|<0.001
82450317|NCT04929249|164607860|SUPERIORITY||LS mean difference|-42.6|||<|0.001|TWO_SIDED|95.0|-47.5|-37.8|||Mixed Models Analysis|||Apolipoprotein B||-37.8|-47.5|<0.001
82450318|NCT04929249|164607860|SUPERIORITY||LS mean difference|-21.9|||<|0.001|TWO_SIDED|95.0|-25.8|-18.0|||Mixed Models Analysis|||Lipoprotein(a)||-18.0|-25.8|<0.001
82450319|NCT04929249|164607861|SUPERIORITY||LS mean difference|-49.9|||<|0.001|TWO_SIDED|95.0|-56.0|-43.9|||Mixed Models Analysis|||Total Cholesterol||-43.9|-56.0|<0.001
82450320|NCT04929249|164607861|SUPERIORITY||LS mean difference|3.1|||<|0.001|TWO_SIDED|95.0|1.8|4.4|||Mixed Models Analysis|||HDL Cholesterol||4.4|1.8|<0.001
82450321|NCT04929249|164607861|SUPERIORITY||LS mean difference|-52.4|||<|0.001|TWO_SIDED|95.0|-58.1|-46.7|||Mixed Models Analysis|||Non-HDL Cholesterol||-46.7|-58.1|<0.001
82450322|NCT04929249|164607861|SUPERIORITY||LS mean difference|-4.6|||<|0.001|TWO_SIDED|95.0|-6.5|-2.8|||Mixed Models Analysis|||VLDL Cholesterol||-2.8|-6.5|<0.001
82450323|NCT04929249|164607861|SUPERIORITY||LS mean difference|-25.3|||<|0.001|TWO_SIDED|95.0|-34.8|-15.8|||Mixed Models Analysis|||Triglycerides||-15.8|-34.8|<0.001
82450324|NCT04929249|164607861|SUPERIORITY||LS mean difference|-36.3|||<|0.001|TWO_SIDED|95.0|-39.7|-32.9|||Mixed Models Analysis|||Apolipoprotein B||-32.9|-39.7|<0.001
82450325|NCT04929249|164607861|SUPERIORITY||LS mean difference|-8.7|||<|0.001|TWO_SIDED|95.0|-10.7|-6.8|||Mixed Models Analysis|||Lipoprotein(a)||-6.8|-10.7|<0.001
82450326|NCT04929249|164607862|SUPERIORITY||Odds Ratio (OR)|1.06||||0.899|TWO_SIDED|95.0|0.43|2.61|||proportional odds model|||||2.61|0.43|0.899
82450327|NCT04929249|164607863|SUPERIORITY||LS mean difference|-0.008||||0.727|TWO_SIDED|95.0|-0.055|0.039|||Regression, Linear|||||0.039|-0.055|0.727
82450328|NCT00095173|164607875|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.0002|TWO_SIDED|95.0|0.16|0.59|||Log Rank||Abatacept over placebo|||0.59|0.16|0.0002
82450329|NCT00095173|164607876|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82450330|NCT01868334|164607893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared|Chi-square tests for comparisons between-arm changes in vaccination rates between Baseline and Year 1 for RCCT study period||||||0.05
82450331|NCT01868334|164607893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||||||Cochran-Armitage trend tests for percentage point difference between Baseline and Year 1 for RCCT study period|Cochran-Armitage trend test|||||||0.05
82450332|NCT01868334|164607894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Chi-squared|Chi-square tests for comparisons between-arm changes in vaccination rates between pre and post intervention for Pre-post study period||||||0.05
82450333|NCT01868334|164607894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||||||Cochran-Armitage trend tests for difference between pre and post changes in vaccination rates for Pre-Post study period|Cochran-Armitage trend test|||||||0.05
82450334|NCT02951429|164607898|SUPERIORITY||Difference of percentage of participants|3.06||||0.6527|TWO_SIDED|95.0|-11.3|17.97|||Chi-squared|||||17.97|-11.30|0.6527
82450335|NCT02951429|164607899|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.7568|TWO_SIDED|95.0|0.67|1.34|||Log Rank|Log-rank test based on the time to the first event to compare the two treatment arms.||||1.34|0.67|0.7568
82450336|NCT02951429|164607900|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.376|TWO_SIDED|95.0|0.68|1.15|||Log Rank|Log-rank test based on the time to the first event to compare the two treatment arms.||||1.15|0.68|0.3760
82450337|NCT02951429|164607901|SUPERIORITY||Difference (95% CI)|2.85||||0.7046|TWO_SIDED|95.0|-12.13|17.84|||Chi-squared|||||17.84|-12.13|0.7046
82450338|NCT02951429|164607902|SUPERIORITY||Difference (95% CI)|0.94||||0.755|TWO_SIDED|95.0|0.62|1.41|||Log Rank|||||1.41|0.62|0.7550
82450339|NCT02951429|164607903|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9174|TWO_SIDED|95.0|0.65|1.61|||Log Rank|||||1.61|0.65|0.9174
82450340|NCT02951429|164607904|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7748|TWO_SIDED|95.0|0.7|1.62|||Log Rank|||||1.62|0.70|0.7748
82450341|NCT02951429|164607905|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.4258|TWO_SIDED|95.0|0.38|1.5|||Log Rank|||||1.50|0.38|0.4258
82450342|NCT02951429|164607907|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.3161|TWO_SIDED|95.0|0.31|1.47|||Log Rank|||||1.47|0.31|0.3161
82577152|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.225||0.9081|TWO_SIDED|95.0|-0.42|0.47|||MMRM|||Insomnia - Late, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.42|0.9081
82652156|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.124||||0.3301|TWO_SIDED|95.0|-0.126|0.373||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.373|-0.126|0.3301
82450343|NCT02951429|164607917|SUPERIORITY||Difference in mean change from baseline|-206.59||||0.5646|TWO_SIDED|95.0|-920.03|506.85|||Linear Mixed Effects Model|||||506.85|-920.03|0.5646
82450344|NCT02951429|164607918|SUPERIORITY||Median Difference (Final Values)|-3.33||||0.5255|TWO_SIDED|95.0|-9.98|2.36|||ANCOVA|Difference in mean change in total score: -4.22||||2.36|-9.98|0.5255
82450345|NCT02951429|164607919|SUPERIORITY||Median Difference (Final Values)|-6.0||||0.4263|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA|Difference in mean change in total score: -5.07||||6.00|-18.00|0.4263
82450346|NCT01620528|164607925|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450347|NCT01620528|164607925|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450348|NCT01620528|164607926|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450349|NCT01620528|164607926|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450350|NCT01620528|164607927|SUPERIORITY||Difference in LS Mean Change|-0.65|STANDARD_ERROR_OF_MEAN|0.155|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
82450351|NCT01620528|164607927|SUPERIORITY||Difference in LS Mean Change|-1.3|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
82450352|NCT01620528|164607928|SUPERIORITY||Difference in LS Mean Change|-0.45|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|95.0|||||mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
82450353|NCT01620528|164607928|SUPERIORITY||Difference in Least Squares Mean|-1.32|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
82450354|NCT01620528|164607929|SUPERIORITY||Difference in LS Mean Change|-0.16|STANDARD_ERROR_OF_MEAN|0.056||0.004|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||0.004
82450355|NCT01620528|164607929|SUPERIORITY||Least Squares Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.057|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||< 0.001
82450356|NCT01620528|164607930|SUPERIORITY||Difference in LS Mean Change|-0.01|STANDARD_ERROR_OF_MEAN|0.051||0.91|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||0.910
82450357|NCT01620528|164607930|SUPERIORITY||Difference in LS Mean Change|-0.26|STANDARD_ERROR_OF_MEAN|0.051|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||< 0.001
82450358|NCT01620528|164607931|SUPERIORITY||Difference in LS Mean Change|-0.07|STANDARD_ERROR_OF_MEAN|0.056||0.185|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||0.185
82450359|NCT01620528|164607931|SUPERIORITY||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.057|<|0.001|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||< 0.001
82450360|NCT01620528|164607932|SUPERIORITY||Difference in LS Mean Change|-0.09|STANDARD_ERROR_OF_MEAN|0.065||0.144|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.144
82450361|NCT01620528|164607932|SUPERIORITY||Difference in LS Mean Change|-0.2|STANDARD_ERROR_OF_MEAN|0.067||0.003|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.003
82652157|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.019||||0.8845|TWO_SIDED|95.0|-0.27|0.233||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.233|-0.270|0.8845
82450362|NCT01620528|164607933|SUPERIORITY||Difference in LS Mean Change|0.03|STANDARD_ERROR_OF_MEAN|0.037||0.424|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.424
82450363|NCT01620528|164607933|SUPERIORITY||Difference in LS Mean Change|-0.12|STANDARD_ERROR_OF_MEAN|0.038||0.002|TWO_SIDED||||||mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.002
82450364|NCT01620528|164607934|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450365|NCT01620528|164607934|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450366|NCT01620528|164607935|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450367|NCT01620528|164607935|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450368|NCT01620528|164607936|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450369|NCT01620528|164607936|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450370|NCT01620528|164607937|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450371|NCT01620528|164607937|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450372|NCT01620528|164607938|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450373|NCT01620528|164607938|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450374|NCT01620528|164607939|SUPERIORITY|||||||0.103|||||||Regression, Logistic|||||||0.103
82450375|NCT01620528|164607939|SUPERIORITY|||||||0.023|||||||Regression, Logistic|||||||0.023
82450376|NCT01620528|164607940|SUPERIORITY|||||||0.031|||||||Regression, Logistic|||||||0.031
82428821|NCT02722408|164564848|OTHER|||||||0.03||||||Mixed-effects model for repeated measures analysis with change in TG as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84 (Not Met EAS Clinical Diagnosis of HoFH)||||0.0300
82428822|NCT02722408|164564854|OTHER|||||||0.0294||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300mg: Day 28||||0.0294
82428823|NCT02722408|164564854|OTHER|||||||0.3228||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3228
82428824|NCT02722408|164564854|OTHER|||||||0.5268||||||Mixed-effects model for repeated measures analysis with percent change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.5268
82428825|NCT02722408|164564855|OTHER|||||||0.1099||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1099
82428826|NCT02722408|164564855|OTHER|||||||0.5478||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.5478
82428827|NCT02722408|164564855|OTHER|||||||0.8837||||||Mixed-effects model for repeated measures analysis with change in hsCRP as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.8837
82428828|NCT02722408|164564856|OTHER|||||||0.0587||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0587
82428829|NCT02722408|164564856|OTHER|||||||0.1491||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.1491
82428830|NCT02722408|164564856|OTHER|||||||0.2224||||||Mixed-effects model for repeated measures analysis with percent change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2224
82428831|NCT02722408|164564857|OTHER|||||||0.0959||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0959
82428832|NCT02722408|164564857|OTHER|||||||0.0923||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0923
82652158|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.02||||0.8879|TWO_SIDED|95.0|-0.262|0.303||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.303|-0.262|0.8879
82428833|NCT02722408|164564857|OTHER|||||||0.1592||||||Mixed-effects model for repeated measures analysis with change in fibrinogen as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.1592
82428834|NCT02722408|164564858|OTHER|||||||0.5856||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.5856
82428835|NCT02722408|164564858|OTHER|||||||0.644||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.6440
82428836|NCT02722408|164564858|OTHER|||||||0.2269||||||Mixed-effects model for repeated measures analysis with percent change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2269
82428837|NCT02722408|164564859|OTHER|||||||0.4814||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4814
82428838|NCT02722408|164564859|OTHER|||||||0.5011||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.5011
82428839|NCT02722408|164564859|OTHER|||||||0.4356||||||Mixed-effects model for repeated measures analysis with change in Lipoprotein(a) as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.4356
82428840|NCT02722408|164564860|OTHER|||||||0.0669||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0669
82428841|NCT02722408|164564860|OTHER|||||||0.0189||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0189
82450377|NCT01620528|164607940|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82428842|NCT02722408|164564860|OTHER|||||||0.0316||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0316
82428843|NCT02722408|164564861|OTHER|||||||0.0685||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0685
82428844|NCT02722408|164564861|OTHER|||||||0.0114||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0114
82428845|NCT02722408|164564861|OTHER|||||||0.0263||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein B as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0263
82428846|NCT02722408|164564862|OTHER|||||||0.1466||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1466
82428847|NCT02722408|164564862|OTHER|||||||0.3598||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3598
82428848|NCT02722408|164564862|OTHER|||||||0.0685||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0685
82428849|NCT02722408|164564863|OTHER|||||||0.166||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.1660
82535857|NCT03643965|164769979|OTHER|Ratio of UACR compared to baseline averaged over time points between 12 and 24 months, Nefecon vs Placebo|Ratio of geometric LS means|0.54|||<|0.0001|TWO_SIDED|95.0|0.45|0.63|||MMRM model|||||0.63|0.45|<0.0001
82535858|NCT03643965|164769980|OTHER|Ratio of eGFR compared to baseline averaged over time points between 12 and 24 months, comparison Nefecon vs Placebo|Ratio of geometric LS means|1.11|||<|0.0001|TWO_SIDED|95.0|1.06|1.16|||robust regression|||||1.16|1.06|<0.0001
82428850|NCT02722408|164564863|OTHER|||||||0.3423||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3423
82450378|NCT01620528|164607941|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450379|NCT01620528|164607941|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450380|NCT01620528|164607942|SUPERIORITY|||||||0.005|||||||Regression, Logistic|||||||0.005
82450381|NCT01620528|164607942|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450382|NCT01620528|164607943|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||||||0.008
82450383|NCT01620528|164607943|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450384|NCT01620528|164607944|SUPERIORITY|||||||0.306|||||||Regression, Logistic|||||||0.306
82450385|NCT01620528|164607944|SUPERIORITY|||||||0.239|||||||Regression, Logistic|||||||0.239
82450386|NCT01620528|164607945|SUPERIORITY|||||||0.855|||||||Regression, Logistic|||||||0.855
82450387|NCT01620528|164607945|SUPERIORITY|||||||0.012|||||||Regression, Logistic|||||||0.012
82652159|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.017||||0.9072|TWO_SIDED|95.0|-0.266|0.299||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.299|-0.266|0.9072
82450388|NCT01620528|164607946|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||||||0.010
82450389|NCT01620528|164607946|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450390|NCT01620528|164607947|SUPERIORITY|||||||0.061|||||||Regression, Logistic|||||||0.061
82450391|NCT01620528|164607947|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450392|NCT01620528|164607948|SUPERIORITY|||||||0.126|||||||Regression, Logistic|||||||0.126
82450393|NCT01620528|164607948|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||< 0.001
82450394|NCT01620528|164607949|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.65|-0.34|||mixed-effects model|||||-0.34|-0.65|< 0.001
82450395|NCT01620528|164607949|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.81|-0.49|||mixed-effects model|||||-0.49|-0.81|< 0.001
82535859|NCT03643965|164769981|OTHER|Proportion of patients without microhematuria, comparison Nefecon vs Placebo|Odds Ratio (OR)|2.5||||0.0001|TWO_SIDED|95.0|1.6|4.1|||Regression, Logistic|||||4.1|1.6|0.0001
82450396|NCT01620528|164607950|SUPERIORITY||LS Mean of Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|97.5|-0.79|-0.49|||mixed-effects model|||||-0.49|-0.79|< 0.001
82450397|NCT01620528|164607950|SUPERIORITY||LS Mean of Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-1.51|-1.2|||mixed-effects model|||||-1.20|-1.51|< 0.001
82450398|NCT01620528|164607951|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.83|-0.53|||mixed-effects model|||||-0.53|-0.83|< 0.001
82450399|NCT01620528|164607951|SUPERIORITY||LS Mean of Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|97.5|-1.54|-1.23|||mixed-effects model|||||-1.23|-1.54|< 0.001
82450400|NCT01620528|164607952|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.81|-0.49|||mixed-effects model|||||-0.49|-0.81|< 0.001
82450401|NCT01620528|164607952|SUPERIORITY||LS Mean of Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|97.5|-1.49|-1.16|||mixed-effects model|||||-1.16|-1.49|< 0.001
82428851|NCT02722408|164564863|OTHER|||||||0.0313||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-I as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0313
82428852|NCT02722408|164564864|OTHER|||||||0.7196||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.7196
82428853|NCT02722408|164564864|OTHER|||||||0.4343||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.4343
82428854|NCT02722408|164564864|OTHER|||||||0.7241||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.7241
82428855|NCT02722408|164564865|OTHER|||||||0.7952||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.7952
82428856|NCT02722408|164564865|OTHER|||||||0.4931||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.4931
82428857|NCT02722408|164564865|OTHER|||||||0.8622||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein A-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.8622
82450402|NCT01620528|164607953|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.75|-0.43|||mixed-effects model|||||-0.43|-0.75|< 0.001
82652160|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.108||||0.4573|TWO_SIDED|95.0|-0.393|0.177||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.177|-0.393|0.4573
82428858|NCT02722408|164564866|OTHER|||||||0.9823||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.9823
82428859|NCT02722408|164564866|OTHER|||||||0.9129||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.9129
82428860|NCT02722408|164564866|OTHER|||||||0.7762||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 84||||0.7762
82428861|NCT02722408|164564867|OTHER|||||||0.2683||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.2683
82428862|NCT02722408|164564867|OTHER|||||||0.088||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0880
82450403|NCT01620528|164607953|SUPERIORITY||LS Mean of Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|97.5|-1.58|-1.25|||mixed-effects model|||||-1.25|-1.58|< 0.001
82450404|NCT01620528|164607954|SUPERIORITY||LS Mean of Difference|-24.07|STANDARD_ERROR_OF_MEAN|3.288|<|0.001|TWO_SIDED|97.5|-31.45|-16.69|||mixed-effects model|||||-16.69|-31.45|< 0.001
82450405|NCT01620528|164607954|SUPERIORITY||LS Mean of Difference|-31.01|STANDARD_ERROR_OF_MEAN|3.299|<|0.001|TWO_SIDED|97.5|-38.41|-23.6|||mixed-effects model|||||-23.60|-38.41|< 0.001
82450406|NCT01620528|164607955|SUPERIORITY||LS Mean of Difference|-30.79|STANDARD_ERROR_OF_MEAN|3.107||-30.79|TWO_SIDED|97.5|-37.77|-23.82|||mixed-effects model|||||-23.82|-37.77|-30.79
82450407|NCT01620528|164607955|SUPERIORITY||LS Mean of Difference|-63.78|STANDARD_ERROR_OF_MEAN|3.148|<|0.001|TWO_SIDED|97.5|-70.85|-56.71|||mixed-effects model|||||-56.71|-70.85|< 0.001
82450408|NCT01620528|164607956|SUPERIORITY||LS Mean of Difference|-32.21|STANDARD_ERROR_OF_MEAN|3.177|<|0.001|TWO_SIDED|97.5|-39.35|-25.08|||mixed-effects model|||||-25.08|-39.35|< 0.001
82450409|NCT01620528|164607956|SUPERIORITY||LS Mean of Difference|-64.94|STANDARD_ERROR_OF_MEAN|3.23|<|0.001|TWO_SIDED|97.5|-72.19|-57.68|||mixed-effects model|||||-57.68|-72.19|< 0.001
82652161|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.049||||0.7476|TWO_SIDED|95.0|-0.35|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.251|-0.350|0.7476
82428863|NCT02722408|164564867|OTHER|||||||0.0165||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-II as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0165
82428864|NCT02722408|164564868|OTHER|||||||0.4585||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.4585
82450410|NCT01620528|164607957|SUPERIORITY||LS Mean of Difference|-29.94|STANDARD_ERROR_OF_MEAN|3.272|<|0.001|TWO_SIDED|97.5|-37.28|-22.59|||mixed-effects model|||||-22.59|-37.28|< 0.001
82450411|NCT01620528|164607957|SUPERIORITY||LS Mean of Difference|-61.9|STANDARD_ERROR_OF_MEAN|3.356|<|0.001|TWO_SIDED|97.5|-69.44|-54.36|||mixed-effects model|||||-54.36|-69.44|< 0.001
82450412|NCT01620528|164607958|SUPERIORITY||LS Mean of Difference|-28.63|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|97.5|-35.96|-21.31|||mixed-effects model|||||-21.31|-35.96|< 0.001
82428865|NCT02722408|164564868|OTHER|||||||0.3721||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.3721
82652162|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.062||||0.6873|TWO_SIDED|95.0|-0.362|0.239||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.239|-0.362|0.6873
82428866|NCT02722408|164564868|OTHER|||||||0.5305||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.5305
82428867|NCT02722408|164564869|OTHER|||||||0.2937||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.2937
82428868|NCT02722408|164564869|OTHER|||||||0.2182||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.2182
82450413|NCT01620528|164607958|SUPERIORITY||LS Mean of Difference|-66.5|STANDARD_ERROR_OF_MEAN|3.321|<|0.001|TWO_SIDED|97.5|-73.95|-59.04|||mixed-effects model|||||-59.04|-73.95|< 0.001
82450414|NCT01620528|164607959|SUPERIORITY||LS Mean of Difference|-21.39|STANDARD_ERROR_OF_MEAN|3.479|<|0.001|TWO_SIDED|97.5|-29.2|-13.57|||mixed-effects model|||||-13.57|-29.20|< 0.001
82450415|NCT01620528|164607959|SUPERIORITY||LS Mean of Difference|-60.78|STANDARD_ERROR_OF_MEAN|3.557|<|0.001|TWO_SIDED|97.5|-68.77|-52.79|||mixed-effects model|||||-52.79|-68.77|< 0.001
82450416|NCT01620528|164607960|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.036||0.111|TWO_SIDED|97.5|-0.14|0.02|||mixed-effects model|||||0.02|-0.14|0.111
82450417|NCT01620528|164607960|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.036||0.008|TWO_SIDED|97.5|-0.18|-0.01|||mixed-effects model|||||-0.01|-0.18|0.008
82450418|NCT01620528|164607961|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.045||0.092|TWO_SIDED|97.5|-0.18|0.02|||mixed-effects model|||||0.02|-0.18|0.092
82450419|NCT01620528|164607961|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|97.5|-0.28|-0.08|||mixed-effects model|||||-0.08|-0.28|< 0.001
82450420|NCT01620528|164607962|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.017|TWO_SIDED|97.5|-0.23|-0.01|||mixed-effects model|||||-0.01|-0.23|0.017
82450421|NCT01620528|164607962|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|97.5|-0.41|-0.18|||mixed-effects model|||||-0.18|-0.41|< 0.001
82450422|NCT01620528|164607963|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|97.5|-0.31|-0.07|||mixed-effects model|||||-0.07|-0.31|< 0.001
82450423|NCT01620528|164607963|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.51|-0.27|||mixed-effects model|||||-0.27|-0.51|< 0.001
82450424|NCT01620528|164607964|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.053||0.004|TWO_SIDED|97.5|-0.27|-0.03|||mixed-effects model|||||-0.03|-0.27|0.004
82450425|NCT01620528|164607964|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.52|-0.27|||mixed-effects model|||||-0.27|-0.52|< 0.001
82450426|NCT01620528|164607965|SUPERIORITY||LS Mean of Difference|-6.23|STANDARD_ERROR_OF_MEAN|2.748||0.024|TWO_SIDED|97.5|-12.4|-0.06|||mixed-effects model|||||-0.06|-12.40|0.024
82450427|NCT01620528|164607965|SUPERIORITY||LS Mean of Difference|-7.72|STANDARD_ERROR_OF_MEAN|2.756||0.005|TWO_SIDED|97.5|-13.9|-1.53|||mixed-effects model|||||-1.53|-13.90|0.005
82450428|NCT01620528|164607966|SUPERIORITY||LS Mean of Difference|-5.69|STANDARD_ERROR_OF_MEAN|3.226||0.078|TWO_SIDED|97.5|-12.93|1.56|||mixed-effects model|||||1.56|-12.93|0.078
82450429|NCT01620528|164607966|SUPERIORITY||LS Mean of Difference|-13.72|STANDARD_ERROR_OF_MEAN|3.249|<|0.001|TWO_SIDED|97.5|-21.01|-6.42|||mixed-effects model|||||-6.42|-21.01|< 0.001
82450430|NCT01620528|164607967|SUPERIORITY||LS Mean of Difference|-8.47|STANDARD_ERROR_OF_MEAN|3.475||0.015|TWO_SIDED|97.5|-16.27|-0.66|||mixed-effects model|||||-0.66|-16.27|0.015
82450431|NCT01620528|164607967|SUPERIORITY||LS Mean of Difference|-22.49|STANDARD_ERROR_OF_MEAN|3.514|<|0.001|TWO_SIDED|97.5|-30.38|-14.6|||mixed-effects model|||||-14.60|-30.38|< 0.001
82450432|NCT01620528|164607968|SUPERIORITY||LS Mean of Difference|-14.11|STANDARD_ERROR_OF_MEAN|3.673|<|0.001|TWO_SIDED|97.5|-22.36|-5.87|||mixed-effects model|||||-5.87|-22.36|< 0.001
82428869|NCT02722408|164564869|OTHER|||||||0.2937||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein C-III as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.2937
82450433|NCT01620528|164607968|SUPERIORITY||LS Mean of Difference|-30.41|STANDARD_ERROR_OF_MEAN|3.729|<|0.001|TWO_SIDED|97.5|-38.78|-22.04|||mixed-effects model|||||-22.04|-38.78|< 0.001
82450434|NCT01620528|164607969|SUPERIORITY||LS Mean of Difference|-11.55|STANDARD_ERROR_OF_MEAN|3.736||0.002|TWO_SIDED|97.5|-19.94|-3.16|||mixed-effects model|||||-3.16|-19.94|0.002
82450435|NCT01620528|164607969|SUPERIORITY||LS Mean of Difference|-29.68|STANDARD_ERROR_OF_MEAN|3.788|<|0.001|TWO_SIDED|97.5|-38.19|-21.18|||mixed-effects model|||||-21.18|-38.19|< 0.001
82450436|NCT01620528|164607970|SUPERIORITY||LS Mean of Difference|-12.37|STANDARD_ERROR_OF_MEAN|3.805||0.001|TWO_SIDED|97.5|-20.92|-3.83|||mixed-effects model|||||-3.83|-20.92|0.001
82450437|NCT01620528|164607970|SUPERIORITY||LS Mean of Difference|-29.97|STANDARD_ERROR_OF_MEAN|3.868|<|0.001|TWO_SIDED|97.5|-38.66|-21.28|||mixed-effects model|||||-21.28|-38.66|< 0.001
82450438|NCT01620528|164607971|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.038|TWO_SIDED|97.5|-0.22|0.01|||mixed-effects model|||||0.01|-0.22|0.038
82450439|NCT01620528|164607971|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.053||0.488|TWO_SIDED|97.5|-0.16|0.08|||mixed-effects model|||||0.08|-0.16|0.488
82428870|NCT02722408|164564870|OTHER|||||||0.0411||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0411
82428871|NCT02722408|164564870|OTHER|||||||0.0192||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0192
82428872|NCT02722408|164564870|OTHER|||||||0.0445||||||Mixed-effects model for repeated measures analysis with percent change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0445
82428873|NCT02722408|164564871|OTHER|||||||0.0465||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 300 mg: Day 28||||0.0465
82428874|NCT02722408|164564871|OTHER|||||||0.0221||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 600 mg: Day 56||||0.0221
82648327|NCT00597584|165012120|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 95% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.078|||TWO_SIDED|95.0|-0.05|0.26|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study has been determined based on a two group evaluation of non-inferiority using the t-distribution (one-sided significance level 0.025) with a non inferiority margin of -1.0 g/dL. A sample size of approximately 750 (peginesatide group of 500 and epoetin group of 250) provided at least 99% power for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a standard deviation of 1.5 g/dL.||0.26|-0.05|
82428875|NCT02722408|164564871|OTHER|||||||0.0402||||||Mixed-effects model for repeated measures analysis with change in Apolipoprotein E as dependent variable, visit as fixed effect, participant as a random effect. Auto-regressive variance-covariance structure was used.|Mixed Models Analysis|||Gemcabene 900 mg: Day 84||||0.0402
82428876|NCT00272792|164564872|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||Compared Week 10 to Baseline.||||<0.001
82428877|NCT00272792|164564872|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 1 sided|||Compared Week 10 to Baseline.||||0.027
82428878|NCT00272792|164564873|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Longitudinal Model|Longitudinal model with blood Phe measurements as the response variable and treatment group, visit, and baseline blood Phe level as covariates.||||||0.009
82428879|NCT04790786|164564887|EQUIVALENCE|Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.||||||||||||Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound based on Bayesian probability.|Bayesian cumulative logistic model|Bayesian cumulative logistic model, Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.||The primary analysis model was a Bayesian cumulative logistic model that adjusted for treatment location (infusion center or ED), age (\<30, 30-39, 40-49, 50-59, 60-69, 70-79, and ≥ 80 years), sex, and time (2-week epochs). Comparisons between individual mAb were based on the relative odds ratio between a given two arms for the primary outcome. An odds ratio for an arm to a comparator \>1 implies improved outcomes. A sliding scale with different levels of equivalence bounds was pre-defined|Equivalence between two arms was defined as 95% posterior probability the odds ratio is within a given bound.|||
82428880|NCT03257358|164564911|OTHER|Estimation|least squares mean|-413.4|STANDARD_ERROR_OF_MEAN|4.7|||TWO_SIDED|95.0|-422.7||||ANCOVA|||||-404.|-422.7|
82450440|NCT01620528|164607972|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.252|TWO_SIDED|97.5|-0.2|0.07|||mixed-effects model|||||0.07|-0.20|0.252
82428881|NCT03257358|164564911|OTHER|Estimation|least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-3.9|3.6|||ANCOVA|||||3.6|-3.9|
82450441|NCT01620528|164607972|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.061||0.058|TWO_SIDED|97.5|-0.25|0.02|||mixed-effects model|||||0.02|-0.25|0.058
82428882|NCT03257358|164564912|OTHER|Estimation|least squares mean|-368.7|STANDARD_ERROR_OF_MEAN|7.08|||TWO_SIDED|95.0|-382.8|354.7|||ANCOVA|||||354.7|-382.8|
82428883|NCT03257358|164564912|OTHER|Estimation|least squares mean|-0.1|STANDARD_ERROR_OF_MEAN|3.54|||TWO_SIDED|95.0|-7.1|6.9|||ANCOVA|||||6.9|-7.1|
82428884|NCT03257358|164564913|OTHER|Estimation|least squares mean|-52.1|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|95.0|-57.2|-46.9|||ANCOVA|||||-46.9|-57.2|
82428885|NCT03257358|164564913|OTHER|Estimation|least squares mean|-3.1|STANDARD_ERROR_OF_MEAN|2.27|||TWO_SIDED|95.0|-7.6|1.4|||ANCOVA|||||1.4|-7.6|
82428886|NCT03257358|164564914|OTHER|Estimation|least squares mean|-43.6|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|-46.9|-40.3|||ANCOVA|||||-40.3|-46.9|
82428887|NCT03257358|164564914|OTHER|Estimation|least squares mean|-0.7|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|-3.0|1.7|||ANCOVA|||||1.7|-3.0|
82428888|NCT03257358|164564915|OTHER|Estimation|least squares mean|-36.3|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-37.2|-35.3|||ANCOVA|||||-35.3|-37.2|
82428889|NCT03257358|164564915|OTHER|Estimation|least squares mean|0.4|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.4|1.2|||ANCOVA|||||1.2|-0.4|
82428890|NCT03257358|164564916|OTHER|Estimation|least squares mean|-53.2|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|95.0|-55.1|-51.3|||ANCOVA|||||-51.3|-55.1|
82428891|NCT03257358|164564916|OTHER|Estimation|least squares mean|0.4|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.7|1.4|||ANCOVA|||||1.4|-0.7|
82428892|NCT03257358|164564917|OTHER|Estimation|least squares mean|-140.4|STANDARD_ERROR_OF_MEAN|2.71|||TWO_SIDED|95.0|-145.8|-135.0|||ANCOVA|||||-135.0|-145.8|
82428893|NCT03257358|164564917|OTHER|Estimation|least squares mean|0.7|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-1.9|3.3|||ANCOVA|||||3.3|-1.9|
82450442|NCT01620528|164607973|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.069||0.009|TWO_SIDED|97.5|-0.34|-0.03|||mixed-effects model|||||-0.03|-0.34|0.009
82648328|NCT00597584|165012121|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.5|1.24|||Cochran-Mantel-Haenszel|||||1.24|0.50|
82648329|NCT00597584|165012122|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.87|1.07|||Cochran-Mantel-Haenszel|||||1.07|0.87|
82648330|NCT00623623|165012137|OTHER||Relative risk|0.86||||0.195|TWO_SIDED|95.0|0.68|1.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.08|0.68|0.195
82648331|NCT00623623|165012138|OTHER||Relative risk|1.03||||0.904|TWO_SIDED|95.0|0.68|1.55|||modified Poisson regression|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.55|0.68|0.904
82648332|NCT00623623|165012139|OTHER||Relative risk|0.97||||0.905|TWO_SIDED|95.0|0.6|1.58|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.58|0.60|0.905
82648333|NCT00623623|165012140|SUPERIORITY_OR_OTHER||Relative risk|0.73||||0.12|TWO_SIDED|95.0|0.49|1.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.08|0.49|0.120
82648334|NCT00623623|165012141|OTHER||Relative risk|0.79||||0.17|TWO_SIDED|95.0|0.57|1.11|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.11|0.57|0.170
82648335|NCT00623623|165012142|OTHER||Relative risk|1.1||||0.758|TWO_SIDED|95.0|0.61|1.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.97|0.61|0.758
82648336|NCT00623623|165012143|OTHER||Relative risk|1.1||||0.663|TWO_SIDED|95.0|0.73|1.66|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.66|0.73|0.663
82648337|NCT00623623|165012144|OTHER||Relative risk|1.72||||0.148|TWO_SIDED|95.0|0.82|3.6|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||3.60|0.82|0.148
82648338|NCT00623623|165012145|OTHER||Relative risk|0.5||||0.572|TWO_SIDED|95.0|0.05|5.52|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||5.52|0.05|0.572
82648339|NCT00623623|165012146|OTHER||Relative risk|0.81||||0.207|TWO_SIDED|95.0|0.58|1.13|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.13|0.58|0.207
82648340|NCT00623623|165012147|OTHER||Relative risk|0.81||||0.1|TWO_SIDED|95.0|0.63|1.04|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.04|0.63|0.100
82648341|NCT00623623|165012148|OTHER||Relative Risk|0.91||||0.511|TWO_SIDED|95.0|0.67|1.22|||modified Poission Regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.22|0.67|0.511
82648342|NCT00623623|165012149|OTHER||Relative Risk|1.75||||0.369|TWO_SIDED|95.0|0.52|5.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||5.97|0.52|0.369
82648343|NCT00623623|165012150|OTHER||Relative Risk|4.99||||0.168|TWO_SIDED|95.0|0.51|49.08|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||49.08|0.51|0.168
82648344|NCT00623623|165012151|OTHER||Relative Risk|8.02||||0.049|TWO_SIDED|95.0|1.0|63.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||63.97|1.00|0.049
82648345|NCT00623623|165012152|OTHER||Relative Risk|4.51||||0.054|TWO_SIDED|95.0|0.98|20.82|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||20.82|0.98|0.054
82648346|NCT00623623|165012153|OTHER||Relative Risk|2.0||||0.324|TWO_SIDED|95.0|0.5|7.99|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||7.99|0.50|0.324
82648347|NCT00623623|165012154|OTHER||Relative Risk|3.01||||0.032|TWO_SIDED|95.0|1.1|8.24|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||8.24|1.10|0.032
82428894|NCT03257358|164564918|OTHER|Estimation|least squares mean|-85.2|STANDARD_ERROR_OF_MEAN|1.92|||TWO_SIDED|95.0|-89.0|-81.4|||ANCOVA|||||-81.4|-89.0|
82577153|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.191||0.1668|TWO_SIDED|95.0|-0.65|0.11|||MMRM|||Insomnia - Late, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.65|0.1668
82577154|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.189||0.0935|TWO_SIDED|95.0|-0.69|0.05|||MMRM|||Insomnia - Late, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.69|0.0935
82577155|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.15||0.4038|TWO_SIDED|95.0|-0.42|0.17|||MMRM|||Work and Activities, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.42|0.4038
82577156|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.145||0.7559|TWO_SIDED|95.0|-0.24|0.33|||MMRM|||Work and Activities, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.33|-0.24|0.7559
82577157|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.181||0.2006|TWO_SIDED|95.0|-0.59|0.13|||MMRM|||Work and Activities, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.59|0.2006
82577158|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.175||0.6334|TWO_SIDED|95.0|-0.26|0.43|||MMRM|||Work and Activities, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.26|0.6334
82577159|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.23||0.5431|TWO_SIDED|95.0|-0.6|0.32|||MMRM|||Work and Activities, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.60|0.5431
82577160|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.225||0.5278|TWO_SIDED|95.0|-0.3|0.59|||MMRM|||Work and Activities, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.59|-0.30|0.5278
82648348|NCT00623623|165012155|OTHER||Relative Risk|1.36||||0.111|TWO_SIDED|95.0|0.93|1.97|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.97|0.93|0.111
82577161|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.232||0.4312|TWO_SIDED|95.0|-0.64|0.28|||MMRM|||Work and Activities, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.64|0.4312
82577162|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.225||0.3947|TWO_SIDED|95.0|-0.25|0.64|||MMRM|||Work and Activities, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.64|-0.25|0.3947
82577163|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.244||0.6081|TWO_SIDED|95.0|-0.61|0.36|||MMRM|||Work and Activities, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.61|0.6081
82577164|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.238||0.8949|TWO_SIDED|95.0|-0.44|0.5|||MMRM|||Work and Activities, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.50|-0.44|0.8949
82450443|NCT01620528|164607973|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.5|-0.18|||mixed-effects model|||||-0.18|-0.50|< 0.001
82450444|NCT01620528|164607974|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.073||0.06|TWO_SIDED|97.5|-0.3|0.03|||mixed-effects model|||||0.03|-0.30|0.060
82450445|NCT01620528|164607974|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|97.5|-0.44|-0.1|||mixed-effects model|||||-0.10|-0.44|< 0.001
82450446|NCT01620528|164607975|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.074||0.118|TWO_SIDED|97.5|-0.28|0.05|||mixed-effects model|||||0.05|-0.28|0.118
82450447|NCT01620528|164607975|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|97.5|-0.48|-0.13|||mixed-effects model|||||-0.13|-0.48|< 0.001
82428895|NCT03257358|164564918|OTHER|Estimation|least squares mean|0.2|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-2.3|1.9|||ANCOVA|||||1.9|-2.3|
82428896|NCT03257358|164564919|OTHER|Estimation|least squares mean|-27.9|STANDARD_ERROR_OF_MEAN|11.65|||TWO_SIDED|95.0|-51.1|-4.8|||ANCOVA|||||-4.8|-51.1|
82428897|NCT03257358|164564919|OTHER|Estimation|least squares mean|-9.4|STANDARD_ERROR_OF_MEAN|3.47|||TWO_SIDED|95.0|-16.3|-2.6|||ANCOVA|||||-2.6|-16.3|
82428898|NCT03257358|164564920|OTHER|Estimation|least squares mean|-181.2|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-183.3|-179.0|||ANCOVA|||||-179.0|-183.3|
82428899|NCT03257358|164564920|OTHER|Estimation|least squares mean|-0.8|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-4.1|2.5|||ANCOVA|||||2.5|-4.1|
82428900|NCT03257358|164564921|OTHER|Estimation|least squares mean|-55.2|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-56.5|-53.9|||ANCOVA|||||-53.9|-56.5|
82428901|NCT03257358|164564921|OTHER|Estimation|least squares mean|0.3|STANDARD_ERROR_OF_MEAN|0.42|||TWO_SIDED|95.0|-0.5|1.1|||ANCOVA|||||1.1|-0.5|
82428902|NCT03257358|164564922|OTHER|Estimation|least squares mean|-7.2|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-8.0|-6.4|||ANCOVA|||||-6.4|-8.0|
82428903|NCT03257358|164564922|OTHER|Estimation|least squares mean|1.1|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|0.3|2.0|||ANCOVA|||||2.0|0.3|
82428904|NCT03257358|164564923|OTHER|Estimation|least squares mean|69.4|STANDARD_ERROR_OF_MEAN|13.78|||TWO_SIDED|95.0|42.1|96.7|||ANCOVA|||||96.7|42.1|
82450448|NCT01620528|164607976|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.044||0.313|TWO_SIDED|97.5|-0.14|0.05|||mixed-effects model|||||0.05|-0.14|0.313
82450449|NCT01620528|164607976|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.044||0.006|TWO_SIDED|97.5|-0.22|-0.02|||mixed-effects model|||||-0.02|-0.22|0.006
82450450|NCT01620528|164607977|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.047||0.519|TWO_SIDED|97.5|-0.13|0.07|||mixed-effects model|||||0.07|-0.13|0.519
82450451|NCT01620528|164607977|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|97.5|-0.32|-0.11|||mixed-effects model|||||-0.11|-0.32|< 0.001
82450452|NCT01620528|164607978|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.053||0.037|TWO_SIDED|97.5|-0.23|0.01|||mixed-effects model|||||0.01|-0.23|0.037
82450453|NCT01620528|164607978|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|97.5|-0.41|-0.17|||mixed-effects model|||||-0.17|-0.41|< 0.001
82428905|NCT03257358|164564923|OTHER|Estimation|least squares mean|117.0|STANDARD_ERROR_OF_MEAN|10.07|||TWO_SIDED|95.0|97.1|136.9|||ANCOVA|||||136.9|97.1|
82428906|NCT03257358|164564924|OTHER|Estimation|least squares mean|-782.6|STANDARD_ERROR_OF_MEAN|138.9|||TWO_SIDED|95.0|-1058.2|-507.1|||ANCOVA|||||-507.1|-1058.2|
82428907|NCT03257358|164564924|OTHER|Estimation|least squares mean|-485.9|STANDARD_ERROR_OF_MEAN|91.88|||TWO_SIDED|95.0|-667.3|-304.4|||ANCOVA|||||-304.4|-667.3|
82428908|NCT03257358|164564925|OTHER|Estimation|least squares mean|-33.3|STANDARD_ERROR_OF_MEAN|7.47|||TWO_SIDED|95.0|-48.2|-18.5|||ANCOVA|||||-18.5|-48.2|
82428909|NCT03257358|164564925|OTHER|Estimation|least squares mean|-25.8|STANDARD_ERROR_OF_MEAN|5.52|||TWO_SIDED|95.0|-36.7|-14.9|||ANCOVA|||||-14.9|-36.7|
82428910|NCT03257358|164564926|OTHER|Estimation|least squares mean|-888.7|STANDARD_ERROR_OF_MEAN|13.1|||TWO_SIDED|95.0|-914.6|-862.7|||ANCOVA|||||-862.7|-914.6|
82428911|NCT03257358|164564926|OTHER|Estimation|least squares mean|-3.3|STANDARD_ERROR_OF_MEAN|7.24|||TWO_SIDED|95.0|-17.6|11.0|||ANCOVA|||||11.0|-17.6|
82428912|NCT03257358|164564927|OTHER|Estimation|least squares mean|-39.5|STANDARD_ERROR_OF_MEAN|1.053|||TWO_SIDED|95.0|-41.59|-37.42|||ANCOVA|||||-37.42|-41.59|
82428913|NCT03257358|164564927|OTHER|Estimation|least squares mean|0.14|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|-0.87|1.14|||ANCOVA|||||1.14|-0.87|
82428914|NCT03257358|164564928|OTHER|Estimation|least squares mean|-248.9|STANDARD_ERROR_OF_MEAN|15.0|||TWO_SIDED|95.0|-278.7|-219.2|||ANCOVA|||||-219.2|-278.7|
82428915|NCT03257358|164564928|OTHER|Estimation|least squares mean|-9.9|STANDARD_ERROR_OF_MEAN|7.71|||TWO_SIDED|95.0|-25.1|5.4|||ANCOVA|||||5.4|-25.1|
82428916|NCT03257358|164564929|OTHER|Estimation|least squares mean|5.6|STANDARD_ERROR_OF_MEAN|1.249|||TWO_SIDED|95.0|3.13|8.08|||ANCOVA|||||8.08|3.13|
82428917|NCT03257358|164564929|OTHER|Estimation|least squares mean|0.04|STANDARD_ERROR_OF_MEAN|0.364|||TWO_SIDED|95.0|-0.68|0.76|||ANCOVA|||||0.76|-0.68|
82428918|NCT03257358|164564930|OTHER|Estimation|least squares mean|-231.0|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|95.0|-234.5|-227.6|||ANCOVA|||||-227.6|-234.5|
82428919|NCT03257358|164564930|OTHER|Estimation|least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-5.2|4.5|||ANCOVA|||||4.5|-5.2|
82428920|NCT03257358|164564931|OTHER|Estimation|least squares mean|-8.3|STANDARD_ERROR_OF_MEAN|0.455|||TWO_SIDED|95.0|-9.21|-7.4|||ANCOVA|||||-7.40|-9.21|
82450454|NCT01620528|164607979|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.053||0.2|TWO_SIDED|97.5|-0.19|0.05|||mixed-effects model|||||0.05|-0.19|0.200
82450455|NCT01620528|164607979|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.42|-0.18|||mixed-effects model|||||-0.18|-0.42|< 0.001
82450456|NCT01620528|164607980|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.094|<|0.001|TWO_SIDED|95.0|-0.72|-0.34|||ANOVA|||||-0.34|-0.72|< 0.001
82450457|NCT01620528|164607980|SUPERIORITY||LS Mean of Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.095|<|0.001|TWO_SIDED|95.0|-0.93|-0.56|||ANOVA|||||-0.56|-0.93|< 0.001
82450458|NCT01620528|164607981|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.58|-0.19|||ANOVA|||||-0.19|-0.58|< 0.001
82450459|NCT01620528|164607981|SUPERIORITY||LS Mean of Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-1.21|-0.82|||ANOVA|||||-0.82|-1.21|< 0.001
82648349|NCT00623623|165012156|OTHER||Relative Risk|1.08||||0.397|TWO_SIDED|95.0|0.91|1.28|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.28|0.91|0.397
82428921|NCT03257358|164564931|OTHER|Estimation|least squares mean|0.32|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|-0.17|0.82|||ANCOVA|||||0.82|-0.17|
82428922|NCT01747915|164564965|SUPERIORITY||Least Square (LS) Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.088||0.8121|TWO_SIDED|95.0|-0.15|0.19|||ANCOVA|||Estimates and p-values from an ANCOVA model including fixed effects for log transformed baseline value, region, age strata, and treatment group.||0.19|-0.15|0.8121
82428923|NCT01747915|164564965|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.088||0.8889|TWO_SIDED|95.0|-0.19|0.16|||ANCOVA|||Estimates and p-values from an ANCOVA model including fixed effects for log transformed baseline value, region, age strata, and treatment group.||0.16|-0.19|0.8889
82428924|NCT01747915|164564966|SUPERIORITY||Odds Ratio (OR)|1.095||||0.7973|TWO_SIDED|95.0|0.548|2.186||P-values were from a Logistic Regression Model including fixed effects for region, age strata and treatment.|Regression, Logistic|||||2.186|0.548|0.7973
82428925|NCT01747915|164564966|SUPERIORITY||Odds Ratio (OR)|0.934||||0.8474|TWO_SIDED|95.0|0.465|1.877||P-values were from a Logistic Regression Model including fixed effects for region, age strata and treatment.|Regression, Logistic|||||1.877|0.465|0.8474
82428926|NCT00988156|164564967|SUPERIORITY_OR_OTHER|||||||0.249|||||||ANCOVA|||||||0.2490
82428927|NCT00988156|164564968|SUPERIORITY_OR_OTHER|||||||0.9017|||||||Cochran-Mantel-Haenszel|||||||0.9017
82428928|NCT00688467|164564977|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|26.0|STANDARD_DEVIATION|27.377||0.411|||||||ANOVA|||||||0.411
82450460|NCT01620528|164607982|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.81|-0.41|||ANOVA|||||-0.41|-0.81|< 0.001
82450461|NCT01620528|164607982|SUPERIORITY||LS Mean of Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.32|-0.92|||ANOVA|||||-0.92|-1.32|< 0.001
82648350|NCT00623623|165012157|OTHER||Relative Risk|1.13||||0.107|TWO_SIDED|95.0|0.97|1.31|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.31|0.97|0.107
82428929|NCT00688467|164564978|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|23.3|STANDARD_DEVIATION|0.306||0.292|||||||ANOVA|||||||0.292
82428930|NCT00688467|164564980|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|-1.7|STANDARD_DEVIATION|16.261||0.927|||||||ANOVA|||||||0.927
82428931|NCT00688467|164564981|SUPERIORITY_OR_OTHER||100 * (placebo - navarixin) / placebo|4.3|STANDARD_DEVIATION|7.398||0.645|||||||ANOVA|||||||0.645
82428932|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per generalized estimating equations (GEE) model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82428933|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82428934|NCT02163577|164564990|SUPERIORITY||Difference in LS Means|-0.33|||||TWO_SIDED|95.0|-0.63|-0.04||||||Difference in change to Week 40||-0.04|-0.63|
82428935|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428936|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428937|NCT02163577|164564990|SUPERIORITY||Difference in LS Means|-0.16|||||TWO_SIDED|95.0|-0.45|0.13||||||Difference in change to Week 64||0.13|-0.45|
82428938|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428939|NCT02163577|164564990|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428940|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428941|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428942|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82428943|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82428944|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82428945|NCT02163577|164564991|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82428946|NCT02163577|164564992|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428947|NCT02163577|164564992|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428948|NCT02163577|164564992|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82428949|NCT02163577|164564992|SUPERIORITY|||||||0.0024|||||||one sample t test|||Week 64||||0.0024
82428950|NCT02163577|164564992|SUPERIORITY|||||||0.0018|||||||one sample t test|||Week 160||||0.0018
82428951|NCT02163577|164564992|SUPERIORITY|||||||0.0002|||||||one sample t test|||Week 160||||0.0002
82428952|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428953|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 40||||< 0.0001
82428954|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82428955|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82428956|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82428957|NCT02163577|164564993|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82450462|NCT01620528|164607983|SUPERIORITY||LS Mean of Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.83|-0.42|||ANOVA|||||-0.42|-0.83|< 0.001
82535860|NCT02084082|164769984|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|100.37|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|96.562|104.326|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||104.326|96.562|<0.0001
82535861|NCT02084082|164769984|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio (net)|94.7|STANDARD_ERROR_OF_MEAN|1.037||0.0004|TWO_SIDED|90.0|88.712|101.089|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000 Fed/ L+M 1000 Fed)|||101.089|88.712|0.0004
82535862|NCT02084082|164769985|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|108.09|STANDARD_ERROR_OF_MEAN|1.054||0.0038|TWO_SIDED|90.0|99.022|117.989|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||117.989|99.022|0.0038
82535863|NCT02084082|164769985|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.24|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.067|102.597|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||102.597|94.067|<0.0001
82535864|NCT02084082|164769986|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Mean ratio|99.99|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|93.03|107.47|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||107.47|93.03|<0.0001
82535865|NCT02084082|164769986|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.95|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|92.24|101.89|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||101.89|92.24|<0.0001
82535866|NCT02084082|164769987|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.77|STANDARD_ERROR_OF_MEAN|1.046|<|0.0001|TWO_SIDED|90.0|92.464|107.645|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||107.645|92.464|<0.0001
82535867|NCT02084082|164769987|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.97|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|90.0|94.95|103.16|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||103.160|94.950|<0.0001
82535868|NCT02084082|164769988|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.72|STANDARD_ERROR_OF_MEAN|1.028|<|0.0001|TWO_SIDED|90.0|95.163|104.493|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||104.493|95.163|<0.0001
82535869|NCT02084082|164769988|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.36|STANDARD_ERROR_OF_MEAN|1.132||0.0778|TWO_SIDED|90.0|77.082|122.963|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||122.963|77.082|0.0778
82535870|NCT02084082|164769989|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|99.11|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.37|106.35|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fasted/ L+M 1000 fasted)|||106.35|92.37|<0.0001
82561752|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
82561753|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.6||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-10.2|
82561754|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82561755|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.5|
82450463|NCT01620528|164607983|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.107|<|0.001|TWO_SIDED|95.0|-1.47|-1.05|||ANOVA|||||-1.05|-1.47|< 0.001
82428958|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428959|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428960|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428961|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428962|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428963|NCT02163577|164564994|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428964|NCT02163577|164564995|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428965|NCT02163577|164564995|SUPERIORITY|||||||0.0015||||||ANCOVA model includes the change from baseline in RSS as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||0.0015
82428966|NCT02163577|164564995|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428967|NCT02163577|164564995|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428968|NCT02163577|164564995|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428969|NCT02163577|164564995|SUPERIORITY||||||<|0.0001||||||GEE model includes the change from baseline in RSS as the dependent variable, visit, regimen, visit by regimen as factors, and RSS at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428970|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428971|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428972|NCT02163577|164564996|SUPERIORITY||Difference in LS Means|0.21|||||TWO_SIDED|95.0|-0.12|0.54||||||Difference in change to Week 40||0.54|-0.12|
82450464|NCT01620528|164607984|SUPERIORITY||LS Mean of Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.111|<|0.001|TWO_SIDED|95.0|-0.91|-0.48|||ANOVA|||||-0.48|-0.91|< 0.001
82450465|NCT01620528|164607984|SUPERIORITY||LS Mean of Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|-1.54|-1.1|||ANOVA|||||-1.10|-1.54|< 0.001
82450466|NCT01620528|164607985|SUPERIORITY||LS Mean of Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.96|-0.48|||ANOVA|||||-0.48|-0.96|< 0.001
82428973|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428974|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428975|NCT02163577|164564996|SUPERIORITY||Difference in LS Means|-0.02|||||TWO_SIDED|95.0|-0.34|0.29||||||Difference in change to Week 64||0.29|-0.34|
82561756|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82428976|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428977|NCT02163577|164564996|SUPERIORITY||||||<|0.0001||||||Per GEE model, which included visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428978|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428979|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82450467|NCT01620528|164607985|SUPERIORITY||LS Mean of Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.123|<|0.001|TWO_SIDED|95.0|-1.59|-1.11|||ANOVA|||||-1.11|-1.59|< 0.001
82450468|NCT01620528|164607986|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.109||0.011|TWO_SIDED|95.0|-0.52|-0.03|||mixed-effects model|||||-0.03|-0.52|0.011
82450469|NCT01620528|164607986|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|97.5|-0.65|-0.16|||mixed-effects model|||||-0.16|-0.65|< 0.001
82450470|NCT01620528|164607987|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-0.77|-0.16|||mixed-effects model|||||-0.16|-0.77|<0.001
82450471|NCT01620528|164607987|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.138||-0.96|TWO_SIDED|97.5|-1.27|-0.65|||mixed-effects model|||||-0.65|-1.27|-0.96
82450472|NCT01620528|164607988|SUPERIORITY||LS Mean of Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.163|<|0.001|TWO_SIDED|97.5|-1.17|-0.44|||mixed-effects model|||||-0.44|-1.17|< 0.001
82535871|NCT02084082|164769989|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.18|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|93.34|103.27|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 1000\_fed / L+M 1000 fed)|||103.27|93.34|<0.0001
82648351|NCT00623623|165012158|OTHER||Relative Risk|0.84||||0.471|TWO_SIDED|95.0|0.53|1.34|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||1.34|0.53|0.471
82648352|NCT00623623|165012159|SUPERIORITY||Relative Risk|0.35||||0.003|TWO_SIDED|95.0|0.17|0.71|||modified Poisson regression model|modified Poisson regression model with robust error variance||No confirmatory statistical hypothesis was pre-specified. All statistical tests were of exploratory nature based on descriptive p-values for formal statistical hypotheses generation.||0.71|0.17|0.003
82648353|NCT00623623|165012160|OTHER||Relative risk|1.17||||0.451|TWO_SIDED|95.0|0.78|1.73|||modified Poisson regression model|modified Poisson regression model with robust error variance||||1.73|0.78|0.451
82428980|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428981|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428982|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428983|NCT02163577|164564997|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428984|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428985|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||ANCOVA model includes RGI-C as the dependent variable, regimen group as factor, and RSS at baseline as covariate.|ANCOVA|||Week 40||||< 0.0001
82428986|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428987|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82428988|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82535872|NCT04447820|164770010|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3084|||||||Mixed Model for repeated measures (MMRM)|||||||0.3084
82648354|NCT00623623|165012161|OTHER||Relative Risk|0.87||||0.22|TWO_SIDED|95.0|0.69|1.09|||modified Poisson regression model|modified Poisson regression model with robust error variance||||1.09|0.69|0.220
82648355|NCT02186808|165012162|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82648356|NCT01042977|165012186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.0489|<|0.0001|TWO_SIDED|95.0|-0.5|-0.3||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group and stratum as effects and baseline value as covariate for each endpoint|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.30|-0.50|<0.0001
82652163|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.258||||0.0952|TWO_SIDED|95.0|-0.562|0.045||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.045|-0.562|0.0952
82428989|NCT02163577|164564998|SUPERIORITY||||||<|0.0001||||||GEE model includes RGI-C as the dependent variable, visit, regimen, visit by regimen as factors, and RSS total score at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82428990|NCT02163577|164564999|SUPERIORITY|||||||0.0088|||||||one sample t-test|||Week 0 to Week 40||||0.0088
82428991|NCT02163577|164564999|SUPERIORITY|||||||0.465|||||||one sample t-test|||Week 0 to Week 40||||0.4650
82428992|NCT02163577|164564999|SUPERIORITY|||||||0.016|||||||one sample t test|||Week 0 to Week 64||||0.0160
82428993|NCT02163577|164564999|SUPERIORITY|||||||0.4114|||||||one sample t test|||Week 0 to Week 64||||0.4114
82428994|NCT02163577|164564999|SUPERIORITY|||||||0.5335|||||||one sample t test|||Week 64 to Week 112||||0.5335
82428995|NCT02163577|164564999|SUPERIORITY|||||||0.8606|||||||one sample t test|||Week 64 to Week 112||||0.8606
82428996|NCT02163577|164564999|SUPERIORITY|||||||0.1627|||||||one sample t test|||Week 112 to Week 160||||0.1627
82428997|NCT02163577|164564999|SUPERIORITY|||||||0.4096|||||||one sample t test|||Week 112 to Week 160||||0.4096
82428998|NCT02163577|164565000|SUPERIORITY||||||<|0.0001||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82535873|NCT04447820|164770010|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.593|||||||Mixed Model for repeated measures (MMRM)|||||||0.5930
82428999|NCT02163577|164565000|SUPERIORITY|||||||0.0569||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 40||||0.0569
82535874|NCT04447820|164770011|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.9788|||||||MMRM|||||||0.9788
82535875|NCT04447820|164770011|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.1314|||||||MMRM|||||||0.1314
82648357|NCT01042977|165012187|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.0|||<|0.0001|TWO_SIDED|95.0|4.3|9.8||Significant at alpha=0.025 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Cochran-Mantel-Haenszel|with age-by-insulin use-by-time from most recent qualifying CV event as stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||9.8|4.3|<0.0001
82429000|NCT02163577|164565000|SUPERIORITY|||||||0.0002||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 64||||0.0002
82429001|NCT02163577|164565000|SUPERIORITY|||||||0.0456||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 64||||0.0456
82429002|NCT02163577|164565000|SUPERIORITY||||||<|0.0001||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82535876|NCT04447820|164770012|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.884|||||||MMRM analysis|||||||0.8840
82561757|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.1|10.5||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.5|-10.1|
82561758|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-9.1|16.6||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||16.6|-9.1|
82561759|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82561760|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82561761|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|3.3|||||TWO_SIDED|95.0|-8.6|17.2||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.2|-8.6|
82561762|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561763|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.7|10.6||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-9.7|
82561764|NCT00824850|164832697|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561765|NCT02507297|164832719|SUPERIORITY|||||||0.367|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.367
82561766|NCT02507297|164832719|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.48
82561767|NCT02507297|164832720|SUPERIORITY|||||||0.136|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.136
82561768|NCT02507297|164832720|SUPERIORITY|||||||0.324|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.324
82561769|NCT02507297|164832721|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.916
82561770|NCT02507297|164832721|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.752
82561771|NCT02507297|164832722|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Baseline to 8 weeks after baseline||||.568
82561772|NCT02507297|164832722|SUPERIORITY|||||||0.568|||||||t-test, 2 sided|||Baseline to 12 weeks postpartum||||.568
82450473|NCT01620528|164607988|SUPERIORITY||LS Mean of Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.165|<|0.001|TWO_SIDED|97.5|-1.98|-1.24|||mixed-effects model|||||-1.24|-1.98|< 0.001
82450474|NCT01620528|164607989|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.167|<|0.001|TWO_SIDED|97.5|-1.05|-0.3|||mixed-effects model|||||-0.30|-1.05|< 0.001
82450475|NCT01620528|164607989|SUPERIORITY||LS Mean of Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|97.5|-1.99|-1.23|||mixed-effects model|||||-1.23|-1.99|< 0.001
82450476|NCT01620528|164607990|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.176|<|0.001|TWO_SIDED|97.5|-1.04|-0.25|||mixed-effects model|||||-0.25|-1.04|< 0.001
82450477|NCT01620528|164607990|SUPERIORITY||LS Mean of Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.179|<|0.001|TWO_SIDED|97.5|-2.0|-1.2|||mixed-effects model|||||-1.20|-2.00|< 0.001
82450478|NCT01620528|164607991|SUPERIORITY||Difference in LS Means|-6.29|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|-9.37|-3.21|||ANCOVA|||||-3.21|-9.37|< 0.001
82450479|NCT01620528|164607991|SUPERIORITY||Difference in LS Means|-9.76|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-12.91|-6.61|||ANCOVA|||||-6.61|-12.91|< 0.001
82450480|NCT01620528|164607992|SUPERIORITY||Difference in LS Means|-9.28|STANDARD_ERROR_OF_MEAN|1.72|<|0.001|TWO_SIDED|95.0|-12.66|-5.91|||ANCOVA|||||-5.91|-12.66|< 0.001
82450481|NCT01620528|164607992|SUPERIORITY||Difference in LS Means|-18.75|STANDARD_ERROR_OF_MEAN|1.77|<|0.001|TWO_SIDED|95.0|-22.22|-15.27|||ANCOVA|||||-15.27|-22.22|< 0.001
82450482|NCT01620528|164607993|SUPERIORITY||Difference in LS Means|-12.57|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-16.48|-8.66|||ANCOVA|||||-8.66|-16.48|< 0.001
82450483|NCT01620528|164607993|SUPERIORITY||Difference in LS Means|-25.1|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-29.12|-21.09|||ANCOVA|||||-21.09|-29.12|< 0.001
82450484|NCT01620528|164607994|SUPERIORITY||LS Mean of Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.94||0.685|TWO_SIDED|95.0|-4.59|3.02|||ANCOVA|||||3.02|-4.59|0.685
82648358|NCT01042977|165012188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|0.1957|<|0.0001|TWO_SIDED|95.0|-2.31|-1.54||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.54|-2.31|<0.0001
82450485|NCT01620528|164607994|SUPERIORITY||Difference in LS Means|-5.04|STANDARD_ERROR_OF_MEAN|2.03||0.013|TWO_SIDED|95.0|-9.04|-1.05|||ANCOVA|||||-1.05|-9.04|0.013
82450486|NCT01620528|164607995|SUPERIORITY||Difference in LS Means|-4.74|STANDARD_ERROR_OF_MEAN|2.39||0.047|TWO_SIDED|95.0|-9.43|-0.05|||ANCOVA|||||-0.05|-9.43|0.047
82450487|NCT01620528|164607995|SUPERIORITY||Difference in LS Means|-13.86|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-18.89|-8.84|||ANCOVA|||||-8.84|-18.89|< 0.001
82450488|NCT01620528|164607996|SUPERIORITY||Difference in LS Means|-4.71|STANDARD_ERROR_OF_MEAN|2.91||0.107|TWO_SIDED|95.0|-10.43|1.02|||ANCOVA|||||1.02|-10.43|0.107
82450489|NCT01620528|164607996|SUPERIORITY||Difference in LS Means|-17.51|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|-23.52|-11.5|||ANCOVA|||||-11.50|-23.52|< 0.001
82450490|NCT01620528|164607997|SUPERIORITY||Difference in LS Means|0.12|STANDARD_ERROR_OF_MEAN|0.37||0.741|TWO_SIDED|95.0|-0.61|0.85|||ANCOVA|||||0.85|-0.61|0.741
82450491|NCT01620528|164607997|SUPERIORITY||Difference in LS Means|-1.16|STANDARD_ERROR_OF_MEAN|0.38||0.002|TWO_SIDED|95.0|-1.9|-0.42|||ANCOVA|||||-0.42|-1.90|0.002
82450492|NCT01620528|164607998|SUPERIORITY||Difference in LS Means|-0.47|STANDARD_ERROR_OF_MEAN|0.35||0.172|TWO_SIDED|95.0|-1.16|0.21|||ANCOVA|||||0.21|-1.16|0.172
82450493|NCT01620528|164607998|SUPERIORITY||Difference in LS Means|-1.27|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-1.97|-0.57|||ANCOVA|||||-0.57|-1.97|< 0.001
82450494|NCT01620528|164607999|SUPERIORITY||LS Mean of Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.43||0.016|TWO_SIDED|95.0|-1.9|-0.19|||ANCOVA|||||-0.19|-1.90|0.016
82450495|NCT01620528|164607999|SUPERIORITY||Difference in LS Means|-1.78|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-2.65|-0.91|||ANCOVA|||||-0.91|-2.65|< 0.001
82450496|NCT01620528|164608000|SUPERIORITY||Difference in LS Means|-0.77|STANDARD_ERROR_OF_MEAN|0.44||0.08|TWO_SIDED|95.0|-1.63|0.09|||ANCOVA|||||0.09|-1.63|0.080
82450497|NCT01620528|164608000|SUPERIORITY||Difference in LS Means|-1.37|STANDARD_ERROR_OF_MEAN|0.45||0.003|TWO_SIDED|95.0|-2.25|-0.48|||ANCOVA|||||-0.48|-2.25|0.003
82450498|NCT01620528|164608001|SUPERIORITY||Difference in LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.4||0.106|TWO_SIDED|95.0|-1.44|0.14|||ANCOVA|||||0.14|-1.44|0.106
82450499|NCT01620528|164608001|SUPERIORITY||Difference in LS Means|-1.85|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.67|-1.02|||ANCOVA|||||-1.02|-2.67|< 0.001
82450500|NCT01620528|164608002|SUPERIORITY||Difference in LS Means|-0.75|STANDARD_ERROR_OF_MEAN|0.62||0.232|TWO_SIDED|95.0|-1.97|0.48|||ANCOVA|||||0.48|-1.97|0.232
82450501|NCT01620528|164608002|SUPERIORITY||Difference in LS Means|-2.21|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-3.48|-0.93|||ANCOVA|||||-0.93|-3.48|< 0.001
82450502|NCT01620528|164608003|SUPERIORITY||Difference in LS Means|-0.92|STANDARD_ERROR_OF_MEAN|0.37||0.013|TWO_SIDED|95.0|-1.65|-0.2|||ANCOVA|||||-0.20|-1.65|0.013
82450503|NCT01620528|164608003|SUPERIORITY||Difference in LS Means|-1.62|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.35|-0.9|||ANCOVA|||||-0.90|-2.35|< 0.001
82450504|NCT01620528|164608004|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.47||0.005|TWO_SIDED|95.0|-2.24|-0.41|||ANCOVA|||||-0.41|-2.24|0.005
82450505|NCT01620528|164608004|SUPERIORITY||Difference in LS Means|-1.64|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-2.56|-0.71|||ANCOVA|||||-0.71|-2.56|< 0.001
82450506|NCT01620528|164608005|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|-2.53|-0.72|||ANCOVA|||||-0.72|-2.53|< 0.001
82450507|NCT01620528|164608005|SUPERIORITY||Difference in LS Means|-2.1|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-3.02|-1.19|||ANCOVA|||||-1.19|-3.02|< 0.001
82450508|NCT01620528|164608006|SUPERIORITY||Difference in LS Means|-1.21|STANDARD_ERROR_OF_MEAN|0.42||0.004|TWO_SIDED|95.0|-2.05|-0.38|||ANCOVA|||||-0.38|-2.05|0.004
82561773|NCT02507297|164832723|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||||||.486
82535877|NCT04447820|164770012|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.1202|||||||MMRM analysis|||||||0.1202
82535878|NCT04447820|164770013|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.9353|||||||MMRM|||||||0.9353
82535879|NCT04447820|164770013|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3099|||||||MMRM|||||||0.3099
82535880|NCT04447820|164770014|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.2098|||||||MMRM|||||||0.2098
82648359|NCT01042977|165012189|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.6|STANDARD_ERROR_OF_MEAN|2.149|<|0.0001|TWO_SIDED|95.0|9.4|17.8||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, with adjustment for baseline total body weight and age stratum||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||17.8|9.4|<0.0001
82648360|NCT01042977|165012190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|0.7977||0.0007|TWO_SIDED|95.0|-4.28|-1.15||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.15|-4.28|0.0007
82648361|NCT01042977|165012191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|STANDARD_ERROR_OF_MEAN|0.7983||0.0002|TWO_SIDED|95.0|-4.59|-1.46||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.46|-4.59|0.0002
82648362|NCT01042977|165012192|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.9746||0.0004|TWO_SIDED|95.0|-5.35|-1.53||Significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure|ANCOVA|with treatment group and stratum as effects and baseline value as covariate|with stratum = age-by-insulin use-by-time from most recent qualifying CV event|H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.53|-5.35|0.0004
82429003|NCT02163577|164565000|SUPERIORITY|||||||0.0343||||||GEE model included change from baseline for standing height Z score as dependent variable; visit, regimen, visit by regimen, and gender as factors; and age and standing height Z score at baseline as covariates, with exchangeable covariance structure.|GEE model|||Week 160||||0.0343
82429004|NCT02163577|164565005|SUPERIORITY|||||||0.0771||||||GEE model included change in 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0771
82429005|NCT02163577|164565005|SUPERIORITY|||||||0.9098||||||GEE model included change in 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.9098
82450509|NCT01620528|164608006|SUPERIORITY||Difference in LS Means|-2.23|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-3.06|-1.4|||ANCOVA|||||-1.40|-3.06|< 0.001
82450510|NCT01620528|164608007|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|0.39||0.013|TWO_SIDED|95.0|-1.74|-0.2|||ANCOVA|||||-0.20|-1.74|0.013
82535881|NCT04447820|164770014|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.3688|||||||MMRM|||||||0.3688
82648363|NCT02499354|165012193|SUPERIORITY|||||||0.2742|||||||t-test, 1 sided|||||||0.2742
82648364|NCT02499354|165012194|SUPERIORITY|||||||0.55|||||||Chi-squared|||||||0.55
82648365|NCT04356573|165012201|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82429006|NCT02163577|164565005|SUPERIORITY|||||||0.0007||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0007
82450511|NCT01620528|164608007|SUPERIORITY||Difference in LS Means|-1.81|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.58|-1.04|||ANCOVA|||||-1.04|-2.58|< 0.001
82450512|NCT01620528|164608008|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|0.48||0.007|TWO_SIDED|95.0|-2.22|-0.34|||ANCOVA|||||-0.34|-2.22|0.007
82535882|NCT04447820|164770015|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.5647|||||||MMRM|||||||0.5647
82429007|NCT02163577|164565005|SUPERIORITY|||||||0.0327||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0327
82429008|NCT02163577|164565005|SUPERIORITY|||||||0.1865||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.1865
82535883|NCT04447820|164770015|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.217|||||||MMRM|||||||0.2170
82535884|NCT04447820|164770016|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.2562|||||||MMRM|||||||0.2562
82535885|NCT04447820|164770016|NON_INFERIORITY|Approximately 90 participants were planned. Assuming an effect size delta = 0, pooled SD = 21.38, an alpha = 0.05 (1-sided), and a non-inferiority limit of 15%, a sample size of 26 patients per treatment group provided a power of 0.80. In the case that the actual effect size delta was 10%, the power was then 0.2. If the real effect was different, the result less likely showed non-inferiority. To account for any potential drop off, 30 participants in each treatment group, were planned.||||||0.4268|||||||MMRM|||||||0.4268
82535886|NCT03298815|164770021|SUPERIORITY|||||||0.375|||||||McNemar|||||||0.375
82429009|NCT02163577|164565005|SUPERIORITY|||||||0.2654||||||GEE model included change in percent of predicted 6MWT score as the dependent variable; visit, regimen, visit by regimen as factors; and 6MWT at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.2654
82429010|NCT02163577|164565006|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82429011|NCT02163577|164565006|SUPERIORITY|||||||0.0144||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0144
82429012|NCT02163577|164565006|SUPERIORITY|||||||0.0384||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0384
82429013|NCT02163577|164565006|SUPERIORITY|||||||0.0004||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0004
82450513|NCT01620528|164608008|SUPERIORITY||Difference in LS Means|-2.49|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-3.44|-1.54|||ANCOVA|||||-1.54|-3.44|< 0.001
82535887|NCT03298815|164770022|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||||||0.391
82535888|NCT03298815|164770023|SUPERIORITY|||||||0.267|||||||Wilcoxon (Mann-Whitney)|||||||0.267
82535889|NCT03298815|164770024|SUPERIORITY|||||||0.445|||||||Wilcoxon (Mann-Whitney)|||||||0.445
82535890|NCT03298815|164770025|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.250
82535891|NCT03298815|164770026|SUPERIORITY||||||<|1|||||||Wilcoxon (Mann-Whitney)|||||||<1.00
82535892|NCT03298815|164770027|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.500
82429014|NCT02163577|164565006|SUPERIORITY|||||||0.9795||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.9795
82429015|NCT02163577|164565006|SUPERIORITY|||||||0.2082||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.2082
82429016|NCT02163577|164565007|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82429017|NCT02163577|164565007|SUPERIORITY|||||||0.0251||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0251
82429018|NCT02163577|164565007|SUPERIORITY|||||||0.9124||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.9124
82429019|NCT02163577|164565007|SUPERIORITY|||||||0.0016||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0016
82429020|NCT02163577|164565007|SUPERIORITY|||||||0.5677||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.5677
82577165|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.236||0.112|TWO_SIDED|95.0|-0.84|0.09|||MMRM|||Work and Activities, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.09|-0.84|0.1120
82577166|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.228||0.1842|TWO_SIDED|95.0|-0.15|0.76|||MMRM|||Work and Activities, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.76|-0.15|0.1842
82577167|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.26||0.2646|TWO_SIDED|95.0|-0.81|0.22|||MMRM|||Work and Activities, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.81|0.2646
82577168|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.253||0.8101|TWO_SIDED|95.0|-0.56|0.44|||MMRM|||Work and Activities, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.56|0.8101
82577169|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.248||0.0215|TWO_SIDED|95.0|-1.07|-0.09|||MMRM|||Work and Activities, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-1.07|0.0215
82577170|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.242||0.3226|TWO_SIDED|95.0|-0.72|0.24|||MMRM|||Work and Activities, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.72|0.3226
82429021|NCT02163577|164565007|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82648366|NCT01677910|165012203|SUPERIORITY||Mean Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-1.283|-0.337|||Wilcoxon rank sum||Mean difference is calculated as LX1606-Placebo|Primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the urinary 5-HIAA stratification at randomization.||-0.337|-1.283|< 0.001
82648367|NCT01677910|165012203|SUPERIORITY||Mean Difference (Net)|-0.833|||<|0.001|TWO_SIDED|95.0|-1.292|-0.374|||Wilcoxon rank sum||Mean difference is calculated as LX1606-Placebo|Primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the urinary 5-HIAA stratification at randomization.||-0.374|-1.292|< 0.001
82648368|NCT00711867|165012264|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was defined as -0.5 C.|Mean Difference (Final Values)|-0.34||||||95.0|-0.55|-0.14|||t-test, 2 sided|||H0: Mu\_VH - Mu\_BH \<= -0.5 C.||-0.14|-0.55|
82648369|NCT00078819|165012265|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
82652164|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.018||||0.9111|TWO_SIDED|95.0|-0.326|0.291||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.291|-0.326|0.9111
82450514|NCT01620528|164608009|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.87||0.326|TWO_SIDED|95.0|-2.57|0.85|||ANCOVA|||||0.85|-2.57|0.326
82577171|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.51|STANDARD_ERROR_OF_MEAN|0.238||0.0339|TWO_SIDED|95.0|-0.98|-0.04|||MMRM|||Work and Activities, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.98|0.0339
82577172|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.232||0.9824|TWO_SIDED|95.0|-0.46|0.47|||MMRM|||Work and Activities, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.46|0.9824
82577173|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.254||0.095|TWO_SIDED|95.0|-0.93|0.08|||MMRM|||Work and Activities, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.93|0.0950
82429022|NCT02163577|164565008|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82429023|NCT02163577|164565008|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82429024|NCT02163577|164565008|SUPERIORITY|||||||0.0033||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0033
82429025|NCT02163577|164565008|SUPERIORITY|||||||0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0001
82429026|NCT02163577|164565008|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429027|NCT02163577|164565008|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429028|NCT02163577|164565009|SUPERIORITY|||||||0.0014||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0014
82429029|NCT02163577|164565009|SUPERIORITY|||||||0.0028||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0028
82450515|NCT01620528|164608009|SUPERIORITY||Difference in LS Means|-1.93|STANDARD_ERROR_OF_MEAN|0.89||0.031|TWO_SIDED|95.0|-3.67|-0.18|||ANCOVA|||||-0.18|-3.67|0.031
82535893|NCT03298815|164770028|SUPERIORITY|||||||0.563|||||||Wilcoxon (Mann-Whitney)|||||||0.563
82535894|NCT03298815|164770029|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82535895|NCT03298815|164770030|SUPERIORITY|||||||0.156|||||||Wilcoxon (Mann-Whitney)|||||||0.156
82535896|NCT03298815|164770031|SUPERIORITY|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
82535897|NCT03298815|164770032|SUPERIORITY|||||||0.594||||||30 day visit|Wilcoxon (Mann-Whitney)|||||||0.594
82535898|NCT03298815|164770032|SUPERIORITY|||||||0.469||||||60 day visit|Wilcoxon (Mann-Whitney)|||||||0.469
82535899|NCT03298815|164770032|SUPERIORITY|||||||0.75||||||100 day visit|Wilcoxon (Mann-Whitney)|||||||0.750
82535900|NCT03298815|164770033|SUPERIORITY|||||||0.063||||||30 day visit|Wilcoxon (Mann-Whitney)|||||||0.063
82535901|NCT03298815|164770033|SUPERIORITY||||||<|1||||||60 day visit|Wilcoxon (Mann-Whitney)|||||||<1.000
82535902|NCT03298815|164770033|SUPERIORITY|||||||0.25||||||100 day visit|Wilcoxon (Mann-Whitney)|||||||0.250
82535903|NCT00615433|164770034|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||Improvements in PANSS ratings are estimated from 2 prior studies of lurasidone. Assuming lurasidone differs from placebo in change from baseline in PANSS by 6.8 and 10.0 for 40 and 120 mg, respectively, and assuming a standard deviation of 19.1, then n=120 subjects per group provides approximately 97% power (at α=0.05, two-sided) to reject the null hypothesis of no difference from placebo for at least 1 dose. This calculation uses Bonferroni's procedure for controlling pairwise differences.||||<0.05
82535904|NCT00615433|164770035|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
82535905|NCT04739423|164770036|OTHER||Least Squares Mean|5.4822||||0.0479|TWO_SIDED|95.0|0.0575|10.9069|||Mixed Models Analysis|||Between treatment analysis for Accuracy for happiness - change from baseline to Day 14.||10.9069|0.0575|0.0479
82429030|NCT02163577|164565009|SUPERIORITY|||||||0.0536||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0536
82429031|NCT02163577|164565009|SUPERIORITY|||||||0.0002||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0002
82429032|NCT02163577|164565009|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429033|NCT02163577|164565009|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429034|NCT02163577|164565010|SUPERIORITY|||||||0.223||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.2230
82429035|NCT02163577|164565010|SUPERIORITY|||||||0.1132||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.1132
82450516|NCT01620528|164608010|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.88||0.107|TWO_SIDED|95.0|-3.13|0.31|||ANCOVA|||||0.31|-3.13|0.107
82450517|NCT01620528|164608010|SUPERIORITY||Difference in LS Means|-3.52|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.28|-1.75|||ANCOVA|||||-1.75|-5.28|< 0.001
82535906|NCT04739423|164770036|OTHER||Least Squares Mean|4.7954||||0.0161|TWO_SIDED|95.0|0.9843|8.6064|||Mixed Models Analysis|||Between treatment analysis for Accuracy for sadness - Change from baseline to Day 14||8.6064|0.9843|0.0161
82535907|NCT04739423|164770036|OTHER||Least Squares Mean|167.29||||0.0237|TWO_SIDED|95.0|25.36|309.23|||Mixed Models Analysis|||Between treatment analysis of Reaction time for anger - change from baseline to Day 7||309.23|25.36|0.0237
82535908|NCT04739423|164770036|OTHER||Least Squares Mean|-1.2761||||0.7188|TWO_SIDED|95.0|-9.2424|6.6902|||Mixed Models Analysis|||Between treatment analysis for Accuracy for happiness - change from baseline to Day 14||6.6902|-9.2424|0.7188
82450518|NCT01620528|164608011|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.82||0.219|TWO_SIDED|95.0|-2.63|0.6|||ANCOVA|||||0.60|-2.63|0.219
82450519|NCT01620528|164608011|SUPERIORITY||Difference in LS Means|-2.93|STANDARD_ERROR_OF_MEAN|0.84|<|0.001|TWO_SIDED|95.0|-4.59|-1.28|||ANCOVA|||||-1.28|-4.59|< 0.001
82450520|NCT01620528|164608012|SUPERIORITY||Difference in LS Means|-1.6|STANDARD_ERROR_OF_MEAN|0.72||0.026|TWO_SIDED|95.0|-3.01|-0.19|||ANCOVA|||||-0.19|-3.01|0.026
82450521|NCT01620528|164608012|SUPERIORITY||Difference in LS Means|-3.89|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|-5.34|-2.43|||ANCOVA|||||-2.43|-5.34|< 0.001
82450522|NCT01620528|164608013|SUPERIORITY||Difference in LS Means|-0.51|STANDARD_ERROR_OF_MEAN|0.76||0.502|TWO_SIDED|95.0|-2.0|0.98|||ANCOVA|||||0.98|-2.00|0.502
82450523|NCT01620528|164608013|SUPERIORITY||Difference in LS Means|-3.13|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED|95.0|-4.7|-1.56|||ANCOVA|||||-1.56|-4.70|< 0.001
82429036|NCT02163577|164565010|SUPERIORITY|||||||0.2558||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.2558
82429037|NCT02163577|164565010|SUPERIORITY|||||||0.0814||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0814
82429038|NCT02163577|164565010|SUPERIORITY|||||||0.0093||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||0.0093
82429039|NCT02163577|164565010|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429040|NCT02163577|164565011|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||< 0.0001
82429041|NCT02163577|164565011|SUPERIORITY|||||||0.0006||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 40||||0.0006
82429042|NCT02163577|164565011|SUPERIORITY|||||||0.026||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||0.0260
82429043|NCT02163577|164565011|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 64||||< 0.0001
82429044|NCT02163577|164565011|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429045|NCT02163577|164565011|SUPERIORITY||||||<|0.0001||||||GEE model includes change in POSNA-PODCI score as the dependent variable, visit, regimen, visit by regimen as factors, and POSNA-PODCI at baseline as a covariate, with exchangeable covariance structure.|GEE model|||Week 160||||< 0.0001
82429046|NCT02163577|164565015|SUPERIORITY|||||||0.0003|||||||one sample t test|||Week 40||||0.0003
82429047|NCT02163577|164565015|SUPERIORITY|||||||0.0021|||||||one sample t test|||Week 40||||0.0021
82429048|NCT02163577|164565015|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82429049|NCT02163577|164565015|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 64||||< 0.0001
82429050|NCT02163577|164565015|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82429051|NCT02163577|164565015|SUPERIORITY||||||<|0.0001|||||||one sample t test|||Week 160||||< 0.0001
82429052|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.86|1.05|||ANOVA|||Anti-HPV 6||1.05|0.86|<0.001
82429053|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.07|||ANOVA|||Anti-HPV 11||1.07|0.87|<0.001
82429054|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.85|1.04|||ANOVA|||Anti-HPV 16||1.04|0.85|<0.001
82429055|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.84|1.07|||ANOVA|||Anti-HPV 18||1.07|0.84|<0.001
82450524|NCT01620528|164608014|SUPERIORITY||Difference in LS Means|-1.36|STANDARD_ERROR_OF_MEAN|0.85||0.108|TWO_SIDED|95.0|-3.02|0.3|||ANCOVA|||||0.30|-3.02|0.108
82450525|NCT01620528|164608014|SUPERIORITY||Difference in LS Means|-4.47|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-6.19|-2.74|||ANCOVA|||||-2.74|-6.19|< 0.001
82450526|NCT01620528|164608015|SUPERIORITY||Difference in LS Means|-1.19|STANDARD_ERROR_OF_MEAN|0.36||0.001|TWO_SIDED|95.0|-1.9|-0.48|||ANCOVA|||||-0.48|-1.90|0.001
82450527|NCT01620528|164608015|SUPERIORITY||Difference in LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.004|TWO_SIDED|95.0|-1.76|-0.34|||ANCOVA|||||-0.34|-1.76|0.004
82450528|NCT01620528|164608016|SUPERIORITY||Difference in LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.38||0.045|TWO_SIDED|95.0|-1.49|-0.02|||mixed-effects model|||||-0.02|-1.49|0.045
82450529|NCT01620528|164608016|SUPERIORITY||Difference in LS Means|-1.06|STANDARD_ERROR_OF_MEAN|0.38||0.006|TWO_SIDED|95.0|-1.81|-0.31|||ANCOVA|||||-0.31|-1.81|0.006
82450530|NCT01620528|164608017|SUPERIORITY||Difference in LS Means|-0.54|STANDARD_ERROR_OF_MEAN|0.33||0.103|TWO_SIDED|95.0|-1.19|0.11|||ANCOVA|||||0.11|-1.19|0.103
82450531|NCT01620528|164608017|SUPERIORITY||Difference in LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.34||0.003|TWO_SIDED|95.0|-1.64|-0.32|||ANCOVA|||||-0.32|-1.64|0.003
82535909|NCT04739423|164770036|OTHER||Least Squares Mean|1.8955||||0.5478|TWO_SIDED|95.0|-4.9026|8.6935|||Mixed Models Analysis|||Between treatment analysis for Accuracy for sadness - Change from baseline to Day 14||8.6935|-4.9026|0.5478
82535910|NCT04739423|164770036|OTHER||Least Squares Mean|-7.52||||0.951|TWO_SIDED|95.0|-291.21|276.17|||Mixed Models Analysis|||Between treatment analysis of Reaction time for anger - change from baseline to Day 7||276.17|-291.21|0.9510
82648370|NCT00078819|165012266|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
82429056|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.84|1.06|||ANOVA|||Anti-HPV 31||1.06|0.84|<0.001
82429057|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.9|||<|0.001|TWO_SIDED|95.0|0.81|1.0|||ANOVA|||Anti-HPV 33||1.00|0.81|<0.001
82429058|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.86|1.11|||ANOVA|||Anti-HPV 45||1.11|0.86|<0.001
82429059|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||ANOVA|||Anti-HPV 52||1.06|0.85|<0.001
82429060|NCT01073293|164565022|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.89|||<|0.001|TWO_SIDED|95.0|0.8|0.99|||ANOVA|||Anti-HPV 58||0.99|0.80|<0.001
82429061|NCT01073293|164565027|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.2|||<|0.001|TWO_SIDED|95.0|-0.7|1.4|||Miettinen and Nurminen|||Anti-diphtheria titer \>=0.1 IU/mL||1.4|-0.7|<0.001
82429062|NCT01073293|164565027|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen and Nurminen|||Anti-tetanus titer \>=0.1 IU/mL||1.2|-1.1|<0.001
82535911|NCT04739423|164770038|OTHER||Least Squares Mean|0.68||||0.0737|TWO_SIDED|95.0|-0.066|1.432|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.432|-0.066|0.0737
82535912|NCT04739423|164770038|OTHER||Least Squares Mean|1.12||||0.0033|TWO_SIDED|95.0|0.382|1.868|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 14, 4 hours post-dose||1.868|0.382|0.0033
82648371|NCT00078819|165012267|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
82429063|NCT01073293|164565028|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|95.0|0.85|1.06|||ANOVA|||Anti-PT||1.06|0.85|<0.001
82429064|NCT01073293|164565028|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.9|1.08|||ANOVA|||Anti-FHA||1.08|0.90|<0.001
82429065|NCT01073293|164565028|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Difference in GMT|0.94|||<|0.001|TWO_SIDED|95.0|0.8|1.09|||ANOVA|||Anti-PRN||1.09|0.80|<0.001
82429066|NCT01073293|164565028|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.67|Difference in GMT|0.89||||0.005|TWO_SIDED|95.0|0.72|1.11|||ANOVA|||Anti-FIM 2/3||1.11|0.72|0.005
82429067|NCT01073293|164565029|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.2|0.8|||Miettinen and Nurminen|||Poliovirus type 1||0.8|-1.2|<0.001
82429068|NCT01073293|164565029|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|95.0|-1.2|0.8|||Miettinen and Nurminen|||Poliovirus type 2||0.8|-1.2|<0.001
82429069|NCT01073293|164565029|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the difference is statistically less than 10 percentage points|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-0.8|0.8|||Miettinen and Nurminen|||Poliovirus type 3||0.8|-0.8|<0.001
82429070|NCT00077974|164565037|SUPERIORITY_OR_OTHER||Percent|33.0||||||95.0|24.2|42.8|||||Using exact method based on binomial distribution. Percent equals n divided by N times 100.|||42.8|24.2|
82535913|NCT04739423|164770038|OTHER||Least Squares Mean|1.72||||0.0029|TWO_SIDED|95.0|0.6|2.84|||Mixed Models Analysis|||Between treatment comparison for Delayed Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||2.840|0.600|0.0029
82535914|NCT04739423|164770038|OTHER||Least Squares Mean|1.29||||0.0247|TWO_SIDED|95.0|0.168|2.418|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recall: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.418|0.168|0.0247
82577174|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.249||0.4865|TWO_SIDED|95.0|-0.67|0.32|||MMRM|||Work and Activities, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.67|0.4865
82577175|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.292||0.9861|TWO_SIDED|95.0|-0.57|0.58|||MMRM|||Work and Activities, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|-0.57|0.9861
82577176|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.283||0.9266|TWO_SIDED|95.0|-0.59|0.54|||MMRM|||Work and Activities, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.54|-0.59|0.9266
82577177|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.285||0.036|TWO_SIDED|95.0|-1.17|-0.04|||MMRM|||Work and Activities, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-1.17|0.0360
82577178|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.273||0.0583|TWO_SIDED|95.0|-1.06|0.02|||MMRM|||Work and Activities, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-1.06|0.0583
82577179|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.254||0.0404|TWO_SIDED|95.0|-1.03|-0.02|||MMRM|||Work and Activities, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-1.03|0.0404
82429071|NCT01343888|164565049|SUPERIORITY_OR_OTHER||Koch's method|27.5|||<|0.0001|TWO_SIDED|95.0|17.9|37.0||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||37.0|17.9|<0.0001
82429072|NCT01343888|164565049|SUPERIORITY_OR_OTHER||Koch's methond|28.6|||<|0.0001|TWO_SIDED|95.0|19.0|38.2||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||38.2|19.0|<0.0001
82429073|NCT01343888|164565049|SUPERIORITY_OR_OTHER||Koch's method|-1.0|||||TWO_SIDED|95.0|-7.9|5.8|||||adjusted for genotype and race using Koch's method, with continuity correction|||5.8|-7.9|
82429074|NCT01343888|164565050|SUPERIORITY_OR_OTHER||Koch's method|27.1|||<|0.0001|TWO_SIDED|95.0|17.5|36.7||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||36.7|17.5|<0.0001
82429075|NCT01343888|164565050|SUPERIORITY_OR_OTHER||Koch's method|27.8|||<|0.0001|TWO_SIDED|95.0|18.2|37.4||adjusted for genotype and race|Cochran-Mantel-Haenszel||adjusted for genotype and race using Koch's method, with continuity correction|||37.4|18.2|<0.0001
82429076|NCT01343888|164565050|SUPERIORITY_OR_OTHER||Koch's method|-0.6|||||TWO_SIDED|95.0|-7.6|6.3|||||adjusted for genotype and race using Koch's method, with continuity correction|||6.3|-7.6|
82429077|NCT02261961|164565092|SUPERIORITY||Slope|-0.24275|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82450532|NCT01620528|164608018|SUPERIORITY||Difference in LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.36||0.39|TWO_SIDED|95.0|-1.01|0.4|||ANCOVA|||||0.40|-1.01|0.390
82429078|NCT02261961|164565093|SUPERIORITY||Slope|1.3707|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429079|NCT02261961|164565096|SUPERIORITY||Slope|-0.35579|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429080|NCT02261961|164565097|SUPERIORITY||Slope|0.004493|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429081|NCT02261961|164565098|SUPERIORITY||Slope|0.870653|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429082|NCT02261961|164565099|SUPERIORITY||Slope|-0.38664|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82450533|NCT01620528|164608018|SUPERIORITY||Difference in LS Means|-1.05|STANDARD_ERROR_OF_MEAN|0.36||0.003|TWO_SIDED|95.0|-1.75|-0.35|||ANCOVA|||||-0.35|-1.75|0.003
82577180|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.249||0.1352|TWO_SIDED|95.0|-0.87|0.12|||MMRM|||Work and Activities, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.87|0.1352
82577181|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.121||0.0056|TWO_SIDED|95.0|0.1|0.58|||MMRM|||Retardation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|0.10|0.0056
82648372|NCT00078819|165012268|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Van Elteren test|Two-sided van Elteren's test stratified by age group||||||<0.0001
82648373|NCT00078819|165012269|SUPERIORITY|The significance levels for primary and secondary efficacy end points were controlled at 0.05 with the use of a sequential testing scheme in this order: PASI 75, PASI 50, a physician's global assessment of clear or almost clear, percentage improvement from baseline in CDLQI, and PASI 90.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test stratified by age group||||||<0.0001
82648374|NCT02555618|165012272|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|1.7|||||TWO_SIDED|95.0|-7.983|11.415|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||11.415|-7.983|
82648375|NCT02555618|165012272|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-4.8|||||TWO_SIDED|95.0|-13.974|4.403|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||4.403|-13.974|
82648376|NCT02555618|165012272|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|2.6|||||TWO_SIDED|95.0|-6.082|11.32|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||11.320|-6.082|
82648377|NCT02555618|165012273|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.7984|1.2253|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.2253|0.7984|
82648378|NCT02555618|165012273|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.76|||||TWO_SIDED|95.0|0.5544|1.05|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.0500|0.5544|
82648379|NCT02555618|165012273|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.06|||||TWO_SIDED|95.0|0.8134|1.3931|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.3931|0.8134|
82648380|NCT02555618|165012276|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|6.8|||||TWO_SIDED|95.0|-3.02|16.348||||||The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||16.348|-3.020|
82429083|NCT02261961|164565100|SUPERIORITY||Slope|0.335124|||>|0.05|TWO_SIDED||||||ANCOVA|||Outcomes were compared as percent change from the baseline measure using multiple methods by a blinded statistician. Differences between groups were assessed using ANCOVA, Welch's t-test, and Wilcoxon. No significant differences were found between groups for any outcome regardless of method used.||||>0.05
82648381|NCT02555618|165012276|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-8.8|||||TWO_SIDED|95.0|-18.282|0.901||||||The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||0.901|-18.282|
82648382|NCT02555618|165012276|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-2.3|||||TWO_SIDED|95.0|-11.461|6.835||||||The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||6.835|-11.461|
82648383|NCT02555618|165012277|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.05|||||TWO_SIDED|95.0|0.9559|1.1473|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.1473|0.9559|
82648384|NCT02555618|165012277|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.9|||||TWO_SIDED|95.0|0.7862|1.0241|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.0241|0.7862|
82648385|NCT02555618|165012277|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.98|||||TWO_SIDED|95.0|0.9273|1.0364|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.0364|0.9273|
82648386|NCT02555618|165012280|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|14.7|||||TWO_SIDED|95.0|5.489|23.577||||||The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||23.577|5.489|
82648387|NCT02555618|165012280|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-1.9|||||TWO_SIDED|95.0|-10.614|6.928||||||The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||6.928|-10.614|
82648388|NCT02555618|165012280|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-2.4|||||TWO_SIDED|95.0|-10.346|5.579||||||The analysis is difference of seroconversion rate between treatment groups for B-Strain.||5.579|-10.346|
82648389|NCT02555618|165012281|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.1221|1.9623|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.9623|1.1221|
82648390|NCT02555618|165012281|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.7806|1.4564|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2 Strain-Day 22.||1.4564|0.7806|
82648391|NCT02555618|165012281|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.8166|1.3934|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.3934|0.8166|
82648392|NCT02555618|165012284|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|1.1|||||TWO_SIDED|95.0|-7.195|9.423|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H1N1 Strain-Day 22.||9.423|-7.195|
82648393|NCT02555618|165012284|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|-0.8|||||TWO_SIDED|95.0|-10.369|8.803|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for A/H3N2 Strain-Day 22.||8.803|-10.369|
82429084|NCT02261961|164565102|SUPERIORITY||Slope|0.03145|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429085|NCT02261961|164565103|SUPERIORITY||Slope|-0.43902|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429086|NCT02261961|164565113|SUPERIORITY||Slope|-0.07603|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429087|NCT02261961|164565132|SUPERIORITY||Slope|-0.4745|||>|0.05|TWO_SIDED||||||ANCOVA|||||||>0.05
82429088|NCT01365793|164565168|SUPERIORITY|Each statistical test uses stratification to adjust for enrolling hospital, and the arm not being tested (e.g., the test for rapid vs slower rehydration is stratified by 0.45% and 0.9% Saline, and vice versa).||||||0.34||||||The a priori threshold for statistical significance for each of the 2 p-values is 0.025, for an overall significance of 0.50.|Cochran-Mantel-Haenszel|||The study uses a factorial experimental design, and tests two null hypotheses. The first of these hypotheses - the frequency of GCS score declines to \<14 is equal between the Rapid Rehydration and Slower Rehydration groups - is reported here. The analysis of the second hypothesis is reported below.||||0.34
82429089|NCT01365793|164565168|SUPERIORITY|Each statistical test uses stratification to adjust for enrolling hospital, and the arm not being tested (e.g., the test for rapid vs slower rehydration is stratified by 0.45% and 0.9% Saline, and vice versa).||||||0.43||||||The a priori threshold for statistical significance for each of the 2 p-values is 0.025, for an overall significance of 0.50.|Cochran-Mantel-Haenszel|||The study uses a factorial experimental design, and tests the two null hypotheses. The second of these hypotheses - the frequency of GCS score declines to \<14 is equal between the 0.45% Saline group and the 0.90% Saline group - is reported here. The analysis of the first hypothesis is reported above.||||0.43
82429090|NCT01469039|164565173|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82429091|NCT01469039|164565173|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82429092|NCT01469039|164565174|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||significant p-value, active vs placebo|Wilcoxon rank sum test based on LOCF|||||||<0.001
82429093|NCT01469039|164565174|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||significant p-value, active vs placebo|Wilcoxon rank sum test based on LOCF|||||||<0.001
82429094|NCT00856609|164565175|OTHER||Slope|-624.8||||0.01|TWO_SIDED|95.0|-901.8|-347.8|||ANCOVA|||||-347.8|-901.8|0.01
82429095|NCT00856609|164565176|OTHER||Slope|-24.0||||0.01|TWO_SIDED|95.0|-89.7|41.4|||ANCOVA|||||41.4|-89.7|0.01
82429096|NCT00856609|164565177|OTHER||Slope|-1.48||||0.05|TWO_SIDED|95.0|-3.02|0.05|||ANCOVA|||||0.05|-3.02|0.05
82429097|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||This is the Baseline P-Value|ANOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.368
82429098|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.327||95.0||||This P-Value if for Month 1|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.327
82450534|NCT01620528|164608019|SUPERIORITY||Difference in LS Means|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.46|TWO_SIDED|95.0|-0.72|0.32|||ANCOVA|||||0.32|-0.72|0.460
82450535|NCT01620528|164608019|SUPERIORITY||Difference in LS Means|-1.04|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.57|-0.52|||ANCOVA|||||-0.52|-1.57|< 0.001
82450536|NCT01620528|164608020|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.35||0.095|TWO_SIDED|95.0|-1.28|0.1|||ANCOVA|||||0.10|-1.28|0.095
82429099|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.991||95.0||||This P-Value is for Month 3|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.991
82450537|NCT01620528|164608020|SUPERIORITY||Difference in LS Means|-1.3|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.01|-0.59|||ANCOVA|||||-0.59|-2.01|< 0.001
82429100|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.168||95.0||||This P-Value is for Month 6|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.168
82429101|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||This P-Value is for Month 9|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.319
82429102|NCT00783432|164565180|SUPERIORITY_OR_OTHER|||||||0.725||||||This P-Value is for Month 12/ET|ANCOVA|||Sample size was based on ICH Guideline E1:The Extent of Population Exposure to Assess Clinical Safety for Drugs Intended for Long-Term Treatment of Non-Life-Threatening Conditions. Comparisons performed using ANCOVA with baseline as a covariate. The model included treatment group and country as fixed effects to estimate least squares means.||||0.725
82429103|NCT01436110|164565181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.43|TWO_SIDED|95.0|-0.055|0.128|||ANCOVA|||||0.128|-0.055|0.430
82429104|NCT01436110|164565181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102||||0.03|TWO_SIDED|95.0|0.01|0.194|||ANCOVA|||||0.194|0.010|0.030
82429105|NCT03273907|164565187|SUPERIORITY|The primary null hypothesis tested was that the observed rate of clinically relevant complications associated with CyPass Micro-Stent placement and stability is greater than or equal to the performance target rate of 7.00 percent.||||||0.187|||||||Exact one-sided binomial test|P-value is provided from exact one-sided binomial test with type I error 0.05 comparing CyPass System with performance criterion of 7.00 percent.||||||0.1870
82450538|NCT01620528|164608021|SUPERIORITY||Difference in LS Means|-0.71|STANDARD_ERROR_OF_MEAN|0.97||0.462|TWO_SIDED|95.0|-2.61|1.19|||ANCOVA|||||1.19|-2.61|0.462
82450539|NCT01620528|164608021|SUPERIORITY||Difference in LS Means|-3.23|STANDARD_ERROR_OF_MEAN|0.98||0.001|TWO_SIDED|95.0|-5.16|-1.3|||ANCOVA|||||-1.30|-5.16|0.001
82450540|NCT01620528|164608022|SUPERIORITY||Difference in LS Means|-2.02|STANDARD_ERROR_OF_MEAN|0.97||0.039|TWO_SIDED|95.0|-3.93|-0.11|||ANCOVA|||||-0.11|-3.93|0.039
82450541|NCT01620528|164608022|SUPERIORITY||Difference in LS Means|-4.86|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-6.82|-2.9|||ANCOVA|||||-2.90|-6.82|< 0.001
82450542|NCT01620528|164608023|SUPERIORITY||Difference in LS Means|-2.2|STANDARD_ERROR_OF_MEAN|1.03||0.032|TWO_SIDED|95.0|-4.21|-0.18|||ANCOVA|||||-0.18|-4.21|0.032
82450543|NCT01620528|164608023|SUPERIORITY||Difference in LS Means|-4.91|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-6.95|-2.86|||ANCOVA|||||-2.86|-6.95|< 0.001
82450544|NCT01620528|164608024|SUPERIORITY||Difference in LS Means|-2.42|STANDARD_ERROR_OF_MEAN|0.94||0.01|TWO_SIDED|95.0|-4.26|-0.58|||ANCOVA|||||-0.58|-4.26|0.010
82450545|NCT01620528|164608024|SUPERIORITY||Difference in LS Means|-5.25|STANDARD_ERROR_OF_MEAN|0.96|<|0.001|TWO_SIDED|95.0|-7.14|-3.36|||ANCOVA|||||-3.36|-7.14|< 0.001
82450546|NCT01620528|164608025|SUPERIORITY||Difference in LS Means|-1.17|STANDARD_ERROR_OF_MEAN|0.94||0.215|TWO_SIDED|95.0|-3.02|0.68|||ANCOVA|||||0.68|-3.02|0.215
82450547|NCT01620528|164608025|SUPERIORITY||Difference in LS Means|-5.13|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|-7.06|-3.2|||ANCOVA|||||-3.20|-7.06|< 0.001
82450548|NCT01620528|164608026|SUPERIORITY||Difference in LS Means|-2.25|STANDARD_ERROR_OF_MEAN|1.16||0.053|TWO_SIDED|95.0|-4.53|0.03|||ANCOVA|||||0.03|-4.53|0.053
82450549|NCT01620528|164608026|SUPERIORITY||Difference in LS Means|-6.79|STANDARD_ERROR_OF_MEAN|1.21|<|0.001|TWO_SIDED|95.0|-9.17|-4.41|||ANCOVA|||||-4.41|-9.17|< 0.001
82648394|NCT02555618|165012284|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to -20%.|Rate difference|3.2|||||TWO_SIDED|95.0|-6.406|12.757|||||TAK-850 - Influenza HA Vaccine|The analysis is difference of seroconversion rate between treatment groups for B Strain-Day 22.||12.757|-6.406|
82450550|NCT01620528|164608027|SUPERIORITY||Difference in LS Means|-2.12|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.24|-1.01|||ANCOVA|||||-1.01|-3.24|< 0.001
82450551|NCT01620528|164608027|SUPERIORITY||Difference in LS Means|-2.6|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|-3.71|-1.49|||ANCOVA|||||-1.49|-3.71|< 0.001
82450552|NCT01620528|164608028|SUPERIORITY||Difference in LS Means|-2.09|STANDARD_ERROR_OF_MEAN|0.67||0.002|TWO_SIDED|95.0|-3.4|-0.78|||ANCOVA|||||-0.78|-3.40|0.002
82450553|NCT01620528|164608028|SUPERIORITY||Difference in LS Means|-2.65|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-3.98|-1.32|||ANCOVA|||||-1.32|-3.98|< 0.001
82450554|NCT01620528|164608029|SUPERIORITY||Difference in LS Means|-2.17|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-3.39|-0.95|||ANCOVA|||||-0.95|-3.39|< 0.001
82450555|NCT01620528|164608029|SUPERIORITY||Difference in LS Means|-3.0|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.23|-1.76|||ANCOVA|||||-1.76|-4.23|< 0.001
82450556|NCT01620528|164608030|SUPERIORITY||Difference in LS Means|-1.54|STANDARD_ERROR_OF_MEAN|0.64||0.017|TWO_SIDED|95.0|-2.8|-0.27|||ANCOVA|||||-0.27|-2.80|0.017
82450557|NCT01620528|164608030|SUPERIORITY||Difference in LS Means|-3.24|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-4.5|-1.98|||ANCOVA|||||-1.98|-4.50|< 0.001
82450558|NCT01620528|164608031|SUPERIORITY||Difference in LS Means|-1.14|STANDARD_ERROR_OF_MEAN|0.55||0.038|TWO_SIDED|95.0|-2.22|-0.07|||ANCOVA|||||-0.07|-2.22|0.038
82450559|NCT01620528|164608031|SUPERIORITY||Difference in LS Means|-2.83|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.91|-1.74|||ANCOVA|||||-1.74|-3.91|< 0.001
82450560|NCT01620528|164608032|SUPERIORITY||Difference in LS Means|-1.83|STANDARD_ERROR_OF_MEAN|0.66||0.006|TWO_SIDED|95.0|-3.13|-0.54|||ANCOVA|||||-0.54|-3.13|0.006
82450561|NCT01620528|164608032|SUPERIORITY||Difference in LS Means|-3.75|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-5.06|-2.44|||ANCOVA|||||-2.44|-5.06|< 0.001
82450562|NCT02019875|164608036|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.884|TWO_SIDED|95.0|-21.2|18.3|||Mixed Models Analysis|||||18.3|-21.2|0.884
82450563|NCT02019875|164608036|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.955|TWO_SIDED|95.0|-19.5|20.7|||Mixed Models Analysis|||||20.7|-19.5|0.955
82450564|NCT02019875|164608036|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.53|TWO_SIDED|95.0|-26.5|13.6|||Mixed Models Analysis|||||13.6|-26.5|0.53
82450565|NCT02019875|164608036|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.434|TWO_SIDED|95.0|-27.6|11.9|||Mixed Models Analysis|||||11.9|-27.6|0.434
82450566|NCT02019875|164608036|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.796|TWO_SIDED|95.0|-24.2|18.6|||Mixed Models Analysis|||||18.6|-24.2|0.796
82450567|NCT02019875|164608037|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.62|TWO_SIDED|95.0|-6.0|3.6|||Mixed Models Analysis|||||3.6|-6.0|0.62
82450568|NCT02019875|164608037|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.482|TWO_SIDED|95.0|-3.1|6.7|||Mixed Models Analysis|||||6.7|-3.1|0.482
82450569|NCT02019875|164608037|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.559|TWO_SIDED|95.0|-3.4|6.4|||Mixed Models Analysis|||||6.4|-3.4|0.559
82450570|NCT02019875|164608037|SUPERIORITY||Mean Difference (Final Values)|3.7||||0.138|TWO_SIDED|95.0|-1.2|8.5|||Mixed Models Analysis|||||8.5|-1.2|0.138
82450571|NCT02019875|164608037|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.477|TWO_SIDED|95.0|-7.1|3.3|||Mixed Models Analysis|||||3.3|-7.1|0.477
82450572|NCT02019875|164608038|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.98|TWO_SIDED|95.0|-11.0|11.3|||Mixed Models Analysis|||||11.3|-11.0|0.98
82450573|NCT02019875|164608038|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.81|TWO_SIDED|95.0|-10.0|12.7|||Mixed Models Analysis|||||12.7|-10.0|0.81
82450574|NCT02019875|164608038|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.91|TWO_SIDED|95.0|-10.8|12.2|||Mixed Models Analysis|||||12.2|-10.8|0.91
82450575|NCT02019875|164608038|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.68|TWO_SIDED|95.0|-8.9|13.8|||Mixed Models Analysis|||||13.8|-8.9|0.68
82450576|NCT02019875|164608038|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.96|TWO_SIDED|95.0|-11.9|12.6|||Mixed Models Analysis|||||12.6|-11.9|0.96
82450577|NCT02019875|164608039|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.17|TWO_SIDED|95.0|-2.7|0.5|||Mixed Models Analysis|||||0.5|-2.7|0.17
82450578|NCT02019875|164608039|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.44|TWO_SIDED|95.0|-1.0|2.2|||Mixed Models Analysis|||||2.2|-1.0|0.44
82450579|NCT02019875|164608039|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.94|TWO_SIDED|95.0|-1.7|1.6|||Mixed Models Analysis|||||1.6|-1.7|0.94
82450580|NCT02019875|164608039|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.0001|TWO_SIDED|95.0|2.1|5.2|||Mixed Models Analysis|||||5.2|2.1|<0.0001
82450581|NCT02019875|164608039|SUPERIORITY||Mean Difference (Final Values)|3.9|||<|0.0001|TWO_SIDED|95.0|2.2|5.6|||Mixed Models Analysis|||||5.6|2.2|<0.0001
82450582|NCT02019875|164608040|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.43|TWO_SIDED|95.0|-0.027|0.012|||Mixed Models Analysis|||||0.012|-0.027|0.43
82450583|NCT02019875|164608040|SUPERIORITY||Mean Difference (Final Values)|-0.017||||0.09|TWO_SIDED|95.0|-0.037|0.003|||Mixed Models Analysis|||||0.003|-0.037|0.09
82450584|NCT02019875|164608040|SUPERIORITY||Mean Difference (Final Values)|-0.011||||0.29|TWO_SIDED|95.0|-0.031|0.009|||Mixed Models Analysis|||||0.009|-0.031|0.29
82450585|NCT02019875|164608040|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.61|TWO_SIDED|95.0|-0.025|0.015|||Mixed Models Analysis|||||0.015|-0.025|0.61
82450586|NCT02019875|164608040|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.46|TWO_SIDED|95.0|-0.03|0.014|||Mixed Models Analysis|||||0.014|-0.03|0.46
82450587|NCT02019875|164608041|SUPERIORITY||Mean Difference (Final Values)|-12.6||||0.53|TWO_SIDED|95.0|-52.0|26.7|||Mixed Models Analysis|||||26.7|-52.0|0.53
82450588|NCT02019875|164608041|SUPERIORITY||Mean Difference (Final Values)|-44.5||||0.03|TWO_SIDED|95.0|-84.5|-4.5|||Mixed Models Analysis|||||-4.5|-84.5|0.03
82450589|NCT02019875|164608041|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.72|TWO_SIDED|95.0|-47.3|32.8|||Mixed Models Analysis|||||32.8|-47.3|0.72
82450590|NCT02019875|164608041|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.89|TWO_SIDED|95.0|-36.6|42.2|||Mixed Models Analysis|||||42.2|-36.6|0.89
82648395|NCT02555618|165012285|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.07|||||TWO_SIDED|95.0|0.9106|1.2484|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H1N1 Strain-Day 22.||1.2484|0.9106|
82450591|NCT02019875|164608041|SUPERIORITY||Mean Difference (Final Values)|38.0||||0.08|TWO_SIDED|95.0|-4.7|80.6|||Mixed Models Analysis|||||80.6|-4.7|0.08
82450592|NCT02019875|164608042|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.96|TWO_SIDED|95.0|-104.5|110.2|||Mixed Models Analysis|||||110.2|-104.5|0.96
82450593|NCT02019875|164608042|SUPERIORITY||Mean Difference (Final Values)|15.0||||0.79|TWO_SIDED|95.0|-94.2|124.2|||Mixed Models Analysis|||||124.2|-94.2|0.79
82450594|NCT02019875|164608042|SUPERIORITY||Mean Difference (Final Values)|71.3||||0.2|TWO_SIDED|95.0|-37.9|180.5|||Mixed Models Analysis|||||180.5|-37.9|0.20
82450595|NCT02019875|164608042|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.96|TWO_SIDED|95.0|-110.1|104.7|||Mixed Models Analysis|||||104.7|-110.1|0.96
82450596|NCT02019875|164608042|SUPERIORITY||Mean Difference (Final Values)|51.8||||0.38|TWO_SIDED|95.0|-64.7|168.2|||Mixed Models Analysis|||||168.2|-64.7|0.38
82450597|NCT00847197|164608055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.1||0.926|TWO_SIDED|95.0|-3.9|4.3||The significance test was 2-tailed with α=0.05.|Mixed Models Analysis|The test for the treatment difference in terms of percentage change from baseline to a given time point was done using the contrast statement.||For the analysis of percent change from baseline in LDL-C at study endpoint, a Longitudinal Analysis of Covariance (ANCOVA) method was used. The repeated measures model included terms for treatment, time (Day 15, 29), and the interaction of time-by-treatment. The analysis model also adjusted for baseline, baseline-by-time interaction, region and gender.||4.3|-3.9|0.926
82450598|NCT00847197|164608056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|STANDARD_ERROR_OF_MEAN|1.8||0.013|TWO_SIDED|95.0|1.0|8.1||The significance test was 2-tailed with α=0.05.|Mixed Models Analysis|The test for the treatment difference in terms of percentage change from baseline to a given time point was done using the contrast statement.||For the analysis of percent change from baseline in LDL-C at study endpoint, a Longitudinal Analysis of Covariance (ANCOVA) method was used. The repeated measures model included terms for treatment, time (Day 15, 29), and the interaction of time-by-treatment. The analysis model also adjusted for baseline, baseline-by-time interaction, region and gender.||8.1|1.0|0.013
82450599|NCT00847197|164608057|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|8.6||0.02|TWO_SIDED|95.0|-18.9|-1.9|||Wilcoxon's Rank Sum Test|The significance test was 2-tailed with α=0.05.||Triglycerides was analyzed by non-parametric methods with terms for treatment, gender and region. Specifically, the analysis of variance (ANOVA) model was applied to the Tukey's normal scores of the percent change from baseline. The estimate of the difference in medians between MK1903 and the placebo groups utilizing the Hodges-Lehmann estimate and a distribution-free 95% CI for the difference based on Wilcoxon's rank sum test was provided.||-1.9|-18.9|0.02
82450600|NCT00825812|164608068|SUPERIORITY_OR_OTHER||ratio of geometric mean time to recovery|5.7||||||95.0|4.9|6.6|||ANOVA|ANOVA, adjusted for center effects, on log transformed times from start of administration of IMP to recovery of the T4/T1 ratio to 0.9.|Ratio of time to recovery of 0.9 T4/T1 ratio (neostigmine time / sugammadex time).|The primary analysis was the comparison of the two treatments among Chinese subjects.||6.6|4.9|
82450601|NCT00825812|164608068|SUPERIORITY_OR_OTHER||ratio of geometric mean time to recovery|4.8||||||97.5|3.7|6.0|||ANOVA|ANOVA, adjusted for center effects, on log transformed times from start of administration of IMP to recovery of the T4/T1 ratio to 0.9.|Ratio of time to recovery of 0.9 T4/T1 ratio (neostigmine time / sugammadex time).|A key secondary analysis was the comparison of the two treatments among Caucasian subjects.||6.0|3.7|
82450602|NCT00825812|164608068|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was considered if the 97.5% confidence interval (CI) for median difference in recovery time (T4/T1 ratio to 0.9) was within the pre-specified range of -60 to +60 seconds.|median difference (seconds)|7.0||||||97.5|-5.0|21.0|||||Estimated median difference (Chinese - Caucasian) in seconds for the time to recovery of the T4/T1 ratio to 0.9 (after sugammadex).|A key secondary analysis was the comparison for equivalence between Chinese subjects and Caucasian subjects.||21|-5|
82450603|NCT01736618|164608078|OTHER||Kaplan-Meier|92.9|||||ONE_SIDED|95.0|91.4|||||||"Ho: The Type I Complication Free Rate at 60 months (p1) does not exceed the performance goal of 85.0%.~Ho: p1 ≤ 85.0% Ha: The Type I Complication Free Rate at 60 months (p1) does exceed the performance goal of 85.0%.~Ha: p1 \> 85.0% The null hypothesis will be rejected if the lower one-sided 95% confidence bound of the proportional means model estimate, using the Peto method for standard error, exceeds the performance goal of 85.0%."|||91.4|
82450604|NCT01736618|164608079|OTHER||Clopper-Pearson exact confidence bound|98.6|||||ONE_SIDED|95.0|97.4|||||||"Ho: Overall Shock Effectiveness in Converting Spontaneous Discrete Episodes of VT/VF through 60 months (p1) does not exceed the performance goal of 94.0%.~Ho: p1 ≤ 94.0% Ha: Overall Shock Effectiveness in Converting Spontaneous Discrete Episodes of VT/VF through 60 months (p1) does exceed the performance goal of 94.0%.~Ha: p1 \>94.0% The null hypothesis will be rejected if the lower one-sided 95% exact confidence bound of the estimate exceeds the performance goal of 94.0%."|||97.4|
82499611|NCT03562481|164689927|EQUIVALENCE|Equivalence was defined based on the statistical significance of the symmetry test.|Chi-square test|1.29||||0.26|TWO_SIDED||||||Sruart-Maxwell symmetry test|||Test of symmetry (marginal homogeneity, Stuart-Maxwell) implemented using the symmetry routine in Stata 16.1.||||0.26
82450605|NCT01736618|164608080|OTHER||Kaplan-Meier|99.2|||||ONE_SIDED|95.0|98.8|||||||"Ho: The Electrode-Related Complication Free Rate at 60 months (p1) does not exceed the performance goal of 92.5%.~Ho: p1 ≤ 92.5% Ha: The Electrode-Related Complication Free Rate at 60 months (p1) does exceed the performance goal of 92.5%.~Ha: p1 \> 92.5% The null hypothesis will be rejected if the lower one-sided 95% confidence bound of the proportional means model estimate, using the Peto method for standard error, exceeds the performance goal of 92.5%."|||98.8|
82450606|NCT01736618|164608081|OTHER||Clopper-Pearson exact confidence bound|94.4|||||ONE_SIDED|95.0|93.5|||||||"Ho: The 1st Shock Effectiveness in Converting Induced (Acute) \& Spontaneous Discrete VT/VF Episodes to 60 months (p1) does not exceed the performance goal of 84.0%.~Ho: p1 ≤ 84.0% Ha: The 1st Shock Effectiveness in Converting Induced (Acute) \& Spontaneous Discrete VT/VF Episodes to 60 months (p1) does exceed the performance goal of 84.0%.~Ha: p1 \>84.0% The null hypothesis will be rejected if lower one-sided 95% exact confidence bound of the estimate exceeds the performance goal of 84.0%."|||93.5|
82450607|NCT04167137|164608090|OTHER|||||||||||||||||Because only 1 participant experienced a DLT (Grade 3 cytokine release syndrome in Arm 1 Cohort 6), no MTD could be reached.|Because only 1 participant experienced a DLT (Grade 3 cytokine release syndrome in Arm 1 Cohort 6), no MTD could be reached.|||
82648396|NCT02555618|165012285|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|0.98|||||TWO_SIDED|95.0|0.8686|1.0969|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for A/H3N2-Day 22.||1.0969|0.8686|
82648397|NCT02555618|165012285|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin is set to 0.5.|Ratio of GMTs|1.05|||||TWO_SIDED|95.0|0.9622|1.1427|||||TAK-850/Influenza HA Vaccine|The analysis is Geometric Mean Ratio between treatment groups for B Strain-Day 22.||1.1427|0.9622|
82648398|NCT01749033|165012311|SUPERIORITY_OR_OTHER_LEGACY|||||||0.76|||||||Chi-squared|||We planned a sample size of 429 to achieve a 80% power to detect an effect size difference of w=0.15 using 2 degrees of freedom chi-square test with a significance level (alpha) of .05.||||.76
82648399|NCT01749033|165012313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.05|TWO_SIDED||||||Chi-squared||The reported p value was calculated.|We planned a sample size of 429 to achieve a 80% power to detect an effect size difference of w=0.15 using 2 degrees of freedom chi-square test with a significance level (alpha) of .05.||||.05
82429106|NCT01088503|164565194|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.7108|TWO_SIDED|95.0|0.88|1.22||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|Log Rank|||||1.22|0.88|0.7108
82429107|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.464|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with DES vs BMS.|||||
82429108|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with STEMI vs not STEMI|||||
82429109|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.657|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were Other Race vs Caucasian.|||||
82429110|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.684|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had cardiogenic shock within 24 hours vs no cardiogenic shock within 24 hours.|||||
82429111|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.195|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were male vs not male.|||||
82429112|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with EQ-5D US index = 1 vs. \<1.|||||
82429113|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.116|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who were married vs not married.|||||
82429114|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.125|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had diabetes vs no diabetes.|||||
82429115|NCT01088503|164565195|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.172|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with no BMS or DES placement vs BMS.|||||
82429116|NCT01088503|164565196|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.1882|TWO_SIDED|95.0|0.88|1.93||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|Log Rank||Hazard ratio (HR) is for the analysis at 12 months.|||1.93|0.88|0.1882
82429117|NCT01088503|164565197|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.967|||||TWO_SIDED|95.0|0.849|1.103|||||Statistical analysis adjusted for the differences in baseline characteristics between participants treated with prasugrel vs. clopidogrel using propensity scoring.|||1.103|0.849|
82429118|NCT01088503|164565201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants who had pre-procedure hemoglobin evaluation vs no hemoglobin evaluation.|||||
82429119|NCT01088503|164565202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.005|||||TWO_SIDED||||||||Odds Ratio for selection of Prasugrel for participants with Duke CAD Index vs no Duke CAD Index.|||||
82429120|NCT00110214|164565203|NON_INFERIORITY_OR_EQUIVALENCE|Superiority and futility analyses were conducted for the OS end point. The Lan-Demets analog of the Emerson-Fleming sequential boundary was used to maintain the overall significance level of alpha=0.05 while conducting interim analyses on OS. The final analysis was performed when 748 deaths had been observed. An intention-to-treat approach was used in the analysis for all the clinical end points with the exception of toxicity.|Hazard Ratio (HR)|0.91||||0.181|TWO_SIDED|95.0|0.7|1.05||The primary analysis was adjusted for the stratification factors (24-mo survival probability as predicted by a validated nomogram (\<10%,10%-29.9%,\>=30%), age (\<65, \>=65 years) and prior history of arterial events (yes, no)).|Log Rank|||||1.05|0.7|0.181
82429121|NCT00110214|164565204|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82429122|NCT00110214|164565205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||<|0.001|TWO_SIDED|95.0|0.71|0.91||The primary analysis was adjusted for the stratification factors (24-mo survival probability as predicted by a validated nomogram (\<10%,10%-29.9%,\>=30%), age (\<65, \>=65 years) and prior history of arterial events (yes, no)).|Log Rank|||||0.91|0.71|<0.001
82429123|NCT01847092|164565207|SUPERIORITY|||||||0.279|||||||Mixed Models Analysis|||||||0.279
82429124|NCT01847092|164565208|SUPERIORITY|||||||0.94|||||||ANCOVA|||||||0.94
82429125|NCT03623698|164565209|OTHER||Median Difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-4.0|-1.5|||Wilcoxon (Mann-Whitney)|||"Statistical analysis was performed using IBM SPSS Statistics software, version 25.~This analysis applies to the category of Total courses of antibiotics."||-1.500|-4.000|<0.001
82648400|NCT03056001|165012316|OTHER|Estimation only.|Rate|0.0333|||||TWO_SIDED|95.0|0.0008|0.1722|||||Confidence interval estimated using the Clopper Pearson method.|The reported severe or life-threatening adverse event rate with weekly doxorubicin and dacarbazine was 0.55. If it became evident that the rate of severe or life-threatening toxicity convincingly exceeded 0.55, the study would have been halted. Convincing evidence of exceeding 0.55 was based on Bayesian methods and continuous monitoring, where the stopping rule would have held enrollment if the posterior probability at any point exceeded 0.75 or higher.||0.1722|0.0008|
82648401|NCT03056001|165012317|OTHER|Estimation only|Median|1.3|||||TWO_SIDED|95.0|0.8|2.1|||||The Kaplan Meier method was used to estimate the median OS (in years) for the population. The Greenwood method was used to estimate the confidence limits of the median overall survival.|||2.1|0.8|
82450608|NCT02714283|164608127|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.19|TWO_SIDED|95.0|0.51|1.14|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use.|ICS (numerator) compared to macrolide monotherapy (denominator)|Due to the small sample size in the macrolide monotherapy group, for this outcome, the results are considered exploratory/descriptive only.||1.14|0.51|0.19
82450609|NCT02714283|164608128|SUPERIORITY||Hazard Ratio (HR)|1.39|||<|0.0001|TWO_SIDED|95.0|1.23|1.57|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.57|1.23|<0.0001
82450610|NCT02714283|164608129|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.21|TWO_SIDED|95.0|0.67|1.09|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.09|0.67|0.21
82450611|NCT02714283|164608130|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.82|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||0.82|0.64|<0.0001
82450612|NCT02714283|164608131|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.87|TWO_SIDED|95.0|0.8|1.32|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.32|0.80|0.87
82450613|NCT02714283|164608132|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.23|TWO_SIDED|95.0|0.76|1.07|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.07|0.76|0.23
82450614|NCT02714283|164608133|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.2|TWO_SIDED|95.0|0.96|1.25|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history.|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.25|0.96|0.20
82450615|NCT02714283|164608134|SUPERIORITY||Hazard Ratio (HR)|1.15|||<|0.0001|TWO_SIDED|95.0|1.08|1.21|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.21|1.08|<0.0001
82450616|NCT02714283|164608135|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.99|TWO_SIDED|95.0|0.66|1.51|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.51|0.66|0.99
82450617|NCT02714283|164608136|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.0005|TWO_SIDED|95.0|1.07|1.25|||Regression, Cox|Adjusted for propensity score decile, oral corticosteroid use, and NTM history|ICS (numerator) compared to macrolide monotherapy (denominator)|||1.25|1.07|0.0005
82450618|NCT00997594|164608144|NON_INFERIORITY_OR_EQUIVALENCE|Just a comparison of the percentage of hypertension between the 2 patient groups.|||||<|0.05||95.0|||||Chi-squared, Corrected|||||||<0.05
82450619|NCT01865448|164608152|SUPERIORITY_OR_OTHER|||||||0.278|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2780
82450620|NCT01865448|164608152|SUPERIORITY_OR_OTHER|||||||0.8689|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.8689
82450621|NCT01865448|164608152|SUPERIORITY_OR_OTHER|||||||0.4533|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.4533
82450622|NCT01865448|164608153|SUPERIORITY_OR_OTHER|||||||0.71833|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.71833
82450623|NCT01865448|164608153|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450624|NCT01865448|164608153|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450625|NCT01865448|164608154|SUPERIORITY_OR_OTHER|||||||0.519|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.51900
82450626|NCT01865448|164608154|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450627|NCT01865448|164608154|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450628|NCT01865448|164608155|SUPERIORITY_OR_OTHER|||||||0.24567|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.24567
82450629|NCT01865448|164608155|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450630|NCT01865448|164608155|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450631|NCT01865448|164608156|SUPERIORITY_OR_OTHER|||||||0.9573|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9573
82450632|NCT01865448|164608156|SUPERIORITY_OR_OTHER|||||||0.5257|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5257
82450633|NCT01865448|164608156|SUPERIORITY_OR_OTHER|||||||0.0657|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0657
82450634|NCT01865448|164608157|SUPERIORITY_OR_OTHER|||||||0.7474|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7474
82450635|NCT01865448|164608157|SUPERIORITY_OR_OTHER|||||||0.3745|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3745
82450636|NCT01865448|164608157|SUPERIORITY_OR_OTHER|||||||0.0476|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0476
82450637|NCT01865448|164608158|SUPERIORITY_OR_OTHER|||||||0.27444|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.27444
82450638|NCT01865448|164608158|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82577182|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.118||0.1537|TWO_SIDED|95.0|-0.06|0.4|||MMRM|||Retardation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.40|-0.06|0.1537
82577183|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.129||0.0142|TWO_SIDED|95.0|0.07|0.58|||MMRM|||Retardation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.58|0.07|0.0142
82429126|NCT03623698|164565209|OTHER|Linear mixed-effects model|Restricted Maximum Likelihood (REML)|-2.88||||0.001|TWO_SIDED|95.0|-4.46|-1.29||95% confidence interval, significance level p-values \<0.05. Random effects pre-defined from theory and published data, and AIC was were used to define the best model. Outcome measures: Courses of antibiotics; Fixed effect: nebulised saline treatment.|Mixed Models Analysis|Random effects: age, gender, mechanical ventilation, tracheostomy, gastrostomy, non-ambulant.||"Statistical analysis was performed using IBM SPSS Statistics software, version 25.~This analysis applies to the category of Total courses of antibiotics."||-1.29|-4.46|0.001
82429127|NCT03623698|164565210|OTHER||Median Difference (Final Values)|-1.0||||0.001|TWO_SIDED|95.0|-1.5|-0.5|||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed using IBM SPSS Statistics software, version 25.||-0.50|-1.50|0.001
82535915|NCT04739423|164770038|OTHER||Least Squares Mean|1.69||||0.0016|TWO_SIDED|95.0|0.653|2.732|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recognition: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.732|0.653|0.0016
82535916|NCT04739423|164770038|OTHER||Least Squares Mean|-0.06||||0.9126|TWO_SIDED|95.0|-1.127|1.009|||Mixed Models Analysis|||Between treatment analysis for Immediate Word recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.009|-1.127|0.9126
82577184|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.126||0.0159|TWO_SIDED|95.0|0.06|0.56|||MMRM|||Retardation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.56|0.06|0.0159
82577185|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.132||0.2255|TWO_SIDED|95.0|-0.1|0.42|||MMRM|||Retardation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.42|-0.10|0.2255
82450639|NCT01865448|164608158|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82577186|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.129||0.1069|TWO_SIDED|95.0|-0.05|0.46|||MMRM|||Retardation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.05|0.1069
82535917|NCT04739423|164770038|OTHER||Least Squares Mean|-0.24||||0.657|TWO_SIDED|95.0|-1.317|0.837|||Mixed Models Analysis|||Between treatment analysis for Immediate Word Recall: number of words - Change from Baseline to Day 14, 4 hours post-dose||0.837|-1.317|0.6570
82535918|NCT04739423|164770038|OTHER||Least Squares Mean|-0.06||||0.9458|TWO_SIDED|95.0|-1.787|1.669|||Mixed Models Analysis|||Between treatment comparison for Delayed Word Recall: number of words - Change from Baseline to Day 1, 4 hours post-dose||1.669|-1.787|0.9458
82535919|NCT04739423|164770038|OTHER||Least Squares Mean|0.97||||0.2327|TWO_SIDED|95.0|-0.642|2.579|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recall: number of words - Change from Baseline to Day 7, 4 hours post-dose||2.579|-0.642|0.2327
82429128|NCT03623698|164565210|OTHER||Restricted Maximum Likelihood (REML)|-1.02|||<|0.001|TWO_SIDED|95.0|-1.53|-0.52||95% confidence interval, significance level p-values \<0.05. Random effects pre-defined from theory and published data, and AIC was were used to define the best model. Outcome measures: Courses of antibiotics; Fixed effect: nebulised saline treatment.|Mixed Models Analysis|Random effects: age, gender, prolonged mechanical ventilation (nasal or tracheostomy), and antibiotic prophylaxis||Statistical analysis was performed using IBM SPSS Statistics software, version 25.||-0.52|-1.53|<0.001
82429129|NCT03623698|164565213|OTHER||Median Difference (Final Values)|-4.5||||0.003|TWO_SIDED|95.0|-5.5|-3.0|||Wilcoxon (Mann-Whitney)|||||-3.00|-5.50|0.003
82450640|NCT01865448|164608159|SUPERIORITY_OR_OTHER|||||||0.28489|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.28489
82450641|NCT01865448|164608159|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82535920|NCT04739423|164770038|OTHER||Least Squares Mean|0.84||||0.4154|TWO_SIDED|95.0|-1.208|2.879|||Mixed Models Analysis|||Between treatment analysis for Delayed Word Recognition: number of words - Change from Baseline to day 7, 4 hours post-dose||2.879|-1.208|0.4154
82535921|NCT04739423|164770039|OTHER||Least Squares Mean|5.06|||<|0.0001|TWO_SIDED|95.0|3.956|6.16|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for Sleeping Heart Rate change from baseline across periods||6.160|3.956|<0.0001
82535922|NCT04739423|164770040|OTHER||Least Squares Mean|1.0||||0.0017|TWO_SIDED|95.0|0.432|1.565|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for sleeping HRV change from baseline across periods.||1.565|0.432|0.0017
82429130|NCT03623698|164565214|OTHER||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-2.0|||Wilcoxon (Mann-Whitney)|||||-2.0|-2.5|<0.001
82429131|NCT03623698|164565217|OTHER||Mean Difference (Final Values)|0.17||||0.97|TWO_SIDED|95.0|-0.69|0.76|||Wilcoxon (Mann-Whitney)|||||0.76|-0.69|0.97
82429132|NCT03623698|164565218|OTHER||Mean Difference (Final Values)|-1.47||||0.09|TWO_SIDED|95.0|-3.26|0.34|||Wilcoxon (Mann-Whitney)|||||0.34|-3.26|0.09
82429133|NCT03623698|164565219|OTHER||Mean Difference (Final Values)|-0.08||||0.65|TWO_SIDED|95.0|-0.38|0.38|||Wilcoxon (Mann-Whitney)|||||0.38|-0.38|0.65
82429134|NCT00811954|164565225|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|3.4|||||TWO_SIDED|97.5|-0.7|7.4||||||Treatment comparison was made using the difference (arm A - arm B) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||7.4|-0.7|
82429135|NCT00811954|164565225|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|5.6|||||TWO_SIDED|97.5|1.3|9.9||||||Treatment comparison was made using the difference (arm C - arm B) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||9.9|1.3|
82429136|NCT00811954|164565225|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval estimation was stratified by HIV-1 RNA level at screening using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified confidence bounds for equivalence were +/-10 percentage points.|Cumulative probability difference|-2.2|||||TWO_SIDED|97.5|-6.7|2.3||||||Treatment comparison was made using the difference (arm A - arm C) in the stratified Kaplan-Meier estimate for the week 96 cumulative probability of virologic failure with 97.5% confidence interval.||2.3|-6.7|
82429137|NCT00811954|164565226|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|12.8|||||TWO_SIDED|97.5|9.4|16.1||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm A and arm B) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm A - arm B) in 96 week probability of tolerability failure with 97.5% confidence interval.||16.1|9.4|
82429138|NCT00811954|164565226|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|3.6|||||TWO_SIDED|97.5|1.4|5.8||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm C and arm B) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm C - arm B) in 96 week probability of tolerability failure with 97.5% confidence interval.||5.8|1.4|
82429139|NCT00811954|164565226|NON_INFERIORITY_OR_EQUIVALENCE|Although the study was not specifically powered to be able to detect equivalence, equivalence was declared if the 97.5% confidence interval difference in the cumulative probability of the tolerability endpoint by 96 weeks was entirely contained within +/-10 percentage points.|Cumulative incidence difference|9.2|||||TWO_SIDED|97.5|5.5|12.9||||||Treatment comparison was made using the methods of Gray. Inference regarding comparisons of the treatment groups (arm A and arm C) with respect to equivalence was made based on the two-sided 97.5% confidence intervals of differences (arm A - arm C) in 96 week probability of tolerability failure with 97.5% confidence interval.||12.9|5.5|
82429140|NCT00186628|164565256|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Log Rank|||||||.07
82429141|NCT01331681|164565263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.3|||<|0.0001|TWO_SIDED|97.5|6.5|12.0||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value was below the significance level of 0.025, the fixed sequence testing did continue with the first secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|Least square (LS) mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||12.0|6.5|<0.0001
82429142|NCT01331681|164565263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|97.5|6.3|11.8||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value was below the significance level of 0.025, the fixed sequence testing did continue with the first secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||11.8|6.3|<0.0001
82450642|NCT01865448|164608159|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
82450643|NCT01865448|164608160|SUPERIORITY_OR_OTHER|||||||0.04491|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.04491
82535923|NCT04739423|164770041|OTHER||Least Squares Mean|-10.22||||0.0049|TWO_SIDED|95.0|-16.867|-3.567|||Mixed Models Analysis|||Between treatment analysis (active - placebo) for sleeping HRV root mean square of successive differences change from baseline across periods||-3.567|-16.867|0.0049
82535924|NCT05174065|164770054|SUPERIORITY||Adjusted Difference in Proportion|32.6|||<|0.0001|TWO_SIDED|95.0|18.7|46.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors of rounded PPPASI total score range (≤ 20/21 to 30/≥ 31) and focal infection status (yes/no) at baseline.|Based on the Cochran-Mantel-Haenszel method adjusting for the stratification factors. The adjusted difference in proportion was the weighted average of the treatment differences across strata.|||46.5|18.7|<0.0001
82450644|NCT01865448|164608160|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450645|NCT01865448|164608160|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82577187|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.144||0.4932|TWO_SIDED|95.0|-0.19|0.39|||MMRM|||Retardation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.19|0.4932
82577188|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2634|TWO_SIDED|95.0|-0.12|0.43|||MMRM|||Retardation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.43|-0.12|0.2634
82577189|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.133||0.9284|TWO_SIDED|95.0|-0.25|0.28|||MMRM|||Retardation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.25|0.9284
82577190|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.129||0.9459|TWO_SIDED|95.0|-0.25|0.26|||MMRM|||Retardation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.25|0.9459
82577191|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.151||0.2908|TWO_SIDED|95.0|-0.46|0.14|||MMRM|||Retardation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.46|0.2908
82577192|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.146||0.6834|TWO_SIDED|95.0|-0.23|0.35|||MMRM|||Retardation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.23|0.6834
82429143|NCT01331681|164565264|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|28.7|||<|0.0001|TWO_SIDED|97.5|15.8|41.6||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the second secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 10 letters identical in both groups||41.6|15.8|<0.0001
82577193|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.142||0.3579|TWO_SIDED|95.0|-0.41|0.15|||MMRM|||Retardation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.41|0.3579
82577194|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.138||0.827|TWO_SIDED|95.0|-0.3|0.24|||MMRM|||Retardation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.30|0.8270
82577195|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.5292|TWO_SIDED|95.0|-0.34|0.18|||MMRM|||Retardation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.34|0.5292
82577196|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.127||0.879|TWO_SIDED|95.0|-0.23|0.27|||MMRM|||Retardation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.23|0.8790
82648402|NCT03056001|165012318|OTHER|Estimation only|Median|5.7|||||TWO_SIDED|95.0|4.1|8.3|||||The Kaplan Meier method was used to estimate the median PFS (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median progression free survival.|||8.3|4.1|
82648403|NCT03056001|165012319|OTHER|Estimation only.|Rate|0.367|||||TWO_SIDED|95.0|0.199|0.561|||||Confidence interval estimated using the Clopper Pearson method.|||0.561|0.199|
82450646|NCT01865448|164608161|SUPERIORITY_OR_OTHER|||||||0.24396|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.24396
82450647|NCT01865448|164608161|SUPERIORITY_OR_OTHER|||||||0.00162|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.00162
82450648|NCT01865448|164608161|SUPERIORITY_OR_OTHER|||||||0.00162|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.00162
82450649|NCT01865448|164608162|SUPERIORITY_OR_OTHER|||||||0.82322|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.82322
82450650|NCT01865448|164608162|SUPERIORITY_OR_OTHER|||||||0.25908|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.25908
82535925|NCT05174065|164770055|SUPERIORITY||Difference in Least Squares Mean|-6.13|||<|0.0001|TWO_SIDED|95.0|-8.57|-3.69|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-3.69|-8.57|<0.0001
82450651|NCT01865448|164608162|SUPERIORITY_OR_OTHER|||||||0.25908|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.25908
82450652|NCT01865448|164608163|SUPERIORITY_OR_OTHER|||||||0.76435|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.76435
82450653|NCT01865448|164608163|SUPERIORITY_OR_OTHER|||||||0.18876|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.18876
82450654|NCT01865448|164608163|SUPERIORITY_OR_OTHER|||||||0.18876|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.18876
82450655|NCT01865448|164608164|SUPERIORITY_OR_OTHER|||||||0.40485|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.40485
82450656|NCT01865448|164608164|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450657|NCT01865448|164608164|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450658|NCT01865448|164608165|SUPERIORITY_OR_OTHER|||||||0.13911|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.13911
82450659|NCT01865448|164608165|SUPERIORITY_OR_OTHER|||||||0.05726|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.05726
82450660|NCT01865448|164608165|SUPERIORITY_OR_OTHER|||||||0.05726|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.05726
82450661|NCT01865448|164608166|SUPERIORITY_OR_OTHER|||||||0.60214|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.60214
82450662|NCT01865448|164608166|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450663|NCT01865448|164608166|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450664|NCT01865448|164608167|SUPERIORITY_OR_OTHER|||||||0.66053|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.66053
82450665|NCT01865448|164608167|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450666|NCT01865448|164608167|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.05
82450667|NCT01865448|164608168|SUPERIORITY_OR_OTHER|||||||0.28743|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.28743
82450668|NCT01865448|164608168|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450669|NCT01865448|164608168|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.001
82450670|NCT01865448|164608169|SUPERIORITY_OR_OTHER|||||||0.58561|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.58561
82450671|NCT01865448|164608169|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||<0.001
82450672|NCT01865448|164608169|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Paired t-test|||||||<0.001
82450673|NCT01865448|164608170|SUPERIORITY_OR_OTHER|||||||0.1953|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1953
82450674|NCT01865448|164608170|SUPERIORITY_OR_OTHER|||||||0.0351|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0351
82450675|NCT01865448|164608170|SUPERIORITY_OR_OTHER|||||||0.0795|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0795
82450676|NCT01865448|164608171|SUPERIORITY_OR_OTHER|||||||0.6664|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6664
82450677|NCT01865448|164608171|SUPERIORITY_OR_OTHER|||||||0.431|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.4310
82450678|NCT01865448|164608171|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0049
82450679|NCT01865448|164608172|SUPERIORITY_OR_OTHER|||||||0.247|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2470
82450680|NCT01865448|164608172|SUPERIORITY_OR_OTHER|||||||0.2755|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2755
82450681|NCT01865448|164608172|SUPERIORITY_OR_OTHER|||||||0.8226|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.8226
82450682|NCT01865448|164608173|SUPERIORITY_OR_OTHER|||||||0.6779|||||||ANCOVA|||Between-Group Comparison||||0.6779
82450683|NCT01865448|164608173|SUPERIORITY_OR_OTHER|||||||0.3761|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3761
82450684|NCT01865448|164608173|SUPERIORITY_OR_OTHER|||||||0.0281|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0281
82450685|NCT01865448|164608174|SUPERIORITY_OR_OTHER|||||||0.8591|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8591
82450686|NCT01865448|164608174|SUPERIORITY_OR_OTHER|||||||0.0404|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0404
82450687|NCT01865448|164608174|SUPERIORITY_OR_OTHER|||||||0.0474|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0474
82450688|NCT01865448|164608175|SUPERIORITY_OR_OTHER|||||||0.3187|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.3187
82450689|NCT01865448|164608175|SUPERIORITY_OR_OTHER|||||||0.0482|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0482
82450690|NCT01865448|164608175|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0394
82450691|NCT01865448|164608176|SUPERIORITY_OR_OTHER|||||||0.2813|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2813
82450692|NCT01865448|164608176|SUPERIORITY_OR_OTHER|||||||0.4421|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4421
82450693|NCT01865448|164608176|SUPERIORITY_OR_OTHER|||||||0.3198|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3198
82450694|NCT01865448|164608177|SUPERIORITY_OR_OTHER|||||||0.2792|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2792
82577197|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.133||0.1347|TWO_SIDED|95.0|-0.46|0.06|||MMRM|||Retardation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.46|0.1347
82577198|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.129||0.2874|TWO_SIDED|95.0|-0.4|0.12|||MMRM|||Retardation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.40|0.2874
82577199|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.132||0.0086|TWO_SIDED|95.0|-0.61|-0.09|||MMRM|||Retardation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.61|0.0086
82648404|NCT03056001|165012320|OTHER|Estimation only|Median|8.0|||||TWO_SIDED|95.0|2.8|34.6|||||The Kaplan Meier method was used to estimate the median DoR (in months) for the population. The Greenwood method was used to estimate the confidence limits of the median duration of response.|||34.6|2.8|
82450695|NCT01865448|164608177|SUPERIORITY_OR_OTHER|||||||0.1034|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1034
82450696|NCT01865448|164608177|SUPERIORITY_OR_OTHER|||||||0.9898|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.9898
82450697|NCT01865448|164608178|SUPERIORITY_OR_OTHER|||||||0.7047|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7047
82450698|NCT01865448|164608178|SUPERIORITY_OR_OTHER|||||||0.4749|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4749
82450699|NCT01865448|164608178|SUPERIORITY_OR_OTHER|||||||0.6014|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.6014
82450700|NCT01865448|164608179|SUPERIORITY_OR_OTHER|||||||0.5932|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.5932
82450701|NCT01865448|164608179|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.7140
82450702|NCT01865448|164608179|SUPERIORITY_OR_OTHER|||||||0.5827|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5827
82450703|NCT01865448|164608180|SUPERIORITY_OR_OTHER|||||||0.2894|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2894
82450704|NCT01865448|164608180|SUPERIORITY_OR_OTHER|||||||0.2128|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2128
82450705|NCT01865448|164608180|SUPERIORITY_OR_OTHER|||||||0.0823|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0823
82450706|NCT01865448|164608181|SUPERIORITY_OR_OTHER|||||||0.345|||||||ANCOVA|||Between-Group Comparison||||0.3450
82450707|NCT01865448|164608181|SUPERIORITY_OR_OTHER|||||||0.1365|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1365
82450708|NCT01865448|164608181|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0073
82450709|NCT01865448|164608182|SUPERIORITY_OR_OTHER|||||||0.2333|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2333
82450710|NCT01865448|164608182|SUPERIORITY_OR_OTHER|||||||0.4292|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4292
82450711|NCT01865448|164608182|SUPERIORITY_OR_OTHER|||||||0.3356|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3356
82450712|NCT01865448|164608183|SUPERIORITY_OR_OTHER|||||||0.683|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6830
82450713|NCT01865448|164608183|SUPERIORITY_OR_OTHER|||||||0.8625|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.8625
82450714|NCT01865448|164608183|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0068
82450715|NCT01865448|164608184|SUPERIORITY_OR_OTHER|||||||0.3694|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.3694
82450716|NCT01865448|164608184|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0291
82450717|NCT01865448|164608184|SUPERIORITY_OR_OTHER|||||||0.0402|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0402
82450718|NCT01865448|164608185|SUPERIORITY_OR_OTHER|||||||0.1226|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1226
82450719|NCT01865448|164608185|SUPERIORITY_OR_OTHER|||||||0.0472|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0472
82450720|NCT01865448|164608185|SUPERIORITY_OR_OTHER|||||||0.0197|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0197
82450721|NCT01865448|164608186|SUPERIORITY_OR_OTHER|||||||0.8969|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8969
82450722|NCT01865448|164608186|SUPERIORITY_OR_OTHER|||||||0.7218|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.7218
82450723|NCT01865448|164608186|SUPERIORITY_OR_OTHER|||||||0.4536|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4536
82450724|NCT01865448|164608187|SUPERIORITY_OR_OTHER|||||||0.8765|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.8765
82535926|NCT05174065|164770056|SUPERIORITY||Difference in Least Squares Mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and baseline value as covariate.|Apremilast - Placebo|||-0.9|-2.2|<0.0001
82535927|NCT05174065|164770057|SUPERIORITY||Difference in Least Squares Mean|-7.8||||0.033|TWO_SIDED|95.0|-14.9|-0.6|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-0.6|-14.9|0.0330
82535928|NCT05174065|164770058|SUPERIORITY||Difference in Least Squares Mean|-10.8||||0.0076|TWO_SIDED|95.0|-18.6|-2.9|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-2.9|-18.6|0.0076
82535929|NCT05174065|164770059|SUPERIORITY||Difference in Least Squares Mean|-1.4||||0.0036|TWO_SIDED|95.0|-2.4|-0.5|||MMRM|With treatment group, visit time, treatment-by-time interaction, and stratification factors as fixed effect, and the baseline value as a covariate.|Apremilast - Placebo|||-0.5|-2.4|0.0036
82535930|NCT01641861|164770061|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.1|7.3||||||||7.3|0.1|
82535931|NCT01641861|164770062|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||||TWO_SIDED|95.0|0.9|12.8||||||||12.8|0.9|
82535932|NCT01641861|164770064|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82535933|NCT01641861|164770065|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82535934|NCT04091672|164770157|NON_INFERIORITY|"The one-sided 97.5% confidence interval (97.5% CI) was calculated for the difference (Control-RECELL) in percentages of subjects with confirmed treatment area closure.~The calculation used the normal approximation taking correlation into account. In order for the null hypothesis to be rejected and the non-inferiority of RECELL to be established, the upper limit of the 97.5% CI had to be less than 10%."||||||0.005|||||||1-sided z-test of proportions|alpha=0.025||||||.005
82535935|NCT04091672|164770158|SUPERIORITY|A geometric mean ratio (GMR of ratios) 95% CI with a lower bound exceeding 1 would indicate superiority of RECELL over Control with respect to this endpoint.||||||0.001|||||||GMR of ratios|||||||0.001
82535936|NCT01251614|164770211|SUPERIORITY_OR_OTHER||Difference|-25.5||||0.027|TWO_SIDED|95.0|-47.2|-3.7|||Chi-squared|||"The a priori defined order of the statistical hypotheses was as follows:~1. Superiority of adalimumab 0.8 mg/kg versus MTX for the percentage of participants achieving a ≥ PASI 75 response at Week 16.~2. Superiority of adalimumab 0.8 mg/kg versus MTX, for the percentage of participants achieving a PGA cleared or minimal at Week 16.~This order was adhered to for confirmatory testing, all statistical tests were at a level of significance of 5% and the overall type I error was preserved."||-3.7|-47.2|0.027
82535937|NCT01251614|164770212|SUPERIORITY_OR_OTHER||Difference|-20.0||||0.083|TWO_SIDED|95.0|-42.2|2.2|||Chi-squared|||"The a priori defined order of the statistical hypotheses was as follows:~1. Superiority of adalimumab 0.8 mg/kg versus MTX for the percentage of participants achieving a ≥ PASI 75 response at Week 16.~2. Superiority of adalimumab 0.8 mg/kg versus MTX, for the percentage of participants achieving a PGA cleared or minimal at Week 16.~This order was adhered to for confirmatory testing, all statistical tests were at a level of significance of 5% and the overall type I error was preserved."||2.2|-42.2|0.083
82535938|NCT01251614|164770213|SUPERIORITY_OR_OTHER||Difference|-7.3||||0.466|TWO_SIDED|95.0|-26.9|12.3|||Chi-squared|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||12.3|-26.9|0.466
82535939|NCT01251614|164770214|SUPERIORITY_OR_OTHER||Difference|-15.7||||0.056|TWO_SIDED|95.0|-29.1|-2.3|||Fisher Exact|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||-2.3|-29.1|0.056
82535940|NCT01251614|164770215|SUPERIORITY_OR_OTHER||Difference|1.61||||0.304|TWO_SIDED|95.0|-1.48|4.7|||ANOVA|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||4.70|-1.48|0.304
82577200|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.129||0.7864|TWO_SIDED|95.0|-0.29|0.22|||MMRM|||Retardation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.29|0.7864
82535941|NCT01251614|164770216|SUPERIORITY_OR_OTHER||Difference|-8.88||||0.005|TWO_SIDED|95.0|-14.94|-2.82|||ANOVA|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (p-value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||-2.82|-14.94|0.005
82535942|NCT01251614|164770217|SUPERIORITY_OR_OTHER||Difference|-28.3||||0.113|TWO_SIDED|95.0|-60.6|4.0|||Chi-squared|||"The difference between the combined adalimumab 0.8 mg/kg + MTX groups versus the adalimumab 0.4 mg/kg group.~Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were to be 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank."||4.0|-60.6|0.113
82535943|NCT01251614|164770218|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.343|TWO_SIDED|95.0|0.66|3.17|||Log Rank|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||3.17|0.66|0.343
82450725|NCT01865448|164608187|SUPERIORITY_OR_OTHER|||||||0.5114|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.5114
82450726|NCT01865448|164608187|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0237
82450727|NCT01865448|164608188|SUPERIORITY_OR_OTHER|||||||0.2914|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2914
82450728|NCT01865448|164608188|SUPERIORITY_OR_OTHER|||||||0.5594|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5594
82450729|NCT01865448|164608188|SUPERIORITY_OR_OTHER|||||||0.2532|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2532
82450730|NCT01865448|164608189|SUPERIORITY_OR_OTHER|||||||0.0528|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0528
82450731|NCT01865448|164608189|SUPERIORITY_OR_OTHER|||||||0.192|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1920
82450732|NCT01865448|164608189|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0011
82450733|NCT01865448|164608190|SUPERIORITY_OR_OTHER|||||||0.2999|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2999
82652165|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.004||||0.9772|TWO_SIDED|95.0|-0.304|0.313||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.313|-0.304|0.9772
82450734|NCT01865448|164608190|SUPERIORITY_OR_OTHER|||||||0.5184|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5184
82450735|NCT01865448|164608190|SUPERIORITY_OR_OTHER|||||||0.0564|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0564
82450736|NCT01865448|164608191|SUPERIORITY_OR_OTHER|||||||0.0783|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0783
82450737|NCT01865448|164608191|SUPERIORITY_OR_OTHER|||||||0.1263|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1263
82450738|NCT01865448|164608191|SUPERIORITY_OR_OTHER|||||||0.6484|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.6484
82450739|NCT01865448|164608192|SUPERIORITY_OR_OTHER|||||||0.6896|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.6896
82450740|NCT01865448|164608192|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0980
82450741|NCT01865448|164608192|SUPERIORITY_OR_OTHER|||||||0.3526|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.3526
82450742|NCT01865448|164608193|SUPERIORITY_OR_OTHER|||||||0.9662|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9662
82450743|NCT01865448|164608193|SUPERIORITY_OR_OTHER|||||||0.145|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.1450
82450744|NCT01865448|164608193|SUPERIORITY_OR_OTHER|||||||0.3811|TWO_SIDED||||||Paired t-test|||||||0.3811
82450745|NCT01865448|164608194|SUPERIORITY_OR_OTHER|||||||0.2643|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.2643
82450746|NCT01865448|164608194|SUPERIORITY_OR_OTHER|||||||0.0761|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0761
82450747|NCT01865448|164608194|SUPERIORITY_OR_OTHER|||||||0.1342|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.1342
82450748|NCT01865448|164608195|SUPERIORITY_OR_OTHER|||||||0.141|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1410
82450749|NCT01865448|164608195|SUPERIORITY_OR_OTHER|||||||0.3774|||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.3774
82450750|NCT01865448|164608195|SUPERIORITY_OR_OTHER|||||||0.1811|TWO_SIDED||||||Paired t-test|||||||0.1811
82450751|NCT01865448|164608196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||<0.0001
82450752|NCT01865448|164608196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
82450753|NCT01865448|164608196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
82450754|NCT01865448|164608197|SUPERIORITY_OR_OTHER|||||||0.5893|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.5893
82450755|NCT01865448|164608197|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0431
82450756|NCT01865448|164608197|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0066
82450757|NCT01865448|164608198|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||<0.0001
82450758|NCT01865448|164608198|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
82450759|NCT01865448|164608198|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||<0.0001
82450760|NCT01865448|164608199|SUPERIORITY_OR_OTHER|||||||0.985|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.9850
82450761|NCT01865448|164608199|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 6 month data||||0.0049
82450762|NCT01865448|164608199|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Paired t-test|||||||0.0062
82450763|NCT01865448|164608200|SUPERIORITY_OR_OTHER|||||||0.1946|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.1946
82450764|NCT01865448|164608200|SUPERIORITY_OR_OTHER|||||||0.2337|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.2337
82450765|NCT01865448|164608200|SUPERIORITY_OR_OTHER|||||||0.9188|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.9188
82450766|NCT01865448|164608201|SUPERIORITY_OR_OTHER|||||||0.7964|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.7964
82450767|NCT01865448|164608201|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.7680
82450768|NCT01865448|164608201|SUPERIORITY_OR_OTHER|||||||0.5669|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.5669
82450769|NCT01865448|164608202|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||Between-Group Comparison||||0.0320
82450770|NCT01865448|164608202|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.0220
82535944|NCT01251614|164770218|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.276|TWO_SIDED|95.0|0.71|3.21|||Log Rank|||Statistical comparisons for the ranked secondary endpoints were carried out in hierarchical order. All statistical tests were 2-sided with the significance level of 5%. Statistically significant results (P value ≤ 0.05) must have been achieved for a comparison in the higher rank in order to initiate the next comparison in the lower rank.||3.21|0.71|0.276
82535945|NCT03371108|164770251|EQUIVALENCE|The determination of equivalence was defined by the US-FDA as a confidence interval that was contained within the equivalence limits of +/- 10.7.|Risk Difference (RD)|-2.1|STANDARD_ERROR_OF_MEAN|3.39|||TWO_SIDED|90.0|-7.6|3.5|||||The asymptotic standard error was planned and is reported above.|This is a two-arm study.||3.5|-7.6|
82535946|NCT03929302|164770263|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.05|TWO_SIDED||||||Regression, Linear|||||||0.05
82535947|NCT03929302|164770263|SUPERIORITY||Mean Difference (Final Values)|1.57||||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
82535948|NCT03929302|164770263|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.642|TWO_SIDED||||||Regression, Linear|||||||0.642
82535949|NCT00372567|164770268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.484|2.235|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||No hypothesis tested.||2.235|0.484|
82535950|NCT00372567|164770269|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.818|||||TWO_SIDED|95.0|0.64|12.41|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||12.41|0.640|
82535951|NCT00372567|164770271|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.027|||||TWO_SIDED|95.0|0.505|2.088|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||2.088|0.505|
82535952|NCT00372567|164770272|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.308|||||TWO_SIDED|95.0|0.4|13.0|||Cochran-Mantel-Haenszel|Stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||13.0|0.4|
82535953|NCT00372567|164770275|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.434|||||TWO_SIDED|95.0|1.057|11.15|||Cox Proportional Hazards Model|Model stratified by previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||11.15|1.057|
82535954|NCT00372567|164770276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.379|||||TWO_SIDED|95.0|0.1|2.3|||Cochran-Mantel-Haenszel|Stratified for previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||2.3|0.1|
82535955|NCT00372567|164770277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.318|||||TWO_SIDED|95.0|0.5|3.8|||Cochran-Mantel-Haenszel|Stratified for previous imatinib treatment status (less than 6 months of treatment with imatinib and greater than or equal to 6 months).||||3.8|0.5|
82535956|NCT02680756|164770307|NON_INFERIORITY|A 2-sided CI for difference in the proportions of Hb responders (risk difference for ferric maltol - IV iron) between the two treatment groups, and comparing the LCL of this CI to the pre-specified non-inferiority margin of 20%. The CI was calculated using the Delta Method approach based on a logistic regression model, adjusted for treatment group, baseline Hb (below the observed median or at least the observed median), and IBD subgroup (UC or CD).|Risk Difference (RD)|-0.17||||0.298|TWO_SIDED|95.0|-0.28|-0.06|||t-test, 2 sided|||||-0.06|-0.28|0.298
82535957|NCT02680756|164770308|NON_INFERIORITY|A 2-sided CI for difference in the proportions of Hb responders (risk difference for ferric maltol - IV iron) between the two treatment groups, and comparing the LCL of this CI to the pre-specified non-inferiority margin of 20%. The CI was calculated using the Delta Method approach based on a logistic regression model, adjusted for treatment group, baseline Hb (below the observed median or at least the observed median), and IBD subgroup (UC or CD).|Risk Difference (RD)|-0.17||||0.341|TWO_SIDED|95.0|-0.3|-0.05|||t-test, 2 sided|||||-0.05|-0.30|0.341
82535958|NCT00293462|164770346|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09||95.0|||||Fisher Exact|Two by two table was used. One cell had expected frequency test less than five, so Fisher's exact two-tailed test was used.||Fisher's exact two tailed test||||0.09
82535959|NCT00293462|164770347|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|TWO_SIDED|95.0|||||Mantel Haenszel|Log rank, Breslow, Tarone-Ware test, but used mantel cox log rank for this analysis||Kaplan-Meier estimate of the survival curves used information from subjects who develop mucositis to the healing of the mucositis in three groups, Group GG, SS, and SG. In order to compare the three curves that were created, the Mantel-Haenszel log-rank statistic was used||||0.92
82535960|NCT00293462|164770348|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0||||0.28 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||Multilevel regression was used.||||0.28
82535961|NCT00293462|164770349|SUPERIORITY_OR_OTHER_LEGACY|||||||0.78||95.0||||0.78 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||||||0.78
82577201|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.172||0.4383|TWO_SIDED|95.0|-0.48|0.21|||MMRM|||Retardation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.48|0.4383
82450771|NCT01865448|164608202|SUPERIORITY_OR_OTHER|||||||0.4563|TWO_SIDED||||||Paired t-test|||Within-group comparisons between the baseline and 2 month data||||0.4563
82535962|NCT00293462|164770350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||0.22 (quadratic)|Mixed Models Analysis|Restricted Maximum Likelihood Methods with random intercepts was the only model used for the three groups and seven measurement time points.||||||0.22
82535963|NCT01950260|164770379|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
82535964|NCT01950260|164770380|SUPERIORITY|||||||0.41|||||||Regression, Linear|||||||0.41
82535965|NCT01950260|164770381|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||0.33
82577202|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.167||0.8767|TWO_SIDED|95.0|-0.36|0.31|||MMRM|||Retardation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.36|0.8767
82450772|NCT01865448|164608203|SUPERIORITY_OR_OTHER|||||||0.72828|TWO_SIDED||||||Fisher Exact|||Between-Group Comparison||||0.72828
82450773|NCT02610777|164608225|SUPERIORITY||Hazard Ratio (HR)|0.861||||0.464|TWO_SIDED|95.0|0.577|1.286||P-value is from an unstratified log-rank test.|Log Rank||Hazard Ratio (HR) was based on an unstratified Cox proportional hazard regression model with treatment as a factor.|||1.286|0.577|0.464
82450774|NCT02610777|164608226|SUPERIORITY||Hazard Ratio (HR)|0.706|||=|0.092|TWO_SIDED|95.0|0.469|1.061||P-value comparing EFS between treatment groups was based on the unstratified log-rank test.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|Event-Free Survival (EFS)||1.061|0.469|=0.092
82450775|NCT02610777|164608229|SUPERIORITY||Hazard Ratio (HR)|0.562|||=|0.267|TWO_SIDED|95.0|0.2|1.579||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio (HR) is based on an unstratified Cox proportional hazard regression model with treatment as a factor.|||1.579|0.200|=0.267
82450776|NCT02610777|164608230|SUPERIORITY||Absolute Rate Difference|9.61|||=|0.312|TWO_SIDED|95.0|-8.83|28.04||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||28.04|-8.83|=0.312
82450777|NCT02610777|164608231|SUPERIORITY||Absolute Rate Difference|5.63||||0.56|TWO_SIDED|95.0|-13.19|24.44||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||24.44|-13.19|0.560
82450778|NCT02610777|164608232|SUPERIORITY||Absolute Rate Difference|8.64|||=|0.343|TWO_SIDED|95.0|-9.09|26.38||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||26.38|-9.09|=0.343
82450779|NCT02610777|164608233|SUPERIORITY||Absolute Rate Difference|-18.82|||=|0.296|TWO_SIDED|95.0|-52.91|15.26||P-value is from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||15.26|-52.91|=0.296
82450780|NCT02610777|164608234|SUPERIORITY||Absolute Rate Difference|13.16|||=|0.152|TWO_SIDED|95.0|-4.49|30.81||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||30.81|-4.49|=0.152
82450781|NCT02610777|164608235|SUPERIORITY||Absolute Rate Difference|10.53|||=|0.301|TWO_SIDED|95.0|-9.13|30.18||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||30.18|-9.13|=0.301
82450782|NCT02610777|164608236|SUPERIORITY||Absolute Rate Difference|13.16|||=|0.254|TWO_SIDED|95.0|-9.12|35.44||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||35.44|-9.12|=0.254
82450783|NCT02610777|164608237|SUPERIORITY||Absolute Rate Difference|-4.71|||=|0.787|TWO_SIDED|95.0|-38.33|28.92||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel||Absolute difference \>0 represent better response achieved on pevonedistat combination compared to azacitidine treatment alone.|||28.92|-38.33|=0.787
82450784|NCT02610777|164608238|SUPERIORITY||Hazard Ratio (HR)|0.789|||=|0.62|TWO_SIDED|95.0|0.308|2.02||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||2.020|0.308|=0.620
82450785|NCT02610777|164608239|SUPERIORITY||Hazard Ratio (HR)|0.719|||=|0.436|TWO_SIDED|95.0|0.313|1.653||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||1.653|0.313|=0.436
82450786|NCT02610777|164608240|SUPERIORITY||Hazard Ratio (HR)|0.81|||=|0.565|TWO_SIDED|95.0|0.395|1.662||P-value is from an unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||1.662|0.395|=0.565
82450787|NCT02610777|164608241|SUPERIORITY||Hazard Ratio (HR)|0.42|||=|0.383|TWO_SIDED|95.0|0.057|3.109||P-value comparing duration of CR in low blast AML between treatment groups is based on unstratified log-rank test.|Log Rank||Hazard ratio was based on an unstratified Cox proportional hazard regression model and treatment as a factor in the model.|||3.109|0.057|=0.383
82450788|NCT02610777|164608242|SUPERIORITY||Hazard Ratio (HR)|1.206|||=|0.498|TWO_SIDED|95.0|0.699|2.081||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\>1 for the treatment indicates a shorter time to first CR, CRi or PR in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||2.081|0.699|=0.498
82450789|NCT02610777|164608243|SUPERIORITY||Hazard Ratio (HR)|0.905|||=|0.888|TWO_SIDED|95.0|0.226|3.62||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\<1for the treatment indicates a longer time to Subsequent Therapy in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||3.620|0.226|=0.888
82450790|NCT02610777|164608244|SUPERIORITY||Absolute Rate Difference|19.231|||=|0.162|TWO_SIDED|95.0|-6.925|45.386||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With RBCs-transfusion Independence||45.386|-6.925|=0.162
82450791|NCT02610777|164608244|SUPERIORITY||Absolute Rate Difference|20.0|||=|0.454|TWO_SIDED|95.0|-26.381|66.381||P-value is from an unstratified Cochran-Mantel Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With Platelet-transfusion Independence||66.381|-26.381|=0.454
82429144|NCT01331681|164565264|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|27.5|||<|0.0001|TWO_SIDED|97.5|14.6|40.5||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the second secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 10 letters identical in both groups||40.5|14.6|<0.0001
82429145|NCT01331681|164565265|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|23.3|||<|0.0001|TWO_SIDED|97.5|12.6|33.9||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the third secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 15 letters identical in both groups||33.9|12.6|<0.0001
82429146|NCT01331681|164565265|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|24.2|||<|0.0001|TWO_SIDED|97.5|13.5|34.9||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the third secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to gain \>= 15 letters identical in both groups||34.9|13.5|<0.0001
82429147|NCT01331681|164565266|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|25.8|||<|0.0001|TWO_SIDED|97.5|12.2|39.4||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fourth secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to improve by \>= 2 steps identical in both groups||39.4|12.2|<0.0001
82429148|NCT01331681|164565266|SUPERIORITY_OR_OTHER_LEGACY||CMH adjusted difference|19.3||||0.0006|TWO_SIDED|97.5|6.6|32.1||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fourth secondary endpoint.|Cochran-Mantel-Haenszel|Stratifying by geographic region (Japan vs non-Japan).|The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Probability to improve by \>= 2 steps identical in both groups||32.1|6.6|0.0006
82450792|NCT02610777|164608246|SUPERIORITY||Hazard Ratio (HR)|0.79|||=|0.266|TWO_SIDED|95.0|0.521|1.198||P-value is from an unstratified log-rank test.|Log Rank||HR is based on an unstratified Cox proportional hazard regression model with treatment as a factor. HR\<1for the treatment indicates a longer time to PD, Relapse, or Death in the Pevonedistat Combination arm compared to the Azacitidine only arm.|||1.198|0.521|=0.266
82450793|NCT00660179|164608252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.704||||0.0108|TWO_SIDED|97.5|0.516|0.96|||Log Rank|||||0.960|0.516|0.0108
82450794|NCT00660179|164608252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.547|||<|0.0001|TWO_SIDED|97.5|0.392|0.762|||Log Rank|||||0.762|0.392|<0.0001
82652166|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.235||||0.139|TWO_SIDED|95.0|-0.546|0.077||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.077|-0.546|0.1390
82450795|NCT00660179|164608253|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.669||||0.0146|TWO_SIDED|97.5|0.462|0.97|||Log Rank|||||0.970|0.462|0.0146
82450796|NCT00660179|164608253|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|97.5|0.335|0.747|||Log Rank|||||0.747|0.335|<0.0001
82450797|NCT00660179|164608254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.971||||0.9249|TWO_SIDED|97.5|0.477|1.976|||Log Rank|||||1.976|0.477|0.9249
82450798|NCT00660179|164608254|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.638||||0.2037|TWO_SIDED|97.5|0.287|1.418|||Log Rank|||||1.418|0.287|0.2037
82450799|NCT00660179|164608255|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046||||0.8312|TWO_SIDED|97.5|0.653|1.673|||Log Rank|||||1.673|0.653|0.8312
82450800|NCT00660179|164608255|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.771||||0.2509|TWO_SIDED|97.5|0.464|1.282|||Log Rank|||||1.282|0.464|0.2509
82450801|NCT05224453|164608262|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-5.0|||<|0.05|TWO_SIDED|95.0|-6.21|-3.78|||t-test, 2 sided|||||-3.78|-6.21|<0.05
82450802|NCT05224453|164608263|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-3.7|||<|0.05|TWO_SIDED|95.0|-6.53|-0.86|||t-test, 2 sided|||||-0.86|-6.53|<0.05
82450803|NCT05224453|164608263|SUPERIORITY|Parametric t test|Mean Difference (Final Values)|-1.7|||<|0.05|TWO_SIDED|95.0|-3.84|0.44|||t-test, 2 sided|||||0.44|-3.84|<0.05
82450804|NCT02974257|164608274|OTHER|Linear mixed-effects model with an independent variance-covariance matrix to account for the correlation of within-patient repeated measures was used and linear contrasts were used to estimate the mean difference between treatment arms at 48 hours.|Mean Difference (Final Values)|1.5||||0.9|TWO_SIDED|95.0|-3.1|6.1||Global p-value from the mixed model.|Mixed Models Analysis|If patients died before 48 hours lactate levels were imputed by carrying forward the last known value before the event with a 20% increase||||6.1|-3.1|0.9
82450805|NCT02974257|164608275|OTHER||Mean Difference (Final Values)|-0.36||||0.42|TWO_SIDED|95.0|-1.29|0.56|||Regression, Linear|||AUC-VO2 normally distributed, used a linear regression model to compare mean AUC-VO2 between treatment groups controlling for average temperature.||0.56|-1.29|0.42
82450806|NCT02974257|164608276|OTHER||Mean Difference (Final Values)|-0.3||||0.07|TWO_SIDED|95.0|-0.9|0.3||Mixed model controlling for repeated measures within patients used to get a mean difference in PDH specific activity between thiamine and placebo groups at 48 hours.|Mixed Models Analysis|P-value is the global p-value from the mixed model.||||0.3|-0.9|0.07
82450807|NCT02967510|164608285|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.304|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.304
82429149|NCT01331681|164565267|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-157.0|||<|0.0001|TWO_SIDED|97.5|-190.9|-123.1||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fifth secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||-123.1|-190.9|<0.0001
82429150|NCT01331681|164565267|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-142.8|||<|0.0001|TWO_SIDED|97.5|-179.3|-106.3||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value and the preceding ones were below the significance level of 0.025, the fixed sequence testing did continue with the fifth secondary endpoint.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A negative value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||-106.3|-179.3|<0.0001
82429151|NCT01331681|164565268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.41||||0.2208|TWO_SIDED|97.5|-2.01|6.82||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value is not below of 0.025, the fixed sequence testing stops here. The sixth secondary endpoint cannot be tested confirmatory.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||6.82|-2.01|0.2208
82429152|NCT01331681|164565268|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.21||||0.5537|TWO_SIDED|97.5|-5.79|3.37||Significance level alpha=0.025 for two sided test to adjust for multiplicity. Since this p-value is not below of 0.025, the fixed sequence testing stops here. The sixth secondary endpoint cannot be tested confirmatory.|ANCOVA|Treatment group and geographic region (Japan vs. Non-Japan) as factors and baseline value as covariate.|LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||3.37|-5.79|0.5537
82429153|NCT01331681|164565269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.19||||0.5138|TWO_SIDED|97.5|-5.29|2.91|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||2.91|-5.29|0.5138
82429154|NCT01331681|164565269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37||||0.8498|TWO_SIDED|97.5|-4.79|4.05|||ANCOVA||LS mean difference from ANCOVA. The estimate is calculated as EYLEA minus Laser. A positive value indicates a result in favor of EYLEA.|Hypothesis: Mean change identical in both groups||4.05|-4.79|0.8498
82429155|NCT01247064|164565270|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82429156|NCT01247064|164565271|SUPERIORITY_OR_OTHER|||||||0.86|||||||Chi-squared|||||||0.86
82429157|NCT01247064|164565272|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82429158|NCT01247064|164565273|SUPERIORITY_OR_OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.36
82429159|NCT01247064|164565274|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
82429160|NCT04828707|164565282|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||"The Intent-To-Treat (ITT) dataset was used for primary outcome. To overcome impact of missing data, statistical analysis was conducted using the Last Observation Carried Forward (LOCF) as an imputation method.~The data of each variable collected from the daily diary was normalized to 28 days for every period (weeks 1-4, weeks 5-8, and weeks 9-12).~Participants' data who entered the treatment phase but dropped out during weeks 5-8 were carried forward and analyzed as their data at weeks 9-12."||||<0.05
82429161|NCT02394561|164565305|NON_INFERIORITY|The difference in percentage of patients achieving PASI 90 response between the Cw6-positive cohort and the Cw6-negative cohort was H0 = Cw6-positive minus Cw6-negative ≥0.12 and HA = Cw6-positive minus Cw6-negative was \< 0.12. The percentage of PASI 90 response by cohort as well as the difference between cohort together with 97.5% upper CI was provided using Clopper Pearson CI method.|difference|-1.3|||||TWO_SIDED|95.0|-8.8|6.2||||||||6.2|-8.8|
82429162|NCT02394561|164565308|OTHER|difference between cohorts for PASI 90 using Kaplan-Meier estimate||||||0.1295|||||||Log Rank|||||||0.1295
82429163|NCT02394561|164565308|OTHER|||||||0.447||||||difference between cohorts for PASI 75 using Kaplan-Meier estimate|Log Rank|||||||0.4470
82429164|NCT02394561|164565309|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|At all time points||||||<.0001
82429165|NCT02394561|164565310|SUPERIORITY||||||<|0.0001||||||All time points|Wilcoxon (Mann-Whitney)|||||||<.0001
82429166|NCT02553629|164565316|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82429167|NCT02553629|164565317|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82429168|NCT02553629|164565318|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82429169|NCT02553629|164565319|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82429170|NCT02553629|164565320|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82429171|NCT00696878|164565327|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||0.4|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 1|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||0.4||
82585968|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.3796||||||6M- ESS-TS (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.3796
82450808|NCT02967510|164608285|SUPERIORITY||Mean Difference (Final Values)|0.0|||=|0.109|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.109
82450809|NCT02967510|164608285|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.119|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.119
82450810|NCT02967510|164608286|SUPERIORITY||LS Mean Difference|-0.74|||<|0.001|TWO_SIDED|95.0|-1.031|-0.444|||ANCOVA|||||-0.444|-1.031|<0.001
82535966|NCT03283553|164770384|SUPERIORITY|||||||0.264||||||P-value represents interaction for differential changes between time point (9 months compared to baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Complete illness understanding at 9 months was compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.264
82535967|NCT03283553|164770385|SUPERIORITY|||||||0.555||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Satisfaction with cancer care at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.555
82535968|NCT03283553|164770386|SUPERIORITY|||||||0.619||||||P-value represents interaction for differential changes between time point (9 months vs baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Symptoms of anxiety at 9 months were compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.619
82585969|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.0106||||||6M- ESS-TS (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0106
82429172|NCT00696878|164565327|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||0.8|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 2|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||0.8||
82429173|NCT00696878|164565327|SUPERIORITY_OR_OTHER_LEGACY||Percentage with immunogenicity|0.0|||||ONE_SIDED|95.0||1.5|||||Provided limit is upper 1-sided 95% confidence limit for study population for percentage of participants with clinically relevant immunogenicity, after Cycle 3|During sample size determination, the upper limit of the one-sided 95% confidence interval for the population incidence of immunogenicity, if no immunogenicity is observed, was calculated. If no immunogenicity is observed in the projected 150 participants who receive corifollitropin alfa during 3 COS cycles, then the upper limit for the population is 2%. For the projected 300 participants who receive corifollitropin alfa during 2 COS cycles, the upper limit for the population is 1%.||1.5||
82429174|NCT03937479|164565414|SUPERIORITY||LS mean difference|0.1242|STANDARD_ERROR_OF_MEAN|0.03691||0.0008|TWO_SIDED|95.0|0.0517|0.1968||The mixed model for repeated measures (MMRM) model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1968|0.0517|0.0008
82429175|NCT03937479|164565414|SUPERIORITY||LS mean difference|0.1072|STANDARD_ERROR_OF_MEAN|0.03703||0.004|TWO_SIDED|95.0|0.0344|0.18||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1800|0.0344|0.0040
82450811|NCT02967510|164608286|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.051|-0.458|||ANCOVA|||||-0.458|-1.051|<0.001
82450812|NCT02967510|164608286|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.951|-0.369|||ANCOVA|||||-0.369|-0.951|<0.001
82450813|NCT02967510|164608287|SUPERIORITY||LS Mean Difference|0.21|||<|0.001|TWO_SIDED|95.0|0.147|0.278|||ANCOVA|||||0.278|0.147|<0.001
82450814|NCT02967510|164608287|SUPERIORITY||LS Mean Difference|0.15|||<|0.001|TWO_SIDED|95.0|0.078|0.213|||ANCOVA|||||0.213|0.078|<0.001
82450815|NCT02967510|164608287|SUPERIORITY||LS Mean Difference|0.16|||<|0.001|TWO_SIDED|95.0|0.097|0.226|||ANCOVA|||||0.226|0.097|<0.001
82450816|NCT02967510|164608288|SUPERIORITY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.603|-0.4|||ANCOVA|||||-0.4|-0.603|<0.001
82450817|NCT02967510|164608288|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.572|-0.365|||ANCOVA|||||-0.365|-0.572|<0.001
82450818|NCT02967510|164608288|SUPERIORITY||LS Mean Difference|-0.43|||<|0.001|TWO_SIDED|95.0|-0.531|-0.331|||ANCOVA|||||-0.331|-0.531|<0.001
82450819|NCT02967510|164608289|SUPERIORITY||Mean Difference (Final Values)|0.0|||=|0.47|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.47
82450820|NCT02967510|164608289|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.448|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|0|-1|=0.448
82450821|NCT02967510|164608289|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.451|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.451
82450822|NCT02967510|164608290|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.329|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.329
82535969|NCT03283553|164770387|SUPERIORITY|||||||0.532||||||P-value represents interaction for differential changes between time point (9 months compared to baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Complete illness understanding at 9 months was compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.532
82535970|NCT03283553|164770388|SUPERIORITY|||||||0.108||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Satisfaction with cancer care at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.108
82535971|NCT03283553|164770389|SUPERIORITY|||||||0.405||||||P-value represents interaction for differential changes between time point (9 months vs baseline) and group assignment.|Regression, Logistic|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Symptoms of anxiety at 9 months were compared to baseline using logistic regression models estimated with generalized estimating equations (GEE) and an exchangeable correlation specification. Each model included group assignment, time (9 months versus baseline), their interaction, and covariates.||||0.405
82535972|NCT03283553|164770390|SUPERIORITY|||||||0.412||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Quality of communication at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.412
82535973|NCT03283553|164770391|SUPERIORITY|||||||0.872||||||P-value represents the significance of the term for group assignment.|Regression, Linear|Adjusts for baseline patient education, care partner gender, and patient disease stage.||Quality of communication at 9 months was compared to baseline using linear regression models with the difference in the score as the outcome and a term for group assignment as the main independent variable.||||0.872
82535974|NCT03283553|164770392|SUPERIORITY||||||<|0.001|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who were registered during the 9-month follow up period.||||||<0.001
82535975|NCT03283553|164770393|SUPERIORITY|||||||0.003|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.||||||0.003
82535976|NCT03283553|164770394|SUPERIORITY||||||<|0.001|||||||Fisher Exact|P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.||||||<0.001
82535977|NCT03283553|164770395|SUPERIORITY|||||||0.128||||||P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.|Fisher Exact|||||||0.128
82535978|NCT03283553|164770396|SUPERIORITY|||||||0.247||||||P-value assess between-group differences in proportion of participants who used a patient portal feature at least once during 9-month follow up.|Fisher Exact|||||||0.247
82535979|NCT03686683|164770397|SUPERIORITY||Odds Ratio (OR)|1.16||||0.4586|TWO_SIDED|95.0|0.78|1.74|||Cochran-Mantel-Haenszel|||||1.74|0.78|0.4586
82535980|NCT00372060|164770398|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.1|<|0.001||95.0|-1.0|-0.6|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline HbA1c.||||-0.6|-1.0|<0.001
82429176|NCT03937479|164565414|SUPERIORITY||LS mean difference|0.0912|STANDARD_ERROR_OF_MEAN|0.03723||0.0148|TWO_SIDED|95.0|0.018|0.1643||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1643|0.0180|0.0148
82429177|NCT03937479|164565414|SUPERIORITY||LS mean difference|0.0775|STANDARD_ERROR_OF_MEAN|0.03697||0.0368|TWO_SIDED|95.0|0.0048|0.1501||The MMRM model was used to model the change from baseline FEV1 to peak FEV1 using treatment, visit and treatment by visit interaction as fixed effect, patient as random effect and baseline FEV1 as the covariate.|MMRM||Estimates refer to the Week 4 from treatment by visit interaction.|Comparison was done using a closed testing procedure; testing began at the highest dose of RPL554 compared with placebo. If found statistically significant then the next highest dose was compared with placebo. This continued until a result was found to be non-significant or all RPL554 doses were compared with placebo.||0.1501|0.0048|0.0368
82429178|NCT00940602|164565432|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.636||||0.015|TWO_SIDED|95.0|0.42|0.96||Exploratory p-value is one tailed and is based on the stratified log-rank test.|Regression, Cox||95% CI was based on a Wald test from Cox model|||0.96|0.42|0.015
82429179|NCT00940602|164565433|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|12.0|||||TWO_SIDED|95.0|-1.8|25.7||||||||25.7|-1.8|
82429180|NCT00940602|164565434|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.832||||0.2|TWO_SIDED|95.0|0.54|1.28|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.28|0.54|0.200
82429181|NCT00940602|164565435|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.4|||||TWO_SIDED|95.0|-5.3|8.1||||||||8.1|-5.3|
82429182|NCT00940602|164565436|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|-0.3|||||TWO_SIDED|95.0|-12.0|11.4||||||||11.4|-12.0|
82450823|NCT02967510|164608290|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.348|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.348
82450824|NCT02967510|164608290|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.266|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.266
82450825|NCT02967510|164608291|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.122|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.122
82429183|NCT00940602|164565437|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.725||||0.184|TWO_SIDED|95.0|0.36|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.36|0.184
82429184|NCT00940602|164565438|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.195|||<|0.001|TWO_SIDED|95.0|0.11|0.36|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||0.36|0.11|<.001
82429185|NCT00940602|164565439|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.871||||0.303|TWO_SIDED|95.0|0.52|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.52|0.303
82429186|NCT00940602|164565440|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|1.072||||0.389|TWO_SIDED|95.0|0.66|1.75|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.75|0.66|0.389
82535981|NCT00372060|164770399|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|3.39|<|0.001||95.0|-23.4|-10.0|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline fasting plasma glucose.||||-10.0|-23.4|<0.001
82535982|NCT00372060|164770400|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-49.2|STANDARD_ERROR_OF_MEAN|7.7|<|0.001||95.0|-64.5|-33.9|||ANCOVA|Model terms: treatment, prior oral anti-hyperglycemic medication (except for pioglitazone), and baseline 2-hour postprandial glucose.||||-33.9|-64.5|<0.001
82535983|NCT01579578|164770415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|12.23||0.688|TWO_SIDED|95.0|-30.81|20.81||two sided p value|ANCOVA|ANCOVA model including covariates for baseline tumour size, for the time from the baseline scan to randomisation and with a term for HER2 status.|the difference in LS means is estimated|60 patients had been considered to detect a -20% difference in the estimated average percentage change in tumour size at 8 weeks for AZD8931 plus paclitaxel compared to paclitaxel alone at a one-sided significance level of 10% with 90% power. This is based on a standard deviation of 30% for tumour data (on an absolute scale)||20.81|-30.81|0.688
82429187|NCT00940602|164565442|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.5|||||TWO_SIDED|95.0|-5.2|8.1||||||||8.1|-5.2|
82450826|NCT02967510|164608291|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.188|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.188
82450827|NCT02967510|164608291|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.222|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.222
82652167|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.017||||0.9215|TWO_SIDED|95.0|-0.349|0.316||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.316|-0.349|0.9215
82429188|NCT00940602|164565443|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|0.7|||||TWO_SIDED|95.0|-1.6|3.0||||||||3.0|-1.6|
82429189|NCT00940602|164565444|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|1.4|||||TWO_SIDED|95.0|-11.9|14.6||||||||14.6|-11.9|
82429190|NCT00940602|164565445|OTHER|100 (1-α)% confidence intervals with α of 0.05 are provided|Wilson score test|-9.6|||||TWO_SIDED|95.0|-20.8|1.6||||||||1.6|-20.8|
82429191|NCT00940602|164565446|OTHER|The study was not designed for confirmatory analyses. Statistical tests were performed in an exploratory sense only.|Hazard Ratio (HR)|0.797||||0.232|TWO_SIDED|95.0|0.43|1.46|||Regression, Cox||95% CI was based on a Wald test from Cox model.|||1.46|0.43|0.232
82429192|NCT03768427|164565448|OTHER|Difference in least squares mean|Mean Difference (Final Values)|-19.5|||<|0.001|TWO_SIDED|95.0|-26.7|-12.3|||Constrained longitudinal model|||"This statistical analysis was performed by fitting a constrained longitudinal model adjusting for time and the interaction of time by treatment, and time by baseline disease risk category, including all participants with baseline data (88 participants in arm Atorvastatin 10 mg - ezetimibe 10 mg/Ator 10 mg and 89 participants in arm Atorvastatin 10mg - Atorvastatin 20 mg)."|Difference in least squares mean is Atorvastatin 10 mg - EZ 10 mg/Ator 10 mg minus Atorvastatin 10mg - Atorvastatin 20 mg.|-12.3|-26.7|<0.001
82652168|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.055||||0.7453|TWO_SIDED|95.0|-0.388|0.278||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.278|-0.388|0.7453
82429193|NCT03768427|164565448|OTHER|Difference in least squares mean|Mean Difference (Final Values)|-15.9|||<|0.001|TWO_SIDED|95.0|-21.0|-10.7|||Constrained longitudinal model|||"This statistical analysis was performed by fitting a constrained longitudinal model adjusting for time and the interaction of time by treatment, and time by baseline disease risk category, including all participants with baseline data (137 participants in arm Atorvastatin 20 mg - EZ 10 mg/Ator 20 mg and 140 participants in arm Atorvastatin 20 mg - Atorvastatin 40 mg)."|Atorvastatin 20 mg - EZ 10 mg/Ator 20 mg minus Atorvastatin 20 mg - Atorvastatin 40 mg.|-10.7|-21.0|<0.001
82429194|NCT02099084|164565510|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.74
82429195|NCT02099084|164565511|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups for change between 0- and 2-hours. Level of significance = .05||||0.20
82429196|NCT02099084|164565511|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||Comparison between the groups for change between 0- and 8-hours. Level of significance = .05||||0.17
82429197|NCT02099084|164565512|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.075
82429198|NCT02099084|164565515|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.42
82429199|NCT02099084|164565516|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||t-test, 2 sided|||Level of significance = .05||||0.34
82429200|NCT00776789|164565518|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4
82429201|NCT00776789|164565519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0||95.0|1.4|4.3|||Wilcoxon (Mann-Whitney)|||Exclusive breast feeding at 48 hours was 95% (19 out of 20 partcipants were exclusively breast feeding)in the skin-to-skin contact group vs. 38.1% in the control group||4.3|1.4|0.00
82429202|NCT00776789|164565520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.001||95.0|1.6|6.3|||Wilcoxon (Mann-Whitney)|||||6.3|1.6|0.001
82429203|NCT01953211|164565526|SUPERIORITY_OR_OTHER||Slope|0.02|STANDARD_DEVIATION|0.57||0.88|TWO_SIDED||||||t-test, 2 sided|||||||0.88
82429204|NCT01953211|164565526|SUPERIORITY_OR_OTHER||Slope|0.63|STANDARD_DEVIATION|0.9|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82429205|NCT01953211|164565526|SUPERIORITY_OR_OTHER||Slope|0.83|STANDARD_DEVIATION|0.78|<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82429206|NCT03391882|164565527|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|1.722||0.8944|TWO_SIDED|95.0|-3.16|3.62|||Mixed Models Analysis|||||3.62|-3.16|0.8944
82429207|NCT03391882|164565528|SUPERIORITY||Odds Ratio (OR)|1.129||||0.7777|TWO_SIDED|95.0|0.484|2.637|||generalized linear random effects model|||||2.637|0.484|0.7777
82429208|NCT03391882|164565529|SUPERIORITY|||||||0.0002|TWO_SIDED|||||The p-value is from a 1-sample, 2-sided test of the null hypothesis that the true proportion preferring APL is 50% to evaluate if a significantly higher proportion of the subjects prefer APL-130277 or not.|binomial distribution with normal approx|||||||0.0002
82429209|NCT03391882|164565530|SUPERIORITY||Odds Ratio (OR)|1.835||||0.1769|TWO_SIDED|95.0|0.759|4.438|||generalized linear random effects model|||||4.438|0.759|0.1769
82429210|NCT03391882|164565531|SUPERIORITY||Odds Ratio (OR)|1.47||||0.3922|TWO_SIDED|95.0|0.61|3.53|||generalized linear random effects model|||||3.53|0.61|0.3922
82429211|NCT00543985|164565532|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.266|||=|0.14|TWO_SIDED|95.0|||||Regression, Linear|||Pearson Product correlation was used to determine relationships between resting E/E' and Exercise VO2 max and Stress E/E' and Exercise VO2max.||||=0.14
82429212|NCT00038948|164565540|SUPERIORITY_OR_OTHER||Weighted difference|-2.68||||0.575||95.0|-12.27|6.91||Analysis of covariance p-value|ANCOVA||Data was adjusted for baseline and center.|Baseline GFR of 20.0 to 40.0 mL/min||6.91|-12.27|0.575
82429213|NCT00038948|164565540|SUPERIORITY_OR_OTHER||Weighted difference|1.31||||0.278||95.0|-1.06|3.69||Analysis of covariance p-value|ANCOVA||Data was adjusted for baseline and center.|Baseline GFR of \>40.0 mL/min||3.69|-1.06|0.278
82429214|NCT00038948|164565541|SUPERIORITY_OR_OTHER|||||||0.135||||||Tests the equality of rates between treatments across strata at 52 weeks.|Cochran-Mantel-Haenszel|||52 weeks statistical analysis across strata||||0.135
82429215|NCT00038948|164565541|SUPERIORITY_OR_OTHER|||||||0.559||||||Tests the equality of rates between treatments across strata at 104 weeks.|Cochran-Mantel-Haenszel|||104 weeks statistical analysis across strata||||0.559
82429216|NCT01214837|164565567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|-7.0|||||TWO_SIDED|95.0|-14.0|-1.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup A at 13 months of age.||-1|-14|
82429217|NCT01214837|164565567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-8.0|0.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup C at 13 months of age.||0|-8|
82535984|NCT01770860|164770419|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with Treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
82535985|NCT01770860|164770420|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
82535986|NCT01770860|164770421|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
82535987|NCT01770860|164770422|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-values presented were for each of the bandage groups compared to no treatment group.|Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect.||||||<0.0001
82535988|NCT01770860|164770423|SUPERIORITY_OR_OTHER|||||||0.0476|||||||Mixed Models Analysis|P-value is from mixed model with treatment (trt) as fix effect, and subject as random effect||||||0.0476
82535989|NCT02341534|164770428|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.21|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||||1.10|0.64|0.21
82535990|NCT01648283|164770451|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82535991|NCT02783950|164770502|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
82535992|NCT02783950|164770503|SUPERIORITY|||||||0.7|||||||Wilcoxon Rank Test p-value|||||||0.70
82535993|NCT05302791|164770542|SUPERIORITY|||||||0.609|||||||ANOVA|time x condition ANOVA||||||.609
82535994|NCT05302791|164770543|SUPERIORITY|||||||0.858|||||||ANOVA|time x condition anova||||||.858
82535995|NCT05302791|164770544|SUPERIORITY|||||||0.633|||||||ANOVA|||||||.633
82535996|NCT05302791|164770545|SUPERIORITY|||||||0.076|||||||ANOVA|||||||.076
82535997|NCT05302791|164770546|SUPERIORITY|||||||0.151|||||||ANOVA|||||||.151
82535998|NCT05302791|164770547|SUPERIORITY|||||||0.385|||||||ANOVA|||||||.385
82535999|NCT05302791|164770548|SUPERIORITY|||||||0.665|||||||ANOVA|||||||.665
82536000|NCT05302791|164770549|SUPERIORITY|||||||0.078|||||||ANOVA|||||||.078
82648405|NCT02295280|165012327|SUPERIORITY|||||||0.14||||||Reduction in pain scores by at least 2 units six hours post administration|Mann Whitney U test|Mann Whitney U test used for analysis of this continuous variable as data were not normally distributed. Outcome was comparable at the 6-hour mark.||A sample size calculation of 35 patients in each group was based on an estimated reduction in headache pain score by at least two points, with an a of 0.05 and power of 90%, which is similar to estimates reported in prior studies in non-pregnant patients and felt to be a clinically significant decrease. Statistical analyses were performed using chi-square, Fisher's exact test for categorical variables, the independent Student's t-test and Kolmogorov-Smirnov for continuous variables.||||0.14
82536001|NCT05302791|164770550|SUPERIORITY|||||||0.773|||||||ANOVA|||||||.773
82536002|NCT05302791|164770551|SUPERIORITY|||||||0.118|||||||ANOVA|||||||.118
82536003|NCT05302791|164770552|SUPERIORITY||||||<|0.001|||||||ANOVA|Time x condition ANOVA||||||<0.001
82536004|NCT05302791|164770553|SUPERIORITY||||||<|0.001|||||||ANOVA|time x condition anova||||||<0.001
82536005|NCT04956692|164770554|NON_INFERIORITY|The non-inferiority margin with respect to the geometric means ratio (GMR) was 0.8|Geometric Mean Ratio (GMR)|1.04|||<|0.0001|TWO_SIDED|96.0|0.98|1.1||The one-sided p-value non-inferiority boundary is 0.02|t-test, 1 sided|Welch's unequal variances t-test. The null hypothesis was that GMR≤0.8.|Numerator Arm A/Denominator Arm B|||1.10|0.98|<0.0001
82536006|NCT04956692|164770555|NON_INFERIORITY|The non-inferiority margin with respect to the geometric means ratio (GMR) was 0.8|Geometric Mean Ratio (GMR)|1.85|||<|0.0001|TWO_SIDED|94.0|1.69|2.03||The one-sided p-value non-inferiority boundary is 0.03|t-test, 1 sided|Welch's unequal variances t-test. The null hypothesis was that GMR≤0.8.|Numerator Arm A/Denominator Arm B|||2.03|1.69|<0.0001
82536007|NCT02696785|164770581|SUPERIORITY||Odds Ratio (OR)|2.73||||0.005|TWO_SIDED|95.0|1.35|5.52|||Regression, Logistic|||Overall Work Impairment Score||5.52|1.35|0.005
82536008|NCT02696785|164770581|SUPERIORITY||Odds Ratio (OR)|4.45|||<|0.001|TWO_SIDED|95.0|2.2|9.03|||Regression, Logistic|||Overall Work Impairment Score.||9.03|2.20|<0.001
82536009|NCT02696785|164770581|SUPERIORITY||Odds Ratio (OR)|5.09|||<|0.001|TWO_SIDED|95.0|2.52|10.28|||Regression, Logistic|||Overall Work Impairment Score.||10.28|2.52|<0.001
82536010|NCT02696785|164770581|SUPERIORITY||LSMean Difference|-7.0|STANDARD_ERROR_OF_MEAN|3.16|<|0.001|TWO_SIDED|95.0|-13.2|-0.7|||ANCOVA|||Percentage of Activity Impairment||-0.7|-13.2|<0.001
82536011|NCT02696785|164770581|SUPERIORITY||LSMean Difference|-9.3|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|-15.5|-3.0|||ANCOVA|||Percentage of Activity Impairment||-3.0|-15.5|<0.001
82536012|NCT02696785|164770581|SUPERIORITY||LSMean Difference|-8.9|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED|95.0|-15.2|-2.5|||ANCOVA|||Percentage of Activity Impairment||-2.5|-15.2|<0.001
82536013|NCT02696785|164770582|SUPERIORITY||Odds Ratio (OR)|2.3||||0.007|TWO_SIDED|95.0|1.25|4.23|||Regression, Logistic|||||4.23|1.25|0.007
82536014|NCT02696785|164770582|SUPERIORITY||Odds Ratio (OR)|2.78||||0.001|TWO_SIDED|95.0|1.48|5.24|||Regression, Logistic|||||5.24|1.48|0.001
82536015|NCT02696785|164770582|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.001|TWO_SIDED|95.0|1.79|6.41|||Regression, Logistic|||||6.41|1.79|<0.001
82536016|NCT02696785|164770583|SUPERIORITY||LSMean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|95.0|-1.11|-0.57|||Mixed Models Analysis|||||-0.57|-1.11|<0.001
82536017|NCT02696785|164770583|SUPERIORITY||LSMean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-1.25|-0.7|||Mixed Models Analysis|||||-0.70|-1.25|<0.001
82536018|NCT02696785|164770583|SUPERIORITY||LSMean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.18|-0.63|||Mixed Models Analysis|||||-0.63|-1.18|<0.001
82536019|NCT02696785|164770584|SUPERIORITY||Odds Ratio (OR)|2.53||||0.012|TWO_SIDED|95.0|1.23|5.21|||Regression, Logistic|||||5.21|1.23|0.012
82536020|NCT02696785|164770584|SUPERIORITY||Odds Ratio (OR)|3.74|||<|0.001|TWO_SIDED|95.0|1.82|7.7|||Regression, Logistic|||||7.70|1.82|<0.001
82536021|NCT02696785|164770584|SUPERIORITY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|1.91|7.98|||Regression, Logistic|||||7.98|1.91|<0.001
82536022|NCT02696785|164770585|SUPERIORITY||LSMean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.299||0.001|TWO_SIDED|95.0|-1.56|-0.39|||Mixed Models Analysis|||||-0.39|-1.56|0.001
82536023|NCT02696785|164770585|SUPERIORITY||LSMean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.307|<|0.001|TWO_SIDED|95.0|-1.83|-0.62|||Mixed Models Analysis|||||-0.62|-1.83|<0.001
82577203|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.153||0.0341|TWO_SIDED|95.0|-0.63|-0.03|||MMRM|||Retardation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.63|0.0341
82577204|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.147||0.5629|TWO_SIDED|95.0|-0.38|0.21|||MMRM|||Retardation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.38|0.5629
82577205|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.129||0.0016|TWO_SIDED|95.0|-0.67|-0.16|||MMRM|||Retardation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.16|-0.67|0.0016
82577206|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.126||0.0495|TWO_SIDED|95.0|-0.5|0.0|||MMRM|||Retardation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.50|0.0495
82585970|NCT00051363|164883871|SUPERIORITY_OR_OTHER|||||||0.001||||||6M- ESS-TS (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Regression, Linear|Regression analyses for the ESS used Generalized Linear Models (GLM) for an over-dispersed binomial distribution.||Comparison of means (regression estimates) between arms for 6M Subjective Sleepiness/Alertness- ESS-TS.||||0.0010
82648406|NCT01241565|165012338|SUPERIORITY_OR_OTHER||Rate of incidence of PAL|10.6|||||TWO_SIDED|95.0|3.9|21.3|||||Incidence of Prolonged Air Leak (PAL) is estimated at between 5-10% in literature. PAL of 10%of evaluable cases was used to determine study success.|||21.3|3.9|
82648407|NCT02713243|165012345|SUPERIORITY||Mean Difference (Net)|4.04||||0.01|TWO_SIDED|95.0|0.98|7.11|||Mixed Models Analysis|||Week 1 (Period 1 \& 2)||7.11|0.98|0.01
82648408|NCT02713243|165012345|SUPERIORITY||Mean Difference (Net)|1.31||||0.401|TWO_SIDED|95.0|-1.77|4.38|||Mixed Models Analysis|||Week 2 (Period 1 \& 2)||4.38|-1.77|0.401
82536024|NCT02696785|164770585|SUPERIORITY||LSMean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.304|<|0.001|TWO_SIDED|95.0|-1.86|-0.67|||Mixed Models Analysis|||||-0.67|-1.86|<0.001
82536025|NCT02696785|164770586|SUPERIORITY||LSMean Difference|7.62||||0.009|TWO_SIDED|95.0|1.67|34.68|||Regression, Logistic|||||34.68|1.67|0.009
82536026|NCT02696785|164770586|SUPERIORITY||Odds Ratio (OR)|8.03||||0.007|TWO_SIDED|95.0|1.75|36.83|||Regression, Logistic|||||36.83|1.75|0.007
82536027|NCT02696785|164770586|SUPERIORITY||Odds Ratio (OR)|5.13||||0.041|TWO_SIDED|95.0|1.07|24.49|||Regression, Logistic|||||24.49|1.07|0.041
82536028|NCT02696785|164770587|SUPERIORITY||LSMean Difference|-2.78|STANDARD_ERROR_OF_MEAN|0.447|<|0.001|TWO_SIDED|95.0|-3.7|-1.9|||ANCOVA|||||-1.9|-3.7|<0.001
82536029|NCT02696785|164770587|SUPERIORITY||LSMean Difference|-2.62|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-3.5|-1.7|||ANCOVA|||||-1.7|-3.5|<0.001
82536030|NCT02696785|164770587|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.452|<|0.001|TWO_SIDED|95.0|-3.3|-1.5|||ANCOVA|||||-1.5|-3.3|<0.001
82536031|NCT02696785|164770588|SUPERIORITY||LSMean Difference|3.2574|STANDARD_ERROR_OF_MEAN|1.0437||0.002|TWO_SIDED|95.0|1.2041|5.3106|||Mixed Models Analysis|||PCS||5.3106|1.2041|0.002
82536032|NCT02696785|164770588|SUPERIORITY||LSMean Difference|4.052|STANDARD_ERROR_OF_MEAN|1.072|<|0.001|TWO_SIDED|95.0|1.9432|6.1608|||Mixed Models Analysis|||PCS||6.1608|1.9432|<0.001
82536033|NCT02696785|164770588|SUPERIORITY||LSMean Difference|4.3254|STANDARD_ERROR_OF_MEAN|1.0641|<|0.001|TWO_SIDED|95.0|2.2321|6.4186|||Mixed Models Analysis|||PCS||6.4186|2.2321|<0.001
82536034|NCT02696785|164770588|SUPERIORITY||LSMean Difference|0.4321|STANDARD_ERROR_OF_MEAN|1.1718||0.713|TWO_SIDED|95.0|-1.8732|2.7373|||Mixed Models Analysis|||MCS||2.7373|-1.8732|0.713
82536035|NCT02696785|164770588|SUPERIORITY||LSMean Difference|0.6273|STANDARD_ERROR_OF_MEAN|1.2028||0.602|TWO_SIDED|95.0|-1.7387|2.9934|||Mixed Models Analysis|||MCS||2.9934|-1.7387|0.602
82536036|NCT02696785|164770588|SUPERIORITY||LSMean Difference|0.4467|STANDARD_ERROR_OF_MEAN|1.1978||0.709|TWO_SIDED|95.0|-1.9097|2.803|||Mixed Models Analysis|||MCS||2.8030|-1.9097|0.709
82536037|NCT02696785|164770589|SUPERIORITY||LSMean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.416||0.012|TWO_SIDED|95.0|-1.87|-0.23|||Mixed Models Analysis|||||-0.23|-1.87|0.012
82536038|NCT02696785|164770589|SUPERIORITY||LSMean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.428||0.01|TWO_SIDED|95.0|-1.95|-0.27|||Mixed Models Analysis|||||-0.27|-1.95|0.010
82536039|NCT02696785|164770589|SUPERIORITY||LSMean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.423|<|0.001|TWO_SIDED|95.0|-2.32|-0.66|||Mixed Models Analysis|||||-0.66|-2.32|<0.001
82536040|NCT02696785|164770590|SUPERIORITY||LSMean Difference|-8.628|STANDARD_ERROR_OF_MEAN|2.6724||0.001|TWO_SIDED|95.0|-13.885|-3.371|||Mixed Models Analysis|||||-3.371|-13.885|0.001
82536041|NCT02696785|164770590|SUPERIORITY||LSMean Difference|-6.635|STANDARD_ERROR_OF_MEAN|2.7438||0.016|TWO_SIDED|95.0|-12.033|-1.238|||Mixed Models Analysis|||||-1.238|-12.033|0.016
82536042|NCT02696785|164770590|SUPERIORITY||LSMean Difference|-7.991|STANDARD_ERROR_OF_MEAN|2.7248||0.004|TWO_SIDED|95.0|-13.351|-2.631|||Mixed Models Analysis|||||-2.631|-13.351|0.004
82536043|NCT02696785|164770591|SUPERIORITY||LSMean Difference|-0.367|STANDARD_ERROR_OF_MEAN|0.1143||0.001|TWO_SIDED|95.0|-0.592|-0.142|||Mixed Models Analysis|||||-0.142|-0.592|0.001
82536044|NCT02696785|164770591|SUPERIORITY||LSMean Difference|-0.422|STANDARD_ERROR_OF_MEAN|0.1184|<|0.001|TWO_SIDED|95.0|-0.655|-0.189|||Mixed Models Analysis|||||-0.189|-0.655|<0.001
82429218|NCT01214837|164565567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup W at 13 months of age.||3|-3|
82429219|NCT01214837|164565567|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the difference in percentage of subjects with hSBA titers ≥ 1:8 against N. meningitidis serogroups C, W and Y between the 3-dose series and (minus) the 4-dose series, is greater than -10%.|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen method|||Non-inferiority of Men ACWY 3-dose series (doses at 2, 4 and 12 months) to 4-dose series (doses at 2, 4, 6 and 12 months of age) against serogroup Y at 13 months of age.||4|-2|
82429220|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-0.5|||||TWO_SIDED|95.0|-6.1|5.0|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 1.||5|-6.1|
82429221|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|5.8|||||TWO_SIDED|95.0|3.0|10.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 1.||10.5|3|
82429222|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-3.0|||||TWO_SIDED|95.0|-11.9|6.0|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 3.||6|-11.9|
82429223|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|5.3|||||TWO_SIDED|95.0|-3.3|13.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 3.||13.7|-3.3|
82429224|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.4|||||TWO_SIDED|95.0|-7.5|2.3|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 4.||2.3|-7.5|
82429225|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.3|||||TWO_SIDED|95.0|-4.4|4.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 4.||4.7|-4.4|
82429226|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-4.3|||||TWO_SIDED|95.0|-12.1|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 5.||3.4|-12.1|
82450828|NCT02967510|164608292|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.393|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.393
82536045|NCT02696785|164770591|SUPERIORITY||LSMean Difference|-0.329|STANDARD_ERROR_OF_MEAN|0.1167||0.005|TWO_SIDED|95.0|-0.558|-0.099|||Mixed Models Analysis|||||-0.099|-0.558|0.005
82536046|NCT02696785|164770592|SUPERIORITY||LSMean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.211||0.003|TWO_SIDED|95.0|0.22|1.05|||Mixed Models Analysis|||||1.05|0.22|0.003
82536047|NCT02696785|164770592|SUPERIORITY||LSMean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.219||0.051|TWO_SIDED|95.0|0.0|0.86|||Mixed Models Analysis|||||0.86|-0.00|0.051
82536048|NCT02696785|164770592|SUPERIORITY||LSMean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.215||0.005|TWO_SIDED|95.0|0.18|1.03|||Mixed Models Analysis|||||1.03|0.18|0.005
82648409|NCT02713243|165012345|SUPERIORITY||Mean Difference (Net)|2.67||||0.019|TWO_SIDED|95.0|0.46|4.89|||Mixed Models Analysis|||Week 1\&2 (Period 1 \& 2)||4.89|0.46|0.019
82648410|NCT02713243|165012350|SUPERIORITY||Mean Difference (Net)|0.12||||0.533|TWO_SIDED|95.0|-0.27|0.52|||Mixed Models Analysis|||Week 1 (Period 1 \& 2)||0.52|-0.27|0.533
82429227|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.9|||||TWO_SIDED|95.0|-1.9|11.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 5.||11.8|-1.9|
82429228|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.04|||||TWO_SIDED|95.0|-3.7|3.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6A.||3.8|-3.7|
82429229|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|1.2|||||TWO_SIDED|95.0|-2.2|4.8|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6A.||4.8|-2.2|
82429230|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-0.3|||||TWO_SIDED|95.0|-8.4|7.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6B.||7.7|-8.4|
82429231|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|10.2|||||TWO_SIDED|95.0|3.4|17.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 6B.||17.2|3.4|
82429232|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-1.7|3.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 7F.||3.5|-1.7|
82429233|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-2.1|3.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 7F.||3.5|-2.1|
82429234|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-3.1|||||TWO_SIDED|95.0|-9.7|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 9V.||3.4|-9.7|
82429235|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-1.5|9.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 9V.||9.7|-1.5|
82429236|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|vaccine group difference|1.9|||||TWO_SIDED|95.0|-1.2|5.7|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 14.||5.7|-1.2|
82429237|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|2.5|||||TWO_SIDED|95.0|-0.2|6.3|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 14.||6.3|-0.2|
82648411|NCT02713243|165012350|SUPERIORITY||Mean Difference (Net)|-0.09||||0.64|TWO_SIDED|95.0|-0.49|0.3|||Mixed Models Analysis|||Week 2 (Period 1 \& 2)||0.30|-0.49|0.640
82429238|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.5|||||TWO_SIDED|95.0|-6.3|-0.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 18C.||-0.2|-6.3|
82648412|NCT02713243|165012350|SUPERIORITY||Mean Difference (Net)|0.02||||0.916|TWO_SIDED|95.0|-0.27|0.3|||Mixed Models Analysis|||Week 1\&2 (Period 1 \& 2)||0.30|-0.27|0.916
82429239|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.2|||||TWO_SIDED|95.0|-6.2|0.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 18C.||0.2|-6.2|
82429240|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-2.5|||||TWO_SIDED|95.0|-7.1|1.6|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19A.||1.6|-7.1|
82429241|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|-5.5|||||TWO_SIDED|95.0|-11.3|-0.9|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19A.||-0.9|-11.3|
82429242|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-1.7|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19F.||3.4|-1.7|
82429243|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|0.6|||||TWO_SIDED|95.0|-2.1|3.4|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 19F.||3.4|-2.1|
82429244|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY3 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|1.9|||||TWO_SIDED|95.0|-4.2|8.2|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 2 doses of MenACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 23F.||8.2|-4.2|
82429245|NCT01214837|164565574|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI for the between group difference (MenACWY4 minus Routine) in percentage of subjects with IgG concentration ≥ 0.35 μg/mL against each pneumococcal anti-capsular polysaccharide is greater than -10%.|Vaccine group difference|4.5|||||TWO_SIDED|95.0|-1.4|10.5|||Miettinen and Nurminen method|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 7 months of age for Serotype 23F.||10.5|-1.4|
82429246|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.77|1.13|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 1.||1.13|0.77|
82429247|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.83|1.25|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 1.||1.25|0.83|
82536049|NCT02696785|164770593|SUPERIORITY||LSMean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.321||0.039|TWO_SIDED|95.0|-1.3|-0.03|||Mixed Models Analysis|||||-0.03|-1.30|0.039
82536050|NCT02696785|164770593|SUPERIORITY||LSMean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.33||0.057|TWO_SIDED|95.0|-1.28|0.02|||Mixed Models Analysis|||||0.02|-1.28|0.057
82536051|NCT02696785|164770593|SUPERIORITY||LSMean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.327||0.042|TWO_SIDED|95.0|-1.31|-0.03|||Mixed Models Analysis|||||-0.03|-1.31|0.042
82648413|NCT02522949|165012359|SUPERIORITY|||||||0.7146|||||||ANCOVA|||Oropharyngeal||||0.7146
82648414|NCT02522949|165012359|SUPERIORITY|||||||0.3543|||||||ANCOVA|||Nasal||||0.3543
82648415|NCT02522949|165012367|OTHER|||||||0.0232|||||||Exact Wilcoxon rank sum test|||||||0.0232
82536052|NCT02696785|164770594|SUPERIORITY||LSMean Difference|-5.13|STANDARD_ERROR_OF_MEAN|0.806|<|0.001|TWO_SIDED|95.0|-6.7|-3.5|||ANCOVA|||||-3.5|-6.7|<0.001
82536053|NCT02696785|164770594|SUPERIORITY||LSMean Difference|-4.89|STANDARD_ERROR_OF_MEAN|0.812|<|0.001|TWO_SIDED|95.0|-6.5|-3.3|||ANCOVA|||||-3.3|-6.5|<0.001
82536054|NCT02696785|164770594|SUPERIORITY||LSMean Difference|-5.17|STANDARD_ERROR_OF_MEAN|0.816|<|0.001|TWO_SIDED|95.0|-6.8|-3.6|||ANCOVA|||||-3.6|-6.8|<0.001
82536055|NCT02696785|164770595|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.317|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|||||0.5|-1.4|0.317
82536056|NCT02696785|164770595|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.48||0.683|TWO_SIDED|95.0|-1.1|0.8|||Mixed Models Analysis|||||0.8|-1.1|0.683
82648416|NCT01364259|165012410|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0||||0.175|TWO_SIDED||||||Fisher Exact||Our odds ratio is equal to 0\*5/9\*2 because we have a zero cell in the two by two table. Hence the OR = 0.|||||0.175
82652169|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.393||||0.022|TWO_SIDED|95.0|-0.729|-0.057||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.057|-0.729|0.0220
82429248|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.14|||||TWO_SIDED|95.0|0.93|1.4|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 3.||1.4|0.93|
82429249|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.25|||||TWO_SIDED|95.0|1.01|1.55|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 3.||1.55|1.01|
82429250|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.77|||||TWO_SIDED|95.0|0.62|0.96|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 4.||0.96|0.62|
82429251|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.75|1.18|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 4.||1.18|0.75|
82429252|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.86|1.21|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 5.||1.21|0.86|
82429253|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5|GMC ratio|1.07|||||TWO_SIDED|95.0|0.89|1.29|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 5.||1.29|0.89|
82429254|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.85|||||TWO_SIDED|95.0|0.69|1.04|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6A.||1.04|0.69|
82429255|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.88|1.37|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6A.||1.37|0.88|
82429256|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.85|||||TWO_SIDED|95.0|0.69|1.05|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6B.||1.05|0.69|
82429257|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 6B.||1.3|0.83|
82536057|NCT02696785|164770595|SUPERIORITY||LSMean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.5|TWO_SIDED|95.0|-1.3|0.6|||Mixed Models Analysis|||||0.6|-1.3|0.500
82536058|NCT02696785|164770596|SUPERIORITY||LSMean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.56||0.154|TWO_SIDED|95.0|-1.9|0.3|||Mixed Models Analysis|||||0.3|-1.9|0.154
82536059|NCT02696785|164770596|SUPERIORITY||LSMean Difference|0.255|STANDARD_ERROR_OF_MEAN|0.56||-0.6|TWO_SIDED|95.0|-1.8|0.5|||Mixed Models Analysis|||||0.5|-1.8|-0.6
82536060|NCT02696785|164770596|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.58||0.398|TWO_SIDED|95.0|-1.6|0.7|||Mixed Models Analysis|||||0.7|-1.6|0.398
82429258|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 7F.||0.95|0.67|
82536061|NCT02696785|164770597|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.76||0.783|TWO_SIDED|95.0|-1.7|1.3|||Mixed Models Analysis|||||1.3|-1.7|0.783
82536062|NCT02696785|164770597|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.78||0.55|TWO_SIDED|95.0|-2.0|1.1|||Mixed Models Analysis|||||1.1|-2.0|0.550
82536063|NCT02696785|164770597|SUPERIORITY||LSMean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.77||0.091|TWO_SIDED|95.0|-2.8|0.2|||Mixed Models Analysis|||||0.2|-2.8|0.091
82536064|NCT02696785|164770599|SUPERIORITY||LSMean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.32||0.027|TWO_SIDED|95.0|-1.3|-0.1|||Mixed Models Analysis|||||-0.1|-1.3|0.027
82536065|NCT02696785|164770599|SUPERIORITY||LSMean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.33||0.002|TWO_SIDED|95.0|-1.7|-0.4|||Mixed Models Analysis|||||-0.4|-1.7|0.002
82536066|NCT02696785|164770599|SUPERIORITY||LSMean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.33||0.035|TWO_SIDED|95.0|-1.3|0.0|||Mixed Models Analysis|||||-0.0|-1.3|0.035
82429259|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 7F.||1.25|0.87|
82429260|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.79|||||TWO_SIDED|95.0|0.66|0.96|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 9V.||0.96|0.66|
82429261|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.87|1.31|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 9V.||1.31|0.87|
82429262|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.84|1.27|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 14.||1.27|0.84|
82450829|NCT02967510|164608292|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.221|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.221
82450830|NCT02967510|164608292|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.432|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.432
82536067|NCT02696785|164770600|SUPERIORITY||LSMean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.57||0.041|TWO_SIDED|95.0|-2.3|0.0|||Mixed Models Analysis|||||-0.0|-2.3|0.041
82536068|NCT02696785|164770600|SUPERIORITY||LSMean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.59||0.125|TWO_SIDED|95.0|-2.1|0.3|||Mixed Models Analysis|||||0.3|-2.1|0.125
82536069|NCT02696785|164770600|SUPERIORITY||LSMean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.58||0.013|TWO_SIDED|95.0|-2.6|-0.3|||Mixed Models Analysis|||||-0.3|-2.6|0.013
82536070|NCT02696785|164770601|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|3.082||0.989|TWO_SIDED|95.0|-6.03|6.12|||Mixed Models Analysis|||||6.12|-6.03|0.989
82536071|NCT02696785|164770601|SUPERIORITY||LSMean Difference|2.5|STANDARD_ERROR_OF_MEAN|3.146||0.429|TWO_SIDED|95.0|-3.71|8.7|||Mixed Models Analysis|||||8.70|-3.71|0.429
82536072|NCT02696785|164770601|SUPERIORITY||LSMean Difference|-5.47|STANDARD_ERROR_OF_MEAN|3.27||0.096|TWO_SIDED|95.0|-11.92|0.98|||Mixed Models Analysis|||||0.98|-11.92|0.096
82536073|NCT02696785|164770605|SUPERIORITY||LSMean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.76||0.166|TWO_SIDED|95.0|-2.6|0.4|||Mixed Models Analysis|||||0.4|-2.6|0.166
82536074|NCT02696785|164770605|SUPERIORITY||LSMean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.73||0.011|TWO_SIDED|95.0|-3.4|-0.4|||Mixed Models Analysis|||||-0.4|-3.4|0.011
82536075|NCT02696785|164770605|SUPERIORITY||LSMean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.77||0.182|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||||0.5|-2.6|0.182
82536076|NCT02696785|164770606|SUPERIORITY||LSMean Difference|-10.07|STANDARD_ERROR_OF_MEAN|1.588|<|0.001|TWO_SIDED|95.0|-13.2|-6.9|||ANCOVA|||||-6.9|-13.2|<0.001
82450831|NCT02967510|164608293|SUPERIORITY||LS Mean Difference|0.24|||=|0.65|TWO_SIDED|95.0|-1.0|1.487|||ANCOVA|||||1.487|-1|=0.65
82536077|NCT02696785|164770606|SUPERIORITY||LSMean Difference|-9.51|STANDARD_ERROR_OF_MEAN|1.591|<|0.001|TWO_SIDED|95.0|-12.6|-6.4|||ANCOVA|||||-6.4|-12.6|<0.001
82536078|NCT02696785|164770606|SUPERIORITY||LSMean Difference|-8.08|STANDARD_ERROR_OF_MEAN|1.603|<|0.001|TWO_SIDED|95.0|-11.2|-4.9|||ANCOVA|||||-4.9|-11.2|<0.001
82536079|NCT01016353|164770610|SUPERIORITY|||||||0.06|||||||Log Rank|||||||0.06
82585971|NCT01242800|164883875|SUPERIORITY|||||||0.32|||||||Log Rank|Stratified log rank test was used for arm comparison||||||0.32
82648417|NCT01963676|165012423|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||There was no adjustment because we just performed one comparison|t-test, 2 sided|Difference from Day 5 to Baseline was compared between the sham and the tDCS group using an unpaired t-test. Degrees of freedom: df = 24||"The null hypothesis was that there is no difference between the changes in the AHRS score from baseline to 5 days between the groups:~H0: μ1 = μ2 μ1: mean(difference 5 days-baseline) for tDCS group (n=13) μ2: mean(difference 5 days-baseline) for sham group (n=13)"||||0.48
82648418|NCT01963676|165012424|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED|||||There was no adjustment because we just performed one comparison|t-test, 2 sided|Difference from 1 Month to Baseline was compared between the sham and the tDCS group using an unpaired t-test. Degrees of freedom: df = 24||"The null hypothesis was that there is no difference between the AHRS score changes from baseline to 1month between the groups:~H0: μ1 = μ2 μ1: mean(difference 1 month-baseline) for tDCS group (n=13) μ2: mean(difference 1 month-baseline) for sham group (n=13)"||||0.86
82648419|NCT01120600|165012425|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.59|||<|0.001|TWO_SIDED|95.0|4.48|6.7|||cLDA|||A constrained full likelihood longitudinal data analysis (cLDA) method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||6.7|4.48|< 0.001
82648420|NCT01120600|165012426|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.02|||<|0.001|TWO_SIDED|95.0|1.27|2.77|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||2.77|1.27|< 0.001
82648421|NCT01120600|165012427|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.69|||=|0.008|TWO_SIDED|95.0|0.45|2.93|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||2.93|0.45|= 0.008
82648422|NCT01120600|165012428|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.12|||<|0.001|TWO_SIDED|95.0|0.93|3.3|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||3.3|0.93|< 0.001
82648423|NCT01120600|165012429|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-76.58|||<|0.001|TWO_SIDED|95.0|-92.56|-60.61|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-60.61|-92.56|< 0.001
82648424|NCT01120600|165012430|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-68.08|||<|0.001|TWO_SIDED|95.0|-78.1|-58.06|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-58.06|-78.1|< 0.001
82648425|NCT01120600|165012431|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.94|||=|0.019|TWO_SIDED|95.0|-14.58|-1.31|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-1.31|-14.58|= 0.019
82648426|NCT01120600|165012432|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.0|||=|0.001|TWO_SIDED|95.0|-25.74|-6.27|||cLDA|||A cLDA method was used for this statistical analysis. The cLDA model included the baseline measurement and all post-baseline percent changes from baseline in the response vector, with fixed effects for treatment, time, geographic region, machine type and treatment-by-time interaction, geographic region-by-time interaction, and machine type-by-time interaction.||-6.27|-25.74|= 0.001
82648427|NCT00382291|165012440|SUPERIORITY_OR_OTHER|||||||0.2106||95.0|||||Kruskal-Wallis|||Data were analyzed using two-sided Kruskal-Wallis test with level of significance = .05. Null hypothesis was that there were no group differences. The maximum CGI-SA obtained over course of study was the outcome measure.||||.2106
82648428|NCT00382291|165012441|SUPERIORITY_OR_OTHER|||||||0.8831|TWO_SIDED|95.0|||||ANCOVA|||Data were analyzed using ANCOVA modeling with two-sided testing and level of significance = .05. The dependent variable was last measured CY-BOCS score, the independent variable was randomized group assignment and the covariate was the CY-BOCS score at baseline. The null hypothesis was that there were no group differences.||||.8831
82648429|NCT02919475|165012477|SUPERIORITY|||||||0.842|||||||Fisher Exact|||||||0.842
82648430|NCT02919475|165012477|SUPERIORITY|||||||0.841|||||||Fisher Exact|||||||0.841
82648431|NCT02919475|165012477|SUPERIORITY|||||||0.842|||||||Fisher Exact|||||||0.842
82450832|NCT02967510|164608293|SUPERIORITY||LS Mean Difference|-0.24|||=|0.361|TWO_SIDED|95.0|-1.568|1.09|||ANCOVA|||||1.09|-1.568|=0.361
82450833|NCT02967510|164608293|SUPERIORITY||LS Mean Difference|0.03|||=|0.522|TWO_SIDED|95.0|-1.188|1.257|||ANCOVA|||||1.257|-1.188|=0.522
82648432|NCT02919475|165012477|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82648433|NCT02919475|165012478|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82648434|NCT02919475|165012478|SUPERIORITY|||||||0.832|||||||Fisher Exact|||||||0.832
82648435|NCT02919475|165012478|SUPERIORITY|||||||0.682|||||||Fisher Exact|||||||0.682
82648436|NCT02919475|165012478|SUPERIORITY|||||||0.665|||||||Fisher Exact|||||||0.665
82648437|NCT02919475|165012479|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82648438|NCT02919475|165012479|SUPERIORITY|||||||0.627|||||||Fisher Exact|||||||0.627
82450834|NCT02967510|164608294|SUPERIORITY||LS Mean Difference|-0.56|||=|0.043|TWO_SIDED|95.0|-1.204|0.079|||ANCOVA|||||0.079|-1.204|=0.043
82429263|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.83|1.3|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 14.||1.3|0.83|
82536080|NCT04863898|164770611|SUPERIORITY||Mean Difference (Net)|-6.1|||||TWO_SIDED|95.0|-7.0|-5.2|||||LME regression, random intercepts by individual and fixed effects of participant characteristics. Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||-5.2|-7|
82536081|NCT04863898|164770615|SUPERIORITY||Mean Difference (Net)|0.97|||||TWO_SIDED|95.0|0.86|1.09|||||Calculated using a linear mixed effect regression model with random intercepts by individual Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||1.09|0.86|
82536082|NCT04863898|164770616|SUPERIORITY||Mean Difference (Net)|-4.2|||||TWO_SIDED|95.0|-4.7|-3.6|||||LME regression, random intercepts by individual and fixed effects of participant characteristics. Difference = endline - baseline.|Using the PASS software program, we estimated the power for comparisons of scores from pre- to post-intervention, assuming a p-value of 0.05 (two-sided) and a final sample size of 131 with both measurements. We would have 85% power to detect a small-to-medium sized effect based on standardized mean difference (d=0.32).||-3.6|-4.7|
82536083|NCT00235495|164770646|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.84|1.1||The generalized linear model with log link function is tested at the one-sided alpha level of 0.025.|Regression, Logistic|Adjustment is made for baseline NIHSS and Thrombolysis stratum.|Adjusted risk ratio greater than 1 indicates greater risk of good outcome in the Albumin treatment group, while adjusted risk ratio less than 1 indicates greater risk of good outcome in the Saline treatment group.|Test of null hypothesis (equal proportions of subjects with NIHSS 0-1 or mRS 0-1 or both at 90 days post-randomization in Albumin and Saline treatment arms) versus alternative hypothesis (greater proportion of subjects with NIHSS 0-1 or mRS 0-1 or both at 90 days post-randomization in Albumin treatment arm).||1.10|0.84|
82536084|NCT00235495|164770647|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|||||TWO_SIDED|99.0|0.8|1.09|||Regression, Logistic|||||1.09|0.80|
82429264|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 18C.||0.87|0.59|
82429265|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.89|1.36|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 18C.||1.36|0.89|
82429266|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.02|||||TWO_SIDED|95.0|0.83|1.27|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19A.||1.27|0.83|
82429267|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.97|||||TWO_SIDED|95.0|0.77|1.21|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19A.||1.21|0.77|
82429268|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19F.||1.22|0.82|
82429269|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.86|1.32|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 19F.||1.32|0.86|
82450835|NCT02967510|164608294|SUPERIORITY||LS Mean Difference|-0.51|||=|0.061|TWO_SIDED|95.0|-1.158|0.137|||ANCOVA|||||0.137|-1.158|=0.061
82450836|NCT02967510|164608294|SUPERIORITY||LS Mean Difference|-0.48|||=|0.071|TWO_SIDED|95.0|-1.111|0.16|||ANCOVA|||||0.16|-1.111|=0.071
82536085|NCT00235495|164770648|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.66|1.49|||Regression, Logistic|||||1.49|0.66|
82536086|NCT00235495|164770649|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88|||||TWO_SIDED|99.0|0.71|1.1|||Regression, Logistic|||||1.10|0.71|
82536087|NCT00235495|164770650|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.03|||||TWO_SIDED|99.0|0.82|1.28|||Regression, Logistic|||||1.28|0.82|
82536088|NCT00235495|164770651|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.85|1.13|||Regression, Logistic|||||1.13|0.85|
82536089|NCT00235495|164770652|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98|||||TWO_SIDED|99.0|0.87|1.11|||Regression, Logistic|||||1.11|0.87|
82648439|NCT02919475|165012479|SUPERIORITY|||||||0.794|||||||Fisher Exact|||||||0.794
82450837|NCT02967510|164608295|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.012|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.012
82450838|NCT02967510|164608295|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.007|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.007
82450839|NCT02967510|164608295|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82536090|NCT00235495|164770653|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.95|||||TWO_SIDED|99.0|0.83|1.1|||Regression, Logistic|||||1.10|0.83|
82536091|NCT00235495|164770654|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.99|||||TWO_SIDED|99.0|0.84|1.17|||Regression, Logistic|||||1.17|0.84|
82536092|NCT00235495|164770655|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.93|||||TWO_SIDED|99.0|0.84|1.02|||Regression, Logistic|||||1.02|0.84|
82536093|NCT00235495|164770656|SUPERIORITY_OR_OTHER_LEGACY||Rank Sum|73098.0||||0.913||95.0|||||Wilcoxon rank sum test, normal approx|||||||0.913
82536094|NCT00235495|164770657|SUPERIORITY_OR_OTHER_LEGACY||Rank Sum|44853.5||||0.923||95.0|||||Wilcoxon rank sum test, normal approx|||||||0.923
82536095|NCT00235495|164770658|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.79|1.76|||Regression, Logistic|||||1.76|0.79|
82577207|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.155||0.7177|TWO_SIDED|95.0|-0.36|0.25|||MMRM|||Agitation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.36|0.7177
82450840|NCT02967510|164608296|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.438|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.438
82450841|NCT02967510|164608296|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.388|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.388
82536096|NCT00235495|164770659|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.47|2.15|||Regression, Logistic|||||2.15|0.47|
82536097|NCT00235495|164770660|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.39|3.41|||Regression, Logistic|||||3.41|0.39|
82536098|NCT00235495|164770661|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.69|||||TWO_SIDED|95.0|0.98|2.94|||Regression, Logistic|||||2.94|0.98|
82536099|NCT00235495|164770662|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|10.8|||||TWO_SIDED|95.0|4.37|26.72|||Regression, Logistic|||||26.72|4.37|
82536100|NCT00235495|164770663|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.58|||||TWO_SIDED|95.0|1.09|6.12|||Regression, Logistic|||||6.12|1.09|
82536101|NCT00235495|164770664|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.42|||||TWO_SIDED|95.0|1.02|5.78|||Regression, Logistic|||||5.78|1.02|
82536102|NCT00235495|164770665|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.68|2.01|||Regression, Logistic|||||2.01|0.68|
82536103|NCT00235495|164770666|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.68|1.61|||Regression, Logistic|||||1.61|0.68|
82536104|NCT00235495|164770667|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.74|1.63|||Regression, Logistic|||||1.63|0.74|
82536105|NCT04996069|164770687|SUPERIORITY|No power calculation performed.||||||0.45||||||p value threshold is .05|t-test, 2 sided|||||||.45
82536106|NCT03005288|164770693|SUPERIORITY||Mean Difference (Net)|-7.31|||<|0.001|TWO_SIDED|80.0|-8.48|-6.14|||Mixed-Effect Model Repeated Measure|||||-6.14|-8.48|<0.001
82536107|NCT03005288|164770694|SUPERIORITY||Mean Difference (Net)|-5.19|||<|0.001|TWO_SIDED|80.0|-6.01|-4.37|||Mixed-Effect Model Repeated Measure|||||-4.37|-6.01|<0.001
82536108|NCT03005288|164770695|SUPERIORITY||Mean Difference (Net)|-1.13|||<|0.001|TWO_SIDED|80.0|-1.42|-0.83|||Mixed Models Analysis|||week 24||-0.83|-1.42|<0.001
82536109|NCT03005288|164770695|SUPERIORITY||Mean Difference (Net)|-0.8||||0.005|TWO_SIDED|80.0|-1.2|-0.41|||Mixed Models Analysis|||week 48||-0.41|-1.20|0.005
82536110|NCT03005288|164770699|SUPERIORITY||Mean Difference (Net)|-1.33|||<|0.001|TWO_SIDED|80.0|-1.71|-0.95|||Mixed-Effect Model Repeated Measure|||week 24||-0.95|-1.71|<0.001
82536111|NCT03005288|164770699|SUPERIORITY||Mean Difference (Net)|-1.91|||<|0.001|TWO_SIDED|80.0|-2.48|-1.34|||Mixed-Effect Model Repeated Measure|||week 48||-1.34|-2.48|<0.001
82536112|NCT03005288|164770700|SUPERIORITY||Mean Difference (Net)|-3.43|||<|0.001|TWO_SIDED|80.0|-4.54|-2.31|||Mixed-Effect Model Repeated Measure|||week 24||-2.31|-4.54|<0.001
82536113|NCT03005288|164770700|SUPERIORITY||Mean Difference (Net)|-5.1|||<|0.001|TWO_SIDED|80.0|-6.74|-3.47|||Mixed-Effect Model Repeated Measure|||week 48||-3.47|-6.74|<0.001
82577208|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.151||0.9401|TWO_SIDED|95.0|-0.29|0.31|||MMRM|||Agitation, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.29|0.9401
82429270|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between groups (MenACWY3 to routine vaccines) is greater than 0.5.|GMC ratio|0.77|||||TWO_SIDED|95.0|0.62|0.97|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 3 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 23F.||0.97|0.62|
82429271|NCT01214837|164565575|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be concluded if the lower limit of the two-sided 95% CI around the ratio of GMCs between the groups (MenACWY4 to routine vaccines) is greater than 0.5.|GMC ratio|0.89|||||TWO_SIDED|95.0|0.7|1.13|||ANOVA|||To demonstrate non-inferiority of immune response to PCV-13 antigens after concomitant administration of 4 doses of Men ACWY with routine vaccines including PCV-13, versus administration of routine vaccines only, at 13 months of age for Serotype 23F.||1.13|0.7|
82429272|NCT03247829|164565589|OTHER|||||||0.001|||||||t-test, 2 sided|Comparative p-values were calculated by two-sided t-tests (paired analysis).||||||0.001
82429273|NCT03247829|164565590|OTHER|||||||0.0931|||||||t-test, 2 sided|||||||0.0931
82429274|NCT00288015|164565602|OTHER|This is a two-stage optimal simon design. If bevacizumab is not effective, there is a 0.050 probability of concluding that it is. If bevacizumab is effective, there is a 0.2000 probability of concluding that it is not.||||||||||||In first stage 12 patients will be entered, if \</=3 patients have PFS time\>3 months p\</=0.22 is likely true. In second stage a total of up to 31 patients data will be analysed. If \>/=10 patients show PFS\</=3 months, it will suggest p\>0.50 is true.|Kaplan-Meier estimate|||This is a two stage optimal simon design testing the Null hypothesis: bevacizumab is not effective with P\<=0.220 and the alternative hypothesis: bevacizumab is effective with P \>=0.450 and has a sample size of 16.96 and a probability of early termination of 0.739. p=probability (progression free survival - PFS time\>/=3 months).|P\<=0.220 is the threshold value of significance that the null hypothesis is true or the alternative hypothesis is true. P Value was not calculated from the data. Median survival time was calculated using a 20% censored Kaplan-Meier table and graph.|||
82429275|NCT04552041|164565631|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 24 weeks row.||||<0.0001
82429276|NCT04552041|164565632|SUPERIORITY|||||||0.0028|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 24 weeks row.||||0.0028
82429277|NCT04552041|164565632|SUPERIORITY|||||||0.1739|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Delusional ideas ∆ between baseline and 24 weeks row."||||0.1739
82429278|NCT04552041|164565632|SUPERIORITY|||||||0.0559|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Hallucinations ∆ between baseline and 24 weeks row."||||0.0559
82429279|NCT04552041|164565632|SUPERIORITY|||||||0.0174|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Agitation ∆ between baseline and 24 weeks row."||||0.0174
82429280|NCT04552041|164565632|SUPERIORITY|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aggression ∆ between baseline and 24 weeks row."||||0.3330
82429281|NCT04552041|164565632|SUPERIORITY|||||||0.1037|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Dysphoria ∆ between baseline and 24 weeks row."||||0.1037
82429282|NCT04552041|164565632|SUPERIORITY|||||||0.0329|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Anxiety ∆ between baseline and 24 weeks row."||||0.0329
82429283|NCT04552041|164565632|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Euphoria ∆ between baseline and 24 weeks row."||||0.2700
82536114|NCT03005288|164770701|SUPERIORITY||Mean Difference (Net)|1.49||||0.003|TWO_SIDED|80.0|0.82|2.06|||Mixed-Effect Model Repeated Measure|||week 24||2.06|0.82|0.003
82536115|NCT03005288|164770701|SUPERIORITY||Mean Difference (Net)|2.14|||<|0.001|TWO_SIDED|80.0|1.36|2.93|||Mixed-Effect Model Repeated Measure|||week 48||2.93|1.36|<0.001
82536116|NCT03005288|164770702|SUPERIORITY||Mean Difference (Net)|-4.09|||<|0.001|TWO_SIDED|80.0|-5.26|-2.92|||Mixed-Effect Model Repeated Measure|||week 24||-2.92|-5.26|<0.001
82536117|NCT03005288|164770702|SUPERIORITY||Mean Difference (Net)|-9.46|||<|0.001|TWO_SIDED|80.0|-11.3|-7.64|||Mixed-Effect Model Repeated Measure|||week 52||-7.64|-11.3|<0.001
82648440|NCT02919475|165012479|SUPERIORITY|||||||0.453|||||||Fisher Exact|||||||0.453
82429284|NCT04552041|164565632|SUPERIORITY|||||||0.0557|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Apathy ∆ between baseline and 24 weeks row."||||0.0557
82429285|NCT04552041|164565632|SUPERIORITY|||||||0.982|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Disinhibition ∆ between baseline and 24 weeks row."||||0.9820
82429286|NCT04552041|164565632|SUPERIORITY|||||||0.4626|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Irritability ∆ between baseline and 24 weeks row."||||0.4626
82429287|NCT04552041|164565632|SUPERIORITY|||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aberrant motor behaviour ∆ between baseline and 24 weeks row."||||0.0006
82429288|NCT04552041|164565632|SUPERIORITY|||||||0.3725|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Sleep disorders ∆ between baseline and 24 weeks row."||||0.3725
82429289|NCT04552041|164565632|SUPERIORITY|||||||0.1013|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Appetite disorders ∆ between baseline and 24 weeks row."||||0.1013
82429290|NCT04552041|164565632|SUPERIORITY|||||||0.0432|||||||Wilcoxon (Mann-Whitney)|||"This analysis applies to domain Aberrant vocalizations ∆ between baseline and 24 weeks row."||||0.0432
82429291|NCT04552041|164565633|SUPERIORITY|||||||0.0316|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 12 weeks row.||||0.0316
82429292|NCT04552041|164565634|SUPERIORITY|||||||0.1483|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and 12 weeks row.||||0.1483
82429293|NCT04552041|164565635|SUPERIORITY|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Therapeutic effect row.||||0.0018
82429294|NCT04552041|164565635|SUPERIORITY|||||||0.4733|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Side effects row.||||0.4733
82429295|NCT04552041|164565635|SUPERIORITY|||||||0.0035|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Efficiency index row.||||0.0035
82536118|NCT03005288|164770703|SUPERIORITY||Mean Difference (Net)|-0.02||||0.062|TWO_SIDED|80.0|-0.03|0.0|||Mixed-Effect Model Repeated Measure|||week 24||-0.00|-0.03|0.062
82536119|NCT03005288|164770703|SUPERIORITY||Mean Difference (Net)|-0.06|||<|0.001|TWO_SIDED|80.0|-0.08|-0.04|||Mixed-Effect Model Repeated Measure|||week 52||-0.04|-0.08|<0.001
82648441|NCT02919475|165012480|SUPERIORITY|||||||0.113|||||||Fisher Exact|||||||0.113
82450842|NCT02967510|164608296|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.259|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.259
82450843|NCT02967510|164608297|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.022|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.022
82450844|NCT02967510|164608297|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.02|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.02
82450845|NCT02967510|164608297|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.003|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.003
82450846|NCT02967510|164608298|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.002|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.002
82450847|NCT02967510|164608298|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.331|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.331
82450848|NCT02967510|164608298|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.043|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.043
82450849|NCT02967510|164608299|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.022|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.022
82450850|NCT02967510|164608299|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.032|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.032
82450851|NCT02967510|164608299|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.001
82450852|NCT02967510|164608300|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.176|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.176
82536120|NCT03005288|164770704|SUPERIORITY||Mean Difference (Net)|-0.65||||0.028|TWO_SIDED|80.0|-1.03|-0.28|||Mixed-Effect Model Repeated Measure|||week 12||-0.28|-1.03|0.028
82536121|NCT03005288|164770704|SUPERIORITY||Mean Difference (Net)|-0.66||||0.081|TWO_SIDED|80.0|-1.14|-0.18|||Mixed-Effect Model Repeated Measure|||week 36||-0.18|-1.14|0.081
82450853|NCT02967510|164608300|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.358|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.358
82450854|NCT02967510|164608300|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.21|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.21
82450855|NCT02967510|164608301|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.106|TWO_SIDED|95.0|0.0|1.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||1|0|=0.106
82536122|NCT01394991|164770757|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.018||||0.248|TWO_SIDED|95.0|-0.051|0.016|||Chi-squared|||The primary hypothesis was that the group of participants receiving epoetin alfa QW and the group of participants receiving epoetin alfa TIW would have similar incidence rate of participants with at least 1 clinically relevant and objectively confirmed TVE from randomization through Week 16.||0.016|-0.051|0.248
82536123|NCT01394991|164770757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.254||95.0|0.18|1.58|||Regression, Logistic|||||1.58|0.18|0.254
82536124|NCT01394991|164770758|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.029||||0.08|TWO_SIDED|95.0|-0.065|0.007|||Chi-squared|||||0.007|-0.065|0.08
82536125|NCT01394991|164770759|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.073|TWO_SIDED|95.0|0.14|1.13|||Log Rank|The stratified log-rank test accounting for ECOG performance status (0 or 1 versus 2) was used to compare the difference between treatment groups.|The Cox regression model with covariates for treatment group and Eastern Cooperative Oncology Group (ECOG) performance status (0 or 1 versus 2) was used for estimates of hazard ratio and its 95% confidence interval.|||1.13|0.14|0.073
82536126|NCT01394991|164770760|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.039||||0.059||95.0|-0.083|0.005|||Chi-squared|||||0.005|-0.083|0.059
82536127|NCT01394991|164770761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47||||0.054|TWO_SIDED|95.0|0.21|1.03|||Log Rank|The stratified log-rank test accounting for ECOG score status (0 or 1 versus 2) was used to compare the difference between treatment groups.|The Cox regression model including covariates for treatment group and the Eastern Cooperative Oncology Group (ECOG) score status (0 or 1 versus 2) was used for estimates of a hazard ratio and its 95% confidence interval.|||1.03|0.21|0.054
82536128|NCT01394991|164770762|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0041||||0.88||95.0|-0.0526|0.0608|||Chi-squared|||||0.0608|-0.0526|0.88
82536129|NCT01394991|164770763|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.026||||0.514|TWO_SIDED|95.0|-0.056|0.108|||Chi-squared|||||0.108|-0.056|0.514
82536130|NCT01394991|164770764|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.003||||0.92|TWO_SIDED|95.0|-0.071|0.065|||Chi-squared|||||0.065|-0.071|0.920
82536131|NCT02427646|164770769|OTHER|"A linear mixed effects (LME) model via the maximized likelihood estimation was implemented using open-source statistical software, R (version 3.3.3). The effects of each clinical and kinematic outcome measures were examined for each participant group (ET and PD arms were separately analyzed thus no interaction effects were investigated) in separate LME models (lme4 package using lmer function)."|||||<|0.05|||||||Linear mixed effects model|||||||<0.05
82648442|NCT02919475|165012480|SUPERIORITY|||||||0.024|||||||Fisher Exact|||||||0.024
82376831|NCT02585778|164460402|SUPERIORITY||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-49.4|-28.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-28.7|-49.4|<0.0001
82536132|NCT02427646|164770770|OTHER|"A linear mixed effects (LME) model via the maximized likelihood estimation was implemented using open-source statistical software, R (version 3.3.3). The effects of each clinical and kinematic outcome measures were examined for each participant group (ET and PD arms were separately analyzed thus no interaction effects were investigated) in separate LME models (lme4 package using lmer function)."|||||<|0.05|||||||Linear mixed effects model|a log-transformation ofthe RMS datasets was applied for statistical analysis||||||<0.05
82536133|NCT03824236|164770781|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people (P-Fx Group) compared to unvaccinated people (Infectivity Control Group).|Vaccine efficacy rate|52.0||||0.003|TWO_SIDED|95.0|28.0|68.0|||Fisher Exact|||Efficacy analysis aimed at comparing P. falciparum parasitemia incidence after sporozoite challenge between P-Fx group and the Infectivity Control group.||68|28|0.003
82536134|NCT03824236|164770781|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people (NP-Fx Group) compared to unvaccinated people (Infectivity Control Group).|Vaccine efficacy rate|54.0||||0.002|TWO_SIDED|95.0|29.0|70.0|||Fisher Exact|||Efficacy analysis aimed at comparing P. falciparum parasitemia incidence after sporozoite challenge between NP-Fx group and the Infectivity Control group.||70|29|0.002
82536135|NCT01290094|164770792|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
82536136|NCT01290094|164770793|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
82536137|NCT01290094|164770794|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.001
82536138|NCT01290094|164770795|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|||||P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.056
82536139|NCT01290094|164770796|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 12: P-value for percent change from baseline was from a Wilcoxon signed rank test.|Wilcoxon signed rank test|||||||<0.0005
82536140|NCT01290094|164770796|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 24: P-value for percent change from baseline was from a Wilcoxon signed rank test.|Wilcoxon signed rank test|||||||<0.0005
82536141|NCT01290094|164770797|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED|||||Month 12: P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||<0.0005
82536142|NCT01290094|164770797|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Month 24: P-value for percent change from baseline was from a paired samples t-test.|Paired t-test|||||||0.027
82536143|NCT03230006|164770803|SUPERIORITY||Partial eta squared|0.152||||0.002|TWO_SIDED|95.0|||||ANOVA||A two-way mixed ANOVA was conducted to investigate treatment group differences in change in mean number of drinks consumed from baseline to post-treatment, as indicated by the Time by Treatment Condition interaction effect.|||||0.002
82536144|NCT03230006|164770803|SUPERIORITY||Partial eta squared|0.342|||<|0.001|TWO_SIDED|95.0||||The threshold for significance is p \<.05.|ANOVA||This is the partial eta squared for the main effect of time.|||||<.001
82536145|NCT03230006|164770803|SUPERIORITY||Partial eta squared|0.018||||0.309|TWO_SIDED|95.0|||||ANOVA||This is the partial eta squared for the main effect of treatment condition.|||||.309
82648443|NCT02919475|165012480|SUPERIORITY|||||||0.056|||||||Fisher Exact|||||||0.056
82648444|NCT02919475|165012480|SUPERIORITY|||||||0.035|||||||Fisher Exact|||||||0.035
82648445|NCT01928446|165012487|SUPERIORITY||Cox Proportional Hazard|1.1||||0.61|TWO_SIDED|95.0|0.77|1.55|||Log Rank|||Model1 - Treatment only: unadjusted for other covariates||1.55|0.77|0.61
82648446|NCT01928446|165012487|SUPERIORITY||Cox Proportional Hazard|1.08||||0.67|TWO_SIDED|95.0|0.76|1.53|||Log Rank|||Model2 - Treatment only: unadjusted with Site as random Effect||1.53|0.76|0.67
82648447|NCT01928446|165012488|SUPERIORITY||Cox Proportional Hazard|1.49||||0.37|TWO_SIDED|95.0|0.61|3.64|||Log Rank|||||3.64|0.61|0.37
82429296|NCT02098304|164565644|SUPERIORITY_OR_OTHER||Percentage agreement|72.3|||<|0.001|TWO_SIDED|95.0|59.8|82.7|||Exact binomial test|An exact binomial test was used and an exact 95% Confidence Interval using the Clopper-Pearson method was calculated.||The null hypothesis was of chance agreement (50%) and was tested against a two-sided alternative at the 5% level of significance.||82.7|59.8|<0.001
82429297|NCT02098304|164565644|SUPERIORITY_OR_OTHER||Cohen's kappa|0.45||||0.001|TWO_SIDED|95.0|0.24|0.66|||Cohen's Kappa||Cohen's kappa is a chance-adjusted measure of agreement. A value of 0 indicates agreement by chance and 1 perfect agreement.|The null hypothesis was of chance agreement (Cohen's kappa of 0) and was tested against a two-sided alternative at the 5% level of significance. The study was powered such that 58 teeth (29 subjects), there would be 95% power to reject the null hypothesis of chance agreement (Cohen's kappa of 0) at the 5% level of significance, given that it was expected to be at least 0.4.||0.66|0.24|0.001
82429298|NCT01669902|164565669|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Change at Month 3||||<0.0001
82429299|NCT01669902|164565669|SUPERIORITY_OR_OTHER|||||||0.0357|TWO_SIDED||||||Wilcoxon signed rank test|||Change at Month 6||||0.0357
82429300|NCT00457392|164565672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.942||||0.1933|TWO_SIDED|95.0|0.822|1.079||p-value was not adjusted for multiple comparisons.|Log Rank|||Differences in OS between treatment arms was analyzed by the 1-sided log rank test, stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and epidermal growth factor receptor (EGFR) status (positive, versus negative, versus unknown).||1.079|0.822|0.1933
82450856|NCT02967510|164608301|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.229|TWO_SIDED|95.0|0.0|1.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||1|0|=0.229
82450857|NCT02967510|164608301|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.345|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.345
82450858|NCT02967510|164608302|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.026|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.026
82450859|NCT02967510|164608302|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.424|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.424
82450860|NCT02967510|164608302|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.414|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.414
82429301|NCT00457392|164565673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.807||||0.0023|TWO_SIDED|95.0|0.695|0.937||No p-value is adjusted for multiple comparisons for PFS.|Log Rank|One-sided log-rank test with alpha=0.025 was used.||Differences in PFS between treatment arms was analyzed by the 1-sided log rank test, stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and EGFR status (positive, versus negative, versus unknown).||0.937|0.695|0.0023
82429302|NCT00457392|164565674|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.514||||0.0471|TWO_SIDED|95.0|1.002|2.289|||Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test stratified for smoking status (ever versus never), prior bevacizumab therapy (yes versus no) and EGFR status (positive, versus negative, versus unknown) was used to compare ORR between the 2 treatment arms. The relative risk ratio estimator was used to contrast the treatment effects on response rates. A point estimate of relative risk ratio and 2-sided 95% CI was calculated.||2.289|1.002|0.0471
82450861|NCT02967510|164608303|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.36|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.36
82577209|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.147||0.3201|TWO_SIDED|95.0|-0.44|0.15|||MMRM|||Agitation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.44|0.3201
82648448|NCT01928446|165012489|SUPERIORITY||Cox Proportional Hazard|1.14||||0.77|TWO_SIDED|95.0|0.48|2.69|||Log Rank|||Model 5: Non-fatal self-directed violence subgroup||2.69|0.48|0.77
82450862|NCT02967510|164608303|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.12|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.12
82450863|NCT02967510|164608303|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.266|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.266
82536146|NCT03230006|164770803|OTHER||F|38.92|||<|0.001|TWO_SIDED|95.0||||The threshold for significance is p \<.05.|ANOVA|||After conducting the initial two-way mixed ANOVA, follow-up testing was conducted to determine the simple main effects of time (pre to post) on mean number of drinks per week within each treatment condition, which was examined using one-way repeated measures ANOVAs.||||<.001
82536147|NCT03230006|164770803|OTHER||F|5.43||||0.03|TWO_SIDED|95.0|||||ANOVA|||After conducting the initial two-way mixed ANOVA, follow-up testing was conducted to determine the simple main effects of time (pre to post) on mean number of drinks per week within each treatment condition, which was examined using one-way repeated measures ANOVAs.||||.030
82536148|NCT03230006|164770803|OTHER||F|1.15||||0.016|TWO_SIDED|95.0|||||ANOVA||This is the simple main effect of treatment condition on mean number of drinks consumed per week at baseline. For the UP, n=51; for the TC, n=24.|After conducting the initial two-way mixed ANOVA, the simple main effects for treatment condition on mean number of drinks consumed per week at each timepoint (pre and post) were examined using one-way ANOVAs.||||.016
82536149|NCT03230006|164770803|OTHER||F|7.78||||0.007|TWO_SIDED|95.0|||||ANOVA||This is the simple main effect of treatment condition on mean number of drinks consumed per week at post-treatment. For the UP, n=38; for the TC, n=21.|After conducting the initial two-way mixed ANOVA, the simple main effects for treatment condition on mean number of drinks consumed per week at each timepoint (pre and post) were examined using one-way ANOVAs.||||.007
82536150|NCT01871285|164770816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.7942|TWO_SIDED|95.0|-1.6|1.24|||Mixed Models Analysis|||||1.24|-1.60|.7942
82536151|NCT01871285|164770816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.683||||0.6155|TWO_SIDED|95.0|-11.89|13.25|||Mixed Models Analysis|||||13.25|-11.89|.6155
82577210|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.144||0.8286|TWO_SIDED|95.0|-0.25|0.32|||MMRM|||Agitation, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.25|0.8286
82577211|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.162||0.3022|TWO_SIDED|95.0|-0.49|0.15|||MMRM|||Agitation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.49|0.3022
82648449|NCT01928446|165012489|SUPERIORITY||Cox Proportional Hazard|1.61||||0.22|TWO_SIDED|95.0|0.75|3.43|||Log Rank|||Model 6: Interrupted self-directed violence subgroup||3.43|0.75|0.22
82536152|NCT01871285|164770817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.182||||0.7942|TWO_SIDED|95.0|-1.6|1.24|||Mixed Models Analysis|||||1.24|-1.60|.7942
82536153|NCT01871285|164770817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.683||||0.6155|TWO_SIDED|95.0|-11.89|13.25|||Mixed Models Analysis|||||13.25|-11.89|.6155
82536154|NCT00929305|164770818|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82536155|NCT00929305|164770821|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82536156|NCT05541497|164770823|SUPERIORITY||Risk Ratio (RR)|1.51|||||TWO_SIDED|95.0|0.68|3.37||||||||3.37|0.68|
82536157|NCT05541497|164770824|SUPERIORITY||Risk Ratio (RR)|1.36|||||TWO_SIDED|95.0|0.59|3.13||||||||3.13|0.59|
82536158|NCT01796665|164770825|EQUIVALENCE|provides 85% power of success|Equivalence ratio|96.57|||||TWO_SIDED|90.0|92.5|105.2|||Fieller's method|||||105.2|92.5|
82536159|NCT01796665|164770826|EQUIVALENCE|provides 85% power of success|Equivalence ratio|99.96|||||TWO_SIDED|90.0|92.9|110.5|||Fieller's method|||||110.5|92.9|
82536160|NCT01796665|164770827|EQUIVALENCE|provides 85% power of success|Equivalence ratio|-1.14|||||TWO_SIDED|90.0|-13.23|-1.13|||Fieller's method|||||-1.13|-13.23|
82536161|NCT02857283|164770852|SUPERIORITY|||||||0.46|||||||ANOVA|paired||||||0.46
82536162|NCT02857283|164770853|SUPERIORITY|||||||0.0481|||||||ANOVA|Paired||||||0.0481
82536163|NCT02857283|164770854|SUPERIORITY|||||||0.0179|||||||ANOVA|||||||0.0179
82536164|NCT02857283|164770855|SUPERIORITY|||||||0.1|||||||ANOVA|paired||||||0.10
82536165|NCT02857283|164770856|SUPERIORITY|||||||0.69|||||||ANOVA|paired||||||0.69
82536166|NCT02857283|164770857|SUPERIORITY|||||||0.27|||||||ANOVA|paired||||||0.27
82536167|NCT02857283|164770858|SUPERIORITY|||||||0.5|||||||ANOVA|paired||||||0.50
82536168|NCT02857283|164770859|SUPERIORITY|||||||0.54|||||||Wilcoxon signed rank test|||||||0.54
82536169|NCT02857283|164770860|SUPERIORITY|||||||0.9|||||||ANOVA|paired||||||0.90
82536170|NCT02857283|164770862|SUPERIORITY|||||||0.64|||||||Wilcoxon signed rank test|||||||0.64
82536171|NCT02857283|164770863|SUPERIORITY|||||||0.79|||||||Wilcoxon signed rank test|||||||0.79
82536172|NCT02857283|164770864|SUPERIORITY|||||||0.094|||||||ANOVA|||||||0.094
82536173|NCT00961805|164770874|SUPERIORITY_OR_OTHER||||||<|0.001||||||Differences in the behavior of the groups over time.|ANOVA|||"Sample size was calculated by visual analogue scale for pain (alpha error of 5%, beta error of 20% and standard deviation of 2). The sample was determined to contain 30 patients in each group. Ten additional patients were added to compensate possible losses.~Analysis was intention to treat using the LOCF technique."||||<0.001
82536174|NCT00961805|164770875|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.001
82536175|NCT00961805|164770876|SUPERIORITY_OR_OTHER||||||<|0.003||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.003
82536176|NCT00961805|164770877|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.146
82536177|NCT00961805|164770878|SUPERIORITY_OR_OTHER|||||||0.131||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.131
82536178|NCT00961805|164770879|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||<0.001
82536179|NCT00961805|164770880|SUPERIORITY_OR_OTHER|||||||0.58||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.580
82536180|NCT00961805|164770881|SUPERIORITY_OR_OTHER|||||||0.082||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.082
82648450|NCT01928446|165012489|SUPERIORITY||Cox Proportional Hazard|0.92||||0.71|TWO_SIDED|95.0|0.58|1.45|||Log Rank|||Model 7: Hospitalization to prevent suicide||1.45|0.58|0.71
82536181|NCT00961805|164770882|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.055
82536182|NCT00961805|164770883|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.003
82536183|NCT00961805|164770884|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.021
82536184|NCT00961805|164770885|SUPERIORITY_OR_OTHER|||||||0.136||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.136
82536185|NCT00961805|164770886|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||Differences in the behavior of the groups over time.|ANOVA|||||||0.009
82536186|NCT00587288|164770887|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.194||0.0541|TWO_SIDED|95.0|-0.76|0.01||The p-value for the treatment comparison is based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||0.01|-0.76|0.0541
82536187|NCT00587288|164770888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.0848|TWO_SIDED|95.0|0.91|4.46||The p-value for the treatment comparison was based on logistic regression with adjustment for stratification factor.|Regression, Logistic|||||4.46|0.91|0.0848
82536188|NCT00587288|164770889|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.077||0.0023|TWO_SIDED|95.0|0.088|0.392||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||0.392|0.088|0.0023
82536189|NCT00587288|164770890|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.98|STANDARD_ERROR_OF_MEAN|2.36||0.001|TWO_SIDED|95.0|3.3|12.65||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline.|ANCOVA|||||12.65|3.30|0.0010
82536190|NCT00587288|164770891|SUPERIORITY_OR_OTHER||Adjusted mean difference|-125.29|STANDARD_ERROR_OF_MEAN|44.885||0.0068|TWO_SIDED|95.0|-214.81|-35.77||The p-value for the treatment comparison was based on the ANCOVA with adjustment for stratification factor and for variable at baseline. The difference between reslizumab 3.0 mg/kg and placebo groups was from comparison of the least square means.|ANCOVA|||||-35.77|-214.81|0.0068
82536191|NCT00587288|164770892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.33||||0.0833|TWO_SIDED|95.0|0.1|1.15||The p-value for the treatment comparison was based on logistic regression with adjustment for stratification factor.|Regression, Logistic|||||1.15|0.10|0.0833
82536192|NCT00587288|164770892|SUPERIORITY_OR_OTHER|||||||0.0809|||||||Log Rank|The p value for the treatment comparison was based on log rank test adjusting for stratification factor (ie, ACQ score ≤2 and \>2).||"Kaplan-Meier estimate of time to first CAE. (First quartile, median and third quartile survival times with 95% confidence intervals (ie, time to first CAE) could not be estimated since the proportion of patients experiencing CAE was too low. Therefore, the only number presented in regard to the Kaplan-Meier analysis is the p-value of the log-rank test, below. )"||||0.0809
82536193|NCT02790606|164770909|SUPERIORITY|||||||0.0021|||||||Exact binomial test|||"The primary safety endpoint is evaluated against a PG of 88%, which was derived from safety event rates of PTA in published literature.~Hypothesis: The safety rate in subjects treated with the COVERA™ Vascular Covered Stent (following PTA) at 30 days post-index procedure is greater than that of the PG of 88%. 109 treated subjects \[104 evaluable\] will give 99% power with one-sided type I error = 0.05."||||0.0021
82536194|NCT02790606|164770910|SUPERIORITY||||||<|0.0001||||||The p-value is compared to the PG (40%) and computed using the exact binomial test.|Exact binomial test|||"The primary effectiveness endpoint is evaluated against a PG of 40%, which was derived from clinical literature as well as other pivotal and post-market studies of stent grafts at the graft-vein anastomosis of AV access patients dialyzing with an AV graft. 89% estimated power for primary endpoint.~Hypothesis: The proportion of subjects treated with the COVERA™ Vascular Covered Stent (following PTA) with respect to TLPP through 6 months post-index procedure is greater than that of the PG of 40%."||||<0.0001
82536195|NCT03635112|164770953|SUPERIORITY||Least Square Mean Difference|-0.76||||0.97|TWO_SIDED|95.0|-40.62|39.11|||Mixed Model Repeated Measures Analysis|||||39.11|-40.62|0.970
82536196|NCT03635112|164770953|SUPERIORITY||Least Square Mean Difference|-13.13||||0.51|TWO_SIDED|95.0|-52.46|26.19|||Mixed Model Repeated Measures Analysis|||||26.19|-52.46|0.510
82536197|NCT03635112|164770954|SUPERIORITY||Difference in Proportion|-0.07||||0.5102|TWO_SIDED|95.0|-0.277|0.135|||Cochran-Mantel-Haenszel Chi-square Test|||||0.135|-0.277|0.5102
82536198|NCT03635112|164770954|SUPERIORITY||Difference in Proportion|0.02||||0.8591|TWO_SIDED|95.0|-0.181|0.218|||Cochran-Mantel-Haenszel Chi-square Test|||||0.218|-0.181|0.8591
82536199|NCT03635112|164770955|SUPERIORITY||Difference in Proportion|-0.13||||0.1805|TWO_SIDED|95.0|-0.322|0.061|||Cochran-Mantel-Haenszel Chi-square Test|||||0.061|-0.322|0.1805
82536200|NCT03635112|164770955|SUPERIORITY||Difference in Proportion|-0.01||||0.9215|TWO_SIDED|95.0|-0.204|0.184|||Cochran-Mantel-Haenszel Chi-square Test|||||0.184|-0.204|0.9215
82536201|NCT03635112|164770956|SUPERIORITY||Least Square Mean Difference|1.6||||0.316|TWO_SIDED|95.0|-1.6|4.8|||ANCOVA|||||4.8|-1.6|0.316
82536202|NCT03635112|164770956|SUPERIORITY||Least Square Mean Difference|0.0||||0.988|TWO_SIDED|95.0|-3.2|3.2|||ANCOVA|||||3.2|-3.2|0.988
82536203|NCT03635112|164770957|SUPERIORITY||Difference in Proportion|-0.11||||0.1828|TWO_SIDED|95.0|-0.27|0.059|||Cochran-Mantel-Haenszel Chi-square Test|||||0.059|-0.270|0.1828
82536204|NCT03635112|164770957|SUPERIORITY||Difference in Proportion|0.06||||0.5785|TWO_SIDED|95.0|-0.133|0.244|||Cochran-Mantel-Haenszel Chi-square Test|||||0.244|-0.133|0.5785
82536205|NCT03635112|164770958|SUPERIORITY||Difference in Proportion|-0.07||||0.3776|TWO_SIDED|95.0|-0.225|0.095|||Cochran-Mantel-Haenszel Chi-square Test|||||0.095|-0.225|0.3776
82536206|NCT03635112|164770958|SUPERIORITY||Difference in Proportion|-0.04||||0.6063|TWO_SIDED|95.0|-0.189|0.111|||Cochran-Mantel-Haenszel Chi-square Test|||||0.111|-0.189|0.6063
82536207|NCT01360840|164770959|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.89|||||TWO_SIDED|95.0|0.57|1.39||||||||1.39|0.57|
82536208|NCT01360840|164770959|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.52|1.26||||||||1.26|0.52|
82536209|NCT01360840|164770960|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|0.52|2.31||||||||2.31|0.52|
82536210|NCT01360840|164770960|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01|||||TWO_SIDED|95.0|0.47|2.15||||||||2.15|0.47|
82648451|NCT01663714|165012510|SUPERIORITY_OR_OTHER||percentage of participants|100.0|||||TWO_SIDED|95.0|100.0|100.0|||||The estimated value represents the percentage of participants with unconfirmed response.|||100|100|
82450864|NCT02967510|164608304|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.47|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.47
82450865|NCT02967510|164608304|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.137|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.137
82450866|NCT02967510|164608304|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.133|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.133
82450867|NCT02967510|164608305|SUPERIORITY||LS Mean Difference|0.74|||=|0.85|TWO_SIDED|95.0|-0.669|2.153|||ANCOVA|||||2.153|-0.669|=0.85
82450868|NCT02967510|164608305|SUPERIORITY||LS Mean Difference|0.87|||=|0.877|TWO_SIDED|95.0|-0.611|2.361|||ANCOVA|||||2.361|-0.611|=0.877
82450869|NCT02967510|164608305|SUPERIORITY||LS Mean Difference|-0.64|||=|0.178|TWO_SIDED|95.0|-2.009|0.728|||ANCOVA|||||0.728|-2.009|=0.178
82450870|NCT02967510|164608306|SUPERIORITY||LS Mean Difference|-0.16|||=|0.323|TWO_SIDED|95.0|-0.854|0.531|||ANCOVA|||||0.531|-0.854|=0.323
82450871|NCT02967510|164608306|SUPERIORITY||LS Mean Difference|-0.22|||=|0.272|TWO_SIDED|95.0|-0.917|0.484|||ANCOVA|||||0.484|-0.917|=0.272
82450872|NCT02967510|164608306|SUPERIORITY||LS Mean Difference|-0.6|||=|0.043|TWO_SIDED|95.0|-1.29|0.084|||ANCOVA|||||0.084|-1.29|=0.043
82450873|NCT02967510|164608307|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.009|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.009
82536211|NCT01360840|164770961|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.91|||||TWO_SIDED|95.0|0.58|1.44||||||||1.44|0.58|
82536212|NCT01360840|164770961|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.52|1.27||||||||1.27|0.52|
82536213|NCT00714233|164770989|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Paired t-test to analyze BMI at baseline and 24 weeks||||<0.05
82536214|NCT02408965|164771015|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82450874|NCT02967510|164608307|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.025|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.025
82450875|NCT02967510|164608307|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82450876|NCT02967510|164608308|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.04|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.04
82450877|NCT02967510|164608308|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.259|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.259
82536215|NCT02408965|164771016|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82536216|NCT02408965|164771017|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82536217|NCT02408965|164771018|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
82536218|NCT02408965|164771019|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
82536219|NCT02408965|164771020|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
82536220|NCT02408965|164771021|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82536221|NCT02408965|164771022|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
82450878|NCT02967510|164608308|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.104|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.104
82536222|NCT02408965|164771023|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
82536223|NCT04668144|164771035|NON_INFERIORITY|Under the assumption of 0 difference in mean PRU between groups and a common standard deviation of 50 PRU, a sample size of 22 patients per group would allow for the 95%CI to stay within ± 45 PRU with a 90% power and alpha=0.05. In line with previously reported investigations, 45 PRU was chosen for the noninferiority margin for the upper 95%CI limit of the difference.|Mean Difference (Final Values)|130.0|||||TWO_SIDED|95.0|85.0|176.0||p-value was not calculated for noninferiority analysis|ANCOVA|||The primary hypothesis of our study was that in patients receiving concomitant administration of cangrelor and prasugrel (experimental arm), platelet inhibition as assessed by PRU would be noninferior to patients receiving prasugrel only (active control)||176|85|
82536224|NCT01872611|164771044|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.2||0.671|TWO_SIDED|95.0|0.7|1.3|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for United States (US) registration and secondary for European Union (EU) registration.||1.3|0.7|0.671
82429303|NCT00980148|164565678|NON_INFERIORITY_OR_EQUIVALENCE|This noninferiority study tested the null hypothesis that the failure rate of azithromycin is 5% higher than that of doxycycline against the alternative hypothesis that there is no difference between the two treatments. The treatment failure rate was assumed to be 3% for both treatments. To test this hypothesis at the one-sided 0.10 significance level with power of 0.90 required 153 study subjects per arm in the per-protocol population.|Risk Difference (RD)|3.2|||||ONE_SIDED|90.0||5.9|||||The risk difference is the percentage in the azithromycin arm with treatment failure minus the percentage in the doxycycline arm with treatment failure. Noninferiority of azithromycin would be supported if the upper 90% confidence limit is below 5%.|This noninferiority study tested the null hypothesis that the failure rate of azithromycin is 5% higher than that of doxycycline against the alternative hypothesis that there is no difference between the two treatments. The one-sided 90% exact confidence interval was used to estimate the difference between the two failures rates.||5.9||
82536225|NCT01872611|164771045|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|0.2|0.7|||Regression, Logistic||Parameter dispersion is the standard error for the odds ratio.|This endpoint was considered primary for EU registration and secondary for US registration.||0.7|0.2|0.001
82536226|NCT02487446|164771062|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit (LL) of the 97.5% one -sided confidence interval (CI) \> -20 mL.|Mean Difference (Net)|-0.0115|STANDARD_ERROR_OF_MEAN|0.00778||0.139|TWO_SIDED|95.0|-0.0269|0.0038||p-value unadjusted|Linear Mixed Model|||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||0.0038|-0.0269|0.139
82536227|NCT02487446|164771063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0115|STANDARD_ERROR_OF_MEAN|0.00778|||TWO_SIDED|95.0|-0.0269|0.0038||||||Ho: QVA149 27.5/12.5 μg b.i.d. is inferior to umeclidinium/vilanterol 62.5/25 μg q.d; Ha: QVA149 27.5/12.5 μg b.i.d. is non-inferior to umeclidinium/vilanterol 62.5/25 μg q.d.||0.0038|-0.0269|
82536228|NCT02487446|164771064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0153|STANDARD_ERROR_OF_MEAN|0.01062|||TWO_SIDED|95.0|-0.0361|0.0056||||||||0.0056|-0.0361|
82536229|NCT02487446|164771065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0051|STANDARD_ERROR_OF_MEAN|0.00806|||TWO_SIDED|95.0|-0.0108|0.0209||||||||0.0209|-0.0108|
82536230|NCT01822821|164771071|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was tested using a noninferiority margin of 1.15.|ratio of geometric means|0.89||||0.08|ONE_SIDED|90.0||1.06|||Regression, Linear||Ratio of geometric means (CI) for IV acetaminophen versus placebo was estimated as the exponentiated treatment effect parameter from a multivariable linear regression model on log opioid consumption adjusting for age and diabetes.|||1.06||0.08
82536231|NCT01822821|164771071|SUPERIORITY_OR_OTHER||ratio of geometric means|0.89||||0.28|ONE_SIDED|95.0||1.1|||Regression, Linear||Ratio of geometric means (CI) for IV acetaminophen versus placebo was estimated as the exponentiated treatment effect parameter from a multivariable linear regression model on log opioid consumption adjusting for age and diabetes.|||1.10||0.28
82648452|NCT01663714|165012511|SUPERIORITY_OR_OTHER||percentage of participants|100.0|||||TWO_SIDED|95.0|100.0|100.0|||||The estimated value represents the percentage of participants with confirmed response.|||100|100|
82429304|NCT00328172|164565752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.3271||95.0|-0.41|0.14|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 0.5 mg versus placebo||0.14|-0.41|0.3271
82536232|NCT01822821|164771072|NON_INFERIORITY_OR_EQUIVALENCE|We assessed whether IV acetaminophen is noninferior to placebo using a noninferiority margin of 1.0.|Median Difference (Final Values)|-0.9|||<|0.001|ONE_SIDED|90.0||-0.5|||Regression, Linear||Difference in overall postoperative pain score means based on a repeated measures linear regression model with an autoregressive correlation structure, adjusting for age, time, and diabetes.|||-0.5||< 0.001
82536233|NCT01822821|164771072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||<|0.001|ONE_SIDED|95.0||-0.42|||Regression, Linear||Difference in overall postoperative pain score means based on a repeated measures linear regression model with an autoregressive correlation structure, adjusting for age, time, and diabetes.|||-0.42||< 0.001
82536234|NCT01822821|164771073|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76||||0.35|TWO_SIDED|99.4|0.34|1.7|||Regression, Logistic||Relative risk of PONV in IV acetaminophen versus placebo patients estimated from a multivariable logistic regression model using the log link and adjusting for age and diabetes.|||1.7|0.34|0.35
82536235|NCT01822821|164771074|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.13|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 8 hours after surgery.||0|0|0.13
82536236|NCT01822821|164771074|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.44|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 16 hours after surgery.||0|0|0.44
82536237|NCT01822821|164771074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.38|TWO_SIDED|99.8|0.0|0.0|||Wilcoxon (Mann-Whitney)||Difference in medians of IV acetaminophen versus placebo patients based on Wilcoxon rank sum test and Hodges-Lehmann estimation of location shift.|Analysis at 24 hours after surgery||0|0|0.38
82536238|NCT01822821|164771075|SUPERIORITY_OR_OTHER||ratio of geometric means|1.3||||0.46|TWO_SIDED|99.4|0.52|3.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of mechanical ventilation was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||3.20|0.52|0.46
82536239|NCT01822821|164771076|SUPERIORITY_OR_OTHER||ratio of geometric means|0.93||||0.38|TWO_SIDED|99.4|0.74|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of ICU stay was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||1.20|0.74|0.38
82652170|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.053||||0.7561|TWO_SIDED|95.0|-0.282|0.387||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.387|-0.282|0.7561
82429305|NCT00328172|164565752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0032||95.0|-0.69|-0.14|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 2.5 mg versus placebo||-0.14|-0.69|0.0032
82429306|NCT00328172|164565752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0012||95.0|-0.74|-0.18|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.18|-0.74|0.0012
82536240|NCT01822821|164771077|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.12|TWO_SIDED|99.4|0.94|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on duration of mechanical ventilation was assessed by use of the ratio of geometric means from a multivariable logistic regression models adjusting for age and diabetes.|||1.20|0.94|0.12
82536241|NCT01822821|164771078|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.31|TWO_SIDED|99.4|0.9|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on ALT was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.2|0.9|0.31
82536242|NCT01822821|164771079|SUPERIORITY_OR_OTHER||ratio of geometric means|1.0||||0.98|TWO_SIDED|99.4|0.8|1.2|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on AST was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.2|0.8|0.98
82536243|NCT01822821|164771080|SUPERIORITY_OR_OTHER||ratio of geometric means|1.1||||0.4|TWO_SIDED|99.4|0.87|1.3|||Regression, Linear||Outcome log-transformed to meet model assumptions. The treatment effect on bilirubin was assessed by use of the ratio of geometric means from a repeated measures multivariable logistic regression models adjusting for age and diabetes.|||1.3|0.87|0.40
82536244|NCT05750745|164771091|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.0871|TWO_SIDED|95.0|-0.36|0.02|||Mixed Model with Repeated Measure (MMRM)||Adjusted mean difference was calculated as test minus negative control.|||0.02|-0.36|0.0871
82536245|NCT05750745|164771092|SUPERIORITY||Adjusted Mean Difference|6.21|STANDARD_ERROR_OF_MEAN|3.548||0.0972|TWO_SIDED|95.0|-0.78|13.2|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as test minus negative control.|||13.20|-0.78|0.0972
82536246|NCT05750745|164771093|SUPERIORITY||Adjusted Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|3.16||0.0671|TWO_SIDED|95.0|-12.04|0.41|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||0.41|-12.04|0.0671
82536247|NCT05750745|164771094|SUPERIORITY||Adjusted Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.0673|TWO_SIDED|95.0|-0.27|0.01|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||0.01|-0.27|0.0673
82536248|NCT05750745|164771095|SUPERIORITY||Adjusted Mean Difference|2.38|STANDARD_ERROR_OF_MEAN|2.446||0.405|TWO_SIDED|95.0|-2.44|7.2|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as test minus negative control.|||7.20|-2.44|0.4050
82536249|NCT05750745|164771096|SUPERIORITY||Adjusted Mean Difference|-5.64|STANDARD_ERROR_OF_MEAN|2.656||0.0346|TWO_SIDED|95.0|-10.88|-0.41|||MMRM||Adjusted mean difference was calculated as test minus negative control.|||-0.41|-10.88|0.0346
82536250|NCT05750745|164771097|SUPERIORITY||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.085||0.8256|TWO_SIDED|95.0|-0.15|0.19|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||0.19|-0.15|0.8256
82536251|NCT05750745|164771097|SUPERIORITY||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.117||0.5314|TWO_SIDED|95.0|-0.16|0.3|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||0.30|-0.16|0.5314
82536252|NCT05750745|164771098|SUPERIORITY||Adjusted Mean Difference|-2.59|STANDARD_ERROR_OF_MEAN|2.99||0.5575|TWO_SIDED|95.0|-8.48|3.3|||van Elteren Test|P-value was from the Van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||3.30|-8.48|0.5575
82536253|NCT05750745|164771098|SUPERIORITY||Adjusted Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|4.308||0.7717|TWO_SIDED|95.0|-9.6|7.37|||van Elteren Test|P-value was from the van Elteren test adjusted for Baseline Schiff sensitivity stratification factor.|Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||7.37|-9.60|0.7717
82536254|NCT05750745|164771099|SUPERIORITY||Adjusted Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|3.235||0.818|TWO_SIDED|95.0|-5.63|7.12|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 6||7.12|-5.63|0.8180
82648453|NCT03840811|165012553|OTHER|||||||0.23|||||||Sign test|||To assess whether the fitness of a given mutant is different than that of wild-type, the ratio of colony-forming units of the mutant strain was compared to those of the WT strain at the time of treatment and in the inoculum using a Wilcoxon Signed-Rank Test with a significance level of 0.025. CIs of participants in Mixed FA1090 + FA7537 group were compared to mean = 1.||||0.230
82429307|NCT00328172|164565752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||<|0.0001||95.0|-1.1|-0.59|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline HbA1c as a linear covariate.||Metformin versus placebo||-0.59|-1.1|<0.0001
82536255|NCT05750745|164771099|SUPERIORITY||Adjusted Mean Difference|3.73|STANDARD_ERROR_OF_MEAN|3.834||0.3322|TWO_SIDED|95.0|-3.83|11.28|||MMRM||Adjusted mean difference was calculated as positive control minus negative control.|Change from Baseline at Week 12||11.28|-3.83|0.3322
82536256|NCT05780047|164771103|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82536257|NCT05780047|164771104|OTHER||||||<|0.05|||||||paired samples t-test|||Paired samples t-tests were run to compare whether EHL knowledge, attitudes and behavior changed after the intervention. EHL scores were expected to increase between pre and post testing.||||<0.05
82536258|NCT03194776|164771119|SUPERIORITY||Mean Difference (Final Values)|-17.74|||=|0.2612|TWO_SIDED|80.0|-38.03|2.55||P-value of \<= 0.2 was considered significant.|two-sided test|||Statistical analysis was done by mixed effect model repeat measurement (MMRM) model analysis.||2.55|-38.03|= 0.2612
82648454|NCT03840811|165012554|OTHER||Risk Difference (RD)|-0.14||||0.54|TWO_SIDED|95.0|-0.58|0.34||One-sided Fisher's Exact Test with alpha=0.025|Fisher Exact|||||0.34|-0.58|0.54
82648455|NCT01625845|165012562|SUPERIORITY_OR_OTHER|||||||0.474|TWO_SIDED|95.0|||||ANCOVA|||||||.474
82577212|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.158||0.8022|TWO_SIDED|95.0|-0.35|0.27|||MMRM|||Agitation, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.35|0.8022
82536259|NCT00783692|164771140|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.8||||0.0206|TWO_SIDED|95.0|1.2|14.3||P-value is based on the Cochran-Mantel-Haenszel (CMH) chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level for the multiple comparisons of the primary endpoints. If both p-values were ≤ 0.05, both primary endpoints were to be declared significant. If 1 of the p-values for the primary endpoints was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither primary was declared significant, no further testing was to be conducted.||14.3|1.2|0.0206
82536260|NCT00783692|164771141|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.7||||0.2322|TWO_SIDED|95.0|-3.6|15.0||P-value is based on the Cochran-Mantel-Haenszel (CMH) chi-square test, with stratification according to: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no).|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level for the multiple comparisons of the primary endpoints. If both p-values were ≤ 0.05, both primary endpoints were to be declared significant. If 1 of the p-values for the primary endpoints was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither primary was declared significant, no further testing was to be conducted.||15.0|-3.6|0.2322
82536261|NCT00783692|164771142|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.4||||0.0007|TWO_SIDED|95.0|7.3|27.5||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both p-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the p-values for the 2 dose comparisons was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||27.5|7.3|0.0007
82536262|NCT00783692|164771142|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.7||||0.0042|TWO_SIDED|95.0|4.6|24.7||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|The Hochberg method was applied to control the overall Type I error rate at a 5% significance level. If both p-values were ≤ 0.05, both dose regimens were to be declared significant. If 1 of the p-values for the 2 dose comparisons was \> 0.05, the other p-value was to be tested at the 0.025 level and declared significant only if the p-value was ≤ 0.025. If neither dose was declared significant for the primary endpoint, no further testing was to be conducted.||24.7|4.6|0.0042
82536263|NCT00783692|164771143|SUPERIORITY_OR_OTHER|||||||0.9288||||||Wilcoxon Rank Sum test on the CRP change from baseline values (two-sided).|Wilcoxon (Mann-Whitney)|||If at least 1 of the primary endpoints was significant, the sequential Hochberg procedure was to be used to test the secondary endpoint for significance at the 0.05% level.||||0.9288
82536264|NCT00783692|164771144|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.4||||0.0132|TWO_SIDED|95.0|2.8|24.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||24.0|2.8|0.0132
82536265|NCT00783692|164771144|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.3||||0.0053|TWO_SIDED|95.0|4.6|26.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||26.0|4.6|0.0053
82376832|NCT02585778|164460402|SUPERIORITY||LS Mean Difference|-36.7|||<|0.0001|TWO_SIDED|95.0|-40.9|-32.5||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-32.5|-40.9|<0.0001
82376833|NCT02585778|164460403|SUPERIORITY||LS Mean Difference|-29.2|||<|0.0001|TWO_SIDED|95.0|-37.8|-20.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-20.7|-37.8|<0.0001
82536266|NCT00783692|164771145|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.9||||0.0154|TWO_SIDED|95.0|3.0|28.7||P-value is based on the CMH chi-square test, with stratification according to: 1) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 2) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||28.7|3.0|0.0154
82577213|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.165||0.5665|TWO_SIDED|95.0|-0.42|0.23|||MMRM|||Agitation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.42|0.5665
82536267|NCT00783692|164771145|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.9||||0.045|TWO_SIDED|95.0|0.3|25.5||P-value is based on the CMH chi-square test, with stratification according to: 1) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 2) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||25.5|0.3|0.0450
82536268|NCT00783692|164771146|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.2||||0.1036|TWO_SIDED|95.0|-1.5|16.0||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||16.0|-1.5|0.1036
82648456|NCT01625845|165012563|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0|||||ANCOVA|||||||.068
82376834|NCT02585778|164460403|SUPERIORITY||LS Mean Difference|-27.6|||<|0.0001|TWO_SIDED|95.0|-31.2|-24.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-24.1|-31.2|<0.0001
82376835|NCT02585778|164460404|SUPERIORITY||Odds Ratio (OR)|117.0|||<|0.0001|TWO_SIDED|95.0|13.1|1041.8||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||1041.8|13.1|<0.0001
82376836|NCT02585778|164460404|SUPERIORITY||Odds Ratio (OR)|84.6|||<|0.0001|TWO_SIDED|95.0|36.5|196.1||Threshold for significance at 0.05 level|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||196.1|36.5|<0.0001
82376837|NCT02585778|164460405|SUPERIORITY||Odds Ratio (OR)|52.9|||<|0.0001|TWO_SIDED|95.0|16.6|168.3||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||168.3|16.6|<0.0001
82376838|NCT02585778|164460406|SUPERIORITY||Odds Ratio (OR)|33.2|||<|0.0001|TWO_SIDED|95.0|8.0|137.4||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||137.4|8.0|<0.0001
82376839|NCT02585778|164460406|SUPERIORITY||Odds Ratio (OR)|27.1|||<|0.0001|TWO_SIDED|95.0|14.2|51.5||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||51.5|14.2|<0.0001
82376840|NCT02585778|164460407|SUPERIORITY||Odds Ratio (OR)|55.5||||0.0002|TWO_SIDED|95.0|6.5|473.7||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||473.7|6.5|0.0002
82376841|NCT02585778|164460407|SUPERIORITY||Odds Ratio (OR)|103.3|||<|0.0001|TWO_SIDED|95.0|24.6|433.1||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||433.1|24.6|<0.0001
82376842|NCT02585778|164460408|SUPERIORITY||Adjusted Mean Difference|-18.7||||0.0039|TWO_SIDED|95.0|-31.4|-6.0||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-6.0|-31.4|0.0039
82536269|NCT00783692|164771146|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.0||||0.6413|TWO_SIDED|95.0|-6.3|10.2||CMH chi-square test, stratified by: 1) concomitant use of oral corticosteroids (yes/no); 2) previous exposure to TNFα antagonists and/or concomitant immunomodulator use (yes/no); 3) enrollment in Cohort 1 or Cohort 2 in the Induction Phase.|Cochran-Mantel-Haenszel||Risk Difference = adjusted (for stratification factors) percent vedolizumab - adjusted percent placebo|To maintain the overall Type I error rate at 5% in the multiple-dose comparisons in each key secondary endpoint, the Hochberg method was used. To further maintain the overall Type I error rate at 5%, the key secondary assessments were performed sequentially. The first key secondary endpoint was tested only if 1 or both of the primary comparisons were significant and the next key secondary endpoint was to be tested only if the previous key secondary endpoint was significant for at least 1 dose.||10.2|-6.3|0.6413
82536270|NCT02753530|164771309|SUPERIORITY||Least Square (LS) Mean Difference|-0.99||||0.1146|TWO_SIDED|95.0|-2.23|0.24||Primary Estimand (Treatment Policy)|Mixed Models Analysis|||The baseline observation was the last observation recorded prior to the first dose of study medication. The change from baseline in IBMFRS total score was analyzed using a Mixed Models for Repeated Measures (MMRM) with treatment interacting with visit and trial site as factors. Baseline IBMFRS total score interacting with visit was further included as covariate. An unstructured covariance matrix was assumed.||0.24|-2.23|0.1146
82536271|NCT01125774|164771326|SUPERIORITY_OR_OTHER||Difference in percent incidence|-1.2|||||TWO_SIDED|95.0|-4.4|2.1|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||2.1|-4.4|
82536272|NCT01125774|164771327|SUPERIORITY_OR_OTHER||Difference in percent incidence|-0.2|||||TWO_SIDED|95.0|-1.4|0.8|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||0.8|-1.4|
82536273|NCT01125774|164771328|SUPERIORITY_OR_OTHER||Difference in percent incidence|0.6|||||TWO_SIDED|95.0|-0.5|1.6|||Miettinen & Nurminen||Telcagepant percent incidence versus Placebo percent incidence|||1.6|-0.5|
82536274|NCT01125774|164771330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.13|TWO_SIDED|95.0|-1.1|0.1||α=0.0499|Longitudinal data analysis (LDA)||Difference is Telcagepant 140 mg versus Placebo|This measure tests the primary hypothesis, that telcagepant 140 mg is superior to placebo as measured by mean monthly headache days in participants with MRM or PMM||0.1|-1.1|0.130
82536275|NCT01125774|164771331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.369|TWO_SIDED|95.0|-1.0|0.4||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||0.4|-1.0|0.369
82536276|NCT01125774|164771332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||-0.2|-0.5|<0.001
82536277|NCT01125774|164771333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||-0.2|-0.5|<0.001
82536278|NCT01125774|164771334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.393|TWO_SIDED|95.0|-0.4|0.2||To control Type I error, formal significance of the test for treatment difference for this measure could only be achieved if the comparison corresponding to the primary hypothesis was significant at α=0.0499|LDA||Difference is Telcagepant 140 mg versus Placebo|||0.2|-0.4|0.393
82536279|NCT02081365|164771349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|95.0|0.74|3.55|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||3.55|.74|<0.05
82536280|NCT02081365|164771350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|||<|0.05|TWO_SIDED|95.0|0.39|1.57|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.57|.39|<0.05
82536281|NCT02081365|164771351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.05|TWO_SIDED|95.0|0.61|1.85|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.85|.61|<0.05
82536282|NCT02081365|164771352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.05|TWO_SIDED|95.0|0.01|1.64|||ANCOVA|||Comparison of two groups at 1 month follow up with baseline value as the covariate||1.64|.01|<0.05
82648457|NCT01625845|165012564|SUPERIORITY_OR_OTHER|||||||0.296|TWO_SIDED|95.0|||||ANCOVA|||||||.296
82429308|NCT00328172|164565753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45||||0.7027||95.0|-10.0|15.1|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 0.5 mg versus placebo||15.1|-10|0.7027
82536283|NCT01324882|164771361|OTHER|||||||1|||||||Fisher Exact|||||||1.00
82536284|NCT01866917|164771369|SUPERIORITY|||||||0.574|||||||Chi-squared|||||||.574
82536285|NCT01866917|164771370|SUPERIORITY|Statistical analysis performed using SPSS software, version 15 (SPSS Inc., Chicago, IL). Data for quantitative variables reported as a median and interquartile range. The Mann Whitney and chi-square tests were used for the analysis of continuous and categorical variables.|Interquartile range (IQR)|3.0||||0.825|TWO_SIDED|||||Effect size was calculated for the numeric pain rating scale at the immediate post-operative period, 4-hour, 8-hour , 12-hour, and 24-hour time periods as a means to assess post-operative pain control.|Chi-squared|||TAP has been demonstrated to have a potential role in reducing pain, post-operative opioid requirement, and time to hospital discharge after abdominal hysterectomies and cesarean sections.||||.825
82536286|NCT01140347|164771382|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.866||||0.1391|TWO_SIDED|95.0|0.717|1.046|||Log Rank||HR with 95% confidence interval (CI) was estimated using a stratified Cox proportional hazards regression model using the Interactive Web Response System (IWRS) stratification factors (geographical regions and etiology of liver disease).|||1.046|0.717|0.1391
82648458|NCT01625845|165012565|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED|95.0|||||ANCOVA|||||||.203
82648459|NCT01625845|165012566|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||ANCOVA|||||||.906
82648460|NCT01625845|165012567|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED|95.0|||||ANCOVA|||||||.869
82648461|NCT01625845|165012568|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0|||||ANCOVA|||||||.026
82450879|NCT02967510|164608309|SUPERIORITY||Median Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82429309|NCT00328172|164565753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4||||0.003||95.0|-32.0|-6.6|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 2.5 mg versus placebo||-6.6|-32|0.003
82429310|NCT00328172|164565753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3||||0.0418||95.0|-26.0|-0.5|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||Linagliptin 5.0 mg versus placebo||-0.5|-26|0.0418
82429311|NCT00328172|164565753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.3|||<|0.0001||95.0|-47.0|-22.0|||ANCOVA|ANCOVA model includes treatment as a fixed classification effect and baseline FPG as a linear covariate.||||-22|-47|< 0.0001
82429312|NCT00328172|164565754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.735||||0.413||95.0|0.464|6.492|||Regression, Logistic|||Linagliptin 0.5 mg versus placebo||6.492|0.464|0.413
82429313|NCT00328172|164565754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.157||||0.842||95.0|0.275|4.861|||Regression, Logistic|||Linagliptin 2.5 mg versus placebo||4.861|0.275|0.842
82429314|NCT00328172|164565754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.364||95.0|0.492|6.91|||Regression, Logistic|||Linagliptin 5.0 mg versus placebo||6.910|0.492|0.364
82429315|NCT00328172|164565754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.224||||0.005||95.0|1.648|16.562|||Regression, Logistic|||Metformin versus placebo||16.562|1.648|0.005
82429316|NCT01990742|164565762|OTHER||||||>|0.05|||||||MOnte carlo simulation|||||||>0.05
82429317|NCT01990742|164565763|OTHER||||||>|0.05|||||||Monte carlo simulation|||||||>0.05
82429318|NCT01990742|164565764|OTHER||||||>|0.05|||||||Monte carlo simulation|||||||>0.05
82429319|NCT00523978|164565820|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||The null hypothesis is the success rate in experimental group is less than and equal to the one in control group. This comparison of the rates was performed using a 2-sided Fisher's Exact. A sample size of 240(160 experimental and 80 control) is required to provide 80% power to detect the treatment difference using a 2-sided (alpha = 0.05)Fisher's Exact Test of binomial proportions assuming the success rate was 40% for control and 60% for treatment.||||<0.0001
82429320|NCT00523978|164565821|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin was selected based on literature review.|||||<|0.001|||||||t-test, 1 sided|||The null hypothesis is the proportion of subjects free from MAFE in the experimental group is inferior to that in the control group using 10% non-inferiority margin.A sample size of 160 evaluable cryoablation and 80 control subjects (one-sided α = 0.05, 2:1 randomization) was required to provide 80% power assuming the rate of free from MAFE at 12 months 80.5 and 77% in experimental and control groups respectively .||||<0.001
82429321|NCT00523978|164565822|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||The test hypothesis is UCBExperimental\_CPE ≥ 14.8% vs UCBExperimental\_CPE \< 14.8%.The performance goal 14.8% was chosen based on a review of SSEDs for similar types of ablation trials.The expected rate for CPEs in a well-monitored trial of left atrial RF ablation for AF was estimated to be 10% (corresponding to a CPE-free rate of 90%).In a trial with 160 subject, the resulting one-sided 95% upper confidence bound would be 14.8%.||||<0.001
82429322|NCT04577781|164565823|SUPERIORITY||Least Squares (LS) Mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.353||0.885|TWO_SIDED|90.0|-0.66|0.55||Mixed model repeated measure (MMRM) with treatment-by-visit interaction and baseline-by-visit interaction as fixed effects (with an unstructured variance-covariance matrix).|MMRM|||||0.55|-0.66|0.885
82429323|NCT00587041|164565872|SUPERIORITY_OR_OTHER|||||||0.3|||||||Kruskal-Wallis|||80% power for 0.66 DG difference from placebo. The reported value is the overall p-value for CaOx supersaturation by Kruskal-Wallis test of equal change across all three groups, no pair-wise comparison.||||0.3
82429324|NCT00587041|164565872|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||t-test, 1 sided|||Ranked sum T-test for placebo group CaOx SS comparison between 0 and 6 weeks||||0.045
82429325|NCT00587041|164565872|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||t-test, 1 sided|||Ranked sum T-test for AKSB group CaOX SS comparison between 0 and 6 weeks||||0.67
82429326|NCT00587041|164565872|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 1 sided|||Ranked-sum T-Test for Oxadrop group CaOX SS comparison between 0 and 6 weeks||||0.30
82429327|NCT02271529|164565897|NON_INFERIORITY_OR_EQUIVALENCE|Under the assumption that the mean percent change in stent length upon deployment being 0.2% with a standard deviation of 4%, type I error of 0.05, and two one-sided t-tests, a sample size of at least 30 stents provides power \> 0.90 to determine that the mean length change of stents deployed with the thumbwheel delivery system is within +/-10%.|Mean percent change|-1.0|||<|0.01|TWO_SIDED|95.0|-1.5|-0.4|||two one-sided t-tests|||||-0.4|-1.5|<0.01
82429328|NCT01957865|164565908|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Linear and Poisson regressions|||In an intention-to-treat analysis, percentage doses taken each month were compared by linear generalized estimating equations (GEEs); more than 48-h and more than 96-h lapses in dosingwere compared by Poisson GEE regression.||||<0.05
82429329|NCT01957865|164565909|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher's exact test|||HIV RNA suppression (\<100 copies/ml) was compared among study arms by Fisher's exact test.||||<0.05
82429330|NCT00811720|164565914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|0.75||0.002|TWO_SIDED|95.0|-3.81|-0.85|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 213 participants in the placebo group and 152 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-0.85|-3.81|0.002
82536287|NCT01140347|164771383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.625|||<|0.0001|TWO_SIDED|95.0|0.522|0.75|||Log Rank||HR with 95% CI was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors (geographical regions and etiology of liver disease).|||0.750|0.522|<0.0001
82652171|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.071||||0.6758|TWO_SIDED|95.0|-0.406|0.263||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.263|-0.406|0.6758
82429331|NCT00811720|164565915|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.96|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-16.81|-5.11|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 213 participants in the placebo group and 152 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-5.11|-16.81|<0.001
82429332|NCT00811720|164565916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.039|TWO_SIDED|95.0|0.5|0.98|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values imputed as non-response.||0.98|0.50|0.039
82429333|NCT00811720|164565917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.16|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 210 participants in the placebo group and 152 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.16|-0.57|<0.001
82429334|NCT00811720|164565918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.15|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 210 participants in the placebo group and 152 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.15|-0.53|<0.001
82429335|NCT00811720|164565919|SUPERIORITY_OR_OTHER||Ratio to placebo|0.88||||0.009|TWO_SIDED|95.0|0.8|0.97|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 211 participants in the placebo group and 158 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.97|0.80|0.009
82450880|NCT02967510|164608309|SUPERIORITY||Median Difference (Final Values)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82450881|NCT02967510|164608309|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82536288|NCT01140347|164771384|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) adjusted for geographic region and etiology liver disease||||||<0.0001
82536289|NCT01140347|164771385|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.593|||<|0.0001|TWO_SIDED|95.0|0.487|0.722|||Log Rank||HR with 95% CI was estimated using a stratified Cox proportional hazards regression model using the IWRS stratification factors (geographical regions and etiology of liver disease).|||0.722|0.487|<0.0001
82536290|NCT00901485|164771393|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To test for non-inferiority, a sample size of 36 (18 patients completing both arms of the crossover) was calculated to provide 80% power to detect a 2.5% drop in the primary outcome, mean overnight oxygen saturation (SpO2), with a SD of 3% at a significance level of 0.05|Median Difference (Final Values)|0.4||||0.13|TWO_SIDED|95.0|-0.2|1.0||a priori threshold for significance p\<0.05|Wilcoxon (Mann-Whitney)|||"We tested the hypothesis that iVAPS can ventilate a patient naive to NIV at least as effectively as standard PS.~Sleep and breathing parameters at the end of each treatment period were compared using Wilcoxon Signed Rank test. The median difference between treatments with 95% confidence intervals was then compared by related-samples Hodges-Lehman test"||1.0|-0.2|0.13
82536291|NCT00901485|164771394|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|PtcCO2 is compared as a secondary outcome resulting in CO2 elimination similar to that of standard PS ventilation (median difference (95% CI) of -0.04(- 0.03 to 0.4)kPa in mean overnight PtcCO2).|Median Difference (Final Values)|0.0||||0.54|TWO_SIDED|95.0|-0.3|0.4|||Wilcoxon (Mann-Whitney)|||Hypothesis: that we tested the hypothesis that iVAPS, with automated selection of ventilator settings, was non-inferior to standard pressure support (PS) ventilation, with settings determined by an experienced healthcare professional, for controlling nocturnal hypoventilation in patients naïve to NIV.||0.4|-0.3|0.54
82536292|NCT00901485|164771395|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)|||||0.5|-0.5|0.94
82536293|NCT00901485|164771396|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-1.0||||0.42|TWO_SIDED|95.0|-2.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-2|0.42
82450882|NCT02967510|164608310|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|<0.001
82429336|NCT00811720|164565920|SUPERIORITY_OR_OTHER||Ratio to placebo|0.9||||0.011|TWO_SIDED|95.0|0.84|0.98|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 209 participants in the placebo group and 158 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||0.98|0.84|0.011
82648462|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.8|-1.7||Month 1|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.7|-2.8|<0.001
82429337|NCT00527618|164565939|SUPERIORITY_OR_OTHER||Slope|-0.27|||<|0.001|TWO_SIDED|95.0|-0.41|-0.14|||Mixed Models Analysis|Adjusted for baseline plasma HIV-1 RNA.|Acyclovir was coded as 0 and valacyclovir as 1. The beta-coefficient (slope) indicates the average difference in HIV-1 RNA on valacyclovir and acyclovir; a negative number indicates that plasma HIV-1 RNA was lower on valacyclovir than acyclovir.|We estimated that a sample size of 29 participants, with 4 weeks of weekly plasma HIV-1 RNA levels per treatment arm, would be required to detect a 0.25 log10 copies/ml difference in plasma HIV-1 RNA between the study arms with 80% power, at a two-sided type I error rate of 5%.||-0.14|-0.41|<0.001
82429338|NCT00527618|164565940|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95||||0.78|TWO_SIDED|95.0|0.66|1.37|||Random effects poission regression|Adjusted for age.||We estimated that 26 participants would be required to detect a 50% reduction in genital HSV shedding with 80% power, at a two-sided type I error rate of 5%.||1.37|0.66|0.78
82429339|NCT00527618|164565941|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82429340|NCT00527618|164565942|SUPERIORITY_OR_OTHER|||||||0.67|||||||Mixed Models Analysis|||||||0.67
82429341|NCT01490918|164565944|SUPERIORITY|||||||0.0036||||||The threshold for statistical significance was p=0.05|ANCOVA|Baselin HbA1c as covariate||primary outcome efficacy will be evaluated between group 1(placebo + metfromin + sitagliptin) and 2 (sitagliptine + metformin + acarbose)||||0.0036
82429342|NCT01490918|164565945|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p=0.05|ANCOVA|Baseline HbA1c as covariate||||||<0.0001
82429343|NCT01490918|164565946|SUPERIORITY|||||||0.0185||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline PPG2hr as covariate||||||0.0185
82429344|NCT01490918|164565947|SUPERIORITY|||||||0.0356||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.0356
82429345|NCT01490918|164565948|SUPERIORITY|||||||0.8258||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.8258
82429346|NCT01490918|164565949|SUPERIORITY|||||||0.9217||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.9217
82429347|NCT01490918|164565950|SUPERIORITY|||||||0.16||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.16
82429348|NCT01490918|164565951|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.004
82429349|NCT01490918|164565952|SUPERIORITY|||||||0.292||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.292
82429350|NCT01490918|164565953|SUPERIORITY|||||||0.314||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.314
82429351|NCT01490918|164565954|SUPERIORITY|||||||0.7563||||||The threshold for statistical significance was p=0.05|ANCOVA|baseline data as covariate||||||0.7563
82429352|NCT02967679|164565960|OTHER||Mean Difference (Net)|1.67|STANDARD_DEVIATION|11.45||0.7615|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7615
82429353|NCT02967679|164565961|OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|8.89||0.5995|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5995
82429354|NCT02967679|164565962|OTHER||Mean Difference (Net)|4.8|STANDARD_DEVIATION|8.4||0.1641|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1641
82429355|NCT02967679|164565963|OTHER||Mean Difference (Net)|8.5|STANDARD_DEVIATION|16.5||0.0353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0353
82429356|NCT02967679|164565964|OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.4||0.2642|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2642
82429357|NCT02967679|164565965|OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.2||0.1777|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1777
82429358|NCT02967679|164565966|OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|8.2||0.0371|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0371
82429359|NCT02967679|164565967|OTHER||Mean Difference (Net)|-2.2|STANDARD_DEVIATION|2.9||0.0142|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0142
82429360|NCT02967679|164565969|OTHER||Mean Difference (Net)|0.111|STANDARD_DEVIATION|0.201||0.1055|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1055
82429361|NCT02967679|164565970|OTHER||Mean Difference (Net)|9.84|STANDARD_DEVIATION|28.16||0.213|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2130
82429362|NCT02967679|164565971|OTHER||Mean Difference (Net)|0.068|STANDARD_DEVIATION|0.112||0.0393|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0393
82429363|NCT02967679|164565972|OTHER||Mean Difference (Net)|-5.905|STANDARD_DEVIATION|6.283||0.0004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0004
82429364|NCT02967679|164565973|OTHER||Mean Difference (Net)|-4.28|STANDARD_DEVIATION|32.21||0.3303|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3303
82429365|NCT02967679|164565974|OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.092||0.9229|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.9229
82429366|NCT00114127|164565981|SUPERIORITY_OR_OTHER||||||<|0.132||95.0|||||t-test, 2 sided|||||||<0.132
82429367|NCT00114127|164565982|SUPERIORITY_OR_OTHER||||||<|0.292||95.0|||||t-test, 2 sided|||||||<.292
82429368|NCT03188263|164565983|OTHER|The primary planned analysis was in bright light group only and compared pre-post measurements.||||||0.046||||||A threshold of .05 was selected a priori.|Sign test|A Wilcoxon matched-pairs signed-ranks test was estimated to determine if pre-post measures of glucose levels differed significantly.||The primary planned analyses was to examine effect in bright light group. A significance level of .05 was selected a priori.||||.046
82536294|NCT00901485|164771397|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.0||||0.82||95.0|-8.0|4.0|||Wilcoxon (Mann-Whitney)|||||4|-8|0.82
82577214|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.161||0.817|TWO_SIDED|95.0|-0.36|0.28|||MMRM|||Agitation, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.36|0.8170
82648463|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.7|-1.5||Month 3|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.5|-2.7|<0.001
82450883|NCT02967510|164608310|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.054|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|=0.054
82450884|NCT02967510|164608310|SUPERIORITY||Median Difference (Final Values)|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|0|<0.001
82536295|NCT00901485|164771398|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|1.04||||0.0004|TWO_SIDED|95.0|0.27|1.44|||Wilcoxon (Mann-Whitney)|||||1.44|0.27|0.0004
82536296|NCT00901485|164771399|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Mean Difference (Net)|-0.2||||0.5|TWO_SIDED|95.0|-1.2|0.5|||Wilcoxon (Mann-Whitney)|||||0.5|-1.2|0.5
82536297|NCT00901485|164771400|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-2.2||||0.001|TWO_SIDED|95.0|-4.5|0.3|||Wilcoxon (Mann-Whitney)|||||0.3|-4.5|0.001
82536298|NCT00901485|164771401|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-10.0||||0.47|TWO_SIDED|95.0|-54.0|23.0|||Wilcoxon (Mann-Whitney)|||||23|-54|0.47
82536299|NCT00901485|164771402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|0.3||||0.41|TWO_SIDED|95.0|-0.7|2.2|||Wilcoxon (Mann-Whitney)|||||2.2|-0.7|0.41
82536300|NCT00901485|164771403|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|4.0||||0.36|TWO_SIDED|95.0|-5.0|12.0|||Wilcoxon (Mann-Whitney)|||||12|-5|0.36
82536301|NCT00901485|164771404|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|2.0||||0.59|TWO_SIDED|95.0|-5.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-5|0.59
82536302|NCT00901485|164771405|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|2.0||||0.59|TWO_SIDED|95.0|-5.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-5|0.59
82536303|NCT00901485|164771406|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a secondary outcome|Median Difference (Net)|-1.0||||0.72|TWO_SIDED|95.0|-9.0|5.0|||Wilcoxon (Mann-Whitney)|||||5|-9|0.72
82536304|NCT00886613|164771522|SUPERIORITY_OR_OTHER||kappa coefficient of agreement|0.85||||0.564|TWO_SIDED|90.0|0.72|0.99|||McNemar||The significance of the difference between the proportion of subjects with a positive skin test at 48 hours and the proportion of subjects with a positive skin test at 72 hours|||0.99|0.72|0.564
82536305|NCT00886613|164771524|SUPERIORITY_OR_OTHER||Difference in proportions|0.06||||0.343|TWO_SIDED|90.0|-0.17|0.28|||Chi-squared||Statistical analysis for dose 2|||0.28|-0.17|0.343
82536306|NCT01996644|164771527|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||ANOVA|||||||.043
82536307|NCT05349864|164771540|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals (CIs) were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|120.25|||||TWO_SIDED|90.0|109.76|131.75||||||||131.75|109.76|
82536308|NCT05349864|164771541|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|116.22|||||TWO_SIDED|90.0|97.91|137.95||||||||137.95|97.91|
82536309|NCT05349864|164771542|EQUIVALENCE|Using data from Treatment A and Treatment B, natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|206.91|||||TWO_SIDED|90.0|171.14|250.15||||||||250.15|171.14|
82577215|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.155||0.0404|TWO_SIDED|95.0|-0.63|-0.01|||MMRM|||Agitation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.63|0.0404
82648464|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.1|-0.9||Month 6|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-0.9|-2.1|<0.001
82450885|NCT02967510|164608311|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.008|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.008
82450886|NCT02967510|164608311|SUPERIORITY||Median Difference (Final Values)|-1.0|||=|0.01|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.01
82450887|NCT02967510|164608311|SUPERIORITY||Median Difference (Final Values)|0.0|||=|0.001|TWO_SIDED|95.0|-1.0|0.0||Hodges-Lehmann estimate (HLE) of median difference between treatments was calculated. Medians were not calculated per SAP as might cause confusion since the HLE of treatment difference is not identical to the difference between 2 treatment medians|Wilcoxon rank-sum test||Hodges-Lehmann estimate of location shift and corresponding asymptotic Confidence Interval|||0|-1|=0.001
82429369|NCT03188263|164565984|OTHER|The primary planned analysis was in bright light group only and compared pre-post measurements.||||||0.35||||||A threshold of .05 was selected a priori.|Sign test|A Wilcoxon matched-pairs signed-ranks test was estimated to determine if pre-post measures of glucose levels differed significantly.||The primary planned analyses was to examine effect in bright light group. A significance level of .05 was selected a priori.||||.35
82429370|NCT00881894|164565985|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9864||||||90.0|0.9103|1.0688|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0688|0.9103|
82429371|NCT00881894|164565986|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9584||||||90.0|0.8861|1.0367|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0367|0.8861|
82429372|NCT00881894|164565987|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% Confidence Interval for the ratio of geometric LS- Means is included within 0.8- 1.25, the patches are considered bioequivalent.|ratio of geometric LS- Means|0.9896||||||90.0|0.9179|1.0671|||ANOVA|ANOVA for log- transformed values has been used as the basis for calculation of point estimates (LS- Means) and Confidence Intervals (CIs).||Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0671|0.9179|
82429373|NCT01628523|164566005|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
82429374|NCT00363311|164566013|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.56||||0.009||95.0|0.36|0.87||Statistical data are for Year 1.5|Log Rank|||||0.87|0.36|0.009
82429375|NCT00363311|164566013|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.61||||0.007||95.0|0.43|0.88||Statistical data are for Overall (Years 0-3)|Log Rank|||||0.88|0.43|0.007
82429376|NCT00363311|164566014|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.46||||0.13||95.0|0.16|1.31||Statistical data are for Year 1.5|Log Rank|||||1.31|0.16|0.13
82429377|NCT00363311|164566014|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.48||||0.053||95.0|0.22|1.03||Statistical data are for Overall (Years 0-3)|Log Rank|||||1.03|0.22|0.053
82429378|NCT00363311|164566015|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.59||||0.031||95.0|0.36|0.96||Statistical data are for Year 1.5|Log Rank|||||0.96|0.36|0.031
82429379|NCT00363311|164566015|SUPERIORITY_OR_OTHER||Relative Risk Estimate|0.7||||0.079||95.0|0.46|1.05||Statistical data are for Overall (Years 0-3)|Log Rank|||||1.05|0.46|0.079
82429380|NCT00363311|164566016|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Fisher Exact|||||||0.65
82429381|NCT00363311|164566017|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Fisher Exact|||||||0.024
82429382|NCT00363311|164566024|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.20
82429383|NCT00363311|164566025|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.039
82429384|NCT00363311|164566027|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.80
82429385|NCT00363311|164566028|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Fisher Exact|||||||0.12
82429386|NCT02358993|164566061|NON_INFERIORITY|Non-inferiority of the primary outcome was achieved if the lower limit of the 95% confidence interval of the mean difference was greater than the specified non-inferiority margin of 15%(a clinically relevant margin within the range of those commonly used in non-inferiority and equivalence trials for studies examining antibiotic use for UTI)|Risk Ratio (RR)|-0.01|||||TWO_SIDED|95.0||||||||||||
82429387|NCT00959907|164566072|SUPERIORITY_OR_OTHER|||||||0.832||95.0|||||t-test, 2 sided|||||||0.832
82429388|NCT00959907|164566073|SUPERIORITY_OR_OTHER|||||||0.658||95.0|||||t-test, 2 sided|||||||0.658
82429389|NCT00959907|164566073|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||t-test, 2 sided|||||||0.739
82429390|NCT00959907|164566074|SUPERIORITY_OR_OTHER|||||||0.184||95.0|||||t-test, 2 sided|||||||0.184
82450888|NCT02967510|164608312|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.071|-0.548|||ANCOVA|||||-0.548|-1.071|<0.001
82450889|NCT02967510|164608312|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-1.013|-0.484|||ANCOVA|||||-0.484|-1.013|<0.001
82450890|NCT02967510|164608312|SUPERIORITY||LS Mean Difference|-0.66|||<|0.001|TWO_SIDED|95.0|-0.916|-0.397|||ANCOVA|||||-0.397|-0.916|<0.001
82450891|NCT02967510|164608313|SUPERIORITY||LS Mean Difference|0.44|||<|0.001|TWO_SIDED|95.0|0.337|0.535|||ANCOVA|||||0.535|0.337|<0.001
82450892|NCT02967510|164608313|SUPERIORITY||LS Mean Difference|0.39|||<|0.001|TWO_SIDED|95.0|0.291|0.494|||ANCOVA|||||0.494|0.291|<0.001
82450893|NCT02967510|164608313|SUPERIORITY||LS Mean Difference|0.34|||<|0.001|TWO_SIDED|95.0|0.245|0.439|||ANCOVA|||||0.439|0.245|<0.001
82450894|NCT02967510|164608314|SUPERIORITY||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.575|-0.371|||ANCOVA|||||-0.371|-0.575|<0.001
82450895|NCT02967510|164608314|SUPERIORITY||LS Mean Difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.592|-0.383|||ANCOVA|||||-0.383|-0.592|<0.001
82450896|NCT02967510|164608314|SUPERIORITY||LS Mean Difference|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3|||ANCOVA|||||-0.3|-0.5|<0.001
82450897|NCT05274269|164608323|SUPERIORITY||LS Mean difference|9.2|||<|0.0001|TWO_SIDED|95.0|7.2|11.3|||Mixed Models for Repeated Measures|||||11.3|7.2|< 0.0001
82450898|NCT05274269|164608324|SUPERIORITY||LS Mean difference|-28.3|||<|0.0001|TWO_SIDED|95.0|-32.1|-24.5|||Mixed Models for Repeated Measures|||||-24.5|-32.1|< 0.0001
82450899|NCT05274269|164608325|SUPERIORITY||LS Mean difference|19.5|||<|0.0001|TWO_SIDED|95.0|15.5|23.5|||Mixed Models for Repeated Measures|||||23.5|15.5|< 0.0001
82450900|NCT05274269|164608326|SUPERIORITY||LS Mean difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.24|0.69|||Mixed Models for Repeated Measures|||||0.69|0.24|< 0.0001
82450901|NCT05274269|164608327|SUPERIORITY||LS Mean difference|1.3|||<|0.0001|TWO_SIDED|95.0|0.6|1.9|||Mixed Models for Repeated Measures|||||1.9|0.6|< 0.0001
82450902|NCT02206035|164608331|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Comparison at Baseline||||0.95
82450903|NCT02206035|164608331|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|||Comparison at Day 28||||0.26
82577216|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.151||0.3128|TWO_SIDED|95.0|-0.45|0.15|||MMRM|||Agitation, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.45|0.3128
82450904|NCT02206035|164608331|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Comparison at Day 100||||0.63
82450905|NCT02206035|164608331|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Comparison at Day 180||||0.76
82450906|NCT02206035|164608332|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Comparison at Baseline||||0.99
82450907|NCT02206035|164608332|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Comparison at Day 28||||0.48
82450908|NCT02206035|164608332|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
82450909|NCT02206035|164608332|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Comparison at Day 180||||0.96
82450910|NCT02206035|164608333|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Comparison at Baseline||||<0.001
82450911|NCT02206035|164608333|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Comparison at Day 28||||0.75
82450912|NCT02206035|164608333|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Comparison at Day 100||||0.28
82450913|NCT02206035|164608333|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Comparison at Day 180||||0.82
82450914|NCT02206035|164608334|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||Comparison at Baseline||||0.54
82450915|NCT02206035|164608334|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||Comparison at Day 28||||0.61
82450916|NCT02206035|164608334|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Comparison at Day 100||||0.42
82450917|NCT02206035|164608334|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||Comparison at Day 180||||0.38
82450918|NCT02206035|164608335|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Comparison at Baseline||||0.10
82450919|NCT02206035|164608335|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Comparison at Day 28||||0.32
82450920|NCT02206035|164608335|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||Comparison at Day 100||||0.63
82450921|NCT02206035|164608335|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||Comparison at Day 180||||0.30
82450922|NCT02936843|164608338|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|2-sided||TTEST, two sided||||0.41
82450923|NCT03668613|164608357|SUPERIORITY||Predicted Log-OR|4.862|||||TWO_SIDED|95.0|3.422|6.782|||Bayesian method using (MAP)|||Compared to historical placebo||6.782|3.422|
82450924|NCT03668613|164608357|SUPERIORITY||Predicted log-OR|4.836|||||TWO_SIDED|95.0|3.422|6.772|||Bayesian method using (MAP)|||Compared to historical placebo||6.772|3.422|
82450925|NCT03668613|164608358|SUPERIORITY||Predicted log -OR|4.292|||||TWO_SIDED|95.0|2.638|6.513|||Bayesian method using (MAP)|||Compared to historical placebo||6.513|2.638|
82450926|NCT03668613|164608358|SUPERIORITY||Predicted log-OR|4.606|||||TWO_SIDED|95.0|2.919|6.78|||Bayesian method using (MAP)|||Compared to historical placebo||6.780|2.919|
82450927|NCT03668613|164608359|SUPERIORITY||Predicted log-OR|4.367|||||TWO_SIDED|95.0|2.916|6.202|||Bayesian method using (MAP)|||||6.202|2.916|
82450928|NCT03668613|164608359|SUPERIORITY||Predicted log-OR|4.709|||||TWO_SIDED|95.0|3.201|6.58|||Bayesian method using (MAP)|||||6.580|3.201|
82450929|NCT00709618|164608367|SUPERIORITY_OR_OTHER||percentage of participants|41.0|||||TWO_SIDED|95.0|26.4|55.4|||||The estimated value respresents the percentage of participants with a complete response or a partial response.|||55.4|26.4|
82450930|NCT04042909|164608374|SUPERIORITY||beta coefficient|-0.309|STANDARD_ERROR_OF_MEAN|0.69||0.646|TWO_SIDED|95.0|-1.632|1.013||This is the p-value of the CAA vs AO factor in the model.|Regression, Linear|We used linear regression, controlling for baseline value of outcome and sex, to determine change in the outcome as a function of condition.||Our main hypothesis is that, relative to Assessment-Only control, the Counter Attitudinal Advocacy intervention will decrease alcohol consumption (drinks per week) from baseline to 6-months.||1.013|-1.632|.646
82450931|NCT04042909|164608375|SUPERIORITY||beta coefficient|-1.9|STANDARD_ERROR_OF_MEAN|0.77||0.014|TWO_SIDED|95.0|-3.41|-0.39|||Regression, Linear|We used regression, controlling for baseline value of outcome and sex, to determine pre-post change in the outcome as a function of condition.||Our main hypothesis is that, relative to Assessment-Only control, the Counter Attitudinal Advocacy intervention will decrease alcohol problems from baseline to 6-months.||-0.39|-3.41|.014
82450932|NCT02920749|164608381|SUPERIORITY_OR_OTHER||||||<|0.05||||||The P value less than 0.05 was considered to be significant. With type I α = 5% and with type II (power) of 90%, we therefore needed 27 patients/group.|ANOVA|||Statistical analysis was carried out with SPSS version 21 for Windows (IBM Corporation) software. All data are expressed as means ± SD. Mann-Whitney test was performed to assess the differences between patient subgroups.||||<0.05
82450933|NCT02920749|164608382|SUPERIORITY_OR_OTHER||||||<|0.05||||||The P value less than 0.05 was considered to be significant. With type I α = 5% and with type II (power) of 90%, we therefore needed 27 patients/group.|ANOVA|||Statistical analysis was carried out with SPSS version 21 for Windows (IBM Corporation) software. All data are expressed as means ± SD. Mann-Whitney test was performed to assess the differences between patient subgroups.||||<0.05
82450934|NCT00286494|164608383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.67|-0.28||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment, treatment regimen and geographic region as class variables; baseline pioglitazone dose and baseline value for the endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.28|-0.67|<0.001
82450935|NCT00286494|164608383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|||<|0.001|TWO_SIDED|95.0|-0.8|-0.41||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment, treatment regimen and geographic region as class variables; baseline pioglitazone dose and baseline value for the endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per protocol criteria.||-0.41|-0.80|<0.001
82450936|NCT00286494|164608384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.36|-0.16||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.16|-0.36|<0.001
82450937|NCT00286494|164608384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|||<|0.001|TWO_SIDED|95.0|-0.41|-0.21||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.21|-0.41|<0.001
82450938|NCT00286494|164608385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.56|-0.27||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.27|-0.56|<0.001
82536310|NCT05349864|164771543|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed AUClast was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|135.77|||||TWO_SIDED|90.0|114.36|161.19||||||||161.19|114.36|
82536311|NCT05349864|164771544|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed AUCinf was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|138.36|||||TWO_SIDED|90.0|106.11|180.41||||||||180.41|106.11|
82450939|NCT00286494|164608385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.69|-0.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.40|-0.69|<0.001
82450940|NCT00286494|164608386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|||<|0.001|TWO_SIDED|95.0|-0.63|-0.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.30|-0.63|<0.001
82450941|NCT00286494|164608386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.75|-0.43||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.43|-0.75|<0.001
82536312|NCT05349864|164771545|EQUIVALENCE|Using data from Treatment A and Treatment C, natural log transformed Cmax was analyzed using a mixed effect model with treatment and sequence as a fixed effect and participant within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model, and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CI for the ratios.|ratio of adjusted geometric means|236.58|||||TWO_SIDED|90.0|190.12|294.38||||||||294.38|190.12|
82429391|NCT03958331|164566075|SUPERIORITY||Mean Difference (Final Values)|10.62|STANDARD_ERROR_OF_MEAN|3.38||0.002|TWO_SIDED|95.0|4.0|17.25|||ANCOVA|Model controlled for baseline adherence, resistance to peer influence, dose, active seizures, COVID timing, COVID Impact (3 items), and sex|||We also conducted a longitudinal mixed effects model for adherence over time, estimating a groupXtime interaction with the same covariates listed above and allowing for a non-linear effect.|17.25|4|0.002
82429392|NCT04021290|164566118|NON_INFERIORITY|Non-inferiority was be concluded if the upper bound of the two-sided 95% confidence interval (CI) for the CMH adjusted difference in the proportion of patients with plasma HIV-1 RNA ≥ 50 c/mL between each treatment group (DTG/3TC - CAR) is less than 5%.|Adjusted Difference in Percent (ADP)|-0.8|||||TWO_SIDED|95.0|-2.4|0.8|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (protease inhibitor \[PI\], non-nucleoside reverse transcriptase inhibitor \[NNRTI\], and integrase inhibitor \[INI\]).|||0.8|-2.4|
82429393|NCT04021290|164566119|NON_INFERIORITY|Non-inferiority will be concluded if the lower bound of a 2-sided 95% confidence interval for the difference in success rates between the two treatment arms (DTG/3TC-CAR) is greater than -12%.|Adjusted Difference in Percent|1.6|||||TWO_SIDED|95.0|-2.8|5.9|||||ADP was based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factor:Baseline third agent (PI, NNRTI, and INI).|||5.9|-2.8|
82429394|NCT04021290|164566140|OTHER||Adjusted Mean|1.4|||<|0.001|TWO_SIDED|95.0|0.7|2.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||2.2|0.7|<0.001
82429395|NCT04021290|164566141|OTHER||Adjusted Mean|1.4|||<|0.001|TWO_SIDED|95.0|0.7|2.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||2.2|0.7|<0.001
82429396|NCT04021290|164566142|OTHER||Adjusted Mean|-1.6||||0.021|TWO_SIDED|95.0|-2.9|-0.2|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||-0.2|-2.9|0.021
82429397|NCT04021290|164566143|OTHER||Adjusted Mean|-0.5||||0.398|TWO_SIDED|95.0|-1.8|0.7|||Mixed Model Repeated Measures||MMRM adjusted for following: Treatment, Visit, Baseline Third Agent Class, Age (continuous), Sex, Race, Baseline Value (continuous), Treatment by Visit interaction, Baseline Value by Visit interaction, with Visit as the repeated factor.|||0.7|-1.8|0.398
82577217|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.162||0.24|TWO_SIDED|95.0|-0.51|0.13|||MMRM|||Agitation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.51|0.2400
82429398|NCT01174563|164566145|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.005|TWO_SIDED|95.0|0.41|0.83|||Log Rank|||||0.83|0.41|0.005
82429399|NCT03848455|164566162|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of PPP2CA gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
82429400|NCT03848455|164566162|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of SYNJ1 gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
82429401|NCT03848455|164566162|OTHER|||||||0.149|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of PPP3CB gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||0.149
82429402|NCT03848455|164566162|OTHER||||||<|0.001|||||||Kruskal-Wallis|||we use the method of RT-PCR to detect the relative expression level of NSF gene in Parkinson's disease group(90 participants), healthy controls group(125 participants) and Parkinson-plus syndrome group(23 participants).This gene expression is relative to a house keeping gene GAPDH.The data were processed using 2-△△Ct. ΔCT(test) = CT(target, test) - CT(ref, test), ΔCT(calibrator) = CT(target, calibrator) - CT(ref, calibrator),ΔΔCT = ΔCT(test) - ΔCT(calibrator).||||<0.001
82429403|NCT01088906|164566165|SUPERIORITY||Odds Ratio (OR)|34.0||||0.05|TWO_SIDED||||||Regression, Logistic|||||||0.05
82429404|NCT00887159|164566177|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98||||0.45|TWO_SIDED|95.0|0.65|1.47||P-value is one-sided.|Regression, Cox||The hazard ratio was derived comparing Arm B to Arm A.|There are 2 primary comparisons and each involves comparing the experimental arms (B, C) to the control arm (A). Accrual goal was 54 patients per arm. With a 1-sided 0.1 level logrank test for each test, we have 90% power to detect a 42% reduction in the PFS hazard rate of 0.139 to 0.082 (corresponding to an improvement in median PFS of 5 months to 8.5 months) with 18-month accrual and 12-month follow-up; assuming exponential survival. For each test, 94 events are needed to achieve this power.||1.47|0.65|0.45
82450942|NCT00286494|164608387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|||<|0.001|TWO_SIDED|95.0|-0.63|-0.26||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.26|-0.63|<0.001
82450943|NCT00286494|164608387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.76|-0.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.40|-0.76|<0.001
82450944|NCT00286494|164608388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.001|TWO_SIDED|95.0|-0.6|-0.22||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.22|-0.60|<0.001
82450945|NCT00286494|164608388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.74|-0.36||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.74|<0.001
82450946|NCT00286494|164608389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.4||||0.003|TWO_SIDED|95.0|-18.9|-3.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-3.9|-18.9|0.003
82450947|NCT00286494|164608389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-23.0|-8.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.0|-23.0|<0.001
82450948|NCT00286494|164608390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.2|||<|0.001|TWO_SIDED|95.0|-26.4|-11.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-11.9|-26.4|<0.001
82536313|NCT00984282|164771554|SUPERIORITY_OR_OTHER||||||<|0.0001||||||stratified by age group (\< 60 years, \>= 60 years) and region (Europe, North-America, Asia)|Log Rank|||The two treatment groups were compared using a stratified one-sided log rank test with an overall alpha of 0.01 stratified by age group and region. The null hypothesis that both treatment arms have the same PFS distribution will be tested against the alternative hypothesis that the distribution of PFS times in the sorafenib arm is different from the control arm according to the Lehmann alternative, which is equivalent to the assumption of proportional hazards of the treatment arms.||||<0.0001
82536314|NCT00984282|164771554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.587|||||TWO_SIDED|95.0|0.454|0.758|||Regression, Cox|stratified by age group and region||||0.758|0.454|
82450949|NCT00286494|164608390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.4|||<|0.001|TWO_SIDED|95.0|-26.6|-12.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.3|-26.6|<0.001
82450950|NCT00286494|164608391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.6|||<|0.001|TWO_SIDED|95.0|-27.5|-13.6||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.6|-27.5|<0.001
82450951|NCT00286494|164608391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.0|||<|0.001|TWO_SIDED|95.0|-29.9|-16.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-16.0|-29.9|<0.001
82450952|NCT00286494|164608392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.5|||<|0.001|TWO_SIDED|95.0|-24.4|-8.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.7|-24.4|<0.001
82450953|NCT00286494|164608392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.1|||<|0.001|TWO_SIDED|95.0|-28.9|-13.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-13.3|-28.9|<0.001
82536315|NCT00984282|164771555|SUPERIORITY_OR_OTHER|||||||0.2892|||||||Log Rank|stratified by age group and region||||||0.2892
82536316|NCT00984282|164771555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928|||||TWO_SIDED|95.0|0.713|1.208|||Regression, Cox|stratified by age group and region||||1.208|0.713|
82536317|NCT00984282|164771556|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|stratified by age group and region||||||<0.0001
82536318|NCT00984282|164771556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.557|||||TWO_SIDED|95.0|0.429|0.724|||Regression, Cox|stratified by age group and region||||0.724|0.429|
82536319|NCT00984282|164771557|SUPERIORITY_OR_OTHER||Difference of response rates|11.7||||0.0015|TWO_SIDED|95.0|3.9|19.4||stratified by age group and region|Cochran-Mantel-Haenszel||Difference of disease control rates sorafenib minus placebo. Cochran-Mantel-Haenszel confidence interval stratified by age group and region|||19.4|3.9|0.0015
82536320|NCT00984282|164771558|SUPERIORITY_OR_OTHER||Difference in response rate|11.8|||<|0.0001|TWO_SIDED|95.0|7.0|16.5||stratified by age group and region|Cochran-Mantel-Haenszel||Difference of response rates sorafenib minus placebo. Cochran-Mantel-Haenszel confidence interval stratified by age group and region|||16.5|7.0|<0.0001
82429405|NCT00887159|164566177|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.48|TWO_SIDED|95.0|0.66|1.48||P-value is one-sided.|Regression, Cox||Hazard ratio was derived comparing Arm C to Arm A.|There are 2 primary comparisons and each involves comparing the experimental arms (B, C) to the control arm (A). Accrual goal was 54 patients per arm. With a 1-sided 0.1 level logrank test for each test, we have 90% power to detect a 42% reduction in the PFS hazard rate of 0.139 to 0.082 (corresponding to an improvement in median PFS of 5 months to 8.5 months) with 18-month accrual and 12-month follow-up; assuming exponential survival. For each test, 94 events are needed to achieve this power.||1.48|0.66|0.48
82429406|NCT00887159|164566180|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.69||||0.01|TWO_SIDED|95.0|1.13|2.52|||Regression, Cox||Hazard ratio was derived comparing the high CTCs group to the low CTCs group.|||2.52|1.13|0.01
82429407|NCT03181971|164566186|SUPERIORITY||Odds Ratio (OR)|0.7||||0.68|TWO_SIDED|95.0|0.2|2.9|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||2.9|0.2|0.68
82429408|NCT03181971|164566186|SUPERIORITY||Odds Ratio (OR)|0.1||||0.017|TWO_SIDED|95.0|0.03|0.7|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months||0.7|0.03|0.017
82429409|NCT03181971|164566187|SUPERIORITY||Odds Ratio (OR)|0.4||||0.24|TWO_SIDED|95.0|0.07|2.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||2.0|0.07|.24
82429410|NCT03181971|164566187|SUPERIORITY||Odds Ratio (OR)|1.0||||0.98|TWO_SIDED|95.0|0.1|7.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||7.0|0.1|.98
82429411|NCT03181971|164566188|SUPERIORITY||Adjusted mean difference|0.2||||0.57|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||1.0|-0.6|0.57
82429412|NCT03181971|164566188|SUPERIORITY||Adjusted mean difference|-0.5||||0.4|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.6|-1.5|.40
82429413|NCT03181971|164566189|SUPERIORITY||Adjusted mean difference|0.04||||0.46|TWO_SIDED|95.0|-0.06|0.1|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||0.1|-0.06|.46
82429414|NCT03181971|164566189|SUPERIORITY||Adjusted mean difference|-0.02||||0.8|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.1|-0.2|.80
82429415|NCT03181971|164566190|SUPERIORITY||Adjusted mean difference|0.001||||0.93|TWO_SIDED|95.0|-0.03|0.03|||Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||0.03|-0.03|.93
82450954|NCT00286494|164608393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.011|TWO_SIDED|95.0|-18.5|-2.4||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.4|-18.5|0.011
82429416|NCT03181971|164566190|SUPERIORITY||Adjusted mean difference|-0.02||||0.36|TWO_SIDED|95.0|-0.06|0.02|||Mixed Models Analysis|||Analysis of between group change from baseline to 15 months.||0.02|-0.06|.36
82429417|NCT03181971|164566191|SUPERIORITY||Percent difference in change|1.4||||0.7|TWO_SIDED|95.0|-5.3|8.5||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change in total kcal intake from baseline to 7 months.||8.5|-5.3|0.70
82429418|NCT03181971|164566191|SUPERIORITY||Percent difference in change|3.7||||0.35|TWO_SIDED|95.0|-3.9|12.0||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change in intake of food kcal from baseline to 7 months.||12.0|-3.9|.35
82429419|NCT03181971|164566191|SUPERIORITY||Percent difference in change|-10.6||||0.35|TWO_SIDED|95.0|-29.2|8.8|||Mixed Models Analysis|||Analysis of between group change in intake of beverage kcal from baseline to 7 months.||8.8|-29.2|.35
82429420|NCT03181971|164566191|SUPERIORITY||Percent difference in change|-17.5||||0.18|TWO_SIDED|95.0|-37.8|9.6|||Mixed Models Analysis|||Analysis of between group change in SSB kcal from baseline to 7 months.||9.6|-37.8|.18
82429421|NCT03181971|164566192|SUPERIORITY||Percent difference in change|9.1||||0.59|TWO_SIDED|95.0|-20.6|49.9||Because of skewed distributions, dietary outcomes were log-transformed and regression coefficients were exponentiated to derive the percent change in outcomes by intervention status over time.|Mixed Models Analysis|||Analysis of between group change from baseline to 7 months.||49.9|-20.6|.59
82429422|NCT03181971|164566193|SUPERIORITY||Percent difference in change|23.2|||<|0.001|TWO_SIDED|95.0|13.1|34.2|||Mixed Models Analysis|||Analysis of between group change in water intake from baseline to 7 months.||34.2|13.1|<.001
82536321|NCT02359435|164771571|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.016|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82429423|NCT03181971|164566193|SUPERIORITY||Percent difference in change|14.7||||0.004|TWO_SIDED|95.0|4.5|25.9|||Mixed Models Analysis|||Analysis of between group change in water intake from baseline to 15 months.||25.9|4.5|.004
82429424|NCT03181971|164566193|SUPERIORITY||Percent difference in change|-8.0||||0.063|TWO_SIDED|95.0|-15.7|0.4|||Mixed Models Analysis|||Analysis of between group change in SSB intake from baseline to 7 months.||0.4|-15.7|0.063
82429425|NCT03181971|164566193|SUPERIORITY||Percent difference in change|-2.8||||0.56|TWO_SIDED|95.0|-11.7|6.9|||Mixed Models Analysis|||Analysis of between group change in SSB intake from baseline to 15 months.||6.9|-11.7|.56
82429426|NCT03181971|164566193|SUPERIORITY||Percent difference in change|1.2||||0.68|TWO_SIDED|95.0|-4.3|7.0|||Mixed Models Analysis|||Analysis of between group change in juice intake from baseline to 7 months.||7|-4.3|.68
82429427|NCT03181971|164566193|SUPERIORITY||Percent difference in change|-1.4||||0.66|TWO_SIDED|95.0|-7.4|5.0|||Mixed Models Analysis|||Analysis of between group change in juice intake from baseline to 15 months.||5|-7.4|.66
82429428|NCT03181971|164566193|SUPERIORITY||Percent difference in change|-4.0||||0.079|TWO_SIDED|95.0|-8.3|0.5|||Mixed Models Analysis|||Analysis of between group change in flavored milk intake from baseline to 7 months.||0.5|-8.3|0.079
82429429|NCT03181971|164566193|SUPERIORITY||Percent difference in change|-3.0||||0.26|TWO_SIDED|95.0|-8.0|2.3|||Mixed Models Analysis|||Analysis of between group change in flavored milk intake from baseline to 15 months.||2.3|-8.0|.26
82648465|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.2|-1.0||Month 9|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.2|<0.001
82429430|NCT03181971|164566193|SUPERIORITY||Percent difference in change|4.4||||0.2|TWO_SIDED|95.0|-2.2|11.5|||Mixed Models Analysis|||Analysis of between group change in plain milk intake from baseline to 7 months.||11.5|-2.2|.20
82450955|NCT00286494|164608393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|||<|0.001|TWO_SIDED|95.0|-24.3|-8.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.3|-24.3|<0.001
82429431|NCT03181971|164566193|SUPERIORITY||Percent difference in change|2.3||||0.51|TWO_SIDED|95.0|-4.4|9.6|||Mixed Models Analysis|||Analysis of between group change in plain milk intake from baseline to 15 months.||9.6|-4.4|.51
82429432|NCT03181971|164566194|SUPERIORITY||Percent difference in change|31.3|||<|0.001|TWO_SIDED|95.0|21.2|42.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at lunch from baseline to 7 months.||42.2|21.2|<.001
82429433|NCT03181971|164566194|SUPERIORITY||Percent difference in change|4.9||||0.22|TWO_SIDED|95.0|-3.0|13.5|||Mixed Models Analysis|||Analysis of between group change in water intake from water source during lunch from baseline to 15 months.||13.5|-3.0|.22
82429434|NCT03181971|164566194|SUPERIORITY||Percent difference in change|17.0||||0.02|TWO_SIDED|95.0|2.6|33.3|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at recess from baseline to 7 months.||33.3|2.6|.02
82429435|NCT03181971|164566194|SUPERIORITY||Percent difference in change|4.7||||0.48|TWO_SIDED|95.0|-8.0|19.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at recess from baseline to 15 months.||19.2|-8.0|.48
82429436|NCT03181971|164566194|SUPERIORITY||Percent difference in change|34.6||||0.14|TWO_SIDED|95.0|-9.4|99.8|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at PE from baseline to 7 months.||99.8|-9.4|.14
82429437|NCT03181971|164566194|SUPERIORITY||Percent difference in change|32.1||||0.16|TWO_SIDED|95.0|-11.0|96.2|||Mixed Models Analysis|||Analysis of between group change in water intake from water source at PE from baseline to 15 months.||96.2|-11.0|.16
82429438|NCT01815424|164566213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.52|||<|0.0001|TWO_SIDED|95.0|6.03|32.77||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||32.77|6.03|<0.0001
82429439|NCT01815424|164566213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.27|||<|0.0001|TWO_SIDED|95.0|2.46|11.86||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||11.86|2.46|<0.0001
82429440|NCT01815424|164566214|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|41.71|||<|0.0001|TWO_SIDED|95.0|14.84|151.11||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||151.11|14.84|<0.0001
82429441|NCT01815424|164566214|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.97|||<|0.0001|TWO_SIDED|95.0|4.06|25.17||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for tofacitinib 10 mg vs placebo at Week 16; PASI75 response for tofacitinib 10 mg vs placebo at Week 16; PGA response for tofacitinib 5 mg vs placebo at Week 16; PASI75 response for tofacitinib 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||25.17|4.06|<0.0001
82429442|NCT01815424|164566215|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-71.54|STANDARD_ERROR_OF_MEAN|8.461|<|0.0001|TWO_SIDED|95.0|-88.2|-54.87||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-54.87|-88.20|<0.0001
82648466|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-2.2|-1.0||Month 12|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.2|<0.001
82450956|NCT00286494|164608394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0||||0.029|TWO_SIDED|95.0|-18.9|-1.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.0|-18.9|0.029
82450957|NCT00286494|164608394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.4||||0.002|TWO_SIDED|95.0|-23.3|-5.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.5|-23.3|0.002
82450958|NCT00286494|164608395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.6|||<|0.001|TWO_SIDED|95.0|-24.2|-6.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.9|-24.2|<0.001
82450959|NCT00286494|164608395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-23.8|-6.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.7|-23.8|<0.001
82450960|NCT00286494|164608396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9||||0.003|TWO_SIDED|95.0|-23.1|-4.8||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-4.8|-23.1|0.003
82450961|NCT00286494|164608396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.1||||0.003|TWO_SIDED|95.0|-23.3|-5.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-5.0|-23.3|0.003
82536322|NCT01289119|164771580|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|||<|0.001|TWO_SIDED|95.0|-0.78|-0.37|||ANCOVA|ANCOVA model with treatment as a fixed effect, and baseline HbA1c as a covariate.||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.37|-0.78|<0.001
82536323|NCT01289119|164771580|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|||<|0.001|TWO_SIDED|95.0|-0.87|-0.51||ANCOVA model with treatment as a fixed effect, and baseline HbA1c with baseline metformin dose as covariates.|ANCOVA|||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.51|-0.87|<0.001
82648467|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.3|-1.0||Month 15|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.3|<0.001
82648468|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.35|<|0.001|TWO_SIDED|95.0|-2.4|-1.0||Month 18|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.0|-2.4|<0.001
82429443|NCT01815424|164566215|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-52.12|STANDARD_ERROR_OF_MEAN|8.416|<|0.0001|TWO_SIDED|95.0|-68.7|-35.55||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-35.55|-68.70|<0.0001
82450962|NCT00286494|164608397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.271|||<|0.001|TWO_SIDED|95.0|0.147|0.499||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen, \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.499|0.147|<0.001
82450963|NCT00286494|164608397|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.235|||<|0.001|TWO_SIDED|95.0|0.126|0.438||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen, \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.438|0.126|<0.001
82536324|NCT01289119|164771580|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.75|-0.28|||ANCOVA|ANCOVA model with treatment as a fixed effect, and baseline HbA1c with baseline metformin therapy status and baseline pioglitazone dose as covariates.||The analysis was conducted at the 2-sided 5% significance level without a multiplicity adjustment.||-0.28|-0.75|<0.001
82536325|NCT01704846|164771592|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.47|||||TWO_SIDED|90.0|95.9|105.25|||||Ratio calculated as Test product divided by reference product|||105.25|95.90|
82536326|NCT01704846|164771593|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|102.99|||||TWO_SIDED|90.0|95.57|110.98|||||Ratio calculated as Test product divided by reference product|||110.98|95.57|
82536327|NCT01704846|164771594|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.54|||||TWO_SIDED|90.0|96.1|105.18|||||Ratio calculated as Test product divided by reference product|||105.18|96.10|
82536328|NCT01704846|164771595|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the adjusted mean ratio was 80 to 125%.|Adjusted Mean Ratio (%)|97.66|||||TWO_SIDED|90.0|91.54|103.78|||||Ratio calculated as Test product divided by reference product|||103.78|91.54|
82536329|NCT01704846|164771596|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.34|||||TWO_SIDED|90.0|98.51|102.2|||||Ratio calculated as Test product divided by reference product|||102.20|98.51|
82536330|NCT01704846|164771597|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|99.66|||||TWO_SIDED|90.0|97.85|101.51|||||Ratio calculated as Test product divided by reference product|||101.51|97.85|
82536331|NCT01704846|164771598|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence between two different formulations of faldaprevir soft gelatine capsules in healthy male volunteers. The acceptance range for the geometric mean ratio was 80 to 125%.|Adjusted Geometric Mean Ratio (%)|100.2|||||TWO_SIDED|90.0|98.1|102.34|||||Ratio calculated as Test product divided by reference product|||102.34|98.10|
82536332|NCT00530335|164771618|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Total ADHD Symptoms Score (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82429444|NCT01815424|164566216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|70.31|||<|0.0001|TWO_SIDED|95.0|13.38|267.15||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||267.15|13.38|<0.0001
82429445|NCT01815424|164566216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|16.44|||<|0.0001|TWO_SIDED|95.0|4.31|79.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||79.62|4.31|<0.0001
82429446|NCT01815424|164566217|SUPERIORITY_OR_OTHER||Least square mean difference|-7.52|STANDARD_ERROR_OF_MEAN|0.913|<|0.0001|TWO_SIDED|95.0|-9.32|5.72||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 16. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||5.72|-9.32|<0.0001
82429447|NCT01815424|164566217|SUPERIORITY_OR_OTHER||Least square mean difference|-5.45|STANDARD_ERROR_OF_MEAN|0.907|<|0.0001|TWO_SIDED|95.0|-7.24|-3.67||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 16. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-3.67|-7.24|<0.0001
82429448|NCT01815424|164566218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|114.4|||<|0.0001|TWO_SIDED|95.0|8.95|2657.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant,only then subsequent comparison was tested at the below specified significance level.||2657.62|8.95|<0.0001
82536333|NCT00530335|164771618|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Inattentive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536334|NCT00530335|164771618|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Hyperactivity/Impulsive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536335|NCT00530335|164771618|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in ADHD Index Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536336|NCT00530335|164771619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Total ADHD Symptoms Score (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536337|NCT00530335|164771619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Inattentive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536338|NCT00530335|164771619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in Hyperactive/Impulsive Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82429449|NCT01815424|164566218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|35.37|||<|0.0001|TWO_SIDED|95.0|3.47|1084.02||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||1084.02|3.47|<0.0001
82536339|NCT00530335|164771619|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value comparing difference in ADHD Index Subscale scores (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82429450|NCT01815424|164566219|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|OR and 95% CI not available due to 0% frequency in placebo group.||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||||<0.0001
82429451|NCT01815424|164566219|SUPERIORITY_OR_OTHER|||||||0.0386||||||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|OR and 95% CI not available due to 0% frequency in placebo group.||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||||0.0386
82429452|NCT01815424|164566220|SUPERIORITY_OR_OTHER||Least square mean difference|-5.09|STANDARD_ERROR_OF_MEAN|0.709|<|0.0001|TWO_SIDED|95.0|-6.49|-3.7||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 4. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-3.70|-6.49|<0.0001
82429453|NCT01815424|164566220|SUPERIORITY_OR_OTHER||Least square mean difference|-4.2|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|-5.59|-2.81||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance of 0.025 (2-sided).|Mixed Models Analysis|||Week 4. This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-2.81|-5.59|<0.0001
82429454|NCT01815424|164566221|SUPERIORITY_OR_OTHER||Least square mean of difference|-41.23|STANDARD_ERROR_OF_MEAN|15.977||0.0113|TWO_SIDED|95.0|-72.91|-9.54||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||-9.54|-72.91|0.0113
82429455|NCT01815424|164566221|SUPERIORITY_OR_OTHER||Least square mean of difference|-22.89|STANDARD_ERROR_OF_MEAN|16.01||0.1558|TWO_SIDED|95.0|-54.64|8.86||Mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value, and a random effect of subject; unstructured covariance matrix was used. Each hypothesis was tested at a significance level of 0.025 (2-sided).|Mixed Models Analysis|||This is a key secondary endpoint; family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, only then subsequent comparison was tested at the below specified significance level.||8.86|-54.64|0.1558
82429456|NCT04723355|164566266|NON_INFERIORITY|In the sample size calculations, we assumed that the innovative 3-lead wireless water resistant Holter System would have a concordance in the diagnosis of arrhythmia compared to the conventional Holter device similar to a previous study that compared a patch to the conventional Holter device. With this assumption, a total sample of 182 participants would have 80% power to demonstrate an accuracy of at least 85% with a significance level of 2.5% (the 95% CI lower limit should be above 85%).|Accuracy|0.87|||||TWO_SIDED|95.0|0.81|0.92||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.92|0.81|
82536340|NCT00530335|164771620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82536341|NCT00530335|164771621|SUPERIORITY_OR_OTHER|||||||0.749||95.0|||||t-test, 2 sided|||||||0.749
82536342|NCT00530335|164771622|SUPERIORITY_OR_OTHER|||||||0.886||95.0|||||t-test, 2 sided|||||||0.886
82536343|NCT00530335|164771624|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for comparing differences in Word Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||0.005
82429457|NCT04723355|164566266|OTHER||Sensitivity|0.9|||||TWO_SIDED|95.0|0.83|0.95||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.95|0.83|
82429458|NCT04723355|164566266|OTHER||Specificity|0.83|||||TWO_SIDED|95.0|0.72|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.72|
82429459|NCT04723355|164566266|OTHER||Positive predictive value|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
82429460|NCT04723355|164566266|OTHER||Negative predictive value|0.86|||||TWO_SIDED|95.0|0.76|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.76|
82429461|NCT04723355|164566266|OTHER||Cohen Kappa coefficient|0.74|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429462|NCT04723355|164566266|OTHER||Positive likelihood ratio|5.21|||||TWO_SIDED|95.0|3.17|8.58||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||8.58|3.17|
82429463|NCT04723355|164566266|OTHER||Negative likelihood ratio|0.12|||||TWO_SIDED|95.0|0.06|0.21||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.21|0.06|
82429464|NCT04723355|164566267|OTHER||Accuracy|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||1.00|0.97|
82536344|NCT00530335|164771624|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for comparing differences in Color Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||<0.001
82536345|NCT00530335|164771624|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for comparing differences in Color-Word Test number of correct responses (endpoint - baseline).|t-test, 2 sided|||||||0.003
82536346|NCT02072226|164771652|OTHER|Confidence Interval|Adjusted Risk Difference|-1.1|||||TWO_SIDED|95.0|-9.44|7.25||||||||7.25|-9.44|
82536347|NCT02072226|164771653|OTHER|Confidence Interval|Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.527|1.244||||||||1.244|0.527|
82536348|NCT02072226|164771654|OTHER|Confidence Interval|Odds Ratio (OR)|0.858|||||TWO_SIDED|95.0|0.529|1.393||||||||1.393|0.529|
82536349|NCT02072226|164771655|OTHER|Confidence Interval|difference in percentages|3.25|||||TWO_SIDED|95.0|0.75|7.38||||||||7.38|0.75|
82536350|NCT02072226|164771656|OTHER|Confidence Interval|difference in percentages|4.53|||||TWO_SIDED|95.0|-0.34|10.07||||||Any ICH within 36 hours reported by site||10.07|-0.34|
82429465|NCT04723355|164566267|OTHER||Sensitivity|1.0|||||TWO_SIDED|95.0|0.85|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.85|
82429466|NCT04723355|164566267|OTHER||Specificity|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.97|
82429467|NCT04723355|164566267|OTHER||Positive predictive value|0.96|||||TWO_SIDED|95.0|0.78|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.78|
82429468|NCT04723355|164566267|OTHER||Negative predictive value|1.0|||||TWO_SIDED|95.0|0.98|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.98|
82536351|NCT02072226|164771656|OTHER|Confidence Interval|difference in percentages|3.87|||||TWO_SIDED|95.0|-1.23|9.49||||||Any ICH within 36 hours reported by central reader||9.49|-1.23|
82536352|NCT01492309|164771661|SUPERIORITY|||||||0.003|||||||Fisher Exact|||This analysis is based on a mixed model that can handle missing data.||||0.003
82536353|NCT01492309|164771662|SUPERIORITY|||||||0.425|||||||Regression, Logistic|||This analysis is based on a mixed model that can handle missing data.||||0.425
82536354|NCT00647348|164771691|OTHER|intention-to-treat analysis||||||0.003|||||||BBSI=brain boundary shift integral|||||||0.003
82536355|NCT00647348|164771692|SUPERIORITY|||||||0.05||||||EDSS,mean score at 24 months was compared between treatment groups using an ANCOVA model adjusting for baseline score and minimisation variables.|ANCOVA|EDSS,mean score at 24 months was compared between treatment groups using an ANCOVA model adjusting for baseline score and minimisation variables.||||||0.05
82536356|NCT04889118|164771702|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.55||||0.0013|TWO_SIDED|95.0|0.37|0.81||One-sided p-value based on log-rank test.|Log Rank||HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||0.81|0.37|0.0013
82536357|NCT04889118|164771703|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|Hazard Ratio (HR)|0.93||||0.3728|TWO_SIDED|95.0|0.58|1.48||One-sided p-value based on log-rank test|Log Rank||HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||1.48|0.58|0.3728
82536358|NCT01454362|164771742|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82536359|NCT01454362|164771743|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82536360|NCT01454362|164771744|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82536361|NCT01454362|164771745|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82536362|NCT01454362|164771746|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82536363|NCT01928940|164771761|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
82536364|NCT01928940|164771761|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||BICR Assessed ORR|||99.6|35.9|<0.0001
82536365|NCT01928940|164771766|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
82536366|NCT01928940|164771766|SUPERIORITY_OR_OTHER||Percentage|50.0||||0.0158|TWO_SIDED|95.0|11.8|82.2|||Exact binomial test||BICR Assessed ORR|||82.2|11.8|0.0158
82536367|NCT01928940|164771767|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
82536368|NCT01928940|164771767|SUPERIORITY_OR_OTHER||Percentage|50.0||||0.0158|TWO_SIDED|95.0|11.8|88.2|||Exact binomial test||BICR Assessed ORR|||88.2|11.8|0.0158
82429469|NCT04723355|164566267|OTHER||Cohen Kappa coefficient|0.97|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429470|NCT04723355|164566267|OTHER||Positive likelihood ratio|157.0|||||TWO_SIDED|95.0|22.25|1107.61||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||1107.61|22.25|
82536369|NCT01928940|164771770|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||For Investigator Assessed ORR|||99.6|35.9|<0.0001
82536370|NCT01928940|164771770|SUPERIORITY_OR_OTHER||Percentage|83.0|||<|0.0001|TWO_SIDED|95.0|35.9|99.6|||Exact binomial test||BICR Assessed ORR|||99.6|35.9|<0.0001
82536371|NCT01352507|164771790|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilson Score method|||Null hypothesis (H0): The proportion of participants who chose tadalafil over sildenafil is equal to 0.5 (p = 0.5), versus alternative hypothesis (H1): p is not equal to 0.5 (2-sided test).||||<0.001
82536372|NCT01352507|164771792|SUPERIORITY_OR_OTHER||Least Squares (LS) mean difference|0.02||||0.793|TWO_SIDED|95.0|-0.11|0.15||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.15|-0.11|0.793
82577218|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.157||0.484|TWO_SIDED|95.0|-0.42|0.2|||MMRM|||Agitation, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.42|0.4840
82429471|NCT04723355|164566267|OTHER||Negative likelihood ratio|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0|0|
82429472|NCT04723355|164566268|OTHER||Accuracy|0.85|||||TWO_SIDED|95.0|0.79|0.9||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.90|0.79|
82429473|NCT04723355|164566268|OTHER||Sensitivity|0.82|||||TWO_SIDED|95.0|0.71|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.71|
82429474|NCT04723355|164566268|OTHER||Specificity|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
82429475|NCT04723355|164566268|OTHER||Positive predictive value|0.82|||||TWO_SIDED|95.0|0.71|0.9||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.90|0.71|
82429476|NCT04723355|164566268|OTHER||Negative predictive value|0.88|||||TWO_SIDED|95.0|0.8|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.80|
82429477|NCT04723355|164566268|OTHER||Cohen Kappa coefficient|0.7|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82450964|NCT00286494|164608398|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.628||||0.266|TWO_SIDED|95.0|0.277|1.425||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.425|0.277|0.266
82429478|NCT04723355|164566268|OTHER||Positive likelihood ratio|6.79|||||TWO_SIDED|95.0|4.03|11.43||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||11.43|4.03|
82429479|NCT04723355|164566268|OTHER||Negative likelihood ratio|0.21|||||TWO_SIDED|95.0|0.13|0.34||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.34|0.13|
82429480|NCT04723355|164566269|OTHER||Accuracy|0.93|||||TWO_SIDED|95.0|0.88|0.96||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.96|0.88|
82450965|NCT00286494|164608398|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.658||||0.315|TWO_SIDED|95.0|0.292|1.487|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.487|0.292|0.315
82536373|NCT01352507|164771793|SUPERIORITY_OR_OTHER||LS mean difference|0.01||||0.988|TWO_SIDED|95.0|-1.35|1.37||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||1.37|-1.35|0.988
82536374|NCT01352507|164771794|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.102|TWO_SIDED|95.0|-0.01|0.08||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.08|-0.01|0.102
82536375|NCT01352507|164771796|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.861|TWO_SIDED|95.0|-0.22|0.19||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.19|-0.22|0.861
82536376|NCT01352507|164771797|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.495|TWO_SIDED|95.0|-0.19|0.09||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.09|-0.19|0.495
82536377|NCT01352507|164771798|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.917|TWO_SIDED|95.0|-0.18|0.16||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.16|-0.18|0.917
82429481|NCT04723355|164566269|OTHER||Sensitivity|0.78|||||TWO_SIDED|95.0|0.56|0.93||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.93|0.56|
82429482|NCT04723355|164566269|OTHER||Specificity|0.95|||||TWO_SIDED|95.0|0.9|0.98||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.98|0.90|
82429483|NCT04723355|164566269|OTHER||Positive predictive value|0.69|||||TWO_SIDED|95.0|0.48|0.86||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.86|0.48|
82429484|NCT04723355|164566269|OTHER||Negative predictive value|0.97|||||TWO_SIDED|95.0|0.93|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.93|
82429485|NCT04723355|164566269|OTHER||Cohen Kappa coefficient|0.69|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429486|NCT04723355|164566269|OTHER||Positive likelihood ratio|15.26|||||TWO_SIDED|95.0|7.51|30.99||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||30.99|7.51|
82429487|NCT04723355|164566269|OTHER||Negative likelihood ratio|0.23|||||TWO_SIDED|95.0|0.11|0.5||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.50|0.11|
82429488|NCT04723355|164566270|OTHER||Accuracy|0.93|||||TWO_SIDED|95.0|0.89|0.96||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.96|0.89|
82429489|NCT04723355|164566270|OTHER||Sensitivity|0.58|||||TWO_SIDED|95.0|0.28|0.85||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.85|0.28|
82536378|NCT01352507|164771799|SUPERIORITY_OR_OTHER||LS mean difference|1.23||||0.391|TWO_SIDED|95.0|-1.58|4.04||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||4.04|-1.58|0.391
82429490|NCT04723355|164566270|OTHER||Specificity|0.96|||||TWO_SIDED|95.0|0.92|0.98||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.98|0.92|
82429491|NCT04723355|164566270|OTHER||Positive predictive value|0.5|||||TWO_SIDED|95.0|0.23|0.77||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.77|0.23|
82429492|NCT04723355|164566270|OTHER||Negative predictive value|0.97|||||TWO_SIDED|95.0|0.93|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.93|
82429493|NCT04723355|164566270|OTHER||Cohen Kappa coefficient|0.77|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429494|NCT04723355|164566270|OTHER||Positive likelihood ratio|13.92|||||TWO_SIDED|95.0|5.84|33.17||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||33.17|5.84|
82429495|NCT04723355|164566270|OTHER||Negative likelihood ratio|0.43|||||TWO_SIDED|95.0|0.22|0.85||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.85|0.22|
82429496|NCT04723355|164566271|OTHER||Accuracy|0.98|||||TWO_SIDED|95.0|0.95|1.0||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||1.00|0.95|
82429497|NCT04723355|164566271|OTHER||Sensitivity|0.75|||||TWO_SIDED|95.0|0.19|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.19|
82429498|NCT04723355|164566271|OTHER||Specificity|0.99|||||TWO_SIDED|95.0|0.96|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.96|
82429499|NCT04723355|164566271|OTHER||Positive predictive value|0.6|||||TWO_SIDED|95.0|0.15|0.95||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.95|0.15|
82429500|NCT04723355|164566271|OTHER||Negative predictive value|0.99|||||TWO_SIDED|95.0|0.97|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.97|
82429501|NCT04723355|164566271|OTHER||Cohen Kappa coefficient|0.66|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429502|NCT04723355|164566271|OTHER||Positive likelihood ratio|65.63|||||TWO_SIDED|95.0|14.8|291.07||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||291.07|14.80|
82429503|NCT04723355|164566271|OTHER||Negative likelihood ratio|0.25|||||TWO_SIDED|95.0|0.05|1.38||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||1.38|0.05|
82429504|NCT04723355|164566272|OTHER||Accuracy|0.98|||||TWO_SIDED|95.0|0.94|0.99||||||The comparison of the two Holter monitoring devices was analyzed in terms of the accuracy of the Innovative 3-lead Wireless Water Resistant Holter System in detecting the arrhythmias compared to the Conventional Holter System as the gold standard.||0.99|0.94|
82429505|NCT04723355|164566272|OTHER||Sensitivity|0.64|||||TWO_SIDED|95.0|0.31|0.89||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.89|0.31|
82429506|NCT04723355|164566272|OTHER||Specificity|1.0|||||TWO_SIDED|95.0|0.98|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.98|
82429507|NCT04723355|164566272|OTHER||Positive predictive value|1.0|||||TWO_SIDED|95.0|0.59|1.0||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||1.00|0.59|
82429508|NCT04723355|164566272|OTHER||Negative predictive value|0.98|||||TWO_SIDED|95.0|0.94|0.99||||||Other measures of diagnostic accuracy, including the sensitivity, specificity, positive and negative predictive values were also analyzed.||0.99|0.94|
82536379|NCT01352507|164771800|SUPERIORITY_OR_OTHER||LS mean difference|0.13|||<|0.001|TWO_SIDED|95.0|0.09|0.18||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.18|0.09|<0.001
82536380|NCT01352507|164771801|SUPERIORITY_OR_OTHER||LS mean difference|-0.14|||<|0.001|TWO_SIDED|95.0|-0.19|-0.09||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||-0.09|-0.19|<0.001
82536381|NCT01352507|164771802|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.364|TWO_SIDED|95.0|-0.2|0.55||P-Value and LS mean difference were from a crossover mixed effect model that included treatment, period, sequence, and site as fixed effects, baseline value of efficacy measure as covariate, and participant within sequence as random effect.|Mixed Models Analysis|||||0.55|-0.20|0.364
82429509|NCT04723355|164566272|OTHER||Cohen Kappa coefficient|0.77|||||TWO_SIDED|||||||||We also did an additional analysis to further evaluate the concordance between both Holter monitoring devices using the Cohen´s Kappa coefficient.||||
82429510|NCT04723355|164566272|OTHER|||||||||||||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.|The positive likelihood ratio could not be calculated due to the value of zero in the denominator|||
82429511|NCT04723355|164566272|OTHER||Negative likelihood ratio|0.36|||||TWO_SIDED|95.0|0.17|0.79||||||Exploratory analyses of positive and negative likelihood ratios were also conducted.||0.79|0.17|
82429512|NCT04723355|164566274|OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|95.0|-6.2|4.31||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||4.31|-6.20|
82429513|NCT04723355|164566274|OTHER||Lin´s concordance correlation coeficient|0.97|||||TWO_SIDED|95.0|0.96|0.98||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.98|0.96|
82429514|NCT04723355|164566275|OTHER||Mean Difference (Final Values)|-2.71|||||TWO_SIDED|95.0|-17.09|11.67||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||11.67|-17.09|
82429515|NCT04723355|164566275|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.93|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.93|
82450966|NCT00286494|164608399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4||||0.003|TWO_SIDED|95.0|-10.6|-2.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.1|-10.6|0.003
82536382|NCT01119703|164771803|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-9.1|||||TWO_SIDED|95.0|-13.8|-0.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||-0.7|-13.8|
82429516|NCT04723355|164566276|OTHER||Mean Difference (Final Values)|0.39|||||TWO_SIDED|95.0|-5.43|6.22||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||6.22|-5.43|
82429517|NCT04723355|164566276|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.93|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.93|
82429518|NCT04723355|164566277|OTHER||Mean Difference (Final Values)|-6.37|||||TWO_SIDED|95.0|-1391.46|1378.72||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||1378.72|-1391.46|
82429519|NCT04723355|164566277|OTHER||Lin´s concordance correlation coeficient|0.95|||||TWO_SIDED|95.0|0.94|0.96||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.96|0.94|
82429520|NCT04723355|164566278|OTHER||Mean Difference (Final Values)|11.04|||||TWO_SIDED|95.0|-2089.58|2111.65||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||2111.65|-2089.58|
82429521|NCT04723355|164566278|OTHER||Lin´s concordance correlation coeficient|0.92|||||TWO_SIDED|95.0|0.89|0.94||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.94|0.89|
82429522|NCT04723355|164566279|OTHER||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-5.45|5.2||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||5.20|-5.45|
82429523|NCT04723355|164566279|OTHER||Lin´s concordance correlation coeficient|0.93|||||TWO_SIDED|95.0|0.91|0.94||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.94|0.91|
82429524|NCT04723355|164566280|OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-13.38|12.07||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||12.07|-13.38|
82429525|NCT04723355|164566280|OTHER||Lin´s concordance correlation coeficient|0.987|||||TWO_SIDED|95.0|0.98|0.99||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.99|0.98|
82536383|NCT01119703|164771804|SUPERIORITY_OR_OTHER||Coefficient of Determination %|17.6|||||TWO_SIDED|95.0|10.6|20.9|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||20.9|10.6|
82652172|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.348||||0.0434|TWO_SIDED|95.0|-0.686|-0.01||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.010|-0.686|0.0434
82429526|NCT04723355|164566281|OTHER||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-1.75|1.56||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||1.56|-1.75|
82429527|NCT04723355|164566281|OTHER||Lin´s concordance correlation coeficient|0.9976|||||TWO_SIDED|95.0|0.997|0.998||||||The quantitative secondary outcomes were analyzed using Bland-Altman graphs as well as the Lin´s concordance correlation coefficient (CCC).||0.998|0.997|
82429528|NCT04723355|164566282|SUPERIORITY||chi-squared test statistic|23.529|||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
82429529|NCT01127633|164566292|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority margin for this hypothesis was specified as 50% of the treatment difference observed at the end of the feeder study. If the lower limit of the confidence interval (CI) was greater than 0, the noninferiority criterion was met, indicating that at least 50% of the treatment difference observed at the end of the feeder studies was maintained at specified time points in the delayed-start period.|Median Difference (Net)|-0.02||||0.974|TWO_SIDED|95.0|-1.14|1.11|||Mixed Models Analysis|||||1.11|-1.14|0.974
82429530|NCT03723980|164566338|SUPERIORITY||Mean Difference (Net)|2.96||||0.329|TWO_SIDED|95.0||||"the calculated p value is for time interval of 4 hours~threshold for statistical significance= \<0.05"|ANOVA|For multiple comparisons between groups, post hoc (LSD) was applied||||||0.329
82429531|NCT03723980|164566338|SUPERIORITY||Mean Difference (Net)|-0.92||||0.764|TWO_SIDED|95.0||||"The calculated p value is for time interval of 12 hours~threshold for statistical significance= \<0.05"|ANOVA|||||||0.764
82429532|NCT03723980|164566338|SUPERIORITY||Mean Difference (Net)|-1.57||||0.605|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 2~threshold for statistical significance= \<0.05"|ANOVA|||||||0.605
82429533|NCT03723980|164566338|SUPERIORITY||Mean Difference (Net)|-0.82||||0.786|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 3~threshold for statistical significance= \<0.05"|ANOVA|||||||0.786
82429534|NCT03723980|164566338|SUPERIORITY||Mean Difference (Net)|-0.72||||0.813|TWO_SIDED|95.0||||"The calculated p value is for time interval of day 4~threshold for statistical significance= \<0.05"|ANOVA|||||||0.813
82429535|NCT03723980|164566340|OTHER||Mean Difference (Net)|2.97|STANDARD_ERROR_OF_MEAN|3.0||0.334|TWO_SIDED|95.0||||"The calculated p value is for the difference between pre-operative time interval and 4 hours time interval.~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.334
82429536|NCT03723980|164566340|OTHER||Mean Difference (Net)|2.33|STANDARD_ERROR_OF_MEAN|3.0||0.448|TWO_SIDED|95.0||||"The calculated p value is for the difference between time interval of 4 hours and time interval of 12 hours.~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.448
82429537|NCT03723980|164566340|OTHER||Mean Difference (Net)|5.88|STANDARD_ERROR_OF_MEAN|3.0||0.056|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of 12 hours and day 2~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.056
82429538|NCT03723980|164566340|OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|3.0||0.76|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 2 and day 3~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.760
82429539|NCT03723980|164566340|OTHER||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|3.0||0.828|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 3 and day 4~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.828
82429540|NCT03723980|164566340|OTHER||Mean Difference (Net)|11.8|STANDARD_ERROR_OF_MEAN|2.9||0|TWO_SIDED|95.0||||"The calculated p value is for the difference between pre-operative time interval and 4 hours time interval~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.000
82429541|NCT03723980|164566340|OTHER||Mean Difference (Net)|-1.54|STANDARD_ERROR_OF_MEAN|2.9||0.605|TWO_SIDED|95.0||||"The calculated p value is for the difference between time interval of 4 hours and time interval of 12 hours~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.605
82429542|NCT03723980|164566340|OTHER||Mean Difference (Net)|5.23|STANDARD_ERROR_OF_MEAN|2.9||0.8|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of 12 hours and day 2~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.80
82429543|NCT03723980|164566340|OTHER||Mean Difference (Net)|1.69|STANDARD_ERROR_OF_MEAN|2.9||0.574|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 2 and day 3~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.574
82429544|NCT03723980|164566340|OTHER||Mean Difference (Net)|0.77|STANDARD_ERROR_OF_MEAN|2.9||0.796|TWO_SIDED|95.0||||"The calculated p value is for the difference between time intervals of day 3 and day 4~Threshold for statistical significance= \<0.05"|ANOVA|||||||0.796
82429545|NCT03723980|164566341|OTHER||Mean Difference (Net)|-0.6||||0.412|TWO_SIDED|||||"The p-value calculated is for pain score difference at 4 hours~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.412
82429546|NCT03723980|164566341|OTHER||Mean Difference (Net)|2.8||||0.94|TWO_SIDED|||||"The p-value calculated is for pain score difference at 12 hours~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.94
82429547|NCT03723980|164566341|OTHER||Mean Difference (Net)|5.5||||0.035|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 2~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.035
82429548|NCT03723980|164566341|OTHER||Mean Difference (Net)|4.4||||0.023|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 3~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.023
82429549|NCT03723980|164566341|OTHER||Median Difference (Net)|4.3||||0.02|TWO_SIDED|||||"The p-value calculated is for pain score difference at Day 4.~Threshold for statistical significance= \<0.05"|Wilcoxon (Mann-Whitney)|||||||0.020
82429550|NCT03723980|164566342|OTHER|||||||0.15||||||"The p-value calculated is for pain score difference at 4 hours~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.15
82429551|NCT03723980|164566342|OTHER|||||||0.36||||||"The p-value calculated is for pain score difference at 12 hours~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.36
82429552|NCT03723980|164566342|OTHER|||||||0.13||||||"The p-value calculated is for pain score difference at day 2~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.13
82429553|NCT03723980|164566342|OTHER|||||||0.55||||||"The p-value calculated is for pain score difference at day 3~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.55
82429554|NCT03723980|164566342|OTHER|||||||0.17||||||"The p-value calculated is for pain score difference at day 4~Threshold for statistical significance= \<0.05"|Kruskal-Wallis|||||||0.17
82429555|NCT03856359|164566345|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
82429556|NCT03856359|164566347|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82429557|NCT03856359|164566349|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
82429558|NCT03856359|164566351|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82429559|NCT03856359|164566352|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82429560|NCT03856359|164566353|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82429561|NCT03856359|164566354|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82429562|NCT03856359|164566355|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82429563|NCT03856359|164566356|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82429564|NCT03856359|164566357|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.65
82450967|NCT00286494|164608399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.023|TWO_SIDED|95.0|-9.1|-0.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.7|-9.1|0.023
82652173|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|0.042||||0.8123|TWO_SIDED|95.0|-0.308|0.392||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.392|-0.308|0.8123
82429565|NCT03856359|164566358|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
82429566|NCT03856359|164566359|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||||||0.44
82429567|NCT03856359|164566360|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
82429568|NCT03856359|164566361|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82429569|NCT03856359|164566362|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82429570|NCT03856359|164566363|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82429571|NCT01881009|164566389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82429572|NCT01881009|164566390|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82429573|NCT00461708|164566445|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82429574|NCT00461708|164566446|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82429575|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|2.11||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR4521||||0.010
82429576|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|0.56||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR107||||0.010
82429577|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|2.57||||0.018|TWO_SIDED||||||t-test, 2 sided|||miR-891a||||0.018
82429578|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|0.88||||0.021|TWO_SIDED||||||t-test, 2 sided|||miR363||||0.021
82429579|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-1.0||||0.028|TWO_SIDED||||||t-test, 2 sided|||miR1248||||0.028
82429580|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-0.85||||0.033|TWO_SIDED||||||t-test, 2 sided|||miR944||||0.033
82429581|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|2.13||||0.034|TWO_SIDED||||||t-test, 2 sided|||miR6806||||0.034
82429582|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|0.39||||0.036|TWO_SIDED||||||t-test, 2 sided|||miR103a||||0.036
82429583|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|1.69||||0.037|TWO_SIDED||||||t-test, 2 sided|||miR454||||0.037
82429584|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-1.13||||0.041|TWO_SIDED||||||t-test, 2 sided|||miR320e||||0.041
82429585|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-0.55||||0.043|TWO_SIDED||||||t-test, 2 sided|||miR181a||||0.043
82429586|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|1.95||||0.044|TWO_SIDED||||||t-test, 2 sided|||miR130b||||0.044
82429587|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-2.18||||0.044|TWO_SIDED||||||t-test, 2 sided|||miR365a||||0.044
82429588|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|2.06||||0.047|TWO_SIDED||||||t-test, 2 sided|||miR135b||||0.047
82429589|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-2.35||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR1273h||||0.048
82429590|NCT02230189|164566470|SUPERIORITY||Mean Difference (Net)|-1.31||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR3177||||0.048
82429591|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.83||||0|TWO_SIDED||||||t-test, 2 sided|||miR6510||||0.0
82429592|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.09||||0|TWO_SIDED||||||t-test, 2 sided|||miR3605||||0
82429593|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-5.75||||0|TWO_SIDED||||||t-test, 2 sided|||miR3912||||0
82429594|NCT02230189|164566471|SUPERIORITY||Median Difference (Net)|1.93||||0|TWO_SIDED||||||t-test, 2 sided|||miR15b||||0
82429595|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.35||||0|TWO_SIDED||||||t-test, 2 sided|||miR127||||0
82429596|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.59||||0|TWO_SIDED||||||t-test, 2 sided|||miR146a||||0
82429597|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.21||||0|TWO_SIDED||||||t-test, 2 sided|||miR449b||||0
82429598|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|0.85||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR21-5p||||0.01
82429599|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.29||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6842||||0.01
82429600|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.24||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR142-5p||||0.01
82429601|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.67||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR21||||0.01
82429602|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-4.24||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR493||||0.01
82429603|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.46||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR193a||||0.01
82429604|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.89||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR149||||0.01
82429605|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.06||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR449a||||0.01
82429606|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.1||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6511a||||0.01
82429607|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.59||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR6843||||0.01
82429608|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.95||||0.01|TWO_SIDED||||||t-test, 2 sided|||miR671||||0.01
82536384|NCT01119703|164771805|SUPERIORITY_OR_OTHER||Coefficient of Determination %|27.8|||||TWO_SIDED|95.0|19.6|32.4|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||32.4|19.6|
82536385|NCT01119703|164771806|SUPERIORITY_OR_OTHER||Coefficient of Determination %|3.3||||||95.0|-2.8|8.5|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all baseline biomarkers as predictors.||8.5|-2.8|
82536386|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.04||||0.66|TWO_SIDED|95.0|-0.2|0.13|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Hepatitis B||0.13|-0.2|0.66
82536387|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.1||||0.26|TWO_SIDED|95.0|-0.07|0.25|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Cholera||0.25|-0.07|0.26
82429609|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-4.65||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR6503||||0.02
82429610|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|2.84||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR450b||||0.02
82429611|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-4.92||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR485||||0.02
82429612|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.49||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR6806||||0.02
82429613|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|2.18||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR3182||||0.02
82429614|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.28||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR142-3p||||0.02
82536388|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.4|||<|0.001|TWO_SIDED|95.0|0.26|0.53|||Fisher's Z-transformation||Within-participant rank correlation|Diphtheria versus Tetanus||0.53|0.26|<0.001
82536389|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.17||||0.04|TWO_SIDED|95.0|-0.32|-0.01|||Fisher's Z-transformation||Within-participant rank correlation|Hepatitis B versus Cholera||-0.01|-0.32|0.04
82429615|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.23||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR320d||||0.02
82429616|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|2.73||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR3928||||0.02
82429617|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|4.59||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR744||||0.02
82429618|NCT02230189|164566471|SUPERIORITY||Median Difference (Net)|3.42||||0.02|TWO_SIDED||||||t-test, 2 sided|||miR206||||0.02
82429619|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|0.9||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR30e||||0.03
82429620|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.52||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR4500||||0.03
82429621|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.98||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR125a||||0.03
82429622|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.6||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR99b||||0.03
82429623|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|2.67||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR1||||0.03
82429624|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.77||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR146b||||0.03
82429625|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-3.17||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR1255a||||0.03
82429626|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.02||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR223||||0.03
82429627|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.78||||0.03|TWO_SIDED||||||t-test, 2 sided|||miR642a||||0.03
82429628|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|2.17||||0.4|TWO_SIDED||||||t-test, 2 sided|||miR548ae||||0.4
82429629|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.79||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR146b||||0.04
82429630|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.52||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR877||||0.04
82429631|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-0.69||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR181a||||0.04
82429632|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-3.4||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR4467||||0.04
82429633|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-2.48||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR1249||||0.04
82429634|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|3.87||||0.04|TWO_SIDED||||||t-test, 2 sided|||miR766||||0.04
82429635|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|1.07||||0.048|TWO_SIDED||||||t-test, 2 sided|||miR29c||||0.048
82429636|NCT02230189|164566471|SUPERIORITY||Mean Difference (Net)|-1.75||||-1.75|TWO_SIDED||||||t-test, 2 sided|||miR370||||-1.75
82429637|NCT01074125|164566472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3376|||<|0.0001|TWO_SIDED||||||Regression, Linear|||To assess dose ranging, the primary efficacy variable will be analyzed via a model with dose effect. Positive dose ranging confirmed if the null hypothesis of slope =0 was rejected at a significance level of 0.05||||<0.0001
82429638|NCT01824290|164566479|SUPERIORITY||Mean Difference (Final Values)|23.88|STANDARD_ERROR_OF_MEAN|29.114|||TWO_SIDED|80.0|-14.25|62.0||||||||62.00|-14.25|
82429639|NCT00539240|164566518|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.04
82536390|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|-0.09||||0.3|TWO_SIDED|95.0|-0.25|0.08|||Fisher's Z-transformation||Within-participant rank correlation|Hepatitis B versus Tetanus||0.08|-0.25|0.30
82536391|NCT01119703|164771807|SUPERIORITY_OR_OTHER||Spearman's Correlation Coefficient|0.08||||0.36|TWO_SIDED|95.0|-0.09|0.24|||Fisher's Z-transformation||Within-participant rank correlation|Cholera versus Tetanus||0.24|-0.09|0.36
82648469|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.5|-1.2||Month 21|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.2|-2.5|<0.001
82536392|NCT01119703|164771808|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-9.5|||||TWO_SIDED|95.0|-16.6|-2.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||-2.7|-16.6|
82536393|NCT01119703|164771809|SUPERIORITY_OR_OTHER||Coefficient of Determination %|23.7|||||TWO_SIDED|95.0|14.0|29.7|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||29.7|14.0|
82648470|NCT01294592|165012586|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.5|-1.2||Month 24|t-test, 2 sided|Values are based on t-tests from the general linear model|Estimates are based on the adjusted means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The adjusted mean difference is based on dutasteride plus tamsulosin minus Watchful Waiting All.|||-1.2|-2.5|<0.001
82648471|NCT01577537|165012623|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82429640|NCT00539240|164566518|SUPERIORITY_OR_OTHER|||||||0.5||||||P\<0.05 considered statistically significant, No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.50
82429641|NCT00539240|164566519|SUPERIORITY_OR_OTHER|||||||0.19||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons (no post-hoc contrasts performed)|ANCOVA|Adjusted for baseline score and personality traits (SCL-90)||||||0.19
82429642|NCT00539240|164566520|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant, No adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity.||||||0.04
82429643|NCT00539240|164566520|SUPERIORITY_OR_OTHER|||||||0.5||||||P\<0.05 considered statistically significant, no adjustment for multiple comparisons|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.50
82429644|NCT00539240|164566521|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons.|Regression, Linear|adjusted for age, sex, BMI and ethnicity||||||0.04
82429645|NCT00539240|164566521|SUPERIORITY_OR_OTHER|||||||0.2||||||P\<0.05 considered statistically significant. No adjustment for multiple comparisons.|Regression, Linear|adjusted for age, sex, BMI and ethnicity.||||||0.20
82450968|NCT00286494|164608400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.043|TWO_SIDED|95.0|-8.3|-0.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.1|-8.3|0.043
82450969|NCT00286494|164608400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.489|TWO_SIDED|95.0|-5.5|2.6||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.6|-5.5|0.489
82450970|NCT00286494|164608401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.068|TWO_SIDED|95.0|-8.8|0.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.3|-8.8|0.068
82429646|NCT01595529|164566524|NON_INFERIORITY|The primary analysis was a non-inferiority test comparing the proportion of subjects with symptomatic UTIs at the TOC visit to evaluate whether the difference was within the 5% equivalence interval. This test was conducted by calculating the one-sided 95% upper confidence limit for the difference in symptomatic UTI (treatment failure) rate. If this limit was less than or equal to the equivalence interval (0.05), then would conclude that short course therapy is not inferior to standard therapy.|Risk Difference (RD)|0.035569|||||ONE_SIDED|95.0||0.054844||||||||0.054844||
82429647|NCT01595529|164566525|NON_INFERIORITY|The primary analysis was a non-inferiority test comparing the proportion of subjects with symptomatic UTIs at the TOC visit to evaluate whether the difference was within the 5% equivalence interval. This test was conducted by calculating the one-sided 95% upper confidence limit for the difference in symptomatic UTI (treatment failure) rate. If this limit was less than or equal to the equivalence interval (0.05), then would conclude that short course therapy is not inferior to standard therapy.|Risk Difference (RD)|0.022169|||||ONE_SIDED|95.0||0.03939||||||||0.03939||
82429648|NCT01595529|164566526|SUPERIORITY||Risk Difference (RD)|-0.00356|||||TWO_SIDED|95.0|-0.03323|0.026102||||||||0.026102|-0.03323|
82429649|NCT01595529|164566527|SUPERIORITY||Risk Difference (RD)|-0.00994|||||TWO_SIDED|95.0|-0.04012|0.020236||||||||0.020236|-0.04012|
82429650|NCT01595529|164566528|SUPERIORITY|||||||0.2282|||||||Chi-squared|||At Test of Cure Visit||||0.2282
82429651|NCT01595529|164566528|SUPERIORITY|||||||0.4876|||||||Chi-squared|||At Outcome Assessment Visit||||0.4876
82429652|NCT01595529|164566529|SUPERIORITY|||||||0.4184|||||||Chi-squared|||At Test of Cure Visit||||0.4184
82429653|NCT01595529|164566529|SUPERIORITY|||||||0.9782|||||||Chi-squared|||At Outcome Assessment Visit||||0.9782
82429654|NCT01595529|164566530|SUPERIORITY||Risk Difference (RD)|-0.05277|||||TWO_SIDED|95.0|-0.08857|-0.01698||||||||-0.01698|-0.08857|
82429655|NCT01595529|164566531|SUPERIORITY||Risk Difference (RD)|-0.05664|||||TWO_SIDED|95.0|-0.09479|-0.0185||||||||-0.01850|-0.09479|
82429656|NCT01595529|164566532|SUPERIORITY||Risk Difference (RD)|-0.03056|||||TWO_SIDED|95.0|-0.07744|0.016323||||||||0.016323|-0.07744|
82429657|NCT01595529|164566533|SUPERIORITY||Risk Difference (RD)|-0.01094|||||TWO_SIDED|95.0|-0.058|0.036117||||||||0.036117|-0.0580|
82429658|NCT01595529|164566534|SUPERIORITY||Risk Difference (RD)|-0.10373|||||TWO_SIDED|95.0|-0.14161|-0.06585||||||||-0.06585|-0.14161|
82429659|NCT01595529|164566535|SUPERIORITY||Risk Difference (RD)|-0.09198|||||TWO_SIDED|95.0|-0.13006|-0.05391||||||||-0.05391|-0.13006|
82429660|NCT02629861|164566541|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82429661|NCT02629861|164566541|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the primary analysis was conducted using the Wilcoxon rank-sum test as outlined in the SAP.||||<0.0001
82429662|NCT02629861|164566543|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 1 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
82536394|NCT01119703|164771810|SUPERIORITY_OR_OTHER||Coefficient of Determination %|36.7|||||TWO_SIDED|95.0|28.7|41.5|||||Crossvalidated;negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||41.5|28.7|
82429663|NCT02629861|164566543|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 1 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
82536395|NCT01119703|164771811|SUPERIORITY_OR_OTHER||Coefficient of Determination %|-2.2|||||TWO_SIDED|95.0|-7.8|4.4|||||Crossvalidated; negative values mean that the fitted model performs worse than chance on the test set.|Null hypothesis for Predicted versus Measured Titers states that Coefficient of Determination % (CD%) \<= 20%; whereas the alternative hypothesis is \> 20%. CD% was obtained by fitting a random forest model to the measured titers, which included all Day 7 biomarkers as predictors.||4.4|-7.8|
82429664|NCT02629861|164566543|SUPERIORITY|||||||0.0032||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 2 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0032
82429665|NCT02629861|164566543|SUPERIORITY|||||||0.001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 2 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0010
82429666|NCT02629861|164566543|SUPERIORITY|||||||0.0048||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 3 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0048
82429667|NCT02629861|164566543|SUPERIORITY|||||||0.0003||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Month 3 P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||0.0003
82450971|NCT00286494|164608401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.056|TWO_SIDED|95.0|-8.9|0.1||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.1|-8.9|0.056
82450972|NCT00286494|164608402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-4.9|4.2||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.2|-4.9|0.884
82648472|NCT01368276|165012647|SUPERIORITY_OR_OTHER||Treatment Difference|-42.9||||0.2645|TWO_SIDED|||||Descriptive|Fisher Exact||Talimogene laherparepvec - GM-CSF|||||0.2645
82429668|NCT02629861|164566543|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Overall P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
82429669|NCT02629861|164566543|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Cochran-Mantel-Haenszel|||Overall P-value based on Cochran-Mantel-Haenszel test stratified by baseline preventive medication use.||||<0.0001
82429670|NCT02629861|164566544|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
82429671|NCT02629861|164566544|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
82429672|NCT02629861|164566545|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
82429673|NCT02629861|164566545|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint||||<0.0001
82429674|NCT02629861|164566546|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||<0.0001
82429675|NCT02629861|164566546|SUPERIORITY||||||<|0.0001||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||<0.0001
82429676|NCT02629861|164566547|SUPERIORITY|||||||0.0023||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||0.0023
82429677|NCT02629861|164566547|SUPERIORITY|||||||0.0021||||||0.05 level of significance|Wilcoxon (Mann-Whitney)|||Due to the deviation from the normal distribution assumption of the data, the Wilcoxon rank-sum test was conducted as the primary analysis for each active treatment group and placebo treatment group for this endpoint.||||0.0021
82429678|NCT02030821|164566593|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82429679|NCT02030821|164566594|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82429680|NCT02030821|164566595|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82429681|NCT02030821|164566596|OTHER||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82429682|NCT01722929|164566598|OTHER||||||<|0.0001||||||p-value is for the main effect for the Treatment, Time, and Treatment\*Time interaction.|Mixed Models Analysis|||A mixed ANOVA was performed with the arms as a between factor and the three times as the within factor.||||<0.0001
82429683|NCT00553410|164566682|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.31|TWO_SIDED|95.0|0.93|1.26|||Log Rank|||||1.26|.93|.31
82429684|NCT00553410|164566683|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.16|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||||1.06|.68|.16
82429685|NCT00553410|164566684|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.25|TWO_SIDED|95.0|0.71|1.09|||Log Rank|||||1.09|.71|.25
82429686|NCT00553410|164566685|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.84|TWO_SIDED|95.0|0.81|1.18|||Log Rank|||||1.18|.81|.84
82429687|NCT00444106|164566696|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||One-sided exact test for a single propn.|One-sided exact test for a single proportion.||"One-sided null hypothesis that the incidence rate of ABR Wave III latency changes is greater than or equal to 15%.~Increase in ABR Wave III latency between baseline and Day 7 of greater than 0.3 ms."||||<.0001
82429688|NCT01634152|164566700|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.032||0.2724|TWO_SIDED|95.0|-0.028|0.099|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.099|-0.028|0.2724
82450973|NCT00286494|164608402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-4.5|4.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.5|-4.5|0.993
82450974|NCT00286494|164608403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.009|TWO_SIDED|95.0|-9.4|-1.3||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.3|-9.4|0.009
82536396|NCT02909101|164771840|SUPERIORITY|||||||0.039|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.039
82536397|NCT02909101|164771841|SUPERIORITY|||||||0.054|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.054
82429689|NCT01634152|164566700|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.075|0.203|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.203|0.075|<0.0001
82429690|NCT01634152|164566701|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.018|STANDARD_ERROR_OF_MEAN|0.034||0.5898|TWO_SIDED|95.0|-0.048|0.085|||Mixed Models Analysis|Repeated measures restricted maximum likelihood|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis for this endpoint was performed in a stepwise manner after the analysis of the primary endpoint was performed. Each step was only considered confirmatory if all previous steps were successful.||0.085|-0.048|0.5898
82429691|NCT01634152|164566701|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.087|STANDARD_ERROR_OF_MEAN|0.034||0.0117|TWO_SIDED|95.0|0.019|0.154|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis for this endpoint was performed in a stepwise manner after the analysis of the primary endpoint was performed. Each step was only considered confirmatory if all previous steps were successful.||0.154|0.019|0.0117
82429692|NCT01634152|164566702|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.036||0.2277|TWO_SIDED|95.0|-0.113|0.027|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.027|-0.113|0.2277
82429693|NCT01634152|164566702|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.036||0.3998|TWO_SIDED|95.0|-0.04|0.101|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.101|-0.040|0.3998
82429694|NCT01634152|164566703|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.037||0.203|TWO_SIDED|95.0|-0.121|0.026|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.026|-0.121|0.2030
82429695|NCT01634152|164566703|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.009|STANDARD_ERROR_OF_MEAN|0.038||0.8194|TWO_SIDED|95.0|-0.066|0.083|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.083|-0.066|0.8194
82429696|NCT01634152|164566704|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.031|STANDARD_ERROR_OF_MEAN|0.029||0.2907|TWO_SIDED|95.0|-0.026|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.088|-0.026|0.2907
82429697|NCT01634152|164566704|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.068|0.184|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.184|0.068|<0.0001
82429698|NCT01634152|164566705|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.041|STANDARD_ERROR_OF_MEAN|0.032||0.2008|TWO_SIDED|95.0|-0.103|0.022|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.022|-0.103|0.2008
82648473|NCT01368276|165012648|SUPERIORITY_OR_OTHER||Treatment Difference|-1.2||||1|TWO_SIDED|95.0|-57.3|54.9||Descriptive|Fisher Exact||Talimogene laherparepvec - GM-CSF|||54.9|-57.3|1.0000
82450975|NCT00286494|164608403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.143|TWO_SIDED|95.0|-7.0|1.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.0|-7.0|0.143
82450976|NCT00286494|164608404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.08|TWO_SIDED|95.0|-8.6|0.5||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.5|-8.6|0.080
82536398|NCT02909101|164771842|OTHER|||||||0.744|||||||t-test, 2 sided|||To determine acceptability, we examined whether mean ratings for both arms were above 3.5, and we also examined whether there was any difference between arms.||||0.744
82536399|NCT02909101|164771843|OTHER|||||||0.719|||||||t-test, 2 sided|||To determine acceptability in terms of helpfulness, we examined whether mean ratings for both arms were above 3.5, and we also examined whether there was any difference between arms.||||0.719
82429699|NCT01634152|164566705|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.032||0.2545|TWO_SIDED|95.0|-0.026|0.1|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.100|-0.026|0.2545
82429700|NCT01634152|164566708|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.078||0.798|TWO_SIDED|95.0|-0.133|0.173|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.173|-0.133|0.7980
82429701|NCT01634152|164566708|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.079|STANDARD_ERROR_OF_MEAN|0.079||0.3166|TWO_SIDED|95.0|-0.233|0.076|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.076|-0.233|0.3166
82429702|NCT01634152|164566710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.124||0.8916|TWO_SIDED|95.0|-0.227|0.261|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.261|-0.227|0.8916
82429703|NCT01634152|164566710|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089|STANDARD_ERROR_OF_MEAN|0.126||0.4789|TWO_SIDED|95.0|-0.336|0.158|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.158|-0.336|0.4789
82429704|NCT01634152|164566711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.074||0.8361|TWO_SIDED|95.0|-0.16|0.129|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.129|-0.160|0.8361
82429705|NCT01634152|164566711|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.087|STANDARD_ERROR_OF_MEAN|0.075||0.2461|TWO_SIDED|95.0|-0.233|0.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.060|-0.233|0.2461
82536400|NCT02909101|164771844|SUPERIORITY|||||||0.337|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.337
82536401|NCT02909101|164771845|SUPERIORITY|||||||0.025|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.025
82429706|NCT01634152|164566712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.067||0.6029|TWO_SIDED|95.0|-0.096|0.165|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.165|-0.096|0.6029
82429707|NCT01634152|164566712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.026|STANDARD_ERROR_OF_MEAN|0.067||0.7034|TWO_SIDED|95.0|-0.158|0.107|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.107|-0.158|0.7034
82429708|NCT01634152|164566713|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.776|STANDARD_ERROR_OF_MEAN|4.686||0.3083|TWO_SIDED|95.0|-4.419|13.97|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||13.970|-4.419|0.3083
82429709|NCT01634152|164566713|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.743|STANDARD_ERROR_OF_MEAN|4.747||0.3179|TWO_SIDED|95.0|-4.571|14.057|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||14.057|-4.571|0.3179
82429710|NCT01634152|164566714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.567|STANDARD_ERROR_OF_MEAN|4.807||0.9061|TWO_SIDED|95.0|-8.866|10.001|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||10.001|-8.866|0.9061
82429711|NCT01634152|164566714|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.107|STANDARD_ERROR_OF_MEAN|4.867||0.399|TWO_SIDED|95.0|-13.658|5.444|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||5.444|-13.658|0.3990
82429712|NCT01634152|164566715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|1.025||0.3542|TWO_SIDED|95.0|-2.959|1.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||1.060|-2.959|0.3542
82429713|NCT01634152|164566715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.502|STANDARD_ERROR_OF_MEAN|1.042||0.6298|TWO_SIDED|95.0|-2.545|1.541|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||1.541|-2.545|0.6298
82429714|NCT01634152|164566716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.032|STANDARD_ERROR_OF_MEAN|0.038||0.4066|TWO_SIDED|95.0|-0.107|0.043|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.043|-0.107|0.4066
82429715|NCT01634152|164566716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.049|STANDARD_ERROR_OF_MEAN|0.039||0.2032|TWO_SIDED|95.0|-0.125|0.027|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.027|-0.125|0.2032
82429716|NCT01634152|164566717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.051|STANDARD_ERROR_OF_MEAN|0.041||0.2064|TWO_SIDED|95.0|-0.131|0.028|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.028|-0.131|0.2064
82429717|NCT01634152|164566717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.061|STANDARD_ERROR_OF_MEAN|0.041||0.141|TWO_SIDED|95.0|-0.142|0.02|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.020|-0.142|0.1410
82429718|NCT01634152|164566718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001|STANDARD_ERROR_OF_MEAN|0.042||0.9869|TWO_SIDED|95.0|-0.083|0.082|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.082|-0.083|0.9869
82536402|NCT02909101|164771846|SUPERIORITY|||||||0.133|||||||ANCOVA|ANCOVAs were 2 (Arm) by 2 (Time). Covariates were age, WTAR standard score, and number of games improved (as a proxy of intervention engagement).||Estimated marginal means, adjusted for covariates in the model, are reported. The p-value reported is for the Arm by Time interaction effect.||||0.133
82536403|NCT04949399|164771865|SUPERIORITY||Difference (%)|30.4|||<|0.0001|TWO_SIDED|95.0|23.5|37.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||37.2|23.5|<.0001
82536404|NCT04949399|164771866|SUPERIORITY||Difference (%)|39.8|||<|0.0001|TWO_SIDED|95.0|32.0|47.7||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||47.7|32.0|<0.0001
82577219|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.141||0.7768|TWO_SIDED|95.0|-0.32|0.24|||MMRM|||Agitation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.32|0.7768
82429719|NCT01634152|164566718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.043||0.873|TWO_SIDED|95.0|-0.077|0.09|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.090|-0.077|0.8730
82429720|NCT01634152|164566719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.006|STANDARD_ERROR_OF_MEAN|0.049||0.9043|TWO_SIDED|95.0|-0.103|0.091|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.091|-0.103|0.9043
82429721|NCT01634152|164566719|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.05||0.7708|TWO_SIDED|95.0|-0.112|0.083|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.083|-0.112|0.7708
82429722|NCT01634152|164566720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.036|STANDARD_ERROR_OF_MEAN|0.052||0.4864|TWO_SIDED|95.0|-0.139|0.066|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.066|-0.139|0.4864
82450977|NCT00286494|164608404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.782|TWO_SIDED|95.0|-5.2|3.9||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.9|-5.2|0.782
82429723|NCT01634152|164566720|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.053||0.7991|TWO_SIDED|95.0|-0.117|0.09|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.090|-0.117|0.7991
82429724|NCT01634152|164566721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007|STANDARD_ERROR_OF_MEAN|0.05||0.8884|TWO_SIDED|95.0|-0.092|0.106|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.106|-0.092|0.8884
82429725|NCT01634152|164566721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.051||0.8115|TWO_SIDED|95.0|-0.112|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.088|-0.112|0.8115
82429726|NCT01634152|164566722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.051||0.7498|TWO_SIDED|95.0|-0.084|0.117|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.117|-0.084|0.7498
82429727|NCT01634152|164566722|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083|STANDARD_ERROR_OF_MEAN|0.052||0.1108|TWO_SIDED|95.0|-0.185|0.019|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.019|-0.185|0.1108
82429728|NCT01634152|164566723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.059||0.8055|TWO_SIDED|95.0|-0.131|0.102|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.102|-0.131|0.8055
82429729|NCT01634152|164566723|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.071|STANDARD_ERROR_OF_MEAN|0.06||0.236|TWO_SIDED|95.0|-0.189|0.047|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.047|-0.189|0.2360
82429730|NCT01634152|164566724|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.017|STANDARD_ERROR_OF_MEAN|0.041||0.6748|TWO_SIDED|95.0|-0.097|0.063|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.063|-0.097|0.6748
82536405|NCT04949399|164771867|SUPERIORITY||Difference (%)|41.6|||<|0.0001|TWO_SIDED|95.0|33.7|49.6||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||49.6|33.7|<0.0001
82429731|NCT01634152|164566724|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025|STANDARD_ERROR_OF_MEAN|0.041||0.5497|TWO_SIDED|95.0|-0.056|0.105|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.105|-0.056|0.5497
82536406|NCT04949399|164771870|SUPERIORITY||Difference (%)|54.8|||<|0.0001|TWO_SIDED|95.0|46.8|62.8||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||62.8|46.8|<.0001
82536407|NCT04949399|164771871|SUPERIORITY||Difference (%)|39.1|||<|0.0001|TWO_SIDED|95.0|30.5|47.8||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||47.8|30.5|<.0001
82652174|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.044||||0.8038|TWO_SIDED|95.0|-0.394|0.306||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.306|-0.394|0.8038
82450978|NCT00286494|164608405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.249|TWO_SIDED|95.0|-2.68|0.7||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.70|-2.68|0.249
82450979|NCT00286494|164608405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.303|TWO_SIDED|95.0|-2.56|0.8||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.80|-2.56|0.303
82450980|NCT00286494|164608406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.478|TWO_SIDED|95.0|-2.46|1.15||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.15|-2.46|0.478
82450981|NCT00286494|164608406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.674|TWO_SIDED|95.0|-1.41|2.17||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.17|-1.41|0.674
82450982|NCT00286494|164608407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.743|TWO_SIDED|95.0|-2.18|3.06||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.06|-2.18|0.743
82450983|NCT00286494|164608407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.662|TWO_SIDED|95.0|-3.18|2.02||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.02|-3.18|0.662
82450984|NCT00286494|164608408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75||||0.39|TWO_SIDED|95.0|-0.96|2.45||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.45|-0.96|0.390
82450985|NCT00286494|164608408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.423|TWO_SIDED|95.0|-1.0|2.38||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.38|-1.00|0.423
82450986|NCT00286494|164608409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.807|TWO_SIDED|95.0|-1.87|1.46||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.46|-1.87|0.807
82450987|NCT00286494|164608409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.867|TWO_SIDED|95.0|-1.79|1.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.51|-1.79|0.867
82450988|NCT00286494|164608410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.483|TWO_SIDED|95.0|-1.1|2.33||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.33|-1.10|0.483
82450989|NCT00286494|164608410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.352|TWO_SIDED|95.0|-0.89|2.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.51|-0.89|0.352
82450990|NCT00286494|164608411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057||||0.001|TWO_SIDED|95.0|-0.092|-0.022||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.022|-0.092|0.001
82536408|NCT04949399|164771872|SUPERIORITY||Difference (%)|44.6|||<|0.0001|TWO_SIDED|95.0|36.8|52.5||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||52.5|36.8|<.0001
82536409|NCT04949399|164771873|SUPERIORITY||Difference (SE)|-5.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-6.7|-4.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-4.7|-6.7|<.0001
82536410|NCT04949399|164771876|SUPERIORITY||Difference (%)|46.1|||<|0.0001|TWO_SIDED|96.0|38.1|54.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||54.2|38.1|<0.0001
82648474|NCT03341273|165012656|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-15.0|2.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D5V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D5V is 5.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||2|-15|
82652175|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.3||||0.0954|TWO_SIDED|95.0|-0.654|0.053||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.053|-0.654|0.0954
82429732|NCT01152437|164566725|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.122||||0.0735|TWO_SIDED|90.0|0.018|0.844||The statistical analysis is descriptive and exploratory in nature and performed only to provide a statistical framework from which to view the results and plan further studies.|Regression, Logistic|Wald Chi-square test and Confidence Interval from logistic regression stratified by number of lines of palliative chemotherapy.||Null hypothesis is that the objective response rate (ORR) in KRAS wild-type patients treated with afatinib is less than or equal to the ORR in KRAS wild-type patients treated with cetuximab. Sample size is based on a 'pick the winner' approach assuming ORR for cetuximab of 12%, undesirable ORR for afatinib of 11% and desirable ORR for afatinib of 16%. As per 'pick the winner' approach, afatinib would be considered 'the winner' if the ORR for afatinib was greater than the ORR for cetuximab.||0.844|0.018|0.0735
82429733|NCT01152437|164566726|SUPERIORITY_OR_OTHER||Percentage of participants|12.0||||0.6394|TWO_SIDED|90.0|4.9|23.9||The statistical analysis is descriptive and exploratory in nature and performed only to provide a statistical framework from which to view the results and plan further studies.|Exact binomial test|||Null hypothesis is that the disease control rate is 10% in patients with KRAS mutation. Sample size calculation based on a 2-sided exact binomial test at 10% significance level to distinguish between the historical disease control rate of 10% and a desirable disease control rate for afatinib of 25%.||23.9|4.9|0.6394
82429734|NCT00279214|164566735|SUPERIORITY_OR_OTHER|||||||0.238||95.0|||||Repeated Measures - propensity adjusted|||24-Hour p-value||||0.238
82429735|NCT00279214|164566735|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.281
82429736|NCT00279214|164566736|SUPERIORITY_OR_OTHER|||||||0.478||95.0||||P-value for 96 Hour Change from Baseline.|Mixed Models Analysis|Model: Outcome=Therapy + Sedative Indicator + Time + Therapy\*Time + Propensity Score||||||0.478
82429737|NCT00279214|164566737|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.442
82450991|NCT00286494|164608411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059||||0.001|TWO_SIDED|95.0|-0.093|-0.024||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.024|-0.093|0.001
82450992|NCT00286494|164608412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049||||0.006|TWO_SIDED|95.0|-0.084|-0.014||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.014|-0.084|0.006
82429738|NCT00279214|164566737|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.871
82429739|NCT00279214|164566738|SUPERIORITY_OR_OTHER|||||||0.704||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.704
82429740|NCT00279214|164566738|SUPERIORITY_OR_OTHER|||||||0.702||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.702
82429741|NCT00279214|164566739|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||6-Hour p-value|Repeated Measures - propensity adjusted|||||||0.061
82429742|NCT00279214|164566739|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||6-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.027
82429743|NCT00279214|164566740|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.242
82536411|NCT04949399|164771877|SUPERIORITY||Difference (%)|51.9|||<|0.0001|TWO_SIDED|95.0|43.3|60.5||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||60.5|43.3|<0.0001
82536412|NCT04949399|164771878|SUPERIORITY||Difference (%)|40.1|||<|0.0001|TWO_SIDED|95.0|31.3|49.0||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||49.0|31.3|<0.0001
82536413|NCT04949399|164771879|SUPERIORITY||Difference (%)|45.2|||<|0.0001|TWO_SIDED|95.0|37.1|53.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||53.2|37.1|<0.0001
82429744|NCT00279214|164566740|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||12-Hour p-value|Repeated Measures - propensity adjusted|||||||0.083
82429745|NCT00279214|164566740|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.810
82429746|NCT00279214|164566740|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.623
82429747|NCT00279214|164566741|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.686
82429748|NCT00279214|164566741|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.575
82429749|NCT00279214|164566742|SUPERIORITY_OR_OTHER|||||||0.165||95.0|||||Repeated Measures - propensity adjusted|||||||0.165
82429750|NCT00279214|164566744|SUPERIORITY_OR_OTHER|||||||0.552||95.0||||Baseline p-value|Repeated Measures - propensity adjusted|||||||0.552
82429751|NCT00279214|164566744|SUPERIORITY_OR_OTHER|||||||0.129||95.0||||12-Hour p-value|Repeated Measures - propensity adjusted|||||||0.129
82429752|NCT00279214|164566744|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.030
82429753|NCT00279214|164566744|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.002
82536414|NCT04949399|164771880|SUPERIORITY||Difference (SE)|-5.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-6.8|-4.6||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-4.6|-6.8|<0.0001
82536415|NCT04949399|164771881|SUPERIORITY||Difference (SE)|-5.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-6.7|-4.5||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 30||-4.5|-6.7|<0.0001
82536416|NCT04949399|164771881|SUPERIORITY||Difference (SE)|-5.0|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-6.0|-3.9||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 60||-3.9|-6.0|<0.0001
82536417|NCT04949399|164771881|SUPERIORITY||Difference (SE)|-3.9|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.9|-2.8||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 90||-2.8|-4.9|<0.0001
82536418|NCT01306331|164771882|NON_INFERIORITY|If the upper bound for the confidence interval of the difference was \< 5.5, then the null hypothesis would be rejected.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-2.2|3.2||||||The primary hypothesis test was performed using 95% confidence interval for the difference in cumulative pregnancy rates between the treatment arms. If the upper bound for the confidence interval of the difference was \< 5.5, then the null hypothesis would be rejected.||3.2|-2.2|
82536419|NCT01474538|164771896|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% confidence interval (CI) was below 0.4%, lispro was declared non-inferior to aspart.|LS Mean difference|0.1|||||TWO_SIDED|95.0|-0.002|0.21|||Mixed Models Analysis|||||0.210|-0.002|
82536420|NCT01474538|164771897|SUPERIORITY_OR_OTHER||LS Mean difference|-0.28|||||TWO_SIDED|95.0|-2.92|2.35|||Mixed Models Analysis|||||2.35|-2.92|
82536421|NCT01474538|164771898|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.94||||0.522|||||||Negative binomial|||||||0.522
82536422|NCT01474538|164771899|SUPERIORITY_OR_OTHER||LS Mean difference|-0.58||||0.216|||||||Grizzle Model|||||||0.216
82429754|NCT00279214|164566746|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||24-Hour p-value|Repeated Measures - propensity adjusted|||||||0.128
82429755|NCT00279214|164566746|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||24-Hour Change from Baseline p-value|Repeated Measures - propensity adjusted|||||||0.234
82429756|NCT01897532|164566758|NON_INFERIORITY|The non-inferiority margin was chosen as 1.3 (FDA Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes).|Hazard Ratio (HR)|1.02||||0.0002|TWO_SIDED|95.0|0.89|1.17||p-value for Hazard ratio (HR) ≥1.3 (1-sided)|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.17|0.89|0.0002
82429757|NCT01897532|164566758|OTHER||Hazard Ratio (HR)|1.02||||0.6301|TWO_SIDED|95.0|0.89|1.17||p-value for HR ≥1.0 (1-sided).|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.17|0.89|0.6301
82450993|NCT00286494|164608412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.004|TWO_SIDED|95.0|-0.086|-0.016||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.016|-0.086|0.004
82536423|NCT01474538|164771900|SUPERIORITY_OR_OTHER|||||||0.471|||||||Prescott test|||||||0.471
82536424|NCT02688621|164771905|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||The study was designed to detect a 2.2-kg group weight loss difference between groups with a standard deviation of 5.8 kg,4,5 a 5% Type I error rate, and 80% power. To adjust for possible clustering effects in this nested design, the adjusted variance estimate was increased to 7.67, calculated using a conservative intraclass correlation coefficient of 0.05.||||<.01
82536425|NCT00672256|164771945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
82536426|NCT00672256|164771946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
82536427|NCT00672256|164771947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
82536428|NCT00672256|164771948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|||<|0.05||95.0|||||Paired t-test|||Within group repeated measures design. Null hypothesis is that there will be no difference in percent signal change during active task relative to baseline.||||<0.05
82536429|NCT00810303|164771991|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536430|NCT00810303|164771992|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536431|NCT00810303|164771994|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
82536432|NCT00810303|164771995|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz with chronic treatment of ezetimibe.||||<0.05
82536433|NCT00810303|164771996|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
82536434|NCT00810303|164771996|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz with chronic treatment of ezetimibe.||||<0.05
82536435|NCT00810303|164771997|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
82536436|NCT00810303|164771998|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetics of efavirenz with chronic treatment of ezetimibe.||||<0.05
82536437|NCT00810303|164771999|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetic of efavirenz without chronic treatment of ezetimibe.||||<0.05
82652176|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.078||||0.6649|TWO_SIDED|95.0|-0.43|0.275||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.275|-0.430|0.6649
82429758|NCT01897532|164566759|OTHER||Hazard Ratio (HR)|1.04||||0.6918|TWO_SIDED|95.0|0.89|1.22||p-value for HR ≥1.0 (1-sided)|Regression, Cox|Based on a Cox regression model with terms for treatment group and region.||Cox proportional hazard regression model was performed to compare the effect of linagliptin versus placebo. Model included randomised treatment and geographical region as factors. Breslow's method was used for dealing with ties. First hypothesis (non-inferiority of the primary endpoint) was to be tested at the one-sided alpha-level of 2.5%. In case of significance the next set of hypotheses (two separate hypothesis tests) were to be tested with a sequentially rejective multiple test procedure.||1.22|0.89|0.6918
82429759|NCT03682965|164566760|SUPERIORITY|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82429760|NCT03682965|164566761|SUPERIORITY||||||<|0.05||||||The Holm-Bonferroni correction for multiple tests was used because the two outcomes are based on correlated data.|Clopper-Pearson binomial exact test|||The secondary efficacy endpoint was the percentage of days during peak pollen season for which the average total combined score was lower in the immunotherapy group than in the placebo group.||||<0.05
82429761|NCT03682965|164566763|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.23
82536438|NCT00810303|164771999|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between steady state pharmakokinetic of efavirenz with chronic treatment of ezetimibe and the single dose pharmakokinetics of efavirenz with chronic treatment of ezetimibe.||||<0.05
82536439|NCT00810303|164772000|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536440|NCT00810303|164772000|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
82536441|NCT00810303|164772001|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe alone and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536442|NCT00810303|164772001|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536443|NCT00810303|164772002|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
82536444|NCT00810303|164772002|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536445|NCT00810303|164772003|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
82536446|NCT00810303|164772004|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82429762|NCT00953706|164566768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.2||0.1509|TWO_SIDED|95.0|-0.6|4.1|||Mixed Models Analysis|||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit as fixed effects, and participant as a random effect, with adjustment for age and continuous baseline value of percent predicted FEV1.||4.1|-0.6|0.1509
82429763|NCT00953706|164566769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|2.1||0.5408|TWO_SIDED|95.0|-2.9|5.6|||Mixed Models Analysis|||Analysis for the respiratory domain score endpoint was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with the dependent variable being absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for for age and baseline value for CFQ-R score, using unstructured covariance matrix||5.6|-2.9|0.5408
82450994|NCT00286494|164608413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.05|TWO_SIDED|95.0|-0.092|0.0||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.000|-0.092|0.050
82450995|NCT00286494|164608413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.057||||0.014|TWO_SIDED|95.0|-0.102|-0.012||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.012|-0.102|0.014
82450996|NCT00286494|164608414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027||||0.144|TWO_SIDED|95.0|-0.064|0.009||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.064|0.144
82450997|NCT00286494|164608414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.105|TWO_SIDED|95.0|-0.067|0.006||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.006|-0.067|0.105
82450998|NCT00286494|164608415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.059||||0.004|TWO_SIDED|95.0|-0.1|-0.019||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.019|-0.100|0.004
82450999|NCT00286494|164608415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.012|TWO_SIDED|95.0|-0.092|-0.011||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.011|-0.092|0.012
82451000|NCT00286494|164608416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.028|TWO_SIDED|95.0|-0.095|-0.005||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.005|-0.095|0.028
82451001|NCT00286494|164608416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038||||0.093|TWO_SIDED|95.0|-0.082|0.006||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.006|-0.082|0.093
82451002|NCT00286494|164608417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.928|TWO_SIDED|95.0|-0.28|0.255||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.255|-0.280|0.928
82451003|NCT00286494|164608417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056||||0.683|TWO_SIDED|95.0|-0.212|0.324||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.324|-0.212|0.683
82536447|NCT00810303|164772005|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe alone.||||<0.05
82451004|NCT00286494|164608418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.967|TWO_SIDED|95.0|-0.277|0.265||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.265|-0.277|0.967
82451005|NCT00286494|164608418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135||||0.327|TWO_SIDED|95.0|-0.135|0.405||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.405|-0.135|0.327
82451006|NCT00286494|164608419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068||||0.649|TWO_SIDED|95.0|-0.363|0.226||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.226|-0.363|0.649
82536448|NCT00810303|164772005|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Paired Wilcoxon-test between free ezetimibe with chronic treatment of efavirenz and free ezetimibe with single dose treatment of efavirenz.||||<0.05
82536449|NCT02002819|164772006|SUPERIORITY||Mean Difference (Net)|0.07||||0.55|TWO_SIDED|95.0|-0.18|0.32|||ANOVA|||||0.32|-0.18|0.55
82652177|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.262||||0.1448|TWO_SIDED|95.0|-0.614|0.091||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.091|-0.614|0.1448
82536450|NCT02002819|164772007|SUPERIORITY||Mean Difference (Net)|2.9||||0.14|TWO_SIDED|95.0|-1.0|6.8|||ANOVA|||||6.8|-1.0|0.14
82536451|NCT02002819|164772008|SUPERIORITY||Mean Difference (Net)|-1.0||||0.43|TWO_SIDED|95.0|-3.4|1.5|||ANOVA|||||1.5|-3.4|.43
82536452|NCT02002819|164772009|SUPERIORITY||Mean Difference (Net)|0.1||||0.63|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||||0.4|-0.2|0.63
82536453|NCT02002819|164772010|SUPERIORITY||Mean Difference (Net)|0.1||||0.9|TWO_SIDED|95.0|-1.1|1.3|||ANOVA|||||1.3|-1.1|0.90
82536454|NCT02002819|164772011|SUPERIORITY||Mean Difference (Net)|0.0||||0.8|TWO_SIDED|95.0|-0.3|0.3|||ANOVA|||||0.3|-0.3|0.80
82429764|NCT00953706|164566770|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|1.4||0.0384|TWO_SIDED|95.0|-5.6|-0.2|||Mixed Models Analysis|||Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable being absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous age and baseline value for age, sweat chloride, using unstructured covariance matrix.||-0.2|-5.6|0.0384
82536455|NCT02002819|164772012|SUPERIORITY||Mean Difference (Net)|-1.0||||0.46|TWO_SIDED|95.0|-3.6|1.7|||ANOVA|||||1.7|-3.6|0.46
82429765|NCT00953706|164566771|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.7265|TWO_SIDED|95.0|-1.1|0.7|||Mixed Models Analysis|||The analysis used the linear mixed model with treatment as fixed effects, visit (days on study) and treatment by visit interaction as random effects, with adjustment for age group (\< 18 years and ≥ 18 years) and percent predicted forced expiratory volume (FEV1) severity (\< 70%, ≥ 70% to ≤ 90%, \> 90%) at screening, with random intercept and random slope. Rate of change in the study period is the slope of weight versus time (days) multiplied by the number of days in the study period (112 days).||0.7|-1.1|0.7265
82429766|NCT04050384|164566784|OTHER||||||<|0.001|||||||ANCOVA|These analyses apply to the Frontal, Central, and Central-Parietal regions.||||||<0.001
82429767|NCT04050384|164566785|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82429768|NCT00896012|164566787|OTHER|||||||0.222||||||Significance was considered to be P \< .05|t-test, 2 sided|||Statistical analysis was performed by analysis of variance and Student t test for estimated glomerular filtration rate (eGFR) at 12 months. Chi-square analysis was used for demographics data.||||0.222
82536456|NCT02002819|164772013|SUPERIORITY||Mean Difference (Net)|0.1||||0.4|TWO_SIDED|95.0|-0.9|1.1|||ANOVA|||||1.1|-0.9|0.40
82577220|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.137||0.7713|TWO_SIDED|95.0|-0.31|0.23|||MMRM|||Agitation, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.31|0.7713
82577221|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.151||0.0716|TWO_SIDED|95.0|-0.58|0.02|||MMRM|||Agitation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.58|0.0716
82577222|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.148||0.4317|TWO_SIDED|95.0|-0.41|0.18|||MMRM|||Agitation, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.41|0.4317
82652178|NCT02637557|165019485|SUPERIORITY||LS Mean Difference|-0.403||||0.0264|TWO_SIDED|95.0|-0.759|-0.048||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.048|-0.759|0.0264
82429769|NCT01783444|164566789|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|0.74|||||TWO_SIDED|90.0|0.57|0.97||||||||0.97|0.57|
82429770|NCT01783444|164566790|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.26|||||TWO_SIDED|90.0|0.96|1.66||||||||1.66|0.96|
82429771|NCT01783444|164566791|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.27|||||TWO_SIDED|90.0|0.95|1.7||||||||1.70|0.95|
82429772|NCT01783444|164566791|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.33|||||TWO_SIDED|90.0|0.99|1.79||||||||1.79|0.99|
82429773|NCT01783444|164566794|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.09|||||TWO_SIDED|90.0|0.72|1.66||||||||1.66|0.72|
82429774|NCT01783444|164566794|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.18|||||TWO_SIDED|90.0|0.78|1.77||||||||1.77|0.78|
82429775|NCT01783444|164566795|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|0.64|||||TWO_SIDED|90.0|0.46|0.88||||||||0.88|0.46|
82429776|NCT01783444|164566795|NON_INFERIORITY|Hazard ratio obtained from stratified Cox model (stratified by presence/absence of visceral metastasis as per IWRS)|Hazard Ratio (HR)|1.33|||||TWO_SIDED|90.0|0.93|1.91||||||||1.91|0.93|
82577223|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.162||0.2115|TWO_SIDED|95.0|-0.52|0.12|||MMRM|||Agitation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.52|0.2115
82429777|NCT01783444|164566796|OTHER||Mean Difference (Net)|4.3|||||TWO_SIDED|90.0|-3.3|11.9||||||Side-effects||11.9|-3.3|
82429778|NCT01783444|164566796|OTHER||Mean Difference (Net)|-2.2|||||TWO_SIDED|90.0|-9.9|5.5||||||Side-effects||5.5|-9.9|
82429779|NCT01783444|164566796|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-10.4|3.8||||||Effectiveness||3.8|-10.4|
82536457|NCT02002819|164772014|SUPERIORITY||Mean Difference (Net)|7.4||||0.046|TWO_SIDED|95.0|0.2|14.7|||ANOVA|||||14.7|0.2|0.046
82536458|NCT02002819|164772015|SUPERIORITY||Mean Difference (Net)|-2.5||||0.3|TWO_SIDED|95.0|-7.8|2.7|||ANOVA|||||2.7|-7.8|.30
82536459|NCT02002819|164772016|SUPERIORITY||Mean Difference (Net)|3.8||||0.52|TWO_SIDED|95.0|-8.5|16.0|||Cohen f|||||16.0|-8.5|0.52
82429780|NCT01783444|164566796|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-9.7|3.0||||||Effectiveness||3.0|-9.7|
82429781|NCT01783444|164566796|OTHER||Mean Difference (Net)|-1.6|||||TWO_SIDED|90.0|-5.8|2.5||||||Convenience||2.5|-5.8|
82429782|NCT01783444|164566796|OTHER||Mean Difference (Net)|-1.1|||||TWO_SIDED|90.0|-5.5|3.3||||||Convenience||3.3|-5.5|
82429783|NCT01783444|164566796|OTHER||Mean Difference (Net)|-2.7|||||TWO_SIDED|90.0|-8.3|2.9||||||Global Satisfaction||2.9|-8.3|
82429784|NCT01783444|164566796|OTHER||Mean Difference (Net)|-3.3|||||TWO_SIDED|90.0|-8.4|1.9||||||Global Satisfaction||1.9|-8.4|
82429785|NCT00552071|164566798|OTHER|||||||0.4||||||A two-sided p value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.40
82429786|NCT00552071|164566799|OTHER|||||||0.43||||||A two-sided p value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.43
82429787|NCT00954447|164566817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.74|-0.55|||ANCOVA||Linagliptin 5mg - Placebo|||-0.55|-0.74|<0.0001
82451007|NCT00286494|164608419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.051||||0.735|TWO_SIDED|95.0|-0.344|0.243||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.243|-0.344|0.735
82451008|NCT00286494|164608420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.114|TWO_SIDED|95.0|-0.053|0.492||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.492|-0.053|0.114
82429788|NCT00954447|164566818|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.935|||<|0.0001||95.0|1.949|4.419|||Regression, Logistic|Logistic regression of HbA1c \< 7.0 percent at week 52|Linagliptin 5mg vs. Placebo OR adjusted for baseline HbA1c, categorical renal function impairment, concomitant OADs and treatment|FAS with baseline HbA1c \>= 7.0 percent (NCF); there are 593 available values for Placebo and 595 for Linagliptin 5mg||4.419|1.949|<0.0001
82429789|NCT00954447|164566820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|-0.51|-0.39|||ANCOVA||Linagliptin 5mg - Placebo|||-0.39|-0.51|<0.0001
82429790|NCT00954447|164566821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.69|-0.52|||ANCOVA||Linagliptin 5mg - Placebo|||-0.52|-0.69|<0.0001
82429791|NCT00954447|164566822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.76|-0.57|||ANCOVA||Linagliptin 5mg - Placebo|||-0.57|-0.76|<0.0001
82429792|NCT00954447|164566823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.67|-0.47|||ANCOVA||Linagliptin 5mg - Placebo|||-0.47|-0.67|<0.0001
82429793|NCT00954447|164566824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.65|-0.45|||ANCOVA||Linagliptin 5mg - Placebo|||-0.45|-0.65|<0.0001
82429794|NCT00954447|164566825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.64|-0.43|||ANCOVA||Linagliptin 5mg - Placebo|||-0.43|-0.64|<0.0001
82429795|NCT00954447|164566826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001||95.0|-16.49|-6.71|||ANCOVA||Linagliptin 5mg - Placebo|||-6.71|-16.49|<0.0001
82429796|NCT00954447|164566829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.53||0.0029||95.0|-2.61|-0.54|||ANCOVA||Linagliptin 5mg - Placebo|||-0.54|-2.61|0.0029
82429797|NCT00954447|164566832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.327|||<|0.0001||95.0|2.221|8.43|||Regression, Logistic|Logistic regression of HbA1c \< 6.5 percent at week 52|Linagliptin 5mg vs. Placebo OR adjusted for baseline HbA1c, categorical renal function impairment, concomitant OADs and treatment|FAS with baseline HbA1c \>= 6.5 percent (NCF); there are 615 available values for Placebo and 616 for Linagliptin 5mg||8.430|2.221|<0.0001
82429798|NCT01047189|164566852|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Kruskal-Wallis|||||||0.05
82429799|NCT01639469|164566878|SUPERIORITY||Incidence Rate Ratio|0.39|||<|0.001|TWO_SIDED|95.0|0.22|0.68|||Negative Binomial Regression|||Testing to see if there is a significant difference in fall rates over 12months between the two groups.||0.68|0.22|<0.001
82429800|NCT01119443|164566879|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.2|||||TWO_SIDED|90.0|98.3|110.3|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||110.3|98.3|
82429801|NCT01119443|164566880|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.8||||||90.0|100.1|109.8|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.8|100.1|
82429802|NCT01119443|164566881|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|108.31|||||TWO_SIDED|90.0|95.634|122.676|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||122.676|95.634|
82429803|NCT01119443|164566882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|106.85|||||TWO_SIDED|90.0|93.189|122.251|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||122.251|93.189|
82429804|NCT01119443|164566883|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|98.426|||||TWO_SIDED|90.0|84.276|112.58|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.58|84.276|
82429805|NCT01119443|164566884|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|95.11|||||TWO_SIDED|90.0|82.461|109.698|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.698|82.461|
82536460|NCT02002819|164772017|SUPERIORITY||Mean Difference (Net)|0.7||||0.4|TWO_SIDED|95.0|-1.0|2.4|||ANOVA|||||2.4|-1.0|0.40
82451009|NCT00286494|164608420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238||||0.086|TWO_SIDED|95.0|-0.033|0.51||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.510|-0.033|0.086
82451010|NCT00286494|164608421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.835|TWO_SIDED|95.0|-0.221|0.273||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.273|-0.221|0.835
82451011|NCT00286494|164608421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131||||0.296|TWO_SIDED|95.0|-0.115|0.378||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.378|-0.115|0.296
82451012|NCT00286494|164608422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123||||0.349|TWO_SIDED|95.0|-0.134|0.38||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.380|-0.134|0.349
82451013|NCT00286494|164608422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.223||||0.089|TWO_SIDED|95.0|-0.034|0.479||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.479|-0.034|0.089
82451014|NCT00286494|164608423|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.815||||0.003|TWO_SIDED|95.0|1.736|13.358|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||13.358|1.736|0.003
82451015|NCT00286494|164608423|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.533|||<|0.001|TWO_SIDED|95.0|2.017|15.176|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||15.176|2.017|<0.001
82536461|NCT02002819|164772018|SUPERIORITY||Mean Difference (Net)|-0.2||||0.63|TWO_SIDED|95.0|-1.1|0.7|||ANOVA|||||0.7|-1.1|0.63
82536462|NCT02002819|164772020|SUPERIORITY||Mean Difference (Net)|0.8||||0.15|TWO_SIDED|95.0|-0.3|1.8|||ANOVA|||||1.8|-0.3|.15
82536463|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-4.3|12.3|||||RD is for retention 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||12.3|-4.3|
82536464|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|9.1|||||TWO_SIDED|95.0|0.9|17.2|||||RD is for retention 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||17.2|0.9|
82536465|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|1.0|9.1|||||RD is for retention 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||9.1|1|
82577224|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.158||0.2818|TWO_SIDED|95.0|-0.48|0.14|||MMRM|||Agitation, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.48|0.2818
82652179|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|0.102||||0.4137|TWO_SIDED|95.0|-0.143|0.347||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.347|-0.143|0.4137
82451016|NCT00286494|164608424|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.903||||0.029|TWO_SIDED|95.0|1.067|3.393|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.393|1.067|0.029
82451017|NCT00286494|164608424|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.301||||0.005|TWO_SIDED|95.0|1.291|4.1|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regiment \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.100|1.291|0.005
82451018|NCT00286494|164608425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.783|||<|0.001|TWO_SIDED|95.0|1.547|5.005|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.005|1.547|<0.001
82451019|NCT00286494|164608425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.917|||<|0.001|TWO_SIDED|95.0|2.147|7.146|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.146|2.147|<0.001
82451020|NCT00286494|164608426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.134|||<|0.001|TWO_SIDED|95.0|2.392|7.146|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.146|2.392|<0.001
82451021|NCT00286494|164608426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.247|||<|0.001|TWO_SIDED|95.0|3.027|9.094|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||9.094|3.027|<0.001
82451022|NCT00286494|164608427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.001|TWO_SIDED|95.0|1.789|7.532|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||7.532|1.789|<0.001
82451023|NCT00286494|164608427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.693|||<|0.001|TWO_SIDED|95.0|2.303|9.56|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||9.560|2.303|<0.001
82536466|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-0.8|1.6|||||RD is for transfer 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||1.6|-0.8|
82536467|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.9|0.8|||||RD is for transfer 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.8|-0.9|
82577225|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.14||0.2018|TWO_SIDED|95.0|-0.46|0.1|||MMRM|||Agitation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.46|0.2018
82451024|NCT00286494|164608428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.8||||0.015|TWO_SIDED|95.0|1.3|11.107|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.107|1.300|0.015
82451025|NCT00286494|164608428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.196||||0.002|TWO_SIDED|95.0|1.806|14.95|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||14.950|1.806|0.002
82451026|NCT00286494|164608429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.959||||0.364|TWO_SIDED|95.0|0.459|8.362|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||8.362|0.459|0.364
82451027|NCT00286494|164608429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.849||||0.146|TWO_SIDED|95.0|0.696|11.672|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline pioglitazone dose, baseline treatment regimen \& baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||11.672|0.696|0.146
82451028|NCT00286494|164608430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.718|TWO_SIDED|95.0|-0.45|0.65||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose,baseline value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.65|-0.45|0.718
82429806|NCT01119443|164566886|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fed condition|Test/Reference Ratio of the mean x 100|104.07|||||TWO_SIDED|90.0|91.585|118.263|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||118.263|91.585|
82429807|NCT01119443|164566887|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|93.6||||||90.0|86.9|100.8|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.8|86.9|
82429808|NCT01119443|164566888|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|100.2|||||TWO_SIDED|90.0|94.0|106.7|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.7|94.0|
82429809|NCT01119443|164566889|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|86.57|||||TWO_SIDED|90.0|73.583|101.854|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.854|73.583|
82429810|NCT01119443|164566890|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|86.57|||||TWO_SIDED|90.0|73.583|101.854|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.854|73.583|
82429811|NCT01119443|164566891|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|99.069|||||TWO_SIDED|90.0|80.688|117.45|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||117.45|80.688|
82429812|NCT01119443|164566892|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|109.48|||||TWO_SIDED|90.0|89.571|133.811|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||133.811|89.571|
82429813|NCT01119443|164566894|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence between pramipexole ER 1.5 mg x 1 tablet q.d. and pramipexole ER 0.375 mg x 4 tablets q.d. in fasted condition|Test/Reference Ratio of the mean x 100|92.63|||||TWO_SIDED|90.0|77.871|110.185|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||110.185|77.871|
82536468|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-1.7|0.7|||||RD is for transfer 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.7|-1.7|
82652180|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|0.147||||0.2395|TWO_SIDED|95.0|-0.098|0.392||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.392|-0.098|0.2395
82429814|NCT00512278|164566962|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a 25% difference in the rate of SVR between the PEG INF/RBV plus infliximab group (70%) and the PEG INF/RBV (45%) group, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated||||||0.718|||||||t-test, 2 sided|||||||0.718
82429815|NCT00512278|164566964|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a 25% difference in the rate of SVR between the PEG INF/RBV plus infliximab group (70%) and the PEG INF/RBV (45%) group, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated.||||||0.718|TWO_SIDED|95.0||||Univariate and multivariable logistic regression were used for factors associated with an SVR.|t-test, 2 sided|||SVR was the primary outcome to calculate sample size. Assuming a 25% difference in the rate of SVR between the the two groups, a power of 0.85 and an alpha level of 0.05, 75 patients for each group was estimated. This analysis included patients randomized and received at least one dose of study drugs. A 2-sided probability value of \< 0.05 was considered statistically significant. Univariate and multivariable logistic regression were used for factors associated with an SVR.||||0.718
82429816|NCT00775268|164566967|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
82429817|NCT00775268|164566968|SUPERIORITY|||||||0.0313|||||||Wilcoxon matched-pairs signed rank test|||||||0.0313
82429818|NCT01194245|164566986|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be supported if the upper limit of the two-sided 95% confidence interval for the difference between Analog-PH20 and the comparator (insulin lispro) did not exceed 0.40.|LS Means Difference|0.05||||0.2878|TWO_SIDED|95.0|-0.05|0.15|||Mixed Models Analysis|||Approximately 110 participants were to be enrolled, allowing approximately 88 participants to complete both treatment periods (44 for each investigational drug). Assuming a dropout rate of no more than 20%, intra-participant correlation of 0.80, standard deviation of 1.2, and a true difference of 0, the study would have a greater than 90% power to show that Analog-PH20 was non-inferior to insulin lispro alone with respect to the change from baseline in A1C at the end of each treatment period.||0.15|-0.05|0.2878
82429819|NCT05501639|164567063|OTHER|||||||0.758|||||||Log Rank|||||||0.758
82429820|NCT05501639|164567064|OTHER|||||||0.474|||||||Log Rank|||||||0.474
82429821|NCT05501639|164567065|OTHER|||||||0.472|||||||Chi-squared|||||||0.472
82429822|NCT05501639|164567066|OTHER||Incidence rate ratio|0.647|||||TWO_SIDED|95.0|0.261|1.604|||||Incidence rate ratio at 6 months|||1.604|0.261|
82429823|NCT05501639|164567066|OTHER||Incidence rate ratio|1.005|||||TWO_SIDED|95.0|0.513|1.969|||||Incidence rate ratio at 12 months|||1.969|0.513|
82429824|NCT05501639|164567067|OTHER|||||||0.222|||||||Chi-squared|||Hospitalisations||||0.222
82429825|NCT05501639|164567067|OTHER|||||||0.553|||||||Chi-squared|||Asthma-related hospitalisations||||0.553
82429826|NCT05501639|164567067|OTHER|||||||0.192|||||||Chi-squared|||ED visits||||0.192
82429827|NCT05501639|164567067|OTHER|||||||0.383|||||||Chi-squared|||Asthma-related ED visits||||0.383
82429828|NCT05501639|164567067|OTHER|||||||0.338|||||||Chi-squared|||OP visits||||0.338
82429829|NCT05501639|164567067|OTHER||||||<|0.0001|||||||Chi-squared|||Asthma-related OP visits||||<0.0001
82429830|NCT05501639|164567068|OTHER|||||||0.538|||||||t-test, 2 sided|||Hospitalisations||||0.538
82429831|NCT05501639|164567068|OTHER|||||||0.913|||||||t-test, 2 sided|||Asthma-related hospitalisations||||0.913
82429832|NCT05501639|164567068|OTHER|||||||0.688|||||||t-test, 2 sided|||ED visits||||0.688
82429833|NCT05501639|164567068|OTHER|||||||0.892|||||||t-test, 2 sided|||Asthma-related ED visits||||0.892
82429834|NCT05501639|164567068|OTHER||||||<|0.0001|||||||t-test, 2 sided|||OP visits||||<0.0001
82652181|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.036||||0.7729|TWO_SIDED|95.0|-0.284|0.212||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.212|-0.284|0.7729
82429835|NCT05501639|164567068|OTHER|||||||0.002|||||||t-test, 2 sided|||Asthma-related OP visits||||0.002
82451029|NCT00286494|164608430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.906|TWO_SIDED|95.0|-0.52|0.58||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.58|-0.52|0.906
82451030|NCT00286494|164608431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.672|TWO_SIDED|95.0|-0.5|0.78||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.78|-0.50|0.672
82429836|NCT05501639|164567069|OTHER|||||||0.378|||||||Chi-squared|||||||0.378
82536469|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||RD is for death 3MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.2|-0.4|
82429837|NCT00251693|164567070|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 60 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|6.33||||0.004||95.0|2.17|10.48||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||10.48|2.17|0.004
82429838|NCT00251693|164567070|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 95% CI was greater than -10%, noninferiority was concluded. Superiority of primary efficacy endpoint was assessed by comparing the crude healing rate of dexlansoprazole MR 90 mg dose to that of lansoprazole 30 mg using a Cochran Mantel Haenszel (CMH) test with baseline LA EE Grade as strata.|Difference in percentage|6.84||||0.001||95.0|2.7|10.98||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Cochran-Mantel-Haenszel|||||10.98|2.70|0.001
82429839|NCT00251693|164567070|SUPERIORITY_OR_OTHER|||||||0.727||95.0||||Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.727
82429840|NCT00251693|164567071|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.002
82429841|NCT00251693|164567071|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.045
82429842|NCT00251693|164567071|SUPERIORITY_OR_OTHER|||||||0.245||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.245
82429843|NCT00251693|164567072|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.011
82429844|NCT00251693|164567072|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.017
82429845|NCT00251693|164567072|SUPERIORITY_OR_OTHER|||||||0.927||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.927
82429846|NCT00251693|164567073|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|6.2||||0.06||95.0|2.3|10.11||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||10.11|2.30|0.060
82429847|NCT00251693|164567073|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was supported if the lower bound of the 95% CI for the difference with lansoprazole 30 mg of the estimated 8-week healing rate was greater than -10%. Superiority was assessed based on log-rank tests comparing treatments for the endpoints.|Difference in percentage|6.08||||0.029||95.0|2.16|10.0||Unadjusted p-value is presented. The overall 0.05 level of significance for the multiple comparisons of each dexlansoprazole dose to lansoprazole was controlled using Hochberg's method.|Log Rank|||||10.00|2.16|0.029
82429848|NCT00251693|164567073|SUPERIORITY_OR_OTHER|||||||0.707||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.707
82429849|NCT00251693|164567074|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.705
82451031|NCT00286494|164608431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.922|TWO_SIDED|95.0|-0.61|0.67||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.67|-0.61|0.922
82451032|NCT00286494|164608432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.607|TWO_SIDED|95.0|-0.56|0.96||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.96|-0.56|0.607
82451033|NCT00286494|164608432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.985|TWO_SIDED|95.0|-0.77|0.76||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.76|-0.77|0.985
82451034|NCT00286494|164608433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.294|TWO_SIDED|95.0|-0.37|1.22||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.22|-0.37|0.294
82451035|NCT00286494|164608433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9|TWO_SIDED|95.0|-0.74|0.84||No multiplicity adjustments.|ANCOVA|Treatment, geographic region and baseline treatment regimen as class variables; baseline pioglitazone dose and value for endpoint as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.84|-0.74|0.900
82451036|NCT05438576|164608572|SUPERIORITY||Odds Ratio (OR)|2.12||||0.032|TWO_SIDED|95.0|1.05|4.27|||Regression, Logistic|||||4.27|1.05|0.032
82451037|NCT05438576|164608577|SUPERIORITY||Odds Ratio (OR)|1.1||||0.621|TWO_SIDED|95.0|0.74|1.64|||Regression, Logistic|||||1.64|0.74|0.621
82451038|NCT02881762|164608580|OTHER|Comparison of mean change analyzed with unpaired t-test for parametric data. The test was performed with a significance level of 0.05 (two-sided).||||||0.13|||||||t-test, 2 sided|||Null hypothesis is that there is no difference in change in HCV viral load between Maraviroc and No Maraviroc||||0.13
82536470|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.9|0.8|||||RD is for death 6MD vs. SOC.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.8|-0.9|
82451039|NCT02881762|164608581|OTHER|Comparison of difference in mean analyzed with paired t-test for parametric data. The test was performed with a significance level of 0.05 (two-sided).|||||>|0.5|||||||t-test, 2 sided|||Null hypothesis is that there is no difference in HCV viral load between baseline and 7 days of maraviroc.||||>0.5
82451040|NCT00465088|164608582|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05|Mixed Models Analysis|||An n = 81 for niacin extended-release with simvastatin and n = 54 for atorvastatin would provide \> 99% power to detect a 13% increase in HDL-C with niacin extended-release with simvastatin relative to atorvastatin, assuming an SD of 16%||||<0.001
82652182|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|0.079||||0.5824|TWO_SIDED|95.0|-0.205|0.363||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.363|-0.205|0.5824
82429850|NCT00251693|164567074|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Cochran-Mantel-Haenszel|||||||0.146
82429851|NCT00251693|164567074|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||||||0.283
82451041|NCT02932748|164608611|SUPERIORITY||||||<|0.0001||||||A global one-way ANOVA was followed by two pairwise t-tests on the comparisons of interest, i.e., IP vs. EUC, and GP vs IP for weight change across 6 months, evaluated at p ≤ 0.025, using both intent-to-treat and completer only data.|ANOVA|||||||<.0001
82451042|NCT04124705|164608624|NON_INFERIORITY|If the lower limit of the 2-sided 95% confidence interval for stratified response rate difference was greater than the non-inferiority margin, the null hypothesis would be rejected and the noninferiority of Armour Thyroid to levothyroxine would be declared.|Stratified Response Rate Difference|-15.16|||||TWO_SIDED|95.0|-26.1|-4.23|||||The response rate difference (Armour Thyroid group minus Levothyroxine group) and the 95% confidence interval were calculated using the Mantel-Haenszel-weighted method with the age group (age \< 65 years or ≥ 65 years) as a stratification factor.|The null hypothesis was that Armour Thyroid would be inferior to levothyroxine for the primary efficacy endpoint, sustained TSH response. The non-inferiority hypothesis test was performed at a 1-sided 2.5% level of significance (equivalent to a two-sided 5% level of significance).||-4.23|-26.10|
82429852|NCT00251693|164567075|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.896
82429853|NCT00251693|164567075|SUPERIORITY_OR_OTHER|||||||0.241||95.0||||Unadjusted p-value is presented. Statistical significance was determined at 0.05 level by Hommel-Simes method within treatment and Hochberg method for comparisons of each dexlansoprazole dose to lansoprazole.|Log Rank|||||||0.241
82429854|NCT00251693|164567075|SUPERIORITY_OR_OTHER|||||||0.211||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Log Rank|||||||0.211
82429855|NCT02525679|164567101|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.5968|STANDARD_ERROR_OF_MEAN|0.1047|||TWO_SIDED|95.0|1.3784|1.8151|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for Cmax (log-transformed scale) was explored based on the linear regression model.||1.8151|1.3784|
82429856|NCT02525679|164567101|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0207|STANDARD_ERROR_OF_MEAN|0.0261|||TWO_SIDED|95.0|0.9668|1.0747|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for Cmax (log-transformed scale) was explored based on the linear regression model.||1.0747|0.9668|
82429857|NCT02525679|164567103|SUPERIORITY_OR_OTHER_LEGACY||Slope|2.7123|STANDARD_ERROR_OF_MEAN|0.2525|||TWO_SIDED|95.0|2.1856|3.2389|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for AUC(0-tz) (log-transformed scale) was explored based on the linear regression model.||3.2389|2.1856|
82429858|NCT02525679|164567103|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0003|STANDARD_ERROR_OF_MEAN|0.0253|||TWO_SIDED|95.0|0.9482|1.0525|||||Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error (SE) of the mean is actually SE of the slope.|Dose proportionality in plasma for AUC(0-tz) (log-transformed scale) was explored based on the linear regression model.||1.0525|0.9482|
82429859|NCT01646814|164567120|SUPERIORITY|||||||0.019|||||||Chi-squared|||||||0.019
82429860|NCT01911351|164567125|SUPERIORITY_OR_OTHER||kappa statistic|0.88|||<|0.001|TWO_SIDED|||||A priori threshold for statistical significance: p\< or = 0.05|Chi-squared|||A kappa statistic was performed for 75% of the group to assess inter-rater agreement of the perception of the success of the procedure.||||<0.001
82429861|NCT04422431|164567126|OTHER|||||||0.1002|||||||t-test, 2 sided|||||||0.1002
82429862|NCT01333436|164567142|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.8|STANDARD_DEVIATION|36.8||0.0078||95.0|||||t-test, 2 sided|||||||0.0078
82429863|NCT01333436|164567143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.5|STANDARD_DEVIATION|13.9||0.0675||95.0|||||t-test, 2 sided|||||||0.0675
82429864|NCT01333436|164567144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|4.8||0.1798||95.0|||||t-test, 2 sided|||||||0.1798
82429865|NCT01900665|164567160|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.095|TWO_SIDED|95.0|-1.73|0.14|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate the denominator degrees of freedom.||||0.14|-1.73|0.095
82429866|NCT02317627|164567181|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD PASI from baseline to Week 12.||||||0.0282||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0282
82429867|NCT02317627|164567181|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID PASI from baseline to Week 12.||||||0.0035||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0035
82429868|NCT02317627|164567181|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID PASI from baseline to Week 12.||||||0.0261||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0261
82429869|NCT02317627|164567181|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change for all subjects' PASI from baseline to Week 12.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
82429870|NCT02317627|164567182|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD PASI from baseline to Week 12.||||||0.0282||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0282
82429871|NCT02317627|164567182|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID PASI from baseline to Week 12.||||||0.0029||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0029
82429872|NCT02317627|164567182|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID PASI from baseline to Week 12.||||||0.0703||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0703
82429873|NCT02317627|164567182|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects' PASI from baseline to Week 12.||||||0.0002||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0002
82429874|NCT02317627|164567187|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to Week 4.||||||0.0064||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0064
82429875|NCT02317627|164567187|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to Week 4.||||||0.0479||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0479
82577226|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.137||0.6554|TWO_SIDED|95.0|-0.33|0.21|||MMRM|||Agitation, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.33|0.6554
82577227|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.168||0.4754|TWO_SIDED|95.0|-0.21|0.46|||MMRM|||Agitation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.46|-0.21|0.4754
82577228|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.163||0.7776|TWO_SIDED|95.0|-0.28|0.37|||MMRM|||Agitation, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.28|0.7776
82577229|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.213||0.7172|TWO_SIDED|95.0|-0.5|0.35|||MMRM|||Agitation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.50|0.7172
82536471|NCT03101592|164772023|NON_INFERIORITY|We estimated that approximately 5% of subjects would fail to be retained in care in the standard of care arm, and a retention rate \<7·5% to be non-inferior in the three-month or six-month study arms, with a 2·5% non-inferiority margin. Assuming an alpha of 0.05, power of 90%, and an intracluster correlation coefficient (ICC) of 0·004, we estimated a sample size of 271 subjects per cluster for a total of 2,710 subjects per arm and 8,130 total individuals.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||RD is for death 6MD vs. 3MD.|Our sample size was estimated for a cluster-randomized non-inferiority trial. We had 30 clusters available for randomization and assumed a fixed number of clusters (k), an equal number of clusters per arm, and an equal number of subjects per cluster.||0.3|-0.3|
82536472|NCT01363479|164772028|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis was rejected (and non inferiority of oral palonosetron 0.50 mg versus I.V. palonosetron 0.25 mg demonstrated), if the lower limit of the 2 sided 99% CI for the difference in proportion of patients with CR (risk difference) was greater (i.e., closer to zero) than 15%.Study had 90% power.|Risk Difference (RD)|3.21|||||TWO_SIDED|99.0|-2.74|9.17|||||The risk difference and the 99% CI calculation were performed using a 2 sided stratum adjusted Cochran Mantel Haenszel (CMH) test including gender and region as strata.|||9.17|-2.74|
82536473|NCT03582956|164772091|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||||||0.525
82536474|NCT03582956|164772092|SUPERIORITY|||||||0.607|||||||t-test, 2 sided|||||||0.607
82429876|NCT02317627|164567187|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to Week 4.||||||0.1513||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.1513
82429877|NCT02317627|164567187|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to Week 4.||||||0.0002||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0002
82429878|NCT02317627|164567188|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to Week 8.||||||0.0137||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0137
82429879|NCT02317627|164567188|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to Week 8.||||||0.0017||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0017
82429880|NCT02317627|164567188|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to Week 8.||||||0.0743||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0743
82536475|NCT03582956|164772093|SUPERIORITY|||||||0.466|||||||t-test, 2 sided|||||||0.466
82536476|NCT03582956|164772094|SUPERIORITY|||||||0.414|||||||t-test, 2 sided|||||||0.414
82536477|NCT05096117|164772131|SUPERIORITY||Least Square Mean Difference|0.178||||0.784|TWO_SIDED||||||ANCOVA|||||||0.784
82577230|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.203||0.4791|TWO_SIDED|95.0|-0.55|0.26|||MMRM|||Agitation, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.55|0.4791
82577231|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.164||0.3562|TWO_SIDED|95.0|-0.48|0.17|||MMRM|||Agitation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.48|0.3562
82652183|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|0.028||||0.8466|TWO_SIDED|95.0|-0.256|0.312||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.312|-0.256|0.8466
82429881|NCT02317627|164567188|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to Week 8.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
82429882|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 4 weeks.||||||0.014||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0140
82429883|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 4 weeks.||||||0.062||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0620
82429884|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in 400 mg BID from baseline to 4 weeks.||||||0.262||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.2620
82429885|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects from baseline to 4 weeks.||||||0.0008||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0008
82429886|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 8 weeks.||||||0.0137||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0137
82451043|NCT04124705|164608625|NON_INFERIORITY|If the lower limit of the 2-sided 95% confidence interval for stratified response rate difference was greater than the non-inferiority margin, the null hypothesis would be rejected and the noninferiority of Armour Thyroid to levothyroxine would be declared.|Stratified Response Rate Difference|-10.52|||||TWO_SIDED|95.0|-18.65|-2.38|||||The response rate difference (Armour Thyroid group minus Levothyroxine group) and the 95% confidence interval were calculated using the Mantel-Haenszel-weighted method with the age group (age \< 65 years or ≥ 65 years) as a stratification factor.|The null hypothesis was that Armour Thyroid would be inferior to levothyroxine for titration TSH response. The non-inferiority hypothesis test was performed at a 1-sided 2.5% level of significance.||-2.38|-18.65|
82451044|NCT05758402|164608627|OTHER||Rate difference|1.21||||0.544|TWO_SIDED|95.0|-2.71|5.13|||Chi-squared||Rate difference = detection rate of PsA in EARP group - detection rate of PsA in routine practice group|||5.13|-2.71|0.544
82451045|NCT05758402|164608628|OTHER|||||||0.256|||||||Chi-squared|||Sensitivity||||0.256
82451046|NCT05758402|164608628|OTHER||||||<|0.001|||||||Chi-squared|||Specificity||||<0.001
82451047|NCT05758402|164608628|OTHER|||||||0.336|||||||Fisher Exact|||Positive Predictive Value (PPV)||||0.336
82451048|NCT05758402|164608628|OTHER|||||||0.49|||||||Chi-squared|||Negative Predictive Value (NPV)||||0.490
82429887|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 8 weeks.||||||0.0064||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0064
82429888|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to 8 weeks.||||||0.0743||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.0743
82429889|NCT02317627|164567189|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change of all subjects from baseline to 8 weeks.|||||<|0.0001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.0001
82429890|NCT02317627|164567194|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg QD from baseline to 12 weeks.||||||0.004||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.004
82429891|NCT02317627|164567194|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 200 mg BID from baseline to 12 weeks.||||||0.007||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.007
82429892|NCT02317627|164567194|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change in Cohort 400 mg BID from baseline to 12 weeks.||||||0.09||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.090
82451049|NCT05758402|164608629|OTHER|||||||0.101|||||||Wilcoxon (Mann-Whitney)|||Age characteristics||||0.101
82451050|NCT05758402|164608630|OTHER|||||||0.836|||||||Chi-squared|||Gender characteristics||||0.836
82451051|NCT05758402|164608631|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Body Mass Index (BMI) characteristics||||0.520
82451052|NCT05758402|164608632|OTHER|||||||0.216|||||||Chi-squared|||Drinking history characteristics||||0.216
82451053|NCT05758402|164608632|OTHER|||||||0.719|||||||Chi-squared|||Smoking history characteristics||||0.719
82451054|NCT05758402|164608633|OTHER|||||||0.831|||||||Wilcoxon (Mann-Whitney)|||Duration of Psoriasis (PsO) characteristics||||0.831
82451055|NCT05758402|164608634|OTHER|||||||0.274|||||||Fisher Exact|||Family history of psoriasis (PsO) characteristics||||0.274
82451056|NCT05758402|164608634|OTHER|||||||0.272|||||||Fisher Exact|||Family history of psoriatic arthritis (PsA) characteristics||||0.272
82451057|NCT05758402|164608635|OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||Psoriasis Area and Severity Index (PASI) score characteristics||||0.622
82451058|NCT05758402|164608636|OTHER||||||<|0.001|||||||Chi-squared|||Status of hard-to-treat area involvement characteristics||||<0.001
82451059|NCT05758402|164608636|OTHER||||||<|0.001|||||||Chi-squared|||Status of musculoskeletal symptoms characteristics||||<0.001
82451060|NCT05758402|164608637|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of left hand characteristics||||<0.001
82429893|NCT02317627|164567194|OTHER|No control group was used. Paired t-testing was used to determine the statistical significance of the mean change Overall from baseline to 12 weeks.|||||<|0.001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.001
82429894|NCT02317627|164567195|SUPERIORITY|||||||0.004||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.004
82429895|NCT02317627|164567195|SUPERIORITY|||||||0.029||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.029
82429896|NCT02317627|164567195|SUPERIORITY|||||||0.084||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||0.084
82429897|NCT02317627|164567195|SUPERIORITY||||||<|0.001||||||Statistical significance was set at p ≤ 0.05. No adjustments for multiplicity were made. Missing data were not imputed.|t-test, 2 sided|||||||< 0.001
82429898|NCT04046939|164567204|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.2283|||<|0.0001|TWO_SIDED|95.0|0.121|0.431||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||0.2283 represents the ratio of the 150 mg BID week 12 ratio to baseline (0.2051), compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.2283 is equivalent to a -77.17% change compared to placebo at week 12.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.431|0.121|<.0001
82577232|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.162||0.8859|TWO_SIDED|95.0|-0.3|0.34|||MMRM|||Agitation, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.30|0.8859
82429899|NCT04046939|164567204|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.3403||||0.0014|TWO_SIDED|95.0|0.177|0.653||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||0.3403 represents the ratio of the 75 mg BID week 12 ratio to baseline (0.3056), compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.3403 is equivalent to a -65.97% change compared to placebo at week 12.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.653|0.177|0.0014
82429900|NCT04046939|164567204|SUPERIORITY||Ratio to PBO of the ratios to baseline|0.4489||||0.019|TWO_SIDED|95.0|0.231|0.874||A closed hierarchical statistical testing was used. The previous endpoint in the hierarchy was not statistically significant. Therefore, this endpoint was not formally tested and is not considered statistically significant, despite a p-value \<0.05.|Mixed Models Analysis||0.4489 represents the ratio of the 37.5 mg BID week 12 ratio to baseline (0.4031) compared to the PBO week 12 ratio to baseline (0.8980). This ratio of 0.4489 is equivalent to a -55.11% change compared to placebo at week 12.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.874|0.231|0.0190
82429901|NCT04046939|164567205|SUPERIORITY||Mean Difference (Final Values)|0.0814||||0.4154|TWO_SIDED|95.0|-0.116|0.279||A closed hierarchical procedure testing dexpramipexole against placebo at Week 12 was used. (1) 150 mg BID for AEC (2) 75 mg BID for AEC (3) pooled 75 mg and 150 mg BID group for pre-bronchodilator FEV1; and (4) 37.5 mg BID for AEC.|Mixed Models Analysis||Estimate is the difference of the pooled 75 mg and 150 mg BID group from placebo in change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The combined 75 mg and 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.279|-0.116|0.4154
82429902|NCT04046939|164567205|SUPERIORITY||Mean Difference (Final Values)|0.177||||0.1174|TWO_SIDED|95.0|-0.0456|0.4||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.400|-0.0456|0.1174
82429903|NCT04046939|164567205|SUPERIORITY||Mean Difference (Final Values)|-0.0143||||0.8998|TWO_SIDED|95.0|-0.24|0.211||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.211|-0.240|0.8998
82429904|NCT04046939|164567205|SUPERIORITY||Mean Difference (Final Values)|0.138||||0.2425|TWO_SIDED|95.0|-0.095|0.37||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change in pre-bronchodilator FEV1 in liters from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement in lung function.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.370|-0.0950|0.2425
82429905|NCT04046939|164567206|SUPERIORITY||Mean Difference (Final Values)|-0.264||||0.3059|TWO_SIDED|95.0|-0.772|0.245||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.245|-0.772|0.3059
82536478|NCT04319094|164772145|SUPERIORITY||Mean Difference (Net)|-3.7|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.77|-2.62||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = Post-intervention - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-2.62|-4.77|<0.0001
82536479|NCT04319094|164772145|SUPERIORITY||Mean Difference (Net)|-2.53|STANDARD_ERROR_OF_MEAN|0.65||0.0001|TWO_SIDED|95.0|-3.81|-1.25||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 3-month - Baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.25|-3.81|0.0001
82429906|NCT04046939|164567206|SUPERIORITY||Mean Difference (Final Values)|-0.0457||||0.8642|TWO_SIDED|95.0|-0.575|0.484||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.484|-0.575|0.8642
82429907|NCT04046939|164567206|SUPERIORITY||Mean Difference (Final Values)|-0.0276||||0.9182|TWO_SIDED|95.0|-0.56|0.505||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID dexpramipexole group compared to the placebo group in change in ACQ-6 score from Baseline to Week 12 (end of primary treatment period). A negative value indicates improvement of asthma symptoms.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM).||0.505|-0.560|0.9182
82429908|NCT04046939|164567207|SUPERIORITY||Mean Difference (Final Values)|0.181||||0.0716|TWO_SIDED|95.0|-0.0163|0.378||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 150 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 150 mg BID dexpramipexole group to placebo.||0.378|-0.0163|0.0716
82429909|NCT04046939|164567207|SUPERIORITY||Mean Difference (Final Values)|0.00474||||0.9619|TWO_SIDED|95.0|-0.192|0.202||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 75 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 75 mg BID dexpramipexole group to placebo.||0.202|-0.192|0.9619
82429910|NCT04046939|164567207|SUPERIORITY||Median Difference (Final Values)|0.0987||||0.3368|TWO_SIDED|95.0|-0.105|0.302||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference of the 37.5 mg BID Dexpramipexole group from placebo in change in post-bronchodilator FEV1 from Baseline to Week 12 (end of primary treatment period) in liters. A positive value indicates improvement in lung function.|An ANCOVA analysis was performed comparing the 37.5 mg BID dexpramipexole group to placebo.||0.302|-0.105|0.3368
82429911|NCT04046939|164567208|SUPERIORITY||Mean Difference (Final Values)|0.208||||0.4512|TWO_SIDED|95.0|-0.338|0.755||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 150 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 150 mg BID dexpramipexole group to placebo.||0.755|-0.338|0.4512
82429912|NCT04046939|164567208|SUPERIORITY||Mean Difference (Final Values)|-0.0642||||0.8214|TWO_SIDED|95.0|-0.627|0.499||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 75 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 75 mg BID dexpramipexole group to placebo.||0.499|-0.627|0.8214
82429913|NCT04046939|164567208|SUPERIORITY||Mean Difference (Final Values)|0.154||||0.5894|TWO_SIDED|95.0|-0.411|0.72||For secondary endpoints which were not key secondary endpoints, no adjustment for multiple testing was used and p \<0.05 was used for statistical significance.|ANCOVA||Estimate the difference in the 37.5 mg BID dexpramipexole group from the placebo group in the change in AQLQ score from Baseline to Week 12 (end of primary treatment period). A positive value indicates improvement of asthma symptoms.|An ANCOVA analysis was performed comparing the 37.5 mg BID dexpramipexole group to placebo.||0.720|-0.411|0.5894
82429914|NCT04046939|164567214|SUPERIORITY|||||||0.0196||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 150 mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.0196
82429915|NCT04046939|164567214|SUPERIORITY|||||||0.0207||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 75mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.0207
82429916|NCT04046939|164567214|SUPERIORITY|||||||0.5399||||||No adjustment for multiple testing of exploratory endpoints was used.|Wilcoxon (Mann-Whitney)|||The 37.5 mg BID dexpramipexole group was compared to placebo at Week 12 using a Wilcoxon rank sum test.||||0.5399
82429917|NCT04046939|164567215|SUPERIORITY||Mean Difference (Final Values)|-0.0233||||0.0084|TWO_SIDED|95.0|-0.0405|-0.00613||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||-0.00613|-0.0405|0.0084
82429918|NCT04046939|164567215|SUPERIORITY||Mean Difference (Final Values)|-0.0206||||0.0237|TWO_SIDED|95.0|-0.0384|-0.00281||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 75 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||-0.00281|-0.0384|0.0237
82429919|NCT04046939|164567215|SUPERIORITY||Mean Difference (Final Values)|-0.00215||||0.814|TWO_SIDED|95.0|-0.0203|0.016||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change absolute basophil count (automated differential) from Baseline to Week 12 (end of primary treatment period). A negative value represents fewer basophils.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||0.0160|-0.0203|0.8140
82429920|NCT04046939|164567216|SUPERIORITY||Mean Difference (Final Values)|-8.24||||0.1886|TWO_SIDED|95.0|-20.6|4.13||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 150 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 150 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||4.13|-20.6|0.1886
82429921|NCT04046939|164567216|SUPERIORITY||Mean Difference (Final Values)|-6.53||||0.3061|TWO_SIDED|95.0|-19.1|6.08||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 75 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 75mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||6.08|-19.1|0.3061
82429922|NCT04046939|164567216|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.1294|TWO_SIDED|95.0|-23.4|3.04||No adjustment for multiple testing of exploratory endpoints was used.|Mixed Models Analysis||Estimate is the difference of the 37.5 mg BID group from the placebo group in the change in FeNO from Baseline to Week 12 in liters. In eosinophilic asthma, a lower FeNO indicates less eosinophilic inflammation of the airway than a higher value.|The 37.5 mg BID dexpramipexole group was compared to placebo using a mixed effects model repeated-measures (MMRM) with terms for baseline, GINA treatment step, treatment, visit, treatment by visit interaction, and baseline by visit interaction as fixed effects, and subject as a random effect. An unstructured covariance matrix was used. The response variable was the post-baseline value minus the baseline value.||3.04|-23.4|0.1294
82429923|NCT00806260|164567221|NON_INFERIORITY_OR_EQUIVALENCE|step down test|Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.07|||ONE_SIDED|90.0|0.21||||ANCOVA|||at alcohol level 0.10%|||0.21|
82429924|NCT00806260|164567221|NON_INFERIORITY_OR_EQUIVALENCE|step down test|Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.05|||ONE_SIDED|90.0|0.12||||ANCOVA|||at alcohol level 0.07%|||0.12|
82429925|NCT00806260|164567221|NON_INFERIORITY_OR_EQUIVALENCE|step-down test|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.06|||ONE_SIDED|90.0|-0.03||||ANCOVA|||at alcohol level 0.04%|||-0.03|
82429926|NCT00806260|164567222|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.17|0.07|||ANCOVA|||at 2 hr timepoint||0.07|-0.17|
82429927|NCT00806260|164567222|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority test|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.18|0.04|||ANCOVA|||at 6 hr timepoint||0.04|-0.18|
82429928|NCT00806260|164567222|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||at 2 hr timepoint||0.06|-0.08|
82429929|NCT00806260|164567222|NON_INFERIORITY_OR_EQUIVALENCE|non inferiority|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.13|0.05|||ANCOVA|||at 6 hr timepoint||0.05|-0.13|
82429930|NCT00237042|164567223|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||Regression, Linear|Linear regression was used to compare group means at follow up, adjusted for baseline values of the outcome variable.||The null hypothesis was that mean characteristic pain intensity at 6-month follow up is equal across the three groups.||||0.19
82652184|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.118||||0.4192|TWO_SIDED|95.0|-0.405|0.169||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.169|-0.405|0.4192
82536480|NCT04319094|164772145|SUPERIORITY||Median Difference (Net)|-2.83|STANDARD_ERROR_OF_MEAN|0.66|<|0.0001|TWO_SIDED|95.0|-4.13|-1.53||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 6-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.53|-4.13|<0.0001
82652185|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.035||||0.8192|TWO_SIDED|95.0|-0.333|0.264||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.264|-0.333|0.8192
82429931|NCT00237042|164567224|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Regression, Logistic|Adjusted for baseline value of the outcome variable||||||0.27
82429932|NCT00237042|164567225|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Regression, Linear|Group means compared with linear regression adjusted for baseline values. Adjusted difference: -1.0 between SMT and COCT, -1.0 between TSMT and COCT.||The null hypothesis was that mean characteristic pain intensity at 12-month follow up is equal across the three groups.||||0.003
82429933|NCT00237042|164567226|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Regression, Logistic|Adjusted for baseline value of the outcome variable||||||0.016
82429934|NCT01415583|164567290|NON_INFERIORITY|Consistent with the noninferiority design, the null hypothesis states that the bleeding rate in patients receiving perioperative dexamethasone differed from the bleeding rate in patients receiving perioperative placebo; the alternative hypothesis states that the bleeding rate with dexamethasone is not greater than placebo by more than the noninferiority margin.||||||0.05|||||||t-test, 1 sided|||||||0.05
82429935|NCT01415583|164567290|NON_INFERIORITY|This noninferiority margin was set at 5%, meaning a difference in bleeding rates that did not exceed 5% would be taken as evidence that the bleeding with dexamethasone is not greater than that with placebo by more than 5%.||||||0.05|||||||t-test, 1 sided|||||||0.05
82429936|NCT04472650|164567296|OTHER||Ratio of Geometric Least Squares Means|87.63|||||TWO_SIDED|90.0|78.273|98.111||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||98.111|78.273|
82429937|NCT04472650|164567297|OTHER||Ratio of Geometric Least Squares Means|87.5|||||TWO_SIDED|90.0|78.12|98.01||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||98.01|78.12|
82429938|NCT04472650|164567298|OTHER||Ratio of Geometric Least Squares Means|88.8|||||TWO_SIDED|90.0|77.41|101.87||||||Sitravatinib Malate Salt Capsule (Test) vs. Sitravatinib Free Base Capsule (Reference). Analysis based on Relative Bioavailability Analysis Set, defined as the subset of participants in the PK Parameters Analysis Set who had at least 1 primary PK parameter (AUC0-t, AUC0-inf and Cmax of sitravatinib) in both periods.||101.87|77.41|
82429939|NCT00298389|164567316|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
82429940|NCT00298389|164567317|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
82451061|NCT05758402|164608637|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of right hand characteristics||||0.010
82429941|NCT04776161|164567347|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.78|TWO_SIDED|95.0|-0.16|0.12|||Generalized linear models|Adjusted for age, sex, race||||0.12|-0.16|0.78
82429942|NCT04776161|164567347|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.79|TWO_SIDED|95.0|-0.1|0.13|||Generalized linear models|Adjusted for age, sex, race||||0.13|-0.10|0.79
82429943|NCT04776161|164567348|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.22|TWO_SIDED|95.0|-0.28|1.22|||Generalized linear models|Adjusted for age, sex, race and baseline uric acid level.||||1.22|-0.28|0.22
82429944|NCT04776161|164567348|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.24|TWO_SIDED|95.0|-0.33|1.26|||Generalized linear models|Adjusted for age, sex, race and baseline uric acid level||||1.26|-0.33|0.24
82429945|NCT01334554|164567353|SUPERIORITY_OR_OTHER||Beta coefficient (linear regression)|0.12||||0.55|TWO_SIDED|95.0|-0.33|0.58||p- value was unadjusted. Primary outcome underwent logarithmic transformation|Regression, Linear|||H0= 4-week treatment with sildenafil citrate does not improve insulin sensitivity in obese African American women.||0.58|-0.33|0.55
82429946|NCT01334554|164567354|SUPERIORITY_OR_OTHER||Beta coefficient|0.46||||0.649|TWO_SIDED|95.0|-1.58|2.49||Adjusted for baseline values only|Regression, Linear|||||2.49|-1.58|0.649
82429947|NCT02393859|164567369|SUPERIORITY||Normal score|-11.54|||<|0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
82451062|NCT05758402|164608637|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of left foot characteristics||||0.001
82451063|NCT05758402|164608637|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||NAPSI score of right foot characteristics||||<0.001
82451064|NCT05758402|164608637|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Total NAPSI score characteristics||||0.001
82451065|NCT05758402|164608638|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||SJC66 total joint count characteristics||||<0.001
82451066|NCT05758402|164608638|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||TJC68 total joint count characteristics||||<0.001
82451067|NCT05758402|164608638|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||SJC66/TJC68 total joint count characteristics||||<0.001
82451068|NCT05758402|164608639|OTHER|||||||0.043|||||||Fisher Exact|||Heart diseases||||0.043
82451069|NCT05758402|164608639|OTHER|||||||1|||||||Fisher Exact|||Stroke||||1.000
82451070|NCT05758402|164608639|OTHER|||||||1|||||||Fisher Exact|||Diabetes||||1.000
82429948|NCT02393859|164567369|SUPERIORITY||Normal score|-11.16||||0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||0.001
82429949|NCT02393859|164567369|SUPERIORITY||Stratified hazard ratio (HR)|0.36|||||TWO_SIDED|95.0|0.19|0.66|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.66|0.19|
82429950|NCT02393859|164567369|SUPERIORITY||Unstratified HR|0.39|||||TWO_SIDED|95.0|0.22|0.7|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.70|0.22|
82429951|NCT02393859|164567369|SUPERIORITY||Stratified HR w/time-dependent covariate|0.36|||||TWO_SIDED|95.0|0.2|0.64|||||Cox proportional hazard model including time from randomization to allogeneic hematopoietic stem cell transplant. Stratification factors: age and marrow/MRD status. (HR \<1.0=lower average event rate and longer EFS for blinatumomab relative to HC3.)|||0.64|0.20|
82429952|NCT02393859|164567370|SUPERIORITY||Normal score|-13.9|||<|0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
82429953|NCT02393859|164567370|SUPERIORITY||Normal score|-13.61|||<|0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for Blinatumomab relative to HC3 and therefore a longer event free survival time.|||||< 0.001
82429954|NCT02393859|164567370|SUPERIORITY||Stratified HR|0.35|||||TWO_SIDED|95.0|0.2|0.61|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.61|0.20|
82429955|NCT02393859|164567370|SUPERIORITY||Unstratified HR|0.38|||||TWO_SIDED|95.0|0.22|0.65|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer EFS for blinatumomab relative to HC3.)|||0.65|0.22|
82429956|NCT02393859|164567370|SUPERIORITY||Stratified HR w/time-dependent covariate|0.34|||||TWO_SIDED|95.0|0.2|0.59|||||Cox proportional hazard model including time from randomization to allogeneic hematopoietic stem cell transplant. Stratification factors: age and marrow/MRD status. (HR \<1.0=lower average event rate and longer EFS for blinatumomab relative to HC3.)|||0.59|0.20|
82429957|NCT02393859|164567371|SUPERIORITY||Normal score|-10.14||||0.001||||||Stratification factors were: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Stratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||0.001
82429958|NCT02393859|164567371|SUPERIORITY||Normal score|-10.32|||<|0.001|||||||Unstratified log-rank test||A normal score \< 0 indicates fewer than expected events for blinatumomab relative to HC3 and therefore a longer event-free survival time.|||||< 0.001
82429959|NCT02393859|164567371|SUPERIORITY||Stratified HR|0.33|||||TWO_SIDED|95.0|0.16|0.66|||||Cox proportional hazard model. Stratification factors were: age and marrow/MRD status. (HR \< 1.0 indicates a lower average event rate and a longer survival for blinatumomab relative to HC3.)|||0.66|0.16|
82429960|NCT02393859|164567371|SUPERIORITY||Unstratified HR|0.32|||||TWO_SIDED|95.0|0.16|0.65|||||Cox proportional hazard model. (HR \< 1.0 indicates a lower average event rate and a longer survival for blinatumomab relative to HC3.)|||0.65|0.16|
82429961|NCT02393859|164567372|SUPERIORITY||||||<|0.001||||||Cochran-Mantel-Haenszel test adjusting for the stratification factors: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10\^-3 vs M1 with MRD level ≥ 10\^-3 vs M2).|Cochran-Mantel-Haenszel|||MRD response by PCR||||< 0.001
82429962|NCT02393859|164567372|SUPERIORITY||||||<|0.001||||||Cochran-Mantel-Haenszel test adjusting for the stratification factors: age (1 to 9 years vs other \[\< 1 year and \> 9 years\]), and marrow/MRD status (M1 with MRD level \< 10-3 vs M1 with MRD level ≥ 10-3 vs M2).|Cochran-Mantel-Haenszel|||MRD response by flow cytometry||||< 0.001
82429963|NCT02393859|164567373|SUPERIORITY||Hazard Ratio (HR)|0.29|||||TWO_SIDED|95.0|0.16|0.52|||||The subdistribution HR estimates are obtained from the subdistribution Cox model. (HR \< 1.0 indicates a lower average event rate and a longer relapse-free time for blinatumomab relative to HC3.)|||0.52|0.16|
82429964|NCT02393859|164567373|SUPERIORITY||Stratified hazard ratio (HR)|0.27|||||TWO_SIDED|95.0|0.15|0.48|||||The subdistribution HR estimates are obtained from the subdistribution Cox model. (HR \< 1.0 indicates a lower average event rate and a longer relapse-free time for blinatumomab relative to HC3.) Stratification factors are age and marrow/MRD status.|||0.48|0.15|
82429965|NCT00661830|164567384|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.281|||||TWO_SIDED|95.0|0.811|2.023|||Regression, Cox|||||2.023|0.811|
82652186|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.073||||0.632|TWO_SIDED|95.0|-0.372|0.226||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.226|-0.372|0.6320
82429966|NCT00661830|164567385|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.747|1.927|||Regression, Cox|||||1.927|0.747|
82429967|NCT01979614|164567388|SUPERIORITY_OR_OTHER||Standard Error|-0.1116||||0.438|TWO_SIDED|95.0|-0.399|0.176|||ANCOVA|||SAP for Global Myocardial Perfusion Reserve Index (MPRI)||0.176|-0.399|0.438
82429968|NCT00803738|164567405|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the primary clinical equivalence analysis, a 90% confidence interval was constructed on the difference in the therapeutic cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-4.3|15.02|||Wald's method with Yates' continuity|||||15.02|-4.30|
82429969|NCT00803738|164567406|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 90% confidence interval was constructed on the difference in the mycological cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-4.66|11.49|||Wald's method with Yates' continuity|||||11.49|-4.66|
82577233|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.192||0.5888|TWO_SIDED|95.0|-0.49|0.28|||MMRM|||Anxiety Psychic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.49|0.5888
82577234|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.187||0.3992|TWO_SIDED|95.0|-0.53|0.21|||MMRM|||Anxiety Psychic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.53|0.3992
82577235|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.227||0.1212|TWO_SIDED|95.0|-0.8|0.1|||MMRM|||Anxiety Psychic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.80|0.1212
82577236|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.221||0.3185|TWO_SIDED|95.0|-0.66|0.22|||MMRM|||Anxiety Psychic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.66|0.3185
82577237|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.231||0.4809|TWO_SIDED|95.0|-0.62|0.29|||MMRM|||Anxiety Psychic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.62|0.4809
82577238|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.225||0.8953|TWO_SIDED|95.0|-0.42|0.48|||MMRM|||Anxiety Psychic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.48|-0.42|0.8953
82577239|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.223||0.5616|TWO_SIDED|95.0|-0.57|0.31|||MMRM|||Anxiety Psychic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.57|0.5616
82429970|NCT00803738|164567407|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 90% confidence interval was constructed on the difference in the clinical cure rates between the Test Product and Reference Product at the Test-of-Cure visit (Visit 3). The interval was calculated using Wald's method with Yates' continuity correction. Clinical equivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20 (-20% to +20%).|proportion of subjects in trtmt groups|0.05|||||TWO_SIDED|90.0|-1.35|16.88|||Wald's method with Yates' continuity|||||16.88|-1.35|
82429971|NCT03420742|164567446|OTHER||Geometric least squares mean ratio|0.741|||||TWO_SIDED|90.0|0.6|0.915|||||The ratios of geometric mean were calculated on the basis of the within-participant variance. Participant was treated as a random effect in the model.|||0.915|0.600|
82429972|NCT03420742|164567447|OTHER||Geometric least squares mean ratio|0.836|||||TWO_SIDED|90.0|0.662|1.06|||||The ratios of geometric mean were calculated on the basis of the within-participant variance. Participant was treated as a random effect in the model.|||1.06|0.662|
82429973|NCT01244035|164567481|OTHER||LS Mean difference|1.1||||0.1325|TWO_SIDED|90.0|-0.54|2.74|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||2.74|-0.54|0.1325
82429974|NCT01244035|164567481|OTHER||LS Mean difference|4.16|||<|0.001|TWO_SIDED|90.0|2.53|5.79|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||5.79|2.53|<0.001
82652187|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.345||||0.0254|TWO_SIDED|95.0|-0.647|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.043|-0.647|0.0254
82429975|NCT01244035|164567481|OTHER||LS Mean difference|-3.06||||0.0016|TWO_SIDED|90.0|-4.7|-1.42|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-1.42|-4.70|0.0016
82577240|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.216||0.8571|TWO_SIDED|95.0|-0.39|0.47|||MMRM|||Anxiety Psychic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.47|-0.39|0.8571
82429976|NCT01244035|164567482|OTHER||LS Mean difference|-2.94||||0.0212|TWO_SIDED|90.0|-5.3|-0.57|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-0.57|-5.30|0.0212
82652188|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.047||||0.7689|TWO_SIDED|95.0|-0.36|0.266||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.266|-0.360|0.7689
82451071|NCT05758402|164608639|OTHER|||||||0.019|||||||Chi-squared|||Hyperlipidemia||||0.019
82451072|NCT05758402|164608639|OTHER|||||||0.073|||||||Chi-squared|||Hypertension||||0.073
82451073|NCT05758402|164608639|OTHER|||||||0.377|||||||Fisher Exact|||Fatty liver||||0.377
82451074|NCT00395850|164608651|SUPERIORITY_OR_OTHER||Slope|-1.02|||<|0.05|||||||Repeated Measures Logistic Regression|Repeated Measures Generalized Linear Models on a Binomial distribution, thus a Repeated Measures Logistic Regression||Used placebo group as contrast to determine whether slopes of disulfiram groups differed from slope of placebo group data||||<0.05
82451075|NCT00395850|164608652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82451076|NCT01496846|164608677|SUPERIORITY|||||||0.901|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.901
82451077|NCT01496846|164608677|SUPERIORITY|||||||0.004|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.004
82451078|NCT01496846|164608678|SUPERIORITY|||||||0.437|||||||Chi-squared|We used the Chi-Square Test or Fisher's Exact test on the raw data depending on the number of data points in the table cells.||||||.437
82451079|NCT02921087|164608700|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the primary outcome (change in overall VAS at day 7) mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.07
82577241|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.213||0.0037|TWO_SIDED|95.0|-1.05|-0.21|||MMRM|||Anxiety Psychic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.21|-1.05|0.0037
82648475|NCT03341273|165012657|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-12.0|3.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D11V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D11V is 11.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||3|-12|
82451080|NCT02921087|164608702|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for accommodative response mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.01
82451081|NCT02921087|164608703|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the change in CISS, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.77
82451082|NCT02921087|164608704|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for the CLDEQ-8, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.69
82451083|NCT02921087|164608705|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|Least-squares adjusted means were obtained and compared.||In order to analyze the 2 x 2 crossover design for phoria, mixed model analysis was utilized, allowing the sequences of each subject to be modeled as repeated measures within PROC Mixed.||||0.87
82451084|NCT04412707|164608780|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.946|||||TWO_SIDED|90.0|0.849|1.053|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.053|0.849|
82451085|NCT04412707|164608781|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.952|||||TWO_SIDED|90.0|0.861|1.053|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.053|0.861|
82451086|NCT04412707|164608782|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|Adjusted geometric mean ratio (GMR)|0.955|||||TWO_SIDED|90.0|0.863|1.058|||||CVC vs. PVC, where CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs. central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.058|0.863|
82429977|NCT01244035|164567482|OTHER||LS Mean difference|-2.76||||0.0299|TWO_SIDED|90.0|-5.16|-0.36|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||-0.36|-5.16|0.0299
82429978|NCT01244035|164567482|OTHER||LS Mean difference|-0.18||||0.4506|TWO_SIDED|90.0|-2.54|2.19|||Linear mixed effects model|Period and treatment were fixed effects and participant was a random effect.||||2.19|-2.54|0.4506
82429979|NCT02383862|164567485|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.79||0.165|TWO_SIDED|95.0|-0.45|2.64|||t-test, 2 sided|||||2.64|-0.45|0.165
82429980|NCT02383862|164567486|SUPERIORITY||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|1.05||0.425|TWO_SIDED|95.0|-1.23|2.91|||t-test, 2 sided|||||2.91|-1.23|0.425
82429981|NCT02383862|164567487|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|1.05||0.539|TWO_SIDED|95.0|-1.41|2.7|||t-test, 2 sided|||||2.70|-1.41|0.539
82429982|NCT02383862|164567488|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|1.16||0.471|TWO_SIDED|95.0|-1.44|3.11|||t-test, 2 sided|||||3.11|-1.44|0.471
82429983|NCT02383862|164567489|SUPERIORITY||Mean Difference (Final Values)|1.49|STANDARD_ERROR_OF_MEAN|1.1||0.174|TWO_SIDED|95.0|-0.66|3.65|||t-test, 2 sided|||||3.65|-0.66|0.174
82536481|NCT04319094|164772145|SUPERIORITY||Mean Difference (Net)|-2.76|STANDARD_ERROR_OF_MEAN|0.65|<|0.0001|TWO_SIDED|95.0|-4.03|-1.49||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference = 9-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.49|-4.03|<0.0001
82429984|NCT02383862|164567490|SUPERIORITY||Mean Difference (Final Values)|1.67|STANDARD_ERROR_OF_MEAN|1.36||0.222|TWO_SIDED|95.0|-1.0|4.35|||t-test, 2 sided|||||4.35|-1.00|0.222
82429985|NCT04512001|164567540|EQUIVALENCE|Margins for results to be considered equivalent: -0.6 to 0.5.|Least squares means difference|0.01|||||TWO_SIDED|90.0|-0.16|0.18||||||||0.18|-0.16|
82536482|NCT04319094|164772145|SUPERIORITY||Mean Difference (Net)|-2.56|STANDARD_ERROR_OF_MEAN|0.71||0.0003|TWO_SIDED|95.0|-3.95|-1.17||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 501|Score difference =12-month - baseline|Null hypothesis: there is no difference in the mean Patient Health Questionnaire-9 (PHQ-9) scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-1.17|-3.95|0.0003
82536483|NCT04319094|164772145|SUPERIORITY|||||||0.4375|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of PHQ-9 over time between the control and PEERS participants.||||0.4375
82577242|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.206||0.0386|TWO_SIDED|95.0|-0.84|-0.02|||MMRM|||Anxiety Psychic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.84|0.0386
82577243|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.216||0.0044|TWO_SIDED|95.0|-1.05|-0.2|||MMRM|||Anxiety Psychic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-1.05|0.0044
82429986|NCT04512001|164567542|EQUIVALENCE|Margins for results to be considered equivalent: -15%, 15%.|Difference in % Response Rate|-3.94|||||TWO_SIDED|95.0|-9.97|2.11||||||||2.11|-9.97|
82429987|NCT04232943|164567559|OTHER|This study was designed to provide at least 96% power to detect ≥ 60% reduction in shedding rate in the IPV+ dmLT group assuming the shedding rate in the IPV alone group is at least 80%.|Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|0.56|2.464|||||RR = Ratio of proportions: (IPV+dmLT) / IPV|Analysis of Shedding of Poliovirus Type 1||2.464|0.560|
82429988|NCT04232943|164567559|OTHER|This study was designed to provide at least 96% power to detect ≥ 60% reduction in shedding rate in the IPV+ dmLT group assuming the shedding rate in the IPV alone group is at least 80%.|Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.606|1.51|||||RR = Ratio of proportions: (IPV+dmLT) / IPV|Analysis of Shedding of Poliovirus Type 3||1.510|0.606|
82429989|NCT01718522|164567575|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82429990|NCT01718522|164567576|OTHER|||||||0.12|||||||Wilcoxon Signed-Rank Test|||||||0.12
82429991|NCT01718522|164567577|OTHER|||||||0.3|||||||Wilcoxon Signed-Rank Test|||||||0.30
82429992|NCT01718522|164567578|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82429993|NCT01718522|164567579|OTHER|||||||0.04|||||||Wilcoxon Signed-Rank Test|||||||0.04
82429994|NCT01718522|164567580|OTHER|||||||0.35|||||||Wilcoxon Signed-Rank Test|||||||0.35
82429995|NCT01718522|164567581|OTHER|||||||0.001|||||||Wilcoxon Signed-Rank Test|||||||0.001
82429996|NCT01718522|164567582|OTHER|||||||0.61|||||||Wilcoxon Signed-Rank Test|||||||0.61
82429997|NCT01718522|164567583|OTHER|||||||0.1|||||||Wilcoxon Signed-Rank Test|||||||0.1
82429998|NCT01718522|164567584|OTHER|||||||0.22|||||||Wilcoxon Signed-Rank Test|||||||0.22
82429999|NCT01664247|164567592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34|||<|0.0001|TWO_SIDED|95.0|-2.67|-2.01|||ANOVA||The treatment contrast estimated was IDeg - Placebo.|The pre-breakfast measures of SMPG values after 26 weeks of treatment were analysed an ANOVA method with treatment, region and sex as fixed effects, and age and baseline response as covariates.||-2.01|-2.67|<.0001
82536484|NCT04319094|164772146|SUPERIORITY||Mean Difference (Net)|1.61|STANDARD_ERROR_OF_MEAN|2.42||0.51|TWO_SIDED|95.0|-3.15|6.37||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36 - Physical Functioning scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|6.37|-3.15|0.51
82536485|NCT04319094|164772146|SUPERIORITY||Mean Difference (Net)|4.57||||0.18|TWO_SIDED|95.0|-2.08|11.21||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|11.21|-2.08|0.18
82536486|NCT04319094|164772146|SUPERIORITY||Mean Difference (Net)|1.57|STANDARD_ERROR_OF_MEAN|3.29||0.63|TWO_SIDED|95.0|-4.89|8.04||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|8.04|-4.89|0.63
82536487|NCT04319094|164772146|SUPERIORITY||Mean Difference (Net)|-1.02|STANDARD_ERROR_OF_MEAN|3.01||0.74|TWO_SIDED|95.0|-6.94|4.91||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.91|-6.94|0.74
82577244|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.208||0.8308|TWO_SIDED|95.0|-0.46|0.37|||MMRM|||Anxiety Psychic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.46|0.8308
82648476|NCT03341273|165012658|NON_INFERIORITY|The non-inferiority margin is 12.5%. Non-inferiority of placebo is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement is greater than -12.5%.|Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-13.0|0.0||The null hypothesis was evaluated using a non-inferiority test and non-inferiority of placebo was concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical improvement was greater than -12.5%.|||Multiple imputation with a linear model to impute missing clinical values of improvement. The study day that D11V occurred on was included as a covariate in the final model and the estimates for risk difference assume that study day of D28V is 28.|Null Hypothesis: Proportion in placebo - Proportion in azithromycin = -12.5%||0|-13|
82652189|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.117||||0.4631|TWO_SIDED|95.0|-0.43|0.196||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.196|-0.430|0.4631
82430000|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||<|0.0001|TWO_SIDED|95.0|-3.04|-2.34|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before breakfast.||-2.34|-3.04|<.0001
82430001|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.09|||<|0.0001|TWO_SIDED|95.0|-2.71|-1.48|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after breakfast.||-1.48|-2.71|<.0001
82430002|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01|||<|0.0001|TWO_SIDED|95.0|-2.47|-1.56|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before lunch.||-1.56|-2.47|<.0001
82451087|NCT04412707|164608784|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.948|||||TWO_SIDED|90.0|0.736|1.222|||||CVC vs PVC CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|For melflufen: Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.222|0.736|
82451088|NCT04412707|164608784|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|[adjusted geometric mean ratio (GMR)]|0.846|||||TWO_SIDED|90.0|0.748|0.957|||||CVC vs PVC CVC is numerator and PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|For desmethyl-melflufen: Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.957|0.748|
82451089|NCT04412707|164608785|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.877|||||TWO_SIDED|90.0|0.684|1.126|||||Data above refer to meflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.126|0.684|
82451090|NCT04412707|164608785|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.897|||||TWO_SIDED|90.0|0.819|0.982|||||Data above refer to desethyl-melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence and administration route as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.982|0.819|
82451091|NCT04412707|164608786|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.877|||||TWO_SIDED|90.0|0.684|1.124|||||Data above refer to melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence \& administration route (PVC or CVC) as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||1.124|0.684|
82451092|NCT04412707|164608786|EQUIVALENCE|The condition for similarity was if the 90% CI for the GMR was within the bioequivalence limits of 0.8 and 1.25.|adjusted geometric mean ratio (GMR)|0.908|||||TWO_SIDED|90.0|0.833|0.989|||||Data above refer to desethyl-melflufen. CVC vs PVC CVC is numerator, PVC is denominator. Linear Mixed Effect Model included terms for period, sequence \& administration route as fixed effects and subject nested within sequence as a random effect.|Based on a geometric mean ratio (GMR) peripheral vs central of 0.95, a 90% confidence interval (CI) for the ratio of geometric means within bioequivalence limits of 0.8 and 1.25, and 80% power, a sample size of 20 patients (10 per sequence) was required assuming a within-patient variability for period differences (in log scale) of 0.29. Approximately 25 patients were to be enrolled to achieve 20 PK- and local tolerance-evaluable patients.||0.989|0.833|
82451093|NCT04254666|164608805|OTHER||||||||||||||||||pre and post scores for this measure are presented as the percent of foods correctly classified.|||
82451094|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|0.15|||<|0.001|TWO_SIDED|90.0|0.06|0.35||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter : Eosinophils (cells/mm\^2)||95% CI (0.05, 0.41)|0.35|0.06|<0.001
82451095|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|1.36||||0.106|TWO_SIDED|90.0|0.99|1.86||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Neutrophils (cells/mm\^2)||95% CI (0.94, 1.97)|1.86|0.99|0.106
82451096|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|1.12||||0.389|TWO_SIDED|90.0|0.9|1.4||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: T cells CD3+ (cells/mm\^2)||95% CI (0.86, 1.46)|1.40|0.90|0.389
82577245|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.215||0.0388|TWO_SIDED|95.0|-0.87|-0.02|||MMRM|||Anxiety Psychic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.87|0.0388
82536488|NCT04319094|164772146|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|3.83||0.85|TWO_SIDED|95.0|-6.82|8.23||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 364||Null hypothesis: there is no difference in the mean SF36-physical function scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|8.23|-6.82|0.85
82536489|NCT04319094|164772146|SUPERIORITY|||||||0.3988|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of physical functioning over time between the control and PEERS participants.||||0.3988
82577246|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.209||0.1622|TWO_SIDED|95.0|-0.71|0.12|||MMRM|||Anxiety Psychic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.71|0.1622
82652190|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.298||||0.0651|TWO_SIDED|95.0|-0.615|0.019||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.019|-0.615|0.0651
82430003|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.93|||<|0.0001|TWO_SIDED|95.0|-2.46|-1.4|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after start of lunch.||-1.40|-2.46|<.0001
82430004|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|||<|0.0001|TWO_SIDED|95.0|-2.25|-1.23|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point main evening meal.||-1.23|-2.25|<.0001
82430005|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.26|-1.18|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point 90 mins after main evening meal.||-1.18|-2.26|<.0001
82430006|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.27|-1.23|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before bedtime.||-1.23|-2.27|<.0001
82430007|NCT01664247|164567593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||<|0.0001|TWO_SIDED|95.0|-2.91|-2.09|||Mixed Models Analysis||The treatment contrast estimated was IDeg - Placebo.|The 8-point profile (SMPG) values after 26 weeks of treatment were analysed jointly using a linear mixed model with an un-structured residual covariance structure and with treatment, time-point and an interaction between treatment and time-point, region and sex as fixed effects, and age and baseline response per time-point as covariates. Missing data was imputed using LOCF. The treatment contrast estimated was IDeg - Placebo for the time point before breakfast the following day.||-2.09|-2.91|<.0001
82430008|NCT01106157|164567616|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.277|STANDARD_ERROR_OF_MEAN|0.134||0.017|TWO_SIDED|95.0|0.001|0.552|||t-test, 2 sided|||||0.552|0.001|0.017
82430009|NCT01106157|164567617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.104||0.43|TWO_SIDED|95.0|-0.3|0.13|||t-test, 2 sided|||||0.13|-0.30|0.43
82430010|NCT01106157|164567618|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.7||0.37|TWO_SIDED|95.0|-1.64|0.63|||t-test, 2 sided|||||0.63|-1.64|0.37
82430011|NCT01106157|164567619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.064|STANDARD_ERROR_OF_MEAN|0.16||0.69|TWO_SIDED|95.0|-0.4|0.27|||t-test, 2 sided|||||0.27|-0.40|0.69
82451097|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|1.18||||0.216|TWO_SIDED|90.0|0.94|1.48||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: T cells CD4+ (cells/mm\^2)||95% CI (0.90, 1.55)|1.48|0.94|0.216
82577247|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.204||0.0179|TWO_SIDED|95.0|-0.89|-0.09|||MMRM|||Anxiety Psychic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.09|-0.89|0.0179
82577248|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.198||0.4283|TWO_SIDED|95.0|-0.55|0.24|||MMRM|||Anxiety Psychic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.55|0.4283
82577249|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.219||0.1899|TWO_SIDED|95.0|-0.72|0.15|||MMRM|||Anxiety Psychic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.72|0.1899
82577250|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.213||0.8022|TWO_SIDED|95.0|-0.48|0.37|||MMRM|||Anxiety Psychic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.48|0.8022
82577251|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.215||0.378|TWO_SIDED|95.0|-0.62|0.24|||MMRM|||Anxiety Psychic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.62|0.3780
82577252|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.21||0.811|TWO_SIDED|95.0|-0.47|0.36|||MMRM|||Anxiety Psychic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.36|-0.47|0.8110
82577253|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.272||0.8908|TWO_SIDED|95.0|-0.58|0.5|||MMRM|||Anxiety Psychic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.50|-0.58|0.8908
82577254|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.263||0.3596|TWO_SIDED|95.0|-0.28|0.76|||MMRM|||Anxiety Psychic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.76|-0.28|0.3596
82577255|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.293||0.7617|TWO_SIDED|95.0|-0.67|0.49|||MMRM|||Anxiety Psychic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.49|-0.67|0.7617
82430012|NCT01106157|164567620|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.75|STANDARD_ERROR_OF_MEAN|81.3||0.89|TWO_SIDED|95.0|-156.8|180.3|||t-test, 2 sided|||||180.3|-156.8|0.89
82430013|NCT01106157|164567621|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.21||0.2|TWO_SIDED|95.0|-0.15|0.7|||t-test, 2 sided|||||0.70|-0.15|0.2
82430014|NCT01106157|164567622|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.13|STANDARD_ERROR_OF_MEAN|19.61||0.23|TWO_SIDED|95.0|-64.8|16.7|||t-test, 2 sided|||||16.7|-64.8|0.23
82430015|NCT01106157|164567623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.1||0.79|TWO_SIDED|95.0|-0.18|0.23|||t-test, 2 sided|||||0.23|-0.18|0.79
82451098|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|0.83||||0.26|TWO_SIDED|90.0|0.64|1.09||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Mast cells Tryptase+ (cells/mm\^2)||95% CI (0.61, 1.15)|1.09|0.64|0.260
82577256|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.281||0.5498|TWO_SIDED|95.0|-0.73|0.39|||MMRM|||Anxiety Psychic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.73|0.5498
82577257|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.235||0.2066|TWO_SIDED|95.0|-0.76|0.17|||MMRM|||Anxiety Psychic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.76|0.2066
82430016|NCT01106157|164567624|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.67|STANDARD_ERROR_OF_MEAN|5.33||0.163|TWO_SIDED|95.0|-18.7|3.35|||t-test, 2 sided|||||3.35|-18.7|0.163
82430017|NCT01000506|164567639|SUPERIORITY_OR_OTHER||Rate Ratio|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.69||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 75mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.69|0.39|<0.001
82430018|NCT01000506|164567639|SUPERIORITY_OR_OTHER||Rate Ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.46|0.81||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 250 mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.81|0.46|<0.001
82430019|NCT01000506|164567639|SUPERIORITY_OR_OTHER||Rate Ratio|0.48|||<|0.001|TWO_SIDED|95.0|0.36|0.64||Hochberg testing procedure with a one-sided alpha of 2.5% used for controlling multiplicity|Negative Binomial regression model||Number of exacerbations per year in the mepolizumab 750 mg IV arm divided by the number of exacerbations per year in the placebo arm.|||0.64|0.36|<0.001
82430020|NCT02141672|164567650|SUPERIORITY||Odds Ratio (OR)|2.03||||0.045|TWO_SIDED|95.0|1.01|4.05|||Regression, Logistic|||Voclosporin low dose vs. placebo||4.05|1.01|0.045
82451099|NCT03688074|164608911|OTHER||Ratio of Geometric LSMeans|1.19||||0.546|TWO_SIDED|90.0|0.74|1.92||Nominal p-values were reported. No adjustment of multiplicity was performed.|ANCOVA|Model includes treatment+log transformed baseline value+stratification factor (screening eos count \[\<150, 150-\<300, \>=300 cells/uL\])|Parameter: Mast cells Chymase+ (cells/mm\^2)||95% CI (0.67, 2.10)|1.92|0.74|0.546
82451100|NCT01363908|164608928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0781|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.0781
82451101|NCT01363908|164608928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 6 to \<12 year olds at 48 weeks||||0.5000
82451102|NCT01363908|164608928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2609|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.2609
82536490|NCT04319094|164772147|SUPERIORITY||Mean Difference (Net)|5.08|STANDARD_ERROR_OF_MEAN|3.41||0.14|TWO_SIDED|95.0|-1.63|11.79||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|11.79|-1.63|0.14
82577258|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.2321|TWO_SIDED|95.0|-0.73|0.18|||MMRM|||Anxiety Psychic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.73|0.2321
82577259|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.191||0.5582|TWO_SIDED|95.0|-0.49|0.27|||MMRM|||Anxiety Somatic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.49|0.5582
82577260|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.186||0.2945|TWO_SIDED|95.0|-0.56|0.17|||MMRM|||Anxiety Somatic, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.56|0.2945
82451103|NCT01363908|164608928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9219|TWO_SIDED|||||The P-value was from the analysis of Wilcoxon signed rank test at post-treatment time point vs baseline.|Wilcoxon signed rank test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.9219
82451104|NCT01363908|164608930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6875|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.6875
82451105|NCT01363908|164608930|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 6 to \<12 year olds at 48 weeks||||1.0000
82451106|NCT01363908|164608930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8181|TWO_SIDED|||||The P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.8181
82451107|NCT01363908|164608930|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5566|TWO_SIDED|||||P-value was from analysis of Wilcoxon signed-rank test at post-treatment time point vs. baseline.|Wilcoxon signed-rank|||Analysis of 12 to \<18 year olds at 48 weeks||||0.5566
82451108|NCT01363908|164608932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0475|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.0475
82451109|NCT01363908|164608932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.441|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.||Analysis of 6 to \<12 year olds at 48 weeks||||0.4410
82451110|NCT01363908|164608932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0417|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.0417
82451111|NCT01363908|164608932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0409|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.0409
82451112|NCT01363908|164608933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9901|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 24 weeks||||0.9901
82451113|NCT01363908|164608933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3039|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 6 to \<12 year olds at 48 weeks||||0.3039
82451114|NCT01363908|164608933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0044|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 24 weeks||||0.0044
82451115|NCT01363908|164608933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0395|TWO_SIDED|||||The P-value was from paired t test for log-transformed data at post-treatment time point vs. baseline.|paired t test|||Analysis of 12 to \<18 year olds at 48 weeks||||0.0395
82451116|NCT00536471|164608936|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||Repeated Measures Analysis for Group A change from baseline to 8 week endpoint.|Mixed Models Analysis|Model=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit||||||0.051
82451117|NCT00536471|164608936|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Repeated Measures Analysis for Group B change from baseline to 8 week endpoint.|Mixed Models Analysis|Model=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit||||||<0.001
82451118|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Total Score 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.013
82451119|NCT00536471|164608937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Total Score 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
82451120|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for Maier 8 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.026
82451121|NCT00536471|164608937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Maier 8 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
82451122|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||P-value for Anxiety/Somatization 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.202
82451123|NCT00536471|164608937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Anxiety/Somatization 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
82451124|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-value for Bech 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.027
82451125|NCT00536471|164608937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Bech 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
82451126|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.076||95.0||||P-value for Retardation 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.076
82451127|NCT00536471|164608937|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Retardation 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||<0.001
82536491|NCT04319094|164772147|SUPERIORITY||Mean Difference (Net)|10.32|STANDARD_ERROR_OF_MEAN|4.0||0.01|TWO_SIDED|95.0|2.45|18.19||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|18.19|2.45|0.01
82536492|NCT04319094|164772147|SUPERIORITY||Mean Difference (Net)|10.25|STANDARD_ERROR_OF_MEAN|4.19||0.015|TWO_SIDED|95.0|2.01|18.5||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|18.5|2.01|0.015
82451128|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P-value for Sleep 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.149
82451129|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||P-value for Sleep 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.062
82451130|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.629||95.0||||P-value for Total Score 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.629
82451131|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.194||95.0||||P-value for Total Score 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.194
82451132|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.525||95.0||||P-value for Maier 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.525
82451133|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.595||95.0||||P-value for Maier 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.595
82451134|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-value for Anxiety/Somatization 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.736
82451135|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-value for Anxiety/Somatization 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.368
82451136|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||P-value for Bech 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.660
82451137|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-value for Bech 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.334
82451138|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||P-value for Retardation 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.568
82451139|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||P-value for Retardation 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.216
82451140|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||P-value for Sleep 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.646
82577261|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.208||0.2684|TWO_SIDED|95.0|-0.64|0.18|||MMRM|||Anxiety Somatic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.64|0.2684
82577262|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.202||0.9396|TWO_SIDED|95.0|-0.42|0.39|||MMRM|||Anxiety Somatic, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.39|-0.42|0.9396
82577263|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.195||0.0283|TWO_SIDED|95.0|-0.82|-0.05|||MMRM|||Anxiety Somatic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.82|0.0283
82451141|NCT00536471|164608937|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Sleep 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit|Mixed Models Analysis|||||||0.275
82451142|NCT00536471|164608938|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
82451143|NCT00536471|164608938|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline)|Mixed Models Analysis|||||||<0.001
82451144|NCT00536471|164608938|SUPERIORITY_OR_OTHER|||||||0.449||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.449
82451145|NCT00536471|164608938|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.167
82586165|NCT05437510|164884208|SUPERIORITY||Efficacy|32.19||||0.1003|TWO_SIDED|95.0|-7.188|57.545|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||57.545|-7.188|0.1003
82451146|NCT00536471|164608939|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.016
82451147|NCT00536471|164608939|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||<0.001
82451148|NCT00536471|164608939|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.653
82451149|NCT00536471|164608939|SUPERIORITY_OR_OTHER|||||||0.417||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.417
82451150|NCT00536471|164608940|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.204
82536493|NCT04319094|164772147|SUPERIORITY||Mean Difference (Net)|11.72|STANDARD_ERROR_OF_MEAN|4.07||0.004|TWO_SIDED|95.0|3.7|19.73||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|19.73|3.7|0.004
82536494|NCT04319094|164772147|SUPERIORITY||Mean Difference (Net)|5.73|STANDARD_ERROR_OF_MEAN|4.49||0.2|TWO_SIDED|95.0|-3.09|14.55||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 360||Null hypothesis: there is no difference in the mean SF36-social function scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|14.55|-3.09|0.2
82536495|NCT04319094|164772147|SUPERIORITY|||||||0.8037|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of social functioning over time between the control and PEERS participants.||||0.8037
82536496|NCT04319094|164772148|SUPERIORITY||Median Difference (Net)|12.52|STANDARD_ERROR_OF_MEAN|5.01||0.0129|TWO_SIDED|95.0|2.67|22.37||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|22.37|2.67|0.0129
82536497|NCT04319094|164772148|SUPERIORITY||Mean Difference (Net)|19.84|STANDARD_ERROR_OF_MEAN|5.86||0.0008|TWO_SIDED|95.0|8.32|31.36||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|31.36|8.32|0.0008
82536498|NCT04319094|164772148|SUPERIORITY||Median Difference (Net)|17.99|STANDARD_ERROR_OF_MEAN|6.14||0.0036|TWO_SIDED|95.0|5.92|30.06||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|30.06|5.92|0.0036
82536499|NCT04319094|164772148|SUPERIORITY||Median Difference (Net)|16.24|STANDARD_ERROR_OF_MEAN|5.98||0.007|TWO_SIDED|95.0|4.47|28.01||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|28.01|4.47|0.007
82536500|NCT04319094|164772148|SUPERIORITY||Mean Difference (Net)|12.26|STANDARD_ERROR_OF_MEAN|6.58||0.065|TWO_SIDED|95.0|-0.68|25.19||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 366||Null hypothesis: there is no difference in the mean SF36-emotional functioning scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|25.19|-0.68|0.065
82536501|NCT04319094|164772148|SUPERIORITY|||||||0.881|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of emotional functioning over time between the control and PEERS participants.||||0.8810
82577264|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.189||0.1794|TWO_SIDED|95.0|-0.63|0.12|||MMRM|||Anxiety Somatic, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.63|0.1794
82430021|NCT02141672|164567650|SUPERIORITY||Odds Ratio (OR)|1.59||||0.204|TWO_SIDED|95.0|0.78|3.27|||Regression, Logistic|||Voclosporin high dose vs. placebo||3.27|0.78|0.204
82430022|NCT02141672|164567651|SUPERIORITY||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|1.68|6.13|||Regression, Logistic|||Voclosporin low dose vs. placebo||6.13|1.68|<0.001
82430023|NCT02141672|164567651|SUPERIORITY||Odds Ratio (OR)|2.1||||0.026|TWO_SIDED|95.0|1.09|4.02|||Regression, Logistic|||Voclosporin high dose vs. placebo||4.02|1.09|0.026
82430024|NCT02141672|164567652|SUPERIORITY||Odds Ratio (OR)|1.9||||0.066|TWO_SIDED|95.0|0.96|3.78|||Regression, Logistic|||||3.78|0.96|0.066
82430025|NCT02141672|164567652|SUPERIORITY||Odds Ratio (OR)|1.64||||0.162|TWO_SIDED|95.0|0.82|3.28|||Regression, Logistic|||||3.28|0.82|0.162
82430026|NCT02141672|164567653|SUPERIORITY||Hazard Ratio (HR)|2.26|||<|0.001|TWO_SIDED|95.0|1.45|3.51|||Regression, Cox|||Voclosporin low dose vs. placebo||3.51|1.45|<0.001
82430027|NCT02141672|164567653|SUPERIORITY||Hazard Ratio (HR)|2.25|||<|0.001|TWO_SIDED|95.0|1.46|3.47|||Regression, Cox|||Voclosporin high dose vs. placebo||3.47|1.46|<0.001
82430028|NCT02141672|164567654|SUPERIORITY||Hazard Ratio (HR)|2.89|||<|0.001|TWO_SIDED|95.0|1.58|5.29|||Regression, Cox|||||5.29|1.58|<0.001
82430029|NCT02141672|164567654|SUPERIORITY||Hazard Ratio (HR)|1.48|||<|0.248|TWO_SIDED|95.0|0.77|2.86|||Regression, Cox|||Voclosporin high dose vs. placebo||2.86|0.77|<0.248
82430030|NCT02141672|164567656|SUPERIORITY||Hazard Ratio (HR)|1.63||||0.005|TWO_SIDED|95.0|1.16|2.27|||Regression, Cox|||||2.27|1.16|0.005
82536502|NCT04319094|164772149|SUPERIORITY|||||||0.031||||||The a priori threshold for statistical significance is p=0.05.|F-test for overall significance|Degrees of freedom: 370||Null hypothesis: there is no difference in the change in probability of ER use from baseline to post-intervention between PEERS and control participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|||0.031
82536503|NCT04319094|164772154|SUPERIORITY||Mean Difference (Net)|-4.98|STANDARD_ERROR_OF_MEAN|1.42||0.0005|TWO_SIDED|95.0|-7.78|-2.18||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-2.18|-7.78|0.0005
82577265|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.188||0.1091|TWO_SIDED|95.0|-0.68|0.07|||MMRM|||Anxiety Somatic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.68|0.1091
82430031|NCT02141672|164567656|SUPERIORITY||Hazard Ratio (HR)|1.74||||0.002|TWO_SIDED|95.0|1.25|2.43|||Regression, Cox|||Voclosporin high dose vs. placebo||2.43|1.25|0.002
82430032|NCT02141672|164567658|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.98|TWO_SIDED|95.0|0.45|2.15|||Regression, Cox|||Voclosporin low dose vs. placebo||2.15|0.45|0.980
82430033|NCT02141672|164567658|SUPERIORITY||Hazard Ratio (HR)|1.98||||0.118|TWO_SIDED|95.0|0.95|4.16|||Regression, Cox|||Voclosporin high dose vs. placebo||4.16|0.95|0.118
82430034|NCT02141672|164567660|SUPERIORITY||Odds Ratio (OR)|2.33||||0.007|TWO_SIDED|95.0|1.26|4.33|||Regression, Logistic|||week 24||4.33|1.26|0.007
82430035|NCT02141672|164567660|SUPERIORITY||Odds Ratio (OR)|2.03||||0.024|TWO_SIDED|95.0|1.1|3.76|||Regression, Logistic|||week 24||3.76|1.1|0.024
82430036|NCT02141672|164567660|SUPERIORITY||Odds Ratio (OR)|2.34||||0.007|TWO_SIDED|95.0|1.27|4.33|||Regression, Logistic|||week 48||4.33|1.27|0.007
82430037|NCT02141672|164567660|SUPERIORITY||Odds Ratio (OR)|2.68||||0.002|TWO_SIDED|95.0|1.43|5.02|||Regression, Logistic|||week 48||5.02|1.43|0.002
82430038|NCT02141672|164567661|SUPERIORITY||Hazard Ratio (HR)|2.03|||<|0.001|TWO_SIDED|95.0|1.36|3.03|||Regression, Cox|||Voclosporin low dose vs. placebo||3.03|1.36|<0.001
82430039|NCT02141672|164567661|SUPERIORITY||Hazard Ratio (HR)|1.81||||0.004|TWO_SIDED|95.0|1.22|2.69|||Regression, Cox|||Voclosporin high dose vs. placebo||2.69|1.22|0.004
82430040|NCT02141672|164567663|SUPERIORITY||Hazard Ratio (HR)|2.21|||<|0.001|TWO_SIDED|95.0|1.45|3.36|||Regression, Cox|||Voclosporin low dose vs. placebo||3.36|1.45|<0.001
82430041|NCT02141672|164567663|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.004|TWO_SIDED|95.0|1.23|2.84|||Regression, Cox|||Voclosporin high dose vs. placebo||2.84|1.23|0.004
82430042|NCT01118780|164567667|SUPERIORITY_OR_OTHER||LS mean difference|4.17|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|2.47|5.88|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||5.88|2.47|<0.001
82430043|NCT01118780|164567668|SUPERIORITY_OR_OTHER||LS mean difference|3.23|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|1.61|4.85|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||4.85|1.61|<0.001
82430044|NCT01118780|164567669|SUPERIORITY_OR_OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|1.43|3.37||The p-value is for the change from baseline to Week 10 in the HAMA Psychic Anxiety Factor Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||3.37|1.43|<0.001
82430045|NCT01118780|164567669|SUPERIORITY_OR_OTHER||LS mean difference|1.76|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|0.87|2.65||The p-value is for the change from baseline to Week 10 in the HAMA Somatic Anxiety Factor Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||2.65|0.87|<0.001
82648477|NCT03341273|165012659|SUPERIORITY|DOOR is a composite endpoint created using clinical outcomes from Day 1 through Day 5 Visit. It is based on adequate clinical improvement at Day 5 Visit and solicited events from Day 1 through Day 5 Visit.|Pr(Higher DOOR in Placebo at Day 5 Visit|0.63|||<|0.001|TWO_SIDED|95.0|0.57|0.68||Missing DOOR values at Day 5 Visit were first imputed using linear regression using baseline covariates and available DOOR components as covariates.|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value||Null: The sum of the probability that a participant assigned to placebo will have a higher DOOR at Day 5 visit than if assigned to the Azithromycin plus one-half the probability of equal DOORs at Day 5 Visit is 50% (i.e., no difference in DOOR at Day 5 Visit).||0.68|0.57|<0.001
82451151|NCT00536471|164608940|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
82451152|NCT00536471|164608940|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
82451153|NCT00536471|164608940|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.133
82451154|NCT00536471|164608941|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.023
82451155|NCT00536471|164608941|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.100
82451156|NCT00536471|164608941|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
82451157|NCT00536471|164608941|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.133
82536504|NCT04319094|164772154|SUPERIORITY||Mean Difference (Net)|-7.38|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.08|-3.69||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-3.69|-11.08|<0.0001
82536505|NCT04319094|164772154|SUPERIORITY||Mean Difference (Net)|-7.63|STANDARD_ERROR_OF_MEAN|1.87|<|0.0001|TWO_SIDED|95.0|-11.3|-3.95||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-3.95|-11.3|<0.0001
82648478|NCT01717456|165012683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|6.72||0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons.|t-test, 2 sided|||||||.05
82451158|NCT00536471|164608942|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.332
82451159|NCT00536471|164608942|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.041
82451160|NCT00536471|164608942|SUPERIORITY_OR_OTHER|||||||0.775||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.775
82451161|NCT00536471|164608942|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.588
82451162|NCT00536471|164608943|SUPERIORITY_OR_OTHER|||||||0.624||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.624
82451163|NCT00536471|164608943|SUPERIORITY_OR_OTHER|||||||0.473||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.473
82451164|NCT00536471|164608943|SUPERIORITY_OR_OTHER|||||||0.787||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.787
82451165|NCT00536471|164608943|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.086
82451166|NCT00536471|164608944|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.099
82536506|NCT04319094|164772154|SUPERIORITY||Mean Difference (Net)|-8.12|STANDARD_ERROR_OF_MEAN|1.74|<|0.0001|TWO_SIDED|95.0|-11.53|-4.7||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-4.7|-11.53|<0.0001
82430046|NCT01118780|164567669|SUPERIORITY_OR_OTHER||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|0.3|0.74||The p-value is for the change from baseline to Week 10 in the HAMA Anxious Mood Item Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.74|0.30|<0.001
82430047|NCT01118780|164567669|SUPERIORITY_OR_OTHER||LS mean difference|0.31|STANDARD_ERROR_OF_MEAN|0.11||0.007|TWO_SIDED|95.0|0.09|0.53||The p-value is for the change from baseline to Week 10 in the HAMA Tension Item Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.53|0.09|0.007
82430048|NCT01118780|164567670|SUPERIORITY_OR_OTHER||LS mean difference|2.19|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|1.2|3.18||The p-value is for the change from baseline to Week 10 in the HADS Anxiety Subscale Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||3.18|1.20|<0.001
82430049|NCT01118780|164567670|SUPERIORITY_OR_OTHER||LS mean difference|1.69|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|0.89|2.49||The p-value is for the change from baseline to Week 10 in the HADS Depression Subscale Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||2.49|0.89|<0.001
82430050|NCT01118780|164567671|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.26|0.79|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.79|0.26|<0.001
82430051|NCT01118780|164567672|SUPERIORITY_OR_OTHER||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|0.33|0.91|||Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.91|0.33|<0.001
82430052|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.55|STANDARD_ERROR_OF_MEAN|0.29||0.059|TWO_SIDED|95.0|-0.02|1.11||The p-value is for the change from baseline to Week 10 in BPI-SF Worst Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.11|-0.02|0.059
82430053|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.24||0.079|TWO_SIDED|95.0|-0.05|0.89||The p-value is for the change from baseline to Week 10 in BPI-SF Least Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.89|-0.05|0.079
82430054|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.25||0.089|TWO_SIDED|95.0|-0.06|0.91||The p-value is for the change from baseline to Week 10 in BPI-SF Average Pain Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.91|-0.06|0.089
82430055|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.371|TWO_SIDED|95.0|-0.27|0.73||The p-value is for the change from baseline to Week 10 in BPI-SF Pain Right Now Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.73|-0.27|0.371
82430056|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.29||0.066|TWO_SIDED|95.0|-0.04|1.09||The p-value is for the change from baseline to Week 10 in BPI-SF General Activity Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.09|-0.04|0.066
82430057|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.41|STANDARD_ERROR_OF_MEAN|0.27||0.14|TWO_SIDED|95.0|-0.13|0.95||The p-value is for the change from baseline to Week 10 in BPI-SF Mood Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.95|-0.13|0.140
82430058|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.29||0.04|TWO_SIDED|95.0|0.03|1.18||The p-value is for the change from baseline to Week 10 in BPI-SF Walking Ability Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.18|0.03|0.040
82430059|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.29||0.187|TWO_SIDED|95.0|-0.19|0.94||The p-value is for the change from baseline to Week 10 in BPI-SF Normal Work Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.94|-0.19|0.187
82430060|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.26||0.515|TWO_SIDED|95.0|-0.34|0.68||The p-value is for the change from baseline to Week 10 in BPI-SF Relations With Other People Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||0.68|-0.34|0.515
82430061|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.34||0.141|TWO_SIDED|95.0|-0.17|1.18||The p-value is for the change from baseline to Week 10 in BPI-SF Sleep Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.18|-0.17|0.141
82430062|NCT01118780|164567673|SUPERIORITY_OR_OTHER||LS mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.29||0.088|TWO_SIDED|95.0|-0.07|1.07||The p-value is for the change from baseline to Week 10 in BPI-SF Enjoyment of Life Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.07|-0.07|0.088
82652191|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.06||||0.7197|TWO_SIDED|95.0|-0.392|0.271||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.271|-0.392|0.7197
82430063|NCT01118780|164567674|SUPERIORITY_OR_OTHER||LS mean difference|-5.76|STANDARD_ERROR_OF_MEAN|1.87||0.002|TWO_SIDED|95.0|-9.4|-2.1|||ANCOVA||LS mean difference was calculated by placebo minus duloxetine. Negative values indicated improvement over placebo.|||-2.1|-9.4|0.002
82430064|NCT01118780|164567676|SUPERIORITY_OR_OTHER||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.43||0.01|TWO_SIDED|95.0|0.27|1.98||The p-value is for the change from baseline to Week 10 in SDS for Work/School Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.98|0.27|0.010
82430065|NCT01118780|164567676|SUPERIORITY_OR_OTHER||LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|0.32|1.48||The p-value is for the change from baseline to Week 10 in SDS for Social Life/Leisure Activities Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.48|0.32|0.002
82430066|NCT01118780|164567676|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|0.61|1.81||The p-value is for the change from baseline to Week 10 in SDS for Family/Home Management Impairment Score.|Mixed Models Analysis||LS mean difference was calculated by placebo minus duloxetine. Positive values indicated improvement over placebo.|||1.81|0.61|<0.001
82430067|NCT01118780|164567677|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having HAMA response at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
82430068|NCT01118780|164567677|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having remission (HAMA Total Score ≤7) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
82451167|NCT00536471|164608944|SUPERIORITY_OR_OTHER|||||||0.223||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.223
82577266|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.182||0.7921|TWO_SIDED|95.0|-0.41|0.31|||MMRM|||Anxiety Somatic, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.41|0.7921
82648479|NCT00837577|165012715|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.92|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.09|-0.75||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-0.75|-1.09|<.001
82648480|NCT00837577|165012716|SUPERIORITY_OR_OTHER||Least squares mean difference|-51.3|STANDARD_ERROR_OF_MEAN|5.6|<|0.001|TWO_SIDED|95.0|-62.3|-40.2||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-40.2|-62.3|<.001
82430069|NCT01118780|164567677|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for percentage of participants having remission (HAMA Total Score ≤10) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
82430070|NCT01118780|164567678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the percentage of participants having functional remission (SDS Global Score ≤5) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
82430071|NCT01118780|164567678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the percentage of participants having functional remission (SDS Global Score ≤6) at Week 10 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||<0.001
82430072|NCT01118780|164567679|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value is for the percentage of participants having HAMA sustained improvement overall and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||0.001
82451168|NCT00536471|164608944|SUPERIORITY_OR_OTHER|||||||0.473||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.473
82451169|NCT00536471|164608944|SUPERIORITY_OR_OTHER|||||||0.233||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.233
82430073|NCT01118780|164567679|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||The p-value is for the percentage of participants having HAMA sustained improvement from Week 2 and was adjusted for pooled investigator.|Cochran-Mantel-Haenszel|||||||0.038
82430074|NCT01118780|164567683|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||0.005
82430075|NCT01118780|164567684|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is for the time to first remission (HAMA Total Score ≤10) and was adjusted for pooled investigator.|Log Rank|||||||<0.001
82430076|NCT01118780|164567685|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||0.001
82430077|NCT01118780|164567686|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||The p-value is for the time to first functional remission (SDS Global Functional Impairment Score ≤5) and was adjusted for pooled investigator.|Log Rank|||||||0.006
82430078|NCT01118780|164567686|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The p-value is for time to first functional remission (SDS Global Functional Impairment Score ≤6) and was adjusted for pooled investigator.|Log Rank|||||||0.003
82451170|NCT00536471|164608945|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.577
82451171|NCT00536471|164608945|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.567
82451172|NCT00536471|164608946|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.670
82577267|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.166||0.0055|TWO_SIDED|95.0|-0.8|-0.14|||MMRM|||Anxiety Somatic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-0.80|0.0055
82648481|NCT00837577|165012717|SUPERIORITY_OR_OTHER||Least squares mean difference|-22.5|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-30.0|-15.0||Adjusted for other prior antihyperglycemic medications (absence, presence).|Longitudinal data analysis (LDA)|LDA model included both baseline and post-baseline measurements as response variables. P-value calculated using least squares mean.||||-15.0|-30.0|<.001
82652192|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.097||||0.5649|TWO_SIDED|95.0|-0.428|0.234||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.234|-0.428|0.5649
82430079|NCT01118780|164567687|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was adjusted for pooled investigator.|Log Rank|||||||<0.001
82430080|NCT05018689|164567688|SUPERIORITY||Mean Difference (Net)|0.04||||0.642|TWO_SIDED|95.0|-0.13|0.22|||Regression, Linear|||How confident to identify someone showing depression?||0.22|-0.13|0.642
82430081|NCT05018689|164567688|SUPERIORITY||Mean Difference (Net)|0.02||||0.864|TWO_SIDED|95.0|-0.21|0.25|||Regression, Linear|||How confident to help a friend?||0.25|-0.21|0.864
82430082|NCT05018689|164567689|SUPERIORITY||comparison of odds ratios|0.78||||0.336|TWO_SIDED|95.0|0.47|1.3|||Regression, Logistic|||||1.30|0.47|0.336
82430083|NCT05018689|164567690|SUPERIORITY||comparison of odds ratios|1.05||||0.806|TWO_SIDED|95.0|0.7|1.59|||Regression, Logistic|||Depression runs in families. Answer: true||1.59|0.70|0.806
82430084|NCT05018689|164567690|SUPERIORITY||comparison of odds ratios|0.96||||0.781|TWO_SIDED|95.0|0.71|1.3|||Regression, Logistic|||Depression can be controlled through willpower. Answer: false||1.30|0.71|0.781
82430085|NCT05018689|164567690|SUPERIORITY||comparison of odds ratios|0.93||||0.72|TWO_SIDED|95.0|0.62|1.39|||Regression, Logistic|||Depression is treatable. Answer: true||1.39|0.62|0.720
82430086|NCT05018689|164567690|SUPERIORITY||comparison of odds ratios|1.11||||0.784|TWO_SIDED|95.0|0.52|2.38|||Regression, Logistic|||Abuse of alcohol and drugs can be a sign of depression. Answer: true||2.38|0.52|0.784
82451173|NCT00536471|164608946|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.059
82430087|NCT05018689|164567690|SUPERIORITY||comparison of odds ratios|1.08||||0.662|TWO_SIDED|95.0|0.76|1.55|||Regression, Logistic|||Depression is a sign of personal weakness. Answer: false||1.55|0.76|0.662
82430088|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|0.8||||0.34|TWO_SIDED|95.0|0.51|1.26|||Regression, Logistic|||Difficulty concentrating or making decisions||1.26|0.51|0.340
82430089|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|0.81||||0.265|TWO_SIDED|95.0|0.56|1.17|||Regression, Logistic|||Feeling angry||1.17|0.56|0.265
82430090|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|0.7||||0.259|TWO_SIDED|95.0|0.38|1.3|||Regression, Logistic|||Changes in sleep patterns||1.30|0.38|0.259
82430091|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|1.12||||0.45|TWO_SIDED|95.0|0.84|1.49|||Regression, Logistic|||Frequent unexplained aches and pains||1.49|0.84|0.450
82430092|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|2.28||||0.025|TWO_SIDED|95.0|1.11|4.69|||Regression, Logistic|||Feeling tired or less energetic||4.69|1.11|0.025
82430093|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|1.01||||0.937|TWO_SIDED|95.0|0.71|1.44|||Regression, Logistic|||Eating more than usual||1.44|0.71|0.937
82430094|NCT05018689|164567691|SUPERIORITY||comparison of odds ratios|0.83||||0.447|TWO_SIDED|95.0|0.52|1.34|||Regression, Logistic|||Feeling irritable or restless||1.34|0.52|0.447
82430095|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|0.02||||0.8|TWO_SIDED|95.0|-0.11|0.14|||Regression, Linear|||Friend||0.14|-0.11|0.800
82430096|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.05||||0.451|TWO_SIDED|95.0|-0.18|0.08|||Regression, Linear|||Parent/guardian||0.08|-0.18|0.451
82430097|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|0.07||||0.335|TWO_SIDED|95.0|-0.07|0.2|||Regression, Linear|||School counselor||0.2|-0.07|0.335
82430098|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.04||||0.554|TWO_SIDED|95.0|-0.17|0.09|||Regression, Linear|||Teacher||0.09|-0.17|0.554
82430099|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.04||||0.541|TWO_SIDED|95.0|-0.19|0.1|||Regression, Linear|||Mental health professional||0.10|-0.19|0.541
82430100|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|0.05||||0.454|TWO_SIDED|95.0|-0.09|0.19|||Regression, Linear|||Doctor||0.19|-0.09|0.454
82430101|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.02||||0.749|TWO_SIDED|95.0|-0.16|0.12|||Regression, Linear|||Internet/website||0.12|-0.16|0.749
82430102|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.13||||0.03|TWO_SIDED|95.0|-0.24|-0.01|||Regression, Linear|||Clergy, priest, rabbi, or other religious person||-0.01|-0.24|0.030
82430103|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|0.06||||0.334|TWO_SIDED|95.0|-0.06|0.18|||Regression, Linear|||Phone helpline||0.18|-0.06|0.334
82430104|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|0.07||||0.243|TWO_SIDED|95.0|-0.05|0.2|||Regression, Linear|||Crisis textline||0.20|-0.05|0.243
82430105|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.05||||0.492|TWO_SIDED|95.0|-0.19|0.09|||Regression, Linear|||Other relative (i.e., sister, brother, aunt, uncle)||0.09|-0.19|0.492
82430106|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.04||||0.61|TWO_SIDED|95.0|-0.17|0.1|||Regression, Linear|||Boyfriend or girlfriend||0.10|-0.17|0.610
82430107|NCT05018689|164567692|SUPERIORITY||Mean Difference (Net)|-0.12||||0.061|TWO_SIDED|95.0|-0.25|0.01|||Regression, Linear|||Coach||0.01|-0.25|0.061
82430108|NCT05018689|164567693|SUPERIORITY||comparison of odds ratios|1.27||||0.086|TWO_SIDED|95.0|0.97|1.66|||Regression, Logistic|||If you had depression symptoms for more than 2 weeks, would you ask for help?||1.66|0.97|0.086
82430109|NCT05018689|164567693|SUPERIORITY||comparison of odds ratios|1.13||||0.526|TWO_SIDED|95.0|0.77|1.66|||Regression, Logistic|||If you thought you had mental health issues, is there a trusted adult you would go to?||1.66|0.77|0.526
82430110|NCT05018689|164567694|SUPERIORITY||Mean Difference (Net)|0.06||||0.199|TWO_SIDED|95.0|-0.03|0.16|||Regression, Linear|||Do you know how to get help in your school?||0.16|-0.03|0.199
82430111|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.25|||<|0.001|TWO_SIDED|95.0|-0.38|-0.12|||Regression, Linear|||The new student is more dangerous than other students||-0.12|-0.38|<0.001
82430112|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.18||||0.003|TWO_SIDED|95.0|-0.29|-0.06|||Regression, Linear|||The student is to blame for his or her condition||-0.06|-0.29|0.003
82430113|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|0.06||||0.31|TWO_SIDED|95.0|-0.06|0.18|||Regression, Linear|||I would have sympathy for the new student||0.18|-0.06|0.310
82430114|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.1||||0.114|TWO_SIDED|95.0|-0.21|0.02|||Regression, Linear|||The new student makes me feel scared||0.02|-0.21|0.114
82430115|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|0.02||||0.738|TWO_SIDED|95.0|-0.1|0.15|||Regression, Linear|||The new student makes me feel uncomfortable||0.15|-0.10|0.738
82430116|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|0.12||||0.04|TWO_SIDED|95.0|0.01|0.24|||Regression, Linear|||I would help the new student even if I did not know him or her well||0.24|0.01|0.040
82430117|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.17||||0.006|TWO_SIDED|95.0|-0.29|-0.05|||Regression, Linear|||I would try to stay away from the new student||-0.05|-0.29|0.006
82577268|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.161||0.03|TWO_SIDED|95.0|-0.67|-0.03|||MMRM|||Anxiety Somatic, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.03|-0.67|0.0300
82430118|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.02||||0.798|TWO_SIDED|95.0|-0.15|0.11|||Regression, Linear|||The new student would be made fun of at my school||0.11|-0.15|0.798
82430119|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|-0.09||||0.197|TWO_SIDED|95.0|-0.22|0.05|||Regression, Linear|||The new student would be ignored at my school||0.05|-0.22|0.197
82430120|NCT05018689|164567695|SUPERIORITY||Mean Difference (Net)|0.03||||0.623|TWO_SIDED|95.0|-0.1|0.16|||Regression, Linear|||I think other students in my school would try to help the new student||0.16|-0.10|0.623
82430121|NCT05018689|164567696|SUPERIORITY||Mean Difference (Net)|0.05||||0.718|TWO_SIDED|95.0|-0.21|0.3|||Regression, Linear|||On a scale from 1 to 7, if you were seen going into the office of your school social worker or school psychologist, how would you feel?||0.30|-0.21|0.718
82430122|NCT05018689|164567697|SUPERIORITY||Mean Difference (Net)|0.21||||0.09|TWO_SIDED|95.0|-0.03|0.46|||Regression, Linear|||How comfortable are you talking about mental health issues with other students at your school?||0.46|-0.03|0.090
82430123|NCT05018689|164567698|SUPERIORITY||comparison of odds ratios|0.99||||0.944|TWO_SIDED|95.0|0.67|1.44|||Regression, Logistic|||Depression||1.44|0.67|0.944
82430124|NCT05018689|164567698|SUPERIORITY||comparison of odds ratios|1.18||||0.369|TWO_SIDED|95.0|0.82|1.68|||Regression, Logistic|||Anxiety||1.68|0.82|0.369
82430125|NCT05018689|164567698|SUPERIORITY||comparison of odds ratios|1.07||||0.676|TWO_SIDED|95.0|0.77|1.5|||Regression, Logistic|||Thoughts of suicide||1.50|0.77|0.676
82430126|NCT05018689|164567698|SUPERIORITY||comparison of odds ratios|0.79||||0.432|TWO_SIDED|95.0|0.44|1.42|||Regression, Logistic|||I do not think there are any mental health issues that are concerning for students||1.42|0.44|0.432
82430127|NCT05018689|164567698|SUPERIORITY||comparison of odds ratios|0.87||||0.533|TWO_SIDED|95.0|0.56|1.35|||Regression, Logistic|||Other||1.35|0.56|0.533
82430128|NCT05018689|164567699|SUPERIORITY||Mean Difference (Net)|-0.01||||0.769|TWO_SIDED|95.0|-0.11|0.08|||Regression, Linear|||How much do your teachers know about addressing student mental health needs?||0.08|-0.11|0.769
82430129|NCT05018689|164567699|SUPERIORITY||Mean Difference (Net)|0.05||||0.315|TWO_SIDED|95.0|-0.05|0.16|||Regression, Linear|||How much do your school counselors know about addressing student mental health needs?||0.16|-0.05|0.315
82430130|NCT05018689|164567700|SUPERIORITY||comparison of odds ratios|0.86||||0.345|TWO_SIDED|95.0|0.63|1.18|||Regression, Logistic|||Mental health information sheets at school||1.18|0.63|0.345
82430131|NCT05018689|164567700|SUPERIORITY||comparison of odds ratios|0.98||||0.899|TWO_SIDED|95.0|0.73|1.33|||Regression, Logistic|||Class activities about mental health||1.33|0.73|0.899
82430132|NCT05018689|164567700|SUPERIORITY||comparison of odds ratios|1.08||||0.612|TWO_SIDED|95.0|0.8|1.48|||Regression, Logistic|||Mental health information on school website||1.48|0.80|0.612
82430133|NCT05018689|164567700|SUPERIORITY||comparison of odds ratios|1.14||||0.476|TWO_SIDED|95.0|0.79|1.65|||Regression, Logistic|||Other||1.65|0.79|0.476
82430134|NCT05018689|164567701|SUPERIORITY||Mean Difference (Net)|-0.09||||0.141|TWO_SIDED|95.0|-0.22|0.03|||Regression, Linear|||On average, how often do your teachers speak to you about your emotions and feelings?||0.03|-0.22|0.141
82430135|NCT05018689|164567702|SUPERIORITY||Mean Difference (Net)|0.04||||0.392|TWO_SIDED|95.0|-0.05|0.13|||Regression, Linear|||Would you like your teachers to speak to you about your emotions and feelings?||0.13|-0.05|0.392
82430136|NCT00532844|164567703|SUPERIORITY||Geometric Mean Ratio|1.5|||<|0.001|TWO_SIDED|95.0|1.2|1.8||The model will constitute the independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable plasma BH4 concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in higher plasma BH4 concentrations when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the plasma BH4 concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.8|1.2|<0.001
82451174|NCT00536471|164608946|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.930
82451175|NCT00536471|164608946|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.567
82451176|NCT00536471|164608947|SUPERIORITY_OR_OTHER|||||||0.896||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.896
82652193|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.422||||0.0138|TWO_SIDED|95.0|-0.757|-0.087||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.087|-0.757|0.0138
82451177|NCT00536471|164608947|SUPERIORITY_OR_OTHER|||||||0.796||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.796
82451178|NCT00536471|164608947|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.571
82451179|NCT00536471|164608947|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.381
82536507|NCT04319094|164772154|SUPERIORITY||Mean Difference (Net)|-8.26|STANDARD_ERROR_OF_MEAN|2.09|<|0.0001|TWO_SIDED|95.0|-12.37|-4.14||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 414|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean UCLA Loneliness scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|-4.14|-12.37|<0.0001
82536508|NCT04319094|164772154|SUPERIORITY|||||||0.6857|||||||Mixed Models Analysis|||Null hypothesis: there is no statistical difference in the change of UCLA Loneliness score over time between control and PEERS participants||||0.6857
82536509|NCT04319094|164772155|SUPERIORITY||Mean Difference (Net)|1.79|STANDARD_ERROR_OF_MEAN|0.54||0.001|TWO_SIDED|95.0|0.72|2.86|||Mixed Models Analysis|Degrees of freedom: 421|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.86|0.72|0.001
82536510|NCT04319094|164772155|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|0.67||0.18|TWO_SIDED|95.0|-0.39|2.25||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.25|-0.39|0.18
82652194|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|0.06||||0.7202|TWO_SIDED|95.0|-0.269|0.388||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.388|-0.269|0.7202
82451180|NCT00536471|164608948|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.038
82451181|NCT00536471|164608948|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
82451182|NCT00536471|164608948|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.665
82451183|NCT00536471|164608948|SUPERIORITY_OR_OTHER|||||||0.253||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.253
82451184|NCT00536471|164608949|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
82451185|NCT00536471|164608949|SUPERIORITY_OR_OTHER|||||||0.312||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.312
82451186|NCT00536471|164608949|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.853
82451187|NCT00536471|164608949|SUPERIORITY_OR_OTHER|||||||0.913||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.913
82451188|NCT00536471|164608950|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.234
82451189|NCT00536471|164608950|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.216
82451190|NCT00536471|164608950|SUPERIORITY_OR_OTHER|||||||0.853||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.853
82451191|NCT00536471|164608950|SUPERIORITY_OR_OTHER|||||||0.908||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.908
82451192|NCT00536471|164608951|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.789
82451193|NCT00536471|164608951|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.012
82451194|NCT00536471|164608951|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.414
82451195|NCT00536471|164608951|SUPERIORITY_OR_OTHER|||||||0.717||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.717
82451196|NCT00536471|164608952|SUPERIORITY_OR_OTHER|||||||0.78||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.780
82451197|NCT00536471|164608952|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.152
82536511|NCT04319094|164772155|SUPERIORITY||Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|0.68||0.11|TWO_SIDED|95.0|-0.24|2.45||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|2.45|-0.24|0.11
82451198|NCT00536471|164608952|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.637
82451199|NCT00536471|164608952|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.024
82451200|NCT00536471|164608953|SUPERIORITY_OR_OTHER|||||||0.517||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.517
82451201|NCT00536471|164608953|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.256
82451202|NCT00536471|164608953|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
82451203|NCT00536471|164608953|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
82451204|NCT00536471|164608954|SUPERIORITY_OR_OTHER|||||||0.741||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.741
82451205|NCT00536471|164608954|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.722
82451206|NCT00536471|164608954|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
82451207|NCT00536471|164608954|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
82451208|NCT00536471|164608955|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
82451209|NCT00536471|164608955|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.949
82451210|NCT00536471|164608955|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
82451211|NCT00536471|164608955|SUPERIORITY_OR_OTHER|||||||0.268||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.268
82451212|NCT00536471|164608956|SUPERIORITY_OR_OTHER|||||||0.682||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.682
82451213|NCT00536471|164608956|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.001
82451214|NCT00536471|164608956|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.200
82451215|NCT00536471|164608956|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.813
82536512|NCT04319094|164772155|SUPERIORITY||Mean Difference (Net)|2.26|STANDARD_ERROR_OF_MEAN|0.65||0.0006|TWO_SIDED|95.0|0.98|3.54||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|3.54|0.98|0.0006
82536513|NCT04319094|164772155|SUPERIORITY||Mean Difference (Net)|2.48|STANDARD_ERROR_OF_MEAN|0.75||0.001|TWO_SIDED|95.0|1.01|3.95||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 421|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean GSES scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|3.95|1.01|0.001
82536514|NCT04319094|164772155|SUPERIORITY|||||||0.1195|||||||Mixed Models Analysis|||Null hypothesis: There is no difference in the change of GSES scores over time between the control and PEERS participants.||||0.1195
82536515|NCT04319094|164772156|SUPERIORITY||Mean Difference (Net)|3.22|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|1.71|4.73||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: post-intervention - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to post-intervention for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.73|1.71|<0.0001
82536516|NCT04319094|164772156|SUPERIORITY||Mean Difference (Net)|2.59|STANDARD_ERROR_OF_MEAN|1.03||0.0123|TWO_SIDED|95.0|0.57|4.62||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 3-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 3-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.62|0.57|0.0123
82577269|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.185||0.0118|TWO_SIDED|95.0|-0.84|-0.11|||MMRM|||Anxiety Somatic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.11|-0.84|0.0118
82451216|NCT00536471|164608957|SUPERIORITY_OR_OTHER|||||||0.438||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.438
82451217|NCT00536471|164608957|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.018
82451218|NCT00536471|164608957|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
82451219|NCT00536471|164608957|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
82451220|NCT00536471|164608958|SUPERIORITY_OR_OTHER|||||||0.588||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.588
82430137|NCT00532844|164567704|SUPERIORITY||Geometric Mean Ratio|0.9||||0.139|TWO_SIDED|95.0|0.7|1.0||The model will constitute the independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable plasma BH2 concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in higher plasma BH2 when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the plasma BH2 concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.0|0.7|0.139
82430138|NCT00532844|164567704|SUPERIORITY||Geometric Mean Ratio|0.96||||0.57|TWO_SIDED|95.0|0.83|1.11||The model will constitute independent variables of treatment regimen, treatment sequence, and period as fixed effects, and subject as a random effect. The dependent variable Total B concentration (AUC0-12 hr) expressed in log transformation.|Mixed Models Analysis|||To determine if administration of saproprterin dihydrochloride administered with Vitamin C results in Total B (biopterin) when compared with administration of sapropterin dihydrochloride alone in subjects with endothelial dysfunction. The difference in the Total B (biopterin) concentration (AUC0-12 hr) between the 2 regimens will be compared using a mixed model with a 0.05 level of significance. The difference is represented as the geometric mean ratio.||1.11|0.83|0.570
82430139|NCT00532844|164567707|SUPERIORITY|||||||0.593|||||||ANCOVA|The model will have the treatments and the baseline measurement as independent variables and measurement at Day 13 as the dependent variable.||The raw value of PAT obtained from the first period (baseline to Day 13) will be used to compare the two treatments.||||0.593
82430140|NCT04389866|164567735|SUPERIORITY||Mean Difference (Final Values)|-0.357|STANDARD_DEVIATION|0.864||0.018|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 1 (jawline injections) analysis of Jawline Rating Scale Assessments given by blinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the blinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.018
82430141|NCT04389866|164567735|SUPERIORITY||Mean Difference (Final Values)|-0.214|STANDARD_DEVIATION|0.864||0.082|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 2 (jawline and lateral zygomatic cheek area injections) analysis of Jawline Rating Scale Assessments given by blinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the blinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.082
82451221|NCT00536471|164608958|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.758
82536517|NCT04319094|164772156|SUPERIORITY||Mean Difference (Net)|2.63|STANDARD_ERROR_OF_MEAN|1.02||0.01|TWO_SIDED|95.0|0.63|4.63||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 6-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 6-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|4.63|0.63|0.01
82536518|NCT04319094|164772156|SUPERIORITY||Mean Difference (Net)|4.18|STANDARD_ERROR_OF_MEAN|0.95|<|0.0001|TWO_SIDED|95.0|2.32|6.04||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 9-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 9-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|6.04|2.32|<0.0001
82536519|NCT04319094|164772156|SUPERIORITY||Mean Difference (Net)|3.14|STANDARD_ERROR_OF_MEAN|1.17||0.0078|TWO_SIDED|95.0|0.83|5.44||The a priori threshold for statistical significance is p=0.05.|Mixed Models Analysis|Degrees of freedom: 361|Score difference: 12-month - baseline|Null hypothesis: there is no difference in the mean Brief-COPE Adaptive Coping scores from baseline to 12-month for all study participants.|A series of generalized linear mixed-effect models were implemented to predict the outcome measurements. The primary fixed effect predictors were group (control vs. PEERS), time (categorical), and group \* time. Random terms in all models were: study participants and their interaction with time. The covariance of dependent variable values across time was modeled as a first-order auto-regression decaying function (AR1). Higher order fixed and random terms were pretested and removed from the model if nonsignificant.|5.44|0.83|0.0078
82536520|NCT04319094|164772156|SUPERIORITY|||||||0.1408|||||||Mixed Models Analysis|||Null hypothesis: there is no statistical difference in the change in adaptive coping over time between control and PEERS participants.||||0.1408
82577270|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.178||0.2266|TWO_SIDED|95.0|-0.57|0.14|||MMRM|||Anxiety Somatic, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.57|0.2266
82652195|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.093||||0.5784|TWO_SIDED|95.0|-0.421|0.236||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.236|-0.421|0.5784
82536521|NCT00614744|164772166|SUPERIORITY|This trial estimated the probability that the intervention has no effect on the outcome (or conversely, the probability that it does), given the data obtained in the trial and any prior evidence.|Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.59|1.29|||Bayesian log binomial models|Bayesian log binomial models were used to analyze the primary outcome of death or moderate/severe disability.|In log binomial models used Normal (0, sd=0.35) neutral prior in the log RR scale. Estimation used Normal weakly informative priors. Reported posterior medians \& 95% credible intervals for the RR above instead of confidence intervals.|Whole-body Hypothermia vs. Normothermia (Normothermia is the comparison group)|"We fitted all Bayesian models via Markov chain Monte Carlo methods (MCMC) using JAGS (version 3.4) and OpenBUGS (3.2.3) in R (version 3.2.5). For each analysis we ran 3 MCMC chains with starting values randomly drawn from the estimated parameters from a frequentist log binomial model. A burn-in of 1,000 iterations was used, with sampling from a further 10,000 iterations for each chain. To monitor convergence, trace plots and the Gelman-Rubin convergence diagnostic (Rhat) were used for all parameters.~For all analyses, the trace plots show good mixing of the 3 chains with Rhat \< 1.01 for all parameters, indicating convergence."|1.29|0.59|
82536522|NCT01446003|164772184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02|||||TWO_SIDED|90.0|-0.52|4.56|||Linear mixed effect models|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||If the upper limit of the 90% confidence interval lies below the bound 5 mmHg, the hypothesis that change from baseline in ambulatory 24-hour mean SBP in participants with mild to moderate hypertension following 10 days of multiple dosing of MK-8457 is similar to placebo will be supported.||4.56|-0.52|
82430142|NCT04389866|164567736|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_DEVIATION|0.497||3.1e-07|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for arm 1 (jawline injections) analysis of Jawline Rating Scale Assessments given by unblinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the unblinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.00000031
82430143|NCT04389866|164567736|SUPERIORITY||Mean Difference (Final Values)|-0.714|STANDARD_DEVIATION|0.497||7.28e-05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline and lateral (zygomatic) cheek area injections arm analysis of Jawline Rating Scale Assessments given by unblinded physician.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the unblinded physician Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.0000728
82430144|NCT04389866|164567737|SUPERIORITY||Mean Difference (Final Values)|-0.571|STANDARD_DEVIATION|0.611||0.014|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline injections analysis of Jawline Rating Scale Assessments given by subjects.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline injection arm was that there would be no statistically significant change in the subjects' Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.014
82430145|NCT04389866|164567737|SUPERIORITY||Mean Difference (Final Values)|-0.714|STANDARD_DEVIATION|0.726||0.0065|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|The df = 13 for jawline and lateral (zygomatic) cheek area injections analysis of Jawline Rating Scale Assessments given by the subjects.|Treatment Difference = 4 Weeks after last injection - Baseline|The null hypothesis for the 7 participants placed randomly 1:1 in the jawline and lateral (zygomatic) cheek area injections arm was that there would be no statistically significant change in the subjects' Jawline Rating Scale Assessment at baseline versus four weeks after last injection.||||0.0065
82430146|NCT03141255|164567757|OTHER|||||||1|||||||Fisher Exact|||||||1
82430147|NCT03141255|164567758|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82451222|NCT00536471|164608958|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
82536523|NCT01446003|164772185|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.57|||||TWO_SIDED|90.0|0.19|2.96|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||||2.96|0.19|
82536524|NCT01446003|164772186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||||TWO_SIDED|90.0|2.44|13.35|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in SBP from baseline to Day 10 after AM dosing||13.35|2.44|
82430148|NCT03141255|164567759|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82430149|NCT03141255|164567760|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82430150|NCT03141255|164567761|SUPERIORITY|||||||0.029|||||||Mixed Models Analysis|||||||0.029
82430151|NCT03141255|164567762|SUPERIORITY|||||||0.091|||||||Mixed Models Analysis|||||||0.091
82430152|NCT03141255|164567763|SUPERIORITY|||||||0.029|||||||Mixed Models Analysis|||||||0.029
82430153|NCT03141255|164567764|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82430154|NCT03141255|164567765|SUPERIORITY|||||||0.516|||||||Fisher Exact|||||||0.516
82430155|NCT03141255|164567766|OTHER|||||||0.75|||||||Kaplan Meier|||||||0.75
82430156|NCT03141255|164567767|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82430157|NCT03141255|164567768|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||0.052
82430158|NCT00833027|164567790|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.85|<|0.001|ONE_SIDED|95.0|||||Student's T-test|Student's T-test for paired samples||||||<0.001
82430159|NCT04683913|164567816|OTHER||||||<|0.001|||||||ANCOVA|alpha=0.05||||||<0.001
82451223|NCT00536471|164608958|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
82430160|NCT04683913|164567817|OTHER|||||||0.027||||||Week 1\&2 vs Week 3\&4|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.027
82430161|NCT04683913|164567817|OTHER|||||||1||||||Week 3\&4 vs Week 5\&6|t-test, 2 sided|||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||1.0
82430162|NCT04683913|164567817|OTHER|||||||0.078||||||Week 5\&6 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.078
82430163|NCT04683913|164567817|OTHER|||||||0.015||||||Follow up vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.015
82430164|NCT04683913|164567817|OTHER|||||||0.567||||||Week 1\&2 vs Week 5\&6|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.567
82430165|NCT04683913|164567817|OTHER|||||||0.001||||||Week 1\&2 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.001
82451224|NCT00536471|164608959|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.507
82430166|NCT04683913|164567817|OTHER|||||||1||||||Week 1\&2 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||1.0
82430167|NCT04683913|164567817|OTHER|||||||0.205||||||Week 3\&4 vs Follow up|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.205
82430168|NCT04683913|164567817|OTHER|||||||0.162||||||Week 3\&4 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.162
82430169|NCT04683913|164567817|OTHER|||||||0.421||||||Week 5\&6 vs Retention|t-test, 2 sided|alpha corrected with Bonferroni-Dunn procedure (k=10).||The change in foot progression angle magnitude at each sequential time point were compared using paired t-tests (with a Bonferroni-Dunn correction). Results indicate whether the change from baseline were significantly different at each time point. Abbreviations: F=Follow up, R=Retention||||0.421
82652196|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.376||||0.0266|TWO_SIDED|95.0|-0.708|-0.044||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.044|-0.708|0.0266
82430170|NCT04683913|164567822|SUPERIORITY|||||||0.75|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - pain subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.750
82430171|NCT04683913|164567822|SUPERIORITY|||||||0.201|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - stiffness subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.201
82430172|NCT04683913|164567822|SUPERIORITY|||||||0.997|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - physical function subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.997
82430173|NCT04683913|164567822|SUPERIORITY|||||||0.423|||||||ANCOVA|Controlling for baseline scores, structural severity and sex. alpha=0.05||Knee Injury and Osteoarthritis Outcome Scale - quality of life subscale scores were compared between the delayed and immediate groups at week 6 using ANCOVA.||||0.423
82430174|NCT04683913|164567823|SUPERIORITY|||||||0.342|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee adduction moment 1 (early stance) was analyzed as raw Nm with body mass entered as as covariate.||||0.342
82430175|NCT04683913|164567823|SUPERIORITY|||||||0.844|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee Adduction Moment 2 (late stance was analyzed as raw Nm with body mass entered as as covariate.||||0.844
82451225|NCT00536471|164608959|SUPERIORITY_OR_OTHER|||||||0.466||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.466
82451226|NCT00536471|164608959|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
82451227|NCT00536471|164608959|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
82536525|NCT01446003|164772186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||||TWO_SIDED|90.0|-5.68|3.81|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in SBP from baseline to Day 10 after PM dosing||3.81|-5.68|
82536526|NCT01446003|164772186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.26|||||TWO_SIDED|90.0|0.81|9.71|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in DBP from baseline to Day 10 after AM dosing||9.71|0.81|
82536527|NCT01446003|164772186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|||||TWO_SIDED|90.0|-4.55|1.17|||Linear mixed effects model|The model contained period and treatment as fixed effect, Day -1 baseline as a fixed continuous covariate, and participant as random effect.||Treatment comparison of maxMAΔ in DBP from baseline to Day 10 after PM dosing||1.17|-4.55|
82536528|NCT02266329|164772291|SUPERIORITY||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|1.6||0.034|TWO_SIDED|95.0|-6.9|-0.8||The significance of the study visit by treatment interaction with study visit coded as baseline, 4 weeks, 8 weeks, and 12 weeks.|Mixed Models Analysis|||Change from baseline in headache (HA) frequency (1. Primary Outcome Measure) is based on linear mixed effects regression of outcome on study visit by treatment interaction with study participant as a random effect.||-0.8|-6.9|0.034
82536529|NCT03499600|164772326|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.03|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. This linear regressions tested condition effects on caregiver perceptions of the extent to which the provider understood the caregivers' values or what is important to them.||||.03
82536530|NCT03499600|164772326|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.68|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed.This linear regressions tested condition effects on caregiver satisfaction with the intake.||||.68
82652197|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.049||||0.777|TWO_SIDED|95.0|-0.391|0.293||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.293|-0.391|0.7770
82430176|NCT04683913|164567823|SUPERIORITY|||||||0.774|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee Flexion Moments were analyzed as raw Nm with body mass entered as as covariate||||0.774
82430177|NCT04683913|164567824|SUPERIORITY|||||||0.186|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee adduction moment impulses were analyzed as raw Nm\*s with body mass entered as as covariate.||||0.186
82430178|NCT04683913|164567824|SUPERIORITY|||||||0.601|||||||ANCOVA|Controlling for body mass, structural severity and sex. alpha=0.05||Knee flexion moment impulses were analyzed as raw Nm\*s with body mass entered as as covariate.||||0.601
82430179|NCT02878382|164567853|SUPERIORITY||||||<|0.001||||||significance level of 5%|Chi-squared|also, Fisher's exact test and Mann-Whtiney were used for comparing the other variables in the study||||||<0.001
82430180|NCT02878382|164567855|SUPERIORITY||||||=|0.001||||||significance level of 5%|Fisher Exact|||||||=0.001
82536531|NCT03499600|164772326|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.03|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed.This linear regressions tested condition effects on provider perceptions of the extent to which the provider understood the caregivers' values or what is important to them.||||.03
82536532|NCT03499600|164772326|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.|||||<|0.05|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. This linear regressions tested condition effects on provider satisfaction with the intake.||||<.05
82430181|NCT02878382|164567856|SUPERIORITY||||||=|0.048|||||||Wilcoxon (Mann-Whitney)|||Student's t-test or the Mann-Whitney test was used according to the assumption of normality of data for PpIX fluorescence intensity||||=0.048
82430182|NCT01482715|164567858|OTHER||RP2D|600.0|||||TWO_SIDED||||||||||A MTD was not established based on observation of DLTs in Cycle 1 of treatment. The 600 mg BID dose was considered to be the maximum dose with an acceptable toxicity profile that could be continuously administered to patients and was selected as the recommended Phase 2 dose (RP2D).|||
82430183|NCT01861665|164567910|SUPERIORITY|||||||0.8379||||||Pre Incision vs. Post Incision on Post op day 0.|t-test, 2 sided|||||||0.8379
82430184|NCT01861665|164567910|SUPERIORITY|||||||0.7263||||||Pre incision vs. Post incision post op day 1.|t-test, 2 sided|||||||0.7263
82430185|NCT01861665|164567910|SUPERIORITY|||||||0.5||||||Pre incision vs. Post incision day 2.|t-test, 2 sided|||||||0.5
82430186|NCT02628444|164567911|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMTs between groups (Group 2/Group 1) was greater than (\>) 1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.862|1.39||||||Group 2/Group 1: Serotype 1||1.39|0.862|
82430187|NCT02628444|164567911|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.993|||||TWO_SIDED|95.0|0.82|1.2||||||Group 2/Group 1: Serotype 2||1.20|0.820|
82451228|NCT00536471|164608960|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.487
82451229|NCT00536471|164608960|SUPERIORITY_OR_OTHER|||||||0.678||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.678
82451230|NCT00536471|164608960|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.692
82536533|NCT03499600|164772328|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.93|||||||Regression, Linear|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Linear regressions tested condition effects on therapeutic alliance.||||.93
82536534|NCT03499600|164772328|SUPERIORITY|||||||0.9|||||||Regression, Linear|||Tested the moderation effects of language of service reception and condition on therapeutic alliance.||||.90
82430188|NCT02628444|164567911|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.983|||||TWO_SIDED|95.0|0.816|1.18||||||Group 2/Group 1: Serotype 3||1.18|0.816|
82430189|NCT02628444|164567911|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.96|||||TWO_SIDED|95.0|0.809|1.14||||||Group 2/Group 1: Serotype 4||1.14|0.809|
82430190|NCT02628444|164567912|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.757|1.4||||||Group 2/Group 1: Serotype 1||1.40|0.757|
82430191|NCT02628444|164567912|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.897|||||TWO_SIDED|95.0|0.705|1.14||||||Group 2/Group 1: Serotype 2||1.14|0.705|
82430192|NCT02628444|164567912|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.917|||||TWO_SIDED|95.0|0.724|1.16||||||Group 2/Group 1: Serotype 3||1.16|0.724|
82430193|NCT02628444|164567912|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.884|||||TWO_SIDED|95.0|0.72|1.09||||||Group 2/Group 1: Serotype 4||1.09|0.720|
82430194|NCT02628444|164567913|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.567|||||TWO_SIDED|98.75|0.399|0.805||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 1||0.805|0.399|
82430195|NCT02628444|164567913|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.746|||||TWO_SIDED|98.75|0.55|1.01||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 2||1.01|0.550|
82451231|NCT00536471|164608960|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.668
82451232|NCT00536471|164608961|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.505
82652198|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.114||||0.5121|TWO_SIDED|95.0|-0.456|0.228||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.228|-0.456|0.5121
82430196|NCT02628444|164567913|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|1.04|||||TWO_SIDED|98.75|0.686|1.57||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 3||1.57|0.686|
82430197|NCT02628444|164567913|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.647|||||TWO_SIDED|98.75|0.434|0.963||||||Group 1a Booster/Group 1 Post-dose 3: Serotype 4||0.963|0.434|
82430198|NCT02628444|164567914|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.627|||||TWO_SIDED|98.75|0.342|1.15||||||Group 2a Booster dose/Group 1 Post-dose 3: Serotype 1||1.15|0.342|
82430199|NCT02628444|164567914|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.809|||||TWO_SIDED|98.75|0.505|1.3||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 2||1.30|0.505|
82451233|NCT00536471|164608961|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.135
82430200|NCT02628444|164567914|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|1.19|||||TWO_SIDED|98.75|0.732|1.94||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 3||1.94|0.732|
82430201|NCT02628444|164567914|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided Bonferroni corrected 95% CI for the ratio of GMTs between groups (Group 2a Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT Ratio|0.499|||||TWO_SIDED|98.75|0.331|0.754||||||Group 2a Booster/Group 1 Post-dose 3: Serotype 4||0.754|0.331|
82536535|NCT03499600|164772329|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery. Baseline ECBI score was included as a covariate for the treatment response analyses.||||||0.171|||||||Regression, Logistic|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. A logistic regression tested condition effects on treatment response.||||.171
82536536|NCT03499600|164772329|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||Testes the effects of the moderation of language of service delivery and condition on treatment response.||||<.05
82536537|NCT03499600|164772330|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.38|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Linear regressions tested condition effects on session attendance.||||.38
82536538|NCT03499600|164772330|SUPERIORITY|||||||0.01|||||||Regression, Linear|||Analyses tested the moderation of language of service delivery and condition on session attendance.||||.01
82536539|NCT03499600|164772330|SUPERIORITY|||||||0.56|||||||Regression, Linear|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested condition effects on homework completion. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.56
82536540|NCT03499600|164772330|SUPERIORITY||||||<|0.01|||||||Regression, Linear|||Analyses tested the moderation effect of language of service delivery and condition on homework completion.||||<.01
82536541|NCT03499600|164772330|SUPERIORITY|||||||0.4|||||||Regression, Logistic|||Power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. Logistic regressions tested condition effects on initial session attendance. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.40
82536542|NCT03499600|164772330|SUPERIORITY|||||||0.01|||||||Regression, Logistic|||Analyses tested the moderation of language of service delivery and condition on initial session attendance.||||.01
82652199|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.366||||0.0384|TWO_SIDED|95.0|-0.711|-0.02||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.020|-0.711|0.0384
82652200|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.093||||0.5876|TWO_SIDED|95.0|-0.431|0.245||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.245|-0.431|0.5876
82430202|NCT02628444|164567915|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.688|||||TWO_SIDED|98.75|0.479|0.989||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 1||0.989|0.479|
82430203|NCT02628444|164567915|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.871|||||TWO_SIDED|98.75|0.673|1.13||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 2||1.13|0.673|
82430204|NCT02628444|164567915|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|1.15|||||TWO_SIDED|98.75|0.887|1.49||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 3||1.49|0.887|
82430205|NCT02628444|164567915|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs within groups (Group 1b booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT paired ratio|0.655|||||TWO_SIDED|98.75|0.471|0.911||||||Group 1b Booster/Group 1 Post-dose 3: Serotype 4||0.911|0.471|
82451234|NCT00536471|164608961|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.175
82430206|NCT02628444|164567916|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.889|||||TWO_SIDED|98.75|0.462|1.71||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 1||1.71|0.462|
82430207|NCT02628444|164567916|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.677|||||TWO_SIDED|98.75|0.402|1.14||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 2||1.14|0.402|
82451235|NCT00536471|164608961|SUPERIORITY_OR_OTHER|||||||1||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||1.000
82536543|NCT03499600|164772330|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. A Logistic regression tested condition effects on completion of first treatment module. Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||.03
82536544|NCT03499600|164772330|SUPERIORITY|||||||0.03|||||||Regression, Logistic|||Analyses tested the moderation of language of service delivery and condition on completion of first treatment module.||||.03
82536545|NCT03499600|164772331|SUPERIORITY|Due to condition differences all analyses controlled for length of intake assessment (in minutes), site, caregiver race/ethnicity, daily stress, and language of assessment delivery.||||||0.854|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested condition effects on treatment satisfaction.||||.854
82536546|NCT03499600|164772332|SUPERIORITY|||||||0.319|||||||Regression, Linear|||A power analysis assuming an alpha level = 0.05, beta = 0.2, and power = 0.8, identified a sample ≥82 participants was needed to identify small-to-medium effects (i.e., OR\~2.5).Intent-to-treat analyses were employed. linear regressions tested change in ECBI score from baseline to post treatment.||||.319
82536547|NCT01779375|164772349|SUPERIORITY||||||>|0.05||||||All analyses were conducted with values on a log scale and re-exponentiated for presentation.|Regression, Linear|Measures of ß-cell response were modeled simultaneously with insulin sensitivity (M/I) using 2-df seemingly unrelated regression models.||Seemingly unrelated regression was used to compare treatment arms on the combination of insulin sensitivity (M/I as calculated from the hyperglycemic clamp) and insulin secretion (steady-state C-peptide and ACPRmax as co-primary; ACPRg as major secondary,). See statistical analysis plan for further details and R code.||||>0.05
82536548|NCT01779375|164772350|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||Analyses were completed on a log scale and re-exponentiated for presentation.||||>0.05
82430208|NCT02628444|164567916|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.911|||||TWO_SIDED|98.75|0.573|1.45||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 3||1.45|0.573|
82430209|NCT02628444|164567916|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (Group 2b Booster/Group 1) was \>1/2. Overall non-inferiority was demonstrated if all 4 serotypes achieved non-inferiority.|GMT ratio|0.702|||||TWO_SIDED|98.75|0.447|1.1||||||Group 2b Booster/Group 1 Post-dose 3: Serotype 4||1.10|0.447|
82430210|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|1.05|||||TWO_SIDED|95.0|0.833|1.33||||||Group2/Group1: Serotype 1 (28 days after last vaccination)||1.33|0.833|
82430211|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.821|1.19||||||Group2/Group1: Serotype 2 (28 days after last vaccination)||1.19|0.821|
82430212|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.972|||||TWO_SIDED|95.0|0.81|1.17||||||Group2/Group1: Serotype 3 (28 days after last vaccination)||1.17|0.810|
82430213|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.963|||||TWO_SIDED|95.0|0.814|1.14||||||Group2/Group1: Serotype 4 (28 days after last vaccination)||1.14|0.814|
82430214|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.762|1.39||||||Group2/Group1: Serotype 1 (1 year after last vaccination)||1.39|0.762|
82536549|NCT01779375|164772352|SUPERIORITY||||||>|0.05|||||||Regression, Linear|||Analyses were completed on a log scale and re-exponentiated for display.||||>0.05
82536550|NCT00389519|164772355|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||two-sided test|ANCOVA|test from contrast statement from full model||"Planned interim efficacy analysis: 80 placebo and 80 high-dose ramipril subjects provided 93% power, alpha=0.032, to detect 5 mmHg difference in primary outcome. SD of 8.5 mmHg assumed. Alpha of 0.032 required for the planned interim efficacy analysis.~If study continued: 450 total subjects would provide 90% power, alpha=0.027, to detect 3 mmHg difference between placebo and combined ramipril dose groups. Alpha of 0.027 required for the final analysis."||||0.044
82536551|NCT00389519|164772356|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||two-sided, unadjusted|ANCOVA|test from contrast statement from full model||||||0.006
82430215|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.917|||||TWO_SIDED|95.0|0.724|1.16||||||Group2/Group1: Serotype 2 (1 year after last vaccination)||1.16|0.724|
82430216|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.933|||||TWO_SIDED|95.0|0.742|1.17||||||Group2/Group1: Serotype 3 (1 year after last vaccination)||1.17|0.742|
82451236|NCT00536471|164608962|SUPERIORITY_OR_OTHER|||||||0.175||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.175
82451237|NCT00536471|164608962|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
82451238|NCT00536471|164608962|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.576
82451239|NCT00536471|164608962|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.676
82451240|NCT00536471|164608963|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.675
82451241|NCT00536471|164608963|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.139
82451242|NCT00536471|164608963|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.576
82451243|NCT00536471|164608963|SUPERIORITY_OR_OTHER|||||||0.676||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.676
82451244|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.007
82648482|NCT00986154|165012718|NON_INFERIORITY_OR_EQUIVALENCE|The study was designed to accumulate approximately 220 Overall primary efficacy events in the mITT (modified Intent to Treat) Analysis Set. Assuming equal efficacy (Hazard Ratio = 1.00), a total of 220 events gave a power of 85% to demonstrate that (LMW) heparin/edoxaban was non-inferior to the comparator, considering a relative non-inferiority margin of 1.5 (two sided α=0.05).|Hazard Ratio (HR)|0.89|||<|0.0001|TWO_SIDED|95.0|0.703|1.128|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose|(LMW) heparin/edoxaban will be non-inferior to (LMW) heparin/warfarin in preventing recurrence of acute, symptomatic VTE following initial index event. (LMW) Heparin/edoxaban was considered non-inferior to the standard therapy (\[LMW\] heparin/warfarin) if the upper limit of the two-sided 95% confidence interval (CI) for the Hazard Ratio (\[LMW\] heparin/edoxaban to standard therapy) was less than 1.5. Events included in Overall study period if occurred on or after randomization date up to Day 365.||1.128|.703|<0.0001
82430217|NCT02628444|164567917|SUPERIORITY|The superiority was demonstrated if the lower limit of the two-sided 95% CI was greater than 1 between groups (Group 2/Group 1). Overall superiority of Group 2 to Group 1 was demonstrated if individual serotype null hypotheses were rejected.|GMT Ratio|0.916|||||TWO_SIDED|95.0|0.75|1.12||||||Group2/Group1: Serotype 4 (1 year after last vaccination)||1.12|0.750|
82430218|NCT02079909|164567935|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.3919|TWO_SIDED||||||Mixed Models Analysis|||||||0.3919
82451245|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.031
82451246|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.020
82451247|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.324||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.324
82430219|NCT02079909|164567936|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.7588|TWO_SIDED||||||Mixed Models Analysis|||||||0.7588
82430220|NCT02079909|164567937|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.3212|TWO_SIDED||||||Mixed Models Analysis|||||||0.3212
82451248|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.010
82451249|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.005
82451250|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.010
82451251|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.019
82451252|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.201
82451253|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.069
82451254|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.368
82451255|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.435
82536552|NCT00531479|164772388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.74||||0.0434|TWO_SIDED|95.0|-18.99|1.51||P-value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||The 95% CI was based on using Greenwood's formula for the variance of the KM estimator.|All-cause mortality calculated using the Kaplan-Meier (KM) product limit estimator on Day 42 (Week 6) within each stratum and weighted by the harmonic mean of the sample sizes in the strata. Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables were site of infection and host factors.||1.51|-18.99|0.0434
82536553|NCT00531479|164772389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.23|||||TWO_SIDED|95.0|-21.6|1.15||P-value for global response was to be reported only if Week 6 mortality was significant.|||95% confidence interval based on the difference in success rates using the normal approximation to the binoial distribution.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||1.15|-21.6|
82577271|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.181||0.0025|TWO_SIDED|95.0|-0.92|-0.2|||MMRM|||Anxiety Somatic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.20|-0.92|0.0025
82648483|NCT00986154|165012719|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9933|TWO_SIDED|95.0|0.832|1.2|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose.|||1.200|.832|.9933
82430221|NCT02277249|164567938|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||No power calculation performed given that this was a pilot study. The null hypothesis was that there would be no difference in pain score with injection between the two study arms. The Wilcoxon rank sum test was selected because of the study's small sample size and the non-normal distribution of pain scores. Intention to treat analyses were used.||||0.36
82430222|NCT01869634|164567950|OTHER|Wilcoxon signed-rank test. Paired samples.||||||0.0025|||||||Sign test|||Comparison between HIV positive naïve to ART before and after ART has been done.||||0.0025
82430223|NCT01869634|164567951|OTHER|Two-sample Wilcoxon rank-sum (Mann-Whitney) test||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82430224|NCT01869634|164567951|OTHER|Wilcoxon signed-rank test||||||0.826|||||||Sign test|||Comparison of coronary artery wall thickness before and after ART in the HIV infected participants.||||0.826
82430225|NCT01869634|164567952|OTHER|Two-sample Wilcoxon rank-sum (Mann-Whitney) test|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||comparison between groups (HIV+ vs HIV-)||||<0.001
82430226|NCT01869634|164567952|OTHER|||||||0.807|||||||Sign test|||Changes in systemic immune activation through IL6||||0.807
82430227|NCT03427814|164567981|SUPERIORITY||||||=|0.1428|||||||Log Rank|The one-sided p-value was based on a stratified log-rank test.||||||= 0.1428
82430228|NCT03846427|164567988|SUPERIORITY|P value was based on the exact binomial test against the null hypothesis of ORR = 30% with alternative of ORR \> 30%|||||<|0.0001|||||||Binomial exact method|||||||<0.0001
82430229|NCT04971967|164568063|SUPERIORITY|||||||0.07|||||||Generalized linear regression|||||||0.07
82430230|NCT04971967|164568064|SUPERIORITY|||||||0.3|||||||Generalized linear regression|||||||0.30
82430231|NCT04971967|164568066|SUPERIORITY|||||||0.28|||||||Generalized linear regression|||||||0.28
82430232|NCT04971967|164568068|SUPERIORITY|||||||0.07|||||||Generalized linear regression|||||||0.07
82430233|NCT04971967|164568069|SUPERIORITY|||||||0.11|||||||Generalized linear regression|||||||0.11
82430234|NCT00052910|164568070|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.99|||||TWO_SIDED|95.0|0.79|1.24|||||Adjusted Hazard Ratio, ECF vs 5-FU/LV|||1.24|0.79|
82652201|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.298||||0.0842|TWO_SIDED|95.0|-0.636|0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.040|-0.636|0.0842
82430235|NCT00052910|164568071|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.03|||||TWO_SIDED|95.0|0.83|1.28|||||Adjusted Hazard Ratio, ECF vs 5-FU/LV|||1.28|0.83|
82430236|NCT01475721|164568072|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority comparison is statistically significant if the upper bound of the two-sided 95% CI falls below 2, the non-inferiority margin, and the non-inferiority test one-sided p-value \<0.025.|Hazard Ratio (HR)|1.029||||0.003|TWO_SIDED|95.0|0.638|1.662|||Regression, Cox|||||1.662|0.638|0.003
82430237|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.834||||0.203|TWO_SIDED|95.0|0.63|1.103|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy.|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.103|0.630|0.203
82430238|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.839||||0.188|TWO_SIDED|95.0|0.645|1.09|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.090|0.645|0.188
82430239|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.002|TWO_SIDED|95.0|0.645|0.905|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||0.905|0.645|0.002
82430240|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.071|TWO_SIDED|95.0|0.451|1.034|||Regression, Cox||Analysis of time to first exacerbation in efficacy subgroup: Subjects controlled on prior ICS therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.034|0.451|0.071
82451256|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.090
82430241|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.373|TWO_SIDED|95.0|0.659|1.17|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.170|0.659|0.373
82430242|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.864||||0.271|TWO_SIDED|95.0|0.665|1.122|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.122|0.665|0.271
82430243|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755||||0.001|TWO_SIDED|95.0|0.637|0.895|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||0.895|0.637|0.001
82430244|NCT01475721|164568073|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.075|TWO_SIDED|95.0|0.454|1.04|||Regression, Cox||Analysis of number of asthma exacerbations in efficacy subgroup: Subjects controlled on prior ICS therapy|The hazard ratio computed is essentially the relative risk of having the event in the treatment group relative to the control group, adjusted for time to the event.||1.040|0.454|0.075
82430245|NCT01475721|164568075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.776||||0.123|TWO_SIDED|95.0|0.562|1.071|||Regression, Cox|||||1.071|0.562|0.123
82430246|NCT01475721|164568076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|||<|0.001|TWO_SIDED|95.0|-0.385|-0.141|||Regression, Cox||Efficacy subgroup: Subjects not well-controlled on prior ICS or non-LABA therapy|||-0.141|-0.385|<0.001
82430247|NCT01475721|164568076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222||||0.003|TWO_SIDED|95.0|-0.369|-0.076|||Regression, Cox||Efficacy subgroup: Subjects not well-controlled on prior ICS+LABA therapy|||-0.076|-0.369|0.003
82430248|NCT01475721|164568076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|||<|0.001|TWO_SIDED|95.0|-0.238|-0.106|||Regression, Cox||Efficacy subgroup: Subjects controlled on prior ICS+LABA therapy|||-0.106|-0.238|<0.001
82430249|NCT01475721|164568076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.251|TWO_SIDED|95.0|-0.216|0.056|||Regression, Cox||Efficacy subgroup: Subjects controlled on prior ICS therapy|||0.056|-0.216|0.251
82430250|NCT01772550|164568082|NON_INFERIORITY_OR_EQUIVALENCE|A 95% upper confidence bound for the observed difference in percentages of images with acceptable quality between the control catheter and evaluation catheter was calculated using the Score method. The 20 G BD Nexiva™ Diffusics™ can be considered non-inferior for acceptable image quality if this 95% upper confidence bound is smaller than 15% (i.e. C - D \< 15% with 95% confidence). The non-inferiority margin was 15%.|Risk Difference (RD)|0.0|||||ONE_SIDED|95.0||2.6|||||The difference in percent of acceptable image quality is used as an estimate. The Score method was used to estimate the upper 95% confidence limit.|Only the percent of acceptable image quality from the randomized test and reference catheter groups were considered for this statistical analysis. If C is the percentage of acceptable quality images with the control catheter, and D is the percentage of images of acceptable quality with the evaluation catheter, and the non-inferiority criteria is 15%, the hypotheses to be tested are as follows: H0: C - D \> or = 15%; H1: C - D \< 15%.||2.6||
82430251|NCT00559104|164568094|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.51||||0.51|TWO_SIDED|95.0|0.07|3.79|||Regression, Cox||"Parameter Dispersion Type: Standard Error of the Parameter Estimate, not of the mean.~Standard Error = 1.02475"|There is no power calculation as this is a phase II study. This is an Event-free Survival, in which an event can be Relapse/Progression, or Death. Censoring can be at the End of follow-up date, or at the End of study date.||3.79|0.07|0.51
82430252|NCT00559104|164568095|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.66||||0.69|TWO_SIDED|95.0|0.09|4.99|||Regression, Cox||"Numerator: Carmustine in the conditioning. Denominator: Irradiation in the conditioning.~Parameter: Hazard ratio. Dispersion: Standard Error of the Hazard Ratio."|Phase II analysis: There was no power calculation.||4.99|0.09|0.69
82430253|NCT00387088|164568097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|0.085|0.118|||ANCOVA|ANCOVA with pooled centre, LABA use, and treatment fitted as main effects and the baseline trough FEV1 as a covariate.||||0.118|0.085|<0.0001
82430254|NCT05069649|164568138|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
82430255|NCT05069649|164568139|SUPERIORITY|||||||0.2488|||||||Fisher Exact|||||||0.2488
82430256|NCT05069649|164568140|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82430257|NCT05069649|164568141|SUPERIORITY|||||||0.32|||||||Fisher Exact|||||||0.32
82430258|NCT05069649|164568142|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
82430259|NCT05069649|164568143|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82430260|NCT01061385|164568171|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5||||0.2922|TWO_SIDED|95.0|-6.8|21.7|||t-test, 1 sided|||||21.7|-6.8|0.2922
82430261|NCT01061385|164568172|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|||||TWO_SIDED|95.0|-37.7|38.0|||||The 95% CI range above is calculated for the current estimated value.|||38.0|-37.7|
82430262|NCT03800030|164568176|SUPERIORITY|||||||0.031|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 2.305||||||0.031
82430263|NCT03800030|164568177|SUPERIORITY|||||||0.935|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 0.083||||||0.935
82430264|NCT03800030|164568178|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|degrees of freedom = 22 t-statistic = 1.833||||||0.040
82430265|NCT03800030|164568179|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|degrees of freedom = 22 t-statistic = 2.174||||||0.020
82430266|NCT03800030|164568180|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = -0.623||||||0.540
82430267|NCT03800030|164568181|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|degrees of freedom = 22 t-statistic = 2.989||||||0.007
82451257|NCT00536471|164608964|SUPERIORITY_OR_OTHER|||||||0.313||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.313
82451258|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.639||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.639
82430268|NCT02655887|164568182|NON_INFERIORITY|PG of 74%, which was set at 10% (non-inferiority margin) below the weighted mean of primary patency (PP2) rate at 12 month at a combination of 55% (PTS) subjects at primary patency rate of 77.1% and 45% (NIVL) subjects at primary patency rate of 93.4%. When taking into consideration both co-primary efficacy and safety endpoints, with 138 BVS subjects, the overall study power is at least 85%\*99%=84%.|Weighted Z-statistics|88.3||||0.0001|ONE_SIDED|90.0|82.4||||Weighted Z-statistics|||"Hypothesis: H0 :Primary patency rate at 12 months post-index procedure from the overall VENOVO Venous Stent (BVS) patients (PTS and NIVL combined) is at most as good as that of the PG.~Ha: Primary patency rate at 12 months post-index procedure from the overall VENOVO Venous Stent (BVS) patients (PTS and NIVL combined) is better than that of PG."|||82.4|0.0001
82430269|NCT02655887|164568183|NON_INFERIORITY|The primary safety endpoint was evaluated against the PG of 89% which was set at 10% (non-inferiority margin) below the literature-derived average freedom from MAE rate at 30 day of 99%. A one-side p-value is derived based on an exact binomial test. When taking into consideration both co-primary efficacy and safety endpoints, with 138 BVS subjects, the overall study power is at least 85%\*99%=84%.|Exact binomial test|93.5||||0.0322|ONE_SIDED|90.0|89.5||||Exact binomial test|||"Hypothesis: H0: The primary safety endpoint absence from event rate in the VENOVO Venous Stent (BVS) through 30 day at most as large as that of the PG.~Ha: The primary safety endpoint absence from event rate in the VENOVO Venous Stent (BVS) through 30 day is better than that of the PG."|||89.5|0.0322
82430270|NCT02655887|164568184|OTHER|||||||0.001||||||this p value is \< 0.001.|t-test, 2 sided|||"H0: The distribution at the 12-month follow-up remains unimproved compared to baseline.~Ha: The distribution shifts toward lower (less pain) classes."||||0.001
82430271|NCT02655887|164568185|OTHER|||||||0.001||||||p value is \< 0.001|t-test, 2 sided|||||||0.001
82430272|NCT02706925|164568203|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2951|STANDARD_DEVIATION|0.0352|||TWO_SIDED|95.0|1.2242|1.366|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.3660|1.2242|
82430273|NCT02706925|164568203|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.088|STANDARD_DEVIATION|0.0843|||TWO_SIDED|95.0|0.9128|1.2633|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.2633|0.9128|
82430274|NCT02706925|164568203|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.1846|STANDARD_DEVIATION|0.3328|||TWO_SIDED|95.0|0.4791|1.89|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.8900|0.4791|
82430275|NCT02706925|164568204|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.2114|STANDARD_DEVIATION|0.035|||TWO_SIDED|95.0|1.1409|1.2818|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.2818|1.1409|
82536554|NCT00531479|164772390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2611|TWO_SIDED|95.0|-10.77|5.56||P-Value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence interval based on using Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||5.56|-10.77|0.2611
82536555|NCT00531479|164772391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.18||||0.0383|TWO_SIDED|95.0|-21.44|1.09||P-Value based on a 1-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence intervalbased on using Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||1.09|-21.44|0.0383
82536556|NCT00531479|164772392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.24||||0.1029|TWO_SIDED|95.0|-15.9|3.42||P-Value based on a one-sided test and tested against a 1-sided alpha of 0.025 to determine statistical significance.|Z test for difference in proportions||95% confidence interval based on Greenwood's formula for the variance of the Kaplan Meier estimator.|Treatment difference (stratified) based on a weighted difference in proportions. Stratification variables: site of infection and host factors.||3.42|-15.9|0.1029
82577272|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.176||0.0555|TWO_SIDED|95.0|-0.69|0.01|||MMRM|||Anxiety Somatic, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.69|0.0555
82430276|NCT02706925|164568204|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.0771|STANDARD_DEVIATION|0.0524|||TWO_SIDED|95.0|0.9696|1.1845|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||1.1845|0.9696|
82430277|NCT02706925|164568204|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.3969|STANDARD_DEVIATION|0.3965|||TWO_SIDED|95.0|0.5563|2.2375|||||The model of dose proportionality was power model that describes the functional relationship between the dose and PK endpoints. Perfect dose proportionality would correspond to a slope of 1. Standard deviation is actually the standard error of slope.|||2.2375|0.5563|
82430278|NCT00600067|164568205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.17||0.0381|TWO_SIDED|95.0|-0.69|-0.02|||ANCOVA|||||-0.02|-0.69|0.0381
82430279|NCT00600067|164568206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|-9.18|-4.21|||ANCOVA|||||-4.21|-9.18|<0.0001
82536557|NCT00531479|164772393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.696||||0.083|TWO_SIDED|95.0|0.46|1.04|||Cox proportional hazards model|||Hazard Ratio: hazard of death in the Voriconazole/Anidulafungin arm relative to the Voriconazole/Placebo arm, adjusted for host factor status and site of infection. Participants who died beyond Day 84 were censored.||1.04|0.46|0.083
82536558|NCT00531479|164772394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.687||||0.164|TWO_SIDED|95.0|0.4|1.16|||Cox proportional hazards model||95% confidence interval based on Greenwood's formula.|Analysis based on Cox proportional hazards model. Participants who died beyond day 84 were censored.||1.16|0.40|0.164
82536559|NCT01743729|164772395|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|0.03||||0.6186|TWO_SIDED|95.0|-0.1|0.17|||ANCOVA|||||0.17|-0.10|0.6186
82536560|NCT01743729|164772396|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|12.61|||<|0.0001|TWO_SIDED|95.0|8.51|16.7|||ANCOVA|||||16.70|8.51|<0.0001
82536561|NCT05074498|164772430|OTHER||Least square mean difference|-0.35||||0.0838|TWO_SIDED|95.0|-0.741|0.047|||Mixed Models Analysis|||||0.047|-0.741|0.0838
82536562|NCT05642000|164772471|SUPERIORITY||Odds Ratio, log|0.187|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|95.0|-0.079|0.454|||Mixed Models Analysis|||||0.454|-0.079|
82536563|NCT01677936|164772491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||=|0.024||||||Compared to snacks, raisins reduced percent post-prandial glucose levels by 23%, which met the a priori threshold for statistical significance.|t-test, 2 sided|||||||=0.024
82536564|NCT01677936|164772492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.7|||=|0.035||||||Compared with snacks, the 8.8 mmHg reduction with raisins met the a priori threshold for statistical significance.|t-test, 2 sided|||||||=0.035
82536565|NCT00157014|164772517|SUPERIORITY_OR_OTHER|||||||0.4725||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon (Mann-Whitney)|||||||0.4725
82536566|NCT00157014|164772528|SUPERIORITY_OR_OTHER|||||||0.8373||95.0||||No adjustments for multiple comparisons were performed.|Wilcoxon (Mann-Whitney)|||||||0.8373
82536567|NCT01362491|164772531|SUPERIORITY_OR_OTHER||Least-Square (LS) mean difference|6.11|||<|0.001|TWO_SIDED|95.0|4.49|7.73||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|ANOVA|||Treatment difference (Ibuprofen sodium-placebo) and 95 percent (%) confidence interval (CI): based on LS means from analysis of variance (ANOVA). Type I error was controlled at 0.05 significance level (2-sided) by declaring pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium versus (vs.) placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||7.73|4.49|<0.001
82536568|NCT01362491|164772532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.253|TWO_SIDED|95.0|0.88|1.65||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms.|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error was controlled at 0.05 significance level (2-sided) by declaring pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium vs. placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.65|0.88|0.253
82536569|NCT01362491|164772533|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.38|||<|0.001|TWO_SIDED|95.0|2.69|7.14||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||7.14|2.69|<0.001
82536570|NCT01362491|164772533|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.64|||<|0.001|TWO_SIDED|95.0|2.23|5.94||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||5.94|2.23|<0.001
82536571|NCT01362491|164772534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.68|||<|0.001|TWO_SIDED|95.0|2.87|7.64||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||7.64|2.87|<0.001
82577273|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.176||0.0013|TWO_SIDED|95.0|-0.93|-0.23|||MMRM|||Anxiety Somatic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.23|-0.93|0.0013
82536572|NCT01362491|164772534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.88|||<|0.001|TWO_SIDED|95.0|2.38|6.34||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||6.34|2.38|<0.001
82536573|NCT01362491|164772534|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.247|TWO_SIDED|95.0|0.88|1.66||p-value was calculated using the PH model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.66|0.88|0.247
82536574|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.26|||<|0.001|TWO_SIDED|95.0|0.92|1.59||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.92|<0.001
82536575|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.27|||<|0.001|TWO_SIDED|95.0|0.93|1.61||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.61|0.93|< 0.001
82586166|NCT05437510|164884208|SUPERIORITY||Efficacy|39.83||||0.0164|TWO_SIDED|95.0|8.449|60.911|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||60.911|8.449|0.0164
82451259|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.584||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.584
82451260|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.251||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.251
82451261|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.265||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Tension-Anxiety (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.265
82451262|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.366
82451263|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Depression-Dejection (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.257
82451264|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.426||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.426
82451265|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.234||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Anger-Hostility (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.234
82451266|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.765||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.765
82451267|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.522||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Vigor-Activity (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.522
82451268|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.986
82536576|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.01||||0.943|TWO_SIDED|95.0|-0.29|0.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.27|-0.29|0.943
82451269|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Fatigue-Inertia (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.602
82451270|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.110
82451271|NCT00536471|164608965|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Confusion-Bewilderment(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.505
82451272|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.366||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.366
82451273|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.065
82451274|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.229
82451275|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.044
82451276|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.092
82451277|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.002
82451278|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.142||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score(Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.142
82451279|NCT00536471|164608966|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.005
82451280|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.921||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.921
82536577|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.89|1.62||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.62|0.89|<0.001
82536578|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.22|||<|0.001|TWO_SIDED|95.0|0.85|1.59||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.59|0.85|<0.001
82536579|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.03||||0.847|TWO_SIDED|95.0|-0.27|0.33||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-0.27|0.847
82536580|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.59|||<|0.001|TWO_SIDED|95.0|1.14|2.05||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.05|1.14|<0.001
82536581|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.68|||<|0.001|TWO_SIDED|95.0|1.22|2.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.13|1.22|<0.001
82536582|NCT01362491|164772535|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.08||||0.663|TWO_SIDED|95.0|-0.46|0.29||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - (Ibuprofen IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.29|-0.46|0.663
82536583|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.54|||<|0.001|TWO_SIDED|95.0|0.37|0.72||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.72|0.37|<0.001
82652202|NCT02637557|165019486|SUPERIORITY||LS Mean Difference|-0.452||||0.0098|TWO_SIDED|95.0|-0.793|-0.11||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.110|-0.793|0.0098
82430280|NCT04571060|164568217|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.8|||<|0.0001|TWO_SIDED|95.0|4.5|13.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||13.1|4.5|<0.0001
82430281|NCT04571060|164568218|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.7||||0.0012|TWO_SIDED|95.0|3.4|13.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||13.9|3.4|0.0012
82430282|NCT04571060|164568219|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|9.0||||0.0012|TWO_SIDED|95.0|3.6|14.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.5|3.6|0.0012
82430283|NCT04571060|164568220|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|10.2||||0.0001|TWO_SIDED|95.0|5.0|15.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||15.5|5.0|0.0001
82430284|NCT04571060|164568221|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|7.6||||0.0048|TWO_SIDED|95.0|2.3|12.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||12.9|2.3|0.0048
82430285|NCT04571060|164568222|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|6.5||||0.013|TWO_SIDED|95.0|1.4|11.7||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.7|1.4|0.0130
82430286|NCT04571060|164568223|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.9||||0.0076|TWO_SIDED|95.0|1.3|8.5||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||8.5|1.3|0.0076
82430287|NCT04571060|164568224|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|3.7||||0.0308|TWO_SIDED|95.0|0.3|7.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||7.1|0.3|0.0308
82430288|NCT04571060|164568225|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.3||||0.0123|TWO_SIDED|95.0|1.8|14.9||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.9|1.8|0.0123
82430289|NCT04571060|164568226|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|8.6||||0.0018|TWO_SIDED|95.0|3.2|14.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||14.1|3.2|0.0018
82430290|NCT04571060|164568227|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|6.0||||0.0293|TWO_SIDED|95.0|0.6|11.4||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.4|0.6|0.0293
82430291|NCT04571060|164568228|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.7||||0.0362|TWO_SIDED|95.0|0.3|9.1||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||9.1|0.3|0.0362
82430292|NCT04571060|164568229|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|10.2|||<|0.0001|TWO_SIDED|95.0|5.5|15.0||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||15.0|5.5|<0.0001
82536584|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.51|||<|0.001|TWO_SIDED|95.0|0.33|0.69||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|0.33|<0.001
82536585|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.03||||0.651|TWO_SIDED|95.0|-0.11|0.18||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.18|-0.11|0.651
82536586|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.62|||<|0.001|TWO_SIDED|95.0|0.42|0.81||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.81|0.42|<0.001
82536587|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.65|||<|0.001|TWO_SIDED|95.0|0.46|0.85||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.85|0.46|<0.001
82536588|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.03||||0.669|TWO_SIDED|95.0|-0.19|0.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.19|0.669
82536589|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.84|||<|0.001|TWO_SIDED|95.0|0.57|1.11||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.11|0.57|<0.001
82536590|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.94|||<|0.001|TWO_SIDED|95.0|0.67|1.21||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.21|0.67|<0.001
82536591|NCT01362491|164772536|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.1||||0.396|TWO_SIDED|95.0|-0.32|0.13||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.32|0.396
82536592|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.8|||<|0.001|TWO_SIDED|95.0|1.3|2.3||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.30|1.30|<0.001
82536593|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.78|||<|0.001|TWO_SIDED|95.0|1.28|2.28||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.28|1.28|<0.001
82536594|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.911|TWO_SIDED|95.0|-0.39|0.43||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.43|-0.39|0.911
82536595|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.87|||<|0.001|TWO_SIDED|95.0|1.33|2.41||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.41|1.33|<0.001
82536596|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.88|||<|0.001|TWO_SIDED|95.0|1.34|2.42||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.42|1.34|<0.001
82536597|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.0||||0.982|TWO_SIDED|95.0|-0.45|0.44||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.44|-0.45|0.982
82536598|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.44|||<|0.001|TWO_SIDED|95.0|1.72|3.15||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.15|1.72|<0.001
82652203|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|0.054||||0.6663|TWO_SIDED|95.0|-0.193|0.301||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.301|-0.193|0.6663
82536599|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.61|||<|0.001|TWO_SIDED|95.0|1.9|3.33||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.33|1.90|<0.001
82536600|NCT01362491|164772537|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.18||||0.547|TWO_SIDED|95.0|-0.77|0.41||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.41|-0.77|0.547
82536601|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.16|||<|0.001|TWO_SIDED|95.0|0.83|1.5||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.83|<0.001
82536602|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.83|1.5||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.50|0.83|<0.001
82536603|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.0||||0.992|TWO_SIDED|95.0|-0.28|0.27||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.27|-0.28|0.992
82536604|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.01|||<|0.001|TWO_SIDED|95.0|1.43|2.58||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.58|1.43|<0.001
82536605|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.1|||<|0.001|TWO_SIDED|95.0|1.53|2.68||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||2.68|1.53|<0.001
82536606|NCT01362491|164772538|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.1||||0.684|TWO_SIDED|95.0|-0.57|0.38||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.38|-0.57|0.684
82536607|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.51|||<|0.001|TWO_SIDED|95.0|1.85|3.17||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.17|1.85|<0.001
82536608|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|2.49|||<|0.001|TWO_SIDED|95.0|1.83|3.15||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen (Motrin IB) - Placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||3.15|1.83|<0.001
82536609|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.943|TWO_SIDED|95.0|-0.52|0.56||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.56|-0.52|0.943
82536610|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|4.1|||<|0.001|TWO_SIDED|95.0|3.03|5.18||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.18|3.03|<0.001
82536611|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|4.17|||<|0.001|TWO_SIDED|95.0|3.09|5.24||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen (Motrin IB) - Placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||5.24|3.09|<0.001
82536612|NCT01362491|164772539|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.06||||0.888|TWO_SIDED|95.0|-0.95|0.82||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-0.95|0.888
82536613|NCT01362491|164772540|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|3.67|||<|0.001|TWO_SIDED|95.0|2.71|4.64||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen Sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.64|2.71|<0.001
82536614|NCT01362491|164772540|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|3.66|||<|0.001|TWO_SIDED|95.0|2.68|4.63||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||4.63|2.68|<0.001
82536615|NCT01362491|164772540|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.02||||0.964|TWO_SIDED|95.0|-0.78|0.82||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-0.78|0.964
82536616|NCT01362491|164772540|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|6.27|||<|0.001|TWO_SIDED|95.0|4.65|7.89||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||7.89|4.65|<0.001
82536617|NCT01362491|164772540|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.16||||0.812|TWO_SIDED|95.0|-1.49|1.17||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR) and gender terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.17|-1.49|0.812
82536618|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|12.02||||0.015|TWO_SIDED|95.0|5.27|18.77||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.77|5.27|0.015
82536619|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|4.5||||0.146|TWO_SIDED|95.0|0.13|8.88||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.88|0.13|0.146
82536620|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|7.62||||0.064|TWO_SIDED|95.0|-0.38|15.63||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.63|-0.38|0.064
82536621|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|58.58|||<|0.001|TWO_SIDED|95.0|44.96|72.21||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||72.21|44.96|<0.001
82536622|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|52.31|||<|0.001|TWO_SIDED|95.0|38.2|66.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||66.41|38.20|<0.001
82536623|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|6.4||||0.357|TWO_SIDED|95.0|-7.27|20.07||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.07|-7.27|0.357
82536624|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|46.68|||<|0.001|TWO_SIDED|95.0|30.43|62.93||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||62.93|30.43|<0.001
82536625|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|47.59|||<|0.001|TWO_SIDED|95.0|31.35|63.83||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.83|31.35|<0.001
82536626|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
82536627|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
82652204|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|0.148||||0.24|TWO_SIDED|95.0|-0.1|0.396||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.396|-0.100|0.2400
82536628|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
82536629|NCT01362491|164772541|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
82536630|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|18.58||||0.002|TWO_SIDED|95.0|10.43|26.73||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.73|10.43|0.002
82536631|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|7.8||||0.055|TWO_SIDED|95.0|2.14|13.46||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.46|2.14|0.055
82536632|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|10.91||||0.033|TWO_SIDED|95.0|0.98|20.83||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.83|0.98|0.033
82536633|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|62.03|||<|0.001|TWO_SIDED|95.0|48.65|75.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.41|48.65|<0.001
82536634|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|59.44|||<|0.001|TWO_SIDED|95.0|45.69|73.19||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.19|45.69|<0.001
82536635|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|2.96||||0.642|TWO_SIDED|95.0|-9.52|15.44||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.44|-9.52|0.642
82536636|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
82536637|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
82536638|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
82536639|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|40.26|||<|0.001|TWO_SIDED|95.0|23.85|56.68||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||56.68|23.85|<0.001
82536640|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|41.19|||<|0.001|TWO_SIDED|95.0|24.78|57.59||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||57.59|24.78|<0.001
82652205|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.023||||0.856|TWO_SIDED|95.0|-0.273|0.227||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.227|-0.273|0.8560
82430293|NCT04571060|164568230|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|4.4||||0.0059|TWO_SIDED|95.0|1.3|7.6||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||7.6|1.3|0.0059
82648484|NCT00986154|165012720|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.004|TWO_SIDED|95.0|0.705|0.936|||Regression, Cox||Time to 1st event analyzed by Cox proportional hazards with terms treatment group, randomization stratification factors: Presenting Diagnosis (PE with/without DVT, DVT only); Baseline risk factors (temp factors; all others); Need for reduced dose|"Safety Analysis set includes all randomized subjects who received at least one dose of study drug.~Null hypothesis (LMW) heparin/edoxaban will be comparable to (LMW) heparin/warfarin in preventing recurrence of major or clinically relevant non-major bleeding."||.936|.705|.0040
82648485|NCT00033631|165012729|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.83|1.2||Two-sided test, significance level = 0.05|Log Rank||Reference level = 70.2 Gy arm|The original target sample size was 1520 patients with a requirement of 715 deaths to test the hypothesis of overall survival (OS) efficacy of the 79.2 Gy arm. The trial was designed to detect a hazard ratio (HR) of 1.30 (standard/high-dose) with 90% statistical power at a one-sided significance level of 0.025.||1.2|0.83|0.98
82451281|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Work Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.895
82451282|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.789
82451283|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.761||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Social Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.761
82451284|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.519
82451285|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.755||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Family Life (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.755
82536641|NCT01362491|164772542|SUPERIORITY_OR_OTHER||Difference in proportion|-0.72||||0.889|TWO_SIDED|95.0|-10.89|9.45||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.45|-10.89|0.889
82536642|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|3.21||||0.389|TWO_SIDED|95.0|-3.12|9.55||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen Sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.55|-3.12|0.389
82536643|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|2.35||||0.49|TWO_SIDED|95.0|-3.69|8.39||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.39|-3.69|0.490
82648486|NCT00033631|165012730|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.5|0.7||Two-sided significance level = 0.05|Gray's test|Reference arm is 70.2 Gy arm||||0.70|0.50|<0.0001
82648487|NCT00033631|165012731|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.14|TWO_SIDED|95.0|0.38|1.15|||Gray's test|Two-sided significance level = 0.05|Reference level is 70.2 Gy arm|||1.15|0.38|0.14
82451286|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.829||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.829
82451287|NCT00536471|164608967|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Total Score (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.723
82451288|NCT00536471|164608968|SUPERIORITY_OR_OTHER|||||||0.753||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.753
82451289|NCT00536471|164608968|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.036
82451290|NCT00536471|164608970|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.342
82451291|NCT00536471|164608970|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-value for Direct Treatment Effect|Regression, Linear|||||||0.111
82451292|NCT00536471|164608972|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.302
82451293|NCT00536471|164608972|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for 12 Week Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.029
82451294|NCT00536471|164608972|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.325
82451295|NCT00536471|164608972|SUPERIORITY_OR_OTHER|||||||0.423||95.0||||P-value for 9 Month Change. Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.423
82451296|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.731||95.0||||P-value for 12 Week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.731
82451297|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for 12 Week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.022
82536644|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|0.98||||0.764|TWO_SIDED|95.0|-5.45|7.41||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.41|-5.45|0.764
82536645|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|28.71|||<|0.001|TWO_SIDED|95.0|15.72|41.7||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen Sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||41.70|15.72|<0.001
82536646|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|29.37|||<|0.001|TWO_SIDED|95.0|16.19|42.56||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||42.56|16.19|<0.001
82536647|NCT01362491|164772545|SUPERIORITY_OR_OTHER||Difference in proportion|-0.93||||0.898|TWO_SIDED|95.0|-15.22|13.36||p-value was calculated using CMH test which was adjusted for baseline Pain Severity Rating (PSR) and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen Sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.36|-15.22|0.898
82536648|NCT01257503|164772546|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in same participant||change in runny nose||||.86
82536649|NCT01257503|164772546|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in sneeze||||.89
82536650|NCT01257503|164772546|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in cough||||.45
82536651|NCT01257503|164772546|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Regression, Linear|generalized estimating equations used to account for multiple doses in single participant||change in congestion||||.82
82536652|NCT01257503|164772547|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in irritability||||.61
82536653|NCT01257503|164772547|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in lethargy||||.97
82536654|NCT01257503|164772547|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in fussiness||||.79
82536655|NCT01257503|164772547|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Regression, Linear|Generalized estimating equations used to account for multiple doses in single participant.||change in appetite||||.81
82648488|NCT00033631|165012732|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.41||||0.0001|TWO_SIDED|95.0|0.25|0.66|||Gray's test|Two-sided significance level = 0.05|Reference level = 70.2 Gy arm|||0.66|0.25|0.0001
82536656|NCT01257503|164772548|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 1||||.16
82536657|NCT01257503|164772548|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 2||||.70
82536658|NCT01257503|164772548|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status day 3||||.77
82536659|NCT01257503|164772548|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||functional status at 7-10 day follow-up||||.41
82577274|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.171||0.0775|TWO_SIDED|95.0|-0.64|0.03|||MMRM|||Anxiety Somatic, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.64|0.0775
82536660|NCT01257503|164772549|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 1||||.10
82536661|NCT01257503|164772549|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 2||||.28
82536662|NCT01257503|164772549|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status day 3||||.26
82586167|NCT05437510|164884208|SUPERIORITY||Efficacy|64.06||||0.0058|TWO_SIDED|95.0|23.386|84.478|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||84.478|23.386|0.0058
82648489|NCT00033631|165012733|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65||||0.051|TWO_SIDED|95.0|0.42|1.01||Two-sided significance level = 0.05|Gray's test||Reference level is the 70.2 Gy level|||1.01|0.42|0.051
82451298|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.948||95.0||||P-value for 12 Week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.948
82536663|NCT01257503|164772549|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||health status at follow-up||||.88
82536664|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 1 assessment 1||||.02
82536665|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 1 assessment 2||||.01
82536666|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||day 2 assessment 1||||.25
82536667|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 2 assessment 2||||.15
82536668|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 3 assessment 1||||.88
82536669|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score day 3 assessment 2||||.35
82536670|NCT01257503|164772550|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||cold score at 7-10 day follow-up||||.36
82536671|NCT01720043|164772555|SUPERIORITY|||||||0.181|||||||t-test, 2 sided|||Collagen.5.g.ml, 24 hrs||||0.181
82536672|NCT01720043|164772555|SUPERIORITY|||||||0.164|||||||t-test, 2 sided|||Collagen.2.g.ml||||.164
82536673|NCT01720043|164772555|SUPERIORITY|||||||0.132|||||||t-test, 2 sided|||ADP.10.M, 24 hrs||||.132
82536674|NCT01720043|164772555|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||ADP.5.M||||.066
82536675|NCT01720043|164772555|SUPERIORITY|||||||0.268|||||||t-test, 2 sided|||ADP.3.M, 24 hrs||||0.268
82536676|NCT01720043|164772555|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||Arach.Acid.0.5.mg.ml||||0.106
82536677|NCT01720043|164772555|SUPERIORITY|||||||0.625|||||||t-test, 2 sided|||Ristocetin.1.5.mg.ml||||0.625
82536678|NCT01720043|164772555|SUPERIORITY|||||||0.381|||||||t-test, 2 sided|||Ristocetin.0.5.mg.ml||||0.381
82536679|NCT01720043|164772555|SUPERIORITY|||||||0.549|||||||t-test, 2 sided|||Collagen.5.g.ml, 48 hrs||||0.549
82536680|NCT01720043|164772555|SUPERIORITY|||||||0.838|||||||t-test, 2 sided|||Collagen.2.g.ml, 48 hrs||||.838
82536681|NCT01720043|164772555|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||ADP.10.M||||0.245
82536682|NCT01720043|164772555|SUPERIORITY|||||||0.417|||||||t-test, 2 sided|||ADP.5.M||||0.417
82536683|NCT01720043|164772555|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||ADP.3.M, 48 hrs||||0.770
82536684|NCT01720043|164772555|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||Arach.Acid.0.5.mg.ml, 48 hrs||||0.614
82536685|NCT01720043|164772555|SUPERIORITY|||||||0.969|||||||t-test, 2 sided|||Ristochetin.1.5.mg.ml||||0.969
82536686|NCT01720043|164772555|SUPERIORITY|||||||0.238|||||||t-test, 2 sided|||Ristocetin.0.5.mg.ml, 48 hrs||||0.238
82536687|NCT02775435|164772596|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.45|0.7||Treatment comparison stratified by programmed cell death-ligand 1 (PD-L1) status (Tumor Proportion Score \[TPS\] ≥1% vs. \<1%), taxane chemotherapy (paclitaxel vs. nab-paclitaxel) \& geographic region (East Asia vs. non-East Asia)|Regression, Cox|||||0.70|0.45|<0.0001
82536688|NCT02775435|164772597|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0008|TWO_SIDED|95.0|0.49|0.85||Treatment comparison stratified by programmed cell death-ligand 1 (PD-L1) status (Tumor Proportion Score \[TPS\] ≥1% vs. \<1%), taxane chemotherapy (paclitaxel vs. nab-paclitaxel) \& geographic region (East Asia vs. non-East Asia)|Regression, Cox|||||0.85|0.49|0.0008
82536689|NCT04939428|164772628|SUPERIORITY||Confidence Interval|-2.0|||=|0.0848|TWO_SIDED|95.0|-5.0|0.9|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||0.9|-5|= 0.0848
82536690|NCT04939428|164772629|OTHER|Estimated differences and confidence intervals are provided.|Confidence Interval|-1.4|||||TWO_SIDED|95.0|-4.8|2.0|||Miettinen & Nurminen method|||95% CIs (Tier 2 endpoints) was provided for between treatment differences in the percentage of participants with events; these analyses was performed using the Miettinen and Nurminen method.||2.0|-4.8|
82536691|NCT04939428|164772630|OTHER|Estimated differences and confidence intervals are provided|Confidence Interval|0.3|||||TWO_SIDED|95.0|-0.4|1.0|||Miettinen & Nurminen method.|||95% CIs (Tier 2 endpoints) was provided for between treatment differences in the percentage of participants with events; these analyses was performed using the Miettinen and Nurminen method.||1.0|-0.4|
82536692|NCT04939428|164772631|SUPERIORITY||Confidence Interval|-3.2|||=|0.0205|TWO_SIDED|95.0|-6.3|-0.1|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||-0.1|-6.3|= 0.0205
82536693|NCT04939428|164772632|OTHER|Adjusted differences and the corresponding confidence intervals.|Confidence Interval|-2.2|||||TWO_SIDED|95.0|-5.4|1.0|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||1.0|-5.4|
82536694|NCT04939428|164772633|OTHER|Adjusted differences and the corresponding confidence intervals|Confidence Interval|-3.0|||||TWO_SIDED|95.0|-6.9|0.8||||||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||0.8|-6.9|
82536695|NCT04939428|164772634|OTHER|Adjusted differences and the corresponding confidence intervals.|Mean Difference (Final Values)|-10.5|||||TWO_SIDED|95.0|-22.7|2.0|||Miettinen & Nurminen method|||Adjusted differences and the corresponding confidence intervals are based on Miettinen \& Nurminen method stratified by age and household size.||2.0|-22.7|
82536696|NCT00770211|164772643|SUPERIORITY_OR_OTHER||Difference response rate|0.48|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.4|0.56|||Fisher Exact|||The efficacy of the treatment was confirmed, if H0 was rejected at a given alpha of 5%, that means if the two sided p-value is ≤ 0.05. Power of 90%||0.56|0.40|<0.0001
82536697|NCT00318656|164772648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.02|STANDARD_ERROR_OF_MEAN|2.49||0.064||95.0|-0.32|10.36|||ANCOVA|Analysis of covariance (ANCOVA)|Mean Difference =(Rosiglitazone + Met) - (Glimepiride+Met)|Statistical analysis was based off of week 12 results.||10.36|-0.32|0.064
82536698|NCT00318656|164772649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|1.45||0.923||95.0|-3.37|2.85||P value von elteren (adjusted on sex)|ANCOVA||Mean Difference =(Rosiglitazone + Met) - (Glimepiride+Met)|Statistical analysis was based off of week 12 results.||2.85|-3.37|0.923
82536699|NCT02806895|164772675|SUPERIORITY|||||||0.0062|||||||ANOVA|||||||0.0062
82536700|NCT02806895|164772676|SUPERIORITY|||||||0.0432|||||||ANOVA|||||||0.0432
82536701|NCT02806895|164772677|SUPERIORITY|||||||0.0414|||||||McNemar|||||||0.0414
82536702|NCT02806895|164772678|SUPERIORITY|||||||0.0963|||||||McNemar|||||||0.0963
82536703|NCT02806895|164772679|SUPERIORITY|||||||0.1435|||||||McNemar|||||||0.1435
82536704|NCT02806895|164772680|SUPERIORITY|||||||0.1796|||||||McNemar|||||||0.1796
82536705|NCT02806895|164772681|SUPERIORITY|||||||0.1094|||||||McNemar|||||||0.1094
82536706|NCT02806895|164772682|SUPERIORITY|||||||0.4531|||||||McNemar|||||||0.4531
82536707|NCT02806895|164772683|SUPERIORITY|||||||0.3593|||||||McNemar|||||||0.3593
82536708|NCT02806895|164772684|SUPERIORITY|||||||0.6072|||||||McNemar|||||||0.6072
82536709|NCT02806895|164772685|SUPERIORITY|||||||0.7905|||||||McNemar|||||||0.7905
82536710|NCT02806895|164772686|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82536711|NCT02806895|164772687|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82430294|NCT04571060|164568231|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at an alpha level of 0.05.|Stratified Percentage Difference|7.8|||<|0.0001|TWO_SIDED|95.0|4.2|11.3||Threshold for significance at 0.05.|Cochran-Mantel-Haenszel|||||11.3|4.2|<0.0001
82536712|NCT02806895|164772688|SUPERIORITY|||||||1|||||||McNemar|||||||1.0000
82536713|NCT02806895|164772689|SUPERIORITY|||||||0.4116|||||||ANOVA|||||||0.4116
82430295|NCT01361217|164568239|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82430296|NCT01361217|164568239|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82577275|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.19||0.0006|TWO_SIDED|95.0|-1.05|-0.3|||MMRM|||Anxiety Somatic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.30|-1.05|0.0006
82430297|NCT01361217|164568240|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82430298|NCT00142792|164568252|SUPERIORITY_OR_OTHER|||||||0.18||||||Time by group interaction effect, F(2,372) = 1.8, p =0.18)|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||The study was powered to detect differences in FMA scores of a minimum effect size of 0.8 at a significance level of 0.01, the smallest effect size difference anticipated between Cyclic NMES and Cyclic Sensory Stimulation based on prior studies. A significance level of 0.01 in the power-analysis was taken since for each measurement occasion, three post-hoc tests are needed. To account for drop out of 20 % , the minimum number of participants required per group is 63.||||0.18
82577276|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.185||0.0415|TWO_SIDED|95.0|-0.75|-0.01|||MMRM|||Anxiety Somatic, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.75|0.0415
82430299|NCT00142792|164568252|SUPERIORITY||||||<|0.001||||||time effect, F(1,109)=87.7, p\<0.001)|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||<0.001
82430300|NCT00142792|164568253|SUPERIORITY_OR_OTHER|||||||0.27||||||time by group interaction effect, F(2,373) = 1.3, p =0.27|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||0.27
82430301|NCT00142792|164568253|SUPERIORITY||||||<|0.001||||||time effect, F(1,109)=91.1, p\<0.001|Mixed Models Analysis|A random intercept for each participant with a first-order antedependent covariance structure. Adjusted for site.||||||<0.001
82430302|NCT00437268|164568285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.431||||||The type 1 error rate was set at 0.20|Log Rank|||||||0.431
82430303|NCT00437268|164568286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.593|||||||Fisher Exact|||||||0.593
82430304|NCT00437268|164568287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.157|||||||Log Rank|||||||0.157
82430305|NCT00437268|164568288|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539||||||Kaplan-Meier analysis was used for statistical analysis.|Log Rank|||||||0.539
82430306|NCT00437268|164568289|SUPERIORITY_OR_OTHER_LEGACY|||||||0.695|||||||Fisher Exact|||||||0.695
82430307|NCT00444925|164568300|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine versus (vs) placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the fifth (5th) and ninety-fifth (95th) percentile, respectively).||||<0.0001
82430308|NCT00444925|164568300|SUPERIORITY_OR_OTHER|||||||0.0107||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0107
82451299|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for 12 Week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.022
82451300|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||P-value for 9 Month HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.950
82536714|NCT02806895|164772690|SUPERIORITY|||||||0.1991|||||||ANOVA|||||||0.1991
82536715|NCT02806895|164772691|SUPERIORITY|||||||0.0806|||||||ANOVA|||||||0.0806
82536716|NCT02806895|164772692|SUPERIORITY|||||||0.9391|||||||ANOVA|||||||0.9391
82536717|NCT02806895|164772693|SUPERIORITY|||||||0.2116|||||||ANOVA|||||||0.2116
82536718|NCT02806895|164772694|SUPERIORITY|||||||0.1604|||||||ANOVA|||||||0.1604
82536719|NCT02806895|164772695|SUPERIORITY|||||||0.2144|||||||ANOVA|||||||0.2144
82536720|NCT02806895|164772696|SUPERIORITY|||||||0.0387|||||||ANOVA|||||||0.0387
82536721|NCT02806895|164772697|SUPERIORITY|||||||0.3426|||||||ANOVA|||||||0.3426
82536722|NCT02806895|164772698|SUPERIORITY|||||||0.1531|||||||ANOVA|||||||0.1531
82536723|NCT02806895|164772699|SUPERIORITY|||||||0.5603|||||||ANOVA|||||||0.5603
82536724|NCT02806895|164772700|SUPERIORITY|||||||0.4851|||||||ANOVA|||||||0.4851
82536725|NCT02806895|164772701|SUPERIORITY|||||||0.0241|||||||ANOVA|||||||0.0241
82536726|NCT02042443|164772702|SUPERIORITY||Hazard Ratio (HR)|2.02||||0.05|TWO_SIDED|95.0|1.01|4.03|||Log Rank|||||4.03|1.01|0.05
82536727|NCT02735187|164772706|SUPERIORITY|A paired t-test was applied to test the primary hypothesis. In case the requirements for normality were not met, a non-parametric analysis (Wilcoxon signed rank test) was performed.||||||0.6469||||||A probability (P-Value) above 0.05 is considered not to be statistical significant.|t-test, 2 sided|||||||0.6469
82536728|NCT03568162|164772744|SUPERIORITY|The analysis was conducted using a mixed model for repeated measures (MMRM) model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit|LS Mean Difference|-20.192|STANDARD_ERROR_OF_MEAN|7.4781|=|0.008|TWO_SIDED|95.0|-34.944|5.439|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference|||5.439|-34.944|= 0.008
82430309|NCT00444925|164568300|SUPERIORITY_OR_OTHER|||||||0.0172||95.0||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0172
82430310|NCT00444925|164568301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82430311|NCT00444925|164568301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82430312|NCT00444925|164568301|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.8460
82430313|NCT00444925|164568301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82430314|NCT00444925|164568301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Tolterodine ER vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82430315|NCT00444925|164568301|SUPERIORITY_OR_OTHER|||||||0.1937||95.0|||||Van Elteren's Test|P-value based on Van Elteren's Test adjusted by baseline UUI quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.1937
82430316|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
82430317|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
82430318|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430319|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430320|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82451301|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.442||95.0||||P-value for 9 Month HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.442
82536729|NCT03568162|164772744|SUPERIORITY|The analysis was conducted using a MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.|LS Mean Difference|-14.439|STANDARD_ERROR_OF_MEAN|7.6622|=|0.061|TWO_SIDED|95.0|-29.552|0.674|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference|||0.674|-29.552|= 0.061
82648490|NCT00033631|165012734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||Two-sided significance level = 0.05|Chi-squared|||||||0.29
82536730|NCT03568162|164772744|SUPERIORITY|The analysis was conducted using a mixed MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.|LS Mean Difference|3.144|STANDARD_ERROR_OF_MEAN|7.8864|=|0.691|TWO_SIDED|95.0|-12.41|18.698|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference.|||18.698|-12.410|= 0.691
82577277|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.193||0.0581|TWO_SIDED|95.0|-0.75|0.01|||MMRM|||Anxiety Somatic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.75|0.0581
82430321|NCT00444925|164568302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
82430322|NCT00444925|164568302|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0220
82430323|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8|STANDARD_ERROR_OF_MEAN|3.4||0.0214|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference Least Squares Mean (LSMean) Difference Standard Error (SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0214
82430324|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.2|STANDARD_ERROR_OF_MEAN|3.4||0.0149|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0149
82430325|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.7||0.8659|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.8659
82430326|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82430327|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|4.0||0.0036|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.0036
82430328|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|3.3||0.1484|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1484
82430329|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430330|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|4.1||0.1029|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.1029
82430331|NCT00444925|164568303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|STANDARD_ERROR_OF_MEAN|3.3||0.0048|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0048
82430332|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0002|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0002
82430333|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0006|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0006
82430334|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7395|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7395
82536731|NCT03568162|164772744|SUPERIORITY||LS Mean Difference|-17.199|STANDARD_ERROR_OF_MEAN|6.409|=|0.008|TWO_SIDED|95.0|-29.895|-4.503|||Mixed Models Analysis||A linear contrast was used to estimate the treatment difference.|The analysis was conducted using a MMRM model for percent change from baseline in EASI with the corresponding baseline value as covariate, and treatment group, region, disease severity, visit as fixed effect factors, and interactions of treatment-by-visit, baseline-by-visit.||-4.503|-29.895|= 0.008
82536732|NCT05550337|164772844|EQUIVALENCE|The 90% CI for the Test-to-Reference ratio of LS mean percent reduction from Baseline to Week 12/Day 84, in the inflammatory lesion counts to be contained within (0.80, 1.25).|Mean Difference (Net)|0.998|||||TWO_SIDED|90.0|0.927|1.076||||||||1.076|0.927|
82536733|NCT05550337|164772845|EQUIVALENCE|The 90% CI for the Test-to-Reference ratio of LS mean percent reduction from Baseline to Week 12/Day 84, in the non-inflammatory lesion counts to be contained within (0.80, 1.25).|Mean Difference (Net)|1.116|||||TWO_SIDED|90.0|1.017|1.228||||||||1.228|1.017|
82536734|NCT03860077|164772856|SUPERIORITY|Average cigarettes per day was positively skewed, with a non-normal residual distribution in a mixed model analysis specifying a normal (Gaussian) outcome distribution. Therefore, this outcome was recoded to integers and modeled as a count with a negative binomial distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Risk Ratio (RR)|1.42|STANDARD_ERROR_OF_MEAN|0.21||0.111|TWO_SIDED|95.0|0.92|2.19|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = 0.35.|These are results of a 2-group (VLNC \& NNC) x 2 repeated measures (Baseline \& Week 4) mixed effects model to test the effect of the randomization group (VLNC vs. NNC) on change in cigarette use and alternative tobacco product (ATP) use from Baseline to Week 4. Group (VLNC vs. NNC) is a fixed, between-subjects focal predictor. Timepoint (Baseline vs. Week 4) is a fixed, within-subjects repeated measure. Subject is a random effect, accounting for variability in Baseline cigarette and ATP use.||2.19|0.92|.111
82536735|NCT03860077|164772857|SUPERIORITY||Odds Ratio (OR)|0.71|STANDARD_ERROR_OF_MEAN|0.93||0.721|TWO_SIDED|95.0|0.11|4.75|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = - 0.34.|This outcome was recoded as a dichotomous outcome with a binary distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.||4.75|.11|.721
82536736|NCT03860077|164772858|SUPERIORITY|Frequencies of non-combustible alternative product use (ATP) were bimodal with peaks at 0 (no use) and 7 (daily use). Therefore, this outcome was recoded as a dichotomous outcome with a binary distribution and log link. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Odds Ratio (OR)|0.57|STANDARD_ERROR_OF_MEAN|0.96||0.564|TWO_SIDED|95.0|0.08|3.99|||Mixed Models Analysis||The reported value is the standard error of the mean for the non-exponentiated estimate = - 0.56.|||3.99|.08|.564
82536737|NCT03860077|164772859|SUPERIORITY||Slope|0.25|STANDARD_ERROR_OF_MEAN|1.56||0.876|TWO_SIDED|95.0|-2.92|3.42|||Mixed Models Analysis|||The study cigarette outcome is modeled with a normal, Gaussian distribution. The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group. Baseline in this analysis is average number of usual brand cigarettes at baseline, prior to randomization.||3.42|-2.92|.876
82586168|NCT01072877|164884214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.49|||=|0.0001|TWO_SIDED|95.0|-3.72|-1.27|||ANCOVA|||||-1.27|-3.72|=0.0001
82430335|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82430336|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0007|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.0007
82536738|NCT03860077|164772860|SUPERIORITY|The focal test is the difference in change from Baseline to Week 4 (i.e., Time) in the VLNC vs. NNC condition (i.e., Group), which is a cross-level interactive effect of Time and Group.|Slope|-2166.79|STANDARD_ERROR_OF_MEAN|1753.48||0.226|TWO_SIDED|95.0|-5743.04|1409.47|||Mixed Models Analysis|||||1409.47|-5743.04|.226
82536739|NCT03425539|164772869|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the baseline value, the two stratification factors (sex and enzyme replacement therapy (ERT) treatment status), and the treatment group.|LS Mean difference vs. placebo|0.42||||0.3189|TWO_SIDED|95.0|-0.4|1.23|||ANCOVA|||||1.23|-0.4|0.3189
82536740|NCT03425539|164772870|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the baseline value, the two stratification factors (sex and ERT treatment status), and the treatment group.|LS Mean difference vs. placebo|-873.53|||<|0.0001|TWO_SIDED|95.0|-1097.53|-649.53|||ANCOVA|||||-649.53|-1097.53|<0.0001
82536741|NCT03425539|164772871|OTHER|An ANCOVA was applied to the change from baseline to Month 6 including the terms value, the two stratification factors (sex and ERT treatment status), and the treatment group.|LS Mean difference vs. placebo|0.31||||0.4676|TWO_SIDED|95.0|-0.53|1.16|||ANCOVA|||||1.16|-0.53|0.4676
82536742|NCT03425539|164772872|OTHER||Win ratio|1.0||||0.8986|TWO_SIDED|95.0|0.57|1.89|||ANCOVA|||The p-value was derived from a rank ANCOVA adjusted for the baseline value and stratified by sex and ERT treatment status.||1.89|0.57|0.8986
82536743|NCT00946192|164772873|OTHER|Least square means||||||0.039|||||||Mixed Models Analysis|||||||0.039
82536744|NCT00946192|164772874|OTHER|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82536745|NCT02014558|164772910|OTHER||Slope|0.99|||||TWO_SIDED|90.0|0.788|1.19||||||Dose Proportionality (Single Dose / Day -2) was evaluated using the power model.||1.19|0.788|
82536746|NCT02014558|164772910|OTHER||Slope|1.22|||||TWO_SIDED|90.0|1.0|1.43||||||Dose Proportionality (Multiple Dose / Cycle 1 Day 15) was evaluated using the power model.||1.43|1.00|
82586169|NCT01072877|164884214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.54|||<|0.0001|TWO_SIDED|95.0|-4.8|-2.29|||ANCOVA|||||-2.29|-4.80|<0.0001
82451302|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for 9 Month QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.218
82451303|NCT00536471|164608973|SUPERIORITY_OR_OTHER|||||||0.648||95.0||||P-value for 9 Month QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.648
82451304|NCT00536471|164608974|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||P-value for 12 week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.653
82451305|NCT00536471|164608974|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for 12 week HAMD-17. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.016
82451306|NCT00536471|164608974|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||P-value for 12 week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.665
82451307|NCT00536471|164608974|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-value for 12 week QIDS16. Model=Baseline, Pooled Investigator, Visit, Treatment, and Treatment\*Visit.|Mixed Models Analysis|||||||0.127
82451308|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.475
82648491|NCT00033631|165012735|SUPERIORITY|||||||0.0513|||||||Chi-squared|Two-sided significance level = 0.05||With an expected percentage of erectile disfunction (ED) at 12 months of 29%, a two-sided significance level of 0.05, and 688 patients per arm provides 90% statistical power to detect a reduction in ED to 19%. This calculation assumes 26% ED at baseline and 80% compliance at 12 months. Only participants with baseline ED are analyzed.||||0.0513
82451309|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.561||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.561
82451310|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.213||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.213
82451311|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.536||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.536
82451312|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.158
82451313|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.759||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 1 Average Pain Severity 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.759
82648492|NCT00033631|165012736|SUPERIORITY|||||||0.59|||||||Chi-squared|Two-sided significance level = 0.05||||||0.59
82648493|NCT03803085|165012740|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82648494|NCT03803085|165012741|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82648495|NCT03803085|165012742|SUPERIORITY|||||||0.06||||||p\<0.05 was considered significant.|Mixed Models Analysis|||||||0.06
82451314|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.190
82451315|NCT00536471|164608975|SUPERIORITY_OR_OTHER|||||||0.852||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Item 7 How Bothered by Pain 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.852
82451316|NCT00536471|164608976|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.032
82451317|NCT00536471|164608976|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||<0.001
82451318|NCT00536471|164608976|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.705
82451319|NCT00536471|164608976|SUPERIORITY_OR_OTHER|||||||0.388||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.388
82451320|NCT00536471|164608977|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.161
82451321|NCT00536471|164608977|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.198
82451322|NCT00536471|164608977|SUPERIORITY_OR_OTHER|||||||0.982||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.982
82451323|NCT00536471|164608977|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.407
82648496|NCT00272961|165012746|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|8.37|STANDARD_ERROR_OF_MEAN|6.19||0.185|TWO_SIDED|95.0|-4.21|20.96|||ANCOVA|||Sitting SBP: p-value was obtained using an Analysis of Co-variance (ANCOVA) model on the maximum increase observed with baseline value as a covariate.||20.96|-4.21|0.185
82451324|NCT00536471|164608978|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.001
82451325|NCT00536471|164608978|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.006
82451326|NCT00536471|164608978|SUPERIORITY_OR_OTHER|||||||0.231||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.231
82451327|NCT00536471|164608978|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.040
82451328|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.914
82451329|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.011
82451330|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.296
82451331|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.034
82451332|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure (SBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.874
82451333|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.614||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Systolic Blood Pressure (SBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.614
82451334|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure (DBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.146
82451335|NCT00536471|164608979|SUPERIORITY_OR_OTHER|||||||0.877||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for Diastolic Blood Pressure (DBP) 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.877
82536747|NCT02014558|164772911|OTHER||Slope|0.808|||||TWO_SIDED|90.0|0.629|0.988||||||Dose Proportionality (Single Dose / Day -2) was evaluated using the power model.||0.988|0.629|
82586170|NCT01072877|164884214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.73|||<|0.0001|TWO_SIDED|95.0|-3.98|-1.48|||ANCOVA|||||-1.48|-3.98|<0.0001
82648497|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|5.59||0.97|TWO_SIDED|95.0|-11.16|11.59|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.59|-11.16|0.970
82451336|NCT00536471|164608980|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.012
82451337|NCT00536471|164608980|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.045
82451338|NCT00536471|164608980|SUPERIORITY_OR_OTHER|||||||0.701||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.701
82451339|NCT00536471|164608980|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.081
82451340|NCT00536471|164608981|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.013
82451341|NCT00536471|164608981|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 12 Week Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.672
82451342|NCT00536471|164608981|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.874
82451343|NCT00536471|164608981|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||Model: Change from baseline=Baseline, Pooled Investigator, Visit, Treatment, Treatment\*Visit and Baseline\*Visit. P-value for 9 Month Change (Change=Endpoint minus baseline).|Mixed Models Analysis|||||||0.390
82536748|NCT02014558|164772911|OTHER||Slope|1.21|||||TWO_SIDED|90.0|1.02|1.41||||||Dose Proportionality (Multiple Dose / Cycle 1 Day 15) was evaluated using the power model.||1.41|1.02|
82536749|NCT02014558|164772949|OTHER||Geometric LS Mean Ratio|109.46|||||TWO_SIDED|90.0|49.82|240.48||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of least squares (LS) means of log-transformed pharmacokinetic parameters between midazolam alone and midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||240.48|49.82|
82586171|NCT01072877|164884214|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.65|||<|0.0001|TWO_SIDED|95.0|-4.84|-2.46|||ANCOVA|||||-2.46|-4.84|<0.0001
82451344|NCT00536471|164608986|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Bilirubin - 12 Week Change.|ANOVA|||||||0.046
82451345|NCT00536471|164608986|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value for Creatinine - 12 Week Change.|ANOVA|||||||0.031
82577278|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.188||0.6826|TWO_SIDED|95.0|-0.45|0.3|||MMRM|||Anxiety Somatic, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.45|0.6826
82577279|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.226||0.0912|TWO_SIDED|95.0|-0.83|0.06|||MMRM|||Anxiety Somatic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.83|0.0912
82577280|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3988|TWO_SIDED|95.0|-0.62|0.25|||MMRM|||Anxiety Somatic, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.62|0.3988
82577281|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.231||0.0504|TWO_SIDED|95.0|-0.91|0.0|||MMRM|||Anxiety Somatic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.91|0.0504
82577282|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.22||0.6019|TWO_SIDED|95.0|-0.55|0.32|||MMRM|||Anxiety Somatic, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.55|0.6019
82577283|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.222||0.007|TWO_SIDED|95.0|-1.05|-0.17|||MMRM|||Anxiety Somatic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.17|-1.05|0.0070
82577284|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.218||0.3785|TWO_SIDED|95.0|-0.62|0.24|||MMRM|||Anxiety Somatic, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.62|0.3785
82648498|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|5.71||0.994|TWO_SIDED|95.0|-11.66|11.57|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.57|-11.66|0.994
82451346|NCT00536471|164608986|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Uric Acid - 12 Week Change.|ANOVA|||||||0.003
82451347|NCT00536471|164608986|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value for Bilirubin - 9 Month Change.|ANOVA|||||||0.033
82451348|NCT00536471|164608986|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Uric Acid - 9 Month Change.|ANOVA|||||||0.013
82451349|NCT00536471|164608987|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Hematocrit - 12 Week Change.|ANOVA|||||||0.037
82451350|NCT00536471|164608987|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Hematocrit - 9 Month Change.|ANOVA|||||||0.029
82577285|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.159||0.9609|TWO_SIDED|95.0|-0.32|0.31|||MMRM|||Somatic Symptoms GI, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.32|0.9609
82451351|NCT00536471|164608988|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for MCV - 12 Week Change.|ANOVA|||||||0.013
82451352|NCT00536471|164608988|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value for MCV - 9 Month Change.|ANOVA|||||||0.014
82451353|NCT00536471|164608989|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Chloride - 12 Week Change.|ANOVA|||||||0.022
82451354|NCT00536471|164608989|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||P-value for Urea Nitrogen - 12 Week Change.|ANOVA|||||||0.044
82451355|NCT00536471|164608989|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Chloride - 9 Month Change.|ANOVA|||||||0.004
82451356|NCT00536471|164608989|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P-value for Cholesterol - 9 Month Change.|ANOVA|||||||0.045
82451357|NCT00536471|164608989|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||P-value for Sodium - 9 Month Change.|ANOVA|||||||0.043
82451358|NCT00536471|164608990|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for 12 Week Change.|ANOVA|||||||0.017
82451359|NCT00536471|164608990|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for 9 Month Change.|ANOVA|||||||0.003
82648499|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|5.72||0.861|TWO_SIDED|95.0|-10.62|12.64|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||12.64|-10.62|0.861
82536750|NCT02014558|164772950|OTHER||Geometric LS Mean Ratio|149.9||||||90.0|74.88|300.06||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between 1-hydroxymidazolam alone and 1-hydroxymidazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||300.06|74.88|
82536751|NCT02014558|164772951|OTHER||Geometric LS Mean Ratio|111.64|||||TWO_SIDED|90.0|69.54|179.25||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between midazolam alone and midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||179.25|69.54|
82536752|NCT02014558|164772952|OTHER||Geometric LS Mean Ratio|123.47|||||TWO_SIDED|90.0|72.41|210.52||||||Statistical Comparison of Midazolam Exposure after Administration of Midazolam Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between 1-hydroxymidazolam/midazolam alone and 1-hydroxymidazolam/midazolam + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||210.52|72.41|
82536753|NCT02014558|164772957|OTHER||Geometric LS Mean Ratio|93.96|||||TWO_SIDED|90.0|75.29|117.26||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||117.26|75.29|
82536754|NCT02014558|164772958|OTHER||Geometric LS Mean Ratio|91.46|||||TWO_SIDED|90.0|74.6|112.12||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||112.12|74.60|
82536755|NCT02014558|164772959|OTHER||Geometric LS Mean Ratio|97.71|||||TWO_SIDED|90.0|74.19|128.7||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||128.70|74.19|
82536756|NCT02014558|164772962|OTHER||Geometric LS Mean Ratio|106.42|||||TWO_SIDED|90.0|85.28|132.81||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||132.81|85.28|
82536757|NCT02014558|164772964|OTHER||Geometric LS Mean Ratio|83.93|||||TWO_SIDED|90.0|46.53|151.39||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||151.39|46.53|
82536758|NCT02014558|164772966|OTHER||Geometric LS Mean Ratio|82.84|||||TWO_SIDED|90.0|40.25|170.48||||||Statistical Assessment of the Effect of Gilteritinib on Cephalexin Pharmacokinetics after Administration of Cephalexin Alone or Coadministered with Gilteritinib: The difference of LS means of log-transformed pharmacokinetic parameters between cephalexin alone and cephalexin + gilteritinib and its 90% CI are backtransformed to the raw scale and are expressed as percent.||170.48|40.25|
82577286|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.154||0.9183|TWO_SIDED|95.0|-0.32|0.29|||MMRM|||Somatic Symptoms GI, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.32|0.9183
82586172|NCT01072877|164884215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|||=|0.0001|TWO_SIDED|95.0|-1.17|-0.4|||ANCOVA|||||-0.40|-1.17|=0.0001
82586173|NCT01072877|164884215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.26|||<|0.0001|TWO_SIDED|95.0|-1.65|-0.86|||ANCOVA|||||-0.86|-1.65|<0.0001
82648500|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|4.9||0.221|TWO_SIDED|95.0|-3.79|15.99|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||15.99|-3.79|0.221
82536759|NCT00299702|164772968|SUPERIORITY_OR_OTHER|||||||0.684||||||Hochberg procedure was used for adjusting multiple endpoint comparisons|Log Rank|Insufficient number of subjects who had an event for median estimation.||Null hypothesis: there is no difference in time to relapse||||0.684
82536760|NCT00299702|164772969|SUPERIORITY_OR_OTHER|||||||0.646||||||Hochberg procedure was used for adjusting multiple endpoint comparisons|Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in time in remission between the two treatment groups||||0.646
82536761|NCT04159506|164773036|SUPERIORITY||Median Difference (Final Values)|0.63|||<|0.05|TWO_SIDED|||||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.|Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||||||<0.05
82536762|NCT04159506|164773037|SUPERIORITY||Median Difference (Final Values)|0.31|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.||||<0.05
82430337|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.4185|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.4185
82451360|NCT00536471|164608991|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANOVA|||||||0.033
82451361|NCT00536471|164608992|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||||||0.045
82451362|NCT00536471|164608993|SUPERIORITY_OR_OTHER|||||||0.041||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.041
82451363|NCT00536471|164608993|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||P-value for Potassium - Low.|Fisher Exact|||||||0.048
82536763|NCT04159506|164773038|SUPERIORITY||Median Difference (Final Values)|0.67|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|No adjustments were made given this was a pilot study focused on feasibility and acceptability.||This pilot study was designed mostly to determine feasibility and acceptability of TEE, AC, and study methods. Nonetheless, Paired Difference Signed Rank Tests were used to compare conditions given small sample and non-normal distribution of data.||||<0.05
82536764|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 1.|Student's t-test|||||||<0.0001
82536765|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 14.|Student's t-test|||||||<0.0001
82536766|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Day 31.|Student's t-test|||||||<0.0001
82536767|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 10.|Student's t-test|||||||<0.0001
82430338|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82451364|NCT00536471|164608994|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.012
82536768|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 18.|Student's t-test|||||||<0.0001
82536769|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 26.|Student's t-test|||||||<0.0001
82536770|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 34.|Student's t-test|||||||<0.0001
82536771|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 42.|Student's t-test|||||||<0.0001
82648501|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|4.49||0.88|TWO_SIDED|95.0|-8.37|9.73|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||9.73|-8.37|0.880
82430339|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0005|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0005
82536772|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 50.|Student's t-test|||||||<0.0001
82536773|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 58.|Student's t-test|||||||<0.0001
82536774|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 70.|Student's t-test|||||||<0.0001
82536775|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 82.|Student's t-test|||||||<0.0001
82536776|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 94.|Student's t-test|||||||<0.0001
82536777|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 106.|Student's t-test|||||||<0.0001
82536778|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 118.|Student's t-test|||||||<0.0001
82430340|NCT00444925|164568304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3798|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.3798
82536779|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 130.|Student's t-test|||||||<0.0001
82536780|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 142.|Student's t-test|||||||<0.0001
82536781|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 154.|Student's t-test|||||||<0.0001
82536782|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 166.|Student's t-test|||||||<0.0001
82536783|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 178.|Student's t-test|||||||<0.0001
82536784|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 190.|Student's t-test|||||||<0.0001
82536785|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 202.|Student's t-test|||||||<0.0001
82430341|NCT00444925|164568305|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0001
82648502|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|4.56||0.9|TWO_SIDED|95.0|-9.78|8.63|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||8.63|-9.78|0.900
82430342|NCT00444925|164568305|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0002
82430343|NCT00444925|164568305|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430344|NCT00444925|164568305|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430345|NCT00444925|164568305|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
82430346|NCT00444925|164568305|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0003
82430347|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.273|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.2730
82430348|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0652|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0652
82430349|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.3503|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.3503
82430350|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.2667|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||0.2667
82430351|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1643|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||0.1643
82430352|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7264|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.7264
82451365|NCT00536471|164608994|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value for Potassium - Low.|Fisher Exact|||||||0.049
82536786|NCT02449044|164773044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||This was the p-value for analysis at Week 214.|Student's t-test|||||||<0.0001
82536787|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.4922|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.4922
82648503|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.71|STANDARD_ERROR_OF_MEAN|4.56||0.218|TWO_SIDED|95.0|-14.91|3.5|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||3.50|-14.91|0.218
82648504|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|5.62|STANDARD_ERROR_OF_MEAN|2.68||0.044|TWO_SIDED|95.0|0.17|11.08|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.08|0.17|0.044
82451366|NCT00536471|164608995|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-value for Lymphocytes - High.|Fisher Exact|||||||0.012
82451367|NCT00536471|164608995|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Hemoglobin - Low.|Fisher Exact|||||||0.038
82451368|NCT04273893|164609003|OTHER|||||||0.05||||||Changes from baseline ALC were conducted using repeated measures models with an unstructured covariance matrix and model terms for tumor location, follow-up time. Adjustments for stratification factors were made using least squares means.|t-test, 2 sided|||||||0.05
82451369|NCT00856544|164609025|SUPERIORITY_OR_OTHER||Percent difference|27.04|||<|0.0001|TWO_SIDED|95.0|17.94|36.13||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||36.13|17.94|<0.0001
82451370|NCT00856544|164609025|SUPERIORITY_OR_OTHER||Percent Difference|21.52|||<|0.0001|TWO_SIDED|95.0|12.39|30.65||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||30.65|12.39|<0.0001
82451371|NCT00856544|164609026|SUPERIORITY_OR_OTHER||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.44|-0.26||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares mean difference (LS Mean Difference) and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatments, visits and treatment-by-visit interaction as fixed effects and participants as a random effect.||-0.26|-0.44|<0.0001
82451372|NCT00856544|164609026|SUPERIORITY_OR_OTHER||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.35|-0.16||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS Mean Difference and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatments, visits and treatment-by-visit interaction as fixed effects and participants as a random effect.||-0.16|-0.35|<0.0001
82451373|NCT00856544|164609027|SUPERIORITY_OR_OTHER||Percent difference|10.63|||<|0.0001|TWO_SIDED|95.0|5.8|15.45||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant, the comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 10 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||15.45|5.80|<0.0001
82451374|NCT00856544|164609027|SUPERIORITY_OR_OTHER||Percent difference|6.42||||0.0038|TWO_SIDED|95.0|2.07|10.77||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation to the binomial distribution was used to test the superiority of each dose of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||10.77|2.07|0.0038
82536788|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.1054|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.1054
82451375|NCT04808141|164609089|EQUIVALENCE|For a power of 80% and a two-sided 0.05 significance level, we calculated that 102 individuals would be necessary to detect a 10-point difference between the two groups. To guarantee that the study was adequately powered to detect equivalence, a posteriori analysis was conducted using the Two One-Sided Test (TOST) methodology (simulation-based power analysis).|Median Difference (Net)|-0.55||||0.412|TWO_SIDED|95.0|-2.42|5.81||the threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|robust method on the medians||||5.81|-2.42|0.412
82451376|NCT04808141|164609089|EQUIVALENCE||Odds Ratio (OR)|0.926||||0.849|TWO_SIDED|95.0|0.42|2.05||The threshold for statistical analysis was set at 0.05.|Regression, Logistic|||||2.05|0.42|0.849
82536789|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.7656|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.7656
82536790|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.7084|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.7084
82536791|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.5138|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.5138
82648505|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|2.41||0.557|TWO_SIDED|95.0|-3.47|6.33|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.33|-3.47|0.557
82536792|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.7175|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.7175
82648506|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|6.37|STANDARD_ERROR_OF_MEAN|2.5||0.016|TWO_SIDED|95.0|1.28|11.45|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||11.45|1.28|0.016
82451377|NCT04808141|164609090|EQUIVALENCE||Median Difference (Net)|0.3||||0.666|TWO_SIDED|95.0|-0.71|1.1||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|robust method on the medians||||1.10|-0.71|0.666
82451378|NCT04808141|164609091|EQUIVALENCE||Median Difference (Net)|-2.62||||0.122|TWO_SIDED|95.0|-14.87|4.8||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust test on the medians||||4.80|-14.87|0.122
82648507|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|2.5||0.695|TWO_SIDED|95.0|-4.09|6.07|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.07|-4.09|0.695
82430353|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3269|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||0.3269
82430354|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.5059|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.5059
82430355|NCT00444925|164568306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.699|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.6990
82430356|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0008|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0008
82430357|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
82430358|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.382|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.3820
82430359|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82430360|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
82430361|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3498|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.3498
82536793|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.354|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.3540
82430362|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430363|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
82430364|NCT00444925|164568308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0542|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0542
82430365|NCT00444925|164568309|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0004
82430366|NCT00444925|164568309|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||0.0001
82451379|NCT04808141|164609092|EQUIVALENCE||Median Difference (Net)|3.32||||0.788|TWO_SIDED|95.0|-3.11|5.9||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||5.90|-3.11|0.788
82586174|NCT01072877|164884215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45|||<|0.0001|TWO_SIDED|95.0|-1.85|-1.06|||ANCOVA|||||-1.06|-1.85|<0.0001
82430367|NCT00444925|164568309|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430368|NCT00444925|164568309|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430369|NCT00444925|164568309|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
82430370|NCT00444925|164568309|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0001
82430371|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
82430372|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
82451380|NCT04808141|164609093|EQUIVALENCE||Odds Ratio (OR)|0.92||||0.081|TWO_SIDED|95.0|0.0|1.23||The threshold for statistical significance was set at 0.05.|Regression, Logistic|LR to assess the odds between groups for consuming analgesics at 8 weeks using the CG as a reference.||||1.23|0.00|0.081
82451381|NCT04808141|164609093|EQUIVALENCE||Odds Ratio (OR)|0.26||||0.985|TWO_SIDED|95.0|0.0|1.71||The threshold for statistical significance was set at 0.05.|Regression, Logistic|LR to assess the odds between groups for consuming opioids at 8 weeks using the CG as a reference.||||1.71|0.00|0.985
82536794|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.0852|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.0852
82536795|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.1923|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.1923
82536796|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.2335|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.2335
82586175|NCT01072877|164884215|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||<|0.0001|TWO_SIDED|95.0|-1.98|-1.23|||ANCOVA|||||-1.23|-1.98|<0.0001
82430373|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5581|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.5581
82430374|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82451382|NCT04808141|164609094|EQUIVALENCE||Median Difference (Net)|-0.42||||0.871|TWO_SIDED|95.0|-2.1|1.78||the threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||1.78|-2.10|0.871
82451383|NCT04808141|164609095|EQUIVALENCE||Median Difference (Final Values)|0.43||||0.36|TWO_SIDED|95.0|-0.59|1.59||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||1.59|-0.59|0.360
82451384|NCT04808141|164609096|EQUIVALENCE||Mean Difference (Final Values)|0.09||||0.837|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|t-test, 2 sided|||||||0.837
82451385|NCT04808141|164609097|EQUIVALENCE||Z-score|-1.28||||0.886|TWO_SIDED|||||The threshold for statistical significance was 0.05.|Ordinal Regression|||||||0.886
82451386|NCT04808141|164609098|EQUIVALENCE||Median Difference (Net)|1.33||||0.095|TWO_SIDED|95.0|-2.2|2.46||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||2.46|-2.20|0.095
82451387|NCT04808141|164609100|EQUIVALENCE||Mean Difference (Final Values)|65.8||||0.662|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.662
82451388|NCT04808141|164609101|EQUIVALENCE||Median Difference (Net)|-1.97||||0.246|TWO_SIDED|95.0|-12.69|3.33|||Quantile mixed-effects model|Robust method on the medians||||3.33|-12.69|0.246
82536797|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.1346|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.1346
82536798|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.5237|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.5237
82536799|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.3476|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 118||||0.3476
82536800|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.2488|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 130||||0.2488
82536801|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.1598|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.1598
82536802|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.282|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 154||||0.2820
82536803|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.3743|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.3743
82536804|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.3600
82536805|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.3101|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.3101
82536806|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 202||||0.0269
82648508|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|2.56||0.067|TWO_SIDED|95.0|-0.36|9.95|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||9.95|-0.36|0.067
82451389|NCT04808141|164609102|EQUIVALENCE||Median Difference (Net)|-0.73||||0.408|TWO_SIDED|95.0|-6.5|2.69||the threshold for statistical significance was set at 0.05|Quantile mixed-effects model|Robust method on the medians.||||2.69|-6.50|0.408
82536807|NCT02449044|164773051|SUPERIORITY_OR_OTHER|||||||0.0944|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.0944
82536808|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.1739|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student t-test|||Statistical analysis at Day 14||||0.1739
82536809|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.6095|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.6095
82536810|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.6902|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.6902
82536811|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.634|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.6340
82536812|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.321|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.3210
82536813|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.7787|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.7787
82536814|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.2198|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.2198
82536815|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.1926|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.1926
82536816|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.3109|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.3109
82536817|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.2269|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.2269
82536818|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.2749|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.2749
82536819|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.0702|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.0702
82536820|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.0412|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.0412
82536821|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.4448|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.4448
82536822|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.6233|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.6233
82536823|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.1001|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.1001
82536824|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.3739|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.3739
82536825|NCT02449044|164773052|SUPERIORITY_OR_OTHER|||||||0.3334|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.3334
82648509|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|2.36||0.737|TWO_SIDED|95.0|-3.96|5.55|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||5.55|-3.96|0.737
82577287|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.149||0.071|TWO_SIDED|95.0|-0.57|0.02|||MMRM|||Somatic Symptoms GI, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.57|0.0710
82430375|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
82430376|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.151|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1510
82430377|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430378|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2||0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0001
82430379|NCT00444925|164568310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1391|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.1391
82430380|NCT00444925|164568311|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
82430381|NCT00444925|164568311|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 1. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 1: corresponding numerical change result not statistically significant.||||<0.0001
82430382|NCT00444925|164568311|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82648510|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|5.64|STANDARD_ERROR_OF_MEAN|2.4||0.023|TWO_SIDED|95.0|0.8|10.47|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||10.47|0.80|0.023
82586176|NCT01072877|164884216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||=|0.0001|TWO_SIDED|95.0|-0.66|-0.23|||ANCOVA|||||-0.23|-0.66|=0.0001
82430383|NCT00444925|164568311|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 4. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 4: corresponding numerical change result not statistically significant.||||<0.0001
82430384|NCT00444925|164568311|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||<0.0001
82451390|NCT04808141|164609103|EQUIVALENCE||Median Difference (Net)|0.35||||0.65|TWO_SIDED|95.0|-6.22|9.87||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|Robust method on the medians||||9.87|-6.22|0.650
82451391|NCT04808141|164609104|EQUIVALENCE||Difference in proportions|18.6||||0.019|TWO_SIDED||||||Chi-squared|||||||0.019
82648511|NCT00272961|165012746|SUPERIORITY_OR_OTHER||LS Mean Difference|1.65|STANDARD_ERROR_OF_MEAN|2.4||0.495|TWO_SIDED|95.0|-3.2|6.5|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on the maximum increase observed with baseline value as a covariate.||6.50|-3.20|0.495
82430385|NCT00444925|164568311|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment Difference Tolterodine ER vs placebo at Week 12. Per closed testing procedure, statistical testing for percent change not performed for Fesoterodine vs Tolterodine ER Week 12: corresponding numerical change result not statistically significant.||||0.0001
82430386|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
82430387|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
82430388|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5972|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.5972
82430389|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82430390|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
82430391|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.1267|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.1267
82451392|NCT05173012|164609149|SUPERIORITY||Least Squares (LS) Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.623||0.5325|TWO_SIDED|95.0|-0.84|1.62|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 15 mg - placebo.|||1.62|-0.84|0.5325
82536826|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.2575|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student t-test|||Statistical analysis at Day 14||||0.2575
82648512|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|232.59|STANDARD_ERROR_OF_MEAN|201.83||0.2577|TWO_SIDED|95.0|-178.5|643.7|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||643.7|-178.5|0.2577
82430392|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430393|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
82430394|NCT00444925|164568312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0289|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0289
82430395|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 1.||||<0.0001
82430396|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 1.||||<0.0001
82451393|NCT05173012|164609149|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.634||0.6549|TWO_SIDED|95.0|-1.54|0.97|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 30 mg - placebo.|||0.97|-1.54|0.6549
82451394|NCT05173012|164609149|SUPERIORITY||LS Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.7||0.1462|TWO_SIDED|95.0|-0.36|2.41|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.|Difference was calculated as Monotherapy: SAGE-324 60 mg - placebo.|||2.41|-0.36|0.1462
82536827|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.2715|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Day 31||||0.2715
82430397|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.6||0.7288|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7288
82430398|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82451395|NCT05173012|164609150|SUPERIORITY||LS Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|1.326||0.1271|TWO_SIDED|95.0|0.59|4.67|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||4.67|0.59|0.1271
82451396|NCT05173012|164609150|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|1.347||0.5642|TWO_SIDED|95.0|-3.45|1.89|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||1.89|-3.45|0.5642
82451397|NCT05173012|164609150|SUPERIORITY||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|1.439||0.486|TWO_SIDED|95.0|-1.84|3.85|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, and timepoint-by-treatment as explanatory variables, treated as fixed effects.||||3.85|-1.84|0.4860
82451398|NCT03781414|164609166|NON_INFERIORITY|The primary objective would be demonstrated, if the composite efficacy failure rate difference between any of the two CFZ533 arms and the TAC arm is less than the pre-defined non-inferiority margin (0.15) with probability \>80%.|Rate difference|0.0759|||||TWO_SIDED|95.0|-0.0729|0.2165||||||||0.2165|-0.0729|
82451399|NCT03781414|164609166|NON_INFERIORITY|The primary objective would be demonstrated, if the composite efficacy failure rate difference between any of the two CFZ533 arms and the TAC arm is less than the pre-defined non-inferiority margin (0.15) with probability \>80%.|Rate difference|0.1696|||||TWO_SIDED|95.0|0.0072|0.3276||||||||0.3276|0.0072|
82451400|NCT00719355|164609190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.25|STANDARD_DEVIATION|14.4||0.033|TWO_SIDED|95.0||||A priori level of significance was set at p \<0.05.|ANCOVA|Repeated-measures ANCOVA using intent-to-treat procedures, was used for the primary outcome variable. Analyses were adjusted for age.||Observed power for our primary analysis was 0.64.||||0.033
82451401|NCT00719355|164609191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|3.65||0.109||95.0|||||ANCOVA|Repeated measures ANCOVA was used with intent to treat analysis. The co-variant was age.||||||0.109
82648513|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|103.67|STANDARD_ERROR_OF_MEAN|173.86||0.5552|TWO_SIDED|95.0|-250.5|457.8|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||457.8|-250.5|0.5552
82430399|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
82451402|NCT02578186|164609242|SUPERIORITY_OR_OTHER|||||||0.0312|||||||ANCOVA|||||||0.0312
82451403|NCT02038075|164609254|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.38||||0.02|TWO_SIDED|95.0|0.16|0.87|||Regression, Cox|||To determine the effectiveness of brief CBT compared with treatment as usual, univariate and multivariate Cox proportional hazard regression models were used to analyze time to the first suicide attempt. Time to suicide attempt was measured by calculating the total number of days from enrollment to the first suicide attempt. For participants without a suicide attempt, the total number of days from enrollment to the last assessment was calculated.||.87|.16|.02
82451404|NCT04000581|164609264|SUPERIORITY|||||||0.329|||||||t-test, 1 sided|||The null hypothesis is that the mean change is equal between the groups, while the alternative is that an increased difference is observed in arm 2. The hypotheses are evaluated using a one-sided, two-sample t-test.||||0.329
82451405|NCT02519595|164609279|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.2
82451406|NCT02519595|164609280|SUPERIORITY_OR_OTHER|||||||0.09|||||||Kruskal-Wallis|||||||0.09
82451407|NCT02519595|164609281|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.2
82451408|NCT02519595|164609283|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared|||Adverse events in ED||||0.8
82451409|NCT02519595|164609283|SUPERIORITY_OR_OTHER|||||||0.5|||||||Chi-squared|||Post discharge Emesis||||0.5
82451410|NCT02519595|164609284|SUPERIORITY_OR_OTHER|||||||0.011|||||||Chi-squared|||||||0.011
82451411|NCT00387036|164609286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.37||||90.0|-1.59|-0.25||||||||-0.25|-1.59|
82451412|NCT00387036|164609287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.17|STANDARD_ERROR_OF_MEAN|1.9||||90.0|-0.28|6.61||||||||6.61|-0.28|
82451413|NCT03139344|164609288|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451414|NCT03139344|164609288|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451415|NCT03139344|164609289|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451416|NCT03139344|164609289|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451417|NCT03139344|164609290|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
82451418|NCT03139344|164609290|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451419|NCT03139344|164609291|SUPERIORITY|||||||0.148|||||||ANOVA|||||||0.148
82451420|NCT03139344|164609291|SUPERIORITY|||||||0.005|||||||ANOVA|||||||0.005
82451421|NCT03139344|164609292|SUPERIORITY|||||||0.069|||||||ANOVA|||||||0.069
82451422|NCT03139344|164609292|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
82451423|NCT03139344|164609293|SUPERIORITY|||||||0.118|||||||ANOVA|||||||0.118
82451424|NCT03139344|164609293|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.010
82451425|NCT03139344|164609294|SUPERIORITY|||||||0.059|||||||ANOVA|||||||0.059
82451426|NCT03139344|164609294|SUPERIORITY|||||||0.015|||||||ANOVA|||||||0.015
82451427|NCT03139344|164609295|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.010
82451428|NCT03139344|164609295|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
82451429|NCT03139344|164609296|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
82577288|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.143||0.2607|TWO_SIDED|95.0|-0.45|0.12|||MMRM|||Somatic Symptoms GI, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.45|0.2607
82577289|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.158||0.2466|TWO_SIDED|95.0|-0.5|0.13|||MMRM|||Somatic Symptoms GI, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.50|0.2466
82648514|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|41.26|STANDARD_ERROR_OF_MEAN|177.26||0.8174|TWO_SIDED|95.0|-319.8|402.3|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||402.3|-319.8|0.8174
82430400|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2473|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.2473
82430401|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430402|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Tolterodine ER vs placebo at Week 12.||||<0.0001
82430403|NCT00444925|164568313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.1047|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.1047
82430404|NCT00444925|164568314|SUPERIORITY_OR_OTHER|||||||0.0143||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 1||||0.0143
82430405|NCT00444925|164568314|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 4||||<0.0001
82430406|NCT00444925|164568314|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 12||||<0.0001
82451430|NCT03139344|164609297|SUPERIORITY|||||||0.345|||||||t-test, 2 sided|||||||0.345
82586177|NCT01072877|164884216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76|||<|0.0001|TWO_SIDED|95.0|-0.98|-0.53|||ANCOVA|||||-0.53|-0.98|<0.0001
82648515|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|166.4|STANDARD_ERROR_OF_MEAN|177.55||0.3557|TWO_SIDED|95.0|-195.3|528.1|||ANCOVA|||Sitting SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||528.1|-195.3|0.3557
82430407|NCT00444925|164568315|SUPERIORITY_OR_OTHER|||||||0.0773||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 1||||0.0773
82430408|NCT00444925|164568315|SUPERIORITY_OR_OTHER|||||||0.0017||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 4||||0.0017
82430409|NCT00444925|164568315|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|With modified ridit scoring and stratified by country.||Fesoterodine vs placebo at Week 12||||0.0008
82430410|NCT00444925|164568316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|1.5|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment difference Fesoterodine vs placebo at Week 12||||<0.0001
82430411|NCT00444925|164568317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.2|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL concern domain.||||<0.0001
82430412|NCT00444925|164568317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|1.6|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL coping domain.||||<0.0001
82430413|NCT00444925|164568317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|1.5||0.0008|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL sleep domain.||||0.0008
82451431|NCT03139344|164609298|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|||||||0.264
82451432|NCT03139344|164609299|SUPERIORITY|||||||0.266|||||||t-test, 2 sided|||||||0.266
82451433|NCT03139344|164609300|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
82451434|NCT03139344|164609301|SUPERIORITY|||||||0.109|||||||t-test, 2 sided|||||||0.109
82451435|NCT03139344|164609302|SUPERIORITY|||||||0.895|||||||t-test, 2 sided|||||||0.895
82451436|NCT03139344|164609303|SUPERIORITY|||||||0.573|||||||t-test, 2 sided|paired t-test||||||0.573
82430414|NCT00444925|164568317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL social interaction domain.||||<0.0001
82430415|NCT00444925|164568317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|||||||ANCOVA|Based on an analysis of covariance model with country and treatment as factors, and centered baseline value as a covariate.|Treatment Difference LSMean Difference(SE), SE is recorded as Parameter Dispersion Type: Standard Error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL scale score total.||||<0.0001
82430416|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.0072||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 1.||||0.0072
82430417|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.0116||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 1.||||0.0116
82430418|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.7828||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 1.||||0.7828
82451437|NCT03139344|164609304|SUPERIORITY|||||||0.858|||||||t-test, 2 sided|paired t-test||||||0.858
82451438|NCT03188510|164609305|OTHER||Ratio of geometric least squares means|0.971|||||TWO_SIDED|90.0|0.805|1.17||||||||1.17|0.805|
82451439|NCT03188510|164609305|OTHER||Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.841|1.22||||||||1.22|0.841|
82451440|NCT03188510|164609305|OTHER||Ratio of geometric least squares means|0.985|||||TWO_SIDED|90.0|0.819|1.18||||||||1.18|0.819|
82451441|NCT03188510|164609306|OTHER||Ratio of geometric least squares means|0.978|||||TWO_SIDED|90.0|0.811|1.18||||||||1.18|0.811|
82536828|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.686|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 10||||0.6860
82577290|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.153||0.3461|TWO_SIDED|95.0|-0.45|0.16|||MMRM|||Somatic Symptoms GI, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.45|0.3461
82430419|NCT00444925|164568318|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 4.||||<0.0001
82536829|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0224|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 18||||0.0224
82536830|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.1871|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 26||||0.1871
82586178|NCT01072877|164884216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.53|||ANCOVA|||||-0.53|-0.97|<0.0001
82430420|NCT00444925|164568318|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 4.||||<0.0001
82430421|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.3104||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 4.||||0.3104
82430422|NCT00444925|164568318|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs placebo at Week 12.||||<0.0001
82430423|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Tolterodine ER vs placebo at Week 12.||||0.0004
82430424|NCT00444925|164568318|SUPERIORITY_OR_OTHER|||||||0.0153||95.0|||||Cochran-Mantel-Haenszel|Stratified by baseline urgency urinary incontinence quartile.||Treatment Difference Fesoterodine vs Tolterodine ER at Week 12.||||0.0153
82430425|NCT01342094|164568324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|||<|0.001|TWO_SIDED|95.0|-2.2|-0.9|||ANCOVA|||||-0.9|-2.2|< 0.001
82430426|NCT01328743|164568334|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||.04
82430427|NCT01328743|164568335|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
82430428|NCT01328743|164568336|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
82430429|NCT01328743|164568337|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||.48
82430430|NCT01328743|164568338|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||.25
82430431|NCT01328743|164568339|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82451442|NCT03188510|164609306|OTHER||Ratio of geometric least squares means|1.0|||||TWO_SIDED|90.0|0.833|1.21||||||||1.21|0.833|
82451443|NCT03188510|164609306|OTHER||Ratio of geometric least squares means|0.982|||||TWO_SIDED|90.0|0.817|1.18||||||||1.18|0.817|
82451444|NCT03637517|164609310|EQUIVALENCE|2 comparisons performed: Reg. B vs. Reg. A, \& Reg.C vs. Reg. B. Bioavailability of each test reg. relative to that of each reference reg. assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model. Bioequivalence between a test reg. and the reference reg. is concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within 0.80 to 1.25 range.|Least Squares Means Log scale|0.926||||0.4847|TWO_SIDED|90.0|0.771|1.113|||ANOVA|||||1.113|0.771|0.4847
82536831|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 34||||0.0039
82536832|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0325|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 42||||0.0325
82536833|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0631|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 50||||0.0631
82536834|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0277|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 58||||0.0277
82577291|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.162||0.0919|TWO_SIDED|95.0|-0.6|0.05|||MMRM|||Somatic Symptoms GI, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.60|0.0919
82430432|NCT02481258|164568347|EQUIVALENCE|Power calculations were based on a two-sample t-test. A priori calculations to detect an effect size of 0.57 units indicated that that 50 patients per arm were needed to have 80% power. The actual effect size observed in the present study was 0.86.||||||0.05|||||||ANCOVA|||The statistical analysis was done using an ANCOVA analysis adjusting for the baseline aortic valve calcium levels.||||0.05
82430433|NCT02481258|164568349|EQUIVALENCE|Power calculations were based on a two-sample t-tests assuming initial recruitment of 50 subjects.|||||>|0.05||||||Our a priori threshold for statistical significance was p \< 0.05.|ANCOVA|||||||>0.05
82430434|NCT02481258|164568350|EQUIVALENCE|Power calculations were based on a two-sample t-test.|||||>|0.05||||||Our a priori threshold for statistical significance was p \< 0.05.|ANCOVA|||The statistical analysis was done using an ANCOVA analysis adjusting for the baseline aortic valve calcium levels.||||>0.05
82430435|NCT00756275|164568373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.33|||<|0.05|TWO_SIDED|95.0|0.91|20.56|||Chi-squared|||||20.56|.91|<0.05
82430436|NCT00756275|164568374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|2.36||0.5|TWO_SIDED|95.0|-6.29|3.11|||t-test, 2 sided|||||3.11|-6.29|.50
82430437|NCT00756275|164568375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.3|TWO_SIDED|95.0|0.58|14.5|||Fisher Exact|||||14.50|.58|.30
82430438|NCT00756275|164568376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.98|STANDARD_ERROR_OF_MEAN|8.38||0.34|TWO_SIDED|95.0|-24.64|8.68|||t-test, 2 sided|||||8.68|-24.64|.34
82536835|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0128|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 70||||0.0128
82536836|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0164|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 82||||0.0164
82586179|NCT01072877|164884216|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.68|||ANCOVA|||||-0.68|-1.11|<0.0001
82430439|NCT00756275|164568377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.39|STANDARD_ERROR_OF_MEAN|8.1||0.36|TWO_SIDED|95.0|-8.73|23.52|||t-test, 2 sided|||||23.52|-8.73|.36
82430440|NCT00756275|164568378|SUPERIORITY_OR_OTHER|||||||0.57|||||||Chi-squared|||||||.57
82430441|NCT00756275|164568379|SUPERIORITY_OR_OTHER|||||||0.31|||||||Chi-squared|||||||.31
82430442|NCT00756275|164568380|SUPERIORITY_OR_OTHER|||||||0.72|||||||Chi-squared|||||||.72
82430443|NCT00756275|164568381|SUPERIORITY_OR_OTHER|||||||0.18|||||||Chi-squared|||||||.18
82430444|NCT00756275|164568382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|1.72||0.75|TWO_SIDED|95.0|-3.98|2.87|||t-test, 2 sided|||||2.87|-3.98|.75
82430445|NCT01187095|164568387|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Estimation parameter|||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82430446|NCT01187095|164568387|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|||||||<0.05
82430447|NCT04343092|164568468|SUPERIORITY||Mean Difference (Final Values)|7.92||||0.05|TWO_SIDED||||||t-test, 2 sided||||Historical control population included: Hydroxychloroquin (HCQ) 400mg BID at admission day then 200mg BID for 5 days plus Azithromycin (AZT) 500mg at admission day then 250mg for 5 days.|||0.05
82430448|NCT01109108|164568479|OTHER||Risk Ratio (RR)|1.0|||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82430449|NCT01516632|164568514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|0.82|3.21||||||||3.21|.82|
82430450|NCT01516632|164568515|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55|||||TWO_SIDED|95.0|1.22|5.3||||||||5.30|1.22|
82430451|NCT01516632|164568516|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.33|||||TWO_SIDED|95.0|1.48|7.45||||||||7.45|1.48|
82430452|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.71||||0.202|TWO_SIDED|80.0|0.5|1.0|||Mixed Models Analysis|||Day 3||1.00|0.50|0.202
82430453|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.21|||<|0.001|TWO_SIDED|80.0|0.14|0.32|||Mixed Models Analysis|||Day 3||0.32|0.14|<0.001
82430454|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.3|||<|0.001|TWO_SIDED|80.0|0.19|0.46|||Mixed Models Analysis|||Day 3||0.46|0.19|<0.001
82430455|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.79||||0.275|TWO_SIDED|80.0|0.6|1.04|||Mixed Models Analysis|||Day 3||1.04|0.60|0.275
82430456|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.78||||0.234|TWO_SIDED|80.0|0.59|1.02|||Mixed Models Analysis|||Day 3||1.02|0.59|0.234
82430457|NCT03198767|164568536|SUPERIORITY||Ratio of number of events|0.98||||0.921|TWO_SIDED|80.0|0.73|1.3|||Mixed Models Analysis|||Day 3||1.30|0.73|0.921
82430458|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|0.68||||0.04|TWO_SIDED|80.0|0.54|0.86|||Mixed Models Analysis|||||0.86|0.54|0.040
82430459|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|0.37|||<|0.001|TWO_SIDED|80.0|0.28|0.49|||Mixed Models Analysis|||||0.49|0.28|<0.001
82430460|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|0.54||||0.008|TWO_SIDED|80.0|0.41|0.72|||Mixed Models Analysis|||||0.72|0.41|0.008
82430461|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|0.79||||0.141|TWO_SIDED|80.0|0.65|0.97|||Mixed Models Analysis|||||0.97|0.65|0.141
82430462|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|0.9||||0.51|TWO_SIDED|80.0|0.74|1.1|||Mixed Models Analysis|||||1.10|0.74|0.510
82430463|NCT03198767|164568537|SUPERIORITY||Ratio of number of events|1.14||||0.401|TWO_SIDED|80.0|0.93|1.41|||Mixed Models Analysis|||||1.41|0.93|0.401
82536837|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0119|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 94||||0.0119
82536838|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 106||||0.0013
82430464|NCT03198767|164568538|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.426|TWO_SIDED|80.0|-0.56|0.13|||Mixed Models Analysis|||||0.13|-0.56|0.426
82430465|NCT03198767|164568538|SUPERIORITY||Median Difference (Final Values)|-1.06||||0.001|TWO_SIDED|80.0|-1.46|-0.67|||Mixed Models Analysis|||||-0.67|-1.46|0.001
82430466|NCT03198767|164568538|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.009|TWO_SIDED|80.0|-1.25|-0.45|||Mixed Models Analysis|||||-0.45|-1.25|0.009
82430467|NCT03198767|164568538|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.135|TWO_SIDED|80.0|-0.68|-0.05|||Mixed Models Analysis|||||-0.05|-0.68|0.135
82430468|NCT03198767|164568538|SUPERIORITY||Median Difference (Final Values)|-0.19||||0.436|TWO_SIDED|80.0|-0.5|0.12|||Mixed Models Analysis|||||0.12|-0.50|0.436
82430469|NCT03198767|164568538|SUPERIORITY||Median Difference (Final Values)|0.18||||0.452|TWO_SIDED|80.0|-0.13|0.49|||Mixed Models Analysis|||||0.49|-0.13|0.452
82430470|NCT00570323|164568541|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
82430471|NCT02651116|164568556|SUPERIORITY||Rate Ratio|0.7899|STANDARD_ERROR_OF_MEAN|0.0929||0.0449|TWO_SIDED|95.0|0.6273|0.9947||P-Value less than or equal to (\<=) 0.05 level was considered significantly better and P-Value lying between 0.05 less than (\<) p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per 24 hours for DXM HBr to placebo), and corresponding 95% confidence interval (CI) for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9947|0.6273|0.0449
82430472|NCT02651116|164568556|SUPERIORITY|||||||0.6293||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|Negative Binomial Regression|||P-value was obtained from the negative binomial model with treatment, study site (pooled), age group, log-transformed baseline average cough count per hour (based on Baseline Run-in Period) as factors, with interaction term of treatment by age group, and logarithm of the time over which the cough count was evaluated as the offset parameter.||||0.6293
82451445|NCT03637517|164609310|EQUIVALENCE|2 comparisons performed: Reg. B vs. Reg. A, \& Reg.C vs. Reg. B. Bioavailability of each test reg. relative to that of each reference reg. assessed via 90% CI. CI obtained by taking the antilog of the upper and lower limits of CI for the difference of the least squares means on the log scale within the ANOVA framework model. Bioequivalence between a test reg. and the reference reg. is concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within 0.80 to 1.25 range.|Least Squares Means Log scale|0.79||||0.037|TWO_SIDED|90.0|0.658|0.95|||ANOVA|||||0.950|0.658|0.0370
82430473|NCT02651116|164568557|SUPERIORITY||Rate Ratio|0.8048|STANDARD_ERROR_OF_MEAN|0.0912||0.0552|TWO_SIDED|95.0|0.6446|1.0049||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||1.0049|0.6446|0.0552
82430474|NCT02651116|164568558|SUPERIORITY||Rate Ratio|0.9551|STANDARD_ERROR_OF_MEAN|0.1491||0.7684|TWO_SIDED|95.0|0.7032|1.2971||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||1.2971|0.7032|0.7684
82430475|NCT02651116|164568559|SUPERIORITY||Rate Ratio|0.7014|STANDARD_ERROR_OF_MEAN|0.1086||0.022|TWO_SIDED|95.0|0.5178|0.95||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9500|0.5178|0.0220
82430476|NCT02651116|164568560|SUPERIORITY||Rate Ratio|0.7454|STANDARD_ERROR_OF_MEAN|0.0848||0.0098|TWO_SIDED|95.0|0.5964|0.9316||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|Negative Binomial Regression|||Estimated rate ratio (ratio of rate of cough counts per specified duration for DXM HBr to placebo, used in evaluation of this outcome measure), and corresponding 95% CI for DXM HBr versus placebo was obtained from negative binomial model with treatment, study site (pooled), age group, and log-transformed baseline average cough count per hour as factors, with logarithm of the time over which the cough count was evaluated as the offset parameter.||0.9316|0.5964|0.0098
82430477|NCT02651116|164568561|SUPERIORITY||Difference in least squares mean|-0.221|STANDARD_ERROR_OF_MEAN|0.1324||0.0977|TWO_SIDED|95.0|-0.4831|0.0411||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANCOVA|||Analysis of covariance (ANCOVA) model contained treatment, study site (pooled), log-transformed baseline cough time and age group terms as factors.||0.0411|-0.4831|0.0977
82430478|NCT02651116|164568562|SUPERIORITY||Difference in least squares mean|-0.2881|STANDARD_ERROR_OF_MEAN|0.1224||0.0191|TWO_SIDED|95.0|-0.5287|-0.0475||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Analysis of variance (ANOVA) model contained treatment, study site (pooled), the corresponding morning baseline cough frequency by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0475|-0.5287|0.0191
82430479|NCT02651116|164568562|SUPERIORITY|||||||0.8355||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.8355
82430480|NCT02651116|164568563|SUPERIORITY||Difference in least squares mean|-0.3128|STANDARD_ERROR_OF_MEAN|0.1104||0.0049|TWO_SIDED|95.0|-0.5299|-0.0956||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding morning baseline cough severity by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0956|-0.5299|0.0049
82430481|NCT02651116|164568563|SUPERIORITY|||||||0.8413||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.8413
82430482|NCT02651116|164568564|SUPERIORITY||Difference in least squares mean|-0.1483|STANDARD_ERROR_OF_MEAN|0.1337||0.2679|TWO_SIDED|95.0|-0.4112|0.1146||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding morning baseline impact on sleep by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||0.1146|-0.4112|0.2679
82430483|NCT02651116|164568564|SUPERIORITY|||||||0.2882||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), screening assessment by participant, interaction of treatment by age group and age group included in the model.||||0.2882
82430484|NCT02651116|164568565|SUPERIORITY||Difference in least squares mean|-0.2812|STANDARD_ERROR_OF_MEAN|0.1242||0.0242|TWO_SIDED|95.0|-0.5255|-0.0369||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding afternoon baseline cough frequency by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0369|-0.5255|0.0242
82430485|NCT02651116|164568565|SUPERIORITY|||||||0.2892||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), afternoon baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.2892
82430486|NCT02651116|164568566|SUPERIORITY||Difference in least squares mean|-0.3014|STANDARD_ERROR_OF_MEAN|0.1096||0.0063|TWO_SIDED|95.0|-0.517|-0.0858||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model contained treatment, study site (pooled), the corresponding afternoon baseline cough severity by participant, and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0858|-0.5170|0.0063
82430487|NCT02651116|164568566|SUPERIORITY|||||||0.3268||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model contained treatment, study site (pooled), afternoon baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.3268
82430488|NCT02651116|164568567|SUPERIORITY||Difference in least squares mean|-0.2535|STANDARD_ERROR_OF_MEAN|0.1124||0.0247|TWO_SIDED|95.0|-0.4745|-0.0325||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||ANOVA model with treatment, study site (pooled), the baseline assessment in child global question cold assessment by participant and age group included in the model. The statistical analysis was performed on the composite for all categories.||-0.0325|-0.4745|0.0247
82536839|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.6691|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 142||||0.6691
82430489|NCT02651116|164568567|SUPERIORITY|||||||0.4093||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||ANOVA model with treatment, study site (pooled), baseline assessment by participant, interaction of treatment by age group and age group included in the model.||||0.4093
82430490|NCT02651116|164568568|SUPERIORITY||Difference in least squares mean|0.1266|STANDARD_ERROR_OF_MEAN|0.2196||0.5652|TWO_SIDED|95.0|-0.3081|0.5614||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Participant: ANOVA model with treatment, study site (pooled), and age group included in the model.||0.5614|-0.3081|0.5652
82430491|NCT02651116|164568568|SUPERIORITY||Difference in least squares mean|-0.1368|STANDARD_ERROR_OF_MEAN|0.1982||0.4914|TWO_SIDED|95.0|-0.5292|0.2556||P-Value \<=0.05 level was considered significantly better and P-Value lying between 0.05\<p\<=0.1 level was considered marginally significantly better.|ANOVA|||Caregiver: ANOVA model with treatment, study site (pooled), and age group included in the model.||0.2556|-0.5292|0.4914
82430492|NCT02651116|164568568|SUPERIORITY|||||||0.1029||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||Participant: ANOVA model with treatment, study site (pooled), interaction of treatment by age group and age group included in the model.||||0.1029
82430493|NCT02651116|164568568|SUPERIORITY|||||||0.4736||||||P-value is for interaction term of treatment by age group. P-value \<=0.10 was considered significant for interaction terms.|ANOVA|||Caregiver: ANOVA model with treatment, study site (pooled), interaction of treatment by age group and age group included in the model.||||0.4736
82430494|NCT00533429|164568578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.469||||||P-value (one-tailed) was calculated based on the un-stratified log-rank test.|Log Rank|||||||0.469
82430495|NCT00533429|164568579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.462||||||95% confidence interval based on normal approximation to the binomial distribution. P-value (2-tailed) calculation based on unadjusted, normal-distribution approximation for the difference in rates.|Fisher Exact|||||||0.462
82430496|NCT00533429|164568580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492||||||P-value (two-tailed) was calculated based on the un-stratified log-rank test.|Log Rank|||||||0.492
82536840|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.6923|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 166||||0.6923
82536841|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.9292|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 178||||0.9292
82536842|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.4401|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 190||||0.4401
82430497|NCT01299389|164568602|SUPERIORITY_OR_OTHER||Least squares (LS) means difference|-9.7|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-14.0|-5.4|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an analysis of covariance (ANCOVA) model with treatment and country as factors and baseline PANSS total score as a covariate.||-5.4|-14.0|<0.0001
82430498|NCT01299389|164568605|SUPERIORITY_OR_OTHER||LS Mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.69|<|0.0001|TWO_SIDED|95.0|-4.1|-1.4|||ANCOVA|||Positive symptoms (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-1.4|-4.1|<0.0001
82430499|NCT01299389|164568605|SUPERIORITY_OR_OTHER||LS Mean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.61||0.0012|TWO_SIDED|95.0|-3.2|-0.8|||ANCOVA|||Negative symptoms (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.8|-3.2|0.0012
82430500|NCT01299389|164568605|SUPERIORITY_OR_OTHER||LS Mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.57|<|0.0001|TWO_SIDED|95.0|-3.4|-1.1|||ANCOVA|||Disorganized thoughts (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-1.1|-3.4|<0.0001
82430501|NCT01299389|164568605|SUPERIORITY_OR_OTHER||LS Mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0023|TWO_SIDED|95.0|-2.3|-0.5|||ANCOVA|||Uncontrolled hostility/excitement (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.5|-2.3|0.0023
82430502|NCT01299389|164568605|SUPERIORITY_OR_OTHER||LS Mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.37||0.0025|TWO_SIDED|95.0|-1.9|-0.4|||ANCOVA|||Anxiety/depression (change at Week 13 or ED): P value was calculated using an ANCOVA model with treatment and country as factors and baseline PANSS factor scores as covariates.||-0.4|-1.9|0.0025
82430503|NCT01299389|164568606|SUPERIORITY_OR_OTHER||LS Mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.59||0.0003|TWO_SIDED|95.0|-3.3|-1.0|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-1.0|-3.3|0.0003
82430504|NCT01299389|164568607|SUPERIORITY_OR_OTHER||LS Mean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-4.1|-1.5|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-1.5|-4.1|<0.0001
82451446|NCT03637517|164609311|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.899||||0.1135|TWO_SIDED|90.0|0.805|1.004|||ANOVA|||||1.004|0.805|0.1135
82536843|NCT02449044|164773053|SUPERIORITY_OR_OTHER|||||||0.3609|TWO_SIDED|||||Descriptive use only, no statistical adjustments for multiplicity were planned.|Student's t-test|||Statistical analysis at Week 214||||0.3609
82577292|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.157||0.7554|TWO_SIDED|95.0|-0.36|0.26|||MMRM|||Somatic Symptoms GI, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.36|0.7554
82430505|NCT01299389|164568608|SUPERIORITY_OR_OTHER||LS Mean difference|-4.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-6.9|-2.3|||ANCOVA|||Change at Week 13 or Early Discontinuation: P value were calculated using an ANCOVA model with treatment and country as factors and baseline PANSS total score as a covariate.||-2.3|-6.9|<0.0001
82430506|NCT02185534|164568632|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Geometric mean ratio|104.43|||||TWO_SIDED|90.0|92.27|118.19|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||118.19|92.27|
82430507|NCT02185534|164568632|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|Geometric mean ratio|97.19|||||TWO_SIDED|90.0|81.12|116.45|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25||116.45|81.12|
82430508|NCT02185534|164568633|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|108.06|||||TWO_SIDED|90.0|95.46|122.33|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||122.33|95.46|
82430509|NCT02185534|164568633|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|105.79|||||TWO_SIDED|90.0|95.22|117.53|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|||117.53|95.22|
82451447|NCT03637517|164609311|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.175||||0.0192|TWO_SIDED|90.0|1.051|1.312|||ANOVA|||||1.312|1.051|0.0192
82451448|NCT03637517|164609312|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.898||||0.1759|TWO_SIDED|90.0|0.787|1.024|||ANOVA||Regimen B to A|||1.024|0.787|0.1759
82577293|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.166||0.015|TWO_SIDED|95.0|-0.74|-0.08|||MMRM|||Somatic Symptoms GI, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.74|0.0150
82451449|NCT03637517|164609312|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.172||||0.0496|TWO_SIDED|90.0|1.027|1.338|||ANOVA||Regimen C to B|||1.338|1.027|0.0496
82451450|NCT03637517|164609313|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Least Squares Means|-0.2857|STANDARD_ERROR_OF_MEAN|1.866979|||TWO_SIDED|90.0|-3.4313|2.8599||||||||2.8599|-3.4313|
82451451|NCT03637517|164609313|EQUIVALENCE|Bioavailability of each test reg. relative to each reference reg will be assessed via 90% CI obtained from the analyses of the natural logs of Cmax and AUC. These CI are obtained by taking the antilog of the upper \& lower CI for the difference of the least squares means on the log scale within the ANOVA model. Bioequivalence between a test reg and the respective reference reg will be concluded if the 90% CI from the analyses of the natural log of Cmax and AUC are within the 0.80 to 1.25 range.|Least Squares Means|9.3571|STANDARD_ERROR_OF_MEAN|1.866979|||TWO_SIDED|90.0|6.2115|12.5028|||||Regimen C to B|||12.5028|6.2115|
82451452|NCT03637517|164609315|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|0.866||||0.1745|TWO_SIDED|90.0|0.727|1.032|||ANOVA|||(ANOVA) will be performed for Tmax, the terminal phase elimination rate constant β, and the natural logarithms of Cmax, AUCt, AUC168, AUCinf, and C168. The model will include the effects for regimen. For the tests on regimen effects, the denominator sum of squares will be the residual sum of squares for error. Within the ANOVA modeling framework, the test regimen will be compared to the respective reference regimen by a test with a significance level of 0.05.||1.032|0.727|0.1745
82451453|NCT03637517|164609315|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|Sum of squares|1.185||||0.1105|TWO_SIDED|90.0|0.995|1.411||For tests on regimen effects, the denominator sum of squares is the residual sum of squares for error. Within the ANOVA modeling framework, the test regimen is compared to the respective reference regimen by a test with a significance level of 0.05.|ANOVA|||||1.411|0.995|0.1105
82451454|NCT03637517|164609316|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|LEAST SQUARES MEANS FOR LOGARITHMS.|0.901||||0.31|TWO_SIDED|90.0|0.759|1.069|||ANOVA|||||1.069|0.759|0.3100
82451455|NCT03637517|164609316|EQUIVALENCE|Bioequivalence between a test regimen and the respective reference regimen will be concluded if the 90% confidence intervals from the analyses of the natural logarithms of Cmax and AUC are within the 0.80 to 1.25 range.|LEAST SQUARES MEANS FOR LOGARITHMS.|1.156||||0.1619|TWO_SIDED|90.0|0.974|1.371|||ANOVA|||||1.371|0.974|0.1619
82451456|NCT00928694|164609326|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence bounds = (0.80, 1.25) Study Primary Hypothesis: Single 160 mg doses of the U.S. and UK formulations of fenofibrate following consumption of a standard breakfast are bioequivalent (the true geometric mean ratios (GMRs) \[U.S./UK\] for the AUC(0 to infinity) and maximum plasma concentration (Cmax) of fenofibric acid after administration of the U.S. and UK formulations of fenofibrate with food are contained in the interval \[0.80, 1.25\]).|Geometric Mean Ratio|0.96||||||90.0|0.9|1.02||||||||1.02|0.90|
82451457|NCT00928694|164609327|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence bounds = (0.80, 1.25) Study Primary Hypothesis: Single 160 mg doses of the U.S. and UK formulations of fenofibrate following consumption of a standard breakfast are bioequivalent (the true GMRs \[U.S./UK\] for the AUC(0 to infinity) and Cmax of fenofibric acid after administration of the U.S. and UK formulations of fenofibrate with food are contained in the interval \[0.80, 1.25\]).|Geometric Mean Ratio|0.98||||||90.0|0.9|1.06||||||||1.06|0.90|
82451458|NCT00118430|164609328|SUPERIORITY_OR_OTHER||||||<|0.001||||||This reported p-value was calculated (and does not merely represent the threshold for significance.|Mixed Models Analysis|||||||<0.001
82451459|NCT00118430|164609329|SUPERIORITY_OR_OTHER||||||<|0.001||||||This reported p-value was calculated (and does not merely represent the threshold for significance.|Mixed Models Analysis|||||||< 0.001
82451460|NCT00118430|164609330|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82451461|NCT00118430|164609331|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Poisson|||||||<0.001
82430510|NCT02185534|164568634|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25.|Geometric mean ratio|93.94|||||TWO_SIDED|90.0|87.12|101.29|||||Geometric mean ratio is calculated as A/B, where A= European clopidogrel and B=Japanese clopidogrel|||101.29|87.12|
82430511|NCT02185534|164568634|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was conducted using an analysis of variance (ANOVA) including fixed effects for treatment, sequence, period and subject within sequence. All pharmacokinetic parameters were log-transformed prior to analysis. Bioequivalence was concluded, when the 90% confidence interval (CI) for the geometric LS mean ratios were fully contained within the predefined equivalence limits of 0.80 to 1.25|Geometric mean ratio|92.03|||||TWO_SIDED|90.0|84.91|99.75|||||Geometric mean ratio is calculated as A/C, where A= European clopidogrel and C=US clopidogrel|||99.75|84.91|
82430512|NCT02948582|164568635|SUPERIORITY||least squares mean|0.033||||0.1257|TWO_SIDED|95.0|-0.009|0.075|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.075|-0.009|0.1257
82430513|NCT02948582|164568635|SUPERIORITY||least squares mean|0.072||||0.0008|TWO_SIDED|95.0|0.03|0.113|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.113|0.030|0.0008
82430514|NCT02948582|164568635|SUPERIORITY||least squares mean|0.102|||<|0.0001|TWO_SIDED|95.0|0.061|0.144|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.144|0.061|<0.0001
82430515|NCT02948582|164568635|SUPERIORITY||least squares mean|0.108|||<|0.0001|TWO_SIDED|95.0|0.066|0.15|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.150|0.066|<0.0001
82451462|NCT01504412|164609332|SUPERIORITY||Hazard Ratio (HR)|-0.42||||0.1995|TWO_SIDED|95.0|-0.99|0.15||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.15|-0.99|0.1995
82451463|NCT01504412|164609332|SUPERIORITY||Hazard Ratio (HR)|-0.37||||0.2886|TWO_SIDED|95.0|-0.93|0.2||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.20|-0.93|0.2886
82451464|NCT01504412|164609332|SUPERIORITY||Hazard Ratio (HR)|-0.3||||0.4704|TWO_SIDED|95.0|-0.87|0.27||Dunnett method was used for adjustment of multiple testing.|ANCOVA|||||0.27|-0.87|0.4704
82577294|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.16||0.0482|TWO_SIDED|95.0|-0.64|0.0|||MMRM|||Somatic Symptoms GI, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.64|0.0482
82648516|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|163.04|STANDARD_ERROR_OF_MEAN|130.15||0.2172|TWO_SIDED|95.0|-99.6|425.7|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||425.7|-99.6|0.2172
82648517|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|115.35|STANDARD_ERROR_OF_MEAN|116.03||0.3258|TWO_SIDED|95.0|-118.8|349.5|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||349.5|-118.8|0.3258
82648518|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|24.67|STANDARD_ERROR_OF_MEAN|117.88||0.8352|TWO_SIDED|95.0|-213.2|262.6|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||262.6|-213.2|0.8352
82430516|NCT02948582|164568635|SUPERIORITY||least squares mean|0.098|||<|0.0001|TWO_SIDED|95.0|0.056|0.14|||least squares mean|||"An analysis of covariance was used with change from baseline in trough FEV1 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.~A sample size of 34 subjects (42 with dropouts) provides 80% power to detect a 0.14L difference in mean change trough FEV1 between 2 groups at an alpha of 0.05 using a 2-tailed t-test and assuming a common standard deviation for change in trough FEV1 of 0.2."||0.140|0.056|<0.0001
82451465|NCT01504412|164609333|SUPERIORITY||Least squares mean difference|-5.2||||0.0691|TWO_SIDED|95.0|-10.8|0.4|||ANCOVA|||This analysis assessed placebo vs DS-5565 10 mg/day for the visual analog scale.||0.4|-10.8|0.0691
82451466|NCT01504412|164609333|SUPERIORITY||Least squares mean difference|-5.4||||0.0577|TWO_SIDED|95.0|-10.9|0.2|||ANCOVA|||This analysis assessed placebo vs DS-5565 20 mg/day for the visual analog scale.||0.2|-10.9|0.0577
82451467|NCT01504412|164609333|SUPERIORITY||Least squares mean difference|-7.4||||0.0093|TWO_SIDED|95.0|-13.0|-1.8|||ANCOVA|||This analysis assessed placebo vs DS-5565 30 mg/day for the visual analog scale.||-1.8|-13.0|0.0093
82451468|NCT01934010|164609368|SUPERIORITY|||||||0.128|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 1 treatment cycle with AM-101 or others who received 2 treatment cycles.||||0.128
82536844|NCT00662909|164773055|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34||||0.026|TWO_SIDED|95.0|-0.66|-0.03||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.03|-0.66|0.026
82648519|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|50.59|STANDARD_ERROR_OF_MEAN|117.93||0.6701|TWO_SIDED|95.0|-187.4|288.6|||ANCOVA|||Standing SBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||288.6|-187.4|0.6701
82430517|NCT02948582|164568636|SUPERIORITY||least squares mean|0.086|||<|0.0001|TWO_SIDED|95.0|0.05|0.123|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.123|0.050|<0.0001
82430518|NCT02948582|164568636|SUPERIORITY||least squares mean|0.151|||<|0.0001|TWO_SIDED|95.0|0.114|0.187|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.187|0.114|<0.0001
82430519|NCT02948582|164568636|SUPERIORITY||least squares mean|0.156|||<|0.0001|TWO_SIDED|95.0|0.12|0.193|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.193|0.120|<0.0001
82430520|NCT02948582|164568636|SUPERIORITY||least squares mean|0.202|||<|0.0001|TWO_SIDED|95.0|0.165|0.239|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.239|0.165|<0.0001
82430521|NCT02948582|164568636|SUPERIORITY||least squares mean|0.199|||<|0.0001|TWO_SIDED|95.0|0.162|0.235|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC0\_12 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.235|0.162|<0.0001
82430522|NCT02948582|164568637|SUPERIORITY||least squares mean|0.058||||0.0028|TWO_SIDED|95.0|0.021|0.095|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.095|0.021|0.0028
82451469|NCT01934010|164609368|SUPERIORITY|||||||0.075|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 1 treatment cycle with AM-101 or others who received 3 treatment cycles.||||0.075
82451470|NCT01934010|164609368|SUPERIORITY|||||||1|||||||Fisher Exact|||Fisher's exact test to assess if there is a difference in deterioration of hearing threshold between subjects that received 2 treatment cycles with AM-101 or others who received 3 treatment cycles.||||1
82430523|NCT02948582|164568637|SUPERIORITY||least squares mean|0.1|||<|0.0001|TWO_SIDED|95.0|0.063|0.137|||least squares mena|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.137|0.063|<0.0001
82430524|NCT02948582|164568637|SUPERIORITY||least squares mean|0.105|||<|0.0001|TWO_SIDED|95.0|0.068|0.142|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.142|0.068|<0.0001
82430525|NCT02948582|164568637|SUPERIORITY||least squares mean|0.135|||<|0.0001|TWO_SIDED|95.0|0.098|0.173|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.173|0.098|<0.0001
82430526|NCT02948582|164568637|SUPERIORITY||least squares mean|0.128|||<|0.0001|TWO_SIDED|95.0|0.091|0.166|||least squares mean|||An analysis of covariance was used with change from baseline in standardized FEV1 AUC12\_24 as the response, with factors for center, treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence.||0.166|0.091|<0.0001
82430527|NCT04419467|164568657|SUPERIORITY||GM % treatment difference (80% CI)|-0.5||||0.485|TWO_SIDED|80.0|-14.8|16.3||One-sided p-value|Mixed Models Repeated Measures Analysis||Data analyzed are log-transformed values of ACR, using MMRM. Comparisons vs. placebo are back-transformed by exponentiation to obtain geometric mean (GM), then expressed as percent treatment difference.|||16.3|-14.8|0.485
82430528|NCT04419467|164568657|SUPERIORITY||GM % treatment difference (80% CI)|8.6||||0.75|TWO_SIDED|80.0|-7.2|27.2||One-sided p-value|Mixed Models Repeated Measures Analysis||Data analyzed are log-transformed values of ACR, using MMRM. Comparisons vs. placebo are back-transformed by exponentiation to obtain geometric mean, then expressed as percent treatment difference|||27.2|-7.2|0.750
82451471|NCT01934010|164609369|SUPERIORITY|||||||0.4403|||||||Fisher Exact|||||||0.4403
82451472|NCT01934010|164609371|SUPERIORITY|||||||0.2401|||||||Fisher Exact|||||||0.2401
82451473|NCT01934010|164609371|SUPERIORITY|||||||0.0022|||||||Fisher Exact|||||||0.0022
82451474|NCT01934010|164609371|SUPERIORITY|||||||0.1001|||||||Fisher Exact|||||||0.1001
82451475|NCT01934010|164609372|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82451476|NCT01393821|164609374|SUPERIORITY|||||||0.6311|||||||Kruskal-Wallis|||||||0.6311
82536845|NCT00662909|164773055|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.82|-0.18||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.18|-0.82|<0.001
82577295|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.163||0.0003|TWO_SIDED|95.0|-0.93|-0.28|||MMRM|||Somatic Symptoms GI, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.28|-0.93|0.0003
82430529|NCT01925768|164568674|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.7||||0.004|TWO_SIDED|95.0|6.2|29.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||29.3|6.2|0.0040
82430530|NCT01925768|164568675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.103||||0.1677|TWO_SIDED|95.0|-0.251|0.044|||Mixed Models Analysis|Those with a baseline and at least 1 postbaseline value at the PBO controlled phase were counted with mixed effects model for repeated measure (MMRM)|The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||0.044|-0.251|0.1677
82430531|NCT01925768|164568676|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.5||||0.004|TWO_SIDED|95.0|6.3|30.6||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel|Those who withdrew early or who did not have sufficient data at Week 16 were counted as non-responders.|Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||30.6|6.3|0.0040
82430532|NCT01925768|164568677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.0051|TWO_SIDED|95.0|-0.85|-0.15|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate.|||-0.15|-0.85|0.0051
82430533|NCT01925768|164568678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.68||||0.0167|TWO_SIDED|95.0|0.49|4.88|||Mixed Models Analysis|Those with a baseline and at least 1 postbaseline value at the PBO controlled phase were counted with mixed effects model for repeated measure (MMRM)|The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||4.88|0.49|0.0167
82430534|NCT01925768|164568679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.4||||0.0039|TWO_SIDED|95.0|1.1|5.7||Based on an MMRM model for the change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD use and baseline Oral Corticosteroids use as factors and the baseline value as a covariate.|Mixed Models Analysis|||2-sided 95% CI for the difference in LS mean.||5.70|1.10|0.0039
82451477|NCT00377858|164609381|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.3% based on prior studies indicating an HbA1c difference of 0.6% in patients treated with lispro and sulfonylurea compared with those treated with sulfonylurea and metformin.|Mean Difference (Net)|0.17||||0.097||95.0|-0.03|0.37|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c Stratum + Sulfonylurea stratum + Country + Baseline HbA1c Stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for (Insulin Lispro Mid Mixture minus Insulin Glargine).|Assuming 15% drop-out rate after randomization, remaining 213 patients in each treatment group would allow confirmation of noninferiority with no treatment difference and a noninferiority limit of 0.3% using upper limit of 2-sided confidence interval at significance level of 0.05 with 80% power.||0.37|-0.03|0.097
82648520|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|225.57|STANDARD_ERROR_OF_MEAN|108.95||0.0466|TWO_SIDED|95.0|3.6|447.5|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||447.5|3.6|0.0466
82648521|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|114.77|STANDARD_ERROR_OF_MEAN|93.2637||0.2274|TWO_SIDED|95.0|-75.2|304.8|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||304.8|-75.2|0.2274
82430535|NCT01925768|164568680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.0||||0.012|TWO_SIDED|95.0|-21.5|10.2|||Sign test|p-value based on distribution free signed rank test||||10.2|-21.5|0.012
82430536|NCT01925768|164568681|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|19.7||||0.0016|TWO_SIDED|95.0|8.0|31.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline oral corticosteroids (prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights. The CI is based on a normal approximation.|||31.3|8.0|0.0016
82430537|NCT01925768|164568682|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15||||0.0229|TWO_SIDED|95.0|-0.279|-0.021|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||-0.021|-0.279|0.0229
82430538|NCT01925768|164568683|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.35|||Mixed Models Analysis||The LS mean (SE) and 2-sided p-value were based on a MMRM analysis for change from baseline, with treatment group, time, treatment-by-time interaction, and previous DMARD and baseline corticosteroids used as factors and baseline value as a covariate|||-0.35|-1.00|<0.0001
82430539|NCT01925768|164568684|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.46||||0.0039|TWO_SIDED|95.0|1.13|5.8|||Mixed Models Analysis||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|||5.80|1.13|0.0039
82430540|NCT01925768|164568685|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann|10.0||||0.0168|TWO_SIDED|95.0|0.0|20.0|||Stratified Van Elteren test|p-value based on stratified Van Elteren test, using 2 stratification factors: previous DMARD use and baseline Oral Corticosteroids|Location shift and 95% CI based on Hodges-Lehmann for between treatment median estimates.|||20.0|0.0|0.0168
82430541|NCT01925768|164568686|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|20.7||||0.0015|TWO_SIDED|95.0|8.5|32.8||2 sided-p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by the 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|||32.8|8.5|0.0015
82430542|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.7||||0.0252|TWO_SIDED|95.0|1.6|17.7||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 2; 2-sided 95% CI is based on a normal approximation to the weighted average||17.7|1.6|0.0252
82430543|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|8.6||||0.1121|TWO_SIDED|95.0|-1.7|18.9||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 4; 2-sided 95% CI is based on a normal approximation to the weighted average||18.9|-1.7|0.1121
82430544|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|17.8||||0.0036|TWO_SIDED|95.0|6.2|29.3||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 6; 2-sided 95% CI is based on a normal approximation to the weighted average||29.3|6.2|0.0036
82430545|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|12.7||||0.0392|TWO_SIDED|95.0|0.8|24.6||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 8; 2-sided 95% CI is based on a normal approximation to the weighted average||24.6|0.8|0.0392
82536846|NCT00662909|164773056|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61||||0.001|TWO_SIDED|95.0|-0.98|-0.24||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.24|-0.98|0.001
82586180|NCT02245672|164884217|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||MGR001 (Test) vs Placebo||||<0.0001
82430546|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|11.0||||0.0884|TWO_SIDED|95.0|-1.3|23.2||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 12; 2-sided 95% CI is based on a normal approximation to the weighted average||23.2|-1.3|0.0884
82430547|NCT01925768|164568687|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.6||||0.004|TWO_SIDED|95.0|6.5|30.7||Two-sided p-value is based on the Cochran-Mantel-Haenszel test adjusting for previous DMARD use and baseline Oral Corticosteroids (Prednisone or equivalent) use.|Cochran-Mantel-Haenszel||Adjusted difference in proportions is the weighted average of the treatment differences across 4 strata by 2 stratification factors: previous DMARD use and baseline Corticosteroids use using CMH weights|Week 20; 2-sided 95% CI is based on a normal approximation to the weighted average||30.7|6.5|0.0040
82430548|NCT04970069|164568818|SUPERIORITY||Ratio of geometric means|1.01||||0.89|TWO_SIDED|95.0|0.86|1.18|||Regression, Linear||The numerator and denominator for the ratio of geometric means are analgesic education and general preoperative education respectively.|Multiple imputation by chained equations (MICE) was used for imputing missing outcomes and covariates.||1.18|0.86|0.890
82430549|NCT04970069|164568819|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.617|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.617
82430550|NCT04970069|164568820|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.611|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.611
82536847|NCT00662909|164773056|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-1.07|-0.33||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.33|-1.07|<0.001
82577296|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.156||0.1182|TWO_SIDED|95.0|-0.56|0.06|||MMRM|||Somatic Symptoms GI, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.56|0.1182
82430551|NCT01072136|164568838|NON_INFERIORITY_OR_EQUIVALENCE|Under the assumption of a clinical cure proportion of 75% for the Azithromycin/Cefixime group, a 10% non-inferiority margin (i.e., no more than a 10% lower cure rate in the placebo group) at the one-sided 0.05 significance level with 85% power required 270 study participants in each arm (540 total) using an unpooled Z-test (normal approximation). Anticipating that approximately 30% of enrolled participants would not be in the per protocol group, 772 participants were targeted for enrollment.|Risk Difference (RD)|14.0|||||ONE_SIDED|95.0|-12.2||||||Asymptotic one-sided 95% confidence limit for the difference in clinical cure proportions(placebo minus treatment) were computed so that the lower limit could be examined relative to the non-inferiority margin of -10%.|The primary efficacy outcome was MPC clinical cure at 2 months. This was a non-inferiority trial designed to reject the null hypothesis that placebo control is inferior to empiric therapy for MPC.|||-12.2|
82430552|NCT03192137|164568846|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was two-sided and performed using a significance (alpha) level of 0.05.||||||0.0005||||||P-values were from a Chi-Square test (with continuity correction) of differences between treatments in the proportion of participants with anterior chamber cells Grade 0 who did not receive rescue medication versus all other grades combined.|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||||||0.0005
82430553|NCT03192137|164568847|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.217|||<|0.0001|TWO_SIDED|95.0|1.823|5.675||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 1||5.675|1.823|<0.0001
82430554|NCT03192137|164568847|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|4.337|||<|0.0001|TWO_SIDED|95.0|2.305|8.161||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 8||8.161|2.305|<0.0001
82430555|NCT03192137|164568847|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.113|8.033||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 15||8.033|2.113|<0.0001
82451478|NCT00377858|164609382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.047||95.0|0.0|0.33||P-value for 12 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.33|0.00|0.047
82451479|NCT00377858|164609382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.043||95.0|0.01|0.35||P-value for 24 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.35|0.01|0.043
82451480|NCT00377858|164609382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.343||95.0|-0.1|0.29||P-value for 36 Week Interval.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.10|0.343
82451481|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.432||95.0||||P-value for Week 12: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.432
82451482|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.602||95.0||||P-value for 12 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.602
82648522|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|224.89|STANDARD_ERROR_OF_MEAN|96.9259||0.0269|TWO_SIDED|95.0|27.5|422.3|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||422.3|27.5|0.0269
82430556|NCT03192137|164568847|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|2.58||||0.0043|TWO_SIDED|95.0|1.38|4.822||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 18||4.822|1.380|0.0043
82451483|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||P-value for 12 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.370
82430557|NCT03192137|164568847|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoints were two-sided and performed using a significance (alpha) level of 0.05.|Odds Ratio (OR)|3.277||||0.0005|TWO_SIDED|95.0|1.695|6.335||P-values were from a Chi-Square test (with continuity correction).|Chi-squared, Corrected|A Fisher's exact test was used if 1 or more of the cells had an expected frequency of ≤ 5.||Statistical analysis of proportion of participants who achieved a pain score of 0 on the VAS on Day 29||6.335|1.695|0.0005
82430558|NCT02737501|164568865|SUPERIORITY||Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.35|0.66||P-values are from a log-rank test stratified by randomization stratification factors (current; presence of intracranial central nervous system (iCNS) metastases at baseline and prior chemotherapy for locally advanced or metastatic disease).|Log Rank||The hazard ratio was obtained using a Cox proportional hazards model with randomization stratification factors (current) as covariates.|||0.66|0.35|<0.0001
82648523|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|133.22|STANDARD_ERROR_OF_MEAN|96.7383||0.178|TWO_SIDED|95.0|-63.8|330.3|||ANCOVA|||Sitting DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||330.3|-63.8|0.1780
82430559|NCT02737501|164568866|SUPERIORITY||Odds Ratio (OR)|1.74||||0.033|TWO_SIDED|95.0|1.04|2.91|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of intracranial central nervous system (iCNS) metastases at Baseline, and prior chemotherapy for locally advanced or metastatic disease (current strata).|||2.91|1.04|0.0330
82430560|NCT02737501|164568867|SUPERIORITY||Odds Ratio (OR)|13.56|||<|0.0001|TWO_SIDED|95.0|4.7|39.11|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of prior chemotherapy for Locally advanced or metastatic disease at study entry (current strata).|||39.11|4.70|<0.0001
82430561|NCT02737501|164568868|SUPERIORITY||Hazard Ratio (HR)|0.293|||<|0.0001|TWO_SIDED|95.0|0.17|0.51||P-values are from a log-rank test stratified by randomization stratification factors (current; presence of iCNS metastases at baseline and prior chemotherapy for locally advanced or metastatic disease).|Log Rank||The hazard ratio was obtained using a Cox proportional hazards model with prior chemotherapy for locally advanced or metastatic disease (current strata) as covariate.|||0.51|0.17|<0.0001
82430562|NCT02737501|164568872|SUPERIORITY||Odds Ratio (OR)|0.93||||0.822|TWO_SIDED|95.0|0.47|1.82|||Cochran-Mantel-Haenszel||Odds ratios and p-values were from a Cochran-Mantel-Haenszel test stratified by presence of iCNS metastases at Baseline, and prior chemotherapy for locally advanced or metastatic disease (current strata).|||1.82|0.47|0.8220
82430563|NCT02737501|164568874|SUPERIORITY||Least Square Mean Difference|5.79||||0.0295|TWO_SIDED|95.0|0.58|11.0||p-values were obtained using mixed effects models stratified by presence of iCNS metastases at study entry, prior chemotherapy at Baseline.|Mixed Models Analysis|A mixed effect model is used with an unstructured covariance matrix.||||11.00|0.58|0.0295
82430564|NCT00405288|164568882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|STANDARD_DEVIATION|450.0||0.17|TWO_SIDED|95.0|0.0|200.0|||t-test, 2 sided|||"Null hypothesis: Birth weight in pregnancies exposed to Proctofoam-HC will be the same as control pregnancies.~To detect a clinically significant decrease of 200 g in birth weight at a power of 80% and alpha of 5%, 200 women per group were required. Post hoc power analysis of our cohort revealed that, in fact, we had a 91.5% power to detect a 200 g difference in birth weight between the two groups."||200|0|0.17
82430565|NCT00405288|164568883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|3.0||0.16|TWO_SIDED|95.0|0.0|3.0|||Wilcoxon (Mann-Whitney)|||||3|0|0.16
82451484|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||P-value for 24 Week: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.198
82430566|NCT00405288|164568884|SUPERIORITY_OR_OTHER||chi square|30.0||||0.003||95.0|||||McNemar|||The null hypothesis is that the proportion of vaginal deliveries in the Proctofoam and Control groups will be the same (ie. there will not be a greater proportion of complicated deliveries in either group).||||0.003
82430567|NCT00405288|164568885|SUPERIORITY_OR_OTHER||chi square|5.0||||0.55||95.0|||||McNemar|||The null hypothesis is that the proportion of pre-term births in the Proctofoam and Control groups will be the same.||||0.55
82430568|NCT00405288|164568886|SUPERIORITY_OR_OTHER||chi square|10.0||||0.97||95.0|||||McNemar|||Fetal Distress The null hypothesis is that the proportion of fetal distress in the Proctofoam and Control groups will be the same.||||0.97
82430569|NCT00405288|164568887|SUPERIORITY_OR_OTHER||binary|3.0||||0.31||95.0|||||McNemar|||Low birth weight \<2,500g; The null hypothesis is that the proportion of low birth weight babies in the Proctofoam and Control groups will be the same.||||0.31
82430570|NCT00405288|164568888|SUPERIORITY_OR_OTHER||chi square|10.0||||0.87||95.0|||||McNemar|||The null hypothesis is that the proportion of healthy babies (not requiring NICU (neonatal intensive care unit) or additional medical monitoring) will be the same between the Proctofoam and Control groups.||||0.87
82430571|NCT00405288|164568889|SUPERIORITY_OR_OTHER||proportion|4.0||||0.99||95.0|||||Fisher Exact|||||||0.99
82430572|NCT00405288|164568890|SUPERIORITY_OR_OTHER||proportion|3.0||||0.99||95.0|||||Fisher Exact|||||||0.99
82430573|NCT00405288|164568891|SUPERIORITY_OR_OTHER||proportion|2.0||||0.99||95.0|||||Fisher Exact|||||||0.99
82430574|NCT00405288|164568892|SUPERIORITY_OR_OTHER||proportions|2.0||||0.35||95.0|||||Fisher Exact|||||||0.35
82430575|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.029|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at Cycle 5.||||=0.029
82430576|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.027|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at Cycle 11.||||=0.027
82430577|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.602|TWO_SIDED||||||t-test, 2 sided|||CFB in GHS/QoL statistical analysis at end of FU.||||=0.602
82430578|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.631|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at Cycle 5.||||=0.631
82430579|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.339|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at Cycle 11.||||=0.339
82430580|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.44|TWO_SIDED||||||t-test, 2 sided|||CFB in physical functioning statistical analysis at end of FU.||||=0.440
82430581|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at Cycle 5.||||=1.000
82430582|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.465|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at Cycle 11.||||=0.465
82451485|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-value for 24 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.636
82577297|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.159||0.0008|TWO_SIDED|95.0|-0.87|-0.24|||MMRM|||Somatic Symptoms GI, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.24|-0.87|0.0008
82577298|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.154||0.1379|TWO_SIDED|95.0|-0.54|0.08|||MMRM|||Somatic Symptoms GI, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.54|0.1379
82430583|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.431|TWO_SIDED||||||t-test, 2 sided|||CFB in role functioning statistical analysis at end of FU.||||=0.431
82430584|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.65|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at Cycle 5.||||=0.650
82430585|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.98|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at Cycle 11.||||=0.980
82430586|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.906|TWO_SIDED||||||t-test, 2 sided|||CFB in emotional functioning statistical analysis at end of FU.||||=0.906
82430587|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.381|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at Cycle 5.||||=0.381
82430588|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.886|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at Cycle 11.||||=0.886
82451486|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value for 24 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.185
82451487|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value for 36 Week: HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.393
82451488|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.739||95.0||||P-value for 36 Week: HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.739
82451489|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||P-value for 36 Week: HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.396
82430589|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.264|TWO_SIDED||||||t-test, 2 sided|||CFB in cognitive functioning statistical analysis at end of FU.||||=0.264
82430590|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.424|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at Cycle 5.||||=0.424
82430591|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at Cycle 11.||||=1.000
82430592|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.312|TWO_SIDED||||||t-test, 2 sided|||CFB in social functioning statistical analysis at end of FU.||||=0.312
82430593|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.664|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue statistical analysis at Cycle 5.||||=0.664
82430594|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.17|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue functioning statistical analysis at Cycle 11.||||=0.170
82430595|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.318|TWO_SIDED||||||t-test, 2 sided|||CFB in fatigue statistical analysis at end of FU.||||=0.318
82430596|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.536|TWO_SIDED||||||t-test, 2 sided|||CFB in Nausea/vomiting statistical analysis at Cycle 5.||||=0.536
82430597|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.9|TWO_SIDED||||||t-test, 2 sided|||CFB in nausea/vomiting statistical analysis at Cycle 11.||||=0.900
82430598|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.188|TWO_SIDED||||||t-test, 2 sided|||CFB in nausea/vomiting statistical analysis at end of FU.||||=0.188
82430599|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.37|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at Cycle 5.||||=0.370
82430600|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|0.813|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at Cycle 11.||||=0.813
82430601|NCT00532129|164568933|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||t-test, 2 sided|||CFB in pain statistical analysis at end of FU.||||=1.000
82430602|NCT04551898|164568934|SUPERIORITY||Least square Mean|-0.25||||0.4829|TWO_SIDED|90.0|-0.84|0.34|||Mixed Models Analysis|||||0.34|-0.84|0.4829
82430603|NCT04551898|164568934|SUPERIORITY||Least square Mean|-0.51||||0.1739|TWO_SIDED|90.0|-1.13|0.11|||Mixed Models Analysis|||||0.11|-1.13|0.1739
82430604|NCT04551898|164568934|SUPERIORITY||Least square Mean|0.19||||0.6006|TWO_SIDED|90.0|-0.4|0.77|||Mixed Models Analysis|||||0.77|-0.40|0.6006
82430605|NCT04551898|164568934|SUPERIORITY|||||||0.4996||||||H0: there is a flat dose response curve comparing change from baseline to Day 8 in viral load in the Placebo and other BGB-DXP593 dose groups|t-test, 1 sided|MCP Mod was used to test the primary hypothesis and provide 1-sided p-value accordingly.||||||0.4996
82430606|NCT04263766|164568967|EQUIVALENCE|We tested whether TMS delivered to DLPFC had a difference effect on confidence compared to delivered to Vertex.|||||<|0.001|||||||t-test, 2 sided|||Our null hypothesis is TMS to DLPFC would not lead to a significant change in confidence across all 4 delay conditions compared to TMS to the vertex.||||<.001
82430607|NCT04263766|164568967|EQUIVALENCE|We tested whether TMS to DLPFC leads to equivalent increase in confidence for four delay conditions.||||||0.99|||||||ANOVA|||||||0.99
82451490|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.227||95.0||||P-value for Endpoint (LOCF): HbA1c ≤7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.227
82451491|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||P-value for Endpoint (LOCF): HbA1c \<7.0%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.482
82536848|NCT00662909|164773057|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.1||||0.001|TWO_SIDED|95.0|4.4|17.9||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.9|4.4|0.001
82577299|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.145||0.004|TWO_SIDED|95.0|-0.71|-0.14|||MMRM|||Somatic Symptoms GI, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-0.71|0.0040
82648524|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|240.64|STANDARD_ERROR_OF_MEAN|114.32||0.0413|TWO_SIDED|95.0|9.9|471.4|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||471.4|9.9|0.0413
82430608|NCT04263766|164568967|EQUIVALENCE|We tested whether TMS delivered to Vertex leads to a same effect on confidence regardless of the delay conditions.||||||0.83|||||||ANOVA|||||||0.83
82430609|NCT04263766|164568968|EQUIVALENCE|We used a two-way ANOVA to test whether TMS affected Mratio differently for DLPFC and Vertex and across different delay conditions.|||||>|0.19|||||||ANOVA|||Our null hypothesis is TMS to DLPFC would not lead to a significant change in Mratio across all 4 delay conditions compared to TMS to the vertex.||||>0.19
82430610|NCT01891396|164568973|SUPERIORITY|||||||0.0099|||||||ANOVA|||||||0.0099
82430611|NCT01891396|164568974|SUPERIORITY|||||||0.0367|||||||ANOVA|||||||0.0367
82430612|NCT01891396|164568975|SUPERIORITY|||||||0.0289|||||||ANOVA|||||||0.0289
82430613|NCT01891396|164568976|SUPERIORITY|||||||0.0141|||||||ANOVA|||||||0.0141
82451492|NCT00377858|164609383|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-value for Endpoint (LOCF): HbA1c ≤6.5%.|Regression, Logistic|Logistic Regression Model: Variable=Treatment + Baseline HbA1c + Country + Sulfonylurea Stratum.||||||0.108
82577300|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.14||0.31|TWO_SIDED|95.0|-0.42|0.14|||MMRM|||Somatic Symptoms GI, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.42|0.3100
82648525|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|157.99|STANDARD_ERROR_OF_MEAN|102.21||0.1297|TWO_SIDED|95.0|-48.3|364.3|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||364.3|-48.3|0.1297
82430614|NCT01891396|164568977|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
82430615|NCT01891396|164568978|SUPERIORITY|||||||0.0533|||||||ANOVA|||||||0.0533
82430616|NCT01891396|164568979|SUPERIORITY|||||||0.0323|||||||ANOVA|||||||0.0323
82430617|NCT01891396|164568980|SUPERIORITY|||||||0.0072|||||||ANOVA|||||||0.0072
82430618|NCT01891396|164568981|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.0030
82430619|NCT01891396|164568982|SUPERIORITY|||||||0.044|||||||ANOVA|||||||0.0440
82430620|NCT01891396|164568983|SUPERIORITY|||||||0.0579|||||||ANOVA|||||||0.0579
82430621|NCT01891396|164568984|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82430622|NCT01891396|164568985|SUPERIORITY|||||||0.0046|||||||ANOVA|||||||0.0046
82430623|NCT01891396|164568986|SUPERIORITY|||||||0.0029|||||||ANOVA|||||||0.0029
82430624|NCT01891396|164568987|SUPERIORITY|||||||0.0087|||||||ANOVA|||||||0.0087
82430625|NCT01891396|164568988|SUPERIORITY|||||||0.0154|||||||ANOVA|||||||0.0154
82430626|NCT01891396|164568989|SUPERIORITY|||||||0.0227|||||||ANOVA|||||||0.0227
82430627|NCT01891396|164568990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||ANOVA|||||||0.0002
82430628|NCT01891396|164568991|SUPERIORITY|||||||0.0148|||||||ANOVA|||||||0.0148
82430629|NCT01891396|164568992|SUPERIORITY|||||||0.0113|||||||ANOVA|||||||0.0113
82430630|NCT01891396|164568993|SUPERIORITY|||||||0.0016|||||||ANOVA|||||||0.0016
82430631|NCT01891396|164568994|SUPERIORITY|||||||0.0056|||||||ANOVA|||||||0.0056
82430632|NCT01891396|164568995|SUPERIORITY|||||||0.0095|||||||ANOVA|||||||0.0095
82430633|NCT01891396|164568996|SUPERIORITY|||||||0.0136|||||||ANOVA|||||||0.0136
82430634|NCT01891396|164568997|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82430635|NCT01891396|164568998|SUPERIORITY|||||||0.0059|||||||ANOVA|||||||0.0059
82430636|NCT02820844|164569023|OTHER||Mean Difference (Net)|-2.16|||<|0.001|TWO_SIDED|95.0|-3.14|-1.18||Analysis was performed using mixed-model for repeated measures (MMRM) with treatment, site, visit, treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|MMRM||Mean difference (Net) at Week 12 has been presented.|||-1.18|-3.14|<0.001
82430637|NCT02820844|164569024|OTHER||Mean Difference (Net)|29.69|||<|0.001|TWO_SIDED|95.0|18.47|40.91||Analysis performed using MMRM, with treatment, site, visit, Baseline urinary urgency incontinence (UUI) episodes over 3 day diary (\<=9 or \>=10), treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|MMRM||Mean difference (Net) at Week 12 has been presented.|||40.91|18.47|<0.001
82430638|NCT02820844|164569079|OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6||P-value is from log-rank test stratified by Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10).|Log Rank||Hazard ratio and 95% Confidence Interval (CI) are estimated using the Cox proportional hazard model with treatment and Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10) as fixed effect.|||0.60|0.34|<0.001
82451493|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.014||95.0|0.12|1.04||P-value for Baseline: Morning Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.04|0.12|0.014
82536849|NCT00662909|164773057|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.0||||0.002|TWO_SIDED|95.0|4.2|17.7||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||17.7|4.2|0.002
82430639|NCT02820844|164569080|OTHER||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.38|0.66||P-value is from log-rank test stratified by Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10)|Log Rank||Hazard ratio and 95% CI are estimated using the Cox proportional hazard model with treatment and Baseline urinary urgency incontinence episodes over 3 day diary (\<=9 versus \>=10) as fixed effect.|||0.66|0.38|<0.001
82430640|NCT02266147|164569142|OTHER|MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.||||||||||||||||MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.|MTD was not observed because no DLTs occurred at the maximum dose tested. Because this is a safety endpoint, a statistical analysis was not conducted.|||
82536850|NCT00662909|164773058|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48||||0.003|TWO_SIDED|95.0|-0.8|-0.15||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.15|-0.80|0.003
82430641|NCT01896687|164569180|SUPERIORITY_OR_OTHER||||||<|0.001||||||"The worst pain and interference scores as dependent variables, and time (baseline, 1-, and 3 week follow up visit), group (Calmare or Sham), and group by time interaction terms as the independent variable."|ANOVA|||||||<0.001
82430642|NCT03896477|164569181|OTHER||GMC Ratio|2.91|||||TWO_SIDED|95.0|2.47|3.44||||||Serotype 1 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||3.44|2.47|
82430643|NCT03896477|164569181|OTHER||GMC Ratio|1.44|||||TWO_SIDED|95.0|1.23|1.69||||||Serotype 1 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.69|1.23|
82536851|NCT00662909|164773058|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.79|-0.13||The response variable for the stratified rank ANCOVA was standardized ranks on change from baseline to Final Visit value with baseline standardized ranks and gender as covariates and geographic region as a stratum.|Stratified rank ANCOVA|LS mean difference was derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. A stratified rank ANCOVA model was utilized for hypothesis testing.||-0.13|-0.79|<0.001
82536852|NCT00662909|164773059|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42||||0.022|TWO_SIDED|95.0|-0.77|-0.06||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.06|-0.77|0.022
82648526|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|254.9|STANDARD_ERROR_OF_MEAN|104.0||0.0185|TWO_SIDED|95.0|45.0|464.8|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||464.8|45.0|0.0185
82430644|NCT03896477|164569181|OTHER||GMC Ratio|1.93|||||TWO_SIDED|95.0|1.66|2.25||||||Serotype 5 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.25|1.66|
82430645|NCT03896477|164569181|OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.88||||||Serotype 5 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.88|0.65|
82430646|NCT03896477|164569181|OTHER||GMC Ratio|16.03|||||TWO_SIDED|95.0|12.84|20.03||||||Serotype 6A geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||20.03|12.84|
82430647|NCT03896477|164569181|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.72|1.06||||||Serotype 6A geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.06|0.72|
82430648|NCT03896477|164569181|OTHER||GMC Ratio|2.51|||||TWO_SIDED|95.0|2.14|2.95||||||Serotype 6B geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.95|2.14|
82430649|NCT03896477|164569181|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.68|0.95||||||Serotype 6B geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.95|0.68|
82648527|NCT00272961|165012747|SUPERIORITY_OR_OTHER||LS Mean Difference|157.66|STANDARD_ERROR_OF_MEAN|104.33||0.1382|TWO_SIDED|95.0|-52.9|368.2|||ANCOVA|||Standing DBP: p-value was obtained using an ANCOVA model on AUEC calculated over treatment and follow-up phases with baseline value as a covariate.||368.2|-52.9|0.1382
82430650|NCT03896477|164569181|OTHER||GMC Ratio|2.11|||||TWO_SIDED|95.0|1.83|2.44||||||Serotype 7F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.44|1.83|
82430651|NCT03896477|164569181|OTHER||GMC Ratio|1.05|||||TWO_SIDED|95.0|0.91|1.22||||||Serotype 7F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.22|0.91|
82430652|NCT03896477|164569181|OTHER||GMC Ratio|1.41|||||TWO_SIDED|95.0|1.21|1.65||||||Serotype 9V geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.65|1.21|
82430653|NCT03896477|164569181|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.76|1.05||||||Serotype 9V geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.05|0.76|
82430654|NCT03896477|164569181|OTHER||GMC Ratio|1.65|||||TWO_SIDED|95.0|1.29|2.1||||||Serotype 14 geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.10|1.29|
82648528|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|3.0||0.7758|TWO_SIDED|95.0|-5.31|7.03|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||7.03|-5.31|0.7758
82430655|NCT03896477|164569181|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.73|1.12||||||Serotype 14 geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.12|0.73|
82451494|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.735||95.0|-0.51|0.72||P-value for Baseline: Morning Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.72|-0.51|0.735
82451495|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.051||95.0|0.0|1.08||P-value for Baseline: Midday Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.08|-0.00|0.051
82577301|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.148||0.0003|TWO_SIDED|95.0|-0.85|-0.26|||MMRM|||Somatic Symptoms GI, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.26|-0.85|0.0003
82648529|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|2.45||0.888|TWO_SIDED|95.0|-5.4|4.71|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||4.71|-5.40|0.8880
82430656|NCT03896477|164569181|OTHER||GMC Ratio|3.69|||||TWO_SIDED|95.0|2.91|4.67||||||Serotype 19A geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||4.67|2.91|
82430657|NCT03896477|164569181|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.6|0.87||||||Serotype 19A geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.87|0.60|
82430658|NCT03896477|164569181|OTHER||GMC Ratio|0.64|||||TWO_SIDED|95.0|0.52|0.79||||||Serotype 19F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.79|0.52|
82430659|NCT03896477|164569181|OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.62|0.89||||||Serotype 19F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||0.89|0.62|
82430660|NCT03896477|164569181|OTHER||GMC Ratio|2.29|||||TWO_SIDED|95.0|1.89|2.76||||||Serotype 23F geometric mean concentration ratio (Pneumosil / Synflorix) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||2.76|1.89|
82430661|NCT03896477|164569181|OTHER||GMC Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.22||||||Serotype 23F geometric mean concentration ratio (Pneumosil / Prevenar 13) and 95% confidence interval (CI). Differences between groups were considered statistically significant if the 95% CI excludes 1.||1.22|0.82|
82430662|NCT00589797|164569202|NON_INFERIORITY|The trial was designed as a non-inferiority trial with a margin (delta) of 15%. Additional analyses using a delta of 10% as requested by FDA were also conducted.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 1 sided|||||||<0.05
82430663|NCT02379052|164569265|SUPERIORITY||Least Squares (LS) Mean Difference|-1.7||||0.0304|TWO_SIDED|95.0|-3.22|-0.16|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-0.16|-3.22|0.0304
82451496|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.536||95.0|-0.39|0.75||P-value for Baseline: Midday Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.75|-0.39|0.536
82577302|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.143||0.0223|TWO_SIDED|95.0|-0.61|-0.05|||MMRM|||Somatic Symptoms GI, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.61|0.0223
82577303|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.166||0.0276|TWO_SIDED|95.0|-0.7|-0.04|||MMRM|||Somatic Symptoms GI, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.04|-0.70|0.0276
82577304|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.161||0.8516|TWO_SIDED|95.0|-0.35|0.29|||MMRM|||Somatic Symptoms GI, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.35|0.8516
82577305|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.186||0.1669|TWO_SIDED|95.0|-0.63|0.11|||MMRM|||Somatic Symptoms GI, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.63|0.1669
82577306|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.18||0.4935|TWO_SIDED|95.0|-0.48|0.23|||MMRM|||Somatic Symptoms GI, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.48|0.4935
82577307|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.197||0.0202|TWO_SIDED|95.0|-0.86|-0.07|||MMRM|||Somatic Symptoms GI, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.07|-0.86|0.0202
82577308|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.188||0.2683|TWO_SIDED|95.0|-0.58|0.16|||MMRM|||Somatic Symptoms GI, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.58|0.2683
82430664|NCT02379052|164569266|SUPERIORITY||Least Squares Mean Difference|-26.45||||0.0312|TWO_SIDED|95.0|-50.523|-2.387|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-2.387|-50.523|0.0312
82451497|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.793||95.0|-0.48|0.62||P-value for Baseline: Evening Pre-Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.62|-0.48|0.793
82451498|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.693||95.0|-0.43|0.64||P-value for Baseline: Evening Postprandial Meal.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.64|-0.43|0.693
82577309|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.165||0.0531|TWO_SIDED|95.0|-0.65|0.0|||MMRM|||Somatic Symptoms GI, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.00|-0.65|0.0531
82577310|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.5609|TWO_SIDED|95.0|-0.41|0.22|||MMRM|||Somatic Symptoms GI, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.41|0.5609
82577311|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.123||0.6779|TWO_SIDED|95.0|-0.3|0.19|||MMRM|||Somatic Symptoms General, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.30|0.6779
82430665|NCT02379052|164569267|SUPERIORITY||Least Squares Mean Difference|-0.8||||0.383|TWO_SIDED|95.0|-2.48|0.96|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||0.96|-2.48|0.3830
82430666|NCT02379052|164569268|SUPERIORITY||Least Squares Mean Difference|-11.0||||0.4147|TWO_SIDED|95.0|-37.46|15.467|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||15.467|-37.460|0.4147
82430667|NCT02379052|164569269|SUPERIORITY||Percent Difference|26.6||||0.049|TWO_SIDED|95.0|-3.04|51.05|||Clopper-Pearson Exact||Difference is Dupilumab minus Placebo. CI = Confidence interval calculated using Clopper-Pearson Exact method|||51.05|-3.04|0.0490
82430668|NCT02379052|164569270|SUPERIORITY||Percent Difference|26.6||||0.049|TWO_SIDED|95.0|-3.04|51.05|||Clopper-Pearson Exact||Difference is Dupilumab minus Placebo. CI = Confidence interval calculated using Clopper-Pearson Exact method|||51.05|-3.04|0.0490
82430669|NCT02379052|164569271|SUPERIORITY||Least Squares Mean Difference|-23.23||||0.085|TWO_SIDED|95.0|-49.677|3.212|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||3.212|-49.677|0.0850
82430670|NCT02379052|164569272|SUPERIORITY||Least Squares Mean Difference|-13.9||||0.0635|TWO_SIDED|95.0|-28.54|0.78|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||0.78|-28.54|0.0635
82451499|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.499||95.0|-0.38|0.77||P-value for Baseline: 0300 Hours.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.77|-0.38|0.499
82451500|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59|||<|0.001||95.0|0.26|0.92||P-value for 12 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.92|0.26|<0.001
82451501|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28||||0.278||95.0|-0.22|0.78||P-value for 12 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.78|-0.22|0.278
82577312|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.119||0.4559|TWO_SIDED|95.0|-0.15|0.32|||MMRM|||Somatic Symptoms General, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.15|0.4559
82430671|NCT02379052|164569273|SUPERIORITY||Least Squares Mean Difference|-33.65||||0.0608|TWO_SIDED|95.0|-68.828|1.536|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||1.536|-68.828|0.0608
82451502|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.53||||0.009||95.0|0.14|0.93||P-value for 12 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.93|0.14|0.009
82451503|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.049||95.0|0.0|0.97||P-value for 12 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.97|0.00|0.049
82586181|NCT02245672|164884217|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established.For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||Advair Diskus (Reference) vs Placebo||||<0.0001
82430672|NCT02379052|164569274|SUPERIORITY||Least Squares Mean Difference|-21.1||||0.0318|TWO_SIDED|95.0|-40.42|-1.86|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-1.86|-40.42|0.0318
82430673|NCT02379052|164569275|SUPERIORITY||Percent Difference|17.8||||0.1365|TWO_SIDED|95.0|-11.54|43.55||P-values were derived by Fisher exact test|Clopper-Pearson Exact|CI = Confidence interval calculated using Exact method|Difference is Dupilumab minus Placebo|||43.55|-11.54|0.1365
82430674|NCT02379052|164569276|SUPERIORITY||Percent Difference|35.0||||0.0044|TWO_SIDED|95.0|5.69|58.34||P-values were derived by Fisher exact test|Clopper-Pearson Exact|CI = Confidence interval calculated using Exact method|Difference is Dupilumab minus Placebo|||58.34|5.69|0.0044
82577313|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.133||0.2254|TWO_SIDED|95.0|-0.43|0.1|||MMRM|||Somatic Symptoms General, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.43|0.2254
82577314|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.129||0.6437|TWO_SIDED|95.0|-0.32|0.2|||MMRM|||Somatic Symptoms General, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.32|0.6437
82577315|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.133||0.6678|TWO_SIDED|95.0|-0.32|0.21|||MMRM|||Somatic Symptoms General, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.32|0.6678
82577316|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.129||0.9321|TWO_SIDED|95.0|-0.27|0.24|||MMRM|||Somatic Symptoms General, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.27|0.9321
82577317|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.157||0.9778|TWO_SIDED|95.0|-0.31|0.32|||MMRM|||Somatic Symptoms General, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.31|0.9778
82577318|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.152||0.9307|TWO_SIDED|95.0|-0.29|0.31|||MMRM|||Somatic Symptoms General, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.29|0.9307
82577319|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.172||0.6791|TWO_SIDED|95.0|-0.41|0.27|||MMRM|||Somatic Symptoms General, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.27|-0.41|0.6791
82577320|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.167||0.7769|TWO_SIDED|95.0|-0.28|0.38|||MMRM|||Somatic Symptoms General, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.38|-0.28|0.7769
82577321|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.163||0.7206|TWO_SIDED|95.0|-0.38|0.26|||MMRM|||Somatic Symptoms General, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.38|0.7206
82648530|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|1.86|STANDARD_ERROR_OF_MEAN|2.46||0.4573|TWO_SIDED|95.0|-3.21|6.93|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||6.93|-3.21|0.4573
82648531|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|2.17|STANDARD_ERROR_OF_MEAN|2.78||0.4424|TWO_SIDED|95.0|-3.56|7.91|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||7.91|-3.56|0.4424
82577322|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.156||0.3549|TWO_SIDED|95.0|-0.45|0.16|||MMRM|||Somatic Symptoms General, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.45|0.3549
82577323|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.164||0.0231|TWO_SIDED|95.0|-0.7|-0.05|||MMRM|||Somatic Symptoms General, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.05|-0.70|0.0231
82430675|NCT02379052|164569277|SUPERIORITY||Least Squares Mean Difference|-107.13|||<|0.0001|TWO_SIDED|95.0|-141.215|-73.046|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-73.046|-141.215|<0.0001
82648532|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|3.32||0.347|TWO_SIDED|95.0|-3.65|10.01|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||10.01|-3.65|0.3470
82430676|NCT02379052|164569278|SUPERIORITY||Least Square Mean Difference|-1.6||||0.0006|TWO_SIDED|95.0|-2.5|-0.68|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\])|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||-0.68|-2.50|0.0006
82430677|NCT02379052|164569279|SUPERIORITY||Least Squares Mean Difference|0.33||||0.091|TWO_SIDED|95.0|-0.053|0.72|||ANCOVA|A 2-step multiple imputation (MI) method addressed missing values (\[seeds = 12345 \& 54321 in the 2 steps respectively; number of imputations=50\]).|The confidence interval (CI) with p-value is based on treatment difference (dupilumab vs. placebo) of the LS mean using ANCOVA model with baseline measurement and baseline SDI score as covariates and the treatment as fixed factor.|||0.720|-0.053|0.0910
82430678|NCT02020590|164569339|OTHER||||||||TWO_SIDED|90.0||||||||"The success of ALLOB® treatment was based on the percentage of responders. A treated patient was considered as responding if, at the end of the study (6 months):~* He/she had not required rescue surgery and~* The GDE score as perceived by the patient had improved by at least 25% or the TUS (tomographic union score) as assessed by CT scan had increased by at least 2 points."|The response rate at Month 6 for the 21 patients in the PP population was 100 % (CI: 86.71 - 100.0%). None of the treated patients required rescue surgery. An improvement of GDE score of at least 25% was reported for 16 (76.2%) patients. An increase in TUS of at least 2 points was reported for 16 (76.2%) patients; all patients met at least one of these two criteria.|||
82430679|NCT00889707|164569348|SUPERIORITY_OR_OTHER|||||||0.04||||||Test of superiority computed using an ANCOVA model with terms for treatment group, baseline total IPSS, and baseline prostate volume. Tested for 2-sided 0.05 level of statistical significance.|ANCOVA|ANCOVA model with terms for treatment group, baseline total IPSS, and baseline prostate volume.||||||0.040
82430680|NCT00889707|164569349|SUPERIORITY_OR_OTHER|||||||0.047||||||ANCOVA model with terms for treatment group, baseline total IPSS, baseline prostate volume, and baseline Qmax.|ANCOVA|Model with terms for treatment group, baseline total IPSS, baseline prostate volume, and baseline Qmax.||||||0.047
82430681|NCT02041299|164569355|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 96.01% confidence interval (CI) is less than or equal to 2 mg/g dw.|Mean Difference (Net)|0.26||||0.0399|TWO_SIDED|96.01|-0.97|1.48|||ANCOVA|||||1.48|-0.97|0.0399
82430682|NCT02041299|164569356|NON_INFERIORITY|Support for non-inferiority is demonstrated if the 96.01% CI contains zero (0)|Mean Difference (Net)|-0.000295||||0.0399|TWO_SIDED|96.01|-0.054247|0.053657|||ANCOVA|||Data for this measure were log-transformed.||0.053657|-0.054247|0.0399
82577324|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.159||0.145|TWO_SIDED|95.0|-0.55|0.08|||MMRM|||Somatic Symptoms General, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.55|0.1450
82430683|NCT02041299|164569357|NON_INFERIORITY|Support for non-inferiority of deferiprone to deferoxamine in serum ferritin is demonstrated if the 96.01% CI contains zero (0)|Mean Difference (Net)|375.07||||0.0399|TWO_SIDED|96.01|-260.63|1010.76|||ANCOVA|||||1010.76|-260.63|0.0399
82430684|NCT02041299|164569358|SUPERIORITY|Comparison of treatment groups on change in score on SF-36 Physical Summary||||||0.9214|||||||ANCOVA|||||||0.9214
82430685|NCT02041299|164569358|SUPERIORITY|||||||0.1174|||||||ANCOVA|||Comparison of treatment groups on change in score on SF-36 Mental Summary||||0.1174
82430686|NCT02041299|164569358|SUPERIORITY|||||||0.6488|||||||ANCOVA|||Comparison of treatment groups on change in score on CHQ-PF50 Physical Summary||||0.6488
82430687|NCT02041299|164569358|SUPERIORITY|||||||0.5915|||||||ANCOVA|||Comparison of treatment groups on change in score on CHQ-PF50 Psychosocial Summary||||0.5915
82430688|NCT02389465|164569359|OTHER|||||||0.44|||||||t-test, 2 sided|||IL6 levels in healthy controls pre- and post-treatment compared using a paired t-test||||.44
82430689|NCT02389465|164569359|OTHER|||||||0.11|||||||t-test, 2 sided|||IL6 levels in the placebo group pre- and post-treatment compared using a paired t-test||||.11
82430690|NCT02389465|164569359|OTHER|||||||0.42|||||||t-test, 2 sided|||IL6 levels in the escitalopram group pre- and post-treatment compared using a paired t-test||||.42
82430691|NCT02389465|164569359|OTHER|||||||0.49|||||||t-test, 2 sided|||IL-6 levels in the escitalopram + celecoxib group pre- and post-treatment compared using a paired t-tes||||.49
82430692|NCT02389465|164569359|OTHER|||||||0.23|||||||t-test, 2 sided|||IL6 levels at completion of study compared between all MDD groups (placebo, escitalopram, and escitalopram + celecoxib) and the healthy control group||||.23
82430693|NCT02389465|164569360|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and escitalopram + celecoxib groups||||.003
82430694|NCT02389465|164569360|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and escitalopram groups||||<.001
82430695|NCT02389465|164569360|SUPERIORITY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||MADRS scores at the final visit compared between the healthy control and placebo groups||||.034
82430696|NCT02389465|164569360|SUPERIORITY|||||||0.03|||||||ANCOVA|||MADRS scores at the final visit compared between the placebo groups and all groups receiving escitalopram (both with and without celecoxib)||||.03
82430697|NCT02389465|164569361|OTHER|||||||0.29|||||||t-test, 2 sided|||IL10 levels in healthy controls pre- and post-treatment compared using a paired t-test||||.29
82430698|NCT02389465|164569361|OTHER|||||||0.19|||||||t-test, 2 sided|||IL10 levels in the placebo group pre- and post-treatment compared using a paired t-test||||.19
82451504|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|||<|0.001||95.0|0.35|1.18||P-value for 12 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.18|0.35|<0.001
82451505|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.17|||<|0.001||95.0|-1.63|-0.7||P-value for 12 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.70|-1.63|<0.001
82451506|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.506||95.0|-0.59|0.29||P-value for 12 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.59|0.506
82536853|NCT00662909|164773059|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.001|TWO_SIDED|95.0|-0.96|-0.24||LS mean difference and p-value were derived from an ANCOVA model with treatment group, gender, and geographic region as fixed factors and baseline as a covariate.|ANCOVA|||Since there were 2 coprimary efficacy endpoints and 3 key secondary efficacy endpoints, the multiplicity among the endpoints was controlled at a type I error rate at the alpha = 0.05 level using a stepwise parallel gatekeeping procedure (5 stages). In addition, since two mirabegron treatment groups were compared with placebo per endpoint, the Hochberg procedure was used to adjust for multiplicity. An ANCOVA model was used for hypothesis testing.||-0.24|-0.96|0.001
82536854|NCT02162446|164773111|OTHER|||||||0.016|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in total tissues between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.016
82536855|NCT02162446|164773111|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in total tissues between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
82536856|NCT02162446|164773111|OTHER|||||||0.012|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.012
82536857|NCT02162446|164773111|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
82536858|NCT02162446|164773111|OTHER|||||||0.5|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.500
82536859|NCT02162446|164773111|OTHER|||||||1|||||||Wilcoxon signed rank test|||Comparison of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||1.000
82536860|NCT02162446|164773113|OTHER|||||||0.25|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.250
82536861|NCT02162446|164773113|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
82648533|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|2.72||0.6249|TWO_SIDED|95.0|-4.25|6.94|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||6.94|-4.25|0.6249
82451507|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65|||<|0.001||95.0|0.31|0.99||P-value for 24 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.99|0.31|<0.001
82451508|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42||||0.094||95.0|-0.07|0.91||P-value for 24 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.91|-0.07|0.094
82536862|NCT02162446|164773113|OTHER|||||||0.688|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.688
82430699|NCT02389465|164569361|OTHER|||||||0.5|||||||t-test, 2 sided|||IL10 levels in the escitalopram group pre- and post-treatment compared using a paired t-test||||.5
82430700|NCT02389465|164569361|OTHER|||||||0.55|||||||t-test, 2 sided|||IL10 levels in the escitalopram + celecoxib group pre- and post-treatment compared using a paired t-test||||.55
82430701|NCT02389465|164569361|OTHER|||||||0.06|||||||t-test, 2 sided|||IL10 levels at completion of study compared between all MDD groups (placebo, escitalopram, and escitalopram + celecoxib) and the healthy control group||||.06
82430702|NCT03502915|164569383|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.053|STANDARD_DEVIATION|2.508||0.943|TWO_SIDED|95.0|-1.402|1.507|||t-test, 2 sided|||||1.507|-1.402|0.943
82430703|NCT03502915|164569384|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.443|STANDARD_DEVIATION|2.867||0.597|TWO_SIDED|95.0|-1.229|2.114|||t-test, 2 sided|||||2.114|-1.229|0.597
82430704|NCT03502915|164569385|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|1.28||0.748|TWO_SIDED|95.0|-0.629|0.869|||t-test, 2 sided|||||0.869|-0.629|0.748
82430705|NCT03502915|164569386|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|-2.634|STANDARD_DEVIATION|3.816||0.025|TWO_SIDED|95.0|-4.927|-0.341|||t-test, 2 sided|||||-0.341|-4.927|0.025
82430706|NCT03502915|164569387|EQUIVALENCE|The equivalence margin is the standard error of the estimated difference.|Mean Difference (Final Values)|0.056|STANDARD_DEVIATION|2.742||0.944|TWO_SIDED|95.0|-1.543|1.655|||t-test, 2 sided|||||1.655|-1.543|0.944
82430707|NCT00362882|164569406|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
82430708|NCT00361972|164569462|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82430709|NCT00361972|164569463|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82430710|NCT03542266|164569472|OTHER||Proportion (percent)|75.0|||||TWO_SIDED|95.0|46.5|90.3|||||Exact (Clopper-Pearson) 95% confidence interval for complete response rate.|||90.3|46.5|
82430711|NCT00149799|164569494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.73||||0.048|TWO_SIDED|95.0|1.01|8.59|||Regression, Cox|p-value is based on the likelihood ratio Chi-Square statistic.||Cox proportional hazards regression was used to compare relapse rates (accounting for censoring and time from randomization to relapse) in Phase II.||8.59|1.01|0.048
82430712|NCT00149799|164569496|SUPERIORITY||Slope difference|-0.07006|STANDARD_ERROR_OF_MEAN|0.04163||0.093|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=556||"We compared change in depression over time by randomized treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in depression symptom severity in the Escitalopram group will not be significantly different from the placebo group \[to be tested\]."||||0.0930
82451509|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.408||95.0|-0.24|0.59||P-value for 24 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.59|-0.24|0.408
82536863|NCT02162446|164773113|OTHER|||||||0.578|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.578
82430713|NCT00149799|164569497|SUPERIORITY||Slope difference|0.001176|STANDARD_ERROR_OF_MEAN|0.03991||0.9766|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=43||"We compared change in functional impairment over time during trial phase 2 by treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in functional impairment in the Escitalopram group will not be significantly different from that of the placebo group \[to be tested\]."||||0.9766
82430714|NCT00149799|164569498|SUPERIORITY||Slope difference|0.05723|STANDARD_ERROR_OF_MEAN|0.1963||0.7724|TWO_SIDED|||||A priori threshold for statistical significance: 0.0167 Model term of interest: treatment by time interaction (i.e., slope difference between treatments over time)|Mixed Models Analysis|Degrees of freedom=36||"We compared change in Q-LES-Q-SF percent scores over time by randomized treatment group (Escitalopram vs. Placebo) using a random coefficient model that included terms for treatment group, time, site, and all their interactions, modeling intercepts and slopes as random effects per person.~Null hypothesis: The rate of change in Q-LES-Q-SF percent scores in the Escitalopram group will not be significantly different from that of the placebo group \[to be tested\]."||||0.7724
82430715|NCT02848092|164569769|SUPERIORITY||Incidence Risk Ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.76|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 1 month) using a generalized estimating equation.||||.76|.52|<.0001
82430716|NCT02848092|164569770|SUPERIORITY||Mean Difference (Final Values)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.29|-0.13|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 1 month) using a generalized estimating equation.||||-.13|-.29|<.0001
82430717|NCT02848092|164569771|SUPERIORITY||Incidence Risk Ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.76|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 6 month) using a generalized estimating equation.||||.76|.52|<.0001
82430718|NCT02848092|164569772|SUPERIORITY||Mean Difference (Final Values)|-0.22|||<|0.0001|TWO_SIDED|95.0|-0.31|-0.13|||Generalized Estimating Equation|P value is for the interaction between group (intervention vs. control) and time point (baseline vs. 6 month) using a generalized estimating equation.||||-.13|-.31|<.0001
82536864|NCT02162446|164773114|OTHER|||||||0.027|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.027
82536865|NCT02162446|164773114|OTHER|||||||0.219|||||||Wilcoxon signed rank test|||Comparison of SUVmax of malignant lesions in lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.219
82430719|NCT02848092|164569773|SUPERIORITY||Risk Ratio (RR)|0.6|||||TWO_SIDED|95.0|0.41|0.89||||||||.89|.41|
82430720|NCT02848092|164569774|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.61|0.92||||||||.92|.61|
82536866|NCT02162446|164773115|OTHER|||||||0.064|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.064
82536867|NCT02162446|164773115|OTHER|||||||0.339|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.339
82536868|NCT02162446|164773115|OTHER|||||||0.001|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.001
82451510|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.351||95.0|-0.25|0.71||P-value for 24 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.71|-0.25|0.351
82451511|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.01||95.0|0.13|0.98||P-value for 24 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.98|0.13|0.010
82451512|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.029||95.0|-0.92|-0.05||P-value for 24 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.05|-0.92|0.029
82451513|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.816||95.0|-0.45|0.35||P-value for 24 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.35|-0.45|0.816
82536869|NCT02162446|164773115|OTHER|||||||0|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.000
82536870|NCT02162446|164773115|OTHER|||||||0.297|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.297
82536871|NCT02162446|164773115|OTHER|||||||1|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||1.000
82536872|NCT02162446|164773116|OTHER|||||||0.47|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.470
82536873|NCT02162446|164773116|OTHER|||||||0.233|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.233
82536874|NCT02162446|164773116|OTHER|||||||0.375|||||||Wilcoxon signed rank test|||Comparison of SUVmax of RT in lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.375
82451514|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.49||||0.008||95.0|0.13|0.85||P-value for 36 Week: Morning Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.85|0.13|0.008
82451515|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.438||95.0|-0.71|0.31||P-value for 36 Week: Morning Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.31|-0.71|0.438
82536875|NCT02162446|164773117|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.004
82652206|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|0.051||||0.7209|TWO_SIDED|95.0|-0.232|0.335||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.335|-0.232|0.7209
82536876|NCT02162446|164773117|OTHER|||||||0.004|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.004
82536877|NCT02162446|164773117|OTHER|||||||0.426|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.426
82536878|NCT02162446|164773117|OTHER|||||||0.098|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.098
82536879|NCT02162446|164773117|OTHER|||||||0.813|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.813
82536880|NCT02162446|164773117|OTHER|||||||0.813|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.813
82536881|NCT02162446|164773117|OTHER|||||||0.297|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) at 1 hour time point.||||0.297
82536882|NCT02162446|164773117|OTHER|||||||0.469|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between previous somatostatin receptor scan (ITT population pre-dose) and the 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.469
82430721|NCT00913510|164569775|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.0||||1||||||The p-value is calculated to the fourth decimal place.|Wilcoxon (Mann-Whitney)|||"H0 : µt = µc versus H1 : µt ≠ µc µt = Exp. relative change of frequency of micturitions per day in test group µc = Exp. relative change of frequency of micturitions per day in control group.~Plan was to have 44 evaluable subjects (90% power) but power of the study was reduced by early termination. It cannot be concluded that there is no difference between the treatment groups due to insufficient power."||||1.0000
82430722|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.049||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||Based on prior studies using a variety of products in this model, the within-product standard deviation of %SMH recovery is estimated to be 13% and the correlation between products is expected to be approximately 0.5. With a sample size of 28 subjects in a 5-way crossover study, the study will have 80% power to detect a %SMH recovery difference of 8.6%, assuming two-sided tests each conducted at a 5% significance level.||||0.0490
82430723|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.19||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.19
82430724|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.0017||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0017
82430725|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.0092||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0092
82430726|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.45||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.45
82430727|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.18||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.18
82430728|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.47||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.47
82536883|NCT02162446|164773118|OTHER|||||||0.91|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as liver between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.910
82536884|NCT02162446|164773118|OTHER|||||||0.039|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in liver with RT as muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.039
82536885|NCT02162446|164773118|OTHER|||||||0.375|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as lymph node between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.375
82430729|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.0423||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0423
82430730|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.15||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.15
82430731|NCT01665911|164569776|SUPERIORITY_OR_OTHER|||||||0.54||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.54
82430732|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.24||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||||||0.24
82430733|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.17||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.17
82430734|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.0008||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0008
82430735|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.0003||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0003
82430736|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.24||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg Sodium Fluoride in 200 ml milk|ANOVA|||||||0.24
82430737|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.26||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.26
82430738|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.18||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.18
82430739|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.0269||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0269
82430740|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.0142||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0142
82430741|NCT01665911|164569777|SUPERIORITY_OR_OTHER|||||||0.81||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.81
82430742|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 1.5 mg Sodium Fluoride in 100 ml milk|ANOVA|||||||0.0000
82430743|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 1.5 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0000
82536886|NCT02162446|164773118|OTHER|||||||0.219|||||||Wilcoxon signed rank test|||Comparison of 3D-SUV-R of malignant lesions in lymph node with RT as muscle between 68Ga-OPS202 visit 1 receptor scan (ITT population Day 0) and 68Ga-OPS202 visit 2 receptor scan (ITT population Day 21) at 1 hour time point.||||0.219
82430744|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0000
82430745|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0||||||Non-fluoridated milk, 200 ml vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0000
82430746|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0.14||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 1.5 mg Sodium Fluoride in 200 ml milk|ANOVA|||||||0.14
82430747|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0.0012||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0012
82430748|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0.19||||||1.5 mg Sodium Fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.19
82430749|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 100 ml milk|ANOVA|||||||0.0000
82430750|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0.0075||||||1.5 mg sodium fluoride in 200 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0075
82652207|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.013||||0.9283|TWO_SIDED|95.0|-0.297|0.271||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.271|-0.297|0.9283
82430751|NCT01665911|164569778|SUPERIORITY_OR_OTHER|||||||0.0444||||||3 mg sodium fluoride in 100 ml milk vs. 3 mg sodium fluoride in 200 ml milk|ANOVA|||||||0.0444
82430752|NCT02831855|164569811|NON_INFERIORITY|Non-inferiority (NI) of Tofacitinib 11 mg + Methotrexate Placebo to Tofacitinib 11 mg + continued Methotrexate was concluded if the upper bound of 95% 2-sided confidence interval (CI) for difference between the 2 arms (Tofacitinib 11 mg + Methotrexate Placebo reporting arm - Tofacitinib 11 mg + continued Methotrexate arm) was lower than 0.6.|Least Square (LS) Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|0.12|0.48||The p-value is one-sided for the test against the NI margin of 0.6.|MMRM|||Linear mixed-effect model of repeated measures (MMRM) was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a biological disease-modifying anti-rheumatic drug (bDMARD), and baseline DAS28-4 (ESR) value as a covariate.||0.48|0.12|0.0005
82430753|NCT02831855|164569812|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|0.03|0.41||||||Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (ESR) value as a covariate.||0.41|0.03|
82430754|NCT02831855|164569813|SUPERIORITY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.08|0.43||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment -by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (CRP) value as a covariate.||0.43|0.08|
82430755|NCT02831855|164569813|SUPERIORITY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.11|0.45||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment -by-visit interaction, prior use of a bDMARD and baseline DAS28-4 (CRP) value as a covariate.||0.45|0.11|
82430756|NCT02831855|164569814|SUPERIORITY||LS Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|0.4|3.07||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline CDAI value as a covariate.||3.07|0.40|
82430757|NCT02831855|164569814|SUPERIORITY||LS Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|0.83|3.43||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline CDAI value as a covariate.||3.43|0.83|
82430758|NCT02831855|164569815|SUPERIORITY||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|0.53|3.37||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline SDAI value as a covariate.||3.37|0.53|
82430759|NCT02831855|164569815|SUPERIORITY||LS Mean Difference|2.23|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|0.86|3.59||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline SDAI value as a covariate.||3.59|0.86|
82430760|NCT02831855|164569816|SUPERIORITY||Difference in percentage of participants|-5.69|||||TWO_SIDED|95.0|-14.15|2.76||||||Week 36||2.76|-14.15|
82430761|NCT02831855|164569816|SUPERIORITY||Difference in percentage of participants|-4.54|||||TWO_SIDED|95.0|-13.04|3.94||||||Week 48||3.94|-13.04|
82451516|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.548||95.0|-0.54|0.29||P-value for 36 Week: Midday Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.29|-0.54|0.548
82451517|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.964||95.0|-0.5|0.52||P-value for 36 Week: Midday Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.52|-0.50|0.964
82648534|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|2.73||0.1625|TWO_SIDED|95.0|-1.69|9.54|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||9.54|-1.69|0.1625
82430762|NCT02831855|164569817|SUPERIORITY||Difference in percentage of participants|-5.14|||||TWO_SIDED|95.0|-13.07|2.77||||||Week 36||2.77|-13.07|
82430763|NCT02831855|164569817|SUPERIORITY||Difference in percentage of participants|-8.52|||||TWO_SIDED|95.0|-16.28|-0.76||||||Week 48||-0.76|-16.28|
82430764|NCT02831855|164569818|SUPERIORITY||Difference in percentage of participants|-7.39|||||TWO_SIDED|95.0|-15.17|0.38||||||Week 36||0.38|-15.17|
82430765|NCT02831855|164569818|SUPERIORITY||Difference in percentage of participants|-11.91|||||TWO_SIDED|95.0|-19.56|-4.26||||||Week 48||-4.26|-19.56|
82430766|NCT02831855|164569819|SUPERIORITY||Difference in percentage of participants|-7.02|||||TWO_SIDED|95.0|-14.81|0.77||||||Week 36||0.77|-14.81|
82430767|NCT02831855|164569819|SUPERIORITY||Difference in percentage of participants|-10.02|||||TWO_SIDED|95.0|-17.68|-2.37||||||Week 48||-2.37|-17.68|
82648535|NCT00272961|165012752|SUPERIORITY_OR_OTHER||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|3.08||0.7556|TWO_SIDED|95.0|-5.38|7.31|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||7.31|-5.38|0.7556
82430768|NCT02831855|164569820|SUPERIORITY||Difference in percentage of participants|-8.52|||||TWO_SIDED|95.0|-15.27|-1.78||||||Week 36||-1.78|-15.27|
82430769|NCT02831855|164569820|SUPERIORITY||Difference in percentage of participants|-1.33|||||TWO_SIDED|95.0|-8.5|5.83|||Two Sided|||Week 48||5.83|-8.50|
82430770|NCT02831855|164569821|SUPERIORITY||Difference in percentage of participants|-8.11|||||TWO_SIDED|95.0|-15.4|-0.82||||||Week 36||-0.82|-15.40|
82430771|NCT02831855|164569821|SUPERIORITY||Difference in percentage of participants|-6.21|||||TWO_SIDED|95.0|-13.74|1.32||||||Week 48||1.32|-13.74|
82430772|NCT02831855|164569822|SUPERIORITY||Difference in percentage of participants|-5.63|||||TWO_SIDED|95.0|-14.12|2.84||||||Week 36||2.84|-14.12|
82430773|NCT02831855|164569822|SUPERIORITY||Difference in percentage of participants|-4.13|||||TWO_SIDED|95.0|-12.62|4.36||||||Week 48||4.36|-12.62|
82430774|NCT02831855|164569823|SUPERIORITY||Difference in percentage of participants|-8.84|||||TWO_SIDED|95.0|-16.44|-1.24||||||Week 36||-1.24|-16.44|
82430775|NCT02831855|164569823|SUPERIORITY||Difference in percentage of participants|-2.41|||||TWO_SIDED|95.0|-10.18|5.35||||||Week 48||5.35|-10.18|
82648536|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.99|STANDARD_ERROR_OF_MEAN|1.59||0.0714|TWO_SIDED|95.0|-6.25|0.28|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||0.28|-6.25|0.0714
82430776|NCT02831855|164569824|SUPERIORITY||Difference in percentage of participants|-8.85|||||TWO_SIDED|95.0|-16.38|-1.31||||||Week 36||-1.31|-16.38|
82430777|NCT02831855|164569824|SUPERIORITY||Difference in percentage of participants|-3.16|||||TWO_SIDED|95.0|-10.99|4.65||||||Week 48||4.65|-10.99|
82430778|NCT02831855|164569825|SUPERIORITY||Difference in percentage of participants|-6.96|||||TWO_SIDED|95.0|-14.06|0.14||||||Week 36||0.14|-14.06|
82430779|NCT02831855|164569825|SUPERIORITY||Difference in percentage of participants|-6.59|||||TWO_SIDED|95.0|-13.8|0.61||||||Week 48||0.61|-13.80|
82430780|NCT02831855|164569826|SUPERIORITY||Difference in percentage of participants|-12.75|||||TWO_SIDED|95.0|-21.01|-4.48||||||Week 36||-4.48|-21.01|
82430781|NCT02831855|164569826|SUPERIORITY||Difference in percentage of participants|-11.99|||||TWO_SIDED|95.0|-20.22|-3.75||||||Week 48||-3.75|-20.22|
82430782|NCT02831855|164569827|SUPERIORITY||Difference in percentage of participants|-5.37|||||TWO_SIDED|95.0|-13.63|2.89||||||Week 36||2.89|-13.63|
82430783|NCT02831855|164569827|SUPERIORITY||Difference in percentage of participants|-4.97|||||TWO_SIDED|95.0|-13.32|3.36||||||Week 48||3.36|-13.32|
82430784|NCT02831855|164569828|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|0.02|0.16||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline HAQ-DI.||0.16|0.02|
82430785|NCT02831855|164569828|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-0.06|0.09||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD and baseline HAQ-DI.||0.09|-0.06|
82430786|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.79|0.92||||||Change at Week 36: Physical Functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score as a covariate.||0.92|-1.79|
82430787|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-0.82|1.85||||||Change at Week 48: Physical Functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score as a covariate.||1.85|-0.82|
82430788|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.97|-0.37||||||Change at Week 36: Role Physical Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role physical score score as a covariate.||-0.37|-2.97|
82430789|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-2.13|0.66||||||Change at Week 48: Role Physical Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role physical score score as a covariate.||0.66|-2.13|
82430790|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-1.5|1.21||||||Change at Week 36: Social functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 Social functioning score as a covariate.||1.21|-1.50|
82430791|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.95|0.93||||||Change at Week 48: Social functioning- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 Social functioning score as a covariate.||0.93|-1.95|
82430792|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-1.45|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.9|-0.01||||||Change at Week 36: Bodily Pain Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 bodily pain score as a covariate.||-0.01|-2.90|
82430793|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.23|0.73||||||Change at Week 48: Bodily Pain Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 bodily pain score as a covariate.||0.73|-2.23|
82430794|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-2.29|0.49||||||Change at Week 36: Mental Health Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental health score as a covariate.||0.49|-2.29|
82430795|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-1.94|1.02||||||Change at Week 48: Mental Health Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental health score as a covariate.||1.02|-1.94|
82430796|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-2.64|0.43||||||Change at Week 36: Role Emotional Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role emotional score as a covariate.||0.43|-2.64|
82430797|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-1.95|1.01||||||Change at Week 48: Role Emotional Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 role emotional score as a covariate.||1.01|-1.95|
82430798|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.52|0.22||||||Change at Week 36: Vitality Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 vitality score as a covariate.||0.22|-2.52|
82430799|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.94|0.91||||||Change at Week 48: Vitality Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 vitality score as a covariate.||0.91|-1.94|
82451518|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.453||95.0|-0.27|0.6||P-value for 36 Week: Evening Pre-Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.60|-0.27|0.453
82451519|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.096||95.0|-0.84|0.07||P-value for 36 Week: Evening Postprandial Meal.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.07|-0.84|0.096
82451520|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.77||95.0|-0.51|0.37||P-value for 36 Week: 0300 Hours.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.37|-0.51|0.770
82451521|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.45||||0.01||95.0|0.11|0.8||P-value for Endpoint: Morning Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.80|0.11|0.010
82451522|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.201||95.0|-0.8|0.17||P-value for Endpoint: Morning Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.17|-0.80|0.201
82451523|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.43||95.0|-0.57|0.24||P-value for Endpoint: Midday Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.24|-0.57|0.430
82451524|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.814||95.0|-0.52|0.41||P-value for Endpoint: Midday Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.41|-0.52|0.814
82451525|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.427||95.0|-0.24|0.57||P-value for Endpoint: Evening Pre-Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.57|-0.24|0.427
82451526|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.009||95.0|-1.0|-0.14||P-value for Endpoint: Evening Postprandial Meal. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.14|-1.00|0.009
82451527|NCT00377858|164609384|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.569||95.0|-0.51|0.28||P-value for Endpoint: 0300 Hours. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.28|-0.51|0.569
82451528|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.776||95.0|-0.14|0.19||P-value for Baseline MODD.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.19|-0.14|0.776
82451529|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.27||||0.737||95.0|-6.14|8.68||P-value for Baseline M-Value.|ANOVA|ANOVA Model: Variable=Treatment + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||8.68|-6.14|0.737
82451530|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.701||95.0|-0.19|0.13||P-value for 12 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.13|-0.19|0.701
82451531|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.58||||0.4||95.0|-2.11|5.27||P-value for 12 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||5.27|-2.11|0.400
82648537|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.34||0.7269|TWO_SIDED|95.0|-2.29|3.24|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||3.24|-2.29|0.7269
82648538|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|1.36||0.8656|TWO_SIDED|95.0|-2.58|3.04|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||3.04|-2.58|0.8656
82648539|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|1.4||0.7113|TWO_SIDED|95.0|-3.41|2.36|||ANCOVA|||Pre-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Pre-Dose) with the sitting-standing difference at Baseline as a covariate.||2.36|-3.41|0.7113
82652208|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.162||||0.2659|TWO_SIDED|95.0|-0.449|0.124||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.124|-0.449|0.2659
82430800|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.3|1.08||||||Change at Week 36: General Health Perception Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 general health perception score as a covariate.||1.08|-1.30|
82430801|NCT02831855|164569829|SUPERIORITY||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-0.6|1.83||||||Change at Week 48: General Health Perception Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 general health perception score as a covariate.||1.83|-0.60|
82430802|NCT02831855|164569830|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-2.01|0.37||||||Change at Week 36: Physical Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 physical component score- as a covariate.||0.37|-2.01|
82430803|NCT02831855|164569830|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.11|1.29||||||Change at Week 48: Physical Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a biological disease-modifying anti-rheumatic drug (DMARD), and baseline SF-36 physical component score- as a covariate.||1.29|-1.11|
82430804|NCT02831855|164569830|SUPERIORITY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.13|0.49||||||Change at Week 36: Mental Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental component score as a covariate.||0.49|-2.13|
82451532|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.321||95.0|-0.26|0.09||P-value for 24 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.09|-0.26|0.321
82536887|NCT00762463|164773145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|LS mean difference calculated as LS mean change for Celecoxib 200 mg once daily minus LS mean change for Diclofenac SR 75 mg once daily. Non-inferiority was declared if the upper bound of the 95% confidence interval was \<10 mm.|LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.79||0.0085|TWO_SIDED|95.0|-2.2|8.8|||ANCOVA|Analysis of covariance (ANCOVA); factors: treatment group and study center; covariate: baseline Patient's Assessment of Global Pain Intensity score.||"Null hypothesis: Least Squares (LS) mean difference between Celecoxib 200 mg once daily versus Diclofenac SR 75 mg once daily on change in Global Pain Intensity from baseline to Week 6 was at least 10 mm. Corresponding alternative hypothesis: This difference was \<10 mm.~For the non-inferiority test, power was 80% and significance level was 0.025 (1-sided)."||8.8|-2.2|0.0085
82536888|NCT00762463|164773147|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.5||0.7849|TWO_SIDED|95.0|-5.6|4.2|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||4.2|-5.6|0.7849
82536889|NCT00762463|164773147|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|2.62||0.3223|TWO_SIDED|95.0|-2.6|7.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||7.8|-2.6|0.3223
82536890|NCT00762463|164773149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.8938|TWO_SIDED|95.0|-0.15|0.17|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.17|-0.15|0.8938
82536891|NCT00762463|164773149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.08||0.0426|TWO_SIDED|95.0|0.01|0.31|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.31|0.01|0.0426
82536892|NCT00762463|164773149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.09||0.1502|TWO_SIDED|95.0|-0.05|0.29|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.29|-0.05|0.1502
82536893|NCT00762463|164773151|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.5945|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.1|-0.2|0.5945
82536894|NCT00762463|164773151|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.3427|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.1|0.3427
82536895|NCT00762463|164773151|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.6522|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.1|0.6522
82536896|NCT00762463|164773153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.9358|TWO_SIDED|95.0|-0.3|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.3|0.9358
82648540|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|2.21||0.2204|TWO_SIDED|95.0|-7.32|1.77|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.77|-7.32|0.2204
82451533|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.52||||0.179||95.0|-1.16|6.21||P-value for 24 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||6.21|-1.16|0.179
82451534|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.573||95.0|-0.22|0.12||P-value for 36 Week MODD.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.12|-0.22|0.573
82451535|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.95||||0.629||95.0|-4.79|2.9||P-value for 36 Week M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||2.90|-4.79|0.629
82451536|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.25||95.0|-0.26|0.07||P-value for Endpoint MODD. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.07|-0.26|0.250
82451537|NCT00377858|164609385|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.72||||0.362||95.0|-5.44|1.99||P-value for Endpoint M-Value.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||1.99|-5.44|0.362
82451538|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||P-value for Endpoint Hypoglycemic Episodes.|Fisher Exact|||||||0.094
82536897|NCT00762463|164773153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5916|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.5|-0.3|0.5916
82536898|NCT00762463|164773153|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.179|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.7|-0.1|0.1790
82536899|NCT00762463|164773155|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6335|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.5|-0.3|0.6335
82536900|NCT00762463|164773155|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2729|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.6|-0.2|0.2729
82536901|NCT00762463|164773155|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1559|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.8|-0.1|0.1559
82536902|NCT00762463|164773158|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|2.67||0.1111|TWO_SIDED|95.0|-1.0|9.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||9.5|-1.0|0.1111
82536903|NCT00762463|164773158|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.74||0.3574|TWO_SIDED|95.0|-2.9|7.9|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||7.9|-2.9|0.3574
82648541|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|1.87||0.5298|TWO_SIDED|95.0|-5.04|2.66|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||2.66|-5.04|0.5298
82451539|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Overall Hypoglycemic Episodes.|Fisher Exact|||||||1.00
82451540|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.430
82451541|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for Overall Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||1.00
82451542|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.013
82451543|NCT00377858|164609386|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.756
82451544|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||P-value for Endpoint Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.022
82451545|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.218||95.0||||P-value for Overall Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.218
82536904|NCT00762463|164773158|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.76||0.1464|TWO_SIDED|95.0|-1.4|9.5|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||9.5|-1.4|0.1464
82451546|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.311
82648542|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|1.9||0.3135|TWO_SIDED|95.0|-5.86|1.96|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.96|-5.86|0.3135
82430805|NCT02831855|164569830|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-2.06|0.7||||||Change at Week 48: Mental Component Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline SF-36 mental component score as a covariate.||0.70|-2.06|
82430806|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|1.61|STANDARD_ERROR_OF_MEAN|2.41|||TWO_SIDED|95.0|-3.14|6.37||||||Change at Week 36: Absenteeism Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI absenteeism score as a covariate.||6.37|-3.14|
82430807|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-5.01|3.99||||||Change at Week 48: Absenteeism Score- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI absenteeism score as a covariate.||3.99|-5.01|
82430808|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|3.19|STANDARD_ERROR_OF_MEAN|1.88|||TWO_SIDED|95.0|-0.51|6.89||||||Change at Week 36: Daily activity impairment- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI daily activity impairment score as a covariate.||6.89|-0.51|
82430809|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|2.04|||TWO_SIDED|95.0|-2.41|5.61||||||Change at Week 48: Daily activity impairment- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI daily activity impairment score as a covariate.||5.61|-2.41|
82430810|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|3.01|STANDARD_ERROR_OF_MEAN|2.97|||TWO_SIDED|95.0|-2.84|8.87||||||Change at Week 36: Presenteeism- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI presenteeism score as a covariate.||8.87|-2.84|
82430811|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|3.77|||TWO_SIDED|95.0|-8.34|6.54||||||Change at Week 48: Presenteeism- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI presenteeism score as a covariate.||6.54|-8.34|
82430812|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|2.84|STANDARD_ERROR_OF_MEAN|3.45|||TWO_SIDED|95.0|-3.97|9.65||||||Change at Week 36: Work productivity loss- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI work productivity loss score as a covariate.||9.65|-3.97|
82430813|NCT02831855|164569831|SUPERIORITY||LS Mean Difference|-2.46|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-10.72|5.8||||||Change at Week 48: Work productivity loss- Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline WPAI work productivity loss score as a covariate.||5.80|-10.72|
82430814|NCT02831855|164569832|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.07|-0.01||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline EQ-5D score as a covariate.||-0.01|-0.07|
82430815|NCT02831855|164569832|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.06|0.01||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline EQ-5D score as a covariate.||0.01|-0.06|
82451547|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||P-value for Overall Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.615
82536905|NCT00762463|164773160|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.9641|TWO_SIDED|95.0|-1.7|1.8|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||1.8|-1.7|0.9641
82430816|NCT02831855|164569833|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.37|1.0||||||Change at Week 36: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline FACIT - fatigue scale score as a covariate.||1.00|-1.37|
82430817|NCT02831855|164569833|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.07|1.44||||||Change at Week 48: Linear MMRM was used that included the fixed effects of treatment, visit, treatment-by-visit interaction, prior use of a bDMARD, and baseline FACIT - fatigue scale score as a covariate.||1.44|-1.07|
82430818|NCT02831855|164569834|SUPERIORITY||Difference in percentage of participants|-10.02|STANDARD_ERROR_OF_MEAN|3.87|||TWO_SIDED|95.0|-17.61|-2.42||||||Week 36||-2.42|-17.61|
82430819|NCT02831855|164569834|SUPERIORITY||Difference in percentage of participants|-6.62|STANDARD_ERROR_OF_MEAN|3.89|||TWO_SIDED|95.0|-14.26|1.0||||||Week 48||1.00|-14.26|
82430820|NCT01057693|164569859|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.32||||0.1221|TWO_SIDED|95.0|-0.74|0.09|||ANCOVA|||P-value was calculated using analysis of covariance (ANCOVA), with terms for baseline mean pain score, center and treatment in the model.||0.09|-0.74|0.1221
82430821|NCT02413996|164569889|SUPERIORITY||Mean Difference (Net)|5.94|STANDARD_DEVIATION|5.3||0.05|TWO_SIDED|95.0|-4.62|16.51|||t-test, 2 sided|||Does VRRS rehabilitation is superior to the traditional one?||16.51|-4.62|0.05
82451548|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.018
82648543|NCT00272961|165012753|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|1.95||0.2962|TWO_SIDED|95.0|-6.09|1.93|||ANCOVA|||Post-Dose on Week 10: p-value was obtained using an ANCOVA model on the sitting-standing difference at Week 10 (Post-Dose) with the sitting-standing difference at Baseline as a covariate.||1.93|-6.09|0.2962
82648544|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.74|STANDARD_ERROR_OF_MEAN|5.39||0.4933|TWO_SIDED|95.0|-14.84|7.35|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||7.35|-14.84|0.4933
82430822|NCT00090779|164569898|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.005
82430823|NCT00090779|164569899|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82430824|NCT00003869|164569922|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Log Rank|||||||0.54
82430825|NCT00003869|164569923|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
82430826|NCT00003869|164569924|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Log Rank|||||||0.50
82430827|NCT00003869|164569925|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Fisher Exact|||||||0.04
82430828|NCT00003869|164569926|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Fisher Exact|||||||0.18
82430829|NCT01964378|164569928|NON_INFERIORITY|Non-inferiority margin of 8 mg. Assuming equal mean values in both the cebranopadol and morphine groups, it was calculated that for the final analysis of the primary endpoint 170 subjects would have been required per treatment arm in the Per Protocol Set using a 2 sample-t-test for 90% power and a 1-sided significance level of α = 0.025.|point-estimate|-7.48|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-12.05|-2.918|||MMRM|||The MMRM (mixed model repeated measurement) model includes fixed effects of pooled country, treatment, week, treatment-by-week interaction, history of opioid intake, baseline pain intensity as covariate \& subject-specific random effects. Dependent variable being the weekly average rescue medication intake.||-2.918|-12.05|< 0.0001
82430830|NCT01964378|164569929|NON_INFERIORITY|Non-inferiority margin of 8 mg. Assuming that 65% of the participants are available for the Per Protocol Set, a total of 524 participant would have to be allocated (randomized) to IMP. With 262 participants per group in the Full Analysis Set, the non-inferiority of cebranopadol as compared to morphine sulfate prolonged release could have been demonstrated with at least 98% power and a 1-sided significance level of α = 0.025.|point-estimate|-4.67|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|-9.245|-0.099||MMRM model: fixed effects of pooled country, treatment, week, treatment-by-week interaction, opioid intake history, baseline pain intensity as covariate \& subject-specific random effects. Dependent variable: weekly average rescue medication intake.|MMRM (mixed model repeated measurement)|For participants with no data in the Maintenance Phase, the average amount of rescue medication over the last 3 days of titration was imputed.|Non-inferiority of cebranopadol compared with morphine will be established if the upper bound of the resulting 95% confidence interval for the average treatment difference is below the non-inferiority margin of 8mg.|The primary endpoint will be analyzed by means of a mixed-effects model for repeated measures (MMRM), based on observed case weekly averages. Under the assumption of a missing-at-random missing data mechanism, an MMRM does not require an imputation of missing data and can obtain an improved estimate of variance.||-0.099|-9.245|< 0.0001
82430831|NCT03382912|164569994|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.3|5.9|||||Odds Ratio stratified based on tumor histology at randomization (interactive web response system (IWRS)), smoking status (IWRS). Confidence intervals were based on the Clopper-Pearson method.|||5.9|0.3|
82430832|NCT03382912|164569995|SUPERIORITY||Hazard Ratio (HR)|1.006|||||TWO_SIDED|95.0|0.519|1.951|||||The estimate of the hazard ration (HR) stratified based on tumor histology at randomization (interactive web response system (IWRS)) and smoking status (IWRS).|||1.951|0.519|
82430833|NCT03382912|164569996|SUPERIORITY||Hazard Ratio (HR)|1.871|||||TWO_SIDED|95.0|0.772|4.532|||||||The estimate of the hazard ration (HR) stratified based on tumor histology at randomization (IWRS) and smoking status (IWRS).|4.532|0.772|
82430834|NCT03382912|164569997|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.4|4.1|||||Odds Ratio stratified based on tumor histology at randomization (IWRS) and smoking status (IWRS). Confidence intervals were based on the Clopper-Pearson method.|||4.1|0.4|
82451549|NCT00377858|164609387|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Rate.|ANOVA|ANOVA Model: Rank of Variable = Treatment + Sufonylurea Stratum + Country + Baseline HbA1c Stratum.||||||0.255
82451550|NCT00377858|164609388|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for Overall Severe Hypoglycemic Episodes.|Fisher Exact|||||||0.416
82451551|NCT00377858|164609389|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|||<|0.001||95.0|-0.12|-0.05||P-value for Daily Basal.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-0.05|-0.12|<0.001
82451552|NCT00377858|164609389|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||<|0.001||95.0|0.04|0.11||P-value for Daily Prandial.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.11|0.04|<0.001
82648545|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.85|STANDARD_ERROR_OF_MEAN|4.57||0.408|TWO_SIDED|95.0|-13.26|5.57|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||5.57|-13.26|0.4080
82451553|NCT00377858|164609389|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.017||95.0|0.01|0.12||P-value for Daily Total.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.12|0.01|0.017
82451554|NCT00377858|164609390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.96|||<|0.001||95.0|-9.65|-4.26||P-value for Daily Basal.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||-4.26|-9.65|<0.001
82451555|NCT00377858|164609390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.05|||<|0.001||95.0|3.39|8.71||P-value for Daily Prandial.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||8.71|3.39|<0.001
82451556|NCT00377858|164609390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.2||||0.017||95.0|0.93|9.46||P-value for Daily Total.|ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c stratum + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||9.46|0.93|0.017
82451557|NCT00377858|164609391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|||<|0.001||95.0|0.24|0.42||P-value for Week 12.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.42|0.24|<0.001
82451558|NCT00377858|164609391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.003||95.0|0.07|0.36||P-value for Week 24.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.36|0.07|0.003
82451559|NCT00377858|164609391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.002||95.0|0.09|0.4||P-value for Week 30.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Baseline HbA1c stratum + Country + Sulfonylurea stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.40|0.09|0.002
82451560|NCT00377858|164609391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.005||95.0|0.07|0.38||P-value for Week 36.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.38|0.07|0.005
82451561|NCT00377858|164609391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.19||||0.011||95.0|0.04|0.34||P-value for Endpoint. (last observation carried forward)|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline HbA1c stratum + Sulfonylurea stratum + Country.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.34|0.04|0.011
82451562|NCT00377858|164609392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.803||95.0|-0.8|0.62||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Sulfonylurea stratum + Country + Baseline HbA1c stratum.|The two-sided 95% confidence interval of the Least Squares Mean difference between the two treatments is for Insulin Lispro Mid Mix minus Insulin Glargine.|||0.62|-0.80|0.803
82451563|NCT00555672|164609469|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|27.3|||||TWO_SIDED|95.0|13.3|45.5|||Fisher Exact|Exact Method based on the F Distribution.||||45.5|13.3|
82451564|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.053||||0.04|TWO_SIDED|95.0|0.003|0.104||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.104|0.003|0.040
82648546|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|4.56||0.5936|TWO_SIDED|95.0|-11.86|6.93|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.93|-11.86|0.5936
82451565|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.103|||<|0.001|TWO_SIDED|95.0|0.052|0.153|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.153|0.052|<0.001
82451566|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.192|||<|0.001|TWO_SIDED|95.0|0.141|0.243||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.243|0.141|<0.001
82451567|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.173|||<|0.001|TWO_SIDED|95.0|0.123|0.224|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.224|0.123|<0.001
82451568|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.12|||<|0.001|TWO_SIDED|95.0|0.07|0.17|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.170|0.070|<0.001
82451569|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.09|||<|0.001|TWO_SIDED|95.0|0.039|0.14||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.140|0.039|<0.001
82451570|NCT01053988|164609472|SUPERIORITY_OR_OTHER||Least squares mean difference|0.071||||0.006|TWO_SIDED|95.0|0.021|0.121||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.121|0.021|0.006
82648547|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|4.79||0.7883|TWO_SIDED|95.0|-11.17|8.57|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||8.57|-11.17|0.7883
82451571|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.033||||0.241|TWO_SIDED|95.0|-0.022|0.088|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.088|-0.022|0.241
82451572|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.067||||0.017|TWO_SIDED|95.0|0.012|0.121|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.121|0.012|0.017
82451573|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.129|||<|0.001|TWO_SIDED|95.0|0.074|0.184||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.184|0.074|<0.001
82451574|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.115|||<|0.001|TWO_SIDED|95.0|0.06|0.169|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.169|0.060|<0.001
82451575|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.082||||0.003|TWO_SIDED|95.0|0.028|0.136||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.136|0.028|0.003
82451576|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.062||||0.025|TWO_SIDED|95.0|0.008|0.117||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.117|0.008|0.025
82451577|NCT01053988|164609473|SUPERIORITY_OR_OTHER||Least squares mean difference|0.048||||0.082|TWO_SIDED|95.0|-0.006|0.102|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.102|-0.006|0.082
82536906|NCT00762463|164773160|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7749|TWO_SIDED|95.0|-1.6|2.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.2|-1.6|0.7749
82430835|NCT04570384|164569999|OTHER||Hazard Ratio (HR)|1.14||||0.782|TWO_SIDED|95.0|0.45|2.86|||Log Rank|||||2.86|0.45|0.782
82430836|NCT04570384|164569999|OTHER||Odds Ratio (OR)|1.25||||0.668|TWO_SIDED|95.0|0.46|3.4|||Regression, Logistic|||||3.40|0.46|0.668
82430837|NCT04570384|164570000|OTHER||Hazard Ratio (HR)|1.58||||0.36|TWO_SIDED|95.0|0.59|4.22|||Log Rank|||||4.22|0.59|0.360
82430838|NCT04570384|164570001|OTHER||Hazard Ratio (HR)|0.49||||0.285|TWO_SIDED|95.0|0.13|1.83|||Log Rank|||||1.83|0.13|0.285
82430839|NCT04570384|164570001|OTHER||Odds Ratio (OR)|0.6||||0.471|TWO_SIDED|95.0|0.15|2.41|||Regression, Logistic|||||2.41|0.15|0.471
82430840|NCT04570384|164570007|OTHER||Odds Ratio, log|0.81||||0.668|TWO_SIDED|95.0|0.3|2.2|||Zero-inflated negative binomial analyses|||||2.20|0.30|0.668
82430841|NCT04570384|164570007|OTHER||Incidence Rate Ratio|0.66||||0.437|TWO_SIDED|95.0|0.23|1.9|||Zero-inflated negative binomial analyses|||||1.90|0.23|0.437
82430842|NCT04570384|164570008|OTHER||Odds Ratio (OR)|0.35||||0.232|TWO_SIDED|95.0|0.06|1.97|||Regression, Logistic|||||1.97|0.06|0.232
82430843|NCT04570384|164570009|OTHER||Odds Ratio (OR)|0.84||||0.729|TWO_SIDED|95.0|0.31|2.28|||Regression, Logistic|||||2.28|0.31|0.729
82430844|NCT04570384|164570010|OTHER||Odds Ratio, log|1.22||||0.706|TWO_SIDED|95.0|0.43|3.44|||Zero-inflated negative binomial analyses|||||3.44|0.43|0.706
82430845|NCT04570384|164570010|OTHER||Incidence Rate Ratio|1.12||||0.788|TWO_SIDED|95.0|0.49|2.56|||Zero-inflated negative binomial analyses|||||2.56|0.49|0.788
82430846|NCT04570384|164570011|OTHER||Incidence Rate Ratio|1.08||||0.834|TWO_SIDED|95.0|0.52|2.25|||Negative binomial analysis|||||2.25|0.52|0.834
82430847|NCT00326001|164570014|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P-value not adjusted for multiple comparisons|t-test, 2 sided|||||||0.25
82430848|NCT00326001|164570015|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||Chi-squared|||||||0.042
82430849|NCT00326001|164570016|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Chi-squared|||||||0.53
82430850|NCT00326001|164570017|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82430851|NCT03265145|164570025|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.87|1.72|||||"Cox proportional hazards model with baseline ICS prior use as a covariate was used to estimate the hazard ratio (HR) and the two-sided 95% Wald confidence interval (CI).~Ratio: Stiolto Respimat/triple therapy."|||1.72|0.87|
82430852|NCT03265145|164570026|OTHER||adjusted annual rate ratio|1.41|||||TWO_SIDED|95.0|0.97|2.04|||||Ratio: Stiolto Respimat/triple therapy|||2.04|0.97|
82430853|NCT03265145|164570027|OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.62|2.0|||||"Cox proportional hazards model with baseline ICS prior use as a covariate was used to estimate the hazard ratio (HR) and the two-sided 95% Wald confidence interval (CI).~Ratio: Stiolto Respimat/triple therapy."|||2.00|0.62|
82430854|NCT03265145|164570028|OTHER||adjusted annual rate ratio|1.08|||||TWO_SIDED|95.0|0.58|2.01|||||Ratio: Stiolto Respimat/triple therapy|||2.01|0.58|
82536907|NCT00762463|164773160|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.95||0.7529|TWO_SIDED|95.0|-1.6|2.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.2|-1.6|0.7529
82648548|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|5.12||0.5719|TWO_SIDED|95.0|-13.46|7.6|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||7.60|-13.46|0.5719
82648549|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|4.33||0.3401|TWO_SIDED|95.0|-13.11|4.7|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||4.70|-13.11|0.3401
82430855|NCT03265145|164570029|OTHER||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||Ratio: Stiolto Respimat/triple therapy|A Cochran-Mantel-Haenszel (CMH) model with baseline ICS prior use as stratum was used to estimate the Risk Ratio (RR) (Stiolto Respimat versus triple therapy) of moderate or severe COPD exacerbations along with 95% CI.||1.64|0.89|
82430856|NCT03265145|164570029|OTHER||Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|-0.022|0.094|||||Ratio: Stiolto Respimat/triple therapy|A Cochran-Mantel-Haenszel (CMH) model with baseline ICS prior use as stratum was used to estimate the Risk Difference (Stiolto Respimat versus triple therapy) of moderate or severe COPD exacerbations along with 95% CI.||0.094|-0.022|
82430857|NCT04409834|164570030|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the FDAC arm divided by the total number of wins in the SDPAC arm. A win ratio greater than 1 was in favor of the FDAC arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.95||||0.028|TWO_SIDED|95.0|1.08|3.55|||Stratified Win-Ratio Analysis, 2-sided|||FDAC = Full Dose Anticoagulation; SDPAC = Standard Dose Prophylactic Anticoagulation||3.55|1.08|0.028
82430858|NCT04409834|164570031|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the FDAC arm divided by the total number of wins in the SDPAC arm. A win ratio greater than 1 was in favor of the FDAC arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.79||||0.087|TWO_SIDED|95.0|0.92|3.47|||Stratified Win-Ratio Analysis, 2-sided|||FDAC = Full Dose Anticoagulation; SDPAC = Standard Dose Prophylactic Anticoagulation||3.47|0.92|0.087
82430859|NCT04409834|164570032|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the Anti-platelet arm divided by the total number of wins in the No Anti-platelet arm. A win ratio greater than 1 was in favor of the Anti-platelet arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|1.04||||0.9|TWO_SIDED|95.0|0.54|2.01|||Stratified Win-Ratio Analysis, 2-sided|||||2.01|0.54|0.90
82451578|NCT04759157|164609485|SUPERIORITY|||||||0.3|||||||mixed model|||||||.30
82451579|NCT04759157|164609486|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|2.05||0.206|TWO_SIDED|95.0|-6.63|1.43|||Mixed Models Analysis||This estimate is comparing intervention to control from baseline to 3 month for both patients and partners|We conducted multilevel models evaluating sleep disturbance score by assessment, group and patient versus partner status.||1.43|-6.63|.206
82430860|NCT04409834|164570033|SUPERIORITY|"Stratified Win-Ratio Analysis, 2-sided~* The estimated win ratio is calculated by taking the total number of wins in the Anti-platelet arm divided by the total number of wins in the No Anti-platelet arm. A win ratio greater than 1 was in favor of the Anti-platelet arm.~* The win ratio methodology is explained in the following reference Pocock et al. Eur Heart J 2012;33:176-82 (doi:10.1093/eurheartj/ehr352)."|Win Ratio|0.79||||0.53|TWO_SIDED|95.0|0.38|1.65|||Stratified Win-Ratio Analysis, 2-sided|||||1.65|0.38|0.53
82430861|NCT02292537|164570074|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|0.91||1e-07|TWO_SIDED|95.0|3.1|6.7|||ANCOVA|ANCOVA model with treatment group as a factor and age at Screening and baseline HFMSE score as covariates.||||6.7|3.1|0.0000001
82451580|NCT02123823|164609489|OTHER||Hazard Ratio, log|0.97||||0.9057|TWO_SIDED|95.0|0.57|1.65|||Log Rank|Two-sided log-rank test stratified for visceral involvement.|Cox proportional hazards model stratified for visceral involvement.|||1.65|0.57|0.9057
82451581|NCT02123823|164609492|OTHER||Odds Ratio, log|0.7||||0.5598|TWO_SIDED|95.0|0.2|2.32|||Regression, Logistic|Odds ratio and p-value are obtained from logistic regression model adjusted for visceral involvement at screening.|An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||2.32|0.20|0.5598
82451582|NCT02123823|164609493|OTHER||Hazard Ratio, log|1.03||||0.9146|TWO_SIDED|95.0|0.59|1.8|||Log Rank|Two-sided log-rank test stratified for visceral involvement.|Cox proportional hazards model stratified for visceral involvement.|||1.80|0.59|0.9146
82451583|NCT02123823|164609494|OTHER||Odds Ratio, log|0.7||||0.4008|TWO_SIDED|95.0|0.31|1.59|||Regression, Logistic|Odds ratio and p-value are obtained from logistic regression model adjusted for visceral involvement.|An odds ratio \>1 indicates a benefit to the xentuzumab arm.|||1.59|0.31|0.4008
82451584|NCT02211456|164609505|SUPERIORITY||Mean Difference (Final Values)|3.7|||<|0.05|TWO_SIDED|95.0|1.0|6.3|||Mixed Models Analysis|||The data derived from this study was complex multi-level data with errors due to patient-level and intra-patient repeat factors. Accordingly, we used generalized multi-level modelling (GLMM) with random effects.||6.3|1|<0.05
82451585|NCT02910102|164609513|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.3565|TWO_SIDED|95.0|-6.04|2.23||The threshold for statistical significance was p=0.05|Mixed Models Analysis|Each co-primary endpoint was tested at two-sided 5% level of significance, with no adjustments for multiplicity.||||2.23|-6.04|0.3565
82451586|NCT02910102|164609514|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.922|TWO_SIDED|95.0|-3.73|3.38||The threshold for statistical significance was p=0.05|Mixed Models Analysis|Each co-primary endpoint was tested at two-sided 5% level of significance, with no adjustments for multiplicity.||||3.38|-3.73|0.9220
82451587|NCT02106403|164609533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.46||||0.0659|TWO_SIDED|95.0|-0.37|11.29|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||11.29|-0.37|0.0659
82451588|NCT02106403|164609533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.99||||0.0928|TWO_SIDED|95.0|-0.84|10.81|||ANCOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||10.81|-0.84|0.0928
82451589|NCT02106403|164609533|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||0.8711|TWO_SIDED|95.0|-5.35|6.31|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||6.31|-5.35|0.8711
82451590|NCT02106403|164609534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.43||||0.0016|TWO_SIDED|95.0|4.43|18.42|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||18.42|4.43|0.0016
82451591|NCT02106403|164609534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.69||||0.6323|TWO_SIDED|95.0|-5.31|8.69|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||8.69|-5.31|0.6323
82451592|NCT02106403|164609534|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.73||||0.0069|TWO_SIDED|95.0|2.74|16.73|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||16.73|2.74|0.0069
82536908|NCT00762463|164773162|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11||0.878|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 2. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.2|-0.2|0.8780
82652209|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.006||||0.968|TWO_SIDED|95.0|-0.31|0.298||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.298|-0.310|0.9680
82430862|NCT02292537|164570075|SUPERIORITY||Odds Ratio (OR)|5.59||||0.0006|TWO_SIDED|95.0|2.09|14.91||Based on multiple imputation and logistic regression with treatment effect and adjustment for each participant's age at screening and HFMSE score at baseline.|Regression, Logistic|||||14.91|2.09|0.0006
82536909|NCT00762463|164773162|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.2202|TWO_SIDED|95.0|-0.1|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 4. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.1|0.2202
82536910|NCT00762463|164773162|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.534|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|Change from baseline was analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||Change from baseline to Week 6. The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||0.4|-0.2|0.5340
82536911|NCT00762463|164773164|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.81||0.7003|TWO_SIDED|95.0|-4.3|2.9|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.9|-4.3|0.7003
82652210|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.125||||0.4213|TWO_SIDED|95.0|-0.429|0.18||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.180|-0.429|0.4213
82430863|NCT02292537|164570075|SUPERIORITY||Difference in Proportions|30.5|||||TWO_SIDED|95.0|12.74|48.31|||||Difference in proportions of Nusinersen minus Sham Procedure are from multiple imputation procedure and are based on binomial proportions.|||48.31|12.74|
82430864|NCT02292537|164570076|SUPERIORITY||Difference in Proportions|13.8||||0.0811|TWO_SIDED|95.0|-6.64|34.17|||Fisher Exact||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||34.17|-6.64|0.0811
82430865|NCT02292537|164570077|SUPERIORITY||LS Mean Difference|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Based on ANCOVA with treatment as a fixed effect and adjustment for each participant's age at screening and number of milestones at baseline.|||0.7|0.2|
82430866|NCT02292537|164570078|SUPERIORITY||LS Mean Differenec|3.7|||||TWO_SIDED|95.0|2.3|5.0|||||From multiple imputation procedure, based on ANCOVA with treatment as a fixed effect and adjustment for each participant's age at screening and derived total score at baseline.|||5.0|2.3|
82430867|NCT02292537|164570079|SUPERIORITY||Difference in Proportions|-1.4|||||TWO_SIDED|95.0|-21.84|19.34|||||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||19.34|-21.84|
82430868|NCT02292537|164570080|SUPERIORITY||Difference in Proportions|1.5|||||TWO_SIDED|95.0|-19.1|22.1|||||Difference in proportions of Nusinersen minus Sham Procedure is based on exact unconditional confidence interval.|||22.10|-19.10|
82430869|NCT02621476|164570116|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82430870|NCT01484496|164570117|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0006|TWO_SIDED|95.0|1.25|2.25|||Regression, Logistic|||||2.25|1.25|0.0006
82430871|NCT01484496|164570118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51||||0.0004|TWO_SIDED|95.0|0.35|0.74|||Cox proportional hazards model|||||0.74|0.35|0.0004
82430872|NCT01484496|164570119|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0732|TWO_SIDED|95.0|0.95|2.84|||Regression, Logistic|||||2.84|0.95|0.0732
82430873|NCT04105868|164570123|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.004|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-training SSVEP competition index scores||Null hypothesis: No within-subject change in SSVEP competition index from baseline to post-training.||||.004
82430874|NCT04105868|164570124|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.25|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-stressor VAS sadness scores.||Null hypothesis: No within-subject change in VAS Sadness scores from baseline to post-stressor.||||.25
82430875|NCT04105868|164570125|OTHER|Within-group pre/post differences were tested using a paired t-test.||||||0.471|||||||t-test, 2 sided|Two-tailed paired samples t-test comparing baseline and post-stressor VAS anxiety scores.||Null hypothesis: No within-subject change in VAS Anxiety scores from baseline to post-stressor.||||.471
82430876|NCT02688192|164570132|SUPERIORITY|||||||0.39|||||||ANOVA|df = 33||Effects of the intervention on changes in the General Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||0.39
82430877|NCT02688192|164570132|SUPERIORITY|||||||0.49|||||||ANOVA|df = 33||Effects of the intervention on changes in the Sleep/Rest Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.49
82430878|NCT02688192|164570132|SUPERIORITY|||||||0.83|||||||ANOVA|df = 33||Effect of the intervention on changes in the Cognitive Subscale from baseline to post-intervention (3 months) were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.83
82430879|NCT02688192|164570133|SUPERIORITY|||||||0.98|||||||ANOVA|df = 33||Effects of the intervention on changes in the PedsQL Physical Summary score were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.98
82430880|NCT02688192|164570133|SUPERIORITY|||||||0.85|||||||ANOVA|df = 29||Effects of the intervention on changes in the PedsQL Psychosocial Summary score were evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.85
82430881|NCT02688192|164570134|SUPERIORITY|||||||0.29|||||||ANOVA|df = 29||||||.29
82430882|NCT02688192|164570135|SUPERIORITY|||||||0.019|||||||ANOVA|df = 32||Effect of the intervention on changes in lower body estimated 1-RM was evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data||||.019
82430883|NCT02688192|164570135|SUPERIORITY|||||||0.34|||||||ANOVA|df = 32||Effect of the intervention on changes in upper body estimated 1-RM was evaluated using group x time in a repeated measures analysis of variance performed in SAS using PROC GLM for participants with complete data.||||.34
82536912|NCT00762463|164773166|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|2.221||0.5183|TWO_SIDED|95.0|-5.82|2.94|||ANCOVA|Change from baseline analyzed using ANCOVA with treatment group and investigational centers as factors and baseline value as a covariate.||The p-value is for the null hypothesis test H0: u1=u2 vs. H1: u1 is not equal to u2.||2.94|-5.82|0.5183
82536913|NCT04358549|164773171|SUPERIORITY||Median Difference (Final Values)|14.0||||0.0415|TWO_SIDED|90.0|||||Log Rank|||||||0.0415
82536914|NCT04358549|164773172|SUPERIORITY||Odds Ratio (OR)|0.653|||||TWO_SIDED|90.0|0.19|2.24||||||||2.240|0.190|
82536915|NCT04358549|164773173|SUPERIORITY||Median Difference (Final Values)|3.0||||0.9879|TWO_SIDED|90.0|||||Log Rank|||||||0.9879
82648550|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.34||0.6329|TWO_SIDED|95.0|-11.01|6.82|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.82|-11.01|0.6329
82430884|NCT00075764|164570137|OTHER||Hazard Ratio (HR)|0.8||||0.007|TWO_SIDED|95.0|0.68|0.94|||Log Rank|Two-sided stratified log-rank test||||0.94|0.68|0.007
82430885|NCT00075764|164570139|OTHER||Hazard Ratio (HR)|0.81||||0.049|TWO_SIDED|95.0|0.65|1.0|||Log Rank|A log-rank test, stratified according to prior or no prior tamoxifen therapy.||||1.00|0.65|0.049
82430886|NCT01773967|164570146|SUPERIORITY|||||||0.83|||||||Mantel Haenszel|||||||0.83
82430887|NCT01773967|164570148|SUPERIORITY|||||||0.26|||||||Van Elteren's modification Mann-Whitney|||||||0.26
82430888|NCT01135459|164570149|OTHER||Odds Ratio (OR)|0.7649||||0.3989|TWO_SIDED|95.0|0.4|1.4|||Regression, Logistic|||Analysis was performed using a logistic regression model with treatment and stratification factors as main factors.||1.4|0.4|0.3989
82430889|NCT01151020|164570210|SUPERIORITY_OR_OTHER_LEGACY||Free from major adverse event rate (%)|96.4|||<|0.001|TWO_SIDED|95.0|91.0|99.0|||Exact binomial test|||Null hypothesis: The 30-day freedom from MAE for patients treated with the Zenith® TX2® Low Profile TAA Endovascular Graft does not meet the performance goal of 80.6%.||99|91|< 0.001
82536916|NCT02501629|164773219|SUPERIORITY||Odds Ratio (OR)|1.23||||0.468|TWO_SIDED|95.0|0.702|2.157||Significance at 0.05.|proportional odds model|factors for treatment group and randomization strata (age and OCS dose); baseline OCS dose and duration of OCS use prior to study were covariates.||The proportional odds ratio (reslizumab/placebo) was estimated from this model, representing the ratio of the odds of a patient outcome being in a higher OCS dose reduction category for reslizumab compared to placebo.||2.157|0.702|0.468
82536917|NCT02501629|164773220|SUPERIORITY||Odds Ratio (OR)|1.45||||0.234|TWO_SIDED|95.0|0.786|2.683||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.683|0.786|0.234
82536918|NCT02501629|164773221|SUPERIORITY||Odds Ratio (OR)|1.19||||0.596|TWO_SIDED|95.0|0.631|2.229||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.229|0.631|0.596
82536919|NCT02501629|164773222|SUPERIORITY||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|10.759||0.101|TWO_SIDED|95.0|-38.986|3.494|||mixed model repeated measures (MMRM)||Reslizumab - Placebo|Mixed model repeated measures (MMRM) with fixed effects for treatment, visit, treatment by visit interaction, age group, and OCS dose group, duration of OCS use and baseline value as covariates, and patient as a random effect. Unstructured covariance was assumed for the repeated measures.||3.494|-38.986|0.101
82536920|NCT02501629|164773223|SUPERIORITY||Odds Ratio (OR)|1.36||||0.341|TWO_SIDED|95.0|0.722|2.562||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||2.562|0.722|0.341
82430890|NCT01151020|164570211|SUPERIORITY_OR_OTHER_LEGACY||Device success rate (%)|92.7|||<|0.001|TWO_SIDED|95.0|86.2|96.8|||Exact binomial test|||Null Hypothesis: The 12-month device success for patients treated with the Zenith® TX2® Low Profile TAA Endovascular Graft does not meet the performance goal of 80.7%.||96.8|86.2|< 0.001
82430891|NCT01107964|164570248|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
82430892|NCT01107964|164570249|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82430893|NCT01107964|164570250|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82430894|NCT01107964|164570251|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82430895|NCT00503425|164570256|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 1.|t-test, 2 sided|||||||<0.0001
82430896|NCT00503425|164570256|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 2.|t-test, 2 sided|||||||<0.0001
82430897|NCT00503425|164570256|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 3.|t-test, 2 sided|||||||<0.0001
82430898|NCT00503425|164570256|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Change from baseline in mean DAS28 was analyzed using paired t-test for course 4.|t-test, 2 sided|||||||0.0001
82430899|NCT02148263|164570260|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
82430900|NCT02148263|164570261|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82430901|NCT02148263|164570262|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||.94
82430902|NCT02148263|164570263|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||.96
82430903|NCT02148263|164570264|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||.14
82430904|NCT02148263|164570265|SUPERIORITY|This is for the upper eyelid evaluation.||||||0.27|||||||Fisher Exact|||||||.27
82430905|NCT02148263|164570265|SUPERIORITY|||||||0.58|||||||Fisher Exact|||This is for the lower eyelid evaluation.||||.58
82536921|NCT02501629|164773224|SUPERIORITY||CAE rate ratio|0.82||||0.407|TWO_SIDED|95.0|0.504|1.321|||Negative binomial regression model|Negative binomial regression model adjusted for stratification factors (OCS dose group), age, number of prior exacerbations, and an offset variable.|reslizumab vs placebo|||1.321|0.504|0.407
82536922|NCT02501629|164773225|SUPERIORITY||Odds Ratio (OR)|0.82||||0.628|TWO_SIDED|95.0|0.371|1.818||significance at 0.05.|Regression, Logistic|logistic regression model adjusted for treatment, stratification factors (age group and OCS dose group), duration of OCS use, and baseline value.||As the analysis of the primary efficacy endpoint did not meet criteria for statistical significance (p≤0.05), the secondary efficacy endpoints were not interpreted inferentially according to the pre-defined hierarchy. P-values are nominal, meaning they were obtained from the analysis without adjustments to protect family-wise errors and should be interpreted with caution. Nominal p-values do not indicate treatment differences.||1.818|0.371|0.628
82536923|NCT02004613|164773228|SUPERIORITY||Risk Ratio (RR)|0.91||||0.34|TWO_SIDED|97.8|0.72|1.15|||Regression, Logistic|||Hypothesis: dexmedetomidine would reduce the incidence of postoperative atrial arrhythmias.||1.15|0.72|0.34
82536924|NCT02004613|164773229|SUPERIORITY||Risk Ratio (RR)|1.48||||0.026|TWO_SIDED|97.8|0.99|2.23|||Regression, Logistic|||hypothesis: Dexmedetomidine may reduce the incidence of postoperative delirium.||2.23|0.99|0.026
82430906|NCT02148263|164570266|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Extent||||.50
82430907|NCT02148263|164570266|SUPERIORITY|||||||0.76|||||||Fisher Exact|||Type||||.76
82451593|NCT02106403|164609535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.13|||<|0.0001|TWO_SIDED|95.0|6.23|18.04|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||18.04|6.23|<0.0001
82536925|NCT02004613|164773230|SUPERIORITY||Risk Ratio (RR)|1.4||||0.14|TWO_SIDED|97.5|0.84|2.34|||Regression, Logistic|||||2.34|0.84|0.14
82536926|NCT02004613|164773231|OTHER||Risk Ratio (RR)|0.87||||0.29|TWO_SIDED|97.5|0.65|1.16|||Regression, Logistic|||||1.16|0.65|0.29
82536927|NCT01124162|164773254|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|108.14|||||TWO_SIDED|90.0|97.43|120.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120.03|97.43|
82536928|NCT01124162|164773255|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|101.7|||||TWO_SIDED|90.0|98.57|104.93|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.93|98.57|
82536929|NCT01124162|164773256|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|101.5|||||TWO_SIDED|90.0|98.41|104.68|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.68|98.41|
82536930|NCT01124162|164773257|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|102.08|||||TWO_SIDED|90.0|98.24|106.06|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.06|98.24|
82648551|NCT00272961|165012754|SUPERIORITY_OR_OTHER||LS Mean Difference|3.83|STANDARD_ERROR_OF_MEAN|4.51||0.4037|TWO_SIDED|95.0|-5.45|13.11|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||13.11|-5.45|0.4037
82430908|NCT02148263|164570266|SUPERIORITY|||||||0.5|||||||Fisher Exact|||Depth||||.50
82430909|NCT02148263|164570267|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82430910|NCT02148263|164570268|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82430911|NCT03328832|164570292|EQUIVALENCE|equivalence means p value \> 0.05||||||0.276|||||||t-test, 2 sided|||||||0.276
82430912|NCT03328832|164570293|EQUIVALENCE|equivalence means p value \> 0.05||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82430913|NCT03328832|164570294|EQUIVALENCE|Equivalence means p value \> 0.05||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82430914|NCT00873821|164570297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.83|||<|0.001|TWO_SIDED|95.0|26.33|55.32|||Mixed Models Analysis|||Difference (placebo minus MK-0941) in change from baseline to Day 13||55.32|26.33|<0.001
82430915|NCT02012218|164570298|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values were calculated according to testing a null hypothesis of zero mean change.|Mixed Models Analysis|This analysis was conducted using a mixed model repeated measures analysis on observed case data.||The null hypothesis of zero in mean change from baseline in MADRS total score at Week 6 was tested for each treatment group at significance level of 0.05 (2-sided).||||<0.0001
82430916|NCT04417257|164570308|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.7377|TWO_SIDED|95.0|-15.0|9.0||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants with health status data missing on Day 29 were treated as non-responders, where a non-responder was defined as not reaching a health status of 1-4.||9|-15|0.7377
82430917|NCT04417257|164570308|SUPERIORITY||Mean Difference (Final Values)|-3.0||||1|TWO_SIDED|95.0|-10.0|2.8||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants from Per-Protocol population and with available Day 29 health status data||2.8|-10.0|1.000
82451594|NCT02106403|164609535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.18||||0.4645|TWO_SIDED|95.0|-8.09|3.72|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||3.72|-8.09|0.4645
82451595|NCT02106403|164609535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.32|||<|0.0001|TWO_SIDED|95.0|8.41|20.22|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||20.22|8.41|<0.0001
82451596|NCT02106403|164609536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.41||||0.0357|TWO_SIDED|95.0|0.44|12.38|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus negative control such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||12.38|0.44|0.0357
82451597|NCT02106403|164609536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.02||||0.503|TWO_SIDED|95.0|-3.95|8.0|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the reference product minus negative control such that a positive difference showed improved cooling in the reference product.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||8.00|-3.95|0.5030
82451598|NCT02106403|164609536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39||||0.1482|TWO_SIDED|95.0|-1.59|10.36|||ANOVA|Calculated from mixed effect ANOVA analysis with treatment and assessment site as fixed effects and subject as random effect.|Difference was calculated as the prototype disinfectant spray formulation minus reference product such that a positive difference showed improved cooling in the prototype disinfectant spray formulation.|The null and alternative hypotheses were: H0: product difference was null vs. Ha: product difference was not null.||10.36|-1.59|0.1482
82451599|NCT02024724|164609538|SUPERIORITY||Median Difference (Final Values)|-30.0||||0.196|TWO_SIDED|95.0|-45.0|10.0|||Chi-squared|||||10.00|-45.00|.196
82451600|NCT01128946|164609553|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.06|||<|0.0001|TWO_SIDED|95.0|19.63|26.48||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||26.48|19.63|<0.0001
82451601|NCT01128946|164609554|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.75|||<|0.0001|TWO_SIDED|95.0|7.33|14.17||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.17|7.33|<0.0001
82451602|NCT01128946|164609554|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.2|||<|0.0001|TWO_SIDED|95.0|8.74|15.67||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.67|8.74|<0.0001
82536931|NCT01124162|164773258|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|100.31|||||TWO_SIDED|90.0|97.84|102.84|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.84|97.84|
82536932|NCT01124162|164773259|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|100.25|||||TWO_SIDED|90.0|97.87|102.69|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.69|97.87|
82536933|NCT02022462|164773260|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change of z-scores.||||.073
82648552|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|4.08||0.7685|TWO_SIDED|95.0|-7.19|9.62|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||9.62|-7.19|0.7685
82536934|NCT02022462|164773260|SUPERIORITY||Mean Difference (Net)|0.19|STANDARD_DEVIATION|0.91||0.066|TWO_SIDED||||||t-test, 2 sided|||Within-group mean z-score change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.066
82536935|NCT02022462|164773261|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.983|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.983
82536936|NCT02022462|164773261|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_DEVIATION|1.95||0.533|TWO_SIDED||||||t-test, 2 sided|||Within-group mean change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.533
82536937|NCT02022462|164773262|SUPERIORITY|||||||0.731|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.731
82536938|NCT02022462|164773262|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|1.67||0.211|TWO_SIDED||||||t-test, 2 sided|||Within-group mean change from 6 months to 12-months (post-intervention) for the immediate treatment group only.||||.211
82577325|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.162||0.0855|TWO_SIDED|95.0|-0.6|0.04|||MMRM|||Somatic Symptoms General, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.60|0.0855
82577326|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.157||0.3068|TWO_SIDED|95.0|-0.47|0.15|||MMRM|||Somatic Symptoms General, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.47|0.3068
82577327|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.164||0.0069|TWO_SIDED|95.0|-0.77|-0.13|||MMRM|||Somatic Symptoms General, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.13|-0.77|0.0069
82577328|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.159||0.2174|TWO_SIDED|95.0|-0.51|0.12|||MMRM|||Somatic Symptoms General, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.51|0.2174
82648553|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.88|STANDARD_ERROR_OF_MEAN|3.49||0.1739|TWO_SIDED|95.0|-12.07|2.3|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||2.30|-12.07|0.1739
82648554|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|2.71|STANDARD_ERROR_OF_MEAN|3.61||0.4612|TWO_SIDED|95.0|-4.74|10.15|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||10.15|-4.74|0.4612
82430918|NCT04417257|164570308|OTHER||Odds Ratio (OR)|0.57||||0.0177|TWO_SIDED|95.0|0.359|0.907||À priori threshold for statistical significance is set at 0.1|Regression, Logistic|"This P-value is for the baseline factor Health Status at baseline. Other baseline factors not significant."||Multivariable logistic regression was constructed for the proportion of participants alive and free of respiratory failure on Day 29 as the outcome variable by screening baseline covariates using stepwise technique with an alpha of 0.1 as the entry and stay criterion, and treatment group was forced to remain in the model. Health status at baseline was used as a continuous variable||0.907|0.359|0.0177
82430919|NCT04417257|164570308|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.3537|TWO_SIDED|95.0|-10.2|18.2||One-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 3 + 4 grouped together with imputation of failure for missing Day 29 data||18.2|-10.2|0.3537
82430920|NCT04417257|164570308|SUPERIORITY||Mean Difference (Final Values)|-16.2||||0.959|TWO_SIDED|95.0|-36.6|5.4||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 5 and imputation of failure for missing Day 29 data||5.4|-36.6|0.9590
82430921|NCT04417257|164570308|SUPERIORITY||Mean Difference (Final Values)|6.9||||0.0553|TWO_SIDED|95.0|0.4|17.1||one-sided (right tailed)|Fisher Exact||A positive difference favours LAU-7b, a negative difference favours placebo.|Participants in the ITT population with baseline Health Status of 3 + 4 and available Day 29 health status data (no imputation)||17.1|0.4|0.0553
82430922|NCT04417257|164570309|SUPERIORITY||Mean Difference (Net)|2.7||||0.66|TWO_SIDED|95.0|-6.9|13.9||Two-sided test|Fisher Exact||A negative difference favours LAU-7b, a positive difference favours placebo.|ITT population with Day 60 health status/survival data||13.9|-6.9|0.6600
82430923|NCT04417257|164570309|SUPERIORITY||Mean Difference (Net)|0.5||||1|TWO_SIDED|95.0|-10.6|12.6||Two-sided test|Fisher Exact||A negative difference favours LAU-7b, a positive difference favours placebo.|Per-Protocol population with Day 60 health status/survival data||12.6|-10.6|1.000
82430924|NCT04417257|164570312|SUPERIORITY|||||||0.5459||||||two-sided test|Wilcoxon (Mann-Whitney)|||ITT population, Day 14. The proportional odds assumption of the ordinal logistic regression was not met (P-value of Score test = 0.0180) and a Wilcoxon two sample test was performed.||||0.5459
82430925|NCT04417257|164570312|SUPERIORITY|||||||0.6229||||||two-sided test|Wilcoxon (Mann-Whitney)|||ITT population, Day 29. The proportional odds assumption of the ordinal logistic regression was not met (P-value \<.0001) and a Wilcoxon two sample test was performed.||||0.6229
82430926|NCT04417257|164570313|SUPERIORITY|||||||0.8222||||||two-sided test|Fisher Exact|||Total number of participants in the overall ITT population who had the event prior to or with Day 29 assessment available.||||0.8222
82430927|NCT04417257|164570313|SUPERIORITY|||||||0.0536||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 29 assessment available.||||0.0536
82430928|NCT04417257|164570313|SUPERIORITY|||||||0.1131||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 5 at baseline who had the event prior to or with Day 29 assessment available.||||0.1131
82577329|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.174||0.102|TWO_SIDED|95.0|-0.63|0.06|||MMRM|||Somatic Symptoms General, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.63|0.1020
82430929|NCT04417257|164570315|SUPERIORITY|||||||0.6689||||||two-sided test|Fisher Exact|||Total number of participants in the overall ITT population who had the event prior to or with Day 60 assessment available.||||0.6689
82536939|NCT02022462|164773263|SUPERIORITY||Mean Difference (Net)|0.04||||0.244|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.244
82536940|NCT02022462|164773263|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_DEVIATION|0.35||0.016|TWO_SIDED||||||t-test, 2 sided|||||||.016
82536941|NCT02022462|164773264|SUPERIORITY||Mean Difference (Net)|0.4||||0.019|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.019
82536942|NCT02022462|164773264|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.66||0.609|TWO_SIDED||||||t-test, 2 sided|||||||.609
82652211|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.311||||0.0471|TWO_SIDED|95.0|-0.618|-0.004||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.004|-0.618|0.0471
82430930|NCT04417257|164570315|SUPERIORITY|||||||0.0536||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available.||||0.0536
82430931|NCT04417257|164570315|SUPERIORITY|||||||0.0786||||||two-sided test|Fisher Exact|||Total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available.||||0.0786
82430932|NCT04417257|164570317|SUPERIORITY|Two-sided test||||||1|||||||Fisher Exact|||||||1.000
82430933|NCT04417257|164570318|SUPERIORITY|||||||1||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group||||1.000
82430934|NCT04417257|164570318|SUPERIORITY|||||||0.068||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with health status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0680
82430935|NCT04417257|164570318|SUPERIORITY|||||||0.0534||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with health status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0534
82430936|NCT04417257|164570319|SUPERIORITY|||||||0.7923||||||Two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group||||0.7923
82430937|NCT04417257|164570320|SUPERIORITY|||||||0.8886||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group.||||0.8886
82430938|NCT04417257|164570320|SUPERIORITY|||||||0.2735||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.2735
82430939|NCT04417257|164570320|SUPERIORITY|||||||0.3604||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.3604
82430940|NCT04417257|164570321|SUPERIORITY|||||||1||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants who had the event prior to or with Day 60 assessment available within each group.||||1.000
82430941|NCT04417257|164570321|SUPERIORITY|||||||0.0253||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 3 + 4 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.0253
82430942|NCT04417257|164570321|SUPERIORITY|||||||0.2729||||||two-sided test|Fisher Exact|||Calculated based on the total number of participants with Health Status 5 at baseline who had the event prior to or with Day 60 assessment available within each group.||||0.2729
82430943|NCT04417257|164570322|SUPERIORITY|||||||0.646||||||Alpha set at 0.05|Mixed Models Analysis|||Null hypothesis of no difference||||0.6460
82430944|NCT04417257|164570323|SUPERIORITY|||||||0.8722|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Overall ITT population.||||0.8722
82430945|NCT04417257|164570323|SUPERIORITY|||||||0.539|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Participants with Health Status 3 + 4 at baseline.||||0.5390
82430946|NCT04417257|164570323|SUPERIORITY|||||||0.2319|||||||Log Rank|||If health status was not improved (remains stable or aggravates) by Day 60, it was censored at Day 60. Participants with Health Status 5 at baseline.||||0.2319
82430947|NCT04417257|164570324|SUPERIORITY|||||||0.9358|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Overall ITT population.||||0.9358
82430948|NCT04417257|164570324|SUPERIORITY|||||||0.63|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Participants with Health Status 3 + 4 at baseline.||||0.6300
82430949|NCT04417257|164570324|SUPERIORITY|||||||0.655|||||||Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Participants with Health Status 5 at baseline.||||0.6550
82430950|NCT04417257|164570325|SUPERIORITY|||||||0.9101||||||Two-sided test|Log Rank|||If health status did not reach categories 2 or 1 by Day 60, it was censored at Day 60. Overall ITT population.||||0.9101
82430951|NCT04417257|164570328|SUPERIORITY|||||||0.2706||||||two-sided test|Wilcoxon (Mann-Whitney)|||Overall ITT population. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.2706
82430952|NCT04417257|164570328|SUPERIORITY|||||||0.0974||||||two-sided test|Wilcoxon (Mann-Whitney)|||Participants with Health Status 3 + 4 at baseline. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.0974
82536943|NCT02022462|164773265|SUPERIORITY|||||||0.203|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.203
82536944|NCT02022462|164773265|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|0.59||0.48|TWO_SIDED||||||t-test, 2 sided|||||||.480
82536945|NCT02022462|164773266|SUPERIORITY||Mean Difference (Net)|0.01||||0.897|TWO_SIDED||||||t-test, 2 sided|||||||.897
82536946|NCT02022462|164773266|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.48||0.903|TWO_SIDED||||||t-test, 2 sided|||||||.903
82536947|NCT02022462|164773267|SUPERIORITY||Mean Difference (Net)|-0.787||||0.433|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.433
82536948|NCT02022462|164773267|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.52||0.936|TWO_SIDED||||||t-test, 2 sided|||||||.936
82648555|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|3.67||0.7172|TWO_SIDED|95.0|-8.9|6.21|||ANCOVA|||Week 10 Sitting: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||6.21|-8.90|0.7172
82430953|NCT04417257|164570328|SUPERIORITY|||||||0.5549||||||two-sided test|Wilcoxon (Mann-Whitney)|||Participants with Health Status 5 at baseline. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value.||||0.5549
82430954|NCT04417257|164570329|SUPERIORITY|||||||0.4787||||||Two-sided test|Wilcoxon (Mann-Whitney)|||Overall ITT population. The Kolmogorov-Smirnov test and visual check indicated the normality assumption was rejected, and two-sided Wilcoxon rank sum test was used to obtain the P-value||||0.4787
82536949|NCT02022462|164773268|SUPERIORITY|||||||0.228|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change in z-scores of diet.||||.228
82536950|NCT02022462|164773268|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_DEVIATION|1.03||0.617|TWO_SIDED||||||t-test, 2 sided|||||||.617
82430955|NCT04417257|164570331|SUPERIORITY||Least Squares Mean difference|-0.02||||0.4746|TWO_SIDED|95.0|-0.07|0.03|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 14 or end of hospitalization data.||0.03|-0.07|0.4746
82430956|NCT04417257|164570331|SUPERIORITY||Leat Squares Mean difference|-0.01||||0.7445|TWO_SIDED|95.0|-0.06|0.05|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 29.||0.05|-0.06|0.7445
82430957|NCT04417257|164570331|SUPERIORITY||Least Squares Mean difference|-0.01||||0.7105|TWO_SIDED|95.0|-0.07|0.05|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 45.||0.05|-0.07|0.7105
82430958|NCT04417257|164570331|SUPERIORITY||Least Squares Mean difference|-0.01||||0.6424|TWO_SIDED|95.0|-0.07|0.04|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 60.||0.04|-0.07|0.6424
82430959|NCT04417257|164570331|SUPERIORITY||Least Square Means difference|0.05||||0.2789|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 14 or end of hospitalization data.||0.14|-0.04|0.2789
82430960|NCT04417257|164570331|SUPERIORITY||Least Square Means difference|0.05||||0.2884|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 29||0.14|-0.04|0.2884
82430961|NCT04417257|164570331|SUPERIORITY||Least Square Means difference|0.06||||0.2058|TWO_SIDED|95.0|-0.03|0.15|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 45||0.15|-0.03|0.2058
82430962|NCT04417257|164570331|SUPERIORITY||Least Square Means difference|0.03||||0.516|TWO_SIDED|95.0|-0.06|0.12|||Mixed Models Analysis||A negative difference favours LAU-7b, a positive difference favours placebo.|The data were analyzed using the Mixed Model Repeated Measures (MMRM) with change from baseline as the outcome variable. Day 60||0.12|-0.06|0.5160
82430963|NCT04951622|164570332|SUPERIORITY||Difference of LS Means|-1.45|STANDARD_ERROR_OF_MEAN|0.47|=|0.002|TWO_SIDED|95.0|-2.38|-0.52|||mixed effects model for repeated measure|||||-0.52|-2.38|=0.002
82430964|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|90.0|-0.57|0.43|||||6 months visit|||0.43|-0.57|
82430965|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.2|||||TWO_SIDED|90.0|-0.31|0.71|||||12 months visit|||0.71|-0.31|
82430966|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|90.0|-0.33|0.68|||||18 months visit|||0.68|-0.33|
82430967|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|90.0|-0.71|0.26|||||6 months visit|||0.26|-0.71|
82430968|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|90.0|-0.26|0.72|||||12 months visit|||0.72|-0.26|
82430969|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.21|0.77|||||18 months visit|||0.77|-0.21|
82430970|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|90.0|-0.66|0.29|||||6 months visit|||0.29|-0.66|
82430971|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.28|||||TWO_SIDED|90.0|-0.19|0.75|||||12 months visit|||0.75|-0.19|
82430972|NCT01342926|164570373|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.39|||||TWO_SIDED|90.0|-0.08|0.86|||||18 months visit|||0.86|-0.08|
82430973|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|90.0|-0.34|0.61|||||6 months visit|||0.61|-0.34|
82430974|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|||||TWO_SIDED|90.0|-0.07|0.89|||||12 months visit|||0.89|-0.07|
82430975|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|||||TWO_SIDED|90.0|-0.06|0.89|||||18 months visit|||0.89|-0.06|
82430976|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|||||TWO_SIDED|90.0|-0.55|0.37|||||6 months visit|||0.37|-0.55|
82536951|NCT02022462|164773269|SUPERIORITY||Mean Difference (Net)|0.01||||0.894|TWO_SIDED||||||t-test, 2 sided|||||||.894
82536952|NCT02022462|164773269|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.46||0.93|TWO_SIDED||||||t-test, 2 sided|||||||.930
82536953|NCT02022462|164773270|SUPERIORITY||Mean Difference (Net)|0.15||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||.530
82536954|NCT02022462|164773270|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_DEVIATION|1.27||0.458|TWO_SIDED||||||t-test, 2 sided|||||||.458
82451603|NCT01128946|164609554|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|12.31|||<|0.0001|TWO_SIDED|95.0|8.9|15.72||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||15.72|8.90|<0.0001
82451604|NCT01128946|164609554|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.46||||0.407|TWO_SIDED|95.0|-2.0|4.91||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||4.91|-2.00|0.4070
82451605|NCT01128946|164609554|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.85|||<|0.0001|TWO_SIDED|95.0|-14.3|-7.4||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||-7.40|-14.30|<0.0001
82451606|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.21|||<|0.0001|TWO_SIDED|95.0|11.46|14.96||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||14.96|11.46|<0.0001
82451607|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.79|||<|0.0001|TWO_SIDED|95.0|7.04|10.55||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||10.55|7.04|<0.0001
82451608|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.03|||<|0.0001|TWO_SIDED|95.0|6.25|9.8||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||9.80|6.25|<0.0001
82451609|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.41|||<|0.0001|TWO_SIDED|95.0|2.66|6.16||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||6.16|2.66|<0.0001
82451610|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.77||||0.3942|TWO_SIDED|95.0|-2.54|1.0||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||1.00|-2.54|0.3942
82451611|NCT01128946|164609555|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.18|||<|0.0001|TWO_SIDED|95.0|-6.95|-3.41||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for treatments in comparison, to be equal with respect to enamel fluoride uptake. Statistical tests were 2-sided with a significance level of 0.05.||-3.41|-6.95|<0.0001
82451612|NCT00145574|164609562|SUPERIORITY_OR_OTHER|||||||0.1122|||||||ANCOVA|||The primary null hypotheses were tested sequentially in the following order: 1) no difference between the high-dose colesevelam HCl and placebo for percent change in LDL-C from study baseline to Week 8 endpoint with the last observation carried forward (LOCF) and 2) no difference between the low-dose colesevelam HCl and placebo for percent change in LDL-C from study baseline to Week 8 endpoint with LOCF. The hypotheses were tested at a 2-sided significance level of 5%.||||0.1122
82451613|NCT00145574|164609562|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82451614|NCT00145574|164609563|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||ANCOVA|||||||0.5260
82451615|NCT00145574|164609563|SUPERIORITY_OR_OTHER|||||||0.0085||95.0|||||ANCOVA|||||||0.0085
82451616|NCT00145574|164609564|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82451617|NCT00145574|164609564|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||||||0.0008
82451618|NCT00145574|164609565|SUPERIORITY_OR_OTHER|||||||0.0155||95.0|||||ANCOVA|||||||0.0155
82451619|NCT00145574|164609565|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82451620|NCT00145574|164609566|SUPERIORITY_OR_OTHER|||||||0.3482||95.0|||||ANCOVA|||||||0.3482
82451621|NCT00145574|164609566|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
82451622|NCT00145574|164609567|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|||||||0.0002
82536955|NCT02022462|164773271|SUPERIORITY||Mean Difference (Net)|0.31||||0.036|TWO_SIDED||||||t-test, 2 sided|||||||.036
82648556|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|3.45|STANDARD_ERROR_OF_MEAN|4.12||0.4098|TWO_SIDED|95.0|-5.01|11.91|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||11.91|-5.01|0.4098
82430977|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.13|0.8|||||12 months visit|||0.80|-0.13|
82430978|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||||TWO_SIDED|90.0|-0.3|0.63|||||18 months visit|||0.63|-0.30|
82430979|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||||TWO_SIDED|90.0|-0.31|0.57|||||6 months visit|||0.57|-0.31|
82451623|NCT00145574|164609567|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82451624|NCT00145574|164609568|SUPERIORITY_OR_OTHER|||||||0.7433||95.0|||||ANCOVA|||||||0.7433
82451625|NCT00145574|164609568|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANCOVA|||||||0.0003
82451626|NCT00621140|164609576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.85|-0.53|||ANCOVA|||Linagliptin vs. Placebo||-0.53|-0.85|<0.0001
82451627|NCT00621140|164609577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|-0.58|-0.34|||ANCOVA|||Linagliptin vs. Placebo||-0.34|-0.58|<0.0001
82451628|NCT00621140|164609578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.76|-0.47|||ANCOVA|||Linagliptin vs. Placebo||-0.47|-0.76|<0.0001
82451629|NCT00621140|164609579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.82|-0.49|||ANCOVA|||Linagliptin vs. Placebo||-0.49|-0.82|<0.0001
82451630|NCT00621140|164609580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.31|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001||95.0|-30.37|-16.26|||ANCOVA|||Linagliptin vs. Placebo||-16.26|-30.37|<0.0001
82451631|NCT00621140|164609581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|2.81|<|0.0001||95.0|-23.11|-12.08|||ANCOVA|||Linagliptin vs. Placebo||-12.08|-23.11|<0.0001
82451632|NCT00621140|164609582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.98|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001||95.0|-27.21|-14.75|||ANCOVA|||Linagliptin vs. Placebo||-14.75|-27.21|<0.0001
82451633|NCT00621140|164609583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.36|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-27.05|-13.68|||ANCOVA|||Linagliptin vs. Placebo||-13.68|-27.05|<0.0001
82536956|NCT02022462|164773271|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|1.0||0.892|TWO_SIDED||||||t-test, 2 sided|||||||.892
82536957|NCT02022462|164773272|SUPERIORITY||Mean Difference (Net)|0.41||||0.931|TWO_SIDED||||||t-test, 2 sided|||||||.931
82430980|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|||||TWO_SIDED|90.0|0.1|0.99|||||12 months visit|||0.99|0.10|
82451634|NCT00621140|164609584|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.869||||0.0006||95.0|1.575|5.225|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.225|1.575|0.0006
82451635|NCT00621140|164609586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.436||||0.0323||95.0|1.078|5.507|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.507|1.078|0.0323
82451636|NCT00621140|164609588|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.243|||<|0.0001||95.0|2.665|6.755|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||6.755|2.665|<0.0001
82451637|NCT00621140|164609589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.38|STANDARD_DEVIATION|12.05|<|0.0001||95.0|-82.33|-34.43|||ANCOVA|||Linagliptin vs. Placebo||-34.43|-82.33|<0.0001
82451638|NCT02669121|164609594|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|99.99|-13.181|0.997|||||||The vaccine efficacy was met if lower bound of confidence interval (CI) for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the Cox proportional hazard (PH) model. The 99.99% CI for the VE was obtained by taking 1 minus the 99.99% CI of the hazard ratio from the PH model.|0.997|-13.181|
82451639|NCT02669121|164609595|SUPERIORITY||Cox Proportional Hazard|0.618|||||TWO_SIDED|95.01|0.208|0.816|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95.01% CI for the VE was obtained by taking 1 minus the 95.01% CI of the hazard ratio from the PH model.|0.816|0.208|
82451640|NCT02669121|164609596|SUPERIORITY||Cox Proportional Hazard|0.618|||||TWO_SIDED|95.0|0.208|0.816|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95% CI for the VE was obtained by taking 1 minus the 95% CI of the hazard ratio from the PH model.|0.816|0.208|
82451641|NCT02669121|164609597|SUPERIORITY||Cox Proportional Hazard|0.8|||||TWO_SIDED|95.0|-0.711|0.977|||||||The vaccine efficacy was met if lower bound of CI for vaccine efficacy was above 0. Vaccine efficacy (VE) was defined as 1-(hazard rate for NoV vaccine arm / hazard rate for placebo arm), where the hazard ratio is from the PH model. The 95% CI for the VE was obtained by taking 1 minus the 95% CI of the hazard ratio from the PH model.|0.977|-0.711|
82536958|NCT02022462|164773272|SUPERIORITY||Mean Difference (Net)|-6.43|STANDARD_DEVIATION|24.34||0.058|TWO_SIDED||||||t-test, 2 sided|||||||.058
82536959|NCT02022462|164773273|SUPERIORITY||Mean Difference (Net)|0.4||||0.576|TWO_SIDED||||||t-test, 2 sided|||||||.576
82536960|NCT02022462|164773273|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_DEVIATION|33.89||0.829|TWO_SIDED||||||t-test, 2 sided|||||||.829
82536961|NCT02022462|164773274|SUPERIORITY|||||||0.792|||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.792
82430981|NCT01342926|164570381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|||||TWO_SIDED|90.0|0.47|1.36|||||18 months visit|||1.36|0.47|
82430982|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|90.0|-0.34|0.55|||||6 months visit|||0.55|-0.34|
82536962|NCT02022462|164773274|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_DEVIATION|0.55||0.622|TWO_SIDED||||||t-test, 2 sided|||||||.622
82648557|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|3.48||0.6943|TWO_SIDED|95.0|-8.54|5.78|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||5.78|-8.54|0.6943
82430983|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|||||TWO_SIDED|90.0|0.0|0.9|||||12 months visit|||0.90|0.00|
82430984|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.12|0.77|||||18 months visit|||0.77|-0.12|
82430985|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|90.0|-0.51|0.35|||||6 months visit|||0.35|-0.51|
82430986|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|90.0|-0.21|0.66|||||12 months visit|||0.66|-0.21|
82430987|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|90.0|-0.32|0.55|||||18 months visit|||0.55|-0.32|
82430988|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|90.0|-0.48|0.35|||||6 months visit|||0.35|-0.48|
82430989|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|90.0|-0.22|0.62|||||12 months visit|||0.62|-0.22|
82430990|NCT01342926|164570382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|90.0|0.08|0.92|||||18 months visit|||0.92|0.08|
82430991|NCT03941483|164570439|SUPERIORITY||Risk Ratio (RR)|1.174||||0.595|TWO_SIDED|90.0|0.715|1.927|||Chi-squared|||||1.927|0.715|0.595
82430992|NCT03941483|164570440|SUPERIORITY||Risk Ratio (RR)|1.297||||0.335|TWO_SIDED|90.0|0.831|2.026|||Chi-squared|||||2.026|0.831|0.335
82430993|NCT03941483|164570441|SUPERIORITY||Risk Ratio (RR)|1.025||||0.773|TWO_SIDED|90.0|0.891|1.179|||Chi-squared|||||1.179|0.891|0.773
82430994|NCT03941483|164570442|SUPERIORITY||Risk Ratio (RR)|1.038||||0.563|TWO_SIDED|90.0|0.935|1.152|||Chi-squared|||||1.152|0.935|0.563
82451642|NCT03216746|164609598|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82430995|NCT03941483|164570443|SUPERIORITY||Risk Ratio (RR)|1.174||||0.717|TWO_SIDED|90.0|0.567|2.429|||Chi-squared|||||2.429|0.567|0.717
82430996|NCT03941483|164570444|SUPERIORITY||Risk Ratio (RR)|1.614||||0.266|TWO_SIDED|90.0|0.789|3.3|||Chi-squared|||||3.300|0.789|0.266
82430997|NCT01444430|164570477|NON_INFERIORITY_OR_EQUIVALENCE|The upper limit of the 95% CI of the hazard ratio will be used to assess statistical non-inferiority (non-inferiority margin=2).|Hazard Ratio (HR)|1.073|||||TWO_SIDED|95.0|0.698|1.65|||Regression, Cox|||||1.650|0.698|
82536963|NCT02022462|164773275|SUPERIORITY||Mean Difference (Net)|1.986||||0.049|TWO_SIDED||||||t-test, 2 sided|||Baseline to 6 months between-group comparisons of the mean change.||||.049
82536964|NCT02022462|164773275|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_DEVIATION|1.67||0.211|TWO_SIDED||||||t-test, 2 sided|||||||.211
82536965|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012||95.0|||||Mixed Models Analysis|||||||0.012
82536966|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.52
82536967|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.011
82536968|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.29
82451643|NCT00635882|164609602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||"Analysis of covariance (ANCOVA) model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||<0.001
82430998|NCT01444430|164570478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.835||||0.002|TWO_SIDED|95.0|0.745|0.937|||Regression, Cox|||||0.937|0.745|0.002
82430999|NCT01444430|164570479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|3.3|5.4|||ANOVA|||||5.4|3.3|<0.001
82431000|NCT01444430|164570480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.6||0.272|TWO_SIDED|95.0|-0.5|1.7|||ANOVA|||||1.7|-0.5|0.272
82431001|NCT01444430|164570481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||ANOVA|||||-0.1|-0.2|<0.001
82431002|NCT01444430|164570482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|-0.1|-0.06|||ANCOVA|||||-0.06|-0.10|<0.001
82431003|NCT01444430|164570483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.004|TWO_SIDED|95.0|-1.0|-0.2|||ANOVA|||||-0.2|-1.0|0.004
82431004|NCT01444430|164570484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.739||||0.095|TWO_SIDED|95.0|0.518|1.055|||Regression, Cox|||||1.055|0.518|0.095
82431005|NCT00310180|164570496|SUPERIORITY|Since the noninferiority comparison is formulated using a conventional superiority null hypothesis described as above, a type II error corresponds to concluding that Arm B is not inferior when in fact it is. The design therefore uses a one-sided type I error of 10% and is planned to have 95% power (5% type II error). If the null hypothesis is rejected (at the one-sided 10% level), then it will be concluded that endocrine therapy alone is inferior to chemoendocrine therapy.|Hazard Ratio (HR)|1.08||||0.13|TWO_SIDED|95.0|0.94|1.24||One-sided p value for stratified Cox proportional hazard analysis, stratified on recurrence score, tumor size and menopausal status.|Regression, Cox|||This study uses a noninferiority design, but the noninferiority question is formulated using the conventional superiority null hypothesis of equal DFS on the two arms (that is, the null hypothesis is that Arm B is not inferior to Arm C). The alternative hypothesis is that Arm B has substantially worse DFS than Arm C, specified by a hazard ratio for B vs. C of 1.322.||1.24|0.94|0.13
82451644|NCT00635882|164609602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.003
82451645|NCT00635882|164609602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.018
82431006|NCT00310180|164570500|OTHER|Treatment-by-Age and RS subset was performed via Cox proportional hazard analysis||||||0.004|||||||Regression, Cox|||Treatment interaction test was performed for the 9 age by RS subsets (3 groups for each, age groups \<=50 vs. 51-65 vs. 66-75; RS groups 0-10 vs. 11-25 vs. \>25) in patients randomized to arms B and C||||0.004
82431007|NCT04566731|164570507|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82431008|NCT04267926|164570508|OTHER|||||||0.9489|TWO_SIDED||||||Mixed Models Analysis||||In our work there are several hypotheses for the group comparison for the change. Therefore multiple estimate values that are not suitable for the questions above.|||0.9489
82431009|NCT04522167|164570512|EQUIVALENCE|If the confidence interval for difference in LSMeans is completely contained in the interval \]-3.5 letters; 3.5 letters\[, FBY203 and Eylea are considered equivalent.|LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.4|-0.3|2.2||||||||2.2|-0.3|
82431010|NCT02489318|164570521|SUPERIORITY||Hazard Ratio (HR)|0.484|||<|0.0001|TWO_SIDED|95.0|0.391|0.6|||Log Rank|||||0.600|0.391|<0.0001
82431011|NCT02489318|164570522|SUPERIORITY||Hazard Ratio (HR)|0.651|||<|0.0001|TWO_SIDED|95.0|0.534|0.793|||Log Rank|||||0.793|0.534|<0.0001
82431012|NCT02489318|164570523|SUPERIORITY||Hazard Ratio (HR)|0.469|||<|0.0001|TWO_SIDED|95.0|0.35|0.63|||Log Rank|||||0.630|0.350|<.0001
82431013|NCT02489318|164570524|SUPERIORITY||Hazard Ratio (HR)|0.868||||0.1966|TWO_SIDED|95.0|0.7|1.076|||Log Rank|||||1.076|0.700|0.1966
82431014|NCT02489318|164570525|SUPERIORITY||Hazard Ratio (HR)|0.794||||0.1563|TWO_SIDED|95.0|0.576|1.094|||Log Rank|||||1.094|0.576|0.1563
82648558|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|4.78|STANDARD_ERROR_OF_MEAN|3.67||0.2042|TWO_SIDED|95.0|-2.76|12.31|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||12.31|-2.76|0.2042
82431015|NCT02489318|164570526|SUPERIORITY||Hazard Ratio (HR)|0.857||||0.3608|TWO_SIDED|95.0|0.615|1.194|||Log Rank|||||1.194|0.615|0.3608
82431016|NCT00348946|164570580|SUPERIORITY|BOT Visual-motor control||||||0.005|||||||ANCOVA|||||||0.005
82431017|NCT00348946|164570580|SUPERIORITY|||||||0.17|||||||ANCOVA|||BOT upper limb speed||||0.17
82431018|NCT00348946|164570580|SUPERIORITY|||||||0.17|||||||ANCOVA|||BOT strength||||0.17
82431019|NCT00348946|164570580|SUPERIORITY|||||||0.06|||||||ANCOVA|||Hand dynamometer||||0.06
82431020|NCT00348946|164570580|SUPERIORITY|||||||0.87|||||||ANCOVA|||PANESS||||0.87
82431021|NCT00348946|164570581|SUPERIORITY|||||||0.44|||||||ANCOVA|||DAS: General concept ability||||0.44
82431022|NCT00348946|164570581|SUPERIORITY|||||||0.57|||||||ANCOVA|||DAS: Verbal Cluster||||0.57
82431023|NCT00348946|164570581|SUPERIORITY|||||||0.55|||||||ANCOVA|||DAS: Nonverbal Cluster||||0.55
82431024|NCT00348946|164570581|SUPERIORITY|||||||0.65|||||||ANCOVA|||DAS: Spatial Cluster||||0.65
82431025|NCT00348946|164570582|SUPERIORITY|||||||0.23|||||||ANCOVA|||Digit Span backward||||0.23
82431026|NCT00348946|164570582|SUPERIORITY|||||||0.36|||||||ANCOVA|||Phonetic fluency||||0.36
82431027|NCT00348946|164570582|SUPERIORITY|||||||0.37|||||||ANCOVA|||Semantic fluency||||0.37
82431028|NCT00348946|164570582|SUPERIORITY|||||||0.41|||||||ANCOVA|||CPT: omissions||||0.41
82431029|NCT00348946|164570582|SUPERIORITY|||||||0.73|||||||ANCOVA|||CPT: commissions||||0.73
82431030|NCT00348946|164570582|SUPERIORITY|||||||0.4|||||||ANCOVA|||CPT: hit reaction time||||0.40
82431031|NCT00348946|164570582|SUPERIORITY|||||||0.95|||||||ANCOVA|||CPT: variability||||0.95
82431032|NCT00348946|164570582|SUPERIORITY|||||||0.78|||||||ANCOVA|||CPT: preservations||||0.78
82431033|NCT00348946|164570583|SUPERIORITY|||||||0.16|||||||ANCOVA|||CBCL: Behavior total||||0.16
82431034|NCT00348946|164570583|SUPERIORITY|||||||0.1|||||||ANCOVA|||CBCL: Internalizing total||||0.10
82451646|NCT00635882|164609603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||<0.001
82431035|NCT00348946|164570583|SUPERIORITY|||||||0.24|||||||ANCOVA|||CBCL: externalizing total||||0.24
82431036|NCT00348946|164570583|SUPERIORITY|||||||0.5|||||||ANCOVA|||CDI: Total||||0.50
82431037|NCT00348946|164570584|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.15
82431038|NCT05197049|164570590|SUPERIORITY||Adjusted treatment difference:percentage|34.9|||<|0.001|TWO_SIDED|95.0|25.1|44.6|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||44.6|25.1|< 0.001
82431039|NCT05197049|164570591|SUPERIORITY||Adjusted treatment difference:percentage|19.9|||<|0.001|TWO_SIDED|95.0|10.2|29.6|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||29.6|10.2|< 0.001
82431040|NCT05197049|164570592|SUPERIORITY||Adjusted treatment difference:percentage|37.0|||<|0.001|TWO_SIDED|95.0|25.6|48.4|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||48.4|25.6|< 0.001
82431041|NCT05197049|164570592|SUPERIORITY||Adjusted treatment difference:percentage|39.3|||<|0.001|TWO_SIDED|95.0|28.0|50.7|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||50.7|28.0|< 0.001
82431042|NCT05197049|164570593|SUPERIORITY||Adjusted treatment difference:percentage|32.1|||<|0.001|TWO_SIDED|95.0|22.9|41.2|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||41.2|22.9|< 0.001
82431043|NCT05197049|164570594|SUPERIORITY||Adjusted treatment difference:percentage|40.3|||<|0.001|TWO_SIDED|95.0|29.9|50.7|||Mantel Haenszel|Mantel-Haenszel stratum weights and the Sato variance estimator.||||50.7|29.9|< 0.001
82431044|NCT03748641|164570602|SUPERIORITY||Hazard Ratio (HR)|0.729||||0.0217|TWO_SIDED|95.0|0.556|0.956|||Log Rank|||||0.956|0.556|0.0217
82431045|NCT03748641|164570603|SUPERIORITY||Hazard Ratio (HR)|0.533||||0.0014|TWO_SIDED|95.0|0.361|0.789|||Log Rank|||||0.789|0.361|0.0014
82431046|NCT03579693|164570619|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.33|TWO_SIDED|95.0|-0.43|1.31|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||1.31|-0.43|0.33
82648559|NCT00272961|165012755|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07|STANDARD_ERROR_OF_MEAN|3.77||0.7791|TWO_SIDED|95.0|-6.69|8.83|||ANCOVA|||Week 10 Standing: p-value was obtained using an ANCOVA model on the post-dose minus pre-dose difference at Week 10 with the post-dose minus pre-dose difference at Baseline as a covariate.||8.83|-6.69|0.7791
82431047|NCT03579693|164570619|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.93|TWO_SIDED|95.0|-0.9|0.82|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||0.82|-0.90|0.93
82431048|NCT03579693|164570620|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.05|TWO_SIDED|95.0|-3.47|0.0|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||0.00|-3.47|0.050
82431049|NCT03579693|164570620|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.47|TWO_SIDED|95.0|-2.28|1.05|||Mixed Models Analysis||Interpretation of mean difference is for a typical participant, i.e. random effect of 0.|||1.05|-2.28|0.47
82431050|NCT01144416|164570623|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -8%|Difference in percentage vital pregnancy|-3.0|||||TWO_SIDED|95.0|-7.4|1.4|||generalized linear model|The estimated difference in percentage vital pregnancy was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs)||||1.4|-7.4|
82431051|NCT01144416|164570624|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -3 oocytes.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.2|1.2|||ANOVA|The estimated difference in number of oocytes retrieved was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs) and center.||||1.2|-0.2|
82431052|NCT01144416|164570625|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pre-defined non-inferiority margin was -8%|Difference in Live Birth Rates|-2.3|||||TWO_SIDED|95.0|-6.5|1.9|||generalized linear model|The estimated difference in live birth rate was adjusted for age class as stratified (≤38 yrs vs. \>38 yrs)||||1.9|-6.5|
82431053|NCT01144416|164570626|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||95.0|||||Fisher Exact|||||||0.30
82431054|NCT01144416|164570627|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999||95.0|||||Fisher Exact|||||||>0.999
82431055|NCT02881775|164570646|SUPERIORITY|||||||0.9994||||||The threshold for significance was P \<.05|ANOVA|"Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors.~Degrees of freedom (DF) = 34.1"||Comparison of CAR BL Change (treatment by time)||||.9994
82451647|NCT00635882|164609603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.002
82431056|NCT02881775|164570647|SUPERIORITY|||||||0.9768||||||The threshold for statistical significance was p \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||Comparison of MVIC BL Change (treatment by time)||||.9768
82431057|NCT02881775|164570648|SUPERIORITY|||||||0.444||||||threshold for statistical significance is p \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 43.1||Comparison of NPRS BL Change (treatment by time)||||0.4440
82431058|NCT02881775|164570649|SUPERIORITY|||||||0.6608||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||PPT BL Change (treatment by time)||||.6608
82431059|NCT02881775|164570650|SUPERIORITY|||||||0.7706||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 45||Comparison of TUG BL Change (treatment by time)||||.7706
82431060|NCT02881775|164570651|SUPERIORITY|||||||0.3665||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of AMT-MEP BL Change (treatment by time)||||.3665
82431061|NCT02881775|164570652|SUPERIORITY|||||||0.3889||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of SICI BL Change (treatment by time)||||.3889
82431062|NCT02881775|164570653|SUPERIORITY|||||||0.2192||||||Threshold for statistical significance is P \< .05|ANOVA|Repeated measures ANOVA with restricted maximum likelihood estimation and Kenward-Roger standard errors. DF = 33||Comparison of ICF BL Change (treatment by time)||||.2192
82431063|NCT03390504|164570672|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.0031|TWO_SIDED|95.0|0.48|0.86|||Log Rank|||||0.86|0.48|=0.0031
82431064|NCT03390504|164570672|SUPERIORITY||Hazard Ratio (HR)|1.16|||=|0.2121|TWO_SIDED|95.0|0.92|1.48|||Stratified log-rank test|||||1.48|0.92|=0.2121
82431065|NCT01445847|164570698|SUPERIORITY_OR_OTHER||Percentage|5.0|||<|0.05|TWO_SIDED|95.0|1.7|9.1|||Comparison of proportions|||We used incidence reported to AIMS study to calculate the sample size of this study. We set the null hypothesis as (percentage point of laryngospasm incidence in placebo group (µ1) - percentage point of laryngospasm incidence in Lidocaine group (µ2) = 0), with alternative hypothesis is (µ1 \> µ2) by 5% was analyzed by comparison of two proportions. A sample size of 380 patients (190 per group) was adequate to detect a 5-percentage point difference in the incidence with 80% power and p = 0.05.||9.1|1.7|<0.05
82431066|NCT00707993|164570699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|||||ONE_SIDED|97.5||0.13|||ANCOVA|Treatment, randomization schedule, and geographic region as class effects; baseline value for the endpoint as a continuous covariate.||Primary null hypothesis: the average Week 52 HbA1c change from Baseline for alogliptin is inferior to that for glipizide (1-sided 97.5% CI \[alpha=0.025\] compared to non-inferiority margin of 0.4%). If the primary null hypothesis was rejected (non-inferiority demonstrated), an additional comparison for statistical superiority of alogliptin was performed. The CI was re-evaluated; statistical superiority declared if the upper limit was \< 0%.||0.13||
82648560|NCT01507831|165012759|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.9|||<|0.0001|TWO_SIDED|95.0|-64.3|-59.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-59.4|-64.3|<0.0001
82431067|NCT01102491|164570768|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82451648|NCT00635882|164609603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANCOVA|||"ANCOVA model with treatment and baseline eNO as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline eNO as a covariate."||||0.002
82431068|NCT03008070|164570796|SUPERIORITY||Risk Ratio (RR)|1.52|||=|0.061|TWO_SIDED|95.0|0.98|2.12|||Cochran-Mantel-Haenszel|||"The primary endpoint was a binary outcome (Yes/No). Responders rates were compared between the placebo and lanifibranor 800 mg at the end of the treatment period (week 24) using a Cochran Mantel Haenzel test stratified on diabetic status at baseline (that was the stratified factors in the randomisation).~The CMH risk ratio is used to estimate the effect size. Patients with missing data are considered as non-responders."||2.12|0.98|=0.061
82431069|NCT03008070|164570796|SUPERIORITY||Risk Ratio (RR)|1.82|||=|0.004|TWO_SIDED|95.0|1.24|2.4|||Cochran-Mantel-Haenszel|||"The primary endpoint was a binary outcome (Yes/No). Responders rates were compared between the placebo and lanifibranor 1200 mg at the end of the treatment period (week 24) using a Cochran Mantel Haenzel test stratified on diabetic status at baseline (that was the stratified factors in the randomisation).~The CMH risk ratio is used to estimate the effect size. Patients with missing data are considered as non-responders."||2.4|1.24|=0.004
82451649|NCT00635882|164609604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.024
82451650|NCT00635882|164609604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.051|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.051
82451651|NCT00635882|164609604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.336|||||||ANCOVA|||"ANCOVA model with treatment and baseline eosinophils as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline EOS as a covariate."||||0.336
82451652|NCT00635882|164609605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.120
82451653|NCT00635882|164609605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.103
82451654|NCT00635882|164609605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|||||||ANCOVA|Analysis applies to Mean Change from Baseline to Day 15.||"ANCOVA model with treatment and baseline PD15 as a covariate was used.~Standard deviation is a Pooled Standard deviation from ANCOVA Model with treatment effect and baseline PD15 as a covariate."||||0.048
82451655|NCT00635882|164609606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way analysis of variance (ANOVA) model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.018
82451656|NCT00635882|164609606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.261|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.261
82536969|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.002
82652212|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.025||||0.8769|TWO_SIDED|95.0|-0.337|0.288||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.288|-0.337|0.8769
82431070|NCT00841412|164570824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76|||<|0.05|TWO_SIDED|95.0|0.59|0.96|||Mixed Models Analysis||The above results are for just one of multiple feeding assistance care process measures: proportion of meals during which residents received assistance to eat baseline to post intervention.|||0.96|0.59|<0.05
82431071|NCT03533660|164570829|SUPERIORITY||||||<|0.05||||||Applies to SOCRATES subscales recognition, ambivalence, taking steps at 6 weeks|t-test, 2 sided|||||||<.05
82451657|NCT00635882|164609606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.334|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.334
82451658|NCT00635882|164609607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.037
82451659|NCT00635882|164609607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.643|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.643
82451660|NCT00635882|164609607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.963|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.963
82431072|NCT03533660|164570829|SUPERIORITY||||||>|0.05||||||Applies to SOCRATES total scores and subscales (recognition, ambivalence, and taking steps) at intake and 3 months|t-test, 2 sided|||||||>.05
82431073|NCT03533660|164570830|SUPERIORITY||||||>|0.05||||||Applies to alcohol self-efficacy scale total score and subscales scores at intake, 6 weeks and 3 months|t-test, 2 sided|||||||>.05
82451661|NCT00635882|164609608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
82536970|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.093||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.093
82536971|NCT00938340|164773282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.12
82536972|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82431074|NCT00996658|164570833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.0001||95.0|-0.83|-0.31|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.31|-0.83|< 0.0001
82431075|NCT00996658|164570834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.0001||95.0|-0.61|-0.21|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.21|-0.61|< 0.0001
82431076|NCT00996658|164570835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001||95.0|-0.79|-0.28|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.28|-0.79|< 0.0001
82431077|NCT00996658|164570836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.0001||95.0|-0.8|-0.29|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and centre||||-0.29|-0.80|< 0.0001
82431078|NCT00996658|164570837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.939||||0.0033|TWO_SIDED|95.0|1.432|6.032|||Regression, Logistic|||Linagliptin vs Placebo||6.032|1.432|0.0033
82431079|NCT00996658|164570838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.902||||0.0074|TWO_SIDED|95.0|1.44|10.572|||Regression, Logistic|||Linagliptin vs Placebo||10.572|1.440|0.0074
82431080|NCT00996658|164570839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.059||||0.0071|TWO_SIDED|95.0|1.216|3.485|||Regression, Logistic|||Linagliptin vs. Placebo||3.485|1.216|0.0071
82431081|NCT00996658|164570840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.028||95.0|-19.6|-1.1|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-1.1|-19.6|0.0280
82431082|NCT00996658|164570841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7||||0.0006||95.0|-24.5|-6.8|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-6.8|-24.5|0.0006
82431083|NCT00996658|164570842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.021||95.0|-20.2|-1.7|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||-1.7|-20.2|0.0210
82431084|NCT00996658|164570843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.2||||0.2137||95.0|-16.0|3.6|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and centre||||3.6|-16.0|0.2137
82431085|NCT04446312|164570845|NON_INFERIORITY|The pre-defined non-inferiority margin was 10%.|Risk Difference (RD)|0.15|||<|0.001|TWO_SIDED|95.0|-3.97|4.27|||Mantel Haenszel|||||4.27|-3.97|<0.001
82431086|NCT00932035|164570846|SUPERIORITY|To achieve a power of 0.84, a sample size of 72 patients, evenly distributed is required. With 36 patients per group, a Fisher's exact test with a one-sided alpha of 0.05 will have a 84% power to detect the difference between the experimental group (axillary reverse mapping) of 5% or less and a control group (standard dissection) of 30% or more. Response estimates were chosen based on reported lymphedema rates.||||||0.45|||||||Fisher Exact|||||||0.45
82431087|NCT00932035|164570847|SUPERIORITY|||||||0.5|||||||Fisher Exact|||||||0.50
82431088|NCT00932035|164570848|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
82451662|NCT00635882|164609608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.002
82431089|NCT04487080|164570850|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0002|TWO_SIDED|95.0|0.58|0.85|||Log Rank||HR and its 95% CI was estimated based on a stratified Cox's regression model with treatment as the sole explanatory variable.|||0.85|0.58|0.0002
82431090|NCT02842086|164570866|NON_INFERIORITY|Noninferiority of DVY to TVD was to be concluded if the upper bound of the 2-sided 95.003% CI of the rate ratio (DVY group over TVD group) in the HIV infection incidence rate was less than 1.62.|Rate Ratio|0.468|||||TWO_SIDED|95.003|0.191|1.149||||||Noninferiority was assessed using a 95.003% confidence interval (CI) constructed using a generalized model associated with a Poisson distribution and logarithmic link with the treatment group being the main effect and with a noninferiority margin of 1.62.||1.149|0.191|
82431091|NCT02842086|164570867|SUPERIORITY||Difference in least squares mean (LSM)|1.142|||<|0.0001|TWO_SIDED|95.0|0.628|1.655|||ANOVA|||Hip BMD results were compared between the 2 treatment groups using analysis of variance (ANOVA), which included baseline TVD for pre-exposure prophylaxis (PrEP) and treatment as fixed effects.||1.655|0.628|<0.0001
82431092|NCT02842086|164570868|SUPERIORITY||Difference in LSM|1.567|||<|0.0001|TWO_SIDED|95.0|0.913|2.22|||ANOVA|||Spine BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||2.220|0.913|<0.0001
82431093|NCT02842086|164570869|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
82431094|NCT02842086|164570870|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
82431095|NCT02842086|164570871|SUPERIORITY|||||||0.0048||||||P-value for difference between treatment groups in distributions of UPCR ≤ 200 mg/g versus \> 200 mg/g was from the rank analysis of covariance adjusting for baseline category and baseline TVD for PrEP.|Rank analysis of covariance|||||||0.0048
82431096|NCT02842086|164570872|SUPERIORITY||Difference in LSM|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.02|-0.01|||ANCOVA|||Results were compared between the 2 treatment groups using the analysis of covariance (ANCOVA) model including baseline TVD for PrEP and treatment as fixed effects and baseline serum creatinine as a covariate.||-0.01|-0.02|<0.0001
82431097|NCT02842086|164570873|NON_INFERIORITY|Noninferiority of DVY to TVD was to be concluded if the upper bound of the 2-sided 95.003% CI of the rate ratio (DVY group over TVD group) in the HIV infection incidence rate was less than 1.62.|Rate Ratio|0.536|||||TWO_SIDED|95.003|0.227|1.264||||||Noninferiority was assessed using a 95.003% CI constructed using a generalized model associated with a Poisson distribution and logarithmic link with the treatment group being the main effect and with a noninferiority margin of 1.62.||1.264|0.227|
82431098|NCT02842086|164570874|SUPERIORITY||Difference in LSM|1.567|||<|0.0001|TWO_SIDED|95.0|0.896|2.237|||ANOVA|||Hip BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||2.237|0.896|<0.0001
82431099|NCT02842086|164570875|SUPERIORITY||Difference in LSM|2.253|||<|0.0001|TWO_SIDED|95.0|1.437|3.069|||ANOVA|||Spine BMD results were compared between the 2 treatment groups using ANOVA, which included baseline TVD for PrEP and treatment as fixed effects.||3.069|1.437|<0.0001
82431100|NCT02842086|164570876|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
82431101|NCT02842086|164570877|SUPERIORITY||||||<|0.0001||||||P-values were from the Van Elteren test stratified by baseline TVD for PrEP.|Van Elteren test|||||||<0.0001
82451663|NCT00635882|164609608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 2-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
82451664|NCT00635882|164609609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||<0.001
82451665|NCT00635882|164609609|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.057
82451666|NCT00635882|164609609|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANOVA|Analysis applies to Mean Change from Baseline to Days 1-15.||"One-way ANOVA model with treatment effect was used.~Standard deviation is a Pooled Standard deviation from the one-way ANOVA model with treatment effect."||||0.005
82451667|NCT02218008|164609673|SUPERIORITY||Least Squares Mean Difference|-1.5||||0.018|TWO_SIDED|95.0|-2.7|-0.3||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 1/1 compared to placebo.||-0.3|-2.7|0.018
82451668|NCT02218008|164609674|SUPERIORITY|Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Least Squares Mean Difference|-1.9||||0.026|TWO_SIDED|95.0|-3.6|-0.2||ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Mixed Models Analysis||Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 1/1 compared to placebo.||-0.2|-3.6|0.026
82451669|NCT02218008|164609675|SUPERIORITY|The primary hypotheses were evaluated using a 6-step, fixed sequence approach to adjust for multiple comparisons. Using this method, hypothesis testing (using alpha=0.05) continued through the sequence until statistical significance was not achieved. Steps 1-3 included testing the ALKS 5461 2mg/2mg dose vs placebo for the 3 primary endpoints.|Least Squares Mean Difference|-1.7||||0.076|TWO_SIDED|95.0|-3.6|0.2||ALKS 5461 is compared to placebo within each of the 2 stages, and resulting treatment effects from each stage are combined for a single hypothesis test using equal weights of 0.5 for both stages.|Mixed Models Analysis|||ALKS 5461 is compared to placebo within each of the 2 stages (i.e., ALKS 5461 2/2 S1 vs Placebo S1; and ALKS 5461 2/2 S2 vs Placebo S2). Efficacy was estimated as a weighted average across 2 stages using equal weights.||0.2|-3.6|0.076
82451670|NCT01278797|164609679|SUPERIORITY_OR_OTHER||Test/Reference ratio of geometric means|94.51||||0.005||90.0|91.6|97.51|||ANOVA|ANOVA was applied to log-transformed AUC72 and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg The two formulations are shown to be bioequivalent since the 90% confidence interval of the test to reference ratio is entirely contained within the 80-125% bioequivalence range.||97.51|91.60|0.005
82451671|NCT01278797|164609680|SUPERIORITY_OR_OTHER||Test/Reference ratio of geometric means|94.1||||0.0093||90.0|90.7|97.63|||ANOVA|ANOVA was applied to log-transformed CMAX and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg The two formulations are shown to be bioequivalent since the 90% confidence interval of the test to reference ratio is entirely contained within the 80-125% bioequivalence range.||97.63|90.70|0.0093
82451672|NCT01278797|164609681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.153|||||||ANOVA|ANOVA was applied to TMAX and Included treatment, sequence, period and subject-within-sequence effects.||Telmisartan/Amlodipine 80 mg/10 mg versus Telmisartan 80 mg + Amlodipine 10 mg||||0.153
82451673|NCT00620113|164609684|SUPERIORITY_OR_OTHER||Difference in LS Means|5.4|||<|0.001|TWO_SIDED|95.0|4.16|6.64||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an analysis of covariance (ANCOVA) model with terms for treatment and study center. Treatment effect was assessed by Least-Squares means (LS mean) and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.64|4.16|<0.001
82451674|NCT00620113|164609684|SUPERIORITY_OR_OTHER||Difference in LS Means|5.12|||<|0.001|TWO_SIDED|95.0|3.9|6.35||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.35|3.90|<0.001
82536973|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.15
82652213|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.059||||0.7109|TWO_SIDED|95.0|-0.372|0.254||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.254|-0.372|0.7109
82451675|NCT00620113|164609684|SUPERIORITY_OR_OTHER||Difference in LS Means|3.54|||<|0.001|TWO_SIDED|95.0|2.33|4.75||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||4.75|2.33|<0.001
82451676|NCT00620113|164609685|SUPERIORITY_OR_OTHER||Difference in LS Means|3.06|||<|0.001|TWO_SIDED|95.0|2.14|3.98||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.98|2.14|<0.001
82451677|NCT00620113|164609685|SUPERIORITY_OR_OTHER||Difference in LS Means|2.2|||<|0.001|TWO_SIDED|95.0|1.29|3.12||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.12|1.29|<0.001
82451678|NCT00620113|164609685|SUPERIORITY_OR_OTHER||Difference in LS Means|1.67|||<|0.001|TWO_SIDED|95.0|0.77|2.57||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||2.57|0.77|<0.001
82451679|NCT00620113|164609688|SUPERIORITY_OR_OTHER||Difference in LS Means|3.08|||<|0.001|TWO_SIDED|95.0|1.85|4.31||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||4.31|1.85|<0.001
82451680|NCT00620113|164609688|SUPERIORITY_OR_OTHER||Difference in LS Means|1.86||||0.003|TWO_SIDED|95.0|0.64|3.08||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.08|0.64|0.003
82451681|NCT00620113|164609688|SUPERIORITY_OR_OTHER||Difference in LS Means|2.23|||<|0.001|TWO_SIDED|95.0|1.03|3.43||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.43|1.03|<0.001
82451682|NCT00620113|164609689|SUPERIORITY_OR_OTHER||Difference in LS Means|4.66|||<|0.001|TWO_SIDED|95.0|3.18|6.14||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||6.14|3.18|<0.001
82648561|NCT01507831|165012760|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.5|||<|0.0001|TWO_SIDED|95.0|-65.9|-61.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|A hierarchial testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchial testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-61.2|-65.9|<0.0001
82431102|NCT02842086|164570878|SUPERIORITY|||||||0.2163||||||P-value for difference between treatment groups in distributions of UPCR ≤ 200 mg/g versus \> 200 mg/g was from the rank analysis of covariance adjusting for baseline category and baseline TVD for PrEP.|Rank analysis of covariance|||||||0.2163
82431103|NCT02842086|164570879|SUPERIORITY||Difference in LSM|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.02|-0.01|||ANCOVA|||Results were compared between the 2 treatment groups using the ANCOVA model including baseline TVD for PrEP and treatment as fixed effects and baseline serum creatinine as a covariate.||-0.01|-0.02|<0.0001
82431104|NCT03451851|164570882|SUPERIORITY||Difference in percentage|49.9|||<|0.001|TWO_SIDED|95.0|25.9|69.4|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||69.4|25.9|<0.001
82536974|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.35
82536975|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.011
82536976|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.62
82536977|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0002
82431105|NCT03451851|164570883|SUPERIORITY||Difference in percentage|55.6|||<|0.001|TWO_SIDED|95.0|32.1|74.0|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||74.0|32.1|<0.001
82431106|NCT03451851|164570884|SUPERIORITY||Difference in percentage|40.1|||=|0.003|TWO_SIDED|95.0|15.6|61.3|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||61.3|15.6|=0.003
82431107|NCT03451851|164570885|SUPERIORITY||Difference in percentage|35.0|||=|0.004|TWO_SIDED|95.0|10.5|56.8|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||56.8|10.5|=0.004
82431108|NCT03451851|164570886|SUPERIORITY||Difference in percentage|34.1|||=|0.002|TWO_SIDED|25.0|9.7|56.1|||Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||56.1|9.7|=0.002
82431109|NCT03451851|164570887|SUPERIORITY||LS Mean difference|-5.4|||<|0.001|TWO_SIDED|95.0|-7.33|-3.06|||Mixed model repeated measures (MMRM)|||Guselkumab Vs Placebo||-3.06|-7.33|<0.001
82536978|NCT00938340|164773283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0013
82536979|NCT00938340|164773284|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||Main effect of treatment by timepoint|Mixed Models Analysis|||||||0.15
82536980|NCT00938340|164773285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
82536981|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
82431110|NCT03451851|164570893|SUPERIORITY||Difference in percentage|59.8|||<|0.001|TWO_SIDED|95.0|36.9|77.6||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||77.6|36.9|<0.001
82431111|NCT03451851|164570901|SUPERIORITY||Difference in percentage|46.7|||=|0.002|TWO_SIDED|95.0|21.9|67.3||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||||67.3|21.9|=0.002
82431112|NCT03451851|164570903|SUPERIORITY||Difference in Percentage|23.1|||=|0.139|TWO_SIDED|95.0|-3.4|47.0||p-value is nominal|Fisher Exact|P-values represented the comparisons with placebo and were based on the Fisher's exact test stratified by age group and region (pooled).||Guselkumab Vs Placebo||47.0|-3.4|=0.139
82431113|NCT03451851|164570905|SUPERIORITY||Difference in LS Mean|-5.44|||<|0.001|TWO_SIDED|95.0|-8.0|-2.87||p-value is nominal|MMRM model|||Guselkumab Vs Placebo||-2.87|-8.00|<0.001
82431114|NCT03451851|164570907|SUPERIORITY||LS Mean difference|-14.78|||<|0.001|TWO_SIDED|95.0|-20.28|-9.28||p-value is nominal|MMRM model|||Guselkumab Vs Placebo||-9.28|-20.28|<0.001
82536982|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.98
82536983|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
82536984|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.11
82536985|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
82431115|NCT02522429|164570962|OTHER|||||||0.05||||||Statistic adjusted at familywise level alpha of 0.05 with a Gaussian Random Field Cluster Correction (Z \> 2.7)|t-test, 1 sided|||||||0.05
82431116|NCT02522429|164570963|OTHER||||||<|0.05||||||Statistic adjusted at familywise level alpha of 0.05 with a Gaussian Random Field Cluster Correction (Z \> 2.7). All significant voxels have an associated p-value smaller-or-equal to 0.05 (corrected for multiplicity).|t-test, 1 sided|||||||<0.05
82431117|NCT02522429|164570965|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Maximum CRS-R prior to LIFUP compared to Maximum CRS-R after LIFUP||||<0.05
82431118|NCT00600106|164570967|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.36|||||||t-test (nonparametric Wilcoxon test)|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.36
82431119|NCT00600106|164570968|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.93
82431120|NCT00600106|164570969|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.77|||||||Wilcoxon rank sum test|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.77
82451683|NCT00620113|164609689|SUPERIORITY_OR_OTHER||Difference in LS Means|3.84|||<|0.001|TWO_SIDED|95.0|2.37|5.3||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||5.30|2.37|<0.001
82451684|NCT00620113|164609689|SUPERIORITY_OR_OTHER||Difference in LS Means|2.43||||0.002|TWO_SIDED|95.0|0.99|3.88||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||Analysis for percent change from baseline to Week 52 in BMD was performed using a stepwise linear contrast test based on an ANCOVA model with terms for treatment and study center. Treatment effect was assessed by LS mean and the associated 95% confidence intervals. Estimated difference from placebo = odanacatib dose minus placebo dose. Positive mean treatment differences were in favor of odanacatib.||3.88|0.99|0.002
82451685|NCT00620113|164609690|SUPERIORITY_OR_OTHER||Difference in LS Means|-50.64|||<|0.001|TWO_SIDED|95.0|-66.43|-34.84||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-34.84|-66.43|<0.001
82451686|NCT00620113|164609690|SUPERIORITY_OR_OTHER||Difference in LS Means|-44.32|||<|0.001|TWO_SIDED|95.0|-60.42|-28.21||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-28.21|-60.42|<0.001
82451687|NCT00620113|164609690|SUPERIORITY_OR_OTHER||Difference in LS Means|-35.75|||<|0.001|TWO_SIDED|95.0|-52.33|-19.16||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-19.16|-52.33|<0.001
82451688|NCT00620113|164609691|SUPERIORITY_OR_OTHER||Difference in LS Means|-60.42|||<|0.001|TWO_SIDED|95.0|-85.7|-35.13||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-35.13|-85.70|<0.001
82536986|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.11
82536987|NCT00938340|164773286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.16
82536988|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82536989|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.004
82536990|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.62
82536991|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.14
82536992|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.002
82536993|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.22
82536994|NCT00938340|164773287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.074
82536995|NCT00938340|164773288|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Mixed Models Analysis|||||||0.53
82536996|NCT00938340|164773289|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82536997|NCT00938340|164773290|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82536998|NCT00938340|164773291|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82536999|NCT00938340|164773292|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82537000|NCT00938340|164773293|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Mixed Models Analysis|||||||0.44
82537001|NCT00938340|164773294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62|||||||Mixed Models Analysis|||||||0.62
82537002|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|||||||Mixed Models Analysis|||||||0.011
82537003|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.007
82537004|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.99
82537005|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.037
82537006|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0087||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.0087
82537007|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.64
82537008|NCT00938340|164773295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.0083 is considered significant (6 comparisons).|Mixed Models Analysis|||||||0.043
82537009|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82537010|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.91
82537011|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.21
82537012|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0011
82431121|NCT00600106|164570971|SUPERIORITY_OR_OTHER|All tests were two-sided with p values \<0.05.||||||0.38|||||||Wilcoxon rank sum test|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated."||||0.38
82537013|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0004
82577330|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.9587|TWO_SIDED|95.0|-0.33|0.35|||MMRM|||Somatic Symptoms General, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.33|0.9587
82431122|NCT00600106|164570975|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test (nonparametric Wilcoxon test)|||"Data were presented in tables as means and SDs for continuous variables and frequencies for categorical variables. Comparisons between the placebo and 1/10 NA/EE groups were don using Wilcoxon rank sum test for continuous measurement and Fisher's exact test for discrete data. The strategy of analysis was intention to treat with comparing the study groups in term of treatment to which they were randomly allocated. All tests were two-sided with p values \<0.05."||||0.17
82537014|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.11
82537015|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.53
82537016|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.59
82537017|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.31
82537018|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.98
82537019|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.30
82537020|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.91
82537021|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.12
82537022|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.007
82537023|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0089
82537024|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.28
82648562|NCT01507831|165012761|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.8|||<|0.0001|TWO_SIDED|95.0|-67.2|-62.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-62.4|-67.2|<0.0001
82431123|NCT00600106|164570976|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.49
82431124|NCT00600106|164570977|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.77
82431125|NCT00600106|164570978|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.40
82431126|NCT00600106|164570979|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.99
82431127|NCT00600106|164570980|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Wilcoxon rank sum test|||||||0.21
82431128|NCT00252512|164570981|SUPERIORITY||||||<|0.001||||||Above is calculated p value, a priori threshold for significance set at \<.05|GEE full factorial modeling|||||||<.001
82431129|NCT00252512|164570982|SUPERIORITY|||||||0.015||||||a priori threshold of \<.05|t-test, 2 sided|||8 week analysis||||.015
82431130|NCT00252512|164570982|SUPERIORITY|||||||0.45||||||a priori threshold of \<.05|t-test, 2 sided|||6 month analysis||||0.45
82431131|NCT00252512|164570982|SUPERIORITY|||||||0.0497||||||a prior threshold of .05|t-test, 2 sided|||12 month analysis||||.0497
82431132|NCT00252512|164570983|SUPERIORITY||||||>|0.05||||||a priori threshold \<.05|Estimation Equation mean modeling|||Costs for period between 6 month follow-up and 12 month follow up.||||>.05
82431133|NCT00252512|164570983|SUPERIORITY||||||>|0.05|||||||Estimating Equation mean modeling|||Costs for period between 6 month follow up and 12 month follow up.||||>.05
82431134|NCT00252512|164570984|SUPERIORITY|||||||0.28||||||a priori threshold \<.05|Chi-squared|||Analysis for 8 week follow up||||.28
82431135|NCT00252512|164570984|SUPERIORITY|||||||0.013||||||A priori threshold \<.05|Chi-squared|||Analysis for 6 month follow up||||.013
82431136|NCT00252512|164570984|SUPERIORITY|||||||0.76||||||A priori threshold \<.05|Chi-squared|||Analysis for 12 month follow up||||.76
82431137|NCT00252512|164570985|SUPERIORITY|||||||0.66||||||A priori threshold \<.05|Chi-squared|||Analysis for 8 week follow-up||||.66
82431138|NCT00252512|164570985|SUPERIORITY|||||||0.37||||||A priori threshold \<.05|Chi-squared|||Analysis for 6 month follow up.||||.37
82431139|NCT00252512|164570985|SUPERIORITY|||||||0.19||||||a priori threshold \<.05|Chi-squared|||Analysis for 12 month follow up.||||.19
82431140|NCT00252512|164570986|SUPERIORITY|||||||0.05||||||A priori threshold of \<.05|Chi-squared|||Analysis for 8 week follow-up||||.05
82431141|NCT00252512|164570986|SUPERIORITY|||||||0.8||||||A priori threshold of \<.05|Chi-squared|||Analysis for 6 month follow-up.||||.80
82537025|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.62
82648563|NCT01507831|165012762|SUPERIORITY_OR_OTHER||LS Mean Difference|-65.5|||<|0.0001|TWO_SIDED|95.0|-67.9|-63.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-63.2|-67.9|<0.0001
82431142|NCT00252512|164570986|SUPERIORITY|||||||0.12||||||A priori threshold of \<.05|Chi-squared|||Analysis for 12 month follow-up.||||.12
82431143|NCT05554146|164570987|SUPERIORITY||Beta|-2.6185||||0.0303|TWO_SIDED|95.0|-4.98|-0.25||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||-0.25|-4.98|0.0303
82431144|NCT05554146|164570987|SUPERIORITY||Beta|-0.8424||||0.4851|TWO_SIDED|||||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||||0.4851
82431145|NCT05554146|164570987|SUPERIORITY||Beta|-0.6038||||0.6165|TWO_SIDED|95.0||||A mixed effects model was completed with Arm 2 as the reference.|Mixed Models Analysis|There were no adjustments for any covariates.|Arm 2 was the comparison arm.|The study team hypothesized that participants randomized to coupons for high THC products would have greater reduction in self-reported pain severity than high CBD, equal parts THC and CBD, or placebo.||||0.6165
82431146|NCT05554146|164570988|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.63||||0.6|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that anti-inflammatory cytokines (IL-4 and IL-10) would have greater increase in participants randomized to coupons for high CBD products than the other arms.||||0.6
82431147|NCT05554146|164570989|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.83||||0.49|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that anti-inflammatory cytokines (IL-4 and IL-10) would have greater increase in participants randomized to coupons for high CBD products than the other arms.||||0.49
82431148|NCT05554146|164570990|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.53||||0.66|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that pro-inflammatory cytokines (TNFa and IL-6) would have greater reduction in participants randomized to coupons for high CBD products than the other arms.||||0.66
82431149|NCT05554146|164570991|SUPERIORITY|An ANOVA test with mean change in NPX values was completed.|F value (F-test)|0.21||||0.88|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that pro-inflammatory cytokines (TNFa and IL-6) would have greater reduction in participants randomized to coupons for high CBD products than the other arms.||||0.88
82537026|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.48
82537027|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||<0.0001
82537028|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0003
82652214|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.254||||0.1146|TWO_SIDED|95.0|-0.57|0.062||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.062|-0.570|0.1146
82431150|NCT05554146|164570992|SUPERIORITY|An ANOVA test with the mean change in adherence score was completed.|F value (F-test)|1.11||||0.39|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have poorer Antiretroviral (ARV) medication adherence than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.39
82451689|NCT00620113|164609691|SUPERIORITY_OR_OTHER||Difference in LS Means|-60.7|||<|0.001|TWO_SIDED|95.0|-85.91|-35.49||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-35.49|-85.91|<0.001
82431151|NCT05554146|164570993|SUPERIORITY|An ANOVA test with mean change in HIV viral load was completed.|F value (F-test)|1.25||||0.31|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have less suppressed HIV viral load than those randomized to coupons for high CBD, equal parts THC and CBD or placebo.||||0.31
82451690|NCT00620113|164609691|SUPERIORITY_OR_OTHER||Difference in LS Means|-38.73|||<|0.001|TWO_SIDED|95.0|-65.94|-11.52||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-11.52|-65.94|<0.001
82451691|NCT00620113|164609692|SUPERIORITY_OR_OTHER||Difference in LS Means|-42.91|||<|0.001|TWO_SIDED|95.0|-65.55|-20.27||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-20.27|-65.55|<0.001
82451692|NCT00620113|164609692|SUPERIORITY_OR_OTHER||Difference in LS Means|-37.45||||0.001|TWO_SIDED|95.0|-60.32|-14.59||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-14.59|-60.32|0.001
82451693|NCT00620113|164609692|SUPERIORITY_OR_OTHER||Difference in LS Means|-26.77||||0.017|TWO_SIDED|95.0|-50.37|-3.16||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-3.16|-50.37|0.017
82451694|NCT00620113|164609693|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.52|||<|0.001|TWO_SIDED|95.0|-25.11|-5.93||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-5.93|-25.11|<0.001
82490015|NCT03572972|164672894|SUPERIORITY||Hazard Ratio (HR)|0.771|||||TWO_SIDED|95.0|0.578|1.027||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.027|0.578|
82490016|NCT03572972|164672895|SUPERIORITY||Hazard Ratio (HR)|0.581|||||TWO_SIDED|95.0|0.481|0.701||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.701|0.481|
82537029|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.57
82537030|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.99
82537031|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.71
82537032|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.62
82537033|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.33||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.33
82537034|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.65
82537035|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.66
82537036|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.30
82537037|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0005
82537038|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.0085
82648564|NCT01507831|165012763|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.3|||<|0.0001|TWO_SIDED|95.0|-64.0|-58.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-58.5|-64.0|<0.0001
82431152|NCT05554146|164570994|SUPERIORITY|An ANOVA test with the mean change in depression score was completed.|F value (F-test)|2.04||||0.13|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have greater depression than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.13
82431153|NCT05554146|164570995|SUPERIORITY|An ANOVA test with the mean change in anxiety score was completed.|F value (F-test)|1.58||||0.22|TWO_SIDED||||||ANOVA|Three degrees of freedom (3 DoF)||The study team hypothesized that participants randomized to coupons for high THC products would have greater anxiety than those randomized to coupons for high CBD, equal parts THC and CBD, or placebo.||||0.22
82431154|NCT04988295|164570996|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.56|||Log Rank|||||0.56|0.35|<0.0001
82431155|NCT04988295|164570996|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.0001||95.0|0.36|0.64|||Log Rank|||||0.64|0.36|<0.0001
82537039|NCT00938340|164773296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92||||||The Bonferroni adjustment was used to correct for multiple treatment comparisons; P \< 0.001667 is considered significant (30 comparisons).|Mixed Models Analysis|||||||0.92
82537040|NCT03613129|164773297|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.011|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.011
82537041|NCT03613129|164773297|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.136|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.136
82537042|NCT03613129|164773297|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.009|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.009
82537043|NCT03613129|164773297|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.451|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.451
82537044|NCT03613129|164773297|NON_INFERIORITY|Comparing 28-day pre-treatment mean TDSS and 28-day post-treatment mean TDSS||||||0.24|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.240
82537045|NCT03613129|164773298|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.039|||||||t-test, 2 sided|||||||0.039
82537046|NCT03613129|164773298|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.191|||||||t-test, 2 sided|||||||0.191
82537047|NCT03613129|164773298|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.016|||||||t-test, 2 sided|||||||0.016
82537048|NCT03613129|164773298|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.053|||||||t-test, 2 sided|||||||0.053
82537049|NCT03613129|164773298|NON_INFERIORITY|Comparing pre-treatment PCS (at Visit 3) and post-treatment PCS (at Visit 6)||||||0.06|||||||t-test, 2 sided|||||||0.060
82537050|NCT03613129|164773299|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.587|||||||t-test, 2 sided|||||||0.587
82537051|NCT03613129|164773299|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.618|||||||t-test, 2 sided|||||||0.618
82537052|NCT03613129|164773299|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.634|||||||t-test, 2 sided|||||||0.634
82537053|NCT03613129|164773299|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.355|||||||t-test, 2 sided|||||||0.355
82537054|NCT03613129|164773299|NON_INFERIORITY|Comparing pre-treatment MCS (at Visit 3) and post-treatment MCS (at Visit 6)||||||0.417|||||||t-test, 2 sided|||||||0.417
82537055|NCT00711646|164773300|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.517||||0.048|TWO_SIDED|95.0|-1.029|-0.004|||ANCOVA|||The change in mean 11-point Numerical Rating Scale spasticity score was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline 11-point Numerical Rating Scale spasticity score as a covariate.||-0.004|-1.029|0.048
82537056|NCT00711646|164773301|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.218|TWO_SIDED|95.0|-0.29|0.07|||ANCOVA|||The change in mean Ashworth Scale score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Ashworth Scale score as a covariate.||0.07|-0.29|0.218
82537057|NCT00711646|164773302|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.17||||0.141|TWO_SIDED|95.0|-0.39|0.06|||ANCOVA|||The change in mean spasm frequency score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline spasm frequency score as a covariate.||0.06|-0.39|0.141
82648565|NCT01507831|165012764|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.0|||<|0.0001|TWO_SIDED|95.0|-56.3|-51.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.7|-56.3|<0.0001
82431156|NCT01139411|164571015|SUPERIORITY_OR_OTHER|||||||0.06||||||Threshold for significance: 0.05|ANCOVA|||"Null hypothesis was that the amount of weight lost by adolescents in Enhanced Parent Involvement and Minimal Parent involvement would not be significantly different. The study was powered at .8 to achieve a medium effect size (f = .26; partial eta sq. = 0.06).~The end-of-treatment BMI value was the dependent variable, with the baseline BMI value entered as a covariate."||||0.06
82648566|NCT01507831|165012765|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.5|||<|0.0001|TWO_SIDED|95.0|-57.7|-53.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.2|-57.7|<0.0001
82431157|NCT01139411|164571016|SUPERIORITY_OR_OTHER|||||||0.58||||||Threshold for significance: 0.05|ANCOVA|||The end-of-treatment value was the dependent variable, with the baseline value entered as a covariate.||||0.58
82431158|NCT01139411|164571017|SUPERIORITY_OR_OTHER|||||||0.19||||||Threshold for significance: 0.05|ANCOVA|||||||0.19
82431159|NCT01139411|164571018|SUPERIORITY_OR_OTHER|||||||0.72||||||Threshold for significance: 0.05|ANCOVA|||||||0.72
82431160|NCT01139411|164571019|SUPERIORITY_OR_OTHER|||||||0.41|||||||ANCOVA|||||||0.41
82431161|NCT01139411|164571020|SUPERIORITY_OR_OTHER|||||||0.01||||||Threshold for significance: 0.05|ANCOVA|||||||0.01
82431162|NCT01139411|164571021|SUPERIORITY_OR_OTHER|||||||0.61||||||Threshold for significance: 0.05|ANCOVA|||||||0.61
82431163|NCT01537315|164571041|SUPERIORITY_OR_OTHER|||||||0.4521|TWO_SIDED|||||A paired comparison between baseline CRP values with values obtained after 1, 3, and 6 months of treatment was conducted, with a p-value of 0.05 used as the a priori threshold of statistical significance.|ANOVA|||||||0.4521
82431164|NCT02197572|164571043|OTHER||Least Squares Mean|-2.2|||||ONE_SIDED|95.0||2.2||||||Change from Baseline at 0.25 Hours Postdose||2.2||
82431165|NCT02197572|164571043|OTHER||Least Squares Mean|-8.3|||||ONE_SIDED|95.0||-4.0||||||Change from Baseline at 0.5 Hours Postdose||-4.0||
82431166|NCT02197572|164571043|OTHER||Least Squares Mean|-1.8|||||ONE_SIDED|95.0||2.6||||||Change from Baseline at 1 Hour Postdose||2.6||
82431167|NCT02197572|164571043|OTHER||Least Squares Mean|-2.7|||||ONE_SIDED|95.0||1.7||||||Change from Baseline at 1.5 Hours Postdose||1.7||
82431168|NCT02197572|164571043|OTHER||Least Squares Mean|-5.0|||||ONE_SIDED|95.0||-0.6||||||Change from Baseline at 2 Hours Postdose||-0.6||
82431169|NCT02197572|164571043|OTHER||Least Squares Mean|-7.6|||||ONE_SIDED|95.0||-3.2||||||Change from Baseline at 2.5 Hours Postdose||-3.2||
82431170|NCT02197572|164571043|OTHER||Least Squares Mean|-9.1|||||ONE_SIDED|95.0||-4.6||||||Change from Baseline at 3 Hours Postdose||-4.6||
82431171|NCT02197572|164571043|OTHER||Least Squares Mean|-7.2|||||ONE_SIDED|95.0||-2.9||||||Change from Baseline at 4 Hours Postdose||-2.9||
82431172|NCT02197572|164571043|OTHER||Least Squares Mean|-8.8|||||ONE_SIDED|95.0||-4.6||||||Change from Baseline at 6 Hours Postdose||-4.6||
82431173|NCT02197572|164571043|OTHER||Least Squares Mean|-2.2|||||ONE_SIDED|95.0||2.4||||||Change from Baseline at 8 Hours Postdose||2.4||
82431174|NCT02197572|164571043|OTHER||Least Squares Mean|-6.6|||||ONE_SIDED|95.0||-0.5||||||Change from Baseline at 10 Hours Postdose||-0.5||
82431175|NCT02197572|164571043|OTHER||Least Squares Mean|7.1|||||ONE_SIDED|95.0||11.4||||||Change from Baseline at 24 Hours Postdose||11.4||
82431176|NCT02197572|164571043|OTHER||Least Squares Mean|2.8|||||ONE_SIDED|95.0||8.1||||||Change from Baseline at 48 Hours Postdose||8.1||
82431177|NCT02975804|164571071|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82431178|NCT02975804|164571072|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82648567|NCT01507831|165012766|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.3|||<|0.0001|TWO_SIDED|95.0|-54.4|-50.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50.2|-54.4|<0.0001
82431179|NCT02975804|164571073|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||< 0.05
82431180|NCT02975804|164571074|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82431181|NCT02975804|164571075|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82431182|NCT02975804|164571076|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82431183|NCT02975804|164571080|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82431184|NCT02975804|164571081|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82431185|NCT03783962|164571097|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||.003
82431186|NCT03783962|164571098|SUPERIORITY|||||||0.97|||||||Mixed Models Analysis|||||||.97
82431187|NCT03783962|164571099|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||.08
82431188|NCT03783962|164571099|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431189|NCT03783962|164571099|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431190|NCT03783962|164571100|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||.18
82431191|NCT03783962|164571100|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||.40
82431192|NCT03783962|164571100|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
82431193|NCT03783962|164571101|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||.40
82431194|NCT03783962|164571101|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431195|NCT03783962|164571101|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431196|NCT03783962|164571102|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||.25
82431197|NCT03783962|164571102|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431198|NCT03783962|164571102|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431199|NCT03783962|164571103|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||||||.26
82431200|NCT03783962|164571103|SUPERIORITY|||||||0.41|||||||Mixed Models Analysis|||||||.41
82431201|NCT03783962|164571103|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||.02
82431202|NCT03783962|164571104|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||.03
82431203|NCT03783962|164571104|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||.02
82431204|NCT03783962|164571104|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82431205|NCT03783962|164571105|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||||||.58
82431206|NCT03783962|164571105|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||.05
82431207|NCT03783962|164571105|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||.01
82577331|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.203||0.169|TWO_SIDED|95.0|-0.69|0.12|||MMRM|||Somatic Symptoms General, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.69|0.1690
82577332|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.197||0.7919|TWO_SIDED|95.0|-0.34|0.44|||MMRM|||Somatic Symptoms General, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.44|-0.34|0.7919
82577333|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.205||0.0192|TWO_SIDED|95.0|-0.89|-0.08|||MMRM|||Somatic Symptoms General, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.08|-0.89|0.0192
82577334|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.196||0.3887|TWO_SIDED|95.0|-0.56|0.22|||MMRM|||Somatic Symptoms General, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.56|0.3887
82577335|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.189||0.0719|TWO_SIDED|95.0|-0.72|0.03|||MMRM|||Somatic Symptoms General, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.72|0.0719
82648568|NCT01507831|165012767|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.7|||<|0.0001|TWO_SIDED|95.0|-55.7|-51.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-51.6|-55.7|<0.0001
82431208|NCT03783962|164571106|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
82431209|NCT03783962|164571107|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82431210|NCT03458325|164571108|SUPERIORITY||Mean Difference (Final Values)|-16.0|||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||-11,802.70|-22,187.90|<0.0001
82431211|NCT03458325|164571109|SUPERIORITY||Percentage Difference|-6.4||||0.6765|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||0.6765
82431212|NCT03458325|164571110|SUPERIORITY||Mean Difference (Net)|5.3||||0.5856|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||0.5856
82537058|NCT00711646|164773303|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|1.3||||0.766|TWO_SIDED|95.0|-7.47|10.07|||ANCOVA|||The change in mean Motricity Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Motricity Index score as a covariate.||10.07|-7.47|0.766
82431213|NCT03458325|164571111|SUPERIORITY||Mean Difference (Net)|-1.9||||1|TWO_SIDED||||||Fisher Exact|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||1.000
82431214|NCT03458325|164571112|SUPERIORITY||Mean Difference (Net)|65.1|||<|0.0001|TWO_SIDED||||||Chi-squared|||"The comparator arm was populated with claims data for patients who presented to the emergency department for worsening HF and were admitted to the hospital for ≤ 72 hours for the treatment of HF. The filter was further strengthened by analyzing diagnostic codes and resource utilization during their hospital stay to exclude hospitalizations other than Heart Failure.~Each subject from the Furoscix group was matched to controls in ratios ranging from 1:1 to 4:1."||||<0.0001
82431215|NCT03458325|164571113|SUPERIORITY||Mean Difference (Net)|12.8||||0.0443|TWO_SIDED|95.0|0.4|25.3|||t-test, 2 sided|P-value was obtained from the paired t-test statistic.||Analysis for Summary Score||25.3|0.4|0.0443
82537059|NCT00711646|164773304|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|8.46||||0.349|TWO_SIDED|95.0|-6.74|23.66|||Fisher Exact|||The proportion of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' was compared between treatment groups using Fisher's Exact Test.||23.66|-6.74|0.349
82451695|NCT00620113|164609693|SUPERIORITY_OR_OTHER||Difference in LS Means|-12.55||||0.009|TWO_SIDED|95.0|-22.16|-2.94||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-2.94|-22.16|0.009
82451696|NCT00620113|164609693|SUPERIORITY_OR_OTHER||Difference in LS Means|2.48||||0.598|TWO_SIDED|95.0|-7.79|12.74||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||12.74|-7.79|0.598
82451697|NCT00620113|164609694|SUPERIORITY_OR_OTHER||Difference in LS Means|-26.86|||<|0.001|TWO_SIDED|95.0|-43.3|-10.42||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 50 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-10.42|-43.30|<0.001
82451698|NCT00620113|164609694|SUPERIORITY_OR_OTHER||Difference in LS Means|-28.86|||<|0.001|TWO_SIDED|95.0|-44.97|-12.75||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 25 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||-12.75|-44.97|<0.001
82451699|NCT00620113|164609694|SUPERIORITY_OR_OTHER||Difference in LS Means|-5.61||||0.458|TWO_SIDED|95.0|-23.79|12.56||The stepwise linear trend test adjusted for multiplicity within the family of comparisons of active doses with placebo and preserved the Type I error rate. P-value is for Placebo through Odanacatib 10 mg dose.|ANCOVA|||The log-transformed fraction from baseline in biomarker levels was analyzed using an ANCOVA model with terms for treatment and study center, using a stepwise linear contrast test based on the ANCOVA model. The geometric mean percent change from baseline (back-transformation from the mean log-transformed fraction) and the associated 95% confidence intervals were presented.||12.56|-23.79|0.458
82451700|NCT01979133|164609752|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||.012
82451701|NCT01979133|164609753|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.005
82451702|NCT01979133|164609754|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.017
82451703|NCT01979133|164609755|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.038
82451704|NCT01979133|164609756|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.034
82537060|NCT00711646|164773306|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.86||||0.054|TWO_SIDED|95.0|-0.06|7.78|||ANCOVA|||The change in mean Motricity Index score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Motricity Index score as a covariate.||7.78|-0.06|0.054
82537061|NCT01451814|164773325|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.22|TWO_SIDED|95.0|0.67|5.48|||Chi-squared|||||5.48|0.67|.22
82648569|NCT01507831|165012768|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-39.1|-35.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35.9|-39.1|<0.0001
82648570|NCT01507831|165012769|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.0|||<|0.0001|TWO_SIDED|95.0|-58.3|-53.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.7|-58.3|<0.0001
82451705|NCT01979133|164609757|SUPERIORITY_OR_OTHER|||||||0.231|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.231
82451706|NCT01979133|164609758|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.066
82451707|NCT00486824|164609759|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82648571|NCT01507831|165012770|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.6|||<|0.0001|TWO_SIDED|95.0|-56.6|-52.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-52.6|-56.6|<0.0001
82451708|NCT02748070|164609766|OTHER|||||||0.819|||||||t-test, 2 sided|||Comparison of baseline and 1 week||||0.819
82451709|NCT02748070|164609766|OTHER|||||||0.665|||||||t-test, 2 sided|||Comparison of baseline and 1 month||||0.665
82451710|NCT02748070|164609766|OTHER|||||||0.071|||||||t-test, 2 sided|||Comparison of baseline and 3 months||||0.071
82451711|NCT02748070|164609766|OTHER|||||||0.097|||||||t-test, 2 sided|||Comparison of baseline and 6 months||||0.097
82451712|NCT02748070|164609767|OTHER|||||||0.376|||||||t-test, 2 sided|||Comparison of baseline and 1 week||||0.376
82451713|NCT02748070|164609767|OTHER|||||||0.685|||||||t-test, 2 sided|||Comparison of baseline and 1 month||||0.685
82537062|NCT01451814|164773326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3||||0.06|TWO_SIDED|95.0|0.84|22.1|||Chi-squared|||||22.1|0.84|.06
82537063|NCT01451814|164773327|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0||||0.18|TWO_SIDED|95.0|0.56|16.11|||Chi-squared|||||16.11|0.56|.18
82537064|NCT02467491|164773332|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||The Short Physical Performance Battery (SPPB) score at baseline was compared with the SPPB scored after 4 weeks of physical activity intervention with a paired t-test||||0.04
82431216|NCT03458325|164571114|SUPERIORITY|Statistical Analysis for the mean change in NT-proBNP over 30 days|Mean Difference (Final Values)|-122.6||||0.5133|TWO_SIDED|95.0|-525.8|280.5|||t-test, 2 sided|||||280.5|-525.8|0.5133
82431217|NCT03458325|164571114|SUPERIORITY||Mean Difference (Final Values)|-719.9||||0.042|TWO_SIDED|95.0|-1406.5|-33.2|||t-test, 2 sided|||Statistical Analysis for mean change in BNP over 30 days||-33.2|-1406.5|0.0420
82431218|NCT02763059|164571129|OTHER|Kruskal-Wallis||||||0.027||||||Kruskal-Wallis test, a non-parametric omnibus test, was used followed by Dunn's multiple comparison test for pairwise group analysis. A priori threshold for statistical significance was set at p \< 0.05 with no adjustments for multiple comparisons.|Kruskal-Wallis|||The Kruskal-Wallis test is an omnibus test comparing all three independent groups.||||0.027
82431219|NCT02763059|164571129|OTHER|Kruskal-Wallis|||||<|0.0001||||||Kruskal-Wallis test, a non-parametric omnibus test, was used followed by Dunn's multiple comparison test for pairwise group analysis. A priori threshold for statistical significance was set at p \< 0.05 with no adjustments for multiple comparisons.|Kruskal-Wallis|||The Kruskal-Wallis test is an omnibus test comparing all three independent groups on the pain/discomfort outcome.||||<0.0001
82431220|NCT02661997|164571181|SUPERIORITY|||||||0.58||||||Between group differences|ANOVA|||||||0.58
82431221|NCT02661997|164571182|SUPERIORITY|||||||0.88|||||||ANOVA|||||||0.88
82451714|NCT02748070|164609767|OTHER|||||||0.388|||||||t-test, 2 sided|||Comparison of baseline and 3 months||||0.388
82451715|NCT02748070|164609767|OTHER|||||||0.233|||||||t-test, 2 sided|||Comparison of baseline and 6 months||||0.233
82451716|NCT00571974|164609787|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||One-sided exact binomial test to compare the observed response rate to the 20% rate envisioned under the original null hypothesis.|One-sided exact binomial test|Because all but one subject responded to treatment, the Fisher's exact test was addedd.||The Simon two-stage minimax design with 9 subjects in the first stage and 8 subjects in the second stage, yielding 17 subjects overall. This design's early termination rule was ≤3/9 responses in the first stage, and its success criterion was ≥7/17 responses overall. This design had 80% power at 5% alpha to distinguish an efficacious 50% response rate from a null-hypothesis 20% response rate.||||0.0001
82537065|NCT02467491|164773333|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||The Short Physical Performance Battery (SPPB) score after 4 weeks of physical activity intervention was compared with the SPPB score after 2 to 3 months from the completion of the physical activity intervention with a paired t-test||||0.02
82537066|NCT03710564|164773342|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.76||0.4537|TWO_SIDED|95.0|-2.1|0.9|||Pairwise ANOVA|||||0.9|-2.1|0.4537
82537067|NCT03006341|164773376|OTHER||C-Statistic|0.81|||||||||||Regression, Logistic|Logistic regression with bleeding history or predisposition as dependent and treatment groups and claims based variables as the independent variables|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a receiver operating characteristic (ROC) curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
82431222|NCT02661997|164571183|SUPERIORITY|||||||0.17|||||||ANOVA|||||||0.17
82431223|NCT02661997|164571184|SUPERIORITY|||||||0.88|||||||ANOVA|||This is an analysis of pre to post-treatment changes on the Physical Health subscale of the PROMIS Global Health Scale||||0.88
82431224|NCT02661997|164571185|SUPERIORITY|||||||0.032||||||P-value for group by time interaction|ANOVA|||||||0.032
82431225|NCT02661997|164571186|SUPERIORITY|||||||0.44||||||P-value for group by time interaction|ANOVA|||||||0.44
82431226|NCT02661997|164571187|SUPERIORITY|||||||0.73||||||P-value for group by time interaction|ANOVA|||||||0.73
82648572|NCT01507831|165012771|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.0|||<|0.0001|TWO_SIDED|95.0|-40.4|-37.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-37.5|-40.4|<0.0001
82431227|NCT02661997|164571188|SUPERIORITY|||||||0.36||||||P-value for group by time interaction|ANOVA|||||||0.36
82431228|NCT02661997|164571189|SUPERIORITY|||||||0.24|||||||ANOVA|||||||0.24
82431229|NCT02661997|164571190|SUPERIORITY|||||||0.006||||||P-value for group by time interaction|ANOVA|||||||0.006
82431230|NCT02661997|164571191|SUPERIORITY|||||||0.55||||||P-value for group by time interaction|ANOVA|||||||0.55
82431231|NCT02661997|164571192|SUPERIORITY|||||||0.36||||||P-value for group by time interaction|ANOVA|||||||0.36
82431232|NCT02661997|164571193|SUPERIORITY|||||||0.13|||||||ANOVA|||||||0.13
82431233|NCT02661997|164571194|SUPERIORITY|||||||0.26|||||||ANOVA|||||||0.26
82431234|NCT02661997|164571195|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82431235|NCT02661997|164571196|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
82431236|NCT02661997|164571199|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82431237|NCT02661997|164571200|SUPERIORITY|||||||0.91|||||||ANOVA|||||||0.91
82431238|NCT02661997|164571201|SUPERIORITY|||||||0.42|||||||ANOVA|||||||0.42
82431239|NCT02661997|164571202|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
82431240|NCT02661997|164571203|SUPERIORITY|||||||0.99|||||||ANOVA|||||||0.99
82431241|NCT02661997|164571204|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
82431242|NCT02661997|164571205|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
82431243|NCT02661997|164571206|SUPERIORITY|||||||0.09||||||An adjusted p value was used based on Levene's test.|t-test, 2 sided|||||||0.09
82431244|NCT02661997|164571207|SUPERIORITY|||||||0.75|||||||ANOVA|||||||0.75
82431245|NCT02661997|164571208|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
82537068|NCT03006341|164773378|OTHER||Adjusted R squared statistic|0.02|||||||||||Regression, Linear|Logistic regression model with serum creatinine as the dependent variable and treatment groups and claims based variables as the independent variables|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
82431246|NCT02661997|164571209|SUPERIORITY|||||||0.67|||||||ANOVA|||||||0.67
82431247|NCT02661997|164571210|SUPERIORITY|||||||0.43|||||||ANOVA|||||||0.43
82431248|NCT02661997|164571211|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.80
82431249|NCT02661997|164571212|SUPERIORITY|||||||0.31|||||||ANOVA|||||||0.31
82431250|NCT02661997|164571213|SUPERIORITY|||||||0.16|||||||ANOVA|||||||0.16
82431251|NCT02661997|164571214|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82431252|NCT02661997|164571215|SUPERIORITY|||||||0.56|||||||ANOVA|||||||0.56
82431253|NCT02661997|164571216|SUPERIORITY|||||||0.64|||||||ANOVA|||||||0.64
82431254|NCT03901963|164571217|SUPERIORITY||Odds Ratio (OR)|4.51|||<|0.0001|TWO_SIDED|95.0|2.37|8.57||Tested at 2-sided 0.05 significance level through stratified CMH method. Stratification factor included baseline cytogenetic risk per investigator'|stratified Cochran-Mantel-Haenszel (CMH)||Odds ratio and 95% CI were estimated by Mantel-Haenszel method. Stratification factor included baseline cytogenetic risk per investigator's assessment (high risk versus standard/unknown risk) as used for randomization of the study.|||8.57|2.37|<0.0001
82431255|NCT01803880|164571231|NON_INFERIORITY|"Non-inferiority Margin = 10 points. Non-inferiority of study device was concluded if lower limit of one-sided 97.5% CI for treatment difference \<10.~Superiority of study device was established if LS means of treatment difference and lower limit of one-sided 97.5% CI for treatment difference ≤0."|One-sided 97.5% confidence interval (CI)|-7.42|STANDARD_ERROR_OF_MEAN|5.137|>|0.05|ONE_SIDED|97.5|-19.29|||All unscheduled visits were to be included and nominal visits were to be applied using analysis visit windows. Both the assigned analysis visits and the site reported nominal visits were provided in the subject data listings.|ANCOVA|Due to early termination, all inferential analysis was interpreted as descriptive and carried out in an exploratory manner.||An ANCOVA model was used to compare the difference in the devices for change from Baseline in the KOOS at Week 52. KOOS was derived as the average of five subscale scores. LOCF imputation was considered for missing value. One-sided 97.5% confidence interval (CI) for treatment difference (Study-Control) was to be used for determining non-inferiority/superiority of the study device.|||-19.29|>0.05
82431256|NCT01816776|164571261|SUPERIORITY||Risk Difference (RD)|41.0|||<|0.0001|TWO_SIDED|95.0|25.0|54.0||1-sided. p\<0.025 considered significant.|Fisher Exact||Risk difference = Treatment - Control|||54|25|<0.0001
82431257|NCT01816776|164571263|SUPERIORITY||Mean Difference (Net)|-22.8|||<|0.0001|TWO_SIDED|95.0|-29.0|-16.6||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||-16.6|-29.0|<0.0001
82431258|NCT01816776|164571264|SUPERIORITY||Mean Difference (Net)|-25.0|||<|0.0001|TWO_SIDED|95.0|-31.2|-18.7||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-18.7|-31.2|<0.0001
82431259|NCT01816776|164571265|SUPERIORITY||Mean Difference (Net)|-15.2|||<|0.0001|TWO_SIDED|95.0|-21.6|-8.7||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-8.7|-21.6|<0.0001
82431260|NCT01816776|164571266|SUPERIORITY||Mean Difference (Net)|2.4||||0.0244|TWO_SIDED|95.0|-0.4|5.1||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||5.1|-0.4|0.0244
82431261|NCT01816776|164571267|SUPERIORITY||Risk Difference (RD)|55.0|||<|0.0001|TWO_SIDED|95.0|40.0|68.0||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Fisher Exact||Risk difference = Treatment - Control|||68|40|<0.0001
82431262|NCT01816776|164571268|SUPERIORITY||Mean Difference (Net)|-22.7|||<|0.0001|TWO_SIDED|95.0|-28.9|-16.5||Secondary endpoints hierarchically tested with p\<0.025 considered significant.|t-test, 1 sided||Mean difference = Treatment - Control|||-16.5|-28.9|<0.0001
82431263|NCT01816776|164571269|SUPERIORITY||Mean Difference (Net)|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.5|-2.0||1-sided. Secondary endpoints hierarchically tested with p\<0.025 considered significant.|Wilcoxon (Mann-Whitney)||Mean difference = Treatment - Control|||-2.0|-5.5|<0.0001
82431264|NCT04229888|164571292|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in DEQ-5 score, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M=6 representing the largest clinically acceptable difference based on historical data.||||||0.02|||||||ANOVA|||||||0.02
82431265|NCT04229888|164571293|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in MG score, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M= 1 representing the largest clinically acceptable difference based on historical data.||||||0.07|||||||ANOVA|||||||0.07
82431266|NCT04229888|164571294|NON_INFERIORITY|To establish non-inferiority of the treatment effect on the primary outcome change in TBUT, the upper bound of the two-sided 95% confidence interval on mean difference between the light based (sham) treatment and Lipiflow treatment were compared against a non-inferiority margin M=6 representing the largest clinically acceptable difference based on historical data.||||||0.66|||||||ANOVA|||||||0.66
82431267|NCT03810014|164571304|SUPERIORITY||Risk Difference (RD)|2.5||||0.01|TWO_SIDED|98.0|0.2|4.8|||Generalized estimating equations|||(Arm 3 + Arm 4) vs (Arm 1 + Arm 2)||4.80|0.20|0.01
82431268|NCT03810014|164571304|SUPERIORITY||Risk Ratio, log|1.025||||0.012|TWO_SIDED|98.0|1.002|1.049|||Generalized estimating equations|||(Arm 3 + Arm 4) vs (Arm 1 + Arm 2)||1.049|1.002|0.012
82431269|NCT03810014|164571304|SUPERIORITY||Risk Difference (RD)|-0.6||||0.33|TWO_SIDED|98.0|-2.2|0.9|||Generalized estimating equations|||(Arm 1 + Arm 3) vs (Arm 2 + Arm 4)||0.90|-2.20|0.33
82431270|NCT03810014|164571304|SUPERIORITY||Risk Ratio, log|0.994||||0.332|TWO_SIDED|98.0|0.979|1.009|||Generalized estimating equations|||(Arm 1 + Arm 3) vs (Arm 2 + Arm 4)||1.009|0.979|0.332
82431271|NCT00778336|164571323|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
82431272|NCT00778336|164571323|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
82431273|NCT00778336|164571323|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
82537069|NCT03006341|164773380|OTHER||Adjusted R squared statistic|0.04|||||||||||Regression, Linear|Linear regression model with duration of atrial fibrillation as dependent and treatment groups and claims based variables as independent variables|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
82577336|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.185||0.1195|TWO_SIDED|95.0|-0.66|0.08|||MMRM|||Somatic Symptoms General, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.66|0.1195
82577337|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.079||0.9552|TWO_SIDED|95.0|-0.16|0.15|||MMRM|||Genital Symptoms, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.16|0.9552
82431274|NCT00778336|164571323|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \> 0.||||||<0.0001
82431275|NCT04108208|164571326|SUPERIORITY||Hazard Ratio (HR)|0.233|||=|0.0052|TWO_SIDED|95.0|0.077|0.705|||Log Rank|||||0.705|0.077|=0.0052
82431276|NCT04587869|164571362|SUPERIORITY||Odds Ratio (OR)|1.23||||0.44|TWO_SIDED|95.0|0.73|2.07|||Regression, Logistic|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Result is for indicator of assignment to intervention arm (vs. control)|Nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||2.07|.73|.44
82431277|NCT04587869|164571363|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.47|TWO_SIDED||||||Regression, Linear|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Result is for indicator of assignment to intervention arm (vs. control)|Nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||||.47
82431278|NCT04587869|164571364|SUPERIORITY||Slope|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED||||||Regression, Linear|Result was adjusted for HIV status and age (dichotomized at 50+ vs. \<50), as those characteristics were used to stratify sampling|Slope is adjusted regression coefficient for indicator of intervention arm (so mean of outcome across follow-ups was 0.19 higher for intervention vs. control)|Unlike the two primary outcomes which have a single value for each participant, for this outcome we employed a repeated measures style structure with one record for each of up to 3 FU observations. A sandwich estimator (SAS Proc Surveyreg) was employed to account for clustering of observations within participant. In addition, nonresponse weights were employed to account for potential bias from excluding participants who did not complete any follow-up assessments.||||.02
82431279|NCT05111613|164571365|SUPERIORITY||Win Ratio|5.01|||||TWO_SIDED|95.0|3.68|6.97||||||||6.97|3.68|
82431280|NCT05111613|164571366|SUPERIORITY||Win Ratio|1.34|||||TWO_SIDED|95.0|0.78|2.35||||||||2.35|0.78|
82431281|NCT04538664|164571389|SUPERIORITY||Hazard Ratio (HR)|0.395|||<|0.0001|TWO_SIDED|95.0|0.296|0.528|||Log Rank|||||0.528|0.296|<0.0001
82431282|NCT02891226|164571408|SUPERIORITY||Odds Ratio (OR)|2.75||||0.079|TWO_SIDED|90.0|1.07|7.08|||Regression, Logistic|||||7.08|1.07|0.079
82577338|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.076||0.0384|TWO_SIDED|95.0|-0.31|-0.01|||MMRM|||Genital Symptoms, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.01|-0.31|0.0384
82431283|NCT02891226|164571408|SUPERIORITY||Odds Ratio (OR)|4.92||||0.003|TWO_SIDED|90.0|2.01|12.07|||Regression, Logistic|||||12.07|2.01|0.003
82431284|NCT02891226|164571408|SUPERIORITY||Odds Ratio (OR)|6.14|||<|0.001|TWO_SIDED|90.0|2.81|13.42|||Regression, Logistic|||||13.42|2.81|<0.001
82431285|NCT02891226|164571409|SUPERIORITY||Odds Ratio (OR)|4.31||||0.241|TWO_SIDED|90.0|0.55|33.58|||Regression, Logistic|||||33.58|0.55|0.241
82431286|NCT02891226|164571409|SUPERIORITY||Odds Ratio (OR)|11.16||||0.032|TWO_SIDED|90.0|1.76|70.64|||Regression, Logistic|||||70.64|1.76|0.032
82431287|NCT02891226|164571409|SUPERIORITY||Odds Ratio (OR)|16.04||||0.009|TWO_SIDED|90.0|2.82|91.32|||Regression, Logistic|||||91.32|2.82|0.009
82451717|NCT02813889|164609789|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0146||||0.0054|TWO_SIDED|95.0|-0.0261|-0.0031||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0031|-0.0261|0.0054
82431288|NCT02891226|164571410|SUPERIORITY||Odds Ratio (OR)|2.0||||0.33|TWO_SIDED|90.0|0.62|6.45|||Regression, Logistic|||||6.45|0.62|0.330
82431289|NCT02891226|164571410|SUPERIORITY||Odds Ratio (OR)|5.72||||0.006|TWO_SIDED|90.0|2.02|16.21|||Regression, Logistic|||||16.21|2.02|0.006
82431290|NCT02891226|164571410|SUPERIORITY||Odds Ratio (OR)|3.52||||0.029|TWO_SIDED|90.0|1.37|9.07|||Regression, Logistic|||||9.07|1.37|0.029
82431291|NCT02891226|164571411|SUPERIORITY||LS Mean difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.234||0.007|TWO_SIDED|90.0|-1.03|-0.25|||Mixed Models Analysis|||||-0.25|-1.03|0.007
82431292|NCT02891226|164571411|SUPERIORITY||LS Mean difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|90.0|-1.21|-0.45|||Mixed Models Analysis|||||-0.45|-1.21|<0.001
82431293|NCT02891226|164571411|SUPERIORITY||LS Mean difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.188||0.005|TWO_SIDED|90.0|-0.84|-0.22|||Mixed Models Analysis|||||-0.22|-0.84|0.005
82537070|NCT03006341|164773386|OTHER||C-Statistic|0.88|||||||||||Regression, Logistic|Logistic regression model with diabetes as the dependent variable and treatment groups and claims based variables as the independent variables.|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a ROC curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
82537071|NCT03006341|164773387|OTHER||C-Statistic|0.69|||||||||||Regression, Logistic|Logistic regression model with hyperlipidemia as the dependent variable and treatment groups and claims based variables as the independent variables.|The C-statistic can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|"The concordance statistic is equal to the area under a ROC curve. The C-statistic (sometimes called the concordance statistic or C-index) is a measure of goodness of fit for binary outcomes in a logistic regression model."||||
82577339|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.097||0.2582|TWO_SIDED|95.0|-0.3|0.08|||MMRM|||Genital Symptoms, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.30|0.2582
82431294|NCT02891226|164571413|SUPERIORITY||LS Mean difference (Final Values)|24.05|STANDARD_ERROR_OF_MEAN|6.358|<|0.001|TWO_SIDED|90.0|13.53|34.56|||Mixed Models Analysis|||||34.56|13.53|<0.001
82431295|NCT02891226|164571413|SUPERIORITY||LS Mean difference (Final Values)|29.46|STANDARD_ERROR_OF_MEAN|6.421|<|0.001|TWO_SIDED|90.0|18.84|40.08|||Mixed Models Analysis|||||40.08|18.84|<0.001
82431296|NCT02891226|164571413|SUPERIORITY||LS Mean difference (Final Values)|25.24|STANDARD_ERROR_OF_MEAN|5.185|<|0.001|TWO_SIDED|90.0|16.67|33.82|||Mixed Models Analysis|||||33.82|16.67|<0.001
82431297|NCT02891226|164571414|SUPERIORITY||LS Mean difference (Final Values)|7.91|STANDARD_ERROR_OF_MEAN|2.072|<|0.001|TWO_SIDED|90.0|4.48|11.34|||Mixed Models Analysis|||||11.34|4.48|<0.001
82431298|NCT02891226|164571414|SUPERIORITY||LS Mean difference (Final Values)|6.2|STANDARD_ERROR_OF_MEAN|2.102||0.004|TWO_SIDED|90.0|2.72|9.67|||Mixed Models Analysis|||||9.67|2.72|0.004
82431299|NCT02891226|164571414|SUPERIORITY||LS Mean difference (Final Values)|6.73|STANDARD_ERROR_OF_MEAN|1.686|<|0.001|TWO_SIDED|90.0|3.94|9.51|||Mixed Models Analysis|||||9.51|3.94|<0.001
82431300|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|1.927||0.008|TWO_SIDED|90.0|1.95|8.32|||Mixed Models Analysis|||Mental Component Summary (MCS)||8.32|1.95|0.008
82431301|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|1.951||0.033|TWO_SIDED|90.0|0.96|7.41|||Mixed Models Analysis|||Mental Component Summary (MCS)||7.41|0.96|0.033
82431302|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|3.71|STANDARD_ERROR_OF_MEAN|1.589||0.021|TWO_SIDED|90.0|1.08|6.34|||Mixed Models Analysis|||Mental Component Summary (MCS)||6.34|1.08|0.021
82431303|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.319||0.229|TWO_SIDED|90.0|-0.59|3.77|||Mixed Models Analysis|||Physical Component Summary (PCS)||3.77|-0.59|0.229
82431304|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|4.91|STANDARD_ERROR_OF_MEAN|1.349|<|0.001|TWO_SIDED|90.0|2.67|7.14|||Mixed Models Analysis|||Physical Component Summary (PCS)||7.14|2.67|<0.001
82431305|NCT02891226|164571415|SUPERIORITY||LS Mean difference (Final Values)|3.6|STANDARD_ERROR_OF_MEAN|1.078||0.001|TWO_SIDED|90.0|1.81|5.38|||Mixed Models Analysis|||Physical Component Summary (PCS)||5.38|1.81|0.001
82431306|NCT00125788|164571418|SUPERIORITY|||||||0.076|||||||Cochran-Mantel-Haenszel|||||||0.076
82431307|NCT00125788|164571419|SUPERIORITY|||||||0.072|||||||Cochran-Mantel-Haenszel|||||||0.072
82431308|NCT00125788|164571420|SUPERIORITY|||||||0.129|||||||Cochran-Mantel-Haenszel|||||||0.129
82431309|NCT02137070|164571478|SUPERIORITY||||||<|0.01||||||Voxel-size (p-FWE \< 0.01) and voxel-peak (p-unc \< 0.001) were corrected for multiple comparisons.|2x2 Factorial ANOVA in CONN|2x2 Factorial ANOVA in CONN - Group (Bariatric surgery vs. control) \& time (pre-surgery baseline vs. 18-month follow-up)||Analysis of variance comparing change scores from 18 months post-surgery relative to pre-surgical baseline were performed. Change in the surgical group was compared to change for the non-surgical controls. The dependent measures were connectivity strengths seeding from the hippocampus and left dorsal lateral pre-frontal cortex to other cortical areas.||||<0.01
82431310|NCT04609553|164571479|SUPERIORITY|||||||0.64||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. Specifically, no adjustments were made for child expressive language since it was only measured at 18 months.|||0.64
82451718|NCT02813889|164609790|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.02||||0.0005|TWO_SIDED|95.0|-0.0331|-0.007||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0070|-0.0331|0.0005
82451719|NCT02813889|164609791|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0146||||0.0088|TWO_SIDED|95.0|-0.0267|-0.0026||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||-0.0026|-0.0267|0.0088
82537072|NCT03006341|164773388|OTHER||Adjusted R squared statistic|0.34|||||||||||Regression, Linear|Linear regression model with HAS-BLED score as the dependent variable and treatment groups and claims based variables as the independent variables.|The adjusted R² statistic, or coefficient of determination, is the proportion of the variance in the (EMR) outcome that is predictable from the independent (claims) variables, adjusted for the number of predictors in the model.|R-squared is a statistical measure of how close the data are to the fitted regression line. 0% indicates that the model explains none of the variability of the response data around its mean. 100% indicates that the model explains all the variability of the response data around its mean.||||
82537073|NCT00742274|164773395|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82537074|NCT02974010|164773415|SUPERIORITY|||||||0.03||||||BDM LS difference overall|Mixed Models Analysis|BDM LS difference overall||||||.03
82577340|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.094||0.1511|TWO_SIDED|95.0|-0.32|0.05|||MMRM|||Genital Symptoms, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.32|0.1511
82577341|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.126||0.4631|TWO_SIDED|95.0|-0.34|0.16|||MMRM|||Genital Symptoms, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.34|0.4631
82577342|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.123||0.4628|TWO_SIDED|95.0|-0.33|0.15|||MMRM|||Genital Symptoms, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.33|0.4628
82431311|NCT04609553|164571479|SUPERIORITY|||||||0.46||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. Specifically, no adjustments were made for child expressive language since it was only measured at 18 months.|||0.46
82431312|NCT04609553|164571480|SUPERIORITY|||||||0.84||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.84
82451720|NCT02813889|164609792|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.0059||||0.7624|TWO_SIDED|95.0|-0.018|0.0062||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length (Full-Term) - Path Length (Pre-Term)|||0.0062|-0.0180|0.7624
82537075|NCT03124108|164773422|SUPERIORITY||Difference in percentage|-52.0|STANDARD_ERROR_OF_MEAN|5.4|<|0.001|TWO_SIDED|95.0|-62.5|-41.5|||ANCOVA|||||-41.5|-62.5|<0.001
82537076|NCT03124108|164773422|SUPERIORITY||Difference in percentage|-43.9|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-55.7|-32.1|||ANCOVA|||||-32.1|-55.7|<0.001
82537077|NCT00517933|164773498|SUPERIORITY_OR_OTHER|||||||0.39|||||||Chi-squared|||||||0.39
82537078|NCT00517933|164773500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.11|TWO_SIDED|95.0|-3.9|37.3|||Regression, Linear|||||37.3|-3.9|0.11
82537079|NCT00517933|164773501|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Log Rank|||||||0.41
82537080|NCT00517933|164773502|SUPERIORITY_OR_OTHER||Slope|-6.58|STANDARD_ERROR_OF_MEAN|2.3||0.006|TWO_SIDED|95.0|-11.25|-1.92|||Mixed Models Analysis|||||-1.92|-11.25|0.006
82537081|NCT00517933|164773504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.7|TWO_SIDED|95.0|-0.05|0.07|||Mixed Models Analysis|||||0.07|-0.05|0.70
82537082|NCT00517933|164773506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.04|TWO_SIDED|95.0|0.1|3.0|||Mixed Models Analysis|||||3.0|0.1|0.04
82537083|NCT00517933|164773508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.16|TWO_SIDED|95.0|-0.81|0.14|||Regression, Linear|||||0.14|-0.81|0.16
82537084|NCT00517933|164773510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.01|TWO_SIDED|95.0|-7.3|-0.9|||Regression, Linear|||||-0.9|-7.3|0.01
82451721|NCT02813889|164609793|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0129||||0.0326|TWO_SIDED|95.0|0.0007|0.0251||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0251|0.0007|0.0326
82451722|NCT02813889|164609794|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0309|||<|0.0001|TWO_SIDED|95.0|0.0138|0.048||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0480|0.0138|<0.0001
82451723|NCT02813889|164609795|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.017||||0.0025|TWO_SIDED|95.0|0.0045|0.0295||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0295|0.0045|0.0025
82451724|NCT02813889|164609796|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.0066||||0.6782|TWO_SIDED|95.0|-0.0059|0.0191||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = Path Length per second (Typical) - Path Length per second (Atypical)|||0.0191|-0.0059|0.6782
82451725|NCT02813889|164609797|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|1.064||||0.0479|TWO_SIDED|95.0|0.006|2.122||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||2.122|0.006|0.0479
82451726|NCT02813889|164609798|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.278||||0.9947|TWO_SIDED|95.0|-0.921|1.477||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||1.477|-0.921|0.9947
82451727|NCT02813889|164609799|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.835||||0.2614|TWO_SIDED|95.0|-0.274|1.945||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||1.945|-0.274|0.2614
82451728|NCT02813889|164609800|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|1.176||||0.0314|TWO_SIDED|95.0|0.066|2.286||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Full-Term) - StdDevY (Pre-Term)|||2.286|0.066|0.0314
82451729|NCT02813889|164609801|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-1.074||||0.0958|TWO_SIDED|95.0|-2.255|0.1059||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.1059|-2.255|0.0958
82451730|NCT02813889|164609802|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|0.5248||||0.966|TWO_SIDED|95.0|-1.1243|2.1739||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||2.1739|-1.1243|0.9660
82451731|NCT02813889|164609803|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-0.4198||||0.9462|TWO_SIDED|95.0|-1.6278|0.7882||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.7882|-1.6278|0.9462
82451732|NCT02813889|164609804|SUPERIORITY|Two-Factor ANOVA in repeated measures|Mean Difference (Net)|-1.0705||||0.1129|TWO_SIDED|95.0|-2.2785|0.1375||The threshold for statistical significance was p = 0.05.|ANOVA|p Values were adjusted for multiple comparisons using Tukey-Kramer tests.|Difference = StdDevY (Typical) - StdDevY (Atypical)|||0.1375|-2.2785|0.1129
82451733|NCT02451917|164609845|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18randomized to sequence INPH/IGlar) provided 90% power to detect a mean difference of 0.7% in the primary endpoint(A1c), considering a 15% dropout rate and assuming an SD of 0.85%, and a type I error of 5%.||||||0.00045||||||The intention-to-treat population consisted of all randomized participants.|ANOVA|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power to detect a mean difference of 0.7% in the primary endpoint (A1c), considering a 15% dropout rate and assuming an SD of 0.85%, and a type I error of 5%. Test for data normality (Kolmogorov-Smirnov statistics) was performed at baseline for each sequence of the therapy.||||0.00045
82451734|NCT02451917|164609846|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%. Test for data normality (Kolmogorov-Smirnov statistics) was performed at baseline for each sequence of the therapy.|number of total events per patient|0.0||||0.35|TWO_SIDED|||||Analysis of covariance (ANOVA) model - total hypoglycemic events per patient during 24 weeks|ANOVA||The calculated value for the estimation parameter was zero, since the best treatment option for those with diabetes is reach a good glycemic control without hypoglycemia.|Analysis of covariance (ANOVA) model - total hypoglycemic events per patient during 24 weeks||||0.35
82451735|NCT02451917|164609846|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.|number of nocturnal events per patient|0.0||||0.047|TWO_SIDED|||||Analysis of covariance (ANOVA) model - number of nocturnal hypoglycemic events per patient during 24 weeks|ANOVA||The calculated value for the estimation parameter was zero, since the best treatment option for those with diabetes is reach a good glycemic control without hypoglycemia.|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.047
82451736|NCT02451917|164609847|NON_INFERIORITY_OR_EQUIVALENCE|t-test was applied to compare percentages of the time spent in hypoglycemia, hyperglycemia and euglycemia on CGM readings.|||||<|0.05|||||||t-test, 1 sided|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||<0.05
82537085|NCT00517933|164773512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.02|TWO_SIDED|95.0|-10.6|-0.9|||Regression, Linear|||||-0.9|-10.6|0.02
82451737|NCT02451917|164609848|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.668|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.668
82451738|NCT02451917|164609849|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18r andomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.999|||||||ANOVA|||A sample size of 34 participants (16 randomized to sequence IGlar/INPH and 18r andomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.999
82451739|NCT02451917|164609850|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.999|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.999
82451740|NCT02451917|164609851|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||||0.994|||||||ANOVA|||A sample size of 34 participants (16randomized to sequence IGlar/INPH and 18 randomized to sequence INPH/IGlar) provided 90% power and assuming an SD of 0.85%, and a type I error of 5%.||||0.994
82537086|NCT00517933|164773514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.04|TWO_SIDED|95.0|-7.2|-0.1|||Regression, Linear|||||-0.1|-7.2|0.04
82537087|NCT00517933|164773516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.07|TWO_SIDED|95.0|-7.8|0.4|||Regression, Logistic|||||0.4|-7.8|0.07
82537088|NCT00517933|164773518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.18|TWO_SIDED|95.0|-0.01|0.06|||Regression, Linear|||||0.06|-0.01|0.18
82537089|NCT00517933|164773520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.37|TWO_SIDED|95.0|-2.8|7.3|||Regression, Linear|||||7.3|-2.8|0.37
82537090|NCT00517933|164773524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.008|TWO_SIDED|95.0|0.8|5.0|||Regression, Linear|||||5.0|0.8|0.008
82648573|NCT01507831|165012772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.5|||<|0.0001|TWO_SIDED|95.0|51.6|99.1||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||99.1|51.6|<0.0001
82537091|NCT00517933|164773526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.86|TWO_SIDED|95.0|-2.1|1.7|||Regression, Linear|||||1.7|-2.1|0.86
82537092|NCT04807517|164773528|OTHER|Within-group test for 16-week change|||||<|0.001|||||||Regression, Linear|Repeated measures linear regression||||||<0.001
82537093|NCT01649427|164773538|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority||||||0.0003|||||||ANCOVA|||||||0.0003
82537094|NCT03184428|164773559|OTHER||||||<|0.05|||||||Spearman's rank-order correlation|Bonferroni adjustment in addition||||||<0.05
82537095|NCT00561574|164773562|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537096|NCT00561574|164773562|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537097|NCT00561574|164773563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537098|NCT00561574|164773563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537099|NCT00561574|164773564|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537100|NCT00561574|164773564|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537101|NCT00561574|164773565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3129||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.3129
82537102|NCT00561574|164773565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3154||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.3154
82537103|NCT00561574|164773566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537104|NCT00561574|164773566|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537105|NCT00561574|164773567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537106|NCT00561574|164773567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537107|NCT00561574|164773568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||<0.0001
82537108|NCT00561574|164773568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0001
82537109|NCT00561574|164773569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0116||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0116
82537110|NCT00561574|164773569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||||||Two-sided significance level of 0.05|t-test, 2 sided|||||||0.0004
82537111|NCT00430677|164773592|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1||||0.746|TWO_SIDED|95.0|0.6|2.03||The median time to confirmed CRR was not estimable due to the low number of events. However, the time to confirmed CRR was compared between the abatacept and placebo treatment regimens using a score test.|Regression, Cox||Point estimate, 95% CI and P-value (based on Score Test) for the hazard ratio is determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||2.03|0.60|0.746
82537112|NCT00430677|164773592|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.6||||0.118|TWO_SIDED|95.0|0.89|2.83||The median time to confirmed CRR was not estimable due to the low number of events. However, the time to confirmed CRR was compared between the abatacept and placebo treatment regimens using a score test.|Regression, Cox||Point estimate, 95% CI and P-value (based on Score Test) for the hazard ratio is determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||2.83|0.89|0.118
82431313|NCT04609553|164571480|SUPERIORITY|||||||0.82||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.82
82577343|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.9005|TWO_SIDED|95.0|-0.23|0.2|||MMRM|||Genital Symptoms, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.23|0.9005
82652215|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|0.048||||0.7736|TWO_SIDED|95.0|-0.281|0.378||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.378|-0.281|0.7736
82431314|NCT04609553|164571480|SUPERIORITY|||||||0.001||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.001
82431315|NCT04609553|164571480|SUPERIORITY|||||||0.16||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple, potentially highly correlated primary outcomes, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment across primary outcomes and timepoints within domain (total=3 outcomes within the language development). Right skewed variables with minimum values of zero were log-transformed after adding one. minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for child communicative development was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.16
82431316|NCT04609553|164571481|SUPERIORITY|||||||0.93||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.93
82431317|NCT04609553|164571481|SUPERIORITY|||||||0.04||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 9-month follow-up, A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.04
82451741|NCT01724866|164609852|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.72||||0.296|TWO_SIDED|95.0|0.19|1.27|||Bootstrap method|||A 2-sided 95% confidence interval (CI) for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||1.27|0.19|0.296
82451742|NCT01724866|164609852|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.14||||0.002|TWO_SIDED|95.0|-0.28|0.64|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.64|-0.28|0.002
82451743|NCT01724866|164609852|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.56|-0.06|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-values was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||-0.06|-0.56|<0.001
82451744|NCT01724866|164609853|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.38||||0.001|TWO_SIDED|95.0|0.06|0.74|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.74|0.06|0.001
82451745|NCT01724866|164609853|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.04|||<|0.001|TWO_SIDED|95.0|-0.16|0.24|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.24|-0.16|<0.001
82451746|NCT01724866|164609853|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.05|||<|0.001|TWO_SIDED|95.0|-0.19|0.06|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.06|-0.19|<0.001
82451747|NCT01724866|164609854|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.31||||0.002|TWO_SIDED|95.0|-0.07|0.72|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.72|-0.07|0.002
82451748|NCT01724866|164609854|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.02|||<|0.001|TWO_SIDED|95.0|-0.27|0.3|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.30|-0.27|<0.001
82451749|NCT01724866|164609854|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.01|||<|0.001|TWO_SIDED|95.0|-0.27|0.28|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.28|-0.27|<0.001
82451750|NCT01724866|164609855|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.94||||0.781|TWO_SIDED|95.0|-0.01|2.47|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||2.47|-0.01|0.781
82451751|NCT01724866|164609855|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|0.07|||<|0.001|TWO_SIDED|95.0|-0.17|0.38|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.38|-0.17|<0.001
82451752|NCT01724866|164609855|NON_INFERIORITY|Non-inferiority was demonstrated if the upper CI was \< 1 day.|Mean Difference (Final Values)|-0.02|||<|0.001|TWO_SIDED|95.0|-0.23|0.22|||Bootstrap method|||A 2-sided 95% CI for the difference in mean DSN between any 2 arms was calculated. Non-inferiority p-value was calculated as two times the proportion of treatment difference greater than 1 in the resampling.||0.22|-0.23|<0.001
82451753|NCT01724866|164609856|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.002|TWO_SIDED|95.0|1.1|1.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.8|1.1|0.002
82451754|NCT01724866|164609856|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.711|TWO_SIDED|95.0|0.6|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.6|0.711
82451755|NCT01724866|164609856|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.028|TWO_SIDED|95.0|0.1|0.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||0.9|0.1|0.028
82648574|NCT01507831|165012773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|93.4|||<|0.0001|TWO_SIDED|95.0|66.1|132.0||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||132.0|66.1|<0.0001
82451756|NCT01724866|164609857|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.672|TWO_SIDED|95.0|0.8|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.8|0.672
82451757|NCT01724866|164609857|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.348|TWO_SIDED|95.0|0.5|1.3|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.3|0.5|0.348
82451758|NCT01724866|164609857|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.973|TWO_SIDED|95.0|0.4|2.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||2.9|0.4|0.973
82451759|NCT01724866|164609858|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.618|TWO_SIDED|95.0|0.8|1.4|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.4|0.8|0.618
82451760|NCT01724866|164609858|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.661|TWO_SIDED|95.0|0.5|1.6|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.6|0.5|0.661
82431318|NCT04609553|164571481|SUPERIORITY|||||||0.08||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.08
82451761|NCT01724866|164609858|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.754|TWO_SIDED|95.0|0.3|2.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||2.8|0.3|0.754
82451762|NCT01724866|164609859|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.009|TWO_SIDED|95.0|1.1|1.7|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.7|1.1|0.009
82451763|NCT01724866|164609859|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.527|TWO_SIDED|95.0|0.7|1.8|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||1.8|0.7|0.527
82451764|NCT01724866|164609859|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.815|TWO_SIDED|95.0|0.4|3.9|||Log Rank|||A Cox proportional hazards model was used to estimate the hazard ratio and its two-sided 95% CI.||3.9|0.4|0.815
82537113|NCT00430677|164773595|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|0.91|1.78|||||Point Estimate, 95% CI for the hazard ratio was determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||1.78|0.91|
82537114|NCT00430677|164773595|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||||TWO_SIDED|95.0|0.91|1.77|||||Point Estimate, 95% CI for the hazard ratio was determined by a Cox proportional hazards model including treatment as a covariate and stratified by prior treatment status.|||1.77|0.91|
82537115|NCT00430677|164773601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.68|21.3||||||||21.3|0.68|
82537116|NCT00430677|164773601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.49|1.59||||||||1.59|0.49|
82537117|NCT00430677|164773603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.13|0.19|||ANCOVA||Adjustment based on ANCOVA model with treatment as factor and randomization strata (prior treatment status) and baseline measurements as covariates.|||0.19|-0.13|
82537118|NCT00430677|164773603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.18|0.14|||ANCOVA||Adjustment based on ANCOVA model with treatment as factor and randomization strata (prior treatment status) and baseline measurements as covariates.|||0.14|-0.18|
82537119|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|1.05||0.993|TWO_SIDED|95.0|-2.19|2.023|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values|Confidence intervals based on t-test|||2.023|-2.190|0.993
82652216|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.02||||0.9059|TWO_SIDED|95.0|-0.35|0.31||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.310|-0.350|0.9059
82451765|NCT01724866|164609860|SUPERIORITY|||||||0.008|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.008
82451766|NCT01724866|164609860|SUPERIORITY|||||||0.911|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.911
82537120|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.96||0.499|TWO_SIDED|95.0|-1.229|2.635|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.635|-1.229|0.499
82537121|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|1.05||0.578|TWO_SIDED|95.0|-0.729|3.485|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.485|-0.729|0.578
82537122|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|1.04||0.523|TWO_SIDED|95.0|-3.552|0.629|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||0.629|-3.552|0.523
82537123|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.95||0.471|TWO_SIDED|95.0|-2.7|1.127|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.127|-2.7|0.471
82537124|NCT02501811|164773741|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.95||0.485|TWO_SIDED|95.0|-1.24|2.59|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.590|-1.240|0.485
82537125|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|1.05||0.942|TWO_SIDED|95.0|-2.406|1.887|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values|Confidence intervals based on t-test|||1.887|-2.406|0.942
82537126|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|1.17||0.282|TWO_SIDED|95.0|-1.815|2.975|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.975|-1.815|0.282
82537127|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.95||0.163|TWO_SIDED|95.0|-1.31|2.635|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.635|-1.310|0.163
82537128|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|0.77||0.175|TWO_SIDED|95.0|-2.471|0.628|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.628|-2.471|0.175
82451767|NCT01724866|164609860|SUPERIORITY|||||||0.002|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.002
82451768|NCT01724866|164609861|SUPERIORITY|||||||0.005|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.005
82451769|NCT01724866|164609861|SUPERIORITY|||||||0.633|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.633
82451770|NCT01724866|164609861|SUPERIORITY|||||||0.027|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.027
82451771|NCT01724866|164609862|SUPERIORITY|||||||0.015|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.015
82451772|NCT01724866|164609862|SUPERIORITY|||||||0.571|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.571
82451773|NCT01724866|164609862|SUPERIORITY|||||||0.066|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.066
82537129|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|1.03||0.329|TWO_SIDED|95.0|-2.932|1.254|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.254|-2.932|0.329
82451774|NCT01724866|164609863|SUPERIORITY|||||||0.106|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.106
82451775|NCT01724866|164609863|SUPERIORITY|||||||0.156|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.156
82451776|NCT01724866|164609863|SUPERIORITY|||||||0.005|||||||Asymptotic Normality Assumption|P-values was obtained based upon asymptotic normality assumption on the log10 transformed data.||||||0.005
82537130|NCT02501811|164773742|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.93||0.752|TWO_SIDED|95.0|-1.829|1.994|||ANCOVA|The change in global circumferential strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.994|-1.829|0.752
82451777|NCT01724866|164609864|SUPERIORITY||Ratio|0.4|||||TWO_SIDED|95.0|0.25|0.8||||||||0.80|0.25|
82451778|NCT01724866|164609864|SUPERIORITY||Ratio|1.0|||||TWO_SIDED|95.0|0.53|2.04||||||||2.04|0.53|
82451779|NCT01724866|164609864|SUPERIORITY||Ratio|2.5|||||TWO_SIDED|95.0|1.4|4.54||||||||4.54|1.40|
82451780|NCT01724866|164609865|SUPERIORITY||Ratio|0.5|||||TWO_SIDED|95.0|0.3|0.8||||||||0.80|0.30|
82451781|NCT01724866|164609865|SUPERIORITY||Ratio|1.1|||||TWO_SIDED|95.0|0.7|1.79||||||||1.79|0.70|
82451782|NCT01724866|164609865|SUPERIORITY||Ratio|1.7|||||TWO_SIDED|95.0|1.07|2.79||||||||2.79|1.07|
82451783|NCT01724866|164609866|SUPERIORITY||Ratio|0.5|||||TWO_SIDED|95.0|0.34|0.89||||||||0.89|0.34|
82451784|NCT01724866|164609866|SUPERIORITY||Ratio|1.1|||||TWO_SIDED|95.0|0.71|1.85||||||||1.85|0.71|
82451785|NCT01724866|164609866|SUPERIORITY||Ratio|1.6|||||TWO_SIDED|95.0|0.97|2.49||||||||2.49|0.97|
82451786|NCT01724866|164609867|SUPERIORITY||Ratio|0.7|||||TWO_SIDED|95.0|0.4|1.1||||||||1.10|0.40|
82451787|NCT01724866|164609867|SUPERIORITY||Ratio|1.4|||||TWO_SIDED|95.0|0.87|2.38||||||||2.38|0.87|
82451788|NCT01724866|164609867|SUPERIORITY||Ratio|1.9|||||TWO_SIDED|95.0|1.23|2.96||||||||2.96|1.23|
82451789|NCT01724866|164609872|SUPERIORITY||Percent Difference|2.1||||1|TWO_SIDED|95.0|-20.2|24.9|||Fisher Exact|||||24.9|-20.2|1.000
82451790|NCT01724866|164609872|SUPERIORITY||Percent Difference|-2.8||||1|TWO_SIDED|95.0|-26.7|21.4|||Fisher Exact|||||21.4|-26.7|1.000
82451791|NCT01724866|164609872|SUPERIORITY||Percent Difference|-2.8||||1|TWO_SIDED|95.0|-26.7|21.4|||Fisher Exact|||||21.4|-26.7|1.000
82451792|NCT01724866|164609874|SUPERIORITY||Percent Difference|-6.2||||0.469|TWO_SIDED|95.0|-28.5|16.9|||Fisher Exact|||||16.9|-28.5|0.469
82451793|NCT01724866|164609874|SUPERIORITY||Percent Difference|-5.6||||0.71|TWO_SIDED|95.0|-29.3|18.7|||Fisher Exact|||||18.7|-29.3|0.710
82451794|NCT01724866|164609874|SUPERIORITY||Percent Difference|-11.1||||0.199|TWO_SIDED|95.0|-34.6|13.3|||Fisher Exact|||||13.3|-34.6|0.199
82451795|NCT01340586|164609880|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.787|||||TWO_SIDED|90.0|0.616|1.006||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.006|0.616|
82451796|NCT01340586|164609880|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.904|||||TWO_SIDED|90.0|0.697|1.173||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.173|0.697|
82451797|NCT01340586|164609880|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.871|||||TWO_SIDED|90.0|0.723|1.049||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.049|0.723|
82451798|NCT01340586|164609882|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.187|||||TWO_SIDED|90.0|0.907|1.553||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.553|0.907|
82537131|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.75||0.733|TWO_SIDED|95.0|-1.118|1.927|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.927|-1.118|0.733
82537132|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.81||0.735|TWO_SIDED|95.0|-1.248|2.041|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.041|-1.248|0.735
82451799|NCT01340586|164609882|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.389|||||TWO_SIDED|90.0|1.097|1.758||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.758|1.097|
82451800|NCT01340586|164609882|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.855|||||TWO_SIDED|90.0|0.707|1.033||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.033|0.707|
82537133|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.8||0.794|TWO_SIDED|95.0|-1.464|1.767|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.767|-1.464|0.794
82451801|NCT01340586|164609884|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.165|||||TWO_SIDED|90.0|0.88|1.543||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over Normal Renal Function||1.543|0.880|
82451802|NCT01340586|164609884|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.357|||||TWO_SIDED|90.0|1.066|1.728||||||Geometric Mean Ratio: ESRD Dose after hemodialysis over Normal Renal Function||1.728|1.066|
82451803|NCT01340586|164609884|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.858|||||TWO_SIDED|90.0|0.707|1.042||||||Geometric Mean Ratio: ESRD Dose before hemodialysis over ESRD Dose after hemodialysis||1.042|0.707|
82451804|NCT01980095|164609935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||One-sample Z-test, RHB-105 subjects only|||||||0.001
82451805|NCT03671213|164609937|SUPERIORITY|Non-inferiority is demonstrated if the 90% LB \> -10.0%. If non-inferiority was met, superiority could be tested. Superiority is demonstrated if 97.5% LB \> 0.0%.||||||||||||||||For missing data in both Arms/Groups, multiple imputation was performed for the primary CCS analysis|Device group differences and two-sided 90% and 97.5% confidence interval lower bounds (LB) adjusting for propensity score (PS) subclass based on PS subclass weights (ATT). Non-inferiority is demonstrated if the 90% LB \> -10.0%. Superiority is demonstrated if 97.5% LB \> 0.0%. Two-sided 97.5% LB is evaluated rather than two-sided 95.0% LB since the superiority type 1 error is split between testing superiority in terms of Month 24 CCS and then separately for a set of superiority secondary endpoints with type 1 error control maintained through the use of Hochberg approach (following demonstration of non-inferiority).|||
82451806|NCT03223337|164609946|OTHER||Ratio of Geometric Least Square(LS) Mean|1.9973|||||TWO_SIDED|90.0|1.1063|3.6057|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.6057|1.1063|
82451807|NCT03223337|164609946|OTHER||Ratio of Geometric LS Mean|1.6471|||||TWO_SIDED|90.0|1.1267|2.4079|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.4079|1.1267|
82537134|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.7||0.951|TWO_SIDED|95.0|-1.161|1.666|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.666|-1.161|0.951
82537135|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.71||0.962|TWO_SIDED|95.0|-1.441|1.457|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.457|-1.441|0.962
82537136|NCT02501811|164773743|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.76||0.945|TWO_SIDED|95.0|-1.793|1.303|||ANCOVA|The change in regional longitudinal strain was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.303|-1.793|0.945
82537137|NCT02501811|164773744|SUPERIORITY||Mean Difference (Final Values)|-2.02|STANDARD_ERROR_OF_MEAN|3.85||0.602|TWO_SIDED|95.0|-9.754|5.711|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||5.711|-9.754|0.602
82537138|NCT02501811|164773744|SUPERIORITY||Mean Difference (Final Values)|-2.78|STANDARD_ERROR_OF_MEAN|3.39||0.443|TWO_SIDED|95.0|-9.609|4.044|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.044|-9.609|0.443
82537139|NCT02501811|164773744|SUPERIORITY||Mean Difference (Net)|-4.13|STANDARD_ERROR_OF_MEAN|3.42||0.348|TWO_SIDED|95.0|-11.011|2.76|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.760|-11.011|0.348
82537140|NCT02501811|164773744|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|3.92||0.812|TWO_SIDED|95.0|-5.76|9.968|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||9.968|-5.760|0.812
82537141|NCT02501811|164773744|SUPERIORITY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|3.89||0.9|TWO_SIDED|95.0|-7.052|8.574|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.574|-7.052|0.900
82451808|NCT03223337|164609946|OTHER||Ratio of Geometric LS Mean|1.6404|||||TWO_SIDED|90.0|1.0744|2.5048|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.5048|1.0744|
82451809|NCT03223337|164609946|OTHER||Ratio of Geometric LS Mean|1.4931|||||TWO_SIDED|90.0|1.0876|2.0498|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.0498|1.0876|
82451810|NCT03223337|164609946|OTHER||Ratio of Geometric LS Mean|1.6222|||||TWO_SIDED|90.0|1.1594|2.2696|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.2696|1.1594|
82451811|NCT03223337|164609946|OTHER||Ratio of Geometric LS Mean|1.3145|||||TWO_SIDED|90.0|0.9896|1.7462|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7462|0.9896|
82451812|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.4574|||||TWO_SIDED|90.0|1.035|2.0523|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.0523|1.0350|
82451813|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.9375|||||TWO_SIDED|90.0|1.3919|2.6968|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.6968|1.3919|
82537142|NCT02501811|164773744|SUPERIORITY||Mean Difference (Final Values)|-1.34|STANDARD_ERROR_OF_MEAN|3.47||0.848|TWO_SIDED|95.0|-8.321|5.635|||ANCOVA|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||5.635|-8.321|0.848
82537143|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|3.01||0.659|TWO_SIDED|95.0|-7.281|4.789|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.789|-7.281|0.659
82537144|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|3.06||0.466|TWO_SIDED|95.0|-8.621|3.71|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||3.710|-8.621|0.466
82537145|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|3.08||0.293|TWO_SIDED|95.0|-10.799|1.594|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.594|-10.799|0.293
82537146|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|3.36|STANDARD_ERROR_OF_MEAN|3.06||0.53|TWO_SIDED|95.0|-2.795|9.508|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||9.508|-2.795|0.530
82537147|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|3.05||0.761|TWO_SIDED|95.0|-4.91|7.33|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||7.330|-4.910|0.761
82537148|NCT02501811|164773745|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|3.12||0.669|TWO_SIDED|95.0|-8.426|4.132|||ANCOVA|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.132|-8.426|0.669
82537149|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.989|TWO_SIDED|95.0|-0.048|0.04|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.040|-0.048|0.989
82648575|NCT01507831|165012774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|74.6|||<|0.0001|TWO_SIDED|95.0|53.3|104.4||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||104.4|53.3|<0.0001
82431319|NCT04609553|164571481|SUPERIORITY|||||||0.03||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the social emotional domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=2 outcomes within the social emotional). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects for both active treatments versus control. The adjusted value for social emotional development was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.03
82431320|NCT04609553|164571482|SUPERIORITY|||||||0.002||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.002
82431321|NCT04609553|164571482|SUPERIORITY|||||||0.8||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.80
82431322|NCT04609553|164571482|SUPERIORITY|||||||0.79||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.79
82451814|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.8312|||||TWO_SIDED|90.0|1.3342|2.5133|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5133|1.3342|
82451815|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|2.003|||||TWO_SIDED|90.0|1.4654|2.7378|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7378|1.4654|
82451816|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.7113|||||TWO_SIDED|90.0|1.2818|2.2847|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.2847|1.2818|
82537150|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.493|TWO_SIDED|95.0|-0.056|0.033|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.033|-0.056|0.493
82537151|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.926|TWO_SIDED|95.0|-0.053|0.039|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.039|-0.053|0.926
82537152|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.904|TWO_SIDED|95.0|-0.041|0.047|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.047|-0.041|0.904
82648576|NCT01507831|165012775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|97.3|||<|0.0001|TWO_SIDED|95.0|68.2|138.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||138.9|68.2|<0.0001
82451817|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.974|||||TWO_SIDED|90.0|1.5365|2.536|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5360|1.5365|
82451818|NCT03223337|164609947|OTHER||Ratio of Geometric LS Mean|1.4603|||||TWO_SIDED|90.0|0.9081|2.3484|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3484|0.9081|
82451819|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.9973|||||TWO_SIDED|90.0|1.1061|3.6066|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.6066|1.1061|
82451820|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.6509|||||TWO_SIDED|90.0|1.1285|2.415|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.4150|1.1285|
82537153|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.476|TWO_SIDED|95.0|-0.035|0.049|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.049|-0.035|0.476
82451821|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.6421|||||TWO_SIDED|90.0|1.0732|2.5125|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.5125|1.0732|
82451822|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.5169|||||TWO_SIDED|90.0|1.0994|2.093|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.0930|1.0994|
82451823|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.624|||||TWO_SIDED|90.0|1.1599|2.2736|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.2736|1.1599|
82451824|NCT03223337|164609950|OTHER||Ratio of Geometric LS Mean|1.3143|||||TWO_SIDED|90.0|0.9887|1.747|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7470|0.9887|
82451825|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.4566|||||TWO_SIDED|90.0|1.0344|2.0513|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.0513|1.0344|
82537154|NCT02501811|164773746|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.515|TWO_SIDED|95.0|-0.04|0.048|||ANCOVA|The change in left ventricular sphericity index was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.048|-0.040|0.515
82648577|NCT01507831|165012776|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-28.1|-23.1||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-23.1|-28.1|<0.0001
82648578|NCT01507831|165012777|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6|||<|0.0001|TWO_SIDED|95.0|3.3|5.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.9|3.3|<0.0001
82451826|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.9478|||||TWO_SIDED|90.0|1.3935|2.7224|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7224|1.3935|
82451827|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.8392|||||TWO_SIDED|90.0|1.335|2.534|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5340|1.3350|
82451828|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|2.0161|||||TWO_SIDED|90.0|1.4711|2.763|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.7630|1.4711|
82451829|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.7303|||||TWO_SIDED|90.0|1.2932|2.3151|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3151|1.2932|
82451830|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.987|||||TWO_SIDED|90.0|1.5426|2.5594|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5594|1.5426|
82451831|NCT03223337|164609951|OTHER||Ratio of Geometric LS Mean|1.4646|||||TWO_SIDED|90.0|0.9086|2.3609|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3609|0.9086|
82537155|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.85||0.569|TWO_SIDED|95.0|-1.77|1.687|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.687|-1.770|0.569
82431323|NCT04609553|164571482|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Reading Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for reading activities was the value of the outcome minus the effect of baseline and the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and both treatment and baseline fixed effects.|||0.96
82431324|NCT04609553|164571482|SUPERIORITY|||||||0.22||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.22
82431325|NCT04609553|164571482|SUPERIORITY||||||<|0.001||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||<0.001
82537156|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.8||0.767|TWO_SIDED|95.0|-1.792|1.457|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.457|-1.792|0.767
82431326|NCT04609553|164571482|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.96
82451832|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.9786|||||TWO_SIDED|90.0|1.0557|3.7084|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||3.7084|1.0557|
82537157|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.71||0.261|TWO_SIDED|95.0|-1.965|0.921|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.921|-1.965|0.261
82537158|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.86||0.587|TWO_SIDED|95.0|-1.261|2.222|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.222|-1.261|0.587
82537159|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.93||0.994|TWO_SIDED|95.0|-1.763|2.014|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.014|-1.763|0.994
82537160|NCT02501811|164773747|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.81||0.639|TWO_SIDED|95.0|-1.993|1.283|||ANCOVA|The change in scar size percent was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.283|-1.993|0.639
82648579|NCT01507831|165012778|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-20.1|-14.6||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-14.6|-20.1|<0.0001
82451833|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.2791|||||TWO_SIDED|90.0|0.9241|1.7705|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7705|0.9241|
82451834|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.2487|||||TWO_SIDED|90.0|0.8675|1.7974|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7974|0.8675|
82451835|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.1802|||||TWO_SIDED|90.0|0.9165|1.5197|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.5197|0.9165|
82451836|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.2726|||||TWO_SIDED|90.0|0.952|1.7012|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.7012|0.9520|
82451837|NCT03223337|164609952|OTHER||Ratio of Geometric LS Mean|1.0409|||||TWO_SIDED|90.0|0.7927|1.3668|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.3668|0.7927|
82451838|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.0097|||||TWO_SIDED|90.0|0.7122|1.4316|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4316|0.7122|
82451839|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.7852|||||TWO_SIDED|90.0|1.2498|2.5498|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.5498|1.2498|
82451840|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.7337|||||TWO_SIDED|90.0|1.2343|2.4353|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.4353|1.2343|
82451841|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.7628|||||TWO_SIDED|90.0|1.2898|2.4092|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.4092|1.2898|
82451842|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.6413|||||TWO_SIDED|90.0|1.2055|2.2347|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.2347|1.2055|
82451843|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.8289|||||TWO_SIDED|90.0|1.3992|2.3904|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3904|1.3992|
82451844|NCT03223337|164609953|OTHER||Ratio of Geometric LS Mean|1.3367|||||TWO_SIDED|90.0|0.8288|2.1557|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.1557|0.8288|
82451845|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|0.905|||||TWO_SIDED|90.0|0.69|1.1869|||||Ratio of Geometric LS Mean for GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.1869|0.6900|
82451846|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|0.7415|||||TWO_SIDED|90.0|0.5617|0.9787|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||0.9787|0.5617|
82451847|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|0.7299|||||TWO_SIDED|90.0|0.4387|1.2145|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.2145|0.4387|
82451848|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|1.1703|||||TWO_SIDED|90.0|0.9|1.5219|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.5219|0.9000|
82451849|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|0.9585|||||TWO_SIDED|90.0|0.6664|1.3786|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.3786|0.6664|
82451850|NCT03223337|164609954|OTHER||Ratio of Geometric LS Mean|1.0004|||||TWO_SIDED|90.0|0.7833|1.2778|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.2778|0.7833|
82451851|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.0574|||||TWO_SIDED|90.0|0.7876|1.4197|||||Ratio of Geometric LS Mean for GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4197|0.7876|
82451852|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.0143|||||TWO_SIDED|90.0|0.7332|1.4032|||||Ratio of Geometric LS Mean for GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4032|0.7332|
82451853|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.038|||||TWO_SIDED|90.0|0.7695|1.4002|||||Ratio of Geometric LS Mean for GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.4002|0.7695|
82451854|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.3427|||||TWO_SIDED|90.0|0.7635|2.3615|||||Ratio of Geometric LS Mean for GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||2.3615|0.7635|
82451855|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.0296|||||TWO_SIDED|90.0|0.6996|1.5151|||||Ratio of Geometric LS Mean for GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.5151|0.6996|
82451856|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.2721|||||TWO_SIDED|90.0|0.8409|1.9245|||||Ratio of Geometric LS Mean for GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.9245|0.8409|
82451857|NCT03223337|164609955|OTHER||Ratio of Geometric LS Mean|1.2072|||||TWO_SIDED|90.0|0.9398|1.5508|||||Ratio of Geometric LS Mean for GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.5508|0.9398|
82451858|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.0||||0.6822|TWO_SIDED|90.0|-1.0|0.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK1278863 (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||0.50|-1.00|0.6822
82451859|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.0||||0.5767|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2391220 (M2)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.5767
82537161|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.42||0.992|TWO_SIDED|95.0|-2.437|3.319|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.319|-2.437|0.992
82537162|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.22||0.862|TWO_SIDED|95.0|-2.278|2.643|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||2.643|-2.278|0.862
82537163|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|1.31||0.217|TWO_SIDED|95.0|-3.846|1.443|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.443|-3.846|0.217
82537164|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.47||0.327|TWO_SIDED|95.0|-1.325|4.611|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||4.611|-1.325|0.327
82537165|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|1.39||0.859|TWO_SIDED|95.0|-2.551|3.068|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||3.068|-2.551|0.859
82537166|NCT02501811|164773748|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.27||0.338|TWO_SIDED|95.0|-3.952|1.184|||ANCOVA|The change in scar tissue mass was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||1.184|-3.952|0.338
82537167|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.71||0.157|TWO_SIDED|95.0|-2.456|0.411|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.411|-2.456|0.157
82537168|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.9||0.428|TWO_SIDED|95.0|-2.798|0.859|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||0.859|-2.798|0.428
82537169|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.73||0.382|TWO_SIDED|95.0|-0.83|2.093|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||2.093|-0.83|0.382
82537170|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.8||0.056|TWO_SIDED|95.0|-3.255|-0.052|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-0.052|-3.255|0.056
82537171|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.96||0.61|TWO_SIDED|95.0|-1.991|1.885|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||1.885|-1.991|0.610
82537172|NCT02501811|164773749|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.97||0.195|TWO_SIDED|95.0|-0.356|3.557|||ANCOVA|The change in peak VO2 was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||3.557|-0.356|0.195
82537173|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|18.57|STANDARD_ERROR_OF_MEAN|19.01||0.348|TWO_SIDED|95.0|-19.537|56.687|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||56.687|-19.537|0.348
82537174|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|23.19|STANDARD_ERROR_OF_MEAN|17.88||0.23|TWO_SIDED|95.0|-12.759|59.134|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||59.134|-12.759|0.230
82537175|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|16.21||0.905|TWO_SIDED|95.0|-30.974|34.361|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||34.361|-30.974|0.905
82537176|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|16.88|STANDARD_ERROR_OF_MEAN|15.98||0.335|TWO_SIDED|95.0|-15.267|49.03|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||49.030|-15.267|0.335
82537177|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|17.68||0.827|TWO_SIDED|95.0|-40.106|30.88|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||30.880|-40.106|0.827
82537178|NCT02501811|164773750|SUPERIORITY||Mean Difference (Final Values)|-21.49|STANDARD_ERROR_OF_MEAN|14.63||0.163|TWO_SIDED|95.0|-50.989|8.001|||ANCOVA|The change in exercise tolerance was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.001|-50.989|0.163
82537179|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|-9.64|STANDARD_ERROR_OF_MEAN|4.63||0.023|TWO_SIDED|95.0|-18.915|-0.357|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-0.357|-18.915|0.023
82537180|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|-15.09|STANDARD_ERROR_OF_MEAN|5.84||0.05|TWO_SIDED|95.0|-26.871|-3.319|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||-3.319|-26.871|0.050
82537181|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|5.86||0.119|TWO_SIDED|95.0|-14.784|8.836|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||8.836|-14.784|0.119
82537182|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|-6.66|STANDARD_ERROR_OF_MEAN|5.66||0.845|TWO_SIDED|95.0|-18.087|4.762|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||4.762|-18.087|0.845
82537183|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|5.46|STANDARD_ERROR_OF_MEAN|5.64||0.976|TWO_SIDED|95.0|-5.931|16.848|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||16.848|-5.931|0.976
82537184|NCT02501811|164773751|SUPERIORITY||Mean Difference (Final Values)|12.12|STANDARD_ERROR_OF_MEAN|6.69||0.717|TWO_SIDED|95.0|-1.337|25.578|||ANCOVA|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t test|||25.578|-1.337|0.717
82537185|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|-1411.7|STANDARD_ERROR_OF_MEAN|840.6||0.11|TWO_SIDED|95.0|-3108.3|284.9|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||284.9|-3108.3|0.110
82537186|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|-634.6|STANDARD_ERROR_OF_MEAN|405.1||0.112|TWO_SIDED|95.0|-1460.7|191.4|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||191.4|-1460.7|0.112
82431327|NCT04609553|164571482|SUPERIORITY|||||||0.12||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||Analysis for the Parent Verbal Responsiveness Scale at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. The adjusted value for verbal responsiveness was the value of the outcome minus the best linear unbiased predictor (BLUP) estimated from a mixed linear model with random individual-specific intercepts and treatment fixed effects.|||0.12
82431328|NCT04609553|164571483|SUPERIORITY|||||||0.78||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Dialogic reading behavior was measured at a single timepoint (9 months), so no adjustment was necessary.|||0.78
82431329|NCT04609553|164571483|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Dialogic reading behavior was measured at a single timepoint (9 months), so no adjustment was necessary.|||0.96
82431330|NCT04609553|164571484|SUPERIORITY|||||||0.78||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Discipline strategies were measured at a single timepoint (18 months), so no adjustment was necessary.|||0.78
82537187|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|-483.2|STANDARD_ERROR_OF_MEAN|400.7||0.891|TWO_SIDED|95.0|-1301.5|335.2|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||335.2|-1301.5|0.891
82537188|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|-928.6|STANDARD_ERROR_OF_MEAN|754.2||0.009|TWO_SIDED|95.0|-2470.7|613.6|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||613.6|-2470.7|0.009
82537189|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|-777.1|STANDARD_ERROR_OF_MEAN|756.5||0.661|TWO_SIDED|95.0|-2323.2|769.1|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||769.1|-2323.2|0.661
82537190|NCT02501811|164773752|SUPERIORITY||Mean Difference (Final Values)|151.5|STANDARD_ERROR_OF_MEAN|162.2||0.015|TWO_SIDED|95.0|-175.4|478.4|||ANCOVA|Change in NT-proBNP value compared using ANCOVA analyses adjusting for baseline values. Data log transformed, p-values obtained from transformed data|Confidence intervals based on t test|||478.4|-175.4|0.015
82537191|NCT02501811|164773753|OTHER||slope of time|0.267|STANDARD_ERROR_OF_MEAN|0.241||0.269|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported||||0.269
82577344|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.107||0.1121|TWO_SIDED|95.0|-0.38|0.04|||MMRM|||Genital Symptoms, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.38|0.1121
82577345|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.145||0.4167|TWO_SIDED|95.0|-0.4|0.17|||MMRM|||Genital Symptoms, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.40|0.4167
82577346|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.141||0.4071|TWO_SIDED|95.0|-0.4|0.16|||MMRM|||Genital Symptoms, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.40|0.4071
82577347|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1278|TWO_SIDED|95.0|-0.53|0.07|||MMRM|||Genital Symptoms, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.53|0.1278
82577348|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.145||0.0573|TWO_SIDED|95.0|-0.57|0.01|||MMRM|||Genital Symptoms, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.57|0.0573
82577349|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.156||0.4842|TWO_SIDED|95.0|-0.42|0.2|||MMRM|||Genital Symptoms, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.42|0.4842
82577350|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.152||0.0692|TWO_SIDED|95.0|-0.58|0.02|||MMRM|||Genital Symptoms, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.58|0.0692
82577351|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.157||0.4028|TWO_SIDED|95.0|-0.44|0.18|||MMRM|||Genital Symptoms, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.44|0.4028
82577352|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.154||0.0354|TWO_SIDED|95.0|-0.63|-0.02|||MMRM|||Genital Symptoms, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.02|-0.63|0.0354
82648580|NCT01507831|165012779|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|||<|0.0001|TWO_SIDED|95.0|1.6|4.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.2|1.6|<0.0001
82648581|NCT01507831|165012780|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-27.4|-22.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.7|-27.4|<0.0001
82648582|NCT01507831|165012781|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6|||<|0.0001|TWO_SIDED|95.0|4.3|6.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||6.8|4.3|<0.0001
82648583|NCT01507831|165012782|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.9|||<|0.0001|TWO_SIDED|95.0|-20.5|-15.3||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-15.3|-20.5|<0.0001
82652217|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.299||||0.0779|TWO_SIDED|95.0|-0.633|0.034||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.034|-0.633|0.0779
82451860|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.0||||0.588|TWO_SIDED|90.0|-1.0|1.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2487818 (M4)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.50|-1.00|0.5880
82431331|NCT04609553|164571484|SUPERIORITY|||||||0.96||||||p-value is adjusted using the minP approach for potentially highly correlated outcomes. Then, p \< 0.05 was used as an a priori threshold for statistical significance.|ANOVA|||A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.|We followed the intent to treat principle, with participants included based on their group assignment. Because of the multiple correlated timepoints within the parental behavior domain, we used the step-down minP method (a re-sampling approach), to assess the effects of treatment (total=6 outcomes within the parental behavior). minP-adjusted p-values were calculated with ANOVA models comparing outcomes adjusted for baseline- and correlations due to repeated-measure effects (as appropriate) for both active treatments versus control. Discipline strategies were measured at a single timepoint (18 months), so no adjustment was necessary.|||0.96
82431332|NCT04609553|164571485|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.80
82431333|NCT04609553|164571485|SUPERIORITY|||||||0.06||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.06
82431334|NCT04609553|164571485|SUPERIORITY|||||||0.81||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||"Analysis at the 18-month follow-up.~\\A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2."||||0.81
82431335|NCT04609553|164571485|SUPERIORITY|||||||0.08||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.08
82431336|NCT04609553|164571486|SUPERIORITY|||||||0.07||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.07
82451861|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.0||||0.7716|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506102 (M5)(Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.7716
82451862|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.5||||0.4093|TWO_SIDED|90.0|-1.0|2.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531398 (M6) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||2.00|-1.00|0.4093
82451863|NCT03223337|164609956|OTHER||Median Difference (Final Values)|0.0||||0.9837|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531401 (M13) (Moderate hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.9837
82648584|NCT01507831|165012783|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|||<|0.0001|TWO_SIDED|95.0|2.8|5.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.2|2.8|<0.0001
82431337|NCT04609553|164571486|SUPERIORITY|||||||0.91||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.91
82431338|NCT04609553|164571486|SUPERIORITY|||||||0.39||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.39
82431339|NCT04609553|164571486|SUPERIORITY|||||||0.1||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||"Analysis at the 18-month follow-up.~\\A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3."||||0.10
82451864|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.6224|TWO_SIDED|90.0|-1.0|0.5||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK1278863 (Mild hepatic impairment participants versus Healthy participants) has been presented.|||0.50|-1.00|0.6224
82451865|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.8042|TWO_SIDED|90.0|-1.0|0.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2391220 (M2) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||0.00|-1.00|0.8042
82648585|NCT03276962|165012860|SUPERIORITY||Incremental vaccine efficacy|-21.0||||0.154|TWO_SIDED|95.0|-57.0|7.0|||Regression, Cox|The 95% Confidence Interval of the incremental vaccine efficacy estimates was calculated from Cox regression model.||To demonstrate the superiority of a 3-dose schedule of GSK Biologicals' malaria vaccine RTS,S/AS01E with a fractional third dose at Month 2 (Fx012-14-mFxD Group) compared to a standard schedule of RTS,S/AS01E with 3 full doses (R012-20 + R012-14 Group) in terms of vaccine efficacy against clinical malaria (primary case definition) over 12 months post-Dose 3.||7|-57|0.154
82652218|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|0.086||||0.6068|TWO_SIDED|95.0|-0.241|0.412||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.412|-0.241|0.6068
82537192|NCT02501811|164773754|OTHER||slope of time|0.141|STANDARD_ERROR_OF_MEAN|0.153||0.361|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.361
82537193|NCT02501811|164773755|OTHER||slope of time|-0.267|STANDARD_ERROR_OF_MEAN|0.164||0.107|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.107
82537194|NCT02501811|164773756|OTHER||slope of time|1.395|STANDARD_ERROR_OF_MEAN|0.829||0.095|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.095
82537195|NCT02501811|164773757|OTHER||slope of time|0.603|STANDARD_ERROR_OF_MEAN|0.683||0.379|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.379
82537196|NCT02501811|164773758|OTHER||slope of time|0.003|STANDARD_ERROR_OF_MEAN|0.004||0.401|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.401
82537197|NCT02501811|164773759|OTHER||slope of time|-0.244|STANDARD_ERROR_OF_MEAN|0.158||0.126|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.126
82537198|NCT02501811|164773760|OTHER||slope of time|-0.42|STANDARD_ERROR_OF_MEAN|0.281||0.139|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.139
82537199|NCT02501811|164773761|OTHER||slope of time|-0.133|STANDARD_ERROR_OF_MEAN|0.184||0.472|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.472
82537200|NCT02501811|164773762|OTHER||slope of time|6.544|STANDARD_ERROR_OF_MEAN|2.882||0.025|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.025
82537201|NCT02501811|164773763|OTHER||slope with interaction|-7.08|STANDARD_ERROR_OF_MEAN|3.3||0.037|TWO_SIDED||||||Regression, Linear|||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. A time by treatment interaction was assessed.||||0.037
82537202|NCT02501811|164773763|OTHER||slope with interaction|-6.78|STANDARD_ERROR_OF_MEAN|3.18||0.035|TWO_SIDED||||||Regression, Linear|||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. A time by treatment interaction was assessed.||||0.035
82648586|NCT00766506|165012915|SUPERIORITY_OR_OTHER||Least square mean difference|-2.23|||<|0.001|TWO_SIDED|95.0|-2.55|-1.91|||ANCOVA|P-value was calculated from analysis of covariance (ANCOVA), with centre, surgery type and treatment included as covariates in the analysis.|Least square mean difference = Least square mean value for Fentanyl IONSYS group minus Least square mean value for Morphine IV PCA group|||-1.91|-2.55|<0.001
82431340|NCT04609553|164571487|SUPERIORITY|||||||0.19||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.19
82431341|NCT04609553|164571487|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.18
82537203|NCT02501811|164773764|OTHER||slope of time|84.557|STANDARD_ERROR_OF_MEAN|35.81||0.092|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase II trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the 4 treatment groups. Results of the overall model are reported.||||0.092
82648587|NCT00766506|165012916|SUPERIORITY_OR_OTHER|||||||0.219|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At Hour 24||||0.219
82431342|NCT04609553|164571487|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.18
82431343|NCT04609553|164571487|SUPERIORITY|||||||0.45||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.45
82537204|NCT01268891|164773806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.35||0.3257|TWO_SIDED|90.0|-0.93|0.23||The threshold for statistical significance in showing a trend for this study is 0.10.|ANCOVA|||The power for this study, which is designed to show a trend, that is, to show a clinical difference in the primary outcome measure, is 72%.||0.23|-0.93|0.3257
82537205|NCT01268891|164773807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0946|TWO_SIDED|95.0|-0.65|0.05|||ANCOVA|||||0.05|-0.65|0.0946
82537206|NCT01268891|164773808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.2258|TWO_SIDED|95.0|-1.84|0.44|||ANCOVA|||||0.44|-1.84|0.2258
82431344|NCT04609553|164571488|SUPERIORITY||||||<|0.001||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||<.001
82431345|NCT04609553|164571488|SUPERIORITY|||||||0.68||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.68
82431346|NCT04609553|164571488|SUPERIORITY|||||||0.16||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.16
82431347|NCT04609553|164571488|SUPERIORITY|||||||0.39||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.39
82431348|NCT04609553|164571489|SUPERIORITY|||||||0.87||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.87
82431349|NCT04609553|164571489|SUPERIORITY|||||||0.14||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.14
82648588|NCT00766506|165012916|SUPERIORITY_OR_OTHER|||||||0.299|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At Hour 48||||0.299
82648589|NCT00766506|165012916|SUPERIORITY_OR_OTHER|||||||0.136|||||||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.||At study discontinuation or withdrawal||||0.136
82431350|NCT04609553|164571489|SUPERIORITY|||||||0.007||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.007
82431351|NCT04609553|164571489|SUPERIORITY|||||||0.34||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.34
82431352|NCT04609553|164571490|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.99
82537207|NCT01268891|164773809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|0.98||0.17|TWO_SIDED|95.0|-3.29|0.59|||ANCOVA|||||0.59|-3.29|0.1700
82431353|NCT04609553|164571490|SUPERIORITY|||||||0.07||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 9-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.07
82431354|NCT04609553|164571490|SUPERIORITY|||||||0.41||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 2.||||0.41
82648590|NCT00766506|165012917|SUPERIORITY_OR_OTHER||Least square mean difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|P-value was calculated from ANCOVA, with centre, surgery type and treatment included as covariates in the analysis.|Least square mean difference = Least square mean value for Fentanyl IONSYS group minus Least square mean value for Morphine IV PCA group|||-0.30|-0.74|<0.001
82648591|NCT00766506|165012918|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.131|TWO_SIDED|95.0|0.84|3.92|||Mantel Haenszel|P-value was calculated from a Mantel-Haenszel Chi-Squared test.||||3.92|0.84|0.131
82648592|NCT00766506|165012919|SUPERIORITY_OR_OTHER|||||||0.342|||||||Log Rank|P-value was calculated from a log-rank test stratified for surgery type.||||||0.342
82648593|NCT00766506|165012920|SUPERIORITY_OR_OTHER|||||||0.836|||||||Log Rank|P-value was calculated from a log-rank test stratified for surgery type.||||||0.836
82451866|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.8423|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506104 (M3) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.8423
82537208|NCT00991276|164773810|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-27.1|STANDARD_ERROR_OF_MEAN|4.38|<|0.0001|TWO_SIDED|95.0|-35.78|-18.42||This analysis was step 1 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The least squares (LS) means and standard errors (SE) were used to test for a treatment difference and construct 2-sided 95% confidence intervals (CIs). The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.42|-35.78|<0.0001
82648594|NCT00766506|165012921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.029|TWO_SIDED|95.0|1.04|24.03|||Chi-squared|||||24.03|1.04|0.029
82648595|NCT00766506|165012923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.23|TWO_SIDED|95.0|0.74|3.53|||Chi-squared|||Paracetamol: P-value was calculated using Chi-squared test.||3.53|0.74|0.230
82431355|NCT04609553|164571490|SUPERIORITY|||||||0.03||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Analysis at the 18-month follow-up. A total of 630 parent-infant dyads (210 per arm) were needed to achieve 80% power to detect a 0.3 standard deviation (SD) difference assuming approximately 20% attrition. The null hypothesis was that there would be no differences between Arm 1 and Arm 3.||||0.03
82431356|NCT03137771|164571493|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.66|TWO_SIDED|95.0|0.68|1.4|||Log Rank|Two-sided test|Reference level = systemic therapy. Cox proportional hazards model stratified by histology (non-squamous vs squamous) and systemic therapy (immunotherapy-based regimens vs chemotherapy- only regimens).|Based on expected 6- and 12-month PFS rates of approximately 60% and 39% for the standard arm, assuming approximately exponential distributions, at least 138 PFS events are needed to detect a hazard ratio of 0.6 (a hazard reduction of 40%) with 95% power and a one-sided significance level of 0.15. The Cox proportional hazards model is stratified by histology and systemic therapy type. The hazard ratio estimate must be ≤ 0.83 for the study to proceed to the phase III component.||1.40|0.68|0.66
82431357|NCT01834287|164571506|SUPERIORITY||Mean Difference (Final Values)|31.0||||0.001|TWO_SIDED|95.0|9.6|52.4|||Regression, Linear|||||52.4|9.6|.001
82431358|NCT01169337|164571508|SUPERIORITY|||||||0.0005|||||||Log Rank|stratified 1-sided log-rank test||||||0.0005
82431359|NCT05507567|164571529|OTHER|||||||0.0331|||||||Chi-squared|||A priori primary analysis group||||0.0331
82431360|NCT05507567|164571530|OTHER|||||||0.1427||||||Hodges-Lehmann (H-L) estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.1427
82431361|NCT05507567|164571531|OTHER|||||||0.1307||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.1307
82431362|NCT05507567|164571532|OTHER|||||||0.0382||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.0382
82431363|NCT05507567|164571533|OTHER|||||||0.011||||||H-L estimation|Wilcoxon (Mann-Whitney)|1-sided Wilcoxon rank-sum||||||0.0110
82431364|NCT02933879|164571547|SUPERIORITY|||||||0.4615|||||||Z-test, 2 sided|||||||0.4615
82431365|NCT02933879|164571549|SUPERIORITY|||||||0.0404|||||||Z-test, 2 sided|||||||0.0404
82431366|NCT02933879|164571549|SUPERIORITY|||||||0.2106|||||||Z-test, 2 sided|||||||0.2106
82431367|NCT02933879|164571551|SUPERIORITY|||||||1|||||||Z-test, 2 sided|||||||1.0000
82451867|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.5207|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2487818 (M4) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.5207
82648596|NCT00766506|165012923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.163|TWO_SIDED|95.0|0.8|3.7|||Chi-squared|||NSAID's: P-value was calculated using Chi-squared test.||3.70|0.80|0.163
82648597|NCT02496221|165012948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0021||||0.1229|TWO_SIDED|95.0|-20.5781|2.5739|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||2.5739|-20.5781|0.1229
82431368|NCT02933879|164571553|SUPERIORITY|||||||1|||||||Z-test, 2 sided|||||||1.0000
82431369|NCT02933879|164571556|SUPERIORITY|||||||0.2467|||||||Z-test, 2 sided|||||||0.2467
82431370|NCT03703232|164571559|SUPERIORITY|||||||0.092|||||||Wilcoxon signed-rank test|||||||0.092
82431371|NCT03703232|164571560|SUPERIORITY|||||||0.76|||||||Wilcoxon signed-rank test|||||||0.760
82431372|NCT03703232|164571561|SUPERIORITY|||||||0.007|||||||Wilcoxon signed-rank test|||||||0.007
82431373|NCT03703232|164571562|SUPERIORITY|||||||0.003|||||||Wilcoxon signed-rank test|||||||0.003
82431374|NCT03703232|164571563|SUPERIORITY|||||||0.861|||||||Wilcoxon signed-rank test|||||||0.861
82431375|NCT03703232|164571565|SUPERIORITY|||||||0.405|||||||Wilcoxon signed-rank test|||||||0.405
82431376|NCT03703232|164571566|SUPERIORITY|||||||0.798|||||||Wilcoxon signed-rank test|||||||0.798
82431377|NCT03703232|164571567|SUPERIORITY|||||||0.382|||||||Wilcoxon signed-rank test|||||||0.382
82431378|NCT03703232|164571568|SUPERIORITY|||||||0.179|||||||Wilcoxon signed-rank test|||||||0.179
82431379|NCT03703232|164571569|SUPERIORITY|||||||0.984|||||||Wilcoxon signed-rank test|||||||0.984
82431380|NCT05226598|164571570|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.8335|TWO_SIDED|95.0|0.87|1.5||One-sided p-value based on log-rank test stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|||1.50|0.87|0.8335
82431381|NCT05226598|164571571|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5104|TWO_SIDED|95.0|0.82|1.23||One-sided p-value based on log-rank test stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by ECOG, predominant tumor histology, PD-L1 expression, and geographic region|||1.23|0.82|0.5104
82451868|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.8423|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2506102 (M5) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|0.8423
82431382|NCT01672879|164571592|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|0.1|||||TWO_SIDED|95.0|-1.2|1.5||||||A mixed-effect model for repeated measures (MMRM) with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% confidence interval (CI) for the treatment difference between each treatment arm and placebo in least squares mean (LSMean) change from baseline in HVPG at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in HVPG at Week 96 contributed to the overall model.||1.5|-1.2|
82431383|NCT01672879|164571592|SUPERIORITY||Difference in LSMeans [SIM - Placebo]|0.1|||||TWO_SIDED|95.0|-1.2|1.4||||||An MMRM with an unstructured variance-covariance matrix for each participant was used to calculate a point estimate and a 95% CI for the treatment difference between each treatment arm and placebo in LSMean change from baseline in HVPG at Week 96. With MMRM setting, all participants with available data from 3 treatment groups with change in HVPG at Week 96 contributed to the overall model.||1.4|-1.2|
82431384|NCT01672879|164571593|SUPERIORITY|||||||0.41|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by HVPG category (\< 10 mmHg vs ≥ 10 mmHg) and presence or absence of diabetes at baseline.||||0.41
82431385|NCT01672879|164571593|SUPERIORITY|||||||0.065|||||||Stratified log-rank test|||Differences in EFS between a given SIM group and placebo were assessed using the log-rank test stratified by HVPG category (\< 10 mmHg vs ≥ 10 mmHg) and presence or absence of diabetes at baseline.||||0.065
82431386|NCT03951766|164571598|SUPERIORITY||Mean Difference (Final Values)|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.1||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||||-1.1|-1.9|<.0001
82431387|NCT03951766|164571599|SUPERIORITY||Median Difference (Final Values)|-24.9|||<|0.0001|TWO_SIDED|95.0|-32.7|-17.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-17.1|-32.7|<.0001
82431388|NCT03951766|164571600|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.06|TWO_SIDED|95.0|0.0|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||PANAS positive affect||0.4|-0.0|0.06
82431389|NCT03951766|164571600|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.36|TWO_SIDED|95.0|-0.4|0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||PANAS negative affect||0.1|-0.4|0.36
82431390|NCT03951766|164571601|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.1627|TWO_SIDED|95.0|-0.1|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.1|0.1627
82451869|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-1.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531398 (M6) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|-1.00|1.0000
82648598|NCT02496221|165012949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-545.9585||||0.1291|TWO_SIDED|95.0|-1260.0|168.0858|||Mixed Models Analysis|||||168.0858|-1260.00|0.1291
82648599|NCT02496221|165012951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2992||||0.0317|TWO_SIDED|95.0|-31.0762|-1.5223|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||-1.5223|-31.0762|0.0317
82648600|NCT02496221|165012952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|252.6099||||0.0291|TWO_SIDED|95.0|29.5081|475.7117|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||475.7117|29.5081|0.0291
82431391|NCT03951766|164571602|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.62|TWO_SIDED|95.0|-3.8|6.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||Single-item - past week||6.3|-3.8|0.62
82431392|NCT03951766|164571602|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.83|TWO_SIDED|95.0|-5.4|4.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||Single-item - right now||4.4|-5.4|0.83
82431393|NCT03951766|164571603|SUPERIORITY||Mean Difference (Final Values)|13.1|||<|0.0001|TWO_SIDED|95.0|7.6|18.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||SEQ-12 - Internal||18.7|7.6|<.0001
82431394|NCT03951766|164571603|SUPERIORITY||Mean Difference (Final Values)|11.1|||<|0.0001|TWO_SIDED|95.0|6.1|16.1|||t-test, 2 sided|||SEQ-12 - External||16.1|6.1|<.0001
82431395|NCT03951766|164571604|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.0126|TWO_SIDED|95.0|1.2|9.8||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||9.8|1.2|0.0126
82431396|NCT03951766|164571605|SUPERIORITY||Mean Difference (Final Values)|-6.6||||0.0053|TWO_SIDED|95.0|-11.1|-2.0||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-2.0|-11.1|0.0053
82431397|NCT03951766|164571606|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.76|TWO_SIDED|95.0|-0.1|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||ATS - Adverse Effects||0.2|-0.1|0.76
82431398|NCT03951766|164571606|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||ATS - Psychoactive Benefits||-0.5|-1.0|<.0001
82431399|NCT03951766|164571606|SUPERIORITY||Mean Difference (Final Values)|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3||The a priori threshold for statistical significance was alpha=.05. We did not adjust for multiple comparisons, because this was a secondary outcome. The p-value is for a planned specific comparison of week 6 to baseline.|t-test, 2 sided|||ATS - Pleasure||-0.3|-0.8|<.0001
82431400|NCT03951766|164571607|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.25|TWO_SIDED|95.0|-0.3|0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.1|-0.3|0.25
82431401|NCT03951766|164571608|SUPERIORITY|DBI - Positive Experiences|Mean Difference (Final Values)|-20.7|||<|0.0001|TWO_SIDED|95.0|-27.2|-14.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-14.3|-27.2|<.0001
82431402|NCT03951766|164571608|SUPERIORITY|DBI - Negative Experiences|Mean Difference (Final Values)|-2.9||||0.27|TWO_SIDED|95.0|-8.1|2.3||"We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6."|t-test, 2 sided|||||2.3|-8.1|0.27
82431403|NCT03951766|164571609|SUPERIORITY|Pros of Being Smoke-Free|Mean Difference (Final Values)|-9.1||||0.009|TWO_SIDED|95.0|-15.9|-2.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-2.3|-15.9|0.009
82431404|NCT03951766|164571609|SUPERIORITY|Cons of Quitting|Mean Difference (Final Values)|-5.1||||0.25|TWO_SIDED|95.0|-13.7|3.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||3.6|-13.7|0.25
82451870|NCT03223337|164609957|OTHER||Median Difference (Final Values)|0.0||||0.8042|TWO_SIDED|90.0|0.0|1.0||P-value was based on Mann-Whitney U test (exact Wilcoxon rank sum test).|Wilcoxon (Mann-Whitney)||Median Difference in GSK2531401 (M13) (Mild hepatic impairment participants versus Healthy participants) has been presented.|||1.00|0.00|0.8042
82451871|NCT01362608|164609976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.69|||<|0.0001|TWO_SIDED|95.0|-28.2|-11.2|||ANCOVA|||||-11.2|-28.2|<0.0001
82451872|NCT01362608|164609977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.0043|TWO_SIDED|95.0|0.1|0.71|||Regression, Cox|||||0.71|0.10|0.0043
82431405|NCT03951766|164571610|SUPERIORITY|PSS total scores|Mean Difference (Final Values)|-2.4||||0.0069|TWO_SIDED|95.0|-4.1|-0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.7|-4.1|0.0069
82431406|NCT03951766|164571610|SUPERIORITY|PSS - Perceived Helplessness|Mean Difference (Final Values)|-0.3||||0.0043|TWO_SIDED|95.0|-0.5|-0.1||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.1|-0.5|0.0043
82431407|NCT03951766|164571610|SUPERIORITY|PSS - Perceived Self-Efficacy|Mean Difference (Final Values)|0.1||||0.1953|TWO_SIDED|95.0|-0.1|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.1|0.1953
82431408|NCT03951766|164571611|SUPERIORITY|Brief COPE Self-distraction|Mean Difference (Final Values)|0.4||||0.087|TWO_SIDED|95.0|-0.1|0.8||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.8|-0.1|0.087
82431409|NCT03951766|164571611|SUPERIORITY|Brief COPE active coping|Mean Difference (Final Values)|-0.209||||0.2866|TWO_SIDED|95.0|-0.6|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.2|-0.6|0.2866
82431410|NCT03951766|164571611|SUPERIORITY|Brief COPE denial|Mean Difference (Final Values)|0.0||||0.9296|TWO_SIDED|95.0|-0.4|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.4|-0.4|0.9296
82431411|NCT03951766|164571611|SUPERIORITY|Brief COPE substance use|Mean Difference (Final Values)|-0.1||||0.6599|TWO_SIDED|95.0|-0.5|0.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.3|-0.5|0.6599
82431412|NCT03951766|164571611|SUPERIORITY|Brief COPE use of emotional support|Mean Difference (Final Values)|0.3||||0.2315|TWO_SIDED|95.0|-0.2|0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6|t-test, 2 sided|||||0.7|-0.2|0.2315
82431413|NCT03951766|164571611|SUPERIORITY|Brief COPE use of instrumental support|Mean Difference (Final Values)|0.1||||0.6183|TWO_SIDED|95.0|-0.3|0.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.6|-0.3|0.6183
82431414|NCT03951766|164571611|SUPERIORITY|Brief COPE behavioral disengagement|Mean Difference (Final Values)|0.3||||0.2037|TWO_SIDED|95.0|-0.1|0.7||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.7|-0.1|0.2037
82431415|NCT03951766|164571611|SUPERIORITY|Brief COPE venting|Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.9|-0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.2|-0.9|0.0060
82648601|NCT02496221|165012953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3748||||0.7961|TWO_SIDED|95.0|-3.4109|2.6614|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||2.6614|-3.4109|0.7961
82431416|NCT03951766|164571611|SUPERIORITY|Brief COPE positive reframing|Mean Difference (Final Values)|-0.2||||0.3045|TWO_SIDED|95.0|-0.7|0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.2|-0.7|0.3045
82431417|NCT03951766|164571611|SUPERIORITY|Brief COPE planning|Mean Difference (Final Values)|-0.6||||0.0029|TWO_SIDED|95.0|-1.0|-0.2||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.2|-1.0|0.0029
82431418|NCT03951766|164571611|SUPERIORITY|Brief COPE humor|Mean Difference (Final Values)|0.0||||0.8274|TWO_SIDED|95.0|-0.5|0.4||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.4|-0.5|0.8274
82431419|NCT03951766|164571611|SUPERIORITY|Brief COPE acceptance|Mean Difference (Final Values)|0.4||||0.0349|TWO_SIDED|95.0|0.0|0.9||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.9|0.0|0.0349
82431420|NCT03951766|164571611|SUPERIORITY|Brief COPE religion|Mean Difference (Final Values)|0.2||||0.3451|TWO_SIDED|95.0|-0.2|0.6||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||0.6|-0.2|0.3451
82431421|NCT03951766|164571611|SUPERIORITY|Brief COPE self-blame|Mean Difference (Final Values)|-0.8||||0.0006|TWO_SIDED|95.0|-1.2|-0.3||We used hierarchical linear mixed models with maximum likelihood estimation to handle missing data, then used a planned, pairwise comparison to test for within-person changes between baseline and week 6.|t-test, 2 sided|||||-0.3|-1.2|0.0006
82431422|NCT02623972|164571632|OTHER||Pathelogic Complete Response Rate|30.0|||||TWO_SIDED||||||Simon minimax two-stage design||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 10% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 30% then the regimen is worthy of further study.|Null Hypothesis: the proportion of participants experiencing pCR is ≤ 0.10, Alternative hypothesis that proportion pCR ≥ 0.30. Hypothesized False Positive Rate(α)=10%; Hypothesized False Negative Rate(1-β)=10%.||||
82431423|NCT02623972|164571632|OTHER||Pathelogic Complete Response Rate|23.0|||||TWO_SIDED||||||Simon minimax two-stage design||Decision Rule: If the percentage of participants experiencing pathologic complete response (pCR) is ≤ 2% then the preoperative regimen is considered minimally effective. If the proportion of pCR ≥ 23% then the regimen is worthy of further study.|Null Hypothesis: the proportion of participants experiencing pCR is ≤ 0.02, Alternative hypothesis that proportion pCR ≥ 0.23. Hypothesized False Positive Rate(α)=5%; Hypothesized False Negative Rate(1-β)=10%.||||
82431424|NCT05710640|164571637|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||||||1.000
82431425|NCT05710640|164571638|SUPERIORITY|||||||0.294||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||0.294
82431426|NCT05710640|164571638|SUPERIORITY|||||||0.637||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.637
82431427|NCT05710640|164571638|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||1.00
82431428|NCT05710640|164571639|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||1.000
82431429|NCT05710640|164571639|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 8||||1.000
82431430|NCT05710640|164571639|SUPERIORITY|||||||0.62||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.620
82431431|NCT05710640|164571639|SUPERIORITY|||||||0.576||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.576
82431432|NCT05710640|164571640|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 4||||1.000
82451873|NCT01336140|164610008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Chi-squared|||"We calculated that a minimum of 248 subjects are needed to attain 80% power to detect 70% reduction in the incidence of the primary endpoint (diarrhea), assuming an event rate of 15% in the control group (2-tailed α = 0.05). We targeted enrolling 300 patients to allow some room for error in our assumptions.~null hypothesis: incidence of diarrhea is no different between the aminophylline arm and the placebo arm."||||0.002
82431433|NCT05710640|164571640|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 8||||1.00
82431434|NCT05710640|164571640|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||1.000
82431435|NCT05710640|164571640|SUPERIORITY|||||||0.637||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.637
82431436|NCT05710640|164571641|SUPERIORITY|||||||0.331||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 4||||0.331
82431437|NCT05710640|164571641|SUPERIORITY|||||||0.5||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 8||||0.500
82431438|NCT05710640|164571641|SUPERIORITY|||||||0.285||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 12||||0.285
82431439|NCT05710640|164571641|SUPERIORITY|||||||0.148||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Baseline and covariates of treatment and Baseline JADAS-27 score.|ANCOVA|||Week 16||||0.148
82648602|NCT02496221|165012955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001526||||0.9424|TWO_SIDED|95.0|-0.045665|0.048717|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||0.048717|-0.045665|0.9424
82648603|NCT02496221|165012956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01456||||0.0733|TWO_SIDED|95.0|-0.030666|0.001554|||Mixed Models Analysis|Treatment (albiglutide or placebo), and period as fixed effects and participant as random effect||||0.001554|-0.030666|0.0733
82648604|NCT01893983|165012967|EQUIVALENCE|Compare whether 2 groups had any difference in risk/hazard of mental health engagement at any time during follow-up.|Cox Proportional Hazard|1.13||||0.66|TWO_SIDED|95.0|0.81|1.58||P value 0.05 is the threshold for statistical significance|Regression, Cox|Adjusted for site, mental health treatment history and mental health symptom severity at baseline, baseline amphetamine and opioid scores.|The referral alone arm is the reference group (denominator), and the motivational coaching arm is the numerator.|Compare 2 groups in regard to time to first mental health treatment using Cox proportional hazards regression.||1.58|0.81|0.660
82431440|NCT05710640|164571642|SUPERIORITY|||||||0.294||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.294
82431441|NCT05710640|164571642|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 50 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||1.000
82431442|NCT05710640|164571643|SUPERIORITY|||||||0.335||||||P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||0.335
82431443|NCT05710640|164571643|SUPERIORITY|P-value is from comparing the proportion of JIA ACR 30 Responders between the two device groups using a Fisher's exact test.||||||1|||||||Fisher Exact|||Week 16||||1.000
82431444|NCT05710640|164571644|SUPERIORITY|||||||1||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 12||||1.000
82431445|NCT05710640|164571644|SUPERIORITY|||||||0.471||||||P-value is from comparing the proportion of JIA ACR 70 Responders between the two device groups using a Fisher's exact test.|Fisher Exact|||Week 16||||0.471
82431446|NCT05710640|164571645|SUPERIORITY|||||||0.592||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Week 8 and covariates of treatment and Week 8 JADAS-27 score.|ANCOVA|||Week 12||||0.592
82431447|NCT05710640|164571645|SUPERIORITY|||||||0.337||||||P-value comes from an analysis of covariance with an outcome of change in JADAS-27 from Week 8 and covariates of treatment and Week 8 JADAS-27 score.|ANCOVA|||Week 16||||0.337
82431448|NCT04847843|164571658|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<0.001
82431449|NCT04847843|164571659|SUPERIORITY|||||||0.22|||||||Regression, Linear|||||||0.22
82431450|NCT04847843|164571660|SUPERIORITY|||||||0.62|||||||Regression, Linear|||||||0.62
82648605|NCT03990389|165012971|SUPERIORITY|||||||0.0618||||||Three degrees of freedom for the interaction test|Mixed Models Analysis|||||||0.0618
82648606|NCT03990389|165012971|SUPERIORITY||estimated treatment effect at month 1|-2.29|STANDARD_ERROR_OF_MEAN|1.8||0.63|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.63
82431451|NCT04847843|164571662|SUPERIORITY|||||||0.21|||||||Regression, Linear|||||||0.21
82431452|NCT04847843|164571663|SUPERIORITY|||||||0.11|||||||Regression, Linear|||||||0.11
82431453|NCT01152788|164571688|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1||||0.76|TWO_SIDED|95.0|0.6|2.01|||Log Rank|||||2.01|0.6|0.76
82431454|NCT01152788|164571689|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-18.7|16.8||||||||16.8|-18.7|
82431455|NCT01152788|164571690|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.55|TWO_SIDED|95.0|0.38|1.68|||Log Rank|||||1.68|0.38|0.55
82431456|NCT01152788|164571691|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Chi-squared|||||||0.01
82431457|NCT01282866|164571706|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82431458|NCT01393899|164571734|SUPERIORITY_OR_OTHER||Difference in Percentage|1.44|||||TWO_SIDED|80.0|-12.11|14.99||||||||14.99|-12.11|
82431459|NCT01393899|164571734|SUPERIORITY_OR_OTHER||Difference in Percentage|17.72|||||TWO_SIDED|80.0|4.07|31.37||||||||31.37|4.07|
82431460|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|0.61|||||TWO_SIDED|80.0|-11.57|12.79||||||Week 4||12.79|-11.57|
82431461|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|0.78|||||TWO_SIDED|80.0|-12.29|13.84||||||Week 8||13.84|-12.29|
82431462|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|5.81|||||TWO_SIDED|80.0|-8.04|19.67||||||Week 12||19.67|-8.04|
82431463|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.94|||||TWO_SIDED|80.0|-14.56|12.68||||||Week 20||12.68|-14.56|
82431464|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|5.26|||||TWO_SIDED|80.0|-6.52|17.04||||||Week 4||17.04|-6.52|
82431465|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.53|||||TWO_SIDED|80.0|-21.94|4.88||||||Week 8||4.88|-21.94|
82431466|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|3.49|||||TWO_SIDED|80.0|-10.4|17.37||||||Week 12||17.37|-10.40|
82431467|NCT01393899|164571735|SUPERIORITY_OR_OTHER||Difference in Percentage|10.69|||||TWO_SIDED|80.0|-3.08|24.46||||||Week 20||24.46|-3.08|
82431468|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|-1.72|||||TWO_SIDED|80.0|-14.06|10.63||||||Week 4||10.63|-14.06|
82431469|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|-3.88|||||TWO_SIDED|80.0|-17.15|9.4||||||Week 8||9.40|-17.15|
82431470|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|5.81|||||TWO_SIDED|80.0|-8.04|19.67||||||Week 12||19.67|-8.04|
82431471|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|1.44|||||TWO_SIDED|80.0|-12.11|14.99||||||Week 20||14.99|-12.11|
82431472|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|1.5|||||TWO_SIDED|80.0|-11.88|14.87||||||Week 26||14.87|-11.88|
82431473|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|2.93|||||TWO_SIDED|80.0|-9.06|14.92||||||Week 4||14.92|-9.06|
82431474|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.53|||||TWO_SIDED|80.0|-21.94|4.88||||||Week 8||4.88|-21.94|
82451874|NCT01336140|164610009|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82648607|NCT03990389|165012971|SUPERIORITY||estimated treatment effect at month 2|-5.19|STANDARD_ERROR_OF_MEAN|1.9||0.018|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.018
82431475|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|1.16|||||TWO_SIDED|80.0|-12.74|15.06||||||Week 12||15.06|-12.74|
82431476|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|13.07|||||TWO_SIDED|80.0|-0.63|26.77||||||Week 20||26.77|-0.63|
82431477|NCT01393899|164571736|SUPERIORITY_OR_OTHER||Difference in Percentage|20.1|||||TWO_SIDED|80.0|6.54|33.66||||||Week 26||33.66|6.54|
82431478|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|3.43|||||TWO_SIDED|80.0|-10.41|17.28||||||Week 4||17.28|-10.41|
82431479|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|1.22|||||TWO_SIDED|80.0|-12.67|15.11||||||Week 8||15.11|-12.67|
82537209|NCT00991276|164773810|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-26.93|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|-35.54|-18.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.32|-35.54|<0.0001
82648608|NCT03990389|165012971|SUPERIORITY||estimated treatment effect at month 3|-3.3|STANDARD_ERROR_OF_MEAN|1.9||0.234|TWO_SIDED|||||Bonferroni correction for 3 times points|Mixed Models Analysis|||||||0.234
82431480|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|13.18|||||TWO_SIDED|80.0|-0.31|26.67||||||Week 12||26.67|-0.31|
82431481|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|1.61|||||TWO_SIDED|80.0|-11.33|14.55||||||Week 20||14.55|-11.33|
82431482|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|8.64|||||TWO_SIDED|80.0|-4.36|21.64||||||Week 26||21.64|-4.36|
82451875|NCT01336140|164610010|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82451876|NCT01336140|164610011|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Chi-squared|||||||1
82451877|NCT01013194|164610045|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||Fisher Exact|||||||0.4340
82451878|NCT01013194|164610046|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED||||||t-test, 2 sided|||Comparison at 1 year Follow-up||||0.0076
82451879|NCT01013194|164610047|SUPERIORITY_OR_OTHER|||||||0.0437|TWO_SIDED||||||t-test, 2 sided|||Comparison at 1 year Follow-up||||0.0437
82537210|NCT00991276|164773810|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|4.32||0.9684|TWO_SIDED|95.0|-8.72|8.38||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.38|-8.72|0.9684
82648609|NCT03990389|165012972|OTHER|||||||0.116|||||||t-test, 2 sided|||||||0.116
82648610|NCT02595528|165012990|SUPERIORITY||Least Squares (LS)|-2.5543||||0.0029|||||||Mixed model for repeated measures|||AGN-190584 Quadratic||||0.0029
82648611|NCT02595528|165012990|SUPERIORITY||Least Squares (LS)|6.6961|||<|0.0001|||||||Mixed model for repeated measures|||AGN-190584 Linear||||<0.0001
82431483|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|5.76|||||TWO_SIDED|80.0|-8.04|19.56||||||Week 4||19.56|-8.04|
82431484|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.08|||||TWO_SIDED|80.0|-21.83|5.66||||||Week 8||5.66|-21.83|
82431485|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|1.55|||||TWO_SIDED|80.0|-11.63|14.73||||||Week 12||14.73|-11.63|
82431486|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|8.58|||||TWO_SIDED|80.0|-4.64|21.81||||||Week 20||21.81|-4.64|
82431487|NCT01393899|164571737|SUPERIORITY_OR_OTHER||Difference in Percentage|13.29|||||TWO_SIDED|80.0|0.15|26.43||||||Week 26||26.43|0.15|
82431488|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|6.57|||||TWO_SIDED|80.0|-8.63|21.78||||||Week 4||21.78|-8.63|
82431489|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|0.29|||||TWO_SIDED|80.0|-16.63|17.2||||||Week 8||17.20|-16.63|
82431490|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|24.29|||||TWO_SIDED|80.0|7.19|41.38||||||Week 12||41.38|7.19|
82431491|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|6.86|||||TWO_SIDED|80.0|-10.32|24.03||||||Week 20||24.03|-10.32|
82431492|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|11.29|||||TWO_SIDED|80.0|-5.22|27.79||||||Week 26||27.79|-5.22|
82431493|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|8.77|||||TWO_SIDED|80.0|-6.41|23.95||||||Week 4||23.95|-6.41|
82431494|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|-14.0|||||TWO_SIDED|80.0|-31.59|3.59||||||Week 8||3.59|-31.59|
82431495|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|2.31|||||TWO_SIDED|80.0|-15.35|19.97||||||Week 12||19.97|-15.35|
82431496|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|10.15|||||TWO_SIDED|80.0|-7.41|27.71||||||Week 20||27.71|-7.41|
82431497|NCT01393899|164571738|SUPERIORITY_OR_OTHER||Difference in Percentage|22.0|||||TWO_SIDED|80.0|4.96|39.04||||||Week 26||39.04|4.96|
82431498|NCT01393899|164571739|SUPERIORITY_OR_OTHER||Difference in Percentage|1.83|||||TWO_SIDED|80.0|-9.75|13.4||||||||13.40|-9.75|
82431499|NCT01393899|164571739|SUPERIORITY_OR_OTHER||Difference in Percentage|18.11|||||TWO_SIDED|80.0|5.57|30.64||||||||30.64|5.57|
82431500|NCT01393899|164571740|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.75|||||TWO_SIDED|80.0|-20.39|4.88||||||||4.88|-20.39|
82431501|NCT01393899|164571740|SUPERIORITY_OR_OTHER||Difference in Percentage|17.83|||||TWO_SIDED|80.0|4.33|31.33||||||||31.33|4.33|
82431502|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-30.26|||=|0.0637|TWO_SIDED|80.0|-51.1|-9.42|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-9.42|-51.10|=0.0637
82451880|NCT00394706|164610050|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2||||0.59|TWO_SIDED|95.0|-1.1|0.7||Two sided test with an a priori threshold of 0.05 for declaring statistical significance.|Mixed Models Analysis||Estimate of the rate of MRS \<= 3 in Analyze Later arm minus rate in Analyze early arm.|Comparison of the rates of MRS \<=3 in Analyze Early vs. Analyze Later arms using a linear mixed effect model with an identity link and random effects to account for the cluster randomization.||0.7|-1.1|0.59
82648612|NCT02595528|165012990|SUPERIORITY||Least Squares (LS)|-69.89||||0.4126|||||||Mixed model for repeated measures|||AGN-199201 Quadratic||||0.4126
82431503|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-21.06|||=|0.3054|TWO_SIDED|80.0|-47.43|5.31|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||5.31|-47.43|=0.3054
82451881|NCT00394706|164610050|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1||||0.71|TWO_SIDED|95.0|-1.1|0.8||To adjust for group sequential monitoring, the point estimate was bias-adjusted (Whitehead 1986) and confidence intervals and P values calculated from the maximum likelihood based ordering of the outcome(Emerson and Fleming, 1990)|t-test, 2 sided||Estimate of the rate of MRS \<= 3 in the active ITD arm minus the rate in the Sham ITD arm.|Comparison of the rates of MRS \<=3 in Active ITD and Sham treatment arms, adjusted for sequential monitoring.||0.8|-1.1|0.71
82451882|NCT00394706|164610051|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1||||0.92|TWO_SIDED|95.0|-1.2|1.1||Two sided test with an a priori threshold of 0.05 for declaring statistical significance.|GEE||Estimate of the rate of survival to hospital discharge in Analyze Later arm minus rate in Analyze early arm.|Comparison of the rates of survival to hospital discharge in Analyze Early vs. Analyze Later arms using a generalized estimating equations model with an identity link, grouping on cluster.||1.1|-1.2|0.92
82451883|NCT00394706|164610051|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.99|TWO_SIDED|95.0|-1.2|1.1|||t-test, 2 sided||Estimate of the rate of survival to hospital discharge in the active ITD arm minus rate in the Sham ITD arm.|Comparison of the rates of survival to hospital discharge in Active ITD and Sham treatment arms.||1.1|-1.2|0.99
82451884|NCT00394706|164610052|SUPERIORITY||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.2|0.34|||||Mean MRS for Analyze Later minus mean MRS for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.34|-0.20|
82451885|NCT00394706|164610052|SUPERIORITY||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.17|0.44|||||Mean MRS for Active ITD minus mean MRS for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.44|-0.17|
82451886|NCT00394706|164610053|SUPERIORITY||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.71|0.83|||||Mean ALFI-MMSE for Analyze Later minus mean ALFI-MMSE for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.83|-0.71|
82451887|NCT00394706|164610053|SUPERIORITY||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-1.61|0.28|||||Mean ALFI-MMSE for Active ITD minus mean ALFI-MMSE for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.28|-1.61|
82451888|NCT00394706|164610054|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.05|||||Mean HUI for Analyze Later minus mean HUI for Analyze Early (i.e. positive values favor Analyze Later).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.05|-0.06|
82451889|NCT00394706|164610054|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.08|0.05|||||Mean HUI for Active ITD minus mean HUI for Sham ITD (i.e. positive values favor the active device).|Linear regression was used to assess associations between post-discharge measures and treatment group comparisons with adjustment for baseline characteristics. Site was adjusted for to accommodate clustering of patients within sites. All regression analyses used robust standard errors to accommodate non-constant variances.||0.05|-0.08|
82451890|NCT03369249|164610055|SUPERIORITY||log ratio of rate ratios|0.15|STANDARD_ERROR_OF_MEAN|0.31||0.635|TWO_SIDED|95.0|-0.46|0.75||A priori threshold for statistical significance was \<0.05|generalized estimating equations||Standard error of the Beta regression coefficient.|||0.75|-0.46|0.635
82451891|NCT00887549|164610069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015|||<|0.0001|TWO_SIDED|95.0|1.008|1.021|||Regression, Cox|The Cox model, based upon participant level data, included PFS as dependent variable and TS score in the nucleus as independent variable.||||1.021|1.008|<0.0001
82537211|NCT00991276|164773811|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.68|STANDARD_ERROR_OF_MEAN|0.89|<|0.0001|TWO_SIDED|95.0|-5.44|-1.92||This analysis was step 2 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.92|-5.44|<0.0001
82648613|NCT02595528|165012990|SUPERIORITY||Least Squares (LS)|10.5017||||0.3752|||||||Mixed model for repeated measures|||AGN-199201 Linear||||0.3752
82648614|NCT04364165|165013018|SUPERIORITY||Odds Ratio (OR)|2.0||||0.01|TWO_SIDED|95.0|1.44|2.78|||Regression, Logistic|||||2.78|1.44|.01
82431504|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-42.52|||=|0.1316|TWO_SIDED|80.0|-78.57|-6.48|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-6.48|-78.57|=0.1316
82431505|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Dofference|-18.01|||=|0.5704|TWO_SIDED|80.0|-59.01|22.99|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||22.99|-59.01|=0.5704
82431506|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.0|||=|0.8389|TWO_SIDED|80.0|-44.22|32.21|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||32.21|-44.22|=0.8389
82431507|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.56|||=|0.1452|TWO_SIDED|80.0|-44.27|-2.85|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-2.85|-44.27|=0.1452
82431508|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.61|||=|0.6399|TWO_SIDED|80.0|-36.03|16.81|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||16.81|-36.03|=0.6399
82431509|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.0|||=|0.1949|TWO_SIDED|80.0|-73.57|-0.42|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.42|-73.57|=0.1949
82431510|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-47.74|||=|0.1358|TWO_SIDED|80.0|-88.62|-6.87|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||-6.87|-88.62|=0.1358
82431511|NCT01393899|164571742|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-50.38|||=|0.089|TWO_SIDED|80.0|-88.03|-12.72|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-12.72|-88.03|=0.0890
82431512|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.44|||||TWO_SIDED|80.0|-16.14|1.26||||||Week 4||1.26|-16.14|
82431513|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.43|||||TWO_SIDED|80.0|-18.27|3.41||||||Week 8||3.41|-18.27|
82431514|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.48|||||TWO_SIDED|80.0|-25.68|0.72||||||Week 12||0.72|-25.68|
82577353|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.156||0.1228|TWO_SIDED|95.0|-0.55|0.07|||MMRM|||Genital Symptoms, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.55|0.1228
82648615|NCT04364165|165013019|SUPERIORITY||Odds Ratio (OR)|1.44||||0.41|TWO_SIDED|95.0|0.36|5.78|||Regression, Logistic|||||5.78|0.36|.41
82431515|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.73|||||TWO_SIDED|80.0|-26.81|1.34||||||Week 20||1.34|-26.81|
82431516|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-18.9|||||TWO_SIDED|80.0|-39.52|1.72||||||Week 26||1.72|-39.52|
82431517|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.96|||||TWO_SIDED|80.0|-12.39|6.48||||||Week 4||6.48|-12.39|
82431518|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|1.61|||||TWO_SIDED|80.0|-10.14|13.36||||||Week 8||13.36|-10.14|
82431519|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-8.09|||||TWO_SIDED|80.0|-21.54|5.36||||||Week 12||5.36|-21.54|
82451892|NCT04112303|164610073|SUPERIORITY||||||<|0.001|||||||2-sided exact 1-sample binomial test|||The SVR12 rate was compared to the pre-specified efficacy threshold of 78% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.||||<0.001
82431520|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-12.9|||||TWO_SIDED|80.0|-26.99|1.19||||||Week 20||1.19|-26.99|
82431521|NCT01393899|164571743|SUPERIORITY_OR_OTHER||Difference in Percentage|-26.28|||||TWO_SIDED|80.0|-46.54|-6.02||||||Week 26||-6.02|-46.54|
82431522|NCT01393899|164571744|SUPERIORITY_OR_OTHER||Difference in Percentage|10.61|||||TWO_SIDED|80.0|-11.44|32.66||||||||32.66|-11.44|
82431523|NCT01393899|164571744|SUPERIORITY_OR_OTHER||Difference in Percentage|16.67|||||TWO_SIDED|80.0|-4.15|37.49||||||||37.49|-4.15|
82431524|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.53|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-0.53|-1.34|<0.0001
82652219|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.024||||0.8838|TWO_SIDED|95.0|-0.352|0.303||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.303|-0.352|0.8838
82431525|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.76|||=|0.0024|TWO_SIDED|95.0|-1.24|-0.28|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.28|-1.24|=0.0024
82431526|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.75|||=|0.0044|TWO_SIDED|95.0|-1.26|-0.24|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.24|-1.26|=0.0044
82431527|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||=|0.0582|TWO_SIDED|95.0|-1.13|0.02|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||0.02|-1.13|=0.0582
82451893|NCT01318408|164610087|NON_INFERIORITY_OR_EQUIVALENCE|Assessing effects on cognition over time.||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The intent-to-treat group included all individuals who initiated levetiracetam. The Mann-Whitney U test was used to determine changes in participants' scores for cognition, function, and behavior between baseline and 12 weeks.Change in MMSE test scores was the primary outcome measure.||||.01
82431528|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.61|||=|0.0865|TWO_SIDED|95.0|-1.31|0.09|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||0.09|-1.31|=0.0865
82431529|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.52|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 4||-0.52|-1.32|<0.0001
82431530|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.92|||=|0.0002|TWO_SIDED|95.0|-1.4|-0.45|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.45|-1.40|=0.0002
82431531|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.75|-0.71|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.71|-1.75|<0.0001
82431532|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.87|-0.74|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 20||-0.74|-1.87|<0.0001
82431533|NCT01393899|164571746|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.62|||<|0.0001|TWO_SIDED|95.0|-2.3|-0.95|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.95|-2.30|<0.0001
82431534|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.39|||=|0.0566|TWO_SIDED|95.0|-0.79|0.01|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||0.01|-0.79|=0.0566
82431535|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|||=|0.3144|TWO_SIDED|95.0|-0.61|0.2|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||0.20|-0.61|=0.3144
82431536|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||=|0.0434|TWO_SIDED|95.0|-1.1|-0.02|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.02|-1.10|=0.0434
82431537|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.57|||=|0.005|TWO_SIDED|95.0|-0.96|-0.18|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 8||-0.18|-0.96|=0.0050
82431538|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.66|||=|0.0017|TWO_SIDED|95.0|-1.06|-0.25|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 12||-0.25|-1.06|=0.0017
82431539|NCT01393899|164571748|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.72|-0.67|||Linear mixed-effects model||Parameter Type: Adjusted Mean Difference|Week 26||-0.67|-1.72|<0.0001
82431540|NCT02622295|164571750|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82431541|NCT02622295|164571751|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82431542|NCT02622295|164571752|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82451894|NCT01318408|164610088|NON_INFERIORITY_OR_EQUIVALENCE|Assessing cognitive effects over time.||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Lower scores (negative change) indicate improvements on the ADAS-cog.||||||.02
82451895|NCT04531241|164610174|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort and vision at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of -5 points was used.|Least-Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.01|||TWO_SIDED|95.0|-6.8|1.1|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||1.1|-6.8|
82451896|NCT04531241|164610175|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 0.05 logMAR unit difference in logMAR visual acuity at LLHC and HLLC lighting conditions at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 0.05 logMAR units was used.|Least-Square Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|95.0|-0.0199|0.0|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|Low Luminance High Contrast||0.0|-0.0199|
82451897|NCT04531241|164610175|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 0.05 logMAR unit difference in logMAR visual acuity at LLHC and HLLC lighting conditions at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 0.05 logMAR units was used.|Least-Square Mean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.0066|||TWO_SIDED|95.0|-0.0173|0.0087|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|High Luminance Low Contrast||0.0087|-0.0173|
82431543|NCT02622295|164571753|SUPERIORITY|||||||0.467|||||||ANOVA|||||||0.467
82431544|NCT02622295|164571754|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82431545|NCT02622295|164571755|SUPERIORITY|||||||0.932|||||||ANOVA|||||||0.932
82431546|NCT02622295|164571756|SUPERIORITY|||||||0.326|||||||ANOVA|||||||0.326
82431547|NCT02622295|164571757|SUPERIORITY|||||||0.673|||||||ANOVA|||||||0.673
82431548|NCT02622295|164571758|SUPERIORITY|||||||0.539|||||||ANOVA|||||||0.539
82431549|NCT02622295|164571759|SUPERIORITY|||||||0.155|||||||ANOVA|||||||0.155
82431550|NCT02622295|164571760|SUPERIORITY|||||||0.164|||||||ANOVA|||||||0.164
82431551|NCT02622295|164571761|SUPERIORITY|||||||0.493|||||||ANOVA|||||||0.493
82431552|NCT02622295|164571762|SUPERIORITY|||||||0.458|||||||ANOVA|||||||0.458
82431553|NCT00132301|164571771|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.4|TWO_SIDED|95.0|0.58|1.11||Log rank test stratified by site.|Log Rank|||||1.11|0.58|0.40
82431554|NCT03163134|164571777|OTHER|||||||0.017|||||||Chi-squared|||||||0.017
82431555|NCT03163134|164571778|OTHER|||||||0.577|||||||Chi-squared|||||||0.577
82431556|NCT01890265|164571786|SUPERIORITY||LS mean difference|4.33|||=|0.0331|TWO_SIDED|95.0|0.35|8.3||The analysis of the change from Baseline to Week 48 in FVC (% predicted) was based on the random coefficient regression model based on observed cases.|Random coefficient regression|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 48 in FVC (% predicted) is presented.||8.3|0.35|= 0.0331
82431557|NCT01890265|164571787|SUPERIORITY||LS mean difference|-1.8|||=|0.0236|TWO_SIDED|95.0|-3.3|-0.2|||ANCOVA with MI|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 24 in QLF score is presented.||-0.2|-3.3|= 0.0236
82431558|NCT01890265|164571787|SUPERIORITY||LS mean difference|-3.2|||=|0.0729|TWO_SIDED|95.0|-6.6|0.3|||ANCOVA with MI|||The absolute LS mean treatment difference (pamrevlumab - placebo) for change from Baseline to Week 48 in QLF score is presented.||0.3|-6.6|= 0.0729
82431559|NCT01890265|164571788|SUPERIORITY||Absolute difference|-21.4|||=|0.0133|TWO_SIDED|95.0|-36.6|-6.2|||Regression, Logistic|||The absolute treatment difference (pamrevlumab - placebo) for percentage of participants with IPF progression at Week 48 is presented.||-6.2|-36.6|= 0.0133
82431560|NCT03674970|164571793|OTHER|||||||0.55|||||||ANOVA|||||||.55
82431561|NCT03674970|164571794|OTHER|||||||0.2146|||||||ANOVA|||||||.2146
82431562|NCT03674970|164571795|OTHER|||||||0.5642|||||||ANOVA|||||||.5642
82431563|NCT03674970|164571796|OTHER|||||||0.4353|||||||ANOVA|||||||.4353
82431564|NCT03674970|164571797|OTHER|||||||0.0348|||||||ANOVA|||||||.0348
82431565|NCT03674970|164571798|OTHER|||||||0.404|||||||ANOVA|||||||.4040
82431566|NCT01158820|164571799|OTHER|No data available for power analysis|Mean Difference (Net)|0.028|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82431567|NCT01158820|164571800|SUPERIORITY||Mean Difference (Final Values)|43.75|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||units are µg|See reference power analysis||||<0.01
82431568|NCT01158820|164571801|SUPERIORITY||Median Difference (Final Values)|1.75||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||units are mg|See reference for power analysis||||0.01
82431569|NCT03462719|164571808|SUPERIORITY||Hazard Ratio (HR)|0.216|||<|0.0001|TWO_SIDED|95.0|0.131|0.357|||Log Rank|||||0.357|0.131|<0.0001
82431570|NCT02101788|164571829|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.28|1.07|||||Estimation of treatment effect; Trametinib vs. SOC among patients with a mutation.|||1.07|0.28|
82431571|NCT02101788|164571829|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.39|1.03|||||Estimation of treatment effect; Trametinib vs. SOC among wild-type patients.|||1.03|0.39|
82648616|NCT03549130|165013034|SUPERIORITY||Least Square (LS) mean difference|-0.77||||0.2446|TWO_SIDED|95.0|-2.06|0.53||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||0.53|-2.06|0.2446
82431572|NCT02101788|164571829|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0929|TWO_SIDED|95.0|0.34|1.08|||Chi-squared||Estimation of mutation effect; mutant vs. wild-type in the SOC group.|Prognostic effect of the mutation status among patients in the SOC arm.||1.08|0.34|0.0929
82431573|NCT02101788|164571829|SUPERIORITY|||||||0.7195|||||||Chi-squared|||Predictive effect biomarker p-value||||0.7195
82431574|NCT01402869|164571831|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||LSD post hoc test was used for multiple group comparisons. P\<.05|ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in peak methemoglobin blood levels following the administration of prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
82431575|NCT01402869|164571831|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82431576|NCT01402869|164571831|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82431577|NCT01402869|164571831|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.89||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.89
82431578|NCT01402869|164571832|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001|||||||ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in the time frame to peak methemoglobin levels following the administration of prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
82431579|NCT01402869|164571832|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.43||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.43
82431580|NCT01402869|164571832|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82431581|NCT01402869|164571832|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82431582|NCT01402869|164571833|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||95.0||||P\<.05|ANOVA|LSD post hoc test was used for multiple group comparisons.||Null hypothesis: There is no statistically significant difference in delta methemoglobin blood levels following the administration prilocaine, lidocaine, or no local anesthetic in pre-cooperative children undergoing comprehensive dental rehabilitation under general anesthesia.||||<.001
82431583|NCT01402869|164571833|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82648617|NCT03549130|165013034|SUPERIORITY||LS mean difference|-1.8||||0.0333|TWO_SIDED|95.0|-3.45|-0.14||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep Time Problems.||-0.14|-3.45|0.0333
82431584|NCT01402869|164571833|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||<|0.001||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||<.001
82431585|NCT01402869|164571833|NON_INFERIORITY_OR_EQUIVALENCE|Power of 80|||||=|0.92||||||P\<.05|Least significant difference post hoc|||LSD post hoc pairwise comparison||||=.92
82431586|NCT03079531|164571841|OTHER|||||||0.01|||||||Wilcoxon signed rank test|||The null hypothesis is that there would be no difference in papule/pustule count at baseline and after 16 weeks of secukinumab; the alternative hypothesis is that there would be a difference. Using an alpha=0.05 and power=0.80 (two sided test), the sample size needed would be 20. Assuming a dropout rate of 20%, 24 patients would be needed to achieve sufficient sample size.||||0.01
82431587|NCT03079531|164571842|OTHER|||||||0.02|||||||Wilcoxon signed rank test|||||||0.02
82431588|NCT03079531|164571843|OTHER|||||||0.03|||||||Wilcoxon signed rank test|||||||0.03
82431589|NCT03079531|164571844|OTHER|||||||0.2|||||||Wilcoxon signed rank test|||||||0.2
82431590|NCT03079531|164571845|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82431591|NCT03079531|164571847|OTHER|||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
82431592|NCT00325130|164571860|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431593|NCT00325130|164571862|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431594|NCT00325130|164571863|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431595|NCT00325130|164571864|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -5%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431596|NCT00325130|164571865|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82451898|NCT04531241|164610176|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have a 1 hour difference in average daily wear time at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of 1 hour was used.|Least-Square Mean Difference|-0.052|STANDARD_ERROR_OF_MEAN|0.0731|||TWO_SIDED|95.0|-0.1968|0.0933|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||0.0933|-0.1968|
82451899|NCT04531241|164610177|NON_INFERIORITY|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort and vision at the 1-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05). A non-inferiority margin of -5 points was used.|Least-Square Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.47|||TWO_SIDED|95.0|-5.5|0.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test - Control|||0.3|-5.5|
82451900|NCT05723263|164610273|OTHER||Proportional difference|91.0|||<|0.01|TWO_SIDED|95.0|90.2|91.8||The threshold for statistical significance was p\<0.05.|Generalized Estimating Equations|||It was calculated that 12 clinic sites with 1200 participants randomized in a 1:1:1 ratio between the three arms, would have at least 90% power to detect a 10% difference in the proportion of test uptake between the pay-it-forward and control group participants, using a two-sided, two-sample t-test (α=0.05), assuming a 0.25\~0.31 cluster coefficient of variation, \<5% lost-to-follow-up rate, and an intra-class correlation of 0.016.||91.8|90.2|<0.01
82431597|NCT00325130|164571866|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431598|NCT00325130|164571867|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431599|NCT00325130|164571868|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431600|NCT00325130|164571869|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431601|NCT00325130|164571870|NON_INFERIORITY_OR_EQUIVALENCE|"The difference in seroconversion rates (concomitant group -~nonconcomitant group) must be greater than -10%"|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|Miettinen & Nurminen|Miettinen \& Nurminen method for difference in proportions, Stat Med 1985;4:213-26||||||<0.001
82431602|NCT00325130|164571871|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431603|NCT00325130|164571872|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431604|NCT00325130|164571873|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431605|NCT00325130|164571874|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.5."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431606|NCT00325130|164571875|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431607|NCT00325130|164571876|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431608|NCT00325130|164571877|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431609|NCT00325130|164571878|NON_INFERIORITY_OR_EQUIVALENCE|"The ratio of GMTs (concomitant group / nonconcomitant group)~must be greater than 0.67."|||||<|0.001||95.0||||Since p\<0.05, the hypothesis of noninferiority is accepted for this outcome.|ANOVA|ANOVA on natural log titer with fixed effects for region, vaccination group and their interaction.||||||<0.001
82431610|NCT00928187|164571886|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesizing 80% efficacy at the 50 copies/mL Viral Load (VL) threshold in the control group at W48, we calculated a required sample size of 150 participants per group to show non-inferiority of ABC/ddI and DRV groups compared with control group in ITT analysis, with a non-inferiority margin of 15%, a power of 90% and a two-sided α of 5%.|differences in proportions|5.6|||||TWO_SIDED|95.0|-5.1|16.4||||||||16.4|-5.1|
82451901|NCT05723263|164610274|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82451902|NCT05723263|164610275|OTHER|||||||0.0059|||||||Chi-squared|||||||0.0059
82451903|NCT05723263|164610276|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82451904|NCT05723263|164610278|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82451905|NCT05723263|164610279|OTHER|||||||0.007|||||||t-test, 2 sided|||||||0.007
82537212|NCT00991276|164773811|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|0.88||0.1541|TWO_SIDED|95.0|-0.48|3.01||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.01|-0.48|0.1541
82537213|NCT00991276|164773811|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|0.88|<|0.0001|TWO_SIDED|95.0|-6.68|-3.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.21|-6.68|<0.0001
82537214|NCT00991276|164773812|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|30.81|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.14|45.49||This analysis was step 3 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||45.49|16.14|<0.0001
82537215|NCT00991276|164773812|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|26.79|STANDARD_ERROR_OF_MEAN|7.34||0.0004|TWO_SIDED|95.0|12.26|41.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||41.32|12.26|0.0004
82537216|NCT00991276|164773812|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.03|STANDARD_ERROR_OF_MEAN|7.27||0.5807|TWO_SIDED|95.0|-10.36|18.41||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||18.41|-10.36|0.5807
82648618|NCT03549130|165013034|SUPERIORITY||LS mean difference|-1.63||||0.0345|TWO_SIDED|95.0|-3.13|-0.12||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Symptoms on Waking in the Morning.||-0.12|-3.13|0.0345
82648619|NCT03549130|165013034|SUPERIORITY||LS mean difference|-0.71||||0.1711|TWO_SIDED|95.0|-1.72|0.31||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Practical Problems.||0.31|-1.72|0.1711
82648620|NCT03549130|165013035|SUPERIORITY||LS mean difference|-0.47||||0.5063|TWO_SIDED|95.0|-1.85|0.92||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep problems.||0.92|-1.85|0.5063
82431611|NCT00928187|164571886|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesizing 80% efficacy at the 50 copies/mL VL threshold in the control group at W48, we calculated a required sample size of 150 participants per group to show non-inferiority of ABC/ddI and DRV groups compared with control group in ITT analysis, with a non-inferiority margin of 15%, a power of 90% and a two-sided α of 5%.|difference in proportions|6.1|||||TWO_SIDED|95.0|-4.5|16.7||||||||16.7|-4.5|
82431612|NCT00928187|164571891|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|||||||0.001
82431613|NCT00928187|164571892|SUPERIORITY_OR_OTHER|||||||0.26|||||||Chi-squared|||||||0.26
82431614|NCT00928187|164571893|SUPERIORITY_OR_OTHER|||||||0.13|||||||Chi-squared|||||||0.13
82431615|NCT01682356|164571904|SUPERIORITY|||||||0.0153|||||||t-test, 2 sided|Paired||||||0.0153
82451906|NCT05723263|164610280|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82451907|NCT05723263|164610281|OTHER|||||||0.727|||||||t-test, 2 sided|||||||0.727
82431616|NCT01682356|164571905|SUPERIORITY|||||||0.0131|||||||t-test, 2 sided|Paired||||||0.0131
82431617|NCT01682356|164571906|SUPERIORITY|||||||0.83||||||P value adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.83
82431618|NCT01682356|164571907|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 6.06 x 10\^-18.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
82431619|NCT01682356|164571908|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 1.87 x 10\^-20.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
82431620|NCT01682356|164571909|SUPERIORITY||||||<|1e-07||||||P values adjusted for multiplicity. Exact P value 8.23 x 10\^-21.|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
82451908|NCT03202134|164610317|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82451909|NCT03202134|164610318|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82451910|NCT03202134|164610319|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82537217|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.67|STANDARD_ERROR_OF_MEAN|2.09||0.0076|TWO_SIDED|95.0|-9.8|-1.54||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.54|-9.80|0.0076
82648621|NCT03549130|165013035|SUPERIORITY||LS mean difference|-0.97||||0.2496|TWO_SIDED|95.0|-2.64|0.69||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for Sleep time problems.||0.69|-2.64|0.2496
82648622|NCT03549130|165013035|SUPERIORITY||LS mean difference|-0.71||||0.3325|TWO_SIDED|95.0|-2.16|0.74||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for symptoms on waking in the morning.||0.74|-2.16|0.3325
82431621|NCT01682356|164571910|SUPERIORITY|||||||0.6847||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6847
82431622|NCT01682356|164571911|SUPERIORITY|||||||0.6847||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6847
82431623|NCT01682356|164571912|SUPERIORITY|||||||0.4078||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.4078
82431624|NCT01682356|164571913|SUPERIORITY|||||||0.4078||||||P values adjusted for multiplicity|ANOVA|Plasma nitrate values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.4078
82431625|NCT01682356|164571914|SUPERIORITY|||||||0.3042||||||P value adjusted for multiplicity|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3042
82431626|NCT01682356|164571915|SUPERIORITY||||||<|1e-07||||||P value adjusted for multiplicity. Exact P value 3.469 x 10\^-7.|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
82431627|NCT01682356|164571916|SUPERIORITY||||||<|1e-07||||||P value adjusted for multiplicity. Exact P value 7.202 x 10\^-8|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||<0.0000001
82431628|NCT01682356|164571917|SUPERIORITY|||||||2.13e-06||||||P value adjusted for multiplicity. Exact P value 2.129 x 10\^-6.|ANOVA|Breath nitric oxide values were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.00000213
82431629|NCT01682356|164571918|SUPERIORITY|||||||0.3918||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3918
82431630|NCT01682356|164571919|SUPERIORITY|||||||0.0598||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.05980
82431631|NCT01682356|164571920|SUPERIORITY|||||||0.3918||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.3918
82431632|NCT01682356|164571921|SUPERIORITY|||||||0.0987||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.09870
82431633|NCT01682356|164571922|SUPERIORITY|||||||0.6044||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6044
82431634|NCT01682356|164571923|SUPERIORITY|||||||0.6044||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.6044
82431635|NCT01682356|164571924|SUPERIORITY|||||||0.8819||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.8819
82451911|NCT03202134|164610320|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82451912|NCT03202134|164610321|SUPERIORITY|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
82451913|NCT00966550|164610325|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.0001
82431636|NCT01682356|164571925|SUPERIORITY|||||||0.8987||||||P values adjusted for multiplicity|ANOVA|Values for blood pressure were analyzed using a repeated measures ANOVA followed by Holm-Šídák multiple comparison testing||||||0.8987
82431637|NCT01142388|164571931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|TWO_SIDED||||||Log Rank|one-sided stratified log rank test, stratifying on: 1) gastroesophageal junction vs. esophagus, 2) squamous cell carcinoma vs. adenocarcinoma.||||||0.85
82431638|NCT01142388|164571932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|TWO_SIDED||||||Log Rank|one-sided stratified log rank test, stratifying on 1) gastroesophageal junction vs. esophagus, 2) squamous cell carcinoma vs. adenocarcinoma.||||||0.50
82431639|NCT05112679|164571934|OTHER|See SAP|Mean Difference (Final Values)|0.007|STANDARD_DEVIATION|0.21||0.009|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||All participants were randomized to both groups in a cross over design, if a participant started with proprio after 4 weeks of use they will cross over to Empower ankle or vice versa. the data reflect comparison of the groups.||||0.009
82451914|NCT01371734|164610326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85||||0.587|TWO_SIDED|95.0|-2.23|3.94|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR Low Dose||3.94|-2.23|0.587
82648623|NCT03549130|165013035|SUPERIORITY||LS mean difference|-0.81||||0.1088|TWO_SIDED|95.0|-1.81|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of NRQLQ between active and placebo strip group for practical problems.||0.18|-1.81|0.1088
82537218|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.32|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.43|-6.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-6.21|-14.43|<0.0001
82648624|NCT03549130|165013036|SUPERIORITY||LS mean difference|-0.25||||0.2513|TWO_SIDED|95.0|-0.68|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.18|-0.68|0.2513
82431640|NCT05265728|164571957|SUPERIORITY||Least Square Mean (LS mean)|0.37|||||TWO_SIDED|95.0|0.18|0.76|||||LS mean (95% Confidence Interval \[CI\]) lesions were obtained from a Poisson distribution model with no explanatory variables.|||0.76|0.18|
82431641|NCT05265728|164571958|SUPERIORITY||Least Square Mean|3.08|||||TWO_SIDED|95.0|0.69|13.74|||||LS mean (95% CI) lesions were obtained from a Poisson distribution model with no explanatory variables.|||13.74|0.69|
82431642|NCT03584152|164571990|NON_INFERIORITY|The null hypothesis stated that the combination of treatment arm B is worse than the combination of treatment arm A by more than -Δ, where -Δ is the 'non-inferiority margin.'||||||0.156||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.156
82431643|NCT03584152|164571991|OTHER|||||||0.112||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.112
82431644|NCT03584152|164571992|OTHER|||||||0.803||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.803
82431645|NCT03584152|164571993|OTHER|||||||0.403||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||||||0.403
82431646|NCT03584152|164571994|OTHER|||||||0.405||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in nausea||||0.405
82648625|NCT03549130|165013036|SUPERIORITY||LS mean difference|-0.37||||0.0743|TWO_SIDED|95.0|-0.78|0.04||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.04|-0.78|0.0743
82431647|NCT03584152|164571994|OTHER|||||||0.001||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||Difference between-groups in itchiness||||0.001
82431648|NCT03584152|164571994|OTHER|||||||0.571||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in constipation||||0.571
82431649|NCT03584152|164571994|OTHER|||||||0.078||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in dizziness||||0.078
82431650|NCT03584152|164571994|OTHER|||||||0.724||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in bleeding||||0.724
82431651|NCT03584152|164571994|OTHER|||||||0.795||||||The a priori threshold for statistical significance was \< 0.05.|Chi-squared|||Difference between-groups in headache||||0.795
82431652|NCT03584152|164571994|OTHER|||||||0.188||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||"Difference between-groups in other side effects"||||0.188
82431653|NCT03584152|164571995|OTHER|||||||0.7318||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in SCHNOS-O||||0.7318
82451915|NCT01371734|164610326|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52||||0.333|TWO_SIDED|95.0|-1.56|4.61|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR High Dose||4.61|-1.56|0.333
82431654|NCT03584152|164571995|OTHER|||||||0.5267||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in SCHNOS-C||||0.5267
82431655|NCT03584152|164571996|OTHER|||||||0.9158||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in VAS-F||||0.9158
82431656|NCT03584152|164571997|OTHER|||||||0.5351||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Difference in change in VAS-A||||0.5351
82431657|NCT03584152|164571998|OTHER|||||||0.378||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.378
82431658|NCT03584152|164571999|OTHER|||||||0.195||||||The a priori threshold for statistical significance was \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.195
82431659|NCT03584152|164572000|OTHER|||||||0.682|||||||Wilcoxon (Mann-Whitney)|||||||0.682
82431660|NCT03052608|164572008|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.191|0.413||The study was to be considered positive if the 1-sided log-rank test for PFS, stratified for baseline stratification factors (ethnicity and brain metastases) was significant at the 0.0081 level at the cutoff date of this report.|one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|The study was designed to test the null hypothesis H0: λ ≥1 versus the alternative hypothesis HA: λ \<1, where λ is the hazard ratio (HR; Lorlatinib/Crizotinib). Evaluation of 177 PFS events was required to have at least 90% power to detect a HR of 0.611 using a one-sided stratified log-rank test at a significance level of 0.025 (one-sided), and a 2-look group-sequential design with a Lan-DeMets (O'Brien-Fleming) α-spending function to determine the efficacy boundaries.||0.413|0.191|<0.0001
82451916|NCT01371734|164610327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015||||0.923|TWO_SIDED|95.0|-0.29|0.32|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR Low Dose||0.32|-0.29|0.923
82451917|NCT01371734|164610327|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.161||||0.302|TWO_SIDED|95.0|-0.14|0.47|||Mixed-effects model for repeated measure|Hochberg procedure was used to control for multiplicity||Adjusted mean difference = Placebo - DVS SR High Dose||0.47|-0.14|0.302
82451918|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.729|||||||Cochran-Mantel-Haenszel|||Week 1||||0.729
82451919|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.756|||||||Cochran-Mantel-Haenszel|||Week 1||||0.756
82451920|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.765|||||||Cochran-Mantel-Haenszel|||Week 2||||0.765
82451921|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.475|||||||Cochran-Mantel-Haenszel|||Week 2||||0.475
82537219|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.65|STANDARD_ERROR_OF_MEAN|2.06||0.0257|TWO_SIDED|95.0|0.58|8.73||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N1 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.73|0.58|0.0257
82537220|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|22.7|STANDARD_ERROR_OF_MEAN|6.05||0.0003|TWO_SIDED|95.0|10.74|34.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||34.67|10.74|0.0003
82537221|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.47|STANDARD_ERROR_OF_MEAN|6.0||0.0174|TWO_SIDED|95.0|-26.35|-2.59||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.59|-26.35|0.0174
82537222|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|37.17|STANDARD_ERROR_OF_MEAN|5.96|<|0.0001|TWO_SIDED|95.0|25.38|48.96||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N2 sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||48.96|25.38|<0.0001
82537223|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|20.93|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED|95.0|12.61|29.25||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||29.25|12.61|<0.0001
82652220|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.323||||0.0556|TWO_SIDED|95.0|-0.653|0.008||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.008|-0.653|0.0556
82451922|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.31|||||||Cochran-Mantel-Haenszel|||Week 3||||0.310
82451923|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.105|||||||Chi-squared, Corrected|||Week 3||||0.105
82451924|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.254|||||||Cochran-Mantel-Haenszel|||Week 4||||0.254
82451925|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.887|||||||Cochran-Mantel-Haenszel|||Week 4||||0.887
82451926|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.475|||||||Cochran-Mantel-Haenszel|||Week 6||||0.475
82451927|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.407|||||||Cochran-Mantel-Haenszel|||Week 6||||0.407
82451928|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.696|||||||Cochran-Mantel-Haenszel|||Week 8||||0.696
82451929|NCT01371734|164610328|SUPERIORITY_OR_OTHER|||||||0.462|||||||Cochran-Mantel-Haenszel|||Week 8||||0.462
82451930|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.806||||0.633|TWO_SIDED|95.0|0.333|1.951|||Regression, Logistic|||Week 1||1.951|0.333|0.633
82451931|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.561||||0.172|TWO_SIDED|95.0|0.245|1.285|||Regression, Logistic|||Week 1||1.285|0.245|0.172
82451932|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.939||||0.826|TWO_SIDED|95.0|0.536|1.644|||Regression, Logistic|||Week 2||1.644|0.536|0.826
82451933|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.599|TWO_SIDED|95.0|0.489|1.511|||Regression, Logistic|||Week 2||1.511|0.489|0.599
82451934|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.713||||0.248|TWO_SIDED|95.0|0.402|1.265|||Regression, Logistic|||Week 3||1.265|0.402|0.248
82451935|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.564||||0.048|TWO_SIDED|95.0|0.32|0.995|||Regression, Logistic|||Week 3||0.995|0.320|0.048
82451936|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.708||||0.21|TWO_SIDED|95.0|0.412|1.216|||Regression, Logistic|||Week 4||1.216|0.412|0.210
82451937|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.964||||0.893|TWO_SIDED|95.0|0.564|1.646|||Regression, Logistic|||Week 4||1.646|0.564|0.893
82451938|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.714||||0.228|TWO_SIDED|95.0|0.413|1.235|||Regression, Logistic|||Week 6||1.235|0.413|0.228
82451939|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.916||||0.751|TWO_SIDED|95.0|0.531|1.579|||Regression, Logistic|||Week 6||1.579|0.531|0.751
82451940|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.974||||0.925|TWO_SIDED|95.0|0.561|1.689|||Regression, Logistic|||Week 8||1.689|0.561|0.925
82451941|NCT01371734|164610329|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.764||||0.342|TWO_SIDED|95.0|0.438|1.331|||Regression, Logistic|||Week 8||1.331|0.438|0.342
82451942|NCT02467842|164610344|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (pooled TIV/QIV)|1.02|||||TWO_SIDED|95.0|0.94|1.1||||||GMR of A/H1N1 strain (GMTs of pooled TIV/QIV)||1.10|0.94|
82451943|NCT02467842|164610344|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (pooled TIV/QIV)|0.94|||||TWO_SIDED|95.0|0.87|1.01||||||GMR of A/H3N2 strain (GMTs of pooled TIV/QIV)||1.01|0.87|
82451944|NCT02467842|164610344|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (TIV/QIV)|0.88|||||TWO_SIDED|95.0|0.82|0.95||||||GMR of B/Yamagata strain (GMTs of TIV/QIV)||0.95|0.82|
82451945|NCT02467842|164610344|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the upper limit of 95% confidence interval of the GMR (active comparator/experimental) was ≤1.5 for each strain.|GMR (TIV/QIV)|0.9|||||TWO_SIDED|95.0|0.83|0.97||||||GMR of A/H1N1 strain (GMTs of TIV/QIV)||0.97|0.83|
82451946|NCT02467842|164610345|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-1.0|||||TWO_SIDED|95.0|-6.07|4.06||||||Diff. SCR of A/H1N1 strain (SCR of pooled TIV minus QIV)||4.06|-6.07|
82451947|NCT02467842|164610345|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-5.02|||||TWO_SIDED|95.0|-10.08|0.04||||||Diff. SCR of A/H3N2 strain (SCR of pooled TIV minus QIV)||0.04|-10.08|
82451948|NCT02467842|164610345|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-7.06|||||TWO_SIDED|95.0|-13.12|-1.0||||||Diff. SCR of B/Yamaga strain (SCR of TIV minus QIV)||-1.00|-13.12|
82451949|NCT02467842|164610345|NON_INFERIORITY|Non-inferiority of SCR was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator minus experimental) ≤10% for each strain.|Difference in percentage|-3.09|||||TWO_SIDED|95.0|-9.26|3.09||||||Diff. SCR of B/Victoria (SCR of TIV minus QIV)||3.09|-9.26|
82451950|NCT02467842|164610349|SUPERIORITY|Superiority of GMTs was concluded if the upper limit of 95% confidence interval for GMR (active comparator/experimental) was ≤1.0 for each B strain.|GMR (TIV/QIV)|0.75|||||TWO_SIDED|95.0|0.7|0.81||||||GMR of B/Yamagata strain (GMTs of TIV/QIV)||0.81|0.70|
82451951|NCT02467842|164610349|SUPERIORITY|Superiority of GMTs was concluded if the upper limit of 95% confidence interval for GMR (active comparator/experimental) was ≤1.0 for each B strain.|GMR (TIV/QIV)|0.75|||||TWO_SIDED|95.0|0.69|0.81||||||GMR of B/Victoria (GMTs of TIV/QIV)||0.81|0.69|
82451952|NCT02467842|164610350|SUPERIORITY|Superiority was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator-experimental) was ≤0% in each B strain.|Difference in percentage|-18.98|||||TWO_SIDED|95.0|-24.61|-13.36||||||Diff. SCR of B/Yamaga strain (SCR of TIV minus QIV)||-13.36|-24.61|
82451953|NCT02467842|164610350|SUPERIORITY|Superiority was concluded if the upper limit of 95% confidence interval for Diff. SCR (active comparator-experimental) was ≤0% in each B strain.|Difference in percentage|-12.62|||||TWO_SIDED|95.0|-18.79|-6.45||||||Diff. SCR of B/Victoria strain (SCR of TIV minus QIV)||-6.45|-18.79|
82451954|NCT00766051|164610369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.0|STANDARD_ERROR_OF_MEAN|1.76|<|0.005|TWO_SIDED|95.0|5.0|11.0||The P value is not adjusted for multiple comparisons or for statistical significance|t-test, 2 sided|||The expected outcome was that infants in the intervention group would exhibit significantly less number of days to attain oral feeding.||11|5|<0.005
82451955|NCT00766051|164610370|SUPERIORITY_OR_OTHER||Slope|0.275|||<|0.01|||||||Mixed Models Analysis|This correlation is between the intervention groups' initial level of relaxation and final level of relaxation during the oral feeding period.||Pearson Correlation, 2-tailed||||< 0.01
82451956|NCT00766051|164610371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6|STANDARD_DEVIATION|5.2|<|0.02|ONE_SIDED|95.0||6.7|||t-test, 1 sided||An increase in this test scale score means more parent confidence.|"Parent pre-post one sided t test of parents' global confidence, measured parental confidence in feeding, handling, and interacting with their infant."||6.7||< .02
82451957|NCT00766051|164610372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8|STANDARD_DEVIATION|4.3|<|0.03|ONE_SIDED|95.0||4.54|||t-test, 1 sided||An increase in this test scale score means an increase in the parents' perception of their infants' easiness during caregiving.|Parent pre-post one sided t test on the Easiness Scale of the Mother and Baby Scales in how parents percieve their interactions (alert-responsiveness, mood) with their infant and infant sleep patterns .||4.54||< .03
82451958|NCT02305238|164610373|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) mean difference|-0.4|||||TWO_SIDED|95.0|-3.8|3.0||||||||3.0|-3.8|
82451959|NCT02305238|164610374|SUPERIORITY_OR_OTHER_LEGACY||Mantel-Haenszel (MH) adjusted difference|-0.9|||||TWO_SIDED|95.0|-5.7|4.0||||||||4.0|-5.7|
82451960|NCT02305238|164610375|SUPERIORITY_OR_OTHER_LEGACY||MH adjusted difference|-1.4|||||TWO_SIDED|95.0|-12.7|9.8||||||||9.8|-12.7|
82451961|NCT02305238|164610376|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-5.8|||||TWO_SIDED|95.0|-24.3|12.7||||||||12.7|-24.3|
82451962|NCT02305238|164610377|SUPERIORITY_OR_OTHER_LEGACY||MH adjusted difference|1.0|||||TWO_SIDED|95.0|-10.6|12.7||||||||12.7|-10.6|
82451963|NCT00588354|164610415|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|1.05||0.159|TWO_SIDED|95.0|-0.52|3.6|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||3.60|-0.52|0.159
82451964|NCT00588354|164610416|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.97||0.91|TWO_SIDED|95.0|-1.79|2.01|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||2.01|-1.79|0.910
82451965|NCT00588354|164610417|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.96|STANDARD_ERROR_OF_MEAN|2.04||0.162|TWO_SIDED|95.0|-1.04|6.96|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||6.96|-1.04|0.162
82451966|NCT00588354|164610418|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.67|STANDARD_ERROR_OF_MEAN|2.27||0.022|TWO_SIDED|95.0|1.22|10.12|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||10.12|1.22|0.022
82451967|NCT00588354|164610419|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.86|STANDARD_ERROR_OF_MEAN|3.28||0.089|TWO_SIDED|95.0|-0.57|12.29|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||12.29|-0.57|0.089
82451968|NCT00588354|164610420|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.04|STANDARD_ERROR_OF_MEAN|3.17||0.038|TWO_SIDED|95.0|0.83|13.25|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||13.25|0.83|0.038
82451969|NCT00588354|164610421|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.83|STANDARD_ERROR_OF_MEAN|3.53||0.186|TWO_SIDED|95.0|-11.75|2.09|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||2.09|-11.75|0.186
82451970|NCT00588354|164610422|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|3.37||0.918|TWO_SIDED|95.0|-6.96|6.26|||ANCOVA|||Data were analyzed using analysis of covariance (ANCOVA) with baseline value included as a covariate.||6.26|-6.96|0.918
82451971|NCT04230213|164610423|EQUIVALENCE|Equivalence was to be determined if the 90% confidence interval of the geometric mean ratio falls within the 80% to 125% range.|Geometric mean ratio (percentage)|102.56|||||TWO_SIDED|90.0|89.78|117.17|||||Analysis was performed using analysis of variance (ANOVA) model.|||117.17|89.78|
82451972|NCT04230213|164610424|EQUIVALENCE|Equivalence was to be determined if the 90% confidence interval of the geometric mean ratio falls within the 80% to 125% range.|Geometric mean ratio (Percentage)|105.31|||||TWO_SIDED|90.0|89.16|124.39|||||Analysis was performed using ANOVA model.|||124.39|89.16|
82451973|NCT00524472|164610454|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62||||0.0043|TWO_SIDED|95.0|0.39|0.97||"P-values for combined sites: significant if P \< 0.0085 for efficacy. Adjusted for interim analysis.~Confidence intervals adjusted for interim analysis."|Cochran-Mantel-Haenszel||Hyperinsulinemic-normoglycemic clamp|||0.97|0.39|0.0043
82451974|NCT00524472|164610455|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.29|TWO_SIDED|95.0|0.75|1.13|||Cochran-Mantel-Haenszel||HN vs. standard|||1.13|0.75|0.29
82451975|NCT00524472|164610456|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.99|TWO_SIDED|95.0|0.91|1.21|||Regression, Cox|||||1.21|0.91|0.99
82451976|NCT00524472|164610457|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.13||||0.025|TWO_SIDED|95.0|0.98|1.31|||Regression, Cox||HN vs. Standard|||1.31|0.98|0.025
82537224|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.1|STANDARD_ERROR_OF_MEAN|4.18|<|0.0001|TWO_SIDED|95.0|23.83|40.36||This analysis was step 4 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||40.36|23.83|<0.0001
82537225|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-11.17|STANDARD_ERROR_OF_MEAN|4.14||0.008|TWO_SIDED|95.0|-19.37|-2.97||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage N3 sleep/SWS: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.97|-19.37|0.0080
82451977|NCT00524472|164610458|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.52||||0.12|TWO_SIDED|95.0|0.74|3.11|||Cochran-Mantel-Haenszel||HN vs. standard|||3.11|0.74|0.12
82451978|NCT00524472|164610459|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.085|TWO_SIDED|95.0|0.72|1.07|||Cochran-Mantel-Haenszel||HN vs. Standard|||1.07|0.72|0.085
82451979|NCT03058692|164610460|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
82451980|NCT03058692|164610460|OTHER|||||||0.56||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.56
82451981|NCT03058692|164610461|OTHER|||||||0.74||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.74
82451982|NCT03058692|164610461|OTHER|||||||0.73||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.73
82451983|NCT03058692|164610462|OTHER|||||||0.66||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.66
82451984|NCT03058692|164610462|OTHER|||||||0.48||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.48
82490017|NCT03572972|164672895|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.534|0.766||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.766|0.534|
82490018|NCT03572972|164672895|SUPERIORITY||Hazard Ratio (HR)|0.838|||||TWO_SIDED|95.0|0.622|1.13|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.130|0.622|
82490019|NCT03572972|164672896|SUPERIORITY||Hazard Ratio (HR)|0.881|||||TWO_SIDED|95.0|0.732|1.061||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.061|0.732|
82490020|NCT03572972|164672896|SUPERIORITY||Hazard Ratio (HR)|0.802|||||TWO_SIDED|95.0|0.678|0.947||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.947|0.678|
82490021|NCT03572972|164672896|SUPERIORITY||Hazard Ratio (HR)|0.882|||||TWO_SIDED|95.0|0.754|1.032||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.032|0.754|
82490022|NCT04508335|164672933|EQUIVALENCE|We use 2, one-sided t-tests, each with alpha set at 0.05 to test the composite null hypothesis that the mean difference score (μReia-μCurrent) between the Reia pessary and baseline (current pessary) on the PFDI-20, is greater than 18.3 (H01), the upper equivalence limit, or lower than -18.3 (H02), the lower equivalence limit.||||||0.0021|||||||t-test, 2 sided|||H01: μReia-μCurrent \> 18.3 and H02: μReia-μCurrent \< -18.3. The alternative hypothesis is thus: HA: -18.3 ≤ μReia-μCurrent ≤ 18.3.||||.0021
82490023|NCT04508335|164672935|OTHER|Mean difference of PFIQ scores. A negative difference (Reia pessary - current pessary) indicates that the PFIQ-7 score improved with the Reia pessary.|Mean Difference (Final Values)|-11.9||||0.0192|TWO_SIDED|||||p value adjusted for multiple variables|Wilcoxon (Mann-Whitney)|||PFIQ scores at baseline with subjects using current pessary then after treatment with Reia pessary||||0.0192
82490024|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||0.0007
82490025|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||0.0007
82490026|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||0.0011
82490027|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0015|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||0.0015
82490028|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0029|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||0.0029
82490029|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||0.0004
82490030|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0059|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||0.0059
82490031|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||0.0002
82490032|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||0.0002
82490033|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||<0.0001
82490034|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||<0.0001
82451985|NCT03058692|164610463|OTHER|||||||0.32||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.32
82451986|NCT03058692|164610463|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
82451987|NCT03058692|164610464|OTHER|||||||0.0078||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0078
82451988|NCT03058692|164610464|OTHER|||||||0.94||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.94
82451989|NCT03058692|164610465|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82451990|NCT03058692|164610465|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.5
82451991|NCT03058692|164610466|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82537226|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.97|STANDARD_ERROR_OF_MEAN|2.85||0.0834|TWO_SIDED|95.0|-10.61|0.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.67|-10.61|0.0834
82537227|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|18.59|STANDARD_ERROR_OF_MEAN|2.83|<|0.0001|TWO_SIDED|95.0|12.99|24.19||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||24.19|12.99|<0.0001
82537228|NCT00991276|164773813|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-23.56|STANDARD_ERROR_OF_MEAN|2.81|<|0.0001|TWO_SIDED|95.0|-29.12|-18.01||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Stage R sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.01|-29.12|<0.0001
82451992|NCT03058692|164610466|OTHER|||||||||||||||||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82451993|NCT03058692|164610467|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82537229|NCT00991276|164773814|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.67|STANDARD_ERROR_OF_MEAN|0.99||0.0077|TWO_SIDED|95.0|-4.63|-0.72||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.72|-4.63|0.0077
82537230|NCT00991276|164773814|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.87|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-9.81|-5.93||This analysis was step 5 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-5.93|-9.81|<0.0001
82537231|NCT00991276|164773814|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.97|<|0.0001|TWO_SIDED|95.0|3.27|7.12||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||7.12|3.27|<0.0001
82537232|NCT00991276|164773815|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.35|STANDARD_ERROR_OF_MEAN|2.57||0.0396|TWO_SIDED|95.0|-10.44|-0.26||This analysis was step 6 in a step-down procedure (if p-value \< 0.05, then continue to next step) used to control the Type I error rate.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.26|-10.44|0.0396
82537233|NCT00991276|164773815|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|2.55||0.0568|TWO_SIDED|95.0|-9.95|0.14||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.14|-9.95|0.0568
82537234|NCT00991276|164773815|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|2.52||0.8589|TWO_SIDED|95.0|-5.44|4.54||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.54|-5.44|0.8589
82537235|NCT00991276|164773816|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|2.91|<|0.0001|TWO_SIDED|95.0|-20.26|-8.74||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.74|-20.26|<0.0001
82537236|NCT00991276|164773816|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.35|STANDARD_ERROR_OF_MEAN|2.88||0.0001|TWO_SIDED|95.0|5.65|17.04||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||17.04|5.65|0.0001
82537237|NCT00991276|164773816|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.84|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|95.0|-31.51|-20.17||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-20.17|-31.51|<0.0001
82537238|NCT00991276|164773817|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.53|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-20.84|-8.22||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.22|-20.84|<0.0001
82648626|NCT03549130|165013036|SUPERIORITY||LS mean difference|-0.55||||0.0158|TWO_SIDED|95.0|-0.99|-0.1||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||-0.10|-0.99|0.0158
82652221|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.051||||0.7673|TWO_SIDED|95.0|-0.389|0.287||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.287|-0.389|0.7673
82451994|NCT03058692|164610468|OTHER|||||||||||||||||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82451995|NCT03058692|164610468|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.5
82451996|NCT03058692|164610469|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
82451997|NCT03058692|164610469|OTHER|||||||0.74||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.74
82451998|NCT03058692|164610470|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
82451999|NCT03058692|164610470|OTHER|||||||0.9||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.90
82452000|NCT03058692|164610471|OTHER|||||||0.87||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.87
82452001|NCT03058692|164610471|OTHER|||||||0.57||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.57
82490035|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||<0.0001
82490036|NCT01313858|164672946|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||0.0002
82490037|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||<0.0001
82490038|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||<0.0001
82490039|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||<0.0001
82490040|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 3 (Month 3 minus BL)||||<0.0001
82490041|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 6 (Month 6 minus BL)||||<0.0001
82490042|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 9 (Month 9 minus BL)||||<0.0001
82490043|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 12 (Month 12 minus BL)||||<0.0001
82490044|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 15 (Month 15 minus BL)||||<0.0001
82490045|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 18 (Month 18 minus BL)||||<0.0001
82648627|NCT03549130|165013036|SUPERIORITY||LS mean difference|-0.47||||0.0489|TWO_SIDED|95.0|-0.94|0.0||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.00|-0.94|0.0489
82431661|NCT03052608|164572009|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.414|1.249|||||Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||1.249|0.414|
82452002|NCT03058692|164610472|OTHER|||||||0.82||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.82
82490046|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 21 (Month 21 minus BL)||||<0.0001
82652222|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.05||||0.7709|TWO_SIDED|95.0|-0.389|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.289|-0.389|0.7709
82431662|NCT03052608|164572010|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.144|0.307|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||0.307|0.144|<0.0001
82490047|NCT01313858|164672946|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FFbH at Month 24 (Month 24 minus BL)||||<0.0001
82490048|NCT01313858|164672947|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||0.0003
82490049|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
82490050|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
82490051|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
82490052|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
82490053|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||<0.0001
82490054|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
82490055|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
82490056|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
82490057|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
82490058|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 3 (Month 3 minus BL)||||<0.0001
82490059|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 6 (Month 6 minus BL)||||<0.0001
82490060|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 12 (Month 12 minus BL)||||<0.0001
82490061|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 18 (Month 18 minus BL)||||<0.0001
82490062|NCT01313858|164672947|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in FACIT-F at Month 24 (Month 24 minus BL)||||<0.0001
82490063|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
82490064|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
82490065|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
82490066|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
82490067|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
82490068|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
82490069|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
82490070|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
82452003|NCT03058692|164610472|OTHER|||||||0.076||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.076
82452004|NCT03058692|164610473|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>0.99
82452005|NCT03058692|164610473|OTHER|||||||0.75||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.75
82452006|NCT03058692|164610474|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
82452007|NCT03058692|164610474|OTHER|||||||0.5||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.50
82452008|NCT03058692|164610475|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>.99
82452009|NCT03058692|164610475|OTHER||||||>|0.99||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||>.99
82452010|NCT03058692|164610476|OTHER|||||||0.81||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.81
82452011|NCT03058692|164610476|OTHER|||||||0.47||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.47
82490071|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 6 (Month 6 minus BL)||||<0.0001
82652223|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.386||||0.0273|TWO_SIDED|95.0|-0.728|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.043|-0.728|0.0273
82490072|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 12 (Month 12 minus BL)||||<0.0001
82490073|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 18 (Month 18 minus BL)||||<0.0001
82490074|NCT01313858|164672948|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Repeated measures analysis|||Least squares mean difference from baseline in EQ-5D-3L at Month 24 (Month 24 minus BL)||||<0.0001
82490075|NCT03019575|164672955|OTHER|Linear Mixed Model|Geometric Mean Ratio|9.43|||||TWO_SIDED|95.0|7.44|11.97||||||||11.97|7.44|
82431663|NCT03052608|164572011|SUPERIORITY||Odds Ratio (OR)|2.254||||0.0005|TWO_SIDED|95.0|1.353|3.891|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||3.891|1.353|0.0005
82431664|NCT03052608|164572012|SUPERIORITY||Odds Ratio (OR)|2.499||||0.0002|TWO_SIDED|95.0|1.484|4.594|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||4.594|1.484|0.0002
82431665|NCT03052608|164572013|SUPERIORITY||Odds Ratio (OR)|8.407|||<|0.0001|TWO_SIDED|95.0|2.586|27.233|||Cochran-Mantel-Haenszel|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Odds ratio was estimated using Mantel-Haenszel method. An odds ratio larger than 1 indicates better outcome for Lorlatinib relative to Crizotinib. Exact CI was calculated.|||27.233|2.586|<0.0001
82431666|NCT03052608|164572014|SUPERIORITY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.026|0.17|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||0.170|0.026|<0.0001
82431667|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|4.65||||0.0096|TWO_SIDED|95.0|1.14|8.16|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Global QOL. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||8.16|1.14|0.0096
82431668|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|2.02||||0.1897|TWO_SIDED|95.0|-1.01|5.05|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Physical Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.05|-1.01|0.1897
82431669|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|2.09||||0.2999|TWO_SIDED|95.0|-1.87|6.04|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Role Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||6.04|-1.87|0.2999
82652224|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.044||||0.795|TWO_SIDED|95.0|-0.378|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.289|-0.378|0.7950
82431670|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|2.58||||0.0553|TWO_SIDED|95.0|-0.06|5.22|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Emotional Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.22|-0.06|0.0553
82431671|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-3.18||||0.0588|TWO_SIDED|95.0|-6.47|0.12|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Cognitive Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.12|-6.47|0.0588
82431672|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|2.27||||0.2118|TWO_SIDED|95.0|-1.3|5.85|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Social Functioning. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.85|-1.30|0.2118
82431673|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-5.67||||0.0032|TWO_SIDED|95.0|-9.42|-1.92|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Fatigue. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-1.92|-9.42|0.0032
82431674|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-7.86|||<|0.0001|TWO_SIDED|95.0|-9.86|-5.86|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Nausea and Vomiting. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-5.86|-9.86|<0.0001
82431675|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|1.16||||0.531|TWO_SIDED|95.0|-2.49|4.82|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Pain. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||4.82|-2.49|0.5310
82431676|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|1.72||||0.3602|TWO_SIDED|95.0|-1.98|5.43|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Dyspnoea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||5.43|-1.98|0.3602
82431677|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-7.95|||<|0.0001|TWO_SIDED|95.0|-11.25|-4.64|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Insomnia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-4.64|-11.25|<0.0001
82431678|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-9.21|||<|0.0001|TWO_SIDED|95.0|-11.8|-6.62|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Appetite Loss. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-6.62|-11.80|<0.0001
82577354|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.152||0.0099|TWO_SIDED|95.0|-0.7|-0.1|||MMRM|||Genital Symptoms, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.10|-0.70|0.0099
82577355|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.164||0.2174|TWO_SIDED|95.0|-0.53|0.12|||MMRM|||Genital Symptoms, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.12|-0.53|0.2174
82577356|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.161||0.082|TWO_SIDED|95.0|-0.6|0.04|||MMRM|||Genital Symptoms, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.04|-0.60|0.0820
82577357|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.194||0.2642|TWO_SIDED|95.0|-0.6|0.17|||MMRM|||Genital Symptoms, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.60|0.2642
82577358|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.189||0.0718|TWO_SIDED|95.0|-0.72|0.03|||MMRM|||Genital Symptoms, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.72|0.0718
82577359|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.212||0.3055|TWO_SIDED|95.0|-0.64|0.2|||MMRM|||Genital Symptoms, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.64|0.3055
82577360|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.202||0.3533|TWO_SIDED|95.0|-0.59|0.21|||MMRM|||Genital Symptoms, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.21|-0.59|0.3533
82431679|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-4.93||||0.0198|TWO_SIDED|95.0|-9.07|-0.79|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Constipation. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-0.79|-9.07|0.0198
82431680|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-12.03|||<|0.0001|TWO_SIDED|95.0|-15.49|-8.58|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Diarrhea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-8.58|-15.49|<0.0001
82431681|NCT03052608|164572029|SUPERIORITY||Mean Difference (Net)|-1.04||||0.5947|TWO_SIDED|95.0|-4.9|2.82|||Mixed Models Analysis|||This is the analysis for QLQ-C30 Financial Difficulties. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||2.82|-4.90|0.5947
82431682|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|0.55||||0.7254|TWO_SIDED|95.0|-2.51|3.6|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Dyspnoea. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.60|-2.51|0.7254
82431683|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|-4.55||||0.0115|TWO_SIDED|95.0|-8.06|-1.03|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Coughing. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||-1.03|-8.06|0.0115
82431684|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|0.12||||0.7824|TWO_SIDED|95.0|-0.75|0.99|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Haemoptysis. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.99|-0.75|0.7824
82577361|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.193||0.4514|TWO_SIDED|95.0|-0.53|0.24|||MMRM|||Genital Symptoms, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.53|0.4514
82577362|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.191||0.4907|TWO_SIDED|95.0|-0.51|0.25|||MMRM|||Genital Symptoms, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.51|0.4907
82577363|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.151||0.6949|TWO_SIDED|95.0|-0.36|0.24|||MMRM|||Hypochondriasis, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.36|0.6949
82577364|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.147||0.467|TWO_SIDED|95.0|-0.4|0.18|||MMRM|||Hypochondriasis, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.40|0.4670
82577365|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.6556|TWO_SIDED|95.0|-0.39|0.25|||MMRM|||Hypochondriasis, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.25|-0.39|0.6556
82577366|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.156||0.9272|TWO_SIDED|95.0|-0.32|0.29|||MMRM|||Hypochondriasis, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.29|-0.32|0.9272
82577367|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.164||0.1395|TWO_SIDED|95.0|-0.57|0.08|||MMRM|||Hypochondriasis, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.57|0.1395
82577368|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.159||0.2601|TWO_SIDED|95.0|-0.5|0.14|||MMRM|||Hypochondriasis, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.50|0.2601
82577369|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.158||0.5626|TWO_SIDED|95.0|-0.4|0.22|||MMRM|||Hypochondriasis, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.40|0.5626
82577370|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4622|TWO_SIDED|95.0|-0.42|0.19|||MMRM|||Hypochondriasis, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.42|0.4622
82577371|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.151||0.2858|TWO_SIDED|95.0|-0.46|0.14|||MMRM|||Hypochondriasis, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.46|0.2858
82648628|NCT03549130|165013037|SUPERIORITY||LS mean difference|-0.19||||0.3034|TWO_SIDED|95.0|-0.57|0.18||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for feel tired and unrefreshed.||0.18|-0.57|0.3034
82648629|NCT03549130|165013037|SUPERIORITY||LS mean difference|-0.15||||0.4891|TWO_SIDED|95.0|-0.57|0.27||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for nasal congestion or stuffy nose.||0.27|-0.57|0.4891
82648630|NCT03549130|165013037|SUPERIORITY||LS mean difference|-0.01||||0.9498|TWO_SIDED|95.0|-0.43|0.4||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for congestion in sinuses.||0.40|-0.43|0.9498
82452012|NCT03058692|164610477|OTHER|||||||0.0061||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0061
82452013|NCT03058692|164610477|OTHER|||||||0.28||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.28
82452014|NCT03058692|164610478|OTHER|||||||0.36||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.36
82452015|NCT03058692|164610478|OTHER|||||||0.32||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.32
82452016|NCT03058692|164610479|OTHER|||||||0.42||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.42
82452017|NCT03058692|164610479|OTHER|||||||0.26||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.26
82452018|NCT03058692|164610480|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
82452019|NCT03058692|164610480|OTHER|||||||0.56||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.56
82490076|NCT00131508|164673013|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in REE ratio between the placebo and glutamine groups. The study was designed to provide 80% power at an alpha level of 0.05 for this objective. Due to slow accrual, the sample size of 46 participants required to obtain the designed power of the study was not realized.||||0.17
82648631|NCT03549130|165013037|SUPERIORITY||LS mean difference|-0.36||||0.1235|TWO_SIDED|95.0|-0.83|0.1||Between treatment p-values.|ANCOVA|Treatment,site used as factors;following variables as covariate:baseline, age,level of congestion symptoms at baseline,Berlin score,Epworth sleepiness|Difference between treatments of adjusted mean change from baseline.|Treatment comparison of Symptoms on Waking in the Morning in NRQLQ between active and placebo strip group for time to clear nighttime drainage after waking up.||0.10|-0.83|0.1235
82490077|NCT00131508|164673014|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change of body mass index between the placebo and glutamine groups.||||0.53
82490078|NCT00131508|164673015|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in red blood cell glutamine between the placebo and glutamine groups.||||0.24
82490079|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported physical function in the placebo and glutamine groups.||||0.62
82490080|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported emotional function in the placebo and glutamine groups.||||0.14
82431685|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|1.16||||0.2988|TWO_SIDED|95.0|-1.04|3.36|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Sore Mouth. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.36|-1.04|0.2988
82431686|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|-1.51||||0.1916|TWO_SIDED|95.0|-3.79|0.76|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Dysphagia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||0.76|-3.79|0.1916
82431687|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|5.37||||0.0279|TWO_SIDED|95.0|0.59|10.15|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Peripheral Neuropathy. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||10.15|0.59|0.0279
82431688|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|-0.2||||0.9162|TWO_SIDED|95.0|-3.89|3.49|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Alopecia. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||3.49|-3.89|0.9162
82431689|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|-0.53||||0.6698|TWO_SIDED|95.0|-2.96|1.9|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Chest. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||1.90|-2.96|0.6698
82431690|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|0.45||||0.8035|TWO_SIDED|95.0|-3.13|4.04|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Arm or Shoulder. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||4.04|-3.13|0.8035
82431691|NCT03052608|164572030|SUPERIORITY||Mean Difference (Net)|3.36||||0.1143|TWO_SIDED|95.0|-0.82|7.55|||Mixed Models Analysis|||This is the analysis for QLQ-LC13 Pain in Other Parts. Estimated change from baseline was based on random intercept random slope mixed-effects model with an intercept term, treatment, time (as a continuous variable), treatment-by-time, baseline and randomization stratification factors as covariates.||7.55|-0.82|0.1143
82431692|NCT03052608|164572033|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7293|TWO_SIDED|95.0|0.822|1.444|||one-sided stratified log-rank|Stratified by the presence of brain metastases (Yes/No) and ethnic origin (Asian/Non-Asian) at randomization.|Based on Cox Proportional Hazards model stratified by the presence of brain metastases and ethnic origin at randomization. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Lorlatinib.|||1.444|0.822|0.7293
82431693|NCT05887908|164572049|NON_INFERIORITY|Non-inferirority margin = 15.0%|Difference in success proportion|21.3|||||TWO_SIDED|95.0|10.9|32.0||If the lower limit of the 2-sided 95% CI of the group difference \> -15.0%, non-inferiority is concluded. If non-inferiority is declared, a test for superiority will be performed. If the lower bound of the 95% CI \> 0.0%, superiority will be declared.|||Miettinen-Nurminen confidence interval|||32.0|10.9|
82431694|NCT05887908|164572049|NON_INFERIORITY|Non-inferirority margin = 15.0%|Difference in success proportion|11.4|||||TWO_SIDED|95.0|-1.2|23.7||If non-inferiority of the cefepime/nacubactam group is declared, a non-inferiority hypothesis test for the aztreonam/nacubactam group will be performed. For this analysis, the same approach as that used for the cefepime/nacubactam group will be used.|||Miettinen-Nurminen confidence interval|||23.7|-1.2|
82431695|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|2.5|||||TWO_SIDED|95.0|-3.2|9.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EA||9.9|-3.2|
82431696|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|6.8|||||TWO_SIDED|95.0|1.1|14.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EA||14.0|1.1|
82431697|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|3.5|||||TWO_SIDED|95.0|-2.7|11.3|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT||11.3|-2.7|
82431698|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|1.5|||||TWO_SIDED|95.0|-6.6|10.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT||10.0|-6.6|
82431699|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|6.8|||||TWO_SIDED|95.0|-4.1|18.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP||18.1|-4.1|
82431700|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|3.3|||||TWO_SIDED|95.0|-9.5|16.0|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP||16.0|-9.5|
82431701|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|24.1|||||TWO_SIDED|95.0|12.0|36.6|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Escherichia coli||36.6|12.0|
82431702|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|10.5|||||TWO_SIDED|95.0|-4.2|24.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Escherichia coli||24.9|-4.2|
82431703|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|28.1|||||TWO_SIDED|95.0|1.8|54.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Klebsiella pneumoniae||54.1|1.8|
82431704|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|35.4|||||TWO_SIDED|95.0|1.1|61.6|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at TOC by baseline pathogen: Klebsiella pneumoniae||61.6|1.1|
82431705|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|6.4|||||TWO_SIDED|95.0|-1.3|16.3|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Escherichia coli||16.3|-1.3|
82431706|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|4.2|||||TWO_SIDED|95.0|-5.6|14.7|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Escherichia coli||14.7|-5.6|
82431707|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-20.3|13.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Klebsiella pneumoniae||13.9|-20.3|
82431708|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|-16.7|||||TWO_SIDED|95.0|-45.4|5.2|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at EOT by baseline pathogen: Klebsiella pneumoniae||5.2|-45.4|
82452020|NCT03058692|164610481|OTHER|||||||0.97||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.97
82452021|NCT03058692|164610481|OTHER|||||||0.62||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.62
82452022|NCT03058692|164610482|OTHER|||||||0.15||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.15
82452023|NCT03058692|164610482|OTHER|||||||0.18||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.18
82452024|NCT03058692|164610483|OTHER|||||||0.94||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.94
82452025|NCT03058692|164610483|OTHER|||||||||||||||||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.|No non-zero results were reported for either group so statistical testing was not performed.|||
82577372|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.146||0.5369|TWO_SIDED|95.0|-0.38|0.2|||MMRM|||Hypochondriasis, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.38|0.5369
82431709|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|11.2|||||TWO_SIDED|95.0|-1.7|24.4|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Escherichia coli||24.4|-1.7|
82431710|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|6.2|||||TWO_SIDED|95.0|-8.7|20.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Escherichia coli||20.9|-8.7|
82431711|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-31.9|23.1|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Klebsiella pneumoniae||23.1|-31.9|
82431712|NCT05887908|164572050|OTHER|Descriptive analysis|Difference in success proportion|6.3|||||TWO_SIDED|95.0|-28.8|37.9|||||Miettinen-Nurminen confidence interval|Composite clinical and microbiological success at FUP by baseline pathogen: Klebsiella pneumoniae||37.9|-28.8|
82431713|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-2.8|6.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA||6.3|-2.8|
82431714|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|1.7|||||TWO_SIDED|95.0|-3.5|7.2|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA||7.2|-3.5|
82431715|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|0.1|||||TWO_SIDED|95.0|-4.6|6.4|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT||6.4|-4.6|
82431716|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|-0.6|||||TWO_SIDED|95.0|-7.1|6.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT||6.0|-7.1|
82431717|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|3.5|||||TWO_SIDED|95.0|-3.3|11.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC||11.8|-3.3|
82537239|NCT00991276|164773817|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|14.42|STANDARD_ERROR_OF_MEAN|3.15|<|0.0001|TWO_SIDED|95.0|8.18|20.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||20.67|8.18|<0.0001
82537240|NCT00991276|164773817|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.95|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001|TWO_SIDED|95.0|-35.16|-22.74||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-22.74|-35.16|<0.0001
82537241|NCT00991276|164773818|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.86|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.93|-1.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.80|-3.93|<0.0001
82537242|NCT00991276|164773818|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.71|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-5.76|-3.65||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.65|-5.76|<0.0001
82537243|NCT00991276|164773818|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.84|STANDARD_ERROR_OF_MEAN|0.53||0.0007|TWO_SIDED|95.0|0.79|2.89||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.89|0.79|0.0007
82537244|NCT00991276|164773819|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.45|STANDARD_ERROR_OF_MEAN|1.3||0.0617|TWO_SIDED|95.0|-5.02|0.12||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.12|-5.02|0.0617
82537245|NCT00991276|164773819|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.35|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|-8.91|-3.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.80|-8.91|<0.0001
82537246|NCT00991276|164773819|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.28||0.0028|TWO_SIDED|95.0|1.37|6.44||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||6.44|1.37|0.0028
82537247|NCT00991276|164773820|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.24||0.0056|TWO_SIDED|95.0|-1.17|-0.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.21|-1.17|0.0056
82648632|NCT03549130|165013038|SUPERIORITY|||||||0.8498||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.8498
82648633|NCT03549130|165013038|SUPERIORITY|||||||0.4652||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.4652
82431718|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|4.3|||||TWO_SIDED|95.0|-3.9|13.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC||13.0|-3.9|
82431719|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|3.1|||||TWO_SIDED|95.0|-4.5|12.1|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP||12.1|-4.5|
82431720|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|2.7|||||TWO_SIDED|95.0|-6.6|12.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP||12.3|-6.6|
82431721|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|1.8|||||TWO_SIDED|95.0|-4.2|6.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Escherichia coli||6.0|-4.2|
82537248|NCT00991276|164773820|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.9|-0.95||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.95|-1.90|<0.0001
82648634|NCT03549130|165013038|SUPERIORITY|||||||0.439||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.4390
82431722|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|2.1|||||TWO_SIDED|95.0|-4.1|8.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Escherichia coli||8.3|-4.1|
82431723|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|6.3|||||TWO_SIDED|95.0|-13.9|20.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Klebsiella pneumoniae||20.3|-13.9|
82431724|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|8.3|||||TWO_SIDED|95.0|-12.6|36.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EA by baseline pathogen: Klebsiella pneumoniae||36.0|-12.6|
82431725|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-3.5|10.5|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Escherichia coli||10.5|-3.5|
82431726|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|1.0|||||TWO_SIDED|95.0|-6.9|9.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Escherichia coli||9.6|-6.9|
82431727|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|-3.1|||||TWO_SIDED|95.0|-15.9|16.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Klebsiella pneumoniae||16.8|-15.9|
82431728|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|-8.3|||||TWO_SIDED|95.0|-36.0|12.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at EOT by baseline pathogen: Klebsiella pneumoniae||12.6|-36.0|
82431729|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|3.2|||||TWO_SIDED|95.0|-4.5|13.1|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Escherichia coli||13.1|-4.5|
82431730|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|4.0|||||TWO_SIDED|95.0|-5.3|14.2|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Escherichia coli||14.2|-5.3|
82431731|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|12.5|||||TWO_SIDED|95.0|-6.0|38.0|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Klebsiella pneumoniae||38.0|-6.0|
82431732|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|10.4|||||TWO_SIDED|95.0|-20.5|37.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at TOC by baseline pathogen: Klebsiella pneumoniae||37.3|-20.5|
82431733|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|6.7|||||TWO_SIDED|95.0|-2.6|17.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Escherichia coli||17.8|-2.6|
82431734|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|6.1|||||TWO_SIDED|95.0|-5.0|17.8|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Escherichia coli||17.8|-5.0|
82431735|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-23.6|17.6|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Klebsiella pneumoniae||17.6|-23.6|
82431736|NCT05887908|164572051|OTHER|Descriptive analysis|Difference in success proportion|-2.1|||||TWO_SIDED|95.0|-30.9|22.3|||||Miettinen-Nurminen confidence interval|Clinical outcome of cure at FUP by baseline pathogen: Klebsiella pneumoniae||22.3|-30.9|
82431737|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|3.4|||||TWO_SIDED|95.0|-1.7|10.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA||10.5|-1.7|
82431738|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|7.6|||||TWO_SIDED|95.0|3.9|14.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA||14.3|3.9|
82431739|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|4.4|||||TWO_SIDED|95.0|-1.3|11.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT||11.9|-1.3|
82431740|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|3.3|||||TWO_SIDED|95.0|-4.2|11.2|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT||11.2|-4.2|
82431741|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|22.2|||||TWO_SIDED|95.0|12.2|32.7|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC||32.7|12.2|
82431742|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|10.3|||||TWO_SIDED|95.0|-2.0|22.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC||22.5|-2.0|
82431743|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|8.6|||||TWO_SIDED|95.0|-2.0|19.7|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP||19.7|-2.0|
82431744|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|2.2|||||TWO_SIDED|95.0|-10.4|14.8|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP||14.8|-10.4|
82431745|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|2.3|||||TWO_SIDED|95.0|-3.5|10.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Escherichia coli||10.5|-3.5|
82431746|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|6.6|||||TWO_SIDED|95.0|2.3|14.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Escherichia coli||14.5|2.3|
82431747|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|12.5|||||TWO_SIDED|95.0|-6.0|38.0|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Klebsiella pneumoniae||38.0|-6.0|
82452026|NCT03058692|164610484|OTHER|||||||0.14||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.14
82452027|NCT03058692|164610484|OTHER|||||||0.26||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.26
82452028|NCT03058692|164610485|OTHER|||||||0.72||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.72
82452029|NCT03058692|164610485|OTHER|||||||0.31||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.31
82452030|NCT03058692|164610486|OTHER|||||||0.31||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.31
82452031|NCT03058692|164610486|OTHER|||||||0.22||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.22
82537249|NCT00991276|164773820|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.24||0.0026|TWO_SIDED|95.0|0.26|1.21||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.21|0.26|0.0026
82537250|NCT00991276|164773821|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|1.01|<|0.0001|TWO_SIDED|95.0|-8.1|-4.09||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-4.09|-8.10|<0.0001
82537251|NCT00991276|164773821|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.07|STANDARD_ERROR_OF_MEAN|1.01||0.0029|TWO_SIDED|95.0|-5.07|-1.07||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.07|-5.07|0.0029
82537252|NCT00991276|164773821|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.03|STANDARD_ERROR_OF_MEAN|1.01||0.0032|TWO_SIDED|95.0|-5.02|-1.04||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.04|-5.02|0.0032
82648635|NCT03549130|165013038|SUPERIORITY|||||||0.2997||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.2997
82648636|NCT03549130|165013038|SUPERIORITY|||||||0.1116||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.1116
82648637|NCT03549130|165013038|SUPERIORITY|||||||0.5101||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.5101
82452032|NCT03058692|164610487|OTHER|||||||0.16||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.16
82452033|NCT03058692|164610487|OTHER|||||||0.44||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.44
82452034|NCT03058692|164610488|OTHER|||||||0.67||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.67
82452035|NCT03058692|164610488|OTHER|||||||0.48||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.48
82452036|NCT03058692|164610489|OTHER||||||<|0.001||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||<0.001
82452037|NCT03058692|164610489|OTHER|||||||0.62||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.62
82452038|NCT03058692|164610490|OTHER|||||||0.0093||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.0093
82452039|NCT03058692|164610490|OTHER|||||||0.51||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.51
82490081|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported social function in the placebo and glutamine groups.||||0.20
82490082|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline parent reported school function in the placebo and glutamine groups.||||0.62
82490083|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported physical function in the placebo and glutamine groups.||||0.61
82648638|NCT03549130|165013038|SUPERIORITY|||||||0.474||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.4740
82490084|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported emotional function in the placebo and glutamine groups.||||0.65
82490085|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported social function in the placebo and glutamine groups.||||0.55
82490086|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month parent reported school function in the placebo and glutamine groups.||||0.69
82490087|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported physical function in the placebo and glutamine groups.||||0.82
82452040|NCT03058692|164610491|OTHER|||||||0.54||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.54
82452041|NCT03058692|164610491|OTHER|||||||0.43||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.43
82452042|NCT03058692|164610492|OTHER|||||||0.44||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.44
82452043|NCT03058692|164610492|OTHER|||||||0.014||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.014
82452044|NCT03058692|164610493|OTHER||||||<|0.001||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||<0.001
82452045|NCT03058692|164610493|OTHER|||||||0.96||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.96
82537253|NCT00991276|164773823|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|10.69|STANDARD_ERROR_OF_MEAN|7.71||0.1677|TWO_SIDED|95.0|-4.56|25.95||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||25.95|-4.56|0.1677
82537254|NCT00991276|164773823|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.77|STANDARD_ERROR_OF_MEAN|7.63|<|0.0001|TWO_SIDED|95.0|-50.88|-20.66||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-20.66|-50.88|<0.0001
82537255|NCT00991276|164773823|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|46.47|STANDARD_ERROR_OF_MEAN|7.59|<|0.0001|TWO_SIDED|95.0|31.45|61.48||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||61.48|31.45|<0.0001
82577373|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.15||0.151|TWO_SIDED|95.0|-0.52|0.08|||MMRM|||Hypochondriasis, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.52|0.1510
82452046|NCT03058692|164610494|OTHER|||||||0.65||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.65
82648639|NCT03549130|165013038|SUPERIORITY|||||||0.2787||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.2787
82452047|NCT03058692|164610494|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
82452048|NCT03058692|164610495|OTHER|||||||0.35||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.35
82452049|NCT03058692|164610495|OTHER|||||||0.66||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD8+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.66
82452050|NCT03058692|164610496|OTHER|||||||0.86||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.86
82452051|NCT03058692|164610496|OTHER|||||||0.53||||||As this trial was not confirmatory, as common for early phase trials, p-values were not adjusted for multiple comparisons, rather included to aid interpretation of the estimates. A priori threshold for statistical significance was not defined.|Wilcoxon (Mann-Whitney)|||This reports the analysis for response in CD4+ T cells at Day 36. The null hypothesis for the non-parametric test assumed both groups are from the same population, i.e., are homogeneous and have the same distribution. The study was not designed/powered to detect differences between groups in the frequencies of marker combinations, considering the issue of multiplicity.||||0.53
82452052|NCT00806988|164610514|OTHER|An intention-to-treat analysis using a two-tailed Wilcoxon rank-sum test, at a 0.05 alpha level was used. This analysis accommodated missing LVESVI outcomes owing to death by assigning deceased patients the worst ranks in order according to the time of death. In the case of data that were missing for reasons other than death, we used multiple imputation to calculate the 12-month LVESVI on the assumption that the data were missing at random.||||||0.61|||||||Wilcoxon (Mann-Whitney)|||The primary null hypothesis was that there would be no significant between-group difference in the LVESVI at 12 months.||||0.61
82452053|NCT00806988|164610515|OTHER|||||||0.83|||||||Chi-squared|||||||0.83
82452054|NCT04775953|164610522|SUPERIORITY|For participants with the same DOOR, quality-of-life (QoL) was used as a tiebreaker and was calculated as change from baseline QoL to Day 70 QoL score, as assessed by questions from the PROMIS physical function item bank (PROMIS Item Bank v2.0, short form 6b) on the Antibacterial Resistance Leadership Group (ARLG) Bloodstream Infection QoL Measure. Superiority of dalbavancin is concluded if the lower bound of the 95% confidence interval for the DOOR probability is greater than 50%.|Pr(Better DOOR in dalbavancin arm)|47.7|||||TWO_SIDED|95.0|39.84|55.68|||||The DOOR probability is calculated using the Wilcoxon-Mann-Whitney statistic corrected for ties.|Null Hypothesis: Probability that a participant in the dalbavancin arm has a better DOOR than a participant in the standard of care arm plus one-half the probability of equal DOOR is 50% (i.e., no difference in DOOR).||55.68|39.84|
82452055|NCT04775953|164610523|NON_INFERIORITY|The non-inferiority margin is -20%. Non-inferiority of dalbavancin is concluded if the lower limit of the 95% confidence interval for the difference in proportions of clinical efficacy is greater than -20%.|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-12.0|14.0|||||Difference in proportions of clinical efficacy for dalbavancin compared to standard of care and 95% confidence interval obtained from a linear regression model.|Null Hypothesis: The proportion of clinical efficacy in the dalbavancin arm minus the proportion of clinical efficacy in the standard of care arm is -20%.||14|-12|
82452056|NCT00555880|164610549|SUPERIORITY_OR_OTHER_LEGACY||Sign Statistic|3.0||||0.146|TWO_SIDED||||||Sign test||Sign test was performed per analysis plan.|||||0.1460
82452057|NCT00555880|164610550|SUPERIORITY_OR_OTHER_LEGACY||Sign statistic|2.5||||0.2266|TWO_SIDED||||||Sign test||Sign test was performed per analysis plan.|||||0.2266
82452058|NCT00555880|164610551|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|97.9||||0.0418|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period and treatment as fixed effects, and subject within sequence as a random effect|ANOVA||Least squares mean for treatment difference (Midodrine HCL-Placebo)|Analysis of treatment difference||||0.0418
82537256|NCT00991276|164773824|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.73|STANDARD_ERROR_OF_MEAN|4.72||0.104|TWO_SIDED|95.0|-17.07|1.61||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.61|-17.07|0.1040
82648640|NCT03549130|165013039|SUPERIORITY|||||||0.5958||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep problems.||||0.5958
82452059|NCT00555880|164610552|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|91.1||||0.1928|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a one-way ANOVA model|ANOVA||Least squares mean for treatment difference (Midodrine HCL-Placebo)|||||0.1928
82452060|NCT00555880|164610553|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9479|TWO_SIDED|||||The P-value is from a 2-sample t-test for difference in mean|t-test, 2 sided|||||||0.9479
82452061|NCT00555880|164610554|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-5.7||||0.059|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA||Least squares mean for treatment difference (Midodrine HCl - Placebo)|Analysis of treatment||||0.0590
82452062|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0633|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Dizziness, Lightheadedness, and Feeling Faint-Analysis of treatment||||0.0633
82452063|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0191|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Problems with Vision-Analysis of treatment||||0.0191
82452064|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0727|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Weakness-Analysis of treatment||||0.0727
82452065|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.282|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Fatigue-Analysis of treatment||||0.2820
82452066|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Trouble Concentrating-Analysis of treatment||||0.0880
82452067|NCT00555880|164610555|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6439|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Item Head/Neck Discomfort-Analysis of treatment||||0.6439
82452068|NCT00555880|164610558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0378|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA|||Final systolic pressure-Analysis of treatment||||0.0378
82452069|NCT00555880|164610558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0108|TWO_SIDED||||||ANOVA|||Final diastolic pressure-Analysis of treatment||||0.0108
82452070|NCT00555880|164610560|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|92.4||||0.0296|TWO_SIDED|||||The P-value is based on type III sum of squares for treatment group from a mixed effect ANOVA model with sequence, period, and treatment as fixed effects and subject within sequence as a random effect.|ANOVA||Least squares mean for treatment difference (Midodrine HCl - Placebo)|Analysis of treatment difference||||0.0296
82577374|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.146||0.5107|TWO_SIDED|95.0|-0.38|0.19|||MMRM|||Hypochondriasis, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.38|0.5107
82648641|NCT03549130|165013039|SUPERIORITY|||||||0.7296||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep problems.||||0.7296
82452071|NCT00555880|164610565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0342|TWO_SIDED||||||Signed Rank Test|||Analysis of treatment||||0.0342
82648642|NCT03549130|165013039|SUPERIORITY|||||||0.7171||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in sleep time problems.||||0.7171
82648643|NCT03549130|165013039|SUPERIORITY|||||||0.403||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in sleep time problems.||||0.4030
82452072|NCT04737278|164610567|OTHER|test of the hypothesis that the score on day 28 is different from the baseline score in the Placebo group|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82452073|NCT04737278|164610567|OTHER|||||||0.01|||||||t-test, 2 sided|||test of the hypothesis that the score on day 28 is different than the baseline score||||0.01
82452074|NCT04737278|164610568|OTHER|||||||0.15|||||||t-test, 2 sided|||Day 28. Between group comparison was made using ANCOVA accounting for baseline values, no significance at p\<0.05. Within group comparisons were made using the paired Student's t test.||||0.15
82452075|NCT04737278|164610569|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82452076|NCT04737278|164610569|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||comparison made between placebo and Cunermuspir at baseline||||0.03
82452077|NCT04737278|164610569|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||comparison made at day 28||||0.01
82452078|NCT04737278|164610569|OTHER|||||||0.07|||||||t-test, 2 sided|||comparison between baseline and day 28||||0.07
82452079|NCT04737278|164610570|OTHER|||||||0.54|||||||Fisher Exact|||base line between group comparisons||||0.54
82452080|NCT04737278|164610570|OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
82452081|NCT04737278|164610571|OTHER|||||||0.54|||||||ANCOVA|||||||0.54
82452082|NCT04737278|164610572|OTHER||||||<|0.01|||||||ANCOVA|||The original report from KGK Synergize/Science did not specify if the results are ANCOVA or a between group comparison at 2ay 28||||<0.01
82452083|NCT04737278|164610573|OTHER|||||||0.31|||||||ANCOVA|||||||0.31
82452084|NCT04737278|164610574|OTHER|||||||0.48|||||||ANCOVA|||||||0.48
82452085|NCT04737278|164610575|OTHER|||||||0.84|||||||ANCOVA|||||||0.84
82452086|NCT04737278|164610576|OTHER|||||||0.63|||||||ANCOVA|||||||0.63
82452087|NCT04737278|164610577|OTHER|||||||0.05|||||||ANCOVA|||||||0.05
82452088|NCT04737278|164610578|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82537257|NCT00991276|164773824|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|4.68||0.9325|TWO_SIDED|95.0|-9.67|8.87||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.87|-9.67|0.9325
82537258|NCT00991276|164773824|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.33|STANDARD_ERROR_OF_MEAN|4.65||0.1175|TWO_SIDED|95.0|-16.54|1.87||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.87|-16.54|0.1175
82537259|NCT00991276|164773825|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-23.98|STANDARD_ERROR_OF_MEAN|4.45|<|0.0001|TWO_SIDED|95.0|-32.78|-15.18||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-15.18|-32.78|<0.0001
82577375|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.151||0.3301|TWO_SIDED|95.0|-0.45|0.15|||MMRM|||Hypochondriasis, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.45|0.3301
82452089|NCT04737278|164610579|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82452090|NCT04737278|164610580|OTHER|||||||0.48|||||||ANCOVA|||||||0.48
82452091|NCT04737278|164610581|OTHER|||||||0.06|||||||ANCOVA|||||||0.06
82452092|NCT04737278|164610582|OTHER|||||||0.02|||||||ANCOVA|||||||0.02
82452093|NCT04737278|164610583|OTHER|||||||0.03|||||||ANCOVA|||||||0.03
82452094|NCT04737278|164610583|OTHER|||||||0.05|||||||t-test, 2 sided|||comparison of neutrophils from baseline to day 28||||0.05
82452095|NCT04737278|164610584|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82452096|NCT04737278|164610585|OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||comparison of baseline values||||0.47
82452097|NCT04737278|164610585|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||comparison performed on data from day 28||||0.24
82452098|NCT04737278|164610586|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||comparison of eosinophil counts at day 28||||0.11
82452099|NCT04737278|164610587|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||The day 28 basophil counts on day 28 were compared between the two arms of this study.||||0.98
82452100|NCT04737278|164610588|OTHER|||||||0.025||||||This p value is for the treatment source. Visits (p=0.422) and visits x treatments (p=0.153) did not meet the threshold of significance.|ANOVA|||"All other statistical analyses were performed by KGK Synergize. This site was used to determine that the NLR were normally distributed https://www.gigacalculator.com/calculators/normality-test-calculator.php~Because these data fulfilled the assumptions of ANOVA, the data were analyzed using this site:~http://vassarstats.net/anova2u.html"||||0.025
82452101|NCT04737278|164610589|OTHER|||||||0.06|||||||t-test, 2 sided|||Comparison of blood glucose in the Cunermuspir arm between enrollment baseline and day 28.||||0.06
82452102|NCT04737278|164610589|OTHER|||||||0.04|||||||t-test, 2 sided|||Comparison of enrollment baseline blood glucose and day 28 in the placebo arm||||0.04
82452103|NCT04737278|164610589|OTHER|||||||0.92|||||||ANCOVA|||||||0.92
82452104|NCT04737278|164610590|OTHER|||||||0.51|||||||ANCOVA|||||||0.51
82452105|NCT04737278|164610591|OTHER|||||||0.38|||||||ANCOVA|||||||0.38
82452106|NCT04737278|164610592|OTHER|||||||0.01|||||||ANCOVA|||||||0.01
82452107|NCT04737278|164610593|OTHER|||||||0.23|||||||ANCOVA|||||||0.23
82452108|NCT04737278|164610593|OTHER|||||||0.18|||||||t-test, 2 sided|||||||0.18
82452109|NCT04737278|164610593|OTHER|||||||0.01|||||||t-test, 2 sided|||Blood sodium concentration between baseline and day 28 in the Placebo group.||||0.01
82452110|NCT04737278|164610594|OTHER|||||||0.58|||||||ANCOVA|||||||0.58
82452111|NCT04737278|164610594|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison of blood potassium concentration upon enrollment and day 28 in the Cunermuspir participants||||<0.001
82452112|NCT04737278|164610594|OTHER||||||<|0.001|||||||t-test, 2 sided|||comparison of blood potassium concentrations from enrollment to day 28 in participants in the Placebo arm.||||<0.001
82452113|NCT04737278|164610595|OTHER|||||||0.87|||||||ANCOVA|||||||0.87
82452114|NCT04737278|164610595|OTHER|||||||0.003|||||||t-test, 2 sided|||comparison between baseline and day 28 chloride concentrations in the Cunermuspir group||||0.003
82452115|NCT04737278|164610595|OTHER|||||||0.003|||||||t-test, 2 sided|||comparison of blood chloride concentrations between baseline and day 28 in Placebo Arm participants||||0.003
82452116|NCT04737278|164610596|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Bilirubin concentrations between Placebo and Cunermuspir compared at day 28||||0.36
82452117|NCT04737278|164610596|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed-Rank||comparison of bilirubin concentrations between baseline and day 28 in the Cunermuspir Arm||||0.72
82452118|NCT04737278|164610596|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||bilirubin concentrations compared between baseline and Day 28 in the Placebo Arm||||0.35
82452119|NCT04737278|164610597|OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82452120|NCT04737278|164610597|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||comparison between baseline and day 28 values in Cunermuspir group||||0.4
82452121|NCT04737278|164610597|OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||comparison between baseline and day 28 values for the Placebo Arm||||0.8
82648644|NCT03549130|165013039|SUPERIORITY|||||||0.4741||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in symptoms on waking in AM.||||0.4741
82648645|NCT03549130|165013039|SUPERIORITY|||||||0.5591||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in symptoms on waking in AM.||||0.5591
82648646|NCT03549130|165013039|SUPERIORITY|||||||0.8285||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on all of the items in practical problems.||||0.8285
82431748|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|18.8|||||TWO_SIDED|95.0|-8.3|43.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EA by baseline pathogen: Klebsiella pneumoniae||43.5|-8.3|
82431749|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|6.9|||||TWO_SIDED|95.0|-0.1|16.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Escherichia coli||16.5|-0.1|
82431750|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|5.1|||||TWO_SIDED|95.0|-3.9|15.1|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Escherichia coli||15.1|-3.9|
82431751|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-20.3|13.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Klebsiella pneumoniae||13.9|-20.3|
82431752|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|-8.3|||||TWO_SIDED|95.0|-36.0|12.6|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at EOT by baseline pathogen: Klebsiella pneumoniae||12.6|-36.0|
82648647|NCT03549130|165013039|SUPERIORITY|||||||0.3487||||||P-value are based on chi-square test|Chi-squared|||Treatment comparison of participants showing improvement based on NRQLQ on any of the items in practical problems.||||0.3487
82648648|NCT01078623|165013047|SUPERIORITY_OR_OTHER||Least squares mean difference|0.221|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.174|0.268|||Mixed Models Analysis|Treatment and period as fixed effects, subject as random effect, and baseline values at each period as a covariate||||0.268|0.174|<0.0001
82648649|NCT01078623|165013047|SUPERIORITY_OR_OTHER||Least squares mean difference|0.234|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.186|0.281|||Mixed Models Analysis|Treatment and period as fixed effects, subject as random effect, and baseline values at each period as a covariate||||0.281|0.186|<0.0001
82431753|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|25.2|||||TWO_SIDED|95.0|13.5|37.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Escherichia coli||37.5|13.5|
82431754|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|8.9|||||TWO_SIDED|95.0|-5.5|23.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Escherichia coli||23.3|-5.5|
82431755|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|21.9|||||TWO_SIDED|95.0|-3.4|48.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Klebsiella pneumoniae||48.5|-3.4|
82431756|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|29.2|||||TWO_SIDED|95.0|-4.4|56.0|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at TOC by baseline pathogen: Klebsiella pneumoniae||56.0|-4.4|
82431757|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|12.9|||||TWO_SIDED|95.0|0.3|25.9|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Escherichia coli||25.9|0.3|
82431758|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|4.6|||||TWO_SIDED|95.0|-10.1|19.3|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Escherichia coli||19.3|-10.1|
82431759|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|-6.3|||||TWO_SIDED|95.0|-30.4|22.6|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Klebsiella pneumoniae||22.6|-30.4|
82431760|NCT05887908|164572052|OTHER|Descriptive analysis|Difference in success proportion|0.0|||||TWO_SIDED|95.0|-34.0|31.5|||||Miettinen-Nurminen confidence interval|Microbiological outcome of eradication at FUP by baseline pathogen: Klebsiella pneumoniae||31.5|-34.0|
82648650|NCT02144259|165013066|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GEE|||Because the expected amount of postpartum weight loss in non-breastfeeding women is not documented in the literature, we chose a sample size that would enable us to detect a one standard deviation difference in weight loss between the 3 groups at the primary 6 month endpoint. We used generalized estimating equations (GEEs) to test differences among all 3 groups over all the study periods.||||<0.05
82648651|NCT02144259|165013068|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82431761|NCT05887908|164572053|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
82431762|NCT05887908|164572053|OTHER|Descriptive analysis|Difference in success proportion|28.9||||||95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
82431763|NCT05887908|164572054|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
82431764|NCT05887908|164572054|OTHER|Descriptive analysis|Difference in success proportion|28.9||||||95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
82431765|NCT05887908|164572055|OTHER|Desriptive analysis|Difference in success proportion|53.3|||||TWO_SIDED|95.0|12.8|78.1|||||Miettinen-Nurminen confidence interval|||78.1|12.8|
82431766|NCT05887908|164572055|OTHER|Descriptive analysis|Difference in success proportion|24.4|||||TWO_SIDED|95.0|-18.4|60.5|||||Miettinen-Nurminen confidence interval|||60.5|-18.4|
82431767|NCT05887908|164572056|OTHER|Descriptive analysis|Difference in success proportion|20.0|||||TWO_SIDED|95.0|-16.0|54.3|||||Miettinen-Nurminen confidence interval|||54.3|-16.0|
82452122|NCT04737278|164610598|OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||comparison of AST enzyme activity in blood on day 28 between Cunermuspir and Placebo||||0.62
82652225|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.236||||0.1656|TWO_SIDED|95.0|-0.57|0.098||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.098|-0.570|0.1656
82652226|NCT02637557|165019487|SUPERIORITY||LS Mean Difference|-0.385||||0.0254|TWO_SIDED|95.0|-0.722|-0.048||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.048|-0.722|0.0254
82431768|NCT05887908|164572056|OTHER|Descriptive analysis|Difference in success proportion|28.9|||||TWO_SIDED|95.0|-13.0|62.1|||||Miettinen-Nurminen confidence interval|||62.1|-13.0|
82431769|NCT02630693|164572057|OTHER|As stated in the protocol, the primary objective of this trial is to estimate the hazard ratio and the corresponding 90% confidence interval. Therefore, we do not conduct any statistical hypothesis test for progression free survival.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|90.0|0.66|1.3|||||Hazard ratio of Palbociclib100mg arm vs 125 mg arm|||1.30|0.66|
82431770|NCT02630693|164572060|OTHER|As stated in the protocol, the objective of this trial is to estimate the hazard ratio and the corresponding 90% confidence interval. Therefore, we do not conduct any statistical hypothesis test for overall survival.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|90.0|0.67|1.69|||||Hazard ratio for Palbociclib 100mg arm vs 125 mg arm|||1.69|0.67|
82431771|NCT04503551|164572120|SUPERIORITY||CMH Weighted Percentage Difference|71.1|||<|0.0001|TWO_SIDED|95.04|61.0|81.2|||Cochran-Mantel-Haenszel|Stratification was done by baseline ETDRS-DRSS level (47 vs.53) \& baseline intraretinal/subretinal fluid status on SD-OCT (present vs. absent).||||81.2|61.0|<0.0001
82431772|NCT04503551|164572121|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.3|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the Hazard ratio (HR).|0.3|0.1|< 0.0001
82431773|NCT04503551|164572122|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.1|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.1|0.1|< 0.0001
82431774|NCT04503551|164572123|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.3|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.3|0.1|<0.0001
82431775|NCT04503551|164572124|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.2|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.2|0.1|<0.0001
82431776|NCT04503551|164572125|SUPERIORITY||Percentage Difference|15.1||||0.0003|TWO_SIDED|95.04|8.3|21.9|||Fisher Exact|||||21.9|8.3|0.0003
82431777|NCT04503551|164572126|SUPERIORITY||Stratified Hazard Ratio|0.1|||<|0.0001|TWO_SIDED|95.04|0.1|0.2|||Stratified Log-Rank||||A stratified log-rank test was used for hypothesis testing comparing the PDS arm with the comparator arm. A Cox proportional hazards regression model (stratified) was used as a supportive analysis to estimate the HR.|0.2|0.1|<0.0001
82431778|NCT01272037|164572180|OTHER||Hazard Ratio (HR)|1.02||||0.35|TWO_SIDED|95.0|0.98|1.05|||Regression, Cox|A Cox model was used that included treatment arm, recurrence score, menopausal status, and the chemotherapy\*recurrence score interaction term.||This test describes the interaction of the treatment arm with the recurrence score in the analysis of invasive disease-free survival in the overall study population, to determine whether chemotherapy benefit depends on the recurrence score. If the interaction was statistically significant, the interaction term was planned to be included in the Cox model to evaluate the invasive disease-free survival outcome.||1.05|0.98|0.35
82431779|NCT01272037|164572180|OTHER||Hazard Ratio (HR)|1.71||||0.008|TWO_SIDED|95.0|1.15|2.54|||Regression, Cox|A Cox model was used that included treatment arm, recurrence score, menopausal status, and the chemotherapy\*menopausal status interaction term.||This test describes the interaction of the treatment arm with menopausal status (one of the study stratification factors) in the analysis of invasive disease-free survival in the overall study population, to determine whether chemotherapy benefit depends on menopausal status. If the interaction was statistically significant, separate analyses of IDFS were planned to be conducted by menopausal status.||2.54|1.15|0.008
82431780|NCT01272037|164572180|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.002|TWO_SIDED|95.0|0.43|0.83|||Regression, Cox||To compare the Chemo and Endocrine Therapy arm to the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only premenopausal participants.||0.83|0.43|0.002
82431781|NCT01272037|164572180|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.89|TWO_SIDED|95.0|0.82|1.26|||Regression, Cox||To compare the Chemo and Endocrine Therapy arm to the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only postmenopausal participants.||1.26|0.82|0.89
82431782|NCT01272037|164572187|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.009|TWO_SIDED|95.0|0.39|0.87|||Regression, Cox|||This analysis includes only premenopausal participants.|To compare DRFS between the Chemo and Endocrine Therapy arm and the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|0.87|0.39|0.009
82431783|NCT01272037|164572187|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7|TWO_SIDED|95.0|0.81|1.37|||Regression, Cox||To compare DRFS between the Chemo and Endocrine Therapy arm and the Endocrine Therapy Alone arm, a Cox model was used with adjustment for the continuous recurrence score.|This analysis includes only postmenopausal participants.||1.37|0.81|0.70
82431784|NCT04585269|164572188|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|-3.23|||<|0.001|TWO_SIDED|95.0|-4.93|-1.53|||Mixed Models Analysis|||||-1.53|-4.93|<0.001
82431785|NCT04585269|164572189|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|-2.43||||0.003|TWO_SIDED|95.0|-4.05|-0.81|||Mixed Models Analysis|||||-0.81|-4.05|0.003
82431786|NCT04585269|164572190|SUPERIORITY|Testing for a difference between arms|Mean Difference (Final Values)|3.4||||0.029|TWO_SIDED|95.0|0.34|6.45|||Mixed Models Analysis|||||6.45|0.34|0.029
82431787|NCT04271540|164572202|SUPERIORITY|||||||0.35|||||||Spearman's Rank Correlation|||||||0.35
82452123|NCT04737278|164610598|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||baseline to day 28 comparison||||0.24
82452124|NCT04737278|164610598|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||baseline to day 28 comparison of AST activity in Placebo group||||0.11
82431788|NCT04209387|164572437|OTHER|p \< .01||||||0.01||||||p adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||"Pair-wise comparison of changes in coherency from baseline (before therapy) to the end of therapy.~Pair-wise comparison of changes in coherency from end of therapy to 3-month follow-up"|ANOVA test of means|||0.01
82431789|NCT06875284|164572477|SUPERIORITY||Mean Difference (Net)|-9.01|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-11.06|-6.96|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-6.96|-11.06|<0.0001
82431790|NCT06875284|164572477|SUPERIORITY||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|1.05||0.041|TWO_SIDED|95.0|-4.22|-0.09|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.09|-4.22|0.041
82431791|NCT06875284|164572477|SUPERIORITY||Mean Difference (Net)|-8.51|STANDARD_ERROR_OF_MEAN|1.15|<|0.0001|TWO_SIDED|95.0|-10.76|-6.25|||Mixed Models Analysis||Covariates included cohort and history of peer victimization.||The SCC plus eCHECKUP TO GO arm was the reference group.|-6.25|-10.76|<0.0001
82431792|NCT06875284|164572478|SUPERIORITY||Mean Difference (Net)|-1.18|STANDARD_ERROR_OF_MEAN|0.56||0.035|TWO_SIDED|95.0|-2.27|-0.08|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.08|-2.27|0.035
82431793|NCT06875284|164572478|SUPERIORITY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.56||0.54|TWO_SIDED|95.0|-1.44|0.76|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.76|-1.44|0.54
82431794|NCT06875284|164572478|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.023|TWO_SIDED|95.0|-2.6|-0.19|||Mixed Models Analysis|||||-0.19|-2.60|0.023
82577376|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.147||0.5139|TWO_SIDED|95.0|-0.39|0.19|||MMRM|||Hypochondriasis, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.39|0.5139
82431795|NCT06875284|164572479|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-3.98|-1.34|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-1.34|-3.98|<0.0001
82431796|NCT06875284|164572479|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_ERROR_OF_MEAN|0.69||0.012|TWO_SIDED|95.0|-3.09|-0.39|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.39|-3.09|0.012
82431797|NCT06875284|164572479|SUPERIORITY||Median Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|0.73||0.0008|TWO_SIDED|95.0|-3.88|-1.03|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-1.03|-3.88|0.0008
82431798|NCT06875284|164572480|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.26||0.058|TWO_SIDED|95.0|-0.02|1.02|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||1.02|-0.02|0.058
82431799|NCT06875284|164572480|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.046|TWO_SIDED|95.0|-1.07|-0.01|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.01|-1.07|0.046
82431800|NCT06875284|164572480|SUPERIORITY||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.29||0.097|TWO_SIDED|95.0|-1.06|0.09|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.09|-1.06|0.097
82431801|NCT06875284|164572481|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.64|TWO_SIDED|95.0|-0.16|0.26|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.26|-0.16|0.64
82431802|NCT06875284|164572481|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.11||0.25|TWO_SIDED|95.0|-0.09|0.33|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||0.33|-0.09|0.25
82431803|NCT06875284|164572481|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.033|TWO_SIDED|95.0|-0.47|-0.02|||Mixed Models Analysis||The SCC plus eCHECKUP TO GO arm was the reference group.|||-0.02|-0.47|0.033
82431804|NCT06631274|164572484|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.056||||0.646|TWO_SIDED|95.0|-0.296|0.184|||ANOVA|one-way repeated measures ANOVA was conducted for personal adjustment|Hedges' g=-0.14. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is personal adjustment||0.184|-0.296|0.646
82431805|NCT06631274|164572484|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.188||||0.196|TWO_SIDED|95.0|-0.096|0.473|||ANOVA|one-way repeated measures ANOVA was conducted for internalizing problems|Hedges' g=0.40. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is internalizing problems||0.473|-0.096|0.196
82431806|NCT06631274|164572485|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.326|||<|0.01|TWO_SIDED|95.0|0.112|0.539|||ANOVA|one-way repeated ANOVA was conducted|Hedges' g=0.92. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.539|0.112|<0.01
82452125|NCT04737278|164610599|OTHER|||||||0.11||||||Comparison of GGT activities in blood of two arms: Cunermuspir and Placebo on Day 28|Wilcoxon (Mann-Whitney)|||comparison between placebo and Cunermuspir at day 28||||0.11
82452126|NCT04737278|164610599|OTHER|||||||0.01|||||||Wilcoxon Signed Rank|||Comparison of GGT activities in participants' blood at baseline and on day 28||||0.01
82452127|NCT04737278|164610599|OTHER|||||||0.97|||||||Wilcoxon Signed-Rank|||Comparison of GGT activity in blood between Placebo Arm participants at baseline and on day 28||||0.97
82648652|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 1.|GMC ratio for anti-1|6.17|||||TWO_SIDED|95.0|5.03|7.58|||ANOVA|||To demonstrate the immunological memory induced for anti-pneumococcal serotype 1 following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||7.58|5.03|
82431807|NCT06631274|164572486|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.681||||0.11|TWO_SIDED|95.0|-0.187|1.549|||ANOVA|one-way repeated measures ANOVA was conducted.|Hedges' g=0.51. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||1.549|-0.187|0.11
82431808|NCT06631274|164572487|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.078||||0.599|TWO_SIDED|95.0|-0.212|0.367|||ANOVA|one-way repeated measures ANOVA was conducted for avoidance coping|Hedges' g=0.16. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is avoidance coping||0.367|-0.212|0.599
82431809|NCT06631274|164572487|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.316||||0.044|TWO_SIDED|95.0|0.152|0.617|||ANOVA|one-way repeated measures ANOVA was conducted for approach coping|Hedges' g=0.63. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|The outcome measure is approach coping||0.617|0.152|0.044
82431810|NCT06631274|164572488|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|1.024|||<|0.01|TWO_SIDED|95.0|0.284|1.764|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=0.85. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||1.764|0.284|<.01
82431811|NCT06631274|164572489|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.589||||0.0498|TWO_SIDED|95.0|-1.178|-0.0005|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=-0.61. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||-0.0005|-1.178|0.0498
82431812|NCT06631274|164572490|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|0.261||||0.182|TWO_SIDED|95.0|-0.127|0.65|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=0.41. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.650|-0.127|0.182
82431813|NCT06631274|164572491|EQUIVALENCE|A one-way repeated measures ANOVA was conducted to examine the impact of intervention, in which participation in the intervention (treatment vs. control) was used as the between-subject factor and time points (time 1 and time 2) was used as the within-subject factor. The interaction between group and time was the focus and was reported.|Mean Difference (Final Values)|-0.03||||0.927|TWO_SIDED|95.0|-0.612|0.551|||ANOVA|one-way repeated measures ANOVA was conducted|Hedges' g=-0.04. The mean difference between the two time points (change) was computed as time2 minus time1. Hedges' g was the standardized mean difference between change in the treatment group and change in the control group.|||0.551|-0.612|0.927
82452128|NCT04737278|164610600|OTHER|||||||0.03|||||||ANCOVA|||Between group comparisons were made using ANCOVA||||0.03
82652227|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.093||||0.3788|TWO_SIDED|95.0|-0.114|0.3||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.300|-0.114|0.3788
82452129|NCT04737278|164610600|OTHER|||||||0.1|||||||t-test, 2 sided|||comparison of baseline with day 28||||0.10
82452130|NCT04737278|164610600|OTHER|||||||0.89|||||||t-test, 2 sided|||comparison between baseline and day 28 serum copper concentrations in the Placebo Arm||||0.89
82452131|NCT01128244|164610604|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|||||Threshold for significance P\<0.05|t-test, 2 sided|Paired t-test||||||0.20
82452132|NCT01128244|164610605|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||0.62
82452133|NCT01128244|164610606|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||<0.001
82452134|NCT01128244|164610607|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|||||Threshold for significance, P\<0.05|t-test, 2 sided|Paired t-test||||||0.45
82431814|NCT03896750|164572492|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-last). Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.83|||||TWO_SIDED|90.0|0.54|1.26|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%.||1.26|0.54|
82431815|NCT03896750|164572492|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-last). Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.87|||||TWO_SIDED|90.0|0.67|1.14|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-last) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.14|0.67|
82431816|NCT03896750|164572493|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-infinity). Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.87|||||TWO_SIDED|90.0|0.54|1.39|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.39|0.54|
82431817|NCT03896750|164572493|EQUIVALENCE|Equivalence analysis by 90% confidence interval. If the interval encompasses 1 there is no clinically meaningful difference in pretomanid AUC(0-infinity). Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%|Mean Ratio|0.95|||||TWO_SIDED|90.0|0.71|1.28|||Regression, Linear|Adjusted for site||No formal hypothesis testing was conducted. Assuming a 20% coefficient of variation for the AUC(0-infinity) of both groups, the probability of observing at least a 50% increase in the geometric mean ratio of AUCs given a true 100% increase is \>99%. The probability of the lower bound of the 90% CI for the geometric mean ratio of AUCs being at least 1.5 in this scenario is approximately 70%||1.28|0.71|
82431818|NCT00620373|164572529|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||Significant difference p ≤ 0.05||||.016
82431819|NCT00620373|164572529|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||McNemar|||significant difference p ≤ 0.05||||.07
82431820|NCT00620373|164572530|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||McNemar|||For all cancers; significant difference p ≤ 0.05||||.016
82577377|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.144||0.4073|TWO_SIDED|95.0|-0.4|0.17|||MMRM|||Hypochondriasis, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.40|0.4073
82431821|NCT00620373|164572530|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||McNemar|||For all cancers; significant difference p ≤ 0.05||||.07
82431822|NCT00620373|164572530|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||McNemar|||For invasive cancers; significant difference p ≤ 0.05||||.063
82431823|NCT00620373|164572530|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||McNemar|||For invasive cancers; significant difference p ≤ 0.05||||.063
82431824|NCT00620373|164572530|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||McNemar|||For ductal carcinoma in situ; significant difference p ≤ 0.05||||.5
82431825|NCT00620373|164572530|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||McNemar|||For ductal carcinoma in situ; significant difference p ≤ 0.05||||>.99
82431826|NCT00620373|164572532|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||significant difference p ≤ 0.05||||<.001
82431827|NCT00620373|164572532|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||McNemar|||significant difference p ≤ 0.05||||.069
82431828|NCT00620373|164572533|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||significant difference p ≤ 0.05||||<.001
82431829|NCT00620373|164572533|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||McNemar|||significant difference p ≤ 0.05||||.218
82431830|NCT01061723|164572535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.966|TWO_SIDED|95.0|0.4|2.5||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||Sarilumab group was compared to placebo group. Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived.||2.5|0.4|0.966
82431831|NCT01061723|164572535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.467|TWO_SIDED|95.0|0.6|3.5||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||3.5|0.6|0.467
82431832|NCT01061723|164572535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.559|TWO_SIDED|95.0|0.3|1.9||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||1.9|0.3|0.559
82431833|NCT01061723|164572535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.496|TWO_SIDED|95.0|0.6|3.4||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||3.4|0.6|0.496
82431834|NCT01061723|164572535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.143|TWO_SIDED|95.0|0.8|4.2||Threshold for significance = 0.05|Cochran-Mantel-Haenszel|||||4.2|0.8|0.143
82648653|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled SynflorixI+II Group over Synflorix Group) was higher than 1 for pneumococcal serotype 4.|GMC ratio for anti-4|2.86|||||TWO_SIDED|95.0|2.38|3.45|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 4 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||3.45|2.38|
82431835|NCT00293813|164572547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||||95.0|2.6|5.7|||ANCOVA|||||5.7|2.6|
82431836|NCT00293813|164572547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||||95.0|-0.6|2.6|||ANCOVA|||||2.6|-.6|
82431837|NCT02956746|164572549|OTHER|||||||0.4187||||||threshold for significance p-values \< 0.05|ANOVA|||||||0.4187
82431838|NCT00460655|164572558|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.428||||0.006||95.0|-5.841|-1.016|||t-test, 2 sided|||||-1.016|-5.841|0.006
82648654|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 5.|GMC ratio for anti-5|13.47|||||TWO_SIDED|95.0|10.96|16.55|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 5 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||16.55|10.96|
82431839|NCT00910910|164572571|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.323|TWO_SIDED|90.0|0.88|1.66|||stratified log rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|Stratification factors: Disease stage (Binet A or Binet B or Rai I or Rai II versus (VS) Binet C or Rai III or Rai IV); Presence of at least one of the co-morbidities Asparate transaminase (AST)/Alanine transaminase (ALT) ≥ 3.0 times Upper Limits of Normal (ULN,) Creatinine clearance ≥ 30 to \< 60 mL/min, Yes VS No); Presence of at least one 11q deletion, 17p deletion, unmutated Immunoglobulin Heavy-chain Variable-region (IgVH) or Beta-2 Microglobulin (ß2M )\> 4.0 mg/L (Yes versus No VS Unknown)||1.66|0.88|0.323
82577378|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4649|TWO_SIDED|95.0|-0.38|0.17|||MMRM|||Hypochondriasis, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.38|0.4649
82431840|NCT00910910|164572572|SUPERIORITY||Cox Proportional Hazard|0.99||||0.967|TWO_SIDED|90.0|0.76|1.29||The p-value is based on a stratified log-rank test|Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|Stratification factors: Disease stage (Binet A or Binet B or Rai I or Rai II versus (VS) Binet C or Rai III or Rai IV); Presence of at least one of the co-morbidities Asparate transaminase (AST)/Alanine transaminase (ALT) ≥ 3.0 times Upper Limits of Normal (ULN,) Creatinine clearance ≥ 30 to \< 60 mL/min, Yes VS No); Presence of at least one 11q deletion, 17p deletion, unmutated Immunoglobulin Heavy-chain Variable-region (IgVH) or Beta-2 Microglobulin (ß2M )\> 4.0 mg/L (Yes versus No VS Unknown)||1.29|0.76|0.967
82431841|NCT00910910|164572575|SUPERIORITY||Odds Ratio (OR)|0.65||||0.032|TWO_SIDED|95.0|0.44|0.96|||Fisher Exact|||||0.96|0.44|0.032
82431842|NCT00910910|164572576|SUPERIORITY||Odds Ratio (OR)|0.66||||0.047|TWO_SIDED|95.0|0.45|0.98|||Fisher Exact|||||0.98|0.45|0.047
82431843|NCT00910910|164572577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.826|TWO_SIDED|90.0|0.58|1.52|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.52|0.58|0.826
82431844|NCT00910910|164572578|SUPERIORITY||Cox Proportional Hazard|0.71||||0.149|TWO_SIDED|90.0|0.48|1.05|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.05|0.48|0.149
82431845|NCT00910910|164572581|SUPERIORITY||Cox Proportional Hazard|1.03||||0.883|TWO_SIDED|90.0|0.73|1.46|||Log Rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups.|||1.46|0.73|0.883
82431846|NCT00910910|164572582|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.06||||0.709|TWO_SIDED|90.0|0.83|1.34|||stratified log rank||Based on stratified Cox proportional hazards model comparing the hazard functions associated with treatment groups|||1.34|0.83|0.709
82431847|NCT01194219|164572601|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|27.8|||<|0.0001|TWO_SIDED|95.0|23.1|32.5|||Chi-squared|||||32.5|23.1|<0.0001
82431848|NCT01194219|164572602|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||<|0.0001|TWO_SIDED|95.0|13.7|21.9|||Chi-squared|||||21.9|13.7|<0.0001
82431849|NCT01194219|164572603|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-40.78|||<|0.0001|TWO_SIDED|95.0|-46.34|-35.21|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-35.21|-46.34|<0.0001
82431850|NCT01194219|164572604|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-35.3|||<|0.0001|TWO_SIDED|95.0|-39.9|-30.6|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||-30.6|-39.9|<0.0001
82431851|NCT01194219|164572605|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|41.7|||<|0.0001|TWO_SIDED|95.0|35.7|47.7|||Chi-squared|||||47.7|35.7|<0.0001
82431852|NCT01194219|164572606|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-24.2|||<|0.0001|TWO_SIDED|95.0|-28.7|-19.8|||ANOVA|Based on an analysis of variance model for the change from baseline at Week 16, with treatment group as a factor (an ANOVA model).||||-19.8|-28.7|<0.0001
82431853|NCT01194219|164572607|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.4|-3.6|||ANOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor, the baseline value, and the treatment by baseline interaction term as covariates.|||-3.6|-5.4|<0.0001
82431854|NCT01194219|164572608|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.08|||<|0.0001|TWO_SIDED|95.0|1.81|4.35|||ANCOVA|The model included treatment group as a factor and the baseline value as a covariate. The estimation and p-value were adjusted by the covariate.||||4.35|1.81|<0.0001
82431855|NCT01194219|164572609|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.7|||<|0.0001|TWO_SIDED|95.0|12.8|20.7|||Chi-squared|||||20.7|12.8|<0.0001
82431856|NCT01194219|164572610|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.649|||<|0.0001|TWO_SIDED|95.0|1.768|3.969|||Log Rank|||||3.969|1.768|<0.0001
82431857|NCT01081951|164572615|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0012|TWO_SIDED|95.0|0.34|0.77||The use of a one-sided 10% significance level test will be used to assess the statistical significance of the analyses of PFS.|Log Rank|Stratified by number of prior platinum treatment lines (1 or \>1) and time to progression following previous platinum therapy (\>6 to ≤12 vs \>12 months)|A hazard ratio of \< 1 favours olaparib.|The null hypothesis for all efficacy analyses in this study is that there is no difference in treatment effects between olaparib in combination with carboplatin/paclitaxel compared with carboplatin/paclitaxel alone.||0.77|0.34|0.0012
82431858|NCT01081951|164572616|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.4379|TWO_SIDED|95.0|0.79|1.73||Two sided|Log Rank|Stratified by number of prior platinum treatment lines (1 or \>1) and time to progression following previous platinum therapy (\>6 to ≤12 vs \>12 months)|A hazard ratio \< 1 favours favours olaparib.|The null hypothesis for all efficacy analyses in this study is that there is no difference in treatment effects between olaparib in combination with carboplatin/paclitaxel compared with carboplatin/paclitaxel alone.||1.73|0.79|0.4379
82431859|NCT03726658|164572627|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.|Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|2.24||0.98|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Since this was a phase 1 study no power calculation was performed.||||0.98
82652228|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.189||||0.0761|TWO_SIDED|95.0|-0.02|0.397||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.397|-0.020|0.0761
82431860|NCT03726658|164572627|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.|Median Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.25||0.25|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose). Since this was a phase 1 study no power calculation was performed.||||0.25
82431861|NCT03726658|164572627|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|2.26||0.93|TWO_SIDED|||||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 2 (Day 1 post initial dose).||||0.93
82431862|NCT03726658|164572628|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group|Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|2.02||0.43|TWO_SIDED|||||a priori threshold for statistical significance was \<0.05|Mixed Models Analysis|||Chane from baseline in treated group compared to change from baseline in placebo group. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
82431863|NCT03726658|164572628|EQUIVALENCE|Change from baseline in treated group compared to change in baseline in placebo group|Median Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|2.02||0.84|TWO_SIDED|||||The a priori threshold for statistical significance was P \<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change in placebo group. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.84
82431864|NCT03726658|164572629|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 9|Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|2.65||0.69|TWO_SIDED|||||A priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.69
82431865|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 9|Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.66||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.44
82452135|NCT01128244|164610608|SUPERIORITY_OR_OTHER||Test of treatment effect.|0.05|||<|0.05|TWO_SIDED|||||Data were analyzed by paired t-test adjusted for multiple testing by Sidak methods.|t-test, 2 sided|||Data were analyzed by paired t-test adjusted for multiple testing by Sidak methods.||||<0.05
82490088|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported emotional function in the placebo and glutamine groups.||||0.99
82490089|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported social function in the placebo and glutamine groups.||||0.30
82490090|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between baseline patient reported school function in the placebo and glutamine groups.||||0.24
82648655|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 6B.|GMC ratio for anti-6B|28.81|||||TWO_SIDED|95.0|22.54|36.81|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 6B induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||36.81|22.54|
82648656|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 7F.|GMC ratio for anti-7F|4.75|||||TWO_SIDED|95.0|3.9|5.78|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 7F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||5.78|3.9|
82648657|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 9V.|GMC ratio for anti-9V|14.1|||||TWO_SIDED|95.0|11.21|17.75|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 9V induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||17.75|11.21|
82452136|NCT01449006|164610618|SUPERIORITY_OR_OTHER|||||||0.05||||||This pilot study was conducted to generate effect sizes for a potential larger investigation. The study design and small sample size had limited power to detect a statistically significant effect at p\<0.05, so no p-value threshold was strictly set.|Mixed Models Analysis|41 data points included (control n=14; maraviroc: n=27); n=1 control did not attend 12-month visit.||The primary outcome was analysed using a mixed-effect regression model with arm and time as fixed linear effects, arm\*time interaction as a non-linear fixed effect and participant as a random effect to account for participant attrition.||||0.05
82431866|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 9|Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|2.66||0.43|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 9. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
82431867|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15|Median Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|2.65||0.55|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculaton was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.55
82431868|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15.|Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.66||0.44|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.44
82431869|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 15|Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|2.69||0.56|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 15. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.56
82431870|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|2.74||0.8|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05.|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.80
82452137|NCT01449006|164610618|SUPERIORITY_OR_OTHER||Cohen's d|0.77|||||TWO_SIDED|90.0|-0.19|1.71|||||Positive value reflects improved neurocognitive functioning in maraviroc arm compared to control arm.|Clinical relevance of the effect size observed at 6-months was assessed by generating Cohen's d statistic and 90% confidence interval (CI) around the estimate.||1.71|-0.19|
82652229|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.021||||0.8415|TWO_SIDED|95.0|-0.232|0.189||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.189|-0.232|0.8415
82431871|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Median Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|2.74||0.45|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.45
82452138|NCT01449006|164610618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|90.0|-0.47|1.55|||||Positive value reflects improved neurocognitive functioning in maraviroc arm compared to control arm.|Clinical relevance of the effect size observed at 12-months was assessed by generating Cohen's d statistic and 90%CI around the estimate.||1.55|-0.47|
82452139|NCT01449006|164610619|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||Change in CSF neopterin levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.82
82452140|NCT01449006|164610620|SUPERIORITY_OR_OTHER|||||||0.49|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.49
82452141|NCT01449006|164610620|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.94
82452142|NCT01449006|164610620|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.80
82452143|NCT01449006|164610620|SUPERIORITY_OR_OTHER|||||||0.72|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.72
82452144|NCT01449006|164610621|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.95
82452145|NCT01449006|164610621|SUPERIORITY_OR_OTHER|||||||0.66|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.66
82452146|NCT01449006|164610621|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.56
82452147|NCT01449006|164610621|SUPERIORITY_OR_OTHER|||||||0.29|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.29
82452148|NCT01449006|164610621|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANOVA|||Change in Glx/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.95
82452149|NCT03526146|164610622|SUPERIORITY|||||||0.002|||||||paired t-test|||||||0.002
82452150|NCT03526146|164610623|SUPERIORITY|||||||0.047|||||||paired t-test|||||||0.047
82577379|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.141||0.6926|TWO_SIDED|95.0|-0.34|0.22|||MMRM|||Hypochondriasis, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.34|0.6926
82577380|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.137||0.726|TWO_SIDED|95.0|-0.22|0.32|||MMRM|||Hypochondriasis, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.32|-0.22|0.7260
82577381|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.136||0.1486|TWO_SIDED|95.0|-0.47|0.07|||MMRM|||Hypochondriasis, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.47|0.1486
82652230|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.052||||0.6719|TWO_SIDED|95.0|-0.19|0.294||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.294|-0.190|0.6719
82452151|NCT03526146|164610624|SUPERIORITY|||||||0.006|||||||paired t-test|||||||0.006
82452152|NCT03526146|164610625|SUPERIORITY|||||||0.05|||||||paired t-test|||||||0.05
82452153|NCT03526146|164610626|SUPERIORITY|||||||0.009|||||||paired t-test|||||||0.009
82452154|NCT02588261|164610627|SUPERIORITY||Hazard Ratio (HR)|1.611||||0.992|TWO_SIDED|95.0|1.086|2.391|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.391|1.086|0.992
82452155|NCT02588261|164610629|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using stratified Cochran-Mantel-Haenszel (CMH) test, stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025.||||1.000
82452156|NCT02588261|164610630|SUPERIORITY||Hazard Ratio (HR)|1.674||||0.998|TWO_SIDED|95.0|1.165|2.406|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.406|1.165|0.998
82452157|NCT02588261|164610631|SUPERIORITY|||||||0.839|||||||Cochran-Mantel-Haenszel|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using stratified Cochran-Mantel-Haenszel (CMH) test, stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025.||||0.839
82490091|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported physical function in the placebo and glutamine groups.||||0.50
82490092|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported emotional function in the placebo and glutamine groups.||||0.45
82652231|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.007||||0.9549|TWO_SIDED|95.0|-0.237|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.251|-0.237|0.9549
82490093|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported social function in the placebo and glutamine groups.||||0.46
82490094|NCT00131508|164673016|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change between 12 month patient reported school function in the placebo and glutamine groups.||||0.84
82490095|NCT00131508|164673017|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.20
82490096|NCT00131508|164673017|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.81
82490097|NCT00131508|164673017|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||We tested the null hypothesis that the median difference in height Z-Score betweeen baseline and 12 months differs between the Glutamine and Placebo groups.||||0.70
82490098|NCT00131508|164673018|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.69
82490099|NCT00131508|164673018|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in height percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.75
82490100|NCT00131508|164673018|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||We test the null hypothesis that the median difference in height percentile between baseline and 12 months differs between the Glutamine and Placebo groups.||||0.93
82490101|NCT00131508|164673019|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in weight percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||0.56
82490102|NCT00131508|164673019|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon Signed Rank Test|||We tested the null hypothesis that the median difference in weight percentile between baseline and 12 months is equal to zero versus the alternative hypothesis that the difference is not zero.||||1.0
82490103|NCT00131508|164673019|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Wilcoxon (Mann-Whitney)|||We test the null hypothesis that the median difference in weight percentile between baseline and 12 months differs between the Glutamine and Placebo groups.||||0.61
82490104|NCT00131508|164673020|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in pulse rate between the placebo and glutamine groups.||||0.83
82490105|NCT00131508|164673021|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Wilcoxon (Mann-Whitney)|||We tested for a significant difference in the median change in hand grip between the placebo and glutamine groups.||||0.40
82490106|NCT00850070|164673033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.35|||||||Chi-squared||Estimated value comparison was active treatment minus placebo.|Chi-square analyses were used to assess CGI-I scores. There were no transformations.||||<.35
82490107|NCT00850070|164673034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.06|||||||Chi-squared|||||||<0.06
82490108|NCT00850070|164673040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.05|||||||Mixed Models Analysis|||||||0.05
82490109|NCT03758443|164673043|SUPERIORITY||Least Square Mean Difference|-0.27||||0.5809|TWO_SIDED|95.0|-1.22|0.69|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.69|-1.22|0.5809
82490110|NCT03758443|164673043|SUPERIORITY||Least Square Mean Difference|-0.37||||0.4501|TWO_SIDED|95.0|-1.33|0.59|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.59|-1.33|0.4501
82490111|NCT03758443|164673043|SUPERIORITY||Least Square Mean Difference|-0.65||||0.1809|TWO_SIDED|95.0|-1.6|0.3|||ANCOVA|||Least square estimates, 95% CI, and p-values were obtained by fitting an ANCOVA model with terms for treatment, steroid use at baseline (yes, no) and prior biologic failure (yes, no), and baseline total Mayo score as covariate.||0.30|-1.60|0.1809
82490112|NCT03758443|164673044|SUPERIORITY|||||||0.3762|||||||Fisher Exact|||||||0.3762
82490113|NCT03758443|164673044|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490114|NCT03758443|164673044|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490115|NCT03758443|164673045|SUPERIORITY||Difference in Proportion|0.0||||0.9542|TWO_SIDED|95.0|-0.104|0.11||P-value is shown for Cochran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.110|-0.104|0.9542
82490116|NCT03758443|164673045|SUPERIORITY||Difference in Proportion|-0.03||||0.5863|TWO_SIDED|95.0|-0.126|0.071||P-value is shown for Cochran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.071|-0.126|0.5863
82490117|NCT03758443|164673045|SUPERIORITY||Difference in Proportion|-0.03||||0.5408|TWO_SIDED|95.0|-0.131|0.069||P-value is shown for Conhran-Mantel Haenszel tests stratified by prior biologic failure and steroid use at baseline.|Cochran-Mantel-Haenszel||Difference in proportion estimates used Mantel-Haenszel stratum weights.|||0.069|-0.131|0.5408
82490118|NCT03758443|164673046|SUPERIORITY|||||||0.6656|||||||Fisher Exact|||||||0.6656
82490119|NCT03758443|164673046|SUPERIORITY|||||||0.6424|||||||Fisher Exact|||||||0.6424
82490120|NCT03758443|164673046|SUPERIORITY|||||||0.6199|||||||Fisher Exact|||||||0.6199
82452158|NCT02588261|164610632|SUPERIORITY||Hazard Ratio (HR)|1.298||||0.78|TWO_SIDED|95.0|0.661|2.548|||Log Rank|||Comparison between ASP8273 and Erlotinib or Gefitinib treatment groups was performed using log-rank test stratified by ECOG (0 and 1 vs 2), EGFR mutation type (exon 19 deletion or exon 21 L858R) and TKI chosen by the site (erlotinib or gefitinib) before randomization. Comparison was tested at 1-sided significance level of 0.025. Hazard ratio based on Cox proportional hazards model. Assuming proportional hazards, HR \< 1 indicated a reduction in hazard rate in favor of ASP8273 treatment group.||2.548|0.661|0.780
82452159|NCT01979952|164610660|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.176|STANDARD_ERROR_OF_MEAN|6.237|||TWO_SIDED|95.0|-9.227|15.579|||ANCOVA|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline HRCT QLF score as covariate||15.579|-9.227|
82452160|NCT01979952|164610661|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.519|STANDARD_ERROR_OF_MEAN|6.3829|||TWO_SIDED|95.0|-10.258|15.296|||ANCOVA|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated||Analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline HRCT QLF score as covariate||15.296|-10.258|
82452161|NCT01979952|164610662|SUPERIORITY_OR_OTHER||Adjusted mean difference|69.0|STANDARD_ERROR_OF_MEAN|39.182|||TWO_SIDED|95.0|-8.74|146.75|||Mixed Models Analysis|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||Mixed Model for Repeated Measures (MMRM) model with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix.||146.75|-8.74|
82452162|NCT01979952|164610663|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.36|||||TWO_SIDED|95.0|-0.29|5.0|||Mixed Models Analysis|As per the Clinical Trial Protocol, this is an exploratory trial hence p-values were not calculated.||MMRM model with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient. Within-patient errors are modelled by unstructured covariance matrix.||5.00|-0.29|
82452163|NCT01979952|164610665|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.05|STANDARD_ERROR_OF_MEAN|2.434|||TWO_SIDED|95.0|-4.89|4.79|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||4.79|-4.89|
82577382|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.133||0.48|TWO_SIDED|95.0|-0.36|0.17|||MMRM|||Hypochondriasis, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.36|0.4800
82648658|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 14.|GMC ratio for anti-14|22.92|||||TWO_SIDED|95.0|17.51|30.0|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 14 induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||30|17.51|
82452164|NCT01979952|164610666|SUPERIORITY_OR_OTHER||Adjusted mean difference|17.94|STANDARD_ERROR_OF_MEAN|16.19|||TWO_SIDED|95.0|-14.21|50.09|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||50.09|-14.21|
82452165|NCT01979952|164610667|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.89|||||TWO_SIDED|95.0|-1.47|11.25|||Mixed Models Analysis|||MMRM model included treatment, visit, baseline value, treatment-by-visit and baseline-by-visit as fixed effects and patient as random effect. Unstructured covariance was assumed for within patient variation||11.25|-1.47|
82452166|NCT01702246|164610702|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||Wilcoxon matched pairs signed rank test|Wilcoxon (Mann-Whitney)|||||||0.005
82452167|NCT01702246|164610703|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82452168|NCT01702246|164610704|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82490121|NCT03758443|164673047|SUPERIORITY|||||||0.2643|||||||Fisher Exact|||||||0.2643
82490122|NCT03758443|164673047|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490123|NCT03758443|164673047|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490124|NCT03758443|164673048|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490125|NCT03758443|164673048|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490126|NCT03758443|164673048|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82490127|NCT00696800|164673086|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Treatment groups were formally compared with a generalized linear model for the ongoing pregnancy rate which included factors for treatment group, age at randomization, and region. A pre-defined non-inferiority margin of 8% was applied.|Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-3.8|5.9||||||||5.9|-3.8|
82490128|NCT00696800|164673087|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margins of -3 and +5 were applied for the difference in number of oocytes. If the 95% confidence interval of the difference exceeded -3 or +5 oocytes, then Corifollitropin Alfa treatment was not considered equivalent to the reference treatment (recFSH).|Mean Difference (Final Values)|1.2||||0.001|TWO_SIDED|95.0|0.5|1.9||Treatment groups were formally compared including covariates treatment group, age and center.|ANOVA|||||1.9|0.5|0.001
82490129|NCT05224141|164673120|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.9762|TWO_SIDED|95.0|1.0|1.59|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, LDH, liver metastasis, and brain metastasis.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||1.59|1.00|0.9762
82537260|NCT00991276|164773825|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.74|STANDARD_ERROR_OF_MEAN|4.41|<|0.0001|TWO_SIDED|95.0|-33.46|-16.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-16.02|-33.46|<0.0001
82537261|NCT00991276|164773825|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|4.38||0.8622|TWO_SIDED|95.0|-7.9|9.43||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||9.43|-7.90|0.8622
82537262|NCT00991276|164773826|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.87||0.08|TWO_SIDED|95.0|-7.0|0.4||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.40|-7.00|0.0800
82577383|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.177||0.7792|TWO_SIDED|95.0|-0.4|0.3|||MMRM|||Hypochondriasis, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.30|-0.40|0.7792
82431872|NCT03726658|164572629|EQUIVALENCE|Change in MADRS score in treated groups compared to placebo group on Day 22.|Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|2.77||0.67|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change in MADRS score in treated groups compared to placebo group on Day 22. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.67
82431873|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 11|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|2.36||0.43|TWO_SIDED|||||a priori threshold for statistical significance was p\>0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 11. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.43
82431874|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 11|Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.38||0.59|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 11. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.59
82431875|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 14|Mean Difference (Final Values)|-2.3|STANDARD_ERROR_OF_MEAN|2.44||0.35|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 14, Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.35
82431876|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 14|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.48||0.82|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 14. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.82
82490130|NCT05224141|164673121|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5316|TWO_SIDED|95.0|0.82|1.23|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG performance status, LDH, liver metastasis, and brain metastasis.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||1.23|0.82|0.5316
82652232|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.096||||0.4408|TWO_SIDED|95.0|-0.342|0.149||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.149|-0.342|0.4408
82431877|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 18|Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|2.62||0.61|TWO_SIDED||||||Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 18. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.61
82431878|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 18|Median Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.69||0.47|TWO_SIDED|||||The a priori threshold for statistical significance was P\<0.05|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 18. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.47
82648659|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 18C.|GMC ratio for anti-18C|10.01|||||TWO_SIDED|95.0|7.95|12.61|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 18C induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||12.61|7.95|
82452169|NCT01635855|164610712|SUPERIORITY_OR_OTHER||One-sided binomial|8.5|||<|0.025|TWO_SIDED|95.0|3.5|13.6||Ho (null): Ps \>= 22% versus Ha (alternate): Ps \< 22% where Ps is the proportion of subjects with common severe adverse events in the post-approval study. Ho is rejected if upper limit of the 95% CI of Ps \< 22% and the one-sided p-value \<= 0.025.|One sided binomial distribution|The upper limit of the 95% two-sided CI for a proportion is equivalent to the 97.5% one-sided CI for that proportion for normal approximations.||The analysis was performed by comparing the proportion of subjects with severe common adverse events in the post-market study to that occurred in the pre-market studies. It was pre-specified in the protocol that the proportion of subjects with severe common adverse events in the pre-market studies was 22%.||13.6|3.5|< 0.025
82452170|NCT02708355|164610721|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.028||||0.0442|TWO_SIDED|95.0|1.001|1.055|||Regression, Logistic|||Association between percentage of time with intragastric pH\>4 and relief of 24 -hour heartburn was assessed using logistic regression model with relief of 24- hour heartburn at Day 14 as dependent variable and change in percentage of time with intragastric pH\>4 as the independent variable, controlling for age, sex, and body mass index (BMI).||1.055|1.001|0.0442
82452171|NCT01320202|164610722|SUPERIORITY_OR_OTHER||Difference in LS Means between SFP & PBO|3.6|STANDARD_ERROR_OF_MEAN|1.4||0.011|TWO_SIDED|||||LS Mean (SE) and p-value are from ANCOVA model with baseline Hgb as covariate. Model also includes indicator variable for baseline ESA dose stratum.|ANCOVA|||||||0.011
82490131|NCT05224141|164673122|SUPERIORITY||Percent Difference|-3.1|||||TWO_SIDED|95.0|-11.1|4.9|||||Based on Miettinen \& Nurminen method stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).|Statistical analyses stratified by ECOG performance status (0 vs. 1), LDH (≤ULN vs. \>ULN), liver metastasis (Yes or No), and brain metastasis (Yes or No).||4.9|-11.1|
82648660|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 19F.|GMC ratio for anti-19F|9.25|||||TWO_SIDED|95.0|7.29|11.74|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 19F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||11.74|7.29|
82648661|NCT00950833|165013085|NON_INFERIORITY|The immune memory would be demonstrated if the lower limit (LL) of the 95% confidence interval (CI) around the geometric mean concentration (GMC) ratios (Pooled Synflorix I+II Group over Synflorix III Group) was higher than 1 for pneumococcal serotype 23F.|GMC ratio for anti-23F|36.52|||||TWO_SIDED|95.0|27.59|48.34|||ANOVA|||To demonstrate the immunological memory for anti-pneumococcal serotype 23F induced following primary vaccination in study 107017 (NCT00370318) and booster vaccination in study 107137 (NCT00496015) with the Synflorix™ vaccine, through evaluation of early antibody responses after an additional dose of Synflorix™ vaccine at 40-48 months of age, compared to the Synflorix III Group.||48.34|27.59|
82648662|NCT01170364|165013116|SUPERIORITY||||||<|0.004|||||||paired sample t-test, two tailed|||||||<0.004
82431879|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|2.48||0.76|TWO_SIDED||||||Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 21. Since this was a phase 1 study, no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.76
82431880|NCT03726658|164572630|EQUIVALENCE|Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Median Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|2.51||0.99|TWO_SIDED|||||Change from baseline in treated group compared to change from baseline in placebo group on Day 21|Mixed Models Analysis|||Change from baseline in treated group compared to change from baseline in placebo group on Day 21. Since this was a phase 1 study no power calculation was performed. Statistical tests were 2-sided hypothesis tests performed at the 5% level of significance.||||0.99
82431881|NCT00412958|164572631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.796|TWO_SIDED|95.0|0.24|6.36|||Regression, Logistic|||P-values are from Wald chi-square tests from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||6.36|0.24|0.796
82490132|NCT01479127|164673154|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||Paired t-test|||"TRS I OFF state"||||0.058
82648663|NCT03726437|165013138|SUPERIORITY|Analyses were performed to determine whether RealConsent was superior to Stress and Mood Management in reducing incidence of sexual violence victimization.|Risk Ratio (RR)|0.48||||0.0002|TWO_SIDED|95.0|0.33|0.69|||Mixed Models Analysis|Models adjusted for fixed effects.||||.69|.33|.0002
82431882|NCT00412958|164572631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.447|TWO_SIDED|95.0|0.39|8.36|||Regression, Logistic|||P-values are from Wald chi-square test from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||8.36|0.39|0.447
82431883|NCT00412958|164572631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28||||0.107|TWO_SIDED|95.0|0.77|13.95|||Regression, Logistic|||P-values are from Wald chi-square test from a logistic regression model with study center and treatment as categorical fixed effects comparing active treatment groups with the placebo group as the reference group.||13.95|0.77|0.107
82431884|NCT05696444|164572637|SUPERIORITY|Test was calculated using an exact test against a null value of 0.85.|||||<|0.0001|||||||Exact test|||||||<0.0001
82431885|NCT05696444|164572638|SUPERIORITY|Test was calculated using an exact test against a null value of 0.2||||||0.0006||||||Holm adjusted at alpha = 0.025|Exact test|||||||0.0006
82648664|NCT03726437|165013138|SUPERIORITY||Odds Ratio (OR)|0.77||||0.31|TWO_SIDED|95.0|0.47|1.28|||Mixed Models Analysis|Models adjusted for fixed effects.||||1.28|.47|.31
82648665|NCT03726437|165013139|SUPERIORITY||Adjusted OR|1.17||||0.03|TWO_SIDED|95.0|0.12|1.22|||Mixed Models Analysis|Model adjusted for fixed effects.||||1.22|0.12|.03
82431886|NCT05696444|164572638|SUPERIORITY|||||||0.0025||||||Holm adjusted at alpha = 0.025|Exact test|||Test was calculated using an exact test against a null value of 0.45||||0.0025
82431887|NCT05696444|164572638|SUPERIORITY|||||||0.0001||||||Holm adjusted at alpha = 0.025|Exact test|||Test was calculated using an exact test against a null value of 0.2||||0.0001
82431888|NCT00802997|164572675|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||||||0.035
82431889|NCT03046927|164572768|EQUIVALENCE|p values were obtained using generalized linear model with GEE for repeated measures.|Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED||||||generalized linear model with dependent||Trend analysis was performed using generalized linear model with GEE for repeated measures.|||||<0.001
82431890|NCT03046927|164572769|OTHER||trend analysis|0.04|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p=0.05|generalized linear model|p values were obtained using generalized linear model with GEE for repeated measures.|Trend analysis was performed using generalized linear model with GEE for repeated measures.|||||<0.01
82648666|NCT03726437|165013140|SUPERIORITY||Adjusted OR|-0.5|||<|0.05|TWO_SIDED|95.0|-1.27|0.27|||Mixed Models Analysis|Model adjusted for fixed effects.||||0.27|-1.27|<.05
82648667|NCT03726437|165013141|SUPERIORITY||Incidence rate ratio|0.81||||0.02|TWO_SIDED|95.0|0.67|0.97|||Mixed Models Analysis|Model adjusted for fixed effects.||||.97|.67|.02
82431891|NCT03046927|164572770|OTHER|p values were derived from trend analysis using generalized linear models|Mean Difference (Net)|0.507||||0.0241|TWO_SIDED|95.0|0.066|0.947||The p-value was derived from a statistical model adjusted for age, sex, and BMI|General linear models|||||0.947|0.066|0.0241
82431892|NCT03046927|164572771|OTHER|p values were obtained from a generalized linear model with repeated measures|Mean Difference (Net)|10.37||||0.23|TWO_SIDED|95.0|-6.4|27.13||The p-value was derived from a statistical model adjusted for age, sex, and BMI|Regression, Linear|||||27.13|-6.40|0.23
82431893|NCT03046927|164572772|OTHER||trend analysis|0.02|||<|0.001|TWO_SIDED||||||generalized linear model|p values were obtained using generalized linear model with GEE for repeated measures.|||Trend analysis was obtained using generalized linear model GEE.|||<0.001
82431894|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior frontal gyrus||||<0.05
82431895|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Desire to void: L superior temporal gyrus||||<0.05
82431896|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior temporal gyrus||||<0.05
82431897|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle temporal gyrus||||<0.05
82431898|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R middle temporal gyrus||||<0.05
82431899|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior parietal lobule||||<0.05
82431900|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R inferior parietal lobule||||<0.05
82490133|NCT01479127|164673154|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Paired t-test|||"TRS I Dyskinesia state"||||1.000
82431901|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R paracentral lobule||||<0.05
82431902|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R superior parietal lobule||||<0.05
82431903|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R supplementary motor area||||<0.05
82431904|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L postcentral gyrus||||<0.05
82431905|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R postcentral gyrus||||<0.05
82431906|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L angular gyrus||||<0.05
82431907|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R supramarginal gyrus||||<0.05
82431908|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L superior medial gyrus||||<0.05
82431909|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L inferior occipital gyrus||||<0.05
82431910|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle cingulate cortex||||<0.05
82431911|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R middle cingulate cortex||||<0.05
82431912|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R posterior cingulate cortex||||<0.05
82431913|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L thalamus||||<0.05
82431914|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R thalamus||||<0.05
82431915|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L precuneus||||<0.05
82431916|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R precuneus||||<0.05
82431917|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L caudate nucleus||||<0.05
82431918|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire void: L hippocampus||||<0.05
82490134|NCT01479127|164673154|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||Paired t-test|||"TRS II Normal state"||||0.153
82490135|NCT01479127|164673154|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Paired t-test|||"TRS II OFF state"||||0.140
82490136|NCT01479127|164673154|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Paired t-test|||"TRS II Dyskinesia state"||||0.374
82648668|NCT03726437|165013142|SUPERIORITY||Incidence rate ratio|1.05||||0.43|TWO_SIDED|95.0|0.92|1.2|||Mixed Models Analysis|Model adjusted for fixed effects.||||1.20|.92|.43
82648669|NCT03726437|165013143|SUPERIORITY||Adjusted OR|1.72||||0.006|TWO_SIDED|95.0|1.17|2.55|||Mixed Models Analysis|Model adjusted for fixed effects.||||2.55|1.17|.006
82648670|NCT01205529|165013147|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED||||||Regression, Logistic||0 participants with rare SCN5A non-synonymous variants met the primary outcome for ST-segment elevation.||Given the very small number of outcomes (N=4) and the small number of participants with the primary determinant (N=2), a Fisher's Exact Test is the appropriate test and it yields a P-value=1.000.|||1.0
82652233|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.004||||0.9736|TWO_SIDED|95.0|-0.262|0.253||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.253|-0.262|0.9736
82431919|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L hippocampus||||<0.05
82431920|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L putamen||||<0.05
82431921|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L precentral gyrus||||<0.05
82490137|NCT01479127|164673155|SUPERIORITY_OR_OTHER|||||||0.574|TWO_SIDED||||||Paired t-test|||||||0.574
82431922|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R precentral gyrus||||<0.05
82431923|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L insula lobe||||<0.05
82431924|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L superior frontal gyrus||||<0.05
82431925|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: L middle frontal gyrus||||<0.05
82431926|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R cerebellum||||<0.05
82431927|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Strong desire to void: R fusiform gyrus||||<0.05
82431928|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L postcentral gyrus||||<0.05
82431929|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R postcentral gyrus||||<0.05
82431930|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L precentral gyrus||||<0.05
82431931|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R precentral gyrus||||<0.05
82431932|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior temporal gyrus||||<0.05
82490138|NCT01479127|164673155|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED||||||Paired t-test|||ON time w/o D + time with NTD||||0.661
82490139|NCT01479127|164673155|SUPERIORITY_OR_OTHER|||||||0.574|TWO_SIDED||||||Paired t-test|||ON time w/o D + time with NTD + time w/ TD||||0.574
82490140|NCT01479127|164673156|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon one-sample test|||Rapid alternating movement of hands||||0.500
82490141|NCT01479127|164673156|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||Arising from chair||||1.000
82490142|NCT01479127|164673156|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon one-sample test|||Postural stability||||0.250
82490143|NCT01479127|164673156|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon one-sample test|||Body bradykinesia and hypokinesia||||0.500
82490144|NCT01479127|164673156|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Wilcoxon one-sample test|||Dyskinesia||||0.250
82490145|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Paired t-test|||Total score||||0.870
82490146|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Paired t-test|||Part I||||0.374
82490147|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Paired t-test|||Part II||||0.799
82490148|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.493|TWO_SIDED||||||Paired t-test|||Part II (Off-time)||||0.493
82490149|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Paired t-test|||Part III||||0.530
82490150|NCT01479127|164673157|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||Paired t-test|||Part IV sub-score of dyskinesia||||0.108
82490151|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.636|TWO_SIDED||||||Paired t-test|||Total score||||0.636
82490152|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.329|TWO_SIDED||||||Paired t-test|||Domain: Mobility||||0.329
82490153|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.902|TWO_SIDED||||||Paired t-test|||Domain: Activities of daily living||||0.902
82490154|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Paired t-test|||Domain: Emotional well-being||||0.220
82490155|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Paired t-test|||Domain: Stigma||||0.799
82490156|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.178|TWO_SIDED||||||Paired t-test|||Domain: Social support||||0.178
82490157|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.456|TWO_SIDED||||||Paired t-test|||Domain: Cognition||||0.456
82490158|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.866|TWO_SIDED||||||Paired t-test|||Domain: Communication||||0.866
82490159|NCT01479127|164673158|SUPERIORITY_OR_OTHER|||||||0.576|TWO_SIDED||||||Paired t-test|||Domain: Bodily discomfort||||0.576
82490160|NCT01479127|164673159|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||"On state staging"||||1.000
82490161|NCT01479127|164673159|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon one-sample test|||"Off state staging"||||1.000
82490162|NCT01479127|164673160|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||Wilcoxon one-sample test|||||||0.125
82490163|NCT01479127|164673165|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||Paired t-test|||||||0.074
82490164|NCT02390908|164673173|SUPERIORITY||Beta|0.22||||0.39|TWO_SIDED|95.0|-0.28|0.72||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.72|-0.28|0.39
82490165|NCT02390908|164673173|SUPERIORITY||Beta|-0.03||||0.94|TWO_SIDED|95.0|-0.84|0.79||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.79|-0.84|0.94
82490166|NCT02390908|164673173|SUPERIORITY||Beta|0.02||||0.95|TWO_SIDED|95.0|-0.69|0.74||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 3 on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.74|-0.69|0.95
82537263|NCT00991276|164773826|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|1.86||0.2209|TWO_SIDED|95.0|-5.95|1.39||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.39|-5.95|0.2209
82431933|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior temporal gyrus||||<0.05
82431934|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle temporal gyrus||||<0.05
82431935|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle temporal gyrus||||<0.05
82431936|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior temporal gyrus||||<0.05
82431937|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L supramarginal gyrus||||<0.05
82431938|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R supramarginal gyrus||||<0.05
82431939|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding Initiation: L inferior occipital gyrus||||<0.05
82431940|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior occipital gyrus||||<0.05
82431941|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding Initiation: R middle occipital gyrus||||<0.05
82431942|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Orbitalis)||||<0.05
82537264|NCT00991276|164773826|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|1.84||0.5815|TWO_SIDED|95.0|-4.66|2.63||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.63|-4.66|0.5815
82537265|NCT00991276|164773827|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.72|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|95.0|22.02|43.42||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||43.42|22.02|<0.0001
82537266|NCT00991276|164773827|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|25.86|STANDARD_ERROR_OF_MEAN|5.37|<|0.0001|TWO_SIDED|95.0|15.22|36.49||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||36.49|15.22|<0.0001
82537267|NCT00991276|164773827|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.86|STANDARD_ERROR_OF_MEAN|5.33||0.2005|TWO_SIDED|95.0|-3.69|17.42||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||17.42|-3.69|0.2005
82648671|NCT03840135|165013148|SUPERIORITY||Mean Difference (Final Values)|-0.22|||<|0.05|TWO_SIDED|95.0|-0.6|0.16|||t-test, 2 sided|||The value of δ = -0.52 days was considered as the boundary of superiority. The end of the fever period is considered to have an axillary body temperature of ≤36.9 ° C in two consecutive measurements (morning-evening / evening-morning).||0.16|-0.6|<0.05
82431943|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Triangularis)||||<0.05
82431944|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L inferior frontal gyrus (p. Opercularis)||||<0.05
82431945|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior frontal gyrus (p. Orbitalis)||||<0.05
82431946|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior frontal gyrus (p. Triangularis)||||<0.05
82431947|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L cerebellum||||<0.05
82431948|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L rectal gyrus||||<0.05
82431949|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R rectal gyrus||||<0.05
82431950|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior medial gyrus||||<0.05
82431951|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior medial gyrus||||<0.05
82431952|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior frontal gyrus||||<0.05
82431953|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior frontal gyrus||||<0.05
82431954|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle frontal gyrus||||<0.05
82431955|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle frontal gyrus||||<0.05
82431956|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L supplementary motor area (SMA)||||<0.05
82431957|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R SMA||||<0.05
82431958|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L paracentral lobule||||<0.05
82431959|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R paracentral lobule||||<0.05
82648672|NCT03840135|165013149|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
82648673|NCT03840135|165013150|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
82537268|NCT00991276|164773828|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|4.57|9.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||9.02|4.57|<0.0001
82537269|NCT00991276|164773828|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.24|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|3.02|7.45||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||7.45|3.02|<0.0001
82537270|NCT00991276|164773828|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.56|STANDARD_ERROR_OF_MEAN|1.11||0.1622|TWO_SIDED|95.0|-0.64|3.75||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.75|-0.64|0.1622
82537271|NCT00991276|164773835|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.18|-0.47||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.47|-1.18|<0.0001
82537272|NCT00991276|164773835|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.31|-0.6||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.60|-1.31|<0.0001
82648674|NCT03840135|165013151|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
82648675|NCT03840135|165013152|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82648676|NCT03840135|165013153|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
82648677|NCT03840135|165013154|SUPERIORITY||||||<|0.05|||||||χ2 Pearson criterion|||||||<0.05
82648678|NCT03840135|165013157|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82648679|NCT03840135|165013158|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82431960|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R superior parietal lobule||||<0.05
82431961|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R inferior parietal lobule||||<0.05
82431962|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L superior orbital gyrus||||<0.05
82431963|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle orbital gyrus||||<0.05
82431964|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle orbital gyrus||||<0.05
82431965|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R calcarine gyrus||||<0.05
82431966|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L calcarine gyrus||||<0.05
82431967|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L anterior cingulate cortex||||<0.05
82431968|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L middle cingulate cortex||||<0.05
82431969|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R middle cingulate cortex||||<0.05
82431970|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R angular gyrus||||<0.05
82431971|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L thalamus||||<0.05
82431972|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R thalamus||||<0.05
82431973|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L precuneus||||<0.05
82431974|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R precuneus||||<0.05
82431975|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R caudate nucleus||||<0.05
82431976|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L putamen||||<0.05
82431977|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L amygdala||||<0.05
82431978|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R insula lobe||||<0.05
82431979|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L rolandic operculum||||<0.05
82431980|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: L hippocampus||||<0.05
82431981|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R hippocampus||||<0.05
82431982|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R fusiform gyrus||||<0.05
82431983|NCT03574610|164572797|OTHER||||||<|0.05|||||||Student's t-test|||Voiding initiation: R rolandic operculum||||<0.05
82431984|NCT03574610|164572798|OTHER|||||||0.45||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Voided volume - baseline vs post-treatment||||0.45
82431985|NCT03574610|164572798|OTHER|||||||0.39||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Voided volume - baseline vs 4 month follow-up||||0.39
82431986|NCT03574610|164572798|OTHER|||||||0.014||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||PVR - baseline vs post-treatment||||0.014
82431987|NCT03574610|164572798|OTHER|||||||0.66||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||PVR - baseline vs 4 month follow-up||||0.66
82452172|NCT04090242|164610737|OTHER||Mean Difference (Final Values)|-0.16||||0.392|TWO_SIDED|95.0|-0.53|0.21||The p value is for the comparison between interventional and control group on change of DES score between baseline and end of study.|Mixed Models Analysis|||With assumptions made in statistical analysis plan, a sample size of 43 subjects per arm had \>80% power to detect a significant difference between the two arms (based on a 2-sided t-test, 95% CI for DES difference between groups). Adding a 10% buffer, planned enrollment was 96 subjects. However, enrollment ended early with about 25 subjects in each arm (56 subjects total). Thus, power decreased to 56%. The study was not sufficiently powered under these conditions.||0.21|-0.53|0.392
82452173|NCT01898013|164610779|SUPERIORITY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.25||0.02|TWO_SIDED|||||a priori threshold set at 0.05|Mixed Models Analysis|||||||0.02
82452174|NCT01898013|164610780|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.14||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
82537273|NCT00991276|164773835|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.4677|TWO_SIDED|95.0|-0.22|0.48||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.48|-0.22|0.4677
82537274|NCT00991276|164773836|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.32|STANDARD_ERROR_OF_MEAN|5.31|<|0.0001|TWO_SIDED|95.0|-35.83|-14.8||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-14.80|-35.83|<0.0001
82537275|NCT00991276|164773836|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.45|STANDARD_ERROR_OF_MEAN|5.27|<|0.0001|TWO_SIDED|95.0|-38.89|-18.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-18.02|-38.89|<0.0001
82537276|NCT00991276|164773836|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.14|STANDARD_ERROR_OF_MEAN|5.19||0.5461|TWO_SIDED|95.0|-7.13|13.4||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||13.40|-7.13|0.5461
82652234|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.146||||0.2703|TWO_SIDED|95.0|-0.405|0.114||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.114|-0.405|0.2703
82431988|NCT03574610|164572798|OTHER|||||||0.31||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Bladder capacity - baseline vs post-treatment||||0.31
82431989|NCT03574610|164572798|OTHER|||||||0.001||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Bladder capacity - baseline vs 4 month follow-up||||0.001
82431990|NCT03574610|164572799|OTHER|||||||0.004||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||% PVR/BC - baseline vs post-treatment||||0.004
82431991|NCT03574610|164572799|OTHER|||||||0.038||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||%PVR/BC - baseline vs 4 month follow-up||||0.038
82431992|NCT03574610|164572800|OTHER|||||||0.19||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Qmax - baseline vs post-treatment||||0.19
82431993|NCT03574610|164572800|OTHER|||||||0.91||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Max - baseline vs 4 month follow-up||||0.91
82431994|NCT03574610|164572801|OTHER|||||||0.13||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||Liverpool nomogram percentile - baseline vs post-treatment||||0.13
82431995|NCT03574610|164572801|OTHER|||||||0.26||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||Liverpool nomogram percentile - baseline vs 4 month follow-up||||0.26
82452175|NCT01898013|164610781|SUPERIORITY||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|0.12||0.79|TWO_SIDED||||||Mixed Models Analysis|||||||0.79
82452176|NCT01898013|164610782|SUPERIORITY||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||0.23
82452177|NCT01898013|164610783|SUPERIORITY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.13||0.63|TWO_SIDED||||||Mixed Models Analysis|||||||0.63
82452178|NCT01898013|164610784|SUPERIORITY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|0.13||0.62|TWO_SIDED||||||Mixed Models Analysis|||||||0.62
82452179|NCT00429169|164610832|SUPERIORITY_OR_OTHER||regression coefficient|-0.29||||0.03|TWO_SIDED|95.0|-0.57|-0.023||The p-value applies to the interaction term of Treatment X Baseline Suicidal Ideation severity.|Mixed Models Analysis|||Generalized least squares model of Scale for Suicidal Ideation score during 8-week acute treatment of major depressive disorder.||-0.023|-0.57|0.03
82452180|NCT02815644|164610853|SUPERIORITY_OR_OTHER||T/R ratio|55.69|STANDARD_ERROR_OF_MEAN|1.087|||TWO_SIDED|90.0|48.22|64.33|||||Standard Error of the mean is actually geometric Standard Error of the mean.|"Relative bioavailability of linagliptin after food intake compared to while in the fasting state was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||64.33|48.22|
82452181|NCT02815644|164610854|SUPERIORITY_OR_OTHER||T/R ratio|74.89|STANDARD_ERROR_OF_MEAN|1.073|||TWO_SIDED|90.0|66.27|84.64|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||84.64|66.27|
82452182|NCT02815644|164610855|SUPERIORITY_OR_OTHER||T/R ratio|82.19|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|78.38|86.18|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||86.18|78.38|
82452183|NCT02815644|164610856|SUPERIORITY_OR_OTHER||T/R ratio|85.99|STANDARD_ERROR_OF_MEAN|1.018|||TWO_SIDED|90.0|83.38|88.68|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||88.68|83.38|
82452184|NCT02815644|164610857|SUPERIORITY_OR_OTHER||T/R ratio|88.13|STANDARD_ERROR_OF_MEAN|1.051|||TWO_SIDED|90.0|80.89|96.03|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||96.03|80.89|
82452185|NCT02815644|164610858|SUPERIORITY_OR_OTHER||T/R ratio|86.33|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|90.0|83.61|89.13|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of empagliflozin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||89.13|83.61|
82452186|NCT02815644|164610859|SUPERIORITY_OR_OTHER||T/R Ratio|82.19|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|78.38|86.18|||||Standard Error of the mean is actually geometric Standard Error of the mean|"Relative bioavailability of linagliptin was assessed using an ANOVA on the basis of the log transformed PK parameters. This model for the evaluation of effect of food on bioavailability included the effects: sequence, subjects within sequences, period, and treatment (i.e., feeding status). The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed."||86.18|78.38|
82452187|NCT02508428|164610872|EQUIVALENCE|Differences in survivorship among the Marathon and Enduron liners were evaluated with a Log Rank test.|||||<|0.001||||||A p-value of 0.05 was used as the threshold for statistical significance.|Log Rank|||Survivorship was evaluated using liner revision for wear/osteolysis as an endpoint using a Kaplan-Meier analysis.||||<0.001
82537277|NCT00991276|164773837|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.04|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|0.63|1.45||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.45|0.63|<0.0001
82537278|NCT00991276|164773837|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.65|1.46||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.46|0.65|<0.0001
82537279|NCT00991276|164773837|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9403|TWO_SIDED|95.0|-0.42|0.39||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.39|-0.42|0.9403
82537280|NCT00991276|164773838|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.58|STANDARD_ERROR_OF_MEAN|3.26||0.0215|TWO_SIDED|95.0|-14.03|-1.14||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.14|-14.03|0.0215
82537281|NCT00991276|164773838|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.23||0.5569|TWO_SIDED|95.0|-4.49|8.29||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.29|-4.49|0.5569
82431996|NCT03574610|164572802|OTHER|||||||0.4||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||UDI-6 Q1 - baseline vs post-treatment||||0.40
82431997|NCT03574610|164572802|OTHER|||||||0.086||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 Q1 - baseline vs 4 month follow-up||||0.086
82431998|NCT03574610|164572802|OTHER|||||||0.54||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test.||UDI-6 Q2 - baseline vs post-treatment||||0.54
82431999|NCT03574610|164572802|OTHER|||||||0.19||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 Q2 - baseline vs 4 month follow-up||||0.19
82432000|NCT03574610|164572802|OTHER|||||||0.04||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||UDI-6 Q5 - baseline vs post-treatment||||0.04
82452188|NCT02508428|164610873|EQUIVALENCE|"Since the null hypothesis assumed that the wear rates were not different, Equivalence has been specified for the Type of Statistical Test"|Mean Difference (Net)|0.22|||<|0.001|TWO_SIDED|95.0|0.17|0.27||A p-value of 0.05 was used as the threshold for statistical significance.|t-test, 2 sided|||||0.27|0.17|<0.001
82432001|NCT03574610|164572802|OTHER|||||||0.026||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||UDI-6 5 - baseline vs 4 month follow-up||||0.026
82432002|NCT03574610|164572803|OTHER|||||||0.044||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q3 - baseline vs post-treatment||||0.044
82432003|NCT03574610|164572803|OTHER|||||||0.017||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q3 - baseline vs 4 month follow-up||||0.017
82432004|NCT03574610|164572803|OTHER|||||||0.54||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q5 - baseline vs post-treatment||||0.54
82432005|NCT03574610|164572803|OTHER|||||||0.503||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q5 - baseline vs 4 month follow-up||||0.503
82432006|NCT03574610|164572803|OTHER|||||||0.023||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q7 - baseline vs post-treatment||||0.023
82432007|NCT03574610|164572803|OTHER|||||||0.049||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q7 - baseline vs 4 month follow-up||||0.049
82432008|NCT03574610|164572803|OTHER|||||||0.089||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||AUASS Q8 - baseline vs post-treatment||||0.089
82432009|NCT03574610|164572803|OTHER|||||||0.161||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||AUASS Q8 - baseline vs 4 month follow-up||||0.161
82432010|NCT03574610|164572804|OTHER|||||||0.01||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Incontinence) - baseline vs post-treatment||||0.010
82432011|NCT03574610|164572804|OTHER|||||||0.41||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Incontinence) - baseline vs 4 month follow-up||||0.41
82432012|NCT03574610|164572804|OTHER|||||||0.32||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Storage and Voiding) - baseline vs post-treatment||||0.32
82432013|NCT03574610|164572804|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Storage and Voiding) - baseline vs 4 month follow-up||||0.02
82432014|NCT03574610|164572804|OTHER|||||||0.34||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test||NBSS (Consequences) - baseline vs post-treatment||||0.34
82432015|NCT03574610|164572804|OTHER|||||||0.61||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (Consequences) - baseline vs 4 month follow-up||||0.61
82432016|NCT03574610|164572804|OTHER|||||||0.02||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (QoL) - baseline vs post-treatment||||0.02
82432017|NCT03574610|164572804|OTHER|||||||0.07||||||Threshold for statistical significance used P-value \<0.05|t-test, 2 sided|Paired t-test. (Only used the 8 participants that had data for baseline and 4 month follow-up for statistical calculations)||NBSS (QoL) - baseline vs 4 month follow-up||||0.07
82432018|NCT01848977|164572805|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Unpaired t-test was used to compare the difference between SrO2 and StO2.||||<0.05
82537282|NCT00991276|164773838|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-9.48|STANDARD_ERROR_OF_MEAN|3.2||0.0036|TWO_SIDED|95.0|-15.81|-3.16||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-3.16|-15.81|0.0036
82537283|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|1.8||0.6947|TWO_SIDED|95.0|-2.85|4.27||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.27|-2.85|0.6947
82537284|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|1.79||0.398|TWO_SIDED|95.0|-5.06|2.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.02|-5.06|0.3980
82537285|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.23|STANDARD_ERROR_OF_MEAN|1.78||0.2144|TWO_SIDED|95.0|-1.3|5.76||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Awaken Short of Breath/with Headache: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||5.76|-1.30|0.2144
82537286|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|14.17|STANDARD_ERROR_OF_MEAN|4.0||0.0006|TWO_SIDED|95.0|6.25|22.08||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||22.08|6.25|0.0006
82537287|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|11.07|STANDARD_ERROR_OF_MEAN|3.97||0.0061|TWO_SIDED|95.0|3.22|18.92||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||18.92|3.22|0.0061
82537288|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.95||0.4342|TWO_SIDED|95.0|-4.72|10.93||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Adequacy: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||10.93|-4.72|0.4342
82652235|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.351||||0.0087|TWO_SIDED|95.0|-0.612|-0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.089|-0.612|0.0087
82432019|NCT01032954|164572808|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||P-value threshold for significance: \<0.05|GLM= GENERAL LINEAR MODELS WITH REPEATED|||||||<0.05
82432020|NCT01032954|164572809|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||P-value threshold for significance: \<0.05|GLM|||||||<0.05
82432021|NCT01530178|164572866|OTHER|Non-specified|Mean Difference (Final Values)|-27.91||||0.003|TWO_SIDED|95.0|-44.7|-11.2|||ANOVA|||||-11.2|-44.7|0.003
82432022|NCT01530178|164572866|OTHER|Non-specified|Mean Difference (Final Values)|-2.131||||0.68|TWO_SIDED|95.0|-12.91|8.652|||ANOVA|||||8.652|-12.91|0.68
82432023|NCT01530178|164572866|OTHER||Mean Difference (Final Values)|-25.78||||0.0005|TWO_SIDED|95.0|-38.39|-13.17|||ANOVA|||||-13.17|-38.39|0.0005
82432024|NCT01693250|164572870|SUPERIORITY||Mean Difference (Final Values)|1.68|STANDARD_DEVIATION|0.5|<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||This is a feasibility and pilot study. We acknowledge that our sample size will not have adequate power to detect any statistically significant outcomes. We chose a sample size that would be large enough to assess feasibility and effect size and to accommodate recruitment within the study time and budget of this application. We hope to be able to estimate the effect size of the intervention.||||<.001
82432025|NCT01693250|164572871|SUPERIORITY||Mean Difference (Final Values)|2.66||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis|||We hypothesized the intervention group will have significant reduction of systematic blood pressure compared to the control group at 6 month follow up.||||.001
82432026|NCT02709512|164572872|SUPERIORITY|Relative Risk Ratio (ADIPemPlatinum/PlaceboPemPlatinum) is the common relative risk of having a response (CR or PR) based on the Mantel-Haenszel estimator controlling for tumor histology. A relative risk ratio greater than one is favorable to ADIPemPlatinum.|Risk Ratio (RR)|1.02||||0.9489|TWO_SIDED|95.0|0.5|2.11|||Cochran-Mantel-Haenszel|||||2.11|0.50|0.9489
82537289|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.43|STANDARD_ERROR_OF_MEAN|2.07||0.242|TWO_SIDED|95.0|-6.53|1.66||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.66|-6.53|0.2420
82537290|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|2.05||0.981|TWO_SIDED|95.0|-4.12|4.02||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||4.02|-4.12|0.9810
82537291|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|2.05||0.2468|TWO_SIDED|95.0|-6.44|1.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Somnolence: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.67|-6.44|0.2468
82648680|NCT01827371|165013167|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|1.32|||||TWO_SIDED|98.33|0.72|1.93||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm B)) ≥ 1 or GMT(Arm A)/GMT (Arm B) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm B)) \< 1 or GMT(Arm A)/GMT(Arm B) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.93|0.72|
82648681|NCT01827371|165013167|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.86|||||TWO_SIDED|98.33|0.26|1.47||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm C)) ≥ 1 or GMT(Arm A)/GMT (Arm C) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm C)) \< 1 or GMT(Arm A)/GMT(Arm C) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.47|0.26|
82648682|NCT01827371|165013167|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.41|||||TWO_SIDED|98.33|-0.17|1.0007||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm D)) ≥ 1 or GMT(Arm A)/GMT (Arm D) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm D)) \< 1 or GMT(Arm A)/GMT(Arm D) \< 2.~Sample Size: The SD for log2 PRNT based on a prior study was\~1.9. The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used. Power=80%"||1.0007|-0.17|
82432027|NCT02709512|164572873|SUPERIORITY||Cox Proportional Hazard|0.64||||0.0078|TWO_SIDED|95.0|0.47|0.88|||Log Rank|||||0.88|0.47|0.0078
82432028|NCT02709512|164572874|SUPERIORITY||Cox Proportional Hazard|0.71||||0.0234|TWO_SIDED|95.0|0.55|0.93|||Log Rank|||||0.93|0.55|0.0234
82432029|NCT02709512|164572875|SUPERIORITY||Cox Proportional Hazard|0.65||||0.0193|TWO_SIDED|95.0|0.46|0.9|||Log Rank|||||0.90|0.46|0.0193
82432030|NCT02297815|164572879|SUPERIORITY_OR_OTHER||Score difference|-1.4||||0.008|TWO_SIDED|95.0|-2.44|-0.36|||Weighted linear regression|Propensity-score based full matching performed. Average treatment effect weights calculated and applied to a weighted linear regression.|Narrow antibiotics is the reference group. A score difference less than zero indicates that broad spectrum antibiotics are associated with a lower (poorer) health related quality of life score.|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted linear regression.||-0.36|-2.44|0.008
82432031|NCT02297815|164572880|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.4||||0.39|TWO_SIDED|95.0|-3.1|7.9|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||7.9|-3.1|0.39
82452189|NCT02508428|164610874|EQUIVALENCE|"Since the null hypothesis assumed that the incidences of clinically important osteolysis were not different, Equivalence has been specified for the Type of Statistical Test"|Risk Ratio (RR)|0.04|||<|0.001|TWO_SIDED|95.0|0.006|0.3||A p-value of 0.05 was used as the threshold for statistical significance.|Fisher Exact|||||0.30|0.006|<0.001
82452190|NCT02508428|164610875|EQUIVALENCE|"Since the null hypothesis assumed that the rate of satisfaction among the groups were not different, Equivalence has been specified for the Type of Statistical Test"||||||0.48||||||A p-value of 0.05 was used as the threshold for statistical significance.|Fisher Exact|||Since there were no patients with Marathon liners who were unsatisfied with the outcome of their hip replacement, a relative risk and the associated confidence interval could not be calculated.||||0.48
82452191|NCT02508428|164610876|EQUIVALENCE|"Since the null hypothesis assumed that the Harris Hip Scores among the groups were not different, Equivalence has been specified for the Type of Statistical Test"||||||0.4||||||A p-value of 0.05 was used as the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||.40
82537292|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|0.32||0.1496|TWO_SIDED|95.0|-0.17|1.09||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.09|-0.17|0.1496
82537293|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.31||0.8184|TWO_SIDED|95.0|-0.69|0.55||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.55|-0.69|0.8184
82537294|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.31||0.0918|TWO_SIDED|95.0|-0.09|1.15||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Quantity: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.15|-0.09|0.0918
82537295|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-9.89|STANDARD_ERROR_OF_MEAN|2.48||0.0001|TWO_SIDED|95.0|-14.8|-4.99||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-4.99|-14.80|0.0001
82537296|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.54|STANDARD_ERROR_OF_MEAN|2.46||0.0089|TWO_SIDED|95.0|-11.42|-1.67||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-1.67|-11.42|0.0089
82648683|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||0.4782|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Pain at Injection Site ' Arm A) = Pr('Pain at Injection Site ' Arm D) H1: Pr('Pain at Injection Site ' Arm A) not = Pr('Pain at Injection Site ' Arm D)"||||0.4782
82537297|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.35|STANDARD_ERROR_OF_MEAN|2.45||0.1746|TWO_SIDED|95.0|-8.21|1.51||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||6-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.51|-8.21|0.1746
82537298|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.14|STANDARD_ERROR_OF_MEAN|2.44|<|0.0001|TWO_SIDED|95.0|-14.96|-5.32||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-5.32|-14.96|<0.0001
82537299|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.13|STANDARD_ERROR_OF_MEAN|2.42||0.0359|TWO_SIDED|95.0|-9.91|-0.34||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.34|-9.91|0.0359
82648684|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||0.1704|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Itchiness at Injection Site' Arm A) = Pr('Itchiness at Injection Site' Arm D) H1: Pr('Itchiness at Injection Site' Arm A) not = Pr('Itchiness at Injection Site' Arm D)"||||0.1704
82648685|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Underarm pain' Arm A) = Pr('Underarm pain' Arm D) H1: Pr('Underarm pain' Arm A) not = Pr('Underarm pain' Arm D)"||||1.000
82648686|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||0.6171|TWO_SIDED|||||alpha= 5%|Fisher Exact|||"Hypothesis:~H0: Pr('Underarm swelling' Arm A) = Pr('Underarm swelling' Arm D) H1: Pr('Underarm swelling' Arm A) not = Pr('Underarm swelling' Arm D)"||||0.6171
82537300|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.01|STANDARD_ERROR_OF_MEAN|2.41||0.0395|TWO_SIDED|95.0|-9.78|-0.24||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||9-Item Sleep Problems Index: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-0.24|-9.78|0.0395
82537301|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0278|TWO_SIDED|95.0|0.02|0.27||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.27|0.02|0.0278
82648687|NCT01827371|165013168|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Redness at Injection Site' Arm A) = Pr('Redness at Injection Site' Arm D) H1: Pr('Redness at Injection Site' Arm A) not = Pr('Redness at Injection Site' Arm D)"||||<0.0001
82648688|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Swelling at Injection Site' Arm A) = Pr('Swelling at Injection Site' Arm D) H1: Pr('Swelling at Injection Site' Arm A) not = Pr('Swelling at Injection Site' Arm D)"||||0.0050
82648689|NCT01827371|165013168|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||alpha=5%|Fisher Exact|||"Hypothesis:~H0: Pr('Any Solicited Local Reaction' Arm A) = Pr('Any Solicited Local Reaction' Arm D) H1: Pr('Any Solicited Local Reaction' Arm A) not = Pr('Any Solicited Local Reaction' Arm D)"||||0.0012
82648690|NCT01827371|165013169|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.76|||||TWO_SIDED|98.33|0.37|1.15||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm B)) ≥ 1 or GMT(Arm A)/GMT (Arm B) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm B)) \< 1 or GMT(Arm A)/GMT(Arm B) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||1.15|0.37|
82648691|NCT01827371|165013169|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|0.3|||||TWO_SIDED|98.33|-0.06|0.67||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm C)) ≥ 1 or GMT(Arm A)/GMT (Arm C) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm C)) \< 1 or GMT(Arm A)/GMT(Arm C) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||0.67|-0.06|
82648692|NCT01827371|165013169|NON_INFERIORITY_OR_EQUIVALENCE|Hypotheses Evaluation: The difference between the mean log2 peak titer for the control arm (Study Arm A) and each investigational arm (Study Arm B, C, or D) and the associated two sided 98.33% confidence intervals (CI) for the estimated population mean difference were calculated. If the upper limit of the 98.33% CI was less than 1, Study Arm B, C or D was considered to be non-inferior to Study Arm A.|Mean Difference (Log2 Scale)|-0.1|||||TWO_SIDED|98.33|-0.5|0.3||||||"Hypotheses: H0: log2(GMT(Arm A))-log2 (GMT(Arm D)) ≥ 1 or GMT(Arm A)/GMT (Arm D) ≥2 H1: log2(GMT(Arm A))-log2(GMT(Arm D)) \< 1 or GMT(Arm A)/GMT(Arm D) \< 2.~The margin of non-inferiority was specified as a 2-fold difference on the original scale (1 on the log2 scale). The objective included three non-inferiority evaluations (A vs. B, A vs. C, A vs. D). Thus, a Bonferroni-corrected alpha of 2.5% / 3 = 0.833% was used."||0.30|-0.50|
82648693|NCT01361607|165013171|SUPERIORITY||Median Difference (Final Values)|-1.84||||0.2735|TWO_SIDED|95.0|-6.19|1.5|||Wilcoxon (Mann-Whitney)|||||1.50|-6.19|0.2735
82648694|NCT00373685|165013182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|TWO_SIDED|||||Life Table Extension of Cochran-Mantel-Haenszel (CMH) Test|Life Table Extension of CMH Test|||||||0.0003
82648695|NCT00373685|165013183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035|TWO_SIDED||||||Life Table Extension of CMH Test|||||||0.0035
82452192|NCT00534976|164610897|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-4.65||||0.02||95.0|||||ANOVA||Montelukast minus placebo|||||0.020
82648696|NCT00373685|165013184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.614|TWO_SIDED||||||Life Table Extension of CMH Test|||||||0.6140
82648697|NCT00373685|165013186|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||P-value associated with Overall (LOCF)|ANCOVA|||||||<0.0001
82648698|NCT00373685|165013188|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||P-value associated with Overall (LOCF)|ANCOVA|||||||<0.0001
82648699|NCT00373685|165013189|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0023|TWO_SIDED|||||P-value associated with Overall (LOCF)|Cochran-Mantel-Haenszel|||||||0.0023
82648700|NCT00373685|165013190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1008|TWO_SIDED||||||Chi-squared|||Baseline||||0.1008
82648701|NCT00373685|165013190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
82648702|NCT00373685|165013190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
82648703|NCT00373685|165013190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0005
82648704|NCT00373685|165013190|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||<0.0001
82648705|NCT00373685|165013191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6562|TWO_SIDED||||||Chi-squared|||Baseline||||0.6562
82452193|NCT00534976|164610898|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-4.33||||0.005||95.0|||||ANOVA||Montelukast minus placebo|||||0.005
82452194|NCT00534976|164610899|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-120.86||||0.022||95.0|||||ANOVA||Montelukast minus placebo|||||0.022
82452195|NCT00534976|164610900|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-122.82||||0.013||95.0|||||ANOVA||Montelukast minus placebo|||||0.013
82537302|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.2||95.0|-0.04|0.2||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.20|-0.04|0.2000
82537303|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.3396|TWO_SIDED|95.0|-0.06|0.18||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Optimal Sleep: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.18|-0.06|0.3396
82452196|NCT00534976|164610901|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-8.27||||0.064||95.0|||||ANOVA||Montelukast minus placebo|||||0.064
82452197|NCT00534976|164610902|SUPERIORITY_OR_OTHER_LEGACY||Difference in least square means|-7.06||||0.054||95.0|||||ANOVA||Montelukast minus Placebo|||||0.054
82452198|NCT00534976|164610903|SUPERIORITY_OR_OTHER_LEGACY||Difference in Proportions|-1.6||||1||95.0||||P-value provided is for comparison between the two proportions: Montelukast versus placebo.|McNemar||Montelukast minus placebo|||||1.000
82452199|NCT00534976|164610904|SUPERIORITY_OR_OTHER_LEGACY||Difference in Proportions|-3.2||||||95.0|||||||Montelukast minus placebo|||||
82452200|NCT00264537|164610908|SUPERIORITY_OR_OTHER|||||||0.053||||||A positive test is concluded if there is a significant difference between golimumab+MTX and placebo+MTX and at least one of the pair-wise comparisons at a 0.05 level.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Group 1 vs combined Groups 3 and 4. The sample size of 150 patients per treatment group will provide \>98% power to detect a difference in ACR 50 response between treatment groups at alpha=0.05, assuming 50% of patients with screening C-reactive protein (CRP)\<1.5mg/dL, and the difference in ACR 50 response of 15-20% in patients with screening CRP\<1.5mg/dL and 20-25% in subjects with screening CRP\>=1.5mg/dL, between Groups 1 vs 3 or 4||||0.053
82452201|NCT00264537|164610908|SUPERIORITY_OR_OTHER|||||||0.042|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Groups 1 vs 3.||||0.042
82452202|NCT00264537|164610908|SUPERIORITY_OR_OTHER|||||||0.177|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in ACR 50 response comparing Groups 1 vs 4.||||0.177
82452203|NCT00264537|164610908|NON_INFERIORITY_OR_EQUIVALENCE|This sample size (150 patients per treatment group) will provide approximately 85% power to claim non-inferiority of golimumab alone (Group 2) compared with MTX alone (Group 1) at alpha= 0.05 using a one-sided equivalence test assuming the proportion of golimumab alone (Group 2) treated patients with ACR 50 response is not less than 10% compared with proportion of patients with ACR 50 response in MTX alone (Group 1) treated group.|Difference in ACR 50 Response Rate(%)|3.3||||0.521||95.0|-6.8||The upper bound of 95% CI was not produced because it was not relevant to the pre-specified analysis||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)|The positive difference indicates in favor of golimumab+placebo compared to placebo+MTX; The upper bound of CI is not applicable.|"Null hypothesis: Group 2 is inferior to Group 1. Noninferiority of golimumab will be demonstrated if the lower bound of the 2-sided 95% CI is above -10%. The 10% non-inferiority margin was chosen because this difference is not clinically admissible. Under the above noted assumed response rates, this corresponds to preservation of at least 70% \[(33% - 10%)/33%\*100\] of the expected MTX benefit."|||-6.8|0.521
82452204|NCT00264537|164610909|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.011
82537304|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.56|STANDARD_ERROR_OF_MEAN|3.22|<|0.0001|TWO_SIDED|95.0|-20.93|-8.19||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-8.19|-20.93|<0.0001
82537305|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.11|STANDARD_ERROR_OF_MEAN|3.2||0.0584|TWO_SIDED|95.0|-12.43|0.22||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||0.22|-12.43|0.0584
82648706|NCT00373685|165013191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
82648707|NCT00373685|165013191|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
82648708|NCT00373685|165013191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0245|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0245
82452205|NCT00264537|164610909|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.028
82648709|NCT00373685|165013191|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0074|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0074
82648710|NCT00373685|165013192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4074|TWO_SIDED||||||Chi-squared|||Baseline||||0.4074
82648711|NCT00373685|165013192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
82452206|NCT00264537|164610909|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.028
82452207|NCT00264537|164610909|SUPERIORITY_OR_OTHER|||||||0.677||95.0|||||Cochran-Mantel-Haenszel|CMH test stratified by screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.677
82452208|NCT00264537|164610910|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.178
82452209|NCT00264537|164610910|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.250
82452210|NCT00264537|164610910|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.240
82452211|NCT00264537|164610910|SUPERIORITY_OR_OTHER|||||||0.339||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test stratified by screening C-reactive protein (CRP) (\< 1.5 mg/dL; \>= 1.5 mg/dL)||||||0.339
82452212|NCT00264537|164610911|SUPERIORITY_OR_OTHER|||||||0.006||||||If this test is significant, a pairwise comparison between Group 3 and Group 1, and between Group 4 and Group 1 will be performed|ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; ≥ 1.5 mg/dL)||Null Hypothesis: No difference in vdH-S score comparing Groups 1 vs Groups 3 and 4 combined. The sample size of 150 subjects in each treatment group (Group 1, Group 3, Group 4) will provide \> 95% power to detect a difference in the vdH-S score between treatment groups using a 2-sided t-test on van der Waerden normal scores of change from baseline in vdH-S score at α = 0.05, assuming a mean change from baseline in vdH-S score of 3.5 for the placebo group and 1 for Groups 3 and 4.||||0.006
82452213|NCT00264537|164610911|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in vdH-S score comparing Groups 1 vs 3.||||0.015
82537306|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.45|STANDARD_ERROR_OF_MEAN|3.19||0.009|TWO_SIDED|95.0|-14.76|-2.15||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Sleep Disturbance: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||-2.15|-14.76|0.0090
82452214|NCT00264537|164610911|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANOVA|A 2-sided ANOVA on the van der Waerden normal scores with 1 factor: screening CRP (\< 1.5 mg/dL; \>= 1.5 mg/dL)||Null hypothesis: No difference in vdH-S score comparing Groups 1 vs 4.||||0.025
82452215|NCT00264537|164610912|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.003
82452216|NCT00264537|164610912|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.010
82452217|NCT00264537|164610912|SUPERIORITY_OR_OTHER|||||||0.014|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.014
82452218|NCT00264537|164610912|SUPERIORITY_OR_OTHER|||||||0.545|||||||ANOVA|2-sided ANOVA on the van der Waerden normal scores||||||0.545
82452219|NCT03777059|164610946|SUPERIORITY||Least Squares Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.291|<|0.0001|TWO_SIDED|95.0|-1.78|-0.64||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.64|-1.78|<.0001
82577384|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.171||0.8644|TWO_SIDED|95.0|-0.31|0.37|||MMRM|||Hypochondriasis, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.31|0.8644
82452220|NCT03777059|164610946|SUPERIORITY||Least Squares Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.287|<|0.0001|TWO_SIDED|95.0|-1.94|-0.82||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.82|-1.94|<.0001
82452221|NCT03777059|164610946|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.288|<|0.0001|TWO_SIDED|95.0|-2.28|-1.15||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.15|-2.28|<.0001
82452222|NCT03777059|164610947|SUPERIORITY||Least Squares Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.311|<|0.0001|TWO_SIDED|95.0|-2.03|-0.81||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.81|-2.03|<.0001
82452223|NCT03777059|164610947|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.307|<|0.0001|TWO_SIDED|95.0|-2.13|-0.92||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.92|-2.13|<.0001
82452224|NCT03777059|164610947|SUPERIORITY||Least Squares Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.309|<|0.0001|TWO_SIDED|95.0|-2.32|-1.1||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.10|-2.32|<.0001
82452225|NCT03777059|164610948|SUPERIORITY||Least Squares Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|-1.81|-0.82||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.82|-1.81|<.0001
82432032|NCT02297815|164572881|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.5||||0.59|TWO_SIDED|95.0|-3.9|6.8|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||6.8|-3.9|0.59
82432033|NCT02297815|164572882|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|||<|0.001|TWO_SIDED|95.0|7.3|17.2|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||17.2|7.3|<0.001
82432034|NCT02297815|164572883|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.9||||0.09|TWO_SIDED|95.0|-0.8|10.6|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||10.6|-0.8|0.09
82452226|NCT03777059|164610948|SUPERIORITY||Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.251|<|0.0001|TWO_SIDED|95.0|-1.82|-0.83||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.83|-1.82|<.0001
82432035|NCT02297815|164572884|SUPERIORITY||Risk Difference (RD)|4.6||||0.07|TWO_SIDED|95.0|-0.3|9.6|||Weighted logistic regression|Propensity-score based full matching. Average treatment effect weights calculated and applied to a weighted logistic regression.|Broad spectrum antibiotics are the reference. A risk difference more than 0 indicates that the broad spectrum antibiotics had a higher risk of adverse outcome|Propensity-score based full matching performed using patient and physician-level characteristics. Average treatment effect weights calculated and applied to a weighted logistic regression. Risk difference obtained by marginal standardization.||9.6|-0.3|0.07
82432036|NCT00363142|164572984|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of FPV/r100 to FPV/r200 would be declared if the lower limit of the 2-sided 95% confidence interval on the difference in percentage of participants not meeting the virologic failure definition \[FPV/r100 minus FPV/r200\] was -12% or greater.|Difference in the percentages|-2.12||||||95.0|-9.36|5.12|||||Difference in percentages = percentage in Arm 1 minus percentage in Arm 2|||5.12|-9.36|
82432037|NCT03994211|164573004|OTHER||Geometric Mean Ratio Estimate|0.94|||||TWO_SIDED|90.0|0.83|1.06||||||||1.06|0.83|
82432038|NCT03994211|164573005|OTHER||Geometric Mean Ratio|1.05|||||TWO_SIDED|90.0|0.95|1.15||||||||1.15|0.95|
82452227|NCT03777059|164610948|SUPERIORITY||Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.252|<|0.0001|TWO_SIDED|95.0|-2.0|-1.01||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.01|-2.00|<.0001
82432039|NCT03994211|164573006|OTHER||Geometric Mean Ratio|0.62|||||TWO_SIDED|90.0|0.54|0.7||||||||0.70|0.54|
82432040|NCT03994211|164573007|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.91|1.09||||||||1.09|0.91|
82432041|NCT03994211|164573008|OTHER||Geometric Mean Ratio|0.57|||||TWO_SIDED|90.0|0.48|0.69||||||||0.69|0.48|
82432042|NCT03994211|164573009|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.9|1.09||||||||1.09|0.90|
82432043|NCT01926444|164573032|OTHER|||||||0.506|||||||ANOVA|||AUC- censorsed (standardized); FAS||||0.506
82432044|NCT01926444|164573032|OTHER|||||||0.299|||||||ANOVA|||AUC LOCF (standardized); FAS||||0.299
82432045|NCT01926444|164573032|OTHER|||||||0.234|||||||ANOVA|||AUC Censored (Standardized)- PP Population||||0.234
82452228|NCT03777059|164610949|SUPERIORITY||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|2.05|4.56||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||4.56|2.05|<.0001
82432046|NCT01926444|164573032|OTHER|||||||0.219|||||||ANOVA|||AUC LOCF (Standardized)- PP Population||||0.219
82432047|NCT01926444|164573033|OTHER|||||||0.047|||||||Chi-squared|||Time to Caecum||||0.047
82432048|NCT01926444|164573034|OTHER|||||||0.047|||||||Chi-squared|||||||0.047
82432049|NCT03035864|164573054|SUPERIORITY||difference in LS means|-0.11|||=|0.974|TWO_SIDED|95.0|-6.85|6.63|||ANCOVA|||Frequency statistical analysis||6.63|-6.85|=0.974
82432050|NCT03035864|164573054|SUPERIORITY||Difference in least square means|2.88|||=|0.399|TWO_SIDED|95.0|-3.85|9.61|||ANCOVA|||Statistical analysis related to severity||9.61|-3.85|=0.399
82432051|NCT03035864|164573055|SUPERIORITY||difference in least square means|0.04|||=|0.214|TWO_SIDED|95.0|-0.02|0.1|||ANCOVA|||||0.10|-0.02|=0.214
82432052|NCT03035864|164573059|SUPERIORITY||difference in least square means|-0.43|||=|0.881|TWO_SIDED|95.0|-6.13|5.27|||ANCOVA|||Frequency - week 4||5.27|-6.13|=0.881
82432053|NCT03035864|164573059|SUPERIORITY||difference in least square means|-0.31|||=|0.926|TWO_SIDED|95.0|-6.96|6.33|||ANCOVA|||Frequency - week 8||6.33|-6.96|=0.926
82432054|NCT03035864|164573059|SUPERIORITY||difference in least square means|-2.29|||=|0.426|TWO_SIDED|95.0|-7.97|3.38|||ANCOVA|||Frequency - Week 12||3.38|-7.97|=0.426
82432055|NCT03035864|164573059|SUPERIORITY||Difference in least square means|0.62|||=|0.828|TWO_SIDED|95.0|-5.04|6.29|||ANCOVA|||Severity - Week 4||6.29|-5.04|=0.828
82432056|NCT03035864|164573059|SUPERIORITY||difference in least square means|2.86|||=|0.394|TWO_SIDED|95.0|-3.75|9.47|||ANCOVA|||Severity - Week 8||9.47|-3.75|=0.394
82432057|NCT03035864|164573059|SUPERIORITY||difference in least square means|-1.49|||=|0.552|TWO_SIDED|95.0|-6.41|3.44|||ANCOVA|||Severeity - Week 12||3.44|-6.41|=0.552
82537307|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.69|STANDARD_ERROR_OF_MEAN|2.28||0.2405|TWO_SIDED|95.0|-7.2|1.82||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||1.82|-7.20|0.2405
82537308|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.26||0.7565|TWO_SIDED|95.0|-5.18|3.77||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||3.77|-5.18|0.7565
82537309|NCT00991276|164773839|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.98|STANDARD_ERROR_OF_MEAN|2.25||0.3792|TWO_SIDED|95.0|-6.43|2.47||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||Snoring: P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||2.47|-6.43|0.3792
82537310|NCT00991276|164773840|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.27|STANDARD_ERROR_OF_MEAN|1.66||0.0019|TWO_SIDED|95.0|1.98|8.55||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||8.55|1.98|0.0019
82537311|NCT00991276|164773840|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.25|STANDARD_ERROR_OF_MEAN|1.65||0.0506|TWO_SIDED|95.0|-0.01|6.51||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||6.51|-0.01|0.0506
82537312|NCT00991276|164773840|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.64||0.2222|TWO_SIDED|95.0|-1.24|5.26||This analysis was not included in the step-down procedure (if p-value \< 0.05, then continue to next step) to control Type I error.|Mixed Models Analysis|||P-value was calculated using linear mixed model analysis with treatment, period and sequence as fixed effects. Random effects were participant within sequence and residual error. The LS means and SE were used to test for a treatment difference and construct 2-sided 95% CIs. The hypothesis test was 2-sided and conducted at the 5% level of significance.||5.26|-1.24|0.2222
82537313|NCT02796092|164773870|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Assuming that both methods were equally effective, we did not use this primary outcome to calculate sample size. It was determined using our own retrospective data of patients from the year 2013, comparing the means of the procedure total time with both methods (41.20±4.66 vs 34.99±4.43 minutes). Ten patients in each group were considered enough to detect the above-mentioned differences with a α-error of 0.05 and 80% power, using a two-sided test.||||>0.999
82537314|NCT02796092|164773871|SUPERIORITY_OR_OTHER|||||||0.3|||||||Fisher Exact|||||||0.3
82537315|NCT02796092|164773872|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82537316|NCT02796092|164773873|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82537317|NCT02796092|164773874|SUPERIORITY_OR_OTHER|||||||0.061|||||||Wilcoxon (Mann-Whitney)|||||||0.061
82537318|NCT02796092|164773875|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82537319|NCT02796092|164773876|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82537320|NCT02796092|164773877|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82537321|NCT02796092|164773878|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82537322|NCT02796092|164773879|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82537323|NCT02796092|164773880|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82537324|NCT02796092|164773881|SUPERIORITY_OR_OTHER|||||||0.0499|||||||Chi-squared|||||||0.0499
82537325|NCT02796092|164773883|SUPERIORITY_OR_OTHER|||||||0.095|||||||Fisher Exact|||||||0.095
82537326|NCT02534896|164773884|SUPERIORITY|||||||0.018|||||||Hochberg and Gatekeeping|||||||0.018
82648712|NCT00373685|165013192|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
82537327|NCT02534896|164773884|SUPERIORITY|||||||0.007|||||||Hochberg and Gatekeeping|||||||0.007
82537328|NCT02534896|164773885|SUPERIORITY|||||||0.028|||||||Hochberg and Gatekeeping|||||||0.028
82537329|NCT02534896|164773885|SUPERIORITY|||||||0.003|||||||Hochberg and Gatekeeping|||||||0.003
82537330|NCT02534896|164773886|SUPERIORITY|||||||0.96|||||||Hochberg and Gatekeeping|||||||0.960
82537331|NCT02534896|164773886|SUPERIORITY|||||||0.339|||||||Hochberg and Gatekeeping|||||||0.339
82537332|NCT02534896|164773887|SUPERIORITY|||||||0.573|||||||Hochberg and Gatekeeping|||||||0.573
82537333|NCT02534896|164773887|SUPERIORITY|||||||0.374|||||||Hochberg and Gatekeeping|||||||0.374
82537334|NCT01107626|164773890|SUPERIORITY|||||||0.12|||||||Log Rank|Stratified logrank test||||||0.12
82537335|NCT01107626|164773890|SUPERIORITY|||||||0.28|||||||Log Rank|Stratified logrank test||||||0.28
82648713|NCT00373685|165013192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0127|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0127
82648714|NCT00373685|165013192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0019
82648715|NCT00373685|165013193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2699|TWO_SIDED||||||Chi-squared|||Baseline||||0.2699
82452229|NCT03777059|164610949|SUPERIORITY||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.37|5.26||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||5.26|2.37|<.0001
82537336|NCT04310579|164773903|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.22|ONE_SIDED|95.0||2.5||To demonstrate an effect of oxycodone with midazolam compared to oxycodone alone, it is necessary that the upper bound of the one-sided 95% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone with midazolam compared to oxycodone alone.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||2.5||0.22
82452230|NCT03777059|164610949|SUPERIORITY||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.56|5.71||Odds ratio and p-value was based on logistic regression with treatment group, Baseline value, and prior exposure to a migraine prevention medications with proven efficacy as explanatory variables.|Regression, Logistic|||||5.71|2.56|<.0001
82537337|NCT04310579|164773904|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.01|ONE_SIDED|97.5||-0.6||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-0.6||0.01
82537338|NCT04310579|164773904|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.28|ONE_SIDED|97.5||2.8||To demonstrate an effect of oxycodone with quetiapine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||2.8||0.28
82537339|NCT04310579|164773905|SUPERIORITY||Mean Difference (Final Values)|-10.2|||<|0.001|ONE_SIDED|97.5||-6.3||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-6.3||<0.001
82537340|NCT04310579|164773905|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.37|ONE_SIDED|97.5||3.2||To demonstrate an effect of oxycodone with quetiapine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||3.2||0.37
82648716|NCT00373685|165013193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 8||||<0.0001
82648717|NCT00373685|165013193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Chi-squared|||Week 16||||<0.0001
82537341|NCT04310579|164773906|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.005|ONE_SIDED|95.0||-2.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone compared to placebo, it is necessary that the upper bound of the one-sided 95% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone compared to placebo.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||-2.5||0.005
82648718|NCT00373685|165013193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0027|TWO_SIDED||||||Chi-squared|||Week 24 or ET||||0.0027
82648719|NCT00373685|165013193|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Chi-squared|||Week 24/LOCF||||0.0001
82648720|NCT02570165|165013197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|191.1|||||TWO_SIDED|95.0|101.07|284.26|||||The 95% Bayesian credible interval for the mean difference between batefenterol 37.5 µg dose and placebo (batefenterol 37.5 µg minus placebo) was estimated.|||284.26|101.07|
82537342|NCT04310579|164773906|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.37|ONE_SIDED|95.0||3.7||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of midazolam compared to placebo, it is necessary that the upper bound of the one-sided 95% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of midazolam compared to placebo.|Part 1 is powered with consideration to both the effect of oxycodone versus placebo and oxycodone plus midazolam versus oxycodone. Assuming a -4 L/min effect size on VE55 and standard deviation of 5 L/min, there is greater than 90% power at a one-sided 0.05 significance level for a sample size of 20 subjects.||3.7||0.37
82537343|NCT04310579|164773907|SUPERIORITY||Mean Difference (Final Values)|-9.3|||<|0.001|ONE_SIDED|97.5||-3.9||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.9||<0.001
82577385|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.158||0.7994|TWO_SIDED|95.0|-0.27|0.35|||MMRM|||Hypochondriasis, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.35|-0.27|0.7994
82577386|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|0.152||0.0811|TWO_SIDED|95.0|-0.03|0.57|||MMRM|||Hypochondriasis, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.57|-0.03|0.0811
82577387|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.144||0.6978|TWO_SIDED|95.0|-0.34|0.23|||MMRM|||Hypochondriasis, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.23|-0.34|0.6978
82577388|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.9749|TWO_SIDED|95.0|-0.28|0.28|||MMRM|||Hypochondriasis, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.28|-0.28|0.9749
82432058|NCT02720523|164573060|SUPERIORITY||Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|14.3|51.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||51.0|14.3|<0.001
82432059|NCT02720523|164573060|SUPERIORITY||Response Rate Difference|40.8|||<|0.001|TWO_SIDED|95.0|23.5|58.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||58.1|23.5|<0.001
82432060|NCT02720523|164573060|SUPERIORITY||Response Rate Difference|37.1|||<|0.001|TWO_SIDED|95.0|19.4|54.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||54.9|19.4|<0.001
82432061|NCT02720523|164573060|OTHER|Cochran-Armitage test was conducted for demonstrating a dose response relationship.|||||<|0.001|||||||Cochran-Armitage test|||||||<0.001
82432062|NCT02720523|164573061|SUPERIORITY||Least Squares (LS) Mean Difference|-1.29|||<|0.001|TWO_SIDED|95.0|-1.693|-0.88|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-0.880|-1.693|<0.001
82432063|NCT02720523|164573061|SUPERIORITY||LS Mean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.005|-1.19|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-1.190|-2.005|<0.001
82432064|NCT02720523|164573061|SUPERIORITY||LS Mean Difference|-1.62|||<|0.001|TWO_SIDED|95.0|-2.027|-1.216|||ANCOVA|ANCOVA model including treatment as the fixed factor, and baseline value and the stratification factor prior bDMARD use as covariates.|Difference = Upadacitinib - Placebo|||-1.216|-2.027|<0.001
82577389|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.081||0.3158|TWO_SIDED|95.0|-0.08|0.24|||MMRM|||Loss of Weight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.24|-0.08|0.3158
82577390|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.079||0.1901|TWO_SIDED|95.0|-0.05|0.26|||MMRM|||Loss of Weight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.05|0.1901
82452231|NCT03777059|164610950|SUPERIORITY||Least Squares Mean Difference|9.9|STANDARD_ERROR_OF_MEAN|2.27|<|0.0001|TWO_SIDED|95.0|5.45|14.36||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||14.36|5.45|<.0001
82452232|NCT03777059|164610950|SUPERIORITY||Least Squares Mean Difference|10.08|STANDARD_ERROR_OF_MEAN|2.229|<|0.0001|TWO_SIDED|95.0|5.71|14.46||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||14.46|5.71|<.0001
82452233|NCT03777059|164610950|SUPERIORITY||Least Squares Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|2.231|<|0.0001|TWO_SIDED|95.0|6.42|15.18||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||15.18|6.42|<.0001
82452234|NCT03777059|164610951|SUPERIORITY||Least Squares Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.693||0.0856|TWO_SIDED|95.0|-2.56|0.17||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||0.17|-2.56|0.0856
82452235|NCT03777059|164610951|SUPERIORITY||Least Squares Mean Difference|-2.54|STANDARD_ERROR_OF_MEAN|0.694||0.0003|TWO_SIDED|95.0|-3.91|-1.18||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.18|-3.91|0.0003
82452236|NCT03777059|164610951|SUPERIORITY||Least Squares Mean Difference|-3.32|STANDARD_ERROR_OF_MEAN|0.694|<|0.0001|TWO_SIDED|95.0|-4.68|-1.96||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.96|-4.68|<.0001
82452237|NCT03777059|164610952|SUPERIORITY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.605||0.0743|TWO_SIDED|95.0|-2.27|0.11||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||0.11|-2.27|0.0743
82537344|NCT04310579|164773907|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.67|ONE_SIDED|97.5||6.4||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of quetiapine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of quetiapine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 1 and day 5) with adjustment for multiplicity (α=.025). The assessments with paroxetine or quetiapine were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||6.4||0.67
82648721|NCT02570165|165013197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|231.6|||||TWO_SIDED|95.0|149.31|310.02|||||The 95% Bayesian credible interval for differences between each individual batefenterol 75 µg dose and placebo was estimated.|||310.02|149.31|
82648722|NCT02570165|165013197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|261.8|||||TWO_SIDED|95.0|189.85|332.25|||||The 95% Bayesian credible interval for differences between each individual batefenterol 150 µg dose and placebo was estimated.|||332.25|189.85|
82452238|NCT03777059|164610952|SUPERIORITY||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.606||0.0011|TWO_SIDED|95.0|-3.18|-0.8||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-0.80|-3.18|0.0011
82452239|NCT03777059|164610952|SUPERIORITY||Least Squares Mean Difference|-2.46|STANDARD_ERROR_OF_MEAN|0.605|<|0.0001|TWO_SIDED|95.0|-3.65|-1.28||MMRM model included Baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and Baseline-by-visit as interaction terms, with an unstructured covariance matrix.|Mixed-effects Model for Repeated Measure|||||-1.28|-3.65|<.0001
82452240|NCT03350815|164610958|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.28|2.25||No P value as no hypothesis was tested|Regression, Logistic|||Statistical analysis (logistic regression) of ASDAS inactive disease response by visit - in Treatment Period 2 (nonresponder imputation)||2.25|0.28|
82452241|NCT03350815|164610959|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|2.08|||||TWO_SIDED|95.0|0.5|8.66||No P value as no hypothesis was tested|Regression, Logistic|||Statistical analysis (logistic regression) of reduction in ASDAS \>= 1.1 response by visit - in Treatment Period 2 (nonresponder imputation)||8.66|0.50|
82452242|NCT03350815|164610960|OTHER|Statistical hypothesis tests were not performed for this study|Least Square Mean of Treatment Differenc|0.23|STANDARD_ERROR_OF_MEAN|0.263|||TWO_SIDED|95.0|-0.29|0.75||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Mixed Models Analysis|||Statistical analysis of total BASDAI change from Week 16 using MMRM - in Treatment Period 2 (FAS)||0.75|-0.29|
82648723|NCT02570165|165013197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|281.4|||||TWO_SIDED|95.0|212.35|351.3|||||The 95% Bayesian credible interval for differences between each individual batefenterol 300 µg dose and placebo was estimated.|||351.30|212.35|
82648724|NCT02570165|165013197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|292.8|||||TWO_SIDED|95.0|223.02|364.42|||||The 95% Bayesian credible interval for differences between each individual batefenterol 600 µg dose and placebo was estimated.|||364.42|223.02|
82452243|NCT03350815|164610961|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.5|3.24||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of BASDAI50 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||3.24|0.50|
82452244|NCT03350815|164610962|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.43|1.73||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables|Regression, Logistic|||Statistical analysis (logistic regression) of BASDAI20 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||1.73|0.43|
82452245|NCT03350815|164610963|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.49|3.46||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status (naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of ASAS40 response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||3.46|0.49|
82452246|NCT03350815|164610964|OTHER|Statistical hypothesis tests were not performed for this study|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.44|2.41||Odds ratio and 95% confidence interval for odds ratio are from a logistic regression model with treatment (2 treatment groups), TNF-alpha inhibitor status(naive, inadequate responder) and Week 16 body weight (kg) as explanatory variables.|Regression, Logistic|||Statistical analysis (logistic regression) of ASAS partial remission response by visit - in Treatment Period 2 (nonresponder imputation) (FAS)||2.41|0.44|
82452247|NCT03350815|164610965|OTHER|Statistical hypothesis tests were not performed for this study|Mean Difference (Final Values)|0.13|||||TWO_SIDED|95.0|-0.74|1.01||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Regression, Logistic|||Statistical analysis of change from Week 16 in ASAS-Health Index using MMRM by visit - in Treatment Period 2 (FAS)||1.01|-0.74|
82452248|NCT03350815|164610966|OTHER|Statistical hypothesis tests were not performed for this study|Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.62|1.61||Least squares means (LSMs) of the treatment groups, LSM treatment difference and 95% confidence interval for treatment difference are from mixed-effects model repeated measures (MMRM) with treatment, visit and TNF-alpha inhibitor status as factors|Regression, Logistic|||||1.61|-3.62|
82452249|NCT02214290|164610986|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
82537345|NCT04310579|164773909|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.33|TWO_SIDED|90.0|0.96|1.17||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.17|0.96|0.33
82537346|NCT04310579|164773909|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.25|||<|0.001|TWO_SIDED|90.0|1.14|1.37||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.37|1.14|<0.001
82452250|NCT02214290|164610987|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
82452251|NCT02214290|164610988|OTHER||||||<|0.001|||||||ANOVA|post-hoc comparisons were used to determine within-group and between-group differences.||||||<0.001
82452252|NCT00699608|164610990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.267||95.0|-2.74|0.76|||ANCOVA|ANCOVA used (fixed effects: adjusted period baseline, participant baseline, age, gender, period and treatment group; random effect: participant).||||0.76|-2.74|0.267
82452253|NCT03078556|164611027|OTHER||Ratio|1.271|||||TWO_SIDED|90.0|1.1894|1.3582|||||Ratio (B/A) of plasma DTG has been presented.|||1.3582|1.1894|
82452254|NCT03078556|164611027|OTHER||Ratio|1.0341|||||TWO_SIDED|90.0|1.0097|1.0591|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0591|1.0097|
82452255|NCT03078556|164611028|OTHER||Ratio|1.155|||||TWO_SIDED|90.0|1.0699|1.2468|||||Ratio (C/A) of plasma DTG has been presented.|||1.2468|1.0699|
82452256|NCT03078556|164611028|OTHER||Ratio|1.0635|||||TWO_SIDED|90.0|1.0413|1.0861|||||Ratio (C/A) of plasma 3TC has been presented.|||1.0861|1.0413|
82452257|NCT03078556|164611029|OTHER||Ratio|1.2756|||||TWO_SIDED|90.0|1.1919|1.3651|||||Ratio (B/A) of plasma DTG has been presented.|||1.3651|1.1919|
82452258|NCT03078556|164611029|OTHER||Ratio|1.0372|||||TWO_SIDED|90.0|1.0116|1.0634|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0634|1.0116|
82537347|NCT04310579|164773910|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.3|||<|0.001|TWO_SIDED|90.0|1.19|1.43||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.43|1.19|<0.001
82648725|NCT02570165|165013198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|182.2|||||TWO_SIDED|95.0|99.8|264.6|||||The 95% confidence interval for the difference between 37.5 µg Batefenterol and Placebo was estimated.|||264.60|99.80|
82452259|NCT03078556|164611030|OTHER||Ratio|1.1578|||||TWO_SIDED|90.0|1.0718|1.2507|||||Ratio (C/A) of plasma DTG has been presented.|||1.2507|1.0718|
82452260|NCT03078556|164611030|OTHER||Ratio|1.0702|||||TWO_SIDED|90.0|1.0464|1.0946|||||Ratio (C/A) of plasma 3TC has been presented.|||1.0946|1.0464|
82432065|NCT02720523|164573062|SUPERIORITY||LS Mean Difference|-0.3|||<|0.001|TWO_SIDED|95.0|-0.465|-0.144|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.144|-0.465|<0.001
82432066|NCT02720523|164573062|SUPERIORITY||LS Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.505|-0.184|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.184|-0.505|<0.001
82432067|NCT02720523|164573062|SUPERIORITY||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.55|-0.229|||ANCOVA|ANCOVA model includes treatment as the fixed factor, and the baseline value and stratification factor prior bDMARD use as the covariates.|Difference = Upadacitinib - Placebo|||-0.229|-0.550|<0.001
82432068|NCT02720523|164573063|SUPERIORITY||Response Rate Difference|24.5||||0.007|TWO_SIDED|95.0|7.3|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||41.7|7.3|0.007
82432069|NCT02720523|164573063|SUPERIORITY||Response Rate Difference|49.0|||<|0.001|TWO_SIDED|95.0|32.1|65.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||65.9|32.1|<0.001
82452261|NCT03078556|164611031|OTHER||Ratio|1.2805|||||TWO_SIDED|90.0|1.189|1.379|||||Ratio (B/A) of plasma DTG has been presented.|||1.3790|1.1890|
82452262|NCT03078556|164611031|OTHER||Ratio|1.1956|||||TWO_SIDED|90.0|1.1437|1.2498|||||Ratio (B/A) of plasma 3TC has been presented.|||1.2498|1.1437|
82537348|NCT04310579|164773910|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.39|||<|0.001|TWO_SIDED|90.0|1.22|1.57||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Maximum oxycodone concentration was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.57|1.22|<0.001
82648726|NCT02570165|165013198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|196.6|||||TWO_SIDED|95.0|128.4|264.8|||||The 95% confidence interval for the difference between 75 µg Batefenterol and Placebo was estimated.|||264.80|128.40|
82432070|NCT02720523|164573063|SUPERIORITY||Response Rate Difference|41.7|||<|0.001|TWO_SIDED|95.0|24.5|58.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||58.8|24.5|<0.001
82432071|NCT02720523|164573064|SUPERIORITY||Response Rate Difference|18.4||||0.004|TWO_SIDED|95.0|6.4|30.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||30.3|6.4|0.004
82432072|NCT02720523|164573064|SUPERIORITY||Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|18.7|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||46.6|18.7|<0.001
82432073|NCT02720523|164573064|SUPERIORITY||Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|12.9|39.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||39.0|12.9|<0.001
82432074|NCT02720523|164573065|SUPERIORITY||LS Mean Difference|4.33|||<|0.001|TWO_SIDED|95.0|2.1|6.57|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||6.57|2.10|<0.001
82432075|NCT02720523|164573065|SUPERIORITY||LS Mean Difference|3.5||||0.002|TWO_SIDED|95.0|1.25|5.75|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||5.75|1.25|0.002
82452263|NCT03078556|164611032|OTHER||Ratio|1.141|||||TWO_SIDED|90.0|1.0533|1.2361|||||Ratio (C/A) of plasma DTG has been presented.|||1.2361|1.0533|
82432076|NCT02720523|164573065|SUPERIORITY||LS Mean Difference|5.93|||<|0.001|TWO_SIDED|95.0|3.64|8.22|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||8.22|3.64|<0.001
82432077|NCT02720523|164573066|SUPERIORITY||Response Rate Difference|34.7|||<|0.001|TWO_SIDED|95.0|17.0|52.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||52.4|17.0|<0.001
82432078|NCT02720523|164573066|SUPERIORITY||Response Rate Difference|51.0|||<|0.001|TWO_SIDED|95.0|34.2|67.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||67.9|34.2|<0.001
82432079|NCT02720523|164573066|SUPERIORITY||Response Rate Difference|53.6|||<|0.001|TWO_SIDED|95.0|37.1|70.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||70.1|37.1|<0.001
82432080|NCT02720523|164573067|SUPERIORITY||Response Rate Difference|30.6|||<|0.001|TWO_SIDED|95.0|15.5|45.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||45.7|15.5|<0.001
82432081|NCT02720523|164573067|SUPERIORITY||Response Rate Difference|51.0|||<|0.001|TWO_SIDED|95.0|35.6|66.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||66.4|35.6|<0.001
82432082|NCT02720523|164573067|SUPERIORITY||Response Rate Difference|43.9|||<|0.001|TWO_SIDED|95.0|28.5|59.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||59.3|28.5|<0.001
82432083|NCT02720523|164573068|SUPERIORITY||Response Rate Difference|22.4||||0.006|TWO_SIDED|95.0|7.4|37.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||37.5|7.4|0.006
82452264|NCT03078556|164611032|OTHER||Ratio|1.3176|||||TWO_SIDED|90.0|1.2616|1.376|||||Ratio (C/A) of plasma 3TC has been presented.|||1.3760|1.2616|
82452265|NCT03078556|164611033|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma DTG has been presented.|||0.000|0.000|
82537349|NCT04310579|164773912|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.03||||0.64|TWO_SIDED|90.0|0.91|1.17||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.17|0.91|0.64
82648727|NCT02570165|165013198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|204.6|||||TWO_SIDED|95.0|137.2|272.1|||||The 95% confidence interval for the difference between 150 µg Batefenterol and Placebo was estimated.|||272.10|137.20|
82432084|NCT02720523|164573068|SUPERIORITY||Response Rate Difference|16.3||||0.026|TWO_SIDED|95.0|2.1|30.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||30.6|2.1|0.026
82432085|NCT02720523|164573068|SUPERIORITY||Response Rate Difference|25.8||||0.002|TWO_SIDED|95.0|10.6|41.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factor prior bDMARD use.|Response Rate Difference = Upadacitinib - Placebo|||41.0|10.6|0.002
82432086|NCT02720523|164573069|SUPERIORITY||LS Mean Difference|2.66||||0.04|TWO_SIDED|95.0|0.12|5.2|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||5.20|0.12|0.040
82432087|NCT02720523|164573069|SUPERIORITY||LS Mean Difference|1.79||||0.169|TWO_SIDED|95.0|-0.77|4.35|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||4.35|-0.77|0.169
82432088|NCT02720523|164573069|SUPERIORITY||LS Mean Difference|0.85||||0.516|TWO_SIDED|95.0|-1.73|3.43|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||3.43|-1.73|0.516
82537350|NCT04310579|164773912|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.06||||0.24|TWO_SIDED|90.0|0.98|1.15||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 1 with treatment as a categorical variable and participant as a random effect||1.15|0.98|0.24
82648728|NCT02570165|165013198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|208.9|||||TWO_SIDED|95.0|138.7|279.2|||||The 95% confidence interval for the difference between 300 µg Batefenterol and Placebo was estimated.|||279.20|138.70|
82432089|NCT02720523|164573070|SUPERIORITY||LS Mean Difference|-2.54||||0.021|TWO_SIDED|95.0|-4.68|-0.39|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-0.39|-4.68|0.021
82432090|NCT02720523|164573070|SUPERIORITY||LS Mean Difference|-2.06||||0.08|TWO_SIDED|95.0|-4.36|0.25|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||0.25|-4.36|0.080
82432091|NCT02720523|164573070|SUPERIORITY||LS Mean Difference|-1.56||||0.22|TWO_SIDED|95.0|-4.06|0.94|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||0.94|-4.06|0.220
82432092|NCT02720523|164573071|SUPERIORITY||LS Mean Difference|-1.81|||<|0.001|TWO_SIDED|95.0|-2.57|-1.04|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.04|-2.57|<0.001
82432093|NCT02720523|164573071|SUPERIORITY||LS Mean Difference|-1.82|||<|0.001|TWO_SIDED|95.0|-2.59|-1.05|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.05|-2.59|<0.001
82432094|NCT02720523|164573071|SUPERIORITY||LS Mean Difference|-1.96|||<|0.001|TWO_SIDED|95.0|-2.73|-1.18|||Mixed Effect Model Repeat Measurement|MMRM model with fixed effects of treatment, visit and treatment-by-visit interaction, prior bDMARD use, and baseline value as covariate.|Difference = Upadacitinib - Placebo|||-1.18|-2.73|<0.001
82452266|NCT03078556|164611033|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma 3TC has been presented.|||0.000|0.000|
82432095|NCT02340169|164573072|OTHER||||||||||||||||||Adrenal suppression rates in the evaluable population were 35% (21 out of 60), 43.3% (13 out of 30) and 20% (2 out of 10) in Cohorts 1, 2 a nd 3, respectively.|||
82432096|NCT00480740|164573075|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of dexmedetomindine plus sevoflurane compared with the baseline (sevoflurane alone) for any given variable was reached when the difference (steady-state \[dexmedetomidine + sevoflurane\]-baseline \[sevoflurane0\]/baseline \[sevoflurane\]0 and its associated 95% confidence interval (CI) fell completely withing the range of +/-20% indicated by the gray column.||||||0.05||95.0||||The original study design was powered to achieve at least 80% power to detect noninferiority with the two-tailed alpha level set at 0.05 for data with two measurements.|t-test, 2 sided|||||||0.05
82452267|NCT03078556|164611034|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.004|0.0|||||Median Difference of plasma DTG has been presented.|||0.000|-0.004|
82452268|NCT03078556|164611034|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0|||||Median Difference of plasma 3TC has been presented.|||0.000|0.000|
82452269|NCT03078556|164611035|OTHER||Median Difference (Final Values)|-0.127|||||TWO_SIDED|90.0|-0.5|0.248|||||Median Difference of plasma DTG has been presented.|||0.248|-0.500|
82452270|NCT03078556|164611035|OTHER||Median Difference (Final Values)|-0.126|||||TWO_SIDED|90.0|-0.253|-0.001|||||Median Difference of plasma 3TC has been presented.|||-0.001|-0.253|
82452271|NCT03078556|164611036|OTHER||Median Difference (Final Values)|-0.127|||||TWO_SIDED|90.0|-0.497|0.132|||||Median Difference of plasma DTG has been presented.|||0.132|-0.497|
82537351|NCT04310579|164773913|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.1||||0.05|TWO_SIDED|90.0|1.02|1.19||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.19|1.02|0.05
82537352|NCT04310579|164773913|EQUIVALENCE|A difference in exposure was concluded if the 2-sided 90% CI of the geometric mean ratio excluded 1, which is standard in pharmacokinetic studies|Geometric mean ratio|1.27|||<|0.001|TWO_SIDED|90.0|1.19|1.36||Secondary analyses are not adjusted for multiplicity.|Mixed Models Analysis||Comparison was the effect of oxycodone and quetiapine compared to oxycodone and placebo.|Area under the curve was log-transformed and the values between study treatments were compared using a linear mixed effects model on day 5 with treatment as a categorical variable and participant as a random effect||1.36|1.19|<0.001
82537353|NCT01167426|164773983|SUPERIORITY_OR_OTHER||Difference in mean ranks|79.6|||<|0.0001||95.0|||||Wilcoxon Signed-Rank||Difference in mean ranks between Week 2 and Week 6|Comparison of Week 2 (20 mg/1.0 mL utilizing autoject 2 for glass syringe) to Week 6 (20 mg/0.5 mL utilizing the autoject 2 20 mg/0.5 mL).||||<0.0001
82432097|NCT03299244|164573079|NON_INFERIORITY|Etelcalcetide was considered non-inferior if the upper bound of the two-sided 95% confidence interval of the treatment difference (Cinacalcet - Etelcalcetide) was smaller than 12%, or if the lower bound of (Etelcalcetide - Cinacalcet) greater than -12%. If this criterion was met, the 2 key secondary endpoints were tested sequentially. If both key secondary endpoints were statistically significant, the other secondary endpoints were to be formally tested at an overall significance level of 0.05.|Treatment Difference|4.52|||||TWO_SIDED|95.0|-3.05|12.09|||||Treatment difference (Etelcalcetide - Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|"The analysis was conducted on the full analysis set (637 participants). Imputation under the non-inferiority null method was applied to participants who did not have PTH data during the EAP.~The Mantel-Haenszel estimator was used to calculate the treatment (Cinacalcet - Etelcalcetide), stratified by screening PTH level (\< 900 pg/mL, ≥ 900 pg/mL), screening serum cCa (\< 9.0 mg/dL, ≥ 9.0 mg/dL) measured by the central laboratory, and country (China versus non-China)."||12.09|-3.05|
82432098|NCT03299244|164573080|SUPERIORITY|Testing of this key secondary efficacy endpoint at an overall significance level of 0.05 was to be performed if non-inferiority was demonstrated for the primary endpoint.|Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.47|2.77|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||2.77|1.47|<0.001
82432099|NCT03299244|164573081|SUPERIORITY|Testing of this key secondary efficacy endpoint at an overall significance level of 0.05 was to be performed if non-inferiority was demonstrated for the primary endpoint, and superiority was demonstrated for the previous key secondary endpoint.|Odds Ratio (OR)|1.42||||0.033|TWO_SIDED|95.0|1.03|1.96|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||1.96|1.03|0.033
82432100|NCT03299244|164573082|SUPERIORITY||Difference in Least Squares Means|-2.82|STANDARD_ERROR_OF_MEAN|0.67|<|0.001|TWO_SIDED|95.0|-4.14|-1.5|||Mixed-effects Model Repeated Measures|Model includes treatment group, randomization stratification factors, study week, and study week by treatment as covariates.|Treatment difference (Etelcalcetide - Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region. Standard error of the mean is the standard error of the least squares means difference.|||-1.50|-4.14|<0.001
82537354|NCT01167426|164773984|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Goodness-of-fit p-value comparing overall preference to expected frequencies of 33.3% in each category. That is, no preference across the full sample of patients in the study.|Chi-squared|||||||<0.0001
82537355|NCT02131324|164773997|EQUIVALENCE|Two-sided hypothesis testing was conducted for all the tests. Resulting p-values less than 0.05 were considered statistically significant unless noted otherwise. No adjustments of p values were made for multiple comparisons.||||||0.086|||||||ANOVA|||Two-sided hypothesis testing was conducted for all the tests. Resulting p-values less than 0.05 were considered statistically significant unless noted otherwise. No adjustments of p values were made for multiple comparisons.||||0.086
82537356|NCT00920686|164773999|SUPERIORITY_OR_OTHER|||||||0.6407|||||||Log Rank|||||||0.6407
82537357|NCT02219490|164774011|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82648729|NCT02570165|165013198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.1|||||TWO_SIDED|95.0|138.6|283.7|||||The 95% confidence interval for the difference between 600 µg Batefenterol and Placebo was estimated.|||283.70|138.60|
82432101|NCT03299244|164573083|SUPERIORITY||Odds Ratio (OR)|1.16||||0.41|TWO_SIDED|95.0|0.82|1.65|||Cochran-Mantel-Haenszel|CMH test stratified by screening iPTH level, screening cCa level, and country/region.|Odds ratio (Etelcalcetide : Cinacalcet) stratified by screening iPTH level, screening cCa level, and country/region.|||1.65|0.82|0.41
82432102|NCT01166347|164573121|NON_INFERIORITY|The non-inferiority margin was 15%.|Difference in Percentages|3.7||||0.011|ONE_SIDED|95.0||12.56|||Wald test||Difference = Control - HeartWare|Primary endpoint is 2 year survival free from disabling stroke (Modified Rankin Scale \>=4), death, exchange, explant due to device malfunction or urgent transplantation. Subjects who are electively transplanted or explanted due to recovery (no disabling stroke) must survive to 2 years post original implant to be considered a success.||12.56||0.0110
82452272|NCT03078556|164611036|OTHER||Median Difference (Final Values)|-0.248|||||TWO_SIDED|90.0|-0.376|-0.001|||||Median Difference of plasma 3TC has been presented.|||-0.001|-0.376|
82452273|NCT03078556|164611045|OTHER||Ratio|1.2774|||||TWO_SIDED|90.0|1.1931|1.3676|||||Ratio (B/A) of plasma DTG has been presented.|||1.3676|1.1931|
82452274|NCT03078556|164611045|OTHER||Ratio|1.0475|||||TWO_SIDED|90.0|1.0185|1.0773|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0773|1.0185|
82452275|NCT03078556|164611046|OTHER||Ratio|1.1599|||||TWO_SIDED|90.0|1.0711|1.256|||||Ratio (C/A) of plasma DTG has been presented.|||1.2560|1.0711|
82452276|NCT03078556|164611046|OTHER||Ratio|1.0807|||||TWO_SIDED|90.0|1.0539|1.1081|||||Ratio (C/A) of plasma 3TC has been presented.|||1.1081|1.0539|
82432103|NCT01166347|164573122|SUPERIORITY||Difference in Percentages|1.1||||0.5922|TWO_SIDED|95.0|-8.5|10.8||If p\<0.05, then the test is statistically significant.|Regression, Logistic|Treatment as the only independent variable.|Difference = HeartWare - Control|If non-inferiority is established for the primary endpoint, statistical testing for superiority and p-value estimation for the 3 secondary endpoints (incidence of bleeding, incidence of major infection, overall survival) will be performed in a pre-specified sequence and testing will continue at the nominal alpha level until the first non-significant result. This fixed sequence procedure strongly controls the family-wise error rate for the collection of the 3 secondary endpoints.||10.8|-8.5|0.5922
82432104|NCT03541499|164573152|SUPERIORITY|||||||0.807|||||||Barnard's exact test|||At any time point||||0.807
82452277|NCT03078556|164611047|OTHER||Ratio|0.7868|||||TWO_SIDED|90.0|0.7363|0.8408|||||Ratio (B/A) of plasma DTG has been presented.|||0.8408|0.7363|
82452278|NCT03078556|164611047|OTHER||Ratio|0.967|||||TWO_SIDED|90.0|0.9442|0.9904|||||Ratio (B/A) of plasma 3TC has been presented.|||0.9904|0.9442|
82452279|NCT03078556|164611048|OTHER||Ratio|0.8658|||||TWO_SIDED|90.0|0.8021|0.9347|||||Ratio (C/A) of plasma DTG has been presented.|||0.9347|0.8021|
82452280|NCT03078556|164611048|OTHER||Ratio|0.9403|||||TWO_SIDED|90.0|0.9207|0.9604|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9604|0.9207|
82452281|NCT03078556|164611049|OTHER||Ratio|0.7859|||||TWO_SIDED|90.0|0.7318|0.844|||||Ratio (B/A) of plasma DTG has been presented.|||0.8440|0.7318|
82452282|NCT03078556|164611049|OTHER||Ratio|0.9704|||||TWO_SIDED|90.0|0.9157|1.0284|||||Ratio (B/A) of plasma 3TC has been presented.|||1.0284|0.9157|
82452283|NCT03078556|164611050|OTHER||Ratio|0.8571|||||TWO_SIDED|90.0|0.7914|0.9282|||||Ratio (C/A) of plasma DTG has been presented.|||0.9282|0.7914|
82537358|NCT02219490|164774011|SUPERIORITY||Cox Proportional Hazard Ratio|0.126|||<|0.001|TWO_SIDED|95.0|0.044|0.358|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.358|0.044|<0.001
82537359|NCT02219490|164774012|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82537360|NCT02219490|164774012|SUPERIORITY||Cox Proportional Hazard Ratio|0.031||||0.007|TWO_SIDED|95.0|0.003|0.38|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.380|0.003|0.007
82537361|NCT02219490|164774013|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82537362|NCT02219490|164774013|SUPERIORITY||Cox Proportional Hazard Ratio|0.038|||<|0.001|TWO_SIDED|95.0|0.009|0.156|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.156|0.009|<0.001
82432105|NCT03541499|164573152|SUPERIORITY|||||||0.043|||||||Barnard's exact test|||At any time point||||0.043
82432106|NCT03541499|164573153|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
82452284|NCT03078556|164611050|OTHER||Ratio|0.9153|||||TWO_SIDED|90.0|0.8613|0.9728|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9728|0.8613|
82432107|NCT03541499|164573153|SUPERIORITY|||||||0.301|||||||Barnard's exact test|||Any time point||||0.301
82432108|NCT03541499|164573154|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
82432109|NCT03541499|164573154|SUPERIORITY|||||||0.009|||||||Barnard's exact test|||Any time point||||0.009
82432110|NCT03541499|164573156|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgA, any time point||||0.526
82432111|NCT03541499|164573156|SUPERIORITY|||||||0.1|||||||Barnard's exact test|||IgA, any time point||||0.100
82432112|NCT03541499|164573156|SUPERIORITY|||||||0.055|||||||Barnard's exact test|||IgG, any time point||||0.055
82432113|NCT03541499|164573156|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgG, any time point||||0.023
82432114|NCT03541499|164573157|SUPERIORITY|||||||0.174|||||||Barnard's exact test|||IgA, any time point||||0.174
82432115|NCT03541499|164573157|SUPERIORITY|||||||0.006|||||||Barnard's exact test|||IgA, any time point||||0.006
82432116|NCT03541499|164573157|SUPERIORITY|||||||0.745|||||||Barnard's exact test|||IgG, any time point||||0.745
82452285|NCT03078556|164611051|OTHER||Ratio|1.2632|||||TWO_SIDED|90.0|1.1811|1.3511|||||Ratio (B/A) of plasma DTG has been presented.|||1.3511|1.1811|
82452286|NCT03078556|164611051|OTHER||Ratio|0.9598|||||TWO_SIDED|90.0|0.9268|0.9941|||||Ratio (B/A) of plasma 3TC has been presented.|||0.9941|0.9268|
82452287|NCT03078556|164611052|OTHER||Ratio|1.1425|||||TWO_SIDED|90.0|1.0597|1.2317|||||Ratio (C/A) of plasma DTG has been presented.|||1.2317|1.0597|
82452288|NCT03078556|164611052|OTHER||Ratio|0.9548|||||TWO_SIDED|90.0|0.9299|0.9804|||||Ratio (C/A) of plasma 3TC has been presented.|||0.9804|0.9299|
82432117|NCT03541499|164573157|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgG, any time point||||0.023
82432118|NCT03541499|164573163|SUPERIORITY|||||||0.023|||||||Barnard's exact test|||IgA, any time point||||0.023
82432119|NCT03541499|164573163|SUPERIORITY|||||||0.142|||||||Barnard's exact test|||IgA, any time point||||0.142
82432120|NCT03541499|164573163|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgG, any time point||||0.526
82432121|NCT03541499|164573163|SUPERIORITY|||||||0.142|||||||Barnard's exact test|||IgG, any time point||||0.142
82432122|NCT03541499|164573164|SUPERIORITY|||||||0.836|||||||Barnard's exact test|||IgA, any time point||||0.836
82432123|NCT03541499|164573164|SUPERIORITY|||||||1|||||||Barnard's exact test|||IgA, any time point||||1.000
82452289|NCT03078556|164611053|OTHER||Ratio|1.1839|||||TWO_SIDED|90.0|1.0921|1.2834|||||Ratio (B/A) of plasma DTG has been presented|||1.2834|1.0921|
82537363|NCT02219490|164774014|SUPERIORITY|||||||0.86|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.860
82577391|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.073||0.7229|TWO_SIDED|95.0|-0.12|0.17|||MMRM|||Loss of Weight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.17|-0.12|0.7229
82432124|NCT03541499|164573164|SUPERIORITY|||||||0.526|||||||Barnard's exact test|||IgG, any time point||||0.526
82432125|NCT03541499|164573164|SUPERIORITY|||||||0.119|||||||Barnard's exact test|||IgG, any time point||||0.119
82432126|NCT03541499|164573165|SUPERIORITY|||||||0.271|||||||Barnard's exact test|||Any time point||||0.271
82432127|NCT03541499|164573165|SUPERIORITY|||||||0.226|||||||Barnard's exact test|||Any time point||||0.226
82432128|NCT03541499|164573166|SUPERIORITY|||||||0.783|||||||Barnard's exact test|||Any time point||||0.783
82452290|NCT03078556|164611053|OTHER||Ratio|0.8874|||||TWO_SIDED|90.0|0.834|0.9443|||||Ratio (B/A) of plasma 3TC has been presented|||0.9443|0.8340|
82452291|NCT03078556|164611054|OTHER||Ratio|1.078|||||TWO_SIDED|90.0|0.9958|1.167|||||Ratio (B/A) of plasma DTG has been presented|||1.1670|0.9958|
82432129|NCT03541499|164573166|SUPERIORITY|||||||0.001|||||||Barnard's exact test|||Any time point||||0.001
82432130|NCT03541499|164573167|SUPERIORITY|||||||0.745|||||||Barnard's exact test|||Any time point||||0.745
82432131|NCT03541499|164573167|SUPERIORITY|||||||0.068|||||||Barnard's exact test|||Any time point||||0.068
82432132|NCT03541499|164573168|SUPERIORITY|||||||0.585|||||||Barnard's exact test|||Any time point||||0.585
82432133|NCT03541499|164573168|SUPERIORITY|||||||1|||||||Barnard's exact test|||Any time point||||1.000
82432134|NCT00145626|164573190|SUPERIORITY_OR_OTHER||Cumulative Incidence|0.214|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED||||||||The cumulative incidence estimate and its standard error for occurrence of regimen-related mortality by the end of the first 100 days post-transplant was calculated.|||||
82432135|NCT01392573|164573205|SUPERIORITY_OR_OTHER||Treatment contrast|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.84|||ANCOVA|ANCOVA model with treatment, country and previous antidiabetic treatment as fixed effects and baseline HbA1c value as covariate||||-0.84|-1.25|<0.0001
82432136|NCT00200967|164573216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|7.0||0.99||95.0|-14.0|14.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for AM PEF rate.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design. A sample size of 40 participants per genotype was required to detect a difference of 25 L/min in AM PEF (and relevant effect sizes for secondary outcomes) with a two-sided, 0.05 significance level test with 90% statistical power and a 15% drop-out rate.||14|-14|0.99
82432137|NCT00200967|164573217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|7.0||0.82||95.0|-15.0|12.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for PM PEF rate.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||12|-15|0.82
82432138|NCT00200967|164573218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.31||95.0|-1.6|0.5|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for PEF variability.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.5|-1.6|0.31
82432139|NCT00200967|164573219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.09||95.0|-0.02|0.07|||Wilcoxon (Mann-Whitney)||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for asthma symptoms.|A mixed-effects linear model was attempted but could not converge because very few symptoms were recorded, so a nonparametric analysis was applied.||0.07|-0.02|0.09
82432140|NCT00200967|164573220|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.25||95.0|-0.1|0.2|||Wilcoxon (Mann-Whitney)||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for rescue medication use.|A mixed-effects linear model was attempted but could not converge because very few usages of rescue medications were recorded, so a nonparametric analysis was applied.||0.2|-0.1|0.25
82432141|NCT00200967|164573221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.34||95.0|-0.1|0.03|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry FEV1, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.03|-0.10|0.34
82452292|NCT03078556|164611054|OTHER||Ratio|0.9049|||||TWO_SIDED|90.0|0.8474|0.9663|||||Ratio (B/A) of plasma 3TC has been presented|||0.9663|0.8474|
82452293|NCT03078556|164611055|OTHER||Ratio|1.1545|||||TWO_SIDED|90.0|1.0208|1.3058|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.3058|1.0208|
82432142|NCT00200967|164573222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.91||95.0|-0.08|0.07|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry FVC, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.07|-0.08|0.91
82432143|NCT00200967|164573223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|7.0||0.93||95.0|-15.0|14.0|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for Spirometry PEF rate, pre-bronchodilator.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||14|-15|0.93
82432144|NCT00200967|164573224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.08||0.13||95.0|-0.04|0.31|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for eNO.|A mixed-effects linear model was applied to the natural logarithm of eNO to account for the repeated measurements within each treatment period of the crossover design.||0.31|-0.04|0.13
82432145|NCT00200967|164573225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.24||0.79||95.0|-0.56|0.43|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for EBC.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.43|-0.56|0.79
82432146|NCT00200967|164573226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|STANDARD_ERROR_OF_MEAN|0.45||0.004||95.0|0.43|2.21|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for methacholine PC20.|A mixed-effects linear model was applied to the base-2 logarithm of the methacholine PC20 to account for the repeated measurements within each treatment period of the crossover design.||2.21|0.43|0.004
82432147|NCT00200967|164573227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.89||95.0|-0.23|0.26|||Mixed Models Analysis||The comparison represents the difference between Arg/Arg and Gly/Gly participants based on the change between placebo salmeterol and active salmeterol for ACQ.|A mixed-effects linear model was applied to account for the repeated measurements within each treatment period of the crossover design.||0.26|-0.23|0.89
82452294|NCT03078556|164611055|OTHER||Ratio|0.9577|||||TWO_SIDED|90.0|0.9126|1.0049|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.0049|0.9126|
82452295|NCT03078556|164611056|OTHER||Ratio|1.3256|||||TWO_SIDED|90.0|1.1837|1.4845|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.4845|1.1837|
82537364|NCT02219490|164774014|SUPERIORITY|||||||0.997||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.997
82537365|NCT02219490|164774015|SUPERIORITY|||||||0.608|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.608
82432148|NCT00276406|164573228|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||Analysis was adjusted for BMI and baseline values and incorporated Bonferroni corrections.||||<0.01
82432149|NCT00276406|164573232|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||ANCOVA|||Analysis was adjusted for BMI and baseline values and incorporated Bonferroni corrections.||||0.096
82432150|NCT00276406|164573233|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||||||0.02
82432151|NCT00276406|164573234|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|||Bowel diaries were analyzed by computing the mean scores for the 9-day baseline period and separately for the last 7 days of the treatment period (i.e., when the pyridostigmine dose was stable in each subject.) Individual subject treatment period mean bowel function scores were then compared using a similar ANCOVA model, with the corresponding individual subject baseline mean bowel function score and gender as covariates.||||0.005
82432152|NCT00276406|164573235|SUPERIORITY_OR_OTHER||||||<|0.04||95.0|||||ANCOVA|||Bowel diaries were analyzed by computing the mean scores for the 9-day baseline period and separately for the last 7 days of the treatment period (i.e., when the pyridostigmine dose was stable in each subject.) Individual subject treatment period mean bowel function scores were then compared using a similar ANCOVA model, with the corresponding individual subject baseline mean bowel function score and gender as covariates.||||<0.04
82432153|NCT00294671|164573257|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in NIS+7 change from baseline to 2 years.||||<0.001
82432154|NCT00294671|164573257|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in NIS+7 change from baseline to 1years.||||0.02
82432155|NCT00294671|164573258|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in Kumamoto score change from baseline to 2 years.||||0.002
82432156|NCT00294671|164573258|SUPERIORITY_OR_OTHER|||||||0.1|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in Kumamoto score change from baseline to 1 year.||||0.10
82432157|NCT00294671|164573259|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in mBMI change from baseline to 2 years.||||0.21
82432158|NCT00294671|164573259|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in mBMI change from baseline to 1 year.||||0.43
82452296|NCT03078556|164611056|OTHER||Ratio|0.9114|||||TWO_SIDED|90.0|0.8658|0.9593|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.9593|0.8658|
82537366|NCT02219490|164774015|SUPERIORITY|||||||0.992||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.992
82652236|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.026||||0.848|TWO_SIDED|95.0|-0.295|0.243||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.243|-0.295|0.8480
82432159|NCT00294671|164573260|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 physical component change from baseline to 2 years.||||0.001
82432160|NCT00294671|164573260|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 physical component change from baseline to 1 year.||||0.06
82432161|NCT00294671|164573261|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 mental component change from baseline to 2 years.||||0.06
82432162|NCT00294671|164573261|SUPERIORITY_OR_OTHER|||||||0.37|||||||t-test, 2 sided|||Longitudinal analysis of the difference between placebo and diflunisal treatment groups in SF-36 mental component change from baseline to 1 year.||||0.37
82432163|NCT01734785|164573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-0.93|-0.46|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c as linear covariate(s) \& baseline Estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-0.46|-0.93|<0.0001
82432164|NCT01734785|164573262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001||95.0|-1.02|-0.55|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo: change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c as linear covariate(s) \& baseline Estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-0.55|-1.02|<0.0001
82432165|NCT01734785|164573263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001||95.0|-2.61|-1.57|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline FPG, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.57|-2.61|<0.0001
82432166|NCT01734785|164573263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001||95.0|-2.31|-1.28|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo: change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline FPG, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.28|-2.31|<0.0001
82432167|NCT01734785|164573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|-2.92|-1.52|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 25 mg minus Placebo.|Superiority of Empagliflozin 25 mg vs. placebo: change in body weight using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline weight, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-1.52|-2.92|<0.0001
82432168|NCT01734785|164573264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001||95.0|-3.47|-2.07|||Mixed Models Analysis|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as Empagliflozin 10 mg minus Placebo.|Superiority of Empagliflozin 10 mg vs. placebo:change in body weight using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. Model includes baseline weight, baseline HbA1c as linear covariate(s) \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effect(s).||-2.07|-3.47|<0.0001
82452297|NCT03078556|164611057|OTHER||Ratio|1.1481|||||TWO_SIDED|90.0|1.0154|1.2982|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2982|1.0154|
82452298|NCT03078556|164611057|OTHER||Ratio|0.9524|||||TWO_SIDED|90.0|0.9086|0.9983|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.9983|0.9086|
82452299|NCT03078556|164611058|OTHER||Ratio|1.3176|||||TWO_SIDED|90.0|1.175|1.4775|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.4775|1.1750|
82452300|NCT03078556|164611058|OTHER||Ratio|0.9048|||||TWO_SIDED|90.0|0.8592|0.9528|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.9528|0.8592|
82452301|NCT03078556|164611059|OTHER||Ratio|1.0808|||||TWO_SIDED|90.0|0.9527|1.2261|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2261|0.9527|
82452302|NCT03078556|164611059|OTHER||Ratio|0.7097|||||TWO_SIDED|90.0|0.6474|0.7779|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.7779|0.6474|
82452303|NCT03078556|164611060|OTHER||Ratio|1.2096|||||TWO_SIDED|90.0|1.0521|1.3908|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.3908|1.0521|
82432169|NCT02476032|164573265|OTHER|||||||0.05|TWO_SIDED|90.0||||P-values for pairwise group comparisons were adjusted for multiple comparisons using the Tukey method.|t-test, 2 sided|||Within group comparisons: t-tests comparing the mean change to 0 were utilized. P-values less than 0.05 were considered statistically significant. SAS V9.3 (SAS Institute Inc., Cary, NC) was used for analysis. The sample size of 20 participants per group was based on having 90% power to detect a one standard deviation difference between the DO-strip groups and the placebo group means using ANOVA with a 0.05 level of significance.||||0.05
82432170|NCT02476032|164573266|OTHER|||||||0.05|TWO_SIDED|90.0||||P-values for pairwise group comparisons were adjusted for multiple comparisons using the Tukey method.|t-test, 2 sided|||Within group comparisons: t-tests comparing the mean change to 0 were utilized. P-values less than 0.05 were considered statistically significant. SAS V9.3 (SAS Institute Inc., Cary, NC) was used for analysis. The sample size of 20 participants per group was based on having 90% power to detect a one standard deviation difference between the DO-strip groups and the placebo group means using ANOVA with a 0.05 level of significance.||||0.05
82432171|NCT03308968|164573275|OTHER||Least square (LS) mean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.84|-2.42|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) method with treatment, sex, region, special group of treatment failure (yes or no), migraine classification (that is; CM or EM), and treatment-by-migraine classification interaction as fixed effects, and baseline number of migraine days and years since onset of migraines as covariates. The stratification factors (as randomized) were used in the model.||-2.42|-3.84|<0.0001
82452304|NCT03078556|164611060|OTHER||Ratio|0.6826|||||TWO_SIDED|90.0|0.5861|0.795|||||Ratio (Cfed/C) of plasma 3TC has been presented|||0.7950|0.5861|
82537367|NCT02219490|164774016|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82537368|NCT02219490|164774016|SUPERIORITY||Cox Proportional Hazard Ratio|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.313|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.313|0.057|<0.001
82537369|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.7||0.151|TWO_SIDED|95.0|-0.37|2.37|||ANCOVA||Difference = with SVR12 minus without SVR12|"Final Treatment Visit~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||2.37|-0.37|0.151
82537370|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.78||0.878|TWO_SIDED|95.0|-1.64|1.4|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 12~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||1.4|-1.64|0.878
82537371|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.72|=|0.199|TWO_SIDED|95.0|-2.33|0.48|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 24~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||0.48|-2.33|=0.199
82537372|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.93||0.021|TWO_SIDED|95.0|-4.0|-0.33|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 52~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.33|-4|0.021
82537373|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|0.89||0.006|TWO_SIDED|95.0|-4.22|-0.71|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 104~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.71|-4.22|0.006
82648730|NCT01455545|165013199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.999||||0.967|TWO_SIDED|95.0|0.962|1.037|||Regression, Logistic|||Ho = no differences in ASK-20 results between both groups H1= there are differences between both groups. Comparison of two means. Unilateral test. (1-alpha)=95%. Statistic power: 90%. Precision: 10. S square: 256. Sample size: 44. Sample size adjusted to losses: 46 patients.||1.037|0.962|0.967
82432172|NCT03308968|164573275|OTHER||LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-4.19|-2.78|||ANCOVA|||Analysis was performed using ANCOVA method with treatment, sex, region, special group of treatment failure (yes or no), migraine classification (that is; CM or EM), and treatment-by-migraine classification interaction as fixed effects, and baseline number of migraine days and years since onset of migraines as covariates. The stratification factors (as randomized) were used in the model.||-2.78|-4.19|<0.0001
82432173|NCT02482298|164573303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.06367|||TWO_SIDED|90.0|-0.061|0.151|||Mixed Models Analysis|||||0.1510|-0.0610|
82452305|NCT03078556|164611061|OTHER||Median Difference (Final Values)|0.254|||||TWO_SIDED|90.0|0.25|0.378|||||Median Difference of plasma DTG has been presented|||0.378|0.250|
82452306|NCT03078556|164611061|OTHER||Median Difference (Final Values)|0.125|||||TWO_SIDED|90.0|0.0|0.127|||||Median Difference of plasma 3TC has been presented|||0.127|0.000|
82537374|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-2.58|STANDARD_ERROR_OF_MEAN|0.92||0.005|TWO_SIDED|95.0|-4.38|-0.79|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 156~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||-0.79|-4.38|0.005
82537375|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|1.0||0.172|TWO_SIDED|95.0|-3.32|0.59|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 208~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||0.59|-3.32|0.172
82537376|NCT02219490|164774017|SUPERIORITY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|1.14||0.322|TWO_SIDED|95.0|-3.35|1.1|||ANCOVA||Difference = with SVR12 minus without SVR12|"Post-Treatment Week 260~The effect of sustained virologic response on change from baseline in FibroScan score was evaluated by comparing mean change from baseline between subjects who achieved SVR12 and those who did not using ANCOVA analyses. SVR12 status was included as a factor and baseline FibroScan score was included as a covariate in the ANCOVA model."||1.1|-3.35|0.322
82537377|NCT00335556|164774019|OTHER||Log Rank Test Statistic|5.419||||0.0199|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with Stage II-IV diffuse anaplastic Wilms' tumor on AREN0321 and NWTS-5 (NCT00002610) were compared using the log-rank test.||||.0199
82537378|NCT00335556|164774020|OTHER||Log Rank Test Statistic|0.8814||||0.3478|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients with Stage I-IV malignant rhabdoid tumors on AREN0321 and National Wilms Tumor Study-5 -- Treatment of Relapsed Patients, A National Wilms Tumor Study Group Phase III Study (NCT00002610) were compared using the log-rank test.||||.3478
82537379|NCT00335556|164774022|OTHER||Log Rank Test Statistic|3.6216||||0.057|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with Stage I focal and diffuse anaplastic Wilms tumors on AREN0321 and National Wilms Tumor Study-5 -- Treatment of Relapsed Patients, A National Wilms Tumor Study Group Phase III Study (NCT00002610) were compared using the log-rank test.||||.0570
82537380|NCT01219855|164774029|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Z-test cmpared 2 independ. proportions|||||||<0.0001
82537381|NCT01219855|164774030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Mixed effect model|||||||<0.01
82537382|NCT01219855|164774031|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed effect model|||||||<0.0001
82537383|NCT01219855|164774031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Mixed effect model|||||||<0.01
82432174|NCT02482298|164573303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0801|STANDARD_ERROR_OF_MEAN|0.06192|||TWO_SIDED|90.0|-0.023|0.1832|||Mixed Models Analysis|||||0.1832|-0.0230|
82452307|NCT03078556|164611062|OTHER||Median Difference (Final Values)|0.126|||||TWO_SIDED|90.0|0.0|0.25|||||Median Difference of plasma DTG has been presented|||0.250|0.000|
82452308|NCT03078556|164611062|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.125|||||Median Difference of plasma 3TC has been presented|||0.125|0.000|
82432175|NCT02482298|164573305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1192|STANDARD_ERROR_OF_MEAN|0.05059|||TWO_SIDED|90.0|0.035|0.2035|||Mixed Models Analysis|||||0.2035|0.0350|
82537384|NCT01219855|164774032|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed effect model|||||||<0.0001
82537385|NCT01219855|164774033|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Z-test compared 2 independ. proportions|||||||<0.05
82537386|NCT01219855|164774034|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Z-test compared 2 independ. proportions|||The proportion of subjects achieving a ≥20% decrease in plasma iPTH at EOT was greater in the CTAP101 Capsules 60 and 90 μg groups compared to the corresponding placebo group.||||<0.001
82537387|NCT02595398|164774040|SUPERIORITY||Difference in percentages|31.25|||<|0.001|TWO_SIDED|95.0|15.5|45.9||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between country strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the country, i.e., US+Israel and India.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|A total sample size of 150 subjects in a 3:2 randomization had 90% power to detect a difference between treatments in the proportion of subjects showing improvement is 0.60 for treated and 0.34 for sham. The primary analysis was a test of superiority of the CLS-TA arm over the sham arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by country.||45.9|15.5|<0.001
82432176|NCT02482298|164573305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0975|STANDARD_ERROR_OF_MEAN|0.04923|||TWO_SIDED|90.0|0.0155|0.1795|||Mixed Models Analysis|||||0.1795|0.0155|
82537388|NCT01664104|164774079|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
82432177|NCT03332173|164573358|SUPERIORITY||||||<|0.0001||||||P value was based on the exact binomial test against the null hypothesis H0: MRR = 0.30 at a significance level of 0.025 (1-sided)|Exact binomial test|||Zanubrutinib versus historical control estimate of 30%||||<0.0001
82452309|NCT03078556|164611063|OTHER||Median Difference (Final Values)|3.017|||||TWO_SIDED|90.0|1.872|4.496|||||Median Difference of plasma DTG has been presented|||4.496|1.872|
82452310|NCT03078556|164611063|OTHER||Median Difference (Final Values)|2.113|||||TWO_SIDED|90.0|1.5|2.751|||||Median Difference of plasma 3TC has been presented|||2.751|1.500|
82537389|NCT01664104|164774079|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
82537390|NCT01664104|164774080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
82537391|NCT01664104|164774080|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 6.||||||<0.0001
82537392|NCT01664104|164774081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 3.||||||<0.0001
82537393|NCT01664104|164774081|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon test|P-value was calculated between baseline versus change at Month 6.||||||<0.0001
82537394|NCT01664104|164774101|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
82537395|NCT01664104|164774101|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
82537396|NCT01664104|164774102|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 3.|Wilcoxon test|||||||<0.0001
82537397|NCT01664104|164774102|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value was calculated between baseline versus change at Month 6.|Wilcoxon test|||||||<0.0001
82537398|NCT01664104|164774103|SUPERIORITY_OR_OTHER|||||||0.6904|||||||t-test|P-value signifies CRP at the start of TCZ treatment by remission status using DAS28-CRP (remission versus no remission).||||||0.6904
82577392|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.071||0.2715|TWO_SIDED|95.0|-0.06|0.22|||MMRM|||Loss of Weight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.06|0.2715
82577393|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.086||0.5421|TWO_SIDED|95.0|-0.12|0.22|||MMRM|||Loss of Weight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.12|0.5421
82432178|NCT04830215|164573382|OTHER||||||<|0.0001||||||MMRM included fixed effect terms for visit, baseline value, an interaction term of baseline value by visit, and trial center.|MMRM|||||||<0.0001
82432179|NCT04830215|164573383|OTHER||||||<|0.0001||||||MMRM included fixed effect terms for visit, baseline value, an interaction term of baseline value by visit, and trial center.|MMRM|||||||<0.0001
82432180|NCT02440139|164573384|SUPERIORITY||difference in sensitivity|-0.124|STANDARD_DEVIATION|0.034|<|0.05|TWO_SIDED|95.0|-0.186|-0.062|||Mixed Models Analysis|||||-0.062|-0.186|<0.05
82432181|NCT02440139|164573385|SUPERIORITY||Difference in LROC curves|-0.14|STANDARD_DEVIATION|0.039|<|0.05|TWO_SIDED|95.0|-0.209|-0.071|||ANOVA|||For each study arm, the difference in the least-squares means of the two arms was estimated. A two-sided 95% confidence interval on this difference in study arms (i.e. unaided minus aided by the software) was used to test the hypothesis that the difference in the area under the LROC curve (AUC). The superiority of ClearRead CT will be concluded if the upper bound of the two-sided 95% confidence interval on the difference is less than zero.||-0.071|-0.209|<0.05
82452311|NCT03078556|164611064|OTHER||Median Difference (Final Values)|2.5|||||TWO_SIDED|90.0|1.748|3.751|||||Median Difference of plasma DTG has been presented|||3.751|1.748|
82537399|NCT01664104|164774103|SUPERIORITY_OR_OTHER|||||||0.6032|||||||t-test|P-value signifies the CRP at the start of TCZ treatment by remission status using SDAI (remission versus no remission).||||||0.6032
82432182|NCT00770562|164573437|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
82432183|NCT00770562|164573438|SUPERIORITY_OR_OTHER|||||||0.001|||||||Fisher Exact|||||||0.001
82432184|NCT00770562|164573439|SUPERIORITY_OR_OTHER|||||||0.015|||||||Fisher Exact|||||||0.015
82432185|NCT04474197|164573451|SUPERIORITY||Least Squares (LS) Mean Difference|2.3|||<|0.0001|TWO_SIDED|95.0|1.5|3.1|||Mixed-effects Model for Repeated Measure|||||3.1|1.5|<0.0001
82432186|NCT04474197|164573451|SUPERIORITY||LS Mean Difference|2.3|||<|0.0001|TWO_SIDED|95.0|1.6|3.1|||Mixed-effects Model for Repeated Measure|||||3.1|1.6|<0.0001
82432187|NCT04474197|164573451|SUPERIORITY||LS Mean Difference|2.2|||<|0.0001|TWO_SIDED|95.0|1.5|2.9|||Mixed-effects Model for Repeated Measure|||||2.9|1.5|<0.0001
82432188|NCT04474197|164573453|SUPERIORITY||LS Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.4|4.6|||Mixed-effects Model for Repeated Measure|||||4.6|2.4|<0.0001
82432189|NCT04474197|164573453|SUPERIORITY||LS Mean Difference|3.0|||<|0.0001|TWO_SIDED|95.0|1.9|4.0|||Mixed-effects Model for Repeated Measure|||||4.0|1.9|<0.0001
82432190|NCT04474197|164573453|SUPERIORITY||LS Mean Difference|2.7|||<|0.0001|TWO_SIDED|95.0|1.8|3.7|||Mixed-effects Model for Repeated Measure|||||3.7|1.8|<0.0001
82432191|NCT00237666|164573462|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82432192|NCT00635349|164573481|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower confidence limit interval was less than -1.0 (1-sided , 97.5% confidence interval)|Mean Difference (Final Values)|1.81||||0.4258|ONE_SIDED|97.5|-6.31||||t-test, 1 sided||||||-6.31|0.4258
82432193|NCT00635349|164573482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0628|ONE_SIDED|97.5|-1.41||||t-test, 1 sided||||||-1.41|0.0628
82432194|NCT00635349|164573483|SUPERIORITY_OR_OTHER|||||||0.0131||||||Day 29: p-value was calculated by fisher exact test|Fisher Exact|||||||0.0131
82432195|NCT00635349|164573483|SUPERIORITY_OR_OTHER|||||||0.9834||||||Day 57; p-value was calculated by Chi-squared test|Chi-squared|||||||0.9834
82537400|NCT01664104|164774103|SUPERIORITY_OR_OTHER|||||||0.6146|||||||t-test|P-value signifies the CRP at the start of TCZ treatment by remission status using CDAI (remission versus no remission).||||||0.6146
82537401|NCT01664104|164774104|SUPERIORITY_OR_OTHER|||||||0.0018|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using DAS28-CRP (remission versus no remission).||||||0.0018
82537402|NCT01664104|164774104|SUPERIORITY_OR_OTHER|||||||0.1617|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using SDAI (remission versus no remission).||||||0.1617
82537403|NCT01664104|164774104|SUPERIORITY_OR_OTHER|||||||0.1296|||||||t-test|P-value signifies the BMI at the start of TCZ treatment by remission status using CDAI (remission versus no remission).||||||0.1296
82537404|NCT01664104|164774107|SUPERIORITY_OR_OTHER|||||||0.5332|||||||t-test|P-value signifies the CRP at the start of TCZ treatment using the morning stiffness ( ≤ 30 minutes versus \> 30 minutes).||||||0.5332
82577394|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.083||0.7215|TWO_SIDED|95.0|-0.14|0.19|||MMRM|||Loss of Weight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.14|0.7215
82452312|NCT03078556|164611064|OTHER||Median Difference (Final Values)|1.503|||||TWO_SIDED|90.0|0.998|2.252|||||Median Difference of plasma 3TC has been presented|||2.252|0.998|
82452313|NCT03078556|164611073|OTHER||Ratio|1.0849|||||TWO_SIDED|90.0|0.9613|1.2245|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.2245|0.9613|
82452314|NCT03078556|164611073|OTHER||Ratio|0.9363|||||TWO_SIDED|90.0|0.8913|0.9836|||||Ratio (Bfed/B) of plasma 3TC has been presented|||0.9836|0.8913|
82452315|NCT03078556|164611074|OTHER||Median Difference (Final Values)|1.2477|||||TWO_SIDED|90.0|1.1013|1.4136|||||Median Difference of plasma DTG has been presented|||1.4136|1.1013|
82452316|NCT03078556|164611074|OTHER||Median Difference (Final Values)|0.8836|||||TWO_SIDED|90.0|0.8351|0.935|||||Median Difference of plasma 3TC has been presented|||0.9350|0.8351|
82452317|NCT03078556|164611075|OTHER||Ratio|0.8661|||||TWO_SIDED|90.0|0.7658|0.9796|||||Ratio (Bfed/B) of plasma DTG has been presented|||0.9796|0.7658|
82648731|NCT01455545|165013200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.001||||0.861|TWO_SIDED|95.0|0.985|1.018|||Regression, Logistic|||||1.018|0.985|0.861
82648732|NCT01455545|165013201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.625||||0.252|TWO_SIDED|95.0|0.706|3.739|||Chi-squared|||Ho = no differences in gender results between both groups H1= there are differences between both groups. Cross tab Chi square||3.739|0.706|0.252
82648733|NCT01455545|165013202|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Chi - square||||0.217
82648734|NCT01455545|165013203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.643|TWO_SIDED|95.0|0.376|1.829|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi square||1.829|0.376|0.643
82648735|NCT01455545|165013204|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.556||||0.155|TWO_SIDED|95.0|0.247|1.253|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||1.253|0.247|0.155
82648736|NCT01455545|165013205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19||||0.107|TWO_SIDED|95.0|0.02|1.763|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||1.763|0.020|0.107
82648737|NCT01455545|165013206|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.849||||0.196|TWO_SIDED|95.0|1.541|2.219|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||2.219|1.541|0.196
82648738|NCT01455545|165013207|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.135||||0.15|TWO_SIDED|95.0|0.618|15.91|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Cross tabs Chi squared test.||15.91|0.618|0.150
82648739|NCT01455545|165013208|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.096||||0.822|TWO_SIDED|95.0|0.492|2.441|||Chi-squared|||Ho = no differences between both groups H1= there are differences between both groups. Comparison of two proportions. Unilateral test. (1-alpha)=95%. Proportion: 90%. Precision: 10%. Sample size: 35. Sample size adjusted to losses: 41 patients.||2.441|0.492|0.822
82648740|NCT01455545|165013209|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82648741|NCT01455545|165013209|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.038||||0.005|TWO_SIDED|95.0|1.012|1.065|||Regression, Logistic|||||1.065|1.012|0.005
82648742|NCT01455545|165013210|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35||||0.013|TWO_SIDED|95.0|0.153|0.799|||Regression, Logistic|||Ho = no differences between both groups H1= there are differences between both groups.||0.799|0.153|0.013
82648743|NCT04428502|165013215|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.6|||||||Student's t-test|||At Month 1: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.6
82452318|NCT03078556|164611075|OTHER||Ratio|1.0442|||||TWO_SIDED|90.0|0.9951|1.0957|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.0957|0.9951|
82452319|NCT03078556|164611076|OTHER||Ratio|0.7544|||||TWO_SIDED|90.0|0.6736|0.8448|||||Ratio (Cfed/C) of plasma DTG has been presented|||0.8448|0.6736|
82452320|NCT03078556|164611076|OTHER||Ratio|1.0972|||||TWO_SIDED|90.0|1.0424|1.155|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.1550|1.0424|
82648744|NCT04428502|165013215|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.007|||||||Student's t-test|||At Month 6: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.007
82648745|NCT04428502|165013215|EQUIVALENCE|Hypothesis tested was to evaluate that there is no difference in response between ACCP positive and ACCP negative PsA participants who were treated with etanercept.||||||0.004|||||||Student's t-test|||At Month 12: P-value \<0.05 was considered statistically significant, without multiplicity adjustment.||||0.004
82648746|NCT01164137|165013257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.87|TWO_SIDED|95.0|-0.98|0.84|||t-test, 2 sided|||||.84|-.98|.87
82648747|NCT01164137|165013258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.32|TWO_SIDED|95.0|-0.62|1.88|||t-test, 2 sided|||||1.88|-.62|.32
82648748|NCT01164137|165013259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21||||0.18|TWO_SIDED|95.0|-0.57|3.01|||t-test, 2 sided|||||3.01|-.57|.18
82452321|NCT03078556|164611079|OTHER||Ratio|0.8654|||||TWO_SIDED|90.0|0.7629|0.9816|||||Ratio (Bfed/B) of plasma DTG has been presented|||0.9816|0.7629|
82452322|NCT03078556|164611079|OTHER||Ratio|1.0841|||||TWO_SIDED|90.0|0.9139|1.286|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.2860|0.9139|
82452323|NCT03078556|164611080|OTHER||Ratio|0.7657|||||TWO_SIDED|90.0|0.6702|0.8749|||||Ratio (Cfed/C) of plasma DTG has been presented|||0.8749|0.6702|
82452324|NCT03078556|164611080|OTHER||Ratio|1.197|||||TWO_SIDED|90.0|1.0869|1.3182|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.3182|1.0869|
82452325|NCT03078556|164611081|OTHER||Ratio|1.2929|||||TWO_SIDED|90.0|1.1281|1.4819|||||Ratio (Bfed/B) of plasma DTG has been presented|||1.4819|1.1281|
82452326|NCT03078556|164611081|OTHER||Ratio|1.2015|||||TWO_SIDED|90.0|1.1074|1.3036|||||Ratio (Bfed/B) of plasma 3TC has been presented|||1.3036|1.1074|
82452327|NCT03078556|164611082|OTHER||Ratio|1.469|||||TWO_SIDED|90.0|1.3009|1.6588|||||Ratio (Cfed/C) of plasma DTG has been presented|||1.6588|1.3009|
82452328|NCT03078556|164611082|OTHER||Ratio|1.1935|||||TWO_SIDED|90.0|1.1142|1.2785|||||Ratio (Cfed/C) of plasma 3TC has been presented|||1.2785|1.1142|
82452329|NCT03329092|164611136|OTHER||Difference in clinical cure rate|2.7|||||TWO_SIDED|95.0|-6.6|12.4|||||The confidence interval (CI) for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.4|-6.6|
82432196|NCT00635349|164573483|SUPERIORITY_OR_OTHER|||||||0.1131||||||Day 85; p-value was calculated by Chi-squared test|Chi-squared|||||||0.1131
82432197|NCT00703963|164573515|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||0.20
82432198|NCT00703963|164573516|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||0.05
82432199|NCT00703963|164573517|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Statistical significance was defined as p \< 0.05.||||<0.001
82432200|NCT01340664|164573518|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.637|-0.251|||ANCOVA|||||-0.251|-0.637|<0.001
82432201|NCT01340664|164573518|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.792|-0.407|||ANCOVA|||||-0.407|-0.792|<0.001
82432202|NCT01340664|164573519|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-23.6|STANDARD_ERROR_OF_MEAN|4.673|<|0.001|TWO_SIDED|95.0|-32.78|-14.38|||ANCOVA|||||-14.38|-32.78|<0.001
82648749|NCT01164137|165013260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.11|TWO_SIDED|95.0|-0.39|3.81|||t-test, 2 sided|||||3.81|-.39|.11
82432203|NCT01340664|164573519|SUPERIORITY_OR_OTHER||Least-Sqaures Mean Difference|-24.0|STANDARD_ERROR_OF_MEAN|4.661|<|0.001||95.0|-33.18|-14.83|||ANCOVA|||||-14.83|-33.18|<0.001
82432204|NCT01340664|164573520|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.1|-1.3|||ANCOVA|||||-1.3|-3.1|<0.001
82432205|NCT01340664|164573520|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.5|-1.7|||ANCOVA|||||-1.7|-3.5|<0.001
82432206|NCT01340664|164573521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.013|TWO_SIDED|95.0|1.21|4.9|||Regression, Logistic|||||4.90|1.21|0.013
82432207|NCT01340664|164573521|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.38|||<|0.001|TWO_SIDED|95.0|1.68|6.81|||Regression, Logistic|||||6.81|1.68|<0.001
82432208|NCT00763256|164573553|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82648750|NCT01164137|165013261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.85||||0.13|TWO_SIDED|95.0|-0.56|4.27|||t-test, 2 sided|||||4.27|-.56|.13
82648751|NCT05003167|165013269|SUPERIORITY||F|8.48||||0.001|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.001
82432209|NCT00763256|164573554|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82432210|NCT00763256|164573555|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82432211|NCT00763256|164573556|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82432212|NCT00763256|164573557|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82432213|NCT01637584|164573558|SUPERIORITY_OR_OTHER||||||<|0.001||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \> Non-Rapid Eye Movement (NREM): Mean K-cluster voxels (Ke)=15,586: x,y,z= -36, -74, 0. Left Brodmann's Area (BA) 3, 6, 7, 10, 17, 19, 20,21,23, 38||||<0.001
82432214|NCT01637584|164573558|SUPERIORITY_OR_OTHER|||||||0.039||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \< NREM: Ke=7,013: x,y,z= 26, 22, -40. Right BA 4, 10-14, 21, 25, 32, 38, 45;||||0.039
82432215|NCT01637584|164573558|SUPERIORITY_OR_OTHER|||||||0.701||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \> (Rapid Eye Movement (REM): No cluster size, coordinates, or brain regions to report||||0.701
82432216|NCT01637584|164573558|SUPERIORITY_OR_OTHER|||||||1||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Wakefulness \< REM: No cluster size, coordinates, or brain regions to report||||1.00
82432217|NCT01637584|164573558|SUPERIORITY_OR_OTHER|||||||0.03||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Within-state decrease in rCMRglc: Ke=6,150: x,y,z= -30, -30, 2. Left BA 40, insula, hippocampus, caudate, and putamen;||||0.03
82432218|NCT01637584|164573558|SUPERIORITY_OR_OTHER|||||||0.01||||||Threshold for significance: \<.05|Full Factorial ANOVAs and Paired T-tests|||Within-state increase in rCMRglc: Ke=7,049: x,y,z= 66, -18, 26. Right BA 1, 3, 15, 21, 22, 23, 41, 42||||0.01
82432219|NCT00906178|164573572|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.57|1.94||||||||1.94|.57|
82432220|NCT00906178|164573573|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.62|1.65||||||||1.65|.62|
82432221|NCT00906178|164573574|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.93|2.62||||||||2.62|.93|
82432222|NCT00906178|164573575|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.37|1.3||||||||1.30|.37|
82432223|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.53|0.36|||||Maxillary right molar|||0.36|-1.53|
82432224|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.96|||||TWO_SIDED|95.0|-1.89|-0.04|||||Maxillary left molar|||-0.04|-1.89|
82432225|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|0.62|||||TWO_SIDED|95.0|-0.32|1.55|||||Maxillary right molar|||1.55|-0.32|
82432226|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-1.0|0.83|||||Maxillary left molar|||0.83|-1|
82432227|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.||||||0.05||||||Maxillary right molar. F(2, 67) = 3.10. Overall effect of treatment.|ANCOVA|||||||0.05
82537405|NCT01664104|164774108|SUPERIORITY_OR_OTHER|||||||0.6159|||||||t-test|P-value signifies the BMI at the start of TCZ treatment using the morning stiffness ( ≤ 30 minutes versus \> 30 minutes).||||||0.6159
82432228|NCT00995436|164573576|NON_INFERIORITY_OR_EQUIVALENCE|The calculation indicated that for a study with the power of 80% and an alpha of 0.05 we required 21 participants per group. Assumed drop out rate 20%, suggesting 75 patients required.||||||0.08||||||Overall effect of treatment F(2,67) = 2.58.|ANCOVA|||Maxillary left molar.||||0.08
82432229|NCT00289289|164573580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|4.8||0.629|ONE_SIDED|95.0||0.5||P-value is from a paired t-test since each subject had the intervention pacing features turned ON and OFF in this crossover study|t-test, 1 sided|One-sided paired t-test with 221 degrees of freedom|A mean difference greater than zero indicates an average increase in atrial fibrillation/atrial tachycardia symptomatic episodes while the intervention pacing features were programmed ON versus OFF.|Null Hypothesis: rate of symptomatic atrial tachycardia/atrial fibrillation episodes during periods when intervention pacing features ON is greater to or equal to the rate of symptomatic atrial tachycardia/atrial fibrillation episodes during periods where intervention pacing features were programmed OFF Alternative Hypothesis: rate of symptomatic AT/AF during periods of ON programming is less than the rate of symptomatic AT/AF during OFF programming||0.5||0.629
82432230|NCT00289289|164573581|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.165|||||||Wilcoxon (Mann-Whitney)|P-value is from Koch's adaptation to the Wilcoxon Rank-Sum test comparing the within subject ON minus OFF differences to 0|A negative change means an improvement in AF symptom frequency with intervention pacing therapy programmed ON. Total possible improvement while intervention features are programmed ON is -64. Total possible worsening during ON programming is 64.|"The null hypothesis is that the symptom frequency score does not differ between while intervention pacing features were programmed ON versus OFF.~This secondary objective was not powered."||||0.165
82432231|NCT00289289|164573582|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.603|TWO_SIDED|95.0|0.39|1.73||P-value is based on a repeated measures Cox proportional hazards model to the rate of AF cardioversion attempts between periods of ON and OFF programming|Regression, Cox||Hazard Ratio compares rate of first attempted cardioversion for AF while the intervention pacing features were programmed ON versus OFF.|"Null Hypothesis: AF Cardioversion attempt rate is the same during periods of ON and OFF programming~Alternative Hypothesis: AF Cardioversion attempt rate is different during periods of ON and OFF programming"||1.73|0.39|0.603
82432232|NCT00289289|164573583|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.394||95.0||||Within each randomized subject, the ON minus OFF difference in AT/AF burden was computed. The Wilcoxon Signed-Rank test was used to determine if the ON minus OFF difference in AT/AF burden was different from zero.|Wilcoxon (Mann-Whitney)||A negative median difference represents an improvement (lessening) of AT/AF burden during periods of ON versus OFF programming. A positive median difference represents an increase in AT/AF burden during ON compared to OFF programming.|Null Hypothesis: There is no difference in AT/AF burden during periods on ON and OFF programming Alternative Hypothesis: AT/AF burden is lower during periods of ON programming compared to periods of OFF programming||||0.394
82432233|NCT01763333|164573597|SUPERIORITY_OR_OTHER||Slope|0.8728|||||TWO_SIDED|95.0|0.6942|1.0513|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for Cmax was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0513|0.6942|
82537406|NCT01664104|164774109|SUPERIORITY_OR_OTHER|||||||0.237|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between CRP at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.2370
82537407|NCT01664104|164774109|SUPERIORITY_OR_OTHER|||||||0.8033|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between CRP at the start of TCZ treatment versus HAQ-D1 (0-3) at Month 6.||||||0.8033
82537408|NCT01664104|164774110|SUPERIORITY_OR_OTHER|||||||0.0306|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient for change from baseline in CRP versus change from baseline in HAQ-DI (0-3) at Month 6.||||||0.0306
82537409|NCT01664104|164774110|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient for change from baseline in CRP versus change from baseline in HAQ-DI (0-3) at Month 6.||||||0.0749
82432234|NCT01763333|164573597|SUPERIORITY_OR_OTHER||Slope|0.9341|||||TWO_SIDED|95.0|0.8277|1.0405|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of solution for Cmax was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0405|0.8277|
82452330|NCT03329092|164611137|OTHER||Difference in clinical cure rate|2.7|||||TWO_SIDED|95.0|-7.0|13.2|||||The CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||13.2|-7.0|
82452331|NCT03329092|164611138|OTHER||Difference in clinical cure rate|0.5|||||TWO_SIDED|95.0|-10.2|12.1|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.1|-10.2|
82537410|NCT01664104|164774111|SUPERIORITY_OR_OTHER|||||||0.4854|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between CRP at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.4854
82537411|NCT01664104|164774111|SUPERIORITY_OR_OTHER|||||||0.325|||||||S|P-value was calculated from Spearman correlation coefficient between CRP at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.3250
82537412|NCT01664104|164774112|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between change from baseline in CRP versus change from baseline in VAS fatigue at Month 6.||||||0.0011
82537413|NCT01664104|164774112|SUPERIORITY_OR_OTHER|||||||0.0013|||||||Spearman Correlation|P-value calculated from Spearman correlation coefficient between change from baseline in CRP versus change from baseline in VAS fatigue at Month 6.||||||0.0013
82432235|NCT01763333|164573597|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|112.74|||||TWO_SIDED|90.0|95.579|132.993|||||Adjusted gMean ratio.|Relative bioavailability comparison Tab. fed (T1): Tab. fasted (R1) for Cmax. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||132.993|95.579|
82432236|NCT01763333|164573597|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|52.66|||||TWO_SIDED|90.0|40.488|68.499|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for Cmax. The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||68.499|40.488|
82432237|NCT01763333|164573597|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|239.63|||||TWO_SIDED|90.0|197.445|290.83|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for Cmax. The per protocol set for the evaluation of relative bioavailability of R2 vs R1 (PPS-BA-R2-R1) was used.||290.830|197.445|
82432238|NCT01763333|164573597|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|105.47|||||TWO_SIDED|90.0|85.427|130.208|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for Cmax. The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||130.208|85.427|
82452332|NCT03329092|164611139|OTHER||Difference in clinical cure rate|2.6|||||TWO_SIDED|95.0|-8.4|14.7|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||14.7|-8.4|
82537414|NCT01664104|164774113|SUPERIORITY_OR_OTHER|||||||0.5655|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between BMI at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.5655
82537415|NCT01664104|164774113|SUPERIORITY_OR_OTHER|||||||0.3977|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between BMI at the start of TCZ treatment versus HAQ-DI (0-3) at Month 6.||||||0.3977
82537416|NCT01664104|164774114|SUPERIORITY_OR_OTHER|||||||0.0123|||||||Pearson correlation|P-value obtained from Pearson correlation coefficient between change from baseline in CRP versus change from baseline in morning stiffness at Month 6.||||||0.0123
82537417|NCT01664104|164774114|SUPERIORITY_OR_OTHER|||||||0.0151|||||||Spearman Correlation|P-value obtained from Spearman correlation coefficient between change from baseline in CRP versus change from baseline in morning stiffness at Month 6||||||0.0151
82648752|NCT05003167|165013271|SUPERIORITY||F|2.29||||0.113|TWO_SIDED|95.0|||||ANOVA|df = 2,44||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.113
82432239|NCT01763333|164573599|SUPERIORITY_OR_OTHER||Slope|0.8341|||||TWO_SIDED|95.0|0.6485|1.0198|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose).Dose proportionality of tablets for AUC0-inf was analysed.The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0198|0.6485|
82432240|NCT01763333|164573599|SUPERIORITY_OR_OTHER||Slope|0.9149|||||TWO_SIDED|95.0|0.8059|1.0239|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose).Dose proportionality of solution for AUC0-inf was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0239|0.8059|
82452333|NCT03329092|164611140|OTHER||Difference in clinical cure rate|2.4|||||TWO_SIDED|95.0|-7.4|13.0|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||13.0|-7.4|
82452334|NCT03329092|164611140|OTHER||Difference in clinical cure rate|4.3|||||TWO_SIDED|95.0|-15.5|23.1|||Difference||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||23.1|-15.5|
82537418|NCT01664104|164774115|SUPERIORITY_OR_OTHER|||||||0.9909|||||||Pearson correlation|P-value was calculated from Pearson correlation coefficient between BMI at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.9909
82537419|NCT01664104|164774115|SUPERIORITY_OR_OTHER|||||||0.6482|||||||Spearman Correlation|P-value was calculated from Spearman correlation coefficient between BMI at the start of TCZ treatment versus VAS fatigue at Month 6.||||||0.6482
82537420|NCT02107014|164774119|SUPERIORITY_OR_OTHER|||||||0.576|||||||Mixed Models Analysis|||||||.576
82537421|NCT02107014|164774120|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.010
82537422|NCT02107014|164774121|SUPERIORITY_OR_OTHER|||||||0.008|||||||Mixed Models Analysis|||||||.008
82537423|NCT02107014|164774122|SUPERIORITY_OR_OTHER|||||||0.015|||||||Mixed Models Analysis|||||||.015
82452335|NCT03329092|164611141|OTHER||Difference in clinical cure rate|5.6|||||TWO_SIDED|95.0|-4.0|16.6|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||16.6|-4.0|
82452336|NCT03329092|164611141|OTHER||Difference in clinical cure rate|-7.9|||||TWO_SIDED|95.0|-31.9|17.3|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||17.3|-31.9|
82452337|NCT03329092|164611168|OTHER||Difference in clinical cure rate|2.3|||||TWO_SIDED|95.0|-6.2|11.5|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||11.5|-6.2|
82452338|NCT03329092|164611169|OTHER||Difference in clinical cure|-1.2|||||TWO_SIDED|95.0|-10.7|9.4|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||9.4|-10.7|
82452339|NCT03329092|164611170|OTHER||Difference in clinical cure|0.3|||||TWO_SIDED|95.0|-8.3|9.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||9.9|-8.3|
82452340|NCT03329092|164611171|OTHER||Difference in clinical cure rate|1.0|||||TWO_SIDED|95.0|-8.5|12.0|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|||12.0|-8.5|
82452341|NCT03329092|164611172|OTHER||Difference in clinical cure rate|1.9|||||TWO_SIDED|95.0|-6.9|11.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||11.9|-6.9|
82452342|NCT03329092|164611172|OTHER||Difference in clinical cure rate|3.9|||||TWO_SIDED|95.0|-15.2|23.4|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||23.4|-15.2|
82452343|NCT03329092|164611173|OTHER||Difference in clinical cure rate|3.1|||||TWO_SIDED|95.0|-5.2|13.2|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|cIAI||13.2|-5.2|
82452344|NCT03329092|164611173|OTHER||Difference in clinical cure rate|-10.4|||||TWO_SIDED|95.0|-32.6|14.9|||||CI for the difference was calculated using the unstratified Miettinen and Nurminen method.|HAP/VAP||14.9|-32.6|
82452345|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.86||||||No adjustment for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Arm A vs Arm B shift test on Angiopoietin -- 2 prior to cycle 2. Wilcoxon rank-sum test p-value.||||0.86
82537424|NCT02107014|164774123|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||.007
82537425|NCT02107014|164774124|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||.016
82537426|NCT02107014|164774125|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82452346|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.76||||||Angiopoietin -- 2 prior to cycle 3.|Wilcoxon (Mann-Whitney)|||Angiopoietin -- 2 prior to cycle 3||||0.76
82452347|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.14||||||No adjustment for multiple comparison. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Tie--2 Prior to cycle 2||||0.14
82452348|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.069||||||No adjustment for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Tie -- 2 prior to cycle 3||||0.069
82452349|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.19||||||P-value is not adjusted for multiple comparisons. A-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||VEGF -- A prior to cycle 2||||0.19
82452350|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.046||||||P-value is not adjusted for multiple comparisons. The a-priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||VEGF--A prior to cycle 3||||0.046
82452351|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.029||||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||PIGF Prior to Cycle 2||||0.029
82452352|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.2||||||P-value is not adjusted for multiple comparisons. A priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||PIGF prior to cycle 3||||0.20
82537427|NCT02107014|164774126|SUPERIORITY_OR_OTHER|||||||0.212|||||||Mixed Models Analysis|||||||0.212
82537428|NCT02107014|164774129|SUPERIORITY_OR_OTHER|||||||0.008|||||||Mixed Models Analysis|||||||0.008
82537429|NCT02107014|164774130|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82452353|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.11||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance is 0.05|Wilcoxon (Mann-Whitney)|||VEGFR--3 prior to cycle 2||||0.11
82452354|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.068||||||P-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||VEGFR--3 prior to cycle 3||||0.068
82537430|NCT02107014|164774131|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82537431|NCT02107014|164774132|SUPERIORITY_OR_OTHER|||||||0.047|||||||Mixed Models Analysis|||||||0.047
82537432|NCT02107014|164774133|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82537433|NCT02107014|164774134|SUPERIORITY_OR_OTHER|||||||0.003|||||||Mixed Models Analysis|||||||0.003
82537434|NCT02107014|164774135|SUPERIORITY_OR_OTHER|||||||0.191|||||||Mixed Models Analysis|||||||0.191
82537435|NCT02107014|164774136|SUPERIORITY_OR_OTHER|||||||0.088|||||||Mixed Models Analysis|||||||0.088
82537436|NCT02107014|164774137|SUPERIORITY_OR_OTHER|||||||0.478|||||||Mixed Models Analysis|||||||0.478
82537437|NCT02107014|164774140|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
82537438|NCT02107014|164774141|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||||||0.025
82537439|NCT02107014|164774142|SUPERIORITY_OR_OTHER|||||||0.012|||||||Mixed Models Analysis|||||||0.012
82432241|NCT01763333|164573599|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean Ratio|86.61|||||TWO_SIDED|90.0|76.529|98.029|||||Adjusted gMean ratio.|Relative bioavailability comparison Tab. fed (T1): Tab. fasted (R1) for AUC0-inf. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||98.029|76.529|
82432242|NCT01763333|164573599|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|74.44|||||TWO_SIDED|90.0|66.322|83.562|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||83.562|66.322|
82432243|NCT01763333|164573599|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|137.25|||||TWO_SIDED|90.0|119.708|157.353|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of R2 vs R1 (PPS-BA-R2-R1) was used.||157.353|119.708|
82432244|NCT01763333|164573599|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|116.48|||||TWO_SIDED|90.0|111.462|121.724|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for AUC0-inf.The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||121.724|111.462|
82432245|NCT01763333|164573600|SUPERIORITY_OR_OTHER||Slope|0.8428|||||TWO_SIDED|95.0|0.658|1.0275|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of tablets for AUC 0- tz was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0275|0.6580|
82537440|NCT02107014|164774143|SUPERIORITY_OR_OTHER|||||||0.426|||||||Mixed Models Analysis|||||||0.426
82432246|NCT01763333|164573600|SUPERIORITY_OR_OTHER||Slope|0.9307|||||TWO_SIDED|95.0|0.8187|1.0426|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.|This was non confirmatory testing (Single dose). Dose proportionality of solution for AUC0-tz was analysed. The per protocol set for the evaluation of dose proportionality (PPS-DP) was used. This set included all subjects of the TS-SRD who provided at least one observation for at least one of the endpoints Cmax, AUC0-tz, AUC0-∞, or Aet1-t2, without experiencing emesis at or before 2 times median tmax and without important PVs relevant to the statistical evaluation of PK.||1.0426|0.8187|
82432247|NCT01763333|164573600|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean)|gMean Ratio|86.16|||||TWO_SIDED|90.0|75.735|98.027|||||Adjusted geometric mean (gMean) ratio.|Relative bioavailability comparison Tab. fed (T1) : Tab. fasted (R1) for AUC 0-tz. The per protocol set for the evaluation of relative bioavailability of T1 vs R1 (PPS-BA-T1-R1) was used.||98.027|75.735|
82432248|NCT01763333|164573600|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean)|gMean ratio|74.42|||||TWO_SIDED|90.0|65.979|83.941|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2) : Sol. fasted (R2) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of T2 vs R2 (PPS-BA-T2-R2) was used.||83.941|65.979|
82537441|NCT02107014|164774144|SUPERIORITY_OR_OTHER|||||||0.042|||||||Mixed Models Analysis|||||||0.042
82537442|NCT02107014|164774145|SUPERIORITY_OR_OTHER|||||||0.708|||||||Mixed Models Analysis|||||||0.708
82537443|NCT02107014|164774146|SUPERIORITY_OR_OTHER|||||||0.558|||||||Mixed Models Analysis|||||||0.558
82537444|NCT02107014|164774147|SUPERIORITY_OR_OTHER|||||||0.35|||||||Mixed Models Analysis|||||||0.350
82537445|NCT02107014|164774148|SUPERIORITY_OR_OTHER|||||||0.655|||||||Mixed Models Analysis|||||||0.655
82537446|NCT02107014|164774149|SUPERIORITY_OR_OTHER|||||||0.248|||||||Mixed Models Analysis|||||||0.248
82537447|NCT02107014|164774150|SUPERIORITY_OR_OTHER|||||||0.128|||||||Mixed Models Analysis|||||||0.128
82537448|NCT02107014|164774151|SUPERIORITY_OR_OTHER|||||||0.065|||||||Mixed Models Analysis|||||||0.065
82537449|NCT02107014|164774152|SUPERIORITY_OR_OTHER|||||||0.962|||||||Mixed Models Analysis|||||||0.962
82537450|NCT02107014|164774153|SUPERIORITY_OR_OTHER|||||||0.402|||||||Mixed Models Analysis|||||||0.402
82537451|NCT02107014|164774154|SUPERIORITY_OR_OTHER|||||||0.201|||||||Mixed Models Analysis|||||||0.201
82537452|NCT02107014|164774155|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mixed Models Analysis|||||||0.016
82648753|NCT05003167|165013272|SUPERIORITY||F|3.17||||0.052|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.||||.052
82648754|NCT05003167|165013273|SUPERIORITY||F|0.07||||0.931|TWO_SIDED|95.0|||||ANOVA|||"A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05.~Results here are for percent of breaths at major boundaries."||||.931
82432249|NCT01763333|164573600|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|137.2|||||TWO_SIDED|90.0|119.611|157.374|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fasted (R2): Tab. fasted (R1) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of R2 vs R1(PPS-BA-R2-R1) was used.||157.374|119.611|
82432250|NCT01763333|164573600|NON_INFERIORITY_OR_EQUIVALENCE|The pharmacokinetic parameters were log transformed (natural logarithm) prior to fitting the ANOVA model. The difference between the expected means of the 2 treatments of interest for each pairwise comparison were estimated by the difference in the corresponding Least Square Means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were then back-transformed to the original scale to give the point estimator (geometric mean).|gMean ratio|116.83|||||TWO_SIDED|90.0|111.814|122.079|||||Adjusted gMean ratio.|Relative bioavailability comparison Sol. fed (T2): Tab. fed (T1) for AUC 0-tz.The per protocol set for the evaluation of relative bioavailability of T2 vs T1 (PPS-BA-T2-T1) was used.||122.079|111.814|
82432251|NCT02131662|164573619|SUPERIORITY_OR_OTHER||Percentage difference|58.28|||||TWO_SIDED|95.0|44.55|70.94||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||70.94|44.55|
82432252|NCT02131662|164573619|SUPERIORITY_OR_OTHER||Percentage difference|52.37|||||TWO_SIDED|95.0|38.8|65.42||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||65.42|38.8|
82432253|NCT02131662|164573619|SUPERIORITY_OR_OTHER||Percentage difference|54.01|||||TWO_SIDED|95.0|40.41|66.95||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||66.95|40.41|
82432254|NCT02131662|164573619|SUPERIORITY_OR_OTHER||Percentage difference|28.28|||||TWO_SIDED|95.0|15.92|41.5||||||The placebo-adjusted amenorrhea rate was summarized by dose with unconditional 2-sided 95% confidence intervals for each active treatment group. This unconditional confidence interval was calculated by inverting 2 separate one-sided tests of half the nominal significance level each.||41.5|15.92|
82432255|NCT01740687|164573647|OTHER||95% upper Bayesian credible interval|1.23|||||||||||||%|predetermined study success threshold of 2.1% at 1 year||||
82432256|NCT01740687|164573648|OTHER||95% upper Bayesian credible interval|1.33|||||||||||||%|predetermined study success threshold of 2.8% at 3 years||||
82432257|NCT01198574|164573654|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GLM for repeated measures|The Hb concentration at Week 0, Week 6 and Week 12 are analyzed using GLM repeated measures.||"Null Hypothesis~1. Haemoglobin level was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve the haemoglobin level of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
82432258|NCT01198574|164573655|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||GLM for repeated measures ANOVA|||"Null hypothesis~1. Iron status indicator (serum ferritin) was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve the iron status indicator (serum ferritin) concentration of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
82432259|NCT01198574|164573656|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||GLM for repeated measures ANOVA|||"Null Hypothesis~1. iron status indicator (sTfR) was not influenced by sub-clinical inflammation during iron supplementation in the anaemic adolescent school girls~2. Vitamin A does not improve iron status indicator (sTfR) of the anaemic schoolgirls during iron supplementation in the presence of inflammation."||||<0.05
82537453|NCT02107014|164774156|SUPERIORITY_OR_OTHER|||||||0.006|||||||Mixed Models Analysis|||||||0.006
82537454|NCT02107014|164774157|SUPERIORITY_OR_OTHER|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82537455|NCT02107014|164774158|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||0.038
82537456|NCT02107014|164774159|SUPERIORITY_OR_OTHER|||||||0.032|||||||Mixed Models Analysis|||||||0.032
82537457|NCT02107014|164774160|SUPERIORITY_OR_OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82537458|NCT02107014|164774162|SUPERIORITY_OR_OTHER|||||||0.508|||||||Mixed Models Analysis|||||||0.508
82537459|NCT02107014|164774163|SUPERIORITY_OR_OTHER|||||||0.119|||||||Mixed Models Analysis|||||||0.119
82537460|NCT02107014|164774164|SUPERIORITY_OR_OTHER|||||||0.326|||||||Mixed Models Analysis|||||||0.326
82537461|NCT02107014|164774165|SUPERIORITY_OR_OTHER|||||||0.753|||||||Mixed Models Analysis|||||||0.753
82537462|NCT02107014|164774166|SUPERIORITY_OR_OTHER|||||||0.067|||||||Mixed Models Analysis|||||||0.067
82537463|NCT02107014|164774167|SUPERIORITY_OR_OTHER|||||||0.08|||||||Mixed Models Analysis|||||||0.080
82537464|NCT02107014|164774168|SUPERIORITY_OR_OTHER|||||||0.639|||||||Mixed Models Analysis|||||||0.639
82537465|NCT02107014|164774171|SUPERIORITY_OR_OTHER|||||||0.945|||||||Mixed Models Analysis|||||||0.945
82537466|NCT02107014|164774172|SUPERIORITY_OR_OTHER|||||||0.038|||||||Mixed Models Analysis|||||||0.038
82537467|NCT02107014|164774173|SUPERIORITY_OR_OTHER|||||||0.281|||||||Mixed Models Analysis|||||||0.281
82537468|NCT02107014|164774174|SUPERIORITY_OR_OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.030
82537469|NCT02107014|164774175|SUPERIORITY_OR_OTHER|||||||0.948|||||||Mixed Models Analysis|||||||0.948
82537470|NCT02107014|164774176|SUPERIORITY_OR_OTHER|||||||0.61|||||||Mixed Models Analysis|||||||0.610
82537471|NCT02107014|164774177|SUPERIORITY_OR_OTHER|||||||0.893|||||||Mixed Models Analysis|||||||0.893
82537472|NCT02107014|164774178|SUPERIORITY_OR_OTHER|||||||0.041|||||||Mixed Models Analysis|||||||0.041
82537473|NCT02107014|164774181|SUPERIORITY_OR_OTHER|||||||0.967|||||||Mixed Models Analysis|||||||0.967
82537474|NCT02107014|164774182|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82432260|NCT00556439|164573657|OTHER|Kaplan-Meier curves of relapse free survival were constructed, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||||0.049||||||The p value of 0.049 reflects comparison of relapse free survival of abatacept versus placebo in giant cell arteritis.|Log Rank|||The planned sample size was determined by the minimally clinically meaningful result (i.e., an approximate 30% improvement in relapse-free survival) to be detected utilizing a one-sided alpha of 0.1. Kaplan-Meier curves of RFS were constructed for each stratum, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||0.049
82432261|NCT00556439|164573657|OTHER|Kaplan-Meier curves of relapse free survival were constructed, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||||0.853||||||The p value of 0.853 reflects comparison of relapse free survival of abatacept versus placebo in Takayasu arteritis.|Log Rank|||The planned sample size was determined by the minimally clinically meaningful result (i.e., an approximate 30% improvement in relapse-free survival) to be detected utilizing a one-sided alpha of 0.1. Kaplan-Meier curves of RFS were constructed for each stratum, and differences in treatment arms compared using the logrank test. The analysis of the primary outcome was based upon intent to treat.||||0.853
82432262|NCT03037476|164573745|OTHER|General Linear Model|Slope|-0.235||||0.03|TWO_SIDED|95.0|-0.446|-0.023|||Mixed Models Analysis|Negative Binomial Regression||Changes from Baseline to 6 Month Follow-up Outcomes reported in this section.||-.023|-.446|0.03
82537475|NCT02107014|164774183|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82537476|NCT03852433|164774234|OTHER||Difference in percentages|34.0||||0.0003|TWO_SIDED|95.0|14.6|50.4|||Fisher Exact|||||50.4|14.6|0.0003
82537477|NCT03852433|164774234|OTHER||Difference in percentages|15.3||||0.2631|TWO_SIDED|95.0|-8.2|34.2|||Fisher Exact|||||34.2|-8.2|0.2631
82537478|NCT03852433|164774234|OTHER||Difference in percentages|29.3||||0.0197|TWO_SIDED|95.0|1.8|48.2|||Fisher Exact|||||48.2|1.8|0.0197
82432263|NCT03037476|164573745|OTHER|General Linear Model|Slope|-0.149||||0.164|TWO_SIDED|95.0|-0.36|0.061|||Mixed Models Analysis|Negative Binomial Regression||Changes from Baseline to 12 Month Follow-up reported in this section.||.061|-.360|0.164
82432264|NCT03037476|164573746|OTHER|General Linear Model|Slope|-0.24||||0.603|TWO_SIDED|95.0|-1.12|0.65|||Mixed Models Analysis|Poisson Regression||Change in Medical Misuse of Prescription Stimulant Medication Among those with ADHD Diagnosis from Baseline to 6 Month Followup||.650|-1.120|.603
82432265|NCT03037476|164573746|OTHER|General Linear Model|Slope|-0.336||||0.465|TWO_SIDED|95.0|-1.238|0.566|||Mixed Models Analysis|Poisson Regression||Change in Medical Misuse of Prescription Stimulant Medication Among those with ADHD Diagnosis from Baseline to 12 Month Followup||.566|-1.238|.465
82432266|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.059||||0.486|TWO_SIDED|95.0|-0.227|0.108|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 12 Month Tobacco Use from Baseline to 6 Month Followup||.108|-.227|.486
82432267|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.006||||0.942|TWO_SIDED|95.0|-0.16|0.172|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 12 Month Tobacco Use from Baseline to 12 Month Followup||.172|-.160|.942
82537479|NCT03852433|164774234|OTHER||Difference in percentages|-4.7||||0.7186|TWO_SIDED|95.0|-26.3|11.8|||Fisher Exact|||||11.8|-26.3|0.7186
82537480|NCT03852433|164774234|OTHER||Difference in percentages|14.0||||0.2184|TWO_SIDED|95.0|-5.5|32.7|||Fisher Exact|||||32.7|-5.5|0.2184
82537481|NCT03852433|164774234|OTHER||Difference in percentages|-20.0||||0.0283|TWO_SIDED|95.0|-36.1|-3.5|||Fisher Exact|||||-3.5|-36.1|0.0283
82537482|NCT03852433|164774237|OTHER||Difference in percentages|26.0||||0.0134|TWO_SIDED|95.0|6.0|44.0|||Fisher Exact|||||44.0|6.0|0.0134
82537483|NCT03852433|164774238|OTHER||Difference in percentages|28.0||||0.0049|TWO_SIDED|95.0|8.2|45.1|||Fisher Exact|||||45.1|8.2|0.0049
82537484|NCT03852433|164774239|OTHER||Difference in percentages|34.0||||0.0003|TWO_SIDED|95.0|14.6|50.4|||Fisher Exact|||||50.4|14.6|0.0003
82537485|NCT03852433|164774239|OTHER||Difference in percentages|1.0||||1|TWO_SIDED|95.0|-22.8|21.4|||Fisher Exact|||||21.4|-22.8|1.0000
82537486|NCT03852433|164774239|OTHER||Difference in percentages|21.0||||0.1265|TWO_SIDED|95.0|-5.3|42.2|||Fisher Exact|||||42.2|-5.3|0.1265
82537487|NCT03852433|164774239|OTHER||Difference in percentages|-13.0||||0.1863|TWO_SIDED|95.0|-35.3|5.4|||Fisher Exact|||||5.4|-35.3|0.1863
82537488|NCT03852433|164774239|OTHER||Difference in percentages|20.0||||0.0601|TWO_SIDED|95.0|1.0|38.2|||Fisher Exact|||||38.2|1.0|0.0601
82537489|NCT03852433|164774239|OTHER||Difference in percentages|-14.0||||0.1247|TWO_SIDED|95.0|-29.9|1.7|||Fisher Exact|||||1.7|-29.9|0.1247
82537490|NCT03852433|164774240|OTHER||Difference in LS Mean|1.56||||0.0717|TWO_SIDED|95.0|-0.14|3.26|||MMRM|||||3.26|-0.14|0.0717
82537491|NCT03852433|164774240|OTHER||Difference in LS Mean|-1.84||||0.1563|TWO_SIDED|95.0|-4.39|0.71|||MMRM|||||0.71|-4.39|0.1563
82537492|NCT03852433|164774240|OTHER||Difference in LS Mean|-1.8||||0.1626|TWO_SIDED|95.0|-4.33|0.73|||MMRM|||||0.73|-4.33|0.1626
82537493|NCT03852433|164774240|OTHER||Difference in LS Mean|-3.34||||0.0099|TWO_SIDED|95.0|-5.87|-0.82|||MMRM|||||-0.82|-5.87|0.0099
82537494|NCT03852433|164774240|OTHER||Difference in LS Mean|0.07||||0.9384|TWO_SIDED|95.0|-1.67|1.81|||MMRM|||||1.81|-1.67|0.9384
82537495|NCT03852433|164774240|OTHER||Difference in LS Mean|-1.49||||0.0875|TWO_SIDED|95.0|-3.2|0.22|||MMRM|||||0.22|-3.20|0.0875
82537496|NCT03852433|164774241|OTHER||Difference in LS Mean|0.15||||0.8645|TWO_SIDED|95.0|-1.54|1.83|||MMRM|||||1.83|-1.54|0.8645
82452355|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.61||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||VEGF--C prior to cycle 2||||0.61
82452356|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.27||||||Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.|Wilcoxon (Mann-Whitney)|||VEGF--C prior to cycle 3||||0.27
82452357|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.61||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||IL--8 prior to cycle 2||||0.61
82452358|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.49||||||The p-value was not adjusted for multiple comparisons, and the a-priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||IL--8 prior to cycle 3||||0.49
82452359|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.82||||||The p-value was not adjusted for multiple comparisons. The a-priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||ICAM--1 prior to cycle 2||||0.82
82452360|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.069||||||The p-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||ICAM--1 prior to cycle 3||||0.069
82452361|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.34||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||VCAM--1 prior to cycle 2||||0.34
82452362|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.046||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||VCAM--1 prior to cycle 3||||0.046
82452363|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.11||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||FGF2 prior to cycle 2||||0.11
82452364|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.23||||||The p-value was adjusted for multiple comparisons. The a prior threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||FGF2 prior to cycle 3||||0.23
82452365|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.37||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||PDGF--AA prior to cycle 2||||0.37
82452366|NCT01664182|164611225|OTHER|Two sided hypothesis. Wilcoxon rank-sum test comparing the two arms in terms of the ratio of the post-treatment levels divided by the baseline.||||||0.35||||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was set to 0.05.|Wilcoxon (Mann-Whitney)|||PDGF--AA prior to cycle 3||||0.35
82537497|NCT03852433|164774241|OTHER||Difference in LS Mean|-0.33||||0.7033|TWO_SIDED|95.0|-2.06|1.39|||MMRM|||||1.39|-2.06|0.7033
82648755|NCT05003167|165013273|SUPERIORITY||F|0.23||||0.164|TWO_SIDED|95.0|||||ANOVA|||A mixed model ANOVA with session (pre-post-training) as a main effect and participant as a random factor was run via SAS 9.4. Alpha was set at .05. Results reflect percent of breaths at boundaries unrelated to syntax.||||0.164
82652237|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.073||||0.5966|TWO_SIDED|95.0|-0.344|0.198||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.198|-0.344|0.5966
82452367|NCT05292131|164611235|EQUIVALENCE|Bioequivalence (BE) was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for AUC.|Geometric Mean Ratio (percentage [%])|97.5|||||TWO_SIDED|90.0|90.2|105.4||||||||105.40|90.20|
82452368|NCT05292131|164611236|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for AUC0-t.|Geometric Mean Ratio (%)|97.05|||||TWO_SIDED|90.0|90.1|104.55||||||||104.55|90.10|
82452369|NCT05292131|164611237|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for Cmax.|Geometric Mean Ratio (%)|96.21|||||TWO_SIDED|90.0|88.6|104.47||||||||104.47|88.60|
82452370|NCT05292131|164611240|EQUIVALENCE|BE was concluded if the 90% CIs for the ratio of the respective comparison are fully included in the acceptance range from 0.8 to 1.25 for t½.|Geometric Mean Ratio (%)|101.13|||||TWO_SIDED|90.0|94.18|108.59||||||||108.59|94.18|
82452371|NCT05292131|164611241|EQUIVALENCE|The point estimate and the 90% CI for the median treatment differences for tmax was computed according to the Hodges-Lehmann's method.|Hodges-Lehman Estimate|0.4897|||||TWO_SIDED|90.0|-0.0073|0.9567||||||||0.9567|-0.0073|
82537498|NCT03852433|164774241|OTHER||Difference in LS Mean|-0.48||||0.5806|TWO_SIDED|95.0|-2.18|1.23|||MMRM|||||1.23|-2.18|0.5806
82537499|NCT03852433|164774242|OTHER||Difference in LS Mean|-1.68||||0.1103|TWO_SIDED|95.0|-3.75|0.39|||MMRM|||||0.39|-3.75|0.1103
82537500|NCT03852433|164774242|OTHER||Difference in LS Mean|-2.05||||0.1533|TWO_SIDED|95.0|-4.88|0.77|||MMRM|||||0.77|-4.88|0.1533
82537501|NCT03852433|164774242|OTHER||Difference in LS Mean|-2.22||||0.1129|TWO_SIDED|95.0|-4.98|0.53|||MMRM|||||0.53|-4.98|0.1129
82537502|NCT03852433|164774242|OTHER||Difference in LS Mean|-0.58||||0.6753|TWO_SIDED|95.0|-3.34|2.17|||MMRM|||||2.17|-3.34|0.6753
82537503|NCT03852433|164774242|OTHER||Difference in LS Mean|-0.12||||0.9124|TWO_SIDED|95.0|-2.28|2.04|||MMRM|||||2.04|-2.28|0.9124
82537504|NCT03852433|164774242|OTHER||Difference in LS Mean|1.56||||0.1526|TWO_SIDED|95.0|-0.59|3.7|||MMRM|||||3.70|-0.59|0.1526
82537505|NCT03736785|164774303|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
82537506|NCT03736785|164774303|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
82537507|NCT03736785|164774303|EQUIVALENCE|Equivalence margin is zero.|||||<|0.001||||||P-value reported is within group comparison between Week 32 and baseline.|Mixed Models Analysis|||||||<0.001
82537508|NCT03736785|164774304|NON_INFERIORITY|Non-inferiority margin is 0.4%|LSMean Difference|0.08|||||TWO_SIDED|90.0|-0.11|0.28|||Mixed Models Analysis|||||0.28|-0.11|
82537509|NCT03736785|164774304|NON_INFERIORITY|Non-inferiority margin is 0.4%|LSMean Difference|0.09|||||TWO_SIDED|90.0|-0.1|0.29|||Mixed Models Analysis|||||0.29|-0.10|
82537510|NCT00320489|164774316|SUPERIORITY_OR_OTHER|||||||0.612||95.0|||||Log Rank|||||||0.612
82537511|NCT00320489|164774317|SUPERIORITY_OR_OTHER|||||||0.649||95.0||||P-Value is for change from baseline at Week 104.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.649
82537512|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.744||95.0||||P-value for change at Week 104 in Mental Score Detail.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.744
82537513|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.653||95.0||||P-value for change at Week 104 in Physical Score Detail.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.653
82537514|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||P-value for change at Week 104 in Physical Functioning.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.640
82537515|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.454||95.0||||P-value for change at Week 104 in Role-Physical.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.454
82537516|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for change at Week 104 in Bodily Pain.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.135
82537517|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||P-value for change at Week 104 in General Health.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.229
82537518|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.594||95.0||||P-value for change at Week 104 in Vitality.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.594
82537519|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||P-value for change at Week 104 in Social Functioning.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.256
82537520|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.775||95.0||||P-value for change at Week 104 in Role-Emotional.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.775
82652238|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.324||||0.0203|TWO_SIDED|95.0|-0.596|-0.051||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.051|-0.596|0.0203
82537521|NCT00320489|164774318|SUPERIORITY_OR_OTHER|||||||0.781||95.0||||P-value for change at Week 104 in Mental Health.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.781
82537522|NCT00320489|164774319|SUPERIORITY_OR_OTHER|||||||0.465||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.465
82537523|NCT00320489|164774320|SUPERIORITY_OR_OTHER|||||||0.581||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.581
82537524|NCT00320489|164774323|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|P-value is type III p-value of ANOVA model: Total number of hospitalization days = Therapy.||||||0.020
82537525|NCT00320489|164774324|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||P-value is for Total Score (Items 1-5) change to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.583
82537526|NCT00320489|164774324|SUPERIORITY_OR_OTHER|||||||0.747||95.0||||P-value is for Total Score (Items 1-4) change to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.747
82537527|NCT00320489|164774325|SUPERIORITY_OR_OTHER|||||||0.371||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Model: change = investigator, treatment, and baseline.||||||0.371
82537528|NCT00320489|164774326|SUPERIORITY_OR_OTHER|||||||0.681||95.0||||P-value is fro change from baseline to Week 104.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.681
82537529|NCT00320489|164774327|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value is for overall satisfaction with current medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.60
82537530|NCT00320489|164774327|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value is for preference current/previous medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit||||||.258
82537531|NCT00320489|164774327|SUPERIORITY_OR_OTHER|||||||0.492||95.0||||P-value is for side effects - current vs previous medication.|ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.492
82537532|NCT00320489|164774328|SUPERIORITY_OR_OTHER|||||||0.854||95.0|||||ANCOVA|Model: Actual Result = Therapy, Investigator, Visit, Therapy\*Visit.||||||0.854
82537533|NCT00320489|164774329|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Fisher Exact|||||||0.600
82537534|NCT00320489|164774330|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.282
82537535|NCT00320489|164774331|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for PANSS Total Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.834
82537536|NCT00320489|164774331|SUPERIORITY_OR_OTHER|||||||0.871||95.0||||P-value is for PANSS Positive Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.871
82537537|NCT00320489|164774331|SUPERIORITY_OR_OTHER|||||||0.692||95.0||||P-value is for PANSS Negative Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.692
82537538|NCT00320489|164774331|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||P-value is for PANSS General Psychopathology Score.|ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit, Baseline.||||||0.893
82452372|NCT03375489|164611270|EQUIVALENCE|Equivalence was established for patient-reported quality of life if the 90% confidence interval for the estimated difference in means was within the margin of ±4 points on the Functional Assessment of Cancer Therapy - Lung Questionnaire.|Mean Difference (Final Values)|2.0||||0.04|TWO_SIDED|90.0|0.1|3.9||The a priori threshold for statistical significance was p\<0.05.|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment and controlling for baseline Functional Assessment of Cancer Therapy - Lung Questionnaire scores.||3.9|0.1|0.04
82452373|NCT03375489|164611271|EQUIVALENCE|Equivalence was established for patient-reported communication with their clinicians about their end-of-life care preferences if the 90% confidence interval for the estimated difference in proportions was within the margin of ±8%.|Estimated Difference in Proportions|3.1||||0.26|TWO_SIDED|90.0|-1.8|8.1||Bonferroni-adjusted p-value|binomial generalized estimating equation|||The difference between groups in the proportions of patients reporting that they communicated with their clinicians about their end-of-life care preferences was estimated using a binomial generalized estimating equation model with robust standard errors, the identity link function, and a main effect for group assignment.||8.1|-1.8|0.26
82452374|NCT03375489|164611272|EQUIVALENCE|Equivalence was established for patient length of stay in hospice if the 90% confidence interval for the estimated difference in mean days was within the margin of ±6 days.|Mean Difference (Final Values)|0.2||||0.46|TWO_SIDED|90.0|-7.0|7.4||Bonferroni-adjusted p-value|Regression, Linear|||The difference in mean length of stay in hospice between groups was estimated using a linear regression model with a main effect for group assignment.||7.4|-7.0|0.46
82452375|NCT03375489|164611273|SUPERIORITY||Difference in estimated proportions|-13.0|||<|0.001|TWO_SIDED|95.0|-17.6|-8.6||Bonferroni-adjusted p-value|binomial generalized estimating equation|||The proportion of palliative care visits with caregiver participation was compared using a binomial generalized estimating equation model with robust standard errors, the identity link function, and a main effect for group assignment.||-8.6|-17.6|<0.001
82648756|NCT01010230|165013281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.69|TWO_SIDED|95.0|-5.59|3.11||The threshold for significance was established a priori at alpha=0.05.|ANOVA|BMC was normalized for height and adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8% we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.11|-5.59|0.69
82648757|NCT01010230|165013282|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.18||||0.18|TWO_SIDED|95.0|0.0|0.35||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.35|0.00|0.18
82648758|NCT01010230|165013283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.85|TWO_SIDED|95.0|-6.93|9.25||The threshold for significance was established a priori at alpha=0.05|ANOVA|BMC was normalized for height and adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8% we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||9.25|-6.93|0.85
82648759|NCT01010230|165013284|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19||||0.12|TWO_SIDED|95.0|0.43|5.95||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||5.95|0.43|0.12
82648760|NCT01010230|165013285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.97|TWO_SIDED|95.0|-4.24|4.05||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage (from general linear model).||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||4.05|-4.24|0.97
82648761|NCT01010230|165013286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.91|TWO_SIDED|95.0|-4.05|4.68||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||4.68|-4.05|0.91
82648762|NCT01010230|165013287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.4|TWO_SIDED|95.0|-0.69|3.11||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.11|-0.69|0.40
82648763|NCT01010230|165013288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67||||0.73|TWO_SIDED|95.0|-2.02|3.33||The threshold for significance was established a priori at alpha=0.05.|ANOVA|Adjusted for sex and tanner stage.||The power estimates were based on two-sided two-sample t-tests. With 30 subjects in each of the two arms and assuming no change in the control arm (0% change) and assuming the common standard deviation (SD) of 6.8%3 we estimated 87% power to detect an improvement of 5.5% change in the intervention arm, with type I error control α=0.05.||3.33|-2.02|0.73
82376843|NCT02585778|164460408|SUPERIORITY||Adjusted Mean Difference|-18.4|||<|0.0001|TWO_SIDED|95.0|-23.7|-13.2||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||-13.2|-23.7|<0.0001
82537539|NCT00320489|164774332|SUPERIORITY_OR_OTHER|||||||0.585||95.0|||||Log Rank|||||||0.585
82648764|NCT01010230|165013289|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.2||||0.08|TWO_SIDED|95.0|0.06|0.34||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.34|0.06|0.08
82648765|NCT01010230|165013290|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.13||||0.17|TWO_SIDED|95.0|0.0|0.26||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.26|0.00|0.17
82648766|NCT01010230|165013291|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.08||||0.38|TWO_SIDED|95.0|-0.04|0.2||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.20|-0.04|0.38
82432268|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.042||||0.552|TWO_SIDED|95.0|-0.18|0.097|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Alcohol Use from Baseline to 6 Month Followup||.097|-.180|.552
82432269|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.037||||0.608|TWO_SIDED|95.0|-0.104|0.177|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Alcohol Use from Baseline to 12 Month Followup||.177|-.104|.608
82432270|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.015||||0.84|TWO_SIDED|95.0|-0.13|0.16|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Other Drug Use from Baseline to 6 Month Followup||.160|-.130|.840
82432271|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.007||||0.927|TWO_SIDED|95.0|-0.142|0.155|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Other Drug Use from Baseline to 12 Month Followup||.155|-.142|.927
82452376|NCT03375489|164611274|SUPERIORITY||Mean Difference (Final Values)|0.3|||>|0.99|TWO_SIDED|95.0|-1.0|1.7||Bonferroni-adjusted p-value|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment.||1.7|-1.0|>0.99
82432272|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.01||||0.932|TWO_SIDED|95.0|-0.244|0.223|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Nonmedical Prescription Drug Use from Baseline to 6 Month Followup||.223|-.244|.932
82432273|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.057||||0.648|TWO_SIDED|95.0|-0.3|0.187|||Mixed Models Analysis|Poisson Regression||Change in Past 12 Month Nonmedical Prescription Drug Use from Baseline to 12 Month Followup||0.187|-.300|.648
82432274|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.059||||0.702|TWO_SIDED|95.0|-0.363|0.245|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Tobacco Use from Baseline to 6 Month Followup||.245|-.363|.702
82432275|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.1||||0.524|TWO_SIDED|95.0|-0.408|0.208|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Tobacco Use from Baseline to 12 Month Followup||.208|-.408|.524
82432276|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.008||||0.913|TWO_SIDED|95.0|-0.137|0.153|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Alcohol Use from Baseline to 6 Month Followup||.153|-.137|.913
82432277|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.032||||0.676|TWO_SIDED|95.0|-0.117|0.181|||Mixed Models Analysis|Poisson Regresision||Change in Past 3 Month Alcohol Use from Baseline to 12 Month Followup||.181|-.117|.676
82432278|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.035||||0.712|TWO_SIDED|95.0|-0.223|0.152|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Marijuana Use from Baseline to 6 Month Followup||.152|-.223|.712
82432279|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.005||||0.956|TWO_SIDED|95.0|-0.186|0.197|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Marijuana Use from Baseline to 12 Month Followup||0.197|-.186|.956
82432280|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.149||||0.446|TWO_SIDED|95.0|-0.234|0.531|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Stimulant Use from Baseline to 6 Month Followup||.531|-.234|.446
82432281|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.055||||0.793|TWO_SIDED|95.0|-0.353|0.462|||Mixed Models Analysis|Poisson Regression||Change in Past 3 Month Stimulant Use from Baseline to 12 Month Followup||.462|-.353|.793
82432282|NCT03037476|164573747|OTHER|General Linear Model|Slope|-0.001||||0.999|TWO_SIDED|95.0|-2.005|2.003|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Heroin Use from Baseline to 6 Month Followup||2.003|-2.005|.999
82432283|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.999||||0.397|TWO_SIDED|95.0|-1.312|3.31|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Heroin Use from Baseline to 12 Month Followup||3.310|-1.312|.397
82432284|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.465||||0.303|TWO_SIDED|95.0|-0.419|1.349|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Nonmedical Prescription Drug Use from Baseline to 6 Month Followup||1.349|-.419|.303
82452377|NCT03375489|164611275|SUPERIORITY||Mean Difference (Final Values)|0.4|||>|0.99|TWO_SIDED|95.0|-1.5|2.3||Bonferroni-adjusted p-value|Regression, Linear|||The difference in week-24 means between groups was estimated using a linear regression model with a main effect for group assignment.||2.3|-1.5|>0.99
82452378|NCT03071393|164611300|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82452379|NCT03071393|164611301|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82537540|NCT00320489|164774333|SUPERIORITY_OR_OTHER|||||||0.659||95.0|||||Fisher Exact|||||||0.659
82648767|NCT01010230|165013292|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|-0.02||||0.88|TWO_SIDED|95.0|-0.22|0.18||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.18|-0.22|0.88
82648768|NCT01010230|165013293|NON_INFERIORITY_OR_EQUIVALENCE|The power calculation was based on the primary aim and is provided above.|Mean Difference (Final Values)|0.28||||0.06|TWO_SIDED|95.0|0.09|0.46||The threshold for significance was established a priori at alpha=0.05.|t-test, 2 sided|||Active and placebo group means were compared with a 2-sample t-test after log-transforming the variable.||0.46|0.09|0.06
82432285|NCT03037476|164573747|OTHER|General Linear Model|Slope|0.939|||<|0.05|TWO_SIDED|95.0|0.128|1.751|||Mixed Models Analysis|Negative Binomial Regression||Change in Past 3 Month Nonmedical Prescription Drug Use from Baseline to 12 Month Followup||1.751|.128|<.05
82432286|NCT03037476|164573748|OTHER|General Linear Model|Slope|-0.1816||||0.151|TWO_SIDED|95.0|-0.4295|0.0663|||Mixed Models Analysis|Negative binomial regression||Change in ASSIST Score over time: 6 month follow up||0.0663|-0.4295|0.151
82537541|NCT00320489|164774334|SUPERIORITY_OR_OTHER|||||||0.952||95.0|||||ANCOVA|Model: Change = Therapy, Investigator, Visit, Therapy\*Visit Baseline.||||||0.952
82537542|NCT00320489|164774336|SUPERIORITY_OR_OTHER|||||||0.777||95.0||||P-value is for change from baseline to Week 104.|ANCOVA|Model: change = baseline, treatment, and investigator.||||||0.777
82537543|NCT00320489|164774337|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||Fisher Exact|||||||0.530
82537544|NCT00320489|164774338|SUPERIORITY_OR_OTHER|||||||0.258||95.0||||P-value for fasting glucose.|Fisher Exact|||||||0.258
82537545|NCT00320489|164774338|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-value is for fasting total cholesterol.|Fisher Exact|||||||0.688
82432287|NCT03037476|164573748|OTHER|General Linear Model|Slope|-0.0601||||0.642|TWO_SIDED|95.0|-0.3133|0.1931|||Mixed Models Analysis|Negative Binomial Regression||Changes in ASSIST scores at 12 month follow up||0.1931|-0.3133|0.642
82432288|NCT03037476|164573749|OTHER|General Linear Model|Slope|-0.2177||||0.074|TWO_SIDED|95.0|-0.4566|0.0213|||Mixed Models Analysis|Negative Binomial Regression||Change in consequence score at 6 month follow up||0.0213|-0.4566|0.074
82432289|NCT03037476|164573749|OTHER|General Linear Model|Slope|-0.1165||||0.351|TWO_SIDED|95.0|-0.3612|0.1282|||Mixed Models Analysis|Negative Binomial Regression||Change in consequence score at 12 month follow up||0.1282|-0.3612|0.351
82432290|NCT03037476|164573750|OTHER|General Linear Model|Slope|0.044||||0.255|TWO_SIDED|95.0|-0.032|0.1197|||Mixed Models Analysis|Negative Binomial Regression||Change in peak alcohol quantity at 6 months (reported by number of standard drinks)||0.1197|-0.032|0.255
82432291|NCT03037476|164573750|OTHER|General Linear Model|Slope|0.0315||||0.428|TWO_SIDED|95.0|-0.0463|0.1092|||Mixed Models Analysis|Negative Binomial Regression||Change in peak alcohol quantity (reported in standard drinks) at 12 month follow-up||0.1092|-0.0463|0.428
82432292|NCT03037476|164573751|OTHER|General Linear Model|Slope|0.0021||||0.966|TWO_SIDED|95.0|-0.0936|0.0978|||Mixed Models Analysis|Negative Binomial Regression||Change in DDQ score at 6 months||0.0978|-0.0936|0.966
82432293|NCT03037476|164573751|OTHER|General Linear Model|Slope|-0.0559||||0.265|TWO_SIDED|95.0|-0.1542|0.0424|||Mixed Models Analysis|Negative Binomial Regression||Change in DDQ score at 12 month follow-up||0.0424|-0.1542|0.265
82432294|NCT03037476|164573752|OTHER|General Linear Model|Slope|-0.0128||||0.868|TWO_SIDED|95.0|-0.1633|0.1378|||Mixed Models Analysis|Negative Binomial Regression||Change in RAPI count at 6 month follow-up||0.1378|-0.1633|0.868
82432295|NCT03037476|164573752|OTHER|General Linear Model|Slope|-0.0445||||0.573|TWO_SIDED|95.0|-0.1993|0.1102|||Mixed Models Analysis|Negative Binomial Regression||Change in RAPI count at 12 month follow-up||0.1102|-0.1993|0.573
82432296|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.0899||||0.266|TWO_SIDED|95.0|-0.2484|0.0685|||Mixed Models Analysis|Negative Binomial Regression||Change in past 12 month marijuana use at 6 month follow-up||0.0685|-0.2484|0.266
82432297|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.0197||||0.816|TWO_SIDED|95.0|-0.1859|0.1465|||Mixed Models Analysis|Negative Binomial Regression||Past 12 month marijuana use at 12 month follow-up||0.1465|-0.1859|0.816
82432298|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.1031||||0.209|TWO_SIDED|95.0|-0.2639|0.0577|||Mixed Models Analysis|Negative Binomial Regression||Change in past 6 month marijuana use at 6 month follow-up||0.0577|-0.2639|0.209
82432299|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.006||||0.944|TWO_SIDED|95.0|-0.1729|0.1608|||Mixed Models Analysis|Negative Binomial Regression||Change in past 6 month marijuana use at 12 month follow-up||0.1608|-0.1729|0.944
82432300|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.0391||||0.654|TWO_SIDED|95.0|-0.2102|0.132|||Mixed Models Analysis|Negative Binomial Regression||Change in past month marijuana use at 6 month follow-up||0.1320|-0.2102|0.654
82432301|NCT03037476|164573753|OTHER|General Linear Model|Slope|-0.0646||||0.481|TWO_SIDED|95.0|-0.2444|0.1152|||Mixed Models Analysis|Negative Binomial Regression||Change in past month marijuana use at 12 month follow-up||0.1152|-0.2444|0.481
82432302|NCT03037476|164573754|OTHER|General Linear Model|Slope|-0.0411||||0.487|TWO_SIDED|95.0|-0.1569|0.0747|||Mixed Models Analysis|Negative Binomial Regression||Change in RMPI count at 6 month follow-up||0.0747|-0.1569|0.487
82432303|NCT03037476|164573754|OTHER|General Linear Model|Slope|0.0177||||0.772|TWO_SIDED|95.0|-0.1021|0.1375|||Mixed Models Analysis|Negative Binomial Regression||Change in RMPI count at 12 month follow-up||0.1375|-0.1021|0.772
82452380|NCT03071393|164611302|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82537546|NCT00320489|164774338|SUPERIORITY_OR_OTHER|||||||0.908||95.0||||P-value is for fasting triglycerides.|Fisher Exact|||||||0.908
82537547|NCT00320489|164774339|SUPERIORITY_OR_OTHER|||||||0.835||95.0|||||Fisher Exact|||||||0.835
82537548|NCT00320489|164774340|SUPERIORITY_OR_OTHER|||||||0.834||95.0||||P-value is for ALT.|Fisher Exact|||||||0.834
82537549|NCT00320489|164774340|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||P-value is for AST.|Fisher Exact|||||||0.723
82537550|NCT00320489|164774340|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||P-value is for total bilirubin.|Fisher Exact|||||||0.247
82537551|NCT00320489|164774341|SUPERIORITY_OR_OTHER|||||||0.885||95.0|||||Fisher Exact|||||||0.885
82537552|NCT03441984|164774347|OTHER||Ratio of geometric LS means|1.6946|||||TWO_SIDED|90.0|1.569|1.8373|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented|||1.8373|1.5690|
82537553|NCT03441984|164774347|OTHER||Ratio of geometric LS means|1.3512|||||TWO_SIDED|90.0|1.2465|1.4647|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4647|1.2465|
82537554|NCT03441984|164774347|OTHER||Ratio of geometric LS means|1.2541|||||TWO_SIDED|90.0|1.1569|1.3595|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented|||1.3595|1.1569|
82537555|NCT03441984|164774348|OTHER||Ratio of geometric LS means|1.7001|||||TWO_SIDED|90.0|1.5685|1.8428|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8428|1.5685|
82452381|NCT03071393|164611303|SUPERIORITY||||||<|0.05||||||Uncorrected p values are reported.|Wilcoxon (Mann-Whitney)|||||||<0.05
82452382|NCT00195663|164611304|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical tests were performed in a hierarchical manner. If there was a statistically significant difference in favor of adalimumab + MTX combination treatment, the second primary analysis of the modified Total Sharp Score was to be performed.|Chi-squared, Corrected|||The study was powered to demonstrate the superiority of adalimumab + MTX combination therapy vs. MTX monotherapy in the proportion of subjects who achieved an ACR50 response at 52 weeks. Power calculations were based on 250 subjects in each group using a chi-squared test with a continuity correction and an alpha = 0.05 significance level. With 250 subjects in each group, a difference of 0.13 in response rates could be detected with 80% power.||||<0.001
82652239|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.025||||0.854|TWO_SIDED|95.0|-0.294|0.244||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.244|-0.294|0.8540
82452383|NCT00195663|164611305|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||Statistical tests were performed in a hierarchical manner. If there was a statistically significant difference in favor of adalimumab + MTX combination treatment on the ACR50 response, the second primary analysis of modified TSS would be performed.||||<0.001
82452384|NCT00195663|164611306|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82452385|NCT00195663|164611307|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82452386|NCT00195663|164611308|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82452387|NCT00195663|164611309|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82452388|NCT00195663|164611310|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82452389|NCT00195663|164611311|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82452390|NCT00195663|164611312|SUPERIORITY_OR_OTHER|||||||0.5402||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5402
82452391|NCT00483938|164611340|SUPERIORITY_OR_OTHER|||||||0.51|||||||Fisher Exact|||SVR: Group A versus Group B||||0.510
82452392|NCT00483938|164611341|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||SVR: Group C versus Group D||||1.000
82452393|NCT00483938|164611341|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||SVR: Group E versus Group F||||1.000
82537556|NCT03441984|164774348|OTHER||Ratio of geometric LS means|1.3519|||||TWO_SIDED|90.0|1.2475|1.465|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4650|1.2475|
82537557|NCT03441984|164774348|OTHER||Ratio of geometric LS means|1.2576|||||TWO_SIDED|90.0|1.1605|1.3629|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3629|1.1605|
82452394|NCT00483938|164611342|SUPERIORITY_OR_OTHER|||||||0.792|||||||Fisher Exact|||ETR: Group A versus Group B||||0.792
82452395|NCT00483938|164611342|SUPERIORITY_OR_OTHER|||||||0.612|||||||Fisher Exact|||ETR: Group C versus Group D||||0.612
82452396|NCT00483938|164611342|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||ETR: Group E versus Group F||||0.490
82452397|NCT00483938|164611342|SUPERIORITY_OR_OTHER|||||||0.363|||||||Fisher Exact|||Complete EVR: Group C versus Group D||||0.363
82452398|NCT00483938|164611342|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Complete EVR: Group E versus Group F||||1.000
82452399|NCT03364309|164611390|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.0001|TWO_SIDED|95.0|33.57|99.99|||Regression, Logistic|||||99.99|33.57|<0.0001
82537558|NCT03441984|164774349|OTHER||Ratio of geometric LS means|1.7382|||||TWO_SIDED|90.0|1.5983|1.8904|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8904|1.5983|
82452400|NCT03364309|164611390|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|52.49|99.99|||Regression, Logistic|||||99.99|52.49|<0.001
82452401|NCT03364309|164611391|SUPERIORITY||Odds Ratio (OR)|79.95|||<|0.001|TWO_SIDED|95.0|32.76|99.99|||Regression, Logistic|||||99.99|32.76|<0.001
82452402|NCT03364309|164611391|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|64.87|99.99|||Regression, Logistic|||||99.99|64.87|<0.001
82452403|NCT03364309|164611393|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|31.88|99.99|||Regression, Logistic|||||99.99|31.88|<0.001
82452404|NCT03364309|164611393|SUPERIORITY||Odds Ratio (OR)|99.99|||<|0.001|TWO_SIDED|95.0|46.96|99.99|||Regression, Logistic|||||99.99|46.96|<0.001
82452405|NCT03364309|164611395|SUPERIORITY||Odds Ratio (OR)|37.24|||<|0.001|TWO_SIDED|95.0|13.68|99.99|||Regression, Logistic|||||99.99|13.68|<0.001
82452406|NCT03364309|164611395|SUPERIORITY||Odds Ratio (OR)|41.38|||<|0.001|TWO_SIDED|95.0|15.09|99.99|||Regression, Logistic|||||99.99|15.09|<0.001
82452407|NCT03364309|164611396|SUPERIORITY||LSMean Difference|-9.52|STANDARD_ERROR_OF_MEAN|0.604|<|0.001|TWO_SIDED|95.0|-10.71|-8.33|||Mixed Models Analysis|||||-8.33|-10.71|<0.001
82452408|NCT03364309|164611396|SUPERIORITY||LSMean Difference|-9.78|STANDARD_ERROR_OF_MEAN|0.603|<|0.001|TWO_SIDED|95.0|-10.96|-8.59|||Mixed Models Analysis|||||-8.59|-10.96|<0.001
82452409|NCT03364309|164611397|SUPERIORITY||LSMean Difference|-10.09|STANDARD_ERROR_OF_MEAN|1.673|<|0.001|TWO_SIDED|95.0|-13.38|-6.79|||Mixed Models Analysis|||||-6.79|-13.38|<0.001
82452410|NCT03364309|164611397|SUPERIORITY||LSMean Difference|-8.81|STANDARD_ERROR_OF_MEAN|1.677|<|0.001|TWO_SIDED|95.0|-12.11|-5.51|||Mixed Models Analysis|||||-5.51|-12.11|<0.001
82452411|NCT03364309|164611398|SUPERIORITY||LSMean Difference|-34.96|STANDARD_ERROR_OF_MEAN|2.023|<|0.001|TWO_SIDED|95.0|-38.94|-30.98|||Mixed Models Analysis|||||-30.98|-38.94|<0.001
82452412|NCT03364309|164611398|SUPERIORITY||LSMean Difference|-36.34|STANDARD_ERROR_OF_MEAN|2.018|<|0.001|TWO_SIDED|95.0|-40.3|-32.37|||Mixed Models Analysis|||||-32.37|-40.30|<0.001
82652240|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.022||||0.8757|TWO_SIDED|95.0|-0.293|0.25||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.250|-0.293|0.8757
82652241|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.332||||0.0174|TWO_SIDED|95.0|-0.605|-0.059||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.059|-0.605|0.0174
82432304|NCT03037476|164573755|OTHER|General Linear Model|Slope|0.1285||||0.075|TWO_SIDED|95.0|-0.0131|0.2702|||Mixed Models Analysis|Negative Binomial Regression||Change in PBS count at 6 month follow up||0.2702|-0.0131|0.075
82432305|NCT03037476|164573755|OTHER|General Linear Model|Slope|0.0936||||0.207|TWO_SIDED|95.0|-0.0517|0.2388|||Mixed Models Analysis|Negative Binomial Regression||Change in PBS count at 12 month follow up||0.2388|-0.0517|0.207
82537559|NCT03441984|164774349|OTHER||Ratio of geometric LS means|1.3614|||||TWO_SIDED|90.0|1.2525|1.4798|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4798|1.2525|
82537560|NCT03441984|164774349|OTHER||Ratio of geometric LS means|1.2768|||||TWO_SIDED|90.0|1.1746|1.3878|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3878|1.1746|
82537561|NCT03441984|164774350|OTHER||Ratio of geometric LS means|1.0407|||||TWO_SIDED|90.0|1.0118|1.0704|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0704|1.0118|
82537562|NCT03441984|164774350|OTHER||Ratio of geometric LS means|1.0228|||||TWO_SIDED|90.0|0.9944|1.052|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0520|0.9944|
82537563|NCT03441984|164774350|OTHER||Ratio of geometric LS means|1.0175|||||TWO_SIDED|90.0|0.9893|1.0465|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0465|0.9893|
82376844|NCT02585778|164460409|SUPERIORITY||LS Mean Difference|3.9||||0.3434|TWO_SIDED|95.0|-4.2|12.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||12.0|-4.2|0.3434
82376845|NCT02585778|164460409|SUPERIORITY||LS Mean Difference|4.4||||0.01|TWO_SIDED|95.0|1.1|7.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||7.7|1.1|0.0100
82376846|NCT02585778|164460410|SUPERIORITY||Adjusted Mean Difference|-5.7||||0.0902|TWO_SIDED|95.0|-12.3|0.9||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant in relevant diabetes stratum).||0.9|-12.3|0.0902
82376847|NCT04841577|164460423|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for RSVPreF3 OA investigational vaccine is ≤ (equal to or smaller than) 1.5.|Adjusted group GMT ratio|1.27|||||TWO_SIDED|95.0|1.12|1.44||||||Adjusted ratios of Control group over Co-Ad Group in RSV-A Neutralizing antibody GMTs at one month after RSV\_PreF3 OA investigational vaccination. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed titers of RSV-A neutralizing antibodies The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 titer as covariate.||1.44|1.12|
82376848|NCT04841577|164460424|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean titer ratio|1.17|||||TWO_SIDED|95.0|1.02|1.35||||||For the Flu A/Hong Kong/2671/2019 (H3N2) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.35|1.02|
82376849|NCT04841577|164460424|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.22|||||TWO_SIDED|95.0|1.03|1.44||||||For the Flu A/Victoria/2570/2019 (H1N1) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.44|1.03|
82537564|NCT03441984|164774351|OTHER||Ratio of geometric LS means|1.041|||||TWO_SIDED|90.0|1.0121|1.0708|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0708|1.0121|
82537565|NCT03441984|164774351|OTHER||Ratio of geometric LS means|1.0232|||||TWO_SIDED|90.0|0.9948|1.0524|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0524|0.9948|
82537566|NCT03441984|164774351|OTHER||Ratio of geometric LS means|1.0174|||||TWO_SIDED|90.0|0.9892|1.0465|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0465|0.9892|
82537567|NCT03441984|164774352|OTHER||Ratio of geometric LS means|1.0533|||||TWO_SIDED|90.0|0.9885|1.1223|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.1223|0.9885|
82537568|NCT03441984|164774352|OTHER||Ratio of geometric LS means|0.9766|||||TWO_SIDED|90.0|0.9167|1.0405|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0405|0.9167|
82376850|NCT04841577|164460424|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.17|||||TWO_SIDED|95.0|1.04|1.32||||||For the Flu B/Phuket/3073/2013 (Yamagata) strain, an ANCOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.32|1.04|
82652242|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.078||||0.5831|TWO_SIDED|95.0|-0.202|0.358||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.358|-0.202|0.5831
82432306|NCT03037476|164573756|OTHER|General Linear Model|Slope|-0.1604|||<|0.001|TWO_SIDED|95.0|-0.2525|-0.0683|||Mixed Models Analysis|Negative Binomial Regression||Change in perceived norm (in perceived days of use in past year) at 6 month follow up||-0.0683|-0.2525|<0.001
82432307|NCT03037476|164573756|OTHER|General Linear Model|Slope|-0.1441|||<|0.003|TWO_SIDED|95.0|-0.2404|-0.0478|||Mixed Models Analysis|Negative Binomial Regression||Change in perceived norm (perceived number of days of use in past year) at 12 month follow up||-0.0478|-0.2404|<.003
82432308|NCT03037476|164573757|OTHER|General Linear Model|Slope|-0.0157||||0.743|TWO_SIDED|95.0|-0.1096|0.0782|||Mixed Models Analysis|Poisson regression||Change in MSLQ score at 6 month follow-up||0.0782|-0.1096|0.743
82432309|NCT03037476|164573757|OTHER|General Linear Model|Slope|0.0133||||0.784|TWO_SIDED|95.0|-0.0816|0.1081|||Mixed Models Analysis|Poisson regression||Change in MSLQ score at 12 month follow up||0.1081|-0.0816|0.784
82432310|NCT03037476|164573758|OTHER|General Linear Model|Slope|-0.0061||||0.914|TWO_SIDED|95.0|-0.1161|0.104|||Mixed Models Analysis|Poisson regression||Change in cumulative grade point average at 6 month follow up||0.104|-0.1161|0.914
82432311|NCT03037476|164573758|OTHER|General Linear Model|Slope|-0.0092||||0.871|TWO_SIDED|95.0|-0.1202|0.1018|||Mixed Models Analysis|General Linear Model||Change in cumulative grade point average at 12 month follow up||0.1018|-0.1202|0.871
82432312|NCT03037476|164573758|OTHER|General Linear Model|Slope|0.003||||0.957|TWO_SIDED|95.0|-0.1063|0.1124|||Mixed Models Analysis|Poisson regression||Change in last term GPA at 6 month follow-up||0.1124|-0.1063|0.957
82452413|NCT03364309|164611399|SUPERIORITY||LSMean Difference|-16.74|STANDARD_ERROR_OF_MEAN|0.957|<|0.001|TWO_SIDED|95.0|-18.62|-14.86|||Mixed Models Analysis|||||-14.86|-18.62|<0.001
82432313|NCT03037476|164573758|OTHER|General Linear Model|Slope|0.0006||||0.992|TWO_SIDED|95.0|-0.1098|0.1109|||Mixed Models Analysis|Poisson regression||Change in last term GPA at 12 month follow-up||0.1109|-0.1098|0.992
82432314|NCT03037476|164573759|OTHER|General Linear Model|Slope|0.039||||0.447|TWO_SIDED|95.0|-0.0615|0.1395|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol frequency at 6 month follow-up||0.1395|-.0615|0.447
82432315|NCT03037476|164573759|OTHER|General Linear Model|Slope|0.0398||||0.443|TWO_SIDED|95.0|-0.0619|0.1414|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol frequency at 12 month follow-up||0.1414|-0.0619|0.443
82432316|NCT03037476|164573760|OTHER|General Linear Model|Slope|0.0002||||0.997|TWO_SIDED|95.0|-0.1066|0.107|||Mixed Models Analysis|Negative Binomial Regression||Change in past month alcohol typical quantity at 6 months||0.1070|-0.1066|0.997
82432317|NCT03037476|164573760|OTHER|General Linear Model|Slope|-0.0136||||0.808|TWO_SIDED|95.0|-0.1236|0.0963|||Mixed Models Analysis|Negative Binomial Regression||Change in past month typical alcohol quantity at 12 month follow-up||0.0963|-0.1236|0.808
82432318|NCT03053440|164573764|SUPERIORITY||Risk Difference (RD)|10.2||||0.0921|TWO_SIDED|95.0|-1.5|22.0|||Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel test stratified by the stratification factors per interactive response technology (IRT). p value is 2-sided||||22.0|-1.5|0.0921
82432319|NCT00473889|164573786|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Stratified Log Rank|Disease stage and bevacizumab eligibility are the stratification factors in the stratified log rank test.||||||0.992
82432320|NCT00473889|164573787|SUPERIORITY_OR_OTHER|||||||0.862||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Finkelstein's Interval Censored Method|Disease stage and bevacizumab eligibility are the stratification factors in the Finkelstein's Interval Censored Method Model.||||||0.862
82432321|NCT00473889|164573788|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||This is a one sided p-value, which corresponds to the null hypothesis.|Stratified Miettinen and Nurminen|Disease stage and bevacizumab eligibility are the stratification factors in the stratified Miettinen and Nurmimen method.||||||0.899
82432322|NCT03782259|164573806|SUPERIORITY||||||<|0.0125||||||Given that there were 4 separate comparisons of the primary outcomes, the level of significance was adjusted from 0.05 to 0.0125 (.05/4) using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|There were no adjustments for covariates.||||||< 0 .0125
82432323|NCT03782259|164573807|SUPERIORITY||||||<|0.0125||||||Given that there were 4 separate comparisons of the primary outcomes, the level of significance was adjusted from 0.05 to 0.0125 (.05/4) using the Bonferroni correction.|Wilcoxon (Mann-Whitney)|There were no adjustments for covariates.||||||< 0 .0125
82432324|NCT02553928|164573825|OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.19||0.097|TWO_SIDED|95.0|-0.06|0.69||Based on full analysis set|ANCOVA||The comparison is to BID memantine.|The ADCS-CGIC was analyzed based on an analysis of covariance (ANCOVA) of ADCS-CGIC score at Week 12, with treatment and site as fixed factors, and baseline score as a covariate using observed cases.||0.69|-0.06|0.097
82432325|NCT00131352|164573826|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|The repeated measures ANCOVA model included terms for treatment, site, time and time-by-treatment interaction; the baseline score was a covariate.||||||0.047
82432326|NCT00131352|164573827|SUPERIORITY_OR_OTHER|||||||0.064||95.0|||||ANCOVA|||||||0.064
82432327|NCT00131352|164573828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.022|TWO_SIDED|95.0|0.35|0.92|||Generalized Estimating Equations (GEE)|||Estimate of Odds Ratio (Placebo/Synvisc-One) using WOMAC A1 data at Week 26.||0.92|0.35|0.022
82432328|NCT00131352|164573829|SUPERIORITY_OR_OTHER|||||||0.679||95.0|||||ANCOVA|||||||0.679
82432329|NCT00131352|164573830|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||ANCOVA|||||||0.266
82432330|NCT00131352|164573831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.005|TWO_SIDED|95.0|0.31|0.82|||Generalized Estimating Equations (GEE)|||Model-based estimate of Odds Ratio (Placebo/Synvisc-One) using PTGA data at Week 26.||0.82|0.31|0.005
82432331|NCT00131352|164573832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.025|TWO_SIDED|95.0|0.34|0.93|||Generalized Estimating Equations (GEE)|||Model-based estimate of Odds Ratio (Placebo/Synvisc-One) using COGA data at Week 26.||0.93|0.34|0.025
82652243|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.078||||0.5859|TWO_SIDED|95.0|-0.36|0.204||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.204|-0.360|0.5859
82652244|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.291||||0.0447|TWO_SIDED|95.0|-0.575|-0.007||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.007|-0.575|0.0447
82432332|NCT00131352|164573833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.156|TWO_SIDED|95.0|0.41|1.16|||Generalized Estimating Equations (GEE)|||Estimate of Odds Ratio (Placebo/Synvisc-One) using Responder classification data at Week 26.||1.16|0.41|0.156
82432333|NCT03024112|164573834|OTHER|||||||0.68|||||||t-test, 1 sided|||||||0.680
82432334|NCT02526212|164573838|SUPERIORITY|||||||0.44|||||||Fisher Exact|||Due to the small sample size, planned analyses that assessed for clustering by group assignment or primary care physician could not be conducted. Chi square using fisher's exact test was conducted to investigate differences in abstinence between study arms.||||0.44
82432335|NCT02526212|164573841|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Each of the 17 items were rated on a scale from 1 to 5. For each participant, the scores from these items were summed and divided by 17 for an average satisfaction score. The average satisfaction score was compared between study arms.||||0.20
82432336|NCT00040742|164573850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.566|STANDARD_ERROR_OF_MEAN|0.145||0.017|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (0.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 0.5g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 0.5g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||.017
82432337|NCT00040742|164573850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.506|STANDARD_ERROR_OF_MEAN|0.141||0.036|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.0g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 1.0g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.036
82432338|NCT00040742|164573850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.269|STANDARD_ERROR_OF_MEAN|0.137||0.431|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.5g and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between 1.5g and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.431
82432339|NCT00040742|164573850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.16||0.003|TWO_SIDED||||||Mixed Models Analysis|Parameter estimated using a contrast.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (any ginger - placebo). Negative values are favorable for the ginger group.|"Placebo vs. Any Ginger. H0: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Peak Acute Nausea = 0.~Ha: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Peak Acute Nausea \> 0. (Two-sided)"||||0.003
82432340|NCT00040742|164573851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.441|STANDARD_ERROR_OF_MEAN|0.127||0.046|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (0.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 0.5g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 0.5g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.046
82432341|NCT00040742|164573851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.402|STANDARD_ERROR_OF_MEAN|0.124||0.076|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.0g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 1.0g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.076
82432342|NCT00040742|164573851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.158|STANDARD_ERROR_OF_MEAN|0.12||0.738|TWO_SIDED|||||The p-value was adjusted using theTukey-Kramer method.|Mixed Models Analysis|Mixed model analyses and Type 3 tests of fixed effects using the Kenward-Roger degrees of freedom procedure were used.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (1.5 gm ginger - placebo). Negative values are favorable for the ginger group.|"H0: Mean difference between 1.5g and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between 1.5g and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.738
82432343|NCT00040742|164573851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.14||0.013|TWO_SIDED||||||Mixed Models Analysis|Contrasts used for estimation.|The estimation parameter (mean difference) is the difference in mean change from baseline (post-intervention - baseline) between groups (any ginger - placebo). Negative values are favorable for the ginger group.|"Placebo vs Any Ginger. H0: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Average Acute Nausea = 0.~Ha: Mean difference between \[(0.5g +1.0g +1.5g) / 3\] and placebo of change from baseline of Average Acute Nausea \> 0. (Two-sided)"||||0.013
82652245|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.093||||0.5365|TWO_SIDED|95.0|-0.203|0.388||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.388|-0.203|0.5365
82432344|NCT01434654|164573866|SUPERIORITY_OR_OTHER|||||||0.99||||||P-value for arm\*time interaction fixed effect.|Mixed Models Analysis|49 datapoints included from baseline, 6 months, and 12 months visits (low CNS penetrance n=14; high CNS penetrance n=35)||The primary outcome was analysed using a mixed-effect regression model with arm and time as fixed linear effects, arm\*time interaction as a non-linear fixed effect and participant as a random effect to account for participant attrition.||||0.99
82432345|NCT01434654|164573867|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Change in NAA/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.58
82432346|NCT01434654|164573867|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANOVA|||Change in Cr/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.44
82432347|NCT01434654|164573867|SUPERIORITY_OR_OTHER|||||||0.86|||||||ANOVA|||Change in Cho/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.86
82432348|NCT01434654|164573867|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||Change in mIo/H20 levels was analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.98
82452414|NCT03364309|164611399|SUPERIORITY||LSMean Difference|-17.93|STANDARD_ERROR_OF_MEAN|0.954|<|0.001|TWO_SIDED|95.0|-19.8|-16.05|||Mixed Models Analysis|||||-16.05|-19.80|<0.001
82452415|NCT03364309|164611400|SUPERIORITY||LSMean Difference|6.228|STANDARD_ERROR_OF_MEAN|0.6681|<|0.001|TWO_SIDED|95.0|4.915|7.541|||Mixed Models Analysis|||||7.541|4.915|<0.001
82432349|NCT01434654|164573868|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANOVA|||Change in NAA/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.16
82432350|NCT01434654|164573868|SUPERIORITY_OR_OTHER|||||||0.09|||||||ANOVA|||Change in Cr/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.09
82432351|NCT01434654|164573868|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||Change in Cho/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.06
82432352|NCT01434654|164573868|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANOVA|||Change in mIo/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.68
82432353|NCT01434654|164573868|SUPERIORITY_OR_OTHER|||||||0.58|||||||ANOVA|||Change in Glx/H20 levels were analysed using repeated-measures ANOVA with arm, time, and arm\*time interaction as fixed effects.||||0.58
82432354|NCT01313910|164573870|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxin-rank test used to determine decrease in bowel movements/day after 8 weeks of intervention||||0.008
82432355|NCT01313910|164573871|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82432356|NCT01313910|164573872|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82432357|NCT01313910|164573874|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82432358|NCT00402324|164573877|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All tests of treatment effects will be conducted at a two-sided alpha level of 0.05 unless otherwise stated.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Change = Therapy PooledINV Visit Baseline Baseline\*Visit Therapy\*Visit. P-value from therapy term in model.||The overall power of the two co-primary analyses-the probability of simultaneously rejecting both co-primary null hypotheses-for this sample size under assumed effect sizes of 0.5 and 0.45 is estimated as approximately 85-87% and 77-80%, respectively.||||<0.001
82432359|NCT00402324|164573878|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||All tests of treatment effects will be conducted at a two-sided alpha level of 0.05 unless otherwise stated.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) Change = Therapy PooledINV Visit Baseline Baseline\*Visit Therapy\*Visit. P-value from therapy term in model.||The overall power of the two co-primary analyses-the probability of simultaneously rejecting both co-primary null hypotheses-for this sample size under assumed effect sizes of 0.5 and 0.45 is estimated as approximately 85-87% and 77-80%, respectively.||||0.022
82432360|NCT00402324|164573879|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Fisher Exact|||||||0.100
82432361|NCT00402324|164573880|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Fisher Exact|||||||0.048
82432362|NCT00402324|164573881|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= TRT + Pooled Investigator + Baseline.||||||0.056
82432363|NCT00402324|164573883|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-value for Total Cholesterol Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.657
82432364|NCT00402324|164573883|SUPERIORITY_OR_OTHER|||||||0.924||95.0||||P-value for Low Density Lipoprotein Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.924
82432365|NCT00402324|164573883|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for High Density Lipoprotein Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.122
82432366|NCT00402324|164573884|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||P-value for Fasting Triglycerides Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.293
82432367|NCT00402324|164573885|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-value for Fasting Blood Glucose Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.007
82432368|NCT00402324|164573886|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||P-value for Bilirubin Total Change from Baseline|ANOVA|Type III sums of squares of ANOVA model: Ranked Change= Treatment + Pooled Investigator||||||0.046
82432369|NCT00402324|164573887|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= Treatment + Pooled Investigator + Baseline||||||<0.001
82452416|NCT03364309|164611400|SUPERIORITY||LSMean Difference|6.536|STANDARD_ERROR_OF_MEAN|0.6668|<|0.001|TWO_SIDED|95.0|5.225|7.847|||Mixed Models Analysis|||||7.847|5.225|<0.001
82452417|NCT03364309|164611401|SUPERIORITY||LSMean Difference|5.193|STANDARD_ERROR_OF_MEAN|0.9489|<|0.001|TWO_SIDED|95.0|3.328|7.058|||Mixed Models Analysis|||||7.058|3.328|<0.001
82432370|NCT00402324|164573888|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Type III sums of squares of ANCOVA model: Change= Treatment + Pooled Investigator + Baseline||||||<0.001
82432371|NCT00402324|164573889|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82452418|NCT03364309|164611401|SUPERIORITY||LSMean Difference|5.362|STANDARD_ERROR_OF_MEAN|0.946|<|0.001|TWO_SIDED|95.0|3.503|7.222|||Mixed Models Analysis|||||7.222|3.503|<0.001
82652246|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.057||||0.7067|TWO_SIDED|95.0|-0.355|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.241|-0.355|0.7067
82432372|NCT03012828|164573904|OTHER|The model was used for predicting population average and 90% 2-sided bootstrapped CI of the baseline-adjusted difference between active and placebo at each time point bound at clinically relevant concentrations.|Slope|-0.0077||||0.4727|TWO_SIDED|90.0|-0.0255|0.0101|||Mixed Models Analysis||The primary mixed effects model analysis revealed a nearly flat dQTcF - plasma concentration gradient|The primary analysis used a mixed-effects model to explore the relationship between the time-matched, baseline-adjusted QTcF (delta (d)QTcF) and moxidectin concentrations. dQTcF was a dependent variable and treatment, time point, and treatment by time point interaction as the independent variables with baseline QTcF as a covariate and time-matched concentrations of moxidectin as a covariate with random effects of intercept and slope for each subject.Concentrations of zero were used for placebo.||0.0101|-0.0255|0.4727
82432373|NCT02969915|164573971|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.64|2.26||||||||2.26|0.64|
82432374|NCT02969915|164573972|SUPERIORITY||Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.91|1.9||||||||1.90|0.91|
82432375|NCT02969915|164573973|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.7|1.95||||||||1.95|0.70|
82432376|NCT02969915|164573974|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.85|1.95||||||||1.95|0.85|
82432377|NCT02969915|164573975|SUPERIORITY||Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|0.79|1.75||||||||1.75|0.79|
82452419|NCT03364309|164611402|SUPERIORITY||LSMean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-2.9|-2.4|||Mixed Models Analysis|||||-2.4|-2.9|<0.001
82537569|NCT03441984|164774352|OTHER||Ratio of geometric LS means|1.0785|||||TWO_SIDED|90.0|1.0123|1.149|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1490|1.0123|
82432378|NCT02969915|164573976|SUPERIORITY||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|0.38|5.76||||||||5.76|0.38|
82432379|NCT02969915|164573977|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.68|1.36||||||||1.36|0.68|
82432380|NCT02969915|164573978|SUPERIORITY||Risk Ratio, log|1.38|||||TWO_SIDED|95.0|0.77|2.46||||||||2.46|0.77|
82432381|NCT02969915|164573979|SUPERIORITY||Risk Ratio (RR)|0.39|||||TWO_SIDED|95.0|0.09|1.8||||||||1.80|0.09|
82432382|NCT02520388|164574002|SUPERIORITY|||||||0.05|||||||Mixed model repeated measures analysis|||||||0.05
82432383|NCT02520388|164574003|SUPERIORITY|||||||0.05|||||||Mixed model repeated measures analysis|||||||0.05
82432384|NCT00418093|164574007|SUPERIORITY_OR_OTHER||Proportion|0.684|||||TWO_SIDED|95.0|0.43|0.87||Exact 95% CI for the partial response rate (13/19 = 0.684): 43.4% \~ 87.4%|Estimation of PR based on Binomial Model|We did not perform a test. Point estimate of PR and its exact 95% CI based on Binomial Model is provided. Thus there is no p-value to report.|Point estimate of PR and its exact 95% CI based on Binomial Model|||0.87|0.43|
82432385|NCT00418093|164574007|SUPERIORITY_OR_OTHER||Single Proportion|0.684|||||TWO_SIDED|95.0|0.434|0.874||We did not perform hypothesis test. We made an estimation for a single proportion (partial response) with its two-sided 95% exact Binomial confidence interval.|Fisher Exact||Estimation of a single proportion (partial response rate) with exact 95% Binomial confidence interval|||0.874|0.434|
82432386|NCT03162796|164574011|SUPERIORITY||Difference in percentage|29.8|||<|0.001|TWO_SIDED|95.0|18.6|41.1|||Cochran-Mantel-Haenszel|||||41.1|18.6|< 0.001
82432387|NCT03162796|164574011|SUPERIORITY||Difference in percentage|37.1|||<|0.001|TWO_SIDED|95.0|26.1|48.2|||Cochran-Mantel-Haenszel|||||48.2|26.1|< 0.001
82432388|NCT03162796|164574012|SUPERIORITY||Least Square (LS) Mean Difference|-0.2483|||<|0.001|TWO_SIDED|95.0|-0.364|-0.1325|||ANCOVA|||||-0.1325|-0.3640|< 0.001
82432389|NCT03162796|164574012|SUPERIORITY||LS Mean difference|-0.3226|||<|0.001|TWO_SIDED|95.0|-0.4385|-0.2066|||ANCOVA|||||-0.2066|-0.4385|< 0.001
82432390|NCT03162796|164574013|SUPERIORITY||Difference in percentage|21.4|||<|0.001|TWO_SIDED|95.0|12.1|30.7||Nominal|Cochran-Mantel-Haenszel|||||30.7|12.1|< 0.001
82432391|NCT03162796|164574013|SUPERIORITY||Difference in percentage|27.2|||<|0.001|TWO_SIDED|95.0|17.6|36.8||Nominal|Cochran-Mantel-Haenszel|||||36.8|17.6|< 0.001
82432392|NCT03162796|164574014|SUPERIORITY||Difference in percentage|42.0|||<|0.001|TWO_SIDED|95.0|28.9|55.1|||Cochran-Mantel-Haenszel|||||55.1|28.9|< 0.001
82432393|NCT03162796|164574014|SUPERIORITY||Difference in percentage|60.0|||<|0.001|TWO_SIDED|95.0|48.3|71.8|||Cochran-Mantel-Haenszel|||||71.8|48.3|< 0.001
82432394|NCT03162796|164574015|SUPERIORITY||Difference in percentage|26.7|||<|0.001|TWO_SIDED|95.0|15.3|38.1||Nominal|Cochran-Mantel-Haenszel|||||38.1|15.3|< 0.001
82432395|NCT03162796|164574015|SUPERIORITY||Difference in percentage|34.8|||<|0.001|TWO_SIDED|95.0|23.5|46.0||Nominal|Cochran-Mantel-Haenszel|||||46.0|23.5|< 0.001
82452420|NCT03364309|164611402|SUPERIORITY||LSMean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-2.9|-2.3|||Mixed Models Analysis|||||-2.3|-2.9|<0.001
82432396|NCT03162796|164574016|SUPERIORITY||LS Mean difference|-0.73|||<|0.001||95.0|-0.98|-0.48||Nominal|ANCOVA|||||-0.48|-0.98|< 0.001
82432397|NCT03162796|164574016|SUPERIORITY||LS Mean difference|-0.91|||<|0.001||95.0|-1.16|-0.66||Nominal|ANCOVA|||||-0.66|-1.16|< 0.001
82432398|NCT03162796|164574017|SUPERIORITY||Difference in percentage|6.4||||0.069|TWO_SIDED|95.0|-0.3|13.1|||Cochran-Mantel-Haenszel|||||13.1|-0.3|0.069
82432399|NCT03162796|164574017|SUPERIORITY||Difference in percentage|14.8|||<|0.001|TWO_SIDED|95.0|6.9|22.7|||Cochran-Mantel-Haenszel|||||22.7|6.9|< 0.001
82432400|NCT03162796|164574018|SUPERIORITY||Difference in percentage|10.2||||0.036|TWO_SIDED|95.0|1.0|19.3||Nominal|Cochran-Mantel-Haenszel|||||19.3|1.0|0.036
82432401|NCT03162796|164574018|SUPERIORITY||Difference in percentage|13.9||||0.006|TWO_SIDED|95.0|4.4|23.4||Nominal|Cochran-Mantel-Haenszel|||||23.4|4.4|0.006
82432402|NCT03162796|164574019|SUPERIORITY||LS Mean difference|4.14|||<|0.001|TWO_SIDED|95.0|2.42|5.85|||ANCOVA|||||5.85|2.42|< 0.001
82652247|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.317||||0.0386|TWO_SIDED|95.0|-0.616|-0.017||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.017|-0.616|0.0386
82432403|NCT03162796|164574019|SUPERIORITY||LS Mean difference|4.91|||<|0.001||95.0|3.19|6.63|||ANCOVA|||||6.63|3.19|< 0.001
82432404|NCT03162796|164574020|SUPERIORITY||Difference in percentage|13.0||||0.094|TWO_SIDED|95.0|-1.6|27.5||Nominal|Cochran-Mantel-Haenszel|||||27.5|-1.6|0.094
82432405|NCT03162796|164574020|SUPERIORITY||Difference in percentage|19.8||||0.013|TWO_SIDED|95.0|4.9|34.6||Nominal|Cochran-Mantel-Haenszel|||||34.6|4.9|0.013
82432406|NCT03162796|164574021|SUPERIORITY||LS Mean difference|-0.33||||0.185|TWO_SIDED|95.0|-0.83|0.16||Nominal|ANCOVA|||||0.16|-0.83|0.185
82432407|NCT03162796|164574021|SUPERIORITY||LS Mean difference|-0.74||||0.004|TWO_SIDED|95.0|-1.24|-0.24||Nominal|ANCOVA|||||-0.24|-1.24|0.004
82432408|NCT03162796|164574022|SUPERIORITY||LS Mean difference|0.83||||0.398|TWO_SIDED|95.0|-1.1|2.77||Nominal|ANCOVA|||||2.77|-1.10|0.398
82432409|NCT03162796|164574022|SUPERIORITY||LS Mean difference|1.23||||0.214|TWO_SIDED|95.0|-0.71|3.16||Nominal|ANCOVA|||||3.16|-0.71|0.214
82432410|NCT03162796|164574023|SUPERIORITY||Difference in percentage|16.6||||0.088|TWO_SIDED|95.0|-1.5|34.8||Nominal|Cochran-Mantel-Haenszel|||||34.8|-1.5|0.088
82432411|NCT03162796|164574023|SUPERIORITY||Difference in percentage|13.4||||0.212|TWO_SIDED|95.0|-6.9|33.7||Nominal|Cochran-Mantel-Haenszel|||||33.7|-6.9|0.212
82432412|NCT03162796|164574024|SUPERIORITY||LS Mean difference|-1.82||||0.121|TWO_SIDED|95.0|-4.12|0.49||Nominal|ANCOVA|||||0.49|-4.12|0.121
82432413|NCT03162796|164574024|SUPERIORITY||LS Mean difference|-1.53||||0.225|TWO_SIDED|95.0|-4.0|0.95||Nominal|ANCOVA|||||0.95|-4.00|0.225
82432414|NCT03744910|164574141|OTHER||Treatment difference|-2.75|STANDARD_ERROR_OF_MEAN|1.563|||TWO_SIDED|95.0|-5.84|0.35||||||||0.35|-5.84|
82432415|NCT03419897|164574239|SUPERIORITY|||||||0.0001|||||||Binomial exact test|||Tislelizumab compared with historical ORR rate of 7%||||0.0001
82432416|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.505|TWO_SIDED|95.0|0.24|2.03|||Unstratified log-rank|||||2.03|0.24|0.5050
82432417|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.6284|TWO_SIDED|95.0|0.22|2.54|||Unstratified log-rank|||||2.54|0.22|0.6284
82432418|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.1988|TWO_SIDED|95.0|0.4|1.22|||Unstratified log-rank|||||1.22|0.40|0.1988
82432419|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.2722|TWO_SIDED|95.0|0.42|1.28|||Unstratified log-rank|||||1.28|0.42|0.2722
82432420|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0544|TWO_SIDED|95.0|0.17|1.04|||Unstratified log-rank|||||1.04|0.17|0.0544
82432421|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|2.04||||0.0442|TWO_SIDED|95.0|1.0|4.16|||Unstratified log-rank|||||4.16|1.00|0.0442
82432422|NCT02574078|164574325|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.5489|TWO_SIDED|95.0|0.5|1.45|||Log Rank|stratified by Disease Status (Recurrent Locally Advanced vs. Metastatic), Performance Status (ECOG 0 vs.1 vs. 2) as entered into the IVRS||||1.45|0.50|0.5489
82432423|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9951|TWO_SIDED|95.0|0.35|2.91|||Unstratified log-rank|||||2.91|0.35|0.9951
82432424|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.8321|TWO_SIDED|95.0|0.25|3.1|||Unstratified log-rank|||||3.10|0.25|0.8321
82432425|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2938|TWO_SIDED|95.0|0.41|1.31|||Unstratified log-rank|||||1.31|0.41|0.2938
82432426|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4819|TWO_SIDED|95.0|0.46|1.45|||Unstratified log-rank|||||1.45|0.46|0.4819
82432427|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.0241|TWO_SIDED|95.0|0.11|0.91|||Unstratified log-rank|||||0.91|0.11|0.0241
82432428|NCT02574078|164574326|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.1401|TWO_SIDED|95.0|0.85|2.95|||Unstratified log-rank|||||2.95|0.85|0.1401
82432429|NCT02574078|164574330|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.2862|TWO_SIDED|95.0|0.4|1.31|||Log Rank|stratified by Disease Status (Recurrent Locally Advanced vs. Metastatic), Performance Status (ECOG 0 vs.1 vs. 2) as entered into the IVRS||||1.31|0.40|0.2862
82432430|NCT03980743|164574359|SUPERIORITY|||||||0.97|||||||Mixed Models Analysis|||Time x treatment (week 0 and week 24)||||0.97
82432431|NCT03980743|164574360|SUPERIORITY|||||||0.273|||||||Mixed Models Analysis|||Time x treatment (week 0 and week 24) for Healthy Eating||||0.273
82432432|NCT03980743|164574361|SUPERIORITY|Time x treatment (week 0 and week 24) with sum score||||||0.691|||||||Mixed Models Analysis|||||||0.691
82432433|NCT03759639|164574362|SUPERIORITY||Hodges-Lehmann Estimator|1.0||||0.029|TWO_SIDED|90.0|0.25|1.75|||1-sided Wilcoxon signed-rank test|||||1.75|0.25|0.029
82432434|NCT03759639|164574364|SUPERIORITY||Hodges-Lehmann Estimator|0.13||||0.318|TWO_SIDED|90.0|-0.25|0.5|||1-sided Wilcoxon signed-rank test|||||0.50|-0.25|0.318
82432435|NCT03759639|164574367|SUPERIORITY||Hodges-Lehmann Estimator|0.0854||||0.084|TWO_SIDED|90.0|-0.0123|0.1777|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||0.1777|-0.0123|0.084
82432436|NCT03759639|164574367|SUPERIORITY||Hodges-Lehmann Estimator|-0.0399||||0.315|TWO_SIDED|90.0|-0.1269|0.1031|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.1031|-0.1269|0.315
82432437|NCT03759639|164574368|SUPERIORITY||Hodges-Lehmann Estimator|-1.25||||0.001|TWO_SIDED|90.0|-1.75|-0.5|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||-0.50|-1.75|0.001
82432438|NCT03759639|164574368|SUPERIORITY||Hodges-Lehmann Estimator|1.25||||0.002|TWO_SIDED|90.0|0.5|2.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||2.00|0.50|0.002
82432439|NCT03759639|164574370|SUPERIORITY||Hodges-Lehmann Estimator|0.0||||0.121|TWO_SIDED|90.0|-0.021|0.0|||1-sided Wilcoxon signed-rank test|||Treatment with IB1001||0.000|-0.021|0.121
82432440|NCT03759639|164574370|SUPERIORITY||Hodges-Lehmann Estimator|0.021||||0.056|TWO_SIDED|90.0|0.0|0.042|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.042|0.000|0.056
82432441|NCT03759639|164574371|SUPERIORITY||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||<0.001
82432442|NCT03759639|164574371|SUPERIORITY||Mean Difference (Net)|4.5||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Post-Treatment Washout||||0.006
82432443|NCT03759639|164574372|SUPERIORITY||Mean Difference (Net)|3.4||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||0.005
82432444|NCT03759639|164574372|SUPERIORITY||Mean Difference (Net)|4.4||||0.038|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment With IB1001||||0.038
82432445|NCT03759639|164574373|SUPERIORITY||Mean Difference (Net)|3.3||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Treatment with IB1001||||0.003
82432446|NCT03759639|164574373|SUPERIORITY||Mean Difference (Net)|4.4||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Post-Treatment Washout||||0.034
82452421|NCT03364309|164611403|SUPERIORITY||LSMean Difference|-3.35|STANDARD_ERROR_OF_MEAN|1.11||0.003|TWO_SIDED|95.0|-5.56|-1.15|||Mixed Models Analysis|||||-1.15|-5.56|0.003
82537570|NCT03441984|164774353|OTHER||Ratio of geometric LS means|1.0|||||TWO_SIDED|90.0|0.9536|1.0486|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0486|0.9536|
82432447|NCT00958360|164574395|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82432448|NCT00958360|164574396|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
82432449|NCT00958360|164574397|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82432450|NCT00958360|164574398|SUPERIORITY_OR_OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
82432451|NCT00958360|164574399|SUPERIORITY_OR_OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
82432452|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.28|0.56|||||Confidence Intervals (CI) for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 minus \[-\] Vax 1).|Serotype 1: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.56|0.28|
82432453|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|1.01|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.01|0.67|
82432454|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.44|0.72|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 4: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.72|0.44|
82432455|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.53|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 5: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.53|0.32|
82432456|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.45|0.91|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 6A: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.91|0.45|
82432457|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.56|1.01|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 6B: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.01|0.56|
82432458|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.25|0.65|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 7F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.65|0.25|
82432459|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.16|0.4|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 9V: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.40|0.16|
82432460|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.4|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 14: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.78|0.40|
82432461|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.65|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 18C: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.65|0.40|
82452422|NCT03364309|164611403|SUPERIORITY||LSMean Difference|-4.79|STANDARD_ERROR_OF_MEAN|1.064|<|0.001|TWO_SIDED|95.0|-6.9|-2.67|||Mixed Models Analysis|||||-2.67|-6.90|<0.001
82452423|NCT03364309|164611404|SUPERIORITY||LSMean Difference|-27.4|STANDARD_ERROR_OF_MEAN|11.07||0.022|TWO_SIDED|95.0|-50.5|-4.3|||Mixed Models Analysis|||||-4.3|-50.5|0.022
82537571|NCT03441984|164774353|OTHER||Ratio of geometric LS means|0.9478|||||TWO_SIDED|90.0|0.9039|0.9939|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9939|0.9039|
82452424|NCT03364309|164611404|SUPERIORITY||LSMean Difference|-25.2|STANDARD_ERROR_OF_MEAN|10.87||0.031|TWO_SIDED|95.0|-47.8|-2.5|||Mixed Models Analysis|||||-2.5|-47.8|0.031
82452425|NCT04072887|164611455|SUPERIORITY||Least Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0235||0.628|TWO_SIDED|90.0|-0.027|0.05|||ANCOVA|||||0.050|-0.027|0.628
82452426|NCT04072887|164611455|SUPERIORITY||Least Squares Mean Difference|0.012|STANDARD_ERROR_OF_MEAN|0.0144||0.425|TWO_SIDED|90.0|-0.012|0.035|||ANCOVA|||||0.035|-0.012|0.425
82452427|NCT04072887|164611455|SUPERIORITY||Least Squares Mean Difference|0.013|STANDARD_ERROR_OF_MEAN|0.0174||0.463|TWO_SIDED|90.0|-0.016|0.041|||ANCOVA|||||0.041|-0.016|0.463
82452428|NCT04072887|164611455|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.0173||0.244|TWO_SIDED|90.0|-0.008|0.049|||ANCOVA|||||0.049|-0.008|0.244
82452429|NCT04072887|164611455|SUPERIORITY||Least Squares Mean Difference|0.005|STANDARD_ERROR_OF_MEAN|0.0176||0.793|TWO_SIDED|90.0|-0.024|0.034|||ANCOVA|||||0.034|-0.024|0.793
82452430|NCT04371666|164611488|OTHER||Least square (LS) Mean Difference|0.083|STANDARD_ERROR_OF_MEAN|0.5494||0.8802|TWO_SIDED|95.0|-1.01|1.176||Threshold for significance at 0.05 level.|Random coefficient model|||||1.176|-1.010|0.8802
82452431|NCT03228212|164611514|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|1.16|9.09|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|It was calculated that 60 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||9.09|1.16|
82452432|NCT03228212|164611515|NON_INFERIORITY|A non-inferiority margin of 0.05 logmar was used. This margin corresponds to a half line difference.|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.00621|||TWO_SIDED|95.0|0.01|0.03|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|It was calculated that 40 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a 0.05 difference in LogMAR visual acuity at the 2-week follow-up. Sample size was determined using simulations methods for repeated measures.||0.03|0.01|
82648769|NCT01123980|165013304|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered to be confirmed if the upper bound of the two-sided 95% confidence interval (CI) was below or equal to 0.4% or equivalent if the p-value for the one-sided test of H0: D \> 0.4% against HA: D =\< 0.4%, was less than or equal to 2.5%, where D is the mean treatment difference (investigational product minus comparator). Furthermore, superiority of BIAsp 30 OD over insulin glargine OD was shown if the upper limit of the 95% CI for the difference is lower than 0%|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.07|<|0.001||95.0|-0.25|0.02||The p-values correspond to one-sided hypotheses of either non-inferiority or superiority, statistical significance level is 2.5%.|ANCOVA|The estimates are from a normal linear regression model with treatment, country and previous OADs as factors and baseline HbA1c as a covariate||H0: The mean treatment difference (BIAsp 30 minus insulin glargine) \> 0.4%. HA: The mean treatment difference (BIAsp 30 minus insulin glargine) =\< 0.4%. Sample size was calculated to achieve a power of at least 90%, assuming an equal change in HbA1c and a common standard deviation of 1.25%||0.02|-0.25|< 0.001
82537572|NCT03441984|164774353|OTHER||Ratio of geometric LS means|1.055|||||TWO_SIDED|90.0|1.0061|1.1063|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1063|1.0061|
82452433|NCT03228212|164611516|NON_INFERIORITY|A non-inferiority margin of 90% was used. Lower limit of 95% credible interval was compared to 90%|proportion|0.992|||||TWO_SIDED|95.0|0.96|1.0|||Bayesian Methods|Bayesian Methods-Jefferys prior for binomial proportion was used to calculate 95% credible interval.||It was calculated that 70 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect a the 2-week follow-up. Sample size was determined using simulations methods for repeated measures. Analysis was only performed on eyes wearing the Tesl lens.||1|0.96|
82452434|NCT03228212|164611517|NON_INFERIORITY|A non-inferiority margin of 5% was used. Upper limit of the 95% credible interval was compared to 5%|Mean Difference (Final Values)|-0.0043|STANDARD_DEVIATION|0.0089|||TWO_SIDED|95.0|-0.0237|0.0129|||Bayesian beta-binomial model|Bayesian beta-binomial model for correlated binary data|Mean difference calculated as Test - Control|It was calculated that 120 participants randomized in a 1:1 fashion between the two sequences would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods. Sample size for this study was primarily driven by the slit lamp findings.||0.0129|-0.0237|
82452435|NCT03228212|164611518|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|7.2|STANDARD_DEVIATION|1.8|||TWO_SIDED|95.0|3.69|10.74|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|Sample size calculations were based on the primary endpoints.||10.74|3.69|
82452436|NCT03228212|164611519|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|0.36|6.29|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as Test - Control|Sample size calculations were based on the primary endpoints.||6.29|0.36|
82537573|NCT03441984|164774354|OTHER||Ratio of geometric LS means|0.9994|||||TWO_SIDED|90.0|0.9525|1.0486|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0486|0.9525|
82537574|NCT03441984|164774354|OTHER||Ratio of geometric LS means|0.9432|||||TWO_SIDED|90.0|0.899|0.9896|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9896|0.8990|
82452437|NCT01807299|164611532|OTHER||Mean Difference (Final Values)|5.0||||0.05|ONE_SIDED|5.0|||||Chi-squared, Corrected|||||||0.05
82452438|NCT02287467|164611570|SUPERIORITY||Odds Ratio (OR)|1.25||||0.33|TWO_SIDED|95.0|0.79|1.97|||Regression, Logistic|Adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is hIVIG vs. placebo. A value greater than 1 favors the hIVIG group.|Odds ratio of being in a better category, as assessed using a proportional odds model. Multiple imputation techniques were used to impute an outcome for 4 patients for whom the outcome was unknown.||1.97|0.79|.33
82452439|NCT02287467|164611571|SUPERIORITY||Odds Ratio (OR)|0.95||||0.84|TWO_SIDED|95.0|0.61|1.48|||Regression, Logistic|Adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is for hIVIG vs placebo. An odds ratio greater than 1 favors the hIVIG group.|Odds ratio for being in a better category, from a proportional odds model||1.48|0.61|.84
82452440|NCT02287467|164611572|SUPERIORITY||Odds Ratio (OR)|0.87||||0.52|TWO_SIDED|95.0|0.57|1.33|||Regression, Cox|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio is for hIVIG vs. placebo. An odds ratio \> 1 favors the hIVIG group.|Odds ratio for being in a better group, from a proportional odds model.||1.33|0.57|.52
82452441|NCT02287467|164611573|SUPERIORITY||Odds Ratio (OR)|1.49||||0.2|TWO_SIDED|95.0|0.81|2.74|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio for hIVIG vs placebo. An odds ratio \> 1.0 favors the hIVIG group.|||2.74|0.81|.20
82452442|NCT02287467|164611574|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.44|TWO_SIDED|95.0|0.85|1.45|||Regression, Cox|Stratified by baseline clinical status, region, and participation in the pilot study.|hazard ratio is hIVIG vs placebo; a hazard ratio \>1 favors the hIVIG group.|Deaths during hospitalization are censored after day 7.||1.45|.85|.44
82452443|NCT02287467|164611575|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.4|TWO_SIDED|95.0|0.48|6.15|||Regression, Cox|stratified by baseline clinical status, region, and participation in pilot study|hazard ratio is for hIVIG vs placebo; a hazard ratio \< 1.0 favors the hIVIG group.|||6.15|.48|.40
82452444|NCT02287467|164611576|SUPERIORITY||Odds Ratio (OR)|0.87||||0.74|TWO_SIDED|95.0|0.38|1.98|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG vs placebo; an odds ratio \> 1.0 favors hIVIG|||1.98|.38|.74
82452445|NCT02287467|164611577|SUPERIORITY||Mean Difference (Net)|0.14||||0.49|TWO_SIDED|95.0|-0.26|0.54|||Regression, Linear|Adjusted for baseline RNA, geographic region, and influenza subtype|Change is calculated as day 3 - baseline. Difference in changes is hIVIG - placebo.|||.54|-.26|.49
82452446|NCT02287467|164611578|SUPERIORITY||Odds Ratio (OR)|0.97||||0.93|TWO_SIDED|95.0|0.5|1.97|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study.|Odds ratio is for hIVIG vs placebo.|||1.97|0.5|.93
82452447|NCT02287467|164611579|SUPERIORITY||Odds Ratio (OR)|0.92||||0.81|TWO_SIDED|95.0|0.5|1.82|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG group vs placebo|||1.82|0.5|.81
82452448|NCT02287467|164611580|SUPERIORITY||Odds Ratio (OR)|1.17||||0.55|TWO_SIDED|95.0|0.7|1.95|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study|Odds ratio (hIVIG vs placebo) of being in a better category. An odds ratio \> 1 favors the hIVIG group.|Proportional odds for being in a better category||1.95|0.70|.55
82452449|NCT02287467|164611581|SUPERIORITY||Odds Ratio (OR)|1.12||||0.77|TWO_SIDED|95.0|0.5|2.31|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is for hIVIG vs placebo|||2.31|.5|.77
82537575|NCT03441984|164774354|OTHER||Ratio of geometric LS means|1.0596|||||TWO_SIDED|90.0|1.0099|1.1117|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1117|1.0099|
82452450|NCT02287467|164611582|SUPERIORITY||Odds Ratio (OR)|1.32||||0.34|TWO_SIDED|95.0|0.7|2.34|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio is expressed as hIVIG vs placebo|||2.34|0.7|.34
82452451|NCT02287467|164611583|SUPERIORITY||Odds Ratio (OR)|0.9||||0.73|TWO_SIDED|95.0|0.5|1.62||adjusted for baseline clinical status, region, and participation in pilot study|Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|odds ratio (hIVIG vs placebo) is for being in a better category. An odds ratio \>1 favors the hIVIG group.|||1.62|.50|.73
82452452|NCT02287467|164611584|SUPERIORITY||Odds Ratio (OR)|0.94||||0.82|TWO_SIDED|95.0|0.55|1.59|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in the pilot study.|Odds ratio (hIVIG vs placebo) is for being in a better category.|Multiple imputation was used to estimate the outcome for 3 participants for whom the outcome was partially unknown.||1.59|0.55|.82
82452453|NCT02287467|164611585|SUPERIORITY||Odds Ratio (OR)|3.19||||0.02|TWO_SIDED|95.0|1.21|8.42|||Regression, Logistic|adjusted for baseline clinical status, region, and participation in pilot study|Odds ratio (hIVIG vs placebo) for a better outcome. An odds ratio \> 1 favors the hIVIG group.|Multiple imputation was used to estimate the outcome for one participant.||8.42|1.21|.02
82452454|NCT02287467|164611586|SUPERIORITY||ratio of geometric means|1.5||||0.18|TWO_SIDED|95.0|0.84|2.7|||Mixed Models Analysis|longitudinal regression with adjustment for baseline titer|Ratio of hIVIG group to placebo group. A ratio \> 1.0 indicates higher titers for the hIVIG group.|HAI measurements were log-transformed to compute treatment differences and the model was adjusted for baseline titer.||2.7|0.84|.18
82452455|NCT02287467|164611587|SUPERIORITY||ratio of geometric means|1.31||||0.13|TWO_SIDED|95.0|0.93|1.8|||Mixed Models Analysis|longitudinal analysis of log-transformed titers adjust for baseline titer.|Ratio of geometric means of hIVIG vs placebo. A ratio \>1.0 indicates higher titers in the hIVIG group on day 7.|||1.8|0.93|.13
82452456|NCT02287467|164611588|SUPERIORITY||ratio of geometric means|0.94||||0.78|TWO_SIDED|95.0|0.58|1.5|||Mixed Models Analysis|log-transformed titers adjusted for baseline titer|ratio of geometric mean for hIVIG vs placebo. A ratio \> 1.0 indicates higher titers at day 7 for the hIVIG group.|||1.5|0.58|.78
82452457|NCT01915173|164611607|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Regression, Logistic|||All 4 arms were combined to compare the Standard Interview groups to the Expanded Interview groups. We calculated that we had 45-74% power to detect a 30-40% difference in responders between groups in the pre-specified primary outcome measure, the percent of subjects with a 50% or greater improvement in GERD symptom severity.||||0.01
82537576|NCT03441984|164774355|OTHER||Ratio of geometric LS means|0.9362|||||TWO_SIDED|90.0|0.8677|1.0101|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.0101|0.8677|
82648770|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|||<|0.001||95.0|-0.24|0.19||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before breakfast|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.19|-0.24|<0.001
82648771|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||<|0.001||95.0|-0.45|0.58||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after breakfast|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.58|-0.45|<0.001
82648772|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|-0.31|0.58||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before lunch|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.58|-0.31|<0.001
82648773|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||<|0.001||95.0|-0.26|0.82||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after lunch|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.82|-0.26|<0.001
82432462|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.3|0.48|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 19A: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.48|0.30|
82432463|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.35|0.67|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 19F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.67|0.35|
82432464|NCT00500357|164574404|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.3|||||TWO_SIDED|95.0|0.86|1.86|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 1).|Serotype 23F: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.86|0.86|
82432465|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.57|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.57|0.34|
82432466|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|0.95|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.95|0.66|
82432467|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.76|1.22|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.22|0.76|
82432468|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.8|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.80|0.57|
82648774|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|||<|0.001||95.0|0.22|1.06||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before dinner|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||1.06|0.22|<0.001
82648775|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51|||<|0.001||95.0|-2.03|-1.0||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Two hours after dinner|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-1.00|-2.03|<0.001
82648776|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|||<|0.001||95.0|-1.73|-0.78||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Bedtime|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-0.78|-1.73|<0.001
82432469|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|2.0|||||TWO_SIDED|95.0|1.39|2.84|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||2.84|1.39|
82432470|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.11|1.63|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.63|1.11|
82432471|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.18|0.41|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.41|0.18|
82432472|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.27|0.68|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.68|0.27|
82432473|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.57|0.83|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.83|0.57|
82432474|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|1.03|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.03|0.66|
82432475|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.78|0.58|
82432476|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.47|0.73|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.73|0.47|
82432477|NCT00500357|164574407|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority declared if the lower limit of the 95 %confidence interval for the back-transformed GMFR was \> 0.5 (2-fold criterion as a basis for comparison).|geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.18|1.94|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.94|1.18|
82432478|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.65|||||TWO_SIDED|95.0|0.52|0.82|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.82|0.52|
82432479|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.52|||||TWO_SIDED|95.0|0.43|0.62|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.62|0.43|
82432480|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.63|||||TWO_SIDED|95.0|0.53|0.76|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.76|0.53|
82432481|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.32|||||TWO_SIDED|95.0|0.27|0.39|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.39|0.27|
82432482|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.74|1.1|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||1.10|0.74|
82432483|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.79|||||TWO_SIDED|95.0|0.63|0.99|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.99|0.63|
82537577|NCT03441984|164774355|OTHER||Ratio of geometric LS means|0.9079|||||TWO_SIDED|90.0|0.8416|0.9795|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||0.9795|0.8416|
82537578|NCT03441984|164774355|OTHER||Ratio of geometric LS means|1.0312|||||TWO_SIDED|90.0|0.9558|1.1124|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.1124|0.9558|
82537579|NCT03441984|164774356|OTHER||Ratio of geometric LS means|1.6439|||||TWO_SIDED|90.0|1.4649|1.8449|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.8449|1.4649|
82537580|NCT03441984|164774356|OTHER||Ratio of geometric LS means|1.2698|||||TWO_SIDED|90.0|1.1315|1.425|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4250|1.1315|
82537581|NCT03441984|164774356|OTHER||Ratio of geometric LS means|1.2946|||||TWO_SIDED|90.0|1.1536|1.4529|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4529|1.1536|
82537582|NCT03441984|164774357|OTHER||Ratio of geometric LS means|1.6578|||||TWO_SIDED|90.0|1.4709|1.8685|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.8685|1.4709|
82537583|NCT03441984|164774357|OTHER||Ratio of geometric LS means|1.2755|||||TWO_SIDED|90.0|1.1317|1.4375|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4375|1.1317|
82537584|NCT03441984|164774357|OTHER||Ratio of geometric LS means|1.2998|||||TWO_SIDED|90.0|1.1533|1.465|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4650|1.1533|
82537585|NCT03441984|164774358|OTHER||Ratio of geometric LS means|1.9758|||||TWO_SIDED|90.0|1.7585|2.2201|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||2.2201|1.7585|
82537586|NCT03441984|164774358|OTHER||Ratio of geometric LS means|1.2873|||||TWO_SIDED|90.0|1.1457|1.4465|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4465|1.1457|
82537587|NCT03441984|164774358|OTHER||Ratio of geometric LS means|1.5348|||||TWO_SIDED|90.0|1.366|1.7245|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.7245|1.3660|
82537588|NCT03441984|164774359|OTHER||Ratio of geometric LS means|0.9798|||||TWO_SIDED|90.0|0.9241|1.0389|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0389|0.9241|
82432484|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.72|||||TWO_SIDED|95.0|0.6|0.87|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.87|0.60|
82432485|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.6|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.60|0.42|
82432486|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.76|||||TWO_SIDED|95.0|0.59|0.98|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.98|0.59|
82432487|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.38|||||TWO_SIDED|95.0|0.31|0.46|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.46|0.31|
82432488|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.74|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.74|0.49|
82432489|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.64|||||TWO_SIDED|95.0|0.52|0.79|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.79|0.52|
82432490|NCT00500357|164574408|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.76|||||TWO_SIDED|95.0|0.62|0.93|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of concentrations (Vax 3 - Vax 1).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 1 and Vax 3 blood draws.||0.93|0.62|
82537589|NCT03441984|164774359|OTHER||Ratio of geometric LS means|0.9605|||||TWO_SIDED|90.0|0.9059|1.0185|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0185|0.9059|
82537590|NCT03441984|164774359|OTHER||Ratio of geometric LS means|1.0201|||||TWO_SIDED|90.0|0.9633|1.0802|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0802|0.9633|
82537591|NCT03441984|164774360|OTHER||Ratio of geometric LS means|0.9831|||||TWO_SIDED|90.0|0.9243|1.0457|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0457|0.9243|
82537592|NCT03441984|164774360|OTHER||Ratio of geometric LS means|0.9702|||||TWO_SIDED|90.0|0.9121|1.032|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0320|0.9121|
82432491|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.6|0.78|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 1: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.78|0.60|
82432492|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.55|||||TWO_SIDED|95.0|0.48|0.64|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 3: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.64|0.48|
82432493|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.75|||||TWO_SIDED|95.0|0.65|0.87|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 4: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.87|0.65|
82432494|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.61|0.76|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 5: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.76|0.61|
82432495|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.49|||||TWO_SIDED|95.0|1.27|1.75|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.75|1.27|
82432496|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.07|||||TWO_SIDED|95.0|0.94|1.21|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 6B: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.21|0.94|
82452458|NCT01915173|164611607|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Regression, Logistic|||All 4 arms were combined to compare the Placebo groups to the Supplement groups. We calculated that we had 45-74% power to detect a 30-40% difference in responders between groups in the pre-specified primary outcome measure, the percent of subjects with a 50% or greater improvement in GERD symptom severity.||||0.33
82452459|NCT01290757|164611656|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Scaled average BE is rejected, if the calculated upper 95% confidence limit of the linearized criterion is positive.|Upper 95% CI of the linearized criterion|-0.082|||||ONE_SIDED|95.0|||||Mixed Models Analysis||Linearized regulatory criterion according to Tothfalusi et al (Pharmaceutical Research, 2001). The square of the difference in treatment responses divided by within-subject variance of the reference formulation minus square of ln(1.25)/0.25|Capsugel minus Qualicaps||||
82452460|NCT01290757|164611656|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|126.33||||||90.0|119.45|133.6|||Mixed Models Analysis|||Capsugel vs Qualicaps||133.60|119.45|
82452461|NCT01290757|164611657|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Scaled average BE is rejected, if the calculated upper 95% confidence limit of the linearized criterion is positive.|Upper 95% CI of the linearized criterion|-0.085|||||ONE_SIDED|95.0|||||Mixed Models Analysis||Linearized regulatory criterion according to Tothfalusi et al (Pharmaceutical Research, 2001). The square of the difference in treatment responses divided by within-subject variance of the reference formulation minus square of ln(1.25)/0.25|Capsugel minus Qualicaps||||
82452462|NCT01290757|164611657|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|125.49||||||90.0|118.69|132.67|||Mixed Models Analysis|||Capsugel vs Qualicaps||132.67|118.69|
82452463|NCT01290757|164611658|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|124.74||||||90.0|118.32|131.51|||Mixed Models Analysis|||Capsugel vs Qualicaps||131.51|118.32|
82452464|NCT01290757|164611659|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|126.22||||||90.0|119.36|133.47|||Mixed Models Analysis|||Capsugel vs Qualicaps||133.47|119.36|
82452465|NCT01290757|164611660|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|125.3||||||90.0|118.42|132.59|||Mixed Models Analysis|||Capsugel vs Qualicaps||132.59|118.42|
82452466|NCT01290757|164611661|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE). Bioequivalence is accepted if 90% confidence interval lies within the common BE margins (80% and 125%).|Adjusted geometric mean ratio (%)|124.49||||||90.0|118.11|131.21|||Mixed Models Analysis|||Capsugel vs Qualicaps||131.21|118.11|
82452467|NCT00570310|164611662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.003||90.0|-2.25|-0.6||1-sided, alpha = 0.05|ANOVA||Primary Hypothesis: In 'primary responder population', pregabalin is superior to placebo in maintaining pain control measured by change (3-day average: end of the randomization period versus end of maintenance period) in evening pain intensity.|||-0.60|-2.25|0.003
82537593|NCT03441984|164774360|OTHER||Ratio of geometric LS means|1.0134|||||TWO_SIDED|90.0|0.9527|1.0779|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0779|0.9527|
82452468|NCT00570310|164611663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.67|||<|0.001||95.0|5.26|10.08||1-sided, alpha = 0.05|ANOVA|||||10.08|5.26|<0.001
82452469|NCT00759161|164611672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||2-sided sign test|||||||< 0.001
82452470|NCT00479336|164611679|SUPERIORITY_OR_OTHER||Slope|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.3167|TWO_SIDED|95.0|-0.061|0.02|||Regression, Linear|||A linear regression model using change in body weight from baseline at the final timepoint as the criterion variable and dose as the explanatory variable was fitted to the dataset. The null hypothesis of whether the regression coefficient is zero (analysis using t-statistics) was tested at a two-tailed significance level of 0.05, and estimated values for the slope and 95% confidence interval were calculated.||0.020|-0.061|0.3167
82537594|NCT03441984|164774361|OTHER||Ratio of geometric LS means|0.91|||||TWO_SIDED|90.0|0.8196|1.0102|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) and adult DTG/3TC (DTG 50 mg/3TC 300 mg tablet) is presented.|||1.0102|0.8196|
82452471|NCT00108862|164611681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|3.0||0.45|TWO_SIDED|95.08|-2.0|8.0||The analysis was stratified by screening CD4 (\<50 cells/mm3 vs =\>50). Interim reviews employed group sequential monitoring using an O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided|A 2-sided Z-test was used to compare the two percents. The test was weighted by the inverse of the Greenwood's variance in each CD4 stratum.|The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|Assuming that immediate ART was better than deferred ART and that the combined rate in the deferred ART arm was 25% compared to 15% in the immediate ART arm (a 40% reduction), and assuming 10% loss to follow-up in a two-sided, two-sample 0.05-level asymptotically-normal test with 400 participants in each arm, there was 90% power. The percents tested were Kaplan-Meier estimators at week 48 with the associated Greenwood's variance.||8|-2|0.45
82648777|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001||95.0|-0.81|-0.13||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||02 - 04 a.m.|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||-0.13|-0.81|<0.001
82648778|NCT01123980|165013305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|||<|0.001||95.0|-0.06|0.4||P-value for parallelism is overall test for parallel time profiles between treatment groups.|Mixed Models Analysis||Before breakfast the following day|Repeated measures mixed model with an unstructured residual covarience matrix, including treatment, time, the treatment-by-time interaction, country and previous OADs as factors.||0.40|-0.06|<0.001
82452472|NCT00108862|164611682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.0||0.02|TWO_SIDED|95.08|2.0|21.0||Interim reviews employed group sequential monitoring using an\> O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided||The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|The study was not powered for this pre-specified subgroup analysis.||21|2|0.02
82452473|NCT00108862|164611683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|3.0||0.67|TWO_SIDED|95.08|-7.0|4.0||Interim reviews employed group sequential monitoring using an O'Brien-Fleming use function. At final analysis, the a priori threshold for statistical significance was 0.0492.|Z-test, 2-sided||The difference in percents was calculated as the percent failed in the Deferred ART arm minus the percent failed in the Immediate ART arm.|The study was not powered for this pre-specified subgroup analysis.||4|-7|0.67
82452474|NCT00900666|164611700|NON_INFERIORITY_OR_EQUIVALENCE|a priori power calculation suggested N=26 for each group.||||||0.761|TWO_SIDED|95.0||||p\<0.05 threshold|ANOVA|Correlations with walking speed and time since injury were initially performed to determine whether ANCOVA would be be more appropriate.||ANOVA||||0.761
82452475|NCT00900666|164611701|SUPERIORITY_OR_OTHER|||||||0.896||95.0|||||ANOVA|||||||.896
82452476|NCT01345188|164611702|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|||||||Paired t test|||||||0.058
82452477|NCT01345188|164611703|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|||||||Paired t test|||||||0.048
82452478|NCT01345188|164611704|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Wilcoxon Signed rank|||||||>0.05
82452479|NCT00684775|164611705|SUPERIORITY||Odds Ratio (OR)|6.0|||=|0.002|TWO_SIDED|95.0|1.44|25.0|||General Estimating Equation (GEE)|||||25.0|1.44|=0.002
82452480|NCT00684775|164611706|SUPERIORITY|||||||0.0081|||||||t-test, 2 sided|||||||0.0081
82452481|NCT00684775|164611707|SUPERIORITY||Odds Ratio (OR)|1.34||||0.56|TWO_SIDED|95.0|0.5|3.6|||General Estimating Equation (GEE)|||||3.6|.5|0.56
82452482|NCT00684775|164611708|SUPERIORITY||Odds Ratio (OR)|1.45|||=|0.41|TWO_SIDED|95.0|0.6|3.53|||General Estimating Equation (GEE)|||||3.53|.6|=0.41
82537595|NCT03441984|164774361|OTHER||Ratio of geometric LS means|0.9198|||||TWO_SIDED|90.0|0.8285|1.0212|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.0212|0.8285|
82452483|NCT00684775|164611709|SUPERIORITY||Odds Ratio (OR)|1.19||||0.75|TWO_SIDED|95.0|0.42|3.36|||General Estimating Equation (GEE)|||||3.36|.42|0.75
82452484|NCT00684775|164611710|SUPERIORITY|||||||0.1543|||||||t-test, 2 sided|||||||0.1543
82452485|NCT00684775|164611711|SUPERIORITY||Odds Ratio (OR)|1.82||||0.15|TWO_SIDED|95.0|0.81|4.1|||General Estimating Equation (GEE)|||||4.1|.81|0.15
82452486|NCT04181762|164611712|SUPERIORITY||Mean Difference (Final Values)|-12.7||||0.0662|TWO_SIDED|95.0|-26.3|0.9|||Regression, Logistic||Difference from placebo and 95% CI are from a logistic regression model with treatment group, stratification factor (SoC) and race as factors and baseline UPCR as a covariate using marginal standardization method.|Complete Renal Response (CRR) at Week 52||0.9|-26.3|0.0662
82452487|NCT04181762|164611714|OTHER||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-23.7|8.4|||||95% Confidence Intervals (CIs) are constructed using the exact binomial test.|Partial Renal Response (PRR) at Week 52||8.4|-23.7|
82452488|NCT00577824|164611740|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Bonferroni's method was used to adjustment for multiplicity, and significant level was set to 2.5%(two-sided).|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as the covariate.||||||<0.001
82452489|NCT00577824|164611741|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage|||||||<0.001
82452490|NCT00577824|164611742|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage|||||||<0.001
82452491|NCT00577824|164611743|SUPERIORITY_OR_OTHER||||||<|0.002||95.0||||No adjustment for multiplicity. Significance level was 5% (two-sided).|ANCOVA|||||||<0.002
82537596|NCT03441984|164774361|OTHER||Ratio of geometric LS means|0.9893|||||TWO_SIDED|90.0|0.8911|1.0983|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0983|0.8911|
82648779|NCT01123980|165013306|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8583||95.0|0.64|1.46|||Regression, Logistic||The odds ratio and 95% confidence interval is for the HbA1c less than 7% treatment target were included.|The responder analysis was based on logistic regression model using treatment, country and previous OAD therapy (with or without a third OAD) as factors and baseline HbA1c as covariate.||1.46|0.64|0.8583
82432497|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.68|||||TWO_SIDED|95.0|0.58|0.79|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 7F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.79|0.58|
82537597|NCT03441984|164774367|OTHER||Ratio of geometric LS means|1.6503|||||TWO_SIDED|90.0|1.5131|1.8|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.8000|1.5131|
82432498|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.68|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 9V: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.68|0.53|
82432499|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.59|||||TWO_SIDED|95.0|0.51|0.67|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 14: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.67|0.51|
82432500|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.67|||||TWO_SIDED|95.0|0.6|0.74|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 18C: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.74|0.60|
82432501|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.78|||||TWO_SIDED|95.0|0.69|0.88|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19A: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.88|0.69|
82432502|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.54|||||TWO_SIDED|95.0|0.47|0.62|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 19F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||0.62|0.47|
82432503|NCT00500357|164574409|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.06|||||TWO_SIDED|95.0|0.9|1.25|||||CI for the GMFR was a back transformation of a CI based on the Student t distribution for the mean difference of the logarithms of titers (Vax 3 - Vax 2).|Serotype 23F: GMFR was calculated using all participants with available data from both the Vax 2 and Vax 3 blood draws.||1.25|0.90|
82537598|NCT03441984|164774367|OTHER||Ratio of geometric LS means|1.3501|||||TWO_SIDED|90.0|1.2381|1.4722|||||Treatment comparison of pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) and adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg tablet) is presented.|||1.4722|1.2381|
82432504|NCT02263326|164574410|NON_INFERIORITY|We considered DTG/3TC was noninferior to cART if the 90% confidence interval for the difference in proportions, calculated with Miettinen-Nurminen (score) confidence limits, excluded the 12% noninferiority margin.|Risk Difference (RD)|0.0015|||||TWO_SIDED|90.0|-0.098|0.102||||||A sample size of 41 participants per arm provided 80% power to show noninferiority of DTG/3TC to cART based on a 12% noninferiority margin, assuming an estimated treatment failure rate of 5% per arm by week 24 and 5% 1-sided type I error rate.||0.102|-0.098|
82432505|NCT02263326|164574411|NON_INFERIORITY|The difference in virologic outcomes based on the FDA snapshot algorithm at week 48 (HIV RNA \<50 copies/mL) was compared between arms, with 95% confidence intervals.|Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.126|0.165||||||||0.165|-0.126|
82432506|NCT02263326|164574412|OTHER|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
82432507|NCT02263326|164574413|OTHER|||||||0.613|||||||Wilcoxon (Mann-Whitney)|||||||0.613
82432508|NCT02263326|164574414|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.420
82432509|NCT02263326|164574415|OTHER|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
82432510|NCT02263326|164574417|OTHER||Mean Difference (Final Values)|0.5||||0.76|TWO_SIDED|95.0|-3.0|4.1|||Regression, Linear|||||4.1|-3.0|0.76
82432511|NCT01893411|164574435|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean difference|-0.04|||=|0.65|TWO_SIDED|95.0|-0.23|0.14|||Mixed Model Repeated Measure|||||0.14|-0.23|= 0.65
82432512|NCT01893411|164574435|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|-0.04|||=|0.741|TWO_SIDED|95.0|-0.26|0.18|||Mixed Model Repeated Measure|||||0.18|-0.26|= 0.741
82432513|NCT01893411|164574436|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|0.16|||=|0.075|TWO_SIDED|95.0|-0.02|0.34|||Mixed Model Repeated Measure|||||0.34|-0.02|= 0.075
82432514|NCT01893411|164574436|SUPERIORITY_OR_OTHER_LEGACY||LS-Mean difference|0.06|||=|0.603|TWO_SIDED|95.0|-0.16|0.27|||Mixed Model Repeated Measure|||||0.27|-0.16|= 0.603
82432515|NCT02397915|164574454|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a Cochran-Mantel-Haenszel test, adjusted for country and symptomatology. All preference p-values were also adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
82432516|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.065||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute scent/odor.|Cochran-Mantel-Haenszel|||||||0.065
82432517|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.532||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute immediate taste.|Cochran-Mantel-Haenszel|||||||0.532
82432518|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.138||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute after taste.|Cochran-Mantel-Haenszel|||||||0.138
82432519|NCT02397915|164574455|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute LDTT.|Cochran-Mantel-Haenszel|||||||<0.001
82537599|NCT03441984|164774367|OTHER||Ratio of geometric LS means|1.2224|||||TWO_SIDED|90.0|1.121|1.333|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.3330|1.1210|
82537600|NCT03441984|164774376|OTHER||Ratio of geometric LS means|1.0251|||||TWO_SIDED|90.0|0.848|1.2392|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.2392|0.8480|
82648780|NCT01123980|165013307|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8013||95.0|0.64|1.79|||Regression, Logistic||The odds ratio and 95% confidence interval is for the HbA1c below or equal to 6.5% treatment target were included.|The responder analysis was based on logistic regression model using treatment, country and previous OAD therapy (with or without a third OAD) as factors and baseline HbA1c as covariate.||1.79|0.64|0.8013
82432520|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.017||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute LRON.|Cochran-Mantel-Haenszel|||||||0.017
82432521|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.046||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute more soothing.|Cochran-Mantel-Haenszel|||||||0.046
82432522|NCT02397915|164574455|SUPERIORITY_OR_OTHER||||||<|0.001||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute less irritating.|Cochran-Mantel-Haenszel|||||||<0.001
82432523|NCT02397915|164574455|SUPERIORITY_OR_OTHER|||||||0.532||||||Par. preferences were analyzed using Prescott's test, as approximated by a CMH test, adjusted for ctry and sym. All preference p-values were also adjusted for multiplicity using Hochberg's method. P-value is for product attribute UTS.|Cochran-Mantel-Haenszel|||||||0.532
82432524|NCT02397915|164574456|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.000
82432525|NCT02397915|164574457|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
82432526|NCT02397915|164574458|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
82432527|NCT02397915|164574459|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.179||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.179
82537601|NCT03441984|164774376|OTHER||Ratio of geometric LS means|0.9181|||||TWO_SIDED|90.0|0.7592|1.1103|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.1103|0.7592|
82652248|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|0.042||||0.7804|TWO_SIDED|95.0|-0.253|0.336||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.336|-0.253|0.7804
82432528|NCT02397915|164574460|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.00
82432529|NCT02397915|164574461|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
82432530|NCT02397915|164574462|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
82432531|NCT02397915|164574463|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||1.000
82432532|NCT02397915|164574464|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.188||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all immediate attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.188
82432533|NCT02397915|164574465|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
82432534|NCT02397915|164574466|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
82432535|NCT02397915|164574467|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
82432536|NCT02397915|164574468|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.004||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.004
82432537|NCT02397915|164574469|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.223||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.223
82432538|NCT02397915|164574470|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
82432539|NCT02397915|164574471|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.008||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.008
82432540|NCT02397915|164574472|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.831||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.831
82537602|NCT03441984|164774376|OTHER||Ratio of geometric LS means|1.1165|||||TWO_SIDED|90.0|0.9376|1.3295|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) is presented|||1.3295|0.9376|
82537603|NCT03441984|164774384|OTHER||Ratio of geometric LS means|1.0844|||||TWO_SIDED|90.0|0.9904|1.1873|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.1873|0.9904|
82537604|NCT03441984|164774384|OTHER||Ratio of geometric LS means|1.1311|||||TWO_SIDED|90.0|1.0334|1.2379|||||Treatment comparison between Pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg, 10 dispersible tablets) and Adult TRIUMEQ (DTG 50 mg/ABC 600 mg/3TC 300 mg, 1 conventional tablet) is presented|||1.2379|1.0334|
82537605|NCT03441984|164774384|OTHER||Ratio of geometric LS means|0.9587|||||TWO_SIDED|90.0|0.876|1.0493|||||Treatment comparison of pediatric TRIUMEQ (DTG 5 mg/ABC 60 mg/3TC 30 mg dispersible tablets) and pediatric TRUMEQ (DTG 5 mg/ABC 60 mg/3TC 30mg dispersible tablet direct to mouth) is presented.|||1.0493|0.8760|
82537606|NCT03441984|164774392|OTHER||Ratio of geometric LS means|1.5619|||||TWO_SIDED|90.0|1.3678|1.7835|||||Treatment comparison between Pediatric DTG/3TC (DTG 5 mg/3TC 30 mg, 10 dispersible tablets) and Adult DTG (50 mg, 1 conventional tablet) and adult 3TC (300 mg, 1 conventional tablet) is presented|||1.7835|1.3678|
82537607|NCT03441984|164774392|OTHER||Ratio of geometric LS means|1.253|||||TWO_SIDED|90.0|1.0973|1.4307|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.4307|1.0973|
82537608|NCT03441984|164774392|OTHER||Ratio of geometric LS means|1.2466|||||TWO_SIDED|90.0|1.0917|1.4234|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.4234|1.0917|
82537609|NCT03441984|164774401|OTHER||Ratio of geometric LS means|1.0745|||||TWO_SIDED|90.0|0.9997|1.1549|||||Treatment comparison between Pediatric DTG/3TC (DTG 5 mg/3TC 30 mg, 10 dispersible tablets) and Adult DTG (50 mg, 1 conventional tablet) and adult 3TC (300 mg, 1 conventional tablet) is presented|||1.1549|0.9997|
82648781|NCT04444752|165013316|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gate-keeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared to placebo group in order from highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical signficance at p=0.05 level was not achieved.|Mean Difference (Final Values)|23.36|STANDARD_ERROR_OF_MEAN|6.794||0.0007|TWO_SIDED|||||Adjusted for multiplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg dose Q2W 3. 300 mg dose Q4W vs placebo|ANCOVA|The data were analyzed using an ANCOVA model adjusted for treatment, baseline vIGA (moderate, severe), and baseline EASI.||"The primary efficacy analysis includes comparison of percentage reduction in EASI from baseline to Week 16 for CBP-201 300 mg Q2W regimen vs placebo.~The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 300 Q2W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0007
82432541|NCT02397915|164574473|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||<|0.001||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||<0.001
82432542|NCT02397915|164574474|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.007||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.007
82432543|NCT02397915|164574475|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.568||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.568
82452492|NCT00577824|164611744|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||No adjustment for multiplicity. Significance level was 5% (two-sided).|ANCOVA|||||||0.026
82537610|NCT03441984|164774401|OTHER||Ratio of geometric LS means|1.0706|||||TWO_SIDED|90.0|0.9961|1.1507|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet) is presented.|||1.1507|0.9961|
82537611|NCT03441984|164774401|OTHER||Ratio of geometric LS means|1.0036|||||TWO_SIDED|90.0|0.9338|1.0787|||||Treatment comparison of pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) and pediatric DTG/3TC (DTG 5 mg/3TC 30 mg dispersible tablet direct to mouth) is presented.|||1.0787|0.9338|
82537612|NCT00097253|164774467|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Regression, Linear|||Cortisol. Analyses consisted of repeated-measures linear models fit to each dependent variable.IVs assessed in each model were odor, time, gender, expectancy group (primed vs. blind), their interactions;baseline level of the DV was included as a covariate. Post hoc tests were used as appropriate. A two-sided significance level of alpha = 0.05 was used. Model controlled for Time 1 baseline.||||0.83
82537613|NCT00097253|164774467|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Mixed Models Analysis|||Epinephrine. Analyses consisted of repeated-measures linear models fit to each dependent variable.IVs assessed in each model were odor, time, gender, expectancy group (primed vs. blind), their interactions;baseline level of the DV was included as a covariate. Post hoc tests were used as appropriate. A two-sided significance level of alpha = 0.05 was used. Model controlled for Time 1 baseline.||||0.16
82537614|NCT00097253|164774467|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||Mixed Models Analysis|||Norepinephrine. Model controlled for Time 1 baseline. Comparing timepoints 4 and 5 for pre versus post stressor, e.g. lemon versus water control; Citrus(5-4)-Water(5-4).||||0.017
82537615|NCT00097253|164774468|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Mixed Models Analysis|||IL-6. Mixed effect linear models were used to test the hypothesis. These models included the post-odor and post-stress dependent variable measurements with a covariate for the baseline pre-odor measurement. Base 10 logarithms were used for each dependent variable and baseline covariate.||||0.10
82537616|NCT00097253|164774468|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Mixed Models Analysis|||IL-10. Mixed effect linear models were used to test the hypothesis. These models included the post-odor and post-stress dependent variable measurements with a covariate for the baseline pre-odor measurement. Base 10 logarithms were used for each dependent variable and baseline covariate.||||0.50
82537617|NCT00097253|164774469|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Mixed Models Analysis|||Repeated-measures mixed effects models were used. Model was fit to the log-transformed data. Analysis applied to odor category, e.g. lavender / lemon / water.||||0.60
82537618|NCT00097253|164774470|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Regression, Linear|||The maximum DTH wheal of days 1-3 (24, 48, or 72 h) was used as the dependent variable for each subject at each visit. Visits for subjects with a maximum DTH wheal of 5mm or less were excluded. A repeated measures linear model was used to evaluate odor and placebo effects.||||0.014
82537619|NCT01467700|164774488|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.28||0.518|TWO_SIDED|98.0|-2.9|3.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||3.1|-2.9|0.518
82537620|NCT01467700|164774488|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.29||0.979|TWO_SIDED|98.0|-0.4|5.7||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||5.7|-0.4|0.979
82537621|NCT01467700|164774488|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.29||0.4|TWO_SIDED|99.0|-3.7|3.0||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||3.0|-3.7|0.400
82537622|NCT01467700|164774489|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.22||0.017|TWO_SIDED|98.0|-0.5|9.9||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||9.9|-0.5|0.017
82537623|NCT01467700|164774489|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|2.25||0.361|TWO_SIDED|98.0|-4.5|6.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||6.1|-4.5|0.361
82537624|NCT01467700|164774489|SUPERIORITY_OR_OTHER||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|2.23||0.002|TWO_SIDED|99.0|0.6|12.1||P-values were from an MMRM model with baseline\*week, pooled center, week, treatment, baseline, and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||12.1|0.6|0.002
82537625|NCT03727854|164774500|SUPERIORITY|||||||0.933|||||||t-test, 2 sided|||||||0.933
82537626|NCT03727854|164774501|SUPERIORITY|||||||0.971|||||||t-test, 2 sided|||||||0.971
82432544|NCT02397915|164574476|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.951||||||Analyzed using an ANOVA mixed model with par. as random effect, ctry, tmt, BL rhinitis sym subgrp, and tmt seq as main effects. P-values for all delayed attribute rating scores adjusted for multiplicity using Hochberg's method.|Cochran-Mantel-Haenszel|||||||0.951
82452493|NCT00577824|164611745|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||t-test, 2 sided|||||||0.672
82452494|NCT00577824|164611746|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||t-test, 2 sided|||||||0.580
82452495|NCT00577824|164611747|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
82537627|NCT03727854|164774502|SUPERIORITY|||||||0.608|||||||t-test, 2 sided|||||||0.608
82537628|NCT03727854|164774503|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
82537629|NCT03727854|164774504|SUPERIORITY|||||||0.823|||||||t-test, 2 sided|||||||0.823
82537630|NCT03727854|164774505|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.740
82537631|NCT03727854|164774506|SUPERIORITY|||||||0.551|||||||t-test, 2 sided|||||||0.551
82537632|NCT03727854|164774507|SUPERIORITY|||||||0.652|||||||t-test, 2 sided|||||||0.652
82537633|NCT03727854|164774508|SUPERIORITY|||||||0.639|||||||t-test, 2 sided|||||||0.639
82537634|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|2.282||||0.002|TWO_SIDED|95.0|1.344|3.875|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||3.875|1.344|0.002
82537635|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.84|||<|0.05|TWO_SIDED|95.0|1.621|4.977|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||4.977|1.621|<0.05
82537636|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.871||||0.005|TWO_SIDED|95.0|1.207|2.899|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||2.899|1.207|0.005
82537637|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.879||||0.004|TWO_SIDED|95.0|1.227|2.879|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||AIDS-defining malignancies||2.879|1.227|0.004
82537638|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.943||||0.008|TWO_SIDED|95.0|1.191|3.168|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||3.168|1.191|0.008
82648782|NCT04444752|165013316|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gatekeeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared with the placebo group in order from the highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical significance at 0.05 level was not achieved.|Mean Difference (Final Values)|17.89|STANDARD_ERROR_OF_MEAN|6.537||0.0067|TWO_SIDED|||||Adjusted for multiplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg Q2W 3. 300 mg Q4W vs placebo.|ANCOVA|The data were analyzed using an ANCOVA model with terms for treatment, baseline vIGA (moderate, severe), and baseline EASI.||"The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 150 Q2W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0067
82652249|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.125||||0.4064|TWO_SIDED|95.0|-0.422|0.171||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.171|-0.422|0.4064
82537639|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.459||||0.001|TWO_SIDED|95.0|1.454|4.159|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||4.159|1.454|0.001
82537640|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.776||||0.004|TWO_SIDED|95.0|1.199|2.631|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||2.631|1.199|0.004
82537641|NCT01078246|164774509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.86||||0.001|TWO_SIDED|95.0|1.274|2.717|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||Non-AIDS-defining malignancies||2.717|1.274|0.001
82537642|NCT01078246|164774510|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.807||||0.255|TWO_SIDED|95.0|0.557|1.168|||Poisson regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.168|0.557|0.255
82537643|NCT01078246|164774510|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.907||||0.646|TWO_SIDED|95.0|0.597|1.376|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.376|0.597|0.646
82537644|NCT01078246|164774510|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.268||||0.182|TWO_SIDED|95.0|0.895|1.795|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.795|0.895|0.182
82537645|NCT01078246|164774510|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.257||||0.188|TWO_SIDED|95.0|0.894|1.768|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, treatment regimen (1st, 2nd, 3rd+), and Hepatitis B/C status.||||1.768|0.894|0.188
82537646|NCT01078246|164774511|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.016||||0.897|TWO_SIDED|95.0|0.796|1.297|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.297|0.796|0.897
82537647|NCT01078246|164774511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.287||||0.07|TWO_SIDED|95.0|0.98|1.69|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.690|0.980|0.070
82537648|NCT01078246|164774511|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.067||||0.575|TWO_SIDED|95.0|0.85|1.339|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.339|0.850|0.575
82537649|NCT01078246|164774511|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.626|TWO_SIDED|95.0|0.847|1.319|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.319|0.847|0.626
82432545|NCT00368745|164574477|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2838||95.0||||significance determined using 2-tailed significance level of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) with country as a covariate||Primary objective: evaluate the efficacy of pregabalin in maintaining the benzodiazepine free state in subjects with prior stable alprazolam use.||||0.2838
82452496|NCT00577824|164611748|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.490
82537650|NCT01078246|164774513|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.389|||<|0.0001|TWO_SIDED|95.0|0.274|0.551|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||0.551|0.274|<0.0001
82537651|NCT01078246|164774513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.471|||<|0.05|TWO_SIDED|95.0|0.314|0.707|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||0.707|0.314|<0.05
82537652|NCT01078246|164774513|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.65||||0.015|TWO_SIDED|95.0|1.102|2.47|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.470|1.102|0.015
82537653|NCT01078246|164774513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.622||||0.018|TWO_SIDED|95.0|1.085|2.425|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.425|1.085|0.018
82537654|NCT01078246|164774514|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.75||||0.423|TWO_SIDED|95.0|0.37|1.517|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.517|0.370|0.423
82537655|NCT01078246|164774514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.208||||0.631|TWO_SIDED|95.0|0.559|2.612|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.612|0.559|0.631
82537656|NCT01078246|164774514|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.845||||0.592|TWO_SIDED|95.0|0.458|1.561|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.561|0.458|0.592
82652250|NCT02637557|165019488|SUPERIORITY||LS Mean Difference|-0.333||||0.0289|TWO_SIDED|95.0|-0.632|-0.035||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.035|-0.632|0.0289
82432546|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.81||0.0709||95.0|-3.1|0.13||contrasts performed using Dunnett's Test|ANCOVA|Least squares (LS) Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Taper (AT) Week 1||0.13|-3.10|0.0709
82432547|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.89|STANDARD_ERROR_OF_MEAN|1.08||0.0006||95.0|-6.04|-1.74||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 2||-1.74|-6.04|0.0006
82432548|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|1.3||0.0718||95.0|-4.98|0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 3||0.22|-4.98|0.0718
82432549|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.38|STANDARD_ERROR_OF_MEAN|1.92||0.092||95.0|-7.37|0.6||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 4||0.60|-7.37|0.0920
82432550|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.22|STANDARD_ERROR_OF_MEAN|3.04||0.1371||95.0|-12.67|2.23||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT week 5||2.23|-12.67|0.1371
82432551|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|2.04||0.0882||95.0|-7.96|0.61||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 6||0.61|-7.96|0.0882
82432552|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.83|STANDARD_ERROR_OF_MEAN|1.11||0.0135||95.0|-5.05|-0.61||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Free (AF) Week 1||-0.61|-5.05|0.0135
82432553|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.18||0.3924||95.0|-3.38|1.35||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 2||1.35|-3.38|0.3924
82432554|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.14||0.3868||95.0|-3.29|1.3||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 3||1.30|-3.29|0.3868
82537657|NCT01078246|164774514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.022||||0.943|TWO_SIDED|95.0|0.565|1.85|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.850|0.565|0.943
82432555|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.15||0.9966||95.0|-2.31|2.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 4||2.32|-2.31|0.9966
82432556|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|1.26||0.6873||95.0|-3.07|2.05||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 5||2.05|-3.07|0.6873
82432557|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.35||0.5337||95.0|-3.62|1.91||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 6||1.91|-3.62|0.5337
82432558|NCT00368745|164574478|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.79|STANDARD_ERROR_OF_MEAN|1.37||0.0008||95.0|-7.51|-2.07||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Endpoint \[LOCF\]||-2.07|-7.51|0.0008
82432559|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|1.4||0.122||95.0|-4.97|0.6||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||0.60|-4.97|0.1220
82432560|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.63|STANDARD_ERROR_OF_MEAN|1.26||0.0053||95.0|-6.15|-1.11||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-1.11|-6.15|0.0053
82432561|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.85|STANDARD_ERROR_OF_MEAN|1.73||0.1048||95.0|-6.32|0.62||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.62|-6.32|0.1048
82432562|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.41|STANDARD_ERROR_OF_MEAN|1.52||0.0357||95.0|-6.57|-0.25||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||-0.25|-6.57|0.0357
82432563|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|2.67||0.4263||95.0|-8.82|4.26||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||4.26|-8.82|0.4263
82432564|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.73|STANDARD_ERROR_OF_MEAN|2.02||0.0104||95.0|-9.96|-1.51||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||-1.51|-9.96|0.0104
82432565|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|1.4||0.0069||95.0|-6.73|-1.12||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||-1.12|-6.73|0.0069
82452497|NCT00577824|164611749|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82452498|NCT00577824|164611750|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||t-test, 2 sided|||||||0.208
82537658|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|0.708||||0.109|TWO_SIDED|95.0|0.464|1.08|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.080|0.464|0.109
82537659|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.794||||0.356|TWO_SIDED|95.0|0.486|1.296|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||1.296|0.486|0.356
82537660|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.556||||0.039|TWO_SIDED|95.0|1.022|2.37|||Poisson Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.370|1.022|0.039
82537661|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.564||||0.033|TWO_SIDED|95.0|1.036|2.361|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, propensity score, and treatment regimen (1st, 2nd, 3rd+).||||2.361|1.036|0.033
82537662|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72||||0.125|TWO_SIDED|95.0|0.861|3.437|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 1st treatment regimen.||||3.437|0.861|0.125
82648783|NCT04444752|165013316|SUPERIORITY|Pairwise comparisons for each CBP-201 group vs placebo were performed and a serial gatekeeping procedure was used for multiplicity adjustment. Each CBP-201 group was compared with placebo in order from highest dose (300 mg Q2W) to the lowest dose frequency (300 mg Q4W), until statistical significance at the 0.05 level was not achieved.|Mean Difference (Final Values)|23.83|STANDARD_ERROR_OF_MEAN|6.575||0.0004|TWO_SIDED|||||Adjusted for mulitplicity using a serial gatekeeping procedure at the 5% in descending order: 1. 300 mg dose Q2W 2. 150 mg Q2W 3. 300 mg Q4W vs placebo.|ANCOVA|The data were anlayzed using an ANCOVA model with terms for treatment, baseline vIGA (moderate, severe), and baseline EASI||"The efficacy analysis includes comparing percentage reduction in EASI from baseline to Week 16 for CBP-201 300 mg Q4W regimen vs placebo.~The sample size of the study was determined based on power calculations for the primary endpoint in patients receiving CBP-201 300 mg Q2W.~Null hypothesis: CBP-201 300 Q4W is not superior to placebo in terms of percent reduction in EASI Score from Baseline to Week 16."||||0.0004
82432566|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|1.37||0.2185||95.0|-4.47|1.05||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||1.05|-4.47|0.2185
82432567|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|1.06||0.7832||95.0|-2.41|1.83||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||1.83|-2.41|0.7832
82432568|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.16||0.7062||95.0|-1.9|2.79||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||2.79|-1.90|0.7062
82432569|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|1.04||0.7161||95.0|-2.49|1.73||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||1.73|-2.49|0.7161
82432570|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.11|STANDARD_ERROR_OF_MEAN|1.43||0.0376||95.0|-6.03|-0.19||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||-0.19|-6.03|0.0376
82432571|NCT00368745|164574481|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|1.48||0.0122||95.0|-6.74|-0.85||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.85|-6.74|0.0122
82432572|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0052||95.0|-0.76|-0.14||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Taper (AT) Week 1||-0.14|-0.76|0.0052
82537663|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.056||||0.881|TWO_SIDED|95.0|0.517|2.155|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 2nd treatment regimen.||||2.155|0.517|0.881
82537664|NCT01078246|164774515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.077||||0.107|TWO_SIDED|95.0|0.854|5.05|||Cox Proportional Hazard Regression|The analysis included adjustments for raltegravir exposure, and propensity score, and was stratified by the 3rd+ treatment regimen.||||5.05|0.854|0.107
82432573|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.18||0.0001||95.0|-1.11|-0.38||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 2||-0.38|-1.11|0.0001
82432574|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0528||95.0|-1.0|0.01||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 3||0.01|-1.00|0.0528
82432575|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.35||0.3085||95.0|-1.11|0.37||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 4||0.37|-1.11|0.3085
82432576|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.47||0.1807||95.0|-1.92|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 5||0.47|-1.92|0.1807
82432577|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.42||0.1074||95.0|-1.58|0.17||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AT Week 6||0.17|-1.58|0.1074
82432578|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.2||0.0013||95.0|-1.1|-0.28||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Alprazolam Free (AF) Week 1||-0.28|-1.10|0.0013
82452499|NCT00577824|164611752|SUPERIORITY_OR_OTHER|||||||0.708||95.0|||||t-test, 2 sided|||||||0.708
82452500|NCT00577824|164611753|SUPERIORITY_OR_OTHER|||||||0.974||95.0|||||t-test, 2 sided|||||||0.974
82432579|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0503||95.0|-0.99|0.0||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 2||0.00|-0.99|0.0503
82432580|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.26||0.0364||95.0|-1.09|-0.04||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 3||-0.04|-1.09|0.0364
82432581|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.24||0.914||95.0|-0.51|0.46||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 4||0.46|-0.51|0.9140
82432582|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.27||0.7789||95.0|-0.62|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 5||0.47|-0.62|0.7789
82432583|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.31||0.3189||95.0|-0.95|0.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||AF Week 6||0.32|-0.95|0.3189
82452501|NCT00577824|164611755|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 2 sided|||||||0.200
82648784|NCT04444752|165013317|SUPERIORITY|The secondary efficacy analysis includes comparison of the number of patients achieving a vIGA score of 0/1 (clear/almost clear) at Week 16 for each CBP-201 300 mg Q2W vs placebo.|Difference in vIGA Response Rate|28.1||||0.0089|TWO_SIDED|||||There were no adjustments for multiple comparisons. For IGA response, counts, percentage, and 95% CIs obtained using the Clopper-Pearson method and were presented for pairwise comparisons for each CBP-201 group vs. placebo.|Chi-squared|||Null hypothesis: CBP-201 300 Q2W is not superior to placebo in terms of the number of patients achieving a vIGA score of 0/1 (clear/almost clear) at Week 16.||||0.0089
82648785|NCT02557672|165013319|SUPERIORITY||Ratio of the Geometric Means|0.98||||0.84|TWO_SIDED|95.0|0.81|1.19|||Regression, Linear|||||1.19|0.81|0.84
82648786|NCT02557672|165013320|SUPERIORITY||Odds Ratio (OR)|0.49||||0.09|TWO_SIDED|95.0|0.22|1.11|||Regression, Logistic|||||1.11|0.22|0.09
82432584|NCT00368745|164574483|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.0031||95.0|-1.26|-0.27||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as covariate||Endpoint \[LOCF\]||-0.27|-1.26|0.0031
82432585|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.24||0.126||95.0|-0.86|0.11||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||0.11|-0.86|0.1260
82432586|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.29||0.0074||95.0|-1.4|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-0.22|-1.40|0.0074
82432587|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.38||0.125||95.0|-1.35|0.17||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.17|-1.35|0.1250
82432588|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.6||0.8991||95.0|-1.17|1.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||1.32|-1.17|0.8991
82432589|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.53||0.1747||95.0|-2.07|0.46||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||0.46|-2.07|0.1747
82432590|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.45||0.0744||95.0|-1.79|0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||0.09|-1.79|0.0744
82432591|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.35||0.0063||95.0|-1.67|-0.29||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||-0.29|-1.67|0.0063
82432592|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.34||0.014||95.0|-1.56|-0.18||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||-0.18|-1.56|0.0140
82432593|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|0.34||0.0267||95.0|-1.46|-0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||-0.09|-1.46|0.0267
82452502|NCT00577824|164611756|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82452503|NCT04607837|164611776|SUPERIORITY||Risk Difference (RD)|7.35||||0.2524|TWO_SIDED|95.0|-5.24|19.94|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common risk difference using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the risk difference being 0.||19.94|-5.24|0.2524
82537665|NCT01081145|164774516|SUPERIORITY_OR_OTHER_LEGACY||Difference in treatment failures|-15.6||||0.006|TWO_SIDED|95.0|-26.6|-4.5|||Cochran-Mantel-Haenszel|||||-4.5|-26.6|0.006
82537666|NCT01081145|164774517|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Log Rank|||||||0.003
82648787|NCT02557672|165013321|SUPERIORITY||Odds Ratio, log|0.76||||0.51|TWO_SIDED|95.0|0.33|1.73|||Regression, Logistic|||||1.73|0.33|0.51
82648788|NCT02557672|165013322|SUPERIORITY||Odds Ratio (OR)|1.39||||0.53|TWO_SIDED|95.0|0.51|3.79|||Regression, Logistic|||||3.79|0.51|0.53
82648789|NCT02557672|165013323|SUPERIORITY||Odds Ratio (OR)|0.52||||0.39|TWO_SIDED|95.0|0.12|2.3|||Regression, Logistic|||||2.30|0.12|0.39
82537667|NCT01081145|164774518|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-6.24|||<|0.001|TWO_SIDED|95.0|-9.01|-3.48||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-3.48|-9.01|<0.001
82537668|NCT01081145|164774519|SUPERIORITY_OR_OTHER_LEGACY||Difference in percent of subjects|17.5||||0.001|TWO_SIDED|95.0|6.6|28.5||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||28.5|6.6|0.001
82648790|NCT02462382|165013324|EQUIVALENCE|The univariate analyses were conducted using Independent t-Tests for continuous variables and Fisher Exact Tests or Chi-Square Tests of Independence for categorical comparisons.|Fisher Exact Tests|0.041||||0.006|TWO_SIDED|||||POD 1 1cm incision.|Chi-squared|||Comparisons of pain scores using a Visual Analog Scale (VAS) based on Post-Operative Day (POD).||||.006
82432594|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.38||0.5104||95.0|-1.03|0.52||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||0.52|-1.03|0.5104
82432595|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.43||0.2702||95.0|-1.35|0.39||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||0.39|-1.35|0.2702
82537669|NCT01081145|164774520|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.06||||0.118|TWO_SIDED|95.0|-0.14|0.02||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.02|-0.14|0.118
82537670|NCT01081145|164774523|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|t-test, 2 sided|||||||<0.001
82652251|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|0.037||||0.7207|TWO_SIDED|95.0|-0.167|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.241|-0.167|0.7207
82432596|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.42||0.1241||95.0|-1.52|0.19||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||0.19|-1.52|0.1241
82432597|NCT00368745|164574484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.36||0.0109||95.0|-1.67|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.22|-1.67|0.0109
82432598|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.28||0.0226||95.0|-1.22|-0.09||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Taper (AT) Week 1||-0.09|-1.22|0.0226
82432599|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.34||0.0099||95.0|-1.58|-0.22||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 2||-0.22|-1.58|0.0099
82432600|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.35||0.2827||95.0|-1.07|0.32||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 3||0.32|-1.07|0.2827
82432601|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.58||0.8232||95.0|-1.07|1.34||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 4||1.34|-1.07|0.8232
82432602|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.66||0.2409||95.0|-2.41|0.72||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 5||0.72|-2.41|0.2409
82432603|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.61||0.476||95.0|-1.73|0.84||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AT Week 6||0.84|-1.73|0.4760
82432604|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.32||0.1252||95.0|-1.14|0.14||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Alprazolam Free (AF) Week 1||0.14|-1.14|0.1252
82432605|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.33||0.0717||95.0|-1.26|0.06||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 2||0.06|-1.26|0.0717
82432606|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.35||0.0707||95.0|-1.33|0.06||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 3||0.06|-1.33|0.0707
82432607|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.39||0.4341||95.0|-1.08|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 4||0.47|-1.08|0.4341
82537671|NCT01081145|164774527|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|t-test, 2 sided|||||||<0.001
82561774|NCT02489799|164832725|EQUIVALENCE|The study was powered based on two former studies utilizing RIAS, (both powered =.8 and alpha =.05). With a 0.6 effect size, the required sample size is 72 patients (36 per group) for a one-tailed test of study hypotheses (power =.8 and alpha =.05).|Incidence Rate Ratio|1.06||||0.545|TWO_SIDED|95.0|0.87|1.3|||Poisson model using GEE|We fit a Poisson model using generalized estimating equations. No adjustments were made for degrees of freedom.|The incidence rate ratio compares intervention to control.|We employed two ways of interpreting this data. The first treats the outcome continuously, which is described in the results section. Here we describe the outcome treating it as a ratio. We created a variable representing the numerator of the ratio (type 1) and the denominator of the ratio (type 2) thereby treating the information in both the numerator and denominator as random (each a Poisson variable).||1.30|0.87|0.545
82432608|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.42||0.37||95.0|-1.23|0.47||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 5||0.47|-1.23|0.3700
82432609|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.43||0.0328||95.0|-1.83|-0.08||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||AF Week 6||-0.08|-1.83|0.0328
82648791|NCT03877237|165013338|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|4.23||||0.02164|TWO_SIDED|95.0|0.96|8.22||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint KCCQ-TSS, the following hypothesis was tested using the significance level 0.04990~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-TSS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||8.22|0.96|0.02164
82652252|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.071||||0.4946|TWO_SIDED|95.0|-0.275|0.133||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.133|-0.275|0.4946
82432610|NCT00368745|164574485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.39||0.0096||95.0|-1.8|-0.26||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country as covariate||Endpoint \[LOCF\]||-0.26|-1.80|0.0096
82432611|NCT00368745|164574486|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|2.68||0.8897||95.0|-5.74|4.99||contrasts performed using Dunnett's Test|ANCOVA|LS Means from the ANCOVA model with treatment as the main effect and country and baseline as the covariate||||4.99|-5.74|0.8897
82432612|NCT00368745|164574487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0626||95.0||||p-value is from the log-rank statistic from the tests for equality over treatment as strata and country used as covariate|Log Rank|||||||0.0626
82561775|NCT02065895|164832763|OTHER|ANOVA was used to first tests the hypothesis that there is a difference among the three groups.|Mean Difference (Final Values)|66.8||||0.0011|TWO_SIDED|95.0|33.4|80.3||The p value was adjusted for multiple comparisons using Sidak's correction. A priori the pimary outcome was defined as blood glucose AUC from 8 am - 12pm; however we used blood glucose AUC from 8am - 2pm to capture the entire meal response.|ANOVA|||Differences among the 3 groups were assessed by repeated measures ANOVA using Sidak's correction for multiple comparisons. All subjects were analyzed as a single group, no comparison group.||80.3|33.4|0.0011
82432613|NCT00368745|164574488|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0||||p-value is from the log-rank statistic from the tests for equality over treatment as strata and country used as covariate|Log Rank|||||||0.0148
82432614|NCT00368745|164574489|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1159||95.0||||p-value is obtained using Cochran-Mantel-Haenszel option|Cochran-Mantel-Haenszel|||||||0.1159
82432615|NCT03292874|164574491|SUPERIORITY|||||||0.014||||||"Areas under the receiver operating characteristics curve (AUC) were compared between models with standard and high-resolution MRI variables using the nonparametric method described by DeLong.~DeLong. Biometrics 1988;44(3):837-45."|nonparametric method|||||||0.014
82432616|NCT00161616|164574492|SUPERIORITY_OR_OTHER|||||||0.0541|||||||Fisher Exact|||Comparison of Healed vs Not healed/No outcome for week 13.||||0.0541
82432617|NCT00161616|164574492|SUPERIORITY_OR_OTHER|||||||0.7983|||||||Fisher Exact|||Comparison of Healed vs Not healed/No outcome for week 20.||||0.7983
82432618|NCT00161616|164574493|SUPERIORITY_OR_OTHER|||||||0.8961|||||||Fisher Exact|||||||0.8961
82432619|NCT00336284|164574507|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82432620|NCT00336284|164574508|NON_INFERIORITY_OR_EQUIVALENCE|Sample size of the study is based on the safety endpoint and based on a Blackwelder type test of non inferiority with the standard design criteria: Type I error (one-sided), statistical power of 80%, and 2:1 randomization. The evaluation of the primary safety endpoint was based on an exact binomial non-inferiority test comparing the proportions of patient deaths, strokes or surgical interventions.||||||0.005||95.0|||||Exact binomial test for non-inferiority|1-sided||||||0.005
82432621|NCT00336284|164574509|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
82432622|NCT00861757|164574516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.003|TWO_SIDED|95.0|-3.0|-0.6|||ANCOVA|||||-0.6|-3.0|0.003
82432623|NCT00861757|164574516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.6||0.004|TWO_SIDED|95.0|-2.9|-0.6|||ANCOVA|||||-0.6|-2.9|0.004
82432624|NCT00861757|164574516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-3.7|-1.3|||ANCOVA|||||-1.3|-3.7|<0.001
82432625|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.2|-0.6||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-0.6|-2.2|<0.001
82432626|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.4||0.005|TWO_SIDED|95.0|-1.9|-0.3||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-0.3|-1.9|0.005
82432627|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.7|-1.1||This is the p value for the Voiding (Obstructive) Score.|ANCOVA|||||-1.1|-2.7|<0.001
82432628|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.072|TWO_SIDED|95.0|-1.0|0.0||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||0.0|-1.0|0.072
82432629|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.021|TWO_SIDED|95.0|-1.1|-0.1||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||-0.1|-1.1|0.021
82561776|NCT02065895|164832764|OTHER|||||||0.0059|||||||ANOVA|||||||0.0059
82561777|NCT03137784|164832766|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.089|||<|0.001|TWO_SIDED|95.0|0.047|0.132|||Linear Mixed Model|||||0.132|0.047|<0.001
82432630|NCT00861757|164574517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.023|TWO_SIDED|95.0|-1.1|-0.1||This is the p value for the Storage (Irritative) Score.|ANCOVA|||||-0.1|-1.1|0.023
82432631|NCT00861757|164574518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.031|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||-0.0|-0.6|0.031
82432632|NCT00861757|164574518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.013|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|0.013
82432633|NCT00861757|164574518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|||||-0.4|-0.9|<0.001
82432634|NCT00861757|164574519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.201|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||||0.2|-1.0|0.201
82432635|NCT00861757|164574519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.393|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.393
82537672|NCT01018511|164774584|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Overall power was 90% power for non-inferiority vs placebo for total IPSS. Only the FDC(s) that succeeded in stage 1 were evaluated in stage 2 for total IPSS. If both FDCs succeeded in stage 1, then both FDCs proceeded to stage 2 and the Hochberg procedure was implemented at one-sided alpha = 0.025. If one FDC succeeded in stage 1, then only this FDC proceeded to stage 2 and the FDC vs. TOCAS alone for non-inferiority was assessed at one-sided alpha = 0.025/2 = 0.0125.|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.001|TWO_SIDED|97.5|-1.73|0.11||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The non-inferiority of FDC vs TOCAS on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.11|-1.73|0.001
82652253|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.077||||0.4596|TWO_SIDED|95.0|-0.283|0.129||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.129|-0.283|0.4596
82432636|NCT00861757|164574519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.4|-0.2|||ANCOVA|||||-0.2|-1.4|0.007
82432637|NCT00861757|164574520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.5||0.331|TWO_SIDED|95.0|-1.6|0.5|||ANCOVA|||||0.5|-1.6|0.331
82432638|NCT00861757|164574520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.14|TWO_SIDED|95.0|-1.8|0.3|||ANCOVA|||||0.3|-1.8|0.140
82432639|NCT00861757|164574520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.94|TWO_SIDED|95.0|-1.1|1.0|||ANCOVA|||||1.0|-1.1|0.940
82432640|NCT00861757|164574521|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 2.5 mg Tadalafil) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
82432641|NCT00861757|164574521|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 5.0 mg Tadalafil) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
82432642|NCT00861757|164574521|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (placebo vs 0.2 mg Tamsulosin) and 7 categories of the PGI-I.|Cochran-Mantel-Haenszel|||||||<0.001
82432643|NCT00861757|164574522|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 2.5 mg Tadalafil) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.034
82432644|NCT00861757|164574522|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 5.0 mg Tadalafil) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.002
82432645|NCT00861757|164574522|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||The p-value came from the Cochran-Mantel-Haenszel test to assess if there was any association between treatment (that is, placebo vs 0.2 mg Tamsulosin) and 7 categories of the CGI-I.|Cochran-Mantel-Haenszel|||||||0.001
82432646|NCT00861757|164574523|SUPERIORITY_OR_OTHER|||||||0.412||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.412
82432647|NCT00861757|164574523|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.083
82432648|NCT00861757|164574523|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.456
82432649|NCT00861757|164574524|SUPERIORITY_OR_OTHER|||||||0.688||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.688
82432650|NCT00861757|164574524|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.510
82432651|NCT00861757|164574524|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.212
82432652|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.005
82432653|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.274
82432654|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.538||95.0||||This is the p value for systolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.538
82432655|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.008
82432656|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.216||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.216
82432657|NCT00861757|164574525|SUPERIORITY_OR_OTHER|||||||0.524||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon (Mann-Whitney)|||||||0.524
82432658|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.007
82432659|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.723||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.723
82577395|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.098||0.2246|TWO_SIDED|95.0|-0.07|0.31|||MMRM|||Loss of Weight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.07|0.2246
82577396|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.096||0.9671|TWO_SIDED|95.0|-0.19|0.19|||MMRM|||Loss of Weight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.19|0.9671
82577397|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.121||0.6527|TWO_SIDED|95.0|-0.29|0.19|||MMRM|||Loss of Weight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.19|-0.29|0.6527
82577398|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.118||0.1647|TWO_SIDED|95.0|-0.4|0.07|||MMRM|||Loss of Weight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.40|0.1647
82577399|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.7093|TWO_SIDED|95.0|-0.18|0.26|||MMRM|||Loss of Weight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.26|-0.18|0.7093
82577400|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.107||0.6333|TWO_SIDED|95.0|-0.26|0.16|||MMRM|||Loss of Weight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.26|0.6333
82577401|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.5238|TWO_SIDED|95.0|-0.31|0.16|||MMRM|||Loss of Weight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.31|0.5238
82432660|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||This is the p value for systolic blood pressure.|Wilcoxon rank-sum test|||||||0.273
82577402|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.117||0.0782|TWO_SIDED|95.0|-0.44|0.02|||MMRM|||Loss of Weight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.02|-0.44|0.0782
82577403|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.138||0.2346|TWO_SIDED|95.0|-0.44|0.11|||MMRM|||Loss of Weight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.44|0.2346
82577404|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.134||0.0631|TWO_SIDED|95.0|-0.52|0.01|||MMRM|||Loss of Weight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.01|-0.52|0.0631
82577405|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.131||0.6274|TWO_SIDED|95.0|-0.32|0.2|||MMRM|||Loss of Weight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|-0.32|0.6274
82652254|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|0.067||||0.5987|TWO_SIDED|95.0|-0.182|0.315||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.315|-0.182|0.5987
82432661|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.005
82432662|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.054
82652255|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.122||||0.3348|TWO_SIDED|95.0|-0.372|0.127||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.127|-0.372|0.3348
82537673|NCT01018511|164774584|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Only the FDC(s) that succeeded in stage 1 were evaluated in stage 2 for total IPSS. If both FDCs succeeded in stage 1, then both FDCs proceeded to stage 2 and the Hochberg procedure was implemented at one-sided alpha = 0.025. If one FDC succeeded in stage 1, then only this FDC proceeded to stage 2 and the FDC vs. TOCAS alone for non-inferiority was assessed at one-sided alpha = 0.025/2 = 0.0125.|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.41||0.028|TWO_SIDED|97.5|-1.22|0.64||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The non-inferiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.64|-1.22|0.028
82561778|NCT03137784|164832766|OTHER||Linear Mixed Model (LMM)|0.09|||<|0.001|TWO_SIDED|95.0|0.047|0.132|||Linear Mixed Model|||||0.132|0.047|<0.001
82561779|NCT03137784|164832767|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.165|||<|0.001|TWO_SIDED|95.0|0.127|0.203|||Linear Mixed Model|||||0.203|0.127|<0.001
82561780|NCT03137784|164832767|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.168|||<|0.001|TWO_SIDED|95.0|0.129|0.206|||Linear Mixed Model|||||0.206|0.129|<0.001
82561781|NCT03137784|164832768|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.176|||<|0.001|TWO_SIDED|95.0|0.141|0.212|||Linear Mixed Model|||||0.212|0.141|<0.001
82561782|NCT03137784|164832768|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.179|||<|0.001|TWO_SIDED|95.0|0.144|0.215|||Linear Mixed Model|||||0.215|0.144|<0.001
82561783|NCT03137784|164832769|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.139|||<|0.001|TWO_SIDED|95.0|0.106|0.173|||Linear Mixed Model|||||0.173|0.106|<0.001
82561784|NCT03137784|164832769|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.146|||<|0.001|TWO_SIDED|95.0|0.112|0.179|||Linear Mixed Model|||||0.179|0.112|<0.001
82561785|NCT03137784|164832770|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.164|||<|0.001|TWO_SIDED|95.0|0.127|0.201|||Linear Mixed Model|||||0.201|0.127|<0.001
82561786|NCT03137784|164832770|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.174|||<|0.001|TWO_SIDED|95.0|0.137|0.211|||Linear Mixed Model|||||0.211|0.137|<0.001
82561787|NCT03137784|164832771|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.036||||0.079|TWO_SIDED|95.0|-0.004|0.077|||Linear Mixed Model|||||0.077|-0.004|0.079
82561788|NCT03137784|164832771|OTHER|Treatment difference|Linear Mixed Model (LMM)|0.058||||0.006|TWO_SIDED|95.0|0.017|0.099|||Linear Mixed Model|||||0.099|0.017|0.006
82561789|NCT03137784|164832773|OTHER|Treatment difference|Linear Mixed Model (LMM)|25.51|||<|0.001|TWO_SIDED|95.0|19.22|31.79|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||31.79|19.22|<0.001
82561790|NCT03137784|164832773|OTHER|Treatment difference|Linear Mixed Model (LMM)|24.29|||<|0.001|TWO_SIDED|95.0|17.99|30.59|||Linear Mixed Model|||||30.59|17.99|<0.001
82561791|NCT03137784|164832774|OTHER|Treatment difference|Linear Mixed Model (LMM)|30.95|||<|0.001|TWO_SIDED|95.0|25.07|36.82|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||36.82|25.07|<0.001
82561792|NCT03137784|164832774|OTHER|Treatment difference|Linear Mixed Model (LMM)|29.37|||<|0.001|TWO_SIDED|95.0|23.47|35.26|||Linear Mixed Model||LS Mean of change from baseline in mean morning PEF is calculated with the ANCOVA model using treatment, stratification group, dosing schedule, gender, center grouping, smoking status, and baseline mean morning PEF as covariates|||35.26|23.47|<0.001
82561793|NCT03137784|164832775|OTHER|Treatment difference|Linear Mixed Model (LMM)|-0.15||||0.053|TWO_SIDED|95.0|-0.31|0.0|||Linear Mixed Model|||||0.00|-0.31|0.053
82561794|NCT03137784|164832775|OTHER|Treatment difference|Linear Mixed Model (LMM)|-0.11||||0.163|TWO_SIDED|95.0|-0.27|0.05|||Linear Mixed Model|||||0.05|-0.27|0.163
82561795|NCT01205126|164832776|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.855|TWO_SIDED|95.0|-1.3|1.1||P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.|ANCOVA|||||1.1|-1.3|0.855
82561796|NCT01205126|164832777|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.615|TWO_SIDED|95.0|-1.0|0.6|||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||0.6|-1.0|0.615
82561797|NCT01205126|164832778|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.621|TWO_SIDED|95.0|-1.1|0.7|||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||0.7|-1.1|0.621
82561798|NCT01205126|164832779|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.||||||0.832|||||||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29.||||||0.832
82561799|NCT01205126|164832780|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if upper bound of the 2-sided 95% CI was less than the non-inferiority margin of 1.5.||||||0.304|||||||ANCOVA|P-value was calculated by ANCOVA model using Baseline as covariate for change at Day 29||||||0.304
82561800|NCT01205126|164832781|SUPERIORITY_OR_OTHER|||||||0.276|||||||rank sum test, 2 sided|||||||0.276
82561801|NCT00805792|164832785|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
82652256|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.062||||0.6288|TWO_SIDED|95.0|-0.313|0.19||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.190|-0.313|0.6288
82537674|NCT01018511|164774584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048|TWO_SIDED|||||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS.||||0.048
82537675|NCT01018511|164774584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|TWO_SIDED|||||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC vs. TOCAS on the change from baseline to end of treatment in total IPSS.||||0.483
82537676|NCT01018511|164774584|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.4|-0.9||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of the FDC vs placebo on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||-0.9|-2.4|<0.001
82537677|NCT01018511|164774584|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.006|TWO_SIDED|95.0|-1.9|-0.3||The primary analysis was adjusted for multiplicity for IPSS using the Hochberg procedure involving 2 stages: Stage 1, superiority to placebo and Stage 2: non-inferiority to tamsulosin alone, with a switch to superiority where applicable.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of the FDC vs. placebo on the change from baseline to end of treatment in total IPSS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||-0.3|-1.9|0.006
82537678|NCT01018511|164774584|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.039|TWO_SIDED|95.0|-1.6|0.0||No adjustments for multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of TOCAS vs. placebo on the change from baseline to end of treatment in total IPSS. With a sample size of 274 participants per arm, the overall power to meet this outcome measure was 97% power for superiority vs placebo for total IPSS.||-0.0|-1.6|0.039
82537679|NCT01018511|164774585|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.64||0.025|TWO_SIDED|97.5|-2.9|0.0||The primary analysis was adjusted for multiplicity for TUS using the Hochberg procedure.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. TOCAS in the change from baseline to end of treatment in TUS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.0|-2.9|0.025
82537680|NCT01018511|164774585|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.64||0.162|TWO_SIDED|97.5|-2.3|0.5||The primary analysis was adjusted for multiplicity for TUS using the Hochberg procedure.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. TOCAS in the change from baseline to end of treatment in TUS. A FDC was regarded successful if it showed superiority vs. placebo for total IPSS, noninferiority vs. TOCAS alone for total IPSS along with superiority vs. TOCAS alone for TUS.||0.5|-2.3|0.162
82561802|NCT00805792|164832786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
82561803|NCT00805792|164832787|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Regression, Linear|||The statistical significance of the change was assessed by the P value associated with estimated regression coefficient (beta coefficient or slope).||||<.001
82561804|NCT04471805|164832803|SUPERIORITY||||||<|0.05||||||Post hoc analyses (paired t-tests and Bonferroni correction) and effect size (Cohen's d) were calculated to clarify significant main effects and interactions.|ANOVA|Normality and sphericity evaluated with Shapiro-Wilk test and Mauchly's test. Greenhouse-Geisser corrections used when sphericity was violated.||||||<0.05
82561805|NCT04471805|164832804|SUPERIORITY||||||<|0.05||||||Post hoc analyses (paired t-tests and Bonferroni correction) and effect size (Cohen's d) were calculated to clarify significant main effects and interactions.|ANOVA|Normality and sphericity evaluated with Shapiro-Wilk test and Mauchly's test. Greenhouse-Geisser corrections used when sphericity was violated.||||||<0.05
82561806|NCT01393600|164832806|OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.3||0.588|TWO_SIDED|95.0|-3.3|1.9|||ANOVA|||||1.9|-3.3|0.5880
82561807|NCT01393600|164832806|OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.4184|TWO_SIDED|95.0|-3.8|1.6|||ANOVA|||||1.6|-3.8|0.4184
82561808|NCT01393600|164832808|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.0||0.6761|TWO_SIDED|95.0|-2.4|1.6|||ANOVA|||||1.6|-2.4|0.6761
82561809|NCT01393600|164832808|OTHER||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.1||0.0015|TWO_SIDED|95.0|-6.6|-1.8|||ANOVA|||||-1.8|-6.6|0.0015
82561810|NCT01072149|164832809|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.233|||<|0.001|TWO_SIDED|95.0|0.179|0.287|||Mixed Models Analysis|||||0.287|0.179|<0.001
82561811|NCT01072149|164832809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|||<|0.001|TWO_SIDED|95.0|0.165|0.275|||Mixed Models Analysis|||||0.275|0.165|<0.001
82432663|NCT00861757|164574526|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||This is the p value for diastolic blood pressure.|Wilcoxon rank-sum test|||||||0.278
82432664|NCT00861757|164574527|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Wilcoxon rank-sum test|||||||0.330
82432665|NCT00861757|164574527|SUPERIORITY_OR_OTHER|||||||0.838||95.0|||||Wilcoxon rank-sum test|||||||0.838
82432666|NCT00861757|164574527|SUPERIORITY_OR_OTHER|||||||0.409||95.0|||||Wilcoxon rank-sum test|||||||0.409
82432667|NCT01521923|164574532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.719|||=|0.112|TWO_SIDED|95.0|0.881|3.354|||Regression, Logistic|||In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in a hierarchical order beginning with the CZP standard maintenance dosing (200 mg Q2W) + MTX group vs the CZP stopped dosing (PBO) + MTX group. If this analysis was statistically significant at the alpha =0.05 level, then an additional comparison of the CZP reduced frequency dosing (200 mg Q4W) + MTX group vs the CZP stopped dosing + MTX group was performed with testing at the alpha =0.05 level||3.354|0.881|=0.112
82432668|NCT01521923|164574532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.889|||=|0.041|TWO_SIDED|95.0|1.026|3.48|||Regression, Logistic|||In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in a hierarchical order. A hierarchical test procedure was applied to protect the Overall significance level for the multiplicity of endpoints. Hypothesis testing was performed in the following predefined order, each at a 2-sided 95 % alpha level||3.480|1.026|=0.041
82432669|NCT02403817|164574586|OTHER|This is a small pilot study with no power calculations required (and no data upon which to base a priori power estimates).||||||5e-05|||||||t-test, 2 sided|||This analysis compares pre-intervention to post-intervention scores in the eye movement training group on the primary attention outcome measure. The hand movement Control in this pilot was not feasible and the sample is too small for analysis. This is a small pilot study and so power analyses were not computed. The null hypothesis was no difference between pre- and post-training outcome measure (alpha .05).||||0.00005
82432670|NCT02403817|164574587|OTHER|||||||0.018|||||||t-test, 2 sided|||This analysis compares pre-intervention to post-intervention scores in the eye movement training group on the primary eye movement outcome measure. The hand movement Control in this pilot was not feasible and the sample is too small for analysis. This is a small pilot study and so power analyses were not computed. The null hypothesis was no difference between pre- and post-training outcome measure (alpha .05).||||0.018
82432671|NCT01277822|164574720|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin was 3 mmHg as Korean Food and Drug Administration (KFDA) guidance.|Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|7.7||0.1339|TWO_SIDED|95.0|-3.0|0.4|||t-test, 2 sided|Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis||||0.4|-3.0|0.1339
82432672|NCT01277822|164574721|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4478||||||No imputation for missing data was performed|t-test, 2 sided|||||||0.4478
82432673|NCT01277822|164574722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0717|||||||t-test, 2 sided|Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis||||||0.0717
82432674|NCT01277822|164574723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8736|||||||t-test, 2 sided|No imputation for missing data was performed||||||0.8736
82432675|NCT01277822|164574724|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2508||||||No imputation for missing data was performed|Chi-squared|||||||0.2508
82432676|NCT01277822|164574725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2508||||||No imputation for missing data was performed|Chi-squared|||||||0.2508
82432677|NCT01277822|164574726|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6646|||||||Chi-squared|||||||0.6646
82432678|NCT01277822|164574727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7911||||||Left ankle: Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis|t-test, 2 sided|||||||0.7911
82432679|NCT01277822|164574727|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5933||||||Right ankle: Last observed non-missing, post-baseline value was imputed for missing value. If no such value existed, the value was treated as missing in analysis|t-test, 2 sided|||||||0.5933
82432680|NCT00997984|164574739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
82432681|NCT00997984|164574739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
82432682|NCT00997984|164574739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||A hierarchical testing structure was employed. First placebo vs all-active, then placebo vs am and lastly placebo vs pm. Testing was stopped when one comparison was not significant (p\<0.05).|ANCOVA|||Study designed to detect an effect size of 0.4 with 90% at the 0.05 significance level.||||<0.001
82577406|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.128||0.3589|TWO_SIDED|95.0|-0.37|0.14|||MMRM|||Loss of Weight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.37|0.3589
82432683|NCT00997984|164574740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82432684|NCT00997984|164574740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82432685|NCT00997984|164574740|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82432686|NCT00997984|164574741|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82432687|NCT00997984|164574741|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82432688|NCT00997984|164574741|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||<0.001
82452504|NCT04607837|164611777|SUPERIORITY||Risk Difference (RD)|15.61||||0.0068|TWO_SIDED|95.0|4.31|26.91|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||26.91|4.31|0.0068
82452505|NCT04607837|164611778|SUPERIORITY||Risk Difference (RD)|8.24||||0.2302|TWO_SIDED|95.0|-5.22|21.71|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.71|-5.22|0.2302
82452506|NCT04607837|164611779|SUPERIORITY||Risk Difference (RD)|7.12||||0.3339|TWO_SIDED|95.0|-7.32|21.55|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||21.55|-7.32|0.3339
82452507|NCT04607837|164611780|SUPERIORITY||Risk Difference (RD)|0.68||||0.9141|TWO_SIDED|95.0|-11.76|13.13|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||13.13|-11.76|0.9141
82452508|NCT04607837|164611781|SUPERIORITY||Risk Difference (RD)|9.56||||0.1089|TWO_SIDED|95.0|-2.13|21.25|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.25|-2.13|0.1089
82537681|NCT01018511|164774585|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-4.9|-2.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/6 mg vs. placebo on the change from baseline to end of treatment in TUS.||-2.5|-4.9|<0.001
82537682|NCT01018511|164774585|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|-4.4|-1.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of FDC 0.4 mg/9 mg vs. placebo on the change from baseline to end of treatment in TUS.||-1.9|-4.4|<0.001
82452509|NCT04607837|164611782|SUPERIORITY||Risk Difference (RD)|11.19||||0.0104|TWO_SIDED|95.0|2.63|19.75|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||19.75|2.63|0.0104
82652257|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.048||||0.7193|TWO_SIDED|95.0|-0.312|0.216||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.216|-0.312|0.7193
82452510|NCT04607837|164611783|SUPERIORITY||Risk Difference (RD)|-1.07||||0.9203|TWO_SIDED|95.0|-22.06|19.92|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||19.92|-22.06|0.9203
82452511|NCT04607837|164611784|SUPERIORITY||Risk Difference (RD)|8.49||||0.1726|TWO_SIDED|95.0|-3.71|20.68|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||20.68|-3.71|0.1726
82452512|NCT04607837|164611785|SUPERIORITY||Risk Difference (RD)|-1.71||||0.9272|TWO_SIDED|95.0|-38.31|34.9|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||34.90|-38.31|0.9272
82452513|NCT04607837|164611786|SUPERIORITY||Risk Difference (RD)|8.49||||0.1726|TWO_SIDED|95.0|-3.71|20.68|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||20.68|-3.71|0.1726
82452514|NCT04607837|164611787|SUPERIORITY||Risk Difference (RD)|18.64||||0.0151|TWO_SIDED|95.0|3.61|33.67|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||33.67|3.61|0.0151
82452515|NCT04607837|164611788|SUPERIORITY||Risk Difference (RD)|5.96||||0.4419|TWO_SIDED|95.0|-9.22|21.13|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||21.13|-9.22|0.4419
82537683|NCT01018511|164774585|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-3.5|-1.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||The superiority of TOCAS vs. placebo on the change from baseline to end of treatment in TUS.||-1.0|-3.5|<0.001
82452516|NCT04607837|164611789|SUPERIORITY||Risk Difference (RD)|23.33||||0.0007|TWO_SIDED|95.0|9.78|36.89|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||36.89|9.78|0.0007
82452517|NCT04607837|164611790|SUPERIORITY||Risk Difference (RD)|14.99||||0.0128|TWO_SIDED|95.0|3.19|26.79|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights. The 2-sided p-value was used to test the hypothesis of the RD being 0.||26.79|3.19|0.0128
82561812|NCT01072149|164832809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|||<|0.001|TWO_SIDED|95.0|0.181|0.291|||Mixed Models Analysis|||||0.291|0.181|<0.001
82561813|NCT00949234|164832813|OTHER||||||<|0.05|||||||Chi-squared|||There was no power calculation for this analysis. The study was mainly descriptive, but Chi-square tests were used to determine if there were differences between individuals who were retained at the 24 Week Follow-up visit from individuals who were not retained at the 24 Week Follow-up visit.||||<0.05
82561814|NCT01163214|164832814|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
82561815|NCT01163214|164832814|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.58
82432689|NCT00997984|164574742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.099||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.099
82432690|NCT00997984|164574742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.596||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.596
82432691|NCT00997984|164574742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.023
82432692|NCT00997984|164574744|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
82432693|NCT00997984|164574744|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
82432694|NCT00997984|164574744|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
82537684|NCT01018511|164774586|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.0|-0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.3|-1.0|<0.001
82537685|NCT01018511|164774586|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.6|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.1|-0.6|0.223
82652258|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.27||||0.0452|TWO_SIDED|95.0|-0.534|-0.006||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.006|-0.534|0.0452
82432695|NCT00997984|164574745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.712||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.712
82432696|NCT00997984|164574745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.531||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.531
82432697|NCT00997984|164574745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.226
82432698|NCT00997984|164574746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.859||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.859
82432699|NCT00997984|164574746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.527
82432700|NCT00997984|164574746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||95.0||||No formal adjustment for multiplicity was done.|Cochran-Mantel-Haenszel|||||||0.739
82432701|NCT00997984|164574747|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||<0.001
82432702|NCT00997984|164574747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.004
82432703|NCT00997984|164574747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||No formal adjustment for multiplicity was done.|ANCOVA|||||||0.001
82432704|NCT00894699|164574761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82432705|NCT00894699|164574761|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82432706|NCT00295646|164574762|SUPERIORITY|A two-sided significance level of 2.5% was used in this 2x2 factorial design of two primary endpoints according to the Bonferroni-Holm adjustment to control multiplicity.|Cox Proportional Hazard|1.1||||0.59|TWO_SIDED|95.0|0.78|1.53||Two-sided significance level of 2.5%, with the application of the Bonferroni-Holm adjustment for multiple comparisons|Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter disease-free time for arimidex relative to tamoxifen.|To determine the effect of arimidex (AZ and AC) compared to tamoxifen (TZ and TC) in terms of disease-free survival. Disease-free survival (DFS) is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death from any cause.||1.53|0.78|0.59
82432707|NCT00295646|164574763|SUPERIORITY|A two-sided significance level of 2.5% was used in this 2x2 factorial design of two primary endpoints according to the Bonferroni-Holm adjustment to control multiplicity.|Cox Proportional Hazard|0.64||||0.01|TWO_SIDED|95.0|0.46|0.91||Two-sided significance level of 2.5%, with the application of the Bonferroni-Holm adjustment for multiple comparisons|Log Rank||From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer disease-free time for Zoledronic Acid relative to no Zoledronic Acid.|To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of disease-free survival. Disease-free survival (DFS) is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death from any cause.||0.91|0.46|0.01
82537686|NCT01018511|164774586|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.5|-0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.8|-1.5|< 0.001
82432708|NCT00295646|164574764|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|1.11||||0.53|TWO_SIDED|95.0|0.8|1.56|||Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter recurrence-free time for arimidex relative to tamoxifen.|To determine the effect of arimidex (AZ and AC) compared to tamoxifen (TZ and TC) in terms of recurrence-free survival. Recurrence-free survival is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death related to breast cancer.||1.56|0.80|0.53
82537687|NCT01018511|164774586|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||-0.4|-1.1|< 0.001
82652259|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.252||||0.0635|TWO_SIDED|95.0|-0.519|0.014||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.014|-0.519|0.0635
82452518|NCT04607837|164611791|SUPERIORITY||Risk Difference (RD)|10.24||||0.1492|TWO_SIDED|95.0|-3.67|24.14|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||24.14|-3.67|0.1492
82452519|NCT04607837|164611792|SUPERIORITY||Risk Difference (RD)|0.18||||0.9774|TWO_SIDED|95.0|-12.18|12.53|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||12.53|-12.18|0.9774
82452520|NCT04607837|164611793|SUPERIORITY||Risk Difference (RD)|22.83||||0.0011|TWO_SIDED|95.0|9.17|36.49|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||36.49|9.17|0.0011
82452521|NCT04607837|164611794|SUPERIORITY||Risk Difference (RD)|10.8||||0.1513|TWO_SIDED|95.0|-3.95|25.56|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||25.56|-3.95|0.1513
82452522|NCT04607837|164611795|SUPERIORITY||Risk Difference (RD)|10.07||||0.1823|TWO_SIDED|95.0|-4.73|24.87|||Mantel Haenszel|||Difference (%) for etrasimod minus placebo was based on estimated common RD using the Mantel- Haenszel weights, where only participants with an assessment at Baseline and the corresponding visit are included. The 2-sided Nominal p-value was used to test the hypothesis of the RD being 0.||24.87|-4.73|0.1823
82452523|NCT04209205|164611804|SUPERIORITY||Marginal difference|25.02|||<|0.0001|TWO_SIDED|95.0|17.61|32.43|||Regression, Logistic|||||32.43|17.61|<.0001
82648792|NCT03877237|165013339|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|4.17||||0.05842|TWO_SIDED|95.0|0.03|8.33||KCCQ-PLS was tested at the alpha level of 0.04990 because KCCQ-TSS had a statistically significant p-value, in accordance with the pre-specified testing strategy.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint KCCQ-PLS, the following hypothesis was tested at significant level of 0.04990~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, KCCQ-PLS, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||8.33|0.03|0.05842
82452524|NCT04209205|164611805|SUPERIORITY||Marginal difference|30.59|||<|0.0001|TWO_SIDED|95.0|21.14|40.05|||Regression, Logistic|||||40.05|21.14|<.0001
82452525|NCT04209205|164611806|SUPERIORITY||Marginal difference|17.17|||<|0.0001|TWO_SIDED|95.0|10.48|23.85|||Regression, Logistic|||||23.85|10.48|<.0001
82452526|NCT04209205|164611807|SUPERIORITY||Marginal difference|41.39|||<|0.0001|TWO_SIDED|95.0|30.64|52.13|||Regression, Logistic|||||52.13|30.64|<.0001
82452527|NCT04209205|164611808|SUPERIORITY||Least squares mean|-1.13|STANDARD_ERROR_OF_MEAN|0.129|<|0.0001|TWO_SIDED|95.0|-1.38|0.87|||Mixed Models Analysis|||||0.87|-1.38|<.0001
82452528|NCT04209205|164611809|SUPERIORITY||Least squares mean|-0.24|STANDARD_ERROR_OF_MEAN|-0.043|<|0.0001|TWO_SIDED|95.0|-0.32|0.15|||Mixed Models Analysis|||||0.15|-0.32|<.0001
82452529|NCT04209205|164611810|SUPERIORITY||Least squares mean|4.13|STANDARD_ERROR_OF_MEAN|0.676|<|0.0001|TWO_SIDED|95.0|2.8|5.46|||Mixed Models Analysis|||||5.46|2.80|<.0001
82652260|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.126||||0.38|TWO_SIDED|95.0|-0.409|0.156||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.156|-0.409|0.3800
82652261|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.336||||0.02|TWO_SIDED|95.0|-0.62|-0.053||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.053|-0.620|0.0200
82452530|NCT04209205|164611811|SUPERIORITY||Least squares mean|2.85|STANDARD_ERROR_OF_MEAN|0.933||0.0024|TWO_SIDED|95.0|1.01|4.68|||Mixed Models Analysis|||||4.68|1.01|0.0024
82452531|NCT04209205|164611812|SUPERIORITY||Least squares mean|-6.11|STANDARD_ERROR_OF_MEAN|1.447|<|0.0001|TWO_SIDED|95.0|-8.96|-3.26|||Mixed Models Analysis|||||-3.26|-8.96|<.0001
82452532|NCT04209205|164611813|SUPERIORITY||Marginal difference|27.49||||0.0003|TWO_SIDED|95.0|12.43|42.55|||Regression, Logistic|||||42.55|12.43|0.0003
82452533|NCT04209205|164611814|SUPERIORITY||Marginal difference|16.35||||0.0102|TWO_SIDED|95.0|3.88|28.82|||Regression, Logistic|||||28.82|3.88|0.0102
82452534|NCT05870865|164611815|SUPERIORITY||Mean Difference (Final Values)|4.28||||0.5483|TWO_SIDED||||||Mixed Models Analysis|||||||0.5483
82452535|NCT05870865|164611815|SUPERIORITY||Mean Difference (Final Values)|-5.89||||0.4123|TWO_SIDED||||||Mixed Models Analysis|||||||0.4123
82452536|NCT05870865|164611815|SUPERIORITY||Mean Difference (Final Values)|1.66||||0.8177|TWO_SIDED||||||Mixed Models Analysis|||||||0.8177
82452537|NCT05870865|164611816|SUPERIORITY||Odds Ratio (OR)|0.66||||0.4601|TWO_SIDED||||||Fisher Exact|||||||0.4601
82452538|NCT05870865|164611816|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0804|TWO_SIDED||||||Fisher Exact|||||||0.0804
82452539|NCT05870865|164611816|SUPERIORITY||Odds Ratio (OR)|1.06|||>|0.9999|TWO_SIDED||||||Fisher Exact|||||||>0.9999
82452540|NCT05870865|164611817|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.2146|TWO_SIDED||||||Mixed Models Analysis|||||||0.2146
82452541|NCT05870865|164611817|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8851|TWO_SIDED||||||Mixed Models Analysis|||||||0.8851
82452542|NCT05870865|164611817|SUPERIORITY||Mean Difference (Final Values)|0.81||||0.1835|TWO_SIDED||||||Mixed Models Analysis|||||||0.1835
82452543|NCT05870865|164611818|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.7982|TWO_SIDED||||||Mixed Models Analysis|||||||0.7982
82452544|NCT05870865|164611818|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.564|TWO_SIDED||||||Mixed Models Analysis|||||||0.5640
82452545|NCT05870865|164611818|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.2939|TWO_SIDED||||||Mixed Models Analysis|||||||0.2939
82652262|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.328||||0.0244|TWO_SIDED|95.0|-0.614|-0.043||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.043|-0.614|0.0244
82432709|NCT00295646|164574765|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|0.65||||0.01|TWO_SIDED|95.0|0.46|0.92|||Log Rank|||To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of recurrence-free survival. Recurrence-free survival is defined as the time from randomization to the first occurrence of a local or regional recurrence, cancer in the contralateral breast, distant metastasis, second primary carcinoma, or death related to breast cancer.|From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer recurrence-free time for Zoledronic Acid relative to no Zoledronic Acid.|0.92|0.46|0.01
82432710|NCT00295646|164574766|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|1.8||||0.07|TWO_SIDED|95.0|0.96|3.38|||Log Rank||From the Cox Proportional hazard model with endocrine treatment fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter survival time for arimidex relative to tamoxifen.|To determine the effect of anastrozole (AZ and AC) compared to tamoxifen (TZ and TC) in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause.||3.38|0.96|0.07
82432711|NCT00295646|164574767|SUPERIORITY|No multiplicity adjustment was applied.|Cox Proportional Hazard|0.6||||0.1|TWO_SIDED|95.0|0.32|1.11|||Log Rank||From the Cox Proportional hazard model with Zoledronic Acid treatment fitted as a covariate. A hazard ratio \< 1.0 indicates a lower average event rate and a longer survival time for Zoledronic Acid relative to no Zoledronic Acid.|To determine the effect of Zoledronic Acid (AZ and TZ) compared to no Zoledronic Acid (AC and TC) in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause.||1.11|0.32|0.10
82432712|NCT02626156|164574768|SUPERIORITY||Risk Difference (RD)|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.091|TWO_SIDED|95.0|-0.02|0.3|||Chi-squared||Asymptotic standard error was used|||0.3|-0.02|0.091
82432713|NCT04677543|164574813|SUPERIORITY||Percentage Difference|10.4||||0.2819|TWO_SIDED|95.0|-8.6|29.5|||Standardized Logistic Regression||The percentage difference and confidence intervals are estimated by standardized logistic regression with treatment group and history of MAC lung infection as factors in the model.|||29.5|-8.6|0.2819
82432714|NCT04677543|164574814|SUPERIORITY||Percentage Difference|6.1||||0.508|TWO_SIDED|95.0|-11.9|24.1|||Standardized Logistic Regression||The percentage difference and confidence intervals are estimated by standardized logistic regression with treatment group and history of MAC lung infection as factors in the model.|||24.1|-11.9|0.5080
82432715|NCT04677543|164574815|SUPERIORITY||Percentage Difference|16.7||||0.0712|TWO_SIDED|95.0|-1.4|34.9|||Standardized Logistic Regression|||||34.9|-1.4|0.0712
82432716|NCT04677543|164574816|SUPERIORITY||Least Square Mean Difference|4.48||||0.1073|TWO_SIDED|95.0|-0.97|9.93|||ANCOVA|||||9.93|-0.97|0.1073
82432717|NCT04677543|164574817|SUPERIORITY||Least Square Mean Difference|-0.4||||0.613|TWO_SIDED|95.0|-2.2|1.3|||ANCOVA|||||1.3|-2.2|0.6130
82432718|NCT04677543|164574818|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.3542|TWO_SIDED|95.0|0.79|1.92|||Regression, Cox||A Cox regression model was applied to calculate the hazard ratio. The model included effects for treatment and history of MAC lung infection (initial or subsequent).|||1.92|0.79|0.3542
82432719|NCT04677543|164574819|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.1583|TWO_SIDED|95.0|0.89|2.06|||Regression, Cox||A Cox regression model was applied to calculate the hazard ratio. The model included effects for treatment and history of MAC lung infection (initial or subsequent).|||2.06|0.89|0.1583
82432720|NCT00809926|164574827|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.6||||0.295|TWO_SIDED|95.0|-4.61|1.4|||ANCOVA|||||1.40|-4.61|0.295
82432721|NCT00809926|164574828|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.2||||0.79|TWO_SIDED|95.0|-1.93|1.47|||ANCOVA|||||1.47|-1.93|0.790
82432722|NCT00809926|164574829|SUPERIORITY_OR_OTHER||Difference|8.1||||0.101|TWO_SIDED|95.0|-1.56|17.67|||Cochran-Mantel-Haenszel|||||17.67|-1.56|0.101
82432723|NCT00809926|164574830|SUPERIORITY_OR_OTHER||Difference|11.6||||0.018|TWO_SIDED|95.0|2.0|21.33|||Cochran-Mantel-Haenszel|||||21.33|2.00|0.018
82432724|NCT00809926|164574833|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.4||||0.028|TWO_SIDED|95.0|-6.34|-0.37|||ANCOVA|||||-0.37|-6.34|0.028
82432725|NCT00809926|164574834|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.1||||0.04|TWO_SIDED|95.0|-6.02|-0.14|||GENMOD|Based on a generalized estimating equations using SAS procedure GENMOD.||||-0.14|-6.02|0.040
82432726|NCT00809926|164574835|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-8.7||||0.004|TWO_SIDED|95.0|-14.38|-2.93|||ANCOVA|||||-2.93|-14.38|0.004
82432727|NCT00809926|164574836|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-4.9||||0.006|TWO_SIDED|95.0|-8.37|-1.42|||ANCOVA|||||-1.42|-8.37|0.006
82432728|NCT01963767|164574851|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||Ancovas were conducted with group as the between subjects factor and performance at baseline as the covariate.||||.03
82432729|NCT01082081|164574854|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.77||||0.0004|TWO_SIDED|95.0|2.15|7.39|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and Paracetamol 500 mg caplet.||7.39|2.15|0.0004
82432730|NCT01082081|164574854|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.25|||<|0.0001|TWO_SIDED|95.0|4.04|10.45|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and placebo caplet.||10.45|4.04|<0.0001
82432731|NCT01082081|164574854|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.48||||0.1307|TWO_SIDED|95.0|-0.74|5.69|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 500 mg caplet and placebo caplet.||5.69|-0.74|0.1307
82432732|NCT03159468|164574875|OTHER|||||||0.041||||||This p-value is for the main effect of beverage condition.|ANOVA|||||||.041
82432733|NCT03159468|164574875|OTHER|||||||0.16||||||This p-value is for the main effect of intervention condition.|ANOVA|||||||.160
82432734|NCT03159468|164574875|OTHER|||||||0.462||||||This p-value is for the beverage condition by intervention condition interaction.|ANOVA|||||||.462
82452546|NCT05870865|164611819|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.3579|TWO_SIDED||||||Mixed Models Analysis|||||||0.3579
82452547|NCT05870865|164611819|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.3466|TWO_SIDED||||||Mixed Models Analysis|||||||0.3466
82452548|NCT05870865|164611819|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.9527|TWO_SIDED||||||Mixed Models Analysis|||||||0.9527
82537688|NCT01018511|164774586|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.002|TWO_SIDED|95.0|-0.9|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.9|0.002
82537689|NCT01018511|164774587|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|23.1|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|16.6|29.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.6|16.6|< 0.001
82537690|NCT01018511|164774587|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|23.2|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|16.6|29.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.8|16.6|< 0.001
82432735|NCT00501592|164574890|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||The primary endpoints are calculated as the change (post minus pre treatment) during low dose and high dose insulin infusion periods. These are compared between placebo and INT-747 25 mg using t-tests for independent samples. These tests will be made without correction for multiple comparisons using 0.05 as the alpha criterion for significance. Results will be described with the corresponding means and standard deviations.||||0.040
82432736|NCT00501592|164574890|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||The primary endpoints are calculated as the change (post minus pre treatment) during low dose and high dose insulin infusion periods. These are compared between placebo and INT-747 50 mg using t-tests for independent samples. These tests will be made without correction for multiple comparisons using 0.05 as the alpha criterion for significance. Results will be described with the corresponding means and standard deviations.||||0.28
82432737|NCT00501592|164574891|SUPERIORITY_OR_OTHER|||||||0.0031||95.0|||||t-test, 2 sided|||||||0.0031
82432738|NCT00501592|164574891|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||||||>0.05
82432739|NCT00501592|164574891|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||t-test, 2 sided|||||||0.0001
82432740|NCT00501592|164574891|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||t-test, 2 sided|||||||0.0005
82432741|NCT01498692|164574894|SUPERIORITY_OR_OTHER||Percent Target Lesion Failure|2.4|||<|0.0001|ONE_SIDED|95.0||7.3|||One-group exact binomial test|||A one-group exact binomial test was used to test the hypothesis that the primary endpoint rate in the PROMUS Element cohort is less than the predefined performance goal of 21.1%.||7.3||<0.0001
82432742|NCT01701362|164574926|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1823||95.0|-0.54|0.1|||Mixed Model Repeated Measures Analysis|Mixed Model Repeated Measures = MMRM|MMRM analysis includes fixed categorical effects of treatment, country, trauma type, visit week, treatment-by-visit interaction, and fixed continuous effect of baseline value. Missing mean pain scores imputed by multiple imputation method|||0.10|-0.54|0.1823
82432743|NCT01701362|164574927|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||||||The p-value is derived from CMH test, stratified for pooled center and trauma type and excludes missing values.|Cochran-Mantel-Haenszel|||||||0.0012
82432744|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.14||0.0119||95.0|-0.62|-0.08|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 1||-0.08|-0.62|0.0119
82452549|NCT03828019|164611839|SUPERIORITY||Odds Ratio (OR)|1.86||||0.029|TWO_SIDED|95.0|1.06|3.25|||Regression, Logistic|Adjusted for the 2 stratification variables (initial prednisone dose and immunosuppression use at baseline).|Estimated parameter is the Odds Ratios (ADA/CID). Result greater than 1 indicates ADA is superior in achieving successful corticosteroid sparing|The sample size estimation: Adalimumab was estimated to be successful in 75% of patients. The overall success rate with conventional immunosuppression was estimated to be 51%. A sample size of 222 (111 per treatment group) provided 90% power to detect a difference in cumulative percent of 75% versus 51%||3.25|1.06|0.029
82537691|NCT01018511|164774587|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|27.4|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|21.0|33.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.9|21.0|< 0.001
82537692|NCT01018511|164774587|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|27.6|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|21.1|34.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||34.1|21.1|< 0.001
82432745|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.0135||95.0|-0.62|-0.07|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 2||-0.07|-0.62|0.0135
82537693|NCT01018511|164774587|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|3.32||0.189|TWO_SIDED|95.0|-2.2|10.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||10.9|-2.2|0.189
82561816|NCT01163214|164832815|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||t-test, 2 sided|||||||0.76
82432746|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.14||0.0028||95.0|-0.69|-0.14|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 3||-0.14|-0.69|0.0028
82648793|NCT03877237|165013340|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|3.2||||0.68626|TWO_SIDED|95.0|-6.5|13.0||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the primary efficacy endpoint 6MWD, the following hypothesis was tested using the significance level 0.00010:~H0: m(r(A)) = m(r(C)) versus H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in the primary efficacy endpoint, 6MWD, from baseline to week 16, among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||13.0|-6.5|0.68626
82432747|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.14||0.0016||95.0|-0.72|-0.17|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 4||-0.17|-0.72|0.0016
82537694|NCT01018511|164774588|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|14.5|STANDARD_ERROR_OF_MEAN|7.51||0.053|TWO_SIDED|95.0|-0.2|29.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.3|-0.2|0.053
82537695|NCT01018511|164774588|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|14.7|STANDARD_ERROR_OF_MEAN|7.59||0.053|TWO_SIDED|95.0|-0.2|29.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||29.6|-0.2|0.053
82537696|NCT01018511|164774588|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|18.5|STANDARD_ERROR_OF_MEAN|7.37||0.012|TWO_SIDED|95.0|4.1|33.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.0|4.1|0.012
82537697|NCT01018511|164774588|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|18.7|STANDARD_ERROR_OF_MEAN|7.45||0.012|TWO_SIDED|95.0|4.1|33.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||33.4|4.1|0.012
82537698|NCT01018511|164774588|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|7.49||0.591|TWO_SIDED|95.0|-10.7|18.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||18.7|-10.7|0.591
82537699|NCT01018511|164774589|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.616|TWO_SIDED|95.0|-0.6|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.4|-0.6|0.616
82537700|NCT01018511|164774589|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.319|TWO_SIDED|95.0|-0.7|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.7|0.319
82537701|NCT01018511|164774589|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.5|-0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.6|-1.5|< 0.001
82537702|NCT01018511|164774589|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.7|-0.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.7|-1.7|< 0.001
82537703|NCT01018511|164774589|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-1.4|-0.4||No adjustments to multiplicity were made|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.4|-1.4|< 0.001
82537704|NCT01018511|164774590|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.591|TWO_SIDED|95.0|-0.3|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.5|-0.3|0.591
82537705|NCT01018511|164774590|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.102|TWO_SIDED|95.0|-0.1|0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.8|-0.1|0.102
82537706|NCT01018511|164774590|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.204|TWO_SIDED|95.0|-0.6|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-0.6|0.204
82537707|NCT01018511|164774590|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.936|TWO_SIDED|95.0|-0.4|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.4|-0.4|0.936
82537708|NCT01018511|164774590|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.081|TWO_SIDED|95.0|-0.8|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.8|0.081
82537709|NCT01018511|164774591|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.24||0.511|TWO_SIDED|95.0|-0.3|0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.6|-0.3|0.511
82537710|NCT01018511|164774591|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.24||0.182|TWO_SIDED|95.0|-0.2|0.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.8|-0.2|0.182
82432748|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0007||95.0|-0.75|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 5||-0.20|-0.75|0.0007
82432749|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0006||95.0|-0.76|-0.21|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 6||-0.21|-0.76|0.0006
82432750|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0008||95.0|-0.75|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 7||-0.20|-0.75|0.0008
82432751|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.14||0.0003||95.0|-0.79|-0.24|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 8||-0.24|-0.79|0.0003
82432752|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001||95.0|-0.82|-0.26|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 9||-0.26|-0.82|0.0001
82537711|NCT01018511|164774591|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.22||0.552|TWO_SIDED|95.0|-0.6|0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.3|-0.6|0.552
82537712|NCT01018511|164774591|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.891|TWO_SIDED|95.0|-0.4|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo||0.5|-0.4|0.891
82432753|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.14||0.0005||95.0|-0.77|-0.22|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 10||-0.22|-0.77|0.0005
82432754|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0007||95.0|-0.76|-0.2|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 11||-0.20|-0.76|0.0007
82432755|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001||95.0|-0.82|-0.27|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 12||-0.27|-0.82|0.0001
82432756|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.84|-0.28|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 13||-0.28|-0.84|<0.0001
82432757|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.0005||95.0|-0.78|-0.22|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 14||-0.22|-0.78|0.0005
82432758|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.15||0.0031||95.0|-0.71|-0.14|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Week 15||-0.14|-0.71|0.0031
82432759|NCT01701362|164574928|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.12||0.0001||95.0|-0.71|-0.23|||Mixed Model Repeated Measures Analysis|Analyzed for treatment, center, trauma type, week \& treatment-by-week interaction and fixed continuous effect of baseline value on the ITT population.||Overall||-0.23|-0.71|0.0001
82432760|NCT01701362|164574929|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.005||95.0|-0.77|-0.14|||ANCOVA|This secondary endpoint has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||||-0.14|-0.77|0.0050
82432761|NCT01701362|164574930|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.16||0.0168||95.0|-0.7|-0.07|||ANCOVA|This secondary endpoint has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||||-0.07|-0.70|0.0168
82432762|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.6841||95.0|-0.09|0.06|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for mobility||0.06|-0.09|0.6841
82537713|NCT01018511|164774591|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23||0.215|TWO_SIDED|95.0|-0.8|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.2|-0.8|0.215
82432763|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.029||0.6564||95.0|-0.07|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for self-care||0.04|-0.07|0.6564
82432764|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.043||0.859||95.0|-0.08|0.09|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for usual activities||0.09|-0.08|0.8590
82432765|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.043||0.1628||95.0|-0.14|0.02|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for pain/discomfort||0.02|-0.14|0.1628
82432766|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||leaset squares mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.037||0.4654||95.0|-0.05|0.1|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for anxiety/depression||0.10|-0.05|0.4654
82432767|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.017||0.5||95.0|-0.02|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for Dolan 1997 Index score||0.04|-0.02|0.5000
82432768|NCT01701362|164574931|SUPERIORITY_OR_OTHER_LEGACY||leaset squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.026||0.5493||95.0|-0.07|0.04|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||This statistical analysis is for Dolan 2001 Index Score||0.04|-0.07|0.5493
82537714|NCT01018511|164774592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.383|TWO_SIDED|95.0|-0.2|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs TOCAS.||0.1|-0.2|0.383
82537715|NCT01018511|164774592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.08||0.402|TWO_SIDED|95.0|-0.1|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.1|0.402
82537716|NCT01018511|164774592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.021|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.0|-0.3|0.021
82432769|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|3.5|STANDARD_ERROR_OF_MEAN|1.8||0.0545||95.0|-0.07|7.0|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Disturbance Score||7.00|-0.07|0.0545
82432770|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.29||0.3913||95.0|-6.47|2.54|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Adequancy Score||2.54|-6.47|0.3913
82432771|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-1.1|STANDARD_ERROR_OF_MEAN|2.04||0.6059||95.0|-5.06|2.96|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Snoring Score||2.96|-5.06|0.6059
82432772|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|0.6|STANDARD_ERROR_OF_MEAN|1.7||0.7317||95.0|-2.76|3.93|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Awaken Short of Breath Score||3.93|-2.76|0.7317
82432773|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.2663||95.0|-0.45|0.12|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Quantity of Sleep Score (hours)||0.12|-0.45|0.2663
82432774|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.5||0.1562||95.0|-5.08|0.82|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Somnolence Score||0.82|-5.08|0.1562
82432775|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||least square mean difference|1.7|STANDARD_ERROR_OF_MEAN|1.45||0.249||95.0|-1.18|4.53|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Sleep Problem Index (9) Score||4.53|-1.18|0.2490
82432776|NCT01701362|164574933|SUPERIORITY_OR_OTHER_LEGACY||leaet squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0609||95.0|-0.15|0.0|||ANCOVA|This sub-score has been analyzed using ANCOVA with model terms of treatment, center, trauma type and baseline value on the ITT population.||Statistical analysis for Optimal Sleep Score||0.00|-0.15|0.0609
82432777|NCT01701362|164574934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7165||||||p-values based on CMH test stratified by pooled center and trauma type, patients with unknown status at baseline or endpoint will not be included in the calculation of p-values.|Cochran-Mantel-Haenszel|||||||0.7165
82452550|NCT03828019|164611840|SUPERIORITY||Odds Ratio (OR)|1.91||||0.072|TWO_SIDED|95.0|0.94|3.86|||Regression, Logistic||Odds ADA/ Odds CID|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid sparing between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.86|0.94|0.072
82561817|NCT01163214|164832815|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.59
82652263|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.096||||0.5232|TWO_SIDED|95.0|-0.392|0.2||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.200|-0.392|0.5232
82432778|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.2||||0.0028||95.0|1.5|6.86|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 1||6.86|1.50|0.0028
82432779|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.036||95.0|1.03|2.68|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 2||2.68|1.03|0.0360
82432780|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.0235||95.0|1.07|2.45|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 3||2.45|1.07|0.0235
82432781|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.0619||95.0|0.98|2.24|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 4||2.24|0.98|0.0619
82432782|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.46||||0.0677||95.0|0.97|2.2|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 5||2.20|0.97|0.0677
82432783|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.0707||95.0|0.97|2.16|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 6||2.16|0.97|0.0707
82432784|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.1313||95.0|0.91|2.06|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 7||2.06|0.91|0.1313
82432785|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.3072||95.0|0.82|1.86|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 8||1.86|0.82|0.3072
82432786|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.3947||95.0|0.79|1.8|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 9||1.80|0.79|0.3947
82432787|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.36||||0.1462||95.0|0.9|2.05|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 10||2.05|0.90|0.1462
82432788|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.6854||95.0|0.72|1.64|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 11||1.64|0.72|0.6854
82432789|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15||||0.5025||95.0|0.76|1.74|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 12||1.74|0.76|0.5025
82432790|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.4908||95.0|0.76|1.76|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 13||1.76|0.76|0.4908
82432791|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.4245||95.0|0.78|1.8|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 14||1.80|0.78|0.4245
82537717|NCT01018511|164774592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.584|TWO_SIDED|95.0|-0.2|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-0.2|0.584
82537718|NCT01018511|164774592|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.166|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.3|0.166
82432792|NCT01701362|164574935|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.96||||0.8464||95.0|0.61|1.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 15||1.49|0.61|0.8464
82432793|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.11||||0.1633||95.0|0.74|6.0|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 1||6.00|0.74|0.1633
82432794|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.92||||0.0652||95.0|0.96|3.85|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 2||3.85|0.96|0.0652
82561818|NCT01163214|164832816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for intraoperative narcotic use.||||<0.001
82652264|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.282||||0.0623|TWO_SIDED|95.0|-0.579|0.015||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.015|-0.579|0.0623
82432795|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.2||||0.0039||95.0|1.29|3.77|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 3||3.77|1.29|0.0039
82432796|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.0382||95.0|1.03|2.83|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 4||2.83|1.03|0.0382
82432797|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.86||||0.0137||95.0|1.14|3.05|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 5||3.05|1.14|0.0137
82652265|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.255||||0.0951|TWO_SIDED|95.0|-0.554|0.045||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.045|-0.554|0.0951
82432798|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0693||95.0|0.97|2.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 6||2.49|0.97|0.0693
82432799|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.68||||0.0349||95.0|1.04|2.73|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 7||2.73|1.04|0.0349
82432800|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.1227||95.0|0.91|2.29|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 8||2.29|0.91|0.1227
82432801|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.65||||0.0364||95.0|1.03|2.63|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 9||2.63|1.03|0.0364
82432802|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0667||95.0|0.97|2.49|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 10||2.49|0.97|0.0667
82432803|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.77||||0.0176||95.0|1.1|2.84|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 11||2.84|1.10|0.0176
82432804|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.03||||0.003||95.0|1.27|3.23|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 12||3.23|1.27|0.0030
82432805|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.71||||0.0256||95.0|1.07|2.74|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 13||2.74|1.07|0.0256
82432806|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.66||||0.0314||95.0|1.05|2.64|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 14||2.64|1.05|0.0314
82432807|NCT01701362|164574936|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.1889||95.0|0.85|2.21|||Gen linear model-logistic link function|Model terms include categorical: treatment, center, trauma type, week, and treatment-by-week interaction; and continuous: baselines mean pain score.||Statistical analysis at Week 15||2.21|0.85|0.1889
82432808|NCT01709110|164574950|SUPERIORITY||Odds Ratio (OR)|0.4071||||9.4e-05|TWO_SIDED|95.0|0.256|0.647|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.647|0.256|0.000094
82432809|NCT01709110|164574950|SUPERIORITY||Risk Ratio (RR)|0.4431||||9.4e-05|TWO_SIDED|95.0|0.29|0.677|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.677|0.290|0.000094
82432810|NCT01709110|164574951|SUPERIORITY||Odds Ratio (OR)|0.4187||||7.5e-05|TWO_SIDED|95.0|0.269|0.652|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.652|0.269|0.000075
82432811|NCT01709110|164574951|SUPERIORITY||Risk Ratio (RR)|0.4561||||7.5e-05|TWO_SIDED|95.0|0.305|0.682|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.682|0.305|0.000075
82432812|NCT01709110|164574952|SUPERIORITY||Stratified Hazard Ratio (HR)|0.4831||||0.000869|TWO_SIDED|95.0|0.316|0.739|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||0.739|0.316|0.000869
82537719|NCT01018511|164774593|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.187|TWO_SIDED|95.0|-1.0|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-1.0|0.187
82561819|NCT01163214|164832816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on day of surgery as needed.||||<0.001
82652266|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.06||||0.6985|TWO_SIDED|95.0|-0.363|0.243||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.243|-0.363|0.6985
82432813|NCT01709110|164574953|SUPERIORITY||Stratified Hazard Ratio (HR)|0.6553||||0.099023|TWO_SIDED|95.0|0.39|1.101|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.101|0.390|0.099023
82432814|NCT01709110|164574954|SUPERIORITY||Stratified Hazard Ratio (HR)|0.5786||||0.062432|TWO_SIDED|95.0|0.318|1.052|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimate and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.052|0.318|0.062432
82432815|NCT01709110|164574955|SUPERIORITY||Odds Ratio (OR)|0.3812|||<|0.001|TWO_SIDED|95.0|0.237|0.614|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.614|0.237|<0.001
82432816|NCT01709110|164574955|SUPERIORITY||Risk Ratio (RR)|0.4173|||<|0.001|TWO_SIDED|95.0|0.27|0.646|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.646|0.270|<0.001
82432817|NCT01709110|164574956|SUPERIORITY||Odds Ratio (OR)|0.1593||||0.007|TWO_SIDED|95.0|0.035|0.728|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.728|0.035|0.007
82432818|NCT01709110|164574956|SUPERIORITY||Risk Ratio (RR)|0.1643||||0.007|TWO_SIDED|95.0|0.036|0.744|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.||||0.744|0.036|0.007
82432819|NCT01709110|164574957|SUPERIORITY||Stratified Hazard Ratio (HR)|0.696||||0.078|TWO_SIDED|95.0|0.461|1.05|||Stratified Log Rank|Stratified Log Rank test was adjusted for the antecedent of recent clinical vertebral fractures and recent bisphosphonate use.|The Stratified Hazard Ratio estimates and corresponding 95% CI were obtained from the number of observed and expected events as part of the stratified log-rank test calculations.|||1.050|0.461|0.078
82432820|NCT01709110|164574958|SUPERIORITY||Least Squares Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.08||0.093|TWO_SIDED|95.0|-0.28|0.02||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate and baseline body height(cm).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.02|-0.28|0.093
82432821|NCT01709110|164574959|SUPERIORITY||Least Squares Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.17||0.585|TWO_SIDED|95.0|-0.42|0.24||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate and baseline back pain (no pain - worst pain \[0-10\]).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.24|-0.42|0.585
82432822|NCT01709110|164574960|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.757|TWO_SIDED|95.0|-0.03|0.02||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate baseline EQ-5D-5L (UK).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.02|-0.03|0.757
82432823|NCT01709110|164574961|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.694|TWO_SIDED|95.0|-0.02|0.01||Model included the following fixed effects: treatment, visit, treatment-by-visit interaction, antecedent of recent clinical vertebral fractures, recent use of bisphosphonate baseline EQ-5D-5L (US).|Mixed Models Analysis|An unstructured covariance matrix was assumed to account for the correlation between observations of the same participant.|Treatment difference was calculated as Teriparatide - Risedronate.|||0.01|-0.02|0.694
82432824|NCT01129765|164574962|SUPERIORITY_OR_OTHER||Proportion|0.97|||||TWO_SIDED|95.0|0.83|1.0|||Descriptive|||Proportion responding \>=3 on a 5-point likert scale, with exact 95% confidence interval from the binomial distribution.||1.0|0.83|
82432825|NCT01129765|164574963|SUPERIORITY_OR_OTHER||Proportion|0.97|||||TWO_SIDED|95.0|0.83|1.0|||Descriptive|||Descriptive summary of proportion responding \>=3 on 5-point Likert scale, with exact 95% confidnce interval from the binomial distribution.||1.0|0.83|
82432826|NCT01129765|164574964|SUPERIORITY_OR_OTHER||Proportion|0.97||||0.0005|TWO_SIDED|95.0|0.83|1.0|||One-sample proportion|||"Null hypothesis: Pr ≤ 0.7 versus HA: Pr \> 0.7; Pr is proportion using device appropriately. Observed rate calculated with exact 95% confidence interval from the binomial distribution. 2-sided p-value from binomial distribution.~With the proposed sample size of 30 subjects, we will reject the primary null hypothesis if at least 27 are observed to use the device properly. We will have 80% power for this to occur provided that the true rate in the population is at least 92%."||1.0|0.83|0.0005
82432827|NCT01129765|164574965|SUPERIORITY_OR_OTHER||Proportion|1.0|||||TWO_SIDED|95.0|0.88|1.0|||Descriptive|||Descriptive summary of proportion responding \>=3 on a 5-point Likert scale, with exact 95% confidnce interval from the binomial distribution.||1.0|0.88|
82432828|NCT01129765|164574966|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.12|||Descriptive|||Descriptive summary of proportion observed to have a safety issue, with exact 95% confidnce interval from the binomial distribution.||0.12|0|
82432829|NCT01129765|164574967|SUPERIORITY_OR_OTHER||Proportion|0.0|||||TWO_SIDED|95.0|0.0|0.12|||Descriptive|||Descriptive summary of proportion found to have injury, with exact 95% confidnce interval from the binomial distribution.||0.12|0|
82432830|NCT00485758|164574976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-21.4|-14.4|||Wilcoxon (Mann-Whitney)|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time and baseline low-density lipoprotein cholesterol -by-time interaction.||||-14.4|-21.4|<0.001
82432831|NCT00485758|164574977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|20.7|25.7|||Repeated Measures Analysis|Study times: 4, 8 and 12 weeks. Terms: treatment-by-time, gender-by-time and baseline high-density lipoprotein cholesterol -by-time interaction.||||25.7|20.7|<0.001
82432832|NCT00485758|164574978|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-23.1|||<|0.001||95.0|-27.2|-18.9|||ANCOVA|Nonparametric Analysis of Covariance model based on Tukey's normalized ranks with term for treatment, gender and Tukey's normal score of baseline.|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free Confidence Interval based on Wilcoxon's rank|||-18.9|-27.2|<0.001
82432833|NCT00135330|164574984|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||ANCOVA|||The ratio of the ASI-iAUC at Week 20 to that at baseline was compared between the treatment groups.||||0.282
82432834|NCT00135330|164574985|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|||||||0.004
82432835|NCT00135330|164574986|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||ANCOVA|||||||0.308
82432836|NCT00135330|164574987|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||ANCOVA|||||||0.079
82432837|NCT00135330|164574988|SUPERIORITY_OR_OTHER|||||||0.252||95.0|||||ANCOVA|||||||0.252
82432838|NCT00135330|164574989|SUPERIORITY_OR_OTHER|||||||0.465||95.0|||||ANCOVA|||||||0.465
82432839|NCT00135330|164574990|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||ANCOVA|||||||0.348
82452551|NCT03828019|164611841|SUPERIORITY||Odds Ratio (OR)|1.53||||0.3|TWO_SIDED|95.0|0.67|3.46|||Regression, Logistic||Odds ratio is ADA/CID where value greater than 1 indicates ADA is superior for corticosteroid (prednisone) discontinuation|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid sparing between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.46|0.67|0.30
82561820|NCT01163214|164832816|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on post operative day 1 as needed.||||0.17
82432840|NCT00135330|164574994|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Mixed Model Repeated Measures (MMRM)|||||||0.039
82432841|NCT00135330|164574995|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||MMRM|||||||0.555
82432842|NCT00135330|164574997|SUPERIORITY_OR_OTHER|||||||0.106||95.0|||||MMRM|||||||0.106
82432843|NCT00135330|164574998|SUPERIORITY_OR_OTHER|||||||0.341||95.0|||||MMRM|||||||0.341
82432844|NCT00135330|164574999|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||MMRM|||||||<0.001
82432845|NCT00135330|164575000|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||MMRM|||||||0.276
82432846|NCT00135330|164575001|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||MMRM|||||||0.840
82432847|NCT00135330|164575002|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||MMRM|||||||0.096
82432848|NCT00135330|164575003|SUPERIORITY_OR_OTHER|||||||0.875||95.0|||||MMRM|||||||0.875
82432849|NCT00135330|164575004|SUPERIORITY_OR_OTHER|||||||0.581||95.0|||||ANCOVA|||||||0.581
82432850|NCT00135330|164575005|SUPERIORITY_OR_OTHER|||||||0.631||95.0|||||ANCOVA|||||||0.631
82432851|NCT00135330|164575006|SUPERIORITY_OR_OTHER|||||||0.724||95.0|||||ANCOVA|||||||0.724
82432852|NCT00135330|164575007|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||MMRM|||||||0.117
82432853|NCT00135330|164575008|SUPERIORITY_OR_OTHER|||||||0.251||95.0|||||MMRM|||||||0.251
82652267|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.373||||0.0163|TWO_SIDED|95.0|-0.677|-0.069||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.069|-0.677|0.0163
82432854|NCT00135330|164575009|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||MMRM|||||||0.710
82432855|NCT00135330|164575010|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Fisher Exact|||||||0.575
82432856|NCT00135330|164575011|SUPERIORITY_OR_OTHER|||||||0.436||95.0|||||ANOVA|||||||0.436
82432857|NCT00135330|164575012|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Generalized Linear Model|||||||0.168
82432858|NCT01771991|164575014|SUPERIORITY||sum of scores|453.0|STANDARD_DEVIATION|39.6||0.57|TWO_SIDED||||||Wilcoxon Rank-Sum||Standard Deviation under the Null hypothesis for each group.|||||0.57
82432859|NCT01771991|164575015|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|1.5||0.65|TWO_SIDED|95.0|-0.6|0.95|||t-test, 2 sided|||Looking at the difference in pain change over time. The null hypothesis is there was no difference between the two treatment groups.||0.95|-0.60|0.65
82432860|NCT01771991|164575016|SUPERIORITY||Mean Difference (Final Values)|2.63|STANDARD_DEVIATION|17.79||0.57|TWO_SIDED|95.0|-6.65|11.91|||t-test, 2 sided|||Looking at the difference in range of motion change over time. The null hypothesis is there was no difference between the two treatment groups.||11.91|-6.65|0.57
82432861|NCT01399229|164575030|NON_INFERIORITY_OR_EQUIVALENCE|"Agreement between SureCALL® and Tocodynamometer Contraction Peak Times~Null hypothesis: The mean peak difference between RMS and TOCO is equal to 0. Alternative hypothesis: The mean peak difference is not equal to 0."|Mean Difference (Net)|0.99|STANDARD_ERROR_OF_MEAN|1.4086||0.4901|TWO_SIDED|95.0|-28.74|30.72|||Mixed Models Analysis|||||30.72|-28.74|0.4901
82432862|NCT02229825|164575031|OTHER|||||||0.88||||||p-value for treatment effect|ANCOVA|ANCOVA with stratification factors (country and pretreatment) and baseline score and treatment as the main factor.||The null hypothesis was that the mean change in MADRS total score between week 4 and baseline was the same for the 2 duloxetine treatment groups.||||0.88
82432863|NCT02229825|164575032|OTHER|||||||0.86||||||Treatment effect.|ANCOVA|Analysis of covariance (ANCOVA) with stratification factors and HAMD6 baseline as covariates and treatment regimen as main factor.||Comparison between treatment regimes at Week 4.||||0.86
82432864|NCT02229825|164575033|OTHER||||||<|0.0001|||||||Signed Rank test|||Within-group comparisons, week 8 versus baseline.||||<0.0001
82432865|NCT02229825|164575033|OTHER||||||<|0.0001|||||||Singed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432866|NCT02229825|164575033|OTHER||||||<|0.0001|||||||Singed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432867|NCT02229825|164575033|OTHER||||||<|0.0001|||||||Signed Rank test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432868|NCT02229825|164575035|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
82432869|NCT02229825|164575035|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
82432870|NCT02229825|164575035|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
82432871|NCT02229825|164575035|OTHER||||||<|0.0001|||||||McNemar|||Within group comparisons were performed at week 8 versus baseline.||||<0.0001
82432872|NCT02229825|164575036|OTHER|||||||0.32||||||Treatment effect.|Regression, Logistic|||Treatment groups were compared regarding the number of responders and non-responders at week 4, using a logistic regression with stratification factors (country and pretreatment) and baseline scores as covariates and treatment regimen as main factor.||||0.32
82432873|NCT02229825|164575038|OTHER|||||||0.57||||||Treatment effect.|Regression, Logistic|||Treatment groups were compared regarding the number of responders and non-responders at week 4, using a logistic regression with stratification factors (country and pretreatment) and baseline scores as covariates and treatment regimen as main factor.||||0.57
82432874|NCT02229825|164575041|OTHER|||||||0.68|||||||Cochran-Mantel-Haenszel|Stratified by country, 60 mg vs. 120 mg||"At week 4 CGI-S items were pooled to reduce the possible number of classes before formal testing. The 3 classes used (instead of 7 items) were: 1-2: normal, 3-5: moderate, 6-7: severe. Treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||0.68
82432875|NCT02229825|164575042|OTHER||Statistic|-528.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
82432876|NCT02229825|164575042|OTHER||Statistic|-540.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
82432877|NCT02229825|164575042|OTHER||Statistic|-1024.5|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
82432878|NCT02229825|164575042|OTHER||Statistic|-279.0|||<|0.0001|||||||Signed Rank test||Difference is value at week 8 minus week 4.|At week 8, within-group comparison versus week 4 was performed.||||<0.0001
82452552|NCT03828019|164611842|SUPERIORITY||Odds Ratio (OR)|1.85||||0.028|TWO_SIDED|95.0|1.06|3.19|||Regression, Logistic||Odds ADA/ Odds CID where value greater than 1 indicate greater corticosteroid sparing success in the ADA group|Generalized estimating equations were used to fit logistic regression models to compare the cumulative proportion of corticosteroid discontinuation between the two treatment groups over time while accounting for correlation between replicate measurements on the same individual with an unstructured covariance matrix. 2 stratification variables (initial prednisone dose and immunosuppression use at baseline) were included||3.19|1.06|0.028
82537720|NCT01018511|164774593|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.203|TWO_SIDED|95.0|-1.0|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-1.0|0.203
82432879|NCT02229825|164575043|OTHER|No formal hypothesis was tested.||||||0.07||||||Stratified by country, 60 mg vs. 120 mg|Cochran-Mantel-Haenszel|||"At week 4 CGI-S items were pooled to reduce the possible number of classes before formal testing. The 3 classes used (instead of 7 items) were: 1-2: normal, 3-5: moderate, 6-7: severe. Treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||0.07
82432880|NCT02229825|164575045|OTHER||CMH statistic|0.0||||1|||||||Cochran-Mantel-Haenszel|||"Before testing, PGI-I items were pooled to reduce the possible number of classes. The 3 classes used (instead of 7 items) were: 1-2= improved, 3-5=Stable, 6-7=Worsened. At week 4 treatment groups were compared using the Cochran Mantel-Haenszel test with stratification by centre."||||1.00
82432881|NCT02229825|164575047|OTHER|||||||0.92||||||Treatment effect|ANCOVA|||Comparison between HAMA scores between treatment regimens.||||0.92
82432882|NCT02229825|164575048|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432883|NCT02229825|164575048|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432884|NCT02229825|164575048|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432885|NCT02229825|164575048|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82432886|NCT02229825|164575050|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, Week 8 versus baseline.||||<0.0001
82432887|NCT02229825|164575050|OTHER|||||||0.001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||0.001
82432888|NCT02229825|164575050|OTHER||||||<|0.0001|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||<0.0001
82452553|NCT03828019|164611843|SUPERIORITY||Ratio of rate of steroid (mg/day ADA/CID|0.86||||0.061|TWO_SIDED|95.0|0.73|1.01|||negative binomial model||Number greater than 1 would indicate rate of steroid use is higher in participants assigned to ADA|||1.01|0.73|0.061
82537721|NCT01018511|164774593|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.09|TWO_SIDED|95.0|-1.1|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-1.1|0.090
82652268|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.345||||0.0273|TWO_SIDED|95.0|-0.652|-0.039||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.039|-0.652|0.0273
82432889|NCT02229825|164575050|OTHER|||||||0.28|||||||Student statistic t-test|||Within-group comparison, week 8 versus baseline.||||0.28
82537722|NCT01018511|164774593|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.098|TWO_SIDED|95.0|-1.1|0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.1|-1.1|0.098
82537723|NCT01018511|164774593|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.772|TWO_SIDED|95.0|-0.7|0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.5|-0.7|0.772
82432890|NCT03645096|164575061|SUPERIORITY||Mean Difference (Final Values)|0.0493|STANDARD_ERROR_OF_MEAN|0.0554||0.195|TWO_SIDED|95.0|-0.0703|0.1689||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Amygdala-PCC functional connectivity (z-score) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Amygdala-PCC functional connectivity (z-score) at 500 mg will be greater than that at placebo."||0.1689|-0.0703|.195
82432891|NCT03645096|164575061|SUPERIORITY||Mean Difference (Final Values)|0.0262|STANDARD_ERROR_OF_MEAN|0.0565||0.325|TWO_SIDED|95.0|-0.0943|0.1467||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Amygdala-PCC functional connectivity (z-score) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Amygdala-PCC functional connectivity (z-score) at 800 mg will be greater than that at placebo."||0.1467|-0.0943|.325
82432892|NCT03645096|164575062|SUPERIORITY||Mean Difference (Final Values)|-0.0071|STANDARD_ERROR_OF_MEAN|0.0878||0.468|TWO_SIDED|95.0|-0.1969|0.1827||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: dlPFC-Insula functional connectivity (z-score) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: dlPFC-Insula functional connectivity (z-score) at 500 mg will be greater than that at placebo."||0.1827|-0.1969|.468
82432893|NCT03645096|164575062|SUPERIORITY||Mean Difference (Final Values)|0.0097|STANDARD_ERROR_OF_MEAN|0.0891||0.458|TWO_SIDED|95.0|-0.1803|0.1996||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: dlPFC-Insula functional connectivity (z-score) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: dlPFC-Insula functional connectivity (z-score) at 800 mg will be greater than that at placebo."||0.1996|-0.1803|.458
82432894|NCT03645096|164575063|SUPERIORITY||Mean Difference (Final Values)|0.0038|STANDARD_ERROR_OF_MEAN|0.0078||0.316|TWO_SIDED|95.0|-0.0132|0.0209||Paired samples t-test with corrected standard deviation of the difference.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: GABA concentration (mM) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: GABA concentration (mM) at 500 mg will be greater than that at placebo."||0.0209|-0.0132|.316
82432895|NCT03645096|164575063|SUPERIORITY||Mean Difference (Final Values)|0.0131|STANDARD_ERROR_OF_MEAN|0.0084||0.071|TWO_SIDED|95.0|-0.005|0.0312||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: GABA concentration (mM) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: GABA concentration (mM) at 500 mg will be greater than that at placebo."||0.0312|-0.0050|.071
82432896|NCT03645096|164575064|SUPERIORITY||Mean Difference (Final Values)|-11322.45|STANDARD_ERROR_OF_MEAN|3750.52||0.006|TWO_SIDED|95.0|-19577.27|-3067.62||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Pregnenolone level (pg/mL) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Pregnenolone level (pg/mL) at 500 mg will be greater than that at placebo."||-3067.62|-19577.27|.006
82432897|NCT03645096|164575064|SUPERIORITY||Mean Difference (Final Values)|-11828.78|STANDARD_ERROR_OF_MEAN|3620.42||0.003|TWO_SIDED|95.0|-19650.24|-4007.33||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Pregnenolone level (pg/mL) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Pregnenolone level (pg/mL) at 800 mg will be greater than that at placebo."||-4007.33|-19650.24|.003
82452554|NCT03828019|164611844|SUPERIORITY||Difference in mean change from BL|0.4||||0.77|TWO_SIDED|95.0|-2.3|3.1|||Mixed Models Analysis|||Mixed effects models were used with a linear link. The fixed effects included initial steroid dose and immunosuppression use at baseline. Additional visit indicators (months 1-12) and corresponding treatment by visit interaction terms. An unstructured correlation was used to model repeated measurements by eye . A person-level random intercept was added to account for between-eye correlations.||3.1|-2.3|0.77
82537724|NCT01018511|164774594|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.21|TWO_SIDED|95.0|-0.9|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-0.9|0.210
82537725|NCT01018511|164774594|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.775|TWO_SIDED|95.0|-0.5|0.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.6|-0.5|0.775
82537726|NCT01018511|164774594|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.27||0.01|TWO_SIDED|95.0|-1.2|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-1.2|0.010
82652269|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.056||||0.7187|TWO_SIDED|95.0|-0.362|0.25||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.250|-0.362|0.7187
82652270|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.29||||0.064|TWO_SIDED|95.0|-0.596|0.017||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.017|-0.596|0.0640
82432898|NCT03645096|164575065|SUPERIORITY||Mean Difference (Final Values)|-2523.58|STANDARD_ERROR_OF_MEAN|545.83||0.001|TWO_SIDED|95.0|-3724.93|-1322.22||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: Allopregnanolone level (pg/mL) at 500 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Allopregnanolone level (pg/mL) at 500 mg will be greater than that at placebo."||-1322.22|-3724.93|.001
82537727|NCT01018511|164774594|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.317|TWO_SIDED|95.0|-0.8|0.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.3|-0.8|0.317
82432899|NCT03645096|164575065|SUPERIORITY||Mean Difference (Final Values)|-2480.62|STANDARD_ERROR_OF_MEAN|582.63||0.001|TWO_SIDED|95.0|-3739.32|-1221.93||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: Allopregnanolone level (pg/mL) at 800 mg will be less than or equal to that at placebo.~Alternative Hypothesis: Allopregnanolone level (pg/mL) at 800 mg will be greater than that at placebo."||-1221.93|-3739.32|.001
82432900|NCT03645096|164575066|NON_INFERIORITY|"Using the two one-sided test (TOST) procedure (Schuirmann, 1987), equivalence is established at the α significance level if a (1-2α) × 100% confidence interval for the difference in efficacies (new - current) is contained within the interval (-δ, δ)~Schuirmann, D. J. (1987). A comparison of the two one-sided tests procedure and the power approach for assessing the equivalence of average bioavailability. Journal of pharmacokinetics and biopharmaceutics, 15, 657-680."|Mean Difference (Final Values)|0.7059|STANDARD_ERROR_OF_MEAN|1.6377||0.336|TWO_SIDED|95.0|-2.7659|4.1777||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (500 mg)|"Null Hypothesis: SAFTEE (total) scores at 500 mg will be greater than or equal to that at placebo.~Alternative Hypothesis: SAFTEE (total) scores at 500 mg will be less than that at placebo."||4.1777|-2.7659|.336
82432901|NCT03645096|164575066|NON_INFERIORITY|"Using the two one-sided test (TOST) procedure (Schuirmann, 1987), equivalence is established at the α significance level if a (1-2α) × 100% confidence interval for the difference in efficacies (new - current) is contained within the interval (-δ, δ)~Schuirmann, D. J. (1987). A comparison of the two one-sided tests procedure and the power approach for assessing the equivalence of average bioavailability. Journal of pharmacokinetics and biopharmaceutics, 15, 657-680."|Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|3.4662||0.24|TWO_SIDED|95.0|-9.8131|4.8131||Statistical significance is evaluated at p (one-tailed) \<= .05.|t-test, 1 sided|Paired samples t-test with corrected standard deviation of the difference.|Mean Difference = placebo - pregnenolone (800 mg)|"Null Hypothesis: SAFTEE (total) scores at 800 mg will be greater than or equal to that at placebo.~Alternative Hypothesis: SAFTEE (total) scores at 800 mg will be less than that at placebo."||4.8131|-9.8131|.240
82432902|NCT00405392|164575090|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82432903|NCT00405392|164575091|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82432904|NCT00405392|164575092|SUPERIORITY_OR_OTHER|||||||0.9456|||||||t-test, 2 sided|||||||0.9456
82432905|NCT00803361|164575159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.006|TWO_SIDED|95.0|-2.76|-0.48||p-value is for Change from Baseline.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.48|-2.76|0.006
82432906|NCT00803361|164575160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.56||||0.024|TWO_SIDED|95.0|-4.78|-0.34||p-value is for Change from Baseline|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.34|-4.78|0.024
82432907|NCT00803361|164575161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.004|TWO_SIDED|95.0|-0.74|-0.15|||ANOVA|||||-0.15|-0.74|0.004
82432908|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.125|TWO_SIDED|95.0|-0.93|0.11||p-value is for Severity of Worst Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.11|-0.93|0.125
82432909|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.014|TWO_SIDED|95.0|-0.75|-0.09||p-value is for Severity of Least Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.09|-0.75|0.014
82432910|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.012|TWO_SIDED|95.0|-0.93|-0.11||p-value is for Severity of Average Pain Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.11|-0.93|0.012
82432911|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.002|TWO_SIDED|95.0|-1.14|-0.25||p-value is for Severity of Pain Right Now Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.25|-1.14|0.002
82432912|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.101|TWO_SIDED|95.0|-0.87|0.08||p-value is for Interference of Pain, General Activity, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.08|-0.87|0.101
82432913|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.252|TWO_SIDED|95.0|-0.83|0.22||p-value is for Interference of Pain, Mood, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.22|-0.83|0.252
82432914|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.149|TWO_SIDED|95.0|-0.72|0.11||p-value is for Interference of Pain,Walking Ability, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.11|-0.72|0.149
82432915|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.367|TWO_SIDED|95.0|-0.71|0.26||p-value is for Interference of Pain, Normal Work, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.26|-0.71|0.367
82432916|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.395|TWO_SIDED|95.0|-0.59|0.24||p-value is for Interference of Pain, Relations with Others, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.24|-0.59|0.395
82432917|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.731|TWO_SIDED|95.0|-0.63|0.44||p-value is for Interference of Pain, Sleep, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.44|-0.63|0.731
82432918|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.186|TWO_SIDED|95.0|-0.85|0.17||p-value is for Interference of Pain, Enjoyment of Life, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.17|-0.85|0.186
82432919|NCT00803361|164575162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.22|TWO_SIDED|95.0|-0.67|0.16||p-value is for Mean Interference Score, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.16|-0.67|0.220
82432920|NCT00803361|164575163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.076|TWO_SIDED|95.0|-1.29|0.06||p-value is for symptoms have disrupted your work/schoolwork - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.06|-1.29|0.076
82432921|NCT00803361|164575163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.14|TWO_SIDED|95.0|-1.16|0.17||p-value is for symptoms disrupted social/leisure - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.17|-1.16|0.140
82452555|NCT03828019|164611845|SUPERIORITY||Ratio of odds ratios|0.55||||0.028|TWO_SIDED|95.0|0.31|0.94|||Regression, Logistic||estimate is the ratio of odds ratios - OR ADA / OR CID. Value less than 1 indicates ADA is better at reducing macular edema.|Mixed effects models with a log link were used to assess treatment differences . The outcome measure was the odds ratio of having macular edema (OCT central subfield thickness \> 300 um) at 12 months compared to baseline (BL). The treatment effect was the ratio of Odds ratios (ADA/CID) at 12 months. Values less than one indicate improvement in macular edema for the ADA treatment group relative to the CID group. Decrease in subfield thickness is good||0.94|0.31|0.028
82452556|NCT03828019|164611846|SUPERIORITY||Risk Ratio (RR)|1.1||||0.76|TWO_SIDED|95.0|0.61|1.98|||negative binomial model|||||1.98|0.61|0.76
82452557|NCT03828019|164611847|SUPERIORITY||Cox Proportional Hazard|0.16||||0.014|TWO_SIDED|95.0|0.04|0.7|||Regression, Cox|||. Kaplan Meier techniques and Cox proportional hazards models were used to evaluate time to event outcomes||0.70|0.04|0.014
82452558|NCT03828019|164611848|SUPERIORITY||Cox Proportional Hazard|0.89||||0.74|TWO_SIDED|95.0|0.43|1.82|||Regression, Cox|||||1.82|0.43|0.74
82452559|NCT03828019|164611849|SUPERIORITY||Odds Ratio (OR)|0.76||||0.35|TWO_SIDED|95.0|0.43|1.34|||Ratio of odds ratios||Treatment comparison is the ratio of the odds ratios for each treatment group (ADA/CID) at 12 months. Values greater than one indicate greater improvement in health for the ADA treatment group relative to the CID group.|||1.34|0.43|0.35
82452560|NCT03828019|164611850|SUPERIORITY||Mean Difference (Net)|1.39||||0.24|TWO_SIDED|95.0|-0.95|3.73|||Mixed Models Analysis|||||3.73|-0.95|0.24
82452561|NCT03828019|164611851|SUPERIORITY||Mean Difference (Net)|0.59||||0.7|TWO_SIDED|95.0|-2.43|3.61|||Mixed Models Analysis|||||3.61|-2.43|0.70
82452562|NCT03828019|164611852|SUPERIORITY||Mean Difference (Net)|1.6||||0.28|TWO_SIDED|95.0|-1.4|4.6|||Mixed Models Analysis|||||4.6|-1.4|0.28
82652271|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.484||||0.0023|TWO_SIDED|95.0|-0.793|-0.175||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.175|-0.793|0.0023
82432922|NCT00803361|164575163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.087|TWO_SIDED|95.0|-1.14|0.08||p-value is for symptoms disrupted family life - change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.08|-1.14|0.087
82452563|NCT03828019|164611853|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.009|TWO_SIDED|95.0|0.07|0.67|||Regression, Cox|||||0.67|0.07|0.009
82452564|NCT02343406|164611855|OTHER||Cox Proportional Hazard|0.71|||=|0.062|TWO_SIDED|95.0|0.5|1.02||2-sided|Log Rank|||Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||1.02|0.5|= 0.062
82432923|NCT00803361|164575163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.083|TWO_SIDED|95.0|-3.46|0.21||p-value is for Global Functional Impairment Total Score - change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.21|-3.46|0.083
82432924|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.32||||0.063|TWO_SIDED|95.0|-10.93|0.3||p-value is for Severity of Overall Pain, Past Week, Change|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||0.30|-10.93|0.063
82432925|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.66|TWO_SIDED|95.0|-6.64|4.22||p-value is for Severity of Headaches, Past Week, Change.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||4.22|-6.64|0.660
82432926|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.03||||0.025|TWO_SIDED|95.0|-11.3|-0.76||p-value is for Severity of Back Pain, Past Week, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-0.76|-11.30|0.025
82452565|NCT02343406|164611855|OTHER||Cox Proportional Hazard|1.04|||=|0.835|TWO_SIDED|95.0|0.73|1.48||2-sided|Log Rank|||Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||1.48|0.73|= 0.835
82452566|NCT02343406|164611856|OTHER||Cox Proportional Hazard|0.77|||=|0.123|TWO_SIDED|95.0|0.55|1.07||2-sided|Log Rank|||||1.07|0.55|= 0.123
82452567|NCT02343406|164611856|OTHER||Cox Proportional Hazard|1.31|||=|0.117|TWO_SIDED|95.0|0.93|1.84||2-sided|Log Rank|||||1.84|0.93|= 0.117
82452568|NCT02343406|164611864|OTHER||Odds Ratio (OR)|3.1|||=|0.06|TWO_SIDED|95.0|0.6|16.16||2-sided|Cochran-Mantel-Haenszel|||Comparison is based on Cochran-Mantel-Haenszel method with stratification factors. Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||16.16|0.6|= 0.06
82537728|NCT01018511|164774594|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.196|TWO_SIDED|95.0|-0.9|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.2|-0.9|0.196
82537729|NCT01018511|164774595|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.009|TWO_SIDED|95.0|-0.9|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.1|-0.9|0.009
82652272|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.079||||0.6033|TWO_SIDED|95.0|-0.378|0.22||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.220|-0.378|0.6033
82452569|NCT02343406|164611864|OTHER||Odds Ratio (OR)|1.21|||=|0.767|TWO_SIDED|95.0|0.12|12.49||2-sided|Cochran-Mantel-Haenszel|||Comparison is based on Cochran-Mantel-Haenszel method with stratification factors. Stratified at randomization by regions of the world (North America, Europe and Australia, Asia/Other Regions), WHO performance status (0, \> 0), timing of relapse (\< 16 weeks, ≥ 16 weeks after first day of last TMZ cycle).||12.49|0.12|= 0.767
82452570|NCT02343406|164611865|OTHER||Cox Proportional Hazard|0.67|||=|0.127|TWO_SIDED|95.0|0.4|1.13||2-sided|Log Rank|||||1.13|0.4|= 0.127
82452571|NCT02343406|164611865|OTHER||Cox Proportional Hazard|0.88|||=|0.64|TWO_SIDED|95.0|0.52|1.49||2-sided|Log Rank|||||1.49|0.52|= 0.64
82561821|NCT01163214|164832816|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||Comparison of arms for narcotic use on post operative day 2 as needed.||||0.51
82432927|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.93||||0.26|TWO_SIDED|95.0|-8.06|2.19||p-value is for Severity of Shoulder Pain, Past Week, Change.|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||2.19|-8.06|0.260
82432928|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.67||||0.145|TWO_SIDED|95.0|-8.61|1.28||p-value is for Pain Interference, Daily Activities, Change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||1.28|-8.61|0.145
82432929|NCT00803361|164575164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.15||||0.011|TWO_SIDED|95.0|-12.64|-1.66||p-value is for Pain During Waking Hours, Past Week, Change|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||-1.66|-12.64|0.011
82432930|NCT00803361|164575165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.068|TWO_SIDED|95.0|-1.72|0.06||p-value is for Change from Baseline|ANCOVA|Change = Treatment + Pooled Investigator + Baseline||||0.06|-1.72|0.068
82432931|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|||<|0.05|TWO_SIDED|95.0|1.8|10.8|||Regression, Linear|All Regression models adjusted for clustering by clinic, child age, change in age, BMI z-score, maternal education and occupation, and season|The change in the average vegetable consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||10.8|1.8|<0.05
82432932|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-13.6|10.3|||Regression, Linear||The change in the average fruit consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||10.3|-13.6|<0.05
82452572|NCT01100775|164611876|SUPERIORITY|||||||0.898|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Hits between Galantamine and Placebo Arms||||0.898
82452573|NCT01100775|164611876|SUPERIORITY|||||||0.701|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarms between Galantamine and Placebo Arms||||0.701
82452574|NCT01100775|164611876|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Hits between Galantamine and Placebo Arms||||0.16
82452575|NCT01100775|164611876|SUPERIORITY|||||||0.701|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms between Galantamine and Placebo Arms||||0.701
82452576|NCT01100775|164611877|SUPERIORITY|||||||0.161|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean Target Reaction Time between Galantamine and Placebo Arms||||0.161
82452577|NCT01100775|164611877|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP Practice Mean False Alarm Reaction Time between Galantamine and Placebo Arms||||0.028
82452578|NCT01100775|164611877|SUPERIORITY|||||||0.899|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean Target Reaction Time between Galantamine and Placebo Arms||||0.899
82452579|NCT01100775|164611877|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||Comparison of RVIP First Half Mean False Alarms Reaction Time between Galantamine and Placebo Arms||||0.521
82452580|NCT01100775|164611878|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean total amount offered during the trust game between the galantamine and placebo groups||||0.67
82452581|NCT01100775|164611879|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean correct responses between galantamine and placebo||||0.32
82452582|NCT01100775|164611880|SUPERIORITY|||||||0.659|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 1 between galantamine and placebo||||0.659
82452583|NCT01100775|164611880|SUPERIORITY|||||||0.541|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 2 between galantamine and placebo||||0.541
82452584|NCT01100775|164611880|SUPERIORITY|||||||0.838|||||||Wilcoxon (Mann-Whitney)|||Comparison of the number of correct response on Trial 3 between galantamine and placebo||||0.838
82452585|NCT01100775|164611881|SUPERIORITY|||||||0.548|||||||Wilcoxon (Mann-Whitney)|||A comparison the mean correct responses between galantamine and placebo||||0.548
82452586|NCT01100775|164611882|SUPERIORITY|||||||0.871|||||||Wilcoxon (Mann-Whitney)|||||||0.871
82452587|NCT01100775|164611883|SUPERIORITY|||||||0.626|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Affect between galantamine and placebo||||0.626
82452588|NCT01100775|164611883|SUPERIORITY|||||||0.234|||||||Wilcoxon (Mann-Whitney)|||Comparison of Overall Social Skill between galantamine and placebo||||0.234
82537730|NCT01018511|164774595|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.045|TWO_SIDED|95.0|-0.8|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.0|-0.8|0.045
82452589|NCT01100775|164611884|SUPERIORITY|||||||0.797|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total Responses between galantamine and placebo||||0.797
82452590|NCT01100775|164611884|SUPERIORITY|||||||0.669|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total Hits between galantamine and placebo||||0.669
82452591|NCT01100775|164611884|SUPERIORITY|||||||0.668|||||||Wilcoxon (Mann-Whitney)|||Comparison of Facial Affect Total False Alarms between galantamine and placebo||||0.668
82452592|NCT03182907|164611885|OTHER|The AUC0-inf of bezlotoxumab in Cohort 1 was compared to the AUC0-inf of bezlotoxumab in adults using an analysis of variance (ANOVA) model. The comparison adult PK dataset used was based on participants from 2 adult trials (NCT01241552 and NCT01513239) as a historical control.|Geometric Mean Ratio (GMR)|1.06|||||TWO_SIDED|90.0|0.95|1.18|||||GMR was calculated as the Cohort 1 geometric mean (GM) AUC0-inf / Adult GM AUC0-inf.|||1.18|0.95|
82561822|NCT01163214|164832817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 1 morning.||||<0.001
82561823|NCT01163214|164832817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 1 afternoon.||||<0.001
82537731|NCT01018511|164774595|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.4|-0.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.7|-1.4|< 0.001
82432933|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||<|0.05|TWO_SIDED|95.0|-5.4|6.5|||Regression, Linear||The change in the average water consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||6.5|-5.4|<0.05
82432934|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|||<|0.05|TWO_SIDED|95.0|-8.9|1.1|||Regression, Linear||The change in the average sweet snacks consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-8.9|<0.05
82432935|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED|95.0|-0.5|1.1|||Regression, Linear||The change in the average fast food consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-0.5|<0.05
82432936|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-0.5|0.0|||Regression, Linear||The change in the average savory snacks consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.0|-0.5|<0.05
82432937|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.05|TWO_SIDED|95.0|-4.9|3.4|||Regression, Linear||The change in the average sugar-sweetened beverage consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||3.4|-4.9|<0.05
82432938|NCT01539070|164575167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.05|TWO_SIDED|95.0|-8.4|4.1|||Regression, Linear||The change in the average added sugar in beverage consumption from baseline to 3 months, the intervention group compared with the usual care group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||4.1|-8.4|<0.05
82432939|NCT01539070|164575168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|||<|0.05|TWO_SIDED|95.0|-29.1|5.5|||Regression, Linear|All Regression models adjusted for clustering by clinic, child age, change in age, BMI z-score, maternal education and occupation, and season|The change in mean physical activity between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI) are reported.||5.5|-29.1|<0.05
82452593|NCT03182907|164611885|OTHER|The AUC0-inf of bezlotoxumab in Cohort 2 was compared to the AUC0-inf of bezlotoxumab in adults using an analysis of variance (ANOVA) model. The comparison adult PK dataset used was based on participants from 2 adult trials (NCT01241552 and NCT01513239) as a historical control.|GMR|0.82|||||TWO_SIDED|90.0|0.75|0.89|||||GMR was calculated as the Cohort 2 GM AUC0-inf / Adult GM AUC0-inf.|||0.89|0.75|
82452594|NCT03182907|164611886|OTHER|Miettinen \& Nurminen method was used to generate the estimated difference in percentage and associated 95% confidence intervals (CIs) in bezlotoxumab versus placebo arms.|Difference in percentage|-5.7|||||TWO_SIDED|95.0|-14.5|7.7||||||||7.7|-14.5|
82452595|NCT03182907|164611887|OTHER|Miettinen \& Nurminen method was used to generate the estimated difference in percentage and associated 95% CIs in bezlotoxumab versus placebo arms.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-9.7|3.5||||||||3.5|-9.7|
82561824|NCT01163214|164832817|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 2 morning.||||0.002
82561825|NCT01163214|164832817|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for postoperative day 2 afternoon.||||0.97
82652273|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.35||||0.0222|TWO_SIDED|95.0|-0.65|-0.05||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.050|-0.650|0.0222
82452596|NCT03182907|164611888|OTHER|Miettinen and Nurminen method stratified by age cohort (12 to \<18 years of age, 1 to \<12 years of age) with a Cochran-Mantel-Haenszel weight was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|-3.7|||=|0.5701|TWO_SIDED|95.0|-20.0|8.0|||Stratified Miettinen and Nurminen method|||||8.0|-20.0|= 0.5701
82452597|NCT03182907|164611889|OTHER|Miettinen and Nurminen method stratified by age cohort (12 to \<18 years of age, 1 to \<12 years of age) with a Cochran-Mantel-Haenszel weight was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|0.8|||=|0.9165|TWO_SIDED|95.0|-11.8|17.6|||Stratified Miettinen and Nurminen method|||||17.6|-11.8|= 0.9165
82452598|NCT03182907|164611890|OTHER|Unstratified Miettinen and Nurminen method was used to generate the treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted Difference|-3.1|||=|0.6542|TWO_SIDED|95.0|-19.9|9.0|||Unstratified Miettinen & Nurminen method|||||9.0|-19.9|= 0.6542
82452599|NCT03182907|164611891|OTHER|Unstratified Miettinen and Nurminen method was used to generate treatment difference, associated 95% CIs and a 2-sided p-value.|Adjusted difference|0.1|||=|0.9873|TWO_SIDED|95.0|-13.0|17.4|||Unstratified Miettinen & Nurminen method|||||17.4|-13.0|= 0.9873
82452600|NCT00112125|164611897|NON_INFERIORITY|The primary safety analysis was a test of the non-inferiority of CCM therapy compared to OMT with respect to the proportion of subjects experiencing death or hospitalization within 50 weeks using the Blackwelder non-inferiority test12 with a prespecified non-inferiority margin of 0.125.||||||0.31|||||||Fisher Exact|||||||0.31
82452601|NCT00112125|164611898|NON_INFERIORITY|The noninferiority margin was selected to be 12.5% and α was set at .05, which resulted in a sample size of 198 subjects per group. A percentage of subjects (∼7%) were expected to be lost to followup, so that a total sample size of 428 subjects (214 per group) was selected.||||||0.125|||||||Blackwelder|||||||0.125
82452602|NCT02058563|164611903|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.91|1.11|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 1790.2 (LL=1669.6;UL=1919.5) and 1781.5 (LL=1661.8;UL=1909.7) respectively|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed||1.11|0.91|
82432940|NCT01539070|164575168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|95.0|-0.2|0.5|||Regression, Linear||The change in mean sleep time between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.5|-0.2|<0.05
82452603|NCT02058563|164611904|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.05|||||TWO_SIDED|95.0|0.96|1.16|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 113.5 (LL=106.0;UL=121.6) and 107.8 (LL=100.7;UL=115.4) respectively.|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed.||1.16|0.96|
82452604|NCT02058563|164611905|NON_INFERIORITY_OR_EQUIVALENCE|Criteria for the determination of non-inferiority for measles, mumps, and rubella viruses: Lower limit (LL) of the 2-sided 95% Confidence Interval (CI) on GMC ratio (INV\_MMR over COM\_MMR) was to be equal to or above 0.67 for anti-measles, anti-mumps, and anti rubella antibodies.|Adjusted GMC ratio|1.02|||||TWO_SIDED|95.0|0.93|1.11|||||Number of subjects in the INV-MMR Group and in the COM-MMR Group considered for calculating the adjusted GMC ratio, are respectively 432 and 435 and adjusted GMCs = 76.1 (LL=71.5;UL=81.0) and 74.6 (LL=70.2;UL=79.4) respectively.|Non-inferiority of INV\_MMR vaccine to COM\_MMR vaccine in terms of Geometric Mean Concentration (GMCs) for anti measles, anti mumps and anti rubella antibodies at Day 42.The 95% CI for adjusted geometric mean concentrations (GMCs) and the adjusted GMC ratio were obtained using an ANCOVA model on the logarithm-transformed concentrations including the vaccine group (for adjusted GMC ratio) as fixed effect, gender, age and country groups as continuous effects and the pre-vaccination log-transformed||1.11|0.93|
82452605|NCT01153724|164611943|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|113.29|STANDARD_DEVIATION|13.6||0.0101|TWO_SIDED|90.0|105.893|121.197||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol||121.197|105.893|0.0101
82537732|NCT01018511|164774595|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.9|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.1|-0.9|0.011
82561826|NCT01163214|164832818|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||Comparison between the arms for length of stay in the hospital.||||0.02
82652274|NCT02637557|165019489|SUPERIORITY||LS Mean Difference|-0.482||||0.0019|TWO_SIDED|95.0|-0.785|-0.18||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.180|-0.785|0.0019
82537733|NCT01018511|164774595|SUPERIORITY_OR_OTHER_LEGACY||Least squares men difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.3|-0.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.5|-1.3|< 0.001
82537734|NCT01018511|164774596|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|-0.5|-0.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.1|-0.5|0.008
82432941|NCT01539070|164575168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||<|0.05|TWO_SIDED|95.0|-4.4|1.1|||Regression, Linear||The change in mean screen time between the baseline measurement and 3 months, the intervention group compared with the control group|In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||1.1|-4.4|<0.05
82432942|NCT01539070|164575170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.05|TWO_SIDED|95.0|-0.04|0.35|||Regression, Linear|||In intent-to-treat analyses, we used unadjusted and adjusted multivariate regression models, to examine differences from baseline to 3 months between the intervention and usual care groups. For continuous outcomes, we used linear regression models, and for dichotomous outcomes, we used logistic regression models. To account for clustering by practices, we performed generalized linear mixed models. The Estimator (Est) and Confidence Interval 95% (95% CI)are reported.||0.35|-0.04|<0.05
82432943|NCT02473471|164575187|OTHER|The sample size was calculated based on a type I error frequency of 5%. According to the power analysis and assuming a large effect size difference between groups (effect size= 0.8), the power analysis yielded 28 subjects per group at a conventional alpha level (p = 0.05) and desired power (1 - β) of 0.90||||||0.77|||||||t-test, 2 sided|||||||0.77
82432944|NCT02473471|164575188|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.50
82432945|NCT02473471|164575189|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
82432946|NCT02473471|164575190|OTHER|||||||0.56|||||||t-test, 2 sided|||||||0.56
82432947|NCT02473471|164575191|OTHER|||||||0.88|||||||t-test, 2 sided|||||||0.88
82432948|NCT02473471|164575192|OTHER|||||||0.74||||||There was no significant difference in tooth movement between control and MOP sides from baseline to 1st, 2nd and 3rd months. P Value \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.74
82432949|NCT02473471|164575193|OTHER|||||||0.59|||||||t-test, 2 sided|||Root length at baseline.||||0.59
82432950|NCT02473471|164575193|OTHER|||||||0.48|||||||t-test, 2 sided|||Root length at 3 months||||0.48
82432951|NCT02473471|164575194|OTHER|||||||0.388|||||||t-test, 2 sided|||Immediate after intervention||||0.388
82432952|NCT02473471|164575194|OTHER|||||||0.092|||||||t-test, 2 sided|||1 hour after intervention||||0.092
82432953|NCT02473471|164575194|OTHER|||||||0.1|||||||t-test, 2 sided|||12 hour after intervention||||0.100
82432954|NCT02473471|164575194|OTHER|||||||0.302|||||||t-test, 2 sided|||Day 1 after intervention||||0.302
82432955|NCT02473471|164575194|OTHER|||||||0.582|||||||t-test, 2 sided|||Day 3 after intervention||||0.582
82432956|NCT02473471|164575194|OTHER|||||||0.743|||||||t-test, 2 sided|||Day 5 after intervention||||0.743
82432957|NCT02473471|164575194|OTHER|||||||0.809|||||||t-test, 2 sided|||Day 7 after intervention||||0.809
82432958|NCT02473471|164575195|OTHER|||||||0.09|||||||t-test, 2 sided|||Day 1||||0.09
82432959|NCT02473471|164575195|OTHER|||||||0.29|||||||t-test, 2 sided|||Day 3||||0.29
82432960|NCT02473471|164575195|OTHER|||||||0.57|||||||t-test, 2 sided|||Day 5||||0.57
82432961|NCT02473471|164575195|OTHER|||||||0.82|||||||t-test, 2 sided|||Day 7||||0.82
82432962|NCT02473471|164575196|OTHER|||||||0.27|||||||t-test, 2 sided|||Day 1||||0.27
82432963|NCT02473471|164575196|OTHER|||||||0.37|||||||t-test, 2 sided|||Day 3||||0.37
82432964|NCT02473471|164575196|OTHER|||||||0.33|||||||t-test, 2 sided|||Day 5||||0.33
82432965|NCT02473471|164575196|OTHER||||||>|0.05|||||||t-test, 2 sided|||Day 7||||> 0.05
82432966|NCT02473471|164575197|OTHER|||||||0.05|||||||t-test, 2 sided|||Day 1||||0.05
82432967|NCT02473471|164575197|OTHER|||||||0.47|||||||t-test, 2 sided|||Day 3||||0.47
82432968|NCT02473471|164575197|OTHER|||||||0.09|||||||t-test, 2 sided|||Day 5||||0.09
82432969|NCT02473471|164575197|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
82432970|NCT02473471|164575198|OTHER|||||||0.18|||||||t-test, 2 sided|||Day 1||||0.18
82432971|NCT02473471|164575198|OTHER|||||||0.57|||||||t-test, 2 sided|||Day 3||||0.57
82432972|NCT02473471|164575198|OTHER|||||||0.3|||||||t-test, 2 sided|||Day 5||||0.30
82432973|NCT02473471|164575198|OTHER|||||||0.56|||||||t-test, 2 sided|||Day 7||||0.56
82432974|NCT02473471|164575199|OTHER||||||<|0.05|||||||Descriptive statistics|||||||< 0.05
82432975|NCT01181804|164575223|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|1.07|1.15|||ANOVA|||||1.15|1.07|
82432976|NCT01181804|164575224|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.43|||||TWO_SIDED|90.0|1.32|1.54|||ANOVA|||||1.54|1.32|
82537735|NCT01018511|164774596|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.021|TWO_SIDED|95.0|-0.4|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.0|-0.4|0.021
82432977|NCT01181804|164575225|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.1|||||TWO_SIDED|95.0|1.06|1.14|||ANOVA|||||1.14|1.06|
82432978|NCT01181804|164575226|NON_INFERIORITY_OR_EQUIVALENCE|Comparison of boceprevir tablet versus capsule used a mixed-effects model with fixed effects for formulation, sequence, and period, and a random effect for participant within sequence. The geometric mean ratio (GMR) of boceprevir tablet to boceprevir capsule is presented with two-sided 90% CIs. Equivalence of formulations was signified by the GMR falling within prespecified bioequivalence bounds.|Least Squares Geometric mean ratio|1.15|||||TWO_SIDED|90.0|1.09|1.21|||ANOVA|||||1.21|1.09|
82432979|NCT03711370|164575253|OTHER|Repeated measures ANOVA was used to model between-subject effects of group (Clear versus Opaque), within-subjects effects of use of clear versus opaque bottles during the feeding observations, and potential group by bottle type interactions on infant intake during post-test feeding observations.||||||0.76||||||Statistical significance was defined as p \< 0.05.|Mixed Models Analysis|Models controlled for pre-test values, infant sex and age, time since last feeding, and whether the assessment was in-person or remote.||||||0.76
82432980|NCT03711370|164575254|OTHER|Repeated measures ANOVA was used to model between-subject effects of group (Clear versus Opaque), within-subjects effects of use of clear versus opaque bottles during the feeding observations, and potential group by-bottle type interactions on maternal sensitivity during post-test feeding observations.||||||0.64||||||Statistical significance was defined as p \< 0.05.|Mixed Models Analysis|Models controlled for pre-test values, infant sex and age, time since last feeding, and whether the assessment was in-person or remote.||||||0.64
82432981|NCT03711370|164575255|OTHER|General linear models were used to compare post-test weight-for-length z-scores (WLZ).||||||0.02||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|These models controlled for baseline values (i.e., baseline WLZ), infant sex and age, and whether the assessment was in-person or remote.||||||0.02
82432982|NCT03711370|164575256|OTHER|General linear models were used to compare post-test waist circumference for the Clear versus Opaque groups.||||||0.07||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|Model controlled for baseline values (i.e., waist circumference), infant sex and age, and whether the assessment was in-person or remote.||||||0.07
82432983|NCT03711370|164575257|OTHER|General linear models were used to compare post-test triceps skinfold z-scores for the Clear versus Opaque groups.||||||0.7||||||Statistical significance was defined as p \< 0.05.|Regression, Linear|Model controlled for baseline values (i.e.,triceps skinfolds z-scores), infant sex and age, and whether the assessment was in-person or remote.||||||0.70
82432984|NCT01625416|164575363|SUPERIORITY|||||||0.05|||||||Chi-squared|Chi square (2) =5.9, p=0.05|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.05
82432985|NCT01625416|164575364|SUPERIORITY|||||||0.69|||||||Chi-squared|Chi square(2) = 0.74, p = 0.69|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.69
82432986|NCT01625416|164575367|SUPERIORITY|||||||0.97||||||Chi square (2) = 0.06, p = 0.97|Chi-squared||||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.97
82432987|NCT01625416|164575368|SUPERIORITY|||||||0.71|||||||Chi-squared|Chi-Square (2) =0.68, p=0.71|||This chi-square analysis was derived from a mixed repeated measures model comparing intervention results with control results over 4 time points.|||0.71
82652275|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|0.143||||0.1922|TWO_SIDED|95.0|-0.072|0.357||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.357|-0.072|0.1922
82432988|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-3.62|-1.22||||||Day 8 Cohort A: TIP, Pooled PBO||-1.22|-3.62|
82432989|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.58|||TWO_SIDED|95.0|-3.3|-0.98||||||Day 8 Cohort A: TIP/PBO, Pooled PBO||-0.98|-3.30|
82432990|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-3.2|-0.68||||||Day 8 Cohort B: TIP, Pooled PBO||-0.68|-3.20|
82537736|NCT01018511|164774596|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.6|< 0.001
82432991|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.3|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-4.38|-2.15||||||Day 8 Cohort B: TIP/PBO, Pooled PBO|LS Mean Diff (SE) vs pooled placebo|-2.15|-4.38|
82432992|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-4.0|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|-5.06|-2.88||||||Day 8 Cohort C: TIP, Pooled PBO||-2.88|-5.06|
82432993|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.4|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.57|-2.14||||||Day 8 Cohort C: TIP/PBO, Pooled PBO||-2.14|-4.57|
82432994|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|95.0|-3.66|-1.89||||||Day 8: Pooled TIP, Pooled PBO||-1.89|-3.66|
82432995|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.9|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|95.0|-3.79|-2.05||||||Day 8: Pooled TIP/PBO, Pooled PBO||-2.05|-3.79|
82432996|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-4.28|-1.31||||||Day 29 Cohort A: TIP, Pooled PBO||-1.31|-4.28|
82432997|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-4.03|-0.67||||||Day 29 Cohort A: TIP/PBO, Pooled PBO||-0.67|-4.03|
82432998|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.3|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-4.04|-0.52||||||Day 29 Cohort B: TIP, Pooled PBO||-0.52|-4.04|
82432999|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.5|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-5.16|-1.85||||||Day 29 Cohort B: TIP/PBO, Pooled PBO||-1.85|-5.16|
82452606|NCT01153724|164611944|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|108.78|STANDARD_DEVIATION|15.5||0.0009|TWO_SIDED|90.0|101.59|116.487||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol||116.487|101.590|0.0009
82452607|NCT01153724|164611944|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean|85.98|STANDARD_DEVIATION|19.4||0.0711|TWO_SIDED|90.0|79.277|93.253||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol glucuronide||93.253|79.277|0.0711
82452608|NCT01153724|164611947|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|114.83|STANDARD_DEVIATION|33.5||0.1539|TWO_SIDED|90.0|99.94|131.932||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol||131.932|99.940|0.1539
82452609|NCT01153724|164611947|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|74.48|STANDARD_DEVIATION|1.068||0.8574|TWO_SIDED|90.0|66.619|83.266||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol for the category Olodaterol glucuronide||83.266|66.619|0.8574
82452610|NCT01153724|164611948|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|74.08|STANDARD_DEVIATION|14.6||0.9646|TWO_SIDED|90.0|69.105|79.418||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Fluconazole and Olodaterol||79.418|69.105|0.9646
82452611|NCT03334812|164611951|SUPERIORITY||Mean Difference (Net)|0.18||||0.1219|TWO_SIDED|95.0|-0.15|0.51|||Mixed Effect Model Repeat Measurement|||SCD/HNWB||0.51|-0.15|0.1219
82452612|NCT03334812|164611951|SUPERIORITY||Mean Difference (Net)|-0.01||||0.5438|TWO_SIDED|95.0|-0.28|0.25|||Mixed Effect Model Repeat Measurement|||DTBT/HWB||0.25|-0.28|0.5438
82452613|NCT03334812|164611952|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.3067|TWO_SIDED|95.0|-0.19|0.31|||Mixed Effect Model Repeat Measurement|||||0.31|-0.19|0.3067
82452614|NCT03334812|164611954|SUPERIORITY||Mean Difference (Net)|26.23||||0.0404|TWO_SIDED|95.0|-3.86|56.32|||Mixed Effect Model Repeat Measurement|||Week 4||56.32|-3.86|0.0404
82452615|NCT03334812|164611954|SUPERIORITY||Mean Difference (Net)|27.82||||0.1381|TWO_SIDED|95.0|-26.5|82.1|||Mixed Effect Model Repeat Measurement|||Week 12||82.10|-26.5|0.1381
82452616|NCT03334812|164611954|SUPERIORITY||Mean Difference (Net)|23.8||||0.1168|TWO_SIDED|96.0|-19.3|66.89|||Mixed Models Analysis|||Week 28 (EOS)||66.89|-19.3|0.1168
82537737|NCT01018511|164774596|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-0.2|-0.6|< 0.001
82652276|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|0.072||||0.5091|TWO_SIDED|95.0|-0.143|0.288||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.288|-0.143|0.5091
82452617|NCT03334812|164611955|SUPERIORITY||Mean Difference (Net)|-0.01||||0.5175|TWO_SIDED|95.0|-0.26|0.25|||Mixed Effect Model Repeat Measurement|||SCD/HNWB - Week 12||0.25|-0.26|0.5175
82452618|NCT03334812|164611955|SUPERIORITY||Mean Difference (Net)|0.19||||0.1476|TWO_SIDED|95.0|-0.22|0.6|||Mixed Effect Model Repeat Measurement|||SCD/HNWB - Week 28||0.60|-0.22|0.1476
82452619|NCT00367835|164611960|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82452620|NCT00367835|164611961|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82452621|NCT00367835|164611962|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82452622|NCT00367835|164611963|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82452623|NCT00367835|164611964|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82452624|NCT00367835|164611965|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||ANCOVA|||||||0.002
82452625|NCT00367835|164611966|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82452626|NCT02697435|164611971|SUPERIORITY||||||<|0.05||||||P-value is calculated.|Mixed Models Analysis|||||||<0.05
82452627|NCT00870545|164611973|SUPERIORITY_OR_OTHER|||||||0.003||||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Change in scores measured across three time points (baseline, 6 and 12 months)||||.003
82452628|NCT00870545|164611974|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 and 12 months)||||.20
82452629|NCT00870545|164611975|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Change in scores measured across three time points (baseline, 6 and 12 months)||||<.001
82452630|NCT00870545|164611976|SUPERIORITY_OR_OTHER|||||||0.26||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 months, 12 months)||||.26
82452631|NCT00870545|164611977|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in scores over time (baseline, 6 months, and 12 months)||||.04
82452632|NCT00870545|164611978|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P values less than or equal to .05 were considered statistically significant, and those between .05 and .10 were considered to document trends that approached, but did not attain, statistical significance.|Mixed Models Analysis|||Analysis was change in score over time (baseline, 6 months, and 12 months)||||.10
82452633|NCT02178696|164611979|OTHER||Mean Difference (Net)|0.12|STANDARD_DEVIATION|0.31|<|0.001|TWO_SIDED|95.0|0.016|0.23||A p\<0.001 was established for regions a priori hypothesized (e.g. nucleus accumbens).|t-test, 2 sided|||||0.23|0.016|<0.001
82452634|NCT00445770|164611988|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Based on rank transformed data: rank of change = rank baseline+treatment +pooled study center+prior methotrexate use. If overall treatment effect statistically significant, 3 pairwise comparisons conducted, otherwise no further testing was made.|ANCOVA|||It was estimated that with 180 participants per group, there would be 81% power for the overall test. With this sample size and 0.05 (2-sided) type I error, there was 88% power to detect a 1.33 difference for the change of mTSS from baseline to 52 weeks between the etanercept 25 mg twice weekly group and Methotrexate group, assuming that the common standard deviation of the change of mTSS from baseline was 4.||||<0.0001
82452635|NCT00445770|164611988|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
82452636|NCT00445770|164611988|NON_INFERIORITY_OR_EQUIVALENCE|An outcome showing that etanercept 10 mg was superior to methotrexate and the presence of numerical difference ≤0.5 mTSS units between etanercept 25 mg and etanercept 10 mg would support non-inferiority for the 2 etanercept treatments.||||||0.2634|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||0.2634
82452637|NCT00445770|164611989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
82452638|NCT00445770|164611989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||<0.0001
82452639|NCT00445770|164611989|SUPERIORITY_OR_OTHER|||||||0.2248|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||||||0.2248
82537738|NCT01018511|164774596|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.139|TWO_SIDED|95.0|-0.3|0.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.0|-0.3|0.139
82452640|NCT00445770|164611990|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
82452641|NCT00445770|164611990|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
82537739|NCT01018511|164774598|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.14||0.068|TWO_SIDED|95.0|-4.3|0.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||0.2|-4.3|0.068
82652277|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|0.037||||0.7394|TWO_SIDED|95.0|-0.181|0.254||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.254|-0.181|0.7394
82452642|NCT00445770|164611990|SUPERIORITY_OR_OTHER|||||||0.726|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.7260
82452643|NCT00445770|164611990|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
82452644|NCT00445770|164611990|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
82452645|NCT00445770|164611990|SUPERIORITY_OR_OTHER|||||||0.5717|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.5717
82452646|NCT00445770|164611991|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||<0.0001
82452647|NCT00445770|164611991|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.0013
82452648|NCT00445770|164611991|SUPERIORITY_OR_OTHER|||||||0.0186|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 24||||0.0186
82452649|NCT00445770|164611991|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||<0.0001
82452650|NCT00445770|164611991|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.0006
82452651|NCT00445770|164611991|SUPERIORITY_OR_OTHER|||||||0.1123|TWO_SIDED|||||P-values from ANCOVA model based on rank transformed data: rank of change = rank baseline + treatment + pooled study center + prior methotrexate use.|ANCOVA|||Week 52||||0.1123
82537740|NCT01018511|164774598|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.7|STANDARD_DEVIATION|1.15||0.02|TWO_SIDED|95.0|-4.9|-0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||-0.4|-4.9|0.020
82452652|NCT00445770|164611992|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||<0.0001
82537741|NCT01018511|164774598|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.9|-2.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||-2.5|-6.9|< 0.001
82648794|NCT03877237|165013341|SUPERIORITY||Hodges-Lehmann median diff. vs placebo|-0.16||||0.19748|TWO_SIDED|95.0|-0.55|0.22||Total time spent in LVPA was not tested for statistical significance and the p-value is considered nominal because the test for 6MWD was not statistically significant.|Rank ANCOVA|Model includes baseline rank of outcome variable as a covariate, treatment group as a factor, and is stratified by T2DM status at randomization.||"For the secondary efficacy endpoint, total time spent in LVPA, the testing hypothesis is~* H0: m(r(A)) = m(r(C)) versus~* H1: m(r(A)) ≠ m(r(C)) Where H0 and H1 are the null and alternative hypotheses, respectively, and m(r(A)) and m(r(C)) represent the median of the ranked changes in secondary efficacy endpoint, total time spent in LVPA, from baseline to End of study among patients receiving dapagliflozin (Active) and placebo (Control) treatment, respectively."||0.22|-0.55|0.19748
82537742|NCT01018511|164774598|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.13|<|0.001|TWO_SIDED|95.0|-7.5|-3.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||-3.1|-7.5|< 0.001
82537743|NCT01018511|164774598|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.14||0.022|TWO_SIDED|95.0|-4.8|0.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||0.4|-4.8|0.022
82537744|NCT01018511|164774599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.0|STANDARD_ERROR_OF_MEAN|1.16||0.011|TWO_SIDED|95.0|0.7|5.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs TOCAS.||5.2|0.7|0.011
82537745|NCT01018511|164774599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.5|STANDARD_ERROR_OF_MEAN|1.17||0.035|TWO_SIDED|95.0|0.2|4.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.8|0.2|0.035
82537746|NCT01018511|164774599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|5.1|STANDARD_ERROR_OF_MEAN|1.14|<|0.001|TWO_SIDED|95.0|2.8|7.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||7.3|2.8|< 0.001
82537747|NCT01018511|164774599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.6|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|95.0|2.3|6.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.8|2.3|< 0.001
82537748|NCT01018511|164774599|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.16||0.068|TWO_SIDED|95.0|-0.2|4.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.4|-0.2|0.068
82537749|NCT01018511|164774600|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.07||0.013|TWO_SIDED|95.0|0.5|4.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.7|0.5|0.013
82537750|NCT01018511|164774600|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.2|STANDARD_ERROR_OF_MEAN|1.08||0.043|TWO_SIDED|95.0|0.1|4.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.3|0.1|0.043
82537751|NCT01018511|164774600|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.4|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|2.4|6.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.5|2.4|< 0.001
82537752|NCT01018511|164774600|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|1.9|6.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||6.1|1.9|< 0.001
82452653|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||0.0002
82452654|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.3022|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=0.5||||0.3022
82537753|NCT01018511|164774600|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.8|STANDARD_ERROR_OF_MEAN|1.06||0.092|TWO_SIDED|95.0|-0.3|3.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||3.9|-0.3|0.092
82537754|NCT01018511|164774601|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.1|STANDARD_ERROR_OF_MEAN|1.21||0.011|TWO_SIDED|95.0|0.7|5.5||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||5.5|0.7|0.011
82537755|NCT01018511|164774601|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.2|STANDARD_ERROR_OF_MEAN|1.23||0.314|TWO_SIDED|95.0|-1.2|3.6||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.6|-1.2|0.314
82452655|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.0001
82648795|NCT02544633|165013372|SUPERIORITY|An exact test for single proportion (two-sided a=5%) will be performed to test H0: ORR \<=20% against H1: ORR \>20%.|Objective response rate|10.7||||0.94|TWO_SIDED|95.0|2.27|28.23|||exact test|||||28.23|2.27|0.94
82452656|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.0002
82452657|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=3.0||||0.3120
82452658|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use.|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0010
82452659|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.0285|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0285
82452660|NCT00445770|164611992|SUPERIORITY_OR_OTHER|||||||0.0433|TWO_SIDED|||||Stratified by pooled study center and prior methotrexate use|Cochran-Mantel-Haenszel|||Week 52 for progression \<=SDD||||0.0433
82537756|NCT01018511|164774601|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.6|STANDARD_ERROR_OF_MEAN|1.19||0.003|TWO_SIDED|95.0|1.2|5.9||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.9|1.2|0.003
82537757|NCT01018511|164774601|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|1.21||0.161|TWO_SIDED|95.0|-0.7|4.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.1|-0.7|0.161
82537758|NCT01018511|164774601|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.5|STANDARD_ERROR_OF_MEAN|1.21||0.708|TWO_SIDED|95.0|-1.9|2.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||2.8|-1.9|0.708
82537759|NCT01018511|164774602|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.83||0.043|TWO_SIDED|95.0|0.1|3.3||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.3|0.1|0.043
82537760|NCT01018511|164774602|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.84||0.12|TWO_SIDED|95.0|-0.3|3.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.0|-0.3|0.120
82537761|NCT01018511|164774602|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.82||0.003|TWO_SIDED|95.0|0.8|4.0||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||4.0|0.8|0.003
82648796|NCT02544633|165013372|SUPERIORITY||Objective response rate|15.0||||0.79|TWO_SIDED|95.0|3.21|37.89|||exact test|||||37.89|3.21|0.79
82452661|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.0032|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0032
82452662|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452663|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.1224|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.1224
82452664|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452665|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452666|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.8037|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.8037
82452667|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452668|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452669|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.5495|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.5495
82452670|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82537762|NCT01018511|164774602|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.83||0.014|TWO_SIDED|95.0|0.4|3.7||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate||Mean change vs placebo.||3.7|0.4|0.014
82537763|NCT01018511|164774602|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.83||0.384|TWO_SIDED|95.0|-0.9|2.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||2.4|-0.9|0.384
82648797|NCT02544633|165013372|SUPERIORITY||Objective response rate|25.0||||0.47|TWO_SIDED|95.0|3.19|65.09|||Exact Test|||||65.09|3.19|0.47
82648798|NCT02544633|165013372|SUPERIORITY||Objective response rate|0.0|||>|0.999|TWO_SIDED|95.0|0.0|26.46|||Exact test|||||26.46|0.00|>0.999
82452671|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452672|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.4948|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.4948
82452673|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452674|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452675|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.4663|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.4663
82452676|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452677|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452678|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.9357|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.9357
82452679|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452680|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452681|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.7439|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.7439
82452682|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452683|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452684|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.8611|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.8611
82452685|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82537764|NCT01018511|164774603|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.92||0.004|TWO_SIDED|95.0|0.8|4.4||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||4.4|0.8|0.004
82537765|NCT01018511|164774603|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|2.0|STANDARD_ERROR_OF_MEAN|0.93||0.035|TWO_SIDED|95.0|0.1|3.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs TOCAS.||3.8|0.1|0.035
82452686|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452687|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.6731|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.6731
82452688|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452689|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452690|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.2616|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.2616
82452691|NCT00445770|164611993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452692|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0001
82452693|NCT00445770|164611993|SUPERIORITY_OR_OTHER|||||||0.1158|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1158
82452694|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452695|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452696|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.4237|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.4237
82452697|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452698|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0002
82452699|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.5738|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.5738
82561827|NCT01163214|164832819|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for femoral nerve.||||0.49
82537766|NCT01018511|164774603|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|0.91|<|0.001|TWO_SIDED|95.0|2.2|5.8||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.8|2.2|< 0.001
82537767|NCT01018511|164774603|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|3.3|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|1.5|5.1||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||5.1|1.5|< 0.001
82537768|NCT01018511|164774603|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.4|STANDARD_ERROR_OF_MEAN|0.92||0.142|TWO_SIDED|95.0|-0.5|3.2||No adjustments to multiplicity were made.|Mixed Models Analysis|A mixed model, including treatment group and country as fixed factors, center as a random effect, and baseline as a covariate.||Mean change vs placebo.||3.2|-0.5|0.142
82648799|NCT02092961|165013389|SUPERIORITY_OR_OTHER||Treatment difference|-1.75||||0.022|TWO_SIDED|90.0|-2.75|-0.42||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||-0.42|-2.75|0.022
82433000|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-4.6|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-6.13|-3.09||||||Day 29 Cohort C: TIP, Pooled PBO||-3.09|-6.13|
82433001|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.1|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|95.0|-4.68|-1.52||||||Day 29 Cohort C: TIP/PBO, Pooled PBO||-1.52|-4.68|
82433002|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.2|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.43|-2.02||||||Day 29: Pooled TIP, Pooled PBO||-2.02|-4.43|
82433003|NCT02712983|164575404|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.0|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-4.19|-1.78||||||Day 29: Pooled TIP/PBO, Pooled PBO||-1.78|-4.19|
82433004|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-3.82|-0.36||||||Day 57 Cohort A: TIP, Pooled PBO||-0.36|-3.82|
82433005|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-2.21|1.29||||||Day 57 Cohort A: TIP/PBO, Pooled PBO||1.29|-2.21|
82433006|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.87|0.08||||||Day 57 Cohort B: TIP, Pooled PBO||0.08|-3.87|
82433007|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-3.34|0.16||||||Day 57 Cohort B: TIP/PBO, Pooled PBO||0.16|-3.34|
82433008|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.9|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-5.5|-2.22||||||Day 57 Cohort C: TIP, Pooled PBO||-2.22|-5.50|
82433009|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-3.26|0.41||||||Day 57 Cohort C: TIP/PBO, Pooled PBO||0.41|-3.26|
82433010|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-3.98|-1.25||||||Day 57: Pooled TIP, Pooled PBO||-1.25|-3.98|
82433011|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.2|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-2.5|0.19||||||Day 57: Pooled TIP/PBO, Pooled PBO||0.19|-2.50|
82433012|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.2|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-4.0|-0.38||||||Day 85 Cohort A: TIP, Pooled PBO||-0.38|-4.00|
82433013|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.81|0.13||||||Day 85 Cohort A: TIP/PBO, Pooled PBO||0.13|-3.81|
82433014|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.7|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-4.96|-0.53||||||Day 85 Cohort B: TIP, Pooled PBO||-0.53|-4.96|
82433015|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.6|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-5.44|-1.73||||||Day 85 Cohort B: TIP/PBO, Pooled PBO||-1.73|-5.44|
82433016|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.0|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-4.9|-1.07||||||Day 85 Cohort C: TIP, Pooled PBO||-1.07|-4.90|
82433017|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.66|-0.53||||||Day 85 Cohort C: TIP/PBO, Pooled PBO||-0.53|-4.66|
82433018|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-4.11|-1.17||||||Day 85: Pooled TIP, Pooled PBO||-1.17|-4.11|
82433019|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.7|STANDARD_ERROR_OF_MEAN|0.72|||TWO_SIDED|95.0|-4.12|-1.23||||||Day 85: Pooled TIP/PBO, Pooled PBO||-1.23|-4.12|
82433020|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-4.55|-1.08||||||Day 113 Cohort A: TIP, Pooled PBO||-1.08|-4.55|
82433021|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|0.1|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-1.61|1.71||||||Day 113 Cohort A: TIP/PBO, Pooled PBO||1.71|-1.61|
82433022|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.6|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-4.93|-0.29||||||Day 113 Cohort B: TIP, Pooled PBO||-0.29|-4.93|
82433023|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-3.62|-0.25||||||Day 113 Cohort B: TIP/PBO, Pooled PBO||-0.25|-3.62|
82433024|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-3.1|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-4.94|-1.3||||||Day 113 Cohort C: TIP, Pooled PBO||-1.30|-4.94|
82433025|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-4.37|-0.43||||||Day 113 Cohort C: TIP/PBO, Pooled PBO||-0.43|-4.37|
82433026|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-4.24|-1.45||||||Day 113: Pooled TIP, Pooled PBO||-1.45|-4.24|
82537769|NCT01018511|164774604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.874|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS (superiority test).||||0.874
82452700|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452701|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452702|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.1606|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.1606
82452703|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452704|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0016
82452705|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.2412|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.2412
82537770|NCT01018511|164774604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS (superiority test).||||0.240
82537771|NCT01018511|164774604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.324|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.324
82537772|NCT01018511|164774604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.043
82537773|NCT01018511|164774604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.407|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo (superiority test).||||0.407
82537774|NCT01018511|164774611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||<.001
82537775|NCT01018511|164774611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||<.001
82537776|NCT01018511|164774611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537777|NCT01018511|164774611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537778|NCT01018511|164774611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.058
82452706|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452707|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452708|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.5882|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.5882
82452709|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452710|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0001
82452711|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.2257|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.2257
82452712|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452713|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0003
82452714|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.2075|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2075
82537779|NCT01018511|164774612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.053
82537780|NCT01018511|164774612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.031
82537781|NCT01018511|164774612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537782|NCT01018511|164774612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537783|NCT01018511|164774612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.018
82537784|NCT01018511|164774613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.110
82537785|NCT01018511|164774613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs TOCAS.||||0.071
82537786|NCT01018511|164774613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537787|NCT01018511|164774613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||<.001
82537788|NCT01018511|164774613|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|TWO_SIDED|||||No adjustments for multiplicity were made.|Chi-squared|||Difference vs placebo.||||0.019
82537789|NCT00601965|164774641|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|Log rank test = 32.67, df = 3||||||<.001
82537790|NCT00601965|164774642|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|Beta = -0.48, 95% CI = -0.84 to -0.11||||||0.01
82537791|NCT02138916|164774643|SUPERIORITY||Rate ratio|0.96||||0.649|TWO_SIDED|95.0|0.8|1.15|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.15|0.8|0.6490
82561828|NCT01163214|164832819|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for common peroneal nerve.||||0.01
82452715|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452716|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0050
82452717|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0461|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0461
82648800|NCT02092961|165013389|SUPERIORITY_OR_OTHER||Treatment difference|0.5||||0.402|TWO_SIDED|90.0|-1.0|2.0||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||2.00|-1.00|0.402
82452718|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0002
82452719|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0101|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0101
82452720|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.2351|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.2351
82452721|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0002
82452722|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.1179|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.1179
82452723|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0214|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0214
82452724|NCT00445770|164611994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452725|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0790
82452726|NCT00445770|164611994|SUPERIORITY_OR_OTHER|||||||0.0168|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0168
82452727|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452728|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452729|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.6337|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.6337
82452730|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452731|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452732|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.7407|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.7407
82452733|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452734|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452735|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.3473|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.3473
82652278|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|0.073||||0.5845|TWO_SIDED|95.0|-0.189|0.334||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.334|-0.189|0.5845
82452736|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452737|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452738|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.7529|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.7529
82452739|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452740|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82452741|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.5216|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.5216
82452742|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452743|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452744|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.1078|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.1078
82537792|NCT02138916|164774643|SUPERIORITY||Risk Ratio (RR)|0.83||||0.0525|TWO_SIDED|95.0|0.69|1.0|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.00|0.69|0.0525
82537793|NCT02138916|164774644|SUPERIORITY||Risk Ratio (RR)|1.07||||0.5236|TWO_SIDED|95.0|0.86|1.34|||Negative binomial|Model includes treatment group, region, number of exacerbations in the previous year.||||1.34|0.86|0.5236
82537794|NCT02138916|164774644|SUPERIORITY||Risk Ratio (RR)|1.02||||0.8812|TWO_SIDED|95.0|0.82|1.27|||Negative binomial|Model includes treatment group, EOS cohort, region, number of exacerbations in the previous year.||||1.27|0.82|0.8812
82537795|NCT02138916|164774645|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.755|TWO_SIDED|95.0|-0.035|0.048|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.048|-0.035|0.7550
82537796|NCT02138916|164774645|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.3285|TWO_SIDED|95.0|-0.021|0.062|||Mixed Models Analysis|Model includes treatment group, baseline FEV1 value, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.062|-0.021|0.3285
82537797|NCT02138916|164774646|SUPERIORITY||Mean Difference (Final Values)|-1.011||||0.2906|TWO_SIDED|95.0|-2.887|0.865|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.865|-2.887|0.2906
82537798|NCT02138916|164774646|SUPERIORITY||Mean Difference (Final Values)|-2.136||||0.0264|TWO_SIDED|95.0|-4.02|-0.251|||Mixed Models Analysis|Model includes treatment group, baseline SGRQ score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.251|-4.020|0.0264
82537799|NCT02138916|164774647|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.6782|TWO_SIDED|95.0|-1.08|0.7|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.70|-1.08|0.6782
82433027|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-2.73|-0.13||||||Day 113: Pooled TIP/PBO, Pooled PBO||-0.13|-2.73|
82433028|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.2|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.64|-0.73||||||EoT Cohort A: TIP, Pooled PBO||-0.73|-3.64|
82433029|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.1|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.61|1.43||||||EoT Cohort A: TIP/PBO, Pooled PBO||1.43|-1.61|
82433030|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.3|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.81|0.25||||||EoT Cohort B: TIP, Pooled PBO||0.25|-2.81|
82433031|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.14|-0.22||||||EoT Cohort B: TIP/PBO, Pooled PBO||-0.22|-3.14|
82433032|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.4|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.89|-0.98||||||EoT Cohort C: TIP, Pooled PBO||-0.98|-3.89|
82433033|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.7|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-3.12|-0.22||||||EoT Cohort C: TIP/PBO, Pooled PBO||-0.22|-3.12|
82433034|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.0|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-3.08|-0.85||||||EoT: Pooled TIP, Pooled PBO||-0.85|-3.08|
82433035|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.56|||TWO_SIDED|95.0|-2.25|-0.04||||||EoT: Pooled TIP/PBO, Pooled PBO||-0.04|-2.25|
82433036|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.8|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-2.63|0.99||||||Day 141 Cohort A: TIP, Pooled PBO||0.99|-2.63|
82433037|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|0.1|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-1.83|1.98||||||Day 141 Cohort A: TIP/PBO, Pooled PBO||1.98|-1.83|
82433038|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|0.2|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-2.03|2.41||||||Day 141 Cohort B: TIP, Pooled PBO||2.41|-2.03|
82433039|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.8|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-3.68|-0.01||||||Day 141 Cohort B: TIP/PBO, Pooled PBO||-0.01|-3.68|
82452745|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82433040|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.9|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-2.78|1.07||||||Day 141 Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||1.07|-2.78|
82433041|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.2|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-3.36|0.89||||||Day 141 Cohort C: TIP/PBO, Pooled PBO||0.89|-3.36|
82433042|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-1.97|0.98||||||Day 141: Pooled TIP, Pooled PBO||0.98|-1.97|
82433043|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-2.45|0.45||||||Day 141: Pooled TIP/PBO, Pooled PBO||0.45|-2.45|
82433044|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.3|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-3.24|0.61||||||Day 169 Cohort A: TIP, Pooled PBO||0.61|-3.24|
82452746|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452747|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.1280
82537800|NCT02138916|164774647|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.0753|TWO_SIDED|95.0|-1.7|0.08|||Mixed Models Analysis|Model includes treatment group, baseline CAT total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.08|-1.70|0.0753
82433045|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-3.05|0.91||||||Day 169 Cohort A: TIP/PBO, Pooled PBO||0.91|-3.05|
82433046|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.6|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-2.73|1.62||||||Day 169 Cohort B: TIP, Pooled PBO||1.62|-2.73|
82537801|NCT02138916|164774648|SUPERIORITY||Mean Difference (Final Values)|-0.585||||0.0889|TWO_SIDED|95.0|-1.26|0.089|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.089|-1.260|0.0889
82452748|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452749|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82537802|NCT02138916|164774648|SUPERIORITY||Mean Difference (Final Values)|-0.703||||0.0413|TWO_SIDED|95.0|-1.378|-0.028|||Mixed Models Analysis|Model includes treatment group, baseline total score, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.028|-1.378|0.0413
82537803|NCT02138916|164774649|SUPERIORITY||Mean Difference (Final Values)|-0.348||||0.0728|TWO_SIDED|95.0|-0.728|0.032|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||0.032|-0.728|0.0728
82537804|NCT02138916|164774649|SUPERIORITY||Mean Difference (Final Values)|-0.487||||0.0121|TWO_SIDED|95.0|-0.868|-0.107|||Mixed Models Analysis|Model includes treatment group, baseline rescue med. use, EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.107|-0.868|0.0121
82537805|NCT02138916|164774650|SUPERIORITY||Mean Difference (Final Values)|-0.041||||0.0235|TWO_SIDED|95.0|-0.077|-0.006|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.006|-0.077|0.0235
82537806|NCT02138916|164774650|SUPERIORITY||Mean Difference (Final Values)|-0.044||||0.0158|TWO_SIDED|95.0|-0.08|-0.008|||Mixed Models Analysis|Model includes treatment group, baseline prop. of nights awakens., EOS cohort, region, background therapy, visit, and treatment by visit interaction.||||-0.008|-0.080|0.0158
82537807|NCT02138916|164774654|SUPERIORITY||Rate ratio|1.09||||0.408|TWO_SIDED|95.0|0.89|1.34|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.34|0.89|0.4080
82648801|NCT02092961|165013390|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.746|TWO_SIDED|90.0|-1.0|0.5||A negative value for change from baseline in OMERACT RAMRIS osteitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.50|-1.00|0.746
82537808|NCT02138916|164774654|SUPERIORITY||Rate ratio|0.98||||0.8688|TWO_SIDED|95.0|0.8|1.21|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, number of exacerbations in the previous year.||||1.21|0.80|0.8688
82537809|NCT02138916|164774655|SUPERIORITY||Odds Ratio (OR)|0.9||||0.485|TWO_SIDED|95.0|0.66|1.22|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.22|0.66|0.4850
82433047|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-2.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-4.22|-0.08||||||Day 169 Cohort B: TIP/PBO, Pooled PBO||-0.08|-4.22|
82433048|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.2|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|95.0|-2.48|2.1||||||Day 169 Cohort C: TIP, Pooled PBO||2.10|-2.48|
82433049|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.1|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-2.33|2.13||||||Day 169 Cohort C: TIP/PBO, Pooled PBO||2.13|-2.33|
82433050|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-0.7|STANDARD_ERROR_OF_MEAN|0.77|||TWO_SIDED|95.0|-2.24|0.86||||||Day 169: Pooled TIP, Pooled PBO||0.86|-2.24|
82433051|NCT02712983|164575405|OTHER||LS Mean Diff (SE) vs pooled placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.61|0.4||||||Day 169: Pooled TIP/PBO, Pooled PBO||0.40|-2.61|
82433052|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.14|3.18|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP, Pooled PBO||3.18|0.14|
82433053|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.18|1.85|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP/PBO, Pooled PBO||1.85|0.18|
82452750|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0291
82433054|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.42|3.77|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP, Pooled PBO||3.77|0.42|
82433055|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.2|1.83|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP/PBO, Pooled PBO||1.83|0.20|
82452751|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452752|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452753|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.0729|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0729
82452754|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452755|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82537810|NCT02138916|164774655|SUPERIORITY||Odds Ratio (OR)|0.89||||0.4489|TWO_SIDED|95.0|0.65|1.21|||Cochran-Mantel-Haenszel|CMH test controlling for EOS cohort, region, and background therapy.||Proportion of participants with \>=1 COPD exacerbation.||1.21|0.65|0.4489
82561829|NCT01163214|164832819|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for tibial nerve.||||0.62
82452756|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.0271|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0271
82452757|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452758|NCT00445770|164611995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452759|NCT00445770|164611995|SUPERIORITY_OR_OTHER|||||||0.0453|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0453
82452760|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82537811|NCT02138916|164774657|SUPERIORITY||Rate ratio|1.06||||0.7733|TWO_SIDED|95.0|0.73|1.53|||Negative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||1.53|0.73|0.7733
82433056|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.21|2.17|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP, Pooled PBO||2.17|0.21|
82433057|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.44|3.62|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP/PBO, Pooled PBO||3.62|0.44|
82433058|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.44|2.23|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP, Pooled PBO||2.23|0.44|
82433059|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.34|1.71|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP/PBO, Pooled PBO||1.71|0.34|
82433060|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.08|1.83|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP, Pooled PBO||1.83|0.08|
82433061|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.25|2.89|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP/PBO, Pooled PBO||2.89|0.25|
82452761|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452762|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.7488|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.7488
82452763|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452764|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452765|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.568|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.5680
82452766|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452767|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452768|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.9241|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.9241
82452769|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82561830|NCT01163214|164832819|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparison between arms for femoral, peroneal, or tibial nerves.||||0.009
82433062|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.25|3.93|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP, Pooled PBO||3.93|0.25|
82433063|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.19|2.36|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP/PBO, Pooled PBO||2.36|0.19|
82433064|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.19|||||TWO_SIDED|95.0|0.02|1.57|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP, Pooled PBO||1.57|0.02|
82433065|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.16|2.41|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP/PBO, Pooled PBO||2.41|0.16|
82433066|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.13|1.31|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP, Pooled PBO||1.31|0.13|
82433067|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.28|1.8|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP/PBO, Pooled PBO||1.80|0.28|
82537812|NCT02138916|164774657|SUPERIORITY||Rate ratio|0.58||||0.0114|TWO_SIDED|95.0|0.39|0.89|||Nagative binomial|Model includes treatment group, EOS cohort, region, background therapy, previous year exacerbations associated with hospitalization (Y/N).||||0.89|0.39|0.0114
82537813|NCT05822440|164774669|OTHER||Ratio of Adjusted Geometric Means|124.35|||||TWO_SIDED|90.0|100.22|154.29||||||Ratio was between test to reference, where test is PF-07817883 + Itraconazole arm and reference is PF-07817883 arm. Natural log transformed Cmax of PF-07817883 were analyzed using a mixed effect model with treatment as fixed effect and participant as a random effect. The ratios (and 90% CIs) were expressed as percentages.||154.29|100.22|
82537814|NCT05822440|164774670|OTHER||Ratio of Adjusted Geometric Means|212.83||||||90.0|183.76|246.5||||||Ratio was between test to reference, where test is PF-07817883 + Itraconazole arm and reference is PF-07817883 arm. Natural log transformed Cmax of PF-07817883 were analyzed using a mixed effect model with treatment as fixed effect and participant as a random effect. The ratios (and 90% CIs) were expressed as percentages.||246.50|183.76|
82537815|NCT02387749|164774680|SUPERIORITY|||||||0.005|||||||Chi-squared, Corrected|||||||0.005
82537816|NCT04888585|164774708|SUPERIORITY||Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|11.5|31.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||31.0|11.5|<0.001
82537817|NCT04888585|164774708|SUPERIORITY||Response Rate Difference|26.6|||<|0.001|TWO_SIDED|95.0|16.5|36.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||36.7|16.5|<0.001
82537818|NCT04888585|164774708|SUPERIORITY||Response Rate Difference|37.7|||<|0.001|TWO_SIDED|95.0|27.4|48.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||48.1|27.4|<0.001
82537819|NCT04888585|164774708|SUPERIORITY||Response Rate Difference|23.2|||<|0.001|TWO_SIDED|95.0|13.8|32.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||32.6|13.8|<0.001
82537820|NCT04888585|164774709|SUPERIORITY||Least Squares (LS) Mean Difference|-0.51||||0.007|TWO_SIDED|95.0|-0.87|-0.14|||Mixed Models Analysis|MMRM includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 40mg - Placebo|||-0.14|-0.87|0.007
82537821|NCT04888585|164774709|SUPERIORITY||Least Squares (LS) Mean Difference|-1.01|||<|0.001|TWO_SIDED|95.0|-1.38|-0.64|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-0.64|-1.38|<0.001
82537822|NCT04888585|164774709|SUPERIORITY||Least Squares (LS) Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.8|-1.05|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-1.05|-1.80|<0.001
82537823|NCT04888585|164774709|SUPERIORITY||Least Squares (LS) Mean Difference|-0.62|||<|0.001|TWO_SIDED|95.0|-0.99|-0.26|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340 E4W - Placebo|||-0.26|-0.99|<0.001
82537824|NCT04888585|164774710|SUPERIORITY||Least Squares (LS) Mean Difference|-4.56||||0.014|TWO_SIDED|95.0|-8.21|-0.92|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||-0.92|-8.21|0.014
82537825|NCT04888585|164774710|SUPERIORITY||Least Squares (LS) Mean Difference|-8.01|||<|0.001|TWO_SIDED|95.0|-11.7|-4.31|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-4.31|-11.70|<0.001
82537826|NCT04888585|164774710|SUPERIORITY||Least Squares (LS) Mean Difference|-11.41|||<|0.001|TWO_SIDED|95.0|-15.1|-7.73|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-7.73|-15.10|<0.001
82537827|NCT04888585|164774710|SUPERIORITY||Least Squares (LS) Mean Difference|-5.29||||0.004|TWO_SIDED|95.0|-8.89|-1.69|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||-1.69|-8.89|0.004
82537828|NCT04888585|164774711|SUPERIORITY||Response Rate Difference|24.7|||<|0.001|TWO_SIDED|95.0|12.1|37.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||37.3|12.1|<0.001
82537829|NCT04888585|164774711|SUPERIORITY||Response Rate Difference|30.2|||<|0.001|TWO_SIDED|95.0|17.4|42.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||42.9|17.4|<0.001
82537830|NCT04888585|164774711|SUPERIORITY||Response Rate Difference|45.4|||<|0.001|TWO_SIDED|95.0|33.5|57.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||57.4|33.5|<0.001
82537831|NCT04888585|164774711|SUPERIORITY||Response Rate Difference|24.6|||<|0.001|TWO_SIDED|95.0|11.9|37.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||37.3|11.9|<0.001
82452770|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82537832|NCT04888585|164774712|SUPERIORITY||Response Rate Difference|6.5||||0.031|TWO_SIDED|95.0|0.6|12.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||12.4|0.6|0.031
82537833|NCT04888585|164774712|SUPERIORITY||Response Rate Difference|9.8||||0.007|TWO_SIDED|95.0|2.7|17.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||17.0|2.7|0.007
82561831|NCT00988429|164832860|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058||95.0|||||ANCOVA|||||||0.058
82648802|NCT02092961|165013390|SUPERIORITY_OR_OTHER||Treatment difference|1.0||||0.413|TWO_SIDED|90.0|-1.5|3.5||A negative value for change from baseline in OMERACT RAMRIS synovitis score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||3.50|-1.50|0.413
82652279|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.034||||0.7959|TWO_SIDED|95.0|-0.296|0.228||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.228|-0.296|0.7959
82433068|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|10.71|||||TWO_SIDED|95.0|1.1|104.19|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort A: TIP, Pooled PBO||104.19|1.10|
82433069|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|4.62|||||TWO_SIDED|95.0|0.41|52.29|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP, Pooled PBO||52.29|0.41|
82433070|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|3.23|||||TWO_SIDED|95.0|0.28|37.06|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP/PBO, Pooled PBO||37.06|0.28|
82433071|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|1.61|||||TWO_SIDED|95.0|0.1|25.94|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP, Pooled PBO||25.94|0.10|
82433072|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|11.3|||||TWO_SIDED|95.0|1.09|117.34|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP/PBO, Pooled PBO||117.34|1.09|
82433073|NCT02712983|164575406|OTHER||Hazard Ratio (HR)|4.3|||||TWO_SIDED|95.0|0.5|37.32|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Pooled TIP, Pooled PBO||37.32|0.50|
82433074|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|9.8|STANDARD_ERROR_OF_MEAN|18.15|||TWO_SIDED|95.0|-27.15|46.81|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort A: TIP, Pooled PBO||46.81|-27.15|
82452771|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.7146|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.7146
82561832|NCT00988429|164832860|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||ANCOVA|||||||0.004
82433075|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|19.8|STANDARD_ERROR_OF_MEAN|20.81|||TWO_SIDED|95.0|-22.63|62.14|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort A: TIP/PBO, Pooled PBO||62.14|-22.63|
82433076|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|8.0|STANDARD_ERROR_OF_MEAN|19.29|||TWO_SIDED|95.0|-31.32|47.26|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort B: TIP, Pooled PBO||47.26|-31.32|
82433077|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|12.7|STANDARD_ERROR_OF_MEAN|19.24|||TWO_SIDED|95.0|-26.49|51.89|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort B: TIP/PBO, Pooled PBO||51.89|-26.49|
82433078|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|46.5|STANDARD_ERROR_OF_MEAN|21.17|||TWO_SIDED|95.0|3.37|89.61|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort C: TIP, Pooled PBO||89.61|3.37|
82433079|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|3.2|STANDARD_ERROR_OF_MEAN|18.37|||TWO_SIDED|95.0|-34.21|40.64|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Cohort C: TIP/PBO, Pooled PBO||40.64|-34.21|
82433080|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|21.4|STANDARD_ERROR_OF_MEAN|14.46|||TWO_SIDED|95.0|-8.03|50.89|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Pooled TIP, Pooled PBO||50.89|-8.03|
82433081|NCT02712983|164575407|OTHER||LS Mean Diff (SE) vs pooled placebo|11.9|STANDARD_ERROR_OF_MEAN|14.44|||TWO_SIDED|95.0|-17.52|41.29|||||ANCOVA model includes treatment as a fixed-effect factor and number of pulmonary exacerbations in the 12 months prior to screening as a covariate.|Overall Pooled TIP/PBO, Pooled PBO||41.29|-17.52|
82433082|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.51|3.13|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP, Pooled PBO||3.13|0.51|
82561833|NCT00988429|164832861|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|||||||ANCOVA|||||||0.068
82561834|NCT00988429|164832861|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82561835|NCT02964234|164832865|SUPERIORITY||Odds Ratio (OR)|10.59||||0.005|TWO_SIDED|95.0|2.01|56.31||We clustered by cohort, given both interventions used a group format, and adjusted for age, socioeconomic status (education, income, insurance status) baseline mammography history, and baseline mammography intention.|Regression, Logistic|||We conducted logistic regressions, clustering by cohort, given both interventions used a group format, and adjusting for age, education, income, insurance status, baseline mammography history, and baseline mammography intention. The null hypothesis was there would be no study arm differences. A priori power analysis suggested that a sample size of 150, assuming alpha = .05, power = .80 would lead us to detect medium/large effects (OR = 2.8).||56.31|2.01|.005
82537834|NCT04888585|164774712|SUPERIORITY||Response Rate Difference|10.9||||0.004|TWO_SIDED|95.0|3.6|18.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||18.2|3.6|0.004
82648803|NCT02092961|165013391|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.491|TWO_SIDED|90.0|0.0|0.0||A negative value for change from baseline in JSN score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.00|0.00|0.491
82433083|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.15|1.46|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort A: TIP/PBO, Pooled PBO||1.46|0.15|
82433084|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.44|3.21|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP, Pooled PBO||3.21|0.44|
82433085|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.32|2.18|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort B: TIP/PBO, Pooled PBO||2.18|0.32|
82433086|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.1|1.27|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP, Pooled PBO||1.27|0.10|
82433087|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.43|2.99|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Cohort C: TIP/PBO, Pooled PBO||2.99|0.43|
82433088|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.37|1.76|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP, Pooled PBO||1.76|0.37|
82433089|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.36|1.61|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Overall Pooled TIP/PBO, Pooled PBO||1.61|0.36|
82433090|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.3|2.55|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP, Pooled PBO||2.55|0.30|
82452772|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82433091|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.2|2.03|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort A: TIP/PBO, Pooled PBO||2.03|0.20|
82433092|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.4|3.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP, Pooled PBO||3.60|0.40|
82433093|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.31|2.55|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort B: TIP/PBO, Pooled PBO||2.55|0.31|
82433094|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.28|||||TWO_SIDED|95.0|0.06|1.27|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP, Pooled PBO||1.27|0.06|
82433095|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.45|3.73|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Cohort C: TIP/PBO, Pooled PBO||3.73|0.45|
82433096|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.27|1.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP, Pooled PBO||1.60|0.27|
82433097|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.4|2.02|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Oral Pooled TIP/PBO, Pooled PBO||2.02|0.40|
82433098|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|3.72|||||TWO_SIDED|95.0|0.84|16.52|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort A: TIP, Pooled PBO||16.52|0.84|
82433099|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.22|8.16|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP, Pooled PBO||8.16|0.22|
82452773|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0001
82452774|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.6574|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.6574
82537835|NCT04888585|164774712|SUPERIORITY||Response Rate Difference|0.9||||0.709|TWO_SIDED|95.0|-4.0|5.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||5.9|-4.0|0.709
82433100|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|2.15|||||TWO_SIDED|95.0|0.46|10.05|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort B: TIP/PBO, Pooled PBO||10.05|0.46|
82433101|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.05|4.87|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP, Pooled PBO||4.87|0.05|
82433102|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|2.56|||||TWO_SIDED|95.0|0.53|12.49|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Parenteral Cohort C: TIP/PBO, Pooled PBO||12.49|0.53|
82433103|NCT02712983|164575412|OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.33|5.68|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Paremteral Pooled TIP, Pooled PBO||5.68|0.33|
82433104|NCT02712983|164575417|OTHER||Odds Ratio, log|5.62|||||TWO_SIDED|95.0|0.83|38.18|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort A (3 capsules o.d.): TIP, Pooled PBO||38.18|0.83|
82433105|NCT02712983|164575417|OTHER||Odds Ratio, log|2.0|||||TWO_SIDED|95.0|0.21|19.16|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort B (5 capsules o.d.): TIP, Pooled PBO||19.16|0.21|
82433106|NCT02712983|164575417|OTHER||Odds Ratio, log|3.05|||||TWO_SIDED|95.0|0.43|21.8|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort B (5 capsules o.d.): TIP/PBO, Pooled PBO||21.80|0.43|
82433107|NCT02712983|164575417|OTHER||Odds Ratio, log|1.84|||||TWO_SIDED|95.0|0.19|17.42|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||17.42|0.19|
82537836|NCT04888585|164774713|SUPERIORITY||Response Rate Difference|16.9||||0.006|TWO_SIDED|95.0|4.9|28.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||28.9|4.9|0.006
82537837|NCT04888585|164774713|SUPERIORITY||Response Rate Difference|25.8|||<|0.001|TWO_SIDED|95.0|13.5|38.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||38.1|13.5|<0.001
82537838|NCT04888585|164774713|SUPERIORITY||Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|18.9|44.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||44.2|18.9|<0.001
82537839|NCT04888585|164774713|SUPERIORITY||Response Rate Difference|23.2|||<|0.001|TWO_SIDED|95.0|11.0|35.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||35.4|11.0|<0.001
82433108|NCT02712983|164575417|OTHER||Odds Ratio, log|3.41|||||TWO_SIDED|95.0|0.47|25.03|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|Cohort C (4 capsules b.i.d.): TIP/PBO, Pooled PBO||25.03|0.47|
82433109|NCT02712983|164575417|OTHER||Odds Ratio, log|2.74|||||TWO_SIDED|95.0|0.47|16.07|||||Generalized linear model assuming the negative binomial distribution including treatment and baseline macrolide use as class-effect factors. The log exposure to study in years is included as an offset variable in the model.|||16.07|0.47|
82433110|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|4.5|||||TWO_SIDED|95.0|0.77|26.42|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort A (3 capsules o.d.): TIP, Pooled PBO||26.42|0.77|
82433111|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|2.0|||||TWO_SIDED|95.0|0.28|14.47|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort B (5 capsules o.d.): TIP, Pooled PBO||14.47|0.28|
82433112|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.2|11.6|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort B (5 capsules o.d.): TIP/PBO, Pooled PBO||11.60|0.20|
82433113|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.06|7.49|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort C (4 capsules b.i.d.): TIP, Pooled PBO||7.49|0.06|
82433114|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|3.81|||||TWO_SIDED|95.0|0.62|23.29|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Cohort C (4 capsules b.i.d.): TIP/PBO, Pooled PBO||23.29|0.62|
82537840|NCT04888585|164774714|SUPERIORITY||Response Rate Difference|14.1||||0.022|TWO_SIDED|95.0|2.0|26.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||26.2|2.0|0.022
82537841|NCT04888585|164774714|SUPERIORITY||Response Rate Difference|22.8|||<|0.001|TWO_SIDED|95.0|10.0|35.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||35.5|10.0|<0.001
82537842|NCT04888585|164774714|SUPERIORITY||Response Rate Difference|24.3|||<|0.001|TWO_SIDED|95.0|11.6|37.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||37.0|11.6|<0.001
82452775|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82648804|NCT02092961|165013391|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.341|TWO_SIDED|90.0|0.0|0.0||A negative value for change from baseline in JSN score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||0.00|0.00|0.341
82652280|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.015||||0.9086|TWO_SIDED|95.0|-0.28|0.249||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.249|-0.280|0.9086
82452776|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0004
82452777|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.2936|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.2936
82452778|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452779|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0005
82452780|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2179
82452781|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452782|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452783|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.3704|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.3704
82452784|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452785|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452786|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.8047|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.8047
82452787|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452788|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452789|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.5277|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5277
82452790|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452791|NCT00445770|164611996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452792|NCT00445770|164611996|SUPERIORITY_OR_OTHER|||||||0.9371|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.9371
82452793|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0027
82452794|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.0015
82452795|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.8875|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8875
82452796|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0015
82452797|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0011
82452798|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.9694|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.9694
82537843|NCT04888585|164774714|SUPERIORITY||Response Rate Difference|12.6||||0.042|TWO_SIDED|95.0|0.5|24.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||24.7|0.5|0.042
82452799|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.0020
82452800|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.0005
82452801|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.7271|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.7271
82537844|NCT04888585|164774715|SUPERIORITY||Response Rate Difference|5.1||||0.296|TWO_SIDED|95.0|-4.4|14.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||14.6|-4.4|0.296
82452802|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0235|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0235
82452803|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0061
82452804|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.6427|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.6427
82452805|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0036
82452806|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0029
82452807|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.9713|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.9713
82452808|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0060
82452809|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0060
82452810|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.9762|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.9762
82452811|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0554|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0554
82452812|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0181|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0181
82452813|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.6642|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.6642
82452814|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0073
82452815|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0290
82452816|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.5919|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.5919
82452817|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0371|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0371
82452818|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0346|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0346
82452819|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.9955|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.9955
82452820|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0187|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0187
82452821|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0645|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0645
82452822|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.592|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5920
82452823|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.0095|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0095
82452824|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.2112|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.2112
82452825|NCT00445770|164611997|SUPERIORITY_OR_OTHER|||||||0.1649|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1649
82452826|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452827|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452828|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.8972|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8972
82452829|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452830|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452831|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.3736|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.3736
82452832|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452833|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452834|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.9324|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.9324
82452835|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452836|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82452837|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.8982|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.8982
82452838|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82537845|NCT04888585|164774715|SUPERIORITY||Response Rate Difference|19.5|||<|0.001|TWO_SIDED|95.0|8.7|30.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||30.2|8.7|<0.001
82537846|NCT04888585|164774715|SUPERIORITY||Response Rate Difference|25.5|||<|0.001|TWO_SIDED|95.0|14.3|36.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||36.7|14.3|<0.001
82537847|NCT04888585|164774715|SUPERIORITY||Response Rate Difference|14.1||||0.007|TWO_SIDED|95.0|3.8|24.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||24.5|3.8|0.007
82537848|NCT04888585|164774716|SUPERIORITY||Response Rate Difference|7.1||||0.017|TWO_SIDED|95.0|1.3|13.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 40mg EOW - Placebo|||13.0|1.3|0.017
82537849|NCT04888585|164774716|SUPERIORITY||Response Rate Difference|2.0||||0.424|TWO_SIDED|95.0|-2.8|6.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||6.8|-2.8|0.424
82537850|NCT04888585|164774716|SUPERIORITY||Response Rate Difference|2.6||||0.303|TWO_SIDED|95.0|-2.3|7.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||7.5|-2.3|0.303
82537851|NCT04888585|164774716|SUPERIORITY||Response Rate Difference|1.3||||0.551|TWO_SIDED|95.0|-2.9|5.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the stratification factors.|Response Rate Difference = ABBV-154 340 E4W - Placebo|||5.4|-2.9|0.551
82537852|NCT04888585|164774717|SUPERIORITY||Least Squares (LS) Mean Difference|-0.18||||0.022|TWO_SIDED|95.0|-0.33|-0.03|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|ABBV-154 40mg EOW - Placebo|||-0.03|-0.33|0.022
82537853|NCT04888585|164774717|SUPERIORITY||Least Squares (LS) Mean Difference|-0.25||||0.001|TWO_SIDED|95.0|-0.41|-0.1|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 150mg EOW - Placebo|||-0.10|-0.41|0.001
82652281|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.08||||0.5334|TWO_SIDED|95.0|-0.333|0.173||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.173|-0.333|0.5334
82452839|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0007
82452840|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.318|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.3180
82452841|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452842|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0011
82452843|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.3302|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.3302
82452844|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452845|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.0002
82452846|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.6563|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.6563
82537854|NCT04888585|164774717|SUPERIORITY||Least Squares (LS) Mean Difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.48|-0.17|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg EOW - Placebo|||-0.17|-0.48|<0.001
82537855|NCT04888585|164774717|SUPERIORITY||Least Squares (LS) Mean Difference|-0.21||||0.007|TWO_SIDED|95.0|-0.36|-0.06|||Mixed Models Analysis|MMRM model includes treatment, visit, treatment-by-visit interaction, stratification factors, and the baseline measurement as covariates.|Response Rate Difference = ABBV-154 340mg E4W - Placebo|||-0.06|-0.36|0.007
82537856|NCT04927975|164774718|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-7.6||||0.304|TWO_SIDED|95.0|-22.18|6.97|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||6.97|-22.18|0.304
82561836|NCT02964234|164832866|SUPERIORITY||Slope|-0.19||||0.03|TWO_SIDED|95.0|-0.34|-0.04|||Regression, Linear|With GEE. Models had exchangeable correlation structure, a gamma distribution, and log link.||Analyses were conducted using GEE with an exchangeable correlation structure and a gamma distribution with log link. All models included study arm, time, and the study arm\*time. Covariates included age, education, and mammography history. With 150 Latinas, alpha = 0.05, power = 0.80, ICC = 0.0-0.05, we expected to detect small/medium interaction effects.||-0.04|-0.34|0.03
82433115|NCT02712983|164575418|OTHER||Hazard Ratio (HR)|1.82|||||TWO_SIDED|95.0|0.35|9.45|||||Based on Cox proportional hazards model with treatment as fixed effect and number of pulmonary exacerbations in the 12 months prior to screening as a covariate, stratified by baseline macrolide use.|Pooled TIP, Pooled PBO||9.45|0.35|
82433116|NCT05360966|164575435|OTHER|Difference (2-sided)|Difference in Percentages|38.8|||<|0.0001|TWO_SIDED|95.0|30.8|46.8||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|46.8|30.8|<0.0001
82433117|NCT05360966|164575436|OTHER|Difference (2-sided)|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.08||0.1321|TWO_SIDED|95.0|-7.2|0.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||0.9|-7.2|0.1321
82433118|NCT05360966|164575437|OTHER|Difference (2-sided)|Least Squares Mean Difference|8.3|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|6.9|9.8||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.8|6.9|<0.0001
82433119|NCT05360966|164575438|OTHER|Difference (2-sided)|Difference in Percentages|40.1|||<|0.0001|TWO_SIDED|95.0|32.3|47.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|47.9|32.3|<0.0001
82433120|NCT05360966|164575439|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|6.3|8.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||8.9|6.3|<0.0001
82452847|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452848|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452849|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.8894|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.8894
82452850|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82537857|NCT04927975|164774718|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-21.27||||0.005|TWO_SIDED|95.0|-36.02|-6.52|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||-6.52|-36.02|0.005
82648805|NCT02092961|165013392|SUPERIORITY_OR_OTHER||Treatment difference|0.0||||0.366|TWO_SIDED|90.0|-0.5|0.0||A negative value for change from baseline in OMERACT RAMRIS erosions score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|6 weeks||0.00|-0.50|0.366
82433121|NCT05360966|164575440|OTHER|Difference (2 sided)|Difference in Percentages|37.3|||<|0.0001|TWO_SIDED|95.0|28.7|45.9||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|45.9|28.7|<0.0001
82433122|NCT05360966|164575441|OTHER|Difference (2-sided)|Least Squares Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|6.5|9.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.6|6.5|<0.0001
82433123|NCT05360966|164575442|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|2.4||0.5626|TWO_SIDED|95.0|-6.1|3.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.3|-6.1|0.5626
82433124|NCT05360966|164575443|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|2.53||0.5981|TWO_SIDED|95.0|-6.3|3.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.6|-6.3|0.5981
82433125|NCT05360966|164575444|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.44||0.5161|TWO_SIDED|95.0|-6.4|3.2||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||3.2|-6.4|0.5161
82433126|NCT05360966|164575445|OTHER|Difference (2-sided)|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.51||0.8574|TWO_SIDED|95.0|-4.5|5.4||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||5.4|-4.5|0.8574
82433127|NCT05360966|164575446|OTHER|Difference (2-sided)|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|2.69||0.698|TWO_SIDED|95.0|-6.3|4.2||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||4.2|-6.3|0.6980
82433128|NCT01477710|164575447|SUPERIORITY_OR_OTHER_LEGACY||ANOVA F-value|266.39|||<|0.0001||||||This p-value is for the omnibus F-test of between-treatment differences in tidal volume|ANOVA|The p-value for the omnibus F-test was \<0.0001||Using ANOVA, pairwise comparisons of treatment means were made using a Tukey adjustment for multiple comparisons.||||<0.0001
82433129|NCT01477710|164575447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|314.4|||<|0.0001||95.0|264.7|364.1|||t-test, 2 sided|||||364.1|264.7|<0.0001
82652282|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.212||||0.102|TWO_SIDED|95.0|-0.466|0.042||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.042|-0.466|0.1020
82648806|NCT02092961|165013392|SUPERIORITY_OR_OTHER||Treatment difference|1.25||||0.053|TWO_SIDED|90.0|0.5|2.5||A negative value for change from baseline in OMERACT RAMRIS erosions score indicates a better clinical condition.|Van Elteren|Estimated using the Van Elteren test stratified by DMARD naivety (DMARD naive vs DMARD-IR/intolerant).|The point estimate for the median difference in change from baseline and associated 90% CI was calculated using the method of unstratified Hodges-Lehmann. A treatment difference \<0 indicates a benefit towards fostamatinib.|24 weeks||2.50|0.50|0.053
82648807|NCT02092961|165013393|SUPERIORITY_OR_OTHER||Least Square Mean Treatment Difference|0.89||||0.006|TWO_SIDED|90.0|0.36|1.41|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and DMARD naivety (DMARD naive vs DMARD-IR/intolerant) as factors.||Change from baseline at Week 6. Nonresponder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data. Patients who prematurely withdrew due to project closure have no imputation applied.||1.41|0.36|0.006
82452851|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452852|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.7826|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.7826
82452853|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452854|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0003
82452855|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.5343|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.5343
82452856|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452857|NCT00445770|164611998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452858|NCT00445770|164611998|SUPERIORITY_OR_OTHER|||||||0.9313|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.9313
82537858|NCT04927975|164774718|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-19.6||||0.013|TWO_SIDED|95.0|-35.04|-4.16|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||-4.16|-35.04|0.013
82648808|NCT02092961|165013393|SUPERIORITY_OR_OTHER||Least Square Mean Treatment Difference|-0.34||||0.496|TWO_SIDED|90.0|-1.16|0.49|||ANCOVA|Includes terms for baseline as a continuous covariate and treatment and DMARD naivety (DMARD naive vs DMARD-IR/intolerant) as factors.||Change from baseline at Week 24. Nonresponder imputation applied following premature withdrawal, or any DMARD initiation, or for 8 weeks following receipt of parenteral steroids, or for patients with no post baseline data. Patients who prematurely withdrew due to project closure have no imputation applied.||0.49|-1.16|0.496
82452859|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452860|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82452861|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.8044|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.8044
82452862|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82452863|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.0003
82452864|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.4652|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.4652
82452865|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452866|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82452867|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.5612|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.5612
82452868|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0002
82452869|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.0002
82452870|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.9749|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.9749
82452871|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0001
82452872|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.0004
82452873|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.729|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.7290
82537859|NCT04927975|164774719|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|6.9||||0.1|TWO_SIDED|95.0|-1.3|15.2|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||15.2|-1.3|0.100
82537860|NCT04927975|164774719|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|17.8||||0.002|TWO_SIDED|95.0|6.5|29.0|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||29.0|6.5|0.002
82537861|NCT04927975|164774719|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|11.7||||0.026|TWO_SIDED|95.0|1.4|21.9|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||21.9|1.4|0.026
82537862|NCT04927975|164774720|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|6.6||||0.327|TWO_SIDED|95.0|-6.6|19.7|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||19.7|-6.6|0.327
82537863|NCT04927975|164774720|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|29.3|||<|0.001|TWO_SIDED|95.0|13.8|44.9|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||44.9|13.8|<0.001
82537864|NCT04927975|164774720|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|28.7|||<|0.001|TWO_SIDED|95.0|12.6|44.7|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||44.7|12.6|<0.001
82537865|NCT04927975|164774721|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|3.7||||0.34|TWO_SIDED|95.0|-3.9|11.2|||Cochran-Mantel-Haenszel|||Upa 6 mg Period 1 versus Placebo Period 1||11.2|-3.9|0.340
82537866|NCT04927975|164774721|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|3.8||||0.358|TWO_SIDED|95.0|-4.3|11.8|||Cochran-Mantel-Haenszel|||Upa 11 mg Period 1 versus Placebo Period 1||11.8|-4.3|0.358
82537867|NCT04927975|164774721|SUPERIORITY|P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (age group \[≤ 50 and \> 50\], baseline disease severity \[T-VASI \< 15 and ≥ 15\], and status of active vitiligo \[Yes/No\])) for the comparison of two treatment groups. The calculations at each visit were based on non-responder imputation incorporating multiple imputation to handle missing data due to COVID-19 or non-responder imputation only if there were no missing data due to COVID-19.|Response Rate Difference|9.1||||0.027|TWO_SIDED|95.0|1.0|17.2|||Cochran-Mantel-Haenszel|||Upa 22 mg Period 1 versus Placebo Period 1||17.2|1.0|0.027
82577407|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.187||0.7604|TWO_SIDED|95.0|-0.43|0.31|||MMRM|||Loss of Weight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.31|-0.43|0.7604
82648809|NCT02270983|165013394|SUPERIORITY||Least squares mean difference|1.325|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|0.439|2.211|||ANCOVA|||||2.211|0.439|0.0035
82648810|NCT02270983|165013394|SUPERIORITY||Least squares mean difference|1.908|STANDARD_ERROR_OF_MEAN|0.451|<|0.0001|TWO_SIDED|95.0|1.021|2.796|||ANCOVA|||||2.796|1.021|<0.0001
82648811|NCT02270983|165013395|SUPERIORITY||Cox Proportional Hazard|1.28||||0.1429|TWO_SIDED|95.0|0.92|1.77|||Log Rank|||||1.77|0.92|0.1429
82648812|NCT02270983|165013395|SUPERIORITY||Cox Proportional Hazard|1.43||||0.0287|TWO_SIDED|95.0|1.04|1.97|||Log Rank|||||1.97|1.04|0.0287
82648813|NCT02270983|165013396|SUPERIORITY||Odds Ratio (OR)|1.37||||0.3332|TWO_SIDED|95.0|0.73|2.58|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel tests comparing specified treatment groups, controlling for geographic region.||||2.58|0.73|0.3332
82537868|NCT04927975|164774722|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-7.45||||0.12|TWO_SIDED|95.0|-16.86|1.96|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||1.96|-16.86|0.120
82537869|NCT04927975|164774722|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-10.84||||0.026|TWO_SIDED|95.0|-20.37|-1.32|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||-1.32|-20.37|0.026
82577408|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.185||0.1106|TWO_SIDED|95.0|-0.66|0.07|||MMRM|||Loss of Weight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.07|-0.66|0.1106
82433130|NCT01477710|164575447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|576.6|STANDARD_ERROR_OF_MEAN|25.0|<|0.0001|TWO_SIDED|95.0|526.9|626.3|||t-test, 2 sided|||||626.3|526.9|<0.0001
82433131|NCT01477710|164575447|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|262.2|STANDARD_DEVIATION|25.0|<|0.0001|TWO_SIDED|95.0|212.5|312.0|||t-test, 2 sided|||||312.0|212.5|<0.0001
82433132|NCT00443872|164575508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|1.0|<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Comparison of mean group scores at baseline and 12 weeks||||<0.01
82433133|NCT00443872|164575509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82433134|NCT00443872|164575510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided||Comparison of baseline vs. 3 month circumference of the Left and Right lower leg/ankle (change identical for both legs).|Change in pedal edema as measured by change in lower leg/ankle circumference in the left and right legs||||<0.01
82433135|NCT00443872|164575511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82433136|NCT00443872|164575512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This analysis is for the Activities of Daily Living (ADL) section of the scale||||<0.01
82433137|NCT00443872|164575512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|||<|0.05|TWO_SIDED|||||This analysis is for the motor section of the UPDRS|Wilcoxon (Mann-Whitney)|||||||<0.05
82433138|NCT00443872|164575513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82433139|NCT00443872|164575514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82433140|NCT00443872|164575515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82433141|NCT00443872|164575516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82433142|NCT02978157|164575525|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82433143|NCT00700622|164575535|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 92 subjects in each group was required to complete the trial. Approximately 230 subjects were to be randomized to achieve 184 completers (assuming a 20% dropout rate). This would have provided 80% power for a noninferiority design to test the difference of a 4-month change in HbA1c levels between treatment groups, assuming the upper noninferiority margins Δ of 0.5% with a standard deviation of 1.2 and a 1-sided alpha of 0.025.|Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|95.0|-0.31|0.17|||ANCOVA|||||0.17|-0.31|
82433144|NCT00383331|164575536|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Fisher Exact|||The response rates are separately evaluated for these two treatment arms. For each arm, a sample size of 48 achieves 91% power to detect a difference of 20% between the null hypothesis of 15% response rate and the alternative hypothesis of 35% using a one-sided, binomial hypothesis test with a target significance level of 2.5% (the actual significance level is 2.2%).||||0.48
82433145|NCT00383331|164575541|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Log Rank|||||||0.56
82433146|NCT02253433|164575542|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.575|TWO_SIDED|95.0|-0.87|2.07|||Mixed Models Analysis|||||2.07|-.87|0.575
82433147|NCT02253433|164575543|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.141|TWO_SIDED|95.0|-0.18|0.68|||Mixed Models Analysis|||||.68|-.18|0.141
82433148|NCT02253433|164575544|SUPERIORITY||Odds Ratio (OR)|0.86||||0.043|TWO_SIDED|95.0|0.47|1.57|||Mixed Models Analysis|ED visits over the previous 12 months were positively skewed (skewness 2.95; kurtosis 14.1); the responses were dichotomized (0 vs. 1 or more).||||1.57|.47|0.043
82433149|NCT03938103|164575551|OTHER|||||||0.101|||||||Mixed Models Analysis|||||||0.101
82433150|NCT03938103|164575552|OTHER|||||||0.383|||||||Mixed Models Analysis|||||||0.383
82433151|NCT00066222|164575568|OTHER|||||||||||||||||This study was designed to detect an improvement in the 2-year overall survival rate from 47% to 60%. Using a one-group chi-square test with a one-sided significance level of 0.10, a sample of 67 patients was deemed sufficient to detect the difference between the null hypothesis (H0: P .47) and the alternative hypothesis (HA: P .60) with 80% power.|If the point estimate for two-year survival is less than or equal to 0.54815, the upper bound of the one-sided 90% confidence interval on 47%, then H0 would not be rejected and the conclusion would be that the two-year survival rate did not statistically improve from 47% under the new treatment. If the point estimate is greater than 0.54815, then H0 would be rejected and the conclusion is that the two-year survival rate did improve from 47% to 60% under the new treatment.|||
82433152|NCT00066222|164575571|OTHER||||||||||||||||||The following rule would reject the null hypothesis that the proportion of severe esophagitis was 30% with an overall significance level of 0.05: 27 or more cases of severe esophagitis among the total sample of evaluable patients.|||
82452874|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82452875|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.0003
82452876|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.5004|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.5004
82452877|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452878|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82452879|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.5727|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.5727
82452880|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452881|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82452882|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.6713|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.6713
82537870|NCT04927975|164774722|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-14.27||||0.005|TWO_SIDED|95.0|-24.24|-4.3|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||-4.30|-24.24|0.005
82537871|NCT04927975|164774723|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-1.9||||0.545|TWO_SIDED|95.0|-8.3|4.4|||Mixed-Effect Model Repeat Measurement|||Upa 6 mg Period 1 versus Placebo Period 1||4.4|-8.3|0.545
82648814|NCT02270983|165013396|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0506|TWO_SIDED|95.0|1.0|3.68|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel tests comparing specified treatment groups, controlling for geographic region.||||3.68|1.00|0.0506
82648815|NCT02270983|165013397|SUPERIORITY||Least squares mean difference|0.751|STANDARD_ERROR_OF_MEAN|0.217||0.0007|TWO_SIDED|95.0|0.324|1.178|||ANCOVA|||||1.178|0.324|0.0007
82452883|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82452884|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.0001
82452885|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.7663|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.7663
82452886|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82452887|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.0002
82452888|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.7073|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.7073
82452889|NCT00445770|164611999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82452890|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.0001
82452891|NCT00445770|164611999|SUPERIORITY_OR_OTHER|||||||0.7973|TWO_SIDED|||||P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.7973
82452892|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
82452893|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
82452894|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.1053|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||0.1053
82452895|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82452896|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82452897|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0144|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.0144
82452898|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82452899|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82452900|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.1851|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.1851
82537872|NCT04927975|164774723|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|1.9||||0.565|TWO_SIDED|95.0|-4.5|8.3|||Mixed-Effect Model Repeat Measurement|||Upa 11 mg Period 1 versus Placebo Period 1||8.3|-4.5|0.565
82452901|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
82452902|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.0001
82452903|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.2883|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.2883
82452904|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
82433153|NCT00066222|164575572|OTHER||||||||||||||||||The following rule would reject the null hypothesis that the proportion of treatment-related fatalities was less than or equal to 5% with an overall significance level of 0.05: 6 or more instances of treatment-related fatalities among the total sample of evaluable patients.|||
82433154|NCT02767869|164575575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82433155|NCT02767869|164575576|SUPERIORITY_OR_OTHER_LEGACY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.530
82433156|NCT02767869|164575577|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|||||||Wilcoxon (Mann-Whitney)|||||||0.034
82433157|NCT02767869|164575578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.050
82433158|NCT02767869|164575579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||||||0.799
82433159|NCT02767869|164575580|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||||||0.047
82433160|NCT02767869|164575581|SUPERIORITY_OR_OTHER_LEGACY|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
82433161|NCT02767869|164575582|SUPERIORITY_OR_OTHER_LEGACY|||||||0.919|||||||Wilcoxon (Mann-Whitney)|||||||0.919
82433162|NCT02767869|164575583|SUPERIORITY_OR_OTHER_LEGACY|||||||0.254|||||||Wilcoxon (Mann-Whitney)|||||||0.254
82433163|NCT02767869|164575584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.347|||||||Wilcoxon (Mann-Whitney)|||||||0.347
82433164|NCT02767869|164575585|SUPERIORITY_OR_OTHER_LEGACY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
82433165|NCT02767869|164575586|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.410
82433166|NCT02767869|164575587|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82433167|NCT00244725|164575603|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.45||||0.012|TWO_SIDED|95.0|1.1|1.9|||Fisher Exact|||||1.9|1.1|0.012
82433168|NCT00244725|164575603|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.42||||0.017|TWO_SIDED|95.0|1.1|1.9|||Fisher Exact|||||1.9|1.1|0.017
82433169|NCT00244725|164575603|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.32||||0.08|TWO_SIDED|95.0|1.0|1.8|||Fisher Exact|||||1.8|1.0|0.080
82433170|NCT02689206|164575730|OTHER||Mean Difference (Final Values)|0.57|||||TWO_SIDED|95.0|-0.31|1.45|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 10 mg arm from Placebo along with 95 percent CI are presented.|||1.45|-0.31|
82433171|NCT02689206|164575730|OTHER||Mean Difference (Final Values)|0.51|||||TWO_SIDED|95.0|-0.4|1.42|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 15 mg arm from Placebo along with 95 percent CI are presented.|||1.42|-0.40|
82433172|NCT02689206|164575730|OTHER||Mean Difference (Final Values)|1.47|||||TWO_SIDED|95.0|0.59|2.35|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 25 mg arm from Placebo along with 95 percent CI are presented.|||2.35|0.59|
82452905|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.0007
82452906|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.2221|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.2221
82452907|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
82452908|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0147|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0147
82452909|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0201|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0201
82452910|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
82452911|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0036
82452912|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0789|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0789
82452913|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
82452914|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0008
82537873|NCT04927975|164774723|SUPERIORITY|Repeated measures analysis was conducted using a mixed model including observed measurements at all visits. The model included categorical fixed effects of treatment, visit and treatment-by-visit interaction, and stratification factors (age \[≤ 50 and \> 50\], Baseline disease severity \[T-VASI \< 15 and ≥ 15\], active vitiligo \[Yes/No\]) derived from actual values, and the continuous fixed covariate of Baseline measurement. An unstructured variance covariance matrix was used.|LS Mean Difference|-1.1||||0.754|TWO_SIDED|95.0|-7.8|5.6|||Mixed-Effect Model Repeat Measurement|||Upa 22 mg Period 1 versus Placebo Period 1||5.6|-7.8|0.754
82433173|NCT02689206|164575730|OTHER||Mean Difference (Final Values)|1.67|||||TWO_SIDED|95.0|0.77|2.57|||||Analysis using a Repeated Measures Model with terms included for baseline, treatment, time and treatment\*time. Model-adjusted treatment difference of dapro 30 mg arm from Placebo along with 95 percent CI are presented.|||2.57|0.77|
82433174|NCT00177294|164575770|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Regression, Logistic|||We conducted Cox regreassion analyses of time to remission and logistic modeling for rates of remission. We tested group difference in Hamilton depession ratings over time via mixed-effects modeling.||||0.14
82433175|NCT02998671|164575771|SUPERIORITY|Comparison at end of Period 1 (P1): CJM112 versus Placebo.|Ratio of geometric means|1.18|||||TWO_SIDED|90.0|0.79|1.81|||Bayesian model for repeated measurements||"Ratio of Geometric Means (CJM112 / Placebo) calculated. A value \> 1 indicates a higher number of lesion counts in the CJM112 group.~Bayesian analysis. The credible interval was calculated and presented under confidence interval."|||1.81|0.79|
82433176|NCT02998671|164575771|SUPERIORITY|Comparison at end of Period 1 (P1): CJM112 versus Placebo.|Ratio of geometric means|1.1|||||TWO_SIDED|90.0|0.66|1.8|||Bayesian model for repeated measurements||"Ratio of Geometric Means (CJM112 / Placebo) calculated. A value \> 1 indicates a higher number of lesion counts in the CJM112 group.~Bayesian analysis. The credible interval was calculated and presented under confidence interval."|||1.80|0.66|
82433177|NCT00595881|164575793|SUPERIORITY_OR_OTHER||Difference in sensitivity|-1.7|||||TWO_SIDED|95.0|-3.4|0.0||"We calculated the differences between the sensitivities and specificities. The difference in sensitivity between the clinical exam alone vs clinical exam + ultrasound was -1.7% (-3.4%, 0%).~The difference in specificity was -2.8% (-9.7%, 4.1%)."|Mixed effects logistic regression|We used the bootstrap method to obtain valid confidence intervals and compare sensitivity and specificity for the 2 tests.|The clinical exam alone was compared to the clinical exam + ultrasound.|See sample size calculations already entered. Null hypothesis is that there is no difference in the sensitivity or specificity of clinical exam alone compared with clinical exam+ultrasound.||0|-3.4|
82433178|NCT00595881|164575793|SUPERIORITY_OR_OTHER||Difference in specificity|-2.8||||||95.0|-9.7|4.1||Statistical significance was defined as a CI surrounding the difference between groups not including 0.||as previously described for sensitivity||as previously described for sensitivity||4.1|-9.7|
82433179|NCT00191945|164575795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-11.0|-4.8|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at week 12 (Atomoxetine minus Placebo)|||-4.8|-11.0|<0.001
82433180|NCT00191945|164575796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.5|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.5|-3.6|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at Week 9 (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-3.6|-9.5|<0.001
82433181|NCT00191945|164575797|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2|STANDARD_ERROR_OF_MEAN|1.5||0.0009||95.0|-8.2|-2.2|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at 6 weeks (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-2.2|-8.2|0.0009
82433182|NCT00191945|164575798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.3||0.0033||95.0|-6.4|-1.3|||Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference at 4 weeks (Atomoxetine - Placebo)|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-1.3|-6.4|0.0033
82452915|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.1903|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.1903
82452916|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
82452917|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.0048
82452918|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.1059|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.1059
82452919|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
82452920|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0018
82452921|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.2589|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.2589
82537874|NCT02929069|164774754|SUPERIORITY||Risk Ratio (RR)|0.88||||0.52|TWO_SIDED|95.0|0.52|1.25|||Regression, Logistic|||||1.25|.52|0.52
82537875|NCT02081391|164774821|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.0404|TWO_SIDED|95.0|-0.09|0.0|||ANOVA|||The endpoint was analyzed using an analysis of variance model. This included treatment, baseline age group, and the used SOAM as factors. For participants discontinuing treatment before 12 hours for any other reason than no further need of opioid analgesics or switch to exclusively oral opioid analgesics, cumulative SOAM use over the respective time period was based on the observed SOAM use up to the time of the participant's discontinuation.||0|-0.09|0.0404
82537876|NCT02081391|164774822|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0154|TWO_SIDED|95.0|-0.18|-0.02|||ANOVA|||The endpoint was analyzed using an analysis of variance model. This included treatment, baseline age group, and the used supplemental opioid analgesic medication (SOAM) as factors. For participants discontinuing treatment before 24 hours for any other reason than no further need of SOAM or switch to exclusively oral opioid analgesics, cumulative SOAM use over the respective time period was based on the observed SOAM use up to the time of the participant's discontinuation.||-0.02|-0.18|0.0154
82537877|NCT00813488|164774849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|0.06|0.2|||Mixed effects ANOVA crossover model|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID15 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.20|0.06|0.0004
82537878|NCT00813488|164774850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.2242|TWO_SIDED|95.0|-0.01|0.05||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID5 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.05|-0.01|0.2242
82537879|NCT00813488|164774851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.05||0.0106|TWO_SIDED|95.0|0.01|0.11||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID10 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.11|0.01|0.0106
82537880|NCT00813488|164774852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.21|0.4||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID30 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.40|.21|<0.0001
82561837|NCT02964234|164832867|SUPERIORITY||Odds Ratio (OR)|6.15|||<|0.0001|TWO_SIDED|95.0|2.82|13.32||Analyses clustered by cohort and adjusted for age, SES (education, income, insurance), mammography history, mammography intention, and baseline supportive breast cancer social network size.|Ordinal regression|||We used ordinal regression, given the non-normal distribution revealed by preliminary analyses. Analyses clustered by cohort and adjusted for age, SES (education, income, insurance), mammography history, mammography intention, and baseline supportive breast cancer social network size. Power analyses suggested that with 150 Latinas, alpha = .05, power = .80, we would be able to detect a small effect (Cohen's f = 0.05).||13.32|2.82|<0.0001
82648816|NCT02270983|165013397|SUPERIORITY||Least squares mean difference|0.987|STANDARD_ERROR_OF_MEAN|0.217|<|0.0001|TWO_SIDED|95.0|0.558|1.416|||ANCOVA|||||1.416|0.558|<0.0001
82433183|NCT00191945|164575799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.7|STANDARD_ERROR_OF_MEAN|1.1||0.013||95.0|-4.9|-0.6||P-value is for the difference between groups in the change from 12 weeks minus 6 weeks.|Mixed Models Analysis|Mixed Model Repeated Measures analysis method: treatment, study site, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction.|Least Squares Mean difference between groups (Atomoxetine - Placebo) in change from 6 weeks to 12 weeks|A gatekeeper strategy was employed for sequentially testing the secondary hypotheses using a REML-based Mixed-Model Repeated Measures (MMRM) technique as defined for the primary efficacy analyses. If primary hypothesis is significant at 0.05 (2-sided), first secondary hypothesis will be tested at Visit 6 from MMRM. If comparison is significant, subsequent secondary hypotheses will be tested in sequence until first null hypothesis fails to be rejected.||-0.6|-4.9|0.013
82452922|NCT00445770|164612000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
82452923|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.0040
82452924|NCT00445770|164612000|SUPERIORITY_OR_OTHER|||||||0.2326|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.2326
82452925|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
82452926|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
82452927|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.4751|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.4751
82452928|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
82452929|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
82537881|NCT00813488|164774853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|0.18|0.37||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID45 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||.37|0.18|<0.0001
82537882|NCT00813488|164774854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.15||0.0002|TWO_SIDED|95.0|0.08|0.27||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||The statistical hypothesis to be tested was: HO: µFBT = µOXY versus Ha: µFBT ≠ µoxy where µFBT and µOXY denote the mean PID60 for double-blind episodes for which patients use FBT and OXY, respectively. The primary variable was analyzed using a mixed effects ANOVA crossover model, with treatment as randomized (FBT or OXY), period, and treatment sequence (as randomized) as fixed factors and patient as a random factor, using compound symmetry for the variance-covariance matrix.||0.27|0.08|0.0002
82537883|NCT00813488|164774861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.5|||ANOVA|||||0.50|0.25|<0.0001
82537884|NCT00813488|164774862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.0001|TWO_SIDED|95.0|0.55|1.1|||ANOVA|||||1.10|.55|<0.0001
82537885|NCT00813488|164774863|SUPERIORITY_OR_OTHER|||||||0.5575|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.5575
82537886|NCT00813488|164774864|SUPERIORITY_OR_OTHER|||||||0.0981|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0981
82537887|NCT00813488|164774865|SUPERIORITY_OR_OTHER|||||||0.0443|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0443
82537888|NCT00813488|164774866|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0004
82537889|NCT00813488|164774867|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0001
82537890|NCT00813488|164774868|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|P-value for the treatment comparison is from a one-sample Wilcoxon signed rank test.||||||0.0018
82452930|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.4653|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.4653
82452931|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
82452932|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
82452933|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.7953|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.7953
82452934|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
82452935|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
82452936|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0848|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0848
82452937|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
82452938|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
82452939|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.6112|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.6112
82452940|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||<0.0001
82452941|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0002
82537891|NCT00813488|164774869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|0.58|0.9||LS mean, SE of LS mean and p-value for treatment comparison are from ANOVA based on individual episodes with treatment as randomized, phase, and sequence as fixed factors and patient as random factor, using compound symmetry.|ANOVA|||||0.90|0.58|<0.0001
82537892|NCT00813488|164774871|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1464||||0.7012|TWO_SIDED|95.0|0.6|2.3|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.3|0.6|0.7012
82561838|NCT01799993|164832869|SUPERIORITY||Odds Ratio (OR)|0.841||||0.4263|TWO_SIDED|95.0|0.554|1.277|||Cochran-Mantel-Haenszel|||||1.277|0.554|0.4263
82452942|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.3671|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.3671
82452943|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
82452944|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
82452945|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.7618|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.7618
82452946|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
82452947|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
82452948|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.4358|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.4358
82537893|NCT00813488|164774872|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0704||||0.6545|TWO_SIDED|95.0|0.8|1.4|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.4|0.8|0.6545
82537894|NCT00813488|164774873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2544||||0.0407|TWO_SIDED|95.0|1.0|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|1.0|0.0407
82537895|NCT00813488|164774874|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5745||||0.0007|TWO_SIDED|95.0|1.2|2.0|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.0|1.2|0.0007
82648817|NCT02270983|165013398|SUPERIORITY||Least squares mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.145||0.0017|TWO_SIDED|95.0|-0.746|-0.174|||ANCOVA|||||-0.174|-0.746|0.0017
82452949|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.0008
82452950|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
82452951|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.6267|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.6267
82452952|NCT00445770|164612001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
82452953|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0004
82452954|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.3564|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.3564
82452955|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.0007
82452956|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.0035
82452957|NCT00445770|164612001|SUPERIORITY_OR_OTHER|||||||0.4749|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.4749
82452958|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||<0.0001
82452959|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0001
82452960|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.4376|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.4376
82452961|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
82452962|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||<0.0001
82452963|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.3947|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.3947
82452964|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
82452965|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
82452966|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.7378|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.7378
82452967|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0001
82452968|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||<0.0001
82452969|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.568|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.5680
82452970|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0003
82537896|NCT00813488|164774875|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5828||||0.0372|TWO_SIDED|95.0|1.0|2.4|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.4|1.0|0.0372
82561839|NCT01799993|164832870|SUPERIORITY|||||||0.6421|||||||Chi-squared|||||||0.6421
82561840|NCT01799993|164832871|SUPERIORITY|||||||0.7984|||||||Chi-squared|||||||0.7984
82648818|NCT02270983|165013398|SUPERIORITY||Least squares mean difference|-0.669|STANDARD_ERROR_OF_MEAN|0.146|<|0.0001|TWO_SIDED|95.0|-0.957|-0.382|||ANCOVA|||||-0.382|-0.957|<0.0001
82648819|NCT02270983|165013399|SUPERIORITY||Least squares mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.205||0.872|TWO_SIDED|95.0|-0.371|0.437|||ANCOVA|||||0.437|-0.371|0.8720
82648820|NCT02270983|165013399|SUPERIORITY||Least squares mean difference|-0.607|STANDARD_ERROR_OF_MEAN|0.205||0.0034|TWO_SIDED|95.0|-1.011|-0.203|||ANCOVA|||||-0.203|-1.011|0.0034
82452971|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||<0.0001
82452972|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.3978|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.3978
82452973|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||<0.0001
82537897|NCT00813488|164774876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3722||||0.3099|TWO_SIDED|95.0|0.7|2.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.5|0.7|0.3099
82537898|NCT00813488|164774877|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8434||||0.5777|TWO_SIDED|95.0|0.5|1.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.5|.5|0.5777
82648821|NCT04132232|165013438|SUPERIORITY|||||||0.06|||||||Chi-squared|||||||0.06
82648822|NCT00368537|165013441|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|0.0||||||95.0|-8.7|8.6|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|||8.6|-8.7|
82648823|NCT00368537|165013442|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.2||||||95.0|-9.6|14.0|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|||14.0|-9.6|
82648824|NCT00368537|165013443|NON_INFERIORITY_OR_EQUIVALENCE|A 2-sided 95% CI (corrected for continuity) was calculated for the true difference between the cure rates. Non-inferiority will be concluded if the lower limit of the 2-sided CI is greater than -15%.|Risk Difference (RD)|2.4||||||95.0|-9.6|14.4|||||Confidence interval calculated using asymptotic method corrected for continuity. Difference= Tigecycline minus Ampicillin-Sulbactam or Amoxicillin-Clavulanate.|Group comparison of eradication + presumed eradication||14.4|-9.6|
82648825|NCT00368537|165013445|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.2||||0.444||95.0|-4.4|2.0|||Fisher Exact|2-sided||Intensive care unit||2.0|-4.4|0.444
82648826|NCT01797120|165013481|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.02|TWO_SIDED|95.0|0.4|0.92|||Log Rank|Log rank test was stratified on ECOG performance status, measurable disease, and prior chemotherapy for metastatic disease||||0.92|0.40|0.02
82648827|NCT01797120|165013482|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
82648828|NCT01797120|165013483|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82648829|NCT00672620|165013487|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.036||0.577|TWO_SIDED|95.0|-2.61|1.46||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||All statistical tests were 2-sided with 95% confidence intervals (CIs), and with P-values evaluated at the 5% significance level (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 5 mg and 2.5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||1.46|-2.61|0.577
82452974|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0001
82452975|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.7229|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.7229
82452976|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
82452977|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||<0.0001
82452978|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.7236|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.7236
82452979|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
82452980|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
82452981|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.9719|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.9719
82452982|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
82537899|NCT00813488|164774878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986||||0.9567|TWO_SIDED|95.0|0.6|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|0.6|0.9567
82561841|NCT01799993|164832872|SUPERIORITY|||||||0.7144|||||||ANOVA|||||||0.7144
82648830|NCT00672620|165013487|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.038||0.138|TWO_SIDED|95.0|-3.58|0.5|||ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||||0.50|-3.58|0.138
82433184|NCT00191945|164575802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.7|STANDARD_ERROR_OF_MEAN|2.3|<|0.001||95.0|-15.1|-6.2||P-value is for the difference between groups in the change from 12 weeks minus baseline.|Mixed Models Analysis|mixed model repeated measures analyis: treatment, visit, patient, and CPRS-R: S Total score at baseline as covariate, with treatment\*visit interaction|Least Squares Mean difference between groups (Atomoxetine - Placebo) in change from baseline to 12 weeks.|||-6.2|-15.1|<0.001
82433185|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.47||||0.81||95.0|-3.39|4.33||P-value for Parent: Satisfaction difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||4.33|-3.39|0.810
82433186|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.96||||0.243||95.0|-1.35|5.29||P-value for Parent: Comfort difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||5.29|-1.35|0.243
82433187|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.56||||0.419||95.0|-2.26|5.39||P-value for Parent: Resilience difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||5.39|-2.26|0.419
82433188|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.41|||<|0.001||95.0|4.27|12.55||P-value for Parent:Risk Avoidance difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||12.55|4.27|<0.001
82433189|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.39||||0.042||95.0|0.13|6.65||P-value for Parent:Achievement difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||6.65|0.13|0.042
82433190|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.323||95.0|-4.06|1.35||P-value for Child/Adolescent:Satisfaction difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||1.35|-4.06|0.323
82433191|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92||||0.452||95.0|-1.49|3.34||P-value for Child/Adolescent:Comfort difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||3.34|-1.49|0.452
82433192|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.91||95.0|-2.59|2.9||P-value for Child/Adolescent:Resilience difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||2.90|-2.59|0.910
82433193|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.006||95.0|1.04|6.08||P-value for Child/Adolescent:Risk Avoidance difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||6.08|1.04|0.006
82433194|NCT00191945|164575803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.99||||0.541||95.0|-2.21|4.19||P-value for Child/Adolescent:Achievement difference (Atomoxetine - Placebo) in the change from 12 weeks minus baseline.|ANCOVA|||ANCOVA model: Dependent variable=standardized mean scores of domain at Visit 7 minus scores at Visit 1; Factors=Treatment, Investigator, Rater; Covariate=standardized mean scores of domain at Visit 1. Both treatment by rater and treatment by covariate interaction terms included in model.||4.19|-2.21|0.541
82433195|NCT04776720|164575928|SUPERIORITY||Model based LS mean difference|0.19||||0.743|TWO_SIDED|95.0|-0.95|1.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.34|-0.95|0.743
82433196|NCT04776720|164575929|SUPERIORITY||Model based LS mean difference|0.98||||0.043|TWO_SIDED|95.0|0.03|1.93|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.93|0.03|0.043
82433197|NCT04776720|164575930|SUPERIORITY||Model based LS mean difference|0.99||||0.689|TWO_SIDED|95.0|-3.87|5.84|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with variance co-variance matrix||||5.84|-3.87|0.689
82433198|NCT04776720|164575931|SUPERIORITY||Model based LS mean difference|-0.28||||0.685|TWO_SIDED|95.0|-1.63|1.07|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.07|-1.63|0.685
82648831|NCT00672620|165013487|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.96|STANDARD_ERROR_OF_MEAN|1.047||0.005|TWO_SIDED|95.0|-5.02|-0.91|||ANCOVA|ANCOVA with treatment and center as fixed factors, baseline HAM-D24 as covariate.||||-0.91|-5.02|0.005
82433199|NCT04776720|164575932|SUPERIORITY||Model based LS mean difference|0.3||||0.764|TWO_SIDED|95.0|-1.69|2.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.3|-1.69|0.764
82561842|NCT01799993|164832873|SUPERIORITY|||||||0.4278|||||||ANOVA|||||||0.4278
82452983|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
82537900|NCT00813488|164774879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1366||||0.4253|TWO_SIDED|95.0|0.8|1.6|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.6|0.8|0.4253
82537901|NCT00813488|164774880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4269||||0.0038|TWO_SIDED|95.0|1.1|1.8|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.8|1.1|0.0038
82537902|NCT00813488|164774881|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5118||||0.0012||95.0|1.2|1.9|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|1.2|0.0012
82537903|NCT00813488|164774882|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5826||||0.0074|TWO_SIDED|95.0|1.1|2.2|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||2.2|1.1|0.0074
82537904|NCT00813488|164774883|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.059||||0.8444|TWO_SIDED|95.0|0.6|1.9|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A logit link function and compound symmetry working correlation were applied in this model.||1.9|0.6|0.8444
82537905|NCT00813488|164774884|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6033|||<|0.0001|TWO_SIDED|95.0|1.4|1.8|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.8|1.4|<0.0001
82537906|NCT00813488|164774885|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3334|||<|0.0001|TWO_SIDED|95.0|1.2|1.5|||Generalized Estimating Equation|||Analysis is based on a generalized estimating equation model with treatment as a fixed effect and patient as a random effect. A cumulative logit link function and independent working correlation were applied in this model. Treatment differences for each time point were measured across all categories of responses.||1.5|1.2|<0.0001
82537907|NCT02926937|164774895|SUPERIORITY||Difference in Least Squares (LS) Mean|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.975|-0.415|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.415|-0.975|<0.0001
82537908|NCT02926937|164774896|SUPERIORITY||Difference in LS Mean|-0.565||||0.0141|TWO_SIDED|95.0|-1.0166|-0.114|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, country, treatment-by-country as fixed effects, and baseline HbA1c as a covariate.||-0.1140|-1.0166|0.0141
82537909|NCT02926937|164774897|SUPERIORITY||Difference in LS Mean|-0.346||||0.2081|TWO_SIDED|95.0|-0.8853|0.1928|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups under Amendment 1 randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, country, treatment-by-country as fixed effects, and baseline HbA1c as a covariate.||0.1928|-0.8853|0.2081
82537910|NCT02926937|164774898|SUPERIORITY||Difference in LS Mean|-1.556|||<|0.0001|TWO_SIDED|95.0|-2.1876|-0.9234|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥ 130mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.9234|-2.1876|<0.0001
82537911|NCT02926937|164774899|SUPERIORITY||Difference in LS Mean|-3.5||||0.168|TWO_SIDED|95.0|-8.478|1.476|||ANCOVA|||The change from baseline to Week 12 is analyzed using analysis ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening and country as fixed effects, and baseline SBP as a covariate.||1.476|-8.478|0.1680
82433200|NCT04776720|164575933|SUPERIORITY||Model based LS mean difference|-0.12||||0.883|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.53|-1.78|0.883
82433201|NCT04776720|164575934|SUPERIORITY||Model based LS mean difference|-0.11||||0.753|TWO_SIDED|95.0|-0.83|0.6|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.6|-0.83|0.753
82537912|NCT02926937|164774900|SUPERIORITY||Difference in LS Mean|-0.78||||0.5467|TWO_SIDED|95.0|-3.311|1.753|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||1.753|-3.311|0.5467
82648832|NCT01578707|165013502|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82648833|NCT01578707|165013503|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
82433202|NCT04776720|164575935|SUPERIORITY||Model based LS mean difference|-3.4||||0.276|TWO_SIDED|95.0|-9.54|2.74|||Mixed Models Analysis|Adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.74|-9.54|0.276
82452984|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.9349|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.9349
82648834|NCT01578707|165013504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1653|||||||Log Rank|||||||0.1653
82452985|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
82452986|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0002
82452987|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.7226|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.7226
82537913|NCT02926937|164774901|SUPERIORITY||Difference in LS Mean|-3.19||||0.0193|TWO_SIDED|95.0|-5.869|-0.518|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-0.518|-5.869|0.0193
82433203|NCT04776720|164575936|SUPERIORITY||Model based LS mean difference|-0.29||||0.319|TWO_SIDED|95.0|-0.86|0.28|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.28|-0.86|0.319
82433204|NCT04776720|164575937|SUPERIORITY||Model based LS mean difference|0.1||||0.448|TWO_SIDED|95.0|-0.15|0.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.34|-0.15|0.448
82433205|NCT02227810|164576005|OTHER|||||||0.652|||||||t-test, 2 sided|||||||0.652
82433206|NCT02227810|164576005|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|||||||0.123
82433207|NCT02227810|164576006|SUPERIORITY|||||||0.051|||||||t-test, 2 sided|||||||0.051
82433208|NCT02227810|164576006|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82433209|NCT02227810|164576007|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 2 sided|||||||0.051
82433210|NCT02227810|164576008|SUPERIORITY_OR_OTHER|||||||0.792|||||||t-test, 2 sided|||||||0.792
82433211|NCT02311881|164576030|SUPERIORITY_OR_OTHER||LS mean difference|-2.51||||0.1626|TWO_SIDED|95.0|-6.037|1.016|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: There is no significant difference in mean change from baseline through week 12 of WOMAC Pain between twice daily Paracetamol 1000 mg SR tablets and placebo.~H1: There is a significant difference in mean change from baseline through week 12 of WOMAC Pain between twice daily Paracetamol 1000 mg SR tablets and placebo."||1.016|-6.037|0.1626
82433212|NCT02311881|164576030|NON_INFERIORITY_OR_EQUIVALENCE|Paracetamol 2000mg BID is non-inferior to Paracetamol 1330mg TID if the upper bound of the 95% confidence Interval is less than 5.3.|LS mean difference|-2.36|||||TWO_SIDED|95.0|-5.894|1.166|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: Difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 1000 mg SR tablet and Paracetamol 665 mg SR tablet is ≤ - 5.3 (inferiority).~H1: Difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 1000 mg SR tablet and Paracetamol 665 mg SR tablet is \> - 5.3 (noninferiority)."||1.166|-5.894|
82433213|NCT02311881|164576030|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.9352|TWO_SIDED|95.0|-3.687|3.394|||ANCOVA||LS treatment means from mixed model analysis of covariance with treatment, target joint and center pools as fixed effects and baseline as a covariate.|"H0: There is no significant difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 665 mg SR tablets and placebo.~H1: There is a significant difference in mean change from baseline through week 12 of WOMAC Pain between Paracetamol 665 mg SR tablets and placebo."||3.394|-3.687|0.9352
82433214|NCT03063606|164576040|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.0002|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session.||||||.0002
82537914|NCT02926937|164774902|SUPERIORITY||Difference in LS Mean|-1.54||||0.0005|TWO_SIDED|95.0|-2.404|-0.676|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.676|-2.404|0.0005
82537915|NCT02926937|164774903|SUPERIORITY||Difference in LS Mean|-1.17||||0.0406|TWO_SIDED|95.0|-2.281|-0.05|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130mmHg) at screening, and country as fixed effects, and baseline weight as a covariate.||-0.050|-2.281|0.0406
82648835|NCT01202994|165013518|OTHER||correlation coefficient|-0.45|||<|0.05|TWO_SIDED|||||This is a calculated p-value.|correlation|||The primary analysis is to examine the correlation between the practice effect z-score (presented in the Secondary Outcome section) and the standardized uptake value of flutemetamol (presented in the Outcome module).||||<0.05
82433215|NCT03063606|164576041|SUPERIORITY|||||||0.83||||||Analyses used all available data. Analyses to compare treatments were all intent-to-treat.|Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session.||||||.83
82433216|NCT01597908|164576062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.58|0.83|||||Hazard ratios are estimated using a Pike estimator.|||0.83|0.58|
82433217|NCT01597908|164576063|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.52|0.73|||||Hazard ratios are estimated using a Pike estimator.|||0.73|0.52|
82433218|NCT01597908|164576065|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.51|0.81||||||||0.81|0.51|
82433219|NCT03430843|164576074|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0001|TWO_SIDED|95.0|0.57|0.85|||1-sided, Log Rank Test|||||0.85|0.57|0.0001
82433220|NCT04551963|164576188|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.49|||||TWO_SIDED|90.0|0.42|0.56||||||Arm A: Zanubrutinib alone vs. Zanubrutinib + fluconazole||0.56|0.42|
82433221|NCT04551963|164576188|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.42|||||TWO_SIDED|90.0|0.34|0.51||||||Arm a: Zanubrutinib alone vs. Zanubrutinib + diltiazem||0.51|0.34|
82433222|NCT04551963|164576189|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.81|||||TWO_SIDED|90.0|0.66|0.99||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||0.99|0.66|
82452988|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
82433223|NCT04551963|164576189|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.49|||||TWO_SIDED|90.0|0.41|0.58||||||Arm B: Zanubrutinib alone vs zanubrutinib + clarithromycin||0.58|0.41|
82433224|NCT04551963|164576190|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.94|||||TWO_SIDED|90.0|0.82|1.08||||||Arm A: Zanubrutinib alone vs. zanubrutinib + fluconazole||1.08|0.82|
82433225|NCT04551963|164576190|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.81|||||TWO_SIDED|90.0|0.66|0.99||||||Arm A: Zanubrutinib alone vs. zanubrutinib + diltiazem||0.99|0.66|
82433226|NCT04551963|164576191|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.83|||||TWO_SIDED|90.0|0.65|1.06||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||1.06|0.65|
82433227|NCT04551963|164576191|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.48|||||TWO_SIDED|90.0|0.4|0.58||||||Arm B: Zanubrutinib alone vs zanubrutinib + clarithromycin||0.58|0.40|
82433228|NCT04551963|164576192|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.45|||||TWO_SIDED|90.0|0.35|0.58||||||Arm A: Zanubrutinib alone vs. zanubrutinib + fluconazole||0.58|0.35|
82433229|NCT04551963|164576192|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.41|||||TWO_SIDED|90.0|0.32|0.51||||||Arm A: Zanubrutinib alone vs. zanubrutinib + diltiazem||0.51|0.32|
82452989|NCT00445770|164612002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
82537916|NCT02926937|164774904|SUPERIORITY||Percentage Difference|12.6||||0.0037|TWO_SIDED|95.0|4.18|21.02|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from each stratum (randomization strata of HbA1c (\<=8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, \>=130 mmHg) at screening) using Cochran-Mantel-Haenszel weights.||21.02|4.18|0.0037
82537917|NCT02926937|164774905|SUPERIORITY||Percentage Difference|19.2||||0.0007|TWO_SIDED|95.0|8.39|30.0|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups from each stratum (randomization strata of HbA1c (\<=8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, \>=130 mmHg) at screening) using Cochran-Mantel-Haenszel weights.||30.00|8.39|0.0007
82433230|NCT04551963|164576193|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.82|||||TWO_SIDED|90.0|0.68|1.0||||||Arm B: Zanubrutinib alone vs. zanubrutinib + voriconazole||1.00|0.68|
82433231|NCT04551963|164576193|EQUIVALENCE|Two one sided tests procedure by estimation of ratio of geometric means and 90% CI; exponential transformation from estimated difference in natural logarithm scale obtained from linear mixed effect model with treatment as a fixed effect and participant as a random effect.|Ratio of geometric least squares mean|0.5|||||TWO_SIDED|90.0|0.39|0.64||||||Arm B: Zanubrutinib alone vs. zanubrutinib + clarithromycin||0.64|0.39|
82433232|NCT01204905|164576226|OTHER|This was a pilot study with a small sample population. There were no power calculations performed.|||||||||||||||||The percentage of patients with HIV-1 viral loads less than 50 c/ml at 48 weeks.|||
82433233|NCT01204905|164576227|OTHER|There were no power calculations performed due to the size of the pilot study.|||||||||||||||||Number of weeks to virologic suppression|||
82433234|NCT01309997|164576243|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82433235|NCT01309997|164576243|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82433236|NCT00282087|164576244|SUPERIORITY_OR_OTHER||Two year PFS|78.0||||0.15|TWO_SIDED|95.0|67.0|91.0|||Bayesian Posterior Probability|||The primary endpoint is progression-free survival time, with progression defined as a patient having evidence of recurrent LMS on follow-up evaluation and CT scan. Futility monitoring will be based on the accumulating right-censored PFS time data. The monitoring rules will be based on a Bayesian model.||91|67|0.15
82452990|NCT00445770|164612002|SUPERIORITY_OR_OTHER|||||||0.5512|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.5512
82452991|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0162|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0162
82452992|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0035|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.0035
82537918|NCT02926937|164774906|SUPERIORITY||Difference in LS Mean|-0.67|||<|0.0001|TWO_SIDED|95.0|-0.989|-0.354|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.354|-0.989|<0.0001
82537919|NCT00126113|164774927|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
82537920|NCT00126113|164774928|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Analysis for main effect of group|ANOVA|||||||>0.05
82433237|NCT00282087|164576246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.00269|||||TWO_SIDED||||||Cox Proportional Hazards|||Age correlation with progression-free survival for patients on study treatment.||||
82433238|NCT00282087|164576247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.02|||||TWO_SIDED||||||Cox Proportional Hazards|||Menopausal status at diagnosis correlation with progression-free survival for patients on study treatment.||||
82433239|NCT00282087|164576248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.101|||||TWO_SIDED||||||Cox Proportional Hazards|||Uterine serosal involvement correlation with progression-free survival for patients on study treatment.||||
82433240|NCT00282087|164576249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.00676|||||TWO_SIDED||||||Cox Proportional Hazards|||Mitotic rate correlation with progression-free survival for patients on study treatment.||||
82433241|NCT00282087|164576250|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.708|||||TWO_SIDED||||||Cox Proportional Hazards|||Estrogen receptor (ER) status correlation with progression-free survival for patients on study treatment.||||
82452993|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.8928|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 2||||0.8928
82452994|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.0009
82452995|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.0007
82452996|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.6348|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 4||||0.6348
82537921|NCT00126113|164774929|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
82452997|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0026|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.0026
82452998|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||<0.0001
82452999|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.4629|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 8||||0.4629
82453000|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0841|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0841
82453001|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.0007
82453002|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.1957|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 12||||0.1957
82433242|NCT00282087|164576251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.906|||||TWO_SIDED||||||Cox Proportional Hazards|||Progesterone receptor (PR) status correlation with progression-free survival for patients on study treatment.||||
82433243|NCT00282087|164576252|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.207|||||TWO_SIDED||||||Cox Proportional Hazards|||1988 FIGO Stage correlation with progression-free survival for patients on study treatment.||||
82433244|NCT00282087|164576253|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|-0.564|||||TWO_SIDED||||||Cox Proportional Hazards|||Estrogen receptor (ER) or progesterone receptor (PR) positive correlation with progression-free survival for patients on study treatment.||||
82433245|NCT03462641|164576272|SUPERIORITY||t-value|-2.15|STANDARD_DEVIATION|1.32||0.0407|TWO_SIDED|||||Alpha was set to 0.05.|Paired-Sample Two-Tailed T-Test|||Null hypothesis was no difference in PIGD score within participants before and after flumazenil infusion.||||0.0407
82433246|NCT03462641|164576272|OTHER||F-value|2.861||||0.103|TWO_SIDED|||||"P value is given for the Drug\*Time term, which represents interaction between time relative to administration (before infusion vs after infusion) and treatment administered (placebo vs flumazenil).~Alpha was set to 0.05."|Repeated Measures ANCOVA|||Null hypothesis is that there is no significant interaction between drug and time of administration (pre vs. post infusion).||||0.103
82453003|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0093|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0093
82453004|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0326|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.0326
82453005|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.7426|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 16||||0.7426
82453006|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0013
82453007|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.0015
82453008|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.6552|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 20||||0.6552
82453009|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.0005
82453010|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.0004
82453011|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.6294|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 24||||0.6294
82453012|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||<0.0001
82453013|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.0001
82453014|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.4652|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 32||||0.4652
82537922|NCT00126113|164774930|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|Analysis for main effect of group||||||>0.05
82537923|NCT00836810|164775039|SUPERIORITY||||||<|0.001||||||A priory test for statistical significance was P\<0.05|t-test, 2 sided|||||||<0.001
82537924|NCT00836810|164775039|SUPERIORITY||||||<|0.001||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.001
82537925|NCT00836810|164775039|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||||||A priori statistical significance set as P\<0.05|t-test, 2 sided|||||||<0.01
82537926|NCT00836810|164775040|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|A priori statistical significance set at P\<0.05||||||<0.001
82537927|NCT00836810|164775040|SUPERIORITY||||||<|0.01||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.01
82537928|NCT00836810|164775040|SUPERIORITY||||||<|0.01||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||<0.01
82537929|NCT00836810|164775041|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.023
82537930|NCT00836810|164775041|SUPERIORITY|||||||0.0906||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.0906
82537931|NCT00836810|164775041|SUPERIORITY|||||||0.044||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.044
82433247|NCT03462641|164576273|OTHER||Standardized β Coefficient|0.6||||2.9e-07|TWO_SIDED|95.0|0.13|1.07||P value presented is for model comparison between interaction model and random intercept model.|Mixed Models Analysis|||A pair of maximum likelihood mixed linear models were estimated. The first was a random intercept model that merely accounted for individual differences in PIGD score before infusion. The second was an interaction model, that added an interaction term between baseline FMZ PET binding and PIGD score change from pre to post infusion. The interaction model was compared against the random intercept model to determine significance of the interaction using likelihood ratio goodness of fit test.||1.07|0.13|0.00000029
82433248|NCT01804049|164576274|SUPERIORITY|Hypothesis: metformin will reduce loss of total lean mass in insulin-resistant older adults over a three year period. It was determined (prior to the initiation of the study) that a sample size of 60 participants per group will have a 73% power to detect a 0.09 m/s difference in gait speed.||||||0.45||||||For lean total body mass, t(118)=0.744, p=0.45.|t-test, 2 sided|T-test calculation for total lean mass: 0.74.||||||0.45
82433249|NCT01804049|164576274|SUPERIORITY|Hypothesis: metformin will reduce loss of total appendicular lean mass in insulin-resistant older adults over a three year period. It was determined (prior to the initiation of the study) that a sample size of 60 participants per group will have a 73% power to detect a 0.09 m/s difference in gait speed.||||||0.79||||||For lean appendicular body mass, t(118) = 0.264, p=0.79.|t-test, 2 sided|T-test calculation appendicular lean mass: 0.26.||||||0.79
82433250|NCT01804049|164576275|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|t(118)=0.703, p=0.48||||||0.48
82433251|NCT04301934|164576310|NON_INFERIORITY|The prevalence of UTI for the LASER group and vaginal estrogen group was calculated. Non-inferiority test using Farrington-Manning method was applied to test the risk difference against the pre-specified non-inferiority margin (20%).||||||0.034|||||||Farrington-Manning|||||||0.034
82433252|NCT01262638|164576318|SUPERIORITY||Difference in Least Squares Means|-15.7|||<|0.0001|TWO_SIDED|95.0|-21.8|-9.7|||ANCOVA|||||-9.7|-21.8|<0.0001
82433253|NCT01262638|164576318|SUPERIORITY||Difference in Least Squares Means|-22.9|||<|0.0001|TWO_SIDED|95.0|-28.9|-16.9|||ANCOVA|||||-16.9|-28.9|<0.0001
82433254|NCT01262638|164576318|SUPERIORITY||Difference in Least Squares Means|-24.5|||<|0.0001|TWO_SIDED|95.0|-30.5|-18.4|||ANCOVA|||||-18.4|-30.5|<0.0001
82433255|NCT04855240|164576356|SUPERIORITY||LSM difference|-10.5|STANDARD_ERROR_OF_MEAN|7.61||0.1683|TWO_SIDED|95.0|-25.4|4.4|||ANOVA|||||4.4|-25.4|0.1683
82433256|NCT04855240|164576356|SUPERIORITY||LSM difference|1.6|STANDARD_ERROR_OF_MEAN|7.64||0.8356|TWO_SIDED|95.0|-13.4|16.6|||ANOVA|||||16.6|-13.4|0.8356
82433257|NCT04855240|164576357|SUPERIORITY||Hazard Ratio (HR)|0.831||||0.228|TWO_SIDED|95.0|0.598|1.155|||Log Rank|||||1.155|0.598|0.2280
82433258|NCT04855240|164576357|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5604|TWO_SIDED|95.0|0.793|1.527|||Log Rank|||||1.527|0.793|0.5604
82433259|NCT04855240|164576358|SUPERIORITY||Risk Difference (RD)|0.11||||0.2457|TWO_SIDED|95.0|-0.05|0.26|||Cochran-Mantel-Haenszel|||||0.26|-0.05|0.2457
82433260|NCT04855240|164576358|SUPERIORITY||Risk Difference (RD)|-0.06||||0.3997|TWO_SIDED|95.0|-0.22|0.09|||Cochran-Mantel-Haenszel|||||0.09|-0.22|0.3997
82433261|NCT04855240|164576359|SUPERIORITY||Risk Difference (RD)|0.07||||0.4771|TWO_SIDED|95.0|-0.09|0.22|||Cochran-Mantel-Haenszel|||||0.22|-0.09|0.4771
82433262|NCT04855240|164576359|SUPERIORITY||Risk Difference (RD)|-0.09||||0.2925|TWO_SIDED|95.0|-0.24|0.06|||Cochran-Mantel-Haenszel|||||0.06|-0.24|0.2925
82433263|NCT04855240|164576360|SUPERIORITY||Risk Difference (RD)|0.07||||0.4628|TWO_SIDED|95.0|-0.09|0.22|||Cochran-Mantel-Haenszel|||||0.22|-0.09|0.4628
82537932|NCT00836810|164775042|SUPERIORITY|||||||0.007||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.007
82537933|NCT00836810|164775042|SUPERIORITY|||||||0.002||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.002
82537934|NCT00836810|164775042|SUPERIORITY|||||||0.57||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.57
82537935|NCT00836810|164775043|SUPERIORITY|||||||0.022||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.022
82537936|NCT00836810|164775043|SUPERIORITY|||||||0.002||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.002
82537937|NCT00836810|164775043|SUPERIORITY|||||||0.51||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.51
82537938|NCT00836810|164775044|SUPERIORITY|||||||0.003||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||.003
82537939|NCT00836810|164775044|SUPERIORITY|||||||0.001||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||.001
82537940|NCT00836810|164775044|SUPERIORITY|||||||0.88||||||A priori statistical significance set at P\<0.05|t-test, 2 sided|||||||0.88
82537941|NCT02931396|164775170|SUPERIORITY||Mean Difference (Net)|2.3||||0.768|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.768
82537942|NCT02931396|164775171|SUPERIORITY||Mean Difference (Net)|25.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1
82537943|NCT02931396|164775172|SUPERIORITY||Mean Difference (Net)|2.7||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
82561843|NCT02291861|164832894|SUPERIORITY||LSM difference|-1.9||||0.001|TWO_SIDED|95.0|-3.09|-0.79||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~The primary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 36 mg/day group and the placebo group."||-0.79|-3.09|0.001
82537944|NCT05460663|164775173|EQUIVALENCE|Paired Wilcoxon signed ranks tests were used to compare changes at 12-week, 18-week, or 24-week follow-ups from the baseline scores for all measurements in each training modality separately and combined. Comparisons were made with participants who had data at both baseline and the follow-up. Difference-in-difference comparison of changes between two training modalities at each follow-up from the baseline were made to assess differences between CBT and in-person training.||||||0.083||||||The reported P-value is for differences between groups at 24-weeks post-intervention.The Benjamini \& Hochberg adjustment was applied to control for the false-discovery rate among all pairwise pre-post comparisons.|Wilcoxon (Mann-Whitney)|||||||.083
82537945|NCT03068468|164775192|SUPERIORITY||Difference|-0.2||||0.8483|TWO_SIDED|95.0|-2.0|1.6|||Mixed model for repeated measures (MMRM)|||28-item:Adjusted mean for each treatment group, difference with Placebo,95% confidence interval and p-value at each time point were based on a mixed model for repeated measures model (MMRM), with change from baseline in 28-item PSPRS total score as dependent variable and with fixed effects of treatment group, time(categorical), treatment group-by-time interaction, baseline 28-item PSPRS, baseline 28-item PSPRS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.6|-2.0|0.8483
82537946|NCT03068468|164775192|SUPERIORITY||Difference|-0.28||||0.6503|TWO_SIDED|95.0|-1.5|0.94|||MMRM|||15-items:Adjusted mean for each treatment group, difference with Placebo,95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in 15-item PSPRS total score as dependent variable and with fixed effects of treatment group, time(categorical), treatment groupby-time interaction, baseline 15-item PSPRS, baseline 15-item PSPRS by time interaction, baseline Color Trails 2 test(\<=170 or \>170 seconds) and region.||0.94|-1.50|0.6503
82652283|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.357||||0.0066|TWO_SIDED|95.0|-0.613|-0.1||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.100|-0.613|0.0066
82433264|NCT04855240|164576360|SUPERIORITY||Risk Difference (RD)|-0.09||||0.309|TWO_SIDED|95.0|-0.24|0.06|||Cochran-Mantel-Haenszel|||||0.06|-0.24|0.3090
82433265|NCT04855240|164576361|SUPERIORITY||LSM difference|-17.7|STANDARD_ERROR_OF_MEAN|15.36||0.2494|TWO_SIDED|95.0|-47.8|12.4|||ANOVA|||||12.4|-47.8|0.2494
82433266|NCT04855240|164576361|SUPERIORITY||LSM difference|5.1|STANDARD_ERROR_OF_MEAN|15.42||0.7385|TWO_SIDED|95.0|-25.1|35.4|||ANOVA|||||35.4|-25.1|0.7385
82433267|NCT04855240|164576362|SUPERIORITY||LSM difference|-22.6|STANDARD_ERROR_OF_MEAN|22.91||0.3238|TWO_SIDED|95.0|-67.5|22.3|||ANOVA|||||22.3|-67.5|0.3238
82433268|NCT04855240|164576362|SUPERIORITY||LSM difference|7.8|STANDARD_ERROR_OF_MEAN|22.99||0.7344|TWO_SIDED|95.0|-37.3|52.9|||ANOVA|||||52.9|-37.3|0.7344
82433269|NCT04855240|164576363|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|1.72||0.8489|TWO_SIDED|95.0|-3.7|3.0|||ANOVA|||||3.0|-3.7|0.8489
82433270|NCT04855240|164576363|SUPERIORITY||LSM difference|1.9|STANDARD_ERROR_OF_MEAN|1.72||0.2768|TWO_SIDED|95.0|-1.5|5.3|||ANOVA|||||5.3|-1.5|0.2768
82433271|NCT04855240|164576364|SUPERIORITY||LSM difference|-1.2|STANDARD_ERROR_OF_MEAN|2.54||0.6291|TWO_SIDED|95.0|-6.2|3.8|||ANOVA|||||3.8|-6.2|0.6291
82453015|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||<0.0001
82433272|NCT04855240|164576364|SUPERIORITY||LSM difference|2.5|STANDARD_ERROR_OF_MEAN|2.55||0.3182|TWO_SIDED|95.0|-2.5|7.5|||ANOVA|||||7.5|-2.5|0.3182
82433273|NCT04855240|164576365|SUPERIORITY||LSM difference|-4.2|STANDARD_ERROR_OF_MEAN|4.35||0.3299|TWO_SIDED|95.0|-12.8|4.3|||ANOVA|||||4.3|-12.8|0.3299
82433274|NCT04855240|164576365|SUPERIORITY||LSM difference|0.6|STANDARD_ERROR_OF_MEAN|4.37||0.8822|TWO_SIDED|95.0|-7.9|9.2|||ANOVA|||||9.2|-7.9|0.8822
82433275|NCT04855240|164576366|SUPERIORITY||LSM difference|-7.1|STANDARD_ERROR_OF_MEAN|8.62||0.4094|TWO_SIDED|95.0|-24.0|9.8|||ANOVA|||||9.8|-24.0|0.4094
82433276|NCT04855240|164576366|SUPERIORITY||LSM difference|3.4|STANDARD_ERROR_OF_MEAN|8.65||0.6901|TWO_SIDED|95.0|-13.5|20.4|||ANOVA|||||20.4|-13.5|0.6901
82433277|NCT04855240|164576367|SUPERIORITY||LSM difference|-5.1|STANDARD_ERROR_OF_MEAN|8.59||0.5536|TWO_SIDED|95.0|-21.9|11.7|||ANOVA|||||11.7|-21.9|0.5536
82433278|NCT04855240|164576367|SUPERIORITY||LSM difference|2.4|STANDARD_ERROR_OF_MEAN|8.64||0.7811|TWO_SIDED|95.0|-14.5|19.3|||ANOVA|||||19.3|-14.5|0.7811
82433279|NCT04855240|164576368|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.5267|TWO_SIDED|95.0|-0.8|0.4|||ANOVA|||||0.4|-0.8|0.5267
82433280|NCT04855240|164576368|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.29||0.3228|TWO_SIDED|95.0|-0.3|0.9|||ANOVA|||||0.9|-0.3|0.3228
82433281|NCT04855240|164576369|SUPERIORITY||LSM difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.7617|TWO_SIDED|95.0|-0.5|0.4|||ANOVA|||||0.4|-0.5|0.7617
82433282|NCT04855240|164576369|SUPERIORITY||LSM difference|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6241|TWO_SIDED|95.0|-0.4|0.6|||ANOVA|||||0.6|-0.4|0.6241
82433283|NCT04855240|164576370|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3442|TWO_SIDED|95.0|-0.5|0.2|||ANOVA|||||0.2|-0.5|0.3442
82433284|NCT04855240|164576370|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.7896|TWO_SIDED|95.0|-0.3|0.4|||ANOVA|||||0.4|-0.3|0.7896
82433285|NCT04855240|164576371|SUPERIORITY||LSM difference|-0.3|STANDARD_ERROR_OF_MEAN|0.49||0.6003|TWO_SIDED|95.0|-1.2|0.7|||ANOVA|||||0.7|-1.2|0.6003
82433286|NCT04855240|164576371|SUPERIORITY||LSM difference|0.4|STANDARD_ERROR_OF_MEAN|0.49||0.4086|TWO_SIDED|95.0|-0.6|1.4|||ANOVA|||||1.4|-0.6|0.4086
82433287|NCT04855240|164576372|SUPERIORITY||LSM difference|-0.4|STANDARD_ERROR_OF_MEAN|0.61||0.4958|TWO_SIDED|95.0|-1.6|0.8|||ANOVA|||||0.8|-1.6|0.4958
82433288|NCT04855240|164576372|SUPERIORITY||LSM difference|0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4595|TWO_SIDED|95.0|-0.8|1.7|||ANOVA|||||1.7|-0.8|0.4595
82433289|NCT04855240|164576373|SUPERIORITY||Risk Difference (RD)|0.08||||0.1686|TWO_SIDED|95.0|-0.04|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.04|0.1686
82433290|NCT04855240|164576373|SUPERIORITY||Risk Difference (RD)|0.0||||0.8333|TWO_SIDED|95.0|-0.1|0.11|||Cochran-Mantel-Haenszel|||||0.11|-0.10|0.8333
82433291|NCT04855240|164576374|SUPERIORITY||Risk Difference (RD)|0.09||||0.1939|TWO_SIDED|95.0|-0.02|0.2|||Cochran-Mantel-Haenszel|||||0.20|-0.02|0.1939
82453016|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.0002
82537947|NCT03068468|164775194|SUPERIORITY||Difference|0.4||||0.6031|TWO_SIDED|95.0|-1.0|1.7|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MDS-UPDRS as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline MDS-UPDRS, baseline MDS-UPDRS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.7|-1.0|0.6031
82537948|NCT03068468|164775195|SUPERIORITY||Difference|0.0||||0.7743|TWO_SIDED|95.0|-0.2|0.1|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with CGI-C as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline CGI-S, baseline CGI-S by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.1|-0.2|0.7743
82537949|NCT03068468|164775196|SUPERIORITY||Difference|0.038||||0.318|TWO_SIDED|95.0|-0.036|0.112|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSP-cognitive composite battery as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline PSP-cognitive composite battery, baseline PSP-cognitive composite battery by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.112|-0.036|0.3180
82433292|NCT04855240|164576374|SUPERIORITY||Risk Difference (RD)|0.0||||0.9595|TWO_SIDED|95.0|-0.1|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.10|0.9595
82433293|NCT04855240|164576375|SUPERIORITY||Risk Difference (RD)|0.09||||0.1894|TWO_SIDED|95.0|-0.02|0.2|||Cochran-Mantel-Haenszel|||||0.20|-0.02|0.1894
82433294|NCT04855240|164576375|SUPERIORITY||Risk Difference (RD)|0.0||||0.9595|TWO_SIDED|95.0|-0.1|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.10|0.9595
82433295|NCT04855240|164576376|SUPERIORITY||Risk Difference (RD)|0.09||||0.7117|TWO_SIDED|95.0|-0.06|0.24|||Cochran-Mantel-Haenszel|||||0.24|-0.06|0.7117
82433296|NCT04855240|164576376|SUPERIORITY||Risk Difference (RD)|-0.04||||0.7599|TWO_SIDED|95.0|-0.19|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.19|0.7599
82433297|NCT04855240|164576377|SUPERIORITY||Risk Difference (RD)|0.0||||0.707|TWO_SIDED|95.0|-0.16|0.16|||Cochran-Mantel-Haenszel|||||0.16|-0.16|0.7070
82433298|NCT04855240|164576377|SUPERIORITY||Risk Difference (RD)|-0.04||||0.6877|TWO_SIDED|95.0|-0.2|0.12|||Cochran-Mantel-Haenszel|||||0.12|-0.20|0.6877
82433299|NCT04855240|164576378|SUPERIORITY||Risk Difference (RD)|-0.07||||0.869|TWO_SIDED|95.0|-0.22|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.22|0.8690
82433300|NCT04855240|164576378|SUPERIORITY||Risk Difference (RD)|-0.04||||0.379|TWO_SIDED|95.0|-0.19|0.1|||Cochran-Mantel-Haenszel|||||0.10|-0.19|0.3790
82433301|NCT04855240|164576379|SUPERIORITY||LSM difference|5.9|STANDARD_ERROR_OF_MEAN|3.49||0.0897|TWO_SIDED|95.0|-0.9|12.8|||ANOVA|||||12.8|-0.9|0.0897
82453017|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.2233|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 40||||0.2233
82433302|NCT04855240|164576379|SUPERIORITY||LSM difference|-0.2|STANDARD_ERROR_OF_MEAN|3.5||0.9434|TWO_SIDED|95.0|-7.1|6.7|||ANOVA|||||6.7|-7.1|0.9434
82433303|NCT04855240|164576380|SUPERIORITY||Risk Difference (RD)|0.09||||0.8355|TWO_SIDED|95.0|-0.04|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.04|0.8355
82433304|NCT04855240|164576380|SUPERIORITY||Risk Difference (RD)|0.02||||0.3561|TWO_SIDED|95.0|-0.12|0.15|||Cochran-Mantel-Haenszel|||||0.15|-0.12|0.3561
82433305|NCT04855240|164576381|SUPERIORITY||Risk Difference (RD)|0.04||||0.9413|TWO_SIDED|95.0|-0.06|0.13|||Cochran-Mantel-Haenszel|||||0.13|-0.06|0.9413
82433306|NCT04855240|164576381|SUPERIORITY||Risk Difference (RD)|-0.04||||0.7819|TWO_SIDED|95.0|-0.15|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.15|0.7819
82433307|NCT04855240|164576382|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.8461|TWO_SIDED|95.0|-0.5|0.4|||ANOVA|||||0.4|-0.5|0.8461
82433308|NCT04855240|164576382|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1727|TWO_SIDED|95.0|-0.1|0.7|||ANOVA|||||0.7|-0.1|0.1727
82433309|NCT04855240|164576383|SUPERIORITY||LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.9022|TWO_SIDED|95.0|-0.4|0.5|||ANOVA|||||0.5|-0.4|0.9022
82433310|NCT04855240|164576383|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.245|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|||||0.7|-0.2|0.2450
82433311|NCT04855240|164576384|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.4205||0.4205|TWO_SIDED|95.0|-0.2|0.6|||ANOVA|||||0.6|-0.2|0.4205
82433312|NCT04855240|164576384|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4336|TWO_SIDED|95.0|-0.2|0.6|||ANOVA|||||0.6|-0.2|0.4336
82433313|NCT04855240|164576385|SUPERIORITY||LSM difference|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.2718|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|||||0.7|-0.2|0.2718
82433314|NCT04855240|164576385|SUPERIORITY||LSM difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1727|TWO_SIDED|95.0|-0.1|0.7|||ANOVA|||||0.7|-0.1|0.1727
82433315|NCT02110485|164576408|SUPERIORITY|||||||0.03|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82433316|NCT02110485|164576409|OTHER|||||||0.27|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.27
82433317|NCT02110485|164576410|OTHER|||||||0.67|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.67
82433318|NCT02110485|164576411|OTHER|||||||0.17|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.17
82433319|NCT02110485|164576412|OTHER|||||||0.84|||||||Fisher Exact|||||||.84
82433320|NCT02110485|164576413|OTHER|||||||0.99|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.99
82433321|NCT01479764|164576420|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.059|||Pearson's Chi-square test|||Sugammadex is the numerator and Neostigmine/Glycopyrrolate is the denominator.||0.059|0.000|<0.0001
82433322|NCT01479764|164576421|SUPERIORITY_OR_OTHER||Estimated Ratio of Geometric Means|0.83||||0.021|TWO_SIDED|95.0|0.71|0.97|||ANCOVA|Adjusted for age, American Society of Anesthesiologists class, Body Mass Index, comorbidity index \& length of surgical procedure||Sugammadex is the numerator and neostigmine/glycopyrrolate is the denominator. Used log-transformed time intervals.||0.97|0.71|0.021
82433323|NCT02063984|164576456|SUPERIORITY||Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.11|1.56|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||1.56|.11|
82453018|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||<0.0001
82453019|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.0003
82537950|NCT03068468|164775197|SUPERIORITY||Difference|-0.2||||0.827|TWO_SIDED|95.0|-1.8|1.4|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in RBANS as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline RBANS , baseline RBANS by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds and region.||1.4|-1.8|0.8270
82537951|NCT03068468|164775198|SUPERIORITY||Difference|-0.2||||0.9304|TWO_SIDED|95.0|-3.6|3.3|||MMRM|||Physical scale score: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSP-QoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||3.3|-3.6|0.9304
82648836|NCT00219557|165013529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.758||||0.1026|TWO_SIDED|95.0|0.49|1.17||One-sided log-rank test at alpha = 0.1 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by the stratified log-rank test where the stratification factors are Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to 1 or 2) and extent of disease (locally advanced or metastatic).||1.170|0.490|0.1026
82433324|NCT02063984|164576457|SUPERIORITY||Ratio of means|1.56|||||TWO_SIDED|95.0|0.79|3.07|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||3.07|.79|
82648837|NCT00219557|165013540|SUPERIORITY_OR_OTHER||Difference in response rate|4.3||||0.661|TWO_SIDED|95.0|-4.0|12.7|||Fisher Exact|||Difference in percent of participants with overall response expressed as response rate, was used for calculation of 95% confidence interval (CI).||12.7|-4.0|0.661
82433325|NCT02063984|164576458|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.18|4.82||||||CM+No WMT is the comparison condition||4.82|.18|
82433326|NCT02063984|164576459|SUPERIORITY||Ratio of means|0.92|||||TWO_SIDED|95.0|0.33|2.54|||||Outcome was tested in a zero-inflated negative binomial (ZINB) model|CM+No WMT is the comparison condition||2.54|.33|
82433327|NCT02063984|164576460|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.45|2.45||||||Strategy 1 is the comparison condition||2.45|.45|
82433328|NCT02063984|164576460|SUPERIORITY||Odds Ratio (OR)|2.29|||||TWO_SIDED|95.0|0.84|6.2||||||Strategy 1 is the comparison condition||6.20|.84|
82433329|NCT02063984|164576460|SUPERIORITY||Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.23|1.13||||||Strategy 1 is the comparison condition||1.13|.23|
82433330|NCT02063984|164576461|SUPERIORITY||Ratio of means|1.21|||||TWO_SIDED|95.0|0.76|1.92||||||Strategy 1 is the comparison condition||1.92|.76|
82433331|NCT02063984|164576461|SUPERIORITY||Ratio of means|0.76|||||TWO_SIDED|95.0|0.49|1.18||||||Strategy 1 is the comparison condition||1.18|.49|
82433332|NCT02063984|164576461|SUPERIORITY||Ratio of means|1.33|||||TWO_SIDED|95.0|0.83|2.15||||||Strategy 1 is the comparison condition||2.15|.83|
82433333|NCT01576939|164576465|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.0||||0.9906|TWO_SIDED|95.0|0.979|1.022|||Regression, Cox|This was a Cox proportional hazards model with dose as the single predictor.||||1.022|0.979|0.9906
82433334|NCT01576939|164576466|SUPERIORITY_OR_OTHER||Slope|0.2795||||0.1209|TWO_SIDED|95.0|-0.077|0.634|||Regression, Linear|Linear regression model with dose as the single predictor in the model.||||0.634|-0.077|0.1209
82433335|NCT01576939|164576467|SUPERIORITY_OR_OTHER||Slope|-0.285||||0.9832|TWO_SIDED|95.0|-27.28|26.71|||Regression, Linear|Linear regression model with dose as the single predictor in the model.||||26.71|-27.28|0.9832
82433336|NCT01576939|164576468|SUPERIORITY_OR_OTHER||Slope|0.03795||||0.0263|TWO_SIDED|95.0|0.00483|0.071|||Mixed Models Analysis|A repeated measures model with dose as the single predictor. QoL values were measured for each patient every week.||||0.071|0.00483|0.0263
82453020|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.6772|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 48||||0.6772
82433337|NCT01576939|164576469|SUPERIORITY_OR_OTHER||Slope|0.0567||||0.0039|TWO_SIDED|95.0|0.0199|0.0935|||Mixed Models Analysis|A repeated measures model with dose as the single predictor and QoL values measured each week for each patient.||||0.0935|0.0199|0.0039
82433338|NCT00434993|164576493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|1.3||0.087|TWO_SIDED|95.0|-4.7|0.3||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||The trial had a statistical power of 90.7% to detect a 2.25-day increase in VFDs,assuming a SD of 10.5 days. A group sequential design was used.||0.3|-4.7|0.087
82433339|NCT00434993|164576494|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.3||||0.302|TWO_SIDED|95.0|-4.0|14.7||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|Adjusted for baseline shock.||||14.7|-4.0|0.302
82433340|NCT00434993|164576495|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.9||||0.261|TWO_SIDED|95.0|-3.7|15.4||The p-value was not adjusted for multiple comparisons.|Regression, Logistic|Adjusted for baseline shock.||||15.4|-3.7|0.261
82433341|NCT00434993|164576496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.023|TWO_SIDED|95.0|-4.9|-0.4||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||||-0.4|-4.9|0.023
82433342|NCT00434993|164576497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.226|TWO_SIDED|95.0|-4.3|0.9||The p-value was not adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline shock.||||0.9|-4.3|0.226
82433343|NCT00434993|164576498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.13|TWO_SIDED|95.0|-5.3|0.6|||ANCOVA|Adjusted for baseline shock.||||0.6|-5.3|0.130
82433344|NCT00434993|164576499|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.2||||0.176|TWO_SIDED|95.0|-3.1|19.6|||Regression, Logistic|Adjusted for baseline shock.||||19.6|-3.1|0.176
82433345|NCT00434993|164576500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.048|TWO_SIDED|95.0|-7.8|0.0|||ANCOVA|||||-0.0|-7.8|0.048
82433346|NCT00434993|164576501|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.5||||0.265|TWO_SIDED|95.0|-6.9|25.9|||Regression, Logistic|||||25.9|-6.9|0.265
82453021|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
82453022|NCT00445770|164612003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||<0.0001
82537952|NCT03068468|164775198|SUPERIORITY||Difference|0.5||||0.7859|TWO_SIDED|95.0|-2.8|3.7|||MMRM|||Mental scale score: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSPQoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-bytime interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||3.7|-2.8|0.7859
82537953|NCT03068468|164775198|SUPERIORITY||Difference|-1.7||||0.4297|TWO_SIDED|95.0|-5.8|2.5|||MMRM|||Satisfaction With Your Life Today: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in PSPQoL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-bytime interaction, baseline for PSP-QoL, baseline PSP-QoL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||2.5|-5.8|0.4297
82537954|NCT03068468|164775199|SUPERIORITY||Difference|2.0||||0.2084|TWO_SIDED|95.0|-1.1|5.2|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in SEADL as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for SEADL , baseline SEADL by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||5.2|-1.1|0.2084
82537955|NCT03068468|164775200|SUPERIORITY||Difference|0.0||||0.5701|TWO_SIDED|95.0|-0.2|0.1|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in CGI-S as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for CGI-S, baseline CGI-S by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.1|-0.2|0.5701
82537956|NCT03068468|164775201|SUPERIORITY||Difference|0.9||||0.0517|TWO_SIDED|95.0|0.0|1.8|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Phonemic Fluency Test as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline Phonemic Fluency Test, baseline Phonemic Fluency Test by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.8|-0.0|0.0517
82537957|NCT03068468|164775202|SUPERIORITY||Difference|0.9||||0.0387|TWO_SIDED|95.0|0.0|1.7|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Letter Number Sequence as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline Letter Number Sequence, baseline Letter Number Sequence by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.7|0.0|0.0387
82537958|NCT03068468|164775203|SUPERIORITY||Difference|0.1||||0.9815|TWO_SIDED|95.0|-8.1|8.3|||MMRM|||Color Trails Test 1: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Color trails Test 1 as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for Color Trails Test 1, baseline Color Trails Test 1 by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||8.3|-8.1|0.9815
82537959|NCT03068468|164775203|SUPERIORITY||Difference|0.0||||0.9869|TWO_SIDED|95.0|-5.7|5.6|||MMRM|||Color Trails Test 2: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in Color Trails Test 2 as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for Color Trails Test 2, baseline Color Trails Test 2 by time interaction, and region.||5.6|-5.7|0.9869
82537960|NCT03068468|164775204|SUPERIORITY||Difference|0.5||||0.1763|TWO_SIDED|95.0|-0.2|1.2|||MMRM|||Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MoCA as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MoCA, baseline MoCA by time interaction,baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||1.2|-0.2|0.1763
82537961|NCT03068468|164775206|SUPERIORITY||Difference|-0.021||||0.9527|TWO_SIDED|95.0|-0.726|0.684|||MMRM|||Ventricles Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.684|-0.726|0.9527
82537962|NCT03068468|164775206|SUPERIORITY||Difference|-0.514||||0.7357|TWO_SIDED|95.0|-3.506|2.478|||MMRM|||Whole Brain Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||2.478|-3.506|0.7357
82537963|NCT03068468|164775206|SUPERIORITY||Difference|-0.004||||0.6439|TWO_SIDED|95.0|-0.023|0.014|||MMRM|||Midbrain Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.014|-0.023|0.6439
82433347|NCT03335150|164576503|OTHER|Equality|Mean Difference (Final Values)|0.4856||||0.6662|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = Standard Error (SE) of the interaction term.|||||0.6662
82433348|NCT03335150|164576503|OTHER|Equality|Mean Difference (Final Values)|0.2415||||0.1617|TWO_SIDED||||||Mixed Models Analysis|Mean Matrix Reasoning Total (MRT) difference between two visits while controlling for intervention.|estimated value = SE|||||0.1617
82433349|NCT03335150|164576503|OTHER|Equality|Mean Difference (Final Values)|0.5087||||0.6236|TWO_SIDED||||||Mixed Models Analysis|Mean MRT difference between two interventions while controlling for visit.|estimated value = SE|||||0.6236
82453023|NCT00445770|164612003|SUPERIORITY_OR_OTHER|||||||0.616|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by pooled study center and prior methotrexate use||Week 52||||0.6160
82537964|NCT03068468|164775206|SUPERIORITY||Difference|0.0||||0.9864|TWO_SIDED|95.0|-0.039|0.04|||MMRM|||Pons Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.040|-0.039|0.9864
82537965|NCT03068468|164775206|SUPERIORITY||Difference|0.001||||0.7529|TWO_SIDED|95.0|-0.004|0.006|||MMRM|||Cerebellar Peduncle Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.006|-0.004|0.7529
82537966|NCT03068468|164775206|SUPERIORITY||Difference|0.006||||0.685|TWO_SIDED|95.0|-0.025|0.038|||MMRM|||Third Ventricle Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.038|-0.025|0.6850
82537967|NCT03068468|164775206|SUPERIORITY||Difference|-0.041||||0.9|TWO_SIDED|95.0|-0.68|0.598|||MMRM|||Frontal Lobe Volume: Adjusted mean for each treatment group, difference with Placebo, 95% confidence interval and p-value at each time point were based on an MMRM model, with change from baseline in MRI region as dependent variable and with fixed effects of treatment group, time (categorical), treatment group-by-time interaction, baseline for MRI region, baseline MRI region by time interaction, baseline Color Trails 2 test (\<=170 or \>170 seconds) and region.||0.598|-0.680|0.9000
82537968|NCT02085356|164775233|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|||||||||||||
82537969|NCT02085356|164775234|OTHER||Odds Ratio (OR)|0.32|||||TWO_SIDED|||||||||||||
82537970|NCT02085356|164775235|OTHER|||||||0.605|||||||Mixed Models Analysis|||||||0.605
82537971|NCT02085356|164775236|OTHER|||||||0.902|||||||Chi-squared|||Attendance records could not be retrieved for most participants. However, this analysis was still conducted among those participants who had data.||||0.902
82537972|NCT02085356|164775237|OTHER|||||||0.869|||||||Mixed Models Analysis|||||||0.869
82537973|NCT02085356|164775237|OTHER||Odds Ratio (OR)|0.32||||0.982|TWO_SIDED||||||Mixed Models Analysis|||||||0.982
82537974|NCT00739102|164775238|SUPERIORITY_OR_OTHER||Proportion - 12-month patency rate|0.665|STANDARD_ERROR_OF_MEAN|0.032||0.437|TWO_SIDED|95.0|0.6|0.725||The observed rate of primary patency at 12 month was 66.5% (143/215) with a lower 95% confidence interval of 60.0%.|Agresti-Coull method||The 95% confidence intervals and the standard error were calculated using the Agresti-Coull method|The null hypothesis to be tested was Ho: P = 0.66 against Ha: P \> 0.66, where 0.66 was the Objective Performance Criteria (OPC). A sample size of 212 subjects was required to achieve 90% power to reject the 66% 12-months patency rate at a one-sided 2.5% significance level when the unknown true patency is at 76%.||0.725|0.6|0.437
82648838|NCT00219557|165013542|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9648||||0.4466|TWO_SIDED|95.0|0.54|1.73||One-sided log-rank test at alpha = 0.1 significance level was used.|Log Rank|||Differences in PFS between treatment arms was analyzed by the stratified log-rank test where the stratification factors are ECOG performance status (less than equal to 1 or 2) and extent of disease (locally advanced or metastatic).||1.7300|0.5400|0.4466
82537975|NCT00739102|164775240|SUPERIORITY_OR_OTHER||Death Rate (%)|2.1|||||TWO_SIDED|95.0|0.7|4.9||||||||4.9|0.7|
82537976|NCT00739102|164775241|SUPERIORITY_OR_OTHER||Index Limb Amputation Rate (%)|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
82537977|NCT00739102|164775242|SUPERIORITY_OR_OTHER||Clinically Driven TVR Rate (%)|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
82537978|NCT00739102|164775243|SUPERIORITY_OR_OTHER||Clinically Driven TVR Rate (%)|13.6|||||TWO_SIDED|95.0|9.5|18.6||||||||18.6|9.5|
82648839|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.44|||||TWO_SIDED|95.0|-19.06|2.19||||||For change in global QoL at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||2.19|-19.06|
82648840|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.02|||||TWO_SIDED|95.0|-15.4|3.36||||||For change in physical functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||3.36|-15.4|
82537979|NCT00739102|164775244|SUPERIORITY_OR_OTHER||Stent Fracture Rate (%)|1.5|||||TWO_SIDED|95.0|0.3|4.4||||||||4.4|0.3|
82537980|NCT00739102|164775245|SUPERIORITY_OR_OTHER||Index Limb Ischemia Rate (%)|5.6||||||95.0||||||||||||
82537981|NCT00739102|164775246|SUPERIORITY_OR_OTHER||Primary safety endpoint rate (%)|100.0|||<|0.001|TWO_SIDED|95.0|98.2|100.0|||Agresti-Coull method|||The null hypothesis to be tested was Ho: P = 0.88 against Ha: P \> 0.88, where 0.88 was the Objective Performance Criteria (OPC).||100|98.2|<0.001
82537982|NCT00739102|164775247|SUPERIORITY_OR_OTHER||Index Limb Ischemia Rate (%)|8.4||||||95.0||||||||||||
82537983|NCT00739102|164775250|SUPERIORITY_OR_OTHER||Major adverse event rate (%)|14.4|||||TWO_SIDED|95.0|10.2|19.5||||||||19.5|10.2|
82648841|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.32|||||TWO_SIDED|95.0|-23.77|5.12||||||For change in role functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.12|-23.77|
82648842|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.73|||||TWO_SIDED|95.0|-15.25|5.79||||||For change in emotional functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.79|-15.25|
82561844|NCT02291861|164832894|SUPERIORITY||LSM difference|-1.8||||0.003|TWO_SIDED|95.0|-3.0|-0.63||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 24 mg/day group and the placebo group, and is the third analysis in the fixed-sequence."||-0.63|-3.00|0.003
82648843|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.11|||||TWO_SIDED|95.0|-15.83|5.61||||||For change in cognitive functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||5.61|-15.83|
82433350|NCT03335150|164576504|OTHER|Equality|Mean Difference (Final Values)|0.58||||0.0496|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated value = SE of interaction term|||||0.0496
82433351|NCT03335150|164576505|OTHER|Equality|Mean Difference (Final Values)|1.62||||0.047|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.047
82433352|NCT03335150|164576506|OTHER|Equality|Mean Difference (Final Values)|2.97||||0.001|TWO_SIDED|||||Interaction Term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.001
82433353|NCT03335150|164576507|OTHER|Equality|Mean Difference (Final Values)|2.25||||0.02|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.020
82433354|NCT03335150|164576508|OTHER|Equality|Mean Difference (Final Values)|1.26||||0.444|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of interaction term|||||0.444
82433355|NCT03335150|164576508|OTHER|Equality|Mean Difference (Final Values)|1.145||||0.0233|TWO_SIDED||||||Mixed Models Analysis|There is significant difference in MIST between intervention groups controlling for visit and other significant covariates.|estimated value = SE|||||0.0233
82433356|NCT03335150|164576508|OTHER|Equality|Mean Difference (Final Values)|0.6281|||<|0|TWO_SIDED||||||Mixed Models Analysis|There is significant difference in MIST between baseline and week 10 controlling for intervention group and other significant covariates|estimated value = SE|||||<0.000
82433357|NCT03335150|164576509|OTHER|Equality|Mean Difference (Final Values)|2.205||||0.073|TWO_SIDED|||||Interaction term|Mixed Models Analysis||estimated value = SE of interaction term|||||0.073
82433358|NCT03335150|164576510|OTHER|Equality|Mean Difference (Final Values)|2.25||||0.82|TWO_SIDED|||||Interaction Term|Mixed Models Analysis|||||||0.82
82433359|NCT03335150|164576510|OTHER|Equality|Mean Difference (Final Values)|1.1172||||0.0257|TWO_SIDED||||||Mixed Models Analysis|Mean PDQ-39 difference between baseline and week 10 controlling for intervention and covariates.|estimated value = SE|||||0.0257
82453024|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
82453025|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||<0.0001
82453026|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.4929|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 2||||0.4929
82453027|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82453028|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82648844|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-18.72|12.06||||||For change in social functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||12.06|-18.72|
82433360|NCT03335150|164576510|OTHER|Equality|Mean Difference (Final Values)|3.8649||||0.1101|TWO_SIDED||||||Mixed Models Analysis|Difference in PDQ-39 between two interventions controlling for visit and covariates.|estimated value = SE|||||0.1101
82433361|NCT03335150|164576511|OTHER|Equality|Median Difference (Final Values)|1.784||||0.0263|TWO_SIDED|||||Interaction term|Mixed Models Analysis||Estimated Value = SE of the interaction term.|||||0.0263
82433362|NCT02218697|164576512|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|1.13|||||TWO_SIDED|95.0|0.88|1.46|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for H1N1 strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.46|0.88|
82433363|NCT02218697|164576512|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|0.97|||||TWO_SIDED|95.0|0.78|1.21|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for H3N2 strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.21|0.78|
82433364|NCT02218697|164576512|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|1.17|||||TWO_SIDED|95.0|0.98|1.4|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for Victoria strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.40|0.98|
82453029|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.9693|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.9693
82453030|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82453031|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82453032|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.4139|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.4139
82453033|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
82453034|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
82453035|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.8905|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.8905
82453036|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
82453037|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
82453038|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.6877|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.6877
82453039|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
82537984|NCT00646451|164775253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.162|||||||ANOVA|||"Outcome on study completers was assessed via ANOVA models using a 2 × 2 Latin-square crossover design including sequence, period, and treatment effects. A significant carryover effect was excluded. Analyses were performed using Stata IC version 10.0 for Windows.~Unfortunately the small sample size of our study limits the possibility of a meaningful post-hoc analysis targeted to these variables."|The Quest rates patient perception of health status as influenced by tremor across 5 domains, physical, psychosocial, communication, hobbies/leisure, and work/finance. HAM-A rates severity of anxiety symptomatology across 14 parameters. Scores of 14-17 correspond to mild anxiety, scores of 18-24 is moderate anxiety and 25-30 severe anxiety. HD-16 rates insomnia-related QoL across 5 domains: physical symptoms, energy \& motivation, concentration, interpersonal relations and psychological symptoms. These scales were scored per published guidelines.|||0.162
82537985|NCT00959920|164775293|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.8||||0.42|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that patients for whom indwelling foley catheterization was employed will have their time to delivery interval reduced by 30 minutes.||||.42
82537986|NCT02715258|164775308|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0012|TWO_SIDED|95.0|-0.66|-0.16||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|Mixed Models Analysis|||Analysis of change from baseline in HbA1c (%) at Week 24||-0.16|-0.66|0.0012
82537987|NCT02715258|164775308|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0021|TWO_SIDED|95.0|-0.68|-0.15||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in HbA1c (%) including observations obtained after rescue medication||-0.15|-0.68|0.0021
82537988|NCT02715258|164775308|SUPERIORITY||mixed-effects repeated measures|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|Mixed Models Analysis|||Sensitivity Analysis 2: Multiple imputation for change from baseline in HbA1c (%) excluding observations obtained after rescue medication||-0.30|-0.80|<0.0001
82537989|NCT02715258|164775308|SUPERIORITY||mixed-effects repeated measures|-0.4||||0.0009|TWO_SIDED|95.0|-0.64|-0.17||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 3: LOCF for change from baseline in HbA1c (%) including observations obtained after rescue medication||-0.17|-0.64|0.0009
82537990|NCT02715258|164775309|SUPERIORITY||mixed-effects repeated measures|-2.14||||0.234|TWO_SIDED|95.0|-5.66|1.39||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in SBP (mm Hg) at Week 24||1.39|-5.66|0.2340
82537991|NCT02715258|164775309|SUPERIORITY||mixed-effects repeated measures|-1.91||||0.2937|TWO_SIDED|95.0|-5.48|1.66||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in SBP (mm Hg) including observations obtained after rescue medication||1.66|-5.48|0.2937
82648845|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.41|||||TWO_SIDED|95.0|-1.62|22.44||||||For change in fatigue at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.44|-1.62|
82648846|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|||||TWO_SIDED|95.0|-16.55|7.96||||||For change in nausea and vomiting at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||7.96|-16.55|
82648847|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.37|||||TWO_SIDED|95.0|-7.57|22.32||||||For change in pain at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.32|-7.57|
82453040|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
82453041|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.4511|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.4511
82453042|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
82453043|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
82453044|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.2786|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.2786
82433365|NCT02218697|164576512|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of the 4 strains): UL of the 95% CI for the GMT ratio (Control Group / Co-Ad Group) does not exceed 2.0.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.84|1.16|||ANCOVA||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for Yamagata strain at Day 28 post Influsplit™ Tetra vaccination, the GMT ratio of Control group/Co-Ad group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination titer as covariate.||1.16|0.84|
82433366|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.14|||||TWO_SIDED|95.0|0.86|1.5|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 01 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.50|0.86|
82433367|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.18|||||TWO_SIDED|95.0|0.96|1.45|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 03 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.45|0.96|
82433368|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.26|||||TWO_SIDED|95.0|0.98|1.62|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 04 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.62|0.98|
82433369|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.24|||||TWO_SIDED|95.0|0.95|1.63|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 7F serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.63|0.95|
82433370|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.2|||||TWO_SIDED|95.0|0.91|1.57|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 14 serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.57|0.91|
82453045|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
82453046|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
82453047|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.1230
82433371|NCT02218697|164576513|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion (for each of six pneumococcal serotypes): UL of the 95% CI for the geometric mean concentration (GMC) ratio (Control group over Co-Ad group) does not exceed 2.0.|Adjusted GMC ratio|1.34|||||TWO_SIDED|95.0|1.05|1.7|||ANCOVA||The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 95% confidence interval.|Anti-pneumococcal antibody concentrations for Polysaccharide 19A serotype at Day 28 post Pneumovax™ 23 vaccination, the GMC ratio of Control Group/Co-Ad Group and the two sided 95% CI were computed by fitting an ANCOVA model on the logarithm10 transformation of the titres/concentrations, including the vaccine group as fixed effect and the pre-vaccination titre/concentration as covariate.||1.70|1.05|
82433372|NCT03306433|164576556|EQUIVALENCE|The null hypothesis is that there are no significant paired differences between the groups. The power calculation is based on the observed variation and number of participants|Paired difference t-test|-12.139|STANDARD_DEVIATION|7.101||0.0003|TWO_SIDED|||||Paired difference p value comparing UDMA-K18 vs Adhesive Control|Paired difference test, 2 sided||There are 12 participants (pairs) for this comparison|Paired difference test within each participant.||||0.0003
82433373|NCT03306433|164576556|EQUIVALENCE|Null hypothesis was that there were no differences between the groups|Paired difference t-test|-7.412|STANDARD_DEVIATION|6.049||0.0063|TWO_SIDED|||||Paired differrnce between UDMA-K18 and UDMA control|Paired difference test, 2 sided||There are 9 participant pairs for this comparison|Paired comparison||||0.0063
82453048|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
82453049|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
82433374|NCT03306433|164576557|EQUIVALENCE|The Null hypothesis was that there would be no differences between the groups|Chi Square on WSL Index frequency|15.77||||0.0033|TWO_SIDED||||||Chi-squared|||WSL Index is non-parametric||||0.0033
82433375|NCT03306433|164576557|EQUIVALENCE|The null hypothesis was that there would not be any differences between the groups|Chi Square on WSL Index frequency|6.8321||||0.145|TWO_SIDED||||||Chi-squared|||||||0.1450
82433376|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|61.0||||||95.0|41.0|78.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||78|41|
82433377|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|84.0||||||95.0|64.0|95.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||95|64|
82433378|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|96.0||||||95.0|81.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|81|
82433379|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|90.0||||||95.0|73.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|73|
82433380|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|90.0||||||95.0|73.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|73|
82433381|NCT00819156|164576558|SUPERIORITY_OR_OTHER_LEGACY||Percentage|92.0||||||95.0|74.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter from Day 28 to Day 364. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||99|74|
82433382|NCT00819156|164576559|SUPERIORITY_OR_OTHER_LEGACY||Percentage|92.0||||||95.0|80.0|98.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||98|80|
82433383|NCT00819156|164576559|SUPERIORITY_OR_OTHER_LEGACY||Percentage|96.0||||||95.0|86.0|100.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|86|
82433384|NCT00819156|164576559|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0||||||95.0|93.0|100.0|||||The estimated value is the percentage of patients with Testosterone (T) \<=0.5 nanograms (ng)/milliliter (mL) from Day 28 to Day 364 for Patients With T \<=0.5 ng/mL at Day 28. The 95% Confidence Interval was calculated by the Clopper-Pearson method.|||100|93|
82433385|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|70.0||||||95.0|51.0|85.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||85|51|
82433386|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0||||||95.0|75.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||98|75|
82453050|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.5061|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.5061
82453051|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
82453052|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
82453053|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.1354|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.1354
82433387|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|97.0||||||95.0|84.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||100|84|
82433388|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|97.0||||||95.0|83.0|100.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||100|83|
82433389|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|94.0||||||95.0|80.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|80|
82433390|NCT00819156|164576560|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|77.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 28. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|77|
82433391|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|83.0||||||95.0|65.0|94.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||94|65|
82433392|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|94.0||||||95.0|79.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|79|
82453054|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
82453055|NCT00445770|164612004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
82453056|NCT00445770|164612004|SUPERIORITY_OR_OTHER|||||||0.1734|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.1734
82453057|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82453058|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||<0.0001
82453059|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.6417|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 2||||0.6417
82453060|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82453061|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||<0.0001
82453062|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.4698|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 4||||0.4698
82453063|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82453064|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||<0.0001
82453065|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.1214|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 8||||0.1214
82453066|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82453067|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||<0.0001
82453068|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.4654|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 12||||0.4654
82453069|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82453070|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||<0.0001
82537992|NCT02715258|164775309|SUPERIORITY||mixed-effects repeated measures|-1.72||||0.403|TWO_SIDED|95.0|-5.75|2.32||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 2: Multiple imputation for change from baseline in SBP (mm Hg) excluding observations obtained after rescue medication||2.32|-5.75|0.4030
82537993|NCT02715258|164775309|SUPERIORITY||mixed-effects repeated measures|-2.09||||0.216|TWO_SIDED|95.0|-5.41|1.23||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||||1.23|-5.41|0.2160
82648848|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.51|||||TWO_SIDED|95.0|-1.28|26.3||||||For change in dyspnea at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||26.30|-1.28|
82648849|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|||||TWO_SIDED|95.0|-5.7|25.49||||||For change in insomnia at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||25.49|-5.70|
82648850|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.63|||||TWO_SIDED|95.0|-4.81|32.07||||||For change in appetite loss at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||32.07|-4.81|
82453071|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.4006|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 16||||0.4006
82453072|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82453073|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||<0.0001
82453074|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.1636|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 20||||0.1636
82453075|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82453076|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||<0.0001
82453077|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.2635|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 24||||0.2635
82453078|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82453079|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||<0.0001
82453080|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.0965|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 32||||0.0965
82453081|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82453082|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||<0.0001
82453083|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.4437|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 40||||0.4437
82537994|NCT02715258|164775310|SUPERIORITY||mixed-effects repeated measures|-0.79||||0.1222|TWO_SIDED|95.0|-1.8|0.21||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in body weight (kg) at Week 24 for subjects with BMI greater than or equal to 25 kg/m2||0.21|-1.80|0.1222
82648851|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.67|||||TWO_SIDED|95.0|-11.62|20.96||||||For change in constipation at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.96|-11.62|
82648852|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||||TWO_SIDED|95.0|-15.1|12.54||||||For change in diarrhea at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||12.54|-15.1|
82648853|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.43|||||TWO_SIDED|95.0|-4.67|15.53||||||For change in financial difficulties at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||15.53|-4.67|
82648854|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.83|||||TWO_SIDED|95.0|-32.34|0.67||||||For change in global QoL at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||0.67|-32.34|
82433393|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|87.0||||||95.0|70.0|96.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||96|70|
82433394|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|78.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|78|
82433395|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0||||||95.0|76.0|98.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||98|76|
82433396|NCT00819156|164576561|SUPERIORITY_OR_OTHER_LEGACY||Percentage|93.0||||||95.0|78.0|99.0|||||The estimated value is the percentage of patients with Testosterone \<=0.5 nanograms/milliliter at Day 3. The 95% Confidence Interval was calculated with the Clopper-Pearson method.|||99|78|
82433397|NCT00819156|164576562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0933||95.0|||||Log Rank|||||||0.0933
82433398|NCT00819156|164576563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.165||95.0|||||Log Rank|||||||0.165
82433399|NCT00819156|164576564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.429||95.0|||||Log Rank|||||||0.429
82433400|NCT00803595|164576572|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 18 hours (h) was set to assure the superiority of laninamivir octanoate over a putative placebo. A meta-analysis using 3 placebo-controlled trials reported that the difference between the median time to illness alleviation in the placebo and oseltamivir groups was 33.1 h and the 95% confidence interval ranged from 19.1 to 47.1 h. From this, a margin that was less than the lower limit of this 95% CI was selected.|Median Difference (Final Values)|-0.6||||0.748|TWO_SIDED|95.0|-9.9|6.9||2-sided p-value without adjustments for multiple testing|Generalized Wilcoxon Test|||This trial was designed to confirm the efficacy of laninamivir octanoate by showing that the median time to illness alleviation in patients treated with laninamivir octanoate was not \>18 hours longer than that in patients treated with oseltamivir. Sample size of 300 patients in each group was determined to achieve a power of at least 80% to show noninferiority at both dose levels of laninamivir octanoate with use of a Monte Carlo simulation.||6.9|-9.9|0.748
82433401|NCT00803595|164576572|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-12.8||||0.038|TWO_SIDED|95.0|-18.2|-0.4||2-sided p-value without adjustments for multiple testing|Generalized Wilcoxon Test|||Null hypothesis was that there was no difference in the time to illness alleviation||-0.4|-18.2|0.038
82433402|NCT00803595|164576572|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 18 hours was set to assure the superiority of laninamivir octanoate over a putative placebo. A meta-analysis using 3 placebo-controlled trials reported that the difference between the median time to illness alleviation in the placebo and oseltamivir groups was 33.1 h and the 95% confidence interval ranged from 19.1 to 47.1 h. From this, a margin that was less than the lower limit of this 95% CI was selected.|Median Difference (Final Values)|12.2||||0.104|TWO_SIDED|95.0|-1.5|17.2|||Generalized Wilcoxon test|||This trial was designed to confirm the efficacy of laninamivir octanoate by showing that the median time to illness alleviation in patients treated with laninamivir octanoate was not \>18 hours longer than that in patients treated with oseltamivir. Sample size of 300 patients in each group was determined to achieve a power of at least 80% to show noninferiority at both dose levels of laninamivir octanoate with use of a Monte Carlo simulation.||17.2|-1.5|0.104
82433403|NCT00803595|164576573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.3||||0.318|TWO_SIDED|95.0|-2.8|9.1||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||9.1|-2.8|0.318
82433404|NCT00803595|164576573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.981|TWO_SIDED|95.0|-5.8|5.7||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||5.7|-5.8|0.981
82433405|NCT00803595|164576573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.7||||0.344|TWO_SIDED|95.0|-9.1|3.1||2-sided P value without adjustments for multiple testing.|Generalized Wilcoxon test|||Null hypothesis was that there was no difference in the time for return to normal axillary temperature.||3.1|-9.1|0.344
82433406|NCT01433042|164576574|SUPERIORITY_OR_OTHER||percentage|98.0||||||||||since the study results analysis is purley discriptive no P value and confidence interval was used for the analysis|percentage|percentage of SB3 images graded as superior in image quality to SB2|since the study results analysis is purley discriptive no P value and confidence interval was used for the analysis|"Primary Endpoint~o Physician's subjective assessment questionnaire was evaluated in a quality manner.~The physicians were required to assess the performance of SB3 system as compare to SB2 by answering a short questionnaire.~The physicians were requested to indicate whether capsule SB3 was better as compared to SB2."||||
82453084|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82453085|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||<0.0001
82453086|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.1663|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 48||||0.1663
82453087|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82537995|NCT02715258|164775310|SUPERIORITY||mixed-effects repeated measures|-0.65||||0.2014|TWO_SIDED|95.0|-1.65|0.35||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 1: Multiple imputation for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 including observations obtained after rescue medication||0.35|-1.65|0.2014
82537996|NCT02715258|164775310|SUPERIORITY||mixed-effects repeated measures|-0.91||||0.0638|TWO_SIDED|95.0|-1.88|0.05||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 2: Multiple imputation for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 excluding observations obtained after rescue medication||0.05|-1.88|0.0638
82537997|NCT02715258|164775310|SUPERIORITY||mixed-effects repeated measures|-0.69||||0.1456|TWO_SIDED|95.0|-1.63|0.24||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Sensitivity Analysis 3: LOCF for change from baseline in body weight (kg) for subjects with BMI greater than or equal to 25 kg/m2 including observations obtained after rescue medication||0.24|-1.63|0.1456
82648855|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|||||TWO_SIDED|95.0|-24.12|0.96||||||For change in physical functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||0.96|-24.12|
82537998|NCT02715258|164775311|SUPERIORITY||mixed-effects repeated measures|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.92|-1.09||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Analysis of change from baseline in FPG (mmol/L) over time across 24 weeks||-1.09|-1.92|<0.0001
82537999|NCT02715258|164775312|SUPERIORITY||mixed-effects repeated measures|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.79|-0.43||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 6||-0.43|-0.79|<0.0001
82538000|NCT02715258|164775312|SUPERIORITY||mixed-effects repeated measures|-0.71|||<|0.0001|TWO_SIDED|95.0|-0.92|-0.5||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 12||-0.50|-0.92|<0.0001
82538001|NCT02715258|164775312|SUPERIORITY||mixed-effects repeated measures|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.36||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 18||-0.36|-0.78|<0.0001
82538002|NCT02715258|164775312|SUPERIORITY||mixed-effects repeated measures|-0.41||||0.0012|TWO_SIDED|95.0|-0.66|-0.16||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) at Week 24||-0.16|-0.66|0.0012
82538003|NCT02715258|164775312|SUPERIORITY||mixed-effects repeated measures|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.39||The mixed-effects repeated measures analysis includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Change from baseline in HbA1c (%) across 24 weeks||-0.39|-0.76|<0.0001
82538004|NCT02715258|164775313|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0006|TWO_SIDED|95.0|1.69|6.8||The logistic regression includes country, background anti-diabetes treatment status, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as a fixed effect covariate.|ANCOVA|||Model-Adjusted proportion of subjects with HbA1c \<7% across 24 weeks||6.80|1.69|0.0006
82538005|NCT01149681|164775348|SUPERIORITY|||||||0.2364|||||||Repeated measures analysis|||||||0.2364
82538006|NCT03107611|164775354|SUPERIORITY|||||||0.0817|||||||Fisher Exact|||||||0.0817
82538007|NCT03107611|164775354|SUPERIORITY|||||||0.2874|||||||Fisher Exact|||||||0.2874
82538008|NCT03107611|164775355|EQUIVALENCE|Equivalence margin: -0.20, +0.20|Difference in proportions|-0.03|||||TWO_SIDED|90.0|-0.12|0.06||||||||0.06|-0.12|
82538009|NCT02175212|164775372|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.88||||0.01|TWO_SIDED|95.0|1.12|3.15|||Regression, Cox|||||3.15|1.12|0.01
82538010|NCT02175212|164775373|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.31||||0.01|TWO_SIDED|95.0|1.23|3.85|||Regression, Cox|||||3.85|1.23|0.01
82538011|NCT02175212|164775374|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.48||||0.009|TWO_SIDED|95.0|1.31|4.68|||Regression, Cox|||||4.68|1.31|0.009
82648856|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.65|||||TWO_SIDED|95.0|-35.47|-1.83||||||For change in role functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||-1.83|-35.47|
82453088|NCT00445770|164612005|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||<0.0001
82538012|NCT00315120|164775396|SUPERIORITY_OR_OTHER||Response ratio|2.0||||0.007|TWO_SIDED|95.0|1.2|3.2|||Chi-squared|||||3.2|1.2|0.007
82538013|NCT00315120|164775401|SUPERIORITY_OR_OTHER||Response ratio|1.1||||0.72|TWO_SIDED|95.0|0.7|1.7|||Chi-squared|||||1.7|0.7|0.72
82538014|NCT02145182|164775422|SUPERIORITY||Odds Ratio (OR)|0.81||||0.3983|TWO_SIDED|95.0|0.49|1.33|||Regression, Logistic|Logistic regression results for the DGF composite, the effect of treatment adjusted for preservation type, donor type, and Irish score.|Calculated using the logistic regression model.|Analysis of DGF composite||1.33|0.49|0.3983
82538015|NCT05419557|164775430|SUPERIORITY||Odds Ratio (OR)|8.5||||0.02|TWO_SIDED|95.0|1.3|54.6|||Regression, Logistic|||||54.6|1.3|0.02
82538016|NCT05419557|164775431|SUPERIORITY||Odds Ratio (OR)|9.98||||0.015|TWO_SIDED|95.0|1.55|64.25|||Regression, Logistic|||||64.25|1.55|0.015
82538017|NCT04304534|164775494|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.052|||=|0.8439|TWO_SIDED|90.0|0.687|1.612|||Log Rank|||Comparison of the Asundexian 20 mg group and 50 mg group versus Placebo group||1.612|0.687|= 0.8439
82538018|NCT04304534|164775494|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.096|||=|0.7562|TWO_SIDED|90.0|0.674|1.781|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||1.781|0.674|= 0.7562
82538019|NCT04304534|164775494|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.008|||=|0.978|TWO_SIDED|90.0|0.614|1.656|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||1.656|0.614|= 0.978
82538020|NCT04304534|164775495|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.98|||=|0.9158|TWO_SIDED|90.0|0.713|1.347|||Log Rank|||Comparison of the Pooled Asundexian group versus Placebo group||1.347|0.713|= 0.9158
82538021|NCT04304534|164775495|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.867|||=|0.5633|TWO_SIDED|90.0|0.577|1.302|||Log Rank|||Comparison of the Asundexian 10 mg group versus Placebo group||1.302|0.577|= 0.5633
82538022|NCT04304534|164775495|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|0.875|||=|0.584|TWO_SIDED|90.0|0.587|1.306|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||1.306|0.587|= 0.584
82538023|NCT04304534|164775495|OTHER|HR was only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups.|Hazard Ratio (HR)|1.202|||=|0.417|TWO_SIDED|90.0|0.828|1.747|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||1.747|0.828|= 0.417
82538024|NCT04304534|164775496|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.275|||||TWO_SIDED|90.0|0.322|5.05||||||Comparison of the Asundexian 20 mg group and Asundexian 50 mg group versus Placebo group||5.050|0.322|
82538025|NCT04304534|164775496|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.991|||||TWO_SIDED|90.0|0.479|8.273||||||Comparison of the Asundexian 50 mg group versus Placebo group||8.273|0.479|
82538026|NCT04304534|164775497|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.125|||||TWO_SIDED|90.0|0.696|1.819||||||Comparison of the Asundexian 20 mg group and Asundexian 50 mg versus Placebo group||1.819|0.696|
82538027|NCT04304534|164775497|OTHER||Cox Proportional Hazard|1.181|||||TWO_SIDED|90.0|0.686|2.031||||||Comparison of the Asundexian 20 mg group versus Placebo group||2.031|0.686|
82538028|NCT04304534|164775497|OTHER|HRs were only calculated if at least three events occurred in one of the compared groups and at least one event in each of the compared treatment groups. The competing event was non-CV death for events that include CV death.|Cox Proportional Hazard|1.07|||||TWO_SIDED|90.0|0.613|1.866||||||Comparison of the Asundexian 50 mg group versus Placebo group||1.866|0.613|
82538029|NCT04304534|164775500|OTHER|For all-cause mortality there is no competing event.|Cox Proportional Hazard|1.266|||=|0.6016|TWO_SIDED|90.0|0.603|2.658|||Log Rank|||Comparison of the Asundexian 20 mg group and Asundexian 50 mg group versus Placebo group||2.658|0.603|= 0.6016
82538030|NCT04304534|164775500|OTHER||Cox Proportional Hazard|0.996|||=|0.9945|TWO_SIDED|90.0|0.414|2.401|||Log Rank|||Comparison of the Asundexian 20 mg group versus Placebo group||2.401|0.414|= 0.9945
82538031|NCT04304534|164775500|OTHER||Cox Proportional Hazard|1.506|||=|0.4085|TWO_SIDED|90.0|0.667|3.405|||Log Rank|||Comparison of the Asundexian 50 mg group versus Placebo group||3.405|0.667|= 0.4085
82538032|NCT00601640|164775533|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||||||0.022
82538033|NCT01970943|164775541|OTHER||Mean Difference (Final Values)|0.6078||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82538034|NCT01970943|164775543|OTHER||Mean Difference (Final Values)|0.037786||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||.05
82538035|NCT03879642|164775559|SUPERIORITY||partial eta squared|0.117|||||TWO_SIDED||||||ANOVA|||||||
82538036|NCT03879642|164775560|SUPERIORITY||partial eta squared|0.005|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82538037|NCT02512042|164775581|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 8:00 (hours 0, before the morning drop) at the Day 14 visit should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.36|||||TWO_SIDED|95.0|-0.69|-0.03||||||||-0.03|-0.69|
82538038|NCT02512042|164775581|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 8:00 hour on Day 42 should be within +/-1.5mm Hg, and should be within +/- 1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.43|0.22||||||||0.22|-0.43|
82453089|NCT00445770|164612005|SUPERIORITY_OR_OTHER|||||||0.1049|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.|ANCOVA|||Week 52||||0.1049
82453090|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||<0.0001
82538039|NCT02512042|164775581|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 10:00 hour on Day 14 should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population.|Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-0.71|-0.09||||||||-0.09|-0.71|
82538040|NCT02512042|164775581|EQUIVALENCE|The limits of each two-sided 95% confidence interval of the treatment difference (test-reference) for mean IOP of both eyes at approximately 10:00 hour on Day 42 should be within +/-1.5mm Hg, and should be within +/-1.0mm Hg for majority of time points using the PP population|Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.5|0.13||||||||0.13|-0.50|
82538041|NCT01335932|164775583|OTHER|||||||0.0001|||||||Fisher Exact|||||||.0001
82538042|NCT01335932|164775584|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
82538043|NCT01335932|164775590|OTHER|||||||0.006|||||||Fisher Exact|||||||0.006
82538044|NCT01335932|164775591|OTHER|||||||0.14|||||||Fisher Exact|||||||0.14
82538045|NCT01335932|164775592|OTHER|||||||0.1|||||||Fisher Exact|||||||0.10
82538046|NCT01335932|164775593|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82538047|NCT01335932|164775594|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82538048|NCT01335932|164775595|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82538049|NCT01335932|164775596|OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
82538050|NCT01335932|164775597|OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
82538051|NCT01335932|164775598|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
82538052|NCT01335932|164775599|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
82433407|NCT02195700|164576575|SUPERIORITY||LSM difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.0188|TWO_SIDED|95.0|-2.6|-0.2||5% level of significance (2-sided)|unstructured covariance|||The linear mixed model for repeated measurements (MMRM) included fixed effects for treatment, each scheduled time point (5 levels: weeks 2, 4, 6, 9, and 12), the treatment-by-time point interaction, and the DRA status. Baseline AIMS score was a covariate. The unstructured covariance model was used, and the primary analysis compared the SD-809 and placebo groups at week 12. This was based on the F-test using the Satterhwaite method to compute the denominator degrees of freedom.||-0.2|-2.6|0.0188
82433408|NCT02195700|164576576|SUPERIORITY||Differences in %|7.9||||0.4001|TWO_SIDED|95.0|-10.2|25.2||5% level of significance (2-sided)|Pearson's chi-square test|||The secondary efficacy endpoints were analyzed using a hierarchical testing procedure. If the primary analysis was statistically significant (p\<0.05), then the first key secondary endpoint was to be analyzed. If the first key secondary endpoint was statistically significant, then the second key secondary endpoint was to be similarly analyzed. For any analysis that was not statistically significant, all subsequent analyses of key secondary endpoints were exploratory rather than confirmatory.||25.2|-10.2|0.4001
82433409|NCT02931838|164576583|SUPERIORITY|||||||0.4873||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||0.4873
82433410|NCT02931838|164576583|SUPERIORITY|||||||0.0003||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||0.0003
82433411|NCT02931838|164576583|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||<0.0001
82433412|NCT02931838|164576583|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||< 0.0001
82433413|NCT02931838|164576583|SUPERIORITY||||||<|0.0001||||||Nominal p-value|Chi-squared|P-value is from the Fishers Exact if at least one cell count is \<5. Otherwise, p-value is from the Chi-Square test.||||||<0.0001
82433414|NCT01575808|164576598|SUPERIORITY_OR_OTHER_LEGACY||Percentage|91.0|||<|0.0001|ONE_SIDED|95.0|86.3||||z-test|One-sided z-test||A literature-based Surgical Bypass Efficacy Goal of 65% was compared to the percentage of subjects maintaining primary assisted patency at 12 months. A one-sided z-test using a Type I error of 5% was performed to test the hypotheses that the 12-month primary assisted patency probability of GP1101 is superior to the SBEG of 65%.|||86.3|<0.0001
82433415|NCT01575808|164576599|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Hypothesis is that the post-procedure hospital stay duration for GP1101 is superior to the post-procedure hospital stay for the retrospective surgical bypass group.||||<0.0001
82433416|NCT01575808|164576600|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0|||<|0.0001|TWO_SIDED|95.0|96.5|100.0|||Fisher Exact||Confidence interval calculated with binomial exact method.|The hypothesis is that the rate of avoidance of general anesthesia for GP1101 is superior to the rate of avoidance of general anesthesis for the retrospective surgical bypass group.||100|96.5|<0.0001
82433417|NCT01575808|164576601|SUPERIORITY_OR_OTHER_LEGACY||Percentage|100.0|||||TWO_SIDED|95.0|96.5|100.0|||||Confidence intervals calculated using the binomial exact method.|||100.0|96.5|
82433418|NCT01575808|164576631|OTHER||Percentage|97.1|||||TWO_SIDED|95.0|91.7|99.4||||||||99.4|91.7|
82433419|NCT01575808|164576651|OTHER||Percentage|100.0|||||TWO_SIDED|95.0|96.5|100.0|||||Confidence Interval calculated with binomial exact method.|||100.0|96.5|
82453091|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||<0.0001
82453092|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0442|TWO_SIDED||||||ANCOVA|P-values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment||Week 2||||0.0442
82538053|NCT01335932|164775600|OTHER|||||||0.63|||||||t-test, 2 sided|||||||0.63
82538054|NCT01335932|164775601|OTHER|||||||0.51|||||||t-test, 2 sided|||||||0.51
82538055|NCT01335932|164775602|OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
82538056|NCT01335932|164775603|OTHER|||||||0.13|||||||t-test, 2 sided|||||||0.13
82538057|NCT01335932|164775604|OTHER|||||||0.008|||||||t-test, 2 sided|||||||0.008
82538058|NCT01335932|164775605|OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
82538059|NCT01335932|164775606|OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
82538060|NCT01335932|164775607|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
82538061|NCT01335932|164775608|OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
82538062|NCT01335932|164775609|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
82453093|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82648857|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.92|||||TWO_SIDED|95.0|-29.16|1.32||||||For change in emotional functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||1.32|-29.16|
82453094|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||<0.0001
82453095|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0681|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 4||||0.0681
82453096|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82453097|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||<0.0001
82453098|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0966|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 8||||0.0966
82538063|NCT01335932|164775610|OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
82538064|NCT01335932|164775611|OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
82538065|NCT01335932|164775612|OTHER|||||||0.8|||||||t-test, 2 sided|||||||0.80
82538066|NCT01335932|164775613|OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
82538067|NCT01335932|164775614|OTHER|||||||0.93|||||||t-test, 2 sided|||||||0.93
82538068|NCT01335932|164775615|OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
82538069|NCT01639443|164775683|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of percentage of clinic capacity filled. We are powered to detect a 0.5 Standard Deviation (SD) difference in clinic capacity (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||<0.0001
82538070|NCT01639443|164775684|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||We calculated this measure on the patient level. Our null hypothesis is that the lag time between scheduling and appointment, measured in days, will not differ between groups. We are powered to detect a 0.3 SD difference in lag time (Type I error rate = 5%; Power = 84%), accounting for the large sampling ratio (approximately 14:1).||||0.29
82648858|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|||||TWO_SIDED|95.0|-20.97|6.77||||||For change in cognitive functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||6.77|-20.97|
82648859|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.62|||||TWO_SIDED|95.0|-28.28|9.04||||||For change in social functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||9.04|-28.28|
82453099|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||<0.0001
82453100|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.0006
82453101|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.1242|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 12||||0.1242
82453102|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.0001
82453103|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||<0.001
82453104|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.1521|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 16||||0.1521
82453105|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||<0.0001
82453106|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0070
82453107|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 20||||0.0140
82453108|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
82453109|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||<0.0001
82453110|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0815|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 24||||0.0815
82453111|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||<0.0001
82453112|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0002
82453113|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0886|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 32||||0.0886
82453114|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||<0.0001
82453115|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.0003
82453116|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.1488|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 40||||0.1488
82538071|NCT01639443|164775685|SUPERIORITY_OR_OTHER|||||||0.49||||||We would have only expected 2 patients to be bumped in the Experimental Group, and observed 0.|Fisher Exact|||We did not explicitly power this study to detect differences in the number of service bumps, but we can compare them using Fisher's Exact Test||||0.49
82538072|NCT01639443|164775686|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|||We calculated this measure on the patient level, but were hampered by a large sampling ratio (more than 50:1). Our null hypothesis is that the number of polyps detected will not differ between groups. We are powered to detect a 0.25 SD difference in polyp count per patient (Type I error rate = 5%; Power = 80%).||||0.05
82433420|NCT01519791|164576665|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.283|||<|0.001|TWO_SIDED|95.0|1.503|3.468|||Regression, Logistic||The Odds ratio measuring the treatment effect was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||3.468|1.503|<0.001
82433421|NCT01519791|164576666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.957|||<|0.001|TWO_SIDED|95.0|1.384|2.767|||Regression, Logistic||The Odds ratio measuring the treatment effect was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||2.767|1.384|<0.001
82433422|NCT01519791|164576667|SUPERIORITY_OR_OTHER||Hodges-Lehmann point estimate of shift|-0.978|||<|0.001|TWO_SIDED|95.0|-1.005|-0.5|||ANCOVA on ranks||"ANCOVA model on the ranks with the terms for treatment, region, and time since RA diagnosis at Baseline (≤4 months or \>4 months) as factors and rank Baseline value as a covariate.~Confidence Interval is an asymptotic Moses CI."|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||-0.500|-1.005|<0.001
82433423|NCT01519791|164576672|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.446|||=|0.023|TWO_SIDED|95.0|1.052|1.989|||Regression, Logistic||The Odds ratio was estimated from a logistic regression model including terms for treatment, region and stratification factor. Nonresponder imputation (NRI) was used.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||1.989|1.052|=0.023
82433424|NCT01519791|164576684|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|-0.177|STANDARD_ERROR_OF_MEAN|0.049|<|0.001|TWO_SIDED|95.0|-0.273|-0.082|||ANCOVA||The CfB in HAQ-DI at Week 52 was analyzed using an ANCOVA model with terms for treatment, region, and time since Rheumatoid Arthritis (RA) diagnosis at Baseline (≤4 months or \>4 months) as factors and Baseline value as a covariate.|"In order to control the overall study-wise Type I error rate at 5 %, hypothesis testing was performed in the following hierarchical order (each at a 2-sided 95 % alpha level):~1. Primary: sustained DAS28(ESR) remission at Week 52~2. Key secondary: sustained DAS28(ESR) LDA at Week 52~3. ACR50 response at Week 52 in relation to Baseline~4. Change from Baseline in HAQ-DI at Week 52~5. Change from Baseline in mTSS at Week 52"||-0.082|-0.273|<0.001
82433425|NCT01525862|164576695|SUPERIORITY||||||<|0.0001||||||P values \<0.05 are considered statistically significant.|t-test, 2 sided|||||||<0.0001
82433426|NCT00241176|164576699|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)||YGTSS Global Severity score (M=61.8 SD=13.49) declined significantly to end point (M=33.7 SD=15.18; p=0.003).|Group 1 Baseline vs. Endpoint||||<.05
82433427|NCT00241176|164576700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)||Mean (SD) CGI-Tic severity scores reduced significantly from (M=4.45 SD=0.52) (moderate-marked) at baseline to (M=3.18 SD =0.60) (mild) at end point ( p=0.004).|Mean scores baseline to endpoint||||<.05
82433428|NCT03206970|164576701|OTHER||Clopper-Pearson|83.7|||<|0.0001|TWO_SIDED|95.0|74.2|90.8|||Binomial Exact Test|||A binomial exact test was performed to test against the null hypothesis H0: ORR=0.40 using the significant level of 0.025 (1-sided)||90.8|74.2|<.0001
82433429|NCT03206970|164576705|SUPERIORITY||Clopper-Pearson|83.7|||<|0.0001|TWO_SIDED|95.0|74.2|90.8|||Binomial Exact Test|||A binomial exact test was performed to test against the null hypothesis H0: ORR=0.40 using the significant level of 0.025 (1-sided)||90.8|74.2|<0.0001
82433430|NCT03645421|164576710|OTHER||Least squares (LS) mean difference|-42.11|STANDARD_ERROR_OF_MEAN|4.16|<|0.0001|TWO_SIDED|95.0|-50.47|-33.75|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-33.75|-50.47|<0.0001
82433431|NCT03645421|164576710|OTHER||LS mean difference|-33.61|STANDARD_ERROR_OF_MEAN|4.69|<|0.0001|TWO_SIDED|95.0|-43.04|-24.18|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-24.18|-43.04|<0.0001
82433432|NCT03645421|164576710|OTHER||LS mean difference|-40.3|STANDARD_ERROR_OF_MEAN|4.57|<|0.0001|TWO_SIDED|95.0|-49.49|-31.12|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-31.12|-49.49|<0.0001
82433433|NCT03645421|164576711|OTHER||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.89||0.1476|TWO_SIDED|95.0|-3.08|0.47|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||0.47|-3.08|0.1476
82453117|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||<0.0001
82453118|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0006
82453119|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0979|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 48||||0.0979
82453120|NCT00445770|164612006|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||<0.0001
82453121|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.0001
82648860|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.14|||||TWO_SIDED|95.0|-1.27|33.54||||||For change in fatigue at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||33.54|-1.27|
82648861|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-18.78|15.18||||||For change in nausea and vomiting at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||15.18|-18.78|
82648862|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.59|||||TWO_SIDED|95.0|-3.22|36.39||||||For change in pain at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||36.39|-3.22|
82453122|NCT00445770|164612006|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior methotrexate use + treatment.||Week 52||||0.1740
82453123|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior Methotrexate use + treatment.||Week 2||||<0.0001
82453124|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 2||||<0.0001
82453125|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0274|TWO_SIDED|||||p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.|ANCOVA|||Week 2||||0.0274
82453126|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||<0.0001
82538073|NCT01639443|164775687|SUPERIORITY_OR_OTHER|||||||0.024|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of length of workday. We are powered to detect approximately 0.5 SD difference in workday length in hours (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||0.024
82538074|NCT01639443|164775688|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||"We counted days containing at least one Fast-tracked participant as a Fast-tracked day for the sake of analysis at the clinic level. Our null hypothesis is that these days will not differ in terms of cost per day. We are powered to detect a 0.5 SD difference in clinic capacity (Type I error rate = 5%; Power = 81%), with a equal ratio of Experimental and Control days."||||0.11
82453127|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||<0.0001
82538075|NCT05273801|164775704|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||How frequently clinician ask about RPE/HR during session||||0.73
82538076|NCT05273801|164775704|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||How frequently education provided regarding HR/RPE during session||||0.05
82538077|NCT05273801|164775704|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||How frequently HR/RPE target is mentioned in session||||0.007
82538078|NCT05273801|164775704|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||How frequently clinician modifies session/task to reach HR/RPE target||||0.005
82538079|NCT05273801|164775704|SUPERIORITY|||||||1e-05|||||||t-test, 2 sided|||How frequently clinicians monitor HR/RPE during session||||0.00001
82648863|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.39|||||TWO_SIDED|95.0|-5.68|26.47||||||For change in dyspnea at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||26.47|-5.68|
82453128|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0344|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 4||||0.0344
82453129|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||<0.0001
82453130|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||<0.0001
82453131|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0293|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 8||||0.0293
82453132|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||<0.0001
82453133|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||<0.0001
82453134|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0452|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 12||||0.0452
82453135|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||<0.0001
82453136|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||<0.0001
82453137|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0313|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 16||||0.0313
82453138|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||<0.0001
82538080|NCT01249092|164775706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-57.3|STANDARD_DEVIATION|62.1||0.001|TWO_SIDED|95.0|-88.2|-26.4||This study tested the hypothesis that treatment with pentoxifylline would result in a statistically significant change from baseline in the level of alkaline phosphatase.|Paired t-test|||A p-value \< 0.05 was considered statistically significant and all analyses were carried out using SAS version 9.2 (The SAS Institute, Cary, NC). Matched pairs t-test was used to compare the change in alkaline phosphatase from baseline. The efficacy of therapy was measured based on improvement in AP levels after therapy with PTX. AP levels at end of the study were compared with values at baseline by matched pairs t-test.||-26.4|-88.2|0.001
82538081|NCT01249092|164775707|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.69|STANDARD_ERROR_OF_MEAN|8.66||0.5|TWO_SIDED|95.0|-24.14|8.68||Hypothesis tested if TIMP-1 levels after therapy with pentoxifylline changed significantly from baseline from baseline.|Paired t-test.|||Change from baseline in TIMP-1 levels was assessed by paired-t test. Distribution the variable values was assessed using normal probability plots. Matched pairs t-test was used to compare the change from baseline.||8.68|-24.14|0.5
82538082|NCT00151996|164775713|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in ADHD-RS-IV total score||||<0.0001
82538083|NCT00151996|164775713|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in ADHD-RS-IV total score||||<0.0001
82538084|NCT00151996|164775715|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change from baseline in CPRS-R total score||||<0.0001
82538085|NCT00151996|164775715|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||t-test, 2 sided|||Change from baseline in CPRS-R total score||||0.0002
82538086|NCT00151996|164775717|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7004||95.0|||||t-test, 2 sided|||Change in physical summary score||||0.7004
82538087|NCT00151996|164775717|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change in psychosocial summary score||||<0.0001
82538088|NCT00151996|164775717|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9257||95.0|||||t-test, 2 sided|||Change in physical summary score||||0.9257
82538089|NCT00151996|164775717|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 2 sided|||Change in psychosocial summary score||||<0.0001
82538090|NCT01720446|164775731|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of semaglutide versus placebo was considered to be confirmed if the upper limit of the two-sided 95% CI for the HR was below 1.8 or equivalent if the p-value for the one-sided test of: H0: HR ≥ 1.8 against Ha: HR \<1.8 was less than 2.5% (or equivalent to 5% for a two-sided test).|Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.58|0.95||The 'p-value' is for the two-sided Wald test of non-inferiority with limit 1.8.|Regression, Cox||Semaglutide/Placebo|The primary endpoint was analysed using a stratified Cox proportional hazards model with treatment group (semaglutide, placebo) as fixed factor. Assuming the same population MACE risk for the semaglutide and placebo groups (i.e., the population hazards ratio \[HR\] equals 1), a total minimum of 122 events were needed in order to have at least 90% power to ascertain that the upper two-sided 95% confidence limit for the HR was less than 1.8.||0.95|0.58|<0.0001
82538091|NCT01720446|164775731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0167|TWO_SIDED|95.0|0.58|0.95||The 'p-value' is for the two-sided Wald test of no difference.|Regression, Cox||Semaglutide/Placebo|A post hoc analysis of superiority of semaglutide versus placebo was performed based on the pre-specified Cox proportional hazard analysis using the two-sided Wald test of no difference, with treatment (semaglutide, placebo) as fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.95|0.58|0.0167
82538092|NCT01720446|164775732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0016|TWO_SIDED|95.0|0.62|0.89|||Regression, Cox||Semaglutide/Placebo|Analysis was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.89|0.62|0.0016
82538093|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.9181|TWO_SIDED|95.0|0.65|1.48|||Regression, Cox||Semaglutide/Placebo|Analysis for CV death was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.48|0.65|0.9181
82538094|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.1194|TWO_SIDED|95.0|0.51|1.08|||Regression, Cox||Semaglutide/Placebo|Analysis for non-fatal myocardial infarction was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.08|0.51|0.1194
82538095|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0438|TWO_SIDED|95.0|0.38|0.99|||Regression, Cox||Semaglutide/Placebo|Analysis for non-fatal stroke was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.99|0.38|0.0438
82538096|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0027|TWO_SIDED|95.0|0.5|0.86|||Regression, Cox||Semaglutide/Placebo|Analysis for revascularisation was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.86|0.50|0.0027
82538097|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.4914|TWO_SIDED|95.0|0.47|1.44|||Regression, Cox||Semaglutide/Placebo|Analysis for 'unstable angina requiring hospitalisation' was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.44|0.47|0.4914
82538098|NCT01720446|164775733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5735|TWO_SIDED|95.0|0.77|1.61|||Regression, Cox||Semaglutide/Placcbo|Analysis for hospitalisation for heart failure was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||1.61|0.77|0.5735
82648864|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|||||TWO_SIDED|95.0|-20.19|23.36||||||For change in insomnia at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||23.36|-20.19|
82538099|NCT01720446|164775734|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0292|TWO_SIDED|95.0|0.61|0.97|||Regression, Cox||Semaglutide/Placebo|Analysis for all-cause death, non-fatal MI or non-fatal stroke was done by Cox proportional hazards model with treatment (semaglutide; placebo) as a fixed factor and stratified by all possible combinations of the three stratification factors used in the randomisation procedure (in total 9 levels).||0.97|0.61|0.0292
82433434|NCT03645421|164576711|OTHER||LS mean difference|-2.53|STANDARD_ERROR_OF_MEAN|0.92||0.008|TWO_SIDED|95.0|-4.37|-0.69|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.69|-4.37|0.0080
82433435|NCT03645421|164576711|OTHER||LS mean difference|-2.52|STANDARD_ERROR_OF_MEAN|0.89||0.0063|TWO_SIDED|95.0|-4.3|-0.74|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.74|-4.30|0.0063
82433436|NCT03645421|164576714|OTHER||LS mean difference|-1.09|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.48|-0.7|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-0.70|-1.48|<0.0001
82433437|NCT03645421|164576714|OTHER||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.49|-0.71|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.71|-1.49|<0.0001
82433438|NCT03645421|164576714|OTHER||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.15|-0.38|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.38|-1.15|0.0002
82433439|NCT03645421|164576715|OTHER||LS mean difference|-56.69|STANDARD_ERROR_OF_MEAN|8.75|<|0.0001|TWO_SIDED|95.0|-74.3|-39.09|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-39.09|-74.30|<0.0001
82433440|NCT03645421|164576715|OTHER||LS mean difference|-60.58|STANDARD_ERROR_OF_MEAN|9.92|<|0.0001|TWO_SIDED|95.0|-80.53|-40.63|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-40.63|-80.53|<0.0001
82433441|NCT03645421|164576715|OTHER||LS mean difference|-55.07|STANDARD_ERROR_OF_MEAN|9.55|<|0.0001|TWO_SIDED|95.0|-74.28|-35.86|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-35.86|-74.28|<0.0001
82538100|NCT01720446|164775735|SUPERIORITY_OR_OTHER||Treatment difference|-0.66|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.52|||Mixed Models Analysis||Sema 0.5 mg - Placebo 0.5 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.52|-0.80|<0.0001
82433442|NCT03645421|164576716|OTHER||LS mean difference|-0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.094|-0.047|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 100 mcg - Placebo|Pair-wise comparison of MEDI0382 100 mcg versus Placebo.||-0.047|-0.094|<0.0001
82433443|NCT03645421|164576716|OTHER||LS mean difference|-0.053|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.077|-0.03|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 200 mcg - Placebo|Pair-wise comparison of MEDI0382 200 mcg versus Placebo.||-0.030|-0.077|<0.0001
82433444|NCT03645421|164576716|OTHER||LS mean difference|-0.049|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|-0.074|-0.024|||ANCOVA|Analysis used treatment group as a factor and baseline as a covariate.|Treatment difference = MEDI0382 300 mcg - Placebo|Pair-wise comparison of MEDI0382 300 mcg versus Placebo.||-0.024|-0.074|0.0002
82433445|NCT00924612|164576732|OTHER||Odds Ratio, log|130.83|STANDARD_ERROR_OF_MEAN|0.0844||0.0025|TWO_SIDED|90.0|113.59|150.7|||t-test, 2 sided|||Comparison of diets based on full crossover model|ANOVA of a multicenter, 4 sequence, 5 treatment crossover model using ln-transformed data. Normal fat diet compared to fasting, very low fat, low fat, and high fat diets as part of the overall analysis. No adjustments for multiplicity made.|150.70|113.59|0.0025
82433446|NCT00924612|164576732|OTHER||Odds Ratio, log|101.84|STANDARD_ERROR_OF_MEAN|0.0954||0.8494|TWO_SIDED|90.0|86.8|119.47|||t-test, 2 sided|||Comparison of diets based on full crossover model||119.47|86.80|0.8494
82453139|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||0.0019
82538101|NCT01720446|164775735|SUPERIORITY_OR_OTHER||Treatment difference|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.91|||Mixed Models Analysis||Sema 1.0 mg - Placebo 1.0 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.91|-1.19|<0.0001
82648865|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.24|||||TWO_SIDED|95.0|-7.62|40.1||||||For change in appetite loss at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||40.1|-7.62|
82433447|NCT00924612|164576732|OTHER||Odds Ratio, log|73.55|STANDARD_ERROR_OF_MEAN|0.0902||0.0013|TWO_SIDED|90.0|63.23|85.55|||t-test, 2 sided|||Comparison of diets based on full crossover model||85.55|63.23|0.0013
82433448|NCT00924612|164576732|OTHER||Odds Ratio, log|62.62|STANDARD_ERROR_OF_MEAN|0.0954|<|0.0001|TWO_SIDED|90.0|53.38|76.46|||t-test, 2 sided|||Comparison of diets based on full crossover model||76.46|53.38|<0.0001
82453140|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0781|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 20||||0.0781
82453141|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||<0.0001
82453142|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||0.0001
82648866|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.76|||||TWO_SIDED|95.0|-17.49|23.02||||||For change in constipation at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||23.02|-17.49|
82577409|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.222||0.9776|TWO_SIDED|95.0|-0.43|0.45|||MMRM|||Loss of Weight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-0.43|0.9776
82648867|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87|||||TWO_SIDED|95.0|-16.29|22.03||||||For change in diarrhea at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.03|-16.29|
82433449|NCT03636893|164576737|OTHER|Two-sided log-rank test comparing disease-free survival between treatment groups. No adjustment for multiple comparisons as this was a pre-specified secondary endpoint. Statistical significance set at P \<0.05.|Hazard Ratio (HR)|1.06||||0.842|TWO_SIDED|95.0|0.597|1.884||P-value from two-sided log-rank test. Alpha level set at 0.05.|Log Rank|Kaplan-Meier survival analysis with log-rank test for between-group comparison. Analysis performed using SPSS version 30.0.|Hazard ratio from Cox proportional hazards regression with FLOT as reference group.|Disease-free survival analysis in intention-to-treat population. DFS defined as time from randomization to first occurrence of local recurrence, regional recurrence, distant metastases, or death from any cause.|Kaplan-Meier method used to estimate DFS curves. Cox regression performed to calculate hazard ratios.|1.884|0.597|0.842
82433450|NCT03636893|164576738|OTHER|Two-sided log-rank test comparing overall survival between treatment groups. No adjustment for multiple comparisons as this was a pre-specified secondary endpoint. Statistical significance set at P \<0.05.|Hazard Ratio (HR)|1.101||||0.759|TWO_SIDED|95.0|0.595|2.036||P-value from two-sided log-rank test. No adjustment for multiple comparisons as overall survival was a pre-specified secondary endpoint. Alpha level set at 0.05.|Log Rank|Kaplan-Meier survival analysis with log-rank test for between-group comparison. Analysis performed using SPSS version 30.0.|Hazard ratio from Cox proportional hazards regression with FLOT as reference group.|Primary survival analysis comparing overall survival between neoadjuvant FLOT and SOX regimens in intention-to-treat population.|Kaplan-Meier method used to estimate survival curves. Cox regression performed to calculate hazard ratios. Multivariable analysis performed to identify independent predictors.|2.036|0.595|0.759
82433451|NCT03588806|164576763|SUPERIORITY|||||||0.218|||||||ANOVA|Univariate repeated measures ANOVA||||||0.218
82433452|NCT03588806|164576764|SUPERIORITY|||||||0.268|||||||ANOVA|Univariate repeated measures||||||0.268
82433453|NCT03588806|164576765|SUPERIORITY||||||<|0.001|||||||ANOVA|Univariate repeated measures ANOVA||||||<0.001
82433454|NCT03588806|164576766|SUPERIORITY|||||||0.228|||||||ANOVA|Univariate repeated measures ANOVA||||||0.228
82433455|NCT03588806|164576767|SUPERIORITY|||||||0.043|||||||ANOVA|Univariate repeated measures ANOVA||||||0.043
82433456|NCT03588806|164576768|SUPERIORITY|||||||0.486|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Social Roles score||||0.486
82433457|NCT03588806|164576768|SUPERIORITY|||||||0.078|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Sleep Disturbance T-Scores||||0.078
82433458|NCT03588806|164576768|SUPERIORITY|||||||0.874|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Depression T-Scores||||0.874
82433459|NCT03588806|164576768|SUPERIORITY|||||||0.389|||||||ANOVA|Univariate repeated measures ANOVA||PROMIS Anxiety T-Score||||0.389
82433460|NCT03588806|164576769|SUPERIORITY|||||||0.676|||||||ANOVA|Univariate repeated measures ANOVA||||||0.676
82433461|NCT04904744|164576771|SUPERIORITY||Odds Ratio (OR)|1.35||||0.165|TWO_SIDED|95.0|0.88|2.06|||Regression, Logistic||Low Tailored Message vs. No Message (reference group)|||2.06|0.88|0.165
82433462|NCT04904744|164576771|SUPERIORITY||Odds Ratio (OR)|1.33||||0.193|TWO_SIDED|95.0|0.87|2.03|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||2.03|0.87|0.193
82433463|NCT04904744|164576771|SUPERIORITY||Odds Ratio (OR)|1.02||||0.93|TWO_SIDED|95.0|0.68|1.52|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||1.52|0.68|0.930
82433464|NCT04904744|164576772|SUPERIORITY||Odds Ratio (OR)|2.07||||0.008|TWO_SIDED|95.0|1.21|3.52|||Regression, Logistic||Low Tailored Message vs. No Message|||3.52|1.21|0.008
82433465|NCT04904744|164576772|SUPERIORITY||Odds Ratio (OR)|1.25||||0.457|TWO_SIDED|95.0|0.7|2.23|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||2.23|0.70|0.457
82433466|NCT04904744|164576772|SUPERIORITY||Odds Ratio (OR)|1.66||||0.049|TWO_SIDED|95.0|1.0|2.74|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||2.74|1.00|0.049
82433467|NCT04904744|164576773|SUPERIORITY||Odds Ratio (OR)|2.04||||0.104|TWO_SIDED|95.0|0.86|4.82|||Regression, Logistic||Low Tailored Message vs. No Message|||4.82|0.86|0.104
82433468|NCT04904744|164576773|SUPERIORITY||Odds Ratio (OR)|1.26||||0.631|TWO_SIDED|95.0|0.49|3.22|||Regression, Logistic||Low tailored message plus COVID-19 vaccine message vs. No Message|||3.22|0.49|0.631
82433469|NCT04904744|164576773|SUPERIORITY||Odds Ratio (OR)|1.62||||0.238|TWO_SIDED|95.0|0.73|3.61|||Regression, Logistic||Low Tailored Message vs. Low tailored message plus COVID-19 vaccine message|||3.61|0.73|0.238
82433470|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Specificity of lesion shape|0.694|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||Null hypothesis is that there is no difference between the two tests.||||<0.001
82433471|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Lesion homogeneity spec, conservative|0.714|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the homogeneity of elasticity with the lesion and surrounding tissue using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very homogeneous).~Null hypothesis is that there is no difference between the two tests."||||<0.001
82453143|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.1279|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 24||||0.1279
82453144|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||<0.0001
82648868|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-9.81|20.92||||||For change in financial difficulties at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||20.92|-9.81|
82648869|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.97|||||TWO_SIDED|95.0|-19.52|7.57||||||For change in global QoL at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||7.57|-19.52|
82433472|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Lesion homogeneity spec, agressive|0.785|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the homogeneity of elasticity with the lesion and surrounding tissue using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very or reasonably homogeneous).~Null hypothesis is that there is no difference between the two tests."||||<0.001
82453145|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||0.0004
82453146|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0807|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 32||||0.0807
82453147|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||<0.0001
82453148|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||0.0002
82453149|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.418|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 40||||0.4180
82433473|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max. elasticity specificity,conservative|0.657||||0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the maximum elasticity using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kiloPascals (kPa) (7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 30 kPa (3.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||0.001
82433474|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max. elasticity specificity, aggressive|0.774|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of the maximum elasticity using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 80 kPa (5.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||<0.001
82433475|NCT00716482|164576775|SUPERIORITY_OR_OTHER||median mean elasticity value specificity|0.626||||0.18|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median mean elasticity value.~Null hypothesis is that there is no difference between the two tests."||||0.18
82453150|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||<0.0001
82453151|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||0.0061
82648870|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.64|||||TWO_SIDED|95.0|-19.75|8.46||||||For change in physical functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||8.46|-19.75|
82433476|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Diameter ratio specificity|0.512||||0.006|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image diameter ratio.~Null hypothesis is that there is no difference between the two tests."||||0.006
82453152|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.1615|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 48||||0.1615
82453153|NCT00445770|164612007|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||<0.0001
82648871|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.53|||||TWO_SIDED|95.0|-39.11|4.05||||||For change in role functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||4.05|-39.11|
82453154|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||0.0130
82453155|NCT00445770|164612007|SUPERIORITY_OR_OTHER|||||||0.0948|TWO_SIDED||||||ANCOVA|p-Values from ANCOVA model: change = baseline + pooled study center + prior MTX use + treatment.||Week 52||||0.0948
82453156|NCT01938040|164612026|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
82453157|NCT00999544|164612030|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Area-under-the-curve (AUC) scores were derived from time course data and analyzed using two-factor ANOVA \[aprepitant dose (3 levels)x oxycodone dose (3 levels)\].~All analyses were conducted using SAS 9.1 for Windows (SAS Institute Inc., Cary, NC, USA) and were considered significant when P 0.05."||||<.05
82453158|NCT02936635|164612040|SUPERIORITY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|3.619||0.2821|TWO_SIDED|95.0|-11.035|3.23|||Mixed Models Analysis|||||3.23|-11.035|0.2821
82453159|NCT02936635|164612041|SUPERIORITY||Median Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|4.242||0.2118|TWO_SIDED|95.0|-13.711|3.067|||Mixed Models Analysis|||||3.067|-13.711|0.2118
82453160|NCT02936635|164612042|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|1.205||0.6354|TWO_SIDED|95.0|-2.946|1.801|||Mixed Models Analysis|||||1.801|-2.946|0.6354
82648872|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.25|||||TWO_SIDED|95.0|-26.5|2.0||||||For change in emotional functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||2.00|-26.5|
82648873|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.99|||||TWO_SIDED|95.0|-23.13|9.15||||||For change in cognitive functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||9.15|-23.13|
82648874|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.09|||||TWO_SIDED|95.0|-30.48|16.31||||||For change in social functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||16.31|-30.48|
82538102|NCT01720446|164775736|SUPERIORITY_OR_OTHER||Treatment difference|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.38|||Mixed Models Analysis||Sema 0.5 mg - Placebo 0.5 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.38|-1.06|<0.0001
82433477|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Median elasticity ratio specificity|0.649||||0.006|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median elasticity ratio.~Null hypothesis is that there is no difference between the two tests."||||0.006
82433478|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max.color scale specificity,conservative|0.703|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image specificity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue).~Null hypothesis is that there is no difference between the two tests."||||<0.001
82433479|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max. color scale specificity, aggressive|0.785|||<|0.001|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in specificity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05~Overall specificity = 78.5%"|McNemar|||"Elastography image specificity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue, or light blue).~Null hypothesis is that there is no difference between the two tests."||||<0.001
82433480|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Lesion shape sensitivity|0.979||||0.48|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image lesion shape.~Null hypothesis is that there is no difference between the two tests."||||0.48
82433481|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Lesion homogeneity sens, conservative|0.969||||0.74|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the homogeneity of elasticity with the lesion and surrounding tissue using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very homogeneous).~Null hypothesis is that there is no difference between the two tests."||||0.74
82433482|NCT00716482|164576775|SUPERIORITY_OR_OTHER||elasticity homogeneity,aggressive,sensit|0.962||||0.37|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the homogeneity of elasticity with the lesion and surrounding tissue using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if they were not homogeneous on the color overlay SW elastographic image; BIRADS 4a mass downgraded to BIRADS 3' if they were very or reasonably homogeneous).~Null hypothesis is that there is no difference between the two tests."||||0.37
82433483|NCT00716482|164576775|SUPERIORITY_OR_OTHER||elasticity homegeneity,conservative,sens|0.99||||0.025|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05~Overall sensitivity = 99.0%"|McNemar|||"Elastography image sensitivity of the maximum elasticity using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 30 kPa (3.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||0.025
82433484|NCT00716482|164576775|SUPERIORITY_OR_OTHER||max. elasticity sensitivity,aggressive|0.972|||>|0.99|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of the maximum elasticity using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if maximum elasticity was 160 kPa(7.3 m/sec) or more; BIRADS 4a mass downgraded to BIRADS 3' if the maximum elasticity was 80 kPa (5.2 m/sec) or less).~Null hypothesis is that there is no difference between the two tests."||||>0.99
82538103|NCT01720446|164775736|SUPERIORITY_OR_OTHER||Treatment difference|-1.22|||<|0.0001|TWO_SIDED|95.0|-1.56|-0.88|||Mixed Models Analysis||Sema 1.0 mg - Placebo 1.0 mg|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-0.88|-1.56|<0.0001
82648875|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.88|||||TWO_SIDED|95.0|-5.86|27.63||||||For change in fatigue at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||27.63|-5.86|
82648876|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||||TWO_SIDED|95.0|-24.11|1.91||||||For change in nausea and vomiting at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||1.91|-24.11|
82648877|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.13|||||TWO_SIDED|95.0|-24.26|14.0||||||For change in pain at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||14.00|-24.26|
82648878|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.13|||||TWO_SIDED|95.0|-14.18|24.44||||||For change in dyspnea at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.44|-14.18|
82453161|NCT02936635|164612043|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|1.509||0.8887|TWO_SIDED|95.0|-3.186|2.763|||Mixed Models Analysis|||||2.763|-3.186|0.8887
82453162|NCT02309944|164612064|SUPERIORITY|||||||0.27|TWO_SIDED|95.0|||||Chi-squared|||Negative Pressure Wound Therapy vs. Standard Wound Closure||||0.27
82453163|NCT02309944|164612064|SUPERIORITY|||||||0.24|||||||Regression, Logistic|Multivariate Model (adjusted for ascites and previous laparotomy)||Negative Pressure Wound Therapy vs. Standard Wound Closure||||0.24
82453164|NCT01173601|164612114|SUPERIORITY_OR_OTHER|||||||0.338||||||In order to test the primary outcome between each LY2216684 dose and placebo while controlling the overall Type I error at 0.05, the significance level was a priori partitioned equally between the 2 LY2216684 dose-placebo comparisons at 0.025.|Mixed Models Analysis|||||||0.338
82453165|NCT01173601|164612114|SUPERIORITY_OR_OTHER|||||||0.201||||||In order to test the primary outcome between each LY2216684 dose and placebo while controlling the overall Type I error at 0.05, the significance level was a priori partitioned equally between the 2 LY2216684 dose-placebo comparisons at 0.025.|Mixed Models Analysis|||||||0.201
82453166|NCT01510158|164612140|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.26|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.17|0.36|||Cochran-Mantel-Haenszel|||||0.36|0.17|<0.0001
82453167|NCT01510158|164612140|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.22|0.41|||Cochran-Mantel-Haenszel|||||0.41|0.22|<0.0001
82453168|NCT01510158|164612141|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99||||0.9796|TWO_SIDED|95.0|0.61|1.61|||Negative Binomial Regression|||||1.61|0.61|0.9796
82453169|NCT01510158|164612141|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88||||0.6125|TWO_SIDED|95.0|0.54|1.43|||Negative Binomial Regression|||||1.43|0.54|0.6125
82453170|NCT01510158|164612142|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.29||||0.0183|TWO_SIDED|95.0|-0.51|-0.08|||Cochran-Mantel-Haenszel|||||-0.08|-0.51|0.0183
82453171|NCT01510158|164612142|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.5974|TWO_SIDED|95.0|-0.37|0.2|||Cochran-Mantel-Haenszel|||||0.2|-0.37|0.5974
82538104|NCT01720446|164775737|SUPERIORITY_OR_OTHER||Treatment difference|-2.95|||<|0.0001|TWO_SIDED|95.0|-3.47|-2.44|||Mixed Models Analysis||Sema 0.5 mg - Placebo|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-2.44|-3.47|<0.0001
82538105|NCT01720446|164775737|SUPERIORITY_OR_OTHER||Treatment difference|-4.27|||<|0.0001|TWO_SIDED|95.0|-4.78|-3.75|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo|Analysis was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-3.75|-4.78|<0.0001
82577410|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.217||0.3239|TWO_SIDED|95.0|-0.65|0.22|||MMRM|||Loss of Weight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.22|-0.65|0.3239
82453172|NCT05258149|164612143|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.65|||||TWO_SIDED|95.0|1.1|2.46|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A|||2.46|1.10|
82453173|NCT05258149|164612144|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.27|2.79|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A|||2.79|1.27|
82453174|NCT05258149|164612145|NON_INFERIORITY|A Non-Inferiority margin of 10% was used.|Odds Ratio (OR)|0.74|||||TWO_SIDED|98.33|0.42|1.3|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|1.30|0.42|
82453175|NCT05258149|164612146|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|1.58|||||TWO_SIDED|98.33|0.91|2.75|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|2.75|0.91|
82453176|NCT05258149|164612147|SUPERIORITY|A superiority margin of 1 was used.|Odds Ratio (OR)|2.08|||||TWO_SIDED|98.33|1.24|3.5|||Generalized Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Odds Ratio was calculated as senofilcon A C3 over delefilcon A||confidence intervals were adjusted using 98.33% per each secondary endpoint|3.50|1.24|
82453177|NCT02114606|164612161|OTHER|Overall agreement was calculated using Cohen's Kappa, with endoscopic biopsy as the gold standard.||||||0.0001||||||A p-value of \<0.05 was considered statistically significant.|Cohen's Kappa|||All participants enrolled (EoE Patients) provided both a Cytosponge specimen and endoscopic biopsy. The results of these specimens were compared to examine overall agreement.||||0.0001
82453178|NCT01466127|164612169|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
82453179|NCT02152761|164612200|SUPERIORITY||Treatment Group Ratio (BYM - Placebo)|1.057|||<|0.0001|TWO_SIDED|95.0|1.037|1.076|||Mixed Models Analysis||Holm-Bonferroni method: Used to adjust the Type I error for two comparisons (BYM338 700 mg/Placebo) at Week 24. No control for multiplicity was made at Week 12.|week 12||1.076|1.037|<.0001
82453180|NCT02152761|164612200|SUPERIORITY||Treatment group rratio (BYM - Placebo)|1.043|||<|0.0001|TWO_SIDED|95.0|1.024|1.064|||Mixed Models Analysis||Holm-Bonferroni method: Used to adjust the Type I error for two comparisons (BYM338 700 mg/Placebo) at Week 24. No control for multiplicity was made at Week 12.|week 12||1.064|1.024|<.0001
82453181|NCT02152761|164612201|SUPERIORITY||LS Mean of Treatment Difference|-0.071||||0.1829|TWO_SIDED|95.0|-0.175|0.034||Treatment Difference (BYM-Placebo)|Mixed Models Analysis|||week 24||0.034|-0.175|0.1829
82453182|NCT02152761|164612201|SUPERIORITY||LS Mean of Treatment Difference|0.011||||0.8365|TWO_SIDED|95.0|-0.096|0.119|||Mixed Models Analysis|||week 24||0.119|-0.096|0.8365
82453183|NCT02152761|164612202|SUPERIORITY||LS Mean of Treatment Difference|-0.371||||0.5802|TWO_SIDED|95.0|-1.311|1.053|||Mixed Models Analysis|||week 24||1.053|-1.311|0.5802
82453184|NCT02152761|164612202|SUPERIORITY||LS Mean of the Treatment Difference|0.833||||0.0913|TWO_SIDED|95.0|-0.135|1.801|||Mixed Models Analysis|||week 24||1.801|-0.135|0.0913
82538106|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.97||||0.0149|TWO_SIDED|95.0|0.95|1.0|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for total cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||1.00|0.95|0.0149
82538107|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.258|TWO_SIDED|95.0|0.97|1.01|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for total cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||1.01|0.97|0.2580
82433485|NCT00716482|164576775|SUPERIORITY_OR_OTHER||median mean elasticity value sensitivity|0.986||||0.046|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median mean elasticity value.~Null hypothesis is that there is no difference between the two tests."||||0.046
82433486|NCT00716482|164576775|SUPERIORITY_OR_OTHER||diameter ratio sensitivity|0.99||||0.025|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image diameter ratio.~Null hypothesis is that there is no difference between the two tests."||||0.025
82433487|NCT00716482|164576775|SUPERIORITY_OR_OTHER||median elasticity ratio sensitivity|0.983||||0.083|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image median elasticity ratio.~Null hypothesis is that there is no difference between the two tests."||||0.083
82433488|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max.color scale sensitivity,conservative|0.997||||0.008|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using conservative strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue).~Null hypothesis is that there is no difference between the two tests."||||0.008
82433489|NCT00716482|164576775|SUPERIORITY_OR_OTHER||Max. color scale sensitivity, aggressive|0.986||||0.21|TWO_SIDED|95.0||||"P-value was that to test the null hypothesis that there is no change in sensitivity with addition of the ShearWave elastographic feature.~Significance threshold P-value = 0.05"|McNemar|||"Elastography image sensitivity of color using a six-point color scale of maximum elasticity in the mass and surrounding parenchyma using aggressive strategy (BIRADS 3 mass upgraded to BIRADS 4a' if the max stiffness on the color overlay SW elastographic image was red; BIRADS 4a mass downgraded to BIRADS 3' if the max stiffness on the color overlay SW elastographic image was black to dark blue, or light blue).~Null hypothesis is that there is no difference between the two tests."||||0.21
82433490|NCT00716482|164576776|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Kruskal-Wallis|Kruskal-Wallis one-way ANOVA. Kruskal-Wallis was performed once to get p-values for all of the 9 categories at once.||Null hypothesis: no variance of similarity exists between the three groups||||<0.001
82433491|NCT03248531|164576779|OTHER||Mean posterior difference|31.2|STANDARD_DEVIATION|10.1|||TWO_SIDED|95.0|11.0|50.4|||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model. 95% credible intervals were presented for the bimekizumab (BKZ) vs placebo (PBO) comparison.||50.4|11.0|
82453185|NCT02152761|164612203|SUPERIORITY||Falls Rate Ratio|1.08||||0.8353|TWO_SIDED|95.0|0.53|2.21|||Negative binomial regression|||||2.21|0.53|0.8353
82453186|NCT02152761|164612203|SUPERIORITY||Falls Rate Ratio|1.58||||0.2015|TWO_SIDED|95.0|0.78|3.18|||Negative binomial regression|||||3.18|0.78|0.2015
82453187|NCT02152761|164612203|SUPERIORITY||Falls Rate Ratio|1.25||||0.3999|TWO_SIDED|95.0|0.52|3.0|||Negative binomial regression|||week 24||3.00|0.52|0.3999
82453188|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.255|||<|0.0001|TWO_SIDED|95.0|-2.895|-1.616|||Mixed Model ANOVA|||||-1.616|-2.895|<0.0001
82538108|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|1.0||||0.8106|TWO_SIDED|95.0|0.99|1.02|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for HDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.02|0.99|0.8106
82538109|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|1.04|||<|0.0001|TWO_SIDED|95.0|1.02|1.06|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for HDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.06|1.02|<0.0001
82648879|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.33|||||TWO_SIDED|95.0|-26.25|13.59||||||For change in insomnia at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||13.59|-26.25|
82648880|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.03|||||TWO_SIDED|95.0|-15.26|33.32||||||For change in appetite loss at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||33.32|-15.26|
82453189|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.566|||<|0.0001|TWO_SIDED|95.0|-3.208|-1.925|||Mixed Model ANOVA|||||-1.925|-3.208|<0.0001
82453190|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.531||||0.0003|TWO_SIDED|95.0|-2.342|-0.719|||Mixed Model ANOVA|||||-0.719|-2.342|0.0003
82453191|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.842|||<|0.0001|TWO_SIDED|95.0|-2.654|-1.029|||Mixed Model ANOVA|||||-1.029|-2.654|<0.0001
82453192|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.097|||<|0.0001|TWO_SIDED|95.0|-4.857|-3.337|||Mixed Model ANOVA|||||-3.337|-4.857|<0.0001
82453193|NCT01957202|164612204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.311||||0.3699|TWO_SIDED|95.0|-0.994|0.372|||Mixed Model ANOVA|||||0.372|-0.994|0.3699
82538110|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.96||||0.0185|TWO_SIDED|95.0|0.93|0.99|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for LDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.99|0.93|0.0185
82538111|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.5996|TWO_SIDED|95.0|0.96|1.03|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for LDL-cholesterol was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.03|0.96|0.5996
82577411|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.238||0.6736|TWO_SIDED|95.0|-0.57|0.37|||MMRM|||Loss of Weight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.37|-0.57|0.6736
82648881|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|||||TWO_SIDED|95.0|-25.71|26.82||||||For change in constipation at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||26.82|-25.71|
82538112|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.97||||0.1833|TWO_SIDED|95.0|0.93|1.01|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for triglycerides was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.01|0.93|0.1833
82538113|NCT01720446|164775738|SUPERIORITY_OR_OTHER||Treatment ratio|0.93||||0.0009|TWO_SIDED|95.0|0.89|0.97|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for triglycerides was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.97|0.89|0.0009
82538114|NCT01720446|164775739|SUPERIORITY_OR_OTHER||Treatment ratio|0.78||||0.0003|TWO_SIDED|95.0|0.68|0.89|||Mixed Models Analysis||Sema 0.5 mg / Placebo 0.5 mg|Analysis for urinary albumin to creatinine ration was donne using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit. The response and its baseline value were log-transformed before analysis.||0.89|0.68|0.0003
82538115|NCT01720446|164775739|SUPERIORITY_OR_OTHER||Treatment ratio|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.81|||Mixed Models Analysis||Sema 1.0 mg / Placebo 1.0 mg|Analysis for urinary albumin to creatinine ration was donne using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.81|0.62|<0.0001
82538116|NCT01720446|164775740|SUPERIORITY_OR_OTHER||Treatment difference|0.04||||0.9205|TWO_SIDED|95.0|-0.83|0.92|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for diastolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.92|-0.83|0.9205
82538117|NCT01720446|164775740|SUPERIORITY_OR_OTHER||Treatment difference|0.14||||0.7477|TWO_SIDED|95.0|-0.74|1.03|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for diastolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.03|-0.74|0.7477
82538118|NCT01720446|164775740|SUPERIORITY_OR_OTHER||Treatment difference|-1.27||||0.0976|TWO_SIDED|95.0|-2.77|0.23|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for systolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.23|-2.77|0.0976
82538119|NCT01720446|164775740|SUPERIORITY_OR_OTHER||Treatment difference|-2.59||||0.0008|TWO_SIDED|95.0|-4.09|-1.08|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for systolic blood pressure was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||-1.08|-4.09|0.0008
82538120|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.5||||0.3171|TWO_SIDED|95.0|-0.48|1.47|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for bodily pain was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.47|-0.48|0.3171
82538121|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.47||||0.0031|TWO_SIDED|95.0|0.5|2.45|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for bodily pain was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.45|0.50|0.0031
82538122|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.87||||0.035|TWO_SIDED|95.0|0.06|1.69|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for general health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.69|0.06|0.0350
82538123|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.42||||0.0007|TWO_SIDED|95.0|0.6|2.24|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for general health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.24|0.60|0.0007
82538124|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.17||||0.7277|TWO_SIDED|95.0|-0.79|1.13|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for mental component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.13|-0.79|0.7277
82648882|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|-24.07|28.01||||||For change in diarrhea at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||28.01|-24.07|
82648883|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.48|||||TWO_SIDED|95.0|-5.89|24.86||||||For change in financial difficulties at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.86|-5.89|
82538125|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.97||||0.0489|TWO_SIDED|95.0|0.0|1.94|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for mental component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.94|0.00|0.0489
82538126|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment Difference|0.61||||0.186|TWO_SIDED|95.0|-0.3|1.53|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for mental health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.53|-0.30|0.1860
82538127|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.39||||0.0029|TWO_SIDED|95.0|0.48|2.31|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for mental health was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.31|0.48|0.0029
82538128|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.68||||0.0833|TWO_SIDED|95.0|-0.09|1.45|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for physical component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.45|-0.09|0.0833
82538129|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.4||||0.0004|TWO_SIDED|95.0|0.62|2.17|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for physical component summary was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.17|0.62|0.0004
82538130|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.8||||0.0799|TWO_SIDED|95.0|-0.1|1.69|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for physical functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.69|-0.10|0.0799
82538131|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.5||||0.0011|TWO_SIDED|95.0|0.6|2.4|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for physical functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.40|0.60|0.0011
82538132|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.53||||0.3717|TWO_SIDED|95.0|-0.63|1.68|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for role emotional was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.68|-0.63|0.3717
82538133|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.94||||0.1136|TWO_SIDED|95.0|-0.22|2.1|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for role emotional was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.10|-0.22|0.1136
82577412|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.231||0.6136|TWO_SIDED|95.0|-0.58|0.34|||MMRM|||Loss of Weight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.34|-0.58|0.6136
82577413|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.195||0.1141|TWO_SIDED|95.0|-0.7|0.08|||MMRM|||Loss of Weight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.70|0.1141
82648884|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.01|||||TWO_SIDED|95.0|-43.19|3.17||||||For change in global QoL at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||3.17|-43.19|
82538134|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.72||||0.1431|TWO_SIDED|95.0|-0.24|1.67|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for role physical was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.67|-0.24|0.1431
82538135|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.14||||0.0197|TWO_SIDED|95.0|0.18|2.11|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for role physical was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.11|0.18|0.0197
82538136|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|-0.05||||0.9223|TWO_SIDED|95.0|-1.03|0.93|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for social functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.93|-1.03|0.9223
82538137|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.14||||0.0237|TWO_SIDED|95.0|0.15|2.13|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for social functioning was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.13|0.15|0.0237
82538138|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|0.33||||0.4523|TWO_SIDED|95.0|-0.53|1.19|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for vitality was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.19|-0.53|0.4523
82648885|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.57|||||TWO_SIDED|95.0|-27.24|10.1||||||For change in physical functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||10.10|-27.24|
82538139|NCT01720446|164775744|SUPERIORITY_OR_OTHER||Treatment difference|1.2||||0.0064|TWO_SIDED|95.0|0.34|2.07|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for vitality was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.07|0.34|0.0064
82538140|NCT01720446|164775745|SUPERIORITY_OR_OTHER||Treatment ratio|0.99||||0.7796|TWO_SIDED|95.0|0.95|1.04|||Mixed Models Analysis||Semaglutide 0.5 mg/Placebo 0.5 mg|Analysis for free fatty acids was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||1.04|0.95|0.7796
82538141|NCT01720446|164775745|SUPERIORITY_OR_OTHER||Treatment ratio|0.92||||0.0003|TWO_SIDED|95.0|0.88|0.96|||Mixed Models Analysis||Semaglutide 1.0 mg/Placebo 1.0 mg|Analysis for free fatty acids was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||0.96|0.88|0.0003
82538142|NCT01720446|164775746|SUPERIORITY_OR_OTHER||Treatment difference|2.02|||<|0.0001|TWO_SIDED|95.0|1.07|2.98|||Mixed Models Analysis||Semaglutide 0.5 mg - Placebo 0.5 mg|Analysis for pulse rate was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||2.98|1.07|<0.0001
82538143|NCT01720446|164775746|SUPERIORITY_OR_OTHER||Treatment difference|2.47|||<|0.0001|TWO_SIDED|95.0|1.52|3.43|||Mixed Models Analysis||Semaglutide 1.0 mg - Placebo 1.0 mg|Analysis for pulse rate was done using a mixed model for repeated measurements with treatment (4 levels) and stratification (9 levels) as fixed factors and baseline value as covariate, all nested within visit.||3.43|1.52|<0.0001
82538144|NCT01020838|164775748|SUPERIORITY_OR_OTHER||Sensitivity|0.774|||||TWO_SIDED|95.0|0.654|0.894|||||Point estimate of sensitivity was calculated by the method of Rao and Scott. Variance for sensitivity is based on subjects that contribute at least one brain region, which is amyloid positive according to the SoT|"For the primary analysis, point estimates together with normal-approximated, two sided 95% confidence intervals, were given for sensitivity in beta-amyloid detection based on the majority read.~The following hypothesis was formulated for sensitivity:~H0,sens: sensitivity ≤ 0.6 vs. H1, sens: sensitivity \> 0.6 H0,sens was to be rejected if the lower bound of the two-sided 95% CI is larger than 0.6"||0.894|0.654|
82538145|NCT01020838|164775748|SUPERIORITY_OR_OTHER||Specificity|0.942|||||TWO_SIDED|95.0|0.886|0.998|||||Point estimate of specificity was calculated using the method of Rao and Scott. Variance for specificity is based on subjects that contribute at least one brain region, which is amyloid negative according to the SoT|"For the primary analysis, point estimates together with normal-approximated, two sided 95% confidence intervals, were given for specificity in amyloid detection based on the majority read.~The following hypothesis was formulated for specificity:~H0,spec: specificity ≤ 0.8 vs. H1, spec: specificity \> 0.8 H0,spec was to be rejected if the lower bound of the two-sided 95% CI is larger than 0.8"||0.998|0.886|
82538146|NCT00930813|164775770|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||The study required 100 subjects to provide 80% power to detect a clinically meaningful difference in late lumen loss of 15% of reference vessel diameter between treatment groups on the basis of a 2-sample Student t test with 2-sided alpha 0.05.||||0.016
82538147|NCT03055767|164775800|SUPERIORITY|||||||0.038|||||||Wilcoxon signed-rank test|||||||0.038
82538148|NCT03055767|164775801|SUPERIORITY|||||||0.047|||||||Wilcoxon signed-rank test)|||||||0.047
82538149|NCT03055767|164775802|SUPERIORITY|||||||0.148|||||||Wilcoxon signed-rank test)|||||||0.148
82538150|NCT03055767|164775803|SUPERIORITY|||||||0.047|||||||Wilcoxon signed-rank test)|||||||0.047
82538151|NCT03055767|164775804|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test)|||||||0.002
82538152|NCT03055767|164775805|SUPERIORITY|||||||0.82|||||||McNemar|||||||0.82
82538153|NCT03055767|164775806|SUPERIORITY|||||||0.006|||||||McNemar|||||||0.006
82538154|NCT03055767|164775807|SUPERIORITY|||||||0.039|||||||McNemar|||||||0.039
82538155|NCT03055767|164775808|SUPERIORITY|||||||0.016|||||||McNemar|||||||0.016
82648886|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.07|||||TWO_SIDED|95.0|-41.1|8.96||||||For change in role functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||8.96|-41.10|
82433492|NCT03248531|164576779|OTHER||Mean posterior difference|-2.2|STANDARD_DEVIATION|10.6|||TWO_SIDED|60.0|-11.2|6.6|||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model. 60% credible intervals were presented for the BKZ vs adalimumab (ADA) comparison.||6.6|-11.2|
82433493|NCT03248531|164576779|OTHER||Pr [Diff>0%] (%)|99.8|||||||||||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model.||||
82538156|NCT03055767|164775809|SUPERIORITY|||||||0.18|||||||McNemar|||||||0.18
82538157|NCT03055767|164775810|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed-rank test)|||||||<0.001
82538158|NCT03055767|164775811|SUPERIORITY|||||||0.64|||||||Wilcoxon signed-rank test)|||||||0.64
82538159|NCT01466881|164775824|SUPERIORITY_OR_OTHER|||||||0.2316|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Two-sided alpha level of 0.05||The null hypothesis is that there is no significant difference in Aurora kinase A expression between responders and non-responders.||||0.2316
82538160|NCT02427737|164775846|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.0001
82538161|NCT02427737|164775846|SUPERIORITY|||||||0.3037||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||0.3037
82538162|NCT02427737|164775846|SUPERIORITY||||||<|0.01||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.01
82538163|NCT02427737|164775847|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.0001
82453194|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.364|||<|0.0001|TWO_SIDED|95.0|-1.853|-0.874|||Mixed Model ANOVA|||||-0.874|-1.853|<0.0001
82453195|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.1975|TWO_SIDED|95.0|-0.169|0.809|||Mixed Model ANOVA|||||0.809|-0.169|0.1975
82453196|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.252|||<|0.0001|TWO_SIDED|95.0|-1.87|-0.635|||Mixed Model ANOVA|||||-0.635|-1.870|<0.0001
82453197|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.432||||0.1648|TWO_SIDED|95.0|-0.179|1.042|||Mixed Model ANOVA|||||1.042|-0.179|0.1648
82453198|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.932||||0.0016|TWO_SIDED|95.0|-1.506|-0.358|||Mixed Model ANOVA|||||-0.358|-1.506|0.0016
82648887|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.11|||||TWO_SIDED|95.0|-42.72|-5.5||||||For change in emotional functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||-5.50|-42.72|
82453199|NCT01957202|164612205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.684|||<|0.0001|TWO_SIDED|95.0|1.16|2.208|||Mixed Model ANOVA|||||2.208|1.160|<0.0001
82453200|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.3052|TWO_SIDED|95.0|-0.508|0.16|||Mixed Model ANOVA|||||0.160|-0.508|0.3052
82453201|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.2725|TWO_SIDED|95.0|-0.149|0.523|||Mixed Model ANOVA|||||0.523|-0.149|0.2725
82453202|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.536||||0.0118|TWO_SIDED|95.0|-0.952|-0.12|||Mixed Model ANOVA|||||-0.120|-0.952|0.0118
82453203|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.175||||0.4049|TWO_SIDED|95.0|-0.588|0.239|||Mixed Model ANOVA|||||0.239|-0.588|0.4049
82453204|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.349||||0.0793|TWO_SIDED|95.0|-0.739|0.041|||Mixed Model ANOVA|||||0.041|-0.739|0.0793
82538164|NCT02427737|164775847|SUPERIORITY|||||||0.201||||||Bonferroni-correction was not done since the corrected p-value would be have been greater than 1.|Chi-squared|||Change in the average quarterly completion rate as compared to the baseline quarter||||0.2010
82648888|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|||||TWO_SIDED|95.0|-29.66|10.61||||||For change in cognitive functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||10.61|-29.66|
82453205|NCT01957202|164612206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.361||||0.0478|TWO_SIDED|95.0|0.004|0.719|||Mixed Model ANOVA|||||0.719|0.004|0.0478
82453206|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.215||||0.1502|TWO_SIDED|95.0|-0.509|0.079|||Mixed Model ANOVA|||||0.079|-0.509|0.1502
82453207|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075||||0.6177|TWO_SIDED|95.0|-0.37|0.221|||Mixed Model ANOVA|||||0.221|-0.370|0.6177
82453208|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.701||||0.0004|TWO_SIDED|95.0|-1.08|-0.322|||Mixed Model ANOVA|||||-0.322|-1.080|0.0004
82453209|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0035|TWO_SIDED|95.0|-0.934|-0.187|||Mixed Model ANOVA|||||-0.187|-0.934|0.0035
82453210|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.775|||<|0.0001|TWO_SIDED|95.0|-1.123|-0.428|||Mixed Model ANOVA|||||-0.428|-1.123|<0.0001
82453211|NCT01957202|164612207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.3807|TWO_SIDED|95.0|-0.175|0.456|||Mixed Model ANOVA|||||0.456|-0.175|0.3807
82453212|NCT01456169|164612208|SUPERIORITY_OR_OTHER||LS mean difference|-14.7|||<|0.001|TWO_SIDED|95.0|-17.6|-11.8|||ANCOVA|ANCOVA model with treatment as a fixed effect and baseline trough, sitting, clinic SBP as a covariate.||The type I error was controlled using a 2-step hierarchical testing procedure. In the first step, the high dose (40/25 mg) of Azilsartan medoxomil + chlorthalidone was compared to Azilsartan medoxomil alone. If the comparison in step 1 was statistically significant at a significance level of 5%, then step 2 was performed by comparing the low dose (40/12.5 mg) and monotherapy at the 5% significance level.||-11.8|-17.6|<0.001
82453213|NCT01456169|164612208|SUPERIORITY_OR_OTHER||LS mean difference|-9.5|||<|0.001|TWO_SIDED|95.0|-12.4|-6.5|||ANCOVA|ANCOVA model with treatment as a fixed effect and baseline trough, sitting, clinic SBP as a covariate||||-6.5|-12.4|<0.001
82453214|NCT01397461|164612223|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||"The treatment comparison was done using only the outcomes of Clinical success and Clinical failure. The p value of the chi square test (without continuity correction) and corresponding 95% asymptotic (Wald) CI for the difference in success rates for the ozenoxacin versus placebo were provided. The analysis was performed to test the superiority of ozenoxacin versus placebo.~Text extracted from the statistical analysis plan. No additional data was pre-specified for the statistical comparison"||||0.003
82453215|NCT05729568|164612228|SUPERIORITY||Difference in least-squares means|-56.0||||0.1436|TWO_SIDED|95.0|-132.0|20.0|||ANCOVA||Difference in least-squares means (Diff in LSM), and its 95% CI were from ANCOVA model of change from baseline CD4 cell count with treatment as fixed effect and baseline CD4 cell count as a covariate.|||20|-132|0.1436
82453216|NCT01514201|164612243|OTHER|This was descriptive in nature. Two of the first 5 patients who were escalated to 175 mg/m2 of temozolomide during the maintenance intra-patient dose escalation had dose-modifying toxicities (DMTs). Since the ad hoc stopping rule was met, intra-patient dose escalation was halted and all subsequent patients were to receive 135 mg/m2 of temozolomide during maintenance.|Percentage of patients with DMTs|40.0|||||TWO_SIDED|||||||||Intra-patient dose escalation of temozolomide during maintenance was assessed based on similar rules employed in traditional 3+3 designs. For example intra-patient dose escalation would be halted if at any time 2 out of first 2-6 patients experienced dose-modifying toxicities at a given dose level or if 4 out of first 12 patients experienced dose-modifying toxicities at a given dose level.||||
82453217|NCT02534909|164612276|OTHER|Bayesian analysis of response rate in serum LDH (period 1 completers only)|Median response rate|99.0|||||TWO_SIDED|95.0|81.9|100.0|||||95% Credibility Interval for Response Rate|Up to Week 4||100.0|81.9|
82453218|NCT02534909|164612277|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.23|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 1 Day 29 serum LDH levels||0.23|0.15|<0.001
82648889|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.24|||||TWO_SIDED|95.0|-47.93|7.46||||||For change in social functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||7.46|-47.93|
82433494|NCT03248531|164576779|OTHER||Pr[Diff > 0%](%)|42.1|||||||||||Regression, Logistic|||Results were based on a Bayesian logistic regression model where the number of responders were assumed to follow a binomial distribution. Treatment and Baseline Hurley Stage were included as predictors in the model.||||
82538165|NCT02427737|164775847|SUPERIORITY||||||<|0.001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.001
82538166|NCT02427737|164775848|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared|||Comparison among trained and untrained sites||||<0.0001
82538167|NCT02427737|164775848|SUPERIORITY|||||||0.303||||||"Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.~Chi-square analysis was used to assess equipment utilization at trained sites compared with untrained sites when stratifying by time (chi-square MH = 858.2)."|Chi-squared|||Change in the quarterly equipment utilization rate as compared to the baseline quarter Q4FY15 over time and at sites||||0.303
82538168|NCT02427737|164775848|SUPERIORITY||||||<|0.001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the average quarterly completion rate as compared to the baseline quarter||||<0.001
82538169|NCT02427737|164775849|SUPERIORITY||||||<|0.0001||||||CMH test was used with time as a strata variable (rather than pooling all data together as in the regular chi-squared test). The CMH chi-squared value was 858.2, and the regular chi-squared value was 858.8.|Chi-squared, Corrected|Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.||||||<0.0001
82538170|NCT02427737|164775850|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82577414|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.194||0.2185|TWO_SIDED|95.0|-0.62|0.14|||MMRM|||Loss of Weight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.62|0.2185
82577415|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.054||0.6191|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6191
82648890|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|3.23|46.77||||||For change in fatigue at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||46.77|3.23|
82453219|NCT02534909|164612277|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.23|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 2 Day 365 serum LDH levels||0.23|0.15|<0.001
82538171|NCT02427737|164775852|SUPERIORITY|||||||0.2357||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||0.2357
82538172|NCT02427737|164775852|SUPERIORITY|||||||0.8523||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows as compared to the baseline quarter||||0.8523
82538173|NCT02427737|164775852|SUPERIORITY|||||||0.5883||||||Bonferroni-correction was not done for this nonsignificant result since the corrected p-value would be have been greater than 1, which is not possible.|Chi-squared|||Change in the quarterly average no-show rate as compared to the baseline quarter at untrained sites||||0.5883
82538174|NCT02427737|164775853|SUPERIORITY|||||||0.0195||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||0.0195
82538175|NCT02427737|164775853|SUPERIORITY|||||||0.276||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows compared to the baseline quarter||||0.276
82538176|NCT02427737|164775853|SUPERIORITY|||||||0.2764||||||No Bonferroni-correction|Chi-squared|||Change in the quarterly no-shows as compared to the baseline quarter at untrained sites||||0.2764
82538177|NCT02427737|164775854|SUPERIORITY||||||<|0.01||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Comparison among trained and untrained sites||||<0.01
82538178|NCT02427737|164775854|SUPERIORITY|||||||0.9012||||||Bonferroni-correction was not done since the corrected p-value would be have been greater than 1.|Chi-squared|||Change in the quarterly average no show rate as compared to the baseline quarter for trained sites||||0.9012
82538179|NCT02427737|164775854|SUPERIORITY|||||||0.9065||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|||Change in the quarterly average no-show rate as compared to the baseline quarter for untrained sites||||0.9065
82538180|NCT02427737|164775855|SUPERIORITY||||||<|0.0001||||||Bonferroni-corrected p-values were used after multiplying the uncorrected p-value by 10.|Chi-squared, Corrected|CMH test with time as a strata variable was 28.7; chi-square value with pooling all data together was 28.6||Comparison among trained and untrained sites over time||||<0.0001
82538181|NCT02427737|164775860|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82538182|NCT02427737|164775861|SUPERIORITY|||||||0.2396|||||||Chi-squared|||||||0.2396
82538183|NCT02427737|164775862|SUPERIORITY|||||||0.5267|||||||Chi-squared|||||||0.5267
82538184|NCT02427737|164775863|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82538185|NCT02427737|164775864|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82577416|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.053||0.6169|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 2: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6169
82577417|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.054||0.9911|TWO_SIDED|95.0|-0.11|0.11|||MMRM|||Insight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.11|0.9911
82433495|NCT04075513|164576821|NON_INFERIORITY|Non-inferiority was based on a relative margin of 10%. Since higher time in range means better outcome, non-inferiority was demonstrated if the lower bound of the two-sided 95% confidence interval (CI) of the difference between Toujeo LS mean and 90% of Tresiba LS mean at Week 12 was \> 0.|Least square mean difference|3.16|STANDARD_ERROR_OF_MEAN|1.163||0.0067|TWO_SIDED|95.0|0.88|5.44||Threshold of significance at \<0.05.|ANCOVA||This estimation parameter corresponds to the difference between Toujeo LS mean and 90% of Tresiba LS mean.|Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||5.44|0.88|0.0067
82433496|NCT04075513|164576822|NON_INFERIORITY|Non-inferiority was based on a relative margin of 10%. Since lower CV means better outcome, non-inferiority was demonstrated if the upper bound of the two-sided 95% CI of the difference between Toujeo LS mean and 110% of Tresiba LS mean at Week 12 was \< 0.|Least square mean difference|-5.44|STANDARD_ERROR_OF_MEAN|0.542|<|0.0001|TWO_SIDED|95.0|-6.5|-4.38||Threshold of significance at \<0.05.|ANCOVA||This estimation parameter corresponds to the difference between Toujeo LS mean and 110% of Tresiba LS mean.|A hierarchical step-down testing procedure was used to control type I error. The hierarchical testing was then performed sequentially only when the primary endpoint demonstrated non-inferiority. Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||-4.38|-6.50|<0.0001
82433497|NCT04075513|164576823|SUPERIORITY|Superiority was demonstrated if the lower bound of the two-sided 95% CI of the adjusted difference estimate of Toujeo and Tresiba at Week 12 was \>0.|Least square mean difference|-2.35|STANDARD_ERROR_OF_MEAN|1.225||0.0548|TWO_SIDED|95.0|-4.75|0.05||Threshold of significance at \<0.05.|ANCOVA|||A hierarchical step-down testing procedure was used to control type I error. The hierarchical testing was then performed sequentially when the primary endpoint and the secondary endpoint of total CV demonstrated non-inferiority. Analysis was performed using ANCOVA model including the fixed categorical effect of treatment groups and randomization stratum of screening HbA1c (\<8.0%, \>=8.0%) and the continuous fixed covariate of Baseline percent time in range value.||0.05|-4.75|0.0548
82433498|NCT02550288|164576833|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-36.3|||<|0.001|TWO_SIDED|95.0|-40.5|-32.2|||Constrained longitudinal data analysis|||||-32.2|-40.5|<0.001
82433499|NCT02550288|164576833|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-11.6|||<|0.001|TWO_SIDED|95.0|-14.9|-8.2|||Constrained longitudinal data analysis|||||-8.2|-14.9|<0.001
82433500|NCT02550288|164576833|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-39.9|||<|0.001|TWO_SIDED|95.0|-44.1|-35.8|||Constrained longitudinal data analysis|||||-35.8|-44.1|<0.001
82433501|NCT02550288|164576833|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-10.1|||<|0.001|TWO_SIDED|95.0|-13.5|-6.8|||Constrained longitudinal data analysis|||||-6.8|-13.5|<0.001
82433502|NCT03517371|164576863|SUPERIORITY||Mean Difference (Final Values)|72.35||||0.89|TWO_SIDED|95.0|-943.34|1088.04|||t-test, 2 sided|||||1088.04|-943.34|.89
82433503|NCT03517371|164576864|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.42|TWO_SIDED|95.0|-3.8|3.1|||t-test, 2 sided|||||3.10|-3.80|.42
82433504|NCT03517371|164576865|SUPERIORITY||Median Difference (Final Values)|2.17||||0.85|TWO_SIDED|95.0|-20.64|24.97|||t-test, 2 sided|Levene's test significant, equal variances not assumed values reported.||||24.97|-20.64|.85
82433505|NCT03517371|164576866|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.824|TWO_SIDED|95.0|-0.081|0.065|||t-test, 2 sided|||||.065|-.081|.824
82433506|NCT04283656|164576871|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.76|1.24||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.24|0.76|
82433507|NCT04283656|164576872|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.66|1.32||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.32|0.66|
82453220|NCT02534909|164612277|OTHER||Geometric LS mean Ratio to Baseline|0.17|||<|0.001|TWO_SIDED|95.0|0.14|0.2|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 3 Day 1429 serum LDH levels||0.20|0.14|<0.001
82453221|NCT02534909|164612277|OTHER||Geometric LS mean Ratio to Baseline|0.19|||<|0.001|TWO_SIDED|95.0|0.15|0.24|||Mixed Models Analysis||The longitudinal mixed effects model included timepoint, log baseline as a covariate and the log baseline by timepoint interaction. C5 variant status was included as a categorical covariate.|Period 4 Day 141 serum LDH levels||0.24|0.15|<0.001
82648891|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.25|||||TWO_SIDED|95.0|-13.49|25.99||||||For change in nausea and vomiting at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||25.99|-13.49|
82648892|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.64|||||TWO_SIDED|95.0|-7.12|46.41||||||For change in pain at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||46.41|-7.12|
82648893|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.02|||||TWO_SIDED|95.0|0.38|43.66||||||For change in dyspnea at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||43.66|0.38|
82648894|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.12|||||TWO_SIDED|95.0|-18.49|38.73||||||For change in insomnia at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||38.73|-18.49|
82433508|NCT04283656|164576873|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.76|1.24||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for doravirine C24 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.24|0.76|
82433509|NCT04283656|164576874|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.17|||||TWO_SIDED|90.0|0.91|1.5||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.50|0.91|
82433510|NCT04283656|164576875|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.38|||||TWO_SIDED|90.0|0.73|2.6||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||2.60|0.73|
82433511|NCT04283656|164576876|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.14|||||TWO_SIDED|90.0|0.93|1.4||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment A (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate alone)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for tenofovir C24 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.40|0.93|
82453222|NCT00566852|164612284|SUPERIORITY_OR_OTHER|||||||0.059||||||Significance level was 0.025.|Wilcoxon (Mann-Whitney)|||Null hypothesis: patients on memantine will experience less decline than patients receiving placebo. Based on a one-sided Wilcoxon rank sum test with alpha=0.025, 221 patients per arm would be required to have 80% statistical power to detect a mean difference of 0.87 in the HVLT-R change scores between the two treatment arms. Assuming that 20% of patients may be ineligible, or die prior to the 24 week assessment, the target sample size for randomization was set to 536.||||0.059
82453223|NCT00566852|164612285|SUPERIORITY|||||||0.0692||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||8 weeks||||0.0692
82453224|NCT00566852|164612285|SUPERIORITY|||||||0.4541||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||16 weeks||||0.4541
82453225|NCT00566852|164612285|SUPERIORITY|||||||0.397||||||One-sided significance level of 0.025|Wilcoxon (Mann-Whitney)|||52 weeks||||0.3970
82648895|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-13.98|55.65||||||For change in appetite loss at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||55.65|-13.98|
82648896|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.9|||||TWO_SIDED|95.0|-19.02|42.83||||||For change in constipation at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.83|-19.02|
82648897|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.9|||||TWO_SIDED|95.0|-16.13|39.94||||||For change in diarrhea at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||39.94|-16.13|
82648898|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-23.38|23.38||||||For change in financial difficulties at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||23.38|-23.38|
82433512|NCT04283656|164576877|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.7|1.35||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratio for estradiol AUC falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.35|0.70|
82433513|NCT04283656|164576878|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.12|||||TWO_SIDED|90.0|0.92|1.36||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratios for estradiol Cmax falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.36|0.92|
82433514|NCT04283656|164576879|EQUIVALENCE|The no-effect (bioequivalence) boundaries of 80%-125% were used.|Geometric mean ratio|1.09|||||TWO_SIDED|90.0|0.88|1.35||A two-sided significance level of 0.05 with a mean ratio of 1 for no effect was assumed.||A post hoc power analysis determined 80% power would be achieved for 6 subjects to detect an effect size of 1.43 or greater at 5% significance level.|Ratio represents Treatment C (Single-dose oral doravirine/lamivudine/tenofovir disoproxil fumarate co-administered with estradiol and spironolactone) over Treatment B (Single-dose estradiol and spironolactone co-administered with placebo)|6 participants completed the study and were included in the pharmacokinetic analysis. As all participants received the same treatment groups but not necessarily in the same order, calculations were done between arms (Sequence E and F). 10 subjects was determined to achieve 80% power to reject the null hypothesis (geometric mean ratios for estradiol C12 falls outside of the no-effect boundaries) with two-sided significance level of 0.05 assuming a mean ratio of 1 for no effect.||1.35|0.88|
82433515|NCT03629223|164576883|EQUIVALENCE|Analysis was performed with Equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%. In the below, LS-means = least squares mean.|Percentage of Ratio of Geometric LS-Mean|115.35|||||TWO_SIDED|90.0|108.55|122.58||||||||122.58|108.55|
82433516|NCT03629223|164576883|OTHER||Percentage of ratio of Geometric LS-Mean|186.37|||||TWO_SIDED|90.0|163.61|212.28||||||||212.28|163.61|
82433517|NCT03629223|164576883|OTHER||Percentage of ratio of Geometric LS-Mean|163.15|||||TWO_SIDED|90.0|146.17|182.1||||||||182.10|146.17|
82433518|NCT03629223|164576884|EQUIVALENCE|Analysis was performed with Equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%.|Percentage of ratio of Geometric LS-Mean|115.34|||||TWO_SIDED|90.0|108.51|122.6||||||||122.60|108.51|
82433519|NCT03629223|164576884|OTHER||Percentage of ratio of Geometric LS-Mean|186.67|||||TWO_SIDED|90.0|163.78|212.77||||||||212.77|163.78|
82433520|NCT03629223|164576884|OTHER||Percentage of ratio of Geometric LS-Mean|163.26|||||TWO_SIDED|90.0|146.09|182.46||||||||182.46|146.09|
82453226|NCT00566852|164612286|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.01|TWO_SIDED|95.0|0.62|0.99|||Gray's test|||A one-sided log-rank test with alpha 0.025 accruing 221 patients/arm with 12 months of follow-up would ensure 98% statistical power to detect a 33% relative reduction in the monthly hazard rate with the use of memantine. Gray's test was used to test for a statistically significant difference in the distribution of neurocognitive failure times and Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||0.99|0.62|0.01
82433521|NCT03629223|164576885|EQUIVALENCE|Analysis was performed with equivalence acceptance range for 90% confidence interval (CI) as 80.00% - 125.00%.|Percentage of ratio of Geometric LS-Mean|113.57|||||TWO_SIDED|90.0|107.62|119.85||||||||119.85|107.62|
82577418|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.053||0.336|TWO_SIDED|95.0|-0.05|0.15|||MMRM|||Insight, Change at Hour 4: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.05|0.3360
82648899|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.66|||||TWO_SIDED|95.0|-34.53|17.21||||||For change in global QoL at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups||17.21|-34.53|
82433522|NCT03629223|164576885|OTHER||Percentage of ratio of Geometric LS-Mean|236.51|||||TWO_SIDED|90.0|215.69|259.34||||||||259.34|215.69|
82433523|NCT03629223|164576885|OTHER||Percentage of ratio of Geometric LS-Mean|199.61|||||TWO_SIDED|90.0|176.44|225.82||||||||225.82|176.44|
82433524|NCT02674464|164576894|SUPERIORITY||Odds Ratio (OR)|0.9||||0.68|TWO_SIDED|95.0|0.62|1.3||The a priori threshold for statistical significance was \<0.05.|Generalized Estimating Equations (GEE)|Assuming an exchangeable correlation structure|CC/SC arm compared to the SCP arm.|||1.30|0.62|0.68
82453227|NCT00566852|164612287|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Assuming normally distributions, the two sample t-test assuming equal variances would be used to compare the arms at the 0.025 significance level. If normality assumptions were not met, the Wilcoxon rank sum would be used.||||0.77
82433525|NCT02674464|164576895|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.6|TWO_SIDED|95.0|-1.32|2.3||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression||CC/SC arm was compared to the SCP arm.|||2.30|-1.32|0.60
82538186|NCT01710514|164775917|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative (Ha) by constructing two-sided 95%CI for the difference. The non-inferiority limit for the difference was pre-specified to -10.0% (absolute). If the lower limit of the two-sided 95%CI was greater than the non-inferiority limit (-10.0%) for both the FAS and per protocol set, the null hypothesis was to be rejected. In that case it would be claimed that the rate observed in this trial was non-inferior to the rate observed in the CS08 trial|Difference of % to historical control|-0.9|||||TWO_SIDED|95.0|-3.6|1.8||||||To verify sufficient supplementation of luteal hormone, the proportion of subjects with blood progesterone concentration ≥ 10 ng/mL on Day 5 was compared to the result from a historical control, trial CS08 (NCT number: 00884221). The corresponding proportion of subjects in trial CS08 was 99.8% (95%CI: 99.1;100.0, 631/632 subjects). The non-inferiority hypothesis tested for this primary endpoint was: H0: P(000072)-P(CS08) ≤ -10.0% against the alternative Ha: P(000072)-P(CS08) \> -10.0%.||1.8|-3.6|
82648900|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.98|||||TWO_SIDED|95.0|-52.01|26.04||||||For change in physical functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||26.04|-52.01|
82433526|NCT02674464|164576896|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.38|TWO_SIDED|95.0|-1.04|2.71||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression|||||2.71|-1.04|0.38
82433527|NCT02674464|164576897|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.05|TWO_SIDED|95.0|-2.43|0.01||The a priori threshold for statistical significance was \<0.05.|Mixed Effects Regression||CC/SC arm compared to SCP arm.|||0.01|-2.43|0.05
82433528|NCT04660552|164576946|EQUIVALENCE|The post treatment cars scores of active and sham group will be statistically different as measured by independent sample t-test with p\<.05|Mean Difference (Net)|7.23|STANDARD_DEVIATION|4.2||0.01|TWO_SIDED|95.0|2.357|12.107|||t-test, 2 sided|||||12.107|2.357|0.01
82433529|NCT04004221|164576949|OTHER||||||<|0.0001|||||||Exact Binomial Test|1-sided p-value was based on binomial exact test of Tislelizumab versus historical rate of 0.1||||||< 0.0001
82433530|NCT01831466|164576999|SUPERIORITY_OR_OTHER||Difference in response rates|3.9|STANDARD_ERROR_OF_MEAN|6.36||0.5425|TWO_SIDED|80.0|-4.3|12.0|||Cochran-Mantel-Haenszel|||||12.0|-4.3|0.5425
82433531|NCT01831466|164576999|SUPERIORITY_OR_OTHER||Difference in response rates|-4.0|STANDARD_ERROR_OF_MEAN|5.87||0.4976|TWO_SIDED|80.0|-11.5|3.5|||Cochran-Mantel-Haenszel|||||3.5|-11.5|0.4976
82433532|NCT01831466|164576999|SUPERIORITY_OR_OTHER||Difference in response rates|3.3|STANDARD_ERROR_OF_MEAN|6.36||0.6039|TWO_SIDED|80.0|-4.9|11.5|||Cochran-Mantel-Haenszel|||||11.5|-4.9|0.6039
82433533|NCT01831466|164576999|SUPERIORITY_OR_OTHER||Difference in response rate|4.0|STANDARD_ERROR_OF_MEAN|6.34||0.5279|TWO_SIDED|80.0|-4.1|12.1|||Cochran-Mantel-Haenszel|||||12.1|-4.1|0.5279
82433534|NCT01831466|164577000|SUPERIORITY_OR_OTHER||Difference in response rates|10.8|STANDARD_ERROR_OF_MEAN|5.99||0.071|TWO_SIDED|80.0|3.1|18.5|||Cochran-Mantel-Haenszel|||||18.5|3.1|0.0710
82433535|NCT01831466|164577000|SUPERIORITY_OR_OTHER||Difference in response rates|-1.2|STANDARD_ERROR_OF_MEAN|5.2||0.8175|TWO_SIDED|80.0|-7.9|5.5|||Cochran-Mantel-Haenszel|||||5.5|-7.9|0.8175
82433536|NCT01831466|164577000|SUPERIORITY_OR_OTHER||Difference in response rates|11.0|STANDARD_ERROR_OF_MEAN|5.63||0.0513|TWO_SIDED|80.0|3.8|18.2|||Cochran-Mantel-Haenszel|||||18.2|3.8|0.0513
82433537|NCT01831466|164577000|SUPERIORITY_OR_OTHER||Difference in response rates|6.7|STANDARD_ERROR_OF_MEAN|5.23||0.2021|TWO_SIDED|80.0|0.0|13.4|||Cochran-Mantel-Haenszel|||||13.4|-0.0|0.2021
82538187|NCT03404843|164775922|OTHER|||||||0.97|||||||ANOVA|||Within group comparison of treatment||||0.97
82538188|NCT03404843|164775922|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
82648901|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.32|||||TWO_SIDED|95.0|-71.87|19.24||||||For change in role functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||19.24|-71.87|
82433538|NCT00005947|164577028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.052||95.0|0.99|2.11|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable \[placebo/sipuleucel-T\].|||2.11|0.99|0.052
82433539|NCT00005947|164577028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.052|TWO_SIDED|95.0|0.47|1.01|||Log Rank||Obtained from a Cox proportional hazards model with treatment group as the independent variable \[sipuleucel-T/placebo\]|||1.01|0.47|0.052
82433540|NCT00005947|164577029|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.71||||0.01||95.0|1.13|2.58|||Log Rank||Cox proportional hazards model with treatment as the independent variable \[placebo/sipuleucel-T\].|ITT Population - all randomized participants||2.58|1.13|0.010
82433541|NCT00005947|164577029|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.586||||0.01|TWO_SIDED|95.0|0.388|0.884|||Log Rank||Cox proportional hazards model with treatment as the independent variable \[sipuleucel-T/placebo\]|ITT Population - all randomized participants.||0.884|0.388|0.010
82433542|NCT02482428|164577097|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.07||0.862|TWO_SIDED|90.0|-0.03|0.2|||Posterior mean|||||0.20|-0.03|0.862
82433543|NCT02482428|164577097|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p value is provided|Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.07||0.541|TWO_SIDED|90.0|-0.07|0.19|||posterior mean|||||0.19|-0.07|0.541
82433544|NCT00301262|164577108|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.13|STANDARD_ERROR_OF_MEAN|3.405|<|0.0001||95.0|11.4|24.86||Since there was only one primary endpoint no multiple comparison adjustments were made for primary analysis. Final stat. model included centre, treatment, smoking status and history of ED as factors, and age, duration of ED (baseline) as covariates.|ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|The primary analysis population was the FAS. The sample size was estimated based on an expected difference of 16.5 with a standard deviation of 28.4, based on previously observed data.||24.86|11.40|<0.0001
82433545|NCT00301262|164577109|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.09|STANDARD_DEVIATION|14.761||0.0028||95.0|1.8|8.37|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||8.370|1.800|0.0028
82433546|NCT00301262|164577109|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|26.02|STANDARD_DEVIATION|22.294|<|0.0001||95.0|20.58|31.455|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||31.455|20.580|<0.0001
82648902|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.14|||||TWO_SIDED|95.0|-26.59|14.31||||||For change in emotional functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||14.31|-26.59|
82433547|NCT00301262|164577110|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|0.656||0.008||95.0|0.47|3.06|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||3.06|0.47|0.0080
82433548|NCT00301262|164577111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.94|STANDARD_DEVIATION|2.909||0.0051||95.0|0.29|1.585|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.585|0.290|0.0051
82433549|NCT00301262|164577111|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.79|STANDARD_DEVIATION|4.013|<|0.0001||95.0|1.812|3.77|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.770|1.812|<0.0001
82433550|NCT00301262|164577112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.61|STANDARD_ERROR_OF_MEAN|0.922||0.0054||95.0|0.78|4.43|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||4.43|0.78|0.0054
82433551|NCT00301262|164577113|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.368||0.4232||95.0|-0.43|1.02|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.02|-0.43|0.4232
82433552|NCT00301262|164577114|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.277||0.0156||95.0|0.13|1.22|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.22|0.13|0.0156
82433553|NCT00301262|164577115|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.458||0.0096||95.0|0.3|2.11|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||2.11|0.30|0.0096
82453228|NCT00566852|164612288|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.27|TWO_SIDED|95.0|0.87|1.3|||Log Rank|||The stratified log-rank test was used to test for a statistically significant difference in survival distributions with a one-sided alpha of 0.025 . In addition, the Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||1.3|0.87|0.27
82538189|NCT03404843|164775923|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
82538190|NCT03404843|164775923|OTHER||||||<|0.05|||||||ANOVA|||Within group comparison of treatment||||<0.05
82538191|NCT03404843|164775924|OTHER|||||||0.28|||||||ANOVA|||Within group comparison of treatment||||0.28
82648903|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.99|||||TWO_SIDED|95.0|-35.46|11.48||||||For change in cognitive functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||11.48|-35.46|
82433554|NCT00301262|164577116|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.359||0.0135||95.0|0.19|1.61|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||1.61|0.19|0.0135
82433555|NCT00301262|164577117|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.49|STANDARD_DEVIATION|4.392||0.0033||95.0|0.051|2.465|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.465|0.0510|0.0033
82433556|NCT00301262|164577117|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.22|STANDARD_DEVIATION|6.346|<|0.0001||95.0|3.676|6.772|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||6.772|3.676|<0.0001
82453229|NCT00566852|164612289|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.025|TWO_SIDED|95.0|0.86|1.31|||Log Rank|||The stratified log-rank test was used to test for a statistically significant difference in survival distributions with a one-sided alpha of 0.025 . In addition, the Cox proportional hazards regression model was used to determine hazard ratios and 95% confidence intervals for the treatment difference.||1.31|0.86|0.025
82453230|NCT01147055|164612290|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|18.21|||||TWO_SIDED|90.0|16.14|20.54||||||Natural log transformed AUC (0-∞) of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||20.54|16.14|
82538192|NCT03404843|164775924|OTHER|||||||0.37|||||||ANOVA|||Within group comparison of treatment||||0.37
82538193|NCT03404843|164775925|OTHER|||||||0.89|||||||ANOVA|||Within group comparison of treatment||||0.89
82538194|NCT03404843|164775925|OTHER|||||||0.3|||||||ANOVA|||Within group comparison of treatment||||0.30
82538195|NCT03404843|164775926|OTHER|||||||0.08|||||||ANOVA|||Within group comparison of treatment||||0.08
82538196|NCT03404843|164775926|OTHER|||||||0.05|||||||ANOVA|||Within group comparison of treatment||||0.05
82538197|NCT00567164|164775928|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.85|STANDARD_DEVIATION|30.356||0.0001||95.0|-16.3|-7.394|||t-test, 2 sided|||||-7.394|-16.3|0.0001
82538198|NCT04044664|164775951|OTHER|||||||0.1728|||||||t-test, 1 sided|||CAPS-5 Total Score||||0.1728
82538199|NCT04044664|164775951|OTHER|||||||0.0962|||||||t-test, 1 sided|||Cognition and Mood sub-score||||0.0962
82538200|NCT04044664|164775951|OTHER|||||||0.0191|||||||t-test, 1 sided|||Arousal and Reactivity sub-score||||0.0191
82538201|NCT04044664|164775957|OTHER|||||||0.0452|||||||t-test, 1 sided|||||||0.0452
82538202|NCT04044664|164775957|OTHER|||||||0.0614|||||||t-test, 1 sided|||||||0.0614
82538203|NCT04044664|164775958|OTHER|||||||0.0182|||||||t-test, 1 sided|||greater than or equal to 30% decrease from baseline||||0.0182
82538204|NCT04044664|164775958|OTHER|||||||0.0705|||||||t-test, 1 sided|||greater than or equal to 50% decrease from baseline||||0.0705
82648904|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.04|||||TWO_SIDED|95.0|-20.97|49.04||||||For change in social functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||49.04|-20.97|
82648905|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.39|||||TWO_SIDED|95.0|-15.83|62.61||||||For change in fatigue at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||62.61|-15.83|
82453231|NCT01147055|164612291|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|31.49|||||TWO_SIDED|90.0|26.43|37.51||||||Natural log transformed Cmax of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||37.51|26.43|
82453232|NCT01147055|164612292|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|17.6|||||TWO_SIDED|90.0|15.48|20.02||||||Natural log transformed AUClast of crizotinib was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||20.02|15.48|
82453233|NCT01147055|164612297|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|5.49|||||TWO_SIDED|90.0|4.64|6.49||||||Natural log transformed AUClast of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||6.49|4.64|
82453234|NCT01147055|164612298|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|5.75|||||TWO_SIDED|90.0|4.86|6.81||||||Natural log transformed AUC (0 - ∞) of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||6.81|4.86|
82453235|NCT01147055|164612300|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|11.01|||||TWO_SIDED|90.0|9.02|13.45||||||Natural log transformed Cmax of PF-06260182 was analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. The adjusted mean differences and 90% CIs for the differences was exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||13.45|9.02|
82453236|NCT00362648|164612316|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|39.3|||<|0.001||95.0|19.1|54.7||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of subjects with outcome in vaccine group relative to total number of subjects with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|The number randomized is different from the number analyzed because some data were excluded from the analysis: subjects were classified as unevaluable due to wildtype rotavirus in stool before 14 days Postdose 3, incomplete clinical and/or laboratory results, or stool samples collected out of day range. Rotavirus gastroenteritis cases are subjects with one or more positive episodes. The most severe positive episode is used for the date of the case.||54.7|19.1|<0.001
82453237|NCT00362648|164612316|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|48.3|||<|0.001||95.0|22.3|66.1||Efficacy\>0%. Based on p\< 1/(1+k), where p is proportion of subjects with outcome in vaccine group relative to total number of subjects with outcome, and k is ratio of follow-up time; placebo / vaccine. Based on conditional binomial approach.|Exact binomial test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|The number randomized is different from the number analyzed because some data were excluded from the analysis: subjects were classified as unevaluable due to wildtype rotavirus in stool before 14 days Postdose 3, incomplete clinical and/or laboratory results, or stool samples collected out of day range. Rotavirus gastroenteritis cases are subjects with one or more positive episodes. The most severe positive episode is used for the date of the case.||66.1|22.3|<0.001
82453238|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|78.3||||||95.0|71.7|84.0||||||Anti-rotavirus IgA||84.0|71.7|
82453239|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|18.5||||||95.0|13.3|24.8||||||Serotype G1||24.8|13.3|
82453240|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|9.0||||||95.0|5.3|14.0||||||Serotype G2||14.0|5.3|
82453241|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|6.3||||||95.0|3.3|10.8||||||Serotype G3||10.8|3.3|
82453242|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|26.5||||||95.0|20.3|33.3||||||Serotype G4||33.3|20.3|
82453243|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|14.4||||||95.0|9.7|20.2||||||Serotype P1A\[8\]||20.2|9.7|
82453244|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|20.1||||||95.0|14.4|27.0||||||Anti-rotavirus IgA||27.0|14.4|
82453245|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|0.0||||||95.0|0.0|2.2||||||Serotype G1||2.2|0.0|
82538205|NCT00478556|164775962|SUPERIORITY_OR_OTHER||difference in proportions|62.0|||<|0.001|||||||Binomial test of proportion|tested if values were different from 50%||All individuals tasted both preparations and indicated preference. A binomial test of proportion was done to see if these values differed from 50%.||||<0.001
82538206|NCT00478556|164775963|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum test was used to assess differences in bowel opacification score between the two groups.||||0.270
82648906|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|||||TWO_SIDED|95.0|-30.84|38.73||||||For change in nausea and vomiting at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||38.73|-30.84|
82453246|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|3.0||||||95.0|1.0|6.8||||||Serotype G2||6.8|1.0|
82538207|NCT01859312|164776044|OTHER|||||||0.021|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.021
82538208|NCT01859312|164776046|OTHER|||||||0.027|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.027
82538209|NCT01859312|164776048|OTHER|||||||0.008|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.008
82538210|NCT01859312|164776050|OTHER|||||||0.012|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.012
82648907|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.56|||||TWO_SIDED|95.0|-13.08|62.2||||||For change in pain at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||62.20|-13.08|
82433557|NCT00301262|164577118|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.57||0.2581||95.0|-0.149|0.549|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.549|-0.149|0.2581
82538211|NCT01859312|164776052|OTHER|||||||0.157|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.157
82538212|NCT01859312|164776054|OTHER|||||||0.015|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.015
82433558|NCT00301262|164577118|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.39|STANDARD_DEVIATION|2.582|<|0.0001||95.0|0.758|2.018|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.018|0.758|<0.0001
82433559|NCT00301262|164577119|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.18|STANDARD_DEVIATION|1.456||0.2857||95.0|-0.149|0.499|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.499|-0.149|0.2857
82433560|NCT00301262|164577119|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.76|STANDARD_DEVIATION|1.706||0.0005||95.0|0.345|1.177|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.177|0.345|0.0005
82433561|NCT00301262|164577120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.75|STANDARD_DEVIATION|2.548||0.0102||95.0|0.183|1.317|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.317|0.183|0.0102
82433562|NCT00301262|164577120|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.28|STANDARD_DEVIATION|2.979|<|0.0001||95.0|1.557|3.01|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.010|1.557|<0.0001
82433563|NCT00301262|164577121|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.68|STANDARD_DEVIATION|1.847||0.0016||95.0|0.264|1.086|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.086|0.264|0.0016
82433564|NCT00301262|164577121|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.9|STANDARD_DEVIATION|2.297|<|0.0001||95.0|1.335|2.456|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.456|1.335|<0.0001
82433565|NCT00301262|164577122|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.78|STANDARD_ERROR_OF_MEAN|1.038||0.0083||95.0|0.73|4.83|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||4.83|0.73|0.0083
82433566|NCT00301262|164577123|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|5.193||0.9146||95.0|-1.218|1.093|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.093|-1.218|0.9146
82433567|NCT00301262|164577123|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.54|STANDARD_DEVIATION|6.463|<|0.0001||95.0|3.961|7.114|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||7.114|3.961|<0.0001
82453247|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|2.4||||||95.0|0.6|5.9||||||Serotype G3||5.9|0.6|
82538213|NCT01859312|164776056|OTHER|||||||0.009|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.009
82538214|NCT01859312|164776058|OTHER|||||||0.008|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.008
82433568|NCT00301262|164577124|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.42|STANDARD_ERROR_OF_MEAN|4.826||0.0002||95.0|8.88|27.96|||ANCOVA||Mean difference between the sidenafil group compared to the placebo group was calculated along with 95% confidence intervals for these differences.|||27.96|8.88|0.0002
82433569|NCT00301262|164577125|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.41|STANDARD_DEVIATION|20.444||0.0064||95.0|1.857|10.956|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||10.956|1.857|0.0064
82433570|NCT00301262|164577125|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|26.8|STANDARD_DEVIATION|29.384|<|0.0001|TWO_SIDED|95.0|19.636|33.971|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||33.971|19.636|<0.0001
82433571|NCT00301262|164577126|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.491||||0.0001||95.0|3.042|13.851|||Regression, Logistic|||||13.851|3.042|0.0001
82453248|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|2.4||||||95.0|0.6|5.9||||||Serotype G4||5.9|0.6|
82433572|NCT00301262|164577127|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.915|||<|0.0001||95.0|2.396|10.08|||Regression, Logistic|||||10.080|2.396|<0.0001
82433573|NCT00301262|164577128|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.676||||0.0187||95.0|1.242|10.875|||Regression, Logistic|||||10.875|1.242|0.0187
82433574|NCT00301262|164577129|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|13.9|STANDARD_ERROR_OF_MEAN|4.716||0.0037||95.0|4.59|23.22|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||23.22|4.59|0.0037
82453249|NCT00362648|164612317|SUPERIORITY_OR_OTHER||Percentage|4.7||||||95.0|2.1|9.1||||||Serotype P1A\[8\]||9.1|2.1|
82453250|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|87.8||||||95.0|80.9|92.9||||||Anti-rotavirus IgA||92.9|80.9|
82538215|NCT01859312|164776060|OTHER|||||||0.009|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.009
82538216|NCT01859312|164776062|OTHER|||||||0.043|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.043
82538217|NCT01859312|164776064|OTHER|||||||0.024|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.024
82453251|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|32.1||||||95.0|24.2|40.8||||||Serotype G1||40.8|24.2|
82453252|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|9.9||||||95.0|5.4|16.4||||||Serotype G2||16.4|5.4|
82538218|NCT01859312|164776066|OTHER|||||||0.031|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.031
82538219|NCT01859312|164776068|OTHER|||||||0.005|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.005
82538220|NCT01859312|164776070|OTHER|||||||0.004|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.004
82538221|NCT01859312|164776072|OTHER|||||||0.524|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.524
82453253|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|28.2||||||95.0|20.7|36.8||||||Serotype G3||36.8|20.7|
82538222|NCT01859312|164776074|OTHER|||||||0.007|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.|Comparison of hormone levels on conventional glucocorticoid therapy at baseline and following 6 months of CSHI.|||0.007
82538223|NCT01859312|164776076|OTHER|||||||0.084|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.084
82577419|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.054||0.9638|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9638
82577420|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.053||0.161|TWO_SIDED|95.0|-0.03|0.18|||MMRM|||Insight, Change at Hour 8: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.18|-0.03|0.1610
82453254|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|18.3||||||95.0|12.1|26.0||||||Serotype G4||26.0|12.1|
82453255|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|27.5||||||95.0|20.0|36.0||||||Serotype P1A\[8\]||36.0|20.0|
82453256|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|18.2||||||95.0|12.0|25.8||||||Anti-rotavirus IgA||25.8|12.0|
82453257|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|2.3||||||95.0|0.5|6.5||||||Serotype G1||6.5|0.5|
82453258|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|0.8||||||95.0|0.0|4.1||||||Serotype G2||4.1|0.0|
82453259|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|3.0||||||95.0|0.8|7.6||||||Serotype G3||7.6|0.8|
82538224|NCT01859312|164776078|OTHER|||||||0.057|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.057
82538225|NCT01859312|164776080|OTHER|||||||0.103|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.103
82538226|NCT01859312|164776082|OTHER|||||||0.07|||||||t-test, 2 sided|||Comparisons of CSHI (at 6 months) with conventional glucocorticoid therapy (at baseline) were made. Continuous data between baseline and 6 months were compared by paired t tests.||||0.070
82538227|NCT01879371|164776089|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|107.85|||||TWO_SIDED|90.0|105.334|110.431|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|"The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect.~The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested."||110.431|105.334|
82538228|NCT01879371|164776089|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|109.48|||||TWO_SIDED|90.0|107.072|111.936|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||111.936|107.072|
82538229|NCT01879371|164776090|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|99.65|||||TWO_SIDED|90.0|93.874|105.776|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||105.776|93.874|
82538230|NCT01879371|164776090|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|70.42|||||TWO_SIDED|90.0|67.087|73.928|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||73.928|67.087|
82453260|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|0.0||||||95.0|0.0|2.8||||||Serotype G4||2.8|0.0|
82453261|NCT00362648|164612318|SUPERIORITY_OR_OTHER||Percentage|5.3||||||95.0|2.2|10.6||||||Serotype P1A\[8\]||10.6|2.2|
82453262|NCT02204072|164612322|OTHER||Hazard Ratio (HR)|0.98||||0.9549|TWO_SIDED|95.0|0.57|1.7|||Two-sided log-rank test.||Cox proportional hazard model. Hazard ratio: Comparison vs Enzalutamide|||1.70|0.57|0.9549
82453263|NCT02204072|164612325|OTHER||Hazard Ratio (HR)|1.19||||0.5425|TWO_SIDED|95.0|0.68|2.06|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzaludamide.|||2.06|0.68|0.5425
82453264|NCT02204072|164612326|OTHER||Hazard Ratio (HR)|1.16||||0.5534|TWO_SIDED|95.0|0.71|1.9|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzalutamide.|||1.90|0.71|0.5534
82453265|NCT02204072|164612327|OTHER||Hazard Ratio (HR)|0.64||||0.1514|TWO_SIDED|95.0|0.35|1.18|||Two-sided log-rank test.||Cox proportional hazards model. Hazard ratio: Comparison vs. Enzalutamide.|||1.18|0.35|0.1514
82453266|NCT02204072|164612331|OTHER||Odds Ratio (OR)|1.579||||0.6186|TWO_SIDED|95.0|0.269|12.515|||Regression, Logistic|Odds ratio, p-value and confidence interval were obtained from logistic regression model.||||12.515|0.269|0.6186
82538231|NCT01879371|164776091|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|106.5|||||TWO_SIDED|90.0|104.05|109.004|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen acid film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||109.004|104.050|
82577421|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.054||0.5763|TWO_SIDED|95.0|-0.14|0.08|||MMRM|||Insight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.14|0.5763
82453267|NCT02204072|164612333|OTHER||Odds Ratio (OR)|1.891||||0.192|TWO_SIDED|95.0|0.727|5.059|||Regression, Logistic||Odds ratio, p-value and confidence interval were obtained from logistic regression model.|||5.059|0.727|0.1920
82453268|NCT03453489|164612367|OTHER|||||||0.837|||||||t-test, 2 sided|||||||0.837
82453269|NCT04346654|164612370|SUPERIORITY|||||||0.5133|||||||Regression, Logistic|||||||0.5133
82453270|NCT04346654|164612371|SUPERIORITY|||||||0.5133|||||||Regression, Logistic|||||||0.5133
82453271|NCT04677504|164612389|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.51|1.14|||Regression, Cox|||"Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs.~eCCA vs. GBC), Geographic region (Asia vs. Rest of the World)."||1.14|0.51|
82453272|NCT04677504|164612390|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8857|TWO_SIDED|95.0|0.64|1.47|||Log Rank|||"Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs.~eCCA vs. GBC), Geographic region (Asia vs. Rest of the World)."||1.47|0.64|0.8857
82453273|NCT04677504|164612394|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.93|2.63|||Regression, Cox|||Quality of Life||2.63|0.93|
82453274|NCT04677504|164612394|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.48|1.36|||Regression, Cox|||Physical Function Scale||1.36|0.48|
82453275|NCT04677504|164612394|SUPERIORITY|Stratified analysis. Stratification factors are: Location of primary tumor (iCCA vs. eCCA vs. GBC), Geographic region (Asia vs. Rest of the World).|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.68|1.85|||Regression, Cox|||Role Function Scale||1.85|0.68|
82453276|NCT03304873|164612406|SUPERIORITY|||||||0.0004|||||||t-test, 1 sided|||||||0.0004
82453277|NCT03304873|164612407|SUPERIORITY|||||||0.99|||||||t-test, 1 sided|||||||0.99
82577422|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.053||0.0599|TWO_SIDED|95.0|0.0|0.2|||MMRM|||Insight, Change at Hour 12: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.20|0.00|0.0599
82453278|NCT01868477|164612419|OTHER|difference|Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|-24.0|48.16||||||||48.16|-24.0|
82453279|NCT01052077|164612433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18||||0.1416|TWO_SIDED|95.0|-2.75|0.39||ANCOVA model, with treatment and study center as main effects and Week 8 value as convariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.39|-2.75|0.1416
82648908|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|||||TWO_SIDED|95.0|-38.65|34.94||||||For change in dyspnea at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||34.94|-38.65|
82453280|NCT01052077|164612434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.3778|TWO_SIDED|95.0|-0.69|0.26||ANCOVA model, with treatment and study center as main effects and Week 8 value as covariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.26|-0.69|0.3778
82453281|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0162|TWO_SIDED|95.0|-2.38|-0.24||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||-0.24|-2.38|0.0162
82453282|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0031|TWO_SIDED|95.0|-3.15|-0.65||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||-0.65|-3.15|0.0031
82648909|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.65|||||TWO_SIDED|95.0|-37.43|56.73||||||For change in insomnia at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||56.73|-37.43|
82453283|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01||||0.0061|TWO_SIDED|95.0|-3.44|-0.58||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||-0.58|-3.44|0.0061
82453284|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.0038|TWO_SIDED|95.0|-3.69|-0.72||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||-0.72|-3.69|0.0038
82453285|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.0174|TWO_SIDED|95.0|-3.32|-0.32||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||-0.32|-3.32|0.0174
82453286|NCT01052077|164612435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.18||||0.1416|TWO_SIDED|95.0|-2.75|0.39||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.39|-2.75|0.1416
82453287|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.1481|TWO_SIDED|95.0|-0.21|0.03||ANCOVA model, with treatment and study center as main effects and Week 8 value as covariate, is used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||0.03|-0.21|0.1481
82453288|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0691|TWO_SIDED|95.0|-0.28|0.01||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||0.01|-0.28|0.0691
82453289|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.0457|TWO_SIDED|95.0|-0.35|0.0||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||-0.00|-0.35|0.0457
82453290|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0061|TWO_SIDED|95.0|-0.45|-0.08||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||-0.08|-0.45|0.0061
82453291|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0572|TWO_SIDED|95.0|-0.38|0.01||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||0.01|-0.38|0.0572
82538232|NCT01879371|164776091|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|108.59|||||TWO_SIDED|90.0|106.185|111.054|||||The geometric mean ratio is calculated as the geometric mean of 'Ibuprofen + Caffeine (FDC) tablet ' divided by the geometric mean of ' Ibuprofen lysinate film-coated tablet '.|The ANOVA (analysis of variance) model on the logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'period' and 'treatment' as fixed effects and 'subjects within sequences' as random effect. The main focus was on estimation and not on testing, that is, formal statistical hypotheses were not tested.||111.054|106.185|
82538233|NCT00580801|164776103|SUPERIORITY_OR_OTHER||Least square mean ratio|0.98||||||90.0|0.54|1.78|||||Day 1: The least square (LS) means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.78|0.54|
82538234|NCT00580801|164776103|SUPERIORITY_OR_OTHER||Least square mean ratio|1.33||||||90.0|1.03|1.72|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.72|1.03|
82538235|NCT00580801|164776104|SUPERIORITY_OR_OTHER||Least square mean ratio|1.0||||||90.0|0.58|1.72|||||Day 1: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.72|0.58|
82538236|NCT00580801|164776104|SUPERIORITY_OR_OTHER||Least square mean ratio|1.32||||||90.0|1.05|1.66|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.66|1.05|
82538237|NCT00580801|164776105|SUPERIORITY_OR_OTHER||Least square mean ratio|1.43||||||90.0|1.02|2.02|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||2.02|1.02|
82648910|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.16|||||TWO_SIDED|95.0|-71.22|97.54||||||For change in appetite loss at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||97.54|-71.22|
82453292|NCT01052077|164612436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.3318|TWO_SIDED|95.0|-0.29|0.1||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.10|-0.29|0.3318
82538238|NCT00580801|164776106|SUPERIORITY_OR_OTHER||Least square mean ratio|1.24||||||90.0|0.88|1.74|||||Day 15: The LS means of the primary parameters for the test and the reference groups were estimated with a linear mixed effects model controlling for treatment group as fixed effects.|||1.74|0.88|
82538239|NCT00843193|164776183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1955|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||Comparison between GSK679586 10 mg/kg and Placebo at Week 2||0.06|-0.27|0.1955
82538240|NCT00843193|164776183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0193|TWO_SIDED|95.0|-0.34|-0.03|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 4||-0.03|-0.34|0.0193
82648911|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.81|||||TWO_SIDED|95.0|-22.61|68.22||||||For change in constipation at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||68.22|-22.61|
82453293|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.6272|TWO_SIDED|95.0|-1.02|1.69||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 9||1.69|-1.02|0.6272
82453294|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9697|TWO_SIDED|95.0|-1.48|1.54||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo||Week 10||1.54|-1.48|0.9697
82453295|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.749|TWO_SIDED|95.0|-2.0|1.44||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||1.44|-2.00|0.7490
82453296|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.9459|TWO_SIDED|95.0|-1.94|1.81||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||1.81|-1.94|0.9459
82577423|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.054||0.3916|TWO_SIDED|95.0|-0.15|0.06|||MMRM|||Insight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.15|0.3916
82577424|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.053||0.9602|TWO_SIDED|95.0|-0.1|0.11|||MMRM|||Insight, Change at Hour 24: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.10|0.9602
82433575|NCT00301262|164577130|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.72|STANDARD_ERROR_OF_MEAN|4.496||0.0321||95.0|0.84|18.6|||independent-samples t-test||Mean Difference = Week 8 - Baseline|||18.60|0.84|0.0321
82433576|NCT00301262|164577131|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.97|STANDARD_ERROR_OF_MEAN|3.901||0.0427||95.0|-15.68|-0.27|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||-0.27|-15.68|0.0427
82433577|NCT00301262|164577132|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-7.6|STANDARD_ERROR_OF_MEAN|3.903||0.0533||95.0|-15.32|0.11|||independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.11|-15.32|0.0533
82433578|NCT00301262|164577133|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.167|STANDARD_ERROR_OF_MEAN|0.3041||0.0002||95.0|0.566|1.768|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.768|0.566|0.0002
82433579|NCT00301262|164577134|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4454|STANDARD_ERROR_OF_MEAN|0.3638||0.0001||95.0|0.727|2.164|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||2.164|0.727|0.0001
82433580|NCT00301262|164577135|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.1821|STANDARD_ERROR_OF_MEAN|0.3946||0.0032||95.0|0.403|1.961|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.961|0.403|0.0032
82433581|NCT00301262|164577136|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.2123|STANDARD_ERROR_OF_MEAN|0.3549||0.0008||95.0|0.511|1.913|||2-sample independent t-test||A 2-sample independent t-test was used to test the difference between treatment for the change between baseline and Week 8 (change = Week 8 - baseline).|||1.913|0.511|0.0008
82433582|NCT00301262|164577137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|1.454||0.0195||95.0|0.064|0.711|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.711|0.064|0.0195
82453297|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9893|TWO_SIDED|95.0|-1.91|1.88||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||1.88|-1.91|0.9893
82453298|NCT01052077|164612437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.8918|TWO_SIDED|95.0|-1.89|2.17||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||2.17|-1.89|0.8918
82453299|NCT01052077|164612438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.3247|TWO_SIDED|95.0|-1.71|0.57||ANCOVA model, with treatment and trial center as main effects and Week 8 value as covariate, was used for change from Week 8 comparisons.|ANCOVA|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||0.57|-1.71|0.3247
82433583|NCT00301262|164577137|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.09|STANDARD_DEVIATION|2.207|<|0.0001||95.0|1.551|2.628|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.628|1.551|<0.0001
82433584|NCT00301262|164577138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4|STANDARD_DEVIATION|1.489||0.0186||95.0|0.069|0.731|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.731|0.069|0.0186
82433585|NCT00301262|164577138|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.67|STANDARD_DEVIATION|2.573|<|0.0001||95.0|2.044|3.299|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.299|2.044|<0.0001
82453300|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.5616||||||Cohran-Mantel-Haenszel (CMH) row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean: brexpiprazole - placebo.||Week 9||||0.5616
82453301|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.19||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 10||||0.1900
82453302|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.0501||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 11||||0.0501
82453303|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.0137||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 12||||0.0137
82453304|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.0711||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 13||||0.0711
82648912|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75|||||TWO_SIDED|95.0|-39.1|35.59||||||For change in diarrhea at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||35.59|-39.10|
82453305|NCT01052077|164612439|SUPERIORITY_OR_OTHER|||||||0.3438||||||CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||||0.3438
82453306|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response rate|2.79||||0.0679|TWO_SIDED|95.0|0.88|8.81|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 9||8.81|0.88|0.0679
82577425|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.9676|TWO_SIDED|95.0|-0.11|0.11|||MMRM|||Insight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.11|-0.11|0.9676
82577426|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.6397|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Hour 36: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6397
82577427|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.054||0.34|TWO_SIDED|95.0|-0.05|0.16|||MMRM|||Insight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.05|0.3400
82577428|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.053||0.3472|TWO_SIDED|95.0|-0.05|0.15|||MMRM|||Insight, Change at Hour 48: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.15|-0.05|0.3472
82648913|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.98|||||TWO_SIDED|95.0|1.09|46.86||||||For change in financial difficulties at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||46.86|1.09|
82648914|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.04|||||TWO_SIDED|95.0|-39.03|63.11||||||For change in global QoL at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||63.11|-39.03|
82648915|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.89|||||TWO_SIDED|95.0|-20.74|58.52||||||For change in physical functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||58.52|-20.74|
82453307|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.78||||0.036|TWO_SIDED|95.0|1.01|3.14|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 10||3.14|1.01|0.0360
82453308|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.53||||0.0521|TWO_SIDED|95.0|0.99|2.35|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 11||2.35|0.99|0.0521
82453309|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.93||||0.0008|TWO_SIDED|95.0|1.31|2.86|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 12||2.86|1.31|0.0008
82453310|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.64||||0.0074|TWO_SIDED|95.0|1.14|2.38|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 13||2.38|1.14|0.0074
82453311|NCT01052077|164612440|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.47||||0.0339|TWO_SIDED|95.0|1.03|2.08|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 14||2.08|1.03|0.0339
82453312|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.27||||0.2404|TWO_SIDED|95.0|0.55|9.3|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 9||9.30|0.55|0.2404
82453313|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.04||||0.0983|TWO_SIDED|95.0|0.83|4.98|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 10||4.98|0.83|0.0983
82453314|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.67||||0.0496|TWO_SIDED|95.0|0.99|2.82|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 11||2.82|0.99|0.0496
82453315|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|2.12||||0.0019|TWO_SIDED|95.0|1.31|3.46|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 12||3.46|1.31|0.0019
82453316|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.77||||0.0068|TWO_SIDED|95.0|1.17|2.67|||Cochran-Mantel-Haenszel|The CMH general association test controlling for trial center.||Week 13||2.67|1.17|0.0068
82453317|NCT01052077|164612441|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.71||||0.0089|TWO_SIDED|95.0|1.14|2.57||The CMH general association test controlling for trial center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||2.57|1.14|0.0089
82453318|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.23||||0.4605|TWO_SIDED|95.0|0.7|2.18|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 9||2.18|0.70|0.4605
82538241|NCT00843193|164776183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.6156|TWO_SIDED|95.0|-0.23|0.14|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 8||0.14|-0.23|0.6156
82538242|NCT00843193|164776183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.4672|TWO_SIDED|95.0|-0.31|0.14|||ANCOVA|||Comparison between GSK679586 120 mg/kg and Placebo at Week 12||0.14|-0.31|0.4672
82538243|NCT00843193|164776186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7693|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||Comparison between GSK679586 10 mg/kg and Placebo at Week 2||0.06|-0.08|0.7693
82538244|NCT00843193|164776186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.8987|TWO_SIDED|95.0|-0.08|0.09|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 4||0.09|-0.08|0.8987
82538245|NCT00843193|164776186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.4231|TWO_SIDED|95.0|-0.12|0.05|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 8||0.05|-0.12|0.4231
82577429|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.054||0.916|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9160
82453319|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.2||||0.3267|TWO_SIDED|95.0|0.83|1.72|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 10||1.72|0.83|0.3267
82453320|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.37||||0.023|TWO_SIDED|95.0|1.05|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 11||1.80|1.05|0.0230
82453321|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.36||||0.0105|TWO_SIDED|95.0|1.08|1.71|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 12||1.71|1.08|0.0105
82538246|NCT00843193|164776186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.0537|TWO_SIDED|95.0|-0.19|0.0|||Mixed Model Repeated Measures analysis|||Comparison between GSK679586 10 mg/kg and Placebo at Week 12||0.00|-0.19|0.0537
82538247|NCT01460342|164776215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-2.4|-0.6|||Mixed Models Analysis|||||-0.6|-2.4|<0.001
82538248|NCT01460342|164776216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-0.5||The p-value is for the change from baseline in the IPSS Total Score at Week 4.|Mixed Models Analysis|||||-0.5|-2.0|<0.001
82453322|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.26||||0.0417|TWO_SIDED|95.0|1.01|1.58|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center.||Week 13||1.58|1.01|0.0417
82453323|NCT01052077|164612442|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.15||||0.2345|TWO_SIDED|95.0|0.91|1.44||CMH general association test controlling for study center.|Cochran-Mantel-Haenszel|Treatment difference = difference in adjusted mean change: brexpiprazole - placebo.||Week 14||1.44|0.91|0.2345
82453324|NCT00042991|164612446|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82453325|NCT00042991|164612447|SUPERIORITY_OR_OTHER|||||||0.0546||95.0|||||Wilcoxon (Mann-Whitney)|||19 patients had Enhancing tumor at both Baseline and Post-RT time points. Thus, the following test was based on these 19 patients.||||0.0546
82453326|NCT00042991|164612448|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82453327|NCT00042991|164612449|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.18
82453328|NCT03857542|164612485|SUPERIORITY||Percentage Difference|15.2|||<|0.0001|TWO_SIDED|95.0|7.7|22.7||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion differences were calculated based on the normal approximation based on pooled variance without continuity correction.|||22.7|7.7|<.0001
82538249|NCT01460342|164776216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.003|TWO_SIDED|95.0|-2.0|-0.4||The p-value is for the change from baseline in the IPSS Total Score at Week 8.|Mixed Models Analysis|||||-0.4|-2.0|0.003
82538250|NCT01460342|164776217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.09|TWO_SIDED|95.0|-0.6|0.0||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 4.|Mixed Models Analysis|||||0.0|-0.6|0.090
82538251|NCT01460342|164776217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.8|-0.1||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 8.|Mixed Models Analysis|||||-0.1|-0.8|0.011
82538252|NCT01460342|164776217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-0.9|-0.2||The p-value was for the change from baseline in the IPSS Storage (Irritative) Subscore at Week 12.|Mixed Models Analysis|||||-0.2|-0.9|0.002
82538253|NCT01460342|164776218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.5|-0.4||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 4.|Mixed Models Analysis|||||-0.4|-1.5|<0.001
82538254|NCT01460342|164776218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.3||0.007|TWO_SIDED|95.0|-1.3|-0.2||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 8.|Mixed Models Analysis|||||-0.2|-1.3|0.007
82453329|NCT03857542|164612486|SUPERIORITY||Percentage Difference|6.5||||0.0548|TWO_SIDED|95.0|-0.1|13.1||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion difference was calculated based on the normal approximation based on pooled variance without continuity correction.|||13.1|-0.1|0.0548
82453330|NCT03857542|164612487|SUPERIORITY||Percentage Difference|5.9||||0.0693|TWO_SIDED|95.0|-0.5|12.2||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using Chi-square test. The 95% confidence intervals for the proportion difference was calculated based on the normal approximation based on pooled variance without continuity correction.|||12.2|-0.5|0.0693
82538255|NCT01460342|164776218|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.002|TWO_SIDED|95.0|-1.5|-0.3||The p-value was for the change from baseline in the IPSS Voiding (Obstructive) Subscore at Week 12.|Mixed Models Analysis|||||-0.3|-1.5|0.002
82538256|NCT01460342|164776219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.277|TWO_SIDED|95.0|-0.2|0.1||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 4.|Mixed Models Analysis|||||0.1|-0.2|0.277
82538257|NCT01460342|164776219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.17|TWO_SIDED|95.0|-0.3|0.1||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 8.|Mixed Models Analysis|||||0.1|-0.3|0.170
82538258|NCT01460342|164776219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.038|TWO_SIDED|95.0|-0.4|0.0||The p-value was for the change from baseline in the IPSS QoL Index Score at Week 12.|Mixed Models Analysis|||||-0.0|-0.4|0.038
82433586|NCT00301262|164577139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|STANDARD_DEVIATION|1.917||0.0033||95.0|0.223|1.077|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||1.077|0.223|0.0033
82433587|NCT00301262|164577139|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.61|STANDARD_DEVIATION|2.335|<|0.0001||95.0|2.042|3.182|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||3.182|2.042|<0.0001
82433588|NCT00301262|164577140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.45|STANDARD_DEVIATION|1.606||0.0143||95.0|0.093|0.807|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||0.807|0.093|0.0143
82453331|NCT03857542|164612488|SUPERIORITY||Least Squares (LS) Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|2.9|5.2||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value; Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||5.2|2.9|<.0001
82453332|NCT03857542|164612489|SUPERIORITY||Percentage Difference|9.9||||0.0141|TWO_SIDED|95.0|3.5|16.3||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals was calculated based on normal approximation based on pooled variance without continuity correction.|||16.3|3.5|0.0141
82453333|NCT03857542|164612490|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|0.5|1.0||Analysis of covariance (ANCOVA) with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control||||1.0|0.5|<.0001
82577430|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.053||0.5948|TWO_SIDED|95.0|-0.13|0.08|||MMRM|||Insight, Change at Hour 60: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.13|0.5948
82648916|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.33|||||TWO_SIDED|95.0|-111.94|15.28||||||For change in role functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||15.28|-111.94|
82648917|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||||TWO_SIDED|95.0|-22.59|20.74||||||For change in emotional functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.74|-22.59|
82433589|NCT00301262|164577140|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.99|STANDARD_DEVIATION|2.178|<|0.0001||95.0|1.454|2.516|||paired t-test||A paired t-test was used to examine the within treatment difference between week 8 and week 14 (open label phase).|||2.516|1.454|<0.0001
82433590|NCT00301262|164577141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0325||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0325
82433591|NCT00301262|164577141|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||<0.0001
82433592|NCT00301262|164577142|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0196
82433593|NCT00301262|164577142|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||<0.0001
82433594|NCT00301262|164577143|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3173||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.3173
82538259|NCT01460342|164776220|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was from the Cochran-Mantel-Haenszel test adjusted for baseline severity of benign prostatic hyperplasia lower urinary tract symptoms (BPH-LUTS) and previous alpha-blocker therapy.|Cochran-Mantel-Haenszel|||||||<0.001
82538260|NCT01460342|164776221|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was from the Cochran-Mantel-Haenszel test adjusted for baseline severity of benign prostatic hyperplasia lower urinary tract symptoms (BPH-LUTS) and previous alpha-blocker therapy.|Cochran-Mantel-Haenszel|||||||<0.001
82538261|NCT01460342|164776222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.06|TWO_SIDED|95.0|-1.2|0.0|||ANCOVA|||||0.0|-1.2|0.060
82648918|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.22|||||TWO_SIDED|95.0|-24.98|39.43||||||For change in cognitive functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||39.43|-24.98|
82433595|NCT00301262|164577143|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0|||||McNemar|||Exact p-values calculated using McNemar's test for difference between Week 8 and Week 14.||||0.0016
82433596|NCT00301262|164577144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.55|STANDARD_ERROR_OF_MEAN|2.958||0.0624||95.0|-11.39|0.29|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.29|-11.39|0.0624
82433597|NCT00301262|164577144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.38|STANDARD_ERROR_OF_MEAN|1.835||0.4523||95.0|-2.24|5.01|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.01|-2.24|0.4523
82433598|NCT00301262|164577145|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.48|STANDARD_ERROR_OF_MEAN|1.962||0.2081||95.0|-6.35|1.4|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||1.40|-6.35|0.2081
82433599|NCT00301262|164577145|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.61|STANDARD_ERROR_OF_MEAN|1.958||0.4131||95.0|-2.26|5.48|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.48|-2.26|0.4131
82433600|NCT00301262|164577146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.77|STANDARD_ERROR_OF_MEAN|2.126||0.4069||95.0|-5.97|2.43|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||2.43|-5.97|0.4069
82433601|NCT00301262|164577146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.37|STANDARD_ERROR_OF_MEAN|1.489||0.1137||95.0|-0.57|5.31|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.31|-0.57|0.1137
82433602|NCT00301262|164577147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.23|STANDARD_ERROR_OF_MEAN|4.829||0.0123||95.0|-21.77|-2.7|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||-2.70|-21.77|0.0123
82453334|NCT03857542|164612491|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.52|<|0.0001|TWO_SIDED|95.0|2.4|4.4||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||4.4|2.4|<.0001
82453335|NCT03857542|164612492|SUPERIORITY||Percentage Difference|3.8||||0.22|TWO_SIDED|95.0|-2.3|10.0||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals for the proportion differences were calculated based on the normal approximation based on pooled variance without continuity correction.|||10.0|-2.3|0.2200
82453336|NCT03857542|164612493|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|1.5|3.7||MMRM with study intervention group, visit, visit by study intervention group interaction, age group, Baseline binocular DCNVA severity, iris color, emmetrope/non-emmetrope, Baseline value, and Baseline value by visit interaction as fixed effects.|MMRM|P-value was adjusted for multiplicity control.||||3.7|1.5|<.0001
82538262|NCT02982213|164776232|SUPERIORITY||Mean Difference (Net)|0.025||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.001
82648919|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||||TWO_SIDED|95.0|-57.71|77.71||||||For change in social functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||77.71|-57.71|
82453337|NCT03857542|164612494|SUPERIORITY||Percentage Difference|12.4||||0.0141|TWO_SIDED|95.0|5.2|19.5||P-value was adjusted for multiplicity control.|Chi-squared||Analysis was done using chi-square test. The 95% confidence intervals was calculated based on normal approximation based on pooled variance without continuity correction.|||19.5|5.2|0.0141
82453338|NCT03857542|164612495|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|0.5|1.0||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||1.0|0.5|<.0001
82648920|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.04|||||TWO_SIDED|95.0|-58.87|24.79||||||For change in fatigue at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||24.79|-58.87|
82648921|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0|||||TWO_SIDED|95.0|-43.1|13.1||||||For change in nausea and vomiting at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||13.10|-43.10|
82538263|NCT02982213|164776236|EQUIVALENCE|Sample size of 5 per group to achieve 80% power to detect a change in the log odds ration of 1.0 at a .05 significance level using a two sided Mann Whitney U test.||||||0.001|TWO_SIDED|95.0|||||McNemar|||||||.001
82433603|NCT00301262|164577147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|4.883||0.8993||95.0|-10.27|9.03|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||9.03|-10.27|0.8993
82433604|NCT00301262|164577148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|22.03|STANDARD_ERROR_OF_MEAN|5.458|<|0.0001||95.0|11.25|32.81|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||32.81|11.25|<0.0001
82433605|NCT00301262|164577148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.74|STANDARD_ERROR_OF_MEAN|5.818||0.4165||95.0|-16.24|6.76|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||6.76|-16.24|0.4165
82433606|NCT00301262|164577149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.8|STANDARD_ERROR_OF_MEAN|4.351||0.0257||95.0|1.21|18.39|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||18.39|1.21|0.0257
82433607|NCT00301262|164577149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-5.36|STANDARD_ERROR_OF_MEAN|3.209||0.0971||95.0|-11.7|0.98|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.98|-11.70|0.0971
82538264|NCT00952718|164776293|SUPERIORITY|||||||0.005||||||p-value for MIP was adjusted by linear regression model.|Regression, Linear|||||||0.005
82648922|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.78|||||TWO_SIDED|95.0|-41.75|57.3||||||For change in pain at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||57.30|-41.75|
82433608|NCT00301262|164577150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.18|STANDARD_ERROR_OF_MEAN|1.754||0.0726||95.0|-6.66|0.3|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||0.30|-6.66|0.0726
82433609|NCT00301262|164577150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.04|STANDARD_ERROR_OF_MEAN|1.798||0.2581||95.0|-5.61|1.52|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||1.52|-5.61|0.2581
82433610|NCT00301262|164577151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|4.45||0.8158||95.0|-9.86|7.78|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||7.78|-9.86|0.8158
82433611|NCT00301262|164577151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|1.692||0.8464||95.0|-3.68|3.02|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||3.02|-3.68|0.8464
82433612|NCT00301262|164577152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|5.789||0.9529||95.0|-11.82|11.13|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||11.13|-11.82|0.9529
82433613|NCT00301262|164577152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|4.994||0.8899||95.0|-10.59|9.2|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||9.20|-10.59|0.8899
82433614|NCT00301262|164577153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-10.18|STANDARD_ERROR_OF_MEAN|7.897||0.2001||95.0|-25.83|5.47|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||5.47|-25.83|0.2001
82433615|NCT00301262|164577153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|9.68|STANDARD_ERROR_OF_MEAN|6.724||0.1527||95.0|-3.64|23.01|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||23.01|-3.64|0.1527
82433616|NCT00301262|164577154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.74|STANDARD_ERROR_OF_MEAN|7.774||0.0606||95.0|-0.67|30.15|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||30.15|-0.67|0.0606
82433617|NCT00301262|164577154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-6.62|STANDARD_ERROR_OF_MEAN|7.318||0.3678||95.0|-21.12|7.88|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||7.88|-21.12|0.3678
82433618|NCT00301262|164577155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.56|STANDARD_ERROR_OF_MEAN|7.474||0.5429||95.0|-10.25|19.37|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||19.37|-10.25|0.5429
82433619|NCT00301262|164577155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.07|STANDARD_ERROR_OF_MEAN|5.595||0.5849||95.0|-8.02|14.15|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||14.15|-8.02|0.5849
82433620|NCT00301262|164577156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|18.86|STANDARD_ERROR_OF_MEAN|4.952||0.0002||95.0|9.08|28.64|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||28.64|9.08|0.0002
82433621|NCT00301262|164577156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.93|STANDARD_ERROR_OF_MEAN|6.212||0.429||95.0|-7.35|17.2|||Independent-samples t-test||Independent-samples t-test was used to test mean difference of zero between treatment groups (Viagra - Placebo) at each visit interval.|||17.20|-7.35|0.4290
82433622|NCT02150057|164577288|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82433623|NCT01696994|164577294|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.95|1.04|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.04|0.95|
82433624|NCT01696994|164577296|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.99|1.48|||Poisson regression|||||1.48|0.99|
82433625|NCT01696994|164577306|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.91|1.54||Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.|Poisson regression|||||1.54|.91|
82433626|NCT00335283|164577309|SUPERIORITY_OR_OTHER||Odds Ratio, log|3.12||||0.01|TWO_SIDED|95.0|1.28|7.59|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||7.59|1.28|.01
82648923|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-53.79|20.46||||||For change in dyspnea at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.46|-53.79|
82538265|NCT00952718|164776293|SUPERIORITY|||||||0.038||||||adjusted p for MEP by linear regression|Regression, Linear|||||||0.038
82538266|NCT00952718|164776294|SUPERIORITY|||||||0.063|||||||Regression, Linear|||||||0.063
82538267|NCT00952718|164776295|SUPERIORITY|||||||0.269|||||||Regression, Linear|||||||0.269
82538268|NCT03247543|164776296|SUPERIORITY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.05||0.0038|TWO_SIDED|95.0|-10.0|-1.9|||Mixed Models for Repeated Measures|||||-1.9|-10.0|0.0038
82538269|NCT03247543|164776296|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.11||0.0063|TWO_SIDED|95.0|-9.9|-1.7|||Mixed Models for Repeated Measures|||||-1.7|-9.9|0.0063
82648924|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.11|||||TWO_SIDED|95.0|-73.14|30.92||||||For change in insomnia at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||30.92|-73.14|
82433627|NCT00335283|164577309|SUPERIORITY_OR_OTHER||Odds Ratio, log|3.5||||0.006|TWO_SIDED|95.0|1.41|8.67|||Regression, Logistic|||This applies to the 16 week treatment affect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||8.67|1.41|.006
82433628|NCT00335283|164577310|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.01||||0.97|TWO_SIDED|95.0|0.38|2.7|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||2.70|0.38|.97
82433629|NCT00335283|164577310|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.11||||0.84|TWO_SIDED|95.0|0.4|3.06|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||3.06|0.40|.84
82433630|NCT00335283|164577311|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.44||||0.06|TWO_SIDED|95.0|0.95|6.31|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||6.31|.95|.06
82433631|NCT00335283|164577311|SUPERIORITY_OR_OTHER||Odds Ratio, log|4.51||||0.007|TWO_SIDED|95.0|1.5|13.6|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||13.6|1.5|.007
82453339|NCT03857542|164612496|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08||0.0002|TWO_SIDED|95.0|-0.5|-0.2||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.2|-0.5|0.0002
82453340|NCT03857542|164612497|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07||0.0002|TWO_SIDED|95.0|-0.4|-0.2||ANCOVA with study intervention group, age group, Baseline binocular DCNVA severity, iris color (brown/non-brown), emmetrope/non-emmetrope, and Baseline domain score as fixed effects.|ANCOVA|P-value was adjusted for multiplicity control.||||-0.2|-0.4|0.0002
82453341|NCT01101035|164612519|NON_INFERIORITY|Noninferiority was declared if the upper 1-sided CI for the hazard ratio was less than 1.3. Critical boundary of 2.359 (75% interim) based on the Lan-DeMets-O'Brien-Fleming alpha spending function was used for CI estimation.|Cox Proportional Hazard|0.99|||||ONE_SIDED|97.0||1.23|||||Time from randomization to the first occurrence of any MACE was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function as a stratification factor.|Statistical analysis for the primary endpoint was based on 1-sided repeated confidence intervals (CIs), using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%, to assess non-inferiority at each interim analysis and the final analysis.||1.23||
82453342|NCT01101035|164612520|OTHER||Cox Proportional Hazard|1.09|||||TWO_SIDED|95.0|0.92|1.28|||||Time from randomization to the first occurrence of any APTC event was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function status as a stratification factor.|||1.28|0.92|
82453343|NCT01101035|164612521|OTHER||Cox Proportional Hazard|1.34|||||TWO_SIDED|95.0|1.03|1.73|||||Time from randomization to the first occurrence of cardiovascular death was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.73|1.03|
82453344|NCT01101035|164612522|OTHER||Cox Proportional Hazard|0.93|||||TWO_SIDED|95.0|0.72|1.21|||||Time from randomization to the first occurrence of non-fatal MI was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.21|0.72|
82453345|NCT01101035|164612523|OTHER||Cox Proportional Hazard|1.01|||||TWO_SIDED|95.0|0.73|1.41|||||Time from randomization to the first occurrence of non-fatal stroke was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.41|0.73|
82453346|NCT01101035|164612524|OTHER||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.59|1.26|||||Time from randomization to the first occurrence of unstable angina with urgent coronary revascularization was fitted using Cox Proportional Hazard model with factors including treatment and baseline renal function.|||1.26|0.59|
82538270|NCT03247543|164776297|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0028|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.8|0.0028
82648925|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.22|||||TWO_SIDED|95.0|-115.58|51.13||||||For change in appetite loss at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||51.13|-115.58|
82648926|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.33|||||TWO_SIDED|95.0|-18.6|125.26||||||For change in constipation at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||125.26|-18.60|
82538271|NCT03247543|164776297|SUPERIORITY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0099|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.1|-0.8|0.0099
82538272|NCT03247543|164776298|SUPERIORITY||Least Square Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.39||0.0064|TWO_SIDED|95.0|-6.5|-1.1|||ANCOVA|||||-1.1|-6.5|0.0064
82648927|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.33|||||TWO_SIDED|95.0|-34.92|41.58||||||For change in diarrhea at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||41.58|-34.92|
82433632|NCT00335283|164577312|SUPERIORITY_OR_OTHER||Odds Ratio, log|5.17||||0.006|TWO_SIDED|95.0|2.02|13.2|||Regression, Logistic|||This applies to the 8 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||13.2|2.02|.006
82433633|NCT00335283|164577312|SUPERIORITY_OR_OTHER||Odds Ratio, log|5.31||||0.001|TWO_SIDED|95.0|1.97|14.3|||Regression, Logistic|||This applies to the 16 week treatment effect. A sample size of 33 patients in treated arm was considered sufficient to detect a difference of 35% between groups, assuming a lansoprazole treatment response of 70% and a placebo response of 35% with an alpha level of .05 and 90% power. A total of 75 patienst was considered an adequate sample size to allow for a 10% dropout rate.||14.3|1.97|.001
82433634|NCT02516982|164577330|SUPERIORITY|||||||0.994|||||||Chi-squared, Corrected|||||||0.994
82433635|NCT02516982|164577331|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.7
82433636|NCT02516982|164577332|SUPERIORITY|||||||0.008|||||||Chi-squared, Corrected|||||||0.008
82433637|NCT02516982|164577333|SUPERIORITY|||||||0.919|||||||Chi-squared, Corrected|||||||0.919
82433638|NCT02516982|164577334|SUPERIORITY|||||||0.0001467|||||||Chi-squared, Corrected|||||||0.0001467
82538273|NCT03247543|164776298|SUPERIORITY||Least Square Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.46||0.0917|TWO_SIDED|95.0|-5.3|0.4|||ANCOVA|||||0.4|-5.3|0.0917
82433639|NCT02516982|164577335|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82433640|NCT02516982|164577336|SUPERIORITY|||||||0.869|||||||Chi-squared, Corrected|||||||0.869
82433641|NCT01951586|164577350|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5157|TWO_SIDED|95.0|0.81|1.53|||Log Rank|Log rank test stratified by the randomization stratification factors.|"Based on a Cox proportional hazards model stratified by the randomized stratification factors.~Hazard ratio \< 1 favors denosumab."|||1.53|0.81|0.5157
82538274|NCT03247543|164776299|SUPERIORITY||Least Square Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.059||0.0651|TWO_SIDED|95.0|-0.22|0.01|||ANCOVA|||||0.01|-0.22|0.0651
82648928|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.67|||||TWO_SIDED|95.0|-34.3|20.96||||||For change in financial difficulties at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||20.96|-34.3|
82433642|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3759|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3759
82433643|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3666|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in membranes (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3666
82433644|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1917|||||||Cox propotional hazard model|||The interaction of RANK expression level total (cytoplasm + membranes; all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.1917
82433645|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3353|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3353
82433646|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3179|||||||Cox propotional hazard model|||The interaction of RANK expression level measured in membranes (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.3179
82433647|NCT01951586|164577351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1583|||||||Cox propotional hazard model|||The interaction of RANK expression level total (cytoplasm + membranes; H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.1583
82433648|NCT01951586|164577352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3946|||||||Cox propotional hazard model|||The interaction of RANKL expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.3946
82433649|NCT01951586|164577352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3735|||||||Cox propotional hazard model|||The interaction of RANKL expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a Cox proportional hazard model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.3735
82433650|NCT01951586|164577353|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.76||||0.3491|TWO_SIDED|95.0|0.43|1.35|||Regression, Logistic|Logistic regression model adjusted for the randomization stratification factors.|Based on a logistic regression model adjusted for the randomization stratification factors; an odds ratio ≥ 1 favors denosumab.|||1.35|0.43|0.3491
82538275|NCT03247543|164776299|SUPERIORITY||Least Square Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.061||0.168|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||||0.04|-0.20|0.1680
82538276|NCT03247543|164776300|SUPERIORITY||Risk Difference (RD)|10.1||||0.1316|TWO_SIDED|95.0|-2.9|23.1|||Regression, Logistic|||||23.1|-2.9|0.1316
82538277|NCT03247543|164776300|SUPERIORITY||Risk Difference (RD)|15.4||||0.0276|TWO_SIDED|95.0|2.0|28.9|||Regression, Logistic|||||28.9|2.0|0.0276
82538278|NCT03247543|164776301|SUPERIORITY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.7||0.2128|TWO_SIDED|95.0|-8.7|1.9|||ANCOVA|||||1.9|-8.7|0.2128
82538279|NCT03247543|164776301|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.83||0.0409|TWO_SIDED|95.0|-11.3|-0.2|||ANCOVA|||||-0.2|-11.3|0.0409
82648929|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-58.94|100.6||||||For change in global QoL at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||100.60|-58.94|
82648930|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.33|||||TWO_SIDED|95.0|-44.54|63.2||||||For change in physical functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||63.20|-44.54|
82433651|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.476|||||||Regression, Logistic|||The interaction of RANK expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.4760
82433652|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2582|||||||Regression, Logistic|||The interaction of RANK expression level measured in the membranes (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2582
82433653|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223|||||||Regression, Logistic|||The interaction of RANK expression level total (cytoplasm + membrane; all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2230
82433654|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4329|||||||Regression, Logistic|||The interaction of RANK expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.4329
82433655|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|||||||Regression, Logistic|||The interaction of RANK expression level measured in the membranes (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2620
82433656|NCT01951586|164577354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2081|||||||Regression, Logistic|||The interaction of RANK expression level total (cytoplasm + membrane; H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANK expression level and treatment-by-RANK expression level interaction stratified by the randomization stratification factors.||||0.2081
82433657|NCT01951586|164577355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4671|||||||Regression, Logistic|||The interaction of RANKL expression level measured in the cytoplasm (all intensity) and treatment effect was evaluated using a logistic regression model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.4671
82433658|NCT01951586|164577355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4236|||||||Regression, Logistic|||The interaction of RANKL expression level measured in the cytoplasm (H-score) and treatment effect was evaluated using a logistic regression model that included treatment group, RANKL expression level and treatment-by-RANKL expression level interaction stratified by the randomization stratification factors.||||0.4236
82433659|NCT01951586|164577356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81||||0.4654|TWO_SIDED|95.0|0.46|1.43|||Regression, Logistic|Logistic regression model adjusted for the randomization stratification factors.|Based on a logistic regression model adjusted for the randomization stratification factors; an odds ratio ≥ 1 favors denosumab.|||1.43|0.46|0.4654
82453347|NCT01101035|164612525|NON_INFERIORITY|Noninferiority was declared if the upper 1-sided CI for the hazard ratio was less than 1.3. Critical boundary of 2.014 (final analysis) based on the Lan-DeMets-O'Brien-Fleming alpha spending function was used for CI estimation.|Cox Proportional Hazard|1.03|||||TWO_SIDED|97.0|0.87|1.23|||||Time from randomization to the first occurrence of any MACE was fitted using Cox Proportional Hazard model with treatment as a covariate and Baseline renal function as a stratification factor.|Statistical analysis for the primary endpoint was based on 1-sided repeated confidence intervals (CIs), using critical values from a 1-sided stopping boundary for a group sequential design (GSD), to preserve an overall false-rejection rate of 2.5%, to assess non-inferiority at each interim analysis and the final analysis.||1.23|0.87|
82453348|NCT02871635|164612526|OTHER||Risk Ratio (RR)|0.945|||||TWO_SIDED|90.0|0.87|1.028|||||BI 695501 as numerator Humira EU as denominator|Was analyzed using a log-linked binomial model, described as: response to treatment at Week 4 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.028|0.870|
82453349|NCT02871635|164612526|OTHER||Risk Ratio (RR)|0.945|||||TWO_SIDED|95.0|0.856|1.044|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 4 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.044|0.856|
82433660|NCT01951586|164577357|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.7363|TWO_SIDED|95.0|0.78|1.43|||Log Rank|Log rank test stratified by the randomized stratification factors.|"Based on a Cox proportional hazards model stratified by the randomized stratification factors.~Hazard ratio \< 1 favors denosumab."|||1.43|0.78|0.7363
82433661|NCT00654745|164577462|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.9|||<|0.0001|TWO_SIDED|95.0|-21.5|-18.4|||t-test, 2 sided|||||-18.4|-21.5|<0.0001
82453350|NCT02871635|164612527|OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|90.0|0.871|1.148|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.148|0.871|
82648931|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|||||TWO_SIDED|95.0|-35.3|75.3||||||For change in role functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||75.30|-35.30|
82648932|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|||||TWO_SIDED|95.0|-51.66|36.66||||||For change in emotional functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||36.66|-51.66|
82648933|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-36.06|69.39||||||For change in cognitive functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||69.39|-36.06|
82538280|NCT03247543|164776302|SUPERIORITY||Least Square Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.07||0.002|TWO_SIDED|95.0|-5.4|-1.2|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.2|-5.4|0.0020
82648934|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||||TWO_SIDED|95.0|-76.36|86.36||||||For change in social functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||86.36|-76.36|
82453351|NCT02871635|164612527|OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.848|1.178|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.178|0.848|
82453352|NCT02871635|164612528|OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|90.0|0.751|1.078|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.078|0.751|
82453353|NCT02871635|164612528|OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.725|1.116|||||BI 695501 as numerator Humira EU as denominator|Was to be analyzed using a log-linked binomial model, described as: response to treatment at Week 24 = treatment+prior infliximab exposure+screening Simple Endoscopic Score for Crohn's Disease (SES-CD)||1.116|0.725|
82453354|NCT00412893|164612536|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper bound of the 95% CI for the treatment difference was compared to the protocol prespecified non-inferiority margin of 10%. If the upper bound was smaller than 10%, isavuconazole was declared as non-inferior to voriconazole with respect to the primary outcome measure.|Adjusted Treatment Difference|-1.0|||||TWO_SIDED|95.0|-7.759|5.683|||||The treatment difference (isavuconazole minus voriconazole) was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. The strata included Geographical Regions, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Approximately 255 patients per group were to be enrolled to ensure at least 80% power to demonstrate that the upper bound of the 95% confidence interval (CI) for a treatment difference in favor of the comparator was no larger than 10%.||5.683|-7.759|
82453355|NCT00412893|164612537|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|1.6|||||TWO_SIDED|95.0|-9.336|12.572|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||12.572|-9.336|
82538281|NCT03247543|164776302|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|1.09||0.0039|TWO_SIDED|95.0|-5.3|-1.0|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.0|-5.3|0.0039
82538282|NCT03247543|164776302|SUPERIORITY||Least Square Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.05||0.0087|TWO_SIDED|95.0|-4.8|-0.7|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.7|-4.8|0.0087
82577431|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.054||0.3755|TWO_SIDED|95.0|-0.06|0.16|||MMRM|||Insight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.16|-0.06|0.3755
82577432|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.053||0.9752|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Hour 72: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9752
82648935|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.78|||||TWO_SIDED|95.0|-77.63|42.08||||||For change in fatigue at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||42.08|-77.63|
82433662|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.0001|TWO_SIDED|95.0|-12.2|-10.3||24-hour mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.3|-12.2|<0.0001
82433663|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.7|||<|0.0001|TWO_SIDED|95.0|-12.9|-10.5||daytime mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.5|-12.9|<0.0001
82433664|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.4|||<|0.0001|TWO_SIDED|95.0|-11.7|-9.0||nighttime mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.0|-11.7|<0.0001
82433665|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.9|||<|0.0001|TWO_SIDED|95.0|-12.2|-9.7||last 6 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.7|-12.2|<0.0001
82538283|NCT03247543|164776302|SUPERIORITY||Least Square Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.09||0.0248|TWO_SIDED|95.0|-4.6|-0.3|||ANCOVA|||This analysis pertains to the Inattention subscale score||-0.3|-4.6|0.0248
82538284|NCT03247543|164776303|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.43||0.7003|TWO_SIDED|95.0|-3.3|2.2|||ANCOVA|||||2.2|-3.3|0.7003
82538285|NCT03247543|164776303|SUPERIORITY||Least Square Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.45||0.1602|TWO_SIDED|95.0|-4.9|0.8|||ANCOVA|||||0.8|-4.9|0.1602
82538286|NCT03247543|164776304|SUPERIORITY|||||||0.0236|||||||Chi-squared|||This analysis pertains to Week 1 of treatment.||||0.0236
82538287|NCT03247543|164776304|SUPERIORITY|||||||0.0505|||||||Chi-squared|||This analysis pertains to Week 2 of treatment.||||0.0505
82538288|NCT03247543|164776304|SUPERIORITY|||||||0.1225|||||||Chi-squared|||This analysis pertains to Week 3 of treatment.||||0.1225
82538289|NCT03247543|164776304|SUPERIORITY|||||||0.0254|||||||Chi-squared|||This analysis pertains to Week 4 of treatment.||||0.0254
82433666|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.1|||<|0.0001|TWO_SIDED|95.0|-12.4|-9.8||last 4 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.8|-12.4|<0.0001
82433667|NCT00654745|164577463|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|||<|0.0001|TWO_SIDED|95.0|-13.1|-10.0||last 2 hours mean DBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-10.0|-13.1|<0.0001
82433668|NCT00654745|164577464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.8|||<|0.0001|TWO_SIDED|95.0|-22.6|-18.9||daytime mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-18.9|-22.6|<0.0001
82433669|NCT00654745|164577464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.5|||<|0.0001|TWO_SIDED|95.0|-20.4|-16.6||nighttime mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-16.6|-20.4|<0.0001
82433670|NCT00654745|164577464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.9|||<|0.0001|TWO_SIDED|95.0|-20.7|-17.0||last 6 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.0|-20.7|<0.0001
82433671|NCT00654745|164577464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.1|||<|0.0001|TWO_SIDED|95.0|-21.1|-17.1||last 4 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.1|-21.1|<0.0001
82648936|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-62.33|28.99||||||For change in nausea and vomiting at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||28.99|-62.33|
82453356|NCT00412893|164612537|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-0.5|||||TWO_SIDED|95.0|-11.277|10.329|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||10.329|-11.277|
82538290|NCT03247543|164776304|SUPERIORITY|||||||0.0261|||||||Chi-squared|||This analysis pertains to Week 5 of treatment.||||0.0261
82538291|NCT03247543|164776304|SUPERIORITY|||||||0.0037|||||||Chi-squared|||This analysis pertains to Week 6 of treatment.||||0.0037
82538292|NCT03247543|164776304|SUPERIORITY|||||||0.0385|||||||Chi-squared|||This analysis pertains to Week 7 of treatment.||||0.0385
82538293|NCT03247543|164776304|SUPERIORITY|||||||0.0956|||||||Chi-squared|||This analysis pertains to Week 8 of treatment.||||0.0956
82538294|NCT03247543|164776304|SUPERIORITY|||||||0.0962|||||||Chi-squared|||This analysis pertains to Week 1 of treatment.||||0.0962
82538295|NCT03247543|164776304|SUPERIORITY|||||||0.0744|||||||Chi-squared|||This analysis pertains to Week 2 of treatment.||||0.0744
82538296|NCT03247543|164776304|SUPERIORITY|||||||0.0218|||||||Chi-squared|||This analysis pertains to Week 3 of treatment.||||0.0218
82648937|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-79.59|96.26||||||For change in pain at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.26|-79.59|
82538297|NCT03247543|164776304|SUPERIORITY|||||||0.115|||||||Chi-squared|||This analysis pertains to Week 4 of treatment.||||0.1150
82538298|NCT03247543|164776304|SUPERIORITY|||||||0.1086|||||||Chi-squared|||This analysis pertains to Week 5 of treatment.||||0.1086
82538299|NCT03247543|164776304|SUPERIORITY|||||||0.0082|||||||Chi-squared|||This analysis pertains to Week 6 of treatment.||||0.0082
82538300|NCT03247543|164776304|SUPERIORITY|||||||0.2326|||||||Chi-squared|||This analysis pertains to Week 7 of treatment.||||0.2326
82538301|NCT03247543|164776304|SUPERIORITY|||||||0.0883|||||||Chi-squared|||This analysis pertains to Week 8 of treatment.||||0.0883
82538302|NCT01097343|164776305|SUPERIORITY_OR_OTHER||||||=|0.02|TWO_SIDED|95.0|||||Chi-squared|||A sample of size of 50 patients for the cross-over study was chosen because it provided 80% power to detect a decrease in the rate of high on-clopidogrel platelet reactivity (HPR, defined as \>230 PRU) from 75% to 46% with high dose clopidogrel, with a two-sided alpha of 0.05||||=0.02
82538303|NCT00964119|164776306|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|90.0||||P-value \< .05 is the computed p-value for this measurement.|t-test, 2 sided|||PI and lead author left the institution before publishing data. Study has been closed and data files archived.||||<.05
82453357|NCT00412893|164612537|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|8.2|||||TWO_SIDED|95.0|-1.993|18.379|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||18.379|-1.993|
82453358|NCT00412893|164612538|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-1.4|||||TWO_SIDED|95.0|-9.15|6.34|||||The treatment difference (isavuconazole minus voriconazole) was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. The strata included Geographical Regions, Allogeneic BMT Status and Uncontrolled Malignancy Status.|||6.340|-9.150|
82453359|NCT00412893|164612540|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|0.4|||||TWO_SIDED|95.0|-10.64|11.531|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment Comparison||11.531|-10.640|
82453360|NCT00412893|164612540|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-5.8|||||TWO_SIDED|95.0|-17.368|5.802|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||5.802|-17.368|
82453361|NCT00412893|164612540|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|0.3|||||TWO_SIDED|95.0|-11.116|11.758|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||11.758|-11.116|
82453362|NCT00412893|164612541|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|3.8|||||TWO_SIDED|95.0|-7.429|15.087|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||15.087|-7.429|
82453363|NCT00412893|164612541|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-0.7|||||TWO_SIDED|95.0|-11.917|10.586|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 Comparison||10.586|-11.917|
82453364|NCT00412893|164612541|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|9.1|||||TWO_SIDED|95.0|-1.624|19.83|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 Comparison||19.830|-1.624|
82453365|NCT00412893|164612542|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.7|||||TWO_SIDED|95.0|-4.936|16.268|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||16.268|-4.936|
82577433|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.054||0.9188|TWO_SIDED|95.0|-0.11|0.1|||MMRM|||Insight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.10|-0.11|0.9188
82648938|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-89.98|52.94||||||For change in dyspnea at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||52.94|-89.98|
82453366|NCT00412893|164612542|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.3|||||TWO_SIDED|95.0|-5.338|16.032|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||16.032|-5.338|
82453367|NCT00412893|164612542|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|9.0|||||TWO_SIDED|95.0|-1.231|19.186|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||19.186|-1.231|
82453368|NCT00412893|164612543|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.0|||||TWO_SIDED|95.0|-6.043|16.026|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||16.026|-6.043|
82453369|NCT00412893|164612543|SUPERIORITY_OR_OTHER_LEGACY||Adjusted treatment Difference|0.2|||||TWO_SIDED|95.0|-10.873|11.22|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||11.220|-10.873|
82453370|NCT00412893|164612543|SUPERIORITY_OR_OTHER_LEGACY||Adjusted treatment Difference|4.7|||||TWO_SIDED|95.0|-6.533|15.939|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||15.939|-6.533|
82453371|NCT00412893|164612544|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|4.4|||||TWO_SIDED|95.0|-8.429|17.218|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||17.218|-8.429|
82453372|NCT00412893|164612544|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|-2.5|||||TWO_SIDED|95.0|-15.071|10.073|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||10.073|-15.071|
82453373|NCT00412893|164612544|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|2.9|||||TWO_SIDED|95.0|-8.633|14.499|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||14.499|-8.633|
82453374|NCT00412893|164612545|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|6.3|||||TWO_SIDED|95.0|-5.145|17.696|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|End of Treatment comparison||17.696|-5.145|
82538304|NCT02059980|164776307|SUPERIORITY||||||=|0.56|||||||Mixed Models Analysis|||It was calculated that 30 participants rnadomized in a 1:1 fashion between the 2 arms would have .90 power to detect a large effect (f=.40), but is somewhat underpowered to detect a medium effect (f=.25) between the two groups. Sample size was determined using a repeated-measures ANOVA test (α = .05, a correlation of .5 among repeated measures, and a nonsphericity correction of .6), considering the design effect and potential patient attrition (=25%).||||= 0.56
82538305|NCT02059980|164776308|SUPERIORITY||||||=|0.98|||||||Mixed Models Analysis|||It was calculated that 30 participants randomized in a 1:1 fashion between the 2 arms would have .90 power to detect a large effect (f=.40), but is somewhat underpowered to detect a medium effect (f=.25) between the two groups. Sample size was determined using a repeated-measures ANOVA test (α = .05, a correlation of .5 among repeated measures, and a nonsphericity correction of .6), considering the design effect and potential patient attrition (=25%).||||=.98
82538306|NCT01606124|164776409|SUPERIORITY|||||||0.5631|||||||Wilcoxon (Mann-Whitney)|||||||0.5631
82538307|NCT01606124|164776410|SUPERIORITY|||||||0.1439|||||||Wilcoxon (Mann-Whitney)|||||||0.1439
82538308|NCT01090024|164776435|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.083|STANDARD_ERROR_OF_MEAN|0.624||0.4473|TWO_SIDED|95.0|-1.147|1.313|||Mixed effect model||Adjusted means difference of BI 671800 200 mg BID (D) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.313|-1.147|0.4473
82538309|NCT01090024|164776435|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.67|STANDARD_ERROR_OF_MEAN|0.625||0.1426|TWO_SIDED|95.0|-0.563|1.903|||Mixed effect model||Adjusted means difference of BI 671800 400 mg PM QD (C) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.903|-0.563|0.1426
82538310|NCT01090024|164776435|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|0.281|STANDARD_ERROR_OF_MEAN|0.611||0.3231|TWO_SIDED|95.0|-0.924|1.486|||Mixed effect model||Adjusted means difference of BI 671800 400 mg AM QD (B) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A compound symmetry covariance structure was used.||1.486|-0.924|0.3231
82538311|NCT01090024|164776436|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.056|STANDARD_ERROR_OF_MEAN|0.063||0.1879|TWO_SIDED|95.0|-0.18|0.068|||Mixed effect model||Adjusted means difference of BI 671800 200 mg BID (D) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.068|-0.180|0.1879
82538312|NCT01090024|164776436|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.026|STANDARD_ERROR_OF_MEAN|0.063||0.3384|TWO_SIDED|95.0|-0.151|0.098|||Mixed effect model||Adjusted means difference of BI 671800 400 mg PM QD (C) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.098|-0.151|0.3384
82538313|NCT01090024|164776436|SUPERIORITY|One-sided p-value testing superiority of BI 671800 vs placebo with 2.5% alpha.|Adjusted means difference|-0.093|STANDARD_ERROR_OF_MEAN|0.062||0.067|TWO_SIDED|95.0|-0.214|0.029|||Mixed effect model||Adjusted means difference of BI 671800 400 mg AM QD (B) vs Placebo (A).|Restricted maximum likelihood (REML)-based mixed effects model with repeated measures (MMRM) with terms for baseline, treatment and period as fixed effects and patient as a random effect was used. A autoregressive covariance structure was used.||0.029|-0.214|0.0670
82538314|NCT02380742|164776487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87|STANDARD_ERROR_OF_MEAN|0.47||0.02|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for baseline pain.||||.02
82538315|NCT02380742|164776488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|0.87||0.03|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for investigator training and pessary type.||||.03
82648939|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0|||||TWO_SIDED|95.0|-133.08|93.08||||||For change in insomnia at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||93.08|-133.08|
82538316|NCT02380742|164776489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.811|STANDARD_ERROR_OF_MEAN|0.83||0.03|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at removal were the same between the lidocaine and placebo groups after controlling for baseline pain and patient age.||||.03
82577434|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.6379|TWO_SIDED|95.0|-0.08|0.13|||MMRM|||Insight, Change at Day 7: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.08|0.6379
82648940|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.67|||||TWO_SIDED|95.0|-151.27|77.94||||||For change in appetite loss at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||77.94|-151.27|
82648941|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-72.58|65.91||||||For change in constipation at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||65.91|-72.58|
82538317|NCT02380742|164776490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|0.63||0.09|TWO_SIDED||||||ANCOVA|||The null hypothesis was that patients' pain scores at insertion were the same between the lidocaine and placebo groups after controlling for baseline pain.||||.09
82538318|NCT02657629|164776494|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82538319|NCT01729819|164776495|SUPERIORITY|The change in mean nocturnal voids from baseline as the dependent variable, baseline mean nocturnal voids as a covariate, and treatments and visit (Month 1, Month 2, and Month 3) as factors, was considered for the analysis. Longitudinal analysis based on repeated measures using analysis of covariance with subject as random effect. Missing values post-baseline were not imputed.|Mean Difference (Final Values)|-0.34||||0.112|TWO_SIDED|95.0|-0.77|0.08|||ANCOVA|Change in mean nocturnal voids as the dependent variable and baseline mean nocturnal voids as a covariate, treatment and visit as factors.|Longitudinal analysis based on repeated measures using analysis of covariance with subject as random effect. The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented. The trial was to be declared positive if a statistically significant (two-sided, p \< 0.05) positive effect for combining tolterodine and desmopressin compared to tolterodine monotherapy on the primary endpoint had been demonstrated.||0.08|-0.77|0.112
82538320|NCT01729819|164776496|SUPERIORITY||Mean Difference (Final Values)|18.0||||0.385|TWO_SIDED|95.0|-22.96|58.96|||ANCOVA|Change in mean time to first void as dependent variable and baseline mean time to first void as a covariate, and treatment and visit as factors.|The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented.||58.96|-22.96|0.385
82538321|NCT01729819|164776497|SUPERIORITY||Mean Difference (Final Values)|-64.16||||0.103|TWO_SIDED|95.0|-141.46|13.14|||ANCOVA|Change in mean nocturnal volume as the dependent variable and baseline mean nocturnal volume as a covariate, and treatment and visit as factors.|The estimated value represents the contrast of combination - tolterodine.|Combination versus tolterodine (i.e. effect in combination group minus effect in tolterodine group) is presented||13.14|-141.46|0.103
82538322|NCT01729819|164776498|SUPERIORITY||Odds Ratio (OR)|1.36||||0.352|TWO_SIDED|95.0|0.71|2.62||33% responder status as dependent variable, baseline mean nocturnal voids as covariate, treatment, and visit as factors.|Generalized Estimating Equation|||Combination versus tolterodine (i.e. odds of being responder in combination group versus odds of being responder in tolterodine group) is presented. The proportion of responders during three months of treatment was analysed (i.e. the odds ratio of the odds of being a responder) longitudinally using Generalised Estimating Equation (GEE) for a repeated logistic regression.||2.62|0.71|0.352
82453375|NCT00412893|164612545|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|8.0|||||TWO_SIDED|95.0|-3.335|19.356|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 42 comparison||19.356|-3.335|
82453376|NCT00412893|164612545|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Treatment Difference|5.1|||||TWO_SIDED|95.0|-6.187|16.332|||||The adjusted treatment difference (Voriconazole-Isavuconazole) was calculated by a stratified CMH method with the strata of Geographical Region, Allogeneic BMT Status and Uncontrolled Malignancy Status.|Day 84 comparison||16.332|-6.187|
82453377|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was greater than (\>) -0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.2|2.1||||||Serotype 4: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95 percent (%) confidence interval (CI).||2.1|-2.2|
82453378|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-1.7|||||TWO_SIDED|95.0|-5.2|1.1||||||Serotype 6B: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||1.1|-5.2|
82538323|NCT01729819|164776499|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.443||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids at Month 1|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 1||||0.443
82538324|NCT01729819|164776499|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.086||||||Adjusted treatment difference in mean number of nocturnal voids (Combination-tolterodine) at Month 2|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 2||||0.086
82453379|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 9V: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
82577435|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.061||0.4967|TWO_SIDED|95.0|-0.16|0.08|||MMRM|||Insight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.08|-0.16|0.4967
82453380|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 14: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
82538325|NCT01729819|164776499|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.055||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids at Month 3|ANCOVA|||Treatment difference (Combination-tolterodine) at Month 3||||0.055
82538326|NCT01729819|164776499|SUPERIORITY|Estimated contrast (Combination - tolterodine) from longitudinal analysis including a treatment-by visit interaction term||||||0.106||||||Adjusted treatment difference (Combination-tolterodine) in mean number of nocturnal voids for the duration of 3 months|ANCOVA|||Treatment difference (Combination-tolterodine) for the duration of 3 months||||0.106
82648942|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.33|||||TWO_SIDED|95.0|-16.45|163.12||||||For change in diarrhea at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||163.12|-16.45|
82648943|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.33|||||TWO_SIDED|95.0|-48.23|41.56||||||For change in financial difficulties at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||41.56|-48.23|
82453381|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.1||||||Serotype 18C: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.1|-2.1|
82453382|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.3|||||TWO_SIDED|95.0|-1.1|6.3||||||Serotype 19F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||6.3|-1.1|
82453383|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-0.6|||||TWO_SIDED|95.0|-4.2|2.9||||||Serotype 23F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.9|-4.2|
82453384|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|0.9|7.3||||||Serotype 1: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|0.9|
82538327|NCT01729819|164776500|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.178|TWO_SIDED|95.0|-0.2|1.05|||ANCOVA|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented.Statistical analysis for from very tired to wide awake, how do you feel now"||1.05|-0.20|0.178
82538328|NCT01729819|164776500|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.257|TWO_SIDED|95.0|-0.26|0.94|||ANCOVA|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented. Statistical analysis for Rate how refreshed you feel now"||0.94|-0.26|0.257
82538329|NCT01729819|164776500|SUPERIORITY|Quality of sleep rating score as dependent variable, baseline quality of sleep rating scale value as a covariate, and responder status as a factor.|Mean Difference (Final Values)|0.28||||0.36|TWO_SIDED|95.0|-0.32|0.88|||ANCOVA|Longitudinal analysis of covariance on change from baseline with baseline as a covariate, and treatment and visit as factors.|Estimated contrast (Combination - tolterodine) from longitudinal analysis of covariance|"Combination versus tolterodine (i.e. score on scale in combination group versus score on scale in tolterodine group) is presented. Statistical analysis for Rate the quality of your sleep last night"||0.88|-0.32|0.360
82538330|NCT02987543|164776501|SUPERIORITY||Odds Ratio (OR)|20.86|||<|0.0001|TWO_SIDED|95.0|4.18|379.18|||Regression, Logistic|||||379.18|4.18|<0.0001
82538331|NCT02987543|164776502|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.38|0.63|||Regression, Cox|||||0.63|0.38|<0.0001
82538332|NCT02987543|164776503|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0192|TWO_SIDED|95.0|0.22|0.91|||Regression, Cox|||||0.91|0.22|0.0192
82538333|NCT02987543|164776504|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0175|TWO_SIDED|95.0|0.5|0.97||2-sided p-value|Regression, Cox|||||0.97|0.50|0.0175
82538334|NCT02987543|164776505|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.25|0.47|||Regression, Cox|||||0.47|0.25|<0.0001
82538335|NCT00558363|164776586|SUPERIORITY_OR_OTHER||Relative Risk (Hazard Ratio)|0.34|||<|0.001|TWO_SIDED|95.0|0.23|0.5||Comparing 24-month survival curves (includes time to PSA doubling as well as time to censoring); stratified by site cluster and previous therapy|Log Rank||Relative risk of dutasteride compared to placebo, derived from Cox Proportional Hazard model stratified by site cluster and previous therapy|||0.50|0.23|<0.001
82538336|NCT00558363|164776596|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparing percentages of participants with PSA doubling: 57% versus 28%|Mantel-Haenszel Chi-Square|||||||<0.001
82538337|NCT00558363|164776597|SUPERIORITY_OR_OTHER||Relative Risk (Hazard Ratio)|0.25|||<|0.001||95.0|0.14|0.45||Comparing 12-month survival curves (includes time to PSA doubling as well as time to censoring); stratified by site cluster and previous therapy|Log Rank||Relative risk of dutasteride compared to placebo, derived from Cox proportional hazard model stratified by site cluster and previous therapy|||0.45|0.14|<0.001
82538338|NCT00558363|164776598|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparing percentages of participants with PSA doubling: 35% versus 10%|Mantel-Haenszel Chi-Square|||||||<0.001
82538339|NCT03102710|164776611|SUPERIORITY|Covariates included 1) age, 2) cream randomization, and 3) the difference in ERS for lidocaine before and after expectancy manipulation (which represented how well the expectancy was modulated) in Session 2.|Mean Difference (Final Values)|0.4||||0.03|TWO_SIDED|||||The threshold for significance was \<0.05.|ANCOVA||The mean difference between anodal vs. sham was 0.4, between cathodal vs. sham was 1.2, and between anodal vs. cathodal was -0.8.|To assess the modulation effects of tDCS on placebo, we first performed an analysis of covariance (ANCOVA) with placebo as the dependent variable and group (i.e., anodal, cathodal, and sham tDCS) as the fixed factor.||||0.03
82561845|NCT02291861|164832894|SUPERIORITY||LSM difference|-0.7||||0.217|TWO_SIDED|95.0|-1.84|0.42||Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the change in total motor AIMS score from baseline to week 12 between the SD-809 12 mg/day group and the placebo group, and is the fifth analysis in the fixed-sequence."||0.42|-1.84|0.217
82648944|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.62|||||TWO_SIDED|95.0|-74.75|106.0||||||For change in global QoL at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||106.00|-74.75|
82648945|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-17.22|83.89||||||For change in physical functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||83.89|-17.22|
82538340|NCT03102710|164776611|SUPERIORITY|Covariates included 1) age, 2) cream randomization, and 3) the difference in ERS for capsaicin before and after expectancy manipulation (which represented how well the expectancy was modulated) in Session 2. In addition, we added the STAI state and trait anxiety scores as covariates when assessing the modulation effects of tDCS on the nocebo effect, as previous studies have suggested that anxiety level could affect nocebo hyperalgesia.|Mean Difference (Final Values)|1.3||||0.04|TWO_SIDED|||||The threshold for significance was \<0.05.|ANCOVA||The mean difference between anodal vs. sham was 1.4, between cathodal vs. sham was 1.0, and between anodal vs. cathodal was -0.3.|To assess the modulation effects of tDCS on nocebo, we first performed an analysis of covariance (ANCOVA) with nocebo as the dependent variable and group (i.e., anodal, cathodal, and sham tDCS) as the fixed factor.||||0.04
82538341|NCT02228408|164776618|SUPERIORITY|||||||0.04|||||||poisson|||||||0.04
82538342|NCT02228408|164776619|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
82538343|NCT02228408|164776620|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
82538344|NCT02228408|164776624|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
82538345|NCT00606580|164776633|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||H01: There is no difference in the final clinical cure rate between WR 279,396 and Vehicle AND there is no difference in the final clinical cure rate between Paromomycin Alone and Vehicle.||||0.0001
82538346|NCT00606580|164776633|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||H01: There is no difference in the final clinical cure rate between WR 279,396 and Vehicle AND there is no difference in the final clinical cure rate between Paromomycin Alone and Vehicle.||||<0.0001
82538347|NCT00606580|164776633|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.871|||||||Chi-squared|||H02: There is no difference in clinical cure between WR 279,396 and Paromomycin Alone. Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||0.871
82538348|NCT00606580|164776634|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Chi-squared|||||||0.0006
82538349|NCT00606580|164776634|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Chi-squared|||||||0.0002
82538350|NCT00606580|164776634|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.767|||||||Chi-squared|||||||0.767
82538351|NCT00606580|164776635|SUPERIORITY_OR_OTHER|||||||0.33|||||||Log Rank|Mantel-Cox (log-rank) grouped failure time test using proportion re-epithelialized at each of the scheduled assessments through Day 42 without relapse||||||0.330
82538352|NCT00606580|164776635|SUPERIORITY_OR_OTHER|||||||0.275|||||||Log Rank|||||||0.275
82538353|NCT00606580|164776635|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.83|||||||Log Rank|||||||0.830
82538354|NCT00606580|164776640|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
82538355|NCT00606580|164776640|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82538356|NCT00606580|164776640|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.725|||||||Chi-squared|||||||0.725
82538357|NCT00606580|164776641|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82538358|NCT00606580|164776641|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82538359|NCT00606580|164776641|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||1|||||||Chi-squared|||||||1.000
82538360|NCT00606580|164776642|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||||||0.003
82538361|NCT00606580|164776642|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared|||||||0.002
82538362|NCT00606580|164776642|NON_INFERIORITY_OR_EQUIVALENCE|Test of H02: If H01 was rejected, then H02 would be tested. The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.893|||||||Chi-squared|||||||0.893
82538363|NCT00606580|164776643|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82538364|NCT00606580|164776643|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82538365|NCT00606580|164776643|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.247|||||||Chi-squared|||||||0.247
82538366|NCT00606580|164776644|SUPERIORITY_OR_OTHER|||||||0.409|||||||Chi-squared|||||||0.409
82538367|NCT00606580|164776644|SUPERIORITY_OR_OTHER|||||||0.651|||||||Chi-squared|||||||0.651
82538368|NCT00606580|164776644|NON_INFERIORITY_OR_EQUIVALENCE|The comparison of WR 279,396 versus Paromomycin Alone would be considered statistically significant if p \< .05.||||||0.701|||||||Chi-squared|||||||0.701
82538369|NCT01101165|164776645|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|96.6|||||TWO_SIDED|90.0|92.8|100.56|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||100.56|92.80|
82538370|NCT01101165|164776646|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|94.8|||||TWO_SIDED|90.0|92.42|97.24|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.24|92.42|
82538371|NCT01101165|164776647|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|95.5|||||TWO_SIDED|90.0|92.93|98.18|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||98.18|92.93|
82538372|NCT01444287|164776655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.636|STANDARD_ERROR_OF_MEAN|0.2093||0.0035||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.0035
82648946|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.17|||||TWO_SIDED|95.0|-58.04|66.37||||||For change in role functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-58.04|
82538373|NCT01444287|164776655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.743|STANDARD_ERROR_OF_MEAN|0.2093||0||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control - Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0000
82538374|NCT01444287|164776655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0275|STANDARD_ERROR_OF_MEAN|0.2093||0.8957||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.8957
82648947|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.21|||||TWO_SIDED|95.0|-28.19|38.61||||||For change in emotional functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||38.61|-28.19|
82433672|NCT00654745|164577464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.5|||<|0.0001|TWO_SIDED|95.0|-21.7|-17.4||last 2 hours mean SBP change from baseline to week 12.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with 164 degrees of freedom||Primary null hypothesis is change from baseline to week12 in ABPM is 0. Change from baseline to week12 is primary efficacy variable and used all ABPM subjects. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.4|-21.7|<0.0001
82433673|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3|||<|0.0001|TWO_SIDED|95.0|-12.0|-8.6||Change in mean seated systolic blood pressure from baseline to week 3.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-8.6|-12.0|<0.0001
82433674|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.9|||<|0.0001|TWO_SIDED|95.0|-19.8|-16.1||Change in mean seated systolic blood pressure from baseline to week 6.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-16.1|-19.8|<0.0001
82433675|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.0|||<|0.0001|TWO_SIDED|95.0|-22.2|-17.8||Change in mean seated systolic blood pressure from baseline to week 9|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-17.8|-22.2|<0.0001
82433676|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.7|||<|0.0001|TWO_SIDED|95.0|-25.7|-21.7||Change in mean seated systolic blood pressure from baseline to week 12|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-21.7|-25.7|<0.0001
82433677|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.5|||<|0.0001|TWO_SIDED|95.0|-30.8|-26.2||Change in mean seated systolic blood pressure from baseline to week 15|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-26.2|-30.8|<0.0001
82433678|NCT00654745|164577465|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.1|||<|0.0001|TWO_SIDED|95.0|-33.3|-28.8||Change in mean seated systolic blood pressure from baseline to week 18|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-28.8|-33.3|<0.0001
82433679|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.1||Change in mean seated diastolic blood pressure from baseline to week 3.|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-3.1|-5.1|<0.0001
82538375|NCT01444287|164776656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0057|STANDARD_ERROR_OF_MEAN|0.0031||0.0692||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.0692
82538376|NCT01444287|164776656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0011|STANDARD_ERROR_OF_MEAN|0.0032||0.7301||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.7301
82433680|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.2|||<|0.0001|TWO_SIDED|95.0|-9.4|-7.1||Change in mean seated diastolic blood pressure from baseline to week 6|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-7.1|-9.4|<0.0001
82433681|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.7|||<|0.0001|TWO_SIDED|95.0|-10.9|-8.4||Change in mean seated diastolic blood pressure from baseline to week 9|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-8.4|-10.9|<0.0001
82538377|NCT01444287|164776656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0008|STANDARD_ERROR_OF_MEAN|0.0032||0.8055||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.8055
82538378|NCT01444287|164776657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0122|STANDARD_ERROR_OF_MEAN|0.1111||0.9127||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.9127
82453385|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.9|||||TWO_SIDED|95.0|-0.2|6.7||||||Serotype 3: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||6.7|-0.2|
82433682|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.2|||<|0.0001|TWO_SIDED|95.0|-12.5|-9.9||Change in mean seated diastolic blood pressure from baseline to week 12|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-9.9|-12.5|<0.0001
82433683|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.4|||<|0.0001|TWO_SIDED|95.0|-15.7|-13.1||Change in mean seated diastolic blood pressure from baseline to week 15|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-13.1|-15.7|<0.0001
82453386|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|2.9|||||TWO_SIDED|95.0|-0.2|6.7||||||Serotype 5: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||6.7|-0.2|
82453387|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|1.7|||||TWO_SIDED|95.0|-1.9|5.8||||||Serotype 6A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||5.8|-1.9|
82453388|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|0.9|7.3||||||Serotype 7F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|0.9|
82453389|NCT01200368|164612584|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|3.4|||||TWO_SIDED|95.0|1.0|7.3||||||Serotype 19A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||7.3|1.0|
82453390|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for the IgG GMC ratio was \>0.5.|GMC ratio|0.81|||||TWO_SIDED|95.0|0.71|0.94||||||Serotype 4: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.94|0.71|
82453391|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.79|||||TWO_SIDED|95.0|0.64|0.97||||||Serotype 6B: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.97|0.64|
82453392|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.74|||||TWO_SIDED|95.0|0.64|0.86||||||Serotype 9V: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.86|0.64|
82453393|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.83|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 14: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.70|
82453394|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.73|||||TWO_SIDED|95.0|0.63|0.85||||||Serotype 18C: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.85|0.63|
82453395|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.88|||||TWO_SIDED|95.0|0.72|1.08||||||Serotype 19F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.08|0.72|
82453396|NCT01200368|164612585|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.8|||||TWO_SIDED|95.0|0.66|0.98||||||Serotype 23F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.66|
82453397|NCT01200368|164612586|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
82453398|NCT01200368|164612586|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.1|2.2||||||Difference in percentage of participants achieving predefined antibody levels for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||2.2|-2.1|
82453399|NCT01200368|164612586|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
82453400|NCT01200368|164612586|SUPERIORITY_OR_OTHER||Percent difference|-0.6|||||TWO_SIDED|95.0|-3.1|1.6||||||Difference in percentage of participants achieving predefined antibody levels for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||1.6|-3.1|
82538379|NCT01444287|164776657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6864|STANDARD_ERROR_OF_MEAN|0.1098||0||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0000
82538380|NCT01444287|164776657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1705|STANDARD_ERROR_OF_MEAN|0.1098||0.1256||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.1256
82538381|NCT01444287|164776658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0688|STANDARD_ERROR_OF_MEAN|5.044||0.9892||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: No Lenses (control) - narafilcon B (test) = 0. Ha: No Lenses (control) - narafilcon B (test) ≠ 0.||||0.9892
82538382|NCT01444287|164776658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|4.984||0.0007||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: Polymacon (+ control) - Narafilcon B (test) = 0. Ha: Polymacon (+ control) - Narafilcon B (test) ≠ 0.||||0.0007
82538383|NCT01444287|164776658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.37|STANDARD_ERROR_OF_MEAN|4.984||0.003||95.0|||||Mixed Models Analysis||The mean difference is calculated as: Control-Test.|Ho: lotrafilcon A (control) - narafilcon B (test) = 0. Ha: lotrafilcon A (control) - narafilcon B (test) ≠ 0.||||0.0030
82538384|NCT01456936|164776659|SUPERIORITY_OR_OTHER|||||||0.0652||||||An interaction between treatment and cohort was considered significant at 10% level. No multiplicity adjustments were utilized.|Regression, Linear|A generalized linear regression analysis based on the safety analysis set was used to evaluate incidence of NPS AE as the primary analysis.||The reduced (final) statistical model included treatment group, cohort and region, plus the 2-way interaction of treatment by cohort. Other interactions not included due to lack of significance. Region reduced to 2-level to address event sparseness issue.||||0.0652
82538385|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.28|||||TWO_SIDED|95.0|-2.4|-0.15|||Regression, Linear||Risk difference for varenicline versus placebo from estimation model.|Non-psychiatric cohort||-0.15|-2.40|
82577436|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.059||0.3492|TWO_SIDED|95.0|-0.17|0.06|||MMRM|||Insight, Change at Day 14: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.06|-0.17|0.3492
82538386|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08|||||TWO_SIDED|95.0|-1.37|1.21|||Regression, Linear||Risk difference for bupropion 150 mg BID versus placebo from estimation model.|Non-psychiatric cohort||1.21|-1.37|
82538387|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.21|||||TWO_SIDED|95.0|-1.54|1.12|||Regression, Linear||Risk difference for NRT versus placebo from estimation model.|Non-psychiatric cohort||1.12|-1.54|
82453401|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.8|||||TWO_SIDED|95.0|1.5|2.15||||||Serotype 1: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.15|1.50|
82538388|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.59|||||TWO_SIDED|95.0|-0.42|3.59|||Regression, Linear||Risk difference for varenicline versus placebo from estimation model|Psychiatric cohort||3.59|-0.42|
82538389|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.78|||||TWO_SIDED|95.0|-0.24|3.81|||Regression, Linear||Risk difference for bupropion 150 mg BID versus placebo from estimation model.|Psychiatric cohort||3.81|-0.24|
82538390|NCT01456936|164776660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.37|||||TWO_SIDED|95.0|-1.53|2.26|||Regression, Linear||Risk difference for NRT versus placebo from estimation model.|Psychiatric cohort||2.26|-1.53|
82538391|NCT01456936|164776675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.0001|TWO_SIDED|95.0|3.2|5.0||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||5.00|3.20|<0.0001
82538392|NCT01456936|164776675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|||<|0.0001|TWO_SIDED|95.0|1.8|2.85||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.85|1.80|<0.0001
82538393|NCT01456936|164776675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.83|2.9||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.90|1.83|<0.0001
82538394|NCT01456936|164776676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24|||<|0.0001|TWO_SIDED|95.0|2.56|4.11||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||4.11|2.56|<0.0001
82538395|NCT01456936|164776676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87|||<|0.0001|TWO_SIDED|95.0|1.46|2.39||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.39|1.46|<0.0001
82538396|NCT01456936|164776676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001|TWO_SIDED|95.0|1.56|2.55||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.55|1.56|<0.0001
82538397|NCT01456936|164776677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.61|||<|0.0001|TWO_SIDED|95.0|3.07|4.24||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||4.24|3.07|<0.0001
82538398|NCT01456936|164776677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07|||<|0.0001|TWO_SIDED|95.0|1.75|2.45||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.45|1.75|<0.0001
82433684|NCT00654745|164577466|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.1|||<|0.0001|TWO_SIDED|95.0|-16.5|-13.6||Change in mean seated diastolic blood pressure from baseline to week 18|t-test, 2 sided|standard 1-sample confidence interval construction using t-distribution with n-1 degrees of freedom||Primary null hypothesis is change from baseline is 0. Null hypothesis used 1-sample t-test on change. Sample size of 200 expected to provide 99% power at significance level of 0.05%.||-13.6|-16.5|<0.0001
82538399|NCT01456936|164776677|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15|||<|0.0001|TWO_SIDED|95.0|1.82|2.54||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.54|1.82|<0.0001
82538400|NCT01456936|164776678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99|||<|0.0001|TWO_SIDED|95.0|2.33|3.83||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||3.83|2.33|<0.0001
82538401|NCT01456936|164776678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001|TWO_SIDED|95.0|1.54|2.59||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.59|1.54|<0.0001
82538402|NCT01456936|164776678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.51|2.54||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.54|1.51|<0.0001
82538403|NCT01456936|164776679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.9|3.29||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||3.29|1.90|<0.0001
82538404|NCT01456936|164776679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77|||<|0.0001|TWO_SIDED|95.0|1.33|2.36||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.36|1.33|<0.0001
82538405|NCT01456936|164776679|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65|||<|0.0001|TWO_SIDED|95.0|1.24|2.2||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment, cohort, region, treatment by cohort interaction, and region by cohort interaction. Region reduced to 2-level for consistency with primary safety model.||2.20|1.24|<0.0001
82538406|NCT01456936|164776680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74|||<|0.0001|TWO_SIDED|95.0|2.28|3.3||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||3.30|2.28|<0.0001
82538407|NCT01456936|164776680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89|||<|0.0001|TWO_SIDED|95.0|1.56|2.29||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.29|1.56|<0.0001
82538408|NCT01456936|164776680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.49|2.19||No multiplicity adjustment.|Regression, Logistic|||The analysis was done using a logistic regression with terms treatment and region. Region reduced to 2-level for consistency with primary safety model.||2.19|1.49|<0.0001
82538409|NCT03095508|164776684|SUPERIORITY|||||||0.446|||||||Fisher Exact|||||||0.446
82538410|NCT03095508|164776686|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82538411|NCT03095508|164776687|SUPERIORITY|||||||0.145|||||||t-test, 2 sided|||||||0.145
82433685|NCT03086408|164577563|OTHER||Mean Difference (Final Values)|-4.0||||0.09|TWO_SIDED|95.0|-9.0|1.0|||t-test, 2 sided|||||1.00|-9.00|0.09
82538412|NCT03095508|164776688|SUPERIORITY|||||||0.188|||||||Wilcoxon (Mann-Whitney)|||||||0.188
82538413|NCT03095508|164776689|NON_INFERIORITY|non-inferiority margin 14.5% absolute difference between percentages in group A and B|Risk Difference (RD)|0.14||||1e-05|TWO_SIDED|95.0|0.03|0.24||p- value for superiority: 0.021|Fisher Exact|||p1=proportion of patients without sore throat at Day 4 in Arm A p2=proportion of patients without sore throat at Day 4 in Arm B Н0: p1 - p2 ≤ -0.145||0.24|0.03|0.00001
82538414|NCT02020018|164776692|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
82538415|NCT01549652|164776695|SUPERIORITY_OR_OTHER|||||||0.87||||||Students' t-tests for paired samples with Bonferroni correction for multiple comparisons were used to compare differences between the outcome measures for crossover treatment arms (placebo vs. ondansetron).|t-test, 2 sided|||For the purposes of our post-hoc power calculation we considered a 30% treatment effect clinically significant. Based on the mean observed OOWS score during withdrawal during the placebo session and the variance of that mean score and assuming a paired data analysis and an alpha of 0.05, we found that we had 80% power to detect a treatment effect as low as 25% reduction in OOWS.||||0.87
82538416|NCT01549652|164776696|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
82538417|NCT01549652|164776697|SUPERIORITY_OR_OTHER|||||||0.47|||||||t-test, 2 sided|||||||0.47
82538418|NCT01549652|164776698|SUPERIORITY_OR_OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
82538419|NCT01549652|164776699|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82538420|NCT01549652|164776700|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82538421|NCT01549652|164776701|SUPERIORITY_OR_OTHER|||||||0.6||||||Students' t-test for paired samples were used to compare differences between the outcome measures for treatment groups (placebo vs. ondansetron).|t-test, 2 sided|||We aimed for a 20% change in OOWS score to show the treatment effect with a power of 80% and an alpha of 0.05, yielding a target of 23 patients per treatment group.||||0.6
82538422|NCT01549652|164776702|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
82538423|NCT01549652|164776703|SUPERIORITY_OR_OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
82538424|NCT01549652|164776704|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||||||0.40
82433686|NCT03086408|164577564|OTHER||Mean Difference (Final Values)|0.9||||0.61|TWO_SIDED|95.0|-2.89|4.69|||t-test, 2 sided|||||4.69|-2.89|0.61
82453402|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 3: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.28|0.92|
82453403|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.03|||||TWO_SIDED|95.0|0.86|1.22||||||Serotype 5: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.22|0.86|
82453404|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.04|||||TWO_SIDED|95.0|0.87|1.25||||||Serotype 6A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.25|0.87|
82453405|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.83|||||TWO_SIDED|95.0|1.54|2.16||||||Serotype 7F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.16|1.54|
82453406|NCT01200368|164612587|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.89|||||TWO_SIDED|95.0|1.59|2.25||||||Serotype 19A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.25|1.59|
82453407|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 4: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82538425|NCT01549652|164776705|SUPERIORITY_OR_OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
82538426|NCT01549652|164776706|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82538427|NCT03068611|164776707|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||.90
82538428|NCT03068611|164776708|SUPERIORITY|||||||0.54|||||||Chi-squared|||||||.54
82538429|NCT03068611|164776709|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|Data were log-transformed transformed due to positive skewness||||||.36
82453408|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 6B: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82453409|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 9V: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82453410|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 14: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82453411|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 18C: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82538430|NCT03068611|164776710|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|Data were log-transformed to correct positive skewness||||||.92
82538431|NCT03722446|164776719|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82538432|NCT03722446|164776720|SUPERIORITY|||||||0.0102|||||||t-test, 1 sided|||||||0.01020
82538433|NCT03722446|164776721|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
82538434|NCT03722446|164776722|SUPERIORITY|||||||0.3753|||||||Chi-squared|||||||0.3753
82538435|NCT03722446|164776723|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0000
82538436|NCT03722446|164776724|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82538437|NCT00635817|164776731|SUPERIORITY_OR_OTHER|||||||0.099||||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.099
82538438|NCT00635817|164776731|SUPERIORITY_OR_OTHER|||||||0.074||||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.074
82538439|NCT00635817|164776731|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.026
82538440|NCT00635817|164776731|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||There were no adjustments for multiple comparisons.|t-test, 2 sided|||Summary statistics were calculated and tests of significance of the change versus no change were performed.||||0.102
82538441|NCT00635817|164776732|SUPERIORITY_OR_OTHER|||||||0.008||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.008
82538442|NCT00635817|164776732|SUPERIORITY_OR_OTHER|||||||0.002||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.002
82453412|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|-0.6|||||TWO_SIDED|95.0|-3.9|2.4||||||Serotype 19F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-3.9|
82453413|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.4||||||Serotype 23F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI.||2.4|-2.4|
82453414|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.9|3.0||||||Serotype 1: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.0|-2.9|
82453415|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.9|3.0||||||Serotype 3: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.0|-2.9|
82453416|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 5: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
82453417|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 6A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
82453418|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 7F: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
82538443|NCT00635817|164776732|SUPERIORITY_OR_OTHER|||||||0.347||||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.347
82538444|NCT00635817|164776732|SUPERIORITY_OR_OTHER|||||||0.15||95.0||||There were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Summary statistics were calculated and tests of significance of the ratio versus 1 were performed. All analyses and summaries were conducted separately for the 2 treatment groups (subjects who received leuprolide acetate depot 11.25 mg and 30 mg).||||0.150
82538445|NCT03720990|164776766|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
82538446|NCT05298111|164776767|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82453419|NCT01200368|164612588|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower confidence interval for the percent difference was \>-0.10.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.7|3.6||||||Serotype 19A: Difference (\[13vPnC + DTaP\] - \[7vPnC + DTaP\]) in proportions, expressed as a percentage presented along with exact 2-sided 95% CI. Difference in proportions was calculated using the serotype with the lowest proportion among the 7 common serotypes in the 7vPnC + DTaP group as reference.||3.6|-1.7|
82453420|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.94|||||TWO_SIDED|95.0|0.77|1.15||||||Serotype 4: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.15|0.77|
82538447|NCT05298111|164776768|SUPERIORITY||||||<|0.001|||||||Paired t-test|||||||< 0.001
82538448|NCT05298111|164776769|SUPERIORITY||||||<|0.001|||||||Sign test|||||||< 0.001
82538449|NCT05298111|164776770|SUPERIORITY|||||||0.001|||||||Sign test|||||||0.001
82538450|NCT05298111|164776771|SUPERIORITY|||||||0.894|||||||Paired t-test|||||||0.894
82538451|NCT05298111|164776772|SUPERIORITY|||||||0.629|||||||Paired t-test|||||||0.629
82648948|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.25|||||TWO_SIDED|95.0|-40.94|103.44||||||For change in cognitive functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||103.44|-40.94|
82538452|NCT05298111|164776773|SUPERIORITY|||||||0.653|||||||Paired t-test|||||||0.653
82538453|NCT05298111|164776774|SUPERIORITY|||||||0.624|||||||Paired t-test|||||||0.624
82538454|NCT05298111|164776775|SUPERIORITY|||||||0.414|||||||Paired t-test|||||||0.414
82538455|NCT05298111|164776776|SUPERIORITY|||||||0.105|||||||Paired t-test|||||||0.105
82538456|NCT01280591|164776783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.3|STANDARD_ERROR_OF_MEAN|13.17||0.0002|TWO_SIDED|95.0|-106.8|-33.7|||ANCOVA|||||-33.7|-106.8|0.0002
82538457|NCT01280591|164776784|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82538458|NCT01280591|164776785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|70.4|STANDARD_ERROR_OF_MEAN|12.85||0.0001|TWO_SIDED|95.0|28.1|112.7|||ANCOVA|||||112.7|28.1|0.0001
82538459|NCT01280591|164776786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|2.14||0.0007|TWO_SIDED|95.0|3.7|19.7|||ANCOVA|||||19.7|3.7|0.0007
82538460|NCT01280591|164776787|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82538461|NCT01280591|164776788|SUPERIORITY_OR_OTHER|||||||0.0027|||||||Cochran-Mantel-Haenszel|||||||0.0027
82538462|NCT01280591|164776789|SUPERIORITY_OR_OTHER|||||||0.0321|||||||Cochran-Mantel-Haenszel|||||||0.0321
82538463|NCT01280591|164776790|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Cochran-Mantel-Haenszel|||||||0.0019
82577437|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.062||0.7136|TWO_SIDED|95.0|-0.1|0.14|||MMRM|||Insight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.14|-0.10|0.7136
82577438|NCT02942004|164864076|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.059||0.8163|TWO_SIDED|95.0|-0.1|0.13|||MMRM|||Insight, Change at Day 21: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-0.10|0.8163
82577439|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.055||0.2825|TWO_SIDED|95.0|-0.17|0.05|||MMRM|||Insight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.05|-0.17|0.2825
82577440|NCT02942004|164864076|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.054||0.1603|TWO_SIDED|95.0|-0.18|0.03|||MMRM|||Insight, Change at Day 30: MMRM was used for analysis. The change from baseline in HAM-D individual item at each visit was the dependent variable. Treatment, baseline HAM-D individual item score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms were explanatory variables included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.03|-0.18|0.1603
82538464|NCT01280591|164776791|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82538465|NCT01280591|164776792|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82538466|NCT01280591|164776793|SUPERIORITY_OR_OTHER|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
82577441|NCT02942004|164864077|SUPERIORITY||LS mean difference|-6.85|STANDARD_ERROR_OF_MEAN|2.414||0.0054|TWO_SIDED|95.0|-11.64|-2.07|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-2.07|-11.64|0.0054
82577442|NCT02942004|164864077|SUPERIORITY||LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|2.35||0.0763|TWO_SIDED|95.0|-8.86|0.45|||MMRM|||Change at Hour 60: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.45|-8.86|0.0763
82577443|NCT02942004|164864077|SUPERIORITY||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|2.673||0.1101|TWO_SIDED|95.0|-9.6|0.99|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.99|-9.60|0.1101
82538467|NCT01280591|164776794|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82538468|NCT01280591|164776795|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82577444|NCT02942004|164864077|SUPERIORITY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|2.618||0.6167|TWO_SIDED|95.0|-6.5|3.87|||MMRM|||Change at Day 7: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.87|-6.50|0.6167
82577445|NCT02942004|164864077|SUPERIORITY||LS mean difference|-5.64|STANDARD_ERROR_OF_MEAN|2.777||0.0447|TWO_SIDED|95.0|-11.14|-0.14|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||-0.14|-11.14|0.0447
82538469|NCT01280591|164776796|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Cochran-Mantel-Haenszel|||||||0.0016
82538470|NCT01280591|164776797|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82538471|NCT01280591|164776798|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82538472|NCT01280591|164776799|SUPERIORITY_OR_OTHER|||||||0.0064|||||||ANCOVA|||||||0.0064
82538473|NCT01280591|164776800|SUPERIORITY_OR_OTHER|||||||0.0047|||||||Cochran-Mantel-Haenszel|||||||0.0047
82538474|NCT01280591|164776801|SUPERIORITY_OR_OTHER|||||||0.0053|||||||Log Rank|||||||0.0053
82538475|NCT01280591|164776803|SUPERIORITY_OR_OTHER|||||||0.2734|||||||Cochran-Mantel-Haenszel|||||||0.2734
82538476|NCT02263508|164776805|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.13|TWO_SIDED|95.0|0.71|1.04|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.04|0.71|0.13
82538477|NCT02263508|164776806|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.77|1.21|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.21|0.77|0.77
82538478|NCT02263508|164776814|OTHER||Odds Ratio (OR)|1.88||||0.012|TWO_SIDED|95.0|1.15|3.07|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||3.07|1.15|0.012
82538479|NCT02263508|164776815|OTHER||Hazard Ratio (HR)|1.05||||0.14|TWO_SIDED|95.0|0.82|1.34|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.34|0.82|0.14
82538480|NCT02263508|164776816|OTHER||Hazard Ratio (HR)|0.88||||0.47|TWO_SIDED|95.0|0.63|1.24|||Stratified log-rank test|Stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|Cox proportional hazards model stratified by randomization factors (disease stage, prior BRAF inhibitor therapy) and baseline PD-L1 status.|||1.24|0.63|0.47
82538481|NCT02263508|164776817|OTHER||Odds Ratio (OR)|1.32||||0.081|TWO_SIDED|95.0|0.97|1.79|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.79|0.97|0.081
82538482|NCT02263508|164776819|OTHER||Odds Ratio (OR)|1.39||||0.039|TWO_SIDED|95.0|1.02|1.9|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.90|1.02|0.039
82538483|NCT02263508|164776821|OTHER||Odds Ratio (OR)|1.28||||0.11|TWO_SIDED|95.0|0.94|1.75|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.75|0.94|0.11
82538484|NCT02263508|164776822|OTHER||Odds Ratio (OR)|1.44||||0.02|TWO_SIDED|95.0|1.06|1.96|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.96|1.06|0.020
82648949|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.08|||||TWO_SIDED|95.0|-91.02|145.18||||||For change in social functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||145.18|-91.02|
82538485|NCT02263508|164776824|OTHER||Odds Ratio (OR)|1.59||||0.004|TWO_SIDED|95.0|1.16|2.17|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||2.17|1.16|0.004
82538486|NCT02263508|164776826|OTHER||Odds Ratio (OR)|1.35||||0.058|TWO_SIDED|95.0|0.99|1.85|||Regression, Logistic|Logistic regression stratified by randomization stratification factors (disease stage and prior BRAF inhibitor therapy) and the baseline PD-L1 status.|Adjusted odds ratio estimated using logistic regression with randomization stratification factors and baseline PD-L1 status.|||1.85|0.99|0.058
82538487|NCT02263508|164776827|OTHER||Difference|0.19|STANDARD_ERROR_OF_MEAN|0.95||0.84|TWO_SIDED|95.0|-1.67|2.05|||Mixed Model for Repeated Measures|||Mixed Model for Repeated Measures include the fixed and categorical effects of treatment, visit and treatment-by-visit interaction, the fixed and continuous covariates of baseline HRQL score, randomization stratification factors (stage of disease and prior BRAF inhibitor therapy per IVRS) and baseline PD-L1 status (positive and not positive). Random subject effect was modeled using within subject-error correlation structure.||2.05|-1.67|0.84
82538488|NCT03265210|164776834|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.39|TWO_SIDED|95.0|-4.95|1.95|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Baseline||1.95|-4.95|0.39
82538489|NCT03265210|164776834|SUPERIORITY||Mean Difference (Final Values)|-3.79||||0.03|TWO_SIDED|95.0|-7.19|-0.39|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|6 weeks||-0.39|-7.19|0.03
82538490|NCT03265210|164776834|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.42|TWO_SIDED|95.0|-5.38|2.26|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|9 weeks||2.26|-5.38|0.42
82538491|NCT03265210|164776834|SUPERIORITY||Mean Difference (Final Values)|-3.37||||0.07|TWO_SIDED|95.0|-7.02|0.28|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|12 weeks||0.28|-7.02|0.07
82538492|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.17|TWO_SIDED|95.0|-1.81|0.33|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, Baseline||0.33|-1.81|0.17
82538493|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.25|TWO_SIDED|95.0|-1.68|0.44|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 6 weeks||0.44|-1.68|0.25
82577446|NCT02942004|164864077|SUPERIORITY||LS mean difference|-3.59|STANDARD_ERROR_OF_MEAN|2.726||0.1908|TWO_SIDED|95.0|-8.99|1.81|||MMRM|||Change at Day 30: MMRM was used for analysis. The change from baseline in MADRS total score at each visit was the dependent variable. Treatment, baseline MADRS total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.81|-8.99|0.1908
82538494|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-1.06||||0.09|TWO_SIDED|95.0|-2.29|0.17|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 9 weeks||0.17|-2.29|0.09
82538495|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.05|TWO_SIDED|95.0|-2.19|0.01|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1, 12 weeks||0.01|-2.19|0.05
82538496|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-3.19||||0.02|TWO_SIDED|95.0|-5.9|-0.48|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, Baseline||-0.48|-5.90|0.02
82538497|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.003|TWO_SIDED|95.0|-7.06|-1.54|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 6 weeks||-1.54|-7.06|0.003
82648950|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.28|||||TWO_SIDED|95.0|-99.46|68.9||||||For change in fatigue at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||68.90|-99.46|
82648951|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|||||TWO_SIDED|95.0|-69.69|19.69||||||For change in nausea and vomiting at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||19.69|-69.69|
82648952|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-77.4|77.4||||||For change in pain at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||77.40|-77.40|
82648953|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.29|||||TWO_SIDED|95.0|-82.89|54.32||||||For change in dyspnea at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||54.32|-82.89|
82648954|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-87.02|78.69||||||For change in insomnia at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||78.69|-87.02|
82538498|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-5.95||||0.0001|TWO_SIDED|95.0|-8.85|-3.05|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 9 weeks||-3.05|-8.85|0.0001
82538499|NCT03265210|164776835|SUPERIORITY||Mean Difference (Final Values)|-4.35||||0.007|TWO_SIDED|95.0|-7.46|-1.24|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2, 12 weeks||-1.24|-7.46|0.007
82538500|NCT03265210|164776836|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.0003|TWO_SIDED|95.0|0.53|1.69|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 1||1.69|0.53|0.0003
82538501|NCT03265210|164776836|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.001|TWO_SIDED|95.0|0.21|0.83|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 2||0.83|0.21|0.001
82538502|NCT03265210|164776836|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.002|TWO_SIDED|95.0|0.36|1.56|||t-test, 2 sided||Mean value in Relief Arm minus Mean value in Referral Arm.|Domain 3||1.56|0.36|0.002
82538503|NCT01803646|164776889|SUPERIORITY||Mean Difference (Net)|-0.17||||0.32|TWO_SIDED|95.0|-0.51|0.17|||Mixed Models Analysis|||||0.17|-0.51|0.32
82538504|NCT01803646|164776890|SUPERIORITY||Mean Difference (Net)|-0.79||||0.63|TWO_SIDED|95.0|-4.0|2.4|||Mixed Models Analysis|||||2.4|-4|0.63
82538505|NCT01803646|164776891|SUPERIORITY|||||||0.821|||||||Fisher Exact|||Analysis for air conduction||||0.821
82538506|NCT01803646|164776891|SUPERIORITY|||||||1|||||||Fisher Exact|||Analysis for bone conduction||||1.0
82538507|NCT00420316|164776909|SUPERIORITY_OR_OTHER||Percent reduction|34.3||||0.691|TWO_SIDED|95.0|-348.7|88.9|||Fisher Exact|||Vaccine efficacy with respect to any rotavirus gastroenteritis (RV GE) caused by the circulating wild-type rotavirus strain. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||88.9|-348.7|0.691
82648955|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|||||TWO_SIDED|95.0|-184.57|134.57||||||For change in appetite loss at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||134.57|-184.57|
82648956|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33|||||TWO_SIDED|95.0|-105.73|89.06||||||For change in constipation at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||89.06|-105.73|
82648957|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.17|||||TWO_SIDED|95.0|-29.72|188.06||||||For change in diarrhea at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||188.06|-29.72|
82648958|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-57.74|49.41||||||For change in financial difficulties at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||49.41|-57.74|
82648959|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-39.62|72.95||||||For change in global QoL at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||72.95|-39.62|
82648960|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.62|||||TWO_SIDED|95.0|-6.42|61.66||||||For change in physical functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||61.66|-6.42|
82648961|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.19|||||TWO_SIDED|95.0|-29.28|81.66||||||For change in role functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||81.66|-29.28|
82648962|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57|||||TWO_SIDED|95.0|-63.74|56.6||||||For change in emotional functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||56.6|-63.74|
82538508|NCT00420316|164776910|SUPERIORITY_OR_OTHER||Percent reduction|50.7||||0.551|TWO_SIDED|95.0|-3769.6|99.4|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the circulating wild-type rotavirus strain was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who have received placebo.||99.4|-3769.6|0.551
82538509|NCT00420316|164776912|SUPERIORITY_OR_OTHER||Percent reduction|100.0||||0.33|TWO_SIDED|95.0|-1822.5|100.0|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of serotype G1. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||100|-1822.5|0.33
82538510|NCT00420316|164776913|SUPERIORITY_OR_OTHER||Percent reduction|-97.2||||1|TWO_SIDED|95.0|-9610.8|80.5|||Fisher Exact|||Vaccine efficacy with respect to any rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of non-G1 serotype. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||80.5|-9610.8|1
82538511|NCT00420316|164776914|SUPERIORITY_OR_OTHER||Percent reduction|0.0||||1|TWO_SIDED|95.0|0.0|98.7|||Fisher Exact|||Vaccine efficacy with respect to severe rotavirus gastroenteritis (RVGE) caused by the wild-type rotavirus strain of non-G1 serotype was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||98.7|0|1
82433687|NCT03086408|164577565|OTHER||Mean Difference (Final Values)|-0.07||||0.78|TWO_SIDED|95.0|-0.61|0.47|||t-test, 2 sided|||||0.47|-0.61|0.78
82433688|NCT03086408|164577566|OTHER||Mean Difference (Final Values)|-0.4||||0.3|TWO_SIDED|95.0|-1.3|0.5|||t-test, 2 sided|||||0.50|-1.30|0.30
82433689|NCT03086408|164577567|OTHER||Mean Difference (Final Values)|0.1||||0.98|TWO_SIDED|95.0|-8.62|8.82|||t-test, 2 sided|||||8.82|-8.62|0.98
82433690|NCT03086408|164577568|OTHER||Mean Difference (Final Values)|0.6||||0.61|TWO_SIDED|95.0|-1.64|2.84|||t-test, 2 sided|||||2.84|-1.64|0.61
82433691|NCT03086408|164577569|OTHER||Mean Difference (Final Values)|13.7||||0.04|TWO_SIDED|95.0|0.63|26.77|||t-test, 2 sided|||||26.77|0.63|0.04
82433692|NCT03086408|164577570|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-2.8|2.8|||t-test, 2 sided|||||2.80|-2.80|1
82433693|NCT03086408|164577571|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-2.38|1.98|||t-test, 2 sided|||||1.98|-2.38|0.82
82433694|NCT03086408|164577572|OTHER||Mean Difference (Final Values)|-1.5||||0.37|TWO_SIDED|95.0|-5.29|2.29|||t-test, 2 sided|||||2.29|-5.29|0.37
82433695|NCT00104416|164577600|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|31.6|||<|0.0001||95.0|15.8|48.1|||Cochran-Mantel-Haenszel|||||48.1|15.8|<0.0001
82433696|NCT00758069|164577624|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-25.9|||<|0.001||95.0|-34.2|-17.5||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-17.5|-34.2|<0.001
82433697|NCT00758069|164577624|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-19.5|||<|0.001||95.0|-28.0|-11.1||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-11.1|-28.0|<0.001
82433698|NCT00758069|164577625|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-19.3|||<|0.001||95.0|-26.6|-11.9||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-11.9|-26.6|<0.001
82453421|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.23|||||TWO_SIDED|95.0|0.98|1.53||||||Serotype 6B: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.53|0.98|
82538512|NCT00420316|164776915|SUPERIORITY_OR_OTHER||Percent reduction|-23.2||||0.817|TWO_SIDED|95.0|-287.7|54.8|||Fisher Exact|||Vaccine efficacy with respect to severe gastroenteritis (GE) was assessed. Vaccine efficacy (VE) was defined as the percent reduction in the frequency of the relevant outcome variable in vaccinated subjects compared with those subjects who received placebo.||54.8|-287.7|0.817
82433699|NCT00758069|164577625|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-12.9|||<|0.001||95.0|-20.4|-5.4||No multiplicity adjustment among the pairwise comparisons of sitagliptin against placebo|ANCOVA|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used for pairwise comparison|ANCOVA model with terms of treatment as a factor and baseline value as a covariate was used to estimate difference of two groups and its 95% confidence interval|||-5.4|-20.4|<0.001
82433700|NCT02277691|164577631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough SBP at Week 12 (LOCF).||||<0.0001
82433701|NCT02277691|164577631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough SBP at Week 52 (LOCF).||||<0.0001
82433702|NCT02277691|164577631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough sitting DBP at Week 12 (LOCF).||||<0.0001
82433703|NCT02277691|164577631|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in office trough sitting DBP at Week 52 (LOCF).||||<0.0001
82433704|NCT02277691|164577632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home SBP, morning at End of Week 12.||||<0.0001
82433705|NCT02277691|164577632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home SBP, morning at EOT (Up to Week 52).||||<0.0001
82453422|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.81|||||TWO_SIDED|95.0|0.67|0.98||||||Serotype 9V: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||0.98|0.67|
82538513|NCT02281318|164776918|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|||<|0.001|TWO_SIDED|95.0|-10.5|-4.9|||Mixed model repeated measures analysis|||||-4.9|-10.5|<0.001
82433706|NCT02277691|164577632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home DBP, morning at End of Week 12.||||<0.0001
82433707|NCT02277691|164577632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||P-value has been estimated for change from baseline in home DBP, morning at EOT (Up to Week 52).||||<0.0001
82433708|NCT04343534|164577633|OTHER||Mean Difference (Final Values)|0.15||||0.092|TWO_SIDED|95.0|-0.02|0.33|||t-test, 2 sided|||"SDM Process score distributions were compared to determine of the scores spanned the range of possible values, were normally distributed, had low rates of missing data, and whether there was indications of floor or ceiling effects.~we conducted independent t-tests to determine if there were differences in SDM Process scores between the two versions."||0.33|-0.02|0.092
82433709|NCT01147250|164577642|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of lixisenatide versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio was \<1.3.|Hazard Ratio (HR)|1.017|||||TWO_SIDED|95.0|0.886|1.168|||||Lixisenatide vs Placebo|Analysis was performed using Cox proportional hazards model with treatment groups, and region (North America, South and Central America, Western Europe, Eastern Europe, Africa/Near East, and Asia/Pacific) as covariates, and the associated two-sided 95% confidence interval (CI).||1.168|0.886|
82538514|NCT02281318|164776919|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|120.0||||0.001|TWO_SIDED|95.0|47.0|192.0|||Mixed model repeated measures analysis|||||192|47|0.001
82538515|NCT02281318|164776920|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23|||<|0.001|TWO_SIDED|95.0|1.55|3.22|||Regression, Logistic|||||3.22|1.55|<0.001
82648963|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.81|||||TWO_SIDED|95.0|-31.66|79.28||||||For change in cognitive functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||79.28|-31.66|
82648964|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||||TWO_SIDED|95.0|-53.82|110.96||||||For change in social functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.96|-53.82|
82648965|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.16|||||TWO_SIDED|95.0|-94.53|34.21||||||For change in fatigue at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||34.21|-94.53|
82433710|NCT01147250|164577642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.017||||0.8542|TWO_SIDED|95.0|0.886|1.168|||Log Rank||Lixisenatide vs Placebo|Analysis was performed using Cox proportional hazards model with treatment groups, and region (North America, South and Central America, Western Europe, Eastern Europe, Africa/Near East, and Asia/Pacific) as covariates, and the associated two-sided 95% CI. Superiority of lixisenatide versus placebo was to be claimed if the upper bound of the 2-sided 95% CI of the hazard ratio was \<1.0.||1.168|0.886|0.8542
82433711|NCT03985943|164577677|OTHER||Strata-adjusted percentage difference|11.5||||0.0003|TWO_SIDED|97.5|4.7|18.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||18.3|4.7|0.0003
82433712|NCT03985943|164577678|OTHER||Strata-adjusted percentage difference|14.3||||0.0002|TWO_SIDED|97.5|6.1|22.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.5|6.1|0.0002
82433713|NCT03985943|164577679|OTHER||Strata-adjusted percentage difference|14.9|||<|0.0001|TWO_SIDED|97.5|7.8|22.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.0|7.8|<0.0001
82433714|NCT03985943|164577680|OTHER||Strata-adjusted percentage difference|18.1|||<|0.0001|TWO_SIDED|97.5|9.6|26.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.6|9.6|<0.0001
82433715|NCT03985943|164577681|OTHER||Strata-adjusted percentage difference|24.9|||<|0.0001|TWO_SIDED|97.5|18.4|31.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||31.5|18.4|<0.0001
82433716|NCT03985943|164577681|OTHER||Strata-adjusted percentage difference|28.1|||<|0.0001|TWO_SIDED|97.5|22.0|34.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using multiple imputation (MI) with missing at random (MAR) assumption.||34.3|22.0|<0.0001
82538516|NCT02281318|164776921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||Mixed model repeated measures analysis|||||-0.22|-0.58|<0.001
82453423|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.95|||||TWO_SIDED|95.0|0.81|1.12||||||Serotype 14: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.12|0.81|
82538517|NCT01368406|164776922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.055|TWO_SIDED|95.0|-0.65|1.13|||t-test, 2 sided|t test for independent samples||||1.13|-0.65|0.055
82538518|NCT01368406|164776922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.055|TWO_SIDED|95.0|0.13|0.83|||t-test, 2 sided|||||0.83|0.13|0.055
82538519|NCT00906698|164776950|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|126.2|||||TWO_SIDED|90.0|69.549|229.012|||ANOVA|||||229.012|69.549|
82538520|NCT00906698|164776951|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|75.58|||||TWO_SIDED|90.0|65.037|87.837|||ANOVA|||||87.837|65.037|
82538521|NCT00906698|164776952|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|132.8|||||TWO_SIDED|90.0|72.305|243.917|||ANOVA|||||243.917|72.305|
82538522|NCT00906698|164776953|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|83.8|||||TWO_SIDED|90.0|61.156|114.823|||ANOVA|||||114.823|61.156|
82538523|NCT00906698|164776956|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|90.21|||||TWO_SIDED|90.0|76.071|106.978|||ANOVA|||||106.978|76.071|
82648966|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-83.26|49.93||||||For change in nausea and vomiting at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||49.93|-83.26|
82648967|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||||TWO_SIDED|95.0|-97.98|88.45||||||For change in pain at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||88.45|-97.98|
82453424|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.82|||||TWO_SIDED|95.0|0.67|1.01||||||Serotype 18C: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.01|0.67|
82453425|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.75|||||TWO_SIDED|95.0|1.39|2.21||||||Serotype 19F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||2.21|1.39|
82453426|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.86|||||TWO_SIDED|95.0|0.7|1.07||||||Serotype 23F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI.||1.07|0.70|
82538524|NCT00906698|164776957|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|76.75|||||TWO_SIDED|90.0|56.71|103.871|||ANOVA|||||103.871|56.710|
82648968|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-86.68|64.46||||||For change in dyspnea at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||64.46|-86.68|
82648969|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.76|||||TWO_SIDED|95.0|-55.41|64.93||||||For change in insomnia at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||64.93|-55.41|
82648970|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|||||TWO_SIDED|95.0|-129.86|110.82||||||For change in appetite loss at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.82|-129.86|
82648971|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.05|||||TWO_SIDED|95.0|-117.92|79.82||||||For change in constipation at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||79.82|-117.92|
82538525|NCT00906698|164776958|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|83.86|||||TWO_SIDED|95.0|66.369|105.966|||ANOVA|||||105.966|66.369|
82538526|NCT00906698|164776959|SUPERIORITY_OR_OTHER||Ratio of adjusted gMean|81.7|||||TWO_SIDED|90.0|60.47|110.369|||ANOVA|||||110.369|60.470|
82538527|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.11|||<|0.001|TWO_SIDED|95.0|1.02|1.21|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used.||Anti-HPV Type 6||1.21|1.02|<0.001
82538528|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|1.0|1.19|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 11||1.19|1.00|<0.001
82538529|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 16||1.30|1.10|<0.001
82538530|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.08|1.31|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 18||1.31|1.08|<0.001
82538531|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.24|||<|0.001|TWO_SIDED|95.0|1.13|1.37|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 31||1.37|1.13|<0.001
82648972|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.19|||||TWO_SIDED|95.0|-6.75|159.13||||||For change in diarrhea at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||159.13|-6.75|
82648973|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||||TWO_SIDED|95.0|-64.93|55.41||||||For change in financial difficulties at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||55.41|-64.93|
82648974|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.56|||||TWO_SIDED|95.0|-271.74|260.62||||||For change in global QoL at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||260.62|-271.74|
82648975|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.56|||||TWO_SIDED|95.0|-166.87|197.98||||||For change in physical functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||197.98|-166.87|
82648976|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-238.4|293.96||||||For change in role functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||293.96|-238.4|
82453427|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.62|||||TWO_SIDED|95.0|1.31|1.99||||||Serotype 1: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.99|1.31|
82648977|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-275.22|241.89||||||For change in emotional functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||241.89|-275.22|
82538532|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 33||1.30|1.10|<0.001
82648978|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-307.94|319.05||||||For change in cognitive functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||319.05|-307.94|
82433717|NCT03985943|164577682|OTHER||Strata-adjusted percentage difference|27.5|||<|0.0001|TWO_SIDED|97.5|19.4|35.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||35.7|19.4|<0.0001
82433718|NCT03985943|164577682|OTHER||Strata-adjusted percentage difference|32.1|||<|0.0001|TWO_SIDED|97.5|24.4|39.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using MI-MAR assumption.||39.8|24.4|<0.0001
82538533|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.27|||<|0.001|TWO_SIDED|95.0|1.14|1.41|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 45||1.41|1.14|<0.001
82433719|NCT03985943|164577683|OTHER||Strata-adjusted percentage difference|19.5|||<|0.0001|TWO_SIDED|97.5|13.7|25.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||25.2|13.7|<0.0001
82433720|NCT03985943|164577684|OTHER||Strata-adjusted percentage difference|20.3|||<|0.0001|TWO_SIDED|97.5|13.8|26.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.8|13.8|<0.0001
82433721|NCT03985943|164577685|OTHER||Strata-adjusted percentage difference|17.9|||<|0.0001|TWO_SIDED|97.5|11.3|24.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.5|11.3|<0.0001
82433722|NCT03985943|164577686|OTHER||Strata-adjusted percentage difference|19.7|||<|0.0001|TWO_SIDED|97.5|11.2|28.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||28.2|11.2|<0.0001
82433723|NCT03985943|164577687|OTHER||Strata-adjusted percentage difference|20.9|||<|0.0001|TWO_SIDED|97.5|15.8|26.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26|15.8|<0.0001
82433724|NCT03985943|164577688|OTHER||Strata-adjusted percentage difference|21.2|||<|0.0001|TWO_SIDED|97.5|14.8|27.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||27.6|14.8|<0.0001
82538534|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.05|1.26|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 52||1.26|1.05|<0.001
82577447|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0131|TWO_SIDED|95.0|1.3|11.7|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||11.7|1.3|0.0131
82433725|NCT03985943|164577689|OTHER||Strata-adjusted percentage difference|12.2|||<|0.0001|TWO_SIDED|97.5|8.2|16.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||16.3|8.2|<0.0001
82433726|NCT03985943|164577690|OTHER||Strata-adjusted percentage difference|9.7|||<|0.0001|TWO_SIDED|97.5|5.2|14.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||14.2|5.2|<0.0001
82648979|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-238.4|293.96||||||For change in social functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||293.96|-238.40|
82648980|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.81|||||TWO_SIDED|95.0|-215.01|244.64||||||For change in fatigue at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||244.64|-215.01|
82648981|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-302.38|324.6||||||For change in nausea and vomiting at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||324.60|-302.38|
82648982|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-305.85|383.63||||||For change in pain at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||383.63|-305.85|
82648983|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-355.85|333.63||||||For change in dyspnea at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||333.63|-355.85|
82433727|NCT03985943|164577691|OTHER||Strata-adjusted percentage difference|14.6|||<|0.0001|TWO_SIDED|97.5|10.6|18.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||18.7|10.6|<0.0001
82433728|NCT03985943|164577692|OTHER||Strata-adjusted percentage difference|16.9|||<|0.0001|TWO_SIDED|97.5|11.5|22.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.3|11.5|<0.0001
82538535|NCT01651949|164777006|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to GMT ratio (heterosexual males / females) required that the lower bound of the 95% confidence interval was \>0.67, to exclude a decrease of 1.5-fold or more|GMT Ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.14|1.36|||ANOVA|An analysis of variance model with a response of log individual titers and fixed effect for group was used||Anti-HPV Type 58||1.36|1.14|<0.001
82538536|NCT01651949|164777007|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-11.5|||<|0.001|TWO_SIDED|95.0|-15.0|-8.0|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Erythema||-8.0|-15.0|<0.001
82538537|NCT01651949|164777007|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-19.1|||<|0.001|TWO_SIDED|95.0|-22.5|-15.7|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Pain||-15.7|-22.5|<0.001
82648984|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.22|||||TWO_SIDED|95.0|-322.52|366.97||||||For change in insomnia at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||366.97|-322.52|
82648985|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-208.53|297.42||||||For change in appetite loss at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||297.42|-208.53|
82648986|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-165.61|165.61||||||For change in constipation at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||165.61|-165.61|
82538538|NCT01651949|164777007|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-17.3|||<|0.001|TWO_SIDED|95.0|-20.8|-13.7|||Miettinen & Nurminen||The incidence of AEs of injection-site erythema reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Injection-site Swelling||-13.7|-20.8|<0.001
82538539|NCT01651949|164777008|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.5||||0.091|TWO_SIDED|95.0|-3.4|0.2|||Miettinen & Nurminen||The incidence of maximum body temperature \>=37.8° C reported on the Vaccination Report Card was compared between heterosexual / MSM male participants and female participants|Elevated Body Temperature||0.2|-3.4|0.091
82577448|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0095|TWO_SIDED|95.0|1.4|11.6|||GEE method|||Hour 60: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||11.6|1.4|0.0095
82648987|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.78|||||TWO_SIDED|95.0|-17.84|173.39||||||For change in diarrhea at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||173.39|-17.84|
82648988|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-106.73|84.5||||||For change in financial difficulties at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||84.5|-106.73|
82648989|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.17|||||TWO_SIDED|95.0|-512.66|404.33||||||For change in global QoL at EoS, mean change difference was used to compare the two treatment groups.||404.33|-512.66|
82648990|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.0|||||TWO_SIDED|95.0|-143.36|3.36||||||For change in physical functioning at EoS, mean change difference was used to compare the two treatment groups.||3.36|-143.36|
82648991|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.33|||||TWO_SIDED|95.0|-400.13|333.46||||||For change in role functioning at EoS, mean change difference was used to compare the two treatment groups.||333.46|-400.13|
82648992|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.67|||||TWO_SIDED|95.0|-591.86|508.53||||||For change in emotional functioning at EoS, mean change difference was used to compare the two treatment groups.||508.53|-591.86|
82648993|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.67|||||TWO_SIDED|95.0|-66.67|-66.67||||||For change in cognitive functioning at EoS, mean change difference was used to compare the two treatment groups.||-66.67|-66.67|
82648994|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.33|||||TWO_SIDED|95.0|-450.13|283.46||||||For change in social functioning at EoS, mean change difference was used to compare the two treatment groups.||283.46|-450.13|
82433729|NCT03985943|164577693|OTHER||Strata-adjusted percentage difference|3.4||||0.0064|TWO_SIDED|97.5|1.1|5.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||5.8|1.1|0.0064
82433730|NCT03985943|164577694|OTHER||Strata-adjusted percentage difference|4.3||||0.0177|TWO_SIDED|97.5|0.9|7.7||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for preceding outcome measure was statistically significant at two-sided 2.5% significance level.||7.7|0.9|0.0177
82433731|NCT03583359|164577761|SUPERIORITY||Difference in Responder Rate|66.8|||<|0.0001|TWO_SIDED|95.0|53.7|75.2|||Fisher's exact test|The Fisher's exact test was utilized to test the superiority of treatment (Radiesse \[+\]) over control group.|Two-sided Newcombe confidence intervals (CIs) were calculated for difference in responder rate.|||75.2|53.7|<0.0001
82433732|NCT01659996|164577798|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% confidence interval (CI) of the difference between the two proportions was \< δ for serogroup A and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-0.11|||||TWO_SIDED|95.0|-3.11|2.93||||||Meningococcal serogroup A: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||2.93|-3.11|
82453428|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|0.29|||||TWO_SIDED|95.0|0.24|0.35||||||Serotype 3: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||0.35|0.24|
82453429|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.28|||||TWO_SIDED|95.0|1.07|1.54||||||Serotype 5: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.54|1.07|
82453430|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.76|||||TWO_SIDED|95.0|1.46|2.12||||||Serotype 6A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.12|1.46|
82453431|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.26|||||TWO_SIDED|95.0|1.04|1.52||||||Serotype 7F: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||1.52|1.04|
82453432|NCT01200368|164612589|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided, 95% CI for IgG GMC ratio was \>0.5.|GMC ratio|1.85|||||TWO_SIDED|95.0|1.54|2.24||||||Serotype 19A: Ratio of IgG GMCs (\[13vPnC + DTaP\]/\[7vPnC + DTaP\]) was calculated along with 2-sided 95% CI. GMC ratio was calculated using the serotype with the lowest GMC among the 7 common serotypes in the 7vPnC + DTaP group as reference.||2.24|1.54|
82453433|NCT01200368|164612590|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
82453434|NCT01200368|164612590|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
82453435|NCT01200368|164612590|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
82538540|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.7|0.9|||Miettinen & Nurminen|||Anti-HPV Type 6||0.9|-0.7|<0.001
82538541|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.8|||Miettinen & Nurminen|||Anti-HPV Type 11||0.8|-0.3|<0.001
82453436|NCT01200368|164612590|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-2.4|2.3||||||Difference in percentage of participants achieving predefined antibody levels for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||2.3|-2.4|
82453437|NCT01200368|164612591|SUPERIORITY_OR_OTHER||GMC ratio|1.1|||||TWO_SIDED|95.0|0.97|1.24||||||GMC ratio for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.24|0.97|
82538542|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.7|||Miettinen & Nurminen|||Anti-HPV Type 16||0.7|-0.3|<0.001
82648995|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.67|||||TWO_SIDED|95.0|-177.86|311.2||||||For change in fatigue at EoS, mean change difference was used to compare the two treatment groups.||311.2|-177.86|
82453438|NCT01200368|164612591|SUPERIORITY_OR_OTHER||GMC ratio|0.9|||||TWO_SIDED|95.0|0.77|1.06||||||GMC ratio for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||1.06|0.77|
82453439|NCT01200368|164612592|SUPERIORITY_OR_OTHER||GMC ratio|0.98|||||TWO_SIDED|95.0|0.87|1.1||||||GMC ratio for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.10|0.87|
82453440|NCT01200368|164612592|SUPERIORITY_OR_OTHER||GMC ratio|0.92|||||TWO_SIDED|95.0|0.81|1.05||||||GMC ratio for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||1.05|0.81|
82453441|NCT01200368|164612593|SUPERIORITY_OR_OTHER||GMC ratio|1.01|||||TWO_SIDED|95.0|0.88|1.15||||||GMC ratio for diphtheria toxoid and corresponding 2-sided 95% CI were calculated.||1.15|0.88|
82453442|NCT01200368|164612593|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.85|1.19||||||GMC ratio for tetanus toxoid and corresponding 2-sided 95% CI were calculated.||1.19|0.85|
82453443|NCT01200368|164612594|SUPERIORITY_OR_OTHER||GMC ratio|0.96|||||TWO_SIDED|95.0|0.84|1.11||||||GMC ratio for pertussis toxoid and corresponding 2-sided 95% CI were calculated.||1.11|0.84|
82453444|NCT01200368|164612594|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.7|0.91||||||GMC ratio for filamentous hemagglutinin and corresponding 2-sided 95% CI were calculated.||0.91|0.70|
82453445|NCT02859246|164612614|SUPERIORITY||||||<|0.04||||||A two tail P value of less than 0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||||||<0.04
82453446|NCT02859246|164612615|SUPERIORITY||||||<|0.2||||||A two tail P value of less than 0.05 was considered statistically significant.|Wilcoxon (Mann-Whitney)|||||||< 0.2
82453447|NCT05280717|164612616|OTHER||Ratio of geometric least square mean|0.9821|||||TWO_SIDED|90.0|0.8825|1.093|||||The ratio estimate and 90% confidence interval were obtained from an Analysis of covariance (ANCOVA) model, with AUC(D1- 29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.0930|0.8825|
82453448|NCT05280717|164612617|OTHER||Ratio of geometric least square mean|1.1258|||||TWO_SIDED|90.0|1.0108|1.2539|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.2539|1.0108|
82453449|NCT05280717|164612620|OTHER||Ratio of geometric least square mean|1.876|||||TWO_SIDED|90.0|1.6391|2.1472|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUC(D1-29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||2.1472|1.6391|
82453450|NCT05280717|164612620|OTHER||Ratio of geometric least square mean|1.5991|||||TWO_SIDED|90.0|1.4086|1.8153|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUC(D1-29) as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.8153|1.4086|
82453451|NCT05280717|164612621|OTHER||Ratio of geometric least square mean|2.0798|||||TWO_SIDED|90.0|1.8223|2.3737|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||2.3737|1.8223|
82453452|NCT05280717|164612621|OTHER||Ratio of geometric least square mean|1.6955|||||TWO_SIDED|90.0|1.4913|1.9276|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with Cmax as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.9276|1.4913|
82453453|NCT05280717|164612626|OTHER||Ratio of geometric least square mean|0.9476|||||TWO_SIDED|90.0|0.8578|1.0469|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.0469|0.8578|
82453454|NCT05280717|164612626|OTHER||Ratio of geometric least square mean|1.5482|||||TWO_SIDED|90.0|1.377|1.7407|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.7407|1.3770|
82453455|NCT05280717|164612626|OTHER||Ratio of geometric least square mean|1.4167|||||TWO_SIDED|90.0|1.2627|1.5894|||||The ratio estimate and 90% confidence interval were obtained from an ANCOVA model, with AUCinf as the dependent variable, and sex, baseline body mass index and treatment as covariates.|||1.5894|1.2627|
82453456|NCT00080301|164612634|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.0003||95.17|0.64|0.88||Test was stratified by 1) presence of visceral metastases in liver or lung, 2) minimum of either doxorubicin 420 mg/m2 or epirubicin 360 mg/m2, and relapse \> 6 months in adjuvant setting, and 3) prior chemotherapy for metastatic disease. (yes/no)|Log Rank|95.17% confidence interval is adjusted for the interim analysis.||Study required 615 events to achieve 90% power to detect a hazard ratio of 0.77 using a 2-sided α = 0.05 log-rank test. The analysis was a comparison between the 2 treatment arms using a 2-sided α=0.0483 log-rank test (adjusted for an interim analysis using the O'Brien Fleming spending function) to reject the null hypothesis of equality of progression free survival. The analysis was conducted when 639 events (310 in combination:329 in capecitabine) were observed from the 752 randomized patients.||0.88|0.64|.0003
82453457|NCT00080301|164612635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.15|||<|0.0001||95.0|2.2|4.5|||Cochran-Mantel-Haenszel|||The study had 95 percent power to detect a significant difference in ORR if the true response rate was 32 percent in the combination arm and 20 percent in the capecitabine arm.||4.50|2.20|<.0001
82453458|NCT00080301|164612638|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.1936||95.17|0.77|1.05||Test was stratified by presence of visceral metastases in liver or lung (y/n), minimum of either doxorubicin 420 mg/m2 or epirubicin 360 mg/m2, and relapse \> 6 months in adjuvant setting (y/n), and prior chemotherapy for metastatic disease (y/n).|Log Rank|Test was conducted at the α=0.05 level and no adjustments were performed.|Confidence Interval adjusted for interim analysis.|Study required 631 deaths to achieve 80% power to detect a Hazard ratio of 0.8 using a 2-sided α = 0.05 log rank test. The analysis was a comparison between the 2 treatment arms using a 2-sided α=0.05 log-rank test to reject the null hypothesis of equality of survival. The analysis was conducted when 639 deaths (318 in combination:321 in capecitabine) were observed from the 752 randomized patients.||1.05|0.77|0.1936
82453459|NCT00080301|164612640|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0|||||Wei-Lachin|||There was a statistically significant difference between groups in change from baseline FBSI score favoring capecitabine. A mean change from baseline of 2.5 was considered a clinically meaningful difference (minimally important difference or MID). On-treatment mean changes in the FBSI did not reach the MID in either group.||||.0002
82648996|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-333.46|400.13||||||For change in nausea and vomiting at EoS, mean change difference was used to compare the two treatment groups.||400.13|-333.46|
82648997|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-1258.79|1308.79||||||For change in pain at EoS, mean change difference was used to compare the two treatment groups.||1308.79|-1258.79|
82648998|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in dyspnea at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
82453460|NCT00413218|164612654|NON_INFERIORITY|The lower bound of the 95% CI for the adjusted treatment difference was compared to the protocol prespecified noninferiority margin (NIM) value of -15%. If the lower bound were greater than -15%, isavuconazole would be declared as noninferior to caspofungin.|Adjusted Treatment Difference (%)|-10.8|||||TWO_SIDED|95.0|-19.9|-1.8|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|The adjusted treatment difference (ISA-CAS) was calculated by a stratified Cochran-Mantel-Haenszel (CMH) method with the strata of geographical region and baseline neutropenic status.||-1.8|-19.9|
82453461|NCT00413218|164612655|OTHER||Adjusted Treatment Difference (%)|-2.7|||||TWO_SIDED|95.0|-12.2|6.8|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||6.8|-12.2|
82453462|NCT00413218|164612656|OTHER||Adjusted Treatment Difference %|-10.9|||||TWO_SIDED|95.0|-19.9|-1.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.9|-19.9|
82453463|NCT00413218|164612656|OTHER||Adjusted Treatment Difference %|-5.4|||||TWO_SIDED|95.0|-15.0|4.2|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||4.2|-15.00|
82453464|NCT00413218|164612657|OTHER||Adjusted Treatment Difference (%)|-8.2|||||TWO_SIDED|95.0|-15.4|-0.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOIV (Days 11-56).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-0.9|-15.4|
82453465|NCT00413218|164612657|OTHER||Adjusted Treatment Difference (%)|-8.6|||||TWO_SIDED|95.0|-15.8|-1.5|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.5|-15.8|
82453466|NCT00413218|164612657|OTHER||Adjusted Treatment Difference (%)|-0.4|||||TWO_SIDED|95.0|-9.1|8.3|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU1 (2 weeks after end of treatment). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||8.3|-9.1|
82453467|NCT00413218|164612657|OTHER||Adjusted Treatment Difference (%)|-5.8|||||TWO_SIDED|95.0|-15.3|3.6|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||3.6|-15.3|
82453468|NCT00413218|164612658|OTHER||Adjusted Treatment Difference (%)|-14.9|||||TWO_SIDED|95.0|-22.7|-7.0|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOIV (Days 11-56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-7.0|-22.7|
82453469|NCT00413218|164612658|OTHER||Adjusted Treatment Difference (%)|-15.9|||||TWO_SIDED|95.0|-23.5|-8.4|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-8.4|-23.5|
82453470|NCT00413218|164612658|OTHER||Adjusted Treatment Difference (%)|-0.7|||||TWO_SIDED|95.0|-8.1|9.6|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU1 (2 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||9.6|-8.1|
82453471|NCT00413218|164612658|OTHER||Adjusted Treatment Difference (%)|-5.2|||||TWO_SIDED|95.0|-14.7|4.3|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at FU2 (6 weeks after end of treatment).The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||4.3|-14.7|
82453472|NCT00413218|164612659|OTHER||Adjusted Treatment Difference (%)|-11.4|||||TWO_SIDED|95.0|-20.4|-2.5|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at Day 7. The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-2.5|-20.4|
82538543|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.4|0.8|||Miettinen & Nurminen|||Anti-HPV Type 18||0.8|-0.4|<0.001
82538544|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.0|||<|0.001|TWO_SIDED|95.0|-0.4|0.5|||Miettinen & Nurminen|||Anti-HPV Type 31||0.5|-0.4|<0.001
82648999|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-700.26|766.93||||||For change in insomnia at EoS, mean change difference was used to compare the two treatment groups.||766.93|-700.26|
82453473|NCT00413218|164612659|OTHER||Adjusted Treatment Difference (%)|-8.5|||||TWO_SIDED|95.0|-16.5|-0.4|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-0.4|-16.5|
82453474|NCT00413218|164612660|OTHER||Adjusted Treatment Difference (%)|-11.1|||||TWO_SIDED|95.0|-20.3|-1.9|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at Day 7. The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||-1.9|-20.3|
82453475|NCT00413218|164612660|OTHER||Adjusted Treatment Difference (%)|-8.1|||||TWO_SIDED|95.0|-16.3|0.1|||||The 95% CI for the adjusted treatment difference was calculated based on a normal approximation.|Statistical analysis of adjusted treatment difference (ISA-CAS) at EOT (Day 56). The adjusted treatment difference (ISA-CAS) was calculated by a stratified CMH method with the strata of geographical region and baseline neutropenic status.||0.1|-16.3|
82538545|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.7|||Miettinen & Nurminen|||Anti-HPV Type 33||0.7|-0.3|<0.001
82453476|NCT00413218|164612661|OTHER||Adjusted Treatment Difference (%)|2.5|||||TWO_SIDED|95.0|-3.8|8.9||||||Statistical analysis of all-cause mortality on Day 14. Adjusted treatment difference (Isavuconazole-Caspofungin) is calculated by a stratified CMH method with the strata of geographical regions, and baseline neutropenic status.||8.9|-3.8|
82649000|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.0|||||TWO_SIDED|95.0|-1050.39|1150.39||||||For change in appetite loss at EoS, mean change difference was used to compare the two treatment groups.||1150.39|-1050.39|
82453477|NCT00413218|164612661|OTHER||Adjusted Treatment Difference (%)|1.4|||||TWO_SIDED|95.0|-7.1|10.0||||||Statistical analysis of all-cause mortality on Day 56. Adjusted treatment difference (Isavuconazole-Caspofungin) is calculated by a stratified CMH method with the strata of geographical regions, and baseline neutropenic status.||10.0|-7.1|
82453478|NCT04034004|164612664|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Pain ratings were collected while lying in the supine and after each straight leg rasise test (SLR 1; SLR 2). A 2 (group) X 2 (SLR 1-rest vs. SLR 2-meditation) X 2 (supine vs. SLR) X 3 (session) repeated measure mixed model ANOVA was conducted to determine if mindfulness and non-mindfulness meditation attenuate SLR induced pain through endogenous opioids. Simple effects tests tested significant main effects and interactions to test primary study hypotheses and between-group differences.||||.05
82453479|NCT04317040|164612670|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|1.398||||0.0367|TWO_SIDED|95.0|1.02|1.918|||Log Rank||Cox-Regression Model|||1.918|1.020|0.0367
82453480|NCT04317040|164612672|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|-0.0555||||0.3281|TWO_SIDED|95.0|-0.1665|0.0555|||Chi-squared||Mantel-Haenszel method|||0.0555|-0.1665|0.3281
82538546|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.4|1.0|||Miettinen & Nurminen|||Anti-HPV Type 45||1.0|-0.4|<0.001
82453481|NCT04317040|164612673|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|0.558||||0.0306|TWO_SIDED|95.0|0.327|0.954|||Log Rank||Cox Regression Model|||0.954|0.327|0.0306
82453482|NCT04317040|164612674|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|0.027||||0.4491|TWO_SIDED|95.0|-0.043|0.097|||Chi-squared||Mantel-Haenszel method used to report all-cause mortality by Day 15|Day 15||0.0970|-0.0430|0.4491
82453483|NCT04317040|164612674|OTHER|Risk difference (RD) and the associated 95% CIs were calculated based on Mantel-Haenszel method and p-value was calculated based on Chi-squared test, in accordance with the statistical analysis plan.|Risk Difference (RD)|-0.0146||||0.7512|TWO_SIDED|95.0|-0.1049|0.0756|||Chi-squared||Mantel-Haenszel method used to report all-cause mortality by Day 29|Day 29||0.0756|-0.1049|0.7512
82453484|NCT04317040|164612677|OTHER|Hazard ratio (HR) and the associated 95% CIs were calculated based on Cox Regression model and p-value was calculated based on log-rank test, in accordance with the statistical analysis plan.|Hazard Ratio (HR)|1.416||||0.0311|TWO_SIDED|95.0|1.031|1.945|||Log Rank||Cox Regression model|||1.945|1.031|0.0311
82538547|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.2|0.9|||Miettinen & Nurminen|||Anti-HPV Type 52||0.9|-0.2|<0.001
82538548|NCT01651949|164777009|NON_INFERIORITY_OR_EQUIVALENCE|Criterion for non-inferiority with respect to seroconversion percentage (heterosexual males minus females) required that the lower bound of the 95% confidence interval was greater than -5|Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-0.2|0.9|||Miettinen & Nurminen|||Anti-HPV Type 58||0.9|-0.2|<0.001
82649001|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-1850.65|1817.32||||||For change in constipation at EoS, mean change difference was used to compare the two treatment groups.||1817.32|-1850.65|
82649002|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-700.26|766.93||||||For change in diarrhea at EoS, mean change difference was used to compare the two treatment groups.||766.93|-700.26|
82649003|NCT00219557|165013544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.67|||||TWO_SIDED|95.0|-383.46|350.13||||||For change in financial difficulties at EoS, mean change difference was used to compare the two treatment groups.||350.13|-383.46|
82649004|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||||TWO_SIDED|95.0|-10.11|15.29||||||For change in pancreatic pain at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||15.29|-10.11|
82453485|NCT00799903|164612694|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.199|TWO_SIDED|95.1|0.85|1.03||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.03|0.85|0.199
82453486|NCT00799903|164612695|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.045|TWO_SIDED|95.0|0.82|1.0||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.00|0.82|0.045
82453487|NCT00799903|164612696|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.019|TWO_SIDED|95.0|0.84|0.98||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||0.98|0.84|0.019
82453488|NCT00799903|164612697|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.594|TWO_SIDED|95.0|0.83|1.11||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.11|0.83|0.594
82453489|NCT00799903|164612698|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.108|TWO_SIDED|95.0|0.77|1.03||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.03|0.77|0.108
82453490|NCT00799903|164612699|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.92|TWO_SIDED|95.0|0.81|1.27||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.27|0.81|0.920
82453491|NCT00799903|164612700|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.397|TWO_SIDED|95.0|0.88|1.05||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.05|0.88|0.397
82453492|NCT00799903|164612701|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.87|TWO_SIDED|95.0|0.9|1.13||Hazard ratio and p-value are estimated using a Cox proportional hazard regression model with treatment as the only covariate. A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo.|Regression, Cox|||||1.13|0.90|0.870
82453493|NCT02518971|164612702|OTHER|||||||0.345|||||||Chi-squared|||||||0.345
82453494|NCT02518971|164612703|OTHER|||||||0.378|||||||Student T-Test|||||||.378
82453495|NCT02518971|164612704|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82538549|NCT02057718|164777014|OTHER|Null hypothesis (H0): mean change from baseline to Week 13 is zero. The null hypothesis was tested for each of the 2 PFIC subgroups and overall; the change in the overall population is presented here.|Mean Difference (Net)|-23.304|STANDARD_DEVIATION|160.9748|||TWO_SIDED|95.0|-82.35|35.742||||||This analysis shows the change from baseline to Week 13 in sBA levels for the overall Modified Intent-to-treat Population. Even though a comparison of PFIC1 vs PFIC2 (overall) is noted, the results are the change from baseline for all participants and is not comparative.||35.742|-82.35|
82538550|NCT00434018|164777023|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||ANOVA|||||||0.001
82538551|NCT00835380|164777032|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.0||||||95.0|89.0|99.0||||||||99|89|
82538552|NCT00816829|164777035|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.048
82538553|NCT00816829|164777036|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.203
82538554|NCT00816829|164777037|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between groups was performed using Wilcoxon Test on data at one month after the start of the treatment.||||0.007
82538555|NCT00816829|164777038|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.199
82453496|NCT02518971|164612705|OTHER|||||||0.497|||||||Fisher Exact|||||||.497
82453497|NCT02518971|164612706|OTHER|||||||0.207|||||||Student T-test|||||||.207
82490167|NCT02390908|164673173|SUPERIORITY||Beta|-0.32||||0.09|TWO_SIDED|95.0|-0.69|0.05||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3 (the Waitlist condition) and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of being in the Waitlist condition (i.e., not receiving the PLUS intervention at Site 3) on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||0.05|-0.69|0.09
82490168|NCT02390908|164673173|SUPERIORITY||Slope|-0.03||||0.79|TWO_SIDED|95.0|-0.24|0.18||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.18|-0.24|0.79
82538556|NCT00816829|164777039|SUPERIORITY_OR_OTHER|||||||0.114||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.114
82538557|NCT00816829|164777040|SUPERIORITY_OR_OTHER|||||||0.533||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.533
82538558|NCT00816829|164777041|SUPERIORITY_OR_OTHER|||||||0.521||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.521
82538559|NCT00816829|164777042|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.333
82538560|NCT00816829|164777043|SUPERIORITY_OR_OTHER|||||||0.264||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.264
82538561|NCT00816829|164777044|SUPERIORITY_OR_OTHER|||||||0.401||95.0|||||ANCOVA|||Comparison between groups was performed using an ANCOVA on log-transformed data at one month after the start of the treatment.||||0.401
82538562|NCT04548622|164777091|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82453498|NCT00757237|164612713|NON_INFERIORITY_OR_EQUIVALENCE|The treatment difference (TIS-AZLI) and standard error from the ANCOVA model were used to compute the two-sided 95% confidence interval. If the 95% upper boundary was less than the pre-specified non-inferiority margin of 4%, then the null hypothesis was rejected.|Mean Difference (Final Values)|-7.8||||0.0001|TWO_SIDED|95.0|-11.73|-3.86||Based on the Benjamini \& Hochberg method, non-inferiority at Day 28 for relative change in FEV1 percent predicted was assessed at the 0.05 level, given the significance of the coprimary endpoint (p\<0.05).|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, and previous inhaled tobramycin use for all participants.|Treatment difference refers to TIS-AZLI.|Null hypothesis: AZLI was inferior to TIS by more than 4% in the mean relative change of FEV1 percent predicted at Day 28. With 120 subjects per treatment group there was at least 85% power to declare noninferiority based on relative change from baseline at Day 28 in FEV1 percent predicted using the upper bound of a 2-tailed 95% CI for the difference in means with a noninferiority margin of 4, assuming a common standard deviation of 18% and true difference in means \[TIS-AZLI\] of -3.2%.||-3.86|-11.73|0.0001
82453499|NCT00757237|164612714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.0023||||||Based on the Benjamini \& Hochberg method, superiority at Weeks 4, 12, and 20 of actual change in FEV1 percent predicted was tested at the 0.05 level, given the significance of the coprimary endpoint (p\<0.05).|MMRM analysis|MMRM analysis included Day 0 FEV1 percent predicted, previous inhaled tobramycin use, treatment, visit, and treatment/visit interaction.|Treatment difference refers to TIS-AZLI.|"Null hypothesis: there was no difference between AZLI and TIS treatment groups in the mean actual change of FEV1 percent predicted across 3 treatment courses among all participants.~With 120 subjects per treatment group, there was at least 90% power at a 5% significance level to detect differences based upon actual change from baseline in FEV1 percent predicted (3.61%, 2.98%, 2.32%) between AZLI and TIS at Weeks 4, 12, and 20 with a common standard deviation of 9%."||||0.0023
82538563|NCT04548622|164777092|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82538564|NCT04548622|164777093|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82538565|NCT02908620|164777094|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|2.74||0.322|TWO_SIDED|95.0|-3.06|8.69|||ANOVA||Least squares mean (marginal mean)|||8.69|-3.06|0.322
82538566|NCT02908620|164777095|SUPERIORITY||Mean Difference (Final Values)|-8.7|STANDARD_ERROR_OF_MEAN|5.48||0.134|TWO_SIDED|95.0|-20.38|2.99|||ANOVA||Least squares mean (marginal mean)|||2.99|-20.38|0.134
82538567|NCT02908620|164777096|SUPERIORITY||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|4.92||0.442|TWO_SIDED|95.0|-6.48|14.62|||ANOVA||Least squares mean (marginal mean)|||14.62|-6.48|0.442
82538568|NCT02908620|164777097|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|4.78||0.172|TWO_SIDED|95.0|-3.27|16.9|||ANOVA||Least squares mean (marginal mean)|||16.90|-3.27|0.172
82538569|NCT05824351|164777148|EQUIVALENCE|Equivalence is defined as an average difference of \< or = 2|Mean of paired differences|-0.2571|STANDARD_DEVIATION|0.7|<|0.0001|TWO_SIDED||||||t-test, 1 sided|One-sided lower t-test||Draize scores for erythema/eschar and edema were summed for analysis (range of 0 to 8, where a higher score indicated greater irritation).||||<0.0001
82538570|NCT05824351|164777148|EQUIVALENCE|Equivalence is defined as an average difference of \< or = 2|Mean of paired differences|0.0294|STANDARD_DEVIATION|0.79||0.0003|TWO_SIDED||||||t-test, 1 sided|One-sided upper t-test||Draize scores for erythema/eschar and edema were summed for analysis (range of 0 to 8, where a higher score indicated greater irritation).||||0.0003
82538571|NCT01543685|164777177|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|441.8|STANDARD_ERROR_OF_MEAN|129.6|<|0.001|TWO_SIDED|95.0|187.1|696.5|||ANCOVA|||||696.5|187.1|<0.001
82538572|NCT01543685|164777177|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|260.2|STANDARD_ERROR_OF_MEAN|130.3||0.046|TWO_SIDED|95.0|4.1|516.3|||ANCOVA|||||516.3|4.1|0.046
82538573|NCT01543685|164777177|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|312.7|STANDARD_ERROR_OF_MEAN|130.4||0.017|TWO_SIDED|95.0|56.6|568.9|||ANCOVA|||||568.9|56.6|0.017
82538574|NCT01543685|164777177|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|211.6|STANDARD_ERROR_OF_MEAN|129.6||0.103|TWO_SIDED|95.0|-43.1|466.2|||ANCOVA|||||466.2|-43.1|0.103
82538575|NCT01543685|164777178|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|||||||0.013
82538576|NCT01543685|164777178|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
82538577|NCT01543685|164777178|SUPERIORITY_OR_OTHER|||||||0.211||95.0|||||t-test, 2 sided|||||||0.211
82538578|NCT01543685|164777178|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||t-test, 2 sided|||||||0.098
82538579|NCT01543685|164777179|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
82538580|NCT01543685|164777179|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82649005|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||||TWO_SIDED|95.0|-13.39|20.2||||||For change in eating related items at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.20|-13.39|
82538581|NCT01543685|164777179|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
82538582|NCT01543685|164777179|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||t-test, 2 sided|||||||0.028
82538583|NCT01543685|164777180|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82538584|NCT01543685|164777180|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82538585|NCT01543685|164777180|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82538586|NCT01543685|164777180|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
82538587|NCT01543685|164777181|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82538588|NCT01543685|164777181|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||||||0.022
82538589|NCT01543685|164777181|SUPERIORITY_OR_OTHER|||||||0.146||95.0|||||t-test, 2 sided|||||||0.146
82538590|NCT01543685|164777181|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|||||||0.071
82538591|NCT01543685|164777182|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82538592|NCT01543685|164777182|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
82538593|NCT01543685|164777182|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.010
82538594|NCT01543685|164777182|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
82538595|NCT01543685|164777183|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82538596|NCT01543685|164777183|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
82538597|NCT01543685|164777183|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
82538598|NCT01543685|164777183|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
82538599|NCT01543685|164777184|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82538600|NCT01543685|164777184|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.020
82538601|NCT01543685|164777184|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|||||||0.012
82538602|NCT01543685|164777184|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||t-test, 2 sided|||||||0.029
82538603|NCT01391013|164777185|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.08
82538604|NCT01391013|164777186|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.88
82649006|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.7|||||TWO_SIDED|95.0|5.96|33.43||||||For change in altered bowel habits at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||33.43|5.96|
82538605|NCT01391013|164777187|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.31
82538606|NCT01391013|164777188|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.37
82538607|NCT01391013|164777189|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.66
82538608|NCT01391013|164777190|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.02
82538609|NCT01391013|164777191|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.12
82538610|NCT01391013|164777192|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.71
82538611|NCT01391013|164777193|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.83
82538612|NCT01391013|164777194|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|This statistical analysis applies to 'Week 48'.||||||0.66
82538613|NCT01391013|164777195|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.76
82538614|NCT01391013|164777196|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.56
82538615|NCT01391013|164777197|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.11
82538616|NCT01391013|164777198|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.18
82538617|NCT01391013|164777199|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.03
82538618|NCT01391013|164777200|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Nonparametric Wilcoxon rank sum test|||||||0.04
82538619|NCT00708097|164777202|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.98||||0.5757|TWO_SIDED|95.0|-5.0|8.97||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.97|-5.00|0.5757
82538620|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.17||||0.5387|TWO_SIDED|95.0|-4.79|9.14||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.14|-4.79|0.5387
82538621|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.79||||0.4306|TWO_SIDED|95.0|-4.18|9.77||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.77|-4.18|0.4306
82538622|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-25.07|||<|0.0001|TWO_SIDED|95.0|-32.09|-18.06||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-18.06|-32.09|<0.0001
82538623|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19||||0.9567|TWO_SIDED|95.0|-6.71|7.09||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.09|-6.71|0.9567
82538624|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.81||||0.8188|TWO_SIDED|95.0|-6.14|7.76||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.76|-6.14|0.8188
82649007|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.7|||||TWO_SIDED|95.0|0.93|24.47||||||For change in jaundice at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||24.47|0.93|
82453500|NCT00757237|164612715|NON_INFERIORITY_OR_EQUIVALENCE|The treatment difference (TIS-AZLI) and standard error from the ANCOVA model were used to compute the two-sided 95% confidence interval. If the 95% upper boundary was less than the pre-specified non-inferiority margin of 4%, then the null hypothesis was rejected.|Mean Difference (Final Values)|-9.5|||<|0.0001|TWO_SIDED|95.0|-13.86|-5.14||Secondary endpoints were tested sequentially by the closed testing procedure initiated by the significance of the primary endpoints. Given the coprimary endpoints were met at the 0.05 level, this non-inferiority endpoint was tested at the 0.05 level.|ANCOVA|ANCOVA model included treatment and Day 0 FEV1 percent predicted.|Treatment difference refers to TIS-AZLI.|Null hypothesis: AZLI was inferior to TIS by more than 4% in terms of the participant means in relative change of FEV1 percent predicted at Day 28 among all participants having \>= 84 days of inhaled tobramycin use in the previous 12 months.||-5.14|-13.86|<0.0001
82453501|NCT00757237|164612716|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.0002||||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|MMRM analysis|MMRM analysis included treatment, Day 0 FEV1 percent predicted, visit, treatment, and treatment/visit interaction for all participants.|Treatment difference refers to TIS-AZLI|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the mean actual change of FEV1 percent predicted across 3 treatment courses in the stratum of subjects having \>=84 days of inhaled tobramycin use in the previous 12 months.||||0.0002
82453502|NCT00757237|164612717|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED|||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to need for IV antipseudomonal antibiotics for respiratory events.||||0.0025
82453503|NCT00757237|164612718|SUPERIORITY_OR_OTHER|||||||0.1114||||||Secondary endpoints were tested sequentially to control the Type I error rate based on the closed testing procedure. Given the significance of the coprimary endpoints and previous secondary endpoint, this endpoint was also tested at the 0.05 level.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to first respiratory hospitalization.||||0.1114
82453504|NCT00757237|164612719|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.61||||0.0048||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, Day 0 CFQ-R RSS score, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in change from baseline in CFQ-R RSS scores at Day 28.||||0.0048
82453505|NCT00757237|164612720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13||||0.0189||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, Day 0 CFQ-R RSS score, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the average actual change in respiratory symptoms at the end of each treatment course (Weeks 4, 12, and 20).||||0.0189
82453506|NCT00757237|164612721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.12||||0.0097||0.0||||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, Day 0 FEV1 percent predicted, and previous inhaled tobramycin use.|Treatment difference refers to TIS-AZLI.|Null hypothesis: there was no difference between AZLI and TIS treatment groups in the global satisfaction results of the TSQM at Week 20 (Day 140).||||0.0097
82453507|NCT00757237|164612722|SUPERIORITY_OR_OTHER|||||||0.044||||||No adjustments were made for multiple comparisons.|negative binomial regression method|||Null hypothesis: there was no difference between AZLI and TIS treatment groups in the total number of respiratory hospitalizations from Day 0 to Day 168 (end of study).||||0.044
82453508|NCT00757237|164612723|SUPERIORITY_OR_OTHER|||||||0.004||0.0||||No adjustments were made for multiple comparisons.|negative binomial regression method|||Null hypothesis: there was no difference between AZLI and TIS treatment groups in the total number of respiratory events requiring IV and/or inhaled antipseudomonal antibiotics (other than randomized treatment) from Day 0 to Day 168 (end of study).||||0.004
82538625|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.06|||<|0.0001|TWO_SIDED|95.0|-34.03|-20.08||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.08|-34.03|<0.0001
82453509|NCT00757237|164612724|SUPERIORITY_OR_OTHER|||||||0.0004||||||No adjustments were made for multiple comparisons.|Log Rank|||Null hypothesis: there was no difference between AZLI and TIS treatment groups with respect to time to need for inhaled and/or IV antipseudomonal antibiotics for respiratory events.||||0.0004
82453510|NCT05919888|164612784|SUPERIORITY|||||||0.275|||||||Chi-squared|||||||0.275
82649008|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1|||||TWO_SIDED|95.0|1.28|28.91||||||For change in body image at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||28.91|1.28|
82453511|NCT05919888|164612785|SUPERIORITY|||||||0.0056|||||||Chi-squared|||||||0.0056
82453512|NCT05919888|164612786|SUPERIORITY|||||||0.286|||||||Chi-squared|||||||0.286
82577449|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0323|TWO_SIDED|95.0|1.1|7.5|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||7.5|1.1|0.0323
82649009|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|||||TWO_SIDED|95.0|-14.59|23.3||||||For change in health care satisfaction at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||23.30|-14.59|
82453513|NCT01895946|164612831|SUPERIORITY_OR_OTHER||Least square mean difference (LSM)|1.02|||||TWO_SIDED|90.0|0.86|1.2|||Mixed Models Analysis|||||1.20|0.86|
82453514|NCT01895946|164612831|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.67|||||TWO_SIDED|90.0|0.55|0.82|||Mixed Models Analysis|||||0.82|0.55|
82453515|NCT01895946|164612832|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.9|||||TWO_SIDED|90.0|0.77|1.06|||Mixed Models Analysis|||||1.06|0.77|
82453516|NCT01895946|164612832|SUPERIORITY_OR_OTHER||Least square means difference (LSM)|0.89|||||TWO_SIDED|90.0|0.76|1.05|||Mixed Models Analysis|||||1.05|0.76|
82453517|NCT02915978|164612839|OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.89||0.0505|TWO_SIDED|95.0|-3.61|0.0|||ANCOVA|||NRS PID at 1 hour||0.00|-3.61|0.0505
82453518|NCT02915978|164612839|OTHER||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.9||0.2493|TWO_SIDED|95.0|-2.89|0.77|||ANCOVA|||NRS PID at 1 hour||0.77|-2.89|0.2493
82453519|NCT02915978|164612839|OTHER||LS Mean Difference|-2.94|STANDARD_ERROR_OF_MEAN|0.99||0.0052|TWO_SIDED|95.0|-4.95|-0.94|||ANCOVA|||NRS PID at 16 hours||-0.94|-4.95|0.0052
82453520|NCT02915978|164612839|OTHER||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.97||0.0926|TWO_SIDED|95.0|-3.62|0.29|||ANCOVA|||NRS PID at 16 hours||0.29|-3.62|0.0926
82453521|NCT02915978|164612839|OTHER||LS Means Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.82||0.0951|TWO_SIDED|95.0|-3.06|0.26|||ANCOVA|||NRS PID at 24 hours||0.26|-3.06|0.0951
82649010|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.19|||||TWO_SIDED|95.0|-37.53|-4.85||||||For change in sexual functioning at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||-4.85|-37.53|
82538626|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.62||||0.8599|TWO_SIDED|95.0|-6.28|7.51||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||7.51|-6.28|0.8599
82649011|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.82|||||TWO_SIDED|95.0|-25.04|9.4||||||For change in ascites at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||9.40|-25.04|
82649012|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.95|||||TWO_SIDED|95.0|-9.59|21.5||||||For change in indigestion at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||21.50|-9.59|
82649013|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.39|||||TWO_SIDED|95.0|-1.61|30.4||||||For change in flatulence at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||30.40|-1.61|
82453522|NCT02915978|164612839|OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.8||0.9866|TWO_SIDED|95.0|-1.6|1.63|||ANCOVA|||NRS PID at 24 hours||1.63|-1.60|0.9866
82649014|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|||||TWO_SIDED|95.0|2.78|22.22||||||For change in cachexia at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||22.22|2.78|
82649015|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.88|||||TWO_SIDED|95.0|1.36|20.39||||||For change in side effects at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||20.39|1.36|
82649016|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|||||TWO_SIDED|95.0|-16.36|11.71||||||For change in fear of future health at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||11.71|-16.36|
82453523|NCT00874848|164612859|SUPERIORITY_OR_OTHER|||||||0.2895|||||||Fisher Exact|||||||0.2895
82453524|NCT03089541|164612865|SUPERIORITY||Odds Ratio (OR)|0.17||||0.002|TWO_SIDED|95.0|0.06|0.52|||Regression, Logistic|||Comparison on Eating/Drinking using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||0.52|0.06|0.002
82453525|NCT03089541|164612865|SUPERIORITY||Odds Ratio (OR)|2.65||||0.07|TWO_SIDED|95.0|0.92|7.65|||Regression, Logistic|||Comparison on Traveling using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7)). The significance level was 0.05.||7.65|0.92|0.07
82453526|NCT03089541|164612865|SUPERIORITY||Odds Ratio (OR)|1.46||||0.4|TWO_SIDED|95.0|0.59|3.64|||Regression, Logistic|||Comparison on Working/Reading/Studying using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||3.64|0.59|0.40
82453527|NCT03089541|164612865|SUPERIORITY||Odds Ratio (OR)|1.34||||0.6|TWO_SIDED|95.0|0.51|3.53|||Regression, Logistic|||Comparison on Socializing using a model adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7). The significance level was 0.05.||3.53|0.51|0.60
82453528|NCT03089541|164612865|SUPERIORITY||Odds Ratio (OR)|1.8||||0.06|TWO_SIDED|95.0|0.96|3.38|||Regression, Logistic|||Model on Public Space adjusted for timing of the assessment (weekend, time of day (am vs. pm), and day of study (1 to 7)). The significance level was 0.05.||3.38|0.96|0.06
82453529|NCT02324816|164612867|OTHER||success proportion|73.7|||||TWO_SIDED|95.0|48.8|90.9||||||||90.9|48.8|
82453530|NCT05169424|164612868|OTHER|Comparison of Stiolto (reference group) versus Trelegy for incidence rate of exacerbation.|Hazard Ratio (HR)|1.133||||0.064|TWO_SIDED|95.0|0.993|1.293|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.293|0.993|0.064
82453531|NCT05169424|164612868|OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
82453532|NCT05169424|164612868|OTHER|||||||0.063|||||||Log Rank|||||||0.063
82453533|NCT05169424|164612869|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.169||||0.057|TWO_SIDED|95.0|0.996|1.372|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.372|0.996|0.057
82453534|NCT05169424|164612870|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.116||||0.114|TWO_SIDED|95.0|0.974|1.279|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||1.279|0.974|0.114
82453535|NCT05169424|164612871|OTHER|Comparison of Stiolto (reference group) versus Trelegy.|Hazard Ratio (HR)|1.374||||0.273|TWO_SIDED|95.0|0.779|2.424|||Regression, Cox|Cox regression was for time to first exacerbation and cohort as covariate.||||2.424|0.779|0.273
82649017|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.21|||||TWO_SIDED|95.0|-11.78|24.2||||||For change in ability to plan future at Cycle 2 Day 1, mean change difference was used to compare the two treatment groups.||24.20|-11.78|
82453536|NCT05169424|164612872|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.183||||0.429|TWO_SIDED|95.0|0.78|1.792|||Regression, Cox|||||1.792|0.780|0.429
82453537|NCT05169424|164612872|OTHER|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
82453538|NCT05169424|164612872|OTHER|||||||0.932|||||||Log Rank|||||||0.932
82453539|NCT05169424|164612873|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|0.979||||0.935|TWO_SIDED|95.0|0.582|1.645|||Regression, Cox|||||1.645|0.582|0.935
82453540|NCT05169424|164612874|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.159||||0.507|TWO_SIDED|95.0|0.75|1.79|||Regression, Cox|||||1.790|0.750|0.507
82453541|NCT05169424|164612875|OTHER|Comparison of Stiolto (reference) versus Trelegy for incidence rate of pneumonia hospitalization.|Hazard Ratio (HR)|1.291||||0.726|TWO_SIDED|95.0|0.309|5.405|||Regression, Cox|||||5.405|0.309|0.726
82453542|NCT05169424|164612876|OTHER|||||||0.874|||||||t-test, 2 sided|||||||0.874
82453543|NCT05169424|164612876|OTHER||Exponential estimate|0.895||||0.01|TWO_SIDED|95.0|0.823|0.974|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||0.974|0.823|0.01
82453544|NCT05169424|164612877|OTHER|||||||0.899|||||||t-test, 2 sided|||||||0.899
82453545|NCT05169424|164612877|OTHER||Exponential estimate|0.897||||0.012|TWO_SIDED|95.0|0.824|0.976|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||0.976|0.824|0.012
82453546|NCT05169424|164612878|OTHER|||||||0.974|||||||t-test, 2 sided|||||||0.974
82453547|NCT05169424|164612878|OTHER||Exponential estimate|1.135||||0.595|TWO_SIDED|95.0|0.711|1.812|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||1.812|0.711|0.595
82649018|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.87|||||TWO_SIDED|95.0|0.79|28.94||||||For change in pancreatic pain at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||28.94|0.79|
82453548|NCT05169424|164612879|OTHER|||||||0.622|||||||t-test, 2 sided|||||||0.622
82453549|NCT05169424|164612879|OTHER||Exponential estimate|1.008||||0.855|TWO_SIDED|95.0|0.928|1.094|||ZINB regression with log link|The costs were modeled using Zero Inflated Negative Binomial (ZINB) regression with log link with cohort as the only covariate.|The analysis was for Stiolto versus Trlegy (Trelegy was the reference group).|||1.094|0.928|0.855
82453550|NCT05169424|164612880|OTHER|||||||0.328|||||||t-test, 2 sided|||||||0.328
82453551|NCT04522141|164612881|OTHER|||||||0.038||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.038
82453552|NCT04522141|164612881|SUPERIORITY|||||||0.941||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.941
82453553|NCT04522141|164612882|OTHER|||||||0.003||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.003
82453554|NCT04522141|164612882|SUPERIORITY|||||||0.027||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.027
82453555|NCT04522141|164612883|OTHER||||||<|0.001||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||< .001
82453556|NCT04522141|164612883|SUPERIORITY|||||||0.411||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.411
82453557|NCT04522141|164612884|OTHER||||||<|0.001||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status|Mixed Models Analysis|||Main effect weekly self-control||||< .001
82453558|NCT04522141|164612884|SUPERIORITY|||||||0.176||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status|Mixed Models Analysis|||Time by condition interaction weekly self-control||||0.176
82453559|NCT04522141|164612885|OTHER||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||> .05
82453560|NCT04522141|164612885|SUPERIORITY||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||> .05
82453561|NCT04522141|164612886|OTHER|||||||0.031||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.031
82453562|NCT04522141|164612886|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.||Time by condition interaction||||0.260
82453563|NCT04522141|164612887|OTHER|||||||0.016||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.016
82453564|NCT04522141|164612887|SUPERIORITY|||||||0.363||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.363
82453565|NCT04522141|164612888|OTHER||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||> .05
82453566|NCT04522141|164612888|SUPERIORITY||||||>|0.05||||||Analyses are controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||> .05
82649019|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.49|||||TWO_SIDED|95.0|-7.45|34.42||||||For change in eating related items at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||34.42|-7.45|
82453567|NCT04522141|164612889|OTHER|||||||0.389||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.389
82453568|NCT04522141|164612889|SUPERIORITY|||||||0.516||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.516
82453569|NCT04522141|164612890|OTHER|||||||0.005||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.005
82453570|NCT04522141|164612890|SUPERIORITY|||||||0.555||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.555
82453571|NCT04522141|164612891|OTHER|||||||0.206||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Main effect||||0.206
82453572|NCT04522141|164612891|SUPERIORITY|||||||0.026||||||Controlled for age, sex, education, race, self-reported functional health, and self-reported health status.|Mixed Models Analysis|||Time by condition interaction||||0.026
82453573|NCT03052049|164612892|OTHER|t-test|p value|0.05||||0.05|TWO_SIDED|0.0||||P value was calculated with threshold of significance \<0.05.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.05
82453574|NCT03052049|164612893|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
82453575|NCT03052049|164612894|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
82453576|NCT03052049|164612895|OTHER|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
82453577|NCT03052049|164612896|SUPERIORITY|||||||0.05||||||P value was calculated and a value of \<0.05 was considered significant.|t-test, 2 sided|||||||0.05
82453578|NCT00122369|164612898|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant|t-test, 2 sided|||The impact of knowing or not knowing the diagnosis became so overwhelming and group composition with regard of whether and which result had been communicated changed daily in the post-biopsy follow-up, so that the originally planned analysis of the impact of Self-Hynotic Relaxation or Empathic Attention on cortisol measures became underpowered. Therefore we focused on the analysis of the impact of diagnosis.||||0.014
82453579|NCT00122369|164612898|SUPERIORITY_OR_OTHER|||||||0.421||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant.|t-test, 2 sided|||||||0.421
82453580|NCT00122369|164612898|SUPERIORITY_OR_OTHER|||||||0.138||95.0||||Bonferoni correction was made so that results with p\<0.0167 are considered significant.|t-test, 2 sided|||||||0.138
82538627|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.25|||<|0.0001|TWO_SIDED|95.0|-34.2|-20.3||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.30|-34.20|<0.0001
82538628|NCT00708097|164777203|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.87|||<|0.0001|TWO_SIDED|95.0|-34.84|-20.89||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||-20.89|-34.84|<0.0001
82453581|NCT00122369|164612899|SUPERIORITY_OR_OTHER|||||||0.56|||||||ANOVA|||The null-hypothesis was that there would be no difference among groups.||||0.56
82453582|NCT00122369|164612911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
82453583|NCT00122369|164612911|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Ordinal regression|||||||0.45
82453584|NCT00122369|164612911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
82453585|NCT00122369|164612911|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Proportional odds model|||||||<0.01
82453586|NCT00122369|164612911|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Proportional odds model|||||||<0.001
82453587|NCT00122369|164612911|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Proportional odds model|||||||<0.01
82453588|NCT00122369|164612924|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
82453589|NCT00122369|164612924|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
82453590|NCT00122369|164612924|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ordinal regression|||||||<0.001
82453591|NCT00122369|164612924|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Proportional odds model|||||||0.024
82453592|NCT00122369|164612924|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Proportional odds model|||||||0.018
82453593|NCT00122369|164612924|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Proportional odds model|||||||0.73
82453594|NCT00999518|164612925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.4|0.35||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% confidence interval (CI).||0.35|-0.40|
82453595|NCT00999518|164612925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.8|0.68||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.68|-0.80|
82453596|NCT00999518|164612925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-1.15|0.83||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.83|-1.15|
82453597|NCT00999518|164612925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.93|0.47||||||The 3 parameter E max dose-response model, including baseline as a covariate, was fitted to estimate mean difference (tanezumab minus placebo) and associated 95% CI.||0.47|-0.93|
82453598|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.66|||||TWO_SIDED|95.0|0.259|1.683||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.683|0.259|
82453599|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.975|||||TWO_SIDED|95.0|0.387|2.457||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.457|0.387|
82453600|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.969|||||TWO_SIDED|95.0|0.392|2.398||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.398|0.392|
82453601|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.969|||||TWO_SIDED|95.0|0.392|2.398||||||Week 8, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.398|0.392|
82453602|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.629|||||TWO_SIDED|95.0|0.202|1.96||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.960|0.202|
82453603|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.179|||||TWO_SIDED|95.0|0.411|3.376||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.376|0.411|
82538629|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.45||||0.5451|TWO_SIDED|95.0|-6.15|3.26||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||3.26|-6.15|0.5451
82538630|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.5||||0.1433|TWO_SIDED|95.0|-1.2|8.19||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.19|-1.20|0.1433
82649020|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.86|||||TWO_SIDED|95.0|0.17|37.55||||||For change in altered bowel habits at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||37.55|0.17|
82538631|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.47||||0.002|TWO_SIDED|95.0|2.78|12.16||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||12.16|2.78|0.0020
82538632|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|23.52|||<|0.0001|TWO_SIDED|95.0|18.79|28.25||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||28.25|18.79|<0.0001
82538633|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.94||||0.0373|TWO_SIDED|95.0|0.29|9.59||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||9.59|0.29|0.0373
82538634|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.92||||0.0002|TWO_SIDED|95.0|4.24|13.59||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||13.59|4.24|0.0002
82453604|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.222|||||TWO_SIDED|95.0|0.438|3.414||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.414|0.438|
82453605|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.778|||||TWO_SIDED|95.0|0.259|2.335||||||Week 8, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.335|0.259|
82453606|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.929|||||TWO_SIDED|95.0|0.37|2.327||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.327|0.370|
82453607|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.083|||||TWO_SIDED|95.0|0.427|2.749||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.749|0.427|
82453608|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.759|||||TWO_SIDED|95.0|0.295|1.952||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.952|0.295|
82453609|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.759|||||TWO_SIDED|95.0|0.295|1.952||||||Week 16, at least 30% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||1.952|0.295|
82453610|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.875|||||TWO_SIDED|95.0|0.285|2.682||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.682|0.285|
82577450|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0931|TWO_SIDED|95.0|0.9|5.3|||GEE method|||Day 7: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||5.3|0.9|0.0931
82577451|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|3.6||||0.0139|TWO_SIDED|95.0|1.3|10.0|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||10.0|1.3|0.0139
82577452|NCT02942004|164864078|SUPERIORITY||Odds Ratio (OR)|2.6||||0.046|TWO_SIDED|95.0|1.0|6.9|||GEE method|||Day 30: GEE method was used for analysis. CGI-I response at each visit was the dependent variable. Treatment, baseline CGI-S score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model.||6.9|1.0|0.0460
82577453|NCT02942004|164864079|SUPERIORITY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|1.454||0.4389|TWO_SIDED|95.0|-4.01|1.75|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.75|-4.01|0.4389
82577454|NCT02942004|164864079|SUPERIORITY||LS mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.427||0.4645|TWO_SIDED|95.0|-3.88|1.78|||MMRM|||Change at Hour 60: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.78|-3.88|0.4645
82577455|NCT02942004|164864079|SUPERIORITY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.356||0.0622|TWO_SIDED|95.0|-5.24|0.13|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.13|-5.24|0.0622
82577456|NCT02942004|164864079|SUPERIORITY||LS mean difference|0.25|STANDARD_ERROR_OF_MEAN|1.338||0.8495|TWO_SIDED|95.0|-2.4|2.91|||MMRM|||Change at Day 7: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.91|-2.40|0.8495
82577457|NCT02942004|164864079|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.59||0.7063|TWO_SIDED|95.0|-3.75|2.55|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.55|-3.75|0.7063
82577458|NCT02942004|164864079|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|1.552||0.9434|TWO_SIDED|95.0|-3.19|2.97|||MMRM|||Change at Day 14: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.97|-3.19|0.9434
82577459|NCT02942004|164864079|SUPERIORITY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|1.608||0.9701|TWO_SIDED|95.0|-3.25|3.13|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||3.13|-3.25|0.9701
82577460|NCT02942004|164864079|SUPERIORITY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|1.566||0.6307|TWO_SIDED|95.0|-3.86|2.35|||MMRM|||Change at Day 21: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||2.35|-3.86|0.6307
82649021|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.57|||||TWO_SIDED|95.0|0.66|22.48||||||For change in jaundice at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.48|0.66|
82649022|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.72|||||TWO_SIDED|95.0|0.49|36.95||||||For change in body image at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||36.95|0.49|
82649023|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.61|||||TWO_SIDED|95.0|-32.4|11.17||||||For change in health care satisfaction at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||11.17|-32.40|
82649024|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||||TWO_SIDED|95.0|-14.63|17.27||||||For change in sexual functioning at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||17.27|-14.63|
82649025|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54|||||TWO_SIDED|95.0|-14.7|17.78||||||For change in ascites at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||17.78|-14.70|
82649026|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.05|||||TWO_SIDED|95.0|-10.65|32.75||||||For change in indigestion at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||32.75|-10.65|
82577461|NCT02942004|164864079|SUPERIORITY||LS mean difference|-2.02|STANDARD_ERROR_OF_MEAN|1.488||0.1767|TWO_SIDED|95.0|-4.97|0.93|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||0.93|-4.97|0.1767
82577462|NCT02942004|164864079|SUPERIORITY||LS mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.468||0.3236|TWO_SIDED|95.0|-4.37|1.45|||MMRM|||Change at Day 30: MMRM was used for the analysis. The change from baseline in GAD-7 total score at each visit was the dependent variable. Treatment, baseline GAD-7 total score, pooled center, baseline antidepressant use, visit time point, and visit time point-by-treatment interaction terms as explanatory variables were included in the model. All explanatory variables including pooled center were treated as fixed effects.||1.45|-4.37|0.3236
82577463|NCT04421950|164864221|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82577464|NCT00186017|164864232|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||.08
82577465|NCT00186017|164864233|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon (Mann-Whitney)|||||||>.1
82577466|NCT00186017|164864234|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Wilcoxon (Mann-Whitney)|||||||>.1
82453611|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.366|||||TWO_SIDED|95.0|0.466|4.006||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||4.006|0.466|
82453612|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.235|2.394||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||2.394|0.235|
82453613|NCT00999518|164612927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.063|||||TWO_SIDED|95.0|0.356|3.168||||||Week 16, at least 50% Reduction: Logistic regression analysis with treatment as independent variable was used for the analysis.||3.168|0.356|
82453614|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.263||||0.5731|TWO_SIDED|95.0|0.56|2.848|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.848|0.560|0.5731
82577467|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference :|-13.5|||||TWO_SIDED|95.0|-18.3|-8.7|||||2-Sided 95% CIs were calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.|Serotype 1||-8.7|-18.3|
82453615|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.656||||0.2592|TWO_SIDED|95.0|0.689|3.98|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||3.980|0.689|0.2592
82453616|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9181||||1.045|TWO_SIDED|95.0|0.452|2.417|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.417|0.452|1.045
82577468|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-17.9|||||TWO_SIDED|95.0|-23.2|-12.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 3||-12.4|-23.2|
82577469|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-11.0|||||TWO_SIDED|95.0|-16.0|-5.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 4||-5.9|-16.0|
82649027|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-17.33|24.13||||||For change in flatulence at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||24.13|-17.33|
82649028|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.27|||||TWO_SIDED|95.0|-4.4|22.93||||||For change in cachexia at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.93|-4.40|
82453617|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.306||||0.5289|TWO_SIDED|95.0|0.569|2.997|||Regression, Logistic|||Week 8: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis.||2.997|0.569|0.5289
82490169|NCT02390908|164673173|SUPERIORITY||Slope|-0.12||||0.57|TWO_SIDED|95.0|-0.53|0.36||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.36|-0.53|0.57
82577470|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-12.6|||||TWO_SIDED|95.0|-17.8|-7.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 5||-7.2|-17.8|
82577471|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-14.1|||||TWO_SIDED|95.0|-19.5|-8.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6A||-8.6|-19.5|
82577472|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-15.8|||||TWO_SIDED|95.0|-21.0|-10.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6B||-10.6|-21.0|
82453618|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.893||||0.793|TWO_SIDED|95.0|0.385|2.074|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.074|0.385|0.7930
82453619|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.167||||0.7386|TWO_SIDED|95.0|0.471|2.892|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.892|0.471|0.7386
82433733|NCT01659996|164577798|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup C and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|1.27|||||TWO_SIDED|95.0|-0.84|3.64||||||Meningococcal serogroup C: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||3.64|-0.84|
82433734|NCT01659996|164577798|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup Y and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|2.46|||||TWO_SIDED|95.0|0.14|5.14||||||Meningococcal serogroup Y: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||5.14|0.14|
82433735|NCT01659996|164577798|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for serogroup W-135 and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|1.28|||||TWO_SIDED|95.0|-0.84|3.67||||||Meningococcal serogroup W-135: The null hypothesis (H0: pm - ppm \> δ) was tested against the alternative hypothesis (H1: pm - ppm ≤ δ), where pm and ppm were the proportions of subjects in Group 1 and in Group 2, respectively, who achieved a Menactra vaccine response for meningococcal serogroups A, C, Y and W-135, with δ = 0.10.||3.67|-0.84|
82433736|NCT01659996|164577803|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|0.949|||||TWO_SIDED|95.0|0.852|1.06||||||Pertussis toxoid (PT): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (PT) in Group 3 and in Group 2, respectively||1.06|0.852|
82433737|NCT01659996|164577803|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|0.968|||||TWO_SIDED|95.0|0.866|1.08||||||Filamentous hemagglutinin (FHA): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (FHA) in Group 3 and in Group 2, respectively||1.08|0.866|
82433738|NCT01659996|164577803|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the antibodies concentration was log normally distributed, if the upper limit of the two-sided 95% CI of the ratio of the two GMCs is ≤ 1.5 for each antigen, the inferiority assumption was to be rejected.|Mean Difference (Final Values)|1.11|||||TWO_SIDED|95.0|0.937|1.31||||||Pertactin (PRN): The null hypothesis (H0: GMCp / GMCpm \> 1.5) was tested against the alternative hypothesis (H1: GMCp / GMCpm ≤ 1.5), where GMCp and GMCpm were the GMCs of antibodies against the pertussis antigen (PRN) in Group 3 and in Group 2, respectively||1.31|0.937|
82433739|NCT01659996|164577804|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-1.22|||||TWO_SIDED|95.0|-5.44|3.19||||||Pertussis toxoid (PT) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (PT), with δ = 0.10.||3.19|-5.44|
82433740|NCT01659996|164577804|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|0.867|||||TWO_SIDED|95.0|-2.54|4.53||||||Filamentous hemagglutinin (FHA) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (FHA), with δ = 0.10.||4.53|-2.54|
82433741|NCT01659996|164577804|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the two-sided 95% CI of the difference between the two proportions was \< δ for each antibody and assuming the difference between the two proportions was normally distributed, the inferiority assumption was to be rejected.|Difference between 2 percentages|-0.092|||||TWO_SIDED|95.0|-3.62|3.66||||||Pertactin (PRN) antigen: The null hypothesis (H0: pp - ppm \> δ) was tested against the alternative hypothesis (H1: pp - ppm ≤ δ), where pp and ppm were the proportions of subjects in Group 3 and Group 2, respectively, who achieved a pertussis vaccine response in antibodies against the pertussis antigen (PRN), with δ = 0.10.||3.66|-3.62|
82649029|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.19|||||TWO_SIDED|95.0|2.99|35.39||||||For change in side effects at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||35.39|2.99|
82433742|NCT03206918|164577807|SUPERIORITY||2-side Clopper-Pearson|87.9|||<|0.0001|TWO_SIDED|95.0|79.4|93.81|||Exact Binomial Test|The null hypothesis is ORR = 32%||||93.81|79.40|<0.0001
82538635|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|24.97|||<|0.0001|TWO_SIDED|95.0|20.27|29.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||29.66|20.27|<0.0001
82538636|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.98||||0.0925|TWO_SIDED|95.0|-0.66|8.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||8.61|-0.66|0.0925
82538637|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|20.03|||<|0.0001|TWO_SIDED|95.0|15.35|24.7||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||24.70|15.35|<0.0001
82538638|NCT00708097|164777204|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.05|||<|0.0001|TWO_SIDED|95.0|11.36|20.74||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to percent SMH. Statistical tests were 2-sided with a significance level of 0.05.||20.74|11.36|<0.0001
82538639|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.01||||0.9697|TWO_SIDED|95.0|-106.34|102.32||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||102.32|-106.34|0.9697
82538640|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|106.9||||0.044|TWO_SIDED|95.0|2.92|210.87||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||210.87|2.92|0.0440
82577473|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-2.6|||||TWO_SIDED|95.0|-6.3|1.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 7F||1.1|-6.3|
82577474|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-14.3|||||TWO_SIDED|95.0|-19.7|-8.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 9V||-8.9|-19.7|
82577475|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-3.3|||||TWO_SIDED|95.0|-7.9|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 14||1.4|-7.9|
82577476|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-5.5|||||TWO_SIDED|95.0|-10.6|-0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 18C||-0.4|-10.6|
82649030|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|||||TWO_SIDED|95.0|-23.7|22.43||||||For change in fear of future health at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||22.43|-23.70|
82649031|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.51|||||TWO_SIDED|95.0|-3.1|46.12||||||For change in ability to plan future at Cycle 3 Day 1, mean change difference was used to compare the two treatment groups.||46.12|-3.10|
82649032|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|95.0|-21.57|13.19||||||For change in pancreatic pain at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||13.19|-21.57|
82649033|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.6|||||TWO_SIDED|95.0|-32.86|7.66||||||For change in eating related items at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||7.66|-32.86|
82453620|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.036||||0.9354|TWO_SIDED|95.0|0.437|2.46|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||2.460|0.437|0.9354
82433743|NCT03823287|164577821|NON_INFERIORITY|If the lower bound of a two-sided 95.03% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.1|2.5|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. A sample size of approximately 320 participants in each arm provided greater than 90% power to show non-inferiority of faricimab to aflibercept in the change from baseline BCVA averaged over Weeks 40, 44, and 48 in the ITT population, using a non-inferiority margin of 4 letters at the one-sided 0.02485 significance level.||2.5|-1.1|
82433744|NCT03823287|164577822|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-1.2|2.7|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||2.7|-1.2|
82433745|NCT03823287|164577824|OTHER||Difference in CMH Weighted Percentage|4.3|||||TWO_SIDED|95.0|-1.6|10.1|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥15 Letters: Treatment Difference at Weeks 40-48||10.1|-1.6|
82433746|NCT03823287|164577824|OTHER||Difference in CMH Weighted Percentage|5.4|||||TWO_SIDED|95.0|-2.0|12.7|||||The treatment difference in CMH weighted percentage of participants gaining ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥10 Letters: Treatment Difference at Weeks 40-48||12.7|-2.0|
82433747|NCT03823287|164577824|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-6.6|8.9|||||The treatment difference in CMH weighted percentage of participants gaining ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥5 Letters: Treatment Difference at Weeks 40-48||8.9|-6.6|
82433748|NCT03823287|164577824|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-7.9|5.4|||||The treatment difference in CMH weighted percentage of participants gaining ≥0 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥0 Letters: Treatment Difference at Weeks 40-48||5.4|-7.9|
82433749|NCT03823287|164577825|OTHER||Difference in CMH Weighted Percentage|2.7|||||TWO_SIDED|95.0|-3.2|8.5|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||8.5|-3.2|
82433750|NCT03823287|164577830|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-2.2|4.8|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥15 Letters: Treatment Difference at Weeks 40-48||4.8|-2.2|
82433751|NCT03823287|164577830|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-4.6|3.9|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥10 Letters: Treatment Difference at Weeks 40-48||3.9|-4.6|
82433752|NCT03823287|164577830|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-4.0|6.4|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥5 Letters: Treatment Difference at Weeks 40-48||6.4|-4.0|
82433753|NCT03823287|164577831|OTHER||Difference in CMH Weighted Percentage|-0.2|||||TWO_SIDED|95.0|-3.9|3.6|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||3.6|-3.9|
82649034|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.25|||||TWO_SIDED|95.0|-10.33|34.82||||||For change in altered bowel habits at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||34.82|-10.33|
82433754|NCT03823287|164577835|OTHER||Difference in CMH Weighted Percentage|3.0|||||TWO_SIDED|95.0|-3.6|9.5|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters or achieving BCVA ≥84 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||9.5|-3.6|
82433755|NCT03823287|164577837|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-7.7|6.6|||||The treatment difference in CMH weighted percentage of participants achieving BCVA ≥69 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||6.6|-7.7|
82433756|NCT03823287|164577839|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-4.2|3.3|||||The treatment difference in CMH weighted percentage of participants with BCVA ≤38 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||3.3|-4.2|
82433757|NCT03823287|164577847|OTHER||Adjusted mean difference|-7.4|STANDARD_ERROR_OF_MEAN|4.19|||TWO_SIDED|95.0|-15.7|0.8|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 40-48||0.8|-15.7|
82433758|NCT03823287|164577848|OTHER||Adjusted mean difference|1.0|STANDARD_ERROR_OF_MEAN|4.26|||TWO_SIDED|95.0|-7.4|9.4|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||9.4|-7.4|
82433759|NCT00475085|164577876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013||||0.718|TWO_SIDED|95.0|-0.225|0.2||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 1 - Group 2 (palonosetron vs. granisetron)||0.200|-0.225|0.718
82649035|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.84|||||TWO_SIDED|95.0|-0.18|25.85||||||For change in jaundice at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||25.85|-0.18|
82433760|NCT00475085|164577876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195||||0.01|TWO_SIDED|95.0|-0.017|0.407||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 1 - Group 4 (adding dexamethasone)||0.407|-0.017|0.010
82538641|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|160.92||||0.0026|TWO_SIDED|95.0|56.96|264.88||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||264.88|56.96|0.0026
82538642|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|222.47|||<|0.0001|TWO_SIDED|95.0|117.58|327.36||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||327.36|117.58|<0.0001
82538643|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|108.91||||0.0382|TWO_SIDED|95.0|5.98|211.83||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||211.83|5.98|0.0382
82538644|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|162.93||||0.0021|TWO_SIDED|95.0|59.68|266.18||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||266.18|59.68|0.0021
82538645|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|224.48|||<|0.0001|TWO_SIDED|95.0|120.51|328.46||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||328.46|120.51|<0.0001
82538646|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|54.03||||0.3003|TWO_SIDED|95.0|-48.56|156.61||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||156.61|-48.56|0.3003
82433761|NCT00475085|164577876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.557|TWO_SIDED|95.0|-0.236|0.186||Response skewed. P-value determined after Box-Cox transformation (lambda=-1.6). Significance level set to 0.017 to account for three tested hypotheses.|ANOVA|Testing and estimation performed using contrasts in the context of an omnibus ANOVA.||Group 3 - Group 4 (aprepitant vs. prochlorperazine)||0.186|-0.236|0.557
82433762|NCT03522246|164577898|SUPERIORITY|Rucaparib vs Placebo|Hazard Ratio (HR)|0.47||||0.0004|TWO_SIDED|95.0|0.31|0.72|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification and timing of surgery.|||0.72|0.31|0.0004
82433763|NCT03522246|164577899|SUPERIORITY|Rucaparib vs Placebo|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification, disease status post-chemotherapy, and timing of surgery.|||0.68|0.40|<0.0001
82433764|NCT03522246|164577900|SUPERIORITY|Rucaparib + Nivolumab vs Rucaparib + Placebo|Hazard Ratio (HR)|1.29||||0.0038|TWO_SIDED|95.0|1.08|1.53|||Log Rank||The stratified cox proportional hazard model is adjusted for the randomization strata of HRD classification, disease status post-chemotherapy, and timing of surgery.|||1.53|1.08|0.0038
82433765|NCT04445519|164578045|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the 95.1% CIs around the difference (NCX 470 minus latanoprost 0.005%) in mean IOP reduction from time-matched baseline in the study eye was greater than or equal to -1.5 mmHg at all time points and was greater than or equal to -1.0 mmHg at a majority of the time points.|Mean Difference (Net)|1.0|STANDARD_DEVIATION|3.25|||TWO_SIDED|95.1||||The primary efficacy assessment was the non-inferiority analysis of the difference in the treatment effect between NCX 470 and latanoprost 0.005% for mean IOP reduction from time-matched baseline at the 8AM and 4PM time-points.|||The analysis assumed a true difference of 1.0 mmHg at the Week 2 time points and 1.25 mmHg at the Week 6 and Month 3 time points; a common standard deviation (SD) at each time-point of 3.25 mmHg; and a two-sided significance level of 4.9%.|||||
82433766|NCT01345929|164578049|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower bound of the 2-sided 95% CI was greater than -10%.|Risk Difference (RD)|8.5|||||TWO_SIDED|95.0|2.31|14.57||||||||14.57|2.31|
82433767|NCT01345929|164578050|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was concluded if the lower bound of the 2-sided 95% CI was greater than -10%.|Risk Difference (RD)|8.0|||||TWO_SIDED|95.0|1.95|13.97||||||||13.97|1.95|
82433768|NCT00394329|164578051|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.56|STANDARD_ERROR_OF_MEAN|0.28||0.066|TWO_SIDED|95.0|0.32|0.96||Hochberg adjustment was applied to the p-value to account for each of three active group comparisons to the placebo group. The unadjusted p-value is 0.033.|Regression, Cox|||||0.96|0.32|0.066
82433769|NCT02819297|164578061|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82649036|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.85|||||TWO_SIDED|95.0|-16.45|24.14||||||For change in body image at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||24.14|-16.45|
82433770|NCT01407952|164578095|SUPERIORITY||Odds Ratio (OR)|2.32||||0.002|TWO_SIDED|95.0|1.36|3.97|||Regression, Logistic|||A intent to treat analysis was performed, using multiple imputation methods.||3.97|1.36|0.002
82433771|NCT01407952|164578095|SUPERIORITY||Odds Ratio (OR)|3.97|||<|0.01|TWO_SIDED|95.0|1.99|7.92||Chi-squared test statistic with one degree of freedom=17.37|Chi-squared|||||7.92|1.99|<0.01
82433772|NCT01407952|164578096|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82433773|NCT01407952|164578097|SUPERIORITY|||||||0.578|||||||Wilcoxon (Mann-Whitney)|||||||0.578
82433774|NCT01407952|164578098|SUPERIORITY|||||||0.352|||||||Chi-squared|Chi-squared test statistic with one degree of freedom = 0.865||||||0.352
82538647|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|61.55||||0.2432|TWO_SIDED|95.0|-42.14|165.24||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||165.24|-42.14|0.2432
82538648|NCT00708097|164777205|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|115.58||||0.0289|TWO_SIDED|95.0|12.02|219.13||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||219.13|12.02|0.0289
82649037|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05|||||TWO_SIDED|95.0|-23.23|37.34||||||For change in health care satisfaction at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||37.34|-23.23|
82649038|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|||||TWO_SIDED|95.0|-26.55|21.5||||||For change in sexual functioning at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||21.50|-26.55|
82433775|NCT01407952|164578099|SUPERIORITY|||||||0.769|||||||Cochran-Armitage Trend Test|||||||0.769
82433776|NCT01407952|164578100|SUPERIORITY|||||||0.641|||||||Chi-squared|Chi-square test statistic with one degree of freedom=0.217||||||0.641
82433777|NCT01407952|164578101|SUPERIORITY|||||||0.003|||||||Chi-squared|chi-square test statistic with one degree of freedom=8.82||||||0.003
82433778|NCT01407952|164578102|SUPERIORITY|||||||0.162|||||||Chi-squared|Chi-squared test statistic with one degree of freedom=1.955||||||0.162
82433779|NCT01407952|164578103|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
82433780|NCT01407952|164578104|SUPERIORITY||||||<|0.01|||||||Chi-squared|Chi-squared test statistic with one degree of freedom=14.743||||||<0.01
82649039|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.46|||||TWO_SIDED|95.0|-27.48|8.56||||||For change in ascites at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||8.56|-27.48|
82433781|NCT01407952|164578105|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82433782|NCT00935493|164578116|SUPERIORITY_OR_OTHER|||||||0.06|||||||Regression, Linear|||||||0.06
82433783|NCT00935493|164578116|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Linear|||||||0.47
82433784|NCT00935493|164578117|SUPERIORITY_OR_OTHER|||||||0.67|||||||Regression, Logistic|||||||0.67
82433785|NCT00935493|164578117|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Logistic|||||||0.46
82433786|NCT00935493|164578118|SUPERIORITY_OR_OTHER|||||||0.65|||||||Regression, Linear|||||||0.65
82433787|NCT00935493|164578118|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Linear|||||||0.46
82433788|NCT02027311|164578127|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0||||For two-sided tests, p \< 0.05 was considered statistically significant.|Regression, Logistic|Logistic regression model used to identify the factors related to the presence of intervention (frequency of intervention = 0, vs. ≥ 1).||If the true difference in the experimental and control means is 4, total 26 experimental subjects and 26 control subjects was required to reject the null hypothesis that the means of the primary outcome values of experimental and control groups are equal with probability (power) 0.8. The Type I error probability associated with this test of this null hypothesis is 0.05.||||0.05
82433789|NCT02027311|164578128|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.09||||0.002|TWO_SIDED|95.0|2.41|50.94||Logistic regression model were used in univariate and corrected multivariate analyses to identify the factors related to the primary outcome variables, such as, presence of intervention (frequency of intervention = 0, vs. ≥ 1).|Regression, Logistic|||All the continuous variables were compared using the Mann-Whitney U test and dichotomous categorical variables was used and the Pearson chi-square with Fisher exact test. We used the linear mixed model to compare the differences of paired data, such as mean values of RR, SpO2, MAP, HR, and RSS at different time points of the two different sedation groups. For two-sided tests, p \< 0.05 was considered statistically significant.||50.94|2.41|0.002
82433790|NCT03928418|164578129|SUPERIORITY||Mean Difference (Net)|3.5|||<|0.001|TWO_SIDED|95.0|2.1|4.9||p-value comparing live call booster to SOC arm: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline # of drinking days, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm reported here.|||4.9|2.1|<0.001
82433791|NCT03928418|164578129|SUPERIORITY||Mean Difference (Net)|3.6|||<|0.001|TWO_SIDED|95.0|2.2|5.1||p-value comparing technology booster to SOC arm: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline # of drinking days, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm reported here.|||5.1|2.2|<0.001
82433792|NCT03928418|164578130|SUPERIORITY||Mean Difference (Net)|36.4||||0.643|TWO_SIDED|95.0|-117.5|190.3||p-value comparing live call booster arm to SOC arm: p = 0.643|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline PEth level, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm reported here.|||190.3|-117.5|0.643
82433793|NCT03928418|164578130|SUPERIORITY||Mean Difference (Net)|-30.9||||0.711|TWO_SIDED|95.0|-194.8|132.9||p-value comparing technology booster arm to SOC arm: p = 0.711|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline PEth level, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm reported here.|||132.9|-194.8|0.711
82453621|NCT00999518|164612930|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.805||||0.6207|TWO_SIDED|95.0|0.341|1.899|||Regression, Logistic|||Week 16: Proportional odds logistic regression analysis with treatment as independent variable was used for the analysis. For Week 16, data scores were combined into 3 categories: Improved ('slightly improved', 'moderately improved', 'markedly improved'), No Change ('no change') and Worse ('markedly worse', 'moderately worse', 'slightly worse') for comparison.||1.899|0.341|0.6207
82433794|NCT03928418|164578131|SUPERIORITY||Mean Difference (Net)|-2.3||||0.515|TWO_SIDED|95.0|-9.3|4.7||p-value comparing live call booster arm to SOC: p = 0.515|Regression, Logistic||SOC minus live call booster arm presented here.|||4.7|-9.3|0.515
82433795|NCT03928418|164578131|SUPERIORITY||Mean Difference (Net)|-0.9||||0.801|TWO_SIDED|95.0|-8.3|6.4||p-value comparing technology booster arm to SOC: p = 0.801|Regression, Logistic||SOC minus technology booster arm presented here.|||6.4|-8.3|0.801
82433796|NCT03928418|164578132|SUPERIORITY||Mean Difference (Net)|28.9|||<|0.001|TWO_SIDED|95.0|17.0|40.7||p-value comparing live call booster arm to SOC: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC minus live call booster arm presented here.|||40.7|17.0|<0.001
82433797|NCT03928418|164578132|SUPERIORITY||Mean Difference (Net)|24.9|||<|0.001|TWO_SIDED|95.0|13.0|36.8||p-value comparing technology booster arm to SOC: p \< 0.001 (calculated)|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC minus technology booster arm presented here.|||36.8|13.0|<0.001
82433798|NCT03928418|164578133|SUPERIORITY||Mean Difference (Net)|4.4||||0.002|TWO_SIDED|95.0|1.6|7.3||p-value comparing live call booster arm to SOC: p = 0.002|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC arm minus live call booster arm presented here.|||7.3|1.6|0.002
82490170|NCT02390908|164673173|SUPERIORITY||Slope|0.01||||0.97|TWO_SIDED|95.0|-0.35|0.36||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Site 3 (Immediate) relative to the No-Treatment EMR Control.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.36|-0.35|0.97
82490171|NCT02390908|164673173|SUPERIORITY||Slope|0.07||||0.41|TWO_SIDED|95.0|-0.1|0.24||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in log VL across the 3-,6-,9- and 12-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.24|-0.10|0.41
82538649|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.9||||0.9293|TWO_SIDED|95.0|-322.47|294.66||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||294.66|-322.47|0.9293
82433799|NCT03928418|164578133|SUPERIORITY||Mean Difference (Net)|4.3||||0.003|TWO_SIDED|95.0|1.5|7.2||p-value comparing technology booster arm to SOC: p = 0.003|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline alcohol use, visit, arm, interaction btwn visit and arm|SOC arm minus technology booster arm presented here.|||7.2|1.5|0.003
82433800|NCT03928418|164578135|SUPERIORITY||Mean Difference (Net)|-0.8||||0.61|TWO_SIDED|95.0|-3.8|2.2||p-value comparing live call booster arm to SOC arm: p = 0.610.|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline ART adherence, visit, arm, interaction btwn visit and arm|SOC minus live call booster arm presented here.|||2.2|-3.8|0.610
82433801|NCT03928418|164578135|SUPERIORITY||Mean Difference (Net)|-1.1||||0.474|TWO_SIDED|95.0|-4.1|1.9||p-value comparing technology booster arm to SOC arm: p = 0.474.|Mixed Models Analysis|Mixed effects model; random effects for participants; fixed effects for sex, baseline ART adherence, visit, arm, interaction btwn visit and arm|SOC minus technology booster arm presented here.|||1.9|-4.1|0.474
82433802|NCT02091362|164578155|SUPERIORITY_OR_OTHER||LS Mean Difference|2.26|||<|0.001|TWO_SIDED|95.0|1.11|3.4|||Mixed Models Analysis|||||3.40|1.11|<.001
82433803|NCT02091362|164578156|SUPERIORITY_OR_OTHER||LS Mean Difference|1.37|||<|0.01|TWO_SIDED|95.0|0.66|2.08|||Mixed Models Analysis|||||2.08|0.66|<0.01
82433804|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.94|TWO_SIDED|95.0|-13.7|12.6|||Regression, Linear|||expected level of pain during procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||12.6|-13.7|0.94
82433805|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.9|TWO_SIDED|95.0|-15.1|13.2|||Regression, Linear|||after speculum insertion greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||13.2|-15.1|0.9
82433806|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.49|TWO_SIDED|95.0|-18.6|9.0|||Regression, Linear|||during paracervical block administration greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||9|-18.6|0.49
82433807|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.0||||0.03|TWO_SIDED|95.0|-28.3|-1.7|||Regression, Linear|||after cervical dilation greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||-1.7|-28.3|0.03
82433808|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.7|TWO_SIDED|95.0|-12.2|18.0|||Regression, Linear|||immediately after procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||18|-12.2|0.7
82649040|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.96|||||TWO_SIDED|95.0|-30.62|16.7||||||For change in indigestion at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||16.70|-30.62|
82433809|NCT00617097|164578173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.52|TWO_SIDED|95.0|-17.0|8.8|||Regression, Linear|||30 min after procedure greater number is worse (i.e., more pain) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less pain); maximum: 100 mm (more pain)||8.8|-17|.52
82433810|NCT00617097|164578174|SUPERIORITY_OR_OTHER|||||||0.93|||||||Regression, Linear|||greater number is better (i.e., more satisfaction) 100-mm Visual Analogue Scale (VAS): minimum: 0 mm (less satisfaction); maximum: 100 mm (greater satisfaction) Measured at end of study (i.e., upon clinic discharge)||||0.93
82433811|NCT00617097|164578175|SUPERIORITY_OR_OTHER|||||||0.07|||||||Chi-squared|||greater number is worse (i.e., more symptoms)||||0.07
82433812|NCT00617097|164578176|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||minor complications greater number is worse (i.e., more complications)||||1
82433813|NCT00617097|164578176|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||serious complications||||0.15
82433814|NCT02565147|164578185|SUPERIORITY|||||||0.7505|||||||Wilcoxon Rank Sum Test|||||||0.7505
82433815|NCT03587428|164578196|SUPERIORITY||Mean Difference (Final Values)|-0.3252||||0.1787|TWO_SIDED|95.0|-0.8101|0.1596|||ANCOVA|ANCOVA for treatment and period as fixed effects and subject as random effect and two baseline terms as covariates.|Difference is first named treatment minus second named treatment; a positive difference favors the first named treatment.|||0.1596|-0.8101|0.1787
82433816|NCT03587428|164578196|SUPERIORITY||Mean Difference (Final Values)|-0.7037||||0.0063|TWO_SIDED|95.0|-1.1886|-0.2187|||ANCOVA|ANCOVA for treatment and period as fixed effects and subject as random effect and two baseline terms as covariates.|Difference is first named treatment minus second named treatment; a positive difference favors the first named treatment.|||-0.2187|-1.1886|0.0063
82433817|NCT00286091|164578200|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.0284|TWO_SIDED|95.0|0.73|0.98|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|Primary and secondary endpoint analyses were conducted hierarchically. To preserve an overall type I error rate of 0.05, a 0.0488 2-sided test of bone metastasis-free survival was performed. If superiority of denosumab over placebo was established, time to first bone metastasis was tested with a 2-sided significance level of 0.050. If superiority of denosumab over placebo was also established, overall survival time was tested at a 2-sided significance level of 0.050.||0.98|0.73|0.0284
82433818|NCT00286091|164578201|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0317|TWO_SIDED|95.0|0.71|0.98|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|||0.98|0.71|0.0317
82433819|NCT00286091|164578202|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9125|TWO_SIDED|95.0|0.85|1.2|||Wald test||Based on the Cox proportional hazards model stratified by PSA ≥ 8.0 ng/mL, PSA doubling time ≤ 10 months and previous or current chemotherapy for prostate cancer. A hazard ratio \< 1 favors denosumab.|||1.20|0.85|0.9125
82433820|NCT00260832|164578230|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1079|TWO_SIDED|95.0|||||Kaplan-Meier|||The primary treatment comparison was based on two sided long-rank test stratified by age, cytogenetic risk, ECOG performance status||||0.1079
82433821|NCT00260832|164578231|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0011|TWO_SIDED|95.0|1.4|4.78|||Fisher Exact|||||4.78|1.40|0.0011
82433822|NCT03745638|164578232|SUPERIORITY||Odds Ratio (OR)|6.38|||<|0.0001|TWO_SIDED|95.0|3.556|11.923||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||11.923|3.556|< 0.0001
82433823|NCT03745638|164578232|SUPERIORITY||Odds Ratio (OR)|7.5|||<|0.0001|TWO_SIDED|95.0|4.178|14.04||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||14.040|4.178|< 0.0001
82433824|NCT03745638|164578233|SUPERIORITY||Odds Ratio (OR)|4.04|||<|0.0001|TWO_SIDED|95.0|2.441|6.808||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||6.808|2.441|< 0.0001
82538650|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|575.71||||0.0003|TWO_SIDED|95.0|268.24|883.17||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||883.17|268.24|0.0003
82538651|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|637.67|||<|0.0001|TWO_SIDED|95.0|330.3|945.03||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||945.03|330.30|<0.0001
82538652|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1813.29|||<|0.0001|TWO_SIDED|95.0|1503.03|2123.54||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||2123.54|1503.03|<0.0001
82577477|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-1.7|||||TWO_SIDED|95.0|-4.8|1.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19A||1.3|-4.8|
82433825|NCT03745638|164578233|SUPERIORITY||Odds Ratio (OR)|5.22|||<|0.0001|TWO_SIDED|95.0|3.145|8.831||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||8.831|3.145|< 0.0001
82433826|NCT03745638|164578234|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0002|TWO_SIDED|95.0|1.773|8.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||8.083|1.773|0.0002
82433827|NCT03745638|164578234|SUPERIORITY||Odds Ratio (OR)|6.01|||<|0.0001|TWO_SIDED|95.0|2.931|13.22||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||13.220|2.931|< 0.0001
82433828|NCT03745638|164578235|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0081|TWO_SIDED|95.0|1.242|5.723||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||5.723|1.242|0.0081
82433829|NCT03745638|164578235|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0039|TWO_SIDED|95.0|1.334|6.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||6.083|1.334|0.0039
82433830|NCT03745638|164578236|SUPERIORITY||Odds Ratio (OR)|1.67||||0.1421|TWO_SIDED|95.0|0.862|3.391||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.391|0.862|0.1421
82433831|NCT03745638|164578236|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0746|TWO_SIDED|95.0|0.949|3.665||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||||3.665|0.949|0.0746
82433832|NCT03745638|164578246|SUPERIORITY||Least Squares Mean Difference|-35.48|STANDARD_ERROR_OF_MEAN|4.16|<|0.0001|TWO_SIDED|95.0|-43.64|-27.32|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-27.32|-43.64|< 0.0001
82433833|NCT03745638|164578246|SUPERIORITY||Least Squares Method of Mean Difference]|-40.29|STANDARD_ERROR_OF_MEAN|4.15|<|0.0001|TWO_SIDED|95.0|-48.44|-32.13|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 2||-32.13|-48.44|< 0.0001
82433834|NCT03745638|164578246|SUPERIORITY||Least Squares Mean Difference|-45.01|STANDARD_ERROR_OF_MEAN|4.72|<|0.0001|TWO_SIDED|95.0|-54.28|-35.74|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-35.74|-54.28|< 0.0001
82433835|NCT03745638|164578246|SUPERIORITY||Least Squares Mean Difference|-48.05|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-57.3|-38.79|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 4||-38.79|-57.30|< 0.0001
82433836|NCT03745638|164578246|SUPERIORITY||Least Squares Mean Difference|-33.13|STANDARD_ERROR_OF_MEAN|4.49|<|0.0001|TWO_SIDED|95.0|-41.95|-24.3||The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.|Mixed-Model with Repeated Measures|||Percent change from Baseline in EASI score at Week 8||-24.30|-41.95|< 0.0001
82433837|NCT03745638|164578246|SUPERIORITY||Least Squares Mean Difference|-39.52|STANDARD_ERROR_OF_MEAN|4.48|<|0.0001|TWO_SIDED|95.0|-48.32|-30.72|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Percent change from Baseline in EASI score at Week 8||-30.72|-48.32|< 0.0001
82433838|NCT03745638|164578247|SUPERIORITY||Least Squares Mean Difference|-25.3|STANDARD_ERROR_OF_MEAN|3.74|<|0.0001|TWO_SIDED|95.0|-32.62|-17.95|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-17.95|-32.62|< 0.0001
82538653|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|589.61||||0.0002|TWO_SIDED|95.0|285.31|893.92|||ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||893.92|285.31|0.0002
82433839|NCT03745638|164578247|SUPERIORITY||Least Squares Mean Difference|-30.4|STANDARD_ERROR_OF_MEAN|3.72|<|0.0001|TWO_SIDED|95.0|-37.68|-23.06|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent change from Baseline in SCORAD score at Week 8||-23.06|-37.68|< 0.0001
82433840|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-1.87|-0.91|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-0.91|-1.87|<0.0001
82433841|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.11|-1.16|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 2||-1.16|-2.11|<0.0001
82433842|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.25|-1.15|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.15|-2.25|<0.0001
82433843|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.28|<|0.0001|TWO_SIDED|95.0|-2.63|-1.53|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 4||-1.53|-2.63|<0.0001
82433844|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.2|-1.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.01|-2.20|<0.0001
82433845|NCT03745638|164578248|SUPERIORITY||Least Squares Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.58|-1.4|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in Itch NRS score at Week 8||-1.40|-2.58|<0.0001
82433846|NCT03745638|164578250|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.74|-0.74|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-0.74|-1.74|<0.0001
82433847|NCT03745638|164578250|SUPERIORITY||Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-2.11|-1.13|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in Skin Pain NRS score at Week 8||-1.13|-2.11|<0.0001
82433848|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.54||0.0049|TWO_SIDED|95.0|-2.6|-0.47|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||-0.47|-2.60|0.0049
82433849|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-2.31|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-3.37|-1.25|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 2||-1.25|-3.37|<0.0001
82433850|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.6||0.0001|TWO_SIDED|95.0|-3.52|-1.15|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||-1.15|-3.52|0.0001
82433851|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.03|-1.67|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 4||-1.67|-4.03|<0.0001
82433852|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-2.54|STANDARD_ERROR_OF_MEAN|0.71||0.0004|TWO_SIDED|95.0|-3.93|-1.14|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||-1.14|-3.93|0.0004
82538654|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|651.57|||<|0.0001|TWO_SIDED|95.0|346.44|956.7||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||956.70|346.44|<0.0001
82433853|NCT03745638|164578253|SUPERIORITY||Least Squares Mean Difference|-3.18|STANDARD_ERROR_OF_MEAN|0.71|<|0.0001|TWO_SIDED|95.0|-4.57|-1.79|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form-Sleep Disturbance (8b) 24-hour recall score at Week 8||-1.79|-4.57|<0.0001
82433854|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.6||0.0487|TWO_SIDED|95.0|-2.35|-0.01|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.01|-2.35|0.0487
82433855|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.59||0.0049|TWO_SIDED|95.0|-2.84|-0.51|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 2||-0.51|-2.84|0.0049
82433856|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.66||0.0128|TWO_SIDED|95.0|-2.94|-0.35|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.35|-2.94|0.0128
82433857|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.66||0.0037|TWO_SIDED|95.0|-3.2|-0.62|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 4||-0.62|-3.20|0.0037
82433858|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-2.11|STANDARD_ERROR_OF_MEAN|0.75||0.0048|TWO_SIDED|95.0|-3.58|-0.65|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||-0.65|-3.58|0.0048
82433859|NCT03745638|164578254|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.74||0.002|TWO_SIDED|95.0|-3.75|-0.84|||Mixed-Model with Repeated Measures|The MMRM included the fixed effect of treatment, stratification factor, the visit, and treatment by visit interaction.||Change from Baseline in PROMIS Short Form - Sleep-Related Impairment (8a) 24-hour recall score at Week 8||-0.84|-3.75|0.0020
82433860|NCT03745638|164578257|SUPERIORITY||Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.07|-2.18|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.18|-4.07|<0.0001
82433861|NCT03745638|164578257|SUPERIORITY||Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-4.67|-2.79|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in %BSA at Week 8||-2.79|-4.67|<0.0001
82433862|NCT03745638|164578259|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-6.43|-3.8|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-3.80|-6.43|<0.0001
82433863|NCT03745638|164578259|SUPERIORITY||Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|0.67|<|0.0001|TWO_SIDED|95.0|-7.62|-5.0|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in POEM score at Week 8||-5.00|-7.62|<0.0001
82433864|NCT03745638|164578261|SUPERIORITY||Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-4.85|-2.68|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-2.68|-4.85|<0.0001
82453622|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% Confidence Interval (CI) of the GMC ratio between lots was within \[0.5;2\] for the anti-HPV-16 antibodies.|GMC ratio for anti-HPV-16 antibody|1.04|||||TWO_SIDED|95.0|0.81|1.34|||ANOVA|The ANOVA model on the logarithm (log)10 transformation of the concentrations. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.34|0.81|
82453623|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.19|||||TWO_SIDED|95.0|0.95|1.49|||ANOVA|The ANOVA model on the log10 transformation of theconcentrations. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.49|0.95|
82453624|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-16 antibodies.|GMC ratio for anti-HPV-16 antibody|1.26|||||TWO_SIDED|95.0|0.98|1.63|||ANOVA|The ANOVA model on the log10 transformation of the concnetration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.63|0.98|
82453625|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.48|||||TWO_SIDED|95.0|1.18|1.85|||ANOVA|The ANOVA model on the log10 transformation of the concnetration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.85|1.18|
82649041|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.71|||||TWO_SIDED|95.0|-20.37|27.8||||||For change in flatulence at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||27.80|-20.37|
82649042|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.04|||||TWO_SIDED|95.0|-5.73|31.81||||||For change in cachexia at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||31.81|-5.73|
82649043|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.12|||||TWO_SIDED|95.0|-3.23|33.46||||||For change in side effects at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||33.46|-3.23|
82649044|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|||||TWO_SIDED|95.0|-36.18|20.37||||||For change in fear of future health at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||20.37|-36.18|
82433865|NCT03745638|164578261|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-5.56|-3.42|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total DLQI score at Week 8||-3.42|-5.56|<0.0001
82433866|NCT03745638|164578263|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|1.01||0.0018|TWO_SIDED|95.0|-5.29|-1.26|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-1.26|-5.29|0.0018
82433867|NCT03745638|164578263|SUPERIORITY||Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.08||0.0378|TWO_SIDED|95.0|-4.43|-0.13|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in total CDLQI score at Week 8||-0.13|-4.43|0.0378
82433868|NCT03745638|164578267|SUPERIORITY||Odds Ratio (OR)|6.28|||<|0.0001|TWO_SIDED|95.0|3.632|11.018||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||11.018|3.632|<0.0001
82433869|NCT03745638|164578267|SUPERIORITY||Odds Ratio (OR)|8.39|||<|0.0001|TWO_SIDED|95.0|4.755|15.083||The unadjusted p-values between each treatment group and vehicle were calculated based on Exact Logistic Regression including treatment and stratification factors to test the treatment difference.|Exact Logistic Regression|||Percentage of participants with a score of either 1 or 2 on the PGIC at Week 8||15.083|4.755|<0.0001
82577478|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-1.4|||||TWO_SIDED|95.0|-4.0|1.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19F||1.2|-4.0|
82577479|NCT04546425|164864247|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent Difference|-18.3|||||TWO_SIDED|95.0|-23.6|-12.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 23F||-12.9|-23.6|
82577480|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|59.9|||||TWO_SIDED|95.0|55.6|64.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 8||64.1|55.6|
82577481|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|-7.6|||||TWO_SIDED|95.0|-13.1|-2.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 10A||-2.1|-13.1|
82577482|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.6|||||TWO_SIDED|95.0|53.1|61.9|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 11A||61.9|53.1|
82649045|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.38|||||TWO_SIDED|95.0|-20.24|51.01||||||For change in ability to plan future at Cycle 4 Day 1, mean change difference was used to compare the two treatment groups.||51.01|-20.24|
82433870|NCT03745638|164578268|SUPERIORITY||Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|1.67||0.0037|TWO_SIDED|95.0|1.59|8.15|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.15|1.59|0.0037
82433871|NCT03745638|164578268|SUPERIORITY||Least Squares Mean Difference|5.7|STANDARD_ERROR_OF_MEAN|1.66||0.0006|TWO_SIDED|95.0|2.45|8.96|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Change from Baseline in EQ VAS score at Week 8||8.96|2.45|0.0006
82433872|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|3.34||0.1417|TWO_SIDED|95.0|-11.49|1.65|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||1.65|-11.49|0.1417
82433873|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|3.29||0.6037|TWO_SIDED|95.0|-8.19|4.77|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent work time missed due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||4.77|-8.19|0.6037
82433874|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|2.99||0.0003|TWO_SIDED|95.0|-16.89|-5.12|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.12|-16.89|0.0003
82433875|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|2.93|<|0.0001|TWO_SIDED|95.0|-17.98|-6.47|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent impairment while working due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.47|-17.98|<0.0001
82433876|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|3.85|<|0.0001|TWO_SIDED|95.0|-22.95|-7.81|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-7.81|-22.95|<0.0001
82433877|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|3.77||0.0011|TWO_SIDED|95.0|-19.85|-5.01|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent overall work impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-5.01|-19.85|0.0011
82433878|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|2.13|<|0.0001|TWO_SIDED|95.0|-14.64|-6.29|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-6.29|-14.64|<0.0001
82577483|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|-6.2|||||TWO_SIDED|95.0|-11.7|-0.7|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 12F||-0.7|-11.7|
82577484|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.8|||||TWO_SIDED|95.0|53.3|62.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 15B||62.1|53.3|
82538655|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1827.19|||<|0.0001|TWO_SIDED|95.0|1519.78|2134.6||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||2134.60|1519.78|<0.0001
82538656|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|61.96||||0.6874|TWO_SIDED|95.0|-241.25|365.17||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||365.17|-241.25|0.6874
82538657|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1237.58|||<|0.0001|TWO_SIDED|95.0|931.46|1543.7|||ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||1543.70|931.46|<0.0001
82538658|NCT00708097|164777206|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1175.62|||<|0.0001|TWO_SIDED|95.0|869.15|1482.1||No adjustment made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment and period with subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means of the treatments in comparison, to be equal with respect to EFU. Statistical tests were 2-sided with a significance level of 0.05.||1482.10|869.15|<0.0001
82538659|NCT01875250|164777227|SUPERIORITY|||||||0.74|||||||Wilcoxon rank sum tests|||||||0.74
82538660|NCT00482729|164777239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|||<|0.001||95.0|-0.78|-0.43|||ANCOVA|Model terms: treatment, baseline A1C||||-0.43|-0.78|<0.001
82538661|NCT00482729|164777240|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07|||<|0.001||95.0|1.6|2.69||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 18 in the Sita/Met FDC group vs. the Metformin group.|ANCOVA|Model terms: treatment, baseline A1C|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 18 in the Sita/Met FDC group vs. the Metformin group.|||2.69|1.60|<0.001
82577485|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|57.8|||||TWO_SIDED|95.0|53.3|62.1|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 22F||62.1|53.3|
82577486|NCT04546425|164864247|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC - lowest 13vPnC) was greater than -10%.|Percent difference|10.3|||||TWO_SIDED|95.0|4.5|16.0|||||2-Sided 95% CI based on the Percent difference for the difference in proportions expressed as a percentage.|Serotype 33F||16.0|4.5|
82649046|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.25|||||TWO_SIDED|95.0|-10.09|32.59||||||For change in pancreatic pain at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||32.59|-10.09|
82538662|NCT00482729|164777241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.7|||<|0.001||95.0|-22.4|-9.0|||ANCOVA|Model terms: treatment, baseline A1C||||-9.0|-22.4|<0.001
82538663|NCT00482729|164777242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||||95.0|-0.67|-0.3|||||This is a difference in least squares means, based on an ANCOVA model with terms for treatment and baseline (i.e., Week 0) A1C.|||-0.30|-0.67|
82538664|NCT00482729|164777243|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||||95.0|1.63|2.73|||||This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<7.0% at Week 44 in the Sita/Met FDC group vs. the Metformin group, based on a logistic regression model with terms for treatment and baseline (i.e., Week 0) A1C|||2.73|1.63|
82538665|NCT00470626|164777285|SUPERIORITY_OR_OTHER||Probability of Successful Retrieval|0.9||||||95.0|||||||Probability of successful retrieval is from Kaplan-Meier analysis.|||||
82538666|NCT00516503|164777309|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
82538667|NCT00516503|164777310|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
82538668|NCT00516503|164777311|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.50
82538669|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.44|0.69||||||"Abdomen 10 minutes~Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate."||0.69|-0.44|
82538670|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|1.93|||||TWO_SIDED|95.0|1.36|2.49||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.49|1.36|
82538671|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.73|0.36||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.36|-0.73|
82577487|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.61|||||TWO_SIDED|95.0|0.54|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 1||0.69|0.54|
82577488|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.71|||||TWO_SIDED|95.0|0.64|0.79|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 3||0.79|0.64|
82649047|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.41|||||TWO_SIDED|95.0|-25.22|40.03||||||For change in eating related items at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||40.03|-25.22|
82433879|NCT03745638|164578269|SUPERIORITY||Least Squares Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED|95.0|-16.6|-8.29|||ANCOVA|P-value was analyzed using ANCOVA model with treatment, stratification factors and Baseline score as covariates if applicable.||Percent activity impairment due to AD: Change from Baseline in WPAI-SHP v2.0 at Week 8||-8.29|-16.60|<0.0001
82433880|NCT02168062|164578294|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||||||0.109
82433881|NCT02168062|164578296|OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Systolic Blood Pressure measurement comparison||||0.85
82453626|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-16 antibodies.|GMT ratio for anti-HPV-16 antibody|1.21|||||TWO_SIDED|95.0|0.94|1.55|||ANOVA|The ANOVA model on the log10 transformation of the concentration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.55|0.94|
82490172|NCT02390908|164673173|SUPERIORITY||Slope|0.06||||0.82|TWO_SIDED|95.0|-0.41|0.52||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.52|-0.41|0.82
82433882|NCT02168062|164578296|OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||Diastolic Blood Pressure measurement comparison||||0.10
82490173|NCT02390908|164673173|SUPERIORITY||Slope|0.14||||0.49|TWO_SIDED|95.0|-0.26|0.53||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.53|-0.26|0.49
82433883|NCT02168062|164578297|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Weight measurement comparison||||0.70
82433884|NCT02168062|164578298|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Percentage body fat measurement comparison||||0.11
82433885|NCT02168062|164578299|OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Waist measurement comparison||||0.32
82433886|NCT02168062|164578300|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Hemoglobin A1C measurement comparison||||0.70
82490174|NCT02390908|164673173|SUPERIORITY||Slope|-0.33||||0.18|TWO_SIDED|95.0|-0.8|0.15||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.15|-0.80|0.18
82490175|NCT02390908|164673173|SUPERIORITY||Slope|0.02||||0.89|TWO_SIDED|95.0|-0.28|0.32||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||0.32|-0.28|0.89
82490176|NCT02390908|164673174|SUPERIORITY||Beta|1.92||||0.95|TWO_SIDED|95.0|-54.68|58.53||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||58.53|-54.68|0.95
82490177|NCT02390908|164673174|SUPERIORITY||Beta|23.99||||0.61|TWO_SIDED|95.0|-67.54|115.51||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||115.51|-67.54|0.61
82490178|NCT02390908|164673174|SUPERIORITY||Beta|-23.71||||0.48|TWO_SIDED|95.0|-88.82|41.4||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 3 on CD4 Count was estimated against the No-Treatment Control EMR Group.|||41.40|-88.82|0.48
82490179|NCT02390908|164673174|SUPERIORITY||Beta|4.19||||0.88|TWO_SIDED|95.0|-49.76|58.14||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3 (the Waitlist condition) and the No-Treatment Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of being in the Waitlist condition (i.e., not receiving the PLUS intervention at Site 3) on log-transformed Viral Load was estimated against the No-Treatment Control EMR Group.|||58.14|-49.76|0.88
82538672|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.23|||||TWO_SIDED|95.0|1.69|2.78||||||Abdomen 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.78|1.69|
82538673|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.9|0.31||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.31|-0.90|
82433887|NCT02168062|164578301|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Insulin resistance score comparison||||0.46
82433888|NCT02168062|164578302|OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Total Cholesterol measurement comparison||||0.44
82433889|NCT02168062|164578302|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Total low density lipid measurement comparison||||0.52
82433890|NCT02168062|164578302|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Total high density lipid measurement comparison||||0.40
82433891|NCT02168062|164578302|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Total triglyceride measurement comparison||||0.53
82433892|NCT02168062|164578303|OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Non-vigorous physical activity comparison||||0.38
82433893|NCT02168062|164578303|OTHER|||||||0.979|||||||Wilcoxon (Mann-Whitney)|||Moderate physical activity comparison||||0.979
82433894|NCT02168062|164578303|OTHER|||||||0.884|||||||Wilcoxon (Mann-Whitney)|||Moderate-Vigorous physical activity comparison||||0.884
82433895|NCT02168062|164578303|OTHER|||||||0.678|||||||Wilcoxon (Mann-Whitney)|||Vigorous physical activity comparison||||0.678
82433896|NCT02168062|164578303|OTHER|||||||0.464|||||||Wilcoxon (Mann-Whitney)|||Total physical activity comparison||||0.464
82433897|NCT02168062|164578304|OTHER|||||||0.838|||||||Wilcoxon (Mann-Whitney)|||Average MVPA Minutes per Day Comparison||||0.838
82538674|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0|1.98|3.22||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||3.22|1.98|
82649048|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.28|||||TWO_SIDED|95.0|4.23|52.32||||||For change in altered bowel habits at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||52.32|4.23|
82433898|NCT02168062|164578305|OTHER|||||||0.677|||||||Wilcoxon (Mann-Whitney)|||Bone Density at the lumbar spine comparison||||0.677
82433899|NCT02168062|164578305|OTHER|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||Bone Density at the femoral neck comparison||||0.493
82433900|NCT02168062|164578305|OTHER|||||||0.807|||||||Wilcoxon (Mann-Whitney)|||Bone Density of the total hip comparison||||0.807
82433901|NCT02168062|164578306|OTHER|||||||0.403|||||||Wilcoxon (Mann-Whitney)|||Serum 25-(OH) vitamin D level comparison||||0.403
82433902|NCT02168062|164578307|OTHER|||||||0.385|||||||Wilcoxon (Mann-Whitney)|||||||.385
82433903|NCT02168062|164578308|OTHER|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||Attention Function Index (AFI) Score Comparison||||.148
82433904|NCT02168062|164578309|OTHER|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||Mental Composite Score Comparison||||.077
82433905|NCT02168062|164578309|OTHER|||||||0.401|||||||Wilcoxon (Mann-Whitney)|||Physical Composite Score Comparison||||0.401
82433906|NCT02168062|164578310|OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
82433907|NCT02168062|164578311|OTHER|||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||0.676
82433908|NCT02168062|164578312|OTHER|||||||0.183|||||||Wilcoxon (Mann-Whitney)|||||||0.183
82433909|NCT02168062|164578313|OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Total Score Comparison||||0.66
82433910|NCT02168062|164578313|OTHER|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Urinary Incontinence Score Comparison||||0.844
82433911|NCT02168062|164578313|OTHER|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Urinary Irriation Score Comparison||||0.175
82433912|NCT02168062|164578313|OTHER|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Bowel Function Score Comparison||||0.472
82433913|NCT02168062|164578313|OTHER|||||||0.405|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Sexual Function Score Comparison||||0.405
82433914|NCT02168062|164578313|OTHER|||||||0.749|||||||Wilcoxon (Mann-Whitney)|||EPIC-26 Hormonal Function Score Comparison||||0.749
82433915|NCT02168062|164578314|OTHER|||||||0.907|||||||Wilcoxon (Mann-Whitney)|||Fatigue Scale Score Comparison||||0.907
82433916|NCT02168062|164578314|OTHER|||||||0.792|||||||Wilcoxon (Mann-Whitney)|||Energy Scale Score Comparison||||0.792
82433917|NCT00182078|164578315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_DEVIATION|3.4|=|0.017|TWO_SIDED|95.0|||||t-test, 2 sided|||||||=0.017
82433918|NCT00182078|164578316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|3.9|<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
82433919|NCT00182078|164578317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|4.4|=|0.65|TWO_SIDED|95.0|||||t-test, 2 sided|||||||=0.65
82433920|NCT03135431|164578440|NON_INFERIORITY|\<=.5g/dl difference in the decrease in hemoglobin was considered equivalent as 1 unit of blood typically raises the hemoglobin by 1g/dl and would be a clinical significant difference.|Mean Difference (Final Values)|-0.04121||||0.08|ONE_SIDED|95.0||0.0712|||t-test, 1 sided|||Assuming that a difference of 0.5 g/dl in the drop in hemoglobin between study arms would be considered as equivalent, and assuming a common standard deviation of 1.1 based on previous studies of cesarean deliveries deliveries , the study would have 80% power to test for non-inferiority with 60 participants in each arm (120 total).|Based on new data from a retrospective study preformed at Mayo Clinic sites an additional power calculation was preformed. Based on the new information, our study was well powered (84%) to assess our primary aim with 38 participants (18 salpingectomy, 20 BTL); therefore, we discontinued recruitment and completed the study with the accrued subjects.|.0712||0.08
82433921|NCT03135431|164578441|SUPERIORITY||Mean Difference (Final Values)|-11.21|||||TWO_SIDED|95.0|-14.1|-8.3|||||Evidence to suggest salpingecotomy procedure had a longer operation time than a tubal ligation.|||-8.3|-14.1|
82538675|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.61|0.57||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.57|-0.61|
82433922|NCT03135431|164578442|SUPERIORITY||Mean Difference (Net)|-9.17||||0.77|TWO_SIDED|95.0|-72.5|54.17|||t-test, 2 sided|||Analysis preformed as categorical and categorical variable. Both analyzes had the same conclusion.||54.17|-72.5|0.77
82433923|NCT03122145|164578446|SUPERIORITY|Mann whitney U between groups comparison for voluntary cough parameters between healthy controls and individuals with ALS outcomes: peak expiratory cough flow and cough volume acceleration||||||0.0005|||||||ANOVA|||Hypothesis that voluntary cough \> reflex cough strength and effectiveness in healthy volunteers||||0.0005
82433924|NCT00375674|164578499|SUPERIORITY||Cox Proportional Hazard|0.761||||0.03|TWO_SIDED|95.0|0.594|0.975|||Cox Proportional hazards model|Based on the Cox Proportional hazards model stratified by UISS High-Risk Group.||Superiority analysis||0.975|0.594|0.030
82433925|NCT00375674|164578500|SUPERIORITY||Cox Proportional Hazard|0.811||||0.077|TWO_SIDED|95.0|0.643|1.023|||Cox Proportional hazards model|Based on the Cox Proportional hazards model stratified by UISS High-Risk Group||Superiority analysis||1.023|0.643|0.077
82433926|NCT00375674|164578501|SUPERIORITY||Hazard Ratio (HR)|0.929||||0.661|TWO_SIDED|95.0|0.67|1.289|||Log-rank test|||Hazard ratio was based on the Cox Proportional hazards model stratified by UISS High-Risk Group.||1.289|0.670|0.661
82433927|NCT01631747|164578538|SUPERIORITY|||||||0.01||||||p-value is not adjusted for multiple comparisons, and tested at an a priori type I error rate of 0.05.|t-test, 2 sided|||Sample size was based on an independent 2-sample t-test using a two-sided type 1 error rate of 0.05, and 80% power. Assuming a standard deviation (SD) of 15lbs (6.8kg), a clinically meaningful difference of 5lbs (2.4kg) between groups, and 10% attrition, a sample size of 150/group was required.||||0.01
82490180|NCT02390908|164673174|SUPERIORITY||Slope|7.67||||0.59|TWO_SIDED|95.0|-19.88|35.21||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||35.21|-19.88|0.59
82433928|NCT01631747|164578538|SUPERIORITY|||||||0.02|||||||Regression, Linear|adjusted for actual gestational age of 36 week weight, gestational age, bmi, and maternal age at randomization, maternal race and paternal race.||||||0.02
82433929|NCT01631747|164578539|SUPERIORITY|||||||0.54|||||||Chi-squared|||||||0.54
82433930|NCT01631747|164578540|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|T-test performed on change in glucose (log scale), but presented as Median and inter-quartile range for interpretability||||||0.89
82433931|NCT01631747|164578541|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|t-test performed on changes in HDL, but presented as median and IQR for ease of interpretation||||||0.30
82433932|NCT01631747|164578542|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|t-test run on changes between groups. Data presented as median and IQR for ease of interpretation||||||0.69
82538676|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.33|||||TWO_SIDED|95.0|1.72|2.93||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.93|1.72|
82433933|NCT01631747|164578543|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.19
82433934|NCT01631747|164578544|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|t-test used to compare changes between groups (log scale). Median and IQR are presented for ease of interpretation.||||||0.27
82433935|NCT01631747|164578545|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|t-test performed on changes between groups (log scale). Median and IQR are presented for ease of interpretation||||||0.003
82433936|NCT01631747|164578546|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.24
82433937|NCT01631747|164578547|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|t-test run on change between groups (log scale), but presented as median and IQR for ease of interpretation||||||0.32
82433938|NCT01631747|164578548|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|T-test performed on change between groups (log scale). Median and IQR are presented for ease of interpretation||||||0.26
82433939|NCT01631747|164578549|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
82433940|NCT01631747|164578550|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
82433941|NCT01631747|164578551|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
82433942|NCT01631747|164578552|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||||||0.25
82433943|NCT01631747|164578553|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82433944|NCT01631747|164578554|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||||||0.94
82433945|NCT01456195|164578555|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-0.72|-0.24||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.24|-0.72|<0.001
82433946|NCT01456195|164578555|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-1.0|-0.52||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-0.52|-1.00|<0.001
82433947|NCT01456195|164578556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.01|TWO_SIDED|95.0|1.2|3.79||P-Value used a logistic model with treatment, country and baseline HbA1c as explanatory variables.|Regression, Logistic|||||3.79|1.20|0.010
82433948|NCT01456195|164578556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.48|7.82||P-Value used a logistic model with treatment, country and baseline HbA1c as explanatory variables.|Regression, Logistic|||||7.82|2.48|<0.001
82538677|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-0.91|0.22||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.22|-0.91|
82538678|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.45|||||TWO_SIDED|95.0|1.88|3.01||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||3.01|1.88|
82433949|NCT01456195|164578557|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|4.59||0.003|TWO_SIDED|95.0|-22.7|-4.6||Mixed Model Repeated Measures (MMRM) model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-4.6|-22.7|0.003
82433950|NCT01456195|164578557|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-31.4|-13.2||MMRM model with treatment, country, visit and visit by treatment interaction as fixed factors and with baseline value and baseline value by visit interaction as covariates with an unstructured covariance structure.|Mixed model for repeated measurements|||||-13.2|-31.4|<0.001
82433951|NCT01456195|164578558|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.8|STANDARD_ERROR_OF_MEAN|17.17||0.1|TWO_SIDED|95.0|-63.2|5.7||ANCOVA model with treatment and country as fixed factors and baseline value as covariate.|ANCOVA|||||5.7|-63.2|0.100
82433952|NCT01456195|164578558|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.0|STANDARD_ERROR_OF_MEAN|17.7||0.096|TWO_SIDED|95.0|-65.5|5.5||ANCOVA model with treatment and country as fixed factors and baseline value as covariate.|ANCOVA|||||5.5|-65.5|0.096
82433953|NCT03304054|164578560|OTHER|||||||0.2196||||||P-value for Wilcoxon-Mann-Whitney Test of Equality of change from baseline distributions between the amifampridine phosphate and placebo treatment groups.|Wilcoxon (Mann-Whitney)|||A Wilcoxon-Mann-Whitney Rank Sum Test of equality of change from baseline distributions between subjects diagnosed with MuSK-MG treated with amifampridine and placebo was conducted.||||0.2196
82433954|NCT03304054|164578561|OTHER|||||||0.3736||||||P-value for Wilcoxon-Mann-Whitney Test of Equality of change from baseline distributions between the amifampridine phosphate and placebo treatment groups.|Wilcoxon (Mann-Whitney)|||A Wilcoxon-Mann-Whitney Rank Sum Test of equality of change from baseline distributions between subjects diagnosed with MuSK-MG treated with amifampridine and placebo was conducted.||||0.3736
82433955|NCT02908685|164578564|SUPERIORITY|This is the first end point and first family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.55||||0.0156|TWO_SIDED|95.0|0.3|2.81|||Mixed Model Repeated Measure Analysis|||||2.81|0.30|0.0156
82433956|NCT02908685|164578565|SUPERIORITY|This is the second end point and second family tested in the hierarchical testing. Logistic Regression Model.The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|2.35||||0.0469|TWO_SIDED|95.0|1.01|5.44||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Wald test|||||5.44|1.01|0.0469
82433957|NCT02908685|164578566|SUPERIORITY|This is the third end point and third family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.59||||0.0469|TWO_SIDED|95.0|0.55|2.62||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||2.62|0.55|0.0469
82433958|NCT02908685|164578567|SUPERIORITY|This is one of the two end points in family four in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|0.58||||0.3902|TWO_SIDED|95.0|-0.53|1.69||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||1.69|-0.53|0.3902
82433959|NCT02908685|164578568|SUPERIORITY|This is one of the two end points in family four in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-2.05||||0.3902|TWO_SIDED|95.0|-6.67|2.56||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||2.56|-6.67|0.3902
82433960|NCT02908685|164578569|SUPERIORITY|This is the sixth endpoint and the fifth family tested in the hierarchical testing. The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.55||||0.3902|TWO_SIDED|95.0|0.93|4.17||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Mixed Model Repeated Measure Analysis|||||4.17|0.93|0.3902
82433961|NCT02908685|164578570|SUPERIORITY|This is the seventh endpoint and the sixth family tested in the hierarchical testing. Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|1.38||||0.3902|TWO_SIDED|95.0|0.7|2.74||Adjusted p-Value The adjusted p-values were derived based on all the p-values from end points in order of the hierarchical testing up to the current endpoint.|Wald-test|||CGI Improved||2.74|0.70|0.3902
82433962|NCT02908685|164578571|SUPERIORITY|Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|2.0||||0.043|TWO_SIDED|95.0|1.02|3.93|||Wald test|||||3.93|1.02|0.0430
82433963|NCT02908685|164578573|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|0.64||||0.1328|TWO_SIDED|95.0|-0.2|1.47|||Mixed Model Repeated Measure Analysis|||||1.47|-0.20|0.1328
82577489|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 4||0.69|0.52|
82577490|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.7|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 5||0.70|0.52|
82577491|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.54|||||TWO_SIDED|95.0|0.45|0.65|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6A||0.65|0.45|
82577492|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.51|||||TWO_SIDED|95.0|0.43|0.61|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6B||0.61|0.43|
82577493|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.8|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 7F||0.80|0.64|
82453627|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The first primary objective was reached as the 95% CIs of the GMC ratio between lots were within \[0.5;2\] for the anti-HPV-18 antibodies.|GMC ratio for anti-HPV-18 antibody|1.24|||||TWO_SIDED|95.0|1.0|1.55|||ANOVA|The ANOVA model on the log10 transformation of the concentration. The ANOVA model included the vaccine group as fixed effect.||To demonstrate lot-to-lot consistency in terms of immunogenicity between the 3 industrial production lots (600L scale) of the Cervarix™ vaccine, one month post dose 3 (Month 7). If consistency was demonstrated the 3 lots would be pooled and non-inferiority of the 600L scale lot vaccine versus the 80L scale would be evaluated as a second primary objective.||1.55|1.00|
82577494|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.59|||||TWO_SIDED|95.0|0.5|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 9V||0.69|0.50|
82453628|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the difference in seroconversion rates for anti-HPV-16 antibodies was below 5%.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-3.63|1.02|||Proc StatXact 5.0|||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, one month after the third dose (Month 7).||1.02|-3.63|
82453629|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the difference in seroconversion rates for anti-HPV-18 antibodies was below 5%.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-3.18|0.94|||Proc StatXact 5.0|||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||0.94|-3.18|
82453630|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the GMC rates for anti-HPV-16 was below 2%.|GMC ratio for anti-HPV-16 antibody|0.87|||||TWO_SIDED|95.0|0.7|1.08|||ANOVA|The ANOVA model on the log10 transformation of the concentration, included the vaccine groups as fixed effect (pooled 600L lot versus 80L lot).||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||1.08|0.70|
82453631|NCT00250276|164612961|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The second primary objective was reached as the upper limit of the 95% CI of the GMC rates anti-HPV-18 antibodies was below 2%.|GMC ratio for anti-HPV-18 antibody|0.8|||||TWO_SIDED|95.0|0.66|0.97|||ANOVA|The ANOVA model on the log10 transformation of the concentration, included the vaccine groups as fixed effect (pooled 600L lot versus 80L lot).||To demonstrate that the Cervarix™ vaccine produced at 600L manufacturing scale was non-inferior in terms of immunogenicity to the Cervarix™ vaccine produced at 80L scale, on month after the third dose (Month 7).||0.97|0.66|
82453632|NCT03543137|164612977|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-t fell completely within the 0.80 - 1.25 range.|Geometric mean ratio|0.95|||||TWO_SIDED|90.0|0.88|1.02|||||GMR= (Prototype mini Lozenge/ Nicorette mini Lozenge)|||1.02|0.88|
82453633|NCT03543137|164612978|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for AUC0-inf fell completely within the range.|Geometric Mean Ratio|0.94|||||TWO_SIDED|90.0|0.88|1.01|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.01|0.88|
82453634|NCT03543137|164612983|EQUIVALENCE|Bioequivalence was determined if the 90% CIs of the GMRs for Cmax fell completely within the range.|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.9|1.04|||||GMR = (Prototype mini Lozenge/Nicorette mini Lozenge)|||1.04|0.90|
82453635|NCT02848222|164613046|SUPERIORITY|||||||0.02||||||Threshold for significance was p \< 0.05|ANOVA|||||||0.02
82649049|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.22|||||TWO_SIDED|95.0|5.09|43.34||||||For change in jaundice at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||43.34|5.09|
82649050|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.11|||||TWO_SIDED|95.0|-0.16|50.38||||||For change in body image at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||50.38|-0.16|
82538679|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.31|||||TWO_SIDED|95.0|-0.85|0.24||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.24|-0.85|
82538680|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.41|||||TWO_SIDED|95.0|1.87|2.95||||||Abdomen 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.95|1.87|
82538681|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.67|0.4||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.40|-0.67|
82538682|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.25|||||TWO_SIDED|95.0|1.7|2.8||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.80|1.70|
82538683|NCT03224299|164777316|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 CFU/cm\^2 less than the active control|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.56|0.48||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.48|-0.56|
82538684|NCT03224299|164777316|SUPERIORITY||Mean Difference (Final Values)|2.15|||||TWO_SIDED|95.0|1.62|2.68||||||Groin 30 seconds Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.68|1.62|
82538685|NCT00309452|164777333|SUPERIORITY_OR_OTHER|||||||0.018|||||||Chi-squared, Corrected|||Between groups comparison for hospitalization rates, adjusted for pretreatment hospitalization||||0.018
82538686|NCT00309452|164777337|SUPERIORITY_OR_OTHER|||||||0.002|||||||Chi-squared, Corrected|||Between groups comparison for vocational engagement, adjusted for pretreatment vocational engagement||||0.002
82538687|NCT02628093|164777344|OTHER|Because this was a pilot (exploratory) randomized study, no formal sample size calculation was required.||||||0.214||||||P value threshold \<0.05|Wilcoxon (Mann-Whitney)|||Because this was a pilot (exploratory) randomized study, no formal sample size calculation was required. Demographic, preoperative, and postoperative variables and the primary outcome were compared between groups (THUNDERBEAT and LigaSure) by the Wilcoxon rank-sum test for continuous variables and the chi-square test/Fisher's exact test for categorical variables, as appropriate. All p-values are two-sided with statistical significance evaluated at the 0.05 alpha level.||||0.214
82538688|NCT02628093|164777345|OTHER|||||||0.007||||||P value threshold \<0.05|Wilcoxon (Mann-Whitney)|||compared between groups by the Wilcoxon rank-sum test||||0.007
82433964|NCT02908685|164578574|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.97||||0.103|TWO_SIDED|95.0|-0.4|4.34|||Mixed Model Repeated Measure Analysis|||||4.34|-0.40|0.1030
82433965|NCT02908685|164578575|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.34||||0.0451|TWO_SIDED|95.0|0.05|4.62|||Mixed Model Repeated Measure Analysis|||||4.62|0.05|0.0451
82538689|NCT02628093|164777349|OTHER|||||||1||||||P value threshold \<0.05|Fisher Exact|||||||1.0
82538690|NCT02814643|164777351|OTHER||Geometric least-square mean ratio|0.87|||||TWO_SIDED|90.0|0.56|1.35|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H1N1||1.35|0.56|
82538691|NCT02814643|164777351|OTHER||Geometric least-square mean ratio|1.19|||||TWO_SIDED|90.0|0.82|1.71|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H3N2||1.71|0.82|
82649051|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.07|||||TWO_SIDED|95.0|-47.95|27.8||||||For change in health care satisfaction at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||27.80|-47.95|
82433966|NCT02908685|164578576|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.28||||0.0489|TWO_SIDED|95.0|0.01|2.56|||Mixed Model Repeated Measure Analysis|||||2.56|0.01|0.0489
82538692|NCT02814643|164777351|OTHER||Geometric least-square mean ratio|0.93|||||TWO_SIDED|90.0|0.67|1.29|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Yamagata lineage||1.29|0.67|
82538693|NCT02814643|164777351|OTHER||Geometric least-square mean ratio|0.8|||||TWO_SIDED|90.0|0.54|1.19|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Victoria lineage||1.19|0.54|
82538694|NCT02814643|164777352|OTHER||Geometric least-square mean ratio|1.0|||||TWO_SIDED|90.0|0.76|1.31|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H1N1||1.31|0.76|
82538695|NCT02814643|164777352|OTHER||Geometric least-square mean ratio|1.28|||||TWO_SIDED|90.0|0.93|1.77|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza A H3N2||1.77|0.93|
82453636|NCT01525615|164613053|SUPERIORITY_OR_OTHER||Treatment ratio|1.138|STANDARD_ERROR_OF_MEAN|0.063||0.0209|TWO_SIDED|95.0|1.02|1.269||Mixed effects Model for Repeated Measures (MMRM) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time), log10 (baseline endurance time) by test day interaction, and patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. This treatment comparison is the first one in the alpha-protected hierarchical testing chain.||1.269|1.020|0.0209
82453637|NCT01525615|164613053|SUPERIORITY_OR_OTHER||Treatment ratio|1.086|STANDARD_ERROR_OF_MEAN|0.061||0.1419|TWO_SIDED|95.0|0.973|1.213||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo. This treatment comparison is the second one in the alpha-protected hierarchical testing chain. Since the p-value for this treatment comparison is \>0.05, the hierarchical testing chain is broken and all of the following hypothesis tests in this hierarchical chain are considered as descriptive only.||1.213|0.973|0.1419
82453638|NCT01525615|164613053|SUPERIORITY_OR_OTHER||Treatment ratio|1.047|STANDARD_ERROR_OF_MEAN|0.057||0.397|TWO_SIDED|95.0|0.941|1.166||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. This treatment comparison is not included in the alpha-protected hierarchical testing chain.||1.166|0.941|0.3970
82453639|NCT01525615|164613054|SUPERIORITY_OR_OTHER||Tretament ratio|1.209|STANDARD_ERROR_OF_MEAN|0.119||0.0552|TWO_SIDED|95.0|0.996|1.467||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. Since the hierarchical testing chain has been broken, even though this treatment comparison is included as the 3rd one in the alpha-protected hierarchical testing chain, this hypothesis test is descriptive only.||1.467|0.996|0.0552
82453640|NCT01525615|164613054|SUPERIORITY_OR_OTHER||Treatment ratio|1.211|STANDARD_ERROR_OF_MEAN|0.121||0.0562|TWO_SIDED|95.0|0.995|1.475||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean, 95% confidence limits transformed from log10 to original scale. SE was calculated using the delta method. This hypothesis test is descriptive.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo||1.475|0.995|0.0562
82453641|NCT01525615|164613054|SUPERIORITY_OR_OTHER||Treatment ratio|0.998|STANDARD_ERROR_OF_MEAN|0.095||0.9822|TWO_SIDED|95.0|0.826|1.205||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. This treatment comparison is not included in the alpha-protected hierarchical testing chain.||1.205|0.826|0.9822
82453642|NCT01525615|164613055|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.234|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.133|0.336||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.|LSMean=Least square mean.|||0.336|0.133|<0.0001
82453643|NCT01525615|164613055|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.207|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.105|0.309||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.||||0.309|0.105|<0.0001
82453644|NCT01525615|164613055|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.027|STANDARD_ERROR_OF_MEAN|0.05||0.5892|TWO_SIDED|95.0|-0.072|0.126||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|This hypothesis test is descriptive.||||0.126|-0.072|0.5892
82453645|NCT01525615|164613056|SUPERIORITY_OR_OTHER||Treatment ratio|1.126|STANDARD_ERROR_OF_MEAN|0.059||0.0245|TWO_SIDED|95.0|1.015|1.248||ANCOVA model for log10 (endurance time \[s\]) with categorical effects of treatment and (log10-transformed) baseline as continuous covariate.|ANCOVA|This hypothesis test is descriptive.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo||1.248|1.015|0.0245
82453646|NCT01525615|164613056|SUPERIORITY_OR_OTHER||Treatment ratio|1.103|STANDARD_ERROR_OF_MEAN|0.058||0.0655|TWO_SIDED|95.0|0.994|1.223|||ANCOVA|Descriptive||Treatment ratio between Tio+Olo 2.5/5.0 and placebo||1.223|0.994|0.0655
82538696|NCT02814643|164777352|OTHER||Geometric least-square mean ratio|1.03||||||90.0|0.79|1.34|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Yamagata lineage||1.34|0.79|
82453647|NCT01525615|164613056|SUPERIORITY_OR_OTHER||Treatment ratio|1.021|STANDARD_ERROR_OF_MEAN|0.053||0.6912|TWO_SIDED|95.0|0.921|1.132|||ANCOVA|Descriptive||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0||1.132|0.921|0.6912
82538697|NCT02814643|164777352|OTHER||Geometric least-square mean ratio|1.26||||||90.0|0.93|1.7|||ANCOVA|The linear model effects are treatment group as a fixed effect and age group (adolescents and young adults) as fixed categorical covariate.||Influenza B Victoria lineage||1.70|0.93|
82538698|NCT03686813|164777360|OTHER|||||||0.317|||||||McNemar|||||||0.317
82538699|NCT03686813|164777361|OTHER|||||||0.317|||||||McNemar|||||||0.317
82538700|NCT03686813|164777362|OTHER||||||>|0.999|||||||McNemar|||||||>0.999
82538701|NCT03686813|164777363|OTHER|||||||0.18|||||||McNemar|||||||0.18
82453648|NCT01525615|164613057|SUPERIORITY_OR_OTHER||Treatment ratio|1.229|STANDARD_ERROR_OF_MEAN|0.068||0.0002|TWO_SIDED|95.0|1.103|1.37||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and placebo. Hypothesis test is descriptive||1.370|1.103|0.0002
82453649|NCT01525615|164613057|SUPERIORITY_OR_OTHER||Treatment ratio|1.221|STANDARD_ERROR_OF_MEAN|0.068||0.0004|TWO_SIDED|95.0|1.095|1.362||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 2.5/5.0 and placebo. Hypothesis test is descriptive.||1.362|1.095|0.0004
82453650|NCT01525615|164613057|SUPERIORITY_OR_OTHER||Treatment ratio|1.006|STANDARD_ERROR_OF_MEAN|0.055||0.9062|TWO_SIDED|95.0|0.905|1.12||MMRM model for log10 (endurance time \[s\]) with fixed effects of treatment, test day, treatment by test day interaction, log10 (baseline endurance time \[s\]), log10 (baseline endurance time \[s\]) by test day interaction, patient as a random effect.|Mixed Models Analysis|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was calculated using the delta method.||Treatment ratio between Tio+Olo 5.0/5.0 and Tio+Olo 2.5/5.0. Hypothesis test is descriptive.||1.12|0.905|0.9062
82453651|NCT01525615|164613058|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.165|STANDARD_ERROR_OF_MEAN|0.058||0.0049|TWO_SIDED|95.0|0.051|0.279||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.279|0.051|0.0049
82453652|NCT01525615|164613058|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.202|STANDARD_ERROR_OF_MEAN|0.058||0.0006|TWO_SIDED|95.0|0.088|0.316||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.316|0.088|0.0006
82538702|NCT03686813|164777364|OTHER|||||||0.29|||||||McNemar|||||||0.29
82649052|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.61|||||TWO_SIDED|95.0|-21.78|14.57||||||For change in sexual functioning at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||14.57|-21.78|
82453653|NCT01525615|164613058|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.037|STANDARD_ERROR_OF_MEAN|0.058||0.5162|TWO_SIDED|95.0|-0.151|0.076||ANCOVA model for inspiratory capacity (liters) with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.076|-0.151|0.5162
82453654|NCT01525615|164613059|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.225|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.124|0.326||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.326|0.124|<0.0001
82453655|NCT01525615|164613059|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.187|STANDARD_ERROR_OF_MEAN|0.052||0.0003|TWO_SIDED|95.0|0.086|0.288||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.288|0.086|0.0003
82453656|NCT01525615|164613059|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.038|STANDARD_ERROR_OF_MEAN|0.05||0.4541|TWO_SIDED|95.0|-0.061|0.137||MMRM model for inspiratory capacity with fixed effects of treatment, test day, treatment by test day interaction, baseline inspiratory capacity, baseline inspiratory capacity by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.137|-0.061|0.4541
82453657|NCT01525615|164613060|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0468|TWO_SIDED|95.0|-0.004|0.0||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||-0.000|-0.004|0.0468
82453658|NCT01525615|164613060|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.018|TWO_SIDED|95.0|-0.005|0.0||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||-0.000|-0.005|0.0180
82453659|NCT01525615|164613060|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.6856|TWO_SIDED|95.0|-0.002|0.002||ANCOVA model for mean slope of the intensity of breathing discomfort with categorical effect of treatment and baseline as continuous covariate.|ANCOVA|Descriptive||||0.002|-0.002|0.6856
82453660|NCT01525615|164613061|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0081|TWO_SIDED|95.0|-0.005|-0.001||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.001|-0.005|0.0081
82538703|NCT00812877|164777398|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.35||||0.046|TWO_SIDED|95.0|1.19|4.66||A clustered permutation test with 10,000 random permutations based on the log rank test statistic was used for the primary treatment comparison to account for censoring and to ensure proper test size given the number of practices.|Log Rank||A confirmatory analysis, adjusted for patient, dentist, and tooth characteristics, and follow-up time, was performed using marginal proportional hazards regression with robust standard error estimates accounting for clustering by practice.|||4.66|1.19|.046
82538704|NCT00549848|164777434|SUPERIORITY|||||||0.778|||||||Cochran-Mantel-Haenszel|||||||0.778
82538705|NCT00286741|164777447|SUPERIORITY_OR_OTHER|||||||0.15|||||||Mixed Models Analysis|||||||0.15
82538706|NCT00286741|164777448|SUPERIORITY_OR_OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82577495|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.96|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 14||0.96|0.70|
82649053|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.98|||||TWO_SIDED|95.0|-17.02|28.99||||||For change in ascites at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||28.99|-17.02|
82433967|NCT02908685|164578577|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.16||||0.0326|TWO_SIDED|95.0|0.18|4.14|||Mixed Model Repeated Measure Analysis|||||4.14|0.18|0.0326
82433968|NCT02908685|164578578|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-2.87||||0.3029|TWO_SIDED|95.0|-8.36|2.62|||Mixed Model Repeated Measure Analysis|||||2.62|-8.36|0.3029
82433969|NCT02908685|164578579|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.28||||0.4937|TWO_SIDED|95.0|-2.42|4.99|||Mixed Model Repeated Measure Analysis|||||4.99|-2.42|0.4937
82433970|NCT02908685|164578580|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.35||||0.3967|TWO_SIDED|95.0|-3.11|7.8|||Mixed Model Repeated Measure Analysis|||||7.80|-3.11|0.3967
82433971|NCT02908685|164578581|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|2.96||||0.6704|TWO_SIDED|95.0|-10.78|16.7|||Mixed Model Repeated Measure Analysis|||||16.70|-10.78|0.6704
82453661|NCT01525615|164613061|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0099|TWO_SIDED|95.0|-0.005|-0.001||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.001|-0.005|0.0099
82453662|NCT01525615|164613061|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.9626|TWO_SIDED|95.0|-0.002|0.002||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.002|-0.002|0.9626
82453663|NCT01525615|164613062|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0598|TWO_SIDED|95.0|-0.004|0.0||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.000|-0.004|0.0598
82649054|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.08|||||TWO_SIDED|95.0|-5.39|49.55||||||For change in indigestion at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||49.55|-5.39|
82649055|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.78|||||TWO_SIDED|95.0|-15.33|34.89||||||For change in flatulence at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||34.89|-15.33|
82649056|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.81|||||TWO_SIDED|95.0|-10.43|42.06||||||For change in cachexia at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.06|-10.43|
82649057|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.77|||||TWO_SIDED|95.0|1.11|42.43||||||For change in side effects at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||42.43|1.11|
82433972|NCT02908685|164578582|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|-0.43||||0.8856|TWO_SIDED|95.0|-6.3|5.45|||Mixed Model Repeated Measure Analysis|||||5.45|-6.30|0.8856
82433973|NCT02908685|164578583|SUPERIORITY|The variables included in the MMRM model are: baseline total score, treatment, age group, visit, treatment-by-visit and baseline score-by-visit interaction.|Least Square Mean Difference|1.45||||0.1778|TWO_SIDED|95.0|-0.68|3.57|||Mixed Model Repeated Measure Analysis|||||3.57|-0.68|0.1778
82433974|NCT02908685|164578584|SUPERIORITY|Logistic Regression Model. The variables included in the logistic regression are: baseline total score, treatment and age group.|Odds Ratio (OR)|1.21||||0.6636|TWO_SIDED|95.0|0.52|2.83|||Wald-test|||CGI No Change or Improved||2.83|0.52|0.6636
82433975|NCT05926544|164578616|SUPERIORITY||Risk Ratio (RR)|0.46|||||TWO_SIDED|95.0|0.18|1.16|||||The Standard implementation arm was the reference group.|||1.16|0.18|
82433976|NCT04683029|164578617|SUPERIORITY||LS Mean Difference|-12.6|||<|0.001|TWO_SIDED|80.0|-13.8|-11.4|||MMRM model|||||-11.4|-13.8|< 0.001
82433977|NCT04683029|164578618|SUPERIORITY||LS Mean Difference|-12.0|||||TWO_SIDED|80.0|-13.3|-10.7||||||||-10.7|-13.3|
82433978|NCT04683029|164578619|SUPERIORITY||Odds Ratio (OR)|0.1|||||TWO_SIDED|80.0|0.0|0.3||||||Week 24||0.3|0.0|
82433979|NCT04683029|164578619|SUPERIORITY||Odds Ratio (OR)|0.1|||||TWO_SIDED|80.0|0.0|0.2||||||Week 52||0.2|0.0|
82433980|NCT04683029|164578620|SUPERIORITY||Odds Ratio (OR)|203.2|||||TWO_SIDED|80.0|42.1|980.6||||||Week 24||980.6|42.1|
82433981|NCT04683029|164578620|SUPERIORITY||Odds Ratio (OR)|130.3|||||TWO_SIDED|80.0|28.2|601.9||||||Week 52||601.9|28.2|
82433982|NCT04683029|164578621|SUPERIORITY||LS Mean Difference|-47.2|||||TWO_SIDED|80.0|-96.8|2.4||||||Week 24||2.4|-96.8|
82433983|NCT04683029|164578621|SUPERIORITY||LS Mean difference|-14.2|||||TWO_SIDED|80.0|-57.2|28.8||||||Week 52||28.8|-57.2|
82433984|NCT04683029|164578622|SUPERIORITY||LS Mean Difference|0.0|||||TWO_SIDED|80.0|-1.7|1.6||||||Week 24||1.6|-1.7|
82433985|NCT04683029|164578622|SUPERIORITY||LS Mean Difference|0.1|||||TWO_SIDED|80.0|-1.4|1.7||||||Week 52||1.7|-1.4|
82433986|NCT04683029|164578623|SUPERIORITY||LS Mean Difference|-0.08|||||TWO_SIDED|80.0|-0.44|0.27||||||Week 24||0.27|-0.44|
82433987|NCT04683029|164578623|SUPERIORITY||LS Mean Difference|0.21|||||TWO_SIDED|80.0|-0.29|0.71||||||Week 52||0.71|-0.29|
82433988|NCT04683029|164578624|SUPERIORITY||LS Mean Difference|-2.08|||||TWO_SIDED|80.0|-3.81|-0.34||||||Week 24||-0.34|-3.81|
82433989|NCT04683029|164578624|SUPERIORITY||LS Mean Difference|0.14|||||TWO_SIDED|80.0|-2.13|2.42||||||Week 52||2.42|-2.13|
82433990|NCT04683029|164578625|SUPERIORITY||LS Mean Difference|-4.9|||||TWO_SIDED|80.0|-5.7|-4.0||||||Week 24||-4.0|-5.7|
82433991|NCT04683029|164578625|SUPERIORITY||LS Mean Difference|-4.3|||||TWO_SIDED|80.0|-5.1|-3.5||||||Week 52||-3.5|-5.1|
82538707|NCT00543725|164777459|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|3.7|||<|0.0001||95.0|-1.6|9.0||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||9.0|-1.6|<0.0001
82538708|NCT00543725|164777460|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|3.9|||<|0.0001||95.0|-1.9|9.6|||Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||9.6|-1.9|<0.0001
82433992|NCT04683029|164578626|SUPERIORITY||LS Mean Difference|-0.4006|||||TWO_SIDED|80.0|-0.5344|-0.2668||||||Week 24||-0.2668|-0.5344|
82433993|NCT04683029|164578626|SUPERIORITY||LS Mean Difference|-0.2355|||||TWO_SIDED|80.0|-0.373|-0.098||||||Week 52||-0.0980|-0.3730|
82433994|NCT00814580|164578640|NON_INFERIORITY_OR_EQUIVALENCE|Primary hypothesis test for non-inferiority of tapentadol IR over oxycodone IR required that upper limit of 95% CI for LS mean difference (oxycodone IR minus tapentadol IR) was less than the inferiority margin (\< 72). If the upper limit was less than 0 then tapentadol IR was superior to oxycodone IR for SPID over 3 days at a 5% level of significance.|Least square mean difference|9.0|STANDARD_ERROR_OF_MEAN|14.2||0.5265|TWO_SIDED|95.0|-18.9|36.9||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||Tapentadol IR versus Oxycodone IR||36.9|-18.9|0.5265
82433995|NCT00814580|164578641|SUPERIORITY_OR_OTHER|||||||0.7306||95.0|||||Log Rank|||||||0.7306
82433996|NCT00814580|164578642|SUPERIORITY_OR_OTHER|||||||0.8524||95.0|||||Log Rank|||||||0.8524
82433997|NCT00814580|164578643|SUPERIORITY_OR_OTHER|||||||0.9078||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.9078
82433998|NCT00814580|164578644|SUPERIORITY_OR_OTHER|||||||0.2633||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.2633
82433999|NCT00814580|164578645|SUPERIORITY_OR_OTHER|||||||0.4498||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.4498
82434000|NCT00814580|164578646|SUPERIORITY_OR_OTHER|||||||0.2158||95.0||||Cochran-Mantel-Haenszel test (Row Mean Score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.2158
82434001|NCT00814580|164578647|SUPERIORITY_OR_OTHER||Least square mean difference|6.6|STANDARD_ERROR_OF_MEAN|9.34||0.4811|TWO_SIDED|95.0|-11.8|25.0||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||25.0|-11.8|0.4811
82434002|NCT00814580|164578648|SUPERIORITY_OR_OTHER||Least square mean difference|-9.3|STANDARD_ERROR_OF_MEAN|28.13||0.7405|TWO_SIDED|95.0|-64.7|46.0||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||46.0|-64.7|0.7405
82434003|NCT00814580|164578649|SUPERIORITY_OR_OTHER||Least square mean difference|-5.6|STANDARD_ERROR_OF_MEAN|5.53||0.3097|TWO_SIDED|95.0|-16.5|5.3||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||5.3|-16.5|0.3097
82434004|NCT00814580|164578650|SUPERIORITY_OR_OTHER||Least square mean difference|-10.3|STANDARD_ERROR_OF_MEAN|8.34||0.2179|TWO_SIDED|95.0|-26.7|6.1||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||6.1|-26.7|0.2179
82434005|NCT00814580|164578651|SUPERIORITY_OR_OTHER||Least square mean difference|-26.3|STANDARD_ERROR_OF_MEAN|16.16||0.1051|TWO_SIDED|95.0|-58.1|5.5||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||5.5|-58.1|0.1051
82434006|NCT00814580|164578652|SUPERIORITY_OR_OTHER||Least square mean difference|1.0|STANDARD_ERROR_OF_MEAN|12.09||0.9367|TWO_SIDED|95.0|-22.8|24.8||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||24.8|-22.8|0.9367
82434007|NCT00814580|164578653|SUPERIORITY_OR_OTHER||Least square mean difference|-1.3|STANDARD_ERROR_OF_MEAN|18.53||0.9441|TWO_SIDED|95.0|-37.8|35.2||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||35.2|-37.8|0.9441
82434008|NCT00814580|164578654|SUPERIORITY_OR_OTHER||Least square mean difference|-35.6|STANDARD_ERROR_OF_MEAN|37.45||0.3427|TWO_SIDED|95.0|-109.3|38.1||Analysis of covariance (ANCOVA) model included baseline pain intensity score as the covariate and treatment and pooled center as class variables.|ANCOVA|||||38.1|-109.3|0.3427
82434009|NCT00814580|164578655|SUPERIORITY_OR_OTHER|||||||0.1618||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.1618
82434010|NCT00814580|164578656|SUPERIORITY_OR_OTHER|||||||0.0481||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers.|Cochran-Mantel-Haenszel|||||||0.0481
82434011|NCT00814580|164578657|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||Cochran-Mantel-Haenszel test (row mean score option) controlling for pooled investigator centers|Cochran-Mantel-Haenszel|||||||0.0109
82453664|NCT01525615|164613062|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.003|STANDARD_ERROR_OF_MEAN|0.001||0.0218|TWO_SIDED|95.0|-0.005|0.0||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||-0.000|-0.005|0.0218
82577496|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 18C||0.92|0.67|
82577497|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.59|||||TWO_SIDED|95.0|0.51|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19A||0.69|0.51|
82538709|NCT00543725|164777461|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|2.4|||<|0.0001||95.0|-3.6|8.4||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||8.4|-3.6|<0.0001
82538710|NCT00543725|164777462|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|0.7|||<|0.0001||95.0|-5.6|7.0|||Regression, Logistic|Logistic regression model included treatment arm and background NRTI regimen as factors, and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||7.0|-5.6|<0.0001
82538711|NCT00667693|164777473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.23|0.55|||Regression, Cox|||||0.55|0.23|<0.001
82538712|NCT03383887|164777478|SUPERIORITY||Median Difference (Final Values)|2.7||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.56
82538713|NCT03383887|164777479|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
82538714|NCT00300456|164777480|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 24% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82538715|NCT00300456|164777480|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect 24% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82577498|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.82|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19F||0.82|0.64|
82577499|NCT04546425|164864248|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.52|||||TWO_SIDED|95.0|0.44|0.62|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 23F||0.62|0.44|
82434012|NCT01340625|164578691|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.84|||||TWO_SIDED|90.0|100.91|115.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||115.24|100.91|
82649058|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.81|||||TWO_SIDED|95.0|-41.91|12.28||||||For change in fear of future health at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||12.28|-41.91|
82538716|NCT00300456|164777481|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 98% power to detect a 9% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82538717|NCT00300456|164777481|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 98% power to detect a 9% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82538718|NCT00300456|164777482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect an 11% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82577500|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|26.55|||||TWO_SIDED|95.0|22.98|30.67|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 8||30.67|22.98|
82434013|NCT01340625|164578692|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.03|||||TWO_SIDED|90.0|96.74|111.88|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.88|96.74|
82434014|NCT01340625|164578693|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.97|||||TWO_SIDED|90.0|95.73|108.62|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.62|95.73|
82434015|NCT01340625|164578694|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.24|||||TWO_SIDED|90.0|90.04|102.86|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.86|90.04|
82453665|NCT01525615|164613062|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.0|STANDARD_ERROR_OF_MEAN|0.001||0.6549|TWO_SIDED|95.0|-0.002|0.003||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.003|-0.002|0.6549
82453666|NCT01525615|164613063|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.17|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.116|0.224||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.224|0.116|<0.0001
82453667|NCT01525615|164613063|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.184|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.129|0.239||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.239|0.129|<0.0001
82453668|NCT01525615|164613063|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.014|STANDARD_ERROR_OF_MEAN|0.027||0.6105|TWO_SIDED|95.0|-0.067|0.04||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.040|-0.067|0.6105
82453669|NCT01525615|164613064|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.246|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.192|0.3||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.300|0.192|<0.0001
82453670|NCT01525615|164613064|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.273|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.218|0.328||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.328|0.218|<0.0001
82453671|NCT01525615|164613064|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.027|STANDARD_ERROR_OF_MEAN|0.027||0.3236|TWO_SIDED|95.0|-0.08|0.027||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.027|-0.080|0.3236
82453672|NCT01525615|164613065|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.251|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.196|0.305||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.305|0.196|<0.0001
82453673|NCT01525615|164613065|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|0.257|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.202|0.312||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.312|0.202|<0.0001
82453674|NCT01525615|164613065|SUPERIORITY_OR_OTHER||LSMean Difference-Final Values|-0.006|STANDARD_ERROR_OF_MEAN|0.027||0.8156|TWO_SIDED|95.0|-0.06|0.047||MMRM model with fixed effects of treatment, test day, treatment by test day interaction, baseline, baseline by test day interaction, and patient as a random effect.|Mixed Models Analysis|Descriptive||||0.047|-0.060|0.8156
82453675|NCT02451943|164613130|SUPERIORITY||Hazard Ratio (HR)|1.047||||0.6945|TWO_SIDED|95.0|0.841|1.303|||Log Rank|Stratified||||1.303|0.841|0.6945
82453676|NCT02451943|164613131|SUPERIORITY||Hazard Ratio (HR)|0.951||||0.7618|TWO_SIDED|95.0|0.69|1.312|||Log Rank|Stratified||||1.312|0.690|0.7618
82453677|NCT02451943|164613132|SUPERIORITY||Hazard Ratio (HR)|1.231||||0.0422|TWO_SIDED|95.0|1.009|1.502|||Log Rank|Stratified||||1.502|1.009|0.0422
82453678|NCT02451943|164613138|SUPERIORITY||Hazard Ratio (HR)|0.616||||0.0934|TWO_SIDED|95.0|0.347|1.093|||Log Rank|Stratified||||1.093|0.347|0.0934
82453679|NCT02451943|164613139|SUPERIORITY||Hazard Ratio (HR)|1.123||||0.3347|TWO_SIDED|95.0|0.892|1.413|||Log Rank|Stratified||||1.413|0.892|0.3347
82538719|NCT00300456|164777482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect an 11% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82538720|NCT01806714|164777508|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3|||<|0.04|TWO_SIDED|95.0|1.0|1.6|||clustered stratified Proportional Hazard||We determined hazard ratios using a clustered stratified Cox model with the Efron method to handle tied events and the Huber/White variance estimator that clustered on primary care provider and stratified on practice.|||1.6|1.0|<0.04
82538721|NCT02155829|164777511|SUPERIORITY|||||||0.442|||||||ANCOVA|ANCOVA covariate included site.||||||0.442
82538722|NCT02155829|164777512|SUPERIORITY|||||||0.994|||||||ANCOVA|ANCOVA covariate included site.||||||0.994
82538723|NCT02155829|164777513|SUPERIORITY|||||||0.684|||||||ANCOVA|ANCOVA covariate included site.||||||0.684
82538724|NCT02155829|164777514|SUPERIORITY|||||||0.913|||||||ANCOVA|ANCOVA covariate included site.||||||0.913
82577501|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.67|||||TWO_SIDED|95.0|2.25|3.17|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 10A||3.17|2.25|
82434016|NCT01340625|164578695|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.8|||||TWO_SIDED|90.0|93.89|103.97|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.97|93.89|
82434017|NCT01340625|164578696|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.59|||||TWO_SIDED|90.0|94.91|104.5|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.50|94.91|
82434018|NCT03249909|164578700|NON_INFERIORITY|Analysis of the change in exudate status (Decrease, Equal/Unchanged, Increase) from baseline to 4 weeks in the treatment groups with the two-sided Sign test on the Intent To Treat (ITT) population at 95% confidence interval.||||||0.0019|||||||Sign test|||||||0.0019
82434019|NCT00842153|164578727|SUPERIORITY_OR_OTHER|||||||0.1269||95.0||||P-value for Week 1|Fisher Exact|||||||0.1269
82538725|NCT02155829|164777515|SUPERIORITY|||||||0.746|||||||ANCOVA|ANCOVA covariate included site.||||||0.746
82538726|NCT02155829|164777516|SUPERIORITY|||||||0.057|||||||ANCOVA|ANCOVA covariate included site.||||||0.057
82538727|NCT02155829|164777517|SUPERIORITY|||||||0.0496|||||||ANCOVA|ANCOVA covariate included site.||||||0.0496
82538728|NCT00678795|164777519|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.11||||0.569|TWO_SIDED|95.0|-0.47|0.26|||ANCOVA|||The primary endpoint, the change in the number of incontinence episodes per day, was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline number of incontinence episodes per day as a covariate.||0.26|-0.47|0.569
82434020|NCT00842153|164578727|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-value for Week 2|Chi-squared|||||||<0.0001
82434021|NCT00842153|164578727|SUPERIORITY_OR_OTHER|||||||0.0015||95.0||||P-value for Week 4|Chi-squared|||||||0.0015
82538729|NCT00678795|164777520|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.76||||0.071|TWO_SIDED|95.0|-1.58|0.07|||ANCOVA|||The change in the number of urgency episodes per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of urgency episodes per day as a covariate.||0.07|-1.58|0.071
82538730|NCT00678795|164777521|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.28||||0.01|TWO_SIDED|95.0|-0.5|-0.07|||ANCOVA|||The change in the number of nocturia episodes per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of nocturia episodes per day as a covariate.||-0.07|-0.50|0.010
82538731|NCT00678795|164777522|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.08||||0.74|TWO_SIDED|95.0|-0.57|0.41|||ANCOVA|||The change in the number of incontinence pads used per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of number of incontinence pads used per day as a covariate.||0.41|-0.57|0.74
82538732|NCT00678795|164777523|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.9||||0.166|TWO_SIDED|95.0|-1.65|9.46|||ANCOVA|||The change from baseline in the I-QOL score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline I-QOL score as a covariate.||9.46|-1.65|0.166
82538733|NCT00678795|164777524|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.16||||0.001|TWO_SIDED|95.0|-1.82|-0.51|||ANCOVA|||The change from baseline in the overall bladder condition Numerical Rating Scale score at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline overall bladder condition Numerical Rating Scale score as a covariate.||-0.51|-1.82|0.001
82538734|NCT00678795|164777525|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|25.4||||0.002|TWO_SIDED|95.0|10.37|40.42|||Fisher Exact|||For Patient Global Impression of Change, the proportions of subjects who considered their condition 'Very Much Improved', 'Much Improved' or 'Minimally Improved' were compared between treatment groups using Fisher's Exact Test.||40.42|10.37|0.002
82649059|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.11|||||TWO_SIDED|95.0|1.6|60.62||||||For change in ability to plan future at Cycle 5 Day 1, mean change difference was used to compare the two treatment groups.||60.62|1.60|
82538735|NCT00678795|164777526|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.85||||0.007|TWO_SIDED|95.0|-1.47|-0.23|||ANCOVA|||The change in the number of voids per day was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline number of voids per day as a covariate.||-0.23|-1.47|0.007
82538736|NCT04059237|164777527|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<0.001
82538737|NCT04059237|164777528|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<.001
82538738|NCT04059237|164777529|OTHER||||||<|0.001||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||<0.001
82538739|NCT04059237|164777530|OTHER|||||||0.1||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.10
82538740|NCT04059237|164777531|OTHER|||||||0.01||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||.01
82577502|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|26.6|||||TWO_SIDED|95.0|22.95|30.82|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 11A||30.82|22.95|
82577503|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.48|||||TWO_SIDED|95.0|2.08|2.97|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 12F||2.97|2.08|
82649060|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.74|||||TWO_SIDED|95.0|-20.62|38.1||||||For change in pancreatic pain at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||38.10|-20.62|
82649061|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|||||TWO_SIDED|95.0|-68.52|42.05||||||For change in eating related items at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||42.05|-68.52|
82538741|NCT04059237|164777532|OTHER|||||||0.59||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.59
82538742|NCT04059237|164777533|OTHER|||||||0.02||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.02
82538743|NCT04059237|164777534|OTHER|||||||0.52||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.52
82538744|NCT04059237|164777535|OTHER|||||||0.08||||||Repeated measures ANOVA evaluated change in outcome variables across the study time points.|ANOVA|||||||0.08
82538745|NCT01689519|164777544|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0001|TWO_SIDED|95.0|0.39|0.68||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Primary Analysis 9 May 2014||0.68|0.39|0.0001
82538746|NCT01689519|164777544|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.72||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Post hoc Efficacy Analysis: 16 January 2015||0.72|0.46|<0.0001
82538747|NCT01689519|164777544|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.79||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Extended 5-Year Analysis: 21 July 2019||0.79|0.53|<0.0001
82538748|NCT01689519|164777545|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.645||||0.0463|TWO_SIDED|95.0|0.42|1.0||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Primary Analysis 9 May 2014||1.00|0.42|0.0463
82538749|NCT01689519|164777545|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65||||0.0034|TWO_SIDED|95.0|0.49|0.87||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Post hoc Analysis 16 January 2015||0.87|0.49|0.0034
82538750|NCT01689519|164777545|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7||||0.005|TWO_SIDED|95.0|0.55|0.9||The analysis was stratified by geographic region and metastasis classification (disease stage).|Log Rank|||Final Analysis 28 August 2015||0.90|0.55|0.0050
82538751|NCT01689519|164777546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.85|||<|0.0001|TWO_SIDED|95.0|14.13|31.58|||Chi-squared|||Primary Analysis: 9 May 2014||31.58|14.13|<0.0001
82538752|NCT01689519|164777546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.6|||<|0.0001|TWO_SIDED|95.0|11.0|28.3|||Chi-squared|||Post hoc Efficacy Analysis: 16 January 2015||28.3|11.0|<0.0001
82538753|NCT01689519|164777546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.0|||<|0.0001|TWO_SIDED|95.0|11.4|28.7|||Chi-squared|||Extended 5-Year Analysis: 21 July 2019||28.70|11.40|<0.0001
82538754|NCT04173572|164777565|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-13.47|STANDARD_DEVIATION|48.09|||TWO_SIDED|||||||||Posttreatment - Baseline: 10 participants analyzed (had data at both time points)||||
82538755|NCT04173572|164777565|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.7|STANDARD_DEVIATION|52.743|||TWO_SIDED|||||||||Posttreatment - Baseline: 9 participants analyzed (had data at both time points)||||
82577504|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|54.6|||||TWO_SIDED|95.0|46.35|64.3|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 15B||64.30|46.35|
82434022|NCT05319600|164578752|SUPERIORITY|treatment group as predictor baseline-residualized week 12 scores in linear regression|Slope|129.2|STANDARD_ERROR_OF_MEAN|73.96|<|0.05|TWO_SIDED|95.0|-22.52|280.98|||Regression, Linear||Control coded as 0 and treatment as 1|||280.98|-22.52|<0.05
82453680|NCT03951077|164613149|SUPERIORITY||Adjusted Response Rate Difference|-5.9||||0.3|TWO_SIDED|90.0|-15.38|3.49|||Cochran-Mantel-Haenszel|||Across the strata, 90% confidence interval (CI) for adjusted difference and p-value were calculated according to the Cochran-Mantel-Haenszel (CMH) test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.49|-15.38|0.300
82453681|NCT03951077|164613149|SUPERIORITY||Adjusted Response Rate Difference|-5.9||||0.32|TWO_SIDED|90.0|-15.65|3.86|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.86|-15.65|0.320
82453682|NCT03951077|164613149|SUPERIORITY||Adjusted Response Rate Difference|-5.6||||0.315|TWO_SIDED|90.0|-14.87|3.59|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.59|-14.87|0.315
82453683|NCT03951077|164613149|SUPERIORITY||Adjusted Response Rate Difference|-6.7||||0.265|TWO_SIDED|90.0|-16.63|3.19|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||3.19|-16.63|0.265
82453684|NCT03951077|164613149|SUPERIORITY||Adjusted Response Rate Difference|-0.8||||0.914|TWO_SIDED|90.0|-13.1|11.48|||Cochran-Mantel-Haenszel|||Across the strata, 90% CI for adjusted difference and p-value were calculated according to the CMH test adjusted for strata (Baseline FG score \[\< 8, ≥ 8\], and baseline normal/obese status \[BMI \< 30, ≥ 30\]) for the comparison of between each elagolix group and placebo. If zero frequency occurred, the zero count was replaced by 0.1 to prevent dividing by zero.||11.48|-13.10|0.914
82453685|NCT03951077|164613150|SUPERIORITY||Least Squares (LS) Mean of Difference|-5.93|STANDARD_ERROR_OF_MEAN|3.429||0.087|TWO_SIDED|90.0|-11.628|-0.231|||MMRM|||P-value is from mixed-effect model repeated measure (MMRM) with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-0.231|-11.628|0.087
82538756|NCT04173572|164777566|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|22.133|STANDARD_DEVIATION|79.938|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538757|NCT04173572|164777566|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|7.8|STANDARD_DEVIATION|99.645|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538758|NCT04173572|164777567|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|13.642|STANDARD_DEVIATION|4213.837|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82577505|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|36.8|||||TWO_SIDED|95.0|31.57|42.89|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 22F||42.89|31.57|
82649062|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.06|||||TWO_SIDED|95.0|-7.93|52.05||||||For change in altered bowel habits at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||52.05|-7.93|
82649063|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.63|||||TWO_SIDED|95.0|-5.64|42.89||||||For change in jaundice at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||42.89|-5.64|
82538759|NCT04173572|164777567|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-483.4|STANDARD_DEVIATION|2497.312|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538760|NCT04173572|164777568|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.229|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538761|NCT04173572|164777568|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.563|STANDARD_DEVIATION|8.695|||TWO_SIDED|||||||||Posttreatment - Baseline: 16 participants analyzed (had data at both time points)||||
82538762|NCT04173572|164777569|OTHER|Single group mean difference between baseline and post-treatment assessments.|Median Difference (Net)|-9.333|STANDARD_DEVIATION|14.166|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538763|NCT04173572|164777569|OTHER|Single group mean difference between baseline and post-treatment assessments.|Median Difference (Net)|0.625|STANDARD_DEVIATION|9.664|||TWO_SIDED|||||||||Posttreatment - Baseline: 16 participants analyzed (had data at both time points)||||
82538764|NCT04173572|164777570|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.392|STANDARD_DEVIATION|1.148|||TWO_SIDED|||||||||Posttreatment - Baseline: 13 participants analyzed (had data at both time points)||||
82649064|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.96|||||TWO_SIDED|95.0|-9.93|57.84||||||For change in body image at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||57.84|-9.93|
82649065|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.54|||||TWO_SIDED|95.0|-32.7|59.78||||||For change in health care satisfaction at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.78|-32.70|
82649066|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.14|||||TWO_SIDED|95.0|-29.46|55.74||||||For change in sexual functioning at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||55.74|-29.46|
82434023|NCT05319899|164578753|OTHER||Geometric Mean Ratio (%)|140.63|||||TWO_SIDED|90.0|118.94|166.26||||||Analysis was performed using analysis of variance (ANOVA).||166.26|118.94|
82434024|NCT05319899|164578753|OTHER||Geometric Mean Ratio (%)|77.65|||||TWO_SIDED|90.0|65.67|91.8||||||Analysis was performed using ANOVA.||91.80|65.67|
82434025|NCT05319899|164578754|OTHER||Geometric Mean Ratio (%)|128.23|||||TWO_SIDED|90.0|112.99|145.52||||||Analysis was performed using ANOVA.||145.52|112.99|
82434026|NCT05319899|164578754|OTHER||Geometric Mean Ratio (%)|95.94|||||TWO_SIDED|90.0|84.54|108.88||||||Analysis was performed using ANOVA.||108.88|84.54|
82434027|NCT03423238|164578761|SUPERIORITY|||||||0.388|||||||t-test, 2 sided|||Baseline||||0.388
82434028|NCT03423238|164578762|SUPERIORITY|||||||0.017|||||||ANCOVA|||Month 3||||0.017
82434029|NCT03423238|164578762|SUPERIORITY|||||||0.002|||||||ANCOVA|||Month 6||||0.002
82434030|NCT03423238|164578763|SUPERIORITY|||||||0.653|||||||t-test, 2 sided|||Baseline||||0.653
82434031|NCT03423238|164578764|SUPERIORITY|||||||0.684|||||||ANCOVA|||Month 3||||0.684
82434032|NCT03423238|164578764|SUPERIORITY|||||||0.458|||||||ANCOVA|||Month 6||||0.458
82434033|NCT03423238|164578765|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Baseline||||0.550
82434034|NCT03423238|164578766|SUPERIORITY|||||||0.973|||||||ANCOVA|||Month 3||||0.973
82434035|NCT03423238|164578766|SUPERIORITY|||||||0.432|||||||ANCOVA|||Month 6||||0.432
82434036|NCT03423238|164578767|SUPERIORITY|||||||0.23063|||||||t-test, 2 sided|||Baseline||||0.23063
82434037|NCT03423238|164578768|SUPERIORITY|||||||0.854|||||||ANCOVA|||Month 3||||0.854
82434038|NCT03423238|164578768|SUPERIORITY|||||||0.874|||||||ANCOVA|||Month 6||||0.874
82434039|NCT03423238|164578769|SUPERIORITY|||||||0.563|||||||t-test, 2 sided|||Baseline||||0.563
82434040|NCT03423238|164578770|SUPERIORITY|||||||0.008|||||||ANCOVA|||Month 3||||0.008
82434041|NCT03423238|164578770|SUPERIORITY|||||||0.922|||||||ANCOVA|||Month 6||||0.922
82434042|NCT03423238|164578771|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||Baseline||||0.667
82434043|NCT03423238|164578772|SUPERIORITY|||||||0.692|||||||ANCOVA|||Month 3||||0.692
82434044|NCT03423238|164578772|SUPERIORITY|||||||0.59|||||||ANCOVA|||Month 6||||0.590
82434045|NCT03423238|164578773|SUPERIORITY|||||||0.844|||||||t-test, 2 sided|||Baseline||||0.844
82434046|NCT03423238|164578774|SUPERIORITY|||||||0.721|||||||ANCOVA|||Month 3||||0.721
82434047|NCT03423238|164578774|SUPERIORITY|||||||0.851|||||||ANCOVA|||Month 6||||0.851
82434048|NCT03423238|164578775|SUPERIORITY|||||||0.815|||||||t-test, 2 sided|||Baseline||||0.815
82434049|NCT03423238|164578776|SUPERIORITY|||||||0.488|||||||ANCOVA|||Month 3||||0.488
82434050|NCT03423238|164578776|SUPERIORITY|||||||0.237|||||||ANCOVA|||Month 6||||0.237
82434051|NCT03423238|164578777|SUPERIORITY|||||||0.506|||||||t-test, 2 sided|||||||0.506
82434052|NCT03423238|164578778|SUPERIORITY|||||||0.549|||||||ANCOVA|||Month 3||||0.549
82434053|NCT03423238|164578778|SUPERIORITY|||||||0.303|||||||ANCOVA|||Month 6||||0.303
82434054|NCT03423238|164578779|SUPERIORITY|||||||0.934|||||||t-test, 2 sided|||Baseline||||0.934
82434055|NCT03423238|164578780|SUPERIORITY|||||||0.792|||||||ANCOVA|||Month 3||||0.792
82434056|NCT03423238|164578780|SUPERIORITY|||||||0.417|||||||ANCOVA|||Month 6||||0.417
82434057|NCT03423238|164578781|SUPERIORITY|||||||0.685|||||||t-test, 2 sided|||Baseline||||0.685
82434058|NCT03423238|164578782|SUPERIORITY|||||||0.854|||||||ANCOVA|||Month 3||||0.854
82434059|NCT03423238|164578782|SUPERIORITY|||||||0.903|||||||ANCOVA|||Month 6||||0.903
82434060|NCT03423238|164578783|SUPERIORITY|||||||0.569|||||||t-test, 2 sided|||Baseline||||0.569
82434061|NCT03423238|164578784|SUPERIORITY|||||||0.824|||||||ANCOVA|||Month 3||||0.824
82434062|NCT03423238|164578784|SUPERIORITY|||||||0.401|||||||ANCOVA|||Month 6||||0.401
82434063|NCT03423238|164578785|SUPERIORITY|||||||0.188|||||||t-test, 2 sided|||Baseline||||0.188
82434064|NCT03423238|164578786|SUPERIORITY|||||||0.338|||||||ANCOVA|||Month 3||||0.338
82434065|NCT03423238|164578786|SUPERIORITY|||||||0.484|||||||ANCOVA|||Month 6||||0.484
82434066|NCT03423238|164578787|SUPERIORITY|||||||0.533|||||||t-test, 2 sided|||Baseline||||0.533
82434067|NCT03423238|164578788|SUPERIORITY|||||||0.992|||||||ANCOVA|||Month 3||||0.992
82434068|NCT03423238|164578788|SUPERIORITY|||||||0.639|||||||ANCOVA|||Month 6||||0.639
82434069|NCT01032603|164578800|SUPERIORITY||Difference in percentage of participants|9.0||||0.24|TWO_SIDED|95.0|-6.0|23.0|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=46%, RR group=37%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||23|-6|0.24
82434070|NCT01032603|164578801|SUPERIORITY||Difference in percentage of participants|8.0||||0.25|TWO_SIDED|95.0|-6.0|21.0|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=34%, RR group=26%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||21|-6|0.25
82434071|NCT01032603|164578802|SUPERIORITY||Difference in percentage of participants|-7.0||||0.06|TWO_SIDED|95.0|-14.0|0.23|||Z test||Proportion of participants meeting criteria was obtained by Kaplan-Meier method. BLR group=3%, RR group=10%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||0.23|-14|0.06
82538765|NCT04173572|164777570|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.113|STANDARD_DEVIATION|1.401|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538766|NCT04173572|164777571|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.2|STANDARD_DEVIATION|20.11|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538767|NCT04173572|164777571|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.49|STANDARD_DEVIATION|8.91|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82538768|NCT04173572|164777572|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.39|STANDARD_DEVIATION|4.67|||TWO_SIDED|||||||||Posttreatment - Baseline: 11 participants analyzed (had data at both time points)||||
82538769|NCT04173572|164777572|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|3.43|STANDARD_DEVIATION|9.4|||TWO_SIDED|||||||||Posttreatment - Baseline: 11 participants analyzed (had data at both time points)||||
82434072|NCT01032603|164578803|SUPERIORITY||Difference in percentage of participants|4.0||||0.36|TWO_SIDED|95.0|-5.0|14.0|||Z test||Proportion of participants meeting criteria by 3 yrs was obtained by KM method. BLR group=14%, RR group=10%. Probability was compared b/w groups using Z test. A group difference and 95% CI were calculated. Positive differences favor the RR group.|||14|-5|0.36
82434073|NCT01032603|164578805|SUPERIORITY|||||||0.44|||||||ANOVA|||3-year control outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value (e.g. ANCOVA model of 3-year distance control will adjust for baseline distance control).||||0.44
82434074|NCT01032603|164578808|SUPERIORITY|||||||0.64|||||||ANOVA|||3-year control outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value (e.g. ANCOVA model of 3-year near control will adjust for baseline near control).||||0.64
82434075|NCT01032603|164578811|SUPERIORITY|||||||0.21|||||||ANOVA|||3-year PACT outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.21
82434076|NCT01032603|164578814|SUPERIORITY|||||||0.38|||||||ANOVA|||3-year PACT outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.38
82434077|NCT01032603|164578817|SUPERIORITY|||||||0.93|||||||ANOVA|||3-year stereoacuity outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.93
82434078|NCT01032603|164578820|SUPERIORITY|||||||0.82|||||||ANOVA|||3-year stereoacuity outcomes were analyzed as continuous variables and compared between treatment groups using analysis of covariance (ANOVA) models that adjust for the corresponding baseline value.||||0.82
82434079|NCT01032603|164578822|SUPERIORITY|||||||0.3||||||Child 5 to 7 years old|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.30
82434080|NCT01032603|164578822|SUPERIORITY|||||||0.77||||||Child 8 to 13 years old|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.77
82434081|NCT01032603|164578822|SUPERIORITY|||||||0.51||||||Parent Proxy IXTQ|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.51
82434082|NCT01032603|164578822|SUPERIORITY|||||||0.42||||||Parent Psychosocial|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.42
82434083|NCT01032603|164578822|SUPERIORITY|||||||0.68||||||Parent Function|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.68
82434084|NCT01032603|164578822|SUPERIORITY|||||||0.64||||||Parent Surgical|Wilcoxon (Mann-Whitney)|||For the each of the two age-specific versions of the child IXTQ, the proxy questionnaire, and for each of the three parent questionnaire subscales, mean Rasch-based HRQOL scores9, 10 at 3 years were compared between treatment groups using the Wilcoxon rank sum test.||||0.64
82434085|NCT01032603|164578823|SUPERIORITY||Difference in percentage|5.0|||||TWO_SIDED|95.0|-2.0|13.0||||||"The cumulative proportion of participants with re-operation by 3 years was obtained using the Kaplan-Meier (K-M) method.~A treatment-group difference and a corresponding 95% confidence interval were calculated.~Treatment-group differences were calculated as BLR minus RR."||13|-2|
82434086|NCT01032603|164578824|SUPERIORITY||Difference in percentage of participants|-15.0|||||TWO_SIDED|95.0|-30.0|-0.0003||||||All treatment-group differences were calculated as the BLRc group minus the R\&R group. A treatment-group difference and a corresponding 95% confidence interval were calculated.||-.0003|-30|
82434087|NCT01032603|164578825|SUPERIORITY||Difference in percentage of participants|12.0|||||TWO_SIDED|95.0|-1.0|25.0||||||The proportion of participants with suboptimal surgical outcome at 3 years was compared between treatment groups using Barnard's exact test, and an exact 95% CI on the treatment-group difference was calculated using Farrington-Manning scores.||25|-1|
82434088|NCT01104545|164578851|OTHER||Geometric mean ratio (GMR)|1.0|||||||||||||GMR = Fed/Fasted|||||
82434089|NCT01104545|164578852|OTHER||GMR|0.73|||||||||||||GMR = Fed/fasted|||||
82434090|NCT00923351|164578871|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Fisher Exact|||||||0.043
82434091|NCT00940290|164578874|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Kruskal-Wallis|||After reading the clinical practice guideline, the median response from the four groups were compared using the Kruskal-Wallis statistic||||0.007
82434092|NCT02993822|164578911|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.324|TWO_SIDED|95.0|0.88|1.49|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.49|0.88|0.324
82434093|NCT02993822|164578911|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.332|TWO_SIDED|95.0|0.88|1.48|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.48|0.88|0.332
82538770|NCT04173572|164777573|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-3.667|STANDARD_DEVIATION|9.067|||TWO_SIDED|||||||||Posttreatment - Baseline: 15 participants analyzed (had data at both time points)||||
82434094|NCT02993822|164578911|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.531|TWO_SIDED|95.0|0.71|1.2|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.20|0.71|0.531
82434095|NCT02993822|164578912|SUPERIORITY||Mean Difference (Final Values)|0.93||||0.482|TWO_SIDED|95.0|0.75|1.15|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.15|0.75|0.482
82434096|NCT02993822|164578912|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.46|TWO_SIDED|95.0|0.75|1.14|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.14|0.75|0.460
82453686|NCT03951077|164613150|SUPERIORITY||LS Mean of Difference|-8.83|STANDARD_ERROR_OF_MEAN|3.435||0.012|TWO_SIDED|90.0|-14.533|-3.118|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-3.118|-14.533|0.012
82453687|NCT03951077|164613150|SUPERIORITY||LS Mean of Difference|-16.1|STANDARD_ERROR_OF_MEAN|3.356|<|0.001|TWO_SIDED|90.0|-21.673|-10.519|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-10.519|-21.673|<0.001
82453688|NCT03951077|164613150|SUPERIORITY||LS Mean of Difference|-6.15|STANDARD_ERROR_OF_MEAN|3.593||0.091|TWO_SIDED|90.0|-12.116|-0.176|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-0.176|-12.116|0.091
82453689|NCT03951077|164613150|SUPERIORITY||LS Mean of Difference|-11.72|STANDARD_ERROR_OF_MEAN|3.431|<|0.001|TWO_SIDED|90.0|-17.418|-6.016|||MMRM|||P-value is from MMRM with the fixed categorical effects of treatment, visit, treatment-by-visit interaction, baseline FG score (\< 8, ≥ 8), and baseline normal/obese status (BMI \< 30, ≥ 30), participant as a random effect, and the continuous fixed covariate of baseline measurement. Model is based on unstructured variance covariance structure.||-6.016|-17.418|< 0.001
82453690|NCT01395901|164613156|NON_INFERIORITY_OR_EQUIVALENCE|For the primary efficacy analysis, the confidence interval (CI) was built on the FAS using the stratum adjusted Mantel-Haenszel (MH) method with correction of continuity. The non-inferiority margin was -10%.|Risk Difference (RD)|-4.4|||||TWO_SIDED|95.0|-10.5|1.7||||||"The null hypothesis (H0) was stated as:~• H0 : CR 0-24 hr palonosetron - CR 0-24 hr ondansetron \<-10%~The alternative hypothesis (H1) was stated as:~• H1 : CR 0-24 hr palonosetron - CR 0-24 hr ondansetron \>-10%~A power of 80% was used for sample size computation."||1.7|-10.5|
82453691|NCT00853151|164613209|SUPERIORITY_OR_OTHER|||||||0.623||90.0||||p-value is for LY2428757 plus TT223 3 mg versus LY2428757 plus TT223 placebo.|Mixed Models Analysis|Model included treatment, baseline therapy, strata, visit, and treatment-by-visit interaction, and continuous fixed covariate of baseline HbA1c.||||||0.623
82538771|NCT04173572|164777573|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.071|STANDARD_DEVIATION|12.25|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82538772|NCT04173572|164777574|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|9.9|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82577506|NCT04546425|164864248|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 6B (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.03|||||TWO_SIDED|95.0|4.27|5.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 33F||5.92|4.27|
82453692|NCT00853151|164613209|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||p-value is for LY2428757 plus TT223 2 mg versus LY2428757 plus TT223 placebo.|Mixed Models Analysis|Model included treatment, baseline therapy, strata, visit, and treatment-by-visit interaction, and continuous fixed covariate of baseline HbA1c.||||||0.809
82538773|NCT04173572|164777574|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|0.714|STANDARD_DEVIATION|11.717|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82538774|NCT04173572|164777575|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|3.071|STANDARD_DEVIATION|10.737|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82538775|NCT04173572|164777575|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|5.571|STANDARD_DEVIATION|9.288|||TWO_SIDED|||||||||Posttreatment - Baseline: 14 participants analyzed (had data at both time points)||||
82538776|NCT00414206|164777610|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANCOVA|||||||>0.05
82649067|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.37|||||TWO_SIDED|95.0|-24.04|36.79||||||For change in ascites at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||36.79|-24.04|
82538777|NCT01726023|164777611|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority would be concluded if the lower limit of the 95% confidence interval (CI; corresponding to a 97.5% 1 sided lower bound) was greater than -12.5% for the primary outcome variable.|Risk Difference (RD)|-0.2|||<|0.001|TWO_SIDED|95.0|-5.53|4.97||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff ≤ -12.5%.|% Risk Difference (RD)|RD is CAZ AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|units for RD are %|The Primary objective of this study was to assess the non inferiority (based on a 12.5% margin) of CAZ AVI plus metronidazole compared to meropenem alone with respect to clinical cure at the TOC visit in patients who were CE.||4.97|-5.53|<0.001
82538778|NCT01726023|164777644|SUPERIORITY_OR_OTHER||Difference in median time (days)|0.5||||0.773|||||||Log Rank|||||||0.773
82434097|NCT02993822|164578912|SUPERIORITY||Mean Difference (Final Values)|0.86||||0.144|TWO_SIDED|95.0|0.69|1.06|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.06|0.69|0.144
82434098|NCT02993822|164578913|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.992|TWO_SIDED|95.0|0.78|1.27|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.27|0.78|0.992
82434099|NCT02993822|164578913|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.387|TWO_SIDED|95.0|0.71|1.14|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.14|0.71|0.387
82434100|NCT02993822|164578913|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.6|TWO_SIDED|95.0|0.74|1.19|||Mixed model repeated measures|||Change from baseline to each visit (Week 2, Week 4 and Week 12) in log transformed awake objective cough frequency was analysed using a mixed model for repeated measures (MMRM) with restricted maximum likelihood (REML) estimation. The treatment effect at Week 12 was estimated using the ratio of geometric means (i.e. the difference between the treatments least squares means \[adjusted means\] on the log scale, back transformed to the original scale).||1.19|0.74|0.600
82434101|NCT02993822|164578914|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.042|TWO_SIDED|95.0|0.0|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|0.0|0.042
82434102|NCT02993822|164578914|SUPERIORITY||Median Difference (Final Values)|1.1||||0.026|TWO_SIDED|95.0|0.1|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|0.1|0.026
82434103|NCT02993822|164578914|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.003|TWO_SIDED|95.0|0.5|2.4|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.4|0.5|0.003
82434104|NCT02993822|164578915|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.25|TWO_SIDED|95.0|-0.4|1.7|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.7|-0.4|0.250
82434105|NCT02993822|164578915|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.325|TWO_SIDED|95.0|-0.5|1.5|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.5|-0.5|0.325
82434106|NCT02993822|164578915|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.029|TWO_SIDED|95.0|0.1|2.2|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.2|0.1|0.029
82538779|NCT01726023|164777645|SUPERIORITY_OR_OTHER||Difference in median time (days)|1.0||||0.598|||||||Log Rank|||||||0.598
82538780|NCT04341298|164777664|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82538781|NCT04341298|164777665|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82649068|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.59|||||TWO_SIDED|95.0|-17.94|59.12||||||For change in indigestion at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.12|-17.94|
82453693|NCT00797277|164613254|NON_INFERIORITY_OR_EQUIVALENCE|There was no previous study comparing these 2 treatments. We hypothesized that the mean difference between the 2 treatments would be small.|Mean Difference (Final Values)|1.0|||<|0.05|||||||t-test, 2 sided|||we hypothesized that there would be no statistical significant difference between the 2 groups in the primary outcome.||||<0.05
82453694|NCT01751984|164613274|SUPERIORITY||Least squares mean difference|-28.7|||<|0.0001|TWO_SIDED|95.0|-35.4|-22.1|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-22.1|-35.4|<0.0001
82453695|NCT01751984|164613275|SUPERIORITY||Least squares mean difference|-18.0|||<|0.0001|TWO_SIDED|95.0|-24.3|-11.8|||ANCOVA||Estimation from Week 2. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-11.8|-24.3|<0.0001
82453696|NCT01751984|164613275|SUPERIORITY||Least squares mean difference|-30.0|||<|0.0001|TWO_SIDED|95.0|-35.2|-24.7|||ANCOVA||Estimation from Week 4. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-24.7|-35.2|<0.0001
82453697|NCT01751984|164613275|SUPERIORITY||Least squares mean difference|-28.8|||<|0.0001|TWO_SIDED|95.0|-36.9|-20.8|||ANCOVA||Estimation from Week 6. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-20.8|-36.9|<0.0001
82453698|NCT01751984|164613275|SUPERIORITY||Least squares mean difference|-28.5|||<|0.0001|TWO_SIDED|95.0|-37.2|-19.8|||ANCOVA||Estimation from Week 8. The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-19.8|-37.2|<0.0001
82538782|NCT04341298|164777666|SUPERIORITY|||||||0.66|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects with a pain score of 3 or less after 2 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting mild or no symptoms after 2 hours and the type of device, across all strata.||||0.66
82538783|NCT04341298|164777667|SUPERIORITY|||||||0.59|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects requiring abortive medication within 8 hours were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects requiring abortive medication within 8 hours and the type of device, across all strata.||||0.59
82538784|NCT04341298|164777668|SUPERIORITY|||||||0.19|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects experiencing light sensitivity after 2 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting light sensitivity after 2 hours and the type of device, across all strata.||||0.19
82538785|NCT04341298|164777669|SUPERIORITY|||||||1|||||||Mantel Haenszel|Subjects were stratified based on baseline pain score (6-7 vs. 8-10) prior to analysis using Cochran-Mantel-Haenszel test||Each subject was stratified by baseline pain score for the first severe headache that they experienced (score of 6-7 vs. 8-10). The total number of subjects, and the number of subjects experiencing light sensitivity after 4 hours, were tabulated within each stratum. A Cochran-Mantel-Haenszel test was conducted to test the hypothesis of lack of association between the proportion of subjects reporting light sensitivity after 4 hours and the type of device, across all strata.||||1.0
82453699|NCT01751984|164613276|SUPERIORITY||Least squares mean difference|-5.8||||0.1892|TWO_SIDED|95.0|-14.5|2.9|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||2.9|-14.5|0.1892
82453700|NCT01751984|164613277|SUPERIORITY||Least squares mean difference|-20.9|||<|0.0001|TWO_SIDED|95.0|-28.0|-13.9|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-13.9|-28.0|<0.0001
82453701|NCT01751984|164613278|SUPERIORITY||Least squares mean difference|-18.4|||<|0.0001|TWO_SIDED|95.0|-24.2|-12.7|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-12.7|-24.2|<0.0001
82453702|NCT01751984|164613279|SUPERIORITY||Least squares mean difference|18.7|||=|0.0962|TWO_SIDED|95.0|-3.5|40.8|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||40.8|-3.5|=0.0962
82453703|NCT01751984|164613280|SUPERIORITY||Least squares mean difference|-15.3|||=|0.0019|TWO_SIDED|95.0|-24.6|-6.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||-6.0|-24.6|=0.0019
82453704|NCT01751984|164613281|SUPERIORITY||Least squares mean difference|-4.2|||=|0.2555|TWO_SIDED|95.0|-11.7|3.2|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||3.2|-11.7|=0.2555
82453705|NCT01751984|164613282|SUPERIORITY||Least squares mean difference|11.7||||0.2563|TWO_SIDED|95.0|-8.8|32.1|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||32.1|-8.8|0.2563
82538786|NCT04341298|164777670|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|Pain score difference after 2 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that 2 hour difference in pain score is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.021
82538787|NCT04341298|164777671|SUPERIORITY|||||||0.019|||||||Mixed Models Analysis|Pain score difference after 4 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that 4 hour difference in pain score is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.019
82649069|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.29|||||TWO_SIDED|95.0|-20.12|40.71||||||For change in flatulence at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||40.71|-20.12|
82453706|NCT01751984|164613283|SUPERIORITY||Least squares mean difference|-23.7||||0.2565|TWO_SIDED|95.0|-65.4|18.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||18.0|-65.4|0.2565
82538788|NCT04341298|164777672|SUPERIORITY|Null hypothesis is that proportion of headaches with light sensitivity experienced after 2 hours is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||||0.028|||||||Mixed Models Analysis|Proportion of headaches with light sensitivity after 2 hours modeled as a function of study arm, baseline pain score and headache medication use.||||||0.028
82453707|NCT01751984|164613284|SUPERIORITY||Least squares mean difference|4.0||||0.776|TWO_SIDED|95.0|-24.1|32.0|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|||32.0|-24.1|0.7760
82453708|NCT01751984|164613285|SUPERIORITY||Clopper-Pearson methodology|61.8|||<|0.0001|TWO_SIDED|95.0|45.4|78.1||Based on Fisher's exact test comparing the proportion of participants who achieved LDL-C goal at Week 8 (End of Study) in the ETC-1002 and placebo groups.|Fisher Exact||ETC-1002 minus placebo for the proportion of participants who achieved LDL-C goal at Week 8 (End of Study). The confidence interval was based on a normal approximation to the binomial distribution.|||78.1|45.4|<0.0001
82453709|NCT04473963|164613289|NON_INFERIORITY|Non-inferiority between subjects Randomized to Treatment vs subjects Randomized to Control||||||0.277|||||||Chi-squared|||||||0.277
82453710|NCT04473963|164613291|EQUIVALENCE|"Equivalence between subjects Randomized to Control and subjects Randomized to Treatment"||||||0.042|||||||Kaplan-Meyer Log Rank|||||||0.042
82538789|NCT04341298|164777673|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Proportion of headaches with light sensitivity after 4 hours modeled as a function of study arm, baseline pain score and headache medication use.||Null hypothesis is that proportion of headaches with light sensitivity experienced after 4 hours is equivalent between study arms, after adjusting for baseline pain score and headache medication use.||||0.46
82538790|NCT03425643|164777674|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|1e-05|TWO_SIDED|95.0|0.48|0.72||One-sided p-value based on log-rank test stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Log Rank||Stratified Cox model with Efron's tie handling method with treatment as a covariate stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|||0.72|0.48|<0.00001
82538791|NCT03425643|164777675|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.00517|TWO_SIDED|95.0|0.56|0.93||One-sided p-value based on log-rank test stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Log Rank||Stratified Cox model with Efron's tie handling method with treatment as a covariate stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|||0.93|0.56|0.00517
82453711|NCT04473963|164613296|EQUIVALENCE|"Equivalence between procedure time of subjects Randomized to Treatment and subjects Randomized to Control. The Not-Randomized group was not included in the analysis."|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82453712|NCT00587158|164613299|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Fisher Exact|||||||0.0005
82538792|NCT03425643|164777676|OTHER|Based on Miettinen \& Nurminen method stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Percentage|19.2|||<|1e-05|TWO_SIDED|95.0|13.9|24.7|||Stratified Miettinen and Nurminen|||||24.7|13.9|<0.00001
82538793|NCT03425643|164777677|OTHER|Based on Miettinen \& Nurminen method stratified by Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Pertentage|14.2|||<|1e-05|TWO_SIDED|95.0|10.1|18.7|||Stratified Miettinen and Nurminen|||||18.7|10.1|<0.00001
82453713|NCT00587158|164613300|SUPERIORITY_OR_OTHER|||||||0.4571||95.0|||||Fisher Exact|||||||0.4571
82453714|NCT00587158|164613301|SUPERIORITY_OR_OTHER|||||||0.229||95.0|||||Fisher Exact|||||||0.2290
82453715|NCT00587158|164613302|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at baseline was compared between the two treatment groups.||||0.17
82453716|NCT00587158|164613302|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at 21 days was compared between the two treatment groups.||||0.005
82453717|NCT00587158|164613302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at 90 days was compared between the two treatment groups.||||<0.0001
82453718|NCT00587158|164613302|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||The median PTH level at one year was compared between the two treatment groups.||||0.0004
82453719|NCT00587158|164613303|SUPERIORITY_OR_OTHER|||||||0.833||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at baseline was compared between the two treatment groups.||||0.833
82453720|NCT00587158|164613303|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at 21 days was compared between the two treatment groups.||||0.553
82453721|NCT00587158|164613303|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at 90 days was compared between the two treatment groups.||||0.035
82453722|NCT00587158|164613303|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Wilcoxon (Mann-Whitney)|||The median BAP level at one year was compared between the two treatment groups.||||0.171
82538794|NCT03425643|164777678|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the scores as the response variable with covariates for treatment by visit interaction and stratification factors (Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Least Square Means|1.43||||0.3611|TWO_SIDED|95.0|-1.64|4.49|||t-test, 2 sided|||||4.49|-1.64|0.3611
82538795|NCT03425643|164777679|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the scores as the response variable with covariates for treatment by visit interaction and stratification factors (Stage (II versus III), TPS (\>=50% versus \<50%), Histology (Squamous versus Non-squamous) and Region (East-Asia versus non-East Asia).|Difference in Least Square Means|2.22||||0.1197|TWO_SIDED|95.0|-0.58|5.02|||t-test, 2 sided|||||5.02|-0.58|0.1197
82538796|NCT01549314|164777729|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Change from baseline to 24 months in cortical volumentric bone mineral density was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.77
82649070|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.74|||||TWO_SIDED|95.0|-8.22|59.69||||||For change in cachexia at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||59.69|-8.22|
82649071|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.56|||||TWO_SIDED|95.0|5.32|71.81||||||For change in side effects at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||71.81|5.32|
82434107|NCT02993822|164578916|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.038|TWO_SIDED|95.0|0.1|2.3|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.3|0.1|0.038
82434108|NCT02993822|164578916|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.118|TWO_SIDED|95.0|-0.2|2.0|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.0|-0.2|0.118
82434109|NCT02993822|164578916|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.025|TWO_SIDED|95.0|0.2|2.4|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.4|0.2|0.025
82434110|NCT02993822|164578917|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.258|TWO_SIDED|95.0|-0.5|1.9|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.9|-0.5|0.258
82434111|NCT02993822|164578917|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.243|TWO_SIDED|95.0|-0.5|1.8|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||1.8|-0.5|0.243
82434112|NCT02993822|164578917|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.009|TWO_SIDED|95.0|0.4|2.8|||Mixed model repeated measures|||"The change from baseline in LCQ total score and the three domain scores was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline.~The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in LCQ total score and the three domain scores was analysed using a MMRM with REML estimation."||2.8|0.4|0.009
82434113|NCT02993822|164578918|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.008|TWO_SIDED|95.0|-16.6|-2.5|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-2.5|-16.6|0.008
82434114|NCT02993822|164578918|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.198|TWO_SIDED|95.0|-11.4|2.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.4|-11.4|0.198
82434115|NCT02993822|164578918|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.055|TWO_SIDED|95.0|-13.7|0.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||0.1|-13.7|0.055
82453723|NCT00587158|164613304|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||t-test, 2 sided|||||||0.98
82453724|NCT00587158|164613305|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||||||0.41
82453725|NCT00587158|164613308|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
82538797|NCT01549314|164777729|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Change from baseline to 24 months in cortical volumentric bone mineral density was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.82
82649072|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||||TWO_SIDED|95.0|-53.14|44.25||||||For change in fear of future health at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||44.25|-53.14|
82453726|NCT00587158|164613309|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||t-test, 2 sided|||||||0.66
82453727|NCT00587158|164613310|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
82453728|NCT00587158|164613311|SUPERIORITY_OR_OTHER|||||||1||95.0|||||t-test, 2 sided|||The number of subjects with mild interstitial fibrosis (Banff ci score \> 0 and \< 2) at one year was compared between treatment groups.||||1.0
82538798|NCT01549314|164777730|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Change from baseline to 24 months in DXA PA spine bone mineral density was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.64
82649073|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|||||TWO_SIDED|95.0|-69.9|61.57||||||For change in ability to plan future at Cycle 6 Day 1, mean change difference was used to compare the two treatment groups.||61.57|-69.90|
82649074|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.96|||||TWO_SIDED|95.0|-24.52|50.45||||||For change in pancreatic pain at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||50.45|-24.52|
82538799|NCT01549314|164777730|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||Change from baseline to 24 months in DXA PA spine bone mineral density was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.78
82538800|NCT01549314|164777731|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||Change from baseline to 24 months in osteocalcin was determined and compared between subjects with CF taking ivacaftor and subjects with CF not taking ivacaftor.||||0.86
82538801|NCT01549314|164777731|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Change from baseline to 24 months in osteocalcin was determined and compared between subjects with CF not taking ivacaftor and healthy subjects.||||0.99
82538802|NCT00404079|164777794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.5|STANDARD_DEVIATION|4.0||0.05|||||||Mixed Models Analysis|||Null hypothesis was glucosamine sulfate is not superior to placebo to reduce pain and disability associated with chronic low back pain. Power calculation was based on a 3 point difference between the groups with the primary outcome. Data was analysed with linear mixed models||||0.05
82649075|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.15|||||TWO_SIDED|95.0|-76.41|30.11||||||For change in eating related items at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||30.11|-76.41|
82649076|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.44|||||TWO_SIDED|95.0|-71.89|33.0||||||For change in altered bowel habits at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||33.00|-71.89|
82434116|NCT02993822|164578919|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.026|TWO_SIDED|95.0|-16.3|-1.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.1|-16.3|0.026
82434117|NCT02993822|164578919|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.571|TWO_SIDED|95.0|-9.6|5.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||5.3|-9.6|0.571
82434118|NCT02993822|164578919|SUPERIORITY||Mean Difference (Final Values)|-7.7||||0.043|TWO_SIDED|95.0|-15.2|-0.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.3|-15.2|0.043
82434119|NCT02993822|164578920|SUPERIORITY||Mean Difference (Final Values)|-11.5||||0.006|TWO_SIDED|95.0|-19.7|-3.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.3|-19.7|0.006
82434120|NCT02993822|164578920|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.435|TWO_SIDED|95.0|-11.1|4.8|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.8|-11.1|0.435
82434121|NCT02993822|164578920|SUPERIORITY||Mean Difference (Final Values)|-9.4||||0.022|TWO_SIDED|95.0|-17.4|-1.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.4|-17.4|0.022
82434122|NCT02993822|164578921|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.103|TWO_SIDED|95.0|-15.3|1.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||1.4|-15.3|0.103
82434123|NCT02993822|164578921|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.546|TWO_SIDED|95.0|-10.6|5.6|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||5.6|-10.6|0.546
82538803|NCT00404079|164777794|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|||||||0.05
82538804|NCT01120275|164777797|SUPERIORITY_OR_OTHER||6-month PFS|0.09|||||TWO_SIDED|95.0|0.02|0.22||||||6-month progression free survival (PFS) was estimated using the method of Kaplan-Meier and confidence intervals were calculated using the log-log transformation.||0.22|0.02|
82538805|NCT01120275|164777798|SUPERIORITY_OR_OTHER||1-year OS|0.5|||||TWO_SIDED|95.0|0.32|0.66||||||1-year overall survival (OS) was estimated using the method of Kaplan-Meier and confidence intervals were calculated using the log-log transformation.||0.66|0.32|
82538806|NCT04511650|164777834|SUPERIORITY|||||||0.4795|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by disease severity.||Pooled Razuprotafib comparison to Placebo. All results are summarized descriptively by treatment arm and expressed as proportions, along with corresponding 95% confidence intervals (CIs) of the difference between response rates, and p-values.||||0.4795
82538807|NCT01972152|164777850|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis.||||||0.24
82538808|NCT01972152|164777851|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||0.34
82538809|NCT01972152|164777851|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||0.01
82649077|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.22|||||TWO_SIDED|95.0|7.31|87.13||||||For change in jaundice at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||87.13|7.31|
82538810|NCT01972152|164777852|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.95
82434124|NCT02993822|164578921|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.034|TWO_SIDED|95.0|-17.2|-0.7|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.7|-17.2|0.034
82434125|NCT02993822|164578922|SUPERIORITY||Mean Difference (Final Values)|-11.2||||0.004|TWO_SIDED|95.0|-18.8|-3.6|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.6|-18.8|0.004
82434126|NCT02993822|164578922|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.282|TWO_SIDED|95.0|-11.5|3.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||3.4|-11.5|0.282
82434127|NCT02993822|164578922|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.398|TWO_SIDED|95.0|-10.7|4.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.3|-10.7|0.398
82453729|NCT00587158|164613311|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||The number of subjects with moderate to mild interstitial fibrosis (Banff ci score greater than or equal to 2) at one year was compared between treatment groups.||||0.04
82453730|NCT01284517|164613312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.08||0.176|||||||Mixed Models Analysis|||Null hypothesis (H0) assumes equal values between analysis groups in mean change from baseline in MADRS score, alternative hypothesis (HA) assumes unequal values between groups. Sample size determined by two-sample t-test. A mean difference of 3.25 units in change in MADRS score for the Lurasdone 20-120 mg arm over placebo with common standard deviation of 9 units was used. N=162 subjects per arm (total N=324) yields power of 90%. A 5% adjustment for drop-outs gives N=340, or N=170 per arm.||||0.176
82538811|NCT01972152|164777853|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Mixed Models Analysis|||||||0.76
82538812|NCT01972152|164777854|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
82538813|NCT01972152|164777854|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||0.02
82434128|NCT02993822|164578923|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.019|TWO_SIDED|95.0|-18.3|-1.7|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.7|-18.3|0.019
82453731|NCT01284517|164613313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.141||0.095|||||||Mixed Models Analysis|||||||0.095
82538814|NCT01972152|164777855|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||0.16
82577507|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.67|||||TWO_SIDED|95.0|0.6|0.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 1||0.75|0.60|
82453732|NCT01284517|164613314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.0||0.992|||||||ANCOVA|||||||0.992
82453733|NCT00632619|164613360|SUPERIORITY_OR_OTHER|||||||0.106|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.106
82538815|NCT01972152|164777856|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
82538816|NCT01972152|164777856|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
82538817|NCT01972152|164777857|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Data were log transformed for analysis||||||<0.001
82538818|NCT01972152|164777857|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Data were log transformed for analysis.|Mixed Models Analysis|||||||<0.001
82538819|NCT01972152|164777858|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82538820|NCT01972152|164777858|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82538821|NCT03593070|164777889|OTHER|Analyses compared changes in total scores for the MM-CGI from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.646|STANDARD_DEVIATION|0.622||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82538822|NCT03593070|164777890|OTHER||Slope|0.444|STANDARD_DEVIATION|0.105||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||Analyses compared changes in total scores for the CESD from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).||||0.001
82538823|NCT03593070|164777891|OTHER|Analyses compared changes in total State Trait Anxiety Inventory (STAI) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.514|STANDARD_DEVIATION|0.102||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82538824|NCT03593070|164777892|OTHER|Analyses compared changes in total positive state of mind scale (PSOMS) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT).|Slope|0.653|STANDARD_DEVIATION|0.093||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82453734|NCT00632619|164613361|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline which was week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.015
82453735|NCT00632619|164613362|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was conducted to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.38
82453736|NCT00632619|164613363|SUPERIORITY_OR_OTHER|||||||0.016|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.016
82453737|NCT00632619|164613364|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANOVA|||A 2 x 2 repeated measures analysis (with time as within-subject factor and group as between-subject factor) was performed to compare the two groups on this measure at two time points (i.e., baseline at week 0 and endpoint at week 12) and infer treatment success accordingly. The null hypothesis signified that there would be no difference between the groups over time, thus, there would be no difference in treatments. Statistical power was calculated as Cohen's d.||||0.095
82453738|NCT03838978|164613383|SUPERIORITY|Non-inferiority is demonstrated if the 90% LB \> -10.0%. If non-inferiority was met, superiority could be tested. Superiority is demonstrated if 97.5% LB \> 0.0%.||||||||||||||||For missing data in both Arms/Groups, multiple imputation was performed for the primary CCS analysis.|Device group differences and two-sided 90% and 97.5% confidence interval lower bounds (LB) adjusting for propensity score (PS) subclass based on PS subclass weights (ATT). Noninferiority is demonstrated if the 90% LB \> -10.0%. Superiority is demonstrated if 97.5% LB \>0.0%. Two-sided 97.5% LB is evaluated rather than two-sided 95.0% LB since the superiority type 1 error is split between testing superiority in terms of Month 24 CCS and then separately for a set of superiority secondary endpoints with type 1 error control maintained through the use of Hochberg approach (following demonstration of non-inferiority).|||
82453739|NCT05236257|164613389|OTHER||Hazard Ratio (HR)|0.21||||0.0058|TWO_SIDED|95.0|0.07|0.63|||Cox Proportional Hazards model|Unweighted||||0.63|0.07|0.0058
82453740|NCT05236257|164613389|OTHER|||||||0.0023|||||||Log Rank|Unweighted||||||0.0023
82453741|NCT05236257|164613390|OTHER||Hazard Ratio (HR)|0.23||||0.0703|TWO_SIDED|95.0|0.05|1.13|||Cox Proportional Hazards model|Unweighted||||1.13|0.05|0.0703
82453742|NCT05236257|164613390|OTHER|||||||0.0486|||||||Log Rank|Unweighted||||||0.0486
82453743|NCT05236257|164613391|OTHER||Hazard Ratio (HR)|0.23||||0.696|TWO_SIDED|95.0|0.05|1.12|||Cox Proportional Hazards model|Unweighted||||1.12|0.05|0.696
82453744|NCT05236257|164613391|OTHER|||||||0.0476|||||||Log Rank|Unweighted||||||0.0476
82453745|NCT05236257|164613393|OTHER||Hazard Ratio (HR)|0.79||||0.5713|TWO_SIDED|95.0|0.36|1.77|||Cox Proportional Hazards model|Unweighted||||1.77|0.36|0.5713
82453746|NCT05236257|164613393|OTHER|||||||0.5695|||||||Log Rank|Unweighted||||||0.5695
82453747|NCT05236257|164613394|OTHER||Hazard Ratio (HR)|0.32||||0.32|TWO_SIDED|95.0|0.03|3.06|||Cox Proportional Hazards model|Unweighted||||3.06|0.03|0.3200
82453748|NCT05236257|164613394|OTHER|||||||0.294|||||||Log Rank|Unweighted||||||0.2940
82453749|NCT03559933|164613408|SUPERIORITY||Logistic regression model|95.0|STANDARD_ERROR_OF_MEAN|0.0152||0.0125|TWO_SIDED|95.0|93.15|96.66|||Mixed Models Analysis|Subject and stimulation within subject as random effects with multiple observations per subject was accounted for.||The proportion of successful capture was analyzed using a generalized linear mixed model accounting for subject and stimulation within subject as random effects with multiple observations per subject. The null hypothesis was tested comparing the lower bound of the 98.75% two-sided confidence interval for the estimated percent diaphragm capture rate to the performance goal of 80%. If the lower bound was greater than 80%, the null hypothesis was rejected, and the endpoint was considered met.||96.66|93.15|0.0125
82453750|NCT00286429|164613447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.72|-0.3||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 26. For comparison of either alogliptin dose vs. placebo (2-sample t test), study sample size \>=390 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming a standard deviation of 0.8%, a 2-sided test at 0.05 significance level and \>=80% of subjects meeting the per protocol criteria.||-0.30|-0.72|<0.001
82453751|NCT00286429|164613447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 26. For comparison of either alogliptin dose vs. placebo (2-sample t test), study sample size \>=390 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming a standard deviation of 0.8%, a 2-sided test at 0.05 significance level and \>=80% of subjects meeting the per protocol criteria.||-0.37|-0.80|<0.001
82434129|NCT02993822|164578923|SUPERIORITY||Mean Difference (Final Values)|-5.6||||0.17|TWO_SIDED|95.0|-13.7|2.4|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.4|-13.7|0.170
82649078|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.67|||||TWO_SIDED|95.0|-36.0|119.34||||||For change in body image at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||119.34|-36.00|
82434130|NCT02993822|164578923|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.384|TWO_SIDED|95.0|-11.7|4.5|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||4.5|-11.7|0.384
82434131|NCT02993822|164578924|SUPERIORITY||Mean Difference (Final Values)|-11.7||||0.006|TWO_SIDED|95.0|-20.0|-3.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-3.3|-20.0|0.006
82434132|NCT02993822|164578924|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.222|TWO_SIDED|95.0|-13.0|3.0|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||3.0|-13.0|0.222
82434133|NCT02993822|164578924|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.058|TWO_SIDED|95.0|-16.0|0.3|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||0.3|-16.0|0.058
82434134|NCT02993822|164578925|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.027|TWO_SIDED|95.0|-18.9|-1.2|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-1.2|-18.9|0.027
82434135|NCT02993822|164578925|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.147|TWO_SIDED|95.0|-14.9|2.2|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||2.2|-14.9|0.147
82434136|NCT02993822|164578925|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.046|TWO_SIDED|95.0|-17.6|-0.1|||Mixed model repeated measures|||Change in the Cough Severity VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in Cough Severity VAS was analysed using a MMRM with REML estimation.||-0.1|-17.6|0.046
82434137|NCT02993822|164578926|SUPERIORITY||Mean Difference (Final Values)|-12.5|||<|0.001|TWO_SIDED|95.0|-19.5|-5.5|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-5.5|-19.5|<0.001
82434138|NCT02993822|164578926|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.114|TWO_SIDED|95.0|-12.4|1.3|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||1.3|-12.4|0.114
82434139|NCT02993822|164578926|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.056|TWO_SIDED|95.0|-13.7|0.2|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||0.2|-13.7|0.056
82434140|NCT02993822|164578927|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.027|TWO_SIDED|95.0|-16.8|-1.0|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-1.0|-16.8|0.027
82434141|NCT02993822|164578927|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.357|TWO_SIDED|95.0|-11.3|4.1|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||4.1|-11.3|0.357
82490181|NCT02390908|164673174|SUPERIORITY||Slope|-24.95||||0.24|TWO_SIDED|95.0|-66.78|16.88||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||16.88|-66.78|0.24
82649079|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-5.05|82.83||||||For change in health care satisfaction at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||82.83|-5.05|
82434142|NCT02993822|164578927|SUPERIORITY||Mean Difference (Final Values)|-8.5||||0.031|TWO_SIDED|95.0|-16.2|-0.8|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-0.8|-16.2|0.031
82434143|NCT02993822|164578928|SUPERIORITY||Mean Difference (Final Values)|-11.1||||0.008|TWO_SIDED|95.0|-19.2|-2.9|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-2.9|-19.2|0.008
82434144|NCT02993822|164578928|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.321|TWO_SIDED|95.0|-11.8|3.9|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||3.9|-11.8|0.321
82434145|NCT02993822|164578928|SUPERIORITY||Mean Difference (Final Values)|-8.1||||0.047|TWO_SIDED|95.0|-16.0|-0.1|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-0.1|-16.0|0.047
82434146|NCT02993822|164578929|SUPERIORITY||Mean Difference (Final Values)|-10.1||||0.018|TWO_SIDED|95.0|-18.4|-1.8|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-1.8|-18.4|0.018
82434147|NCT02993822|164578929|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.682|TWO_SIDED|95.0|-9.8|6.4|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||6.4|-9.8|0.682
82434148|NCT02993822|164578929|SUPERIORITY||Mean Difference (Final Values)|-11.8||||0.005|TWO_SIDED|95.0|-20.0|-3.6|||Mixed model repeated measures|||Change in the urge-to-cough VAS was summarised by treatment group and visit (Weeks 2, 4, 8 and 12) in terms of absolute values and changes from baseline. The effect of treatment in terms of the change from baseline to each scheduled visit (Week 2, Week 4, Week 8 and Week 12) in urge-to cough VAS was analysed using a MMRM with REML estimation.||-3.6|-20.0|0.005
82434149|NCT02993822|164578930|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.004
82434150|NCT02993822|164578930|SUPERIORITY|||||||0.134|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.134
82434151|NCT02993822|164578930|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.003
82434152|NCT02993822|164578931|SUPERIORITY|||||||0.401|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.401
82434153|NCT02993822|164578931|SUPERIORITY|||||||0.175|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.175
82490182|NCT02390908|164673174|SUPERIORITY||Slope|18.32||||0.15|TWO_SIDED|95.0|-6.63|43.27||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||43.27|-6.63|0.15
82490183|NCT02390908|164673174|SUPERIORITY||Slope|10.27||||0.33|TWO_SIDED|95.0|-10.2|30.74||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 1 estimated here represents linear change in CD4 count across the 3-,6-,9- and 12-month follow-ups for Waitlist relative to No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||30.74|-10.20|0.33
82490184|NCT02390908|164673174|SUPERIORITY||Slope|6.42||||0.8|TWO_SIDED|95.0|-44.24|57.09||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in CD4 count across the 12-,15-, and 18-month follow-ups for Site 1 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||57.09|-44.24|0.80
82538825|NCT03593070|164777893|OTHER|Analyses compared changes in conflict scores (based on FPCR) from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.609|STANDARD_DEVIATION|0.07||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82538826|NCT03593070|164777894|OTHER|Analyses compared changes in total scores for satisfaction with care measure (FPCT) from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.731|STANDARD_DEVIATION|0.074||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82577508|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.59|0.73|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 3||0.73|0.59|
82434154|NCT02993822|164578931|SUPERIORITY|||||||0.126|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.126
82434155|NCT02993822|164578932|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.002
82434156|NCT02993822|164578932|SUPERIORITY|||||||0.144|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.144
82434157|NCT02993822|164578932|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.025
82434158|NCT02993822|164578933|SUPERIORITY|||||||0.158|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.158
82434159|NCT02993822|164578933|SUPERIORITY|||||||0.597|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.597
82434160|NCT02993822|164578933|SUPERIORITY|||||||0.124|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.124
82434161|NCT02993822|164578934|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.01
82434162|NCT02993822|164578934|SUPERIORITY|||||||0.049|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.049
82434163|NCT02993822|164578934|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.001
82434164|NCT02993822|164578935|SUPERIORITY|||||||0.309|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.309
82434165|NCT02993822|164578935|SUPERIORITY|||||||0.387|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.387
82434166|NCT02993822|164578935|SUPERIORITY|||||||0.025|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.025
82490185|NCT02390908|164673174|SUPERIORITY||Slope|-5.43||||0.89|TWO_SIDED|95.0|-85.47|74.61||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in CD4 count across the 12-,15-, and 18-month follow-ups for Site 2 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||74.61|-85.47|0.89
82434167|NCT02993822|164578936|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.003
82434168|NCT02993822|164578936|SUPERIORITY|||||||0.152|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.152
82434169|NCT02993822|164578936|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.004
82434170|NCT02993822|164578937|SUPERIORITY|||||||0.1|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.100
82434171|NCT02993822|164578937|SUPERIORITY|||||||0.557|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.557
82453752|NCT00286429|164613448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||<|0.001|TWO_SIDED|95.0|-0.34|-0.09||No multiplicity adjustments|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.09|-0.34|<0.001
82453753|NCT00286429|164613448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.45|-0.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.20|-0.45|<0.001
82453754|NCT00286429|164613449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.31||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.31|-0.65|<0.001
82453755|NCT00286429|164613449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.73|-0.39||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.39|-0.73|<0.001
82453756|NCT00286429|164613450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.77|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.77|<0.001
82649080|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.14|||||TWO_SIDED|95.0|-2.09|66.37||||||For change in sexual functioning at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-2.09|
82453757|NCT00286429|164613450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.34|-0.75|<0.001
82453758|NCT00286429|164613451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.79|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.79|<0.001
82434172|NCT02993822|164578937|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|||"The Global Rating of Change responses were summarised by treatment group and visit (Weeks 2, 4, 8 and 12) as categorical endpoints (worse, about the same and better). Pairwise comparisons were performed using the Cochran Mantel Haenszel test stratified by region using modified ridit scores (row mean scores differ)."||||0.054
82434173|NCT01939977|164578938|SUPERIORITY|||||||0.0083|||||||Chi-squared|||"Taking per protocol population, the percentage of patients with iPTH\> 110 pg / ml at 6 months post-transplant treated with Paricalcitol was statistically lower than in patients treated with Calcifediol"||||0.0083
82434174|NCT01696981|164578971|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.95|1.0|||Poisson regression|||||1.00|0.95|
82434175|NCT01696981|164578973|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.85|||Poisson regression|||||0.85|0.72|
82434176|NCT01696981|164578975|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.63|0.87|||Poisson regression|||||0.87|0.63|
82434177|NCT00851890|164578981|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.012
82434178|NCT00851890|164578981|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.071
82434179|NCT00851890|164578981|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.140
82434180|NCT00851890|164578982|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.008
82434181|NCT00851890|164578982|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.003
82434182|NCT00851890|164578982|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||Eight participants per ABT-333 group and 12 participants in the placebo group provided \>95% power to detect a 1.4 log10 difference with a common standard deviation of 0.7 log10 using a two-sided, non-paired t-test with a significance level of 0.05.||||0.009
82453759|NCT00286429|164613451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.33||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.33|-0.75|<0.001
82490186|NCT02390908|164673174|SUPERIORITY||Slope|1.16||||0.97|TWO_SIDED|95.0|-60.61|62.94||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Site 3 relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||62.94|-60.61|0.97
82649081|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|||||TWO_SIDED|95.0|-44.46|29.64||||||For change in indigestion at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||29.64|-44.46|
82434183|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.018
82434184|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.020
82434185|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Day 28 time point.||||0.054
82434186|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.010
82434187|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.005
82434188|NCT00851890|164578989|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|ANCOVA|The treatment group was the factor and log10 baseline HCV RNA level was the covariate.||The statistical analysis represents the Final Visit time point.||||0.014
82434189|NCT00851890|164578990|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.026
82434190|NCT00851890|164578990|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.026
82538827|NCT03593070|164777895|OTHER|Analyses compared changes in total Family Knowledge of Alzheimer's Test (FKAT) scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT)|Slope|0.687|STANDARD_DEVIATION|0.084||0.001|TWO_SIDED|||||A priori alpha=0.05.|Regression, Linear|||||||0.001
82538828|NCT03593070|164777896|OTHER||Slope|0.527|STANDARD_DEVIATION|0.088||0.001|TWO_SIDED|||||A prior alpha=0.05.|Regression, Linear|||Analyses compared changes in caregiver sense of loss, guilt, and role captivity scores from baseline to 24 weeks, for both arms of the intervention (CGMI-V and MT). This measure uses 51 items of the FPCR measure.||||0.001
82538829|NCT03612804|164777931|SUPERIORITY||Odds Ratio (OR)|1.05||||0.83|TWO_SIDED|95.0|0.67|1.64||P-value not adjusted for multiple comparisons. A priori threshold for statistical significance was 0.05.|Regression, Logistic|Logistic regression model with random intercept for provider and main effect term for study site.|Proactive care arm represents numerator of odds ratio, unstructured care arm represents denominator of odds ratio.|||1.64|0.67|0.83
82538830|NCT01656304|164777939|SUPERIORITY_OR_OTHER||Rate|0.333|STANDARD_ERROR_OF_MEAN|0.1217|||TWO_SIDED|80.0|0.2|0.5||||||||.50|.20|
82538831|NCT00556543|164777996|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation performed.||||||0.19||95.0|||||Fisher Exact|||Fisher's Exact Test with the null hypothesis that the proportion with adverse events was the same in both groups.||||0.190
82577509|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 4||0.87|0.68|
82649082|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.96|||||TWO_SIDED|95.0|-40.45|66.37||||||For change in flatulence at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||66.37|-40.45|
82434191|NCT00851890|164578990|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.138
82434192|NCT00851890|164578991|SUPERIORITY_OR_OTHER|||||||0.209|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.209
82434193|NCT00851890|164578991|SUPERIORITY_OR_OTHER|||||||0.473|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.473
82434194|NCT00851890|164578991|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.031
82434195|NCT00851890|164578992|SUPERIORITY_OR_OTHER|||||||0.209|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||0.209
82434196|NCT00851890|164578992|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||No adjustments were made for multiple comparisons and the pre-specified, two-sided significance level was 0.05.|Fisher Exact|||||||1.000
82434197|NCT00281099|164579002|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.21. The one-sided upper confidence bound for the hazard ratio had to be less than 1.21 for the null hypothesis to be rejected. The threshold of 1.21 was derived by using a noninferiority threshold of a 5 percentage point difference in 24 month event-free rates.|Hazard Ratio (HR)|1.139||||||96.3|1.139|1.59||There were 167 events by 90 subjects in the VVI 40 arm, compared to 188 events among 104 subjects in the MVP arm.|Andersen-Gill Model|An Andersen-Gill model was used to account for multiple primary endpoints per subject.|4 interim analyses were performed \& the O'Brien-Fleming alpha-spending function required a 96.3% confidence interval.|"This is a multiple events survival analysis, with time to first primary endpoint, time between successive endpoints, and time from last endpoint to last follow-up visit determined for each subject. The null hypothesis is that the mortality/ heart failure (HF) urgent care/HF hospitalization hazard rate for patients with no Class I pacing indication and MVP is greater than that of similar patients with VVI 40."||1.590|1.139|
82434198|NCT00281099|164579003|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.241. The one-sided upper confidence bound for the hazard ratio had to be less than 1.241 for the null hypothesis to be rejected. The threshold of 1.241 was derived by using a non-inferiority threshold of a 5 percentage point difference in 24 month HF event-free rates.|Hazard Ratio (HR)|1.029||||||95.0|1.029|1.381|||Andersen-Gill Model|An Andersen-Gill model was utilized to account for multiple HF events per subject.||This is a multiple events survival analysis, and so the time from randomization to first HF event, time between successive HF events, and time from last HF event to last follow-up visit was determined for each subject. Since non-inferiority analysis is intended to prove that one therapy is equivalent or superior to another therapy, the null hypothesis being tested is that the worsening HF hazard rate for patients with MVP programming is greater than that of patients with VVI 40 programming.||1.381|1.029|
82434199|NCT00281099|164579004|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori alpha level for each covariate was 0.05. The p-value outcome provided is for the randomization arm main effect and all interactions between randomization arm and time.|Cumulative Logits Model|The analysis included data for all four time points (baseline, 12, 24, and 36 months) and all NYHA levels.||A model with covariates for time and randomization arm was fit to test the null hypothesis that the risk of worsening NYHA status over time among patients with MVP programming was equal to that of patients with VVI 40 programming. This analysis combined NYHA IV and Death into one category. The model included interaction terms for time and randomization arm.||||> 0.05
82434200|NCT00281099|164579004|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori alpha level for each covariate was 0.05. The p-value outcome provided is for the randomization arm main effect and all interaction terms between randomization arm and time.|Cumulative Logit Model|The analysis included data for all four time points (baseline, 12, 24, and 36 months) and all NYHA levels.||The null hypothesis for this analysis was the same as for the prior analysis: that the risk of worsening NYHA status over time among patients with MVP programming was equal to that of patients with VVI 40 programming. In this analysis, however, death was considered a 5th category in addition to NYHA I-IV. An interaction term for time and randomization arm was also included.||||> 0.05
82538832|NCT01838551|164778007|SUPERIORITY|Under the null hypothesis of at most 20% UFC responders, 90 subjects in the ITT population would provide 90% power, with two-sided type 1 error of 0.05, assuming an observed response of 35%.||||||0.0154||||||One-sided p-value is based on a null hypothesis that true response proportion is ≤ 0.20.|Mixed Models Analysis|The Generalized Linear Model described above was used to generate the p-value.||The least squares mean (LSMEAN) estimate of the UFC response after 6 months of treatment in the Maintenance Phase alongside its 95% Wald CI is presented. Supportive to the 95% CI, the p-value corresponding to the null hypothesis that the response rate is ≤ 20% is presented (1-sided test).||||0.0154
82538833|NCT00038103|164778022|SUPERIORITY_OR_OTHER||Clinical Benefit Rate|49.0||||||95.0|34.4|63.7|||||Number of subjects showing clinical benefits out of the number of subjects in the evaluable set.|||63.7|34.4|
82538834|NCT00038103|164778022|SUPERIORITY_OR_OTHER||Clinical Benefit Rate|47.1||||||95.0|32.9|61.5|||||Number of subjects showing clinical benefits out of the number of subjects in the evaluable set.|||61.5|32.9|
82538835|NCT00038103|164778023|SUPERIORITY_OR_OTHER||Objective Response Rate|22.4||||||95.0|11.8|36.6|||||Number of subjects showing objective response out of the number of subjects in the evaluable set.|||36.6|11.8|
82649083|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.89|||||TWO_SIDED|95.0|-32.71|60.49||||||For change in cachexia at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||60.49|-32.71|
82434201|NCT00281099|164579005|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||In each case the a priori threshold for significance for Arm was 0.05.|Mixed Models Analysis|Model fit with time and arm as covariates, the interaction between them included. Interaction shown to not be significant and model refit without it.||A linear mixed model was fit for each of the followoing: LVEDD, LVESD, Septal Wall Thickness, and Posterior Wall Thickness; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Data were also collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
82434202|NCT00281099|164579006|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Models were fit with time and arm as covariates.||A linear mixed model was fit for each of the following: LV Ejection Fraction and LV Fractional Shortening; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were also collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
82434203|NCT00281099|164579007|SUPERIORITY_OR_OTHER|||||||0.0424||95.0||||The a priori threshold for statistical significance for Arm was 0.05, with no correction for multiple comparisons.|Mixed Models Analysis|The model was fit with time and arm as covariates.||"A linear mixed model was fit to test whether patients with MVP and no pacing indication had a different values for left ventricular end diastolic volume (LVEDV) over time than similar patients with VVI 40. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits."||||0.0424
82434204|NCT00281099|164579007|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||In each case the a priori threshold for significance for Arm was 0.05.|Mixed Models Analysis|Models were fit with time and arm as covariates.||"Similar models were fit for left ventricle (LV) End Systolic Volume and Left Atrial Volume."||||>0.10
82434205|NCT00281099|164579008|SUPERIORITY_OR_OTHER|||||||0.0418||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|The model fit with time and arm as covariates.||A linear mixed model was fit to test whether patients with MVP and no pacing indication had a different values of Left Ventricular Sphericity Index over time than similar patients with VVI 40. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||0.0418
82434206|NCT00281099|164579009|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for statistical significance for Arm was 0.05, with no correction for multiple comparisons.|Mixed Models Analysis|Models were fit with time and arm as covariates.||A linear mixed model was fit for each of the following: TR Velocity, Mitral Inflow-peak E and Mitral Inflow-peak A; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
82453760|NCT00286429|164613452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.37|-0.80|<0.001
82538836|NCT00038103|164778023|SUPERIORITY_OR_OTHER||Objective Response Rate|23.5||||||95.0|12.8|37.5|||||Number of subjects showing objective response out of the number of subjects in the evaluable set.|||37.5|12.8|
82538837|NCT01670110|164778030|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82538838|NCT01670110|164778031|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
82538839|NCT01670110|164778032|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82538840|NCT01670110|164778033|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82538841|NCT01670110|164778034|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82538842|NCT01670110|164778035|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82538843|NCT01670110|164778036|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
82538844|NCT01670110|164778037|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Physical functioning||||0.31
82538845|NCT01670110|164778037|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Physical role||||0.48
82538846|NCT01670110|164778037|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Bodily pain||||0.89
82538847|NCT01670110|164778037|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||General health||||0.18
82538848|NCT01670110|164778037|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Vitality||||0.28
82538849|NCT01670110|164778037|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Social functioning||||0.66
82538850|NCT01670110|164778037|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Role emotional||||0.43
82538851|NCT01670110|164778037|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Mental health||||0.51
82577510|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.64|0.81|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 5||0.81|0.64|
82649084|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.86|||||TWO_SIDED|95.0|-16.16|77.89||||||For change in side effects at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||77.89|-16.16|
82649085|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.83|||||TWO_SIDED|95.0|-44.95|86.62||||||For change in fear of future health at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||86.62|-44.95|
82649086|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.52|||||TWO_SIDED|95.0|-115.22|78.19||||||For change in ability to plan future at Cycle 7 Day 1, mean change difference was used to compare the two treatment groups.||78.19|-115.22|
82649087|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.46|||||TWO_SIDED|95.0|-39.71|86.63||||||For change in pancreatic pain at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||86.63|-39.71|
82434207|NCT00281099|164579010|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Model fit with time and arm as covariates.||A linear mixed model was fit for Mitral Inflow - Deceleration time; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||0.9490
82434208|NCT00281099|164579011|SUPERIORITY_OR_OTHER||||||>|0.1||95.0||||The a priori threshold for significance for Arm was 0.05, with no adjustment for multiple analyses.|Mixed Models Analysis|Models fit with time and arm as covariates.||A linear mixed model was fit for each of the following: Left Atrial Area and Mitral Regurgitation Area; the purpose was to test whether patients with MVP and no pacing indication over time had a different average value for that measure than patients with VVI and no pacing indication. Two-sided tests were used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits.||||> 0.10
82434209|NCT00281099|164579012|SUPERIORITY_OR_OTHER|||||||0.8403||95.0||||The a priori threshold for significance for Arm was 0.05.|Cumulative Logits Model|Because Composite Mitral Regurgitation Score was measured on the ordinal scale, a GEE cumulative logits model was fit.||"A General Estimating Equation (GEE) Cumulative Logits model was fit with Arm, Time, and their interaction as covariates in the model to test the hypothesis that patients with no pacing indication and MVP programming have different Mitral Regurgation over time than similar patients with VVI 40 programming. A two-sided test was used. Data were collected from the 36 month visits but were excluded due to the trial being stopped early and only a subset of patients having data for those visits."||||0.8403
82434210|NCT00281099|164579013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949||||||95.0|0.949|1.209|||Andersen-Gill model|This model was fit to account for multiple events (i.e. days in which true VT/VF occurred) within subject.|Because of the possible correlation within subject of days with episodes, a subsequent analysis was done using a bootstrap confidence interval for the annualized rate of episodes per patient month.|The pre-specified analysis called for a comparison of the hazard rates of true VT/VF between the two arms by way of a one-sided 95% confidence interval on the hazard ratio (values less than one favor MVP) after fitting a model. The unit of time was days, not episodes, so the analysis did not account for multiple episodes on the same day. If the upper bound was less than 1, the null hypothesis of equal hazard rates would be rejected.||1.209|0.949|
82434211|NCT00281099|164579013|SUPERIORITY_OR_OTHER||Difference in Annualized Rates|-0.015||||||95.0|-0.015|0.033|||Bootstrap Confidence Interval|||A 95% one-sided bootstrap confidence interval was generated for the MVP - VVI 40 difference in annualized rates of true VT/VF per patient month. If the interval upper bound was less than 0, the null hypothesis of equal rates would be rejected.||0.033|-0.015|
82538852|NCT05012644|164778075|OTHER||Odds Ratio (OR)|1.266|||||TWO_SIDED|95.0|0.715|2.241||||||||2.241|0.715|
82538853|NCT05012644|164778076|OTHER||Odds Ratio (OR)|1.508|||||TWO_SIDED|95.0|0.819|2.774||||||||2.774|0.819|
82538854|NCT01278862|164778091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2423|||||||Fisher Exact|||null hypothesis no difference in color match||||0.2423
82538855|NCT01278862|164778091|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in margin discoloration||||>0.999
82538856|NCT01278862|164778091|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in crown fracture||||>0.999
82538857|NCT01278862|164778091|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999|||||||Fisher Exact|||Null hypothesis no difference in Proximal Contact - Mesial||||>0.999
82538858|NCT01278862|164778091|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.999|||||||Fisher Exact|||Null hypothesis no difference in proximal contact - distal||||>0.999
82538859|NCT01278862|164778092|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||null hypothesis no difference in gingival index||||>0.999
82538860|NCT01278862|164778092|SUPERIORITY|||||||0.524|||||||Fisher Exact|||null hypothesis no difference in plaque index||||0.5240
82538861|NCT00798265|164778106|OTHER|||||||0.002||||||The reported p-value is representative of the changes in HPV-16 at 7 months in Cohort 1.|Spearman correlation (non-parametric)|||||||0.0020
82538862|NCT00798265|164778106|OTHER||||||<|0.0001||||||The reported p-value is representative of the changes in HPV-18 at 7 months in Cohort 1.|Spearman correlation (non-parametric)|||||||<.0001
82538863|NCT00798265|164778106|OTHER|||||||0.0002||||||The reported p-value is representative of the changes in HPV-16 at 7 months in Cohort 2.|Spearman correlation (non-parametric)|||||||0.0002
82453761|NCT00286429|164613452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.79|-0.35||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and HbA1c).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-0.35|-0.79|<0.001
82453762|NCT00286429|164613453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3||||0.128|TWO_SIDED|95.0|-25.9|3.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 1. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||3.3|-25.9|0.128
82453763|NCT00286429|164613453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1||||0.034|TWO_SIDED|95.0|-31.1|-1.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 1. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-1.2|-31.1|0.034
82538864|NCT00798265|164778106|OTHER||||||<|0.0001||||||The reported p-value is representative of the changes in HPV-18 at 7 months in Cohort 2.|Spearman correlation (non-parametric)|||||||<.0001
82538865|NCT00954707|164778113|SUPERIORITY_OR_OTHER||Rate of TLF at 12-month (%)|6.4|||||TWO_SIDED|95.0|5.5|7.5||||||||7.5|5.5|
82538866|NCT00954707|164778114|SUPERIORITY_OR_OTHER||Rate of device success (%)|98.0|||||TWO_SIDED|95.0|97.4|98.4||||||||98.4|97.4|
82538867|NCT00954707|164778115|SUPERIORITY_OR_OTHER||Rate of lesion success (%)|99.8|||||TWO_SIDED|95.0|99.6|99.9||||||||99.9|99.6|
82538868|NCT00954707|164778116|SUPERIORITY_OR_OTHER||Rate of procedure success (%)|97.7|||||TWO_SIDED|95.0|97.0|98.2||||||||98.2|97.0|
82538869|NCT00954707|164778117|SUPERIORITY_OR_OTHER||Rate of Clinically-driven TLR (%)|4.2|||||TWO_SIDED|95.0|3.45|5.13||||||||5.13|3.45|
82538870|NCT00954707|164778118|SUPERIORITY_OR_OTHER||Rate of Clinically-driven TVR (%)|5.8|||||TWO_SIDED|95.0|4.87|6.81||||||||6.81|4.87|
82538871|NCT00954707|164778119|SUPERIORITY_OR_OTHER||Rate of Target vessel failure (%)|7.92|||||TWO_SIDED|95.0|6.85|9.09||||||||9.09|6.85|
82538872|NCT00954707|164778120|SUPERIORITY_OR_OTHER||Rate of MACE (%)|7.41|||||TWO_SIDED|95.0|6.37|8.55||||||||8.55|6.37|
82538873|NCT00954707|164778121|SUPERIORITY_OR_OTHER||Rate of protocol defined ST (%)|0.91|||||TWO_SIDED|95.0|0.56|1.38||||||||1.38|0.56|
82538874|NCT00954707|164778122|SUPERIORITY_OR_OTHER||Rate of ARC defined ST (%)|1.12|||||TWO_SIDED|95.0|0.74|1.64||||||||1.64|0.74|
82538875|NCT00954707|164778123|SUPERIORITY_OR_OTHER||Rate of major bleeding complications (%)|3.07|||||TWO_SIDED|95.0|2.4|3.85||||||||3.85|2.40|
82538876|NCT00954707|164778124|SUPERIORITY_OR_OTHER||Rate of cardiac death (%)|0.78|||||TWO_SIDED|95.0|0.46|1.23||||||||1.23|0.46|
82538877|NCT00954707|164778125|SUPERIORITY_OR_OTHER||Rate of non-cardiac death (%)|0.69|||||TWO_SIDED|95.0|0.4|1.12||||||||1.12|0.40|
82538878|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.235|TWO_SIDED|95.0|0.45|1.22|||Univariate logistic regression model|||Comparison between genders: women and men.||1.22|0.45|0.235
82538879|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.331|TWO_SIDED|95.0|0.55|1.22|||Univariate logistic regression model|||Comparison between Age: \<= 55 years and \> 55 years||1.22|0.55|0.331
82538880|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.05|TWO_SIDED|95.0|1.0|2.23|||Univariate logistic regression model|||Comparison between time since initial diagnosis: \>= 10 years and \< 10 years||2.23|1.00|0.050
82538881|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.144|TWO_SIDED|95.0|0.88|2.46|||Univariate logistic regression model|||Comparison between participants without erosive rheumatoid arthritis (RA) and participants with erosive RA||2.46|0.88|0.144
82538882|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.01|TWO_SIDED|95.0|1.14|2.65|||Univariate logistic regression model|||Comparison between DAS-28 score: \<= 5.1 and DAS-28 \>5.1||2.65|1.14|0.010
82538883|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.119|TWO_SIDED|95.0|0.92|2.1|||Univariate logistic regression model|||Comparison between ESR: \<= 28 mm/h and \> 28 mm/h||2.10|0.92|0.119
82538884|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.265|TWO_SIDED|95.0|0.81|2.13|||Univariate logistic regression model|||Comparison between number of participants without anemia and number of participants with anemia||2.13|0.81|0.265
82538885|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.511|TWO_SIDED|95.0|0.77|1.71|||Univariate logistic regression model|||Comparison between dose of corticosteroids: \<= 5 mg and \> 5 mg||1.71|0.77|0.511
82538886|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.153|TWO_SIDED|95.0|0.9|2.0|||Univariate logistic regression model|||Comparison between HAQ score: \<= 1.5 and \> 1.5||2.00|0.90|0.153
82538887|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19|||<|0.001|TWO_SIDED|95.0|1.45|3.31|||Univariate logistic regression model|||Comparison between VAS patient: fatigue \<= 66 and \> 66||3.31|1.45|<0.001
82538888|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|||<|0.001|TWO_SIDED|95.0|1.35|3.08|||Univariate logistic regression model|||Comparison between VAS patient: pain \<= 66 and \> 66||3.08|1.35|<0.001
82538889|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.261|TWO_SIDED|95.0|0.86|2.75|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<=30 score and 30 - 59 score||2.75|0.86|0.261
82538890|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.261|TWO_SIDED|95.0|0.67|2.05|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<= 30 and 59 - 77||2.05|0.67|0.261
82538891|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.261|TWO_SIDED|95.0|0.95|2.89|||Univariate logistic regression model|||Comparison between VAS patient (quality of sleep) score: \<= 30 and \> 77||2.89|0.95|0.261
82538892|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08|||<|0.001|TWO_SIDED|95.0|1.38|3.14|||Univariate logistic regression model|||Comparison between VAS patient: global assessment score: \<= 67 and \> 67||3.14|1.38|<0.001
82538893|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.001|TWO_SIDED|95.0|1.5|3.47|||Univariate logistic regression model|||Comparison between SF36 vitality score: \> 33 and \<= 33||3.47|1.50|< 0.001
82538894|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.399|TWO_SIDED|95.0|0.6|1.93|||Univariate logistic regression model|||Comparison between HADS score: Anxiety (No case) and HADS score: Anxiety (Doubtful case)||1.93|0.60|0.399
82538895|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.399|TWO_SIDED|95.0|0.48|1.26|||Univariate logistic regression model|||Comparison between HADS score: Anxiety (No case) and HADS score: Anxiety (Certain case)||1.26|0.48|0.399
82538896|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.858|TWO_SIDED|95.0|0.65|1.81|||Univariate logistic regression model|||Comparison between HADS score: Depression (No Case) and HADS score: Depression (Doubtful case)||1.81|0.65|0.858
82538897|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.858|TWO_SIDED|95.0|0.57|1.52|||Univariate logistic regression model|||Comparison between HADS score: Depression (No Case) and HADS score: Depression (Certain case)||1.52|0.57|0.858
82538898|NCT01185522|164778133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.036|TWO_SIDED|95.0|1.03|2.58|||Multivariate logistic regression model|||Comparison between time since initial diagnosis: \>= 10 years and \< 10 years||2.58|1.03|0.036
82538899|NCT01185522|164778134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.004|TWO_SIDED|95.0|1.05|1.28|||Univariate logistic regression model|||Predictive factor: C-Reactive Protein||1.28|1.05|0.004
82538900|NCT01185522|164778134|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.013|TWO_SIDED|95.0|1.03|1.27|||Multivariate logistic regression model|||Predictive factor: C-Reactive Protein||1.27|1.03|0.013
82538901|NCT01185522|164778135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.253|TWO_SIDED|95.0|0.99|1.05|||Univariate logistic regression model|||Predictive factor: Tender joint||1.05|0.99|0.253
82538902|NCT01185522|164778135|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.021|TWO_SIDED|95.0|1.01|1.09|||Univariate logistic regression model|||Predictive factor : Swollen joint||1.09|1.01|0.021
82538903|NCT00771667|164778151|SUPERIORITY_OR_OTHER|||||||0.005||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.005
82538904|NCT00771667|164778151|SUPERIORITY_OR_OTHER|||||||0.057||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.057
82538905|NCT00771667|164778151|SUPERIORITY_OR_OTHER|||||||0.021||||||A fixed sequence testing procedure was employed to control the type I error rate at 0.05 level for the primary endpoint, beginning with the highest dose.|Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.021
82538906|NCT00771667|164778152|SUPERIORITY_OR_OTHER|||||||0.682|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.682
82538907|NCT00771667|164778152|SUPERIORITY_OR_OTHER|||||||0.206|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.206
82538908|NCT00771667|164778152|SUPERIORITY_OR_OTHER|||||||0.196|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.196
82538909|NCT00771667|164778153|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.008
82538910|NCT00771667|164778153|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||<0.001
82538911|NCT00771667|164778153|SUPERIORITY_OR_OTHER|||||||0.035|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.035
82538912|NCT00771667|164778154|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||<0.001
82538913|NCT00771667|164778154|SUPERIORITY_OR_OTHER|||||||0.007|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.007
82538914|NCT00771667|164778154|SUPERIORITY_OR_OTHER|||||||0.006|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.006
82538915|NCT00771667|164778155|SUPERIORITY_OR_OTHER|||||||0.074|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.074
82538916|NCT00771667|164778155|SUPERIORITY_OR_OTHER|||||||0.081|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.081
82538917|NCT00771667|164778155|SUPERIORITY_OR_OTHER|||||||0.105|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for anti-TNF status.||||||0.105
82538918|NCT00771667|164778156|SUPERIORITY_OR_OTHER|||||||0.029||||||Testing for Week-22 clinical remission was performed if the comparison of 6-mg/kg ustekinumab with placebo was positive for the primary endpoint.|Cochran-Mantel-Haenszel|The CMH test chi-square test, stratified by IV induction dose and clinical remission status at Week 6.||||||0.029
82538919|NCT00771667|164778157|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The CMH test is controlling for induction dose and clinical remission status at Week 6.||||||<0.001
82538920|NCT00531518|164778188|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED|||||The final analysis included adjstment for site and baseline sum psychotic symptom score.|Mixed Models Analysis|||The analysis used regression discontinuity methods, in which the baseline sum scores were adjusted and centered to an equalize control and experimental conditions.||||.0034
82538921|NCT03110458|164778247|SUPERIORITY|||||||0.8466|||||||ANCOVA|||||||0.8466
82538922|NCT03110458|164778248|SUPERIORITY|||||||0.9538|||||||ANCOVA|||||||0.9538
82538923|NCT03110458|164778249|SUPERIORITY|||||||0.3166|||||||ANCOVA|||||||0.3166
82538924|NCT03110458|164778250|SUPERIORITY|||||||0.393|||||||ANCOVA|||||||0.393
82538925|NCT03110458|164778253|SUPERIORITY|||||||0.5324|||||||ANCOVA|||||||0.5324
82538926|NCT00738699|164778254|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13||||0.836|TWO_SIDED|95.0|0.88|1.46||One-sided log rank test stratified by route of administration for primary chemotherapy (intraperitoneal vs intravenous) and geographic region (North America, Europe, and other participating countries).|Log Rank||Stratified as described above.|||1.46|0.88|0.8360
82538927|NCT00738699|164778255|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.11||||0.7568|TWO_SIDED|95.0|0.83|1.48||One-sided log rank test stratified by route of administration for primary chemotherapy and geographic region.|Log Rank||Stratified as described above|||1.48|0.83|0.7568
82649088|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.96|||||TWO_SIDED|95.0|-130.69|104.76||||||For change in eating related items at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||104.76|-130.69|
82434212|NCT00281099|164579013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||||95.0|1.31|1.858|||Andersen-Gill model|This model was fit to account for multiple events (i.e. days in which non-VT/VF detected by device as VT/VF) within subject.|Because of the possible correlation within a subject for days with episodes, a subsequent analysis was done using a bootstrap confidence interval for the annualized rate of episodes per patient month.|The pre-specified analysis called for a comparison of the hazard rates of inappropriately detected non-VT/VF between the two arms by way of a one-sided 95% confidence interval on the hazard ratio (MVP in numerator) after fitting a model. The unit of time was days, not episodes, so the analysis did not account for multiple episodes on the same day. If the upper bound was less than 1, the null hypothesis of equal hazard rates would be rejected.||1.858|1.310|
82434213|NCT00281099|164579013|SUPERIORITY_OR_OTHER||Difference in Annualized Rates|0.017||||||95.0|0.017|0.036|||Bootstrap Confidence Interval|||A 95% one-sided bootstrap confidence interval was generated for the MVP - VVI 40 difference in annualized rates of inappropriately detected non-VT/VF per patient month. If the interval upper bound was less than 0, the null hypothesis of equal rates would be rejected.||0.036|0.017|
82434214|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.7166||95.0|1.22|3.0||The threshold for significance was the one-sided upper confidence bound being less than 1.|Andersen-Gill model|||This analysis compared the hazard rates for clinically important AF (defined as a calendar day with \>20 hour of AT/AF as measured by the device). The null hypothesis was that this hazard rate for patients with MVP was equal to or greater than that of patients with VVI 40. The pre-specified model had Arm as a covariate, and accounted for time to first event and time between successive events per subject.||3.0|1.22|0.7166
82490187|NCT02390908|164673174|SUPERIORITY||Slope|-38.4||||0.07|TWO_SIDED|95.0|-79.51|2.72||Piecemeal latent growth curves (LGC) were specified with intercepts and linear slopes. Slope 2 estimated here represents linear change in log VL across the 12-,15-, and 18-month follow-ups for Waitlist relative to the No-Treatment EMR Control Group.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.||||2.72|-79.51|0.07
82490188|NCT02390908|164673175|SUPERIORITY||Beta|-7.87||||0.22|TWO_SIDED|95.0|-20.52|4.78||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||4.78|-20.52|0.22
82490189|NCT02390908|164673175|SUPERIORITY||Beta|10.29||||0.22|TWO_SIDED|95.0|-6.25|26.82||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and pre-baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||26.82|-6.25|0.22
82490190|NCT02390908|164673175|SUPERIORITY||Beta|-0.27||||0.96|TWO_SIDED|95.0|-11.63|11.08||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention immediately at Site 3 on ART Medication Adherence was estimated against Site 3's Waitlist Control Group.|||11.08|-11.63|0.96
82490191|NCT02390908|164673175|SUPERIORITY||Slope|6.34||||0.03|TWO_SIDED|95.0|0.72|11.97||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across the 3-, 6-, 9- and 12-month follow-ups for Site 1 relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||11.97|0.72|0.03
82490192|NCT02390908|164673175|SUPERIORITY||Slope|3.35||||0.42|TWO_SIDED|95.0|-4.78|11.47||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across the 3-, 6-, 9- and 12-month follow-ups for Site 2 relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||11.47|-4.78|0.42
82490193|NCT02390908|164673175|SUPERIORITY||Slope|0.34||||0.91|TWO_SIDED|95.0|-5.85|6.54||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in Medication Adherence across 3-,6-,9- and 12-month follow-ups for Site 3 (Immediate) relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||6.54|-5.85|0.91
82490194|NCT02390908|164673176|SUPERIORITY||Beta|3.19||||0.02|TWO_SIDED|95.0|0.61|5.78||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 1 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 1 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||5.78|0.61|0.02
82490195|NCT02390908|164673176|SUPERIORITY||Beta|-0.86||||0.63|TWO_SIDED|95.0|-4.33|2.61||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 2 and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention at Site 2 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||2.61|-4.33|0.63
82434215|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-100.0|0.8||The threshold for significance was defined as the upper one-sided confidence bound being less than 0.|Bootstrap Confidence Interval|||This analysis compared the percentage of days with \>20 hours of AT/AF as measured by the device(definition of clinically important AF) between arms. The null hypothesis was that this percentage of days for patients with MVP was equal or greater to that of patients with VVI 40.||0.8|-100|
82434216|NCT00281099|164579014|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||The a priori threshold for statistical significance was 0.05.|Log Rank|A one-sided test was used.||This analysis tested the null hypothesis that the hazard rate for development of persistent AF(defined as 2 consecutive visits presenting with AT/AF, 7 consecutive days of 22 or more hours per day of AT/AF, or \< 7 such days due to a cardioversion) in patients with MVP and no pacing indication was equal to or greater than that of similar patients with VVI 40.||||0.325
82434217|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.145||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF through 6 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) through 6 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.145|0|
82434218|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.227||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 6 to 12 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 6 to 12 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.227|0|
82434219|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|0.0|0.261||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 12 to 24 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 12 to 24 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.261|0|
82434220|NCT00281099|164579014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||||95.0|-0.1|0.11||The a priori threshold for significance was defined as the one-sided upper 95% confidence bound for the MVP - VVI 40 difference in average AT/AF burden from 24 to 36 months being less than 0.|Bootstrap Confidence Interval|||This analysis tested the hypothesis that the average AT/AF burden (hours per day of AT/AF) from 24 to 36 months post-implant in patients with no Class I pacing indication and MVP is equal to or greater than that of similar patients with VVI 40. Only subjects with complete AT/AF data for this time interval were included in the analysis.||0.110|-0.1|
82434221|NCT00281099|164579015|SUPERIORITY_OR_OTHER|||||||0.0053||95.0||||The a priori threshold for statistical significance was 0.05. The threshold was met, and the null hypothesis rejected.|Log Rank|||Physicians recorded at each scheduled and unscheduled follow-up whether the subject had developed a Class I indication since their last visit. The time from randomization to Class I indication development or last visit if censored was determined for each subject. The null hypothesis was that the hazard rate for time to development of a Class I pacing indication among patients with MVP programming was equal to or greater than that of patients with VVI 40 programming.||||0.0053
82434222|NCT00281099|164579017|SUPERIORITY_OR_OTHER|||||||0.9791||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 6 months post-implant for patients with MVP programming and was greater than or equal to that of patients with VVI 40 programming.||||0.9791
82538928|NCT00738699|164778256|SUPERIORITY_OR_OTHER||Difference|-7.4||||0.0399|TWO_SIDED|95.0|-14.1|-0.7||Compared the ratio of complete or partial responders in the two arms. Stratified by route of administration for first line therapy and geographic region as specified at baseline.|Cochran-Mantel-Haenszel||(FAR + Paclitaxel) minus (Placebo + Paclitaxel). Confidence interval based on a normal approximation to the binomial distribution.|||-0.7|-14.1|0.0399
82434223|NCT00281099|164579017|SUPERIORITY_OR_OTHER|||||||0.8984||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 12 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 12 months post-implant for patients with MVP programming was greater than or equal to that of patients with VVI 40 programming.||||0.8984
82434224|NCT00281099|164579017|SUPERIORITY_OR_OTHER|||||||0.7144||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 24 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 24 months post-implant for patients with MVP programming and no pacing indication was greater than or equal to that of patients with VVI 40 programming and no pacing indication.||||0.7144
82538929|NCT02174562|164778273|SUPERIORITY||Risk Ratio (RR)|1.21||||0.31|TWO_SIDED|95.0|0.84|1.75||0.05 was the a priori level of significance.|Poisson regression with robust SEs||PC-OT is the numerator, Enhanced Usual care is the denominator|Null hypothesis is that the Relative Risk of reduction of HbA1C \>=0.5 for PCOT vs EUC is 1.||1.75|0.84|0.31
82649089|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.15|||||TWO_SIDED|95.0|-7.12|103.42||||||For change in altered bowel habits at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.42|-7.12|
82453764|NCT00286429|164613454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.1||||0.563|TWO_SIDED|95.0|-17.9|9.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 2. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||9.7|-17.9|0.563
82453765|NCT00286429|164613454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4||||0.084|TWO_SIDED|95.0|-26.4|1.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 2. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||1.7|-26.4|0.084
82453766|NCT00286429|164613455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.3||||0.16|TWO_SIDED|95.0|-24.7|4.1||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.1|-24.7|0.160
82453767|NCT00286429|164613455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4||||0.02|TWO_SIDED|95.0|-32.1|-2.8||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-2.8|-32.1|0.020
82490196|NCT02390908|164673176|SUPERIORITY||Beta|4.17||||0.02|TWO_SIDED|95.0|0.8|7.54||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between Site 3's Immediate Delivery Group and the Waitlist Group at the 3-month follow-up.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.|The main effect of receiving the PLUS intervention immediately at Site 3 on Alcohol Use severity (AUDIT) was estimated against Site 3's Waitlist Control Group.|||7.54|0.80|0.02
82490197|NCT02390908|164673176|SUPERIORITY||Slope|-0.4||||0.46|TWO_SIDED|95.0|-1.47|0.67||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 1 relative to that for the Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.67|-1.47|0.46
82490198|NCT02390908|164673176|SUPERIORITY||Slope|-0.29||||0.5|TWO_SIDED|95.0|-1.12|0.55||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 2 relative to that for the Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.55|-1.12|0.50
82538930|NCT02174562|164778274|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|P-value is for comparison of least squares means for period 2 (months 4-6).||Mixed effects linear regression was used to model the percentage of doses taken each month. Fixed effects were period (1-3 months, 4-6 months, 7-9 months, 10-12 months), randomization group, randomization by period interaction, stratification group, age, and run-in percentage doses taken. The outcome was transformed using the arcsin-square root transformation prior to analysis. A first-order autoregressive correlation structure was assumed.||||0.87
82490199|NCT02390908|164673176|SUPERIORITY||Slope|-0.35||||0.43|TWO_SIDED|95.0|-1.23|0.52||A latent growth curve (LGC) with an intercept and linear slope was specified. The slope estimated here represents linear change in AUDIT across the 3-, 6-, 9- and 12-month follow-ups for Site 3 (Immediate) relative to Waitlist Control Group.|Latent Growth Curve|Analysis adjusted for gender and baseline value of the outcome.||||0.52|-1.23|0.43
82490200|NCT03469934|164673194|OTHER||Least Squares (LS) Mean Difference|-0.058||||0.5703|TWO_SIDED|95.0|-0.265|0.15|||Mixed-model repeated measures|||Mixed-model repeated measures (MMRM) analysis with fixed terms for treatment, time point of measurement, and treatment by time point interaction, baseline eosinophil count as a covariate, and a repeated time point effect within a participant.||0.150|-0.265|0.5703
82490201|NCT03469934|164673198|OTHER||LS Mean Difference|-0.05||||0.5901|TWO_SIDED|95.0|-0.239|0.139|||Mixed-model repeated measures|||MMRM analysis with fixed terms for treatment, time point of measurement, and treatment by time point interaction, baseline eosinophil count as a covariate, and a repeated time point effect within a participant.||0.139|-0.239|0.5901
82490202|NCT03469934|164673199|OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.164||0.596|TWO_SIDED|95.0|-0.25|0.43|||ANCOVA|||Change from baseline for FEV1 was compared between etokimab and placebo using an analysis of covariance (ANCOVA) with treatment as fixed effect and baseline result as covariate and participant as a random effect||0.43|-0.25|0.5960
82490203|NCT03469934|164673200|OTHER||LS Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|9.823||0.7993|TWO_SIDED|95.0|-17.9|22.96|||ANCOVA|||Change from baseline for FeNO was compared between etokimab and placebo using an ANCOVA with treatment as fixed effect and baseline result as covariate and participant as a random effect||22.96|-17.90|0.7993
82490204|NCT03569033|164673211|OTHER||Difference in Least Squares Means|-0.32||||0.748|TWO_SIDED|95.0|-2.29|1.66|||Longitudinal Data Analysis|||||1.66|-2.29|0.748
82490205|NCT03569033|164673212|OTHER||Difference in Least Squares Means|0.99||||0.754|TWO_SIDED|95.0|-5.33|7.3|||ANCOVA|||||7.30|-5.33|0.754
82453768|NCT00286429|164613456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.9||||0.013|TWO_SIDED|95.0|-33.7|-4.0||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 8. The treatment effect was be evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.0|-33.7|0.013
82453769|NCT00286429|164613456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5||||0.011|TWO_SIDED|95.0|-34.5|-4.5||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.5|-34.5|0.011
82453770|NCT00286429|164613457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8||||0.624|TWO_SIDED|95.0|-18.9|11.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||11.3|-18.9|0.624
82453771|NCT00286429|164613457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.853|TWO_SIDED|95.0|-16.7|13.8||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||13.8|-16.7|0.853
82453772|NCT00286429|164613458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.19|TWO_SIDED|95.0|-24.7|4.9||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.9|-24.7|0.190
82453773|NCT00286429|164613458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.154|TWO_SIDED|95.0|-25.8|4.1||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 16. The treatment effect was be evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||4.1|-25.8|0.154
82538931|NCT03670602|164778294|SUPERIORITY|||||||0.0035||||||This is for the treatment group x time effect, or if treatment influenced improvements in delay discounting across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Treatment group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate.||||0.0035
82538932|NCT03670602|164778294|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if delay discounting improved across all three timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Treatment group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
82538933|NCT03670602|164778295|SUPERIORITY|||||||0.85||||||This is for the treatment group x time effect, or if treatment differentially influenced weight across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.85
82649090|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|92.59|||||TWO_SIDED|95.0|63.16|122.02||||||For change in jaundice at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||122.02|63.16|
82538934|NCT03670602|164778295|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if time influenced changes in weight, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
82649091|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-85.03|96.14||||||For change in body image at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.14|-85.03|
82649092|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.04|||||TWO_SIDED|95.0|-29.46|103.54||||||For change in health care satisfaction at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.54|-29.46|
82434225|NCT00281099|164579017|SUPERIORITY_OR_OTHER|||||||0.5165||95.0||||The one-sided Wilcoxon Rank Sum test yielded a p-value greater than 0.05, which was the a priori threshold for significance.|Wilcoxon (Mann-Whitney)|Alternative hypothesis:patients with MVP \& no pacing indication have less mean ventricular pacing through 36 months than similar patients with VVI 40.||All subjects from the analysis cohort with available data for the time period of interest were included in the corresponding analysis. The null hypothesis was that the average percent ventricular pacing through 36 months post-implant for patients with MVP programming and no pacing indication was greater than or equal to that of patients with VVI 40 programming and no pacing indication.||||0.5165
82434226|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0073||95.0||||The p-value is not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||For the KCCQ Physical Limitation Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0073
82434227|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.2493||95.0||||No adjustment was made for multiple comparisons, and the a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Stability Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.2493
82434228|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.7728||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Frequency Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.7728
82434229|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.3082||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons|Wilcoxon (Mann-Whitney)|||For the KCCQ Symptom Burden Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.3082
82434230|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.5422||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Total Symptom Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.5422
82434231|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0851||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Self-Efficacy Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0851
82453774|NCT00286429|164613459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7||||0.097|TWO_SIDED|95.0|-27.8|2.3||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||2.3|-27.8|0.097
82538935|NCT03670602|164778296|SUPERIORITY|||||||0.79||||||This is for the treatment group x time effect, or if treatment group influenced change in hBa1c across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.79
82434232|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0502||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Quality of Life Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0502
82434233|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0463||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Social Limitation Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0463
82434234|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0227||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Overall Summary Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0227
82434235|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.0582||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||For the KCCQ Overall Clinical Summary Score, the change from baseline to 12 months was compared between the two arms, using a two-sided test. If a subject died prior to the time point, a score of 0 was imputed for their 12 month score.||||0.0582
82434236|NCT00281099|164579018|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Tests for all ten KCCQ subscores yielded p-values greater than 0.15 (the a priori threshold for statistical significance was 0.05).|Wilcoxon (Mann-Whitney)|||The 10 KCCQ analyses were repeated comparing changes from baseline to 24 months between arms. Again if a subject died prior to their 24 month visit, a value of 0 was imputed for their 24 month score.||||> 0.15
82434237|NCT00281099|164579018|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Tests for all 10 KCCQ subscores yielded p-values greater than 0.15 (the a priori threshold for statistical significance was 0.05).|Wilcoxon (Mann-Whitney)|Because the trial was stopped early, only 178 subjects were included in these analyses.||The 10 KCCQ analyses were repeated comparing changes from baseline to 36 months between arms. Again if a subject died prior to their 36 month visit, a value of 0 was imputed for their 36 month score.||||> 0.15
82538936|NCT03670602|164778296|SUPERIORITY||||||<|0.001||||||This is for the time effect, or if hBa1c changed across timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.001
82538937|NCT03670602|164778297|SUPERIORITY|||||||0.201||||||This is for the treatment group x time effect, or if treatment differentially influenced medication adherence across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.201
82538938|NCT03670602|164778297|SUPERIORITY|||||||0.315||||||This is for the time effect, or if timepoint influenced medication adherence across all timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.315
82538939|NCT03670602|164778298|SUPERIORITY|A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||||0.345||||||This is for the treatment group x time effect, or if treatment group influenced change in percent of time engaged in moderate-to-vigorous physical activity (MVPA) across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||||||0.345
82577511|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.66|||||TWO_SIDED|95.0|0.57|0.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6A||0.75|0.57|
82577512|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.57|||||TWO_SIDED|95.0|0.48|0.67|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 6B||0.67|0.48|
82434238|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.1399||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 12 months was compared using a two-sided test. If a subject died before their 12 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 12 month score.||||0.1399
82577513|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.73|||||TWO_SIDED|95.0|0.67|0.8|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 7F||0.80|0.67|
82577514|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.73|||||TWO_SIDED|95.0|0.66|0.81|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 9V||0.81|0.66|
82434239|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.3573||95.0||||The a priori threshold for statistical significance was 0.05, and no adjustment was made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 24 months was compared using a two-sided test. If a subject died before their 24 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 24 month score.||||0.3573
82434240|NCT00281099|164579018|SUPERIORITY_OR_OTHER|||||||0.5183||95.0||||The a priori threshold for statistical significance was 0.05, with no adjustment made for multiple comparisons.|Wilcoxon (Mann-Whitney)|Because the trial was stopped early, only 178 subjects were included in this analysis.||The change in Minnesota Living with Heart Failure Questionnaire score from baseline to 36 months was compared using a two-sided test. If a subject died before their 36 month visit, a value of 105 (worst possible MLWHF score) was imputed for their 36 month score.||||0.5183
82434241|NCT00281099|164579019|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was performed, with the hazard ratio as the parameter of interest and the non-inferiority threshold of 1.44. The one-sided upper confidence bound for the hazard ratio had to be less than 1.44 for the null hypothesis to be rejected. The threshold of 1.44 was derived by using a noninferiority threshold of a 5 percentage point difference in 24 month survival rates.|Hazard Ratio (HR)|1.26||||||95.0|1.26|1.75|||||This was a non-inferiority analysis, and so a one-sided 95% confidence interval was performed comparing the MVP arm to the VVI 40 arm.|The time from randomization to all cause mortality or last follow-up visit was determined for each subject. The null hypothesis was that the mortality hazard rate for patients with MVP programming was greater than that of patients with VVI40 programming.||1.75|1.26|
82434242|NCT06899737|164579029|SUPERIORITY||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|2.56||0.32|TWO_SIDED|95.0|-7.64|2.55|||t-test, 2 sided|||||2.55|-7.64|0.32
82434243|NCT06899737|164579030|SUPERIORITY||Mean Difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|3.08||0.18|TWO_SIDED|95.0|-1.94|10.3|||t-test, 2 sided|||||10.30|-1.94|0.18
82434244|NCT06899737|164579031|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.5||0.71|TWO_SIDED|95.0|-0.81|1.18|||t-test, 2 sided|||||1.18|-0.81|0.71
82434245|NCT06899737|164579032|SUPERIORITY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.32||0.32|TWO_SIDED|95.0|-0.03|1.24|||t-test, 2 sided|||||1.24|-0.03|0.32
82434246|NCT06899737|164579033|SUPERIORITY||Median Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.44||0.91|TWO_SIDED|95.0|-0.82|0.92|||t-test, 2 sided|||||0.92|-0.82|0.91
82434247|NCT06899737|164579034|SUPERIORITY||Median Difference (Final Values)|0.69||||0.059|TWO_SIDED|95.0|-0.03|1.42|||t-test, 2 sided|||||1.42|-0.03|0.059
82538940|NCT03670602|164778298|SUPERIORITY|||||||0.0003||||||This is for the time effect, or if percent of time engaged in moderate-to-vigorous physical activity (MVPA) changed across timepoints, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.0003
82434248|NCT06899737|164579035|SUPERIORITY||Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.41||0.79|TWO_SIDED|95.0|-0.92|0.71|||t-test, 2 sided|||||0.71|-0.92|0.79
82434249|NCT06899737|164579036|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.33||0.14|TWO_SIDED|95.0|-0.16|1.15|||t-test, 2 sided|||||1.15|-0.16|0.14
82434250|NCT06899737|164579037|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.43||0.42|TWO_SIDED|95.0|-1.19|0.5|||t-test, 2 sided|||||0.50|-1.19|0.42
82434251|NCT06899737|164579038|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.37||0.37|TWO_SIDED|95.0|-0.4|1.07|||t-test, 2 sided|||||1.07|-0.40|0.37
82434252|NCT06899737|164579040|SUPERIORITY||Mean Difference (Final Values)|6.72|STANDARD_ERROR_OF_MEAN|3.42||0.05|TWO_SIDED|95.0|-0.06|13.51|||t-test, 2 sided|||||13.51|-0.06|0.05
82434253|NCT06899737|164579041|SUPERIORITY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.35||0.23|TWO_SIDED|95.0|-0.26|1.11|||t-test, 2 sided|||||1.11|-0.26|0.23
82538941|NCT03670602|164778299|SUPERIORITY|||||||0.007||||||This is for the treatment group x time effect, or if treatment differentially influenced changes in calorie intake across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.007
82434254|NCT06899737|164579042|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.37||0.08|TWO_SIDED|95.0|-0.09|1.39|||t-test, 2 sided|||||1.39|-0.09|0.08
82434255|NCT06899737|164579043|SUPERIORITY||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.38||0.11|TWO_SIDED|95.0|-0.15|1.35|||t-test, 2 sided|||||1.35|-0.15|0.11
82434256|NCT06899737|164579044|SUPERIORITY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.34||0.05|TWO_SIDED|95.0|-0.01|1.36|||t-test, 2 sided|||||1.36|-0.01|0.05
82434257|NCT03224403|164579066|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82434258|NCT03224403|164579066|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82434259|NCT03224403|164579066|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82434260|NCT03224403|164579066|SUPERIORITY|||||||0.035||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.035
82434261|NCT03224403|164579066|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||<0.001
82434262|NCT03224403|164579067|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82649093|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.14|||||TWO_SIDED|95.0|-41.45|27.16||||||For change in sexual functioning at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||27.16|-41.45|
82434263|NCT03224403|164579067|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82434264|NCT03224403|164579067|SUPERIORITY||||||<|0.001||||||The significance threshold level was 0.049 (two-sided). P-values are based on the Wilcoxon test from PROC LIFETEST that compared survival curves.|Wilcoxon test from SAS PROC LIFETEST|||||||<0.001
82434265|NCT03224403|164579067|SUPERIORITY|||||||0.671||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.671
82434266|NCT03224403|164579067|SUPERIORITY|||||||0.487||||||The significance threshold level was 0.049 (two-sided). P-values are from the comparison of median survival time using the bootstrap re-sampling method.|bootstrap re-sampling method|||||||0.487
82434267|NCT03224403|164579068|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434268|NCT03224403|164579069|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434269|NCT03224403|164579070|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434270|NCT03224403|164579071|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434271|NCT03224403|164579072|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434272|NCT03224403|164579073|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434273|NCT03224403|164579074|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434274|NCT03224403|164579075|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434275|NCT03224403|164579076|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434276|NCT03224403|164579077|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434277|NCT03224403|164579078|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434278|NCT03224403|164579079|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434279|NCT03224403|164579080|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434280|NCT03224403|164579081|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434281|NCT03224403|164579082|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434282|NCT03224403|164579083|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434283|NCT03224403|164579084|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82434284|NCT03224403|164579085|SUPERIORITY|||||||0.007|||||||Regression, Logistic|||||||0.007
82434285|NCT03224403|164579086|SUPERIORITY|||||||0.026|||||||Regression, Logistic|||||||0.026
82434286|NCT03224403|164579087|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.080
82434287|NCT01691014|164579095|SUPERIORITY_OR_OTHER|||||||0.99|||||||Fisher Exact|||DAS28: Month 3: Continuous variables were compared between treatment groups using one way analysis of variance (ANOVA).||||0.990
82434288|NCT01691014|164579095|SUPERIORITY_OR_OTHER|||||||0.586|||||||Fisher Exact|||DAS28: Month 6: Continuous variables were compared between treatment groups using one way ANOVA.||||0.586
82577515|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.8|||||TWO_SIDED|95.0|0.69|0.92|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 14||0.92|0.69|
82434289|NCT01691014|164579095|SUPERIORITY_OR_OTHER|||||||0.98|||||||Fisher Exact|||DAS28: Month 12: Continuous variables were compared between treatment groups using one way ANOVA.||||0.980
82434290|NCT01691014|164579096|SUPERIORITY_OR_OTHER|||||||0.945|||||||Fisher Exact|||HAQ: Baseline: Continuous variables were compared between treatment groups using one way ANOVA.||||0.945
82434291|NCT01691014|164579096|SUPERIORITY_OR_OTHER|||||||0.458|||||||Fisher Exact|||HAQ: Month 3: Continuous variables were compared between treatment groups using one way ANOVA.||||0.458
82434292|NCT01691014|164579096|SUPERIORITY_OR_OTHER|||||||0.896|||||||Fisher Exact|||HAQ: Month 6: Continuous variables were compared between treatment groups using one way ANOVA.||||0.896
82434293|NCT01691014|164579096|SUPERIORITY_OR_OTHER|||||||0.39|||||||Fisher Exact|||HAQ: Month 12: Continuous variables were compared between treatment groups using one way ANOVA.||||0.390
82434294|NCT00066703|164579103|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.717||||0.0002|TWO_SIDED|95.0|0.602|0.855|||Log Rank||T+OFS is the reference group in the estimation of the hazard ratio.|||0.855|0.602|.0002
82434295|NCT00066703|164579104|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.664|||<|0.0001|TWO_SIDED|95.0|0.548|0.804|||Log Rank||T+OFS is the reference group for the estimation of the hazard ratio.|||.804|.548|<.0001
82434296|NCT00066703|164579105|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.777||||0.02|TWO_SIDED|95.0|0.624|0.967|||Log Rank||T+OFS was the reference group in the estimation of the hazard ratio|||0.967|0.624|0.02
82434297|NCT00066703|164579106|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.84|TWO_SIDED|95.0|0.79|1.22|||Log Rank||T+OFS was the reference group in the estimation of the hazard ratio|||1.22|0.79|0.84
82434298|NCT01696968|164579107|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.91|1.07|||Poisson regression|||||1.07|0.91|
82649094|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-67.04|59.64||||||For change in ascites at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||59.64|-67.04|
82434299|NCT01696968|164579109|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.95|1.0|||Poisson regression|||||1.00|0.95|
82434300|NCT01696968|164579111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.98|1.12|||Poisson regression|||||1.12|0.98|
82434301|NCT01696968|164579115|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.91|1.07|||Poisson regression|||||1.07|0.91|
82434302|NCT01668628|164579229|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t-test: Comparison of baseline physical health score between Normohydration group and Overhydration group.||||0.008
82434303|NCT01668628|164579229|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline mental health score between Normohydration group and Overhydration group.||||0.008
82434304|NCT01668628|164579229|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline kidney disease component score between Normohydration group and Overhydration group||||0.008
82434305|NCT01668628|164579229|SUPERIORITY_OR_OTHER|||||||0.157|TWO_SIDED||||||t-test, 2 sided|||Student's t test: Comparison of baseline BDI score between Normohydration group and Overhydration group.||||0.157
82434306|NCT01814878|164579272|NON_INFERIORITY_OR_EQUIVALENCE|Study drug treatment group was considered non-inferior to comparator treatment group, if lower limit of the confidence interval was larger than -2.0|Mean Difference (Final Values)|-4.68||||0.1648|TWO_SIDED|95.0|-11.29|1.93||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||Non-inferiority comparison for Tramadol Hydrochloride/Acetaminophen ER to Tramadol HCl/Acetaminophen IR was performed.||1.93|-11.29|0.1648
82434307|NCT01814878|164579273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.4082|TWO_SIDED|95.0|-1.1|0.45||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||0.45|-1.10|0.4082
82434308|NCT01814878|164579273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.172|TWO_SIDED|95.0|-2.68|0.48||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||0.48|-2.68|0.1720
82434309|NCT01814878|164579273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.0589|TWO_SIDED|95.0|-6.09|0.11||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||0.11|-6.09|0.0589
82434310|NCT01814878|164579274|SUPERIORITY_OR_OTHER|||||||0.1542||||||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||||0.1542
82434311|NCT01814878|164579274|SUPERIORITY_OR_OTHER|||||||0.0714||||||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||||0.0714
82434312|NCT01814878|164579274|SUPERIORITY_OR_OTHER|||||||0.1147||||||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||||0.1147
82434313|NCT01814878|164579274|SUPERIORITY_OR_OTHER|||||||0.2209||||||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||||||0.2209
82434314|NCT01814878|164579275|SUPERIORITY_OR_OTHER|||||||0.1498||||||Hour 6: P-value was calculated using Student's t-test|Student's t-test|||||||0.1498
82434315|NCT01814878|164579275|SUPERIORITY_OR_OTHER|||||||0.0485||||||Hour 12: P-value was calculated using Student's t-test|Student's t-test|||||||0.0485
82434316|NCT01814878|164579275|SUPERIORITY_OR_OTHER|||||||0.0404||||||Hour 24: P-value was calculated using Student's t-test|Student's t-test|||||||0.0404
82453775|NCT00286429|164613459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.9||||0.01|TWO_SIDED|95.0|-35.1|-4.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-4.7|-35.1|0.010
82490206|NCT03569033|164673213|OTHER||Difference in Least Squares Means|0.8||||0.627|TWO_SIDED|95.0|-2.5|4.1|||ANCOVA|||||4.10|-2.50|0.627
82649095|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.41|||||TWO_SIDED|95.0|-104.79|89.97||||||For change in indigestion at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||89.97|-104.79|
82434317|NCT01814878|164579275|SUPERIORITY_OR_OTHER|||||||0.121||||||Hour 48: P-value was calculated using Student's t-test|Student's t-test|||||||0.1210
82434318|NCT01814878|164579276|SUPERIORITY_OR_OTHER|||||||0.4216||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.4216
82434319|NCT01814878|164579277|SUPERIORITY_OR_OTHER|||||||0.1||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.1000
82434320|NCT01814878|164579278|SUPERIORITY_OR_OTHER|||||||0.3255||||||P-value was calculated using Mann-Whitney's U test.|Wilcoxon (Mann-Whitney)|||||||0.3255
82434321|NCT01814878|164579279|SUPERIORITY_OR_OTHER|||||||0.2848||||||Day 3: P-value was calculated using student's t-test|Student's t-test|||||||0.2848
82434322|NCT03470194|164579328|OTHER||||||=|0.002|||||||Wilcoxon (Mann-Whitney)|||||||=0.002
82434323|NCT01822899|164579329|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|95.0|0.046|0.113|||ANCOVA|||||0.113|0.046|<0.001
82434324|NCT01450696|164579353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.2401|TWO_SIDED|95.0|0.86|1.78|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 milliliters per minute \[mL/min\] and greater than or equal to \[≥\] 60 mL/min). Hazard ratio was estimated by Cox regression.||1.78|0.86|0.2401
82434325|NCT01450696|164579353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.1285|TWO_SIDED|95.0|0.92|1.88|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||1.88|0.92|0.1285
82434326|NCT01450696|164579355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9931|TWO_SIDED|95.0|0.49|2.04|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 mL/min and ≥60 mL/min). Hazard ratio was estimated by Cox regression.||2.04|0.49|0.9931
82434327|NCT01450696|164579355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9458|TWO_SIDED|95.0|0.52|2.02|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||2.02|0.52|0.9458
82490207|NCT03569033|164673214|OTHER||Difference in Least Squares Means|0.09||||0.631|TWO_SIDED|95.0|-0.28|0.45|||ANCOVA|||||0.45|-0.28|0.631
82434328|NCT01450696|164579357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.6759|TWO_SIDED|95.0|0.63|2.02|||Log Rank|||Stratified analysis included stratum of creatinine clearance (45 to 59 mL/min and ≥60 mL/min). Hazard ratio was estimated by Cox regression.||2.02|0.63|0.6759
82434329|NCT01450696|164579357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.5764|TWO_SIDED|95.0|0.67|2.05|||Log Rank|||Unstratified analysis. Hazard ratio was estimated by Cox regression.||2.05|0.67|0.5764
82434330|NCT01450696|164579358|SUPERIORITY_OR_OTHER||Difference in response rates|-7.58||||0.5402|TWO_SIDED|95.0|-31.75|16.6|||Chi-squared|||The 95% CI for difference in response rates was constructed using the normal approximation to the binomial distribution.||16.60|-31.75|0.5402
82434331|NCT01450696|164579358|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.28|1.96||||||||1.96|0.28|
82434332|NCT03818607|164579361|NON_INFERIORITY|The clinical similarity of the Week 27 LDH between treatments was assessed by comparing the 1-sided 97.5% upper confidence interval (CI) limit for the geometric mean ratio of LDH at Week 27 between ABP 959 treatment and eculizumab treatment with a non-inferiority margin of 2.873.|Geometric LS mean ratio (GMR)|1.0628|||||ONE_SIDED|97.5||1.1576||||||||1.1576||
82434333|NCT03818607|164579362|OTHER|The clinical similarity of the AUEC between treatments was assessed by comparing 2-sided 90% CI for the GMR of the time-adjusted AUEC of LDH (Week 13 to Week 27, Week 39 to Week 53, and Week 65 to Week 79) between ABP 959 treatment and eculizumab treatment with a similarity margin of (0.77, 1.30).|GMR|0.9812|||||TWO_SIDED|90.0|0.9403|1.0239||||||||1.0239|0.9403|
82490208|NCT05280782|164673220|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Systolic Blood Pressure values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Systolic Blood Pressure values were normal.|||
82490209|NCT05280782|164673220|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Diastolic Blood Pressure values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Diastolic Blood Pressure values were normal.|||
82490210|NCT05280782|164673221|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Heart Rate values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Heart Rate values were normal.|||
82490211|NCT05280782|164673222|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Respiratory Rate values. The values were categorized as Normal or Abnormal.||||||0.016||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.016
82490212|NCT05280782|164673223|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Temperature values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Temperature values were normal.|||
82490213|NCT05280782|164673224|EQUIVALENCE|A McNemar test was performed between baseline and post-injection EKG. The outcomes were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the EKGs were normal.|||
82434334|NCT03818607|164579370|OTHER||GMR|1.0314|||||ONE_SIDED|97.5||1.1201||||||||1.1201||
82434335|NCT03818607|164579373|OTHER||GMR|0.9122|||||TWO_SIDED|90.0|0.7586|1.0968||||||Total PK AUC GMR (ABP 959/Eculizumab)||1.0968|0.7586|
82434336|NCT03818607|164579373|OTHER||GMR|0.9508|||||TWO_SIDED|90.0|0.7454|1.213||||||Unbound PK AUC GMR (ABP 959/Eculizumab)||1.2130|0.7454|
82434337|NCT05059301|164579378|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% confidence interval (CI) of the GMC ratios (RSV OA\_Lot 1 divided by RSV OA\_Lot 2) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|1.06|||||TWO_SIDED|95.0|0.94|1.21||||||To demonstrate the clinical equivalence of RSV OA\_Lot 1 versus RSV OA\_Lot 2 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||1.21|0.94|
82434338|NCT05059301|164579378|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% CI of the GMC ratios (RSV OA\_Lot 1 divided by RSV OA\_Lot 3) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|0.92|||||TWO_SIDED|95.0|0.81|1.04||||||To demonstrate the clinical equivalence of RSV OA\_Lot 1 versus RSV OA\_Lot 3 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||1.04|0.81|
82434339|NCT05059301|164579378|EQUIVALENCE|Clinical equivalence is demonstrated if the 2 sided 95% CI of the GMC ratios (RSV OA\_Lot 2 divided by RSV OA\_Lot 3) is within the pre defined limit of \[0.67, 1.5\].|Adjusted group GMC ratio|0.87|||||TWO_SIDED|95.0|0.77|0.99||||||To demonstrate the clinical equivalence of RSV OA\_Lot 2 versus RSV OA\_Lot 3 in terms of RSV PreF3 IgG concentrations expressed as group GMC ratio at one month post vaccination. The 2-sided 95% CI for group GMC ratio was derived from an ANCOVA model on log10 transformed RSV PreF3 IgG antibody titers. The ANCOVA model included the treatment group and the age category (age at vaccination: 60-69, 70-79 or \>=80 years) and the center as fixed effects and the pre-dose log10 titer as covariate.||0.99|0.77|
82434340|NCT01262560|164579432|SUPERIORITY_OR_OTHER|||||||0.92||||||Due to the skewed nature of the data, median was reported instead of mean.|Wilcoxon (Mann-Whitney)|Each arm had less than the designed sample size. Therefore the statistical power was reduced (76% instead of 80%).||Null hypothesis: Manuka honey in liquid form is/not effective at reducing esophagitis-related pain, measured by mean change score from 0 to 4 weeks. A 2-sample t-test for difference of means with alpha 0.05 after adjusting for multiple comparisons (1-sided with overall alpha 0.1 before the Bonferroni adjustment) and 80% statistical power for each hypothesis test requires 45 patients per arm to detect \>= 15% relative reduction (absolute difference of mean change score of 3.1; effect size=0.53).||||0.92
82434341|NCT01262560|164579432|SUPERIORITY_OR_OTHER|||||||0.93||||||Due to the skewed nature of the data, median was reported instead of mean.|Wilcoxon (Mann-Whitney)|Each arm had less than the designed sample size. Therefore the statistical power was reduced (76% instead of 80%)||Null hypothesis: Manuka honey in lozenge form is/not effective at reducing esophagitis-related pain, measured by mean change score from 0 to 4 weeks. A 2-sample t-test for difference of means with alpha 0.05 after adjusting for multiple comparisons (1-sided with overall alpha 0.1 before the Bonferroni adjustment) and 80% statistical power for each hypothesis test requires 45 patients per arm to detect \>= 15% relative reduction (absolute difference of mean change score of 3.1; effect size=0.53).||||0.93
82649096|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.22|||||TWO_SIDED|95.0|-58.8|103.25||||||For change in flatulence at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||103.25|-58.80|
82649097|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-36.28|91.83||||||For change in cachexia at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||91.83|-36.28|
82434342|NCT01262560|164579433|SUPERIORITY_OR_OTHER|||||||0.87|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.87
82434343|NCT01262560|164579433|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.46
82434344|NCT01262560|164579433|SUPERIORITY|||||||0.0023|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.0023
82490214|NCT05280782|164673225|EQUIVALENCE|A McNemar test was performed between baseline and post-injection EKG. The outcomes were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the EKGs were normal.|||
82490215|NCT05280782|164673226|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Sodium values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Sodium values were normal.|||
82490216|NCT05280782|164673226|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Potassium values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Potassium values were normal.|||
82434345|NCT01262560|164579433|SUPERIORITY|||||||0.0025|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0025
82434346|NCT01262560|164579433|SUPERIORITY||||||<|0.0001||||||Each explanatory variable is reported separately.|Mixed Models Analysis|||"A linear fixed effects model using maximum likelihood estimation was run with NRPS score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||<0.0001
82434347|NCT01262560|164579434|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.70
82577516|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.75|||||TWO_SIDED|95.0|0.67|0.84|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 18C||0.84|0.67|
82577517|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.93|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19A||0.93|0.72|
82434348|NCT01262560|164579434|SUPERIORITY_OR_OTHER|||||||0.71|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.71
82434349|NCT01262560|164579434|SUPERIORITY|||||||0.0002|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.0002
82434350|NCT01262560|164579434|SUPERIORITY|||||||0.0051|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0051
82434351|NCT01262560|164579434|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with dysphagia score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||<0.0001
82434352|NCT01262560|164579435|SUPERIORITY_OR_OTHER|||||||0.086|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.086
82434353|NCT01262560|164579435|SUPERIORITY_OR_OTHER|||||||0.2|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.20
82453776|NCT00286429|164613460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.662|TWO_SIDED|95.0|-19.2|12.2||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||12.2|-19.2|0.662
82649098|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-74.3|96.52||||||For change in side effects at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||96.52|-74.30|
82649099|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.17|||||TWO_SIDED|95.0|-142.55|84.21||||||For change in fear of future health at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||84.21|-142.55|
82434354|NCT01262560|164579435|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.44
82434355|NCT01262560|164579435|SUPERIORITY|||||||0.0066|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||0.0066
82434356|NCT01262560|164579435|SUPERIORITY|||||||0.36|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC global health status (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||0.36
82434357|NCT01262560|164579435|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|Explanatory variables are reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Liquid Honey vs. Supportive Care) is reported here."||||0.94
82434358|NCT01262560|164579435|SUPERIORITY_OR_OTHER|||||||0.58|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Treatment (Lozenge Honey vs. Supportive Care) is reported here."||||0.58
82434359|NCT01262560|164579435|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Percentage of esophagus is reported here."||||0.28
82434360|NCT01262560|164579435|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Each exploratory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Opioid use is reported here."||||<0.0001
82434361|NCT01262560|164579435|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|Each explanatory variable is reported separately.||"A linear fixed effects model using maximum likelihood estimation was run with EORTC pain score (baseline, weekly during treatment and 12 weeks from the end of treatment) as the outcome of interest. Percentage of esophagus (V60\>=30% as reference level), opioid use (yes as reference level), time, and treatment arm were factors in the model. The results for each explanatory variable are reported separately. Time is reported here."||||0.28
82434362|NCT01262560|164579436|SUPERIORITY_OR_OTHER|||||||0.06||||||Significance level = 0.05|Fisher Exact|||||||0.06
82434363|NCT01262560|164579436|SUPERIORITY_OR_OTHER|||||||0.31||||||Significance level = 0.05|Fisher Exact|||||||0.31
82434364|NCT01262560|164579437|SUPERIORITY_OR_OTHER|||||||0.53||||||significance level = 0.05|t-test, 2 sided|||||||0.53
82434365|NCT01262560|164579437|SUPERIORITY_OR_OTHER|||||||0.88||||||significance level = 0.05|t-test, 2 sided|||||||0.88
82434366|NCT01262560|164579438|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
82434367|NCT01262560|164579438|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
82434368|NCT01262560|164579441|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|Because data was not normally distributed, this test was used instead of the t-test.||Each experimental arm was compared to the control arm (i.e. 2 comparisons) using two-sample t-tests. Forty-five patients with data in each arm, provides 80% power to detect an effect size (in standard deviation units) of 0.60 and 90% power to detect an effect size of 0.69 using a two-sided T-test with a Bonferroni adjusted significance level of 0.05 for each comparison (overall alpha 0.10). Due to the lack of prior data on the PRO-CTCAE, moderate effect sizes were used.||||0.39
82490217|NCT05280782|164673226|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Chloride values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Chloride values were normal.|||
82490218|NCT05280782|164673226|EQUIVALENCE|A McNemar test was performed between baseline and post-injection CO2 values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
82490219|NCT05280782|164673227|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Glucose values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
82490220|NCT05280782|164673227|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Calcium values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
82490221|NCT05280782|164673227|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Creatinine values. The values were categorized as Normal or Abnormal.||||||0.453||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.453
82434369|NCT01262560|164579441|SUPERIORITY_OR_OTHER|||||||0.69|||||||Wilcoxon (Mann-Whitney)|Because data was not normally distributed, this test was used instead of the t-test.||Each experimental arm was compared to the control arm (i.e. 2 comparisons) using two-sample t-tests. Forty-five patients with data in each arm, provides 80% power to detect an effect size (in standard deviation units) of 0.60 and 90% power to detect an effect size of 0.69 using a two-sided T-test with a Bonferroni adjusted significance level of 0.05 for each comparison (overall alpha 0.10). Due to the lack of prior data on the PRO-CTCAE, moderate effect sizes were used.||||0.69
82434370|NCT00744380|164579443|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82453777|NCT00286429|164613460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6||||0.03|TWO_SIDED|95.0|-33.4|-1.7||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and FPG).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||-1.7|-33.4|0.030
82453778|NCT00286429|164613461|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.551||||0.075|TWO_SIDED|95.0|0.286|1.063||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants with marked hyperglycemia. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||1.063|0.286|0.075
82490222|NCT05280782|164673227|EQUIVALENCE|A McNemar test was performed between baseline and post-injection BUN values. The values were categorized as Normal or Abnormal.||||||0.125||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.125
82434371|NCT00744380|164579444|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||For open label midazolam||||0.25
82434372|NCT00744380|164579444|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||For all midazolam||||0.048
82434373|NCT00744380|164579444|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||For fentanyl||||0.88
82434374|NCT00744380|164579445|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared, Corrected|||For Riker scores||||0.75
82490223|NCT05280782|164673227|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Total Bilirubin values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
82434375|NCT00744380|164579445|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||For pain scores||||0.17
82434376|NCT00744380|164579446|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Chi-squared, Corrected|||For hypotension||||>0.1
82434377|NCT00744380|164579446|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Chi-squared, Corrected|||For bradycardia||||>0.1
82434378|NCT00744380|164579446|SUPERIORITY_OR_OTHER||||||>|0.1|||||||Fisher Exact|||For tachycardia||||>0.1
82434379|NCT00744380|164579446|SUPERIORITY_OR_OTHER|||||||0.07|||||||Fisher Exact|||For delirium, new onset||||0.07
82434380|NCT00744380|164579447|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Median number of experiences remembered||||0.015
82434381|NCT00744380|164579448|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82434382|NCT00744380|164579449|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||||||0.029
82434383|NCT00744380|164579450|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 2 sided|||For anxiety||||>0.1
82434384|NCT00744380|164579450|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 2 sided|||For depression||||>0.1
82434385|NCT02443116|164579451|SUPERIORITY||Difference in least squares means|-8.84|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|96.0|-12.09|-5.59||p-values are adjusted using a stepdown-Bonferroni method to adjust for multiple testing.|t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-5.59|-12.09|<0.001
82434386|NCT02443116|164579451|SUPERIORITY||Difference in least squares means|-11.06|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|96.0|-14.39|-7.74||p-values are adjusted using a stepdown-Bonferroni method to adjust for multiple testing.|t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-7.74|-14.39|<0.001
82434387|NCT02443116|164579451|SUPERIORITY||Difference in least squares means|-2.22|STANDARD_ERROR_OF_MEAN|1.38||0.112|TWO_SIDED|96.0|-5.11|0.67|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||0.67|-5.11|0.112
82434388|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|-5.73|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-8.48|-2.99|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-2.99|-8.48|<0.0001
82434389|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|-6.6|STANDARD_ERROR_OF_MEAN|1.41|<|0.0001|TWO_SIDED|95.0|-9.41|-3.79|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-3.79|-9.41|<0.0001
82490224|NCT05280782|164673228|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Total Protein values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Total Protein values were normal.|||
82453779|NCT00286429|164613461|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.364||||0.002|TWO_SIDED|95.0|0.191|0.695||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants with marked hyperglycemia. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.695|0.191|0.002
82434390|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|-0.87|STANDARD_ERROR_OF_MEAN|1.43||0.5467|TWO_SIDED|95.0|-3.71|1.98|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||1.98|-3.71|0.5467
82649100|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.56|||||TWO_SIDED|95.0|-212.46|101.35||||||For change in ability to plan future at Cycle 8 Day 1, mean change difference was used to compare the two treatment groups.||101.35|-212.46|
82434391|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|-5.9|STANDARD_ERROR_OF_MEAN|1.33|<|0.0001|TWO_SIDED|95.0|-8.55|-3.25|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-3.25|-8.55|<0.0001
82434392|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|-0.17|STANDARD_ERROR_OF_MEAN|1.37||0.9037|TWO_SIDED|95.0|-2.89|2.55|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||2.55|-2.89|0.9037
82434393|NCT02443116|164579452|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|1.38||0.6134|TWO_SIDED|95.0|-2.05|3.45|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||3.45|-2.05|0.6134
82434394|NCT02443116|164579453|SUPERIORITY||Difference in least squares means|-4.97|STANDARD_ERROR_OF_MEAN|1.53||0.0018|TWO_SIDED|95.0|-8.03|-1.91|||t-test, 2 sided|||The absolute change in liver fat content from baseline to Week 12 was compared between treatment groups using an ANCOVA model with treatment group and diabetic status as cofactors and baseline endpoint and baseline alanine aminotransferase (ALT) as covariates.||-1.91|-8.03|0.0018
82434395|NCT02470585|164579471|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.435|||<|0.001|TWO_SIDED|95.0|0.277|0.683||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.683|0.277|<0.001
82434396|NCT02470585|164579472|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.572|||<|0.001|TWO_SIDED|95.0|0.433|0.756||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.756|0.433|<0.001
82490225|NCT05280782|164673228|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Albumin values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
82490226|NCT05280782|164673229|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Alkaline Phosphatase values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Alkaline Phosphatase values were normal.|||
82490227|NCT05280782|164673229|EQUIVALENCE|A McNemar test was performed between baseline and post-injection ALT values. The values were categorized as Normal or Abnormal.||||||0.219||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.219
82490228|NCT05280782|164673229|EQUIVALENCE|A McNemar test was performed between baseline and post-injection AST values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the AST values were normal.|||
82490229|NCT05280782|164673230|EQUIVALENCE|A McNemar test was performed between baseline and post-injection WBC values. The values were categorized as Normal or Abnormal.||||||0.687||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.687
82490230|NCT05280782|164673231|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Hemoglobin values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
82490231|NCT05280782|164673232|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Hematocrit values. The values were categorized as Normal or Abnormal.||||||1||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||1.000
82453780|NCT00286429|164613462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||<|0.001|TWO_SIDED|95.0|0.198|0.619||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo arm. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants requiring rescue. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.619|0.198|<0.001
82453781|NCT00286429|164613462|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.339|||<|0.001|TWO_SIDED|95.0|0.189|0.608||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in number of participants requiring rescue. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||0.608|0.189|<0.001
82453782|NCT00286429|164613463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156||||0.286|TWO_SIDED|95.0|-0.131|0.443||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.443|-0.131|0.286
82453783|NCT00286429|164613463|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.477||||0.001|TWO_SIDED|95.0|0.188|0.765||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 4. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.765|0.188|0.001
82490232|NCT05280782|164673233|EQUIVALENCE|A McNemar test was performed between baseline and post-injection Platelets values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the Platelets values were normal.|||
82434397|NCT02470585|164579473|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|0.683|||<|0.001|TWO_SIDED|95.0|0.562|0.831||A 2-sided p-value of ≤ 0.05 was considered statistically significant in the following hierarchical testing sequence: PFS was to be compared first in the BRCA-mutation cohort, then in the HRD cohort, and then in the ITT population.|Log Rank|Stratified according to residual disease status and disease stage, choice of the paclitaxel regimen, and BRCA-mutation status|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The primary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Veliparib group (Arm 3) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||0.831|0.562|<0.001
82434398|NCT02470585|164579474|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.215||||0.335|TWO_SIDED|95.0|0.821|1.799|||Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.799|0.821|0.335
82434399|NCT02470585|164579475|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.1||||0.462|TWO_SIDED|95.0|0.855|1.414|||Log Rank|Stratified according to residual disease status and disease stage.|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.414|0.855|0.462
82490233|NCT05280782|164673234|EQUIVALENCE|A McNemar test was performed between baseline and post-injection RBC values. The values were categorized as Normal or Abnormal.||||||0.375||||||The threshold for statistical significance was p = 0.05.|McNemar|||||||0.375
82490234|NCT05280782|164673235|EQUIVALENCE|A McNemar test was performed between baseline and post-injection MCV values. The values were categorized as Normal or Abnormal.|||||||||||||||||The McNemar test requires at least one participant for each outcome (Normal or Abnormal). Thus, no p-value was computed because all of the MCV values were normal.|||
82490235|NCT02478372|164673347|SUPERIORITY_OR_OTHER|||||||0.332|TWO_SIDED|||||Significance was set at \<0.01|Chi-squared|||||||0.332
82490236|NCT02256072|164673356|SUPERIORITY_OR_OTHER||Slope|1.25|STANDARD_ERROR_OF_MEAN|0.45||0.0054|TWO_SIDED|95.0|0.37|2.12|||ANCOVA|||H1: Compared to participants in the attention control group and controlling for baseline assessments, participants receiving the PLAN YOUR LIFESPAN tool will show increased planning with regard to planning behavior score (measured via the Planning Assessment tool) one (efficacy) month after intervention.||2.12|0.37|0.0054
82434400|NCT02470585|164579476|SUPERIORITY|Multiplicity considerations included 3 treatment arms, (2 pairwise comparisons), 3 sequentially inclusive populations (BRCA-mutation population, HRD population, and ITT population), and multiple endpoints. A fixed-sequence testing procedure was used to control the Type I error rate at 0.05 from the primary efficacy endpoints sequentially through the secondary efficacy endpoints.|Hazard Ratio (HR)|1.073||||0.45|TWO_SIDED|95.0|0.895|1.287|||Log Rank|Stratified according to residual disease status and disease stage, choice of the paclitaxel regimen, and BRCA-mutation status|Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|The secondary efficacy analyses compared investigator-assessed PFS in the Veliparib + Carboplatin + Paclitaxel -\> Placebo group (Arm 2) vs. the Placebo + Carboplatin + Paclitaxel -\> Placebo group (Arm 1).||1.287|0.895|0.450
82434401|NCT02470585|164579477|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.328|TWO_SIDED|95.0|0.567|1.429||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above|Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.429|0.567|0.328
82434402|NCT02470585|164579477|SUPERIORITY||Hazard Ratio (HR)|1.218||||0.808|TWO_SIDED|95.0|0.78|1.903||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.903|0.780|0.808
82434403|NCT02470585|164579478|SUPERIORITY||Hazard Ratio (HR)|0.844||||0.116|TWO_SIDED|95.0|0.64|1.114||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.114|0.640|0.116
82434404|NCT02470585|164579478|SUPERIORITY||Hazard Ratio (HR)|0.949||||0.352|TWO_SIDED|95.0|0.726|1.242||Stratified by residual disease (no residual disease after primary surgery versus any residual disease after primary surgery or interval surgery) and stage of disease (stage III versus stage IV)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above.|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.242|0.726|0.352
82434405|NCT02470585|164579479|SUPERIORITY||Hazard Ratio (HR)|0.946||||0.283|TWO_SIDED|95.0|0.782|1.144||Stratified by residual disease (none after primary surgery vs any residual disease after primary/interval surgery); disease stage (III vs IV); paclitaxel dosing (Q-weekly vs Q3-weekly); BRCA-Deficient status (Deficient vs wildtype or unknown/missing)|Log Rank|||Veliparib + Carboplatin + Paclitaxel -\> Veliparib (Arm 3) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.144|0.782|0.283
82434406|NCT02470585|164579479|SUPERIORITY||Hazard Ratio (HR)|1.034||||0.638|TWO_SIDED|95.0|0.859|1.244||Stratified by residual disease (none after primary surgery vs any residual disease after primary/interval surgery); disease stage (III vs IV); paclitaxel dosing (Q-weekly vs Q3-weekly); BRCA-Deficient status (Deficient vs wildtype or unknown/missing)|Log Rank||Cox proportional hazards model stratified according to the same factors as those used in the log-rank test above|Veliparib + Carboplatin + Paclitaxel -\> Placebo (Arm 2) versus Placebo + Carboplatin + Paclitaxel -\> Placebo (Arm 1)||1.244|0.859|0.638
82434407|NCT00349349|164579485|SUPERIORITY_OR_OTHER||percentage of responders|0.49|||<|0.0001|TWO_SIDED|95.3|0.39|0.6||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two-sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.60|0.39|<0.0001
82434408|NCT00349349|164579485|SUPERIORITY_OR_OTHER||percentage of responders|0.43|||<|0.0001|TWO_SIDED|95.3|0.33|0.53||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.53|0.33|<0.0001
82434409|NCT00349349|164579485|SUPERIORITY_OR_OTHER||percentage of responders|0.63|||<|0.001|TWO_SIDED|95.3|0.35|0.85||The p value is testing the hypothesis that the response rate is equal to 15% versus the response rate is not equal to 15%.|Two-sided exact binomial test||Two-sided 95.3% exact confidence intervals were calculated based on the binomial distribution.|||0.85|0.35|<0.001
82434410|NCT02285023|164579527|NON_INFERIORITY_OR_EQUIVALENCE|Principal component analysis with varimax rotation was employed. An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5.|||||<|0.01||||||An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5|exploratory factor analysis|An eigenvalue ≥ 1 was chosen as the criterion to retain domains. Each item was classified into the domain when loading with a domain loading ≥ 0.5||Exploratory factor analysis||||<0.01
82434411|NCT02285023|164579528|SUPERIORITY_OR_OTHER||Cronbach's alpha|0.94|||<|0.05|TWO_SIDED||||||Crohbach's alpha|||||||<0.05
82434412|NCT01108731|164579533|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||General Linear Model (GLM)|||||||<0.05
82434413|NCT01108731|164579534|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||General Linear Model (GLM)|||||||<0.05
82434414|NCT01108731|164579535|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82538942|NCT03670602|164778299|SUPERIORITY||||||<|0.0001||||||This is for the time effect, or if time influenced changes in calorie intake, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.0001
82538943|NCT03670602|164778300|SUPERIORITY|||||||0.774||||||This is for the treatment group x time effect, or if treatment differentially influenced changes in working memory across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.774
82453784|NCT00286429|164613464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.202||||0.236|TWO_SIDED|95.0|-0.132|0.536||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.536|-0.132|0.236
82453785|NCT00286429|164613464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.372||||0.032|TWO_SIDED|95.0|0.032|0.712||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-Peptide at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.712|0.032|0.032
82453786|NCT00286429|164613465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126||||0.562|TWO_SIDED|95.0|-0.302|0.554||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.554|-0.302|0.562
82453787|NCT00286429|164613465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183||||0.407|TWO_SIDED|95.0|-0.251|0.616||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.616|-0.251|0.407
82434415|NCT00943098|164579574|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based on a hypothesis of non-inferiority of Diclofenac HPBCD 75mg/ml s.c. versus Voltarol® 75mg/3ml i.m. with regard to the primary efficacy variable (PID at 1.5 hours after study drug administration). The clinically significant difference (delta) between groups was defined in 15 mm of pain intensity difference (a 30% decline from starting levels of pain intensity of 50 mm or greater on a 0 to 100 VAS).|Mean Difference (Final Values)|-0.71||||0.813|TWO_SIDED|95.0|-6.62|5.2|||ANCOVA|||Assuming a difference in means of 0 mm, a common standard deviation of 22.5 mm, a sample size of 60 subjects in each group had 95% power to reject the null hypothesis.||5.20|-6.62|0.813
82434416|NCT00943098|164579587|NON_INFERIORITY_OR_EQUIVALENCE|The sample size calculation was based on a hypothesis of non-inferiority of Diclofenac HPBCD 75mg/ml s.c. versus Voltarol® 75mg/3ml i.m. with regard to the primary efficacy variable (PID at 1.5 hours after study drug administration). The clinically significant difference (delta) between groups was defined in 15 mm of pain intensity difference (a 30% decline from starting levels of pain intensity of 50 mm or greater on a 0 to 100 VAS).|Mean Difference (Final Values)|-0.51||||0.862|TWO_SIDED|95.0|-6.23|5.22|||ANCOVA|||Assuming a difference in means of 0 mm, a common standard deviation of 22.5 mm, a sample size of 60 subjects in each group had 95% power to reject the null hypothesis.||5.22|-6.23|0.862
82649101|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-62.93|96.26||||||For change in pancreatic pain at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||96.26|-62.93|
82649102|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.29|||||TWO_SIDED|95.0|-87.74|116.31||||||For change in eating related items at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||116.31|-87.74|
82538944|NCT03670602|164778300|SUPERIORITY|||||||0.019||||||This is for the time effect, or if time influenced changes in working memory, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.019
82538945|NCT03670602|164778301|SUPERIORITY|||||||0.65||||||This is for the treatment group x time effect, or if treatment differentially influenced relative reinforcing efficacy of unhealthy food across all three timepoints. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||0.650
82538946|NCT03670602|164778301|SUPERIORITY||||||<|0.0001||||||This is for the time effect, or if time influenced changes in relative reinforcing efficacy of unhealthy food, independent of treatment group. The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Analyses were Intention to Treat (ITT) and included all randomized participants||A mixed model ANCOVA with unstructured covariance and random effects of participant. Group and cohort were the between subject variables, weeks as the repeated measure and site as a covariate||||<0.0001
82538947|NCT00957658|164778305|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin = 6%|||||<|0.0001|||||||Asymptotic WALD test|||Literature control = 96% with no aseptic loosening, intraop femoral fracture or thigh pain at 2 years||||<.0001
82538948|NCT00957658|164778308|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Improvement from preop to 2 year and preop to 5 year||||<.0001
82538949|NCT00957658|164778309|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Compare Pre-op SF-12 Physical Score preop to 2 year and preop to 5 year||||<.0001
82538950|NCT00957658|164778309|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in SF-12 Mental Score preop to 2 years||||<.0001
82453788|NCT00286429|164613466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078||||0.716|TWO_SIDED|95.0|-0.344|0.5||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.500|-0.344|0.716
82453789|NCT00286429|164613466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156||||0.474|TWO_SIDED|95.0|-0.272|0.583||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 16. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.583|-0.272|0.474
82453790|NCT00286429|164613467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.7|TWO_SIDED|95.0|-0.324|0.482||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.482|-0.324|0.700
82453791|NCT00286429|164613467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.839|TWO_SIDED|95.0|-0.366|0.45||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.450|-0.366|0.839
82453792|NCT00286429|164613468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.091|TWO_SIDED|95.0|-0.045|0.61||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.610|-0.045|0.091
82434417|NCT01352221|164579590|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|ONE_SIDED|97.5|1.81||||ANCOVA|||ANCOVA for primary endpoint, Change in Hb concentration from Baseline to Week 12 in double-blind phase, FAS|||1.81|< 0.0001
82434418|NCT01352221|164579594|SUPERIORITY||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|ONE_SIDED|97.5|0.82||||ANCOVA|||ANCOVA analysis of the change in Hb concentration from Baseline to Week 4 of the double-blind phase - Full Analysis Set, multiple imputation|||0.82|< 0.0001
82538951|NCT00957658|164778309|SUPERIORITY_OR_OTHER|||||||0.0004|||||||t-test, 2 sided|||Compare SF-12 Mental Score preop to 5 years||||.0004
82538952|NCT00957658|164778310|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Compare LEAS score preop to 2 years and preop to 5 years||||<.0001
82538953|NCT00957658|164778313|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Compare to historical control (n=94 hips): mean wear 5 years = 0.134 (0.078)||||<.0001
82538954|NCT00957658|164778314|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Sign test|||Compare Wrist DXA T-score preop to 5 years||||.0002
82538955|NCT02469064|164778315|OTHER||Hazard Ratio (HR)|0.82||||0.84|TWO_SIDED|95.0|0.55|1.2|||Mann Whitneey||Univariate analysis of the probability of extubation was performed using Kaplan-Meir survival analysis and the logrank test.The multivariate analysis was performed by cox regression, a simple model was performed and a final model.|||1.20|0.55|0.84
82538956|NCT02469064|164778316|OTHER||Slope|0.46||||0.48|TWO_SIDED|95.0|-3.75|4.78|||t-test, 2 sided||The slope shows the difference between the means of the change in the MIP of the group that received the experimental treatment and the group that received the conventional treatment|||4.78|-3.75|0.48
82538957|NCT01156116|164778335|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.03
82434419|NCT01352221|164579595|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|ONE_SIDED|97.5|1.43|||ANCOVA analysis of Change in Hb concentration from Baseline to Week 8 of double-blind phase - FAS, multiple imputation|ANCOVA||||||1.43|< 0.0001
82538958|NCT01156116|164778336|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.04
82538959|NCT01156116|164778337|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||0.009
82538960|NCT01156116|164778338|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Analyses were adjusted for age, body mass index, and ethnicity-based diabetes risk.||||||<0.001
82649103|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|73.81|||||TWO_SIDED|95.0|7.9|139.72||||||For change in altered bowel habits at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||139.72|7.90|
82538961|NCT04567888|164778364|SUPERIORITY||Slope|-1.41|||<|0.001|TWO_SIDED|95.0|-1.88|-0.95||Threshold for statistical significance set to .050.|Repeated-measures Multilevel Models|||||-0.95|-1.88|<.001
82453793|NCT00286429|164613468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.459|TWO_SIDED|95.0|-0.207|0.457||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and C-peptide).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in C-peptide at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.457|-0.207|0.459
82453794|NCT00286429|164613470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.65||||0.016|TWO_SIDED|95.0|1.589|100.682||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||100.682|1.589|0.016
82453795|NCT00286429|164613470|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.255||||0.023|TWO_SIDED|95.0|1.401|90.379||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo was evaluated inferentially with a Wald test at the 0.05 significance level||90.379|1.401|0.023
82453796|NCT00286429|164613471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.777|||<|0.001|TWO_SIDED|95.0|2.047|16.305||No multiplicity adjustments.|ANCOVA|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||16.305|2.047|<0.001
82453797|NCT00286429|164613471|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.784|||<|0.001|TWO_SIDED|95.0|3.54|27.039||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c ≤7.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||27.039|3.540|<0.001
82538962|NCT04567888|164778365|SUPERIORITY||Slope|-0.54|||<|0.001|TWO_SIDED|95.0|-0.78|-0.3||Threshold for statistical significance was set to .050.|Repeated-measures Multilevel Models|||||-0.30|-0.78|< .001
82538963|NCT00414648|164778366|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||The model included the time since enrollment, the treatment assignment, and the interaction between time and treatment.|Regression, Linear|Mixed model with the use of the Kenward-Roger correction without imputation of missing data.||FEV1 slope||||<0.001
82538964|NCT00414648|164778367|OTHER|||||||0.441|||||||Chi-squared|||||||.441
82538965|NCT00414648|164778368|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Linear|GLM adjusted for baseline||||||0.001
82577518|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 19F||0.87|0.68|
82577519|NCT04546425|164864249|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC to the corresponding serotype in 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 23F||0.69|0.52|
82538966|NCT00414648|164778369|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|GLM adjusted for baseline||||||0.17
82538967|NCT00414648|164778370|SUPERIORITY|||||||0.34|||||||Regression, Linear|GLM adjusted for baseline||||||0.34
82538968|NCT00414648|164778371|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88|||||||Regression, Linear|GLM adjusted for baseline||||||0.88
82577520|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.48|||||TWO_SIDED|95.0|1.32|1.66|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 8||1.66|1.32|
82538969|NCT00414648|164778372|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Linear|GLM adjusted for baseline||||||0.001
82538970|NCT01194258|164778373|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin was set at 0.40.|LS Mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.041||0.3876|TWO_SIDED|95.0|-0.12|0.05|||Mixed Models Analysis|||Approximately 110 participants were planned to be enrolled to allow approximately 88 participants to complete both treatment periods. Assuming a dropout rate of ≤20%, an intra-participant correlation of 0.80, a standard deviation of 1.2, and a true difference of 0, the study would have \>90% power to show that either Lispro-PH20 or Aspart-PH20 (each tested separately) was non-inferior to insulin lispro alone with respect to the change from baseline in A1C at the end of each treatment period.||0.05|-0.12|0.3876
82538971|NCT01490580|164778386|SUPERIORITY||Risk Difference (RD)|-6.4||||0.38|TWO_SIDED|95.0|-21.0|8.1|||Mixed Models Analysis|||||8.1|-21.0|0.38
82538972|NCT02026258|164778395|OTHER||Mean Difference (Final Values)|0.52|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Based on previous findings, it takes approximately 117 ± 46 days for complete alignment of the mandibular anterior teeth in subjects with severe crowding treated without extractions. For a clinically significant 40% faster alignment in the piezotome-corticision group compared to the control group at an alpha-level (p = 0.05) and desired power of 80%, a sample size of 28 subjects (14 per group) was required. Twenty subjects per group assuming an overall attrition rate of 28%.||||<0.05
82538973|NCT02026258|164778396|OTHER||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T0||||<0.05
82538974|NCT02026258|164778396|OTHER||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T1||||<0.05
82538975|NCT02026258|164778396|OTHER||Mean Difference (Final Values)|0.19|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T2||||<0.05
82538976|NCT02026258|164778396|OTHER||Mean Difference (Final Values)|0.76|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||VAS T3||||<0.05
82538977|NCT02026258|164778397|OTHER||Mean Difference (Final Values)|0.87|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Ease of Procedure||||<0.05
82538978|NCT02026258|164778397|OTHER||Mean Difference (Final Values)|0.69|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Satisfaction with procedure||||<0.05
82577521|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.02|||||TWO_SIDED|95.0|1.77|2.3|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 10A||2.30|1.77|
82577522|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.55|||||TWO_SIDED|95.0|1.37|1.75|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 11A||1.75|1.37|
82538979|NCT02026258|164778398|OTHER||Fisher chi square|0.71|||<|0.05|TWO_SIDED||||||Fisher Exact|Use of Medications||||||<0.05
82538980|NCT02026258|164778398|OTHER||Fisher chi square|0.99|||<|0.05|TWO_SIDED||||||Fisher Exact|||Undergo procedure again||||<0.05
82538981|NCT02026258|164778398|OTHER||Fisher chi square|0.49|||<|0.05|TWO_SIDED||||||Fisher Exact|||Recommend procedure to a friend||||<0.05
82538982|NCT00383188|164778409|SUPERIORITY||Difference in percentage|8.05|STANDARD_ERROR_OF_MEAN|7.97||0.3131|TWO_SIDED|95.0|-7.565|23.664|||Chi-squared|||||23.664|-7.565|0.3131
82538983|NCT00383188|164778409|SUPERIORITY||Difference in percentage|10.81|STANDARD_ERROR_OF_MEAN|7.86||0.1719|TWO_SIDED|95.0|-4.602|26.224|||Chi-squared|||||26.224|-4.602|0.1719
82538984|NCT00383188|164778409|SUPERIORITY||Difference in percentage|9.83|STANDARD_ERROR_OF_MEAN|9.16||0.2783|TWO_SIDED|95.0|-8.123|27.799|||Chi-squared|||||27.799|-8.123|0.2783
82538985|NCT00383188|164778409|SUPERIORITY||Difference in percentage|8.92|STANDARD_ERROR_OF_MEAN|9.43||0.3381|TWO_SIDED|95.0|-9.566|27.404|||Chi-squared|||||27.404|-9.566|0.3381
82538986|NCT00383188|164778410|SUPERIORITY||Difference in percentage|1.04|STANDARD_ERROR_OF_MEAN|5.96||0.8619|TWO_SIDED|90.0|-8.733|10.845|||Chi-squared|||Week 1||10.845|-8.733|0.8619
82538987|NCT00383188|164778410|SUPERIORITY||Difference in percentage|7.24|STANDARD_ERROR_OF_MEAN|6.33||0.2546|TWO_SIDED|90.0|-3.176|17.651|||Chi-squared|||Week 1||17.651|-3.176|0.2546
82649104|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|76.19|||||TWO_SIDED|95.0|33.64|118.74||||||For change in jaundice at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||118.74|33.64|
82649105|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.57|||||TWO_SIDED|95.0|-64.64|121.79||||||For change in body image at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||121.79|-64.64|
82538988|NCT00383188|164778410|SUPERIORITY||Difference in percentage|14.02|STANDARD_ERROR_OF_MEAN|7.96||0.0644|TWO_SIDED|90.0|0.921|27.115|||Chi-squared|||Week 1||27.115|0.921|0.0644
82538989|NCT00383188|164778410|SUPERIORITY||Difference in percentage|1.5|STANDARD_ERROR_OF_MEAN|7.07||0.8304|TWO_SIDED|90.0|-10.13|13.125|||Chi-squared|||Week 1||13.125|-10.13|0.8304
82538990|NCT00383188|164778410|SUPERIORITY||Difference in percentage|6.11|STANDARD_ERROR_OF_MEAN|7.45||0.4123|TWO_SIDED|90.0|-6.15|18.371|||Chi-squared|||Week 2||18.371|-6.150|0.4123
82538991|NCT00383188|164778410|SUPERIORITY||Difference in percentage|5.41|STANDARD_ERROR_OF_MEAN|7.29||0.4591|TWO_SIDED|90.0|-6.581|17.392|||Chi-squared|||Week 2||17.392|-6.581|0.4591
82538992|NCT00383188|164778410|SUPERIORITY||Difference in percentage|16.58|STANDARD_ERROR_OF_MEAN|8.93||0.0585|TWO_SIDED|90.0|1.89|31.28|||Chi-squared|||Week 2||31.280|1.890|0.0585
82538993|NCT00383188|164778410|SUPERIORITY||Difference in percentage|15.68|STANDARD_ERROR_OF_MEAN|9.21||0.0808|TWO_SIDED|90.0|0.522|30.829|||Chi-squared|||Week 2||30.829|0.522|0.0808
82538994|NCT00383188|164778410|SUPERIORITY||Difference in percentage|4.86|STANDARD_ERROR_OF_MEAN|7.62||0.524|TWO_SIDED|90.0|-7.684|17.398|||Chi-squared|||Week 4||17.398|-7.684|0.5240
82538995|NCT00383188|164778410|SUPERIORITY||Difference in percentage|14.86|STANDARD_ERROR_OF_MEAN|7.72||0.0571|TWO_SIDED|90.0|2.172|27.588|||Chi-squared|||Week 4||27.588|2.172|0.0571
82538996|NCT00383188|164778410|SUPERIORITY||Difference in percentage|16.15|STANDARD_ERROR_OF_MEAN|9.08||0.0712|TWO_SIDED|90.0|1.222|31.087|||Chi-squared|||Week 4||31.087|1.222|0.0712
82538997|NCT00383188|164778410|SUPERIORITY||Difference in percentage|20.47|STANDARD_ERROR_OF_MEAN|9.43||0.0279|TWO_SIDED|90.0|4.956|35.99|||Chi-squared|||Week 4||35.990|4.956|0.0279
82538998|NCT00383188|164778410|SUPERIORITY||Difference in Percentage|-2.1|STANDARD_ERROR_OF_MEAN|7.67||0.7848|TWO_SIDED|90.0|-14.71|10.515|||Chi-squared|||Week 8||10.515|-14.71|0.7848
82538999|NCT00383188|164778410|SUPERIORITY||Difference in percentage|14.86|STANDARD_ERROR_OF_MEAN|7.91||0.0632|TWO_SIDED|90.0|1.86|27.869|||Chi-squared|||Week 8||27.869|1.860|0.0632
82539000|NCT00383188|164778410|SUPERIORITY||Difference in percentage|9.83|STANDARD_ERROR_OF_MEAN|9.16||0.2783|TWO_SIDED|90.0|-5.237|24.893|||Chi-squared|||Week 8||24.893|-5.237|0.2783
82539001|NCT00383188|164778410|SUPERIORITY||Difference in percentage|16.42|STANDARD_ERROR_OF_MEAN|9.55||0.0828|TWO_SIDED|90.0|0.703|32.135|||Chi-squared|||Week 8||32.135|0.703|0.0828
82539002|NCT00383188|164778410|SUPERIORITY||Difference in percentage|-2.72|STANDARD_ERROR_OF_MEAN|8.54||0.7505|TWO_SIDED|90.0|-16.77|11.328|||Chi-squared|||Week 16||11.328|-16.77|0.7505
82539003|NCT00383188|164778410|SUPERIORITY||Difference in percentage|1.43|STANDARD_ERROR_OF_MEAN|8.35||0.8641|TWO_SIDED|90.0|-12.3|15.156|||Chi-squared|||Week 16||15.156|-12.30|0.8641
82539004|NCT00383188|164778410|SUPERIORITY||Difference in percentage|3.31|STANDARD_ERROR_OF_MEAN|9.99||0.7399|TWO_SIDED|90.0|-13.12|19.734|||Chi-squared|||Week 16||19.734|-13.12|0.7399
82539005|NCT00383188|164778410|SUPERIORITY||Difference in percentage|-12.48|STANDARD_ERROR_OF_MEAN|9.42||0.1996|TWO_SIDED|90.0|-27.98|3.018|||Chi-squared|||Week 16||3.018|-27.98|0.1996
82577523|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.68|0.87|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 12F||0.87|0.68|
82577524|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|5.42|||||TWO_SIDED|95.0|4.82|6.1|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 15B||6.10|4.82|
82539006|NCT00383188|164778411|SUPERIORITY||Difference in percentage|1.49|STANDARD_ERROR_OF_MEAN|1.48||0.2982|TWO_SIDED|90.0|-0.944|3.929|||Chi-squared|||Week 1||3.929|-0.944|0.2982
82539007|NCT00383188|164778411|SUPERIORITY||Difference in percentage|1.41|STANDARD_ERROR_OF_MEAN|1.4||0.3122|TWO_SIDED|90.0|-0.892|3.709|||Chi-squared|||Week 1||3.709|-0.892|0.3122
82539008|NCT00383188|164778411|SUPERIORITY||Difference in percentage|4.65|STANDARD_ERROR_OF_MEAN|3.21||0.0649|TWO_SIDED|90.0|-0.631|9.934|||Chi-squared|||Week 1||9.934|-0.631|0.0649
82649106|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.71|||||TWO_SIDED|95.0|-28.11|99.53||||||For change in health care satisfaction at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||99.53|-28.11|
82649107|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.33|||||TWO_SIDED|95.0|-104.01|77.34||||||For change in sexual functioning at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||77.34|-104.01|
82649108|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.44|||||TWO_SIDED|95.0|-140.03|51.14||||||For change in ascites at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||51.14|-140.03|
82434420|NCT01352221|164579606|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|ONE_SIDED|97.5|1.87||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the PPAS|||1.87|< 0.0001
82499612|NCT01571427|164689935|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.35||0.25|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.25
82539009|NCT00383188|164778411|SUPERIORITY||Difference in percentage|5.13|STANDARD_ERROR_OF_MEAN|3.53||0.0525|TWO_SIDED|90.0|-0.681|10.938|||Chi-squared|||Week 1||10.938|-0.681|0.0525
82539010|NCT00383188|164778411|SUPERIORITY||Difference in percentage|4.45|STANDARD_ERROR_OF_MEAN|3.12||0.1481|TWO_SIDED|90.0|-0.681|9.573|||Chi-squared|||Week 2||9.573|-0.681|0.1481
82539011|NCT00383188|164778411|SUPERIORITY||Difference in percentage|8.11|STANDARD_ERROR_OF_MEAN|3.66||0.0292|TWO_SIDED|90.0|2.093|14.124|||Chi-squared|||Week 2||14.124|2.093|0.0292
82539012|NCT00383188|164778411|SUPERIORITY||Difference in percentage|10.01|STANDARD_ERROR_OF_MEAN|4.97||0.0167|TWO_SIDED|90.0|1.839|18.186|||Chi-squared|||Week 2||18.186|1.839|0.0167
82539013|NCT00383188|164778411|SUPERIORITY||Difference in percentage|11.15|STANDARD_ERROR_OF_MEAN|5.4||0.011|TWO_SIDED|90.0|2.269|20.029|||Chi-squared|||Week 2||20.029|2.269|0.0110
82434421|NCT01352221|164579607|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|ONE_SIDED|97.5|1.82||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the FAS LOCF Change in Haemoglobin Concentration from Baseline to Week 12|||1.82|< 0.0001
82499613|NCT01571427|164689935|EQUIVALENCE|Power calculation was based on the entire sample (CDR=0 and CDR=0.5 combined). Analyses within each CDR group are exploratory.|Median Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.42||0.25|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: AMONG CDR=0 group (N=49)||||0.25
82499614|NCT01571427|164689935|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses within each CDR group are exploratory.|Median Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.62||0.85|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analyses 3: AMONG CDR=0.5 (Mild Cognitive Impairment) group, N=34 .||||0.85
82499615|NCT01571427|164689936|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.92||0.02|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.02
82539014|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-2.51|STANDARD_ERROR_OF_MEAN|3.31||0.455|TWO_SIDED|90.0|-7.959|2.946|||Chi-squared|||Week 4||2.946|-7.959|0.4550
82539015|NCT00383188|164778411|SUPERIORITY||Difference in percentage|8.11|STANDARD_ERROR_OF_MEAN|4.76||0.0919|TWO_SIDED|90.0|0.271|15.946|||Chi-squared|||Week 4||15.946|0.271|0.0919
82539016|NCT00383188|164778411|SUPERIORITY||Difference in percentage|12.78|STANDARD_ERROR_OF_MEAN|6.38||0.0264|TWO_SIDED|90.0|2.28|23.272|||Chi-squared|||Week 4||23.272|2.280|0.0264
82539017|NCT00383188|164778411|SUPERIORITY||Difference in percentage|12.09|STANDARD_ERROR_OF_MEAN|6.56||0.0369|TWO_SIDED|90.0|1.308|22.881|||Chi-squared|||Week 4||22.881|1.308|0.0369
82539018|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-9.17|STANDARD_ERROR_OF_MEAN|4.67||0.0568|TWO_SIDED|90.0|-16.85|-1.482|||Chi-squared|||Week 8||-1.482|-16.85|0.0568
82539019|NCT00383188|164778411|SUPERIORITY||Difference in percentage|4.05|STANDARD_ERROR_OF_MEAN|5.95||0.4961|TWO_SIDED|90.0|-5.727|13.835|||Chi-squared|||Week 8||13.835|-5.727|0.4961
82539020|NCT00383188|164778411|SUPERIORITY||Difference in percentage|6.94|STANDARD_ERROR_OF_MEAN|7.26||0.3212|TWO_SIDED|90.0|-5.008|18.89|||Chi-squared|||Week 8||18.890|-5.008|0.3212
82539021|NCT00383188|164778411|SUPERIORITY||Difference in percentage|1.49|STANDARD_ERROR_OF_MEAN|6.9||0.8274|TWO_SIDED|90.0|-9.87|12.843|||Chi-squared|||Week 8||12.843|-9.870|0.8274
82539022|NCT00383188|164778411|SUPERIORITY||Difference in percentage|5.23|STANDARD_ERROR_OF_MEAN|5.94||0.3774|TWO_SIDED|90.0|-4.538|14.996|||Chi-squared|||Week 12||14.996|-4.538|0.3774
82539023|NCT00383188|164778411|SUPERIORITY||Difference in percentage|9.46|STANDARD_ERROR_OF_MEAN|6.11||0.1246|TWO_SIDED|90.0|-0.591|19.51|||Chi-squared|||Week 12||19.510|-0.591|0.1246
82539024|NCT00383188|164778411|SUPERIORITY||Difference in percentage|8.29|STANDARD_ERROR_OF_MEAN|7.17||0.2257|TWO_SIDED|90.0|-3.502|20.087|||Chi-squared|||Week 12||20.087|-3.502|0.2257
82539025|NCT00383188|164778411|SUPERIORITY||Difference in percentage|5.34|STANDARD_ERROR_OF_MEAN|7.11||0.4336|TWO_SIDED|90.0|-6.355|17.03|||Chi-squared|||Week 12||17.030|-6.355|0.4336
82434422|NCT02016716|164579616|NON_INFERIORITY|Non-inferiority was claimed if the lower bound of the 1-sided 97.5% CI (or the lower bound of 2-sided 95% CI) of the mean difference between the 2 romosozumab groups was \> -2.0%.|Least Squares Mean Difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.7|||||Based on ANCOVA model adjusting for treatment, and baseline lumbar spine BMD T-score.|The primary hypothesis was that the mean percent change from baseline in lumbar spine BMD at month 6 in participants receiving romosozumab 210 mg QM using the 90 mg/mL concentration would not be inferior to that in participants receiving romosozumab 210 mg QM using the 70 mg/mL concentration.||0.7|-1.5|
82434423|NCT04114071|164579628|EQUIVALENCE|An independent sample t tests was used to examine the difference score for each of the four outcome measures of interest (steps, WC, weight, and HbA1c) between intervention and control groups.|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82453798|NCT00286429|164613472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.674|||<|0.001|TWO_SIDED|95.0|1.579|4.53||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥0.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||4.530|1.579|<0.001
82539026|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-2.07|STANDARD_ERROR_OF_MEAN|7.02||0.7682|TWO_SIDED|90.0|-13.61|9.467|||Chi-squared|||Week 16||9.467|-13.61|0.7682
82539027|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-2.86|STANDARD_ERROR_OF_MEAN|6.76||0.6726|TWO_SIDED|90.0|-13.97|8.257|||Chi-squared|||Week 16||8.257|-13.97|0.6726
82539028|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-5.64|STANDARD_ERROR_OF_MEAN|7.68||0.4795|TWO_SIDED|90.0|-18.28|7.0|||Chi-squared|||Week 16||7.000|-18.28|0.4795
82539029|NCT00383188|164778411|SUPERIORITY||Difference in percentage|-16.17|STANDARD_ERROR_OF_MEAN|6.1||0.0276|TWO_SIDED|90.0|-26.19|-6.137|||Chi-squared|||Week 16||-6.137|-26.19|0.0276
82539030|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
82539031|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
82539032|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
82539033|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 1||0.00|0.00|0.000
82539034|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 2||0.00|0.00|0.000
82539035|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|0.0||0|TWO_SIDED|90.0|0.0|0.0|||Chi-squared|||Week 2||0.00|0.00|0.000
82539036|NCT00383188|164778412|SUPERIORITY||Difference in percentage|2.27|STANDARD_ERROR_OF_MEAN|2.25||0.1928|TWO_SIDED|90.0|-1.423|5.968|||Chi-squared|||Week 2||5.968|-1.423|0.1928
82649109|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.76|||||TWO_SIDED|95.0|-88.45|97.98||||||For change in indigestion at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||97.98|-88.45|
82539037|NCT00383188|164778412|SUPERIORITY||Difference in percentage|2.5|STANDARD_ERROR_OF_MEAN|2.47||0.1719|TWO_SIDED|90.0|-1.56|6.56|||Chi-squared|||Week 2||6.560|-1.560|0.1719
82539038|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.1|STANDARD_ERROR_OF_MEAN|1.97||0.9603|TWO_SIDED|90.0|-3.138|3.334|||Chi-squared|||Week 4||3.334|-3.138|0.9603
82539039|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-1.35|STANDARD_ERROR_OF_MEAN|1.34||0.3157|TWO_SIDED|90.0|-3.559|0.856|||Chi-squared|||Week 4||0.856|-3.559|0.3157
82539040|NCT00383188|164778412|SUPERIORITY||Difference in percentage|5.47|STANDARD_ERROR_OF_MEAN|4.03||0.1125|TWO_SIDED|90.0|-1.162|12.096|||Chi-squared|||Week 4||12.096|-1.162|0.1125
82539041|NCT00383188|164778412|SUPERIORITY||Difference in percentage|3.65|STANDARD_ERROR_OF_MEAN|3.7||0.2455|TWO_SIDED|90.0|-2.434|9.732|||Chi-squared|||Week 4||9.732|-2.434|0.2455
82539042|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-2.6|STANDARD_ERROR_OF_MEAN|2.71||0.3452|TWO_SIDED|90.0|-7.057|1.847|||Chi-squared|||Week 8||1.847|-7.057|0.3452
82434424|NCT01716039|164579647|OTHER|Comparing the change in the modified Baron score from baseline to week 18 between the treatment groups||||||0.758|||||||Wilcoxon (Mann-Whitney)|||||||0.758
82434425|NCT01716039|164579647|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82434426|NCT01716039|164579648|OTHER|||||||0.908||||||p-value for the overall treatment difference is based on an analysis of covariance adjusting for baseline UCEIS|ANCOVA|||||||0.908
82434427|NCT01751906|164579672|SUPERIORITY|||||||0.9256|||||||Chi-squared|||||||0.9256
82453799|NCT00286429|164613472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.819|||<|0.001|TWO_SIDED|95.0|1.653|4.808||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥0.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||4.808|1.653|<0.001
82539043|NCT00383188|164778412|SUPERIORITY||Difference in percentage|0.0|STANDARD_ERROR_OF_MEAN|3.24||1|TWO_SIDED|90.0|-5.333|5.333|||Chi-squared|||Week 8||5.333|-5.333|1.0000
82539044|NCT00383188|164778412|SUPERIORITY||Difference in percentage|7.31|STANDARD_ERROR_OF_MEAN|5.31||0.1267|TWO_SIDED|90.0|-1.417|16.036|||Chi-squared|||Week 8||16.036|-1.417|0.1267
82539045|NCT00383188|164778412|SUPERIORITY||Difference in percentage|5.95|STANDARD_ERROR_OF_MEAN|5.27||0.2069|TWO_SIDED|90.0|-2.72|14.612|||Chi-squared|||Week 8||14.612|-2.720|0.2069
82539046|NCT00383188|164778412|SUPERIORITY||Difference in percentage|1.84|STANDARD_ERROR_OF_MEAN|4.08||0.6506|TWO_SIDED|90.0|-4.871|8.553|||Chi-squared|||Week 12||8.553|-4.871|0.6506
82577525|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|3.84|||||TWO_SIDED|95.0|3.4|4.34|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 22F||4.34|3.40|
82539047|NCT00383188|164778412|SUPERIORITY||Difference in percentage|2.7|STANDARD_ERROR_OF_MEAN|4.12||0.5125|TWO_SIDED|90.0|-4.075|9.48|||Chi-squared|||Week 12||9.480|-4.075|0.5125
82649110|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.29|||||TWO_SIDED|95.0|-54.32|82.89||||||For change in flatulence at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||82.89|-54.32|
82649111|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.81|||||TWO_SIDED|95.0|-66.45|114.07||||||For change in cachexia at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||114.07|-66.45|
82434428|NCT01751906|164579673|SUPERIORITY|||||||0.504|||||||Fisher Exact|||||||0.5040
82434429|NCT01751906|164579674|SUPERIORITY|||||||0.2126|||||||Fisher Exact|||||||0.2126
82434430|NCT01751906|164579701|SUPERIORITY|||||||0.0665|||||||Chi-squared|||||||0.0665
82434431|NCT04925076|164579723|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,108)=.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X family history X sex interaction.||||.92
82434432|NCT04925076|164579723|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,108) = .01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X sex interaction.||||.92
82434433|NCT04925076|164579723|SUPERIORITY|||||||0.61|||||||Chi-squared|F(1,108) = 0.27||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the condition X family history interaction.||||.61
82539048|NCT00383188|164778412|SUPERIORITY||Difference in percentage|3.69|STANDARD_ERROR_OF_MEAN|5.07||0.4412|TWO_SIDED|90.0|-4.652|12.023|||Chi-squared|||Week 12||12.023|-4.652|0.4412
82539049|NCT00383188|164778412|SUPERIORITY||Difference in percentage|2.09|STANDARD_ERROR_OF_MEAN|4.92||0.6566|TWO_SIDED|90.0|-6.006|10.195|||Chi-squared|||Week 12||10.195|-6.006|0.6566
82539050|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-5.16|STANDARD_ERROR_OF_MEAN|4.5||0.2634|TWO_SIDED|90.0|-12.57|2.247|||Chi-squared|||Week 16||2.247|-12.57|0.2634
82539051|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-2.86|STANDARD_ERROR_OF_MEAN|4.73||0.546|TWO_SIDED|90.0|-10.63|4.916|||Chi-squared|||Week 16||4.916|-10.63|0.5460
82539052|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-7.37|STANDARD_ERROR_OF_MEAN|4.43||0.1626|TWO_SIDED|90.0|-14.65|-0.086|||Chi-squared|||Week 16||-0.086|-14.65|0.1626
82539053|NCT00383188|164778412|SUPERIORITY||Difference in percentage|-7.37|STANDARD_ERROR_OF_MEAN|4.43||0.1626|TWO_SIDED|90.0|-14.65|-0.086|||Chi-squared|||Week 16||-0.086|-14.65|0.1626
82434434|NCT04925076|164579723|SUPERIORITY|||||||0.01|||||||ANOVA|F(1,108) = 6.75||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the family history X sex interaction.||||.01
82434435|NCT04925076|164579723|SUPERIORITY|||||||0.05|||||||ANOVA|F(1,108) = 3.83||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of condition.||||.05
82434436|NCT04925076|164579723|SUPERIORITY|||||||0.003|||||||ANOVA|F(1,108) = 9.53||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of family history.||||.003
82539054|NCT00383188|164778413|SUPERIORITY||Least Square Mean (LSM) Difference|-0.388|STANDARD_ERROR_OF_MEAN|1.025||0.7053|TWO_SIDED|95.0|-2.4|1.624|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.624|-2.400|0.7053
82577526|NCT04546425|164864249|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 5 (13vPnC serotype with the lowest GMC, not including serotype 3) in the 13vPnC group. Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/lowest 13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|2.64|||||TWO_SIDED|95.0|2.33|2.99|||||2-sided 95% CI was calculated by exponentiating the CI (based on the Student's t distribution) for the mean difference of the logarithm of the concentrations.|Serotype 33F||2.99|2.33|
82649112|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.75|||||TWO_SIDED|95.0|-56.14|119.63||||||For change in side effects at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||119.63|-56.14|
82434437|NCT04925076|164579723|SUPERIORITY|||||||0.12|||||||ANOVA|F(1,108) = 2.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of sex.||||.12
82434438|NCT04925076|164579724|SUPERIORITY|||||||0.38|||||||ANOVA|F(1,107) = 0.78||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X family history X sex interaction.||||.38
82434439|NCT04925076|164579724|SUPERIORITY|||||||0.27|||||||ANOVA|F(1,107) = 0.27||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X sex interaction.||||.27
82434440|NCT04925076|164579724|SUPERIORITY|||||||0.7|||||||ANOVA|F(1,107) = 0.15||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the condition X family history interaction.||||.70
82434441|NCT04925076|164579724|SUPERIORITY|||||||0.05|||||||ANOVA|F(1,107) = 3.87||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the family history X sex interaction.||||.05
82434442|NCT04925076|164579724|SUPERIORITY|||||||0.03|||||||ANOVA|F(1,107) = 5.18||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of condition.||||.03
82434443|NCT04925076|164579724|SUPERIORITY|||||||0.14|||||||ANOVA|F(1,107) = 2.24||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of family history.||||.14
82434444|NCT04925076|164579724|SUPERIORITY||||||<|0.001|||||||ANOVA|F(1,107) = 17.25||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain tolerance. Here we report the results of the analysis of the main effect of sex.||||<.001
82434445|NCT04925076|164579725|SUPERIORITY|||||||0.83|||||||ANOVA|F(1,107) = 0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X family history X sex interaction.||||.83
82434446|NCT04925076|164579725|SUPERIORITY|||||||0.12|||||||ANOVA|F(1,107) = 2.43||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X sex interaction.||||.12
82434447|NCT04925076|164579725|SUPERIORITY|||||||0.25|||||||ANOVA|F(1,107) = 1.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the condition X family history interaction.||||.25
82434448|NCT04925076|164579725|SUPERIORITY|||||||0.58|||||||ANOVA|F(1,107) = 0.31||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the family history X sex interaction.||||.58
82434449|NCT04925076|164579725|SUPERIORITY|||||||0.9|||||||ANOVA|F(1,107) = 0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of condition.||||.90
82434450|NCT04925076|164579725|SUPERIORITY|||||||0.95|||||||ANOVA|F(1,107) = .004||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of family history.||||.95
82434451|NCT04925076|164579725|SUPERIORITY|||||||0.68|||||||ANOVA|F(1,107) = 0.17||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of sex.||||.68
82434452|NCT04925076|164579726|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,107) = 0.83||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X family history X sex interaction.||||.36
82434453|NCT04925076|164579726|SUPERIORITY|||||||0.24|||||||ANOVA|F(1,108) = 1.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X sex interaction.||||.24
82434454|NCT04925076|164579726|SUPERIORITY|||||||0.6|||||||ANOVA|F(1,108) = 0.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the condition X family history interaction.||||.60
82434455|NCT04925076|164579726|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,108) = 0.00||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the family history X sex interaction.||||.99
82649113|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.0|||||TWO_SIDED|95.0|-163.35|63.35||||||For change in fear of future health at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||63.35|-163.35|
82539055|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.312|STANDARD_ERROR_OF_MEAN|1.009||0.1938|TWO_SIDED|95.0|-3.291|0.668|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.668|-3.291|0.1938
82539056|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.187|STANDARD_ERROR_OF_MEAN|1.174||0.0627|TWO_SIDED|95.0|-4.491|0.116|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.116|-4.491|0.0627
82539057|NCT00383188|164778413|SUPERIORITY||LSM Difference|-0.851|STANDARD_ERROR_OF_MEAN|1.206||0.4809|TWO_SIDED|95.0|-3.218|1.517|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.517|-3.218|0.4809
82539058|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.289|STANDARD_ERROR_OF_MEAN|1.017||0.2057|TWO_SIDED|95.0|-3.286|0.709|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.709|-3.286|0.2057
82539059|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.331|STANDARD_ERROR_OF_MEAN|0.999||0.1833|TWO_SIDED|95.0|-3.293|0.631|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.631|-3.293|0.1833
82539060|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.748|STANDARD_ERROR_OF_MEAN|1.166||0.0187|TWO_SIDED|95.0|-5.037|-0.459|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.459|-5.037|0.0187
82539061|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.345|STANDARD_ERROR_OF_MEAN|1.197||0.2615|TWO_SIDED|95.0|-3.695|1.005|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.005|-3.695|0.2615
82649114|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.29|||||TWO_SIDED|95.0|-125.23|96.66||||||For change in ability to plan future at Cycle 9 Day 1, mean change difference was used to compare the two treatment groups.||96.66|-125.23|
82434456|NCT04925076|164579726|SUPERIORITY||||||<|0.001|||||||ANOVA|F(1,108) = 139.63||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of condition.||||<.001
82434457|NCT04925076|164579726|SUPERIORITY|||||||0.84|||||||ANOVA|F(1,108) = 0.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of family history.||||.84
82434458|NCT04925076|164579726|SUPERIORITY|||||||0.59|||||||ANOVA|F(1,108) = 0.30||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of sex.||||.59
82539062|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.764|STANDARD_ERROR_OF_MEAN|1.017||0.0832|TWO_SIDED|95.0|-3.761|0.233|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.233|-3.761|0.0832
82539063|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.615|STANDARD_ERROR_OF_MEAN|0.999||0.1066|TWO_SIDED|95.0|-3.576|0.347|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.347|-3.576|0.1066
82539064|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.406|STANDARD_ERROR_OF_MEAN|1.166||0.0394|TWO_SIDED|95.0|-4.695|-0.118|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.118|-4.695|0.0394
82649115|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-45.18|95.18||||||For change in pancreatic pain at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||95.18|-45.18|
82434459|NCT04925076|164579727|SUPERIORITY|||||||0.66|||||||ANOVA|F(1,93)=0.19||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.66
82434460|NCT04925076|164579727|SUPERIORITY|||||||0.41|||||||ANOVA|F(1,93)=0.69||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.41
82434461|NCT04925076|164579727|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.74||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.39
82434462|NCT04925076|164579727|SUPERIORITY|||||||0.22|||||||ANOVA|F(1,93)=1.54||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.22
82434463|NCT04925076|164579727|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.64||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of condition.||||.06
82453800|NCT00286429|164613473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.163|||<|0.001|TWO_SIDED|95.0|1.651|6.06||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||6.060|1.651|<0.001
82539065|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.355|STANDARD_ERROR_OF_MEAN|1.197||0.258|TWO_SIDED|95.0|-3.705|0.995|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.995|-3.705|0.2580
82539066|NCT00383188|164778413|SUPERIORITY||LSM Difference|-0.758|STANDARD_ERROR_OF_MEAN|1.017||0.456|TWO_SIDED|95.0|-2.754|1.238|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.238|-2.754|0.4560
82539067|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.021|STANDARD_ERROR_OF_MEAN|0.999||0.0434|TWO_SIDED|95.0|-3.982|-0.06|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.060|-3.982|0.0434
82539068|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.728|STANDARD_ERROR_OF_MEAN|1.165||0.1386|TWO_SIDED|95.0|-4.016|0.56|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.560|-4.016|0.1386
82434464|NCT04925076|164579727|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of family history.||||.99
82434465|NCT04925076|164579727|SUPERIORITY|||||||0.09|||||||ANOVA|F(1,93)=2.88||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on dorsolateral prefrontal cortex activation. Here we report the results of the analysis of the main effect of sex.||||.09
82434466|NCT04925076|164579728|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.55
82434467|NCT04925076|164579728|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,93)=0.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X sex interaction.||||.36
82434468|NCT04925076|164579728|SUPERIORITY|||||||0.36|||||||ANOVA|F(1,93)=0.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the condition X family history interaction.||||.36
82434469|NCT04925076|164579728|SUPERIORITY|||||||0.17|||||||ANOVA|F(1,93)=1.93||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the family history X sex interaction.||||.17
82434470|NCT04925076|164579728|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the main effect of condition.||||.55
82434471|NCT04925076|164579728|SUPERIORITY|||||||0.43|||||||ANOVA|F(1,93)=0.63||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hypothalamus activation. Here we report the results of the analysis of the main effect of family history.||||.43
82434472|NCT04925076|164579728|SUPERIORITY|||||||0.33|||||||ANOVA|F(1,93)=0.96||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain threshold. Here we report the results of the analysis of the main effect of sex.||||.33
82434473|NCT04925076|164579729|SUPERIORITY|||||||0.34|||||||ANOVA|F(1,93)=0.34||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.34
82434474|NCT04925076|164579729|SUPERIORITY|||||||0.88|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.88
82434475|NCT04925076|164579729|SUPERIORITY|||||||0.56|||||||ANOVA|F(1,93)=0.34||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.56
82539069|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.154|STANDARD_ERROR_OF_MEAN|1.197||0.3353|TWO_SIDED|95.0|-3.503|1.196|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.196|-3.503|0.3353
82434476|NCT04925076|164579729|SUPERIORITY|||||||0.9|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.90
82539070|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.08|STANDARD_ERROR_OF_MEAN|1.016||0.041|TWO_SIDED|95.0|-4.075|-0.085|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.085|-4.075|0.0410
82539071|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.234|STANDARD_ERROR_OF_MEAN|0.998||0.0255|TWO_SIDED|95.0|-4.194|-0.274|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.274|-4.194|0.0255
82539072|NCT00383188|164778413|SUPERIORITY||LSM Difference|-2.384|STANDARD_ERROR_OF_MEAN|1.165||0.041|TWO_SIDED|95.0|-4.671|-0.097|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||-0.097|-4.671|0.0410
82434477|NCT04925076|164579729|SUPERIORITY|||||||0.45|||||||ANOVA|F(1,93)=0.59||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the main effect of condition.||||.45
82434478|NCT04925076|164579729|SUPERIORITY|||||||0.85|||||||ANOVA|F(1,93)=0.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex activation. Here we report the results of the analysis of the main effect of family history.||||.85
82434479|NCT04925076|164579729|SUPERIORITY|||||||0.64|||||||ANOVA|F(1,93)=0.22||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on medial prefrontal cortex. Here we report the results of the analysis of the main effect of sex.||||.64
82434480|NCT04925076|164579730|SUPERIORITY|||||||0.3|||||||ANOVA|F(1,93)=1.07||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.30
82434481|NCT04925076|164579730|SUPERIORITY|||||||0.11|||||||ANOVA|F(1,93)=2.62||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X sex interaction.||||.11
82434482|NCT04925076|164579730|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.76||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X family history interaction.||||.39
82434483|NCT04925076|164579730|SUPERIORITY|||||||0.89|||||||ANOVA|F(1,93)=0.02||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the family history X sex interaction.||||.89
82434484|NCT04925076|164579730|SUPERIORITY|||||||0.01|||||||ANOVA|F(1,93)=6.72||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of condition.||||.01
82434485|NCT04925076|164579730|SUPERIORITY|||||||0.08|||||||ANOVA|F(1,93)=3.15||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of family history.||||.08
82434486|NCT04925076|164579730|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.71||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the main effect of sex.||||.06
82434487|NCT04925076|164579731|SUPERIORITY|||||||0.29|||||||ANOVA|F(1,93)=1.14||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.29
82434488|NCT04925076|164579731|SUPERIORITY|||||||0.1|||||||ANOVA|F(1,93)=2.84||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on nucleus accumbens activation. Here we report the results of the analysis of the condition X sex interaction.||||.10
82434489|NCT04925076|164579731|SUPERIORITY|||||||0.49|||||||ANOVA|F(1,93)=0.47||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the condition X family history interaction.||||.49
82434490|NCT04925076|164579731|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the family history X sex interaction.||||.99
82434491|NCT04925076|164579731|SUPERIORITY|||||||0.13|||||||ANOVA|F(1,93)=2.29||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of condition.||||.13
82434492|NCT04925076|164579731|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of family history.||||.82
82434493|NCT04925076|164579731|SUPERIORITY|||||||0.02|||||||ANOVA|F(1,93)=6.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on periaqueductal gray activation. Here we report the results of the analysis of the main effect of sex.||||0.02
82539073|NCT00383188|164778413|SUPERIORITY||LSM Difference|-1.911|STANDARD_ERROR_OF_MEAN|1.196||0.1106|TWO_SIDED|95.0|-4.259|0.438|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.438|-4.259|0.1106
82434494|NCT04925076|164579732|SUPERIORITY|||||||0.32|||||||ANOVA|F(1,93)=1.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.32
82434495|NCT04925076|164579732|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,93)=0.000||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X sex interaction.||||.99
82434496|NCT04925076|164579732|SUPERIORITY|||||||0.83|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the condition X family history interaction.||||.83
82434497|NCT04925076|164579732|SUPERIORITY|||||||0.75|||||||ANOVA|F(1,93)=0.10||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the family history X sex interaction.||||.75
82434498|NCT04925076|164579732|SUPERIORITY|||||||0.62|||||||ANOVA|F(1,93)=0.25||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of condition.||||.62
82434499|NCT04925076|164579732|SUPERIORITY|||||||0.92|||||||ANOVA|F(1,93)=0.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of family history.||||.92
82434500|NCT04925076|164579732|SUPERIORITY|||||||0.39|||||||ANOVA|F(1,93)=0.76||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on anterior cingulate cortex activation. Here we report the results of the analysis of the main effect of sex.||||.39
82434501|NCT04925076|164579733|SUPERIORITY|||||||0.5|||||||ANOVA|F(1,93)=0.45||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.50
82434502|NCT04925076|164579733|SUPERIORITY|||||||0.28|||||||ANOVA|F(1,93)=1.20||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X sex interaction.||||.28
82434503|NCT04925076|164579733|SUPERIORITY|||||||0.6|||||||ANOVA|F(1,93)=0.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the condition X family history interaction.||||.60
82434504|NCT04925076|164579733|SUPERIORITY|||||||0.04|||||||ANOVA|F(1,93)=4.48||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the family history X sex interaction.||||.04
82434505|NCT04925076|164579733|SUPERIORITY|||||||0.25|||||||ANOVA|F(1,93)=1.37||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of condition.||||.25
82434506|NCT04925076|164579733|SUPERIORITY|||||||0.89|||||||ANOVA|F(1,93)=0.01||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of family history.||||.89
82434507|NCT04925076|164579733|SUPERIORITY|||||||0.26|||||||ANOVA|F(1,93)=1.28||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on amygdala activation. Here we report the results of the analysis of the main effect of sex.||||.26
82434508|NCT04925076|164579734|SUPERIORITY|||||||0.76|||||||ANOVA|F(1,93)=0.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.76
82434509|NCT04925076|164579734|SUPERIORITY|||||||0.09|||||||ANOVA|F(1,93)=3.00||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X sex interaction.||||.09
82434510|NCT04925076|164579734|SUPERIORITY|||||||0.76|||||||ANOVA|F(1,93)=0.10||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the condition X family history interaction.||||.76
82434511|NCT04925076|164579734|SUPERIORITY|||||||0.77|||||||ANOVA|F(1,93)=0.09||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the family history X sex interaction.||||.77
82434512|NCT04925076|164579734|SUPERIORITY|||||||0.52|||||||ANOVA|F(1,93)=0.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the main effect of condition.||||.52
82434513|NCT04925076|164579734|SUPERIORITY|||||||0.93|||||||ANOVA|F(1,93)=0.007||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on pain hippocampus activation. Here we report the results of the analysis of the main effect of family history.||||.93
82499616|NCT01571427|164689936|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|1.28||0.003|TWO_SIDED|||||Statistically significant based on the Bonferroni multiple comparison adjusted P value of P\<0.004.|Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: AMONG CDR=0 group (N=49)||||0.003
82434514|NCT04925076|164579734|SUPERIORITY|||||||0.42|||||||ANOVA|F(1,93)=0.64||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on hippocampus activation. Here we report the results of the analysis of the main effect of sex.||||.42
82434515|NCT04925076|164579735|SUPERIORITY|||||||0.44|||||||ANOVA|F(1,93)=0.62||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.44
82434516|NCT04925076|164579735|SUPERIORITY|||||||0.27|||||||ANOVA|F(1,93)=1.23||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X sex interaction.||||.27
82434517|NCT04925076|164579735|SUPERIORITY|||||||0.06|||||||ANOVA|F(1,93)=3.66||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the condition X family history interaction.||||.06
82434518|NCT04925076|164579735|SUPERIORITY|||||||0.73|||||||ANOVA|F(1,93)=0.13||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the family history X sex interaction.||||.73
82434519|NCT04925076|164579735|SUPERIORITY|||||||0.047|||||||ANOVA|F(1,93)=4.04||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of condition.||||.047
82434520|NCT04925076|164579735|SUPERIORITY|||||||0.97|||||||ANOVA|F(1,93)=0.001||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of family history.||||.97
82434521|NCT04925076|164579735|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on insula activation. Here we report the results of the analysis of the main effect of sex.||||.82
82453801|NCT00286429|164613473|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.989|||<|0.001|TWO_SIDED|95.0|2.083|7.64||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.0%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||7.640|2.083|<0.001
82453802|NCT00286429|164613474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.55||||0.002|TWO_SIDED|95.0|1.732|11.953||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||11.953|1.732|0.002
82539074|NCT00383188|164778413|SUPERIORITY||LSM Difference|-0.251|STANDARD_ERROR_OF_MEAN|1.048||0.8107|TWO_SIDED|95.0|-2.307|1.805|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.805|-2.307|0.8107
82539075|NCT00383188|164778413|SUPERIORITY||LSM Difference|0.272|STANDARD_ERROR_OF_MEAN|1.017||0.7895|TWO_SIDED|95.0|-1.726|2.269|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.269|-1.726|0.7895
82539076|NCT00383188|164778413|SUPERIORITY||LSM Difference|-0.306|STANDARD_ERROR_OF_MEAN|1.206||0.7996|TWO_SIDED|95.0|-2.673|2.06|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.060|-2.673|0.7996
82434522|NCT04925076|164579736|SUPERIORITY|||||||0.45|||||||ANOVA|F(1,93)=0.57||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||0.45
82434523|NCT04925076|164579736|SUPERIORITY|||||||0.59|||||||ANOVA|F(1,93)=0.29||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X sex interaction.||||.59
82434524|NCT04925076|164579736|SUPERIORITY|||||||0.07|||||||ANOVA|F(1,93)=3.41||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the condition X family history interaction.||||.07
82434525|NCT04925076|164579736|SUPERIORITY|||||||0.61|||||||ANOVA|F(1,93)=0.26||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the family history X sex interaction.||||.61
82434526|NCT04925076|164579736|SUPERIORITY|||||||0.82|||||||ANOVA|F(1,93)=0.05||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of condition.||||.82
82434527|NCT04925076|164579736|SUPERIORITY|||||||0.63|||||||ANOVA|F(1,93)=0.23||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of family history.||||.63
82434528|NCT04925076|164579736|SUPERIORITY|||||||0.55|||||||ANOVA|F(1,93)=0.36||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on postcentral gyrus activation. Here we report the results of the analysis of the main effect of sex.||||.55
82434529|NCT04925076|164579737|SUPERIORITY|||||||0.57|||||||ANOVA|F(1,93)=0.32||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X family history X sex interaction.||||.57
82434530|NCT04925076|164579737|SUPERIORITY|||||||0.14|||||||ANOVA|F(1,93)=2.17||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X sex interaction.||||.14
82434531|NCT04925076|164579737|SUPERIORITY|||||||0.69|||||||ANOVA|F(1,93)=0.32||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the condition X family history interaction.||||.69
82434532|NCT04925076|164579737|SUPERIORITY|||||||0.34|||||||ANOVA|F(1,93)=0.92||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the family history X sex interaction.||||.34
82434533|NCT04925076|164579737|SUPERIORITY|||||||0.29|||||||ANOVA|F(1,93)=1.16||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of condition.||||0.29
82434534|NCT04925076|164579737|SUPERIORITY|||||||0.95|||||||ANOVA|F(1,93)=0.004||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of family history.||||.95
82434535|NCT04925076|164579737|SUPERIORITY|||||||0.11|||||||ANOVA|F(1,93)=2.65||2 (beverage condition: alcohol vs. placebo) X 2 (family history: positive vs. negative) X 2 (sex: men vs. women) mixed general linear model on thalamus activation. Here we report the results of the analysis of the main effect of sex.||||.11
82434536|NCT01460875|164579762|NON_INFERIORITY|The method to be developed will allow us to declare that a response at a lower dose is not inferior to that at the standard dose for a particular patient, using a patient specific inferiority test.||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||.22
82539077|NCT00383188|164778413|SUPERIORITY||LSM Difference|0.185|STANDARD_ERROR_OF_MEAN|1.235||0.8811|TWO_SIDED|95.0|-2.24|2.61|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||2.610|-2.240|0.8811
82539078|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.687|STANDARD_ERROR_OF_MEAN|0.886||0.4385|TWO_SIDED|95.0|-2.427|1.053|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.053|-2.427|0.4385
82539079|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.085|STANDARD_ERROR_OF_MEAN|0.87||0.2131|TWO_SIDED|95.0|-2.794|0.624|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.624|-2.794|0.2131
82577527|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC -13vPnC) was greater than -10%.|Percent difference|-0.2|||||TWO_SIDED|95.0|-1.3|0.8|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Diphtheria||0.8|-1.3|
82434537|NCT00394251|164579783|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641|||||||Fisher Exact|||Comparison of percentage of participants with at least one taxane-emergent toxicity||||0.641
82434538|NCT00394251|164579789|SUPERIORITY_OR_OTHER_LEGACY|||||||0.323||95.0|||||Fisher Exact|||Comparison of percentage of participants with at least one taxane-emergent toxicity||||0.323
82434539|NCT05791565|164579790|OTHER||Ratio of Geometric LS Means|1.1609|||||TWO_SIDED|90.0|1.0221|1.3185|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.3185|1.0221|
82434540|NCT05791565|164579791|OTHER||Ratio of the Geometric LS Means|1.4081|||||TWO_SIDED|90.0|1.2998|1.5255|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.5255|1.2998|
82434541|NCT05791565|164579792|OTHER||Ratio of the Geometric LS Means|1.3885|||||TWO_SIDED|90.0|1.2793|1.507|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.5070|1.2793|
82434542|NCT05791565|164579793|OTHER||Ratio of the Geometric LS Means|1.3141|||||TWO_SIDED|90.0|1.1816|1.4614|||||Ratio of the Geometric LS means = Geometric LS mean of the Salbutamol HFA-152a MDI to the Geometric LS mean of the Salbutamol HFA-134a MDI.|||1.4614|1.1816|
82434543|NCT04644276|164579823|SUPERIORITY||Median Difference (Final Values)|-37.0|STANDARD_DEVIATION|102.0||0.8125|TWO_SIDED|95.0|-112.6|140.7|||Wilcoxon Signed-Ranks test||Unit is percent change.|Percent change in leak 100% x (\[Mask with mask adhesive\] - \[Mask without mask adhesive\])/ \[Mask without mask adhesive\]. The comparison between the two arms is captured in the reported percentage change.||140.7|-112.6|0.8125
82434544|NCT02388165|164579824|SUPERIORITY||Vaccine Efficacy (VE)|0.0|||||TWO_SIDED|95.0|-126.3|55.81|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The confidence interval (CI) was calculated using the Clopper-Pearson method.|||55.81|-126.30|
82434545|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|8.3|||<|0.001|TWO_SIDED|95.0|6.9|9.8|||Miettinen and Nurminen|||Redness: Any||9.8|6.9|<0.001
82434546|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|4.4|||||TWO_SIDED|95.0|3.3|5.6||||||Redness: Mild||5.6|3.3|
82434547|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|3.0|||||TWO_SIDED|95.0|2.3|4.0||||||Redness: Moderate||4.0|2.3|
82434548|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|0.5|1.4||||||Redness: Severe||1.4|0.5|
82434549|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|7.0|||<|0.001|TWO_SIDED|95.0|5.7|8.4|||Miettinen and Nurminen|||Swelling: Any||8.4|5.7|<0.001
82434550|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|3.9|||||TWO_SIDED|95.0|2.8|5.0||||||Swelling: Mild||5.0|2.8|
82434551|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|2.4|||||TWO_SIDED|95.0|1.7|3.3||||||Swelling: Moderate||3.3|1.7|
82434552|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|0.7|||||TWO_SIDED|95.0|0.4|1.2||||||Swelling: Severe||1.2|0.4|
82434553|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|15.7|||<|0.001|TWO_SIDED|95.0|13.3|18.1|||Miettinen and Nurminen|||Pain at the injection site: Any||18.1|13.3|<0.001
82434554|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|12.2|||||TWO_SIDED|95.0|10.0|14.5||||||Pain at the injection site: Mild||14.5|10.0|
82434555|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|3.0|||||TWO_SIDED|95.0|1.9|4.2||||||Pain at the injection site: Moderate||4.2|1.9|
82434556|NCT02388165|164579825|SUPERIORITY||Difference in percentage of participants|0.5|||||TWO_SIDED|95.0|0.1|1.0||||||Pain at the injection site: Severe||1.0|0.1|
82434557|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.6||||0.146|TWO_SIDED|95.0|-0.2|1.6|||Miettinen and Nurminen|||Fever: Any||1.6|-0.2|0.146
82434558|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.4|||||TWO_SIDED|95.0|-0.3|1.2||||||Fever: 38.0 degree C to 38.4 degree C||1.2|-0.3|
82434559|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.4|0.6||||||Fever: 38.5 degree C to 38.9 degree C||0.6|-0.4|
82434560|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.2|0.5||||||Fever: 39.0 degree C to 40.0 degree C||0.5|-0.2|
82434561|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.1|||||TWO_SIDED|95.0|-0.2|0.3||||||Fever: \>40.0 degree C||0.3|-0.2|
82649116|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-45.18|95.18||||||For change in eating related items at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||95.18|-45.18|
82434562|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|2.9||||0.093||95.0|-0.5|6.2|||Miettinen and Nurminen|||Fatigue: Any||6.2|-0.5|0.093
82434563|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.4|||||TWO_SIDED|95.0|-0.9|3.7||||||Fatigue: Mild||3.7|-0.9|
82434564|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.3|||||TWO_SIDED|95.0|-1.6|4.2||||||Fatigue: Moderate||4.2|-1.6|
82434565|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.2|||||TWO_SIDED|95.0|-1.2|1.6||||||Fatigue: Severe||1.6|-1.2|
82434566|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.2||||0.443|TWO_SIDED|95.0|-1.9|4.4|||Miettinen and Nurminen|||Headache: Any||4.4|-1.9|0.443
82434567|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.3|||||TWO_SIDED|95.0|-2.9|2.3||||||Headache: Mild||2.3|-2.9|
82499617|NCT01571427|164689936|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|1.14||0.65|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analyses 3: CDR=0.5 (Mild Cognitive Impairment) group, N=34||||0.65
82434568|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.5|||||TWO_SIDED|95.0|-0.7|3.8||||||Headache: Moderate||3.8|-0.7|
82434569|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.0|||||TWO_SIDED|95.0|-0.8|0.8||||||Headache: Severe||0.8|-0.8|
82434570|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.0||||0.462|TWO_SIDED|95.0|-1.6|3.4|||Miettinen and Nurminen|||Diarrhea: Any||3.4|-1.6|0.462
82434571|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|-1.5|3.0||||||Diarrhea: Mild||3.0|-1.5|
82434572|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.5||||||95.0|-0.7|1.7||||||Diarrhea: Moderate||1.7|-0.7|
82434573|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||Diarrhea: Severe||0.2|-1.0|
82434574|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.6||||0.3||95.0|-1.8|0.5|||Miettinen and Nurminen|||Vomiting: Any||0.5|-1.8|0.300
82434575|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.2|||||TWO_SIDED|95.0|-1.3|0.8||||||Vomiting: Mild||0.8|-1.3|
82434576|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.4||||||95.0|-0.9|0.1||||||Vomiting: Moderate||0.1|-0.9|
82434577|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.7||||0.276||95.0|-1.3|4.7|||Miettinen and Nurminen|||Muscle pain: Any||4.7|-1.3|0.276
82434578|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.8|||||TWO_SIDED|95.0|-1.2|2.8||||||Muscle pain: Mild||2.8|-1.2|
82434579|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.1|||||TWO_SIDED|95.0|-1.4|3.5||||||Muscle pain: Moderate||3.5|-1.4|
82434580|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|-0.2||||||95.0|-1.2|0.8||||||Muscle pain: Severe||0.8|-1.2|
82434581|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.7||||0.273|TWO_SIDED|95.0|-1.3|4.6|||Miettinen and Nurminen|||Joint pain: Any||4.6|-1.3|0.273
82434582|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|1.6|||||TWO_SIDED|95.0|-0.2|3.6||||||Joint pain: Mild||3.6|-0.2|
82434583|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.0|||||TWO_SIDED|95.0|-2.6|2.4||||||Joint pain: Moderate||2.4|-2.6|
82434584|NCT02388165|164579826|SUPERIORITY||Difference in percentage of participants|0.1||||||95.0|-0.9|1.0||||||Joint pain: Severe||1.0|-0.9|
82434585|NCT02388165|164579834|SUPERIORITY||VE|0.0|||||TWO_SIDED|95.0|-126.3|55.81|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||55.81|-126.30|
82434586|NCT02388165|164579835|SUPERIORITY||VE|-9.09|||||TWO_SIDED|95.0|-104.06|41.41|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||41.41|-104.06|
82434587|NCT02388165|164579836|SUPERIORITY||VE|-8.7|||||TWO_SIDED|95.0|-100.42|40.8|||||VE was calculated as 1-(P/\[1-P\]\*100), where P is the number of SA4Ag cases divided by the total number of cases. The CI was calculated using the Clopper-Pearson method.|||40.80|-100.42|
82434588|NCT01667224|164579869|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
82434589|NCT01667224|164579870|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
82434590|NCT01667224|164579871|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.D. to detect a 0.3kg(S.E.=0.6kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
82434591|NCT01667224|164579872|NON_INFERIORITY_OR_EQUIVALENCE|Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.60kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.|||||<|0.05|||||||Mixed Models Analysis|||Data are present as the mean±S.E. to detect a 0.3kg(S.D.=0.60kg) difference in body weight between groups with 80% power and a two-tailed α-value of 0.05.||||<0.05
82434592|NCT01474772|164579888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.0659|TWO_SIDED|95.0|-0.46|0.01||Primary analysis was two-sided and performed at the 0.05 significance level. The study was considered positive only if both co-primary endpoints had p-values that were less than 0.05, hence there was no need for multiplicity adjustment.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. Last observation carried forward (LOCF) approach was applied.||0.01|-0.46|0.0659
82434593|NCT01474772|164579889|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.291|STANDARD_ERROR_OF_MEAN|0.128||0.0242|TWO_SIDED|95.0|-0.543|-0.038||Primary analysis was two-sided and performed at the 0.05 significance level. Unstructured covariance structure was used to estimate the within-participant errors.|Repeated measure mixed effects model|The Kenward-Roger method was used to estimate denominator degrees of freedom.||This longitudinal analysis was a sensitivity analysis of the primary endpoint. P-value was based on a repeated measure mixed effects model including pooled center, time point, treatment, an indicator variable for Week 6 as well as interaction terms as fixed effect factors. For analysis purpose, it is assumed that participants were on placebo at Baseline, took the same treatment as in Period 1 during Week 1 of washout, and were on placebo in Week 2 of washout.||-0.038|-0.543|0.0242
82453803|NCT00286429|164613474|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58||||0.002|TWO_SIDED|95.0|1.74|12.052||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin regimen, baseline insulin dose, and baseline HbA1c.|Odds Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|The null hypothesis that there is no treatment effect between alogliptin and placebo arms in incidence of HbA1c decrease from baseline ≥1.5%. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a Wald test at the 0.05 significance level.||12.052|1.740|0.002
82539080|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.013||0.1216|TWO_SIDED|95.0|-3.559|0.419|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||0.419|-3.559|0.1216
82434594|NCT01474772|164579890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.412|TWO_SIDED|95.0|-0.44|0.18||Primary analysis was two-sided and performed at the 0.05 significance level. The study was considered positive only if both co-primary endpoints have p-values that are less than 0.05, hence there was no need for multiplicity adjustment.|Mixed-Effect Model Repeated Measures|Satterthwaite's approximation was used to estimate denominator degrees of freedom.||Analysis was done using a repeated measure linear mixed effects model including baseline pain, sequence, period, center, time, treatment, and treatment by time interaction as fixed effect factors and participant within sequence and within-participant error as random factors. The model term 'time' may take 2 values corresponding to Week 3 and Week 6 in each period.||0.18|-0.44|0.4120
82434595|NCT01474772|164579891|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.0847|TWO_SIDED|95.0|0.94|2.55||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Generalized linear mixed model|||Analysis was done overall (period 1 and period 2) using a generalized linear mixed model which included response as the dependent variable, sequence, period, pooled center, treatment as fixed effects, and subject within treatment as random effect. LOCF approach was applied.||2.55|0.94|0.0847
82434596|NCT01474772|164579892|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.38||||0.2459|TWO_SIDED|95.0|0.8|2.39||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Generalized linear mixed model|||Analysis was done overall (period 1 and period 2) using a generalized linear mixed model which included response as the dependent variable, sequence, period, pooled center, treatment as fixed effects, and subject within treatment as random effect. LOCF approach was applied.||2.39|0.80|0.2459
82434597|NCT01474772|164579893|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.46||0.0889|TWO_SIDED|95.0|-1.71|0.12||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.12|-1.71|0.0889
82453804|NCT00286429|164613476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.291|TWO_SIDED|95.0|-0.81|0.24||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.24|-0.81|0.291
82453805|NCT00286429|164613476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.439|TWO_SIDED|95.0|-0.74|0.32||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 8. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.32|-0.74|0.439
82539081|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.675|STANDARD_ERROR_OF_MEAN|1.046||0.519|TWO_SIDED|95.0|-2.728|1.378|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline tender/ joint count as the covariate and participant as a random effect.||1.378|-2.728|0.5190
82434598|NCT01474772|164579894|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.16|STANDARD_ERROR_OF_MEAN|0.86||0.1781|TWO_SIDED|95.0|-2.86|0.53||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.53|-2.86|0.1781
82434599|NCT01474772|164579895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.2719|TWO_SIDED|95.0|-0.53|0.15||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline pain, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.15|-0.53|0.2719
82434600|NCT01474772|164579896|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|563.39|STANDARD_ERROR_OF_MEAN|4098.74||0.8909|TWO_SIDED|95.0|-7549.82|8676.6||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||8676.60|-7549.82|0.8909
82434601|NCT01474772|164579897|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|206.37||0.9899|TWO_SIDED|95.0|-411.26|406.01||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||406.01|-411.26|0.9899
82434602|NCT01474772|164579898|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.27||0.2854|TWO_SIDED|95.0|-3.88|1.15||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||1.15|-3.88|0.2854
82434603|NCT01474772|164579899|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|1.09||0.1805|TWO_SIDED|95.0|-3.6|0.68||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.68|-3.60|0.1805
82539082|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.464|STANDARD_ERROR_OF_MEAN|0.88||0.0967|TWO_SIDED|95.0|-3.193|0.264|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.264|-3.193|0.0967
82539083|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.027|STANDARD_ERROR_OF_MEAN|0.863||0.2346|TWO_SIDED|95.0|-2.721|0.668|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.668|-2.721|0.2346
82649117|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|77.78|||||TWO_SIDED|95.0|14.55|141.0||||||For change in altered bowel habits at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||141.00|14.55|
82434604|NCT01474772|164579900|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.33||0.3028|TWO_SIDED|95.0|-0.99|0.31||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.31|-0.99|0.3028
82539084|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.658|STANDARD_ERROR_OF_MEAN|1.007||0.1|TWO_SIDED|95.0|-3.635|0.318|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.318|-3.635|0.1000
82649118|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.11|||||TWO_SIDED|95.0|40.61|131.61||||||For change in jaundice at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||131.61|40.61|
82434605|NCT01474772|164579901|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.7542|TWO_SIDED|95.0|-0.41|0.3||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.30|-0.41|0.7542
82434606|NCT01474772|164579902|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.68||0.0634|TWO_SIDED|95.0|-2.62|0.07||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.07|-2.62|0.0634
82434607|NCT01474772|164579903|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.19||0.1985|TWO_SIDED|95.0|-0.13|0.62||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.62|-0.13|0.1985
82434608|NCT01474772|164579904|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9686|TWO_SIDED|95.0|-0.21|0.2||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.20|-0.21|0.9686
82434609|NCT01474772|164579905|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.54||||0.002|TWO_SIDED|95.0|1.3|4.95|||Cochran-Mantel-Haenszel|||Odds ratio is based on the binary response for any improvement while p-value is from the comparison of the original scale of 7 possible outcomes. P-value was calculated by using Cochran Mantel-Haenszel (CMH) test. PGIC values at the end of Period 1 data was compared between treatment groups.||4.95|1.30|0.0020
82434610|NCT01474772|164579906|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.15||0.0105|TWO_SIDED|95.0|-0.68|-0.09||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors. LOCF approach was applied.||-0.09|-0.68|0.0105
82434611|NCT01474772|164579907|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1178|TWO_SIDED|95.0|-0.63|0.07||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.07|-0.63|0.1178
82434612|NCT01474772|164579908|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.18||0.199|TWO_SIDED|95.0|-0.6|0.13||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.13|-0.60|0.1990
82434613|NCT01474772|164579909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.02||0.71107|TWO_SIDED|95.0|-0.025|0.037||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Statistical analysis presented above is for the Index score Dolan 1997. Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.037|-0.025|0.71107
82453806|NCT00286429|164613477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.841|TWO_SIDED|95.0|-0.67|0.55||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.55|-0.67|0.841
82539085|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.805|STANDARD_ERROR_OF_MEAN|1.038||0.4385|TWO_SIDED|95.0|-2.844|1.234|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.234|-2.844|0.4385
82434614|NCT01474772|164579909|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.02||0.53965|TWO_SIDED|95.0|-0.021|0.039||Secondary analysis was two-sided and performed at the 0.05 significance level. No corrections to alpha to control for potential inflation of Type I error resulting from multiple comparisons were made.|Linear mixed effects model|||Statistical analysis presented above is for the Index score Dolan 2001. Analysis was done using a linear mixed effects model including baseline value, sequence, period, center, and treatment as fixed effect factors and participant within sequence and within-participant error as random factors.||0.039|-0.021|0.53965
82434615|NCT03367403|164579914|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.56||0.042|TWO_SIDED|95.0|0.12|6.27|||Mixed Models Analysis|||||6.27|0.12|0.042
82434616|NCT03367403|164579915|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|0.898||0.04|TWO_SIDED|95.0|-3.63|-0.09|||Mixed Models Analysis|||||-0.09|-3.63|0.040
82434617|NCT03367403|164579916|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.239||0.139|TWO_SIDED|95.0|-0.83|0.12|||Mixed Models Analysis|||||0.12|-0.83|0.139
82434618|NCT03367403|164579917|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.525||0.227|TWO_SIDED|95.0|-0.4|1.67|||Mixed Models Analysis|||||1.67|-0.40|0.227
82434619|NCT03367403|164579918|SUPERIORITY||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|1.009||0.23|TWO_SIDED|95.0|-0.77|3.2|||Mixed Models Analysis|||||3.20|-0.77|0.230
82434620|NCT03367403|164579919|SUPERIORITY||Mean Difference (Final Values)|-85.06|STANDARD_ERROR_OF_MEAN|3.867|<|0.001|TWO_SIDED|95.0|-92.68|-77.43|||Mixed Models Analysis|||||-77.43|-92.68|<0.001
82434621|NCT03367403|164579920|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.56|TWO_SIDED|95.0|-0.01|0.03|||ANCOVA|||Tau-IQ||0.03|-0.01|0.560
82434622|NCT03367403|164579920|SUPERIORITY||Mean Difference (Final Values)|0.035||||0.012|TWO_SIDED|95.0|0.007|0.062|||ANCOVA|||MUBADA-Cerebellum||0.062|0.007|0.012
82649119|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-56.48|106.48||||||For change in body image at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||106.48|-56.48|
82434623|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-2.67|STANDARD_ERROR_OF_MEAN|0.631|<|0.001|TWO_SIDED|95.0|-3.92|-1.43|||Mixed Models Analysis|||Bilateral Cortical||-1.43|-3.92|< 0.001
82434624|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.011||0.916|TWO_SIDED|95.0|-0.02|0.02|||Mixed Models Analysis|||Bilateral Entorhinal Cortex||0.02|-0.02|0.916
82434625|NCT03367403|164579921|SUPERIORITY|Bilateral Hippocampus|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.019||0.771|TWO_SIDED|95.0|-0.03|0.04|||Mixed Models Analysis|||||0.04|-0.03|0.771
82434626|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.047||0.094|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|||Bilateral Inferior Parietal Lobe||0.01|-0.17|0.094
82434627|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.052|TWO_SIDED|95.0|-0.04|0.0|||Mixed Models Analysis|||Bilateral Isthmuscingulate||0.00|-0.04|0.052
82434628|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.118||0.005|TWO_SIDED|95.0|-0.57|-0.11|||Mixed Models Analysis|||Bilateral Lateral Parietal Lobe||-0.11|-0.57|0.005
82434629|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.036||0.731|TWO_SIDED|95.0|-0.08|0.06|||Mixed Models Analysis|||Bilateral Medial Temporal Lobe||0.06|-0.08|0.731
82434630|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.046|<|0.001|TWO_SIDED|95.0|-0.25|-0.07|||Mixed Models Analysis|||Bilateral Precuneus||-0.07|-0.25|<0.001
82434631|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.114|<|0.001|TWO_SIDED|95.0|-0.62|-0.17|||Mixed Models Analysis|||Bilateral Prefrontal Lobe||-0.17|-0.62|<0.001
82434632|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|-0.3|-0.12|||Mixed Models Analysis|||Bilateral Superior Temporal Lobe||-0.12|-0.30|<0.001
82434633|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|2.28|STANDARD_ERROR_OF_MEAN|0.581|<|0.001|TWO_SIDED|95.0|1.14|3.43|||Mixed Models Analysis|||Bilateral Ventricles||3.43|1.14|< 0.001
82434634|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-4.58|STANDARD_ERROR_OF_MEAN|1.519||0.003|TWO_SIDED|95.0|-7.58|-1.59|||Mixed Models Analysis|||Bilateral Whole Brain||-1.59|-7.58|0.003
82434635|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.178|<|0.001|TWO_SIDED|95.0|-1.03|-0.33|||Mixed Models Analysis|||Bilateral Whole Temporal Lobe||-0.33|-1.03|<0.001
82434636|NCT03367403|164579921|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_ERROR_OF_MEAN|0.987||0.022|TWO_SIDED|95.0|-4.23|-0.33|||Mixed Models Analysis|||Bilateral White Matter||-0.33|-4.23|0.022
82434637|NCT00853242|164579967|SUPERIORITY_OR_OTHER|||||||0.0249|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.0249
82434638|NCT00853242|164579967|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.0001
82434639|NCT00853242|164579967|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||<0.0001
82434640|NCT00853242|164579968|SUPERIORITY_OR_OTHER|||||||0.2647|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.2647
82434641|NCT00853242|164579968|SUPERIORITY_OR_OTHER|||||||0.7944|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.7944
82434642|NCT00853242|164579968|SUPERIORITY_OR_OTHER|||||||0.3724|TWO_SIDED||||||Wilcoxon Rank Sum Tests|||Analysis was performed using Wilcoxon rank sum tests.||||0.3724
82434643|NCT02516098|164579991|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the test and reference product (for Stage 1) was assessed on the basis of the point estimate of the geometric mean ratio for Cmax in relation to the bioequivalence range of 80.00% to 125.00%.|Geometric mean ratio (%): T/REF|87.52|||||TWO_SIDED|92.46|77.18|99.24|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The study design is a two-stage Pocock-like group sequential design according to the alpha spending function approach. The alpha level for Stage 1 was 0.0377 (one-sided).||99.24|77.18|
82434644|NCT02516098|164579992|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the test and reference products for Stage 1 was assessed on the basis of the 92.46% confidence intervals for the geometric mean (test/reference) ratio for the AUC0-t in relation to the bioequivalence range of 80.00% to 125.00%, with a one-sided alpha of 0.0377.|Geometric mean ratio (%): T/REF|91.74|||||TWO_SIDED|92.46|83.51|100.78|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The study design is a two-stage Pocock-like group sequential design according to the alpha spending function approach. The alpha level for Stage 1 was 0.0377 (one-sided).||100.78|83.51|
82434645|NCT02516098|164579993|SUPERIORITY_OR_OTHER||Geometric mean ratio (%): T/REF|91.66|||||TWO_SIDED|92.46|83.59|100.51|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The test product was compared to the reference product by means of statistical analysis.||100.51|83.59|
82434646|NCT02516098|164579994|SUPERIORITY_OR_OTHER||Geometric mean ratio (%): T/REF|92.96|||||TWO_SIDED|92.46|81.94|105.47|||||ANOVA model was used with 'sequence', 'treatment' and 'period' as fixed effects and 'subject within sequence' as a random effect after logarithmic transformation of the data.|The test product was compared to the reference product by means of statistical analysis.||105.47|81.94|
82434647|NCT01734395|164579995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|4.56|<|0.0001|TWO_SIDED|95.0|-1.4262|-0.9467|||t-test, 2 sided|||||-0.9467|-1.4262|<.0001
82434648|NCT01734395|164579996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|STANDARD_DEVIATION|10.69|<|0.0001|TWO_SIDED|95.0|0.9188|2.0438|||t-test, 2 sided|||||2.0438|0.9188|<.0001
82434649|NCT01734395|164579997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_DEVIATION|2.43|<|0.0001|TWO_SIDED|95.0|-0.814|-0.5586|||t-test, 2 sided|||||-0.5586|-0.814|<.0001
82434650|NCT01092780|164579998|SUPERIORITY_OR_OTHER||Difference in LS means|8.16|||||TWO_SIDED|95.0|6.11|10.2||||||Difference in least squares (LS) means||10.20|6.11|
82434651|NCT01092780|164579998|SUPERIORITY_OR_OTHER||Difference in LS means|8.11|||||TWO_SIDED|95.0|6.07|10.15||||||Difference in LS means||10.15|6.07|
82434652|NCT01092780|164579999|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.1|-0.05||||||Difference in LS means||-0.05|-0.10|
82434653|NCT01092780|164579999|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|95.0|-0.09|-0.05||||||Difference in LS means||-0.05|-0.09|
82434654|NCT01092780|164580001|SUPERIORITY_OR_OTHER||Difference in LS means|-2.05|||||TWO_SIDED|90.0|-3.76|-0.35||||||Difference in LS means||-0.35|-3.76|
82434655|NCT01092780|164580001|SUPERIORITY_OR_OTHER||Difference in LS means|-2.1|||||TWO_SIDED|90.0|-3.79|-0.4||||||Difference in LS means||-0.40|-3.79|
82434656|NCT01092780|164580002|SUPERIORITY_OR_OTHER||Difference in LS means|10.21|||||TWO_SIDED|90.0|8.49|11.92||||||||11.92|8.49|
82434657|NCT01092780|164580003|SUPERIORITY_OR_OTHER||Difference in LS means|-0.07|||||TWO_SIDED|90.0|-0.08|-0.05||||||Difference in LS means||-0.05|-0.08|
82434658|NCT01257230|164580004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.051||0.0085|TWO_SIDED|95.0|0.034|0.234|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.234|0.034|0.0085
82434659|NCT01257230|164580004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.05||0.0005|TWO_SIDED|95.0|0.076|0.272|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.272|0.076|0.0005
82434660|NCT01257230|164580005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.056||0.1307|TWO_SIDED|95.0|-0.025|0.194|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.194|-0.025|0.1307
82434661|NCT01257230|164580005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.054||0.032|TWO_SIDED|95.0|0.01|0.223|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.223|0.010|0.0320
82434662|NCT01257230|164580006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.057||0.1231|TWO_SIDED|95.0|-0.024|0.2|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.200|-0.024|0.1231
82649120|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.22|||||TWO_SIDED|95.0|-37.69|132.13||||||For change in health care satisfaction at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||132.13|-37.69|
82434663|NCT01257230|164580006|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.056||0.195|TWO_SIDED|95.0|-0.037|0.182|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.182|-0.037|0.1950
82434664|NCT01257230|164580007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.06||0.2921|TWO_SIDED|95.0|-0.055|0.181|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.181|-0.055|0.2921
82434665|NCT01257230|164580007|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.059||0.5495|TWO_SIDED|95.0|-0.08|0.15|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.150|-0.080|0.5495
82434666|NCT01257230|164580008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.049||0.0079|TWO_SIDED|95.0|0.034|0.225|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.225|0.034|0.0079
82434667|NCT01257230|164580008|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.048||0.0002|TWO_SIDED|95.0|0.088|0.275|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.275|0.088|0.0002
82434668|NCT01257230|164580009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.054||0.0945|TWO_SIDED|95.0|-0.016|0.196|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.196|-0.016|0.0945
82434669|NCT01257230|164580009|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.053||0.1755|TWO_SIDED|95.0|-0.032|0.175|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.175|-0.032|0.1755
82434670|NCT01257230|164580011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.092||0.976|TWO_SIDED|95.0|-0.184|0.178|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.178|-0.184|0.9760
82434671|NCT01257230|164580011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.09||0.9224|TWO_SIDED|95.0|-0.186|0.168|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.168|-0.186|0.9224
82649121|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|||||TWO_SIDED|95.0|-70.68|110.68||||||For change in sexual functioning at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||110.68|-70.68|
82434672|NCT01257230|164580012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023|STANDARD_ERROR_OF_MEAN|0.083||0.7852|TWO_SIDED|95.0|-0.14|0.185|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.185|-0.140|0.7852
82434673|NCT01257230|164580012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.081||0.1649|TWO_SIDED|95.0|-0.046|0.271|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.271|-0.046|0.1649
82434674|NCT01257230|164580013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.032|STANDARD_ERROR_OF_MEAN|0.143||0.8253|TWO_SIDED|95.0|-0.312|0.249|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.249|-0.312|0.8253
82434675|NCT01257230|164580013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.14||0.7559|TWO_SIDED|95.0|-0.232|0.319|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.319|-0.232|0.7559
82434676|NCT01257230|164580014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.087||0.0653|TWO_SIDED|95.0|-0.33|0.01|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.010|-0.330|0.0653
82434677|NCT01257230|164580014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.084||0.2516|TWO_SIDED|95.0|-0.263|0.069|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.069|-0.263|0.2516
82434678|NCT01257230|164580016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.147|STANDARD_ERROR_OF_MEAN|0.095||0.12|TWO_SIDED|95.0|-0.333|0.038|||Mixed Models Analysis||Difference calculated as Tio R2.5 minus placebo|||0.038|-0.333|0.1200
82434679|NCT01257230|164580016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.092||0.5589|TWO_SIDED|95.0|-0.235|0.127|||Mixed Models Analysis||Difference calculated as Tio R5 minus placebo|||0.127|-0.235|0.5589
82434680|NCT01257230|164580018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.4023|TWO_SIDED|95.0|0.21|1.87|||Regression, Cox|||||1.87|0.21|0.4023
82434681|NCT01257230|164580018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.23||||0.062|TWO_SIDED|95.0|0.05|1.08|||Regression, Cox|||||1.08|0.05|0.0620
82434682|NCT01257230|164580019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.87|TWO_SIDED|95.0|0.65|1.66|||Regression, Cox|||||1.66|0.65|0.8700
82434683|NCT01257230|164580019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.4198|TWO_SIDED|95.0|0.51|1.33|||Regression, Cox|||||1.33|0.51|0.4198
82434684|NCT01825512|164580039|NON_INFERIORITY|Deferiprone was declared non inferior to Deferasirox if the lower limit of the 95% confidence interval for the difference in the proportion of successful chelation in the two groups is above -12.5%.|Treatment success rate|-12.5|||||ONE_SIDED|95.0|-12.5||||||||||-12.5|
82434685|NCT01825512|164580040|OTHER|GLM model|Mean Difference (Final Values)|2.128|STANDARD_ERROR_OF_MEAN|1.18||0.074|TWO_SIDED|95.0|-0.213|4.468|||ANCOVA|||||4.468|-0.213|0.074
82434686|NCT01825512|164580041|OTHER|GLM Analysis|Mean Difference (Final Values)|-0.633|STANDARD_ERROR_OF_MEAN|1.741||0.717|TWO_SIDED|95.0|-4.085|2.819|||ANCOVA|||||2.819|-4.085|0.717
82434687|NCT01825512|164580042|NON_INFERIORITY|Non inferiority of Deferiprone to Deferasirox is tested considering a non-inferiority margin of 400 ng/mL.|Mean Difference (Final Values)|0.601|STANDARD_ERROR_OF_MEAN|164.734||0.997|TWO_SIDED|95.0|-323.58|324.781|||GLM|||||324.781|-323.580|0.997
82434688|NCT02466425|164580043|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-9.9|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|-13.0|-6.8|||Mixed-effects model for repeated measure||Between treatment groups|||-6.8|-13.0|<0.001
82434689|NCT03231917|164580051|OTHER|||||||0.48|||||||Chi-squared|||||||0.48
82434690|NCT01901289|164580057|OTHER||Cumulative Probability|0.927|STANDARD_ERROR_OF_MEAN|0.019|||TWO_SIDED|95.0|0.881|0.956|||||The estimate of the variance of the Kaplan-Meier estimate used the methods described by Peto et al.|||0.956|0.881|
82434691|NCT01813058|164580059|SUPERIORITY||Mean Difference (Final Values)|195.0|||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82434692|NCT01932372|164580072|OTHER||Incidence rate ratio (unadjusted)|4.85|||||TWO_SIDED|95.0|3.34|7.03||||||||7.03|3.34|
82434693|NCT01932372|164580072|OTHER||Hazard ratio (unadjusted)|4.8|||||TWO_SIDED|95.0|3.31|6.96||||||||6.96|3.31|
82434694|NCT01932372|164580072|OTHER||Hazard ratio (adjusted 1)|2.07|||||TWO_SIDED|95.0|0.95|4.51||||||||4.51|0.95|
82434695|NCT01932372|164580072|OTHER||Hazard ratio (adjusted 2)|3.81|||||TWO_SIDED|95.0|2.24|6.47||||||||6.47|2.24|
82434696|NCT01932372|164580072|OTHER||Hazard ratio (adjusted 3)|3.55|||||TWO_SIDED|95.0|2.08|6.09||||||||6.09|2.08|
82434697|NCT01932372|164580072|OTHER||Hazard ratio (adjusted 4)|3.8|||||TWO_SIDED|95.0|2.31|6.25||||||||6.25|2.31|
82434698|NCT01932372|164580073|OTHER||Incidence rate ratio (unadjusted)|1.6|||||TWO_SIDED|95.0|1.16|2.19||||||||2.19|1.16|
82434699|NCT01932372|164580073|OTHER||Hazard ratio (unadjusted)|1.55|||||TWO_SIDED|95.0|1.12|2.13||||||||2.13|1.12|
82434700|NCT01932372|164580073|OTHER||Hazard ratio (adjusted 1)|1.86|||||TWO_SIDED|95.0|1.16|2.99||||||||2.99|1.16|
82434701|NCT01932372|164580073|OTHER||Hazard ratio (adjusted 2)|1.61|||||TWO_SIDED|95.0|1.06|2.43||||||||2.43|1.06|
82434702|NCT01932372|164580073|OTHER||Hazard ratio (adjusted 3)|1.53|||||TWO_SIDED|95.0|1.0|2.35||||||||2.35|1.00|
82434703|NCT01932372|164580073|OTHER||Hazard ratio (adjusted 4)|1.51|||||TWO_SIDED|95.0|1.03|2.22||||||||2.22|1.03|
82434704|NCT01932372|164580074|OTHER||Mortality rate ratio (unadjusted)|3.39|||||TWO_SIDED|95.0|1.99|5.78||||||||5.78|1.99|
82434705|NCT01932372|164580074|OTHER||Hazard ratio (unadjusted)|3.29|||||TWO_SIDED|95.0|1.93|5.61||||||||5.61|1.93|
82434706|NCT05352412|164580077|OTHER|Mann-Whitney U|Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.32
82434707|NCT05352412|164580077|OTHER|Mann-Whitney U|Mann-Whitney U|0.39||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline survey compared with immediate follow-up survey||||0.39
82434708|NCT05352412|164580077|OTHER|Mann-Whitney U|Mann-Whitney U|0.21||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared with baseline survey||||0.21
82434709|NCT05352412|164580077|OTHER||Mann-Whitney U|0.19||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90 days post-discharge compared with baseline survey||||0.19
82434710|NCT05352412|164580077|OTHER||Mann-Whitney U|0.38||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline survey versus immediate follow-up||||0.38
82434711|NCT05352412|164580077|OTHER||Mann-Whitney U|0.25||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared with baseline survey||||0.25
82434712|NCT05352412|164580077|OTHER||Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90 days post-discharge compared with baseline survey||||0.07
82453807|NCT00286429|164613477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.556|TWO_SIDED|95.0|-0.8|0.43||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 12. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.43|-0.80|0.556
82539086|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.599|STANDARD_ERROR_OF_MEAN|0.88||0.0696|TWO_SIDED|95.0|-3.327|0.128|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.128|-3.327|0.0696
82539087|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.863||0.0642|TWO_SIDED|95.0|-3.294|0.094|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.094|-3.294|0.0642
82539088|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.83|STANDARD_ERROR_OF_MEAN|1.007||0.0695|TWO_SIDED|95.0|-3.807|0.146|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.146|-3.807|0.0695
82539089|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.493|STANDARD_ERROR_OF_MEAN|1.038||0.6349|TWO_SIDED|95.0|-2.532|1.545|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.545|-2.532|0.6349
82649122|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.33|||||TWO_SIDED|95.0|-91.87|25.2||||||For change in ascites at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||25.20|-91.87|
82434713|NCT05352412|164580077|OTHER||Mann-Whitney U|0.03||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up between the two arms||||0.03
82434714|NCT05352412|164580077|OTHER||Mann-Whitney U|0.65||||0.65|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge comparison between the 2 arms||||0.65
82434715|NCT05352412|164580077|OTHER||Mann-Whitney U|0.97||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-days post discharge compared between the 2 arms||||0.97
82434716|NCT05352412|164580078|OTHER||Mann-Whitney U|0.77||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline comparison between the 2 arms||||0.77
82434717|NCT05352412|164580078|OTHER||Mann-Whitney U|0.85||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared with baseline survey||||0.85
82434718|NCT05352412|164580078|OTHER||Mann-Whitney U|0.38||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2-week post-discharge compared with baseline survey||||0.38
82434719|NCT05352412|164580078|OTHER||Mann-Whitney U|0.21||||0.21|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post discharge compared with baseline survey||||0.21
82434720|NCT05352412|164580078|OTHER||Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared with baseline survey||||0.32
82434721|NCT05352412|164580078|OTHER||Mann-Whitney U|0.09||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 week post-discharge compared with baseline survey||||0.09
82434722|NCT05352412|164580078|OTHER||Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post-discharge compared with baseline survey||||0.07
82434723|NCT05352412|164580078|OTHER||Mann-Whitney U|0.26||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2 weeks post-discharge compared between the 2 arms||||0.26
82434724|NCT05352412|164580078|OTHER||Mann-Whitney U|0.69||||0.69|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up compared between the 2 arms||||0.69
82434725|NCT05352412|164580078|OTHER||Mann-Whitney U|0.32||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||90-day post-discharge compared between the 2 arms||||0.32
82434726|NCT05352412|164580082|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82434727|NCT05352412|164580082|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82434728|NCT05352412|164580082|OTHER|Mann-Whitney U|Mann-Whitney U|0.12||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.12
82434729|NCT05352412|164580082|OTHER|Mann-Whitney U|Mann-Whitney U|0.12||||0.12|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.12
82434730|NCT05352412|164580083|OTHER|Mann-Whitney U|Mann-Whitney U|0.48||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.48
82434731|NCT05352412|164580083|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82434732|NCT05352412|164580083|OTHER|Mann-Whitney U|Mann-Whitney U|0.17||||0.17|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.17
82434733|NCT05352412|164580083|OTHER|Mann-Whitney U|Mann-Whitney U|0.42||||0.42|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.42
82434734|NCT05352412|164580084|OTHER|Mann-Whitney U|Mann-Whitney U|1.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline||||1.00
82434735|NCT05352412|164580084|OTHER|Mann-Whitney U|Mann-Whitney U|0.11||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up||||0.11
82434736|NCT05352412|164580084|OTHER|Mann-Whitney U|Mann-Whitney U|0.89||||0.89|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up||||0.89
82434737|NCT05352412|164580084|OTHER|Mann-Whitney U|Mann-Whitney U|0.55||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up||||0.55
82434738|NCT05352412|164580085|OTHER|Mann-Whitney U|Mann-Whitney U|0.66||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.66
82434739|NCT05352412|164580085|OTHER|Mann-Whitney U|Mann-Whitney U|0.2||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up post randomization||||0.20
82434740|NCT05352412|164580085|OTHER|Mann-Whitney U|Mann-Whitney U|0.85||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline versus immediate follow-up post randomization||||0.85
82434741|NCT05352412|164580085|OTHER|Mann-Whitney U|Mann-Whitney U|0.07||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Immediate follow-up post randomization||||0.07
82434742|NCT00673231|164580090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.0726|<|0.0001|TWO_SIDED|95.0|-0.59|-0.31||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.31|-0.59|<0.0001
82434743|NCT00673231|164580090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.0718|<|0.0001|TWO_SIDED|95.0|-0.66|-0.38||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.38|-0.66|<0.0001
82649123|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|||||TWO_SIDED|95.0|-41.89|97.45||||||For change in indigestion at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||97.45|-41.89|
82434744|NCT00673231|164580090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.0733|<|0.0001|TWO_SIDED|95.0|-0.74|-0.45||significant at alpha=0.019 (2-sided) applying Dunnett's adjustment. A hierarchical closed testing procedure was used to control the Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.019 applying Dunnett's adjustment, two-sided)||-0.45|-0.74|<0.0001
82434745|NCT00673231|164580091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.256||0.0001|TWO_SIDED|95.0|-1.5|-0.49||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.49|-1.50|0.0001
82434746|NCT00673231|164580091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2523|<|0.0001|TWO_SIDED|95.0|-1.5|-0.5||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-0.50|-1.50|<0.0001
82434747|NCT00673231|164580091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.2578|<|0.0001|TWO_SIDED|95.0|-2.19|-1.18||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-1.18|-2.19|<0.0001
82434748|NCT00673231|164580092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.87|STANDARD_ERROR_OF_MEAN|1.3195|<|0.0001|TWO_SIDED|95.0|-9.46|-4.28||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-4.28|-9.46|<0.0001
82434749|NCT00673231|164580092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.69|STANDARD_ERROR_OF_MEAN|1.3045|<|0.0001|TWO_SIDED|95.0|-8.25|-3.13||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-3.13|-8.25|<0.0001
82434750|NCT00673231|164580092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.3286|<|0.0001|TWO_SIDED|95.0|-8.84|-3.63||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-3.63|-8.84|<0.0001
82434751|NCT00673231|164580093|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.2|STANDARD_ERROR_OF_MEAN|3.536||0.0427|TWO_SIDED|95.0|0.2|14.1||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||14.1|0.2|0.0427
82434752|NCT00673231|164580093|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.8|STANDARD_ERROR_OF_MEAN|3.434||0.0903|TWO_SIDED|95.0|-0.9|12.5||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||12.5|-0.9|0.0903
82539090|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.176|STANDARD_ERROR_OF_MEAN|0.88||0.1818|TWO_SIDED|95.0|-2.903|0.551|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.551|-2.903|0.1818
82453808|NCT00286429|164613478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.586|TWO_SIDED|95.0|-0.81|0.46||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.46|-0.81|0.586
82539091|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.268|STANDARD_ERROR_OF_MEAN|0.862||0.1421|TWO_SIDED|95.0|-2.961|0.426|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.426|-2.961|0.1421
82434753|NCT00673231|164580093|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.7|STANDARD_ERROR_OF_MEAN|3.634||0.0166|TWO_SIDED|95.0|1.6|15.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|Regression, Logistic|Methodology of Zhang, Tsiatis \& Davidian and Davidian, Tsiatis, Zhang \& Lu, adjustment for stratum (other oral anti-diab med use) and baseline value.||H0: proportion(treat) minus proportion(placebo) = 0 versus the alternative HA: proportion(treat) minus proportion(placebo) =/= 0||15.8|1.6|0.0166
82434754|NCT00673231|164580094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.8|STANDARD_ERROR_OF_MEAN|4.684||0.0008|TWO_SIDED|95.0|-25.0|-6.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-6.6|-25.0|0.0008
82434755|NCT00673231|164580094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|4.616|||TWO_SIDED|95.0|-31.2|-13.1||Not significant. Hierarchical closed testing procedure within treatment group stopped at previous endpoint.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-13.1|-31.2|
82434756|NCT00673231|164580094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.0|STANDARD_ERROR_OF_MEAN|4.718|<|0.0001|TWO_SIDED|95.0|-34.3|-15.8||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a hierarchical closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) and stratum (other oral anti-diabetic med use) as effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-15.8|-34.3|<0.0001
82434757|NCT00810771|164580097|SUPERIORITY_OR_OTHER|||||||0.873|TWO_SIDED||||||Chi-squared|||||||0.873
82434758|NCT00810771|164580098|SUPERIORITY_OR_OTHER|||||||0.671|TWO_SIDED||||||Chi-squared|||||||0.671
82434759|NCT00810771|164580099|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Chi-squared|||||||0.002
82434760|NCT00810771|164580100|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||Chi-squared|||||||0.186
82434761|NCT00810771|164580101|SUPERIORITY_OR_OTHER|||||||0.576|TWO_SIDED||||||Chi-squared|||||||0.576
82434762|NCT00810771|164580102|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Chi-squared|||||||0.35
82434763|NCT03594747|164580103|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.0001|TWO_SIDED|95.0|0.37|0.74|||One-sided stratified log-rank test|||||0.74|0.37|0.0001
82434764|NCT03594747|164580103|SUPERIORITY||Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.67|||One-sided stratified log-rank test|||||0.67|0.33|<0.0001
82434765|NCT03594747|164580104|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.32|0.61||||||||0.61|0.32|
82539092|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.898|STANDARD_ERROR_OF_MEAN|1.006||0.3726|TWO_SIDED|95.0|-2.874|1.078|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.078|-2.874|0.3726
82434766|NCT03594747|164580104|SUPERIORITY||Hazard Ratio (HR)|0.42|||||TWO_SIDED|95.0|0.3|0.59||||||||0.59|0.30|
82434767|NCT02907216|164580115|NON_INFERIORITY|Criteria for non-inferiority: The Lower Limit (LL) of the standardised asymptotic 95% Confidence Interval (CI) on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 0.1 IU/mL for anti-D antibodies should be ≥ -10%.|Difference-Seroprotective concentration|0.0|||||TWO_SIDED|95.0|-2.66|2.74|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-D antibody concentration ≥ 0.1 IU/mL.||2.74|-2.66|
82434768|NCT02907216|164580115|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 0.1 IU/mL for anti-T antibodies should be ≥ -10%.|Difference-Seroprotective concentration|-0.69|||||TWO_SIDED|95.0|-4.39|2.71|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-T antibody concentration ≥ 0.1 IU/mL.||2.71|-4.39|
82434769|NCT02907216|164580116|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 10 IU/mL for anti-PT antibodies should be ≥ -10%.|Difference-Seroprotective concentration|2.99|||||TWO_SIDED|95.0|-2.7|9.12|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-PT antibody concentration ≥ 10 IU/mL.||9.12|-2.7|
82434770|NCT02907216|164580116|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective concentrations ≥ 10 IU/mL for anti-FHA antibodies should be ≥ -10%.|Difference-Seroprotective concentration|0.0|||||TWO_SIDED|95.0|-2.66|2.72|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-FHA antibody concentration ≥ 10 IU/mL.||2.72|-2.66|
82434771|NCT02907216|164580117|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 1 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.0|||||TWO_SIDED|95.0|-2.68|2.74|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 1 seroprotective titres ≥ 8 ED50.||2.74|-2.68|
82434772|NCT02907216|164580117|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 2 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.0|||||TWO_SIDED|95.0|-2.92|2.95|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 2 seroprotective titres ≥ 8 ED50.||2.95|-2.92|
82434773|NCT02907216|164580117|NON_INFERIORITY|Criteria for non-inferiority: The LL of the standardised asymptotic 95% CI on the difference (Co-administration Group minus Staggered Group) in the percentage of subjects with seroprotective titers ≥ 8 ED50 for anti-polio 3 antibodies should be ≥ -10%.|Difference in seroprotective titer|0.81|||||TWO_SIDED|95.0|-2.04|4.47|||||The 2-sided asymptotic standardised 95% CIs for the difference between groups in terms of percentage of subjects with antibody concentration ≥ to the pre-defined cut-off.|Difference between Co-administration Group minus Staggered Group in terms of percentage of subjects with anti-polio 3 seroprotective titres ≥ 8 ED50.||4.47|-2.04|
82434774|NCT03479541|164580151|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.097||||0.013|TWO_SIDED|95.0|-0.173|-0.02||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.020|-0.173|0.013
82434775|NCT03479541|164580152|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.073||||0.013|TWO_SIDED|95.0|-0.13|-0.016||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.016|-0.130|0.013
82434776|NCT03479541|164580153|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.098||||0.01|TWO_SIDED|95.0|0.024|0.173||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.173|0.024|0.010
82434777|NCT03479541|164580154|OTHER|||||||0.5158|||||||Wilcoxon (Mann-Whitney)|||||||0.5158
82434778|NCT03479541|164580155|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0404||||0.45|TWO_SIDED|95.0|-0.0648|0.146||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.146|-0.0648|0.450
82434779|NCT03479541|164580156|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time point (pre-physical therapy and post-physical therapy), and group x time point injury interaction with random intercepts, covariates (age, gender, Initial SCAT symptom severity total score, and days since injury before physical therapy), and inverse probability weights. Later Physical Therapy Group and pre-physical therapy time point served as the reference. Values were log-transformed for model assumptions.|Slope|0.05353||||0.6039|TWO_SIDED|95.0|-0.1503|0.2574||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change from pre-physical therapy to post-physical therapy time points (the interaction effect of the mixed model analysis).|Analysis for Horizontal DVA Lines Lost||0.2574|-0.1503|0.6039
82499618|NCT01571427|164689937|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.33||0.98|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.98
82577528|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|-0.6|||||TWO_SIDED|95.0|-1.8|0.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Tetanus||0.2|-1.8|
82434780|NCT03479541|164580156|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time point (pre-physical therapy and post-physical therapy), and group x time point injury interaction with random intercepts, covariates (age, gender, Initial SCAT symptom severity total score, and days since injury before physical therapy), and inverse probability weights. Later Physical Therapy Group and pre-physical therapy time point served as the references. Values were log-transformed for model assumptions.|Slope|-0.235||||0.0414|TWO_SIDED|95.0|-0.461|-0.0093||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change from pre-physical therapy to post-physical therapy time points (the interaction effect of the mixed model analysis).|Analysis for Vertical DVA Lines Lost||-0.0093|-0.461|0.0414
82434781|NCT03479541|164580157|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.028||||0.387|TWO_SIDED|95.0|-0.09|0.035||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.035|-0.090|0.387
82434782|NCT03479541|164580158|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.008||||0.135|TWO_SIDED|95.0|-0.003|0.019||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.019|-0.003|0.135
82434783|NCT03479541|164580159|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0107||||0.406|TWO_SIDED|95.0|-0.036|0.0146||a priori threshold p \< 0.05|Mixed Models Analysis||||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|0.0146|-0.0360|0.406
82434784|NCT03479541|164580160|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00391||||0.083|TWO_SIDED|95.0|-0.00052|0.00835||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.00835|-0.00052|0.083
82434785|NCT03479541|164580161|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.003||||0.24|TWO_SIDED|95.0|-0.007|0.002||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for EcFi condition||0.002|-0.007|0.240
82434786|NCT03479541|164580161|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.005||||0.003|TWO_SIDED|95.0|-0.009|-0.002||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for EcFo condition||-0.002|-0.009|0.003
82453809|NCT00286429|164613478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.404|TWO_SIDED|95.0|-0.91|0.37||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 20. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.37|-0.91|0.404
82453810|NCT00286429|164613479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.874|TWO_SIDED|95.0|-0.62|0.72||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.72|-0.62|0.874
82577529|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|-2.3|||||TWO_SIDED|95.0|-5.3|0.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|PT||0.7|-5.3|
82499619|NCT01571427|164689937|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|1.63||0.96|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: Among CDR 0 (n=49)||||0.96
82649124|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.67|||||TWO_SIDED|95.0|-34.03|67.36||||||For change in flatulence at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||67.36|-34.03|
82434787|NCT03479541|164580162|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0112||||0.042|TWO_SIDED|95.0|-0.0219|-0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Average Lap Time||-0.0004|-0.0219|0.042
82434788|NCT03479541|164580162|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0111||||0.0311|TWO_SIDED|95.0|-0.0211|-0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop Average Lap Time||-0.0010|-0.0211|0.0311
82434789|NCT03479541|164580163|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00029||||0.3226|TWO_SIDED|95.0|-0.0003|0.00087||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Gait Speed||0.00087|-0.0003|0.3226
82434790|NCT03479541|164580163|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00035||||0.2218|TWO_SIDED|95.0|-0.0002|0.0009||a priori threshold p \< 0.05|Mixed Models Analysis|||Analysis for Auditory Stroop Gait Speed|The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|0.00090|-0.0002|0.2218
82434791|NCT03479541|164580164|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.161||||0.0742|TWO_SIDED|95.0|-0.0159|0.338||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task 180 Degree Turn Velocity||0.338|-0.0159|0.0742
82434792|NCT03479541|164580164|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.217||||0.0121|TWO_SIDED|95.0|0.048|0.385||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop 180 Degree Turn Velocity||0.385|0.0480|0.0121
82434793|NCT03479541|164580165|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.00063||||0.8906|TWO_SIDED|95.0|-0.0084|0.00961||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Single Task Percentage of Double Support Time of Gait Cycle||0.00961|-0.0084|0.8906
82434794|NCT03479541|164580165|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.001||||0.8447|TWO_SIDED|95.0|-0.0107|0.00874||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for Auditory Stroop Percentage of Double Support Time of Gait Cycle||0.00874|-0.0107|0.8447
82453811|NCT00286429|164613479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.948|TWO_SIDED|95.0|-0.7|0.65||No multiplicity adjustments.|ANCOVA|ANCOVA included treatment, geographic region, and baseline metformin regimen as class variables, and baseline covariates (insulin dose and weight).|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in body weight at Week 26. The treatment effect was evaluated as a contrast of each active dose versus placebo and was evaluated inferentially with a 2-sided t test at the 0.05 significance level.||0.65|-0.70|0.948
82539093|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.701|STANDARD_ERROR_OF_MEAN|1.038||0.4995|TWO_SIDED|95.0|-2.739|1.337|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.337|-2.739|0.4995
82649125|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-100.19|116.86||||||For change in cachexia at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||116.86|-100.19|
82453812|NCT01973413|164613480|NON_INFERIORITY_OR_EQUIVALENCE|Significance level of 0.05, 90% power, required 48 nights of OCL and 48 control nights to detect a 20% improvement.|||||=|0.037|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||=0.037
82453813|NCT01973413|164613481|SUPERIORITY_OR_OTHER||||||=|0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||=0.340
82453814|NCT01746225|164613483|SUPERIORITY|||||||0.12||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||0.12
82453815|NCT01746225|164613483|SUPERIORITY|||||||0.03||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||.03
82453816|NCT01746225|164613483|SUPERIORITY|||||||0.2||||||Not adjusted for multiple comparisons; One-sided .05 alpha-level test|Log Rank|One-sided test||For each arm separately, PFS was compared to the historic PFS of first-line docetaxel using a one-sample one-sided log-rank test, of the null hypothesis, H0: median PFS≤7 months vs. H1: median PFS\>7 months.||||.20
82453817|NCT03401671|164613494|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|1.0229|||||TWO_SIDED|90.0|0.8473|1.2349||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.2349|0.8473|
82453818|NCT03401671|164613496|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|0.9324|||||TWO_SIDED|90.0|0.8016|1.0846||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.0846|0.8016|
82434795|NCT03479541|164580166|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0003||||0.013|TWO_SIDED|95.0|-0.0005|-0.0001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Visual Weight (VS/EO)||-0.0001|-0.0005|0.013
82434796|NCT03479541|164580166|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0001||||0.78|TWO_SIDED|95.0|-0.0003|0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Vestibular Weight (SS+VS/EO)||0.0004|-0.0003|0.780
82453819|NCT03401671|164613497|OTHER|Analysis was performed for estimation of least square means only. Descriptive statistical analysis was the main analysis.|Ratio of Geometric least squares Means|0.9318|||||TWO_SIDED|90.0|0.8005|1.0846||||||An analysis of variance was performed with the natural log-transformed PK parameters as the dependent variable and ethnic group as a fixed effect.||1.0846|0.8005|
82453820|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for each serotype 1, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.96|||||TWO_SIDED|95.0|0.88|1.05||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.05|0.88|
82453821|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.75|||||TWO_SIDED|95.0|0.69|0.81||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.81|0.69|
82453822|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.26|0.96|
82453823|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|1.41|||||TWO_SIDED|95.0|1.18|1.69||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.69|1.18|
82453824|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|1.09|||||TWO_SIDED|95.0|0.99|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.20|0.99|
82453825|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|1.08|||||TWO_SIDED|95.0|0.98|1.18||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.18|0.98|
82434797|NCT03479541|164580167|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.235|||<|0.001|TWO_SIDED|95.0|-0.361|-0.11||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Time Delay (VS/EO)||-0.110|-0.361|<0.001
82434798|NCT03479541|164580167|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.142||||0.002|TWO_SIDED|95.0|-0.233|-0.052||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Time Delay (SS+VS/EO)||-0.052|-0.233|0.002
82434799|NCT03479541|164580168|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0003||||0.237|TWO_SIDED|95.0|-0.0002|0.0007||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Stiffness (VS/EO)||0.0007|-0.0002|0.237
82434800|NCT03479541|164580168|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0008||||0.002|TWO_SIDED|95.0|0.0003|0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Stiffness (SS+VS/EO)||0.001|0.0003|0.002
82434801|NCT03479541|164580169|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0001||||0.247|TWO_SIDED|95.0|-0.0001|0.0004||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Damping (VS/EO)||0.0004|-0.0001|0.247
82453826|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.07|0.81|
82434802|NCT03479541|164580169|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|0.0004||||0.008|TWO_SIDED|95.0|0.0001|0.0007||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Normalized Damping (SS+VSEO)||0.0007|0.0001|0.008
82434803|NCT03479541|164580170|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.004||||0.003|TWO_SIDED|95.0|-0.006|-0.001||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Evoked Center of Mass (CoM) Sway (VS/EO)||-0.001|-0.006|0.003
82434804|NCT03479541|164580170|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.001||||0.004|TWO_SIDED|95.0|-0.003|-0.0005||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Evoked CoM Sway (SS+VS/EO)||-0.0005|-0.003|0.004
82434805|NCT03479541|164580171|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.004||||0.031|TWO_SIDED|95.0|-0.007|-0.0003||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Internal Sensory Noise (VS/EO)||-0.0003|-0.007|0.031
82649126|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.93|||||TWO_SIDED|95.0|-53.73|105.58||||||For change in side effects at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||105.58|-53.73|
82649127|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-117.07|117.07||||||For change in ability to plan future at Cycle 10 Day 1, mean change difference was used to compare the two treatment groups.||117.07|-117.07|
82434806|NCT03479541|164580171|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.003||||0.003|TWO_SIDED|95.0|-0.005|-0.0003||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|Analysis for CSMI Outcome - Internal Sensory Noise (SS+VS/EO)||-0.0003|-0.005|0.003
82434807|NCT03479541|164580172|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age and gender), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0321||||0.3221|TWO_SIDED|95.0|-0.0957|0.0315||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.0315|-0.0957|0.3221
82434808|NCT03479541|164580173|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0136||||0.336|TWO_SIDED|95.0|-0.0413|0.0142||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||0.0142|-0.0413|0.336
82434809|NCT03479541|164580174|OTHER|Linear mixed effect model containing fixed effects for group (earlier or later), time since injury, and group x time since injury interaction with random intercepts, covariates (age, gender, and Initial SCAT symptom severity total score), and inverse probability weights. Later Physical Therapy Group served as the reference.|Slope|-0.0406||||0.033|TWO_SIDED|95.0|-0.0779|-0.0032||a priori threshold p \< 0.05|Mixed Models Analysis||The slope estimate is the group difference (Early Physical Therapy Group - Later Physical Therapy Group) in change per day per day (the interaction effect of the mixed model analysis).|||-0.0032|-0.0779|0.033
82434810|NCT00107900|164580176|SUPERIORITY_OR_OTHER|||||||0.238|TWO_SIDED||||||Fisher Exact|||||||0.238
82434811|NCT02374060|164580180|SUPERIORITY||Ratio of the proportion of BL|0.79|||<|0.0001|TWO_SIDED|99.87|0.65|0.96||Two sided type I error threshold was 0.00132 since recruitment was halted after the single pre-planned interim analysis|mixed effects model||Ratio of intravitreal over periocular|||.96|.65|<0.0001
82434812|NCT02374060|164580180|SUPERIORITY||Ratio of the proportion of BL|0.69|||<|0.0001|TWO_SIDED|99.87|0.56|0.86||the 2 sided type 1 error threshold was 0.000132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||ratio of dexamethasone over periocular|||0.86|0.56|<0.0001
82434813|NCT02374060|164580180|NON_INFERIORITY|The non inferiority margin was 1.16|Ratio of the proportion of BL|0.88|||||TWO_SIDED|99.87|0.71|1.08|||||A mixed effects model was used to create the confidence interval for testing non-inferiority. The direction is the ratio of dexamethasone over intravitreal|||1.08|.71|
82434814|NCT02374060|164580181|SUPERIORITY||Ratio of the proportion of BL|0.95||||0.35|TWO_SIDED|99.87|0.77|1.16||Two sided type I error threshold was 0.00132 since recruitment was halted after the single Two sided type I error threshold was 0.00132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||Ratio of intravitreal over periocular|||1.16|0.77|0.35
82453827|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.04|0.83|
82434815|NCT02374060|164580181|SUPERIORITY||Ratio of the proportion of BL|0.89||||0.07|TWO_SIDED|99.87|0.72|1.1||the 2 sided type 1 error threshold was 0.000132 since recruitment was halted after the single preplanned interim analysis|mixed effects model||ratio of dexamethasone over periocular|||1.10|0.72|0.07
82434816|NCT02374060|164580181|NON_INFERIORITY|The non inferiority margin was 1.16|Ratio of the proportion of BL|0.94|||||TWO_SIDED|99.87|0.77|1.16|||||A mixed effects model was used to create the confidence interval for testing non-inferiority. The direction is the ratio of dexamethasone over intravitreal|||1.16|0.77|
82434817|NCT02374060|164580182|SUPERIORITY||Difference in proportion|0.39|||<|0.0001|TWO_SIDED|95.0|0.24|0.53|||mixed effects model||Intravitreal - periocular|||0.53|0.24|<0.0001
82434818|NCT02374060|164580182|SUPERIORITY||Difference in proportion|0.44|||<|0.0001|TWO_SIDED|95.0|0.29|0.59|||mixed effects model||Dexamethasone - periocular|||0.59|0.29|<0.0001
82434819|NCT02374060|164580182|SUPERIORITY||Difference in proportion|0.05||||0.45|TWO_SIDED|95.0|-0.09|0.19|||mixed effects model||Dexamethasone - intravitreal|||0.19|-0.09|0.45
82434820|NCT02374060|164580183|SUPERIORITY||Difference in proportion|0.12||||0.1|TWO_SIDED|95.0|-0.03|0.27|||mixed effects model||Intravitreal - Periocular|||0.27|-0.03|0.10
82434821|NCT02374060|164580183|SUPERIORITY||Difference in proportion|0.12||||0.11|TWO_SIDED|95.0|-0.03|0.28|||mixed effects model||Dexamethasone - Periocular|||0.28|-0.03|0.11
82434822|NCT02374060|164580183|SUPERIORITY||Difference in proportion|0.002||||0.98|TWO_SIDED|95.0|-0.16|0.16|||mixed effects model||Dexamethasone - Intravitreal|||0.16|-0.16|0.98
82434823|NCT02374060|164580184|SUPERIORITY||Difference in proportion|0.27||||0.0005|TWO_SIDED|95.0|0.11|0.43|||mixed effects model||Intravitreal - periocular|||0.43|0.11|0.0005
82649128|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.89|||||TWO_SIDED|95.0|-221.53|249.31||||||For change in pancreatic pain at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||249.31|-221.53|
82434824|NCT02374060|164580184|SUPERIORITY||Difference in proportion|0.4|||<|0.0001|TWO_SIDED|95.0|0.25|0.56|||mixed effects model||Dexamethasone - periocular|||0.56|0.25|<0.0001
82434825|NCT02374060|164580184|SUPERIORITY||Difference in proportion|0.13||||0.12|TWO_SIDED|95.0|-0.04|0.3|||mixed effects model||Dexamethasone - intravitreal|||0.30|-0.04|0.12
82434826|NCT02374060|164580185|SUPERIORITY||Difference in proportion|0.004||||0.96|TWO_SIDED|95.0|-0.16|0.17|||mixed effects model||Intravitreal - periocular|||0.17|-0.16|0.96
82434827|NCT02374060|164580185|SUPERIORITY||Difference in proportion|0.06||||0.51|TWO_SIDED|95.0|-0.11|0.23|||mixed effects model||Dexamethasone - periocular|||0.23|-0.11|0.51
82434828|NCT02374060|164580185|SUPERIORITY||Difference in proportion|0.05||||0.54|TWO_SIDED|95.0|-0.12|0.22|||mixed effects model||Dexamethasone - intravitreal|||0.22|-0.12|0.54
82434829|NCT02374060|164580186|SUPERIORITY||Difference in mean change from BL|5.32||||0.003|TWO_SIDED|95.0|1.82|8.82|||mixed effects model||Intravitreal - periocular|||8.82|1.82|0.003
82434830|NCT02374060|164580186|SUPERIORITY||Difference in mean change from BL|5.16||||0.004|TWO_SIDED|95.0|1.6|8.72|||mixed effects model||Dexamethasone - periocular|||8.72|1.60|0.004
82434831|NCT02374060|164580186|SUPERIORITY||Difference in mean change from BL|-0.16||||0.93|TWO_SIDED|95.0|-3.67|3.34|||mixed effects model||Dexamethasone - intravitreal|||3.34|-3.67|0.93
82434832|NCT02374060|164580187|SUPERIORITY||Difference in mean change from BL|5.53||||0.013|TWO_SIDED|95.0|1.14|9.92|||mixed effects model||Intravitreal - periocular|||9.92|1.14|0.013
82434833|NCT02374060|164580187|SUPERIORITY||Difference in mean change from BL|5.14||||0.019|TWO_SIDED|95.0|0.84|9.44|||mixed effects model||Dexamethasone - periocular|||9.44|0.84|0.019
82434834|NCT02374060|164580187|SUPERIORITY||Difference in mean change from BL|-0.4||||0.84|TWO_SIDED|95.0|-4.16|3.37|||mixed effects model||Dexamethasone-intravitreal|||3.37|-4.16|0.84
82577530|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.2|||||TWO_SIDED|95.0|-2.6|2.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|FHA||2.9|-2.6|
82577531|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|1.6|||||TWO_SIDED|95.0|-0.9|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|PRN||4.2|-0.9|
82577532|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|1.1|||||TWO_SIDED|95.0|-1.1|4.0|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Hepatitis B||4.0|-1.1|
82577533|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC -13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 1||4.2|-4.6|
82577534|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 2||4.2|-4.6|
82577535|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-4.6|4.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Poliovirus Type 3||4.2|-4.6|
82577536|NCT04546425|164864250|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CIs for the percentage differences (20vPnC-13vPnC) was greater than -10%.|Percent difference|0.0|||||TWO_SIDED|95.0|-2.0|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnc - 13vPnC) expressed as a percentage.|Hib||2.2|-2.0|
82577537|NCT04546425|164864251|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.05|||||TWO_SIDED|95.0|0.79|1.42|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Measles||1.42|0.79|
82577538|NCT04546425|164864252|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.04|||||TWO_SIDED|95.0|0.76|1.44|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Mumps||1.44|0.76|
82434835|NCT02374060|164580191|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.1|TWO_SIDED|95.0|0.09|1.24|||Regression, Cox||Intravitreal/Periocular|||1.24|0.09|0.10
82434836|NCT02374060|164580191|SUPERIORITY||Hazard Ratio (HR)|0.46||||0.2|TWO_SIDED|95.0|0.14|1.5|||Regression, Cox||Dexamethasone/Periocular|||1.50|0.14|0.20
82434837|NCT02374060|164580191|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.62|TWO_SIDED|95.0|0.34|6.26|||Regression, Cox||Dexamethasone/Intravitreal|||6.26|0.34|0.62
82434838|NCT02374060|164580192|SUPERIORITY||Hazard Ratio (HR)|1.92||||0.11|TWO_SIDED|95.0|0.86|4.29|||Regression, Cox||Intravitreal/Periocular|||4.29|0.86|0.11
82434839|NCT02374060|164580192|SUPERIORITY||Hazard Ratio (HR)|2.85||||0.009|TWO_SIDED|95.0|1.3|6.28|||Regression, Cox||Dexamethasone/Intravitreal|||6.28|1.30|0.009
82434840|NCT02374060|164580192|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.3|TWO_SIDED|95.0|0.72|2.81|||Regression, Cox||Dexamethasone/intravitreal|||2.81|0.72|0.30
82434841|NCT02374060|164580193|SUPERIORITY||Hazard Ratio (HR)|1.83||||0.09|TWO_SIDED|95.0|0.91|3.65|||Regression, Cox||Intravitreal/periocular|||3.65|0.91|0.09
82434842|NCT02374060|164580193|SUPERIORITY||Hazard Ratio (HR)|2.52||||0.007|TWO_SIDED|95.0|1.29|4.91|||Regression, Cox||Dexamethasone/periocular|||4.91|1.29|0.007
82434843|NCT02374060|164580193|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.37|TWO_SIDED|95.0|0.72|2.43|||Regression, Cox||Dexamethasone/intravitreal|||2.43|0.72|0.37
82434844|NCT02374060|164580194|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.92|TWO_SIDED|95.0|0.28|4.01|||Regression, Cox||Intravitreal/Periocular|||4.01|0.28|0.92
82434845|NCT02374060|164580194|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.65|TWO_SIDED|95.0|0.16|3.11|||Regression, Cox||Dexamethasone/Periocular|||3.11|0.16|0.65
82434846|NCT02374060|164580194|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.53|TWO_SIDED|95.0|0.16|2.59|||Regression, Cox||Dexamthasone/Intravitreal|||2.59|0.16|0.53
82649129|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.56|||||TWO_SIDED|95.0|-260.62|271.74||||||For change in eating related items at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||271.74|-260.62|
82434847|NCT03088930|164580200|OTHER||Summary statistics|0.0|||||TWO_SIDED|||||||||Three subjects enrolled. No statistical analysis completed due to low accrual.|Three subjects enrolled. No statistical analysis completed due to low accrual.|||
82434848|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.4261|||||||t-test, 1 sided|||||||0.4261
82434849|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.4219|||||||t-test, 1 sided|||||||0.4219
82434850|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.1826|||||||t-test, 1 sided|||||||0.1826
82434851|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0090
82434852|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.3421|||||||t-test, 1 sided|||||||0.3421
82434853|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.01||||||Statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0100
82434854|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.2103|||||||t-test, 1 sided|||||||0.2103
82434855|NCT01018134|164580204|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 1 sided|||||||0.1200
82453828|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|0.84|||||TWO_SIDED|95.0|0.76|0.92||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.92|0.76|
82649130|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|66.67|||||TWO_SIDED|95.0|-152.41|285.75||||||For change in altered bowel habits at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||285.75|-152.41|
82434856|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.2631|||||||t-test, 1 sided|||||||0.2631
82434857|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.2968|||||||t-test, 1 sided|||||||0.2968
82434858|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.0186||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0186
82434859|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.0361||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0361
82434860|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.007||||||statistically significant difference between treatment groups|t-test, 1 sided|||||||0.0070
82434861|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.1583|||||||t-test, 1 sided|||||||0.1583
82434862|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.2078|||||||t-test, 1 sided|||||||0.2078
82453829|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 23F, Lot 1 and Lot 2 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.02|||||TWO_SIDED|95.0|0.91|1.15||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.15|0.91|
82649131|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|100.0|||||TWO_SIDED|95.0|-119.08|319.08||||||For change in jaundice at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||319.08|-119.08|
82434863|NCT01018134|164580205|SUPERIORITY_OR_OTHER|||||||0.2878|||||||t-test, 1 sided|||||||0.2878
82434864|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.2713|||||||Wilcoxon (Mann-Whitney)|||||||0.2713
82434865|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.2689|||||||Wilcoxon (Mann-Whitney)|||||||0.2689
82434866|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.0419|||||||Wilcoxon (Mann-Whitney)|||||||0.0419
82434867|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.0309|||||||Wilcoxon (Mann-Whitney)|||||||0.0309
82434868|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.1126|||||||Wilcoxon (Mann-Whitney)|||||||0.1126
82434869|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.0033|||||||Wilcoxon (Mann-Whitney)|||||||0.0033
82434870|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.4967|||||||Wilcoxon (Mann-Whitney)|||||||0.4967
82434871|NCT01018134|164580206|SUPERIORITY_OR_OTHER|||||||0.0749|||||||Wilcoxon (Mann-Whitney)|||||||0.0749
82434872|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.2442|||||||Wilcoxon (Mann-Whitney)|||||||0.2442
82434873|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.2664|||||||Wilcoxon (Mann-Whitney)|||||||0.2664
82434874|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.1328|||||||Wilcoxon (Mann-Whitney)|||||||0.1328
82434875|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.0528|||||||Wilcoxon (Mann-Whitney)|||||||0.0528
82434876|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.0297|||||||Wilcoxon (Mann-Whitney)|||||||0.0297
82434877|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.0093|||||||Wilcoxon (Mann-Whitney)|||||||0.0093
82434878|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||||||0.2230
82434879|NCT01018134|164580207|SUPERIORITY_OR_OTHER|||||||0.1924|||||||Wilcoxon (Mann-Whitney)|||||||0.1924
82434880|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.2397|||||||Wilcoxon (Mann-Whitney)|||||||0.2397
82434881|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.3794|||||||Wilcoxon (Mann-Whitney)|||||||0.3794
82434882|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.0383|||||||Wilcoxon (Mann-Whitney)|||||||0.0383
82434883|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.0154|||||||Wilcoxon (Mann-Whitney)|||||||0.0154
82434884|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.1892|||||||Wilcoxon (Mann-Whitney)|||||||0.1892
82434885|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.0010
82434886|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.0363|||||||Wilcoxon (Mann-Whitney)|||||||0.0363
82434887|NCT01018134|164580208|SUPERIORITY_OR_OTHER|||||||0.2162|||||||Wilcoxon (Mann-Whitney)|||||||0.2162
82434888|NCT01709422|164580224|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2||||0.05||95.0|||||Chi-squared|||||||0.05
82434889|NCT01709422|164580225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.05
82434890|NCT01005316|164580226|SUPERIORITY_OR_OTHER|||||||0.258|||||||Fisher Exact|||The p-value compares Cohort A: Non-Sensitized with Cohort B: Sensitized, Crossmatch Positive.||||0.2580
82434891|NCT01988662|164580292|NON_INFERIORITY_OR_EQUIVALENCE|"H0: There is no difference in the percent change in VEGF level after 3 months for patients with nAMD treated with ranibizumab compared to aflibercept.~HA: There is a difference in the percent change in VEGF level after 3 months for patients with nAMD treated with ranibizumab compared to aflibercept."|Mean Difference (Net)|62.57|STANDARD_ERROR_OF_MEAN|24.639||0.012|TWO_SIDED|95.0|13.96|111.17|||Mixed Models Analysis|||H0: μR = μA versus HA: μR ≠ μA||111.17|13.96|0.012
82434892|NCT01467037|164580318|SUPERIORITY_OR_OTHER||Adjusted OR|0.088|||||TWO_SIDED|95.0|0.02|0.384|||||Conditional logistic regression was used. Adjusted VE = (1 - adjusted OR) \*100|||0.384|0.020|
82434893|NCT01467037|164580318|SUPERIORITY_OR_OTHER||Adjusted OR|0.075|||||TWO_SIDED|95.0|0.018|0.307|||||Conditional logistic regression was used. Adjusted VE = (1 - adjusted OR) \*100|||0.307|0.018|
82577539|NCT04546425|164864253|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.83|||||TWO_SIDED|95.0|0.63|1.1|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Rubella||1.10|0.63|
82434894|NCT03831191|164580319|SUPERIORITY||Odds Ratio (OR)|0.55||||0.638|TWO_SIDED|95.0|0.04|6.81|||Regression, Logistic|||||6.81|0.04|0.638
82434895|NCT03831191|164580319|SUPERIORITY||Odds Ratio (OR)|0.69||||0.773|TWO_SIDED|95.0|0.05|8.76|||Regression, Logistic|||||8.76|0.05|0.773
82434896|NCT03831191|164580319|SUPERIORITY||Odds Ratio (OR)|0.58||||0.671|TWO_SIDED|95.0|0.05|7.26|||Regression, Logistic|||||7.26|0.05|0.671
82434897|NCT03831191|164580320|SUPERIORITY||Risk Difference (RD)|-4.0|||>|0.999|TWO_SIDED|95.0|-27.2|19.9|||Fisher Exact|||||19.9|-27.2|>0.999
82434898|NCT03831191|164580320|SUPERIORITY||Risk Difference (RD)|4.5|||>|0.999|TWO_SIDED|95.0|-20.7|30.8|||Fisher Exact|||||30.8|-20.7|>0.999
82434899|NCT03831191|164580320|SUPERIORITY||Risk Difference (RD)|-19.0||||0.107|TWO_SIDED|95.0|-40.0|0.2|||Fisher Exact|||||0.2|-40.0|0.107
82434900|NCT03831191|164580321|SUPERIORITY||Risk Difference (RD)|0.2|||>|0.999|TWO_SIDED|95.0|-18.1|19.3|||Fisher Exact|||||19.3|-18.1|>0.999
82434901|NCT03831191|164580321|SUPERIORITY||Risk Difference (RD)|-4.8|||>|0.999|TWO_SIDED|95.0|-22.7|14.1|||Fisher Exact|||||14.1|-22.7|>0.999
82434902|NCT03831191|164580321|SUPERIORITY||Risk Difference (RD)|-4.8|||>|0.999|TWO_SIDED|95.0|-22.7|11.2|||Fisher Exact|||||11.2|-22.7|>0.999
82434903|NCT03831191|164580322|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
82434904|NCT03831191|164580322|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
82434905|NCT03831191|164580322|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||||0.0|0.0|
82434906|NCT03831191|164580323|SUPERIORITY||Median Difference (Net)|6.55||||0.31|TWO_SIDED|95.0|-6.36|19.45|||Mixed Models Analysis|||||19.45|-6.36|0.310
82577540|NCT04546425|164864254|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|1.24|||||TWO_SIDED|95.0|0.98|1.57|||||GMR and 2-sided 95% CIs were calculated by exponentiating the mean differences of the logarithms of the concentrations (20vPnC - 13vPnC) and the corresponding CIs (based on the Student's t distribution).|Varicella||1.57|0.98|
82434907|NCT03831191|164580323|SUPERIORITY||Mean Difference (Net)|5.56||||0.393|TWO_SIDED|95.0|-7.5|18.63|||Mixed Models Analysis|||||18.63|-7.50|0.393
82434908|NCT03831191|164580323|SUPERIORITY||Mean Difference (Net)|3.59||||0.564|TWO_SIDED|95.0|-8.91|16.08|||Mixed Models Analysis|||||16.08|-8.91|0.564
82434909|NCT03831191|164580324|SUPERIORITY||Mean Difference (Net)|7.61||||0.356|TWO_SIDED|95.0|-8.82|24.05|||Mixed Models Analysis|||||24.05|-8.82|0.356
82434910|NCT03831191|164580324|SUPERIORITY||Mean Difference (Net)|2.33||||0.783|TWO_SIDED|95.0|-14.64|19.3|||Mixed Models Analysis|||||19.30|-14.64|0.783
82434911|NCT03831191|164580324|SUPERIORITY||Mean Difference (Net)|6.52||||0.414|TWO_SIDED|95.0|-9.4|22.43|||Mixed Models Analysis|||||22.43|-9.40|0.414
82434912|NCT01194089|164580327|SUPERIORITY_OR_OTHER|||||||0.828|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for the postoperative opioid use during the postanesthesia care unit (PACU) stay, using a one tailed P value.||||0.828
82434913|NCT01194089|164580327|SUPERIORITY_OR_OTHER|||||||0.752|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for the first 24 hours postoperatively, using a one tailed P value.||||0.752
82434914|NCT01194089|164580328|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Chi-squared|||Comparison between the arms for antiemetic medication use in the PACU.||||0.002
82434915|NCT01194089|164580329|SUPERIORITY_OR_OTHER|||||||0.354|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score on admission.||||0.354
82434916|NCT01194089|164580329|SUPERIORITY_OR_OTHER|||||||0.492|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at 30 minutes.||||0.492
82434917|NCT01194089|164580329|SUPERIORITY_OR_OTHER|||||||0.809|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at 60 minutes.||||0.809
82434918|NCT01194089|164580329|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The arms were compared for numeric pain score at discharge.||||0.381
82434919|NCT03070171|164580330|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-tz of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.46909|||||TWO_SIDED|90.0|101.44605|115.97833|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.97833|101.44605|
82434920|NCT03070171|164580331|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.9587|||||TWO_SIDED|90.0|101.78627|116.63654|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||116.63654|101.78627|
82649132|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.33|||||TWO_SIDED|95.0|-185.75|252.41||||||For change in body image at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||252.41|-185.75|
82434921|NCT03070171|164580332|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|107.61507|||||TWO_SIDED|90.0|100.61938|115.09714|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.09714|100.61938|
82577541|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-1.0|||||TWO_SIDED|95.0|-3.1|0.9|||||2-Sided 95% CIs are calculated using the Miettinen and Nurminen method for the difference in proportions, expressed as a percentage.|Serotype 1 \\||0.9|-3.1|
82434922|NCT03070171|164580333|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of Cmax of total dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|106.69566|||||TWO_SIDED|90.0|99.50139|114.4101|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||114.41010|99.50139|
82434923|NCT03070171|164580334|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-∞ of total dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|107.83324|||||TWO_SIDED|90.0|101.25584|114.8379|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||114.83790|101.25584|
82434924|NCT03070171|164580335|EQUIVALENCE|Bioequivalence was established by ensuring that the T/R ratio of AUC0-∞ of free dabigatran was within the pre-specified acceptance range (80%-125%).|T/R Ratio|108.43158|||||TWO_SIDED|90.0|101.87254|115.41292|||ANOVA||Confidence intervals were calculated based on the residual error from ANOVA. Ratio calculated as Dabigatran Etexilate Tablet (T) divided by Dabigatran Etexilate capsule (R).|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'.||115.41292|101.87254|
82434925|NCT02300558|164580338|OTHER|||||||0.0087|||||||paired t- test|||Based on a 2-sided, paired t-test ( α = 0.05), and a standard deviation (SD) of 30 msec, a sample size of 40 participants provided greater than 95% power assuming a difference in mean daytime QTcF interval (AUC0-6/6) as measured by standard 12-lead ECG between baseline and Week 24 of 20 msec. The null hypothesis was that the mean difference between the baseline and Week 24 mean daytime QTcF interval was zero.||||0.0087
82434926|NCT01471028|164580342|SUPERIORITY||Hazard Ratio (HR)|1.027||||0.904|TWO_SIDED|95.0|0.689|1.53|||Log Rank|||The primary endpoint was assessed using a Kaplan-Meier survival analysis of the Intent-to-treat (ITT) population utilizing a log-rank test.||1.53|0.689|0.904
82434927|NCT01471028|164580343|SUPERIORITY|||||||0.737|||||||Chi-squared|||||||0.737
82434928|NCT01471028|164580344|SUPERIORITY||Hazard Ratio (HR)|1.315||||0.168|TWO_SIDED|95.0|0.886|1.952|||Log Rank|||||1.952|0.886|0.168
82434929|NCT01471028|164580345|SUPERIORITY||Hazard Ratio (HR)|0.283||||0.007|TWO_SIDED|95.0|0.109|0.732|||Log Rank|||||0.732|0.109|0.007
82434930|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|317.612|STANDARD_ERROR_OF_MEAN|149.6694||0.034|TWO_SIDED|95.0|23.297|611.926|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||611.926|23.297|0.034
82434931|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|342.132|STANDARD_ERROR_OF_MEAN|150.0397||0.023|TWO_SIDED|95.0|47.09|637.175|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||637.175|47.090|0.023
82434932|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|61.972|STANDARD_ERROR_OF_MEAN|150.2717||0.68|TWO_SIDED|95.0|-233.527|357.471|||ANCOVA|||The p value was obtained from an analysis of covariance (ANCOVA) model that included treatment effect as the factor and baseline pain intensity as the covariate. This was the primary analysis of the primary efficacy parameter.||357.471|-233.527|0.680
82434933|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|503.008|STANDARD_ERROR_OF_MEAN|102.3149|<|0.001|TWO_SIDED|95.0|301.93|704.086|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||704.086|301.930|<0.001
82434934|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|511.357|STANDARD_ERROR_OF_MEAN|102.5851|<|0.001|TWO_SIDED|95.0|309.749|712.965|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||712.965|309.749|<0.001
82453830|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 1, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.89|||||TWO_SIDED|95.0|0.82|0.97||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.97|0.82|
82649133|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-82.04|170.93||||||For change in health care satisfaction at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||170.93|-82.04|
82649134|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in sexual functioning at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
82434935|NCT01626118|164580373|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|341.232|STANDARD_ERROR_OF_MEAN|102.7761|<|0.001|TWO_SIDED|95.0|139.249|543.215|||Mixed Models Analysis|||"The p value was obtained from a mixed-model repeated-measure (MMRM) model that used all available data from all subjects to derive an estimate of pain intensity scores for subjects following study withdrawal, rather than imputing a score for individual subjects. The MMRM analysis was a sensitivity analysis of the primary efficacy parameter."||543.215|139.249|<0.001
82434936|NCT01626118|164580374|SUPERIORITY_OR_OTHER|||||||0.191|||||||t-test, 2 sided|||||||0.191
82434937|NCT01626118|164580374|SUPERIORITY_OR_OTHER|||||||0.108|||||||t-test, 2 sided|||||||0.108
82434938|NCT01626118|164580374|SUPERIORITY_OR_OTHER|||||||0.461|||||||t-test, 2 sided|||||||0.461
82434939|NCT01626118|164580375|SUPERIORITY_OR_OTHER|||||||0.079|||||||t-test, 2 sided|||||||0.079
82434940|NCT01626118|164580375|SUPERIORITY_OR_OTHER|||||||0.041|||||||t-test, 2 sided|||||||0.041
82434941|NCT01626118|164580375|SUPERIORITY_OR_OTHER|||||||0.458|||||||t-test, 2 sided|||||||0.458
82434942|NCT01626118|164580376|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.020
82434943|NCT01626118|164580376|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||||||0.021
82434944|NCT01626118|164580376|SUPERIORITY_OR_OTHER|||||||0.441|||||||t-test, 2 sided|||||||0.441
82434945|NCT01626118|164580377|SUPERIORITY_OR_OTHER|||||||0.141|||||||t-test, 2 sided|||||||0.141
82539094|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.601|STANDARD_ERROR_OF_MEAN|0.879||0.0691|TWO_SIDED|95.0|-3.327|0.126|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.126|-3.327|0.0691
82434946|NCT01626118|164580377|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
82539095|NCT00383188|164778414|SUPERIORITY||LSM Difference|-1.086|STANDARD_ERROR_OF_MEAN|0.862||0.2083|TWO_SIDED|95.0|-2.778|0.607|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||0.607|-2.778|0.2083
82539096|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.836|STANDARD_ERROR_OF_MEAN|1.006||0.4063|TWO_SIDED|95.0|-2.811|1.139|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.139|-2.811|0.4063
82577542|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-10.6|||||TWO_SIDED|95.0|-14.7|-6.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 3||-6.7|-14.7|
82434947|NCT01626118|164580377|SUPERIORITY_OR_OTHER|||||||0.716|||||||t-test, 2 sided|||||||0.716
82434948|NCT01626118|164580378|SUPERIORITY_OR_OTHER|||||||0.049|||||||t-test, 2 sided|||||||0.049
82434949|NCT01626118|164580378|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.020
82434950|NCT01626118|164580378|SUPERIORITY_OR_OTHER|||||||0.593|||||||t-test, 2 sided|||||||0.593
82434951|NCT01626118|164580379|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||||||0.021
82434952|NCT01626118|164580379|SUPERIORITY_OR_OTHER|||||||0.012|||||||t-test, 2 sided|||||||0.012
82434953|NCT01626118|164580379|SUPERIORITY_OR_OTHER|||||||0.447|||||||t-test, 2 sided|||||||0.447
82434954|NCT01626118|164580380|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||||||0.036
82434955|NCT01626118|164580380|SUPERIORITY_OR_OTHER|||||||0.017|||||||t-test, 2 sided|||||||0.017
82434956|NCT01626118|164580380|SUPERIORITY_OR_OTHER|||||||0.577|||||||t-test, 2 sided|||||||0.577
82434957|NCT00002540|164580382|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36||Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.|Poisson regression|||||1.36|0.87|
82434958|NCT00002540|164580384|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.93|1.0|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.00|0.93|
82434959|NCT00002540|164580386|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|1.07|1.17|||Poisson regression|Two-sided. Not adjusted for multiple comparisons. A-priori threshold for significance 0.05.||||1.17|1.07|
82434960|NCT00002540|164580396|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36|||Poisson regression|||||1.36|0.87|
82434961|NCT01864148|164580430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9584|TWO_SIDED|95.0|0.46|2.07|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.07|0.46|0.9584
82434962|NCT01864148|164580430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0636|TWO_SIDED|95.0|0.97|3.31|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||3.31|0.97|0.0636
82434963|NCT01864148|164580430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.022|TWO_SIDED|95.0|1.11|3.84|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||3.84|1.11|0.0220
82434964|NCT01864148|164580430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1771|TWO_SIDED|95.0|0.36|1.21|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.21|0.36|0.1771
82434965|NCT01864148|164580430|SUPERIORITY_OR_OTHER|||||||0.8931|||||||Trend test|Trend test p-value is based on a linear contrast in logistic regression.||||||0.8931
82434966|NCT01864148|164580431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.3058|TWO_SIDED|95.0|0.28|1.49|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.49|0.28|0.3058
82434967|NCT01864148|164580431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.1873|TWO_SIDED|95.0|0.81|2.89|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.89|0.81|0.1873
82434968|NCT01864148|164580431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.2766|TWO_SIDED|95.0|0.76|2.65|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||2.65|0.76|0.2766
82434969|NCT01864148|164580431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6578|TWO_SIDED|95.0|0.45|1.65|||Regression, Logistic|Odds ratios, 95% CI and p-values are based on logistic regression adjusted for MS type, region and baseline component assessments.||||1.65|0.45|0.6578
82434970|NCT01864148|164580431|SUPERIORITY_OR_OTHER|||||||0.5255|||||||Trend test|Trend test p-value is based on a linear contrast in logistic regression.||||||0.5255
82434971|NCT01500252|164580434|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59||95.0|||||t-test, 2 sided|||||||0.59
82434972|NCT01500252|164580435|SUPERIORITY_OR_OTHER_LEGACY|||||||0.83||95.0|||||t-test, 2 sided|||||||0.83
82434973|NCT01500252|164580437|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
82539097|NCT00383188|164778414|SUPERIORITY||LSM Difference|-0.196|STANDARD_ERROR_OF_MEAN|1.038||0.8501|TWO_SIDED|95.0|-2.234|1.841|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||1.841|-2.234|0.8501
82539098|NCT00383188|164778414|SUPERIORITY||LSM Difference|0.376|STANDARD_ERROR_OF_MEAN|0.904||0.6778|TWO_SIDED|95.0|-1.399|2.15|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.150|-1.399|0.6778
82434974|NCT01500252|164580438|SUPERIORITY_OR_OTHER_LEGACY|||||||0.39||95.0|||||t-test, 2 sided|||||||0.39
82434975|NCT01500252|164580439|SUPERIORITY_OR_OTHER_LEGACY|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
82434976|NCT01500252|164580440|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||95.0|||||t-test, 2 sided|||||||0.71
82539099|NCT00383188|164778414|SUPERIORITY||LSM Difference|0.508|STANDARD_ERROR_OF_MEAN|0.877||0.5627|TWO_SIDED|95.0|-1.214|2.23|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.230|-1.214|0.5627
82539100|NCT00383188|164778414|SUPERIORITY||LSM Difference|0.537|STANDARD_ERROR_OF_MEAN|1.038||0.6049|TWO_SIDED|95.0|-1.501|2.576|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.576|-1.501|0.6049
82434977|NCT01500252|164580441|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98||95.0|||||t-test, 2 sided|||||||0.98
82434978|NCT01500252|164580442|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0|||||t-test, 2 sided|||||||0.35
82434979|NCT01500252|164580443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Chi-squared|||||||0.31
82539101|NCT00383188|164778414|SUPERIORITY||LSM Difference|0.51|STANDARD_ERROR_OF_MEAN|1.068||0.6332|TWO_SIDED|95.0|-1.587|2.608|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline swollen joint count as the covariate and participant as a random effect.||2.608|-1.587|0.6332
82434980|NCT03115827|164580448|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
82434981|NCT00904670|164580513|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-12.46|STANDARD_ERROR_OF_MEAN|1.13|<|0.0001|TWO_SIDED|95.0|-14.75|-10.17|||ANOVA|||Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-10.17|-14.75|<0.0001
82434982|NCT00904670|164580514|SUPERIORITY_OR_OTHER||LS mean difference|-6.32|STANDARD_ERROR_OF_MEAN|1.09|<|0.0001|TWO_SIDED|95.0|-8.53|-4.11|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-4.11|-8.53|<0.0001
82434983|NCT00904670|164580514|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|95.0|-12.04|-7.91|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-7.91|-12.04|<0.0001
82434984|NCT00904670|164580514|SUPERIORITY_OR_OTHER||LS mean difference|-9.33|STANDARD_ERROR_OF_MEAN|1.28|<|0.0001|TWO_SIDED|95.0|-11.92|-6.75|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-6.75|-11.92|<0.0001
82434985|NCT00904670|164580514|SUPERIORITY_OR_OTHER||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|1.11||0.0016|TWO_SIDED|95.0|-6.04|-1.54|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.54|-6.04|0.0016
82434986|NCT00904670|164580514|SUPERIORITY_OR_OTHER||LS mean difference|-4.77|STANDARD_ERROR_OF_MEAN|1.4||0.0016|TWO_SIDED|95.0|-7.61|-1.94|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.94|-7.61|0.0016
82649135|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|||||TWO_SIDED|95.0|-202.34|180.12||||||For change in ascites at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||180.12|-202.34|
82649136|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-84.5|106.73||||||For change in indigestion at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||106.73|-84.50|
82434987|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.38||0.0051|TWO_SIDED|95.0|-1.88|-0.36|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.36|-1.88|0.0051
82453831|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.73|||||TWO_SIDED|95.0|0.67|0.8||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2||0.80|0.67|
82453832|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|1.04|||||TWO_SIDED|95.0|0.91|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2||1.20|0.91|
82453833|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|0.87|||||TWO_SIDED|95.0|0.74|1.04||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.04|0.74|
82453834|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|0.75|||||TWO_SIDED|95.0|0.68|0.83||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.83|0.68|
82453835|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.97||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.97|0.80|
82649137|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.11|||||TWO_SIDED|95.0|-84.5|106.73||||||For change in flatulence at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||106.73|-84.50|
82434988|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-1.59|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.23|-0.95|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.95|-2.23|<0.0001
82453836|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.09||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.09|0.83|
82434989|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|0.54||0.0001|TWO_SIDED|95.0|-3.37|-1.2|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.20|-3.37|0.0001
82539102|NCT00383188|164778415|SUPERIORITY||LSM Difference|-2.802|STANDARD_ERROR_OF_MEAN|4.098||0.4943|TWO_SIDED|95.0|-10.85|5.243|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||5.243|-10.85|0.4943
82539103|NCT00383188|164778415|SUPERIORITY||LSM Difference|-10.19|STANDARD_ERROR_OF_MEAN|4.026||0.0116|TWO_SIDED|95.0|-18.09|-2.283|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.283|-18.09|0.0116
82539104|NCT00383188|164778415|SUPERIORITY||LSM Difference|-12.73|STANDARD_ERROR_OF_MEAN|4.71||0.007|TWO_SIDED|95.0|-21.98|-3.485|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-3.485|-21.98|0.0070
82539105|NCT00383188|164778415|SUPERIORITY||LSM Difference|-11.14|STANDARD_ERROR_OF_MEAN|4.812||0.0209|TWO_SIDED|95.0|-20.58|-1.688|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-1.688|-20.58|0.0209
82539106|NCT00383188|164778415|SUPERIORITY||LSM Difference|-7.439|STANDARD_ERROR_OF_MEAN|4.056||0.0671|TWO_SIDED|95.0|-15.4|0.524|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||0.524|-15.40|0.0671
82434990|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-1.49|STANDARD_ERROR_OF_MEAN|0.51||0.0055|TWO_SIDED|95.0|-2.52|-0.47|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.47|-2.52|0.0055
82453837|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.88|||||TWO_SIDED|95.0|0.79|0.98||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.98|0.79|
82453838|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|1.08|||||TWO_SIDED|95.0|0.97|1.2||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.20|0.97|
82453839|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 24F, Lot 1 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.03|||||TWO_SIDED|95.0|0.92|1.15||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.15|0.92|
82453840|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 1, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 1 GMC Ratio|0.93|||||TWO_SIDED|95.0|0.85|1.01||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.01|0.85|
82453841|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 5, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 5 GMC Ratio|0.98|||||TWO_SIDED|95.0|0.9|1.07||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.07|0.90|
82434991|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.41||0.1977|TWO_SIDED|95.0|-1.38|0.29|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.29|-1.38|0.1977
82434992|NCT00904670|164580515|SUPERIORITY_OR_OTHER||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.43||0.0491|TWO_SIDED|95.0|-1.76|0.0|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.00|-1.76|0.0491
82434993|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-1.69|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.36|-1.02|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.02|-2.36|<0.0001
82434994|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.5|-1.82|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.82|-3.50|<0.0001
82539107|NCT00383188|164778415|SUPERIORITY||LSM Difference|-10.46|STANDARD_ERROR_OF_MEAN|3.986||0.0089|TWO_SIDED|95.0|-18.28|-2.632|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.632|-18.28|0.0089
82539108|NCT00383188|164778415|SUPERIORITY||LSM Difference|-14.1|STANDARD_ERROR_OF_MEAN|4.657||0.0025|TWO_SIDED|95.0|-23.24|-4.959|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-4.959|-23.24|0.0025
82434995|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-2.95|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-3.77|-2.13|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.13|-3.77|<0.0001
82434996|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-2.49|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.33|-1.66|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.66|-3.33|<0.0001
82453842|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6A, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.09||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.09|0.82|
82453843|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 6B, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 6B GMC Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.74|0.52|
82453844|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 7F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 7F GMC Ratio|0.69|||||TWO_SIDED|95.0|0.62|0.76||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.76|0.62|
82539109|NCT00383188|164778415|SUPERIORITY||LSM Difference|-7.876|STANDARD_ERROR_OF_MEAN|4.774||0.0994|TWO_SIDED|95.0|-17.25|1.496|||ANCOVA|||Week 2:Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.496|-17.25|0.0994
82539110|NCT00383188|164778415|SUPERIORITY||LSM Difference|-1.964|STANDARD_ERROR_OF_MEAN|4.056||0.6284|TWO_SIDED|95.0|-9.926|5.999|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||5.999|-9.926|0.6284
82539111|NCT00383188|164778415|SUPERIORITY||LSM Difference|-9.934|STANDARD_ERROR_OF_MEAN|3.986||0.0129|TWO_SIDED|95.0|-17.76|-2.109|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.109|-17.76|0.0129
82539112|NCT00383188|164778415|SUPERIORITY||LSM Difference|-8.097|STANDARD_ERROR_OF_MEAN|4.656||0.0825|TWO_SIDED|95.0|-17.24|1.044|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.044|-17.24|0.0825
82539113|NCT00383188|164778415|SUPERIORITY||LSM Difference|-1.907|STANDARD_ERROR_OF_MEAN|4.774||0.6897|TWO_SIDED|95.0|-11.28|7.465|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||7.465|-11.28|0.6897
82577543|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.4|1.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 4||1.3|-1.4|
82539114|NCT00383188|164778415|SUPERIORITY||LSM Difference|1.861|STANDARD_ERROR_OF_MEAN|4.055||0.6465|TWO_SIDED|95.0|-6.1|9.821|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||9.821|-6.100|0.6465
82577544|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.4|||||TWO_SIDED|95.0|-1.4|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 5||2.2|-1.4|
82577545|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.6|1.5|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6A||1.5|-1.6|
82539115|NCT00383188|164778415|SUPERIORITY||LSM Difference|-10.65|STANDARD_ERROR_OF_MEAN|3.985||0.0077|TWO_SIDED|95.0|-18.47|-2.824|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-2.824|-18.47|0.0077
82577546|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.8|||||TWO_SIDED|95.0|-1.1|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 6B||2.7|-1.1|
82434997|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|0.4||0.0035|TWO_SIDED|95.0|-2.07|-0.44|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.44|-2.07|0.0035
82434998|NCT00904670|164580516|SUPERIORITY_OR_OTHER||LS mean difference|-1.43|STANDARD_ERROR_OF_MEAN|0.53||0.0109|TWO_SIDED|95.0|-2.51|-0.35|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.35|-2.51|0.0109
82649138|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.89|||||TWO_SIDED|95.0|-87.6|165.37||||||For change in cachexia at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||165.37|-87.60|
82434999|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|25.61|STANDARD_ERROR_OF_MEAN|4.61|<|0.0001|TWO_SIDED|95.0|16.26|34.96|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||34.96|16.26|<0.0001
82435000|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|37.1|STANDARD_ERROR_OF_MEAN|5.21|<|0.0001|TWO_SIDED|95.0|26.54|47.66|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||47.66|26.54|<0.0001
82435001|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|45.77|STANDARD_ERROR_OF_MEAN|7.35|<|0.0001|TWO_SIDED|95.0|30.89|60.65|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||60.65|30.89|<0.0001
82435002|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|35.46|STANDARD_ERROR_OF_MEAN|6.57|<|0.0001|TWO_SIDED|95.0|22.14|48.78|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||48.78|22.14|<0.0001
82435003|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|14.86|STANDARD_ERROR_OF_MEAN|5.86||0.0155|TWO_SIDED|95.0|3.0|26.73|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||26.73|3.00|0.0155
82435004|NCT00904670|164580517|SUPERIORITY_OR_OTHER||LS mean difference|20.69|STANDARD_ERROR_OF_MEAN|6.18||0.0019|TWO_SIDED|95.0|8.17|33.22|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||33.22|8.17|0.0019
82435005|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.52||0.0014|TWO_SIDED|95.0|-2.85|-0.74|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.74|-2.85|0.0014
82435006|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-2.79|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-3.76|-1.82|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.82|-3.76|<0.0001
82435007|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-3.89|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-5.12|-2.67|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.67|-5.12|<0.0001
82435008|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-2.65|STANDARD_ERROR_OF_MEAN|0.65||0.0002|TWO_SIDED|95.0|-3.97|-1.33|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.33|-3.97|0.0002
82435009|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.45||0.3492|TWO_SIDED|95.0|-1.34|0.49|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||0.49|-1.34|0.3492
82539116|NCT00383188|164778415|SUPERIORITY||LSM Difference|-7.927|STANDARD_ERROR_OF_MEAN|4.655||0.089|TWO_SIDED|95.0|-17.07|1.213|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||1.213|-17.07|0.0890
82435010|NCT00904670|164580519|SUPERIORITY_OR_OTHER||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.5||0.0105|TWO_SIDED|95.0|-2.34|-0.33|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.33|-2.34|0.0105
82649139|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|44.44|||||TWO_SIDED|95.0|-208.53|297.42||||||For change in side effects at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||297.42|-208.53|
82649140|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.22|||||TWO_SIDED|95.0|-275.19|230.75||||||For change in ability to plan future at Cycle 11 Day 1, mean change difference was used to compare the two treatment groups.||230.75|-275.19|
82453845|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 9V, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 9V GMC Ratio|0.82|||||TWO_SIDED|95.0|0.74|0.9||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||0.90|0.74|
82453846|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 14, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 14 GMC Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.17||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.17|0.89|
82453847|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19A, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19A GMC Ratio|0.95|||||TWO_SIDED|95.0|0.85|1.06||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.06|0.85|
82453848|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 19F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 19F GMC Ratio|1.29|||||TWO_SIDED|95.0|1.16|1.44||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.44|1.16|
82453849|NCT03197376|164613520|EQUIVALENCE|The equivalence margin was (0.5, 2.0). If the two sided 95% CIs for the ratio of the GMC of IgG antibody at one month following third vaccination was within this equivalence interval for serotype 23F, Lot 2 and Lot 3 would be equivalent with respect to the immune response to the vaccine lot|Pn IgG type 23F GMC Ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13||||||The 3 lots were to be considered equivalent if, for each serotype, all 3 CIs for IgG GMC ratios 4 weeks after the primary vaccination series lay within the interval (0.5, 2)||1.13|0.89|
82453850|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10%, for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 1|0.7|||||TWO_SIDED|97.5|0.0|1.9||||||||1.9|-0.0|
82453851|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 5|2.8|||||TWO_SIDED|97.5|1.2|5.0||||||||5.0|1.2|
82453852|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 6A|5.2|||||TWO_SIDED|97.5|1.1|9.5||||||Synflorix proportion of responders for serotype 6A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||9.5|1.1|
82453853|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 6B|2.0|||||TWO_SIDED|97.5|-2.2|6.4||||||||6.4|-2.2|
82453854|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 7F|1.0|||||TWO_SIDED|97.5|-0.1|2.7||||||||2.7|-0.1|
82649141|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.33|||||TWO_SIDED|95.0|-491.86|608.53||||||For change in pancreatic pain at EoS, mean change difference was used to compare the two treatment groups.||608.53|-491.86|
82453855|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 9V|0.1|||||TWO_SIDED|97.5|-1.9|2.5||||||||2.5|-1.9|
82453856|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 14|-0.3|||||TWO_SIDED|97.5|-1.4|1.0||||||||1.0|-1.4|
82453857|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 19A|18.7|||||TWO_SIDED|97.5|15.1|22.5||||||Synflorix proportion of responders for serotype 19A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||22.5|15.1|
82453858|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 19F|-0.8|||||TWO_SIDED|97.5|-1.9|0.5||||||||0.5|-1.9|
82453859|NCT03197376|164613521|NON_INFERIORITY|Non-inferiority was to be shown if either the lower limit of the 97.5% CI for the difference in proportions of IgG responders (PNEUMOSIL-Synflorix) exceeded -10% for 7 or more of the 10 serotypes in PNEUMOSIL|Absolute Difference for Type 23F|17.2|||||TWO_SIDED|97.5|13.6|21.1||||||||21.1|13.6|
82453860|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 1 GMC Ratio|2.15|||||TWO_SIDED|97.5|2.0|2.32||||||||2.32|2.00|
82453861|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 5 GMC Ratio|1.37|||||TWO_SIDED|97.5|1.28|1.47||||||||1.47|1.28|
82435011|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-1.72|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.43|-1.0|||ANOVA|||Hour 0.75: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.00|-2.43|<0.0001
82435012|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-2.94|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-3.78|-2.1|||ANOVA|||Hour 2: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.10|-3.78|<0.0001
82435013|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-3.34|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-4.11|-2.57|||ANOVA|||Hour 4: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-2.57|-4.11|<0.0001
82435014|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.64|-1.76|||ANOVA|||Hour 8: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-1.76|-3.64|<0.0001
82435015|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.41||0.0006|TWO_SIDED|95.0|-2.4|-0.73|||ANOVA|||Hour 10: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.73|-2.40|0.0006
82435016|NCT00904670|164580520|SUPERIORITY_OR_OTHER||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.4||0.0087|TWO_SIDED|95.0|-1.94|-0.3|||ANOVA|||Hour 12: Treatment comparisons for observed scores were assessed using linear models with sequence (Placebo/NWP06 and NWP06/Placebo), period, and treatment (NWP06 and Placebo) as fixed effects, and participant within sequence as a repeated effect with a compound symmetry correlation structure. A negative point difference indicated a positive effect of NWP06 over Placebo.||-0.30|-1.94|0.0087
82435017|NCT00344318|164580552|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 1 was computed.|Difference in percentage|2.17|||||TWO_SIDED|95.0|-1.51|4.88||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||4.88|-1.51|
82435018|NCT00344318|164580552|NON_INFERIORITY_OR_EQUIVALENCE|Towards this, standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 2 was computed|Difference in percentage|-1.48||||||95.0|-6.05|1.92||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||1.92|-6.05|
82435019|NCT00344318|164580552|NON_INFERIORITY_OR_EQUIVALENCE|Towards this, standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C after Dose 3 was computed.|Difference in percentage|3.05|||||TWO_SIDED|95.0|-1.02|6.19||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||6.19|-1.02|
82435020|NCT00344318|164580552|NON_INFERIORITY_OR_EQUIVALENCE|Standardized asymptotic 95% confidence interval (CI) for the difference \[Synflorix™ minus Prevenar™\] in terms of percentages of subjects reporting rectal fever \>39.0°C across doses was computed.|Difference in percentage|3.13|||||TWO_SIDED|95.0|-2.65|8.01||||||Analysis aimed to demonstrate that Synflorix™ vaccine administered as a 3-dose primary vaccination course (either at 6-10-14 weeks or at 2-4-6 months of age), is non-inferior to Prevenar™ in terms of the incidence of post-immunization rectal fever \>39.0°C, when co-administered with Tritanrix™-HepB/Hiberix™ and Polio Sabin™ or Poliorix™ vaccines.||8.01|-2.65|
82435021|NCT01606176|164580639|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.39||||0.332|TWO_SIDED|95.0|-1.18|0.4|||ANCOVA|||"The change was compared between treatment groups using analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Box Scale-11 Pain Score = Baseline Pain Score + Treatment"||0.40|-1.18|0.332
82435022|NCT01606176|164580640|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-29.55||||0.002|TWO_SIDED|95.0|-48.08|-11.02|||ANOVA|||The proportions were compared between treatment groups using analysis of variance (ANOVA) with treatment as a factor.||-11.02|-48.08|0.002
82577547|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-0.4|||||TWO_SIDED|95.0|-1.5|0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 7F||0.4|-1.5|
82577548|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.4|||||TWO_SIDED|95.0|-1.0|1.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 9V||1.9|-1.0|
82453862|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 6A GMC Ratio|0.89|||||TWO_SIDED|97.5|0.78|1.01||||||Synflorix proportion of responders for serotype 6A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||1.01|0.78|
82453863|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 6B GMC Ratio|1.07|||||TWO_SIDED|97.5|0.93|1.24||||||||1.24|0.93|
82453864|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 7F GMC Ratio|1.3|||||TWO_SIDED|97.5|1.19|1.41||||||||1.41|1.19|
82453865|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 9V GMC Ratio|0.92|||||TWO_SIDED|97.5|0.85|1.0||||||||1.00|0.85|
82453866|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 14 GMC Ratio|1.23|||||TWO_SIDED|97.5|1.1|1.37||||||||1.37|1.10|
82539117|NCT00383188|164778415|SUPERIORITY||LSM Difference|-5.964|STANDARD_ERROR_OF_MEAN|4.773||0.2119|TWO_SIDED|95.0|-15.33|3.406|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||3.406|-15.33|0.2119
82435023|NCT01606176|164580641|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.34||||0.052|TWO_SIDED|95.0|-0.68|0.0|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep disturbance score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Sleep Disturbance Score = Baseline Sleep Disturbance Score + Treatment"||0.00|-0.68|0.052
82435024|NCT01606176|164580642|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.79||||0.3|TWO_SIDED|95.0|-8.14|2.56|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Pain Disability Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Pain Disability Index Score = Baseline Pain Disability Index Score + Treatment"||2.56|-8.14|0.300
82435025|NCT01606176|164580643|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.66||||0.233|TWO_SIDED|95.0|-4.42|1.1|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Brief Pain Inventory (Short Form) score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Brief Pain Inventory (Short Form) Score = Baseline Total Brief Pain Inventory (Short Form) Score + Treatment"||1.10|-4.42|0.233
82649142|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.0|||||TWO_SIDED|95.0|-1258.79|1308.79||||||For change in eating related items at EoS, mean change difference was used to compare the two treatment groups.||1308.79|-1258.79|
82435026|NCT01606176|164580644|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.28||||0.387|TWO_SIDED|95.0|-0.36|0.91|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Spitzer Quality of Life Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Spitzer Quality of Life Index Score = Baseline Total Spitzer Quality of Life Index Score + Treatment"||0.91|-0.36|0.387
82435027|NCT01606176|164580645|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.47||||1|TWO_SIDED|95.0|-21.56|18.51|||Fisher Exact|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test."||18.51|-21.56|1.000
82435028|NCT01606176|164580646|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.86||||0.128|TWO_SIDED|95.0|-1.97|0.26|||ANCOVA|||"The change was compared between treatment groups using analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Box Scale-11 Pain Score = Baseline Pain Score + Treatment"||0.26|-1.97|0.128
82453867|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 19A GMC Ratio|1.45|||||TWO_SIDED|97.5|1.3|1.63||||||Synflorix proportion of responders for serotype 19A was operationally defined as the lowest observed proportion of responders among the 8 serotypes in common with PNEUMOSIL||1.63|1.30|
82453868|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 19F GMC Ratio|0.73|||||TWO_SIDED|97.5|0.67|0.8||||||||0.80|0.67|
82453869|NCT03197376|164613522|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 97.5% CI for the GMC ratio (PNEUMOSIL/Synflorix) exceeded 0.5, for 7 or more of the 10 serotypes in PNEUMOSIL|Pn IgG type 23F GMC Ratio|1.81|||||TWO_SIDED|97.5|1.63|2.01||||||||2.01|1.63|
82453870|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for diphtheria|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82453871|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Tetanus|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82453872|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Hepatitis B|0.4|||||TWO_SIDED|95.0|-0.4|2.5||||||||2.5|-0.4|
82649143|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in altered bowel habits at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
82453873|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Hib|-0.9|||||TWO_SIDED|95.0|-2.5|1.2||||||||1.2|-2.5|
82453874|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 1|-0.2|||||TWO_SIDED|95.0|-1.3|1.5||||||||1.5|-1.3|
82453875|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 2|2.8|||||TWO_SIDED|95.0|-3.2|9.3||||||||9.3|-3.2|
82453876|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Polio type 3|-0.9|||||TWO_SIDED|95.0|-3.0|1.8||||||||1.8|-3.0|
82435029|NCT01606176|164580647|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-31.77||||0.009|TWO_SIDED|95.0|-55.07|-8.47|||ANOVA|||The proportions were compared between treatment groups using ANOVA with treatment as a factor.||-8.47|-55.07|0.009
82435030|NCT01606176|164580648|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.32||||0.184|TWO_SIDED|95.0|-0.8|0.16|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep disturbance score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Sleep Disturbance Score = Baseline Sleep Disturbance Score + Treatment"||0.16|-0.80|0.184
82435031|NCT01606176|164580649|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.18||||0.134|TWO_SIDED|95.0|-12.05|1.68|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Pain Disability Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Pain Disability Index Score = Baseline Pain Disability Index Score + Treatment"||1.68|-12.05|0.134
82453877|NCT03197376|164613523|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI exceeded -10% (for comparisons based on the difference in proportions of antibody responders to EPI vaccines between PNEUMOSIL and Synflorix)|Absolute difference for Rotavirus|0.2|||||TWO_SIDED|95.0|-7.1|7.1||||||||7.1|-7.1|
82435032|NCT01606176|164580650|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-3.77||||0.031|TWO_SIDED|95.0|-7.17|-0.36|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Brief Pain Inventory (Short Form) score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Brief Pain Inventory (Short Form) Score = Baseline Total Brief Pain Inventory (Short Form) Score + Treatment"||-0.36|-7.17|0.031
82435033|NCT01606176|164580651|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.04||||0.915|TWO_SIDED|95.0|-0.79|0.88|||ANCOVA|||"The change was compared between treatment groups using ANCOVA. The significance of the treatment effect, after adjusting for baseline Total Spitzer Quality of Life Index score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in Total Spitzer Quality of Life Index Score = Baseline Total Spitzer Quality of Life Index Score + Treatment"||0.88|-0.79|0.915
82453878|NCT03197376|164613524|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI for the GMC ratio exceeded 0.5 (for pertussis antigens).|GMC Ratio for anti-pertussis toxoid|0.82|||||TWO_SIDED|95.0|0.62|1.09||||||||1.09|0.62|
82453879|NCT03197376|164613525|NON_INFERIORITY|Non-inferiority was to be shown if the lower limit of the 95% CI for the GMC ratio exceeded 0.5 (for pertussis antigens).|GMC Ratio for anti-fimbriae 2/3|0.98|||||TWO_SIDED|95.0|0.77|1.25||||||||1.25|0.77|
82453880|NCT03197376|164613532|SUPERIORITY|Proportions with IgG concentration ≥ 0.35 µg/mL will be compared using a z-test for proportions. The test will be done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, will also be reported|Difference for Type 6A|73.3|||||TWO_SIDED|97.5|69.8|76.3||||||||76.3|69.8|
82453881|NCT03197376|164613532|SUPERIORITY|Proportions with IgG concentration ≥ 0.35 µg/mL will be compared using a z-test for proportions. The test will be done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, will also be reported|Difference for Type 19A|54.7|||||TWO_SIDED|97.5|50.3|58.9||||||||58.9|50.3|
82453882|NCT03197376|164613533|SUPERIORITY|For each of the two serotypes, GMCs are compared by a two-sample t-test on the difference between means of log10 (antibody). The test was done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, are also be reported|Pn IgG type 6A GMC Ratio|8.51|||||TWO_SIDED|97.5|7.68|9.43||||||||9.43|7.68|
82649144|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.33|||||TWO_SIDED|95.0|-175.06|191.73||||||For change in jaundice at EoS, mean change difference was used to compare the two treatment groups.||191.73|-175.06|
82435034|NCT01606176|164580652|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|3.95||||1|TWO_SIDED|95.0|-21.85|27.47|||Fisher Exact|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test."||27.47|-21.85|1.00
82435035|NCT01153711|164580654|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|168.4|STANDARD_DEVIATION|16.4||1|TWO_SIDED|90.0|155.5|182.4||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol||182.4|155.5|1.0000
82435036|NCT01153711|164580655|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|166.1|STANDARD_DEVIATION|16.8||1|TWO_SIDED|90.0|153.6|179.6||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol||179.6|153.6|1.0000
82435037|NCT01153711|164580655|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|106.63|STANDARD_DEVIATION|14.7||0.0001|TWO_SIDED|90.0|100.211|113.463||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol glucuronide||113.463|100.211|0.0001
82649145|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in ascites at EoS, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
82649146|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-733.59|733.59||||||For change in indigestion at EoS, mean change difference was used to compare the two treatment groups.||733.59|-733.59|
82453883|NCT03197376|164613533|SUPERIORITY|For each of the two serotypes, GMCs are compared by a two-sample t-test on the difference between means of log10 (antibody). The test was done at the two-sided 2.5% significance level to adjust for the two superiority tests. 97.5% CIs for treatment-group differences in response, are also be reported|Pn IgG type 19A GMC Ratio|5.64|||||TWO_SIDED|97.5|5.14|6.18||||||||6.18|5.14|
82435038|NCT01153711|164580658|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|144.23|STANDARD_DEVIATION|17.8||0.9986|TWO_SIDED|90.0|133.853|155.417||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol||155.417|133.853|0.9986
82435039|NCT01153711|164580658|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|132.87|STANDARD_DEVIATION|18.9||0.8991|TWO_SIDED|90.0|122.732|143.843||P-value for ratio outside 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol for the category Olodaterol glucuronide||143.843|122.732|0.8991
82435040|NCT01153711|164580659|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Adjusted geometric mean ratio|100.75|STANDARD_DEVIATION|17.9||0.0001|TWO_SIDED|90.0|92.534|109.692||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Olodaterol plus Ketoconazole and Olodaterol||109.692|92.534|0.0001
82435041|NCT00361231|164580662|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kaplan-Meier|||||||<0.05
82435042|NCT00361231|164580663|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Kaplan-Meier|||||||0.05
82435043|NCT01208961|164580738|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|400.36|||<|0.001|TWO_SIDED|90.0|326.87|490.36|||ANOVA|ANOVA on log-trans baseline-adj PK values using sequence, period, and treatments as fixed effects and subject nested within sequence as random effect||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||490.36|326.87|<0.001
82453884|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 1|17.2|||||TWO_SIDED|95.0|11.0|23.6||||||||23.6|11.0|
82453885|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 5|2.8|||||TWO_SIDED|95.0|0.0|6.2||||||||6.2|-0.0|
82453886|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 6A|82.2|||||TWO_SIDED|95.0|76.7|86.6||||||||86.6|76.7|
82453887|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 6B|9.4|||||TWO_SIDED|95.0|4.5|14.6||||||||14.6|4.5|
82577549|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-1.5|||||TWO_SIDED|95.0|-3.7|0.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 14||0.6|-3.7|
82649147|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|83.33|||||TWO_SIDED|95.0|-283.46|450.13||||||For change in flatulence at EoS, mean change difference was used to compare the two treatment groups.||450.13|-283.46|
82649148|NCT00219557|165013545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.56|||||TWO_SIDED|95.0|-1375.5|1436.61||||||For change in side effects at EoS, mean change difference was used to compare the two treatment groups.||1436.61|-1375.5|
82435044|NCT01208961|164580739|SUPERIORITY_OR_OTHER||Ratio of Geometric Mans|649.66|||<|0.01|TWO_SIDED|90.0|511.75|824.75||ANOVA model with baseline value as covariate, and treatment and user/non-user of lipid-altering drugs as factors. LSM estimate performed on log-scale|ANOVA|||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||824.75|511.75|<0.01
82435045|NCT01208961|164580740|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|369.66|||<|0.001|TWO_SIDED|90.0|301.74|452.86|||ANOVA|||Results for the analyses of the High-Fat Periods were not posted because the critical comparison was the response of Lovaza versus Epanova to the clinically relevant low-fat diet to be used as adjunct in hypertriglyceridemia.||452.86|301.74|<0.001
82435046|NCT03641716|164580753|OTHER||Mean Difference (Net)|3.67|STANDARD_DEVIATION|2.08|||TWO_SIDED|||||||||||||
82435047|NCT03641716|164580754|OTHER||Effect Size - Cohen's d|-0.01|||||TWO_SIDED|95.0|-0.66|0.65||||||Due to limited size of sub-sample, we calculated a Cohen's d effect size for raw total score on the PSI from baseline to the 3-month follow-up, with a 95% confidence interval.||.65|-.66|
82435048|NCT03641716|164580755|OTHER||||||<|0.01||||||a prior threshold for statistical significance set at p\<.05|t-test, 2 sided|We ran a paired samples t-test with pre/post intervention data (from baseline and 3-month assessments).||After examining the data to ensure it met the statistical assumptions (e.g. normality, no outliers), we ran a paired-sample pre-post t-test to examine the difference in scores from baseline to 3 months on the NutriSTEP (Screening Tool for Every Preschooler) assessment.||||<.01
82435049|NCT02487654|164580756|SUPERIORITY||||||<|0.05|||||||Log Rank|||||||<0.05
82435050|NCT02152371|164580765|SUPERIORITY_OR_OTHER_LEGACY||LS Means Diff|-0.77|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.97|-0.56|||Mixed Model for Repeated Measures (MMRM)|||||-0.56|-0.97|<.001
82435051|NCT02152371|164580766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-16.73|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-26.02|-7.44|||Mixed Models Analysis|||||-7.44|-26.02|<.001
82435052|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-8.06|STANDARD_ERROR_OF_MEAN|2.95||0.007|TWO_SIDED|95.0|-13.87|-2.25|||Mixed Models Analysis|||Pre-Morning Meal||-2.25|-13.87|.007
82539118|NCT00383188|164778415|SUPERIORITY||LSM Difference|-4.766|STANDARD_ERROR_OF_MEAN|4.053||0.2401|TWO_SIDED|95.0|-12.72|3.191|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||3.191|-12.72|0.2401
82435053|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-17.18|STANDARD_ERROR_OF_MEAN|4.45|<|0.001|TWO_SIDED|95.0|-25.96|-8.4|||Mixed Models Analysis|||Morning Meal 2-Hour Postprandial||-8.40|-25.96|<.001
82435054|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-15.55|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-23.58|-7.52|||Mixed Models Analysis|||Pre-Midday Meal||-7.52|-23.58|<.001
82435055|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-18.15|STANDARD_ERROR_OF_MEAN|4.58|<|0.001|TWO_SIDED|95.0|-27.18|-9.12|||Mixed Models Analysis|||Midday Meal 2-Hour Postprandial||-9.12|-27.18|<.001
82435056|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-14.96|STANDARD_ERROR_OF_MEAN|4.55||0.001|TWO_SIDED|95.0|-23.93|-5.99|||Mixed Models Analysis|||Pre-Evening Meal||-5.99|-23.93|.001
82435057|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-21.28|STANDARD_ERROR_OF_MEAN|5.68|<|0.001|TWO_SIDED|95.0|-32.46|-10.1|||Mixed Models Analysis|||Evening Meal 2-Hour Postprandial||-10.10|-32.46|<.001
82435058|NCT02152371|164580767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Diff|-19.48|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-28.77|-10.18|||Mixed Models Analysis|||3:00AM (Morning)||-10.18|-28.77|<.001
82435059|NCT02152371|164580768|SUPERIORITY_OR_OTHER_LEGACY||LS Means Difference|-2.41|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-3.19|-1.64|||Mixed Models Analysis|||||-1.64|-3.19|<.001
82435060|NCT02152371|164580769|SUPERIORITY_OR_OTHER_LEGACY||LS Means Diff|-13.19|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-19.55|-6.84|||MMRM|||||-6.84|-19.55|<.001
82435061|NCT02152371|164580776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.66|||<|0.001|TWO_SIDED|95.0|3.7|12.0|||Regression, Logistic|||||12.00|3.70|<.001
82435062|NCT02152371|164580776|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio, log|5.71|||<|0.001|TWO_SIDED|95.0|3.35|9.73|||Regression, Logistic|||||9.73|3.35|<.001
82435063|NCT02152371|164580777|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.17|||<|0.001|TWO_SIDED|95.0|2.32|7.47|||Regression, Logistic|||||7.47|2.32|<.001
82435064|NCT02152371|164580778|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.61|||<|0.001|TWO_SIDED|95.0|2.09|6.23|||Regression, Logistic|||||6.23|2.09|<.001
82435065|NCT02152371|164580779|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.6|||<|0.001|TWO_SIDED|95.0|3.26|9.62|||Regression, Logistic|||||9.62|3.26|<.001
82435066|NCT00349921|164580783|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Null hypothesis is that there is no difference between the groups in proportion of patients meeting the success criterion of \>30% reduction in visual analog scale pain 120 min after intrathecal injection||||>0.05
82435067|NCT05285644|164580784|OTHER|Difference (2-sided)|Difference in Percentages|34.4|||<|0.0001|TWO_SIDED|95.0|26.9|42.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|42.0|26.9|<0.0001
82435068|NCT05285644|164580785|OTHER|Difference (2-sided)|Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|2.06||0.0138|TWO_SIDED|95.0|-9.1|-1.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||-1.0|-9.1|0.0138
82435069|NCT05285644|164580786|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.2|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|5.8|8.6||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center||The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|8.6|5.8|<0.0001
82435070|NCT05285644|164580787|OTHER|Difference (2-sided)|Difference in Percentages|26.7|||<|0.0001|TWO_SIDED|95.0|19.5|34.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|34.0|19.5|<0.0001
82453888|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 7F|0.4|||||TWO_SIDED|95.0|-1.1|2.2||||||||2.2|-1.1|
82453889|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 9V|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82453890|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type14|-0.8|||||TWO_SIDED|95.0|-4.0|2.2||||||||2.2|-4.0|
82453891|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 19A|53.3|||||TWO_SIDED|95.0|46.0|60.1||||||||60.1|46.0|
82453892|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 19F|-1.6|||||TWO_SIDED|95.0|-4.9|1.2||||||||1.2|-4.9|
82453893|NCT03197376|164613534|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes|OPA Type 23F|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82453894|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 1|3.09|||||TWO_SIDED|95.0|2.4|3.98||||||||3.98|2.40|
82435071|NCT05285644|164580788|OTHER|Difference (2-sided)|Least Squares Mean Difference|6.2|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|4.9|7.5||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||7.5|4.9|<0.0001
82435072|NCT05285644|164580789|OTHER|Difference (2 sided)|Difference in Percentages|33.1|||<|0.0001|TWO_SIDED|95.0|24.8|41.4||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|Pearson's Chi-squared test||Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.|For binary endpoint, the underlying continuous measurement of unanesthetized Schirmer score was imputed, change score calculated and then dichotomized to ascertain attainment of greater than or equal to 10 millimeter increase from pre-drop baseline.|41.4|24.8|<0.0001
82453895|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 5|1.39|||||TWO_SIDED|95.0|1.12|1.72||||||||1.72|1.12|
82453896|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 6A|186.0|||||TWO_SIDED|95.0|144.0|241.0||||||||241|144|
82453897|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 6B|1.95|||||TWO_SIDED|95.0|1.42|2.69||||||||2.69|1.42|
82453898|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 7F|1.16|||||TWO_SIDED|95.0|0.96|1.39||||||||1.39|0.96|
82453899|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 9V|0.38|||||TWO_SIDED|95.0|0.29|0.49||||||||0.49|0.29|
82539119|NCT00383188|164778415|SUPERIORITY||LSM Difference|-11.07|STANDARD_ERROR_OF_MEAN|3.983||0.0056|TWO_SIDED|95.0|-18.89|-3.251|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-3.251|-18.89|0.0056
82453900|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 14|0.92|||||TWO_SIDED|95.0|0.67|1.27||||||||1.27|0.67|
82453901|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 19A|13.4|||||TWO_SIDED|95.0|10.2|17.7||||||||17.7|10.2|
82453902|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 19F|0.66|||||TWO_SIDED|95.0|0.54|0.81||||||||0.81|0.54|
82453903|NCT03197376|164613535|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio)|OPA GMT Ratio-Type 23F|3.03|||||TWO_SIDED|95.0|2.25|4.09||||||||4.09|2.25|
82453904|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 1 GMC Ratio|1.41|||||TWO_SIDED|95.0|1.31|1.52||||||||1.52|1.31|
82453905|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 5 GMC Ratio|0.88|||||TWO_SIDED|95.0|0.81|0.95||||||||0.95|0.81|
82453906|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6A GMC Ratio|4.46|||||TWO_SIDED|95.0|4.01|4.96||||||||4.96|4.01|
82435073|NCT05285644|164580790|OTHER|Difference (2-sided)|Least Squares Mean Difference|7.5|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|95.0|6.0|9.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||9.0|6.0|<0.0001
82435074|NCT05285644|164580791|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.28||0.2184|TWO_SIDED|95.0|-7.3|1.7||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.7|-7.3|0.2184
82435075|NCT05285644|164580792|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|2.43||0.266|TWO_SIDED|94.0|-7.5|2.1||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||2.1|-7.5|0.2660
82435076|NCT05285644|164580793|OTHER|Difference (2-sided)|Least Squares Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|2.37||0.2741|TWO_SIDED|95.0|-7.2|2.0||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||2.0|-7.2|0.2741
82435077|NCT05285644|164580794|OTHER|Difference (2-sided)|Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.43||0.159|TWO_SIDED|95.0|-8.2|1.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.3|-8.2|0.1590
82435078|NCT05285644|164580795|OTHER|Difference (2-sided)|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|2.67||0.1369|TWO_SIDED|95.0|-9.2|1.3||Multiple imputation methodology was implemented in handling missing data, both related to and unrelated to intercurrent events.|ANCOVA|Based on analysis of covariance (ANCOVA) models with effects of treatment, baseline, and analysis center|Difference equals 0.003% AR-15512 minus AR-15512 Vehicle|The primary estimand targeted the treatment effect attributable to the randomly assigned treatment, regardless of compliance to study treatment and assuming subjects who discontinued due to lack of efficacy, AEs, or disallowed concurrent treatments followed the behavior of subjects in the reference arm for the duration of the study and subjects who discontinued for other reasons would have followed the behavior of subjects who were still in the study under same randomly assigned treatment.||1.3|-9.2|0.1369
82435079|NCT04382586|164580802|SUPERIORITY||Odds Ratio (OR)|1.61||||0.4099|TWO_SIDED|95.0|0.349|7.391|||Unstratified 1-sided Fisher's exact test|||||7.391|0.349|0.4099
82435080|NCT04382586|164580803|SUPERIORITY||Hazard Ratio (HR)|0.918||||0.7619|TWO_SIDED|95.0|0.511|1.648|||Log Rank|||||1.648|0.511|0.7619
82435081|NCT01331837|164580826|NON_INFERIORITY_OR_EQUIVALENCE|In order to reject the null hypothesis and claim non-inferiority of TCZ compared to ETA, a HR point estimate of ≤ 1.278 and upper limit of 95% CI \<1.8 was required.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.77|1.43||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.43|0.77|
82649149|NCT03063632|165013548|OTHER|||||||||||||||||Per Global Response Score used in Mycosis Fungoides and Sezary Syndrome, Response is assessed by the standard response criteria: Complete Response (CR), complete disappearance of all clinical evidence of disease where all categories (i.e., skin, lymph nodes, viscera, blood) have complete response/noninvolved; Partial Response (PR), regression of measurable disease; Stable Disease (SD), failure to attain CR, PR, or PD.|Simple statistics. Non-responders excluded from analysis.|||
82453907|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6B GMC Ratio|6.43|||||TWO_SIDED|95.0|5.7|7.26||||||||7.26|5.70|
82453908|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 7F GMC Ratio|2.04|||||TWO_SIDED|95.0|1.89|2.19||||||||2.19|1.89|
82453909|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 9V GMC Ratio|1.39|||||TWO_SIDED|95.0|1.29|1.5||||||||1.50|1.29|
82453910|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 14 GMC Ratio|1.35|||||TWO_SIDED|95.0|1.21|1.51||||||||1.51|1.21|
82453911|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19A GMC Ratio|2.64|||||TWO_SIDED|95.0|2.4|2.91||||||||2.91|2.40|
82453912|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19F GMC Ratio|1.49|||||TWO_SIDED|95.0|1.36|1.63||||||||1.63|1.36|
82453913|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 23F GMC Ratio|2.5|||||TWO_SIDED|95.0|2.29|2.72||||||||2.72|2.29|
82453914|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 1 GMC Ratio|1.17|||||TWO_SIDED|95.0|1.06|1.28||||||||1.28|1.06|
82453915|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 5 GMC Ratio|0.67|||||TWO_SIDED|95.0|0.61|0.74||||||||0.74|0.61|
82453916|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6A GMC Ratio|3.49|||||TWO_SIDED|95.0|2.97|4.11||||||||4.11|2.97|
82453917|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 6B GMC Ratio|3.85|||||TWO_SIDED|95.0|3.23|4.59||||||||4.59|3.23|
82453918|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 7F GMC Ratio|1.63|||||TWO_SIDED|95.0|1.47|1.82||||||||1.82|1.47|
82539120|NCT00383188|164778415|SUPERIORITY||LSM Difference|-8.885|STANDARD_ERROR_OF_MEAN|4.654||0.0566|TWO_SIDED|95.0|-18.02|0.251|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||0.251|-18.02|0.0566
82539121|NCT00383188|164778415|SUPERIORITY||LSM Difference|-10.09|STANDARD_ERROR_OF_MEAN|4.772||0.0348|TWO_SIDED|95.0|-19.45|-0.72|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||-0.720|-19.45|0.0348
82539122|NCT00383188|164778415|SUPERIORITY||LSM Difference|4.89|STANDARD_ERROR_OF_MEAN|4.191||0.2436|TWO_SIDED|95.0|-3.336|13.116|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||13.116|-3.336|0.2436
82453919|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 9V GMC Ratio|1.46|||||TWO_SIDED|95.0|1.31|1.62||||||||1.62|1.31|
82453920|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 14 GMC Ratio|1.21|||||TWO_SIDED|95.0|1.03|1.42||||||||1.42|1.03|
82453921|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19A GMC Ratio|3.6|||||TWO_SIDED|95.0|2.99|4.33||||||||4.33|2.99|
82453922|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 19F GMC Ratio|1.55|||||TWO_SIDED|95.0|1.38|1.75||||||||1.75|1.38|
82453923|NCT03197376|164613536|OTHER|The comparisons were based on the ratio of IgG GMC post-booster to the IgG GMC post-primary series in the Booster Cohort restricted to subjects who contributed relevant data at both time points.|Pn IgG type 23F GMC Ratio|2.29|||||TWO_SIDED|95.0|1.98|2.65||||||||2.65|1.98|
82453924|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 1 GMC Ratio|2.34|||||TWO_SIDED|95.0|2.02|2.71||||||||2.71|2.02|
82453925|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 5 GMC Ratio|1.57|||||TWO_SIDED|95.0|1.38|1.79||||||||1.79|1.38|
82453926|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 6A GMC Ratio|11.6|||||TWO_SIDED|95.0|9.67|14.0||||||||14.0|9.67|
82649150|NCT03063632|165013549|OTHER||||||||||||||||||Kaplan-Meier method|||
82435082|NCT01331837|164580828|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis'|Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.76|1.62||||||"The analysis assessed in the OT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.62|0.76|
82435083|NCT01331837|164580830|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis and not for the sensitivity analysis.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.73|1.4||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.40|0.73|
82435084|NCT01331837|164580832|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis and not for the sensitivity analysis.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.7|1.56||||||"The analysis assessed in the ITT population the hazard ratio of the primary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.56|0.70|
82435085|NCT01331837|164580834|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.73|1.34||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.34|0.73|
82435086|NCT01331837|164580836|NON_INFERIORITY_OR_EQUIVALENCE|'The non-inferiority margin was only formally tested for the primary ITT analysis'|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.49||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.49|0.54|
82435087|NCT01331837|164580838|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.64|1.63||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.63|0.64|
82435088|NCT01331837|164580840|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|1.53|||||TWO_SIDED|95.0|0.8|2.92||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||2.92|0.80|
82435089|NCT01331837|164580842|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was only formally tested for the primary ITT analysis.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.7|1.41||||||"The analysis assessed in the ITT population the hazard ratio of the secondary endpoint in TCZ compared to ETA patients. This was done through a comparison of the hazard functions between TCZ and ETA patients.~A stratified Cox proportional hazards regression model was used in evaluating the relative CV event rate of TCZ over ETA, with the following randomization factors used as strata:~* Previous exposure to anti-TNF (Yes/No)~* History of CV events (Yes/No)"||1.41|0.70|
82435090|NCT01380535|164580869|OTHER|||||||0.373|||||||Fisher Exact|||||||0.373
82435091|NCT02222909|164580899|OTHER|The significance of the difference-in-differences statistic was assessed using randomization inference, a non-parametric permutation test. Confidence intervals were determined by inversion of the test statistic.|Difference in differences|0.0182||||0.63|TWO_SIDED|95.0|-0.12|0.11||We calculated the proportion of permuted statistics with values higher in magnitude than that of the observed adjusted difference in differences (the p-value). We inverted the test statistic to determine confidence intervals.|Randomization inference||The estimation parameter is the difference between the average adjusted change in the monthly ED visits and hospital days from the pre- to post- intervention periods for the patients assigned to the iCBOs as compared to the cCBOs.|The difference between the average sum of the number of days spent in the hospital and ED visits in the past month, pre- and post-intervention, adjusted for pre- intervention variables, was calculated for each patients. The average change scores among patients assigned to each CBO defined the CBO-level outcomes. We calculated a weighted average of the CBO outcomes separately for the iCBOs and cCBOs, defining the difference-in-differences statistic as the difference between the two averages.||0.11|-0.12|0.63
82435092|NCT02242435|164580904|SUPERIORITY|||||||0.26||||||Adjusted for baseline WOMAC score.|ANCOVA|||||||0.26
82435093|NCT02242435|164580905|SUPERIORITY|||||||0.3||||||Adjustment for baseline WOMAC score.|ANCOVA|||||||0.30
82435094|NCT01981863|164580908|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
82539123|NCT00383188|164778415|SUPERIORITY||LSM Difference|-1.781|STANDARD_ERROR_OF_MEAN|4.066||0.6616|TWO_SIDED|95.0|-9.762|6.201|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||6.201|-9.762|0.6616
82453927|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 6B GMC Ratio|1.89|||||TWO_SIDED|95.0|1.65|2.15||||||||2.15|1.65|
82453928|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 7F GMC Ratio|1.57|||||TWO_SIDED|95.0|1.37|1.8||||||||1.80|1.37|
82453929|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 9V GMC Ratio|0.87|||||TWO_SIDED|95.0|0.76|0.99||||||||0.99|0.76|
82453930|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 14 GMC Ratio|1.48|||||TWO_SIDED|95.0|1.21|1.82||||||||1.82|1.21|
82453931|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 19A GMC Ratio|4.22|||||TWO_SIDED|95.0|3.52|5.06||||||||5.06|3.52|
82453932|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 19F GMC Ratio|0.63|||||TWO_SIDED|95.0|0.55|0.73||||||||0.73|0.55|
82453933|NCT03197376|164613537|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|Pn IgG type 23F GMC Ratio|1.91|||||TWO_SIDED|95.0|1.63|2.24||||||||2.24|1.63|
82453934|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 1|3.47|||||TWO_SIDED|95.0|2.72|4.44||||||||4.44|2.72|
82453935|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 5|2.54|||||TWO_SIDED|95.0|2.06|3.13||||||||3.13|2.06|
82435095|NCT00117715|164580913|OTHER|||||||0.035||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log(DM/DX) over time||||0.035
82435096|NCT00117715|164580914|OTHER|||||||0.194||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log(3HM/DX) over time||||0.194
82435097|NCT00117715|164580915|OTHER|||||||0.831||||||Post-hoc analysis performed using Tukey's Honestly Significant Difference test.|ANOVA|||Univariate analysis (ANOVA) of the change in log ((AAMU+1MX+1MU)/1,7,U) over time||||0.831
82435098|NCT02383420|164580942|SUPERIORITY_OR_OTHER|||||||0.415|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 2 sided|||||||0.415
82453936|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6A|2.5|||||TWO_SIDED|95.0|1.83|3.42||||||||3.42|1.83|
82453937|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6B|3.76|||||TWO_SIDED|95.0|2.48|5.69||||||||5.69|2.48|
82539124|NCT00383188|164778415|SUPERIORITY||LSM Difference|3.907|STANDARD_ERROR_OF_MEAN|4.83||0.4189|TWO_SIDED|95.0|-5.574|13.388|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||13.388|-5.574|0.4189
82577550|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|1.0|||||TWO_SIDED|95.0|-0.5|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 18C||2.7|-0.5|
82435099|NCT02383420|164580943|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Level of significance (alpha) = 0.05|t-test, 1 sided|||||||0.0000
82435100|NCT01971463|164580966|SUPERIORITY||||||<|0.05|||||||Wilcoxon signed rank|||Change in oCBF from baseline to post-bolus, ipsilesional hemisphere||||<0.05
82435101|NCT01971463|164580966|SUPERIORITY|Mixed effects regression, modeling the interaction term for time x normal saline bolus in the ipsilesional hemisphere|Slope|0.05|||<|0.001|TWO_SIDED|95.0|0.03|0.07|||Mixed Models Analysis|||||0.07|0.03|<0.001
82453938|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 7F|3.89|||||TWO_SIDED|95.0|2.92|5.18||||||||5.18|2.92|
82453939|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 9V|6.85|||||TWO_SIDED|95.0|4.45|10.52||||||||10.52|4.45|
82453940|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 14|2.45|||||TWO_SIDED|95.0|1.64|3.65||||||||3.65|1.64|
82453941|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19A|3.64|||||TWO_SIDED|95.0|2.47|5.36||||||||5.36|2.47|
82453942|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19F|2.38|||||TWO_SIDED|95.0|1.8|3.14||||||||3.14|1.80|
82453943|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 23F|4.97|||||TWO_SIDED|95.0|3.49|7.06||||||||7.06|3.49|
82453944|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 1|6.29|||||TWO_SIDED|95.0|4.97|7.96||||||||7.96|4.97|
82453945|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 5|3.19|||||TWO_SIDED|95.0|2.56|3.98||||||||3.98|2.56|
82453946|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6A|6.21|||||TWO_SIDED|95.0|3.55|10.84||||||||10.84|3.55|
82435102|NCT01942668|164580979|SUPERIORITY||Mean Difference (Final Values)|-12.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-19.29|-6.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-6.32|-19.29|<0.001
82435103|NCT01942668|164580979|SUPERIORITY||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|3.25||0.013|TWO_SIDED|95.0|-14.46|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-1.68|-14.46|0.013
82435104|NCT01942668|164580979|SUPERIORITY||Mean Difference (Final Values)|-4.81|STANDARD_ERROR_OF_MEAN|3.26||0.141|TWO_SIDED|95.0|-11.21|1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||1.59|-11.21|0.141
82435105|NCT01942668|164580979|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.22||0.001|TWO_SIDED|95.0|-16.73|-4.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-4.08|-16.73|0.001
82435106|NCT01942668|164580980|SUPERIORITY||Mean Difference (Final Values)|-16.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-23.33|-9.82||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-9.82|-23.33|<0.001
82435107|NCT01942668|164580980|SUPERIORITY||Mean Difference (Final Values)|-15.07|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-21.72|-8.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-8.42|-21.72|<0.001
82453947|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 6B|3.25|||||TWO_SIDED|95.0|2.25|4.7||||||||4.70|2.25|
82453948|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 7F|2.81|||||TWO_SIDED|95.0|2.13|3.69||||||||3.69|2.13|
82453949|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 9V|2.95|||||TWO_SIDED|95.0|2.15|4.04||||||||4.04|2.15|
82539125|NCT00383188|164778415|SUPERIORITY||LSM Difference|4.395|STANDARD_ERROR_OF_MEAN|4.942||0.3741|TWO_SIDED|95.0|-5.305|14.096|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Assessment of Arthritis Pain (VAS) count as the covariate and participant as a random effect.||14.096|-5.305|0.3741
82539126|NCT00383188|164778416|SUPERIORITY||LSM Difference|-2.996|STANDARD_ERROR_OF_MEAN|3.958||0.4493|TWO_SIDED|95.0|-10.77|4.773|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.773|-10.77|0.4493
82453950|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 14|1.62|||||TWO_SIDED|95.0|1.06|2.46||||||||2.46|1.06|
82453951|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19A|5.98|||||TWO_SIDED|95.0|3.88|9.21||||||||9.21|3.88|
82539127|NCT00383188|164778416|SUPERIORITY||LSM Difference|-14.45|STANDARD_ERROR_OF_MEAN|3.891||0.0002|TWO_SIDED|95.0|-22.08|-6.807|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-6.807|-22.08|0.0002
82577551|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.0|||||TWO_SIDED|95.0|-1.1|1.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19A||1.1|-1.1|
82435108|NCT01942668|164580980|SUPERIORITY||Mean Difference (Final Values)|-10.79|STANDARD_ERROR_OF_MEAN|3.41||0.002|TWO_SIDED|95.0|-17.48|-4.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-4.10|-17.48|0.002
82539128|NCT00383188|164778416|SUPERIORITY||LSM Difference|-11.54|STANDARD_ERROR_OF_MEAN|4.522||0.0109|TWO_SIDED|95.0|-20.42|-2.661|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.661|-20.42|0.0109
82539129|NCT00383188|164778416|SUPERIORITY||LSM Difference|-7.364|STANDARD_ERROR_OF_MEAN|4.651||0.1137|TWO_SIDED|95.0|-16.49|1.765|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||1.765|-16.49|0.1137
82539130|NCT00383188|164778416|SUPERIORITY||LSM Difference|-3.989|STANDARD_ERROR_OF_MEAN|3.915||0.3086|TWO_SIDED|95.0|-11.68|3.697|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.697|-11.68|0.3086
82539131|NCT00383188|164778416|SUPERIORITY||LSM Difference|-8.357|STANDARD_ERROR_OF_MEAN|3.85||0.0303|TWO_SIDED|95.0|-15.92|-0.799|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.799|-15.92|0.0303
82539132|NCT00383188|164778416|SUPERIORITY||LSM Difference|-10.66|STANDARD_ERROR_OF_MEAN|4.489||0.0178|TWO_SIDED|95.0|-19.47|-1.845|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.845|-19.47|0.0178
82539133|NCT00383188|164778416|SUPERIORITY||LSM Difference|-5.325|STANDARD_ERROR_OF_MEAN|4.612||0.2486|TWO_SIDED|95.0|-14.38|3.729|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.729|-14.38|0.2486
82539134|NCT00383188|164778416|SUPERIORITY||LSM Difference|-2.965|STANDARD_ERROR_OF_MEAN|3.915||0.4491|TWO_SIDED|95.0|-10.65|4.72|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.720|-10.65|0.4491
82539135|NCT00383188|164778416|SUPERIORITY||LSM Difference|-10.23|STANDARD_ERROR_OF_MEAN|3.85||0.0081|TWO_SIDED|95.0|-17.79|-2.671|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.671|-17.79|0.0081
82435109|NCT01942668|164580980|SUPERIORITY||Mean Difference (Final Values)|-11.71|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-18.31|-5.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-5.11|-18.31|<0.001
82539136|NCT00383188|164778416|SUPERIORITY||LSM Difference|-9.291|STANDARD_ERROR_OF_MEAN|4.488||0.0388|TWO_SIDED|95.0|-18.1|-0.48|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.480|-18.10|0.0388
82539137|NCT00383188|164778416|SUPERIORITY||LSM Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.611||0.588|TWO_SIDED|95.0|-11.55|6.553|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.553|-11.55|0.5880
82539138|NCT00383188|164778416|SUPERIORITY||LSM Difference|3.78|STANDARD_ERROR_OF_MEAN|3.914||0.3345|TWO_SIDED|95.0|-3.904|11.464|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||11.464|-3.904|0.3345
82539139|NCT00383188|164778416|SUPERIORITY||LSM Difference|-9.019|STANDARD_ERROR_OF_MEAN|3.849||0.0194|TWO_SIDED|95.0|-16.58|-1.463|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.463|-16.58|0.0194
82539140|NCT00383188|164778416|SUPERIORITY||LSM Difference|-5.946|STANDARD_ERROR_OF_MEAN|4.488||0.1855|TWO_SIDED|95.0|-14.76|2.863|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.863|-14.76|0.1855
82539141|NCT00383188|164778416|SUPERIORITY||LSM Difference|-5.249|STANDARD_ERROR_OF_MEAN|4.611||0.2553|TWO_SIDED|95.0|-14.3|3.803|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.803|-14.30|0.2553
82577552|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|0.2|||||TWO_SIDED|95.0|-0.9|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 19F||1.4|-0.9|
82539142|NCT00383188|164778416|SUPERIORITY||LSM Difference|-4.041|STANDARD_ERROR_OF_MEAN|3.912||0.302|TWO_SIDED|95.0|-11.72|3.639|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||3.639|-11.72|0.3020
82539143|NCT00383188|164778416|SUPERIORITY||LSM Difference|-10.27|STANDARD_ERROR_OF_MEAN|3.847||0.0078|TWO_SIDED|95.0|-17.82|-2.715|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.715|-17.82|0.0078
82539144|NCT00383188|164778416|SUPERIORITY||LSM Difference|-8.522|STANDARD_ERROR_OF_MEAN|4.486||0.0578|TWO_SIDED|95.0|-17.33|0.284|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||0.284|-17.33|0.0578
82539145|NCT00383188|164778416|SUPERIORITY||LSM Difference|-7.042|STANDARD_ERROR_OF_MEAN|4.61||0.127|TWO_SIDED|95.0|-16.09|2.007|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.007|-16.09|0.1270
82539146|NCT00383188|164778416|SUPERIORITY||LSM Difference|5.927|STANDARD_ERROR_OF_MEAN|4.051||0.1438|TWO_SIDED|95.0|-2.023|13.877|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||13.877|-2.023|0.1438
82539147|NCT00383188|164778416|SUPERIORITY||LSM Difference|-1.979|STANDARD_ERROR_OF_MEAN|3.931||0.6149|TWO_SIDED|95.0|-9.696|5.738|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.738|-9.696|0.6149
82649151|NCT03063632|165013550|OTHER|||||||||||||||||Progression is assessed by the standard response criteria used in Mycosis Fungoides and Sezary Syndrome (skin, lymph nodes, viscera, blood, global). Per Global Response Score, progression is defined as Progressive Disease (PD) in any category (i.e., skin, lymph nodes, viscera, blood).|Kaplan-Meier method|||
82435110|NCT01942668|164580981|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.061||0.031|TWO_SIDED|95.0|-0.25|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.01|-0.25|0.031
82435111|NCT01942668|164580981|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.005|TWO_SIDED|95.0|-0.28|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.05|-0.28|0.005
82435112|NCT01942668|164580981|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.401|TWO_SIDED|95.0|-0.17|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.07|-0.17|0.401
82435113|NCT01942668|164580981|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.059||0.1|TWO_SIDED|95.0|-0.21|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.02|-0.21|0.100
82435114|NCT01942668|164580982|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.38|-0.77|<0.001
82577553|NCT04546425|164864268|NON_INFERIORITY|Comparison for the 13 matched serotypes for 20vPnC is to the corresponding serotype in 13vPnC group.|Percent difference|-0.9|||||TWO_SIDED|95.0|-3.2|1.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 23F||1.4|-3.2|
82435115|NCT01942668|164580982|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.59|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.20|-0.59|<0.001
82435116|NCT01942668|164580982|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.018|TWO_SIDED|95.0|-0.43|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||-0.04|-0.43|0.018
82435117|NCT01942668|164580982|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.098||0.096|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|Each co-primary endpt in each dose group tested at alpha=0.05;multiple dose groups vs. PBO comparisons are conducted using gatekeeping procedure|Adjusted for baseline using MMRM|||0.03|-0.36|0.096
82453952|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 19F|1.97|||||TWO_SIDED|95.0|1.45|2.68||||||||2.68|1.45|
82539148|NCT00383188|164778416|SUPERIORITY||LSM Difference|6.545|STANDARD_ERROR_OF_MEAN|4.664||0.1609|TWO_SIDED|95.0|-2.61|15.7|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||15.700|-2.610|0.1609
82539149|NCT00383188|164778416|SUPERIORITY||LSM Difference|6.579|STANDARD_ERROR_OF_MEAN|4.78||0.1691|TWO_SIDED|95.0|-2.804|15.961|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Patient's Global Assessment of Arthritis count as the covariate and participant as a random effect.||15.961|-2.804|0.1691
82539150|NCT00383188|164778417|SUPERIORITY||LSM Difference|-1.409|STANDARD_ERROR_OF_MEAN|3.341||0.6733|TWO_SIDED|95.0|-7.967|5.149|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.149|-7.967|0.6733
82577554|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.0|||||TWO_SIDED|95.0|0.4|3.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 8||3.9|0.4|
82577555|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|0.6|||||TWO_SIDED|95.0|-1.5|2.7|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 10A||2.7|-1.5|
82577556|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|1.2|||||TWO_SIDED|95.0|-0.7|3.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 11A||3.2|-0.7|
82577557|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|-0.6|||||TWO_SIDED|95.0|-2.9|1.6|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 12F||1.6|-2.9|
82435118|NCT01942668|164580983|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.06||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 1 mg / Progesterone 100 mg.||1.06||
82577558|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.2|||||TWO_SIDED|95.0|0.7|4.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 15B||4.1|0.7|
82435119|NCT01942668|164580983|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.98||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 100 mg.||0.98||
82435120|NCT01942668|164580983|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.97||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 50 mg.||0.97||
82435121|NCT01942668|164580983|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.09||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.25 mg / Progesterone 50 mg.||1.09||
82649152|NCT03063632|165013551|OTHER||||||||||||||||||Kaplan-Meier method|||
82649153|NCT03063632|165013552|OTHER||||||||||||||||||Binomial distribution|||
82435122|NCT01942668|164580983|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||3.2||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Placebo.||3.20||
82435123|NCT01942668|164580984|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.06||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 1 mg / Progesterone 100 mg.||1.06||
82649154|NCT00106028|165013554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.438||||0.0625|TWO_SIDED|95.0|-0.235|9.111|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||9.111|-0.235|0.0625
82577559|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F(13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|2.0|||||TWO_SIDED|95.0|0.4|3.9|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 22F||3.9|0.4|
82577560|NCT04546425|164864268|NON_INFERIORITY|For the additional 7 serotypes, the compared results are from serotype 23F (13vPnC serotype with the lowest percentage, not including serotype 3) in the 13vPnC group.|Percent difference|1.4|||||TWO_SIDED|95.0|-0.4|3.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions expressed as a percentage.|Serotype 33F||3.4|-0.4|
82577561|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-4.5|||||TWO_SIDED|95.0|-11.2|2.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Diphtheria||2.1|-11.2|
82453953|NCT03197376|164613538|OTHER|The comparisons were based on OPA GMTs 4 weeks post primary series and 4 weeks post booster for the OPA subset of the booster cohort. It was restricted to subjects who contributed relevant data at both time points|OPA GMT Ratio-Type 23F|5.73|||||TWO_SIDED|95.0|3.8|8.63||||||||8.63|3.80|
82453954|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 1|1.84|||||TWO_SIDED|95.0|1.25|2.72||||||||2.72|1.25|
82539151|NCT00383188|164778417|SUPERIORITY||LSM Difference|-5.629|STANDARD_ERROR_OF_MEAN|3.274||0.0859|TWO_SIDED|95.0|-12.05|0.797|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||0.797|-12.05|0.0859
82577562|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-3.0|||||TWO_SIDED|95.0|-7.0|0.4|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Tetanus||0.4|-7.0|
82577563|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-0.5|||||TWO_SIDED|95.0|-5.2|4.1|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|PT||4.1|-5.2|
82539152|NCT00383188|164778417|SUPERIORITY||LSM Difference|-9.718|STANDARD_ERROR_OF_MEAN|3.8||0.0107|TWO_SIDED|95.0|-17.18|-2.259|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.259|-17.18|0.0107
82577564|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-1.5|||||TWO_SIDED|95.0|-6.4|3.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|FHA||3.3|-6.4|
82577565|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-1.5|||||TWO_SIDED|95.0|-6.4|3.3|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|PRN||3.3|-6.4|
82577566|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-3.3|||||TWO_SIDED|95.0|-10.0|2.2|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 1||2.2|-10.0|
82577567|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-2.8|||||TWO_SIDED|95.0|-11.8|5.8|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 2||5.8|-11.8|
82539153|NCT00383188|164778417|SUPERIORITY||LSM Difference|-3.695|STANDARD_ERROR_OF_MEAN|3.921||0.3463|TWO_SIDED|95.0|-11.39|4.002|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.002|-11.39|0.3463
82577568|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|-4.2|||||TWO_SIDED|95.0|-10.2|-0.5|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Poliovirus Type 3||-0.5|-10.2|
82577569|NCT04546425|164864272|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR (20vPnC/13vPnC) was greater than 0.5 (2-fold criterion).|Percent difference|0.0|||||TWO_SIDED|95.0|-1.8|2.0|||||2-Sided 95% CI based on the Miettinen and Nurminen method for the difference in proportions (20vPnC - 13vPnC) expressed as a percentage.|Hib||2.0|-1.8|
82652284|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.127||||0.3586|TWO_SIDED|95.0|-0.399|0.145||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.145|-0.399|0.3586
82453955|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 5|1.14|||||TWO_SIDED|95.0|0.79|1.64||||||||1.64|0.79|
82453956|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 6A|68.1|||||TWO_SIDED|95.0|37.07|125.09||||||||125.09|37.07|
82435124|NCT01942668|164580984|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.98||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 100 mg.||0.98||
82435125|NCT01942668|164580984|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||0.97||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.5 mg / Progesterone 50 mg.||0.97||
82435126|NCT01942668|164580984|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||1.09||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Combined Estradiol 0.25 mg / Progesterone 50 mg.||1.09||
82435127|NCT01942668|164580984|OTHER|Per FDA guidance hyperplasia proportion must be \<=1% with an upper bound of the one-sided 95% confidence interval \<=4%.|incidence rate|0.0|||||ONE_SIDED|95.0||3.2||Between group comparison was not performed.|||This calculation is based on a binomial distribution.|Between group comparison is not intended. The purpose of the analysis is to calculate the incidence rate and the 95% CI of endometrial hyperplasia per FDA published guidance for Placebo.||3.20||
82435128|NCT01942668|164580985|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|2.51||0.588|TWO_SIDED|95.0|-3.57|6.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.30|-3.57|0.588
82435129|NCT01942668|164580985|SUPERIORITY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|2.47||0.601|TWO_SIDED|95.0|-3.56|6.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.15|-3.56|0.601
82435130|NCT01942668|164580985|SUPERIORITY||Mean Difference (Final Values)|3.17|STANDARD_ERROR_OF_MEAN|2.49||0.202|TWO_SIDED|95.0|-1.71|8.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||8.06|-1.71|0.202
82435131|NCT01942668|164580985|SUPERIORITY||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.46||0.431|TWO_SIDED|95.0|-6.76|2.89||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.89|-6.76|0.431
82539154|NCT00383188|164778417|SUPERIORITY||LSM Difference|-5.185|STANDARD_ERROR_OF_MEAN|3.312||0.1178|TWO_SIDED|95.0|-11.69|1.316|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||1.316|-11.69|0.1178
82539155|NCT00383188|164778417|SUPERIORITY||LSM Difference|-7.107|STANDARD_ERROR_OF_MEAN|3.245||0.0288|TWO_SIDED|95.0|-13.48|-0.737|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.737|-13.48|0.0288
82539156|NCT00383188|164778417|SUPERIORITY||LSM Difference|-9.743|STANDARD_ERROR_OF_MEAN|3.772||0.01|TWO_SIDED|95.0|-17.15|-2.34|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.340|-17.15|0.0100
82652285|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.348||||0.0128|TWO_SIDED|95.0|-0.621|-0.075||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.075|-0.621|0.0128
82435132|NCT01942668|164580986|SUPERIORITY||Mean Difference (Final Values)|-4.35|STANDARD_ERROR_OF_MEAN|3.05||0.154|TWO_SIDED|95.0|-10.34|1.64||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.64|-10.34|0.154
82435133|NCT01942668|164580986|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|3.0||0.956|TWO_SIDED|95.0|-6.06|5.73||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||5.73|-6.06|0.956
82435134|NCT01942668|164580986|SUPERIORITY||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|3.01||0.24|TWO_SIDED|95.0|-2.37|9.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||9.46|-2.37|0.240
82435135|NCT01942668|164580986|SUPERIORITY||Mean Difference (Final Values)|-2.77|STANDARD_ERROR_OF_MEAN|2.98||0.353|TWO_SIDED|95.0|-8.62|3.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.08|-8.62|0.353
82435136|NCT01942668|164580987|SUPERIORITY||Mean Difference (Final Values)|-8.56|STANDARD_ERROR_OF_MEAN|3.16||0.007|TWO_SIDED|95.0|-14.75|-2.36||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-2.36|-14.75|0.007
82435137|NCT01942668|164580987|SUPERIORITY||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|3.11||0.227|TWO_SIDED|95.0|-9.86|2.35||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.35|-9.86|0.227
82435138|NCT01942668|164580987|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|3.12||0.597|TWO_SIDED|95.0|-7.77|4.47||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||4.47|-7.77|0.597
82453957|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 6B|1.75|||||TWO_SIDED|95.0|1.25|2.46||||||||2.46|1.25|
82453958|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 7F|1.73|||||TWO_SIDED|95.0|1.28|2.34||||||||2.34|1.28|
82453959|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 9V|0.93|||||TWO_SIDED|95.0|0.65|1.32||||||||1.32|0.65|
82453960|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 14|2.21|||||TWO_SIDED|95.0|1.38|3.51||||||||3.51|1.38|
82453961|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 19A|12.54|||||TWO_SIDED|95.0|7.36|21.37||||||||21.37|7.36|
82453962|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 19F|1.01|||||TWO_SIDED|95.0|0.7|1.46||||||||1.46|0.70|
82453963|NCT03197376|164613539|OTHER|The vaccines will be compared using the ratios of the GMT ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs based on log linear random effects models|OPA GMT Ratio-Type 23F|3.14|||||TWO_SIDED|95.0|2.21|4.45||||||||4.45|2.21|
82453964|NCT03197376|164613540|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for measles|1.7|||||TWO_SIDED|95.0|-3.3|7.4||||||||7.4|-3.3|
82539157|NCT00383188|164778417|SUPERIORITY||LSM Difference|-5.468|STANDARD_ERROR_OF_MEAN|3.888||0.16|TWO_SIDED|95.0|-13.1|2.164|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.164|-13.10|0.1600
82539158|NCT00383188|164778417|SUPERIORITY||LSM Difference|-0.4|STANDARD_ERROR_OF_MEAN|3.312||0.904|TWO_SIDED|95.0|-6.9|6.101|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.101|-6.900|0.9040
82577570|NCT02579135|164864341|SUPERIORITY|Before the onset of the study, we conducted a power calculation to determine the appropriate sample size. We designed the study to have 80% power at a .05 significance level to detect differences in primary outcomes, assuming an effect size of 0.5 and a correlation of 0.4 between assessments. Final enrollment (n= 222) exceeded our target sample size (n= 150).|beta|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.32|TWO_SIDED||||||Regression, Linear|||Third, to assess the effectiveness of the HEART intervention from pretest to immediate posttest, we used linear regression analyses to compute adjusted means and mean differences between intervention and control groups. We included an indicator for school to adjust for clustering by school. For each outcome, the corresponding pretest measure was included as a covariate.||||.32
82652286|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.384||||0.0064|TWO_SIDED|95.0|-0.66|-0.109||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.109|-0.660|0.0064
82453965|NCT03197376|164613540|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for rubella|1.0|||||TWO_SIDED|95.0|-0.9|4.0||||||||4.0|-0.9|
82453966|NCT03197376|164613540|NON_INFERIORITY|Non-inferiority will be shown if a two-sided 95% CI for the treatment-group difference in response proportions (proportion with Synflorix co-administration minus proportion with PNEUMOSIL co-administration) has an upper limit of \< 0.10.|Absolute difference for yellow fever|2.4|||||TWO_SIDED|95.0|0.2|5.9||||||||5.9|0.2|
82453967|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 1|16.2|||||TWO_SIDED|95.0|8.0|23.7||||||||23.7|8.0|
82453968|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 5|7.2|||||TWO_SIDED|95.0|-1.4|15.8||||||||15.8|-1.4|
82453969|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 6A|30.0|||||TWO_SIDED|95.0|21.8|38.1||||||||38.1|21.8|
82453970|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 6B|16.5|||||TWO_SIDED|95.0|10.1|23.6||||||||23.6|10.1|
82453971|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 7F|16.4|||||TWO_SIDED|95.0|8.4|24.5||||||||24.5|8.4|
82453972|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 9V|-0.2|||||TWO_SIDED|95.0|-8.8|8.5||||||||8.5|-8.8|
82453973|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 14|14.7|||||TWO_SIDED|95.0|7.5|22.3||||||||22.3|7.5|
82453974|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 19A|14.7|||||TWO_SIDED|95.0|7.3|22.5||||||||22.5|7.3|
82453975|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 19F|-13.7|||||TWO_SIDED|95.0|-19.0|-8.0||||||||-8.0|-19.0|
82453976|NCT03197376|164613541|OTHER|Treatment group difference in proportions|Absolute Difference for Type 23F|16.9|||||TWO_SIDED|95.0|8.2|25.4||||||||25.4|8.2|
82453977|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 1 GMC Ratio|1.64|||||TWO_SIDED|95.0|1.42|1.89||||||||1.89|1.42|
82435139|NCT01942668|164580987|SUPERIORITY||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|3.08||0.019|TWO_SIDED|95.0|-13.28|-1.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.19|-13.28|0.019
82435140|NCT01942668|164580988|SUPERIORITY||Mean Difference (Final Values)|-12.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-19.29|-6.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.32|-19.29|<0.001
82435141|NCT01942668|164580988|SUPERIORITY||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|3.25||0.013|TWO_SIDED|95.0|-14.46|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.68|-14.46|0.013
82435142|NCT01942668|164580988|SUPERIORITY||Mean Difference (Final Values)|-4.81|STANDARD_ERROR_OF_MEAN|3.26||0.141|TWO_SIDED|95.0|-11.21|1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.59|-11.21|0.141
82435143|NCT01942668|164580988|SUPERIORITY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.22||0.001|TWO_SIDED|95.0|-16.73|-4.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.08|-16.73|0.001
82435144|NCT01942668|164580989|SUPERIORITY||Mean Difference (Final Values)|-15.59|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|-22.16|-9.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.02|-22.16|<0.001
82435145|NCT01942668|164580989|SUPERIORITY||Mean Difference (Final Values)|-9.88|STANDARD_ERROR_OF_MEAN|3.29||0.003|TWO_SIDED|95.0|-16.34|-3.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.41|-16.34|0.003
82435146|NCT01942668|164580989|SUPERIORITY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|3.31||0.075|TWO_SIDED|95.0|-12.4|0.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.59|-12.40|0.075
82435147|NCT01942668|164580989|SUPERIORITY||Mean Difference (Final Values)|-12.05|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|-18.47|-5.64||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.64|-18.47|<0.001
82453978|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 5 GMC Ratio|1.2|||||TWO_SIDED|95.0|1.03|1.4||||||||1.40|1.03|
82435148|NCT01942668|164580990|SUPERIORITY||Mean Difference (Final Values)|-17.87|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-24.57|-11.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.05|-24.57|<0.001
82435149|NCT01942668|164580990|SUPERIORITY||Mean Difference (Final Values)|-11.35|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-18.0|-4.7||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.70|-18.00|<0.001
82435150|NCT01942668|164580990|SUPERIORITY||Mean Difference (Final Values)|-7.82|STANDARD_ERROR_OF_MEAN|3.4||0.022|TWO_SIDED|95.0|-14.5|-1.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.14|-14.50|0.022
82435151|NCT01942668|164580990|SUPERIORITY||Mean Difference (Final Values)|-12.51|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-19.11|-5.91||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.91|-19.11|<0.001
82435152|NCT01942668|164580991|SUPERIORITY||Mean Difference (Final Values)|-17.75|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-24.45|-11.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.06|-24.45|<0.001
82435153|NCT01942668|164580991|SUPERIORITY||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-19.88|-6.7||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.70|-19.88|<0.001
82435154|NCT01942668|164580991|SUPERIORITY||Mean Difference (Final Values)|-10.22|STANDARD_ERROR_OF_MEAN|3.37||0.003|TWO_SIDED|95.0|-16.83|-3.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.60|-16.83|0.003
82435155|NCT01942668|164580991|SUPERIORITY||Mean Difference (Final Values)|-13.61|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-20.15|-7.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.07|-20.15|<0.001
82435156|NCT01942668|164580992|SUPERIORITY||Mean Difference (Final Values)|-16.63|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-23.35|-9.91||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.91|-23.35|<0.001
82453979|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 6A GMC Ratio|2.36|||||TWO_SIDED|95.0|2.01|2.78||||||||2.78|2.01|
82435157|NCT01942668|164580992|SUPERIORITY||Mean Difference (Final Values)|-12.97|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-19.58|-6.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.36|-19.58|<0.001
82435158|NCT01942668|164580992|SUPERIORITY||Mean Difference (Final Values)|-9.63|STANDARD_ERROR_OF_MEAN|3.38||0.005|TWO_SIDED|95.0|-16.27|-2.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-2.99|-16.27|0.005
82577571|NCT02579135|164864342|SUPERIORITY|Before the onset of the study, we conducted a power calculation to determine the appropriate sample size. We designed the study to have 80% power at a .05 significance level to detect differences in primary outcomes, assuming an effect size of 0.5 and a correlation of 0.4 between assessments. Final enrollment (n= 222) exceeded our target sample size (n= 150).|beta|8.31|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED||||||Regression, Linear|||We used linear regression analyses to compute adjusted means and mean differences between intervention and control groups. We included an indicator for school to adjust for clustering by school. For each outcome, the corresponding pretest measure was included as a covariate.||||<.001
82577572|NCT01146600|164864343|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|ANOVA, comparing baseline, clarithromycin, and placebo||||||0.47
82577573|NCT01146600|164864344|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.63
82577574|NCT01146600|164864345|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.64
82577575|NCT01146600|164864346|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.002
82577576|NCT01146600|164864347|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.002
82577577|NCT01146600|164864348|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.01
82577578|NCT01146600|164864349|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|ANOVA comparing baseline, clarithromycin, and placebo||||||0.76
82577579|NCT00895895|164864360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.424|TWO_SIDED|95.0|-1.0|2.3|||Mixed Models Analysis|Mixed Model with repeated measures: change=Mini Mental State Examination (MMSE) Japan baseline baseline times(\*)visit visit treatment treatment\*visit.||Analysis of adjusted difference in change from baseline.||2.3|-1.0|0.424
82435159|NCT01942668|164580992|SUPERIORITY||Mean Difference (Final Values)|-11.97|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-18.53|-5.41||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.41|-18.53|<0.001
82652287|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.076||||0.6124|TWO_SIDED|95.0|-0.369|0.218||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.218|-0.369|0.6124
82435160|NCT01942668|164580993|SUPERIORITY||Mean Difference (Final Values)|-17.12|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-23.79|-10.44||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.44|-23.79|<0.001
82453980|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 6B GMC Ratio|1.45|||||TWO_SIDED|95.0|1.27|1.66||||||||1.66|1.27|
82453981|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 7F GMC Ratio|1.29|||||TWO_SIDED|95.0|1.12|1.49||||||||1.49|1.12|
82577580|NCT00895895|164864360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.849|TWO_SIDED|95.0|-1.8|1.5|||Mixed Models Analysis|Mixed Model with repeated measures: change equals (=) MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.5|-1.8|0.849
82577581|NCT00895895|164864360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.52|TWO_SIDED|95.0|-2.2|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-2.2|0.520
82577582|NCT00895895|164864360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.258|TWO_SIDED|95.0|-2.6|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-2.6|0.258
82577583|NCT00895895|164864361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.367|TWO_SIDED|95.0|-5.2|1.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.9|-5.2|0.367
82577584|NCT00895895|164864361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.91|TWO_SIDED|95.0|-3.3|3.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||3.7|-3.3|0.910
82577585|NCT00895895|164864361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.16|TWO_SIDED|95.0|-1.0|6.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.0|-1.0|0.160
82577586|NCT00895895|164864361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.06|TWO_SIDED|95.0|-0.1|6.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.9|-0.1|0.060
82652288|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.223||||0.1365|TWO_SIDED|95.0|-0.518|0.071||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.071|-0.518|0.1365
82435161|NCT01942668|164580993|SUPERIORITY||Mean Difference (Final Values)|-15.58|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-22.15|-9.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.01|-22.15|<0.001
82435162|NCT01942668|164580993|SUPERIORITY||Mean Difference (Final Values)|-11.05|STANDARD_ERROR_OF_MEAN|3.36||0.001|TWO_SIDED|95.0|-17.65|-4.44||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.44|-17.65|0.001
82453982|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 9V GMC Ratio|0.94|||||TWO_SIDED|95.0|0.81|1.09||||||||1.09|0.81|
82539159|NCT00383188|164778417|SUPERIORITY||LSM Difference|-6.895|STANDARD_ERROR_OF_MEAN|3.245||0.0339|TWO_SIDED|95.0|-13.26|-0.524|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.524|-13.26|0.0339
82539160|NCT00383188|164778417|SUPERIORITY||LSM Difference|-8.891|STANDARD_ERROR_OF_MEAN|3.771||0.0186|TWO_SIDED|95.0|-16.29|-1.488|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.488|-16.29|0.0186
82539161|NCT00383188|164778417|SUPERIORITY||LSM Difference|-2.714|STANDARD_ERROR_OF_MEAN|3.888||0.4854|TWO_SIDED|95.0|-10.35|4.918|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||4.918|-10.35|0.4854
82539162|NCT00383188|164778417|SUPERIORITY||LSM Difference|-1.387|STANDARD_ERROR_OF_MEAN|3.311||0.6753|TWO_SIDED|95.0|-7.886|5.112|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||5.112|-7.886|0.6753
82435163|NCT01942668|164580993|SUPERIORITY||Mean Difference (Final Values)|-13.02|STANDARD_ERROR_OF_MEAN|3.32|<|0.001|TWO_SIDED|95.0|-19.54|-6.5||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.50|-19.54|<0.001
82435164|NCT01942668|164580994|SUPERIORITY||Mean Difference (Final Values)|-16.8|STANDARD_ERROR_OF_MEAN|3.45|<|0.001|TWO_SIDED|95.0|-23.58|-10.03||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.03|-23.58|<0.001
82435165|NCT01942668|164580994|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-22.32|-8.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.99|-22.32|<0.001
82435166|NCT01942668|164580994|SUPERIORITY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|3.41||0.001|TWO_SIDED|95.0|-17.9|-4.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.49|-17.90|0.001
82539163|NCT00383188|164778417|SUPERIORITY||LSM Difference|-11.09|STANDARD_ERROR_OF_MEAN|3.244||0.0007|TWO_SIDED|95.0|-17.46|-4.724|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-4.724|-17.46|0.0007
82539164|NCT00383188|164778417|SUPERIORITY||LSM Difference|-9.535|STANDARD_ERROR_OF_MEAN|3.771||0.0116|TWO_SIDED|95.0|-16.94|-2.134|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-2.134|-16.94|0.0116
82539165|NCT00383188|164778417|SUPERIORITY||LSM Difference|-8.322|STANDARD_ERROR_OF_MEAN|3.888||0.0326|TWO_SIDED|95.0|-15.95|-0.691|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-0.691|-15.95|0.0326
82453983|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 14 GMC Ratio|1.41|||||TWO_SIDED|95.0|1.15|1.72||||||||1.72|1.15|
82539166|NCT00383188|164778417|SUPERIORITY||LSM Difference|-3.624|STANDARD_ERROR_OF_MEAN|3.309||0.2738|TWO_SIDED|95.0|-10.12|2.872|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.872|-10.12|0.2738
82435167|NCT01942668|164580994|SUPERIORITY||Mean Difference (Final Values)|-12.16|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-18.78|-5.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.55|-18.78|<0.001
82435168|NCT01942668|164580995|SUPERIORITY||Mean Difference (Final Values)|-18.11|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|-24.92|-11.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.29|-24.92|<0.001
82435169|NCT01942668|164580995|SUPERIORITY||Mean Difference (Final Values)|-16.45|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|95.0|-23.17|-9.74||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.74|-23.17|<0.001
82435170|NCT01942668|164580995|SUPERIORITY||Mean Difference (Final Values)|-12.41|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-19.15|-5.66||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.66|-19.15|<0.001
82539167|NCT00383188|164778417|SUPERIORITY||LSM Difference|-9.778|STANDARD_ERROR_OF_MEAN|3.243||0.0026|TWO_SIDED|95.0|-16.14|-3.412|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-3.412|-16.14|0.0026
82435171|NCT01942668|164580995|SUPERIORITY||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-20.26|-6.93||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.93|-20.26|<0.001
82453984|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 19A GMC Ratio|1.38|||||TWO_SIDED|95.0|1.14|1.68||||||||1.68|1.14|
82453985|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 19F GMC Ratio|0.61|||||TWO_SIDED|95.0|0.5|0.74||||||||0.74|0.50|
82453986|NCT03197376|164613542|OTHER|The vaccines were compared using the ratios of the GMC ratios for the two treatment groups, i.e., the PNEUMOSIL ratio divided by the Synflorix ratio, and the corresponding 95% CIs|Pn IgG type 23F GMC Ratio|1.5|||||TWO_SIDED|95.0|1.24|1.81||||||||1.81|1.24|
82453987|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 1 GMC Ratio|0.05|||||TWO_SIDED|95.0|0.05|0.06||||||||0.06|0.05|
82453988|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 5 GMC Ratio|0.3|||||TWO_SIDED|95.0|0.27|0.33||||||||0.33|0.27|
82453989|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6A GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.16||||||||0.16|0.13|
82453990|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6B GMC Ratio|0.11|||||TWO_SIDED|95.0|0.1|0.11||||||||0.11|0.10|
82453991|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 7F GMC Ratio|0.1|||||TWO_SIDED|95.0|0.09|0.11||||||||0.11|0.09|
82453992|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 9V GMC Ratio|0.21|||||TWO_SIDED|95.0|0.19|0.23||||||||0.23|0.19|
82453993|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 14 GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.17||||||||0.17|0.13|
82453994|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19A GMC Ratio|0.23|||||TWO_SIDED|95.0|0.2|0.26||||||||0.26|0.20|
82453995|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.15||||||||0.15|0.12|
82539168|NCT00383188|164778417|SUPERIORITY||LSM Difference|-9.339|STANDARD_ERROR_OF_MEAN|3.769||0.0134|TWO_SIDED|95.0|-16.74|-1.941|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||-1.941|-16.74|0.0134
82453996|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 23F GMC Ratio|0.11|||||TWO_SIDED|95.0|0.1|0.12||||||||0.12|0.10|
82453997|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 1 GMC Ratio|0.07|||||TWO_SIDED|95.0|0.06|0.08||||||||0.08|0.06|
82453998|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 5 GMC Ratio|0.4|||||TWO_SIDED|95.0|0.35|0.45||||||||0.45|0.35|
82453999|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6A GMC Ratio|0.73|||||TWO_SIDED|95.0|0.62|0.86||||||||0.86|0.62|
82454000|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 6B GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
82454001|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 7F GMC Ratio|0.12|||||TWO_SIDED|95.0|0.11|0.13||||||||0.13|0.11|
82454002|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 9V GMC Ratio|0.2|||||TWO_SIDED|95.0|0.18|0.22||||||||0.22|0.18|
82539169|NCT00383188|164778417|SUPERIORITY||LSM Difference|-5.528|STANDARD_ERROR_OF_MEAN|3.886||0.1553|TWO_SIDED|95.0|-13.16|2.101|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||2.101|-13.16|0.1553
82454003|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 14 GMC Ratio|0.15|||||TWO_SIDED|95.0|0.13|0.19||||||||0.19|0.13|
82454004|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19A GMC Ratio|0.64|||||TWO_SIDED|95.0|0.52|0.78||||||||0.78|0.52|
82454005|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 19F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
82454006|NCT03197376|164613543|OTHER|The comparisons were based on the ratio of IgG GMC one year post-booster to the IgG GMC 4 weeks post booster in the Booster Cohort.|Pn IgG type 23F GMC Ratio|0.14|||||TWO_SIDED|95.0|0.12|0.16||||||||0.16|0.12|
82454007|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 1|24.2|||||TWO_SIDED|95.0|4.5|42.1||||||||42.1|4.5|
82454008|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 5|9.9|||||TWO_SIDED|95.0|-5.8|25.5||||||||25.5|-5.8|
82539170|NCT00383188|164778417|SUPERIORITY||LSM Difference|-0.118|STANDARD_ERROR_OF_MEAN|3.444||0.9726|TWO_SIDED|95.0|-6.878|6.641|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||6.641|-6.878|0.9726
82539171|NCT00383188|164778417|SUPERIORITY||LSM Difference|1.409|STANDARD_ERROR_OF_MEAN|3.321||0.6714|TWO_SIDED|95.0|-5.109|7.928|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||7.928|-5.109|0.6714
82539172|NCT00383188|164778417|SUPERIORITY||LSM Difference|0.646|STANDARD_ERROR_OF_MEAN|3.925||0.8693|TWO_SIDED|95.0|-7.058|8.351|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||8.351|-7.058|0.8693
82435172|NCT01942668|164580996|SUPERIORITY||Mean Difference (Final Values)|-16.58|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-23.33|-9.82||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-9.82|-23.33|<0.001
82435173|NCT01942668|164580996|SUPERIORITY||Mean Difference (Final Values)|-15.07|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-21.72|-8.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.42|-21.72|<0.001
82435174|NCT01942668|164580996|SUPERIORITY||Mean Difference (Final Values)|-10.79|STANDARD_ERROR_OF_MEAN|3.41||0.002|TWO_SIDED|95.0|-17.48|-4.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.10|-17.48|0.002
82435175|NCT01942668|164580996|SUPERIORITY||Mean Difference (Final Values)|-11.71|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-18.31|-5.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.11|-18.31|<0.001
82435176|NCT01942668|164580997|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.034||0.801|TWO_SIDED|95.0|-0.06|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.06|0.801
82435177|NCT01942668|164580997|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.034||0.991|TWO_SIDED|95.0|-0.07|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.07|0.991
82435178|NCT01942668|164580997|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.034||0.642|TWO_SIDED|95.0|-0.05|0.08||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.05|0.642
82435179|NCT01942668|164580997|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.034||0.928|TWO_SIDED|95.0|-0.07|0.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.06|-0.07|0.928
82435180|NCT01942668|164580998|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.043||0.231|TWO_SIDED|95.0|-0.14|0.03||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.14|0.231
82435181|NCT01942668|164580998|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.042||0.173|TWO_SIDED|95.0|-0.14|0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.14|0.173
82435182|NCT01942668|164580998|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.042||0.717|TWO_SIDED|95.0|-0.07|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.07|0.717
82435183|NCT01942668|164580998|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.042||0.849|TWO_SIDED|95.0|-0.09|0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.09|0.849
82435184|NCT01942668|164580999|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.039|TWO_SIDED|95.0|-0.21|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.21|0.039
82435185|NCT01942668|164580999|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.03|TWO_SIDED|95.0|-0.21|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.21|0.030
82539173|NCT00383188|164778417|SUPERIORITY||LSM Difference|1.289|STANDARD_ERROR_OF_MEAN|4.035||0.7495|TWO_SIDED|95.0|-6.631|9.208|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline Physician's Global Assessment of Arthritis count as the covariate and participant as a random effect.||9.208|-6.631|0.7495
82577587|NCT00895895|164864362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.931|TWO_SIDED|95.0|-2.8|3.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||3.1|-2.8|0.931
82435186|NCT01942668|164580999|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.052||0.946|TWO_SIDED|95.0|-0.1|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.10|0.946
82435187|NCT01942668|164580999|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.051||0.309|TWO_SIDED|95.0|-0.15|0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.05|-0.15|0.309
82652289|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.355||||0.0193|TWO_SIDED|95.0|-0.652|-0.058||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.058|-0.652|0.0193
82454009|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 6A|65.6|||||TWO_SIDED|95.0|48.3|78.0||||||||78.0|48.3|
82454010|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 6B|23.2|||||TWO_SIDED|95.0|6.4|39.4||||||||39.4|6.4|
82454011|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 7F|2.0|||||TWO_SIDED|95.0|-5.2|10.8||||||||10.8|-5.2|
82454012|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 9V|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82454013|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type14|4.6|||||TWO_SIDED|95.0|-8.5|18.3||||||||18.3|-8.5|
82454014|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 19A|34.4|||||TWO_SIDED|95.0|16.5|50.8||||||||50.8|16.5|
82454015|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 19F|5.0|||||TWO_SIDED|95.0|-8.4|19.2||||||||19.2|-8.4|
82454016|NCT03197376|164613544|OTHER|Serotype specific functional antibody responses measured by OPA titer to Pneumosil in comparison with Synflorix for each of the 10 serotypes one year post booster|OPA Type 23F|0.0|||||TWO_SIDED||||||||CI could not be computed due to 100% response rate|||||
82454017|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 1|1.3|||||TWO_SIDED|95.0|0.8|2.1||||||||2.1|0.8|
82454018|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 5|1.3|||||TWO_SIDED|95.0|0.7|2.4||||||||2.4|0.7|
82454019|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 6A|14.3|||||TWO_SIDED|95.0|6.3|32.1||||||||32.1|6.3|
82577588|NCT00895895|164864362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9||||0.054|TWO_SIDED|95.0|-5.8|0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.1|-5.8|0.054
82577589|NCT00895895|164864362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.246|TWO_SIDED|95.0|-4.6|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-4.6|0.246
82454020|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 6B|3.7|||||TWO_SIDED|95.0|2.1|6.8||||||||6.8|2.1|
82454021|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 7F|1.0|||||TWO_SIDED|95.0|0.6|1.6||||||||1.6|0.6|
82454022|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 9V|0.7|||||TWO_SIDED|95.0|0.3|1.7||||||||1.7|0.3|
82454023|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 14|1.1|||||TWO_SIDED|95.0|0.5|2.4||||||||2.4|0.5|
82454024|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 19A|5.1|||||TWO_SIDED|95.0|2.4|10.8||||||||10.8|2.4|
82454025|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 19F|1.0|||||TWO_SIDED|95.0|0.4|2.3||||||||2.3|0.4|
82454026|NCT03197376|164613545|OTHER|Serotype specific functional antibody responses measured by OPA to Pneumosil in comparison with Synflorix for each of the 10 serotypes (GMT Ratio) one year post booster dose|OPA GMT Ratio-Type 23F|4.3|||||TWO_SIDED|95.0|2.0|9.4||||||||9.4|2.0|
82454027|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 1|0.04|||||TWO_SIDED|95.0|0.03|0.06||||||||0.06|0.03|
82454028|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 5|0.11|||||TWO_SIDED|95.0|0.09|0.14||||||||0.14|0.09|
82454029|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6A|0.05|||||TWO_SIDED|95.0|0.03|0.08||||||||0.08|0.03|
82454030|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6B|0.05|||||TWO_SIDED|95.0|0.03|0.07||||||||0.07|0.03|
82454031|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 7F|0.26|||||TWO_SIDED|95.0|0.18|0.38||||||||0.38|0.18|
82454032|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 9V|0.12|||||TWO_SIDED|95.0|0.06|0.23||||||||0.23|0.06|
82454033|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 14|0.07|||||TWO_SIDED|95.0|0.05|0.11||||||||0.11|0.05|
82454034|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19A|0.16|||||TWO_SIDED|95.0|0.09|0.3||||||||0.30|0.09|
82454035|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19F|0.09|||||TWO_SIDED|95.0|0.05|0.18||||||||0.18|0.05|
82454036|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 23F|0.12|||||TWO_SIDED|95.0|0.08|0.18||||||||0.18|0.08|
82454037|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 1|0.04|||||TWO_SIDED|95.0|0.03|0.06||||||||0.06|0.03|
82454038|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 5|0.07|||||TWO_SIDED|95.0|0.05|0.1||||||||0.10|0.05|
82454039|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6A|0.21|||||TWO_SIDED|95.0|0.09|0.48||||||||0.48|0.09|
82649155|NCT00106028|165013555|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.537||||0.6103|TWO_SIDED|95.0|-4.424|7.497|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||7.497|-4.424|0.6103
82454040|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 6B|0.02|||||TWO_SIDED|95.0|0.01|0.03||||||||0.03|0.01|
82454041|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 7F|0.44|||||TWO_SIDED|95.0|0.3|0.65||||||||0.65|0.30|
82454042|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 9V|0.11|||||TWO_SIDED|95.0|0.06|0.2||||||||0.20|0.06|
82454043|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 14|0.11|||||TWO_SIDED|95.0|0.06|0.22||||||||0.22|0.06|
82454044|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19A|0.26|||||TWO_SIDED|95.0|0.14|0.49||||||||0.49|0.14|
82454045|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 19F|0.09|||||TWO_SIDED|95.0|0.06|0.14||||||||0.14|0.06|
82454046|NCT03197376|164613546|OTHER|The comparisons were based on OPA GMTs 4 weeks post booster and one year post booster for the OPA subset of the booster cohort.|OPA GMT Ratio-Type 23F|0.07|||||TWO_SIDED|95.0|0.05|0.12||||||||0.12|0.05|
82454047|NCT03691571|164613560|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||Esophageal thermal injury was detected in 13/44 (30%) patients.||||>.05
82454048|NCT03691571|164613562|OTHER|feasibility/pilot study||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82454049|NCT03691571|164613563|OTHER|feasibility/pilot study||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82454050|NCT03691571|164613564|OTHER|feasibility/pilot study||||||0.1|||||||Fisher Exact|||||||0.10
82454051|NCT02363959|164613580|OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1
82454052|NCT02363959|164613581|OTHER|||||||0.39|||||||Fisher Exact|||||||0.39
82454053|NCT02363959|164613582|OTHER|||||||1|||||||Fisher Exact|||||||1
82454054|NCT02363959|164613583|OTHER|||||||1|||||||Fisher Exact|||||||1
82454055|NCT02363959|164613584|OTHER|||||||1|||||||Fisher Exact|||||||1
82454056|NCT02363959|164613585|OTHER|||||||1|||||||Fisher Exact|||||||1
82539174|NCT00383188|164778418|SUPERIORITY||LSM Difference|-8.983|STANDARD_ERROR_OF_MEAN|4.469||0.0447|TWO_SIDED|95.0|-17.75|-0.214|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-0.214|-17.75|0.0447
82539175|NCT00383188|164778418|SUPERIORITY||LSM Difference|-15.12|STANDARD_ERROR_OF_MEAN|4.345||0.0005|TWO_SIDED|95.0|-23.65|-6.596|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-6.596|-23.65|0.0005
82539176|NCT00383188|164778418|SUPERIORITY||LSM Difference|-17.07|STANDARD_ERROR_OF_MEAN|4.981||0.0006|TWO_SIDED|95.0|-26.84|-7.296|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-7.296|-26.84|0.0006
82539177|NCT00383188|164778418|SUPERIORITY||LSM Difference|-16.26|STANDARD_ERROR_OF_MEAN|5.218||0.0019|TWO_SIDED|95.0|-26.49|-6.018|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-6.018|-26.49|0.0019
82539178|NCT00383188|164778418|SUPERIORITY||LSM Difference|-3.841|STANDARD_ERROR_OF_MEAN|4.366||0.3792|TWO_SIDED|95.0|-12.41|4.726|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||4.726|-12.41|0.3792
82435188|NCT01942668|164581000|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.061||0.031|TWO_SIDED|95.0|-0.25|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.25|0.031
82435189|NCT01942668|164581000|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.005|TWO_SIDED|95.0|-0.28|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.05|-0.28|0.005
82454057|NCT02663622|164613590|SUPERIORITY||Cox Proportional Hazard|0.13||||0.0274|TWO_SIDED|95.0|0.01|0.62|||Log Rank|Log-rank test stratified by the matched sets||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean grade III-IV AGFS in days was 135.8 with an SD of 64.66.||0.62|0.01|0.0274
82454058|NCT02663622|164613591|SUPERIORITY||Cox Proportional Hazard|0.57||||0.0988|TWO_SIDED|95.0|0.3|1.08|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean grade II-IV AGFS in days was 104.7 with an SD of 72.28.||1.08|0.30|0.0988
82454059|NCT02663622|164613597|SUPERIORITY||Cox Proportional Hazard|1.12||||0.9088|TWO_SIDED|95.0|0.43|2.88|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean OS in days was 319.3 with an SD of 93.83.||2.88|0.43|0.9088
82454060|NCT02663622|164613599|SUPERIORITY||Cox Proportional Hazard|1.27||||0.6131|TWO_SIDED|95.0|0.66|2.46|||Log Rank|||A hazard ratio was calculated based on a Cox proportional hazards regression model with treatment as a factor using the robust sandwich covariance estimator, comparing the CD24Fc 960 mg arm to a matched control group consisting of 92 participants from the Center for International Blood and Marrow Transplant Research (CIBMTR) observational databases of clinical information on HCT, whose mean RFS in days was 296.0 with an SD of 115.32.||2.46|0.66|0.6131
82454061|NCT03937713|164613634|OTHER|Calculations were approximated by those of a simple two-sample t-test for mean differences in PSQI in response to BBTI||||||0.05|||||||Mixed Models Analysis|||The sample size selected for this preliminary trial was based on the analysis of the PSQI as the primary outcome. Assuming a correlation coefficient of 0.7 between pre-and post-treatment, 21 patients per arm were needed to achieve 80% power at a significance level of 5% in order to detect a clinically significant difference of 3 units in PSQI. To compensate for an anticipated attrition rate of 25%, the recruitment target was set at 52 participants.||||0.05
82454062|NCT03652181|164613640|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 change in mean QSM||||||0.033|||||||t-test, 2 sided|||||||0.033
82454063|NCT03652181|164613641|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 change in mean DCEQP||||||0.3459|||||||t-test, 2 sided|||||||0.3459
82454064|NCT03652181|164613642|EQUIVALENCE|The null hypothesis is that the year 1 change is equivalent to year 2 numbers||||||1|||||||Chi-squared|||||||1.0
82454065|NCT00086047|164613669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_DEVIATION|8.8||0.007|TWO_SIDED|95.0|1.57|9.22|||Mixed Models Analysis|||||9.22|1.57|0.007
82454066|NCT00786799|164613701|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|STANDARD_DEVIATION|6.1||0.4|||||||t-test, 2 sided|||The null hypothesis is that the mean change in Aberrant Behavior Checklist Hyperactivity subscale (ABC-H) score is the same for both groups.||||0.40
82435190|NCT01942668|164581000|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.401|TWO_SIDED|95.0|-0.17|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.17|0.401
82435191|NCT01942668|164581000|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.059||0.1|TWO_SIDED|95.0|-0.21|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.21|0.100
82454067|NCT02123849|164613704|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.04|||||||t-test, 1 sided|||||||0.04
82454068|NCT02123849|164613705|OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
82454069|NCT02123849|164613706|OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
82454070|NCT02123849|164613707|OTHER|||||||1|||||||Fisher Exact|||||||1.00
82454071|NCT02123849|164613708|OTHER|||||||0.42|||||||t-test, 2 sided|||||||0.42
82454072|NCT02123849|164613709|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.97|||||||t-test, 1 sided|||||||0.97
82454073|NCT02123849|164613710|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.97|||||||t-test, 1 sided|||||||0.97
82454074|NCT02123849|164613711|NON_INFERIORITY|The non-inferiority margin is 10% of the coefficient of variation (i.e., standard deviation divided by mean) which means that the changes in the signature score in the intermittent arm is no less than 90% of the coefficient of variation of the changes in the signature score in the continuous arm.||||||0.06|||||||t-test, 1 sided|||||||0.06
82652290|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.037||||0.8046|TWO_SIDED|95.0|-0.333|0.258||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.258|-0.333|0.8046
82454075|NCT01717872|164613722|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||MAC blade lifting the tongue versus Miller blade lifting the epiglottis||||>0.05
82454076|NCT01717872|164613723|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82454077|NCT01717872|164613724|SUPERIORITY_OR_OTHER||||||<|0.0004|||||||Wilcoxon (Mann-Whitney)|||||||<0.0004
82454078|NCT02178995|164613730|SUPERIORITY_OR_OTHER|||||||0.037||||||HRTSD p-value = 0.037; p \< 0.05 considered significant|ANOVA|Within-subjects contrasts, n=31, df=1||||||0.037
82454079|NCT02178995|164613730|SUPERIORITY_OR_OTHER|||||||0.055||||||D' p = 0.055. p \< 0.05 considered significant.|ANOVA|Within-subjects contrasts, placebo v 10mg v 20mg.||||||0.055
82454080|NCT02178995|164613730|SUPERIORITY_OR_OTHER|||||||0.758|||||||t-test, 2 sided|||HRTSD 10mg vs 20mg||||0.758
82454081|NCT02178995|164613730|SUPERIORITY_OR_OTHER|||||||0.499|||||||t-test, 2 sided|||d' 10mg vs 20mg||||0.499
82454082|NCT02178995|164613731|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANOVA|||||||0.008
82649156|NCT00106028|165013556|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.554||||0.0808||95.0|-0.193|3.301|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.301|-0.193|0.0808
82454083|NCT02178995|164613731|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||SDMT 10mg vs 20mg||||0.071
82454084|NCT02178995|164613732|SUPERIORITY_OR_OTHER|||||||0.154|||||||ANOVA|||||||0.154
82454085|NCT02178995|164613732|SUPERIORITY_OR_OTHER|||||||0.779|||||||t-test, 2 sided|||MCG 10mg vs 20mg||||0.779
82454086|NCT02178995|164613733|SUPERIORITY_OR_OTHER||||||<|0.0001||||||HRTSD P\<0.0001|t-test, 2 sided|||Intra-group comparison, HRTSD||||<0.0001
82454087|NCT02178995|164613733|SUPERIORITY_OR_OTHER|||||||0.001||||||HRTSD p \<0.001 for healthy controls|t-test, 2 sided|||Intra-group comparison, HRTSD, healthy controls||||0.001
82454088|NCT02178995|164613733|SUPERIORITY_OR_OTHER|||||||0.322|||||||ANOVA|||Between-group comparisons by 2-way ANOVA, HRTSD||||0.322
82454089|NCT02178995|164613733|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Intra-group comparison, epilepsy, D'||||<0.0001
82454090|NCT02178995|164613733|SUPERIORITY_OR_OTHER|||||||0.037|||||||t-test, 2 sided|||Intra-group analysis, healthy controls, d'||||0.037
82454091|NCT02178995|164613733|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||Intra-group analysis by 2-way ANOVA, d'||||0.08
82577590|NCT00895895|164864362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.426|TWO_SIDED|95.0|-4.1|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-4.1|0.426
82454092|NCT02178995|164613734|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82454093|NCT02178995|164613734|SUPERIORITY_OR_OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
82454094|NCT02178995|164613734|SUPERIORITY_OR_OTHER|||||||0.443|||||||ANOVA|||Group x time interaction by 2-way ANOVA||||0.443
82454095|NCT02178995|164613735|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82454096|NCT02178995|164613735|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
82454097|NCT02178995|164613735|SUPERIORITY_OR_OTHER|||||||0.906|||||||ANOVA|||Between-groups analysis by 2-way ANOVA||||0.906
82454098|NCT02178995|164613736|SUPERIORITY_OR_OTHER|||||||0.274|||||||t-test, 2 sided|||||||0.274
82454099|NCT02178995|164613737|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82454100|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.04||||||Hits p = 0.04|ANOVA|||||||0.04
82454101|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.038||||||Omissions p = 0.038|ANOVA|||||||0.038
82454102|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.329||||||Commissions p = 0.329|ANOVA|||||||0.329
82454103|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.876|||||||t-test, 2 sided|||Hits 10mg vs 20mg||||0.876
82454104|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.932|||||||t-test, 2 sided|||Omissions 10mg vs 20mg||||0.932
82454105|NCT02178995|164613738|SUPERIORITY_OR_OTHER|||||||0.898|||||||t-test, 2 sided|||Commissions 10mg vs 20mg||||0.898
82454106|NCT02178995|164613739|SUPERIORITY_OR_OTHER|||||||0.7116|||||||t-test, 2 sided|||Comparison of baseline rate of seizures (expressed as seizures per 28 days) pre-trial against the rate experienced during the double-blind portion of our trial.||||0.7116
82454107|NCT02178995|164613740|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Attention/Concentration subscale||||<0.0001
82454108|NCT02178995|164613740|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Memory subscale||||<0.0001
82454109|NCT02178995|164613740|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Language subscale||||0.002
82454110|NCT02178995|164613740|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Energy/fatigue subscale||||0.001
82454111|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||Hits v1 vs v5 epilepsy||||0.003
82454112|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.033|||||||t-test, 2 sided|||Hits v1 vs v5 healthy||||0.033
82454113|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.079|||||||ANOVA|||2-way ANOVA epilepsy vs healthy hits||||0.079
82454114|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Omissions epilepsy v1 vs v5||||0.001
82454115|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.029|||||||t-test, 2 sided|||Omissions v1 vs v5 healthy||||0.029
82454116|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||Epilepsy v healthy ANOVA Omissions||||0.048
82454117|NCT02178995|164613741|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Commissions v1 vs v5 epilepsy||||<0.0001
82454118|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||Commissions v1 vs v5 healthy||||0.42
82454119|NCT02178995|164613741|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANOVA|||Healthy vs epilepsy ANOVA (2-way) commissions||||0.019
82454120|NCT02178995|164613742|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82454121|NCT02178995|164613743|SUPERIORITY_OR_OTHER|||||||0.003||||||Note: Stimulant side-effect score \*decreased\* with addition of open-label stimulant.|t-test, 2 sided|||||||0.003
82454122|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||BDI epilepsy v1 vs v5||||0.014
82454123|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Healthy controls BDI v1 vs v5||||0.04
82577591|NCT00895895|164864363|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.265
82649157|NCT00106028|165013557|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.498||||0.6466|TWO_SIDED|95.0|-1.648|2.644|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||2.644|-1.648|0.6466
82435192|NCT01942668|164581001|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.071||0.001|TWO_SIDED|95.0|-0.37|-0.09||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.37|0.001
82435193|NCT01942668|164581001|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.034|TWO_SIDED|95.0|-0.28|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.28|0.034
82435194|NCT01942668|164581001|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.79|TWO_SIDED|95.0|-0.16|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.12|-0.16|0.790
82435195|NCT01942668|164581001|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.069||0.086|TWO_SIDED|95.0|-0.25|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.25|0.086
82435196|NCT01942668|164581002|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.53|<0.001
82435197|NCT01942668|164581002|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.083||0.03|TWO_SIDED|95.0|-0.34|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.34|0.030
82435198|NCT01942668|164581002|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.083||0.247|TWO_SIDED|95.0|-0.26|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.26|0.247
82435199|NCT01942668|164581002|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.082||0.022|TWO_SIDED|95.0|-0.35|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.35|0.022
82435200|NCT01942668|164581003|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-0.54|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.54|<0.001
82435201|NCT01942668|164581003|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.083||0.002|TWO_SIDED|95.0|-0.42|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.42|0.002
82435202|NCT01942668|164581003|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.084||0.031|TWO_SIDED|95.0|-0.34|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.34|0.031
82435203|NCT01942668|164581003|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.083||0.016|TWO_SIDED|95.0|-0.36|-0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.36|0.016
82435204|NCT01942668|164581004|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|-0.55|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.21|-0.55|<0.001
82435205|NCT01942668|164581004|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.086||0.008|TWO_SIDED|95.0|-0.4|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.40|0.008
82435206|NCT01942668|164581004|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.086||0.087|TWO_SIDED|95.0|-0.32|0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.32|0.087
82435207|NCT01942668|164581004|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.085||0.092|TWO_SIDED|95.0|-0.31|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.31|0.092
82435208|NCT01942668|164581005|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.092|<|0.001|TWO_SIDED|95.0|-0.66|-0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.30|-0.66|<0.001
82454124|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.191|||||||t-test, 2 sided|||Between-group comparison 2-way ANOVA BDI||||0.191
82454125|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||BAI visit 1 vs visit 5 epilepsy||||0.42
82577592|NCT00895895|164864363|SUPERIORITY_OR_OTHER|||||||0.682|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.682
82577593|NCT00895895|164864363|SUPERIORITY_OR_OTHER|||||||0.532|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.532
82454126|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.477|||||||t-test, 2 sided|||BAI visit 1 vs visit 5 healthy controls||||0.477
82454127|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.792|||||||ANOVA|||Between-groups comparison 2-way ANOVA BAI||||0.792
82454128|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.045|||||||t-test, 2 sided|||AES visit 1 vs visit 5 epilepsy||||0.045
82454129|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.646|||||||t-test, 2 sided|||AES visit 1 vs visit 5 healthy controls||||0.646
82649158|NCT00106028|165013558|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.465||||0.7391|TWO_SIDED|95.0|-3.224|2.294|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||2.294|-3.224|0.7391
82454130|NCT02178995|164613744|SUPERIORITY_OR_OTHER|||||||0.222|||||||ANOVA|||Between-groups comparison 2-way ANOVA AES||||0.222
82454131|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.011|||||||t-test, 2 sided|||Health Perceptions||||0.011
82454132|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||Overall QOL (subjectively rated by participants on the scale)||||0.01
82454133|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.164|||||||t-test, 2 sided|||Physical Function||||0.164
82454134|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.065|||||||t-test, 2 sided|||Role Limitations (Emotional)||||0.065
82454135|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||Role Limitations (Physical)||||0.014
82454136|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.128|||||||t-test, 2 sided|||Pain||||0.128
82454137|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Work/Driving/Social||||0.026
82454138|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.077|||||||t-test, 2 sided|||Emotional Wellbeing||||0.077
82454139|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Health Discouragement||||0.007
82454140|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.063|||||||t-test, 2 sided|||Seizure Worry||||0.063
82454141|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.609|||||||t-test, 2 sided|||Medication Effects||||0.609
82454142|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.626|||||||t-test, 2 sided|||Social Support||||0.626
82454143|NCT02178995|164613745|SUPERIORITY_OR_OTHER|||||||0.103|||||||t-test, 2 sided|||Social Isolation||||0.103
82454144|NCT02178995|164613746|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||Variability v1 vs v5 epilepsy||||<0.0001
82454145|NCT02178995|164613746|SUPERIORITY_OR_OTHER|||||||0.096|||||||t-test, 2 sided|||Variability v1 vs v5 healthy||||0.096
82454146|NCT02178995|164613746|SUPERIORITY_OR_OTHER|||||||0.136|||||||ANOVA|||Variability 2-way ANOVA healthy vs epilepsy||||0.136
82454147|NCT02178995|164613746|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||Perseverations v1 vs v5 epilepsy||||0.17
82454148|NCT02178995|164613746|SUPERIORITY_OR_OTHER|||||||0.104|||||||t-test, 2 sided|||Perseverations v1 vs v5 healthy||||0.104
82454149|NCT02178995|164613746|SUPERIORITY_OR_OTHER|||||||0.661|||||||ANOVA|||Perseverations 2-way ANOVA healthy vs epilepsy||||0.661
82454150|NCT02178995|164613747|SUPERIORITY_OR_OTHER|||||||0.397|||||||ANOVA|||Variability ANOVA||||0.397
82454151|NCT02178995|164613747|SUPERIORITY_OR_OTHER|||||||0.745|||||||ANOVA|||Perseverations ANOVA||||0.745
82454152|NCT02178995|164613747|SUPERIORITY_OR_OTHER|||||||0.362|||||||t-test, 2 sided|||10mg vs 20mg variability||||0.362
82454153|NCT02178995|164613747|SUPERIORITY_OR_OTHER|||||||0.745|||||||t-test, 2 sided|||10mg vs 20mg perseverations||||0.745
82454154|NCT02178995|164613748|SUPERIORITY_OR_OTHER|||||||0.48|||||||ANOVA|||HRT ANOVA||||0.48
82454155|NCT02178995|164613748|SUPERIORITY_OR_OTHER|||||||0.793|||||||t-test, 2 sided|||HRT 10mg vs 20mg||||0.793
82454156|NCT02178995|164613749|SUPERIORITY_OR_OTHER|||||||0.5|||||||t-test, 2 sided|||HRT v1 vs v5 epilepsy||||0.5
82454157|NCT02178995|164613749|SUPERIORITY_OR_OTHER|||||||0.075|||||||t-test, 2 sided|||HRT v1 vs v5 healthy||||0.075
82454158|NCT02178995|164613749|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|||HRT epilepsy vs healthy ANOVA||||0.2
82454159|NCT03187119|164613751|SUPERIORITY||Slope|1.41||||0.42|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|linear mixed model|||The reference group for this model is the Pictorial Asthma Action Plan Group.||||0.42
82454160|NCT03187119|164613751|SUPERIORITY||Slope|-14.31||||0.03|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
82454161|NCT03187119|164613751|SUPERIORITY||Slope|-0.33||||0.89|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of group and time.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.89
82454162|NCT03187119|164613752|SUPERIORITY||Slope|-1.59||||0.31|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.31
82454163|NCT03187119|164613752|SUPERIORITY||Slope|1.9||||0.73|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.73
82454164|NCT03187119|164613752|SUPERIORITY||Slope|-0.21||||0.92|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of group and time.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.92
82454165|NCT03187119|164613753|SUPERIORITY||Slope|0.52||||0.06|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.06
82435209|NCT01942668|164581005|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.09||0.001|TWO_SIDED|95.0|-0.47|-0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.12|-0.47|0.001
82435210|NCT01942668|164581005|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.091||0.009|TWO_SIDED|95.0|-0.42|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.42|0.009
82435211|NCT01942668|164581005|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.007|TWO_SIDED|95.0|-0.42|-0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.42|0.007
82435212|NCT01942668|164581006|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.71|-0.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.33|-0.71|<0.001
82435213|NCT01942668|164581006|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.094||0.003|TWO_SIDED|95.0|-0.46|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.46|0.003
82435214|NCT01942668|164581006|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.095||0.016|TWO_SIDED|95.0|-0.41|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.41|0.016
82435215|NCT01942668|164581006|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.094||0.31|TWO_SIDED|95.0|-0.28|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.28|0.310
82435216|NCT01942668|164581007|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.72|-0.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.34|-0.72|<0.001
82454166|NCT03187119|164613753|SUPERIORITY||Slope|-1.57||||0.07|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 2 for the main effect of group and the time x group interaction.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.07
82454167|NCT03187119|164613753|SUPERIORITY||Slope|0.37||||0.33|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 2 and 3 for the main effects of group and time.|generalized linear mixed model|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.33
82435217|NCT01942668|164581007|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.56|-0.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.19|-0.56|<0.001
82435218|NCT01942668|164581007|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.097||0.011|TWO_SIDED|95.0|-0.44|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.06|-0.44|0.011
82435219|NCT01942668|164581007|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.076|TWO_SIDED|95.0|-0.36|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.36|0.076
82435220|NCT01942668|164581008|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.38|-0.77|<0.001
82435221|NCT01942668|164581008|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.59|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.59|<0.001
82435222|NCT01942668|164581008|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.018|TWO_SIDED|95.0|-0.43|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.43|0.018
82435223|NCT01942668|164581008|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.098||0.096|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.36|0.096
82435224|NCT01942668|164581009|SUPERIORITY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|2.88||0.865|TWO_SIDED|95.0|-5.16|6.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.14|-5.16|0.865
82577594|NCT00895895|164864363|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.087
82435225|NCT01942668|164581009|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|2.83||0.847|TWO_SIDED|95.0|-5.01|6.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.10|-5.01|0.847
82435226|NCT01942668|164581009|SUPERIORITY||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|2.85||0.463|TWO_SIDED|95.0|-3.5|7.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||7.68|-3.50|0.463
82454168|NCT03187119|164613754|SUPERIORITY||Slope|-0.01||||0.002|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2-3 for the main effects of time and prescription and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||.002
82577595|NCT00895895|164864363|SUPERIORITY_OR_OTHER|||||||0.751|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.751
82435227|NCT01942668|164581009|SUPERIORITY||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|2.81||0.207|TWO_SIDED|95.0|-9.07|1.97||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.97|-9.07|0.207
82435228|NCT01942668|164581010|SUPERIORITY||Mean Difference (Final Values)|-5.07|STANDARD_ERROR_OF_MEAN|3.43||0.14|TWO_SIDED|95.0|-11.8|1.67||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||1.67|-11.80|0.140
82435229|NCT01942668|164581010|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|3.38||0.982|TWO_SIDED|95.0|-6.7|6.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||6.55|-6.70|0.982
82435230|NCT01942668|164581010|SUPERIORITY||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|3.39||0.492|TWO_SIDED|95.0|-4.32|8.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||8.98|-4.32|0.492
82435231|NCT01942668|164581010|SUPERIORITY||Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|3.35||0.216|TWO_SIDED|95.0|-10.72|2.43||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.43|-10.72|0.216
82435232|NCT01942668|164581011|SUPERIORITY||Mean Difference (Final Values)|-10.38|STANDARD_ERROR_OF_MEAN|3.5||0.003|TWO_SIDED|95.0|-17.26|-3.5||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.50|-17.26|0.003
82435233|NCT01942668|164581011|SUPERIORITY||Mean Difference (Final Values)|-3.75|STANDARD_ERROR_OF_MEAN|3.45||0.277|TWO_SIDED|95.0|-10.53|3.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.02|-10.53|0.277
82435234|NCT01942668|164581011|SUPERIORITY||Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|3.46||0.394|TWO_SIDED|95.0|-9.75|3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||3.84|-9.75|0.394
82435235|NCT01942668|164581011|SUPERIORITY||Mean Difference (Final Values)|-7.86|STANDARD_ERROR_OF_MEAN|3.42||0.022|TWO_SIDED|95.0|-14.58|-1.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.15|-14.58|0.022
82435236|NCT01942668|164581012|SUPERIORITY||Mean Difference (Final Values)|-15.32|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-22.75|-7.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.89|-22.75|<0.001
82435237|NCT01942668|164581012|SUPERIORITY||Mean Difference (Final Values)|-8.92|STANDARD_ERROR_OF_MEAN|3.73||0.017|TWO_SIDED|95.0|-16.24|-1.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-1.60|-16.24|0.017
82435238|NCT01942668|164581012|SUPERIORITY||Mean Difference (Final Values)|-4.56|STANDARD_ERROR_OF_MEAN|3.74||0.223|TWO_SIDED|95.0|-11.9|2.78||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||2.78|-11.90|0.223
82435239|NCT01942668|164581012|SUPERIORITY||Mean Difference (Final Values)|-11.32|STANDARD_ERROR_OF_MEAN|3.69||0.002|TWO_SIDED|95.0|-18.57|-4.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.07|-18.57|0.002
82435240|NCT01942668|164581013|SUPERIORITY||Mean Difference (Final Values)|-17.47|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-24.65|-10.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.28|-24.65|<0.001
82435241|NCT01942668|164581013|SUPERIORITY||Mean Difference (Final Values)|-10.26|STANDARD_ERROR_OF_MEAN|3.6||0.005|TWO_SIDED|95.0|-17.33|-3.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-3.18|-17.33|0.005
82435242|NCT01942668|164581013|SUPERIORITY||Mean Difference (Final Values)|-6.21|STANDARD_ERROR_OF_MEAN|3.62||0.087|TWO_SIDED|95.0|-13.31|0.89||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.89|-13.31|0.087
82435243|NCT01942668|164581013|SUPERIORITY||Mean Difference (Final Values)|-12.66|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-19.68|-5.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.65|-19.68|<0.001
82539179|NCT00383188|164778418|SUPERIORITY||LSM Difference|-9.345|STANDARD_ERROR_OF_MEAN|4.237||0.0276|TWO_SIDED|95.0|-17.66|-1.031|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-1.031|-17.66|0.0276
82539180|NCT00383188|164778418|SUPERIORITY||LSM Difference|-12.69|STANDARD_ERROR_OF_MEAN|4.873||0.0093|TWO_SIDED|95.0|-22.25|-3.128|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||-3.128|-22.25|0.0093
82539181|NCT00383188|164778418|SUPERIORITY||LSM Difference|-9.599|STANDARD_ERROR_OF_MEAN|5.03||0.0566|TWO_SIDED|95.0|-19.47|0.271|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||0.271|-19.47|0.0566
82539182|NCT00383188|164778418|SUPERIORITY||LSM Difference|0.803|STANDARD_ERROR_OF_MEAN|4.366||0.854|TWO_SIDED|95.0|-7.764|9.37|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||9.370|-7.764|0.8540
82577596|NCT00895895|164864364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.553|TWO_SIDED|95.0|-3.9|7.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.3|-3.9|0.553
82435244|NCT01942668|164581014|SUPERIORITY||Mean Difference (Final Values)|-20.32|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-27.77|-12.87||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.87|-27.77|<0.001
82435245|NCT01942668|164581014|SUPERIORITY||Mean Difference (Final Values)|-12.61|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-19.95|-5.28||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.28|-19.95|<0.001
82435246|NCT01942668|164581014|SUPERIORITY||Mean Difference (Final Values)|-8.33|STANDARD_ERROR_OF_MEAN|3.75||0.027|TWO_SIDED|95.0|-15.7|-0.96||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.96|-15.70|0.027
82435247|NCT01942668|164581014|SUPERIORITY||Mean Difference (Final Values)|-13.85|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-21.13|-6.58||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.58|-21.13|<0.001
82435248|NCT01942668|164581015|SUPERIORITY||Mean Difference (Final Values)|-21.45|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-28.87|-14.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-14.04|-28.87|<0.001
82435249|NCT01942668|164581015|SUPERIORITY||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-23.39|-8.8||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.80|-23.39|<0.001
82435250|NCT01942668|164581015|SUPERIORITY||Mean Difference (Final Values)|-12.01|STANDARD_ERROR_OF_MEAN|3.73||0.001|TWO_SIDED|95.0|-19.34|-4.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.68|-19.34|0.001
82435251|NCT01942668|164581015|SUPERIORITY||Mean Difference (Final Values)|-15.73|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-22.97|-8.49||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.49|-22.97|<0.001
82435252|NCT01942668|164581016|SUPERIORITY||Mean Difference (Final Values)|-20.52|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-28.06|-12.97||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.97|-28.06|<0.001
82435253|NCT01942668|164581016|SUPERIORITY||Mean Difference (Final Values)|-15.37|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-22.8|-7.95||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.95|-22.80|<0.001
82435254|NCT01942668|164581016|SUPERIORITY||Mean Difference (Final Values)|-11.49|STANDARD_ERROR_OF_MEAN|3.8||0.003|TWO_SIDED|95.0|-18.95|-4.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.03|-18.95|0.003
82435255|NCT01942668|164581016|SUPERIORITY||Mean Difference (Final Values)|-13.82|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-21.19|-6.46||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.46|-21.19|<0.001
82435256|NCT01942668|164581017|SUPERIORITY||Mean Difference (Final Values)|-20.34|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-27.93|-12.74||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.74|-27.93|<0.001
82435257|NCT01942668|164581017|SUPERIORITY||Mean Difference (Final Values)|-17.92|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-25.39|-10.45||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.45|-25.39|<0.001
82435258|NCT01942668|164581017|SUPERIORITY||Mean Difference (Final Values)|-12.97|STANDARD_ERROR_OF_MEAN|3.82|<|0.001|TWO_SIDED|95.0|-20.49|-5.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.46|-20.49|<0.001
82435259|NCT01942668|164581017|SUPERIORITY||Mean Difference (Final Values)|-14.28|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-21.7|-6.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.87|-21.70|<0.001
82435260|NCT01942668|164581018|SUPERIORITY||Mean Difference (Final Values)|-21.01|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-28.72|-13.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-13.29|-28.72|<0.001
82435261|NCT01942668|164581018|SUPERIORITY||Mean Difference (Final Values)|-18.37|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-25.96|-10.78||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.78|-25.96|<0.001
82435262|NCT01942668|164581018|SUPERIORITY||Mean Difference (Final Values)|-13.03|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-20.66|-5.39||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-5.39|-20.66|<0.001
82435263|NCT01942668|164581018|SUPERIORITY||Mean Difference (Final Values)|-14.65|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-22.19|-7.12||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-7.12|-22.19|<0.001
82435264|NCT01942668|164581019|SUPERIORITY||Mean Difference (Final Values)|-21.83|STANDARD_ERROR_OF_MEAN|3.94|<|0.001|TWO_SIDED|95.0|-29.57|-14.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-14.08|-29.57|<0.001
82435265|NCT01942668|164581019|SUPERIORITY||Mean Difference (Final Values)|-19.4|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-27.02|-11.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-11.77|-27.02|<0.001
82649159|NCT00106028|165013559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.333|||<|0.0001||95.0|5.258|15.408|||ANCOVA|LS Means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||15.408|5.258|<0.0001
82435266|NCT01942668|164581019|SUPERIORITY||Mean Difference (Final Values)|-13.98|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-21.65|-6.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.32|-21.65|<0.001
82435267|NCT01942668|164581019|SUPERIORITY||Mean Difference (Final Values)|-15.66|STANDARD_ERROR_OF_MEAN|3.85|<|0.001|TWO_SIDED|95.0|-23.23|-8.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-8.10|-23.23|<0.001
82435268|NCT01942668|164581020|SUPERIORITY||Mean Difference (Final Values)|-20.61|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-28.32|-12.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-12.89|-28.32|<0.001
82435269|NCT01942668|164581020|SUPERIORITY||Mean Difference (Final Values)|-18.24|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-25.84|-10.65||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-10.65|-25.84|<0.001
82435270|NCT01942668|164581020|SUPERIORITY||Mean Difference (Final Values)|-12.62|STANDARD_ERROR_OF_MEAN|3.89||0.001|TWO_SIDED|95.0|-20.26|-4.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-4.98|-20.26|0.001
82435271|NCT01942668|164581020|SUPERIORITY||Mean Difference (Final Values)|-13.97|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-21.51|-6.43||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-6.43|-21.51|<0.001
82435272|NCT01942668|164581021|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.027||0.676|TWO_SIDED|95.0|-0.04|0.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.04|0.676
82435273|NCT01942668|164581021|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.027||0.436|TWO_SIDED|95.0|-0.03|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.07|-0.03|0.436
82435274|NCT01942668|164581021|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.027||0.106|TWO_SIDED|95.0|-0.01|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.10|-0.01|0.106
82435275|NCT01942668|164581021|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.027||0.752|TWO_SIDED|95.0|-0.06|0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.06|0.752
82577597|NCT00895895|164864364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.886|TWO_SIDED|95.0|-6.0|5.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||5.2|-6.0|0.886
82435276|NCT01942668|164581022|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.038||0.193|TWO_SIDED|95.0|-0.12|0.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.12|0.193
82435277|NCT01942668|164581022|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.037||0.319|TWO_SIDED|95.0|-0.11|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.11|0.319
82435278|NCT01942668|164581022|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.037||0.239|TWO_SIDED|95.0|-0.03|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.12|-0.03|0.239
82435279|NCT01942668|164581022|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.037||0.72|TWO_SIDED|95.0|-0.09|0.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.06|-0.09|0.720
82435280|NCT01942668|164581023|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.049||0.03|TWO_SIDED|95.0|-0.2|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.20|0.030
82435281|NCT01942668|164581023|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.048||0.06|TWO_SIDED|95.0|-0.19|0.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.00|-0.19|0.060
82435282|NCT01942668|164581023|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.048||0.506|TWO_SIDED|95.0|-0.06|0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.13|-0.06|0.506
82454169|NCT03187119|164613754|SUPERIORITY||Slope|-0.16||||0.07|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effects of time and prescription and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.07
82577598|NCT00895895|164864364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.712|TWO_SIDED|95.0|-6.6|4.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||4.5|-6.6|0.712
82435283|NCT01942668|164581023|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.048||0.232|TWO_SIDED|95.0|-0.15|0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.04|-0.15|0.232
82435284|NCT01942668|164581024|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.058||0.027|TWO_SIDED|95.0|-0.24|-0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.24|0.027
82435285|NCT01942668|164581024|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.057||0.011|TWO_SIDED|95.0|-0.26|-0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.26|0.011
82435286|NCT01942668|164581024|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.057||0.71|TWO_SIDED|95.0|-0.13|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.13|0.710
82435287|NCT01942668|164581024|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.057||0.072|TWO_SIDED|95.0|-0.21|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.21|0.072
82435288|NCT01942668|164581025|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.36|-0.09||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.09|-0.36|<0.001
82649160|NCT00106028|165013560|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.04||||1789|TWO_SIDED|95.0|-2.807|14.887|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||14.887|-2.807|01789
82435289|NCT01942668|164581025|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.068||0.062|TWO_SIDED|95.0|-0.26|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.26|0.062
82435290|NCT01942668|164581025|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.068||0.886|TWO_SIDED|95.0|-0.12|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.14|-0.12|0.886
82435291|NCT01942668|164581025|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.067||0.067|TWO_SIDED|95.0|-0.26|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.26|0.067
82435292|NCT01942668|164581026|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.53|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.53|<0.001
82435293|NCT01942668|164581026|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.082||0.053|TWO_SIDED|95.0|-0.32|0.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.00|-0.32|0.053
82435294|NCT01942668|164581026|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.083||0.413|TWO_SIDED|95.0|-0.23|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.09|-0.23|0.413
82435295|NCT01942668|164581026|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.082||0.018|TWO_SIDED|95.0|-0.35|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.35|0.018
82435296|NCT01942668|164581027|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-0.54|-0.2||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.20|-0.54|<0.001
82435297|NCT01942668|164581027|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.083||0.006|TWO_SIDED|95.0|-0.4|-0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.40|0.006
82435298|NCT01942668|164581027|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.084||0.072|TWO_SIDED|95.0|-0.32|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.32|0.072
82435299|NCT01942668|164581027|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.083||0.014|TWO_SIDED|95.0|-0.37|-0.04||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.37|0.014
82577599|NCT00895895|164864364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.785|TWO_SIDED|95.0|-4.8|6.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||6.4|-4.8|0.785
82454170|NCT03187119|164613754|SUPERIORITY||Slope|0.43||||0.69|TWO_SIDED|||||The results listed here are for the main effect of prescription. Please see Analyses 1-2 for the main effects of time and group and Analyses 4-6 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||.69
82435300|NCT01942668|164581028|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|-0.55|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.21|-0.55|<0.001
82435301|NCT01942668|164581028|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.085||0.016|TWO_SIDED|95.0|-0.37|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.04|-0.37|0.016
82435302|NCT01942668|164581028|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.086||0.169|TWO_SIDED|95.0|-0.29|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.05|-0.29|0.169
82454171|NCT03187119|164613754|SUPERIORITY||Slope|0.02||||0.37|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 5-7 for other interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.37
82454172|NCT03187119|164613754|SUPERIORITY||Slope|-1.14||||0.12|TWO_SIDED|||||The results listed here are for the prescription x group interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4 and 6 for other interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference group for this analysis is the Pictorial Asthma Action Plan group.||||0.12
82454173|NCT03187119|164613754|SUPERIORITY||Slope|0.01||||0.006|TWO_SIDED|||||The results listed here are for the time x PAAP group x prescription interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4-5 for interactions.|generalized linear mixed model||The analyses are modeling lower adherence.|The reference groups for this analysis is the 2x per day group.||||0.006
82454174|NCT03187119|164613754|SUPERIORITY||Slope|0.04||||0.006|TWO_SIDED|||||The results listed here are for the time x WAAP group x prescription interaction. Please see Analyses 1-3 for the main effects of group, time and prescription and Analyses 4-5 for interactions.|generalized linear mixed model||These analyses are modeling lower adherence.|The reference group for this analysis is 2x per day group.||||0.006
82454175|NCT03187119|164613755|SUPERIORITY||Slope|0.08||||0.18|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.18
82454176|NCT03187119|164613755|SUPERIORITY||Slope|-0.09||||0.71|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.71
82454177|NCT03187119|164613755|SUPERIORITY||Slope|0.007||||0.96|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.96
82454178|NCT03187119|164613757|SUPERIORITY||Slope|-0.02||||0.74|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.74
82539183|NCT00383188|164778418|SUPERIORITY||LSM Difference|-2.364|STANDARD_ERROR_OF_MEAN|4.237||0.577|TWO_SIDED|95.0|-10.68|5.95|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||5.950|-10.68|0.5770
82539184|NCT00383188|164778418|SUPERIORITY||LSM Difference|-6.33|STANDARD_ERROR_OF_MEAN|4.873||0.1942|TWO_SIDED|95.0|-15.89|3.232|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||3.232|-15.89|0.1942
82454179|NCT03187119|164613757|SUPERIORITY||Slope|0.02||||0.83|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.83
82454180|NCT03187119|164613757|SUPERIORITY||Slope|-0.21||||0.03|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
82454181|NCT03187119|164613758|SUPERIORITY||Slope|0.12||||0.08|TWO_SIDED|||||The results listed here are for the main effect of time. Please see Analyses 2 and 3 for the main effect of group and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.08
82454182|NCT03187119|164613758|SUPERIORITY||Slope|-0.12||||0.25|TWO_SIDED|||||The results listed here are for the main effect of group. Please see Analyses 1 and 3 for the main effect of time and the time x group interaction.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.25
82539185|NCT00383188|164778418|SUPERIORITY||LSM Difference|1.494|STANDARD_ERROR_OF_MEAN|5.03||0.7665|TWO_SIDED|95.0|-8.376|11.364|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.364|-8.376|0.7665
82539186|NCT00383188|164778418|SUPERIORITY||LSM Difference|3.291|STANDARD_ERROR_OF_MEAN|4.366||0.4512|TWO_SIDED|95.0|-5.276|11.858|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.858|-5.276|0.4512
82435303|NCT01942668|164581028|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.085||0.081|TWO_SIDED|95.0|-0.31|0.02||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.02|-0.31|0.081
82435304|NCT01942668|164581029|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.092|<|0.001|TWO_SIDED|95.0|-0.66|-0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.30|-0.66|<0.001
82435305|NCT01942668|164581029|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.091||0.003|TWO_SIDED|95.0|-0.45|-0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.10|-0.45|0.003
82435306|NCT01942668|164581029|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.091||0.022|TWO_SIDED|95.0|-0.39|-0.03||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.03|-0.39|0.022
82435307|NCT01942668|164581029|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.09||0.006|TWO_SIDED|95.0|-0.43|-0.07||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.43|0.006
82435308|NCT01942668|164581030|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.71|-0.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.33|-0.71|<0.001
82435309|NCT01942668|164581030|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.095||0.007|TWO_SIDED|95.0|-0.44|-0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.07|-0.44|0.007
82435310|NCT01942668|164581030|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.095||0.038|TWO_SIDED|95.0|-0.39|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.39|0.038
82435311|NCT01942668|164581030|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.094||0.283|TWO_SIDED|95.0|-0.29|0.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.08|-0.29|0.283
82435312|NCT01942668|164581031|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.72|-0.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.34|-0.72|<0.001
82435313|NCT01942668|164581031|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-0.54|-0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.16|-0.54|<0.001
82435314|NCT01942668|164581031|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.098||0.027|TWO_SIDED|95.0|-0.41|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.02|-0.41|0.027
82435315|NCT01942668|164581031|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.096||0.071|TWO_SIDED|95.0|-0.36|0.01||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.01|-0.36|0.071
82435316|NCT01942668|164581032|SUPERIORITY||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.77|-0.37||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.37|-0.77|<0.001
82435317|NCT01942668|164581032|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.18|-0.57|<0.001
82435318|NCT01942668|164581032|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.039|TWO_SIDED|95.0|-0.4|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||-0.01|-0.40|0.039
82435319|NCT01942668|164581032|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.099||0.088|TWO_SIDED|95.0|-0.36|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis||Adjusted for baseline using MMRM|||0.03|-0.36|0.088
82435320|NCT01942668|164581033|SUPERIORITY|||||||0.85||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.850
82454183|NCT03187119|164613758|SUPERIORITY||Slope|-0.21||||0.03|TWO_SIDED|||||The results listed here are for the time x group interaction. Please see Analyses 1 and 2 for the main effects of time and group.|multiple linear regression.|||The reference for group for this analysis is the Pictorial Asthma Action Plan group.||||0.03
82435321|NCT01942668|164581033|SUPERIORITY|||||||0.622||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.622
82435322|NCT01942668|164581033|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||1.000
82435323|NCT01942668|164581033|SUPERIORITY|||||||0.374||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.374
82435324|NCT01942668|164581033|SUPERIORITY|||||||0.706||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.706
82435325|NCT01942668|164581033|SUPERIORITY|||||||0.372||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.372
82454184|NCT00571038|164613771|SUPERIORITY_OR_OTHER|||||||0.2417|TWO_SIDED||||||Mixed Models Analysis|||||||0.2417
82577600|NCT00895895|164864365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.251|TWO_SIDED|95.0|-0.5|0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.1|-0.5|0.251
82577601|NCT00895895|164864365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.993|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.3|-0.3|0.993
82577602|NCT00895895|164864365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.553|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-0.4|0.553
82577603|NCT00895895|164864365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.611|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-0.4|0.611
82577604|NCT00895895|164864366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.34|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.5|-1.5|0.340
82577605|NCT00895895|164864366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.63|TWO_SIDED|95.0|-0.8|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-0.8|0.630
82577606|NCT00895895|164864366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.678|TWO_SIDED|95.0|-0.8|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-0.8|0.678
82577607|NCT00895895|164864366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.518|TWO_SIDED|95.0|-1.3|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-1.3|0.518
82577608|NCT00895895|164864367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.953|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-0.7|0.953
82577609|NCT00895895|164864367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.956|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.6|-0.7|0.956
82577610|NCT00895895|164864367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.216|TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-1.1|0.216
82435326|NCT01942668|164581033|SUPERIORITY|||||||0.316||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.316
82435327|NCT01942668|164581033|SUPERIORITY|||||||0.221||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.221
82435328|NCT01942668|164581034|SUPERIORITY|||||||0.283||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.283
82435329|NCT01942668|164581034|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.004
82577611|NCT00895895|164864367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.665|TWO_SIDED|95.0|-0.8|0.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.5|-0.8|0.665
82577612|NCT00895895|164864368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.373|TWO_SIDED|95.0|-0.6|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-0.6|0.373
82577613|NCT00895895|164864368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.781|TWO_SIDED|95.0|-1.0|1.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.3|-1.0|0.781
82577614|NCT00895895|164864368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.417|TWO_SIDED|95.0|-0.7|1.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.6|-0.7|0.417
82577615|NCT00895895|164864368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.853|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.0|-1.3|0.853
82577616|NCT00895895|164864369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.428|TWO_SIDED|95.0|-2.6|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-2.6|0.428
82435330|NCT01942668|164581034|SUPERIORITY|||||||0.68||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.680
82435331|NCT01942668|164581034|SUPERIORITY|||||||0.232||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.232
82435332|NCT01942668|164581034|SUPERIORITY|||||||0.677||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.677
82577617|NCT00895895|164864369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.763|TWO_SIDED|95.0|-2.1|1.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.5|-2.1|0.763
82577618|NCT00895895|164864369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.312|TWO_SIDED|95.0|-2.7|0.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.9|-2.7|0.312
82577619|NCT00895895|164864369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.215|TWO_SIDED|95.0|-3.0|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-3.0|0.215
82577620|NCT00895895|164864370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.956|TWO_SIDED|95.0|-2.7|2.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.5|-2.7|0.956
82577621|NCT00895895|164864370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.988|TWO_SIDED|95.0|-2.6|2.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.5|-2.6|0.988
82577622|NCT00895895|164864370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.89|TWO_SIDED|95.0|-2.7|2.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||2.4|-2.7|0.890
82577623|NCT00895895|164864370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.28|TWO_SIDED|95.0|-4.0|1.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.2|-4.0|0.280
82577624|NCT00895895|164864371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.154|TWO_SIDED|95.0|-1.5|0.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.2|-1.5|0.154
82577625|NCT00895895|164864371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.74|TWO_SIDED|95.0|-1.0|0.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.7|-1.0|0.740
82577626|NCT00895895|164864371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.179|TWO_SIDED|95.0|-1.4|0.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||0.3|-1.4|0.179
82577627|NCT00895895|164864371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.543|TWO_SIDED|95.0|-0.6|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-0.6|0.543
82577628|NCT00895895|164864372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.4||||0.861|TWO_SIDED|95.0|-739.7|618.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||618.8|-739.7|0.861
82577629|NCT00895895|164864372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-926.6||||0.007|TWO_SIDED|95.0|-1596.9|-256.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||-256.3|-1596.9|0.007
82577630|NCT00895895|164864372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|141.3||||0.676|TWO_SIDED|95.0|-522.1|804.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||804.6|-522.1|0.676
82577631|NCT00895895|164864372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|230.6||||0.505|TWO_SIDED|95.0|-449.7|910.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||910.9|-449.7|0.505
82577632|NCT00895895|164864373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.267|TWO_SIDED|95.0|-2.2|7.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.8|-2.2|0.267
82577633|NCT00895895|164864373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.145|TWO_SIDED|95.0|-1.3|8.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||8.6|-1.3|0.145
82577634|NCT00895895|164864373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.139|TWO_SIDED|95.0|-1.2|8.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||8.6|-1.2|0.139
82577635|NCT00895895|164864373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2||||0.386|TWO_SIDED|95.0|-2.8|7.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||7.2|-2.8|0.386
82577636|NCT00895895|164864374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.032|TWO_SIDED|95.0|-2.3|-0.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||-0.1|-2.3|0.032
82577637|NCT00895895|164864374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.264|TWO_SIDED|95.0|-0.5|1.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.7|-0.5|0.264
82435333|NCT01942668|164581034|SUPERIORITY|||||||0.073||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.073
82454185|NCT00571038|164613772|SUPERIORITY_OR_OTHER|||||||0.8586|TWO_SIDED||||||Mixed Models Analysis|||||||0.8586
82454186|NCT00571038|164613773|SUPERIORITY_OR_OTHER|||||||0.0432|TWO_SIDED||||||Mixed Models Analysis|||||||0.0432
82435334|NCT01942668|164581034|SUPERIORITY|||||||0.301||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.301
82435335|NCT01942668|164581034|SUPERIORITY|||||||0.013||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.013
82435336|NCT01942668|164581035|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.003
82435337|NCT01942668|164581035|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||<0.001
82435338|NCT01942668|164581035|SUPERIORITY|||||||0.135||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.135
82435339|NCT01942668|164581035|SUPERIORITY|||||||0.231||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.231
82435340|NCT01942668|164581035|SUPERIORITY|||||||0.377||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.377
82435341|NCT01942668|164581035|SUPERIORITY|||||||0.478||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.478
82435342|NCT01942668|164581035|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.015
82454187|NCT00571038|164613774|SUPERIORITY_OR_OTHER|||||||0.0604|TWO_SIDED||||||Mixed Models Analysis|||||||0.0604
82435343|NCT01942668|164581035|SUPERIORITY|||||||0.1||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.100
82454188|NCT00571038|164613775|SUPERIORITY_OR_OTHER|||||||0.0438|TWO_SIDED||||||Kruskal-Wallis|||||||0.0438
82539187|NCT00383188|164778418|SUPERIORITY||LSM Difference|-0.095|STANDARD_ERROR_OF_MEAN|4.237||0.9822|TWO_SIDED|95.0|-8.409|8.22|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||8.220|-8.409|0.9822
82539188|NCT00383188|164778418|SUPERIORITY||LSM Difference|-5.148|STANDARD_ERROR_OF_MEAN|4.873||0.291|TWO_SIDED|95.0|-14.71|4.414|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||4.414|-14.71|0.2910
82539189|NCT00383188|164778418|SUPERIORITY||LSM Difference|2.828|STANDARD_ERROR_OF_MEAN|5.03||0.5741|TWO_SIDED|95.0|-7.042|12.698|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||12.698|-7.042|0.5741
82539190|NCT00383188|164778418|SUPERIORITY||LSM Difference|3.107|STANDARD_ERROR_OF_MEAN|4.366||0.4768|TWO_SIDED|95.0|-5.46|11.674|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.674|-5.460|0.4768
82454189|NCT00571038|164613776|SUPERIORITY_OR_OTHER|||||||0.1418|TWO_SIDED||||||Kruskal-Wallis|||||||0.1418
82454190|NCT00571038|164613777|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|Two-sided Pr \<= P||||||0.0070
82435344|NCT01942668|164581036|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
82435345|NCT01942668|164581036|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
82435346|NCT01942668|164581036|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.009
82435347|NCT01942668|164581036|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.017
82435348|NCT01942668|164581036|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.001
82435349|NCT01942668|164581036|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.025
82435350|NCT01942668|164581036|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
82454191|NCT00571038|164613778|SUPERIORITY_OR_OTHER|||||||0.8395|TWO_SIDED||||||Kruskal-Wallis|||||||0.8395
82454192|NCT00571038|164613779|SUPERIORITY_OR_OTHER|||||||0.2194|TWO_SIDED||||||Kruskal-Wallis|||||||0.2194
82454193|NCT00571038|164613780|SUPERIORITY_OR_OTHER|||||||0.9191|TWO_SIDED||||||Kruskal-Wallis|||||||0.9191
82454194|NCT00571038|164613781|SUPERIORITY_OR_OTHER|||||||0.9633|TWO_SIDED||||||Kruskal-Wallis|||||||0.9633
82454195|NCT00571038|164613782|SUPERIORITY_OR_OTHER|||||||0.5901|TWO_SIDED||||||Kruskal-Wallis|||||||0.5901
82454196|NCT00571038|164613783|SUPERIORITY_OR_OTHER|||||||0.982|TWO_SIDED||||||Kruskal-Wallis|||||||0.9820
82454197|NCT00571038|164613784|SUPERIORITY_OR_OTHER|||||||0.3979|TWO_SIDED||||||Kruskal-Wallis|||||||0.3979
82454198|NCT00571038|164613785|SUPERIORITY_OR_OTHER|||||||0.1471|TWO_SIDED||||||Kruskal-Wallis|||||||0.1471
82454199|NCT00571038|164613786|SUPERIORITY_OR_OTHER|||||||0.6123|TWO_SIDED||||||Kruskal-Wallis|||||||0.6123
82454200|NCT00571038|164613787|SUPERIORITY_OR_OTHER|||||||0.5861|TWO_SIDED||||||Kruskal-Wallis|||||||0.5861
82435351|NCT01942668|164581036|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
82435352|NCT01942668|164581037|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||<0.001
82435353|NCT01942668|164581037|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||<0.001
82435354|NCT01942668|164581037|SUPERIORITY|||||||0.066||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.066
82435355|NCT01942668|164581037|SUPERIORITY|||||||0.055||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.055
82435356|NCT01942668|164581037|SUPERIORITY|||||||0.174||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.174
82435357|NCT01942668|164581037|SUPERIORITY|||||||0.319||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.319
82454201|NCT00571038|164613788|SUPERIORITY_OR_OTHER|||||||0.4489|TWO_SIDED||||||Kruskal-Wallis|||||||0.4489
82435358|NCT01942668|164581037|SUPERIORITY|||||||0.007||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.007
82435359|NCT01942668|164581037|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.008
82435360|NCT01942668|164581038|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
82435361|NCT01942668|164581038|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||<0.001
82435362|NCT01942668|164581038|SUPERIORITY|||||||0.019||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.019
82435363|NCT01942668|164581038|SUPERIORITY|||||||0.061||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.061
82435364|NCT01942668|164581038|SUPERIORITY|||||||0.026||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.026
82435365|NCT01942668|164581038|SUPERIORITY|||||||0.104||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.104
82435366|NCT01942668|164581038|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
82435367|NCT01942668|164581038|SUPERIORITY|||||||0.018||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.018
82454202|NCT00571038|164613789|SUPERIORITY_OR_OTHER|||||||0.2527|TWO_SIDED||||||Kruskal-Wallis|||||||0.2527
82454203|NCT00571038|164613790|SUPERIORITY_OR_OTHER|||||||0.7314|TWO_SIDED||||||Kruskal-Wallis|||||||0.7314
82435368|NCT01942668|164581039|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
82435369|NCT01942668|164581039|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
82435370|NCT01942668|164581039|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.006
82435371|NCT01942668|164581039|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.003
82435372|NCT01942668|164581039|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.017
82435373|NCT01942668|164581039|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.025
82435374|NCT01942668|164581039|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.001
82435375|NCT01942668|164581039|SUPERIORITY|||||||0.037||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||0.037
82435376|NCT01942668|164581040|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||<0.001
82435377|NCT01942668|164581040|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
82435378|NCT01942668|164581040|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.001
82435379|NCT01942668|164581040|SUPERIORITY|||||||0.016||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.016
82435380|NCT01942668|164581040|SUPERIORITY|||||||0.012||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.012
82454204|NCT00571038|164613791|SUPERIORITY_OR_OTHER|||||||0.9839|TWO_SIDED||||||Kruskal-Wallis|||||||0.9839
82454205|NCT01426958|164613792|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|119.3|STANDARD_DEVIATION|11.5||0.1009|TWO_SIDED|90.0|112.239|126.811||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||126.811|112.239|0.1009
82435381|NCT01942668|164581040|SUPERIORITY|||||||0.053||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.053
82435382|NCT01942668|164581040|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.004
82435383|NCT01942668|164581040|SUPERIORITY|||||||0.074||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.074
82435384|NCT01942668|164581041|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
82435385|NCT01942668|164581041|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435386|NCT01942668|164581041|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
82435387|NCT01942668|164581041|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435388|NCT01942668|164581041|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.009
82435389|NCT01942668|164581041|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||0.004
82435390|NCT01942668|164581041|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.002
82454206|NCT01426958|164613792|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|110.23|STANDARD_DEVIATION|10.9||0.0009|TWO_SIDED|90.0|103.837|117.006||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||117.006|103.837|0.0009
82539191|NCT00383188|164778418|SUPERIORITY||LSM Difference|-2.256|STANDARD_ERROR_OF_MEAN|4.237||0.5945|TWO_SIDED|95.0|-10.57|6.058|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||6.058|-10.57|0.5945
82435391|NCT01942668|164581041|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||0.015
82435392|NCT01942668|164581042|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.004
82435393|NCT01942668|164581042|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
82435394|NCT01942668|164581042|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.002
82435395|NCT01942668|164581042|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.001
82454207|NCT01426958|164613792|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|91.9|STANDARD_DEVIATION|11.6||0.0004|TWO_SIDED|90.0|86.519|97.614||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||97.614|86.519|0.0004
82652291|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.319||||0.035|TWO_SIDED|95.0|-0.616|-0.023||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.023|-0.616|0.0350
82435396|NCT01942668|164581042|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.001
82435397|NCT01942668|164581042|SUPERIORITY|||||||0.009||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.009
82435398|NCT01942668|164581042|SUPERIORITY|||||||0.018||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.018
82435399|NCT01942668|164581042|SUPERIORITY|||||||0.021||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||0.021
82435400|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435401|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435402|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435403|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435404|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435405|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435406|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435407|NCT01942668|164581043|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435408|NCT01942668|164581044|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82435409|NCT01942668|164581044|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
82435410|NCT01942668|164581044|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82435411|NCT01942668|164581044|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
82435412|NCT01942668|164581044|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||0.006
82435413|NCT01942668|164581044|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.001
82435414|NCT01942668|164581044|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||0.015
82435415|NCT01942668|164581044|SUPERIORITY|||||||0.005||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.005
82435416|NCT01942668|164581045|SUPERIORITY|||||||0.523||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.523
82435417|NCT01942668|164581045|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
82435418|NCT01942668|164581045|SUPERIORITY|||||||0.821||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.821
82435419|NCT01942668|164581045|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
82435420|NCT01942668|164581045|SUPERIORITY|||||||0.828||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.828
82435421|NCT01942668|164581045|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||1.000
82435422|NCT01942668|164581045|SUPERIORITY|||||||0.239||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=50% Reduction||||0.239
82435423|NCT01942668|164581045|SUPERIORITY|||||||0.377||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 1|Fisher Exact|||\>=75% Reduction||||0.377
82435424|NCT01942668|164581046|SUPERIORITY|||||||0.036||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.036
82435425|NCT01942668|164581046|SUPERIORITY|||||||0.015||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.015
82454208|NCT01426958|164613793|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|104.06|STANDARD_DEVIATION|14.2||0.0002|TWO_SIDED|90.0|96.681|112.002||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||112.002|96.681|0.0002
82435426|NCT01942668|164581046|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||1.000
82435427|NCT01942668|164581046|SUPERIORITY|||||||0.546||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.546
82435428|NCT01942668|164581046|SUPERIORITY|||||||0.352||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.352
82435429|NCT01942668|164581046|SUPERIORITY|||||||0.261||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.261
82435430|NCT01942668|164581046|SUPERIORITY|||||||0.058||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=50% Reduction||||0.058
82435431|NCT01942668|164581046|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 2|Fisher Exact|||\>=75% Reduction||||0.011
82435432|NCT01942668|164581047|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||<0.001
82435433|NCT01942668|164581047|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||<0.001
82435434|NCT01942668|164581047|SUPERIORITY|||||||0.115||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.115
82435435|NCT01942668|164581047|SUPERIORITY|||||||0.11||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.110
82435436|NCT01942668|164581047|SUPERIORITY|||||||0.089||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.089
82435437|NCT01942668|164581047|SUPERIORITY|||||||0.074||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.074
82435438|NCT01942668|164581047|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=50% Reduction||||0.011
82435439|NCT01942668|164581047|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 3|Fisher Exact|||\>=75% Reduction||||0.008
82435440|NCT01942668|164581048|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
82435441|NCT01942668|164581048|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
82435442|NCT01942668|164581048|SUPERIORITY|||||||0.011||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.011
82435443|NCT01942668|164581048|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
82435444|NCT01942668|164581048|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||0.002
82435445|NCT01942668|164581048|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||0.002
82435446|NCT01942668|164581048|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=50% Reduction||||<0.001
82435447|NCT01942668|164581048|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||\>=75% Reduction||||<0.001
82435448|NCT01942668|164581049|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||<0.001
82435449|NCT01942668|164581049|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||<0.001
82435450|NCT01942668|164581049|SUPERIORITY|||||||0.048||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.048
82435451|NCT01942668|164581049|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.006
82435452|NCT01942668|164581049|SUPERIORITY|||||||0.063||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.063
82435453|NCT01942668|164581049|SUPERIORITY|||||||0.058||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.058
82435454|NCT01942668|164581049|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=50% Reduction||||0.004
82435455|NCT01942668|164581049|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 5|Fisher Exact|||\>=75% Reduction||||0.003
82435456|NCT01942668|164581050|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||<0.001
82435457|NCT01942668|164581050|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||<0.001
82435458|NCT01942668|164581050|SUPERIORITY|||||||0.05||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.050
82435459|NCT01942668|164581050|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.006
82577638|NCT00895895|164864374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.893|TWO_SIDED|95.0|-1.0|1.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.1|-1.0|0.893
82435460|NCT01942668|164581050|SUPERIORITY|||||||0.048||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.048
82435461|NCT01942668|164581050|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.004
82435462|NCT01942668|164581050|SUPERIORITY|||||||0.02||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=50% Reduction||||0.020
82435463|NCT01942668|164581050|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 6|Fisher Exact|||\>=75% Reduction||||0.001
82435464|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
82435465|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
82435466|NCT01942668|164581051|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.001
82435467|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
82435468|NCT01942668|164581051|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||0.006
82435469|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
82435470|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=50% Reduction||||<0.001
82577639|NCT00895895|164864374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.525|TWO_SIDED|95.0|-0.7|1.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||1.4|-0.7|0.525
82577640|NCT00895895|164864375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|60.9||||0.056|TWO_SIDED|95.0|-1.6|123.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||123.5|-1.6|0.056
82435471|NCT01942668|164581051|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 7|Fisher Exact|||\>=75% Reduction||||<0.001
82435472|NCT01942668|164581052|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||<0.001
82435473|NCT01942668|164581052|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
82435474|NCT01942668|164581052|SUPERIORITY|||||||0.013||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.013
82435475|NCT01942668|164581052|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||<0.001
82435476|NCT01942668|164581052|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.001
82435477|NCT01942668|164581052|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.004
82435478|NCT01942668|164581052|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=50% Reduction||||0.003
82435479|NCT01942668|164581052|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||\>=75% Reduction||||0.001
82435480|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
82435481|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435482|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||<0.001
82435483|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435484|NCT01942668|164581053|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.001
82435485|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435486|NCT01942668|164581053|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=50% Reduction||||0.004
82577641|NCT00895895|164864375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.8||||0.488|TWO_SIDED|95.0|-40.0|83.5|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||83.5|-40.0|0.488
82435487|NCT01942668|164581053|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 9|Fisher Exact|||\>=75% Reduction||||<0.001
82435488|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
82435489|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
82435490|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
82435491|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
82435492|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||<0.001
82435493|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
82435494|NCT01942668|164581054|SUPERIORITY|||||||0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=50% Reduction||||0.001
82435495|NCT01942668|164581054|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 10|Fisher Exact|||\>=75% Reduction||||<0.001
82435496|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435497|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435498|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435499|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435500|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435501|NCT01942668|164581055|SUPERIORITY|||||||0.003||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||0.003
82435502|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=50% Reduction||||<0.001
82435503|NCT01942668|164581055|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 11|Fisher Exact|||\>=75% Reduction||||<0.001
82435504|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82435505|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
82649161|NCT00106028|165013561|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28||||0.9646|TWO_SIDED|95.0|-12.196|12.755|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||12.755|-12.196|0.9646
82435506|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82454209|NCT01426958|164613793|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|105.09|STANDARD_DEVIATION|16.1||0.0012|TWO_SIDED|90.0|96.425|114.53||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||114.530|96.425|0.0012
82435507|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||<0.001
82454210|NCT01426958|164613793|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|99.75|STANDARD_DEVIATION|12.8||0|TWO_SIDED|90.0|93.328|106.61||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||106.610|93.328|0.0000
82435508|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82435509|NCT01942668|164581056|SUPERIORITY|||||||0.056||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.056
82435510|NCT01942668|164581056|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=50% Reduction||||<0.001
82435511|NCT01942668|164581056|SUPERIORITY|||||||0.017||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||\>=75% Reduction||||0.017
82435512|NCT01942668|164581057|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||||||<0.001
82435513|NCT01942668|164581057|SUPERIORITY|||||||0.005||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 4|Fisher Exact|||||||0.005
82435514|NCT01942668|164581057|SUPERIORITY|||||||0.007||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.007
82435515|NCT01942668|164581057|SUPERIORITY|||||||0.004||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 4|Fisher Exact|||||||0.004
82435516|NCT01942668|164581059|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||||||<0.001
82435517|NCT01942668|164581059|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 8|Fisher Exact|||||||<0.001
82435518|NCT01942668|164581059|SUPERIORITY|||||||0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||||||0.001
82435519|NCT01942668|164581059|SUPERIORITY|||||||0.002||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 8|Fisher Exact|||||||0.002
82435520|NCT01942668|164581061|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
82435521|NCT01942668|164581061|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
82435522|NCT01942668|164581061|SUPERIORITY||||||<|0.001||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||||||<0.001
82435523|NCT01942668|164581061|SUPERIORITY|||||||0.002||||||P-value is derived from comparing % Very Much Improved+Much Improved between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Fisher Exact|||||||0.002
82454211|NCT01426958|164613794|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|118.56|STANDARD_DEVIATION|11.5||0.0702|TWO_SIDED|90.0|111.712|125.822||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||125.822|111.712|0.0702
82454212|NCT01426958|164613794|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|110.76|STANDARD_DEVIATION|10.0||0.0005|TWO_SIDED|90.0|104.936|116.913||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||116.913|104.936|0.0005
82454213|NCT01426958|164613794|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|Geometric mean ratio|92.46|STANDARD_DEVIATION|11.9||0.0003|TWO_SIDED|90.0|86.928|98.341||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|||98.341|86.928|0.0003
82649162|NCT00106028|165013562|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.494||||0.003||95.0|1.912|9.077|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||9.077|1.912|0.0030
82454214|NCT02631551|164613795|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||GSP 301 NS vs GSP 301 placebo NS comparison for rTNSS was tested at 0.05 significance level.||||<0.0001
82454215|NCT02631551|164613795|SUPERIORITY|||||||0.0029|||||||Mixed Models Analysis|||GSP 301 NS vs Olopatadine HCl NS comparison for rTNSS was tested at 0.05 significance level.||||0.0029
82454216|NCT02631551|164613795|SUPERIORITY|||||||0.0587|||||||Mixed Models Analysis|||GSP 301 NS vs Mometasone furoate NS comparison for rTNSS was tested at 0.05 significance level.||||0.0587
82454217|NCT02631551|164613795|SUPERIORITY|||||||0.0755|||||||Mixed Models Analysis|||Olopatadine HCl NS vs GSP 301 Placebo NS comparison for rTNSS was tested at 0.05 significance level.||||0.0755
82435524|NCT01942668|164581063|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
82435525|NCT01942668|164581063|SUPERIORITY|||||||0.122|||||||Fisher Exact|||||||0.122
82454218|NCT02631551|164613795|SUPERIORITY|||||||0.0043|||||||Mixed Models Analysis|||Mometasone furoate NS vs GSP 301 Placebo NS comparison for rTNSS was tested at 0.05 significance level.||||0.0043
82539192|NCT00383188|164778418|SUPERIORITY||LSM Difference|0.609|STANDARD_ERROR_OF_MEAN|4.873||0.9006|TWO_SIDED|95.0|-8.953|10.171|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||10.171|-8.953|0.9006
82539193|NCT00383188|164778418|SUPERIORITY||LSM Difference|9.224|STANDARD_ERROR_OF_MEAN|5.03||0.067|TWO_SIDED|95.0|-0.646|19.094|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||19.094|-0.646|0.0670
82454219|NCT02968368|164613796|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0149|TWO_SIDED|95.0|0.102|0.93|||ANCOVA|||||0.930|0.102|0.0149
82454220|NCT02968368|164613801|SUPERIORITY||Mean Difference (Final Values)|39.03|STANDARD_ERROR_OF_MEAN|11.097||0.0006|TWO_SIDED|95.0|17.07|60.992|||ANCOVA|||||60.992|17.070|0.0006
82454221|NCT02968368|164613804|SUPERIORITY||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|1.282||0.0007|TWO_SIDED|95.0|1.928|7.001|||ANCOVA|||||7.001|1.928|0.0007
82454222|NCT02968368|164613805|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|0.708||0.0098|TWO_SIDED|95.0|0.457|3.261|||ANCOVA|||||3.261|0.457|0.0098
82454223|NCT00040443|164613808|OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|1.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<.05
82454224|NCT02073682|164613809|NON_INFERIORITY|Edoxaban Group was considered non-inferior to the Dalteparin Group if the upper limit of the 2-sided 95% confidence interval (CI) for the Hazard Ratio (\[LMW\] Edoxaban Group to Dalteparin Group) was less than 1.5.|Cox Proportional Hazard|0.97||||0.0056|TWO_SIDED|95.0|0.696|1.359|||Cox proportional hazard|||||1.359|0.696|0.0056
82454225|NCT02073682|164613809|SUPERIORITY|The hazard ratio (HR), two-sided confidence interval (CI) and p-value are based on the Cox proportional hazard model including treatment and the two stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||||||0.8712|||||||Cox proportional hazard|||||||0.8712
82435526|NCT01942668|164581063|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.280
82435527|NCT01942668|164581063|SUPERIORITY|||||||0.692|||||||Fisher Exact|||||||0.692
82435528|NCT01942668|164581064|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
82435529|NCT01942668|164581064|SUPERIORITY|||||||0.069|||||||Fisher Exact|||||||0.069
82435530|NCT01942668|164581064|SUPERIORITY|||||||0.131|||||||Fisher Exact|||||||0.131
82435531|NCT01942668|164581064|SUPERIORITY|||||||0.661|||||||Fisher Exact|||||||0.661
82435532|NCT01942668|164581065|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
82435533|NCT01942668|164581065|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.040
82435534|NCT01942668|164581065|SUPERIORITY|||||||0.082|||||||Fisher Exact|||||||0.082
82435535|NCT01942668|164581065|SUPERIORITY|||||||0.495|||||||Fisher Exact|||||||0.495
82435536|NCT01942668|164581066|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
82435537|NCT01942668|164581066|SUPERIORITY|||||||0.032|||||||Fisher Exact|||||||0.032
82435538|NCT01942668|164581066|SUPERIORITY|||||||0.137|||||||Fisher Exact|||||||0.137
82435539|NCT01942668|164581066|SUPERIORITY|||||||0.792|||||||Fisher Exact|||||||0.792
82454226|NCT02073682|164613810|SUPERIORITY||Hazard Ratio (HR)|2.0||||0.0254|TWO_SIDED|95.0|1.089|3.657|||Regression, Cox|||The HR, 2-sided CI and p-value are based on the Cox regression model with counting process approach for on-treatment including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||3.657|1.089|0.0254
82649163|NCT00106028|165013563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.473||||0.6106|TWO_SIDED|95.0|-4.245|7.192|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||7.192|-4.245|0.6106
82435540|NCT01942668|164581067|SUPERIORITY|||||||0|||||||Fisher Exact|||||||0.000
82435541|NCT01942668|164581067|SUPERIORITY|||||||0.067|||||||Fisher Exact|||||||0.067
82435542|NCT01942668|164581067|SUPERIORITY|||||||0.26|||||||Fisher Exact|||||||0.260
82435543|NCT01942668|164581067|SUPERIORITY|||||||0.792|||||||Fisher Exact|||||||0.792
82435544|NCT01942668|164581068|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
82435545|NCT01942668|164581068|SUPERIORITY|||||||0.095|||||||Fisher Exact|||||||0.095
82435546|NCT01942668|164581068|SUPERIORITY|||||||0.352|||||||Fisher Exact|||||||0.352
82435547|NCT01942668|164581068|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82649164|NCT00106028|165013564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.315||||0.9372|TWO_SIDED|95.0|-7.598|8.229|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||8.229|-7.598|0.9372
82435548|NCT01942668|164581069|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82435549|NCT01942668|164581069|SUPERIORITY|||||||0.075|||||||Fisher Exact|||||||0.075
82435550|NCT01942668|164581069|SUPERIORITY|||||||0.225|||||||Fisher Exact|||||||0.225
82435551|NCT01942668|164581069|SUPERIORITY|||||||0.769|||||||Fisher Exact|||||||0.769
82435552|NCT01942668|164581070|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82435553|NCT01942668|164581070|SUPERIORITY|||||||0.084|||||||Fisher Exact|||||||0.084
82435554|NCT01942668|164581070|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
82435555|NCT01942668|164581070|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
82435556|NCT01942668|164581071|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
82435557|NCT01942668|164581071|SUPERIORITY|||||||0.125|||||||Fisher Exact|||||||0.125
82435558|NCT01942668|164581071|SUPERIORITY|||||||0.386|||||||Fisher Exact|||||||0.386
82435559|NCT01942668|164581071|SUPERIORITY|||||||0.737|||||||Fisher Exact|||||||0.737
82435560|NCT01942668|164581072|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
82435561|NCT01942668|164581072|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
82435562|NCT01942668|164581072|SUPERIORITY|||||||0.745|||||||Fisher Exact|||||||0.745
82435563|NCT01942668|164581072|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435564|NCT01942668|164581073|SUPERIORITY|||||||0.035|||||||Fisher Exact|||||||0.035
82435565|NCT01942668|164581073|SUPERIORITY|||||||0.536|||||||Fisher Exact|||||||0.536
82435566|NCT01942668|164581073|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435567|NCT01942668|164581073|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435568|NCT01942668|164581074|SUPERIORITY|||||||0.261|||||||Fisher Exact|||||||0.261
82435569|NCT01942668|164581074|SUPERIORITY|||||||0.536|||||||Fisher Exact|||||||0.536
82435570|NCT01942668|164581074|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435571|NCT01942668|164581074|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435572|NCT01942668|164581075|SUPERIORITY|||||||0.463|||||||Fisher Exact|||||||0.463
82435573|NCT01942668|164581075|SUPERIORITY|||||||0.687|||||||Fisher Exact|||||||0.687
82435574|NCT01942668|164581075|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435575|NCT01942668|164581075|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435576|NCT01942668|164581076|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435577|NCT01942668|164581076|SUPERIORITY|||||||0.048|||||||Fisher Exact|||||||0.048
82435578|NCT01942668|164581076|SUPERIORITY|||||||0.049|||||||Fisher Exact|||||||0.049
82435579|NCT01942668|164581076|SUPERIORITY|||||||0.328|||||||Fisher Exact|||||||0.328
82435580|NCT01942668|164581077|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435581|NCT01942668|164581077|SUPERIORITY|||||||0.123|||||||Fisher Exact|||||||0.123
82435582|NCT01942668|164581077|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.030
82435583|NCT01942668|164581077|SUPERIORITY|||||||0.649|||||||Fisher Exact|||||||0.649
82435584|NCT01942668|164581078|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435585|NCT01942668|164581078|SUPERIORITY|||||||0.059|||||||Fisher Exact|||||||0.059
82435586|NCT01942668|164581078|SUPERIORITY|||||||0.023|||||||Fisher Exact|||||||0.023
82435587|NCT01942668|164581078|SUPERIORITY|||||||0.426|||||||Fisher Exact|||||||0.426
82435588|NCT01942668|164581079|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435589|NCT01942668|164581079|SUPERIORITY|||||||0.044|||||||Fisher Exact|||||||0.044
82435590|NCT01942668|164581079|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
82435591|NCT01942668|164581079|SUPERIORITY|||||||0.481|||||||Fisher Exact|||||||0.481
82435592|NCT01942668|164581080|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435593|NCT01942668|164581080|SUPERIORITY|||||||0.11|||||||Fisher Exact|||||||0.110
82435594|NCT01942668|164581080|SUPERIORITY|||||||0.045|||||||Fisher Exact|||||||0.045
82435595|NCT01942668|164581080|SUPERIORITY|||||||0.853|||||||Fisher Exact|||||||0.853
82435596|NCT01942668|164581081|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435597|NCT01942668|164581081|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
82435598|NCT01942668|164581081|SUPERIORITY|||||||0.145|||||||Fisher Exact|||||||0.145
82435599|NCT01942668|164581081|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435600|NCT01942668|164581082|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435601|NCT01942668|164581082|SUPERIORITY|||||||0.163|||||||Fisher Exact|||||||0.163
82435602|NCT01942668|164581082|SUPERIORITY|||||||0.091|||||||Fisher Exact|||||||0.091
82435603|NCT01942668|164581082|SUPERIORITY|||||||0.693|||||||Fisher Exact|||||||0.693
82435604|NCT01942668|164581083|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435605|NCT01942668|164581083|SUPERIORITY|||||||0.178|||||||Fisher Exact|||||||0.178
82435606|NCT01942668|164581083|SUPERIORITY|||||||0.097|||||||Fisher Exact|||||||0.097
82435607|NCT01942668|164581083|SUPERIORITY|||||||0.522|||||||Fisher Exact|||||||0.522
82454227|NCT02073682|164613811|SUPERIORITY||Cox Proportional Hazard|0.71||||0.0931|TWO_SIDED|95.0|0.476|1.059|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.059|0.476|0.0931
82454228|NCT02073682|164613812|SUPERIORITY||Cox Proportional Hazard|0.56||||0.0394|TWO_SIDED|95.0|0.318|0.972|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||0.972|0.318|0.0394
82577642|NCT00895895|164864375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6||||0.783|TWO_SIDED|95.0|-52.6|69.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||69.8|-52.6|0.783
82435608|NCT01942668|164581084|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82454229|NCT02073682|164613813|SUPERIORITY||Cox Proportional Hazard|0.9||||0.7324|TWO_SIDED|95.0|0.502|1.624|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.624|0.502|0.7324
82435609|NCT01942668|164581084|SUPERIORITY|||||||0.315|||||||Fisher Exact|||||||0.315
82435610|NCT01942668|164581084|SUPERIORITY|||||||0.181|||||||Fisher Exact|||||||0.181
82435611|NCT01942668|164581084|SUPERIORITY|||||||0.821|||||||Fisher Exact|||||||0.821
82435612|NCT01942668|164581085|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82435613|NCT01942668|164581085|SUPERIORITY|||||||0.387|||||||Fisher Exact|||||||0.387
82435614|NCT01942668|164581085|SUPERIORITY|||||||0.215|||||||Fisher Exact|||||||0.215
82435615|NCT01942668|164581085|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.639
82435616|NCT01942668|164581086|SUPERIORITY|||||||0.008|||||||Fisher Exact|||||||0.008
82435617|NCT01942668|164581086|SUPERIORITY|||||||0.643|||||||Fisher Exact|||||||0.643
82435618|NCT01942668|164581086|SUPERIORITY|||||||0.501|||||||Fisher Exact|||||||0.501
82435619|NCT01942668|164581086|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435620|NCT01942668|164581087|SUPERIORITY|||||||0.013|||||||Fisher Exact|||||||0.013
82435621|NCT01942668|164581087|SUPERIORITY|||||||0.616|||||||Fisher Exact|||||||0.616
82435622|NCT01942668|164581087|SUPERIORITY|||||||0.352|||||||Fisher Exact|||||||0.352
82435623|NCT01942668|164581087|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82435624|NCT01942668|164581088|SUPERIORITY|||||||0.023|||||||Fisher Exact|||||||0.023
82435625|NCT01942668|164581088|SUPERIORITY|||||||0.535|||||||Fisher Exact|||||||0.535
82435626|NCT01942668|164581088|SUPERIORITY|||||||0.183|||||||Fisher Exact|||||||0.183
82435627|NCT01942668|164581088|SUPERIORITY|||||||0.738|||||||Fisher Exact|||||||0.738
82435628|NCT01942668|164581089|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||<0.001
82435629|NCT01942668|164581089|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.004
82435630|NCT01942668|164581089|SUPERIORITY|||||||0.012||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.012
82435631|NCT01942668|164581089|SUPERIORITY|||||||0.032||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.032
82435632|NCT01942668|164581090|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||<0.001
82435633|NCT01942668|164581090|SUPERIORITY|||||||0.022||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||0.022
82435634|NCT01942668|164581090|SUPERIORITY|||||||0.004||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.004
82435635|NCT01942668|164581090|SUPERIORITY|||||||0.256||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.256
82435636|NCT01942668|164581091|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||<0.001
82435637|NCT01942668|164581091|SUPERIORITY|||||||0.006||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.006
82435638|NCT01942668|164581091|SUPERIORITY|||||||0.025||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.025
82435639|NCT01942668|164581091|SUPERIORITY|||||||0.182||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.182
82435640|NCT01942668|164581092|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.002
82435641|NCT01942668|164581092|SUPERIORITY|||||||0.469||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.469
82435642|NCT01942668|164581092|SUPERIORITY|||||||0.188||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||0.188
82435643|NCT01942668|164581092|SUPERIORITY|||||||0.613||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||0.613
82435644|NCT01942668|164581097|SUPERIORITY|||||||0.002||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.002
82435645|NCT01942668|164581097|SUPERIORITY|||||||0.135||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 1|Fisher Exact|||||||0.135
82577643|NCT00895895|164864375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6||||0.578|TWO_SIDED|95.0|-44.6|79.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||79.8|-44.6|0.578
82577644|NCT00895895|164864376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.1||||0.175|TWO_SIDED|95.0|-13.9|76.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||76.1|-13.9|0.175
82577645|NCT00895895|164864376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.0||||0.352|TWO_SIDED|95.0|-23.3|65.4|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||65.4|-23.3|0.352
82577646|NCT00895895|164864376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7||||0.797|TWO_SIDED|95.0|-38.1|49.6|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||49.6|-38.1|0.797
82577647|NCT00895895|164864376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.633|TWO_SIDED|95.0|-55.6|33.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||33.9|-55.6|0.633
82577648|NCT00895895|164864377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|71.2||||0.066|TWO_SIDED|95.0|-4.7|147.0|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||147.0|-4.7|0.066
82577649|NCT00895895|164864377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0||||0.598|TWO_SIDED|95.0|-54.6|94.7|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||94.7|-54.6|0.598
82577650|NCT00895895|164864377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.766|TWO_SIDED|95.0|-62.9|85.3|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||85.3|-62.9|0.766
82577651|NCT00895895|164864377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.8||||0.378|TWO_SIDED|95.0|-41.5|109.1|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||109.1|-41.5|0.378
82577652|NCT00895895|164864378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5||||0.481|TWO_SIDED|95.0|-40.2|85.2|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||85.2|-40.2|0.481
82577653|NCT00895895|164864378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.894|TWO_SIDED|95.0|-57.5|65.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||65.9|-57.5|0.894
82577654|NCT00895895|164864378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.991|TWO_SIDED|95.0|-61.5|60.8|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||60.8|-61.5|0.991
82435646|NCT01942668|164581097|SUPERIORITY|||||||0.26||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.260
82454230|NCT02073682|164613814|SUPERIORITY||Cox Proportional Hazard|1.56||||0.4873|TWO_SIDED|95.0|0.444|5.505|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||5.505|0.444|0.4873
82454231|NCT02073682|164613815|SUPERIORITY||Cox Proportional Hazard|1.08||||0.4199|TWO_SIDED|95.0|0.898|1.293|||Cox proportional hazard|||The HR, 2-sided CI, and p-value are based on the Cox proportional hazard model including treatment and the 2 stratification factors as covariates: the dichotomized bleeding risk and the dichotomized dose-adjustment factor.||1.293|0.898|0.4199
82435647|NCT01942668|164581097|SUPERIORITY|||||||0.257||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 1|Fisher Exact|||||||0.257
82435648|NCT01942668|164581098|SUPERIORITY||||||<|0.001||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||<0.001
82435649|NCT01942668|164581098|SUPERIORITY|||||||0.085||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 2|Fisher Exact|||||||0.085
82435650|NCT01942668|164581098|SUPERIORITY|||||||0.184||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.184
82435651|NCT01942668|164581098|SUPERIORITY|||||||0.681||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 2|Fisher Exact|||||||0.681
82435652|NCT01942668|164581099|SUPERIORITY|||||||0.008||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.008
82435653|NCT01942668|164581099|SUPERIORITY|||||||0.036||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 3|Fisher Exact|||||||0.036
82435654|NCT01942668|164581099|SUPERIORITY|||||||0.138||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.138
82539194|NCT00383188|164778418|SUPERIORITY||LSM Difference|8.261|STANDARD_ERROR_OF_MEAN|4.647||0.0757|TWO_SIDED|95.0|-0.857|17.379|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||17.379|-0.857|0.0757
82539195|NCT00383188|164778418|SUPERIORITY||LSM Difference|5.357|STANDARD_ERROR_OF_MEAN|4.427||0.2265|TWO_SIDED|95.0|-3.329|14.043|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||14.043|-3.329|0.2265
82435655|NCT01942668|164581099|SUPERIORITY|||||||0.685||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 3|Fisher Exact|||||||0.685
82435656|NCT01942668|164581100|SUPERIORITY|||||||0.023||||||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.023
82435657|NCT01942668|164581100|SUPERIORITY|||||||0.265||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo during Trimester 4|Fisher Exact|||||||0.265
82435658|NCT01942668|164581100|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||1.000
82435659|NCT01942668|164581100|SUPERIORITY|||||||1||||||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo during Trimester 4|Fisher Exact|||||||1.000
82435660|NCT01942668|164581105|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.246|<|0.001|TWO_SIDED|95.0|-2.13|-1.17||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.17|-2.13|<0.001
82435661|NCT01942668|164581105|SUPERIORITY||Mean Difference (Final Values)|-1.31|STANDARD_ERROR_OF_MEAN|0.242|<|0.001|TWO_SIDED|95.0|-1.79|-0.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.84|-1.79|<0.001
82435662|NCT01942668|164581105|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.242|<|0.001|TWO_SIDED|95.0|-1.64|-0.69||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.69|-1.64|<0.001
82435663|NCT01942668|164581105|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-1.51|-0.58||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.58|-1.51|<0.001
82435664|NCT01942668|164581106|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.258|<|0.001|TWO_SIDED|95.0|-1.91|-0.89||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.89|-1.91|<0.001
82454232|NCT01965704|164613816|OTHER|||||||0.2|||||||Fisher Exact|||||||0.2
82454233|NCT01965704|164613817|OTHER||Mean Difference (Final Values)|-1.9||||0.56|TWO_SIDED|95.0|-8.0|4.3|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|Difference in overall length of stay.||4.3|-8.0|0.56
82454234|NCT01965704|164613817|OTHER||Median Difference (Final Values)|-1.9||||0.07|TWO_SIDED|95.0|-4.0|0.2|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|Difference in length of stay as calculated with maximum length capped at 15 days.||0.2|-4.0|0.07
82454235|NCT01965704|164613818|OTHER||Mean Difference (Final Values)|-1.8||||0.31|TWO_SIDED|95.0|-8.8|2.7|||Wilcoxon Rank-Sum test||The 95% confidence interval between the ondansetron group and the placebo group was calculated with the use of Hodges-Lehmann estimator.|||2.7|-8.8|0.31
82454236|NCT01526213|164613820|SUPERIORITY_OR_OTHER||Geometric Mean AUC Ratio (GFJ/mGFJ)|0.96||||0.78|TWO_SIDED|90.0|0.4|1.5|||t-test, 2 sided|||For juice comparisons, fexofenadine + furanocoumarin-free grapefruit juice will be the test agent (numerator) and fexofenadine + grapefruit juice will be the reference standard (denominator).||1.5|0.4|0.78
82454237|NCT01687296|164613842|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated at the lower limit of the 95% confidence interval (5%, 2-sided significance level) for the treatment difference (FP minus prednisone) in the mean morning PEF on diary card over the treatment assessment period was greater than -12L/min.|Mean Difference (Final Values)|0.46||||0.931|TWO_SIDED|95.0|-9.85|10.76|||ANCOVA|||250 par were to be enrolled to achieve 200 total evaluable par or 100 evaluable par per group. Sample size was based on the primary efficacy endpoint (AM PEF) and had 80% power to reject the null hypothesis: nebulized FP (1 mg BID) was inferior to oral prednisone with regard to AM PEF using one-side t test at significance level 2.5%, and assuming true treatment difference (FP minus predisone) was 3.6 L/min, noninferiority margin was -12L/min, and common standard deviation was 39 L/min.||10.76|-9.85|0.931
82454238|NCT01687296|164613843|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated at the lower limit of the 95% confidence interval (5%, 2-sided significance level) for the treatment difference (FP minus prednisone) in the mean morning PEF on diary card over the treatment assessment period was greater than -12L/min.|Mean Difference (Final Values)|0.5||||0.922|TWO_SIDED|95.0|-9.64|10.65|||ANCOVA|||||10.65|-9.64|0.922
82435665|NCT01942668|164581106|SUPERIORITY||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.253|<|0.001|TWO_SIDED|95.0|-1.81|-0.82||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.82|-1.81|<0.001
82435666|NCT01942668|164581106|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.257|<|0.001|TWO_SIDED|95.0|-1.63|-0.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.62|-1.63|<0.001
82435667|NCT01942668|164581106|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.254||0.007|TWO_SIDED|95.0|-1.19|-0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.19|-1.19|0.007
82435668|NCT01942668|164581107|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-1.75|-0.66||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.66|-1.75|<0.001
82435669|NCT01942668|164581107|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|0.265|<|0.001|TWO_SIDED|95.0|-1.98|-0.94||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.94|-1.98|<0.001
82435670|NCT01942668|164581107|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.272|<|0.001|TWO_SIDED|95.0|-1.76|-0.69||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.69|-1.76|<0.001
82435671|NCT01942668|164581107|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.272||0.008|TWO_SIDED|95.0|-1.26|-0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.19|-1.26|0.008
82435672|NCT01942668|164581108|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.161||0.284|TWO_SIDED|95.0|-0.49|0.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.49|0.284
82435673|NCT01942668|164581108|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.158||0.732|TWO_SIDED|95.0|-0.36|0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.26|-0.36|0.732
82435674|NCT01942668|164581108|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.159||0.437|TWO_SIDED|95.0|-0.44|0.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.19|-0.44|0.437
82435675|NCT01942668|164581108|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.156||0.439|TWO_SIDED|95.0|-0.43|0.19||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.19|-0.43|0.439
82435676|NCT01942668|164581109|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.169||0.04|TWO_SIDED|95.0|-0.68|-0.02||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.02|-0.68|0.040
82435677|NCT01942668|164581109|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.165||0.066|TWO_SIDED|95.0|-0.63|0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.02|-0.63|0.066
82435678|NCT01942668|164581109|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.168||0.469|TWO_SIDED|95.0|-0.45|0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.21|-0.45|0.469
82435679|NCT01942668|164581109|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.166||0.616|TWO_SIDED|95.0|-0.41|0.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.41|0.616
82435680|NCT01942668|164581110|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.183||0.25|TWO_SIDED|95.0|-0.57|0.15||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.57|0.250
82435681|NCT01942668|164581110|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.175||0.002|TWO_SIDED|95.0|-0.88|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.20|-0.88|0.002
82435682|NCT01942668|164581110|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.179||0.796|TWO_SIDED|95.0|-0.4|0.31||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.31|-0.40|0.796
82435683|NCT01942668|164581110|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.179||0.955|TWO_SIDED|95.0|-0.36|0.34||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.34|-0.36|0.955
82435684|NCT01942668|164581111|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.143||0.474|TWO_SIDED|95.0|-0.38|0.18||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.18|-0.38|0.474
82435685|NCT01942668|164581111|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.378|TWO_SIDED|95.0|-0.4|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.15|-0.40|0.378
82435686|NCT01942668|164581111|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.141||0.018|TWO_SIDED|95.0|-0.61|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.61|0.018
82454239|NCT01687296|164613844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.16||||0.822|TWO_SIDED|95.0|-9.02|11.34|||ANCOVA|||||11.34|-9.02|0.822
82435687|NCT01942668|164581111|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.138||0.73|TWO_SIDED|95.0|-0.32|0.22||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.22|-0.32|0.730
82435688|NCT01942668|164581112|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.152||0.197|TWO_SIDED|95.0|-0.49|0.1||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.10|-0.49|0.197
82435689|NCT01942668|164581112|SUPERIORITY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.148||0.308|TWO_SIDED|95.0|-0.44|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.14|-0.44|0.308
82435690|NCT01942668|164581112|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.152||0.117|TWO_SIDED|95.0|-0.54|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.06|-0.54|0.117
82435691|NCT01942668|164581112|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.149||0.739|TWO_SIDED|95.0|-0.34|0.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.34|0.739
82454240|NCT01687296|164613845|SUPERIORITY_OR_OTHER|||||||0.717||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for day-time symptom score||||0.717
82454241|NCT01687296|164613845|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for night-time symptom score||||0.683
82454242|NCT01687296|164613846|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Wilcoxon rank sum test|||||||0.996
82454243|NCT01687296|164613847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.348|TWO_SIDED|95.0|-0.135|0.048|||ANCOVA|||Fluticasone propionate versus Prednisone for FEV1 on Day 5||0.048|-0.135|0.348
82454244|NCT01687296|164613847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004||||0.914|TWO_SIDED|95.0|-0.074|0.083|||ANCOVA|||Fluticasone propionate versus Prednisone for FEV1 on Day 8||0.083|-0.074|0.914
82454245|NCT01687296|164613847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.067||||0.276|TWO_SIDED|95.0|-0.187|0.054|||ANCOVA|||Fluticasone propionate versus Prednisone for FVC on Day 5||0.054|-0.187|0.276
82539196|NCT00383188|164778418|SUPERIORITY||LSM Difference|1.642|STANDARD_ERROR_OF_MEAN|5.178||0.7512|TWO_SIDED|95.0|-8.517|11.801|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||11.801|-8.517|0.7512
82435692|NCT01942668|164581113|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.171||0.635|TWO_SIDED|95.0|-0.42|0.26||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.26|-0.42|0.635
82435693|NCT01942668|164581113|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.164||0.01|TWO_SIDED|95.0|-0.75|-0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.75|0.010
82435694|NCT01942668|164581113|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.169||0.092|TWO_SIDED|95.0|-0.62|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.05|-0.62|0.092
82435695|NCT01942668|164581113|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.168||0.243|TWO_SIDED|95.0|-0.53|0.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.13|-0.53|0.243
82435696|NCT01942668|164581114|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.21||0.049|TWO_SIDED|95.0|-0.83|0.0||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.00|-0.83|0.049
82435697|NCT01942668|164581114|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.206||0.773|TWO_SIDED|95.0|-0.34|0.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.46|-0.34|0.773
82435698|NCT01942668|164581114|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.208||0.081|TWO_SIDED|95.0|-0.77|0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.05|-0.77|0.081
82435699|NCT01942668|164581114|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.204||0.625|TWO_SIDED|95.0|-0.5|0.3||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.30|-0.50|0.625
82435700|NCT01942668|164581115|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.221||0.221|TWO_SIDED|95.0|-0.7|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.16|-0.70|0.221
82435701|NCT01942668|164581115|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.214||0.992|TWO_SIDED|95.0|-0.42|0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.42|-0.42|0.992
82454246|NCT01687296|164613847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.384|TWO_SIDED|95.0|-0.126|0.049|||ANCOVA|||Fluticasone propionate versus Prednisone for FVC on Day 8||0.049|-0.126|0.384
82454247|NCT01687296|164613848|SUPERIORITY_OR_OTHER|||||||0.507||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for clinical scoring index on Day 5||||0.507
82454248|NCT01687296|164613848|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for clinical scoring index on Day 8||||0.700
82454249|NCT01687296|164613849|SUPERIORITY_OR_OTHER|||||||0.633||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for participant/parent global evaluation||||0.633
82454250|NCT01687296|164613849|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Wilcoxon rank sum test|||Fluticasone propionate versus Prednisone for investigator global evaluation||||0.323
82454251|NCT02336230|164613858|OTHER|||||||0.0003||||||P-value was calculated from the binomial distribution under the assumption of a 0.45 success rate for the null hypothesis.|Binomial Distribution|||||||0.0003
82454252|NCT02336230|164613860|OTHER|||||||0.0032||||||P-value was from a Cochran-Mantel-Haenszel (CMH) test stratified by baseline aGVHD grade.|CHM test|||||||0.0032
82454253|NCT02524171|164613864|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.1|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454254|NCT02524171|164613864|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.88|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82435702|NCT01942668|164581115|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.219||0.181|TWO_SIDED|95.0|-0.72|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.14|-0.72|0.181
82435703|NCT01942668|164581115|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.216||0.846|TWO_SIDED|95.0|-0.47|0.38||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.38|-0.47|0.846
82454255|NCT02524171|164613865|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454256|NCT02524171|164613865|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454257|NCT02524171|164613866|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|10.98|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454258|NCT02524171|164613866|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|14.64|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454259|NCT02524171|164613867|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|1.45|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews||||||>0.05
82454260|NCT02524171|164613867|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|1.22|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454261|NCT02524171|164613868|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.04|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454262|NCT02524171|164613868|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
82454263|NCT02524171|164613869|SUPERIORITY||Time x Condition at 6mo.(Beta value)|0.04|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454264|NCT02524171|164613869|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454265|NCT02524171|164613870|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454266|NCT02524171|164613870|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|-0.08|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||<0.05
82577655|NCT00895895|164864378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.5||||0.422|TWO_SIDED|95.0|-87.9|36.9|||Mixed Models Analysis|Mixed Model with repeated measures: change = MMSE Japan baseline baseline \* visit visit treatment treatment \* visit.||Analysis of adjusted difference in change from baseline.||36.9|-87.9|0.422
82454267|NCT02524171|164613871|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||<0.05
82454268|NCT02524171|164613871|SUPERIORITY||Time x Condition at 6 mo.(Beta value)|0.06|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454269|NCT02524171|164613872|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta|0.69|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82577656|NCT00895895|164864379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.581|TWO_SIDED|95.0|0.24|2.22|||Regression, Logistic|||||2.22|0.24|0.581
82577657|NCT00895895|164864379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.77|TWO_SIDED|95.0|0.42|3.19|||Regression, Logistic|||||3.19|0.42|0.770
82577658|NCT00895895|164864379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.216|TWO_SIDED|95.0|0.71|4.55|||Regression, Logistic|||||4.55|0.71|0.216
82435704|NCT01942668|164581116|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.257||0.421|TWO_SIDED|95.0|-0.71|0.3||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.30|-0.71|0.421
82539197|NCT00383188|164778418|SUPERIORITY||LSM Difference|2.888|STANDARD_ERROR_OF_MEAN|5.323||0.5876|TWO_SIDED|95.0|-7.557|13.332|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline C-Reactive Protein as the covariate and participant as a random effect.||13.332|-7.557|0.5876
82539198|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.269|STANDARD_ERROR_OF_MEAN|0.188||0.154|TWO_SIDED|95.0|-0.638|0.101|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.101|-0.638|0.1540
82539199|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.182||0.0011|TWO_SIDED|95.0|-0.958|-0.242|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.242|-0.958|0.0011
82539200|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.691|STANDARD_ERROR_OF_MEAN|0.211||0.0011|TWO_SIDED|95.0|-1.105|-0.277|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.277|-1.105|0.0011
82539201|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.554|STANDARD_ERROR_OF_MEAN|0.219||0.0115|TWO_SIDED|95.0|-0.983|-0.125|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.125|-0.983|0.0115
82539202|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.185||0.094|TWO_SIDED|95.0|-0.673|0.053|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.053|-0.673|0.0940
82577659|NCT00895895|164864379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.037|TWO_SIDED|95.0|1.06|6.42|||Regression, Logistic|||||6.42|1.06|0.037
82577660|NCT01572740|164864380|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.3|||<|0.0001||95.0|-1.47|-1.13|||ANCOVA|||||-1.13|-1.47|<0.0001
82652292|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.392||||0.0105|TWO_SIDED|95.0|-0.691|-0.093||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.093|-0.691|0.0105
82454270|NCT02524171|164613872|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|-0.89|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82539203|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.459|STANDARD_ERROR_OF_MEAN|0.18||0.0109|TWO_SIDED|95.0|-0.811|-0.106|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.106|-0.811|0.0109
82435705|NCT01942668|164581116|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.244||0.044|TWO_SIDED|95.0|-0.97|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.01|-0.97|0.044
82539204|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.667|STANDARD_ERROR_OF_MEAN|0.208||0.0014|TWO_SIDED|95.0|-1.075|-0.259|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.259|-1.075|0.0014
82539205|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.447|STANDARD_ERROR_OF_MEAN|0.213||0.0364|TWO_SIDED|95.0|-0.867|-0.028|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.028|-0.867|0.0364
82539206|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.271|STANDARD_ERROR_OF_MEAN|0.185||0.1436|TWO_SIDED|95.0|-0.634|0.092|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.092|-0.634|0.1436
82539207|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.404|STANDARD_ERROR_OF_MEAN|0.18||0.0246|TWO_SIDED|95.0|-0.757|-0.052|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.052|-0.757|0.0246
82454271|NCT02524171|164613873|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.07|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82577661|NCT01572740|164864381|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.81|||<|0.0001||95.0|-0.99|-0.63|||ANCOVA|||||-0.63|-0.99|<0.0001
82435706|NCT01942668|164581116|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.252||0.093|TWO_SIDED|95.0|-0.92|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.07|-0.92|0.093
82577662|NCT01572740|164864382|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.83|||<|0.0006||95.0|-1.3|-0.36|||ANCOVA|||||-0.36|-1.30|<0.0006
82577663|NCT01572740|164864383|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.26||||0.2511||95.0|-0.7|0.18|||ANCOVA|||||0.18|-0.70|0.2511
82649165|NCT00106028|165013565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.675|||<|0.0001||95.0|21.051|42.3|||ANCOVA|LS means and p-value are from ANCOVA model adjusted for baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||42.300|21.051|<0.0001
82649166|NCT00106028|165013566|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.029||||0.0793|TWO_SIDED|95.0|-1.667|29.726|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||29.726|-1.667|0.0793
82649167|NCT00106028|165013567|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.567|||<|0.0001||95.0|5.59|11.545|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||11.545|5.590|<0.0001
82649168|NCT00106028|165013568|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.315||||0.4575|TWO_SIDED|95.0|-10.477|23.107|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||23.107|-10.477|0.4575
82649169|NCT00106028|165013569|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.594||||0.0172||95.0|6.801|68.386|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||68.386|6.801|0.0172
82649170|NCT00106028|165013570|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.492||||0.9786|TWO_SIDED|95.0|-36.807|35.824|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||35.824|-36.807|0.9786
82435707|NCT01942668|164581116|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.252||0.247|TWO_SIDED|95.0|-0.79|0.2||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.20|-0.79|0.247
82435708|NCT01942668|164581117|SUPERIORITY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.145|<|0.001|TWO_SIDED|95.0|-0.87|-0.29||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.29|-0.87|<0.001
82435709|NCT01942668|164581117|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.143||0.016|TWO_SIDED|95.0|-0.62|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.62|0.016
82435710|NCT01942668|164581117|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.143|<|0.001|TWO_SIDED|95.0|-0.76|-0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.20|-0.76|<0.001
82435711|NCT01942668|164581117|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.141||0.023|TWO_SIDED|95.0|-0.6|-0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.05|-0.60|0.023
82539208|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.546|STANDARD_ERROR_OF_MEAN|0.208||0.0088|TWO_SIDED|95.0|-0.954|-0.138|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.138|-0.954|0.0088
82652293|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.094||||0.5482|TWO_SIDED|95.0|-0.403|0.214||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.214|-0.403|0.5482
82539209|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.267|STANDARD_ERROR_OF_MEAN|0.213||0.2121|TWO_SIDED|95.0|-0.686|0.152|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.152|-0.686|0.2121
82435712|NCT01942668|164581118|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.84|-0.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.25|-0.84|<0.001
82435713|NCT01942668|164581118|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.146||0.004|TWO_SIDED|95.0|-0.71|-0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.13|-0.71|0.004
82649171|NCT00106028|165013571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.64||||0.5971|TWO_SIDED|95.0|-40.952|23.672|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||23.672|-40.952|0.5971
82435714|NCT01942668|164581118|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.149||0.003|TWO_SIDED|95.0|-0.73|-0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.14|-0.73|0.003
82435715|NCT01942668|164581118|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.147||0.179|TWO_SIDED|95.0|-0.49|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.09|-0.49|0.179
82539210|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.098|STANDARD_ERROR_OF_MEAN|0.185||0.5975|TWO_SIDED|95.0|-0.461|0.265|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.265|-0.461|0.5975
82539211|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.464|STANDARD_ERROR_OF_MEAN|0.18||0.0099|TWO_SIDED|95.0|-0.817|-0.112|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.112|-0.817|0.0099
82539212|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.445|STANDARD_ERROR_OF_MEAN|0.208||0.0328|TWO_SIDED|95.0|-0.853|-0.037|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.037|-0.853|0.0328
82539213|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.213||0.3162|TWO_SIDED|95.0|-0.633|0.205|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.205|-0.633|0.3162
82539214|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.353|STANDARD_ERROR_OF_MEAN|0.185||0.0569|TWO_SIDED|95.0|-0.716|0.01|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.010|-0.716|0.0569
82539215|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.449|STANDARD_ERROR_OF_MEAN|0.18||0.0126|TWO_SIDED|95.0|-0.801|-0.096|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.096|-0.801|0.0126
82539216|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.515|STANDARD_ERROR_OF_MEAN|0.208||0.0135|TWO_SIDED|95.0|-0.923|-0.107|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||-0.107|-0.923|0.0135
82539217|NCT00383188|164778419|SUPERIORITY||LSM Difference|-0.145|STANDARD_ERROR_OF_MEAN|0.213||0.4979|TWO_SIDED|95.0|-0.564|0.274|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.274|-0.564|0.4979
82539218|NCT00383188|164778419|SUPERIORITY||LSM Difference|0.271|STANDARD_ERROR_OF_MEAN|0.195||0.1643|TWO_SIDED|95.0|-0.111|0.653|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.653|-0.111|0.1643
82539219|NCT00383188|164778419|SUPERIORITY||LSM Difference|0.081|STANDARD_ERROR_OF_MEAN|0.185||0.6611|TWO_SIDED|95.0|-0.282|0.445|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.445|-0.282|0.6611
82539220|NCT00383188|164778419|SUPERIORITY||LSM Difference|0.097|STANDARD_ERROR_OF_MEAN|0.219||0.6587|TWO_SIDED|95.0|-0.333|0.526|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.526|-0.333|0.6587
82539221|NCT00383188|164778419|SUPERIORITY||LSM Difference|0.154|STANDARD_ERROR_OF_MEAN|0.223||0.4903|TWO_SIDED|95.0|-0.284|0.592|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline DAS28-4(CRP) as the covariate; and participant as a random effect.||0.592|-0.284|0.4903
82539222|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.119|STANDARD_ERROR_OF_MEAN|0.09||0.1857|TWO_SIDED|95.0|-0.296|0.057|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.057|-0.296|0.1857
82539223|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.277|STANDARD_ERROR_OF_MEAN|0.089||0.0019|TWO_SIDED|95.0|-0.451|-0.103|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.103|-0.451|0.0019
82435716|NCT01942668|164581119|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.169||0.012|TWO_SIDED|95.0|-0.76|-0.1||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.76|0.012
82539224|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.244|STANDARD_ERROR_OF_MEAN|0.103||0.0178|TWO_SIDED|95.0|-0.446|-0.042|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.042|-0.446|0.0178
82539225|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.098|STANDARD_ERROR_OF_MEAN|0.106||0.3547|TWO_SIDED|95.0|-0.305|0.11|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.110|-0.305|0.3547
82539226|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.135|STANDARD_ERROR_OF_MEAN|0.089||0.1301|TWO_SIDED|95.0|-0.31|0.04|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.040|-0.310|0.1301
82539227|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.088||0.0313|TWO_SIDED|95.0|-0.363|-0.017|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.017|-0.363|0.0313
82539228|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.219|STANDARD_ERROR_OF_MEAN|0.102||0.0323|TWO_SIDED|95.0|-0.42|-0.019|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.019|-0.420|0.0323
82539229|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.105||0.6318|TWO_SIDED|95.0|-0.256|0.156|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.156|-0.256|0.6318
82539230|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.055|STANDARD_ERROR_OF_MEAN|0.089||0.5388|TWO_SIDED|95.0|-0.23|0.12|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.120|-0.230|0.5388
82539231|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.157|STANDARD_ERROR_OF_MEAN|0.088||0.0755|TWO_SIDED|95.0|-0.329|0.016|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.016|-0.329|0.0755
82539232|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.219|STANDARD_ERROR_OF_MEAN|0.102||0.0323|TWO_SIDED|95.0|-0.42|-0.019|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.019|-0.420|0.0323
82539233|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.072|STANDARD_ERROR_OF_MEAN|0.105||0.4948|TWO_SIDED|95.0|-0.277|0.134|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.134|-0.277|0.4948
82539234|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.06|STANDARD_ERROR_OF_MEAN|0.089||0.5022|TWO_SIDED|95.0|-0.115|0.235|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.235|-0.115|0.5022
82539235|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.088||0.0307|TWO_SIDED|95.0|-0.363|-0.018|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.018|-0.363|0.0307
82539236|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.172|STANDARD_ERROR_OF_MEAN|0.102||0.0933|TWO_SIDED|95.0|-0.372|0.029|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.029|-0.372|0.0933
82539237|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.027|STANDARD_ERROR_OF_MEAN|0.105||0.7967|TWO_SIDED|95.0|-0.179|0.233|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.233|-0.179|0.7967
82539238|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.034|STANDARD_ERROR_OF_MEAN|0.089||0.7059|TWO_SIDED|95.0|-0.208|0.141|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.141|-0.208|0.7059
82539239|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.213|STANDARD_ERROR_OF_MEAN|0.088||0.0154|TWO_SIDED|95.0|-0.386|-0.041|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||-0.041|-0.386|0.0154
82539240|NCT00383188|164778421|SUPERIORITY||LSM Difference|-0.136|STANDARD_ERROR_OF_MEAN|0.102||0.1836|TWO_SIDED|95.0|-0.336|0.065|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.065|-0.336|0.1836
82539241|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.078|STANDARD_ERROR_OF_MEAN|0.105||0.4577|TWO_SIDED|95.0|-0.128|0.284|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.284|-0.128|0.4577
82577664|NCT01572740|164864384|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.87|||<|0.0001||95.0|-2.37|-1.38|||ANCOVA|||||-1.38|-2.37|<0.0001
82435717|NCT01942668|164581119|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.162|<|0.001|TWO_SIDED|95.0|-1.05|-0.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.41|-1.05|<0.001
82435718|NCT01942668|164581119|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.166||0.004|TWO_SIDED|95.0|-0.81|-0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.16|-0.81|0.004
82435719|NCT01942668|164581119|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.166||0.07|TWO_SIDED|95.0|-0.63|0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.03|-0.63|0.070
82435720|NCT01942668|164581120|SUPERIORITY||Mean Difference (Final Values)|-4.39|STANDARD_ERROR_OF_MEAN|2.059||0.033|TWO_SIDED|95.0|-8.44|-0.35||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.35|-8.44|0.033
82435721|NCT01942668|164581120|SUPERIORITY||Mean Difference (Final Values)|-2.54|STANDARD_ERROR_OF_MEAN|2.015||0.207|TWO_SIDED|95.0|-6.5|1.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.41|-6.50|0.207
82435722|NCT01942668|164581120|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|2.03||0.024|TWO_SIDED|95.0|-8.58|-0.61||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.61|-8.58|0.024
82435723|NCT01942668|164581120|SUPERIORITY||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|2.007||0.207|TWO_SIDED|95.0|-6.47|1.41||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.41|-6.47|0.207
82435724|NCT01942668|164581121|SUPERIORITY||Mean Difference (Final Values)|-5.48|STANDARD_ERROR_OF_MEAN|2.138||0.011|TWO_SIDED|95.0|-9.68|-1.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.28|-9.68|0.011
82435725|NCT01942668|164581121|SUPERIORITY||Mean Difference (Final Values)|-5.25|STANDARD_ERROR_OF_MEAN|2.093||0.012|TWO_SIDED|95.0|-9.36|-1.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.14|-9.36|0.012
82435726|NCT01942668|164581121|SUPERIORITY||Mean Difference (Final Values)|-5.58|STANDARD_ERROR_OF_MEAN|2.122||0.009|TWO_SIDED|95.0|-9.75|-1.41||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.41|-9.75|0.009
82435727|NCT01942668|164581121|SUPERIORITY||Mean Difference (Final Values)|-4.99|STANDARD_ERROR_OF_MEAN|2.096||0.018|TWO_SIDED|95.0|-9.11|-0.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.87|-9.11|0.018
82435728|NCT01942668|164581122|SUPERIORITY||Mean Difference (Final Values)|-4.61|STANDARD_ERROR_OF_MEAN|2.427||0.058|TWO_SIDED|95.0|-9.38|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.16|-9.38|0.058
82435729|NCT01942668|164581122|SUPERIORITY||Mean Difference (Final Values)|-7.48|STANDARD_ERROR_OF_MEAN|2.322||0.001|TWO_SIDED|95.0|-12.04|-2.92||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.92|-12.04|0.001
82435730|NCT01942668|164581122|SUPERIORITY||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|2.397|<|0.001|TWO_SIDED|95.0|-12.67|-3.25||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.25|-12.67|<0.001
82435731|NCT01942668|164581122|SUPERIORITY||Mean Difference (Final Values)|-6.78|STANDARD_ERROR_OF_MEAN|2.404||0.005|TWO_SIDED|95.0|-11.5|-2.06||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.06|-11.50|0.005
82435732|NCT01942668|164581123|SUPERIORITY||Mean Difference (Final Values)|-6.48|STANDARD_ERROR_OF_MEAN|2.77||0.02|TWO_SIDED|95.0|-11.92|-1.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.04|-11.92|0.020
82435733|NCT01942668|164581123|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|2.715||0.216|TWO_SIDED|95.0|-8.69|1.97||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.97|-8.69|0.216
82435734|NCT01942668|164581123|SUPERIORITY||Mean Difference (Final Values)|-5.85|STANDARD_ERROR_OF_MEAN|2.734||0.033|TWO_SIDED|95.0|-11.22|-0.48||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.48|-11.22|0.033
82435735|NCT01942668|164581123|SUPERIORITY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|2.685||0.265|TWO_SIDED|95.0|-8.27|2.28||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.28|-8.27|0.265
82435736|NCT01942668|164581124|SUPERIORITY||Mean Difference (Final Values)|-7.54|STANDARD_ERROR_OF_MEAN|2.854||0.008|TWO_SIDED|95.0|-13.14|-1.93||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.93|-13.14|0.008
82435737|NCT01942668|164581124|SUPERIORITY||Mean Difference (Final Values)|-6.72|STANDARD_ERROR_OF_MEAN|2.781||0.016|TWO_SIDED|95.0|-12.18|-1.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.26|-12.18|0.016
82435738|NCT01942668|164581124|SUPERIORITY||Mean Difference (Final Values)|-8.69|STANDARD_ERROR_OF_MEAN|2.847||0.002|TWO_SIDED|95.0|-14.28|-3.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.10|-14.28|0.002
82435739|NCT01942668|164581124|SUPERIORITY||Mean Difference (Final Values)|-6.18|STANDARD_ERROR_OF_MEAN|2.8||0.028|TWO_SIDED|95.0|-11.68|-0.68||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.68|-11.68|0.028
82577665|NCT01572740|164864385|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-1.28|||<|0.0001||95.0|-1.73|-0.83|||ANCOVA|||||-0.83|-1.73|<0.0001
82577666|NCT01572740|164864386|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.73||||0.0023||95.0|-1.2|-0.26|||ANCOVA|||||-0.26|-1.20|0.0023
82435740|NCT01942668|164581125|SUPERIORITY||Mean Difference (Final Values)|-6.56|STANDARD_ERROR_OF_MEAN|3.18||0.04|TWO_SIDED|95.0|-12.8|-0.31||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.31|-12.80|0.040
82435741|NCT01942668|164581125|SUPERIORITY||Mean Difference (Final Values)|-10.02|STANDARD_ERROR_OF_MEAN|3.04||0.001|TWO_SIDED|95.0|-15.99|-4.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.04|-15.99|0.001
82435742|NCT01942668|164581125|SUPERIORITY||Mean Difference (Final Values)|-9.96|STANDARD_ERROR_OF_MEAN|3.129||0.002|TWO_SIDED|95.0|-16.11|-3.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.81|-16.11|0.002
82435743|NCT01942668|164581125|SUPERIORITY||Mean Difference (Final Values)|-6.85|STANDARD_ERROR_OF_MEAN|3.127||0.029|TWO_SIDED|95.0|-12.99|-0.7||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.70|-12.99|0.029
82435744|NCT01942668|164581126|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|3.003||0.294|TWO_SIDED|95.0|-2.75|9.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.05|-2.75|0.294
82435745|NCT01942668|164581126|SUPERIORITY||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|2.922||0.327|TWO_SIDED|95.0|-2.87|8.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||8.60|-2.87|0.327
82435746|NCT01942668|164581126|SUPERIORITY||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|2.947||0.637|TWO_SIDED|95.0|-7.18|4.39||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.39|-7.18|0.637
82454272|NCT02524171|164613873|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.01|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63)||||>0.05
82454273|NCT02524171|164613874|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|6.53|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454274|NCT02524171|164613874|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|5.68|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63||||>0.05
82539242|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.082|STANDARD_ERROR_OF_MEAN|0.092||0.3692|TWO_SIDED|95.0|-0.098|0.262|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.262|-0.098|0.3692
82435747|NCT01942668|164581126|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|2.893||0.952|TWO_SIDED|95.0|-5.51|5.86||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||5.86|-5.51|0.952
82454275|NCT02524171|164613875|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.83|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454276|NCT02524171|164613875|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta v|0.46|||<|0.01|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.01
82435748|NCT01942668|164581127|SUPERIORITY||Mean Difference (Final Values)|1.82|STANDARD_ERROR_OF_MEAN|3.219||0.573|TWO_SIDED|95.0|-4.51|8.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||8.14|-4.51|0.573
82435749|NCT01942668|164581127|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|3.107||0.769|TWO_SIDED|95.0|-7.01|5.19||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||5.19|-7.01|0.769
82435750|NCT01942668|164581127|SUPERIORITY||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|3.176||0.047|TWO_SIDED|95.0|-12.56|-0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.09|-12.56|0.047
82435751|NCT01942668|164581127|SUPERIORITY||Mean Difference (Final Values)|-2.59|STANDARD_ERROR_OF_MEAN|3.133||0.409|TWO_SIDED|95.0|-8.74|3.56||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.56|-8.74|0.409
82435752|NCT01942668|164581128|SUPERIORITY||Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|3.443||0.579|TWO_SIDED|95.0|-4.85|8.67||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||8.67|-4.85|0.579
82435753|NCT01942668|164581128|SUPERIORITY||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|3.275||0.223|TWO_SIDED|95.0|-10.43|2.44||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.44|-10.43|0.223
82435754|NCT01942668|164581128|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|3.367||0.542|TWO_SIDED|95.0|-8.67|4.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||4.56|-8.67|0.542
82435755|NCT01942668|164581128|SUPERIORITY||Mean Difference (Final Values)|-2.41|STANDARD_ERROR_OF_MEAN|3.376||0.476|TWO_SIDED|95.0|-9.04|4.23||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||4.23|-9.04|0.476
82454277|NCT02524171|164613876|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)|0.02|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454278|NCT02524171|164613876|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)|-0.08|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
82454279|NCT02524171|164613877|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.03|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454280|NCT02524171|164613877|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.07|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.05
82435756|NCT01942668|164581129|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|2.593||0.631|TWO_SIDED|95.0|-6.34|3.84||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.84|-6.34|0.631
82435757|NCT01942668|164581129|SUPERIORITY||Mean Difference (Final Values)|1.15|STANDARD_ERROR_OF_MEAN|2.54||0.651|TWO_SIDED|95.0|-3.84|6.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||6.14|-3.84|0.651
82435758|NCT01942668|164581129|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|2.578||0.813|TWO_SIDED|95.0|-5.67|4.45||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.45|-5.67|0.813
82435759|NCT01942668|164581129|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.515||0.869|TWO_SIDED|95.0|-5.35|4.52||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.52|-5.35|0.869
82435760|NCT01942668|164581130|SUPERIORITY||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|2.79||0.074|TWO_SIDED|95.0|-10.48|0.48||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.48|-10.48|0.074
82539243|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.065|STANDARD_ERROR_OF_MEAN|0.09||0.4677|TWO_SIDED|95.0|-0.111|0.241|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.241|-0.111|0.4677
82539244|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.1|STANDARD_ERROR_OF_MEAN|0.106||0.3427|TWO_SIDED|95.0|-0.107|0.307|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.307|-0.107|0.3427
82539245|NCT00383188|164778421|SUPERIORITY||LSM Difference|0.135|STANDARD_ERROR_OF_MEAN|0.108||0.212|TWO_SIDED|95.0|-0.077|0.347|||ANCOVA|||Week 16: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 16 as an interaction term, baseline HAQ-DI as the covariate and participant as a random effect.||0.347|-0.077|0.2120
82435761|NCT01942668|164581130|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|2.722||0.748|TWO_SIDED|95.0|-6.22|4.47||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||4.47|-6.22|0.748
82435762|NCT01942668|164581130|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|2.805||0.987|TWO_SIDED|95.0|-5.46|5.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||5.56|-5.46|0.987
82435763|NCT01942668|164581130|SUPERIORITY||Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|2.741||0.709|TWO_SIDED|95.0|-6.41|4.36||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||4.36|-6.41|0.709
82435764|NCT01942668|164581131|SUPERIORITY||Mean Difference (Final Values)|-2.61|STANDARD_ERROR_OF_MEAN|2.968||0.379|TWO_SIDED|95.0|-8.44|3.22||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||3.22|-8.44|0.379
82454281|NCT02524171|164613878|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.01|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||>0.05
82454282|NCT02524171|164613878|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|-0.08|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||<0.05
82539246|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.587|STANDARD_ERROR_OF_MEAN|0.337||0.0815|TWO_SIDED|95.0|-1.248|0.074|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.074|-1.248|0.0815
82454283|NCT02524171|164613879|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.07|||<|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||||||<0.05
82454284|NCT02524171|164613879|SUPERIORITY||Other[Time x Condition at 12 mo.(Beta)]|0.08|||>|0.05|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Models adjusted for covariates (yielded estimated mean values of the outcome) and non-response weights based on completion of follow-up interviews.||Per protocol analysis, which included all UC participants (n=169) and only those in the MRT condition who had received the minimum recommended dose of the intervention - i.e., Step 3 or higher of MRT (n=63).||||>0.05
82454285|NCT00216671|164613880|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of early initiation was inferred if the upper 95% confidence boundary for the difference of change in PANSS total score from baseline in favor of the routine approach is less than 6.|Mean Difference (Net)|-1.13|STANDARD_ERROR_OF_MEAN|4.1||0.784|TWO_SIDED|95.0|-9.24|6.99||An ANCOVA model with treatment as factor was used. The comparison between the 2 treatment groups was performed based on the least-squares means obtained from the ANCOVA model.|ANCOVA|||Assuming a difference of 3 points in favor of early initiation of treatment with Risperdal Consta, a sample size of 87 subjects per treatment arm has a power of 80% to demonstrate non-inferiority at the 0.025-level (1-sided). It was expected that about 20% of randomized subjects had to be excluded from the per-protocol (PP) analysis. Therefore, 220 subjects were to be included.||6.99|-9.24|0.784
82454286|NCT00216671|164613883|SUPERIORITY_OR_OTHER|||||||0.8||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.800
82454287|NCT00216671|164613883|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.||||<0.001
82454288|NCT00216671|164613883|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in CGI-S from baseline to endpoint was analyzed as is with no derived calculations. CGI-S scores were coded as follows: 0=normal, not at all ill, 1=borderline, etc. and 6=among the most extremely ill patients.||||<0.001
82454289|NCT00216671|164613884|SUPERIORITY_OR_OTHER|||||||0.798||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.798
82454290|NCT00216671|164613884|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82454291|NCT00216671|164613884|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in GAF from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82539247|NCT00383188|164778422|SUPERIORITY||LSM Difference|-1.057|STANDARD_ERROR_OF_MEAN|0.331||0.0015|TWO_SIDED|95.0|-1.707|-0.407|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.407|-1.707|0.0015
82539248|NCT00383188|164778422|SUPERIORITY||LSM Difference|-1.107|STANDARD_ERROR_OF_MEAN|0.385||0.0042|TWO_SIDED|95.0|-1.863|-0.351|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.351|-1.863|0.0042
82539249|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.842|STANDARD_ERROR_OF_MEAN|0.398||0.0348|TWO_SIDED|95.0|-1.624|-0.06|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.060|-1.624|0.0348
82454292|NCT00216671|164613885|SUPERIORITY_OR_OTHER|||||||0.519||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.519
82454293|NCT00216671|164613885|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82454294|NCT00216671|164613885|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 PCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82577667|NCT01572740|164864387|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.39||||0.1787||95.0|-0.97|0.18|||ANCOVA|||||0.18|-0.97|0.1787
82435765|NCT01942668|164581131|SUPERIORITY||Mean Difference (Final Values)|-3.07|STANDARD_ERROR_OF_MEAN|2.832||0.279|TWO_SIDED|95.0|-8.64|2.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.49|-8.64|0.279
82652294|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.377||||0.017|TWO_SIDED|95.0|-0.687|-0.068||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.068|-0.687|0.0170
82435766|NCT01942668|164581131|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|2.949||0.894|TWO_SIDED|95.0|-6.19|5.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.40|-6.19|0.894
82435767|NCT01942668|164581131|SUPERIORITY||Mean Difference (Final Values)|-2.98|STANDARD_ERROR_OF_MEAN|2.923||0.308|TWO_SIDED|95.0|-8.72|2.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.76|-8.72|0.308
82435768|NCT01942668|164581132|SUPERIORITY||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|3.081||0.558|TWO_SIDED|95.0|-4.24|7.86||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.86|-4.24|0.558
82435769|NCT01942668|164581132|SUPERIORITY||Mean Difference (Final Values)|3.61|STANDARD_ERROR_OF_MEAN|3.031||0.233|TWO_SIDED|95.0|-2.34|9.57||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.57|-2.34|0.233
82435770|NCT01942668|164581132|SUPERIORITY||Mean Difference (Final Values)|6.16|STANDARD_ERROR_OF_MEAN|3.036||0.043|TWO_SIDED|95.0|0.2|12.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||12.13|0.20|0.043
82435771|NCT01942668|164581132|SUPERIORITY||Mean Difference (Final Values)|2.07|STANDARD_ERROR_OF_MEAN|2.99||0.488|TWO_SIDED|95.0|-3.8|7.95||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||7.95|-3.80|0.488
82435772|NCT01942668|164581133|SUPERIORITY||Mean Difference (Final Values)|4.07|STANDARD_ERROR_OF_MEAN|3.206||0.205|TWO_SIDED|95.0|-2.23|10.37||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||10.37|-2.23|0.205
82435773|NCT01942668|164581133|SUPERIORITY||Mean Difference (Final Values)|9.58|STANDARD_ERROR_OF_MEAN|3.133||0.002|TWO_SIDED|95.0|3.43|15.74||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||15.74|3.43|0.002
82435774|NCT01942668|164581133|SUPERIORITY||Mean Difference (Final Values)|5.04|STANDARD_ERROR_OF_MEAN|3.193||0.115|TWO_SIDED|95.0|-1.23|11.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||11.32|-1.23|0.115
82435775|NCT01942668|164581133|SUPERIORITY||Mean Difference (Final Values)|8.94|STANDARD_ERROR_OF_MEAN|3.152||0.005|TWO_SIDED|95.0|2.75|15.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||15.13|2.75|0.005
82435776|NCT01942668|164581134|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|3.719||0.796|TWO_SIDED|95.0|-6.34|8.27||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||8.27|-6.34|0.796
82435777|NCT01942668|164581134|SUPERIORITY||Mean Difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|3.568||0.15|TWO_SIDED|95.0|-1.87|12.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||12.15|-1.87|0.150
82435778|NCT01942668|164581134|SUPERIORITY||Mean Difference (Final Values)|8.58|STANDARD_ERROR_OF_MEAN|3.657||0.019|TWO_SIDED|95.0|1.39|15.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||15.77|1.39|0.019
82435779|NCT01942668|164581134|SUPERIORITY||Mean Difference (Final Values)|7.51|STANDARD_ERROR_OF_MEAN|3.667||0.041|TWO_SIDED|95.0|0.3|14.71||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||14.71|0.30|0.041
82435780|NCT01942668|164581135|SUPERIORITY||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|2.197||0.221|TWO_SIDED|95.0|-7.0|1.62||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.62|-7.00|0.221
82435781|NCT01942668|164581135|SUPERIORITY||Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|2.154||0.511|TWO_SIDED|95.0|-5.65|2.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||2.81|-5.65|0.511
82435782|NCT01942668|164581135|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|2.168||0.761|TWO_SIDED|95.0|-3.6|4.92||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.92|-3.60|0.761
82435783|NCT01942668|164581135|SUPERIORITY||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|2.128||0.332|TWO_SIDED|95.0|-6.25|2.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.11|-6.25|0.332
82435784|NCT01942668|164581136|SUPERIORITY||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|2.474||0.687|TWO_SIDED|95.0|-5.86|3.86||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||3.86|-5.86|0.687
82435785|NCT01942668|164581136|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|2.411||0.373|TWO_SIDED|95.0|-6.88|2.58||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.58|-6.88|0.373
82435786|NCT01942668|164581136|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|2.466||0.714|TWO_SIDED|95.0|-5.75|3.94||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.94|-5.75|0.714
82577668|NCT01572740|164864388|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.14||||0.4806||95.0|-0.54|0.25|||ANCOVA|||||0.25|-0.54|0.4806
82577669|NCT01572740|164864389|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.35||||0.2074||95.0|-0.91|0.2|||ANCOVA|||||0.20|-0.91|0.2074
82539250|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.442|STANDARD_ERROR_OF_MEAN|0.332||0.1843|TWO_SIDED|95.0|-1.095|0.211|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.211|-1.095|0.1843
82539251|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.582|STANDARD_ERROR_OF_MEAN|0.327||0.076|TWO_SIDED|95.0|-1.225|0.061|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.061|-1.225|0.0760
82539252|NCT00383188|164778422|SUPERIORITY||LSM Difference|-1.019|STANDARD_ERROR_OF_MEAN|0.382||0.0078|TWO_SIDED|95.0|-1.769|-0.27|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.270|-1.769|0.0078
82539253|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.517|STANDARD_ERROR_OF_MEAN|0.395||0.1905|TWO_SIDED|95.0|-1.292|0.258|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.258|-1.292|0.1905
82539254|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.149|STANDARD_ERROR_OF_MEAN|0.332||0.6552|TWO_SIDED|95.0|-0.801|0.504|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.504|-0.801|0.6552
82539255|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.327||0.0281|TWO_SIDED|95.0|-1.363|-0.078|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.078|-1.363|0.0281
82539256|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.382||0.0263|TWO_SIDED|95.0|-1.599|-0.1|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.100|-1.599|0.0263
82539257|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.429|STANDARD_ERROR_OF_MEAN|0.395||0.2772|TWO_SIDED|95.0|-1.204|0.346|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.346|-1.204|0.2772
82649172|NCT00106028|165013572|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.014||||0.4154||95.0|-1.442|3.47|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.470|-1.442|0.4154
82539258|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.024|STANDARD_ERROR_OF_MEAN|0.332||0.9433|TWO_SIDED|95.0|-0.676|0.629|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.629|-0.676|0.9433
82539259|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.768|STANDARD_ERROR_OF_MEAN|0.327||0.193|TWO_SIDED|95.0|-1.41|-0.125|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.125|-1.410|0.193
82539260|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.763|STANDARD_ERROR_OF_MEAN|0.382||0.461|TWO_SIDED|95.0|-1.512|-0.013|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.013|-1.512|0.461
82539261|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.254|STANDARD_ERROR_OF_MEAN|0.395||0.52|TWO_SIDED|95.0|-1.029|0.521|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.521|-1.029|0.5200
82539262|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.476|STANDARD_ERROR_OF_MEAN|0.332||0.1526|TWO_SIDED|95.0|-1.129|0.177|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.177|-1.129|0.1526
82539263|NCT00383188|164778422|SUPERIORITY||LSM Difference|-1.095|STANDARD_ERROR_OF_MEAN|0.327||0.0009|TWO_SIDED|95.0|-1.738|-0.453|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||-0.453|-1.738|0.0009
82577670|NCT04103892|164864485|SUPERIORITY||Least square (LS) mean difference|-1.26|STANDARD_ERROR_OF_MEAN|1.69||0.46|TWO_SIDED|95.0|-4.6|2.09|||Mixed Models Repeated Measures (MMRM|||||2.09|-4.60|0.46
82577671|NCT04103892|164864486|SUPERIORITY||Least square (LS) mean difference|-5.28|STANDARD_ERROR_OF_MEAN|2.34||0.03|TWO_SIDED|95.0|-9.91|-0.65|||Mixed Models Repeated Measures (MMRM)|||||-0.65|-9.91|0.03
82577672|NCT03008005|164864488|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||< 0.05
82577673|NCT03008005|164864489|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||< 0.05
82435787|NCT01942668|164581136|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|2.427||0.711|TWO_SIDED|95.0|-5.67|3.87||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.87|-5.67|0.711
82435788|NCT01942668|164581137|SUPERIORITY||Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|2.682||0.415|TWO_SIDED|95.0|-7.46|3.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||3.08|-7.46|0.415
82539264|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.523|STANDARD_ERROR_OF_MEAN|0.382||0.1711|TWO_SIDED|95.0|-1.273|0.227|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.227|-1.273|0.1711
82539265|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.563|STANDARD_ERROR_OF_MEAN|0.395||0.1539|TWO_SIDED|95.0|-1.338|0.211|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Intensity Domain of mBPI as the covariate; and participant as a random effect.||0.211|-1.338|0.1539
82539266|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.512|STANDARD_ERROR_OF_MEAN|0.36||0.1554|TWO_SIDED|95.0|-1.219|0.195|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.195|-1.219|0.1554
82539267|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.889|STANDARD_ERROR_OF_MEAN|0.354||0.0124|TWO_SIDED|95.0|-1.585|-0.193|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.193|-1.585|0.0124
82539268|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.914|STANDARD_ERROR_OF_MEAN|0.412||0.0268|TWO_SIDED|95.0|-1.723|-0.106|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.106|-1.723|0.0268
82539269|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.681|STANDARD_ERROR_OF_MEAN|0.427||0.1113|TWO_SIDED|95.0|-1.519|0.158|||ANCOVA|||Week 1: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 1 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.158|-1.519|0.1113
82539270|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.356||0.1305|TWO_SIDED|95.0|-1.24|0.16|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.160|-1.240|0.1305
82539271|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.571|STANDARD_ERROR_OF_MEAN|0.351||0.1043|TWO_SIDED|95.0|-1.261|0.118|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.118|-1.261|0.1043
82539272|NCT00383188|164778422|SUPERIORITY||LSM Difference|-1.017|STANDARD_ERROR_OF_MEAN|0.409||0.0131|TWO_SIDED|95.0|-1.82|-0.214|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.214|-1.820|0.0131
82539273|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.492|STANDARD_ERROR_OF_MEAN|0.424||0.2459|TWO_SIDED|95.0|-1.324|0.34|||ANCOVA|||Week 2: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 2 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.340|-1.324|0.2459
82539274|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.221|STANDARD_ERROR_OF_MEAN|0.356||0.536|TWO_SIDED|95.0|-0.921|0.479|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.479|-0.921|0.5360
82435789|NCT01942668|164581137|SUPERIORITY||Mean Difference (Final Values)|-6.01|STANDARD_ERROR_OF_MEAN|2.564||0.019|TWO_SIDED|95.0|-11.04|-0.97||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.97|-11.04|0.019
82435790|NCT01942668|164581137|SUPERIORITY||Mean Difference (Final Values)|-4.72|STANDARD_ERROR_OF_MEAN|2.639||0.074|TWO_SIDED|95.0|-9.9|0.46||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.46|-9.90|0.074
82435791|NCT01942668|164581137|SUPERIORITY||Mean Difference (Final Values)|-5.75|STANDARD_ERROR_OF_MEAN|2.637||0.03|TWO_SIDED|95.0|-10.94|-0.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.57|-10.94|0.030
82435792|NCT01942668|164581138|SUPERIORITY||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.109||0.059|TWO_SIDED|95.0|-8.13|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-8.13|0.059
82539275|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.465|STANDARD_ERROR_OF_MEAN|0.351||0.1858|TWO_SIDED|95.0|-1.155|0.225|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.225|-1.155|0.1858
82539276|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.821|STANDARD_ERROR_OF_MEAN|0.409||0.0451|TWO_SIDED|95.0|-1.624|-0.018|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.018|-1.624|0.0451
82577674|NCT04854850|164864505|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82454295|NCT00216671|164613885|SUPERIORITY_OR_OTHER|||||||0.721||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon two sample test|||Between-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||0.721
82454296|NCT00216671|164613885|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82454297|NCT00216671|164613885|SUPERIORITY_OR_OTHER||||||<|0.001||||||The statistical test was interpreted at the 5% significance level.|Wilcoxon-signed-rank test|||Within-group comparison of the change in SF-12 MCS score from baseline to endpoint. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.001
82454298|NCT01843023|164613887|SUPERIORITY||Mean Difference (Final Values)|0.558|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82435793|NCT01942668|164581138|SUPERIORITY||Mean Difference (Final Values)|-2.57|STANDARD_ERROR_OF_MEAN|2.067||0.215|TWO_SIDED|95.0|-6.63|1.49||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.49|-6.63|0.215
82435794|NCT01942668|164581138|SUPERIORITY||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|2.084||0.015|TWO_SIDED|95.0|-9.19|-1.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.00|-9.19|0.015
82435795|NCT01942668|164581138|SUPERIORITY||Mean Difference (Final Values)|-3.16|STANDARD_ERROR_OF_MEAN|2.042||0.122|TWO_SIDED|95.0|-7.17|0.85||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.85|-7.17|0.122
82435796|NCT01942668|164581139|SUPERIORITY||Mean Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|2.135||0.013|TWO_SIDED|95.0|-9.52|-1.13||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.13|-9.52|0.013
82454299|NCT01843023|164613889|SUPERIORITY||Mean Difference (Final Values)|0.722|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82454300|NCT00587678|164613922|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Linear repeated measures model|||||||0.32
82454301|NCT00587678|164613922|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||vs. baseline|Linear repeated measures model|||||||<0.01
82454302|NCT00587678|164613923|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Linear repeated measures model|||||||0.31
82454303|NCT00587678|164613923|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||vs. baseline|Linear repeated measures model|||||||<0.05
82454304|NCT00587678|164613924|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Linear repeated measures model|||||||0.71
82435797|NCT01942668|164581139|SUPERIORITY||Mean Difference (Final Values)|-5.76|STANDARD_ERROR_OF_MEAN|2.08||0.006|TWO_SIDED|95.0|-9.85|-1.68||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.68|-9.85|0.006
82435798|NCT01942668|164581139|SUPERIORITY||Mean Difference (Final Values)|-5.59|STANDARD_ERROR_OF_MEAN|2.132||0.009|TWO_SIDED|95.0|-9.77|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.40|-9.77|0.009
82435799|NCT01942668|164581139|SUPERIORITY||Mean Difference (Final Values)|-5.68|STANDARD_ERROR_OF_MEAN|2.093||0.007|TWO_SIDED|95.0|-9.79|-1.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.57|-9.79|0.007
82435800|NCT01942668|164581140|SUPERIORITY||Mean Difference (Final Values)|-3.39|STANDARD_ERROR_OF_MEAN|2.47||0.171|TWO_SIDED|95.0|-8.24|1.47||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||1.47|-8.24|0.171
82435801|NCT01942668|164581140|SUPERIORITY||Mean Difference (Final Values)|-6.49|STANDARD_ERROR_OF_MEAN|2.364||0.006|TWO_SIDED|95.0|-11.14|-1.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.85|-11.14|0.006
82435802|NCT01942668|164581140|SUPERIORITY||Mean Difference (Final Values)|-7.39|STANDARD_ERROR_OF_MEAN|2.434||0.003|TWO_SIDED|95.0|-12.17|-2.61||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.61|-12.17|0.003
82435803|NCT01942668|164581140|SUPERIORITY||Mean Difference (Final Values)|-6.69|STANDARD_ERROR_OF_MEAN|2.429||0.006|TWO_SIDED|95.0|-11.46|-1.92||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.92|-11.46|0.006
82435804|NCT01942668|164581141|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|2.037||0.039|TWO_SIDED|95.0|-8.21|-0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.21|-8.21|0.039
82454305|NCT00587678|164613925|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||Linear repeated measures model|||||||0.67
82454306|NCT00587678|164613926|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Linear repeated measures model|||||||0.37
82454307|NCT00587678|164613926|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||vs. baseline|Linear repeated measures model|||||||<0.05
82454308|NCT00587678|164613927|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||Linear repeated measures model|||||||0.78
82454309|NCT00587678|164613928|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Linear repeated measures model|||||||0.68
82454310|NCT00587678|164613929|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Linear repeated measures model|||||||<0.05
82454311|NCT00587678|164613930|SUPERIORITY_OR_OTHER||||||=|0.67||95.0|||||linear repeated measures model|||||||=0.67
82454312|NCT00587678|164613931|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Linear repeated measures model|||||||0.77
82454313|NCT00587678|164613932|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Linear repeated measures model|||||||0.85
82435805|NCT01942668|164581141|SUPERIORITY||Mean Difference (Final Values)|-2.39|STANDARD_ERROR_OF_MEAN|1.997||0.232|TWO_SIDED|95.0|-6.31|1.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.53|-6.31|0.232
82435806|NCT01942668|164581141|SUPERIORITY||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|2.012||0.03|TWO_SIDED|95.0|-8.32|-0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.42|-8.32|0.030
82435807|NCT01942668|164581141|SUPERIORITY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|1.973||0.262|TWO_SIDED|95.0|-6.09|1.66||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.66|-6.09|0.262
82435808|NCT01942668|164581142|SUPERIORITY||Mean Difference (Final Values)|-5.41|STANDARD_ERROR_OF_MEAN|2.119||0.011|TWO_SIDED|95.0|-9.57|-1.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.25|-9.57|0.011
82454314|NCT00226811|164613934|SUPERIORITY_OR_OTHER||CBR rate (percentage)|7.7||||||95.0|2.9|16.0|||||Clinical benefit response rate: percent of patients with confirmed complete response, confirmed partial response or stable disease for at least 24 wks according to Response Evaluation Criteria in Solid Tumors, relative to total treated patients|||16.0|2.9|
82454315|NCT00226811|164613939|SUPERIORITY_OR_OTHER||OR rate (percentage)|2.6||||||95.0|0.3|9.0|||||Percentage of patients with confirmed complete response or confirmed partial response according to the Response Evaluation Criteria in Solid Tumors (RECIST), relative to the total number of treated patients.|||9.0|0.3|
82454316|NCT05282927|164613940|SUPERIORITY||Mean Difference (Net)|-0.05||||0.92|TWO_SIDED|95.0|-1.07|0.98|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization: site complexity level (high complexity '1a', '1b' or '1c' vs. all others) and rurality (high sites serving ≥50% rural/highly rural Veterans vs. low sites serving \<50% rural/highly rural Veterans)||0.98|-1.07|0.92
82454317|NCT05282927|164613941|SUPERIORITY||Mean Difference (Net)|0.94||||0.056|TWO_SIDED|95.0|-0.03|1.9|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization: site complexity level (high complexity '1a', '1b' or '1c' vs. all others) and rurality (high sites serving ≥50% rural/highly rural Veterans vs. low sites serving \<50% rural/highly rural Veterans).||1.90|-0.03|0.056
82454318|NCT01010971|164613978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|||<|0.0001|TWO_SIDED|95.0|0.59|1.45||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.45|0.59|<0.0001
82454319|NCT01010971|164613978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.0001|TWO_SIDED|95.0|0.61|1.46||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.46|0.61|<0.0001
82539277|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.189|STANDARD_ERROR_OF_MEAN|0.424||0.6551|TWO_SIDED|95.0|-1.021|0.643|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.643|-1.021|0.6551
82652295|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.469||||0.0034|TWO_SIDED|95.0|-0.781|-0.157||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.157|-0.781|0.0034
82435809|NCT01942668|164581142|SUPERIORITY||Mean Difference (Final Values)|-5.54|STANDARD_ERROR_OF_MEAN|2.065||0.008|TWO_SIDED|95.0|-9.6|-1.48||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.48|-9.60|0.008
82435810|NCT01942668|164581142|SUPERIORITY||Mean Difference (Final Values)|-5.74|STANDARD_ERROR_OF_MEAN|2.115||0.007|TWO_SIDED|95.0|-9.9|-1.59||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.59|-9.90|0.007
82435811|NCT01942668|164581142|SUPERIORITY||Mean Difference (Final Values)|-5.32|STANDARD_ERROR_OF_MEAN|2.078||0.011|TWO_SIDED|95.0|-9.4|-1.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.24|-9.40|0.011
82435812|NCT01942668|164581143|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|2.421||0.083|TWO_SIDED|95.0|-8.96|0.55||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.55|-8.96|0.083
82435813|NCT01942668|164581143|SUPERIORITY||Mean Difference (Final Values)|-7.36|STANDARD_ERROR_OF_MEAN|2.317||0.002|TWO_SIDED|95.0|-11.91|-2.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.81|-11.91|0.002
82435814|NCT01942668|164581143|SUPERIORITY||Mean Difference (Final Values)|-7.92|STANDARD_ERROR_OF_MEAN|2.384|<|0.001|TWO_SIDED|95.0|-12.6|-3.23||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.23|-12.60|<0.001
82435815|NCT01942668|164581143|SUPERIORITY||Mean Difference (Final Values)|-6.78|STANDARD_ERROR_OF_MEAN|2.381||0.005|TWO_SIDED|95.0|-11.46|-2.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.10|-11.46|0.005
82435816|NCT01942668|164581144|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.938|TWO_SIDED|95.0|-0.12|0.11||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.12|0.938
82539278|NCT00383188|164778422|SUPERIORITY||LSM Difference|0.018|STANDARD_ERROR_OF_MEAN|0.356||0.9602|TWO_SIDED|95.0|-0.682|0.718|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.718|-0.682|0.9602
82649173|NCT00106028|165013573|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.884||||0.6404|TWO_SIDED|95.0|-2.855|4.623|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||4.623|-2.855|0.6404
82539279|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.351||0.0198|TWO_SIDED|95.0|-1.51|-0.131|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.131|-1.510|0.0198
82435817|NCT01942668|164581144|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.059||0.779|TWO_SIDED|95.0|-0.1|0.13||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.13|-0.10|0.779
82435818|NCT01942668|164581144|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.059||0.646|TWO_SIDED|95.0|-0.14|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.14|0.646
82435819|NCT01942668|164581144|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.058||0.421|TWO_SIDED|95.0|-0.07|0.16||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.07|0.421
82539280|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.948|STANDARD_ERROR_OF_MEAN|0.409||0.0208|TWO_SIDED|95.0|-1.751|-0.145|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.145|-1.751|0.0208
82539281|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.433|STANDARD_ERROR_OF_MEAN|0.424||0.3077|TWO_SIDED|95.0|-1.265|0.4|||ANCOVA|||Week 8: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 8 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.400|-1.265|0.3077
82539282|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.211|STANDARD_ERROR_OF_MEAN|0.356||0.555|TWO_SIDED|95.0|-0.911|0.49|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.490|-0.911|0.5550
82539283|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.795|STANDARD_ERROR_OF_MEAN|0.351||0.0239|TWO_SIDED|95.0|-1.485|-0.106|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||-0.106|-1.485|0.0239
82652296|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.093||||0.5346|TWO_SIDED|95.0|-0.388|0.202||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.202|-0.388|0.5346
82435820|NCT01942668|164581145|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.063||0.075|TWO_SIDED|95.0|-0.01|0.24||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.24|-0.01|0.075
82435821|NCT01942668|164581145|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.062||0.074|TWO_SIDED|95.0|-0.01|0.23||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.23|-0.01|0.074
82435822|NCT01942668|164581145|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.063||0.37|TWO_SIDED|95.0|-0.07|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.07|0.370
82435823|NCT01942668|164581145|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.062||0.851|TWO_SIDED|95.0|-0.11|0.13||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.13|-0.11|0.851
82435824|NCT01942668|164581146|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.067||0.452|TWO_SIDED|95.0|-0.18|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.18|0.452
82435825|NCT01942668|164581146|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.064||0.244|TWO_SIDED|95.0|-0.05|0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.20|-0.05|0.244
82454320|NCT01010971|164613979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|||<|0.0001|TWO_SIDED|95.0|0.07|0.29|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.29|0.07|<0.0001
82539284|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.613|STANDARD_ERROR_OF_MEAN|0.409||0.1342|TWO_SIDED|95.0|-1.416|0.19|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.190|-1.416|0.1342
82539285|NCT00383188|164778422|SUPERIORITY||LSM Difference|-0.367|STANDARD_ERROR_OF_MEAN|0.424||0.3868|TWO_SIDED|95.0|-1.199|0.465|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline Pain Interference Domain of mBPI as the covariate; and participant as a random effect.||0.465|-1.199|0.3868
82435826|NCT01942668|164581146|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.065||0.354|TWO_SIDED|95.0|-0.19|0.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.07|-0.19|0.354
82435827|NCT01942668|164581146|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.065||0.527|TWO_SIDED|95.0|-0.17|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.09|-0.17|0.527
82435828|NCT01942668|164581147|SUPERIORITY||Mean Difference (Final Values)|-1.92|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-2.29|-1.55||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.55|-2.29|<0.001
82435829|NCT01942668|164581147|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED|95.0|-1.81|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.07|-1.81|<0.001
82435830|NCT01942668|164581147|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED|95.0|-1.81|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.07|-1.81|<0.001
82435831|NCT01942668|164581147|SUPERIORITY||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.188|<|0.001|TWO_SIDED|95.0|-1.62|-0.88||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.88|-1.62|<0.001
82435832|NCT01942668|164581148|SUPERIORITY||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.199|<|0.001|TWO_SIDED|95.0|-2.12|-1.34||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.34|-2.12|<0.001
82539286|NCT00383188|164778423|SUPERIORITY||LSM Difference|0.792|STANDARD_ERROR_OF_MEAN|1.093||0.4693|TWO_SIDED|95.0|-1.357|2.941|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||2.941|-1.357|0.4693
82435833|NCT01942668|164581148|SUPERIORITY||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.197|<|0.001|TWO_SIDED|95.0|-1.68|-0.91||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.91|-1.68|<0.001
82435834|NCT01942668|164581148|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.197|<|0.001|TWO_SIDED|95.0|-1.58|-0.81||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.81|-1.58|<0.001
82435835|NCT01942668|164581148|SUPERIORITY||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.198|<|0.001|TWO_SIDED|95.0|-1.34|-0.57||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.57|-1.34|<0.001
82539287|NCT00383188|164778423|SUPERIORITY||LSM Difference|1.927|STANDARD_ERROR_OF_MEAN|1.077||0.0743|TWO_SIDED|95.0|-0.19|4.044|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||4.044|-0.190|0.0743
82539288|NCT00383188|164778423|SUPERIORITY||LSM Difference|4.196|STANDARD_ERROR_OF_MEAN|1.286||0.0012|TWO_SIDED|95.0|1.668|6.723|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||6.723|1.668|0.0012
82652297|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.336||||0.0262|TWO_SIDED|95.0|-0.632|-0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.040|-0.632|0.0262
82652298|NCT02637557|165019490|SUPERIORITY||LS Mean Difference|-0.545||||0.0004|TWO_SIDED|95.0|-0.843|-0.246||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.246|-0.843|0.0004
82435836|NCT01942668|164581149|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|0.207|<|0.001|TWO_SIDED|95.0|-2.06|-1.25||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.25|-2.06|<0.001
82435837|NCT01942668|164581149|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.204|<|0.001|TWO_SIDED|95.0|-1.87|-1.07||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.07|-1.87|<0.001
82435838|NCT01942668|164581149|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.205|<|0.001|TWO_SIDED|95.0|-1.7|-0.9||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.90|-1.70|<0.001
82435839|NCT01942668|164581149|SUPERIORITY||Mean Difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|0.207|<|0.001|TWO_SIDED|95.0|-1.48|-0.67||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.67|-1.48|<0.001
82435840|NCT01942668|164581150|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.131||0.126|TWO_SIDED|95.0|-0.46|0.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.46|0.126
82435841|NCT01942668|164581150|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.2|TWO_SIDED|95.0|-0.42|0.09||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.42|0.200
82435842|NCT01942668|164581150|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.13||0.222|TWO_SIDED|95.0|-0.41|0.1||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.10|-0.41|0.222
82435843|NCT01942668|164581150|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.358|TWO_SIDED|95.0|-0.37|0.14||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.37|0.358
82649174|NCT00106028|165013574|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.66||||0.4978|TWO_SIDED|95.0|-6.499|3.179|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||3.179|-6.499|0.4978
82435844|NCT01942668|164581151|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.138||0.023|TWO_SIDED|95.0|-0.59|-0.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.04|-0.59|0.023
82435845|NCT01942668|164581151|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.138||0.045|TWO_SIDED|95.0|-0.55|-0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.01|-0.55|0.045
82435846|NCT01942668|164581151|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.137||0.384|TWO_SIDED|95.0|-0.39|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.15|-0.39|0.384
82435847|NCT01942668|164581151|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.138||0.424|TWO_SIDED|95.0|-0.38|0.16||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.16|-0.38|0.424
82435848|NCT01942668|164581152|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.152||0.153|TWO_SIDED|95.0|-0.52|0.08||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.52|0.153
82454321|NCT01010971|164613979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||<|0.0001|TWO_SIDED|95.0|0.08|0.29|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.29|0.08|<0.0001
82454322|NCT01010971|164613980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.1444|TWO_SIDED|95.0|-0.03|0.71||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.71|-0.03|0.1444
82454323|NCT01010971|164613980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.0124|TWO_SIDED|95.0|0.15|0.89||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.89|0.15|0.0124
82454324|NCT01010971|164613981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.0124|TWO_SIDED|95.0|0.3|0.94||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||||0.94|0.30|0.0124
82454325|NCT01010971|164613981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|||||TWO_SIDED|95.0|0.33|0.95||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons|ANCOVA|||||0.95|0.33|
82454326|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454327|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82652299|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|0.098||||0.3007|TWO_SIDED|95.0|-0.088|0.284||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.284|-0.088|0.3007
82454328|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .99
82454329|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454330|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .20
82454331|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
82454332|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
82454333|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454334|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .03
82454335|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454336|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454337|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454338|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82454339|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454340|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82577675|NCT04092530|164864509|OTHER||Risk Ratio (RR)|0.82||||0.12|TWO_SIDED|95.0|0.64|1.05|||Mixed Models Analysis|Adjusted for time; clustering by clinical site accounted for with random intercept||Please note that there were only 7 units (community health clinics) analyzed at Level 2 of this multilevel study, but due to the crossover design of the study, they were each observed under both the Control and Intervention conditions. Therefore, the Units Analyzed entered above reflect the 7 clinics under both conditions and should not be summed to 14.||1.05|0.64|0.12
82435849|NCT01942668|164581152|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.151||0.058|TWO_SIDED|95.0|-0.58|0.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.01|-0.58|0.058
82435850|NCT01942668|164581152|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.151||0.55|TWO_SIDED|95.0|-0.39|0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.21|-0.39|0.550
82454341|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454342|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454343|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82454344|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454345|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82454346|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454347|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454348|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454349|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454350|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454351|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454352|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454353|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82435851|NCT01942668|164581152|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.153||0.854|TWO_SIDED|95.0|-0.33|0.27||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.27|-0.33|0.854
82435852|NCT01942668|164581153|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.116||0.181|TWO_SIDED|95.0|-0.38|0.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.07|-0.38|0.181
82435853|NCT01942668|164581153|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.116||0.108|TWO_SIDED|95.0|-0.41|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.04|-0.41|0.108
82454354|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454355|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
82454356|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454357|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454358|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
82454359|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454360|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454361|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82577676|NCT04092530|164864510|OTHER||Risk Ratio (RR)|0.89||||0.33|TWO_SIDED|95.0|0.7|1.13|||Mixed Models Analysis|Adjusted for time; random intercept for clinical site||||1.13|0.70|0.33
82435854|NCT01942668|164581153|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.115||0.014|TWO_SIDED|95.0|-0.51|-0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.06|-0.51|0.014
82435855|NCT01942668|164581153|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.115||0.323|TWO_SIDED|95.0|-0.34|0.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.34|0.323
82435856|NCT01942668|164581154|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.124||0.056|TWO_SIDED|95.0|-0.48|0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.01|-0.48|0.056
82435857|NCT01942668|164581154|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.124||0.279|TWO_SIDED|95.0|-0.38|0.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.11|-0.38|0.279
82435858|NCT01942668|164581154|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.123||0.435|TWO_SIDED|95.0|-0.34|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.15|-0.34|0.435
82435859|NCT01942668|164581154|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.124||0.607|TWO_SIDED|95.0|-0.31|0.18||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.31|0.607
82435860|NCT01942668|164581155|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.138||0.06|TWO_SIDED|95.0|-0.53|0.01||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.01|-0.53|0.060
82435861|NCT01942668|164581155|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.137||0.026|TWO_SIDED|95.0|-0.57|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.04|-0.57|0.026
82435862|NCT01942668|164581155|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.136||0.097|TWO_SIDED|95.0|-0.49|0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.04|-0.49|0.097
82435863|NCT01942668|164581155|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.138||0.23|TWO_SIDED|95.0|-0.44|0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.10|-0.44|0.230
82435864|NCT01942668|164581156|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.17||0.107|TWO_SIDED|95.0|-0.61|0.06||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.61|0.107
82435865|NCT01942668|164581156|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.169||0.302|TWO_SIDED|95.0|-0.51|0.16||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.51|0.302
82435866|NCT01942668|164581156|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.169||0.106|TWO_SIDED|95.0|-0.6|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.06|-0.60|0.106
82435867|NCT01942668|164581156|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.169||0.156|TWO_SIDED|95.0|-0.57|0.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.09|-0.57|0.156
82435868|NCT01942668|164581157|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.177||0.081|TWO_SIDED|95.0|-0.65|0.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.04|-0.65|0.081
82435869|NCT01942668|164581157|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.175||0.212|TWO_SIDED|95.0|-0.56|0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.12|-0.56|0.212
82435870|NCT01942668|164581157|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.175||0.345|TWO_SIDED|95.0|-0.51|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.51|0.345
82435871|NCT01942668|164581157|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.176||0.829|TWO_SIDED|95.0|-0.38|0.31||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.31|-0.38|0.829
82435872|NCT01942668|164581158|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.201||0.029|TWO_SIDED|95.0|-0.84|-0.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.05|-0.84|0.029
82435873|NCT01942668|164581158|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.199||0.026|TWO_SIDED|95.0|-0.84|-0.05||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.05|-0.84|0.026
82435874|NCT01942668|164581158|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.199||0.093|TWO_SIDED|95.0|-0.72|0.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.06|-0.72|0.093
82435875|NCT01942668|164581158|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.202||0.223|TWO_SIDED|95.0|-0.64|0.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.64|0.223
82435876|NCT01942668|164581159|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.85|-0.4||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.40|-0.85|<0.001
82435877|NCT01942668|164581159|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.71|-0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.26|-0.71|<0.001
82454362|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454363|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
82454364|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
82454365|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454366|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454367|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
82454368|NCT01128426|164614029|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454369|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454370|NCT01128426|164614029|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454371|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454372|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454373|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82539289|NCT00383188|164778423|SUPERIORITY||LSM Difference|1.236|STANDARD_ERROR_OF_MEAN|1.308||0.3452|TWO_SIDED|95.0|-1.335|3.807|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||3.807|-1.335|0.3452
82454374|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454375|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454376|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454377|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
82454378|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
82454379|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454380|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454381|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
82454382|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
82454383|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
82454384|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454385|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454386|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454387|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454388|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454389|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82577677|NCT04092530|164864511|OTHER||Risk Ratio (RR)|1.1||||0.88|TWO_SIDED|95.0|0.33|3.73|||Mixed Models Analysis|Adjusted for time; random intercept for clinical site||||3.73|0.33|0.88
82577678|NCT03301155|164864575|SUPERIORITY|||||||0.001|||||||Regression, Logistic|Comparison performed on the regression parameters scale. Estimates for mean time obtained under assumption of exponentially distributed time-to-event.||||||0.001
82577679|NCT03301155|164864575|SUPERIORITY|superiority margin for hazard ratio was prespecified as 0.846. Lower hazard is better thus the upper confidence limit of HR expected to be lesser than margin|Hazard Ratio (HR)|0.645||||0.0218|TWO_SIDED|95.0|0.496|0.839|||Regression, Cox||Lower HR is better|||0.839|0.496|0.0218
82577680|NCT03301155|164864576|SUPERIORITY|||||||0.0003||||||Adjusted with Holm method for multiple comparrisons|Fisher Exact|||Comparison between groups on week 4||||0.0003
82577681|NCT03301155|164864576|SUPERIORITY|Adjusted with Holm method for multiple comparrisons||||||0.0003|||||||Fisher Exact|||Comparison between groups on week 8||||0.0003
82577682|NCT03301155|164864576|SUPERIORITY|||||||0.0021|||||||Fisher Exact|||Comparison between groups on week 12||||0.0021
82577683|NCT03301155|164864577|SUPERIORITY|||||||0.1372|||||||Fisher Exact|||||||0.1372
82577684|NCT03301155|164864578|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82577685|NCT03301155|164864579|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82577686|NCT02964325|164864599|NON_INFERIORITY|An NI analysis was carried out to assess the primary efficacy endpoint with the null hypothesis being the MIRASOL group is inferior to the CONTROL group and the alternative hypothesis being the MIRASOL group is non-inferior to the CONTROL group. In this study, the NI margin was 1.6.|Relative Rate|2.79|||||TWO_SIDED|95.0|1.67|4.67|||||The MIRASOL group represents the numerator and the CONTROL group represents the denominator for the relative rate. For days during off-protocol intervals, bleeding data were simulated using an estimate of the individual-specific bleeding rate.|The MIRASOL and CONTROL groups were compared with respect to the number of days of WHO ≥ Grade 2 bleeding. This was carried out by fitting a negative binomial regression model with an offset defined as the natural logarithm (LN) of the number of days that bleeding was assessed in order to account for the fact that subjects had different numbers of bleeding assessment days.||4.67|1.67|
82435878|NCT01942668|164581159|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.75|-0.3||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.30|-0.75|<0.001
82435879|NCT01942668|164581159|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.64|-0.2||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.20|-0.64|<0.001
82577687|NCT02964325|164864601|NON_INFERIORITY|A non-inferiority margin of 1.2 was used to evaluated this endpoint.|Relative Risk|1.32||||0.7274|TWO_SIDED|95.0|0.97|1.81|||Wald Non-inferiority Test||The MIRASOL group represents the numerator and the CONTROL group represents the denominator for the relative risk.|The null hypothesis was H0: pt/pc \> 1.2 (ie, MIRASOL had more than a 20% higher probability of a patient experiencing at least one WHO ≥ Grade 2 bleed compared to CONTROL).||1.81|0.97|0.7274
82435880|NCT01942668|164581160|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.85|-0.38||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.38|-0.85|<0.001
82454390|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82577688|NCT02964325|164864602|OTHER|||||||0.07|||||||Log-rank test|||||||0.07
82577689|NCT02964325|164864603|OTHER|||||||0.1649|||||||Fisher Exact|||||||0.1649
82577690|NCT02964325|164864604|OTHER||Risk Ratio (RR)|2.15||||0.0015|TWO_SIDED|95.0|1.32|3.49|||Fisher Exact|||||3.49|1.32|0.0015
82577691|NCT00137969|164864640|SUPERIORITY_OR_OTHER|||||||0.4875||||||One-sided p-value.|Wilcoxon (Mann-Whitney)|||Stratified by randomization factors (race and initial prednisone dose)||||0.4875
82577692|NCT00137969|164864641|SUPERIORITY_OR_OTHER|||||||0.823|||||||Wilcoxon (Mann-Whitney)|||Stratified by randomization factors (race and initial prednisone dose)||||0.8230
82577693|NCT00137969|164864642|SUPERIORITY_OR_OTHER|||||||0.4318|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.4318
82577694|NCT00137969|164864643|SUPERIORITY_OR_OTHER|||||||0.9069|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.9069
82577695|NCT00137969|164864644|SUPERIORITY_OR_OTHER|||||||0.5602|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.5602
82577696|NCT00137969|164864645|SUPERIORITY_OR_OTHER|||||||0.8979|||||||Log Rank|||Stratified by randomization factors (race and initial prednisone dose)||||0.8979
82577697|NCT00137969|164864646|SUPERIORITY_OR_OTHER|||||||0.1277|||||||ANCOVA|||Stratified by randomization factors (race and initial prednisone dose)||||0.1277
82577698|NCT00137969|164864647|SUPERIORITY_OR_OTHER|||||||0.6202|||||||Cochran-Mantel-Haenszel|||Stratified by randomization factors (race and initial prednisone dose)||||0.6202
82577699|NCT03635099|164864648|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
82577700|NCT03635099|164864648|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
82577701|NCT03635099|164864648|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
82577702|NCT03635099|164864648|OTHER||Risk Difference (RD)|30.0||||0.0062|TWO_SIDED|95.0|15.8|44.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||44.2|15.8|0.0062
82577703|NCT03635099|164864648|OTHER||Risk Difference (RD)|25.6|||||TWO_SIDED|95.0|12.5|38.6|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||38.6|12.5|
82539290|NCT00383188|164778423|SUPERIORITY||LSM Difference|1.095|STANDARD_ERROR_OF_MEAN|1.091||0.3162|TWO_SIDED|95.0|-1.05|3.239|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||3.239|-1.050|0.3162
82539291|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.514|STANDARD_ERROR_OF_MEAN|1.072||0.0195|TWO_SIDED|95.0|0.406|4.622|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||4.622|0.406|0.0195
82539292|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.762|STANDARD_ERROR_OF_MEAN|1.283||0.032|TWO_SIDED|95.0|0.239|5.285|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||5.285|0.239|0.0320
82539293|NCT00383188|164778423|SUPERIORITY||LSM Difference|0.268|STANDARD_ERROR_OF_MEAN|1.29||0.8356|TWO_SIDED|95.0|-2.268|2.804|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 PCS as the covariate; and participant as a random effect.||2.804|-2.268|0.8356
82539294|NCT00383188|164778423|SUPERIORITY||LSM Difference|-0.904|STANDARD_ERROR_OF_MEAN|1.626||0.5787|TWO_SIDED|95.0|-4.101|2.293|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||2.293|-4.101|0.5787
82539295|NCT00383188|164778423|SUPERIORITY||LSM Difference|1.291|STANDARD_ERROR_OF_MEAN|1.6||0.4203|TWO_SIDED|95.0|-1.854|4.436|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||4.436|-1.854|0.4203
82539296|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.318|STANDARD_ERROR_OF_MEAN|1.916||0.2272|TWO_SIDED|95.0|-1.449|6.084|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||6.084|-1.449|0.2272
82539297|NCT00383188|164778423|SUPERIORITY||LSM Difference|0.829|STANDARD_ERROR_OF_MEAN|1.947||0.6707|TWO_SIDED|95.0|-2.998|4.655|||ANCOVA|||Week 4: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 4 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||4.655|-2.998|0.6707
82577704|NCT03635099|164864648|OTHER||Risk Difference (RD)|23.8|||||TWO_SIDED|95.0|10.9|36.7|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||36.7|10.9|
82649175|NCT00106028|165013575|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.534||||0.027||95.0|0.41|6.658|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.658|0.410|0.0270
82539298|NCT00383188|164778423|SUPERIORITY||LSM Difference|0.425|STANDARD_ERROR_OF_MEAN|1.622||0.7935|TWO_SIDED|95.0|-2.764|3.613|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||3.613|-2.764|0.7935
82539299|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.525|STANDARD_ERROR_OF_MEAN|1.592||0.1135|TWO_SIDED|95.0|-0.605|5.655|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||5.655|-0.605|0.1135
82577705|NCT03635099|164864648|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Linear model fit.|||||||0.0004
82539300|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.63|STANDARD_ERROR_OF_MEAN|1.912||0.1697|TWO_SIDED|95.0|-1.128|6.388|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||6.388|-1.128|0.1697
82539301|NCT00383188|164778423|SUPERIORITY||LSM Difference|2.21|STANDARD_ERROR_OF_MEAN|1.918||0.25|TWO_SIDED|95.0|-1.561|5.981|||ANCOVA|||Week 12: Estimates and p-values based on repeated measures analysis of covariance with treatment, country and week as fixed effects, treatment Week 12 as an interaction term, baseline SF-36 MCS as the covariate; and participant as a random effect.||5.981|-1.561|0.2500
82539302|NCT04246762|164778433|OTHER||geometric LS mean ratio of AUC (0-inf))|70.46|||||TWO_SIDED|90.0|60.62|81.91|||||Results based on a linear mixed model for the log-transformed values of PK parameters of midazolam with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (midazolam (as part of a 4-drug oral cocktail) after OKZ administration compared to midazolam (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||81.91|60.62|
82539303|NCT04246762|164778433|OTHER||geometric LS mean ratio of AUC (0-inf))|67.87|||||TWO_SIDED|90.0|56.73|81.21|||||Results based on a linear mixed model for the log-transformed values of PK parameters of omeprazole with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (omeprazole (as part of a 4-drug oral cocktail) after OKZ administration compared to omeprazole (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||81.21|56.73|
82539304|NCT04246762|164778433|OTHER||geometric LS mean ratio of AUC (0-inf))|122.92|||||TWO_SIDED|90.0|107.98|139.93|||||Results based on a linear mixed model for the log-transformed values of baseline-adjusted PK parameters of caffeine with a with fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (caffeine (as part of a 4-drug oral cocktail) after OKZ administration compared to caffeine (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||139.93|107.98|
82539305|NCT04246762|164778434|OTHER||geometric LS mean ratio of AUC (0-last))|90.83|||||TWO_SIDED|90.0|86.72|95.13|||||Results based on a linear mixed model for the log-transformed values of PK parameters of S-warfarin with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (S-warfarin (as part of a 4-drug oral cocktail) after OKZ administration compared to initial S-warfarin administrated alone (as part of a 4-drug oral cocktail)) and its corresponding 90% confidence interval (CI) was calculated. The mean difference and the CI were back transformed to the original scale to obtain estimate of the geometric mean ratio and the associated 90% CI.||95.13|86.72|
82539306|NCT04246762|164778435|OTHER||geometric LS mean ratio of Cmax|68.5|||||TWO_SIDED|90.0|59.46|78.92|||||Results based on a linear mixed model for the log-transformed values of PK parameters of midazolam with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (midazolam (as part of a 4-drug oral cocktail) after OKZ administration compared to midazolam (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||78.92|59.46|
82539307|NCT04246762|164778435|OTHER||geometric LS mean ratio of Cmax|73.54|||||TWO_SIDED|90.0|64.18|84.27|||||Results based on a linear mixed model for the log-transformed values of PK parameters of omeprazole with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (omeprazole (as part of a 4-drug oral cocktail) after OKZ administration compared to omeprazole (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||84.27|64.18|
82539308|NCT04246762|164778435|OTHER||geometric LS mean ratio of Cmax|97.99|||||TWO_SIDED|90.0|91.36|105.09|||||Results based on a linear mixed model for the log-transformed values of baseline-adjusted PK parameters of caffeine with a with fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (caffeine (as part of a 4-drug oral cocktail) after OKZ administration compared to caffeine (as part of a 4-drug oral cocktail) administrated alone) and its corresponding 90% confidence interval (CI) were calculated. The mean difference and the CI were back transformed to the original scale to obtain estimates of the geometric mean ratio and the associated 90% CI.||105.09|91.36|
82539309|NCT04246762|164778435|OTHER||geometric LS mean ratio of Cmax|102.3|||||TWO_SIDED|90.0|94.8|110.39|||||Results based on a linear mixed model for the log-transformed values of PK parameters of S-warfarin with a fixed effect for treatment and a random effect for subject.|Estimate of the mean difference between treatments (S-warfarin (as part of a 4-drug oral cocktail) after OKZ administration compared to initial S-warfarin administrated alone (as part of a 4-drug oral cocktail)) and its corresponding 90% confidence interval (CI) was calculated. The mean difference and the CI were back transformed to the original scale to obtain estimate of the geometric mean ratio and the associated 90% CI. The sample size computation was based on results reported for sirukumab.||110.39|94.80|
82539310|NCT04391309|164778473|SUPERIORITY|||||||0.435|||||||Log Rank|||||||0.435
82539311|NCT04391309|164778474|SUPERIORITY|||||||1|||||||Fisher Exact|||All categories included in the analysis||||1
82539312|NCT04391309|164778475|SUPERIORITY|||||||0.391|||||||Wilcoxon (Mann-Whitney)|||||||0.391
82539313|NCT04391309|164778476|SUPERIORITY|||||||0.895|||||||Wilcoxon (Mann-Whitney)|||||||0.895
82539314|NCT04391309|164778477|SUPERIORITY|||||||0.702|||||||Wilcoxon (Mann-Whitney)|||||||0.702
82539315|NCT04391309|164778478|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
82652300|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|0.143||||0.1295|TWO_SIDED|95.0|-0.042|0.328||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.328|-0.042|0.1295
82539316|NCT04391309|164778479|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis||||1
82539317|NCT04391309|164778480|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the anlysis.||||1
82539318|NCT04391309|164778481|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
82454391|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82539319|NCT04391309|164778482|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
82454392|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454393|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.75|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.75
82454394|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454395|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454396|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454397|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454398|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454399|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82539320|NCT04391309|164778483|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
82454400|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
82539321|NCT04391309|164778484|SUPERIORITY|||||||1||||||P-value based on Fishers exact test, which enumerates all possible tables that have same margins as observed \& calculates proportion of tables where values are more extreme than observed. P-value of 1 = the observed table is the most extreme|Fisher Exact|||All categories included in the analysis.||||1
82454401|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82454402|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
82454403|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.83|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.83
82454404|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454405|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454406|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454407|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454408|NCT01128426|164614030|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454409|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
82454410|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82454411|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454412|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454413|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82539322|NCT05826431|164778504|OTHER||Mean Difference (Final Values)|18.65||||0.153|TWO_SIDED||||||Paired samples t-test|||Study analyses were conducted using IBM SPSS Statistics Version 29. Frequencies and descriptive data were tabulated to describe the sample and quantify device use, satisfaction, and perceived impact. Qualitative responses regarding usability and feasibility were summarized based on the themes of the responses.||||0.153
82539323|NCT05826431|164778505|OTHER||Mean Difference (Final Values)|0.61||||0.103|TWO_SIDED||||||Paired samples t-test|||||||0.103
82539324|NCT05826431|164778507|OTHER|Single group, frequencies, and descriptive data|Mean Difference (Final Values)|4.22||||0.083|TWO_SIDED||||||Paired samples t-test|||||||.083
82539325|NCT05826431|164778508|OTHER||Mean Difference (Final Values)|-0.26||||441|TWO_SIDED||||||Paired samples t-test|||||||0441
82435881|NCT01942668|164581160|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.69|-0.22||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.22|-0.69|<0.001
82435882|NCT01942668|164581160|SUPERIORITY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.003|TWO_SIDED|95.0|-0.59|-0.12||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.12|-0.59|0.003
82435883|NCT01942668|164581160|SUPERIORITY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.03|TWO_SIDED|95.0|-0.5|-0.03||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-0.03|-0.50|0.030
82435884|NCT01942668|164581161|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.89|-0.36||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.36|-0.89|<0.001
82435885|NCT01942668|164581161|SUPERIORITY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.88|-0.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.36|-0.88|<0.001
82435886|NCT01942668|164581161|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.73|-0.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.21|-0.73|<0.001
82435887|NCT01942668|164581161|SUPERIORITY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.13||0.006|TWO_SIDED|95.0|-0.63|-0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-0.10|-0.63|0.006
82435888|NCT01942668|164581162|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|1.629||0.003|TWO_SIDED|95.0|-8.08|-1.69||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.69|-8.08|0.003
82435889|NCT01942668|164581162|SUPERIORITY||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|1.626||0.027|TWO_SIDED|95.0|-6.8|-0.42||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.42|-6.80|0.027
82435890|NCT01942668|164581162|SUPERIORITY||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|1.618||0.034|TWO_SIDED|95.0|-6.61|-0.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.26|-6.61|0.034
82435891|NCT01942668|164581162|SUPERIORITY||Mean Difference (Final Values)|-2.53|STANDARD_ERROR_OF_MEAN|1.621||0.119|TWO_SIDED|95.0|-5.71|0.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.65|-5.71|0.119
82435892|NCT01942668|164581163|SUPERIORITY||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|1.7||0.002|TWO_SIDED|95.0|-8.73|-2.05||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.05|-8.73|0.002
82435893|NCT01942668|164581163|SUPERIORITY||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|1.696||0.002|TWO_SIDED|95.0|-8.72|-2.06||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.06|-8.72|0.002
82435894|NCT01942668|164581163|SUPERIORITY||Mean Difference (Final Values)|-4.88|STANDARD_ERROR_OF_MEAN|1.685||0.004|TWO_SIDED|95.0|-8.19|-1.58||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.58|-8.19|0.004
82435895|NCT01942668|164581163|SUPERIORITY||Mean Difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|1.698||0.009|TWO_SIDED|95.0|-7.75|-1.09||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.09|-7.75|0.009
82652301|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.028||||0.7671|TWO_SIDED|95.0|-0.216|0.159||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.159|-0.216|0.7671
82435896|NCT01942668|164581164|SUPERIORITY||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|1.855|<|0.001|TWO_SIDED|95.0|-10.18|-2.9||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.90|-10.18|<0.001
82435897|NCT01942668|164581164|SUPERIORITY||Mean Difference (Final Values)|-7.61|STANDARD_ERROR_OF_MEAN|1.843|<|0.001|TWO_SIDED|95.0|-11.23|-4.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.00|-11.23|<0.001
82435898|NCT01942668|164581164|SUPERIORITY||Mean Difference (Final Values)|-7.44|STANDARD_ERROR_OF_MEAN|1.835|<|0.001|TWO_SIDED|95.0|-11.04|-3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.84|-11.04|<0.001
82435899|NCT01942668|164581164|SUPERIORITY||Mean Difference (Final Values)|-6.76|STANDARD_ERROR_OF_MEAN|1.863|<|0.001|TWO_SIDED|95.0|-10.41|-3.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.10|-10.41|<0.001
82435900|NCT01942668|164581165|SUPERIORITY||Mean Difference (Final Values)|-7.34|STANDARD_ERROR_OF_MEAN|2.146|<|0.001|TWO_SIDED|95.0|-11.55|-3.13||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-3.13|-11.55|<0.001
82435901|NCT01942668|164581165|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.139||0.009|TWO_SIDED|95.0|-9.8|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.40|-9.80|0.009
82435902|NCT01942668|164581165|SUPERIORITY||Mean Difference (Final Values)|-5.13|STANDARD_ERROR_OF_MEAN|2.132||0.016|TWO_SIDED|95.0|-9.31|-0.95||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.95|-9.31|0.016
82454414|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
82435903|NCT01942668|164581165|SUPERIORITY||Mean Difference (Final Values)|-3.04|STANDARD_ERROR_OF_MEAN|2.13||0.154|TWO_SIDED|95.0|-7.22|1.14||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||1.14|-7.22|0.154
82649176|NCT00106028|165013576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.065||||0.5925|TWO_SIDED|95.0|-2.868|4.998|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||4.998|-2.868|0.5925
82649177|NCT00106028|165013577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.193||||0.684|TWO_SIDED|95.0|-4.604|6.991|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.991|-4.604|0.6840
82649178|NCT00106028|165013578|SUPERIORITY_OR_OTHER|||||||0.068||95.0|||||Fisher Exact|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.0680
82649179|NCT00106028|165013579|SUPERIORITY_OR_OTHER|||||||0.4121||95.0|||||Fisher Exact|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.4121
82649180|NCT00106028|165013580|SUPERIORITY_OR_OTHER|||||||0.3658||95.0|||||Savage Exact Test|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.3658
82649181|NCT00106028|165013581|SUPERIORITY_OR_OTHER|||||||0.3408||95.0|||||Savage Exact Test|||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||||0.3408
82649182|NCT00106028|165013584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.534||||0.0253||95.0|0.31|0.922||All Fractures|Cox proportional hazards|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.922|0.310|0.0253
82649183|NCT00106028|165013584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.534||||0.0253|TWO_SIDED|95.0|0.31|0.922||All Non-Vertebral Fractures|Cox Proportional Hazard|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.922|0.310|0.0253
82649184|NCT00106028|165013584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.487||||0.0501|TWO_SIDED|95.0|0.25|0.95||Long Bone Non-Vertebral Fracture|Cox Proportional Hazards|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.950|0.250|0.0501
82435904|NCT01942668|164581166|SUPERIORITY||Mean Difference (Final Values)|-8.38|STANDARD_ERROR_OF_MEAN|2.213|<|0.001|TWO_SIDED|95.0|-12.72|-4.04||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-4.04|-12.72|<0.001
82652302|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|0.01||||0.9308|TWO_SIDED|95.0|-0.217|0.238||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.238|-0.217|0.9308
82435905|NCT01942668|164581166|SUPERIORITY||Mean Difference (Final Values)|-7.52|STANDARD_ERROR_OF_MEAN|2.201|<|0.001|TWO_SIDED|95.0|-11.83|-3.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.20|-11.83|<0.001
82435906|NCT01942668|164581166|SUPERIORITY||Mean Difference (Final Values)|-7.32|STANDARD_ERROR_OF_MEAN|2.193|<|0.001|TWO_SIDED|95.0|-11.63|-3.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-3.02|-11.63|<0.001
82454415|NCT01128426|164614030|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454416|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454417|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454418|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454419|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454420|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.20
82454421|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454422|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
82454423|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
82454424|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454425|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82539326|NCT05826431|164778509|OTHER||Mean Difference (Final Values)|2.61||||0.095|TWO_SIDED||||||Paired samples t-test|||||||0.095
82539327|NCT05826431|164778510|OTHER||Mean Difference (Final Values)|0.03||||0.487|TWO_SIDED||||||Paired samples t-test|||||||0.487
82539328|NCT05826431|164778511|OTHER||Mean Difference (Final Values)|-0.06||||0.483|TWO_SIDED||||||Paired samples t-test|||||||0.483
82539329|NCT05826431|164778512|OTHER||Mean Difference (Final Values)|-2.82||||0.0483|TWO_SIDED||||||Paired samples t-test|||||||.0483
82539330|NCT05826431|164778513|OTHER||Mean Difference (Final Values)|-0.42||||0.123|TWO_SIDED||||||Paired samples t-test|||||||0.123
82539331|NCT03028363|164778514|OTHER|||||||0.343|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.3430
82539332|NCT03028363|164778515|OTHER|||||||0.126|||||||ANCOVA|Ranked ANCOVA, Markov Chain Monte Carlo (MCMC) Multiple Imputation||||||0.1260
82539333|NCT03028363|164778516|OTHER|||||||0.5247|||||||Regression, Logistic|Logistic Regression (Firth's Penalized Likelihood), MCMC Multiple Imputation||||||0.5247
82652303|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|0.051||||0.6595|TWO_SIDED|95.0|-0.176|0.277||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.277|-0.176|0.6595
82652304|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.127||||0.2771|TWO_SIDED|95.0|-0.356|0.102||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.102|-0.356|0.2771
82454426|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
82454427|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454428|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454429|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
82539334|NCT04771273|164778517|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|3.47||||0.001|TWO_SIDED|95.0|1.66|7.25||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||7.25|1.66|0.0010
82539335|NCT04771273|164778517|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|9.52|||<|0.0001|TWO_SIDED|95.0|4.35|20.85||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||20.85|4.35|<0.0001
82539336|NCT04771273|164778517|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|7.07|||<|0.0001|TWO_SIDED|95.0|3.1|16.16||The p-value reported is considered nominal.|Regression, Logistic|||The logistic regression model included actual treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||16.16|3.10|<.0001
82539337|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82435907|NCT01942668|164581166|SUPERIORITY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.207||0.011|TWO_SIDED|95.0|-9.93|-1.27||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.27|-9.93|0.011
82435908|NCT01942668|164581167|SUPERIORITY||Mean Difference (Final Values)|-8.97|STANDARD_ERROR_OF_MEAN|2.439|<|0.001|TWO_SIDED|95.0|-13.76|-4.19||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.19|-13.76|<0.001
82435909|NCT01942668|164581167|SUPERIORITY||Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-14.34|-4.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.85|-14.34|<0.001
82435910|NCT01942668|164581167|SUPERIORITY||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|2.412|<|0.001|TWO_SIDED|95.0|-14.03|-4.56||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-4.56|-14.03|<0.001
82435911|NCT01942668|164581167|SUPERIORITY||Mean Difference (Final Values)|-7.72|STANDARD_ERROR_OF_MEAN|2.442||0.002|TWO_SIDED|95.0|-12.51|-2.93||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.93|-12.51|0.002
82435912|NCT01942668|164581168|SUPERIORITY||Mean Difference (Final Values)|2.02|STANDARD_ERROR_OF_MEAN|2.576||0.434|TWO_SIDED|95.0|-3.03|7.07||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.07|-3.03|0.434
82435913|NCT01942668|164581168|SUPERIORITY||Mean Difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|2.564||0.442|TWO_SIDED|95.0|-3.06|7.0||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.00|-3.06|0.442
82435914|NCT01942668|164581168|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|2.558||0.558|TWO_SIDED|95.0|-3.52|6.51||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||6.51|-3.52|0.558
82435915|NCT01942668|164581168|SUPERIORITY||Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|2.555||0.534|TWO_SIDED|95.0|-3.42|6.6||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||6.60|-3.42|0.534
82435916|NCT01942668|164581169|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|2.719||0.927|TWO_SIDED|95.0|-5.08|5.58||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||5.58|-5.08|0.927
82435917|NCT01942668|164581169|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|2.699||0.541|TWO_SIDED|95.0|-6.95|3.64||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||3.64|-6.95|0.541
82435918|NCT01942668|164581169|SUPERIORITY||Mean Difference (Final Values)|-3.68|STANDARD_ERROR_OF_MEAN|2.691||0.171|TWO_SIDED|95.0|-8.96|1.6||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||1.60|-8.96|0.171
82435919|NCT01942668|164581169|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|2.708||0.667|TWO_SIDED|95.0|-6.48|4.15||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||4.15|-6.48|0.667
82435920|NCT01942668|164581170|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|2.863||0.662|TWO_SIDED|95.0|-4.36|6.87||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||6.87|-4.36|0.662
82435921|NCT01942668|164581170|SUPERIORITY||Mean Difference (Final Values)|-1.35|STANDARD_ERROR_OF_MEAN|2.834||0.635|TWO_SIDED|95.0|-6.91|4.21||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||4.21|-6.91|0.635
82435922|NCT01942668|164581170|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.827||0.877|TWO_SIDED|95.0|-5.98|5.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.11|-5.98|0.877
82435923|NCT01942668|164581170|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|2.867||0.893|TWO_SIDED|95.0|-6.01|5.24||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||5.24|-6.01|0.893
82435924|NCT01942668|164581171|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|2.058||0.83|TWO_SIDED|95.0|-4.48|3.59||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.59|-4.48|0.830
82435925|NCT01942668|164581171|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|2.05||0.755|TWO_SIDED|95.0|-4.66|3.38||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||3.38|-4.66|0.755
82435926|NCT01942668|164581171|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.046||0.802|TWO_SIDED|95.0|-3.5|4.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||4.53|-3.50|0.802
82435927|NCT01942668|164581171|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|2.043||0.823|TWO_SIDED|95.0|-4.46|3.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||3.55|-4.46|0.823
82435928|NCT01942668|164581172|SUPERIORITY||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|2.166||0.255|TWO_SIDED|95.0|-6.71|1.78||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||1.78|-6.71|0.255
82435929|NCT01942668|164581172|SUPERIORITY||Mean Difference (Final Values)|-2.27|STANDARD_ERROR_OF_MEAN|2.154||0.293|TWO_SIDED|95.0|-6.49|1.96||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||1.96|-6.49|0.293
82435930|NCT01942668|164581172|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|2.148||0.502|TWO_SIDED|95.0|-5.66|2.77||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.77|-5.66|0.502
82435931|NCT01942668|164581172|SUPERIORITY||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|2.161||0.495|TWO_SIDED|95.0|-5.71|2.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.76|-5.71|0.495
82435932|NCT01942668|164581173|SUPERIORITY||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|2.274||0.389|TWO_SIDED|95.0|-6.42|2.5||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||2.50|-6.42|0.389
82435933|NCT01942668|164581173|SUPERIORITY||Mean Difference (Final Values)|-2.43|STANDARD_ERROR_OF_MEAN|2.253||0.281|TWO_SIDED|95.0|-6.85|1.99||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||1.99|-6.85|0.281
82435934|NCT01942668|164581173|SUPERIORITY||Mean Difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|2.25||0.504|TWO_SIDED|95.0|-5.92|2.91||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.91|-5.92|0.504
82435935|NCT01942668|164581173|SUPERIORITY||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|2.277||0.46|TWO_SIDED|95.0|-6.15|2.78||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||2.78|-6.15|0.460
82652305|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.203||||0.0887|TWO_SIDED|95.0|-0.436|0.031||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.031|-0.436|0.0887
82652306|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.21||||0.0758|TWO_SIDED|95.0|-0.443|0.022||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.022|-0.443|0.0758
82435936|NCT01942668|164581174|SUPERIORITY||Mean Difference (Final Values)|4.35|STANDARD_ERROR_OF_MEAN|2.513||0.084|TWO_SIDED|95.0|-0.58|9.28||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||9.28|-0.58|0.084
82435937|NCT01942668|164581174|SUPERIORITY||Mean Difference (Final Values)|2.61|STANDARD_ERROR_OF_MEAN|2.506||0.298|TWO_SIDED|95.0|-2.3|7.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||7.53|-2.30|0.298
82435938|NCT01942668|164581174|SUPERIORITY||Mean Difference (Final Values)|3.72|STANDARD_ERROR_OF_MEAN|2.496||0.136|TWO_SIDED|95.0|-1.17|8.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||8.62|-1.17|0.136
82435939|NCT01942668|164581174|SUPERIORITY||Mean Difference (Final Values)|3.48|STANDARD_ERROR_OF_MEAN|2.492||0.163|TWO_SIDED|95.0|-1.41|8.37||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||8.37|-1.41|0.163
82435940|NCT01942668|164581175|SUPERIORITY||Mean Difference (Final Values)|5.11|STANDARD_ERROR_OF_MEAN|2.647||0.054|TWO_SIDED|95.0|-0.08|10.31||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||10.31|-0.08|0.054
82435941|NCT01942668|164581175|SUPERIORITY||Mean Difference (Final Values)|7.1|STANDARD_ERROR_OF_MEAN|2.634||0.007|TWO_SIDED|95.0|1.93|12.26||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||12.26|1.93|0.007
82435942|NCT01942668|164581175|SUPERIORITY||Mean Difference (Final Values)|5.9|STANDARD_ERROR_OF_MEAN|2.623||0.025|TWO_SIDED|95.0|0.75|11.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||11.04|0.75|0.025
82435943|NCT01942668|164581175|SUPERIORITY||Mean Difference (Final Values)|8.38|STANDARD_ERROR_OF_MEAN|2.638||0.002|TWO_SIDED|95.0|3.2|13.55||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||13.55|3.20|0.002
82435944|NCT01942668|164581176|SUPERIORITY||Mean Difference (Final Values)|5.02|STANDARD_ERROR_OF_MEAN|2.945||0.089|TWO_SIDED|95.0|-0.76|10.8||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||10.80|-0.76|0.089
82435945|NCT01942668|164581176|SUPERIORITY||Mean Difference (Final Values)|7.56|STANDARD_ERROR_OF_MEAN|2.92||0.01|TWO_SIDED|95.0|1.83|13.29||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||13.29|1.83|0.010
82435946|NCT01942668|164581176|SUPERIORITY||Mean Difference (Final Values)|7.65|STANDARD_ERROR_OF_MEAN|2.911||0.009|TWO_SIDED|95.0|1.94|13.36||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||13.36|1.94|0.009
82435947|NCT01942668|164581176|SUPERIORITY||Mean Difference (Final Values)|7.89|STANDARD_ERROR_OF_MEAN|2.944||0.007|TWO_SIDED|95.0|2.11|13.67||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||13.67|2.11|0.007
82435948|NCT01942668|164581177|SUPERIORITY||Mean Difference (Final Values)|-1.64|STANDARD_ERROR_OF_MEAN|1.749||0.349|TWO_SIDED|95.0|-5.07|1.79||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||1.79|-5.07|0.349
82435949|NCT01942668|164581177|SUPERIORITY||Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|1.743||0.499|TWO_SIDED|95.0|-4.6|2.24||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||2.24|-4.60|0.499
82435950|NCT01942668|164581177|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|1.737||0.936|TWO_SIDED|95.0|-3.27|3.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||3.55|-3.27|0.936
82435951|NCT01942668|164581177|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.736||0.696|TWO_SIDED|95.0|-4.08|2.72||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||2.72|-4.08|0.696
82435952|NCT01942668|164581178|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.924||0.572|TWO_SIDED|95.0|-4.86|2.69||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.69|-4.86|0.572
82435953|NCT01942668|164581178|SUPERIORITY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|1.914||0.553|TWO_SIDED|95.0|-4.89|2.62||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||2.62|-4.89|0.553
82435954|NCT01942668|164581178|SUPERIORITY||Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|1.907||0.456|TWO_SIDED|95.0|-5.16|2.32||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||2.32|-5.16|0.456
82435955|NCT01942668|164581178|SUPERIORITY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|1.919||0.949|TWO_SIDED|95.0|-3.89|3.64||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||3.64|-3.89|0.949
82435956|NCT01942668|164581179|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|2.026||0.097|TWO_SIDED|95.0|-7.34|0.61||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.61|-7.34|0.097
82435957|NCT01942668|164581179|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.01||0.008|TWO_SIDED|95.0|-9.28|-1.4||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.40|-9.28|0.008
82435958|NCT01942668|164581179|SUPERIORITY||Mean Difference (Final Values)|-4.94|STANDARD_ERROR_OF_MEAN|2.003||0.014|TWO_SIDED|95.0|-8.87|-1.01||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-1.01|-8.87|0.014
82435959|NCT01942668|164581179|SUPERIORITY||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|2.029||0.056|TWO_SIDED|95.0|-7.86|0.1||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.10|-7.86|0.056
82435960|NCT01942668|164581180|SUPERIORITY||Mean Difference (Final Values)|-4.92|STANDARD_ERROR_OF_MEAN|1.665||0.003|TWO_SIDED|95.0|-8.18|-1.65||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.65|-8.18|0.003
82435961|NCT01942668|164581180|SUPERIORITY||Mean Difference (Final Values)|-3.79|STANDARD_ERROR_OF_MEAN|1.66||0.023|TWO_SIDED|95.0|-7.05|-0.53||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.53|-7.05|0.023
82435962|NCT01942668|164581180|SUPERIORITY||Mean Difference (Final Values)|-3.28|STANDARD_ERROR_OF_MEAN|1.653||0.047|TWO_SIDED|95.0|-6.52|-0.04||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.04|-6.52|0.047
82435963|NCT01942668|164581180|SUPERIORITY||Mean Difference (Final Values)|-3.41|STANDARD_ERROR_OF_MEAN|1.652||0.039|TWO_SIDED|95.0|-6.65|-0.17||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.17|-6.65|0.039
82435964|NCT01942668|164581181|SUPERIORITY||Mean Difference (Final Values)|-5.69|STANDARD_ERROR_OF_MEAN|1.713|<|0.001|TWO_SIDED|95.0|-9.05|-2.33||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.33|-9.05|<0.001
82435965|NCT01942668|164581181|SUPERIORITY||Mean Difference (Final Values)|-5.58|STANDARD_ERROR_OF_MEAN|1.704||0.001|TWO_SIDED|95.0|-8.93|-2.24||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.24|-8.93|0.001
82652307|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.298||||0.0132|TWO_SIDED|95.0|-0.534|-0.063||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.063|-0.534|0.0132
82435966|NCT01942668|164581181|SUPERIORITY||Mean Difference (Final Values)|-5.12|STANDARD_ERROR_OF_MEAN|1.697||0.003|TWO_SIDED|95.0|-8.45|-1.79||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.79|-8.45|0.003
82435967|NCT01942668|164581181|SUPERIORITY||Mean Difference (Final Values)|-5.11|STANDARD_ERROR_OF_MEAN|1.708||0.003|TWO_SIDED|95.0|-8.46|-1.76||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.76|-8.46|0.003
82435968|NCT01942668|164581182|SUPERIORITY||Mean Difference (Final Values)|-6.01|STANDARD_ERROR_OF_MEAN|1.885||0.001|TWO_SIDED|95.0|-9.71|-2.32||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.32|-9.71|0.001
82435969|NCT01942668|164581182|SUPERIORITY||Mean Difference (Final Values)|-7.22|STANDARD_ERROR_OF_MEAN|1.871|<|0.001|TWO_SIDED|95.0|-10.89|-3.55||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.55|-10.89|<0.001
82435970|NCT01942668|164581182|SUPERIORITY||Mean Difference (Final Values)|-6.92|STANDARD_ERROR_OF_MEAN|1.863|<|0.001|TWO_SIDED|95.0|-10.58|-3.27||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.27|-10.58|<0.001
82435971|NCT01942668|164581182|SUPERIORITY||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.886|<|0.001|TWO_SIDED|95.0|-10.12|-2.72||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.72|-10.12|<0.001
82435972|NCT01942668|164581183|SUPERIORITY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.609||0.004|TWO_SIDED|95.0|-7.75|-1.44||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-1.44|-7.75|0.004
82435973|NCT01942668|164581183|SUPERIORITY||Mean Difference (Final Values)|-3.49|STANDARD_ERROR_OF_MEAN|1.605||0.03|TWO_SIDED|95.0|-6.64|-0.34||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.34|-6.64|0.030
82652308|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.086||||0.4903|TWO_SIDED|95.0|-0.332|0.16||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.160|-0.332|0.4903
82435974|NCT01942668|164581183|SUPERIORITY||Mean Difference (Final Values)|-3.15|STANDARD_ERROR_OF_MEAN|1.598||0.049|TWO_SIDED|95.0|-6.29|-0.02||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||-0.02|-6.29|0.049
82435975|NCT01942668|164581183|SUPERIORITY||Mean Difference (Final Values)|-2.48|STANDARD_ERROR_OF_MEAN|1.597||0.121|TWO_SIDED|95.0|-5.61|0.65||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.65|-5.61|0.121
82435976|NCT01942668|164581184|SUPERIORITY||Mean Difference (Final Values)|-5.44|STANDARD_ERROR_OF_MEAN|1.682||0.001|TWO_SIDED|95.0|-8.74|-2.14||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.14|-8.74|0.001
82435977|NCT01942668|164581184|SUPERIORITY||Mean Difference (Final Values)|-5.53|STANDARD_ERROR_OF_MEAN|1.674|<|0.001|TWO_SIDED|95.0|-8.81|-2.25||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||-2.25|-8.81|<0.001
82435978|NCT01942668|164581184|SUPERIORITY||Mean Difference (Final Values)|-5.12|STANDARD_ERROR_OF_MEAN|1.667||0.002|TWO_SIDED|95.0|-8.39|-1.85||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.85|-8.39|0.002
82539338|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539339|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0008|||||||MCP-Mod exponential -2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0008
82539340|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539341|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539342|NCT04771273|164778517|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82652309|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.068||||0.5824|TWO_SIDED|95.0|-0.313|0.176||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.176|-0.313|0.5824
82435979|NCT01942668|164581184|SUPERIORITY||Mean Difference (Final Values)|-4.64|STANDARD_ERROR_OF_MEAN|1.677||0.006|TWO_SIDED|95.0|-7.93|-1.35||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||-1.35|-7.93|0.006
82435980|NCT01942668|164581185|SUPERIORITY||Mean Difference (Final Values)|-6.28|STANDARD_ERROR_OF_MEAN|1.849|<|0.001|TWO_SIDED|95.0|-9.91|-2.65||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.65|-9.91|<0.001
82454430|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454431|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82649185|NCT00106028|165013584|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.608||||0.2141|TWO_SIDED|95.0|0.262|1.41||Other Non-Vertebral Fracture|Cox Proportional Hazard|Hazard Ratio and 95% CI based on Cox proportional hazards model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.410|0.262|0.2141
82649186|NCT00106028|165013585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.584||||0.0416||95.0|0.348|0.98||All Fractures|Wald test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.980|0.348|0.0416
82435981|NCT01942668|164581185|SUPERIORITY||Mean Difference (Final Values)|-7.58|STANDARD_ERROR_OF_MEAN|1.835|<|0.001|TWO_SIDED|95.0|-11.18|-3.98||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.98|-11.18|<0.001
82435982|NCT01942668|164581185|SUPERIORITY||Mean Difference (Final Values)|-7.43|STANDARD_ERROR_OF_MEAN|1.828|<|0.001|TWO_SIDED|95.0|-11.02|-3.84||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-3.84|-11.02|<0.001
82435983|NCT01942668|164581185|SUPERIORITY||Mean Difference (Final Values)|-6.54|STANDARD_ERROR_OF_MEAN|1.851|<|0.001|TWO_SIDED|95.0|-10.17|-2.91||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||-2.91|-10.17|<0.001
82435984|NCT01942668|164581186|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.049||0.225|TWO_SIDED|95.0|-0.04|0.16||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.16|-0.04|0.225
82435985|NCT01942668|164581186|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.049||0.741|TWO_SIDED|95.0|-0.08|0.11||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Week 12|Mixed Models Analysis|||||0.11|-0.08|0.741
82435986|NCT01942668|164581186|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.049||0.414|TWO_SIDED|95.0|-0.06|0.14||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.14|-0.06|0.414
82435987|NCT01942668|164581186|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.049||0.69|TWO_SIDED|95.0|-0.11|0.08||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Week 12|Mixed Models Analysis|||||0.08|-0.11|0.690
82435988|NCT01942668|164581187|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.052||0.045|TWO_SIDED|95.0|0.0|0.21||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.21|0.00|0.045
82435989|NCT01942668|164581187|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.052||0.069|TWO_SIDED|95.0|-0.01|0.2||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 6|Mixed Models Analysis|||||0.20|-0.01|0.069
82435990|NCT01942668|164581187|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.052||0.126|TWO_SIDED|95.0|-0.02|0.18||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.18|-0.02|0.126
82435991|NCT01942668|164581187|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.052||0.907|TWO_SIDED|95.0|-0.1|0.11||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 6|Mixed Models Analysis|||||0.11|-0.10|0.907
82539343|NCT04771273|164778518|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|5.49|||<|0.0001|TWO_SIDED|95.0|2.46|12.28||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||12.28|2.46|<.0001
82539344|NCT04771273|164778518|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|10.14|||<|0.0001|TWO_SIDED|95.0|4.49|22.87||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||22.87|4.49|<.0001
82539345|NCT04771273|164778518|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|4.87||||0.0001|TWO_SIDED|95.0|2.18|10.91||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model includes planned treatment, presence of diabetes of any type and Baseline Fibrosis Score. Firth's penalized regression was used.||10.91|2.18|0.0001
82539346|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0001|||||||MCPMod linear model fit|linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0001
82652310|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.215||||0.0885|TWO_SIDED|95.0|-0.463|0.033||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.033|-0.463|0.0885
82539347|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0115|||||||MCPMod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0115
82539348|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.2204|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.2204
82539349|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539350|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82561846|NCT02291861|164832895|SUPERIORITY||Odds Ratio (OR)|2.11||||0.059|TWO_SIDED|95.0|0.96|4.645|||Cochran-Mantel-Haenszel|The statistical test was a Cochran-Mantel-Haenszel (CMH) test stratified by baseline use of dopamine receptor antagonist (DRAs).|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 36 mg/day group and the placebo group, and is the second analysis in the fixed-sequence."||4.645|0.960|0.059
82577706|NCT03635099|164864648|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0012||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Logistic model fit.|Model assumption: 10% of the maximum effect is achieved at 25 mg and 80% of the maximum effect is achieved at 100 mg.||||||0.0012
82577707|NCT03635099|164864648|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0008||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax1 model fit.|Model assumption: 30% of the maximum effect is achieved at 50 mg.||||||0.0008
82649187|NCT00106028|165013585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.584||||0.0416|TWO_SIDED|95.0|0.348|0.98||Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.980|0.348|0.0416
82649188|NCT00106028|165013585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.543||||0.0799|TWO_SIDED|95.0|0.274|1.076||Long Bone Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.076|0.274|0.0799
82435992|NCT01942668|164581188|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.055||0.992|TWO_SIDED|95.0|-0.11|0.11||p-value is derived from comparison between Combined Estradiol 1 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.11|-0.11|0.992
82435993|NCT01942668|164581188|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.054||0.45|TWO_SIDED|95.0|-0.07|0.15||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 100 mg against Placebo at Month 12|Mixed Models Analysis|||||0.15|-0.07|0.450
82454432|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454433|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82539351|NCT04771273|164778518|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539352|NCT04771273|164778519|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|5.07|||<|0.0001|TWO_SIDED|95.0|2.47|10.4||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||10.40|2.47|<.0001
82435994|NCT01942668|164581188|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.054||0.663|TWO_SIDED|95.0|-0.13|0.08||p-value is derived from comparison between Combined Estradiol 0.5 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.08|-0.13|0.663
82435995|NCT01942668|164581188|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.055||0.309|TWO_SIDED|95.0|-0.16|0.05||p-value is derived from comparison between Combined Estradiol 0.25 mg / Progesterone 50 mg against Placebo at Month 12|Mixed Models Analysis|||||0.05|-0.16|0.309
82435996|NCT04115748|164581189|SUPERIORITY||Difference in response rates|32.1||||0.048|TWO_SIDED|95.0|2.6|61.6||The stratification factors (Geographic Region, Concurrent Use of conventional synthetic (cs) DMARD(s) and/or Apremilast at Randomization, Prior Use of biologic (bio) DMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||61.6|2.6|0.048
82435997|NCT04115748|164581189|SUPERIORITY||Difference in response rates|18.4||||0.23|TWO_SIDED|95.0|-12.4|49.2||The stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||49.2|-12.4|0.23
82435998|NCT04115748|164581191|SUPERIORITY||Difference in response rates|16.1||||0.17|TWO_SIDED|95.0|-9.7|41.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||41.9|-9.7|0.17
82435999|NCT04115748|164581191|SUPERIORITY||Difference in response rates|11.7||||0.27|TWO_SIDED|95.0|-13.3|36.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||36.6|-13.3|0.27
82436000|NCT04115748|164581191|SUPERIORITY||Difference in response rates|10.5||||0.42|TWO_SIDED|95.0|-20.4|41.5||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||41.5|-20.4|0.42
82436001|NCT04115748|164581191|SUPERIORITY||Difference in response rates|15.8||||0.26|TWO_SIDED|95.0|-16.0|47.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.6|-16.0|0.26
82652311|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.111||||0.3652|TWO_SIDED|95.0|-0.352|0.13||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.130|-0.352|0.3652
82436002|NCT04115748|164581191|SUPERIORITY||Difference in response rates|28.7||||0.062|TWO_SIDED|95.0|-5.0|62.3||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||62.3|-5.0|0.062
82436003|NCT04115748|164581191|SUPERIORITY||Difference in response rates|31.6||||0.047|TWO_SIDED|95.0|-1.5|64.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||64.6|-1.5|0.047
82454434|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454435|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454436|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454437|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454438|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454439|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82577708|NCT03635099|164864648|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0217||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax2 model fit.|Model assumption: 80% of the maximum effect is achieved at 50 mg.||||||0.0217
82649189|NCT00106028|165013585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.682|TWO_SIDED|95.0|0.304|1.532||Other Non-Vertebral Fracture|Wald Test|Hazard Ratio and 95% CI based on Anderson-Gill mean intensity model stratified by age group with treatment and pooled-country as covariates.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||1.532|0.304|0.682
82436004|NCT04115748|164581191|SUPERIORITY||Difference in response rates|7.8||||0.58|TWO_SIDED|95.0|-24.6|40.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.2|-24.6|0.58
82436005|NCT04115748|164581191|SUPERIORITY||Difference in response rates|16.8||||0.27|TWO_SIDED|95.0|-16.2|49.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||49.9|-16.2|0.27
82436006|NCT04115748|164581192|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-9.9|20.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.4|-9.9|
82436007|NCT04115748|164581192|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
82436008|NCT04115748|164581192|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-27.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||17.1|-27.6|
82436009|NCT04115748|164581192|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-29.6|8.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||8.5|-29.6|
82436010|NCT04115748|164581192|SUPERIORITY||Difference in response rates|5.8|||||TWO_SIDED|95.0|-17.2|28.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||28.9|-17.2|
82436011|NCT04115748|164581192|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-19.5|19.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||19.5|-19.5|
82436012|NCT04115748|164581192|SUPERIORITY||Difference in response rates|5.6|||||TWO_SIDED|95.0|-10.3|21.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.4|-10.3|
82454440|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454441|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82436013|NCT04115748|164581192|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-8.4|29.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||29.5|-8.4|
82436014|NCT04115748|164581198|SUPERIORITY||Difference in response rates|16.1|||||TWO_SIDED|95.0|-9.7|41.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||41.9|-9.7|
82454442|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454443|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82436015|NCT04115748|164581198|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-16.5|28.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||28.8|-16.5|
82454444|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454445|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454446|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454447|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454448|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454449|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
82454450|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454451|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454452|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454453|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454454|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454455|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454456|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
82454457|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454458|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
82454459|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454460|NCT01128426|164614031|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454461|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454462|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
82454463|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454464|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454465|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454466|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
82454467|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454468|NCT01128426|164614031|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454469|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454470|NCT01128426|164614032|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454471|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454472|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
82454473|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.86|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.86
82454474|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454475|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454476|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
82454477|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454478|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82436016|NCT04115748|164581198|SUPERIORITY||Difference in response rates|23.9|||||TWO_SIDED|95.0|-8.8|56.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||56.6|-8.8|
82436017|NCT04115748|164581198|SUPERIORITY||Difference in response rates|27.1|||||TWO_SIDED|95.0|-5.2|59.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||59.4|-5.2|
82436018|NCT04115748|164581199|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.1|5.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.1|-5.1|
82436019|NCT04115748|164581199|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
82436020|NCT04115748|164581199|SUPERIORITY||Difference in response rates|11.7|||||TWO_SIDED|95.0|-13.3|36.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||36.6|-13.3|
82436021|NCT04115748|164581199|SUPERIORITY||Difference in response rates|5.5|||||TWO_SIDED|95.0|-16.4|27.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.4|-16.4|
82436022|NCT04115748|164581200|SUPERIORITY||Difference in response rates|15.8||||0.2|TWO_SIDED|95.0|-13.6|45.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||45.2|-13.6|0.20
82436023|NCT04115748|164581200|SUPERIORITY||Difference in response rates|-5.0||||0.6|TWO_SIDED|95.0|-27.8|17.8||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||17.8|-27.8|0.60
82436024|NCT04115748|164581200|SUPERIORITY||Difference in response rates|42.6||||0.008|TWO_SIDED|95.0|11.5|73.8||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||73.8|11.5|0.008
82436025|NCT04115748|164581200|SUPERIORITY||Difference in response rates|17.8||||0.17|TWO_SIDED|95.0|-12.0|47.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||47.6|-12.0|0.17
82436026|NCT04115748|164581200|SUPERIORITY||Difference in response rates|42.1||||0.011|TWO_SIDED|95.0|8.1|76.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||76.2|8.1|0.011
82436027|NCT04115748|164581200|SUPERIORITY||Difference in response rates|5.3||||0.69|TWO_SIDED|95.0|-30.1|40.6||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||40.6|-30.1|0.69
82436028|NCT04115748|164581200|SUPERIORITY||Difference in response rates|35.7||||0.033|TWO_SIDED|95.0|0.9|70.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||70.4|0.9|0.033
82436029|NCT04115748|164581200|SUPERIORITY||Difference in response rates|21.1||||0.19|TWO_SIDED|95.0|-15.2|57.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.4|-15.2|0.19
82436030|NCT04115748|164581200|SUPERIORITY||Difference in response rates|43.9||||0.007|TWO_SIDED|95.0|12.4|75.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||75.4|12.4|0.007
82436031|NCT04115748|164581200|SUPERIORITY||Difference in response rates|7.6||||0.63|TWO_SIDED|95.0|-28.8|44.1||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||44.1|-28.8|0.63
82436032|NCT04115748|164581201|SUPERIORITY||Difference in response rates|0.0||||0.98|TWO_SIDED|95.0|-19.5|19.5||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.5|-19.5|0.98
82436033|NCT04115748|164581201|SUPERIORITY||Difference in response rates|-5.3||||0.5|TWO_SIDED|95.0|-20.7|10.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.2|-20.7|0.50
82454479|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454480|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82539353|NCT04771273|164778519|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|9.46|||<|0.0001|TWO_SIDED|95.0|4.36|20.51||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||20.51|4.36|<.0001
82539354|NCT04771273|164778519|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|16.09|||<|0.0001|TWO_SIDED|95.0|6.69|38.73||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||38.73|6.69|<.0001
82539355|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539356|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539357|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539358|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539359|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539360|NCT04771273|164778519|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82649190|NCT00106028|165013586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.678||||0.0318||95.0|-22.325|-1.031|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||-1.031|-22.325|0.0318
82436034|NCT04115748|164581201|SUPERIORITY||Difference in response rates|5.5||||0.54|TWO_SIDED|95.0|-16.4|27.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||27.4|-16.4|0.54
82436035|NCT04115748|164581201|SUPERIORITY||Difference in response rates|0.6||||0.92|TWO_SIDED|95.0|-19.0|20.1||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.1|-19.0|0.92
82436036|NCT04115748|164581201|SUPERIORITY||Difference in response rates|21.1||||0.13|TWO_SIDED|95.0|-9.3|51.4||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||51.4|-9.3|0.13
82436037|NCT04115748|164581201|SUPERIORITY||Difference in response rates|15.8||||0.22|TWO_SIDED|95.0|-13.6|45.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||45.2|-13.6|0.22
82436038|NCT04115748|164581201|SUPERIORITY||Difference in response rates|45.0||||0.007|TWO_SIDED|95.0|12.8|77.2||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.2|12.8|0.007
82436039|NCT04115748|164581201|SUPERIORITY||Difference in response rates|31.6||||0.039|TWO_SIDED|95.0|0.2|63.0||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||63.0|0.2|0.039
82652312|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.108||||0.3739|TWO_SIDED|95.0|-0.348|0.131||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.131|-0.348|0.3739
82436040|NCT04115748|164581201|SUPERIORITY||Difference in response rates|12.8||||0.34|TWO_SIDED|95.0|-18.4|44.0||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||44.0|-18.4|0.34
82436041|NCT04115748|164581201|SUPERIORITY||Difference in response rates|32.4||||0.04|TWO_SIDED|95.0|-0.1|64.9||P-value was calculated by logistic regression with treatment group and stratification factors (geographic region and concurrent use of csDMARDs and/or apremilast at randomization) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||64.9|-0.1|0.040
82454481|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
82454482|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454483|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.88|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.88
82454484|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
82454485|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82454486|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82539361|NCT04771273|164778520|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|10.39|||<|0.0001|TWO_SIDED|95.0|4.6|23.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||23.45|4.60|<.0001
82436042|NCT04115748|164581202|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-10.0|20.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||20.6|-10.0|
82436043|NCT04115748|164581202|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.4|5.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||5.4|-5.4|
82454487|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454488|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454489|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
82454490|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454491|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82436044|NCT04115748|164581202|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-9.9|20.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.4|-9.9|
82436045|NCT04115748|164581202|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||5.3|-5.3|
82436046|NCT04115748|164581202|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-14.0|35.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||35.0|-14.0|
82436047|NCT04115748|164581202|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-17.1|27.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||27.6|-17.1|
82436048|NCT04115748|164581202|SUPERIORITY||Difference in response rates|27.8|||||TWO_SIDED|95.0|1.7|53.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||53.9|1.7|
82436049|NCT04115748|164581202|SUPERIORITY||Difference in response rates|26.3|||||TWO_SIDED|95.0|1.3|51.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||51.4|1.3|
82436050|NCT04115748|164581202|SUPERIORITY||Difference in response rates|12.2|||||TWO_SIDED|95.0|-16.3|40.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.8|-16.3|
82436051|NCT04115748|164581202|SUPERIORITY||Difference in response rates|21.6|||||TWO_SIDED|95.0|-8.2|51.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||51.4|-8.2|
82436052|NCT04115748|164581210|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-46.3|25.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||25.2|-46.3|
82436053|NCT04115748|164581210|SUPERIORITY||Difference in response rates|-8.8|||||TWO_SIDED|95.0|-45.3|27.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||27.7|-45.3|
82436054|NCT04115748|164581210|SUPERIORITY||Difference in response rates|11.8|||||TWO_SIDED|95.0|-22.1|45.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||45.8|-22.1|
82436055|NCT04115748|164581210|SUPERIORITY||Difference in response rates|19.4|||||TWO_SIDED|95.0|-15.6|54.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||54.5|-15.6|
82436056|NCT04115748|164581210|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-26.0|47.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.0|-26.0|
82436057|NCT04115748|164581210|SUPERIORITY||Difference in response rates|10.5|||||TWO_SIDED|95.0|-26.0|47.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||47.0|-26.0|
82436058|NCT04115748|164581210|SUPERIORITY||Difference in response rates|29.8|||||TWO_SIDED|95.0|-6.3|66.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||66.0|-6.3|
82436059|NCT04115748|164581210|SUPERIORITY||Difference in response rates|31.6|||||TWO_SIDED|95.0|-3.8|67.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||67.0|-3.8|
82436060|NCT04115748|164581210|SUPERIORITY||Difference in response rates|5.0|||||TWO_SIDED|95.0|-32.0|42.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||42.0|-32.0|
82436061|NCT04115748|164581210|SUPERIORITY||Difference in response rates|39.2|||||TWO_SIDED|95.0|6.8|71.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||71.6|6.8|
82436062|NCT04115748|164581211|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.8|24.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||24.8|-24.8|
82652313|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.27||||0.0294|TWO_SIDED|95.0|-0.512|-0.027||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.027|-0.512|0.0294
82436063|NCT04115748|164581211|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-24.9|26.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||26.0|-24.9|
82436064|NCT04115748|164581211|SUPERIORITY||Difference in response rates|-4.5|||||TWO_SIDED|95.0|-30.5|21.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||21.5|-30.5|
82436065|NCT04115748|164581211|SUPERIORITY||Difference in response rates|12.8|||||TWO_SIDED|95.0|-18.4|44.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||44.0|-18.4|
82436066|NCT04115748|164581211|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-14.1|56.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||56.3|-14.1|
82436067|NCT04115748|164581211|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-33.3|33.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||33.3|-33.3|
82436068|NCT04115748|164581211|SUPERIORITY||Difference in response rates|34.5|||||TWO_SIDED|95.0|-0.3|69.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||69.3|-0.3|
82436069|NCT04115748|164581211|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-13.0|55.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||55.1|-13.0|
82436070|NCT04115748|164581211|SUPERIORITY||Difference in response rates|24.4|||||TWO_SIDED|95.0|-9.7|58.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||58.6|-9.7|
82436071|NCT04115748|164581211|SUPERIORITY||Difference in response rates|32.6|||||TWO_SIDED|95.0|-1.0|66.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||66.2|-1.0|
82436072|NCT04115748|164581213|SUPERIORITY||Difference in response rates|-15.8|||||TWO_SIDED|95.0|-47.6|16.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||16.0|-47.6|
82577709|NCT03635099|164864648|OTHER|First the response rate of PASI 75 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline PASI score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Exponential model fit.|Model assumption: 5% of the maximum effect is achieved at 25 mg.||||||0.0004
82539362|NCT04771273|164778520|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|12.06|||<|0.0001|TWO_SIDED|95.0|5.3|27.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||27.45|5.30|<.0001
82539363|NCT04771273|164778520|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|8.22|||<|0.0001|TWO_SIDED|95.0|3.66|18.5||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type, baseline liver fat content and baseline fibrosis score. Firth's penalized regression was used.||18.50|3.66|<.0001
82539364|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod linear model fit|Linear model fit assumption.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539365|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0031|||||||MCP-Mod exponential-1 model fit|Model assumption: 25% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0031
82539366|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."||||||0.0925|||||||MCP-Mod exponential-2 model fit|Model assumption: 5% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||0.0925
82577710|NCT03635099|164864649|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
82577711|NCT03635099|164864649|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
82577712|NCT03635099|164864649|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
82649191|NCT00106028|165013587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.9907|TWO_SIDED|95.0|-11.401|11.536|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||11.536|-11.401|0.9907
82649192|NCT00106028|165013588|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.686||||0.3826|TWO_SIDED|95.0|-15.276|5.903|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||5.903|-15.276|0.3826
82577713|NCT03635099|164864649|OTHER||Risk Difference (RD)|27.5||||0.0095|TWO_SIDED|95.0|13.7|41.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||41.3|13.7|0.0095
82652314|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.102||||0.4236|TWO_SIDED|95.0|-0.351|0.148||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.148|-0.351|0.4236
82649193|NCT00106028|165013589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.629|||<|0.0001||95.0|-38.089|-15.169|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||-15.169|-38.089|<0.0001
82649194|NCT00106028|165013590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.04||||0.3075|TWO_SIDED|95.0|-8.433|26.512|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||26.512|-8.433|0.3075
82539367|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax1 model fit|Model assumption: 50% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539368|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod Emax2 model fit|Model assumption: 80% of maximum effect is achieved at dose 3.0 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539369|NCT04771273|164778520|OTHER|"Logistic regression estimates were used as input for the MCP-Mod. The logistic regression model was fitted without an intercept, and included presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\] and the dose group as factors, and baseline liver fat content (assessed by MRI-PDFF) as a continuous linear covariate.~P-values from the contrast tests corresponding to each dose response pattern evaluated were adjusted for the multiple comparisons performed."|||||<|0.0001|||||||MCP-Mod quadratic model fit|Model assumption: Maximum effect is achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 3 doses of survodutide and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 6 different plausible dose-response patterns (linear, exponential1, exponential2, Emax1, Emax2, quadratic) while keeping full control of the type I error (one-sided alpha of 0.050).||||<0.0001
82539370|NCT04771273|164778521|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-8.59|||<|0.0001|TWO_SIDED|95.0|-10.59|-6.6||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-6.60|-10.59|<.0001
82539371|NCT04771273|164778521|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.91|||<|0.0001|TWO_SIDED|95.0|-12.96|-8.86||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.86|-12.96|<.0001
82539372|NCT04771273|164778521|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-11.07|||<|0.0001|TWO_SIDED|95.0|-13.23|-8.92||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.92|-13.23|<.0001
82539373|NCT04771273|164778522|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-9.12|||<|0.0001|TWO_SIDED|95.0|-11.21|-7.03||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-7.03|-11.21|<.0001
82652315|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.105||||0.4071|TWO_SIDED|95.0|-0.353|0.144||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.144|-0.353|0.4071
82436073|NCT04115748|164581213|SUPERIORITY||Difference in response rates|-20.5|||||TWO_SIDED|95.0|-51.3|10.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.4|-51.3|
82436074|NCT04115748|164581213|SUPERIORITY||Difference in response rates|6.6|||||TWO_SIDED|95.0|-26.8|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||39.9|-26.8|
82436075|NCT04115748|164581213|SUPERIORITY||Difference in response rates|13.9|||||TWO_SIDED|95.0|-20.8|48.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||48.6|-20.8|
82436076|NCT04115748|164581213|SUPERIORITY||Difference in response rates|15.8|||||TWO_SIDED|95.0|-20.7|52.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||52.3|-20.7|
82454492|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82539374|NCT04771273|164778522|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.79|||<|0.0001|TWO_SIDED|95.0|-12.85|-8.73||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.73|-12.85|<.0001
82454493|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82539375|NCT04771273|164778522|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-10.86|||<|0.0001|TWO_SIDED|95.0|-13.0|-8.73||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg - Placebo."|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-8.73|-13.00|<.0001
82539376|NCT04771273|164778523|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-43.64|||<|0.0001|TWO_SIDED|95.0|-53.49|-33.79||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-33.79|-53.49|<.0001
82539377|NCT04771273|164778523|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-55.52|||<|0.0001|TWO_SIDED|95.0|-65.61|-45.42||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-45.42|-65.61|<.0001
82652316|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.259||||0.0434|TWO_SIDED|95.0|-0.51|-0.008||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.008|-0.510|0.0434
82436077|NCT04115748|164581213|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-31.0|41.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||41.6|-31.0|
82436078|NCT04115748|164581213|SUPERIORITY||Difference in response rates|24.3|||||TWO_SIDED|95.0|-12.4|60.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||60.9|-12.4|
82436079|NCT04115748|164581213|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-15.2|57.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.4|-15.2|
82436080|NCT04115748|164581213|SUPERIORITY||Difference in response rates|4.4|||||TWO_SIDED|95.0|-32.3|41.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||41.2|-32.3|
82539378|NCT04771273|164778523|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-57.02|||<|0.0001|TWO_SIDED|95.0|-67.66|-46.39||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg-Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-46.39|-67.66|<.0001
82436081|NCT04115748|164581213|SUPERIORITY||Difference in response rates|23.2|||||TWO_SIDED|95.0|-12.5|58.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||58.8|-12.5|
82436082|NCT04115748|164581214|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-19.5|19.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.5|-19.5|
82436083|NCT04115748|164581214|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-20.7|10.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||10.2|-20.7|
82454494|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454495|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82454496|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
82649195|NCT00106028|165013591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.039||||0.3998|TWO_SIDED|95.0|-16.849|6.772|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||6.772|-16.849|0.3998
82649196|NCT00106028|165013592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.352||||0.1592||95.0|-0.845|0.14|||ANCOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.140|-0.845|0.1592
82649197|NCT00106028|165013593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127||||0.2917||95.0|-0.111|0.365|||ANOVA|LS means and p-value are from ANOVA model with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.365|-0.111|0.2917
82649198|NCT00106028|165013594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.007||||0.9622||95.0|-0.304|0.319|||ANOVA|LS mean and p-value are from ANOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.319|-0.304|0.9622
82649199|NCT00106028|165013595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.009||||0.9596|TWO_SIDED|95.0|-0.336|0.354|||ANOVA|LS means and p-value are from ANOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.354|-0.336|0.9596
82649200|NCT00106028|165013596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.107||||0.34||95.0|-0.114|0.328|||ANOVA|LS means and p-value are from ANOVA model with fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.328|-0.114|0.3400
82649201|NCT00106028|165013597|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.029||||0.6218|TWO_SIDED|95.0|-0.084|0.142|||ANOVA|LS means and p-value are from ANCOVA model adjusted by baseline and fixed effects for age group, treatment and pooled center for post-baseline.||A total of 123 patients were to be randomized in 2:1 ratio. The sample size allowed detection of a difference of at least 5% in lumbar spine BMD percent change from baseline to 12 months with 90% power. Calculation based on assumption that common within-group SD would be approximately 7% and dropout rate within Year 1 would be 20%. A difference of 5% in lumbar spin BMD percent change from baseline was considered clinically meaningful.||0.142|-0.084|0.6218
82652317|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.103||||0.4172|TWO_SIDED|95.0|-0.354|0.147||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.147|-0.354|0.4172
82436084|NCT04115748|164581214|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-18.7|19.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||19.3|-18.7|
82436085|NCT04115748|164581214|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-19.0|20.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||20.1|-19.0|
82652318|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.071||||0.5759|TWO_SIDED|95.0|-0.321|0.179||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.179|-0.321|0.5759
82436086|NCT04115748|164581214|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.8|24.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||24.8|-24.8|
82436087|NCT04115748|164581214|SUPERIORITY||Difference in response rates|-5.3|||||TWO_SIDED|95.0|-27.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||17.1|-27.6|
82436088|NCT04115748|164581214|SUPERIORITY||Difference in response rates|17.0|||||TWO_SIDED|95.0|-10.1|44.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||44.0|-10.1|
82436089|NCT04115748|164581214|SUPERIORITY||Difference in response rates|26.3|||||TWO_SIDED|95.0|-2.1|54.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||54.8|-2.1|
82436090|NCT04115748|164581214|SUPERIORITY||Difference in response rates|6.7|||||TWO_SIDED|95.0|-20.3|33.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.6|-20.3|
82436091|NCT04115748|164581214|SUPERIORITY||Difference in response rates|11.1|||||TWO_SIDED|95.0|-16.6|38.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||38.7|-16.6|
82539379|NCT04771273|164778524|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-46.49|||<|0.0001|TWO_SIDED|95.0|-56.74|-36.25||The p-value reported is considered nominal.|MMRM||"Survodutide 2.4 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-36.25|-56.74|<.0001
82649202|NCT00575328|165013649|SUPERIORITY|Analysis is a test of statistical significance to evaluate whether the results are consistent with the assumption of there being no difference in the clinical improvement (i.e. change in ASEX score) of the two treatments (null hypothesis).|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|3.3||0.62|TWO_SIDED|95.0|-8.7|12.3||No adjustment for multiple comparisons. P value for significance set a priori at P\<0.05.|t-test, 2 sided|||Null hypothesis: There will be no difference in clinical improvement (i.e. change in ASEX score) between treatment arms. No formal power analysis was carried out, given the small study sample.|The analysis is not truly informative, since the analyzable sample (n=6) was too small. Results should be viewed with caution.|12.3|-8.7|0.62
82436092|NCT04115748|164581216|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-34.8|34.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||34.8|-34.8|
82539380|NCT04771273|164778524|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-55.11|||<|0.0001|TWO_SIDED|95.0|-65.25|-44.98||The p-value reported is considered nominal.|MMRM||"Survodutide 4.8 mg - Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-44.98|-65.25|<.0001
82539381|NCT04771273|164778524|OTHER|No confirmatory hypothesis testing was performed.|Mean Difference (Net)|-56.26|||<|0.0001|TWO_SIDED|95.0|-66.76|-45.77||The p-value reported is considered nominal.|MMRM||"Survodutide 6.0 mg-Placebo"|Least Squares Mean differences and 95% confidence interval were calculated from mixed-effect model for repeated measures (MMRM) including fixed effects for baseline liver fat content (%) as a continuous linear covariate, and treatment, presence of diabetes of any type \[yes, no\], baseline fibrosis score \[F1, F2, F3\], visit, treatment by visit interaction and baseline by visit interaction as factors.||-45.77|-66.76|<.0001
82539382|NCT04771273|164778525|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|1.61||||0.1894|TWO_SIDED|95.0|0.79|3.26||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||3.26|0.79|0.1894
82436093|NCT04115748|164581216|SUPERIORITY||Difference in response rates|-14.9|||||TWO_SIDED|95.0|-47.4|17.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||17.6|-47.4|
82436094|NCT04115748|164581216|SUPERIORITY||Difference in response rates|27.9|||||TWO_SIDED|95.0|-7.2|63.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||63.0|-7.2|
82436095|NCT04115748|164581216|SUPERIORITY||Difference in response rates|8.9|||||TWO_SIDED|95.0|-26.6|44.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||44.3|-26.6|
82436096|NCT04115748|164581216|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-13.0|55.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||55.1|-13.0|
82436097|NCT04115748|164581216|SUPERIORITY||Difference in response rates|-10.5|||||TWO_SIDED|95.0|-47.4|26.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||26.3|-47.4|
82436098|NCT04115748|164581216|SUPERIORITY||Difference in response rates|24.9|||||TWO_SIDED|95.0|-11.1|60.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||60.8|-11.1|
82436099|NCT04115748|164581216|SUPERIORITY||Difference in response rates|21.1|||||TWO_SIDED|95.0|-14.9|57.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||57.0|-14.9|
82436100|NCT04115748|164581216|SUPERIORITY||Difference in response rates|43.9|||||TWO_SIDED|95.0|12.4|75.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||75.4|12.4|
82436101|NCT04115748|164581216|SUPERIORITY||Difference in response rates|12.9|||||TWO_SIDED|95.0|-23.4|49.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||49.1|-23.4|
82436102|NCT04115748|164581218|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-14.8|89.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||89.8|-14.8|
82436103|NCT04115748|164581218|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||100.0|-25.4|
82436104|NCT04115748|164581218|SUPERIORITY||Difference in response rates|-25.0|||||TWO_SIDED|95.0|-100.0|51.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||51.2|-100.0|
82436105|NCT04115748|164581218|SUPERIORITY||Difference in response rates|-10.0|||||TWO_SIDED|95.0|-97.7|77.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||77.7|-97.7|
82436106|NCT04115748|164581218|SUPERIORITY||Difference in response rates|7.1|||||TWO_SIDED|95.0|-73.7|88.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||88.0|-73.7|
82436107|NCT04115748|164581218|SUPERIORITY||Difference in response rates|-10.0|||||TWO_SIDED|95.0|-97.7|77.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.7|-97.7|
82436108|NCT04115748|164581218|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-35.3|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||100.0|-35.3|
82436109|NCT04115748|164581218|SUPERIORITY||Difference in response rates|15.0|||||TWO_SIDED|95.0|-67.9|97.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||97.9|-67.9|
82649203|NCT00575328|165013650|SUPERIORITY|Analysis is a test of statistical significance to evaluate whether the results are consistent with the assumption of there being no difference in the clinical improvement (i.e. change in MGH-SD score) of the two treatments (null hypothesis).|Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|4.5||0.38|TWO_SIDED|95.0|-6.7|13.97||No adjustment for multiple comparisons. P value for significance set a priori at P\<0.05.|t-test, 2 sided|||Null hypothesis: There will be no difference in clinical improvement (i.e. change in MGH-SD score) between treatment arms. No formal power analysis was carried out, given the small study sample.|Analysis was not truly informative since the analyzable sample (n=6) was too small. Results should be interpreted with caution.|13.97|-6.7|0.38
82649204|NCT01989195|165013705|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82436110|NCT04115748|164581219|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||54.2|-29.2|
82454497|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82436111|NCT04115748|164581219|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||77.6|-37.6|
82436112|NCT04115748|164581219|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-23.8|73.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||73.8|-23.8|
82454498|NCT01128426|164614032|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82539383|NCT04771273|164778525|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.0||||0.0685|TWO_SIDED|95.0|0.95|4.2||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.20|0.95|0.0685
82539384|NCT04771273|164778525|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|3.37||||0.0028|TWO_SIDED|95.0|1.52|7.45||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included actual treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||7.45|1.52|0.0028
82539385|NCT04771273|164778526|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.02||||0.0663|TWO_SIDED|95.0|0.95|4.27||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 2.4 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.27|0.95|0.0663
82539386|NCT04771273|164778526|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.01||||0.0672|TWO_SIDED|95.0|0.95|4.23||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 4.8 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.23|0.95|0.0672
82539387|NCT04771273|164778526|OTHER|No confirmatory hypothesis testing was performed.|Odds Ratio (OR)|2.11||||0.0512|TWO_SIDED|95.0|1.0|4.46||The p-value reported is considered nominal.|Regression, Logistic||Survodutide 6.0 mg vs. Placebo|The logistic regression model included planned treatment, presence of diabetes of any type and baseline fibrosis score. Firth's penalized regression was used.||4.46|1.00|0.0512
82539388|NCT00392678|164778559|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82539389|NCT00726596|164778633|SUPERIORITY|||||||0.6789|||||||t-test, 1 sided|||||||.6789
82539390|NCT02962674|164778645|SUPERIORITY|||||||0.004|||||||t-test, 1 sided|||"The null and alternative hypotheses associated with this objective was written as:~H0: μ ΔIPSS ≤ 6.5 points HA: μ ΔIPSS \> 6.5 points where μ ΔIPSS was the true underlying value of mean ΔIPSS following a treatment at the 3-month follow-up visit and 6.5 points was an objective performance goal (OPG). The objective was met at a given time point by rejecting the null hypothesis in a one-sided t-test at the 5% significance level."||||0.004
82539391|NCT01227278|164778660|SUPERIORITY_OR_OTHER||Rate ratio|1.03||||0.941|TWO_SIDED|95.0|0.67|1.58|||Van Elteren Test|Day 1 to 393: Van Elteren test was used to compare the two arms.|95 percent (%) confidence interval (CI) for rate ratio was based on normal approximation assuming rate with Poisson distribution.|||1.58|0.67|0.941
82539392|NCT03546907|164778670|SUPERIORITY||Risk Ratio (RR)|0.808||||0.1296|TWO_SIDED|95.0|0.613|1.065|||Negative binomial regression model|||Analysis was performed using negative binomial regression model with total number of events occurring during observation duration as response variable, treatment, baseline eosinophil strata, region, number of severe COPD exacerbations experienced in previous year(0 vs. 1+) at baseline, smoking history(current vs. former smoker), post-BD FEV1 percent(%) predicted (less than\[\<\] 50% vs greater than equal\[\>=\]50%) at baseline as covariates, and log-transformed observation duration as offset variable.||1.065|0.613|0.1296
82539393|NCT00864682|164778682|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Kruskal-Wallis|||Hypothesis: Lidocaine / propofol admixture would be superior to lidocaine pretreatment for attenuating propofol-induced injection pain. Sample size calculated to detect a difference of at least 2 VPS points; beta 0.8.||||<0.0001
82539394|NCT00864682|164778683|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.008||95.0|||||Chi-squared|Fisher's exact test after chi-squared||||||<0.008
82539395|NCT01585038|164778685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.3|TWO_SIDED|95.0|-1.56|2.64|||t-test, 1 sided|||||2.64|-1.56|0.30
82539396|NCT01585038|164778686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.21||||0.35|TWO_SIDED|95.0|-4.71|2.3|||t-test, 2 sided|||||2.30|-4.71|0.35
82539397|NCT01585038|164778687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7||||0.41|TWO_SIDED|95.0|-62.49|75.89|||t-test, 2 sided|||||75.89|-62.49|0.41
82539398|NCT01585038|164778688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-194.1||||0.02|TWO_SIDED|95.0|-353.7|-34.6|||t-test, 2 sided|||||-34.6|-353.7|0.02
82436113|NCT04115748|164581219|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||100.0|-25.4|
82436114|NCT04115748|164581219|SUPERIORITY||Difference in response rates|42.9|||||TWO_SIDED|95.0|-13.4|99.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||99.2|-13.4|
82436115|NCT04115748|164581219|SUPERIORITY||Difference in response rates|40.0|||||TWO_SIDED|95.0|-25.4|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||100.0|-25.4|
82436116|NCT04115748|164581219|SUPERIORITY||Difference in response rates|37.5|||||TWO_SIDED|95.0|-35.3|100.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||100.0|-35.3|
82436117|NCT04115748|164581219|SUPERIORITY||Difference in response rates|-5.0|||||TWO_SIDED|95.0|-82.5|72.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||72.5|-82.5|
82436118|NCT04115748|164581220|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||18.8|-18.8|
82436119|NCT04115748|164581220|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.5|-22.5|
82436120|NCT04115748|164581220|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||54.2|-29.2|
82436121|NCT04115748|164581220|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.5|-22.5|
82436122|NCT04115748|164581220|SUPERIORITY||Difference in response rates|14.3|||||TWO_SIDED|95.0|-31.3|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-31.3|
82436123|NCT04115748|164581220|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||77.6|-37.6|
82436124|NCT04115748|164581220|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-23.8|73.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||73.8|-23.8|
82436125|NCT04115748|164581220|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||77.6|-37.6|
82436126|NCT04115748|164581221|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||18.8|-18.8|
82539399|NCT02503202|164778721|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot A / Lot B)|0.94|||<|0.001|TWO_SIDED|95.0|0.77|1.14||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.14|0.77|<0.001
82539400|NCT02503202|164778721|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot A / Lot C)|0.88|||<|0.001|TWO_SIDED|95.0|0.71|1.09||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.09|0.71|<0.001
82649205|NCT00951899|165013741|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||A P value \< 0.05 was considered statistically significant|t-test, 2 sided|||Comparison of mean total GLP-1 concentration from baseline to 12 weeks in Colesevelam subjects||||0.0006
82436127|NCT04115748|164581221|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.5|-22.5|
82436128|NCT04115748|164581221|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-18.8|18.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||18.8|-18.8|
82436129|NCT04115748|164581221|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.5|-22.5|
82436130|NCT04115748|164581221|SUPERIORITY||Difference in response rates|14.3|||||TWO_SIDED|95.0|-31.3|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-31.3|
82436131|NCT04115748|164581221|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.5|22.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||22.5|-22.5|
82436132|NCT04115748|164581221|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-29.2|54.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||54.2|-29.2|
82436133|NCT04115748|164581221|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-37.6|77.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||77.6|-37.6|
82436134|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.104||0.94|TWO_SIDED|95.0|-0.22|0.2||P-value was calculated from mixed-effects model for repeated measures (MMRM) including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 2||0.20|-0.22|0.94
82436135|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|0.03|STANDARD_ERROR_OF_MEAN|0.105||0.81|TWO_SIDED|95.0|-0.18|0.24||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 2||0.24|-0.18|0.81
82436136|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.112||0.13|TWO_SIDED|95.0|-0.39|0.05||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||0.05|-0.39|0.13
82436137|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.113||0.073|TWO_SIDED|95.0|-0.43|0.02||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||0.02|-0.43|0.073
82436138|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.124||0.083|TWO_SIDED|95.0|-0.46|0.03||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 8||0.03|-0.46|0.083
82436139|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124||0.28|TWO_SIDED|95.0|-0.38|0.11||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 8||0.11|-0.38|0.28
82436140|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.13||0.038|TWO_SIDED|95.0|-0.54|-0.02||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 12||-0.02|-0.54|0.038
82436141|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.129||0.25|TWO_SIDED|95.0|-0.41|0.11||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 12||0.11|-0.41|0.25
82436142|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.139||0.41|TWO_SIDED|95.0|-0.39|0.16||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||0.16|-0.39|0.41
82454499|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.88|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.88
82454500|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454501|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
82539401|NCT02503202|164778721|EQUIVALENCE|Lot consistency requires the 95% confidence interval of the GMT ratio of \>0.5 and ≤2.0 for the primary analysis and \>0.67 and ≤1.5 for the secondary analysis.|GMT ratio (Lot B / Lot C)|0.94|||<|0.001|TWO_SIDED|95.0|0.77|1.15||Primary analysis: a p-value \<0.025 supported the conclusion of equivalence. If equivalence was established for the 3 pairwise comparisons, the lots would be considered to be consistent.|ANOVA|||||1.15|0.77|<0.001
82539402|NCT02503202|164778722|OTHER||Risk Difference (RD)|1.1||||0.368|TWO_SIDED|95.0|-1.5|4.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||4.0|-1.5|0.368
82539403|NCT02503202|164778722|OTHER||Risk Difference (RD)|0.0||||0.989|TWO_SIDED|95.0|-3.1|3.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||3.0|-3.1|0.989
82649206|NCT00951899|165013741|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||Comparison of mean total GLP-1 concentration from baseline to 12 weeks in Placebo subjects||||0.30
82539404|NCT02503202|164778722|OTHER||Risk Difference (RD)|-1.1||||0.361|TWO_SIDED|95.0|-4.1|1.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||1.5|-4.1|0.361
82539405|NCT02503202|164778722|OTHER||Risk Difference (RD)|1.2||||0.214|TWO_SIDED|95.0|-1.7|3.3|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||3.3|-1.7|0.214
82436143|NCT04115748|164581225|SUPERIORITY||LS Mean Treatment Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.138||0.26|TWO_SIDED|95.0|-0.43|0.12||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||0.12|-0.43|0.26
82436144|NCT04115748|164581226|SUPERIORITY||LS Mean Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|2.26||0.14|TWO_SIDED|95.0|-1.1|7.9||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||7.9|-1.1|0.14
82436145|NCT04115748|164581226|SUPERIORITY||LS Mean Treatment Difference|3.1|STANDARD_ERROR_OF_MEAN|2.3||0.18|TWO_SIDED|95.0|-1.5|7.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||7.7|-1.5|0.18
82454502|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454503|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454504|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454505|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.9|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.90
82454506|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
82539406|NCT02503202|164778723|OTHER||Risk Difference (RD)|4.1||||0.16|TWO_SIDED|95.0|-1.6|9.9|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site erythema||9.9|-1.6|0.160
82539407|NCT02503202|164778723|OTHER||Risk Difference (RD)|-0.1||||0.971|TWO_SIDED|95.0|-6.2|6.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site erythema||6.0|-6.2|0.971
82652319|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.285||||0.0271|TWO_SIDED|95.0|-0.538|-0.033||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.033|-0.538|0.0271
82436146|NCT04115748|164581226|SUPERIORITY||LS Mean Treatment Difference|3.7|STANDARD_ERROR_OF_MEAN|2.53||0.15|TWO_SIDED|95.0|-1.4|8.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||8.7|-1.4|0.15
82436147|NCT04115748|164581226|SUPERIORITY||LS Mean Treatment Difference|4.8|STANDARD_ERROR_OF_MEAN|2.54||0.062|TWO_SIDED|95.0|-0.3|9.9||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||9.9|-0.3|0.062
82436148|NCT04115748|164581228|SUPERIORITY||LS Mean Treatment Difference|5.3|STANDARD_ERROR_OF_MEAN|1.68||0.003|TWO_SIDED|95.0|1.9|8.6||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||8.6|1.9|0.003
82436149|NCT04115748|164581228|SUPERIORITY||LS Mean Treatment Difference|4.9|STANDARD_ERROR_OF_MEAN|1.71||0.006|TWO_SIDED|95.0|1.5|8.3||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 4||8.3|1.5|0.006
82436150|NCT04115748|164581228|SUPERIORITY||LS Mean Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|2.09||0.076|TWO_SIDED|95.0|-0.4|8.0||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||8.0|-0.4|0.076
82539408|NCT02503202|164778723|OTHER||Risk Difference (RD)|-4.2||||0.151|TWO_SIDED|95.0|-10.0|1.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site erythema||1.5|-10.0|0.151
82436151|NCT04115748|164581228|SUPERIORITY||LS Mean Treatment Difference|3.5|STANDARD_ERROR_OF_MEAN|2.1||0.1|TWO_SIDED|95.0|-0.7|7.7||P-value was calculated from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, and participants being the random effect.|MMRM|||Week 16||7.7|-0.7|0.10
82436152|NCT01200407|164581239|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-35.8||||0|TWO_SIDED|95.0|-37.2|-34.4|||t-test, 2 sided|||SBP with LOCF (Week 12)||-34.4|-37.2|0.000
82436153|NCT01200407|164581239|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-19.4||||0|TWO_SIDED|95.0|-20.3|-18.6|||t-test, 2 sided|||DBP with LOCF (Week 12)||-18.6|-20.3|0.000
82436154|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-24.7||||0|TWO_SIDED|95.0|-26.1|-23.4|||t-test, 2 sided|||SBP w/o LOCF (Week 4)||-23.4|-26.1|0.000
82436155|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-33.0||||0|TWO_SIDED|95.0|-34.4|-31.6|||t-test, 2 sided|||SBP w/o LOCF (Week 8)||-31.6|-34.4|0.000
82539409|NCT02503202|164778723|OTHER||Risk Difference (RD)|5.8||||0.016|TWO_SIDED|95.0|1.4|9.9|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site erythema||9.9|1.4|0.016
82436156|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-36.3||||0|TWO_SIDED|95.0|-37.9|-34.7|||t-test, 2 sided|||SBP w/o LOCF (Week 12)||-34.7|-37.9|0.000
82436157|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-13.2||||0|TWO_SIDED|95.0|-14.0|-12.4|||t-test, 2 sided|||DBP w/o LOCF (Week 4)||-12.4|-14.0|0.000
82436158|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-17.6||||0|TWO_SIDED|95.0|-18.4|-16.7|||t-test, 2 sided|||DBP w/o LOCF (Week 8)||-16.7|-18.4|0.000
82436159|NCT01200407|164581240|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-19.9||||0|TWO_SIDED|95.0|-20.8|-18.9|||t-test, 2 sided|||DBP w/o LOCF (Week 12)||-18.9|-20.8|0.000
82436160|NCT02974855|164581284|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.15||||0.0002|TWO_SIDED|80.0|0.08|0.29|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.29|0.08|0.0002
82436161|NCT02974855|164581284|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.05||||0.0001|TWO_SIDED|80.0|0.02|0.14|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.14|0.02|0.0001
82436162|NCT02974855|164581284|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.15||||0.0002|TWO_SIDED|80.0|0.08|0.29|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.29|0.08|0.0002
82436163|NCT02974855|164581284|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.03||||0.0005|TWO_SIDED|80.0|0.01|0.1|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.10|0.01|0.0005
82436164|NCT02974855|164581284|SUPERIORITY|Prophylactic treatment with PF-06741086 will be considered superior to On Demand treatment with respect to ABR reduction if 1) the upper limit of the 2-sided 80%CI of the ratio of ABR in PF/historical On Demand is \<1 and 2) the estimate of the ratio of ABR in PF/historical On Demand ≤0.3. Drug will be considered not superior to On Demand treatment if the lower limit of the 2-sided 80%CI of the ratio of PF/historical On Demand \>0.3.|ratio|0.09|||<|0.0001|TWO_SIDED|80.0|0.05|0.16|||Negative Binomial Model|||The comparator was the Historical on Demand Group||0.16|0.05|<0.0001
82539410|NCT02503202|164778723|OTHER||Risk Difference (RD)|-6.2||||0.12|TWO_SIDED|95.0|-14.0|1.6|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site pain||1.6|-14.0|0.120
82436165|NCT02974855|164581284|SUPERIORITY||ratio|0.18|||<|0.0001|TWO_SIDED|80.0|0.11|0.31|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.31|0.11|<0.0001
82436166|NCT02974855|164581284|SUPERIORITY||ratio|0.1||||0.0002|TWO_SIDED|80.0|0.04|0.22|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.22|0.04|0.0002
82436167|NCT02974855|164581284|SUPERIORITY||ratio|0.2||||0.0154|TWO_SIDED|80.0|0.09|0.47|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.47|0.09|0.0154
82436168|NCT02974855|164581284|SUPERIORITY||ratio|0.04||||0.0005|TWO_SIDED|80.0|0.01|0.14|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.14|0.01|0.0005
82436169|NCT02974855|164581284|SUPERIORITY||ratio|0.12|||<|0.0001|TWO_SIDED|80.0|0.08|0.2|||Negative Binomial Model|||On-Study versus Pre-Treatment||0.20|0.08|<0.0001
82539411|NCT02503202|164778723|OTHER||Risk Difference (RD)|-3.5||||0.38|TWO_SIDED|94.0|-11.4|4.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site pain||4.4|-11.4|0.380
82539412|NCT02503202|164778723|OTHER||Risk Difference (RD)|2.7||||0.499|TWO_SIDED|95.0|-5.1|10.4|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site pain||10.4|-5.1|0.499
82539413|NCT02503202|164778723|OTHER||Risk Difference (RD)|54.9|||<|0.001|TWO_SIDED|95.0|46.2|62.3|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site pain||62.3|46.2|<0.001
82539414|NCT02503202|164778723|OTHER||Risk Difference (RD)|4.0||||0.202|TWO_SIDED|95.0|-2.2|10.3|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Injection site swelling||10.3|-2.2|0.202
82539415|NCT02503202|164778723|OTHER||Risk Difference (RD)|-0.5||||0.878|TWO_SIDED|95.0|-7.1|6.1|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Injection site swelling||6.1|-7.1|0.878
82539416|NCT02503202|164778723|OTHER||Risk Difference (RD)|-4.6||||0.154|TWO_SIDED|95.0|-10.9|1.7|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Injection site swelling||1.7|-10.9|0.154
82539417|NCT02503202|164778723|OTHER||Risk Difference (RD)|13.1|||<|0.001|TWO_SIDED|95.0|7.4|18.6|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Injection site swelling||18.6|7.4|<0.001
82539418|NCT02503202|164778724|OTHER||Risk Difference (RD)|4.6||||0.176|TWO_SIDED|95.0|-2.1|11.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||11.4|-2.1|0.176
82436170|NCT02752633|164581327|OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Data are presented as the urinary DHA excretion (mg/24 hr) and as the DHA-to-creatinine ratio (mg/mmol) in first morning void urine samples. Data are presented as a median (range). Differences in the median urinary DHA excretion and the urinary DHA-to-creatinine ratio between periods off pharmacotherapy and on the two study drugs, febuxostat and allopurinol, were assessed using the Wilcoxon signed rank test.||||<.05
82436171|NCT01843673|164581328|NON_INFERIORITY_OR_EQUIVALENCE|Statistical significance testing at 5% level of significance, p-value being larger than 0.05 . The p-values for pairwise comparison.||||||1||||||Statistical significance testing at 5% level of significance, p-value being larger than 0.05. The p-values for pairwise comparison lateral and vertical, for OBI and CBCT was 1.00.|t-test, 2 sided|||Pairwise comparison for each direction between each pair of technologies were done using a t test to check if the difference in the recommended shift is more than 2 mm. Clinical significance is based on a 2 mm difference. Statistical significance is determined based on 5% level of significance.||||1.00
82436172|NCT01843673|164581328|NON_INFERIORITY_OR_EQUIVALENCE|Statistical significance testing at 5% level of significance, p-value being larger than 0.05. Those are the p-values for pairwise comparison.||||||1||||||Statistical significance testing at 5% level of significance, p-value being larger than 0.05. The p-values for pairwise comparison lateral and vertical, for OBI and ExacTrac was 1.00.|t-test, 2 sided|||Pairwise comparison for each direction between each pair of technologies were done using a t test to check if the difference in the recommended shift is more than 2 mm. Clinical significance is based on a 2 mm difference. Statistical significance is determined based on 5% level of significance.||||1.00
82436173|NCT03497975|164581370|SUPERIORITY||Odds Ratio (OR)|2.1||||0.0309|TWO_SIDED|95.0|1.07|4.13||Logistic regression model includes WI-NRS baseline score as a covariate, treatment and the study site (with pooling) as a fixed effect.|Regression, Logistic|||||4.13|1.07|0.0309
82436174|NCT03497975|164581371|SUPERIORITY||Difference in LS Mean|-7.06|STANDARD_ERROR_OF_MEAN|1.91||0.0002|TWO_SIDED|95.0|-10.82|-3.3||Repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline ItchyQoL value. An unstructured covariance matrix is used.|Mixed Model for Repeated Measurements|||||-3.30|-10.82|0.0002
82436175|NCT03497975|164581372|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0179|TWO_SIDED|95.0|1.11|3.07||Logistic regression model includes PAS (Item 5a) baseline score as a covariate, treatment as a fixed effect and the study site (with pooling) as a fixed effect.|Regression, Logistic|||||3.07|1.11|0.0179
82436176|NCT03497975|164581373|SUPERIORITY||Difference in LS Mean|-4.43|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|-6.55|-2.31||Repeated measures model with the fixed effects of treatment, visit, treatment by visit interaction and baseline PROMIS value. An unstructured covariance matrix is used.|Mixed Model for Repeated Measurements|||||-2.31|-6.55|<0.0001
82436177|NCT00683930|164581450|SUPERIORITY_OR_OTHER||Treatment difference in response rate|5.1||||0.6558||97.5|-17.4|27.6|||Fisher Exact|Alpha = 0.025||||27.6|-17.4|0.6558
82454507|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82539419|NCT02503202|164778724|OTHER||Risk Difference (RD)|-1.1||||0.769|TWO_SIDED|95.0|-8.2|6.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||6.0|-8.2|0.769
82539420|NCT02503202|164778724|OTHER||Risk Difference (RD)|-5.7||||0.1|TWO_SIDED|95.0|-12.5|1.1|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||1.1|-12.5|0.100
82539421|NCT02503202|164778724|OTHER||Risk Difference (RD)|31.4|||<|0.001|TWO_SIDED|95.0|25.6|37.5|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||37.5|25.6|<0.001
82539422|NCT02503202|164778725|OTHER||Risk Difference (RD)|0.0||||0.983|TWO_SIDED|95.0|-4.2|4.1|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Arthralgia||4.1|-4.2|0.983
82539423|NCT02503202|164778725|OTHER||Risk Difference (RD)|-0.8||||0.699|TWO_SIDED|95.0|-5.1|3.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Arthralgia||3.4|-5.1|0.699
82539424|NCT02503202|164778725|OTHER||Risk Difference (RD)|-0.8||||0.716|TWO_SIDED|95.0|-5.1|3.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Arthralgia||3.5|-5.1|0.716
82649207|NCT00185211|165013757|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|Log Rank|||"The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was:~H0: The survival functions (i.e., the probability that time to CDMS is ≥ t) are identical for both treatment arms for all points in time t\>0.~The two-sided alternative hypothesis was:~H1: The survival functions (i.e., the probability that time to CDMS is ≥ t) are not identical for both treatment arms for some points in time t\>0."||||0.0027
82436178|NCT01732510|164581460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.82||||0.015|TWO_SIDED|95.0|-16.87|-2.77|||Constrained longitudinal data analysis|||The reduction from baseline in EASI at week 12 for participants receiving MK-8226 3 mg/kg was compared to placebo (MK-8226 3 mg - Placebo). The constrained longitudinal data analysis model used variance component covariance matrix to model correlation among repeated visits, without adjustment for interaction of treatment group by visit.||-2.77|-16.87|0.015
82436179|NCT00313144|164581480|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Paired t-test|||||||0.044
82436180|NCT00313144|164581482|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Paired t-test|||||||0.009
82539425|NCT02503202|164778725|OTHER||Risk Difference (RD)|6.2||||0.012|TWO_SIDED|95.0|1.8|10.4|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Arthralgia||10.4|1.8|0.012
82539426|NCT02503202|164778725|OTHER||Risk Difference (RD)|0.7||||0.677|TWO_SIDED|95.0|-2.9|4.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|Arthritis||4.4|-2.9|0.677
82539427|NCT02503202|164778725|OTHER||Risk Difference (RD)|1.9||||0.25|TWO_SIDED|95.0|-1.4|5.4|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|Arthritis||5.4|-1.4|0.250
82539428|NCT02503202|164778725|OTHER||Risk Difference (RD)|1.1||||0.46|TWO_SIDED|95.0|-2.1|4.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|Arthritis||4.5|-2.1|0.460
82539429|NCT02503202|164778725|OTHER||Risk Difference (RD)|3.1||||0.041|TWO_SIDED|95.0|0.2|6.0|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|Arthritis||6.0|0.2|0.041
82539430|NCT02503202|164778726|OTHER||Risk Difference (RD)|-1.5||||0.353|TWO_SIDED|95.0|-5.1|1.9|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||1.9|-5.1|0.353
82539431|NCT02503202|164778726|OTHER||Risk Difference (RD)|-0.8||||0.62|TWO_SIDED|95.0|-4.2|2.5|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||2.5|-4.2|0.620
82539432|NCT02503202|164778726|OTHER||Risk Difference (RD)|0.8||||0.663|TWO_SIDED|95.0|-2.9|4.5|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||4.5|-2.9|0.663
82539433|NCT02503202|164778726|OTHER||Risk Difference (RD)|2.3||||0.202|TWO_SIDED|95.0|-1.8|5.7|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||5.7|-1.8|0.202
82539434|NCT02503202|164778727|OTHER||Risk Difference (RD)|0.7||||0.483|TWO_SIDED|95.0|-1.6|3.3|||Miettinen & Nurminen||Risk difference is Lot A - Lot B|||3.3|-1.6|0.483
82539435|NCT02503202|164778727|OTHER||Risk Difference (RD)|0.4||||0.746|TWO_SIDED|95.0|-2.2|3.0|||Miettinen & Nurminen||Risk difference is Lot A - Lot C|||3.0|-2.2|0.746
82436181|NCT00313144|164581483|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Paired t-test|||||||0.005
82436182|NCT00313144|164581485|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||Paired t-test|||||||0.006
82436183|NCT00313144|164581486|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Paired t-test|||||||0.044
82436184|NCT00313144|164581487|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0|||||Paired t-test|||||||0.046
82436185|NCT01178944|164581507|OTHER||Mean Difference (Final Values)|1.08||||0.585|TWO_SIDED|95.0|0.78|1.38|||t-test, 2 sided|||Comparison is CR+PR vs stable disease/progression||1.38|0.78|0.585
82436186|NCT00893152|164581508|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82436187|NCT06359028|164581538|SUPERIORITY||Adjusted Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-2.16|-1.72|||Mixed Model with Repeated Measures|||||-1.72|-2.16|<0.0001
82436188|NCT06359028|164581539|SUPERIORITY||Adjusted Mean Difference|57.37|STANDARD_ERROR_OF_MEAN|3.599|<|0.0001|TWO_SIDED|95.0|50.23|64.51|||Mixed Model with Repeated Measures|||||64.51|50.23|<0.0001
82436189|NCT06359028|164581540|SUPERIORITY||Adjusted Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.121|<|0.0001|TWO_SIDED|95.0|-1.89|-1.41|||Mixed Model with Repeated Measures|||||-1.41|-1.89|<0.0001
82436190|NCT06359028|164581541|SUPERIORITY||Adjusted Mean Difference|35.37|STANDARD_ERROR_OF_MEAN|4.28|<|0.0001|TWO_SIDED|95.0|26.88|43.86|||Mixed Model with Repeated Measures|||||43.86|26.88|<0.0001
82436191|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.296||0.1268|TWO_SIDED|95.0|-1.04|0.13|||Mixed Model with Repeated Measures|||Q7, Day 28||0.13|-1.04|0.1268
82436192|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.316|<|0.0001|TWO_SIDED|95.0|-2.38|-1.13|||Mixed Model with Repeated Measures|||Q7, Day 56||-1.13|-2.38|<0.0001
82539436|NCT02503202|164778727|OTHER||Risk Difference (RD)|-0.4||||0.704|TWO_SIDED|95.0|-2.8|2.0|||Miettinen & Nurminen||Risk difference is Lot B - Lot C|||2.0|-2.8|0.704
82539437|NCT02503202|164778727|OTHER||Risk Difference (RD)|1.5||||0.151|TWO_SIDED|95.0|-1.3|3.9|||Miettinen & Nurminen||Risk difference is High-dose Lot - Placebo|||3.9|-1.3|0.151
82539438|NCT01245439|164778755|SUPERIORITY_OR_OTHER|||||||0.929|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.929
82539439|NCT01245439|164778755|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to 3||||<0.001
82539440|NCT01245439|164778755|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||<0.001
82539441|NCT01245439|164778755|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.050
82539442|NCT01245439|164778755|SUPERIORITY_OR_OTHER|||||||0.165|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.165
82539443|NCT01245439|164778755|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.133
82539444|NCT01245439|164778755|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.217
82539445|NCT01245439|164778755|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 8||||<0.001
82539446|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.169
82436193|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.315||0.0245|TWO_SIDED|95.0|-1.35|-0.09|||Mixed Model with Repeated Measures|||Q8, Day 28||-0.09|-1.35|0.0245
82436194|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.318|<|0.0001|TWO_SIDED|95.0|-2.44|-1.18|||Mixed Model with Repeated Measures|||Q8, Day 56||-1.18|-2.44|<0.0001
82436195|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.337||0.3851|TWO_SIDED|95.0|-0.96|0.37|||Mixed Model with Repeated Measures|||Q9, Day 28||0.37|-0.96|0.3851
82436196|NCT06359028|164581542|SUPERIORITY||Adjusted Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.375||0.0002|TWO_SIDED|95.0|-2.22|-0.73|||Mixed Model with Repeated Measures|||Q9, Day 56||-0.73|-2.22|0.0002
82436197|NCT06359028|164581543|SUPERIORITY||Adjusted Mean Difference|-6.19|STANDARD_ERROR_OF_MEAN|4.674||0.1884|TWO_SIDED|95.0|-15.46|3.08|||Mixed Model with Repeated Measures|||Day 28||3.08|-15.46|0.1884
82436198|NCT06359028|164581543|SUPERIORITY||Adjusted Mean Difference|-24.49|STANDARD_ERROR_OF_MEAN|6.308||0.0002|TWO_SIDED|95.0|-37.0|-11.97|||Mixed Model with Repeated Measures|||Day 56||-11.97|-37.00|0.0002
82436199|NCT06359028|164581544|SUPERIORITY||Adjusted Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.774||0.3003|TWO_SIDED|95.0|-2.34|0.73|||Mixed Model with Repeated Measures|||Day 28||0.73|-2.34|0.3003
82436200|NCT06359028|164581544|SUPERIORITY||Adjusted Mean Difference|-2.77|STANDARD_ERROR_OF_MEAN|0.903||0.0028|TWO_SIDED|95.0|-4.56|-0.97|||Mixed Model with Repeated Measures|||Day 56||-0.97|-4.56|0.0028
82436201|NCT06359028|164581545|SUPERIORITY||Adjusted Mean Difference|-3.78|STANDARD_ERROR_OF_MEAN|2.127||0.0784|TWO_SIDED|95.0|-8.0|0.44|||Mixed Model with Repeated Measures|||Day 28||0.44|-8.00|0.0784
82436202|NCT06359028|164581545|SUPERIORITY||Adjusted Mean Difference|-8.17|STANDARD_ERROR_OF_MEAN|3.074||0.0092|TWO_SIDED|95.0|-14.27|-2.07|||Mixed Model with Repeated Measures|||Day 56||-2.07|-14.27|0.0092
82436203|NCT06359028|164581546|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.846||0.8686|TWO_SIDED|95.0|-1.82|1.54|||Mixed Model with Repeated Measures|||Day 28||1.54|-1.82|0.8686
82539447|NCT01245439|164778758|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 3||||<0.001
82436204|NCT06359028|164581546|SUPERIORITY||Adjusted Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|0.976||0.0012|TWO_SIDED|95.0|-5.18|-1.31|||Mixed Model with Repeated Measures|||Day 56||-1.31|-5.18|0.0012
82436205|NCT06359028|164581547|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|1.444||0.9047|TWO_SIDED|95.0|-3.04|2.69|||Mixed Model with Repeated Measures|||Day 28||2.69|-3.04|0.9047
82436206|NCT06359028|164581547|SUPERIORITY||Adjusted Mean Difference|-6.66|STANDARD_ERROR_OF_MEAN|1.656||0.0001|TWO_SIDED|95.0|-9.95|-3.38|||Mixed Model with Repeated Measures|||Day 56||-3.38|-9.95|0.0001
82436207|NCT06359028|164581548|SUPERIORITY||Adjusted Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.84||0.5733|TWO_SIDED|95.0|-2.14|1.19|||Mixed Model with Repeated Measures|||Day 28||1.19|-2.14|0.5733
82436208|NCT06359028|164581548|SUPERIORITY||Adjusted Mean Difference|-2.88|STANDARD_ERROR_OF_MEAN|1.026||0.006|TWO_SIDED|95.0|-4.92|-0.84|||Mixed Model with Repeated Measures|||Day 56||-0.84|-4.92|0.0060
82436209|NCT06359028|164581549|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.127||0.2768|TWO_SIDED|95.0|-0.39|0.11|||Mixed Model with Repeated Measures|||Day 28||0.11|-0.39|0.2768
82436210|NCT06359028|164581549|SUPERIORITY||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.113||0.0232|TWO_SIDED|95.0|-0.48|-0.04|||Mixed Model with Repeated Measures|||Day 56||-0.04|-0.48|0.0232
82436211|NCT06359028|164581550|SUPERIORITY||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.403||0.8996|TWO_SIDED|95.0|-0.75|0.85|||Mixed Model with Repeated Measures|||Day 28||0.85|-0.75|0.8996
82436212|NCT06359028|164581550|SUPERIORITY||Adjusted Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.383||0.0204|TWO_SIDED|95.0|-1.66|-0.14|||Mixed Model with Repeated Measures|||Day 56||-0.14|-1.66|0.0204
82436213|NCT01252186|164581573|NON_INFERIORITY_OR_EQUIVALENCE|A conclusion of non-inferiority was reached if the lower limit of the confidence interval for the comparison (active control minus 91-day Levonorgestrel) was greater than -0.13 nmol/L (130 pmol/L).|Treatment Difference|-11.54||||0.958|TWO_SIDED|95.0|-440.1|417.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The primary endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||417.0|-440.1|0.958
82436214|NCT01252186|164581573|NON_INFERIORITY_OR_EQUIVALENCE|A conclusion of non-inferiority was reached if the lower limit of the confidence interval for the comparison (active control minus 91-day Levonorgestrel) was greater than -0.13 nmol/L (130 pmol/L).|Treatment Difference|422.76||||0.06|TWO_SIDED|95.0|-18.3|863.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The primary endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||863.8|-18.3|0.060
82436215|NCT01252186|164581574|SUPERIORITY_OR_OTHER||Treatment Difference|-14.31||||0.745|TWO_SIDED|95.0|-100.8|72.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||72.2|-100.8|0.745
82436216|NCT01252186|164581574|SUPERIORITY_OR_OTHER||Treatment Difference|71.31||||0.115|TWO_SIDED|95.0|-17.5|160.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||160.1|-17.5|0.115
82436217|NCT01252186|164581575|SUPERIORITY_OR_OTHER||Treatment Difference|-17.14||||0.782|TWO_SIDED|95.0|-139.4|105.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||105.1|-139.4|0.782
82539448|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||0.053
82539449|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.514|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.514
82436218|NCT01252186|164581575|SUPERIORITY_OR_OTHER||Treatment Difference|97.09||||0.131|TWO_SIDED|95.0|-29.2|223.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||223.4|-29.2|0.131
82436219|NCT01252186|164581576|SUPERIORITY_OR_OTHER||Treatment Difference|-0.04||||0.428|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.1|-0.1|0.428
82436220|NCT01252186|164581576|SUPERIORITY_OR_OTHER||Treatment Difference|-0.16||||0.002|TWO_SIDED|95.0|-0.3|-0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-0.1|-0.3|0.002
82436221|NCT01252186|164581577|SUPERIORITY_OR_OTHER||Treatment Difference|-0.01||||0.868|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.1|-0.2|0.868
82436222|NCT01252186|164581577|SUPERIORITY_OR_OTHER||Treatment Difference|0.2||||0.012|TWO_SIDED|95.0|0.0|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|0.0|0.012
82436223|NCT01252186|164581578|SUPERIORITY_OR_OTHER||Treatment Difference|0.09||||0.317|TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|-0.1|0.317
82436224|NCT01252186|164581578|SUPERIORITY_OR_OTHER||Treatment Difference|-0.16||||0.081|TWO_SIDED|95.0|-0.4|0.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.0|-0.4|0.081
82436225|NCT01252186|164581579|SUPERIORITY_OR_OTHER||Treatment Difference|-0.004||||0.331|TWO_SIDED|95.0|-0.013|0.004|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.004|-0.013|0.331
82436226|NCT01252186|164581579|SUPERIORITY_OR_OTHER||Treatment Difference|-0.006||||0.173|TWO_SIDED|95.0|-0.015|0.003|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.003|-0.015|0.173
82436227|NCT01252186|164581580|SUPERIORITY_OR_OTHER||Treatment Difference|-0.57||||0.194|TWO_SIDED|95.0|-1.4|0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.3|-1.4|0.194
82539450|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.064
82539451|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.038
82539452|NCT01245439|164778758|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.064
82539453|NCT01245439|164778758|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 8||||<0.001
82539454|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.981|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 1 to Visit 2||||0.981
82539455|NCT01245439|164778759|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 2 to Visit 3||||<0.001
82539456|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 3 to Visit 4||||0.005
82539457|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 4 to Visit 5||||0.566
82539458|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.264|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 5 to Visit 6||||0.264
82539459|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 6 to Visit 7||||0.126
82539460|NCT01245439|164778759|SUPERIORITY_OR_OTHER|||||||0.779|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change from Visit 7 to Visit 8||||0.779
82539461|NCT01245439|164778759|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||||||<0.001
82539462|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints Visit 1 to Visit 2||||0.410
82539463|NCT01245439|164778760|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 2 to Visit 3||||<0.001
82539464|NCT01245439|164778760|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 3 to Visit 4||||<0.001
82539465|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 4 to Visit 5||||0.021
82539466|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 5 to Visit 6||||0.003
82539467|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.827|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 6 to Visit7||||0.827
82649208|NCT00185211|165013757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.663||||0.0028||97.47|0.488|0.902|||Regression, Cox|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to CDMS was modelled by a Cox proportional hazards regression model with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (categories: 2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for CDMS, i.e. hazard ratio = 1.||0.902|0.488|0.0028
82436228|NCT01252186|164581580|SUPERIORITY_OR_OTHER||Treatment Difference|-0.02||||0.967|TWO_SIDED|95.0|-0.9|0.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.9|-0.9|0.967
82436229|NCT01252186|164581581|SUPERIORITY_OR_OTHER||Treatment Difference|1.09||||0.648|TWO_SIDED|95.0|-3.6|5.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||5.8|-3.6|0.648
82436230|NCT01252186|164581581|SUPERIORITY_OR_OTHER||Treatment Difference|1.68||||0.496|TWO_SIDED|95.0|-3.2|6.6|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||6.6|-3.2|0.496
82436231|NCT01252186|164581582|SUPERIORITY_OR_OTHER||Treatment Difference|8.71||||0.405|TWO_SIDED|95.0|-11.9|29.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||29.3|-11.9|0.405
82436232|NCT01252186|164581582|SUPERIORITY_OR_OTHER||Treatment Difference|28.95||||0.008|TWO_SIDED|95.0|7.7|50.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||50.2|7.7|0.008
82436233|NCT01252186|164581583|SUPERIORITY_OR_OTHER||Treatment Difference|3.3||||0.425|TWO_SIDED|195.0|-4.9|11.5|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||11.5|-4.9|0.425
82436234|NCT01252186|164581583|SUPERIORITY_OR_OTHER||Treatment Difference|8.76||||0.041|TWO_SIDED|95.0|0.3|17.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||17.2|0.3|0.041
82436235|NCT01252186|164581584|SUPERIORITY_OR_OTHER||Treatment Difference|-2.4||||0.088|TWO_SIDED|95.0|-5.2|0.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.4|-5.2|0.088
82436236|NCT01252186|164581584|SUPERIORITY_OR_OTHER||Treatment Difference|-3.19||||0.028|TWO_SIDED|95.0|-6.0|-0.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-0.3|-6.0|0.028
82436237|NCT01252186|164581585|SUPERIORITY_OR_OTHER||Treatment Difference|1.75||||0.631|TWO_SIDED|95.0|-5.4|8.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||8.9|-5.4|0.631
82436238|NCT01252186|164581585|SUPERIORITY_OR_OTHER||Treatment Difference|3.73||||0.323|TWO_SIDED|95.0|-3.7|11.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||11.2|-3.7|0.323
82436239|NCT01252186|164581586|SUPERIORITY_OR_OTHER||Treatment Difference|-0.86||||0.783|TWO_SIDED|595.0|-7.0|5.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||5.3|-7.0|0.783
82436240|NCT01252186|164581586|SUPERIORITY_OR_OTHER||Treatment Difference|-2.83||||0.384|TWO_SIDED|95.0|-9.2|3.6|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||3.6|-9.2|0.384
82454508|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
82539468|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 7 to Visit 8||||0.093
82539469|NCT01245439|164778760|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Sensitive Joints from Visit 2 to Visit 8||||<0.001
82539470|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.792|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 1 to Visit 2||||0.792
82539471|NCT01245439|164778760|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 2 to Visit 3||||<0.001
82539472|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 3 to Visit 4||||0.002
82539473|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 4 to Visit 5||||0.374
82539474|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 5 to Visit 6||||0.518
82539475|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.744|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 6 to Visit 7||||0.744
82539476|NCT01245439|164778760|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 7 to Visit 8||||0.048
82539477|NCT01245439|164778760|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change in Swollen Joints from Visit 2 to Visit 8||||<0.001
82539478|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 2 to Visit 3||||<0.001
82539479|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 3 to Visit 4||||<0.001
82436241|NCT01252186|164581587|SUPERIORITY_OR_OTHER||Treatment Difference|1.66||||0.572|TWO_SIDED|95.0|-4.1|7.5|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||7.5|-4.1|0.572
82539480|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 4 to Visit 5||||0.075
82539481|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.119|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 5 to Visit 6||||0.119
82539482|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 6 to Visit 7||||0.007
82539483|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 7 to Visit 8||||0.047
82539484|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||PT assessment Visit 2 to Visit 8||||<0.001
82539485|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 2 to Visit 3||||<0.001
82539486|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 3 to Visit 4||||<0.001
82539487|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 4 to Visit 5||||0.001
82539488|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 5 to Visit 6||||0.084
82539489|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.272|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 6 to Visit 7||||0.272
82539490|NCT01245439|164778761|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 7 to Visit 8||||0.020
82539491|NCT01245439|164778761|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||IN assessment Visit 2 to Visit 8||||<0.001
82539492|NCT01245439|164778762|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 3||||<0.001
82539493|NCT01245439|164778762|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 3 to Visit 4||||<0.001
82539494|NCT01245439|164778762|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 4 to Visit 5||||0.254
82539495|NCT01245439|164778762|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 5 to Visit 6||||0.138
82539496|NCT01245439|164778762|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 6 to Visit 7||||0.002
82539497|NCT01245439|164778762|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 7 to Visit 8||||0.104
82539498|NCT01245439|164778762|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 8||||<0.001
82539499|NCT01245439|164778763|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 2 to Visit 3||||<0.001
82539500|NCT01245439|164778763|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 3 to Visit 4||||0.002
82539501|NCT01245439|164778763|SUPERIORITY_OR_OTHER|||||||0.078|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 4 to Visit 5||||0.078
82539502|NCT01245439|164778763|SUPERIORITY_OR_OTHER|||||||0.349|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 5 to Visit 6||||0.349
82539503|NCT01245439|164778763|SUPERIORITY_OR_OTHER|||||||0.722|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 6 to Visit 7||||0.722
82539504|NCT01245439|164778763|SUPERIORITY_OR_OTHER|||||||0.224|TWO_SIDED||||||Wilcoxon Signed Rank test.|||Change between Visit 7 to Visit 8||||0.224
82539505|NCT00208507|164778775|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This was a non-inferiority test of the Harris Hip Score means at 24+ months with a 5 point non-inferiority margin.|Mean Difference (Final Values)|0.61||||0.001|ONE_SIDED|95.0|-1.56||||ANCOVA|Preoperative Harris Hip score was included in the ANCOVA model as the only covariate.|||||-1.56|0.001
82539506|NCT00972504|164778808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.2|-0.1||||||||-0.1|-1.2|
82539507|NCT00972504|164778808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.8|-0.8||||||||-0.8|-1.8|
82539508|NCT00972504|164778808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|-1.9|-0.8||||||||-0.8|-1.9|
82539509|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|0.0|0.3|||||Comparison of Nasal Blockage between Placebo and GSK1004723 1000 µg once daily.|||0.3|-0.0|
82577714|NCT03635099|164864649|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0007||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Linear model fit.|||||||0.0007
82577715|NCT03635099|164864649|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0023||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Logistic model fit.|Model assumption: 10% of the maximum effect is achieved at 25 mg and 80% of the maximum effect is achieved at 100 mg.||||||0.0023
82539510|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Blockage between Placebo and GSK835726 10 mg once daily.|||-0.1|-0.4|
82539511|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Blockage between Placebo and Cetirizine 10 mg once daily.|||-0.1|-0.4|
82539512|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Rhinorrhoea between Placebo and GSK1004723 1000 µg once daily.|||-0.1|-0.4|
82539513|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.6|-0.2|||||Comparison of Rhinorrhoea between Placebo and GSK835726 10 mg once daily.|||-0.2|-0.6|
82539514|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.6|-0.3|||||Comparison of Rhinorrhoea between Placebo and Cetirizine 10 mg once daily.|||-0.3|-0.6|
82539515|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.4|-0.1|||||Comparison of Nasal Itching between Placebo and GSK1004723 1000 µg once daily.|||-0.1|-0.4|
82539516|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Nasal Itching between Placebo and GSK835726 10 mg once daily.|||-0.2|-0.5|
82649209|NCT00185211|165013758|SUPERIORITY_OR_OTHER|||||||0.1768||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|Log Rank|||The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was: H0: The survival functions (i.e., the probability that time to confirmed EDSS progression is ≥ t) are not identical for both treatment arms for some points in time t\>0. The two-sided alternative hypothesis was: H1: The survival functions (i.e., the probability that time to confirmed EDSS progression is ≥ t) are identical for both treatment arms for some points in time t\>0.||||0.1768
82436242|NCT01252186|164581587|SUPERIORITY_OR_OTHER||Treatment Difference|-20.98|||<|0.001|TWO_SIDED|95.0|-27.0|-15.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-15.0|-27.0|<0.001
82539517|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Nasal Itching between Placebo and Cetirizine 10 mg once daily.|||-0.2|-0.5|
82652320|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.14||||0.2804|TWO_SIDED|95.0|-0.395|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.115|-0.395|0.2804
82539518|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Sneezing between Placebo and GSK1004723 1000 µg once daily.|||-0.2|-0.5|
82454509|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
82539519|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.4|-0.2|||||Comparison of Sneezing between Placebo and GSK835726 10mg once daily.|||-0.2|-0.4|
82539520|NCT00972504|164778809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.5|-0.2|||||Comparison of Sneezing between Placebo and Cetirizine 10mg once daily.|||-0.2|-0.5|
82539521|NCT00972504|164778810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.041|STANDARD_ERROR_OF_MEAN|0.4194|||TWO_SIDED|95.0|-1.87|-0.212||||||||-0.212|-1.870|
82539522|NCT00972504|164778810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.4172|||TWO_SIDED|95.0|-2.584|-0.936||||||||-0.936|-2.584|
82539523|NCT00972504|164778810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.792|STANDARD_ERROR_OF_MEAN|0.4224|||TWO_SIDED|95.0|-3.626|-1.957||||||||-1.957|-3.626|
82539524|NCT00972504|164778811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|95.0|-0.28|0.93||||||||0.93|-0.28|
82539525|NCT00972504|164778811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|-1.65|-0.45||||||||-0.45|-1.65|
82539526|NCT00972504|164778811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|0.308||||95.0|-1.68|-0.46||||||||-0.46|-1.68|
82539527|NCT02878330|164778814|SUPERIORITY||Relative Risk Reduction|70.1|||<|0.0001|TWO_SIDED|95.0|52.3|81.2|||Poisson regression|||||81.2|52.3|<0.0001
82539528|NCT02878330|164778815|SUPERIORITY||Relative Risk Reduction|78.4||||0.0002|TWO_SIDED|95.0|51.9|90.3|||Poisson regression|||||90.3|51.9|0.0002
82539529|NCT02476890|164778821|OTHER||Mean Difference (Final Values)|0.01||||0.9666|TWO_SIDED|95.0|-0.6|0.7|||Mixed Models Analysis|||C2 Response/Healthy||0.7|-0.6|0.9666
82539530|NCT02476890|164778821|OTHER||Mean Difference (Final Values)|-0.22||||0.5993|TWO_SIDED|95.0|-1.1|0.6|||Mixed Models Analysis|||C5 Response/Healthy||0.6|-1.1|0.5993
82577716|NCT03635099|164864649|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0018||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax1 model fit.|Model assumption: 30% of the maximum effect is achieved at 50 mg.||||||0.0018
82577717|NCT03635099|164864649|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0386||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Emax2 model fit.|Model assumption: 80% of the maximum effect is achieved at 50 mg.||||||0.0386
82649210|NCT00185211|165013758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.764||||0.1604||97.47|0.497|1.174|||Regression, Cox|The variable used as additional covariate adjustment was volume of T2 lesions on screening MRI.|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to confirmed EDSS progression was modelled by a Cox proportional hazards regression model with the following covariates: treatment group and volume of T2 lesions on screening MRI. The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for confirmed EDSS progression, i.e. hazard ratio = 1.||1.174|0.497|0.1604
82436243|NCT01252186|164581588|SUPERIORITY_OR_OTHER||Treatment Difference|-0.42||||0.841|TWO_SIDED|95.0|-4.6|3.7|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||3.7|-4.6|0.841
82454510|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
82539531|NCT02476890|164778821|OTHER||Mean Difference (Final Values)|0.32||||0.2823|TWO_SIDED|95.0|-0.3|0.9|||Mixed Models Analysis|||C2 Response/Chronic Cough||0.9|-0.3|0.2823
82539532|NCT02476890|164778821|OTHER||Mean Difference (Final Values)|0.25||||0.4287|TWO_SIDED|95.0|-0.4|0.9|||Mixed Models Analysis|||C5 Response/Chronic Cough||0.9|-0.4|0.4287
82539533|NCT02476890|164778822|OTHER||Mean Difference (Final Values)|0.56||||0.1771|TWO_SIDED|95.0|-0.3|1.4|||Mixed Models Analysis|||C2 Response/Healthy||1.4|-0.3|0.1771
82539534|NCT02476890|164778822|OTHER||Mean Difference (Final Values)|0.3||||0.5473|TWO_SIDED|95.0|-0.7|1.3|||Mixed Models Analysis|||C5 Response/Healthy||1.3|-0.7|0.5473
82539535|NCT02476890|164778822|OTHER||Mean Difference (Final Values)|0.23||||0.5169|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||C2 Response/Chronic Cough||1.0|-0.5|0.5169
82539536|NCT02476890|164778822|OTHER||Mean Difference (Final Values)|0.28||||0.4243|TWO_SIDED|95.0|-0.4|1.0|||Mixed Models Analysis|||C5 Response/Chronic Cough||1.0|-0.4|0.4243
82539537|NCT02476890|164778823|OTHER||Mean Difference (Final Values)|0.89||||0.1125|TWO_SIDED|95.0|-0.2|2.0|||Mixed Models Analysis|||C2 Response/Healthy||2.0|-0.2|0.1125
82539538|NCT02476890|164778823|OTHER||Mean Difference (Final Values)|0.88||||0.0029|TWO_SIDED|95.0|0.4|1.4|||Mixed Models Analysis|||C5 Response/Healthy||1.4|0.4|0.0029
82539539|NCT02476890|164778823|OTHER||Mean Difference (Final Values)|1.54||||0.0006|TWO_SIDED|95.0|0.7|2.4|||Mixed Models Analysis|||C2 Response/Chronic Cough||2.4|0.7|0.0006
82539540|NCT02476890|164778823|OTHER||Mean Difference (Final Values)|1.3||||0.0067|TWO_SIDED|95.0|0.4|2.2|||Mixed Models Analysis|||C5 Response/Chronic Cough||2.2|0.4|0.0067
82652321|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.218||||0.0913|TWO_SIDED|95.0|-0.472|0.035||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.035|-0.472|0.0913
82539541|NCT02476890|164778824|OTHER||Mean Difference (Final Values)|0.38|||<|0.0001|TWO_SIDED|95.0|0.2|0.5|||Mixed Models Analysis|||C2 Response/Healthy||0.5|0.2|< 0.0001
82539542|NCT02476890|164778824|OTHER||Mean Difference (Final Values)|0.23||||0.1798|TWO_SIDED|95.0|-0.1|0.6|||Mixed Models Analysis|||C5 Response/Healthy||0.6|-0.1|0.1798
82539543|NCT02476890|164778824|OTHER||Mean Difference (Final Values)|0.3||||0.0011|TWO_SIDED|95.0|0.1|0.5|||Mixed Models Analysis|||C2 Response/Chronic Cough||0.5|0.1|0.0011
82539544|NCT02476890|164778824|OTHER||Mean Difference (Final Values)|0.28||||0.0023|TWO_SIDED|95.0|0.1|0.4|||Mixed Models Analysis|||C5 Response/Chronic Cough||0.4|0.1|0.0023
82539545|NCT02476890|164778825|OTHER||Mean Difference (Final Values)|-18.0||||0.0037|TWO_SIDED|95.0|-29.8|-6.2|||Mixed Models Analysis|||Cough Severity VAS Analysis||-6.2|-29.8|0.0037
82539546|NCT02476890|164778826|OTHER||Mean Difference (Final Values)|-18.0||||0.002|TWO_SIDED|95.0|-29.1|-7.0|||Mixed Models Analysis|||Urge to Cough VAS Analysis||-7.0|-29.1|0.0020
82539547|NCT02476890|164778827|OTHER||Mean Difference (Final Values)|-3.6||||0.0075|TWO_SIDED|95.0|-6.2|-1.0|||Mixed Models Analysis|||Cough Frequency Analysis||-1.0|-6.2|0.0075
82539548|NCT03495713|164778835|OTHER||||||||||||||||||Descriptive analysis only based limited enrollments.|||
82539549|NCT01544062|164778872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.7||||0.024|TWO_SIDED|95.0|2.3|31.1|||t-test, 2 sided|||||31.1|2.3|0.024
82539550|NCT01544062|164778872|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.013
82539551|NCT01544062|164778873|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||t-test, 2 sided|||||||0.059
82539552|NCT01544062|164778873|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.020
82539553|NCT01544062|164778874|SUPERIORITY_OR_OTHER|||||||0.724|TWO_SIDED||||||t-test, 2 sided|||||||0.724
82539554|NCT01544062|164778874|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.510
82539555|NCT01544062|164778875|SUPERIORITY_OR_OTHER|||||||0.397|TWO_SIDED||||||t-test, 2 sided|||||||0.397
82652322|NCT02637557|165019491|SUPERIORITY||LS Mean Difference|-0.38||||0.0039|TWO_SIDED|95.0|-0.637|-0.123||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.123|-0.637|0.0039
82436244|NCT01252186|164581588|SUPERIORITY_OR_OTHER||Treatment Difference|-10.53|||<|0.001|TWO_SIDED|95.0|-14.8|-6.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-6.3|-14.8|<0.001
82436245|NCT01252186|164581589|SUPERIORITY_OR_OTHER||Treatment Difference|-2.11||||0.227|TWO_SIDED|95.0|-5.6|1.3|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||1.3|-5.6|0.227
82436246|NCT01252186|164581589|SUPERIORITY_OR_OTHER||Treatment Difference|-5.99||||0.001|TWO_SIDED|95.0|-9.6|-2.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||-2.4|-9.6|0.001
82436247|NCT01252186|164581590|SUPERIORITY_OR_OTHER||Treatment Difference|0.33||||0.076|TWO_SIDED|95.0|0.0|0.7|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.7|-0.0|0.076
82436248|NCT01252186|164581590|SUPERIORITY_OR_OTHER||Treatment Difference|0.44||||0.021|TWO_SIDED|95.0|0.1|0.8|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||0.8|0.1|0.021
82436249|NCT01252186|164581591|SUPERIORITY_OR_OTHER||Treatment Difference|44.46||||0.19|TWO_SIDED|95.0|-22.3|111.2|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||111.2|-22.3|0.190
82436250|NCT01252186|164581591|SUPERIORITY_OR_OTHER||Treatment Difference|9.74||||0.781|TWO_SIDED|95.0|-59.4|78.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||78.9|-59.4|0.781
82436251|NCT01252186|164581592|SUPERIORITY_OR_OTHER||Treatment Difference|-12.49||||0.843|TWO_SIDED|95.0|-136.4|111.4|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||111.4|-136.4|0.843
82436252|NCT01252186|164581592|SUPERIORITY_OR_OTHER||Treatment Difference|58.3||||0.376|TWO_SIDED|95.0|-71.3|187.9|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||187.9|-71.3|0.376
82436253|NCT01252186|164581593|SUPERIORITY_OR_OTHER||Treatment Difference|-4.01||||0.731|TWO_SIDED|95.0|-27.0|19.0|||Mixed Models Analysis||Treatment difference is calculated as (28-day Levonorgestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||19.0|-27.0|0.731
82436254|NCT01252186|164581593|SUPERIORITY_OR_OTHER||Treatment Difference|130.15|||<|0.001|TWO_SIDED|95.0|106.2|154.1|||Mixed Models Analysis||Treatment difference is calculated as (28-day Desogestrel - 91-day Levonorgestrel)|The endpoint was analyzed using a maximum likelihood-based mixed model repeated measures (MMRM) analysis of covariance (ANCOVA) with covariate adjustment for baseline, treatment, month, and the treatment-by-month interaction.||154.1|106.2|<0.001
82436255|NCT02791516|164581594|SUPERIORITY||LS Mean Difference|9.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|7.6|11.5|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||11.5|7.6|<0.001
82436256|NCT02791516|164581595|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|1.4|3.7|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||3.7|1.4|<0.001
82436257|NCT02791516|164581596|SUPERIORITY||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.7||0.004|TWO_SIDED|95.0|0.7|3.6|||ANCOVA|ANCOVA model adjusting for treatment, baseline DXA BMD value, machine type, and machine type-by-baseline DXA BMD value.||||3.6|0.7|0.004
82436258|NCT04283994|164581600|SUPERIORITY||Risk Difference (RD)|0.114||||0.023|TWO_SIDED|95.0|0.03|0.197||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.197|0.030|0.023
82454511|NCT01128426|164614032|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82436259|NCT04283994|164581600|SUPERIORITY||Risk Difference (RD)|0.068||||0.294|TWO_SIDED|95.0|-0.013|0.15||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bidirectional intervention - usual care. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.150|-0.013|0.294
82436260|NCT04283994|164581600|SUPERIORITY||Risk Difference (RD)|-0.045||||0.952|TWO_SIDED|95.0|-0.134|0.044||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bidirectional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital site and dementia diagnosis. Confidence intervals using robust standard errors.|A total sample size of 600 (200 per arm) would give 80% power to detect a difference in proportions of 0.16 for each of the 3 pairwise comparisons assuming an overall 0.5 significance threshold, a Bonferroni adjustment for the 3 comparisons, and variance based on a proportion of 0.54.||0.044|-0.134|0.952
82436261|NCT04283994|164581607|SUPERIORITY||Mean Difference (Final Values)|-0.3||||1.65|TWO_SIDED|95.0|-1.3|0.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.7|-1.3|1.650
82436262|NCT04283994|164581607|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.985|TWO_SIDED|95.0|-1.6|0.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.5|-1.6|0.985
82436263|NCT04283994|164581607|SUPERIORITY||Mean Difference (Final Values)|0.2||||2.155|TWO_SIDED|95.0|-1.0|1.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.4|-1.0|2.155
82436264|NCT04283994|164581608|SUPERIORITY||Mean Difference (Final Values)|0.7||||2.169|TWO_SIDED|95.0|-3.1|4.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis,|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||4.4|-3.1|2.169
82436265|NCT04283994|164581608|SUPERIORITY||Mean Difference (Final Values)|-3.3||||0.391|TWO_SIDED|95.0|-7.5|1.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.0|-7.5|0.391
82436266|NCT04283994|164581608|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.21|TWO_SIDED|95.0|-0.3|8.2||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||8.2|-0.3|0.210
82436267|NCT04283994|164581609|SUPERIORITY||Mean Difference (Final Values)|0.8||||1.01|TWO_SIDED|95.0|-0.8|2.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||2.4|-0.8|1.010
82436268|NCT04283994|164581609|SUPERIORITY||Mean Difference (Final Values)|0.0||||2.923|TWO_SIDED|95.0|-1.7|1.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||1.7|-1.7|2.923
82436269|NCT04283994|164581609|SUPERIORITY||Mean Difference (Final Values)|0.8||||1.034|TWO_SIDED|95.0|-0.9|2.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||2.5|-0.9|1.034
82436270|NCT04283994|164581610|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.384|TWO_SIDED|95.0|-1.0|7.9||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||7.9|-1.0|0.384
82539556|NCT01544062|164778875|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.458
82539557|NCT01544062|164778876|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.600
82539558|NCT01544062|164778876|SUPERIORITY_OR_OTHER|||||||0.509|TWO_SIDED||||||ANCOVA|controlling for age, sex and body mass index||||||0.509
82539559|NCT01544062|164778877|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||t-test, 2 sided|||||||0.399
82539560|NCT01544062|164778877|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.395
82539561|NCT01544062|164778878|SUPERIORITY_OR_OTHER|||||||0.771|TWO_SIDED||||||t-test, 2 sided|||||||0.771
82539562|NCT01544062|164778878|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.927
82539563|NCT01544062|164778879|SUPERIORITY_OR_OTHER|||||||0.644|TWO_SIDED||||||t-test, 2 sided|||||||0.644
82539564|NCT01544062|164778879|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.160
82539565|NCT01544062|164778880|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||t-test, 2 sided|||||||0.710
82539566|NCT01544062|164778880|SUPERIORITY_OR_OTHER|||||||0.475|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.475
82539567|NCT01544062|164778881|SUPERIORITY_OR_OTHER|||||||0.508|TWO_SIDED||||||t-test, 2 sided|||||||0.508
82539568|NCT01544062|164778881|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED|||||controlling for age, sex and body mass index|ANCOVA|||||||0.905
82539569|NCT01544062|164778882|SUPERIORITY_OR_OTHER|||||||0.104|TWO_SIDED||||||t-test, 2 sided|||||||0.104
82539570|NCT01544062|164778883|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Fisher Exact|||||||0.580
82539571|NCT01544062|164778884|SUPERIORITY_OR_OTHER|||||||0.619|TWO_SIDED||||||Fisher Exact|||||||0.619
82539572|NCT01544062|164778885|SUPERIORITY_OR_OTHER|||||||0.511|TWO_SIDED||||||Fisher Exact|||||||0.511
82539573|NCT01544062|164778886|SUPERIORITY_OR_OTHER|||||||0.501|TWO_SIDED||||||Fisher Exact|||||||0.501
82539574|NCT01544062|164778887|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82539575|NCT01544062|164778888|SUPERIORITY_OR_OTHER|||||||0.299|TWO_SIDED||||||Fisher Exact|||||||0.299
82539576|NCT01544062|164778889|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82539577|NCT01544062|164778890|SUPERIORITY_OR_OTHER|||||||0.492|TWO_SIDED||||||Fisher Exact|||||||0.492
82539578|NCT01544062|164778891|SUPERIORITY_OR_OTHER|||||||0.455|TWO_SIDED||||||Fisher Exact|||||||0.455
82539579|NCT01544062|164778892|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82539580|NCT03368001|164778894|OTHER|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses. We accounted for any non-independence of observations due to cohort membership by obtaining cluster-robust standard errors using robust maximum likelihood estimation (MLR in Mplus) in tandem with the Type = Complex option available in Mplus, treating cohorts as clusters. All models were structurally saturated, so model fit was necessarily perfect.||||||0.039||||||IFM Posttest.|Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||Population models were specified using parameter values derived from past research in tandem with minimal expected effect sizes for the effects of most interest. These models were used to generate 5000 samples for a given N, the models were fit to each sample, and the significance (or not) of key effects was noted. This process was repeated until the target power of at least .80 was reached indicating with 216 participants we would have .82 power.||||.039
82539581|NCT03368001|164778894|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator.|Structural Equation Model (SEM)|0.064|||<|0.05|TWO_SIDED|90.0|0.014|0.118||One-tailed significance test|Structural Equation Model (SEM)|Controlling for Verbal Expressiveness at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The indirect effect of SENSE Theatre® vs. TTT through post-test IFM on follow-up Vocal Expressiveness. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.118|0.014|<0.05
82539582|NCT03368001|164778894|OTHER|The residual associated with the mediator was allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|0.032|||<|0.05|TWO_SIDED|90.0|0.002|0.087||One-sided hypothesis test.|Structural Equation Model (SEM)|Controlling for Rapport at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up Quality of Rapport through posttest Incidental Face Memory. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag (pretest to posttest) and baseline mediator, and controlled the outcome for individual differences in lag (pretest to follow-up) and baseline outcome.||0.087|0.002|<0.05
82539583|NCT03368001|164778894|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|0.005|||>|0.05|TWO_SIDED|90.0|-0.015|0.059||One-sided hypothesis test|Structural Equation Model (SEM)|Controlling for Social Anxiety at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up Social Anxiety through posttest IFM. Adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.059|-0.015|>0.05
82561847|NCT02291861|164832895|SUPERIORITY||Odds Ratio (OR)|2.71||||0.014|TWO_SIDED|95.0|1.211|6.052|||Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 24 mg/day group and the placebo group, and is the fourth analysis in the fixed-sequence."||6.052|1.211|0.014
82539584|NCT03368001|164778894|OTHER|The residuals associated with the mediator and outcome were allowed to covary with the lag and pretest scores associated with the outcome, and the residual associated with the outcome was allowed to covary with the lag and pretest scores associated with the mediator, yielding a saturated model.|Structural Equation Model (SEM)|-0.0002|||>|0.05|TWO_SIDED|90.0|-0.054|0.061||One-sided hypothesis test|Structural Equation Model (SEM)|Controlling for SRS-2 Social Communication at Pretest and the interval between Pretest and the Followup assessments.|Estimation parameter represents indirect effect (axb)|The partially standardized indirect effect of treatment on follow-up SRS Communication. We adjusted standard errors for cohort, controlled the mediator for individual differences in lag between pretest and posttest for the a path and controlled the outcome for individual differences in lag between pretest to follow-up for the b and c' paths.||0.061|-0.054|>0.05
82539585|NCT03368001|164778895|OTHER|||||||0.49||||||SRS Communication Posttest.|Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||||||.490
82539586|NCT03368001|164778896|OTHER|Posttest ANCOVA controlling for pre-test scores||||||0.704|||||||ANCOVA|||||||0.704
82539587|NCT03368001|164778896|OTHER|Followup ANCOVA controlling for pretest values||||||0.406|||||||ANCOVA|||||||0.406
82539588|NCT03368001|164778897|OTHER|||||||0.217|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses.||Vocal Expressiveness Posttest.||||.217
82539589|NCT03368001|164778897|OTHER|||||||0.448|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses||Quality of Rapport Posttest.||||.448
82539590|NCT03368001|164778897|OTHER|||||||0.15|||||||Structural Equation Modeling|We used structural equation modeling (SEM), as implemented in Mplus 8.7, as a framework for testing all primary hypotheses||Social Anxiety Posttest.||||.150
82539591|NCT03368001|164778898|OTHER|Posttest ANCOVA controlling for pre-test values||||||0.169|||||||ANCOVA|||||||0.169
82539592|NCT03368001|164778898|OTHER|Followup ANCOVA controlling for pretest values.||||||0.555|||||||ANCOVA|||||||0.555
82539593|NCT01199237|164778899|SUPERIORITY_OR_OTHER|||||||0.11||||||Significant at p\<0.05|Chi-squared|||||||0.11
82577718|NCT03635099|164864649|OTHER|First the response rate of sPGA 0/1 at week 12 for each dosage group was estimated by a logistic regression model including the fixed effect of treatment (categorical dose) and baseline sPGA score as covariate was performed. The dose-response relationships were then tested using the Multiple Comparison Procedures and Modelling (MCP-Mod) approach based on the estimates from logistic regression.||||||0.0004||||||The multiple comparison procedure was implemented using optimal contrast tests which control the family-wise type I error rate at one-sided α = 0.05.|MCPMod Exponential model fit.|Model assumption: 5% of the maximum effect is achieved at 25 mg.||||||0.0004
82539594|NCT03008915|164778904|OTHER|Paired t-test for participants with measures on both aspirin and placebo.||||||0.692|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between measures on aspirin and placebo.||||0.692
82539595|NCT00712166|164778908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.433|TWO_SIDED|95.0|-2.83|6.44||"The primary endpoint analysis was based on a two-sided test with an 0.05 a priori threshold for statistical significance.~A gate-keeper approach was established a priori to control the type 1 error rate, however, the primary endpoint was not met."|ANCOVA|ANCOVA included: treatment, baseline CFQ-R RSS, age group (\<18, \>=18 years). Denominator degrees of freedom computed with Satterthwaite approximation.||"Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 28.~At the 5% significance level (i.e., α = 0.05) using a two-sided significance test, a sample size of 70 participants per treatment group provided at least 90% power to detect a 10 point difference between groups in the mean change from baseline at Day 28 in the CFQ-R RSS score, assuming a common standard deviation (SD) of 17.5."||6.44|-2.83|0.433
82577719|NCT03635099|164864650|OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-11.7|11.7|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.7|-11.7|1.0000
82577720|NCT03635099|164864650|OTHER||Risk Difference (RD)|20.6||||0.054|TWO_SIDED|95.0|3.9|37.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||37.3|3.9|0.0540
82577721|NCT03635099|164864650|OTHER||Risk Difference (RD)|15.5||||0.1167|TWO_SIDED|95.0|-0.4|31.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||31.4|-0.4|0.1167
82577722|NCT03635099|164864650|OTHER||Risk Difference (RD)|45.0||||0.0006|TWO_SIDED|95.0|26.8|63.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||63.2|26.8|0.0006
82652323|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|0.128||||0.1902|TWO_SIDED|95.0|-0.064|0.319||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.319|-0.064|0.1902
82539596|NCT00712166|164778909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.37||||0.133|TWO_SIDED|95.0|-1.04|7.78||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA included terms: treatment, baseline CFQ-R RSS, age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R RSS score at Day 14.||7.78|-1.04|0.133
82539597|NCT00712166|164778910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.965|TWO_SIDED|95.0|-4.56|4.76||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment, baseline CFQ-R RSS and age group (\<18 years, \>=18 years). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R RSS score at Day 42.||4.76|-4.56|0.965
82577723|NCT03635099|164864650|OTHER||Risk Difference (RD)|45.8|||||TWO_SIDED|95.0|22.0|69.6|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||69.6|22.0|
82436271|NCT04283994|164581610|SUPERIORITY||Mean Difference (Final Values)|-1.2||||1.923|TWO_SIDED|95.0|-6.1|3.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.7|-6.1|1.923
82436272|NCT04283994|164581610|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.166|TWO_SIDED|95.0|-0.1|9.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||9.4|-0.1|0.166
82436273|NCT04283994|164581611|SUPERIORITY||Risk Difference (RD)|-0.11||||0.16|TWO_SIDED|95.0|-0.23|0.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.00|-0.23|0.160
82436274|NCT04283994|164581611|SUPERIORITY||Risk Difference (RD)|-0.07||||0.652|TWO_SIDED|95.0|-0.18|0.04||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.04|-0.18|0.652
82436275|NCT04283994|164581611|SUPERIORITY||Risk Difference (RD)|-0.04||||1.39|TWO_SIDED|95.0|-0.16|0.07||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.07|-0.16|1.390
82436276|NCT04283994|164581612|SUPERIORITY||Risk Difference (RD)|0.05||||1.192|TWO_SIDED|95.0|-0.06|0.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.16|-0.06|1.192
82436277|NCT04283994|164581612|SUPERIORITY||Risk Difference (RD)|0.01||||2.698|TWO_SIDED|95.0|-0.11|0.12||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.12|-0.11|2.698
82454512|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
82454513|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.49|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.49
82539598|NCT00712166|164778911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47||||0.256||95.0|-1.81|6.76||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA included: treatment, baseline CFQ-R Physical Function Domain score and age (\<18, \>=18 years). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the CFQ-R physical functioning domain score at Day 28.||6.76|-1.81|0.256
82539599|NCT00712166|164778912|SUPERIORITY_OR_OTHER||||||>|0.999||0.0||||No adjustments were made for multiple comparisons.|Fisher Exact|A participant with multiple usage was counted only once.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants using additional (nonprotocol-specified) antipseudomonal antibiotics during study.||||>0.999
82539600|NCT00712166|164778913|SUPERIORITY_OR_OTHER|||||||0.122||||||No adjustments were made for multiple comparisons.|Fisher Exact|A participant with multiple hospitalizations was counted only once.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in proportion of participants hospitalized.||||0.122
82577724|NCT03635099|164864650|OTHER||Risk Difference (RD)|35.2|||||TWO_SIDED|95.0|11.3|59.2|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||59.2|11.3|
82577725|NCT03635099|164864651|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
82577726|NCT03635099|164864651|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
82652324|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|0.1||||0.3021|TWO_SIDED|95.0|-0.091|0.292||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.292|-0.091|0.3021
82652325|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.028||||0.775|TWO_SIDED|95.0|-0.221|0.165||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.165|-0.221|0.7750
82539601|NCT00712166|164778916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.016|TWO_SIDED|95.0|-2.2|-0.23||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline log10 CFU, and age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in the log10 CFU at Day 28.||-0.23|-2.20|0.016
82539602|NCT00712166|164778917|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.73||||0.021|TWO_SIDED|95.0|0.42|5.04||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model includes treatment, baseline FEV1 % predicted, and age group (\<18, \>=18 years). Treatment differences were calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in % change from baseline in FEV1 % predicted at Day 28.||5.04|0.42|0.021
82577727|NCT03635099|164864651|OTHER||Risk Difference (RD)|17.5||||0.0465|TWO_SIDED|95.0|5.7|29.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||29.3|5.7|0.0465
82577728|NCT03635099|164864651|OTHER||Risk Difference (RD)|9.3|||||TWO_SIDED|95.0|0.6|18.0|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||18.0|0.6|
82577729|NCT03635099|164864651|OTHER||Risk Difference (RD)|4.8|||||TWO_SIDED|95.0|-1.7|11.2|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||11.2|-1.7|
82577730|NCT03635099|164864652|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
82577731|NCT03635099|164864652|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
82577732|NCT03635099|164864652|OTHER||Risk Difference (RD)|2.3|||||TWO_SIDED|95.0|-2.2|6.8|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||6.8|-2.2|
82649211|NCT00185211|165013759|SUPERIORITY_OR_OTHER|||||||0.888||95.0||||A 2-sided error level of 0.0253 was used for analyses at month 36 and 60 in order to keep the study-wise error level at 0.05. A conditional sequential testing approach was used for the family of null hypotheses of the primary efficacy variables.|non-parametric ANCOVA|Variable used as covariate: FAMS TOI measured at baseline||"The null hypothesis H0: The distribution of FAMS TOI at month 60, adjusted for baseline FAMS TOI, is identical for both treatment arms was tested against the alternative hypothesis HA: The distribution of FAMS TOI at month 60, adjusted for baseline FAMS TOI, is not the same in the two treatment arms using a non-parametric analysis of covariance (ANCOVA)."||||0.8880
82577733|NCT03635099|164864652|OTHER||Risk Difference (RD)|2.4|||||TWO_SIDED|95.0|-2.2|7.0|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||7.0|-2.2|
82577734|NCT03635099|164864653|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
82577735|NCT03635099|164864653|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
82577736|NCT03635099|164864653|OTHER||Risk Difference (RD)|12.8||||0.0942|TWO_SIDED|95.0|2.3|23.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||23.3|2.3|0.0942
82577737|NCT03635099|164864653|OTHER||Risk Difference (RD)|27.5||||0.0095|TWO_SIDED|95.0|13.7|41.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||41.3|13.7|0.0095
82577738|NCT03635099|164864653|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
82577739|NCT03635099|164864653|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
82577740|NCT03635099|164864653|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
82577741|NCT03635099|164864653|OTHER||Risk Difference (RD)|32.5||||0.004|TWO_SIDED|95.0|18.0|47.0|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||47.0|18.0|0.0040
82577742|NCT03635099|164864653|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
82577743|NCT03635099|164864653|OTHER||Risk Difference (RD)|35.0||||0.0025|TWO_SIDED|95.0|20.2|49.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||49.8|20.2|0.0025
82577744|NCT03635099|164864654|OTHER||Risk Difference (RD)|2.6||||0.4701|TWO_SIDED|95.0|-2.4|7.5|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.5|-2.4|0.4701
82577745|NCT03635099|164864654|OTHER||Risk Difference (RD)|5.0||||0.3091|TWO_SIDED|95.0|-1.8|11.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||11.8|-1.8|0.3091
82577746|NCT03635099|164864655|OTHER||Risk Difference (RD)|2.5||||0.4758|TWO_SIDED|95.0|-2.3|7.3|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||7.3|-2.3|0.4758
82577747|NCT03635099|164864655|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
82577748|NCT03635099|164864655|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
82577749|NCT03635099|164864655|OTHER||Risk Difference (RD)|30.0||||0.0062|TWO_SIDED|95.0|15.8|44.2|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||44.2|15.8|0.0062
82454514|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454515|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454516|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454517|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454518|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
82454519|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82577750|NCT03635099|164864655|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
82577751|NCT03635099|164864655|OTHER||Risk Difference (RD)|5.1||||0.3028|TWO_SIDED|95.0|-1.8|12.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||12.1|-1.8|0.3028
82577752|NCT03635099|164864655|OTHER||Risk Difference (RD)|25.0||||0.0143|TWO_SIDED|95.0|11.6|38.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||38.4|11.6|0.0143
82454520|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454521|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454522|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454523|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
82454524|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82454525|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82454526|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454527|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
82454528|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454529|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.3|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.30
82454530|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82577753|NCT03635099|164864655|OTHER||Risk Difference (RD)|7.7||||0.203|TWO_SIDED|95.0|-0.7|16.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||16.1|-0.7|0.2030
82577754|NCT03635099|164864655|OTHER||Risk Difference (RD)|10.3||||0.138|TWO_SIDED|95.0|0.7|19.8|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||19.8|0.7|0.1380
82577755|NCT03635099|164864655|OTHER||Risk Difference (RD)|32.5||||0.004|TWO_SIDED|95.0|18.0|47.0|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||47.0|18.0|0.0040
82577756|NCT03635099|164864656|OTHER||Adjusted mean|0.5|STANDARD_ERROR_OF_MEAN|1.2||0.7008|TWO_SIDED|95.0|-1.9|2.8|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||2.8|-1.9|0.7008
82577757|NCT03635099|164864656|OTHER||Adjusted mean|0.6|STANDARD_ERROR_OF_MEAN|1.2||0.6268|TWO_SIDED|95.0|-1.8|3.0|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||3.0|-1.8|0.6268
82436278|NCT04283994|164581612|SUPERIORITY||Risk Difference (RD)|0.04||||1.477|TWO_SIDED|95.0|-0.08|0.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.16|-0.08|1.477
82539603|NCT03693742|164778938|SUPERIORITY||||||<|0.001||||||A P value of less than 0.05 was considered significant.|Mixed Models Analysis|||"Null hypothesis is that there was no difference in uptake of F18-DCFPyL between the MSG and placebo groups.~A sample size of 10 achieves 100% power to detect a mean of paired differences of 5.0 (33%) with an estimated standard deviation of differences of 1.0 and with a significance level (alpha) of 0.05 using a one-sided paired t-test. If the estimated standard deviation of differences is 5.0, a sample size of 10 achieves 90% power to detect a mean difference of 5.0 with an alpha of 0.05."||||<0.001
82539604|NCT04520165|164778942|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
82539605|NCT04520165|164778944|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
82539606|NCT04520165|164778945|EQUIVALENCE|if p\<0.05 than the null hypothesis was considered as wrong and groups differed for the analysed parameter.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The baseline parameters in each group were compared with Mann-Whitney U test was performed.||||<0.05
82539607|NCT00545844|164779034|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82539608|NCT00545844|164779035|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82539609|NCT00545844|164779036|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
82539610|NCT00545844|164779037|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
82539611|NCT00545844|164779038|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||McNemar-Bowker|||McNemar-Bowker test is McNemar chi-squared statistic for binary matched pairs, with Bowker chi-squared fit test of symmetry model (tests all rows of data) (cf. Agresti, 2007)||||<0.001
82539612|NCT00094809|164779039|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.19|||<|0.0001||95.0|0.1|0.37|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of the pegfilgrastim group compared to the placebo group|||0.37|0.10|<0.0001
82539613|NCT00094809|164779040|SUPERIORITY_OR_OTHER||Treatment difference|-18.0|||<|0.0001||95.0|-26.2|-9.8|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference in percentage of participants (pegfilgrastim group - placebo group)|||-9.8|-26.2|<0.0001
82539614|NCT00094809|164779041|SUPERIORITY_OR_OTHER||Treatment difference|-12.0||||0.0646||95.0|-23.7|0.5|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference in percentage of participants (pegfilgrastim group - placebo group)|||0.5|-23.7|0.0646
82539615|NCT00094809|164779042|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.0384||95.0|0.07|1.0|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of pegfilgrastim group compared to placebo group|||1.00|0.07|0.0384
82652326|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|0.099||||0.4022|TWO_SIDED|95.0|-0.133|0.33||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.330|-0.133|0.4022
82539616|NCT00094809|164779043|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.5514||95.0|0.26|2.04|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio for pegfilgrastim group compared to placebo group|||2.04|0.26|0.5514
82539617|NCT00094809|164779045|SUPERIORITY_OR_OTHER||Treatment difference|-3.5||||0.5434||95.0|-14.8|7.8|||Mantel Haenszel|Adjusted for chemotherapy regimen|Treatment difference (pegfilgrastim group - placebo group) in the percentage of participants with a complete or partial response|||7.8|-14.8|0.5434
82539618|NCT00094809|164779046|SUPERIORITY_OR_OTHER||Treatment difference|-12.1||||||95.0|-28.1|4.0|||||Kaplan-Meier estimates of the difference in percent mortality for the pegfilgrastim group - placebo group. Median survival time was not reached for the pegfilgrastim group.|||4.0|-28.1|
82539619|NCT00094809|164779047|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.23||||0.0457||95.0|0.05|1.09|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio for pegfilgrastim group compared to placebo group|||1.09|0.05|0.0457
82539620|NCT00094809|164779048|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.3792||95.0|0.32|1.53|||Mantel Haenszel|Adjusted for chemotherapy regimen|Common odds ratio of the pegfilgrastim group compared to the placebo group|||1.53|0.32|0.3792
82539621|NCT05372094|164779060|OTHER|||||||0.007|||||||Mixed Models Analysis|||Fixed factor of program and random intercept of participant||||0.007
82539622|NCT05372094|164779060|OTHER||||||<|0.05|||||||Mixed Models Analysis|||Follow up comparison between noise reduction setting OFF and noise reduction setting STRONG||||< 0.05
82539623|NCT05372094|164779060|OTHER||||||<|0.01|||||||Mixed Models Analysis|||Follow up comparison between noise reduction setting STRONG and noise reduction setting WEAK||||<0.01
82539624|NCT05372094|164779060|OTHER||||||>|0.05|||||||Mixed Models Analysis|||"Follow up comparison between ratings of effort with OFF and WEAK"||||>.05
82539625|NCT05372094|164779061|OTHER|||||||0.283|||||||Mixed Models Analysis|||||||0.283
82539626|NCT05372094|164779062|OTHER|||||||0.145|||||||Mixed Models Analysis|||Analysis was done only between NR OFF and NR at a custom or preferred setting.||||0.145
82539627|NCT05372094|164779063|OTHER|||||||0.3018|||||||Exact Binomial test|||An exact binomial test was performed to evaluate if the majority of teens and pre-teens with mild to severe hearing loss preferred NR setting (i.e., either weak or strong) to the NR setting OFF.||||0.3018
82539628|NCT05372094|164779064|OTHER|||||||0.1796|||||||Exact Binomial test|||Exact binomial test was done to evaluate if the majority (\>50%) of teens and pre-teens prefer to use Tap Control to access Bluetooth streaming, compared to using the HA push button or phone controls.||||0.1796
82577758|NCT03635099|164864656|OTHER||Adjusted mean|2.7|STANDARD_ERROR_OF_MEAN|1.2||0.0266|TWO_SIDED|95.0|0.3|5.1|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.1|0.3|0.0266
82577759|NCT03635099|164864656|OTHER||Adjusted mean|4.0|STANDARD_ERROR_OF_MEAN|1.2||0.0009|TWO_SIDED|95.0|1.7|6.3|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)|MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||6.3|1.7|0.0009
82539629|NCT04897737|164779073|SUPERIORITY||Risk Ratio (RR)|1.83|||<|0.001|TWO_SIDED|95.0|1.19|2.82|||Mixed Models Analysis|||All analyses were by intention-to-treat. In the case of missing outcomes for participants who did not return for the follow-up visit, we assigned outcome values of the following: poor PrEP adherence (TFV undetected) and partner not tested for HIV. We constructed univariate Poisson regression models with robust standard errors to examine the predictors of outcomes of interests. Model results are presented as crude risk ratios (RRs) and risk differences (RDs) with 95% CIs.||2.82|1.19|<0.001
82539630|NCT04897737|164779074|SUPERIORITY||Risk Ratio (RR)|3.89|||<|0.001|TWO_SIDED|95.0|2.08|7.27|||Regression, Linear|||All analyses were by intention-to-treat. In the case of missing outcomes for participants who did not return for the follow-up visit, we assigned outcome values of the following: poor PrEP adherence (TFV undetected) and partner not tested for HIV. We constructed univariate Poisson regression models with robust standard errors to examine the predictors of outcomes of interests. Model results are presented as crude risk ratios (RRs) and 95% CIs.|RD=49.1% (95% CI=32.8, 65.3), p\<0.001|7.27|2.08|<0.001
82539631|NCT03525119|164779085|NON_INFERIORITY|As per predefined criteria in protocol the non-inferiority was established only between group 1 and group 3. Non-inferiority of HAV+TDV to HAV was established if the upper bound of the 95% CI was less than 10%.|Seroprotection Rate Difference|-1.68|||||TWO_SIDED|95.0|-8.91|4.28||||||||4.28|-8.91|
82539632|NCT04365400|164779152|SUPERIORITY||Hodges Lehmann Median|8.24||||0.1148124|TWO_SIDED|95.0|-2.01|18.19|||Wilcoxon (Mann-Whitney)|||||18.19|-2.01|0.1148124
82539633|NCT04365400|164779152|SUPERIORITY||Hodges Lehmann Median|-0.82||||0.8668467|TWO_SIDED|95.0|-10.16|7.96|||Wilcoxon (Mann-Whitney)|||||7.96|-10.16|0.8668467
82539634|NCT04365400|164779153|SUPERIORITY||Difference in Change in HbA1c (%)|0.02516||||0.8658|TWO_SIDED|95.0|-0.26658|0.316897|||ANCOVA|||||0.316897|-0.26658|0.8658
82539635|NCT04365400|164779153|SUPERIORITY||Difference in Change in HbA1c (%)|-0.07333||||0.65|TWO_SIDED|95.0|-0.39012|0.243455|||ANCOVA|||||0.243455|-0.39012|0.6500
82539636|NCT02371746|164779156|SUPERIORITY||Change from baseline|30.4|STANDARD_DEVIATION|1.84|<|0.001|TWO_SIDED|95.0|-1.8|36.6|||ANCOVA|||estimatCohort 1 all Groups: Non-study eye: TRAVANTAN Z Cohort 1 - Group 1: Study Eye: 28.2 ug travoprost Cohort 1 - Group 2: Study Eye: 42.3 ug travoprost Cohort 1 - Group 3: Study Eye: 42 .5 ug travoprost Cohort 1 - Group 4: Study Eye: 85.0 ug travoprost||36.6|-1.8|<0.001
82539637|NCT02613364|164779157|NON_INFERIORITY|Non-inferiority is established if the difference in mean change on the ISI between YOCAS©® and CBT-I is less than 1.15. Using ANCOVA to estimate differences in mean change between YOCAS©® and CBT-I, a correlation of 0.576 (from our prior study), and a sample of 168 subjects per group, we will have sufficient (80%) power to detect non-inferiority using a margin of 1.15 at p = 0.025.|Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|2.66|4.37||The p-value shown above is from the Least Squares Mean between YOCAS - CBT-I from the Mixed Model.|Mixed Models Analysis||The comparison is YOCAS - CBT-I|Constructed a 95% confidence interval on the mean change of ISI from baseline between the arms (YOCAS - CBT-I). If the lower bound of the interval is less than 1.5 then we conclude that YOCAS is non-inferior.||4.37|2.66|<.0001
82539638|NCT02613364|164779158|SUPERIORITY|Using ANCOVA to estimate differences in mean change between YOCAS and health education, a correlation of 0.576 (from our prior study), and a sample size of 168 evaluable subjects per group, we will have sufficient power to detect differences on the ISI of at least 1.3, 1.5 and 1.6 (all larger than our 1.15 non-inferiority margin) at 80%, 90%, and 95% power, respectively|Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.42||0.0009|TWO_SIDED|95.0|-2.23|-0.58||the comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.58|-2.23|0.0009
82539639|NCT02613364|164779159|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.26||0.07|TWO_SIDED|95.0|-0.98|0.04||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||0.04|-0.98|0.0700
82577760|NCT03635099|164864656|OTHER||Adjusted mean|3.1|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|0.4|5.8|||||MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.8|0.4|
82577761|NCT03635099|164864656|OTHER||Adjusted mean|3.1|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|0.4|5.8|||||MMRM model included treatment, visit and treatment by visit as fixed effects, baseline PSS score and baseline PSS by visit as covariates, patient as a random effect, and an unstructured covariance structure for within patient variation.|||5.8|0.4|
82577762|NCT03635099|164864657|OTHER||Risk Difference (RD)|2.5||||0.7144|TWO_SIDED|95.0|-10.1|15.1|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.1|-10.1|0.7144
82577763|NCT03635099|164864657|OTHER||Risk Difference (RD)|2.7||||0.697|TWO_SIDED|95.0|-10.0|15.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.4|-10.0|0.6970
82436279|NCT04283994|164581613|SUPERIORITY||Mean Difference (Final Values)|-0.57||||2.293|TWO_SIDED|95.0|-4.3|3.16||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||3.16|-4.30|2.293
82436280|NCT04283994|164581613|SUPERIORITY||Mean Difference (Final Values)|-0.48||||2.381|TWO_SIDED|95.0|-4.11|3.14||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.14|-4.11|2.381
82436281|NCT04283994|164581613|SUPERIORITY||Mean Difference (Final Values)|-0.09||||2.893|TWO_SIDED|95.0|-3.86|3.69||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||3.69|-3.86|2.893
82436282|NCT04283994|164581614|SUPERIORITY||Risk Difference (RD)|0.0||||2.829|TWO_SIDED|95.0|-0.13|0.12||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.12|-0.13|2.829
82436283|NCT04283994|164581614|SUPERIORITY||Risk Difference (RD)|0.11||||0.188|TWO_SIDED|95.0|-0.01|0.24||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.24|-0.01|0.188
82436284|NCT04283994|164581614|SUPERIORITY||Risk Difference (RD)|-0.12||||0.19|TWO_SIDED|95.0|-0.24|0.01||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.01|-0.24|0.190
82454531|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454532|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.45|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.45
82454533|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82436285|NCT04283994|164581615|SUPERIORITY||Risk Difference (RD)|0.03||||1.994|TWO_SIDED|95.0|-0.09|0.14||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.14|-0.09|1.994
82436286|NCT04283994|164581615|SUPERIORITY||Risk Difference (RD)|0.07||||0.771|TWO_SIDED|95.0|-0.05|0.19||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.19|-0.05|0.771
82454534|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454535|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454536|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
82454537|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82454538|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454539|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454540|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82454541|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
82454542|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.09|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.09
82436287|NCT04283994|164581615|SUPERIORITY||Risk Difference (RD)|-0.04||||1.447|TWO_SIDED|95.0|-0.17|0.08||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|"Complete case analysis. Unsure responses counted as non-events."||0.08|-0.17|1.447
82436288|NCT04283994|164581618|SUPERIORITY||Risk Difference (RD)|-0.012||||1.836|TWO_SIDED|95.0|-0.058|0.034||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.034|-0.058|1.836
82436289|NCT04283994|164581618|SUPERIORITY||Risk Difference (RD)|0.021||||1.25|TWO_SIDED|95.0|-0.03|0.073||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.073|-0.030|1.250
82436290|NCT04283994|164581618|SUPERIORITY||Risk Difference (RD)|-0.033||||0.581|TWO_SIDED|95.0|-0.084|0.017||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.017|-0.084|0.581
82436291|NCT04283994|164581619|SUPERIORITY||Risk Difference (RD)|-0.039||||0.692|TWO_SIDED|95.0|-0.102|0.025||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.025|-0.102|0.692
82436292|NCT04283994|164581619|SUPERIORITY||Risk Difference (RD)|0.038||||0.887|TWO_SIDED|95.0|-0.033|0.109||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.109|-0.033|0.887
82436293|NCT04283994|164581619|SUPERIORITY||Risk Difference (RD)|-0.077||||0.08|TWO_SIDED|95.0|-0.145|-0.009||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Risk difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||-0.009|-0.145|0.080
82436294|NCT04283994|164581620|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.293|TWO_SIDED|95.0|0.9|2.1||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis.|Hazard ratio = bi-directional intervention / usual care. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||2.1|0.9|0.293
82436295|NCT04283994|164581620|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.027|TWO_SIDED|95.0|1.1|2.5||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis|Hazard ratio = clinician-facing intervention / usual care. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||2.5|1.1|0.027
82436296|NCT04283994|164581620|SUPERIORITY||Hazard Ratio (HR)|0.8||||1.009|TWO_SIDED|95.0|0.6|1.2||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Cox|Wald test adjusting for hospital site and dementia diagnosis.|Hazard ratio = bi-directional intervention / clinician-facing intervention. Estimated via cox proportional hazards regression after adjusting for hospital and dementia diagnosis. Exponentiated Wald confidence intervals.|Censoring by death.||1.2|0.6|1.009
82436297|NCT04283994|164581621|SUPERIORITY||Mean Difference (Final Values)|-0.43||||1.366|TWO_SIDED|95.0|-1.55|0.7||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.70|-1.55|1.366
82454543|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82454544|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454545|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454546|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82539640|NCT02613364|164779160|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.23|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|1.7|2.75||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the ISI Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||2.75|1.70|<.0001
82539641|NCT02613364|164779161|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|19.73|STANDARD_ERROR_OF_MEAN|7.03||0.0052|TWO_SIDED|95.0|5.91|33.54||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||33.54|5.91|0.0052
82539642|NCT02613364|164779162|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|15.94|STANDARD_ERROR_OF_MEAN|7.12||0.0258|TWO_SIDED|95.0|1.93|29.94||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis|||||29.94|1.93|0.0258
82539643|NCT02613364|164779163|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.92|TWO_SIDED|95.0|-0.053|0.048||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|||0.048|-0.053|0.92
82539644|NCT02613364|164779164|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.026||0.07|TWO_SIDED|95.0|-0.004|0.098||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to the CBT-I control is a traditional null hypothesis of no difference with a two-sided alpha.||0.098|-0.004|0.07
82539645|NCT02613364|164779165|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|1.11||0.04|TWO_SIDED|95.0|0.09|4.44||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||4.44|0.09|0.04
82539646|NCT02613364|164779166|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|1.12||0.49|TWO_SIDED|95.0|-2.97|1.43||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||1.43|-2.97|0.49
82577764|NCT03635099|164864657|OTHER||Risk Difference (RD)|2.7||||0.697|TWO_SIDED|95.0|-10.0|15.4|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||15.4|-10.0|0.6970
82436298|NCT04283994|164581621|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.978|TWO_SIDED|95.0|-1.73|0.58||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.58|-1.73|0.978
82436299|NCT04283994|164581621|SUPERIORITY||Mean Difference (Final Values)|0.15||||2.39|TWO_SIDED|95.0|-0.99|1.3||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.30|-0.99|2.390
82436300|NCT04283994|164581622|SUPERIORITY||Mean Difference (Final Values)|0.47||||1.125|TWO_SIDED|95.0|-0.57|1.51||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.51|-0.57|1.125
82436301|NCT04283994|164581622|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.258|TWO_SIDED|95.0|-0.13|1.94||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.94|-0.13|0.258
82649212|NCT00185211|165013759|SUPERIORITY_OR_OTHER|||||||0.3832||95.0|||||ANCOVA|Variable used as covariate: FAMS TOI measured at baseline||"The null hypothesis H0: The mean FAMS TOI at month 60, adjusted for baseline FAMS TOI, is identical for both treatment arms was tested against the alternative hypothesis HA: The mean FAMS TOI at month 60, adjusted for baseline FAMS TOI, is not the same in the two treatment arms using a parametric analysis of covariance (ANCOVA)."||||0.3832
82652327|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|0.062||||0.5971|TWO_SIDED|95.0|-0.169|0.293||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.293|-0.169|0.5971
82436302|NCT04283994|164581622|SUPERIORITY||Mean Difference (Final Values)|-0.44||||1.267|TWO_SIDED|95.0|-1.5|0.63||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.63|-1.5|1.267
82436303|NCT04283994|164581623|SUPERIORITY||Mean Difference (Final Values)|0.32||||1.594|TWO_SIDED|95.0|-0.68|1.32||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.32|-0.68|1.594
82436304|NCT04283994|164581623|SUPERIORITY||Mean Difference (Final Values)|0.29||||1.803|TWO_SIDED|95.0|-0.79|1.36||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.36|-0.79|1.803
82436305|NCT04283994|164581623|SUPERIORITY||Mean Difference (Final Values)|0.03||||2.851|TWO_SIDED|95.0|-1.01|1.07||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||1.07|-1.01|2.851
82436306|NCT04283994|164581624|SUPERIORITY||Mean Difference (Final Values)|-0.28||||1.243|TWO_SIDED|95.0|-0.97|0.4||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.40|-0.97|1.243
82436307|NCT04283994|164581624|SUPERIORITY||Mean Difference (Final Values)|-0.33||||1.032|TWO_SIDED|95.0|-1.0|0.35||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.35|-1.00|1.032
82436308|NCT04283994|164581624|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.742|TWO_SIDED|95.0|-0.7|0.78||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.78|-0.70|2.742
82436309|NCT04283994|164581625|SUPERIORITY||Mean Difference (Final Values)|-0.02||||2.658|TWO_SIDED|95.0|-0.26|0.22||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.22|-0.26|2.658
82436310|NCT04283994|164581625|SUPERIORITY||Mean Difference (Final Values)|0.07||||1.523|TWO_SIDED|95.0|-0.14|0.29||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.29|-0.14|1.523
82436311|NCT04283994|164581625|SUPERIORITY||Mean Difference (Final Values)|-0.09||||1.381|TWO_SIDED|95.0|-0.33|0.15||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|||0.15|-0.33|1.381
82436312|NCT04283994|164581626|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.191|TWO_SIDED|95.0|-0.18|0.25||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.25|-0.18|2.191
82454547|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82577765|NCT03635099|164864657|OTHER||Risk Difference (RD)|15.0||||0.125|TWO_SIDED|95.0|-0.6|30.6|||Chi-squared||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|||30.6|-0.6|0.1250
82577766|NCT03635099|164864657|OTHER||Risk Difference (RD)|7.9|||||TWO_SIDED|95.0|-20.3|36.1|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||36.1|-20.3|
82577767|NCT03635099|164864657|OTHER||Risk Difference (RD)|6.2|||||TWO_SIDED|95.0|-21.9|34.3|||||Statistics for the difference were calculated using unadjusted risk differences (BI dose group - Placebo).|The 95% confidence interval for the unadjusted absolute difference in proportion (%) between active group and placebo group was estimated by Chi-square method. As pre-specified, no hypothesis testing was carried out for Part 2 of this trial and no p-values were provided.||34.3|-21.9|
82577768|NCT01465763|164864658|SUPERIORITY_OR_OTHER||Percent Difference|10.3||||0.007|TWO_SIDED|95.0|4.3|16.3|||CMH Chi-square test|||P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test stratified by prior treatment with anti-tumor necrosis factor (TNF), steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using Non-responder imputation (NRI).||16.3|4.3|0.0070
82577769|NCT01465763|164864659|SUPERIORITY_OR_OTHER||Percent Difference|15.7||||0.0005|TWO_SIDED|95.0|8.1|23.4|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||23.4|8.1|0.0005
82577770|NCT01465763|164864660|SUPERIORITY_OR_OTHER||Percent Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.7|36.5|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||36.5|17.7|<0.0001
82577771|NCT01465763|164864661|SUPERIORITY_OR_OTHER||Percent Difference|5.1||||0.0345|TWO_SIDED|95.0|1.9|8.3|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.3|1.9|0.0345
82577772|NCT01465763|164864662|SUPERIORITY_OR_OTHER||Percent Difference|10.3||||0.007|TWO_SIDED|95.0|4.3|16.3|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||16.3|4.3|0.0070
82577773|NCT01465763|164864663|SUPERIORITY_OR_OTHER||Percent Difference|6.0||||0.0601|TWO_SIDED|95.0|1.0|11.1|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||11.1|1.0|0.0601
82577774|NCT01465763|164864664|SUPERIORITY_OR_OTHER||Percent Difference|6.5||||0.0043|TWO_SIDED|95.0|4.3|8.7|||CMH Chi-square test|||P-value based on CMH chi-square test stratified by prior treatment with anti-TNF, steroid use at baseline and geographic region. Difference and its 95% CI based on normal approximation for the difference in binomial proportions. Missing data were imputed using NRI.||8.7|4.3|0.0043
82577775|NCT01465763|164864666|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.3|-0.5|||Mixed-Effects Model|||At Week 2: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-0.5|-1.3|<0.0001
82454548|NCT01128426|164614033|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82577776|NCT01465763|164864666|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.5|-0.7|||Mixed-Effects Model|||At Week 4: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-0.7|-1.5|<0.0001
82577777|NCT01465763|164864666|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.9|-1.1|||Mixed-Effects Model|||At Week 8: The change from baseline was analyzed using mixed effect model with treatment group, prior treatment with antiTNF, steroid use at baseline, geographic region, visit and visit by treatment group all as fixed effects, and participants as a random effect.||-1.1|-1.9|<0.0001
82577778|NCT01465763|164864667|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.5|-1.4|||ANCOVA|||The change from Baseline at Week 8 was analyzed using an analysis of covariance (ANCOVA) model with treatment group, prior treatment with anti-TNF, steroid use at baseline and geographic region as factors and baseline as a covariate based on the observed-case data.||-1.4|-2.5|<0.0001
82577779|NCT01038427|164864686|EQUIVALENCE|If the 90% confidence intervals were contained within the interval 80.0% to 125.0%, then the two products were considered to be therapeutically equivalent.|Ratio Test/Ref. Least Squares (LS) Means|106.644|||||TWO_SIDED|90.0|91.86|123.997||||||||123.997|91.860|
82577780|NCT01038427|164864687|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82577781|NCT01038427|164864687|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
82577782|NCT01038427|164864688|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|109.716|||||TWO_SIDED|90.0|93.316|129.159||||||||129.159|93.316|
82577783|NCT01038427|164864689|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82577784|NCT01038427|164864689|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82577785|NCT01038427|164864690|SUPERIORITY|||||||0.2655|||||||Cochran-Mantel-Haenszel|||||||0.2655
82539647|NCT02613364|164779167|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.43|TWO_SIDED|95.0|-0.13|0.05||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||0.05|-0.13|0.43
82577786|NCT01038427|164864690|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||||||0.0009
82577787|NCT01038427|164864690|SUPERIORITY|||||||0.1093|||||||Cochran-Mantel-Haenszel|||||||0.1093
82577788|NCT01038427|164864691|SUPERIORITY|||||||0.9915|||||||Cochran-Mantel-Haenszel|||||||0.9915
82436313|NCT04283994|164581626|SUPERIORITY||Mean Difference (Final Values)|0.04||||2.138|TWO_SIDED|95.0|-0.19|0.27||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = clinician-facing intervention - usual care. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||0.27|-0.19|2.138
82436314|NCT04283994|164581626|SUPERIORITY||Mean Difference (Final Values)|-0.01||||2.879|TWO_SIDED|95.0|-0.23|22.0||P-value is after a Bonferroni adjustment for three comparisons. The threshold for statistical significance was 0.05.|Regression, Linear|Wald test with robust standard errors, adjusting for hospital site and dementia diagnosis.|Mean difference = bi-directional intervention - clinician-facing intervention. Estimated via linear regression after adjusting for hospital and dementia diagnosis. Confidence intervals using robust standard errors.|Complete case analysis.||022|-0.23|2.879
82577789|NCT01038427|164864691|SUPERIORITY|||||||0.0312|||||||Cochran-Mantel-Haenszel|||||||0.0312
82652328|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.045||||0.7024|TWO_SIDED|95.0|-0.279|0.188||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.188|-0.279|0.7024
82436315|NCT03724981|164581679|SUPERIORITY||||||<|0.0001|||||||Prescott test|||||||<0.0001
82436316|NCT03724981|164581680|SUPERIORITY||||||<|0.0001|||||||Prescott test|||||||<0.0001
82436317|NCT02370537|164581711|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of least-square means (LSmeans) for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% Confidence Intervals (CIs) by degree of pancreatic exocrine function using level of FEC were exponentiated.|Geometric least-squares (GLS) Mean Ratio|0.75|||||TWO_SIDED|90.0|0.52|1.1|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.10|0.52|
82436318|NCT02370537|164581711|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean ratio|0.48|||||TWO_SIDED|90.0|0.32|0.72|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.72|0.32|
82436319|NCT02370537|164581711|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.6|||||TWO_SIDED|90.0|0.44|0.82|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.82|0.44|
82436320|NCT02370537|164581712|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.28|||||TWO_SIDED|90.0|0.84|1.93|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.93|0.84|
82436321|NCT02370537|164581712|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.8|||||TWO_SIDED|90.0|0.51|1.25|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.25|0.51|
82436322|NCT02370537|164581712|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.29|||||TWO_SIDED|90.0|0.92|1.82|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.82|0.92|
82649213|NCT00185211|165013760|SUPERIORITY_OR_OTHER|||||||6e-06||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|Log Rank|||"The null hypothesis for comparison of initial IFNB-1b versus initial placebo treatment was:~H0: The survival functions (i.e., the probability that time to McDonald MS is ≥ t) are identical for both treatment arms for all points in time t\>0.~The two-sided alternative hypothesis was:~H1: The survival functions (i.e., the probability that time to McDonald MS is ≥ t) are not identical for both treatment arms for some points in time t\>0."||||0.000006
82652329|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.115||||0.3173|TWO_SIDED|95.0|-0.342|0.111||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.111|-0.342|0.3173
82436323|NCT02370537|164581713|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.9|||||TWO_SIDED|90.0|0.63|1.28|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.28|0.63|
82436324|NCT02370537|164581713|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.58|||||TWO_SIDED|90.0|0.39|0.85|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.85|0.39|
82436325|NCT02370537|164581713|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.75|||||TWO_SIDED|90.0|0.55|1.0|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.00|0.55|
82436326|NCT02370537|164581714|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.52|||||TWO_SIDED|90.0|0.37|0.73|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.73|0.37|
82436327|NCT02370537|164581714|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.46|||||TWO_SIDED|90.0|0.32|0.67|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.67|0.32|
82436328|NCT02370537|164581714|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.53|||||TWO_SIDED|90.0|0.4|0.7|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.70|0.40|
82436329|NCT02370537|164581715|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of least-squares LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.02|||||TWO_SIDED|90.0|0.77|1.36|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.36|0.77|
82436330|NCT02370537|164581715|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS mean Ratio|0.92|||||TWO_SIDED|90.0|0.67|1.25|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.25|0.67|
82454549|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
82454550|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454551|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454552|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454553|NCT01128426|164614033|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454554|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
82454555|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454556|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454557|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454558|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.86|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.86
82454559|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454560|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454561|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
82454562|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454563|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82652330|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.151||||0.1906|TWO_SIDED|95.0|-0.378|0.076||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.076|-0.378|0.1906
82454564|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
82454565|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82454566|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82454567|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
82454568|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454569|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
82454570|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
82454571|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
82454572|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||1|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||1.00
82454573|NCT01128426|164614034|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454574|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
82454575|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
82454576|NCT01128426|164614034|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454577|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
82454578|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454579|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454580|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82539648|NCT02613364|164779168|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.7|TWO_SIDED|95.0|-0.07|0.11||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||0.11|-0.07|0.70
82539649|NCT02613364|164779169|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.55||0.0041|TWO_SIDED|95.0|-2.65|-0.5||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.50|-2.65|0.0041
82539650|NCT02613364|164779170|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.71|STANDARD_ERROR_OF_MEAN|0.56|<|0.0001|TWO_SIDED|95.0|1.61|3.81||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||3.81|1.61|<.0001
82539651|NCT02613364|164779171|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.62||0.0108|TWO_SIDED|95.0|-2.78|-0.36||The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - Health Education) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - Health Education) generated from the Mixed Model.|The comparison of YOCAS to the health education control is a traditional null hypothesis of no difference with a two-sided alpha.||-0.36|-2.78|0.0108
82539652|NCT02613364|164779172|EQUIVALENCE|The null hypothesis is that the mean change in the outcome measure between the two arms is zero.|Mean Difference (Final Values)|2.78|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|1.54|4.02||The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha. The p-value shown is from the Least Squares Mean (YOCAS - CBT-I) generated from the Mixed Model.|Mixed Models Analysis||The comparison is from the Least Squares Mean difference (YOCAS - CBT-I) generated from the Mixed Model.|The comparison of YOCAS to CBT-I is a traditional null hypothesis of no difference with a two-sided alpha.||4.02|1.54|<.0001
82539653|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-4.52|3.17||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 1.||3.17|-4.52|
82577790|NCT01038427|164864691|SUPERIORITY|||||||0.0487|||||||Cochran-Mantel-Haenszel|||||||0.0487
82577791|NCT03995316|164864703|SUPERIORITY||Slope|-0.76|STANDARD_ERROR_OF_MEAN|0.25||0.003|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.003
82577792|NCT03995316|164864704|SUPERIORITY||Slope|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.283|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.283
82577793|NCT03995316|164864705|SUPERIORITY||Slope|-0.51|STANDARD_ERROR_OF_MEAN|0.22||0.019|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.019
82577794|NCT03995316|164864706|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.44||0.44|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.440
82577795|NCT03995316|164864707|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.055|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.055
82577796|NCT03995316|164864708|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.04||0.041|TWO_SIDED||||||t-test, 2 sided||The slope value reflects the mean difference between conditions in the linear slope from the pretest to posttest assessment.|||||.041
82577797|NCT03197766|164864750|SUPERIORITY||||||<|0.0001||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analysis for the primary endpoint.|ANCOVA|Two subjects in the BMN 111 group discontinued from the study before Week 52. The values for these 2 subjects were imputed for this analysis.||||||< 0.0001
82652331|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.183||||0.1177|TWO_SIDED|95.0|-0.412|0.046||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.046|-0.412|0.1177
82577798|NCT03197766|164864751|SUPERIORITY||||||<|0.0001||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analyses for the two key secondary endpoints.|ANCOVA|Missing assessments at Week 52 were imputed||||||< 0.0001
82577799|NCT03197766|164864752|SUPERIORITY||||||=|0.506||||||Confirmatory statistical testing controlling for the Type I error rate was performed on the primary analyses for the two key secondary endpoints.|ANCOVA|Missing assessments at Week 52 were imputed||||||= 0.506
82652332|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.05||||0.6936|TWO_SIDED|95.0|-0.297|0.198||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.198|-0.297|0.6936
82652333|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.096||||0.4466|TWO_SIDED|95.0|-0.343|0.152||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.152|-0.343|0.4466
82454581|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454582|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82454583|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82539654|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: the upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.06|||||TWO_SIDED|98.25|-3.94|4.38||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococcal serotype 4.||4.38|-3.94|
82539655|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.64|||||TWO_SIDED|98.25|-4.63|3.19||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 5.||3.19|-4.63|
82539656|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.69|||||TWO_SIDED|98.25|-9.4|10.99||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 6B.||10.99|-9.4|
82539657|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.65|||||TWO_SIDED|98.25|-2.7|4.71||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 7F.||4.71|-2.7|
82539658|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.58|||||TWO_SIDED|98.25|-5.05|3.82||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 9V.||3.82|-5.05|
82539659|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.65|||||TWO_SIDED|98.25|-4.68|3.15||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 14.||3.15|-4.68|
82539660|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.58|||||TWO_SIDED|98.25|-5.04|3.85||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 18C.||3.85|-5.04|
82577800|NCT01460225|164864756|EQUIVALENCE|Based on the results of Camilleri et al, this should be adequate to detect up to a 30% difference in gastric emptying scan times with a p-value of 0.05 and 80% power.||||||0.003|||||||t-test, 2 sided|||Comparison of meal retention between pre-treatment and post treatment at 2 hours post meal||||0.003
82652334|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.155||||0.2225|TWO_SIDED|95.0|-0.405|0.095||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.095|-0.405|0.2225
82454584|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454585|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82454586|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82436331|NCT02370537|164581715|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|1.11|||||TWO_SIDED|90.0|0.88|1.4|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||1.40|0.88|
82436332|NCT02370537|164581716|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean|0.68|||||TWO_SIDED|90.0|0.49|0.92|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.92|0.49|
82539661|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.63|||||TWO_SIDED|98.25|-4.6|3.14||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 19F.||3.14|-4.6|
82454587|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454588|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82539662|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.08||||||98.25|-7.66|8.1||||||At one month after primary immunization, the difference between groups (NIBU minus IIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 23F.||8.1|-7.66|
82539663|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-4.52|2.91||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 1.||2.91|-4.52|
82539664|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.63|||||TWO_SIDED|98.25|-4.57|2.91||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 4.||2.91|-4.57|
82539665|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.64|||||TWO_SIDED|98.25|-4.63|2.92||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 5.||2.92|-4.63|
82539666|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-2.38|||||TWO_SIDED|98.25|-12.02|7.22||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 6B.||7.22|-12.02|
82539667|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.0|||||TWO_SIDED|98.25|-3.34|3.48||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 7F.||3.48|-3.34|
82577801|NCT01460225|164864756|EQUIVALENCE|Based on the results of Camilleri et al, this should be adequate to detect up to a 30% difference in gastric emptying scan times with a p-value of 0.05 and 80% power.||||||0.122|||||||t-test, 2 sided|||Comparison of meal retention between pre-treatment and post treatment at 4 hours post meal||||0.122
82539668|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-1.27|||||TWO_SIDED|98.25|-5.66|2.32||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 9V.||2.32|-5.66|
82539669|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.0|||||TWO_SIDED|98.25|-4.08|4.12||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 14.||4.12|-4.08|
82539670|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|-0.62|||||TWO_SIDED|98.25|-5.08|3.54||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 18C.||3.54|-5.08|
82539671|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|0.67|||||TWO_SIDED|98.25|-3.4|5.2||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 19F.||5.2|-3.4|
82539672|NCT01235949|164779176|NON_INFERIORITY|Criterion for evaluation of non-inferiority: The upper limit (UL) of the 2-sided 98.25% confidence interval (98.25% CI) (adjusted 1-sided alpha = 0.875%) of the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL, was lower than (\<) 10% for at least 7 out of the 10 pneumococcal serotypes.|Difference in percentages|2.73|||||TWO_SIDED|98.25|-5.3|11.04||||||At one month after primary immunization, the difference between groups (NIBU minus DIBU), in terms of percentage of subjects with pneumococcal antibody concentrations ≥ 0.2 µg/mL were calculated for anti-pneumococccal serotype 23F.||11.04|-5.3|
82539673|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.96|||||TWO_SIDED|99.8|0.71|1.29||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 1.||1.29|0.71|
82539674|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.77|1.35||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 4.||1.35|0.77|
82539675|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.06|||||TWO_SIDED|99.8|0.8|1.41||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 5.||1.41|0.8|
82539676|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.12|||||TWO_SIDED|99.8|0.72|1.74||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 6B.||1.74|0.72|
82454589|NCT01128426|164614034|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82539677|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.04|||||TWO_SIDED|99.8|0.79|1.35||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 7F.||1.35|0.79|
82539678|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.96|||||TWO_SIDED|99.8|0.7|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 9V.||1.31|0.7|
82652335|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.052||||0.6764|TWO_SIDED|95.0|-0.297|0.193||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.193|-0.297|0.6764
82454590|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454591|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82652336|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.061||||0.6243|TWO_SIDED|95.0|-0.306|0.184||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.184|-0.306|0.6243
82454592|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454593|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454594|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454595|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454596|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.65|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.65
82454597|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454598|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
82454599|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82454600|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82454601|NCT01128426|164614034|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82539679|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.0|||||TWO_SIDED|99.8|0.71|1.4||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 14.||1.4|0.71|
82454602|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
82454603|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454604|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454605|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454606|NCT01128426|164614034|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454607|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454608|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82454609|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454610|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82539680|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.89|||||TWO_SIDED|99.8|0.6|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 18C.||1.31|0.6|
82454611|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454612|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454613|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454614|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
82454615|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82436333|NCT02370537|164581716|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.6|||||TWO_SIDED|90.0|0.42|0.84|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.84|0.42|
82436334|NCT02370537|164581716|NON_INFERIORITY_OR_EQUIVALENCE|The exposure of a single dose of EPANOVA® 4 g (reference) relative to OMACOR® 4 g (test) was estimated by degree of pancreatic exocrine function using level of FEC. Natural log estimates of LSmeans for each treatment and differences of the LSmeans (OMACOR®-EPANOVA®) along with 90% CIs by degree of pancreatic exocrine function using level of FEC were exponentiated.|GLS Mean Ratio|0.7|||||TWO_SIDED|90.0|0.54|0.9|||||OMACOR®/EPANOVA®|Back transformed results are based on the analysis of natural log-transformed data with a Linear Mixed Model containing the terms of FEC classification, treatment, FEC x treatment, sequence, and period as fixed effects and patient nested within sequence as random effect.||0.90|0.54|
82577802|NCT04201262|164864787|OTHER||Hazard Ratio (HR)|0.014|||<|0.0001|TWO_SIDED|95.0|0.0|0.103|||Log Rank||HR based on a Cox proportional hazards model, with Firth's adjustment. Confidence interval (CI)= Wald CI or Profile Likelihood CI Limits. HR for ravulizumab compared with placebo presented a 98.6% reduction in risk of relapse, 95% CI (89.7%, 100.0%).|||0.103|0.000|< 0.0001
82652337|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.156||||0.2151|TWO_SIDED|95.0|-0.403|0.091||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.091|-0.403|0.2151
82436335|NCT02589665|164581754|SUPERIORITY||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|0.7|12.27||||||||12.27|0.70|
82436336|NCT02589665|164581754|SUPERIORITY||Odds Ratio (OR)|7.22|||||TWO_SIDED|95.0|1.88|27.65||||||||27.65|1.88|
82436337|NCT02589665|164581754|SUPERIORITY||Odds Ratio (OR)|3.61|||||TWO_SIDED|95.0|0.92|14.17||||||||14.17|0.92|
82436338|NCT02589665|164581755|SUPERIORITY||Odds Ratio (OR)|3.95|||||TWO_SIDED|95.0|1.73|8.98||||||||8.98|1.73|
82436339|NCT02589665|164581755|SUPERIORITY||Odds Ratio (OR)|6.78|||||TWO_SIDED|95.0|2.94|15.63||||||||15.63|2.94|
82436340|NCT02589665|164581755|SUPERIORITY||Odds Ratio (OR)|2.78|||||TWO_SIDED|95.0|1.23|6.29||||||||6.29|1.23|
82436341|NCT02589665|164581756|SUPERIORITY|||||||0.986|||||||Mantel Haenszel|||||||0.986
82436342|NCT02589665|164581756|SUPERIORITY|||||||0.553|||||||Mantel Haenszel|||||||0.553
82436343|NCT02589665|164581756|SUPERIORITY|||||||0.56|||||||Mantel Haenszel|||||||0.560
82436344|NCT02589665|164581757|SUPERIORITY||Odds Ratio (OR)|2.29|||||TWO_SIDED|95.0|0.8|6.55||||||||6.55|0.80|
82436345|NCT02589665|164581758|SUPERIORITY||Mean Difference (Final Values)|22.9|||||TWO_SIDED|95.0|11.0|34.9||||||||34.9|11.0|
82436346|NCT02589665|164581758|SUPERIORITY||Mean Difference (Final Values)|20.5|||||TWO_SIDED|95.0|8.7|32.3||||||||32.3|8.7|
82436347|NCT02589665|164581758|SUPERIORITY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-1.0|22.5||||||||22.5|-1.0|
82454616|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82436348|NCT02589665|164581760|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.39|-0.41||||||||-0.41|-1.39|
82436349|NCT02589665|164581760|SUPERIORITY||Mean Difference (Final Values)|-1.06|||||TWO_SIDED|95.0|-1.54|-0.59||||||||-0.59|-1.54|
82436350|NCT02589665|164581760|SUPERIORITY||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-1.07|-0.11||||||||-0.11|-1.07|
82436351|NCT02589665|164581763|SUPERIORITY||Odds Ratio (OR)|3.61||||0.003|TWO_SIDED|95.0|1.57|8.31|||Regression, Logistic|||||8.31|1.57|0.003
82436352|NCT02589665|164581763|SUPERIORITY||Odds Ratio (OR)|6.54|||<|0.001|TWO_SIDED|95.0|2.81|15.2|||Regression, Logistic|||||15.20|2.81|<0.001
82436353|NCT02589665|164581763|SUPERIORITY||Odds Ratio (OR)|2.27||||0.054|TWO_SIDED|95.0|0.98|5.22|||Regression, Logistic|||||5.22|0.98|0.054
82436354|NCT02589665|164581764|SUPERIORITY||Odds Ratio (OR)|0.48||||0.131|TWO_SIDED|95.0|0.19|1.24|||Regression, Logistic|||||1.24|0.19|0.131
82436355|NCT02589665|164581765|SUPERIORITY||Odds Ratio (OR)|2.25||||0.215|TWO_SIDED|95.0|0.63|8.07|||Regression, Logistic|||||8.07|0.63|0.215
82436356|NCT02589665|164581765|SUPERIORITY||Odds Ratio (OR)|7.7|||<|0.001|TWO_SIDED|95.0|2.37|25.0|||Regression, Logistic|||||25.00|2.37|<0.001
82436357|NCT02589665|164581765|SUPERIORITY||Odds Ratio (OR)|4.62||||0.012|TWO_SIDED|95.0|1.41|15.14|||Regression, Logistic|||||15.14|1.41|0.012
82436358|NCT02589665|164581766|SUPERIORITY||Odds Ratio (OR)|0.71||||0.428|TWO_SIDED|95.0|0.31|1.65|||Regression, Logistic|||||1.65|0.31|0.428
82436359|NCT01120236|164581767|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.24||||0.16|TWO_SIDED||||||Fisher Exact||Arm I (Androgen Deprivation and Cixutumumab) represents the numerator and Arm II (Androgen Deprivation Therapy) represents the denominator for relative risk.|An intention-to-treat approach was used in analysis of the primary endpoint. A 45% undetectable PSA \<= 0.2 ng/mL rate at 28 weeks was assumed for (control) arm II , based on data from SWOG 9346. Using a one-sided type I error rate of 0.10, we had 90% statistical power to detect an absolute difference of 20% in the undetectable PSA rate with the addition of cixutumumab using Fisher's exact test.||||0.16
82454617|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454618|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82577803|NCT04201262|164864789|OTHER|||||||0.0122||||||Proportional Odds p-value|Univariate models|||The test of proportional odds was determined from a score test. The proportional odds was evaluated in univariate models.||||0.0122
82577804|NCT02819024|164864802|OTHER|||||||0.087|||||||t-test, 2 sided|||||||0.087
82652338|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.096||||0.4611|TWO_SIDED|95.0|-0.351|0.16||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.160|-0.351|0.4611
82539681|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.23|||||TWO_SIDED|99.8|0.87|1.75||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 19F.||1.75|0.87|
82539682|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.97|||||TWO_SIDED|99.8|0.66|1.44||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-pneumococcal serotype 23F.||1.44|0.66|
82539683|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.9|||||TWO_SIDED|99.8|0.67|1.21||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 1.||1.21|0.67|
82539684|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.0|||||TWO_SIDED|99.8|0.76|1.32||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 4.||1.32|0.76|
82539685|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.86|||||TWO_SIDED|99.8|0.66|1.14||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 5.||1.14|0.66|
82539686|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.28|||||TWO_SIDED|99.8|0.83|1.97||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 6B.||1.97|0.83|
82539687|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.8|1.31||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 7F.||1.31|0.8|
82539688|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.92|||||TWO_SIDED|99.8|0.69|1.22||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 9V.||1.22|0.69|
82539689|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.95|||||TWO_SIDED|99.8|0.68|1.32||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 14.||1.32|0.68|
82539690|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.88|||||TWO_SIDED|99.8|0.6|1.27||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 18C.||1.27|0.6|
82577805|NCT05576662|164864807|OTHER||Pooled treatment coefficient|0.026||||0.903|TWO_SIDED|||||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Nonparametric permutation test||Weighted average of treatment coefficients. A pooled treatment coefficient \< 0 favors nirmatrelvir plus ritonavir; a pooled treatment coefficient \> 0 favors placebo plus ritonavir.|A proportional odds logistic regression model was fit for severity of each core symptom at week 10, adjusting for baseline severity of the corresponding symptom and fit using only those who experienced the symptom at baseline. A test statistic for overall efficacy was calculated as the weighted average of the treatment coefficient in the proportional odds model for each symptom with inverse variance weighting. The p-value was obtained by a nonparametric permutation test.||||0.903
82649214|NCT00185211|165013760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.583|||<|1e-06||95.0|0.474|0.718|||Regression, Cox|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b versus initial placebo, i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Time to McDonald MS was modelled by a Cox proportional hazards regression model with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (categories: 2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for McDonald MS, i.e. hazard ratio = 1.||0.718|0.474|< 0.000001
82652339|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.139||||0.2849|TWO_SIDED|95.0|-0.394|0.116||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.116|-0.394|0.2849
82454619|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82436360|NCT01120236|164581769|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82||||0.11|TWO_SIDED||||||Fisher Exact||Arm I (Androgen Deprivation and Cixutumumab) represents the numerator and Arm II (Androgen Deprivation Therapy) represents the denominator for relative risk.|Proportion of patients in each arm with PSA \> 4 ng/mL after seven cycles of protocol treatment were compared.||||0.11
82436361|NCT01159171|164581796|SUPERIORITY_OR_OTHER|||||||0.0047||0.0||||One-sided p-value|One sample exact binomial test|||||||0.0047
82436362|NCT00420004|164581831|SUPERIORITY_OR_OTHER|||||||0.494|||||||Mixed Models Analysis|||||||0.494
82436363|NCT03215758|164581866|SUPERIORITY||Mean Difference (Net)|0.0238||||0.088|TWO_SIDED|95.0|-0.006|0.088|||ANCOVA|||||0.088|-0.006|0.088
82436364|NCT03215758|164581867|SUPERIORITY||Mean Difference (Net)|-0.06||||0.278|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||||0.05|-0.16|0.278
82436365|NCT03215758|164581868|SUPERIORITY||Mean Difference (Net)|-0.08||||0.429|TWO_SIDED|95.0|-0.3|0.13|||ANCOVA|||||0.13|-0.30|0.429
82436366|NCT03215758|164581869|SUPERIORITY||Mean Difference (Net)|0.069||||0.777|TWO_SIDED|95.0|-0.12|0.15|||ANCOVA|||||0.15|-0.12|0.777
82436367|NCT02357472|164581877|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample Size to Achieve 0.80 Power to Test Equivalency at the α = 0.05 Significance Level for True Proportions|Mean Difference (Final Values)|1.31|STANDARD_ERROR_OF_MEAN|1.31||0.0003|TWO_SIDED|95.0|0.6216|2.002|||t-test, 2 sided|||It was caculated that 60 paticipants randomized in a 1:1between 2 arms would would have at least 85% power to detect a difference of 1.32 oocytes between the high dose group and standard dose group after 12 weeks.Sample size was determined using 2 sided 2 sample t-test (α = 0.05).Assumptions included a common standard deviation of 1.72.||2.002|0.6216|0.0003
82436368|NCT01106651|164581910|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.708|-0.436|||ANCOVA|||||-0.436|-0.708|<0.001
82436369|NCT01106651|164581910|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.841|-0.566|||ANCOVA|||||-0.566|-0.841|<0.001
82436370|NCT01106651|164581911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96|||<|0.001||95.0|1.93|4.56|||Regression, Logistic|||||4.56|1.93|<0.001
82436371|NCT01106651|164581911|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48|||<|0.001||95.0|2.89|6.95|||Regression, Logistic|||||6.95|2.89|<0.001
82436372|NCT01106651|164581912|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-25.5|STANDARD_ERROR_OF_MEAN|3.147|<|0.001|TWO_SIDED|95.0|-31.68|-19.32|||ANCOVA|||||-19.32|-31.68|<0.001
82652340|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.228||||0.0833|TWO_SIDED|95.0|-0.485|0.03||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.030|-0.485|0.0833
82436373|NCT01106651|164581912|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-27.7|STANDARD_ERROR_OF_MEAN|3.179|<|0.001|TWO_SIDED|95.0|-33.97|-21.49|||ANCOVA|||||-21.49|-33.97|<0.001
82436374|NCT01106651|164581913|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.8|-1.7|||ANCOVA|||||-1.7|-2.8|<0.001
82436375|NCT01106651|164581913|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.5|-2.4|||ANCOVA|||||-2.4|-3.5|<0.001
82436376|NCT01106651|164581914|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.379|<|0.001|TWO_SIDED|95.0|-2.339|-0.842|||ANCOVA|||||-0.842|-2.339|<0.001
82436377|NCT01106651|164581914|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.371|<|0.001|TWO_SIDED|95.0|-2.833|-1.368|||ANCOVA|||||-1.368|-2.833|<0.001
82436378|NCT01106651|164581915|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.305|<|0.001|TWO_SIDED|95.0|-1.633|-0.428|||ANCOVA|||Region percent total fat||-0.428|-1.633|<0.001
82436379|NCT01106651|164581915|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.772|-0.587|||ANCOVA|||Region percent total fat||-0.587|-1.772|<0.001
82436380|NCT01106651|164581916|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.316||0.001|TWO_SIDED|95.0|-1.677|-0.43|||ANCOVA|||||-0.430|-1.677|0.001
82436381|NCT01106651|164581916|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.311|<|0.001|TWO_SIDED|95.0|-1.812|-0.584|||ANCOVA|||||-0.584|-1.812|<0.001
82436382|NCT01106651|164581917|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.63|STANDARD_ERROR_OF_MEAN|1.134|<|0.001|TWO_SIDED|95.0|-6.854|-2.401|||ANCOVA|||||-2.401|-6.854|<0.001
82436383|NCT01106651|164581917|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-7.89|STANDARD_ERROR_OF_MEAN|1.147|<|0.001|TWO_SIDED|95.0|-10.14|-5.641|||ANCOVA|||||-5.641|-10.14|<0.001
82436384|NCT01106651|164581918|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|3.7||0.194|TWO_SIDED|95.0|-12.1|2.5|||ANCOVA|||||2.5|-12.1|0.194
82436385|NCT01106651|164581918|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|3.7||0.846|TWO_SIDED|95.0|-6.6|8.1|||ANCOVA|||||8.1|-6.6|0.846
82436386|NCT01106651|164581919|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.6|7.9|||ANCOVA|||||7.9|2.6|<0.001
82436387|NCT01106651|164581919|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001|TWO_SIDED|95.0|2.0|7.4|||ANCOVA|||||7.4|2.0|<0.001
82436388|NCT01106651|164581920|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.4|0.8|||ANCOVA|||||0.8|-0.4|
82436389|NCT01106651|164581920|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.9|0.3|||ANCOVA|||||0.3|-0.9|
82436390|NCT01106651|164581921|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.9|0.4|||ANCOVA|||||0.4|-0.9|
82436391|NCT01106651|164581921|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-1.0|0.3|||ANCOVA|||||0.3|-1.0|
82436392|NCT01106651|164581922|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.3|1.0|||ANCOVA|||||1.0|-0.3|
82436393|NCT01106651|164581922|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.3|||TWO_SIDED|95.0|-0.3|1.1|||ANCOVA|||||1.1|-0.3|
82436394|NCT01106651|164581923|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||||-0.0|-0.8|
82436395|NCT01106651|164581923|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||||-0.1|-0.9|
82454620|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454621|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454622|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.8|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.80
82454623|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454624|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82454625|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
82454626|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
82454627|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.91|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.91
82454628|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454629|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454630|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454631|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82649215|NCT00185211|165013761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.1265||95.0|0.595|1.066||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|Andersen-Gill Model|Covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Hazard Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|The time to recurrent relapses was modelled by an extension of Cox's PH regression model (Andersen-Gill Model) for recurrent events with the following covariates: treatment group, steroid use during first event (yes vs. no), onset of disease (monofocal vs. multifocal) and number of T2 lesions at screening (2-4, 5-8 and at least 9 T2 lesions). The null hypothesis was: Initial IFNB-1b and initial placebo do not differ with regard to the hazard for recurrent relapses, i.e. hazard ratio = 1.||1.066|0.595|0.1265
82454632|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454633|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454634|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
82454635|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454636|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454637|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82454638|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454639|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454640|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454641|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
82454642|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454643|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454644|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454645|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454646|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82436396|NCT04590404|164581954|SUPERIORITY||Odds Ratio (OR)|1.18||||0.461|TWO_SIDED|95.0|0.76|1.82|||Regression, Logistic|Adjusted for arm, randomization strata (cigarettes/day (CPD), insurance category, cardiac admission, NMR category), \& plan to quit after discharge||The primary outcome was biochemically-verified self-reported 7-day point prevalence abstinence (7dPPA) at 6 months. We modeled outcomes using logistic regression adjusted for randomization stratification factors and plan to quit (stay quit vs. try).||1.82|0.76|0.461
82436397|NCT03709277|164581964|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82436398|NCT03709277|164581965|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82436399|NCT03709277|164581967|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82436400|NCT03703817|164581987|SUPERIORITY|Effectiveness: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.3648|||||||Linear mixed model|||||||0.3648
82436401|NCT03703817|164581987|SUPERIORITY|Side effect: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1395|||||||Conditional logistic regression|||||||0.1395
82436402|NCT03703817|164581987|SUPERIORITY|Convenience: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.0349|||||||Linear mixed model|||||||0.0349
82436403|NCT03703817|164581987|SUPERIORITY|Global satisfaction: Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1546|||||||Linear mixed model|||||||0.1546
82454647|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82539691|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|1.02|||||TWO_SIDED|99.8|0.72|1.44||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 19F.||1.44|0.72|
82436404|NCT03703817|164581988|SUPERIORITY|Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.1602|||||||Conditional logistic regression model|||||||0.1602
82436405|NCT03703817|164581989|SUPERIORITY|Multivariate analysis was used to control and remove the possible influence of the independent variables (demographic and clinical characteristics).||||||0.9921|||||||Linear mixed model|||||||0.9921
82436406|NCT02241733|164582036|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||An independent t-test was completed.||||0.94
82436407|NCT02241733|164582037|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||||||0.078
82436408|NCT02241733|164582038|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
82539692|NCT01235949|164779177|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for at least one of the 10 vaccine pneumococcal serotypes.|GMC ratio|0.86|||||TWO_SIDED|99.8|0.58|1.27||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-pneumococcal serotype 23F.||1.27|0.58|
82436409|NCT02241733|164582039|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
82436410|NCT01866111|164582040|SUPERIORITY||||||<|0.001|||||||ANCOVA|||A step down procedure was used for the primary efficacy analyses to ensure the type one error rate for multiple comparisons was controlled at the 5% level using the following hierarchy: 200 mg vs placebo, 400 mg vs placebo, 100 mg vs placebo, in which a statistically significant difference had to be detected in this order for each subsequent comparison to occur.||||<0.001
82436411|NCT01866111|164582040|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82454648|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.8|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.80
82436412|NCT01866111|164582040|SUPERIORITY|||||||0.007|||||||ANCOVA|||||||0.007
82436413|NCT01866111|164582041|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82436414|NCT01866111|164582041|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82436415|NCT01866111|164582041|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
82436416|NCT01221623|164582096|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED||||||ANOVA|||||||.0059
82436417|NCT01221623|164582097|SUPERIORITY_OR_OTHER|||||||0.0496|TWO_SIDED||||||ANOVA|||||||.0496
82436418|NCT01221623|164582098|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82436419|NCT01221623|164582099|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||ANOVA|||||||.0340
82436420|NCT01221623|164582100|SUPERIORITY_OR_OTHER|||||||0.1168|TWO_SIDED||||||ANOVA|||||||.1168
82436421|NCT01221623|164582101|SUPERIORITY_OR_OTHER|||||||0.0144|TWO_SIDED||||||ANOVA|||||||.0144
82436422|NCT01221623|164582102|SUPERIORITY_OR_OTHER|||||||0.0248|TWO_SIDED||||||ANOVA|||||||.0248
82436423|NCT01221623|164582103|SUPERIORITY_OR_OTHER|||||||0.6949|TWO_SIDED||||||ANOVA|||||||.6949
82436424|NCT01221623|164582104|SUPERIORITY_OR_OTHER|||||||0.0249|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||.0249
82436425|NCT04091581|164582108|OTHER|||||||0.002|||||||ANOVA|||||||0.002
82436426|NCT04091581|164582108|OTHER|||||||0.022|||||||t-test, 2 sided|||Comparison of the baseline tear evaporation rate of the non-dry eye and dry eye group.||||0.022
82436427|NCT02438384|164582109|SUPERIORITY||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|1.2|2.1||||||||2.1|1.2|
82436428|NCT02438384|164582109|SUPERIORITY||Mean Difference (Final Values)|1.1|||||TWO_SIDED|95.0|0.6|1.6||||||||1.6|0.6|
82436429|NCT03315793|164582113|SUPERIORITY||Least squares mean difference|1.39||||0.5587|TWO_SIDED|98.0|-3.3|6.08|||mixed-effects model repeated measures|||||6.08|-3.30|0.5587
82436430|NCT03315793|164582114|SUPERIORITY||Risk Difference (RD)|5.4||||0.5111|TWO_SIDED|95.0|-10.7|21.5|||Cochran-Mantel-Haenszel|Stratified by age||||21.5|-10.7|0.5111
82436431|NCT03315793|164582115|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-13.5|13.5|||Cochran-Mantel-Haenszel|Stratified by age||||13.5|-13.5|1.0000
82454649|NCT01128426|164614035|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82436432|NCT03315793|164582116|SUPERIORITY||Risk Difference (RD)|-4.1||||0.4423|TWO_SIDED|95.0|-14.4|6.3|||Cochran-Mantel-Haenszel|Stratified by age||||6.3|-14.4|0.4423
82436433|NCT03315793|164582117|SUPERIORITY||Least squares mean difference|0.14||||0.3836|TWO_SIDED|95.0|-0.18|0.46|||mixed-effects model repeated measures|||||0.46|-0.18|0.3836
82436434|NCT02578680|164582119|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|1e-05|TWO_SIDED|95.0|0.43|0.64|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.64|0.43|<0.00001
82436435|NCT02578680|164582120|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|1e-05|TWO_SIDED|95.0|0.38|0.64|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.64|0.38|<0.00001
82436436|NCT02578680|164582121|SUPERIORITY||Difference in Percentage vs. Control|28.5|||<|0.0001|TWO_SIDED|95.0|21.1|35.4||H0:Difference in percentages=0 vs H1:Difference in percentages\>0|Stratified Miettinen and Nurminen||Miettinen and Nurminen method with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||35.4|21.1|<0.0001
82539693|NCT01235949|164779178|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (IIBU over NIBU) was below (\<) 1 for protein D.|GMC ratio|0.94|||||TWO_SIDED|99.8|0.69|1.28||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (IIBU over NIBU) were calculated for anti-Protein D (anti-PD) antibody.||1.28|0.69|
82539694|NCT01235949|164779178|NON_INFERIORITY|A statistically significant decrease in GMC was established if the UL of the two-sided 99.8% CI (adjusted one-sided alpha = 0.11364%) for the GMC ratios (DIBU over NIBU) was below (\<) 1 for protein D.|GMC ratio|0.87|||||TWO_SIDED|99.8|0.64|1.17||||||At one month after primary immunization, ELISA Geometric Mean Concentration (GMC) ratios (DIBU over NIBU) were calculated for anti-Protein D (anti-PD) antibody.||1.17|0.64|
82539695|NCT00371566|164779207|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7|STANDARD_DEVIATION|1.93||0.394||95.0|-5.5|2.19|||ANCOVA|Null hypothesis or reject it in favor of the two sided alternative hypothesis||The study was designed to provide evidence to support the null hypothesis: Delta equals 0% or reject it in favor of the two sided alternative hypothesis: Delta does not equal 0%, where Delta was the difference in the true response rate for the two treatment groups.||2.19|-5.50|.394
82436437|NCT02578680|164582125|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|1e-05|TWO_SIDED|95.0|0.41|0.59|||Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||0.59|0.41|<0.00001
82436438|NCT00306293|164582139|SUPERIORITY_OR_OTHER||Percent change from Placebo|-78.0|||<|0.001||95.0|||||Wilcoxon Rank Sum Test||Percent change in days with Subclinical HSV-2 Viral Shedding after VALTREX 1g treatment from the placebo|||||<0.001
82436439|NCT00306293|164582140|SUPERIORITY_OR_OTHER||Percent change from Baseline|-77.0||||0.014||95.0|||||Wilcoxon Rank Sum||Percent change in 'percentage of days with clinical HSV-2 viral shedding', after VALTREX 1g treatment from the placebo|||||0.014
82436440|NCT01089413|164582167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8579|TWO_SIDED|95.0|0.7|1.54|||Regression, Cox|||||1.54|0.70|0.8579
82436441|NCT01089413|164582168|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.1555|TWO_SIDED|95.0|0.3|1.21|||Regression, Cox|||||1.21|0.30|0.1555
82454650|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82436442|NCT02526524|164582171|SUPERIORITY||LS Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.184||0.1449|TWO_SIDED|95.0|-0.63|0.09|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||0.09|-0.63|0.1449
82436443|NCT02526524|164582171|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.0643|TWO_SIDED|95.0|-0.69|0.02|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||0.02|-0.69|0.0643
82436444|NCT02526524|164582171|SUPERIORITY||LS Means|-0.42|STANDARD_ERROR_OF_MEAN|0.184||0.0214|TWO_SIDED|95.0|-0.79|-0.06|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.06|-0.79|0.0214
82436445|NCT02526524|164582171|SUPERIORITY||LS Mean|-0.55|STANDARD_ERROR_OF_MEAN|0.18||0.0022|TWO_SIDED|95.0|-0.91|-0.2|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.20|-0.91|0.0022
82436446|NCT02526524|164582171|SUPERIORITY||LS Mean|-1.03|STANDARD_ERROR_OF_MEAN|0.184|<|0.0001|TWO_SIDED|95.0|-1.39|-0.67|||Mixed Models Analysis|Included treatment, visit, and treatment-by-visit interaction as fixed effects, and HbA1c value at Baseline as a covariate.||||-0.67|-1.39|<0.0001
82454651|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82436447|NCT00664560|164582180|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin of 10mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.22|||||TWO_SIDED|95.0|-4.76|4.32|||ANCOVA|||||4.32|-4.76|
82436448|NCT00664560|164582181|NON_INFERIORITY_OR_EQUIVALENCE|10 mm Non-Inferiority (NI) margin between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-4.57|4.38|||ANCOVA|||||4.38|-4.57|
82436449|NCT00664560|164582182|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority (NI) margin 10 mm between Arm 1 and Arm 2 (NI design uses confidence intervals, not p-values)|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-5.08|4.14|||ANCOVA|||||4.14|-5.08|
82454652|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82539696|NCT03399370|164779243|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-57.64|||<|0.0001|TWO_SIDED|95.0|-60.86|-54.43||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-54.43|-60.86|<.0001
82539697|NCT03399370|164779244|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-53.78|||<|0.0001|TWO_SIDED|95.0|-56.23|-51.33||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-51.33|-56.23|<0.0001
82539698|NCT03399370|164779245|SUPERIORITY|LS Mean Difference (95% CI) from Placebo|Mean Difference (Final Values)|-54.12|||<|0.0001|TWO_SIDED|95.0|-57.37|-50.88||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-50.88|-57.37|<0.0001
82539699|NCT03399370|164779246|SUPERIORITY||Mean Difference (Final Values)|-53.28|||<|0.0001|TWO_SIDED|95.0|-55.75|-50.8||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-50.80|-55.75|<0.0001
82539700|NCT03399370|164779247|SUPERIORITY||Mean Difference (Final Values)|-83.8|||<|0.0001|TWO_SIDED|95.0|-89.25|-77.34||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-77.34|-89.25|<0.0001
82539701|NCT03399370|164779248|SUPERIORITY||Mean Difference (Final Values)|-33.13|||<|0.0001|TWO_SIDED|95.0|-35.3|-30.97||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-30.97|-35.30|<0.0001
82539702|NCT03399370|164779249|SUPERIORITY||Mean Difference (Final Values)|-43.09|||<|0.0001|TWO_SIDED|95.0|-45.5|-40.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-40.67|-45.50|<.0001
82539703|NCT03399370|164779250|SUPERIORITY||Mean Difference (Final Values)|-47.36|||<|0.0001|TWO_SIDED|95.0|-50.25|-44.47||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares mean difference from Placebo|||-44.47|-50.25|<0.0001
82539704|NCT01093534|164779252|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.169||||0.095|TWO_SIDED|95.0|-0.368|0.03||Hochberg Method for controlling the overall risk of type I error of 5% was used to adjust for using two co-primary endpoints.|ANCOVA|ANCOVA model with fixed effects for treatment and region and Baseline of least squares mean BWT as a covariate.||The null hypothesis was that the mean change from Baseline in BWT in the pooled solifenacin group and placebo was the same. Estimated as two-sided contrast with 95% confidence interval. Power was planned for 80% (assumption: mean difference = 0.5 mm, standard deviation=1.65, 314 and 157 participants, bonferroni adjustment for alpha =0.025)||0.030|-0.368|0.095
82539705|NCT01093534|164779253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||||||Hochberg Method for controlling the overall risk of type I error of 5% was used to adjust for using two co-primary endpoints.|Wilcoxon (Mann-Whitney)|Nonparametric Wilcoxon rank-sum test does not adjust for other factors.||The null hypothesis for the co-primary treatment comparison was that the mean free (neutralized) uNGF/Cr value in the pooled solifenacin group and placebo was the same. Wilcoxon rank-sum test was used instead of a contrast from analysis of covariance (ANCOVA), because data was not normally distributed. Power was planned for 80% (assumption: mean difference = 0.74 pg/μmol, standard deviation=2.0, 220 and 110 participants, bonferroni adjustment for alpha =0.025).||||0.250
82539706|NCT00768651|164779279|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The sample size of 8 was determined to provide a 95% confidence interval expected width of 0.62 for the proportion of subjects who become insulin independent with treatment. Four of eight subjects (50%) would have to achieve insulin independence in order to reject the null hypothesis with 85% power and one sided alpha of 0.025. Statistical significance was set at 5%. Mean values were computed using Student's t-test while medians were compared using Wilcoxon's test.||||< 0.05
82454653|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82539707|NCT00281918|164779301|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<.0001
82454654|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454655|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
82539708|NCT00281918|164779302|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<.0001
82539709|NCT00281918|164779303|SUPERIORITY_OR_OTHER|||||||0.0427||95.0|||||Log Rank|||||||0.0427
82539710|NCT00281918|164779304|SUPERIORITY_OR_OTHER|||||||0.7882||95.0|||||Log Rank|||||||0.7882
82539711|NCT00281918|164779305|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.48|0.67|||Log Rank|||||0.67|0.48|<.0001
82539712|NCT00281918|164779306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.001|TWO_SIDED|95.0|0.54|0.86|||Log Rank|||||0.86|0.54|0.0010
82539713|NCT00281918|164779307|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001||95.0|0.48|0.67|||Log Rank|||||0.67|0.48|<.0001
82539714|NCT00281918|164779308|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0523|TWO_SIDED|95.0|0.52|1.02|||Log Rank|||||1.02|0.52|0.0523
82539715|NCT00281918|164779309|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.48|0.71|||Log Rank|||||0.71|0.48|<.0001
82539716|NCT00281918|164779310|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.62|3.28|||Chi-squared|||||3.28|1.62|<.0001
82539717|NCT00281918|164779311|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.49|0.72|||Log Rank|||||0.72|0.49|<.0001
82539718|NCT02124460|164779312|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.3928|TWO_SIDED|95.0|-0.08|0.03|||Linear repeated measures|Multiple imputation was used for missing follow-up data.|Health Coaching group compared to Enhanced Primary Care|||0.03|-0.08|0.3928
82539719|NCT02124460|164779313|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.2306|TWO_SIDED|95.0|-0.56|2.33|||Linear repeated measures|Multiple imputation used for missing data at follow-up|Health Coaching group compared to Enhanced Primary Care|||2.33|-0.56|0.2306
82539720|NCT02124460|164779314|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.14|TWO_SIDED|95.0|-0.02|0.16|||Linear repeated measures|Multiple imputation used for missing data at follow-up|Health Coaching group compared to Enhanced Primary Care.|||0.16|-0.02|.14
82539721|NCT02124460|164779315|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.0016|TWO_SIDED|95.0|-0.81|-0.19|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||-0.19|-0.81|0.0016
82539722|NCT02124460|164779316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.42|||<|0.0001|TWO_SIDED|95.0|0.22|0.62||Multiple imputation used for missing data at follow-up.|Linear repeated measures|||||0.62|0.22|<.0001
82539723|NCT02124460|164779317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.3043|TWO_SIDED|95.0|-0.16|0.53|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.53|-0.16|0.3043
82539724|NCT02124460|164779318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32||||0.0113|TWO_SIDED|95.0|0.07|0.56|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.56|0.07|0.0113
82539725|NCT02124460|164779319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.0792|TWO_SIDED|95.0|-0.45|0.03|||Linear repeated measures|Multiple imputation used for missing data at follow-up.||||0.03|-0.45|0.0792
82539726|NCT01264718|164779335|OTHER|The Intervention Cost-Effectiveness Ratio (ICER) is the difference in total costs between the intervention group and controls was divided by the intergroup difference in the proportion of insured children.|ICER|6.0|||||TWO_SIDED||||||||The estimated value is the savings per child per year insured.|||||
82539727|NCT01264718|164779335|OTHER|The Intervention Cost-Effectiveness Ratio (ICER) is the difference in total costs between the intervention group and controls was divided by the intergroup difference in the proportion of insured children.|ICER|4.0|||||TWO_SIDED||||||||The estimated value is the savings for each percent increase in children obtaining insurance per year.|||||
82539728|NCT01144182|164779344|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED|||||For this pilot study, significance level was set at p\<0.05|Wilcoxon (Mann-Whitney)|||||||.56
82539729|NCT01144182|164779345|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.22
82539730|NCT01144182|164779346|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
82539731|NCT01144182|164779347|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
82539732|NCT01144182|164779348|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.008
82539733|NCT01144182|164779349|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
82577806|NCT05576662|164864808|OTHER||Odds Ratio (OR)|1.55||||0.174|TWO_SIDED|95.0|0.82|2.94||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of fatigue score at day 15||2.94|0.82|0.174
82454656|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82539734|NCT01144182|164779350|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.15
82539735|NCT01144182|164779351|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.55
82539736|NCT01144182|164779352|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.56
82577807|NCT05576662|164864808|OTHER||Odds Ratio (OR)|1.21||||0.548|TWO_SIDED|95.0|0.65|2.25||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of brain fog score at day 15||2.25|0.65|0.548
82539737|NCT01144182|164779353|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.05
82539738|NCT01144182|164779354|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.15
82539739|NCT01144182|164779355|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.26
82539740|NCT01144182|164779356|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.36
82539741|NCT03772964|164779358|SUPERIORITY|Comparisons between samples and sample groups (beta-diversity), were evaluated with ADONIS (aka PERMANOVA) comparisons of differences between sample groups.|R2|0.071435|||<|0.01|TWO_SIDED||||||ADONISBeta Diversity|Comparisons between samples and sample groups (beta-diversity) were evaluated with ADONIS (aka PERMANOVA)|R2 values estimate the amount of variation explained by each variable.|Beta Diversity - Differences between Samples and Sample groups||||<0.01
82539742|NCT03772964|164779359|SUPERIORITY|||||||0.6057|||||||ANOVA|||||||0.6057
82539743|NCT03772964|164779361|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82539744|NCT03772964|164779362|SUPERIORITY|||||||0.69|||||||ANOVA|||||||0.69
82539745|NCT02317016|164779366|NON_INFERIORITY_OR_EQUIVALENCE|No effect on the PK of rosuvastatin after co-administration of AZD9291 was concluded if the 2-sided 90% confidence intervals (CIs) for the ratios of rosuvastatin AUC and Cmax were within the range of 70% to 143%.|Geometric least-squares (LS) mean ratio|171.92|||||TWO_SIDED|90.0|145.94|202.53|||||AZD9291+ rosuvastatin / rosuvastatin alone (Day 32 versus Day 1).|Natural log-transformed Cmax values were compared between treatments using a mixed effects analysis of variance (ANOVA) with treatment as a fixed effect and patient as a random effect. It was assumed the within-patient coefficient of variation for rosuvastatin in both area under the plasma concentration-time curve (AUC) and Cmax was 41%. No change in the exposure for rosuvastatin when given with AZD9291 was also assumed.||202.53|145.94|
82539746|NCT02317016|164779367|NON_INFERIORITY_OR_EQUIVALENCE|No effect on the PK of rosuvastatin after co-administration of AZD9291 was concluded if the 2-sided 90% CIs for the ratios of rosuvastatin AUC and Cmax were within the range of 70% to 143%.|Geometric LS Mean Ratio|134.63|||||TWO_SIDED|90.0|115.41|157.07|||||AZD9291+ rosuvastatin / rosuvastatin alone (Day 32 versus Day 1).|Natural log-transformed AUC values were compared between treatments using a mixed effects ANOVA with treatment as a fixed effect and patient as a random effect. It was assumed the within-patient coefficient of variation for rosuvastatin in both AUC and Cmax was 41%. No change in the exposure for rosuvastatin when given with AZD9291 was also assumed.||157.07|115.41|
82577808|NCT05576662|164864808|OTHER||Odds Ratio (OR)|0.62||||0.134|TWO_SIDED|95.0|0.33|1.16||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of dyspnea score at day 15||1.16|0.33|0.134
82577809|NCT05576662|164864808|OTHER||Odds Ratio (OR)|1.45||||0.241|TWO_SIDED|95.0|0.78|2.69||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of body aches score at day 15||2.69|0.78|0.241
82577810|NCT05576662|164864808|OTHER||Odds Ratio (OR)|1.03||||0.922|TWO_SIDED|95.0|0.55|1.92||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of gastrointestinal symptoms score at day 15||1.92|0.55|0.922
82577811|NCT05576662|164864808|OTHER||Odds Ratio (OR)|0.5||||0.032|TWO_SIDED|95.0|0.26|0.94||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of cardiovascular symptoms score at day 15||0.94|0.26|0.032
82577812|NCT05576662|164864809|OTHER||Odds Ratio (OR)|0.55||||0.09|TWO_SIDED|95.0|0.27|1.09||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|||1.09|0.27|0.09
82577813|NCT05576662|164864810|OTHER||Odds Ratio (OR)|0.72||||0.6|TWO_SIDED|95.0|0.21|2.44||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|||2.44|0.21|.60
82577814|NCT05576662|164864811|OTHER||Odds Ratio (OR)|1.62||||0.156|TWO_SIDED|95.0|0.83|3.15||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 5||3.15|0.83|0.156
82577815|NCT05576662|164864811|OTHER||Odds Ratio (OR)|1.99||||0.03|TWO_SIDED|95.0|1.06|3.72||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 10||3.72|1.06|0.03
82539747|NCT01768676|164779381|NON_INFERIORITY_OR_EQUIVALENCE|The difference in percentage of subjects with a \>/= 50% reduction from baseline to Week 26 in sperm concentration between treatment arms was analyzed using Cochran-Mantel-Haenszel method to account for the randomization stratification by baseline sperm concentration. If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-12.93|STANDARD_ERROR_OF_MEAN|4.41|||TWO_SIDED|95.0|-21.56|-4.29|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||-4.29|-21.56|
82577816|NCT05576662|164864811|OTHER||Odds Ratio (OR)|2.42||||0.01|TWO_SIDED|95.0|1.27|4.6||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, odds|Proportional odds regression coefficient Wald test|An odds ratio \< 1 favors nirmatrelvir plus ritonavir; an odds ratio \> 1 favors placebo plus ritonavir.|Analysis of severity at week 15||4.60|1.27|0.01
82649216|NCT00185211|165013762|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.7971||||0.0141||95.0|0.665|0.9554||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|generalized linear Poisson regression|covariate adjustment: steroid use during first event, onset of disease, categorized number of T2 lesions at screening|The direction of comparison is initial IFNB-1b (numerator) versus initial placebo (denominator), i.e. the Risk Ratio represents the relative risk of initial IFNB-1b treatment compared to initial placebo treatment.|Relapse rate was analyzed by a generalized linear Poisson regression model with individual relapse counts as dependent variable, covariates: treatment arm, steroid use during first event, onset of disease and categorized number of T2 lesions at screening and offset variable natural log of time (in years) as difference between last clinical visit and baseline visit. The treatment effect on the relapse rate was of primary interest.||0.9554|0.6650|0.0141
82577817|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|0.9||||0.744|TWO_SIDED|95.0|0.45|1.77||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - fatigue"||1.77|0.45|0.744
82539748|NCT01768676|164779382|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-11.4|STANDARD_ERROR_OF_MEAN|6.2|||TWO_SIDED|95.0|-23.5|0.7|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||0.7|-23.5|
82577818|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|0.67||||0.259|TWO_SIDED|95.0|0.32|1.37||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - brain fog"||1.37|0.32|0.259
82577819|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|1.61||||0.286|TWO_SIDED|95.0|0.65|3.99||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - body aches"||3.99|0.65|0.286
82577820|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|0.92||||0.846|TWO_SIDED|95.0|0.38|2.24||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - cardiovascular symptoms"||2.24|0.38|0.846
82577821|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|1.56||||0.41|TWO_SIDED|95.0|0.51|4.73||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test|A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.||"Analysis of data for Time to relief - shortness of breath"||4.73|0.51|0.410
82649217|NCT00185211|165013763|SUPERIORITY_OR_OTHER|||||||0.6078||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: MSFC Z-scores measured at baseline||"The null hypothesis H0: The distribution of MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score is identical for both treatment arms was tested against the alternative hypothesis HA: The distribution of MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score is not the same in the two treatment groups based on a non-parametric analysis of covariance (ANCOVA)."||||0.6078
82454657|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82454658|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
82454659|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.84|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.84
82539749|NCT01768676|164779383|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-1.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-4.2|1.3|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||1.3|-4.2|
82436450|NCT01610557|164582197|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3||||0.039|TWO_SIDED|95.0|0.07|2.5|||Linear mixed-effects model||The difference represents the estimated difference between ranibizumab and bevacizumab, adjusted for baseline visual acuity, study period, and clinical site and a subject effect for eyes nested within subject.|||2.5|0.07|0.039
82436451|NCT01610557|164582198|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-48.0|||<|0.001|TWO_SIDED|95.0|-65.0|-31.0|||Linear mixed-effects model||The difference represents the estimated difference between ranibizumab and bevacizumab, adjusted for baseline visual acuity, study period, and clinical site and a subject effect for eyes nested within subject.|||-31|-65|<0.001
82436452|NCT00473668|164582205|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if upper limit (UL) of the two-sided 95% confidence interval (CI) for the differences between the two groups in terms of anti-PRP seroprotection (SPR) rates was below (\<) 10%.|Difference in anti-PRP SPR rate|-1.18|||||TWO_SIDED|95.0|-6.39|2.84||||||Demonstration of the non-inferiority of Tritanrix™-HepB/Hiberix™ Kft. vaccine compared to Tritanrix™-HepB/Hiberix™ vaccine with respect to the anti-PRP antibody response, after a three-dose primary vaccination course.||2.84|-6.39|
82436453|NCT00473668|164582205|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if upper limit (UL) of the two-sided 95% confidence interval (CI) for the differences between the two groups in terms of anti-PRP seroprotection (SPR) rates was below (\<) 10%.|Difference in anti-PRP SPR rate|0.0|||||TWO_SIDED|95.0|-4.16|3.99||||||Demonstration of the non-inferiority of Tritanrix™-HepB/Hiberix™ Kft. vaccine compared to Tritanrix™-HepB/Hiberix™ vaccine with respect to the anti-PRP antibody response, after a three-dose primary vaccination course.||3.99|-4.16|
82436454|NCT02039219|164582220|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.4||0.1758|TWO_SIDED|95.0|||||t-test, 2 sided||Two-sample t-test compared MELD score between OCA and placebo arms at baseline OCA arms had a mean (SD) of 14.9(2.4), Placebo arms had a mean (SD) of 16.4 (2.2).|Baseline||||0.1758
82436455|NCT02039219|164582220|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Net)|2.4|STANDARD_DEVIATION|6.8||0.3839|TWO_SIDED|95.0|||||t-test, 2 sided||Two-sample t-test compared MELD score between OCA and placebo arms at day 42 OCA arms had a mean (SD) of 11.5 (6.8), Placebo arms had a mean (SD) of 13.9(4.6).|Day 42||||0.3839
82436456|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|ONE_SIDED||||||Log Rank|||Day 42||||.3938
82436457|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|TWO_SIDED||||||Log Rank|||Day 90||||.3938
82436458|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Anaylsis|0.0||||0.3938|TWO_SIDED||||||Log Rank|||Day 180||||.3938
82436459|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 42||||.3938
82436460|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 90||||.3938
82436461|NCT02039219|164582228|SUPERIORITY|The type of statistical test is superiority.|Survival Analysis|0.09||||0.3938|TWO_SIDED||||||Log Rank|||Day 180||||.3938
82436462|NCT02039219|164582232|SUPERIORITY|The type of statistical test is superiority.|Mean Difference (Final Values)|0.4|STANDARD_DEVIATION|2.5||0.8094|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.8094
82436463|NCT02226562|164582237|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1||||0.0001|TWO_SIDED|95.0|-1.28|-0.92||The P-value was less than 0.0001|ANCOVA|ANCOVA with a factor for treatment and baseline as covariate||||-0.92|-1.28|0.0001
82436464|NCT01466660|164582252|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.822||||0.0891|TWO_SIDED|95.0|0.655|1.032||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by Epidermal Growth Factor Receptor (EGFR) mutation group and presence of brain metastases at baseline|A Cox proportional hazards model, stratified by EGFR mutation group and presence of baseline brain metastases was used to estimate the hazard ratio calculated as Afatinib divided by Gefitinib.|Exploratory trial, no formal hypotheses were tested.||1.032|0.655|0.0891
82454660|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.64|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.64
82454661|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454662|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454663|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82454664|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82652341|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.017||||0.8955|TWO_SIDED|95.0|-0.277|0.242||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.242|-0.277|0.8955
82454665|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454666|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82454667|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454668|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454669|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454670|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.9|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.90
82454671|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454672|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454673|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454674|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454675|NCT01128426|164614036|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454676|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82539750|NCT01768676|164779384|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|-2.9|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-6.8|1.1|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||1.1|-6.8|
82454677|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454678|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
82454679|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
82454680|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454681|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454682|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454683|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454684|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454685|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82454686|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82454687|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454688|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454689|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454690|NCT01128426|164614036|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454691|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454692|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82436465|NCT01466660|164582253|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.0136|TWO_SIDED|95.0|0.595|0.944||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||0.944|0.595|0.0136
82436466|NCT01466660|164582254|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.862||||0.2343|TWO_SIDED|95.0|0.674|1.101||p-value was not adjusted for multiple comparisons|Log Rank|Stratified by EGFR mutation group and presence of brain metastases at baseline|A Cox proportional hazards model, stratified by EGFR mutation group and presence of baseline brain metastases was used to estimate the hazard ratio calculated as Afatinib divided by Gefitinib.|Exploratory trial, no formal hypotheses were tested.||1.101|0.674|0.2343
82436467|NCT01466660|164582255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.307||||0.3235|TWO_SIDED|95.0|0.768|2.223||p-value was not adjusted for multiple comparisons|Regression, Logistic|Stratified for EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||2.223|0.768|0.3235
82436468|NCT01466660|164582258|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.138||||0.7856|TWO_SIDED|95.0|0.447|2.896||p-value was not adjusted for multiple comparisons|Regression, Logistic|Stratified for EGFR mutation group and presence of brain metastases at baseline|Ratio calculated as Afatinib divided by Gefitinib|Exploratory trial, no formal hypotheses were tested.||2.896|0.447|0.7856
82436469|NCT01466660|164582260|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.45|STANDARD_ERROR_OF_MEAN|1.87||0.0657|TWO_SIDED|95.0|-7.13|0.23||p-value was not adjusted for multiple comparisons|ANCOVA|Adjusted for baseline sum of diameters, EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib minus Gefitinib|Exploratory trial, no formal hypotheses were tested.||0.23|-7.13|0.0657
82436470|NCT01466660|164582261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.017||0.1422|TWO_SIDED|95.0|-0.06|0.01||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib minus Gefitinib|"EQ-5D UK utility score.~Exploratory trial, no formal hypotheses were tested."||0.01|-0.06|0.1422
82436471|NCT01466660|164582261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.016||0.054|TWO_SIDED|95.0|-0.06|0.0||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib divided by Gefitinib|"EQ-5D Belgium utility score.~Exploratory trial, no formal hypotheses were tested."||0.00|-0.06|0.0540
82436472|NCT01466660|164582261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.21||0.2032|TWO_SIDED|95.0|-3.9|0.8||p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Adjusted for EGFR mutation group and presence of brain metastases at baseline|Difference calculated as Afatinib divided by Gefitinib|"EQ-VAS utility score.~Exploratory trial, no formal hypotheses were tested."||0.8|-3.9|0.2032
82436473|NCT00129701|164582262|SUPERIORITY|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||||||0.064
82652342|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.052||||0.6916|TWO_SIDED|95.0|-0.312|0.207||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.207|-0.312|0.6916
82436474|NCT00608023|164582291|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82454693|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82436475|NCT00608023|164582292|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
82436476|NCT00608023|164582293|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
82436477|NCT00608023|164582294|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
82436478|NCT00608023|164582295|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||ANCOVA|||||||>0.05
82436479|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.87|||||TWO_SIDED|95.0|0.72|1.05||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 1 antibody concentrations.||1.05|0.72|
82436480|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.03|||||TWO_SIDED|95.0|0.84|1.26||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 4 antibody concentrations.||1.26|0.84|
82436481|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.9|||||TWO_SIDED|95.0|0.74|1.1||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 5 antibody concentrations.||1.10|0.74|
82454694|NCT01128426|164614037|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454695|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454696|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82539751|NCT01768676|164779385|NON_INFERIORITY_OR_EQUIVALENCE|If upper limit of 95% CI \< 20% then avanafil is considered non-inferior to placebo.|Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|95.0|0.0|0.0|||||Confidence interval was only calculated for primary endpoint of the difference between avanafil and placebo, not for each individual arm.|||0|0|
82539752|NCT02023125|164779389|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|270.0|||||TWO_SIDED|90.0|228.0|320.0|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and confidence intervals (CIs).||320|228|
82539753|NCT02023125|164779390|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|116.0|||||TWO_SIDED|90.0|103.0|132.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||132|103|
82539754|NCT02023125|164779391|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|292.0|||||TWO_SIDED|90.0|258.0|329.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||329|258|
82539755|NCT02023125|164779392|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|122.0|||||TWO_SIDED|90.0|109.0|136.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||136|109|
82539756|NCT02023125|164779393|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|377.0|||||TWO_SIDED|90.0|303.0|468.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||468|303|
82539757|NCT02023125|164779394|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|102.0|||||TWO_SIDED|90.0|87.0|119.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||119|87.0|
82539758|NCT02023125|164779395|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|328.0|||||TWO_SIDED|90.0|276.0|389.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||389|276|
82539759|NCT02023125|164779396|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|110.0|||||TWO_SIDED|90.0|96.3|126.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||126|96.3|
82577822|NCT05576662|164864812|OTHER||Hazard Ratio (HR)|0.94||||0.88|TWO_SIDED|95.0|0.42|2.11||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|"Analysis of data for Time to relief - gastrointestinal symptoms"||2.11|0.42|0.880
82454697|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82539760|NCT02023125|164779399|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|306.0|||||TWO_SIDED|90.0|269.0|348.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||348|269|
82539761|NCT02023125|164779400|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|122.0|||||TWO_SIDED|90.0|110.0|136.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||136|110|
82539762|NCT02023125|164779401|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|349.0|||||TWO_SIDED|90.0|288.0|422.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Treatment B/Treatment A) and CIs.||422|288|
82539763|NCT02023125|164779402|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|109.0|||||TWO_SIDED|90.0|95.3|126.0|||||The reported values are percentages of geometric least square mean ratio.|ANOVA was applied to the log-transformed PK parameter and then back transformed to provide geometric least square mean ratios (Alectinib + Esomeprazole/Alectinib Alone) and CIs.||126|95.3|
82539764|NCT01867580|164779455|SUPERIORITY|||||||0.677|||||||Regression, Logistic|||||||0.6770
82539765|NCT01867580|164779456|SUPERIORITY|||||||0.0202|||||||Wilcoxon (Mann-Whitney)|||||||0.0202
82539766|NCT01867580|164779457|SUPERIORITY|||||||0.0142|||||||Regression, Logistic|||||||0.0142
82539767|NCT01304147|164779458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6|||<|0.001|TWO_SIDED|95.0|3.9|11.3|||Paired t-test, 2 sided|||within-subject crossover design||11.3|3.9|<0.001
82539768|NCT01942707|164779509|SUPERIORITY||Mean Difference (Final Values)|179.0|STANDARD_DEVIATION|222.0||0.003|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
82539769|NCT01942707|164779510|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|1.9||0.012|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.012
82539770|NCT01942707|164779511|SUPERIORITY||Mean Difference (Final Values)|4.8|STANDARD_DEVIATION|40.7||0.809|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.809
82539771|NCT05147233|164779519|SUPERIORITY||Difference in Percentages|33.2|||<|0.0001|TWO_SIDED|95.0|21.5|44.9|||Wald test|||||44.9|21.5|<0.0001
82539772|NCT05147233|164779520|SUPERIORITY||Difference in Percentages|23.5|||<|0.0001|TWO_SIDED|95.0|11.7|35.3|||Wald test|||||35.3|11.7|<0.0001
82539773|NCT04411082|164779523|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82539774|NCT04411082|164779524|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82539775|NCT04411082|164779525|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82539776|NCT04411082|164779526|SUPERIORITY||||||>|0.4839|||||||Fisher Exact|||||||>0.4839
82454698|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454699|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82649218|NCT00185211|165013763|SUPERIORITY_OR_OTHER|||||||0.8245||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: MSFC Z-scores measured at baseline||"The null hypothesis H0: The mean MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score are identical for both treatment arms was tested against the alternative hypothesis HA: The mean MSFC Z-scores at month 60 adjusted for baseline MSFC Z-score are not the same in the two treatment groups based on a non-parametric analysis of covariance (ANCOVA)."||||0.8245
82652343|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.159||||0.2345|TWO_SIDED|95.0|-0.421|0.103||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.103|-0.421|0.2345
82436482|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.84|||||TWO_SIDED|95.0|0.66|1.07||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 6B antibody concentrations.||1.07|0.66|
82436483|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.0|||||TWO_SIDED|95.0|0.84|1.2||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 7F antibody concentrations.||1.20|0.84|
82436484|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.94|||||TWO_SIDED|95.0|0.78|1.14||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 9V antibody concentrations.||1.14|0.78|
82436485|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.98|||||TWO_SIDED|95.0|0.78|1.23||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 14 antibody concentrations.||1.23|0.78|
82436486|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.52|||||TWO_SIDED|95.0|0.41|0.67||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 18C antibody concentrations.||0.67|0.41|
82436487|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|0.86|||||TWO_SIDED|95.0|0.68|1.08||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 19F antibody concentrations.||1.08|0.68|
82436488|NCT00758264|164582305|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between the Nimenrix +Synflorix Group and the Synflorix Group (Nimenrix + Synflorix Group over Synflorix Group) is above (\>) 0.5.|Adjusted GMC ratio|1.07|||||TWO_SIDED|95.0|0.83|1.38||||||Demonstration of non-inferiority of Synflorix vaccine when co-administered with Nimenrix conjugate vaccine versus Synflorix vaccine given alone (Nimenrix conjugate vaccine was administered 1 month later) in terms of anti-pneumococcal serotype 23F antibody concentrations.||1.38|0.83|
82436489|NCT00758264|164582306|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup A (rSBA-MenA) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|1.93|||||TWO_SIDED|95.0|-1.09|8.15||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup A (rSBA-MenA).||8.15|-1.09|
82454700|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.58|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.58
82454701|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82454702|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.39|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.39
82539777|NCT04411082|164779527|SUPERIORITY|||||||0.2065|||||||Fisher Exact|||||||0.2065
82652344|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.043||||0.7466|TWO_SIDED|95.0|-0.304|0.218||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.218|-0.304|0.7466
82436490|NCT00758264|164582306|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup C (rSBA-MenC) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|0.68|||||TWO_SIDED|95.0|-2.11|6.22||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup C (rSBA-MenC).||6.22|-2.11|
82436491|NCT00758264|164582306|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup W-135 (rSBA-MenW-135) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|1.25|||||TWO_SIDED|95.0|-0.94|6.76||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup W-135 (rSBA-MenW-135).||6.76|-0.94|
82436492|NCT00758264|164582306|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit (LL) of the 2-sided standardized asymptotic 95% confidence interval (CI) for the group difference in percentage of subjects with serum bactericidal antibody using baby rabbit complement against Neisseria meningitides serogroup Y (rSBA-MenY) titer ≥ 1:8 (Nimenrix + Synflorix Group minus Nimenrix Group) is ≥ -10%.|Difference in percentage|0.0|||||TWO_SIDED|95.0|-2.18|4.6||||||Demonstration of non-inferiority of Nimenrix conjugate vaccine when co-administered with Synflorix vaccine versus Nimenrix conjugate vaccine given alone (Synflorix vaccine was administered 1 month later) in terms of serum bactericidal assay using rabbit complement against Neisseria meningitides serogroup Y (rSBA-MenY).||4.6|-2.18|
82436493|NCT04392141|164582327|EQUIVALENCE|equivalence of odds of death between both groups|Odds Ratio (OR)|9.87||||0.0318|TWO_SIDED|95.0|1.16|83.89|||Fisher Exact|||||83.89|1.16|0.0318
82436494|NCT04392141|164582328|EQUIVALENCE|equivalence of SpO2 percentage between admission and discharge phases|Mean Difference (Final Values)|-5.5||||0.0001|TWO_SIDED|95.0|-7.03|-3.96|||t-test, 2 sided|Paired T-test||Statistical comparison of SpO2 (%) between admission and discharge times in standard treatment group||-3.96|-7.03|0.0001
82436495|NCT04392141|164582328|EQUIVALENCE|equivalence of SpO2 percentage between admission and discharge phases|Mean Difference (Final Values)|-2.55||||0.0001|TWO_SIDED|95.0|-3.28|-1.81|||t-test, 2 sided|Paired T-test||Statistical comparison of SpO2 % between admission and discharge times in the Colchicine and Herbal Phenolic Monoterpene Fractions treatment||-1.81|-3.28|0.0001
82436496|NCT04392141|164582329|EQUIVALENCE|equivalence of means of the length of hospitalization between both groups|Mean Difference (Final Values)|2.22||||0.0001|TWO_SIDED|95.0|1.63|2.8|||Wilcoxon (Mann-Whitney)|||||2.80|1.63|0.0001
82436497|NCT04392141|164582330|EQUIVALENCE|equivalence of mean of lymphocytes count between admission and discharge phases|Mean Difference (Final Values)|0.02||||0.8|TWO_SIDED|95.0|-0.136|0.176|||t-test, 2 sided|Paired T-test||Statistical comparison of lymphocytes count between admission and discharge times in standard treatment||0.176|-0.136|0.80
82436498|NCT04392141|164582330|EQUIVALENCE|equivalence of mean of lymphocytes count between admission and discharge phases|Mean Difference (Final Values)|-0.43||||0.0001|TWO_SIDED|95.0|-0.63|-0.23|||t-test, 2 sided|Paired T-test||Statistical comparison of lymphocytes count between admission and discharge times in Colchicine and Herbal Phenolic Monoterpene Fractions treatment||-0.23|-0.63|0.0001
82436499|NCT04392141|164582331|EQUIVALENCE|equivalence of mean of LDH between admission and discharge phases|Mean Difference (Final Values)|-26.06||||0.602|TWO_SIDED|95.0|-124.76|72.64|||t-test, 2 sided|Paired T-test||Statistical comparison of LDH between admission and discharge times in standard treatment||72.64|-124.76|0.602
82436500|NCT04392141|164582331|EQUIVALENCE|equivalence of mean of LDH between admission and discharge phases|Mean Difference (Final Values)|137.33||||0.006|TWO_SIDED|95.0|38.19|236.46|||t-test, 2 sided|Paired T-test||Statistical comparison of LDH between admission and discharge times in Colchicine and Herbal Phenolic Monoterpene Fractions treatment||236.46|38.19|0.006
82436501|NCT00323960|164582345|SUPERIORITY|||||||0.0228||||||For multiple hypothesis testing, we used Bonferroni's correction (with n=3 posterior comparisons).|Chi-squared|To assess proportions we used the χ² test or Fisher's exact test||We calculated that a sample size of 40 patients would be needed in each study group (total 120 patients) to have 80% power for comparison of combination treatments (prednisone plus methotrexate or prednisone plus ciclosporin) with the reference treatment (prednisone alone).||||0.0228
82436502|NCT00323960|164582346|SUPERIORITY||Relative risk|2.45||||0.012|TWO_SIDED|95.0|1.2|5.0|||Log Rank||RR related to prednisone plus methotrexate arm (group 3) versus prednisone alone (group 1) and prednisone plus ciclosporin (group 2).|We used the Kaplan-Meier method to produce survival curves (groups 1 and 2 versus group 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||5.0|1.2|0.012
82436503|NCT00323960|164582347|SUPERIORITY||Relative risk|1.95||||0.009|TWO_SIDED|95.0|1.2|3.15|||Log Rank||RR related to prednisone alone (group 1) versus prednisone plus ciclosporin (group 2) and prednisone plus methotrexate arm (group 3).|We used the Kaplan-Meier method to produce survival curves (group 1 versus groups 2 and 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||3.15|1.2|0.009
82454703|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82454704|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82539778|NCT04411082|164779528|SUPERIORITY|||||||0.4839|||||||Fisher Exact|||||||0.4839
82436504|NCT00323960|164582348|SUPERIORITY||Relative risk|1.65||||0.002|TWO_SIDED|95.0|1.24|2.14|||Log Rank||RR related to prednisone+methotrexate arm or prednisone+ciclosporin versus prednisone alone.|We used the Kaplan-Meier method to produce survival curves (groups 2 and 3 versus group 1) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||2.14|1.24|0.002
82436505|NCT00323960|164582348|SUPERIORITY||Relative risk|1.65||||0.002|TWO_SIDED|95.0|1.24|2.14|||Log Rank||RR related to prednisone alone (group 1) versus prednisone plus ciclosporin (group 2) and prednisone plus methotrexate arm (group 3).|We used the Kaplan-Meier method to produce survival curves (groups 1 versus groups 2 and 3) and compared them with the Log-Rank test. We judged a p value less than 0·05 significant. We reported in the table the incidence rates with 95% confidence intervals of the 3 groups.||2.14|1.24|0.002
82436506|NCT02135029|164582349|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-54.5|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-60.1|-49.0|||MMRM|Mixed Model Repeated Measures (MMRM)|LS-mean differences,associated 95% confidence interval (CI), and p-values were derived from an MMRM model with fixed effects for treatment group, visit,treatment group\*visit interaction,baseline value, baseline value\*visit\*group interaction, country.|||-49.0|-60.1|<0.001
82436507|NCT02135029|164582350|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-42.6|-34.2|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-34.2|-42.6|<0.001
82436508|NCT02135029|164582350|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|-35.9|-26.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-26.2|-35.9|
82436509|NCT02135029|164582351|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.5|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|-51.9|-41.1|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-41.1|-51.9|<0.001
82436510|NCT02135029|164582351|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-45.4|-33.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-33.2|-45.4|
82436511|NCT02135029|164582352|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.2|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-56.3|-46.0|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-46.0|-56.3|<0.001
82436512|NCT02135029|164582352|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|-47.7|-35.8|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-35.8|-47.7|
82454705|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82436513|NCT02135029|164582353|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.3|STANDARD_ERROR_OF_MEAN|6.32|<|0.001|TWO_SIDED|95.0|-35.7|-10.8|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-10.8|-35.7|<0.001
82436514|NCT02135029|164582353|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|6.21|||TWO_SIDED|95.0|-29.6|-5.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-5.1|-29.6|
82436515|NCT02135029|164582354|SUPERIORITY_OR_OTHER||LS Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|7.8|17.0|||MMRM||LS-mean differences, associated 95% CI, and p-values were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||17.0|7.8|<0.001
82436516|NCT02135029|164582354|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5|STANDARD_ERROR_OF_MEAN|2.47|||TWO_SIDED|95.0|6.7|16.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||16.4|6.7|
82436517|NCT02135029|164582355|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.8|STANDARD_ERROR_OF_MEAN|3.33|||TWO_SIDED|95.0|-51.3|-38.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-38.2|-51.3|
82436518|NCT02135029|164582356|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-23.5|-5.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-5.2|-23.5|
82436519|NCT02135029|164582356|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|5.14|||TWO_SIDED|95.0|-19.8|0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||0.4|-19.8|
82454706|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454707|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454708|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82652345|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.176||||0.1843|TWO_SIDED|95.0|-0.437|0.084||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.084|-0.437|0.1843
82436520|NCT02135029|164582357|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|2.2|10.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||10.1|2.2|
82436521|NCT02135029|164582357|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6|STANDARD_ERROR_OF_MEAN|2.09|||TWO_SIDED|95.0|1.5|9.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||9.7|1.5|
82436522|NCT02135029|164582358|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|2.02|||TWO_SIDED|95.0|0.8|8.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||8.7|0.8|
82436523|NCT02135029|164582358|SUPERIORITY_OR_OTHER||LS Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|95.0|2.4|10.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||10.5|2.4|
82454709|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82436524|NCT02135029|164582359|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.3|STANDARD_ERROR_OF_MEAN|4.67|||TWO_SIDED|95.0|-23.5|-5.2|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-5.2|-23.5|
82436525|NCT02135029|164582359|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.7|STANDARD_ERROR_OF_MEAN|5.14|||TWO_SIDED|95.0|-19.8|0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||0.4|-19.8|
82436526|NCT02135029|164582360|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.8|STANDARD_ERROR_OF_MEAN|4.93|||TWO_SIDED|95.0|-103.5|-84.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-84.1|-103.5|
82436527|NCT02135029|164582361|SUPERIORITY_OR_OTHER||LS Mean Difference|-98.7|STANDARD_ERROR_OF_MEAN|5.67|||TWO_SIDED|95.0|-109.9|-87.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-87.5|-109.9|
82454710|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.32|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.32
82454711|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.71|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.71
82454712|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
82539779|NCT04411082|164779529|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82539780|NCT04411082|164779530|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82539781|NCT03538041|164779549|SUPERIORITY|||||||0.2815|||||||ANOVA|||Week 2||||0.2815
82539782|NCT03538041|164779550|SUPERIORITY|||||||0.2921|||||||Kruskal-Wallis|||Week 2||||0.2921
82539783|NCT03538041|164779551|SUPERIORITY|||||||0.1267|||||||ANOVA|||Week 2||||0.1267
82539784|NCT03538041|164779552|SUPERIORITY|||||||0.2676|||||||ANOVA|||Week 2||||0.2676
82539785|NCT02525796|164779597|SUPERIORITY||Median Difference (Net)|3.2||||0.84|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between eplerenone monotherapy and placebo||||0.84
82539786|NCT02525796|164779597|SUPERIORITY||Median Difference (Net)|4.5||||0.54|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between amiloride monotherapy and placebo||||0.54
82539787|NCT02525796|164779597|SUPERIORITY||Median Difference (Net)|7.6||||0.58|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in PTH over 4 weeks between eplerenone monotherapy and amiloride monotherapy||||0.58
82539788|NCT02525796|164779598|SUPERIORITY||Median Difference (Net)|0.0||||0.82|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between eplerenone monotherapy and placebo||||0.82
82539789|NCT02525796|164779598|SUPERIORITY||Median Difference (Net)|0.1||||0.21|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between amiloride monotherapy and placebo||||0.21
82539790|NCT02525796|164779598|SUPERIORITY||Median Difference (Net)|0.1||||0.12|TWO_SIDED||||||ANOVA|||ANOVA comparing the change in serum calcium over 4 weeks between eplerenone monotherapy and amiloride monotherapy||||0.12
82539791|NCT00955825|164779608|SUPERIORITY_OR_OTHER||LS Mean difference vs. Placebo|-0.126||||0.0003||95.0|-0.194|-0.058|||ANCOVA||Relative LS Means difference (%) = - 28.24|||-0.058|-0.194|0.0003
82539792|NCT01198275|164779610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.441|||<|0.05|TWO_SIDED|95.0|0.292|0.666|||Kaplan Meyer analysis|The time to first AF recurrence was analyzed with the Kaplan-Meier method and compared with the log-rank test.|Hazard ratios between n-3 PUFA and Placebo together with confidence intervals were estimated using the Cox proportional regression model.|Give a relapse rate ranging from 40% to 60% on ACE-I/ARB and amiodarone therapy, considering the high risk of relapses in our study population we conservatively assumed a 50% relapse rate. We calculated that a total of 180 patients would yield 80% power to detect a clinically relevant difference of about 20% in AF recurrence with the addition of n-3 PUFAs at a log-rank test, with a significance level of 0.05.||0.666|0.292|< 0.05
82454713|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
82454714|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.58|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.58
82539793|NCT02729701|164779622|OTHER|||||||0.017||||||a priori threshold for statistical significance \<0.05|Wilcoxon (Mann-Whitney)|||Test for within-group change by paired two-sample non-parametric test||||0.017
82539794|NCT02729701|164779623|OTHER|||||||0.043||||||a priori threshold for statistical significance \<0.05|Wilcoxon (Mann-Whitney)|2-sided||Test for within-group change via paired, two-sample non-parametric test||||0.043
82577823|NCT05576662|164864813|OTHER||Hazard Ratio (HR)|0.74||||0.33|TWO_SIDED|95.0|0.4|1.38||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Cox PH coefficient Wald test||A hazard ratio \< 1 favors nirmatrelvir plus ritonavir; a hazard ratio \> 1 favors placebo plus ritonavir.|||1.38|0.40|0.33
82649219|NCT00185211|165013764|SUPERIORITY_OR_OTHER|||||||0.0062||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: number of Gd-enhancing lesions on T1 at screening||"The null hypothesis H0: The distribution of the cumulative number of newly active lesions at month 60 adjusted for the number of Gadolinium (Gd)-enhancing lesions on T1 at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.0062
82436528|NCT02135029|164582362|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|3.7|8.0|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||8.0|3.7|
82436529|NCT02135029|164582363|SUPERIORITY_OR_OTHER||LS Mean Difference|-103.6|STANDARD_ERROR_OF_MEAN|5.56|||TWO_SIDED|95.0|-114.6|-92.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-92.7|-114.6|
82436530|NCT02135029|164582365|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|3.46|||TWO_SIDED|95.0|-66.0|-52.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-52.4|-66.0|
82436531|NCT02135029|164582366|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-8.7|-4.5|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-4.5|-8.7|
82436532|NCT02135029|164582367|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|95.0|-2.7|-2.1|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-2.1|-2.7|
82436533|NCT02135029|164582367|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|-2.4|-1.7|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-1.7|-2.4|
82436534|NCT02135029|164582368|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.5|-0.4|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 12||-0.4|-0.5|
82436535|NCT02135029|164582368|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.4|-0.3|||||LS-mean differences, associated 95% CI, for treatment group, visit, treatment group\* visit interaction, baseline value, baseline value\* visit\* group interaction, country.|Week 24||-0.3|-0.4|
82436536|NCT00712725|164582376|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with PF at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
82454715|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
82436537|NCT00712725|164582377|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with binary response PR at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
82436538|NCT00712725|164582378|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Photophobia at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
82436539|NCT00712725|164582379|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Phonophobia at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
82454716|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454717|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454718|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454719|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454720|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454721|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82436540|NCT00712725|164582380|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with Absence of Nausea at 2 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||0.007
82436541|NCT00712725|164582381|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value constructed from trend test of dose response, by testing the slope of the MK3207 dose covariate (all dose groups included) in a generalized linear regression model with binary response SPF 2-24 hours postdose as the dependent variable.|Generalized linear regression model|Model adjusted for geographic region (US, ex-US), baseline severity (moderate, severe), treatment and age (continuous), using identity link function.||||||<0.001
82436542|NCT03525600|164582393|SUPERIORITY||LS Mean Difference|-0.2296||||0.0615|TWO_SIDED|95.0|-0.4703|0.0111|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of choroidal neovascularization (CNV) in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||0.0111|-0.4703|0.0615
82436543|NCT03525600|164582393|SUPERIORITY||LS Mean Difference|-0.2077||||0.0854|TWO_SIDED|95.0|-0.4444|0.029|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area × analysis visit.||0.0290|-0.4444|0.0854
82436544|NCT03525600|164582394|SUPERIORITY||LS Mean Difference|-0.7451||||0.0004|TWO_SIDED|95.0|-1.1539|-0.3362|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.3362|-1.1539|0.0004
82436545|NCT03525600|164582394|SUPERIORITY||LS Mean Difference|-0.6331||||0.003|TWO_SIDED|95.0|-1.0508|-0.2153|||MMRM model|||Model included treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) + analysis visit + baseline presence of CNV in the fellow eye (yes or no) + analysis visit × treatment + baseline GA lesion area (\<7.5 mm\^2 or ≥7.5 mm\^2) × analysis visit.||-0.2153|-1.0508|0.0030
82436546|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.0547||||0.4282|TWO_SIDED|95.0|-0.1899|0.0806|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0806|-0.1899|0.4282
82436547|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.0793||||0.2457|TWO_SIDED|95.0|-0.2131|0.0546|||MMRM model|||Estimates for Baseline to Month 6: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0546|-0.2131|0.2457
82436548|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1722||||0.0292|TWO_SIDED|95.0|-0.327|-0.0174|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0174|-0.3270|0.0292
82454722|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454723|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454724|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82539795|NCT02729701|164779624|OTHER|||||||0.088||||||a priori threshold for statistical significance \< 0.05|Wilcoxon (Mann-Whitney)|||Test for within-group change using paired two-sample non-parametric etst||||0.088
82539796|NCT00970307|164779629|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10% .|Difference in percentage|-0.76|||||TWO_SIDED|95.0|-4.21|2.22||||||||2.22|-4.21|
82539797|NCT00970307|164779630|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardized asymptotic 95% confidence interval lower or equal to 10% .|Difference in percentage|-0.72|||||TWO_SIDED|95.0|-5.19|3.57||||||||3.57|-5.19|
82539798|NCT01616654|164779684|SUPERIORITY||Percentage difference|13.115||||0.096|TWO_SIDED|95.0|-3.266|29.495|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||29.495|-3.266|0.096
82539799|NCT01616654|164779684|SUPERIORITY||Percentage difference|16.393||||0.04|TWO_SIDED|95.0|-0.249|33.036|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction||33.036|-0.249|0.040
82652346|NCT02637557|165019492|SUPERIORITY||LS Mean Difference|-0.267||||0.0471|TWO_SIDED|95.0|-0.531|-0.003||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.003|-0.531|0.0471
82539800|NCT01616654|164779684|SUPERIORITY||Percentage difference|10.273||||0.184|TWO_SIDED|95.0|-5.923|26.47|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||26.470|-5.923|0.184
82539801|NCT01616654|164779684|SUPERIORITY||Percentage difference|16.393||||0.041|TWO_SIDED|95.0|-0.249|33.036|||Cochran-Mantel-Haenszel|||The 95% confidence interval on the difference between Vehicle and the specified treatment group success rates was based on normal approximation with continuity correction.||33.036|-0.249|0.041
82539802|NCT01616654|164779685|SUPERIORITY||Percentage difference|-6.74||||0.108|TWO_SIDED|95.0|-14.96|1.48|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with terms for treatment, stratum, and Baseline lesion count as covariate.||1.48|-14.96|0.108
82539803|NCT01616654|164779685|SUPERIORITY||Percentage difference|-7.88||||0.06|TWO_SIDED|95.0|-16.11|0.34|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) with terms for treatment, stratum, and Baseline lesion count as covariate.||0.34|-16.11|0.060
82539804|NCT01616654|164779685|SUPERIORITY||Percentage difference|-8.11||||0.054|TWO_SIDED|95.0|-16.35|0.13|||ANCOVA|||Analysis was performed using ANCOVA with terms for treatment, stratum, treatment stratum, and with Baseline lesion count as covariate.||0.13|-16.35|0.054
82539805|NCT01616654|164779685|SUPERIORITY||Percentage difference|-12.97||||0.002|TWO_SIDED|95.0|-21.18|-4.76|||ANCOVA|||Analysis was performed using ANCOVA with terms for treatment, stratum, treatment stratum, and with Baseline lesion count as covariate.||-4.76|-21.18|0.002
82539806|NCT01616654|164779686|SUPERIORITY|||||||0.067|||||||Cochran-Mantel-Haenszel|||||||0.067
82577824|NCT05576662|164864814|OTHER||Mean Difference (Net)|0.57||||0.66|TWO_SIDED|95.0|-1.96|3.1||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.10|-1.96|.66
82436549|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.1659||||0.0352|TWO_SIDED|95.0|-0.3202|-0.0115|||MMRM model|||Estimates for Month 6 to Month 12: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0115|-0.3202|0.0352
82539807|NCT01616654|164779686|SUPERIORITY|||||||0.054|||||||Cochran-Mantel-Haenszel|||||||0.054
82539808|NCT01616654|164779686|SUPERIORITY|||||||0.038|||||||Cochran-Mantel-Haenszel|||||||0.038
82539809|NCT01616654|164779686|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
82539810|NCT00964366|164779695|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|||||||> 0.05
82539811|NCT00964366|164779697|SUPERIORITY_OR_OTHER||||||<|0.05||||||Dapsone versus Clindamycin/BPO gel.|Dunn's Multiple Comparisons Test|||||||< 0.05
82539812|NCT00964366|164779698|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82539813|NCT00964366|164779699|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82539814|NCT02393716|164779707|OTHER|Single arm study with a hypothesis test comparing to performance goal|Percentage|2.9|||<|0.001|ONE_SIDED|97.5||7.2|||Based on exact binomial distribution|||"The primary safety endpoint was tested against a predetermined safety Performance Goal (PG) using the following statistical hypotheses:~H0: p ≥ 20% vs. H1: p \< 20% where p is the proportion of subjects experiencing a MAE within 30 days of the index procedure in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 20% is the safety PG."||7.2||<0.001
82539815|NCT02393716|164779708|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Percentage|95.8|||<|0.001|ONE_SIDED|97.5|90.4||||Based on exact binomial distribution|||"The primary effectiveness endpoint was tested against a predetermined effectiveness PG using following statistical hypotheses:~H0: q ≤ 80% vs. H1: q \> 80% where q is the proportion of subjects who have a successful aneurysm treatment in the target population of subjects treated with the Endurant Evo AAA Stent graft system and 80% is the effectiveness PG."|||90.4|<0.001
82539816|NCT02957539|164779722|SUPERIORITY||Mean Difference (Net)|-4.5|||||TWO_SIDED|97.5|-10.7|1.6|||||Change in weight from baseline to week 32 in the financial rewards arm minus the change in weight from baseline to week 32 in the no rewards arm.|||1.6|-10.7|
82539817|NCT02957539|164779722|SUPERIORITY||Mean Difference (Net)|-5.0|||<|0.025|TWO_SIDED|97.5|-11.1|1.0|||t-test, 2 sided||Change in weight from baseline to week 32 in the non-financial arm minus the change in weight from baseline to week 32 in the no rewards arm|||1|-11.1|<0.025
82539818|NCT02957539|164779723|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|97.5|-0.5|1.8|||||Change in Self Efficacy score from baseline to week 16 in the financial rewards arm minus the change in Self Efficacy score from baseline to week 16 in the no rewards arm.|||1.8|-0.5|
82539819|NCT02957539|164779723|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-0.8|1.5|||||Change in Self Efficacy score from baseline to week 16 in the nonfinancial rewards arm minus the change in Self Efficacy score from baseline to week 16 in the no rewards arm.|||1.5|-0.8|
82539820|NCT02957539|164779724|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|97.5|-1.2|1.4|||||The change in self efficacy from baseline to week 32 in the financial incentive arm minus the change in self efficacy from baseline to week 32 in the no rewards arm|||1.4|-1.2|
82577825|NCT05576662|164864815|OTHER||Mean Difference (Net)|0.38||||0.79|TWO_SIDED|95.0|-2.4|3.15||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||3.15|-2.40|0.79
82436550|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.145||||0.0514|TWO_SIDED|95.0|-0.2909|0.0009|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||0.0009|-0.2909|0.0514
82454725|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454726|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.35|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.35
82454727|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454728|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.3|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.30
82454729|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.34|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.34
82454730|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454731|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82436551|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.168||||0.0265|TWO_SIDED|95.0|-0.3164|-0.0196|||MMRM model|||Estimates for Month 12 to Month 18: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.0196|-0.3164|0.0265
82436552|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.3532|||<|0.0001|TWO_SIDED|95.0|-0.5245|-0.1819|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1819|-0.5245|<0.0001
82454732|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454733|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454734|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454735|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454736|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454737|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454738|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.76|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.76
82454739|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
82454740|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82539821|NCT02957539|164779724|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|97.5|-0.9|1.8|||||The change in self efficacy from baseline to week 32 in the nonfinancial incentive arm minus the change in self efficacy from baseline to week 32 in the no rewards arm|||1.8|-.9|
82454741|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454742|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82436553|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.2848||||0.0002|TWO_SIDED|95.0|-0.4336|-0.1361|||MMRM model|||Estimates for Month 18 to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.1361|-0.4336|0.0002
82539822|NCT02957539|164779725|SUPERIORITY||Mean Difference (Net)|1.5|||||TWO_SIDED|97.5|0.2|2.8|||||The change in self efficacy from baseline to week 52 in the financial incentive arm minus the change in self efficacy from baseline to week 52 in the no rewards arm|||2.8|0.2|
82436554|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.7251||||0.0006|TWO_SIDED|95.0|-1.1373|-0.3129|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.3129|-1.1373|0.0006
82436555|NCT03525600|164582395|SUPERIORITY|Baseline GA lesion area x Time (continuous) + Baseline GA lesion area x Time Spline at Month 6 (continuous) + Baseline GA lesion area x Time Spline at Month 12 (continuous) + Baseline GA lesion area x Time Spline at Month 18 (continuous). A heterogeneous autoregressive covariance matrix was used to model within-subject errors.|Mean Difference|-0.698||||0.001|TWO_SIDED|95.0|-1.1142|-0.2817|||MMRM model|||Estimates for Baseline to Month 24: Model included Treatment + Baseline GA lesion area (\< 7.5 mm\^2 or \>= 7.5 mm\^2) + Time (continuous) + Time Spline at Month 6 (continuous) + Time Spline at Month 12 (continuous) + Time Spline at Month 18 (continuous) + Presence of CNV in the fellow eye (Yes or No) + Time (continuous) x Treatment + Time Spline at Month 6 (continuous) x Treatment + Time Spline at Month 12 (continuous) x Treatment + Time Spline at Month 18 (continuous) x Treatment +||-0.2817|-1.1142|0.0010
82436556|NCT01818258|164582424|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Comparison for number who experienced at least one grade 3 or higher adverse event. Null hypothesis of no difference between cohorts.||||0.40
82436557|NCT01818258|164582425|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||Comparison for number who experienced at least one grade 3 or higher adverse event related to study treatment. Null hypothesis of no difference between cohorts.||||>0.999
82436558|NCT01818258|164582426|SUPERIORITY||Geometric Mean Ratio|0.77||||0.49|TWO_SIDED|95.0|0.4|1.6|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.6|0.4|0.49
82436559|NCT01818258|164582426|SUPERIORITY||Geometric Mean Ratio|0.64||||0.23|TWO_SIDED|95.0|0.3|1.4|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.3|0.23
82436560|NCT01818258|164582426|SUPERIORITY||Geometric Mean Ratio|0.81||||0.63|TWO_SIDED|95.0|0.3|2.0|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 Comparison of LPV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.0|0.3|0.63
82436561|NCT01818258|164582427|SUPERIORITY||Geometric Mean Ratio|1.06||||0.89|TWO_SIDED|95.0|0.5|2.3|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of LPV Clearance between cohorts. Null hypothesis of no difference between cohorts.||2.3|0.5|0.89
82436562|NCT01818258|164582427|SUPERIORITY||Geometric Mean Ratio|1.42||||0.37|TWO_SIDED|95.0|0.7|3.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 Comparison of LPV clearance between cohorts. Null hypothesis of no difference between cohorts.||3.1|0.7|0.37
82436563|NCT01818258|164582427|SUPERIORITY||Geometric Mean Ratio|1.23||||0.63|TWO_SIDED|95.0|0.5|2.9|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 Comparison of LPV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.9|0.5|0.63
82436564|NCT01818258|164582428|SUPERIORITY||Geometric Mean Ratio|0.76||||0.42|TWO_SIDED|95.0|0.4|1.5|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 Comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.5|0.4|0.42
82436565|NCT01818258|164582428|SUPERIORITY||Geometric Mean Ratio|0.58||||0.11|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.1|0.3|0.11
82436566|NCT01818258|164582428|SUPERIORITY||Geometric Mean Ratio|0.77||||0.44|TWO_SIDED|95.0|0.4|1.5|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of RTV AUC between cohorts. Null hypothesis of no difference between cohorts.||1.5|0.4|0.44
82539823|NCT02957539|164779725|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|97.5|0.0|2.3|||||The change in self efficacy from baseline to week 52 in the nonfinancial incentive arm minus the change in self efficacy from baseline to week 52 in the no rewards arm|||2.3|0.0|
82539824|NCT02957539|164779726|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|97.5|-0.4|0.9|||||Change in intrinsic motivation score from baseline to week 16 in the financial rewards arm minus the change in intrinsic motivation score from baseline to week 16 in the no rewards arm.|||0.9|-0.4|
82539825|NCT02957539|164779726|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|97.5|-0.6|0.7|||||Change in intrinsic motivation score from baseline to week 16 in the nonfinancial rewards arm minus the change in intrinsic motivation score from baseline to week 16 in the no rewards arm.|||0.7|-0.6|
82436567|NCT01818258|164582429|SUPERIORITY||Geometric Mean Ratio|1.07||||0.84|TWO_SIDED|95.0|0.5|2.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.2|0.5|0.84
82539826|NCT02957539|164779727|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|97.5|-0.2|1.3|||||The change in intrinsic motivation from baseline to week 32 in the financial incentive arm minus the change in intrinsic motivation from baseline to week 32 in the no rewards arm|||1.3|-0.2|
82539827|NCT02957539|164779727|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|97.5|-0.3|1.6|||||The change in intrinsic motivation from baseline to week 32 in the nonfinancial incentive arm minus the change in intrinsic motivation from baseline to week 32 in the no rewards arm|||1.6|-0.3|
82539828|NCT02957539|164779728|SUPERIORITY||Mean Difference (Final Values)|0.5|||||TWO_SIDED|97.5|-0.5|1.5|||||The change in intrinsic motivation from baseline to week 52 in the financial incentive arm minus the change in intrinsic motivation from baseline to week 52 in the no rewards arm|||1.5|-0.5|
82539829|NCT02957539|164779728|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|97.5|-0.8|1.6|||||Incentive Group minus usual care|||1.6|-0.8|
82539830|NCT02957539|164779729|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-2.0|2.6|||||Change in PHQ-8 score from baseline to week 16 in the financial rewards arm minus the change in PHQ-8 score from baseline to week 16 in the no rewards arm.|||2.6|-2.0|
82539831|NCT02957539|164779729|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|97.5|-1.5|2.9|||||Change in PHQ-9 from week baseline to week 16 in the non-financial incentive group minus the change from week baseline to week 16 in the no rewards group|||2.9|-1.5|
82649220|NCT00185211|165013764|SUPERIORITY_OR_OTHER||Relative effect size|0.7351||||0.0435||95.0|0.5436|0.994||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|generalized linear model|Distribution: negative binomial distribution; covariate: number of Gd-enhancing lesions on T1 at screening|The direction of comparison is initial IFNB-1b versus initial placebo.|Assuming that the cumulative number of newly active lesions at month 60 follows a negative binomial distribution, a generalized linear model (logarithmic link function, covariate: number of Gd-enhancing lesions on T1 at BENEFIT screening) was set up in order to analyze the treatment effect on that MRI outcome.||0.9940|0.5436|0.0435
82436568|NCT01818258|164582429|SUPERIORITY||Geometric Mean Ratio|1.54||||0.21|TWO_SIDED|95.0|0.8|3.1|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||3.1|0.8|0.21
82436569|NCT01818258|164582429|SUPERIORITY||Geometric Mean Ratio|1.29||||0.44|TWO_SIDED|95.0|0.7|2.5|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of RTV clearance between cohorts. Null hypothesis of no difference between cohorts.||2.5|0.7|0.44
82436570|NCT01818258|164582430|SUPERIORITY||Geometric Mean Ratio|0.77||||0.27|TWO_SIDED|95.0|0.5|1.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.2|0.5|0.27
82436571|NCT01818258|164582430|SUPERIORITY||Geometric Mean Ratio|0.6||||0.047|TWO_SIDED|95.0|0.4|1.0|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.0|0.4|0.047
82436572|NCT01818258|164582430|SUPERIORITY||Geometric Mean Ratio|1.09||||0.76|TWO_SIDED|95.0|0.6|1.9|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of 3TC AUC between cohorts. Null hypothesis of no difference between cohorts.||1.9|0.6|0.76
82436573|NCT01818258|164582431|SUPERIORITY||Geometric Mean Ratio|0.0||||0.89|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||0.5|-0.4|0.89
82436574|NCT01818258|164582431|SUPERIORITY||Geometric Mean Ratio|1.4||||0.18|TWO_SIDED|95.0|0.8|2.3|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||2.3|0.8|0.18
82436575|NCT01818258|164582431|SUPERIORITY||Geometric Mean Ratio|0.85||||0.53|TWO_SIDED|95.0|0.5|1.4|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of 3TC clearance between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.5|0.53
82436576|NCT01818258|164582432|SUPERIORITY||Geometric Mean Ratio|1.27||||0.39|TWO_SIDED|95.0|0.7|2.2|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.2|0.7|0.39
82436577|NCT01818258|164582432|SUPERIORITY||Geometric Mean Ratio|1.37||||0.43|TWO_SIDED|95.0|0.6|3.0|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||3.0|0.6|0.43
82436578|NCT01818258|164582432|SUPERIORITY||Geometric Mean Ratio|1.52||||0.003|TWO_SIDED|95.0|1.2|2.0|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of ZDV AUC between cohorts. Null hypothesis of no difference between cohorts.||2.0|1.2|0.003
82454743|NCT01128426|164614037|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82539832|NCT02957539|164779730|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|97.5|-1.7|4.5|||||The change in PHQ-8 from baseline to week 32 in the financial incentive arm minus the change in PHQ-8 from baseline to week 32 in the no rewards arm|||4.5|-1.7|
82539833|NCT02957539|164779730|SUPERIORITY||Mean Difference (Net)|2.2|||||TWO_SIDED|97.5|-0.7|5.0|||||The change in PHQ-8 from baseline to week 32 in the nonfinancial incentive arm minus the change in PHQ-8 from baseline to week 32 in the no rewards arm|||5.0|-0.7|
82539834|NCT02957539|164779731|SUPERIORITY||Mean Difference (Net)|-1.1|||||TWO_SIDED|97.5|-4.9|2.8|||||Change in PHQ-8 score from baseline to week 52 in the financial rewards arm minus the change in PHQ-8 score from baseline to week 52 in the no rewards arm.|||2.8|-4.9|
82539835|NCT02957539|164779731|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|97.5|-2.9|3.6|||||The change in PHQ-8 from baseline to week 52 in the nonfinancial incentive arm minus the change in PHQ-8 from baseline to week 52 in the no rewards arm|||3.6|-2.9|
82649221|NCT00185211|165013765|SUPERIORITY_OR_OTHER|||||||0.7801||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: T2 lesion volume at screening||"The null hypothesis H0: The distribution of the absolute change of T2 lesion volume at month 60 adjusted for the T2 lesion volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.7801
82649222|NCT00185211|165013765|SUPERIORITY_OR_OTHER|||||||0.9408||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: T2 lesion volume at screening||"The null hypothesis H0: The mean absolute change of T2 lesion volume at month 60 adjusted for the T2 lesion volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.9408
82649223|NCT00185211|165013766|SUPERIORITY_OR_OTHER|||||||0.6619||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: Volume of black holes at screening||"The null hypothesis H0: The distribution of the absolute change of volume of black holes at month 60 adjusted for the volume of black holes at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.6619
82649224|NCT00185211|165013766|SUPERIORITY_OR_OTHER|||||||0.8558||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: Volume of black holes at screening||"The null hypothesis H0: The mean absolute change of volume of black holes at month 60 adjusted for the volume of black holes at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.8558
82649225|NCT00185211|165013767|SUPERIORITY_OR_OTHER|||||||0.1208||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|non-parametric ANCOVA|Variable used as covariate: Brain volume at screening||"The null hypothesis H0: The distribution of the percentage change of brain volume at month 60 adjusted for the brain volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a non-parametric analysis of covariance (ANCOVA)."||||0.1208
82649226|NCT00185211|165013767|SUPERIORITY_OR_OTHER|||||||0.0719||95.0||||The two-sided error level for the exploratory analysis of the secondary outcome measures was of 0.05.|ANCOVA|Variable used as covariate: Brain volume at screening||"The null hypothesis H0: The mean percentage change of brain volume at month 60 adjusted for the brain volume at screening is identical for both treatment arms. was tested against the corresponding two-sided alternative hypothesis based on a parametric analysis of covariance (ANCOVA)."||||0.0719
82649227|NCT00420290|165013772|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||0.031 is the upper level of significance|ANCOVA|||Using data from 128 CHD patients, CRP data were highly skewed, and data were log transformed to achieve normality. With 14 pts in each group (total of 28), it was predicted the minimum detectable difference between control and intervention would be 15% (1.22 for control group and 1.00 for the intervention group), with an 80% power and an alpha of 0.05 using t test approach. Thus, planned sample size was 30 to complete the study.||||0.008
82649228|NCT00420290|165013773|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|||||||0.03
82649229|NCT00420290|165013774|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82649230|NCT00420290|165013775|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82454744|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0 .63
82454745|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82539836|NCT02957539|164779732|SUPERIORITY||Mean Difference (Net)|-3.2|||||TWO_SIDED|97.5|-7.4|1.0|||||Change in weight from baseline to week 16 in the financial rewards arm minus the change in weight from baseline to week 16 in the no rewards arm.|||1|-7.4|
82649231|NCT00420290|165013776|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82454746|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454747|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.6|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.60
82454748|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454749|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82539837|NCT02957539|164779732|SUPERIORITY||Mean Difference (Net)|-4.6|||||TWO_SIDED|97.5|-8.7|-0.4|||||Change in weight from baseline to week 16 in the nonfinancial rewards arm minus the change in weight from baseline to week 32 in the no rewards arm.|||-0.4|-8.7|
82539838|NCT02957539|164779733|SUPERIORITY||Mean Difference (Net)|2.4|||||TWO_SIDED|97.5|-6.0|10.7|||||Change in weight from baseline to week 52 in the financial rewards arm minus the change in weight from baseline to week 52 in the no rewards arm.|||10.7|-6|
82649232|NCT01859390|165013782|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.46|TWO_SIDED|95.0|-0.49|0.22|||t-test, 2 sided|||Two-sample T-test||0.22|-0.49|0.460
82649233|NCT01859390|165013782|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.325|TWO_SIDED|95.0|-0.513|0.173|||Regression, Linear||"Regression Model predictors include: AquADEKs-2 arm, Age \>=18 years, Sex, Screening FEV1%Predicted \>70%, Chronic use of Inhaled Antibiotics and Azithromycin.~The estimated value is the mean difference between groups for 16 week change in log10 MPO."|||0.173|-0.513|0.325
82649234|NCT01859390|165013783|SUPERIORITY||Difference in Proportions-SAE incidence|-12.9||||0.302|TWO_SIDED|95.0|-32.1|7.8|||Fisher Exact|||||7.8|-32.1|0.302
82454750|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454751|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454752|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454753|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.11|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.11
82454754|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82454755|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454756|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454757|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82539839|NCT02957539|164779733|SUPERIORITY||Mean Difference (Net)|-3.6|||||TWO_SIDED|97.5|-11.2|4.1|||||Change in weight from baseline to week 52 in the nonfinancial rewards arm minus the change in weight from baseline to week 52 in the no rewards arm.|||4.1|-11.2|
82539840|NCT01256034|164779783|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||||||<0.05
82539841|NCT00758602|164779785|SUPERIORITY_OR_OTHER||LS Mean difference|0.6581||||0.0813|TWO_SIDED|95.0|-0.08|1.4||p-value, least squares (LS) mean difference, and 95% confidence interval (CI) based on analysis of covariance (ANCOVA) model with treatment, center, and the treatment-by-center interaction as fixed effects, and the donor age as a covariate.|ANCOVA|||||1.40|-0.08|0.0813
82539842|NCT00758602|164779786|SUPERIORITY_OR_OTHER||LS Mean difference|-1.5977||||0.7949|TWO_SIDED|95.0|-13.77|10.58||p-value, LS mean difference, and 95% CI based on ANCOVA model with treatment, center, and the treatment-by-center interaction as fixed effects, and the donor age as a covariate.|ANCOVA|||||10.58|-13.77|0.7949
82539843|NCT00758602|164779787|SUPERIORITY_OR_OTHER|||||||0.6812|||||||Fisher Exact|||Acute rejection, 6 months post-transplant||||0.6812
82539844|NCT00758602|164779787|SUPERIORITY_OR_OTHER|||||||0.6812|||||||Fisher Exact|||Acute rejection, 12 months post-transplant||||0.6812
82539845|NCT00758602|164779787|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Death, 12 months post-transplant||||1.0000
82539846|NCT00758602|164779789|SUPERIORITY_OR_OTHER|||||||1|||||||Log Rank|||||||1.0000
82539847|NCT00758602|164779790|SUPERIORITY_OR_OTHER|||||||0.4586|||||||Fisher Exact|||||||0.4586
82539848|NCT00758602|164779791|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82539849|NCT05046132|164779799|OTHER||Mean of Placebo-corrected CHFB|3.7|STANDARD_ERROR_OF_MEAN|1.48|||TWO_SIDED|90.0|1.23|6.17||||||"The C-QTc analysis was performed with a non-linear model.~The mean of placebo-corrected CHFB in QTcF at maximum concentration (Cmax) geometric mean of therapeutic dose (3 mg QD) was estimated with bias-corrected 90% CI by nonparametric bootstrap methods."||6.17|1.23|
82539850|NCT05046132|164779800|OTHER||Mean of Placebo-corrected CHFB|4.67|||||TWO_SIDED|90.0|1.7|7.64||||||The C-QTc analysis was performed with a non-linear model. The mean of placebo-corrected CHFB in QTcF at Cmax geometric mean of therapeutic dose (7 mg QD) was estimated with bias-corrected 90% CI by nonparametric bootstrap methods.||7.64|1.70|
82539851|NCT05046132|164779801|OTHER||LS Mean|2.5|||||TWO_SIDED|90.0|-0.6|5.6||||||Pre-dose||5.6|-0.6|
82539852|NCT05046132|164779801|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-3.0|3.1||||||0.5 hr Post dose||3.1|-3.0|
82649235|NCT01859390|165013784|SUPERIORITY||Rate Ratio|0.94||||0.486|TWO_SIDED|95.0|0.78|1.13|||Poisson Model|||Rate Ratio for Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the AquADEKs-2 group was 642 and in the Control group was 639.||1.13|0.78|0.486
82454758|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82454759|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82454760|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.36|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.36
82454761|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454762|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454763|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
82454764|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.75|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.75
82454765|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454766|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454767|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82539853|NCT05046132|164779801|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.8|3.0||||||1 hr Post dose||3.0|-2.8|
82454768|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454769|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
82454770|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82454771|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454772|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454773|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454774|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
82454775|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.84|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.84
82454776|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.44|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.44
82454777|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454778|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454779|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454780|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454781|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454782|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454783|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454784|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454785|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82454786|NCT01128426|164614038|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82454787|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454788|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.77|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.77
82454789|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454790|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.55|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.55
82454791|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454792|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
82454793|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454794|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82539854|NCT05046132|164779801|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.8|5.1||||||1.5 hr Post dose||5.1|-1.8|
82539855|NCT05046132|164779801|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.8|4.1||||||2 hr Post dose||4.1|-2.8|
82539856|NCT05046132|164779801|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.9|3.4||||||2.5 hr Post dose||3.4|-2.9|
82539857|NCT05046132|164779801|OTHER||LS Mean|2.2|||||TWO_SIDED|90.0|-1.4|5.7||||||3 hr Post dose||5.7|-1.4|
82539858|NCT05046132|164779801|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-2.9|2.7||||||4 hr Post dose||2.7|-2.9|
82539859|NCT05046132|164779801|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.1|2.7||||||5 hr Post dose||2.7|-3.1|
82539860|NCT05046132|164779801|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-3.8|2.3||||||6 hr Post dose||2.3|-3.8|
82539861|NCT05046132|164779801|OTHER||LS Mean|-2.8|||||TWO_SIDED|90.0|-5.5|-0.1||||||7 hr Post dose||-0.1|-5.5|
82454795|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454796|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
82454797|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82454798|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82454799|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454800|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82454801|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454802|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
82454803|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454804|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82649236|NCT01859390|165013784|SUPERIORITY|Rate Ratio for Serious Adverse Events calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the AquADEKs-2 group was 642 and in the Control group was 639.|Rate Ratio|0.74||||0.269|TWO_SIDED|95.0|0.43|1.26|||Poisson Regression|||||1.26|0.43|0.269
82454805|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454806|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454807|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454808|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82454809|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454810|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454811|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
82454812|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454813|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454814|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454815|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
82454816|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82539862|NCT05046132|164779801|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.5|1.3||||||8 hr Post dose||1.3|-4.5|
82539863|NCT05046132|164779801|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.5|3.0||||||9 hr Post dose||3.0|-2.5|
82539864|NCT05046132|164779801|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.3|2.7||||||10 hr Post dose||2.7|-2.3|
82539865|NCT05046132|164779801|OTHER||LS Mean|-3.0|||||TWO_SIDED|90.0|-5.9|-0.1||||||12 hr Post dose||-0.1|-5.9|
82539866|NCT05046132|164779801|OTHER||LS Mean|-2.0|||||TWO_SIDED|90.0|-5.1|1.0||||||16 hr Post dose||1.0|-5.1|
82539867|NCT05046132|164779801|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-1.6|3.8||||||24 hr Post dose||3.8|-1.6|
82539868|NCT05046132|164779801|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-1.7|4.5||||||Pre-dose||4.5|-1.7|
82539869|NCT05046132|164779801|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.4|4.7||||||0.5 hr Post dose||4.7|-1.4|
82539870|NCT05046132|164779801|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.0|4.8||||||1 hr Post dose||4.8|-1.0|
82539871|NCT05046132|164779801|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-0.9|6.0||||||1.5 hr Post dose||6.0|-0.9|
82539872|NCT05046132|164779801|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-2.1|4.8||||||2 hr Post dose||4.8|-2.1|
82539873|NCT05046132|164779801|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.4|4.9||||||2.5 hr Post dose||4.9|-1.4|
82539874|NCT05046132|164779801|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.9|5.1||||||3 hr Post dose||5.1|-1.9|
82539875|NCT05046132|164779801|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-1.4|4.2||||||4 hr Post dose||4.2|-1.4|
82539876|NCT05046132|164779801|OTHER||LS Mean|2.7|||||TWO_SIDED|90.0|-0.2|5.7||||||5 hr Post dose||5.7|-0.2|
82539877|NCT05046132|164779801|OTHER||LS Mean|4.4|||||TWO_SIDED|90.0|1.4|7.5||||||6 hr Post dose||7.5|1.4|
82649237|NCT01859390|165013785|SUPERIORITY|Two sample T-test|Median Difference (Final Values)|1.43||||0.4463|TWO_SIDED|95.0|-2.3|5.16|||t-test, 2 sided|||||5.16|-2.30|0.4463
82649238|NCT01859390|165013786|SUPERIORITY||Median Difference (Final Values)|0.04||||0.8623|TWO_SIDED|95.0|-0.37|0.44|||t-test, 2 sided|||||0.44|-0.37|0.8623
82649239|NCT01859390|165013787|SUPERIORITY||Cox Proportional Hazard|0.536||||0.0534|TWO_SIDED|95.0|0.284|1.009||Not adjusted for multiple comparisons. Alpha at 0.05.|Regression, Cox||"Cox model parameters include: AquADEKs-2 arm, Age \>=18 years, Sex, Screening FEV1 % Predicted \>70%, Chronic use of Inhaled Antibiotics and Azithromycin.~The parameter of interest is the Hazard Ratio comparing the AquADEKs-2 arm to the control arm."|||1.009|0.284|0.0534
82539878|NCT05046132|164779801|OTHER||LS Mean|2.8|||||TWO_SIDED|90.0|0.1|5.5||||||7 hr Post dose||5.5|0.1|
82539879|NCT05046132|164779801|OTHER||LS Mean|4.1|||||TWO_SIDED|90.0|1.2|7.0||||||8 hr Post dose||7.0|1.2|
82539880|NCT05046132|164779801|OTHER||LS Mean|3.6|||||TWO_SIDED|90.0|0.8|6.3||||||9 hr Post dose||6.3|0.8|
82539881|NCT05046132|164779801|OTHER||LS Mean|3.3|||||TWO_SIDED|90.0|0.8|5.8||||||10 hr Post dose||5.8|0.8|
82539882|NCT05046132|164779801|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-0.3|5.5||||||12 hr Post dose||5.5|-0.3|
82539883|NCT05046132|164779801|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.7|3.4||||||16 hr Post dose||3.4|-2.7|
82539884|NCT05046132|164779801|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.0|4.4||||||24 hr Post dose||4.4|-1.0|
82539885|NCT05046132|164779802|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.8|3.4||||||Pre dose||3.4|-2.8|
82539886|NCT05046132|164779802|OTHER||LS Mean|-2.1|||||TWO_SIDED|90.0|-5.3|1.0||||||0.5 hr Post dose||1.0|-5.3|
82539887|NCT05046132|164779802|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.7|1.4||||||1 hr Post dose||1.4|-4.7|
82539888|NCT05046132|164779802|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.3|1.0||||||1.5 hr Post dose||1.0|-5.3|
82539889|NCT05046132|164779802|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.3|-0.3||||||2 hr Post dose||-0.3|-6.3|
82539890|NCT05046132|164779802|OTHER||LS Mean|-1.2|||||TWO_SIDED|90.0|-4.1|1.7||||||2.5 hr Post dose||1.7|-4.1|
82539891|NCT05046132|164779802|OTHER||LS Mean|-1.3|||||TWO_SIDED|90.0|-4.2|1.7||||||3 hr Post dose||1.7|-4.2|
82539892|NCT05046132|164779802|OTHER||LS Mean|-0.6|||||TWO_SIDED|90.0|-3.6|2.5||||||4 hr Post dose||2.5|-3.6|
82539893|NCT05046132|164779802|OTHER||LS Mean|-1.0|||||TWO_SIDED|95.0|-4.1|2.1||||||5 hr Post dose||2.1|-4.1|
82539894|NCT05046132|164779802|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-2.7|3.5||||||6 hr Post dose||3.5|-2.7|
82539895|NCT05046132|164779802|OTHER||LS Mean|-2.5|||||TWO_SIDED|90.0|-5.5|0.5||||||7 hr Post dose||0.5|-5.5|
82539896|NCT05046132|164779802|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.2|0.8||||||8 hr Post dose||0.8|-5.2|
82539897|NCT05046132|164779802|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-4.3|2.6||||||9 hr Post dose||2.6|-4.3|
82539898|NCT05046132|164779802|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.6|3.2||||||10 hr Post dose||3.2|-3.6|
82539899|NCT05046132|164779802|OTHER||LS Mean|-2.2|||||TWO_SIDED|90.0|-5.5|1.0||||||12 hr Post dose||1.0|-5.5|
82539900|NCT05046132|164779802|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-5.4|1.7||||||16 hr Post dose||1.7|-5.4|
82539901|NCT05046132|164779802|OTHER||LS Mean|2.6|||||TWO_SIDED|90.0|-1.2|6.3||||||24 hr Post dose||6.3|-1.2|
82539902|NCT05046132|164779802|OTHER||LS Mean|-2.1|||||TWO_SIDED|90.0|-5.1|0.8||||||Pre-dose||0.8|-5.1|
82539903|NCT05046132|164779802|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.1|3.0||||||0.5 hr Post dose||3.0|-3.1|
82539904|NCT05046132|164779802|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.0|2.9||||||1 hr Post dose||2.9|-3.0|
82539905|NCT05046132|164779802|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.1|3.0||||||1.5 hr Post dose||3.0|-3.1|
82539906|NCT05046132|164779802|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.8|2.0||||||2 hr Post dose||2.0|-3.8|
82539907|NCT05046132|164779802|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.5|3.0||||||2.5 hr Post dose||3.0|-2.5|
82539908|NCT05046132|164779802|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-1.9|3.7||||||3 hr Post dose||3.7|-1.9|
82539909|NCT05046132|164779802|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.2|3.7||||||4 hr Post dose||3.7|-2.2|
82539910|NCT05046132|164779802|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.8|3.1||||||5 hr Post dose||3.1|-2.8|
82539911|NCT05046132|164779802|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.9|2.0||||||6 hr Post dose||2.0|-3.9|
82539912|NCT05046132|164779802|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-3.1|2.7||||||7 hr Post dose||2.7|-3.1|
82539913|NCT05046132|164779802|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-2.7|3.1||||||8 hr Post dose||3.1|-2.7|
82539914|NCT05046132|164779802|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-2.7|4.0||||||9 hr Post dose||4.0|-2.7|
82539915|NCT05046132|164779802|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-2.3|4.1||||||10 hr Post dose||4.1|-2.3|
82539916|NCT05046132|164779802|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-3.5|2.8||||||12 hr Post dose||2.8|-3.5|
82539917|NCT05046132|164779802|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-3.8|3.0||||||16 hr Post dose||3.0|-3.8|
82539918|NCT05046132|164779802|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-5.1|2.0||||||24 hr Post dose||2.0|-5.1|
82539919|NCT05046132|164779803|OTHER||LS Mean|3.5|||||TWO_SIDED|90.0|0.1|6.8||||||Pre dose||6.8|0.1|
82539920|NCT05046132|164779803|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-3.0|4.6||||||0.5 hr Post dose||4.6|-3.0|
82539921|NCT05046132|164779803|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-4.1|3.9||||||1 hr Post dose||3.9|-4.1|
82539922|NCT05046132|164779803|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-2.7|4.4||||||1.5 hr Post dose||4.4|-2.7|
82539923|NCT05046132|164779803|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|-0.6|6.6||||||2 hr Post dose||6.6|-0.6|
82539924|NCT05046132|164779803|OTHER||LS Mean|3.5|||||TWO_SIDED|90.0|-0.3|7.4||||||2.5 hr Post dose||7.4|-0.3|
82539925|NCT05046132|164779803|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|1.2|8.1||||||3 hr Post dose||8.1|1.2|
82539926|NCT05046132|164779803|OTHER||LS Mean|5.2|||||TWO_SIDED|90.0|1.5|8.9||||||4 hr Post dose||8.9|1.5|
82539927|NCT05046132|164779803|OTHER||LS Mean|2.0|||||TWO_SIDED|90.0|-1.7|5.8||||||5 hr Post dose||5.8|-1.7|
82539928|NCT05046132|164779803|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-1.6|5.1||||||6 hr Post dose||5.1|-1.6|
82539929|NCT05046132|164779803|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-1.1|5.7||||||7 hr Post dose||5.7|-1.1|
82539930|NCT05046132|164779803|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-1.4|6.2||||||8 hr Post dose||6.2|-1.4|
82454817|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.55|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.55
82454818|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
82454819|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454820|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
82454821|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454822|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454823|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454824|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454825|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.64|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.64
82454826|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
82454827|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
82454828|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82539931|NCT05046132|164779803|OTHER||LS Mean|4.4|||||TWO_SIDED|90.0|0.9|7.8||||||9 hr Post dose||7.8|0.9|
82454829|NCT01128426|164614039|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454830|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82454831|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
82454832|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method.The null hypothesis was relative risk = 1.||||0.13
82454833|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82454834|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454835|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
82454836|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454837|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454838|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454839|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454840|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.15|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.15
82454841|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454842|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82539932|NCT05046132|164779803|OTHER||LS Mean|3.8|||||TWO_SIDED|90.0|0.3|7.4||||||10 hr Post dose||7.4|0.3|
82539933|NCT05046132|164779803|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-4.2|2.7||||||12 hr Post dose||2.7|-4.2|
82539934|NCT05046132|164779803|OTHER||LS Mean|3.6|||||TWO_SIDED|90.0|0.1|7.0||||||16 hr Post dose||7.0|0.1|
82539935|NCT05046132|164779803|OTHER||LS Mean|-1.5|||||TWO_SIDED|90.0|-5.7|2.8||||||24 hr Post dose||2.8|-5.7|
82539936|NCT05046132|164779803|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-1.0|5.6||||||Pre dose||5.6|-1.0|
82539937|NCT05046132|164779803|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-5.4|2.2||||||0.5 hr Post dose||2.2|-5.4|
82539938|NCT05046132|164779803|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.8|4.3||||||1 hr Post dose||4.3|-3.8|
82539939|NCT05046132|164779803|OTHER||LS Mean|4.0|||||TWO_SIDED|90.0|0.4|7.6||||||1.5 hr Post dose||7.6|0.4|
82539940|NCT05046132|164779803|OTHER||LS Mean|6.3|||||TWO_SIDED|90.0|2.7|10.0||||||2 hr Post dose||10.0|2.7|
82539941|NCT05046132|164779803|OTHER||LS Mean|6.4|||||TWO_SIDED|90.0|2.6|10.2||||||2.5 hr Post dose||10.2|2.6|
82649240|NCT01859390|165013788|SUPERIORITY||Rate Ratio|0.72||||0.1731|TWO_SIDED|95.0|0.44|1.16|||Poisson Model|||Rate Ratio for PEx calculated using Poisson Regression with an offset for the log of follow-up time in months. The total number of follow-up months in the AquADEKs-2 group was 148 and in the Control group was 147.||1.16|0.44|0.1731
82539942|NCT05046132|164779803|OTHER||LS Mean|8.5|||||TWO_SIDED|90.0|5.0|12.0||||||3 hr Post dose||12.0|5.0|
82539943|NCT05046132|164779803|OTHER||LS Mean|10.1|||||TWO_SIDED|90.0|6.4|13.8||||||4 hr Post dose||13.8|6.4|
82539944|NCT05046132|164779803|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|4.1|11.6||||||5 hr Post dose||11.6|4.1|
82539945|NCT05046132|164779803|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|4.4|11.2||||||6 hr Post dose||11.2|4.4|
82539946|NCT05046132|164779803|OTHER||LS Mean|6.8|||||TWO_SIDED|90.0|3.4|10.2||||||7 hr Post dose||10.2|3.4|
82539947|NCT05046132|164779803|OTHER||LS Mean|4.5|||||TWO_SIDED|90.0|0.6|8.3||||||8 hr Post dose||8.3|0.6|
82539948|NCT05046132|164779803|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|3.1|10.0||||||9 hr Post dose||10.0|3.1|
82539949|NCT05046132|164779803|OTHER||LS Mean|6.6|||||TWO_SIDED|90.0|3.0|10.1||||||10 hr Post dose||10.1|3.0|
82539950|NCT05046132|164779803|OTHER||LS Mean|5.3|||||TWO_SIDED|90.0|1.8|8.8||||||12 hr Post dose||8.8|1.8|
82539951|NCT05046132|164779803|OTHER||LS Mean|7.2|||||TWO_SIDED|90.0|3.7|10.6||||||16 hr Post dose||10.6|3.7|
82539952|NCT05046132|164779803|OTHER||LS Mean|3.3|||||TWO_SIDED|90.0|-1.0|7.5||||||24 hr Post dose||7.5|-1.0|
82539953|NCT05046132|164779804|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|3.7|11.8||||||Pre dose||11.8|3.7|
82539954|NCT05046132|164779804|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|3.3|9.8||||||0.5 hr Post dose||9.8|3.3|
82539955|NCT05046132|164779804|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|0.6|8.6||||||1 hr Post dose||8.6|0.6|
82577826|NCT05576662|164864816|OTHER||Mean Difference (Net)|0.6||||0.7|TWO_SIDED|95.0|-2.55|3.75||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||3.75|-2.55|.70
82539956|NCT05046132|164779804|OTHER||LS Mean|4.6|||||TWO_SIDED|90.0|0.6|8.6||||||1.5 hr Post dose||8.6|0.6|
82539957|NCT05046132|164779804|OTHER||LS Mean|3.8|||||TWO_SIDED|90.0|-0.4|8.0||||||2 hr Post dose||8.0|-0.4|
82539958|NCT05046132|164779804|OTHER||LS Mean|6.1|||||TWO_SIDED|90.0|1.8|10.4||||||2.5 hr Post dose||10.4|1.8|
82539959|NCT05046132|164779804|OTHER||LS Mean|5.7|||||TWO_SIDED|90.0|1.7|9.8||||||3 hr Post dose||9.8|1.7|
82539960|NCT05046132|164779804|OTHER||LS Mean|6.2|||||TWO_SIDED|90.0|2.5|9.8||||||4 hr Post dose||9.8|2.5|
82539961|NCT05046132|164779804|OTHER||LS Mean|5.7|||||TWO_SIDED|90.0|1.6|9.8||||||5 hr Post dose||9.8|1.6|
82539962|NCT05046132|164779804|OTHER||LS Mean|4.8|||||TWO_SIDED|90.0|1.1|8.4||||||6 hr Post dose||8.4|1.1|
82539963|NCT05046132|164779804|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|-0.9|7.0||||||7 hr Post dose||7.0|-0.9|
82539964|NCT05046132|164779804|OTHER||LS Mean|5.0|||||TWO_SIDED|90.0|1.3|8.8||||||8 hr Post dose||8.8|1.3|
82539965|NCT05046132|164779804|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|2.5|10.6||||||9 hr Post dose||10.6|2.5|
82539966|NCT05046132|164779804|OTHER||LS Mean|8.6|||||TWO_SIDED|90.0|4.8|12.3||||||10 hr Post dose||12.3|4.8|
82539967|NCT05046132|164779804|OTHER||LS Mean|7.9|||||TWO_SIDED|90.0|4.4|11.4||||||12 hr Post dose||11.4|4.4|
82539968|NCT05046132|164779804|OTHER||LS Mean|4.9|||||TWO_SIDED|90.0|0.9|8.9||||||16 hr Post dose||8.9|0.9|
82539969|NCT05046132|164779804|OTHER||LS Mean|7.8|||||TWO_SIDED|90.0|3.6|12.0||||||24 hr Post dose||12.0|3.6|
82539970|NCT05046132|164779804|OTHER||LS Mean|2.1|||||TWO_SIDED|90.0|-1.8|6.0||||||Pre dose||6.0|-1.8|
82539971|NCT05046132|164779804|OTHER||LS Mean|3.1|||||TWO_SIDED|90.0|0.0|6.2||||||0.5 hr Post dose||6.2|-0.0|
82539972|NCT05046132|164779804|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.9|5.7||||||1 hr Post dose||5.7|-1.9|
82539973|NCT05046132|164779804|OTHER||LS Mean|6.5|||||TWO_SIDED|90.0|2.6|10.4||||||1.5 hr Post dose||10.4|2.6|
82539974|NCT05046132|164779804|OTHER||LS Mean|5.3|||||TWO_SIDED|90.0|1.3|9.3||||||2 hr Post dose||9.3|1.3|
82539975|NCT05046132|164779804|OTHER||LS Mean|11.1|||||TWO_SIDED|90.0|7.0|15.1||||||2.5 hr Post dose||15.1|7.0|
82539976|NCT05046132|164779804|OTHER||LS Mean|9.8|||||TWO_SIDED|90.0|5.9|13.6||||||3 hr Post dose||13.6|5.9|
82539977|NCT05046132|164779804|OTHER||LS Mean|10.7|||||TWO_SIDED|90.0|7.2|14.2||||||4 hr Post dose||14.2|7.2|
82539978|NCT05046132|164779804|OTHER||LS Mean|8.8|||||TWO_SIDED|90.0|4.9|12.7||||||5 hr Post dose||12.7|4.9|
82539979|NCT05046132|164779804|OTHER||LS Mean|11.0|||||TWO_SIDED|90.0|7.5|14.5||||||6 hr Post dose||14.5|7.5|
82539980|NCT05046132|164779804|OTHER||LS Mean|10.8|||||TWO_SIDED|90.0|7.1|14.6||||||7 hr Post dose||14.6|7.1|
82539981|NCT05046132|164779804|OTHER||LS Mean|11.3|||||TWO_SIDED|90.0|7.6|14.9||||||8 hr Post dose||14.9|7.6|
82539982|NCT05046132|164779804|OTHER||LS Mean|9.8|||||TWO_SIDED|90.0|5.9|13.7||||||9 hr Post dose||13.7|5.9|
82539983|NCT05046132|164779804|OTHER||LS Mean|10.5|||||TWO_SIDED|90.0|6.9|14.1||||||10 hr Post dose||14.1|6.9|
82539984|NCT05046132|164779804|OTHER||LS Mean|11.8|||||TWO_SIDED|90.0|8.4|15.2||||||12 hr Post dose||15.2|8.4|
82539985|NCT05046132|164779804|OTHER||LS Mean|9.4|||||TWO_SIDED|90.0|5.6|13.3||||||16 hr Post dose||13.3|5.6|
82539986|NCT05046132|164779804|OTHER||LS Mean|10.8|||||TWO_SIDED|90.0|6.8|14.9||||||24 hr Post dose||14.9|6.8|
82539987|NCT05046132|164779805|OTHER||LS Mean|-5.3|||||TWO_SIDED|90.0|-8.4|-2.2||||||Pre dose||-2.2|-8.4|
82539988|NCT05046132|164779805|OTHER||LS Mean|-2.7|||||TWO_SIDED|90.0|-5.9|0.5||||||0.5 hr Post dose||0.5|-5.9|
82539989|NCT05046132|164779805|OTHER||LS Mean|-3.2|||||TWO_SIDED|90.0|-5.7|-0.7||||||1 hr Post dose||-0.7|-5.7|
82539990|NCT05046132|164779805|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-3.7|1.9||||||1.5 hr Post dose||1.9|-3.7|
82539991|NCT05046132|164779805|OTHER||LS Mean|-2.9|||||TWO_SIDED|90.0|-5.7|-0.2||||||2 hr Post dose||-0.2|-5.7|
82539992|NCT05046132|164779805|OTHER||LS Mean|-4.0|||||TWO_SIDED|90.0|-6.5|-1.5||||||2.5 hr Post dose||-1.5|-6.5|
82539993|NCT05046132|164779805|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.1|-1.3||||||3 hr Post dose||-1.3|-7.1|
82539994|NCT05046132|164779805|OTHER||LS Mean|-4.1|||||TWO_SIDED|90.0|-7.4|-0.8||||||4 hr Post dose||-0.8|-7.4|
82649241|NCT01859390|165013789|SUPERIORITY|Difference in Proportions|Mean Difference (Final Values)|-14.8||||0.2363|TWO_SIDED|95.0|-35.1|7.4||Not adjusted for multiple comparisons. Alpha at 0.05.|Fisher Exact|||||7.4|-35.1|0.2363
82436579|NCT01818258|164582433|SUPERIORITY||Geometric Mean Ratio|0.6||||0.09|TWO_SIDED|95.0|0.3|1.1|||t-test, 2 sided||Week 1 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 1 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||1.1|0.3|0.090
82436580|NCT01818258|164582433|SUPERIORITY||Geometric Mean Ratio|0.6||||0.23|TWO_SIDED|95.0|0.3|1.4|||t-test, 2 sided||Week 12 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 12 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||1.4|0.3|0.23
82577827|NCT05576662|164864817|OTHER||Mean Difference (Net)|0.03||||0.98|TWO_SIDED|95.0|-3.21|3.28||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.28|-3.21|.98
82577828|NCT05576662|164864818|OTHER||Mean Difference (Net)|1.73||||0.555|TWO_SIDED|95.0|-4.06|7.53||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of data for change of systolic blood pressure||7.53|-4.06|0.555
82649242|NCT01859390|165013790|SUPERIORITY|Difference in Proportions|Median Difference (Final Values)|-15.7||||0.19|TWO_SIDED|95.0|-34.5|4.8|||Fisher Exact|||||4.8|-34.5|0.1900
82436581|NCT01818258|164582433|SUPERIORITY||Geometric Mean Ratio|0.64||||0.0003|TWO_SIDED|95.0|0.5|0.8|||t-test, 2 sided||Week 24 Geometric Mean Ratio of Severe Malnutrition/Normal Nutrition/Mild Malnutrition|Week 24 comparison of ZDV clearance between cohorts. Null hypothesis of no difference between cohorts.||0.8|0.5|0.0003
82436582|NCT01818258|164582434|SUPERIORITY||Odds Ratio (OR)|0.54||||0.17|TWO_SIDED|95.0|0.22|1.29|||Mixed Models Analysis||Odds Ratio (SAM/non-SAM) for Lopinavir Ctrough \>= 1 ug/mL through 48 weeks|Odds ratio (SAM/non-SAM) of Ctrough \>=1 ug/mL from entry through 48 weeks from repeated measures mixed model, with the null hypothesis that the odds ratio is equal to zero (no difference between cohorts in odds of Ctrough \>=1 ug/mL).||1.29|0.22|0.17
82436583|NCT01818258|164582435|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.003|TWO_SIDED|95.0|-3.9|-0.9|||t-test, 2 sided||Severe Malnutrition Cohort - Normal Nutrition/Mild Malnutrition for Week 1 Free Fraction (%) of LPV|Week 1 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||-0.9|-3.9|0.003
82436584|NCT01818258|164582435|SUPERIORITY||Mean Difference (Final Values)|-3.8||||0.011|TWO_SIDED|95.0|-6.6|-1.1|||t-test, 2 sided||Severe Malnutrition - Normal Nutrition/Mild Malnutrition for Week 12 Free Fraction (%) of LPV|Week 12 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||-1.1|-6.6|0.011
82436585|NCT01818258|164582435|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.46|TWO_SIDED|95.0|-2.4|4.4|||t-test, 2 sided||Severe Malnutrition - Normal Nutrition/Mild Malnutrition for Week 24 Free Fraction (%) of LPV|Week 24 comparison of LPV free faction. Null hypothesis of no difference between cohorts.||4.4|-2.4|0.46
82436586|NCT01818258|164582436|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.15|TWO_SIDED|95.0|-0.3|1.7|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 12. Null hypothesis of no difference between cohorts.||1.7|-0.3|0.15
82436587|NCT01818258|164582436|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.2|TWO_SIDED|95.0|-0.4|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 24. Null hypothesis of no difference between cohorts.||1.8|-0.4|0.20
82436588|NCT01818258|164582436|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.13|TWO_SIDED|95.0|-0.2|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 36. Null hypothesis of no difference between cohorts.||1.8|-0.2|0.13
82436589|NCT01818258|164582436|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.089|TWO_SIDED|95.0|-0.1|1.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in log10 plasma HIV viral load from baseline to week 48. Null hypothesis of no difference between cohorts.||1.8|-0.1|0.089
82454843|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82436590|NCT01818258|164582437|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||Baseline Comparison, with null hypothesis of no difference between cohorts.||||>0.999
82436591|NCT01818258|164582437|SUPERIORITY|||||||0.15|||||||Fisher Exact|||Week 12 Comparison, with null hypothesis of no difference between cohorts.||||0.15
82436592|NCT01818258|164582437|SUPERIORITY|||||||0.065|||||||Fisher Exact|||Week 24 Comparison, with null hypothesis of no difference between cohorts.||||0.065
82436593|NCT01818258|164582437|SUPERIORITY|||||||0.065|||||||Fisher Exact|||Week 48 Comparison, with null hypothesis of no difference between cohorts.||||0.065
82436594|NCT01818258|164582438|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.89|TWO_SIDED|95.0|-3.9|4.4|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 12. Null hypothesis of no difference between cohorts.||4.4|-3.9|0.89
82436595|NCT01818258|164582438|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.31|TWO_SIDED|95.0|-2.5|7.6|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 24. Null hypothesis of no difference between cohorts.||7.6|-2.5|0.31
82454844|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82649243|NCT01706198|165013793|OTHER||Adjusted Odds Ratio|2.0|||<|0.001|TWO_SIDED|95.0|1.7|2.34||The analysis method was logistic regression adjusted for randomized treatment, asthma maintenance therapy (AMT) at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care has been presented.|||2.34|1.70|<0.001
82649244|NCT01706198|165013794|OTHER||Adjusted Odds Ratio|1.92|||<|0.001|TWO_SIDED|95.0|1.67|2.2||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 12 has been presented.|||2.20|1.67|<0.001
82649245|NCT01706198|165013794|OTHER||Adjusted Odds Ratio|1.66|||<|0.001|TWO_SIDED|95.0|1.45|1.91||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 40 has been presented.|||1.91|1.45|<0.001
82649246|NCT01706198|165013794|OTHER||Adjusted Odds Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.54|2.02||Logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, Baseline ACT total score squared, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care for Week 52 has been presented.|||2.02|1.54|<0.001
82539995|NCT05046132|164779805|OTHER||LS Mean|-0.8|||||TWO_SIDED|90.0|-3.7|2.1||||||5 hr Post dose||2.1|-3.7|
82649247|NCT01706198|165013795|OTHER||Adjusted Odds Ratio|2.09|||<|0.001|TWO_SIDED|95.0|1.82|2.4||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 12 has been presented.|||2.40|1.82|<0.001
82454845|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82454846|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82454847|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82454848|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
82454849|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82454850|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.62|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.62
82454851|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454852|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82454853|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82454854|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82454855|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454856|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454857|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454858|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
82454859|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.12|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.12
82454860|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82539996|NCT05046132|164779805|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.3|-0.4||||||6 hr Post dose||-0.4|-6.3|
82454861|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454862|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
82454863|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.38|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.38
82539997|NCT05046132|164779805|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.0|-0.5||||||7 hr Post dose||-0.5|-6.0|
82539998|NCT05046132|164779805|OTHER||LS Mean|-1.6|||||TWO_SIDED|90.0|-4.7|1.5||||||8 hr Post dose||1.5|-4.7|
82539999|NCT05046132|164779805|OTHER||LS Mean|-4.0|||||TWO_SIDED|90.0|-6.9|-1.2||||||9 hr Post dose||-1.2|-6.9|
82540000|NCT05046132|164779805|OTHER||LS Mean|-4.3|||||TWO_SIDED|90.0|-7.6|-1.0||||||10 hr Post dose||-1.0|-7.6|
82540001|NCT05046132|164779805|OTHER||LS Mean|-5.4|||||TWO_SIDED|90.0|-8.7|-2.1||||||12 hr Post dose||-2.1|-8.7|
82540002|NCT05046132|164779805|OTHER||LS Mean|-4.1|||||TWO_SIDED|90.0|-7.4|-0.8||||||16 hr Post dose||-0.8|-7.4|
82540003|NCT05046132|164779805|OTHER||LS Mean|-7.1|||||TWO_SIDED|90.0|-10.1|-4.2||||||24 hr Post dose||-4.2|-10.1|
82652347|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.088||||0.3258|TWO_SIDED|95.0|-0.088|0.265||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.265|-0.088|0.3258
82540004|NCT05046132|164779805|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-2.0|4.2||||||Pre dose||4.2|-2.0|
82540005|NCT05046132|164779805|OTHER||LS Mean|3.1|||||TWO_SIDED|90.0|-0.1|6.3||||||0.5 hr Post dose||6.3|-0.1|
82540006|NCT05046132|164779805|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-0.1|4.9||||||1 hr Post dose||4.9|-0.1|
82540007|NCT05046132|164779805|OTHER||LS Mean|3.0|||||TWO_SIDED|90.0|0.2|5.8||||||1.5 hr Post dose||5.8|0.2|
82540008|NCT05046132|164779805|OTHER||LS Mean|1.8|||||TWO_SIDED|90.0|-1.0|4.6||||||2 hr Post dose||4.6|-1.0|
82540009|NCT05046132|164779805|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.9|3.1||||||2.5 hr Post dose||3.1|-1.9|
82540010|NCT05046132|164779805|OTHER||LS Mean|1.9|||||TWO_SIDED|90.0|-1.0|4.8||||||3 hr Post dose||4.8|-1.0|
82540011|NCT05046132|164779805|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-3.5|3.0||||||4 hr Post dose||3.0|-3.5|
82540012|NCT05046132|164779805|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-2.6|3.2||||||5 hr Post dose||3.2|-2.6|
82540013|NCT05046132|164779805|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-4.8|1.1||||||6 hr Post dose||1.1|-4.8|
82540014|NCT05046132|164779805|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-3.8|1.7||||||7 hr Post dose||1.7|-3.8|
82540015|NCT05046132|164779805|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-3.6|2.6||||||8 hr Post dose||2.6|-3.6|
82540016|NCT05046132|164779805|OTHER||LS Mean|-2.7|||||TWO_SIDED|90.0|-5.6|0.2||||||9 hr Post dose||0.2|-5.6|
82540017|NCT05046132|164779805|OTHER||LS Mean|-3.5|||||TWO_SIDED|90.0|-6.8|-0.2||||||10 hr Post dose||-0.2|-6.8|
82540018|NCT05046132|164779805|OTHER||LS Mean|-3.3|||||TWO_SIDED|90.0|-6.6|0.1||||||12 hr Post dose||0.1|-6.6|
82540019|NCT05046132|164779805|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.0|3.6||||||16 hr Post dose||3.6|-3.0|
82540020|NCT05046132|164779805|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.0|2.9||||||24 hr Post dose||2.9|-3.0|
82540021|NCT05046132|164779806|OTHER||LS Mean|-6.6|||||TWO_SIDED|90.0|-10.3|-3.0||||||Pre dose||-3.0|-10.3|
82540022|NCT05046132|164779806|OTHER||LS Mean|-7.3|||||TWO_SIDED|90.0|-10.5|-4.0||||||0.5 hr Post dose||-4.0|-10.5|
82540023|NCT05046132|164779806|OTHER||LS Mean|-5.0|||||TWO_SIDED|90.0|-8.8|-1.2||||||1 hr Post dose||-1.2|-8.8|
82540024|NCT05046132|164779806|OTHER||LS Mean|-5.0|||||TWO_SIDED|90.0|-8.4|-1.6||||||1.5 hr Post dose||-1.6|-8.4|
82540025|NCT05046132|164779806|OTHER||LS Mean|-3.5|||||TWO_SIDED|90.0|-6.6|-0.3||||||2 hr Post dose||-0.3|-6.6|
82540026|NCT05046132|164779806|OTHER||LS Mean|-2.9|||||TWO_SIDED|90.0|-6.1|0.3||||||2.5 hr Post dose||0.3|-6.1|
82540027|NCT05046132|164779806|OTHER||LS Mean|-4.6|||||TWO_SIDED|90.0|-7.7|-1.5||||||3 hr Post dose||-1.5|-7.7|
82540028|NCT05046132|164779806|OTHER||LS Mean|-7.1|||||TWO_SIDED|90.0|-10.3|-3.8||||||4 hr Post dose||-3.8|-10.3|
82540029|NCT05046132|164779806|OTHER||LS Mean|-3.2|||||TWO_SIDED|90.0|-6.9|0.6||||||5 hr Post dose||0.6|-6.9|
82540030|NCT05046132|164779806|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.8|-0.6||||||6 hr Post dose||-0.6|-7.8|
82540031|NCT05046132|164779806|OTHER||LS Mean|-4.8|||||TWO_SIDED|90.0|-8.1|-1.6||||||7 hr Post dose||-1.6|-8.1|
82540032|NCT05046132|164779806|OTHER||LS Mean|-4.4|||||TWO_SIDED|90.0|-7.8|-1.1||||||8 hr Post dose||-1.1|-7.8|
82540033|NCT05046132|164779806|OTHER||LS Mean|-5.9|||||TWO_SIDED|90.0|-9.3|-2.6||||||9 hr Post dose||-2.6|-9.3|
82540034|NCT05046132|164779806|OTHER||LS Mean|-4.4|||||TWO_SIDED|90.0|-7.8|-1.1||||||10 hr Post dose||-1.1|-7.8|
82540035|NCT05046132|164779806|OTHER||LS Mean|-4.2|||||TWO_SIDED|90.0|-7.3|-1.1||||||12 hr Post dose||-1.1|-7.3|
82540036|NCT05046132|164779806|OTHER||LS Mean|-5.8|||||TWO_SIDED|90.0|-9.7|-2.0||||||16 hr Post dose||-2.0|-9.7|
82540037|NCT05046132|164779806|OTHER||LS Mean|-8.2|||||TWO_SIDED|90.0|-12.5|-3.8||||||24 hr Post dose||-3.8|-12.5|
82540038|NCT05046132|164779806|OTHER||LS Mean|2.4|||||TWO_SIDED|90.0|-1.2|5.9||||||Pre dose||5.9|-1.2|
82540039|NCT05046132|164779806|OTHER||LS Mean|-1.4|||||TWO_SIDED|90.0|-4.5|1.8||||||0.5 hr Post dose||1.8|-4.5|
82540040|NCT05046132|164779806|OTHER||LS Mean|-0.4|||||TWO_SIDED|90.0|-4.0|3.3||||||1 hr Post dose||3.3|-4.0|
82540041|NCT05046132|164779806|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-3.0|3.6||||||1.5 hr Post dose||3.6|-3.0|
82540042|NCT05046132|164779806|OTHER||LS Mean|-1.0|||||TWO_SIDED|90.0|-4.0|2.0||||||2 hr Post dose||2.0|-4.0|
82540043|NCT05046132|164779806|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-2.6|3.6||||||2.5 hr Post dose||3.6|-2.6|
82540044|NCT05046132|164779806|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-3.7|2.3||||||3 hr Post dose||2.3|-3.7|
82540045|NCT05046132|164779806|OTHER||LS Mean|-2.3|||||TWO_SIDED|90.0|-5.4|0.9||||||4 hr Post dose||0.9|-5.4|
82540046|NCT05046132|164779806|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-2.5|4.6||||||5 hr Post dose||4.6|-2.5|
82540047|NCT05046132|164779806|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-4.1|2.8||||||6 hr Post dose||2.8|-4.1|
82540048|NCT05046132|164779806|OTHER||LS Mean|-1.9|||||TWO_SIDED|90.0|-5.0|1.3||||||7 hr Post dose||1.3|-5.0|
82540049|NCT05046132|164779806|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-3.7|2.8||||||8 hr Post dose||2.8|-3.7|
82540050|NCT05046132|164779806|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-3.4|3.1||||||9 hr Post dose||3.1|-3.4|
82540051|NCT05046132|164779806|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-2.8|3.7||||||10 hr Post dose||3.7|-2.8|
82540052|NCT05046132|164779806|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-2.9|3.1||||||12 hr Post dose||3.1|-2.9|
82540053|NCT05046132|164779806|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-3.1|4.3||||||16 hr Post dose||4.3|-3.1|
82540054|NCT05046132|164779806|OTHER||LS Mean|1.7|||||TWO_SIDED|90.0|-2.5|5.9||||||24 hr Post dose||5.9|-2.5|
82540055|NCT05046132|164779807|OTHER||LS Mean|-0.7|||||TWO_SIDED|90.0|-2.6|1.2||||||Pre dose||1.2|-2.6|
82540056|NCT05046132|164779807|OTHER||LS Mean|-0.9|||||TWO_SIDED|90.0|-2.6|0.7||||||0.5 hr post dose||0.7|-2.6|
82540057|NCT05046132|164779807|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.1|2.3||||||1 hr post dose||2.3|-1.1|
82540058|NCT05046132|164779807|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.5|1.3||||||1.5 hr post dose||1.3|-1.5|
82540059|NCT05046132|164779807|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.8|2.4||||||2 hr post dose||2.4|-0.8|
82540060|NCT05046132|164779807|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.0|2.4||||||2.5 hr post dose||2.4|-1.0|
82540061|NCT05046132|164779807|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.6|2.0||||||3 hr post dose||2.0|-1.6|
82540062|NCT05046132|164779807|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.9|2.3||||||4 hr post dose||2.3|-0.9|
82540063|NCT05046132|164779807|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-1.2|2.1||||||5 hr post dose||2.1|-1.2|
82540064|NCT05046132|164779807|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.7|2.4||||||6 hr post dose||2.4|-0.7|
82540065|NCT05046132|164779807|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.6|2.4||||||7 hr post dose||2.4|-0.6|
82436596|NCT01818258|164582438|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.18|TWO_SIDED|95.0|-1.5|7.8|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference in cohorts of change in CD4 percent from baseline to week 36. Null hypothesis of no difference between cohorts.||7.8|-1.5|0.18
82454864|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.78|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.78
82454865|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.65|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.65
82454866|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
82454867|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82454868|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.81|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.81
82454869|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454870|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454871|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454872|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82540066|NCT05046132|164779807|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.0|2.2||||||8 hr post dose||2.2|-1.0|
82540067|NCT05046132|164779807|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.6|1.3||||||9 hr post dose||1.3|-1.6|
82540068|NCT05046132|164779807|OTHER||LS Mean|0.0|||||TWO_SIDED|90.0|-1.5|1.6||||||10 hr post dose||1.6|-1.5|
82540069|NCT05046132|164779807|OTHER||LS Mean|1.4|||||TWO_SIDED|90.0|-0.2|3.0||||||12 hr post dose||3.0|-0.2|
82436597|NCT01818258|164582438|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.018|TWO_SIDED|95.0|1.1|11.0|||t-test, 2 sided||Direction of comparison: Severe Malnutrition - Normal Nutrition/Mild Malnutrition|Difference between cohorts of change in CD4 percent from baseline to week 48. Null hypothesis of no difference between cohorts.||11.0|1.1|0.018
82436598|NCT01818258|164582439|SUPERIORITY||Mean|2.34|||<|0.0001|TWO_SIDED|95.0|1.77|2.91|||t-test, 2 sided|||Null hypothesis: change in WHO weight-for-height Z-score from entry to week 24 equal to 0||2.91|1.77|<0.0001
82454873|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.99|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.99
82454874|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454875|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454876|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.97|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.97
82454877|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.19|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.19
82454878|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.25|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.25
82454879|NCT01128426|164614040|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454880|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454881|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82540070|NCT05046132|164779807|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.3|3.4||||||16 hr post dose||3.4|-0.3|
82540071|NCT05046132|164779807|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-2.1|1.6||||||24 hr post dose||1.6|-2.1|
82540072|NCT05046132|164779807|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.2|2.6||||||Pre dose||2.6|-1.2|
82540073|NCT05046132|164779807|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-1.9|1.4||||||0.5 hr post dose||1.4|-1.9|
82540074|NCT05046132|164779807|OTHER||LS Mean|0.5|||||TWO_SIDED|90.0|-1.2|2.2||||||1 hr post dose||2.2|-1.2|
82540075|NCT05046132|164779807|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.7|2.1||||||1.5 hr post dose||2.1|-0.7|
82540076|NCT05046132|164779807|OTHER||LS Mean|0.6|||||TWO_SIDED|90.0|-1.1|2.2||||||2 hr post dose||2.2|-1.1|
82540077|NCT05046132|164779807|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.9|2.5||||||2.5 hr post dose||2.5|-0.9|
82540078|NCT05046132|164779807|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.5|2.1||||||3 hr post dose||2.1|-1.5|
82540079|NCT05046132|164779807|OTHER||LS Mean|-0.5|||||TWO_SIDED|90.0|-2.1|1.1||||||4 hr post dose||1.1|-2.1|
82540080|NCT05046132|164779807|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.5|1.9||||||5 hr post dose||1.9|-1.5|
82540081|NCT05046132|164779807|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.7|1.4||||||6 hr post dose||1.4|-1.7|
82436599|NCT01818258|164582439|SUPERIORITY||Mean|2.73|||<|0.0001|TWO_SIDED|95.0|2.09|3.37|||t-test, 2 sided|||Null hypothesis: change in WHO weight-for-height Z-score from entry to week 48 equal to 0||3.37|2.09|<0.0001
82540082|NCT05046132|164779807|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.6|1.4||||||7 hr post dose||1.4|-1.6|
82540083|NCT05046132|164779807|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-0.7|2.4||||||8 hr post dose||2.4|-0.7|
82540084|NCT05046132|164779807|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.6|1.3||||||9 hr post dose||1.3|-1.6|
82540085|NCT05046132|164779807|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-1.4|1.6||||||10 hr post dose||1.6|-1.4|
82540086|NCT05046132|164779807|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.1|3.1||||||12 hr post dose||3.1|-0.1|
82540087|NCT05046132|164779807|OTHER||LS Mean|1.2|||||TWO_SIDED|90.0|-0.7|3.0||||||16 hr post dose||3.0|-0.7|
82540088|NCT05046132|164779807|OTHER||LS Mean|1.5|||||TWO_SIDED|90.0|-0.3|3.4||||||24 hr post dose||3.4|-0.3|
82540089|NCT05046132|164779808|OTHER||LS Mean|0.8|||||TWO_SIDED|90.0|-1.3|2.9||||||Pre dose||2.9|-1.3|
82540090|NCT05046132|164779808|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-1.8|1.2||||||0.5 hr post dose||1.2|-1.8|
82540091|NCT05046132|164779808|OTHER||LS Mean|1.2|||||TWO_SIDED|90.0|-1.4|3.8||||||1 hr post dose||3.8|-1.4|
82540092|NCT05046132|164779808|OTHER||LS Mean|0.0|||||TWO_SIDED|90.0|-1.8|1.8||||||1.5 hr post dose||1.8|-1.8|
82540093|NCT05046132|164779808|OTHER||LS Mean|-1.4|||||TWO_SIDED|90.0|-3.0|0.3||||||2 hr post dose||0.3|-3.0|
82540094|NCT05046132|164779808|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|0.0|3.1||||||2.5 hr post dose||3.1|-0.0|
82540095|NCT05046132|164779808|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.7|1.5||||||3 hr post dose||1.5|-1.7|
82540096|NCT05046132|164779808|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-0.3|2.9||||||4 hr post dose||2.9|-0.3|
82540097|NCT05046132|164779808|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-2.2|2.0||||||5 hr post dose||2.0|-2.2|
82540098|NCT05046132|164779808|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.8|2.3||||||6 hr post dose||2.3|-0.8|
82436600|NCT01818258|164582440|SUPERIORITY||Mean|2.63|||<|0.0001|TWO_SIDED|95.0|1.96|3.28|||t-test, 2 sided|||Null hypothesis: change in MUAC from entry to week 24 equal to 0||3.28|1.96|<0.0001
82540099|NCT05046132|164779808|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.8|2.7||||||7 hr post dose||2.7|-0.8|
82540100|NCT05046132|164779808|OTHER||LS Mean|1.0|||||TWO_SIDED|90.0|-0.3|2.4||||||8 hr post dose||2.4|-0.3|
82540101|NCT05046132|164779808|OTHER||LS Mean|1.1|||||TWO_SIDED|90.0|-0.7|2.9||||||9 hr post dose||2.9|-0.7|
82540102|NCT05046132|164779808|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.4|1.9||||||10 hr post dose||1.9|-1.4|
82540103|NCT05046132|164779808|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|-0.6|3.2||||||12 hr post dose||3.2|-0.6|
82540104|NCT05046132|164779808|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-1.0|2.4||||||16 hr post dose||2.4|-1.0|
82540105|NCT05046132|164779808|OTHER||LS Mean|1.6|||||TWO_SIDED|90.0|-1.0|4.2||||||24 hr post dose||4.2|-1.0|
82540106|NCT05046132|164779808|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-2.3|1.7||||||Pre dose||1.7|-2.3|
82436601|NCT01818258|164582440|SUPERIORITY||Mean|3.53|||<|0.0001|TWO_SIDED|95.0|2.83|4.24|||t-test, 2 sided|||Null hypothesis: change in MUAC from entry to week 48 equal to 0||4.24|2.83|<0.0001
82436602|NCT03802630|164582456|NON_INFERIORITY|Non-inferiority was considered established if the lower limit of the corresponding 95% CI for the estimated between group difference (brolucizumab vs. aflibercept) on change from baseline in BCVA at Week 24 is greater than -4 letters.|Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.01||0.018|TWO_SIDED|95.0|-3.9|0.1|||ANOVA|||||0.1|-3.9|0.018
82436603|NCT00661726|164582472|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
82436604|NCT00661726|164582474|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.045
82436605|NCT00661726|164582475|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.083
82436606|NCT00661726|164582476|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.039
82436607|NCT00661726|164582477|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.18
82540107|NCT05046132|164779808|OTHER||LS Mean|-0.1|||||TWO_SIDED|90.0|-1.6|1.3||||||0.5 hr post dose||1.3|-1.6|
82540108|NCT05046132|164779808|OTHER||LS Mean|-1.3|||||TWO_SIDED|90.0|-3.8|1.2||||||1 hr post dose||1.2|-3.8|
82540109|NCT05046132|164779808|OTHER||LS Mean|0.1|||||TWO_SIDED|90.0|-1.7|1.8||||||1.5 hr post dose||1.8|-1.7|
82540110|NCT05046132|164779808|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-2.7|0.5||||||2 hr post dose||0.5|-2.7|
82540111|NCT05046132|164779808|OTHER||LS Mean|0.7|||||TWO_SIDED|90.0|-0.8|2.3||||||2.5 hr post dose||2.3|-0.8|
82540112|NCT05046132|164779808|OTHER||LS Mean|0.2|||||TWO_SIDED|90.0|-1.3|1.8||||||3 hr post dose||1.8|-1.3|
82540113|NCT05046132|164779808|OTHER||LS Mean|0.3|||||TWO_SIDED|90.0|-1.2|1.9||||||4 hr post dose||1.9|-1.2|
82540114|NCT05046132|164779808|OTHER||LS Mean|-1.5|||||TWO_SIDED|90.0|-3.5|0.5||||||5 hr post dose||0.5|-3.5|
82540115|NCT05046132|164779808|OTHER||LS Mean|0.9|||||TWO_SIDED|90.0|-0.6|2.3||||||6 hr post dose||2.3|-0.6|
82540116|NCT05046132|164779808|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-1.3|2.1||||||7 hr post dose||2.1|-1.3|
82540117|NCT05046132|164779808|OTHER||LS Mean|1.3|||||TWO_SIDED|90.0|0.0|2.6||||||8 hr post dose||2.6|-0.0|
82540118|NCT05046132|164779808|OTHER||LS Mean|0.4|||||TWO_SIDED|90.0|-1.3|2.2||||||9 hr post dose||2.2|-1.3|
82540119|NCT05046132|164779808|OTHER||LS Mean|-1.1|||||TWO_SIDED|90.0|-2.7|0.5||||||10 hr post dose||0.5|-2.7|
82540120|NCT05046132|164779808|OTHER||LS Mean|-0.3|||||TWO_SIDED|90.0|-2.1|1.5||||||12 hr post dose||1.5|-2.1|
82540121|NCT05046132|164779808|OTHER||LS Mean|-0.2|||||TWO_SIDED|90.0|-1.9|1.4||||||16 hr post dose||1.4|-1.9|
82540122|NCT05046132|164779808|OTHER||LS Mean|2.3|||||TWO_SIDED|90.0|-0.2|4.9||||||24 hr post dose||4.9|-0.2|
82577829|NCT05576662|164864818|OTHER||Mean Difference (Net)|-0.68||||0.764|TWO_SIDED|95.0|-5.15|3.79||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of data for change of diastolic blood pressure||3.79|-5.15|0.764
82649248|NCT01706198|165013795|OTHER||Adjusted Odds Ratio|1.96|||<|0.001|TWO_SIDED|95.0|1.7|2.25||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 24 has been presented.|||2.25|1.70|<0.001
82649249|NCT01706198|165013795|OTHER||Adjusted Odds Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.56|2.06||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 40 has been presented.|||2.06|1.56|<0.001
82436608|NCT00661726|164582478|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
82436609|NCT00661726|164582479|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.069
82436610|NCT00661726|164582480|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.18
82436611|NCT00661726|164582481|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.022
82436612|NCT00661726|164582482|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||0.11
82436613|NCT00661726|164582483|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Linear|||Linear regression after adjusting for time duration was used to test the mean difference between baseline and follow-up values.||||<0.01
82436614|NCT02644096|164582484|SUPERIORITY_OR_OTHER||||||<|0.05||||||Changes in physical function after 3 months|unpaired t-test|||"Power calculation in this study was based on findings in a previous cross-sectional study.~The physical dimensions in health status was the primary outcome variable. The mean physical score was 49.4, SD was 26.1; alpha in this study was set to 5% and β to 20%. We considered that the intervention could lead to an improvement of 50% in the physical health score and were willing to overlook a difference in score of 12. When the sample size was calculated, 68 patients were needed in both groups."||||<0.05
82436615|NCT03319953|164582504|SUPERIORITY|||||||0.2079||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>2.0.|Bayesian Normal Linear Model|||||||0.2079
82436616|NCT03319953|164582504|SUPERIORITY|||||||0.0633||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>2.0.|Bayesian Normal Linear Model|||||||0.0633
82436617|NCT03319953|164582505|SUPERIORITY|||||||0.1706||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>0.09.|Bayesian Normal Linear Model|||||||0.1706
82436618|NCT03319953|164582505|SUPERIORITY|||||||0.0373||||||Bayesian method was used to calculate the posterior probability. High posterior probability of a difference between TAK-041 and placebo \>0.09.|Bayesian Normal Linear Model|||||||0.0373
82436619|NCT01579565|164582524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59|STANDARD_ERROR_OF_MEAN|0.049||0.0001||95.0|0.494|0.686||p-value based on the generalized Cochran-Mantel-Haenszel (CMH) test stratified by the randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302 - Placebo) is adjusted for the randomization strata.||||0.686|0.494|0.0001
82540123|NCT00855465|164779862|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Prespecified significance level for all significance tests was 5%. Primary analysis, due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew/died before 16 weeks were imputed with a worst value of 0m in case of death/clinical worsening without termination visit and with the last observed value otherwise. Comparison was done using analysis of covariance (ANCOVA), with baseline 6MWD as a covariate and treatment group and region as main effects. The primary statistical method was the stratified Wilcoxon test if the Shapiro-Wilk test for normality of residuals was statistically significant.||||<0.0001
82540124|NCT00855465|164779862|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|45.69|||<|0.0001|TWO_SIDED|95.0|24.74|66.63||Additional analysis, due to result of Shapiro-Wilk test.|ANCOVA|||||66.63|24.74|<0.0001
82540125|NCT00855465|164779862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82436620|NCT01579565|164582525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.58|STANDARD_ERROR_OF_MEAN|1.192||0.0002||95.0|-6.917|-2.244||p-value is based on the generalized CMH test stratified by the randomization strata.|Cochran-Mantel-Haenszel|CMH-weighted mean difference (OMS302 - Placebo) is adjusted for the randomization strata.||||-2.244|-6.917|0.0002
82436621|NCT01579565|164582526|SUPERIORITY_OR_OTHER|||||||0.0001||||||Chi-square test.|Chi-squared|||||||0.0001
82436622|NCT01579565|164582527|SUPERIORITY_OR_OTHER|||||||0.0001||||||Chi-square test|Chi-squared|||||||0.0001
82436623|NCT01579565|164582528|SUPERIORITY_OR_OTHER|||||||0.076||||||Chi-square test|Chi-squared|||||||0.0760
82436624|NCT01579565|164582529|SUPERIORITY_OR_OTHER|||||||0.0806||||||Chi-square test|Chi-squared|||||||0.0806
82436625|NCT01579565|164582530|SUPERIORITY_OR_OTHER|||||||0.0002||||||Generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.0002
82436626|NCT01579565|164582531|SUPERIORITY_OR_OTHER|||||||0.3923||||||Treatment comparisons are based on Cochran-Mantel-Haenszel test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.3923
82436627|NCT01579565|164582532|SUPERIORITY_OR_OTHER|||||||0.006||||||Treatment comparisons are based on Cochran-Mantel-Haenszel test adjusting for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.0060
82436628|NCT01579565|164582533|SUPERIORITY_OR_OTHER|||||||0.3286||||||Treatment comparisons are based on generalized CMH test stratified by randomization strata.|Cochran-Mantel-Haenszel|||||||0.3286
82436629|NCT01579565|164582534|SUPERIORITY_OR_OTHER|||||||0.2361||||||Treatment comparisons based on Wilcoxon rank-sum test stratified by randomization strata.|Wilcoxon rank-sum test|||||||0.2361
82436630|NCT02791191|164582536|SUPERIORITY|||||||0.418|||||||ANCOVA|||||||0.418
82540126|NCT00855465|164779863|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
82540127|NCT00855465|164779863|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-246.43|||<|0.0001|TWO_SIDED|95.0|-303.33|-189.53||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-189.53|-303.33|<0.0001
82540128|NCT00855465|164779863|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82540129|NCT00855465|164779864|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
82540130|NCT00855465|164779864|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-443.99||||0.0293|TWO_SIDED|95.0|-842.95|-45.03||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-45.03|-842.95|0.0293
82577830|NCT05576662|164864819|OTHER||Mean Difference (Net)|-0.51||||0.856|TWO_SIDED|95.0|-6.15|5.12||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|||5.12|-6.15|0.856
82577831|NCT05576662|164864820|OTHER||Mean Difference (Net)|-0.41||||0.833|TWO_SIDED|95.0|-4.24|3.42||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors placebo plus ritonavir; a mean difference \> 0 favors nirmatrelvir plus ritonavir.|||3.42|-4.24|0.833
82540131|NCT00855465|164779864|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82540132|NCT00855465|164779865|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of IV in case of clinical worsening without termination visit or measurement at that termination visit and with a worst value of V in case of death and with the last observed value otherwise.||||0.0026
82540133|NCT00855465|164779866|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.37||||0.1724|TWO_SIDED|95.0|-8.72|1.99||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Log Rank|Test was stratified by region.|Based on Mantel-Haenszel estimate stratified by region.|"Test for difference of occurence of Any event."||1.99|-8.72|0.1724
82540134|NCT00855465|164779867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0035||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Nominally significant only due to hierarchical testing.|Wilcoxon (Mann-Whitney)|Test was stratified by region.||Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of 10 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0035
82436631|NCT02791191|164582536|SUPERIORITY|||||||0.231|||||||ANCOVA|||||||0.231
82540135|NCT00855465|164779868|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO FC, TTCW, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.Nominally significant only due to hierarchical testing.|Wilcoxon (Mann-Whitney)|||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of -0.594 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||<0.0001
82577832|NCT05576662|164864821|OTHER||Mean Difference (Final Values)|0.32||||0.096|TWO_SIDED|95.0|-0.06|0.7||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of day 15 data||0.70|-0.06|0.096
82577833|NCT05576662|164864821|OTHER||Mean Difference (Final Values)|0.22||||0.293|TWO_SIDED|95.0|-0.2|0.64||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||0.64|-0.20|0.293
82436632|NCT02791191|164582537|SUPERIORITY|||||||1|||||||Fisher Exact|||White Matter Disease||||1.000
82540136|NCT00855465|164779868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13||||0.0002|TWO_SIDED|95.0|0.06|0.21||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||0.21|0.06|0.0002
82540137|NCT00855465|164779868|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82577834|NCT05576662|164864821|OTHER||Mean Difference (Final Values)|0.19||||0.396|TWO_SIDED|95.0|-0.25|0.62||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.62|-0.25|0.396
82436633|NCT02791191|164582537|SUPERIORITY|||||||1|||||||Fisher Exact|||White Matter Disease||||1.000
82436634|NCT02791191|164582537|SUPERIORITY|||||||0.404|||||||Fisher Exact|||||||0.404
82436635|NCT02791191|164582537|SUPERIORITY|||||||1|||||||Fisher Exact|||Cortical Superficial Siderous||||1.000
82436636|NCT02791191|164582537|SUPERIORITY|Lacunar Infarct||||||1|||||||Fisher Exact|||||||1.000
82436637|NCT02791191|164582537|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Lacunar Infarct||||0.457
82436638|NCT02791191|164582537|SUPERIORITY|||||||1|||||||Fisher Exact|||Other Infarct||||1.000
82436639|NCT02791191|164582537|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Other Infarct||||0.457
82436640|NCT02791191|164582538|SUPERIORITY|||||||1|||||||Fisher Exact|||Vasogenic Edema||||1.000
82436641|NCT02791191|164582538|SUPERIORITY|||||||0.457|||||||Fisher Exact|||Vasogenic Edema||||0.457
82540138|NCT00855465|164779869|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg Dyspnea Score, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 16 weeks were imputed with a worst value of 105 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.1220
82540139|NCT00855465|164779869|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.76||||0.0165|TWO_SIDED|95.0|-10.45|-1.06||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-1.06|-10.45|0.0165
82540140|NCT00855465|164779869|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82540141|NCT00855465|164779871|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Exploratory testing. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis as for primary efficacy parameter.||||<0.0001
82436642|NCT02791191|164582538|SUPERIORITY|||||||0.703|||||||Fisher Exact|||Increase in Microhemorrhage||||0.703
82436643|NCT02791191|164582538|SUPERIORITY|||||||1|||||||Fisher Exact|||Increase in Microhemorrhage||||1.000
82436644|NCT02791191|164582539|SUPERIORITY|||||||0.452|||||||Fisher Exact|||Treatment Emergent Suicidal Ideation||||0.452
82436645|NCT02791191|164582539|SUPERIORITY|||||||0.279||||||TE Suicidal Ideation|Fisher Exact|||||||0.279
82436646|NCT02791191|164582539|SUPERIORITY|||||||0.293|||||||Fisher Exact|||Emergence of Suicidal Behavior||||0.293
82436647|NCT02791191|164582539|SUPERIORITY|||||||0.486|||||||Fisher Exact|||Emergence of Suicidal Behavior||||0.486
82436648|NCT02791191|164582541|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta||||<.001
82436649|NCT02791191|164582541|SUPERIORITY|Amyloid Beta|||||<|0.001|||||||ANCOVA|||||||<.001
82436650|NCT02791191|164582541|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-40||||<.001
82454882|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82540142|NCT00855465|164779871|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.96|||<|0.0001|TWO_SIDED|95.0|-6.75|-3.16||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-3.16|-6.75|<0.0001
82540143|NCT00855465|164779871|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0231|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0231
82436651|NCT02791191|164582541|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-40||||<.001
82436652|NCT02791191|164582541|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-42||||<.001
82436653|NCT02791191|164582541|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Amyloid Beta 1-42||||<.001
82436654|NCT02791191|164582542|SUPERIORITY|||||||0.97|||||||Mixed Model Repeated Measures|||||||0.970
82436655|NCT02791191|164582542|SUPERIORITY|||||||0.586|||||||Mixed Model Repeated Meausres|||||||0.586
82436656|NCT02791191|164582543|SUPERIORITY|||||||0.088|||||||ANCOVA|||||||0.088
82436657|NCT02791191|164582543|SUPERIORITY|||||||0.15|||||||ANCOVA|||||||0.150
82436658|NCT02791191|164582544|SUPERIORITY|||||||0.153|||||||ANCOVA|||||||0.153
82436659|NCT02791191|164582544|SUPERIORITY|||||||0.176|||||||ANCOVA|||||||0.176
82436660|NCT00678535|164582545|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.3158||95.0|0.92|1.292|||Stratified log rank||Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|Primary efficacy analysis: To test equality of progression free survival time between treatment groups, applying the two-sided stratified log-rank test (randomization strata: disease stage, previous oesophagectomy/gastrectomy and prior(neo-) adjuvant(radio) chemotherapy, α=5%).||1.292|0.920|0.3158
82436661|NCT00678535|164582546|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.004||||0.9547||95.0|0.866|1.165|||Stratified log rank||Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|To test equality of OS time between treatment groups, applying the two-sided stratified log-rank test (randomization strata: disease stage, previous oesophagectomy/gastrectomy and prior (neo-) adjuvant(radio) chemotherapy, α=5%)||1.165|0.866|0.9547
82436662|NCT00678535|164582547|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0435||||0.7696||95.0|0.7844|1.3882|||Cochran-Mantel-Haenszel|||The best overall response rate was compared with the Cochran-Mantel-Haenszel test (strata: disease stage, previous oesophagectomy/gastrectomy and prior(neo-) adjuvant(radio) chemotherapy, two-sided with α=5%).||1.3882|0.7844|0.7696
82436663|NCT01461928|164582559|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.41|TWO_SIDED|95.0|0.37|1.53||Power at time of final analysis was less than 40%. Final analysis was not able to address its primary objective.|Stratified Long-rank|||The stratified log rank test p-value was derived using the following randomization stratification strata : Follicular Lymphoma International Prognostic Index (FLIPI) risk category (low, intermediate, high) and indolent NHL subtype (follicular lymphoma, non-follicular lymphoma). Power at time of final analysis was less than 40%. Final analysis was not able to address it's primary objective.||1.53|0.37|= 0.410
82436664|NCT03576066|164582568|OTHER|||||||0.6855|||||||Repeated measures analysis|||Least squares (LS) mean difference in HBeAg-positive participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.6855
82436665|NCT03576066|164582568|OTHER|||||||0.175|||||||Repeated measures analysis|||LS mean difference in HBeAg-negative participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.1750
82436666|NCT03576066|164582569|OTHER|||||||0.2916|||||||Repeated measures analysis|||Least squares (LS) mean difference in HBeAg-positive participants: ABI-H0731 + SOC NUC minus placebo + SOC NUC at Week 24||||0.2916
82454883|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82540144|NCT00855465|164779872|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|||<|0.0001|TWO_SIDED|95.0|0.33|0.62||Exploratory testing. Primary analysis due to result of Shapiro-Wilk test.|ANCOVA|||Missing values at week 16 were imputed using the last available post-baseline observation. Same analysis as for primary efficacy parameter.||0.62|0.33|<0.0001
82540145|NCT00855465|164779872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Additional analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|||||||<0.0001
82540146|NCT00855465|164779872|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.1160
82540147|NCT01157182|164779916|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.94|||||TWO_SIDED|90.0|97.63|108.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.55|97.63|
82540148|NCT01157182|164779917|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.4|||||TWO_SIDED|90.0|95.15|101.76|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.76|95.15|
82577835|NCT05576662|164864821|OTHER||Mean Difference (Final Values)|0.37||||0.064|TWO_SIDED|95.0|-0.02|0.77||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||0.77|-0.02|0.064
82454884|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.26|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.26
82540149|NCT01157182|164779918|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.73|||||TWO_SIDED|90.0|95.33|102.26|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.26|95.33|
82540150|NCT01157182|164779919|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.51|||||TWO_SIDED|90.0|88.64|96.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||96.55|88.64|
82540151|NCT01157182|164779920|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.66|||||TWO_SIDED|90.0|92.6|98.81|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.81|92.60|
82540152|NCT01157182|164779921|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.71|||||TWO_SIDED|90.0|92.62|98.91|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||98.91|92.62|
82577836|NCT05576662|164864822|OTHER||Mean Difference (Final Values)|0.19||||0.444|TWO_SIDED|95.0|-0.3|0.67||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of day 15 data||0.67|-0.30|0.444
82649250|NCT01706198|165013795|OTHER||Adjusted Odds Ratio|1.95|||<|0.001|TWO_SIDED|95.0|1.69|2.24||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 52 has been presented.|||2.24|1.69|<0.001
82652348|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.084||||0.3483|TWO_SIDED|95.0|-0.092|0.261||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.261|-0.092|0.3483
82454885|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454886|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
82454887|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.2|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.20
82454888|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454889|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
82454890|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.1|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.10
82454891|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82454892|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454893|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454894|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
82454895|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.56|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.56
82454896|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.79|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.79
82454897|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
82454898|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.92|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.92
82454899|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82540153|NCT01157182|164779922|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.41|||||TWO_SIDED|90.0|88.65|96.33|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||96.33|88.65|
82454900|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454901|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.4|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.40
82454902|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
82454903|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.82|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.82
82454904|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454905|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82454906|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82454907|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82454908|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
82454909|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454910|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454911|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82454912|NCT01128426|164614041|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82454913|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
82454914|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454915|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.33|||||||mid-p exact binomial method]|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.33
82454916|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.59|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.59
82454917|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454918|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454919|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82454920|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454921|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454922|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82454923|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82454924|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82454925|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454926|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82540154|NCT01157182|164779923|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.67|||||TWO_SIDED|90.0|92.68|98.77|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.77|92.68|
82540155|NCT01157182|164779924|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.73|||||TWO_SIDED|90.0|92.68|98.88|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.88|92.68|
82577837|NCT05576662|164864822|OTHER||Mean Difference (Final Values)|-0.25||||0.346|TWO_SIDED|95.0|-0.78|0.28||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||0.28|-0.78|0.346
82652349|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.022||||0.8055|TWO_SIDED|95.0|-0.156|0.201||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.201|-0.156|0.8055
82454927|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454928|NCT01128426|164614041|SUPERIORITY_OR_OTHER|||||||0.94|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.94
82454929|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.56|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.56
82454930|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
82454931|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82454932|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454933|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454934|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
82454935|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454936|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.32|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.32
82454937|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82454938|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.41|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.41
82454939|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82649251|NCT01706198|165013796|OTHER||Adjusted Odds Ratio|2.28|||<|0.001|TWO_SIDED|95.0|1.98|2.62||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 12 has been presented.|||2.62|1.98|<0.001
82454940|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
82454941|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.43|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.43
82454942|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.5|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.50
82454943|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.51|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.51
82454944|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.48|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.48
82540156|NCT01157182|164779925|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|91.21|||||TWO_SIDED|90.0|84.62|98.31|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.31|84.62|
82540157|NCT01157182|164779926|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.11|||||TWO_SIDED|90.0|89.04|99.47|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.47|89.04|
82540158|NCT01157182|164779927|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.48|||||TWO_SIDED|90.0|90.7|104.76|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.76|90.70|
82540159|NCT01157182|164779928|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.19|||||TWO_SIDED|90.0|89.78|98.81|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.81|89.78|
82540160|NCT01157182|164779929|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.99|||||TWO_SIDED|90.0|92.73|99.36|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.36|92.73|
82577838|NCT05576662|164864822|OTHER||Mean Difference (Final Values)|0.1||||0.738|TWO_SIDED|95.0|-0.48|0.67||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.67|-0.48|0.738
82577839|NCT05576662|164864822|OTHER||Mean Difference (Final Values)|0.17||||0.578|TWO_SIDED|95.0|-0.43|0.76||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||0.76|-0.43|0.578
82454945|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.44|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.44
82454946|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.7|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.70
82454947|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82454948|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82454949|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82454950|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82454951|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82454952|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.37|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.37
82454953|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
82454954|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.85|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.85
82454955|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454956|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82649252|NCT01706198|165013796|OTHER||Adjusted Odds Ratio|2.09|||<|0.001|TWO_SIDED|95.0|1.81|2.41||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 24 has been presented.|||2.41|1.81|<0.001
82649253|NCT01706198|165013796|OTHER||Adjusted Odds Ratio|1.76|||<|0.001|TWO_SIDED|95.0|1.53|2.02||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 40 has been presented.|||2.02|1.53|<0.001
82436667|NCT00365105|164582582|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.844|TWO_SIDED|95.0|0.7|1.54|||Log Rank|||Assuming an exponential distribution, the weighted yearly SRE hazard rate for patients treated with bisphosphonates only is 0.7991 which translates to a median time to SRE of 10.4 months. The study was designed to show a 33% relative reduction in the yearly SRE hazard rate, i.e. 15.6 months median time to SRE. Using a two-sided log-rank test assuming a type I error of 0.05, one planned interim analysis with 90% statistical power, 257 SREs are required with a total of 316 patients.||1.54|0.70|0.844
82540161|NCT01157182|164779930|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.22|||||TWO_SIDED|90.0|93.62|100.96|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.96|93.62|
82577840|NCT05576662|164864823|OTHER||Mean Difference (Final Values)|-0.19||||0.758|TWO_SIDED|95.0|-1.41|1.03||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 5 data||1.03|-1.41|0.758
82436668|NCT00365105|164582583|SUPERIORITY|The power of detecting an improvement from 55% in the control arm to 41% in the experimental arm with a two-sided Fisher's exact test at alpha 0.05 is 66%.||||||0.26|||||||Fisher Exact|||||||0.26
82454957|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82454958|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454959|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82649254|NCT01706198|165013796|OTHER||Adjusted Odds Ratio|1.91|||<|0.001|TWO_SIDED|95.0|1.66|2.21||The analysis method was logistic regression adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, gender and age.|Regression, Logistic||Adjusted odds ratio comparing FF/VI with Usual Care at Week 52 has been presented.|||2.21|1.66|<0.001
82649255|NCT01706198|165013797|OTHER||Mean Difference (Net)|1.54|||<|0.001|TWO_SIDED|95.0|1.3|1.77||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|Mixed Model Repeated Measures (MMRM)||Treatment difference of FF/VI versus Usual Care at Week 12 has been presented.|||1.77|1.30|<0.001
82454960|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.31|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.31
82454961|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82454962|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.96|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.96
82454963|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82454964|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82454965|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.14|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.14
82454966|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454967|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.74|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.74
82454968|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82540162|NCT01157182|164779931|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|91.73|||||TWO_SIDED|90.0|84.46|99.62|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||99.62|84.46|
82649256|NCT01706198|165013797|OTHER||Mean Difference (Net)|1.5|||<|0.001|TWO_SIDED|95.0|1.25|1.76||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 24 has been presented.|||1.76|1.25|<0.001
82540163|NCT01157182|164779932|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.47|||||TWO_SIDED|90.0|88.37|103.14|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.14|88.37|
82540164|NCT01157182|164779933|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.63|||||TWO_SIDED|90.0|88.1|103.81|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.81|88.10|
82540165|NCT01157182|164779934|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.15|||||TWO_SIDED|90.0|89.56|98.98|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||98.98|89.56|
82577841|NCT05576662|164864823|OTHER||Mean Difference (Final Values)|-0.24||||0.693|TWO_SIDED|95.0|-1.46|0.97||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 10 data||0.97|-1.46|0.693
82436669|NCT00365105|164582584|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.37|TWO_SIDED|95.0|0.86|1.52|||Log Rank|||Assuming the disease site distribution is 40%, 40%, and 20% from prostate, breast, and lung cancer populations, respectively, the weighted yearly death rate for patients treated with bisphosphonates only is 0.4390, translating to a median overall survival time of 18.9 months assuming an exponential distribution. Statistical power to detect a relative difference of 33% in the yearly death rate is 70% using a two-sided log-rank test at a 0.05 significance level and 87% to detect 50% difference.||1.52|0.86|0.37
82436670|NCT00365105|164582585|SUPERIORITY|||||||0.96||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||FACT-G Total||||0.96
82436671|NCT00365105|164582585|SUPERIORITY|||||||0.97||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Physical Well-Being||||0.97
82436672|NCT00365105|164582585|SUPERIORITY|||||||0.57||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Social/Family Well-Being||||0.57
82436673|NCT00365105|164582585|SUPERIORITY|||||||0.7||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Emotional Well-Being||||0.70
82436674|NCT00365105|164582585|SUPERIORITY|||||||0.46||||||Two-sided significance level of 0.01|Wilcoxon (Mann-Whitney)|||Functional Well-Being||||0.46
82436675|NCT00365105|164582586|SUPERIORITY|||||||0.99||||||2-sided significance level of 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
82436676|NCT00365105|164582587|SUPERIORITY|||||||0.43||||||Significance level of 0.05|t-test, 2 sided|||Index Score||||0.43
82436677|NCT00365105|164582587|SUPERIORITY|||||||0.15||||||Significance level of 0.05|t-test, 2 sided|||VAS Score||||0.15
82436678|NCT00191724|164582591|SUPERIORITY_OR_OTHER|||||||0.528||95.0||||P-value for effect of drotrecogin alfa (activated) dose in right ventricular function at Day 6|Regression, Linear|||||||0.528
82436679|NCT00191724|164582591|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||P-value for effect of drotrecogin alfa (activated) dose on right ventricular function at Day 90|Regression, Linear|||||||0.230
82436680|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-value for Dyspnea 90-Day Follow-Up.|Regression, Linear|||||||0.018
82436681|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value for Emotional 90 Day Follow-up.|Regression, Linear|||||||0.720
82436682|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.481||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.481
82436683|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.161
82436684|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.068
82436685|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.985
82436686|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value for Fatigue 90 Day Follow-Up|Regression, Linear|||||||0.281
82436687|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.273||95.0||||P-value for Mastery 90 Day Follow-Up|Regression, Linear|||||||0.273
82436688|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.848
82436689|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.841||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.841
82436690|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.797
82540166|NCT01157182|164779935|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.01|||||TWO_SIDED|90.0|92.14|100.04|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.04|92.14|
82540167|NCT01157182|164779936|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|96.75|||||TWO_SIDED|90.0|92.75|100.93|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.93|92.75|
82436691|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.963
82436692|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P-value for Dyspnea 90 Day Follow-Up.|Regression, Linear|||||||0.149
82436693|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.141||95.0||||P-value for Emotional 90 Day Follow-Up.|Regression, Linear|||||||0.141
82436694|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||P-value for Fatigue 90 Day Follow-Up.|Regression, Linear|||||||0.774
82436695|NCT00191724|164582592|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value for Mastery 90 Day Follow-Up.|Regression, Linear|||||||0.394
82436696|NCT03458910|164582609|SUPERIORITY|||||||0.782|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.782
82436697|NCT03458910|164582610|SUPERIORITY|||||||0.48|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.480
82436698|NCT03458910|164582611|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.410
82436699|NCT03458910|164582612|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.480
82436700|NCT03458910|164582613|SUPERIORITY|||||||0.17|||||||ANOVA|||time x condition x regulation goal interaction in behavioral emotional intensity rating for younger adults||||0.170
82436701|NCT03458910|164582614|SUPERIORITY|||||||0.478|||||||ANOVA|||time x condition x regulation goal interaction in behavioral emotional intensity rating for older adults||||0.478
82454969|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.01|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.01
82454970|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.72|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.72
82436702|NCT03458910|164582615|SUPERIORITY|||||||0.441|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the left amygdala for younger adults||||0.441
82436703|NCT03458910|164582616|SUPERIORITY|||||||0.621|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the left amygdala for older adults||||0.621
82436704|NCT03458910|164582617|SUPERIORITY|||||||0.19|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the right amygdala activity for younger adults||||0.190
82436705|NCT03458910|164582618|SUPERIORITY|||||||0.864|||||||ANOVA|||time x condition x regulation goal (2 x 2 x 3) interaction effect in the right amygdala activity for older adults||||0.864
82436706|NCT03458910|164582619|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Comparing acceptance rate of fair offers||||1.000
82436707|NCT03458910|164582619|SUPERIORITY|||||||0.716|||||||Wilcoxon (Mann-Whitney)|||Comparing acceptance rate of unfair offers||||0.716
82436708|NCT03458910|164582620|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups for dorsal anterior cingulate cortex activation.||||0.014
82436709|NCT03458910|164582620|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups for anterior insula activation.||||0.059
82436710|NCT03458910|164582621|SUPERIORITY|||||||0.144|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||.144
82436711|NCT03458910|164582621|SUPERIORITY|||||||0.653||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|||||||0.653
82436712|NCT03458910|164582622|SUPERIORITY|||||||0.288|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||.288
82436713|NCT03458910|164582622|SUPERIORITY|||||||0.191||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.191
82436714|NCT03458910|164582623|SUPERIORITY|||||||0.894|||||||ANOVA|||||||0.894
82436715|NCT03458910|164582623|SUPERIORITY|||||||0.425||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.425
82436716|NCT03458910|164582624|SUPERIORITY|||||||0.916|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.916
82436717|NCT03458910|164582624|SUPERIORITY|||||||0.235||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.235
82436718|NCT03458910|164582625|SUPERIORITY|||||||0.462|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.462
82454971|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82454972|NCT01128426|164614042|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82577842|NCT05576662|164864823|OTHER||Mean Difference (Final Values)|0.37||||0.558|TWO_SIDED|95.0|-0.87|1.61||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Linear|Linear regression coefficient Wald test|A mean difference \< 0 favors nirmatrelvir plus ritonavir; a mean difference \> 0 favors placebo plus ritonavir.|Analysis of week 15 data||1.61|-0.87|0.558
82577843|NCT05576662|164864824|OTHER||Odds Ratio (OR)|0.55||||0.02|TWO_SIDED|95.0|0.33|0.92||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of fatigue data||0.92|0.33|0.02
82436719|NCT03458910|164582625|SUPERIORITY|||||||0.468||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.468
82436720|NCT03458910|164582626|SUPERIORITY|||||||0.481|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.481
82436721|NCT03458910|164582626|SUPERIORITY|||||||0.159||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.159
82436722|NCT03458910|164582627|SUPERIORITY|||||||0.602|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.602
82436723|NCT03458910|164582627|SUPERIORITY|||||||0.562||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.562
82436724|NCT03458910|164582628|SUPERIORITY|||||||0.697|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.697
82436725|NCT03458910|164582628|SUPERIORITY|||||||0.901||||||Linear mixed effects model with random factors (intercepts) for participants; F- and p-values determined using Satterthwaite's method|Mixed Models Analysis|p-value reflects effect of interest, a time x condition interaction on scores||||||0.901
82436726|NCT03458910|164582629|SUPERIORITY|||||||0.516|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.516
82436727|NCT03458910|164582630|SUPERIORITY|||||||0.944|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.944
82436728|NCT03458910|164582631|SUPERIORITY|||||||0.285|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.285
82436729|NCT03458910|164582632|SUPERIORITY|||||||0.807|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.807
82436730|NCT03458910|164582633|SUPERIORITY||||||<|0.001|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||<0.001
82436731|NCT03458910|164582634|SUPERIORITY|||||||0.74|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction||||||0.740
82436732|NCT03458910|164582635|SUPERIORITY|||||||0.083|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.083
82436733|NCT03458910|164582636|SUPERIORITY|||||||0.176|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.176
82436734|NCT03458910|164582637|SUPERIORITY|||||||0.325|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.325
82436735|NCT03458910|164582638|SUPERIORITY|||||||0.751|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.751
82436736|NCT03458910|164582639|SUPERIORITY|||||||0.011|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.011
82436737|NCT03458910|164582640|SUPERIORITY|||||||0.885|||||||ANOVA|p-value reflects effect of interest, a time x condition interaction on scores||||||0.885
82436738|NCT03458910|164582641|SUPERIORITY|||||||0.259||||||p-value reflects time x condition interaction|ANOVA|||2 (time) x 2 (condition) ANOVA to test effects of time, condition, and time x condition interaction||||0.259
82436739|NCT03458910|164582642|SUPERIORITY|||||||0.000146||||||p-value reflects time x condition interaction|ANOVA|||2 (time) x 2 (condition) ANOVA to test effects of time, condition, and time x condition interaction||||0.000146
82436740|NCT03458910|164582643|SUPERIORITY|||||||0.463||||||time point x group (2 way) interaction|ANOVA|||||||0.463
82436741|NCT03458910|164582644|SUPERIORITY|||||||0.99||||||time point x group (2 way) interaction|ANOVA|||||||0.990
82436742|NCT03458910|164582645|SUPERIORITY|||||||0.034||||||time point x group (2 way) interaction|ANOVA|||||||0.034
82436743|NCT03458910|164582646|SUPERIORITY|||||||0.398||||||time point x group (2 way) interaction|ANOVA|||||||0.398
82436744|NCT03458910|164582647|SUPERIORITY|||||||0.113||||||time point x group (2 way) interaction|ANOVA|||||||0.113
82436745|NCT03458910|164582648|SUPERIORITY|||||||0.637||||||time point x group (2 way) interaction|ANOVA|||||||0.637
82436746|NCT03458910|164582649|SUPERIORITY|time x condition interaction in CRP for younger adults||||||0.133|||||||ANOVA|||||||0.133
82436747|NCT03458910|164582650|SUPERIORITY|time x condition interaction in CRP for older adults||||||0.402|||||||ANOVA|||||||0.402
82436748|NCT03458910|164582651|SUPERIORITY|time x condition interaction in cytokine IL-1b for younger adults||||||0.236||||||p value for time x condition interaction effect|ANOVA|||||||0.236
82436749|NCT03458910|164582652|SUPERIORITY|time x condition interaction in cytokine IL-1b for older adults||||||0.6||||||p value for time x condition interaction effect|ANOVA|||||||0.600
82436750|NCT03458910|164582653|SUPERIORITY|time x condition interaction in cytokine IL-6 for younger adults||||||0.788||||||p value for time x condition interaction effect|ANOVA|||||||0.788
82436751|NCT03458910|164582654|SUPERIORITY|time x condition interaction in cytokine IL-6 for older adults||||||0.917||||||p value for time x condition interaction effect|ANOVA|||||||0.917
82436752|NCT03458910|164582655|SUPERIORITY|time x condition interaction in cytokine IL-8 for younger adults||||||0.844||||||p value for time x condition interaction effect|ANOVA|||||||0.844
82436753|NCT03458910|164582656|SUPERIORITY|time x condition interaction in cytokine IL-8 for older adults||||||0.75||||||p value for time x condition interaction effect|ANOVA|||||||0.750
82436754|NCT03458910|164582657|SUPERIORITY|time x condition interaction in cytokine TNF-a for younger adults||||||0.074||||||p value for time x condition interaction effect|ANOVA|||||||0.074
82454973|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82649257|NCT01706198|165013797|OTHER||Mean Difference (Net)|1.37|||<|0.001|TWO_SIDED|95.0|1.11|1.63||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 40 has been presented.|||1.63|1.11|<0.001
82436755|NCT03458910|164582658|SUPERIORITY|time x condition interaction in cytokine TNF-a for older adults||||||0.0505||||||p value for time x condition interaction effect|ANOVA|||||||0.0505
82436756|NCT03458910|164582673|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.022
82436757|NCT03458910|164582674|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||An independent t-test was performed to compare the two groups.||||0.455
82436758|NCT03458910|164582675|SUPERIORITY|||||||0.022|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.022
82436759|NCT03458910|164582676|SUPERIORITY|||||||0.455|||||||ANOVA|||A 2 (time: pre, post) X 2 (condition: HRV-increase, HRV-decrease) ANOVA was performed.||||0.455
82436760|NCT03458910|164582677|SUPERIORITY|||||||0.462||||||time point x group (2 way) interaction|ANOVA|||||||0.462
82436761|NCT03458910|164582678|SUPERIORITY|||||||0.305||||||time point x group (2 way) interaction|ANOVA|||||||0.305
82436762|NCT03458910|164582679|SUPERIORITY|||||||0.804||||||time point x group (2 way) interaction|ANOVA|||||||0.804
82436763|NCT03458910|164582680|SUPERIORITY|||||||0.141||||||time point x group (2 way) interaction|ANOVA|||||||0.141
82436764|NCT03458910|164582681|SUPERIORITY|||||||0.292||||||time point x group(2 way) interaction|ANOVA|||||||0.292
82436765|NCT03458910|164582682|SUPERIORITY|||||||0.905||||||time point x group (2 way) interaction|ANOVA|||||||0.905
82436766|NCT03458910|164582683|SUPERIORITY|||||||0.641||||||p value for time x condition x error type interaction effect|ANOVA|||time x condition x error type interaction in Sustained Attention to Response Task (SART) for younger adults||||0.641
82436767|NCT03458910|164582684|SUPERIORITY|||||||0.813||||||p value for time x condition x error type interaction effect|ANOVA|||time x condition x error type interaction in Sustained Attention to Response Task (SART) for older adults||||0.813
82436768|NCT03458910|164582685|SUPERIORITY|||||||0.695|||||||ANOVA|||Hits during recognition task for younger adults||||.695
82436769|NCT03458910|164582686|SUPERIORITY|||||||0.27|||||||ANOVA|||Hits during recognition task for older adults||||.270
82436770|NCT03458910|164582687|SUPERIORITY|||||||0.102|||||||ANOVA|||False alarms during recognition task for younger adults||||.102
82436771|NCT03458910|164582688|SUPERIORITY|||||||0.257|||||||ANOVA|||False alarms during recognition task for older adults||||.257
82436772|NCT03458910|164582689|SUPERIORITY|||||||0.067|||||||ANOVA|||Group difference for recall for younger adults||||.067
82436773|NCT03458910|164582690|SUPERIORITY|||||||0.117|||||||ANOVA|||Group difference for recall for older adults||||.117
82436774|NCT03458910|164582691|SUPERIORITY|||||||0.558||||||p value for time x condition interaction effect|ANOVA|||time x condition x collection interaction in cortisol levels for younger adults||||0.558
82436775|NCT03130439|164582737|OTHER||Objective Response Rate|0.0|||||TWO_SIDED|95.0|0.0|0.247||||||||0.247|0.000|
82436776|NCT03130439|164582740|OTHER||Disease Control Rate|0.222|||||TWO_SIDED|95.0|0.086|0.423||||||||0.423|0.086|
82436777|NCT03130439|164582741|OTHER||Clinical Benefit Rate|0.148|||||TWO_SIDED|95.0|0.042|0.337||||||||0.337|0.042|
82436778|NCT00967694|164582749|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Mixed Models Analysis|||A linear mixed effects model was used to assess change in IOP over time using time-points as the primary independent variable with significance set at p \< 0.05. Power calculations showed that 20 subjects would allow detection of a 2.8-mmHg difference in IOP between any two time-points with 80% power assuming a standard deviation of 3.5 mmHg for IOP and a correlation between two time- points of 0.25||||>0.05
82436779|NCT00152477|164582766|SUPERIORITY||Difference of response rate|6.4|||=|0.384|TWO_SIDED|95.0|-7.7|20.5||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \<5.|Cochran-Mantel-Haenszel|||||20.5|-7.7|=0.384
82436780|NCT00152477|164582766|SUPERIORITY||Difference of response rate|6.4|||=|0.409||95.0|-7.7|20.5||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||20.5|-7.7|=0.409
82436781|NCT00152477|164582766|SUPERIORITY||Difference of response rate|2.6|||=|0.744|TWO_SIDED|95.0|-13.5|18.8||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \< 5.|Chi-squared|||||18.8|-13.5|=0.744
82436782|NCT00152477|164582766|SUPERIORITY||Difference of response rate|2.6|||=|0.783|TWO_SIDED|95.0|-13.5|18.8||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||18.8|-13.5|=0.783
82436783|NCT00152477|164582766|SUPERIORITY||Difference of response rate|10.2|||=|0.234|TWO_SIDED|95.0|-6.8|27.2||Two-sided Chi-square test. Fisher's Exact test presented when number of responders in a treatment group is \< 5.|Chi-squared|||||27.2|-6.8|=0.234
82436784|NCT00152477|164582766|SUPERIORITY||Difference of response rate|10.2|||=|0.228|TWO_SIDED|95.0|-6.8|27.2||CMH test stratified by country and disease stage (3 levels: Stage IIIb without malignant pleural effusion versus Stage IIIb with malignant pleural effusion or Stage IV or recurrent).|Cochran-Mantel-Haenszel|||||27.2|-6.8|=0.228
82436785|NCT00425698|164582772|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_DEVIATION|15.0|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis: Erythopoietin significantly improves kidney graft function. Power calculation: with a difference of at least 4 mL/min in mean eGFR between groups the number of patients enrolled per group (at least 41) would allowed the detection of a significant difference between groups at a 5% level (p\<0.05)||||<0.05
82436786|NCT00729677|164582777|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||.05
82436787|NCT00889603|164582809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.92|||||TWO_SIDED|95.0|1.65|2.2|||||Change from baseline in MMSE at LOCF analyzed using single-sample t-test; a 95% confidence interval (CI) was calculated for mean change at LOCF.|||2.20|1.65|
82454974|NCT01128426|164614042|SUPERIORITY_OR_OTHER|||||||0.73|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.73
82540168|NCT02914522|164779959|SUPERIORITY||Difference in Percentages|10.8||||0.0157|TWO_SIDED|95.0|2.1|19.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel(CMH) test was stratified by concomitant use of oral, systemic corticosteroids (Yes/No) and immunomodulators (Yes/No) at Day 1.||||19.5|2.1|0.0157
82540169|NCT02914522|164779959|SUPERIORITY||Difference in Percentages|3.8||||0.3379|TWO_SIDED|95.0|-4.3|12.0|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||12.0|-4.3|0.3379
82540170|NCT02914522|164779959|SUPERIORITY||Difference in Percentages|7.2||||0.0103|TWO_SIDED|95.0|1.6|12.8|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||12.8|1.6|0.0103
82436788|NCT00889603|164582810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||||TWO_SIDED|95.0|0.75|1.08|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 8 from repeated-measures mixed model including terms for baseline MMSE and Week.|||1.08|0.75|
82436789|NCT00889603|164582810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||||TWO_SIDED|95.0|1.32|1.8|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 16 from a repeated-measures mixed model including terms for baseline MMSE and Week.|||1.80|1.32|
82436790|NCT00889603|164582810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.69|2.25|||||LS Mean and 95% CI for change from baseline in MMSE Total to Week 24 from a repeated-measures mixed model including terms for baseline MMSE and Week.|||2.25|1.69|
82436791|NCT01191736|164582827|SUPERIORITY_OR_OTHER|||||||0.05|||||||Kruskal-Wallis|Null hypothesis: the medians for all seven arms are equal.||Kruskal-Wallis test for multiple comparisons||||.05
82436792|NCT01191736|164582828|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|Null hypothesis: the proportions within the seven arms are equal.||Comparison of proportions of subjects who assessed responsiveness||||.05
82436793|NCT05248997|164582871|SUPERIORITY||Difference in least square mean|-0.09||||0.7782|TWO_SIDED|95.0|-0.71|0.53||LM included baseline value as covariate,\& fixed effects for treatment group,stratification factor,scheduled time point(TP),TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.53|-0.71|0.7782
82436794|NCT05248997|164582872|SUPERIORITY||Difference in least square mean|-0.29||||0.7079|TWO_SIDED|95.0|-1.83|1.24||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||1.24|-1.83|0.7079
82436795|NCT05248997|164582873|SUPERIORITY||Difference in least square mean|-0.23||||0.4398|TWO_SIDED|95.0|-0.81|0.36||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.36|-0.81|0.4398
82454975|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Abnormal involuntary movements: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82540171|NCT02914522|164779959|SUPERIORITY||Difference in Percentages|5.2||||0.0645|TWO_SIDED|95.0|0.0|10.5|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||10.5|-0.0|0.0645
82540172|NCT02914522|164779960|SUPERIORITY||Difference in Percentages|26.0|||<|0.0001|TWO_SIDED|95.0|16.0|35.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.9|16.0|< 0.0001
82540173|NCT02914522|164779960|SUPERIORITY||Difference in Percentages|10.4||||0.042|TWO_SIDED|95.0|0.0|20.7|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.7|-0.0|0.0420
82540174|NCT02914522|164779961|SUPERIORITY||Difference in Percentages|12.1||||0.0053|TWO_SIDED|95.0|3.8|20.4|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||20.4|3.8|0.0053
82540175|NCT02914522|164779961|SUPERIORITY||Difference in Percentages|4.6||||0.2295|TWO_SIDED|95.0|-3.1|12.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||12.2|-3.1|0.2295
82436796|NCT05248997|164582874|SUPERIORITY||Difference in least square mean|0.04||||0.889|TWO_SIDED|95.0|-0.51|0.59||LM included baseline value as covariate, and fixed effects for treatment group,stratification factor,scheduled TP, TP by treatment group interaction.Repeated measures:modelled by unstructured covariance structure for within participant error.|Linear model (LM)|||||0.59|-0.51|0.8890
82540176|NCT02914522|164779961|SUPERIORITY||Difference in Percentages|5.3||||0.0393|TWO_SIDED|95.0|-0.1|10.7|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||10.7|-0.1|0.0393
82436797|NCT05248997|164582875|SUPERIORITY||Percentage difference|3.8||||0.6412|TWO_SIDED|95.0|-12.1|19.7|||Mantel-Haenszel|Stratified by presence of nasal polyps at randomization with Mantel-Haenszel risk estimation.||||19.7|-12.1|0.6412
82436798|NCT05248997|164582876|SUPERIORITY||Percentage difference|-2.7||||0.5001|TWO_SIDED|95.0|-10.6|5.2|||Mantel-Haenszel|Stratified by presence of nasal polyps at randomization with Mantel-Haenszel risk estimation.||||5.2|-10.6|0.5001
82454976|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute bronchiolitis due to RSV: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82540177|NCT02914522|164779961|SUPERIORITY||Difference in Percentages|1.7||||0.5308|TWO_SIDED|95.0|-3.1|6.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||6.6|-3.1|0.5308
82540178|NCT02914522|164779962|SUPERIORITY||Difference in Percentages|8.6||||0.0047|TWO_SIDED|95.0|2.9|14.3|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||14.3|2.9|0.0047
82540179|NCT02914522|164779962|SUPERIORITY||Difference in Percentages|2.1||||0.3495|TWO_SIDED|95.0|-2.6|6.8|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||6.8|-2.6|0.3495
82540180|NCT02914522|164779962|SUPERIORITY||Difference in Percentages|1.3||||0.4269|TWO_SIDED|95.0|-2.5|5.1|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||5.1|-2.5|0.4269
82577844|NCT05576662|164864824|OTHER||Odds Ratio (OR)|0.5||||0.01|TWO_SIDED|95.0|0.31|0.82||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of brain fog data||0.82|0.31|0.01
82649258|NCT01706198|165013797|OTHER||Mean Difference (Net)|1.5|||<|0.001|TWO_SIDED|95.0|1.24|1.76||MMRM adjusted for randomized treatment, AMT at Baseline per randomization stratification, Baseline ACT total score, randomized treatment-by-Baseline ACT total score interaction, gender, age, visit and randomized treatment by visit interaction.|MMRM||Treatment difference of FF/VI versus Usual Care at Week 52 has been presented.|||1.76|1.24|<0.001
82436799|NCT01453205|164582877|SUPERIORITY_OR_OTHER|||||||0.5543|||||||Cochran-Mantel-Haenszel|||||||0.5543
82436800|NCT01453205|164582878|SUPERIORITY_OR_OTHER|||||||0.8567|||||||Log Rank|||||||0.8567
82436801|NCT01453205|164582879|SUPERIORITY_OR_OTHER|||||||0.7412|||||||Log Rank|||||||0.7412
82436802|NCT01453205|164582880|SUPERIORITY_OR_OTHER|||||||0.9996|||||||Log Rank|||||||0.9996
82436803|NCT01453205|164582881|SUPERIORITY_OR_OTHER|||||||0.1686|||||||Log Rank|||||||0.1686
82436804|NCT02602275|164582898|SUPERIORITY|||||||0.004||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||0.004
82436805|NCT02602275|164582899|SUPERIORITY||||||>|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||>0.05
82436806|NCT02602275|164582900|SUPERIORITY||||||<|0.001||||||Significance level was 0.05.|Paired t-test|The outcome was deemed exploratory, as multiplicity was controlled using a priori ordered hypotheses, but the preceding endpoint was not met.||||||<0.001
82436807|NCT02602275|164582901|SUPERIORITY||||||>|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the Automated Anatomical Labelling Atlas (AAL) coordinates.|Paired t-test|||||||>0.05
82436808|NCT02602275|164582902|SUPERIORITY||||||<|0.05||||||Significance level is 0.05, corrected for multiple comparisons in the search volume which is anatomically defined by the AAL (Automated Anatomical Labelling Atlas) coordinates.|Paired t-test|The outcome was deemed exploratory, as multiplicity was controlled using a priori ordered hypotheses, but a preceding endpoint was not met.||||||<0.05
82436809|NCT04113018|164582920|SUPERIORITY||Response rate|0.5385||||0.375|TWO_SIDED|95.0|0.3718|0.6991|||Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|A minimax 2-stage design was used to test the hypothesis that the CR+ rate less than or equal to 50%. Twenty-three evaluable subjects were enrolled in the first stage, followed by an additional 16 subjects for a total of 39 subjects. This design provided 90% power to detect a difference of 20% under the alternative hypothesis, assuming a one-sided alpha=0.10 significance level. If at least 24 of 39 participants had achieved CR or better to induction, the null hypothesis would have been rejected.||0.6991|0.3718|0.375
82436810|NCT04113018|164582927|OTHER|Estimation only|Rate|0.0513|||||TWO_SIDED|95.0|0.0063|0.1732|||||Confidence interval estimated using the Clopper Pearson method.|||0.1732|0.0063|
82436811|NCT04113018|164582928|OTHER|Estimation only.|Rate|0.0256|||||TWO_SIDED|95.0|0.0006|0.1348|||||Confidence interval estimated using the Clopper Pearson method.|||0.1348|0.0006|
82436812|NCT02059499|164582949|SUPERIORITY|||||||0.1877||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.1877
82436813|NCT02059499|164582950|SUPERIORITY|||||||0.1068||||||A priori threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.1068
82436814|NCT02059499|164582951|SUPERIORITY|||||||0.8071||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.8071
82436815|NCT02059499|164582952|SUPERIORITY|||||||0.6562||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.6562
82436816|NCT02059499|164582953|SUPERIORITY|||||||0.0141||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.0141
82436817|NCT02059499|164582954|SUPERIORITY|||||||0.0141||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.0141
82436818|NCT02059499|164582958|SUPERIORITY|||||||0.1409||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.1409
82436819|NCT02059499|164582959|SUPERIORITY|||||||0.0805||||||The threshold for statistical significance was p=0.05|Cochran-Mantel-Haenszel|||||||0.0805
82436820|NCT02059499|164582961|SUPERIORITY|||||||0.5726|||||||Cochran-Mantel-Haenszel|||||||0.5726
82436821|NCT02059499|164582962|SUPERIORITY|||||||0.6184||||||The threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||0.6184
82436822|NCT02059499|164582964|EQUIVALENCE|Comparison of mean between count of hrHPV genotypes observed at baseline vs at week 20 in imiquimod arm||||||0.3||||||A priori threshold for interpreting significance : 0.05|Wilcoxon (Mann-Whitney)|||Comparison of number of hrHPV genotypes in each arm observed at baseline vs at week 20 in imiquimod arm||||0.3
82436823|NCT02059499|164582964|EQUIVALENCE|Comparison of mean number of hrHPV genotypes observed at baseline vs at week 20 in 5FU arm||||||0.3||||||A priori threshold to interpret significance: 0.05|Wilcoxon (Mann-Whitney)|||Comparison of the count of hrHPV genotypes observed at baseline vs at week 20 in 5FU arm||||0.3
82436824|NCT02059499|164582964|EQUIVALENCE|Comparison of mean number of hrHPV genotypes observed at baseline vs at week 20 in observation arm||||||0.26||||||A priori cutoff of significance: 0.05|Wilcoxon (Mann-Whitney)|||Comparison of the count of hrHPV genotypes observed at baseline vs at week 20 in observation arm||||0.26
82436825|NCT06099223|164582967|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82436826|NCT06099223|164582968|SUPERIORITY|||||||0.029|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.029
82540181|NCT02914522|164779962|SUPERIORITY||Difference in Percentages|0.0||||0.9987|TWO_SIDED|95.0|-3.4|3.4|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||3.4|-3.4|0.9987
82540182|NCT02914522|164779963|SUPERIORITY||Difference in Percentages|19.0|||<|0.0001|TWO_SIDED|95.0|9.9|28.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||28.2|9.9|<0.0001
82540183|NCT02914522|164779963|SUPERIORITY||Difference in Percentages|7.8||||0.0672|TWO_SIDED|95.0|-0.7|16.2|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1.||||16.2|-0.7|0.0672
82436827|NCT06099223|164582970|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82436828|NCT06099223|164582971|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82436829|NCT06099223|164582972|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
82436830|NCT06099223|164582973|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
82540184|NCT02914522|164779963|SUPERIORITY||Difference in Percentages|11.4||||0.0019|TWO_SIDED|95.0|4.2|18.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||18.6|4.2|0.0019
82540185|NCT02914522|164779963|SUPERIORITY||Difference in Percentages|5.2||||0.1286|TWO_SIDED|95.0|-1.4|11.8|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||11.8|-1.4|0.1286
82436831|NCT06099223|164582974|SUPERIORITY|||||||0.11|||||||Fisher Exact|||||||0.11
82436832|NCT06099223|164582975|SUPERIORITY|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82436833|NCT06099223|164582976|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82436834|NCT06099223|164582977|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
82436835|NCT06099223|164582978|SUPERIORITY|||||||0.147|||||||t-test, 2 sided|||||||0.147
82454977|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.27|||||||mid-p exact binomial method|||Acute febrile mucocutaneous lymph node syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.27
82540186|NCT02914522|164779964|SUPERIORITY||Difference in Percentages|7.9||||0.0105|TWO_SIDED|95.0|1.9|13.8|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1||||13.8|1.9|0.0105
82540187|NCT02914522|164779964|SUPERIORITY||Difference in Percentages|4.3||||0.1062|TWO_SIDED|95.0|-1.0|9.6|||Cochran-Mantel-Haenszel|CMH test is stratified by concomitant use of oral, systemic corticosteroids (Yes or No) and of immunomodulators (Yes or No) at Day 1||||9.6|-1.0|0.1062
82540188|NCT02914522|164779964|SUPERIORITY||Difference in Percentages|1.7||||0.3084|TWO_SIDED|95.0|-2.2|5.6|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||5.6|-2.2|0.3084
82436836|NCT06099223|164582979|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
82436837|NCT06099223|164582980|SUPERIORITY|||||||0.41|||||||Chi-squared|||||||0.41
82436838|NCT06099223|164582981|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
82436839|NCT06099223|164582982|SUPERIORITY|||||||0.58|||||||Chi-squared|||||||0.58
82436840|NCT06099223|164582984|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
82436841|NCT06099223|164582985|SUPERIORITY|||||||0.919|||||||ANCOVA|||||||0.919
82436842|NCT02248649|164582986|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|covariates: baseline age and years of education||||||0.2
82436843|NCT02248649|164582987|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||0.04
82436844|NCT02248649|164582988|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82436845|NCT00147017|164583019|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
82436846|NCT00147017|164583020|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
82436847|NCT00147017|164583021|SUPERIORITY|||||||0.05||||||calculated|Kruskal-Wallis|||||||0.05
82436848|NCT04621240|164583022|SUPERIORITY|Mean level change from pre- to post-testing|Mean Difference (Net)|10.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82436849|NCT04621240|164583022|OTHER|Regression of the change in BrainHealth Index on age|Slope|0.03||||0.55|TWO_SIDED||||||Regression, Linear|||||||0.55
82436850|NCT00487942|164583061|SUPERIORITY_OR_OTHER||Effect size|-0.04|||||TWO_SIDED|95.0|-0.81|0.73||Inferential statistics were not performed.|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.81|
82436851|NCT00487942|164583061|SUPERIORITY_OR_OTHER||Effect size|0.09|||||TWO_SIDED|95.0|-0.68|0.86||Inferential statistics were not performed|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.86|-0.68|
82454978|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Acute otitis media: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82454979|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Acute pyelonephritis without RMN lesion: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82454980|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.93|||||||mid-p exact binomial method|||Adverse drug reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.93
82454981|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Alkalosis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82540189|NCT02914522|164779964|SUPERIORITY||Difference in Percentages|0.0||||0.9109|TWO_SIDED|95.0|-3.4|3.4|||Cochran-Mantel-Haenszel|CMH was stratified by concomitant use of corticosteroids and of immunomodulators at Day 1, and number of prior exposure to biologic agent (≤1,\>1).||||3.4|-3.4|0.9109
82649259|NCT01706198|165013799|OTHER||Ratio|1.03||||0.786|TWO_SIDED|95.0|0.83|1.28||GLM assuming negative binomial distribution (NBD) adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.28|0.83|0.786
82649260|NCT01706198|165013800|OTHER||Ratio|1.02||||0.461|TWO_SIDED|95.0|0.97|1.08||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.08|0.97|0.461
82649261|NCT01706198|165013802|OTHER||Ratio|0.99||||0.822|TWO_SIDED|95.0|0.91|1.08||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.08|0.91|0.822
82436852|NCT00487942|164583061|SUPERIORITY_OR_OTHER||Effect size|0.15|||||TWO_SIDED|95.0|-0.66|0.95||Inferential statistics were not performed.|ANCOVA|||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.95|-0.66|
82436853|NCT00487942|164583062|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.8|0.83||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.80|
82436854|NCT00487942|164583062|SUPERIORITY_OR_OTHER||Effect size|0.31|||||TWO_SIDED|95.0|-0.51|1.14||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.14|-0.51|
82436855|NCT00487942|164583062|SUPERIORITY_OR_OTHER||Effect size|0.16|||||TWO_SIDED|95.0|-0.66|0.98||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.98|-0.66|
82436856|NCT00487942|164583063|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.51|1.01||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.51|
82436857|NCT00487942|164583063|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.86|0.66||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.66|-0.86|
82454982|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.52|||||||mid-p exact binomial method|||Apnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.52
82454983|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Apparent life threatening event infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
82454984|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Asthma with acute exacerbation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82454985|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.05|||||||mid-p exact binomial method|||Asthma, unspecified, unspecified status: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.05
82540190|NCT02914522|164779970|SUPERIORITY||Difference in Percentages|25.5|||<|0.0001|TWO_SIDED|95.0|16.0|35.0|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.0|16.0|<0.0001
82649262|NCT01706198|165013803|OTHER||Ratio|1.1|||<|0.001|TWO_SIDED|95.0|1.05|1.15||GLM assuming NBD adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.15|1.05|<0.001
82649263|NCT01706198|165013805|OTHER||Ratio|0.98||||0.697|TWO_SIDED|95.0|0.88|1.09||GLM assuming NBD adjusted for randomized treatment; asthma maintenance therapy and ACT total score at Baseline per randomization stratification; number of severe asthma exacerbations in previous year prior to randomization categorized; gender \& age|Generalized Linear Model (GLM)||Ratio comparing FF/VI with Usual Care has been presented.|||1.09|0.88|0.697
82649264|NCT01706198|165013806|OTHER||Hazard Ratio (HR)|0.96||||0.504|TWO_SIDED|95.0|0.86|1.07||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates|Cox proportional hazards model||A hazard ratio \<1 indicated a lower risk with FF/VI compared with Usual Care|||1.07|0.86|0.504
82436858|NCT00487942|164583063|SUPERIORITY_OR_OTHER||Effect size|0.49|||||TWO_SIDED|95.0|-0.31|1.28||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.28|-0.31|
82436859|NCT00487942|164583064|SUPERIORITY_OR_OTHER||Effect Size|-0.27|||||TWO_SIDED|95.0|-1.03|0.48||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.48|-1.03|
82436860|NCT00487942|164583064|SUPERIORITY_OR_OTHER||Effect Size|0.11|||||TWO_SIDED|95.0|-0.65|0.88||Inferential Statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.88|-0.65|
82436861|NCT00487942|164583064|SUPERIORITY_OR_OTHER||Effect Size|-0.18|||||TWO_SIDED|95.0|-0.97|0.6||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.60|-0.97|
82436862|NCT00487942|164583065|SUPERIORITY_OR_OTHER||Effect Size|-0.32|||||TWO_SIDED|95.0|-1.08|0.44||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.44|-1.08|
82436863|NCT00487942|164583065|SUPERIORITY_OR_OTHER||Effect Size|-0.02|||||TWO_SIDED|95.0|-0.77|0.74||Inferential Statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.74|-0.77|
82436864|NCT00487942|164583065|SUPERIORITY_OR_OTHER||Effect Size|-0.1|||||TWO_SIDED|95.0|-0.89|0.68||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.68|-0.89|
82454986|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.63|||||||mid-p exact binomial method|||Bronchiolitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.63
82454987|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.46|||||||mid-p exact binomial method|||Bronchitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.46
82454988|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.42|||||||mid-p exact binomial method|||Bronchospasm: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.42
82454989|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.49|||||||mid-p exact binomial method|||Candidiasis of mouth: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.49
82454990|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Cellulitis and abscess of trunk: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82454991|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.28|||||||mid-p exact binomial method|||Constipation: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.28
82649265|NCT01706198|165013807|OTHER||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.5||ANCOVA adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender,age \& number of salbutamol inhalers in year prior to randomization|ANCOVA||Difference of FF/VI versus Usual Care has been presented.|||-0.5|-1.1|<0.001
82649266|NCT01706198|165013808|OTHER||Hazard Ratio (HR)|1.23|||<|0.001|TWO_SIDED|95.0|1.09|1.38||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates|Cox proportional hazards model||Hazard ratio for FF/VI versus Usual Care has been presented|||1.38|1.09|<0.001
82540191|NCT02914522|164779970|SUPERIORITY||Difference in Percentages|9.2||||0.0658|TWO_SIDED|95.0|-1.1|19.5|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||19.5|-1.1|0.0658
82436865|NCT00487942|164583066|SUPERIORITY_OR_OTHER||Effect Size|0.15|||||TWO_SIDED|95.0|-0.61|0.9||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.90|-0.61|
82436866|NCT00487942|164583066|SUPERIORITY_OR_OTHER||Effect Size|0.25|||||TWO_SIDED|95.0|-0.5|1.01||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.50|
82436867|NCT00487942|164583066|SUPERIORITY_OR_OTHER||Effect Size|0.46|||||TWO_SIDED|95.0|-0.34|1.25||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.25|-0.34|
82436868|NCT00487942|164583067|SUPERIORITY_OR_OTHER||Effect Size|0.45|||||TWO_SIDED|95.0|-0.33|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.33|
82436869|NCT00487942|164583067|SUPERIORITY_OR_OTHER||Effect Size|0.34|||||TWO_SIDED|95.0|-0.42|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.42|
82436870|NCT00487942|164583067|SUPERIORITY_OR_OTHER||Effect Size|0.13|||||TWO_SIDED|95.0|-0.68|0.93||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.93|-0.68|
82436871|NCT00487942|164583068|SUPERIORITY_OR_OTHER||Effect Size|0.39|||||TWO_SIDED|95.0|-0.37|1.15||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.15|-0.37|
82436872|NCT00487942|164583068|SUPERIORITY_OR_OTHER||Effect Size|-0.05|||||TWO_SIDED|95.0|-0.81|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.81|
82436873|NCT00487942|164583068|SUPERIORITY_OR_OTHER||Effect Size|-0.01|||||TWO_SIDED|95.0|-0.8|0.77||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.77|-0.80|
82454992|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Croup: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82454993|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.95|||||||mid-p exact binomial method|||Dehydration: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.95
82540192|NCT02914522|164779971|SUPERIORITY||Difference in Percentages|13.0||||0.0024|TWO_SIDED|95.0|5.3|20.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.6|5.3|0.0024
82540193|NCT02914522|164779971|SUPERIORITY||Difference in Percentages|0.9||||0.7951|TWO_SIDED|95.0|-7.0|8.7|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||8.7|-7.0|0.7951
82540194|NCT02914522|164779972|SUPERIORITY||Difference in Percentages|20.8||||0.0055|TWO_SIDED|95.0|7.7|33.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||33.9|7.7|0.0055
82540195|NCT02914522|164779972|SUPERIORITY||Difference in Percentages|8.2||||0.1265|TWO_SIDED|95.0|-4.2|20.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||20.6|-4.2|0.1265
82540196|NCT02914522|164779973|SUPERIORITY||Difference in Percentages|9.5||||0.0157|TWO_SIDED|95.0|1.8|17.1|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||17.1|1.8|0.0157
82540197|NCT02914522|164779973|SUPERIORITY||Difference in Percentages|5.5||||0.1808|TWO_SIDED|95.0|-2.9|13.9|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||13.9|-2.9|0.1808
82540198|NCT02914522|164779974|SUPERIORITY||Difference in Percentages|24.9|||<|0.0001|TWO_SIDED|95.0|14.6|35.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||35.2|14.6|<0.0001
82577845|NCT05576662|164864824|OTHER||Odds Ratio (OR)|1.32||||0.34|TWO_SIDED|95.0|0.74|2.33||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of body aches data||2.33|0.74|0.34
82577846|NCT05576662|164864824|OTHER||Odds Ratio (OR)|1.37||||0.29|TWO_SIDED|95.0|0.76|2.48||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of cardiovascular symptoms data||2.48|0.76|0.29
82577847|NCT05576662|164864824|OTHER||Odds Ratio (OR)|1.32||||0.35|TWO_SIDED|95.0|0.73|2.38||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of shortness of breath data||2.38|0.73|0.35
82577848|NCT05576662|164864824|OTHER||Odds Ratio (OR)|1.4||||0.25|TWO_SIDED|95.0|0.79|2.47||Uncorrected p-value. A p-value less than the a priori threshold of 0.05 is considered statistically significant.|Regression, Logistic|Logistic regression coefficient Wald test|An odds ratio \< 1 favors placebo plus ritonavir; an odds ratio \> 1 favors nirmatrelvir plus ritonavir.|Post-hoc analysis of gastrointestinal symptoms data||2.47|0.79|0.25
82577849|NCT05292586|164864852|SUPERIORITY||Adjusted mean difference|0.104|||<|0.001|TWO_SIDED|95.0|0.061|0.148|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.148|0.061|<0.001
82649267|NCT01706198|165013809|OTHER||Adjusted Odds Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.55|2.06||Logistic regression adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender, age and Baseline score.|Regression, Logistic||Adjusted odds ratio of FF/VI with Usual Care has been presented.|||2.06|1.55|<0.001
82436874|NCT00487942|164583069|SUPERIORITY_OR_OTHER||Effect Size|-0.99|||||TWO_SIDED|95.0|-1.79|-0.19||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||-0.19|-1.79|
82436875|NCT00487942|164583069|SUPERIORITY_OR_OTHER||Effect Size|-0.66|||||TWO_SIDED|95.0|-1.44|0.11||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.11|-1.44|
82436876|NCT00487942|164583069|SUPERIORITY_OR_OTHER||Effect Size|-0.03|||||TWO_SIDED|95.0|-0.82|0.75||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.75|-0.82|
82436877|NCT00487942|164583070|SUPERIORITY_OR_OTHER||Effect Size|0.46|||||TWO_SIDED|95.0|-0.3|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.30|
82436878|NCT00487942|164583070|SUPERIORITY_OR_OTHER||Effect Size|0.08|||||TWO_SIDED|95.0|-0.68|0.83||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.68|
82454994|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.13|||||||mid-p exact binomial method|||Dermatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.13
82454995|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.57|||||||mid-p exact binomial method|||Dyspnea: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.57
82540199|NCT02914522|164779974|SUPERIORITY||Difference in Percentages|9.9||||0.0521|TWO_SIDED|95.0|-1.3|21.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||21.2|-1.3|0.0521
82540200|NCT02914522|164779975|SUPERIORITY||Difference in Percentages|16.0||||0.0005|TWO_SIDED|95.0|7.8|24.2|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||24.2|7.8|0.0005
82540201|NCT02914522|164779975|SUPERIORITY||Difference in Percentages|4.3||||0.2946|TWO_SIDED|95.0|-3.9|12.6|||Cochran-Mantel-Haenszel|CMH test was stratified by concomitant use of corticosteroids and of immunomodulators at maintenance baseline; participation in Induction (A or B).||||12.6|-3.9|0.2946
82540202|NCT01227707|164779990|SUPERIORITY_OR_OTHER|||||||1|||||||one sample binomial test|||||||1.00
82540203|NCT00536380|164780020|SUPERIORITY_OR_OTHER_LEGACY|||||||0.721||95.0|||||ANCOVA|||||||0.721
82577850|NCT05292586|164864853|SUPERIORITY||Adjusted mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.076|0.173|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.173|0.076|<0.001
82436879|NCT00487942|164583070|SUPERIORITY_OR_OTHER||Effect Size|0.81|||||TWO_SIDED|95.0|0.0|1.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.63|-0.00|
82436880|NCT00487942|164583071|SUPERIORITY_OR_OTHER||Effect Size|-0.39|||||TWO_SIDED|95.0|-1.16|0.37||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.37|-1.16|
82454996|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.18|||||||mid-p exact binomial method|||Failure to thrive: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.18
82540204|NCT03418324|164780021|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7|||||Estimated values reflects the percentage of participants with overall clinical benefit.|For this study, we are not comparing outcome measures between the two arms||98.7|1.3|
82540205|NCT03418324|164780021|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm|Binomial proportion|66.7|||||TWO_SIDED|95.0|22.3|95.7|||||Estimated values reflects the percentage of participants with overall clinical benefit|For this study, we are not comparing outcome measures between the two groups.||95.7|22.3|
82540206|NCT03418324|164780024|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7||||||For this study, we are not comparing outcome measures between the two arms||98.7|1.3|
82540207|NCT03418324|164780024|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|66.7|||||TWO_SIDED|95.0|22.3|95.7||||||For this study, we are not comparing outcome measures between the two arms.||95.7|22.3|
82540208|NCT03418324|164780025|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|1.3|98.7||||||For this study, we are not comparing outcome measures between the two arms.||98.7|1.3|
82540209|NCT03418324|164780025|OTHER|Binomial proportion (Clopper-Pearson exact confidence interval) for each arm.|Binomial proportion|50.0|||||TWO_SIDED|95.0|11.8|88.2||||||For this study, we are not comparing outcome measures between the two arms.||88.2|11.8|
82577851|NCT05292586|164864854|SUPERIORITY||Adjusted mean difference|0.101|||<|0.001|TWO_SIDED|95.0|0.063|0.139|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.139|0.063|<0.001
82649268|NCT01706198|165013810|OTHER||Adjusted Odds Ratio|1.51|||<|0.001|TWO_SIDED|95.0|1.31|1.73||Logistic regression adjusted for randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender, age and Baseline score.|Regression, Logistic||Adjusted odds ratio of FF/VI versus Usual Care has been presented.|||1.73|1.31|<0.001
82540210|NCT01049503|164780042|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov and Smirnov and Bartlett tests, respectively.~Data were analyzed by 2-way RM-ANOVA after logarithmic transformation and Bonferroni's test."||||<0.05
82540211|NCT01049503|164780043|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
82540212|NCT01049503|164780044|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively.Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
82540213|NCT01049503|164780045|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||"The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov and Smirnov and Bartlett tests, respectively.~Data were analyzed by One-way ANOVA after logarithmic transformation and Tukey's test."||||<0.05
82436881|NCT00487942|164583071|SUPERIORITY_OR_OTHER||Effect Size|-0.45|||||TWO_SIDED|95.0|-1.21|0.31||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.31|-1.21|
82436882|NCT00487942|164583071|SUPERIORITY_OR_OTHER||Effect Size|-0.2|||||TWO_SIDED|95.0|-0.99|0.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.58|-0.99|
82577852|NCT05292586|164864855|SUPERIORITY||Adjusted mean difference|0.113|||<|0.001|TWO_SIDED|95.0|0.071|0.154|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.154|0.071|<0.001
82436883|NCT00487942|164583072|SUPERIORITY_OR_OTHER||Effect Size|0.47|||||TWO_SIDED|95.0|-0.3|1.23||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.23|-0.30|
82436884|NCT00487942|164583072|SUPERIORITY_OR_OTHER||Effect Size|0.28|||||TWO_SIDED|95.0|-0.48|1.04||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.04|-0.48|
82436885|NCT00487942|164583072|SUPERIORITY_OR_OTHER||Effect size|0.14|||||TWO_SIDED|95.0|-0.64|0.93||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.93|-0.64|
82436886|NCT00487942|164583073|SUPERIORITY_OR_OTHER||Effect size|-0.23|||||TWO_SIDED|95.0|-0.99|0.52||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.52|-0.99|
82436887|NCT00487942|164583073|SUPERIORITY_OR_OTHER||Effect size|0.34|||||TWO_SIDED|95.0|-0.42|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.42|
82454997|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.03|||||||mid-p exact binomial method|||Fever: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.03
82577853|NCT05292586|164864856|SUPERIORITY||Adjusted mean difference|0.069||||0.003|TWO_SIDED|95.0|0.023|0.115|||ANCOVA|||"1\_Change from baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.115|0.023|0.003
82577854|NCT05292586|164864857|SUPERIORITY||Adjusted mean difference|0.044||||0.05|TWO_SIDED|95.0|0.0|0.088|||ANCOVA|||"1\_Change from baseline -- Week 4~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.088|0.000|0.050
82577855|NCT05292586|164864857|SUPERIORITY||Adjusted mean difference|0.041||||0.098|TWO_SIDED|95.0|-0.007|0.089|||ANCOVA|||"2\_Change from baseline -- Week 8~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.089|-0.007|0.098
82577856|NCT05292586|164864857|SUPERIORITY||Adjusted mean difference|0.043||||0.056|TWO_SIDED|95.0|-0.001|0.086|||ANCOVA|||"3\_Change from baseline -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.086|-0.001|0.056
82577857|NCT05292586|164864858|SUPERIORITY||Odds Ratio (OR)|1.327||||0.098|TWO_SIDED|95.0|0.949|1.855|||Logistic regression model|||1\_Responders at Week 4||1.855|0.949|0.098
82454998|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.45|||||||mid-p exact binomial method|||Fussy infant: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.45
82436888|NCT00487942|164583073|SUPERIORITY_OR_OTHER||Effect size|0.06|||||TWO_SIDED|95.0|-0.72|0.85||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.85|-0.72|
82436889|NCT00487942|164583074|SUPERIORITY_OR_OTHER||Effect size|-0.2|||||TWO_SIDED|95.0|-0.95|0.56||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.56|-0.95|
82436890|NCT00487942|164583074|SUPERIORITY_OR_OTHER||Effect size|-0.35|||||TWO_SIDED|95.0|-1.11|0.41||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.41|-1.11|
82436891|NCT00487942|164583074|SUPERIORITY_OR_OTHER||Effect size|-0.16|||||TWO_SIDED|95.0|-0.95|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.95|
82436892|NCT00487942|164583075|SUPERIORITY_OR_OTHER||Effect size|-0.51|||||TWO_SIDED|95.0|-1.3|0.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.27|-1.30|
82436893|NCT00487942|164583075|SUPERIORITY_OR_OTHER||Effect size|0.55|||||TWO_SIDED|95.0|-0.25|1.35||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.35|-0.25|
82436894|NCT00487942|164583075|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.78|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.78|
82436895|NCT00487942|164583076|SUPERIORITY_OR_OTHER||Effect size|-0.64|||||TWO_SIDED|95.0|-1.43|0.15||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.15|-1.43|
82436896|NCT00487942|164583076|SUPERIORITY_OR_OTHER||Effect Size|-0.26|||||TWO_SIDED|95.0|-1.05|0.53||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.53|-1.05|
82436897|NCT00487942|164583076|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.9|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.90|
82436898|NCT00487942|164583077|SUPERIORITY_OR_OTHER||Effect size|-0.15|||||TWO_SIDED|95.0|-0.92|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.92|
82436899|NCT00487942|164583077|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.54|1.04||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.04|-0.54|
82436900|NCT00487942|164583077|SUPERIORITY_OR_OTHER||Effect size|-0.31|||||TWO_SIDED|95.0|-1.12|0.49||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.49|-1.12|
82436901|NCT00487942|164583078|SUPERIORITY_OR_OTHER||Effect size|-0.44|||||TWO_SIDED|95.0|-1.22|0.33||Inferential statistics not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.33|-1.22|
82436902|NCT00487942|164583078|SUPERIORITY_OR_OTHER||Effect size|-0.89|||||TWO_SIDED|95.0|-1.69|-0.08||Inferential statistics not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||-0.08|-1.69|
82436903|NCT00487942|164583078|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.95|0.7||Inferential statistics not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the Trails B Test score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.95|
82436904|NCT00487942|164583124|SUPERIORITY_OR_OTHER||Effect size|0.12|||||TWO_SIDED|95.0|-0.76|1.0||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.0|-0.76|
82436905|NCT00487942|164583124|SUPERIORITY_OR_OTHER||Effect size|-0.33|||||TWO_SIDED|95.0|-1.15|0.48||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.48|-1.15|
82436906|NCT00487942|164583124|SUPERIORITY_OR_OTHER||Effect size|0.27|||||TWO_SIDED|95.0|-0.61|1.15||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SCoRS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.15|-0.61|
82436907|NCT00487942|164583125|SUPERIORITY_OR_OTHER||Effect size|0.33|||||TWO_SIDED|95.0|-0.58|1.24||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.24|-0.58|
82436908|NCT00487942|164583125|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.91|0.81||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.81|-0.91|
82454999|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Gastroenteritis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82436909|NCT00487942|164583125|SUPERIORITY_OR_OTHER||Effect size|-0.44|||||TWO_SIDED|95.0|-1.33|0.45||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.45|-1.33|
82436910|NCT00487942|164583126|SUPERIORITY_OR_OTHER||Effect size|0.18|||||TWO_SIDED|95.0|-0.75|1.1||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.10|-0.75|
82455000|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.66|||||||mid-p exact binomial method|||Hand, foot and mouth disease: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.66
82577858|NCT05292586|164864858|SUPERIORITY||Odds Ratio (OR)|1.262||||0.18|TWO_SIDED|95.0|0.898|1.772|||Logistic regression model|||2\_Responders at Week 8||1.772|0.898|0.180
82436911|NCT00487942|164583126|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.98|0.78||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.78|-0.98|
82577859|NCT05292586|164864858|SUPERIORITY||Odds Ratio (OR)|1.568||||0.009|TWO_SIDED|95.0|1.117|2.203|||Logistic regression model|||3\_Responders at Week 12||2.203|1.117|0.009
82577860|NCT05292586|164864859|SUPERIORITY||Odds Ratio (OR)|1.822|||<|0.001|TWO_SIDED|95.0|1.284|2.587|||Logistic regression model|||1\_Responders at Week 12||2.587|1.284|<0.001
82577861|NCT05292586|164864860|SUPERIORITY||Adjusted mean difference|8.78||||0.002|TWO_SIDED|95.0|3.3|14.27|||ANCOVA|||"1\_Change From Baseline; Week 0 -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||14.27|3.30|0.002
82577862|NCT05292586|164864861|SUPERIORITY||Adjusted mean difference|8.73||||0.002|TWO_SIDED|95.0|3.32|14.14|||ANCOVA|||"1\_Change From Baseline; Week 0 -- Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||14.14|3.32|0.002
82577863|NCT05292586|164864862|SUPERIORITY||Adjusted mean difference|-0.112||||0.026|TWO_SIDED|95.0|-0.211|-0.013|||ANCOVA|||"1\_Change From Baseline in ACQ-7 at Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||-0.013|-0.211|0.026
82577864|NCT05292586|164864862|SUPERIORITY||Adjusted mean difference|0.02||||0.686|TWO_SIDED|95.0|-0.077|0.118|||ANCOVA|||"2\_Change from baseline in ACQ-5 at Week 12~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||0.118|-0.077|0.686
82577865|NCT05292586|164864863|SUPERIORITY||Adjusted mean difference|3.82||||0.033|TWO_SIDED|95.0|0.31|7.33|||ANCOVA|||"1\_Change From Baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||7.330|0.310|0.033
82577866|NCT05292586|164864864|SUPERIORITY||Adjusted mean difference|3.78||||0.078|TWO_SIDED|95.0|-0.425|7.985|||ANCOVA|||"1\_Change From Baseline~Statistical analysis used all available data and imputed missing data (i.e., whether due to missed visits, unperformed or unevaluable assessments at intermediate timepoints, or early study discontinuation) in ITT population (overall population N=283 in CHF 1535 pMDI 800/24 μg study group; N=280 in the CHF 718 pMDI 800 μg study group)."||7.985|-0.425|0.078
82577867|NCT02755129|164864865|OTHER||||||||||||||||||"To assess the similarity between the Reveal LINQ measures and those from the reference system, correlation coefficients were used.~The correlation coefficient was calculated over windows of 4 seconds and averaged for each exercise. Then, the average correlation coefficient over all patients and exercise was calculated."|||
82577868|NCT02477618|164864891|SUPERIORITY||Odds Ratio (OR)|1.056||||0.878|TWO_SIDED|95.0|0.527|2.118|||Regression, Logistic|||||2.118|0.527|0.878
82577869|NCT02477618|164864892|SUPERIORITY||Hazard Ratio (HR)|0.747||||0.636|TWO_SIDED|95.0|0.222|2.507|||Regression, Cox|||||2.507|0.222|0.636
82436912|NCT00487942|164583126|SUPERIORITY_OR_OTHER||Effect size|0.37|||||TWO_SIDED|95.0|-0.54|1.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.27|-0.54|
82436913|NCT00487942|164583127|SUPERIORITY_OR_OTHER||Effect size|-0.38|||||TWO_SIDED|95.0|-1.14|0.38||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.38|-1.14|
82455001|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.67|||||||mid-p exact binomial method|||Hematoma: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.67
82455002|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Hypopotassemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82577870|NCT02477618|164864893|SUPERIORITY||Odds Ratio (OR)|0.623||||0.199|TWO_SIDED|95.0|0.303|1.282|||Regression, Logistic|||||1.282|0.303|0.199
82577871|NCT02477618|164864894|SUPERIORITY||Hazard Ratio (HR)|0.683||||0.328|TWO_SIDED|95.0|0.318|1.466|||Regression, Cox|||||1.466|0.318|0.328
82577872|NCT02477618|164864896|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.339|TWO_SIDED|95.0|0.193|1.763|||Regression, Cox|||||1.763|0.193|0.339
82577873|NCT02477618|164864897|SUPERIORITY||Hazard Ratio (HR)|1.086||||0.817|TWO_SIDED|95.0|0.539|2.189|||Regression, Cox|||||2.189|0.539|0.817
82577874|NCT02477618|164864898|SUPERIORITY||LS Mean Difference|-0.2||||0.567|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.567
82577875|NCT02284009|164864913|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|0.0|0.24|||||Analysis was performed using a Bayesian model incorporating historical placebo data using a robust mixture prior. Values above are 95% credible intervals. Probability of treatment difference (Albiglutide - Placebo) \>= 0.2 nmol/L = 0.097.|||0.24|0.00|
82436914|NCT00487942|164583127|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.89|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.89|
82436915|NCT00487942|164583127|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.84|0.73||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.84|
82436916|NCT00487942|164583128|SUPERIORITY_OR_OTHER||Effect size|-0.41|||||TWO_SIDED|95.0|-1.21|0.4||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.40|-1.21|
82436917|NCT00487942|164583128|SUPERIORITY_OR_OTHER||Effect size|-0.29|||||TWO_SIDED|95.0|-1.09|0.52||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.52|-1.09|
82436918|NCT00487942|164583128|SUPERIORITY_OR_OTHER||Effect size|-0.69|||||TWO_SIDED|95.0|-1.51|0.14||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.14|-1.51|
82436919|NCT00487942|164583129|SUPERIORITY_OR_OTHER||Effect size|-0.24|||||TWO_SIDED|95.0|-1.06|0.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.58|-1.06|
82436920|NCT00487942|164583129|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.85|0.75||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.75|-0.85|
82455003|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.69|||||||mid-p exact binomial method|||Lipoma of other specified sites: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.69
82455004|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.53|||||||mid-p exact binomial method|||Methicillin susceptible Staphylococcus aureus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.53
82455005|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.16|||||||mid-p exact binomial method|||Nausea and vomiting: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.16
82455006|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Neonatal bradycardia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82436921|NCT00487942|164583129|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.9|0.7||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.70|-0.90|
82455007|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.08|||||||mid-p exact binomial method|||Neonatal candida infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.08
82455008|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.98|||||||mid-p exact binomial method|||Other diseases of nasal cavity and sinuses: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.98
82455009|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Other specified cardiac dysrhythmias: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82455010|NCT01128426|164614043|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Pilonidal cyst without mention of abscess: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82455011|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.22|||||||mid-p exact binomial method|||Pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.22
82455012|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.02|||||||mid-p exact binomial method|||Primary apnea of newborn: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.02
82455013|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.17|||||||mid-p exact binomial method|||Rash: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.17
82455014|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.87|||||||mid-p exact binomial method|||Respiratory syncytial virus: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.87
82455015|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Retinopathy of prematurity stage 2: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82455016|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.54|||||||mid-p exact binomial method|||Single seizure: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.54
82455017|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.23|||||||mid-p exact binomial method|||Stomatitis: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.23
82455018|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Stridor: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82455019|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.24|||||||mid-p exact binomial method|||Subconjunctival hemorrhage: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.24
82455020|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Umbilical hernia without obstruction/gangrene: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82577876|NCT00225017|164864972|NON_INFERIORITY_OR_EQUIVALENCE|25 subjects per arm will have 80% power to detect a difference between groups in mean FMD change of 2.9%, and 90% power to detect a mean FMD change of 3.4%|Mean Difference (Net)|-0.384|STANDARD_DEVIATION|1.0||0.601|TWO_SIDED|95.0|-2.08|1.312|||Wilcoxon (Mann-Whitney)|||||1.312|-2.080|0.601
82577877|NCT00225017|164864973|SUPERIORITY_OR_OTHER||||||<|0.009||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.009
82577878|NCT00225017|164864974|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.141
82455021|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.21|||||||mid-p exact binomial method|||Unspecified bacterial pneumonia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.21
82455022|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.29|||||||mid-p exact binomial method|||Unspecified septicemia: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.29
82455023|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.06|||||||mid-p exact binomial method|||Urinary tract infection: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.06
82455024|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.61|||||||mid-p exact binomial method|||Urticaria: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.61
82455025|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.07|||||||mid-p exact binomial method|||Vaccines adverse reaction: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.07
82455026|NCT01128426|164614043|SUPERIORITY_OR_OTHER||||||<|0.01|||||||mid-p exact binomial method|||Viral syndrome: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||<0.01
82455027|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.04|||||||mid-p exact binomial method|||Weakness: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.04
82455028|NCT01128426|164614043|SUPERIORITY_OR_OTHER|||||||0.68|||||||mid-p exact binomial method|||Wheezing: p-value was estimated using the mid-p exact binomial method. The null hypothesis was relative risk = 1.||||0.68
82455029|NCT01100320|164614052|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|99.9|||||TWO_SIDED|90.0|95.4|104.52|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||104.52|95.40|
82455030|NCT01100320|164614053|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|92.6|||||TWO_SIDED|90.0|90.11|95.09|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||95.09|90.11|
82455031|NCT01100320|164614054|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|92.6|||||TWO_SIDED|90.0|90.13|95.13|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||95.13|90.13|
82455032|NCT02863328|164614084|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.4% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.6|< 0.0001
82577879|NCT00461981|164865006|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-60.6||||||95.0|-79.7|-31.7||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-31.7|-79.7|
82652350|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.103||||0.3627|TWO_SIDED|95.0|-0.119|0.326||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.326|-0.119|0.3627
82455033|NCT02863328|164614084|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.3|-0.6|< 0.0001
82455034|NCT02863328|164614084|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
82455035|NCT02863328|164614084|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.4|-0.7|<0.0001
82455036|NCT02863328|164614085|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Treatment difference|-0.1|||=|0.7593|TWO_SIDED|95.0|-0.7|0.5||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.5|-0.7|= 0.7593
82455037|NCT02863328|164614085|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Treatment difference|-0.4|||=|0.1358|TWO_SIDED|95.0|-1.0|0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Empagliflozin 25 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||0.1|-1.0|= 0.1358
82436922|NCT00487942|164583132|SUPERIORITY_OR_OTHER||Effect size|-0.05|||||TWO_SIDED|95.0|-0.8|0.71||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.71|-0.80|
82436923|NCT00487942|164583132|SUPERIORITY_OR_OTHER||Effect size|-0.31|||||TWO_SIDED|95.0|-1.06|0.45||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.45|-1.06|
82436924|NCT00487942|164583132|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.68|0.89||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the SANS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.89|-0.68|
82436925|NCT00487942|164583133|SUPERIORITY_OR_OTHER||Effect size|-0.13|||||TWO_SIDED|95.0|-0.88|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.88|
82455038|NCT02863328|164614113|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.85||||0.3552|TWO_SIDED|95.0|0.6|1.2||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Empagliflozin 25 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.20|0.60|0.3552
82540214|NCT01049503|164780046|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from fluorescence loss were evaluated by Kruskal-Wallis and Dunn's tests.||||<0.05
82540215|NCT01049503|164780047|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The softwares GraphPad InStat version 3.0 for Windows and GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively. Data from lesion area were evaluated by ANOVA after logarithmic transformation and Tukey's test.||||<0.05
82540216|NCT01049503|164780048|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||GraphPad Prism version 4.0 for Windows (GraphPad Software, La Jolla, Ca, USA) were used. Data were checked for normality and homogeneity using Kolmogorov; Smirnov and Bartlett tests, respectively.Data from the clinical exams were evaluated by Kruskal-Wallis' test.||||<0.05
82540217|NCT02974634|164780049|SUPERIORITY||Slope|1.04|STANDARD_ERROR_OF_MEAN|2.32||0.06|TWO_SIDED|95.0|-3.5|5.6||Comparison of intervention and usual care at 6 month follow up|t-test, 2 sided||Interaction coefficient (slope) of arm by time period (6 months follow up vs baseline) from mixed linear model|||5.6|-3.5|0.06
82540218|NCT02974634|164780050|SUPERIORITY||Slope|0.34|STANDARD_ERROR_OF_MEAN|0.29||0.68|TWO_SIDED|95.0|-0.24|0.91||Comparison of intervention and usual care at 6 month follow up|t-test, 2 sided||Interaction coefficient (slope) of arm by time period (6 months follow up vs baseline) from mixed linear model|||0.91|-0.24|0.68
82577880|NCT00461981|164865007|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-60.9||||||95.0|-83.8|-26.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-26.0|-83.8|
82436926|NCT00487942|164583133|SUPERIORITY_OR_OTHER||Effect size|0.05|||||TWO_SIDED|95.0|-0.72|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.72|
82436927|NCT00487942|164583133|SUPERIORITY_OR_OTHER||Effect size|0.0|||||TWO_SIDED|95.0|-0.8|0.81||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.81|-0.80|
82455039|NCT02863328|164614114|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.75||||0.225|TWO_SIDED|95.0|0.47|1.19||Unadjusted two-sided p-value for test of no difference from 1.|Cox proportional hazards model||Oral semaglutide 14 mg / Empagliflozin 25 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||1.19|0.47|0.2250
82455040|NCT00595478|164614148|SUPERIORITY||Odds Ratio (OR)|0.8||||0.66|TWO_SIDED|95.0|0.29|2.18|||Poisson regression|Chi-square test with 1 degree of freedom|Odds ratio for 0 ETG-positive samples for MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||2.18|0.29|0.66
82540219|NCT01499134|164780063|SUPERIORITY_OR_OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82540220|NCT01499134|164780064|SUPERIORITY_OR_OTHER|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
82540221|NCT01499134|164780065|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||This p-value is correct, confirmed with report from statistician.|Wilcoxon (Mann-Whitney)|||||||1.000
82540222|NCT01499134|164780066|SUPERIORITY_OR_OTHER|||||||0.363|||||||Wilcoxon (Mann-Whitney)|||||||0.363
82540223|NCT01499134|164780067|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||||||0.017
82540224|NCT01499134|164780068|SUPERIORITY_OR_OTHER|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||||||0.476
82540225|NCT01499134|164780069|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.170
82540226|NCT01499134|164780070|SUPERIORITY_OR_OTHER|||||||0.595|||||||Wilcoxon (Mann-Whitney)|||||||0.595
82540227|NCT01811706|164780103|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of T25FW between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
82540228|NCT01811706|164780104|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of SARA score between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
82540229|NCT01811706|164780105|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis is that there was no difference in change of Stride Length on BAG between Dalfampridine and Placebo. The test was performed with a significant level of 0.05 (two-sided).||||>0.05
82540230|NCT02057692|164780124|SUPERIORITY||LS mean difference|-0.889|STANDARD_ERROR_OF_MEAN|0.3969||0.0321|TWO_SIDED|95.0|-1.698|0.081|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by analysis of covariance (ANCOVA) using a PROC MIXED procedure. Least-squares (LS) mean change from baseline to Endpoint (Week 13/ET), along with associated 95% confidence interval (CI) for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||0.081|-1.698|0.0321
82540231|NCT02057692|164780124|SUPERIORITY||LS mean difference|-0.906|STANDARD_ERROR_OF_MEAN|0.3503||0.0145|TWO_SIDED|95.0|-1.62|-0.192|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by ANCOVA using a PROC MIXED procedure. LS mean change from baseline to Endpoint (Week 13/ET), along with associated 95% CI for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||-0.192|-1.620|0.0145
82540232|NCT02057692|164780124|SUPERIORITY||LS mean difference|-0.039|STANDARD_ERROR_OF_MEAN|0.4431||0.9298|TWO_SIDED|95.0|-0.942|0.863|||ANCOVA|||The primary analysis of change from baseline to endpoint (Week 13/ET) average daily ItchRO(Obs) was evaluated by ANCOVA using a PROC MIXED procedure. LS mean change from baseline to Endpoint (Week 13/ET), along with associated 95% confidence interval (CI) for the LS mean, and pair-wise treatment P-values were calculated for each treatment group.||0.863|-0.942|0.9298
82540233|NCT03923491|164780129|SUPERIORITY||Slope|-0.55|STANDARD_ERROR_OF_MEAN|4.69||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total score controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82577881|NCT00461981|164865008|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|44.2||||||95.0|12.0|67.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||67.8|12.0|
82436928|NCT00487942|164583134|SUPERIORITY_OR_OTHER||Effect size|-0.62|||||TWO_SIDED|95.0|-1.44|0.2||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.20|-1.44|
82436929|NCT00487942|164583134|SUPERIORITY_OR_OTHER||Effect size|-0.18|||||TWO_SIDED|95.0|-0.98|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.98|
82436930|NCT00487942|164583134|SUPERIORITY_OR_OTHER||Effect size|-0.17|||||TWO_SIDED|95.0|-0.97|0.63||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.63|-0.97|
82436931|NCT00487942|164583135|SUPERIORITY_OR_OTHER||Effect size|-0.08|||||TWO_SIDED|95.0|-0.88|0.72||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.72|-0.88|
82436932|NCT00487942|164583135|SUPERIORITY_OR_OTHER||Effect size|-0.08|||||TWO_SIDED|95.0|-0.88|0.72||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.72|-0.88|
82436933|NCT00487942|164583135|SUPERIORITY_OR_OTHER||Effect size|0.08|||||TWO_SIDED|95.0|-0.72|0.89||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.89|-0.72|
82436934|NCT00487942|164583136|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.65|0.87||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.65|
82436935|NCT00487942|164583136|SUPERIORITY_OR_OTHER||Effect size|0.13|||||TWO_SIDED|95.0|-0.63|0.88||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.88|-0.63|
82455041|NCT00595478|164614148|SUPERIORITY||mean ratio|0.93||||0.61|TWO_SIDED|95.0|0.71|1.22|||Poisson regression|Chi-square test with 1 degree of freedom|Mean ratio for number of ETG-positive samples, if \>0 ETG-positive samples: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||1.22|0.71|0.61
82455042|NCT00595478|164614149|SUPERIORITY||Odds Ratio (OR)|0.82||||0.74|TWO_SIDED|95.0|0.26|2.62|||Poisson regression|Chi-square test with 1 degree of freedom|Odds ratio for 0% days using alcohol during the 36 week follow-up period: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||2.62|0.26|0.74
82455043|NCT00595478|164614149|SUPERIORITY||mean ratio|0.74||||0.007|TWO_SIDED|95.0|0.59|0.92|||Poisson regression|Chi-square test with 1 degree of freedom|Mean ratio for percentage of days with alcohol use during the 36 week follow-up period, if alcohol was used: MET/CBT+CM/BPT (numerator) vs. MET/CTB (denominator)|||.92|.59|0.007
82455044|NCT02451514|164614153|OTHER||Geometric mean ratio|1.48|||||TWO_SIDED|95.0|1.03|2.12|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||2.12|1.03|
82455045|NCT02451514|164614153|OTHER||Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.67|1.28|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.28|0.67|
82455046|NCT02451514|164614153|OTHER||Geometric mean ratio|1.38|||||TWO_SIDED|95.0|0.97|1.96|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.96|0.97|
82455047|NCT02451514|164614153|OTHER||Geometric mean ratio|1.98|||||TWO_SIDED|95.0|1.27|3.09|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||3.09|1.27|
82577882|NCT00461981|164865009|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|16.2||||||95.0|-17.6|45.4||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||45.4|-17.6|
82577883|NCT00461981|164865010|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-18.2||||||95.0|-40.0|4.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||4.9|-40.0|
82540234|NCT03923491|164780129|SUPERIORITY||Slope|-0.35|STANDARD_ERROR_OF_MEAN|0.49||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total vegetable component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540235|NCT03923491|164780129|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.88||0.2|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 greens and beans component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.20
82540236|NCT03923491|164780129|SUPERIORITY||Slope|1.71|STANDARD_ERROR_OF_MEAN|0.67||0.2|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total fruit component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.20
82455048|NCT02451514|164614153|OTHER||Geometric mean ratio|0.93|||||TWO_SIDED|95.0|0.63|1.37|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||1.37|0.63|
82455049|NCT02451514|164614153|OTHER||Geometric mean ratio|1.84|||||TWO_SIDED|95.0|1.2|2.84|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||2.84|1.20|
82455050|NCT02451514|164614153|OTHER||Geometric mean ratio|1.34|||||TWO_SIDED|95.0|0.96|1.85|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.85|0.96|
82455051|NCT02451514|164614153|OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|95.0|0.7|1.25|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.25|0.70|
82455052|NCT02451514|164614153|OTHER||Geometric mean ratio|1.25|||||TWO_SIDED|95.0|0.91|1.72|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.72|0.91|
82540237|NCT03923491|164780129|SUPERIORITY||Slope|2.14|STANDARD_ERROR_OF_MEAN|0.83||0.19|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 whole fruit component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||0.19
82540238|NCT03923491|164780129|SUPERIORITY||Slope|0.83|STANDARD_ERROR_OF_MEAN|1.1||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 whole grain component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.0
82455053|NCT02451514|164614153|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|95.0|0.81|2.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||2.53|0.81|
82455054|NCT02451514|164614153|OTHER||Geometric mean ratio|0.82|||||TWO_SIDED|95.0|0.49|1.37|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||1.37|0.49|
82455055|NCT02451514|164614153|OTHER||Geometric mean ratio|1.18|||||TWO_SIDED|95.0|0.67|2.06|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||2.06|0.67|
82455056|NCT02451514|164614153|OTHER||Geometric mean ratio|1.92|||||TWO_SIDED|95.0|1.33|2.78|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||2.78|1.33|
82540239|NCT03923491|164780129|SUPERIORITY||Slope|-0.9|STANDARD_ERROR_OF_MEAN|0.85||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total dairy component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.0
82649269|NCT01706198|165013811|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the two-sided 95% confidence interval for the incidence ratio is less than 2.|Incidence ratio|1.4|||||TWO_SIDED|95.0|0.8|2.7|||||Incidence ratio was calculated as percentage of participants who had at least one SAE of pneumonia in the FF/VI group divided by the percentage of participants who had at least one SAE of pneumonia in the Usual Care group.|||2.7|0.8|
82436936|NCT00487942|164583136|SUPERIORITY_OR_OTHER||Effect size|1.69|||||TWO_SIDED|95.0|0.78|2.6||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||2.60|0.78|
82436937|NCT00487942|164583137|SUPERIORITY_OR_OTHER||Effect size|-0.3|||||TWO_SIDED|95.0|-1.06|0.46||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.46|-1.06|
82436938|NCT00487942|164583137|SUPERIORITY_OR_OTHER||Effect size|-0.1|||||TWO_SIDED|95.0|-0.87|0.67||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.67|-0.87|
82436939|NCT00487942|164583137|SUPERIORITY_OR_OTHER||Effect size|0.89|||||TWO_SIDED|95.0|0.05|1.74||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.74|0.05|
82436940|NCT00487942|164583138|SUPERIORITY_OR_OTHER||Effect size|-0.25|||||TWO_SIDED|95.0|-1.05|0.55||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.55|-1.05|
82436941|NCT00487942|164583138|SUPERIORITY_OR_OTHER||Effect size|0.29|||||TWO_SIDED|95.0|-0.52|1.09||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.09|-0.52|
82436942|NCT00487942|164583138|SUPERIORITY_OR_OTHER||Effect size|0.75|||||TWO_SIDED|95.0|-0.08|1.58||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.58|-0.08|
82436943|NCT00487942|164583139|SUPERIORITY_OR_OTHER||Effect size|0.02|||||TWO_SIDED|95.0|-0.78|0.82||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.82|-0.78|
82436944|NCT00487942|164583139|SUPERIORITY_OR_OTHER||Effect size|0.55|||||TWO_SIDED|95.0|-0.27|1.36||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.36|-0.27|
82436945|NCT00487942|164583139|SUPERIORITY_OR_OTHER||Effect size|1.62|||||TWO_SIDED|95.0|0.7|2.55||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||2.55|0.70|
82540240|NCT03923491|164780129|SUPERIORITY||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.42||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 total protein foods component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540241|NCT03923491|164780129|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.85||-0.12|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 seafood and plant protein component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||-0.12
82436946|NCT00487942|164583140|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.64|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.64|
82436947|NCT00487942|164583140|SUPERIORITY_OR_OTHER||Effect size|-0.11|||||TWO_SIDED|95.0|-0.87|0.64||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.64|-0.87|
82436948|NCT00487942|164583140|SUPERIORITY_OR_OTHER||Effect size|0.73|||||TWO_SIDED|95.0|-0.08|1.54||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the PANSS Negative Scale score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.54|-0.08|
82436949|NCT00487942|164583141|SUPERIORITY_OR_OTHER||Effect size|-0.5|||||TWO_SIDED|95.0|-1.27|0.27||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.27|-1.27|
82436950|NCT00487942|164583141|SUPERIORITY_OR_OTHER||Effect size|-0.28|||||TWO_SIDED|95.0|-1.05|0.5||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.50|-1.05|
82436951|NCT00487942|164583141|SUPERIORITY_OR_OTHER||Effect size|0.3|||||TWO_SIDED|95.0|-0.51|1.11||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.11|-0.51|
82436952|NCT00487942|164583142|SUPERIORITY_OR_OTHER||Effect size|-0.12|||||TWO_SIDED|95.0|-0.92|0.68||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.68|-0.92|
82436953|NCT00487942|164583142|SUPERIORITY_OR_OTHER||Effect size|0.07|||||TWO_SIDED|95.0|-0.73|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.73|
82436954|NCT00487942|164583142|SUPERIORITY_OR_OTHER||Effect size|0.03|||||TWO_SIDED|95.0|-0.77|0.83||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.83|-0.77|
82436955|NCT00487942|164583143|SUPERIORITY_OR_OTHER||Effect size|0.0|||||TWO_SIDED|95.0|-0.8|0.8||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.80|-0.80|
82455057|NCT02451514|164614153|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.61|1.17|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||1.17|0.61|
82649270|NCT01706198|165013812|OTHER||Hazard Ratio (HR)|1.45||||0.255|TWO_SIDED|95.0|0.77|2.74||Cox proportional hazards model with randomized treatment, asthma maintenance therapy at Baseline per randomization stratification, ACT total score at Baseline per randomization stratification, gender and age as covariates.|Cox proportional hazards model||Hazard ratio for FF/VI versus Usual Care has been presented.|||2.74|0.77|0.255
82649271|NCT01084005|165013816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.81|-0.48|||ANCOVA|||||-0.48|-0.81|<0.0001
82649272|NCT01084005|165013817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.45|-0.24|||ANCOVA|||||-0.24|-0.45|<0.0001
82649273|NCT01084005|165013818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.71|-0.43|||ANCOVA|||||-0.43|-0.71|<0.0001
82649274|NCT01084005|165013819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001||95.0|-0.77|-0.47|||ANCOVA|||||-0.47|-0.77|<0.0001
82649275|NCT01084005|165013820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001||95.0|-30.2|-11.2|||ANCOVA|||||-11.2|-30.2|<0.0001
82455058|NCT02451514|164614153|OTHER||Geometric mean ratio|1.62|||||TWO_SIDED|95.0|1.13|2.32|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||2.32|1.13|
82649276|NCT01084005|165013821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001||95.0|-24.7|-12.6|||Mixed Models Analysis|||||-12.6|-24.7|<0.0001
82436956|NCT00487942|164583143|SUPERIORITY_OR_OTHER||Effect size|0.18|||||TWO_SIDED|95.0|-0.62|0.98||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.98|-0.62|
82436957|NCT00487942|164583143|SUPERIORITY_OR_OTHER||Effect size|0.66|||||TWO_SIDED|95.0|-0.16|1.49||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.49|-0.16|
82455059|NCT02451514|164614153|OTHER||Geometric mean ratio|7.15|||||TWO_SIDED|95.0|4.25|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||12|4.25|
82455060|NCT02451514|164614153|OTHER||Geometric mean ratio|0.94|||||TWO_SIDED|95.0|0.59|1.5|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||1.50|0.59|
82455061|NCT02451514|164614153|OTHER||Geometric mean ratio|6.73|||||TWO_SIDED|95.0|4.03|11.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||11|4.03|
82455062|NCT02451514|164614153|OTHER||Geometric mean ratio|0.61|||||TWO_SIDED|95.0|0.3|1.23|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||1.23|0.30|
82649277|NCT01084005|165013822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.5|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-28.1|-14.8|||Mixed Models Analysis|||||-14.8|-28.1|<0.0001
82649278|NCT01084005|165013823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001||95.0|-29.8|-13.4|||Mixed Models Analysis|||||-13.4|-29.8|<0.0001
82455063|NCT02451514|164614153|OTHER||Geometric mean ratio|5.53|||||TWO_SIDED|95.0|2.96|10.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||10|2.96|
82455064|NCT02451514|164614153|OTHER||Geometric mean ratio|3.38|||||TWO_SIDED|95.0|1.7|6.73|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||6.73|1.70|
82455065|NCT02451514|164614153|OTHER||Geometric mean ratio|2.58|||||TWO_SIDED|95.0|1.2|5.54|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||5.54|1.20|
82649279|NCT01084005|165013824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.319|||<|0.0001||95.0|3.321|20.837|||Regression, Logistic|||||20.837|3.321|<0.0001
82649280|NCT01084005|165013827|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.214||||0.0048|TWO_SIDED|95.0|0.073|0.625|||Regression, Logistic|||Lina 5 mg qd vs Placebo||0.625|0.073|0.0048
82649281|NCT00472446|165013844|SUPERIORITY_OR_OTHER|||||||0.028|||||||t-test, 2 sided|||null hypothesis: no difference in outcome measure between superficial cervical block and placebo treatment (irrespective of timing of treatment)||||.028
82649282|NCT00472446|165013845|SUPERIORITY_OR_OTHER|||||||0.016|||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||null hypothesis: no difference in outcome measure between superficial cervical block and placebo treatment (irrespective of timing of treatment)||||0.016
82649283|NCT00472446|165013845|SUPERIORITY_OR_OTHER|||||||0.723|||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||null hypothesis: no difference in outcome measure pre-operative versus post-operative application||||0.723
82649284|NCT00472446|165013847|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Fisher Exact|mid p value of the two-sided Fisher test||"null hypothesis: outcome measure (Proportion of patients taking analgetics) is equal between superficial cervical block and placebo treatment (irrespective of timing)~Proportion taking Paracetamol:"||||0.94
82649285|NCT00472446|165013847|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Fisher Exact|mid p value of two-sided Fisher test||"null hypothesis: outcome measure (Proportion of patients taking analgetics) is equal between superficial cervical block and placebo treatment (irrespective of timing)~Proportion taking Metamizole:"||||0.58
82649286|NCT00472446|165013848|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED||||||Non-parametric ANOVA-type|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in pooled dose of analgetics, superficial block versus Placebo~outcome: paracetamol"||||0.328
82436958|NCT00487942|164583144|SUPERIORITY_OR_OTHER||Effect size|0.25|||||TWO_SIDED|95.0|-0.51|1.01||Inferential statistics were not performed||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||1.01|-0.51|
82436959|NCT00487942|164583144|SUPERIORITY_OR_OTHER||Effect size|0.03|||||TWO_SIDED|95.0|-0.73|0.78||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.78|-0.73|
82436960|NCT00487942|164583144|SUPERIORITY_OR_OTHER||Effect size|-0.23|||||TWO_SIDED|95.0|-1.01|0.56||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the ESS Total score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.56|-1.01|
82436961|NCT00487942|164583145|SUPERIORITY_OR_OTHER||Effect size|0.11|||||TWO_SIDED|95.0|-0.64|0.87||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.87|-0.64|
82436962|NCT00487942|164583145|SUPERIORITY_OR_OTHER||Effect size|-0.02|||||TWO_SIDED|95.0|-0.79|0.74||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.74|-0.79|
82436963|NCT00487942|164583145|SUPERIORITY_OR_OTHER||Effect size|-0.3|||||TWO_SIDED|95.0|-1.11|0.5||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.50|-1.11|
82436964|NCT00487942|164583146|SUPERIORITY_OR_OTHER||Effect size|-0.15|||||TWO_SIDED|95.0|-0.95|0.65||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.65|-0.95|
82436965|NCT00487942|164583146|SUPERIORITY_OR_OTHER||Effect size|-0.07|||||TWO_SIDED|95.0|-0.87|0.73||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.73|-0.87|
82436966|NCT00487942|164583146|SUPERIORITY_OR_OTHER||Effect size|-0.43|||||TWO_SIDED|95.0|-1.24|0.38||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.38|-1.24|
82436967|NCT00487942|164583147|SUPERIORITY_OR_OTHER||Effect size|0.06|||||TWO_SIDED|95.0|-0.75|0.86||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.86|-0.75|
82455066|NCT02451514|164614153|OTHER||Geometric mean ratio|1.3|||||TWO_SIDED|95.0|0.66|2.56|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||2.56|0.66|
82455067|NCT02451514|164614153|OTHER||Geometric mean ratio|3.34|||||TWO_SIDED|95.0|1.57|7.11|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||7.11|1.57|
82455068|NCT02451514|164614153|OTHER||Geometric mean ratio|1.14|||||TWO_SIDED|95.0|0.51|2.59|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||2.59|0.51|
82455069|NCT02451514|164614153|OTHER||Geometric mean ratio|2.93|||||TWO_SIDED|95.0|1.4|6.12|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||6.12|1.40|
82455070|NCT02451514|164614153|OTHER||Geometric mean ratio|3.35|||||TWO_SIDED|95.0|1.49|7.57|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||7.57|1.49|
82649287|NCT00472446|165013848|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Non-parametric ANOVA-type|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in pooled dose of analgetics, superficial block versus Placebo~outcome: metamizole"||||0.81
82436968|NCT00487942|164583147|SUPERIORITY_OR_OTHER||Effect size|-0.19|||||TWO_SIDED|95.0|-0.99|0.62||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.62|-0.99|
82455071|NCT02451514|164614153|OTHER||Geometric mean ratio|0.52|||||TWO_SIDED|95.0|0.23|1.18|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||1.18|0.23|
82455072|NCT02451514|164614153|OTHER||Geometric mean ratio|5.94|||||TWO_SIDED|95.0|2.84|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||12|2.84|
82540242|NCT03923491|164780129|SUPERIORITY||Slope|-0.31|STANDARD_ERROR_OF_MEAN|1.12||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 fatty acid component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540243|NCT03923491|164780129|SUPERIORITY||Slope|-2.09|STANDARD_ERROR_OF_MEAN|0.97||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 sodium component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540244|NCT03923491|164780129|SUPERIORITY||Slope|-0.8|STANDARD_ERROR_OF_MEAN|1.16||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 refined grains component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540245|NCT03923491|164780129|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|1.13||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||Inverse probability of retention weighted normal linear regression models for between-arm differences in HEI-2015 added sugar component controlling for baseline HEI-2015 saturated fat, child involvement in food preparation, and receipt of any food assistance.||||1.00
82540246|NCT03923491|164780129|SUPERIORITY||Slope|-0.52|STANDARD_ERROR_OF_MEAN|0.86||1|TWO_SIDED|||||Familywise error rates were controlled at alpha=.05 for primary and secondary outcomes separately using Holm's sequentially rejective procedure.|Regression, Linear|||||||1.00
82540247|NCT01192542|164780132|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of 0.05 (1/2 LogMAR line) was used.|Least-square mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0064|||TWO_SIDED|95.0|-0.022|0.003|||Mixed Models Analysis|Comparisons between two lenses were carried out using 95% confidence intervals (CI) constructed for least-square mean differences.|The mean difference is calculated as: Test lens - Control lens.|The alternative hypothesis is the monocular visual acuity of the galyfilcon A prototype lens is non-inferior to that of the enfilcon A lens.||0.003|-0.022|
82540248|NCT01192542|164780135|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin of 0.05 (1/2 LogMAR line) was used.|Least-square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.0091|||TWO_SIDED|95.0|-0.018|0.018|||Mixed Models Analysis|Comparisons between two lenses were carried out using 95% confidence intervals (CI) constructed for least-square mean differences.||The alternative hypothesis is the binocular visual acuity of the galyfilcon A prototype lens is non-inferior to that of the enfilcon A lens.||0.018|-0.018|
82540249|NCT00355914|164780136|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0||||Results were considered statistically significant if the P value was less than 0.05.|t-test, 2 sided|||compared baseline, 3, 6, 12, 18, and 24 months between groups||||>0.05
82540250|NCT00355914|164780137|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Results were considered statistically significant if the P value was less than 0.05.|t-test, 2 sided|||baseline, 3, 6, 12, 18, and 24 months between groups||||>0.05
82540251|NCT02633358|164780138|SUPERIORITY|Therapeutic hypothermia need to have superiority in the survival rate after 90 days|Risk Ratio (RR)|0.58|||<|0.001|TWO_SIDED|95.0|0.41|0.82||P-value less than 0.05 means significant data|Chi-squared|Test method for proportional data||Therapeutic hypothermia group compare with control group||0.82|0.41|<0.001
82540252|NCT02633358|164780139|SUPERIORITY|Therapeutic hypothermia nee to have superiority in neurological outcome in the 90 days after enrollment.|Risk Ratio (RR)|0.8||||0.04|TWO_SIDED|95.0|0.66|0.98||P value less than 0.05 means significant date|Chi-squared|Test method for proportional data||Therapeutic hypothermia group compare with control group||0.98|0.66|0.04
82540253|NCT02633358|164780140|SUPERIORITY||||||<|0.05||||||P-value less than 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
82540254|NCT02633358|164780141|SUPERIORITY||||||<|0.05||||||P-value less than 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
82540255|NCT02633358|164780142|SUPERIORITY||||||<|0.05||||||P-value less then 0.05 is statistical significance.|t-test, 2 sided|||||||<0.05
82540256|NCT01678196|164780188|SUPERIORITY_OR_OTHER|||||||0.927|TWO_SIDED||||||Chi-squared|||||||0.927
82540257|NCT01678196|164780189|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||ANCOVA|ANCOVA reflects change from Time 1 scores (entered as covariate) to Time 2 Scores.||||||0.67
82540258|NCT01678196|164780190|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||ANCOVA|ANCOVA results include Time 1 scores as a covariate, thus reflecting change over time||||||0.743
82540259|NCT01678196|164780191|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|ANCOVA reflects change for Time 1 values (entered as the covariate) to Time 2 values (entered as the DV)||||||<.001
82540260|NCT00982033|164780197|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANCOVA|||||||0.90
82540261|NCT00530842|164780198|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.044||0.0482|TWO_SIDED|95.0|-0.174|-0.001|||ANOVA|ANOVA with fixed terms for sequence, treatment, and period and random term for subject within sequence.||||-0.001|-0.174|0.0482
82540262|NCT00530842|164780199|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.0||||0.3407|TWO_SIDED|95.0|-9.5|27.5|||Wilcoxon signed-rank test||The confidence interval was determined by Hodges-Lehmann method.|||27.5|-9.5|0.3407
82540263|NCT02534350|164780257|SUPERIORITY||Treatment Difference|0.1||||0.72|TWO_SIDED|95.0|-0.43|0.63|||ANCOVA|||||0.63|-0.43|0.72
82540264|NCT02534350|164780258|SUPERIORITY||Treatment Difference|-0.12||||0.76|TWO_SIDED|95.0|-0.94|0.69|||ANCOVA|||||0.69|-0.94|0.76
82649288|NCT00472446|165013848|SUPERIORITY_OR_OTHER|||||||0.331|TWO_SIDED||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in outcome measure pre-operative and post-operative application~outcome measure: pooled paracetamol dose"||||0.331
82436969|NCT00487942|164583147|SUPERIORITY_OR_OTHER||Effect size|-0.47|||||TWO_SIDED|95.0|-1.28|0.34||Inferential statistics were not performed.||||This study was not designed for hypothesis testing, but to gather information relative to the efficacy of armodafinil treatment in improving cognitive impairments in patients with schizophrenia. Inferential statistics were not performed. Effect sizes and 95% confidence intervals of the effect sizes for the change from baseline in the composite score are provided for each armodafinil treated group compared with placebo. Actual changes from baseline are summarized using descriptive statistics.||0.34|-1.28|
82436970|NCT03111550|164583158|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.3% for corneal edema)||||||0.02041|ONE_SIDED||||||Exact test on binomial distribution|||||||0.02041
82436971|NCT03111550|164583159|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.3% for retinal detachment)||||||0.1969|ONE_SIDED|||||For ZQR00 retinal detachment|Exact test on binomial distribution|||||||0.1969
82436972|NCT03111550|164583159|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.4655|ONE_SIDED|||||For ZHR00 secondary surgical intervention|Exact test of binomial distribution|||||||0.4655
82436973|NCT03111550|164583159|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.021|ONE_SIDED|||||For ZQR00 secondary surgical intention|Exact test on binomial distribution|||||||0.0210
82436974|NCT03111550|164583159|SUPERIORITY|Compare if study AE rate is significantly higher than ISO SPE rate (0.8% for secondary surgical intervention)||||||0.4698|ONE_SIDED|||||For ZXR00 secondary surgical intervention|Exact test on binomial distribution|||||||0.4698
82436975|NCT01457014|164583160|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|p values have undergone Bonferroni adjustment for Central Apnea Index (CAI), Obstructive Apnea Index (OAI) and Hypopnea Index (HI)||||||<0.001
82436976|NCT01457014|164583161|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED|||||p value has undergone Bonferroni adjustment. P-Value applies to Av. 02 saturation|Wilcoxon (Mann-Whitney)|p value has undergone Bonferroni adjustment||||||0.627
82436977|NCT01457014|164583162|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.161
82436978|NCT03040011|164583191|SUPERIORITY|||||||0.39|||||||Kruskal-Wallis|||||||0.39
82436979|NCT03040011|164583192|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||||||0.25
82436980|NCT03040011|164583193|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||||||0.17
82540265|NCT02534350|164780259|SUPERIORITY||Treatment Difference|0.01||||0.86|TWO_SIDED|95.0|-0.12|0.15|||ANCOVA|||||0.15|-0.12|0.86
82540266|NCT02534350|164780260|SUPERIORITY||Treatment Difference|-3.25||||0.6|TWO_SIDED|95.0|-15.58|9.08|||ANCOVA|||||9.08|-15.58|0.60
82540267|NCT04673851|164780261|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.86|STANDARD_DEVIATION|5.44|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540268|NCT04673851|164780261|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.16|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82436981|NCT03040011|164583194|SUPERIORITY|||||||0.45|||||||Kruskal-Wallis|||||||0.45
82436982|NCT03040011|164583195|SUPERIORITY|||||||0.54|||||||Kruskal-Wallis|||||||0.54
82540269|NCT04673851|164780261|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.65|STANDARD_DEVIATION|5.61|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82436983|NCT03040011|164583196|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.80
82540270|NCT04673851|164780261|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.47|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540271|NCT04673851|164780261|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-1.97|STANDARD_DEVIATION|7.19|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540272|NCT04673851|164780261|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.27|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82436984|NCT03040011|164583197|SUPERIORITY|||||||0.72|||||||Chi-squared|||||||0.72
82436985|NCT03040011|164583198|SUPERIORITY|||||||0.64|||||||Chi-squared|||||||0.64
82436986|NCT03040011|164583199|SUPERIORITY|||||||0.41|||||||Kruskal-Wallis|||||||0.41
82540273|NCT04673851|164780261|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-4.15|STANDARD_DEVIATION|7.93|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540274|NCT04673851|164780261|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.52|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540275|NCT04673851|164780262|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-1.52|STANDARD_DEVIATION|8.95|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540276|NCT04673851|164780262|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.17|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540277|NCT04673851|164780262|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|1.15|STANDARD_DEVIATION|5.8|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540278|NCT04673851|164780262|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.2|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540279|NCT04673851|164780262|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|0.67|STANDARD_DEVIATION|10.29|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540280|NCT04673851|164780262|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.07|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540281|NCT04673851|164780262|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.07|STANDARD_DEVIATION|9.47|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540282|NCT04673851|164780262|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.22|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540283|NCT04673851|164780263|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.05|STANDARD_DEVIATION|7.08|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540284|NCT04673851|164780263|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.01|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540285|NCT04673851|164780263|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.35|STANDARD_DEVIATION|7.53|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540286|NCT04673851|164780263|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.31|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540287|NCT04673851|164780263|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|0.9|STANDARD_DEVIATION|9.95|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540288|NCT04673851|164780263|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.09|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540289|NCT04673851|164780263|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|-2.56|STANDARD_DEVIATION|9.6|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82649289|NCT00472446|165013848|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Non-parametric ANOVA-type statistic|Non-parametric ANOVA-type statistic for pooled main effects with Box approximation, full model||"null hypothesis: no difference in outcome measure pre-operative and post-operative application~outcome measure: pooled metamizole dose"||||0.440
82540290|NCT04673851|164780263|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.27|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540291|NCT04673851|164780264|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|-0.29|STANDARD_DEVIATION|8.27|||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540292|NCT04673851|164780264|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.04|||||TWO_SIDED|||||||||Midtreatment - Baseline: 21 participants analyzed (had data at both timepoints)||||
82540293|NCT04673851|164780264|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|2.6|STANDARD_DEVIATION|7.86|||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540294|NCT04673851|164780264|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - Baseline: 20 participants analyzed (had data at both timepoints)||||
82540295|NCT04673851|164780264|OTHER|Single group mean difference between baseline and mid-treatment assessments.|Mean Difference (Net)|2.17|STANDARD_DEVIATION|7.84|||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540296|NCT04673851|164780264|OTHER|Effect size of single group mean difference between baseline and mid-treatment assessments.|Cohen's d|0.28|||||TWO_SIDED|||||||||Midtreatment - Baseline: 30 participants analyzed (had data at both timepoints)||||
82540297|NCT04673851|164780264|OTHER|Single group mean difference between baseline and post-treatment assessments.|Mean Difference (Net)|6.48|STANDARD_DEVIATION|8.5|||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540298|NCT04673851|164780264|OTHER|Effect size of single group mean difference between baseline and post-treatment assessments.|Cohen's d|0.76|||||TWO_SIDED|||||||||Posttreatment - Baseline: 27 participants analyzed (had data at both timepoints)||||
82540299|NCT04673851|164780265|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|4.11|STANDARD_DEVIATION|6.86|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540300|NCT04673851|164780265|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.6|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540301|NCT04673851|164780265|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|0.77|STANDARD_DEVIATION|6.88|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540302|NCT04673851|164780265|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.11|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540303|NCT04673851|164780265|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|-0.15|STANDARD_DEVIATION|5.78|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82455073|NCT02451514|164614153|OTHER||Geometric mean ratio|3.09|||||TWO_SIDED|95.0|1.38|6.92|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||6.92|1.38|
82455074|NCT02451514|164614157|OTHER||Geometric mean ratio|8.5|||||TWO_SIDED|95.0|4.41|16.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||16|4.41|
82455075|NCT02451514|164614157|OTHER||Geometric mean ratio|0.7|||||TWO_SIDED|95.0|0.39|1.27|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||1.27|0.39|
82455076|NCT02451514|164614157|OTHER||Geometric mean ratio|5.97|||||TWO_SIDED|95.0|3.14|11.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M14459.||11|3.14|
82455077|NCT02451514|164614157|OTHER||Geometric mean ratio|197.0|||||TWO_SIDED|95.0|86.0|452.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||452|86|
82649290|NCT00472446|165013849|SUPERIORITY_OR_OTHER|||||||0.925|TWO_SIDED||||||non-parametric ANOVA-type statistic|non-parametric ANOVA-type statistic for pooled main effects, full model||null hypothesis: no difference in outcome measure for superficial cervical block versus placebo treatment||||0.925
82455078|NCT02451514|164614157|OTHER||Geometric mean ratio|0.98|||||TWO_SIDED|95.0|0.47|2.07|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||2.07|0.47|
82455079|NCT02451514|164614157|OTHER||Geometric mean ratio|193.0|||||TWO_SIDED|95.0|84.0|442.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M01-0240364.||442|84|
82455080|NCT02451514|164614157|OTHER||Geometric mean ratio|3.51|||||TWO_SIDED|95.0|1.96|6.27|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||6.27|1.96|
82455081|NCT02451514|164614157|OTHER||Geometric mean ratio|0.62|||||TWO_SIDED|95.0|0.37|1.0|||Mixed Models Analysis|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||1.0|0.37|
82455082|NCT02451514|164614157|OTHER||Geometric mean ratio|2.17|||||TWO_SIDED|95.0|1.23|3.85|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, NZ98/254.||3.85|1.23|
82455083|NCT02451514|164614157|OTHER||Geometric mean ratio|3.57|||||TWO_SIDED|95.0|1.84|6.92|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||6.92|1.84|
82455084|NCT02451514|164614157|OTHER||Geometric mean ratio|0.72|||||TWO_SIDED|95.0|0.4|1.29|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||1.29|0.40|
82455085|NCT02451514|164614157|OTHER||Geometric mean ratio|2.55|||||TWO_SIDED|95.0|1.33|4.89|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, M10713.||4.89|1.33|
82455086|NCT02451514|164614157|OTHER||Geometric mean ratio|17.0|||||TWO_SIDED|95.0|8.18|35.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||35|8.18|
82455087|NCT02451514|164614157|OTHER||Geometric mean ratio|0.8|||||TWO_SIDED|95.0|0.41|1.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||1.53|0.41|
82455088|NCT02451514|164614157|OTHER||Geometric mean ratio|13.0|||||TWO_SIDED|95.0|6.59|28.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, H44/76.||28|6.59|
82455089|NCT02451514|164614157|OTHER||Geometric mean ratio|74.0|||||TWO_SIDED|95.0|34.0|160.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||160|34|
82455090|NCT02451514|164614157|OTHER||Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.38|1.53|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||1.53|0.38|
82455091|NCT02451514|164614157|OTHER||Geometric mean ratio|57.0|||||TWO_SIDED|95.0|27.0|121.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup B, 5/99.||121|27|
82455092|NCT02451514|164614157|OTHER||Geometric mean ratio|2.66|||||TWO_SIDED|95.0|1.46|4.83|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||4.83|1.46|
82455093|NCT02451514|164614157|OTHER||Geometric mean ratio|6.76|||||TWO_SIDED|95.0|3.96|12.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||12|3.96|
82455094|NCT02451514|164614157|OTHER||Geometric mean ratio|18.0|||||TWO_SIDED|95.0|10.0|32.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup A.||32|10|
82455095|NCT02451514|164614157|OTHER||Geometric mean ratio|1.4|||||TWO_SIDED|95.0|0.72|2.71|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||2.71|0.72|
82455096|NCT02451514|164614157|OTHER||Geometric mean ratio|21.0|||||TWO_SIDED|95.0|12.0|37.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||37|12|
82455097|NCT02451514|164614157|OTHER||Geometric mean ratio|29.0|||||TWO_SIDED|95.0|15.0|55.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup C.||55|15|
82455098|NCT02451514|164614157|OTHER||Geometric mean ratio|0.81|||||TWO_SIDED|95.0|0.47|1.38|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||1.38|0.47|
82455099|NCT02451514|164614157|OTHER||Geometric mean ratio|19.0|||||TWO_SIDED|95.0|12.0|31.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||31|12|
82455100|NCT02451514|164614157|OTHER||Geometric mean ratio|16.0|||||TWO_SIDED|95.0|9.27|26.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup W.||26|9.27|
82455101|NCT02451514|164614157|OTHER||Geometric mean ratio|0.46|||||TWO_SIDED|95.0|0.17|1.28|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||1.28|0.17|
82455102|NCT02451514|164614157|OTHER||Geometric mean ratio|20.0|||||TWO_SIDED|95.0|8.2|48.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||48|8.20|
82455103|NCT02451514|164614157|OTHER||Geometric mean ratio|9.13|||||TWO_SIDED|95.0|3.78|22.0|||Miettinen & Nurminen score method|||Between-group Geometric Mean Ratios (GMRs) Against N. Meningitidis Serogroup Y.||22|3.78|
82649291|NCT00621686|165013851|SUPERIORITY_OR_OTHER|||||||0.069|||||||Log Rank|||||||0.069
82455104|NCT02451514|164614170|OTHER||Geometric mean ratio|0.49|||||TWO_SIDED|95.0|0.28|0.87|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis Serogroup B, M14459||0.87|0.28|
82455105|NCT02451514|164614170|OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|95.0|0.4|2.11|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis Serogroup B, M01-0240364||2.11|0.40|
82455106|NCT02451514|164614170|OTHER||Geometric mean ratio|0.83|||||TWO_SIDED|95.0|0.5|1.38|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, NZ98/254||1.38|0.50|
82455107|NCT02451514|164614170|OTHER||Geometric mean ratio|0.79|||||TWO_SIDED|95.0|0.44|1.44|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, M10713||1.44|0.44|
82455108|NCT02451514|164614170|OTHER||Geometric mean ratio|0.6|||||TWO_SIDED|95.0|0.34|1.07|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, H44/76||1.07|0.34|
82455109|NCT02451514|164614170|OTHER||Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.52|1.12|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup B, 5/99||1.12|0.52|
82455110|NCT02451514|164614170|OTHER||Geometric mean ratio|2.99|||||TWO_SIDED|95.0|1.89|4.75|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup A||4.75|1.89|
82455111|NCT02451514|164614170|OTHER||Geometric mean ratio|4.69|||||TWO_SIDED|95.0|3.01|7.31|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup C||7.31|3.01|
82455112|NCT02451514|164614170|OTHER||Geometric mean ratio|8.6|||||TWO_SIDED|95.0|5.84|13.0|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup W||13|5.84|
82455113|NCT02451514|164614170|OTHER||Geometric mean ratio|7.03|||||TWO_SIDED|95.0|3.96|12.0|||Miettinen & Nurminen score method|||Between-group GMT ratios against N. meningitidis serogroup Y||12|3.96|
82455114|NCT01773187|164614179|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||Pre-specified||||0.0003
82455115|NCT01773187|164614180|SUPERIORITY|||||||0.2368|||||||Fisher Exact|||Pre-specified||||0.2368
82455116|NCT00186901|164614189|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.86||95.0|||||Wilcoxon Test|||Baseline where N=134||||0.86
82455117|NCT00186901|164614189|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.17||||0.99||95.0|||||Wilcoxon Test|||12 Month BMD Z-Score Calculation where N=109||||0.99
82455118|NCT00186901|164614189|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.54||95.0|||||Wilcoxon Test|||24 Month BMD Z-Score calculation where N=91||||0.54
82455119|NCT00186901|164614189|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.04||||0.31||95.0|||||Wilcoxon Test|||36 Month (End of Study) BMD Z-Score calculation where N=84||||0.31
82455120|NCT00186901|164614190|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.32||||0.0004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0004
82455121|NCT00186901|164614191|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.69||||0.0023||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0023
82455122|NCT00186901|164614192|SUPERIORITY_OR_OTHER|||||||0.0092||95.0|||||Kruskal-Wallis|||||||0.0092
82455123|NCT00186901|164614193|SUPERIORITY_OR_OTHER||Correlation coefficient|0.41|||<|0.0001|TWO_SIDED|95.0|0.25|0.55|||Z-test|||275 received a QCT and 121 received a DXA scan. 121 paired scans were evaluated.||0.55|0.25|<0.0001
82652351|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.087||||0.4404|TWO_SIDED|95.0|-0.135|0.31||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.310|-0.135|0.4404
82455124|NCT00186901|164614194|SUPERIORITY_OR_OTHER||Correlation coefficient|0.54|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Z-test|||218 patients were assessed at 12 months and received a QCT Scan. 94 patients were also assessed using the DEXA Scan. Comparison of the two methods used 94 paired studies to arrive at a correlation coefficient.||0.67|0.38|<0.0001
82455125|NCT00186901|164614195|SUPERIORITY_OR_OTHER||Correlation coefficient|0.53|||<|0.0001|TWO_SIDED|95.0|0.36|0.66|||Z-test|||188 patients were assessed at baseline and received a QCT Scan. 90 patients were also assessed using the DEXA Scan. Comparison of the two methods used 90 paired studies to arrive at a correlation coefficient.||0.66|0.36|<0.0001
82455126|NCT00186901|164614196|SUPERIORITY_OR_OTHER||Correlation coefficient|0.48|||<|0.0001|TWO_SIDED|95.0|0.3|0.63|||Z-test|||180 patients were assessed at 36 months and received a QCT Scan. 89 patients were also assessed using the DXA Scan. Comparison of the two methods used 89 paired studies to arrive at a correlation coefficient.||0.63|0.30|<0.0001
82455127|NCT00186901|164614197|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Kruskal Wallis|||||||0.40
82455128|NCT00186901|164614198|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Kruskal Wallis|||||||0.21
82455129|NCT00555217|164614199|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.88||||0.3|TWO_SIDED|95.0|0.7|1.12|||Log Rank||Combination ARB and ACEI vs. mono therapy ARB|||1.12|0.70|0.30
82455130|NCT00555217|164614200|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.1|TWO_SIDED|95.0|0.58|1.05|||Log Rank||Combination ARB and ACEI vs. mono therapy ARB|||1.05|0.58|0.10
82455131|NCT02709330|164614213|OTHER|||||||0.99|||||||Kolmogorov-Smirnov Test|||Matched historical controls will be identified from the PatientsLikeMe database.||||0.99
82455132|NCT02709330|164614214|OTHER|||||||0.0748|||||||ANOVA|||||||0.0748
82455133|NCT02709330|164614215|OTHER||||||<|1e-05|||||||Lin's Concordance|||||||<0.00001
82455134|NCT02709330|164614219|OTHER||||||<|1e-05|||||||Lin's Concordance|||||||<0.00001
82455135|NCT03152591|164614234|OTHER||Ratio LIK066/Placebo|0.88||||0.353|TWO_SIDED|90.0|0.7|1.11|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline in average fasting free testosterone was analyzed using an analysis of covariance model which included treatment as a categorical factor, baseline body weight and log transformed baseline average fasting free testosterone as a covariate.|1.11|0.70|0.353
82455136|NCT03152591|164614235|OTHER||Ratio LIK066/Placebo|1.25||||0.218|TWO_SIDED|90.0|0.92|1.68|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.68|0.92|0.218
82455137|NCT03152591|164614236|OTHER||Ratio LIK066/Placebo|1.27||||0.249|TWO_SIDED|90.0|0.9|1.78|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.78|0.90|0.249
82455138|NCT03152591|164614237|OTHER||Ratio LIK066/Placebo|1.15||||0.173|TWO_SIDED|90.0|0.97|1.36|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.36|0.97|0.173
82455139|NCT03152591|164614238|OTHER||Ratio LIK066/Placebo|0.82||||0.089|TWO_SIDED|90.0|0.68|0.99|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|0.99|0.68|0.089
82540304|NCT04673851|164780265|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.03|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540305|NCT04673851|164780265|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-2.63|STANDARD_DEVIATION|7.95|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540306|NCT04673851|164780265|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540307|NCT04673851|164780266|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|1.68|STANDARD_DEVIATION|3.76|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540308|NCT04673851|164780266|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.45|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540309|NCT04673851|164780266|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|-0.07|STANDARD_DEVIATION|2.73|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540310|NCT04673851|164780266|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.02|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540311|NCT04673851|164780266|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|-0.56|STANDARD_DEVIATION|2.44|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82577884|NCT00461981|164865011|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-5.6||||||95.0|-27.4|13.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||13.3|-27.4|
82540312|NCT04673851|164780266|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.23|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82649292|NCT02008721|165013862|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size, i.e. an expected mean yearly UMSARS-ME increase of 3,9 under verum treatment compared to 7.8 ± 6.8 (mean ± standard deviation) under Placebo treatment.~We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in motor examination scores on UMSARS between baseline and week 52 between the study groups."||||0.51
82540313|NCT04673851|164780266|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-0.59|STANDARD_DEVIATION|3.15|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82455140|NCT03152591|164614239|OTHER||Ration LIK066/Placebo|0.69||||0.109|TWO_SIDED|90.0|0.48|1.01|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.01|0.48|0.109
82455141|NCT03152591|164614240|OTHER||Ration LIK066/Placebo|0.76||||0.008|TWO_SIDED|90.0|0.65|0.89|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|0.89|0.65|0.008
82540314|NCT04673851|164780266|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.19|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540315|NCT04673851|164780267|OTHER|Single group mean difference between mid-treatment and post-treatment assessments.|Mean Difference (Net)|2.42|STANDARD_DEVIATION|4.48|||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540316|NCT04673851|164780267|OTHER|Effect size of single group mean difference between mid-treatment and post-treatment assessments.|Cohen's d|0.54|||||TWO_SIDED|||||||||Posttreatment - Midtreatment: 19 participants analyzed (had data at both timepoints)||||
82540317|NCT04673851|164780267|OTHER|Single group mean difference between 1.5 month and mid-treatment assessments.|Mean Difference (Net)|0.83|STANDARD_DEVIATION|5.05|||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540318|NCT04673851|164780267|OTHER|Effect size of single group mean difference between 1.5 month and mid-treatment assessments.|Cohen's d|0.17|||||TWO_SIDED|||||||||Midtreatment - 1.5 Months: 30 participants analyzed (had data at both timepoints)||||
82540319|NCT04673851|164780267|OTHER|Single group mean difference between 1.5 month and 4.5 month assessments.|Mean Difference (Net)|0.41|STANDARD_DEVIATION|4.55|||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82577885|NCT00461981|164865012|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|35.7||||||95.0|9.5|57.1||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||57.1|9.5|
82540320|NCT04673851|164780267|OTHER|Effect size of single group mean difference between 1.5 month and 4.5 month assessments.|Cohen's d|0.09|||||TWO_SIDED|||||||||4.5 Months - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540321|NCT04673851|164780267|OTHER|Single group mean difference between 1.5 month and post-treatment assessments.|Mean Difference (Net)|-2.04|STANDARD_DEVIATION|6.12|||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540322|NCT04673851|164780267|OTHER|Effect size of single group mean difference between 1.5 month and post-treatment assessments.|Cohen's d|0.33|||||TWO_SIDED|||||||||Posttreatment - 1.5 Months: 27 participants analyzed (had data at both timepoints)||||
82540323|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-1.6||||0.0133|TWO_SIDED|95.0|-2.87|-0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||-0.34|-2.87|0.0133
82540324|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-2.26||||0.0006|TWO_SIDED|95.0|-3.54|-0.98|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.98|-3.54|0.0006
82540325|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-1.57||||0.0394|TWO_SIDED|95.0|-3.06|-0.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||-0.08|-3.06|0.0394
82577886|NCT00461981|164865013|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-5.0||||||95.0|-27.7|16.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||16.0|-27.7|
82540326|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-1.65||||0.0332|TWO_SIDED|95.0|-3.16|-0.13|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||-0.13|-3.16|0.0332
82577887|NCT00461981|164865014|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|14.7||||||95.0|-6.5|38.4||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||38.4|-6.5|
82577888|NCT00461981|164865015|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|38.1||||||95.0|0.9|65.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||65.9|0.9|
82577889|NCT00461981|164865016|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|11.7||||||95.0|-13.0|34.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||34.9|-13.0|
82577890|NCT00461981|164865017|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-15.8||||||95.0|-40.7|8.0||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||8.0|-40.7|
82649293|NCT02008721|165013863|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size, i.e. an expected mean yearly UMSARS-ME increase of 3,9 under verum treatment compared to 7.8 ± 6.8 (mean ± standard deviation) under Placebo treatment.~We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in motor examination scores on UMSARS between baseline and week 52 between the study groups."||||0.82
82652352|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|0.001||||0.9939|TWO_SIDED|95.0|-0.224|0.226||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.226|-0.224|0.9939
82436987|NCT03040011|164583201|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
82540327|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-1.82||||0.0601|TWO_SIDED|95.0|-3.71|0.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.08|-3.71|0.0601
82436988|NCT03040011|164583202|SUPERIORITY|||||||0.9|||||||Chi-squared|||||||0.90
82436989|NCT03040011|164583203|SUPERIORITY|||||||0.49|||||||Chi-squared|||||||0.49
82436990|NCT03040011|164583204|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
82436991|NCT03040011|164583205|SUPERIORITY|||||||0.35|||||||Kruskal-Wallis|||||||0.35
82436992|NCT03040011|164583206|SUPERIORITY|||||||0.32|||||||Kruskal-Wallis|||||||0.32
82436993|NCT03040011|164583207|SUPERIORITY|||||||0.18|||||||Kruskal-Wallis|||||||0.18
82436994|NCT03040011|164583208|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
82436995|NCT03040011|164583209|SUPERIORITY|||||||0.4|||||||Kruskal-Wallis|||||||0.40
82436996|NCT03040011|164583210|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.44
82436997|NCT00218634|164583237|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||HLM|||We used HLM with weekly visit data for the acute outcome. There were, therefore, 11 time points used.||||<.05
82436998|NCT00218634|164583238|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||GLM - CBT-AD would be superior to ETAU at post. HLM - CBT-AD would be superior to CBT-AD at follow ups.|GLM and HLM|||||||<.05
82436999|NCT00218634|164583240|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||CD4 would be more improved in the treatment condition|HLM|||follow up analysis revealed that CD4, over time, significantly improved over control when covarying out baseline levels.||||<.05
82437000|NCT00734604|164583245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.001|TWO_SIDED|95.0|0.04|0.19||p-value is for difference in LS Means change from baseline between tadalafil OaD and Sildenafil PRN.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.19|0.04|0.001
82540328|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-2.03||||0.0369|TWO_SIDED|95.0|-3.94|-0.12|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.12|-3.94|0.0369
82540329|NCT00880048|164780289|SUPERIORITY||Mean Difference (Net)|-1.67||||0.1122|TWO_SIDED|95.0|-3.73|0.39|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.39|-3.73|0.1122
82455142|NCT03152591|164614241|OTHER||Ratio LIK066/Placebo|0.91||||0.34|TWO_SIDED|90.0|0.77|1.07|||t-test, 2 sided|Two-sided test at the 0.1 significance level|||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.07|0.77|0.340
82455143|NCT03152591|164614242|OTHER||Ratio LIK066/Placebo|0.79||||0.204|TWO_SIDED|90.0|0.58|1.08|||t-test, 2 sided|Two-sided test at the 0.1 significance level|Values \< LLOQ and values \> ULOQ are imputed as LLOQ/2 and ULOQ respectively.||Log transformed ratio of Day 15 to baseline was analyzed using an analysis of covariance model which will include treatment as a categorical factor and log transformed baseline as a covariate.|1.08|0.58|0.204
82455144|NCT00997035|164614280|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.29|TWO_SIDED|95.0|0.57|1.18|||Regression, Cox|Cox proportional hazards regression to estimate the hazard of perforation or need for TPK.||The sample size was determined based on the primary end point: perforation or the need for TPK within 3 months. Simulation-based analyses estimated that a sample sizeof 240 study participants (120 per arm) would provide 80% power to detect a 15% difference in the 3-month perforation or need for TPK rate between topical antifungal plus oral voriconazole vs topical antifungal alone,with a 2-tailed α value of .05 and approximately 15%loss to follow-up.||1.18|0.57|0.29
82455145|NCT00997035|164614285|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.65|TWO_SIDED|95.0|0.49|1.57|||Regression, Cox|||||1.57|.49|0.65
82455146|NCT00997035|164614287|SUPERIORITY||||||<|0.001||||||Statistically significant after Holms-Šidák correction for multiple comparisons.|Fisher Exact|||||||<0.001
82455147|NCT03726489|164614296|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.2|||<|0.001|TWO_SIDED|95.0|0.8|13.5||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||13.5|0.8|<0.001
82455148|NCT03726489|164614296|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|4.2|||<|0.001|TWO_SIDED|95.0|-5.4|13.8||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||13.8|-5.4|<0.001
82455149|NCT03726489|164614296|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.4|||<|0.001|TWO_SIDED|95.0|-2.2|17.0||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||17.0|-2.2|<0.001
82455150|NCT03726489|164614296|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%. The sample size for this subgroup did not meet our a priori sample size required for 80% power.|Risk Difference (RD)|18.7|||<|0.001|TWO_SIDED|95.0|0.8|36.6||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||36.6|0.8|<0.001
82455151|NCT03726489|164614296|OTHER|HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.||||||0.347||||||HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.|Regression, Logistic|We fit models for each of the two primary outcomes with skin type, treatment arm, and their interaction as predictors.||Analysis for heterogeneity of treatment effects (HTE) including all skin phototypes.||||0.347
82455152|NCT03726489|164614297|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|18.6|||<|0.001|TWO_SIDED|95.0|11.8|25.3||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||25.3|11.8|<0.001
82455153|NCT03726489|164614297|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|21.2|||<|0.001|TWO_SIDED|95.0|11.0|31.5||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||31.5|11.0|<0.001
82455154|NCT03726489|164614297|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|16.5|||<|0.001|TWO_SIDED|95.0|6.4|26.6||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||26.6|6.4|<0.001
82455155|NCT03726489|164614297|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%. The sample size for this subgroup did not meet our a priori sample size required for 80% power.|Risk Difference (RD)|16.1||||0.001|TWO_SIDED|95.0|-3.7|35.9||P-value was not adjusted for multiple comparisons. All p-values below 0.001 are reported as \<0.001.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||35.9|-3.7|0.001
82540330|NCT00880048|164780289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.4713|TWO_SIDED|95.0|-2.85|1.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||1.32|-2.85|0.4713
82540331|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2232|TWO_SIDED|95.0|0.63|7.39|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 1||7.39|0.63|0.2232
82540332|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0559|TWO_SIDED|95.0|0.97|10.2|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 1||10.2|0.97|0.0559
82437001|NCT00734604|164583246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.872|TWO_SIDED|95.0|-0.06|0.08||p-value is for difference in Pairs Sexual Self-Confidence Domain Score LS Mean and Change from Baseline between Tadalafil OaD and Tadalafil PRN Population|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.|LS Mean difference = Tadalafil OaD-Tadalafil PRN|||0.08|-0.06|0.872
82437002|NCT00734604|164583247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.1|0.2||p-value is for difference between Tadalafil OaD and Sildenafil PRN change from baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.20|0.10|<0.001
82437003|NCT00734604|164583247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.395|TWO_SIDED|95.0|-0.03|0.07||p-value is for difference between Tadalafil OaD and Tadalafil PRN in change from baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.07|-0.03|0.395
82437004|NCT00734604|164583248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.36|-0.25||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in Change from Baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.25|-0.36|<0.001
82437005|NCT00734604|164583248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.2|-0.08||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in Change from Baseline in LS Mean.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.08|-0.20|<0.001
82437006|NCT00734604|164583249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.3||0.004|TWO_SIDED|95.0|-1.43|-0.27||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.27|-1.43|0.004
82437007|NCT00734604|164583249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.29||0.007|TWO_SIDED|95.0|-1.37|-0.22||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.22|-1.37|0.007
82437008|NCT00734604|164583250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.03|0.09||p-value is for difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.09|0.03|<0.001
82437009|NCT00734604|164583250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.01|<|0.001|TWO_SIDED|95.0|0.06|0.12||p-value is for difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.12|0.06|<0.001
82437010|NCT00734604|164583251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.91|-0.36||p-value is for difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-0.36|-0.91|<0.001
82437011|NCT00734604|164583251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.78|-0.23||p-value is for difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|||||-0.23|-0.78|<0.001
82437012|NCT00734604|164583252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.055|TWO_SIDED|95.0|-0.44|0.0||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.00|-0.44|0.055
82437013|NCT00734604|164583252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.046|TWO_SIDED|95.0|-0.44|0.0||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.00|-0.44|0.046
82437014|NCT00734604|164583253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.27||0.004|TWO_SIDED|95.0|1.16|6.17||p-value is for the difference between Tadalafil PRN and Sildenafil PRN change in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||6.17|1.16|0.004
82437015|NCT00734604|164583253|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|1.27||0.006|TWO_SIDED|95.0|-6.05|-1.04||p-value is for the difference between Tadalafil OaD and Tadalafil PRN change in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||-1.04|-6.05|0.006
82437016|NCT00734604|164583255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|1.05||0.915|TWO_SIDED|95.0|-1.95|2.17||p-value is for the difference between Tadalafil OaD and Sildenafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||2.17|-1.95|0.915
82437017|NCT00734604|164583255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.04||0.212|TWO_SIDED|95.0|-3.35|0.74||p-value is for the difference between Tadalafil OaD and Tadalafil PRN Change from Baseline in LS Means.|t-test|Kenward-Roger approximation was used for denominator degrees of freedom in the mixed model.||||0.74|-3.35|0.212
82437018|NCT00734604|164583256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.403|TWO_SIDED|95.0|-0.09|0.22||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.22|-0.09|0.403
82437019|NCT00734604|164583256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.367|TWO_SIDED|95.0|-0.08|0.23||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.23|-0.08|0.367
82437020|NCT00734604|164583257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.06||0.002|TWO_SIDED|95.0|0.07|0.32||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.32|0.07|0.002
82437021|NCT00734604|164583257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.722|TWO_SIDED|95.0|-0.15|0.1||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.10|-0.15|0.722
82455156|NCT03726489|164614297|OTHER|||||||0.873||||||HTE was assessed using an omnibus Wald test of all interaction regression parameters in order to minimize multiple testing and consequent alpha inflation.|Regression, Logistic|We fit models for each of the two primary outcomes with skin type, treatment arm, and their interaction as predictors.||Analysis for heterogeneity of treatment effects (HTE) including all skin phototypes.||||0.873
82455157|NCT03726489|164614298|SUPERIORITY||Mean Difference (Final Values)|8.7|||<|0.0001|TWO_SIDED|95.0|7.1|10.4||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||10.4|7.1|<0.0001
82455158|NCT03726489|164614298|SUPERIORITY||Mean Difference (Final Values)|9.38|||<|0.0001|TWO_SIDED|95.0|7.05|11.71||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||11.71|7.05|<0.0001
82455159|NCT03726489|164614298|SUPERIORITY||Mean Difference (Final Values)|8.48|||<|0.0001|TWO_SIDED|95.0|5.82|11.14||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||11.14|5.82|<0.0001
82455160|NCT03726489|164614298|SUPERIORITY||Mean Difference (Final Values)|6.82||||0.0213|TWO_SIDED|95.0|1.06|12.58||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||12.58|1.06|0.0213
82577891|NCT00461981|164865018|SUPERIORITY_OR_OTHER_LEGACY||GMT ratio|0.43||||||95.0|0.24|0.87||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.87|0.24|
82455161|NCT03726489|164614299|SUPERIORITY||Mean Difference (Final Values)|14.6|||<|0.0001|TWO_SIDED|95.0|10.4|18.7||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||18.7|10.4|<0.0001
82455162|NCT03726489|164614299|SUPERIORITY||Mean Difference (Final Values)|11.47|||<|0.0001|TWO_SIDED|95.0|6.93|16.01||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||16.01|6.93|<0.0001
82455163|NCT03726489|164614299|SUPERIORITY||Mean Difference (Final Values)|13.87|||<|0.0001|TWO_SIDED|95.0|7.77|19.98||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||19.98|7.77|<0.0001
82455164|NCT03726489|164614299|SUPERIORITY||Mean Difference (Final Values)|32.84||||0.0127|TWO_SIDED|95.0|7.32|58.35||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||58.35|7.32|0.0127
82455165|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.001|TWO_SIDED|95.0|-1.27|-0.35||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||-0.35|-1.27|0.001
82455166|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.0158|TWO_SIDED|95.0|-1.51|-0.16||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||-0.16|-1.51|0.0158
82455167|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.013|TWO_SIDED|95.0|-1.58|-0.19||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||-0.19|-1.58|0.0130
82455168|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.591|TWO_SIDED|95.0|-1.94|1.11||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||1.11|-1.94|0.5910
82455169|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.395|TWO_SIDED|95.0|-0.33|0.82||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes at Week 24||0.82|-0.33|0.395
82455170|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.774|TWO_SIDED|95.0|-0.69|0.93||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II at Week 24||0.93|-0.69|0.774
82455171|NCT03726489|164614300|SUPERIORITY||Median Difference (Final Values)|0.53||||0.242|TWO_SIDED|95.0|-0.36|1.41||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV at Week 24||1.41|-0.36|0.242
82652353|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.128||||0.2716|TWO_SIDED|95.0|-0.356|0.1||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.100|-0.356|0.2716
82455172|NCT03726489|164614300|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.692|TWO_SIDED|95.0|-2.72|1.83||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI at Week 24||1.83|-2.72|0.692
82455173|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-2.59||||0.1209|TWO_SIDED|95.0|-5.86|0.68||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Initiation||0.68|-5.86|0.1209
82455174|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-2.13||||0.2581|TWO_SIDED|95.0|-6.0|1.75||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Initiation||1.75|-6.0|0.2581
82455175|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-3.04||||0.2952|TWO_SIDED|95.0|-8.73|2.65||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Initiation||2.65|-8.73|0.2952
82455176|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-2.61||||0.6324|TWO_SIDED|95.0|-13.12|7.89||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Initiation||7.89|-13.12|0.6324
82455177|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.15||||0.9163|TWO_SIDED|95.0|-2.56|2.85||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Discontinuation||2.85|-2.56|0.9163
82437022|NCT00734604|164583258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.65|-0.37||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||-0.37|-0.65|<0.001
82437023|NCT00734604|164583258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.43|-0.16||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||-0.16|-0.43|<0.001
82437024|NCT00734604|164583259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.07|TWO_SIDED|95.0|-0.01|0.22||p-value is for the difference between Tadalafil OaD and Sildenafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.22|-0.01|0.070
82437025|NCT00734604|164583259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.637|TWO_SIDED|95.0|-0.14|0.09||p-value is for the difference between Tadalafil OaD and Tadalafil PRN in LS Means.|Generalized Linear Mixed Model|||||0.09|-0.14|0.637
82437026|NCT02456636|164583281|SUPERIORITY||Mean Difference (Net)|-1.87||||0.025|TWO_SIDED|97.5|-3.51|-0.23|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus FFS (in clinic individual counseling)||-0.23|-3.51|.025
82437027|NCT02456636|164583281|SUPERIORITY||Mean Difference (Net)|-1.36||||0.25|TWO_SIDED|97.5|-3.0|0.29|||Mixed Models Analysis|||DM (phone group counseling) versus FFS (in clinic individual counseling)||0.29|-3.00|0.25
82437028|NCT02456636|164583281|SUPERIORITY||Mean Difference (Net)|-0.51||||0.025|TWO_SIDED|97.5|-2.15|1.13|||Mixed Models Analysis|||PCMH (in clinic group visits) versus DM (phone group visits)||1.13|-2.15|.025
82437029|NCT02456636|164583282|SUPERIORITY||Median Difference (Net)|-1.84||||0.025|TWO_SIDED|97.5|-3.5|-0.18|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus FFS (in clinic individual counseling).||-0.18|-3.50|.025
82437030|NCT02456636|164583282|SUPERIORITY||Median Difference (Net)|-1.34||||0.025|TWO_SIDED|97.5|-2.99|0.32|||Mixed Models Analysis|||DM (phone group counseling) versus FFS (in clinic individual counseling)||0.32|-2.99|.025
82437031|NCT02456636|164583282|SUPERIORITY||Mean Difference (Net)|-0.5||||0.025|TWO_SIDED|97.5|-2.15|1.15|||Mixed Models Analysis|||PCMH (in clinic group counseling) versus DM (phone group counseling)||1.15|-2.15|.025
82437032|NCT02019108|164583302|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.495|TWO_SIDED|95.0|-1.1|0.5||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.5|-1.1|0.495
82437033|NCT02019108|164583302|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.079|TWO_SIDED|95.0|-1.6|0.1||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.1|-1.6|0.079
82437034|NCT02019108|164583303|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.117|TWO_SIDED|95.0|-2.6|0.3||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.3|-2.6|0.117
82437035|NCT02019108|164583303|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.133|TWO_SIDED|95.0|-2.5|0.3||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.3|-2.5|0.133
82437036|NCT02019108|164583304|SUPERIORITY||Median Difference (Final Values)|-0.14||||0.125|TWO_SIDED|95.0|-0.31|0.04||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks||0.04|-0.31|0.125
82437037|NCT02019108|164583304|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.103|TWO_SIDED|95.0|-0.37|0.03||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks||0.03|-0.37|0.103
82437038|NCT02019108|164583305|SUPERIORITY||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.12||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-0.12|-0.39|<0.001
82437039|NCT02019108|164583305|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.056|TWO_SIDED|95.0|-0.4|0.01||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.01|-0.40|0.056
82437040|NCT02019108|164583306|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.031|TWO_SIDED|95.0|-0.11|-0.01||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-0.01|-0.11|0.031
82437041|NCT02019108|164583306|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.058|TWO_SIDED|95.0|-0.12|0.0||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.00|-0.12|0.058
82437042|NCT02019108|164583307|SUPERIORITY||Mean Difference (Final Values)|-9.04|||<|0.001|TWO_SIDED|95.0|-11.22|-6.86||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||-6.86|-11.22|<0.001
82437043|NCT02019108|164583307|SUPERIORITY||Mean Difference (Final Values)|-6.78|||<|0.001|TWO_SIDED|95.0|-8.82|-4.75||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||-4.75|-8.82|<0.001
82437044|NCT02019108|164583308|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.111|TWO_SIDED|95.0|-8.3|0.9||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.9|-8.3|0.111
82437045|NCT02019108|164583308|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.232|TWO_SIDED|95.0|-7.3|1.8||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||1.8|-7.3|0.232
82437046|NCT02019108|164583309|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.462|TWO_SIDED|95.0|-0.36|0.78||a priori threshold for significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.78|-0.36|0.462
82455178|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.31||||0.8551|TWO_SIDED|95.0|-3.03|3.66||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Discontinuation||3.66|-3.03|0.8551
82455179|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.72||||0.7678|TWO_SIDED|95.0|-4.05|5.48||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Discontinuation||5.48|-4.05|0.7678
82455180|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-3.03||||0.3446|TWO_SIDED|95.0|-8.88|2.82||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Discontinuation||2.82|-8.88|0.3446
82455181|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-1.26||||0.5716|TWO_SIDED|95.0|-5.64|3.11||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Initiation at Week 24||3.11|-5.64|0.5716
82455182|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-0.44||||0.8756|TWO_SIDED|95.0|-6.03|5.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Initiation at Week 24||5.14|-6.03|0.8756
82540333|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3395|TWO_SIDED|95.0|0.64|3.61|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 2||3.61|0.64|0.3395
82540334|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4256|TWO_SIDED|95.0|0.59|3.5|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 2||3.50|0.59|0.4256
82540335|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.35||||0.379|TWO_SIDED|95.0|0.69|2.64|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 4||2.64|0.69|0.3790
82649294|NCT02008721|165013864|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size. We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in UMSARS total score between baseline and week 52 between the study groups.~We did a post-hoc power calculation based on the mean change in motor examination scores on UMSARS and SDs in the placebo group of the per-protocol study completer set to test the assumptions of our initial power calculation."||||0.99
82540336|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.47||||0.2554|TWO_SIDED|95.0|0.76|2.86|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 4||2.86|0.76|0.2554
82540337|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.53||||0.1961|TWO_SIDED|95.0|0.8|2.91|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 6||2.91|0.80|0.1961
82577892|NCT00461981|164865019|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.2||||||95.0|0.09|0.48||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.48|0.09|
82455183|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-2.07||||0.5686|TWO_SIDED|95.0|-9.18|5.04||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Initiation at Week 24||5.04|-9.18|0.5686
82455184|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-1.39||||0.866|TWO_SIDED|95.0|-17.5|14.7||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Initiation at Week 24||14.7|-17.5|0.8660
82649295|NCT02008721|165013865|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||"Power calculation: 80% power, 5% P-level, 50% effect size. We used a linear mixed-effects model to test the primary hypothesis-ie, to compare differences in the change in UMSARS total score between baseline and week 52 between the study groups.~We did a post-hoc power calculation based on the mean change in motor examination scores on UMSARS and SDs in the placebo group of the per-protocol study completer set to test the assumptions of our initial power calculation."||||0.43
82649296|NCT03211156|165013905|OTHER|||||||0.757|||||||Chi-squared, Corrected|||||||0.757
82455185|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.19||||0.8779|TWO_SIDED|95.0|-2.24|2.62||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes - Discontinuation at Week 24||2.62|-2.24|0.8779
82540338|NCT00880048|164780290|SUPERIORITY||Odds Ratio (OR)|1.15||||0.6916|TWO_SIDED|95.0|0.58|2.25|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 6||2.25|0.58|0.6916
82540339|NCT00880048|164780291|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.61|TWO_SIDED|95.0|0.5|1.95|||Log Rank|||||1.95|0.50|0.61
82540340|NCT00880048|164780291|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.35|TWO_SIDED|95.0|0.36|1.54|||Log Rank|||||1.54|0.36|0.35
82540341|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.69||||0.0362|TWO_SIDED|95.0|-1.34|-0.04|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||-0.04|-1.34|0.0362
82540342|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.81||||0.0155|TWO_SIDED|95.0|-1.46|-0.16|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.16|-1.46|0.0155
82540343|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.46||||0.2593|TWO_SIDED|95.0|-1.27|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.34|-1.27|0.2593
82540344|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.62||||0.1407|TWO_SIDED|95.0|-1.44|0.2|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.20|-1.44|0.1407
82540345|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.67||||0.1933|TWO_SIDED|95.0|-1.67|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.34|-1.67|0.1933
82649297|NCT03211156|165013906|OTHER|||||||0.048|||||||Fisher Exact|||||||0.048
82437047|NCT02019108|164583309|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.737|TWO_SIDED|95.0|-0.76|0.54||a priori threshold for statistical significance \<0.05.|ANCOVA|Controlling for baseline values.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.54|-0.76|0.737
82437048|NCT02019108|164583310|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.876|TWO_SIDED|95.0|-0.5|0.43||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 17 weeks.||0.43|-0.50|0.876
82437049|NCT02019108|164583310|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.897|TWO_SIDED|95.0|-0.43|0.49||a priori threshold for statistical significance \<0.05|ANCOVA|Controlling for baseline values and walking speed.||This is the comparison between Gait Modification Group and Walking Only Group at 21 weeks.||0.49|-0.43|0.897
82437050|NCT02642393|164583350|OTHER||Slope|1.256|STANDARD_ERROR_OF_MEAN|0.943||0.183|TWO_SIDED|95.0|-0.594|3.106|||Mixed Models Analysis|||||3.106|-0.594|0.183
82437051|NCT02642393|164583351|OTHER||Rate Ratio|1.08||||0.124|TWO_SIDED|95.0|0.979|1.192|||Poisson Regression|||||1.192|0.979|0.124
82437052|NCT02642393|164583352|OTHER||Rate Ratio|1.154||||0.004|TWO_SIDED|95.0|1.046|1.273|||Poisson Regression|||||1.273|1.046|0.004
82437053|NCT02642393|164583353|OTHER|||||||0.002|||||||Log Rank|||||||0.002
82437054|NCT02642393|164583354|OTHER|||||||0.497|||||||Log Rank|||||||0.497
82437055|NCT02642393|164583355|OTHER||Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.385||0.856|TWO_SIDED|95.0|-0.825|0.685|||Mixed Models Analysis|||||0.685|-0.825|0.856
82437056|NCT02642393|164583356|OTHER||Slope|0.076|STANDARD_ERROR_OF_MEAN|0.226||0.736|TWO_SIDED|95.0|-0.368|0.521|||Mixed Models Analysis|||Anxiety||0.521|-0.368|0.736
82437057|NCT02642393|164583356|OTHER||Slope|0.295|STANDARD_ERROR_OF_MEAN|0.213||0.167|TWO_SIDED|95.0|-0.124|0.714|||Mixed Models Analysis|||Cognitive Function||0.714|-0.124|0.167
82437058|NCT02642393|164583356|OTHER||Slope|0.256|STANDARD_ERROR_OF_MEAN|0.111||0.022|TWO_SIDED|95.0|0.038|0.474|||Mixed Models Analysis|||Communication||0.474|0.038|0.022
82437059|NCT02642393|164583356|OTHER||Slope|0.095|STANDARD_ERROR_OF_MEAN|0.173||0.584|TWO_SIDED|95.0|-0.245|0.435|||Mixed Models Analysis|||Emotional and Behavioral Dyscontrol||0.435|-0.245|0.584
82437060|NCT02642393|164583356|OTHER||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.28||0.973|TWO_SIDED|95.0|-0.56|0.541|||Mixed Models Analysis|||Fatigue||0.541|-0.560|0.973
82437061|NCT02642393|164583356|OTHER||Slope|0.169|STANDARD_ERROR_OF_MEAN|0.136||0.214|TWO_SIDED|95.0|-0.098|0.437|||Mixed Models Analysis|||Lower Extremity Function||0.437|-0.098|0.214
82437062|NCT02642393|164583356|OTHER||Slope|-0.334|STANDARD_ERROR_OF_MEAN|0.304||0.271|TWO_SIDED|95.0|-0.931|0.262|||Mixed Models Analysis|||Positive Affect and Well-Being||0.262|-0.931|0.271
82437063|NCT02642393|164583356|OTHER||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.566|TWO_SIDED|95.0|-0.355|0.194|||Mixed Models Analysis|||Stigma||0.194|-0.355|0.566
82437064|NCT02642393|164583356|OTHER||Slope|0.212|STANDARD_ERROR_OF_MEAN|0.14||0.13|TWO_SIDED|95.0|-0.063|0.487|||Mixed Models Analysis|||Upper Extremity Function||0.487|-0.063|0.130
82437065|NCT02642393|164583356|OTHER||Slope|0.072|STANDARD_ERROR_OF_MEAN|0.202||0.723|TWO_SIDED|95.0|-0.325|0.468|||Mixed Models Analysis|||Sleep Disturbance||0.468|-0.325|0.723
82437066|NCT02642393|164583356|OTHER||Slope|-0.006|STANDARD_ERROR_OF_MEAN|0.298||0.984|TWO_SIDED|95.0|-0.592|0.579|||Mixed Models Analysis|||Satisfaction with Social Roles and Activities||0.579|-0.592|0.984
82437067|NCT02642393|164583356|OTHER||Slope|-0.253|STANDARD_ERROR_OF_MEAN|0.317||0.426|TWO_SIDED|95.0|-0.877|0.371|||Mixed Models Analysis|||Participation in Social Roles and Activities||0.371|-0.877|0.426
82437068|NCT02642393|164583357|OTHER||Slope|-0.106|STANDARD_ERROR_OF_MEAN|0.141||0.454|TWO_SIDED|95.0|-0.382|0.171|||Mixed Models Analysis|||||0.171|-0.382|0.454
82437069|NCT02642393|164583358|OTHER||Slope|0.047|STANDARD_ERROR_OF_MEAN|0.413||0.91|TWO_SIDED|95.0|-0.764|0.858|||Mixed Models Analysis|||||0.858|-0.764|0.910
82437070|NCT02642393|164583359|OTHER||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.758|TWO_SIDED|95.0|-0.295|0.215|||Mixed Models Analysis|||||0.215|-0.295|0.758
82437071|NCT02642393|164583360|OTHER||Slope|-0.208|STANDARD_ERROR_OF_MEAN|0.803||0.796|TWO_SIDED|95.0|-1.783|1.367|||Mixed Models Analysis|||BL to V01||1.367|-1.783|0.796
82437072|NCT02642393|164583360|OTHER||Slope|-2.4|STANDARD_ERROR_OF_MEAN|3.443||0.486|TWO_SIDED|95.0|-9.156|4.355|||Mixed Models Analysis|||V10 to SV||4.355|-9.156|0.486
82437073|NCT05275010|164583361|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the AUC0-62 values for pertuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.0|||||TWO_SIDED|90.0|0.93|1.08|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.08|0.93|
82437074|NCT05275010|164583362|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the AUC0-62 values for trastuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.0|||||TWO_SIDED|90.0|0.93|1.09|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.09|0.93|
82437075|NCT05275010|164583363|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the Cmax values for pertuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.96|1.12|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.12|0.96|
82540346|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.74||||0.15|TWO_SIDED|95.0|-1.76|0.27|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||0.27|-1.76|0.1500
82649298|NCT01859325|165013929|SUPERIORITY||Median Difference (Final Values)|-0.36||||0.406|TWO_SIDED|95.0|-1.41|0.67|||Wilcoxon (Mann-Whitney)|||Samples size based on published data on populations of early treated patients undergoing ART interruption. The power based on a 2-sample t-test with a 2-tailed alpha of .05 and a total sample size of 30 is approximately 91% to detect a 1.25 log10 reduction in the rebound plasma viremia between vaccine and placebo groups.||0.67|-1.41|0.406
82437076|NCT05275010|164583364|EQUIVALENCE|The null hypothesis will be rejected and bioequivalence will be concluded if the bounds of the 90% CI for the geometric mean ratio of the Cmax values for trastuzumab by administration using OBDS (Arm 2) relative to the handheld syringe (Arm 1) are entirely contained within standard bioequivalence margins (0.8 to 1.25).|Geometric Mean Ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.95|1.13|||||GMR of test treatment group (Arm 2: PH FDC SC using OBDS) to reference treatment group (Arm 1: PH FDC SC using handheld syringe).|||1.13|0.95|
82437077|NCT02731820|164583425|OTHER|||||||0.172|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.172
82437078|NCT02731820|164583425|OTHER|||||||0.027|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.027
82437079|NCT02731820|164583425|OTHER|||||||0.053|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.053
82437080|NCT02731820|164583425|OTHER|||||||0.002|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.002
82437081|NCT02731820|164583425|OTHER|||||||0.006|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.006
82437082|NCT02731820|164583425|OTHER|||||||0.139|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.139
82437083|NCT02731820|164583425|OTHER|||||||0.967|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.967
82437084|NCT02731820|164583425|OTHER|||||||0.446|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.446
82437085|NCT02731820|164583425|OTHER|||||||0.869|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.869
82437086|NCT02731820|164583426|OTHER|||||||0.954|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.954
82437087|NCT02731820|164583426|OTHER|||||||0.798|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.798
82437088|NCT02731820|164583426|OTHER|||||||0.377|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.377
82437089|NCT02731820|164583426|OTHER|||||||0.886|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.886
82437090|NCT02731820|164583426|OTHER|||||||0.04|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.040
82437091|NCT02731820|164583426|OTHER|||||||0.017|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.017
82437092|NCT02731820|164583426|OTHER|||||||0.343|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.343
82437093|NCT02731820|164583426|OTHER|||||||0.859|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.859
82437094|NCT02731820|164583426|OTHER|||||||0.172|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.172
82437095|NCT02731820|164583427|OTHER|||||||0.213|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.213
82437096|NCT02731820|164583427|OTHER|||||||0.191|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.191
82437097|NCT02731820|164583427|OTHER|||||||0.234|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.234
82437098|NCT02731820|164583427|OTHER|||||||0.37|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.370
82437099|NCT02731820|164583427|OTHER|||||||0.176|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T0||||0.176
82437100|NCT02731820|164583427|OTHER|||||||0.139|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T6 vs T3||||0.139
82437101|NCT02731820|164583427|OTHER|||||||0.551|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.551
82437102|NCT02731820|164583427|OTHER|||||||0.371|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.371
82437103|NCT02731820|164583427|OTHER|||||||0.466|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.466
82437104|NCT02731820|164583428|OTHER|||||||0.094|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T3 vs T0||||0.094
82437105|NCT02731820|164583428|OTHER|||||||0.0004|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||0.0004
82437106|NCT02731820|164583428|OTHER|||||||0.008|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.008
82437107|NCT02731820|164583428|OTHER|||||||0.002|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Placebo: T3 vs T0||||0.002
82437108|NCT02731820|164583428|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T0||||<0.0001
82437109|NCT02731820|164583428|OTHER|||||||0.0007|||||||t-test, 1 sided|||Paired analysis within the group to evaluate the effect of Potassium Citrate: T6 vs T3||||0.0007
82437110|NCT02731820|164583428|OTHER|||||||0.458|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T0||||0.458
82437111|NCT02731820|164583428|OTHER|||||||0.434|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T3||||0.434
82437112|NCT02731820|164583428|OTHER|||||||0.555|||||||t-test, 2 sided|||Independent comparison (unpaired analysis) between Potassium Citrate and Placebo at T6||||0.555
82437113|NCT04478071|164583429|SUPERIORITY||Risk Difference (RD)|-0.036|||||TWO_SIDED|95.0|-0.084|0.009|||||"Risk difference of Vadadustat relative to Placebo. Values under confidence interval reflect Bayesian 95% credible interval rather than frequentist confidence interval."|Trial used Bayesian analysis for superiority. Hypothesis Testing for Primary Outcome: Among adult hospital admissions with lab-confirmed diagnosis of COVID-19, vadadustat 900 mg will demonstrate superiority to placebo as defined by a lower probability, at treatment day 14, of death (8) or hospitalization, on invasive mechanical ventilation or ECMO (7) or hospitalization, on non-invasive ventilation or high flow oxygen devices (6) on the NIAID-OS. See Statistical Analysis Plan for more details.||0.009|-0.084|
82649299|NCT00267293|165013950|NON_INFERIORITY_OR_EQUIVALENCE|Power for 80%|||||<|0.001||||||comparision of mean temperatures from repeated exposure. At hour 6 temperature|Mixed Models Analysis|||Power for 80%||||<0.001
82455186|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.38||||0.7985|TWO_SIDED|95.0|-2.52|3.28||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II - Discontinuation at Week 24||3.28|-2.52|0.7985
82455187|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|0.69||||0.7585|TWO_SIDED|95.0|-3.71|5.09||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV - Discontinuation at Week 24||5.09|-3.71|0.7585
82455188|NCT03726489|164614301|SUPERIORITY||Risk Difference (RD)|-2.78||||0.3422|TWO_SIDED|95.0|-8.15|2.59||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI - Discontinuation at Week 24||2.59|-8.15|0.3422
82455189|NCT03726489|164614302|SUPERIORITY||Mean Difference (Final Values)|-3.2||||0.094|TWO_SIDED|95.0|-6.95|0.55||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||0.55|-6.95|0.094
82455190|NCT03726489|164614302|SUPERIORITY||Mean Difference (Final Values)|-5.26||||0.0393|TWO_SIDED|95.0|-10.26|-0.26||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||-0.26|-10.26|0.0393
82455191|NCT03726489|164614302|SUPERIORITY||Mean Difference (Final Values)|-3.92||||0.1505|TWO_SIDED|95.0|-9.28|1.44||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||1.44|-9.28|0.1505
82455192|NCT03726489|164614302|SUPERIORITY||Mean Difference (Final Values)|10.42||||0.284|TWO_SIDED|95.0|-9.0|29.84||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||29.84|-9.0|0.2840
82455193|NCT03726489|164614303|OTHER||Mean|19.87|STANDARD_DEVIATION|61.6|||TWO_SIDED|||||P-value is not applicable.||||Overall analysis adjusted for all skin phototypes||||
82540347|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-1.09||||0.055|TWO_SIDED|95.0|-2.21|0.02|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.02|-2.21|0.0550
82455194|NCT03726489|164614303|OTHER||Mean|18.06|STANDARD_DEVIATION|57.04|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes I/II||||
82455195|NCT03726489|164614303|OTHER||Mean|23.46|STANDARD_DEVIATION|70.71|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes III/IV||||
82455196|NCT03726489|164614303|OTHER||Mean|9.22|STANDARD_DEVIATION|5.66|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes V/VI||||
82455197|NCT03726489|164614304|OTHER||Mean|50.3|STANDARD_DEVIATION|46.7|||TWO_SIDED|||||P-value is not applicable.||||Overall analysis adjusted for all skin phototypes||||
82455198|NCT03726489|164614304|OTHER||Mean|53.19|STANDARD_DEVIATION|50.05|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes I/II||||
82455199|NCT03726489|164614304|OTHER||Mean|49.82|STANDARD_DEVIATION|47.43|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes III/IV||||
82455200|NCT03726489|164614304|OTHER||Mean|39.72|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||P-value is not applicable.||||Analysis for Phototypes V/VI||||
82540348|NCT00880048|164780292|SUPERIORITY||Mean Difference (Net)|-0.52||||0.3627|TWO_SIDED|95.0|-1.65|0.61|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.61|-1.65|0.3627
82540349|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.03||||0.0616|TWO_SIDED|95.0|-2.11|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.05|-2.11|0.0616
82540350|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-2.28|||<|0.0001|TWO_SIDED|95.0|-3.36|-1.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-1.19|-3.36|<0.0001
82540351|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.44||||0.0239|TWO_SIDED|95.0|-2.68|-0.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||-0.19|-2.68|0.0239
82540352|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.84||||0.0048|TWO_SIDED|95.0|-3.12|-0.57|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||-0.57|-3.12|0.0048
82540353|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.58||||0.027|TWO_SIDED|95.0|-2.97|-0.18|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||-0.18|-2.97|0.0270
82540354|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.86||||0.0103|TWO_SIDED|95.0|-3.27|-0.44|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.44|-3.27|0.0103
82540355|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.53||||0.0497|TWO_SIDED|95.0|-3.06|0.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||-0.00|-3.06|0.0497
82540356|NCT00880048|164780293|SUPERIORITY||Mean Difference (Net)|-1.41||||0.0794|TWO_SIDED|95.0|-2.98|0.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.17|-2.98|0.0794
82540357|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.28||||0.24|TWO_SIDED|95.0|-0.75|0.19|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.19|-0.75|0.2400
82540358|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.76||||0.002|TWO_SIDED|95.0|-1.23|-0.28|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.28|-1.23|0.0020
82540359|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.15||||0.5605|TWO_SIDED|95.0|-0.67|0.36|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.36|-0.67|0.5605
82540360|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.33||||0.2215|TWO_SIDED|95.0|-0.86|0.2|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.20|-0.86|0.2215
82540361|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.35||||0.287|TWO_SIDED|95.0|-1.01|0.3|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.30|-1.01|0.2870
82540362|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.67||||0.0465|TWO_SIDED|95.0|-1.33|-0.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 4||-0.01|-1.33|0.0465
82540363|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.32||||0.3399|TWO_SIDED|95.0|-0.99|0.34|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||0.34|-0.99|0.3399
82649300|NCT00267293|165013950|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Binary outcome \<38C and \>=38C|Chi-squared|||||||<.0001
82455201|NCT03726489|164614305|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|11.97|||<|0.0001|TWO_SIDED|95.0|6.52|17.42||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||17.42|6.52|<0.0001
82455202|NCT03726489|164614305|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|16.15|||<|0.0001|TWO_SIDED|95.0|7.54|24.75||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||24.75|7.54|<0.0001
82455203|NCT03726489|164614305|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|5.56|||<|0.0001|TWO_SIDED|95.0|-2.35|13.46||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||13.46|-2.35|<0.0001
82455204|NCT03726489|164614305|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|21.37|||<|0.0001|TWO_SIDED|95.0|7.65|35.09||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||35.09|7.65|<0.0001
82455205|NCT03726489|164614306|SUPERIORITY||Risk Difference (RD)|11.68||||0.0065|TWO_SIDED|95.0|3.27|20.08||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||20.08|3.27|0.0065
82455206|NCT03726489|164614306|SUPERIORITY||Risk Difference (RD)|12.31||||0.0478|TWO_SIDED|95.0|0.03|24.49||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||24.49|0.03|0.0478
82455207|NCT03726489|164614306|SUPERIORITY||Risk Difference (RD)|13.25||||0.0431|TWO_SIDED|95.0|0.52|25.98||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||25.98|0.52|0.0431
82437114|NCT04478071|164583429|SUPERIORITY||Posterior Probability|0.94|||||TWO_SIDED||||||||Posterior probability of the risk difference of Vadadustat relative to Placebo.|||||
82437115|NCT04478071|164583430|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.92|1.1|||||"Risk ratio of Vadadustat relative to Placebo. Values under confidence interval reflect Bayesian 95% credible interval rather than frequentist confidence interval."|Trial used Bayesian analysis for superiority. Hypothesis Testing for Secondary Outcome: Among adult hospital admissions with lab-confirmed diagnosis of COVID-19, vadadustat 900 mg will demonstrate superiority to placebo as defined by a higher probability, at treatment day 14, of recovery on the MSOFA scale (MSOFA = 0).||1.1|0.92|
82437116|NCT04478071|164583430|SUPERIORITY||Posterior probability|0.57|||||TWO_SIDED||||||||Posterior probability of the risk ratio of Vadadustat relative to Placebo.|||||
82437117|NCT00123162|164583442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.3|||<|0.001|TWO_SIDED|95.0|2.9|7.6|||ANCOVA|adjusted for baseline pain intensity (Visual Analog Scale (VAS) score).||With 26 subjects per treatment group and an assumed within-group standard deviation of 7 units, the study was designed to have 90% statistical power for a two-sided, 0.05 significance level test to detect a difference of 6.5 units in TOPAR4 between a single dose of 100 mg of sildenafil and placebo. However, we anticipated subject drop-out as high as 15%; therefore, we planned to recruit 31 subjects per treatment group.||7.6|2.9|<0.001
82437118|NCT00123162|164583443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.6|||<|0.001|TWO_SIDED|95.0|-58.3|-26.8|||Mixed Models Analysis||Comparison of the VAS score at hour 4 (Sildenafil Citrate - Placebo)|||-26.8|-58.3|<.001
82455208|NCT03726489|164614306|SUPERIORITY||Risk Difference (RD)|1.5||||0.9133|TWO_SIDED|95.0|-25.5|28.5||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||28.50|-25.50|0.9133
82455209|NCT03726489|164614307|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.048|TWO_SIDED|95.0|-15.73|-0.07||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||-0.07|-15.73|0.048
82455210|NCT03726489|164614307|SUPERIORITY||Mean Difference (Final Values)|-10.67||||0.1199|TWO_SIDED|95.0|-24.15|2.8||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||2.80|-24.15|0.1199
82437119|NCT04838054|164583444|SUPERIORITY||Mean Difference (Net)|0.27||||0.28|TWO_SIDED|||||p-values \<0.05 means statistically significant|ANCOVA|||||||0.28
82437120|NCT04838054|164583445|SUPERIORITY||Mean Difference (Net)|0.41||||0.011|TWO_SIDED|||||p\<0.05 means statistically significant|ANCOVA|||||||0.011
82437121|NCT04838054|164583446|SUPERIORITY||Mean Difference (Net)|2.99|||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82437122|NCT01074463|164583448|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|109.18|||||TWO_SIDED|90.0|99.25|120.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||120.12|99.25|
82455211|NCT03726489|164614307|SUPERIORITY||Mean Difference (Final Values)|-5.3||||0.2953|TWO_SIDED|95.0|-15.26|4.66||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||4.66|-15.26|0.2953
82455212|NCT03726489|164614307|SUPERIORITY||Mean Difference (Final Values)|-8.83||||0.5124|TWO_SIDED|95.0|-35.77|18.11||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||18.11|-35.77|0.5124
82540364|NCT00880048|164780294|SUPERIORITY||Mean Difference (Net)|-0.18||||0.5931|TWO_SIDED|95.0|-0.86|0.49|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.49|-0.86|0.5931
82540365|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0562|TWO_SIDED|95.0|0.97|8.22|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 1||8.22|0.97|0.0562
82540366|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1596|TWO_SIDED|95.0|0.73|6.73|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 1||6.73|0.73|0.1596
82540367|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0067|TWO_SIDED|95.0|1.34|6.3|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 2||6.30|1.34|0.0067
82540368|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|1.93||||0.1154|TWO_SIDED|95.0|0.85|4.36|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 2||4.36|0.85|0.1154
82540369|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|1.13||||0.6895|TWO_SIDED|95.0|0.62|2.07|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 4||2.07|0.62|0.6895
82540370|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|1.32||||0.3654|TWO_SIDED|95.0|0.72|2.41|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 4||2.41|0.72|0.3654
82540371|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|1.44||||0.2408|TWO_SIDED|95.0|0.78|2.65|||Regression, Logistic|||Placebo vs GW823296 30mg: Week 6||2.65|0.78|0.2408
82540372|NCT00880048|164780295|SUPERIORITY||Odds Ratio (OR)|1.39||||0.3066|TWO_SIDED|95.0|0.74|2.6|||Regression, Logistic|||Placebo vs GW823296 60mg: Week 6||2.60|0.74|0.3066
82540373|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1472|TWO_SIDED|95.0|-0.36|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 1||0.05|-0.36|0.1472
82540374|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0107|TWO_SIDED|95.0|-0.48|-0.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 1||-0.06|-0.48|0.0107
82540375|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.25||||0.0603|TWO_SIDED|95.0|-0.51|0.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 2||0.01|-0.51|0.0603
82577893|NCT00461981|164865020|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|3.36||||||95.0|1.54|7.13||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||7.13|1.54|
82577894|NCT00461981|164865021|SUPERIORITY_OR_OTHER_LEGACY||GMT ratio|3.26||||||95.0|1.44|7.19||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||7.19|1.44|
82437123|NCT01074463|164583449|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.06|||||TWO_SIDED|90.0|98.73|109.68|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.68|98.73|
82540376|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.2||||0.1458|TWO_SIDED|95.0|-0.46|0.07|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 2||0.07|-0.46|0.1458
82540377|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0941|TWO_SIDED|95.0|-0.58|0.05|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 4||0.05|-0.58|0.0941
82540378|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.27||||0.088|TWO_SIDED|95.0|-0.59|0.04|||Mixed Models Repeated Measures||Placebo vs GW823296 60mg: Week 4|||0.04|-0.59|0.0880
82540379|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.38||||0.0313|TWO_SIDED|95.0|-0.73|-0.03|||Mixed Models Repeated Measures|||Placebo vs GW823296 30mg: Week 6||-0.03|-0.73|0.0313
82540380|NCT00880048|164780296|SUPERIORITY||Mean Difference (Net)|-0.2||||0.2639|TWO_SIDED|95.0|-0.55|0.15|||Mixed Models Repeated Measures|||Placebo vs GW823296 60mg: Week 6||0.15|-0.55|0.2639
82540381|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-1.57||||0.0421|TWO_SIDED|95.0|-3.08|-0.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||-0.06|-3.08|0.0421
82540382|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-0.74||||0.3394|TWO_SIDED|95.0|-2.27|0.78|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||0.78|-2.27|0.3394
82540383|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-1.4||||0.0963|TWO_SIDED|95.0|-3.05|0.25|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.25|-3.05|0.0963
82540384|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-1.94||||0.0235|TWO_SIDED|95.0|-3.62|-0.26|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||-0.26|-3.62|0.0235
82540385|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-0.77||||0.3956|TWO_SIDED|95.0|-2.54|1.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||1.01|-2.54|0.3956
82540386|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-0.73||||0.4273|TWO_SIDED|95.0|-2.53|1.07|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||1.07|-2.53|0.4273
82540387|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-0.94||||0.3429|TWO_SIDED|95.0|-2.89|1.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||1.01|-2.89|0.3429
82540388|NCT00880048|164780297|SUPERIORITY||Mean Difference (Net)|-1.19||||0.2403|TWO_SIDED|95.0|-3.18|0.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||0.80|-3.18|0.2403
82540389|NCT00880048|164780298|SUPERIORITY||Mixed effects repeated measures model|22.52||||0.103|TWO_SIDED|95.0|-4.58|49.61|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, total sleep time||49.61|-4.58|0.1030
82540390|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|33.21||||0.0179|TWO_SIDED|95.0|5.76|60.65|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, total sleep time||60.65|5.76|0.0179
82577895|NCT00461981|164865022|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.06||||||95.0|0.56|1.96||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.96|0.56|
82540391|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|7.62||||0.5773|TWO_SIDED|95.0|-19.25|34.49|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, total sleep time||34.49|-19.25|0.5773
82577896|NCT00461981|164865023|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.58||||||95.0|0.31|1.12||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.12|0.31|
82577897|NCT00461981|164865024|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|2.4||||||95.0|1.48|3.97||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.97|1.48|
82540392|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|21.4||||0.125|TWO_SIDED|95.0|-5.97|48.76|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, total sleep time||48.76|-5.97|0.1250
82540393|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|30.87||||0.0344|TWO_SIDED|95.0|2.29|59.45|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, total sleep time||59.45|2.29|0.0344
82540394|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|36.52||||0.0131|TWO_SIDED|95.0|7.72|65.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, total sleep time||65.32|7.72|0.0131
82540395|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|2.18||||0.8794|TWO_SIDED|95.0|-26.1|30.46|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, total sleep time||30.46|-26.10|0.8794
82540396|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|28.4||||0.0556|TWO_SIDED|95.0|-0.69|57.5|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, total sleep time||57.50|-0.69|0.0556
82540397|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-23.9||||0.0078|TWO_SIDED|95.0|-41.46|-6.33|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, sleep onset latency||-6.33|-41.46|0.0078
82540398|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-25.49||||0.0052|TWO_SIDED|95.0|-43.3|-7.68|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, sleep onset latency||-7.68|-43.30|0.0052
82540399|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-12.45||||0.2373|TWO_SIDED|95.0|-33.14|8.24|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, sleep onset latency||8.24|-33.14|0.2373
82540400|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|1.75||||0.8707|TWO_SIDED|95.0|-19.38|22.87|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, sleep onset latency||22.87|-19.38|0.8707
82540401|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-12.92||||0.1933|TWO_SIDED|95.0|-32.43|6.59|||Mixed Models Repeated Measures|||Placebo va GW823296 30 mg: Week 4, sleep onset latency||6.59|-32.43|0.1933
82540402|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-10.55||||0.2933|TWO_SIDED|95.0|-30.26|9.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, sleep onset latency||9.17|-30.26|0.2933
82540403|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-28.58||||0.0177|TWO_SIDED|95.0|-52.15|-5.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, sleep onset latency||-5.01|-52.15|0.0177
82540404|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-30.07||||0.0152|TWO_SIDED|95.0|-54.29|-5.84|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, sleep onset latency||-5.84|-54.29|0.0152
82540405|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-17.19||||0.0108|TWO_SIDED|95.0|-30.36|-4.01|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, wake time after sleep onset||-4.01|-30.36|0.0108
82540406|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-16.15||||0.019|TWO_SIDED|95.0|-29.61|-2.68|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, wake time after sleep onset||-2.68|-29.61|0.0190
82540407|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|1.89||||0.8195|TWO_SIDED|95.0|-14.43|18.21|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, wake time after sleep onset||18.21|-14.43|0.8195
82540408|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|5.27||||0.5327|TWO_SIDED|95.0|-11.35|21.89|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, wake time after sleep onset||21.89|-11.35|0.5327
82540409|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-2.5||||0.7387|TWO_SIDED|95.0|-17.24|12.25|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, wake time after sleep onset||12.25|-17.24|0.7387
82540410|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-9.44||||0.2134|TWO_SIDED|95.0|-24.35|5.48|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, wake time after sleep onset||5.48|-24.35|0.2134
82540411|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-14.51||||0.1561|TWO_SIDED|95.0|-34.61|5.6|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, wake time after sleep onset||5.60|-34.61|0.1561
82540412|NCT00880048|164780298|SUPERIORITY||Mean Difference (Net)|-17.1||||0.1054|TWO_SIDED|95.0|-37.84|3.64|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, wake time after sleep onset||3.64|-37.84|0.1054
82540413|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.57||||0.0024|TWO_SIDED|95.0|-0.94|-0.21|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||-0.21|-0.94|0.0024
82540414|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.1||||0.6146|TWO_SIDED|95.0|-0.47|0.28|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||0.28|-0.47|0.6146
82540415|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.25||||0.1442|TWO_SIDED|95.0|-0.59|0.09|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.09|-0.59|0.1442
82540416|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|0.04||||0.8001|TWO_SIDED|95.0|-0.3|0.39|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||0.39|-0.30|0.8001
82540417|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.05||||0.8439|TWO_SIDED|95.0|-0.55|0.45|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||0.45|-0.55|0.8439
82649301|NCT00950599|165013952|SUPERIORITY_OR_OTHER|||||||0.9888||95.0||||A significance level of alpha = 0.05 was used for the trend test.|Kruskal-Wallis|ANCOVA Model: post-pre=pre treatment.||A test for log-linear trend across saxagliptin doses was performed using a linear contrast among the saxagliptin doses from an analysis of covariance (ANCOVA) model. The ANCOVA model was the same model used for the first secondary endpoint.||||0.9888
82455213|NCT03726489|164614308|SUPERIORITY||Risk Difference (RD)|10.9||||0.0173|TWO_SIDED|95.0|1.93|19.87||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||19.87|1.93|0.0173
82455214|NCT03726489|164614308|SUPERIORITY||Risk Difference (RD)|13.06||||0.0662|TWO_SIDED|95.0|-0.81|26.94||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||26.94|-0.81|0.0662
82455215|NCT03726489|164614308|SUPERIORITY||Risk Difference (RD)|8.58||||0.1976|TWO_SIDED|95.0|-4.42|21.57||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||21.57|-4.42|0.1976
82455216|NCT03726489|164614308|SUPERIORITY||Risk Difference (RD)|13.04||||0.3595|TWO_SIDED|95.0|-14.6|40.69||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||40.69|-14.60|0.3595
82455217|NCT03726489|164614309|SUPERIORITY||Risk Difference (RD)|7.55||||0.0853|TWO_SIDED|95.0|-1.05|16.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||16.14|-1.05|0.0853
82455218|NCT03726489|164614309|SUPERIORITY||Risk Difference (RD)|2.26||||0.7488|TWO_SIDED|95.0|-11.54|16.06||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||16.06|-11.54|0.7488
82540418|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.4||||0.1259|TWO_SIDED|95.0|-0.91|0.11|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||0.11|-0.91|0.1259
82540419|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|0.2||||0.3709|TWO_SIDED|95.0|-0.24|0.64|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||0.64|-0.24|0.3709
82577898|NCT00461981|164865025|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.48||||||95.0|0.27|0.87||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.87|0.27|
82649302|NCT00950599|165013953|SUPERIORITY_OR_OTHER|||||||0.9888||95.0||||Positive efficacy trend among doses of saxagliptin by assessing the adjusted mean change from baseline in A1C in the 0-40 mg cohort.|ANCOVA|ANCOVA Model: post-pre=pretreatment. Contrast Coefficients: -2, -1, 0, 1 2.||||||0.9888
82649303|NCT01684722|165014036|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.25|TWO_SIDED|95.0|-0.7|2.5|||Mixed Models Analysis|||||2.5|-0.7|0.25
82455219|NCT03726489|164614309|SUPERIORITY||Risk Difference (RD)|10.12||||0.1051|TWO_SIDED|95.0|-2.03|22.26||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||22.26|-2.03|0.1051
82455220|NCT03726489|164614309|SUPERIORITY||Risk Difference (RD)|17.39||||0.1792|TWO_SIDED|95.0|-7.48|42.27||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||42.27|-7.48|0.1792
82455221|NCT03726489|164614310|SUPERIORITY||Mean Difference (Final Values)|3.07||||0.175|TWO_SIDED|95.0|-1.37|7.5||P-value was not adjusted for multiple comparisons.|Regression, Linear|Adjusted for skin phototype||Overall analysis adjusted for all skin phototypes||7.50|-1.37|0.175
82455222|NCT03726489|164614310|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.8904|TWO_SIDED|95.0|-6.34|5.51||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes I/II||5.51|-6.34|0.8904
82540420|NCT00880048|164780299|SUPERIORITY||Mean Difference (Net)|-0.24||||0.2993|TWO_SIDED|95.0|-0.7|0.22|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||0.22|-0.70|0.2993
82540421|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.59||||0.0344|TWO_SIDED|95.0|0.04|1.14|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, sleep quality||1.14|0.04|0.0344
82455223|NCT03726489|164614310|SUPERIORITY||Mean Difference (Final Values)|7.59||||0.0412|TWO_SIDED|95.0|0.31|14.88||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes III/IV||14.88|0.31|0.0412
82540422|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.72||||0.0111|TWO_SIDED|95.0|0.17|1.27|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, sleep quality||1.27|0.17|0.0111
82540423|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.42||||0.1443|TWO_SIDED|95.0|-0.15|0.99|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, sleep quality||0.99|-0.15|0.1443
82540424|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.5||||0.0873|TWO_SIDED|95.0|-0.07|1.08|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, sleep quality||1.08|-0.07|0.0873
82540425|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.73||||0.017|TWO_SIDED|95.0|0.13|1.33|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, sleep quality||1.33|0.13|0.0170
82540426|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.42||||0.1675|TWO_SIDED|95.0|-0.18|1.02|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, sleep quality||1.02|-0.18|0.1675
82649304|NCT01684722|165014036|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.27|TWO_SIDED|95.0|-0.7|2.6|||Mixed Models Analysis|||||2.6|-0.7|0.27
82649305|NCT01684722|165014037|SUPERIORITY||Ratio of change from baseline, active to|0.99||||0.9|TWO_SIDED|95.0|0.84|1.17|||Mixed Models Analysis|||||1.17|0.84|0.90
82649306|NCT01684722|165014037|SUPERIORITY||Ratio of change from baseline, active to|0.96||||0.64|TWO_SIDED|95.0|0.81|1.14|||Mixed Models Analysis|||||1.14|0.81|0.64
82649307|NCT02273206|165014050|SUPERIORITY|||||||0.2562|||||||Chi-squared|p\<0.05||Colorectal Cancer Screening Intervention Arm Difference||||0.2562
82437124|NCT01074463|164583450|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.34|||||TWO_SIDED|90.0|97.78|107.11|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.11|97.78|
82540427|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.56||||0.0956|TWO_SIDED|95.0|-0.1|1.23|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, sleep quality||1.23|-0.10|0.0956
82540428|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.32||||0.3503|TWO_SIDED|95.0|-0.35|1.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, sleep quality||1.00|-0.35|0.3503
82540429|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.34||||0.2147|TWO_SIDED|95.0|-0.2|0.88|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1, refreshing value of sleep||0.88|-0.20|0.2147
82540430|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.63||||0.0233|TWO_SIDED|95.0|0.09|1.17|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1, refreshing value of sleep||1.17|0.09|0.0233
82540431|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.33||||0.2404|TWO_SIDED|95.0|-0.22|0.89|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2, refreshing value of sleep||0.89|-0.22|0.2404
82540432|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.65||||0.0247|TWO_SIDED|95.0|0.08|1.22|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2, refreshing value of sleep||1.22|0.08|0.0247
82577899|NCT00461981|164865026|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.45||||||95.0|0.8|2.66||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||2.66|0.80|
82649308|NCT02273206|165014050|SUPERIORITY|||||||0.9795|||||||Chi-squared|p\<0.05||Breast Cancer Screening Intervention Arm Difference||||0.9795
82649309|NCT02273206|165014050|SUPERIORITY|||||||0.3917|||||||Chi-squared|p\<0.05||Cervical Cancer Screening Intervention Arm Difference||||0.3917
82437125|NCT03888235|164583465|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||The null hypothesis assumes that after one month, there is no difference in Oswestry low back pain and disability score improvement between the three treatment groups.||||0.003
82437126|NCT03888235|164583465|SUPERIORITY|||||||0.001||||||SI Exercise versus usual care. Bonferroni alpha correction p\< 0.0167|Wilcoxon (Mann-Whitney)|||||||0.001
82437127|NCT03888235|164583465|SUPERIORITY|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in Oswestry low back pain and disability score between those using a pelvic support belt and those using usual treatment||||0.314
82437128|NCT03888235|164583466|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||Oswestry low back pain and disability (ODI) score change over two months for all participants. This compares the score at initial visit and the score 2 months later after all participants have been using the corrective exercise and sacroiliac stabilization belt for one month. =(ODI time 0 - ODI 2 months). The greater the difference, the better the recovery of back function.||||< 0.001
82437129|NCT03888235|164583467|SUPERIORITY|||||||0.17|||||||Kruskal-Wallis|||The null hypothesis assumes that after one month, there is no difference in brief pain inventory score improvement between the three treatment groups.||||0.17
82437130|NCT03888235|164583467|SUPERIORITY|||||||0.089||||||Bonferroni alpha correction of p\<0.0167.|Wilcoxon (Mann-Whitney)|||The brief pain inventory score at the one month visit, is used to compare the pain levels of those having done one month of corrective exercises to those who continued with conventional treatments for their low back pain.||||0.089
82437131|NCT03888235|164583467|SUPERIORITY|||||||0.092|||||||Wilcoxon (Mann-Whitney)|||The brief pain inventory score is used to compare those using a pelvic support belt for one month and those with delayed treatment||||0.092
82455224|NCT03726489|164614310|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.5481|TWO_SIDED|95.0|-13.38|24.38||P-value was not adjusted for multiple comparisons.|Regression, Linear|||Analysis for Phototypes V/VI||24.38|-13.38|0.5481
82540433|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.69||||0.0271|TWO_SIDED|95.0|0.08|1.29|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4, refreshing value of sleep||1.29|0.08|0.0271
82540434|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.39||||0.2129|TWO_SIDED|95.0|-0.22|1.0|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4, refreshing value of sleep||1.00|-0.22|0.2129
82540435|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.37||||0.2874|TWO_SIDED|95.0|-0.31|1.06|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6, refreshing value of sleep||1.06|-0.31|0.2874
82540436|NCT00880048|164780300|SUPERIORITY||Mean Difference (Net)|0.71||||0.0472|TWO_SIDED|95.0|0.01|1.41|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6, refreshing value of sleep||1.41|0.01|0.0472
82540437|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9824|TWO_SIDED|95.0|0.13|7.09|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 1||7.09|0.13|0.9824
82540438|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|0.54||||0.6227|TWO_SIDED|95.0|0.05|6.13|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 1||6.13|0.05|0.6227
82540439|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9967|TWO_SIDED|95.0|0.2|5.07|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 2||5.07|0.20|0.9967
82540440|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|2.0||||0.355|TWO_SIDED|95.0|0.46|8.63|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 2||8.63|0.46|0.3550
82649310|NCT02273206|165014051|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|1.346||||0.0677|TWO_SIDED|95.0|0.979|1.851||Treatment Group (CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline colorectal cancer up to date status, age, and income.|||1.851|0.979|0.0677
82649311|NCT02273206|165014052|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|1.031||||0.8501|TWO_SIDED|95.0|0.753|1.41||Treatment Group (CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline breast cancer up to date status, age, and income|||1.410|0.753|0.8501
82540441|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1009|TWO_SIDED|95.0|0.85|6.49|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 4||6.49|0.85|0.1009
82437132|NCT03888235|164583468|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||All participants are assessed as a single group as they receive the same two treatments for one month. Brief pain inventory (BPI) score change over two months for all participants. This compares BPI score at baseline visit and BPI score 2 months later, after all participants have been using the corrective exercise and sacroiliac stabilization belt for one month. The score is between 0 and 10. The higher the change in score the greater the pain relief.||||< 0.001
82437133|NCT03888235|164583469|SUPERIORITY|||||||0.016||||||The Bonferroni alpha correction is used p\<0.0167|Kruskal-Wallis|||The null hypothesis assumes there is no improvement after one month in posterior superior iliac spine levels (PSISL) measured using the sacroiliac forward flexion test (SIFFT) between the three treatment groups.||||0.016
82437134|NCT03888235|164583469|SUPERIORITY|||||||0.009||||||The Bonferroni alpha correction is used p\<0.0167|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the distance between the posterior sacroiliac spine levels (PSISL) between those who use their usual low back pain treatments and those who are given the corrective exercises (SIFFTE) and use them as needed for one month.||||0.009
82437135|NCT03888235|164583469|SUPERIORITY|||||||0.034||||||Bonferroni correction p\< 0.0167|Wilcoxon (Mann-Whitney)|||The null hypothesis is that that using a pelvic support belt will not help correct sacroiliac joint asymmetry as measured using the distance between the posterior superior iliac spine levels (PSISL), baseline and one month later better than conventional treatment for low back pain.||||0.034
82437136|NCT03888235|164583470|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Since all participants have received the same 2 treatment for one month, we will treat them as a single group. We will measure the distance between their posterior superior iliac spine levels (PSISL) when they enter the study and two months later after they have used the corrective exercise and the sacroiliac belt for one month. Corona prevented some participants from returning for examination, which this test requires. Only 11 participants were present in each group: 33 participants tested.||||< 0.0001
82437137|NCT03888235|164583470|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|||||||< 0.001
82437138|NCT03888235|164583471|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the physiotherapy as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
82437139|NCT03888235|164583472|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the acupuncture as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
82437140|NCT03888235|164583473|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||The null hypothesis is that all participants were as satisfied with the yoga exercises as they were with using the corrective exercises and the pelvic stabilization belt||||<0.00001
82437141|NCT03888235|164583474|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with the core exercises as they were with using the corrective exercise and the pelvic stabilization belt||||<0.00001
82437142|NCT03888235|164583475|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||the null hypothesis is that all participants were as satisfied with treatments by a chiropractor as they were with using the corrective exercise and the pelvic stabilization belt||||<0.00001
82437143|NCT03888235|164583476|SUPERIORITY||||||<|1e-05|||||||t-test, 2 sided|||The null hypothesis is that all participants were as satisfied with massage therapy as they were with using the corrective exercise and the pelvic stabilization belt.||||<0.00001
82437144|NCT00803400|164583477|OTHER||Mean Difference (Final Values)|1.0|||<|0.001|ONE_SIDED||||||t-test, 1 sided|||A p-value less than 0.05 (≤ 0.05) is statistically significant. It indicates strong evidence against the null hypothesis, as there is less than a 5% probability the null is correct (and the results are random)||||<0.001
82437145|NCT00939029|164583480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7||||0.05|TWO_SIDED|90.0|1.0|7.5||1 tailed p-value|Regression, Logistic|||||7.5|1.0|0.05
82437146|NCT00939029|164583481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1||||0.014|TWO_SIDED|90.0|1.4|11.6||1 tailed|Regression, Logistic|||||11.6|1.4|0.014
82437147|NCT00939029|164583482|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.087|TWO_SIDED|90.0|0.8|6.0||1 tailed|Regression, Logistic|||||6.0|0.8|0.087
82437148|NCT00075946|164583539|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.3||||0.33|TWO_SIDED|95.0|0.9|1.88|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in follicular patients.|The primary analysis is to compare the time to rituximab failure (TTRF) between the retreatment arm and the scheduled arm in follicular patients.||1.88|0.90|0.33
82437149|NCT00075946|164583539|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.75||||0.012|TWO_SIDED|95.0|1.22|6.19|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in non-follicular patients.|||6.19|1.22|0.012
82437150|NCT00075946|164583540|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|3.21||||0.002|TWO_SIDED|95.0|1.45|7.13|||Log Rank||Hazard ratio is for Rituximab Retreatment Arm/Rituximab Scheduled Arm in follicular patients.|||7.13|1.45|0.002
82437151|NCT00075946|164583540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED||||||Log Rank|||||||0.0002
82437152|NCT00075946|164583541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.270
82437153|NCT01179217|164583548|SUPERIORITY_OR_OTHER_LEGACY||Wilcoxon rank-sum test|0.5||||0.0052|TWO_SIDED|||||"1. The primary analysis was analyzed using a CMH analysis of the number of SCCs using modified ridit scores.~2. P-value (controlling for region and HU use)~3. The null hypothesis of the final analysis was performed at the 0.045 significance level."|Cochran-Mantel-Haenszel|||||||0.0052
82437154|NCT01179217|164583549|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||||||0.0045
82437155|NCT01179217|164583550|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0888|||||||Cochran-Mantel-Haenszel|||||||0.0888
82437156|NCT04470908|164583582|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.566|||||TWO_SIDED|90.0|0.525|0.61||||||||0.610|0.525|
82437157|NCT04470908|164583583|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.56|||||TWO_SIDED|90.0|0.532|0.589||||||||0.589|0.532|
82540442|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0455|TWO_SIDED|95.0|1.02|7.68|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 4||7.68|1.02|0.0455
82540443|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0507|TWO_SIDED|95.0|1.0|5.32|||Regression, Logistic|||Placebo vs GW823296 30 mg: Week 6||5.32|1.00|0.0507
82540444|NCT00880048|164780301|SUPERIORITY||Odds Ratio (OR)|1.38||||0.4962|TWO_SIDED|95.0|0.55|3.45|||Regression, Logistic|||Placebo vs GW823296 60 mg: Week 6||3.45|0.55|0.4962
82649312|NCT02273206|165014053|SUPERIORITY|Test the coefficient for intervention|Odds Ratio (OR)|0.876||||0.4432|TWO_SIDED|95.0|0.625|1.228||Treatment Group(CCI vs PCM)|Regression, Logistic|p\<0.05|In the logistic regression model, adjustments were made for PHQ9 at baseline, improvement of depression by one level, baseline cervical cancer up to date status, age, and income.|||1.228|0.625|0.4432
82649313|NCT02273206|165014054|SUPERIORITY|||||||0.39|||||||Two-sample t-test|p\<0.05||PHQ9 Intervention Arm Difference between baseline and 12-month follow up||||0.39
82540445|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|1.03||||0.3241|TWO_SIDED|95.0|-1.03|3.1|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||3.10|-1.03|0.3241
82540446|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|-0.56||||0.602|TWO_SIDED|95.0|-2.66|1.55|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||1.55|-2.66|0.6020
82540447|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|2.44||||0.0594|TWO_SIDED|95.0|-0.1|4.99|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||4.99|-0.10|0.0594
82649314|NCT02273206|165014055|SUPERIORITY|||||||0.6|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at baseline.||||0.60
82437158|NCT04470908|164583584|OTHER|Estimate the geometric least square mean ratio of Zanubrutinib vs Zanubrutinib + Rifabutin|Ratio of Geometric Least Squares Means|0.518|||||TWO_SIDED|90.0|0.441|0.608||||||||0.608|0.441|
82437159|NCT01974206|164583596|OTHER||Common Odds Ratio|0.79||||0.307|TWO_SIDED|90.0|0.43|1.47||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization strata, and the 90% CIs of the CMH odds ratio stratified by randomization group.||1.47|0.43|0.307
82437160|NCT01974206|164583597|OTHER||Common Odds Ratio|0.99||||0.576|TWO_SIDED|90.0|0.46|2.15||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||2.15|0.46|0.576
82437161|NCT01974206|164583598|OTHER||Common Odds Ratio|0.88||||0.408|TWO_SIDED|90.0|0.48|1.59||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||1.59|0.48|0.408
82437162|NCT01974206|164583599|OTHER||Common Odds Ratio|0.88||||0.419|TWO_SIDED|90.0|0.48|1.61||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||The exact Cochran-Mantel-Haenszel (CMH) estimate of the common odds ratio (ASP0113 vs placebo) stratified by randomization group, and the 90% CI of the exact CMH odds ratio stratified by randomization group.||1.61|0.48|0.419
82437163|NCT01974206|164583600|OTHER|||||||0.5||||||P-value (1-sided) of the Exact Cochran-Mantel-Haenszel method adjusted odds ratio stratified by randomization group.|Cochran-Mantel-Haenszel|||Exact Cochran-Mantel-Haenszel estimate of the common odds ratio could not be calculated as 100% of ASP0113 group showed graft survival, and this leads to having a value of 0 for the denominator for the ratio thus odds ratio is not estimable. The 90% CI (2-sided) values for the odds ratio are 0.11 to NA, where NA is an infinity value.||||0.5
82437164|NCT03989349|164583603|OTHER||Strata-adjusted percentage difference|12.2||||0.0006|TWO_SIDED|97.5|4.6|19.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||19.8|4.6|0.0006
82437165|NCT03989349|164583604|OTHER||Strata-adjusted percentage difference|14.9||||0.0008|TWO_SIDED|97.5|5.6|24.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.3|5.6|0.0008
82437166|NCT03989349|164583605|OTHER||Strata-adjusted percentage difference|12.5||||0.0006|TWO_SIDED|97.5|4.6|20.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||20.3|4.6|0.0006
82437167|NCT03989349|164583606|OTHER||Strata-adjusted percentage difference|16.3||||0.0004|TWO_SIDED|97.5|6.6|26.0||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.0|6.6|0.0004
82649315|NCT02273206|165014055|SUPERIORITY|||||||0.86|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at 6 Months||||0.86
82649316|NCT02273206|165014056|SUPERIORITY|||||||0.6|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at Baseline.||||0.60
82649317|NCT02273206|165014056|SUPERIORITY|||||||0.23|||||||Chi-squared|||The Hopkins Symptom Checklist (SCL-20) at 12 months.||||0.23
82649318|NCT02273206|165014057|SUPERIORITY|||||||0.4483|||||||Chi-squared|p\<0.05||Colorectal Cancer Screening Intervention Arm Difference at 12 Months||||0.4483
82649319|NCT02273206|165014057|SUPERIORITY|||||||0.1706|||||||Chi-squared|p\<0.05||Cervical Cancer Screening Intervention Arm Difference at 12 Months||||0.1706
82540448|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|0.92||||0.4828|TWO_SIDED|95.0|-1.67|3.5|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||3.50|-1.67|0.4828
82437168|NCT03989349|164583607|OTHER||Strata-adjusted percentage difference|23.2|||<|0.0001|TWO_SIDED|97.5|16.1|30.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||30.3|16.1|<0.0001
82437169|NCT03989349|164583607|OTHER||Strata-adjusted percentage difference|27.8|||<|0.0001|TWO_SIDED|97.5|21.2|34.5||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using multiple imputation (MI) with missing at random (MAR) assumption.||34.5|21.2|<0.0001
82437170|NCT03989349|164583608|OTHER||Strata-adjusted percentage difference|27.1|||<|0.0001|TWO_SIDED|97.5|17.5|36.6||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level. Participants with missing data were considered non-responders.||36.6|17.5|<0.0001
82437171|NCT03989349|164583608|OTHER||Strata-adjusted percentage difference|33.4|||<|0.0001|TWO_SIDED|97.5|24.5|42.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\].|Cochran-Mantel-Haenszel||The estimates are from 50 complete datasets by MI-MAR assumption.|Nemolizumab 30 mg versus Placebo using MI-MAR assumption.||42.3|24.5|<0.0001
82437172|NCT03989349|164583609|OTHER||Strata-adjusted percentage difference|17.1|||<|0.0001|TWO_SIDED|97.5|10.9|23.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||23.3|10.9|<0.0001
82437173|NCT03989349|164583610|OTHER||Strata-adjusted percentage difference|18.4|||<|0.0001|TWO_SIDED|97.5|11.0|25.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||25.8|11.0|<0.0001
82437174|NCT03989349|164583611|OTHER||Strata-adjusted percentage difference|17.5|||<|0.0001|TWO_SIDED|97.5|10.8|24.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||24.3|10.8|< 0.0001
82437175|NCT03989349|164583612|OTHER||Strata-adjusted percentage difference|21.9|||<|0.0001|TWO_SIDED|97.5|12.5|31.4||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||31.4|12.5|<0.0001
82455225|NCT03726489|164614310|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.458|TWO_SIDED|95.0|0.471|1.403|||Regression, Cox|Failure event corresponds to DLQI assessment greater than 5. Model adjusted for skin phototype.|Office phototherapy is the reference group.|Cox proportional hazards model for maintaining treatment response after week 12.||1.403|0.471|0.458
82455226|NCT03726489|164614311|SUPERIORITY||Risk Difference (RD)|38.1|||<|0.0001|TWO_SIDED|95.0|30.34|45.86||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis adjusted for all skin phototypes||45.86|30.34|<0.0001
82540449|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|0.19||||0.9008|TWO_SIDED|95.0|-2.8|3.18|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||3.18|-2.80|0.9008
82540450|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|-0.71||||0.6428|TWO_SIDED|95.0|-3.74|2.32|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||2.32|-3.74|0.6428
82540451|NCT00880048|164780304|SUPERIORITY||Mean Difference (Net)|-0.68||||0.6911|TWO_SIDED|95.0|-4.06|2.7|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||2.70|-4.06|0.6911
82540452|NCT00880048|164780304|SUPERIORITY||Odds Ratio (OR)|-0.67||||0.7026|TWO_SIDED|95.0|-4.14|2.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||2.80|-4.14|0.7026
82540453|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|-0.97||||0.1301|TWO_SIDED|95.0|-2.24|0.29|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 1||0.29|-2.24|0.1301
82540454|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|0.47||||0.4644|TWO_SIDED|95.0|-0.79|1.73|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 1||1.73|-0.79|0.4644
82540455|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|-0.76||||0.3382|TWO_SIDED|95.0|-2.33|0.8|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 2||0.80|-2.33|0.3382
82540456|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|0.94||||0.241|TWO_SIDED|95.0|-0.63|2.51|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 2||2.51|-0.63|0.2410
82540457|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|-0.98||||0.2768|TWO_SIDED|95.0|-2.75|0.79|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 4||0.79|-2.75|0.2768
82540458|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|0.06||||0.9434|TWO_SIDED|95.0|-1.7|1.83|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 4||1.83|-1.70|0.9434
82540459|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|-0.55||||0.5796|TWO_SIDED|95.0|-2.49|1.4|||Mixed Models Repeated Measures|||Placebo vs GW823296 30 mg: Week 6||1.40|-2.49|0.5796
82540460|NCT00880048|164780305|SUPERIORITY||Mean Difference (Net)|0.71||||0.4753|TWO_SIDED|95.0|-1.24|2.66|||Mixed Models Repeated Measures|||Placebo vs GW823296 60 mg: Week 6||2.66|-1.24|0.4753
82540461|NCT02326649|164780314|OTHER|||||||0.47|||||||paired t-test|||||||0.47
82540462|NCT02326649|164780314|OTHER||Mean Difference (Final Values)|6.561|STANDARD_ERROR_OF_MEAN|5.528||0.255|TWO_SIDED|95.0|-5.295|18.417|||Regression, Linear|||Intercept for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||18.417|-5.295|0.255
82577900|NCT00461981|164865027|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.75||||||95.0|0.88|3.39||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.39|0.88|
82649320|NCT02273206|165014057|SUPERIORITY|||||||0.3568|||||||Chi-squared|p\<0.05||Breast Cancer Screening Intervention Arm Difference at 12 Months||||0.3568
82437176|NCT03989349|164583613|OTHER||Strata-adjusted percentage difference|20.9|||<|0.0001|TWO_SIDED|97.5|15.6|26.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting the randomized stratification variables (IGA severity and PP NRS).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||26.1|15.6|< 0.0001
82437177|NCT03989349|164583614|OTHER||Strata-adjusted percentage difference|22.5|||<|0.0001|TWO_SIDED|97.5|15.0|29.9||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||29.9|15.0|<0.0001
82437178|NCT03989349|164583615|OTHER||Strata-adjusted percentage difference|13.2|||<|0.0001|TWO_SIDED|97.5|9.0|17.4||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||17.4|9|< 0.0001
82437179|NCT03989349|164583616|OTHER||Strata-adjusted percentage difference|9.9||||0.0001|TWO_SIDED|97.5|5.5|14.3||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||14.3|5.5|0.0001
82540463|NCT02326649|164780314|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.417||0.25|TWO_SIDED|95.0|-0.395|1.395|||Regression, Linear|||Heart rate delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||1.395|-0.395|0.250
82540464|NCT02326649|164780314|OTHER||Mean Difference (Final Values)|-0.427|STANDARD_ERROR_OF_MEAN|0.305||0.183|TWO_SIDED|95.0|-1.081|0.227|||Regression, Linear|||Diastolic BP delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||0.227|-1.081|0.183
82540465|NCT02326649|164780314|OTHER||Mean Difference (Final Values)|0.557|STANDARD_ERROR_OF_MEAN|0.452||0.238|TWO_SIDED|95.0|-0.411|1.526|||Regression, Linear|||Systolic BP delta for multilinear regression for difference in stroke volume controlling for difference in heart rate and blood pressure||1.526|-0.411|0.238
82540466|NCT02950558|164780317|OTHER|||||||0.1269|||||||Wilcoxon (Mann-Whitney)|||||||0.1269
82540467|NCT02950558|164780318|OTHER|||||||0.8808|||||||Wilcoxon (Mann-Whitney)|||||||0.8808
82540468|NCT02950558|164780319|OTHER|||||||0.0382|||||||Wilcoxon (Mann-Whitney)|||||||0.0382
82540469|NCT02950558|164780320|OTHER|||||||0.4696|||||||Wilcoxon (Mann-Whitney)|||||||0.4696
82540470|NCT02950558|164780321|OTHER|||||||0.1818|||||||Fisher Exact|||||||0.1818
82540471|NCT01184508|164780322|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference (Net)|-1.03||||0.085|TWO_SIDED|90.0|-2.02|-0.05||The comparison between LY2300559 and placebo for the LS mean change from baseline to Month 3 in the number of migraine attacks was conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||-0.05|-2.02|0.085
82540472|NCT01184508|164780324|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|1.75||||0.77|TWO_SIDED|90.0|-8.27|11.76||The p-value is for the change from baseline to Month 3 in average duration of photophobia.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||11.76|-8.27|0.770
82649321|NCT02273206|165014058|SUPERIORITY|||||||0.85|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at baseline.||||0.85
82649322|NCT02273206|165014058|SUPERIORITY|||||||0.23|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at 6 months.||||0.23
82649323|NCT02273206|165014058|SUPERIORITY|||||||0.98|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Visits at 12 months.||||0.98
82649324|NCT02273206|165014058|SUPERIORITY|||||||0.57|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at baseline.||||0.57
82540473|NCT01184508|164780324|SUPERIORITY_OR_OTHER||LS mean difference|7.3||||0.276|TWO_SIDED|90.0|-3.91|18.52||The p-value is for the change from baseline to Month 3 in average duration of phonophobia.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, tx group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||18.52|-3.91|0.276
82540474|NCT01184508|164780324|SUPERIORITY_OR_OTHER||LS mean difference|-2.7||||0.606|TWO_SIDED|90.0|-11.51|6.1||The p-value is for the change from baseline to Month 3 in average duration of nausea.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, tx group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||6.10|-11.51|0.606
82540475|NCT01184508|164780325|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-1.57||||0.174|TWO_SIDED|90.0|-3.48|0.34||The p-value is for the mean change from baseline to Month 3 in the number of migraine days.|Mixed-effects model repeated-measures|Fixed effects: pooled investigator, treatment (tx) group, month, tx group\*month, baseline, baseline\*month; Random effect: pts; Repeated effect: month.||||0.34|-3.48|0.174
82540476|NCT01184508|164780328|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.27||||0.963|TWO_SIDED|90.0|-9.76|9.23||The p-value is for the change from baseline to Week 12 in MSQ restrictive function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||9.23|-9.76|0.963
82540477|NCT01184508|164780328|SUPERIORITY_OR_OTHER||LS mean difference|-2.17||||0.591|TWO_SIDED|90.0|-8.85|4.5||The p-value is for the change from baseline to Week 12 in MSQ preventive function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||4.50|-8.85|0.591
82577901|NCT00461981|164865028|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.49||||||95.0|0.8|2.69||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||2.69|0.80|
82649325|NCT02273206|165014058|SUPERIORITY|||||||0.92|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at 6 months.||||0.92
82540478|NCT01184508|164780328|SUPERIORITY_OR_OTHER||LS mean difference|1.89||||0.72|TWO_SIDED|90.0|-6.81|10.58||The p-value is for the change from baseline to Week 12 in MSQ emotional function score.|ANCOVA|Fixed effects: investigator (pooled site), treatment group, visit, treatment group\*visit, baseline and baseline\*visit.||||10.58|-6.81|0.720
82540479|NCT01184508|164780329|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.25||||0.688|TWO_SIDED|90.0|-1.3|0.8||The p-value is for the change from baseline to Week 12 in MIBS-4 overall weighted score.|ANCOVA|Fixed effects: pooled investigator, treatment group, and baseline.||||0.80|-1.30|0.688
82540480|NCT01184508|164780331|SUPERIORITY_OR_OTHER|||||||0.607||95.0||||The p-value is for the percentage of participants using breakthrough medication at Month 3.|Fisher Exact|||||||0.607
82540481|NCT05819190|164780410|SUPERIORITY|||||||0.0192|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean AUC of WURSS-21 scores assessed during the first 8 days of the study between both groups - FAS set||||0.0192
82437180|NCT03989349|164583617|OTHER||Strata-adjusted percentage difference|15.1|||<|0.0001|TWO_SIDED|97.5|11.0|19.2||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level||19.2|11|< 0.0001
82437181|NCT03989349|164583618|OTHER||Strata-adjusted percentage difference|16.3|||<|0.0001|TWO_SIDED|97.5|10.5|22.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||22.1|10.5|<0.0001
82437182|NCT03989349|164583619|OTHER||Strata-adjusted percentage difference|6.4|||<|0.0001|TWO_SIDED|97.5|3.8|9.1||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\] and PP NRS \[\>=7, \<7\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for the preceding outcome measure was statistically significant at two-sided 2.5% significance level.||9.1|3.8|<0.0001
82540482|NCT05819190|164780411|SUPERIORITY|||||||0.0296|||||||Wilcoxon (Mann-Whitney)|||Comparison of the mean AUC of WURSS-21 scores assessed during the first 8 days of the study between both groups - PP set||||0.0296
82540483|NCT05819190|164780412|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||||||0.0085
82540484|NCT05819190|164780413|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||||||0.0081
82540485|NCT05819190|164780414|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.0050
82540486|NCT05819190|164780415|SUPERIORITY|||||||0.0107|||||||Wilcoxon (Mann-Whitney)|||||||0.0107
82540487|NCT05819190|164780416|SUPERIORITY|||||||0.0424|||||||Wilcoxon (Mann-Whitney)|||||||0.0424
82540488|NCT05819190|164780417|SUPERIORITY|||||||0.43||||||one sided test|Wilcoxon (Mann-Whitney)|||0.05 global significance level (type I error rate)||||0.430
82540489|NCT05819190|164780418|SUPERIORITY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.339
82540490|NCT05819190|164780419|SUPERIORITY|||||||0.704|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.704
82540491|NCT05819190|164780420|SUPERIORITY|||||||0.298|||||||Wilcoxon (Mann-Whitney)|One sided test||0.05 global significance level (type I error rate)||||0.298
82649326|NCT02273206|165014058|SUPERIORITY|||||||0.99|||||||Chi-squared|||Mental Health Care Utilization - Mental Health Prescriptions at 12 months.||||0.99
82649327|NCT02273206|165014059|SUPERIORITY|||||||0.2|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at baseline.||||0.20
82540492|NCT05819190|164780421|SUPERIORITY|||||||0.906|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.906
82540493|NCT05819190|164780422|SUPERIORITY|||||||0.582|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.582
82540494|NCT05819190|164780423|SUPERIORITY|||||||0.743|||||||Wilcoxon (Mann-Whitney)|one sided test||0.05 global significance level (type I error rate)||||0.743
82540495|NCT05819190|164780424|SUPERIORITY|||||||0.605|||||||Fisher Exact|One sided test||0.05 global significance level (type I error rate)||||0.605
82540496|NCT05819190|164780425|SUPERIORITY|||||||1|||||||Fisher Exact|one sided test||0.05 global significance level (type I error rate)||||1.000
82540497|NCT05819190|164780426|SUPERIORITY|||||||0.988|||||||Fisher Exact|One sided test||0.05 global significance level (type I error rate)||||0.988
82540498|NCT05819190|164780427|SUPERIORITY|||||||0.483|||||||Fisher Exact|one sided test||0.05 global significance level (type I error rate)||||0.483
82540499|NCT04495634|164780428|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.|||||<|0.0001|||||||ANOVA|||||||<0.0001
82540500|NCT04495634|164780429|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.41|||||||ANOVA|||||||0.41
82540501|NCT04495634|164780430|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.0001|||||||ANOVA|||||||0.0001
82540502|NCT04495634|164780431|EQUIVALENCE|The equivalence margin was defined through power calculations based on sample size, power of 0.90 and alpha of 0.05 resulting in a margin of +/- 0.26.||||||0.0001|||||||ANOVA|||||||0.0001
82540503|NCT03105128|164780432|SUPERIORITY||Adjusted Risk Difference|20.7|||<|0.001|TWO_SIDED|95.0|12.4|29.0|||Cochran-Mantel-Haenszel|||||29.0|12.4|<0.001
82540504|NCT03105128|164780432|SUPERIORITY||Adjusted Risk Difference|16.7|||<|0.001|TWO_SIDED|95.0|8.5|24.9|||Cochran-Mantel-Haenszel|||||24.9|8.5|<0.001
82540505|NCT03105128|164780433|SUPERIORITY||Adjusted Risk Difference|28.3|||<|0.001|TWO_SIDED|95.0|21.2|35.4|||Cochran-Mantel-Haenszel|||||35.4|21.2|<0.001
82540506|NCT03105128|164780433|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.6|27.1|||Cochran-Mantel-Haenszel|||||27.1|13.6|<0.001
82577902|NCT00461981|164865029|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.62||||||95.0|0.33|1.16||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.16|0.33|
82577903|NCT00461981|164865030|SUPERIORITY_OR_OTHER_LEGACY||Rate differences|-45.9||||||95.0|-71.7|-11.6||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-11.6|-71.7|
82577904|NCT00461981|164865031|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-25.0||||||95.0|-57.2|4.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||4.8|-57.2|
82437183|NCT03989349|164583620|OTHER||Strata-adjusted percentage difference|8.0||||0.0004|TWO_SIDED|97.5|4.2|11.8||Strata-adjusted p-values were calculated from Cochran-Mantel-Haenszel test adjusting randomized stratification variables (IGA severity \[3=moderate, 4=severe\]).|Cochran-Mantel-Haenszel|||A hierarchical testing procedure was used to control the overall type I error. Testing was performed sequentially in order the outcome measures were reported and continued when the test for preceding outcome measure was statistically significant at two-sided 2.5% significance level.||11.8|4.2|0.0004
82455227|NCT03726489|164614311|SUPERIORITY||Risk Difference (RD)|38.86|||<|0.0001|TWO_SIDED|95.0|27.39|50.33||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||50.33|27.39|<0.0001
82540507|NCT03105128|164780434|SUPERIORITY||Adjusted Risk Difference|21.9|||<|0.001|TWO_SIDED|95.0|13.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|13.8|<0.001
82540508|NCT03105128|164780434|SUPERIORITY||Adjusted Risk Difference|18.8|||<|0.001|TWO_SIDED|95.0|10.8|26.8|||Cochran-Mantel-Haenszel|||||26.8|10.8|<0.001
82540509|NCT03105128|164780435|SUPERIORITY||Adjusted Risk Difference|28.3|||<|0.001|TWO_SIDED|95.0|21.2|35.4|||Cochran-Mantel-Haenszel|||||35.4|21.2|<0.001
82540510|NCT03105128|164780435|SUPERIORITY||Adjusted Risk Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.6|27.1|||Cochran-Mantel-Haenszel|||||27.1|13.6|<0.001
82540511|NCT03105128|164780436|SUPERIORITY||Risk Difference (RD)|21.9|||<|0.001|TWO_SIDED|95.0|13.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|13.8|<0.001
82540512|NCT03105128|164780436|SUPERIORITY||Adjusted Risk Difference|18.8|||<|0.001|TWO_SIDED|95.0|10.8|26.8|||Cochran-Mantel-Haenszel|||||26.8|10.8|<0.001
82540513|NCT03105128|164780437|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|7.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|7.2|<0.001
82540514|NCT03105128|164780437|SUPERIORITY||Adjusted Risk Difference|11.2||||0.007|TWO_SIDED|95.0|3.1|19.2|||Cochran-Mantel-Haenszel|||||19.2|3.1|0.007
82540515|NCT03105128|164780438|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|14.2|31.9|||Cochran-Mantel-Haenszel|||||31.9|14.2|<0.001
82540516|NCT03105128|164780438|SUPERIORITY||Adjusted Risk Difference|27.7|||<|0.001|TWO_SIDED|95.0|19.0|36.4|||Cochran-Mantel-Haenszel|||||36.4|19.0|<0.001
82540517|NCT03105128|164780439|SUPERIORITY||Adjusted Risk Difference|5.2|||<|0.001|TWO_SIDED|95.0|3.2|7.2|||Cochran-Mantel-Haenszel|||||7.2|3.2|<0.001
82540518|NCT03105128|164780439|SUPERIORITY||Adjusted Risk Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||Cochran-Mantel-Haenszel|||||6.1|2.1|<0.001
82540519|NCT03105128|164780440|SUPERIORITY||Adjusted Risk Difference|7.6||||0.015|TWO_SIDED|95.0|1.5|13.7|||Cochran-Mantel-Haenszel|||||13.7|1.5|0.015
82540520|NCT03105128|164780440|SUPERIORITY||Adjusted Risk Difference|8.4||||0.007|TWO_SIDED|95.0|2.3|14.6|||Cochran-Mantel-Haenszel|||||14.6|2.3|0.007
82577905|NCT00461981|164865032|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|65.0||||||95.0|34.4|85.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||85.3|34.4|
82577906|NCT00461981|164865033|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-0.6||||||95.0|-30.4|30.3||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||30.3|-30.4|
82437184|NCT02488135|164583621|NON_INFERIORITY|An a priori sample size was calculated using a non-inferiority limit (d) set at 25%, significance level (α) of 5% and power of 80%. We assumed that success in each group would be 93% based on the literature examining anterior nasal packing in ideal conditions and considering our selection criteria in the Floseal® (Baxter, USA) population. Attrition was assumed to be 0% due to the short duration of treatment. This yielded 26 participants with 13 patients in each study arm.||||||1|||||||Fisher Exact|||||||1.000
82437185|NCT02488135|164583622|SUPERIORITY|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups for pain during placement.||||0.0022
82437186|NCT02488135|164583622|SUPERIORITY|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups for pain during treatment.||||0.0007
82437187|NCT02488135|164583622|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||Comparison between scores for pain during removal.||||0.0021
82437188|NCT00778258|164583627|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.77||||0.58|TWO_SIDED|95.0|0.31|1.93|||Regression, Logistic|||||1.93|0.31|0.58
82437189|NCT00778258|164583628|SUPERIORITY_OR_OTHER||Odds Ratio, log|1.13||||0.78|TWO_SIDED|95.0|0.48|2.68|||Chi-squared|||Progression comparison at 12 Months||2.68|0.48|0.78
82437190|NCT00778258|164583628|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.81||||0.62|TWO_SIDED|95.0|0.34|1.91|||Chi-squared|||Progression comparison at 24 Months||1.91|0.34|0.62
82437191|NCT00778258|164583629|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||Comparison at 12 Months||||0.14
82437192|NCT00778258|164583629|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Chi-squared|||Comparison at 24 Months||||0.17
82437193|NCT00778258|164583629|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Chi-squared|||Comparison at 36 Months||||0.33
82437194|NCT00778258|164583630|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Chi-squared|||||||0.41
82437195|NCT00778258|164583631|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Kruskal-Wallis|||||||0.09
82455228|NCT03726489|164614311|SUPERIORITY||Risk Difference (RD)|42.21|||<|0.0001|TWO_SIDED|95.0|30.73|53.68||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||53.68|30.73|<0.0001
82437196|NCT00778258|164583631|SUPERIORITY_OR_OTHER|||||||0.01||||||Null hypothesis is that correlation = 0|Spearman's Correlation|||||||0.01
82437197|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Analysis on Betalactoglobulin||||<0.01
82437198|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Betalactoglobulin IgE||||<0.01
82437199|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Analysis on Casein IgE||||<0.01
82437200|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Casein IgE||||<0.01
82437201|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Analysis on Cow's Milk IgE||||<0.01
82437202|NCT00778258|164583632|SUPERIORITY_OR_OTHER||||||<|0.01||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Cow's Milk IgE||||<0.01
82437203|NCT00778258|164583633|SUPERIORITY_OR_OTHER|||||||0.01|||||||Kruskal-Wallis|||Analysis on Max Basophil Assessment||||0.01
82437204|NCT00778258|164583633|SUPERIORITY_OR_OTHER|||||||0.22||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Max Basophil Assessment||||0.22
82437205|NCT00778258|164583633|SUPERIORITY_OR_OTHER|||||||0.59|||||||Kruskal-Wallis|||Analysis on Tregs||||0.59
82437206|NCT00778258|164583633|SUPERIORITY_OR_OTHER|||||||0.32||||||Null hypothesis is that correlation = 0|Spearman Correlation|||Analysis on Tregs||||0.32
82437207|NCT00778258|164583634|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Kruskal-Wallis|||||||0.50
82437208|NCT00778258|164583635|SUPERIORITY_OR_OTHER|||||||0.033||||||Correlation = -0.18|Spearman Correlation|||Baseline Comparison||||0.033
82437209|NCT00778258|164583635|SUPERIORITY_OR_OTHER|||||||0.002||||||Correlation = -0.34|Spearman Correlation|||Month 12 Comparison||||0.002
82437210|NCT00778258|164583635|SUPERIORITY_OR_OTHER|||||||0.156||||||Correlation = -0.20|Spearman Correlation|||Month 24 Comparison||||0.156
82437211|NCT00778258|164583635|SUPERIORITY_OR_OTHER|||||||0.077||||||Correlation = -0.27|Spearman Correlation|||Month 36 Comparison||||0.077
82437212|NCT00778258|164583636|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||36 Month Comparison||||<0.01
82437213|NCT02438683|164583639|OTHER||Slope|0.0029|||||TWO_SIDED|95.0|0.0012|0.0046||||The covariance structure is No diagonal Factor Analytic FA0(2).||The regression model with response variable placebo-corrected HR change from baseline (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject. (Primary analysis).||0.0046|0.0012|
82540521|NCT03105128|164780441|SUPERIORITY||Adjusted Risk Difference|24.5|||<|0.001|TWO_SIDED|95.0|18.5|30.5|||Cochran-Mantel-Haenszel|||||30.5|18.5|<0.001
82540522|NCT03105128|164780441|SUPERIORITY||Adjusted Risk Difference|17.3|||<|0.001|TWO_SIDED|95.0|11.8|22.9|||Cochran-Mantel-Haenszel|||||22.9|11.8|<0.001
82540523|NCT03105128|164780442|SUPERIORITY||Adjusted Risk Difference|24.2|||<|0.001|TWO_SIDED|95.0|15.7|32.7|||Cochran-Mantel-Haenszel|||||32.7|15.7|<0.001
82540524|NCT03105128|164780442|SUPERIORITY||Adjusted Risk Difference|23.6|||<|0.001|TWO_SIDED|95.0|15.1|32.1|||Cochran-Mantel-Haenszel|||||32.1|15.1|<0.001
82455229|NCT03726489|164614311|SUPERIORITY||Risk Difference (RD)|15.74||||0.234|TWO_SIDED|95.0|-9.63|41.11||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||41.11|-9.63|0.2340
82455230|NCT03726489|164614312|SUPERIORITY||Risk Difference (RD)|43.96|||<|0.0001|TWO_SIDED|95.0|37.25|50.66||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||50.66|37.25|<0.0001
82455231|NCT03726489|164614312|SUPERIORITY||Risk Difference (RD)|39.85|||<|0.0001|TWO_SIDED|95.0|30.0|49.7||P-value was not adjusted for multiple comparisons.|Marginal Standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||49.70|30.0|<0.0001
82455232|NCT03726489|164614312|SUPERIORITY||Risk Difference (RD)|50.18|||<|0.0001|TWO_SIDED|95.0|40.09|60.27||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||60.27|40.09|<0.0001
82455233|NCT03726489|164614312|SUPERIORITY||Risk Difference (RD)|36.11|||<|0.0001|TWO_SIDED|95.0|14.35|57.87||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||57.87|14.35|<0.0001
82455234|NCT03726489|164614313|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-5.2||||0.1773|TWO_SIDED|95.0|-19.4|9.0||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||9.0|-19.4|0.1773
82455235|NCT03726489|164614313|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-6.88||||0.4073|TWO_SIDED|95.0|-26.09|12.33||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||12.33|-26.09|0.4073
82540525|NCT03105128|164780443|SUPERIORITY||Adjusted Risk Difference|21.2|||<|0.001|TWO_SIDED|95.0|12.4|30.0|||Cochran-Mantel-Haenszel|||||30.0|12.4|<0.001
82649328|NCT02273206|165014059|SUPERIORITY|||||||0.17|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at 6 months.||||0.17
82649329|NCT02273206|165014059|SUPERIORITY|||||||0.69|||||||Chi-squared|||Satisfaction with decision to participate in colorectal cancer screening at 12 months.||||0.69
82437214|NCT02438683|164583640|OTHER||Mean Difference (Net)|3.85|STANDARD_ERROR_OF_MEAN|1.75|||TWO_SIDED|90.0|0.73|6.97||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||6.97|0.73|
82437215|NCT02438683|164583641|OTHER||Mean Difference (Net)|4.93|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|90.0|1.69|8.16||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 200 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||8.16|1.69|
82455236|NCT03726489|164614313|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|-12.42||||0.8247|TWO_SIDED|95.0|-35.24|10.41||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||10.41|-35.24|0.8247
82437216|NCT02438683|164583642|OTHER||Slope|0.0011|||||TWO_SIDED|95.0|-0.0009|0.003||||The covariance structure is No diagonal Factor Analytic FA0(2).||The regression model with response variable placebo-corrected QTcF change from baseline (ddQTcF) and independent variable. Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject (Primary analysis). The covariance structure is No diagonal Factor Analytic FA0(2).||0.0030|-0.0009|
82437217|NCT02438683|164583643|OTHER||Mean Difference (Net)|4.54|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|90.0|3.39|5.7||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||5.70|3.39|
82540526|NCT03105128|164780443|SUPERIORITY||Adjusted Risk Difference|19.0|||<|0.001|TWO_SIDED|95.0|10.1|27.8|||Cochran-Mantel-Haenszel|||||27.8|10.1|<0.001
82540527|NCT03105128|164780444|SUPERIORITY||Adjusted Risk Difference|15.1|||<|0.001|TWO_SIDED|95.0|9.0|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.0|<0.001
82540528|NCT03105128|164780444|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.4|<0.001
82540529|NCT03105128|164780445|SUPERIORITY||Adjusted Risk Difference|14.9||||0.001|TWO_SIDED|95.0|6.2|23.5|||Cochran-Mantel-Haenszel|||||23.5|6.2|0.001
82540530|NCT03105128|164780445|SUPERIORITY||Adjusted Risk Difference|11.8||||0.007|TWO_SIDED|95.0|3.2|20.3|||Cochran-Mantel-Haenszel|||||20.3|3.2|0.007
82649330|NCT02273206|165014059|SUPERIORITY|||||||0.72|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at baseline.||||0.72
82649331|NCT02273206|165014059|SUPERIORITY|||||||0.72|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at 6 months.||||0.72
82649332|NCT02273206|165014059|SUPERIORITY|||||||0.87|||||||Chi-squared|||Satisfaction with decision to participate in breast cancer screening at 12 months.||||0.87
82649333|NCT02273206|165014059|SUPERIORITY|||||||0.65|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at baseline.||||0.65
82437218|NCT02438683|164583644|OTHER||Mean Difference (Net)|4.73|STANDARD_ERROR_OF_MEAN|1.99|||TWO_SIDED|90.0|1.34|8.13||||For the repeated effect 'time', the covariance structure was chosen to be unstructured.|Mean Difference (Net) is actually the adjusted mean difference calculated as BI 409306 200 mg minus Placebo.|The a repeated measures model included 'period baseline', 'subject baseline' (defined as the arithmetic mean of the 2 period baselines), 'treatment', 'baseline\*time' interaction, 'treatment\*time' interaction and 'time' as fixed effects and subject as random effect (Primary analysis).||8.13|1.34|
82437219|NCT02438683|164583645|OTHER||Slope|0.0054|||||TWO_SIDED|95.0|0.0032|0.0076||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected max HR (dHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept and slope estimates for each subject. (Primary analysis)||0.0076|0.0032|
82437220|NCT02438683|164583646|OTHER||Slope|-0.0014|||||TWO_SIDED|95.0|-0.0036|0.0008||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected change from max HR to recovery HR (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept estimates for each subject (Primary analysis).||0.0008|-0.0036|
82437221|NCT02438683|164583646|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.0029|||||TWO_SIDED|95.0|-0.0052|-0.0007||||The covariance structure is Unstructured.||The regression model with response variable placebo-corrected change from max HR to recovery HR (ddHR) and independent variable Plasma concentration includes a fixed slope effect as well as random intercept estimates for each subject (Primary analysis).||-0.0007|-0.0052|
82437222|NCT03817463|164583738|OTHER||Adjusted Hazard Ratio|0.7|||<|0.005|TWO_SIDED|95.0|0.6|0.83|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-(broad+specific)||0.83|0.60|<0.005
82437223|NCT03817463|164583738|OTHER||Adjusted Hazard Ratio|0.66|||<|0.005|TWO_SIDED|95.0|0.57|0.78|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline||HHF-(broad + specific).||0.78|0.57|<0.005
82437224|NCT03817463|164583739|OTHER||Ajusted hazard ratio|0.75|||<|0.005|TWO_SIDED|95.0|0.69|0.81|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-broad.||0.81|0.69|<0.005
82437225|NCT03817463|164583739|OTHER||Ajusted hazard ratio|0.78|||<|0.005|TWO_SIDED|95.0|0.69|0.88|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-broad.||0.88|0.69|<0.005
82437226|NCT03817463|164583740|OTHER||Adjusted Hazard Ratio|0.68|||<|0.005|TWO_SIDED|95.0|0.56|0.83|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-specific. Hazards ratios reported include data from all countries with non-missing values.||0.83|0.56|<0.005
82437227|NCT03817463|164583740|OTHER||Adjusted Hazard Ratio|0.64|||<|0.005|TWO_SIDED|95.0|0.51|0.81|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||HHF-specific. Hazards ratios reported include data from all countries with non-missing values.||0.81|0.51|<0.005
82437228|NCT03817463|164583741|OTHER||Adjusted Hazard Ratio|0.55|||<|0.005|TWO_SIDED|95.0|0.48|0.63|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.63|0.48|<0.005
82437229|NCT03817463|164583741|OTHER||Adjusted Hazard Ratio|0.59|||<|0.005|TWO_SIDED|95.0|0.54|0.65|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.65|0.54|<0.005
82437230|NCT03817463|164583742|OTHER||Adjusted Hazard Ratio|0.65|||<|0.05|TWO_SIDED|95.0|0.56|0.76|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.76|0.56|<0.05
82437231|NCT03817463|164583742|OTHER||Adjusted Hazard Ratio|0.66|||<|0.005|TWO_SIDED|95.0|0.61|0.72|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.72|0.61|<0.005
82437232|NCT03817463|164583743|OTHER||Adjusted Hazard Ratio|0.72|||<|0.005|TWO_SIDED|95.0|0.64|0.82|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.82|0.64|<0.005
82437233|NCT03817463|164583743|OTHER||Adjusted Hazard Ratio|0.72|||<|0.005|TWO_SIDED|95.0|0.66|0.78|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.78|0.66|<0.005
82437234|NCT03817463|164583744|OTHER||Adjusted Hazard Ratio|1.02||||0.816|TWO_SIDED|95.0|0.88|1.18|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.18|0.88|0.816
82437235|NCT03817463|164583744|OTHER||Adjusted Hazard Ratio|0.87||||0.013|TWO_SIDED|95.0|0.78|0.97|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.97|0.78|0.013
82437236|NCT03817463|164583745|OTHER||Adjusted Hazard Ratio|0.82|||<|0.011|TWO_SIDED|95.0|0.71|0.96|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.96|0.71|<0.011
82437237|NCT03817463|164583745|OTHER||Adjusted Hazard Ratio|0.84||||0.064|TWO_SIDED|95.0|0.69|1.01|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.01|0.69|0.064
82437238|NCT03817463|164583746|OTHER||Adjusted Hazard Ratio|0.59|||<|0.005|TWO_SIDED|95.0|0.42|0.84|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.84|0.42|<0.005
82649334|NCT02273206|165014059|SUPERIORITY|||||||0.82|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at 6 months.||||0.82
82649335|NCT02273206|165014059|SUPERIORITY|||||||0.92|||||||Chi-squared|||Satisfaction with decision to participate in cervical cancer screening at 12 months.||||0.92
82649336|NCT02273206|165014059|SUPERIORITY|||||||0.56|||||||Chi-squared|||Satisfaction with decision to participate in Mental Health Care at 12 months.||||0.56
82455237|NCT03726489|164614313|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|37.88||||0.0133|TWO_SIDED|95.0|-4.01|79.77||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||79.77|-4.01|0.0133
82540531|NCT03105128|164780446|SUPERIORITY||Adjusted Risk Difference|13.7|||<|0.001|TWO_SIDED|95.0|7.9|19.5|||Cochran-Mantel-Haenszel|||||19.5|7.9|<0.001
82437239|NCT03817463|164583746|OTHER||Adjusted Hazard Ratio|0.6|||<|0.005|TWO_SIDED|95.0|0.49|0.72|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.72|0.49|<0.005
82437240|NCT03817463|164583747|OTHER||Adjusted Hazard Ratio|0.54|||<|0.005|TWO_SIDED|95.0|0.46|0.64|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.64|0.46|<0.005
82437241|NCT03817463|164583747|OTHER||Adjusted Hazard Ratio|0.56|||<|0.005|TWO_SIDED|95.0|0.47|0.66|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.66|0.47|<0.005
82437242|NCT03817463|164583748|OTHER||Adjusted Hazard Ratio|0.95||||0.545|TWO_SIDED|95.0|0.81|1.11|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.11|0.81|0.545
82437243|NCT03817463|164583748|OTHER||Adjusted Hazard Ratio|0.91||||0.036|TWO_SIDED|95.0|0.83|0.99|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||0.99|0.83|0.036
82437244|NCT03817463|164583749|OTHER||Adjusted Hazard Ratio|0.93||||0.353|TWO_SIDED|95.0|0.79|1.09|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.09|0.79|0.353
82437245|NCT03817463|164583749|OTHER||Adjusted Hazard Ratio|0.9||||0.197|TWO_SIDED|95.0|0.78|1.05|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.05|0.78|0.197
82437246|NCT03817463|164583750|OTHER||Adjusted Hazard Ratio|0.43|||<|0.005|TWO_SIDED|95.0|0.3|0.63|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.63|0.30|<0.005
82437247|NCT03817463|164583750|OTHER||Adjusted Hazard Ratio|0.27|||<|0.005|TWO_SIDED|95.0|0.16|0.44|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.44|0.16|<0.005
82437248|NCT03817463|164583751|OTHER||Adjusted Hazard Ratio|1.05||||0.535|TWO_SIDED|95.0|0.89|1.25|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.25|0.89|0.535
82437249|NCT03817463|164583751|OTHER||Adjusted Hazard Ratio|0.98||||0.85|TWO_SIDED|95.0|0.84|1.15|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.15|0.84|0.850
82437250|NCT03817463|164583752|OTHER||Adjusted Hazard Ratio|1.03||||0.828|TWO_SIDED|95.0|0.81|1.31|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.31|0.81|0.828
82437251|NCT03817463|164583752|OTHER||Adjusted Hazard Ratio|1.01||||0.944|TWO_SIDED|95.0|0.72|1.42|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.42|0.72|0.944
82437252|NCT03817463|164583753|OTHER||Adjusted Hazard Ratio|0.94||||0.642|TWO_SIDED|95.0|0.73|1.22|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.22|0.73|0.642
82437253|NCT03817463|164583753|OTHER||Adjusted Hazard Ratio|0.89||||0.417|TWO_SIDED|95.0|0.66|1.19|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||||1.19|0.66|0.417
82437254|NCT03817463|164583754|OTHER||Adjusted Hazard Ratio|0.89||||0.091|TWO_SIDED|95.0|0.77|1.02|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.02|0.77|0.091
82437255|NCT03817463|164583755|OTHER||Adjusted Hazard Ratio|1.97|||<|0.005|TWO_SIDED|95.0|1.28|3.03|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||3.03|1.28|<0.005
82437256|NCT03817463|164583756|OTHER||Adjusted Hazard Ratio|0.95||||0.654|TWO_SIDED|95.0|0.75|1.2|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.20|0.75|0.654
82437257|NCT03817463|164583757|OTHER||Adjusted Hazard Ratio|0.78||||0.233|TWO_SIDED|95.0|0.52|1.17|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||1.17|0.52|0.233
82437258|NCT03817463|164583758|OTHER||Adjusted Hazard Ratio|0.56|||<|0.005|TWO_SIDED|95.0|0.38|0.82|||Cox proportional hazard model|Cox proportional hazard model adjusted for unbalanced propensity score (PS)-variables at baseline.||Hazards ratios reported include data from all countries with non-missing values.||0.82|0.38|<0.005
82437259|NCT03817463|164583759|OTHER||Rate Ratio|0.74|||||TWO_SIDED|95.0|0.69|0.8|||||Poisson regression model was used.|Emergency room visits - Finland||0.80|0.69|
82437260|NCT03817463|164583759|OTHER||Rate Ratio|0.9|||||TWO_SIDED|95.0|0.59|1.38|||||Poisson regression model was used.|Emergency room visits - Japan||1.38|0.59|
82437261|NCT03817463|164583759|OTHER||Rate Ratio|0.91|||||TWO_SIDED|95.0|0.82|1.0|||||Poisson regression model was used.|Emergency room visits - South Korea||1.00|0.82|
82437262|NCT03817463|164583759|OTHER||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.59|0.87|||||Poisson regression model was used.|Emergency room visit - Spain||0.87|0.59|
82540532|NCT03105128|164780446|SUPERIORITY||Adjusted Risk Difference|9.1||||0.001|TWO_SIDED|95.0|3.7|14.5|||Cochran-Mantel-Haenszel|||||14.5|3.7|0.001
82540533|NCT03105128|164780447|SUPERIORITY||Adjusted Risk Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|12.2|<0.001
82540534|NCT03105128|164780447|SUPERIORITY||Adjusted Risk Difference|21.6|||<|0.001|TWO_SIDED|95.0|12.8|30.4|||Cochran-Mantel-Haenszel|||||30.4|12.8|<0.001
82649337|NCT02273206|165014060|SUPERIORITY|||||||0.17|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at baseline.||||0.17
82437263|NCT03817463|164583759|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.87|1.01|||||Poisson regression model was used.|Emergency room visit - Sweden||1.01|0.87|
82437264|NCT03817463|164583759|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.8|0.93|||||Poisson regression model was used.|Emergency room visit - Taiwan||0.93|0.80|
82437265|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.75|0.85|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Finland||0.85|0.75|
82437266|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.84|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Japan||0.84|0.68|
82437267|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.69|0.82|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - South Korea||0.82|0.69|
82437268|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.78|0.94|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Norway||0.94|0.78|
82437269|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.66|0.89|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Spain||0.89|0.66|
82437270|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.81|0.93|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Sweden||0.93|0.81|
82437271|NCT03817463|164583759|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.74|0.86|||||HR and confidence interval were estimated using a cox proportional hazard model, comparing treatment groups and adjusting for unbalanced propensity score (PS)-variables.|First impatient stay - Taiwan||0.86|0.74|
82437272|NCT03817463|164583759|OTHER||Rate Ratio|0.68|||||TWO_SIDED|95.0|0.64|0.71|||||Poisson regression model was used.|All-cause hospital admissions||0.71|0.64|
82437273|NCT03817463|164583759|OTHER||Rate Ratio|0.69|||||TWO_SIDED|95.0|0.63|0.76|||||Poisson regression model was used.|For all-cause hospital admissions - Japan||0.76|0.63|
82437274|NCT03817463|164583759|OTHER||Rate Ratio|0.7|||||TWO_SIDED|95.0|0.66|0.75|||||Poisson regression model was used.|All-cause hospital admissions - South Korea||0.75|0.66|
82437275|NCT03817463|164583759|OTHER||Rate Ratio|0.81|||||TWO_SIDED|95.0|0.77|0.85|||||Poisson regression model was used.|All-cause hospital admissions - Norway||0.85|0.77|
82437276|NCT03817463|164583759|OTHER||Rate Ratio|0.68|||||TWO_SIDED|95.0|0.6|0.77|||||Poisson regression model was used.|All-cause hospital admissions - Spain||0.77|0.60|
82437277|NCT03817463|164583759|OTHER||Rate Ratio|0.85|||||TWO_SIDED|95.0|0.8|0.89|||||Poisson regression model was used.|All-cause hospital admissions - Sweden||0.89|0.80|
82437278|NCT03817463|164583759|OTHER||Rate Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.87||||||All-cause hospital admissions - Taiwan||0.87|0.72|
82437279|NCT03817463|164583759|OTHER||Rate Ratio|0.78|||||TWO_SIDED|95.0|0.77|0.79|||||Poisson regression model was used.|Outpatient healthcare visits - Finland||0.79|0.77|
82437280|NCT03817463|164583759|OTHER||Rate Ratio|0.95|||||TWO_SIDED|95.0|0.94|0.97|||||Poisson regression model was used.|Outpatient healthcare visits - Japan||0.97|0.94|
82437281|NCT03817463|164583759|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.96|0.97|||||Poisson regression model was used.|Outpatient healthcare visits - South Korea||0.97|0.96|
82437282|NCT03817463|164583759|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.94|0.97||||||Outpatient healthcare visits - Norway||0.97|0.94|
82437283|NCT03817463|164583759|OTHER||Rate Ratio|0.88|||||TWO_SIDED|95.0|0.85|0.91|||||Poisson regression model was used.|Outpatient healthcare visit - Spain||0.91|0.85|
82437284|NCT03817463|164583759|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.94|0.98|||||Poisson regression model was used.|Outpatient healthcare visits - Sweden||0.98|0.94|
82437285|NCT03817463|164583759|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.94|1.0|||||Poisson regression model was used.|Outpatient healthcare visits - Taiwan||1.00|0.94|
82437286|NCT03817463|164583760|OTHER||Rate Ratio|0.91|||||TWO_SIDED|95.0|0.89|0.94|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - Japan||0.94|0.89|
82437287|NCT03817463|164583760|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.81|0.93|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - South Korea||0.93|0.81|
82540535|NCT03105128|164780448|SUPERIORITY||Adjusted Risk Difference|14.6||||0.022|TWO_SIDED|95.0|2.1|27.0|||Cochran-Mantel-Haenszel|||||27.0|2.1|0.022
82540536|NCT03105128|164780448|SUPERIORITY||Adjusted Risk Difference|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.3|||Cochran-Mantel-Haenszel|||||36.3|11.1|<0.001
82540537|NCT03105128|164780449|SUPERIORITY||Risk Difference (RD)|-8.7|||<|0.001|TWO_SIDED|95.0|-13.9|-3.5|||Chi-squared|||||-3.5|-13.9|<0.001
82540538|NCT03105128|164780449|SUPERIORITY||Risk Difference (RD)|-10.2|||<|0.001|TWO_SIDED|95.0|-15.2|-5.2|||Chi-squared|||||-5.2|-15.2|<0.001
82540539|NCT03105128|164780450|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-28.6|39.7|||Chi-squared|||||39.7|-28.6|1.00
82540540|NCT03105128|164780450|SUPERIORITY||Risk Difference (RD)|6.9||||1|TWO_SIDED|25.0|-25.7|39.6|||Chi-squared|||||39.6|-25.7|1.000
82540541|NCT03105128|164780451|SUPERIORITY||Adjusted Risk Difference|20.7|||<|0.001|TWO_SIDED|95.0|12.4|29.0|||Cochran-Mantel-Haenszel|||||29.0|12.4|<0.001
82540542|NCT03105128|164780451|SUPERIORITY||Adjusted Risk Difference|16.7|||<|0.001|TWO_SIDED|95.0|8.5|24.9|||Cochran-Mantel-Haenszel|||||24.9|8.5|<0.001
82649338|NCT02273206|165014060|SUPERIORITY|||||||0.38|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at 6 months.||||0.38
82649339|NCT02273206|165014060|SUPERIORITY|||||||0.07|||||||Chi-squared|||Physician Recommendation of Colorectal Cancer Screening at 12 months.||||0.07
82540543|NCT03105128|164780452|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|7.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|7.2|<0.001
82437288|NCT03817463|164583760|OTHER||Rate Ratio|1.09|||||TWO_SIDED|95.0|1.08|1.11|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different antidiabetic drugs - Taiwan||1.11|1.08|
82437289|NCT03817463|164583760|OTHER||Rate Ratio|1.11|||||TWO_SIDED|95.0|1.1|1.12|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Finland||1.12|1.10|
82437290|NCT03817463|164583760|OTHER||Rate Ratio|0.82|||||TWO_SIDED|95.0|0.81|0.83|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Japan||0.83|0.81|
82437291|NCT03817463|164583760|OTHER||Rate Ratio|0.99|||||TWO_SIDED|95.0|0.99|1.0|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - South Korea||1.00|0.99|
82437292|NCT03817463|164583760|OTHER||Rate Ratio|1.12|||||TWO_SIDED|95.0|1.11|1.14|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Norway||1.14|1.11|
82437293|NCT03817463|164583760|OTHER||Rate Ratio|1.26|||||TWO_SIDED|95.0|1.25|1.27|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Sweden||1.27|1.25|
82437294|NCT03817463|164583760|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.02|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on different drugs - Taiwan||1.02|0.98|
82437295|NCT03817463|164583760|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|1.01|1.02|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Finland||1.02|1.01|
82437296|NCT03817463|164583760|OTHER||Rate Ratio|0.83|||||TWO_SIDED|95.0|0.82|0.84|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Japan||0.84|0.82|
82437297|NCT03817463|164583760|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - South Korea||1.01|0.99|
82437298|NCT03817463|164583760|OTHER||Rate Ratio|0.93|||||TWO_SIDED|95.0|0.92|0.93|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Norway||0.93|0.92|
82437299|NCT03817463|164583760|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.84|0.87|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Spain||0.87|0.84|
82437300|NCT03817463|164583760|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|1.0|1.0|||||Poisson regression model was used.|Pharmacy dispensations/prescriptions based on prescriptions - Sweden||1.00|1.00|
82437301|NCT03817463|164583761|OTHER||Rate Ratio|0.89|||||TWO_SIDED|95.0|0.83|0.94|||||Poisson regression model was used.|Total cost - Finland||0.94|0.83|
82437302|NCT03817463|164583761|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.86|1.12|||||Poisson regression model was used.|Total costs - Norway||1.12|0.86|
82437303|NCT03817463|164583761|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.92|1.05|||||Poisson regression model was used.|Total costs - Sweden||1.05|0.92|
82437304|NCT03817463|164583762|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.8|0.88|||||Poisson regression model was used.|||0.88|0.80|
82437305|NCT03817463|164583763|OTHER||Rate Ratio|0.76|||||TWO_SIDED|95.0|0.34|1.68|||||Poisson regression model was used.|Total costs - South Korea||1.68|0.34|
82437306|NCT03817463|164583764|OTHER||Rate Ratio|0.97|||||TWO_SIDED|95.0|0.92|1.03|||||Poisson regression model was used.|Total costs - Taiwan||1.03|0.92|
82437307|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean difference|26.28|||<|0.001|TWO_SIDED|95.0|20.33|32.22|||ANOVA|||Treatment difference and 95 percent (%) Confidence interval (CI) were based on Least square mean (LSM) from analysis of variance (ANOVA) with treatment, baseline categorical pain severity rating (PSR), gender and treatment-by-baseline categorical PSR terms used as covariates.||32.22|20.33|<0.001
82437308|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|24.37|||<|0.001|TWO_SIDED|95.0|18.44|30.29|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||30.29|18.44|<0.001
82437309|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.48|||<|0.001|TWO_SIDED|95.0|21.53|33.42|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||33.42|21.53|<0.001
82437310|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|24.85|||<|0.001|TWO_SIDED|95.0|18.93|30.78|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||30.78|18.93|<0.001
82437311|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.42||||0.501|TWO_SIDED|95.0|-2.73|5.58|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.58|-2.73|0.501
82437312|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.49||||0.817|TWO_SIDED|95.0|-4.61|3.64|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.64|-4.61|0.817
82437313|NCT01559259|164583766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.62||||0.216|TWO_SIDED|95.0|-1.53|6.78|||ANOVA|||Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.78|-1.53|0.216
82437314|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|12.69|||<|0.001|TWO_SIDED|95.0|5.52|29.19|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||29.19|5.52|<0.001
82540544|NCT03105128|164780452|SUPERIORITY||Adjusted Risk Difference|11.2||||0.007|TWO_SIDED|95.0|3.1|19.2|||Cochran-Mantel-Haenszel|||||19.2|3.1|0.007
82540545|NCT03105128|164780453|SUPERIORITY||Adjusted Risk Difference|11.5|||<|0.001|TWO_SIDED|95.0|5.4|17.5|||Cochran-Mantel-Haenszel|||||17.5|5.4|<0.001
82540546|NCT03105128|164780453|SUPERIORITY||Adjusted Risk Difference|11.7|||<|0.001|TWO_SIDED|95.0|5.7|17.8|||Cochran-Mantel-Haenszel|||||17.8|5.7|<0.001
82540547|NCT03105128|164780454|SUPERIORITY||Adjusted Risk Difference|23.1|||<|0.001|TWO_SIDED|95.0|14.2|31.9|||Cochran-Mantel-Haenszel|||||31.9|14.2|<0.001
82540548|NCT03105128|164780454|SUPERIORITY||Adjusted Risk Difference|27.7|||<|0.001|TWO_SIDED|95.0|19.0|36.4|||Cochran-Mantel-Haenszel|||||36.4|19.0|<0.001
82455238|NCT03726489|164614314|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|6.52||||0.002|TWO_SIDED|95.0|-7.11|20.14||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Overall analysis including all skin phototypes||20.14|-7.11|0.002
82455239|NCT03726489|164614314|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|7.77||||0.0137|TWO_SIDED|95.0|-10.35|25.89||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes I/II||25.89|-10.35|0.0137
82455240|NCT03726489|164614314|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|1.0||||0.1656|TWO_SIDED|95.0|-21.61|23.61||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes III/IV||23.61|-21.61|0.1656
82455241|NCT03726489|164614314|NON_INFERIORITY|Statistical inference was based on non-inferiority principles using a non-inferiority margin of 15%.|Risk Difference (RD)|22.73||||0.1225|TWO_SIDED|95.0|-25.16|70.62||P-value was not adjusted for multiple comparisons.|Marginal standardization|Test statistic is based on risk difference and standard error calculated using marginal standardization from adjusted logistic regression estimates||Analysis for Phototypes V/VI||70.62|-25.16|0.1225
82455242|NCT03726489|164614315|SUPERIORITY||Risk Difference (RD)|0.105||||0.0183|TWO_SIDED|95.0|0.018|0.192|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 16. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.192|0.018|0.0183
82455243|NCT03726489|164614315|SUPERIORITY||Risk Difference (RD)|0.064||||0.177|TWO_SIDED|95.0|-0.029|0.158|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 20. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.158|-0.029|0.177
82437315|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|10.02|||<|0.001|TWO_SIDED|95.0|4.36|23.02|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||23.02|4.36|<0.001
82437316|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|11.66|||<|0.001|TWO_SIDED|95.0|5.07|26.83|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||26.83|5.07|<0.001
82437317|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.6|||<|0.001|TWO_SIDED|95.0|3.74|19.77|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||19.77|3.74|<0.001
82437318|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.48||||0.014|TWO_SIDED|95.0|1.08|2.02|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||2.02|1.08|0.014
82437319|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.332|TWO_SIDED|95.0|0.86|1.59|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||1.59|0.86|0.332
82437320|NCT01559259|164583767|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.36||||0.056|TWO_SIDED|95.0|0.99|1.85|||Proportional hazards model|||Hazard ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model with treatment, baseline categorical PSR and gender terms used as covariates.||1.85|0.99|0.056
82437321|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|12.1|||<|0.001|TWO_SIDED|95.0|5.24|27.91|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||27.91|5.24|<0.001
82437322|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.88|||<|0.001|TWO_SIDED|95.0|3.86|20.44|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||20.44|3.86|<0.001
82437323|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|11.47|||<|0.001|TWO_SIDED|95.0|4.98|26.42|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||26.42|4.98|<0.001
82437324|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|8.11|||<|0.001|TWO_SIDED|95.0|3.52|18.68|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||18.68|3.52|<0.001
82437325|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.49||||0.012|TWO_SIDED|95.0|1.09|2.04|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||2.04|1.09|0.012
82437326|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.09||||0.57|TWO_SIDED|95.0|0.8|1.49|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||1.49|0.80|0.570
82437327|NCT01559259|164583768|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.41||||0.03|TWO_SIDED|95.0|1.03|1.93|||Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical PSR and gender terms used as covariates.||1.93|1.03|0.030
82437328|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.014|TWO_SIDED|95.0|0.08|0.71|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.71|0.08|0.014
82455244|NCT03726489|164614315|SUPERIORITY||Risk Difference (RD)|-0.011||||0.815|TWO_SIDED|95.0|-0.101|0.079|||Marginal contrast||Positive values indicate higher proportion in the home group.|Difference of proportion at week 24. Calculated using contrasts of predictive margins following logistic regression with robust variance estimators via generalized estimating equations and exchangeable correlation. Missing data for DLQI are imputed using multiple imputation via chained equations (10 imputations), and the estimates are combined using standard rules.||0.079|-0.101|0.815
82455245|NCT00991939|164614342|SUPERIORITY_OR_OTHER||Difference of proportions|0.0|STANDARD_ERROR_OF_MEAN|0.58||1|TWO_SIDED|95.0|-0.975|0.708|||Fisher Exact||The estimated value is the proportion of success in the high dose pulse dexamethasone group minus the proportion of success in the standard prednisone group.|Four subjects were not included in this analysis because not enough data was available to assess the primary outcome at the time the study was terminated.||0.708|-0.975|1.00
82455246|NCT01450761|164614375|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.3775|TWO_SIDED|95.0|0.807|1.085|||Log Rank||HR = ipilimumab over placebo|||1.085|0.807|0.3775
82455247|NCT01450761|164614376|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.961||||0.5678|TWO_SIDED|95.0|0.838|1.102|||Log Rank||HR = ipilimumab over placebo|||1.102|0.838|0.5678
82437329|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.038|TWO_SIDED|95.0|0.02|0.64|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.64|0.02|0.038
82437330|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.48||||0.003|TWO_SIDED|95.0|0.17|0.79|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.17|0.003
82437331|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.155|TWO_SIDED|95.0|-0.09|0.54|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.09|0.155
82437332|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.135|TWO_SIDED|95.0|-0.05|0.39|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.05|0.135
82437333|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.35|TWO_SIDED|95.0|-0.11|0.32|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-0.11|0.350
82437334|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.024|TWO_SIDED|95.0|0.03|0.47|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|0.03|0.024
82437335|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.33|||<|0.001|TWO_SIDED|95.0|0.9|1.77|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.77|0.90|<0.001
82455248|NCT01450761|164614377|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.851||||0.0161|TWO_SIDED|95.0|0.747|0.971|||Log Rank||HR = ipilimumab over placebo|||0.971|0.747|0.0161
82455249|NCT00123123|164614389|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675||95.0|||||ANOVA|||A mixed effect model was used to compare overall treatment effects between groups for repeated measures data. The group comparison for each time point was performed using ANOVA.||||0.6750
82455250|NCT03801174|164614397|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.92||0.804|TWO_SIDED|95.0|-2.0|1.6|||Mixed Models Analysis|||||1.6|-2.0|.804
82455251|NCT03801174|164614398|SUPERIORITY||Mean Difference (Net)|50.2|STANDARD_ERROR_OF_MEAN|93.0||0.59|TWO_SIDED|95.0|-132.0|233.0|||Mixed Models Analysis|||||233|-132|.590
82455252|NCT03801174|164614399|SUPERIORITY||Mean Difference (Net)|806.0|STANDARD_ERROR_OF_MEAN|443.0||0.069|TWO_SIDED|95.0|-64.0|1675.0|||Mixed Models Analysis|||||1675|-64|.069
82455253|NCT00855816|164614410|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|||||A priori threshold for significance: p\<.05.|Mixed Models Analysis|Mixed model based on intent to treat sample.||Null hypothesis: there will be no differences in PTSD hyperarousal symptom changes in individuals who did receive the experimental intervention vs. those who did not .||||.27
82455254|NCT03393494|164614411|EQUIVALENCE|provides 85% power of success|Equivalence ratio|107.0|||||TWO_SIDED|90.0|97.8|112.2|||Fieller's method|||||112.2|97.8|
82455255|NCT03393494|164614412|EQUIVALENCE|provides 85% power of success|Equivalence ratio|104.0||||0.05|TWO_SIDED|90.0|94.1|108.5|||Fieller's method|||||108.5|94.1|0.05
82437336|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.26|||<|0.001|TWO_SIDED|95.0|0.83|1.7|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|0.83|<0.001
82455256|NCT01521507|164614413|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Stage 1 primary and secondary outcomes were tested in order under a closed form testing method. Secondary outcome was tested only if primary outcome was statistically significant. If both outcomes were significant, overall study alpha was 0.025.|z-statistic|p-value was based on z-statistic of the sum of weighted average of difference in scores between groups at each site divided by the sum of the weights.||The null and alternative hypotheses are H0: µt ≤ µc vs. Ha: µt \> µc, where µt and µc are the mean changes in total meibomian gland scores from Baseline to 3 Months for the LipiFlow (test) and Warm Compress and Lid Hygiene (active control) groups, respectively. For the Stage 1 Primary Outcome, the minimum sample size was 24 subjects per group with a power of 90% and a one-sided alpha of 0.025.||||<0.0001
82437337|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35||||0.001|TWO_SIDED|95.0|0.91|1.78|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|0.91|0.001
82437338|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.87|||<|0.001|TWO_SIDED|95.0|0.43|1.3|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|0.43|<0.001
82437339|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.003|TWO_SIDED|95.0|0.16|0.77|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.77|0.16|0.003
82437340|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.4||||0.01|TWO_SIDED|95.0|0.1|0.7|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.70|0.10|0.010
82437341|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.48||||0.002|TWO_SIDED|95.0|0.18|0.79|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.18|0.002
82455257|NCT01521507|164614413|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Mixed Models Analysis|||Supportive multivariate mixed model was also performed for this outcome controlling for significant demographic and baseline characteristics.||||0.0020
82455258|NCT01521507|164614414|SUPERIORITY_OR_OTHER|||||||0.9098|TWO_SIDED||||||Mixed Models Analysis|Stage 2 Primary Outcome was analyzed with a multivariate mixed model with the subgroup as a fixed effect while controlling for other covariates.||The null and alternative hypotheses for the Stage 2 Primary Outcome was: H0: µi= µj for all i and j where i≠j versus Ha: µi ≠ µj for at least one i and j, where µi is the mean total meibomian gland score at 12 Months for the ith subgroup. The null hypothesis was tested with a two-sided test at alpha=0.05. Since Stage 2 was an observational design, no minimum sample size was calculated for Stage 2.||||0.9098
82437342|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.12|||<|0.001|TWO_SIDED|95.0|1.66|2.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.66|<0.001
82437343|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.96|||<|0.001|TWO_SIDED|95.0|1.5|2.42|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.42|1.50|<0.001
82455259|NCT01521507|164614415|SUPERIORITY_OR_OTHER|||||||0.0068|TWO_SIDED|||||Stage 1 primary and secondary outcomes were tested in order under a closed form testing method. Secondary outcome was tested only if primary outcome was statistically significant. If both outcomes were significant, overall study alpha was 0.025.|t-test, 2 sided|||The null and alternative hypotheses are H0: µt ≤ µc vs. Ha: µt \> µc, where µt and µc are the mean changes in total OSDI scores from Baseline to 3 Months for the LipiFlow (test) and Warm Compress and Lid Hygiene (active control) groups, respectively. For the Stage 1 Secondary Outcome, the minimum sample size was 84 per group with a power of 80% and a one-sided alpha of 0.025.||||0.0068
82437344|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.14|||<|0.001|TWO_SIDED|95.0|1.67|2.6|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.60|1.67|<0.001
82437345|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.74|||<|0.001|TWO_SIDED|95.0|1.28|2.2|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.20|1.28|<0.001
82437346|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.022|TWO_SIDED|95.0|0.05|0.7|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.70|0.05|0.022
82437347|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.181|TWO_SIDED|95.0|-0.1|0.54|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.10|0.181
82455260|NCT01521507|164614415|SUPERIORITY_OR_OTHER|||||||0.0419|TWO_SIDED||||||Mixed Models Analysis|||Supportive multivariate mixed model was also performed for this outcome controlling for significant demographic and baseline characteristics.||||0.0419
82540549|NCT03105128|164780455|SUPERIORITY||LS Mean Difference|5.2|||<|0.001|TWO_SIDED|95.0|3.2|7.2|||Mixed-Effect Model Repeat Measurement|||||7.2|3.2|<0.001
82437348|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.4||||0.016|TWO_SIDED|95.0|0.07|0.72|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|0.07|0.016
82540550|NCT03105128|164780455|SUPERIORITY||LS Mean Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.1|6.1|||Mixed-Effect Model Repeat Measurement|||||6.1|2.1|<0.001
82540551|NCT03105128|164780456|SUPERIORITY||LS Mean Difference|20.7|||<|0.001|TWO_SIDED|95.0|14.3|27.1|||Mixed-Effect Model Repeat Measurement|||||27.1|14.3|<0.001
82437349|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.43|||<|0.001|TWO_SIDED|95.0|1.98|2.88|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.88|1.98|<0.001
82437350|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.72|2.62|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.62|1.72|<0.001
82540552|NCT03105128|164780456|SUPERIORITY||LS Mean Difference|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8|||Mixed-Effect Model Repeat Measurement|||||25.8|13.1|<0.001
82540553|NCT03105128|164780457|SUPERIORITY||Adjusted Risk Difference|23.2|||<|0.001|TWO_SIDED|95.0|16.8|29.6|||Cochran-Mantel-Haenszel|||||29.6|16.8|<0.001
82455261|NCT01521507|164614416|SUPERIORITY_OR_OTHER|||||||0.0237|TWO_SIDED|||||Stage 2 Secondary Outcome was analyzed with a multivariate mixed model with the subgroup as a fixed effect while controlling for other covariates.|Mixed Models Analysis|||The null and alternative hypotheses for the Stage 2 Secondary Outcome was: H0: µi= µj for all i and j where i≠j versus Ha: µi ≠ µj for at least one i and j, where µi is the mean total OSDI score at 12 Months for the ith subgroup. The null hypothesis was tested with a two-sided test at alpha=0.05. Since Stage 2 was an observational design, no minimum sample size was calculated for Stage 2.||||0.0237
82455262|NCT03573323|164614417|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455263|NCT03573323|164614418|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455264|NCT03573323|164614419|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455265|NCT03573323|164614420|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455266|NCT03573323|164614421|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455267|NCT03573323|164614422|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82437351|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.46|||<|0.001|TWO_SIDED|95.0|2.01|2.91|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.91|2.01|<0.001
82437352|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.13|||<|0.001|TWO_SIDED|95.0|1.68|2.58|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.68|<0.001
82455268|NCT03573323|164614423|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455269|NCT03573323|164614424|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82455270|NCT03573323|164614425|SUPERIORITY|||||||0.414|||||||Cochran-Mantel-Haenszel|||||||0.414
82455271|NCT01695135|164614432|SUPERIORITY||Hazard Ratio (HR)|0.528||||0.0002|TWO_SIDED|95.0|0.376|0.74|||Log Rank|||||0.740|0.376|0.0002
82455272|NCT02714569|164614449|NON_INFERIORITY|Analyses were based on a pre-defined non-inferiority margin|Least Square Means Percentage|204.8|||||TWO_SIDED|90.0|161.9|259.0|||||Analysis was the estimate of the ratio fasted versus fed.|Geometric Mean Fed/Fasted Ratio of LY3202328 Cmax at 30 mg||259.0|161.9|
82455273|NCT02714569|164614451|NON_INFERIORITY|Analyses were based on a pre-defined non-inferiority margin|Least Squares Mean Percentage|193.3|||||TWO_SIDED|90.0|144.7|258.2||||||Geometric Mean Fed/Fasted Ratio of LY3202328 AUC(0-inf) at 30 mg||258.2|144.7|
82455274|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|141.0|||||TWO_SIDED|90.0|67.9|293.0||||||Part B Placebo||293.0|67.9|
82649340|NCT02273206|165014060|SUPERIORITY|||||||0.99|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at baseline.||||0.99
82455275|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|70.8|||||TWO_SIDED|90.0|31.9|157.1||||||Part B 5 mg LY||157.1|31.9|
82455276|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|109.2|||||TWO_SIDED|90.0|99.8|119.5||||||Part B 20 mg LY||119.5|99.8|
82455277|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|107.7|||||TWO_SIDED|90.0|68.1|170.4||||||Part B 100 mg LY||170.4|68.1|
82455278|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|213.3|||||TWO_SIDED|90.0|200.3|227.1||||||Part B 300 mg LY||227.1|200.3|
82455279|NCT02714569|164614463|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|115.4|||||TWO_SIDED|90.0|91.2|146.2||||||Part B Overall||146.2|91.2|
82455280|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|155.0|||||TWO_SIDED|90.0|87.6|274.2||||||Part B Placebo||274.2|87.6|
82455281|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|71.5|||||TWO_SIDED|90.0|40.7|125.3||||||Part B 5 mg LY||125.3|40.7|
82455282|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratios (%)|122.4|||||TWO_SIDED|90.0|90.7|165.1||||||Part B 20 mg LY||165.1|90.7|
82455283|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|136.6|||||TWO_SIDED|90.0|89.8|207.7||||||Part B 100 mg LY||207.7|89.8|
82455284|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|132.6|||||TWO_SIDED|90.0|90.5|194.4||||||Part B 300 mg LY||194.4|90.5|
82455285|NCT02714569|164614464|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|112.2|||||TWO_SIDED|90.0|93.2|135.1||||||Part B Overall||135.1|93.2|
82437353|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.3||||0.065|TWO_SIDED|95.0|-0.02|0.61|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.61|-0.02|0.065
82455286|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|97.3|||||TWO_SIDED|90.0|80.4|117.8||||||Part B Placebo||117.8|80.4|
82455287|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|57.5|||||TWO_SIDED|90.0|31.3|106.0||||||||106.0|31.3|
82455288|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|96.2|||||TWO_SIDED|90.0|66.8|138.7||||||Part B 20 mg LY||138.7|66.8|
82455289|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|80.9|||||TWO_SIDED|90.0|45.8|142.7||||||Part B 100 mg LY||142.7|45.8|
82455290|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|108.2|||||TWO_SIDED|90.0|40.2|291.2||||||Part B 300 mg LY||291.2|40.2|
82455291|NCT02714569|164614465|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|87.9|||||TWO_SIDED|90.0|67.4|114.7||||||Part B Overall||114.7|67.4|
82455292|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|96.0|||||TWO_SIDED|90.0|90.2|102.1||||||Part B Placebo||102.1|90.2|
82649341|NCT02273206|165014060|SUPERIORITY|||||||0.15|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at 6 months.||||0.15
82649342|NCT02273206|165014060|SUPERIORITY|||||||0.55|||||||Chi-squared|||Physician Recommendation of Breast Cancer Screening at 12 months.||||0.55
82437354|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.817|TWO_SIDED|95.0|-0.28|0.35|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.28|0.817
82437355|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.043|TWO_SIDED|95.0|0.01|0.64|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.64|0.01|0.043
82437356|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.53|||<|0.001|TWO_SIDED|95.0|2.06|3.01|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.01|2.06|<0.001
82437357|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.34|||<|0.001|TWO_SIDED|95.0|1.87|2.82|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.82|1.87|<0.001
82437358|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.63|||<|0.001|TWO_SIDED|95.0|2.15|3.11|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.11|2.15|<0.001
82540554|NCT03105128|164780457|SUPERIORITY||Adjusted Risk Difference|15.2|||<|0.001|TWO_SIDED|95.0|9.3|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.3|<0.001
82577907|NCT00461981|164865034|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-37.0||||||95.0|-57.8|-17.5||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||-17.5|-57.8|
82577908|NCT00461981|164865035|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-8.3||||||95.0|-38.5|14.5||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||14.5|-38.5|
82649343|NCT02273206|165014060|SUPERIORITY|||||||0.34|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at baseline.||||0.34
82437359|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.36|||<|0.001|TWO_SIDED|95.0|1.89|2.84|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.84|1.89|<0.001
82437360|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.312|TWO_SIDED|95.0|-0.16|0.51|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.51|-0.16|0.312
82455293|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|90.7|||||TWO_SIDED|90.0|59.8|137.6||||||Part B 5 mg LY||137.6|59.8|
82455294|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|99.9|||||TWO_SIDED|90.0|75.9|131.5||||||Part B 20 mg LY||131.5|75.9|
82649344|NCT02273206|165014060|SUPERIORITY|||||||0.31|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at 6 months. .||||0.31
82649345|NCT02273206|165014060|SUPERIORITY|||||||0.39|||||||Chi-squared|||Physician Recommendation of Cervical Cancer Screening at 12 months.||||0.39
82437361|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.02||||0.91|TWO_SIDED|95.0|-0.35|0.31|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.35|0.910
82455295|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis testing|Geometric Least Square Means Ratio (%)|91.0|||||TWO_SIDED|90.0|67.5|122.7||||||Part B 100 mg LY||122.7|67.5|
82437362|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.113|TWO_SIDED|95.0|-0.06|0.6|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.60|-0.06|0.113
82455296|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis testing|Geometric Least Squares Mean Ratio (%)|87.0|||||TWO_SIDED|90.0|42.0|180.5||||||Part B 300 mg LY||180.5|42.0|
82455297|NCT02714569|164614466|OTHER|Ratio estimate without hypothesis|Geometric Least Squares Mean Ratio (%)|93.5|||||TWO_SIDED|90.0|81.8|106.9||||||Part B Overall||106.9|81.8|
82540555|NCT03105128|164780458|SUPERIORITY||Adjusted Risk Difference|15.1|||<|0.001|TWO_SIDED|95.0|9.0|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.0|<0.001
82540556|NCT03105128|164780458|SUPERIORITY||Adjusted Risk Difference|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.4|<0.001
82540557|NCT03105128|164780459|SUPERIORITY||Adjusted Risk Difference|14.9||||0.001|TWO_SIDED|95.0|6.2|23.5|||Cochran-Mantel-Haenszel|||||23.5|6.2|0.001
82649346|NCT02273206|165014060|SUPERIORITY|||||||0.87|||||||Chi-squared|||Physician Recommendation of Mental Health Care at baseline.||||0.87
82649347|NCT02273206|165014060|SUPERIORITY|||||||0.83|||||||Chi-squared|||Physician Recommendation of Mental Health Care at 6 months.||||0.83
82649348|NCT02273206|165014060|SUPERIORITY|||||||0.36|||||||Chi-squared|||Physician Recommendation of Mental Health Care at 12 months.||||0.36
82649349|NCT02273206|165014061|SUPERIORITY|||||||0.95|||||||Chi-squared|||Generalized Anxiety Disorder scale at baseline. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.95
82649350|NCT02273206|165014061|SUPERIORITY|||||||0.08|||||||Chi-squared|||Generalized Anxiety Disorder scale score at 6 months. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.08
82649351|NCT02273206|165014061|SUPERIORITY|||||||0.27|||||||Chi-squared|||Generalized Anxiety Disorder scale score at 12 months. Coding of the measure was based on Spitzer, R.L., Kroenke, K., Williams, J.B., \& Lowe, B. (2006).||||0.27
82455298|NCT00550953|164614483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.02|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|6.41|9.63|||ANCOVA||Difference calculated as telmisartan 40 mg plus amlodipine 5 mg fixed-dose combination minus telmisartan 40 mg monotherapy|||9.63|6.41|<0.0001
82455299|NCT00666406|164614520|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.173|||||TWO_SIDED|90.0|1.089|1.262||||||||1.262|1.089|
82455300|NCT00666406|164614521|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.139|||||TWO_SIDED|90.0|1.043|1.243||||||||1.243|1.043|
82455301|NCT00666406|164614522|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.06|||||TWO_SIDED|90.0|0.866|1.297||||||||1.297|0.866|
82437363|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.48|||<|0.001|TWO_SIDED|95.0|1.98|2.97|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.97|1.98|<0.001
82437364|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.25|||<|0.001|TWO_SIDED|95.0|1.76|2.75|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.75|1.76|<0.001
82437365|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.51|||<|0.001|TWO_SIDED|95.0|2.02|3.01|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.01|2.02|<0.001
82437366|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.35|||<|0.001|TWO_SIDED|95.0|1.86|2.85|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.85|1.86|<0.001
82437367|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.12||||0.482|TWO_SIDED|95.0|-0.22|0.47|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|-0.22|0.482
82437368|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.573|TWO_SIDED|95.0|-0.44|0.24|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.24|-0.44|0.573
82455302|NCT00666406|164614523|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.071|||||TWO_SIDED|90.0|0.972|1.179||||||||1.179|0.972|
82455303|NCT00666406|164614524|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.171|||||TWO_SIDED|90.0|1.099|1.247||||||||1.247|1.099|
82437369|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.368|TWO_SIDED|95.0|-0.19|0.5|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.19|0.368
82437370|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.4|||<|0.001|TWO_SIDED|95.0|1.88|2.91|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.91|1.88|<0.001
82437371|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.66|2.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.68|1.66|<0.001
82437372|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.44|||<|0.001|TWO_SIDED|95.0|1.93|2.96|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.96|1.93|<0.001
82437373|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.23|||<|0.001|TWO_SIDED|95.0|1.72|2.74|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.74|1.72|<0.001
82437374|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.352|TWO_SIDED|95.0|-0.19|0.53|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-0.19|0.352
82437375|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.771|TWO_SIDED|95.0|-0.41|0.3|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.41|0.771
82437376|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.235|TWO_SIDED|95.0|-0.14|0.58|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.58|-0.14|0.235
82437377|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.32|||<|0.001|TWO_SIDED|95.0|1.79|2.86|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.86|1.79|<0.001
82455304|NCT00666406|164614525|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.135|||||TWO_SIDED|90.0|1.092|1.18||||||||1.180|1.092|
82455305|NCT00666406|164614526|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.036|||||TWO_SIDED|90.0|0.857|1.253||||||||1.253|0.857|
82455306|NCT00666406|164614527|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.093|||||TWO_SIDED|90.0|1.007|1.186||||||||1.186|1.007|
82455307|NCT00666406|164614528|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.854|||||TWO_SIDED|90.0|0.798|0.913||||||||0.913|0.798|
82455308|NCT00666406|164614529|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.881|||||TWO_SIDED|90.0|0.847|0.916||||||||0.916|0.847|
82455309|NCT00666406|164614530|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.964|||||TWO_SIDED|90.0|0.799|1.164||||||||1.164|0.799|
82455310|NCT00666406|164614531|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.915|||||TWO_SIDED|90.0|0.841|0.995||||||||0.995|0.841|
82455311|NCT00666406|164614532|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.177|||||TWO_SIDED|90.0|1.104|1.256||||||||1.256|1.104|
82455312|NCT00666406|164614533|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.152|||||TWO_SIDED|90.0|1.039|1.277||||||||1.277|1.039|
82455313|NCT00666406|164614534|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.182|||||TWO_SIDED|90.0|1.029|1.359||||||||1.359|1.029|
82455314|NCT00666406|164614535|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.133|||||TWO_SIDED|90.0|1.01|1.27||||||||1.270|1.010|
82455315|NCT00666406|164614536|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.008|||||TWO_SIDED|90.0|0.969|1.05||||||||1.050|0.969|
82455316|NCT00666406|164614537|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.964|||||TWO_SIDED|90.0|0.843|1.102||||||||1.102|0.843|
82455317|NCT00666406|164614538|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.038|||||TWO_SIDED|90.0|0.926|1.163||||||||1.163|0.926|
82455318|NCT00666406|164614539|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.015|||||TWO_SIDED|90.0|0.901|1.144||||||||1.144|0.901|
82455319|NCT00666406|164614540|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.178|||||TWO_SIDED|90.0|1.106|1.254||||||||1.254|1.106|
82437378|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.05|||<|0.001|TWO_SIDED|95.0|1.52|2.58|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.58|1.52|<0.001
82437379|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.37|||<|0.001|TWO_SIDED|95.0|1.83|2.9|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.90|1.83|<0.001
82455320|NCT00666406|164614541|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.152|||||TWO_SIDED|90.0|1.038|1.279||||||||1.279|1.038|
82437380|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.2|||<|0.001|TWO_SIDED|95.0|1.66|2.73|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.73|1.66|<0.001
82455321|NCT00666406|164614542|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.183|||||TWO_SIDED|90.0|1.027|1.362||||||||1.362|1.027|
82455322|NCT00666406|164614543|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.133|||||TWO_SIDED|90.0|1.012|1.27||||||||1.270|1.012|
82455323|NCT00666406|164614544|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.009|||||TWO_SIDED|90.0|0.964|1.056||||||||1.056|0.964|
82455324|NCT00666406|164614545|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.971|||||TWO_SIDED|90.0|0.849|1.112||||||||1.112|0.849|
82455325|NCT00666406|164614546|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.02|||||TWO_SIDED|90.0|0.938|1.109||||||||1.109|0.938|
82649352|NCT02273206|165014062|SUPERIORITY|||||||0.54|||||||Chi-squared|||Medical Outcomes Study Health Survey at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.54
82437381|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.51|TWO_SIDED|95.0|-0.25|0.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.25|0.510
82437382|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.442|TWO_SIDED|95.0|-0.52|0.23|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.52|0.442
82455326|NCT00666406|164614547|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.996|||||TWO_SIDED|90.0|0.894|1.111||||||||1.111|0.894|
82455327|NCT00666406|164614548|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.0|||||TWO_SIDED|90.0|1.0|1.0||||||||1.000|1.000|
82455328|NCT00666406|164614549|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.303|||||TWO_SIDED|90.0|0.841|2.02||||||||2.020|0.841|
82455329|NCT00666406|164614550|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.724|||||TWO_SIDED|90.0|0.304|1.728||||||||1.728|0.304|
82455330|NCT00666406|164614551|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|1.059|||||TWO_SIDED|90.0|0.442|2.539||||||||2.539|0.442|
82455331|NCT00666406|164614552|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.862|||||TWO_SIDED|90.0|0.807|0.92||||||||0.920|0.807|
82455332|NCT00666406|164614553|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.855|||||TWO_SIDED|90.0|0.73|1.002||||||||1.002|0.730|
82455333|NCT00666406|164614554|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.984|||||TWO_SIDED|90.0|0.788|1.228||||||||1.228|0.788|
82455334|NCT00666406|164614555|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the geometric means|0.911|||||TWO_SIDED|90.0|0.8|1.039||||||||1.039|0.800|
82455335|NCT01219985|164614573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||McNemar|||We performed a McNemar test to compare the sensitivities obtained for each PET image method||||<0.001
82455336|NCT01219985|164614574|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||The null hypothesis was : lesions' SUVmax are equivalent with our without application of the CT-Based respiratory-gated PET method.||||<0.001
82455337|NCT00596752|164614575|SUPERIORITY_OR_OTHER|||||||0.2587||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 is given by p1=0.00587.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H01: πhealingPGE1≤ πhealingPlacebo, with πhealing=proportion of subjects with complete ulcer healing. The planned information rate for stage 1 of the two-stage group sequential test design with an overall one-sided comparison-wise α=0.0125 for this co-primary endpoint is given by 0.83.~This is the statistical analysis of stage 1."||||0.2587
82455338|NCT00596752|164614575|SUPERIORITY_OR_OTHER|||||||0.3463||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 and 2 combined is given by p2=0.01085.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H01: πhealingPGE1≤ πhealingPlacebo, with πhealing=proportion of subjects with complete ulcer healing.~This is the statistical analysis of stage 1 and stage 2 combined."||||0.3463
82649353|NCT02273206|165014062|SUPERIORITY|||||||0.68|||||||Chi-squared|||Medical Outcomes Study Health Survey at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.68
82455339|NCT00596752|164614576|SUPERIORITY_OR_OTHER|||||||0.0173||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 is given by p1=0.00587.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H02: πampPGE1≥ πampPlacebo, with πamp=proportion of subjects with major amputations.~The planned information rate for stage 1 of the two-stage group sequential test design with an overall one-sided comparison-wise α=0.0125 for this co-primary endpoint is given by 0.83.~This is the statistical analysis of stage 1."||||0.0173
82649354|NCT02273206|165014062|SUPERIORITY|||||||0.68|||||||Chi-squared|||Medical Outcomes Study Health Survey at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.68
82455340|NCT00596752|164614576|SUPERIORITY_OR_OTHER|||||||0.1154||||||For confirmatory hypothesis testing the p-values of the normal approximation test for comparing two rates was used as input for the weighted inverse normal method. The 1-sided boundary p-value for stage 1 and 2 combined is given by p2=0.01085.|Cochran-Mantel-Haenszel|The 2 primary endpoints were tested at one-sided 0.0125 each so that the overall type I error rate of 0.025 was controlled in a strong sense.||"Primary goal was to test the following null hypothesis:~H02: πampPGE1≥ πampPlacebo, with πamp=proportion of subjects with major amputations.~This is the statistical analysis of stage 1 and stage 2 combined."||||0.1154
82455341|NCT04797780|164614587|SUPERIORITY||Difference in CR Rate|5.06||||0.2084|TWO_SIDED|95.0|-7.1|17.2|||Cochran-Mantel-Haenszel|||||17.2|-7.1|0.2084
82455342|NCT02940496|164614597|SUPERIORITY||Correlation Coefficient (2 sided test)|0.081||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
82455343|NCT02940496|164614598|SUPERIORITY||Correlation Coefficient (2-sided test)|0.88||||0.009|TWO_SIDED||||||t-test, 2 sided|||||||0.009
82455344|NCT02940496|164614599|SUPERIORITY||Correlation Coefficient (2-sided test)|0.79||||0.01|TWO_SIDED||||||t-test, 2 sided|||||||0.01
82455345|NCT02119663|164614630|OTHER||Hazard Ratio (HR)|1.584|||||TWO_SIDED|95.0|0.886|2.83||||||||2.830|0.886|
82455346|NCT00699660|164614636|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Comparison of CAPS/WHODAS vs Nonstructured Interview study arms: linear and logistic mixed effects regression with clinical examiner stratified by study group as a random effect and study group as a fixed effect.|Regression, Linear|Covariates included experience, use of template,tests,reviewing records,age,education, study site,reviewer, and expert reviewer by group interaction.||Our sample size calculation yielded 466 for a power of 0.80 to detect a 10% absolute difference in sensitivity and adjusted for intraclass correlation. The number of covariates in regression models was limited to ensure the effective sample size remained ten times greater than the degrees of freedom in the model.||||<.001
82455347|NCT00699660|164614637|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Logistic|||||||<.01
82455348|NCT00699660|164614638|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Descriptive statistics on mean and standard deviation.|t-test, 2 sided|||||||>.05
82455349|NCT00699660|164614639|SUPERIORITY_OR_OTHER||Slope|47.3|STANDARD_ERROR_OF_MEAN|18.86||0.012|TWO_SIDED|||||0.05 level based on a two tailed test.|Regression, Linear|Covariates included years of experience, use of template, use of tests, age, education, study site.||Estimates of the influence on total time and tests of statistical significance were derived from multilevel mixed-effects linear regression (xtmixed in Stata)||||.012
82455350|NCT01099397|164614671|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value at baseline|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at baseline; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.41
82455351|NCT01099397|164614671|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||P-value at 9 weeks|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at 9 week assessment; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.59
82455352|NCT01099397|164614671|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||P-value at 18 weeks|McNemar|McNemar was used at each of three time points to compare prediabetes diagnosis by fasting versus 2-hour OGTT||p\<0.05 was considered significant at 18 week assessment; the null hypothesis was that there was no difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose), the alternative hypothesis was that there was a significant difference between prediabetes diagnosis (by 2-hour glucose or fasting glucose)||||0.41
82455353|NCT00650845|164614693|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that in both MRI groups approximately 12% of the patients would have an increase in serum creatinine of at least 25% with respect to baseline values after imaging procedures, 120 evaluable patients (2 x 60) were needed to ensure with 80% power, at 5% one-sided significance level, that the difference between the two MRI procedures was less than 15% which was the non-inferiority clinical limit of the difference established for this study.|Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-7.9|6.7||||||The clinical non-inferiority limit of (non-enhanced - Dotarem®-enhanced) was fixed at -15%. The exact 95%Confidence Interval (CI) of the difference (non-enhanced - Dotarem®-enhanced) was \[-7.9%; +6.7%\]||6.7|-7.9|
82455354|NCT00650845|164614694|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||Serum creatinine level fluctuation in terms of difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the serum creatinine changes from baseline as a function of the MRI procedure with adjustment on centers.||||0.291
82499620|NCT01571427|164689937|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|2.38||0.83|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: Among CDR 0.5 (n=34)||||0.83
82649355|NCT02273206|165014063|SUPERIORITY|||||||0.74|||||||Chi-squared|||Colorectal Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.74
82437383|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.17||||0.372|TWO_SIDED|95.0|-0.2|0.54|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.20|0.372
82649356|NCT02273206|165014063|SUPERIORITY|||||||0.86|||||||Chi-squared|||Colorectal Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.86
82649357|NCT02273206|165014063|SUPERIORITY|||||||0.79|||||||Chi-squared|||Colorectal Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.79
82437384|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.97|||<|0.001|TWO_SIDED|95.0|1.39|2.55|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.55|1.39|<0.001
82437385|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.82|||<|0.001|TWO_SIDED|95.0|1.25|2.4|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.40|1.25|<0.001
82437386|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.15|||<|0.001|TWO_SIDED|95.0|1.57|2.72|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.72|1.57|<0.001
82437387|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.87|||<|0.001|TWO_SIDED|95.0|1.3|2.45|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.45|1.30|<0.001
82437388|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.639|TWO_SIDED|95.0|-0.31|0.5|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.31|0.639
82437389|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.803|TWO_SIDED|95.0|-0.45|0.35|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.45|0.803
82437390|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.184|TWO_SIDED|95.0|-0.13|0.67|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.67|-0.13|0.184
82437391|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.67|||<|0.001|TWO_SIDED|95.0|1.07|2.26|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.26|1.07|<0.001
82437392|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.58|||<|0.001|TWO_SIDED|95.0|0.99|2.17|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.17|0.99|<0.001
82437393|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.84|||<|0.001|TWO_SIDED|95.0|1.25|2.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.43|1.25|<0.001
82437394|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.69|||<|0.001|TWO_SIDED|95.0|1.1|2.28|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.28|1.10|<0.001
82437395|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.02||||0.91|TWO_SIDED|95.0|-0.44|0.39|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.44|0.910
82437396|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.607|TWO_SIDED|95.0|-0.52|0.3|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.52|0.607
82649358|NCT02273206|165014063|SUPERIORITY|||||||0.91|||||||Chi-squared|||Breast Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.91
82437397|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.484|TWO_SIDED|95.0|-0.27|0.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.56|-0.27|0.484
82437398|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.64|1.86|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|0.64|<0.001
82437399|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.36|||<|0.001|TWO_SIDED|95.0|0.75|1.97|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.97|0.75|<0.001
82437400|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.38|||<|0.001|TWO_SIDED|95.0|0.77|1.99|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.99|0.77|<0.001
82649359|NCT02273206|165014063|SUPERIORITY|||||||0.71|||||||Chi-squared|||Breast Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.71
82649360|NCT02273206|165014063|SUPERIORITY|||||||0.77|||||||Chi-squared|||Breast Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.77
82649361|NCT02273206|165014063|SUPERIORITY|||||||0.64|||||||Chi-squared|||Cervical Cancer Screening attitudes at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.64
82649362|NCT02273206|165014063|SUPERIORITY|||||||0.11|||||||Chi-squared|||Cervical Cancer Screening attitudes at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.11
82437401|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5|||<|0.001|TWO_SIDED|95.0|0.89|2.1|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.10|0.89|<0.001
82455355|NCT00650845|164614695|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that in both MRI groups approximately 12% of the patients would have an increase in serum creatinine of at least 25% with respect to baseline values after imaging procedures, 120 evaluable patients (2 x 60) were needed to ensure with 80% power, at 5% one-sided significance level, that the difference between the two MRI procedures was less than 15% which was the non-inferiority clinical limit of the difference established for this study.|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-14.1|8.9||||||The clinical non-inferiority limit of (non-enhanced - Dotarem®-enhanced) was fixed at -15%. The exact 95%CI of the difference (non-enhanced - Dotarem®-enhanced) was \[-14.1%; +8.9%\]||8.9|-14.1|
82455356|NCT00650845|164614696|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||Serum creatinine level fluctuation in terms of difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the serum creatinine changes from baseline as a function of the MRI procedure with adjustment on centers.||||0.040
82455357|NCT00650845|164614697|SUPERIORITY_OR_OTHER|||||||0.301|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||eGFR fluctuation in terms of percentage and mean difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the relative or absolute eGFR variation from baseline as a function of the MRI procedure with adjustment on centers.||||0.301
82455358|NCT00650845|164614698|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED|||||p-value for main effect (difference between groups) adjusted on centers.|t-test, 2 sided|||eGFR fluctuation in terms of percentage and mean difference between baseline and 72 ±24hours after imaging procedure values was computed for both MRI procedures and compared between the 2 groups. A linear regression model was used to model the relative or absolute eGFR variation from baseline as a function of the MRI procedure with adjustment on centers.||||0.051
82455359|NCT03932760|164614710|OTHER|Mean differences at the tested timepoints between VCI and AC. Models were also examined with the covariates of medication use and pregnant/post-partum status.|Mean estimates by time|0.913|STANDARD_ERROR_OF_MEAN|1.085||0.612|TWO_SIDED|95.0|-1.228|3.055|||Mixed Models Analysis||Time was treated as a categorical variable to allow for non-linear change over time. We present group, time, and group\*time estimates and their associated SE and CIs below. AC group and baseline timepoint are the reference categories.|We used multilevel generalized mixed modeling under an intent-to-treat approach to compare the outcome measures of EPDS between group 1 (VCI) and Group 2 (AC) at 6 time points during pregnancy and postpartum controlling for screening EPDS score. We powered for the fixed effect of Intervention X Time using RMANOVA with alpha = 0.5, 6 time points, 0.3 for correlation between repeated measures, and a sample size of 192 total participants gives greater than 90% power to detect an effect size of 0.1.|"Overall test of significance for Fixed Effects. Higher EPDS scores signify worsened symptoms of depression. Time uses start of study as reference controlling for screen EPDS.~Group VCI (AC reference): F=0.260, p=0.612~Time (Baseline as reference): F=9.021, p\<0.001~Group\*Time: F=0.537, p=0.748~Estimates for group, time, and group\*time interactions~Group:~Estimate=0.913 (SE=1.085) \[CI LB=-1.228, UB=3.055\]~Time:~Post: estimate=-2.766 (0.853) \[-4.445, -1.087\]~2 months: estimate=-1.517 (0.862) \[-3.214, 0.180\]~4 months: estimate=-3.186 (0.862) \[-4.883, -1.489\]~6 months: estimate=-2.781 (0.872) \[-4.498, -1.065\]~8 months: estimate=-3.103 (0.872) \[-4.819, -1.386\]~Group\*Time:~Post: estimate=-1.157 (1.214) \[-3.547, 1.232\]~2 months: estimate=-1.361 (1.210) \[-3.742, 1.019\]~4 months: estimate= 0.183 (1.209) \[-2.196, 2.562\]~6 months: estimate=-0.508 (1.223) \[-2.914, 1.898\]~8 months: estimate=-0.127 (1.220) \[-2.529, 2.275\]"|3.055|-1.228|0.612
82490237|NCT02256072|164673357|SUPERIORITY_OR_OTHER||Slope|0.244|STANDARD_ERROR_OF_MEAN|0.123||0.0471|TWO_SIDED|||||P-value controlled for significant baseline covariates (sex, importance of religion, stroke, and self efficacy score) and individual participant effect.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.||Secondary analyses will compare baseline variables (current utilization of services, physical function assessment, co-morbidities, social support, health literacy, self-efficacy, and sociodemographics) with outcome (one-at-a-time). Those found to have a significant association with outcome will be included in a linear mixed model, with random effect for intercept. A backward stepwise model building process will be used to determine an overall parsimonious model for outcome.||||0.0471
82540558|NCT03105128|164780459|SUPERIORITY||Adjusted Risk Difference|11.8||||0.007|TWO_SIDED|95.0|3.2|20.3|||Cochran-Mantel-Haenszel|||||20.3|3.2|0.007
82540559|NCT03105128|164780460|SUPERIORITY||Adjusted Risk Difference|13.7|||<|0.001|TWO_SIDED|95.0|7.9|19.5|||Cochran-Mantel-Haenszel|||||19.5|7.9|<0.001
82649363|NCT02273206|165014063|SUPERIORITY|||||||1|||||||Chi-squared|||Cervical Cancer Screening attitudes at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||1.00
82649364|NCT02273206|165014065|SUPERIORITY|||||||0.56|||||||Chi-squared|||Satisfaction with decision to participate in Mental Health Care at 12 months. Recoding of the continuous measure was based on quartiles.||||0.56
82437402|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.256|TWO_SIDED|95.0|-0.67|0.18|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.18|-0.67|0.256
82437403|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.526|TWO_SIDED|95.0|-0.56|0.29|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.29|-0.56|0.526
82437404|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.602|TWO_SIDED|95.0|-0.54|0.31|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.54|0.602
82649365|NCT02273206|165014066|SUPERIORITY|||||||0.18|||||||Chi-squared|||Devaluation-Discrimination Scale Score at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.18
82437405|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.95||||0.002|TWO_SIDED|95.0|0.34|1.56|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.34|0.002
82437406|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.98||||0.001|TWO_SIDED|95.0|0.38|1.59|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.59|0.38|0.001
82437407|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.25|||<|0.001|TWO_SIDED|95.0|0.65|1.86|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|0.65|<0.001
82437408|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.22|||<|0.001|TWO_SIDED|95.0|0.61|1.82|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|0.61|<0.001
82437409|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.26||||0.224|TWO_SIDED|95.0|-0.69|0.16|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.16|-0.69|0.224
82437410|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.283|TWO_SIDED|95.0|-0.65|0.19|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.19|-0.65|0.283
82437411|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.86|TWO_SIDED|95.0|-0.39|0.46|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.46|-0.39|0.860
82437412|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.63||||0.038|TWO_SIDED|95.0|0.03|1.22|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.22|0.03|0.038
82437413|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.65||||0.031|TWO_SIDED|95.0|0.06|1.24|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|0.06|0.031
82437414|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03|||<|0.001|TWO_SIDED|95.0|0.43|1.62|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.62|0.43|<0.001
82437415|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.95||||0.002|TWO_SIDED|95.0|0.36|1.54|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.54|0.36|0.002
82437416|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.32||||0.129|TWO_SIDED|95.0|-0.74|0.09|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.09|-0.74|0.129
82437417|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.3||||0.154|TWO_SIDED|95.0|-0.71|0.11|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.11|-0.71|0.154
82437418|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.08||||0.714|TWO_SIDED|95.0|-0.34|0.49|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.49|-0.34|0.714
82437419|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.217|TWO_SIDED|95.0|-0.22|0.96|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.96|-0.22|0.217
82437420|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.136|TWO_SIDED|95.0|-0.14|1.03|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.03|-0.14|0.136
82437421|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.78||||0.01|TWO_SIDED|95.0|0.19|1.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.37|0.19|0.010
82437422|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.006|TWO_SIDED|95.0|0.24|1.41|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.24|0.006
82437423|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.45||||0.031|TWO_SIDED|95.0|-0.87|-0.04|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-0.87|0.031
82437424|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.38||||0.07|TWO_SIDED|95.0|-0.79|0.03|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.03|-0.79|0.070
82437425|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.822|TWO_SIDED|95.0|-0.46|0.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.37|-0.46|0.822
82437426|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.28||||0.327|TWO_SIDED|95.0|-0.28|0.83|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.83|-0.28|0.327
82649366|NCT02273206|165014066|SUPERIORITY|||||||0.32|||||||Chi-squared|||Devaluation-Discrimination Scale score at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.32
82649367|NCT02273206|165014067|SUPERIORITY|||||||0.5|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.50
82490238|NCT02256072|164673358|SUPERIORITY_OR_OTHER||Slope|0.075|STANDARD_ERROR_OF_MEAN|0.094||0.423|TWO_SIDED|||||p-value controlled for significant baseline covariates (confidence in using the internet, self efficacy score, support score, and race/ethnicity.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.|The score is the equally-weighted sum of responses to the five questions in the CAHS instrument. Each question has a scale of 1-5, with a total possible range of 5-25. No subscores are calculated.|H2: Compared to participants in the attention control group and controlling for baseline assessments, participants receiving the PLAN YOUR LIFESPAN tool will show increased confidence in accessing home services (measured via the Confidence in Accessing Home Services tool) one (efficacy) and three (effect retention) months after intervention.||||0.423
82490239|NCT02256072|164673359|SUPERIORITY_OR_OTHER||Slope|0.22|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|||||p-value controlled for significant baseline covariates (sex, income, health literacy, education level, high blood pressure, and kidney disease) and individual participant effect.|Mixed Models Analysis|The p-value is based on the slope estimation provided below.||Compared to participants in the attention control group, participants receiving PLAN YOUR LIFESPAN will show increased UHS 1 (efficacy) and 3 (effect retention) months post-intervention. Secondary analyses will compare baseline variables with outcome (one-at-a-time). Those with a significant association with outcome will be included in a LMM for UHS, with random effect for intercept. A backward stepwise model building process will be used to determine an overall parsimonious model for UHS.||||<0.0001
82649368|NCT02273206|165014067|SUPERIORITY|||||||0.51|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.51
82437427|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.34||||0.224|TWO_SIDED|95.0|-0.21|0.89|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.89|-0.21|0.224
82437428|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.63||||0.025|TWO_SIDED|95.0|0.08|1.19|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.19|0.08|0.025
82437429|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.7||||0.012|TWO_SIDED|95.0|0.15|1.25|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.25|0.15|0.012
82437430|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.43||||0.03|TWO_SIDED|95.0|-0.81|-0.04|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-0.81|0.030
82437431|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.36||||0.064|TWO_SIDED|95.0|-0.75|0.02|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.02|-0.75|0.064
82437432|NCT01559259|164583769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.721|TWO_SIDED|95.0|-0.46|0.32|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-0.46|0.721
82437433|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.22||||0.033|TWO_SIDED|95.0|0.02|0.42|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|0.02|0.033
82437434|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.224|TWO_SIDED|95.0|-0.08|0.33|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.33|-0.08|0.224
82437435|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.024|TWO_SIDED|95.0|0.03|0.44|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.44|0.03|0.024
82437436|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.501|TWO_SIDED|95.0|-0.13|0.27|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.27|-0.13|0.501
82437437|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.036|TWO_SIDED|95.0|0.01|0.29|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.29|0.01|0.036
82437438|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.06||||0.435|TWO_SIDED|95.0|-0.08|0.2|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-0.08|0.435
82437439|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.023|TWO_SIDED|95.0|0.02|0.31|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|0.02|0.023
82649369|NCT02273206|165014067|SUPERIORITY|||||||0.02|||||||Chi-squared|||Ambulatory Care Experiences - Shared Decision Making at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.02
82649370|NCT02273206|165014067|SUPERIORITY|||||||0.91|||||||Chi-squared|||Ambulatory Care Experiences - Access at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.91
82649371|NCT02273206|165014067|SUPERIORITY|||||||0.69|||||||Chi-squared|||Ambulatory Care Experiences - Access at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.69
82437440|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.52|1.12|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.12|0.52|<0.001
82437441|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.67|||<|0.001|TWO_SIDED|95.0|0.37|0.97|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.97|0.37|<0.001
82437442|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74|||<|0.001|TWO_SIDED|95.0|0.45|1.04|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.04|0.45|<0.001
82437443|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.003|TWO_SIDED|95.0|0.16|0.75|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|0.16|0.003
82437444|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37|||<|0.001|TWO_SIDED|95.0|0.16|0.58|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.58|0.16|<0.001
82437445|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.039|TWO_SIDED|95.0|0.01|0.42|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|0.01|0.039
82437446|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.006|TWO_SIDED|95.0|0.08|0.5|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|0.08|0.006
82437447|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.33|||<|0.001|TWO_SIDED|95.0|1.01|1.65|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.65|1.01|<0.001
82437448|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.85|1.49|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.49|0.85|<0.001
82437449|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35|||<|0.001|TWO_SIDED|95.0|1.03|1.67|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.67|1.03|<0.001
82437450|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.04|||<|0.001|TWO_SIDED|95.0|0.72|1.36|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.36|0.72|<0.001
82437451|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.011|TWO_SIDED|95.0|0.07|0.52|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|0.07|0.011
82437452|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.267|TWO_SIDED|95.0|-0.1|0.35|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.10|0.267
82490240|NCT00910273|164673415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.608|TWO_SIDED|95.0|-5.14|8.58|||Mixed Models Analysis|||"Null Hypothesis: No difference in Change in FMD at 12 weeks for Etanercept and placebo.~Alternative Hypothesis: Difference in Change in FMD at 12 weeks for Etanercept and placebo.~Sample size of 36 subjects per treatment arm was planned based on an expected difference of 0.9 in FMD (Standard Deviation \[SD\] 1.5), with 80% power and 5% significance level."||8.58|-5.14|0.608
82490241|NCT00910273|164673416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.82||||0.476|TWO_SIDED|95.0|-3.35|7.0|||Mixed Models Analysis||Analyses available for Week 4 only, due to limited number of participants for Week 24 to Week 52.|Week 4||7.00|-3.35|0.476
82490242|NCT00910273|164673417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.65|TWO_SIDED|95.0|-0.08|0.13|||ANCOVA|||Week 12; Common Carotid Artery; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.13|-0.08|0.650
82490243|NCT00910273|164673417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.513|TWO_SIDED|95.0|-0.13|0.07|||ANCOVA|||Week 12; Common Bulb; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.07|-0.13|0.513
82540560|NCT03105128|164780460|SUPERIORITY||Adjusted Risk Difference|9.1||||0.001|TWO_SIDED|95.0|3.7|14.5|||Cochran-Mantel-Haenszel|||||14.5|3.7|0.001
82437453|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.007|TWO_SIDED|95.0|0.09|0.53|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|0.09|0.007
82437454|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57|||<|0.001|TWO_SIDED|95.0|1.24|1.89|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.89|1.24|<0.001
82490244|NCT00910273|164673417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.592|TWO_SIDED|95.0|-0.14|0.08|||ANCOVA|||Week 12; Internal Carotid Artery; Due to limited number of participants with visits after Week 12 analysis limited to Week 12||0.08|-0.14|0.592
82540561|NCT03105128|164780461|SUPERIORITY||Adjusted Risk Difference|21.0|||<|0.001|TWO_SIDED|95.0|12.2|29.9|||Cochran-Mantel-Haenszel|||||29.9|12.2|<0.001
82540562|NCT03105128|164780461|SUPERIORITY||Adjusted Risk Difference|21.6|||<|0.001|TWO_SIDED|95.0|12.8|30.4|||Cochran-Mantel-Haenszel|||||30.4|12.8|<0.001
82540563|NCT03105128|164780462|SUPERIORITY||Adjusted Risk Difference|14.6||||0.022|TWO_SIDED|95.0|2.1|27.0|||Cochran-Mantel-Haenszel|||||27.0|2.1|0.022
82490245|NCT00910273|164673422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0.008|TWO_SIDED|95.0|-3.05|-0.5|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.50|-3.05|0.008
82577909|NCT00461981|164865036|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|21.9||||||95.0|-6.7|48.1||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||48.1|-6.7|
82649372|NCT02273206|165014067|SUPERIORITY|||||||0.63|||||||Chi-squared|||Ambulatory Care Experiences - Access at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.63
82437455|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.38|||<|0.001|TWO_SIDED|95.0|1.06|1.7|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|1.06|<0.001
82437456|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57|||<|0.001|TWO_SIDED|95.0|1.25|1.9|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.90|1.25|<0.001
82490246|NCT00910273|164673422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.021|TWO_SIDED|95.0|-3.7|-0.33|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.33|-3.70|0.021
82437457|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.35|||<|0.001|TWO_SIDED|95.0|1.02|1.67|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.67|1.02|<0.001
82437458|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.056|TWO_SIDED|95.0|-0.01|0.45|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.01|0.056
82437459|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.759|TWO_SIDED|95.0|-0.19|0.26|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.26|-0.19|0.759
82437460|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.23||||0.051|TWO_SIDED|95.0|0.0|0.45|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.00|0.051
82437461|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.3|1.98|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|1.30|<0.001
82490247|NCT00910273|164673430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.003|TWO_SIDED|95.0|-1.74|-0.4|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.40|-1.74|0.003
82490248|NCT00910273|164673430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.029|TWO_SIDED|95.0|-1.72|-0.1|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.10|-1.72|0.029
82649373|NCT02273206|165014067|SUPERIORITY|||||||0.55|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.55
82437462|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.52|||<|0.001|TWO_SIDED|95.0|1.18|1.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.85|1.18|<0.001
82437463|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.71|||<|0.001|TWO_SIDED|95.0|1.37|2.05|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.05|1.37|<0.001
82437464|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.52|||<|0.001|TWO_SIDED|95.0|1.19|1.86|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|1.19|<0.001
82437465|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.11||||0.342|TWO_SIDED|95.0|-0.12|0.35|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-0.12|0.342
82437466|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.01||||0.943|TWO_SIDED|95.0|-0.24|0.23|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.24|0.943
82437467|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.18||||0.126|TWO_SIDED|95.0|-0.05|0.42|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.42|-0.05|0.126
82437468|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.63|||<|0.001|TWO_SIDED|95.0|1.27|1.98|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|1.27|<0.001
82490249|NCT00910273|164673436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.041|TWO_SIDED|95.0|-2.13|-0.05|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||-0.05|-2.13|0.041
82490250|NCT00910273|164673436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.048|TWO_SIDED|95.0|-2.55|-0.01|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||-0.01|-2.55|0.048
82649374|NCT02273206|165014067|SUPERIORITY|||||||0.34|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.34
82540564|NCT03105128|164780462|SUPERIORITY||Adjusted Risk Difference|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.3|||Cochran-Mantel-Haenszel|||||36.3|11.1|<0.001
82540565|NCT03105128|164780463|SUPERIORITY||LS Mean Difference|-8.7|||<|0.001|TWO_SIDED|95.0|-13.9|-3.5|||Mixed-Effect Model Repeat Measurement|||||-3.5|-13.9|<0.001
82540566|NCT03105128|164780463|SUPERIORITY||LS Mean Difference|-10.2|||<|0.001|TWO_SIDED|95.0|-15.2|-5.2|||Mixed-Effect Model Repeat Measurement|||||-5.2|-15.2|<0.001
82540567|NCT03105128|164780464|SUPERIORITY||LS Mean Difference|5.6||||1|TWO_SIDED|95.0|-28.6|39.7|||Mixed-Effect Model Repeat Measurement|||||39.7|-28.6|1.000
82540568|NCT03105128|164780464|SUPERIORITY||LS Mean Difference|6.9||||1|TWO_SIDED|95.0|-25.7|39.6|||Mixed-Effect Model Repeat Measurement|||||39.6|-25.7|1.000
82437469|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5|||<|0.001|TWO_SIDED|95.0|1.15|1.86|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.86|1.15|<0.001
82437470|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.64|||<|0.001|TWO_SIDED|95.0|1.29|2.0|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.00|1.29|<0.001
82437471|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53|||<|0.001|TWO_SIDED|95.0|1.18|1.89|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.89|1.18|<0.001
82437472|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.453|TWO_SIDED|95.0|-0.15|0.34|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-0.15|0.453
82437473|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.816|TWO_SIDED|95.0|-0.28|0.22|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-0.28|0.816
82540569|NCT03105128|164780465|SUPERIORITY||LS Mean Difference|-9.586||||0.024|TWO_SIDED|95.0|-17.89|-1.282|||Mixed-Effect Model Repeat Measurement|||||-1.282|-17.890|0.024
82540570|NCT03105128|164780465|SUPERIORITY||LS Mean Difference|-12.141||||0.004|TWO_SIDED|95.0|-20.39|-3.892|||Mixed-Effect Model Repeat Measurement|||||-3.892|-20.390|0.004
82540571|NCT03105128|164780466|SUPERIORITY||LS Mean Difference|2.913|||<|0.001|TWO_SIDED|95.0|1.512|4.313|||Mixed-Effect Model Repeat Measurement|||||4.313|1.512|<0.001
82649375|NCT02273206|165014067|SUPERIORITY|||||||0.19|||||||Chi-squared|||Ambulatory Care Experiences - Care Coordination at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.19
82577910|NCT00461981|164865037|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-22.4||||||95.0|-54.4|12.2||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||12.2|-54.4|
82437474|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.11||||0.384|TWO_SIDED|95.0|-0.14|0.36|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.36|-0.14|0.384
82437475|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.55|||<|0.001|TWO_SIDED|95.0|1.19|1.91|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.91|1.19|<0.001
82437476|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|1.10|<0.001
82437477|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.61|||<|0.001|TWO_SIDED|95.0|1.25|1.97|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.97|1.25|<0.001
82540572|NCT03105128|164780466|SUPERIORITY||LS Mean Difference|3.275|||<|0.001|TWO_SIDED|95.0|1.877|4.672|||Mixed-Effect Model Repeat Measurement|||||4.672|1.877|<0.001
82540573|NCT03538054|164780522|SUPERIORITY||Slope|-5.065||||0.146|TWO_SIDED|||||The clinical threshold was p \< 0.05, with no corrections for multiple comparisons.|GEE|Outcome scores were mean-centered by participant, allowing analyses to reflect within-person changes rather than between-person differences.||||||0.146
82540574|NCT03538054|164780523|SUPERIORITY||Slope|4.221||||0.052|TWO_SIDED|||||The clinical threshold was p \< 0.05, with no corrections for multiple comparisons.|GEE|Outcome scores were mean-centered by participant, allowing analyses to reflect within-person changes rather than between-person differences.||||||0.052
82540575|NCT03254394|164780525|SUPERIORITY||Mean Difference (Final Values)|6.88||||0.318|TWO_SIDED|95.0|-7.09|20.85||p-value was not adjusted for any parameter.|t-test, 2 sided|||Null hypothesis: Average AUC of cold pain score over 14 days of a chemotherapy cycle in the Control group is equal or lower than that of the experimental group. The comparison is for average AUC values over 7 cycles of chemotherapy per patient||20.85|-7.09|0.318
82540576|NCT03254394|164780525|SUPERIORITY||Mean Difference (Final Values)|7.67||||0.466|TWO_SIDED|95.0|-13.76|29.1||p-value was not adjusted for any parameter.|t-test, 2 sided|||Null hypothesis: Cold hypersensitivity counted as unpleasantness score for 14 days after cycle (AUC) in the Control group is less than that of the experimental group. The difference was calculated for the Cycle 6 visit.||29.10|-13.76|0.466
82540577|NCT03254394|164780526|SUPERIORITY||Median Difference (Final Values)|20.0||||0.338|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||the null hypothesis is EORTC QLQ-CIPN20 sensory score change in the Control group is equal to or less than that of the experimental group for the last follow-up study visit.||||0.338
82649376|NCT02273206|165014067|SUPERIORITY|||||||0.47|||||||Chi-squared|||Ambulatory Care Experiences - Quality at baseline. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.47
82437478|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.82|1.10|<0.001
82437479|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.09||||0.483|TWO_SIDED|95.0|-0.16|0.34|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-0.16|0.483
82437480|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.991|TWO_SIDED|95.0|-0.25|0.25|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.25|-0.25|0.991
82437481|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.228|TWO_SIDED|95.0|-0.1|0.41|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.41|-0.10|0.228
82437482|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.48|||<|0.001|TWO_SIDED|95.0|1.1|1.85|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.85|1.10|<0.001
82437483|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32|||<|0.001|TWO_SIDED|95.0|0.94|1.69|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.69|0.94|<0.001
82437484|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53|||<|0.001|TWO_SIDED|95.0|1.15|1.9|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.90|1.15|<0.001
82437485|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.4|||<|0.001|TWO_SIDED|95.0|1.03|1.78|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|1.03|<0.001
82437486|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.587|TWO_SIDED|95.0|-0.19|0.33|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.33|-0.19|0.587
82437487|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.09||||0.517|TWO_SIDED|95.0|-0.35|0.17|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.17|-0.35|0.517
82437488|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.12||||0.36|TWO_SIDED|95.0|-0.14|0.38|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-0.14|0.360
82437489|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.2|||<|0.001|TWO_SIDED|95.0|0.81|1.6|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.60|0.81|<0.001
82437490|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.78|1.57|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.57|0.78|<0.001
82437491|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.36|||<|0.001|TWO_SIDED|95.0|0.97|1.76|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.76|0.97|<0.001
82437492|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.17|||<|0.001|TWO_SIDED|95.0|0.77|1.56|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.77|<0.001
82437493|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03||||0.811|TWO_SIDED|95.0|-0.24|0.31|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.31|-0.24|0.811
82437494|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.977|TWO_SIDED|95.0|-0.27|0.28|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.28|-0.27|0.977
82437495|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.164|TWO_SIDED|95.0|-0.08|0.47|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.47|-0.08|0.164
82437496|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03|||<|0.001|TWO_SIDED|95.0|0.63|1.43|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.43|0.63|<0.001
82437497|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.4|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.40|0.60|<0.001
82437498|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.15|||<|0.001|TWO_SIDED|95.0|0.75|1.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.56|0.75|<0.001
82437499|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.06|||<|0.001|TWO_SIDED|95.0|0.66|1.46|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.46|0.66|<0.001
82540578|NCT03254394|164780526|SUPERIORITY||Median Difference (Final Values)|2.0||||0.759|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is EORTC QLQ-CIPN20 sensory score change in the Control group is equal to or less than that of the experimental group for the cycle 6 (12 weeks) follow-up study visit.||||0.759
82540579|NCT03254394|164780527|SUPERIORITY||Median Difference (Final Values)|0.0||||0.581|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the C3 (6 weeks) study visit.||||0.581
82649377|NCT02273206|165014067|SUPERIORITY|||||||0.38|||||||Chi-squared|||Ambulatory Care Experiences - Quality at six months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.38
82455360|NCT03932760|164614711|OTHER|Mean differences at the tested timepoints between VCI and AC. Models were also examined with the covariates of medication use and pregnant/post-partum status.|Mean estimates by time|0.016|STANDARD_ERROR_OF_MEAN|0.859||0.558|TWO_SIDED|95.0|-1.709|1.677|||Mixed Models Analysis||Time was treated as a categorical variable to allow for non-linear change over time. We present group, time, and group\*time estimates and their associated SE and CIs below. AC group and baseline timepoint are the reference categories.|We used multilevel generalized mixed modeling under an intent-to-treat approach to compare the outcome measures of GAD-7 between group 1 (VCI) and Group 2 (AC) at 6 time points during pregnancy and postpartum. We powered for the fixed effect of Intervention X Time using RMANOVA with alpha = 0.5, 6 time points, 0.3 for correlation between repeated measures, and a sample size of 192 total participants gives greater than 90% power to detect an effect size of 0.1.|"Overall test of significance for Fixed Effects. Higher GAD-7 scores signify worsened symptoms of depression.~Group VCI (AC reference): F=0.347, p=0.558~Time (Baseline as reference): F=4.973, p\<0.001~Group\*Time: F=0.417, p=0.837~Estimates for group, time, and group\*time interactions~Group:~Estimate=-0.0160 (SE=0.859) \[CI LB=-1.709, UB=1.677\]~Time:~Post: estimate=-1.780 (0.708) \[-3.173, -0.387\]~2 months: estimate=-0.615 (0.715) \[-2.023, 0.792\]~4 months: estimate=-1.416 (0.715) \[-2.824, -0.008\]~6 months: estimate=-1.625 (0.723) \[-3.049, -0.201\]~8 months: estimate=-1.542 (0.723) \[-2.966, -0.118\]~Group\*Time:~Post: estimate=-1.157 (1.214) \[-3.547, 1.232\]~2 months: estimate=-1.361 (1.210) \[-3.742, 1.019\]~4 months: estimate= 0.183 (1.209) \[-2.196, 2.562\]~6 months: estimate=-0.508 (1.223) \[-2.914, 1.898\]~8 months: estimate=-0.127 (1.220) \[-2.529, 2.275\]"|1.677|-1.709|0.558
82649378|NCT02273206|165014067|SUPERIORITY|||||||0.98|||||||Chi-squared|||Ambulatory Care Experiences - Quality at twelve months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.98
82437500|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.846|TWO_SIDED|95.0|-0.31|0.25|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.25|-0.31|0.846
82437501|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.702|TWO_SIDED|95.0|-0.33|0.23|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-0.33|0.702
82437502|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.496|TWO_SIDED|95.0|-0.18|0.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-0.18|0.496
82437503|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.41|1.22|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.22|0.41|<0.001
82455361|NCT03868254|164614746|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
82455362|NCT03868254|164614746|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
82455363|NCT03868254|164614747|OTHER||||||<|0.0001|||||||Paired t-test|||||||<.0001
82455364|NCT03868254|164614747|OTHER|||||||0.0001|||||||Paired t-test|||||||0.0001
82455365|NCT03868254|164614748|OTHER|||||||0.003|||||||Paired t-test|||||||0.0030
82455366|NCT03868254|164614748|OTHER|||||||0.0018|||||||Paired t-test|||||||0.0018
82455367|NCT03868254|164614749|OTHER|||||||0.0053|||||||Paired t-test|||||||0.0053
82455368|NCT03868254|164614749|OTHER|||||||0.0472|||||||Paired t-test|||||||0.0472
82455369|NCT00330759|164614792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A synthesis approach was used for a non-inferiority test of the hypothesis that denosumab preserves at least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.84||||0.0007||95.0|0.71|0.98|||Regression, Cox|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy||||0.98|0.71|0.0007
82455370|NCT00330759|164614793|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.06||95.0|0.71|0.98|||Regression, Cox|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy|||0.98|0.71|0.060
82540580|NCT03254394|164780527|SUPERIORITY||Median Difference (Final Values)|0.0||||0.962|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the C6 (12 weeks) study visit.||||0.962
82455371|NCT00330759|164614794|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.145||95.0|0.77|1.04|||Anderson-Gill model|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by tumor type, previous skeletal-related event, and systematic anti-cancer therapy|||1.04|0.77|0.145
82455372|NCT01072188|164614804|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82455373|NCT01072188|164614805|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82649379|NCT02273206|165014068|SUPERIORITY|||||||0.78|||||||Chi-squared|||Medication Adherence at baseline. Coding of the measure was based on Morisky et al. (2008).||||0.78
82649380|NCT02273206|165014068|SUPERIORITY|||||||0.2|||||||Chi-squared|||Medication Adherence at 6 months. Coding of the measure was based on Morisky et al. (2008).||||0.20
82649381|NCT02273206|165014068|SUPERIORITY|||||||0.77|||||||Chi-squared|||Medication Adherence at 12 Months. Coding of the measure was based on Morisky et al. (2008).||||0.77
82455374|NCT06083987|164614811|SUPERIORITY||Cohen's D|0.01||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|false discovery rate q-value calculated with Yekutieli method in Stata||||||0.86
82455375|NCT06083987|164614812|SUPERIORITY||Cohen's D|0.32||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.31
82455376|NCT06083987|164614813|SUPERIORITY||Cohen's D|0.1||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
82455377|NCT06083987|164614814|SUPERIORITY||Cohen's D|0.45||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82455378|NCT06083987|164614815|SUPERIORITY||Cohen's d|0.41||||0.22|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.22
82455379|NCT04640311|164614867|OTHER||Geometric mean ratio|1.028|||||TWO_SIDED|90.0|0.9699|1.09|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 1 has been presented.|||1.090|0.9699|
82540581|NCT03254394|164780527|SUPERIORITY||Median Difference (Final Values)|10.5||||0.365|TWO_SIDED|||||p-value was not adjusted for any parameter.|Wilcoxon (Mann-Whitney)|||The null hypothesis is NPSI total score in the Control group is equal to or less than that of the experimental group for the last follow-up study visit.||||0.365
82437504|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81|||<|0.001|TWO_SIDED|95.0|0.4|1.21|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.21|0.40|<0.001
82437505|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.86|||<|0.001|TWO_SIDED|95.0|0.46|1.26|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.26|0.46|<0.001
82437506|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.92|||<|0.001|TWO_SIDED|95.0|0.52|1.33|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.33|0.52|<0.001
82437507|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.441|TWO_SIDED|95.0|-0.39|0.17|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.17|-0.39|0.441
82437508|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.12||||0.408|TWO_SIDED|95.0|-0.4|0.16|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.16|-0.40|0.408
82437509|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.06||||0.652|TWO_SIDED|95.0|-0.35|0.22|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-0.35|0.652
82437510|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.61||||0.003|TWO_SIDED|95.0|0.21|1.02|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|0.21|0.003
82437511|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.007|TWO_SIDED|95.0|0.15|0.95|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|0.15|0.007
82455380|NCT04640311|164614867|OTHER||Geometric mean ratio|1.019|||||TWO_SIDED|90.0|0.9602|1.081|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 2 has been presented.|||1.081|0.9602|
82455381|NCT04640311|164614868|EQUIVALENCE|Bioequivalence was to be determined if the 90 percent (%) confidence interval (CI) of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|1.029|||||TWO_SIDED|90.0|0.977|1.083|||||Geometric mean ratio of Daprodustat 1 mg Process 2 to Process 1 has been presented.|||1.083|0.9770|
82455382|NCT04640311|164614868|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9496|||||TWO_SIDED|90.0|0.8914|1.012|||||Geometric mean ratio of Daprodustat 2 mg Process 2 to Process 1 has been presented.|||1.012|0.8914|
82455383|NCT04640311|164614868|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.9533|1.07|||||Geometric mean ratio of Daprodustat 4 mg Process 2 to Process 1 has been presented.|||1.070|0.9533|
82455384|NCT04640311|164614868|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9679|||||TWO_SIDED|90.0|0.9115|1.028|||||Geometric mean ratio of Daprodustat 6 mg Process 2 to Process 1 has been presented.|||1.028|0.9115|
82455385|NCT04640311|164614868|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9511|||||TWO_SIDED|90.0|0.8948|1.011|||||Geometric mean ratio of Daprodustat 8 mg Process 2 to Process 1 has been presented.|||1.011|0.8948|
82455386|NCT04640311|164614869|OTHER||Geometric mean ratio|1.042|||||TWO_SIDED|90.0|0.9308|1.166|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 1 has been presented.|||1.166|0.9308|
82455387|NCT04640311|164614869|OTHER||Geometric mean ratio|1.048|||||TWO_SIDED|90.0|0.9349|1.175|||||Geometric mean ratio of Daprodustat Process 1 to Process 2 Dissolution Profile 2 has been presented.|||1.175|0.9349|
82455388|NCT04640311|164614870|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9716|||||TWO_SIDED|90.0|0.8936|1.056|||||Geometric mean ratio of Daprodustat 1 mg Process 2 to Process 1 has been presented.|||1.056|0.8936|
82455389|NCT04640311|164614870|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9006|||||TWO_SIDED|90.0|0.8107|1.0|||||Geometric mean ratio of Daprodustat 2 mg Process 2 to Process 1 has been presented.|||1.000|0.8107|
82455390|NCT04640311|164614870|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9703|||||TWO_SIDED|90.0|0.8665|1.087|||||Geometric mean ratio of Daprodustat 4 mg Process 2 to Process 1 has been presented.|||1.087|0.8665|
82540582|NCT03254394|164780528|SUPERIORITY||Mean Difference (Final Values)|57.68||||0.73|TWO_SIDED|95.0|-1771.0|1886.0|||t-test, 2 sided|||The null hypothesis is Oxaliplatin cumulative dose in the Control group is equal to or higher than that of the experimental group.||1886|-1771|0.730
82540583|NCT00667745|164780529|SUPERIORITY||F value, main effect|0.94||||0.33|TWO_SIDED||||||Mixed Models Analysis|||||||0.33
82540584|NCT00667745|164780530|SUPERIORITY||Chi-squared|0.0||||0.967|TWO_SIDED||||||Chi-squared|||||||0.967
82540585|NCT00667745|164780531|SUPERIORITY||Mean Difference (Net)|0.45||||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
82540586|NCT00667745|164780532|SUPERIORITY||Mean Difference (Net)|0.02||||0.88|TWO_SIDED||||||Mixed Models Analysis|||||||0.88
82540587|NCT00667745|164780533|SUPERIORITY||Mean Difference (Net)|0.92||||0.49|TWO_SIDED|||||Value shown above describes emergent suicidal ideation for participants with baseline MSSI = 0. P=.36 describes exacerbation of baseline suicidal ideation for those with baseline MSSI \> 0.|Mixed Models Analysis|||||||.49
82540588|NCT00387465|164780628|OTHER|The maximum tolerated dose (MTD) was derived from the number of participants experiencing dose-limiting toxicities in the Phase I arms. The MTD was the dose at which ≤30% of patients experienced DLTs during cycle 1 up to a pre-specified maximal dose of 40 mg/m2 of azacitidine.|Maximum Tolerated Dose|40.0|||||TWO_SIDED||||||||MTD of Azacitidine measured in mg/m\^2|||||
82540589|NCT00605033|164780641|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined as a lower bound of the two-sided 95% confidence interval of the proportion difference greater than -0.15.|Proportion difference|-0.054|||||TWO_SIDED|95.0|-0.142|0.034|||Binomial approximation|||||0.034|-0.142|
82540590|NCT02666742|164780653|SUPERIORITY|Continuous variables were compared by two-sample t-tests and categorical variables by chi-square test. All tests were two-tailed, and a P value less than 0.05 was considered to indicate statistical significance. Bonferroni correction was not performed due to prespecified outcomes in the trial. Analyses were performed using GraphPad 6||||||0.001|||||||Chi-squared|||Due to lack of precedent robust clinical data, we performed exploratory study to evaluate safety and efficacy of DOAC vs. Aspirin (ASA) in patients undergoing left ventricular arrhythmia (LVA) ablation; therefore, sample size calculation was not undertaken.||||0.001
82540591|NCT01359371|164780685|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||Bivariate relationships between a patient's participation in the program and smoking status were calculated.||||<.01
82540592|NCT01359371|164780686|OTHER|T-tests, chi squares and Fishers exact tests were used to compare groups.|||||<|0.05||||||This was just a sample description, so there was not adjustment for multiple comparisons.|Chi-squared||||T-tests, chi squares and Fishers exact tests were used to compare groups.|||<.05
82540593|NCT01359371|164780686|OTHER||||||<|0.05|||||||Chi-squared|||T-tests, chi squares and Fishers exact tests were used to compare groups.||||<.05
82540594|NCT01212757|164780708|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|13.4||||0.006|TWO_SIDED|95.0|4.0|22.7|||Cochran-Mantel-Haenszel|2-sided p-value is based on the Cochran-Mantel-Haenszel (CMH) test adjusting for baseline disease modifying antirheumatic drug (DMARD) use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% confidence interval (CI) is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||22.7|4.0|0.0060
82561848|NCT02291861|164832895|SUPERIORITY||Odds Ratio (OR)|1.15||||0.734|TWO_SIDED|95.0|0.509|2.61|||Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|"A hierarchical (fixed-sequence) testing approach was used for the analysis of the primary and key secondary endpoints to maintain the experiment-wise type I error rate of 5%.~This key secondary endpoint compared the percentage of patients considered a treatment success at week 12 between the SD-809 12 mg/day group and the placebo group, and is the sixth (last) analysis in the fixed-sequence."||2.610|0.509|0.734
82490251|NCT00910273|164673437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.575|TWO_SIDED|95.0|-0.89|1.57|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 4||1.57|-0.89|0.575
82490252|NCT00910273|164673437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.204|TWO_SIDED|95.0|-0.52|2.3|||Mixed Models Analysis||Adjusted mean difference (Etanercept-Placebo)|Week 12||2.30|-0.52|0.204
82490253|NCT02128932|164673445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and insulin glargine was below the pre-specified non-inferiority margin (0.3 %).|Treatment difference|-0.81|||<|0.0001|TWO_SIDED|95.0|-0.96|-0.67|||Mixed Models Analysis|||The post baseline responses were analysed using a mixed model for repeated measurements with treatment , country and stratum as fixed factors and baseline value as covariate, all nested within visit.||-0.67|-0.96|<0.0001
82490254|NCT02128932|164673445|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95 % confidence interval for the estimated treatment difference between semaglutide 0.5 mg and insulin glargine was below the pre-specified non-inferiority margin (0.3%).|Treatment difference|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.52|-0.24|||Mixed Models Analysis|||The post baseline responses were analysed using a mixed model for repeated meausrements with treatment, country and stratum value as covariate, all nested within visit.||-0.24|-0.52|<0.0001
82490255|NCT03113916|164673462|SUPERIORITY||Slope|2.63|||=|0.001|TWO_SIDED|95.0|1.05|4.2|||Mixed Models Analysis|||||4.20|1.05|=.001
82490256|NCT03113916|164673463|SUPERIORITY||Slope|-0.49||||0.23|TWO_SIDED|95.0|-1.29|0.31|||Mixed Models Analysis|||||0.31|-1.29|.23
82490257|NCT03113916|164673464|SUPERIORITY||Slope|0.000000676||||0.06|TWO_SIDED|95.0|-0.00000002|0.00000137|||Mixed Models Analysis|||||.00000137|-.00000002|.06
82490258|NCT03113916|164673465|SUPERIORITY||Slope|-5.64||||0.29|TWO_SIDED|95.0|-16.0|4.73|||Mixed Models Analysis||Values given need to be multiplied by 10 to the power of -10 (i.e., x 10\^-10).|||4.73|-16|.29
82490259|NCT03113916|164673466|SUPERIORITY||Slope|0.351||||0.27|TWO_SIDED|95.0|-0.277|0.978|||Mixed Models Analysis|||||.978|-.277|.27
82490260|NCT03113916|164673467|SUPERIORITY||Slope|-0.015||||0.1|TWO_SIDED|95.0|-0.032|0.003|||Mixed Models Analysis|||||.003|-.032|.10
82490261|NCT03113916|164673468|SUPERIORITY||Slope|-11.2||||0.07|TWO_SIDED|95.0|-23.0|0.7|||Mixed Models Analysis|||||0.7|-23.0|.07
82540595|NCT01212757|164780708|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|18.7||||0.0002|TWO_SIDED|95.0|9.1|28.2|||Cochran-Mantel-Haenszel|2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||28.2|9.1|0.0002
82577911|NCT00461981|164865038|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|33.3||||||95.0|-81.1|90.6||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||90.6|-81.1|
82577912|NCT00461981|164865039|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|0.0||||||95.0|-97.5|84.2||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||84.2|-97.5|
82577913|NCT00461981|164865040|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-9.5||||||95.0|-65.2|58.8||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||58.8|-65.2|
82649382|NCT02273206|165014069|SUPERIORITY|||||||0.7|||||||Chi-squared|||Self-efficacy at baseline.Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.70
82649383|NCT02273206|165014069|SUPERIORITY|||||||0.89|||||||Chi-squared|||Self-efficacy at 6 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.89
82437512|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.69|||<|0.001|TWO_SIDED|95.0|0.29|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.29|<0.001
82437513|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.7|||<|0.001|TWO_SIDED|95.0|0.29|1.1|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.29|<0.001
82437514|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.08||||0.567|TWO_SIDED|95.0|-0.36|0.2|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-0.36|0.567
82455391|NCT04640311|164614870|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.9675|||||TWO_SIDED|90.0|0.8778|1.066|||||Geometric mean ratio of Daprodustat 6 mg Process 2 to Process 1 has been presented.|||1.066|0.8778|
82455392|NCT04640311|164614870|EQUIVALENCE|Bioequivalence was to be determined if the 90% CI of ratio's of geometric means (geometric mean of Process 2/Process 1) falls within a range of 0.80 to 1.25.|Geometric mean ratio|0.8606|||||TWO_SIDED|90.0|0.777|0.9532|||||Geometric mean ratio of Daprodustat 8 mg Process 2 to Process 1 has been presented.|||0.9532|0.7770|
82455393|NCT01910402|164614892|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Hypothesis was to show that the antiviral effect of the DTG/ABC/3TC FDC administered QD was non-inferior to QD ATV+RTV+TDF/FTC FDC. Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -12%|Adjusted difference in proportion|10.5||||0.005|TWO_SIDED|95.0|3.1|17.8||If the primary and PP analyses both demonstrated non-inferiority, then as per pre-specified analysis, superiority of DTG/ABC/3TC FDC versus ATV+RTV+TDF/FTC FDC was tested in the ITT-E population at the 2-sided 5% level of significance.|Cochran-Mantel-Haenszel|||||17.8|3.1|0.005
82455394|NCT01910402|164614914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.026||||0.7053|TWO_SIDED|95.0|-0.159|0.107|||Multiple Imputed Dataset - MAR|||||0.107|-0.159|0.7053
82455395|NCT01910402|164614915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.106||||0.3165|TWO_SIDED|95.0|-0.313|0.101|||Multiple Imputed Dataset - MAR|||||0.101|-0.313|0.3165
82437515|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.315|TWO_SIDED|95.0|-0.42|0.14|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.14|-0.42|0.315
82437516|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.0||||0.997|TWO_SIDED|95.0|-0.28|0.28|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.28|-0.28|0.997
82455396|NCT01910402|164614930|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.729|||<|0.001|TWO_SIDED|95.0|0.683|0.779|||ANCOVA||BSAP ratio of Week 48 result over Baseline|||0.779|0.683|<0.001
82455397|NCT01910402|164614930|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.693|||<|0.001|TWO_SIDED|95.0|0.647|0.741|||ANCOVA||PTP ratio of Week 48 result over Baseline|||0.741|0.647|<0.001
82455398|NCT01910402|164614930|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.629|||<|0.001|TWO_SIDED|95.0|0.581|0.68|||ANCOVA||Osteocalcin ratio of Week 48 result over Baseline|||0.680|0.581|<0.001
82455399|NCT01910402|164614930|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.655|||<|0.0001|TWO_SIDED|95.0|0.609|0.706|||ANCOVA||Type 1 Collagen C-Telopeptide ratio of Week 48 result over Baseline|||0.706|0.609|<0.0001
82455400|NCT01910402|164614930|SUPERIORITY_OR_OTHER_LEGACY||Ratio of ratio|0.852|||<|0.0001|TWO_SIDED|95.0|0.794|0.914|||ANCOVA||Vitamin D ratio of Week 48 result over Baseline|||0.914|0.794|<0.0001
82455401|NCT01910402|164614932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016||95.0||||Week 4|Wilcoxon (Mann-Whitney)|||||||0.016
82437517|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.056|TWO_SIDED|95.0|-0.01|0.77|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.77|-0.01|0.056
82540596|NCT01212757|164780709|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14||||0.0042|TWO_SIDED|95.0|-0.236|-0.045|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.045|-0.236|0.0042
82540597|NCT01212757|164780709|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.104||||0.032|TWO_SIDED|95.0|-0.199|-0.009|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.009|-0.199|0.0320
82540598|NCT01212757|164780710|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|9.2||||0.0394|TWO_SIDED|95.0|0.5|17.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.8|0.5|0.0394
82540599|NCT01212757|164780710|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|15.7||||0.0009|TWO_SIDED|95.0|6.7|24.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||24.7|6.7|0.0009
82649384|NCT02273206|165014069|SUPERIORITY|||||||0.95|||||||Chi-squared|||Self-efficacy at 12 months. Continuous summary score was converted into 4 categories using quartiles as cut-points.||||0.95
82437518|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.047|TWO_SIDED|95.0|0.01|0.78|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|0.01|0.047
82437519|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.56||||0.005|TWO_SIDED|95.0|0.17|0.95|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|0.17|0.005
82437520|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.53||||0.007|TWO_SIDED|95.0|0.14|0.92|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.92|0.14|0.007
82437521|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.276|TWO_SIDED|95.0|-0.42|0.12|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.12|-0.42|0.276
82437522|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.318|TWO_SIDED|95.0|-0.41|0.13|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-0.41|0.318
82455402|NCT01910402|164614932|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Week 12|Wilcoxon (Mann-Whitney)|||||||<0.001
82437523|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.03||||0.849|TWO_SIDED|95.0|-0.25|0.3|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.30|-0.25|0.849
82437524|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.138|TWO_SIDED|95.0|-0.09|0.66|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.66|-0.09|0.138
82437525|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.111|TWO_SIDED|95.0|-0.07|0.68|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.68|-0.07|0.111
82437526|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.031|TWO_SIDED|95.0|0.04|0.79|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.79|0.04|0.031
82437527|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.49||||0.011|TWO_SIDED|95.0|0.11|0.87|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.87|0.11|0.011
82455403|NCT01910402|164614932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Week 24|Wilcoxon (Mann-Whitney)|||||||0.002
82455404|NCT01910402|164614932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0||||Week 48|Wilcoxon (Mann-Whitney)|||||||0.007
82455405|NCT00824473|164614938|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4286|STANDARD_ERROR_OF_MEAN|0.351|<|0.001||95.0|-2.12|-0.74|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Overall change from baseline||-0.74|-2.12|<0.001
82455406|NCT00824473|164614939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6063|STANDARD_ERROR_OF_MEAN|0.1697|<|0.001||95.0|-0.94|-0.27|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||||-0.27|-0.94|<0.001
82455407|NCT00824473|164614940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3947|STANDARD_ERROR_OF_MEAN|0.3391|<|0.001||95.0|-2.06|-0.73|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||Overall change from baseline||-0.73|-2.06|<0.001
82455408|NCT00824473|164614941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9284|STANDARD_ERROR_OF_MEAN|0.2741|<|0.001||95.0|-1.47|-0.39|||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||reflective TOSS change in baseline||-0.39|-1.47|<0.001
82455409|NCT00824473|164614942|SUPERIORITY_OR_OTHER|||||||0.01|||||||ANCOVA|ANCOVA is being used due to a covariate being included in the model. The covariate is baseline TNSS score.||change from baseline||||0.010
82455410|NCT01359904|164614944|SUPERIORITY_OR_OTHER|||||||0.027|||||||Chi-squared|||||||0.027
82455411|NCT01359904|164614945|SUPERIORITY_OR_OTHER|||||||0.67|||||||Kruskal-Wallis|||post intervention hemoglobin A1c levels||||0.67
82455412|NCT01359904|164614946|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.20
82455413|NCT01359904|164614947|SUPERIORITY_OR_OTHER|||||||0.32|||||||Chi-squared|||||||0.32
82455414|NCT02660853|164614948|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||Baseline versus during exacerbation.||||0.745
82455415|NCT02660853|164614952|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||0.326
82455416|NCT03594773|164614958|SUPERIORITY||Mean Difference (Final Values)|-0.496|STANDARD_ERROR_OF_MEAN|1.56||0.752|TWO_SIDED|95.0|-3.62|2.63|||t-test, 2 sided|df=56, equal variances assumed||||2.63|-3.62|.752
82437528|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.2||||0.135|TWO_SIDED|95.0|-0.47|0.06|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.06|-0.47|0.135
82437529|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.175|TWO_SIDED|95.0|-0.44|0.08|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.08|-0.44|0.175
82437530|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.59|TWO_SIDED|95.0|-0.34|0.19|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.19|-0.34|0.590
82437531|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.15||||0.402|TWO_SIDED|95.0|-0.2|0.49|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.49|-0.20|0.402
82437532|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.261|TWO_SIDED|95.0|-0.15|0.54|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.54|-0.15|0.261
82437533|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.26||||0.134|TWO_SIDED|95.0|-0.08|0.61|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.61|-0.08|0.134
82455417|NCT03594773|164614959|SUPERIORITY||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|2.62||0.633|TWO_SIDED|95.0|-4.01|6.52|||t-test, 2 sided|df=49, equal variances assumed||||6.52|-4.01|.633
82455418|NCT03594773|164614960|SUPERIORITY||Mean Difference (Final Values)|0.95|STANDARD_ERROR_OF_MEAN|1.73||0.586|TWO_SIDED|95.0|-2.53|4.44|||t-test, 2 sided|df=49, equal variances assumed||||4.44|-2.53|.586
82455419|NCT02707146|164614962|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|||||Chi-squared|||||||
82455420|NCT01588561|164614986|OTHER||||||||||||||||||Increased signal: Insula, Putamen, Cingulate, Paracingulate, Calcarine cortex, Lingual gyrus, Frontal pole, Fusiform gyrus, Cerebellum. Decreased signal:Thalamus, Temporal gyri, Hippocampus (left), Caudate, Cerebellum|||
82455421|NCT01588561|164614987|OTHER||||||||||||||||||Increased signal: Insula, Putamen, Pallidum, Cingulate, Thalamus, Operculum, OBF cortex, Lingual gyrus, Cerebellum. Decreased signal: Hippocampus (left), Parahippocampus (left), Caudate, Cerebellum|||
82455422|NCT01588561|164614988|OTHER||||||||||||||||||Increased signal: Insula (bilateral), Cingulate, Pretcentralgyrus, Thalamus (bilateral), Putamen (bilateral), Pallidum (bilateral), Amygdala (bilateral), Ventral tegmental area, Accumbens Nuclei. Decreased signal: Insula (left inferior), OBF cortex, Frontal\&Temporal poles, Hippocampus (bilateral), Parahippocampus (bilateral), Accumbens nuclei, Cerebellum|||
82455423|NCT01337336|164614995|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.002||95.0|1.08|1.56|||Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.56|1.08|0.002
82455424|NCT01337336|164614996|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.002||95.0|1.02|2.38||COPD-related hospitalization|Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.38|1.02|0.002
82455425|NCT01337336|164614996|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.002||95.0|1.14|2.39||COPD-related ER visit|Chi-squared||Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.39|1.14|0.002
82455426|NCT01337336|164614996|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.503||95.0|0.93|1.4|||Chi-squared|COPD-related physician + Rx visit|Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.40|0.93|0.503
82455427|NCT01337336|164614996|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71|||<|0.001||95.0|1.26|2.31|||Chi-squared|COPD-related hospitalization/ER visit|Estimated value obtained from logistic regression model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.31|1.26|<0.001
82540600|NCT01212757|164780711|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.121||||0.0191|TWO_SIDED|95.0|-0.222|-0.02|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||-0.020|-0.222|0.0191
82540601|NCT01212757|164780711|SUPERIORITY||LS Mean Difference|-0.08||||0.1179|TWO_SIDED|95.0|-0.18|0.02|||ANCOVA||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||0.020|-0.180|0.1179
82437534|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.031|TWO_SIDED|95.0|0.03|0.72|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|0.03|0.031
82437535|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.061|TWO_SIDED|95.0|-0.47|0.01|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.01|-0.47|0.061
82437536|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.138|TWO_SIDED|95.0|-0.42|0.06|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.06|-0.42|0.138
82437537|NCT01559259|164583770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.353|TWO_SIDED|95.0|-0.35|0.13|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-0.35|0.353
82437538|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.88||||0.006|TWO_SIDED|95.0|0.25|1.51|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.51|0.25|0.006
82437539|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.69||||0.03|TWO_SIDED|95.0|0.07|1.31|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.31|0.07|0.030
82437540|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.81||||0.012|TWO_SIDED|95.0|0.17|1.44|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.44|0.17|0.012
82437541|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.237|TWO_SIDED|95.0|-0.25|1.01|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.01|-0.25|0.237
82437542|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.5||||0.024|TWO_SIDED|95.0|0.07|0.93|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.93|0.07|0.024
82437543|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.31||||0.15|TWO_SIDED|95.0|-0.11|0.73|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.73|-0.11|0.150
82437544|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.43||||0.054|TWO_SIDED|95.0|-0.01|0.86|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.01|0.054
82437545|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.89|||<|0.001|TWO_SIDED|95.0|1.92|3.85|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.85|1.92|<0.001
82437546|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.52|||<|0.001|TWO_SIDED|95.0|1.56|3.47|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.47|1.56|<0.001
82437547|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.51|||<|0.001|TWO_SIDED|95.0|1.54|3.47|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.47|1.54|<0.001
82437548|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.76|||<|0.001|TWO_SIDED|95.0|0.79|2.72|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.72|0.79|<0.001
82437549|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.13|||<|0.001|TWO_SIDED|95.0|0.47|1.79|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.79|0.47|<0.001
82540602|NCT01212757|164780712|SUPERIORITY||LS Mean Difference|2.1||||0.0237|TWO_SIDED|95.0|0.28|3.92|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above||3.92|0.28|0.0237
82540603|NCT01212757|164780712|SUPERIORITY||LS Mean Difference|1.36||||0.1388|TWO_SIDED|95.0|-0.44|3.15|||ANCOVA||Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above||3.15|-0.44|0.1388
82649385|NCT02741271|165014076|SUPERIORITY||LSM Difference|5.21|||<|0.001|TWO_SIDED|95.0|3.21|7.2|||cLDA with multiple imputation|Primary Analysis Method, using the constrained Longitudinal Data Analysis (cLDA) model for missing data|Between-Treatment Difference|||7.20|3.21|<0.001
82437550|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.76||||0.021|TWO_SIDED|95.0|0.11|1.41|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.11|0.021
82437551|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.75||||0.027|TWO_SIDED|95.0|0.09|1.41|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|0.09|0.027
82455428|NCT01337336|164614998|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.46||||0.0004||95.0|1.01|2.09||COPD-related hospitalization|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||2.09|1.01|0.0004
82455429|NCT01337336|164614998|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.27||||0.208||95.0|0.89|1.82||COPD-related ER visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.82|0.89|0.208
82455430|NCT01337336|164614998|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.09||||0.671||95.0|0.9|1.32||COPD-related physician + Rx visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.32|0.90|0.671
82455431|NCT01337336|164614998|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.31||||0.009||95.0|1.05|1.72||COPD-related hospitalization/ER visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.72|1.05|0.009
82455432|NCT01337336|164614998|SUPERIORITY_OR_OTHER||Incident Rate Ratio|1.16||||0.052||95.0|0.98|1.37||COPD-related hospitalization/ER visit/physician + Rx visit|t-test, 2 sided||Estimated value obtained from zero-inflated negative binomial model controlling for differences between cohorts at baseline on demographic variables, proxy measures of COPD severity, and measures of overall disease burden.|||1.37|0.98|0.052
82455433|NCT02501590|164614999|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82455434|NCT01290614|164615004|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||t-test, 2 sided|||||||0.57
82455435|NCT01290614|164615005|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82437552|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.75|||<|0.001|TWO_SIDED|95.0|3.65|5.84|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.84|3.65|<0.001
82455438|NCT01618669|164615021|NON_INFERIORITY_OR_EQUIVALENCE|If the lower confidence bound of the 1-sided alpha level of 0.025 of the difference in the proportion of participants with majority reader self-agreement exceeded -0.075, non-inferiority would be demonstrated.|Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.015|||TWO_SIDED|95.0|-0.06|0.0|||||Difference equals Regadenoson After Peak Exercise minus Regadenoson Alone|||-0.00|-0.06|
82455439|NCT01618669|164615023|NON_INFERIORITY_OR_EQUIVALENCE|The lower confidence bound of the 1-sided alpha level of 0.025 of the difference in agreement rates must exceed -0.10 in order to demonstrate non-inferiority.|Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.063|||TWO_SIDED|95.0|-0.14|0.11|||||Difference equals Regadenoson After Peak Exercise minus Regadenoson Alone|||0.11|-0.14|
82455440|NCT01618669|164615024|NON_INFERIORITY_OR_EQUIVALENCE|The lower confidence bound of the 1-sided alpha level of 0.025 of the difference in agreement rates must exceed -0.133 in order to demonstrate non-inferiority. Non-inferiority could not be assessed because of insufficient data in the Regadenoson Alone group.|Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.027|||TWO_SIDED|95.0|-0.07|0.04||||||||0.04|-0.07|
82455441|NCT01618669|164615025|SUPERIORITY_OR_OTHER||Difference|0.02|STANDARD_ERROR_OF_MEAN|0.022|||TWO_SIDED|95.0|-0.03|0.06||||||||0.06|-0.03|
82455442|NCT01702558|164615053|SUPERIORITY||Difference in Response Rates|8.2||||0.336|TWO_SIDED|90.0|-4.5|20.9|||Fisher Exact||90% CI was estimated using Hauck-Anderson approach.|||20.9|-4.5|0.336
82455443|NCT03259087|164615090|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|1.07|1.47|||||GMR is ratio of Experimental Group / Healthy Group|||1.47|1.07|
82455444|NCT03259087|164615090|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.7|||||TWO_SIDED|90.0|1.42|2.02|||||GMR is ratio of Experimental Group / Healthy Group|||2.02|1.42|
82455445|NCT03259087|164615090|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.98|||||TWO_SIDED|90.0|2.2|4.04|||||GMR is ratio of Experimental Group / Healthy Group|||4.04|2.20|
82455446|NCT03259087|164615091|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.25|||||TWO_SIDED|90.0|1.06|1.46|||||GMR is ratio of Experimental Group / Healthy Group|||1.46|1.06|
82455447|NCT03259087|164615091|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.68|||||TWO_SIDED|90.0|1.41|1.99|||||GMR is ratio of Experimental Group / Healthy Group|||1.99|1.41|
82455448|NCT03259087|164615091|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.91|||||TWO_SIDED|90.0|2.17|3.9|||||GMR is ratio of Experimental Group / Healthy Group|||3.90|2.17|
82455449|NCT03259087|164615092|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|1.04|1.4|||||GMR is ratio of Experimental Group / Healthy Group|||1.40|1.04|
82455450|NCT03259087|164615092|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.59|||||TWO_SIDED|90.0|1.36|1.86|||||GMR is ratio of Experimental Group / Healthy Group|||1.86|1.36|
82455451|NCT03259087|164615092|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.32|||||TWO_SIDED|90.0|1.82|2.97|||||GMR is ratio of Experimental Group / Healthy Group|||2.97|1.82|
82490262|NCT03113916|164673469|SUPERIORITY||Slope|-0.63||||0.12|TWO_SIDED|95.0|-1.41|0.16|||Mixed Models Analysis|||||0.16|-1.41|.12
82437553|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.21|||<|0.001|TWO_SIDED|95.0|3.13|5.29|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.29|3.13|<0.001
82437554|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.47|||<|0.001|TWO_SIDED|95.0|3.37|5.56|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.56|3.37|<0.001
82437555|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.92|||<|0.001|TWO_SIDED|95.0|2.83|5.02|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.02|2.83|<0.001
82437556|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.031|TWO_SIDED|95.0|0.08|1.58|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.58|0.08|0.031
82437557|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.442|TWO_SIDED|95.0|-0.44|1.02|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|-0.44|0.442
82437558|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.152|TWO_SIDED|95.0|-0.2|1.3|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|-0.20|0.152
82437559|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.62|||<|0.001|TWO_SIDED|95.0|4.52|6.72|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.72|4.52|<0.001
82437560|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.04|||<|0.001|TWO_SIDED|95.0|3.96|6.13|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.13|3.96|<0.001
82437561|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.4|||<|0.001|TWO_SIDED|95.0|4.3|6.5|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.50|4.30|<0.001
82437562|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.88|||<|0.001|TWO_SIDED|95.0|3.78|5.98|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.98|3.78|<0.001
82437563|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.055|TWO_SIDED|95.0|-0.01|1.49|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.49|-0.01|0.055
82437564|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.666|TWO_SIDED|95.0|-0.57|0.9|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.90|-0.57|0.666
82437565|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.51||||0.181|TWO_SIDED|95.0|-0.24|1.27|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.27|-0.24|0.181
82437566|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.86|||<|0.001|TWO_SIDED|95.0|4.71|7.01|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||7.01|4.71|<0.001
82437567|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.43|||<|0.001|TWO_SIDED|95.0|4.29|6.57|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.57|4.29|<0.001
82437568|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.79|||<|0.001|TWO_SIDED|95.0|4.64|6.94|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.94|4.64|<0.001
82437569|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.34|||<|0.001|TWO_SIDED|95.0|4.19|6.5|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.50|4.19|<0.001
82437570|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.52||||0.2|TWO_SIDED|95.0|-0.27|1.31|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.31|-0.27|0.200
82437571|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.08||||0.831|TWO_SIDED|95.0|-0.69|0.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.85|-0.69|0.831
82577914|NCT00461981|164865041|SUPERIORITY_OR_OTHER_LEGACY||Rate difference|-20.0||||||95.0|-71.6|33.9||||||The seroconversion rates (the proportions of baseline seronegative subjects achieving a 4 or more fold increase in titer from baseline) were summarized for baseline seronegative subjects by treatment group and by dose number. A two-sided exact 95% confidence interval (CI) was constructed on the rate differences using the unconditional exact method proposed by Chan and Zhang (Chan, 1999).||33.9|-71.6|
82649386|NCT02741271|165014079|SUPERIORITY||LSM Difference|6.05|||<|0.001|TWO_SIDED|95.0|3.53|8.56|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 4 hr Post-Dose|||8.56|3.53|<0.001
82649387|NCT02741271|165014079|SUPERIORITY||LSM Difference|7.04|||<|0.001|TWO_SIDED|95.0|4.74|9.35|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 2 hr Post-Dose|||9.35|4.74|<0.001
82649388|NCT02741271|165014079|SUPERIORITY||LSM Difference|6.19|||<|0.001|TWO_SIDED|95.0|4.09|8.28|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 60 min Post-Dose|||8.28|4.09|<0.001
82649389|NCT02741271|165014079|SUPERIORITY||LSM Difference|6.89|||<|0.001|TWO_SIDED|95.0|5.1|8.67|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 30 min Post-Dose|||8.67|5.10|<0.001
82649390|NCT02741271|165014079|SUPERIORITY||LSM Difference|6.64|||<|0.001|TWO_SIDED|95.0|4.89|8.39|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 15 min Post-Dose|||8.39|4.89|<0.001
82649391|NCT02741271|165014079|SUPERIORITY||LSM Difference|4.2|||<|0.001|TWO_SIDED|95.0|2.5|5.91|||cLDA with multiple imputation|Primary Analysis Method|Between-Treatment Difference at 5 min Post-Dose|||5.91|2.50|<0.001
82649392|NCT02741271|165014080|SUPERIORITY||LSM Difference|6.32|||<|0.001|TWO_SIDED|95.0|4.36|8.27|||cLDA|Secondary Outcome Measure on Day 1|Between-Treatment Difference at 4 hr Post-Dose|||8.27|4.36|<0.001
82649393|NCT02741271|165014080|SUPERIORITY||LSM Difference|3.33||||0.026|TWO_SIDED|95.0|0.41|6.26|||cLDA|Secondary Outcome Measure at Week 12|Between-Treatment Difference at 4 hr Post-Dose|||6.26|0.41|0.026
82649394|NCT02741271|165014081|SUPERIORITY||LSM Difference|1.63||||0.197|TWO_SIDED|95.0|-0.85|4.11|||cLDA|Secondary Outcome Measure|Between-Treatment Difference|||4.11|-0.85|0.197
82437572|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.268|TWO_SIDED|95.0|-0.34|1.24|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|-0.34|0.268
82649395|NCT00410410|165014095|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.124|TWO_SIDED|95.0|0.48|1.09||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata (whether a participant had an inadequate response and/or intolerance to anti-TNF therapy).|Cochran-Mantel-Haenszel|Conditional on ABA 30/\~10 mg/kg vs PLA comparison being statistically significant at 5% level, ABA \~10 vs PLA to be tested at 5% significance level.||Null hypothesis=no treatment difference between ABA arm and placebo (PLA) arm. ABA 30/\~10 mg/kg vs PLA: power=98%, sample size=140 per arm,expected PLA response rate=40%, ABA 30/\~10 mg/kg=65%. ABA \~10 mg/kg vs. PLA: power=90%, sample size=140 per arm, 5% significance; expected PLA response rate= 40%, ABA \~10=60%.||1.09|0.48|0.124
82649396|NCT00410410|165014097|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.06|0.67||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata.|Cochran-Mantel-Haenszel|Conditional on ABA 30/\~10 vs PLA comparison for clinical response being significant at 5% level, this comparison for remission will be tested at 5%.|Conditional on both the remission comparison for ABA 30/\~10 vs PLA, and the clinical response comparison for ABA\~10 vs PLA being significant at 5%, the secondary remission comparison for ABA \~10 vs PLA will be tested at 5%.|Null hypothesis=no treatment difference between each of the ABA and placebo (PLA). At 5% significance level, Aba 30/\~10 vs. PLA: power=96%, sample size=140 per arm, expected PLA rate=15%. ABA 30/\~10 =35%; Aba \~10 vs. PLA: power=82%, sample size=140 per arm, expected PLA response rate= 15%, ABA/\~10 mg/kg=30%||0.67|.06|
82649397|NCT00410410|165014098|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.42|1.05||Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata.|Cochran-Mantel-Haenszel|If ABA 30/\~10 vs PLA remission comparison is significant at 5% level, the mucosal healing comparison for the same treatment group will be tested at 5%|Conditional on both the comparison for mucosal healing for ABA 30/\~10 vs PLA and the comparison for remission for ABA \~10 vs. PLA being significant, the comparison for mucosal healing for ABA \~10 vs PLA will be tested at 5%.|Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1) for mucosal healing. ABA 30/\~10 vs. placebo: power=99%, sample size=140 per arm, expected PLA response rate=30%, ABA 30/\~10 mg/kg=60%. ABA \~10 vs. placebo: power=98%, sample size=140 per arm, 5% significance; expected PLA response rate= 30%, ABA \~10 mg/kg=55%||1.05|0.42|
82649398|NCT00410410|165014099|SUPERIORITY_OR_OTHER|||||||0.044||||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms.||||0.044
82649399|NCT00410410|165014105|SUPERIORITY_OR_OTHER|||||||0.149||||||All statistical testing was performed at a pre-specified alpha-level of 5%|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.149
82437573|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.73|||<|0.001|TWO_SIDED|95.0|4.54|6.91|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.91|4.54|<0.001
82455452|NCT03259087|164615093|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.99|||||TWO_SIDED|90.0|0.84|1.16|||||GMR is ratio of Experimental Group / Healthy Group|||1.16|0.84|
82649400|NCT00449930|165014179|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%; i.e., non-inferiority required that the upper boundary of the 95% confidence interval for the treatment difference (sitagliptin minus metformin) to be less than 0.4%.|Mean Difference (Net)|0.14|STANDARD_DEVIATION|0.57||||95.0|0.06|0.21|||||Based on an analysis of covariance (ANCOVA) model with terms for treatment group and baseline value.|||0.21|0.06|
82649401|NCT00449930|165014180|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.3|||<|0.001||95.0|-10.6|-4.2|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with diarrhea.~Wilson Score method was used for the 95% Confidence Interval (CI)."|||-4.2|-10.6|<0.001
82437574|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.31|||<|0.001|TWO_SIDED|95.0|4.13|6.48|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.48|4.13|<0.001
82437575|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.6|||<|0.001|TWO_SIDED|95.0|4.41|6.78|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.78|4.41|<0.001
82455453|NCT03259087|164615093|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.03|||||TWO_SIDED|90.0|0.9|1.18|||||GMR is ratio of Experimental Group / Healthy Group|||1.18|0.90|
82455454|NCT03259087|164615093|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.11|||||TWO_SIDED|90.0|0.95|1.29|||||GMR is ratio of Experimental Group / Healthy Group|||1.29|0.95|
82455455|NCT03259087|164615095|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.8|||||TWO_SIDED|90.0|0.68|0.94|||||GMR is ratio of Experimental Group / Healthy Group|||0.94|0.68|
82455456|NCT03259087|164615095|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.59|||||TWO_SIDED|90.0|0.49|0.7|||||GMR is ratio of Experimental Group / Healthy Group|||0.70|0.49|
82455457|NCT03259087|164615095|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.34|||||TWO_SIDED|90.0|0.25|0.45|||||GMR is ratio of Experimental Group / Healthy Group|||0.45|0.25|
82455458|NCT03259087|164615099|OTHER||Geometric Least Squares Mean Ratio (GMR)|3.97|||||TWO_SIDED|90.0|3.26|4.82|||||GMR is ratio of Experimental Group / Healthy Group|||4.82|3.26|
82455459|NCT03259087|164615099|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.58|||||TWO_SIDED|90.0|1.3|1.92|||||GMR is ratio of Experimental Group / Healthy Group|||1.92|1.30|
82649402|NCT00449930|165014181|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.9||||0.032||95.0|-3.9|-0.2|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with nausea.~Wilson Score method was used for the 95% CI."|||-0.2|-3.9|0.032
82649403|NCT00449930|165014182|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.7||||0.103||95.0|-4.0|0.3|||Fisher Exact||"Difference (sitagliptin minus metformin) in the percentage of patients with abdominal pain.~Wilson Score method was used for the 95% CI."|||0.3|-4.0|0.103
82649404|NCT00449930|165014183|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.0||||||95.0|-2.4|0.2|||||"Difference (sitagliptin minus metformin) in the percentage of patients with vomiting.~Wilson Score method was used for the 95% CI."|||0.2|-2.4|
82437576|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.35|||<|0.001|TWO_SIDED|95.0|4.17|6.54|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.54|4.17|<0.001
82437577|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.367|TWO_SIDED|95.0|-0.44|1.19|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.19|-0.44|0.367
82455460|NCT03259087|164615100|OTHER||Geometric Least Squares Mean Ratio (GMR)|3.63|||||TWO_SIDED|90.0|3.03|4.36|||||GMR is ratio of Experimental Group / Healthy Group|||4.36|3.03|
82455461|NCT03259087|164615100|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.46|||||TWO_SIDED|90.0|1.22|1.75|||||GMR is ratio of Experimental Group / Healthy Group|||1.75|1.22|
82455462|NCT03259087|164615101|OTHER||Geometric Least Squares Mean Ratio (GMR)|2.61|||||TWO_SIDED|90.0|2.23|3.06|||||GMR is ratio of Experimental Group / Healthy Group|||3.06|2.23|
82455463|NCT03259087|164615101|OTHER||Geometric Least Squares Mean Ratio (GMR)|1.09|||||TWO_SIDED|90.0|0.95|1.25|||||GMR is ratio of Experimental Group / Healthy Group|||1.25|0.95|
82455464|NCT03259087|164615102|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.98|||||TWO_SIDED|90.0|0.84|1.14|||||GMR is ratio of Experimental Group / Healthy Group|||1.14|0.84|
82455465|NCT03259087|164615102|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.75|1.2|||||GMR is ratio of Experimental Group / Healthy Group|||1.20|0.75|
82455466|NCT03259087|164615103|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.99|||||TWO_SIDED|90.0|0.85|1.16|||||GMR is ratio of Experimental Group / Healthy Group|||1.16|0.85|
82455467|NCT03259087|164615103|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.94|||||TWO_SIDED|90.0|0.75|1.2|||||GMR is ratio of Experimental Group / Healthy Group|||1.20|0.75|
82455468|NCT03259087|164615104|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.25|||||TWO_SIDED|90.0|0.21|0.31|||||GMR is ratio of Experimental Group / Healthy Group|||0.31|0.21|
82455469|NCT03259087|164615104|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.63|||||TWO_SIDED|95.0|0.52|0.77|||||GMR is ratio of Experimental Group / Healthy Group|||0.77|0.52|
82455470|NCT03259087|164615108|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.9|||||TWO_SIDED|90.0|0.74|1.11|||||GMR is ratio of Experimental Group / Healthy Group|||1.11|0.74|
82455471|NCT03259087|164615108|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.64|||||TWO_SIDED|90.0|0.47|0.88|||||GMR is ratio of Experimental Group / Healthy Group|||0.88|0.47|
82455472|NCT03259087|164615108|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.3|||||TWO_SIDED|90.0|0.21|0.43|||||GMR is ratio of Experimental Group / Healthy Group|||0.43|0.21|
82455473|NCT03259087|164615109|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.75|||||TWO_SIDED|90.0|0.57|0.98|||||GMR is ratio of Experimental Group / Healthy Group|||0.98|0.57|
82455474|NCT03259087|164615109|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.4|||||TWO_SIDED|90.0|0.31|0.53|||||GMR is ratio of Experimental Group / Healthy Group|||0.53|0.31|
82455475|NCT03259087|164615109|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.13|||||TWO_SIDED|90.0|0.08|0.22|||||GMR is ratio of Experimental Group / Healthy Group|||0.22|0.08|
82455476|NCT03259087|164615110|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.9|||||TWO_SIDED|90.0|0.74|1.11|||||GMR is ratio of Experimental Group / Healthy Group|||1.11|0.74|
82455477|NCT03259087|164615110|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.64|||||TWO_SIDED|90.0|0.47|0.88|||||GMR is ratio of Experimental Group / Healthy Group|||0.88|0.47|
82455478|NCT03259087|164615110|OTHER||Geometric Least Squares Mean Ratio (GMR)|0.3|||||TWO_SIDED|90.0|0.21|0.43|||||GMR is ratio of Experimental Group / Healthy Group|||0.43|0.21|
82652354|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.116||||0.3175|TWO_SIDED|95.0|-0.345|0.112||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.112|-0.345|0.3175
82437578|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.908|TWO_SIDED|95.0|-0.84|0.75|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|-0.84|0.908
82540604|NCT01212757|164780713|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference|14.9||||0.0065|TWO_SIDED|95.0|4.3|25.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||25.5|4.3|0.0065
82437579|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.553|TWO_SIDED|95.0|-0.57|1.06|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.06|-0.57|0.553
82437580|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.45|||<|0.001|TWO_SIDED|95.0|4.22|6.68|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.68|4.22|<0.001
82437581|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.1|||<|0.001|TWO_SIDED|95.0|3.88|6.31|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.31|3.88|<0.001
82437582|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.42|||<|0.001|TWO_SIDED|95.0|4.19|6.66|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.66|4.19|<0.001
82437583|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.17|||<|0.001|TWO_SIDED|95.0|3.94|6.4|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.40|3.94|<0.001
82437584|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.28||||0.518|TWO_SIDED|95.0|-0.57|1.12|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.12|-0.57|0.518
82437585|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.86|TWO_SIDED|95.0|-0.9|0.75|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.75|-0.90|0.860
82437586|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.25||||0.556|TWO_SIDED|95.0|-0.59|1.1|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|-0.59|0.556
82437587|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.44|||<|0.001|TWO_SIDED|95.0|4.17|6.71|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.71|4.17|<0.001
82437588|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.93|||<|0.001|TWO_SIDED|95.0|3.68|6.19|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.19|3.68|<0.001
82437589|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.27|||<|0.001|TWO_SIDED|95.0|4.0|6.54|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.54|4.00|<0.001
82437590|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.06|||<|0.001|TWO_SIDED|95.0|3.79|6.34|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.34|3.79|<0.001
82437591|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.38||||0.392|TWO_SIDED|95.0|-0.49|1.25|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.25|-0.49|0.392
82437592|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.13||||0.762|TWO_SIDED|95.0|-0.98|0.72|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.72|-0.98|0.762
82437593|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.21||||0.638|TWO_SIDED|95.0|-0.66|1.08|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|-0.66|0.638
82437594|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.55|||<|0.001|TWO_SIDED|95.0|3.2|5.9|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.90|3.20|<0.001
82437595|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.45|||<|0.001|TWO_SIDED|95.0|3.11|5.78|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.78|3.11|<0.001
82561849|NCT02291861|164832896|SUPERIORITY||LSM difference|-3.6||||0.207|TWO_SIDED|95.0|-9.18|2.0||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||2.00|-9.18|0.207
82540605|NCT01212757|164780713|SUPERIORITY||Adjusted Difference|14.7||||0.0071|TWO_SIDED|95.0|4.1|25.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.||25.2|4.1|0.0071
82649405|NCT03124381|165014195|NON_INFERIORITY|Non-inferiority concluded if the upper bound of the two-sided 95% confidence interval (based on ANCOVA) is less than 15 percentage points. Terms for treatment, gender, center as factors and baseline as covariate.|Mean Difference (Net)|3.19|STANDARD_ERROR_OF_MEAN|5.164|||TWO_SIDED|95.0|-7.04|13.42||||||Non-inferiority test performed after significance vs. baseline confirmed for each cell. The null hypothesis for the non-inferiority test was H0: A-B≥15%, where A and B are the mean percent change at Week 12 of global face total acne lesion count of the Gel-Cream + Acne Mask cell and Acne Mask cell, respectively.||13.42|-7.04|
82649406|NCT03124381|165014195|SUPERIORITY|Superiority concluded if the upper bound of the two-sided 95% confidence interval of the treatment difference is less than 0. Terms for treatment, gender, and center as factors and baseline score as covariate.|Mean Difference (Net)|3.19|STANDARD_ERROR_OF_MEAN|5.164||0.538|TWO_SIDED|95.0|-7.04|13.42|||ANCOVA|||Superiority test performed after non-inferiority confirmed as described above. The null hypothesis for the superiority test was H0: A-B = 0, where A and B are the mean percent change at Week 12 of global face total acne lesion count of the Acne Mask and the Gel-Cream + Acne Mask cell, respectively.||13.42|-7.04|0.538
82649407|NCT01365845|165014238|SUPERIORITY_OR_OTHER||Non-parametric paired t-test (Wilcoxon)|29.1||||0.0078|||||||Wilcoxon (Mann-Whitney)|||||||0.0078
82649408|NCT03210259|165014244|EQUIVALENCE|Equivalence was concluded if the confidence interval (CI) for the least squares (LS) means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Least squares means ratio|105.19|||||TWO_SIDED|90.2|96.58|114.64|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm in the numerator and the continuous arm in the denominator.|The null hypothesis was that the ratio of expected means for Switching vs. Continuous Humira is less than 80.00% or more than 125.00%.||114.64|96.58|
82437596|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.91|||<|0.001|TWO_SIDED|95.0|3.56|6.26|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||6.26|3.56|<0.001
82437597|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.39|||<|0.001|TWO_SIDED|95.0|3.04|5.74|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.74|3.04|<0.001
82437598|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.741|TWO_SIDED|95.0|-0.77|1.08|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|-0.77|0.741
82437599|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.05||||0.907|TWO_SIDED|95.0|-0.85|0.95|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.95|-0.85|0.907
82437600|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.51||||0.274|TWO_SIDED|95.0|-0.41|1.44|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.44|-0.41|0.274
82437601|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.77|||<|0.001|TWO_SIDED|95.0|2.4|5.13|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.13|2.40|<0.001
82437602|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.91|||<|0.001|TWO_SIDED|95.0|2.56|5.26|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.26|2.56|<0.001
82437603|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.12|||<|0.001|TWO_SIDED|95.0|2.75|5.48|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.48|2.75|<0.001
82649409|NCT03210259|165014245|EQUIVALENCE|Equivalence was concluded if the confidence interval (CI) for the LS means ratio was included in the pre-defined equivalence range of 80.00% to 125.00%.|Least squares means ratio|101.14|||||TWO_SIDED|90.2|93.26|109.7|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm in the numerator and the continuous arm in the denominator.|The null hypothesis was that the ratio of expected means for Switching vs. Continuous Humira is less than 80.00% or more than 125.00%.||109.70|93.26|
82437604|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.01|||<|0.001|TWO_SIDED|95.0|2.64|5.38|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.38|2.64|<0.001
82437605|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.607|TWO_SIDED|95.0|-1.18|0.69|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.69|-1.18|0.607
82455479|NCT04950465|164615127|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2639|TWO_SIDED|95.0|-0.12|0.43|||ANCOVA|||||0.43|-0.12|0.2639
82540606|NCT01212757|164780714|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.9||||0.0648|TWO_SIDED|95.0|-10.0|0.3|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.3|-10.0|0.0648
82455480|NCT04950465|164615128|SUPERIORITY|||||||0.6978|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 4||||0.6978
82455481|NCT04950465|164615128|SUPERIORITY|||||||0.813|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 8||||0.8130
82540607|NCT01212757|164780714|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.5||||0.0347|TWO_SIDED|95.0|-10.6|-0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.4|-10.6|0.0347
82540608|NCT01212757|164780715|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.3496|TWO_SIDED|95.0|-1.2|0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.4|-1.2|0.3496
82540609|NCT01212757|164780715|SUPERIORITY||LS Mean Difference|0.1||||0.8874|TWO_SIDED|95.0|-0.7|0.8|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.8|-0.7|0.8874
82540610|NCT01212757|164780716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.5438|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.5|-1.0|0.5438
82540611|NCT01212757|164780716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.3759|TWO_SIDED|95.0|-0.4|1.0|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||1.0|-0.4|0.3759
82540612|NCT01212757|164780717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.51||||0.0035|TWO_SIDED|95.0|-5.86|-1.16|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-1.16|-5.86|0.0035
82649410|NCT03210259|165014246|OTHER||Least squares means ratio|107.31|||||TWO_SIDED|90.2|97.33|118.43|||||The least squares means were from ANCOVA. Ratio was calculated with the switching arm as numerator and the continuous arm as the denominator.|No hypothesis was defined and no statistical test was performed.||118.43|97.33|
82649411|NCT03210259|165014248|OTHER||Risk Difference (RD)|5.75|||||TWO_SIDED|90.0|-2.45|13.96|||||Risk difference was calculated as Switching arm minus Continuous Humira.|No hypothesis was tested.||13.96|-2.45|
82649412|NCT03210259|165014249|OTHER||Risk Difference (RD)|5.63|||||TWO_SIDED|90.0|-4.35|15.62|||||Risk difference was calculated as Switching arm minus Continuous Humira.|No hypothesis was tested.||15.62|-4.35|
82649413|NCT02473510|165014267|SUPERIORITY_OR_OTHER||Rate Difference|0.4|||||TWO_SIDED|95.0|-5.2|2.6||||||||2.6|-5.2|
82540613|NCT01212757|164780717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.45||||0.0002|TWO_SIDED|95.0|-6.76|-2.14|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.14|-6.76|0.0002
82540614|NCT01212757|164780718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.0004|TWO_SIDED|95.0|-0.61|-0.18|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.18|-0.61|0.0004
82540615|NCT01212757|164780718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.25|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.25|-0.68|<0.0001
82649414|NCT02473510|165014268|SUPERIORITY_OR_OTHER||Rate Difference|16.7|||||TWO_SIDED|95.0|3.6|27.6||||||Up to Day 8||27.6|3.6|
82649415|NCT02473510|165014268|SUPERIORITY_OR_OTHER||Rate Difference|17.9|||||TWO_SIDED|95.0|4.4|29.3||||||Up to Day 15||29.3|4.4|
82649416|NCT00990561|165014317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0|||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||Null hypothesis = there is no difference between using ultravate once daily vs. twice daily||||<0.001
82540616|NCT01212757|164780719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.12||||0.0318|TWO_SIDED|95.0|0.19|4.06|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.06|0.19|0.0318
82649417|NCT03182686|165014338|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||"H0:π ≤ π0 versus HA:π \> π0~Where π0 is the hypothesized clinically significant value for the proportion of responders. The value will be 30% in this study. This test will be tested using an exact binomial test. That is, given the sample size of n, the number of responders X, and the value of π0 =0.30, then probability that X or more events would be observed will be calculated as the p-value. Since this is a one-sided test, the alpha level will be 0.025."||||<0.0001
82649418|NCT00931385|165014395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.113|0.183|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.183|0.113|<0.0001
82649419|NCT00931385|165014395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.113|0.183|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.183|0.113|<0.0001
82455482|NCT04950465|164615129|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.115||0.7645|TWO_SIDED|95.0|-0.26|0.19|||ANCOVA|||||0.19|-0.26|0.7645
82455483|NCT04950465|164615130|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.114||0.9728|TWO_SIDED|95.0|-0.23|0.22|||ANCOVA|||Week 4||0.22|-0.23|0.9728
82455484|NCT04950465|164615130|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.14||0.2968|TWO_SIDED|95.0|-0.13|0.42|||ANCOVA|||Week 8||0.42|-0.13|0.2968
82455485|NCT04950465|164615131|SUPERIORITY|||||||0.1682|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 4||||0.1682
82455486|NCT04950465|164615131|SUPERIORITY|||||||0.3937|||||||Van Elteren Test|Due to non-normal residual analyses from ANCOVA a Van Elteren Test was performed.||Week 8||||0.3937
82649420|NCT00931385|165014395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.106|0.177|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.177|0.106|<0.0001
82455487|NCT04308941|164615132|OTHER|The mean and standard deviation was analyzed.||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82649421|NCT00931385|165014396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.109|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.073|0.146|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.146|0.073|<0.0001
82649422|NCT00931385|165014396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.091|0.164|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.164|0.091|<0.0001
82649423|NCT00931385|165014396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.135|0.209|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.209|0.135|<0.0001
82455488|NCT02230566|164615133|SUPERIORITY||LS Mean|-64.82|||<|0.0001|TWO_SIDED|95.0|-69.66|-59.98||P-values are from GEE model including baseline value, and the post UX003 Treatment Week as a categorical variable. The covariance structure within participants was assumed to be exchangeable.|GEE|||||-59.98|-69.66|< 0.0001
82455489|NCT02230566|164615134|SUPERIORITY|||||||0.0527|||||||t-test|"P value from t-test of no change (0 change) from baseline"||||||0.0527
82455490|NCT02230566|164615135|SUPERIORITY||LS Mean|20.8||||0.2137|TWO_SIDED|95.0|-12.0|53.7||P-values are from GEE model including baseline value, and the post UX003 Treatment Week as a categorical variable. The covariance structure within participants was assumed to be exchangeable.|GEE|||||53.7|-12.0|0.2137
82455491|NCT02230566|164615138|SUPERIORITY||LS Mean|-6.5||||0.1778|TWO_SIDED|95.0|-16.1|3.0|||GEE|||Shoulder Flexion - Left||3.0|-16.1|0.1778
82455492|NCT02230566|164615138|SUPERIORITY||LS Mean|-1.5||||0.7632|TWO_SIDED|95.0|-10.9|8.0|||GEE|||Shoulder Extension - Left||8.0|-10.9|0.7632
82455493|NCT02230566|164615138|SUPERIORITY||LS Mean|-1.8||||0.6034|TWO_SIDED|95.0|-8.8|5.1|||GEE|||Shoulder Flexion - Right||5.1|-8.8|0.6034
82455494|NCT02230566|164615138|SUPERIORITY||LS Mean|-3.4||||0.3332|TWO_SIDED|95.0|-10.2|3.4|||GEE|||Shoulder Extension - Right||3.4|-10.2|0.3332
82649424|NCT00931385|165014397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.094|0.163|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.163|0.094|<0.0001
82649425|NCT00931385|165014397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.103|0.172|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.172|0.103|<0.0001
82649426|NCT00931385|165014397|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.122|0.191|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.191|0.122|<0.0001
82455495|NCT02230566|164615138|SUPERIORITY||LS Mean|-9.4||||0.0415|TWO_SIDED|95.0|-18.4|-0.4|||GEE|||Tighter Shoulder Flexion||-0.4|-18.4|0.0415
82455496|NCT02230566|164615138|SUPERIORITY||LS Mean|-6.7||||0.0563|TWO_SIDED|95.0|-13.6|0.2|||GEE|||Tighter Shoulder Extension||0.2|-13.6|0.0563
82455497|NCT02230566|164615139|SUPERIORITY||LS Mean|1.0||||0.114|TWO_SIDED|95.0|-0.2|2.2|||GEE|||for the left eye||2.2|-0.2|0.1140
82455498|NCT02230566|164615139|SUPERIORITY||LS Mean|0.9||||0.0906|TWO_SIDED|95.0|-0.1|1.8|||GEE|||for the right eye||1.8|-0.1|0.0906
82455499|NCT02230566|164615140|SUPERIORITY||LS Mean|0.8||||0.0883|TWO_SIDED|95.0|-0.1|1.7|||GEE|||Scale-BALANCE||1.7|-0.1|0.0883
82455500|NCT02230566|164615140|SUPERIORITY||LS Mean|-0.2||||0.3528|TWO_SIDED|95.0|-0.7|0.2|||GEE|||Scale: FINE MOTOR PRECISION||0.2|-0.7|0.3528
82455501|NCT02230566|164615140|SUPERIORITY||LS Mean|0.2||||0.4094|TWO_SIDED|95.0|-0.2|0.6|||GEE|||Scale-MANUAL DEXTERITY||0.6|-0.2|0.4094
82455502|NCT02230566|164615140|SUPERIORITY||LS Mean|0.2||||0.102|TWO_SIDED|95.0|0.0|0.4|||GEE|||Scale-RUNNING SPEED AND AGILITY||0.4|0.0|0.1020
82455503|NCT02230566|164615141|SUPERIORITY||LS Mean|3.4||||0.1953|TWO_SIDED|95.0|-1.8|8.6|||GEE|||||8.6|-1.8|0.1953
82455504|NCT02230566|164615143|SUPERIORITY||LS Mean|-1.2||||0.2022|TWO_SIDED|95.0|-3.0|0.6|||GEE|||||0.6|-3.0|0.2022
82455505|NCT01379183|164615149|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82455506|NCT01379183|164615150|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANCOVA|||||||0.27
82455507|NCT01379183|164615151|SUPERIORITY_OR_OTHER|||||||0.96|||||||ANCOVA|||||||0.96
82455508|NCT01379183|164615152|SUPERIORITY_OR_OTHER|||||||0.71|||||||ANCOVA|||||||0.71
82455509|NCT01379183|164615153|SUPERIORITY_OR_OTHER|||||||0.37|||||||ANCOVA|||||||0.37
82455510|NCT01379183|164615154|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANCOVA|||||||0.12
82455511|NCT02562716|164615155|SUPERIORITY|||||||0.15|||||||Log Rank|||For each arm, the observed 2-year overall survival (OS) was compared to the null hypothesis of 40%, assuming a 58% alternative hypothesis, 88% power, and a 1-sided significance of 0.05.||||.15
82455512|NCT02562716|164615155|SUPERIORITY|||||||0.14|||||||Log Rank|||For each arm, the observed 2-year overall survival (OS) was compared to the null hypothesis of 40%, assuming a 58% alternative hypothesis, 88% power, and a 1-sided significance of 0.05.||||.14
82490263|NCT03113916|164673470|SUPERIORITY||Slope|0.174||||0.008|TWO_SIDED|95.0|0.05|0.302|||Mixed Models Analysis|||||.302|.050|.008
82490264|NCT03113916|164673471|SUPERIORITY||Slope|0.015||||0.5|TWO_SIDED|95.0|-0.029|0.059|||Mixed Models Analysis|||||.059|-.029|.50
82490265|NCT03113916|164673472|SUPERIORITY||Slope|-0.00003||||0.99|TWO_SIDED|95.0|-0.013|0.013|||Mixed Models Analysis|||||.013|-.013|.99
82490266|NCT02663908|164673475|OTHER||Hazard Ratio (HR)|1.283||||0.5294|TWO_SIDED|95.0|0.589|2.794|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.794|0.589|0.5294
82490267|NCT02663908|164673476|OTHER||Hazard Ratio (HR)|1.204||||0.7126|TWO_SIDED|95.0|0.448|3.234|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||3.234|0.448|0.7126
82437606|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.824|TWO_SIDED|95.0|-1.02|0.81|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-1.02|0.824
82437607|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.827|TWO_SIDED|95.0|-0.83|1.04|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.04|-0.83|0.827
82540617|NCT01212757|164780719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.27||||0.7803|TWO_SIDED|95.0|-1.65|2.2|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||2.20|-1.65|0.7803
82540618|NCT01212757|164780720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.86||||0.0473|TWO_SIDED|95.0|0.02|3.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.70|0.02|0.0473
82540619|NCT01212757|164780720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.53||||0.0997|TWO_SIDED|95.0|-0.29|3.35|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.35|-0.29|0.0997
82540620|NCT01212757|164780721|SUPERIORITY||Adjusted Difference|7.8||||0.1195|TWO_SIDED|95.0|-1.9|17.5||The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Cochran-Mantel-Haenszel||Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.5|-1.9|0.1195
82437608|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.98|||<|0.001|TWO_SIDED|95.0|1.58|4.39|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.39|1.58|<0.001
82577915|NCT00461981|164865042|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.23||||||95.0|0.15|0.35||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.35|0.15|
82437609|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.27|||<|0.001|TWO_SIDED|95.0|1.88|4.65|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.65|1.88|<0.001
82437610|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.12|||<|0.001|TWO_SIDED|95.0|1.71|4.52|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.52|1.71|<0.001
82437611|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.57|||<|0.001|TWO_SIDED|95.0|2.16|4.98|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.98|2.16|<0.001
82437612|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.59||||0.232|TWO_SIDED|95.0|-1.55|0.38|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.55|0.232
82437613|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.31||||0.522|TWO_SIDED|95.0|-1.24|0.63|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.63|-1.24|0.522
82455513|NCT04915729|164615166|NON_INFERIORITY|pre-specified non-inferiority margin for risk ratio = 0.937|Risk Ratio (RR)|1.0278|||||TWO_SIDED|95.0|0.9678|1.0915|||Modified Possion Regression Model|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.0915|0.9678|
82540621|NCT01212757|164780721|SUPERIORITY||Adjusted Difference|15.5||||0.0026|TWO_SIDED|95.0|5.6|25.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||25.5|5.6|0.0026
82437614|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.45||||0.356|TWO_SIDED|95.0|-1.41|0.51|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.51|-1.41|0.356
82437615|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.31||||0.001|TWO_SIDED|95.0|0.92|3.69|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.69|0.92|0.001
82437616|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.45|||<|0.001|TWO_SIDED|95.0|1.08|3.82|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.82|1.08|<0.001
82437617|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.7|||<|0.001|TWO_SIDED|95.0|1.31|4.08|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.08|1.31|<0.001
82437618|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.85|||<|0.001|TWO_SIDED|95.0|1.46|4.23|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.23|1.46|<0.001
82540622|NCT01212757|164780722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.7||||0.5067|TWO_SIDED|95.0|-6.8|3.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||3.4|-6.8|0.5067
82540623|NCT01212757|164780722|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-3.5||||0.1762|TWO_SIDED|95.0|-8.5|1.6|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||1.6|-8.5|0.1762
82540624|NCT01212757|164780723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.2719|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.3|-1.2|0.2719
82540625|NCT01212757|164780723|SUPERIORITY||LS Mean Difference|0.0||||0.9727|TWO_SIDED|95.0|-0.8|0.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.7|-0.8|0.9727
82649427|NCT00931385|165014398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.126|0.201|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.201|0.126|<0.0001
82437619|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54||||0.264|TWO_SIDED|95.0|-1.49|0.41|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.41|-1.49|0.264
82437620|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.4||||0.4|TWO_SIDED|95.0|-1.32|0.53|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-1.32|0.400
82437621|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.15||||0.758|TWO_SIDED|95.0|-1.1|0.8|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.80|-1.10|0.758
82437622|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.62||||0.018|TWO_SIDED|95.0|0.27|2.97|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.97|0.27|0.018
82437623|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.88||||0.006|TWO_SIDED|95.0|0.55|3.21|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.21|0.55|0.006
82437624|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.29|||<|0.001|TWO_SIDED|95.0|0.94|3.63|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.63|0.94|<0.001
82437625|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.4|||<|0.001|TWO_SIDED|95.0|1.05|3.75|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.75|1.05|<0.001
82437626|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.78||||0.097|TWO_SIDED|95.0|-1.7|0.14|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.14|-1.70|0.097
82437627|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.52||||0.254|TWO_SIDED|95.0|-1.42|0.38|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.42|0.254
82437628|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.11||||0.812|TWO_SIDED|95.0|-1.03|0.81|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-1.03|0.812
82437629|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32||||0.045|TWO_SIDED|95.0|0.03|2.61|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.61|0.03|0.045
82437630|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.59||||0.015|TWO_SIDED|95.0|0.31|2.87|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.87|0.31|0.015
82437631|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.73||||0.009|TWO_SIDED|95.0|0.43|3.02|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.02|0.43|0.009
82540626|NCT01212757|164780724|SUPERIORITY||LS Mean Difference|-0.3||||0.3705|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.4|-1.0|0.3705
82540627|NCT01212757|164780724|SUPERIORITY||LS Mean Difference|0.1||||0.6777|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||0.8|-0.6|0.6777
82649428|NCT00931385|165014398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.127|0.202|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.202|0.127|<0.0001
82455514|NCT04915729|164615167|OTHER|log-binomial regression model|Risk Ratio (RR)|1.0671||||0.2412|TWO_SIDED|95.0|0.9573|1.1895||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = covariates|tenecteplase versus alteplase|||1.1895|0.9573|0.2412
82437632|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.08||||0.002|TWO_SIDED|95.0|0.78|3.37|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.37|0.78|0.002
82437633|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.76||||0.094|TWO_SIDED|95.0|-1.64|0.13|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.13|-1.64|0.094
82437634|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.49||||0.269|TWO_SIDED|95.0|-1.35|0.38|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.38|-1.35|0.269
82437635|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.35||||0.437|TWO_SIDED|95.0|-1.23|0.53|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-1.23|0.437
82437636|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.218|TWO_SIDED|95.0|-0.44|1.92|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.92|-0.44|0.218
82437637|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.19||||0.046|TWO_SIDED|95.0|0.02|2.35|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.35|0.02|0.046
82437638|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.31||||0.03|TWO_SIDED|95.0|0.13|2.49|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.49|0.13|0.030
82437639|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.75||||0.004|TWO_SIDED|95.0|0.57|2.93|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.93|0.57|0.004
82437640|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.01||||0.014|TWO_SIDED|95.0|-1.82|-0.2|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.20|-1.82|0.014
82437641|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.56||||0.16|TWO_SIDED|95.0|-1.35|0.22|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.22|-1.35|0.160
82437642|NCT01559259|164583771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.44||||0.284|TWO_SIDED|95.0|-1.25|0.37|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, baseline numerical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.37|-1.25|0.284
82437643|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.62||||0.014|TWO_SIDED|95.0|0.13|1.1|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.10|0.13|0.014
82437644|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.46||||0.066|TWO_SIDED|95.0|-0.03|0.94|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.94|-0.03|0.066
82437645|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.71||||0.004|TWO_SIDED|95.0|0.22|1.2|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.20|0.22|0.004
82437646|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.3||||0.232|TWO_SIDED|95.0|-0.19|0.78|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|-0.19|0.232
82437647|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.32||||0.067|TWO_SIDED|95.0|-0.02|0.66|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.66|-0.02|0.067
82437648|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.16||||0.354|TWO_SIDED|95.0|-0.18|0.5|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.50|-0.18|0.354
82437649|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.017|TWO_SIDED|95.0|0.08|0.76|||ANOVA|||0.25 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.76|0.08|0.017
82455515|NCT04915729|164615168|OTHER|Modified Poisson regression model|Risk Ratio (RR)|1.0078||||0.748|TWO_SIDED|95.0|0.9614|1.0564||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.0564|0.9614|0.7480
82437650|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.15|||<|0.001|TWO_SIDED|95.0|1.45|2.86|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.86|1.45|<0.001
82437651|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.93|||<|0.001|TWO_SIDED|95.0|1.23|2.64|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.64|1.23|<0.001
82455516|NCT04915729|164615169|OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.48||0.3511|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|baseline NIHSS, age, time to administration since stroke symptoms onset = linear covariates; treatment = fixed effects|Difference in LSmean tenecteplase vs alteplase|||0.50|-1.40|0.3511
82455517|NCT04915729|164615170|OTHER||Odds Ratio (OR)|1.0418||||0.4806|||||||Regression, Logistic|Assumption-free ordinal analysis|tenecteplase versus alteplase|||||0.4806
82455518|NCT04915729|164615171|OTHER|Poisson regression model|Risk Ratio (RR)|1.0189||||0.5116|TWO_SIDED|95.0|0.9635|1.0774|||Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = covariates|tenecteplase versus alteplase|||1.0774|0.9635|0.5116
82437652|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.39|2.8|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.80|1.39|<0.001
82437653|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.32|||<|0.001|TWO_SIDED|95.0|0.61|2.02|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.02|0.61|<0.001
82437654|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83|||<|0.001|TWO_SIDED|95.0|0.34|1.33|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.33|0.34|<0.001
82437655|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.62||||0.014|TWO_SIDED|95.0|0.12|1.11|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.11|0.12|0.014
82437656|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.77||||0.002|TWO_SIDED|95.0|0.28|1.27|||ANOVA|||0.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.27|0.28|0.002
82437657|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.45|||<|0.001|TWO_SIDED|95.0|2.69|4.22|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.22|2.69|<0.001
82437658|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.13|||<|0.001|TWO_SIDED|95.0|2.36|3.89|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.89|2.36|<0.001
82437659|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.49|||<|0.001|TWO_SIDED|95.0|2.72|4.26|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.26|2.72|<0.001
82437660|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.78|||<|0.001|TWO_SIDED|95.0|2.02|3.54|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.54|2.02|<0.001
82437661|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.67||||0.014|TWO_SIDED|95.0|0.14|1.21|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.21|0.14|0.014
82437662|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.35||||0.202|TWO_SIDED|95.0|-0.19|0.88|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.88|-0.19|0.202
82437663|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.71||||0.01|TWO_SIDED|95.0|0.17|1.24|||ANOVA|||1 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.24|0.17|0.010
82437664|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.0|||<|0.001|TWO_SIDED|95.0|3.24|4.76|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.76|3.24|<0.001
82455519|NCT04915729|164615172|OTHER||Risk Ratio (RR)|1.005||||1|TWO_SIDED|95.0|0.37|2.701|||Suissa-Shuster test||tenecteplase versus alteplase|||2.701|0.370|1.000
82540628|NCT01212757|164780725|SUPERIORITY||LS Mean Difference|-3.14||||0.0097|TWO_SIDED|95.0|-5.52|-0.76|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.76|-5.52|0.0097
82437665|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.55|||<|0.001|TWO_SIDED|95.0|2.79|4.31|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.31|2.79|<0.001
82437666|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.03|||<|0.001|TWO_SIDED|95.0|3.27|4.79|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.79|3.27|<0.001
82455520|NCT04915729|164615173|OTHER||Risk Ratio (RR)|0.795||||0.303|TWO_SIDED|95.0|0.513|1.232|||Chi-squared||tenecteplase versus alteplase|||1.232|0.513|0.303
82455521|NCT04915729|164615174|OTHER|Modified Poisson regression model|Risk Ratio (RR)|0.9215||||0.6345|TWO_SIDED|95.0|0.6578|1.2908||p-value was for superiority testing|Regression, Linear|treatment = main effect; baseline NHISS, age + time to drug administration since stroke symptoms onset = continuous covariates|tenecteplase versus alteplase|||1.2908|0.6578|0.6345
82455522|NCT03710642|164615175|SUPERIORITY||Mean Difference (Net)|-0.008096||||0.9904|TWO_SIDED||||||Regression, Linear|||||||0.9904
82455523|NCT03710642|164615176|SUPERIORITY||Mean Difference (Net)|-11.54||||0.30328|TWO_SIDED||||||Regression, Linear|||||||0.30328
82455524|NCT03710642|164615177|SUPERIORITY||Mean Difference (Net)|0.31122||||0.21981|TWO_SIDED||||||Regression, Linear|||||||0.21981
82455525|NCT03710642|164615178|SUPERIORITY||Cox Proportional Hazard|-0.36277||||0.6366|TWO_SIDED||||||Regression, Cox|||||||0.6366
82455526|NCT03710642|164615179|SUPERIORITY||Slope|-0.12842|STANDARD_ERROR_OF_MEAN|1.39602||0.9267|TWO_SIDED||||||Regression, Logistic|||||||0.9267
82455527|NCT03710642|164615180|SUPERIORITY||Mean Difference (Net)|3.0694||||0.2038|TWO_SIDED||||||Regression, Linear|||||||0.2038
82455528|NCT03710642|164615181|SUPERIORITY||Mean Difference (Net)|-3.388||||0.54133|TWO_SIDED||||||Regression, Linear|||||||0.54133
82455529|NCT01369784|164615201|SUPERIORITY_OR_OTHER|||||||0.812|||||||Fisher Exact|||||||0.812
82455530|NCT01369784|164615202|SUPERIORITY_OR_OTHER|||||||0.612|||||||Chi-squared|||||||0.612
82455531|NCT01369784|164615203|SUPERIORITY_OR_OTHER|||||||0.402|||||||Chi-squared|||||||0.402
82455532|NCT01369784|164615204|SUPERIORITY_OR_OTHER|||||||0.557|||||||Chi-squared|||||||0.557
82540629|NCT01212757|164780725|SUPERIORITY||LS Mean Difference|-4.5||||0.0002|TWO_SIDED|95.0|-6.85|-2.16|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-2.16|-6.85|0.0002
82540630|NCT01212757|164780726|SUPERIORITY||LS Mean Difference|-0.38||||0.0011|TWO_SIDED|95.0|-0.6|-0.15|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.15|-0.60|0.0011
82540631|NCT01212757|164780726|SUPERIORITY||LS Mean Difference|-0.45||||0.0001|TWO_SIDED|95.0|-0.68|-0.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||-0.23|-0.68|0.0001
82455533|NCT01369784|164615205|SUPERIORITY_OR_OTHER|||||||0.234|||||||Chi-squared|||||||0.234
82455534|NCT01369784|164615206|SUPERIORITY_OR_OTHER|||||||0.057|||||||Fisher Exact|||||||0.057
82540632|NCT01212757|164780727|SUPERIORITY||LS Mean Difference|2.14||||0.0303|TWO_SIDED|95.0|0.2|4.07|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||4.07|0.20|0.0303
82540633|NCT01212757|164780727|SUPERIORITY||LS mean Difference|0.16||||0.8704|TWO_SIDED|95.0|-1.76|2.08|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group and baseline DMARD use as factors, and the baseline value as a covariate.||||2.08|-1.76|0.8704
82649429|NCT00931385|165014398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.16|0.236|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.236|0.160|<0.0001
82649430|NCT00931385|165014399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.135|0.214|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.214|0.135|<0.0001
82455535|NCT01369784|164615207|SUPERIORITY_OR_OTHER|||||||0.117|||||||Fisher Exact|||||||0.117
82455536|NCT02905266|164615216|SUPERIORITY||Percent Difference in incidence rates|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Fixed Ratio Combination over Sequential Combination|||0.0|0.0|
82455537|NCT02905266|164615224|SUPERIORITY||Percent Difference of ORRs|-7.5|||||TWO_SIDED|95.0|-26.1|11.0|||||Cochran-Mantel-Haenszel (CMH) method of weighting|||11.0|-26.1|
82455538|NCT02905266|164615224|SUPERIORITY||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.35|1.58||||||||1.58|0.35|
82455539|NCT02905266|164615225|SUPERIORITY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.78|2.37|||||Stratified Cox proportional hazard model|||2.37|0.78|
82455540|NCT02905266|164615226|SUPERIORITY||Cochran-Mantel-Haenszel Odds Ratio|0.87|||||TWO_SIDED|95.0|0.3|2.49|||||Fixed Ratio Combination over Sequential Combination|||2.49|0.30|
82455541|NCT02905266|164615226|SUPERIORITY||Percent difference in incidence rates|-1.9|||||TWO_SIDED|95.0|-16.0|12.2|||||Fixed Ratio Combination over Sequential Combination|||12.2|-16.0|
82455542|NCT02538042|164615236|SUPERIORITY|||||||0.39|||||||ANOVA|||||||0.39
82455543|NCT00428948|164615324|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.708|||<|0.0001|TWO_SIDED|95.0|-3.269|-2.147|||Linear mixed model||The variance of the random effect intercept was zero and resulted in a non-positive, definite variance-covariance matrix for the random effects.|The null hypothesis was that there was no difference in the percentage change per year in total kidney volume between the tolvaptan group and the placebo group.||-2.147|-3.269|<0.0001
82455544|NCT00428948|164615325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.865||||0.0095|TWO_SIDED|95.0|0.775|0.965|||Recurrent event analysis||Tolvaptan divided by placebo.|The null hypothesis was that there was no difference in the ADPKD clinical progression events/100 follow-up years between the tolvaptan group and the placebo group.||0.965|0.775|0.0095
82455545|NCT00428948|164615326|SUPERIORITY_OR_OTHER||Difference in slope|0.977|||<|0.0001|TWO_SIDED|95.0|0.597|1.357|||Mixed Models Analysis|Derived from testing the time treatment interaction using linear mixed model in which both intercept and slope are fixed and random effects.||The null hypothesis was that there was no difference in the change in renal function per year between the tolvaptan group and the placebo group.||1.357|0.597|<0.0001
82455546|NCT00428948|164615327|SUPERIORITY_OR_OTHER||Difference in slope|-0.246||||0.552|TWO_SIDED|95.0|-1.059|0.566|||Mixed Models Analysis|Derived from testing the time treatment interaction using linear mixed model in which both intercept and slope are fixed and random effects.|Placebo minus tolvaptan.|The null hypothesis was that there was no difference in mean arterial blood pressure in non-hypertensive participants between the tolvaptan group and the placebo group.||0.566|-1.059|0.5520
82455547|NCT00428948|164615328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.1604|TWO_SIDED|95.0|-0.2|0.03|||ANCOVA|The analysis included baseline renal pain as a covariate.|Derived from ANCOVA with factors of treatment and baseline stratification factor interaction and covariate renal pain baseline.|The null hypothesis was that there was no difference in the change in renal pain between the tolvaptan group and the placebo group.||0.03|-0.20|0.1604
82455548|NCT00428948|164615329|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.996||||0.9704|TWO_SIDED|95.0|0.805|1.233|||Recurrent event analysis||Derived from rate and mean model of time to recurrent event analysis with factor treatment.|The null hypothesis was that there was no difference in the hypertensive events per 100 follow-up years in non-hypertensive participants between the tolvaptan group and the placebo group.||1.233|0.805|0.9704
82649431|NCT00931385|165014399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.127|0.206|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.206|0.127|<0.0001
82437667|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.48|||<|0.001|TWO_SIDED|95.0|2.72|4.24|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.24|2.72|<0.001
82437668|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.52||||0.056|TWO_SIDED|95.0|-0.01|1.05|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.05|-0.01|0.056
82437669|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.07||||0.789|TWO_SIDED|95.0|-0.46|0.6|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.60|-0.46|0.789
82437670|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.55||||0.042|TWO_SIDED|95.0|0.02|1.08|||ANOVA|||1.5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.08|0.02|0.042
82437671|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.17|||<|0.001|TWO_SIDED|95.0|3.37|4.98|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.98|3.37|<0.001
82437672|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.86|||<|0.001|TWO_SIDED|95.0|3.06|4.66|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.66|3.06|<0.001
82437673|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.34|||<|0.001|TWO_SIDED|95.0|3.54|5.14|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||5.14|3.54|<0.001
82437674|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|3.09|4.69|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.69|3.09|<0.001
82437675|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.317|TWO_SIDED|95.0|-0.28|0.85|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.85|-0.28|0.317
82437676|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.03||||0.922|TWO_SIDED|95.0|-0.59|0.53|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.53|-0.59|0.922
82437677|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.45||||0.112|TWO_SIDED|95.0|-0.11|1.02|||ANOVA|||2 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.02|-0.11|0.112
82437678|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.1|||<|0.001|TWO_SIDED|95.0|3.27|4.94|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.94|3.27|<0.001
82649432|NCT00931385|165014399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.178|0.257|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.257|0.178|<0.0001
82437679|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.76|||<|0.001|TWO_SIDED|95.0|2.92|4.59|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.59|2.92|<0.001
82437680|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.15|||<|0.001|TWO_SIDED|95.0|3.32|4.99|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.99|3.32|<0.001
82437681|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|3.05|4.72|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.72|3.05|<0.001
82437682|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.22||||0.464|TWO_SIDED|95.0|-0.37|0.81|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.81|-0.37|0.464
82437683|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.13||||0.667|TWO_SIDED|95.0|-0.71|0.45|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.45|-0.71|0.667
82540634|NCT01212757|164780728|SUPERIORITY||Adjusted Difference|3.6||||0.6022|TWO_SIDED|95.0|-9.9|17.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights.|||17.2|-9.9|0.6022
82652355|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.252||||0.0325|TWO_SIDED|95.0|-0.483|-0.021||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||-0.021|-0.483|0.0325
82437684|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.27||||0.368|TWO_SIDED|95.0|-0.32|0.86|||ANOVA|||3 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.32|0.368
82437685|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.94|||<|0.001|TWO_SIDED|95.0|3.08|4.81|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.81|3.08|<0.001
82540635|NCT01212757|164780728|SUPERIORITY||Adjusted Difference|1.3||||0.8462|TWO_SIDED|95.0|-12.1|14.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights.|||14.7|-12.1|0.8462
82540636|NCT01212757|164780729|SUPERIORITY||Adjusted Difference|2.8||||0.7337|TWO_SIDED|95.0|-13.3|18.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.9|-13.3|0.7337
82540637|NCT01212757|164780729|SUPERIORITY||Adjusted Difference|3.3||||0.6881|TWO_SIDED|95.0|-12.7|19.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.3|-12.7|0.6881
82577916|NCT00461981|164865043|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.11||||||95.0|0.05|0.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||0.22|0.05|
82577917|NCT00461981|164865044|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|4.85||||||95.0|2.51|9.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||9.22|2.51|
82577918|NCT00461981|164865045|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|3.31||||||95.0|1.46|7.54||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||7.54|1.46|
82577919|NCT00461981|164865046|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|1.35||||||95.0|0.58|3.04||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.04|0.58|
82649433|NCT00931385|165014400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.064|0.147|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.147|0.064|<0.0001
82437686|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.63|||<|0.001|TWO_SIDED|95.0|2.77|4.49|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.49|2.77|<0.001
82437687|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.06|||<|0.001|TWO_SIDED|95.0|3.19|4.92|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.92|3.19|<0.001
82437688|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.68|||<|0.001|TWO_SIDED|95.0|2.82|4.54|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.54|2.82|<0.001
82437689|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.26||||0.397|TWO_SIDED|95.0|-0.34|0.86|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.86|-0.34|0.397
82437690|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.866|TWO_SIDED|95.0|-0.65|0.55|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.55|-0.65|0.866
82437691|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.37||||0.226|TWO_SIDED|95.0|-0.23|0.97|||ANOVA|||4 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.97|-0.23|0.226
82437692|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.8|||<|0.001|TWO_SIDED|95.0|2.9|4.7|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.70|2.90|<0.001
82437693|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.37|||<|0.001|TWO_SIDED|95.0|2.47|4.26|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.26|2.47|<0.001
82540638|NCT01212757|164780730|SUPERIORITY||Adjusted Difference|17.5||||0.0014|TWO_SIDED|95.0|7.0|27.9|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||27.9|7.0|0.0014
82540639|NCT01212757|164780730|SUPERIORITY||Adjusted Difference|22.1||||0.0001|TWO_SIDED|95.0|11.7|32.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||32.5|11.7|0.0001
82437694|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.89|||<|0.001|TWO_SIDED|95.0|2.99|4.79|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.79|2.99|<0.001
82437695|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.6|||<|0.001|TWO_SIDED|95.0|2.7|4.5|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.50|2.70|<0.001
82437696|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.2||||0.536|TWO_SIDED|95.0|-0.43|0.83|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.83|-0.43|0.536
82437697|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.23||||0.467|TWO_SIDED|95.0|-0.86|0.39|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.39|-0.86|0.467
82437698|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.29||||0.361|TWO_SIDED|95.0|-0.34|0.92|||ANOVA|||5 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.92|-0.34|0.361
82437699|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.17|||<|0.001|TWO_SIDED|95.0|2.21|4.13|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.13|2.21|<0.001
82437700|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.04|3.95|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.95|2.04|<0.001
82437701|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.51|||<|0.001|TWO_SIDED|95.0|2.55|4.47|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.47|2.55|<0.001
82437702|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.04|||<|0.001|TWO_SIDED|95.0|2.09|4.0|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||4.00|2.09|<0.001
82437703|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.13||||0.704|TWO_SIDED|95.0|-0.54|0.8|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.80|-0.54|0.704
82437704|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.89|TWO_SIDED|95.0|-0.71|0.62|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.62|-0.71|0.890
82437705|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.17|TWO_SIDED|95.0|-0.2|1.14|||ANOVA|||6 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.14|-0.20|0.170
82437706|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.69|||<|0.001|TWO_SIDED|95.0|1.72|3.67|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.67|1.72|<0.001
82437707|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.58|||<|0.001|TWO_SIDED|95.0|1.61|3.56|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.56|1.61|<0.001
82437708|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.99|||<|0.001|TWO_SIDED|95.0|2.01|3.97|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.97|2.01|<0.001
82540640|NCT01212757|164780731|SUPERIORITY||Adjusted Difference|6.6||||0.3376|TWO_SIDED|95.0|-6.8|20.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||20.0|-6.8|0.3376
82437709|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.75|||<|0.001|TWO_SIDED|95.0|1.77|3.72|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.72|1.77|<0.001
82437710|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.05||||0.882|TWO_SIDED|95.0|-0.74|0.63|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.63|-0.74|0.882
82437711|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.16||||0.64|TWO_SIDED|95.0|-0.84|0.52|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|-0.84|0.640
82540641|NCT01212757|164780731|SUPERIORITY||Adjusted Difference|6.1||||0.3756|TWO_SIDED|95.0|-7.2|19.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.4|-7.2|0.3756
82437712|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.24||||0.482|TWO_SIDED|95.0|-0.44|0.93|||ANOVA|||7 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.93|-0.44|0.482
82437713|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.06|||<|0.001|TWO_SIDED|95.0|1.07|3.06|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.06|1.07|<0.001
82437714|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.17|||<|0.001|TWO_SIDED|95.0|1.17|3.16|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.16|1.17|<0.001
82437715|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.24|||<|0.001|TWO_SIDED|95.0|1.25|3.24|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.24|1.25|<0.001
82455549|NCT00428948|164615330|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.7532|TWO_SIDED|95.0|0.602|2.017|||Cochran-Mantel-Haenszel||Tolvaptan divided by placebo.|The null hypothesis was that there was no difference in the percentage of participants with a clinically sustained decrease of blood pressure leading to a sustained reduction in antihypertensive therapy between the tolvaptan group and the placebo group.||2.017|0.602|0.7532
82455550|NCT03884790|164615339|OTHER|Descriptive statistical analysis|||||||||||||||||Descriptive statistical analysis|||
82455551|NCT02267538|164615372|OTHER||Odds Ratio (OR)|0.62||||0.341|TWO_SIDED|95.0|0.23|1.65|||Regression, Logistic|||||1.65|0.23|0.341
82455552|NCT02267538|164615373|OTHER||Median Difference (Final Values)|0.0||||0.83|TWO_SIDED|||||MMSE|Wilcoxon (Mann-Whitney)|||||||0.830
82455553|NCT02267538|164615373|OTHER||Median Difference (Final Values)|0.0||||0.405|TWO_SIDED|||||m-TICS|Wilcoxon (Mann-Whitney)|||||||0.405
82455554|NCT02267538|164615374|OTHER||Odds Ratio (OR)|0.74||||0.214|TWO_SIDED|95.0|0.47|1.19|||Regression, Logistic|||Incidence of total non-delirium complications within 30 days after surgery||1.19|0.47|0.214
82455555|NCT02267538|164615374|OTHER|stroke|Odds Ratio (OR)|1.01||||0.993|TWO_SIDED|95.0|0.2|5.08|||Regression, Logistic|||Incidence of stroke within 30 days after surgery||5.08|0.20|0.993
82455556|NCT02267538|164615374|OTHER|New onset arrythmia|Odds Ratio (OR)|0.76||||0.274|TWO_SIDED|95.0|0.46|1.25|||Regression, Logistic|||||1.25|0.46|0.274
82455557|NCT02267538|164615374|OTHER|Pulmonary complications|Odds Ratio (OR)|0.51||||0.05|TWO_SIDED|95.0|0.26|1.0|||Regression, Logistic|||||1.00|0.26|0.050
82455558|NCT02267538|164615374|OTHER||Odds Ratio (OR)|0.5||||0.423|TWO_SIDED|95.0|0.09|2.75||Upper gastrointestinal bleeding|Regression, Logistic|||||2.75|0.09|0.423
82455559|NCT02267538|164615374|OTHER||Odds Ratio (OR)|1.01||||0.993|TWO_SIDED|95.0|0.2|5.08||Surgical bleeding|Regression, Logistic|||||5.08|0.20|0.993
82455560|NCT02267538|164615374|OTHER||Odds Ratio (OR)|1.63||||0.326|TWO_SIDED|95.0|0.61|4.34||Wound dehiscence or infection|Regression, Logistic|||||4.34|0.61|0.326
82455561|NCT02267538|164615374|OTHER||Odds Ratio (OR)|0.79||||0.378|TWO_SIDED|95.0|0.47|1.33||Acute kidney injur|Regression, Logistic|||||1.33|0.47|0.378
82437716|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.42|||<|0.001|TWO_SIDED|95.0|1.43|3.41|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||3.41|1.43|<0.001
82455562|NCT02267538|164615374|OTHER||Odds Ratio (OR)|0.48||||0.156|TWO_SIDED|95.0|0.18|1.32||IABP assistance|Regression, Logistic|||||1.32|0.18|0.156
82455563|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.596|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the first row in Outcome 4, i.e., Pain score in Day 1 after surgery, at rest between DEX Group and CTRL group||0|-1|0.596
82455564|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.743|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the second row in Outcome 4, i.e., Pain score in Day 2 after surgery, at rest between DEX Group and CTRL group||0|-1|0.743
82455565|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.282|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the third row in Outcome 4, i.e., Pain score in Day 3 after surgery, at rest between DEX Group and CTRL group||0|-1|0.282
82455566|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.368|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fourth row in Outcome 4, i.e., Pain score in Day 4 after surgery, at rest between DEX Group and CTRL group||0|0|0.368
82455567|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.397|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fifth row in Outcome 4, i.e., Pain score in Day 5 after surgery, at rest between DEX Group and CTRL group||0|0|0.397
82455568|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.486|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the sixth row in Outcome 4, i.e., Pain score in Day 1 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.486
82455569|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.414|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the seventh row in Outcome 4, i.e., Pain score in Day 2 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.414
82455570|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.187|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the eighth row in Outcome 4, i.e., Pain score in Day 3 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.187
82455571|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.127|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the ninth row in Outcome 4, i.e., Pain score in Day 4 after surgery, with coughing between DEX Group and CTRL group||0|-1|0.127
82455572|NCT02267538|164615375|OTHER||Median Difference (Final Values)|0.0||||0.378|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the tenth row in Outcome 4, i.e., Pain score in Day 5 after surgery, with coughing between DEX Group and CTRL group||0|0|0.378
82437717|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.36||||0.314|TWO_SIDED|95.0|-1.05|0.34|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.34|-1.05|0.314
82437718|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.25||||0.469|TWO_SIDED|95.0|-0.95|0.44|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.44|-0.95|0.469
82437719|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.616|TWO_SIDED|95.0|-0.87|0.52|||ANOVA|||8 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.52|-0.87|0.616
82437720|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.57||||0.002|TWO_SIDED|95.0|0.57|2.56|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.56|0.57|0.002
82540642|NCT01212757|164780732|SUPERIORITY||Adjusted Difference|6.8||||0.3959|TWO_SIDED|95.0|-8.7|22.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.2|-8.7|0.3959
82437721|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.54||||0.002|TWO_SIDED|95.0|0.55|2.53|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.53|0.55|0.002
82437722|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.95|||<|0.001|TWO_SIDED|95.0|0.95|2.94|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.94|0.95|<0.001
82437723|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.91|||<|0.001|TWO_SIDED|95.0|0.92|2.9|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.90|0.92|<0.001
82437724|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.34||||0.33|TWO_SIDED|95.0|-1.04|0.35|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.35|-1.04|0.330
82437725|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.37||||0.288|TWO_SIDED|95.0|-1.06|0.32|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.32|-1.06|0.288
82455573|NCT02267538|164615376|OTHER||Median Difference (Final Values)|0.0||||0.777|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the first row in Outcome 5, i.e., subjective sleep quality in Day 1 after surgery, between DEX Group and CTRL group||0|0|0.777
82437726|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.916|TWO_SIDED|95.0|-0.66|0.73|||ANOVA|||9 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.73|-0.66|0.916
82437727|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.01||||0.041|TWO_SIDED|95.0|0.04|1.98|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.98|0.04|0.041
82437728|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.05||||0.034|TWO_SIDED|95.0|0.08|2.01|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.01|0.08|0.034
82437729|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.59||||0.001|TWO_SIDED|95.0|0.62|2.56|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.56|0.62|0.001
82437730|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.48||||0.003|TWO_SIDED|95.0|0.52|2.45|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.45|0.52|0.003
82437731|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.47||||0.171|TWO_SIDED|95.0|-1.15|0.2|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.20|-1.15|0.171
82455574|NCT02267538|164615376|OTHER||Median Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the second row in Outcome 5, i.e., subjective sleep quality in Day 2 after surgery, between DEX Group and CTRL group||1|-1|0.919
82540643|NCT01212757|164780732|SUPERIORITY||Adjusted Difference|6.8||||0.3941|TWO_SIDED|95.0|-8.7|22.4|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the Cochran-Mantel-Haenszel (CMH) weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.4|-8.7|0.3941
82540644|NCT01212757|164780733|SUPERIORITY||Adjusted Difference|12.1||||0.0142|TWO_SIDED|95.0|2.6|21.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||21.7|2.6|0.0142
82540645|NCT01212757|164780733|SUPERIORITY||Adjusted Difference|20.5||||0.0001|TWO_SIDED|95.0|10.8|30.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||30.3|10.8|0.0001
82437732|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.44||||0.201|TWO_SIDED|95.0|-1.11|0.23|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.23|-1.11|0.201
82455575|NCT02267538|164615376|OTHER||Median Difference (Final Values)|0.0||||0.835|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the third row in Outcome 5, i.e., subjective sleep quality in Day 3 after surgery, between DEX Group and CTRL group||0|0|0.835
82455576|NCT02267538|164615376|OTHER||Median Difference (Final Values)|0.0||||0.321|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fourth row in Outcome 5, i.e., subjective sleep quality in Day 4 after surgery, between DEX Group and CTRL group||0|0|0.321
82455577|NCT02267538|164615376|OTHER||Median Difference (Final Values)|0.0||||0.174|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||this statistical analysis applies to the fifth row in Outcome 5, i.e., subjective sleep quality in Day 5 after surgery, between DEX Group and CTRL group||0|0|0.174
82455578|NCT02267538|164615377|OTHER||Hazard Ratio (HR)|1.03||||0.788|TWO_SIDED|95.0|0.82|1.31|||Log Rank|||||1.31|0.82|0.788
82455579|NCT02267538|164615378|OTHER||Hazard Ratio (HR)|0.97||||0.826|TWO_SIDED|95.0|0.77|1.23|||Log Rank|||||1.23|0.77|0.826
82455580|NCT01223183|164615418|EQUIVALENCE|alpha=0.05|||||<|0.001|||||||t-test, 2 sided|||Comparing DTPA absorption after hypertonic saline inhalation to DTPA absorption after isotonic saline inhalation||||<0.001
82455581|NCT01223183|164615420|EQUIVALENCE|alpha=0.05||||||0.003|||||||t-test, 2 sided|||Comparing mucociliary clearance after isotonic saline inhalation to mucociliary clearance after hypertonic saline inhalation||||0.003
82455582|NCT00287222|164615493|SUPERIORITY_OR_OTHER||percentage progression free at 27 weeks|28.0|STANDARD_ERROR_OF_MEAN|10.97||0.0006|TWO_SIDED|95.0|10.0|53.0|||one-sided exact binomial test|||Estimating the percentage of participants that remain free of disease progression at 27 weeks from the onset of treatment, and testing that proportion against a null-hypothesis proportion of 0.04 using the one-sided exact binomial test at 5% alpha, based upon historical data from the literature.||53|10|0.0006
82437733|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.1||||0.763|TWO_SIDED|95.0|-0.57|0.78|||ANOVA|||10 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.78|-0.57|0.763
82455583|NCT03369418|164615541|SUPERIORITY|One tailed t-tests for independent groups were performed to test the hypothesis that active device will be superior to sham in decreasing the combined HAD score. This was accomplished by Contrast analysis within the framework of a random effects general linear mixed effects (RE GLMM) model.||||||0.013||||||A priori threshold for statistical significance was p\<.05.|t-test, 1 sided|||||||.013
82455584|NCT03369418|164615542|SUPERIORITY|||||||0.33|||||||t-test, 1 sided|||||||.33
82455585|NCT00945282|164615596|SUPERIORITY||Mean Difference (Final Values)|-0.932||||0.042|TWO_SIDED|95.0|-1.812|-0.053|||ANCOVA|||||-0.053|-1.812|0.042
82455586|NCT00945282|164615597|SUPERIORITY||Mean Difference (Final Values)|-0.413||||0.221|TWO_SIDED|95.0|-1.173|0.347|||ANCOVA|||||0.347|-1.173|0.221
82455587|NCT00945282|164615598|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value is the value for GSK2248761 30 mg, at Day 1 to Day 8|Mixed Models Analysis|||Day 1 to Day 8||||<0.0001
82455588|NCT00945282|164615598|SUPERIORITY_OR_OTHER|||||||0.6922||||||The p-value is the value for placebo, at Day 1 to Day 8|Mixed Models Analysis|||Placebo, Day 1 to Day 8||||0.6922
82455589|NCT01825187|164615729|SUPERIORITY|||||||0.523|||||||t-test, 1 sided|||||||0.523
82455590|NCT01825187|164615730|SUPERIORITY|||||||0.371|||||||t-test, 1 sided|||Nasa Mental Demand||||0.371
82455591|NCT01825187|164615730|SUPERIORITY|||||||0.122|||||||t-test, 1 sided|||NASA Physical Demand||||0.122
82455592|NCT01825187|164615730|SUPERIORITY|||||||0.325|||||||t-test, 1 sided|||NASA Temporal Demand||||0.325
82455593|NCT01825187|164615730|SUPERIORITY|||||||0.0451|||||||t-test, 1 sided|||NASA Peformance||||0.0451
82455594|NCT01623115|164615753|SUPERIORITY_OR_OTHER||LS mean difference|-57.9|||<|0.0001|TWO_SIDED|95.0|-63.3|-52.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-52.6|-63.3|<0.0001
82455595|NCT01623115|164615754|SUPERIORITY_OR_OTHER||LS mean difference|-58.1|||<|0.0001|TWO_SIDED|95.0|-63.5|-52.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-52.7|-63.5|<0.0001
82455596|NCT01623115|164615755|SUPERIORITY_OR_OTHER||LS mean difference|-49.2|||<|0.0001|TWO_SIDED|95.0|-53.9|-44.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.5|-53.9|<0.0001
82455597|NCT01623115|164615756|SUPERIORITY_OR_OTHER||LS mean difference|-49.5|||<|0.0001|TWO_SIDED|95.0|-54.2|-44.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant)||-44.8|-54.2|<0.0001
82455598|NCT01623115|164615757|SUPERIORITY_OR_OTHER||LS mean difference|-45.8|||<|0.0001|TWO_SIDED|95.0|-49.8|-41.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.8|-49.8|<0.0001
82455599|NCT01623115|164615758|SUPERIORITY_OR_OTHER||LS mean difference|-45.9|||<|0.0001|TWO_SIDED|95.0|-49.9|-41.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.8|-49.9|<0.0001
82455600|NCT01623115|164615759|SUPERIORITY_OR_OTHER||LS mean difference|-52.4|||<|0.0001|TWO_SIDED|95.0|-57.2|-47.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.6|-57.2|<0.0001
82455601|NCT01623115|164615760|SUPERIORITY_OR_OTHER||LS mean difference|-52.6|||<|0.0001|TWO_SIDED|95.0|-57.5|-47.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.8|-57.5|<0.0001
82437734|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.66||||0.175|TWO_SIDED|95.0|-0.3|1.61|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.61|-0.30|0.175
82437735|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.75||||0.12|TWO_SIDED|95.0|-0.2|1.7|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.70|-0.20|0.120
82437736|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.19||||0.014|TWO_SIDED|95.0|0.24|2.15|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.15|0.24|0.014
82437737|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.31||||0.007|TWO_SIDED|95.0|0.36|2.26|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||2.26|0.36|0.007
82437738|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.66||||0.054|TWO_SIDED|95.0|-1.32|0.01|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.01|-1.32|0.054
82437739|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.56||||0.096|TWO_SIDED|95.0|-1.22|0.1|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.10|-1.22|0.096
82437740|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.12||||0.724|TWO_SIDED|95.0|-0.79|0.55|||ANOVA|||11 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.55|-0.79|0.724
82437741|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.42||||0.345|TWO_SIDED|95.0|-0.46|1.3|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.30|-0.46|0.345
82437742|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.54||||0.228|TWO_SIDED|95.0|-0.34|1.41|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.41|-0.34|0.228
82437743|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.9||||0.045|TWO_SIDED|95.0|0.02|1.78|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.78|0.02|0.045
82437744|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.08||||0.016|TWO_SIDED|95.0|0.21|1.96|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||1.96|0.21|0.016
82437745|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.66||||0.036|TWO_SIDED|95.0|-1.27|-0.04|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||-0.04|-1.27|0.036
82437746|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54||||0.081|TWO_SIDED|95.0|-1.15|0.07|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.07|-1.15|0.081
82437747|NCT01559259|164583772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.18||||0.556|TWO_SIDED|95.0|-0.8|0.43|||ANOVA|||12 hour: Treatment difference and 95% CI were based on LSM from ANOVA with treatment, baseline categorical PSR, gender and treatment-by-baseline categorical PSR terms used as covariates.||0.43|-0.80|0.556
82455602|NCT01623115|164615761|SUPERIORITY_OR_OTHER||LS mean difference|-38.7|||<|0.0001|TWO_SIDED|95.0|-42.4|-35.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-35|-42.4|<0.0001
82649434|NCT00931385|165014400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.072|0.155|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.155|0.072|<0.0001
82437748|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.53|||<|0.001|TWO_SIDED|95.0|2.01|3.05||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.05|2.01|<0.001
82437749|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.23|||<|0.001|TWO_SIDED|95.0|1.72|2.75||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.75|1.72|<0.001
82437750|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.56|||<|0.001|TWO_SIDED|95.0|2.04|3.08||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.08|2.04|<0.001
82649435|NCT00931385|165014400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.092|0.175|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.175|0.092|<0.0001
82437751|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.09|||<|0.001|TWO_SIDED|95.0|1.57|2.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.60|1.57|<0.001
82437752|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.44||||0.016|TWO_SIDED|95.0|0.08|0.81||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.81|0.08|0.016
82437753|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.14||||0.428|TWO_SIDED|95.0|-0.21|0.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.50|-0.21|0.428
82437754|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.47||||0.01|TWO_SIDED|95.0|0.11|0.84||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.84|0.11|0.010
82437755|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.38|||<|0.001|TWO_SIDED|95.0|6.59|10.18||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.18|6.59|<0.001
82437756|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.68|||<|0.001|TWO_SIDED|95.0|5.89|9.47||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.47|5.89|<0.001
82437757|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.7|||<|0.001|TWO_SIDED|95.0|6.91|10.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.50|6.91|<0.001
82437758|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.65|||<|0.001|TWO_SIDED|95.0|5.86|9.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.44|5.86|<0.001
82437759|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.74||||0.25|TWO_SIDED|95.0|-0.52|1.99||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.99|-0.52|0.250
82437760|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.04||||0.956|TWO_SIDED|95.0|-1.21|1.28||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.28|-1.21|0.956
82437761|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.06||||0.099|TWO_SIDED|95.0|-0.2|2.31||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.31|-0.20|0.099
82437762|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.22|||<|0.001|TWO_SIDED|95.0|7.78|12.66||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||12.66|7.78|<0.001
82437763|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|9.49|||<|0.001|TWO_SIDED|95.0|7.06|11.92||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||11.92|7.06|<0.001
82437764|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.72|||<|0.001|TWO_SIDED|95.0|8.28|13.15||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||13.15|8.28|<0.001
82455603|NCT01623115|164615762|SUPERIORITY_OR_OTHER||LS mean difference|-37.5|||<|0.0001|TWO_SIDED|95.0|-41.2|-33.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.9|-41.2|<0.0001
82455604|NCT01623115|164615763|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.7|||<|0.0001|TWO_SIDED|95.0|-48.0|-39.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.4|-48|<0.0001
82540646|NCT01212757|164780734|SUPERIORITY||Adjusted Difference|5.6||||0.0589|TWO_SIDED|95.0|-0.2|11.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||11.3|-0.2|0.0589
82540647|NCT01212757|164780734|SUPERIORITY||Adjusted Difference|9.8||||0.0034|TWO_SIDED|95.0|3.4|16.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.1|3.4|0.0034
82540648|NCT01212757|164780735|SUPERIORITY||Adjusted Difference|0.6||||0.562|TWO_SIDED|95.0|-1.5|2.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||2.7|-1.5|0.5620
82540649|NCT01212757|164780735|SUPERIORITY||Adjusted Difference|3.1||||0.057|TWO_SIDED|95.0|0.0|6.2|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.2|-0.0|0.0570
82540650|NCT01212757|164780736|SUPERIORITY||Adjusted Difference|3.1||||0.3629|TWO_SIDED|95.0|-3.5|9.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||9.6|-3.5|0.3629
82540651|NCT01212757|164780736|SUPERIORITY||Adjusted Difference|5.4||||0.1323|TWO_SIDED|95.0|-1.5|12.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||12.3|-1.5|0.1323
82577920|NCT00461981|164865047|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.44||||||95.0|0.16|1.07||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.07|0.16|
82649436|NCT00931385|165014401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.167|0.284|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.284|0.167|<0.0001
82455605|NCT01623115|164615764|SUPERIORITY_OR_OTHER||LS mean difference|-32.5|||<|0.0001|TWO_SIDED|95.0|-35.7|-29.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.2|-35.7|<0.0001
82455606|NCT01623115|164615765|SUPERIORITY_OR_OTHER||LS mean difference|-56.2|||<|0.0001|TWO_SIDED|95.0|-62.4|-50.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50|-62.4|<0.0001
82455607|NCT01623115|164615766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.0|||<|0.0001|TWO_SIDED|95.0|48.9|498.1||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||498.1|48.9|<0.0001
82540652|NCT01212757|164780737|SUPERIORITY||Adjusted Difference|-0.6||||0.7273|TWO_SIDED|95.0|-4.3|3.0|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||3.0|-4.3|0.7273
82540653|NCT01212757|164780737|SUPERIORITY||Adjusted Difference|2.4||||0.2929|TWO_SIDED|95.0|-2.0|6.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||6.8|-2.0|0.2929
82540654|NCT01212757|164780738|SUPERIORITY||Adjusted Difference|-2.2||||0.7023|TWO_SIDED|95.0|-13.5|9.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||9.1|-13.5|0.7023
82540655|NCT01212757|164780738|SUPERIORITY||Adjusted Difference|5.9||||0.3305|TWO_SIDED|95.0|-5.9|17.7|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.7|-5.9|0.3305
82540656|NCT01212757|164780739|SUPERIORITY||Adjusted Difference|0.3||||0.9698|TWO_SIDED|95.0|-16.0|16.6|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||16.6|-16.0|0.9698
82437765|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|9.63|||<|0.001|TWO_SIDED|95.0|7.19|12.06||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||12.06|7.19|<0.001
82652356|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.169||||0.1769|TWO_SIDED|95.0|-0.415|0.077||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.077|-0.415|0.1769
82437766|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.6||||0.492|TWO_SIDED|95.0|-1.11|2.3||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.30|-1.11|0.492
82437767|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.14||||0.873|TWO_SIDED|95.0|-1.83|1.56||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.56|-1.83|0.873
82437768|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.09||||0.21|TWO_SIDED|95.0|-0.62|2.79||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.79|-0.62|0.210
82437769|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.65|||<|0.001|TWO_SIDED|95.0|8.1|15.2||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.20|8.10|<0.001
82437770|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|10.94|||<|0.001|TWO_SIDED|95.0|7.4|14.48||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.48|7.40|<0.001
82437771|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|12.65|||<|0.001|TWO_SIDED|95.0|9.1|16.2||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||16.20|9.10|<0.001
82437772|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.72|||<|0.001|TWO_SIDED|95.0|8.18|15.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.26|8.18|<0.001
82437773|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.957|TWO_SIDED|95.0|-2.55|2.42||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.42|-2.55|0.957
82455608|NCT01623115|164615767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.6|||<|0.0001|TWO_SIDED|95.0|49.7|493.7||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||493.7|49.7|<0.0001
82455609|NCT01623115|164615768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|244.9|||<|0.0001|TWO_SIDED|95.0|34.4|1744.4||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1744.4|34.4|<0.0001
82455610|NCT01623115|164615769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|240.0|||<|0.0001|TWO_SIDED|95.0|33.9|1700.7||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1700.7|33.9|<0.0001
82455611|NCT01623115|164615770|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.7|||<|0.0001|TWO_SIDED|95.0|-22.6|-12.9||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-12.9|-22.6|<0.0001
82437774|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.78||||0.534|TWO_SIDED|95.0|-3.25|1.69||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.69|-3.25|0.534
82561850|NCT02291861|164832896|SUPERIORITY||LSM difference|-3.1||||0.281|TWO_SIDED|95.0|-8.86|2.59||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||2.59|-8.86|0.281
82540657|NCT01212757|164780739|SUPERIORITY||Adjusted Difference|1.9||||0.8205|TWO_SIDED|95.0|-14.3|18.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||18.1|-14.3|0.8205
82437775|NCT01559259|164583773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.93||||0.462|TWO_SIDED|95.0|-1.55|3.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.41|-1.55|0.462
82437776|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|9.06|||<|0.001|TWO_SIDED|95.0|7.23|10.89||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.89|7.23|<0.001
82437777|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.14|||<|0.001|TWO_SIDED|95.0|6.33|9.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.95|6.33|<0.001
82437778|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|8.66|||<|0.001|TWO_SIDED|95.0|6.83|10.49||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||10.49|6.83|<0.001
82455612|NCT01623115|164615771|SUPERIORITY_OR_OTHER||LS mean difference|8.0|||<|0.0001|TWO_SIDED|95.0|5.0|11.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11|5|<0.0001
82455613|NCT01623115|164615772|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-16.0|||<|0.0001|TWO_SIDED|95.0|-21.3|-10.6||Threshold for significance was ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-10.6|-21.3|<0.0001
82455614|NCT01623115|164615773|SUPERIORITY_OR_OTHER||LS mean difference|4.7|||=|0.0002|TWO_SIDED|95.0|2.3|7.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.2|2.3|= 0.0002
82455615|NCT01623115|164615774|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-21.5|-13.0||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13|-21.5|<0.0001
82455616|NCT01623115|164615775|SUPERIORITY_OR_OTHER||LS mean difference|4.3||||0.0031|TWO_SIDED|95.0|1.5|7.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.2|1.5|0.0031
82455617|NCT01623115|164615776|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.7||||0.0003|TWO_SIDED|95.0|-15.0|-4.4||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.4|-15|0.0003
82455618|NCT01623115|164615777|SUPERIORITY_OR_OTHER||LS mean difference|2.8||||0.0187|TWO_SIDED|95.0|0.5|5.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.2|0.5|0.0187
82540658|NCT01212757|164780740|SUPERIORITY||Adjusted Difference|-1.2||||0.8424|TWO_SIDED|95.0|-12.7|10.3|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||10.3|-12.7|0.8424
82437779|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|7.61|||<|0.001|TWO_SIDED|95.0|5.78|9.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.44|5.78|<0.001
82561851|NCT02291861|164832896|SUPERIORITY||LSM difference|1.3||||0.627|TWO_SIDED|95.0|-4.1|6.79||5% level of significance (2-sided)|ANCOVA|The statistical model was an ANCOVA with treatment group and baseline use of DRAs as fixed effects and the baseline value as a covariate.|SD-809 - placebo|||6.79|-4.10|0.627
82455619|NCT02366195|164615782|OTHER|||||||0.387|||||||Regression, Logistic|||||||0.387
82455620|NCT02366195|164615783|OTHER|Primary completion data.||||||0.056|||||||Regression, Logistic|||||||0.056
82455621|NCT02366195|164615783|OTHER|Final analysis data.||||||0.222|||||||Regression, Logistic|||||||0.222
82455622|NCT02366195|164615784|OTHER|Primary completion data||||||0.335|||||||Cox proportional hazards|||||||0.335
82455623|NCT02366195|164615784|OTHER|Final analysis data||||||0.597|||||||Cox proportional hazards|||||||0.597
82455624|NCT02366195|164615785|OTHER|Primary completion||||||0.82|||||||Fisher's Z transformation|||||||0.82
82455625|NCT02366195|164615785|OTHER|Final analysis data||||||0.9|||||||Fisher's Z transformation|||||||0.90
82455626|NCT02366195|164615786|OTHER|Primary completion data||||||0.66|||||||Regression, Logistic|||||||0.660
82540659|NCT01212757|164780740|SUPERIORITY||Adjusted Difference|5.9||||0.3395|TWO_SIDED|95.0|-6.0|17.8|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||17.8|-6.0|0.3395
82540660|NCT01212757|164780741|SUPERIORITY||Adjusted Difference|5.9||||0.4811|TWO_SIDED|95.0|-10.3|22.1|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||22.1|-10.3|0.4811
82540661|NCT01212757|164780741|SUPERIORITY||Adjusted Difference|3.3||||0.6965|TWO_SIDED|95.0|-13.3|19.5|||Cochran-Mantel-Haenszel|The 2-sided p-value is based on the CMH test adjusting for baseline DMARD use.|Adjusted difference is the weighted average of the treatment differences across the 2 strata of baseline DMARD use with the CMH weights. The 2-sided 95% CI is based on a normal approximation to the weighted average.|||19.5|-13.3|0.6965
82540662|NCT04493242|164780765|OTHER|log-rank test||||||0.1343|||||||Chi-squared|||||||0.1343
82652357|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.188||||0.1343|TWO_SIDED|95.0|-0.434|0.058||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.058|-0.434|0.1343
82437780|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.45||||0.024|TWO_SIDED|95.0|0.19|2.7||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.70|0.19|0.024
82437781|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.53||||0.392|TWO_SIDED|95.0|-0.69|1.76||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.76|-0.69|0.392
82437782|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.05||||0.101|TWO_SIDED|95.0|-0.21|2.3||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.30|-0.21|0.101
82437783|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|30.23|||<|0.001|TWO_SIDED|95.0|23.97|36.48||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||36.48|23.97|<0.001
82437784|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.93|||<|0.001|TWO_SIDED|95.0|21.74|34.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||34.11|21.74|<0.001
82437785|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|29.86|||<|0.001|TWO_SIDED|95.0|23.6|36.12||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||36.12|23.60|<0.001
82437786|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|27.59|||<|0.001|TWO_SIDED|95.0|21.33|33.86||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||33.86|21.33|<0.001
82437787|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.63||||0.228|TWO_SIDED|95.0|-1.65|6.92||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.92|-1.65|0.228
82455627|NCT02366195|164615786|OTHER|Final analysis data||||||0.881|||||||Regression, Logistic|||||||0.881
82455628|NCT02366195|164615787|OTHER|Primary completion data||||||0.974|||||||Regression, Logistic|||||||0.974
82540663|NCT04517864|164780783|SUPERIORITY||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.0382|||TWO_SIDED|95.0|-0.056|0.097||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear Mixed-effects Model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.097|-0.056|
82540664|NCT04517864|164780784|SUPERIORITY||Least Squares Mean Difference|0.009|STANDARD_ERROR_OF_MEAN|0.0307|||TWO_SIDED|95.0|-0.052|0.07||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.070|-0.052|
82561852|NCT02291861|164832897|SUPERIORITY||Odds Ratio (OR)|1.51||||0.296|TWO_SIDED|95.0|0.694|3.285||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.285|0.694|0.296
82437788|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.33||||0.875|TWO_SIDED|95.0|-3.84|4.51||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.51|-3.84|0.875
82437789|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.27||||0.299|TWO_SIDED|95.0|-2.02|6.55||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.55|-2.02|0.299
82437790|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|36.98|||<|0.001|TWO_SIDED|95.0|28.48|45.47||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||45.47|28.48|<0.001
82437791|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|35.1|||<|0.001|TWO_SIDED|95.0|26.7|43.5||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||43.50|26.70|<0.001
82437792|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|37.09|||<|0.001|TWO_SIDED|95.0|28.6|45.59||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||45.59|28.60|<0.001
82437793|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|35.17|||<|0.001|TWO_SIDED|95.0|26.67|43.68||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||43.68|26.67|<0.001
82437794|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.8||||0.543|TWO_SIDED|95.0|-4.02|7.63||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.63|-4.02|0.543
82437795|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.979|TWO_SIDED|95.0|-5.75|5.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.60|-5.75|0.979
82437796|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.92||||0.517|TWO_SIDED|95.0|-3.9|7.74||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.74|-3.90|0.517
82437797|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|42.96|||<|0.001|TWO_SIDED|95.0|30.51|55.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||55.41|30.51|<0.001
82437798|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|42.2|||<|0.001|TWO_SIDED|95.0|29.9|54.51||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||54.51|29.90|<0.001
82437799|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|45.12|||<|0.001|TWO_SIDED|95.0|32.67|57.57||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||57.57|32.67|<0.001
82437800|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|44.25|||<|0.001|TWO_SIDED|95.0|31.79|56.71||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||56.71|31.79|<0.001
82455629|NCT02366195|164615787|OTHER|Final analysis data||||||0.612|||||||Regression, Logistic|||||||0.612
82455630|NCT02366195|164615788|OTHER|Primary completion data||||||0.626|||||||Cox proportional hazards|||||||0.626
82455631|NCT02366195|164615788|OTHER|Final analysis data||||||0.579|||||||Cox proportional hazards|||||||0.579
82455632|NCT02366195|164615789|OTHER|Primary completion data||||||0.18|||||||Pearson's correlation coefficient|||||||0.18
82540665|NCT04517864|164780785|SUPERIORITY||Least Squares Mean Difference|-0.006|STANDARD_ERROR_OF_MEAN|0.0297|||TWO_SIDED|95.0|-0.065|0.053||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear Mixed-effects Model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.053|-0.065|
82540666|NCT04517864|164780787|SUPERIORITY||Least Squares Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.0235|||TWO_SIDED|95.0|-0.005|0.088||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||||0.088|-0.005|
82540667|NCT04517864|164780793|SUPERIORITY||Least Squares Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.0224|||TWO_SIDED|95.0|-0.059|0.03||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 6||0.030|-0.059|
82540668|NCT04517864|164780793|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.0236|||TWO_SIDED|95.0|-0.107|-0.012||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 9||-0.012|-0.107|
82540669|NCT04517864|164780795|SUPERIORITY||Least Squares Mean Difference|-0.028|STANDARD_ERROR_OF_MEAN|0.0242|||TWO_SIDED|95.0|-0.076|0.02||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 6||0.020|-0.076|
82540670|NCT04517864|164780795|SUPERIORITY||Least Squares Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0261|||TWO_SIDED|95.0|-0.049|0.056||There was no formal statistical hypothesis testing for this study, and hence there was no P-value.|Mixed Models Analysis|Linear mixed-effects model: baseline, treatment group, visit and treatment group by visit interaction as fixed effects; participant as a random effect||Month 9||0.056|-0.049|
82540671|NCT04035668|164780842|SUPERIORITY||Mean Difference (Final Values)|-2.86||||0.002|TWO_SIDED|95.0|-4.71|-1.01||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|||-1.01|-4.71|0.002
82540672|NCT04035668|164780842|OTHER||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-3.24|1.25|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|||1.25|-3.24|
82540673|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.065|TWO_SIDED|95.0|-2.29|0.3||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.30|-2.29|0.065
82540674|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.01|TWO_SIDED|95.0|-3.24|-0.29||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||-0.29|-3.24|0.010
82540675|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.289|TWO_SIDED|95.0|-2.17|1.22||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||1.22|-2.17|0.289
82577921|NCT00461981|164865048|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|2.46||||||95.0|1.26|5.06||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||5.06|1.26|
82649437|NCT00931385|165014401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.17|0.287|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.287|0.170|<0.0001
82540676|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-1.19||||0.093|TWO_SIDED|95.0|-2.97|0.59||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||0.59|-2.97|0.093
82540677|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.094|TWO_SIDED|95.0|-2.84|0.57||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||0.57|-2.84|0.094
82540678|NCT04035668|164780843|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.012|TWO_SIDED|95.0|-3.71|-0.28||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|-0.28|-3.71|0.012
82649438|NCT00931385|165014401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.203|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.144|0.262|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.262|0.144|<0.0001
82540679|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|-0.63|||||TWO_SIDED|95.0|-2.1|0.84|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||0.84|-2.10|
82540680|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-1.75|1.69|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||1.69|-1.75|
82540681|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.83|2.21|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||2.21|-1.83|
82540682|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-3.2|1.01|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||1.01|-3.20|
82540683|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|-1.45|||||TWO_SIDED|95.0|-3.5|0.6|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||0.60|-3.50|
82540684|NCT04035668|164780843|OTHER||Mean Difference (Final Values)|-1.14|||||TWO_SIDED|95.0|-3.22|0.95|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||0.95|-3.22|
82540685|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.46|TWO_SIDED|95.0|-0.69|0.62||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.62|-0.69|0.460
82540686|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.418|TWO_SIDED|95.0|-0.82|0.66||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||0.66|-0.82|0.418
82540687|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.466|TWO_SIDED|95.0|-0.76|0.7||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||0.70|-0.76|0.466
82437801|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.29||||0.767|TWO_SIDED|95.0|-9.82|7.25||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.25|-9.82|0.767
82437802|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.04||||0.629|TWO_SIDED|95.0|-10.36|6.27||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.27|-10.36|0.629
82455633|NCT02366195|164615789|OTHER|Final analysis data||||||0.14|||||||Pearson's correlation coefficient|||||||0.14
82455634|NCT00940901|164615797|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Null hypothesis: there would be no difference in the number of participants who experienced at least a 50% reduction in the frequency of priapic episodes between baseline and 8 weeks post intervention, between the sildenafil and placebo groups||||1
82455635|NCT00940901|164615798|SUPERIORITY_OR_OTHER|||||||0.55|||||||Fisher Exact|||||||0.55
82455636|NCT00740207|164615805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.7142|TWO_SIDED|95.0|-1.3|0.9|||t-test, 2 sided|||Paired t-test to compare difference between the investigational product's mean change from predose to postdose||0.9|-1.3|0.7142
82455637|NCT00740207|164615806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.1698|TWO_SIDED|95.0|-79.2|-0.8|||Fisher Exact|||Paired t-test to compare the difference in percentage between the portions of patients who had motion artifacts.||-0.8|-79.2|0.1698
82455638|NCT00740207|164615807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0||||1|TWO_SIDED|95.0|-28.6|8.6|||Fisher Exact|||Paired t-test to compare difference in percentage between the number of participants requiring repeat injections||8.6|-28.6|1.000
82455639|NCT01775371|164615863|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|95.0|0.6|1.5||The a priori threshold for statistical significance was 0.05.|Z-test 2-sided||The direction of the comparison is the Patient Controlled Analgesia minus the standard care group|The rate of change of NRS pain scores per hour was calculated using a mixed effects linear model. Time is represented as a linear spline with knot at 30 minutes to support the separate estimation of early and late phase rates of change. Fixed effects in the analysis includes study-group indicator, early and late phase time, and interactions between study-group and time. The principal hypothesis test was a z-test of the coefficient of the study group late phase interaction term.||1.5|0.6|<0.001
82455640|NCT01775371|164615864|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
82455641|NCT01775371|164615865|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
82540688|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.56|TWO_SIDED|95.0|-0.67|0.79||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||0.79|-0.67|0.560
82540689|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.616|TWO_SIDED|95.0|-0.73|0.99||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||0.99|-0.73|0.616
82540690|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.581|TWO_SIDED|95.0|-0.81|0.99||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|0.99|-0.81|0.581
82437803|NCT01559259|164583774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.87||||0.841|TWO_SIDED|95.0|-7.66|9.39||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||9.39|-7.66|0.841
82455642|NCT01775371|164615866|OTHER|Responses occur with equal probability|||||<|0.001|||||||Chi-squared|One-sample chi-squared test of hypothesis that the responses occur with equal probability||These outcomes are based on the nurses who took care of patients in the study||||<0.001
82455643|NCT01775371|164615867|OTHER|All responses occur with equal probability|||||<|0.001|||||||Chi-squared|One-sample chi-squared test of hypothesis that the responses occur with equal probability||This outcome is based on the physicians who took care of the patients in the study||||<0.001
82455644|NCT01425801|164615900|SUPERIORITY_OR_OTHER||Least Squares Mean DIfference|0.405|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.353|0.458|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.458|0.353|<0.0001
82455645|NCT01425801|164615900|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.371|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.318|0.424|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.424|0.318|<0.0001
82455646|NCT01425801|164615900|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.322|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.269|0.375|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.375|0.269|<0.0001
82455647|NCT01425801|164615900|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.274|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.221|0.327|||ANCOVA|Sequence, treatment and period as fixed effect factors, patient within sequence as random effect and baseline peak FEV1 at each period as a covariate||||0.327|0.221|<0.0001
82455648|NCT02868554|164615918|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.07|TWO_SIDED||||||ANOVA|||||||0.07
82455649|NCT02868554|164615919|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
82490268|NCT02663908|164673477|OTHER||Hazard Ratio (HR)|0.186||||0.0853|TWO_SIDED|95.0|0.022|1.595|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||1.595|0.022|0.0853
82490269|NCT02663908|164673478|OTHER||Hazard Ratio (HR)|1.594||||0.5196|TWO_SIDED|95.0|0.381|6.673|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||6.673|0.381|0.5196
82649439|NCT00931385|165014402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.087|0.207|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.207|0.087|<0.0001
82649440|NCT00931385|165014402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.112|0.231|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.231|0.112|<0.0001
82455650|NCT03066596|164616033|SUPERIORITY|A generalized linear model (GLM) with logit link function was used to compare the percentage of participants with corrected actions taken and GEE method was used to account for within-clinic correlation. The null hypothesis is that there is no difference between groups in the the percentage of participants with corrected actions taken. With 530 participants at baseline, ≤10% attrition at 12 months, the study has greater than 80% power to detect a difference of 15 percentage points.|Odds Ratio (OR)|3.47|||<|0.001|TWO_SIDED|95.0|1.98|6.08||The p-values reported above represented the calculated value rather than predetermined thresholds for significance. Statistical significance was defined as a p-value less than 0.05.|GLM with GEE|||||6.08|1.98|<.001
82455651|NCT03066596|164616033|SUPERIORITY|This analysis is similar to analysis 1, however, the model adjusting for sex, age, race/ethnicity, symptom free days (at baseline), nurse screening results, clinic characteristics, visit type, caregiver education, and smoking exposure (at baseline).|Odds Ratio (OR)|3.66|||<|0.001|TWO_SIDED|95.0|1.97|6.82||The p-values reported above represented the calculated value rather than predetermined thresholds for significance. Statistical significance was defined as a p-value less than 0.05.|GLM with GEE|||||6.82|1.97|<.001
82455652|NCT03066596|164616034|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.13||||0.174|TWO_SIDED|95.0|0.95|1.34|||GLM with GEE|||3 month follow up||1.34|0.95|0.174
82455653|NCT03066596|164616034|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.04||||0.741|TWO_SIDED|95.0|0.85|1.27|||GLM with GEE|||6 month follow up||1.27|0.85|0.741
82455654|NCT03066596|164616034|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.03||||0.724|TWO_SIDED|95.0|0.85|1.25|||GLM with GEE|||9 month follow up||1.25|0.85|0.724
82455655|NCT03066596|164616034|SUPERIORITY|A generalized linear model (GLM) with generalized estimating equations (GEE) was used to compare changes over time between the two groups in symptom-free days (SFDs) during the past two weeks, accounting for within-subject correlation. The null hypothesis at each time point was that there is no difference between groups in the change in SFDs. With 530 participants at baseline, ≤10% attrition at 12 months, the study has 80% power to detect a standardized effect size \>0.29.|Ratio of Rate Ratios|1.12||||0.229|TWO_SIDED|95.0|0.93|1.34|||GLM with GEE|||12 month follow up||1.34|0.93|0.229
82455656|NCT03066596|164616034|SUPERIORITY|This analysis is similar to Analysis 1, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.13||||0.186|TWO_SIDED|95.0|0.94|1.34|||GLM with GEE|||3 month follow up||1.34|0.94|0.186
82455657|NCT03066596|164616034|SUPERIORITY|This analysis is similar to Analysis 2, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.04||||0.744|TWO_SIDED|95.0|0.84|1.27|||GLM with GEE|||6 month follow up||1.27|0.84|0.744
82455658|NCT03066596|164616034|SUPERIORITY|This analysis is similar to Analysis 3, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.03||||0.765|TWO_SIDED|95.0|0.85|1.25|||GLM with GEE|||9 month follow up||1.25|0.85|0.765
82455659|NCT03066596|164616034|SUPERIORITY|This analysis is similar to Analysis 4, with adjustment for baseline outcome (symptom-free days) and seasonality.|Ratio of Rate Ratios|1.11||||0.241|TWO_SIDED|95.0|0.93|1.33|||GLM with GEE|||12 month follow up||1.33|0.93|0.241
82455660|NCT04739436|164616043|SUPERIORITY||Slope|5.29||||0.003|TWO_SIDED|95.0|1.8|8.79||Multiple comparisons were not conducted, so no adjustment of the p-value was necessary.|Regression, Linear|||A linear regression model was fit with outcome change in APHAB score between 3 months and baseline, predictor hearing aid fitting group (reference=bilateral), and covariate clinical site.||8.79|1.80|0.003
82540691|NCT04035668|164780844|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.663|TWO_SIDED|95.0|-0.62|0.96||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||0.96|-0.62|0.663
82540692|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.62|||||TWO_SIDED|95.0|-1.35|0.11|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||0.11|-1.35|
82540693|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.42|0.26|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||0.26|-1.42|
82540694|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.45|||||TWO_SIDED|95.0|-1.31|0.42|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||0.42|-1.31|
82540695|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.57|||||TWO_SIDED|95.0|-1.44|0.31|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||0.31|-1.44|
82540696|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-1.39|0.65|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||0.65|-1.39|
82540697|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-1.39|0.65|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||0.65|-1.39|
82649441|NCT00931385|165014402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001||95.0|0.191|0.311|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.311|0.191|<0.0001
82437804|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.97|||<|0.001|TWO_SIDED|95.0|3.22|4.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.73|3.22|<0.001
82437805|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.64|||<|0.001|TWO_SIDED|95.0|2.88|4.39||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.39|2.88|<0.001
82437806|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|4.07|||<|0.001|TWO_SIDED|95.0|3.32|4.83||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.83|3.32|<0.001
82437807|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|3.39|||<|0.001|TWO_SIDED|95.0|2.64|4.14||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.14|2.64|<0.001
82437808|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.58||||0.031|TWO_SIDED|95.0|0.05|1.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.11|0.05|0.031
82437809|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.24||||0.36|TWO_SIDED|95.0|-0.28|0.77||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||0.77|-0.28|0.360
82437810|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.68||||0.011|TWO_SIDED|95.0|0.15|1.21||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.21|0.15|0.011
82437811|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|13.14|||<|0.001|TWO_SIDED|95.0|10.54|15.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||15.73|10.54|<0.001
82437812|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|11.94|||<|0.001|TWO_SIDED|95.0|9.35|14.52||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.52|9.35|<0.001
82437813|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|13.54|||<|0.001|TWO_SIDED|95.0|10.95|16.13||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||16.13|10.95|<0.001
82437814|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|12.04|||<|0.001|TWO_SIDED|95.0|9.45|14.63||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||14.63|9.45|<0.001
82455661|NCT04739436|164616044|SUPERIORITY|||||||0.584||||||No adjustments for multiple comparisons were done.|Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, what proportion of the time do you wear your hearing aid?||||0.584
82540698|NCT04035668|164780844|OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.37|0.57|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||0.57|-1.37|
82540699|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|-2.73||||0.94|TWO_SIDED|95.0|-6.18|0.73||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||0.73|-6.18|0.940
82540700|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.322|TWO_SIDED|95.0|-2.95|4.74||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||4.74|-2.95|0.322
82540701|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|-1.36||||0.753|TWO_SIDED|95.0|-5.32|2.59||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||2.59|-5.32|0.753
82540702|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.891|TWO_SIDED|95.0|-7.13|1.66||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||1.66|-7.13|0.891
82437815|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.1||||0.235|TWO_SIDED|95.0|-0.72|2.91||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.91|-0.72|0.235
82540703|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|-3.88||||0.941|TWO_SIDED|95.0|-8.77|1.01||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||1.01|-8.77|0.941
82540704|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.304|TWO_SIDED|95.0|-4.01|6.79||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|6.79|-4.01|0.304
82540705|NCT04035668|164780845|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.64|TWO_SIDED|95.0|-6.89|4.79||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||4.79|-6.89|0.640
82540706|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|2.32|||||TWO_SIDED|95.0|-1.44|6.07|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||6.07|-1.44|
82540707|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-3.46|5.18|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||5.18|-3.46|
82540708|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-4.43|4.83|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||4.83|-4.43|
82540709|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|0.63|||||TWO_SIDED|95.0|-4.53|5.78|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||5.78|-4.53|
82437816|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1||||0.91|TWO_SIDED|95.0|-1.91|1.7||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.70|-1.91|0.910
82437817|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.5||||0.105|TWO_SIDED|95.0|-0.32|3.31||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.31|-0.32|0.105
82437818|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|16.05|||<|0.001|TWO_SIDED|95.0|12.49|19.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||19.61|12.49|<0.001
82437819|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|14.88|||<|0.001|TWO_SIDED|95.0|11.33|18.43||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||18.43|11.33|<0.001
82437820|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|16.76|||<|0.001|TWO_SIDED|95.0|13.2|20.32||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||20.32|13.20|<0.001
82455662|NCT04739436|164616044|SUPERIORITY|||||||0.233|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, how much does your hearing aid help you?||||0.233
82540710|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|1.11|||||TWO_SIDED|95.0|-4.6|6.82|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||6.82|-4.60|
82540711|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|5.69|||||TWO_SIDED|95.0|-0.66|12.04|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||12.04|-0.66|
82540712|NCT04035668|164780845|OTHER||Mean Difference (Final Values)|3.53|||||TWO_SIDED|95.0|-3.53|10.59|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||10.59|-3.53|
82540713|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.494|TWO_SIDED|95.0|-7.84|7.96||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||7.96|-7.84|0.494
82540714|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|-3.87||||0.866|TWO_SIDED|95.0|-10.81|3.06||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||3.06|-10.81|0.866
82540715|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.684|TWO_SIDED|95.0|-9.37|5.73||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||5.73|-9.37|0.684
82540716|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|-4.39||||0.908|TWO_SIDED|95.0|-10.93|2.14||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||2.14|-10.93|0.908
82540717|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.487|TWO_SIDED|95.0|-8.0|8.26||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||8.26|-8.00|0.487
82540718|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|-3.06||||0.79|TWO_SIDED|95.0|-10.61|4.49||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|4.49|-10.61|0.790
82540719|NCT04035668|164780846|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.34|TWO_SIDED|95.0|-6.48|9.88||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||9.88|-6.48|0.340
82540720|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-9.06|8.68|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||8.68|-9.06|
82540721|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-9.59|6.17|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||6.17|-9.59|
82455663|NCT04739436|164616044|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: In this situation, with your hearing aid, how much difficulty do you now have?||||0.010
82455664|NCT04739436|164616044|SUPERIORITY|||||||0.129|||||||Kruskal-Wallis|||The null hypothesis is there is no difference in the GHABP question means between the groups at 3 months for the question: For this situation, how satisfied are you with your hearing aid?||||0.129
82455665|NCT04739436|164616045|SUPERIORITY|||||||0.946|||||||Kruskal-Wallis|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change from baseline to 3 months in the co-located BKB SIN test scores between the groups.||||0.946
82455666|NCT04739436|164616046|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|No adjustments for multiple comparisons were done.||The null hypotheses are there are no differences in the change from baseline to 3 months in WARRM recognition scores between the groups.||||0.490
82455667|NCT04739436|164616046|SUPERIORITY|||||||0.323||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypotheses are there are no differences in the change from baseline to 3 months in WARRM recall scores between the groups.||||0.323
82455668|NCT04739436|164616047|SUPERIORITY|||||||0.933||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the SADL scores between the groups at 3 months.||||0.933
82455669|NCT04739436|164616047|SUPERIORITY|||||||0.929||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the SADL scores between the groups at 6 months.||||0.929
82455670|NCT04739436|164616049|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||The null hypothesis is there is no difference in the change from baseline to 3 months in SSQ scores between the groups.||||0.015
82455671|NCT04739436|164616049|SUPERIORITY|||||||0.886|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change from baseline to 6 months in SSQ scores between the groups.||||0.886
82455672|NCT04739436|164616050|SUPERIORITY|||||||0.137|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the number of hours of hearing aid use between the groups in the right ear.||||0.137
82455673|NCT04739436|164616050|SUPERIORITY|||||||0.612|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the number of hours of hearing aid use between the groups in the left ear.||||0.612
82540722|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-9.34|8.74|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||8.74|-9.34|
82455674|NCT04739436|164616052|SUPERIORITY|||||||0.108|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the IOI-HA total score between the groups at 3 months.||||0.108
82455675|NCT04739436|164616052|SUPERIORITY|||||||0.988||||||No adjustments for multiple comparisons were done.|t-test, 2 sided|||The null hypothesis is there is no difference in the IOI-HA total score between the groups at 6 months.||||0.988
82455676|NCT04739436|164616055|SUPERIORITY|||||||0.264|||||||t-test, 2 sided|No adjustments for multiple comparisons were done.||The null hypothesis is there is no difference in the change in APHAB score from baseline to 6 months between the groups.||||0.264
82540723|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-3.94|||||TWO_SIDED|95.0|-11.74|3.86|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||3.86|-11.74|
82540724|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-4.71|||||TWO_SIDED|95.0|-14.34|4.93|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||4.93|-14.34|
82455677|NCT00676013|164616056|OTHER|ANOVA and all pairwise comparisons using Tukey test.|Multiple pairwise comparisons|0.05||||0.05|TWO_SIDED|||||0.05 is a threshold for statistical significance.|ANOVA|||We conducted a multiple four group comparison (all pairwise comparisons were conducted). An Anova was conducted to assess statistical significance.|0.05|||0.05
82455678|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.3|||||TWO_SIDED|95.0|-0.54|-0.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.07|-0.54|
82455679|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.46|-0.02||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.02|-0.46|
82455680|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.14|||||TWO_SIDED|95.0|-0.36|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.36|
82455681|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.23|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.23|
82455682|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.14|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.14|
82455683|NCT03201419|164616057|SUPERIORITY||Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.07|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||-0.00|-0.07|
82455684|NCT03201419|164616058|SUPERIORITY||Mean Difference|-0.139||||0.4214|TWO_SIDED|95.0|-0.48|0.201||Threshold for significance at 0.05 level.|MMRM|||||0.201|-0.480|0.4214
82455685|NCT03201419|164616058|SUPERIORITY||Mean Difference|-0.587||||0.0101|TWO_SIDED|95.0|-1.034|-0.141||Threshold for significance at 0.05 level.|MMRM|||||-0.141|-1.034|0.0101
82455686|NCT03201419|164616058|SUPERIORITY||Mean Difference|-0.148||||0.5203|TWO_SIDED|95.0|-0.599|0.304||Threshold for significance at 0.05 level.|MMRM|||||0.304|-0.599|0.5203
82455687|NCT03201419|164616058|SUPERIORITY||Mean Difference|0.055||||0.8483|TWO_SIDED|95.0|-0.508|0.617||Threshold for significance at 0.05 level.|MMRM|||||0.617|-0.508|0.8483
82455688|NCT03201419|164616058|SUPERIORITY||Mean Difference|-0.147||||0.6357|TWO_SIDED|95.0|-0.759|0.464||Threshold for significance at 0.05 level.|MMRM|||||0.464|-0.759|0.6357
82455689|NCT03201419|164616058|SUPERIORITY||Mean Difference|0.25||||0.2222|TWO_SIDED|95.0|-0.152|0.652||Threshold for significance at 0.05 level.|MMRM|||||0.652|-0.152|0.2222
82455690|NCT03201419|164616059|SUPERIORITY||Mean Difference|-0.166||||0.2909|TWO_SIDED|95.0|-0.474|0.143||Threshold for significance at 0.05 level.|MMRM|||||0.143|-0.474|0.2909
82455691|NCT03201419|164616059|SUPERIORITY||Mean Difference|-0.418||||0.044|TWO_SIDED|95.0|-0.824|-0.011||Threshold for significance at 0.05 level.|MMRM|||||-0.011|-0.824|0.0440
82455692|NCT03201419|164616059|SUPERIORITY||Mean Difference|0.128||||0.5438|TWO_SIDED|95.0|-0.288|0.545||Threshold for significance at 0.05 level.|MMRM|||||0.545|-0.288|0.5438
82577922|NCT00461981|164865049|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.89||||||95.0|0.7|1.0||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.00|0.70|
82577923|NCT00461981|164865050|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.51||||||95.0|0.23|1.22||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.22|0.23|
82577924|NCT00461981|164865051|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|4.0||||||95.0|4.0|4.0||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||4.00|4.00|
82540725|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-6.29|||||TWO_SIDED|95.0|-15.44|2.87|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||2.87|-15.44|
82577925|NCT00461981|164865052|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.8||||||95.0|0.22|3.63||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||3.63|0.22|
82540726|NCT04035668|164780846|OTHER||Mean Difference (Final Values)|-3.92|||||TWO_SIDED|95.0|-14.01|6.16|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||6.16|-14.01|
82577926|NCT00461981|164865053|SUPERIORITY_OR_OTHER_LEGACY||GMT Ratio|0.66||||||95.0|0.25|1.73||||||Corresponding two-sided 95% CIs based on 10,000 bootstrap data sets for the ratios of strain-specific GMTs (FluMist/TIV) were constructed by drawing replicates with replacement from each of the 2 cells (2 treatment groups) of observed data. The number of replicates drawn from each cell in this fashion was equal to the observed sample size within each cell. For each of the 10,000 bootstrap data sets, the overall GMT ratio was calculated.||1.73|0.25|
82577927|NCT00461981|164865058|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence|||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82577928|NCT00847626|164865065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.8|-9.5||Tested at 5% significance level.|ANCOVA|||Analysis of covariance model (ANCOVA) using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-9.5|-15.8|<0.001
82540727|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.575|TWO_SIDED|95.0|-6.75|8.16||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 2||8.16|-6.75|0.575
82577929|NCT00847626|164865065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.8|||<|0.001|TWO_SIDED|95.0|-16.7|-10.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-10.9|-16.7|<0.001
82577930|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7|||<|0.001|TWO_SIDED|95.0|-16.2|-9.2||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.2|-16.2|<0.001
82437821|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|15.23|||<|0.001|TWO_SIDED|95.0|11.68|18.78||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||18.78|11.68|<0.001
82455693|NCT03201419|164616059|SUPERIORITY||Mean Difference|0.441||||0.096|TWO_SIDED|95.0|-0.079|0.962||Threshold for significance at 0.05 level.|MMRM|||||0.962|-0.079|0.0960
82540728|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|-1.98||||0.294|TWO_SIDED|95.0|-9.22|5.27||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 4||5.27|-9.22|0.294
82540729|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.45|TWO_SIDED|95.0|-8.4|7.41||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 8||7.41|-8.40|0.450
82577931|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9|||<|0.001|TWO_SIDED|95.0|-13.4|-6.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-6.4|-13.4|<0.001
82577932|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|||<|0.001|TWO_SIDED|95.0|-19.2|-12.1||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.1|-19.2|<0.001
82540730|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|6.02||||0.913|TWO_SIDED|95.0|-2.74|14.78||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 12||14.78|-2.74|0.913
82540731|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|2.59||||0.722|TWO_SIDED|95.0|-6.16|11.34||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 16||11.34|-6.16|0.722
82577933|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.001|TWO_SIDED|95.0|-15.8|-8.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.9|-15.8|<0.001
82455694|NCT03201419|164616059|SUPERIORITY||Mean Difference|-0.04||||0.8826|TWO_SIDED|95.0|-0.568|0.488||Threshold for significance at 0.05 level.|MMRM|||||0.488|-0.568|0.8826
82577934|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.8|||<|0.001|TWO_SIDED|95.0|-19.3|-12.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.3|-19.3|<0.001
82577935|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-16.5|-9.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.5|-16.5|<0.001
82437822|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.83||||0.514|TWO_SIDED|95.0|-1.66|3.32||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.32|-1.66|0.514
82437823|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.35||||0.783|TWO_SIDED|95.0|-2.82|2.13||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.13|-2.82|0.783
82437824|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53||||0.227|TWO_SIDED|95.0|-0.96|4.02||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.02|-0.96|0.227
82437825|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|18.28|||<|0.001|TWO_SIDED|95.0|12.95|23.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||23.61|12.95|<0.001
82437826|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|17.3|||<|0.001|TWO_SIDED|95.0|11.99|22.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||22.61|11.99|<0.001
82437827|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|20.45|||<|0.001|TWO_SIDED|95.0|15.13|25.78||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||25.78|15.13|<0.001
82437828|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|18.92|||<|0.001|TWO_SIDED|95.0|13.61|24.24||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||24.24|13.61|<0.001
82437829|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.64||||0.736|TWO_SIDED|95.0|-4.37|3.09||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.09|-4.37|0.736
82437830|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.62||||0.39|TWO_SIDED|95.0|-5.32|2.08||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.08|-5.32|0.390
82437831|NCT01559259|164583775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.53||||0.42|TWO_SIDED|95.0|-2.19|5.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.26|-2.19|0.420
82437832|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.5|||<|0.001|TWO_SIDED|95.0|5.25|7.76||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.76|5.25|<0.001
82455695|NCT03201419|164616059|SUPERIORITY||Mean Difference|0.394||||0.0344|TWO_SIDED|95.0|0.029|0.759||Threshold for significance at 0.05 level.|MMRM|||||0.759|0.029|0.0344
82455696|NCT03201419|164616060|SUPERIORITY||Mean Difference|-0.132||||0.4732|TWO_SIDED|95.0|-0.496|0.231||Threshold for significance at 0.05 level.|MMRM|||||0.231|-0.496|0.4732
82577936|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|||<|0.001|TWO_SIDED|95.0|-17.5|-10.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.5|-17.5|<0.001
82577937|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||<|0.001|TWO_SIDED|95.0|-20.6|-13.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-13.7|-20.6|<0.001
82577938|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.5|||<|0.001|TWO_SIDED|95.0|-17.0|-9.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.9|-17.0|<0.001
82540732|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|-2.86||||0.241|TWO_SIDED|95.0|-10.96|5.24||one-sided p-value|MMRM|||Week 20|Difference (Any remibrutinib - Placebo)|5.24|-10.96|0.241
82649442|NCT00931385|165014403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.132|0.241|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.241|0.132|<0.0001
82437833|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.87|||<|0.001|TWO_SIDED|95.0|4.62|7.11||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.11|4.62|<0.001
82437834|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|6.63|||<|0.001|TWO_SIDED|95.0|5.38|7.88||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||7.88|5.38|<0.001
82437835|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|5.48|||<|0.001|TWO_SIDED|95.0|4.23|6.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||6.73|4.23|<0.001
82437836|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.03||||0.022|TWO_SIDED|95.0|0.15|1.9||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.90|0.15|0.022
82437837|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|0.39||||0.38|TWO_SIDED|95.0|-0.48|1.26||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||1.26|-0.48|0.380
82437838|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.15||||0.01|TWO_SIDED|95.0|0.28|2.03||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.03|0.28|0.010
82437839|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|21.52|||<|0.001|TWO_SIDED|95.0|17.17|25.87||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||25.87|17.17|<0.001
82437840|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|19.62|||<|0.001|TWO_SIDED|95.0|15.29|23.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR, baseline numerical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||23.95|15.29|<0.001
82437841|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|22.24|||<|0.001|TWO_SIDED|95.0|17.89|26.59||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||26.59|17.89|<0.001
82437842|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|19.69|||<|0.001|TWO_SIDED|95.0|15.35|24.02||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||24.02|15.35|<0.001
82437843|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|1.83||||0.237|TWO_SIDED|95.0|-1.21|4.88||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||4.88|-1.21|0.237
82455697|NCT03201419|164616060|SUPERIORITY||Mean Difference|-0.224||||0.3394|TWO_SIDED|95.0|-0.685|0.237||Threshold for significance at 0.05 level.|MMRM|||||0.237|-0.685|0.3394
82540733|NCT04035668|164780847|SUPERIORITY||Mean Difference (Final Values)|2.95||||0.742|TWO_SIDED|95.0|-6.09|11.99||one-sided p-value|MMRM||Difference (Any remibrutinib - Placebo)|Week 24||11.99|-6.09|0.742
82540734|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-8.28|7.91|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 2||7.91|-8.28|
82540735|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-8.87|7.58|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 4||7.58|-8.87|
82540736|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-9.28|9.48|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 8||9.48|-9.28|
82540737|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-4.4|||||TWO_SIDED|95.0|-14.71|5.9|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 12||5.90|-14.71|
82455698|NCT03201419|164616060|SUPERIORITY||Mean Difference|-0.012||||0.96|TWO_SIDED|95.0|-0.488|0.463||Threshold for significance at 0.05 level.|MMRM|||||0.463|-0.488|0.9600
82455699|NCT03201419|164616060|SUPERIORITY||Mean Difference|0.463||||0.1131|TWO_SIDED|95.0|-0.111|1.037||Threshold for significance at 0.05 level.|MMRM|||||1.037|-0.111|0.1131
82649443|NCT00931385|165014403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.145|0.254|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.254|0.145|<0.0001
82649444|NCT00931385|165014403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.172|0.282|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.282|0.172|<0.0001
82455700|NCT03201419|164616060|SUPERIORITY||Mean Difference|-0.124||||0.6853|TWO_SIDED|95.0|-0.729|0.48||Threshold for significance at 0.05 level.|MMRM|||||0.480|-0.729|0.6853
82455701|NCT03201419|164616060|SUPERIORITY||Mean Difference|0.166||||0.4364|TWO_SIDED|95.0|-0.254|0.587||Threshold for significance at 0.05 level.|MMRM|||||0.587|-0.254|0.4364
82455702|NCT03201419|164616061|SUPERIORITY||Mean Difference|-0.299||||0.1106|TWO_SIDED|95.0|-0.667|0.069||Threshold for significance at 0.05 level.|MMRM|||||0.069|-0.667|0.1106
82455703|NCT03201419|164616061|SUPERIORITY||Mean Difference|-0.163||||0.5005|TWO_SIDED|95.0|-0.639|0.313||Threshold for significance at 0.05 level.|MMRM|||||0.313|-0.639|0.5005
82455704|NCT03201419|164616061|SUPERIORITY||Mean Difference|0.107||||0.6604|TWO_SIDED|95.0|-0.372|0.586||Threshold for significance at 0.05 level.|MMRM|||||0.586|-0.372|0.6604
82455705|NCT03201419|164616061|SUPERIORITY||Mean Difference|0.283||||0.3178|TWO_SIDED|95.0|-0.275|0.842||Threshold for significance at 0.05 level.|MMRM|||||0.842|-0.275|0.3178
82455706|NCT03201419|164616061|SUPERIORITY||Mean Difference|-0.096||||0.7561|TWO_SIDED|95.0|-0.701|0.51||Threshold for significance at 0.05 level.|MMRM|||||0.510|-0.701|0.7561
82455707|NCT03201419|164616061|SUPERIORITY||Mean Difference|0.037||||0.8614|TWO_SIDED|95.0|-0.378|0.452||Threshold for significance at 0.05 level.|MMRM|||||0.452|-0.378|0.8614
82455708|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|1.759||||0.117|TWO_SIDED|95.0|0.869|3.56||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.560|0.869|0.117
82540738|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-22.47|-1.77|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 16||-1.77|-22.47|
82540739|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-6.25|||||TWO_SIDED|95.0|-16.0|3.5|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 20||3.50|-16.00|
82540740|NCT04035668|164780847|OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-19.16|2.96|||MMRM||Difference (remibrutinib 100 mg qd - remibrutinib 100 mg bid)|Week 24||2.96|-19.16|
82540741|NCT03823300|164780953|NON_INFERIORITY|If the lower bound of a two-sided 95.03% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.7|1.8|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. A sample size of approximately 320 participants in each arm provided greater than 90% power to show non-inferiority of faricimab to aflibercept in the change from baseline BCVA averaged over Weeks 40, 44, and 48 in the ITT population, using a non-inferiority margin of 4 letters at the one-sided 0.02485 significance level.||1.8|-1.7|
82649445|NCT00931385|165014404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.261|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.191|0.33|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.330|0.191|<0.0001
82455709|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|2.505||||0.048|TWO_SIDED|95.0|1.01|6.214||Threshold for significance at 0.05 level.|Regression, Logistic|||||6.214|1.010|0.048
82455710|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|1.42||||0.46|TWO_SIDED|95.0|0.56|3.602||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.602|0.560|0.460
82455711|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|1.704||||0.367|TWO_SIDED|95.0|0.535|5.427||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.427|0.535|0.367
82455712|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|1.689||||0.407|TWO_SIDED|95.0|0.489|5.825||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.825|0.489|0.407
82455713|NCT03201419|164616062|SUPERIORITY||Odds Ratio (OR)|1.069||||0.876|TWO_SIDED|95.0|0.462|2.473||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.473|0.462|0.876
82455714|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|0.971||||0.937|TWO_SIDED|95.0|0.47|2.005||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.005|0.470|0.937
82455715|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|4.738||||0.028|TWO_SIDED|95.0|1.183|18.968||Threshold for significance at 0.05 level.|Regression, Logistic|||||18.968|1.183|0.028
82455716|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|0.513||||0.166|TWO_SIDED|95.0|0.2|1.318||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.318|0.200|0.166
82455717|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|0.433||||0.174|TWO_SIDED|95.0|0.129|1.447||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.447|0.129|0.174
82455718|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|1.425||||0.608|TWO_SIDED|95.0|0.369|5.512||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.512|0.369|0.608
82455719|NCT03201419|164616063|SUPERIORITY||Odds Ratio (OR)|0.553||||0.171|TWO_SIDED|95.0|0.237|1.292||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.292|0.237|0.171
82455720|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|0.928||||0.85|TWO_SIDED|95.0|0.43|2.003||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.003|0.430|0.850
82455721|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|2.261||||0.15|TWO_SIDED|95.0|0.745|6.862||Threshold for significance at 0.05 level.|Regression, Logistic|||||6.862|0.745|0.150
82455722|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|1.283||||0.632|TWO_SIDED|95.0|0.462|3.566||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.566|0.462|0.632
82540742|NCT03823300|164780954|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-2.4|1.3|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||1.3|-2.4|
82649446|NCT00931385|165014404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.183|0.322|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.322|0.183|<0.0001
82649447|NCT00931385|165014404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.232|0.372|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.372|0.232|<0.0001
82437844|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.07||||0.965|TWO_SIDED|95.0|-3.09|2.95||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||2.95|-3.09|0.965
82437845|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.56||||0.099|TWO_SIDED|95.0|-0.48|5.6||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.60|-0.48|0.099
82437846|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|29.93|||<|0.001|TWO_SIDED|95.0|21.14|38.73||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||38.73|21.14|<0.001
82437847|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|28.24|||<|0.001|TWO_SIDED|95.0|19.48|37.0||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||37.00|19.48|<0.001
82437848|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|33.1|||<|0.001|TWO_SIDED|95.0|24.31|41.89||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||41.89|24.31|<0.001
82437849|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|30.64|||<|0.001|TWO_SIDED|95.0|21.87|39.41||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||39.41|21.87|<0.001
82437850|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.71||||0.821|TWO_SIDED|95.0|-6.86|5.44||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||5.44|-6.86|0.821
82437851|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-2.4||||0.44|TWO_SIDED|95.0|-8.51|3.71||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||3.71|-8.51|0.440
82437852|NCT01559259|164583776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.46||||0.432|TWO_SIDED|95.0|-3.69|8.61||p-value was calculated using ANOVA model with treatment, baseline categorical PSR, treatment-by-baseline categorical PSR and gender terms used as covariates. Statistical testing was done at 5% significance level.|ANOVA|||0-12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI were calculated based on LSM from the ANOVA model.||8.61|-3.69|0.432
82437853|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.08||||0.571|TWO_SIDED|95.0|-1.04|3.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||3.20|-1.04|0.571
82540743|NCT03823300|164780956|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-8.3|4.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥15 Letters: Treatment Difference at Weeks 40-48||4.3|-8.3|
82540744|NCT03823300|164780956|OTHER||Difference in CMH Weighted Percentage|3.4|||||TWO_SIDED|95.0|-3.9|10.7|||||The treatment difference in CMH weighted percentage of participants gaining ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥10 Letters: Treatment Difference at Weeks 40-48||10.7|-3.9|
82540745|NCT03823300|164780956|OTHER||Difference in CMH Weighted Percentage|1.0|||||TWO_SIDED|95.0|-6.6|8.6|||||The treatment difference in CMH weighted percentage of participants gaining ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥5 Letters: Treatment Difference at Weeks 40-48||8.6|-6.6|
82437854|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.98||||0.593|TWO_SIDED|95.0|-0.94|2.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.90|-0.94|0.593
82437855|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.65||||0.282|TWO_SIDED|95.0|-0.39|7.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.68|-0.39|0.282
82437856|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.16||||0.552|TWO_SIDED|95.0|-1.11|3.42||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.42|-1.11|0.552
82437857|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.01||||0.994|TWO_SIDED|95.0|-3.13|3.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.11|-3.13|0.994
82437858|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.23||||0.879|TWO_SIDED|95.0|-3.26|2.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.80|-3.26|0.879
82437859|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.33||||0.28|TWO_SIDED|95.0|-1.98|6.64||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||6.64|-1.98|0.280
82437860|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|33.67|||<|0.001|TWO_SIDED|95.0|24.54|42.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||42.81|24.54|<0.001
82437861|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|23.34||||0.003|TWO_SIDED|95.0|14.93|31.75||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.75|14.93|0.003
82437862|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|22.28||||0.005|TWO_SIDED|95.0|13.55|31.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.00|13.55|0.005
82437863|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|13.39||||0.035|TWO_SIDED|95.0|6.28|20.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.50|6.28|0.035
82437864|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|20.14||||0.001|TWO_SIDED|95.0|8.67|31.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||31.62|8.67|0.001
82437865|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.56||||0.088|TWO_SIDED|95.0|-1.39|20.51||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.51|-1.39|0.088
82437866|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.36||||0.1|TWO_SIDED|95.0|-1.73|20.45||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.45|-1.73|0.100
82437867|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|62.54|||<|0.001|TWO_SIDED|95.0|50.93|74.15||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||74.15|50.93|<0.001
82455723|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|0.583||||0.363|TWO_SIDED|95.0|0.183|1.863||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.863|0.183|0.363
82437868|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|51.66|||<|0.001|TWO_SIDED|95.0|39.5|63.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.82|39.50|<0.001
82437869|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.68|||<|0.001|TWO_SIDED|95.0|52.92|76.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||76.43|52.92|<0.001
82437870|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|52.03|||<|0.001|TWO_SIDED|95.0|40.43|63.63||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||63.63|40.43|<0.001
82437871|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.66||||0.138|TWO_SIDED|95.0|-3.04|24.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.35|-3.04|0.138
82437872|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.59||||0.935|TWO_SIDED|95.0|-14.71|13.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.52|-14.71|0.935
82437873|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|13.3||||0.063|TWO_SIDED|95.0|-0.57|27.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.17|-0.57|0.063
82437874|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.68|||<|0.001|TWO_SIDED|95.0|62.82|86.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.53|62.82|<0.001
82437875|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|63.18|||<|0.001|TWO_SIDED|95.0|50.42|75.95||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||75.95|50.42|<0.001
82437876|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.39|||<|0.001|TWO_SIDED|95.0|59.21|83.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.57|59.21|<0.001
82455724|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|0.691||||0.555|TWO_SIDED|95.0|0.203|2.359||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.359|0.203|0.555
82540746|NCT03823300|164780956|OTHER||Difference in CMH Weighted Percentage|3.1|||||TWO_SIDED|95.0|-3.1|9.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥0 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Gaining ≥0 Letters: Treatment Difference at Weeks 40-48||9.3|-3.1|
82437877|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|60.5|||<|0.001|TWO_SIDED|95.0|47.89|73.11||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||73.11|47.89|<0.001
82437878|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.43||||0.027|TWO_SIDED|95.0|1.97|26.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.89|1.97|0.027
82437879|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.35||||0.729|TWO_SIDED|95.0|-10.91|15.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.61|-10.91|0.729
82455725|NCT03201419|164616064|SUPERIORITY||Odds Ratio (OR)|0.991||||0.984|TWO_SIDED|95.0|0.408|2.405||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.405|0.408|0.984
82455726|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|2.462||||0.046|TWO_SIDED|95.0|1.017|5.961||Threshold for significance at 0.05 level.|Regression, Logistic|||||5.961|1.017|0.046
82540747|NCT03823300|164780957|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-7.7|5.3|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||5.3|-7.7|
82455727|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|1.19||||0.745|TWO_SIDED|95.0|0.418|3.386||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.386|0.418|0.745
82455728|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|1.147||||0.79|TWO_SIDED|95.0|0.417|3.155||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.155|0.417|0.790
82455729|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|0.537||||0.293|TWO_SIDED|95.0|0.169|1.71||Threshold for significance at 0.05 level.|Regression, Logistic|||||1.710|0.169|0.293
82455730|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|0.881||||0.843|TWO_SIDED|95.0|0.252|3.076||Threshold for significance at 0.05 level.|Regression, Logistic|||||3.076|0.252|0.843
82455731|NCT03201419|164616065|SUPERIORITY||Odds Ratio (OR)|0.877||||0.763|TWO_SIDED|95.0|0.375|2.053||Threshold for significance at 0.05 level.|Regression, Logistic|||||2.053|0.375|0.763
82455732|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.422|||||TWO_SIDED|95.0|0.868|2.597||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.597|0.868|
82455733|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.373|||||TWO_SIDED|95.0|0.905|2.45||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.450|0.905|
82455734|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.284|||||TWO_SIDED|95.0|0.927|2.264||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.264|0.927|
82455735|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.145|||||TWO_SIDED|95.0|0.957|1.896||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.896|0.957|
82455736|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.079|||||TWO_SIDED|95.0|0.972|1.638||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.638|0.972|
82455737|NCT03201419|164616066|SUPERIORITY||Odds Ratio (OR)|1.023|||||TWO_SIDED|95.0|0.991|1.313||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.313|0.991|
82455738|NCT03201419|164616067|SUPERIORITY||Mean Difference|0.52||||0.8463|TWO_SIDED|95.0|-4.75|5.78||Threshold for significance at 0.05 level.|MMRM|||||5.78|-4.75|0.8463
82455739|NCT03201419|164616067|SUPERIORITY||Mean Difference|-13.85||||0.0001|TWO_SIDED|95.0|-20.89|-6.81||Threshold for significance at 0.05 level.|MMRM|||||-6.81|-20.89|0.0001
82540748|NCT03823300|164780962|OTHER||Difference in CMH Weighted Percentage|-1.5|||||TWO_SIDED|95.0|-4.4|1.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥15 Letters: Treatment Difference at Weeks 40-48||1.3|-4.4|
82455740|NCT03201419|164616067|SUPERIORITY||Mean Difference|-2.84||||0.4355|TWO_SIDED|95.0|-9.99|4.32||Threshold for significance at 0.05 level.|MMRM|||||4.32|-9.99|0.4355
82455741|NCT03201419|164616067|SUPERIORITY||Mean Difference|-0.87||||0.8483|TWO_SIDED|95.0|-9.79|8.06||Threshold for significance at 0.05 level.|MMRM|||||8.06|-9.79|0.8483
82455742|NCT03201419|164616067|SUPERIORITY||Mean Difference|-1.61||||0.7336|TWO_SIDED|95.0|-10.91|7.69||Threshold for significance at 0.05 level.|MMRM|||||7.69|-10.91|0.7336
82455743|NCT03201419|164616067|SUPERIORITY||Mean Difference|-0.69||||0.8347|TWO_SIDED|95.0|-7.15|5.78||Threshold for significance at 0.05 level.|MMRM|||||5.78|-7.15|0.8347
82455744|NCT03201419|164616068|SUPERIORITY||Mean Difference|1.59||||0.5695|TWO_SIDED|95.0|-3.9|7.07||Threshold for significance at 0.05 level.|MMRM|||||7.07|-3.90|0.5695
82455745|NCT03201419|164616068|SUPERIORITY||Mean Difference|-3.23||||0.3784|TWO_SIDED|95.0|-10.46|3.99||Threshold for significance at 0.05 level.|MMRM|||||3.99|-10.46|0.3784
82455746|NCT03201419|164616068|SUPERIORITY||Mean Difference|-0.17||||0.9653|TWO_SIDED|95.0|-7.67|7.34||Threshold for significance at 0.05 level.|MMRM|||||7.34|-7.67|0.9653
82455747|NCT03201419|164616068|SUPERIORITY||Mean Difference|2.97||||0.5304|TWO_SIDED|95.0|-6.35|12.29||Threshold for significance at 0.05 level.|MMRM|||||12.29|-6.35|0.5304
82455748|NCT03201419|164616068|SUPERIORITY||Mean Difference|-8.02||||0.0968|TWO_SIDED|95.0|-17.51|1.46||Threshold for significance at 0.05 level.|MMRM|||||1.46|-17.51|0.0968
82455749|NCT03201419|164616068|SUPERIORITY||Mean Difference|0.91||||0.7885|TWO_SIDED|95.0|-5.79|7.62||Threshold for significance at 0.05 level.|MMRM|||||7.62|-5.79|0.7885
82455750|NCT03201419|164616069|SUPERIORITY||Mean Difference|-1.2||||0.6792|TWO_SIDED|95.0|-6.89|4.5||Threshold for significance at 0.05 level.|MMRM|||||4.50|-6.89|0.6792
82455751|NCT03201419|164616069|SUPERIORITY||Mean Difference|-8.39||||0.0276|TWO_SIDED|95.0|-15.84|-0.93||Threshold for significance at 0.05 level.|MMRM|||||-0.93|-15.84|0.0276
82455752|NCT03201419|164616069|SUPERIORITY||Mean Difference|-0.27||||0.9445|TWO_SIDED|95.0|-7.97|7.42||Threshold for significance at 0.05 level.|MMRM|||||7.42|-7.97|0.9445
82455753|NCT03201419|164616069|SUPERIORITY||Mean Difference|2.79||||0.5637|TWO_SIDED|95.0|-6.71|12.28||Threshold for significance at 0.05 level.|MMRM|||||12.28|-6.71|0.5637
82455754|NCT03201419|164616069|SUPERIORITY||Mean Difference|-4.4||||0.387|TWO_SIDED|95.0|-14.39|5.6||Threshold for significance at 0.05 level.|MMRM|||||5.60|-14.39|0.3870
82455755|NCT03201419|164616069|SUPERIORITY||Mean Difference|0.72||||0.8373|TWO_SIDED|95.0|-6.19|7.63||Threshold for significance at 0.05 level.|MMRM|||||7.63|-6.19|0.8373
82455756|NCT03201419|164616070|SUPERIORITY||Mean Difference|0.53||||0.8646|TWO_SIDED|95.0|-5.54|6.59||Threshold for significance at 0.05 level.|MMRM|||||6.59|-5.54|0.8646
82455757|NCT03201419|164616070|SUPERIORITY||Mean Difference|-6.99||||0.087|TWO_SIDED|95.0|-15.0|1.02||Threshold for significance at 0.05 level.|MMRM|||||1.02|-15.00|0.0870
82455758|NCT03201419|164616070|SUPERIORITY||Mean Difference|2.77||||0.51|TWO_SIDED|95.0|-5.5|11.04||Threshold for significance at 0.05 level.|MMRM|||||11.04|-5.50|0.5100
82455759|NCT03201419|164616070|SUPERIORITY||Mean Difference|7.32||||0.1535|TWO_SIDED|95.0|-2.75|17.39||Threshold for significance at 0.05 level.|MMRM|||||17.39|-2.75|0.1535
82455760|NCT03201419|164616070|SUPERIORITY||Mean Difference|-5.14||||0.3369|TWO_SIDED|95.0|-15.66|5.38||Threshold for significance at 0.05 level.|MMRM|||||5.38|-15.66|0.3369
82455761|NCT03201419|164616070|SUPERIORITY||Mean Difference|0.27||||0.9417|TWO_SIDED|95.0|-7.05|7.59||Threshold for significance at 0.05 level.|MMRM|||||7.59|-7.05|0.9417
82455762|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-1.41|5.47||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||5.47|-1.41|
82455763|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.43|1.19||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||1.19|-0.43|
82455764|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.16|0.5||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.50|-0.16|
82437880|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|11.33||||0.087|TWO_SIDED|95.0|-1.55|24.21||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||24.21|-1.55|0.087
82437881|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|75.6|||<|0.001|TWO_SIDED|95.0|62.5|88.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.70|62.50|<0.001
82437882|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.45|||<|0.001|TWO_SIDED|95.0|53.65|81.24||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.24|53.65|<0.001
82437883|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.46|||<|0.001|TWO_SIDED|95.0|61.21|87.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||87.70|61.21|<0.001
82437884|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.23|||<|0.001|TWO_SIDED|95.0|50.3|78.17||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.17|50.30|<0.001
82437885|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|11.59||||0.052|TWO_SIDED|95.0|0.12|23.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.06|0.12|0.052
82437886|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.84||||0.652|TWO_SIDED|95.0|-9.49|15.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.16|-9.49|0.652
82437887|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.28||||0.09|TWO_SIDED|95.0|-1.47|22.03||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.03|-1.47|0.090
82437888|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|79.93|||<|0.001|TWO_SIDED|95.0|67.41|92.46||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||92.46|67.41|<0.001
82437889|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.65|||<|0.001|TWO_SIDED|95.0|58.25|85.05||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.05|58.25|<0.001
82455765|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.03|0.15||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.15|-0.03|
82540749|NCT03823300|164780962|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-4.5|2.8|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥10 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥10 Letters: Treatment Difference at Weeks 40-48||2.8|-4.5|
82437890|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|78.92|||<|0.001|TWO_SIDED|95.0|66.29|91.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||91.56|66.29|<0.001
82540750|NCT03823300|164780962|OTHER||Difference in CMH Weighted Percentage|2.6|||||TWO_SIDED|95.0|-2.1|7.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥5 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Avoiding a Loss of ≥5 Letters: Treatment Difference at Weeks 40-48||7.3|-2.1|
82455766|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|-0.01|0.05||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.05|-0.01|
82455767|NCT03201419|164616071|SUPERIORITY||Median difference|0.0|||||TWO_SIDED|95.0|0.0|0.01||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.01|-0.00|
82540751|NCT03823300|164780963|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-2.6|3.3|||||The treatment difference in CMH weighted percentage of participants avoiding a loss of ≥15 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 52-60||3.3|-2.6|
82540752|NCT03823300|164780967|OTHER||Difference in CMH Weighted Percentage|-1.7|||||TWO_SIDED|95.0|-8.5|5.1|||||The treatment difference in CMH weighted percentage of participants gaining ≥15 letters or achieving BCVA ≥84 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||5.1|-8.5|
82649448|NCT00931385|165014405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.087|0.221|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 5 mcg qd minus Placebo|||0.221|0.087|<0.0001
82437891|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.56|||<|0.001|TWO_SIDED|95.0|57.04|84.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.07|57.04|<0.001
82437892|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.61||||0.069|TWO_SIDED|95.0|-0.59|19.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.80|-0.59|0.069
82437893|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.65||||0.911|TWO_SIDED|95.0|-10.73|12.03||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.03|-10.73|0.911
82437894|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.27||||0.127|TWO_SIDED|95.0|-2.23|18.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.77|-2.23|0.127
82437895|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.55|||<|0.001|TWO_SIDED|95.0|62.37|90.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.72|62.37|<0.001
82437896|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.6|||<|0.001|TWO_SIDED|95.0|55.93|85.28||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.28|55.93|<0.001
82437897|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.5|||<|0.001|TWO_SIDED|95.0|62.22|90.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.79|62.22|<0.001
82437898|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.05|||<|0.001|TWO_SIDED|95.0|53.02|83.09||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.09|53.02|<0.001
82437899|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.57||||0.098|TWO_SIDED|95.0|-1.47|18.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.61|-1.47|0.098
82437900|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.01||||0.721|TWO_SIDED|95.0|-9.02|13.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.04|-9.02|0.721
82437901|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.28||||0.115|TWO_SIDED|95.0|-1.85|18.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.41|-1.85|0.115
82437902|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|77.66|||<|0.001|TWO_SIDED|95.0|63.63|91.69||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||91.69|63.63|<0.001
82437903|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.65|||<|0.001|TWO_SIDED|95.0|57.07|86.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.22|57.07|<0.001
82649449|NCT00931385|165014405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.086|0.221|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Olo 10 mcg qd minus Placebo|||0.221|0.086|<0.0001
82437904|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|76.5|||<|0.001|TWO_SIDED|95.0|62.22|90.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||90.79|62.22|<0.001
82437905|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.1|||<|0.001|TWO_SIDED|95.0|54.14|84.06||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.06|54.14|<0.001
82437906|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.56||||0.086|TWO_SIDED|95.0|-1.15|18.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.27|-1.15|0.086
82437907|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.01||||0.714|TWO_SIDED|95.0|-8.76|12.77||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.77|-8.76|0.714
82437908|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|7.21||||0.164|TWO_SIDED|95.0|-2.8|17.22||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.22|-2.80|0.164
82437909|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
82437910|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.5|||<|0.001|TWO_SIDED|95.0|54.29|84.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.70|54.29|<0.001
82437911|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
82437912|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.0|||<|0.001|TWO_SIDED|95.0|51.4|82.61||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||82.61|51.40|<0.001
82437913|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|7.46||||0.129|TWO_SIDED|95.0|-2.12|17.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||17.04|-2.12|0.129
82455768|NCT03201419|164616072|SUPERIORITY||Mean Difference|5.2||||0.3328|TWO_SIDED|95.0|-5.3|15.7||Threshold for significance at 0.05 level.|ANCOVA|||||15.7|-5.3|0.3328
82437914|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.97||||0.712|TWO_SIDED|95.0|-8.5|12.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.43|-8.50|0.712
82437915|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.12||||0.229|TWO_SIDED|95.0|-3.76|16.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.00|-3.76|0.229
82455769|NCT03201419|164616072|SUPERIORITY||Mean Difference|15.5||||0.0255|TWO_SIDED|95.0|1.9|29.2||Threshold for significance at 0.05 level.|ANCOVA|||||29.2|1.9|0.0255
82455770|NCT03201419|164616072|SUPERIORITY||Mean Difference|2.5||||0.7296|TWO_SIDED|95.0|-11.7|16.7||Threshold for significance at 0.05 level.|ANCOVA|||||16.7|-11.7|0.7296
82455771|NCT03201419|164616072|SUPERIORITY||Mean Difference|-6.7||||0.4586|TWO_SIDED|95.0|-24.5|11.1||Threshold for significance at 0.05 level.|ANCOVA|||||11.1|-24.5|0.4586
82577939|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2|||<|0.001|TWO_SIDED|95.0|-19.7|-12.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.7|-19.7|<0.001
82437916|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
82437917|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|70.54|||<|0.001|TWO_SIDED|95.0|55.45|85.64||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.64|55.45|<0.001
82437918|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
82437919|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.05|||<|0.001|TWO_SIDED|95.0|52.53|83.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.57|52.53|<0.001
82437920|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.38||||0.186|TWO_SIDED|95.0|-3.05|15.81||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.81|-3.05|0.186
82437921|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.97||||0.703|TWO_SIDED|95.0|-8.18|12.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.12|-8.18|0.703
82437922|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.06||||0.312|TWO_SIDED|95.0|-4.68|14.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.79|-4.68|0.312
82437923|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
82437924|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.59|||<|0.001|TWO_SIDED|95.0|56.61|86.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.57|56.61|<0.001
82437925|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
82437926|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.21|||<|0.001|TWO_SIDED|95.0|53.86|84.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.56|53.86|<0.001
82437927|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437928|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82649450|NCT00931385|165014405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.115|0.25|||Mixed Models Analysis|Adjusted using a mixed model with center, treatment and period as fixed effects and patients within center as random effect.|Form 12 mcg bid minus Placebo|||0.250|0.115|<0.0001
82455772|NCT03201419|164616072|SUPERIORITY||Mean Difference|11.2||||0.2327|TWO_SIDED|95.0|-7.2|29.5||Threshold for significance at 0.05 level.|ANCOVA|||||29.5|-7.2|0.2327
82577940|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-16.3|-9.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.3|-16.3|<0.001
82540753|NCT03823300|164780969|OTHER||Difference in CMH Weighted Percentage|5.7|||||TWO_SIDED|95.0|-1.4|12.9|||||The treatment difference in CMH weighted percentage of participants achieving BCVA ≥69 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||12.9|-1.4|
82649451|NCT00530439|165014466|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.014
82652358|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.295||||0.0203|TWO_SIDED|95.0|-0.544|-0.046||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||-0.046|-0.544|0.0203
82437929|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437930|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.38|||<|0.001|TWO_SIDED|95.0|59.56|89.2||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||89.20|59.56|<0.001
82437931|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.59|||<|0.001|TWO_SIDED|95.0|56.61|86.57||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.57|56.61|<0.001
82437932|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.24|||<|0.001|TWO_SIDED|95.0|58.18|88.3||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.30|58.18|<0.001
82437933|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.21|||<|0.001|TWO_SIDED|95.0|53.86|84.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||84.56|53.86|<0.001
82437934|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437935|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437936|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437937|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82437938|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82455773|NCT03201419|164616072|SUPERIORITY||Mean Difference|-0.6||||0.924|TWO_SIDED|95.0|-13.3|12.1||Threshold for significance at 0.05 level.|ANCOVA|||||12.1|-13.3|0.9240
82540754|NCT03823300|164780971|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-3.6|4.4|||||The treatment difference in CMH weighted percentage of participants with BCVA ≤38 letters is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept.|Treatment Difference in CMH Weighted Percentages at Weeks 40-48||4.4|-3.6|
82540755|NCT03823300|164780979|OTHER||Adjusted mean difference|-6.4|STANDARD_ERROR_OF_MEAN|4.3|||TWO_SIDED|95.0|-14.8|2.1|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 40-48||2.1|-14.8|
82577941|NCT00847626|164865066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.0|||<|0.001|TWO_SIDED|95.0|-19.4|-12.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-12.6|-19.4|<0.001
82652359|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.152||||0.2543|TWO_SIDED|95.0|-0.415|0.11||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.110|-0.415|0.2543
82437939|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82437940|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82437941|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437942|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437943|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437944|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82455774|NCT03201419|164616073|SUPERIORITY||Mean Difference|0.3||||0.9499|TWO_SIDED|95.0|-7.9|8.5||Threshold for significance at 0.05 level.|ANCOVA|||||8.5|-7.9|0.9499
82455775|NCT03201419|164616073|SUPERIORITY||Mean Difference|5.8||||0.2842|TWO_SIDED|95.0|-4.8|16.4||Threshold for significance at 0.05 level.|ANCOVA|||||16.4|-4.8|0.2842
82540756|NCT03823300|164780980|OTHER||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|4.05|||TWO_SIDED|95.0|-6.6|9.3|||||The treatment difference in adjusted means of change from baseline CST is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|Treatment Difference in Adjusted Means at Weeks 52-60||9.3|-6.6|
82540757|NCT01087762|164781053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.3|||=|0.004|TWO_SIDED|95.0|6.3|32.4||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||32.4|6.3|=0.004
82437945|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82437946|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82437947|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82455776|NCT03201419|164616073|SUPERIORITY||Mean Difference|-5.7||||0.31|TWO_SIDED|95.0|-16.8|5.4||Threshold for significance at 0.05 level.|ANCOVA|||||5.4|-16.8|0.3100
82455777|NCT03201419|164616073|SUPERIORITY||Mean Difference|-10.1||||0.1499|TWO_SIDED|95.0|-23.9|3.7||Threshold for significance at 0.05 level.|ANCOVA|||||3.7|-23.9|0.1499
82455778|NCT03201419|164616073|SUPERIORITY||Mean Difference|-8.2||||0.2571|TWO_SIDED|95.0|-22.5|6.0||Threshold for significance at 0.05 level.|ANCOVA|||||6.0|-22.5|0.2571
82455779|NCT03201419|164616073|SUPERIORITY||Mean Difference|-1.5||||0.7629|TWO_SIDED|95.0|-11.4|8.3||Threshold for significance at 0.05 level.|ANCOVA|||||8.3|-11.4|0.7629
82455780|NCT03201419|164616074|SUPERIORITY||Mean Difference|2.48||||0.4846|TWO_SIDED|95.0|-4.5|9.46||Threshold for significance at 0.05 level.|MMRM|||||9.46|-4.50|0.4846
82455781|NCT03201419|164616074|SUPERIORITY||Mean Difference|-16.93||||0.0004|TWO_SIDED|95.0|-26.26|-7.6||Threshold for significance at 0.05 level.|MMRM|||||-7.60|-26.26|0.0004
82437948|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437949|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437950|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437951|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82437952|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82437953|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82437954|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82540758|NCT01087762|164781053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.2|||<|0.001|TWO_SIDED|95.0|12.3|38.2||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||38.2|12.3|<0.001
82540759|NCT01087762|164781054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37.7|||<|0.001|TWO_SIDED|95.0|25.4|50.0||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||50.0|25.4|<0.001
82561853|NCT02291861|164832897|SUPERIORITY||Odds Ratio (OR)|1.82||||0.134|TWO_SIDED|95.0|0.826|3.994||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.994|0.826|0.134
82561854|NCT02291861|164832897|SUPERIORITY||Odds Ratio (OR)|0.69||||0.372|TWO_SIDED|95.0|0.302|1.563||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||1.563|0.302|0.372
82652360|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.142||||0.2892|TWO_SIDED|95.0|-0.405|0.121||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.121|-0.405|0.2892
82437955|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437956|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437957|NCT01559259|164583777|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437958|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|23.99||||0.003|TWO_SIDED|95.0|13.32|34.67||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||34.67|13.32|0.003
82437959|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.83||||0.048|TWO_SIDED|95.0|4.59|25.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||25.07|4.59|0.048
82437960|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|24.98||||0.005|TWO_SIDED|95.0|13.43|36.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||36.53|13.43|0.005
82437961|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|16.57||||0.03|TWO_SIDED|95.0|6.25|26.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||26.88|6.25|0.030
82437962|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.86||||0.269|TWO_SIDED|95.0|-4.8|18.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.53|-4.80|0.269
82437963|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-1.95||||0.735|TWO_SIDED|95.0|-13.34|9.43||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.43|-13.34|0.735
82437964|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.58||||0.176|TWO_SIDED|95.0|-3.88|21.04||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.25 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.04|-3.88|0.176
82540760|NCT01087762|164781054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.1|||<|0.001|TWO_SIDED|95.0|28.9|53.3||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|Wald test and Confidence Interval (CI) calculation were performed without continuity correction.||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||53.3|28.9|<0.001
82540761|NCT01087762|164781055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-1.96|-1.01||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASFI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.01|-1.96|<0.001
82540762|NCT01087762|164781056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.38|-1.38||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASFI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.38|-2.38|<0.001
82561855|NCT02291861|164832898|SUPERIORITY||Odds Ratio (OR)|3.8||||0.007|TWO_SIDED|95.0|1.395|10.359||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||10.359|1.395|0.007
82437965|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|63.3|||<|0.001|TWO_SIDED|95.0|49.07|77.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||77.52|49.07|<0.001
82540763|NCT01087762|164781057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.07|-1.12||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASDAI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.12|-2.07|<0.001
82540764|NCT01087762|164781058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|95.0|-2.49|-1.5||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASDAI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-1.50|-2.49|<0.001
82540765|NCT01087762|164781059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASMI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.20|-0.60|<0.001
82540766|NCT01087762|164781060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-0.66|-0.23||Difference of CZP 200 mg + 400 mg vs. Placebo was estimated using an ANCOVA model with treatment, region, modified New York criteria and prior TNF-antagonist exposure as factors and Baseline BASMI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.23|-0.66|<0.001
82540767|NCT01924767|164781083|SUPERIORITY_OR_OTHER||Geometric Mean of ratio|43.661|||||TWO_SIDED|95.0|27.52|69.269|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for Cmax (single dose) was analysed.||69.269|27.520|
82540768|NCT01924767|164781083|SUPERIORITY_OR_OTHER||Geometric Mean of ratio|31.234|||||TWO_SIDED|95.0|12.193|80.011|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for Cmax,ss (Multiple dose) was analysed.||80.011|12.193|
82540769|NCT01924767|164781084|SUPERIORITY_OR_OTHER||Geometric mean of ratio|49.707|||||TWO_SIDED|95.0|33.49|73.776|||Regression, Linear|||This was non-confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for AUC (0-infinity, single dose) was analysed.||73.776|33.490|
82540770|NCT01924767|164781084|SUPERIORITY_OR_OTHER||Geometric mean of ratio|37.632|||||TWO_SIDED|95.0|15.429|91.789|||Regression, Linear|||This was non confirmatory testing, dose proportionality of dose from 2.5mg to 100mg for AUC (0-infinity, at steady state, day 9) was analysed.||91.789|15.429|
82540771|NCT01924767|164781095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|37645.43||||0.0067|TWO_SIDED|95.0|11021.57|64269.3||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.||The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||64269.30|11021.57|0.0067
82540772|NCT01924767|164781095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|82898.2|||<|0.0001|TWO_SIDED|95.0|55344.83|110451.6||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo is calculated.|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||110451.6|55344.83|<0.0001
82652361|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.306||||0.0243|TWO_SIDED|95.0|-0.571|-0.04||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||-0.040|-0.571|0.0243
82540773|NCT01924767|164781095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79982.89|||<|0.0001|TWO_SIDED|95.0|53087.22|106878.6||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean Difference to placebo is calculated.|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||106878.6|53087.22|<0.0001
82540774|NCT01924767|164781095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|91306.96|||<|0.0001|TWO_SIDED|95.0|64685.41|117928.5||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean Difference to placebo was calculated|The mean change from baseline (day -2) to day 8 and comparisons to placebo for Urine Glucose Excretion (AE(0-24)).||117928.5|64685.41|<0.0001
82540775|NCT01924767|164781096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.456||||0.0449|TWO_SIDED|95.0|-30.543|-0.369||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-0.369|-30.543|0.0449
82437966|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|56.81|||<|0.001|TWO_SIDED|95.0|42.28|71.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||71.34|42.28|<0.001
82540776|NCT01924767|164781096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.467||||0.0042|TWO_SIDED|95.0|-39.085|-7.848||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-7.848|-39.085|0.0042
82437967|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.57|||<|0.001|TWO_SIDED|95.0|53.58|81.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.55|53.58|<0.001
82437968|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|53.31|||<|0.001|TWO_SIDED|95.0|38.62|67.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||67.99|38.62|<0.001
82437969|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|10.28||||0.14|TWO_SIDED|95.0|-3.26|23.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.82|-3.26|0.140
82437970|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.98||||0.674|TWO_SIDED|95.0|-10.94|16.89||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||16.89|-10.94|0.674
82437971|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|14.58||||0.034|TWO_SIDED|95.0|1.22|27.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||27.93|1.22|0.034
82437972|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|72.32|||<|0.001|TWO_SIDED|95.0|58.25|86.39||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.39|58.25|<0.001
82437973|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|67.2|||<|0.001|TWO_SIDED|95.0|52.63|81.78||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.78|52.63|<0.001
82437974|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|72.4|||<|0.001|TWO_SIDED|95.0|58.4|86.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.40|58.40|<0.001
82437975|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|64.12|||<|0.001|TWO_SIDED|95.0|49.32|78.91||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||78.91|49.32|<0.001
82437976|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.4||||0.119|TWO_SIDED|95.0|-2.06|18.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.85|-2.06|0.119
82437977|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|2.84||||0.616|TWO_SIDED|95.0|-8.3|13.98||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.98|-8.30|0.616
82437978|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|8.34||||0.125|TWO_SIDED|95.0|-2.2|18.87||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.87|-2.20|0.125
82437979|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|74.49|||<|0.001|TWO_SIDED|95.0|60.73|88.25||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||88.25|60.73|<0.001
82540777|NCT01924767|164781096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.956||||0.0521|TWO_SIDED|95.0|-30.057|0.145||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||0.145|-30.057|0.0521
82540778|NCT01924767|164781096|SUPERIORITY_OR_OTHER||Difference to placebo|-10.602||||0.1676|TWO_SIDED|95.0|-25.848|4.644||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated|The mean percent decrease in Mean daily glucose from baseline with treatment compared with placebo from baseline -2 to day 8||4.644|-25.848|0.1676
82455782|NCT03201419|164616074|SUPERIORITY||Mean Difference|-2.05||||0.6685|TWO_SIDED|95.0|-11.47|7.37||Threshold for significance at 0.05 level.|MMRM|||||7.37|-11.47|0.6685
82455783|NCT03201419|164616074|SUPERIORITY||Mean Difference|1.69||||0.7772|TWO_SIDED|95.0|-10.07|13.46||Threshold for significance at 0.05 level.|MMRM|||||13.46|-10.07|0.7772
82455784|NCT03201419|164616074|SUPERIORITY||Mean Difference|10.67||||0.0895|TWO_SIDED|95.0|-1.66|23.0||Threshold for significance at 0.05 level.|MMRM|||||23.00|-1.66|0.0895
82455785|NCT03201419|164616074|SUPERIORITY||Mean Difference|1.2||||0.782|TWO_SIDED|95.0|-7.34|9.74|||MMRM|||||9.74|-7.34|0.7820
82455786|NCT03201419|164616075|SUPERIORITY||Mean Difference|-0.41||||0.9175|TWO_SIDED|95.0|-8.25|7.42||Threshold for significance at 0.05 level.|MMRM|||||7.42|-8.25|0.9175
82649452|NCT03705169|165014513|EQUIVALENCE|Confidence Interval (CI) on Geometric Mean Ratio.|Geometric Mean Ratio|3.2|||||TWO_SIDED|95.0|1.9|5.3|||||The ratios of the geometric means (Arm A/Arm C) and the corresponding 95% CI were obtained by exponentiating the least squares mean difference and its 95% CI of the natural log-transformed data.|As dose-normalized AUC 0-12WK values were considered, participants were pooled within Arm (i.e., Arm A participants receiving 1, 3, 10, or 30 mg/kg were pooled and Arm C participants 0.3 or 1.0 mg/kg were pooled).|No comparisons were done with Arm B participants, as only two participants in that arm had available measurements such that AUC 0-12WK could be estimated.|5.3|1.9|
82455787|NCT03201419|164616075|SUPERIORITY||Mean Difference|-4.32||||0.4098|TWO_SIDED|95.0|-14.62|5.98||Threshold for significance at 0.05 level.|MMRM|||||5.98|-14.62|0.4098
82649453|NCT03705169|165014514|OTHER||Mean|-0.18||||0.26|TWO_SIDED|95.0|-0.53|0.18||Under the null hypothesis, it was assumed there was no change in HIV-1 RNA (log10 copies/mL) from baseline to Day 7 of SAR441236 monotherapy for viremic participants with HIV (Arm B cohorts).|t-test, 2 sided|||Arm B participants were pooled across doses for analysis.||0.18|-0.53|0.26
82455788|NCT03201419|164616075|SUPERIORITY||Mean Difference|2.41||||0.6566|TWO_SIDED|95.0|-8.25|13.06||Threshold for significance at 0.05 level.|MMRM|||||13.06|-8.25|0.6566
82455789|NCT03201419|164616075|SUPERIORITY||Mean Difference|3.39||||0.6144|TWO_SIDED|95.0|-9.85|16.63||Threshold for significance at 0.05 level.|MMRM|||||16.63|-9.85|0.6144
82455790|NCT03201419|164616075|SUPERIORITY||Mean Difference|3.8||||0.5798|TWO_SIDED|95.0|-9.71|17.31||Threshold for significance at 0.05 level.|MMRM|||||17.31|-9.71|0.5798
82455791|NCT03201419|164616075|SUPERIORITY||Mean Difference|0.35||||0.9417|TWO_SIDED|95.0|-9.17|9.88||Threshold for significance at 0.05 level.|MMRM|||||9.88|-9.17|0.9417
82455792|NCT03201419|164616076|SUPERIORITY||Mean Difference|-2.81||||0.5148|TWO_SIDED|95.0|-11.31|5.68||Threshold for significance at 0.05 level.|MMRM|||||5.68|-11.31|0.5148
82455793|NCT03201419|164616076|SUPERIORITY||Mean Difference|-9.65||||0.0879|TWO_SIDED|95.0|-20.75|1.44||Threshold for significance at 0.05 level.|MMRM|||||1.44|-20.75|0.0879
82455794|NCT03201419|164616076|SUPERIORITY||Mean Difference|3.61||||0.5335|TWO_SIDED|95.0|-7.79|15.0||Threshold for significance at 0.05 level.|MMRM|||||15.00|-7.79|0.5335
82455795|NCT03201419|164616076|SUPERIORITY||Mean Difference|6.29||||0.3787|TWO_SIDED|95.0|-7.76|20.34||Threshold for significance at 0.05 level.|MMRM|||||20.34|-7.76|0.3787
82455796|NCT03201419|164616076|SUPERIORITY||Mean Difference|1.48||||0.8448|TWO_SIDED|95.0|-13.41|16.38||Threshold for significance at 0.05 level.|MMRM|||||16.38|-13.41|0.8448
82455797|NCT03201419|164616076|SUPERIORITY||Mean Difference|4.62||||0.3751|TWO_SIDED|95.0|-5.63|14.87||Threshold for significance at 0.05 level.|MMRM|||||14.87|-5.63|0.3751
82455798|NCT03201419|164616077|SUPERIORITY||Mean Difference|-0.43||||0.9245|TWO_SIDED|95.0|-9.43|8.57||Threshold for significance at 0.05 level.|MMRM|||||8.57|-9.43|0.9245
82455799|NCT03201419|164616077|SUPERIORITY||Mean Difference|-6.72||||0.2657|TWO_SIDED|95.0|-18.59|5.15||Threshold for significance at 0.05 level.|MMRM|||||5.15|-18.59|0.2657
82455800|NCT03201419|164616077|SUPERIORITY||Mean Difference|9.2||||0.1383|TWO_SIDED|95.0|-2.99|21.38||Threshold for significance at 0.05 level.|MMRM|||||21.38|-2.99|0.1383
82455801|NCT03201419|164616077|SUPERIORITY||Mean Difference|14.72||||0.0523|TWO_SIDED|95.0|-0.15|29.59||Threshold for significance at 0.05 level.|MMRM|||||29.59|-0.15|0.0523
82455802|NCT03201419|164616077|SUPERIORITY||Mean Difference|1.14||||0.8855|TWO_SIDED|95.0|-14.47|16.75||Threshold for significance at 0.05 level.|MMRM|||||16.75|-14.47|0.8855
82455803|NCT03201419|164616077|SUPERIORITY||Mean Difference|2.91||||0.5972|TWO_SIDED|95.0|-7.91|13.72||Threshold for significance at 0.05 level.|MMRM|||||13.72|-7.91|0.5972
82455804|NCT03201419|164616078|SUPERIORITY||Mean Difference|-0.54|||||TWO_SIDED|95.0|-6.09|2.28||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||2.28|-6.09|
82455805|NCT03201419|164616078|SUPERIORITY||Mean Difference|-0.28|||||TWO_SIDED|95.0|-4.3|0.75||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.75|-4.30|
82455806|NCT03201419|164616078|SUPERIORITY||Mean Difference|-0.15|||||TWO_SIDED|95.0|-2.44|0.33||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.33|-2.44|
82455807|NCT03201419|164616078|SUPERIORITY||Mean Difference|-0.04|||||TWO_SIDED|95.0|-0.92|0.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.07|-0.92|
82455808|NCT03201419|164616078|SUPERIORITY||Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.48|0.02||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.02|-0.48|
82455809|NCT03201419|164616078|SUPERIORITY||Mean Difference|0.0|||||TWO_SIDED|95.0|-0.15|0.0||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||0.00|-0.15|
82455810|NCT03201419|164616079|SUPERIORITY||Mean Difference|-0.27||||0.055|TWO_SIDED|95.0|-0.545|0.006||Threshold for significance at 0.05 level.|MMRM|||||0.006|-0.545|0.0550
82455811|NCT03201419|164616079|SUPERIORITY||Mean Difference|-0.7||||0.0002|TWO_SIDED|95.0|-1.066|-0.335||Threshold for significance at 0.05 level.|MMRM|||||-0.335|-1.066|0.0002
82455812|NCT03201419|164616079|SUPERIORITY||Mean Difference|-0.037||||0.844|TWO_SIDED|95.0|-0.404|0.33||Threshold for significance at 0.05 level.|MMRM|||||0.330|-0.404|0.8440
82455813|NCT03201419|164616079|SUPERIORITY||Mean Difference|0.041||||0.861|TWO_SIDED|95.0|-0.417|0.498||Threshold for significance at 0.05 level.|MMRM|||||0.498|-0.417|0.8610
82455814|NCT03201419|164616079|SUPERIORITY||Mean Difference|0.036||||0.8871|TWO_SIDED|95.0|-0.46|0.532||Threshold for significance at 0.05 level.|MMRM|||||0.532|-0.460|0.8871
82455815|NCT03201419|164616079|SUPERIORITY||Mean Difference|0.013||||0.9396|TWO_SIDED|95.0|-0.313|0.338||Threshold for significance at 0.05 level.|MMRM|||||0.338|-0.313|0.9396
82437980|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.38|||<|0.001|TWO_SIDED|95.0|55.05|83.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.71|55.05|<0.001
82437981|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|73.52|||<|0.001|TWO_SIDED|95.0|59.65|87.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||87.38|59.65|<0.001
82455816|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.475||||0.005|TWO_SIDED|95.0|-0.806|-0.145||Threshold for significance at 0.05 level.|MMRM|||||-0.145|-0.806|0.0050
82455817|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.405||||0.0665|TWO_SIDED|95.0|-0.837|0.028||Threshold for significance at 0.05 level.|MMRM|||||0.028|-0.837|0.0665
82455818|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.149||||0.5245|TWO_SIDED|95.0|-0.608|0.31||Threshold for significance at 0.05 level.|MMRM|||||0.310|-0.608|0.5245
82455819|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.075||||0.7947|TWO_SIDED|95.0|-0.642|0.492||Threshold for significance at 0.05 level.|MMRM|||||0.492|-0.642|0.7947
82455820|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.211||||0.4625|TWO_SIDED|95.0|-0.777|0.355||Threshold for significance at 0.05 level.|MMRM|||||0.355|-0.777|0.4625
82455821|NCT03201419|164616080|SUPERIORITY||Mean Difference|-0.014||||0.9465|TWO_SIDED|95.0|-0.412|0.385||Threshold for significance at 0.05 level.|MMRM|||||0.385|-0.412|0.9465
82455822|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.73|||<|0.0001|TWO_SIDED|95.0|-1.078|-0.383||Threshold for significance at 0.05 level.|MMRM|||||-0.383|-1.078|<0.0001
82540779|NCT01924767|164781097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.269||||0.2239|TWO_SIDED|95.0|-19.162|4.624||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||4.624|-19.162|0.2239
82455823|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.686||||0.003|TWO_SIDED|95.0|-1.137|-0.236||Threshold for significance at 0.05 level.|MMRM|||||-0.236|-1.137|0.0030
82455824|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.045||||0.852|TWO_SIDED|95.0|-0.517|0.427||Threshold for significance at 0.05 level.|MMRM|||||0.427|-0.517|0.8520
82455825|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.287||||0.3205|TWO_SIDED|95.0|-0.856|0.281||Threshold for significance at 0.05 level.|MMRM|||||0.281|-0.856|0.3205
82455826|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.418||||0.1769|TWO_SIDED|95.0|-1.026|0.19||Threshold for significance at 0.05 level.|MMRM|||||0.190|-1.026|0.1769
82455827|NCT03201419|164616081|SUPERIORITY||Mean Difference|-0.3||||0.1584|TWO_SIDED|95.0|-0.717|0.118||Threshold for significance at 0.05 level.|MMRM|||||0.118|-0.717|0.1584
82455828|NCT03201419|164616082|SUPERIORITY||Mean Difference|-0.822|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.424||Threshold for significance at 0.05 level.|MMRM|||||-0.424|-1.220|<0.0001
82455829|NCT03201419|164616082|SUPERIORITY||Mean Difference|-0.818||||0.0019|TWO_SIDED|95.0|-1.331|-0.306||Threshold for significance at 0.05 level.|MMRM|||||-0.306|-1.331|0.0019
82455830|NCT03201419|164616082|SUPERIORITY||Mean Difference|0.167||||0.551|TWO_SIDED|95.0|-0.383|0.716||Threshold for significance at 0.05 level.|MMRM|||||0.716|-0.383|0.5510
82455831|NCT03201419|164616082|SUPERIORITY||Mean Difference|-0.038||||0.9086|TWO_SIDED|95.0|-0.685|0.61||Threshold for significance at 0.05 level.|MMRM|||||0.610|-0.685|0.9086
82455832|NCT03201419|164616082|SUPERIORITY||Mean Difference|-0.812||||0.0185|TWO_SIDED|95.0|-1.486|-0.138||Threshold for significance at 0.05 level.|MMRM|||||-0.138|-1.486|0.0185
82455833|NCT03201419|164616082|SUPERIORITY||Mean Difference|-0.106||||0.6537|TWO_SIDED|95.0|-0.569|0.357||Threshold for significance at 0.05 level.|MMRM|||||0.357|-0.569|0.6537
82455834|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|-0.146||||0.235|TWO_SIDED|95.0|-0.388|0.096||Threshold for significance at 0.05 level.|MMRM|||||0.096|-0.388|0.2350
82455835|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|-0.377||||0.0215|TWO_SIDED|95.0|-0.699|-0.056||Threshold for significance at 0.05 level.|MMRM|||||-0.056|-0.699|0.0215
82455836|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|-0.218||||0.1818|TWO_SIDED|95.0|-0.54|0.103||Threshold for significance at 0.05 level.|MMRM|||||0.103|-0.540|0.1818
82455837|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|-0.05||||0.8063|TWO_SIDED|95.0|-0.45|0.35||Threshold for significance at 0.05 level.|MMRM|||||0.350|-0.450|0.8063
82455838|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|0.176||||0.4414|TWO_SIDED|95.0|-0.274|0.627||Threshold for significance at 0.05 level.|MMRM|||||0.627|-0.274|0.4414
82455839|NCT03201419|164616083|SUPERIORITY||Least Square Mean Difference|-0.126||||0.4179|TWO_SIDED|95.0|-0.432|0.18||Threshold for significance at 0.05 level.|MMRM|||||0.180|-0.432|0.4179
82455840|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|0.061||||0.6042|TWO_SIDED|95.0|-0.17|0.292||Threshold for significance at 0.05 level.|MMRM|||||0.292|-0.170|0.6042
82455841|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|-0.127||||0.4114|TWO_SIDED|95.0|-0.432|0.177||Threshold for significance at 0.05 level.|MMRM|||||0.177|-0.432|0.4114
82455842|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|0.099||||0.5394|TWO_SIDED|95.0|-0.219|0.418||Threshold for significance at 0.05 level.|MMRM|||||0.418|-0.219|0.5394
82455843|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|0.149||||0.459|TWO_SIDED|95.0|-0.246|0.544||Threshold for significance at 0.05 level.|MMRM|||||0.544|-0.246|0.4590
82455844|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|0.242||||0.2397|TWO_SIDED|95.0|-0.163|0.647||Threshold for significance at 0.05 level.|MMRM|||||0.647|-0.163|0.2397
82455845|NCT03201419|164616084|SUPERIORITY||Least Square Mean Difference|-0.039||||0.7954|TWO_SIDED|95.0|-0.332|0.254||Threshold for significance at 0.05 level.|MMRM|||||0.254|-0.332|0.7954
82455846|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|-0.332||||0.0077|TWO_SIDED|95.0|-0.576|-0.089||Threshold for significance at 0.05 level.|MMRM|||||-0.089|-0.576|0.0077
82649454|NCT03705169|165014516|OTHER||Mean|-0.02||||0.78|TWO_SIDED|95.0|-0.24|0.19||Under the null hypothesis, it was assumed there was no change in HIV-1 RNA (log10 copies/mL) from baseline to Day 14 of SAR441236 monotherapy for viremic participants with HIV (Arm B cohorts).|t-test, 2 sided|||Arm B participants were pooled across doses for analysis.||0.19|-0.24|0.78
82649455|NCT00606684|165014533|SUPERIORITY_OR_OTHER||Least squares mean difference|0.092|||<|0.001|TWO_SIDED|95.0|0.039|0.144|||ANCOVA|||||0.144|0.039|<0.001
82649456|NCT00606684|165014533|SUPERIORITY_OR_OTHER||Least squares mean difference|0.098|||<|0.001|TWO_SIDED|95.0|0.046|0.15|||ANCOVA|||||0.150|0.046|<0.001
82649457|NCT00606684|165014533|SUPERIORITY_OR_OTHER||Least squares mean difference|0.11|||<|0.001|TWO_SIDED|95.0|0.057|0.162|||ANCOVA|||||0.162|0.057|<0.001
82649458|NCT00606684|165014533|SUPERIORITY_OR_OTHER||Least squares mean difference|0.137|||<|0.001|TWO_SIDED|95.0|0.085|0.19|||ANCOVA|||||0.190|0.085|<0.001
82649459|NCT00606684|165014533|SUPERIORITY_OR_OTHER||Least squares mean difference|0.165|||<|0.001|TWO_SIDED|95.0|0.112|0.217|||ANCOVA|||||0.217|0.112|<0.001
82649460|NCT01275313|165014544|EQUIVALENCE|Power calculation: To determine a difference of 20% in the control group and 10% in the treatment group with 80% power, 440 participants would be needed.||||||0.77|||||||Chi-squared, Corrected|||Null hypothesis: At-risk nursing home residents provided with an individually-configured manual lightweight wheelchair and skin protection cushion have the same incidence of pressure injury development compared to individuals using a facility-provided manual wheelchair modified with a skin protection cushion and related adjustments.||||0.77
82649461|NCT00909727|165014560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|6.6|18.3||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. No imputation of missing data was done.||The primary analysis for the primary efficacy variable was based on a Mixed-Effects Model for Repeated Measures (MMRM). The model included absolute change from baseline in percent predicted forced expiratory volume in 1 second (FEV1) as the dependent variable, treatment (ivacaftor versus placebo) and visit (Day 15, Week 8, Week 16, and Week 24) as fixed effects, and subject as a random effect, with adjustment for the continuous baseline value of percent predicted FEV1.||18.3|6.6|<0.0001
82649462|NCT00909727|165014561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|2.7||0.0006|TWO_SIDED|95.0|4.5|15.5||There was no adjustment for multiple comparisons.|Mixed Models Analysis|Denominator degrees of freedom were estimated using the Kenward-Roger approximation. no imputation of missing data was done.||Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM). Estimates were obtained from MMRM with dependent variable absolute change from baseline, fixed effects for categorical visit \& treatment group, \& adjustment for the continuous baseline value of percent predicted FEV1, using unstructured covariance matrix.||15.5|4.5|0.0006
82649463|NCT00909727|165014562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|3.7||0.1092|TWO_SIDED|95.0|-1.4|13.5||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM), with the addition of the baseline domain score as a covariate.||13.5|-1.4|0.1092
82649464|NCT00909727|165014562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_ERROR_OF_MEAN|3.3||0.1354|TWO_SIDED|95.0|-1.6|11.8||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint, a Mixed-Effects Model for Repeated Measures (MMRM), with the addition of the baseline domain score as a covariate.||11.8|-1.6|0.1354
82649465|NCT00909727|165014563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-54.3|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|95.0|-61.8|-46.8||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||Through Week 24: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for sweat chloride and percent predicted forced expiratory volume in 1 second (FEV1), using unstructured covariance matrix.||-46.8|-61.8|<0.0001
82437982|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.36|||<|0.001|TWO_SIDED|95.0|54.01|82.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||82.71|54.01|<0.001
82455847|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|-0.61||||0.0002|TWO_SIDED|95.0|-0.927|-0.293||Threshold for significance at 0.05 level.|MMRM|||||-0.293|-0.927|0.0002
82649466|NCT00909727|165014563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.5|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|95.0|-60.9|-46.0||There was no adjustment for multiple comparisons.|Mixed Models Analysis|||Through Week 48: Analysis for this variable was similar to that of the primary analysis of the primary efficacy endpoint. Estimates were from Mixed-Effects Model for Repeated Measures (MMRM) with dependent variable absolute change from baseline, fixed effects for categorical visit and treatment group, and adjustment for continuous baseline value for sweat chloride and percent predicted forced expiratory volume in 1 second (FEV1), using unstructured covariance matrix.||-46.0|-60.9|<0.0001
82652362|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.059||||0.6471|TWO_SIDED|95.0|-0.312|0.194||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.194|-0.312|0.6471
82437983|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|6.33||||0.187|TWO_SIDED|95.0|-2.99|15.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.65|-2.99|0.187
82437984|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.79||||0.881|TWO_SIDED|95.0|-9.42|10.99||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.99|-9.42|0.881
82455848|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|-0.026||||0.8778|TWO_SIDED|95.0|-0.352|0.301||Threshold for significance at 0.05 level.|MMRM|||||0.301|-0.352|0.8778
82455849|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|0.157||||0.4309|TWO_SIDED|95.0|-0.235|0.549||Threshold for significance at 0.05 level.|MMRM|||||0.549|-0.235|0.4309
82455850|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|-0.017||||0.9392|TWO_SIDED|95.0|-0.444|0.411||Threshold for significance at 0.05 level.|MMRM|||||0.411|-0.444|0.9392
82455851|NCT03201419|164616085|SUPERIORITY||Least Square Mean Difference|-0.213||||0.1734|TWO_SIDED|95.0|-0.521|0.094||Threshold for significance at 0.05 level.|MMRM|||||0.094|-0.521|0.1734
82540780|NCT01924767|164781097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.844||||0.0421||95.0|-25.205|-0.484||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||-0.484|-25.205|0.0421
82540781|NCT01924767|164781097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.719||||0.6527|TWO_SIDED|95.0|-14.842|9.403||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||9.403|-14.842|0.6527
82649467|NCT00909727|165014564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.5||0.0004|TWO_SIDED|95.0|0.9|2.9||The primary endpoint and key secondary endpoints were tested in sequence. test 1: primary (α=0.05); test 2: using Hochberg's step-up procedure on weight (Wk 24) and sweat chloride (Wk 24)(α=0.05); test 3: CFQ-R respiratory domain score (Wk 24).|Mixed Models Analysis|||At Week 24: Analysis for this variable was based on a Linear Mixed Effect (LME) model with dependent variable weight; treatment as a fixed effect; and intercept, visit, and treatment by visit interaction as random effects, with adjustment for baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||2.9|0.9|0.0004
82437985|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.05||||0.311|TWO_SIDED|95.0|-4.6|14.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.71|-4.60|0.311
82437986|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82437987|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82455852|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|-0.328||||0.0133|TWO_SIDED|95.0|-0.587|-0.069||Threshold for significance at 0.05 level.|MMRM|||||-0.069|-0.587|0.0133
82455853|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|-0.484||||0.0048|TWO_SIDED|95.0|-0.819|-0.15||Threshold for significance at 0.05 level.|MMRM|||||-0.150|-0.819|0.0048
82455854|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|-0.04||||0.8223|TWO_SIDED|95.0|-0.395|0.314||Threshold for significance at 0.05 level.|MMRM|||||0.314|-0.395|0.8223
82455855|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|0.215||||0.3083|TWO_SIDED|95.0|-0.2|0.63||Threshold for significance at 0.05 level.|MMRM|||||0.630|-0.200|0.3083
82455856|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|-0.315||||0.1556|TWO_SIDED|95.0|-0.75|0.121||Threshold for significance at 0.05 level.|MMRM|||||0.121|-0.750|0.1556
82455857|NCT03201419|164616086|SUPERIORITY||Least Square Mean Difference|-0.188||||0.2423|TWO_SIDED|95.0|-0.504|0.128||Threshold for significance at 0.05 level.|MMRM|||||0.128|-0.504|0.2423
82455858|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|-0.079||||0.6381|TWO_SIDED|95.0|-0.409|0.251||Threshold for significance at 0.05 level.|MMRM|||||0.251|-0.409|0.6381
82455859|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|-0.502||||0.0221|TWO_SIDED|95.0|-0.931|-0.073||Threshold for significance at 0.05 level.|MMRM|||||-0.073|-0.931|0.0221
82455860|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|-0.177||||0.4112|TWO_SIDED|95.0|-0.602|0.247||Threshold for significance at 0.05 level.|MMRM|||||0.247|-0.602|0.4112
82455861|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|0.112||||0.6761|TWO_SIDED|95.0|-0.416|0.64||Threshold for significance at 0.05 level.|MMRM|||||0.640|-0.416|0.6761
82455862|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|0.224||||0.4898|TWO_SIDED|95.0|-0.414|0.861||Threshold for significance at 0.05 level.|MMRM|||||0.861|-0.414|0.4898
82455863|NCT03201419|164616087|SUPERIORITY||Least Square Mean Difference|0.194||||0.3311|TWO_SIDED|95.0|-0.198|0.585||Threshold for significance at 0.05 level.|MMRM|||||0.585|-0.198|0.3311
82455864|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|-0.23||||0.1583|TWO_SIDED|95.0|-0.551|0.09||Threshold for significance at 0.05 level.|MMRM|||||0.090|-0.551|0.1583
82437988|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82437989|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82437990|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437991|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437992|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82437993|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82437994|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82437995|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82437996|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82437997|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82437998|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82437999|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438000|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438001|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82455865|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|-0.275||||0.1884|TWO_SIDED|95.0|-0.685|0.136||Threshold for significance at 0.05 level.|MMRM|||||0.136|-0.685|0.1884
82540782|NCT01924767|164781097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.998||||0.1318|TWO_SIDED|95.0|-20.818|2.822||This was non-confirmatory testing.|ANCOVA|The baseline value has been used a continuous covariate.|Mean difference to placebo was calculated.|The mean percent change in Fasting Plasma Glucose from baseline with treatment compared with placebo from baseline -2 to day 8||2.822|-20.818|0.1318
82540783|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.49|||<|0.001|TWO_SIDED|95.0|1.55|3.99|||Log Rank|||All participants: p-value was calculated using log-rank test.||3.99|1.55|<0.001
82649468|NCT00909727|165014564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|0.7||0.0002|TWO_SIDED|95.0|1.3|4.2||P-value is for the treatment effect at Week 48 (obtained as a linear contrast of treatment at Day 336). There was no adjustment for multiple comparisons.|Mixed Models Analysis|||At Week 48: Analysis for this variable was based on a Linear Mixed Effect (LME) model with random intercept and random slope, treatment as a fixed effect, and visit (days on study) and treatment by visit interaction as random effects, with adjustment for categorical baseline percent predicted forced expiratory volume in 1 second (FEV1) severity.||4.2|1.3|0.0002
82438002|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438003|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438004|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438005|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438006|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438007|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438008|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438009|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438010|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438011|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438012|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438013|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438014|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438015|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438016|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438017|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438018|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438019|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438020|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438021|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82540784|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.38||||0.002|TWO_SIDED|95.0|1.57|7.28|||Regression, Cox|||Monotherapy subset: Hazard ratio and corresponding p-value, and 95% Confidence Interval (CI) were calculated from Cox proportional hazard regression model.||7.28|1.57|0.002
82438022|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438023|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82455866|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|-0.047||||0.8256|TWO_SIDED|95.0|-0.463|0.369||Threshold for significance at 0.05 level.|MMRM|||||0.369|-0.463|0.8256
82455867|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|0.059||||0.8198|TWO_SIDED|95.0|-0.455|0.574||Threshold for significance at 0.05 level.|MMRM|||||0.574|-0.455|0.8198
82540785|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.03||||0.021|TWO_SIDED|95.0|1.11|3.68|||Regression, Cox|||Adjunct therapy subset: Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||3.68|1.11|0.021
82540786|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.82|||<|0.001|TWO_SIDED|95.0|1.7|4.67|||Regression, Cox|||Psychotic Symptoms: Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||4.67|1.70|<0.001
82540787|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.93|||<|0.001|TWO_SIDED|95.0|1.7|5.04|||Regression, Cox|||Mood Symptoms (Any Mood Symptoms):Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||5.04|1.70|<0.001
82540788|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.62||||0.012|TWO_SIDED|95.0|1.32|9.89|||Regression, Cox|||Mood Symptoms (Manic): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||9.89|1.32|0.012
82540789|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.12||||0.006|TWO_SIDED|95.0|1.39|6.98|||Regression, Cox|||Mood Symptoms (Depressive): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||6.98|1.39|0.006
82540790|NCT01193153|164781100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.93||||0.238|TWO_SIDED|95.0|0.65|5.78|||Regression, Cox|||Mood Symptoms (Mixed): Hazard ratio and corresponding p-value, and 95% CI were calculated from Cox proportional hazard regression model.||5.78|0.65|0.238
82438024|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438025|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438026|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438027|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438028|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438029|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438030|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438031|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438032|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438033|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438034|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438035|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82455868|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|-0.431||||0.1793|TWO_SIDED|95.0|-1.061|0.199||Threshold for significance at 0.05 level.|MMRM|||||0.199|-1.061|0.1793
82540791|NCT01193153|164781101|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|1.33||0.014|TWO_SIDED|95.0|0.68|5.95||P-value based on change from DB baseline in PSP score and was analyzed using mixed-model repeated measures analysis of covariance based on observed data; within-participant repeated measures were modeled using an unstructured covariance matrix.|MMRM ANCOVA|||The null hypothesis is that there is no difference in the mean of the PSP total score between the two treatment groups.||5.95|0.68|0.014
82540792|NCT01193153|164781103|SUPERIORITY_OR_OTHER||Least Square Mean Difference|4.5|||<|0.001|TWO_SIDED|95.0|1.94|7.15||Change at Endpoint (Week 64/LOCF)|ANCOVA|||||7.15|1.94|<0.001
82455869|NCT03201419|164616088|SUPERIORITY||Least Square Mean Difference|-0.196||||0.3155|TWO_SIDED|95.0|-0.581|0.189||Threshold for significance at 0.05 level.|MMRM|||||0.189|-0.581|0.3155
82540793|NCT00470106|164781120|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Not corrected for multiple comparisons because it is primary.|mixed model|same analysis as for secondary outcome variable.||||||<.001
82540794|NCT00470106|164781121|SUPERIORITY_OR_OTHER||||||<|0.1||||||A priori threshold for significance was P \< .05|mixed model|Same as for the primary variable.||||||<.10
82540795|NCT03987451|164781130|SUPERIORITY||Odds Ratio (OR)|0.28||||0.0867|TWO_SIDED|95.0|0.06|1.24|||Cochran-Mantel-Haenszel|||The common odds ratio between semaglutide and placebo adjusting for baseline diabetes was estimated along with exact 95% confidence interval based on conditioning on the marginal 2×2 tables.||1.24|0.06|0.0867
82540796|NCT01183780|164781178|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.0219|TWO_SIDED|95.0|0.73|0.976|||Log Rank|The analysis was performed on stratified data.|The estimation was performed on stratified data.|||0.976|0.730|0.0219
82649469|NCT01339910|165014567|SUPERIORITY||Difference in 18 month OS (MAC-RIC)|9.8||||0.07|TWO_SIDED|95.0|-0.8|20.3||This final test was performed at a 0.049 significance level, since 0.001 was spent at interim analyses and the overall significance level was 0.050.|Difference in Kaplan-Meier estimators|||The null hypothesis is that there is no difference in overall survival at 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. 18 month overall survival was compared between treatment arms using the difference in Kaplan-Meier estimators, which should be close to 0 under the null hypothesis.||20.3|-0.8|0.07
82540797|NCT01183780|164781179|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.793||||0.0005|TWO_SIDED|95.0|0.697|0.903|||Log Rank|Analysis was performed on stratified data.|Analysis was performed on stratified data.|||0.903|0.697|0.0005
82540798|NCT01183780|164781180|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6336|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.6336
82540799|NCT02194933|164781255|SUPERIORITY_OR_OTHER|||||||0.3992||||||Test for Baseline vs. Week 6|Mixed Models Analysis|||||||0.3992
82540800|NCT02194933|164781256|SUPERIORITY_OR_OTHER|||||||0.0053||||||Test for Baseline vs. Week 6|Mixed Models Analysis|||||||0.0053
82540801|NCT02194933|164781258|SUPERIORITY_OR_OTHER|||||||0.1559|||||||Mixed Models Analysis|||||||0.1559
82540802|NCT02194933|164781258|SUPERIORITY_OR_OTHER|||||||0.6201|||||||Mixed Models Analysis|||||||0.6201
82652363|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.106||||0.4123|TWO_SIDED|95.0|-0.359|0.148||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.148|-0.359|0.4123
82540803|NCT02194933|164781259|SUPERIORITY_OR_OTHER|||||||0.1642|||||||Mixed Models Analysis|||||||0.1642
82540804|NCT02194933|164781259|SUPERIORITY_OR_OTHER|||||||0.1873|||||||Mixed Models Analysis|||||||0.1873
82540805|NCT02194933|164781262|SUPERIORITY_OR_OTHER|||||||0.2061|||||||Mixed Models Analysis|||||||0.2061
82540806|NCT02194933|164781262|SUPERIORITY_OR_OTHER|||||||0.1778|||||||Mixed Models Analysis|||||||0.1778
82540807|NCT02194933|164781263|SUPERIORITY_OR_OTHER|||||||0.4138|||||||Mixed Models Analysis|||||||0.4138
82455870|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|-0.241||||0.183|TWO_SIDED|95.0|-0.596|0.114||Threshold for significance at 0.05 level.|MMRM|||||0.114|-0.596|0.1830
82540808|NCT02194933|164781263|SUPERIORITY_OR_OTHER|||||||0.3375|||||||Mixed Models Analysis|||||||0.3375
82540809|NCT02194933|164781266|SUPERIORITY_OR_OTHER|||||||0.8437|||||||Mixed Models Analysis|||||||0.8437
82540810|NCT02194933|164781266|SUPERIORITY_OR_OTHER|||||||0.8318|||||||Mixed Models Analysis|||||||0.8318
82540811|NCT02194933|164781267|SUPERIORITY_OR_OTHER|||||||0.6697|||||||Mixed Models Analysis|||||||0.6697
82540812|NCT02194933|164781267|SUPERIORITY_OR_OTHER|||||||0.8829|||||||Mixed Models Analysis|||||||0.8829
82540813|NCT02194933|164781268|SUPERIORITY_OR_OTHER|||||||0.2301|||||||Mixed Models Analysis|||||||0.2301
82455871|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|-0.313||||0.1618|TWO_SIDED|95.0|-0.751|0.126||Threshold for significance at 0.05 level.|MMRM|||||0.126|-0.751|0.1618
82540814|NCT02194933|164781268|SUPERIORITY_OR_OTHER|||||||0.0599|||||||Mixed Models Analysis|||||||0.0599
82540815|NCT02194933|164781269|SUPERIORITY_OR_OTHER|||||||0.1595|||||||Mixed Models Analysis|||||||0.1595
82540816|NCT02194933|164781269|SUPERIORITY_OR_OTHER|||||||0.1211|||||||Mixed Models Analysis|||||||0.1211
82540817|NCT02194933|164781270|SUPERIORITY_OR_OTHER|||||||0.1322|||||||Mixed Models Analysis|||||||0.1322
82540818|NCT02194933|164781270|SUPERIORITY_OR_OTHER|||||||0.2113|||||||Mixed Models Analysis|||||||0.2113
82540819|NCT02194933|164781271|SUPERIORITY_OR_OTHER|||||||0.0578|||||||Mixed Models Analysis|||||||0.0578
82540820|NCT02194933|164781271|SUPERIORITY_OR_OTHER|||||||0.0588|||||||Mixed Models Analysis|||||||0.0588
82540821|NCT02194933|164781272|SUPERIORITY_OR_OTHER|||||||0.1666|||||||Mixed Models Analysis|||||||0.1666
82540822|NCT02194933|164781272|SUPERIORITY_OR_OTHER|||||||0.767|||||||Mixed Models Analysis|||||||0.7670
82540823|NCT02194933|164781273|SUPERIORITY_OR_OTHER|||||||0.7178|||||||Mixed Models Analysis|||||||0.7178
82540824|NCT02194933|164781273|SUPERIORITY_OR_OTHER|||||||0.2336|||||||Mixed Models Analysis|||||||0.2336
82540825|NCT02194933|164781274|SUPERIORITY_OR_OTHER|||||||0.6558|||||||Mixed Models Analysis|||||||0.6558
82540826|NCT02194933|164781274|SUPERIORITY_OR_OTHER|||||||0.9058|||||||Mixed Models Analysis|||||||0.9058
82540827|NCT02194933|164781275|SUPERIORITY_OR_OTHER|||||||0.0078|||||||Mixed Models Analysis|||||||0.0078
82540828|NCT02194933|164781275|SUPERIORITY_OR_OTHER|||||||0.4272|||||||Mixed Models Analysis|||||||0.4272
82540829|NCT05382104|164781305|EQUIVALENCE|A linear mixed-effects model was applied to natural log (ln)-transformed Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90 percent (%) confidence intervals (CIs) was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|76.62|||||TWO_SIDED|90.0|71.78|81.78|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||81.78|71.78|
82561856|NCT02291861|164832898|SUPERIORITY||Odds Ratio (OR)|3.96||||0.005|TWO_SIDED|95.0|1.46|10.716||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||10.716|1.460|0.005
82540830|NCT05382104|164781305|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed Cmax with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|71.61|||||TWO_SIDED|90.0|67.14|76.37|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||76.37|67.14|
82438036|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82540831|NCT05382104|164781306|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|84.13|||||TWO_SIDED|90.0|80.74|87.66|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||87.66|80.74|
82540832|NCT05382104|164781306|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUClast with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|87.35|||||TWO_SIDED|90.0|83.87|90.96|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||90.96|83.87|
82540833|NCT05382104|164781307|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for the differences between Treatment B versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment B versus Treatment A.|Geometric Mean Ratio (%)|84.74|||||TWO_SIDED|90.0|81.28|88.34|||||Geometric mean ratio (%) was calculated as 100\*(Treatment B / Treatment A).|||88.34|81.28|
82540834|NCT05382104|164781307|EQUIVALENCE|A linear mixed-effects model was applied to ln-transformed AUC0-infinity with treatment, period, and sequence as fixed effects, and participant within sequence as a random effect. Point estimates and their associated 90% CIs was constructed for differences between Treatment C versus Treatment A. The point estimates and their associated 90% CIs were then back transformed to provide point estimates and 90% CIs for ratios of Treatment C versus Treatment A.|Geometric Mean Ratio (%)|87.84|||||TWO_SIDED|90.0|84.3|91.53|||||Geometric mean ratio (%) was calculated as 100\*(Treatment C / Treatment A).|||91.53|84.30|
82540835|NCT03506880|164781313|SUPERIORITY||Mean Difference (Final Values)|0.17|||>|0.05|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was hypothesized that drinking would increase from baseline to 12-month follow-up for those in the AC, but not for those in the SG and MADD conditions.||||>0.05
82540836|NCT03506880|164781314|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.01|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was also hypothesized that teens in the SG and MADD conditions would report significantly more declining rides with impaired drivers than those in the AC group.||||<0.01
82540837|NCT03506880|164781315|SUPERIORITY||Mean Difference (Final Values)|0.06|||>|0.01|TWO_SIDED||||||Tukey's Post-Hoc||Estimation parameter used to determine significance between mean values in MADD, SG, and AC group.|It was hypothesized that participants in the MADD and SG groups would be significantly less willing to ride in a car with an impaired driver than those in the AC group.||||>0.01
82649470|NCT01339910|165014568|SUPERIORITY||Difference in 18 month RFS (MAC-RIC)|20.4|||<|0.01|TWO_SIDED|95.0|8.9|32.0||Test performed at a significance level of 0.05|Difference in Kaplan-Meier estimators|||The null hypothesis is that there is no difference in relapse-free survival at 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. 18 month relapse-free survival was compared between treatment arms using the difference in Kaplan-Meier estimators, which should be close to 0 under the null hypothesis.||32.0|8.9|< 0.01
82455872|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|-0.26||||0.2519|TWO_SIDED|95.0|-0.706|0.186||Threshold for significance at 0.05 level.|MMRM|||||0.186|-0.706|0.2519
82438037|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438038|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82540838|NCT02336438|164781326|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.99
82540839|NCT02336438|164781327|SUPERIORITY_OR_OTHER|||||||0.4922|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.4922
82455873|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|0.232||||0.4044|TWO_SIDED|95.0|-0.316|0.781||Threshold for significance at 0.05 level.|MMRM|||||0.781|-0.316|0.4044
82540840|NCT02336438|164781328|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.77
82540841|NCT02336438|164781329|SUPERIORITY_OR_OTHER|||||||0.0156|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.0156
82438039|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438040|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438041|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438042|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438043|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438044|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438045|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438046|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438047|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438048|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438049|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82540842|NCT02336438|164781330|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.020
82540843|NCT02336438|164781331|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||0.13
82540844|NCT00857649|164781350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|1.52||0.418|TWO_SIDED|95.0|-1.75|4.21|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||4.21|-1.75|0.418
82540845|NCT00857649|164781351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.92||0.603|TWO_SIDED|95.0|-2.3|1.34|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||1.34|-2.30|0.603
82455874|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|-0.28||||0.4348|TWO_SIDED|95.0|-0.986|0.426||Threshold for significance at 0.05 level.|MMRM|||||0.426|-0.986|0.4348
82455875|NCT03201419|164616089|SUPERIORITY||Least Square Mean Difference|-0.15||||0.4786|TWO_SIDED|95.0|-0.565|0.266||Threshold for significance at 0.05 level.|MMRM|||||0.266|-0.565|0.4786
82540846|NCT00857649|164781352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.734|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||0.31|-0.22|0.734
82540847|NCT00857649|164781353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.017|TWO_SIDED|95.0|-3.29|-0.32|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||-0.32|-3.29|0.017
82438050|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438051|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438052|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438053|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82540848|NCT00857649|164781354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.98||0.36|TWO_SIDED|95.0|-1.03|2.83|||ANCOVA|Centre and treatment as factors and baseline score as covariate. Estimate based on Least Squares.||||2.83|-1.03|0.360
82540849|NCT02498769|164781355|OTHER||Hazard Ratio (HR)|0.69||||0.18|TWO_SIDED|95.0|0.41|1.19|||Regression, Cox|||||1.19|0.41|0.18
82540850|NCT02498769|164781356|OTHER||Odds Ratio (OR)|0.63||||0.19|TWO_SIDED|95.0|0.31|1.27|||Regression, Logistic|||||1.27|0.31|0.19
82540851|NCT02498769|164781357|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||ICU length of stay hours||||.16
82540852|NCT02498769|164781357|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Hospital LOS||||.51
82540853|NCT02498769|164781358|OTHER|||||||0.97|||||||Chi-squared|||||||.97
82649471|NCT01339910|165014569|SUPERIORITY||||||<|0.001||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of disease relapse during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of disease relapse was compared between treatment arms using Gray's test, treating death as a competing risk.||||< 0.001
82438054|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82540854|NCT05190419|164781359|SUPERIORITY||Mean Difference (Net)|-35.4|STANDARD_ERROR_OF_MEAN|9.83|<|0.001|TWO_SIDED|95.0|-54.7|-16.0||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-16.0|-54.7|<0.001
82540855|NCT05190419|164781359|SUPERIORITY||Mean Difference (Net)|-43.9|STANDARD_ERROR_OF_MEAN|9.75|<|0.001|TWO_SIDED|95.0|-63.1|-24.8||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-24.8|-63.1|<0.001
82540856|NCT05190419|164781359|SUPERIORITY||Mean Difference (Net)|-46.4|STANDARD_ERROR_OF_MEAN|9.75|<|0.001|TWO_SIDED|95.0|-65.6|-27.3||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|ANCOVA|p-value is calculated by analysis of covariance with treatment group as factor and baseline PASI as covariate.||||-27.3|-65.6|<0.001
82438055|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82455876|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|-0.223||||0.2412|TWO_SIDED|95.0|-0.598|0.151||Threshold for significance at 0.05 level.|MMRM|||||0.151|-0.598|0.2412
82455877|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|-0.48||||0.0501|TWO_SIDED|95.0|-0.959|0.0||Threshold for significance at 0.05 level.|MMRM|||||0.000|-0.959|0.0501
82455878|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|0.069||||0.7788|TWO_SIDED|95.0|-0.417|0.556||Threshold for significance at 0.05 level.|MMRM|||||0.556|-0.417|0.7788
82540857|NCT00367055|164781371|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||p value is for Total AUC(0-10 min)|Van Elteren|||||||0.376
82540858|NCT00367055|164781371|SUPERIORITY_OR_OTHER|||||||0.99||95.0||||p value is for Incremental AUC(0-10 min)|Van Elteren|||||||0.990
82561857|NCT02291861|164832898|SUPERIORITY||Odds Ratio (OR)|1.13||||0.829|TWO_SIDED|95.0|0.383|3.316||5% level of significance (2-sided)|Cochran-Mantel-Haenszel|The statistical test was a CMH test stratified by baseline use of DRAs.|SD-809/placebo The odds ratio was the Mantel-Haenszel estimate of the common odds ratio.|||3.316|0.383|0.829
82649472|NCT01339910|165014570|SUPERIORITY|||||||0.002||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of treatment-related mortality during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of treatment-related mortality was compared between treatment arms using Gray's test, treating disease relapse as a competing risk.||||0.002
82455879|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|-0.111||||0.7111|TWO_SIDED|95.0|-0.698|0.477||Threshold for significance at 0.05 level.|MMRM|||||0.477|-0.698|0.7111
82455880|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|-0.205||||0.5816|TWO_SIDED|95.0|-0.937|0.527||Threshold for significance at 0.05 level.|MMRM|||||0.527|-0.937|0.5816
82455881|NCT03201419|164616090|SUPERIORITY||Least Square Mean Difference|-0.152||||0.4981|TWO_SIDED|95.0|-0.595|0.29||Threshold for significance at 0.05 level.|MMRM|||||0.290|-0.595|0.4981
82577942|NCT00847626|164865067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.255|TWO_SIDED|95.0|-13.0|3.5||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||3.5|-13.0|0.255
82577943|NCT00847626|164865067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.2|||<|0.001|TWO_SIDED|95.0|-25.9|-10.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed. Results for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and Azilsartan Medoxomil 80mg/Chlorthalidone 25 mg QD pool were obtained using contrast with coefficients of 0.5 for Azilsartan Medoxomil 40 mg/Chlorthalidone 25 mg QD and 0.5 for Azilsartan Medoxomil 80 mg/Chlorthalidone 25 mg QD from the ANCOVA model.||-10.6|-25.9|<0.001
82577944|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-13.6|-7.0||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.0|-13.6|< 0.001
82577945|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|||<|0.001|TWO_SIDED|95.0|-13.7|-7.0||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.0|-13.7|<0.001
82577946|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.8|||<|0.001|TWO_SIDED|95.0|-15.1|-8.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.4|-15.1|<0.001
82577947|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|||<|0.001|TWO_SIDED|95.0|-17.3|-10.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.6|-17.3|<0.001
82577948|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.001|TWO_SIDED|95.0|-17.1|-10.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.3|-17.1|<0.001
82577949|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.0|||<|0.001|TWO_SIDED|95.0|-15.4|-8.7||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.7|-15.4|<0.001
82577950|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9|||<|0.001|TWO_SIDED|95.0|-14.2|-7.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.6|-14.2|<0.001
82577951|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|||<|0.001|TWO_SIDED|95.0|-17.6|-10.9||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-10.9|-17.6|<0.001
82577952|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||<|0.001|TWO_SIDED|95.0|-15.0|-8.3||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-8.3|-15.0|<0.001
82455882|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|-1.313||||0.1733|TWO_SIDED|95.0|-3.207|0.582||Threshold for significance at 0.05 level.|MMRM|||||0.582|-3.207|0.1733
82455883|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|-1.375||||0.2538|TWO_SIDED|95.0|-3.745|0.994||Threshold for significance at 0.05 level.|MMRM|||||0.994|-3.745|0.2538
82455884|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|-0.353||||0.7782|TWO_SIDED|95.0|-2.818|2.113||Threshold for significance at 0.05 level.|MMRM|||||2.113|-2.818|0.7782
82455885|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|-0.151||||0.9218|TWO_SIDED|95.0|-3.182|2.88||Threshold for significance at 0.05 level.|MMRM|||||2.880|-3.182|0.9218
82455886|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|0.767||||0.6823|TWO_SIDED|95.0|-2.923|4.457||Threshold for significance at 0.05 level.|MMRM|||||4.457|-2.923|0.6823
82455887|NCT03201419|164616091|SUPERIORITY||Least Square Mean Difference|-1.095||||0.3436|TWO_SIDED|95.0|-3.369|1.179||Threshold for significance at 0.05 level.|MMRM|||||1.179|-3.369|0.3436
82455888|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|-1.235||||0.2042|TWO_SIDED|95.0|-3.146|0.676||Threshold for significance at 0.05 level.|MMRM|||||0.676|-3.146|0.2042
82455889|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|-1.683||||0.1591|TWO_SIDED|95.0|-4.031|0.665||Threshold for significance at 0.05 level.|MMRM|||||0.665|-4.031|0.1591
82577953|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-20.4|-13.6||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-13.6|-20.4|<0.001
82577954|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-14.7|-7.8||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-7.8|-14.7|<0.001
82577955|NCT00847626|164865080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||<|0.001|TWO_SIDED|95.0|-16.2|-9.4||Tested at 5% significance level.|ANCOVA|||ANCOVA using treatment as a fixed effect and baseline as a covariate was performed.||-9.4|-16.2|<0.001
82577956|NCT03031496|164865084|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|91.52|||||TWO_SIDED|90.0|87.77|95.43|||||Comparison of AUC (0-t) of hydrochlorothiazide for test and reference product has been presented.|||95.43|87.77|
82577957|NCT03031496|164865084|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|102.42|||||TWO_SIDED|90.0|98.12|106.91|||||Comparison of AUC (0-t) of amiloride for test and reference product has been presented.|||106.91|98.12|
82540859|NCT04470193|164781382|SUPERIORITY|We approached 62 subjects to get a sample size of 50 participants, allowing up to 16% attrition, to estimate the proportions of patients satisfying dropout of 0.13 to within margins of error (half-widths of 90% Cis). The 50 evaluable subjects were used to estimate the SD of QoL, with a margin of error of ∼20%. The sample size also allowed us to provide provisional estimates of the effect size for the QoL outcome to within a margin of error of ±7.1 points, assuming a true SD of 15 points.|||||>|0.05|||||||generalized estimating equation model|||We used a generalized estimating equation model for repeated assessments, with a common unstructured residual covariance matrix to account for correlation in repeated measurements in the same patient, to compare QoL total score at baseline, 1 month, and 3 months between the groups. We hypothesized that MyChildCMC users would have better outcomes for the child (higher QoL, fewer ED and/or hospital use and hospital days) and parent (higher satisfaction with child's care).||||>0.05
82540860|NCT04470193|164781383|SUPERIORITY||Risk Ratio (RR)|1.05||||0.882|TWO_SIDED|95.0|0.58|1.88|||Mixed Models Analysis|||||1.88|0.58|0.882
82540861|NCT04470193|164781384|SUPERIORITY||Risk Ratio (RR)|0.49|||<|0.001|TWO_SIDED|95.0|0.39|0.62|||Mixed Models Analysis|||||0.62|0.39|<0.001
82540862|NCT04470193|164781385|SUPERIORITY||Risk Ratio (RR)|1.11||||0.035|TWO_SIDED|95.0|1.01|1.22|||Mixed Models Analysis|||||1.22|1.01|0.035
82540863|NCT02517307|164781399|OTHER|||||||0.136|||||||Mixed Models Analysis|||We compared the effects of intralipid on Rd in controls subjects versus subjects with a FAOD by mixed-effect models. Factors were group (control or FAOD) treatment (glycerol or intralipid) and the interaction of those factors. The hypothesis was intralipid would decrease Rd in controls but not in subjects with an FAOD.||||0.136
82540864|NCT02517307|164781400|OTHER|We analyzed the data with a mixed model looking at the effect of group (control vs FAOD) and treatment (glycerol vs intralipid) and their interaction.||||||0.011|||||||Mixed Models Analysis|||We tested if intralipid did not suppress endogenous glucose production or Ra as much as glycerol in controls compared to subjects with an FAOD.||||0.011
82540865|NCT01579916|164781430|NON_INFERIORITY_OR_EQUIVALENCE|H0 (null): Rate difference greater than or equal to 5 percentage points. This corresponds to a null hypothesis of: HA (alternative): rate difference \< 5 percentage points.|Rate difference|-1.7|||||TWO_SIDED|95.0|-8.9|0.6|||Score statistic|||Comparison of the rate of fever between the 2 treatment groups was based on the upper limit of the two-sided 95% exact confidence intervals (CIs) for the rate increase (trivalent influenza virus vaccine minus placebo) evaluated against the prespecified equivalence criterion of 5 percentage points||0.6|-8.9|
82540866|NCT03360396|164781445|OTHER|Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.||||||||||||Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.||Study was closed early in all regions except for France. SAP was updated to include descriptive statistics only. French sites remain open.||Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.|Study was closed early in all regions except for France. Statistical Analysis plan was updated to include descriptive statistics only. Sites in France remain open and all subjects in France will be followed through 36 months.|||
82540867|NCT03360396|164781446|OTHER|Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||||||||||||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.||Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.|Study was terminated early, and Statistical Analysis plan was updated to include descriptive statistics only.|||
82540868|NCT01123083|164781449|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.051|TWO_SIDED|95.0|-0.17|0.0|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|||0.00|-0.17|0.051
82540869|NCT01123083|164781450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.022|TWO_SIDED|95.0|-0.18|-0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|Week 12||-0.02|-0.18|0.022
82540870|NCT01123083|164781450|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.191|TWO_SIDED|95.0|-0.15|0.03|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline C-peptide AUC. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.03|-0.15|0.191
82540871|NCT01123083|164781452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.912|TWO_SIDED|95.0|0.5|3.37|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Week 12||3.37|0.50|0.912
82540872|NCT01123083|164781452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.912|TWO_SIDED|95.0|0.37|2.42|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Month 6||2.42|0.37|0.912
82540873|NCT01123083|164781452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.412|TWO_SIDED|95.0|0.54|4.52|||GEE Model||Estimated treatment group difference, adjusted for age, region and Baseline HbA1c/Insulin Use Response. Confidence Interval, not adjusted for multiple comparisons.|Month 12||4.52|0.54|0.412
82540874|NCT01123083|164781453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.21|TWO_SIDED|95.0|-0.08|0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Week 12||0.02|-0.08|0.210
82577958|NCT03031496|164865085|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|82.86|||||TWO_SIDED|90.0|77.37|88.74|||||Comparison of Cmax of hydrochlorothiazide for test and reference product has been presented.|||88.74|77.37|
82455890|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|-0.285||||0.8168|TWO_SIDED|95.0|-2.708|2.138||Threshold for significance at 0.05 level.|MMRM|||||2.138|-2.708|0.8168
82649473|NCT01339910|165014571|SUPERIORITY|||||||0.002||||||Test performed at a significance level of 0.05|Difference in Aalen-Johansen estimators|||The null hypothesis is that there is no difference in the cumulative incidence of neutrophil engraftment at Day 28 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of neutrophil engraftment at Day 28 was compared between treatment arms using the difference in Aalen-Johansen estimators, which should be close to 0 under the null hypothesis. Death was treated as a competing risk.||||0.002
82649474|NCT01339910|165014571|SUPERIORITY|||||||0.065||||||Test performed at a significance level of 0.05|Difference in Aalen-Johansen estimators|||The null hypothesis is that there is no difference in the cumulative incidence of platelet engraftment at Day 60 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of platelet engraftment at Day 60 was compared between treatment arms using the difference in Aalen-Johansen estimators, which should be close to 0 under the null hypothesis. Death was treated as a competing risk.||||0.065
82649475|NCT01339910|165014572|SUPERIORITY|||||||0.005||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at Day 28 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.005
82649476|NCT01339910|165014572|SUPERIORITY|||||||0.011||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at Day 100 post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.011
82438056|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|71.1|||<|0.001|TWO_SIDED|95.0|55.82|86.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||86.38|55.82|<0.001
82438057|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|68.31|||<|0.001|TWO_SIDED|95.0|52.88|83.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||83.74|52.88|<0.001
82438058|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|69.98|||<|0.001|TWO_SIDED|95.0|54.47|85.48||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||85.48|54.47|<0.001
82438059|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|65.95|||<|0.001|TWO_SIDED|95.0|50.16|81.74||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||81.74|50.16|<0.001
82438060|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.25||||0.265|TWO_SIDED|95.0|-3.92|14.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.41|-3.92|0.265
82438061|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.85||||0.71|TWO_SIDED|95.0|-7.82|11.53||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.53|-7.82|0.710
82438062|NCT01559259|164583778|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|3.99||||0.416|TWO_SIDED|95.0|-5.52|13.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.49|-5.52|0.416
82438063|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.28|||<|0.001|TWO_SIDED|95.0|0.17|0.45||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.45|0.17|<0.001
82438064|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|||<|0.001|TWO_SIDED|95.0|0.15|0.39||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.39|0.15|<0.001
82649477|NCT01339910|165014572|SUPERIORITY|||||||0.39||||||Test performed at a significance level of 0.05|Chi-squared|3 degrees of freedom||The null hypothesis is that there is no difference in the proportions of participants with full chimerism, mixed chimerism, graft rejection, and death prior to assessment at 18 months post-transplant between AML/MDS participants receiving MAC and RIC conditioning regimens.||||0.39
82652364|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.278||||0.0338|TWO_SIDED|95.0|-0.534|-0.021||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||-0.021|-0.534|0.0338
82455891|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|-0.551||||0.7148|TWO_SIDED|95.0|-3.517|2.416||Threshold for significance at 0.05 level.|MMRM|||||2.416|-3.517|0.7148
82455892|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|0.701||||0.7141|TWO_SIDED|95.0|-3.066|4.468||Threshold for significance at 0.05 level.|MMRM|||||4.468|-3.066|0.7141
82455893|NCT03201419|164616092|SUPERIORITY||Least Square Mean Difference|-0.759||||0.5041|TWO_SIDED|95.0|-2.995|1.477||Threshold for significance at 0.05 level.|MMRM|||||1.477|-2.995|0.5041
82455894|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|-1.129||||0.2896|TWO_SIDED|95.0|-3.226|0.967||Threshold for significance at 0.05 level.|MMRM|||||0.967|-3.226|0.2896
82455895|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|-2.652||||0.0498|TWO_SIDED|95.0|-5.301|-0.003||Threshold for significance at 0.05 level.|MMRM|||||-0.003|-5.301|0.0498
82649478|NCT01339910|165014573|SUPERIORITY|||||||0.024||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of grade II-IV acute GVHD during the first 100 days post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of grade II-IV acute GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.024
82649479|NCT01339910|165014573|SUPERIORITY|||||||0.066||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of grade III-IV acute GVHD during the first 100 days post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of grade III-IV acute GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.066
82649480|NCT01339910|165014574|SUPERIORITY|||||||0.019||||||Test performed at a significance level of 0.05|Gray's test|||The null hypothesis is that there is no difference in the cumulative incidence of chronic GVHD during the first 18 months post-randomization between AML/MDS participants receiving MAC and RIC conditioning regimens. Cumulative incidence of chronic GVHD was compared between treatment arms using Gray's test, treating death as a competing risk.||||0.019
82649481|NCT02965820|165014583|SUPERIORITY||||||=|0.003|||||||Mixed Models Analysis|||||||=0.0030
82455896|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|0.323||||0.8159|TWO_SIDED|95.0|-2.409|3.055||Threshold for significance at 0.05 level.|MMRM|||||3.055|-2.409|0.8159
82455897|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|0.485||||0.7719|TWO_SIDED|95.0|-2.809|3.779||Threshold for significance at 0.05 level.|MMRM|||||3.779|-2.809|0.7719
82455898|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|1.676||||0.4193|TWO_SIDED|95.0|-2.407|5.76||Threshold for significance at 0.05 level.|MMRM|||||5.760|-2.407|0.4193
82649482|NCT00829413|165014596|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|37.8|||<|0.0001|TWO_SIDED|95.0|27.4|48.2|||McNemar|||||48.2|27.4|<.0001
82649483|NCT00829413|165014596|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|40.3|||<|0.0001|TWO_SIDED|95.0|30.4|50.3|||McNemar|||||50.3|30.4|<.0001
82649484|NCT00829413|165014596|SUPERIORITY_OR_OTHER||Difference in Sensitivity (%)|75.6|||<|0.0001|TWO_SIDED|95.0|67.9|83.3|||McNemar|||||83.3|67.9|<.0001
82455899|NCT03201419|164616093|SUPERIORITY||Least Square Mean Difference|-1.23||||0.3333|TWO_SIDED|95.0|-3.73|1.27||Threshold for significance at 0.05 level.|MMRM|||||1.270|-3.730|0.3333
82455900|NCT03201419|164616094|SUPERIORITY||Mean Difference|41.8||||0.0853|TWO_SIDED|95.0|-5.9|89.6||Threshold for significance at 0.05 level.|MMRM|||||89.6|-5.9|0.0853
82455901|NCT03201419|164616094|SUPERIORITY||Mean Difference|105.9||||0.001|TWO_SIDED|95.0|43.4|168.4||Threshold for significance at 0.05 level.|MMRM|||||168.4|43.4|0.0010
82455902|NCT03201419|164616094|SUPERIORITY||Mean Difference|24.9||||0.4418|TWO_SIDED|95.0|-38.8|88.6||Threshold for significance at 0.05 level.|MMRM|||||88.6|-38.8|0.4418
82455903|NCT03201419|164616094|SUPERIORITY||Mean Difference|10.7||||0.7902|TWO_SIDED|95.0|-68.2|89.6||Threshold for significance at 0.05 level.|MMRM|||||89.6|-68.2|0.7902
82455904|NCT03201419|164616094|SUPERIORITY||Mean Difference|1.8||||0.9664|TWO_SIDED|95.0|-84.2|87.9||Threshold for significance at 0.05 level.|MMRM|||||87.9|-84.2|0.9664
82455905|NCT03201419|164616094|SUPERIORITY||Mean Difference|-29.8||||0.2977|TWO_SIDED|95.0|-85.9|26.4||Threshold for significance at 0.05 level.|MMRM|||||26.4|-85.9|0.2977
82649485|NCT00829413|165014597|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|7.9||||0.138|TWO_SIDED|95.0|-2.4|18.2|||McNemar|||||18.2|-2.4|0.1380
82455906|NCT03201419|164616095|SUPERIORITY||Mean Difference|14.3||||0.5523|TWO_SIDED|95.0|-33.0|61.5||Threshold for significance at 0.05 level.|MMRM|||||61.5|-33.0|0.5523
82455907|NCT03201419|164616095|SUPERIORITY||Mean Difference|60.8||||0.0556|TWO_SIDED|95.0|-1.5|123.0||Threshold for significance at 0.05 level.|MMRM|||||123.0|-1.5|0.0556
82455908|NCT03201419|164616095|SUPERIORITY||Mean Difference|-17.9||||0.5837|TWO_SIDED|95.0|-82.0|46.3||Threshold for significance at 0.05 level.|MMRM|||||46.3|-82.0|0.5837
82455909|NCT03201419|164616095|SUPERIORITY||Mean Difference|-60.7||||0.1363|TWO_SIDED|95.0|-140.7|19.3||Threshold for significance at 0.05 level.|MMRM|||||19.3|-140.7|0.1363
82455910|NCT03201419|164616095|SUPERIORITY||Mean Difference|-28.2||||0.4938|TWO_SIDED|95.0|-109.1|52.8||Threshold for significance at 0.05 level.|MMRM|||||52.8|-109.1|0.4938
82455911|NCT03201419|164616095|SUPERIORITY||Mean Difference|-54.7||||0.0535|TWO_SIDED|95.0|-110.2|0.8||Threshold for significance at 0.05 level.|MMRM|||||0.8|-110.2|0.0535
82455912|NCT03201419|164616096|SUPERIORITY||Mean Difference|-0.7||||0.9829|TWO_SIDED|95.0|-62.2|60.9||Threshold for significance at 0.05 level.|MMRM|||||60.9|-62.2|0.9829
82455913|NCT03201419|164616096|SUPERIORITY||Mean Difference|64.4||||0.1038|TWO_SIDED|95.0|-13.3|142.1||Threshold for significance at 0.05 level.|MMRM|||||142.1|-13.3|0.1038
82649486|NCT00829413|165014597|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|28.6|||<|0.0001|TWO_SIDED|95.0|19.7|37.5|||McNemar|||||37.5|19.7|<.0001
82649487|NCT00829413|165014597|SUPERIORITY_OR_OTHER||Difference in Specificity (%)|50.7|||<|0.0001|TWO_SIDED|95.0|42.0|59.5|||McNemar|||||59.5|42.0|<.0001
82649488|NCT00829413|165014598|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|21.6|||<|0.0001|TWO_SIDED|95.0|14.1|29.2|||McNemar|||||29.2|14.1|<.0001
82649489|NCT00829413|165014598|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|34.0|||<|0.0001|TWO_SIDED|95.0|27.3|40.7|||McNemar|||||40.7|27.3|<.0001
82649490|NCT00829413|165014598|SUPERIORITY_OR_OTHER||Difference in Accuracy (%)|75.6|||<|0.0001|TWO_SIDED|95.0|67.9|83.3|||McNemar|||||83.3|67.9|<.0001
82649491|NCT00829413|165014599|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82649492|NCT00829413|165014599|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82438065|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.35||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.35|0.13|<0.001
82438066|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.25|||<|0.001|TWO_SIDED|95.0|0.15|0.41||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 400 mg - placebo), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||0.41|0.15|<0.001
82438067|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.12||||0.549|TWO_SIDED|95.0|0.77|1.63||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.63|0.77|0.549
82438068|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.97||||0.863|TWO_SIDED|95.0|0.66|1.42||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.42|0.66|0.863
82438069|NCT01559259|164583779|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.86||||0.454|TWO_SIDED|95.0|0.57|1.28||p-value was calculated using PH model with treatment, baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg), p-value, HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model with treatment, baseline categorical pain severity rating and gender terms used as covariates.||1.28|0.57|0.454
82438070|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-41.07|||<|0.001|TWO_SIDED|95.0|-59.56|-22.58||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.58|-59.56|<0.001
82438071|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-40.98|||<|0.001|TWO_SIDED|95.0|-59.41|-22.56||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.56|-59.41|<0.001
82438072|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-38.64|||<|0.001|TWO_SIDED|95.0|-57.49|-19.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-19.79|-57.49|<0.001
82649493|NCT00829413|165014599|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82438073|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-38.11|||<|0.001|TWO_SIDED|95.0|-56.94|-19.28||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-19.28|-56.94|<0.001
82438074|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.13||||0.274|TWO_SIDED|95.0|-8.67|2.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.40|-8.67|0.274
82438075|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.89||||0.304|TWO_SIDED|95.0|-8.4|2.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.62|-8.40|0.304
82438076|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.96||||0.769|TWO_SIDED|95.0|-7.41|5.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||1.5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.49|-7.41|0.769
82438077|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.19|||<|0.001|TWO_SIDED|95.0|-88.0|-54.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-54.38|-88.00|<0.001
82455914|NCT03201419|164616096|SUPERIORITY||Mean Difference|29.2||||0.4764|TWO_SIDED|95.0|-51.4|109.8||Threshold for significance at 0.05 level.|MMRM|||||109.8|-51.4|0.4764
82649494|NCT00829413|165014600|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82649495|NCT00829413|165014600|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82455915|NCT03201419|164616096|SUPERIORITY||Mean Difference|-24.2||||0.6204|TWO_SIDED|95.0|-120.5|72.0||Threshold for significance at 0.05 level.|MMRM|||||72.0|-120.5|0.6204
82455916|NCT03201419|164616096|SUPERIORITY||Mean Difference|2.2||||0.966|TWO_SIDED|95.0|-100.1|104.6||Threshold for significance at 0.05 level.|MMRM|||||104.6|-100.1|0.9660
82455917|NCT03201419|164616096|SUPERIORITY||Mean Difference|3.3||||0.9275|TWO_SIDED|95.0|-67.4|73.9||Threshold for significance at 0.05 level.|MMRM|||||73.9|-67.4|0.9275
82540875|NCT01123083|164781453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.21|TWO_SIDED|95.0|-0.11|0.02|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.02|-0.11|0.210
82540876|NCT01123083|164781453|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.402|TWO_SIDED|95.0|-0.05|0.13|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and Baseline Mean Daily Insulin Use. Confidence Interval, not adjusted for multiple comparisons.|Month 12||0.13|-0.05|0.402
82540877|NCT01123083|164781454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.582|TWO_SIDED|95.0|-0.52|0.16|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Week 12||0.16|-0.52|0.582
82540878|NCT01123083|164781454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.46|0.45|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Month 6||0.45|-0.46|0.987
82540879|NCT01123083|164781454|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.572|TWO_SIDED|95.0|-0.33|0.59|||Repeated Measures Mixed Effects Model||Estimated treatment group difference, adjusted for age, region and baseline HbA1c. Confidence Interval, not adjusted for multiple comparisons.|Month 12||0.59|-0.33|0.572
82540880|NCT01123083|164781457|SUPERIORITY_OR_OTHER|||||||0.452|||||||Hochberg-adjusted p-value|||Month 6||||0.452
82540881|NCT01123083|164781457|SUPERIORITY_OR_OTHER|||||||0.452|||||||Hochberg-adjusted p-value|||Month 12||||0.452
82540882|NCT01123083|164781458|SUPERIORITY_OR_OTHER|||||||0.123|||||||Hochberg-adjusted p-value|||Month 6||||0.123
82540883|NCT01123083|164781458|SUPERIORITY_OR_OTHER|||||||0.373|||||||Hochberg-adjusted p-value|||Month 12||||0.373
82540884|NCT00961636|164781459|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The closed ordered testing procedure was applied to the efficacy hypotheses. If statistical significance was achieved for the primary hypothesis, then the secondary hypothesis was tested. All tests were performed at significance level 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test was stratified by country||||||<0.001
82540885|NCT00961636|164781460|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The closed ordered testing procedure was applied to the efficacy hypotheses. If statistical significance was achieved for the primary hypothesis, then the secondary hypothesis was tested. All tests were performed at significance level 0.05.|Unconditional Miettinen and Nurminen|||||||<0.001
82455918|NCT03201419|164616097|SUPERIORITY||Mean Difference|15.7||||0.5964|TWO_SIDED|95.0|-42.7|74.2||Threshold for significance at 0.05 level.|MMRM|||||74.2|-42.7|0.5964
82455919|NCT03201419|164616097|SUPERIORITY||Mean Difference|-2.8||||0.9418|TWO_SIDED|95.0|-78.5|72.9||Threshold for significance at 0.05 level.|MMRM|||||72.9|-78.5|0.9418
82455920|NCT03201419|164616097|SUPERIORITY||Mean Difference|18.0||||0.6452|TWO_SIDED|95.0|-58.8|94.7||Threshold for significance at 0.05 level.|MMRM|||||94.7|-58.8|0.6452
82577959|NCT03031496|164865085|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|103.92|||||TWO_SIDED|90.0|97.42|110.86|||||Comparison of Cmax of amiloride for test and reference product has been presented.|||110.86|97.42|
82455921|NCT03201419|164616097|SUPERIORITY||Mean Difference|-51.3||||0.2565|TWO_SIDED|95.0|-140.2|37.6||Threshold for significance at 0.05 level.|MMRM|||||37.6|-140.2|0.2565
82455922|NCT03201419|164616097|OTHER||Mean Difference|-21.6||||0.6605|TWO_SIDED|95.0|-118.6|75.4||Threshold for significance at 0.05 level.|MMRM|||||75.4|-118.6|0.6605
82540886|NCT00430300|164781493|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.0087||||0.0284|TWO_SIDED|95.0|-0.0943|0.0774|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0774|-0.0943|0.0284
82540887|NCT00430300|164781493|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.0389||||0.0056|TWO_SIDED|95.0|-0.1299|0.0471|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0471|-0.1299|0.0056
82540888|NCT00430300|164781493|SUPERIORITY_OR_OTHER||NDLM estimate difference|-0.051||||0.0009|TWO_SIDED|95.0|-0.1298|0.029|||Bayesian NDLM model|||The Bayesian normal dynamic linear model (NDLM) was used for analysis. 95% credible intervals of the effect size and the posterior distribution were calculated. Posterior distribution was used to calculate a probability (presented as p value) that the dose gives a difference of 0.075 liter from placebo.||0.0290|-0.1298|0.0009
82577960|NCT03031496|164865086|EQUIVALENCE|Bioequivalence of hydrochlorothiazide and amiloride hydrochloride was determined.|Least square mean ratio|92.37|||||TWO_SIDED|90.0|88.75|96.12|||||Comparison of Tmax of hydrochlorothiazide for test and reference product has been presented.|||96.12|88.75|
82577961|NCT03031496|164865086|OTHER||Least square mean ratio|101.47|||||TWO_SIDED|90.0|97.84|105.23|||||Comparison of Tmax of amiloride for test and reference product has been presented.|||105.23|97.84|
82577962|NCT01254552|164865100|OTHER||rate|0.071|||||TWO_SIDED|95.0|0.043|0.1||||||||0.100|0.043|
82577963|NCT01401153|164865151|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation based on parallel group design --\> revealed that 68 children are needed to detect a difference of 45ms in the mean reaction time between the groups, with α=.05 and a power of 0.8.||||||0.79|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||Power calculation had been performed.||||0.79
82649496|NCT00829413|165014600|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wald Test|||||||<.0001
82455923|NCT03201419|164616097|SUPERIORITY||Mean Difference|3.4||||0.9191|TWO_SIDED|95.0|-62.6|69.4||Threshold for significance at 0.05 level.|MMRM|||||69.4|-62.6|0.9191
82455924|NCT03201419|164616098|SUPERIORITY||Mean Difference|17.52|||||TWO_SIDED|95.0|-6.19|62.09||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||62.09|-6.19|
82455925|NCT03201419|164616098|SUPERIORITY||Mean Difference|12.78|||||TWO_SIDED|95.0|-0.73|55.89||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||55.89|-0.73|
82455926|NCT03201419|164616098|SUPERIORITY||Mean Difference|8.5|||||TWO_SIDED|95.0|-0.14|47.28||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||47.28|-0.14|
82455927|NCT03201419|164616098|SUPERIORITY||Mean Difference|3.29|||||TWO_SIDED|95.0|-0.01|28.07||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||28.07|-0.01|
82455928|NCT03201419|164616098|SUPERIORITY||Mean Difference|1.74|||||TWO_SIDED|95.0|0.0|17.9||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||17.90|-0.00|
82455929|NCT03201419|164616098|SUPERIORITY||Mean Difference|0.68|||||TWO_SIDED|95.0|0.0|7.55||||||Based on a Bayesian analysis of a sigmoidal dose-response relationship.||7.55|-0.00|
82455930|NCT03201419|164616099|SUPERIORITY||Mean Difference|-0.173||||0.0196|TWO_SIDED|95.0|-0.318|-0.028||Threshold for significance at 0.05 level.|MMRM|||||-0.028|-0.318|0.0196
82455931|NCT03201419|164616099|SUPERIORITY||Mean Difference|-0.233||||0.0167|TWO_SIDED|95.0|-0.423|-0.043||Threshold for significance at 0.05 level.|MMRM|||||-0.043|-0.423|0.0167
82540889|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.5849|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.5849
82540890|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.9737|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.9737
82540891|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.387|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.3870
82577964|NCT01401153|164865152|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.07|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.07
82455932|NCT03201419|164616099|SUPERIORITY||Mean Difference|-0.208||||0.0352|TWO_SIDED|95.0|-0.401|-0.015||Threshold for significance at 0.05 level.|MMRM|||||-0.015|-0.401|0.0352
82577965|NCT01401153|164865153|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.61|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.61
82455933|NCT03201419|164616099|SUPERIORITY||Mean Difference|-0.057||||0.6402|TWO_SIDED|95.0|-0.295|0.182||Threshold for significance at 0.05 level.|MMRM|||||0.182|-0.295|0.6402
82455934|NCT03201419|164616099|SUPERIORITY||Mean Difference|-0.121||||0.3602|TWO_SIDED|95.0|-0.381|0.139||Threshold for significance at 0.05 level.|MMRM|||||0.139|-0.381|0.3602
82455935|NCT03201419|164616099|SUPERIORITY||Mean Difference|0.074||||0.4018|TWO_SIDED|95.0|-0.099|0.247||Threshold for significance at 0.05 level.|MMRM|||||0.247|-0.099|0.4018
82455936|NCT03201419|164616100|SUPERIORITY||Mean Difference|-0.133||||0.1354|TWO_SIDED|95.0|-0.308|0.042||Threshold for significance at 0.05 level.|MMRM|||||0.042|-0.308|0.1354
82455937|NCT03201419|164616100|SUPERIORITY||Mean Difference|-0.091||||0.4238|TWO_SIDED|95.0|-0.315|0.133||Threshold for significance at 0.05 level.|MMRM|||||0.133|-0.315|0.4238
82455938|NCT03201419|164616100|SUPERIORITY||Mean Difference|-0.22||||0.0574|TWO_SIDED|95.0|-0.446|0.007||Threshold for significance at 0.05 level.|MMRM|||||0.007|-0.446|0.0574
82455939|NCT03201419|164616100|SUPERIORITY||Mean Difference|0.058||||0.6579|TWO_SIDED|95.0|-0.199|0.315||Threshold for significance at 0.05 level.|MMRM|||||0.315|-0.199|0.6579
82455940|NCT03201419|164616100|SUPERIORITY||Mean Difference|-0.17||||0.2337|TWO_SIDED|95.0|-0.45|0.11||Threshold for significance at 0.05 level.|MMRM|||||0.110|-0.450|0.2337
82455941|NCT03201419|164616100|SUPERIORITY||Mean Difference|-0.136||||0.1639|TWO_SIDED|95.0|-0.328|0.056||Threshold for significance at 0.05 level.|MMRM|||||0.056|-0.328|0.1639
82455942|NCT03201419|164616101|SUPERIORITY||Mean Difference|-87.2||||0.047|TWO_SIDED|95.0|-173.2|-1.2|||MMRM|||||-1.2|-173.2|0.0470
82540892|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.8612|ONE_SIDED|95.0|-0.15||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.15|0.8612
82540893|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.05||0.7499|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.7499
82540894|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5134|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.5134
82455943|NCT03201419|164616101|SUPERIORITY||Mean Difference|-130.2||||0.0237|TWO_SIDED|95.0|-242.9|-17.6|||MMRM|||||-17.6|-242.9|0.0237
82455944|NCT03201419|164616101|SUPERIORITY||Mean Difference|-110.8||||0.0569|TWO_SIDED|95.0|-224.9|3.3|||MMRM|||||3.3|-224.9|0.0569
82455945|NCT03201419|164616101|SUPERIORITY||Mean Difference|-23.9||||0.7383|TWO_SIDED|95.0|-164.8|117.0|||MMRM|||||117.0|-164.8|0.7383
82455946|NCT03201419|164616101|SUPERIORITY||Mean Difference|-71.0||||0.3626|TWO_SIDED|95.0|-224.3|82.3|||MMRM|||||82.3|-224.3|0.3626
82455947|NCT03201419|164616101|SUPERIORITY||Mean Difference|23.4||||0.6524|TWO_SIDED|95.0|-78.9|125.7|||MMRM|||||125.7|-78.9|0.6524
82455948|NCT03201419|164616102|SUPERIORITY||Mean Difference|-49.5||||0.3273|TWO_SIDED|95.0|-148.9|49.9||Threshold for significance at 0.05 level.|MMRM|||||49.9|-148.9|0.3273
82455949|NCT03201419|164616102|SUPERIORITY||Mean Difference|-74.6||||0.25|TWO_SIDED|95.0|-202.0|52.9||Threshold for significance at 0.05 level.|MMRM|||||52.9|-202.0|0.2500
82649497|NCT01967888|165014625|SUPERIORITY||t-test|-1.2||||0.542|TWO_SIDED|95.0|-14.3|0.0|||Cochran-Mantel-Haenszel|||||000|-14.3|0.542
82649498|NCT01967888|165014626|SUPERIORITY||least square mean difference|-0.1601778||||0.092|TWO_SIDED|95.0|-0.317803|-0.0025525|||t-test, 2 sided|||||-0.0025525|-0.3178030|0.092
82455950|NCT03201419|164616102|SUPERIORITY||Mean Difference|-93.5||||0.1537|TWO_SIDED|95.0|-222.3|35.2||Threshold for significance at 0.05 level.|MMRM|||||35.2|-222.3|0.1537
82455951|NCT03201419|164616102|SUPERIORITY||Mean Difference|33.6||||0.6515|TWO_SIDED|95.0|-113.1|180.3||Threshold for significance at 0.05 level.|MMRM|||||180.3|-113.1|0.6515
82455952|NCT03201419|164616102|SUPERIORITY||Mean Difference|-75.7||||0.3506|TWO_SIDED|95.0|-235.3|83.9||Threshold for significance at 0.05 level.|MMRM|||||83.9|-235.3|0.3506
82455953|NCT03201419|164616102|SUPERIORITY||Mean Difference|-85.4||||0.1255|TWO_SIDED|95.0|-194.8|24.1||Threshold for significance at 0.05 level.|MMRM|||||24.1|-194.8|0.1255
82455954|NCT02701283|164616103|NON_INFERIORITY|Absolute non-inferiority margin was 0.06|Posterior Median of the Difference|0.999|||||TWO_SIDED|95.0||||The posterior probability of non-inferiority is \> 0.999. The posterior probability is the probability of the event rate by updating the prior probability distribution with observed data at the interim analysis using Bayes' Theorem.|Bayesian||95% Bayesian credible interval for the difference (TAVR-SAVR) was (-4.4%, 0.4%). The 95% credible interval is the 2.5th and 97.5th percentiles of the posterior distribution.|Primary Hypothesis: TAVR with the Medtronic TAVR system is non-inferior to SAVR for all-cause mortality or disabling stroke rate during a fixed follow-up of 24 months for the Randomized Controlled Trial||||
82455955|NCT00892775|164616120|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for measles 42-56 days after vaccination was concluded if the lower limit of the 95% confidence interval around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.64|||||TWO_SIDED|95.0|-2.29|1.76||||||||1.76|-2.29|
82455956|NCT00892775|164616120|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for mumps 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.74|||||TWO_SIDED|95.0|-6.14|5.58||||||||5.58|-6.14|
82455957|NCT00892775|164616120|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for rubella 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|-0.32|||||TWO_SIDED|95.0|-1.78|2.08||||||||2.08|-1.78|
82455958|NCT00892775|164616120|NON_INFERIORITY|Non-inferiority with respect to seroconversion rates for varicella 42-56 days after vaccination was concluded if the lower limit of the 95% CI around the difference in seroconversion rates between groups would be \[-10%\] or higher.|Difference in percentage|4.69|||||TWO_SIDED|95.0|0.72|10.34||||||||10.34|0.72|
82577966|NCT01401153|164865154|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been perfomed based on this measure||||||0.03|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.03
82649499|NCT01967888|165014627|SUPERIORITY||least square mean difference|-0.1178242||||0.161|TWO_SIDED|95.0|-0.287431|0.0517825|||t-test, 2 sided|||||0.0517825|-0.2874310|0.161
82455959|NCT00064792|164616135|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||The primary outcome variable will be the serum cholesterol/total sterol ratio.||||0.002
82455960|NCT00064792|164616136|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||||||0.22
82455961|NCT03160898|164616137|SUPERIORITY||least squares mean treatment difference|1.61|STANDARD_ERROR_OF_MEAN|1.003||0.1095|TWO_SIDED|95.0|-0.36|3.58|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||"The statistical null hypothesis was as follows: there was no assumed dose-response relationship in percent predicted SVC change from baseline to Week 12 among all three active doses and placebo, expressed as:~H0: -5 x µ placebo - 1 x µ 150 mg twice daily + 3 x µ 300 mg twice daily + 3 x µ 450 mg twice daily = 0 where µ was the mean of the efficacy endpoint for the designated group."||3.58|-0.36|0.1095
82455962|NCT03160898|164616137|SUPERIORITY||Least squares mean difference|1.49|STANDARD_ERROR_OF_MEAN|1.291||0.2501|TWO_SIDED|95.0|-1.05|4.03|||Mixed Models Analysis|||||4.03|-1.05|0.2501
82455963|NCT03160898|164616137|SUPERIORITY||Least squares mean difference|1.84|STANDARD_ERROR_OF_MEAN|1.29||0.1549|TWO_SIDED|95.0|-0.7|4.38|||Mixed Models Analysis|||||4.38|-0.7|0.1549
82455964|NCT03160898|164616137|SUPERIORITY||Least squares mean difference|1.88|STANDARD_ERROR_OF_MEAN|1.274||0.1417|TWO_SIDED|95.0|-0.63|4.38|||Mixed Models Analysis|||||4.38|-0.63|0.1417
82455965|NCT03160898|164616137|SUPERIORITY||Least squares mean difference|1.86|STANDARD_ERROR_OF_MEAN|1.115||0.0964|TWO_SIDED|95.0|-0.33|4.05|||Mixed Models Analysis|||||4.05|-0.33|0.0964
82649500|NCT01967888|165014628|SUPERIORITY||least square mean difference|0.0136||||0.846|TWO_SIDED|95.0|-0.0508|0.0781|||t-test, 2 sided|||||0.0781|-0.0508|0.846
82455966|NCT03160898|164616138|SUPERIORITY||Least squares mean difference|0.56|STANDARD_ERROR_OF_MEAN|0.335||0.093|TWO_SIDED|95.0|-0.09|1.22|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||||1.22|-0.09|0.0930
82455967|NCT03160898|164616138|SUPERIORITY||Least squares mean difference|1.13|STANDARD_ERROR_OF_MEAN|0.427||0.0087|TWO_SIDED|95.0|0.29|1.97|||Mixed Models Analysis|||||1.97|0.29|0.0087
82455968|NCT03160898|164616138|SUPERIORITY||Least squares mean difference|0.91|STANDARD_ERROR_OF_MEAN|0.43||0.0351|TWO_SIDED|95.0|0.06|1.75|||Mixed Models Analysis|||||1.75|0.06|0.0351
82455969|NCT03160898|164616138|SUPERIORITY||Least squares mean difference|0.59|STANDARD_ERROR_OF_MEAN|0.425||0.1642|TWO_SIDED|95.0|-0.24|1.43|||Mixed Models Analysis|||||1.43|-0.24|0.1642
82455970|NCT03160898|164616138|SUPERIORITY||Least squares mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.371||0.0435|TWO_SIDED|95.0|0.02|1.48|||Mixed Models Analysis|||||1.48|0.02|0.0435
82455971|NCT03160898|164616139|SUPERIORITY||Slope difference|0.0276|STANDARD_ERROR_OF_MEAN|0.02734||0.3134|TWO_SIDED|95.0|-0.0261|0.0813|||Mixed Models Analysis|Analyzed by an MMRM with contrast (-5, -1, 3, 3) to reflect the assumed relationship for the 4 groups: placebo, 150, 300, and 450 mg twice daily.||||0.0813|-0.0261|0.3134
82649501|NCT01967888|165014629|SUPERIORITY||least square mean difference|-0.025||||0.817|TWO_SIDED|95.0|-0.0939|0.0689|||t-test, 2 sided|||||0.0689|-0.0939|0.817
82649502|NCT01967888|165014630|SUPERIORITY||least square mean difference|-9.4641||||0.57|TWO_SIDED|95.0|-42.49|23.5618|||Mixed Models Analysis|||||23.5618|-42.4900|0.570
82649503|NCT01967888|165014631|SUPERIORITY||least square mean difference|-22.9454|||=|0.074|TWO_SIDED|95.0|-48.1826|2.2918|||Mixed Models Analysis|||||2.2918|-48.1826|=0.074
82649504|NCT01967888|165014632|SUPERIORITY||least square mean difference|-0.2074|||=|0.358|TWO_SIDED|95.0|-0.6538|0.2389|||Mixed Models Analysis|||||0.2389|-0.6538|=0.358
82649505|NCT01967888|165014633|SUPERIORITY||least square mean difference|-0.277|||=|0.288|TWO_SIDED|95.0|-0.7936|0.2396|||Mixed Models Analysis|||||0.2396|-0.7936|=0.288
82649506|NCT01967888|165014634|SUPERIORITY||least square mean difference|0.09716|||=|0.98|TWO_SIDED|95.0|-7.41834|7.61266|||Mixed Models Analysis|||||7.61266|-7.41834|=0.980
82649507|NCT01967888|165014635|SUPERIORITY||least square mean difference|1.07617|||=|0.785|TWO_SIDED|95.0|-6.76562|8.91796|||Mixed Models Analysis|||||8.91796|-6.76562|=0.785
82438078|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-66.99|||<|0.001|TWO_SIDED|95.0|-84.26|-49.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.72|-84.26|<0.001
82438079|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-67.47|||<|0.001|TWO_SIDED|95.0|-84.75|-50.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-50.19|-84.75|<0.001
82438080|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.76|||<|0.001|TWO_SIDED|95.0|-80.45|-45.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-45.07|-80.45|<0.001
82438081|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-8.53||||0.021|TWO_SIDED|95.0|-15.55|-1.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-1.50|-15.55|0.021
82438082|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.99||||0.337|TWO_SIDED|95.0|-12.05|4.07||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.07|-12.05|0.337
82438083|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.26||||0.204|TWO_SIDED|95.0|-13.28|2.76||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.76|-13.28|0.204
82438084|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-77.89|||<|0.001|TWO_SIDED|95.0|-92.29|-63.49||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-63.49|-92.29|<0.001
82438085|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.65|||<|0.001|TWO_SIDED|95.0|-86.71|-56.58||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.58|-86.71|<0.001
82455972|NCT03160898|164616139|SUPERIORITY||Least squares mean difference|0.0246||||0.4824|TWO_SIDED|95.0|-0.0442|0.0935|||Mixed Models Analysis|||||0.0935|-0.0442|0.4824
82649508|NCT01967888|165014636|SUPERIORITY|||||||0.176|||||||Wilcoxon (Mann-Whitney)|||||||0.176
82649509|NCT01967888|165014637|SUPERIORITY|||||||0.403|||||||Wilcoxon (Mann-Whitney)|||||||0.403
82455973|NCT03160898|164616139|SUPERIORITY||Least squares mean difference|0.0146||||0.6787|TWO_SIDED|95.0|-0.0544|0.0835|||Mixed Models Analysis|||||0.0835|-0.0544|0.6787
82455974|NCT03160898|164616139|SUPERIORITY||Least squares mean difference|0.0488||||0.1604|TWO_SIDED|95.0|-0.0194|0.1171|||Mixed Models Analysis|||||0.1171|-0.0194|0.1604
82649510|NCT01967888|165014638|SUPERIORITY||Treatment effect|2.1||||0.842|TWO_SIDED|95.0|-18.2|22.33|||Chi-squared|||||22.33|-18.20|0.842
82649511|NCT01967888|165014639|SUPERIORITY||Hazard Ratio (HR)|3.21||||0.339|TWO_SIDED|95.0|0.29|34.97|||Anderson-Gill model|||||34.97|0.29|0.339
82649512|NCT01967888|165014640|SUPERIORITY||Treatment effect|5.0||||0.64|TWO_SIDED|95.0|-15.91|25.93|||Chi-squared|||||25.93|-15.91|0.640
82649513|NCT01967888|165014646|SUPERIORITY|||||||0.448|||||||Wilcoxon rank-sum test|||||||0.448
82649514|NCT01967888|165014647|SUPERIORITY|||||||0.91|||||||Wilcoxon rank-sum test|||||||0.910
82649515|NCT01967888|165014648|SUPERIORITY|||||||1|||||||Wilcoxon rank-sum test|||||||1.000
82649516|NCT01967888|165014653|SUPERIORITY||least square mean difference|31.3491|||=|0.5018|TWO_SIDED|95.0|-60.998|123.7|||Mixed Models Analysis|||||123.70|-60.9980|=0.5018
82649517|NCT01967888|165014654|SUPERIORITY||Least square mean difference|23.5454|||=|0.4537|TWO_SIDED|95.0|-38.6619|85.7528|||Mixed Models Analysis|||||85.7528|-38.6619|=0.4537
82649518|NCT03175120|165014667|SUPERIORITY||Treatment contrast|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.09|-0.75|||ANCOVA|||The response and change from baseline in response after 26 weeks are analysed using an analysis of covariance (ANCOVA) model with treatment and previous anti-diabetic treatment as fixed factors and corresponding baseline value as covariate.||-0.75|-1.09|<.0001
82649519|NCT01614509|165014731|NON_INFERIORITY_OR_EQUIVALENCE|Central retinal thickness was measured using an optical coherence tomography by every visit intended for all participants.||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||Central retinal thickness was measured using an optical coherence tomography by every visit. And we compare the difference of central retinal thickness between two groups||||0.60
82455975|NCT03160898|164616139|SUPERIORITY||Least squares mean difference|0.0317||||0.2966|TWO_SIDED|95.0|-0.0279|0.0913|||Mixed Models Analysis|||||0.0913|-0.0279|0.2966
82455976|NCT00291486|164616203|SUPERIORITY|||||||0.144|||||||t-test, 1 sided|||Comparison of CL between initial infusion and therapy infusion||||0.144
82455977|NCT00291486|164616204|SUPERIORITY|||||||0.361|||||||ANOVA|||||||0.361
82455978|NCT03421106|164616235|SUPERIORITY||Mean Difference (Net)|2.53||||0.23|TWO_SIDED||||||Mixed Models Analysis|||||||0.23
82438086|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-72.87|||<|0.001|TWO_SIDED|95.0|-88.06|-57.68||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-57.68|-88.06|<0.001
82438087|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-67.2|||<|0.001|TWO_SIDED|95.0|-82.87|-51.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-51.52|-82.87|<0.001
82438088|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-10.71||||0.007|TWO_SIDED|95.0|-18.2|-3.21||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-3.21|-18.20|0.007
82438089|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.99||||0.385|TWO_SIDED|95.0|-12.86|4.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.88|-12.86|0.385
82438090|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.29||||0.162|TWO_SIDED|95.0|-14.97|2.4||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.40|-14.97|0.162
82438091|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-76.81|||<|0.001|TWO_SIDED|95.0|-91.35|-62.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-62.27|-91.35|<0.001
82438092|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-70.6|||<|0.001|TWO_SIDED|95.0|-85.79|-55.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-55.41|-85.79|<0.001
82438093|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.66|||<|0.001|TWO_SIDED|95.0|-87.0|-56.31||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.31|-87.00|<0.001
82438094|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-65.19|||<|0.001|TWO_SIDED|95.0|-81.03|-49.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.34|-81.03|<0.001
82455979|NCT01025830|164616245|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|1.1||||||90.0|0.87|1.38||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||1.38|0.87|
82490270|NCT02663908|164673479|OTHER||Hazard Ratio (HR)|0.899||||0.8966|TWO_SIDED|95.0|0.181|4.457|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||4.457|0.181|0.8966
82490271|NCT02663908|164673480|OTHER||Hazard Ratio (HR)|0.48||||0.3857|TWO_SIDED|95.0|0.088|2.62|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.620|0.088|0.3857
82490272|NCT02663908|164673481|OTHER||Hazard Ratio (HR)|0.839||||0.718|TWO_SIDED|95.0|0.324|2.176|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||2.176|0.324|0.7180
82649520|NCT00323609|165014742|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||Fisher Exact|||||||0.214
82438095|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.7||||0.007|TWO_SIDED|95.0|-19.86|-3.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-3.55|-19.86|0.007
82438096|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.94||||0.31|TWO_SIDED|95.0|-14.34|4.46||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.46|-14.34|0.310
82438097|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-7.36||||0.126|TWO_SIDED|95.0|-16.63|1.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||4 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.90|-16.63|0.126
82455980|NCT01025830|164616245|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|1.1||||||90.0|0.95|1.31||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||1.31|0.95|
82455981|NCT01025830|164616245|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was defined as a 90% Confidence Interval of the geometric mean ratio between 0.8 and 1.25. Differences between treatments with respect to the outcome and intra- and inter-subject variances were assessed using the mixed effects model. Bootstrapped random errors were used.|Geometric Mean Ratio|0.8||||||90.0|0.65|0.99||p value not required for this analysis. What counts is the 90% confidence interval of the geometric mean ratio between the two formulation parameters.|Non-compartmental model|Mixed random effects model was used to assess difference between treatments and intra- and inter-subject variances.|the generic is the numerator while the brand is the denominator|The null hypothesis was that there is a difference in the relative bioavailability of Triomune and brand-name stavudine/lamivudine/nevirapine in HIV-infected Africans. 18 participants were required to provide 80% power to detect approximately a 20% difference on a log scale in AUC0-12h between the brand formulation and the generic formulation. Alpha level of 0.05.||0.99|0.65|
82455982|NCT01025830|164616246|NON_INFERIORITY_OR_EQUIVALENCE|same as for AUC|Geometric Mean Ratio|1.3||||||90.0|0.99|1.71||same as for AUC|Non-compartmental model|same as for AUC|same as AUC|Same as for AUC||1.71|0.99|
82455983|NCT01025830|164616246|NON_INFERIORITY_OR_EQUIVALENCE|same for all three drugs.|Geometric Mean Ratio|1.1||||||90.0|0.95|1.23||Same for all three drugs.|Non-compartmental model|Same for all three drugs.|Same for all three drugs.|Same for all three drugs.||1.23|0.95|
82455984|NCT01025830|164616246|NON_INFERIORITY_OR_EQUIVALENCE|Same for all three drugs.|Geometric Mean Ratio|0.8||||||90.0|0.63|0.98||Same for all three drugs.|Non-compartmental model|Same for all three drugs.|Same for all three drugs.|Same for all three drugs.||0.98|0.63|
82455985|NCT01657292|164616249|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||1-sided, significance level = 0.025|Binomial test|||"All patients received both treatments and treatments were intra-individually compared.~Hypotheses tested: H0: s0 ≤0.5 and H1: s0 \>0.5 (with s0=rate of superiority of Oleogel-S10)."||||<0.0001
82455986|NCT03678311|164616270|OTHER|The correlation between the outcome and AHI was tested by Spearman's correlation.|Spearman's correlation|0.13||||0.73|TWO_SIDED|95.0|-0.75|1.0|||Spearman's correlation|||Spearman's correlation was used to evaluate the relationship between the outcome and the apnea hypopnea index.||1.00|-0.75|0.73
82455987|NCT01454791|164616302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
82455988|NCT01454791|164616303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.6059|TWO_SIDED||||||t-test, 2 sided||not significant|||||0.6059
82455989|NCT01454791|164616304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.705|TWO_SIDED||||||t-test, 2 sided||not significant|||||0.705
82455990|NCT01045967|164616346|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.0|||||TWO_SIDED|90.0|90.7|122.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||122|90.7|
82490273|NCT02663908|164673483|OTHER||Hazard Ratio (HR)|0.887||||0.6701|TWO_SIDED|95.0|0.512|1.539|||Log Rank|The p-value of the log-rank test is based on comparison of the treatment groups stratified for age group and region.|Baseline hazards for the Cox regression were stratified over variables: age group and region.|||1.539|0.512|0.6701
82490274|NCT02663908|164673484|OTHER||Treatment Difference|-0.907||||0.1193|TWO_SIDED|95.0|-2.048|0.235|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS Total at Day 168||0.235|-2.048|0.1193
82490275|NCT02663908|164673484|OTHER||Treatment Difference|-0.213||||0.108|TWO_SIDED|95.0|-0.473|0.047|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS, QoL at Day 168||0.047|-0.473|0.1080
82649521|NCT00323609|165014743|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 7 days.||||0.430
82438098|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-75.64|||<|0.001|TWO_SIDED|95.0|-90.35|-60.93||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-60.93|-90.35|<0.001
82438099|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-66.43|||<|0.001|TWO_SIDED|95.0|-81.99|-50.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-50.88|-81.99|<0.001
82455991|NCT01045967|164616347|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.2|||||TWO_SIDED|90.0|86.1|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|86.1|
82455992|NCT01045967|164616348|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.4|||||TWO_SIDED|90.0|86.3|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|86.3|
82455993|NCT05104450|164616349|SUPERIORITY||Mean Difference (Net)|0.64||||0.001|TWO_SIDED|95.0|0.25|1.04|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||1.04|0.25|0.001
82455994|NCT05104450|164616350|SUPERIORITY||Mean Difference (Net)|-1.06||||0.037|TWO_SIDED|95.0|-2.05|-0.06|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.06|-2.05|0.037
82455995|NCT05104450|164616351|SUPERIORITY||Mean Difference (Net)|0.37||||0.135|TWO_SIDED|95.0|-0.12|0.86|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.86|-0.12|0.135
82455996|NCT05104450|164616352|SUPERIORITY||Mean Difference (Net)|-0.97||||0.068|TWO_SIDED|95.0|-2.01|0.07|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.07|-2.01|0.068
82455997|NCT05104450|164616353|SUPERIORITY||Mean Difference (Net)|-2.71|||<|0.001|TWO_SIDED|95.0|-3.83|-1.6|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-1.60|-3.83|<0.001
82540895|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.1244|ONE_SIDED|95.0|-0.04||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.04|0.1244
82540896|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.53|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.5300
82540897|NCT00430300|164781494|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.055|ONE_SIDED|95.0|0.0||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.00|0.0550
82649522|NCT00323609|165014743|SUPERIORITY_OR_OTHER|||||||0.655||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days.||||0.655
82540898|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.7444|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.7444
82577967|NCT01401153|164865155|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.25|||||||Generalized linear models|The fixed statement considered treatment, test day and the interaction between treatment and test day||||||0.25
82577968|NCT01401153|164865156|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.7|||||||Generalized linear models|||||||0.70
82577969|NCT01401153|164865157|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.33|||||||Generalized linear models|||||||0.33
82649523|NCT00323609|165014743|SUPERIORITY_OR_OTHER|||||||0.756||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.756
82438100|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-69.33|||<|0.001|TWO_SIDED|95.0|-84.96|-53.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-53.71|-84.96|<0.001
82438101|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-65.19|||<|0.001|TWO_SIDED|95.0|-81.03|-49.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-49.34|-81.03|<0.001
82438102|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-10.61||||0.016|TWO_SIDED|95.0|-19.02|-2.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-2.19|-19.02|0.016
82438103|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-0.69||||0.895|TWO_SIDED|95.0|-10.69|9.32||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.32|-10.69|0.895
82438104|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.09||||0.308|TWO_SIDED|95.0|-14.8|4.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||5 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.62|-14.80|0.308
82438105|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-71.36|||<|0.001|TWO_SIDED|95.0|-86.58|-56.13||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-56.13|-86.58|<0.001
82438106|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.11|||<|0.001|TWO_SIDED|95.0|-78.04|-46.19||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.19|-78.04|<0.001
82438107|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-64.57|||<|0.001|TWO_SIDED|95.0|-80.64|-48.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-48.50|-80.64|<0.001
82438108|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-59.84|||<|0.001|TWO_SIDED|95.0|-76.12|-43.55||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-43.55|-76.12|<0.001
82540899|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.9134|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.9134
82540900|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.06||0.6841|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.6841
82577970|NCT01401153|164865158|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.63|||||||Generalized linear models|||||||0.63
82577971|NCT01401153|164865159|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.62|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.62
82649524|NCT00323609|165014743|SUPERIORITY_OR_OTHER|||||||0.503||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.503
82649525|NCT00323609|165014743|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.837
82455998|NCT05104450|164616354|SUPERIORITY||Mean Difference (Net)|0.87||||0.401|TWO_SIDED|95.0|-1.16|2.89|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, Charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.89|-1.16|0.401
82649526|NCT00323609|165014744|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days||||0.785
82438109|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.49||||0.028|TWO_SIDED|95.0|-21.63|-1.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-1.35|-21.63|0.028
82438110|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-1.88||||0.747|TWO_SIDED|95.0|-13.15|9.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.38|-13.15|0.747
82438111|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-5.88||||0.303|TWO_SIDED|95.0|-16.88|5.12||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||6 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.12|-16.88|0.303
82438112|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-62.49|||<|0.001|TWO_SIDED|95.0|-78.64|-46.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-46.34|-78.64|<0.001
82438113|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-60.09|||<|0.001|TWO_SIDED|95.0|-76.15|-44.02||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-44.02|-76.15|<0.001
82438114|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-63.45|||<|0.001|TWO_SIDED|95.0|-79.64|-47.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-47.27|-79.64|<0.001
82438115|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-53.41|||<|0.001|TWO_SIDED|95.0|-70.1|-36.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-36.72|-70.10|<0.001
82438116|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-9.14||||0.137|TWO_SIDED|95.0|-21.18|2.9||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.90|-21.18|0.137
82438117|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.34||||0.311|TWO_SIDED|95.0|-18.39|5.71||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||5.71|-18.39|0.311
82438118|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-11.23||||0.067|TWO_SIDED|95.0|-22.97|0.52||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||7 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||0.52|-22.97|0.067
82438119|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-51.54|||<|0.001|TWO_SIDED|95.0|-68.42|-34.66||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-34.66|-68.42|<0.001
82577972|NCT01401153|164865160|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.11|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.11
82649527|NCT00323609|165014744|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.393
82649528|NCT00323609|165014744|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months||||0.875
82438120|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-57.01|||<|0.001|TWO_SIDED|95.0|-73.27|-40.76||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-40.76|-73.27|<0.001
82438121|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-53.21|||<|0.001|TWO_SIDED|95.0|-70.16|-36.26||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-36.26|-70.16|<0.001
82438122|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-47.82|||<|0.001|TWO_SIDED|95.0|-64.81|-30.83||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-30.83|-64.81|<0.001
82438123|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-3.52||||0.604|TWO_SIDED|95.0|-16.89|9.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.85|-16.89|0.604
82438124|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-8.78||||0.184|TWO_SIDED|95.0|-21.5|3.94||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||3.94|-21.50|0.184
82438125|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-6.43||||0.34|TWO_SIDED|95.0|-19.56|6.7||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||8 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||6.70|-19.56|0.340
82438126|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-40.27|||<|0.001|TWO_SIDED|95.0|-57.67|-22.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-22.88|-57.67|<0.001
82438127|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-47.24|||<|0.001|TWO_SIDED|95.0|-64.21|-30.27||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-30.27|-64.21|<0.001
82438128|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-43.15|||<|0.001|TWO_SIDED|95.0|-60.57|-25.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-25.72|-60.57|<0.001
82455999|NCT05104450|164616355|SUPERIORITY||Mean Difference (Net)|-0.51||||0.034|TWO_SIDED|95.0|-0.98|-0.04|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.04|-0.98|0.034
82456000|NCT05104450|164616356|SUPERIORITY||Mean Difference (Final Values)|-3.11||||0.061|TWO_SIDED|95.0|-6.37|0.15|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.15|-6.37|0.061
82438129|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-44.45|||<|0.001|TWO_SIDED|95.0|-61.55|-27.34||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-27.34|-61.55|<0.001
82438130|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|4.29||||0.548|TWO_SIDED|95.0|-9.8|18.38||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.38|-9.80|0.548
82490276|NCT02663908|164673484|OTHER||Treatment Difference|-0.916||||0.1256|TWO_SIDED|95.0|-2.089|0.257|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS Total at Day 336||0.257|-2.089|0.1256
82456001|NCT05104450|164616357|SUPERIORITY||Mean Difference (Net)|-0.46||||0.469|TWO_SIDED|95.0|-1.69|0.78|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.78|-1.69|0.469
82577973|NCT01401153|164865161|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.45|||||||t-test, 2 sided|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.45
82649529|NCT00323609|165014744|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.833
82649530|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.18||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 30 days.||||0.180
82438131|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.51||||0.721|TWO_SIDED|95.0|-16.2|11.18||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.18|-16.20|0.721
82438132|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.44||||0.951|TWO_SIDED|95.0|-13.47|14.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||9 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.35|-13.47|0.951
82438133|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-29.13||||0.005|TWO_SIDED|95.0|-46.66|-11.59||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-11.59|-46.66|0.005
82438134|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-34.3||||0.001|TWO_SIDED|95.0|-51.62|-16.97||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-16.97|-51.62|0.001
82438135|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-36.26|||<|0.001|TWO_SIDED|95.0|-53.8|-18.73||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-18.73|-53.80|<0.001
82438136|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-34.56|||<|0.001|TWO_SIDED|95.0|-51.77|-17.35||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-17.35|-51.77|<0.001
82438137|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|5.45||||0.455|TWO_SIDED|95.0|-8.89|19.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.79|-8.89|0.455
82438138|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.43||||0.953|TWO_SIDED|95.0|-13.8|14.65||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.65|-13.80|0.953
82438139|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-2.48||||0.731|TWO_SIDED|95.0|-16.63|11.66||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||10 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.66|-16.63|0.731
82490277|NCT02663908|164673484|OTHER||Treatment Difference|-0.047||||0.7261|TWO_SIDED|95.0|-0.312|0.218|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||IPSS, QoL at Day 336||0.218|-0.312|0.7261
82577974|NCT01401153|164865162|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.13
82649531|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.822||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 3 months||||0.822
82649532|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.291||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 12 months||||0.291
82649533|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.996||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 PCS result at 24 months||||0.996
82438140|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-22.63||||0.024|TWO_SIDED|95.0|-39.97|-5.29||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-5.29|-39.97|0.024
82438141|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-26.87||||0.009|TWO_SIDED|95.0|-44.12|-9.62||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-9.62|-44.12|0.009
82577975|NCT01401153|164865163|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.68|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.68
82577976|NCT01401153|164865164|NON_INFERIORITY_OR_EQUIVALENCE|No power calculation had been performed based on this measure||||||0.67|||||||Wilcoxon (Mann-Whitney)|Individual differences of both test days compared on group level (having lunch/skipping lunch vs. skipping lunch/having lunch)||||||0.67
82438142|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-30.76||||0.003|TWO_SIDED|95.0|-48.36|-13.16||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-13.16|-48.36|0.003
82438143|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-27.26||||0.007|TWO_SIDED|95.0|-44.51|-10.0||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-10.00|-44.51|0.007
82438144|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|4.66||||0.516|TWO_SIDED|95.0|-9.5|18.82||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.82|-9.50|0.516
82438145|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|0.55||||0.939|TWO_SIDED|95.0|-13.63|14.72||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||14.72|-13.63|0.939
82438146|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.53||||0.536|TWO_SIDED|95.0|-18.86|9.8||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||11 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.80|-18.86|0.536
82456002|NCT05104450|164616358|SUPERIORITY||Mean Difference (Net)|0.78|||<|0.001|TWO_SIDED|95.0|0.42|1.13|||Mixed Models Analysis|treatment-by-time interaction||Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|1.13|0.42|<0.001
82438147|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-15.81||||0.107|TWO_SIDED|95.0|-33.02|1.41||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||1.41|-33.02|0.107
82438148|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-23.71||||0.019|TWO_SIDED|95.0|-40.91|-6.51||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-6.51|-40.91|0.019
82490278|NCT02663908|164673488|OTHER||Treatment difference|-0.002||||0.911|TWO_SIDED|95.0|-0.036|0.032|||ANCOVA|Compared using an ANCOVA model, where the QALY is the dependent variable and adjusted for treatment group, age group and region, respectively.||||0.032|-0.036|0.9110
82438149|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-28.44||||0.006|TWO_SIDED|95.0|-45.99|-10.88||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-10.88|-45.99|0.006
82438150|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-25.04||||0.012|TWO_SIDED|95.0|-42.23|-7.85||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 400 mg - placebo) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||-7.85|-42.23|0.012
82438151|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|9.16||||0.195|TWO_SIDED|95.0|-4.75|23.08||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 200 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||23.08|-4.75|0.195
82438152|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|1.48||||0.835|TWO_SIDED|95.0|-12.54|15.5||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 250 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.50|-12.54|0.835
82438153|NCT01559259|164583780|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportion|-4.41||||0.542|TWO_SIDED|95.0|-18.61|9.79||p-value was calculated using CMH test which was adjusted for baseline PSR and gender terms. Statistical testing was done at 5% significance level.|Cochran-Mantel-Haenszel|||12 hours: Treatment difference (Ibuprofen 300 mg + Acetaminophen 500 mg - Ibuprofen 400 mg) and corresponding 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.79|-18.61|0.542
82438154|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.79|1.01||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||1.01|0.79|<0.001
82438155|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.83|||<|0.001|TWO_SIDED|95.0|0.79|1.01||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||1.01|0.79|< 0.001
82438156|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.86|||<|0.001|TWO_SIDED|95.0|0.73|0.99||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.99|0.73|< 0.001
82456003|NCT05104450|164616359|SUPERIORITY||Mean Difference (Net)|0.47||||0.031|TWO_SIDED|95.0|0.04|0.89|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.89|0.04|0.031
82438157|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.65|0.95||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.95|0.65|< 0.001
82438158|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15||||0.174|TWO_SIDED|95.0|-0.07|0.37||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.37|-0.07|0.174
82438159|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.722|TWO_SIDED|95.0|-0.18|0.26||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.26|-0.18|0.722
82438160|NCT01559259|164583781|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.365|TWO_SIDED|95.0|-0.32|0.11||p-value was calculated using CMH test with modified ridit scores, controlling for baseline PSR and gender terms. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||Treatment difference and its associated 95% CI were calculated based on the weighted Gamma statistic.||0.11|-0.32|0.365
82438161|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|-0.9|||||TWO_SIDED|96.0|-2.8|1.1|||||V116 minus PCV20|Injection site erythema: estimated difference in percent||1.1|-2.8|
82438162|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|-12.2|||||TWO_SIDED|95.0|-16.2|-8.2|||||V116 minus PCV20|Injection site pain: estimated difference in percent||-8.2|-16.2|
82438163|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|-2.3|||||TWO_SIDED|95.0|-4.4|-0.2|||||V116 minus PCV20|Injection site swelling: estimated difference in percent||-0.2|-4.4|
82438164|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-6.6|10.3|||||V116 minus PCV20|Injection site erythema: estimated difference in percent||10.3|-6.6|
82438165|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|-2.5|||||TWO_SIDED|95.0|-12.7|8.6|||||V116 minus PCV20|Injection site pain: estimated difference in percent||8.6|-12.7|
82438166|NCT05425732|164583784|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.0|||||TWO_SIDED|95.0|-9.2|7.9|||||V116 minus PCV20|Injection site swelling: estimated difference in percent||7.9|-9.2|
82438167|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.6|||||TWO_SIDED|95.0|-2.7|3.8|||||V116 minus PCV20|Fatigue: estimated difference in percent||3.8|-2.7|
82438168|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|-1.5|||||TWO_SIDED|95.0|-4.1|1.2|||||V116 minus PCV20|Headache: estimated difference in percent||1.2|-4.1|
82438169|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|-0.8|||||TWO_SIDED|96.0|-2.8|1.2|||||V116 minus PCV20|Myalgia: estimated difference in percent||1.2|-2.8|
82540901|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.9283|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.9283
82649534|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 30 days||||0.983
82438170|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||||V116 minus PCV20|Pyrexia: estimated difference in percent||1.0|-1.0|
82438171|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|6.5|||||TWO_SIDED|95.0|-5.3|17.6|||||V116 minus PCV20|Fatigue: estimated difference in percent||17.6|-5.3|
82438172|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|5.5|||||TWO_SIDED|5.0|-5.5|15.5|||||V116 minus PCV20|Headache: estimated difference in percent||15.5|-5.5|
82438173|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-6.8|10.6|||||V116 minus PCV20|Myalgia: estimated difference in percent||10.6|-6.8|
82438174|NCT05425732|164583785|OTHER|Miettinen \& Nurminen method|Difference in Percent|2.5|||||TWO_SIDED|95.0|-2.2|6.2|||||V116 minus PCV20|Pyrexia: estimated difference in percent||6.2|-2.2|
82438175|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.4|1.72||1-sided|cLDA model||V116/PCV20|Serotype 3: V116/PCV20 GMT Ratio||1.72|1.40|<0.001
82438176|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.77|||<|0.001|TWO_SIDED|95.0|0.68|0.88|||cLDA model||V116/PCV20|Serotype 6A: V116/PCV20 GMT Ratio||0.88|0.68|<0.001
82438177|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.95|1.18|||cLDA model||V116/PCV20|Serotype 7F: V116/PCV20 GMT Ratio||1.18|0.95|<0.001
82540902|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.07||0.2991|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.2991
82438178|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.38|||<|0.001|TWO_SIDED|95.0|1.25|1.53|||cLDA model||V116/PCV20|Serotype 8: V116/PCV20 GMT Ratio||1.53|1.25|<0.001
82438179|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.83|||<|0.001|TWO_SIDED|95.0|0.75|0.93|||cLDA model||V116/PCV20|Serotype 10A: V116/PCV20 GMT Ratio||0.93|0.75|<0.001
82438180|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.39|1.72|||cLDA model||V116/PCV20|Serotype 11A: V116/PCV20 GMT Ratio||1.72|1.39|<0.001
82438181|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.06|||<|0.001|TWO_SIDED|95.0|0.92|1.21|||cLDA model||V116/PCV20|Serotype 12F: V116/PCV20 GMT Ratio||1.21|0.92|<0.001
82438182|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.69|0.84|||cLDA model||V116/PCV20|Serotype 19A: V116/PCV20 GMT Ratio||0.84|0.69|<0.001
82438183|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.72|0.92|||cLDA model||V116/PCV20|Serotype 22F: V116/PCV20 GMT Ratio||0.92|0.72|<0.001
82438184|NCT05425732|164583787|NON_INFERIORITY|A conclusion of non-inferiority is based on the lower bound of the 95% CI for the estimated GMT Ratio (V116/PCV20) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.15|||<|0.001|TWO_SIDED|95.0|1.01|1.32|||cLDA model||V116/PCV20|Serotype 33F: V116/PCV20 GMT Ratio||1.32|1.01|<0.001
82438185|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|4.55|||<|0.001|TWO_SIDED|95.0|4.12|5.04|||cLDA model||V116/PCV20|Serotype 9N: V116/PCV20 GMT Ratio||5.04|4.12|<0.001
82438186|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|3.3|||<|0.001|TWO_SIDED|95.0|2.91|3.74|||cLDA model||V116/PCV20|Serotype 15A: V116/PCV20 GMT Ratio||3.74|2.91|<0.001
82438187|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|2.03|||<|0.001|TWO_SIDED|95.0|1.77|2.34|||cLDA model||V116/PCV20|Serotype 15C: V116/PCV20 GMT Ratio||2.34|1.77|<0.001
82438188|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|5.75|||<|0.001|TWO_SIDED|95.0|5.16|6.41|||cLDA model||V116/PCV20|Serotype 16F: V116/PCV20 GMT Ratio||6.41|5.16|<0.001
82540903|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.06||0.7403|ONE_SIDED|95.0|-0.15||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.15|0.7403
82649535|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 3 months||||0.576
82649536|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 12 months||||0.393
82649537|NCT00323609|165014745|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis of SF-36 MCS result at 24 months||||0.722
82456004|NCT05104450|164616360|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.118|TWO_SIDED|95.0|-0.21|0.02|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.02|-0.21|0.118
82456005|NCT05104450|164616361|SUPERIORITY||Mean Difference (Net)|3.93||||0.011|TWO_SIDED|95.0|0.91|6.95|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||6.95|0.91|0.011
82540904|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.3499|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.3499
82540905|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.08||0.2734|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.2734
82540906|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.5806|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.5806
82540907|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.11||0.054|ONE_SIDED|95.0|0.0||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.00|0.0540
82540908|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.2616|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.2616
82540909|NCT00430300|164781495|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.09||0.0724|ONE_SIDED|95.0|-0.02||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.02|0.0724
82540910|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.1||0.9362|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.9362
82540911|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.9469|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.9469
82438189|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|16.86|||<|0.001|TWO_SIDED|95.0|14.9|19.09|||cLDA model||V116/PCV20|Serotype 17F: V116/PCV20 GMT Ratio||19.09|14.90|<0.001
82540912|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.09||0.9153|ONE_SIDED|95.0|-0.27||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.27|0.9153
82540913|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.9686|ONE_SIDED|95.0|-0.36||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.36|0.9686
82540914|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1548|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1548
82649538|NCT00323609|165014746|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 30 days.||||0.318
82649539|NCT00323609|165014746|SUPERIORITY_OR_OTHER|||||||0.523||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.523
82438190|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|9.66|||<|0.001|TWO_SIDED|95.0|8.66|10.79|||cLDA model||V116/PCV20|Serotype 20A: V116/PCV20 GMT Ratio||10.79|8.66|<0.001
82438191|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|8.1|||<|0.001|TWO_SIDED|95.0|6.86|9.55|||cLDA model||V116/PCV20|Serotype 23A: V116/PCV20 GMT Ratio||9.55|6.86|<0.001
82438192|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|10.09|||<|0.001|TWO_SIDED|95.0|8.48|12.0|||cLDA model||V116/PCV20|Serotype 23B: V116/PCV20 GMT Ratio||12.00|8.48|<0.001
82649540|NCT00323609|165014746|SUPERIORITY_OR_OTHER|||||||0.634||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.634
82540915|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.09||0.7973|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.7973
82540916|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.11||0.6348|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.6348
82540917|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.5742|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.5742
82540918|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6719|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.6719
82649541|NCT00323609|165014746|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.457
82438193|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|38.71|||<|0.001|TWO_SIDED|95.0|33.87|44.25|||cLDA model||V116/PCV20|Serotype 24F: V116/PCV20 GMT Ratio||44.25|33.87|<0.001
82438194|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|21.69|||<|0.001|TWO_SIDED|95.0|18.68|25.18|||cLDA model||V116/PCV20|Serotype 31: V116/PCV20 GMT Ratio||25.18|18.68|<0.001
82438195|NCT05425732|164583787|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the estimated GMT ratio (V116/PCV20) being \> 2.0 (one-sided p-value \< 0.025).|GMT Ratio|6.17|||<|0.001|TWO_SIDED|95.0|5.59|6.8|||cLDA model||V116/PCV20|Serotype 35B: V116/PCV20 GMT Ratio||6.80|5.59|<0.001
82438196|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|44.7|||<|0.001|TWO_SIDED|95.0|40.7|48.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 9N: V116-PCV20 Percentage Difference||48.6|40.7|<0.001
82438197|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|30.9|||<|0.001|TWO_SIDED|95.0|25.8|35.8||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 15A: V116-PCV20 Percentage Difference||35.8|25.8|<0.001
82438198|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|9.2|||<|0.001|TWO_SIDED|95.0|5.6|12.9||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 15C: V116-PCV20 Percentage Difference||12.9|5.6|<0.001
82438199|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|51.1|||<|0.001|TWO_SIDED|95.0|47.1|54.9||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 16F: V116-PCV20 Percentage Difference||54.9|47.1|<0.001
82438200|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|66.3|||<|0.001|TWO_SIDED|95.0|62.8|69.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 17F: V116-PCV20 Percentage Difference||69.6|62.8|<0.001
82438201|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|57.7|||<|0.001|TWO_SIDED|95.0|54.2|61.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 20A: V116-PCV20 Percentage Difference||61.1|54.2|<0.001
82438202|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|42.2|||<|0.001|TWO_SIDED|95.0|37.6|46.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 23A: V116-PCV20 Percentage Difference||46.6|37.6|<0.001
82438203|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|35.9|||<|0.001|TWO_SIDED|95.0|32.1|39.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 23B: V116-PCV20 Percentage Difference||39.6|32.1|<0.001
82438204|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|74.2|||<|0.001|TWO_SIDED|95.0|71.1|77.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype24F: V116-PCV20 Percentage Difference||77.1|71.1|<0.001
82438205|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|58.6|||<|0.001|TWO_SIDED|95.0|54.8|62.1||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype 31: V116-PCV20 Percentage Difference||62.1|54.8|<0.001
82577977|NCT02992691|164865204|OTHER||Mean Difference (Net)|-0.01||||0.6674|TWO_SIDED|95.0|-0.06|0.04||From ANCOVA analysis for change from pre-brushing with treatment and period as fixed effect, participant as random effect, participant-level baseline and period level minus participant-level baseline as covariates.|ANCOVA|||This comparison was tested under a null hypothesis of no difference against alternative hypothesis of a difference between treatments||0.04|-0.06|0.6674
82577978|NCT00588692|164865207|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For 25-49% Ejection Fraction Subgroup||||<0.05
82577979|NCT00588692|164865207|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||35-49% Ejection Fraction Subgroup||||<0.05
82438206|NCT05425732|164583788|SUPERIORITY|A conclusion of superiority is based on the lower bound of the 95% CI for the difference \[V116 - PCV20\] between the percentages of participants with a ≥4-fold rise from baseline being \>10 percentage points (one-sided p-value \< 0.025).|Percent Difference|53.2|||<|0.001|TWO_SIDED|95.0|49.6|56.6||1-sided|Stratified Miettinen & Nurminen||V116 minus PCV20|Serotype35B: V116-PCV20 Percentage Difference||56.6|49.6|<0.001
82438207|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.09|||<|0.001|TWO_SIDED|95.0|0.9|1.33||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 3: V116 18-49 years/V116 50-64 years GMT Ratio||1.33|0.90|<0.001
82456006|NCT05104450|164616362|SUPERIORITY||Mean Difference (Net)|0.44||||0.074|TWO_SIDED|95.0|-0.04|0.93|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.93|-0.04|0.074
82456007|NCT05104450|164616363|SUPERIORITY||Mean Difference (Net)|-1.71||||0.003|TWO_SIDED|95.0|-2.82|-0.59|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-0.59|-2.82|0.003
82456008|NCT05104450|164616364|SUPERIORITY||Mean Difference (Net)|-0.7||||0.229|TWO_SIDED|95.0|-1.84|0.44|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.44|-1.84|0.229
82456009|NCT05104450|164616365|SUPERIORITY||Mean Difference (Net)|-2.51|||<|0.001|TWO_SIDED|95.0|-3.72|-1.29|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||-1.29|-3.72|<0.001
82456010|NCT05104450|164616366|SUPERIORITY||Mean Difference (Net)|-1.02||||0.116|TWO_SIDED|95.0|-2.3|0.25|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.25|-2.30|0.116
82490279|NCT02663908|164673489|OTHER||Treatment Difference|-1.57||||0.0936|TWO_SIDED|95.0|-3.41|0.27|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||DASI at Day 168||0.27|-3.41|0.0936
82490280|NCT02663908|164673489|OTHER||Treatment Difference|0.84||||0.4|TWO_SIDED|95.0|-1.11|2.78|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||DASI at Day 336||2.78|-1.11|0.4000
82577980|NCT00588692|164865209|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||||||0.06
82577981|NCT00588692|164865210|SUPERIORITY_OR_OTHER|||||||0.5|||||||ANOVA|||||||0.5
82577982|NCT00588692|164865210|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82577983|NCT00588692|164865210|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82577984|NCT00588692|164865211|SUPERIORITY_OR_OTHER|||||||0.26|||||||ANOVA|||||||0.26
82577985|NCT00588692|164865211|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82438208|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.06|||<|0.001|TWO_SIDED|95.0|1.61|2.62||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 6A: V116 18-49 years/V116 50-64 years GMT Ratio||2.62|1.61|<0.001
82438209|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.51|||<|0.001|TWO_SIDED|5.0|1.23|1.84||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 7F: V116 18-49 years/V116 50-64 years GMT Ratio||1.84|1.23|<0.001
82456011|NCT05104450|164616367|SUPERIORITY||Mean Difference (Net)|0.05||||0.968|TWO_SIDED|95.0|-2.35|2.45|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.45|-2.35|0.968
82490281|NCT02663908|164673490|OTHER||Treatment Difference|0.045||||0.2535|TWO_SIDED|95.0|-0.032|0.122|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ Global Score at Day 168||0.122|-0.032|0.2535
82577986|NCT00588692|164865211|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82438210|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.5|||<|0.001|TWO_SIDED|95.0|1.26|1.79||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 8: V116 18-49 years/V116 50-64 years GMT Ratio||1.79|1.26|<0.001
82438211|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.97|||<|0.001|TWO_SIDED|95.0|1.59|2.43||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 9N: V116 18-49 years/V116 50-64 years GMT Ratio||2.43|1.59|<0.001
82438212|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.92||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 10A: V116 18-49 years/V116 50-64 years GMT Ratio||1.92|1.26|<0.001
82438213|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.91||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 11A: V116 18-49 years/V116 50-64 years GMT Ratio||1.91|1.26|<0.001
82438214|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.73|||<|0.001|TWO_SIDED|95.0|1.37|2.17||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 12F: V116 18-49 years/V116 50-64 years GMT Ratio||2.17|1.37|<0.001
82438215|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.92|||<|0.001|TWO_SIDED|95.0|1.55|2.37||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15A: V116 18-49 years/V116 50-64 years GMT Ratio||2.37|1.55|<0.001
82438216|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.79|||<|0.001|TWO_SIDED|95.0|1.36|2.35||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15C: V116 18-49 years/V116 50-64 years GMT Ratio||2.35|1.36|<0.001
82438217|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.55|||<|0.001|TWO_SIDED|95.0|1.26|1.91||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 16F: V116 18-49 years/V116 50-64 years GMT Ratio||1.91|1.26|<0.001
82438218|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.26|2.02||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 17F: V116 18-49 years/V116 50-64 years GMT Ratio||2.02|1.26|<0.001
82438219|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.17|||<|0.001|TWO_SIDED|95.0|0.97|1.4||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 19A: V116 18-49 years/V116 50-64 years GMT Ratio||1.40|0.97|<0.001
82438220|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.74|||<|0.001|TWO_SIDED|95.0|1.39|2.18||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 20A: V116 18-49 years/V116 50-64 years GMT Ratio||2.18|1.39|<0.001
82438221|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.99|||<|0.001|TWO_SIDED|95.0|1.58|2.49||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 22F: V116 18-49 years/V116 50-64 years GMT Ratio||2.49|1.58|<0.001
82438222|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.87|||<|0.001|TWO_SIDED|95.0|1.43|2.44||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 23A: V116 18-49 years/V116 50-64 years GMT Ratio||2.44|1.43|<0.001
82438223|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.51|||<|0.001|TWO_SIDED|95.0|1.11|2.04||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 23B: V116 18-49 years/V116 50-64 years GMT Ratio||2.04|1.11|<0.001
82490282|NCT02663908|164673490|OTHER||Treatment Difference|0.036||||0.437|TWO_SIDED|95.0|-0.055|0.127|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Attention at Day 168||0.127|-0.055|0.4370
82490283|NCT02663908|164673490|OTHER||Treatment Difference|0.116||||0.0852|TWO_SIDED|95.0|-0.016|0.248|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Avoidance at Day 168||0.248|-0.016|0.0852
82540919|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.13||0.0881|ONE_SIDED|95.0|-0.04||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.04|0.0881
82540920|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.2772|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2772
82540921|NCT00430300|164781496|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.11||0.1363|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1363
82540922|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.1||0.0938|ONE_SIDED|95.0|-0.03||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.03|0.0938
82540923|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.2149|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.2149
82540924|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.09||0.1682|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1682
82438224|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.36|||<|0.001|TWO_SIDED|95.0|1.1|1.67||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 24F: V116 18-49 years/V116 50-64 years GMT Ratio||1.67|1.10|<0.001
82438225|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.1|||<|0.001|TWO_SIDED|95.0|1.63|2.69||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 31: V116 18-49 years/V116 50-64 years GMT Ratio||2.69|1.63|<0.001
82438226|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.98|||<|0.001|TWO_SIDED|95.0|1.52|2.57||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 33F: V116 18-49 years/V116 50-64 years GMT Ratio||2.57|1.52|<0.001
82456012|NCT05104450|164616368|SUPERIORITY||Mean Difference (Net)|0.84||||0.218|TWO_SIDED|95.0|-0.49|2.17|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.17|-0.49|0.218
82540925|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.1||0.4492|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.4492
82540926|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.2539|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.2539
82540927|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.8168|ONE_SIDED|95.0|-0.22||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.22|0.8168
82540928|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.3248|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.3248
82540929|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.11||0.3148|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.3148
82540930|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6563|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.6563
82540931|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.12||0.1735|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.1735
82577987|NCT00588692|164865212|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|||||||0.4
82577988|NCT00588692|164865213|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82577989|NCT00588692|164865213|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82577990|NCT00588692|164865213|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82577991|NCT00588692|164865214|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82577992|NCT00588692|164865215|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82540932|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.1237|ONE_SIDED|95.0|-0.06||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.06|0.1237
82540933|NCT00430300|164781497|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.11||0.6113|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.6113
82540934|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.5549|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.5549
82540935|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.988|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.9880
82540936|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.8572|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.8572
82540937|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.8402|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.8402
82540938|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.6562|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.6562
82540939|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.5632|ONE_SIDED|95.0|-0.08||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.08|0.5632
82540940|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.637|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.6370
82540941|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.4686|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.4686
82438227|NCT05425732|164583789|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|1.54|||<|0.001|TWO_SIDED|95.0|1.26|1.87||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 35B: V116 18-49 years/V116 50-64 years GMT Ratio||1.87|1.26|<0.001
82438228|NCT05425732|164583790|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4-fold rise from baseline to 30 days postvaccination being \> 50 percentage points (one-sided p-value \< 0.025)."||||||0.667||||||1-sided|Clopper-Pearson method.|||Serotype 6C||||0.667
82438229|NCT05425732|164583790|OTHER|"A conclusion of acceptability is based on the lower bound of the 95% CI of the percentages of participants with a~≥4-fold rise from baseline to 30 days postvaccination being \> 50 percentage points (one-sided p-value \< 0.025)."|||||<|0.001||||||1-sided|Clopper-Pearson method.|||Serotype 15B||||<0.001
82438230|NCT05425732|164583791|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT Ratio|2.05|||||TWO_SIDED|95.0|1.52|2.77|||||V116 18-49 years/V116 50-64 years|Serotype 6C: V116 18-49 years/V116 50-64 years GMT Ratio||2.77|1.52|
82438231|NCT05425732|164583791|OTHER|A conclusion of immunobridging is based on the lower bound of the 95% CI for the estimated GMT ratio (V116 18-49 Years/V116 50-64 Years) being \> 0.5 (one-sided p-value \< 0.025).|GMT|2.02|||<|0.001|TWO_SIDED|95.0|1.57|2.6||1-sided|LDA model||V116 18-49 years/V116 50-64 years|Serotype 15B: V116 18-49 years/V116 50-64 years GMT ratio||2.60|1.57|<0.001
82438232|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.47|||||TWO_SIDED|95.0|1.35|1.6|||||V116/PCV20|Serotype 3: V116/PCV20 GMC Ratio||1.60|1.35|
82540942|NCT00430300|164781498|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.06||0.6164|ONE_SIDED|95.0|-0.11||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.11|0.6164
82540943|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.6||0.9885|ONE_SIDED|95.0|-2.4||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.4|0.9885
82540944|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.8055|ONE_SIDED|95.0|-1.5||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.5|0.8055
82540945|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.5||0.9759|ONE_SIDED|95.0|-2.0||||Mixed Models Analysis|||TDI at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.0|0.9759
82438233|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.7|0.89|||||V116/PCV20|Serotype 6A: V116/PCV20 GMC Ratio||0.89|0.70|
82577993|NCT00588692|164865216|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||||||0.3
82540946|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.4401|ONE_SIDED|95.0|-1.1||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.1|0.4401
82540947|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.7||0.5957|ONE_SIDED|95.0|-1.4||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.4|0.5957
82540948|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.8302|ONE_SIDED|95.0|-1.7||||Mixed Models Analysis|||TDI at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.7|0.8302
82540949|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.9657|ONE_SIDED|95.0|-3.1||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-3.1|0.9657
82540950|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.6378|ONE_SIDED|95.0|-1.7||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.7|0.6378
82540951|NCT00430300|164781506|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.8||0.899|ONE_SIDED|95.0|-2.2||||Mixed Models Analysis|||TDI at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-2.2|0.8990
82540952|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.15||0.8757|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.8757
82438234|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.95|1.18|||||V116/PCV20|Serotype 7F: V116/PCV20 GMC Ratio||1.18|0.95|
82540953|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.6334|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6334
82540954|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.5448|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Cough, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.5448
82438235|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.29|1.59|||||V116/PCV20|Serotype 8: V116/PCV20 GMC Ratio||1.59|1.29|
82438236|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.72|0.92|||||V116/PCV20|Serotype 10A: V116/PCV20 GMC Ratio||0.92|0.72|
82438237|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.23|||||TWO_SIDED|95.0|1.11|1.36|||||V116/PCV20|Serotype 11A: V116/PCV20 GMC Ratio||1.36|1.11|
82438238|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.26|||||V116/PCV20|Serotype 12F: V116/PCV20 GMC Ratio||1.26|0.96|
82438239|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|0.7|||||TWO_SIDED|95.0|0.63|0.77|||||V116/PCV20|Serotype 19A: V116/PCV20 GMC Ratio||0.77|0.63|
82438240|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.72|0.9|||||V116/PCV20|Serotype 22F: V116/PCV20 GMC Ratio||0.90|0.72|
82438241|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|1.06|||||TWO_SIDED|95.0|0.95|1.18|||||V116/PCV20|Serotype 33F: V116/PCV20 GMC Ratio||1.18|0.95|
82438242|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|5.41|||||TWO_SIDED|95.0|4.82|6.06|||||V116/PCV20|Serotype 9N: V116/PCV20 GMC Ratio||6.06|4.82|
82438243|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|6.79|||||TWO_SIDED|95.0|6.03|7.64|||||V116/PCV20|Serotype 15A: V116/PCV20 GMC Ratio||7.64|6.03|
82438244|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|2.46|||||TWO_SIDED|95.0|2.17|2.79|||||V116/PCV20|Serotype 15C: V116/PCV20 GMC Ratio||2.79|2.17|
82438245|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|8.75|||||TWO_SIDED|95.0|7.95|9.64|||||V116/PCV20|Serotype 16F: V116/PCV20 GMC Ratio||9.64|7.95|
82438246|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|16.75|||||TWO_SIDED|95.0|15.25|18.41|||||V116/PCV20|Serotype 17F: V116/PCV20 GMC Ratio||18.41|15.25|
82438247|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|12.92|||||TWO_SIDED|5.0|11.81|14.13|||||V116/PCV20|Serotype 20A: V116/PCV20 GMC Ratio||14.13|11.81|
82438248|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|6.42|||||TWO_SIDED|95.0|5.69|7.24|||||V116/PCV20|Serotype 23A: V116/PCV20 GMC Ratio||7.24|5.69|
82438249|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|3.25|||||TWO_SIDED|95.0|2.91|3.64|||||V116/PCV20|Serotype 23B: V116/PCV20 GMC Ratio||3.64|2.91|
82438250|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|21.08|||||TWO_SIDED|85.0|18.97|23.43|||||V116/PCV20|Serotype 24F: V116/PCV20 GMC Ratio||23.43|18.97|
82438251|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|11.31|||||TWO_SIDED|95.0|10.36|12.34|||||V116/PCV20|Serotype 31: V116/PCV20 GMC Ratio||12.34|10.36|
82438252|NCT05425732|164583792|OTHER|cLDA model|GMC Ratio|14.13|||||TWO_SIDED|95.0|12.97|15.4|||||V116/PCV20|Serotype 35B: V116/PCV20 GMC Ratio||15.40|12.97|
82438253|NCT01328041|164583804|SUPERIORITY_OR_OTHER||T distribution|-1.432|||<|0.001|TWO_SIDED|95.0|-1.52|-1.343||The P value was derived by the null hypothesis testing of no change from Baseline in HIV-1 RNA at Day 8 at the two-sided 5% significance level using a single sample t-test.|t-test, 2 sided|||||-1.343|-1.520|<0.001
82438254|NCT01328041|164583805|SUPERIORITY_OR_OTHER||percentage of participants|69.0|||||TWO_SIDED|95.0|62.0|76.0|||||The estimated value represents the percentage of participants with HIV-1 RNA less than 50 copies/mL at Week 24.|||76|62|
82438255|NCT01328041|164583806|SUPERIORITY_OR_OTHER||percentage of participants|63.0|||||TWO_SIDED|95.0|56.0|70.0|||||The estimated value represents the percentage of participants with HIV-1 RNA less than 50 copies/mL at Week 48.|||70|56|
82438256|NCT00100230|164583826|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.3|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.30
82540955|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.6986|ONE_SIDED|95.0|-0.34||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.34|0.6986
82540956|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.16||0.3151|ONE_SIDED|95.0|-0.18||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.18|0.3151
82540957|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.14||0.1802|ONE_SIDED|95.0|-0.1||||Mixed Models Analysis|||Cough, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.10|0.1802
82540958|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.9102|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9102
82540959|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.6391|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.6391
82456013|NCT05104450|164616369|SUPERIORITY||Mean Difference (Net)|1.02||||0.212|TWO_SIDED|95.0|-0.58|2.62|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||2.62|-0.58|0.212
82456014|NCT05104450|164616370|SUPERIORITY||Mean Difference (Net)|0.06||||0.8|TWO_SIDED|95.0|-0.44|0.57|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.57|-0.44|0.800
82456015|NCT05104450|164616371|SUPERIORITY||Mean Difference (Net)|0.27||||0.317|TWO_SIDED|95.0|-0.26|0.79|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||0.79|-0.26|0.317
82456016|NCT05104450|164616372|SUPERIORITY||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.44|-0.17|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||-0.17|-0.44|<0.001
82540960|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6838|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6838
82540961|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.9648|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9648
82577994|NCT00588692|164865217|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82577995|NCT00588692|164865217|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82540962|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.8961|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.8961
82577996|NCT00588692|164865217|SUPERIORITY_OR_OTHER|||||||0.24|||||||t-test, 2 sided|||||||0.24
82577997|NCT00588692|164865218|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANOVA|||||||0.6
82577998|NCT00588692|164865219|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82577999|NCT00588692|164865219|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578000|NCT00588692|164865219|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578001|NCT00588692|164865220|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||||||0.11
82578002|NCT00588692|164865220|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578003|NCT00588692|164865220|SUPERIORITY_OR_OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
82578004|NCT00588692|164865221|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|||||||0.4
82578005|NCT00588692|164865221|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578006|NCT00588692|164865221|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578007|NCT00588692|164865222|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||||||0.9
82438257|NCT00100230|164583827|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.27|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.27
82438258|NCT00100230|164583827|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||0.27
82438259|NCT00100230|164583828|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis: standard power calculation of 20%; used 2-sided t-test||||||8e-06|TWO_SIDED|||||Threshold for significance: p\<0.05|Mixed Models Analysis|||||||0.000008
82438260|NCT02688088|164583845|SUPERIORITY||Ratio of Geometric LS Means|1.01|||||TWO_SIDED|90.0|0.965|1.06||||||||1.06|0.965|
82438261|NCT02688088|164583846|SUPERIORITY||Ratio of Geometric LS Means|0.935|||||TWO_SIDED|90.0|0.871|1.0||||||||1.00|0.871|
82438262|NCT02688088|164583847|SUPERIORITY||Ratio of Geometric LS Means|1.05|||||TWO_SIDED|90.0|0.898|1.22||||||||1.22|0.898|
82438263|NCT02688088|164583848|SUPERIORITY||Ratio of Geometric LS Means|0.845|||||TWO_SIDED|90.0|0.76|0.94||||||||0.940|0.760|
82438264|NCT02688088|164583849|SUPERIORITY||Ratio of Geometric LS Means|1.56|||||TWO_SIDED|90.0|1.35|1.81||||||||1.81|1.35|
82438265|NCT02688088|164583850|SUPERIORITY||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.956|1.13||||||||1.13|0.956|
82438266|NCT02688088|164583851|SUPERIORITY||Mean Difference (Final Values)|0.976|||||TWO_SIDED|90.0|0.805|1.18||||||||1.18|0.805|
82438267|NCT02688088|164583852|SUPERIORITY||Ratio of Geometric LS Means|0.867|||||TWO_SIDED|90.0|0.775|0.972||||||||0.972|0.775|
82438268|NCT06053541|164583868|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.24
82438269|NCT06053541|164583869|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.37
82438270|NCT06053541|164583870|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.03
82438271|NCT06053541|164583871|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Beds in the general practice and Pulmonology: For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.11
82438272|NCT06053541|164583871|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Beds in Adults ICU: For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||<0.01
82438273|NCT06053541|164583872|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.01
82438274|NCT06053541|164583873|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||For the evaluation of statistical significance, considering that the data do not follow a normal distribution and that the two samples are independent and not paired, the Mann-Whitney test was applied and a p value \< 0.05 was considered.||||0.07
82438275|NCT02301546|164583884|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82438276|NCT02447250|164583922|OTHER|||||||0.14|||||||Chi-squared|||comparison of mean birth weights between responders and non-responders||||0.14
82438277|NCT02447250|164583923|OTHER|||||||0.16|||||||Chi-squared|||||||0.16
82438278|NCT02447250|164583924|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82438279|NCT02447250|164583926|OTHER|||||||1|||||||Chi-squared|||||||1.0
82438280|NCT02447250|164583927|OTHER|||||||0.5|||||||Fisher Exact|||||||0.50
82438281|NCT00920218|164583947|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of ceellular immune (CMI) response for GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 2.|Fold increase over Control|32.31|||<|0.0001|TWO_SIDED|76.16|20.65|50.54|||Dunnett for multiple comparisons|||The null hypothesis was H0: GSK 1437173A F1 Group/Placebo Group below (\<) 1.||50.54|20.65|<0.0001
82438282|NCT00920218|164583947|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of CMI response for Placebo-GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 2.|Fold increase over Control|9.51|||<|0.0001|TWO_SIDED|76.16|6.07|14.9|||Dunnett for multiple comparisons|||The null hypothesis was H0: Placebo-GSK 1437173A F1 Group/Placebo Group \< 2.||14.9|6.07|<0.0001
82438283|NCT00920218|164583948|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of humoral response for GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 3.|Fold increase over Control|74.41|||<|0.0001|TWO_SIDED|76.16|33.12|167.17|||Dunnett for multiple comparisons|||The null hypothesis was H0: GSK 1437173A 1 Group/Placebo Group \< 1.||167.17|33.12|<0.0001
82438284|NCT00920218|164583948|SUPERIORITY|Criterion for superiority: The Lower Limit (LL) of the Confidence Interval (CI) of the ratio of geometric means, in terms of humoral response for Placebo-GSK 1437173A F1 Group as compared to Placebo Group, is above (\>) 3.|Fold increase over Control|42.2|||<|0.0001|TWO_SIDED|76.16|20.2|88.13|||Dunnett for multiple comparisons|||The null hypothesis was H0: Placebo-GSK 1437173A 1 Group/Placebo Group \< 1.||88.13|20.20|<0.0001
82456017|NCT05104450|164616373|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.107|TWO_SIDED|95.0|-0.27|0.03|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||0.03|-0.27|0.107
82578008|NCT00588692|164865222|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82578009|NCT00588692|164865222|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Within group change compared to baseline||||<0.05
82540963|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.9534|ONE_SIDED|95.0|-0.41||||Mixed Models Analysis|||Cough, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.41|0.9534
82540964|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.7726|ONE_SIDED|95.0|-0.45||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.45|0.7726
82540965|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.18||0.5665|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.5665
82540966|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.2684|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Cough, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2684
82540967|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.19||0.6485|ONE_SIDED|95.0|-0.39||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.39|0.6485
82540968|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.4821|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.4821
82540969|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.2557|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Cough, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2557
82540970|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.9031|ONE_SIDED|95.0|-0.52||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.52|0.9031
82540971|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.17||0.8634|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.8634
82540972|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.15||0.6375|ONE_SIDED|95.0|-0.3||||Mixed Models Analysis|||Cough, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.30|0.6375
82540973|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.18||0.8775|ONE_SIDED|95.0|-0.51||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.51|0.8775
82578010|NCT00392925|164865229|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANCOVA|||Based on an Analysis of Covariance model including factors for treatment group, sex, enrollment body mass index (BMI) category, lead-in body weight loss category, and baseline (Day 1) weight as a covariate. The p-value is for testing the null hypothesis of no difference between treatments. Analysis performed two-sided at a 5% significance level to compare treatment groups.||||0.0004
82540974|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.7191|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.7191
82540975|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.8677|ONE_SIDED|95.0|-0.44||||Mixed Models Analysis|||Cough, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.44|0.8677
82540976|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.11||0.9838|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.9838
82540977|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.8106|ONE_SIDED|95.0|-0.28||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.28|0.8106
82540978|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.775|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Breathlessness, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.7750
82540979|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.8082|ONE_SIDED|95.0|-0.33||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.33|0.8082
82540980|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.7678|ONE_SIDED|95.0|-0.31||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.31|0.7678
82649542|NCT00323609|165014747|SUPERIORITY_OR_OTHER|||||||0.818||95.0|||||Fisher Exact|||||||0.818
82578011|NCT03083665|164865294|SUPERIORITY||Percent reduction over Placebo|24.5||||0.0005|TWO_SIDED|95.0|11.7|35.5||Statistical testing with control of Type I error rate were based on a Hochberg multiple comparison procedure.|ANCOVA||Based on ANCOVA with log-transformed \[log(x+1)\] Treatment Period 28-day adjusted partial seizure frequency.|||35.5|11.7|0.0005
82578012|NCT03083665|164865294|SUPERIORITY||Percent reduction over Placebo|33.4|||<|0.0001|TWO_SIDED|95.0|21.9|43.1||Statistical testing with control of Type I error rate were based on a Hochberg multiple comparison procedure.|ANCOVA||Based on ANCOVA with log-transformed \[log(x+1)\] Treatment Period 28-day adjusted partial seizure frequency.|||43.1|21.9|<0.0001
82578013|NCT05140915|164865331|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||.77
82649543|NCT00323609|165014748|SUPERIORITY_OR_OTHER|||||||0.226||95.0|||||Fisher Exact|||||||0.226
82438285|NCT01126437|164584013|NON_INFERIORITY_OR_EQUIVALENCE|Three tests were conducted in hierarchical order. Non-inferiority of time to death from any cause was tested on the two Respimat doses: Tio R 5 vs. Tio HH18, then if non-inferiority was achieved Tio R 2.5 vs Tio HH18. If successful, a test of superiority of Tio R5 over Tio HH18 for time to first COPD exacerbation was conducted. The non-inferiority delta for time to death was 1.25. Non-inferiority tests were performed at one-sided α=0.025 level. Superiority test was performed at two sided α=0.05.|Hazard Ratio (HR)|0.957|||||TWO_SIDED|95.0|0.837|1.094|||Regression, Cox|||H0: Hazard Ratio for Respimat/HandiHaler \>= 1.25 Ha: Hazard Ratio for Respimat/HandiHaler \< 1.25||1.094|0.837|
82490284|NCT02663908|164673490|OTHER||Treatment Difference|0.012||||0.8156|TWO_SIDED|95.0|-0.087|0.111|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Fear at Day 168||0.111|-0.087|0.8156
82490285|NCT02663908|164673490|OTHER||Treatment Difference|0.051||||0.2299|TWO_SIDED|95.0|-0.033|0.135|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ Global Score at Day 336||0.135|-0.033|0.2299
82490286|NCT02663908|164673490|OTHER||Treatment Difference|0.038||||0.444|TWO_SIDED|95.0|-0.06|0.136|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Attention at Day 336||0.136|-0.060|0.4440
82490287|NCT02663908|164673490|OTHER||Treatment Difference|0.007||||0.9172|TWO_SIDED|95.0|-0.131|0.146|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Avoidance at Day 336||0.146|-0.131|0.9172
82490288|NCT02663908|164673490|OTHER||Treatment Difference|0.093||||0.1028|TWO_SIDED|95.0|-0.019|0.204|||ANCOVA|ANCOVA with the baseline score as a covariate, and treatment group, age group, region, visit, and treatment by visit interaction as factors.||CAQ domain score for Fear at Day 336||0.204|-0.019|0.1028
82490289|NCT01999868|164673494|SUPERIORITY|||||||0.41||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study. This analysis is the primary analysis of the primary endpoint.||||0.41
82490290|NCT01999868|164673494|SUPERIORITY|||||||0.013||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.013
82490291|NCT01999868|164673494|SUPERIORITY|||||||0.5||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.50
82490292|NCT01999868|164673494|SUPERIORITY|||||||0.67||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.67
82490293|NCT01999868|164673495|SUPERIORITY|||||||0.019||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.019
82490294|NCT01999868|164673495|SUPERIORITY|||||||0.001||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.001
82490295|NCT01999868|164673495|SUPERIORITY|||||||0.018||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.018
82490296|NCT01999868|164673495|SUPERIORITY|||||||0.07||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.07
82490297|NCT01999868|164673496|SUPERIORITY|||||||0.16||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.16
82490298|NCT01999868|164673496|SUPERIORITY|||||||0.002||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.002
82490299|NCT01999868|164673496|SUPERIORITY|||||||0.23||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 28 to 88. This interval corresponds to the time from the last scheduled dose of ustekinumab or ustekinumab placebo until the end of the study.||||0.23
82649544|NCT00323609|165014749|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82438286|NCT01126437|164584013|NON_INFERIORITY_OR_EQUIVALENCE|Three tests were conducted in hierarchical order. Non-inferiority of time to death from any cause was tested on the two Respimat doses: Tio R 5 vs. Tio HH18, then if non-inferiority was achieved Tio R 2.5 vs Tio HH18. If successful, a test of superiority of Tio R5 over Tio HH18 for time to first COPD exacerbation was conducted. The non-inferiority delta for time to death was 1.25. Non-inferiority tests were performed at one-sided α=0.025 level. Superiority test was performed at two sided α=0.05.|Hazard Ratio (HR)|0.996|||||TWO_SIDED|95.0|0.872|1.136|||Regression, Cox|||H0: Hazard Ratio for Respimat/HandiHaler \>= 1.25 Ha: Hazard Ratio for Respimat/HandiHaler \< 1.25||1.136|0.872|
82438287|NCT01126437|164584014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.978||||0.4194|TWO_SIDED|95.0|0.928|1.032|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.032|0.928|0.4194
82438288|NCT01126437|164584014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.016||||0.5593|TWO_SIDED|95.0|0.964|1.07|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.070|0.964|0.5593
82438289|NCT01126437|164584014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.038||||0.1639|TWO_SIDED|95.0|0.985|1.094|||Regression, Cox|||"H0: Hazard Ratio for Respimat/HandiHaler = 1 Ha: Hazard Ratio for Respimat/HandiHaler ≠ 1~at alpha = 0.05"||1.094|0.985|0.1639
82438290|NCT01126437|164584015|NON_INFERIORITY_OR_EQUIVALENCE|The first test performed was to test the main effect for treatment in the mixed model repeated measures (MMRM) model, specifically the 95% CI for the contrast between Tio R 5ug and Tio HH 18ug was compared to the non-inferiority delta of 50 mL. If that test was successful, the second test in the hierarchy was to test the main effect for treatment in the MMRM model, specifically the 95% CI for the contrast between Tio R 2.5 ug and Tio HH 18 ug was compared to the non-inferiority delta of 50 mL.|Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.014|||TWO_SIDED|95.0|-0.038|0.018||An autoregression-1 covariance structure modeled the within-subject errors because visits were equally spaced. The Kenward-Roger approximation estimated denominator degrees of freedom.|Mixed Model Repeated Measures||Model included the fixed, categorical effects of treatment, investigative site, visit, and treatment-by-visit interaction, and continuous, fixed covariates of baseline and baseline-by-visit interaction, and a random term of patient.|"FEV1 was analyzed through Week 120 using REML-based repeated measures.~H0: Adjusted mean difference for Respimat/HandiHaler ≥ 50ml Ha: Adjusted mean difference for Respimat/HandiHaler \< 50 ml"||0.018|-.038|
82438291|NCT01126437|164584015|NON_INFERIORITY_OR_EQUIVALENCE|The first test performed was to test the main effect for treatment in the mixed model repeated measures (MMRM) model, specifically the 95% CI for the contrast between Tio R 5ug and Tio HH 18ug was compared to the non-inferiority delta of 50 mL. If that test was successful, the second test in the hierarchy was to test the main effect for treatment in the MMRM model, specifically the 95% CI for the contrast between Tio R 2.5 ug and Tio HH 18 ug was compared to the non-inferiority delta of 50 mL.|Adjusted mean difference|-0.037|STANDARD_ERROR_OF_MEAN|0.014|||TWO_SIDED|95.0|-0.065|-0.009||An autoregression-1 covariance structure modeled the within-subject errors because visits were equally spaced. The Kenward-Roger approximation estimated denominator degrees of freedom.|Mixed Model Repeated Measures||Model included the fixed, categorical effects of treatment, investigative site, visit, and treatment-by-visit interaction, and continuous, fixed covariates of baseline and baseline-by-visit interaction, and a random term of patient.|"FEV1 was analyzed through Week 120 using REML-based repeated measures.~H0: Adjusted mean difference for Respimat/HandiHaler ≥ 50ml Ha: Adjusted mean difference for Respimat/HandiHaler \< 50 ml"||-.009|-.065|
82438292|NCT01126437|164584016|SUPERIORITY_OR_OTHER||Rate ratio of events|1.01|STANDARD_ERROR_OF_MEAN|0.03||0.833|TWO_SIDED|95.0|0.95|1.06|||Negative binomial regression|||||1.06|0.95|0.8330
82438293|NCT01126437|164584016|SUPERIORITY_OR_OTHER||Rate ratio of events|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.8047|TWO_SIDED|95.0|0.94|1.05|||Negative binomial regression|||||1.05|0.94|0.8047
82438294|NCT01126437|164584016|SUPERIORITY_OR_OTHER||Rate ratio of events|1.01|STANDARD_ERROR_OF_MEAN|0.03||0.6468|TWO_SIDED|95.0|0.96|1.07|||Negative binomial regression|||||1.07|0.96|0.6468
82438295|NCT01126437|164584017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.068||||0.1762|TWO_SIDED|95.0|0.971|1.176|||Regression, Cox|||||1.176|0.971|0.1762
82438296|NCT01126437|164584017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024||||0.6384|TWO_SIDED|95.0|0.929|1.128|||Regression, Cox|||||1.128|0.929|0.6384
82540981|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.11||0.5373|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Breathlessness, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.5373
82540982|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.14||0.9548|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.9548
82649545|NCT00323609|165014750|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.112
82438297|NCT01126437|164584017|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.044||||0.3784|TWO_SIDED|95.0|0.949|1.148|||Regression, Cox|||||1.148|0.949|0.3784
82438298|NCT01126437|164584018|SUPERIORITY_OR_OTHER||Rate ratio of events|1.09|STANDARD_ERROR_OF_MEAN|0.06||0.1255|TWO_SIDED|95.0|0.98|1.22||p-value from negative binomial regression.|Negative binomial regression|||||1.22|0.98|0.1255
82540983|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.9743|ONE_SIDED|95.0|-0.49||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.49|0.9743
82649546|NCT00323609|165014750|SUPERIORITY_OR_OTHER|||||||0.364||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.364
82649547|NCT00323609|165014750|SUPERIORITY_OR_OTHER|||||||0.185||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.185
82649548|NCT00323609|165014750|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.100
82438299|NCT01126437|164584018|SUPERIORITY_OR_OTHER||Rate ratio of events|1.06|STANDARD_ERROR_OF_MEAN|0.06||0.3441|TWO_SIDED|95.0|0.94|1.18||p-value from negative binomial regression.|Negative binomial regression|||||1.18|0.94|0.3441
82438300|NCT01126437|164584018|SUPERIORITY_OR_OTHER||Rate ratio of events|1.03|STANDARD_ERROR_OF_MEAN|0.06||0.5573|TWO_SIDED|95.0|0.92|1.16||p-value from negative binomial regression.|Negative binomial regression|||||1.16|0.92|0.5573
82438301|NCT01126437|164584019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.011||||0.6823|TWO_SIDED|95.0|0.959|1.066|||Regression, Cox|||||1.066|0.959|0.6823
82438302|NCT01126437|164584019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.983||||0.5377|TWO_SIDED|95.0|0.932|1.037|||Regression, Cox|||||1.037|0.932|0.5377
82438303|NCT01126437|164584019|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.028||||0.3048|TWO_SIDED|95.0|0.975|1.084|||Regression, Cox|||||1.084|0.975|0.3048
82438304|NCT01126437|164584020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.105||||0.3043|TWO_SIDED|95.0|0.913|1.336|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.336|0.913|0.3043
82438305|NCT01126437|164584020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.3263|TWO_SIDED|95.0|0.909|1.331|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.331|0.909|0.3263
82438306|NCT01126437|164584020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.004||||0.9644|TWO_SIDED|95.0|0.834|1.209|||Regression, Cox|||Causes of death from MACE were determined by adjudication.||1.209|0.834|0.9644
82438307|NCT01126437|164584021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.2439|TWO_SIDED|95.0|0.898|1.526|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.526|0.898|0.2439
82438308|NCT01126437|164584021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.4413|TWO_SIDED|95.0|0.85|1.453|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.453|0.850|0.4413
82438309|NCT01126437|164584021|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.054||||0.691|TWO_SIDED|95.0|0.814|1.363|||Regression, Cox|||Time to death from MACE was analyzed using the full study duration including vital status follow-up.||1.363|0.814|0.6910
82490300|NCT01999868|164673496|SUPERIORITY|||||||0.43||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40 to 88. This interval corresponds to the time from the beginning of the blinded observation phase until the end of the study.||||0.43
82438310|NCT01220973|164584025|OTHER||Slope|0.74|||||TWO_SIDED|||||||||||||
82438311|NCT02512874|164584054|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
82438312|NCT03520348|164584084|NON_INFERIORITY|It is considered less than 20% of differences between groups to consider non-inferiority||||||0.285|||||||Wilcoxon (Mann-Whitney)|||||||0.285
82438313|NCT03520348|164584085|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.680
82438314|NCT03520348|164584086|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.839|||||||Wilcoxon (Mann-Whitney)|||||||0.839
82438315|NCT03520348|164584087|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.137|||||||Wilcoxon (Mann-Whitney)|||||||0.137
82438316|NCT03520348|164584089|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.667|||||||Chi-squared, Corrected|||||||0.667
82490301|NCT01999868|164673497|SUPERIORITY|||||||0.06||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.06
82438317|NCT03520348|164584090|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.561|||||||Chi-squared, Corrected|||||||0.561
82438318|NCT03520348|164584091|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||1|||||||Chi-squared|||||||1.000
82438319|NCT03520348|164584092|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.317|||||||Chi-squared, Corrected|||||||0.317
82438320|NCT03520348|164584093|NON_INFERIORITY|it is considered noninferiority if there are no differences in the 20% between the research drug and the reference medicine||||||0.414|||||||Chi-squared, Corrected|||||||0.414
82438321|NCT03639623|164584114|OTHER|||||||0.053|||||||paired t-test|||||||0.053
82438322|NCT03639623|164584115|OTHER|||||||0.958|||||||paired t-test|||||||0.958
82438323|NCT03639623|164584116|OTHER|||||||0.011|||||||paired t-test|||||||0.011
82438324|NCT03639623|164584117|OTHER|||||||0.454|||||||paired t-test|||||||0.454
82438325|NCT03639623|164584118|OTHER|||||||0.154|||||||paired t-test|||||||0.154
82438326|NCT03639623|164584119|OTHER|||||||0.125|||||||paired t-test|||Outcome Variable: ALT||||0.125
82438327|NCT03639623|164584119|OTHER|||||||0.375|||||||paired t-test|||Outcome Variable: AST||||0.375
82438328|NCT03639623|164584119|OTHER||||||<|0.001|||||||paired t-test|||Outcome Variable: ALP||||<0.001
82438329|NCT03639623|164584120|OTHER|||||||0.054|||||||paired t-test|||||||0.054
82438330|NCT03639623|164584121|OTHER|||||||0.378|||||||paired t-test|||Outcome variable: Total Cholesterol||||0.378
82438331|NCT03639623|164584121|OTHER|||||||0.01|||||||paired t-test|||Outcome Variable: Triglyceride||||0.010
82438332|NCT03639623|164584121|OTHER|||||||0.264|||||||paired t-test|||Outcome Variable: Non-HDL-C||||0.264
82438333|NCT03639623|164584121|OTHER|||||||0.954|||||||paired t-test|||Outcome Variable: HDL-C||||0.954
82438334|NCT03639623|164584121|OTHER|||||||0.127|||||||paired t-test|||Outcome Variable: HDL-C Subclass 2||||0.127
82438335|NCT03639623|164584121|OTHER|||||||0.029|||||||paired t-test|||Outcome Variable: HDL-C Subclass 3||||0.029
82438336|NCT03639623|164584121|OTHER|||||||0.63|||||||paired t-test|||Outcome variable: LDL-C||||0.630
82438337|NCT03639623|164584121|OTHER|||||||0.01|||||||paired t-test|||Outcome Variable: VLDL-C||||0.010
82438338|NCT03639623|164584121|OTHER|||||||0.16|||||||paired t-test|||Outcome Variable: VLDL concentration||||0.160
82438339|NCT03639623|164584121|OTHER|||||||0.02|||||||paired t-test|||Small dense LDL-C||||0.020
82438340|NCT03639623|164584122|OTHER|||||||0.529|||||||paired t-test|||||||0.529
82456018|NCT05104450|164616374|SUPERIORITY||Mean Difference (Net)|4.07||||0.013|TWO_SIDED|95.0|0.86|7.27|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||7.27|0.86|0.013
82456019|NCT05104450|164616375|SUPERIORITY||Mean Difference (Net)|3.11||||0.065|TWO_SIDED|95.0|-0.2|6.42|||Mixed Models Analysis|treatment-by-time interaction|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including baseline and follow up outcome measures, time, treatment by time interaction, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60). The parameter of interest is treatment by time interaction coefficient, measuring the between group difference for change in outcome.||6.42|-0.20|0.065
82456020|NCT05104450|164616376|SUPERIORITY||Mean Difference (Final Values)|-3.63||||0.041|TWO_SIDED|95.0|-7.11|-0.14|||Mixed Models Analysis|one-time measures: Beta Estimates|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed effects model including each participant's outcome measure, baseline covariates: age, gender, race, charlson comorbidity index, rurality, and randomization stratification variables: BMI (30-34.9 vs. 35-44.9kg/m2), OSA severity (mild vs. moderate to severe), and sleep related impairment T-score (\<60 vs. ≥ 60).||-0.14|-7.11|0.041
82456021|NCT04057807|164616380|SUPERIORITY|||||||0.14|||||||unpaired t-tests (continuous variables)|||||||0.14
82456022|NCT04057807|164616381|SUPERIORITY|||||||0.82|||||||univariate linear regression analysis|two-tailed P value was obtained from a univariate linear regression analysis||||||0.82
82456023|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.052||||||6 hour pain at rest|t-test, 2 sided|||||||0.052
82540984|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.8408|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Breathlessness, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.8408
82456024|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.064||||||6 hour pain with movement|t-test, 2 sided|||||||0.064
82456025|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.139|||||||t-test, 2 sided|12 hour pain at rest||||||0.139
82456026|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.35||||||12 hour pain at rest|t-test, 2 sided|||||||0.350
82456027|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.021||||||18 hour pain at rest|t-test, 2 sided|||||||0.021
82456028|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.198||||||18 hour pain with movement|t-test, 2 sided|||||||0.198
82456029|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.806|||||||t-test, 2 sided|24 hour pain at rest||||||0.806
82456030|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.228||||||24 hour pain with movement|t-test, 2 sided|||||||0.228
82540985|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.14||0.9887|ONE_SIDED|95.0|-0.55||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.55|0.9887
82540986|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.13||0.9918|ONE_SIDED|95.0|-0.55||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.55|0.9918
82456031|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.457||||||36 hour pain at rest|t-test, 2 sided|||||||0.457
82456032|NCT02271698|164616407|SUPERIORITY_OR_OTHER|||||||0.394||||||36 hour pain with movement|t-test, 2 sided|||||||0.394
82456033|NCT02271698|164616408|SUPERIORITY_OR_OTHER|||||||0.181||||||6 hours|t-test, 2 sided|||||||0.181
82456034|NCT02271698|164616408|SUPERIORITY_OR_OTHER|||||||0.364||||||12 hours|t-test, 2 sided|||||||0.364
82540987|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.9833|ONE_SIDED|95.0|-0.46||||Mixed Models Analysis|||Breathlessness, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.46|0.9833
82540988|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.14||0.9619|ONE_SIDED|95.0|-0.5||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.50|0.9619
82649549|NCT00323609|165014751|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.005
82456035|NCT02271698|164616408|SUPERIORITY_OR_OTHER|||||||0.605|||||||t-test, 2 sided|18 hours||||||0.605
82456036|NCT02271698|164616408|SUPERIORITY_OR_OTHER|||||||0.733|||||||t-test, 2 sided|24 hours||||||0.733
82456037|NCT02271698|164616408|SUPERIORITY_OR_OTHER|||||||0.6||||||36 hours|t-test, 2 sided|||||||0.600
82456038|NCT02107703|164616421|OTHER||Hazard Ratio (HR)|0.553|||<|1e-07|TWO_SIDED|95.0|0.449|0.681||This is two sided P value and it is statistically significant.|Log Rank|Log rank test is stratified by endocrine sensitivity and natural of disease by interactive web response system (IWRS).||The final analysis was planned at 378 PFS events, which would provide approximately 90% power assuming a hazard ratio (HR) of 0.703 at a one-sided α of 0.025.||0.681|0.449|<0.0000001
82456039|NCT00790192|164616432|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82456040|NCT00790192|164616433|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82456041|NCT03456076|164616434|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0001|TWO_SIDED|95.0|0.13|0.45|||Log Rank|||||0.45|0.13|.0001
82456042|NCT03456076|164616434|SUPERIORITY||Hazard Ratio (HR)|0.24||||0.0001|TWO_SIDED|95.0|0.13|0.43|||Log Rank|||||0.43|0.13|.0001
82438341|NCT03639623|164584123|OTHER|||||||0.403|||||||paired t-test|||Outcome Variable: LDL Size||||0.403
82438342|NCT03639623|164584124|OTHER|||||||0.669|||||||paired t-test|||||||0.669
82438343|NCT03639623|164584125|OTHER|||||||0.021|||||||paired t-test|||Outcome Variable: VLDL chylomicron particles||||0.021
82540989|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.14||0.9917|ONE_SIDED|95.0|-0.58||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.58|0.9917
82540990|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.9376|ONE_SIDED|95.0|-0.4||||Mixed Models Analysis|||Breathlessness, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.40|0.9376
82578014|NCT01647542|164865347|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.03|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.27|-0.78||Stepwise Comparison: 1) TAK-875 50 mg versus (vs.) placebo, 2) TAK-875 25 mg vs. placebo. Step 2 was performed only if p-value at step 1 was \<=0.050.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||Assuming a standard deviation of 0.9% in change from baseline in HbA1c to Week 24 and a dropout rate of 15%, 210 participants per group provided at least 95% power to detect a treatment difference of 0.5% between treatment arms at a 2-sided significance level of 0.05.||-0.78|-1.27|<0.001
82649550|NCT00323609|165014751|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.382
82649551|NCT00323609|165014751|SUPERIORITY_OR_OTHER|||||||0.196||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.196
82438344|NCT03639623|164584125|OTHER|||||||0.011|||||||paired t-test|||Outcome Variable: Large VLDL chylomicron particles||||0.011
82438345|NCT03639623|164584125|OTHER|||||||0.06|||||||paired t-test|||Outcome Variable: Medium VLDL particles||||0.060
82438346|NCT03639623|164584125|OTHER|||||||0.324|||||||paired t-test|||Outcome Variable: Small VLDL particles||||0.324
82438347|NCT03639623|164584126|OTHER|||||||0.01|||||||paired t-test|||||||0.010
82438348|NCT03639623|164584127|OTHER|||||||0.249|||||||paired t-test|||||||0.249
82438349|NCT03639623|164584128|OTHER|||||||0.0193|||||||paired t-test|||Time to peak RQ||||0.0193
82438350|NCT03639623|164584129|OTHER|||||||0.96|||||||paired t-test|||Outcome Variable: Physical component score||||0.960
82438351|NCT03639623|164584129|OTHER|||||||0.249|||||||paired t-test|||Outcome Variable: Mental component score||||0.249
82438352|NCT01229254|164584142|EQUIVALENCE|If the 90% confidence interval was within the pre-specified bounds of \[0.66, 1.50\], the hypothesis of similarity between lower weight and higher weight groups was supported.|Ratio of geometric least-squares means|0.748|||||TWO_SIDED|90.0|0.591|0.948||||||Compared to Betrixaban 90 mg (≥80 kg)||0.948|0.591|
82438353|NCT01849575|164584160|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.001
82438354|NCT03359785|164584164|SUPERIORITY||LS Mean Difference|0.278|STANDARD_ERROR_OF_MEAN|0.376||0.2401|ONE_SIDED|90.0|-0.246||||ANOVA||||||-0.246|0.2401
82438355|NCT03359785|164584164|SUPERIORITY||LS Mean Difference|-0.766|STANDARD_ERROR_OF_MEAN|0.547||0.9053|ONE_SIDED|90.0|-1.513||||ANOVA||||||-1.513|0.9053
82438356|NCT01907321|164584191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.78|STANDARD_DEVIATION|14.98||0.001|TWO_SIDED||||||repeated measures ANOVA|||||||.001
82438357|NCT01907321|164584192|SUPERIORITY_OR_OTHER|||||||0.519|||||||ANOVA|||||||.519
82438358|NCT01846299|164584255|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78|STANDARD_ERROR_OF_MEAN|1.203||0.0111|TWO_SIDED|95.0|0.4|5.16|||Mixed Models Analysis|||||5.16|0.40|0.0111
82438359|NCT01448824|164584290|NON_INFERIORITY_OR_EQUIVALENCE|Up to 12 participants were enrolled in order for 8 to complete the study. The estimated variability in area under the concentration-time curve (AUC) was 20% coefficient of variation following a single dose of 100 mg LY2484595. Assuming that 70% of the total variability is contributed by intra-participant variability, a sample size of 8 participants provides a precision of \~15% for the geometric means ratio in AUC and Cmax of LY2484595 + ketoconazole to LY2484595 alone in log scale.|Ratio of Geometric LS Means|1.94|||||TWO_SIDED|90.0|1.39|2.72||||||||2.72|1.39|
82438360|NCT01448824|164584291|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-0.5|0.5|||Wilcoxon signed rank|||||0.50|-0.50|1.0000
82438361|NCT01448824|164584292|NON_INFERIORITY_OR_EQUIVALENCE|Up to 12 participants were enrolled in order for 8 to complete the study. The estimated variability in area under the concentration-time curve (AUC) was 20% coefficient of variation following a single dose of 100 mg LY2484595. Assuming that 70% of the total variability is contributed by intra-participant variability, a sample size of 8 participants provides a precision of \~15% for the geometric means ratio in AUC and Cmax of LY2484595 + ketoconazole to LY2484595 alone in log scale.|Ratio of Geometric LS means|2.37|||||TWO_SIDED|90.0|1.77|3.18||||||||3.18|1.77|
82438362|NCT03002818|164584309|SUPERIORITY||mean change|-108266.0||||0.091|TWO_SIDED|95.0|-235037.0|18504.0|||one-sample t-test|||sdITT (n=26): Change at Day 168 minus Baseline||18504|-235037|0.091
82438363|NCT03002818|164584309|SUPERIORITY||mean change|-98373.0||||0.152|TWO_SIDED|95.0|-235667.0|38921.0|||one-sample t-test|||mITT (n=24): Change at Day 168 minus Baseline||38921|-235667|0.152
82438364|NCT03002818|164584309|SUPERIORITY|||||||0.091|||||||paired t-test|||sdITT (n=26): Baseline vs. Day 168||||0.091
82438365|NCT03002818|164584309|SUPERIORITY|||||||0.152|||||||paired t-test|||mITT (n=24): Baseline vs. Day 168||||0.152
82438366|NCT03002818|164584310|SUPERIORITY|||||||0.461|||||||paired t-test|||sdITT (n=34): Baseline vs. Day 28||||0.461
82438367|NCT03002818|164584310|SUPERIORITY|||||||0.63|||||||paired t-test|||mITT (n=24): Baseline vs. Day 28||||0.630
82438368|NCT03002818|164584310|SUPERIORITY|||||||0.855|||||||paired t-test|||sdITT (n=32): Baseline vs. Day 84||||0.855
82438369|NCT03002818|164584310|SUPERIORITY|||||||0.75|||||||paired t-test|||mITT (n=24): Baseline vs. Day 84||||0.750
82438370|NCT03002818|164584311|SUPERIORITY||mean change|2.6|||||TWO_SIDED|95.0|2.063|3.137||||||sdITT: mean change Baseline minus Day 168||3.137|2.063|
82438371|NCT03002818|164584311|SUPERIORITY||mean change|2.82|||||TWO_SIDED|95.0|2.212|3.428||||||mITT: mean change Baseline minus Day 168||3.428|2.212|
82456043|NCT01818596|164616479|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|30 participants with evaluable aGFR (measured by iohexol clearance) in either cohort would provide at least 90% power to show that aGFR change is \< 20% after participants were administered E/C/F/TAF. In this sample size/power computation, it was assumed that the intra-participant variation for aGFR is 0.17 mL/min on natural logarithm scale and a clinical meaningful boundary in aGFR change is 80% to 125%.|Difference in GLSM Ratio|98.94|||||TWO_SIDED|90.0|93.71|104.46|||||A parametric analysis of variance model using a mixed-effects model with repeated statement was fitted to the natural logarithm transferred aGFR obtained at postbaseline visits and baseline.|Comparison is made between the baseline value and the value from the Week 2, 4, or 8 visit and presented as a geometric least squares mean (GLSM) ratio with 90% confidence interval (CI). Postbaseline value and baseline value were used as test and reference, respectively.||104.46|93.71|
82456044|NCT01818596|164616479|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|30 participants with evaluable aGFR (measured by iohexol clearance) in either cohort would provide at least 90% power to show that aGFR change is \< 20% after participants were administered E/C/F/TAF. In this sample size/power computation, it was assumed that the intra-participant variation for aGFR is 0.17 mL/min on natural logarithm scale and a clinical meaningful boundary in aGFR change is 80% to 125%.|Difference in GLSM Ratio|102.66|||||TWO_SIDED|90.0|97.11|108.53|||||A parametric analysis of variance model using a mixed-effects model with repeated statement was fitted to the natural logarithm transferred aGFR obtained at postbaseline visits and baseline.|Comparison is made between the baseline value and the value from the Week 24 visit and presented as a GLSM ratio with 90% CI. Week 24 value and baseline value were used as test and reference, respectively.||108.53|97.11|
82456045|NCT04435366|164616504|SUPERIORITY||Least Squares Mean Difference|0.056|STANDARD_ERROR_OF_MEAN|0.02||0.0064|TWO_SIDED|95.0|0.016|0.096||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol). Mixed Model for repeated measures (MMRM) was used to compare the treatment groups.||0.096|0.016|0.0064
82456046|NCT04435366|164616505|SUPERIORITY||Least Squares Mean Difference|0.362|STANDARD_ERROR_OF_MEAN|0.15||0.0165|TWO_SIDED|95.0|0.066|0.657||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||0.657|0.066|0.0165
82456047|NCT04435366|164616505|SUPERIORITY||Least Squares Mean Difference|0.488|STANDARD_ERROR_OF_MEAN|0.152||0.0015|TWO_SIDED|95.0|0.189|0.788||Nominal p-value was used for the comparison between avacincaptad pegol and sham versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol and sham).||0.788|0.189|0.0015
82456048|NCT04435366|164616506|SUPERIORITY||Least Squares Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.5||0.58|TWO_SIDED|95.0|-3.79|2.12||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||2.12|-3.79|0.58
82456049|NCT04435366|164616507|SUPERIORITY||Least Squares Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|1.68||0.38|TWO_SIDED|95.0|-4.79|1.81||Nominal p-value was used for the comparison between avacincaptad pegol versus sham.|MMRM|||Difference in least squares mean between groups calculated as (sham) minus (avacincaptad pegol).||1.81|-4.79|0.38
82456050|NCT04435366|164616509|SUPERIORITY||Least square mean difference|-0.712|STANDARD_ERROR_OF_MEAN|1.33||0.5929|TWO_SIDED|95.0|-3.326|1.903|||MMRM|||||1.903|-3.326|0.5929
82456051|NCT04435366|164616511|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6424|TWO_SIDED|95.0|0.57|1.42|||Log Rank|||||1.42|0.57|0.6424
82456052|NCT04502290|164616512|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the number of blocks after intervention will be not statistically significant.||||.04
82456053|NCT04502290|164616513|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the motor evoked potnetial after intervention will be not statistically significant.||||.02
82456054|NCT04502290|164616514|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Paired t-test was used, where null hypothesis stated that the percent change in the force after intervention will be not statistically significant.||||.04
82456055|NCT04152772|164616530|SUPERIORITY|||||||0.02||||||Significant Group (3 levels) by Stimulus (CS- vs CS+ extinguished) interaction. A priori threshold for statistical significance was set at p\<0.05.|Mixed Models Analysis|||Comparison of groups (3) on skin conductance reactivity to the previously extinguished stimulus versus never conditioned stimulus during extinction recall||||0.02
82456056|NCT00113841|164616564|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
82456057|NCT04707469|164616608|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model with treatment, strata and region as categorical fixed effects and baseline value as covariate for each of the 1000 imputed complete datasets,and pooled by Rubin's rule to draw inference.|Treatment difference|-0.27||||0.0006|TWO_SIDED|95.0|-0.42|-0.12||Unadjusted two-sided p-value for test of no difference.|ANCOVA|||Treatment policy estimand||-0.12|-0.42|0.0006
82456058|NCT04707469|164616608|SUPERIORITY|Change from baseline was analyzed using an ANCOVA model with treatment, strata and region as categorical fixed effects and baseline value as covariate for each of the 1000 imputed complete datasets,and pooled by Rubin's rule to draw inference.|Treatment difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.38||Unadjusted two-sided p-value for test of no difference.|ANCOVA|||Treatment policy estimand||-0.38|-0.68|<.0001
82456059|NCT02784171|164616653|SUPERIORITY|||||||0.0372|||||||Log Rank|||||||0.0372
82456060|NCT04661150|164616656|SUPERIORITY||Treatment difference|23.8||||0.079|TWO_SIDED|90.0|1.3|44.7|||Chi-squared|||||44.7|1.3|0.079
82456061|NCT04661150|164616661|SUPERIORITY||Treatment difference|-4.8||||0.739|TWO_SIDED|90.0|-27.9|18.9|||Chi-squared|||||18.9|-27.9|0.739
82456062|NCT04661150|164616662|SUPERIORITY||Treatment difference|4.8|||>|0.999|TWO_SIDED|90.0|-10.9|21.4|||Fisher Exact|||||21.4|-10.9|>0.999
82456063|NCT02777827|164616677|SUPERIORITY||Least square mean|0.2221|STANDARD_ERROR_OF_MEAN|0.0453|<|0.0001|TWO_SIDED|95.0|0.1324|0.3118|||ANCOVA|||||0.3118|0.1324|<0.0001
82456064|NCT02777827|164616677|SUPERIORITY||Least Square Mean|0.4042|STANDARD_ERROR_OF_MEAN|0.0453|<|0.0001|TWO_SIDED|95.0|0.3146|0.4938|||ANCOVA|||||0.4938|0.3146|<0.0001
82649552|NCT00323609|165014751|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.281
82438372|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=37): Baseline vs. Day 168||||<0.001
82456065|NCT02777827|164616677|SUPERIORITY||Least Square Mean|0.1056|STANDARD_ERROR_OF_MEAN|0.0451||0.0207|TWO_SIDED|95.0|0.0164|0.1949|||ANCOVA|||||0.1949|0.0164|0.0207
82438373|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=24): Baseline vs. Day 168||||<0.001
82438374|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=35): Baseline vs. Day 28||||<0.001
82456066|NCT02777827|164616677|SUPERIORITY||Least Square Mean|0.1701|STANDARD_ERROR_OF_MEAN|0.045||0.0002|TWO_SIDED|95.0|0.081|0.2592|||ANCOVA|||||0.2592|0.0810|0.0002
82456067|NCT02777827|164616677|SUPERIORITY||Least Square Mean|0.4062|STANDARD_ERROR_OF_MEAN|0.0451|<|0.0001|TWO_SIDED|95.0|0.317|0.4955|||ANCOVA|||||0.4955|0.3170|<0.0001
82456068|NCT04551066|164616701|SUPERIORITY||Odds Ratio (OR)|1.27||||0.4224|TWO_SIDED|95.0|0.71|2.26||calculated from Cochran Mantel-Haenszel test stratified by Baseline platelet count ≥100 x 10\^9/Liters versus 50 to \<100 x 10\^9/Liters inclusive|Cochran-Mantel-Haenszel|||||2.26|0.71|0.4224
82456069|NCT04551066|164616702|SUPERIORITY||Odds Ratio (OR)|0.84||||0.5728|TWO_SIDED|95.0|0.46|1.53||calculated from Cochran Mantel-Haenszel test stratified by Baseline platelet count ≥100 x 10\^9/Liters versus 50 to \<100 x 10\^9/Liters inclusive|Cochran-Mantel-Haenszel|||||1.53|0.46|0.5728
82456070|NCT04551066|164616704|SUPERIORITY|||||||0.949||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.9490
82456071|NCT04551066|164616708|SUPERIORITY|||||||0.1085||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.1085
82540991|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.9084|ONE_SIDED|95.0|-0.47||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.47|0.9084
82649553|NCT00323609|165014752|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.033
82649554|NCT00323609|165014752|SUPERIORITY_OR_OTHER|||||||0.981||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.981
82438375|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=22): Baseline vs. Day 28||||<0.001
82438376|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||sdITT (n=36): Baseline vs. Day 84||||<0.001
82438377|NCT03002818|164584311|SUPERIORITY||||||<|0.001|||||||Paired Wilcoxon Test|||mITT (n=23): Baseline vs. Day 84||||<0.001
82438378|NCT03002818|164584312|SUPERIORITY||mean change|0.61|||||TWO_SIDED|95.0|-0.651|1.871||||||sdITT: mean change Baseline minus Day 168||1.871|-0.651|
82438379|NCT03002818|164584312|SUPERIORITY||mean change|0.74|||||TWO_SIDED|95.0|-0.608|2.088||||||mITT: mean change Baseline minus Day 168||2.088|-0.608|
82438380|NCT03002818|164584312|SUPERIORITY|||||||0.381|||||||Paired Wilcoxon Test|||sdITT (n=37): Baseline vs. Day 168||||0.381
82456072|NCT04551066|164616709|SUPERIORITY|||||||0.6127||||||calculated from log-rank test stratified by Baseline platelet count ≥100 × 10\^9/Liters versus 50 to \<100 × 10\^9/Liters inclusive|Log Rank|||||||0.6127
82438381|NCT03002818|164584312|SUPERIORITY|||||||0.304|||||||Paired Wilcoxon Test|||mITT (n=24): Baseline vs. Day 168||||0.304
82438382|NCT03002818|164584312|SUPERIORITY|||||||0.014|||||||Paired Wilcoxon Test|||sdITT (n=35): Baseline vs. Day 28||||0.014
82438383|NCT03002818|164584312|SUPERIORITY|||||||0.278|||||||Paired Wilcoxon Test|||mITT (n=22): Baseline vs. Day 28||||0.278
82438384|NCT03002818|164584312|SUPERIORITY|||||||0.881|||||||Paired Wilcoxon Test|||sdITT (n=36): Baseline vs. Day 84||||0.881
82438385|NCT03002818|164584312|SUPERIORITY|||||||0.775|||||||Paired Wilcoxon Test|||sdITT (n=23): Baseline vs. Day 84||||0.775
82438386|NCT05312632|164584332|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82438387|NCT05312632|164584333|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82438388|NCT05312632|164584334|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82438389|NCT05312632|164584335|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82438390|NCT05312632|164584336|OTHER|||||||0.013|||||||Wilcoxon signed rank test|||||||0.013
82456073|NCT00369577|164616710|SUPERIORITY|||||||0.088||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||0.0880
82456074|NCT00369577|164616710|SUPERIORITY|||||||0.0002||||||p-values (adjusted) using Dunnett's t-test in main effects ANCOVA model|ANCOVA|||||||0.0002
82456075|NCT00369577|164616711|SUPERIORITY|||||||0.0583|||||||Wilcoxon (Mann-Whitney)|||||||0.0583
82456076|NCT00369577|164616711|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82456077|NCT00369577|164616712|SUPERIORITY|||||||0.0067|||||||Wilcoxon (Mann-Whitney)|||||||0.0067
82456078|NCT00369577|164616712|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
82456079|NCT00369577|164616713|SUPERIORITY|||||||0.0076|||||||Fisher Exact|||||||0.0076
82456080|NCT00369577|164616713|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82456081|NCT00549445|164616748|OTHER|Student t test||||||0.045||||||Threshold for significance is P-Value \< 0.05|t-test, 1 sided|||||||0.045
82456082|NCT00857857|164616764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.1033|||TWO_SIDED|95.0|0.031|0.449||||||||0.449|0.031|
82540992|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.15||0.7906|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7906
82649555|NCT00323609|165014752|SUPERIORITY_OR_OTHER|||||||0.631||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.631
82649556|NCT00323609|165014752|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value was obtained from ANCOVA with Absolute Height Loss (AHL) as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.790
82649557|NCT00323609|165014753|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.663
82649558|NCT00323609|165014753|SUPERIORITY_OR_OTHER|||||||0.933||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.933
82438391|NCT05312632|164584337|OTHER|||||||0.053|||||||Wilcoxon signed rank test|||||||0.053
82438392|NCT05312632|164584338|OTHER||||||<|0.001|||||||Wilcoxon signed rank test|||||||<0.001
82438393|NCT00489736|164584340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.59|||<|0.0001||95.0|1.28|1.98||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of treatment failure for the dronedarone group compared with the amiodarone group.|||1.98|1.28|<0.0001
82438394|NCT00489736|164584341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.13||95.0|0.6|1.07||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of main safety event occurrence for the dronedarone group compared with the amiodarone group.|||1.07|0.60|0.13
82438395|NCT00489736|164584342|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.002||95.0|0.44|0.84||Cumulative incidence functions in each treatment group were calculated using time-to-event non-parametric Kaplan-Meier estimate. The comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It provides the relative hazard of MSE occurrence excluding gastrointestinal events, for the dronedarone group compared with the amiodarone group.|||0.84|0.44|0.002
82438396|NCT00245050|164584350|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07|||<|0.05|TWO_SIDED|95.0|0.536|2.16|||Chi-squared|||Based on published literature, it is estimated that the incidence of HFS for all grades is 49%. A decrease of 50% or more in the incidence of HFS in patients receiving pyridoxine would be of clinical significance. A sample size of 27 patients per group was chosen as this would allow us to detect a difference between HFS incidence of 49% and 11.5% (alpha=0.05, two-sided, power=0.80). Interim analysis was conducted after 30 patients were enrolled and had evaluable HFS assessment data.||2.16|0.536|<0.05
82456083|NCT00857857|164616764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.265|STANDARD_ERROR_OF_MEAN|0.1048|||TWO_SIDED|95.0|0.053|0.477||||||||0.477|0.053|
82456084|NCT00857857|164616764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.456|STANDARD_ERROR_OF_MEAN|0.0993|||TWO_SIDED|95.0|0.255|0.657||||||||0.657|0.255|
82456085|NCT00857857|164616764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.526|STANDARD_ERROR_OF_MEAN|0.1025|||TWO_SIDED|95.0|0.319|0.733||||||||0.733|0.319|
82438397|NCT00245050|164584351|SUPERIORITY_OR_OTHER|||||||0.916||95.0|||||t-test, 2 sided|||||||0.916
82438398|NCT02743949|164584363|SUPERIORITY||Wilcoxon-Mann-Whitney odds estimator|1.0584||||0.748|TWO_SIDED|97.5|0.71|1.5778||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Wilcoxon rank-sum test|||||1.5778|0.7100|0.7480
82438399|NCT02743949|164584363|SUPERIORITY||Wilcoxon-Mann-Whitney odds estimator|1.0975||||0.5985|TWO_SIDED|97.5|0.7368|1.6349||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Wilcoxon rank-sum test|||||1.6349|0.7368|0.5985
82438400|NCT02743949|164584364|SUPERIORITY||Miettinen-Nurminen|0.91||||0.782|TWO_SIDED|97.5|0.44|1.91||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Pearson chi-square|||||1.91|0.44|0.782
82438401|NCT02743949|164584364|SUPERIORITY||Miettinen-Nurminen|0.96||||0.912|TWO_SIDED|97.5|0.46|2.01||P-values were obtained using a Pearson chi-square test for each Vonoprazan treatment compared with Esomeprazole.|Pearson chi-square|||||2.01|0.46|0.912
82438402|NCT00396006|164584366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0195|||||||Wilcoxon signed rank test|||||||0.0195
82438403|NCT00396006|164584370|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||paired t-tests|||||||<0.0001
82438404|NCT00396006|164584371|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||paired t-tests|||||||<0.0001
82438405|NCT00396006|164584373|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1875|||||||Wilcoxon signed rank test|||||||0.1875
82438406|NCT00396006|164584374|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4375|||||||Wilcoxon signed rank|||||||0.4375
82438407|NCT02163967|164584378|OTHER||||||<|0.02||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.Increase in HRV at 2Amp compared to sham.||The null hypothesis is that there is no difference in High frequency HRV after 20 minutes of stimulation or 15 minutes after cessation of stimulation at the low (1mAmp) or high (2mAmp) dose compared to sham stimulation||||<.02
82456086|NCT00857857|164616765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.0975|||TWO_SIDED|95.0|0.013|0.407||||||||0.407|0.013|
82456087|NCT00857857|164616765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.0988|||TWO_SIDED|95.0|-0.046|0.354||||||||0.354|-0.046|
82456088|NCT00857857|164616765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.303|STANDARD_ERROR_OF_MEAN|0.0937|||TWO_SIDED|95.0|0.113|0.492||||||||0.492|0.113|
82456089|NCT00857857|164616765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.404|STANDARD_ERROR_OF_MEAN|0.0966|||TWO_SIDED|95.0|0.209|0.599||||||||0.599|0.209|
82456090|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.1372|||TWO_SIDED|95.0|-0.302|0.253|||||Comparison of Minimum FEV1 between Placebo and GW870086 0.25 mg.|||0.253|-0.302|
82456091|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.106|STANDARD_ERROR_OF_MEAN|0.1391|||TWO_SIDED|95.0|-0.176|0.387|||||Comparison of Minimum FEV1 between Placebo and GW870086 1 mg.|||0.387|-0.176|
82456092|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.239|STANDARD_ERROR_OF_MEAN|0.1319|||TWO_SIDED|95.0|-0.028|0.506|||||Comparison of Minimum FEV1 between Placebo and GW870086 3 mg.|||0.506|-0.028|
82649559|NCT00323609|165014753|SUPERIORITY_OR_OTHER|||||||0.089||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.089
82649560|NCT00323609|165014753|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.036
82456093|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.534|STANDARD_ERROR_OF_MEAN|0.1359|||TWO_SIDED|95.0|0.26|0.809|||||Comparison of Minimum FEV1 between Placebo and fluticasone propionate 0.25 mg BID.|||0.809|0.260|
82456094|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.0984|||TWO_SIDED|95.0|-0.145|0.253|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 0.25 mg.|||0.253|-0.145|
82456095|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.0998|||TWO_SIDED|95.0|-0.176|0.228|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 1 mg.|||0.228|-0.176|
82456096|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.0945|||TWO_SIDED|95.0|-0.011|0.371|||||Comparison of Weighted Mean FEV1 between Placebo and GW870086 3 mg.|||0.371|-0.011|
82456097|NCT00857857|164616766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.0978|||TWO_SIDED|95.0|0.153|0.548|||||Comparison of Weighted Mean FEV1 between Placebo and fluticasone propionate 0.25 mg BID.|||0.548|0.153|
82456098|NCT00857857|164616767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.71|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.56|0.9||||||||0.90|0.56|
82456099|NCT00857857|164616767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.66|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.53|0.82||||||||0.82|0.53|
82456100|NCT00857857|164616767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.59|STANDARD_ERROR_OF_MEAN|0.112|||TWO_SIDED|95.0|0.47|0.74||||||||0.74|0.47|
82456101|NCT00857857|164616767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.45|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.36|0.55||||||||0.55|0.36|
82456102|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.1086|||TWO_SIDED|95.0|-0.199|0.24|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5 minutes|||0.240|-0.199|
82456103|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.164|STANDARD_ERROR_OF_MEAN|0.1285|||TWO_SIDED|95.0|-0.096|0.424|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 10 minutes|||0.424|-0.096|
82456104|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.024|STANDARD_ERROR_OF_MEAN|0.1526|||TWO_SIDED|95.0|-0.285|0.333|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 15 minutes|||0.333|-0.285|
82456105|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.1471|||TWO_SIDED|95.0|-0.229|0.366|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 20 minutes|||0.366|-0.229|
82456106|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.011|STANDARD_ERROR_OF_MEAN|0.1313|||TWO_SIDED|95.0|-0.277|0.254|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 30 minutes|||0.254|-0.277|
82456107|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|95.0|-0.269|0.302|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 45 minutes|||0.302|-0.269|
82456108|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.1265|||TWO_SIDED|95.0|-0.21|0.301|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 1 hour|||0.301|-0.210|
82456109|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045|STANDARD_ERROR_OF_MEAN|0.1102|||TWO_SIDED|95.0|-0.178|0.268|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 1.5 hours|||0.268|-0.178|
82456110|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.096|STANDARD_ERROR_OF_MEAN|0.0985|||TWO_SIDED|95.0|-0.103|0.295|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 2 hours|||0.295|-0.103|
82456111|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045|STANDARD_ERROR_OF_MEAN|0.0826|||TWO_SIDED|95.0|-0.121|0.212|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 2.5 hours|||0.212|-0.121|
82456112|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.0832|||TWO_SIDED|95.0|-0.141|0.196|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 3 hours|||0.196|-0.141|
82456113|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042|STANDARD_ERROR_OF_MEAN|0.0888|||TWO_SIDED|95.0|-0.138|0.221|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 3.5 hours|||0.221|-0.138|
82456114|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.0934|||TWO_SIDED|95.0|-0.215|0.162|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 4 hour|||0.162|-0.215|
82456115|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.1065|||TWO_SIDED|95.0|-0.076|0.354|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 4.5 hours|||0.354|-0.076|
82456116|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.149|STANDARD_ERROR_OF_MEAN|0.0955|||TWO_SIDED|95.0|-0.044|0.342|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5 hours|||0.342|-0.044|
82456117|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.1005|||TWO_SIDED|95.0|-0.119|0.288|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 5.5 hours|||0.288|-0.119|
82456118|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.212|STANDARD_ERROR_OF_MEAN|0.1122|||TWO_SIDED|95.0|-0.015|0.438|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 6 hours|||0.438|-0.015|
82456119|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.162|STANDARD_ERROR_OF_MEAN|0.1051|||TWO_SIDED|95.0|-0.051|0.374|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 6.5 hours|||0.374|-0.051|
82456120|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.1181|||TWO_SIDED|95.0|-0.017|0.461|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 7 hour|||0.461|-0.017|
82456121|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.185|STANDARD_ERROR_OF_MEAN|0.1355|||TWO_SIDED|95.0|-0.089|0.458|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 7.5 hours|||0.458|-0.089|
82456122|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.247|STANDARD_ERROR_OF_MEAN|0.1187|||TWO_SIDED|95.0|0.007|0.487|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 8 hours|||0.487|0.007|
82456123|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.244|STANDARD_ERROR_OF_MEAN|0.1313|||TWO_SIDED|95.0|-0.021|0.509|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 8.5 hours|||0.509|-0.021|
82456124|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.1189|||TWO_SIDED|95.0|-0.086|0.394|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 9 hours|||0.394|-0.086|
82456125|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.175|STANDARD_ERROR_OF_MEAN|0.1085|||TWO_SIDED|95.0|-0.044|0.394|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 9.5 hours|||0.394|-0.044|
82456126|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.085|STANDARD_ERROR_OF_MEAN|0.1024|||TWO_SIDED|95.0|-0.122|0.292|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at 10 hours|||0.292|-0.122|
82438408|NCT02163967|164584379|OTHER||||||<|0.001|||||||Chi-squared|||The null hypothesis is that there will be no difference in the number of side effects reported during either dose of stimulation compared to sham stimulation. Statistical differences were examined for light flickering in peripheral vision . Other side effects were reported by too few subjects to be analyzed statistically.||||<.001
82438409|NCT02163967|164584380|OTHER|||||||0.81||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons were made using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.||||||0.81
82438410|NCT02163967|164584381|OTHER|||||||0.47||||||Mixed effects regression model, a nested (within subject) random intercept for dose, fixed effects for age, dose, time and dose x time interaction. Significance level p=.05, Bonferonni correction was used for post-hoc tests.|Regression, Linear|Post-hoc comparisons were made using least-square means. Kenward-Roger adjustments to denominator degrees of freedom.||||||0.47
82438411|NCT01972308|164584382|SUPERIORITY||Group differences in expected 12 month c|-0.31|||||TWO_SIDED|95.0|-0.64|0.04||||||||0.04|-0.64|
82438412|NCT01972308|164584383|SUPERIORITY||Group differences in expected 12 month c|-0.66|||||TWO_SIDED|95.0|-1.38|-0.01||||||||-0.01|-1.38|
82438413|NCT01972308|164584384|SUPERIORITY||Group differences in expected 12 month c|0.06|||||TWO_SIDED|95.0|-0.33|0.43||||||||0.43|-0.33|
82438414|NCT01972308|164584385|SUPERIORITY||Group differences in expected 12 month c|0.02|||||TWO_SIDED|95.0|-0.42|0.48||||||||0.48|-0.42|
82438415|NCT01972308|164584386|SUPERIORITY||Group differences in expected 12 month c|0.04|||||TWO_SIDED|95.0|-0.1|0.19||||||||0.19|-0.10|
82438416|NCT01972308|164584387|SUPERIORITY||Group differences in expected 12 month c|0.12|||||TWO_SIDED|95.0|-0.24|0.6||||||||0.60|-0.24|
82438417|NCT01562314|164584421|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.821||||0.7532|TWO_SIDED|90.0|0.292|2.309|||Regression, Logistic|||||2.309|0.292|0.7532
82438418|NCT01562314|164584422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.7032|TWO_SIDED|90.0|0.419|4.04|||Regression, Logistic|||||4.040|0.419|0.7032
82438419|NCT02851797|164584441|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in 4SC at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|generalised least square mean ratio|0.86|||=|0.0345|TWO_SIDED|95.0|0.745|0.989||LS Means, CIs, and p-values are obtained from ANCOVA model on change from baseline in 4SC at Month 18 with baseline values for: the above mentioned parameters as covariates, with steroid use and treatment group as independent classificat factors.|ANCOVA||LS Means, CIs, and p-values are obtained from ANCOVA model on change from baseline in 4SC at Month 18 with baseline values for: the above mentioned parameters as covariates, with steroid use and treatment group as independent classificat factors.|Log transformation applied||0.989|0.745|=0.0345
82438420|NCT02851797|164584442|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in time to rise from the Floor at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 m, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|difference in least square means|-3.28|||=|0.3044|TWO_SIDED|95.0|-9.573|3.018||See comment above|ANCOVA||See comment above|||3.018|-9.573|=0.3044
82438421|NCT02851797|164584443|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in distance walked at the end of the 6-minute walking test (6MWT) at Month 18 with baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|9.96|||=|0.3723|TWO_SIDED|95.0|-12.071|31.983||See comment above|ANCOVA|LS means, CIs, p-values were obtained from analysis of covariance model on change from baseline in distance walked at the end of the 6MWT at Month18.|See comment above|||31.983|-12.071|=0.3723
82438422|NCT02851797|164584444|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in total NSAA score at Month 18 with baseline values for: total NSAA score, 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|1.91|||=|0.0209|TWO_SIDED|95.0|0.295|3.533||Same comment as above|ANCOVA||Same comment as above.|||3.533|0.295|=0.0209
82438423|NCT02851797|164584445|SUPERIORITY|Estimated cumulative failures, ratio of cumulative failures, CIs, and p-values are obtained from a negative binomial regression on the subject cumulative number of failures across all post-baseline visits. Total failed items at baseline, baseline values for: 4SC, time to rise from floor, time to run/walk 10 metres, distance walked in 6 minutes and re-derived age at first dose were included as independent covariates, with treatment group and steroid use included as indep classification factors.|Ratio of cumulative failures|0.61|||=|0.0202|TWO_SIDED|95.0|0.408|0.927||same comment as above|negative binomial regression model|Estimated cumulative failures, their ratio were obtained from a negative binomial regression on the cumulative N of failures across all visits.|"A lower ratio indicates a greater reduction in cumulative loss of function across 18 months for givinostat compared with placebo.~See also comment above."|||0.927|0.408|=0.0202
82438424|NCT02851797|164584446|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in normalised muscle strength at Month 18 with baseline normalised muscle strength and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|0.19|||=|0.0902|TWO_SIDED|95.0|-0.03|0.401||same comment as above|ANCOVA||same comment as above|Overall knee extension||0.401|-0.030|=0.0902
82456127|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072|STANDARD_ERROR_OF_MEAN|0.1125|||TWO_SIDED|95.0|-0.155|0.3|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5 minutes|||0.300|-0.155|
82456128|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.051|STANDARD_ERROR_OF_MEAN|0.1303|||TWO_SIDED|95.0|-0.213|0.314|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 10 minutes|||0.314|-0.213|
82649561|NCT00323609|165014754|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at pre-discharge.||||0.472
82438425|NCT02851797|164584446|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in normalised muscle strength at Month 18 with baseline normalised muscle strength and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|0.09|||=|0.1818|TWO_SIDED|95.0|-0.041|0.213||same comment as above|ANCOVA||same comment as above|Overall elbow flexion||0.213|-0.041|=0.1818
82438426|NCT02851797|164584447|SUPERIORITY|LS Means, CIs, and p-values are obtained from an analysis of covariance (ANCOVA) model on change from baseline in VL MFF at Month 18 with baseline VL MFF and re-derived age at first dose fitted as covariates, with concomitant steroid use and treatment group as independent classification factors.|Difference in least square means|-2.92|||=|0.0354|TWO_SIDED|95.0|-5.641|-0.204||Same comment as above|ANCOVA||Same comment as above|||-0.204|-5.641|=0.0354
82438427|NCT04295681|164584465|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.0006|TWO_SIDED|95.0|0.47|1.7|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of MoCA scores (90th day of treatment minus baseline) were compared.||1.70|0.47|0.0006
82438428|NCT04295681|164584466|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.58|0.37|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of NIHSS scores (baseline minus 12th day of treatment) were compared.||0.37|-0.58|0.67
82438429|NCT04295681|164584466|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.94|TWO_SIDED|95.0|-0.47|0.5|||t-test, 2 sided||"Estimated value is calculated as MMH-MAP minus Placebo difference in mean MoCA scores changes."|Mean changes of NIHSS scores (baseline minus 90th day of treatment) were compared.||0.50|-0.47|0.94
82438430|NCT04295681|164584467|SUPERIORITY|||||||0.89|||||||Fisher Exact|||Test for comparison percentage of patients with no significant disabilities after 90 days of treatment .||||0.89
82438431|NCT04295681|164584468|SUPERIORITY|||||||0.067|||||||Wilcoxon (Mann-Whitney)|||Therapeutic effect score comparison on 90th day of treatment.||||0.067
82438432|NCT04295681|164584468|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Side effects score comparison on 90th day of treatment.||||0.81
82438433|NCT04295681|164584468|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Efficacy index score comparison on 90th day of treatment.||||0.17
82438434|NCT04295681|164584469|SUPERIORITY|||||||0.656|||||||Fisher Exact|||The percentage of participants having at least one adverse event were compared.||||0.656
82438435|NCT04295681|164584470|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82438436|NCT04295681|164584472|SUPERIORITY|||||||0.96|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.96
82438437|NCT04295681|164584473|SUPERIORITY|||||||0.96|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.96
82438438|NCT04295681|164584474|SUPERIORITY|||||||0.438|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Systolic blood pressure. Analysis of varience (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.438
82438439|NCT04295681|164584474|SUPERIORITY|||||||0.56|||||||ANOVA|"P-value for interaction between factors Treatment and Visit is demonstrated."||"Diastolic blood pressure. Analysis of variance (ANOVA) for repeated measures has been used. Factors are Treatment, Visit and interaction Treatment-Visit. Significance of interaction as a factor representing difference in outcome value dynamics has been tested."||||0.56
82438440|NCT04295681|164584475|SUPERIORITY|||||||0.72|||||||Fisher Exact|||Comparison at the baseline.||||0.72
82438441|NCT04295681|164584475|SUPERIORITY|||||||1|||||||Fisher Exact|||Comparison on 90th day of treatment.||||1
82438442|NCT04295681|164584476|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82438443|NCT01425359|164584482|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Angina frequency was compared by fitting a generalized linear model with log link and negative binomial distribution response.|Generalized linear model|||||||0.008
82438444|NCT01425359|164584483|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Sublingual nitroglycerin use frequency was compared by fitting a generalized linear model with log link and negative binomial distribution response.|Generalized linear model|||||||0.003
82438445|NCT00744978|164584488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.3873|TWO_SIDED|95.0|-1.37|0.53||ANCOVA model using unstructured covariance structure; Type I error rate for primary hypothesis was 5%; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.53|-1.37|0.3873
82438446|NCT00744978|164584489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.2465|TWO_SIDED|95.0|-0.39|1.49||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.49|-0.39|0.2465
82438447|NCT00744978|164584490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.2092|TWO_SIDED|95.0|-0.33|1.5||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.50|-0.33|0.2092
82438448|NCT00744978|164584491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.4339|TWO_SIDED|95.0|-1.3|0.56||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.56|-1.30|0.4339
82540993|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.8765|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.8765
82540994|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.14||0.8469|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.8469
82540995|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.9717|ONE_SIDED|95.0|-0.5||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.50|0.9717
82540996|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.7591|ONE_SIDED|95.0|-0.29||||Mixed Models Analysis|||Breathlessness, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.29|0.7591
82540997|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.7141|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7141
82540998|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.8104|ONE_SIDED|95.0|-0.42||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.42|0.8104
82540999|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.15||0.7664|ONE_SIDED|95.0|-0.35||||Mixed Models Analysis|||Breathlessness, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.35|0.7664
82541000|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.7888|ONE_SIDED|95.0|-0.31||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.31|0.7888
82541001|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.393|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.3930
82578015|NCT01647542|164865347|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.07|-0.57||Stepwise Comparison: 1) TAK-875 50 mg versus (vs.) placebo, 2) TAK-875 25 mg vs. placebo. Step 2 was performed only if p-value at step 1 was \<=0.050.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||Assuming a standard deviation of 0.9% in change from baseline in HbA1c to Week 24 and a dropout rate of 15%, 210 participants per group provided at least 95% power to detect a treatment difference of 0.5% between treatment arms at a 2-sided significance level of 0.05.||-0.57|-1.07|<0.001
82438449|NCT00744978|164584492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9745|TWO_SIDED|95.0|-0.26|0.27|||ANCOVA|||Difference from placebo analyzed using a mixed effects linear model with subject (nested within sequence) as a random effect, and stratum, site, period, sequence, and treatment as fixed effects.||0.27|-0.26|0.9745
82541002|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.11||0.4785|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.4785
82541003|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.6756|ONE_SIDED|95.0|-0.34||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.34|0.6756
82438450|NCT00744978|164584493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.2852|TWO_SIDED|95.0|-0.57|1.92||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.92|-0.57|0.2852
82541004|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.2627|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.2627
82541005|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.2281|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2281
82541006|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.16||0.7656|ONE_SIDED|95.0|-0.38||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.38|0.7656
82578016|NCT01647542|164865348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.001|TWO_SIDED|95.0|2.99|10.72||No multiplicity adjustment.|Regression, Logistic|Treatment and baseline HbA1c as explanatory variables.||||10.72|2.99|<0.001
82578017|NCT01647542|164865348|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|1.81|6.49||No multiplicity adjustment.|Regression, Logistic|Treatment and baseline HbA1c as explanatory variables.||||6.49|1.81|<0.001
82438451|NCT00744978|164584494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.0468|TWO_SIDED|95.0|0.02|2.53||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||2.53|0.02|0.0468
82456129|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.142|STANDARD_ERROR_OF_MEAN|0.1572|||TWO_SIDED|95.0|-0.176|0.461|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 15 minutes|||0.461|-0.176|
82438452|NCT00744978|164584495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8811|TWO_SIDED|95.0|-0.02|0.03||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.03|-0.02|0.8811
82438453|NCT00744978|164584496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.083|TWO_SIDED|95.0|0.0|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.00|0.0830
82438454|NCT00744978|164584497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.7226|TWO_SIDED|95.0|-0.03|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.03|0.7226
82438455|NCT00744978|164584498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.5588|TWO_SIDED|95.0|-6.68|3.62||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Week 1: difference from placebo. Analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||3.62|-6.68|0.5588
82438456|NCT00744978|164584499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.15||||0.1173|TWO_SIDED|95.0|-9.34|1.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||1.05|-9.34|0.1173
82438457|NCT00744978|164584500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.6251|TWO_SIDED|95.0|-6.58|3.96||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||3.96|-6.58|0.6251
82438458|NCT00744978|164584501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9109|TWO_SIDED|95.0|-0.05|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.05|0.9109
82438459|NCT00744978|164584502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.6632|TWO_SIDED|95.0|-0.06|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.06|0.6632
82438460|NCT00744978|164584503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.545|TWO_SIDED|95.0|-0.07|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.07|0.5450
82438461|NCT00744978|164584504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.2799|TWO_SIDED|95.0|-0.02|0.05||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.05|-0.02|0.2799
82456130|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.094|STANDARD_ERROR_OF_MEAN|0.1494|||TWO_SIDED|95.0|-0.208|0.396|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 20 minutes|||0.396|-0.208|
82456131|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.1332|||TWO_SIDED|95.0|-0.212|0.327|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 30 minutes|||0.327|-0.212|
82456132|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.065|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|-0.224|0.354|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 45 minutes|||0.354|-0.224|
82456133|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.016|STANDARD_ERROR_OF_MEAN|0.1283|||TWO_SIDED|95.0|-0.276|0.243|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 1 hour|||0.243|-0.276|
82649562|NCT00323609|165014754|SUPERIORITY_OR_OTHER|||||||0.745||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 3 months.||||0.745
82649563|NCT00323609|165014754|SUPERIORITY_OR_OTHER|||||||0.565||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 12 months.||||0.565
82649564|NCT00323609|165014754|SUPERIORITY_OR_OTHER|||||||0.687||95.0||||P-value was obtained from ANCOVA with baseline value as covariate.|ANCOVA|||Statistical analysis at 24 months.||||0.687
82649565|NCT00397839|165014780|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.58|||<|0.001||95.0|1.41|3.76|||ANCOVA|||||3.76|1.41|<0.001
82541007|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.16||0.2105|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2105
82649566|NCT00397839|165014781|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.86||||0.118||95.0|-0.22|1.94|||ANCOVA|||||1.94|-0.22|0.118
82541008|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.14||0.2221|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Sputum, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.2221
82541009|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.4396|ONE_SIDED|95.0|-0.23||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.23|0.4396
82541010|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.15||0.2243|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.2243
82541011|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.3597|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Sputum, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.3597
82541012|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.14||0.203|ONE_SIDED|95.0|-0.12||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.12|0.2030
82541013|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.14||0.1207|ONE_SIDED|95.0|-0.07||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.07|0.1207
82541014|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.12||0.1836|ONE_SIDED|95.0|-0.09||||Mixed Models Analysis|||Sputum, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.09|0.1836
82541015|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.17||0.2359|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.2359
82541016|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.17||0.2861|ONE_SIDED|95.0|-0.18||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.18|0.2861
82541017|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.15||0.2151|ONE_SIDED|95.0|-0.13||||Mixed Models Analysis|||Sputum, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.13|0.2151
82541018|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.3545|ONE_SIDED|95.0|-0.21||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.21|0.3545
82578018|NCT01647542|164865349|SUPERIORITY_OR_OTHER||Least squares mean difference|-35.6|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-44.2|-26.9||No multiplicity adjustment.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value covariate.||||-26.9|-44.2|<0.001
82438462|NCT00744978|164584505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9675|TWO_SIDED|95.0|-0.03|0.04||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo aAnalyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.04|-0.03|0.9675
82456134|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.1118|||TWO_SIDED|95.0|-0.209|0.244|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 1.5 hours|||0.244|-0.209|
82541019|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.16||0.7102|ONE_SIDED|95.0|-0.35||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.35|0.7102
82541020|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.14||0.3883|ONE_SIDED|95.0|-0.19||||Mixed Models Analysis|||Sputum, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.19|0.3883
82541021|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.16||0.2228|ONE_SIDED|95.0|-0.14||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.14|0.2228
82649567|NCT00397839|165014782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.13|||<|0.001||95.0|1.34|2.92|||ANCOVA|||Total Hip subgroup||2.92|1.34|<0.001
82649568|NCT00397839|165014782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.43||||0.012||95.0|0.32|2.55|||ANCOVA|||Femoral Neckm subgroup||2.55|0.32|0.012
82649569|NCT00397839|165014782|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.72||||0.004||95.0|0.56|2.88|||ANCOVA|||Trochanter subgroup||2.88|0.56|0.004
82649570|NCT00397839|165014783|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75|||<|0.001||95.0|1.11|2.4|||ANCOVA|||Total Hip subgroup||2.40|1.11|<0.001
82438463|NCT00744978|164584506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.5008|TWO_SIDED|95.0|-0.05|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.05|0.5008
82438464|NCT00744978|164584507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.2245|TWO_SIDED|95.0|-0.03|0.01||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.01|-0.03|0.2245
82438465|NCT00744978|164584508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.4974|TWO_SIDED|95.0|-0.03|0.01||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.01|-0.03|0.4974
82438466|NCT00744978|164584509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.8525|TWO_SIDED|95.0|-0.02|0.02||ANCOVA model using unstructured covariance structure; tested using a nominal 5% Type I error rate; no adjustments made for multiplicity.|ANCOVA|||Difference from placebo analyzed using a mixed effects longitudinal linear model with subject (nested within sequence) as a random effect and fixed effects stratum, site, period, sequence, treatment, week, and treatment by week.||0.02|-0.02|0.8525
82438467|NCT04077996|164584522|NON_INFERIORITY|The margin of non inferiority analysis was established at 30%.|Risk Ratio (RR)|1.11|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|95.0|0.91|1.3|||Chi-squared, Corrected|||Summary statistics were computed, and a significance level (α) of 5% has been established.||1.3|0.91|<0.05
82438468|NCT04077996|164584522|NON_INFERIORITY|margin 30%|Risk Ratio (RR)|1.0|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
82438469|NCT04077996|164584523|NON_INFERIORITY|The margin was established at 30%.|Risk Ratio (RR)|1.0|STANDARD_DEVIATION|95.0|<|0.05|TWO_SIDED|1.0|0.14|6.6|||Fisher Exact|||||6.6|0.14|<0.05
82438470|NCT03650803|164584529|OTHER|Significance (alpha) set to 0.05||||||0.046|||||||t-test, 1 sided|||MRF T1 Changes||||0.046
82438471|NCT03650803|164584529|OTHER|Significance (alpha) set to 0.05||||||0.064|||||||t-test, 2 sided|||MRF T2 Changes||||0.064
82438472|NCT03650803|164584530|OTHER|Significance (alpha) set to 0.05||||||0.82|||||||t-test, 2 sided|||MRF T1 relaxation time||||0.820
82438473|NCT03650803|164584530|OTHER|Significance (alpha) set to 0.05||||||0.605|||||||t-test, 2 sided|||MRF T2 relaxation time||||0.605
82438474|NCT03655301|164584567|OTHER||Least squares mean|0.9405|||||TWO_SIDED|90.0|0.8093|1.0931||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of Cmax||1.0931|0.8093|
82438475|NCT03655301|164584568|OTHER||Least squares mean|1.1205|||||TWO_SIDED|90.0|1.0|1.2555||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of AUC(0-24)||1.2555|1.0000|
82438476|NCT03655301|164584569|OTHER||Least squares mean|1.1147|||||TWO_SIDED|90.0|0.9772|1.2714||||||Day 8 (with copanlisib) to Day 1 (without copanlisib) ratio of AUC||1.2714|0.9772|
82438477|NCT01639339|164584578|OTHER||Odds Ratio (OR)|1.55||||0.0311|TWO_SIDED|95.0|1.04|2.32||P-value was calculated using logistic regression model. Test 1 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.32|1.04|0.0311
82438478|NCT01639339|164584579|OTHER||Odds Ratio (OR)|1.74||||0.0167|TWO_SIDED|95.0|1.11|2.74||P-value was calculated using logistic regression model. Test 2 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.74|1.11|0.0167
82438479|NCT01639339|164584580|OTHER||Odds Ratio (OR)|1.59||||0.0245|TWO_SIDED|95.0|1.06|2.38||P-value was calculated using logistic regression model. Test 3 of 5 in a step-down sequential testing procedure.|Regression, Logistic||Treatment comparison between Belimumab 10 mg/kg and placebo using odds ratio and its corresponding 95% confidence interval has been presented.|||2.38|1.06|0.0245
82438480|NCT01639339|164584581|OTHER||Cox Proportional Hazard|0.51||||0.0014|TWO_SIDED|95.0|0.34|0.77||P-value was calculated using Cox proportional hazards model. Test 4 of 5 in a step-down sequential testing procedure.|Cox proportional hazards model||Treatment comparison between Belimumab 10 mg/kg and placebo using Cox proportional hazards ratio and its corresponding 95% confidence interval has been presented.|||0.77|0.34|0.0014
82438481|NCT01639339|164584582|OTHER|||||||0.0096||||||P-value is rank analysis of covariance model comparing Belimumab and Placebo with covariates for treatment group, induction regimen(CYC vs MMF),race(Black vs Non-black), Baseline uPCR, and eGFR. Test 5 of 5 in step-down sequential testing procedure.|Rank ANCOVA|||||||0.0096
82438482|NCT00367744|164584587|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment groups were compared for change in limb fat using a two-sided signed rank test||The primary outcome measure was the change in limb fat at 48 weeks between the rosiglitazone and placebo group.||||0.02
82438483|NCT02063867|164584610|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.17
82438484|NCT02063867|164584611|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.16
82438485|NCT02063867|164584612|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.43
82649571|NCT00397839|165014783|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.031||95.0|0.11|2.25|||ANCOVA|||Femoral Neck subgroup||2.25|0.11|0.031
82649572|NCT00397839|165014783|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.031||95.0|0.11|2.25|||ANCOVA|||Trochanter subgroup||2.25|0.11|0.031
82649573|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.91||||0.362||95.0|0.73|1.13|||Cochran-Mantel-Haenszel||Relative risk|Total Spine BMD at Month 6||1.13|0.73|0.362
82541022|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.6342|ONE_SIDED|95.0|-0.32||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.32|0.6342
82541023|NCT00430300|164781507|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.14||0.3141|ONE_SIDED|95.0|-0.16||||Mixed Models Analysis|||Sputum, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.16|0.3141
82438486|NCT02063867|164584619|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||<0.001
82438487|NCT02063867|164584620|SUPERIORITY|||||||0.0126||||||Remains significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.0126
82438488|NCT02063867|164584621|SUPERIORITY|||||||0.002||||||Remained significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.002
82438489|NCT02063867|164584622|SUPERIORITY|||||||0.0032||||||Remained significant after adjusting for multiple comparisons|Mixed Models Analysis|Assessed if hazard ratio between intervention vs baseline periods differs between study groups, accounting for clustering within hospitals||||||0.0032
82438490|NCT04376684|164584625|OTHER||Odds Ratio (OR)|1.32||||0.0456|TWO_SIDED|95.0|0.96|1.82||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.82|0.96|0.0456
82438491|NCT04376684|164584626|OTHER||Odds Ratio (OR)|1.04||||0.8574|TWO_SIDED|95.0|0.67|1.61||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.61|0.67|0.8574
82438492|NCT04376684|164584627|OTHER||Odds Ratio (OR)|0.86||||0.2057|TWO_SIDED|95.0|0.61|1.22||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.22|0.61|0.2057
82438493|NCT04376684|164584628|OTHER||Odds Ratio (OR)|0.79||||0.3061|TWO_SIDED|95.0|0.5|1.24||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.24|0.50|0.3061
82438494|NCT04376684|164584629|OTHER||Odds Ratio (OR)|0.91||||0.6665|TWO_SIDED|95.0|0.59|1.41||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.41|0.59|0.6665
82438495|NCT04376684|164584630|OTHER||Hazard Ratio (HR)|0.88||||0.1942|TWO_SIDED|95.0|0.65|1.18||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.18|0.65|0.1942
82438496|NCT04376684|164584631|OTHER||Hazard Ratio (HR)|0.9||||0.5324|TWO_SIDED|95.0|0.65|1.24||p-value is generated from a two-sided test|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.24|0.65|0.5324
82438497|NCT04376684|164584632|OTHER||Odds Ratio (OR)|1.09||||0.2871|TWO_SIDED|95.0|0.8|1.49||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.49|0.80|0.2871
82438498|NCT04376684|164584633|OTHER||Odds Ratio (OR)|1.16||||0.1754|TWO_SIDED|95.0|0.85|1.58||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.58|0.85|0.1754
82438499|NCT04376684|164584634|OTHER||Odds Ratio (OR)|1.29||||0.0616|TWO_SIDED|95.0|0.93|1.79||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.79|0.93|0.0616
82438500|NCT04376684|164584635|OTHER||Odds Ratio (OR)|1.17||||0.183|TWO_SIDED|95.0|0.84|1.63||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.63|0.84|0.1830
82438501|NCT04376684|164584636|OTHER||Odds Ratio (OR)|1.51||||0.0831|TWO_SIDED|95.0|0.95|2.39||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.39|0.95|0.0831
82456135|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.148|STANDARD_ERROR_OF_MEAN|0.0998|||TWO_SIDED|95.0|-0.35|0.053|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 2 hours|||0.053|-0.350|
82541024|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.27||0.27|ONE_SIDED|95.0|-0.28||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.28|0.2700
82578019|NCT01647542|164865349|SUPERIORITY_OR_OTHER||Least Squares mean Difference|-35.7|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-44.3|-27.1||No multiplicity adjustment.|Mixed Model Repeated Measures|Treatment, country, visit, and visit-by-treatment interaction as fixed factors, baseline value as covariate.||||-27.1|-44.3|<0.001
82578020|NCT01647542|164865350|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|29.72||0.846|TWO_SIDED|95.0|-57.9|69.6||No multiplicity adjustments.|ANCOVA|Treatment and country as fixed factors and baseline value as covariate.||||69.6|-57.9|0.846
82578021|NCT01647542|164865350|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-24.9|STANDARD_ERROR_OF_MEAN|30.4||0.427|TWO_SIDED|95.0|-90.1|40.3||No multiplicity adjustments.|ANCOVA|Treatment and country as fixed factors and baseline value as covariate.||||40.3|-90.1|0.427
82578022|NCT01040169|164865351|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82578023|NCT01040169|164865352|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82578024|NCT02367040|164865397|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.52||||2e-06|TWO_SIDED|95.0|0.393|0.688||1-sided p-value|Log Rank|||At primary completion date||0.688|0.393|0.000002
82578025|NCT02367040|164865397|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.557||||3e-06|TWO_SIDED|95.0|0.431|0.722||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||0.722|0.431|0.000003
82578026|NCT02367040|164865397|SUPERIORITY|PFS was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.643||||0.000199|TWO_SIDED|95.0|0.502|0.823||1-sided p-value|Log Rank|||At final analysis||0.823|0.502|0.000199
82578027|NCT02367040|164865398|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in ORR|32.99|||<|1e-06|TWO_SIDED|95.0|23.95|42.03||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||42.03|23.95|<0.000001
82578028|NCT02367040|164865398|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in ORR|30.67|||<|1e-06|TWO_SIDED|95.0|21.63|39.72||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||39.72|21.63|<0.000001
82649574|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.85||||0.044||95.0|0.72|1.01|||Cochran-Mantel-Haenszel||Relative risk|Total Spine BMD at Month 12||1.01|0.72|0.044
82578029|NCT02367040|164865399|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in CRR|19.27|||<|1e-06|TWO_SIDED|95.0|11.57|26.96||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||26.96|11.57|<0.000001
82649575|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46|||<|0.001||95.0|0.3|0.72|||Cochran-Mantel-Haenszel||Relative risk|Total Hip BMD at Month 6||0.72|0.30|<0.001
82438502|NCT04376684|164584637|OTHER||Odds Ratio (OR)|1.29||||0.2557|TWO_SIDED|95.0|0.83|2.0||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.00|0.83|0.2557
82456136|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.086|STANDARD_ERROR_OF_MEAN|0.0829|||TWO_SIDED|95.0|-0.253|0.082|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 2.5 hours|||0.082|-0.253|
82578030|NCT02367040|164865399|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in CRR|18.92||||1e-06|TWO_SIDED|95.0|11.11|26.73||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||26.73|11.11|0.000001
82578031|NCT02367040|164865400|SUPERIORITY|DOR was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Kaplan-Meier estimates|0.7||||0.030371|TWO_SIDED|95.0|0.481|1.018||1-sided p-value|Log Rank|||At primary completion date||1.018|0.481|0.030371
82578032|NCT02367040|164865400|SUPERIORITY|DOR was evaluated with the stratified log-rank test. HR and 95% CI were based on stratified Cox Regression Model.|Hazard Ratio (HR)|0.761||||0.051976|TWO_SIDED|95.0|0.547|1.059||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.059|0.547|0.051976
82578033|NCT02367040|164865401|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in DCR|4.43||||0.097339|TWO_SIDED|95.0|-2.26|11.12||1-sided p-value|Cochran-Mantel-Haenszel|||At primary completion date||11.12|-2.26|0.097339
82578034|NCT02367040|164865401|SUPERIORITY|P-value from Cochran-Mantel-Haenszel (CMH) test stratified|Difference in DCR|4.43||||0.097339|TWO_SIDED|95.0|-2.26|11.12||1-sided p-value|Cochran-Mantel-Haenszel|||At 2-year follow-up cut-off date||11.12|-2.26|0.097339
82578035|NCT02367040|164865402|SUPERIORITY|TTP was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.476|||<|1e-06|TWO_SIDED|95.0|0.357|0.635||1-sided p-value|Log Rank|||At primary completion date||0.635|0.357|<.000001
82578036|NCT02367040|164865402|SUPERIORITY|TTP was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.505|||<|1e-06|TWO_SIDED|95.0|0.387|0.659||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||0.659|0.387|<.000001
82578037|NCT02367040|164865403|SUPERIORITY|OS was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.972||||0.436458|TWO_SIDED|95.0|0.691|1.368||1-sided p-value|Log Rank|||||1.368|0.691|0.436458
82578038|NCT02367040|164865404|SUPERIORITY|Time to deterioration in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.06||||0.69261|TWO_SIDED|95.0|0.843|1.331||1-sided p-value|Log Rank|||At primary completion date||1.331|0.843|0.692610
82649576|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|||<|0.001||95.0|0.41|0.8|||Cochran-Mantel-Haenszel||Relative risk|Total Hip BMD at Month 12||0.80|0.41|<0.001
82649577|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||<|0.001||95.0|0.23|0.72|||Cochran-Mantel-Haenszel||Relative risk|Both Total Hip and Total Spine BMD at Month 6||0.72|0.23|<0.001
82649578|NCT00397839|165014784|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||<|0.001||95.0|0.33|0.75|||Cochran-Mantel-Haenszel||Relative risk|Both Total Hip and Total Spine BMD||0.75|0.33|<0.001
82649579|NCT02868281|165014785|OTHER||Odds Ratio (OR)|7.87||||0.027|TWO_SIDED|95.0|1.29|48.11|||Mixed effect logistic regression||The model included treatment, Baseline ACT total score, Baseline ACT total score squared, center, type of Baseline controller, gender and age, with the center as a random factor.|||48.11|1.29|0.027
82541025|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.26||0.1831|ONE_SIDED|95.0|-0.2||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.20|0.1831
82541026|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.23||0.1796|ONE_SIDED|95.0|-0.17||||Mixed Models Analysis|||Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.17|0.1796
82541027|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.8136|ONE_SIDED|95.0|-0.79||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.79|0.8136
82541028|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6877|ONE_SIDED|95.0|-0.66||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.66|0.6877
82438503|NCT04376684|164584638|OTHER||Odds Ratio (OR)|1.04||||0.856|TWO_SIDED|95.0|0.67|1.61||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.61|0.67|0.8560
82438504|NCT04376684|164584639|OTHER||Odds Ratio (OR)|1.07||||0.7533|TWO_SIDED|95.0|0.69|1.66||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.66|0.69|0.7533
82438505|NCT04376684|164584640|OTHER||Hazard Ratio (HR)|1.12||||0.0959|TWO_SIDED|95.0|0.95|1.32||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.32|0.95|0.0959
82438506|NCT04376684|164584641|OTHER||Hazard Ratio (HR)|1.12||||0.4421|TWO_SIDED|95.0|0.84|1.5||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.50|0.84|0.4421
82438507|NCT04376684|164584642|OTHER||Odds Ratio (OR)|1.14||||0.2814|TWO_SIDED|95.0|0.73|1.8||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.80|0.73|0.2814
82438508|NCT04376684|164584643|OTHER||Odds Ratio (OR)|1.04||||0.3901|TWO_SIDED|95.0|0.77|1.42||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.42|0.77|0.3901
82438509|NCT04376684|164584644|OTHER||Odds Ratio (OR)|1.01||||0.4763|TWO_SIDED|95.0|0.75|1.36||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.36|0.75|0.4763
82438510|NCT04376684|164584645|OTHER||Odds Ratio (OR)|1.14||||0.1973|TWO_SIDED|95.0|0.84|1.56||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.56|0.84|0.1973
82438511|NCT04376684|164584646|OTHER||Odds Ratio (OR)|1.21||||0.1173|TWO_SIDED|95.0|0.88|1.67||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, and both clinical status at Baseline and age group as randomized. Missing data was imputed with monotone discriminant multiple imputation assuming data is missing at random.|||1.67|0.88|0.1173
82438512|NCT04376684|164584647|OTHER||Odds Ratio (OR)|3.98||||0.0037|TWO_SIDED|95.0|1.57|10.13||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||10.13|1.57|0.0037
82438513|NCT04376684|164584648|OTHER||Odds Ratio (OR)|1.26||||0.3581|TWO_SIDED|95.0|0.77|2.06||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||2.06|0.77|0.3581
82438514|NCT04376684|164584649|OTHER||Odds Ratio (OR)|0.99||||0.9621|TWO_SIDED|95.0|0.63|1.54||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.54|0.63|0.9621
82438515|NCT04376684|164584650|OTHER||Odds Ratio (OR)|0.83||||0.4167|TWO_SIDED|95.0|0.54|1.29||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.29|0.54|0.4167
82456137|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.0843|||TWO_SIDED|95.0|-0.211|0.13|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 3 hours|||0.130|-0.211|
82456138|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.161|0.202|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 3.5 hours|||0.202|-0.161|
82438516|NCT04376684|164584651|OTHER||Odds Ratio (OR)|0.81||||0.3408|TWO_SIDED|95.0|0.53|1.25||p-value is generated from a two-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||1.25|0.53|0.3408
82541029|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.27||0.6382|ONE_SIDED|95.0|-0.54||||Mixed Models Analysis|||Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.54|0.6382
82541030|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.36||0.766|ONE_SIDED|95.0|-0.87||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.87|0.7660
82541031|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.35||0.7226|ONE_SIDED|95.0|-0.8||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.80|0.7226
82541032|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.31||0.6634|ONE_SIDED|95.0|-0.65||||Mixed Models Analysis|||Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.65|0.6634
82541033|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.35||0.7598|ONE_SIDED|95.0|-0.83||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.83|0.7598
82541034|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.34||0.53|ONE_SIDED|95.0|-0.59||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.59|0.5300
82541035|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.3||0.7054|ONE_SIDED|95.0|-0.66||||Mixed Models Analysis|||Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.66|0.7054
82541036|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.45||0.8851|ONE_SIDED|95.0|-1.3||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.30|0.8851
82541037|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.44||0.7575|ONE_SIDED|95.0|-1.05||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.05|0.7575
82541038|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.39||0.4325|ONE_SIDED|95.0|-0.58||||Mixed Models Analysis|||Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.58|0.4325
82541039|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.8934|ONE_SIDED|95.0|-1.41||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.41|0.8934
82541040|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.47||0.5283|ONE_SIDED|95.0|-0.82||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.82|0.5283
82541041|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.41||0.49|ONE_SIDED|95.0|-0.68||||Mixed Models Analysis|||Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.68|0.4900
82541042|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.51||0.7465|ONE_SIDED|95.0|-1.2||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.20|0.7465
82541043|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.51||0.5848|ONE_SIDED|95.0|-0.95||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.95|0.5848
82541044|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.44||0.3178|ONE_SIDED|95.0|-0.53||||Mixed Models Analysis|||Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.53|0.3178
82578039|NCT02367040|164865404|SUPERIORITY|Time to deterioration in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.047||||0.661145|TWO_SIDED|95.0|0.841|1.302||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.302|0.841|0.661145
82456139|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.0947|||TWO_SIDED|95.0|-0.196|0.186|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 4 hour|||0.186|-0.196|
82541045|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.52||0.8169|ONE_SIDED|95.0|-1.34||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.34|0.8169
82456140|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.113|STANDARD_ERROR_OF_MEAN|0.1079|||TWO_SIDED|95.0|-0.105|0.33|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 4.5 hours|||0.330|-0.105|
82541046|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.51||0.6727|ONE_SIDED|95.0|-1.08||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-1.08|0.6727
82541047|NCT00430300|164781508|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.45||0.5014|ONE_SIDED|95.0|-0.75||||Mixed Models Analysis|||Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-0.75|0.5014
82578040|NCT02367040|164865405|SUPERIORITY|Time to improvement in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|0.996||||0.510038|TWO_SIDED|95.0|0.732|1.355||1-sided p-value|Log Rank|||At primary completion date||1.355|0.732|0.510038
82456141|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.0968|||TWO_SIDED|95.0|-0.065|0.326|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5 hours|||0.326|-0.065|
82456142|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.007|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|95.0|-0.213|0.199|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 5.5 hours|||0.199|-0.213|
82456143|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.1138|||TWO_SIDED|95.0|-0.052|0.407|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 6 hours|||0.407|-0.052|
82541048|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|6.3||0.7292|ONE_SIDED|95.0|-14.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-14.3|0.7292
82541049|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|6.2||0.2768|ONE_SIDED|95.0|-6.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-6.6|0.2768
82578041|NCT02367040|164865405|SUPERIORITY|Time to improvement in DRS-P was evaluated with the stratified log-rank test. HR and 95% CI were based on Cox Regression Model.|Hazard Ratio (HR)|1.036||||0.40597|TWO_SIDED|95.0|0.768|1.398||1-sided p-value|Log Rank|||At 2-year follow-up cut-off date||1.398|0.768|0.405970
82578042|NCT01498887|164865464|SUPERIORITY_OR_OTHER|||||||0.3118|||||||Wilcoxon (Mann-Whitney)|||||||0.3118
82456144|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.135|STANDARD_ERROR_OF_MEAN|0.1065|||TWO_SIDED|95.0|-0.08|0.351|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 6.5 hours|||0.351|-0.080|
82456145|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.1198|||TWO_SIDED|95.0|-0.062|0.421|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 7 hour|||0.421|-0.062|
82456146|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.146|STANDARD_ERROR_OF_MEAN|0.1373|||TWO_SIDED|95.0|-0.131|0.423|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 7.5 hours|||0.423|-0.131|
82456147|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.1203|||TWO_SIDED|95.0|-0.075|0.411|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 8 hours|||0.411|-0.075|
82456148|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.222|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|95.0|-0.047|0.49|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 8.5 hours|||0.490|-0.047|
82456149|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.143|STANDARD_ERROR_OF_MEAN|0.1206|||TWO_SIDED|95.0|-0.1|0.387|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 9 hours|||0.387|-0.100|
82456150|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.187|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.035|0.41|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 9.5 hours|||0.410|-0.035|
82456151|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.1039|||TWO_SIDED|95.0|-0.042|0.378|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at 10 hours|||0.378|-0.042|
82456152|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.221|STANDARD_ERROR_OF_MEAN|0.1036|||TWO_SIDED|95.0|0.011|0.431|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5 minutes|||0.431|0.011|
82456153|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.244|STANDARD_ERROR_OF_MEAN|0.1236|||TWO_SIDED|95.0|-0.006|0.494|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 10 minutes|||0.494|-0.006|
82456154|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.255|STANDARD_ERROR_OF_MEAN|0.1445|||TWO_SIDED|95.0|-0.038|0.548|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 15 minutes|||0.548|-0.038|
82456155|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.233|STANDARD_ERROR_OF_MEAN|0.1436|||TWO_SIDED|95.0|-0.057|0.524|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 20 minutes|||0.524|-0.057|
82456156|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.219|STANDARD_ERROR_OF_MEAN|0.1262|||TWO_SIDED|95.0|-0.036|0.474|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 30 minutes|||0.474|-0.036|
82456157|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.294|STANDARD_ERROR_OF_MEAN|0.1355|||TWO_SIDED|95.0|0.019|0.568|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 45 minutes|||0.568|0.019|
82456158|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.227|STANDARD_ERROR_OF_MEAN|0.1216|||TWO_SIDED|95.0|-0.019|0.473|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 1 hour|||0.473|-0.019|
82456159|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1059|||TWO_SIDED|95.0|-0.01|0.418|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 1.5 hours|||0.418|-0.010|
82541050|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.4||0.3795|ONE_SIDED|95.0|-7.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-7.4|0.3795
82578043|NCT02993406|164865483|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.004|TWO_SIDED|95.0|0.79|0.96|||Log Rank|||||0.96|0.79|0.004
82578044|NCT02993406|164865484|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0058|TWO_SIDED|95.0|0.76|0.96|||Log Rank|||||0.96|0.76|0.0058
82541051|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|7.7||0.7374|ONE_SIDED|95.0|-17.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-17.7|0.7374
82541052|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.6||0.7615|ONE_SIDED|95.0|-18.1||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-18.1|0.7615
82438517|NCT04376684|164584652|OTHER||Hazard Ratio (HR)|1.02||||0.425|TWO_SIDED|95.0|0.85|1.23||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.23|0.85|0.4250
82541053|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|6.6||0.5811|ONE_SIDED|95.0|-12.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.4|0.5811
82578045|NCT02993406|164865485|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0016|TWO_SIDED|95.0|0.66|0.91|||Log Rank|||||0.91|0.66|0.0016
82578046|NCT02993406|164865486|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0013|TWO_SIDED|95.0|0.72|0.92|||Log Rank|||||0.92|0.72|0.0013
82438518|NCT04376684|164584653|OTHER||Hazard Ratio (HR)|1.13||||0.4774|TWO_SIDED|95.0|0.81|1.59||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.59|0.81|0.4774
82438519|NCT04376684|164584654|OTHER||Odds Ratio (OR)|0.4||||0.0119|TWO_SIDED|95.0|0.18|0.89||p-value is from a one-sided test.|Regression, Logistic||Analysis performed using logistic regression adjusted for treatment, age, and both clinical status at Baseline and sex as randomized. Missing data was imputed with monotone logistic multiple imputation assuming data is missing at random.|||0.89|0.18|0.0119
82438520|NCT04376684|164584655|OTHER||Hazard Ratio (HR)|1.02||||0.4404|TWO_SIDED|95.0|0.83|1.24||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.24|0.83|0.4404
82438521|NCT04376684|164584656|OTHER||Hazard Ratio (HR)|1.11||||0.6253|TWO_SIDED|95.0|0.72|1.72||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.72|0.72|0.6253
82438522|NCT04376684|164584657|OTHER||Hazard Ratio (HR)|1.11||||0.1078|TWO_SIDED|95.0|0.94|1.3||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.30|0.94|0.1078
82438523|NCT04376684|164584658|OTHER||Hazard Ratio (HR)|1.11||||0.114|TWO_SIDED|95.0|0.94|1.31||p-value is from a one-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized and age group as randomized.|||1.31|0.94|0.1140
82438524|NCT04376684|164584659|OTHER||Hazard Ratio (HR)|1.06||||0.7084|TWO_SIDED|95.0|0.8|1.4||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.40|0.80|0.7084
82438525|NCT04376684|164584660|OTHER||Hazard Ratio (HR)|1.13||||0.4085|TWO_SIDED|95.0|0.84|1.52||p-value is generated from a two-sided test.|Regression, Cox||Model adjusted analysis performed using a Cox proportional hazards model adjusted by treatment, clinical status at Baseline as randomized, sex as randomized and age.|||1.52|0.84|0.4085
82438526|NCT02950155|164584739|SUPERIORITY||probability ratio|2.48||||0.007|TWO_SIDED|95.0|1.2|5.11|||Fisher Exact|||The primary end-point was analyzed as an intention-to-treat analysis, with Fisher's exact test of the difference in proportion, with α=0·05 to indicate statistically significant difference||5.11|1.20|0.007
82438527|NCT02950155|164584740|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.79|TWO_SIDED|95.0|-4.4|2.1|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||2.1|-4.4|0.79
82438528|NCT02950155|164584741|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.34|TWO_SIDED|95.0|-3.3|0.8|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||0.8|-3.3|0.34
82438529|NCT02950155|164584742|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.47|TWO_SIDED|95.0|-8.2|3.8|||Wilcoxon (Mann-Whitney)|||Subjects receiving rescue treatment before evaluation being censored (per-protocol analysis)||3.8|-8.2|0.47
82438530|NCT02950155|164584743|SUPERIORITY||probability ratio|1.89||||0.036|TWO_SIDED|95.0|1.04|3.44|||Fisher Exact|||||3.44|1.04|0.036
82438531|NCT03569748|164584750|NON_INFERIORITY|Margin=0.04|Proportion Difference|0.1342||||0.0051|TWO_SIDED|95.0|0.0014|0.2671|||Chi-squared, Corrected|||H0: P1-P2 ≤ -Margin||0.2671|0.0014|0.0051
82438532|NCT03569748|164584751|SUPERIORITY|||||||0.0003|||||||Fisher Exact|||||||0.0003
82438533|NCT03569748|164584752|SUPERIORITY||Percentage Difference|14.2||||0.0003|TWO_SIDED||||||Chi-squared, Corrected|||||||0.0003
82438534|NCT02979093|164584757|SUPERIORITY||Mean Difference (Final Values)|0.1697|STANDARD_ERROR_OF_MEAN|0.1025||0.106|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Striatum: Happy Own vs. Happy Unknown||||0.106
82438535|NCT02979093|164584757|SUPERIORITY||Mean Difference (Final Values)|0.20458|STANDARD_ERROR_OF_MEAN|0.1101||0.0709|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for the Amygdala: Happy Own vs. Happy Unknown infant faces.||||0.0709
82438536|NCT02979093|164584757|SUPERIORITY||Mean Difference (Final Values)|-0.14559|STANDARD_ERROR_OF_MEAN|0.08546||0.0964|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Striatum: Sad Own vs. Sad Unknown infant faces.||||0.0964
82438537|NCT02979093|164584757|SUPERIORITY||Mean Difference (Final Values)|-0.15755|STANDARD_ERROR_OF_MEAN|0.07914||0.0538|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||This analysis is for Amygdala: Sad Own vs. Sad Unknown infant faces.||||0.0538
82578047|NCT02993406|164865487|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1593|TWO_SIDED|95.0|0.67|1.07|||Log Rank|||||1.07|0.67|0.1593
82649580|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.222|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.222
82438538|NCT02979093|164584758|SUPERIORITY||Mean Difference (Final Values)|0.09778|STANDARD_ERROR_OF_MEAN|0.09687||0.319|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (Addiction vs. Control) and condition (Oxytocin \[OT\] vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on OT vs. placebo for Ventromedial prefrontal cortex (vmPFC) for happy own vs. happy unknown infant faces."||||0.319
82438539|NCT02979093|164584758|SUPERIORITY||Mean Difference (Final Values)|-0.15289|STANDARD_ERROR_OF_MEAN|0.10968||0.171|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on addiction vs. control for vmPFC for Happy Own vs. Happy Unknown infant faces."||||0.171
82438540|NCT02979093|164584758|SUPERIORITY||Mean Difference (Final Values)|-0.20839|STANDARD_ERROR_OF_MEAN|0.08405||0.0179|TWO_SIDED|||||Unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on OT vs placebo for Dorsolateral Prefrontal Cortex (dlPFC) for Sad Own vs. Sad Unknown infant faces."||||0.0179
82438541|NCT02979093|164584758|SUPERIORITY||Mean Difference (Final Values)|0.04315|STANDARD_ERROR_OF_MEAN|0.11827||0.7171|TWO_SIDED|||||unadjusted|Mixed Models Analysis|||"This is a mixed effects model with group (addiction vs. control) and condition (OT vs Placebo).~Both variables were included in the model. The interaction effect was tested but not included in the model. This result focuses on addiction vs. control for dlPFC for Sad Own vs. Sad Unknown infant faces."||||0.7171
82438542|NCT02333396|164584821|SUPERIORITY||Beta Estimate|3.57|STANDARD_ERROR_OF_MEAN|4.53||0.44|TWO_SIDED|95.0|-5.77|12.9|||Mixed Models Analysis|||||12.9|-5.77|0.44
82438543|NCT02333396|164584822|SUPERIORITY||Beta Estimate|3.62|STANDARD_ERROR_OF_MEAN|2.05||0.09|TWO_SIDED|95.0|-0.61|7.84|||Mixed Models Analysis|||||7.84|-0.61|0.09
82438544|NCT02333396|164584823|SUPERIORITY||Beta Estimate|4.13|STANDARD_ERROR_OF_MEAN|2.05||0.05|TWO_SIDED|95.0|-0.09|8.36|||Mixed Models Analysis|||||8.36|-0.09|0.05
82438545|NCT02333396|164584824|SUPERIORITY||Beta Estimare|3.02|STANDARD_ERROR_OF_MEAN|2.26||0.19|TWO_SIDED|95.0|-1.63|7.67|||Mixed Models Analysis|||||7.67|-1.63|0.19
82438546|NCT02333396|164584825|SUPERIORITY||Beta Estimate|-0.22|STANDARD_ERROR_OF_MEAN|2.47||0.93|TWO_SIDED|95.0|-5.33|4.88|||Mixed Models Analysis|||||4.88|-5.33|0.93
82438547|NCT02333396|164584826|SUPERIORITY||Beta Estimate|-0.35|STANDARD_ERROR_OF_MEAN|1.29||0.79|TWO_SIDED|95.0|-3.02|2.31|||Mixed Models Analysis|||||2.31|-3.02|0.79
82438548|NCT02333396|164584829|SUPERIORITY||Beta Estimate|0.49|STANDARD_ERROR_OF_MEAN|1.03||0.64|TWO_SIDED|95.0|-2.62|1.64|||Mixed Models Analysis|||||1.64|-2.62|0.64
82438549|NCT02333396|164584830|SUPERIORITY||Beta Estimate|-0.9|STANDARD_ERROR_OF_MEAN|1.03||0.39|TWO_SIDED|95.0|-3.02|1.22|||Mixed Models Analysis|||||1.22|-3.02|0.39
82438550|NCT02333396|164584832|SUPERIORITY||Beta Estiamte|1.72|STANDARD_ERROR_OF_MEAN|1.1||0.13|TWO_SIDED|95.0|-0.55|3.98|||Mixed Models Analysis|||||3.98|-0.55|0.13
82438551|NCT02333396|164584833|SUPERIORITY||Beta Estimate|1.72|STANDARD_ERROR_OF_MEAN|1.1||0.13|TWO_SIDED|95.0|-0.55|3.98|||Mixed Models Analysis|||||3.98|-0.55|0.13
82438552|NCT03219034|164584835|SUPERIORITY||Median Difference (Final Values)|3.8||||0.152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Cross-over design: Median differences between oral appliances at the end of the first 4-week leg of the study (T2). The hypothesis tested was that REI would be lowered more with Appliance A than B.||||0.152
82438553|NCT01926041|164584841|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.008|TWO_SIDED|95.0|0.48|0.84||Statistical significance levels were determined by two-tailed tests (P \< 0.05).|Regression, Cox|||||0.84|0.48|0.008
82438554|NCT01926041|164584842|SUPERIORITY||Cox Proportional Hazard|1.85||||0.023|TWO_SIDED|95.0|1.13|3.04||Statistical significance levels were determined by two-tailed tests (P \< 0.05).|Regression, Cox|||||3.04|1.13|0.023
82438555|NCT01926041|164584848|OTHER||Beta Coefficient|-0.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
82438556|NCT02136680|164584852|SUPERIORITY||Regression Coefficient|0.046||||0.4|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.400
82438557|NCT02136680|164584852|SUPERIORITY||Regression Coefficient|0.119||||0.022|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.022
82438558|NCT02136680|164584852|SUPERIORITY||Regression Coefficient|-0.003||||0.347|TWO_SIDED||||||Regression, Linear|||Change in Self-Esteem from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.347
82438559|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|-0.003||||0.959|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.959
82438560|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|0.143||||0.021|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.021
82438561|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|0.048||||0.454|TWO_SIDED||||||Regression, Linear|||Change in Global QOL from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.454
82438562|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|-0.015||||0.774|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from Baseline to First Follow-up||||0.774
82438563|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|0.137||||0.018|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.018
82578048|NCT02993406|164865488|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6227|TWO_SIDED|95.0|0.88|1.24|||Log Rank|||||1.24|0.88|0.6227
82578049|NCT02993406|164865489|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6608|TWO_SIDED|95.0|0.9|1.18|||Log Rank|||||1.18|0.90|0.6608
82438564|NCT02136680|164584853|SUPERIORITY||Regression Coefficient|0.051||||0.362|TWO_SIDED||||||Regression, Linear|||Change in Summary QOL from First Follow-up to Second Follow-up: Intervention Group vs. Control Group||||0.362
82438565|NCT02136680|164584854|SUPERIORITY||Regression Coefficient|-0.072||||0.213|TWO_SIDED||||||Regression, Linear|||Change in Palliative Outcomes from Baseline to First Follow-up: Intervention Group vs. Control Group||||0.213
82438566|NCT02136680|164584854|SUPERIORITY||Regression Coefficient|0.037||||0.561|TWO_SIDED||||||Regression, Linear|||Change in Palliative Outcomes from Baseline to Second Follow-up: Intervention Group vs. Control Group||||0.561
82438567|NCT02136680|164584854|SUPERIORITY|Change in Palliative Outcomes from First Follow-up to Second Follow-up: Intervention Group vs. Control Group|Regression Coefficient|0.165||||0.008|TWO_SIDED||||||Regression, Linear|||||||0.008
82438568|NCT02825420|164584865|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
82438569|NCT02825420|164584866|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
82438570|NCT02825420|164584867|SUPERIORITY|||||||0.62|||||||Log Rank|||||||0.62
82438571|NCT02825420|164584869|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.010
82438572|NCT02825420|164584871|SUPERIORITY|||||||0.048|||||||Log Rank|||||||0.048
82438573|NCT02825420|164584872|SUPERIORITY|||||||0.51|||||||Log Rank|||||||0.51
82456160|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.0947|||TWO_SIDED|95.0|-0.075|0.308|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 2 hours|||0.308|-0.075|
82456161|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.027|STANDARD_ERROR_OF_MEAN|0.0805|||TWO_SIDED|95.0|-0.136|0.19|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 2.5 hours|||0.190|-0.136|
82456162|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.0801|||TWO_SIDED|95.0|-0.116|0.208|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 3 hours|||0.208|-0.116|
82456163|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074|STANDARD_ERROR_OF_MEAN|0.0855|||TWO_SIDED|95.0|-0.099|0.247|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 3.5 hour|||0.247|-0.099|
82438574|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.136||0.499|TWO_SIDED|95.0|-0.36|0.18|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 3||0.18|-0.36|0.4990
82438575|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.135|<|0.0001|TWO_SIDED|95.0|-0.83|-0.29|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 3||-0.29|-0.83|<0.0001
82438576|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|-1.1|-0.56|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference is calculated as Test value minus Negative Control value.|Change from Baseline at Day 3||-0.56|-1.10|<0.0001
82438577|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.112||0.009|TWO_SIDED|95.0|-0.52|-0.08|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 14||-0.08|-0.52|0.0090
82438578|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.111|<|0.0001|TWO_SIDED|95.0|-0.89|-0.45|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 14||-0.45|-0.89|<0.0001
82438579|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.112|<|0.0001|TWO_SIDED|95.0|-1.66|-1.22|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 14||-1.22|-1.66|<0.0001
82456164|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.051|0.313|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 4 hours|||0.313|-0.051|
82456165|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.204|STANDARD_ERROR_OF_MEAN|0.1025|||TWO_SIDED|95.0|-0.004|0.411|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 4.5 hours|||0.411|-0.004|
82456166|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.181|STANDARD_ERROR_OF_MEAN|0.0918|||TWO_SIDED|95.0|-0.004|0.367|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5 hours|||0.367|-0.004|
82456167|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.0967|||TWO_SIDED|95.0|-0.018|0.373|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 5.5 hours|||0.373|-0.018|
82456168|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.288|STANDARD_ERROR_OF_MEAN|0.1079|||TWO_SIDED|95.0|0.07|0.506|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 6 hours|||0.506|0.070|
82456169|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.283|STANDARD_ERROR_OF_MEAN|0.1011|||TWO_SIDED|95.0|0.079|0.488|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 6.5 hours|||0.488|0.079|
82578050|NCT01399697|164865619|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||ANCOVA|||||||0.700
82438580|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.116||0.0007|TWO_SIDED|95.0|-0.63|-0.17|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 28||-0.17|-0.63|0.0007
82438581|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.116|<|0.0001|TWO_SIDED|95.0|-0.85|-0.39|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 28||-0.39|-0.85|<0.0001
82438582|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.85|-1.38|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 28||-1.38|-1.85|<0.0001
82456170|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.386|STANDARD_ERROR_OF_MEAN|0.1137|||TWO_SIDED|95.0|0.157|0.616|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 7 hour|||0.616|0.157|
82649581|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.156|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.156
82456171|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.372|STANDARD_ERROR_OF_MEAN|0.1306|||TWO_SIDED|95.0|0.108|0.636|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 7.5 hours|||0.636|0.108|
82456172|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.458|STANDARD_ERROR_OF_MEAN|0.1142|||TWO_SIDED|95.0|0.227|0.688|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 8 hours|||0.688|0.227|
82456173|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.509|STANDARD_ERROR_OF_MEAN|0.1264|||TWO_SIDED|95.0|0.254|0.765|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 8.5 hours|||0.765|0.254|
82456174|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.492|STANDARD_ERROR_OF_MEAN|0.1144|||TWO_SIDED|95.0|0.261|0.723|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 9 hours|||0.723|0.261|
82456175|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.414|STANDARD_ERROR_OF_MEAN|0.1042|||TWO_SIDED|95.0|0.203|0.625|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 9.5 hours|||0.625|0.203|
82456176|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.0984|||TWO_SIDED|95.0|0.241|0.639|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at 10 hours|||0.639|0.241|
82456177|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.348|STANDARD_ERROR_OF_MEAN|0.1056|||TWO_SIDED|95.0|0.135|0.562|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5 minutes|||0.562|0.135|
82456178|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.494|STANDARD_ERROR_OF_MEAN|0.1273|||TWO_SIDED|95.0|0.237|0.751|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 10 minutes|||0.751|0.237|
82456179|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.499|STANDARD_ERROR_OF_MEAN|0.1484|||TWO_SIDED|95.0|0.199|0.8|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 15 minutes|||0.800|0.199|
82456180|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.573|STANDARD_ERROR_OF_MEAN|0.1481|||TWO_SIDED|95.0|0.274|0.872|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 20 minutes|||0.872|0.274|
82456181|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.488|STANDARD_ERROR_OF_MEAN|0.1303|||TWO_SIDED|95.0|0.225|0.751|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 30 minutes|||0.751|0.225|
82456182|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.1398|||TWO_SIDED|95.0|0.098|0.663|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 45 minutes|||0.663|0.098|
82456183|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.342|STANDARD_ERROR_OF_MEAN|0.1254|||TWO_SIDED|95.0|0.089|0.596|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 1 hour|||0.596|0.089|
82456184|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.218|STANDARD_ERROR_OF_MEAN|0.1094|||TWO_SIDED|95.0|-0.003|0.439|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 1.5 hours|||0.439|-0.003|
82456185|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.0974||||95.0|-0.07|0.323|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 2 hours|||0.323|-0.070|
82456186|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.0818|||TWO_SIDED|95.0|-0.107|0.223|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 2.5 hours|||0.223|-0.107|
82456187|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.027|STANDARD_ERROR_OF_MEAN|0.0821|||TWO_SIDED|95.0|-0.192|0.139|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 3 hours|||0.139|-0.192|
82456188|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.091|STANDARD_ERROR_OF_MEAN|0.0876|||TWO_SIDED|95.0|-0.085|0.268|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 3.5 hours|||0.268|-0.085|
82456189|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.0921|||TWO_SIDED|95.0|-0.102|0.269|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 4 hour|||0.269|-0.102|
82456190|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.249|STANDARD_ERROR_OF_MEAN|0.105|||TWO_SIDED|95.0|0.038|0.461|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 4.5 hours|||0.461|0.038|
82456191|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.238|STANDARD_ERROR_OF_MEAN|0.0945|||TWO_SIDED|95.0|0.047|0.429|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5 hours|||0.429|0.047|
82456192|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.315|STANDARD_ERROR_OF_MEAN|0.0995|||TWO_SIDED|95.0|0.114|0.516|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 5.5 hours|||0.516|0.114|
82456193|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.1111|||TWO_SIDED|95.0|0.143|0.591|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 6 hours|||0.591|0.143|
82456194|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.361|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|95.0|0.151|0.571|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 6.5 hours|||0.571|0.151|
82456195|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.367|STANDARD_ERROR_OF_MEAN|0.1168|||TWO_SIDED|95.0|0.131|0.602|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 7 hour|||0.602|0.131|
82456196|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.424|STANDARD_ERROR_OF_MEAN|0.1336|||TWO_SIDED|95.0|0.155|0.694|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 7.5 hours|||0.694|0.155|
82456197|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.556|STANDARD_ERROR_OF_MEAN|0.1174|||TWO_SIDED|95.0|0.319|0.793|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 8 hours|||0.793|0.319|
82456198|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.593|STANDARD_ERROR_OF_MEAN|0.1297||||95.0|0.331|0.854|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 8.5 hours|||0.854|0.331|
82578051|NCT01399697|164865620|SUPERIORITY_OR_OTHER|||||||0.328|TWO_SIDED||||||Chi-squared|||||||0.328
82456199|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.559|STANDARD_ERROR_OF_MEAN|0.1177|||TWO_SIDED|95.0|0.322|0.797|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 9 hours|||0.797|0.322|
82456200|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.522|STANDARD_ERROR_OF_MEAN|0.1076||||95.0|0.304|0.739|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 9.5 hours|||0.739|0.304|
82456201|NCT00857857|164616773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.514|STANDARD_ERROR_OF_MEAN|0.1017||||95.0|0.308|0.719|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at 10 hours|||0.719|0.308|
82456202|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.295|STANDARD_ERROR_OF_MEAN|0.1038||||95.0|0.086|0.503|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 7|||0.503|0.086|
82456203|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.185|STANDARD_ERROR_OF_MEAN|0.0884|||TWO_SIDED|95.0|0.007|0.363|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 13|||0.363|0.007|
82456204|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.144|STANDARD_ERROR_OF_MEAN|0.1026|||TWO_SIDED|95.0|-0.062|0.351|||||Comparison of FEV1 between placebo and GW870086 0.25 mg OD at Day 14|||0.351|-0.062|
82456205|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.0979|||TWO_SIDED|95.0|0.133|0.527|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 7|||0.527|0.133|
82456206|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.081|STANDARD_ERROR_OF_MEAN|0.0856|||TWO_SIDED|95.0|-0.092|0.253|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 13|||0.253|-0.092|
82456207|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.076|0.327|||||Comparison of FEV1 between placebo and GW870086 1 mg OD at Day 14|||0.327|-0.076|
82438583|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.112||0.0015|TWO_SIDED|95.0|-0.59|-0.14|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 56||-0.14|-0.59|0.0015
82438584|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-1.05|-0.61|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 56||-0.61|-1.05|<0.0001
82438585|NCT05243745|164584929|SUPERIORITY||Adjusted Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.115|<|0.0001|TWO_SIDED|95.0|-1.95|-1.49|||ANCOVA|Analysis was performed using ANCOVA model with study product as a factor and baseline Schiff sensitivity score as a covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 56||-1.49|-1.95|<0.0001
82438586|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|5.93|STANDARD_ERROR_OF_MEAN|2.572||0.0231|TWO_SIDED|95.0|0.83|11.02|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 3||11.02|0.83|0.0231
82438587|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|18.42|STANDARD_ERROR_OF_MEAN|2.549|<|0.0001|TWO_SIDED|95.0|13.37|23.47|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 3||23.47|13.37|<0.0001
82456208|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.297|STANDARD_ERROR_OF_MEAN|0.0976|||TWO_SIDED|95.0|0.1|0.493|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 7|||0.493|0.100|
82456209|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.256|STANDARD_ERROR_OF_MEAN|0.0859|||TWO_SIDED|95.0|0.083|0.429|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 13|||0.429|0.083|
82438588|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|23.93|STANDARD_ERROR_OF_MEAN|2.571|<|0.0001|TWO_SIDED|95.0|18.83|29.02|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 3||29.02|18.83|<0.0001
82438589|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|8.97|STANDARD_ERROR_OF_MEAN|2.293||0.0002|TWO_SIDED|95.0|4.43|13.51|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 14||13.51|4.43|0.0002
82456210|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.462|STANDARD_ERROR_OF_MEAN|0.0991|||TWO_SIDED|95.0|0.262|0.662|||||Comparison of FEV1 between placebo and GW870086 3 mg OD at Day 14|||0.662|0.262|
82456211|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.323|STANDARD_ERROR_OF_MEAN|0.0982|||TWO_SIDED|95.0|0.125|0.52|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 7|||0.520|0.125|
82456212|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.229|STANDARD_ERROR_OF_MEAN|0.0858|||TWO_SIDED|95.0|0.057|0.402|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 13|||0.402|0.057|
82456213|NCT00857857|164616775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.372|STANDARD_ERROR_OF_MEAN|0.0991|||TWO_SIDED|95.0|0.172|0.572|||||Comparison of FEV1 between placebo and fluticasone propionate 0.25 mg BID at Day 14|||0.572|0.172|
82456214|NCT00857857|164616785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.482|||TWO_SIDED|95.0|-1.3|0.66|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||0.66|-1.30|
82456215|NCT00857857|164616785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.495|||TWO_SIDED|95.0|-0.73|1.28|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||1.28|-0.73|
82456216|NCT00857857|164616785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|0.36|2.19|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||2.19|0.36|
82541054|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|8.6||0.8939|ONE_SIDED|95.0|-25.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-25.3|0.8939
82541055|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.4||0.8117|ONE_SIDED|95.0|-21.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.6|0.8117
82541056|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|7.4||0.4393|ONE_SIDED|95.0|-11.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.2|0.4393
82541057|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|9.8||0.8055|ONE_SIDED|95.0|-24.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.7|0.8055
82541058|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|9.5||0.6767|ONE_SIDED|95.0|-20.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-20.2|0.6767
82541059|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.4||0.407|ONE_SIDED|95.0|-12.0||||Mixed Models Analysis|||Morning PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.0|0.4070
82541060|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|9.7||0.9705|ONE_SIDED|95.0|-34.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-34.7|0.9705
82541061|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|9.4||0.8249|ONE_SIDED|95.0|-24.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.6|0.8249
82541062|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|8.3||0.9345|ONE_SIDED|95.0|-26.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-26.6|0.9345
82541063|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|11.0||0.7384|ONE_SIDED|95.0|-25.3||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-25.3|0.7384
82649582|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.245|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.245
82578052|NCT01399697|164865621|SUPERIORITY_OR_OTHER|||||||0.518|TWO_SIDED||||||Chi-squared|||||||0.518
82578053|NCT01399697|164865622|SUPERIORITY_OR_OTHER|||||||0.358|TWO_SIDED||||||Chi-squared|||||||0.358
82578054|NCT01399697|164865623|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Mean|0.032||||0.674|TWO_SIDED|95.0|-0.119|0.184|||ANCOVA||Analysis of covariance (ANCOVA) model with treatment as factor and DAS28 value at Week 16 as covariate.|||0.184|-0.119|0.674
82578055|NCT01399697|164865624|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.873||||0.204|TWO_SIDED|95.0|-4.775|1.03|||ANCOVA||ANCOVA model with treatment as factor and mental component score (MCS) as covariate.|||1.030|-4.775|0.204
82438590|NCT05243745|164584930|SUPERIORITY||Slope|17.71|STANDARD_ERROR_OF_MEAN|2.265|<|0.0001|TWO_SIDED|95.0|13.22|22.2|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 14||22.20|13.22|<0.0001
82541064|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|10.7||0.5239|ONE_SIDED|95.0|-18.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-18.4|0.5239
82541065|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|9.4||0.417|ONE_SIDED|95.0|-13.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-13.7|0.4170
82541066|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|10.3||0.7695|ONE_SIDED|95.0|-24.8||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-24.8|0.7695
82578056|NCT01399697|164865625|SUPERIORITY_OR_OTHER||Difference in LS Mean|3.376||||0.015|TWO_SIDED|95.0|0.676|6.076|||ANCOVA||ANCOVA model with treatment as factor and physical component score (PCS) as covariate.|||6.076|0.676|0.015
82578057|NCT01399697|164865626|SUPERIORITY_OR_OTHER||Difference in LS Mean|0.969||||0.769|TWO_SIDED|95.0|-5.526|7.464|||ANCOVA||ANCOVA model with treatment as factor and VAS performed by the participant at Week 16 as a covariate.|||7.464|-5.526|0.769
82578058|NCT01399697|164865627|SUPERIORITY_OR_OTHER||Difference in LS Mean|-1.216||||0.655|TWO_SIDED|95.0|-6.573|4.141|||ANCOVA||ANCOVA model with treatment as factor and VAS performed by the investigator at Week 16 as covariate.|||4.141|-6.573|0.655
82578059|NCT00755105|164865659|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||< 0.05
82438591|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|32.81|STANDARD_ERROR_OF_MEAN|2.288|<|0.0001|TWO_SIDED|95.0|28.27|37.34|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 14||37.34|28.27|<0.0001
82438592|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|10.2|STANDARD_ERROR_OF_MEAN|2.485|<|0.0001|TWO_SIDED|95.0|5.28|15.13|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 28||15.13|5.28|<0.0001
82438593|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|13.92|STANDARD_ERROR_OF_MEAN|2.46|<|0.0001|TWO_SIDED|95.0|9.05|18.8|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 28||18.80|9.05|<0.0001
82438594|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|36.51|STANDARD_ERROR_OF_MEAN|2.568|<|0.0001|TWO_SIDED|95.0|31.42|41.6|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control.|Change from Baseline at Day 28||41.60|31.42|<0.0001
82438595|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|9.73|STANDARD_ERROR_OF_MEAN|2.761||0.0006|TWO_SIDED|95.0|4.26|15.2|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 1 value.|Change from Baseline at Day 56||15.20|4.26|0.0006
82438596|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|19.06|STANDARD_ERROR_OF_MEAN|2.772|<|0.0001|TWO_SIDED|95.0|13.57|24.55|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Comparator 2 value.|Change from Baseline at Day 56||24.55|13.57|<0.0001
82438597|NCT05243745|164584930|SUPERIORITY||Adjusted Mean Difference|39.33|STANDARD_ERROR_OF_MEAN|2.829|<|0.0001|TWO_SIDED|95.0|33.73|44.94|||ANCOVA|Analysis was performed using ANCOVA model with study product, baseline Schiff stratification as a factor and baseline tactile threshold as covariate.|Adjusted Mean Difference was calculated as Test value minus Negative Control value.|Change from Baseline at Day 56||44.94|33.73|<0.0001
82438598|NCT02998203|164584940|OTHER|One-sample t-test|||||<|0.001|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||<0.001
82438599|NCT02998203|164584941|OTHER|non-parametric Wilcoxon rank sum test|||||<|0.001|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||<0.001
82438600|NCT02998203|164584942|OTHER|Linear mixed-effect regression model|||||<|0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||<0.001
82438601|NCT02998203|164584943|OTHER|Wilcoxon rank sum test||||||0.017|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.017
82438602|NCT02998203|164584944|OTHER|Logistic mixed-effect model||||||0.014||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||0.014
82438603|NCT02998203|164584945|OTHER|One-sample t-test||||||0.167|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.167
82438604|NCT02998203|164584946|OTHER|Wilcoxon rank sum test||||||0.07|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.07
82578060|NCT01840410|164865672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.94|STANDARD_ERROR_OF_MEAN|1.502|<|0.001|TWO_SIDED|95.0|6.97|12.91|||Mixed Models Analysis|||||12.91|6.97|<0.001
82649583|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.057|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.057
82438605|NCT02998203|164584947|OTHER|Linear mixed-effect regression model||||||0.014||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||||||0.014
82438606|NCT02998203|164584948|OTHER|One-sample t-test||||||0.023|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.023
82438607|NCT02998203|164584949|OTHER|Wilcoxon rank sum test||||||0.259|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.259
82438608|NCT02998203|164584950|OTHER|Linear mixed-effect regression model|||||<|0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||The interaction term for time and treatment was included in the models since it met the threshold of p-value\<0. 05. Specifically, for the interaction term of time and organic treatment b=-0.016, 95% CI=\[-0.023,-0.010\], p-value=\<0.001.||||<0.001
82438609|NCT02998203|164584951|OTHER|One-sample t-test||||||0.913|||||||One-sample t-test|||A one-sample t-test was used to assess whether the percent change was different than zero.||||0.913
82438610|NCT02998203|164584952|OTHER|Wilcoxon rank sum test||||||0.338|||||||Wilcoxon rank sum test|||The overall differences in the medians of biomarkers between the conventional and the organic periods were assessed with the non-parametric Wilcoxon rank sum test||||0.338
82541067|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|10.1||0.4566|ONE_SIDED|95.0|-15.6||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.6|0.4566
82541068|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|8.9||0.3535|ONE_SIDED|95.0|-11.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.4|0.3535
82541069|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|11.1||0.8598|ONE_SIDED|95.0|-30.7||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-30.7|0.8598
82541070|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|10.9||0.8005|ONE_SIDED|95.0|-27.4||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-27.4|0.8005
82541071|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|9.6||0.3441|ONE_SIDED|95.0|-12.2||||Mixed Models Analysis|||Morning PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-12.2|0.3441
82541072|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|6.9||0.4436|ONE_SIDED|95.0|-10.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-10.5|0.4436
82541073|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|6.8||0.7238|ONE_SIDED|95.0|-15.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.5|0.7238
82541074|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|6.0||0.5743|ONE_SIDED|95.0|-11.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 1: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-11.1|0.5743
82578061|NCT00672737|164865696|SUPERIORITY_OR_OTHER||Slope|0.0025|||<|0.05|TWO_SIDED|95.0|0.0009|0.0041|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for IGFBP-1: for every 1-pg/mL increase in its serum level the cold pain threshold will additionally increase by 0.0025 seconds for every 1-mcg/mL increase in the plasma level of remifentanil.||0.0041|0.0009|<0.05
82649584|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.151|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.151
82541075|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|9.8||0.619|ONE_SIDED|95.0|-19.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.3|0.6190
82541076|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|9.7||0.9473|ONE_SIDED|95.0|-32.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-32.1|0.9473
82541077|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|8.5||0.8014|ONE_SIDED|95.0|-21.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 2: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.4|0.8014
82541078|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|8.6||0.7929|ONE_SIDED|95.0|-21.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.5|0.7929
82541079|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|8.4||0.9963|ONE_SIDED|95.0|-37.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-37.3|0.9963
82541080|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|7.4||0.7387|ONE_SIDED|95.0|-17.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 3: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-17.1|0.7387
82541081|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|8.4||0.6286|ONE_SIDED|95.0|-16.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-16.8|0.6286
82541082|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.1|STANDARD_ERROR_OF_MEAN|8.3||0.9538|ONE_SIDED|95.0|-27.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-27.8|0.9538
82541083|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|7.3||0.5701|ONE_SIDED|95.0|-13.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 4: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-13.4|0.5701
82541084|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|10.0||0.9242|ONE_SIDED|95.0|-31.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-31.3|0.9242
82541085|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-22.4|STANDARD_ERROR_OF_MEAN|9.8||0.9876|ONE_SIDED|95.0|-38.8||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-38.8|0.9876
82541086|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.1|STANDARD_ERROR_OF_MEAN|8.7||0.9802|ONE_SIDED|95.0|-32.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 5: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-32.5|0.9802
82541087|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|10.6||0.5705|ONE_SIDED|95.0|-19.5||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.5|0.5705
82541088|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|10.3||0.8063|ONE_SIDED|95.0|-26.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-26.1|0.8063
82541089|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|9.1||0.6667|ONE_SIDED|95.0|-19.1||||Mixed Models Analysis|||Evening PEFR, Change at Week 6: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-19.1|0.6667
82541090|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|10.4||0.464|ONE_SIDED|95.0|-16.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-16.4|0.4640
82541091|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|10.2||0.8821|ONE_SIDED|95.0|-29.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-29.3|0.8821
82541092|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|9.0||0.7591|ONE_SIDED|95.0|-21.4||||Mixed Models Analysis|||Evening PEFR, Change at Week 7: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-21.4|0.7591
82541093|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|11.0||0.4001|ONE_SIDED|95.0|-15.6||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.6|0.4001
82541094|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|10.8||0.8707|ONE_SIDED|95.0|-30.3||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-30.3|0.8707
82541095|NCT00430300|164781509|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|9.6||0.4629|ONE_SIDED|95.0|-15.0||||Mixed Models Analysis|||Evening PEFR, Change at Week 8: Analysis was performed using longitudinal mixed effect model with baseline value, treatment, week, and treatment by week as fixed effects and participants as random effect.|||-15.0|0.4629
82541096|NCT00430300|164781510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6428|||||TWO_SIDED|95.0|0.2023|2.0419||||||A proportional odds model was fitted using Proc Logistic in Statistical Analysis System (SAS), using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.0419|0.2023|
82541097|NCT00430300|164781510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5574|||||TWO_SIDED|95.0|0.1505|2.0647||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.0647|0.1505|
82541098|NCT00430300|164781510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.327|||||TWO_SIDED|95.0|0.083|1.2879||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||1.2879|0.0830|
82541099|NCT00430300|164781511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5709|||||TWO_SIDED|95.0|0.179|1.8204||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||1.8204|0.1790|
82541100|NCT00430300|164781511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6416|||||TWO_SIDED|95.0|0.1736|2.3715||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.3715|0.1736|
82541101|NCT00430300|164781511|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5877|||||TWO_SIDED|95.0|0.1516|2.2777||||||A proportional odds model was fitted using Proc Logistic in SAS, using treatment as a categorical variable and center as a covariate. The odds ratio and corresponding 95% confidence interval were tested using Type III (Wald) tests.||2.2777|0.1516|
82541102|NCT00546871|164781559|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.067|||||ONE_SIDED|99.0||0.134||||||||0.134||
82541103|NCT01713946|164781580|SUPERIORITY||Odds Ratio (OR)|2.21||||0.008|TWO_SIDED|95.0|1.16|4.2|||Bonferroni-Holm|||||4.20|1.16|0.008
82541104|NCT01713946|164781580|SUPERIORITY||Odds Ratio (OR)|3.93|||<|0.001|TWO_SIDED|95.0|2.1|7.32|||Bonferroni-Holm|||||7.32|2.10|<0.001
82541105|NCT01713946|164781581|SUPERIORITY||Median Difference (Final Values)|15.96||||0.003|TWO_SIDED|95.0|1.98|31.68|||Bonferroni-Holm|||||31.68|1.98|0.003
82456217|NCT00857857|164616785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.79|STANDARD_ERROR_OF_MEAN|0.469|||TWO_SIDED|95.0|0.84|2.75|||||Doubling dose differences, that is a treatment doubling dose difference of 1 indicates that the concentration of methacholine required to cause a 20% fall in FEV1 in one treatment is twice that in the other (log2\[2\] = 1).|||2.75|0.84|
82649585|NCT02868281|165014786|OTHER||Difference in Least Squares Mean|-0.1||||0.114|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.0|-0.2|0.114
82438611|NCT02998203|164584953|OTHER|Linear mixed-effect regression model||||||0.001||||||Multiple testing was accounted for using the Benjamini-Hochberg method, considering 58 regression parameter tests of the aforementioned models. Q-value\<0.05 were considered statistically significant (controlling the false discovery rate at 5%).|Mixed Models Analysis|||The interaction term for time and treatment was included in the models since it met the threshold of p-value\<0. 05. Specifically, for the interaction term of time and organic treatment b=-0.016, 95% CI=\[-0.023,-0.010\], p-value=0.01.||||0.001
82438612|NCT04187144|164584988|NON_INFERIORITY|The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for non-inferiority is if the Z-statistic for non-inferiority is greater than the 2.098 Z-statistic boundary.|Adjusted Difference in Percent|14.6|||||TWO_SIDED|95.0|6.4|22.8|||||||Observed Z statistic value for Noninferiority was 5.8838.|22.8|6.4|
82438613|NCT04187144|164584988|SUPERIORITY||Adjusted difference in Percent|14.6||||0.0003|TWO_SIDED|95.0|6.4|22.8|||1-sided p-value for Test of Superiority|||The difference in success rate between treatment groups (gepotidacin - nitrofurantoin) was calculated using Miettinen-Nurminen Summary Score Method adjusted for age group and acute cystitis recurrence strata combinations. Criteria for superiority is if the one-sided p-value is less than the 0.018 p-value boundary||22.8|6.4|0.0003
82438614|NCT00395291|164585023|SUPERIORITY_OR_OTHER||||||<|0.001||||||The IGF-1 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.|ANCOVA|||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IGF-1 is the same for both the MK-0677 and placebo interventions.~Power calculation: We assumed that the IGF-I data will be lognormally distributed and thus the parameter of interest will be the IGF-1 geometric mean. If n=22 individuals complete the study and the intervention effect is 48% greater for one intervention than the other we will have at least 0.80 power to reject the null hypothesis."||||<0.001
82438615|NCT00395291|164585024|SUPERIORITY_OR_OTHER|||||||0.169|||||||ANCOVA|The Acyl-Ghrelin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in Acyl-Ghrelin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.169
82438616|NCT00395291|164585025|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANCOVA|The Leptin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in leptin is the same for both the MK-0677 and placebo interventions.~Because Leptin is considered a secondary outcome, no power analysis was conducted."||||0.063
82438617|NCT00395291|164585026|SUPERIORITY_OR_OTHER|||||||0.075|||||||ANCOVA|The insulin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in serum-insulin is the same for both the MK-0677 and placebo interventions.~Because serum-insulin is considered a secondary outcome, no power analysis was conducted."||||0.075
82438618|NCT00395291|164585027|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||ANCOVA|||||||.782
82438619|NCT00395291|164585028|SUPERIORITY_OR_OTHER|||||||0.385|||||||ANCOVA|The TNF-a data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in TNF-a is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.385
82438620|NCT00395291|164585029|SUPERIORITY_OR_OTHER|||||||0.929|||||||ANCOVA|The CRPs data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in CRPs is the same for both the MK-0677 and placebo interventions.~Because CRPs is considered as a secondary outcome, no power analysis was conducted."||||0.929
82438621|NCT00395291|164585030|SUPERIORITY_OR_OTHER|||||||0.905|||||||ANCOVA|The IL-1 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IL-1 is the same for both the MK-0677 and placebo interventions.~Because IL-1 is considered as a secondary outcome, no power analysis was conducted"||||0.905
82438622|NCT00395291|164585031|SUPERIORITY_OR_OTHER|||||||0.233||95.0|||||ANCOVA|||||||0.233
82438623|NCT00395291|164585032|SUPERIORITY_OR_OTHER|||||||0.277|||||||ANCOVA|The IL-10 data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in IL-10 is the same for both the MK-0677 and placebo interventions.~Because IL-10 is considered as a secondary outcome, no power analysis was conducted."||||0.277
82456218|NCT04437485|164616791|SUPERIORITY|||||||0.64|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.64
82456219|NCT04437485|164616792|SUPERIORITY|||||||0.046|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.046
82456220|NCT04437485|164616793|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models were run on post-treatment outcome level adjusting for baseline somatic depressive symptoms group (a stratification variable).||||||0.09
82541106|NCT01713946|164781581|SUPERIORITY||Odds Ratio (OR)|27.46|||<|0.001|TWO_SIDED|95.0|16.36|43.36|||Bonferroni-Holm|||||43.36|16.36|<0.001
82541107|NCT01713946|164781582|SUPERIORITY||Odds Ratio (OR)|6.55|||||TWO_SIDED|95.0|0.77|55.73||||||||55.73|0.77|
82541108|NCT01713946|164781582|SUPERIORITY||Odds Ratio (OR)|4.99|||||TWO_SIDED|95.0|0.57|44.03||||||||44.03|0.57|
82541109|NCT01713946|164781583|SUPERIORITY||Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.05|2.97||||||||2.97|1.05|
82541110|NCT01713946|164781583|SUPERIORITY||Odds Ratio (OR)|3.82|||||TWO_SIDED|95.0|2.25|6.48||||||||6.48|2.25|
82541111|NCT01713946|164781585|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-0.4|3.1||||||||3.1|-0.4|
82541112|NCT01713946|164781585|SUPERIORITY||Mean Difference (Final Values)|4.2|||||TWO_SIDED|95.0|2.5|5.9||||||||5.9|2.5|
82541113|NCT01713946|164781586|SUPERIORITY||Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.77|2.07||||||||2.07|0.77|
82541114|NCT01713946|164781586|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.74|1.96||||||||1.96|0.74|
82578062|NCT00672737|164865696|SUPERIORITY_OR_OTHER||Slope|-0.9694||||0.05|TWO_SIDED|95.0|-1.9127|-0.0261|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for SaO2: for every 1-%-absolute decrease in the nadir SaO2 the cold pain threshold will additionally increase by 0.9694 seconds for every 1-mcg/mL increase in the plasma level of remifentanil.||-0.0261|-1.9127|0.05
82438624|NCT00395291|164585033|SUPERIORITY_OR_OTHER|||||||0.875|||||||ANCOVA|The esterase data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in esterase is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.875
82541115|NCT01713946|164781587|SUPERIORITY||Difference in least square means|-1.1|||||TWO_SIDED|95.0|-4.4|2.1||||||||2.1|-4.4|
82456221|NCT01389882|164616794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.007|STANDARD_DEVIATION|2.015||0.043|TWO_SIDED|95.0|0.036|1.978|||Paired t-test|||||1.978|0.036|0.043
82541116|NCT01713946|164781587|SUPERIORITY||Difference in least square means|1.0|||||TWO_SIDED|95.0|-2.2|4.3||||||||4.3|-2.2|
82541117|NCT01713946|164781588|SUPERIORITY||Difference in least square means|-2.1|||||TWO_SIDED|95.0|-10.5|6.2||||||||6.2|-10.5|
82541118|NCT01713946|164781588|SUPERIORITY||Difference in least square means|0.4|||||TWO_SIDED|95.0|-7.8|8.6||||||||8.6|-7.8|
82541119|NCT01713946|164781589|SUPERIORITY||Difference in least square means|-2.8|||||TWO_SIDED|95.0|-17.9|12.3||||||||12.3|-17.9|
82541120|NCT01713946|164781589|SUPERIORITY||Difference in least square means|-7.7|||||TWO_SIDED|95.0|-22.0|6.6||||||||6.6|-22.0|
82541121|NCT04036058|164781602|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
82541122|NCT04036058|164781603|SUPERIORITY|||||||0.0435|||||||t-test, 2 sided|||||||0.0435
82541123|NCT04036058|164781604|SUPERIORITY|||||||0.1158|||||||t-test, 2 sided|||||||0.1158
82541124|NCT04036058|164781605|SUPERIORITY|||||||0.0898|||||||t-test, 2 sided|||||||0.0898
82541125|NCT04036058|164781606|SUPERIORITY|||||||0.114|||||||t-test, 2 sided|||||||0.114
82541126|NCT03351075|164781619|SUPERIORITY||Mean Difference (Net)|-1.31||||0.5163|TWO_SIDED|95.0|-5.28|2.65||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||The sample size was based on comparing the changes for the primary outcome measure (PDI-DLV) at 12 months after surgery. The calculation was based on comparing the values at 12 months. Assuming a coefficient of variation (CV) equal to 0.5, 87 participants per group were needed based on a two-sample pooled t-test of a mean ratio with lognormal data and α=0.05 to detect with 80% power a difference of 20% in PDI. To anticipate a drop-out ratio of 5%, a total of 184 subjects were needed.||2.65|-5.28|0.5163
82541127|NCT03351075|164781620|SUPERIORITY||Mean Difference (Net)|-0.97||||0.5655|TWO_SIDED|95.0|-4.26|2.33||No corrections for multiple testing were performed.|multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain-related disability from baseline to 4 months||2.33|-4.26|0.5655
82541128|NCT03351075|164781620|SUPERIORITY||Mean Difference (Net)|-1.07||||0.5592|TWO_SIDED|95.0|-4.64|2.51||P\<.05 was considered significant. No corrections for multiple testing were performed.|multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain-related disability from baseline to 1.5 years||2.51|-4.64|0.5592
82541129|NCT03351075|164781621|SUPERIORITY||Mean Difference (Net)|-2.23||||0.563|TWO_SIDED|95.0|-9.84|5.37||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 4 months||5.37|-9.84|0.5630
82541130|NCT03351075|164781621|SUPERIORITY||Mean Difference (Net)|-4.3||||0.2524|TWO_SIDED|95.0|-11.68|3.09||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 12 months||3.09|-11.68|0.2524
82541131|NCT03351075|164781621|SUPERIORITY||Mean Difference (Net)|-4.8||||0.2315|TWO_SIDED|95.0|-12.69|3.09|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain intensity from baseline to 1.5 years||3.09|-12.69|0.2315
82578063|NCT00672737|164865697|SUPERIORITY_OR_OTHER||Slope|-0.0001|||<|0.05|TWO_SIDED|95.0|-0.0001|-0.0001|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for IGFBP-1: for every 1-pg/mL increase in its serum level, the heat pain threshold will additionally decrease by 0.0001 'C for every 1-mcg/mL increase in the plasma level of remifentanil.||-0.0001|-0.0001|<0.05
82541132|NCT03351075|164781622|SUPERIORITY||Mean Difference (Net)|0.47||||0.7494|TWO_SIDED|95.0|-2.39|3.32||No corrections for multiple testing were performed.|Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported central sensitisation symptoms from baseline to 4 months.||3.32|-2.39|0.7494
82541133|NCT03351075|164781622|SUPERIORITY||Mean Difference (Net)|-0.25||||0.8617|TWO_SIDED|95.0|-3.09|2.58|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||The difference in change in self-reported central sensitisation symptoms from baseline to 12 months.||2.58|-3.09|0.8617
82541134|NCT03351075|164781622|SUPERIORITY||Mean Difference (Net)|-0.29||||0.8454|TWO_SIDED|95.0|-3.16|2.59|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported central sensitisation symptoms from baseline to 1.5 years||2.59|-3.16|0.8454
82541135|NCT03351075|164781623|SUPERIORITY||Mean Difference (Net)|1.35||||0.3463|TWO_SIDED|95.0|0.72|2.51|||multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 4 months||2.51|0.72|0.3463
82541136|NCT03351075|164781623|SUPERIORITY||Mean Difference (Net)|0.86||||0.6613|TWO_SIDED|95.0|0.451|1.66|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 1 year||1.66|0.451|0.6613
82541137|NCT03351075|164781623|SUPERIORITY||Mean Difference (Net)|1.26||||0.4908|TWO_SIDED|95.0|0.65|2.42|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical detection sensitivity at the arm from baseline to 1.5 years||2.42|0.65|0.4908
82541138|NCT03351075|164781624|SUPERIORITY||Mean Difference (Net)|0.22||||0.7708|TWO_SIDED|95.0|-1.25|1.69|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in warmth detection sensitivity from baseline to 4 months||1.69|-1.25|0.7708
82541139|NCT03351075|164781624|SUPERIORITY||Mean Difference (Net)|0.29||||0.706|TWO_SIDED|95.0|-1.23|1.81|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in warmth detection sensitivity from baseline to 1 year||1.81|-1.23|0.7060
82541140|NCT03351075|164781624|SUPERIORITY||Mean Difference (Net)|0.02||||0.9806|TWO_SIDED|95.0|-1.38|1.42|||Multivariate linear model|||Difference in change in warmth detection sensitivity from baseline to 1.5 years||1.42|-1.38|0.9806
82541141|NCT03351075|164781625|SUPERIORITY||Mean Difference (Net)|0.74||||0.0284|TWO_SIDED|95.0|0.08|1.4|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 4 months||1.40|0.08|0.0284
82541142|NCT03351075|164781625|SUPERIORITY||Mean Difference (Net)|0.09||||0.7776|TWO_SIDED|95.0|-0.55|0.73|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 1 year||0.73|-0.55|0.7776
82578064|NCT00672737|164865697|SUPERIORITY_OR_OTHER||Slope|-0.0172|||<|0.05|TWO_SIDED|95.0|-0.018|0.0556|||Regression, Linear|Adjusted for body mass index, age of the volunteers, and a binary variable indicating the type (home-based vs. in-laboratory).|Mixed linear regression|Beta for SaO2: for every 1-%-absolute decrease in the nadir SaO2, the heat pain threshold will additionally increase by 0.0172 'C for every 1-mcg/mL increase in the plasma level of remifentanil.||0.0556|-0.018|<0.05
82649586|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.05||||0.487|TWO_SIDED|95.0|-0.18|0.09|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.09|-0.18|0.487
82649587|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.04||||0.546|TWO_SIDED|95.0|-0.16|0.09|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.09|-0.16|0.546
82438625|NCT00395291|164585034|SUPERIORITY_OR_OTHER|||||||0.545|||||||ANCOVA|The adiponectin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in adiponectin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.545
82541143|NCT03351075|164781625|SUPERIORITY||Mean Difference (Net)|0.31||||0.3829|TWO_SIDED|95.0|-0.39|1.01|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome||Difference in change in wind-up from baseline to 1.5 years||1.01|-0.39|0.3829
82541144|NCT03351075|164781626|SUPERIORITY||Mean Difference (Net)|0.31||||0.1948|TWO_SIDED|95.0|-0.16|0.77|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in conditioned pain modulation from baseline to 4 months||0.77|-0.16|0.1948
82541145|NCT03351075|164781626|SUPERIORITY||Mean Difference (Net)|0.17||||0.4937|TWO_SIDED|95.0|-0.31|0.65|||Multivariate linear model|||Difference in change in conditioned pain modulation from baseline to 1 year||0.65|-0.31|0.4937
82578065|NCT01077518|164865700|SUPERIORITY||Stratified Cox propor.hazards regression|0.82||||0.139|TWO_SIDED|95.0|0.62|1.07|||Stratified Log-Rank|||||1.07|0.62|0.1390
82578066|NCT01077518|164865701|OTHER||Stratified Cox propor.hazards regression|0.76||||0.1076|TWO_SIDED|95.0|0.55|1.06|||Stratified Log-Rank|||||1.06|0.55|0.1076
82578067|NCT01077518|164865702|OTHER|||||||0.8003|||||||Cochran-Mantel-Haenszel|adjusted for stratum||for All participants||||0.8003
82578068|NCT01077518|164865703|OTHER|||||||0.613|||||||Cochran-Mantel-Haenszel|adjusted for stratum||for Follicular Lymphoma (FL) participants||||0.6130
82578069|NCT01077518|164865704|OTHER||Hazard Ratio (HR)|0.87||||0.4046|TWO_SIDED|95.0|0.62|1.21|||Stratified Log Rank|||for All patients||1.21|0.62|0.4046
82649588|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.06||||0.314|TWO_SIDED|95.0|-0.17|0.06|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.06|-0.17|0.314
82438626|NCT00395291|164585035|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANCOVA|Total ghrelin data were analyzed on the natural logarithmic scale via a linear mixed model in correspondence to a 2-period crossover design ANCOVA.||"Null hypothesis: the intra-subject pre-intervention to post-intervention change in Total-Ghrelin is the same for both the MK-0677 and placebo interventions.~Because Acyl-Ghrelin is considered as a secondary outcome, no power analysis was conducted."||||0.900
82541146|NCT03351075|164781626|SUPERIORITY||Mean Difference (Net)|0.23||||0.369|TWO_SIDED|95.0|-0.27|0.73|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in conditioned pain modulation from baseline to 1.5 years||0.73|-0.27|0.3690
82578070|NCT01077518|164865705|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.3768|TWO_SIDED|95.0|0.55|1.25|||Stratified Log Rank|||for FL participants||1.25|0.55|0.3768
82438627|NCT01468207|164585055|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|15.9|||=|0.003|TWO_SIDED|95.0|5.3|26.5||P-value adjusted for baseline Hurley Stage.|Cochran-Mantel-Haenszel|||||26.5|5.3|=0.003
82438628|NCT01468207|164585055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.8|||=|0.048|TWO_SIDED|95.0|0.3|29.3|||Chi-squared|||||29.3|0.3|=0.048
82438629|NCT01468207|164585055|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.1|||=|0.027|TWO_SIDED|95.0|2.2|32.1|||Chi-squared|||||32.1|2.2|=0.027
82438630|NCT01468207|164585056|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|||=|0.961|TWO_SIDED|95.0|-13.4|14.1|||Chi-squared|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||14.1|-13.4|=0.961
82438631|NCT01468207|164585057|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|2.8|||=|0.628|TWO_SIDED|95.0|-8.6|14.2||P-value adjusted for baseline Hurley Stage.|Cochran-Mantel-Haenszel|||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||14.2|-8.6|=0.628
82438632|NCT01468207|164585058|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.7|||=|0.124|TWO_SIDED|95.0|-19.7|2.4|||ANCOVA|P-value calculated from ANCOVA with stratum, baseline, and treatment as covariates.||Secondary end points 1 (AN 0/1/2 counts), 2 (NRS30), and 3 (modified Sartorius score) were ranked analyses.||2.4|-19.7|=0.124
82438633|NCT03389555|164585176|EQUIVALENCE|Equivalence margin: if confidence interval for mean difference between SOFA scores at 72 hour time-point for two groups overlaps 0 (p-value \> 0.05) scores considered to be equivalent. Note: The model estimates the mean difference in SOFA score at 72 hours between treatment and control groups, for those patient for whom a SOFA score could be calculated at the 72 hour time point (i.e patients that were alive at the 72 hour time point, 90 patients in the treatment and 88 patients in the control).|Mean Difference (Net)|-0.8||||0.12|TWO_SIDED|95.0|-1.7|0.2||A priori threshold for significance, p-value \< 0.05|Mixed Models Analysis|||The primary outcome was analyzed using a linear mixed-effects model where the correlation of within-patient repeated SOFA score measures was accounted for via the use of an unstructured variance-covariance matrix and linear contrasts. Covariates included age, sex, treatment group, time, and the interaction between treatment group and time. Study site was included as a random intercept. The model estimates the mean difference in SOFA score at 72 hours between treatment and control groups.||0.2|-1.7|0.12
82438634|NCT03389555|164585177|EQUIVALENCE|For the key secondary outcome of kidney failure, 200 patients were estimated to provide 94% power, assuming that 30% of participants in the treatment group and 55% in the placebo group would develop kidney failure. If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|3.0||||0.58|TWO_SIDED|95.0|-10.0|20.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of kidney failure in treatment group (intervention versus placebo) controlling for treatment site.||20.0|-10.0|0.58
82438635|NCT03389555|164585178|EQUIVALENCE|If confidence interval for hazard ratio crosses 0, hazard of death assumed to be equivalent in the two groups.|Hazard Ratio (HR)|1.3||||0.05|TWO_SIDED|95.0|0.8|2.2|||Regression, Cox|||Cox Regression controlling for site used to identify hazard ratio for outcome of death for treatment versus intervention group. Null hypothesis is that hazard ratio is 1.||2.2|0.8|0.05
82438636|NCT03389555|164585179|EQUIVALENCE|If the confidence interval for the median difference in ventilator free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|0.0|||>|0.99|TWO_SIDED|95.0|-1.9|1.9|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's ventilator free days.||1.9|-1.9|>0.99
82438637|NCT03389555|164585180|EQUIVALENCE|If the confidence interval for the median difference in shock free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|1.0||||0.02|TWO_SIDED|95.0|0.2|1.8|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's shock free days.||1.8|0.2|0.02
82438638|NCT03389555|164585181|EQUIVALENCE|If the confidence interval for the median difference in ICU free days between groups crosses 0, the two groups are considered equivalent.|Median Difference (Net)|1.0||||0.69|TWO_SIDED|95.0|-3.0|6.0|||Quantile Regression|||Quantile regression controlling for site performed to compare treatment and control group's ICU free days.||6.0|-3.0|0.69
82438639|NCT03389555|164585182|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|3.0||||0.55|TWO_SIDED|95.0|-10.0|20.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of hospital mortality in treatment group (intervention versus placebo) controlling for treatment site..||20.0|-10.0|0.55
82438640|NCT03389555|164585183|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|2.0||||0.8|TWO_SIDED|95.0|-10.0|10.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of ICU mortality in treatment group (intervention versus placebo) controlling for treatment site.||10.0|-10.0|0.80
82438641|NCT03389555|164585184|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|-12.0||||0.16|TWO_SIDED|95.0|-25.0|4.0|||Regression, Logistic|||Logistic regression analysis evaluating the key secondary outcome of occurrence of delirium in treatment group (intervention versus placebo) controlling for treatment site.||4|-25|0.16
82456222|NCT01389882|164616795|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.232|STANDARD_DEVIATION|0.841||0.245|TWO_SIDED|95.0|-0.637|0.174|||Paired t-test|||||0.174|-0.637|0.245
82456223|NCT01389882|164616796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|STANDARD_DEVIATION|0.095||0.257|TWO_SIDED|95.0|-0.02|0.714|||Paired t-test|||||0.714|-0.020|0.257
82456224|NCT01389882|164616797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_DEVIATION|1.541||0.601|TWO_SIDED|95.0|-0.554|0.931|||Paired t-test|||||0.931|-0.554|0.601
82456225|NCT01389882|164616798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149|STANDARD_DEVIATION|0.355||0.085|TWO_SIDED|95.0|-0.32|0.023|||Paired t-test|||||0.023|-0.320|0.085
82456226|NCT01389882|164616799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.516|STANDARD_DEVIATION|9.786||0.002|TWO_SIDED|95.0|1.799|11.232|||Wilcoxon signed-rank test|||||11.232|1.799|0.002
82456227|NCT01389882|164616800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_DEVIATION|2.516||0.009|TWO_SIDED|95.0|0.478|2.904|||Paired t-test, 2-sided|||||2.904|0.478|0.009
82456228|NCT01389882|164616801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.692|STANDARD_DEVIATION|2.192||0.314|TWO_SIDED|95.0|-0.364|1.749|||Wilcoxon signed-rank test|||||1.749|-0.364|0.314
82456229|NCT01389882|164616802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007|STANDARD_DEVIATION|0.047||0.515|TWO_SIDED|95.0|-0.03|0.016|||Paired t-test|||||0.016|-0.030|0.515
82456230|NCT01389882|164616803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1105|STANDARD_DEVIATION|7.501||0.949|TWO_SIDED|95.0|-3.505|3.726|||Paired t-test|||||3.726|-3.505|0.949
82456231|NCT01389882|164616804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_DEVIATION|12.081||0.709|TWO_SIDED|95.0|-4.77|6.875|||Paired t-test|||||6.875|-4.770|0.709
82456232|NCT01389882|164616805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.274|STANDARD_DEVIATION|2.233||0.6|TWO_SIDED|95.0|-1.35|0.802|||Paired t-test|||||0.802|-1.350|0.600
82456233|NCT03057496|164616806|SUPERIORITY||Rate ratio|0.627|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.536|0.734||Since the outcome (contacts) represented over-dispersed count data and there were repeated measurements per subject, a generalized mixed effects model with a negative binomial family was used with each subject treated as a random intercept.|Mixed Models Analysis|Fixed factors were included in the model to account for factors other than device operating mode that might affect collision rates.|Silent mode is the denominator for the rate ratio.|A within-subject comparison was performed. Each subject included in the analysis used the device in both the active and the silent mode. Comparison was between the two device operating modes. The null hypothesis was that there was no difference in the rate of contacts between active and silent modes.||0.734|0.536|< 0.001
82456234|NCT01584232|164616818|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) was \<0.4%, then LY2189265 was declared non-inferior to insulin glargine. If the upper limit of the 95% CI was \<0.0%, then LY2189265 was declared superior to insulin glargine.|LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.67|-0.41||P-value is from the pairwise comparison of LS means using a mixed effects model with repeated measurements (MMRM).|Mixed Models Analysis|||Approximately 360 participants were to be randomized in a 1:1 ratio to LY2189265 or insulin glargine (IG). Assuming no difference in HbA1c change from baseline at Week 26 between LY2189265 and IG, this sample size would provide approximately 90% power to confirm non-inferiority of LY2189265 to IG. This computation was based on a non-inferiority margin of 0.4% with a standard deviation of 1.1%, a 1-sided alpha level of 0.025, and an 11% dropout rate between randomization and Week 26.||-0.41|-0.67|<0.001
82456235|NCT01584232|164616819|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c \<=6.5%.|Regression, Logistic|||||||<0.001
82541147|NCT03351075|164781627|SUPERIORITY||Mean Difference (Net)|2.24||||0.2915|TWO_SIDED|95.0|-1.94|6.43|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 4 months||6.43|-1.94|0.2915
82541148|NCT03351075|164781627|SUPERIORITY||Mean Difference (Net)|-1.63||||0.4632|TWO_SIDED|95.0|-6.02|2.75|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 1 year||2.75|-6.02|0.4632
82541149|NCT03351075|164781627|SUPERIORITY||Mean Difference (Net)|-3.16||||0.1944|TWO_SIDED|95.0|-7.94|1.63|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported upper limb function from baseline to 1,5 years||1.63|-7.94|0.1944
82578071|NCT01495598|164865729|OTHER|Other = Kaplan Meier||||||0.43|||||||Log Rank|||||||0.43
82456236|NCT01584232|164616819|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c \<7%.|Regression, Logistic|||||||<0.001
82456237|NCT01584232|164616820|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5||||0.183|TWO_SIDED|95.0|-1.7|8.7|||Mixed Models Analysis|||||8.7|-1.7|0.183
82652365|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.095||||0.4841|TWO_SIDED|95.0|-0.362|0.172||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.172|-0.362|0.4841
82456238|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|5.16||||0.022|TWO_SIDED|95.0|0.76|9.56||Treatment comparison for pre-morning meal.|ANCOVA|||||9.56|0.76|0.022
82456239|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.4||||0.003|TWO_SIDED|95.0|-22.28|-4.52||Treatment comparison for 2 hours post-morning meal.|ANCOVA|||||-4.52|-22.28|0.003
82456240|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.22||||0.025|TWO_SIDED|95.0|-15.37|-1.06||Treatment comparison for pre-midday meal.|ANCOVA|||||-1.06|-15.37|0.025
82456241|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.22|||<|0.001|TWO_SIDED|95.0|-31.92|-14.51||Treatment comparison for 2 hours post-midday meal.|ANCOVA|||||-14.51|-31.92|<0.001
82456242|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.63|||<|0.001|TWO_SIDED|95.0|-21.03|-6.24||Treatment comparison for pre-evening meal.|ANCOVA|||||-6.24|-21.03|<0.001
82456243|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.13|||<|0.001|TWO_SIDED|95.0|-39.26|-23.0||Treatment comparison for 2 hours post-evening meal.|ANCOVA|||||-23.00|-39.26|<0.001
82456244|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.73|||<|0.001|TWO_SIDED|95.0|-31.68|-15.79||Treatment comparison for bedtime.|ANCOVA|||||-15.79|-31.68|<0.001
82456245|NCT01584232|164616821|SUPERIORITY_OR_OTHER||LS Mean Difference|6.21||||0.005|TWO_SIDED|95.0|1.92|10.5||Treatment comparison for second pre-morning meal.|ANCOVA|||||10.50|1.92|0.005
82456246|NCT01584232|164616822|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.89|-0.94|||Mixed Models Analysis|||||-0.94|-1.89|<0.001
82541150|NCT03351075|164781628|SUPERIORITY||Mean Difference (Net)|-293.0||||0.5332|TWO_SIDED|95.0|-1218.0|632.0|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in step count from baseline to 4 months||632|-1218|0.5332
82456247|NCT01584232|164616823|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82456248|NCT02723773|164616826|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|79.77|||||TWO_SIDED|95.0|73.72|84.61|||Poisson regression method||VE=1 - the relative risk (RR). RR=the ratio of the incidence rates of LTFU+Control \>=50YOA Group over Historical Control \>=50YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=50 YOA Group and Historical Control \>=50 YOA Group.||84.61|73.72|
82456249|NCT02723773|164616827|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|75.55|93.36|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 50-59 YOA Group over Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control 50-59 YOA Group and Historical Control 50-59 YOA Group.||93.36|75.55|
82456250|NCT02723773|164616827|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.14|||||TWO_SIDED|95.0|74.17|94.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 60-69 YOA Group over Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||94.35|74.17|
82456251|NCT02723773|164616827|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|77.11|||||TWO_SIDED|95.0|69.37|83.14|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=60 YOA Group over Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||83.14|69.37|
82456252|NCT02723773|164616827|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|73.18|||||TWO_SIDED|95.0|62.94|80.92|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=70 YOA Group over Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||80.92|62.94|
82456253|NCT02723773|164616828|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.73|||||TWO_SIDED|95.0|84.89|90.12|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control 50 YOA Group.||90.12|84.89|
82456254|NCT02723773|164616828|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.74|||||TWO_SIDED|95.0|86.25|95.37|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||95.37|86.25|
82456255|NCT02723773|164616828|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.57|||||TWO_SIDED|95.0|86.66|96.24|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||96.24|86.66|
82541151|NCT03351075|164781628|SUPERIORITY||Mean Difference (Net)|839.0||||0.1201|TWO_SIDED|95.0|-221.0|1900.0|||Multivariate linear model|||Difference in change in step count from baseline to 1 year||1900|-221|0.1201
82541152|NCT03351075|164781629|SUPERIORITY||Mean Difference (Net)|0.831||||0.359|TWO_SIDED|95.0|0.561|1.233|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 4 months||1.233|0.561|0.3590
82541153|NCT03351075|164781629|SUPERIORITY||Mean Difference (Net)|0.839||||0.3744|TWO_SIDED|95.0|0.57|1.236|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 1 year||1.236|0.570|0.3744
82578072|NCT01495598|164865739|OTHER|\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.19||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.19
82578073|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.72||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.72
82456256|NCT02723773|164616828|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.45|||||TWO_SIDED|95.0|82.98|89.33|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||89.33|82.98|
82456257|NCT02723773|164616828|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.33|||||TWO_SIDED|95.0|79.91|87.93|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||87.93|79.91|
82456258|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.68|||||TWO_SIDED|95.0|93.07|99.53|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 1.||99.53|93.07|
82456259|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|96.76|||||TWO_SIDED|95.0|80.57|99.92|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 1.||99.92|80.57|
82456260|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|79.32|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 1.||100.00|79.32|
82456261|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.97|||||TWO_SIDED|95.0|92.46|99.76|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 1.||99.76|92.46|
82456262|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|97.57|||||TWO_SIDED|95.0|90.96|99.71|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 1.||99.71|90.96|
82541154|NCT03351075|164781629|SUPERIORITY||Median Difference (Net)|0.848||||0.4533|TWO_SIDED|95.0|0.522|1.304|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported pain catastrophizing from baseline to 1.5 years||1.304|0.522|0.4533
82541155|NCT03351075|164781630|SUPERIORITY||Mean Difference (Net)|0.862||||0.5018|TWO_SIDED|95.0|0.558|1.33|||MUltivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 4 months||1.330|0.558|0.5018
82541156|NCT03351075|164781630|SUPERIORITY||Mean Difference (Net)|0.808||||0.3362|TWO_SIDED|95.0|0.522|1.248|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 1 year||1.248|0.522|0.3362
82541157|NCT03351075|164781630|SUPERIORITY||Mean Difference (Net)|0.958||||0.8375|TWO_SIDED|95.0|0.633|1.449|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported depression from baseline to 1.5 years||1.449|0.633|0.8375
82541158|NCT03351075|164781631|SUPERIORITY||Mean Difference (Net)|-0.32||||0.1745|TWO_SIDED|95.0|-0.78|0.14|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 4 months||0.14|-0.78|0.1745
82541159|NCT03351075|164781631|SUPERIORITY||Mean Difference (Net)|0.18||||0.5025|TWO_SIDED|95.0|-0.35|0.71|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 1 year||0.71|-0.35|0.5025
82541160|NCT03351075|164781631|SUPERIORITY||Mean Difference (Net)|0.45||||0.1363|TWO_SIDED|95.0|-0.14|1.05|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported health-related quality of life from baseline to 1,5 years||1.05|-0.14|0.1363
82541161|NCT03351075|164781632|SUPERIORITY||Percentage|-0.184||||0.074|TWO_SIDED|95.0|-0.358|0.008|||Fisher Exact|||Difference in proportion of working participants at 1 year||0.008|-0.358|0.074
82456263|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.69|||||TWO_SIDED|95.0|86.15|96.57|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 2.||96.57|86.15|
82456264|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.66|||||TWO_SIDED|95.0|70.78|99.15|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 2.||99.15|70.78|
82456265|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|95.49|||||TWO_SIDED|95.0|72.11|99.89|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 2.||99.89|72.11|
82456266|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.71|||||TWO_SIDED|95.0|85.13|96.93|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 2.||96.93|85.13|
82456267|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.01|||||TWO_SIDED|95.0|82.82|96.88|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 2.||96.88|82.82|
82456268|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.36|||||TWO_SIDED|95.0|84.98|96.59|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 3.||96.59|84.98|
82456269|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|89.2|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 3.||100.00|89.20|
82456270|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|89.39|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 3.||100.00|89.39|
82456271|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.84|||||TWO_SIDED|95.0|79.81|95.51|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 3.||95.51|79.81|
82456272|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.74|||||TWO_SIDED|95.0|68.99|93.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 3.||93.35|68.99|
82490302|NCT01999868|164673497|SUPERIORITY|||||||0.008||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.008
82541162|NCT03351075|164781632|SUPERIORITY||Percentage|-0.09||||0.352|TWO_SIDED|95.0|-0.26|0.078|||Fisher Exact|||Difference in proportion of working participants at 1,5 years||0.078|-0.26|0.352
82490303|NCT01999868|164673498|SUPERIORITY|||||||0.005||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 88. This interval corresponds to the time from randomization until the end of the study.||||0.005
82456273|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.75|||||TWO_SIDED|95.0|80.31|95.24|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 4.||95.24|80.31|
82456274|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|93.88|||||TWO_SIDED|95.0|60.62|99.85|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 4.||99.85|60.62|
82456275|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.62|||||TWO_SIDED|95.0|66.1|99.04|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 4.||99.04|66.10|
82456276|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.96|||||TWO_SIDED|95.0|77.96|95.13|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 4.||95.13|77.96|
82456277|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.86|||||TWO_SIDED|95.0|73.3|95.33|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 4.||95.33|73.30|
82456278|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|83.87|||||TWO_SIDED|95.0|68.31|92.63|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 6.||92.63|68.31|
82456279|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.5|||||TWO_SIDED|95.0|46.83|98.61|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 6.||98.61|46.83|
82456280|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.31|||||TWO_SIDED|95.0|48.79|99.82|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 6.||99.82|48.79|
82456281|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.98|||||TWO_SIDED|95.0|63.64|93.05|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 6.||93.05|63.64|
82456282|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.0|||||TWO_SIDED|95.0|54.3|92.5|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 6.||92.50|54.30|
82541163|NCT03351075|164781633|SUPERIORITY||Mean Difference (Net)|0.23||||0.8497|TWO_SIDED|95.0|-2.17|2.64|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 4 months||2.64|-2.17|0.8497
82541164|NCT03351075|164781633|SUPERIORITY||Mean Difference (Net)|0.81||||0.4971|TWO_SIDED|95.0|-1.52|3.14|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 1 year||3.14|-1.52|0.4971
82541165|NCT03351075|164781633|SUPERIORITY||Mean Difference (Net)|0.45||||0.6831|TWO_SIDED|95.0|-1.72|2.62|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in cold detection sensitivity from baseline to 1.5 years||2.62|-1.72|0.6831
82541166|NCT03351075|164781634|SUPERIORITY||Mean Difference (Net)|4.78||||0.8584|TWO_SIDED|95.0|-47.72|57.28|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 4 months||57.28|-47.72|0.8584
82541167|NCT03351075|164781634|SUPERIORITY||Mean Difference (Net)|-57.25||||0.0353|TWO_SIDED|95.0|-110.57|-3.93|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 1 year||-3.93|-110.57|0.0353
82541168|NCT03351075|164781634|SUPERIORITY||Mean Difference (Net)|-20.1||||0.4865|TWO_SIDED|95.0|-76.72|36.52|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in mechanical pain sensitivity at the arm from baseline to 1.5 years||36.52|-76.72|0.4865
82541169|NCT03351075|164781635|SUPERIORITY||Mean Difference (Net)|1.11||||0.1278|TWO_SIDED|95.0|0.97|1.27|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 4 months||1.27|0.97|0.1278
82438642|NCT03389555|164585185|EQUIVALENCE|If the adjusted risk difference from the logistic regression analysis overlaps 0, there was considered to be no difference between groups|Risk Difference (RD)|-1.8||||0.82|TWO_SIDED|95.0|-18.0|14.0|||Regression, Logistic|||Logistic regression analysis evaluating home hospital disposition in survivors to hospital discharge in intervention versus placebo group controlling for treatment site.||14|-18|0.82
82438643|NCT01885208|164585186|NON_INFERIORITY|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and exenatide ER 2.0 mg was below the pre-specified non-inferiority margin (0.3 %).|Treatment difference|-0.62|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.44|||Mixed Models Analysis|||The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-0.44|-0.8|< 0.0001
82438644|NCT01885208|164585186|SUPERIORITY|Superiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and exenatide ER 2.0 mg was below the pre-specified superiority margin (0 %).|Treatment difference|-0.62|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.44|||Mixed Models Analysis|||The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-0.44|-0.8|< 0.0001
82438645|NCT02449889|164585221|NON_INFERIORITY|Treatment comparisons were done in a sequential manner. First non-inferiority (NI) was tested for HP-hCG IM compared to rhCG SC (lower limit of the 95% confidence interval (CI) \> -3.0). If NI was demonstrated, NI was also to be tested for HP-hCG SC compared to rhCG SC.|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.8|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Mean number of oocytes retrieved for the treatment comparison of HP-hCG IM versus rhCG SC||1.8|-0.6|
82438646|NCT02449889|164585221|NON_INFERIORITY|As step 2 in the pre-specified sequential testing, NI was tested for HP-hCG SC compared to rhCG SC.|Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-0.5|2.0|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Mean number of oocytes retrieved for the treatment comparison of HP-hCG SC versus rhCG SC||2.0|-0.5|
82438647|NCT02449889|164585222|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.6|1.5|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of MII oocytes retrieved for the treatment comparison of HP-hCG IM versus rhCG SC||1.5|-0.6|
82438648|NCT02449889|164585222|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.4|1.6|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of Mll oocytes retrieved for the treatment comparison of HP-hCG SC versus rhCG SC||1.6|-0.4|
82438649|NCT02449889|164585223|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.6|1.3|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of fertilized (2 pronuclei (2PN)) oocytes for the treatment comparison of HP-hCG IM versus rhCG SC||1.3|-0.6|
82456283|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|83.61|||||TWO_SIDED|95.0|67.76|92.51|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 7.||92.51|67.76|
82578074|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of IFNƴ among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.03
82541170|NCT03351075|164781635|SUPERIORITY||Mean Difference (Net)|1.11||||0.1875|TWO_SIDED|95.0|0.95|1.3|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 1 year||1.30|0.95|0.1875
82541171|NCT03351075|164781635|SUPERIORITY||Mean Difference (Net)|1.05||||0.5612|TWO_SIDED|95.0|0.89|1.23|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in pressure pain sensitivity at the pectoral region from baseline to 1.5 years||1.23|0.89|0.5612
82578075|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
82578076|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
82541172|NCT03351075|164781636|SUPERIORITY||Mean Difference (Net)|1.089||||0.7902|TWO_SIDED|95.0|0.693|1.62|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 4 months||1.620|0.693|0.7902
82541173|NCT03351075|164781636|SUPERIORITY||Mean Difference (Net)|0.934||||0.7578|TWO_SIDED|95.0|0.604|1.443|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 1 year||1.443|0.604|0.7578
82541174|NCT03351075|164781636|SUPERIORITY||Mean Difference (Net)|1.01||||0.96|TWO_SIDED|95.0|0.679|1.504|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported anxiety from baseline to 1.5 years||1.504|0.679|0.9600
82541175|NCT03351075|164781637|SUPERIORITY||Mean Difference (Net)|1.068||||0.7619|TWO_SIDED|95.0|0.696|1.639|||Multivariate linear model|multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 4 months||1.639|0.696|0.7619
82578077|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL4 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
82438650|NCT02449889|164585223|NON_INFERIORITY|Pre-specified supportive endpoint analyzed in a similar manner as the primary endpoint.|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.5|1.4|||||ANOVA with treatment, stratum (\<10 or ≥10 follicles with a diameter ≥12 mm), and site as fixed factors.|Number of fertilized (2 pronuclei (2PN)) oocytes for the treatment comparison of HP-hCG SC versus rhCG SC.||1.4|-0.5|
82541176|NCT03351075|164781637|SUPERIORITY||Mean Difference (Net)|1.087||||0.7169|TWO_SIDED|95.0|0.702|1.673|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 1 year||1.673|0.702|0.7169
82541177|NCT03351075|164781637|SUPERIORITY||Mean Difference (Net)|0.987||||0.9535|TWO_SIDED|95.0|0.639|1.525|||Multivariate linear model|A multivariate linear model for longitudinal measures with an unstructured covariance matrix was applied for each continuous outcome.||Difference in change in self-reported stress from baseline to 1.5 years||1.525|0.639|0.9535
82541178|NCT02027558|164781650|SUPERIORITY||Mean Difference (Net)|-3.21|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-4.58|-1.83|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-1.83|-4.58|<.001
82541179|NCT02027558|164781651|SUPERIORITY||Mean Difference (Net)|-16.23|STANDARD_ERROR_OF_MEAN|6.52||0.013|TWO_SIDED|95.0|-29.02|-2.49|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-2.49|-29.02|0.013
82541180|NCT02027558|164781652|SUPERIORITY||Mean Difference (Net)|-20.46|STANDARD_ERROR_OF_MEAN|8.75||0.019|TWO_SIDED|95.0|-37.63|-3.29|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||-3.29|-37.63|0.019
82578078|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.005||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.005
82438651|NCT01973387|164585228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.178|||<|0.0001|TWO_SIDED|95.0|0.109|0.291|||Log Rank|||||0.291|0.109|<0.0001
82438652|NCT03327220|164585233|SUPERIORITY||Difference in Means|1.3||||0.0841|TWO_SIDED|95.0|-0.6|3.2||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing null hypothesis that true iovera° mean was greater than or equal to the true standard of care mean versus the alternative hypothesis that true iovera° mean was less than true standard of care mean.||3.2|-0.6|0.0841
82438653|NCT03327220|164585234|NON_INFERIORITY|The objective met if the t-test for non-inferiority was statistically significant using a one-sided α = 0.025 level of statistical significance.|Difference in Means|1.9|||<|0.0001|TWO_SIDED|95.0|-2.3|6.1||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing null hypothesis that Standard of Care mean minus the iovera° mean was greater than or equal to non-inferiority margin of 14 versus alternative hypothesis that difference in means was less than 14.||6.1|-2.3|<0.0001
82438654|NCT03327220|164585235|SUPERIORITY||Difference in Means|0.5||||0.0946|TWO_SIDED|95.0|-0.2|1.2||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Pain in the Past 7 days - Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.||1.2|-0.2|0.0946
82438655|NCT03327220|164585235|SUPERIORITY|Pain Right Now - Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.|Difference in Means|0.4||||0.2204|TWO_SIDED|95.0|-0.6|1.3||p-value was calculated from a one-sided, two-sample t-test,|t-test, 1 sided|||||1.3|-0.6|0.2204
82578079|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.06
82438656|NCT03327220|164585236|SUPERIORITY||Difference in Means|-0.8||||0.3231|TWO_SIDED|95.0|-4.0|2.5||p-value was calculated from a one-sided, two-sample t-test.|t-test, 1 sided|||Testing the null hypothesis that the iovera° mean was less than or equal to the Standard of Care mean versus the alternative hypothesis that the iovera° mean was greater than the Standard of Care mean.||2.5|-4.0|0.3231
82438657|NCT03989427|164585264|EQUIVALENCE|The two treatment sequence could be called equivalent if the observed difference and its 95% CI are completely inside the interval of clinical equivalence. A significant result (p \< 0.05) means that the two treatments are equivalent, according the definition of equivalence as defined clinically.|Mean Difference (Net)|1.424||||0.022|TWO_SIDED|95.0|0.221|2.628||The threshold for statistical significance was p \<0.05|ANOVA|Three-way mixed ANOVA was done to determine the effect of Intervention on BPI scores .||"Null hypothesis is that the sequence of brushing first and flossing later has no effect on gingival inflammation.~No previous studies with Mean and SD were available. Hence, a pilot study was done. 30 participants were randomly assigned to Brush first and floss later (BF) group ; and Floss first brush later(FB) group. After 1 week there was cross-over. 80% power is required to detect mean difference in BPI scores."||2.628|0.221|0.022
82438658|NCT03989427|164585265|EQUIVALENCE|The two treatment sequence could be called equivalent if the observed difference and its 95% CI are completely inside the interval of clinical equivalence. A significant result (p \< 0.05) means that the two treatments are equivalent, according the definition of equivalence as defined clinically.|Mean Difference (Net)|-0.058||||0.971|TWO_SIDED|95.0|-3.335|3.219|||ANOVA|Three-way mixed ANOVA was done to determine the effect of Intervention on RMNPI index scores||"Null hypothesis:~The sequence of brushing and flossing has no effect on plaque scores~There were no previous studies with Mean and SD to calculate sample. So a pilot study was conducted. 30 participants were randomly assigned in 1:1 fashion to Brush-floss (GroupA) and Floss brush group (group B). Then after 1 week there was cross-over among the groups.2 groups would have at least 80% power to detect the mean difference in BPI scores."||3.219|-3.335|0.971
82438659|NCT03272828|164585266|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||0.63
82438660|NCT03272828|164585267|SUPERIORITY|||||||0.06|||||||Unequal-variance 2-sample t-test|||||||0.06
82438661|NCT03272828|164585268|SUPERIORITY|||||||0.45|||||||Unequal-variance 2-sample t-test|||||||0.45
82438662|NCT03077438|164585271|NON_INFERIORITY|95% confidence interval (CI) of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|7.6|||||TWO_SIDED|95.0|1.1|14.0||||||Serogroup A||14|1.1|
82438663|NCT03077438|164585271|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|47.4|||||TWO_SIDED|95.0|42.2|52.2||||||Serogroup C||52.2|42.2|
82438664|NCT03077438|164585271|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|12.2|||||TWO_SIDED|95.0|7.7|16.7||||||Serogroup Y||16.7|7.7|
82438665|NCT03077438|164585271|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \>-10%.|Percentage Difference|14.8|||||TWO_SIDED|95.0|8.9|20.5||||||Serogroup W||20.5|8.9|
82438666|NCT03077438|164585272|OTHER||GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.32||||||Serogroup A||1.32|0.91|
82438667|NCT03077438|164585272|OTHER||GMT Ratio|14.0|||||TWO_SIDED|95.0|11.3|17.3||||||Serogroup C||17.3|11.3|
82438668|NCT03077438|164585272|OTHER||GMT Ratio|1.58|||||TWO_SIDED|95.0|1.31|1.9||||||Serogroup Y||1.9|1.31|
82438669|NCT03077438|164585272|OTHER||GMT Ratio|1.43|||||TWO_SIDED|95.0|1.21|1.69||||||Serogroup W||1.69|1.21|
82438670|NCT03077438|164585273|OTHER||GMT Ratio|1.14|||||TWO_SIDED|95.0|0.883|1.47||||||Serogroup A||1.47|0.883|
82438671|NCT03077438|164585273|OTHER||GMT Ratio|17.4|||||TWO_SIDED|95.0|13.4|22.6||||||Serogroup C||22.6|13.4|
82438672|NCT03077438|164585273|OTHER||GMT Ratio|1.38|||||TWO_SIDED|95.0|1.07|1.78||||||Serogroup Y||1.78|1.07|
82541181|NCT02027558|164781653|SUPERIORITY||Mean Difference (Net)|10.49|STANDARD_ERROR_OF_MEAN|3.04||0.001|TWO_SIDED|95.0|4.53|16.44|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||16.44|4.53|0.001
82438673|NCT03077438|164585273|OTHER||GMT Ratio|1.43|||||TWO_SIDED|95.0|1.12|1.83||||||Serogroup W||1.83|1.12|
82438674|NCT03077438|164585274|OTHER||GMT Ratio|1.06|||||TWO_SIDED|95.0|0.816|1.38||||||Serogroup A||1.38|0.816|
82438675|NCT03077438|164585274|OTHER||GMT Ratio|11.5|||||TWO_SIDED|95.0|8.24|16.0||||||Serogroup C||16|8.24|
82438676|NCT03077438|164585274|OTHER||GMT Ratio|1.84|||||TWO_SIDED|95.0|1.41|2.38||||||Serogroup Y||2.38|1.41|
82438677|NCT03077438|164585274|OTHER||GMT Ratio|1.45|||||TWO_SIDED|95.0|1.16|1.82||||||Serogroup W||1.82|1.16|
82438678|NCT03077438|164585275|OTHER||Percentage Difference|7.6|||||TWO_SIDED|95.0|-1.6|16.7||||||Serogroup A||16.7|-1.6|
82438679|NCT03077438|164585275|OTHER||Percentage Difference|51.1|||||TWO_SIDED|95.0|43.5|57.8||||||Serogroup C||57.8|43.5|
82438680|NCT03077438|164585275|OTHER||Percentage Difference|11.2|||||TWO_SIDED|95.0|4.2|18.1||||||Serogroup Y||18.1|4.2|
82438681|NCT03077438|164585275|OTHER||Percentage Difference|12.5|||||TWO_SIDED|95.0|3.9|20.9||||||Serogroup W||20.9|3.9|
82438682|NCT03077438|164585276|OTHER||Percentage Difference|7.7|||||TWO_SIDED|95.0|-1.3|16.6||||||Serogroup A||16.6|-1.3|
82438683|NCT03077438|164585276|OTHER||Percentage Difference|44.0|||||TWO_SIDED|95.0|36.8|50.6||||||Serogroup C||50.6|36.8|
82438684|NCT03077438|164585276|OTHER||Percentage Difference|13.3|||||TWO_SIDED|95.0|7.6|19.2||||||Serogroup Y||19.2|7.6|
82438685|NCT03077438|164585276|OTHER||Percentage Difference|17.2|||||TWO_SIDED|95.0|9.4|24.7||||||Serogroup W||24.7|9.4|
82438686|NCT04686084|164585310|OTHER|Bland-Altman analysis|Median Difference (Final Values)|0.04|||||TWO_SIDED|||||||||||||
82438687|NCT04730635|164585390|OTHER||Posterior Probability|46.3||||||||||||||There was a threshold of ≥2 percentage points. A posterior probability value \>55% was required to satisfy the primary hypothesis.||||
82490304|NCT01999868|164673498|SUPERIORITY|||||||0.001||||||Two-sided test.|Grouped survival analysis|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 12 to 40. This interval corresponds to the time from randomization until the end of the blinded treatment phase.||||0.001
82541182|NCT02027558|164781654|SUPERIORITY||Mean Difference (Net)|4.35|STANDARD_ERROR_OF_MEAN|1.26||0.001|TWO_SIDED|95.0|1.87|6.83|||Mixed Models Analysis||The parameter estimate is the improvement in the outcome from baseline to 3-months for the treatment group versus the same improvement in respect to the control group.|||6.83|1.87|0.001
82541183|NCT02027558|164781655|SUPERIORITY||Mean Difference (Final Values)|-17.42|STANDARD_ERROR_OF_MEAN|4.99||0.0007|TWO_SIDED|95.0|-27.29|-7.55|||t-test, 2 sided|||||-7.55|-27.29|0.0007
82541184|NCT00831272|164781656|SUPERIORITY_OR_OTHER|||||||0.32|||||||Generalized Estimating Equation|||||||0.32
82438688|NCT04730635|164585391|OTHER||Posterior Probability|80.67||||||||||||||There was a threshold of ≤ 0.1 for this standard deviation change. A posterior probability value \>70% was required to satisfy this secondary hypothesis.||||
82438689|NCT04730635|164585392|OTHER||Posterior Probability|98.8||||||||||||||||||
82438690|NCT03070223|164585393|SUPERIORITY||Mean Difference (Net)|-0.1||||0.31|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.10|-0.30|0.31
82438691|NCT03070223|164585395|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.62|TWO_SIDED|95.0|-1.72|2.88|||Regression, Linear||Treatment group difference was estimated using baseline-adjusted linear regression model.|Comparison of Month 24 values||2.88|-1.72|0.62
82438692|NCT03070223|164585396|SUPERIORITY||Mean Difference (Net)|-0.001||||0.61|TWO_SIDED|95.0|-0.007|0.004|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.004|-0.007|0.61
82438693|NCT03070223|164585397|SUPERIORITY||Mean Difference (Net)|-0.028||||0.8|TWO_SIDED|95.0|-0.25|0.19|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.19|-0.25|0.80
82438694|NCT03070223|164585398|SUPERIORITY||Risk Ratio (RR)|1.02||||0.33|TWO_SIDED|95.0|0.98|1.06|||Log-binomial regression using GEE|P-value is from the time and treatment group interaction.|Treatment effect is shown as relative annualized risk of impairment in the pitavastatin group compared to placebo (1 reflects no difference between treatment groups).|||1.06|0.98|0.33
82438695|NCT03070223|164585399|SUPERIORITY||Mean Difference (Net)|-0.005||||0.18|TWO_SIDED|95.0|-0.013|0.002|||Mixed Models Analysis|P-value is from the time and treatment group interaction.|Treatment effect was estimated as the difference in annualized rate of change (slope) with randomized pitavastatin compared to placebo from linear mixed effects models (0 reflects no difference between treatment groups).|||0.002|-0.013|0.18
82438696|NCT03070223|164585400|SUPERIORITY||Risk Ratio (RR)|1.06||||0.47|TWO_SIDED|95.0|0.91|1.24|||Log-binomial regression using GEE|P-value is from the time (before vs. after study treatment initiation) and treatment group interaction.|Treatment effect is shown as relative average risk of impairment over follow-up time in the pitavastatin group compared to placebo (1 reflects no difference between treatment groups).|||1.24|0.91|0.47
82578080|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
82438697|NCT03070223|164585405|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.55|TWO_SIDED|95.0|-2.7|1.4|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||1.4|-2.7|0.55
82438698|NCT03070223|164585406|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.67|TWO_SIDED|95.0|-2.8|1.8|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||1.8|-2.8|0.67
82438699|NCT03070223|164585407|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.98|TWO_SIDED|95.0|-0.5|0.52|||Regression, Linear||Treatment group difference (pitavastatin minus placebo) at Month 24 was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.52|-0.50|0.98
82438700|NCT03070223|164585408|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.31|TWO_SIDED|95.0|-0.8|0.3|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.3|-0.8|0.31
82438701|NCT03070223|164585409|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.21|TWO_SIDED|95.0|-0.2|0.9|||Regression, Linear||Treatment group difference at Month 24 (pitavastatin minus placebo) was estimated using baseline-adjusted linear regression model (0 reflects no difference between treatment groups).|Comparison of Month 24 values||0.9|-0.2|0.21
82438702|NCT02684058|164585438|SUPERIORITY|one-sided p-value at 2.5% level of significance|Odds Ratio (OR)|7.19|||<|0.001|TWO_SIDED|95.0|2.3|22.4|||Chi-squared|||||22.4|2.3|<0.001
82490305|NCT01999868|164673499|SUPERIORITY|||||||0.013||||||Two-sided test.|Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 40||||0.013
82490306|NCT01999868|164673499|SUPERIORITY|||||||0.95|||||||Regression, Logistic|Randomization stratum (PASI score at week 0: 12-20 or \>20) and duration of disease prior to screening, centered about the median, are covariates.||Week 88||||0.95
82490307|NCT01999868|164673500|SUPERIORITY|||||||0.18||||||Two-sided test.|ANCOVA|Randomization stratum (PASI score at week 0: 12-20 or \>20), baseline DLQI, and pre-screening disease duration, centered on the median, are covariates.||Week 12 to 40||||0.18
82456284|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|93.33|||||TWO_SIDED|95.0|56.67|99.84|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 7.||99.84|56.67|
82456285|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.62|||||TWO_SIDED|95.0|32.04|98.31|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 7.||98.31|32.04|
82541185|NCT02694978|164781660|NON_INFERIORITY|The non-inferiority margin of 2.64% was used for the primary endpoint statistical analysis.|Treatment difference|-0.1||||0.0001|TWO_SIDED|95.0|-0.8|0.61|||Wald|The p-value was calculated using the Wald large sample assumption.||"Statistical analysis was only performed on composite reaction data (that is, the Any TE moderate to severe hypersensitivity rxn row in the data table)."||0.61|-0.80|0.0001
82578081|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0003||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0003
82438703|NCT02684058|164585443|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.001|TWO_SIDED|95.0|0.17|0.55||Log-rank test at an overall one-sided 2.5% level of significance|Log Rank|||Up to approx. 3 years||0.55|0.17|<0.001
82438704|NCT05032690|164585507|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|99.17|||||TWO_SIDED|90.0|93.72|104.93|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||104.93|93.72|
82438705|NCT05032690|164585507|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|135.9|||||TWO_SIDED|90.0|109.28|169.01|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted."||169.01|109.28|
82438706|NCT05032690|164585508|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|93.77|||||TWO_SIDED|90.0|90.08|97.61|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||97.61|90.08|
82438707|NCT05032690|164585508|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|162.54|||||TWO_SIDED|90.0|130.25|202.84|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted"||202.84|130.25|
82438708|NCT05032690|164585509|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|98.21|||||TWO_SIDED|90.0|93.83|102.8|||Mixed Models Analysis|||"For comparison of Bosutinib 4\*25 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fed, the model is a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 4\*25 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fed."||102.80|93.83|
82438709|NCT05032690|164585509|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|146.7|||||TWO_SIDED|90.0|117.88|182.58|||Mixed Models Analysis|||"For comparison of Bosutinib 1\*100 mg Capsule Fed vs. Bosutinib 1\*100 mg Capsule Fasted, the model is a mixed effect model with sequence and treatment as fixed effects and participant within sequence as a random effect.~The reference treatment of Bosutinib 1\*100 mg Capsule Fed is Bosutinib 1\*100 mg Capsule Fasted."||182.58|117.88|
82438710|NCT05151445|164585520|OTHER||95% CI|-3.56||||0.002|TWO_SIDED|95.0|-5.65|-1.46|||McNemar|||Week 4 vs. Baseline||-1.46|-5.65|0.002
82438711|NCT05151445|164585520|OTHER||95% CI|-3.11||||0.004|TWO_SIDED|95.0|-5.07|-1.15|||McNemar|||Week 8 vs. Baseline||-1.15|-5.07|0.004
82438712|NCT05151445|164585520|OTHER||95% CI|-2.53||||0.038|TWO_SIDED|95.0|-4.9|0.16|||McNemar|||Week 12 vs. Baseline||0.16|-4.90|0.038
82438713|NCT05151445|164585521|OTHER||95% CI|9.61||||0.062|TWO_SIDED|95.0|-0.55|19.77|||McNemar|||Week 4 vs. Baseline||19.77|-0.55|0.062
82438714|NCT05151445|164585521|OTHER||95% CI|9.78||||0.098|TWO_SIDED|95.0|-2.01|21.56|||McNemar|||Week 8 vs. Baseline||21.56|-2.01|0.098
82438715|NCT05151445|164585521|OTHER||95% CI|17.06||||0.003|TWO_SIDED|95.0|6.51|27.6|||McNemar|||Week 12 vs. Baseline||27.60|6.51|0.003
82438716|NCT05151445|164585522|OTHER|||||||0.37|||||||McNemar|||Week 4 vs. Baseline||||0.37
82438717|NCT05151445|164585522|OTHER|||||||0.724|||||||McNemar|||Week 8 vs. Baseline||||0.724
82438718|NCT05151445|164585522|OTHER|||||||0.289|||||||McNemar|||Week 12 vs. Baseline||||0.289
82438719|NCT05151445|164585523|OTHER|||||||1|||||||McNemar|||Week 4 vs. Baseline||||1.000
82438720|NCT05151445|164585523|OTHER|||||||1|||||||McNemar|||Week 8 vs. Baseline||||1.000
82438721|NCT05151445|164585523|OTHER|||||||1|||||||McNemar|||Weel 12 vs. Baseline||||1.000
82438722|NCT05151445|164585524|OTHER||95% CI|-1.1||||0.696|TWO_SIDED|95.0|-6.96|4.76|||McNemar|||Week 4 vs. Baseline||4.76|-6.96|0.696
82438723|NCT05151445|164585524|OTHER||95% CI|-1.08||||0.734|TWO_SIDED|95.0|-7.72|5.56|||McNemar|||Week 8 vs. Baseline||5.56|-7.72|0.734
82438724|NCT05151445|164585524|OTHER||95% CI|-4.15||||0.249|TWO_SIDED|95.0|-11.53|3.23|||McNemar|||Week 12 vs. Baseline||3.23|-11.53|0.249
82438725|NCT05151445|164585525|OTHER||95% CI|-0.04||||0.989|TWO_SIDED|95.0|-5.25|5.18|||McNemar|||Week 4 vs. Baseline||5.18|-5.25|0.989
82438726|NCT05151445|164585525|OTHER||95% CI|3.43||||0.263|TWO_SIDED|95.0|-2.83|9.69|||McNemar|||Week 8 vs. Baseline||9.69|-2.83|0.263
82438727|NCT05151445|164585525|OTHER||Slope|0.44||||0.882|TWO_SIDED|95.0|-5.8|6.68|||McNemar|||Week 12 vs. Baseline||6.68|-5.80|0.882
82438728|NCT05151445|164585526|OTHER||95% CI|-0.62||||0.425|TWO_SIDED|95.0|-2.23|0.98|||McNemar|||Week 4 vs. Baseline||0.98|-2.23|0.425
82438729|NCT05151445|164585526|OTHER||95% CI|-4.98||||0.205|TWO_SIDED|95.0|-9.08|-0.88|||McNemar|||Week 8 vs. Baseline||-0.88|-9.08|0.205
82438730|NCT05151445|164585526|OTHER||95% CI|-4.98||||0.02|TWO_SIDED|95.0|-9.08|-0.8|||McNemar|||Week 12 vs. Baseline||-0.8|-9.08|0.020
82438731|NCT05151445|164585527|OTHER||95% CI|0.429||||0.429|TWO_SIDED|95.0|-4.9|11.01|||McNemar|||Week 4 vs. Baseline||11.01|-4.90|0.429
82438732|NCT05151445|164585527|OTHER||95% CI|-4.39||||0.255|TWO_SIDED|95.0|-12.24|3.46|||McNemar|||Week 8 vs. Baseline||3.46|-12.24|0.255
82438733|NCT05151445|164585527|OTHER||95% CI|-7.0||||0.102|TWO_SIDED|95.0|-15.55|1.55|||McNemar|||Week 12 vs. Baseline||1.55|-15.55|0.102
82438734|NCT05151445|164585528|OTHER||95% CI|-1.94||||0.568|TWO_SIDED|95.0|-8.99|5.1|||McNemar|||Week 4 vs. Baseline||5.10|-8.99|0.568
82438735|NCT05151445|164585528|OTHER||95% CI|-4.11||||0.198|TWO_SIDED|95.0|-10.59|2.37|||McNemar|||Week 8 vs. Baseline||2.37|-10.59|0.198
82438736|NCT05151445|164585528|OTHER||95% CI|-3.76||||0.225|TWO_SIDED|95.0|-10.08|2.55|||McNemar|||Week 12 vs. Baseline||2.55|-10.08|.225
82438737|NCT00303446|164585550|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Generalized estimating equation model|The analysis includes percent change from baseline at 12 and 24 months.||||||0.28
82438738|NCT00303446|164585551|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.86
82438739|NCT00303446|164585552|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||Comparison of changes from baseline in manual muscle testing results.||||0.47
82438740|NCT00303446|164585553|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.13
82438741|NCT00303446|164585554|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.46
82438742|NCT00303446|164585555|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.11
82438743|NCT00303446|164585556|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.08
82438744|NCT00303446|164585557|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.73
82438745|NCT00303446|164585558|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.37
82438746|NCT00303446|164585559|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.65
82438747|NCT00303446|164585560|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.99
82438748|NCT00303446|164585561|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||1.0
82438749|NCT00303446|164585562|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.014
82438750|NCT00303446|164585563|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Generalized estimating equation model showed a significant interaction between time and treatment; therefore a two sample t-test was used at each time point. P-value is given for comparison at 24 months.|t-test, 2 sided|||||||0.033
82438751|NCT00303446|164585564|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Generalized estimating equation model|The analysis includes change from baseline at 12 and 24 months.||||||0.61
82438752|NCT00450294|164585588|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||That the means at the different timepoints would not all be equal.|ANOVA|||Repeated measures anova with post hoc t-tests using tukey's correction.||||<0.001
82438753|NCT00450294|164585589|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||That the means at the different timepoints would not all be equal.|ANOVA|||Repeated measures anova with post hoc t-tests using tukey's correction.||||<0.001
82438754|NCT01962987|164585601|EQUIVALENCE|90% confidence interval of the difference in the percentage of patients between Test and Reference to be contained within -20%, + 20%, using the Per-Protocol Population.|(Test-Ref) Difference|0.68|||||TWO_SIDED|90.0|-8.06|9.42|||||Applicable to Percentage of Subjects with Cure (100% complete AK clearance at day 90)|||9.42|-8.06|
82438755|NCT01962987|164585601|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.0010
82541186|NCT03262935|164781680|SUPERIORITY||Hazard Ratio (HR)|0.6401|||=|0.002|TWO_SIDED|95.0|0.4885|0.8389||P-value from stratified log-rank test for median estimate of PFS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the hazard ratio of PFS, along with 95% CIs. Stratification factors assigned at randomization were world region (Europe, Singapore, and North America), number of prior treatment lines for locally advanced or metastatic breast cancer (excluding hormone therapy) (1 to 2, \>2), and prior treatment with pertuzumab (yes, no).||0.8389|0.4885|=0.002
82541187|NCT03262935|164781681|SUPERIORITY||Hazard Ratio (HR)|0.868|||=|0.236|TWO_SIDED|95.0|0.676|1.1145||P-value from stratified log-rank test for Kaplan-Meier estimate of median OS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the hazard ratio of OS, along with 95% CIs. Stratification factors assigned at randomization were world region (Europe, Singapore, and North America), number of prior treatment lines for locally advanced or metastatic breast cancer (excluding hormone therapy) (1 to 2, \>2), and prior treatment with pertuzumab (yes, no).||1.1145|0.676|=0.236
82541188|NCT03262935|164781682|SUPERIORITY||||||=|0.732||||||P-value from Cochran-Mantel-Haenszel test including the randomization stratification factors.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel test (strata based on the baseline stratification factors) was used to compare the two treatment groups with respect to the ORR at two-sided 5% level of significance.||||=0.732
82541189|NCT03262935|164781683|SUPERIORITY||Hazard Ratio (HR)|0.5995|||<|0.001|TWO_SIDED|95.0|0.4666|0.7703||P-value from stratified log-rank test for median estimate of PFS: stratified according to the randomization stratification factors.|Log Rank|||A stratified Cox regression analysis was used to estimate the HR of PFS, along with the 95% CI. The treatment groups were compared using the 2-sided stratified log-rank test.||0.7703|0.4666|<0.001
82541190|NCT03262935|164781684|SUPERIORITY|||||||0.473|||||||MMRM|||The change from baseline in the global health status/QoL scale transformed score was analyzed using a mixed model repeated measurement (MMRM) approach.||||0.473
82541191|NCT02680457|164781690|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.630
82541192|NCT02680457|164781691|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82541193|NCT03622580|164781704|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|97.5|-2.0|1.6|||||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||1.6|-2.0|
82438756|NCT01106859|164585650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.0174|TWO_SIDED|95.0|0.1|1.5||No p-value adjustment for multiple comparisons.|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups.||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zolpidem 4 Hours) - LS mean of SDLP (Placebo).||1.5|0.1|0.0174
82561858|NCT02291861|164832899|SUPERIORITY||Mean Difference (Final Values)|-21.5|||<|0.001|TWO_SIDED|95.0|-33.44|-9.52||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||-9.52|-33.44|<0.001
82561859|NCT02291861|164832899|SUPERIORITY||Mean Difference (Final Values)|-20.2||||0.001|TWO_SIDED|95.0|-32.57|-7.92||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||-7.92|-32.57|0.001
82561860|NCT02291861|164832899|SUPERIORITY||Mean Difference (Final Values)|-8.4||||0.16|TWO_SIDED|95.0|-20.15|3.34||5% level of significance (2-sided). Treatment group, visit, treatment group-by-visit interaction, and baseline use of DRAs as fixed effects and the baseline value as a covariate. The model was fit using an unstructured covariance structure.|mixed model for repeated measures||SD-809 - placebo|||3.34|-20.15|0.160
82561861|NCT04332991|164832902|SUPERIORITY||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.73|1.42|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group.|Outcome measure was adjusted for age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization.||1.42|0.73|
82561862|NCT04332991|164832903|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.9|1.81|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.81|0.90|
82561863|NCT04332991|164832904|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.84|1.61|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.61|0.84|
82561864|NCT04332991|164832905|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.69|1.38|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure is adjusted for : age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization.||1.38|0.69|
82561865|NCT04332991|164832906|SUPERIORITY||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|0.68|3.57|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.57|0.68|
82456286|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.43|||||TWO_SIDED|95.0|59.54|91.58|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 7.||91.58|59.54|
82456287|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|78.79|||||TWO_SIDED|95.0|51.24|92.08|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 7.||92.08|51.24|
82456288|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.76|||||TWO_SIDED|95.0|65.98|92.14|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 8.||92.14|65.98|
82456289|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|42.67|98.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 8.||98.52|42.67|
82490308|NCT01999868|164673500|SUPERIORITY|||||||0.045||||||Two-sided test.|ANCOVA|Randomization (PASI score week 0:12-20 or \>20), DLQI score at baseline, duration of disease prior to screening, centered about median, are covariates||Week 12 to 88||||0.045
82578082|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0002||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0002
82578083|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.01||||||The reported p-value is representative of the changes in levels of IL8 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.01
82578084|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of IL6 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.03
82490309|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|1.24|1.8||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.80|1.24|
82490310|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.15||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.15|0.78|
82490311|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.8|1.12||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.12|0.80|
82490312|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.19|1.76||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.76|1.19|
82490313|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.86|0.59|
82490314|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|1.15|1.86||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.86|1.15|
82490315|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.97|1.42||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.42|0.97|
82490316|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|1.36|2.13||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||2.13|1.36|
82541194|NCT03622580|164781704|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|97.5|-1.1|2.5|||||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.5|-1.1|
82541195|NCT03622580|164781704|SUPERIORITY||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.95||0.4699|TWO_SIDED|97.5|-2.8|1.4||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||1.4|-2.8|0.4699
82541196|NCT03622580|164781704|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.94||0.965|TWO_SIDED|97.5|-2.1|2.2||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||2.2|-2.1|0.9650
82541197|NCT03622580|164781704|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.79||0.7967|TWO_SIDED|97.5|-2.0|1.6||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||1.6|-2.0|0.7967
82541198|NCT03622580|164781704|SUPERIORITY||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|0.79||0.3772|TWO_SIDED|97.5|-1.1|2.5||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.5|-1.1|0.3772
82541199|NCT03622580|164781705|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -10%, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W.|Difference in CMH Weighted Percentage|10.2|||||TWO_SIDED|97.5|0.3|20.0||||||The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||20.0|0.3|
82541200|NCT03622580|164781705|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -10%, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W.|Difference in CMH Weighted Percentage|6.1|||||TWO_SIDED|97.5|-3.6|15.8||||||The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||15.8|-3.6|
82541201|NCT03622580|164781705|SUPERIORITY||Difference in CMH Weighted Percentage|7.2||||0.1761|TWO_SIDED|97.5|-4.6|18.9||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||18.9|-4.6|0.1761
82541202|NCT03622580|164781705|SUPERIORITY||Difference in CMH Weighted Percentage|4.8||||0.3539|TWO_SIDED|97.5|-6.7|16.3||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||16.3|-6.7|0.3539
82541203|NCT03622580|164781705|SUPERIORITY||Difference in CMH Weighted Percentage|10.2||||0.0237|TWO_SIDED|97.5|0.3|20.0||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||20.0|0.3|0.0237
82541204|NCT03622580|164781705|SUPERIORITY||Difference in CMH Weighted Percentage|6.1||||0.1677|TWO_SIDED|97.5|-3.6|15.8||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||15.8|-3.6|0.1677
82541205|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|-2.6|||||TWO_SIDED|95.0|-10.0|4.9||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.9|-10.0|
82541206|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|3.5|||||TWO_SIDED|95.0|-4.0|11.1||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||11.1|-4.0|
82578085|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.91||||||The reported p-value is representative of the changes in levels of IL10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.91
82652366|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.152||||0.2627|TWO_SIDED|95.0|-0.419|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.115|-0.419|0.2627
82456290|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.62|||||TWO_SIDED|95.0|32.04|98.31|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 8.||98.31|32.04|
82456291|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|81.4|||||TWO_SIDED|95.0|59.97|92.45|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 8.||92.45|59.97|
82456292|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|80.65|||||TWO_SIDED|95.0|52.91|93.4|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 8.||93.40|52.91|
82541207|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-8.6|7.9||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||7.9|-8.6|
82541208|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|0.7|||||TWO_SIDED|95.0|-7.4|8.8||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||8.8|-7.4|
82649589|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.07||||0.197|TWO_SIDED|95.0|-0.19|0.04|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.04|-0.19|0.197
82438757|NCT01106859|164585650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||<|0.0001|TWO_SIDED|95.0|0.8|2.1||No p-value adjustment for multiple comparisons.|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zolpidem 3 Hours) - LS mean of SDLP (Placebo).||2.1|0.8|<0.0001
82438758|NCT01106859|164585650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.8|3.1||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 114 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDLP (Zopiclone) - LS mean of SDLP (Placebo).||3.1|1.8|<0.0001
82438759|NCT01106859|164585651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.0145|TWO_SIDED|95.0|0.03|0.27||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zolpidem 4 hours prior) - LS mean of SDS (Placebo).||0.27|0.03|0.0145
82438760|NCT01106859|164585651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.2179|TWO_SIDED|95.0|-0.05|0.2||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zolpidem 3 Hours) - LS mean of SDS (Placebo).||0.20|-0.05|0.2179
82541209|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|-2.5|||||TWO_SIDED|95.0|-9.1|4.1||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.1|-9.1|
82541210|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-8.5|4.5||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.5|-8.5|
82541211|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-4.6|4.8||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.8|-4.6|
82541212|NCT03622580|164781708|OTHER||Difference in CMH Weighted Percentage|3.3|||||TWO_SIDED|95.0|-1.0|7.5||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||7.5|-1.0|
82541213|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|-5.2|||||TWO_SIDED|95.0|-14.0|3.5||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||3.5|-14.0|
82541214|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|1.7|||||TWO_SIDED|95.0|-7.0|10.3||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||10.3|-7.0|
82541215|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-9.5|9.5||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||9.5|-9.5|
82649590|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.06||||0.282|TWO_SIDED|95.0|-0.17|0.06|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.06|-0.17|0.282
82456293|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|73.68|||||TWO_SIDED|95.0|52.89|86.16|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 9.||86.16|52.89|
82456294|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|66.67|||||TWO_SIDED|95.0|3.52|90.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 9.||90.52|3.52|
82456295|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|72.73|||||TWO_SIDED|95.0|-3.24|95.11|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 9.||95.11|-3.24|
82456296|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|76.19|||||TWO_SIDED|95.0|51.78|89.35|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 9.||89.35|51.78|
82456297|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|75.86|||||TWO_SIDED|95.0|43.69|91.07|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 9.||91.07|43.69|
82456298|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|71.7|||||TWO_SIDED|95.0|49.03|85.18|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 10.||85.18|49.03|
82456299|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|77.89|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 10.||100.00|77.89|
82456300|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.0|||||TWO_SIDED|95.0|29.71|99.77|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 10.||99.77|29.71|
82541216|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|2.1|||||TWO_SIDED|95.0|-7.1|11.3||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||11.3|-7.1|
82541217|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|-4.5|||||TWO_SIDED|95.0|-11.9|2.9||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.9|-11.9|
82541218|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|-7.2|||||TWO_SIDED|95.0|-14.6|0.2||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||0.2|-14.6|
82541219|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|-0.2|||||TWO_SIDED|95.0|-5.5|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||5.2|-5.5|
82541220|NCT03622580|164781713|OTHER||Difference in CMH Weighted Percentage|2.0|||||TWO_SIDED|95.0|-3.0|7.0||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||7.0|-3.0|
82541221|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|-0.8|||||TWO_SIDED|95.0|-2.8|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||1.3|-2.8|
82541222|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.2|1.5||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.5|-2.2|
82541223|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|-1.8|||||TWO_SIDED|95.0|-4.6|0.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||0.9|-4.6|
82541224|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.2|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.2|
82541225|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-4.5|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.2|-4.5|
82541226|NCT03622580|164781718|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-2.6|3.4||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||3.4|-2.6|
82541227|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-3.5|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||1.3|-3.5|
82541228|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-3.1|1.3||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.3|-3.1|
82541229|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-2.1|||||TWO_SIDED|95.0|-5.1|0.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||0.9|-5.1|
82541230|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-3.5|1.6||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.6|-3.5|
82541231|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-1.2|||||TWO_SIDED|95.0|-5.2|2.8||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.8|-5.2|
82541232|NCT03622580|164781722|OTHER||Difference in CMH Weighted Percentage|-0.4|||||TWO_SIDED|95.0|-4.1|3.3||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||3.3|-4.1|
82541233|NCT03622580|164781726|OTHER||Difference in CMH Weighted Percentage|-4.9|||||TWO_SIDED|95.0|-12.6|2.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.9|-12.6|
82541234|NCT03622580|164781726|OTHER||Difference in CMH Weighted Percentage|2.0|||||TWO_SIDED|95.0|-5.9|9.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.8|-5.9|
82541235|NCT03622580|164781726|OTHER||Difference in CMH Weighted Percentage|-8.6|||||TWO_SIDED|95.0|-17.8|0.5||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.5|-17.8|
82541236|NCT03622580|164781726|OTHER||Difference in CMH Weighted Percentage|-0.9|||||TWO_SIDED|95.0|-9.9|8.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||8.2|-9.9|
82578086|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.64||||||The reported p-value is representative of the changes in levels of IL10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.64
82541237|NCT03622580|164781729|OTHER||Difference in CMH Weighted Percentage|-3.2|||||TWO_SIDED|95.0|-10.2|3.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||3.8|-10.2|
82541238|NCT03622580|164781729|OTHER||Difference in CMH Weighted Percentage|2.4|||||TWO_SIDED|95.0|-4.3|9.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.2|-4.3|
82541239|NCT03622580|164781729|OTHER||Difference in CMH Weighted Percentage|-4.7|||||TWO_SIDED|95.0|-12.6|3.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||3.1|-12.6|
82541240|NCT03622580|164781729|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-8.9|6.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||6.4|-8.9|
82541241|NCT03622580|164781732|OTHER||Difference in CMH Weighted Percentage|0.6|||||TWO_SIDED|95.0|-1.8|2.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.9|-1.8|
82541242|NCT03622580|164781732|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.2|2.3||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.3|-2.2|
82541243|NCT03622580|164781732|OTHER||Difference in CMH Weighted Percentage|0.8|||||TWO_SIDED|95.0|-2.0|3.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||3.6|-2.0|
82541244|NCT03622580|164781732|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.6|2.5||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.5|-2.6|
82541245|NCT03622580|164781741|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.1|2.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.1|
82541246|NCT03622580|164781741|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.1|2.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.1|
82541247|NCT03622580|164781741|OTHER||Difference in CMH Weighted Percentage|-0.6|||||TWO_SIDED|95.0|-1.9|0.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.6|-1.9|
82541248|NCT03622580|164781741|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.5|2.5||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.5|-1.5|
82456301|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|60.53|||||TWO_SIDED|95.0|26.55|79.83|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 10.||79.83|26.55|
82456302|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|48.15|||||TWO_SIDED|95.0|-2.41|74.87|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 10.||74.87|-2.41|
82456303|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|82.0|||||TWO_SIDED|95.0|63.03|92.22|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group over Year 11.||92.22|63.03|
82456304|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.67|||||TWO_SIDED|95.0|42.67|98.52|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group over Year 11.||98.52|42.67|
82456305|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|65.07|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group over Year 11.||100.00|65.07|
82456306|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|79.41|||||TWO_SIDED|95.0|52.82|92.3|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group over Year 11.||92.30|52.82|
82456307|NCT02723773|164616829|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|72.0|||||TWO_SIDED|95.0|33.41|89.77|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group over Year 11.||89.77|33.41|
82456308|NCT02723773|164616830|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.5|||||TWO_SIDED|95.0|64.75|96.79|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=50 YOA Group over Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control \>=50 YOA Group and Historical Control\>=50 YOA Group.||96.79|64.75|
82456309|NCT02723773|164616830|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|46.59|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 50-59 YOA Group over Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control 50-59 YOA Group and Historical Control 50-59 YOA Group.||100.00|46.59|
82456310|NCT02723773|164616830|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|50.0|||||TWO_SIDED|95.0|-860.45|99.15|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control 60-69 YOA Group over Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||99.15|-860.45|
82456311|NCT02723773|164616830|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|84.0|||||TWO_SIDED|95.0|53.66|95.95|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=60 YOA Group over Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of PHN between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||95.95|53.66|
82541249|NCT03622580|164781742|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-0.4|1.2||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.2|-0.4|
82456312|NCT02723773|164616830|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|86.96|||||TWO_SIDED|95.0|56.83|97.49|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of LTFU+Control \>=70 YOA Group over Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of PHN between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||97.49|56.83|
82456313|NCT02723773|164616831|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|89.69|||||TWO_SIDED|95.0|78.67|95.7|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group.||95.70|78.67|
82456314|NCT02723773|164616831|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|77.79|100.0|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 50-59 YOA Group over Placebo/Historical Control 50-59 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||100.00|77.79|
82456315|NCT02723773|164616831|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|74.75|||||TWO_SIDED|95.0|-155.17|99.49|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su 60-69 YOA Group over Placebo/Historical Control 60-69 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||99.49|-155.17|
82456316|NCT02723773|164616831|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|87.24|||||TWO_SIDED|95.0|73.29|94.72|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||94.72|73.29|
82456317|NCT02723773|164616831|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.08|||||TWO_SIDED|95.0|73.87|95.41|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against PHN in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of PHN between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||95.41|73.87|
82456318|NCT02723773|164616832|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|91.67|||||TWO_SIDED|95.0|43.68|99.81|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=50 YOA Group over Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control \>=50 YOA Group and Historical Control \>=50 YOA Group.||99.81|43.68|
82456319|NCT02723773|164616832|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|-247.21|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control 60-69YOA Group over Historical Control 60-69YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control 60-69 YOA Group and Historical Control 60-69 YOA Group.||100.00|-247.21|
82456320|NCT02723773|164616832|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.91|||||TWO_SIDED|95.0|37.45|99.79|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=60YOA Group over Historical Control \>=60YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy in prevention of HZ related complications between LTFU+Control \>=60 YOA Group and Historical Control \>=60 YOA Group.||99.79|37.45|
82456321|NCT02723773|164616832|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|88.89|||||TWO_SIDED|95.0|19.81|99.75|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of LTFU+Control \>=70YOA Group over Historical Control \>=70YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between LTFU+Control \>=70 YOA Group and Historical Control \>=70 YOA Group.||99.75|19.81|
82541250|NCT03622580|164781742|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
82541251|NCT03622580|164781742|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
82541252|NCT03622580|164781742|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
82578087|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.7||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.70
82541253|NCT03622580|164781749|OTHER||Adjusted mean difference|-36.2|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|95.0|-47.8|-24.7||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-24.7|-47.8|
82541254|NCT03622580|164781749|OTHER||Adjusted mean difference|-26.2|STANDARD_ERROR_OF_MEAN|5.86|||TWO_SIDED|95.0|-37.7|-14.7||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-14.7|-37.7|
82541255|NCT03622580|164781749|OTHER||Adjusted mean difference|-31.1|STANDARD_ERROR_OF_MEAN|6.35|||TWO_SIDED|95.0|-43.6|-18.6||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-18.6|-43.6|
82541256|NCT03622580|164781749|OTHER||Adjusted mean difference|-23.9|STANDARD_ERROR_OF_MEAN|6.28|||TWO_SIDED|95.0|-36.2|-11.6||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-11.6|-36.2|
82541257|NCT03622580|164781752|OTHER||Difference in CMH Weighted Percentage|16.0|||||TWO_SIDED|95.0|8.9|23.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||23.1|8.9|
82541258|NCT03622580|164781752|OTHER||Difference in CMH Weighted Percentage|12.7|||||TWO_SIDED|95.0|5.4|20.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||20.0|5.4|
82541259|NCT03622580|164781752|OTHER||Difference in CMH Weighted Percentage|15.2|||||TWO_SIDED|95.0|7.3|23.2||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||23.2|7.3|
82541260|NCT03622580|164781752|OTHER||Difference in CMH Weighted Percentage|12.5|||||TWO_SIDED|95.0|4.4|20.6||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||20.6|4.4|
82541261|NCT01930045|164781769|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (GMR)|0.4||||0.507|TWO_SIDED|90.0|0.31|0.52|||Hochberg step-up procedure||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs geometric mean ratio (GMR) is not less than 0.4||0.52|0.31|0.507
82541262|NCT01930045|164781769|SUPERIORITY_OR_OTHER||GMR|0.38||||0.624|TWO_SIDED|90.0|0.3|0.49|||Hochberg step-up procedure||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.49|0.30|0.624
82541263|NCT01930045|164781770|SUPERIORITY_OR_OTHER||GMR|0.81|||||TWO_SIDED|90.0|0.63|1.05|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.05|0.63|
82541264|NCT01930045|164781770|SUPERIORITY_OR_OTHER||GMR|0.68|||||TWO_SIDED|90.0|0.5|0.92|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||0.92|0.50|
82541265|NCT01930045|164781771|SUPERIORITY_OR_OTHER||GMR|0.78|||||TWO_SIDED|90.0|0.55|1.1|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.10|0.55|
82541266|NCT01930045|164781771|SUPERIORITY_OR_OTHER||GMR|0.7|||||TWO_SIDED|90.0|0.48|1.04|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.04|0.48|
82541267|NCT01930045|164781772|SUPERIORITY_OR_OTHER||GMR|0.5|||||TWO_SIDED|90.0|0.39|0.65|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.65|0.39|
82541268|NCT01930045|164781772|SUPERIORITY_OR_OTHER||GMR|0.51|||||TWO_SIDED|90.0|0.4|0.64|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|The hypothesis is that the true Raltegravir C 12 hrs GMR is not less than 0.4||0.64|0.40|
82541269|NCT01930045|164781773|SUPERIORITY_OR_OTHER||GMR|0.87|||||TWO_SIDED|90.0|0.64|1.18|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.18|0.64|
82541270|NCT01930045|164781773|SUPERIORITY_OR_OTHER||GMR|0.89|||||TWO_SIDED|90.0|0.64|1.22|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.22|0.64|
82541271|NCT01930045|164781774|SUPERIORITY_OR_OTHER||GMR|0.9|||||TWO_SIDED|90.0|0.58|1.4|||||The Maalox followed by Raltegravir treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.40|0.58|
82541272|NCT01930045|164781774|SUPERIORITY_OR_OTHER||GMR|0.9|||||TWO_SIDED|90.0|0.58|1.41|||||The Raltegravir followed by Maalox treatment group was the numerator, and the Raltegravir alone treatment group was the denominator|||1.41|0.58|
82541273|NCT02311972|164781775|SUPERIORITY|Mean axillary admission temperature||||||0.7294|||||||t-test, 2 sided|||||||0.7294
82541274|NCT02311972|164781776|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||||||0.2360
82541275|NCT02311972|164781777|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82541276|NCT02311972|164781778|SUPERIORITY|||||||0.1089|||||||t-test, 2 sided|||||||0.1089
82541277|NCT02311972|164781779|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82541278|NCT02311972|164781780|SUPERIORITY|||||||0.4947|||||||t-test, 2 sided|||||||0.4947
82541279|NCT02311972|164781781|SUPERIORITY|Infant 007|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82541280|NCT02311972|164781781|SUPERIORITY|Infant 010|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82541281|NCT02311972|164781781|SUPERIORITY|Infant 015|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82541282|NCT02311972|164781781|SUPERIORITY|Infant 039|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82541283|NCT02311972|164781781|SUPERIORITY|Infant 040||||||0.3947|||||||t-test, 2 sided|||||||0.3947
82578088|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.59||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.59
82456322|NCT02723773|164616833|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.83|||||TWO_SIDED|95.0|71.57|99.17|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=50 YOA Group over Placebo/Historical Control \>=50 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=50 YOA Group and Placebo/Historical Control \>=50 YOA Group.||99.17|71.57|
82456323|NCT02723773|164616833|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|-1830.98|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of HZ/su 50-59YOA Group over Placebo/Historical Control 50-59YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su 50-59 YOA Group and Placebo/Historical Control 50-59 YOA Group.||100.00|-1830.98|
82456324|NCT02723773|164616833|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|100.0|||||TWO_SIDED|95.0|17.55|100.0|||Poisson regression method||VE=1-RR. RR=the ratio of the incidence rates of HZ/su 60-69YOA Group over Placebo/Historical Control 60-69YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su 60-69 YOA Group and Placebo/Historical Control 60-69 YOA Group.||100.00|17.55|
82456325|NCT02723773|164616833|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|92.28|||||TWO_SIDED|95.0|69.17|99.11|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=60 YOA Group over Placebo/Historical Control \>=60 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=60 YOA Group and Placebo/Historical Control \>=60 YOA Group.||99.11|69.17|
82456326|NCT02723773|164616833|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Vaccine efficacy|90.45|||||TWO_SIDED|95.0|60.93|98.91|||Poisson regression method||VE = 1 - RR. RR = the ratio of the incidence rates of HZ/su \>=70 YOA Group over Placebo/Historical Control \>=70 YOA Group. The VE of HZ/su vaccine against HZ related complications in this study was descriptively summarized by age strata and overall.|Comparison of vaccine efficacy (VE) in prevention of HZ related complications between HZ/su \>=70 YOA Group and Placebo/Historical Control \>=70 YOA Group.||98.91|60.93|
82456327|NCT01507688|164616909|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED|||||P-value was not adjusted for multiple comparisons. Models adjusted for: VA vs Non Va, admission diagnosis (transient ischemic attack vs stroke), sex (male vs female), white vs nonwhite, and baseline total Stroke Specific Quality of life score.|Mixed Models Analysis|Repeated measurements of change GEE analyses of Total Stroke Specific Quality of Life score change at 6 months from baseline.|The adjusted positive mean (standard error) change at 6 months from baseline was higher in the intervention arm compared to in the control arm. Intervention group had 0.14 (SE 0.17) higher improvement compared to the control group.|"All the sample size calculations were powered at 80% with a 5% Type I error. We estimated based on our pilot study a change difference of 0.25 on Total Stroke Specific Quality of Life in the intervention group compared to no change in the control group at 6 months. Our power calculations estimated a sample of 226 (113) per group was needed to detect this effect. We used primary outcome row Mean Change from 0 to 6 months for this analysis."||||0.0500
82456328|NCT01507688|164616909|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.04||0.26|TWO_SIDED|||||Adjusted least square means (standard errors) adjusted for treatment (Intervention vs control), time of outcome from baseline (3, 6, 12 months), baseline SSQoL, Site (VA vs NonVA), Stroke/TIA diagnosis, sex (m vs f) and race (white vs nonwhite).|Mixed Models Analysis||Adjusted intervention arm's positive change (regression coefficient with standard error) in Total Stroke Specific Quality of Life was not significantly different at 12 months compared to the control group.|"We evaluated the mean difference on Total Stroke Specific Quality of Life compared to baseline between the intervention and control groups at 12 months using repeated measures ANCOVA models. We used primary outcome row Mean change from 0 to 12 months for this analysis."||||0.26
82456329|NCT03906071|164616910|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.144|TWO_SIDED|95.0|0.7|1.05||The p-value is based on a unstratified log-rank test. (2-Sided)|Log Rank||Based on the unstratified cox proportional hazards model.|||1.05|0.70|0.144
82456330|NCT00466440|164616924|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.2||||1|TWO_SIDED|90.0|-12.52|12.95|||Chi-squared||The objective response rates and the 90% confidence intervals were estimated for the qualified participants using unadjusted normal approximation for binomial proportions (z approximation).|||12.95|-12.52|1.0000
82456331|NCT00466440|164616925|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6||||0.3606|TWO_SIDED|90.0|-28.21|4.95|||Chi-squared|||||4.95|-28.21|0.3606
82456332|NCT00466440|164616926|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26||||0.072|TWO_SIDED|90.0|-0.02|0.55|||t-test, 1 sided|||||0.55|-0.02|0.0720
82456333|NCT00466440|164616927|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15||||0.1697|TWO_SIDED|90.0|-0.07|0.37|||t-test, 1 sided|||||0.37|-0.07|0.1697
82578089|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.26||||||The reported p-value is representative of the changes in levels of IL12 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.26
82456334|NCT00466440|164616928|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.524|TWO_SIDED|95.0|0.5|1.4|||Log Rank|||||1.4|0.5|0.5240
82456335|NCT00466440|164616929|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.4407|TWO_SIDED|95.0|0.3|1.6|||Log Rank|||||1.6|0.3|0.4407
82456336|NCT00466440|164616930|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.3449|TWO_SIDED|95.0|0.4|1.4|||Log Rank|||||1.4|0.4|0.3449
82456337|NCT03187132|164616937|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|1.17||0.111|TWO_SIDED|95.0|-4.15|0.43|||Mixed Models Analysis||The estimate is for the Digital Pain Reduction Kit arm.|We used a repeated measures linear mixed model featuring fixed effects for time, study arm, and score at week 1, and random effects to account for within subject variation.||.43|-4.15|.111
82456338|NCT03187132|164616938|SUPERIORITY||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|1.27||0.612|TWO_SIDED|95.0|-1.84|3.12|||Mixed Models Analysis||The estimate is for the Digital Pain Reduction Kit arm.|We used a repeated measures linear mixed model featuring fixed effects for time, study arm, and score at week 1, and random effects to account for within subject variation.||3.12|-1.84|.612
82456339|NCT03187132|164616939|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|2.58||0.87|TWO_SIDED|95.0|-5.51|4.66|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||4.66|-5.51|.87
82456340|NCT03187132|164616939|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.274||0.787|TWO_SIDED|95.0|-0.54|0.54|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.54|-.54|.787
82456341|NCT03187132|164616939|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.569|TWO_SIDED|95.0|-0.88|0.48|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.48|-.88|.569
82456342|NCT03187132|164616940|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.09||0.467|TWO_SIDED|95.0|-0.23|0.49|||t-test, 2 sided|||For work productivity measures, self-reported opioid utilization, and post-study measures of satisfaction, we used t-tests for normally distributed data and Wilcoxon Rank-Sum tests for non-normally distributed data.||.49|-.23|.467
82456343|NCT03187132|164616941|SUPERIORITY||Odds Ratio (OR)|0.79|STANDARD_ERROR_OF_MEAN|0.986||0.852|TWO_SIDED|95.0|0.07|9.07|||Regression, Logistic|||We used a multilevel logistic regression with random effects at the individual level and fixed effects for week and study-arm.||9.07|.07|.852
82541284|NCT03621761|164781799|SUPERIORITY||Slope|1.774||||0.3451|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on total MFIS score, in linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline MFIS score. Output reflects models that were imputed for missing data.||||0.3451
82541285|NCT03621761|164781799|SUPERIORITY||Slope|1.3094||||0.4834|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on total MFIS score, in linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline MFIS score. Output reflects models that were imputed for missing data.||||0.4834
82541286|NCT03621761|164781800|SUPERIORITY||Slope|0.4077||||0.257|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in EMA fatigue intensity NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue intensity score.||||0.2570
82578090|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0008||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.0008
82541287|NCT03621761|164781800|SUPERIORITY||Slope|-0.2452||||0.5017|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in EMA fatigue intensity NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue intensity score.||||0.5017
82541288|NCT03621761|164781801|SUPERIORITY||Slope|0.095||||0.154|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in EMA fatigue interference NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue interference score.||||0.154
82456344|NCT02485561|164616976|SUPERIORITY||F-value|1.019||||0.362|TWO_SIDED||||||ANOVA|||||||.362
82456345|NCT02485561|164616977|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.098||0.024|TWO_SIDED||||||t-test, 2 sided|||||||.024
82456346|NCT02485561|164616977|SUPERIORITY||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.074||0.75|TWO_SIDED||||||t-test, 2 sided|||||||.75
82456347|NCT02485561|164616978|SUPERIORITY||F-value|6.482||||0.002|TWO_SIDED||||||ANOVA|||||||.002
82456348|NCT02485561|164616978|SUPERIORITY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.91|TWO_SIDED||||||t-test, 2 sided|||||||.91
82456349|NCT02485561|164616978|SUPERIORITY||Mean Difference (Final Values)|0.716|STANDARD_ERROR_OF_MEAN|0.182|<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82456350|NCT02485561|164616979|SUPERIORITY||F-value|0.608||||0.55|TWO_SIDED||||||ANOVA|||||||0.55
82456351|NCT02485561|164616980|SUPERIORITY||F-value|16.31|||<|0.001|TWO_SIDED||||||ANOVA|||||||<.001
82456352|NCT02485561|164616980|SUPERIORITY||F-value|2.0||||0.14|TWO_SIDED||||||ANOVA|||||||0.14
82456353|NCT02485561|164616981|SUPERIORITY||F-value|1.68||||0.19|TWO_SIDED||||||ANOVA|||||||.19
82541289|NCT03621761|164781801|SUPERIORITY||Slope|0.034||||0.61|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in EMA fatigue interference NRS score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline EMA fatigue interference score.||||0.610
82541290|NCT03621761|164781802|SUPERIORITY||Slope|0.00427||||0.4955|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of CBT monotherapy vs. combination therapy (reference) on change in fatigability score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline fatigability score.||||0.4955
82541291|NCT03621761|164781802|SUPERIORITY||Slope|-0.00948||||0.1333|TWO_SIDED||||||Regression, Linear|||Comparison of treatment effect of modafinil monotherapy vs. combination therapy (reference) on change in fatigability score, in complete case linear regression models adjusted for age, sex, anxiety, pain, activity level, study site, and baseline fatigability score.||||0.1333
82541292|NCT03951649|164781807|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
82541293|NCT03951649|164781808|SUPERIORITY||||||>|0.99||||||The p-value was calculated using a 2 sided Wilcoxon rank sum test.|Wilcoxon (Mann-Whitney)|||||||>0.99
82541294|NCT03951649|164781809|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
82541295|NCT03951649|164781810|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82541296|NCT03951649|164781811|SUPERIORITY|||||||1||||||P-value was calculated|Fisher Exact|||||||1.00
82541297|NCT03951649|164781812|SUPERIORITY|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
82578091|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||<0.0001
82578092|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of IL13 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
82578093|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.005||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.005
82578094|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
82438761|NCT01106859|164585651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.0096|TWO_SIDED|95.0|0.04|0.29||No p-value adjustment for multiple comparisons|ANOVA|The degrees of freedom are 113 for the p-value testing the difference between treatment groups||P-value is based on ANOVA model with fixed effects for sequence, period and treatment, a random effect for subject within sequence, and assuming compound symmetry covariance structure; the p-value is reported from LS Mean difference between Treatment Groups: LS mean of SDS (Zopiclone) - LS mean of SDS (Placebo).||0.29|0.04|0.0096
82456354|NCT02485561|164616981|SUPERIORITY||F-value|0.021||||0.98|TWO_SIDED||||||ANOVA|||||||.98
82541298|NCT03951649|164781813|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
82541299|NCT03951649|164781815|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
82541300|NCT03951649|164781816|SUPERIORITY|||||||0.18|||||||Fisher Exact|||||||0.18
82541301|NCT03951649|164781817|SUPERIORITY|||||||0.92|||||||Fisher Exact|||||||0.92
82541302|NCT03951649|164781818|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82541303|NCT03951649|164781819|SUPERIORITY|||||||0.14|||||||Fisher Exact|||||||0.14
82578095|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007||||||The reported p-value is representative of the changes in levels of TNFα among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.007
82456355|NCT02485561|164616981|SUPERIORITY||F-value|0.312||||0.73|TWO_SIDED||||||ANOVA|||||||.73
82456356|NCT02485561|164616981|SUPERIORITY||F-value|0.702||||0.496|TWO_SIDED||||||ANOVA|||||||.496
82456357|NCT02485561|164616981|SUPERIORITY||F-value|1.88||||0.154|TWO_SIDED||||||ANOVA|||||||.154
82456358|NCT02485561|164616981|SUPERIORITY||F-value|0.667||||0.514|TWO_SIDED||||||ANOVA|||||||.514
82456359|NCT02485561|164616981|SUPERIORITY||F-value|0.666||||0.514|TWO_SIDED||||||ANOVA|||||||.514
82456360|NCT02485561|164616982|SUPERIORITY||F-value|0.59||||0.56|TWO_SIDED||||||ANOVA|||||||.56
82541304|NCT03951649|164781820|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
82541305|NCT00612586|164781840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8956||||||One sided|Log Rank|||||||0.8956
82541306|NCT00612586|164781841|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9865||||||One-sided|Log Rank|||||||0.9865
82541307|NCT01194154|164781845|SUPERIORITY_OR_OTHER||treatment effect|2.21||||0.657|TWO_SIDED|95.0|-0.35|4.78|||Wilcoxon (Mann-Whitney)||An analysis of covariance (ANCOVA) model with adjustment for baseline eGFR was used to obtain an estimate of the treatment difference.|||4.78|-0.35|0.657
82541308|NCT01194154|164781846|SUPERIORITY_OR_OTHER||treatment effect|2.24||||0.709|TWO_SIDED|95.0|-0.54|5.01|||Wilcoxon (Mann-Whitney)||ANCOVA model with adjustment for baseline eGFR was used to obtain an estimate of the treatment difference.|||5.01|-0.54|0.709
82541309|NCT01596504|164781856|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-6.01|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|ONE_SIDED|95.0|-7.77|||p-values ordered(p1≤p2) as per rules:if p2≤0.05: lixisenatide superior to liraglutide (both doses);if p2\>0.05 \& p1≤0.025:lixisenatide superior to dose of liraglutide associated with p1;if p2\>0.05 \& p1\>0.025:no comparison as statistically significant.|Linear fixed effects model|The threshold for significance at 0.05 level.|Lixisenatide vs Liraglutide 1.2 mg|Analysis was performed using linear fixed effects model with treatment groups and stratification factors (HbA1c levels on Day -7 \[\<8% and \>=8%\], use of metformin at screening \[yes or no\]) and the study site) as fixed effects and baseline plasma glucose AUC from 0.5 to 4.5 hours as covariate. To address multiplicity issue and ensure overall 1-sided level of 5%, Hochberg method was used for testing procedure of comparison between lixisenatide vs liraglutide 1.2 mg or 1.8 mg.|||-7.77|<0.0001
82561866|NCT04332991|164832907|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.54|2.09|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.09|0.54|
82561867|NCT04332991|164832908|SUPERIORITY||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.6|2.14|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||2.14|0.60|
82541310|NCT01596504|164781856|SUPERIORITY_OR_OTHER||LS mean difference|-4.61|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|ONE_SIDED|95.0|-6.34|||p-values ordered(p1≤p2) as per rules:if p2≤0.05:lixisenatide superior to liraglutide (both doses);if p2\>0.05 \& p1≤0.025:lixisenatide superior to dose of liraglutide associated with p1;if p2\>0.05 \& p1\>0.025: no comparison as statistically significant.|Linear fixed effects model|The threshold for significance at 0.05 level.|Lixisenatide vs Liraglutide 1. 8 mg|Analysis was performed using linear mixed effects model with treatment groups and stratification factors (HbA1c levels on Day -7 \[\<8% and \>=8%\], use of metformin at screening \[yes or no\]), and the study site) as fixed effects and baseline plasma glucose AUC from 0.5 to 4.5 hours as covariate. To address multiplicity issue and ensure overall 1-sided level of 5%, Hochberg method was used for testing procedure of comparison between lixisenatide vs liraglutide 1.2 mg or 1.8 mg.|||-6.34|<0.0001
82541311|NCT01901276|164781873|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||t-test, 2 sided|||Within-individual differences in Shannon indices were tested using paired t tests (normally distributed data).||||0.71
82541312|NCT02314117|164781890|SUPERIORITY||Hazard Ratio (HR)|0.753|||||TWO_SIDED|95.0|0.607|0.935||||||||0.935|0.607|
82541313|NCT02314117|164781891|SUPERIORITY||Hazard Ratio (HR)|0.962|||||TWO_SIDED|95.0|0.801|1.156||||||||1.156|0.801|
82541314|NCT02314117|164781892|SUPERIORITY||Hazard Ratio (HR)|0.926|||||TWO_SIDED|95.0|0.774|1.108||||||||1.108|0.774|
82541315|NCT02314117|164781895|SUPERIORITY||Hazard Ratio (HR)|0.699|||||TWO_SIDED|95.0|0.569|0.859||||||||0.859|0.569|
82541316|NCT02314117|164781896|SUPERIORITY||Hazard Ratio (HR)|0.657|||||TWO_SIDED|95.0|0.499|0.866||||||||0.866|0.499|
82541317|NCT02314117|164781897|SUPERIORITY||Hazard Ratio (HR)|1.013|||||TWO_SIDED|95.0|0.77|1.332||||||||1.332|0.770|
82578096|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.42||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.42
82578097|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.85||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.85
82456361|NCT02485561|164616983|SUPERIORITY||F-value|0.18||||0.84|TWO_SIDED||||||ANOVA|||||||.84
82541318|NCT02314117|164781899|SUPERIORITY||Hazard Ratio (HR)|1.117|||||TWO_SIDED|95.0|0.79|1.58||||||||1.580|0.790|
82456362|NCT02485561|164616984|SUPERIORITY||F-value|1.16||||0.31|TWO_SIDED||||||ANOVA|||||||.31
82456363|NCT02485561|164616985|SUPERIORITY||F-value|1.17||||0.31|TWO_SIDED||||||ANOVA|||||||.31
82541319|NCT04347954|164781936|OTHER||Mean Difference (Net)|-0.349|||||TWO_SIDED|95.0|-1.584|0.886||||||Analysis of change in mean Ct values incorporating baseline, hour 1, and day 3 values.||0.886|-1.584|
82541320|NCT04347954|164781936|OTHER||Mean Difference (Net)|-1.059|||||TWO_SIDED|95.0|-2.318|0.201||||||Analysis of change in mean Ct values incorporating baseline, hour 1, and day 3 values.||0.201|-2.318|
82541321|NCT00761930|164781947|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82541322|NCT00761930|164781948|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82541323|NCT00761930|164781949|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.05
82541324|NCT03478696|164781950|NON_INFERIORITY|Non-inferiority was to be demonstrated, if the lower bound of the two-sided 95 percentage (%) confidence interval around the (FF/UMEC/VI versus BUD/FOR+TIO) treatment difference was above -50 milliliter.|Mean Difference (Net)|0.011|STANDARD_ERROR_OF_MEAN|0.0154|||TWO_SIDED|95.0|-0.02|0.041|||||The primary treatment effect estimated (hypothetical effect) excluded data following intercurrent events: discontinuation of treatment, taking wrong treatment, taking prohibited medication, unblinding, noncompliance, COPD exacerbation or pneumonia.|||0.041|-0.020|
82541325|NCT03478696|164781951|SUPERIORITY||Mean Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.0122||0.037|TWO_SIDED|95.0|0.002|0.049||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 2 using p-values.|Mixed model repeated measures||Day 2|||0.049|0.002|0.037
82456364|NCT02485561|164616985|SUPERIORITY||F-value|0.056||||0.95|TWO_SIDED||||||ANOVA|||||||.95
82456365|NCT03609177|164617007|SUPERIORITY||Risk Difference (RD)|6.8|||<|0.05|TWO_SIDED|95.0|2.8|10.8|||binomial regression with identity link|||||10.8|2.8|<0.05
82456366|NCT03609177|164617008|SUPERIORITY||Risk Difference (RD)|-0.1|||<|0.05|TWO_SIDED|95.0|-0.7|0.6|||binomial regression with identity link|||||0.6|-0.7|<0.05
82541326|NCT03478696|164781951|SUPERIORITY||Mean Difference (Net)|0.063|STANDARD_ERROR_OF_MEAN|0.0134|<|0.001|TWO_SIDED|95.0|0.036|0.089||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 28 using p-values.|Mixed model repeated measures||Day 28|||0.089|0.036|<0.001
82541327|NCT03478696|164781951|SUPERIORITY||Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.0144|<|0.001|TWO_SIDED|95.0|0.026|0.083||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 84 using p-values.|Mixed model repeated measures||Day 84|||0.083|0.026|<0.001
82541328|NCT03478696|164781951|SUPERIORITY||Mean Difference (Net)|0.051|STANDARD_ERROR_OF_MEAN|0.0157||0.001|TWO_SIDED|95.0|0.021|0.082||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 85 using p-values.|Mixed model repeated measures||Day 85|||0.082|0.021|0.001
82578098|NCT01495598|164865739|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.16||||||The reported p-value is representative of the changes in levels of IP-10 among all participants. Two tailed Wilcoxon signed rank test without adjustment for multiple comparisons.|Wilcoxon signed rank test|||||||0.16
82578099|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.07||||||The reported p-value is representative of the changes in levels of CD4+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.07
82578100|NCT01495598|164865740|NON_INFERIORITY|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.13||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among all participants.|Wilcoxon signed rank test|||||||0.13
82456367|NCT03609177|164617009|SUPERIORITY||Risk Difference (RD)|0.7|||<|0.05|TWO_SIDED|95.0|-0.5|1.9|||binomial regression with identity link|||||1.90|-0.5|<0.05
82456368|NCT03609177|164617010|SUPERIORITY||Risk Difference (RD)|0.3|||<|0.05|TWO_SIDED|95.0|-0.4|1.0|||binomial regression with identity link|||||1.0|-0.4|<0.05
82456369|NCT05963022|164617028|SUPERIORITY||LS Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.76|-1.07|||ANCOVA|||||-1.07|-1.76|<0.001
82456370|NCT05963022|164617028|SUPERIORITY||LS Mean Difference|-0.98|||<|0.001|TWO_SIDED|95.0|-1.34|-0.63|||ANCOVA|||||-0.63|-1.34|<0.001
82456371|NCT05963022|164617028|SUPERIORITY||LS Mean Difference|-1.26|||<|0.001|TWO_SIDED|95.0|-1.61|-0.92|||ANCOVA|||||-0.92|-1.61|<0.001
82456372|NCT05963022|164617029|SUPERIORITY||Odds Ratio (OR)|17.04|||<|0.001|TWO_SIDED|95.0|5.62|51.73|||Regression, Logistic|||||51.73|5.62|<0.001
82456373|NCT05963022|164617029|SUPERIORITY||Odds Ratio (OR)|7.51|||<|0.001|TWO_SIDED|95.0|2.77|20.37|||Regression, Logistic|||||20.37|2.77|<0.001
82456374|NCT05963022|164617029|SUPERIORITY||Odds Ratio (OR)|7.24|||<|0.001|TWO_SIDED|95.0|2.74|19.14|||Regression, Logistic|||||19.14|2.74|<0.001
82456375|NCT05963022|164617030|SUPERIORITY||LS Mean Difference|-24.8|||<|0.001|TWO_SIDED|95.0|-33.3|-16.3|||ANCOVA|||||-16.3|-33.3|<0.001
82456376|NCT05963022|164617030|SUPERIORITY||LS Mean Difference|-24.6|||<|0.001|TWO_SIDED|95.0|-33.2|-15.9|||ANCOVA|||||-15.9|-33.2|<0.001
82456377|NCT05963022|164617030|SUPERIORITY||LS Mean Difference|-25.2|||<|0.001|TWO_SIDED|95.0|-33.7|-16.7|||ANCOVA|||||-16.7|-33.7|<0.001
82456378|NCT05963022|164617031|SUPERIORITY||Odds Ratio (OR)|25.61|||<|0.001|TWO_SIDED|95.0|8.7|75.36|||Regression, Logistic|||||75.36|8.70|<0.001
82456379|NCT05963022|164617031|SUPERIORITY||Odds Ratio (OR)|7.25|||<|0.001|TWO_SIDED|95.0|2.88|18.25|||Regression, Logistic|||||18.25|2.88|<0.001
82456380|NCT05963022|164617031|SUPERIORITY||Odds Ratio (OR)|10.95|||<|0.001|TWO_SIDED|95.0|4.23|28.34|||Regression, Logistic|||||28.34|4.23|<0.001
82456381|NCT05963022|164617032|SUPERIORITY||LS Mean Difference|-4.8|||<|0.001|TWO_SIDED|95.0|-6.7|-2.9|||ANCOVA|||||-2.9|-6.7|<0.001
82456382|NCT05963022|164617032|SUPERIORITY||LS Mean Difference|-4.2|||<|0.001|TWO_SIDED|95.0|-6.2|-2.3|||ANCOVA|||||-2.3|-6.2|<0.001
82456383|NCT05963022|164617032|SUPERIORITY||LS Mean Difference|-7.3|||<|0.001|TWO_SIDED|95.0|-9.3|-5.4|||ANCOVA|||||-5.4|-9.3|<0.001
82456384|NCT05963022|164617033|SUPERIORITY||Odds Ratio (OR)|76.62||||0.003|TWO_SIDED|95.0|4.4|1333.29|||Regression, Logistic|||||1333.29|4.40|0.003
82456385|NCT05963022|164617033|SUPERIORITY||Odds Ratio (OR)|49.36|||<|0.001|TWO_SIDED|95.0|2.8|868.67|||Regression, Logistic|||||868.67|2.80|<0.001
82456386|NCT05963022|164617033|SUPERIORITY||Odds Ratio (OR)|118.22|||<|0.001|TWO_SIDED|95.0|6.8|2055.04|||Regression, Logistic|||||2055.04|6.80|<0.001
82456387|NCT05963022|164617034|SUPERIORITY||LS Mean Difference|-44.5|||<|0.001|TWO_SIDED|95.0|-57.5|-31.5|||Mixed Models Analysis|||||-31.5|-57.5|<0.001
82456388|NCT05963022|164617034|SUPERIORITY||LS Mean Difference|-44.3|||<|0.001|TWO_SIDED|95.0|-57.6|-31.1|||Mixed Models Analysis|||||-31.1|-57.6|<0.001
82456389|NCT05963022|164617034|SUPERIORITY||LS Mean Difference|-46.9|||<|0.001|TWO_SIDED|95.0|-60.1|-33.7|||Mixed Models Analysis|||||-33.7|-60.1|<0.001
82456390|NCT05963022|164617035|SUPERIORITY||Odds Ratio (OR)|18.19|||<|0.001|TWO_SIDED|95.0|5.27|62.73|||Regression, Logistic|||||62.73|5.27|<0.001
82456391|NCT05963022|164617035|SUPERIORITY||Odds Ratio (OR)|30.96|||<|0.001|TWO_SIDED|95.0|8.87|108.05|||Regression, Logistic|||||108.05|8.87|<0.001
82456392|NCT05963022|164617035|SUPERIORITY||Odds Ratio (OR)|73.42|||<|0.001|TWO_SIDED|95.0|19.36|278.4|||Regression, Logistic|||||278.40|19.36|<0.001
82456393|NCT05963022|164617036|SUPERIORITY||Odds Ratio (OR)|39.04||||0.011|TWO_SIDED|95.0|2.29|664.36|||Regression, Logistic|||||664.36|2.29|0.011
82456394|NCT05963022|164617036|SUPERIORITY||Odds Ratio (OR)|56.34||||0.005|TWO_SIDED|95.0|3.34|949.59|||Regression, Logistic|||||949.59|3.34|0.005
82456395|NCT05963022|164617036|SUPERIORITY||Odds Ratio (OR)|127.52|||<|0.001|TWO_SIDED|95.0|7.58|2145.42|||Regression, Logistic|||||2145.42|7.58|<0.001
82456396|NCT05963022|164617037|SUPERIORITY||Odds Ratio (OR)|13.86||||0.077|TWO_SIDED|95.0|0.75|254.78|||Regression, Logistic|||||254.78|0.75|0.077
82456397|NCT05963022|164617037|SUPERIORITY||Odds Ratio (OR)|15.65||||0.062|TWO_SIDED|95.0|0.87|281.74|||Regression, Logistic|||||281.74|0.87|0.062
82456398|NCT05963022|164617037|SUPERIORITY||Odds Ratio (OR)|66.69||||0.004|TWO_SIDED|95.0|3.9|1140.13|||Regression, Logistic|||||1140.13|3.90|0.004
82456399|NCT02109640|164617044|SUPERIORITY_OR_OTHER||Absolute percentage difference|17.1||||0.264|TWO_SIDED|95.0|-10.0|40.7||Absolute % difference 17.1 (95% CI -10.0,40.7)|Fisher Exact|||||40.7|-10.0|0.264
82456400|NCT02109640|164617045|SUPERIORITY_OR_OTHER|||||||0.222|||||||t-test, 2 sided|||||||0.222
82456401|NCT02109640|164617046|SUPERIORITY_OR_OTHER|||||||0.676|||||||t-test, 2 sided|||||||0.676
82456402|NCT03507036|164617061|OTHER||||||||||||||||||A paired t-test was performed for skin lab measurement and biopsies.|||
82456403|NCT00773513|164617091|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025.|Hazard Ratio (HR)|1.03||||0.0039|TWO_SIDED|95.0|0.93|1.15|||Regression, Cox||The pre-specified upper non-inferiority limit was 95% CI \<1.20.|||1.15|0.93|0.0039
82456404|NCT00773513|164617092|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|1.06||||0.0166|TWO_SIDED|95.0|0.94|1.19|||Regression, Cox|||||1.19|0.94|0.0166
82456405|NCT00773513|164617093|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.95||||0.0219|TWO_SIDED|95.0|0.76|1.19|||Regression, Cox|||||1.19|0.76|0.0219
82456406|NCT00773513|164617094|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.94||||0.0459|TWO_SIDED|95.0|0.7|1.25|||Regression, Cox|||||1.25|0.70|0.0459
82456407|NCT00773513|164617095|NON_INFERIORITY|The critical alpha level for the non-inferiority test was 0.025|Hazard Ratio (HR)|0.91||||0.0048|TWO_SIDED|95.0|0.74|1.12|||Regression, Cox|||||1.12|0.74|0.0048
82456408|NCT04445662|164617125|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
82456409|NCT04445662|164617126|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
82456410|NCT01332994|164617127|SUPERIORITY_OR_OTHER|||||||0.1648|TWO_SIDED|||||Exact one-sided binomial test on single proportions with a significance level of alpha equals (=) 0.025. Null hypothesis: Proportion of participants reaching DAS28 remission (\<2.6) at Week 16 is ≤45 percent (%).|Exact one-sided binomial test|||||||0.1648
82456411|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.7559|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Naive B-cell compartment||||0.7559
82456412|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.8961|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Transitional B-cells||||0.8961
82456413|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.7915|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Naive B-cells||||0.7915
82456414|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.8081|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Memory B-cells||||0.8081
82456415|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.6574|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Pre-switch memory B-cells||||0.6574
82456416|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.4553|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Post-switch memory B-cells||||0.4553
82456417|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.2215|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||IgG-positive class-switched B-cells||||0.2215
82456418|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.886|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||IgA-positive class-switched B-cells||||0.8860
82456419|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.8693|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Double-negative B-cells||||0.8693
82456420|NCT01332994|164617163|SUPERIORITY_OR_OTHER|||||||0.9564|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Plasmablasts||||0.9564
82456421|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.9993|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cell compartment||||0.9993
82456422|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3596|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Transitional B-cells||||0.3596
82456423|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.7435|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cells||||0.7435
82456424|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.7671|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Memory B-cells||||0.7671
82456425|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.7912|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Pre-switch memory B-cells||||0.7912
82456426|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.5595|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Post-switch memory B-cells||||0.5595
82456427|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3817|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgG-positive class-switched B-cells||||0.3817
82456428|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3623|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgA-positive class-switched B-cells||||0.3623
82456429|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.7108|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Double-negative B-cells||||0.7108
82456430|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.0639|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Plasmablasts||||0.0639
82456431|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.0186|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Naive B-cell compartment||||0.0186
82456432|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Transitional B-cells||||0.0050
82456433|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.0463|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Naive B-cells||||0.0463
82456434|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1919|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Memory B-cells||||0.1919
82578101|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.15||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among all participants.|Wilcoxon signed rank test|||||||0.15
82541329|NCT03478696|164781952|SUPERIORITY||Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.0098||0.702|TWO_SIDED|95.0|-0.016|0.023||Only if superiority is achieved on the primary study endpoint, then inferences can be made on weighted mean change from Baseline in FEV1 over 0-24 hours on Day 1 using p-values.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.023|-0.016|0.702
82541330|NCT03478696|164781953|SUPERIORITY||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.0141||0.244|TWO_SIDED|95.0|-0.011|0.044||The analysis was performed using mixed model repeated measures analysis, which included covariates of Baseline FEV1, geographical region, treatment, visit, visit by treatment and visit by Baseline interaction.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.044|-0.011|0.244
82541331|NCT03257813|164781954|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.013||||||Baseline|t-test, 2 sided|||||||0.013
82541332|NCT03257813|164781954|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.001||||||CrossOver|t-test, 2 sided|||||||0.001
82541333|NCT03257813|164781954|NON_INFERIORITY|it will be considered not inferior if they keep the IOP goal with differences of no more than 1.5 mmHg||||||0.05||||||Final Visit|t-test, 2 sided|||||||0.050
82541334|NCT03257813|164781955|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.823||||||Baseline|t-test, 2 sided|||||||0.823
82541335|NCT03257813|164781955|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.507||||||CrossOver|t-test, 2 sided|||||||0.507
82541336|NCT03257813|164781955|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 2 points on the snellen scale||||||0.495||||||Final Visit|t-test, 2 sided|||||||0.495
82541337|NCT03257813|164781956|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.085|||||||Chi-squared|||||||0.085
82541338|NCT03257813|164781957|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.001||||||Baseline|Fisher Exact|||||||0.001
82456435|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3071|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Pre-switch memory B-cells||||0.3071
82456436|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1714|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Post-switch memory B-cells||||0.1714
82456437|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1746|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, IgG-positive class-switched B-cells||||0.1746
82541339|NCT03257813|164781957|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.148||||||CrossOver|Fisher Exact|||||||0.148
82541340|NCT03257813|164781957|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.212||||||Final Visit|Fisher Exact|||||||0.212
82541341|NCT03257813|164781958|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.497||||||Baseline|Chi-squared, Corrected|||||||0.497
82541342|NCT03257813|164781958|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.497||||||CrossOver|Chi-squared, Corrected|||||||0.497
82541343|NCT03257813|164781958|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0||||||"Final Visit~No statistic will be calculated because Final Chemosis is a constant"|Chi-squared, Corrected|||||||0
82456438|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1626|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, IgA-positive class-switched B-cells||||0.1626
82456439|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.6304|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Double-negative B-cells||||0.6304
82456440|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3449|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 24, Plasmablasts||||0.3449
82456441|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.0919|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Naive B-cell compartment||||0.0919
82541344|NCT03257813|164781959|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||baseline|Chi-squared|||||||1.000
82541345|NCT03257813|164781959|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.391||||||Cross Over|Chi-squared|||||||0.391
82541346|NCT03257813|164781959|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.534||||||Final Visit|Chi-squared|||||||0.534
82541347|NCT03257813|164781960|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.023||||||Baseline|Chi-squared, Corrected|||||||0.023
82541348|NCT03257813|164781960|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||CrossOver|Chi-squared|||||||1.000
82456442|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.2189|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Transitional B-cells||||0.2189
82456443|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1386|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Naive B-cells||||0.1386
82456444|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.6199|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Memory B-cells||||0.6199
82456445|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.1019|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Pre-switch memory B-cells||||0.1019
82456446|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.4353|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Post-switch memory B-cells||||0.4353
82456447|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.3934|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, IgG-positive class-switched B-cells||||0.3934
82456448|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.4196|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, IgA-positive class-switched B-cells||||0.4196
82456449|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.5546|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Double-negative B-cells||||0.5546
82456450|NCT01332994|164617164|SUPERIORITY_OR_OTHER|||||||0.7695|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 32, Plasmablasts||||0.7695
82456451|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.6551|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cell compartment||||0.6551
82456452|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.6905|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Transitional B-cells||||0.6905
82541349|NCT03257813|164781960|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.793||||||Final Visit|Chi-squared|||||||0.793
82541350|NCT03257813|164781961|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.825||||||Baseline|Chi-squared|||||||0.825
82541351|NCT03257813|164781961|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||1||||||CrossOver|Chi-squared|||||||1.000
82456453|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.9678|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Naive B-cells||||0.9678
82456454|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Memory B-cells||||0.2080
82456455|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.4778|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Pre-switch memory B-cells||||0.4778
82456456|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.8526|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Post-switch memory B-cells||||0.8526
82456457|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7266|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgG-positive class-switched B-cells||||0.7266
82456458|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.2011|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, IgA-positive class-switched B-cells||||0.2011
82456459|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7872|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Double-negative B-cells||||0.7872
82456460|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.5377|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 16, Plasmablasts||||0.5377
82456461|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.6238|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Naive B-cell compartment||||0.6238
82456462|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.2848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Transitional B-cells||||0.2848
82541352|NCT03257813|164781961|NON_INFERIORITY|to be considered as not inferior to the group, the differences between both should not be greater than 20% of the frequency.||||||0.765|||||||Chi-squared|||||||0.765
82456463|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.6238|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Naive B-cells||||0.6238
82541353|NCT03615924|164781962|SUPERIORITY||Incidence rate ratio|1.06||||0.7597|TWO_SIDED|95.0|0.75|1.5|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.50|0.75|0.7597
82541354|NCT03615924|164781963|SUPERIORITY||Incidence rate ratio|1.02||||0.9037|TWO_SIDED|95.0|0.72|1.45|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.45|0.72|0.9037
82541355|NCT03615924|164781964|SUPERIORITY||Incidence rate ratio|0.76||||0.7136|TWO_SIDED|95.0|0.17|3.3|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||3.30|0.17|0.7136
82541356|NCT03615924|164781965|SUPERIORITY||Incidence rate ratio|0.84||||0.497|TWO_SIDED|95.0|0.5|1.4|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.40|0.50|0.4970
82541357|NCT03615924|164781966|SUPERIORITY||Incidence rate ratio|1.43||||0.1636|TWO_SIDED|95.0|0.87|2.36|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||2.36|0.87|0.1636
82541358|NCT03615924|164781967|SUPERIORITY||Incidence rate ratio|1.68||||0.2011|TWO_SIDED|95.0|0.76|3.75|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||3.75|0.76|0.2011
82541359|NCT03615924|164781969|SUPERIORITY||Incidence rate ratio|0.0||||0.994|TWO_SIDED|95.0|0.0||Upper limit of confidence interval was not calculable due to 0 events in Ticagrelor 15/30/45 mg bd reporting group.||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.|||0.00|0.9940
82541360|NCT03615924|164781970|SUPERIORITY||Incidence rate ratio|0.77||||0.4822|TWO_SIDED|95.0|0.38|1.58|||Negative binomial model|||Incidence rates, incidence rate ratios, and p-values are from a negative binomial model analysis, with treatment group and baseline hydroxyurea use included in the model as covariates.||1.58|0.38|0.4822
82456464|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.2848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Pre-switch memory B-cells||||0.2848
82456465|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7471|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Post-switch memory B-cells||||0.7471
82541361|NCT00716144|164781980|SUPERIORITY_OR_OTHER|||||||0.884|||||||Cochran-Armitage Trend Test|||||||0.884
82456466|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7471|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, IgG-positive class-switched B-cells||||0.7471
82541362|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Armitage Trend Test|||At Visit 3||||1.000
82541363|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||0.604|||||||Cochran-Armitage Trend Test|||At Visit 4||||0.604
82541364|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||0.463|||||||Cochran-Armitage Trend Test|||At Visit 5||||0.463
82541365|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||0.042|||||||Cochran-Armitage Trend Test|||At Visit 6||||0.042
82541366|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||0.034|||||||Cochran-Armitage Trend Test|||At Visit 7||||0.034
82541367|NCT00716144|164781981|SUPERIORITY_OR_OTHER|||||||0.019|||||||Cochran-Armitage Trend Test|||At Visit 8||||0.019
82456467|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, IgA-positive class-switched B-cells||||0.3910
82456468|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.8729|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 48, Plasmablasts||||0.8729
82456469|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7261|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Naive B-cell compartment||||0.7261
82541368|NCT00716144|164781983|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Armitage Trend Test|||At Visit 3||||1.000
82541369|NCT00716144|164781983|SUPERIORITY_OR_OTHER|||||||0.673|||||||Cochran-Armitage Trend Test|||At Visit 4||||0.673
82541370|NCT00716144|164781983|SUPERIORITY_OR_OTHER|||||||0.55|||||||Cochran-Armitage Trend Test|||At Visit 5||||0.550
82541371|NCT00716144|164781983|SUPERIORITY_OR_OTHER|||||||0.721|||||||Cochran-Armitage Trend Test|||At Visit 7||||0.721
82541372|NCT00716144|164781983|SUPERIORITY_OR_OTHER|||||||0.03|||||||Cochran-Armitage Trend Test|||At Visit 8||||0.030
82541373|NCT04141917|164781996|SUPERIORITY||Risk Ratio, log|1.33|||||TWO_SIDED|95.0|0.35|5.02||||||The number of influenza-positive tests was analyzed using a generalized linear mixed model following a Poisson distribution with a log link and robust variance. The model is adjusted for calendar time and an exposure time variable based on shelter capacity. This model includes symptomatic individuals who tested throughout Year 1 of the study (November 15, 2019 - March 31, 2020).||5.02|0.35|
82541374|NCT02954848|164782004|SUPERIORITY||Median Difference (Final Values)|3.8||||0.0643|TWO_SIDED|95.0|0.0|10.6|||Wilcoxon Rank-Sum Test||The point estimate of the median difference between the treatment groups was calculated using the Hodges-Lehmann estimation.|||10.600|0.000|0.0643
82541375|NCT02954848|164782005|SUPERIORITY|||||||0.0003|||||||Log Rank|||||||0.0003
82541376|NCT02954848|164782006|SUPERIORITY||Median Difference (Final Values)|-0.11||||0.0826|TWO_SIDED|95.0|-0.24|0.01|||Wilcoxon Rank-Sum Test|||||0.0100|-0.2400|0.0826
82438762|NCT01106859|164585654|SUPERIORITY_OR_OTHER|||||||0.2188||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.2188
82438763|NCT01106859|164585654|SUPERIORITY_OR_OTHER|||||||0.0117||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0117
82438764|NCT01106859|164585654|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||<0.0001
82438765|NCT01106859|164585656|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.1250
82438766|NCT01106859|164585656|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0074
82438767|NCT01106859|164585656|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-2.0 cm in Standard Deviation of Lateral Position (SDLP) following administration of Zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||<0.0001
82438768|NCT01106859|164585658|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 4 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.5000
82438769|NCT01106859|164585658|SUPERIORITY_OR_OTHER|||||||0.0156||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zolpidem tartrate sublingual tablet 3 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0156
82438770|NCT01106859|164585658|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||No adjustments. The a priori threshold for statistical significance is 0.05.|McNemar|McNemar's exact test with one degree of freedom is used.||Symmetry analysis was performed for the probability of difference from placebo falling above and below the threshold of +/-3.5 cm in Standard Deviation of Lateral Position (SDLP) following administration of zopiclone 9 hours prior to driving. Statistically significant asymmetries indicate a decrement in driving performance. Lack of statistical significance indicates symmetry which shows a lack of treatment effect on driving performance.||||0.0001
82456470|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.9338|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Transitional B-cells||||0.9338
82541377|NCT02954848|164782007|SUPERIORITY||Median Difference (Final Values)|3.3||||0.0478|TWO_SIDED|95.0|0.0|5.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, improved response||5.300|0.000|0.0478
82541378|NCT02954848|164782007|SUPERIORITY||Median Difference (Final Values)|0.0||||0.8963|TWO_SIDED|95.0|-6.1|6.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, not improved response||6.000|-6.100|0.8963
82541379|NCT02954848|164782007|SUPERIORITY||Median Difference (Final Values)|5.2||||0.012|TWO_SIDED|95.0|0.0|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, improved response||10.700|0.000|0.0120
82541380|NCT02954848|164782007|SUPERIORITY||Median Difference (Final Values)|-4.7||||0.0871|TWO_SIDED|95.0|-17.4|0.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, not improved response||0.000|-17.400|0.0871
82541381|NCT02954848|164782008|SUPERIORITY|||||||0.0025|||||||Log Rank|||||||0.0025
82541382|NCT02954848|164782009|SUPERIORITY|||||||0.1059|||||||Log Rank|||||||0.1059
82649591|NCT02868281|165014787|OTHER||Difference in Least Squares Mean|-0.03||||0.543|TWO_SIDED|95.0|-0.15|0.08|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||0.08|-0.15|0.543
82456471|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.9074|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Naive B-cells||||0.9074
82456472|NCT01332994|164617165|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Memory B-cells||||<0.0001
82456473|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.9338|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Pre-switch memory B-cells||||0.9338
82456474|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.6515|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Post-switch memory B-cells||||0.6515
82456475|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.8413|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, IgG-positive class-switched B-cells||||0.8413
82456476|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.7244|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, IgA-positive class-switched B-cells||||0.7244
82456477|NCT01332994|164617165|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Double-negative B-cells||||<0.0001
82541383|NCT02954848|164782010|SUPERIORITY|||||||0.0004|||||||Log Rank|||||||0.0004
82541384|NCT02954848|164782011|SUPERIORITY|||||||0.5393|||||||Log Rank|||||||0.5393
82541385|NCT02954848|164782012|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.0505|TWO_SIDED|95.0|-0.21|0.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, improved response||0.0000|-0.2100|0.0505
82578102|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.03
82456478|NCT01332994|164617165|SUPERIORITY_OR_OTHER|||||||0.3848|TWO_SIDED||||||Spearman Rank-Order Correlation|Probability values for the Spearman correlation were calculated as \[square root of (n minus 2) x \[square root of (r\^2 divided by 1 minus r\^2)\].||Week 66, Plasmablasts||||0.3848
82456479|NCT04170543|164617180|OTHER||LS Mean Difference in Percent Change|-2.85||||0.8338|TWO_SIDED|90.0|-22.61|21.94||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||21.94|-22.61|0.8338
82456480|NCT04170543|164617180|OTHER||LS Mean Difference in Percent Change|-19.52||||0.1169|TWO_SIDED|90.0|-35.92|1.07||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||1.07|-35.92|0.1169
82456481|NCT04170543|164617180|OTHER||LS Mean Difference in Percent Change|-17.47||||0.1774|TWO_SIDED|90.0|-34.71|4.32||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||4.32|-34.71|0.1774
82456482|NCT04170543|164617180|OTHER||LS Mean Difference in Percent Change|-7.22||||0.5379|TWO_SIDED|90.0|-24.05|13.35||Unadjusted two-sided p-value|MMRM|||||13.35|-24.05|0.5379
82456483|NCT04170543|164617181|OTHER||LS Mean Difference in Percent Change|-13.02||||0.1929|TWO_SIDED|90.0|-27.08|3.75||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||3.75|-27.08|0.1929
82456484|NCT04170543|164617181|OTHER||LS Mean Difference in Percent Change|-25.71||||0.0062|TWO_SIDED|90.0|-37.83|-11.22||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||-11.22|-37.83|0.0062
82456485|NCT04170543|164617181|OTHER||LS Mean Difference in Percent Change|-18.2||||0.0705|TWO_SIDED|90.0|-31.86|-1.81||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||-1.81|-31.86|0.0705
82456486|NCT04170543|164617181|OTHER||LS Mean Difference in Percent Change|-15.56||||0.0764|TWO_SIDED|90.0|-27.82|-1.21||Unadjusted two-sided p-value|MMRM|||||-1.21|-27.82|0.0764
82456487|NCT04170543|164617182|OTHER||LS Mean Difference in Percent Change|7.25||||0.5474|TWO_SIDED|90.0|-11.45|29.88||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||29.88|-11.45|0.5474
82456488|NCT04170543|164617182|OTHER||LS Mean Difference in Percent Change|3.11||||0.792|TWO_SIDED|90.0|-14.83|24.82||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||24.82|-14.83|0.7920
82456489|NCT04170543|164617182|OTHER||LS Mean Difference in Percent Change|-3.4||||0.7711|TWO_SIDED|90.0|-20.59|17.51||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||17.51|-20.59|0.7711
82456490|NCT04170543|164617182|OTHER||LS Mean Difference in Percent Change|5.27||||0.6163|TWO_SIDED|90.0|-11.08|24.62||Unadjusted two-sided p-value|MMRM|||||24.62|-11.08|0.6163
82456491|NCT04170543|164617184|OTHER||LS Mean Difference in Percent Change|2.43||||0.8537|TWO_SIDED|90.0|-17.35|26.95||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||26.95|-17.35|0.8537
82456492|NCT04170543|164617184|OTHER||LS Mean Difference in Percent Change|-15.63||||0.1989|TWO_SIDED|90.0|-32.14|4.89||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||4.89|-32.14|0.1989
82541386|NCT02954848|164782012|SUPERIORITY||Median Difference (Final Values)|0.02||||0.8138|TWO_SIDED|95.0|-0.12|0.15|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 1, not improved response||0.1500|-0.1200|0.8138
82541387|NCT02954848|164782012|SUPERIORITY||Median Difference (Final Values)|-0.15||||0.0129|TWO_SIDED|95.0|-0.28|-0.03|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, improved response||-0.0300|-0.2800|0.0129
82541388|NCT02954848|164782012|SUPERIORITY||Median Difference (Final Values)|0.17||||0.0765|TWO_SIDED|95.0|-0.01|0.36|||Wilcoxon Rank-Sum Test|||Statistical analysis for criteria 2, not improved response||0.3600|-0.0100|0.0765
82649592|NCT02868281|165014788|OTHER||Difference in Least Squares Mean|0.06||||0.273|TWO_SIDED|95.0|-0.059|0.18|||Mixed Model Repeat Measures||The model included covariates of treatment, center, Baseline FEV1, type of Baseline controller, gender and age, with the center as a random factor.|||0.180|-0.059|0.273
82456493|NCT04170543|164617184|OTHER||LS Mean Difference in Percent Change|-17.96||||0.1346|TWO_SIDED|90.0|-34.01|1.99||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||1.99|-34.01|0.1346
82456494|NCT04170543|164617184|OTHER||LS Mean Difference in Percent Change|-6.38||||0.5683|TWO_SIDED|90.0|-22.59|13.23||Unadjusted two-sided p-value|MMRM|||||13.23|-22.59|0.5683
82456495|NCT04170543|164617185|OTHER||LS Mean Difference in Percent Change|-7.93||||0.4226|TWO_SIDED|90.0|-22.3|9.1||Unadjusted two-sided p-value|MMRM||MEDI3506 30 mg - Placebo|||9.10|-22.30|0.4226
82456496|NCT04170543|164617185|OTHER||LS Mean Difference in Percent Change|-20.61||||0.0287|TWO_SIDED|90.0|-33.25|-5.58||Unadjusted two-sided p-value|MMRM||MEDI3506 60 mg - Placebo|||-5.58|-33.25|0.0287
82456497|NCT04170543|164617185|OTHER||LS Mean Difference in Percent Change|-18.73||||0.0498|TWO_SIDED|90.0|-31.7|-3.3||Unadjusted two-sided p-value|MMRM||MEDI3506 120 mg - Placebo|||-3.30|-31.70|0.0498
82456498|NCT04170543|164617185|OTHER||LS Mean Difference in Percent Change|-13.27||||0.1236|TWO_SIDED|90.0|-25.51|0.98||Unadjusted two-sided p-value|MMRM|||||0.98|-25.51|0.1236
82456499|NCT04378270|164617228|OTHER||Mean Difference (Final Values)|2.93|STANDARD_ERROR_OF_MEAN|1.61||0.0796|TWO_SIDED|95.0|-0.3687|6.2287|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% Confidence Interval (CI) of the difference is reported. The P-value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||6.2287|-0.3687|0.0796
82456500|NCT04378270|164617229|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.879||0.0634|TWO_SIDED|95.0|-3.5014|0.1014|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% Confidence Interval (CI) of the difference is reported. The P-value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||0.1014|-3.5014|0.0634
82456501|NCT04378270|164617230|OTHER||Mean Difference (Final Values)|18.7|STANDARD_ERROR_OF_MEAN|5.492||0.002|TWO_SIDED|95.0|7.4498|29.9502|||t-test, 2 sided|Degrees of Freedom (DF)- 28||This procedure calculates the difference between the observed means in two independent samples (two collected assessment timepoints, screening and 4 week follow up visits). A significance value (P-value) and 95% confidence interval (CI) of the difference is reported. The P value is the probability of obtaining the observed difference between the samples if the null hypothesis were true. The null hypothesis is the hypothesis that the difference is 0.||29.9502|7.4498|0.0020
82456502|NCT04378270|164617231|OTHER||Mean Difference (Net)|16.67|STANDARD_ERROR_OF_MEAN|4.327||0.0006|TWO_SIDED|95.0|7.8069|25.5331|||t-test, 2 sided|Degrees of freedom (DF)- 28||||25.5331|7.8069|0.0006
82456503|NCT04378270|164617234|OTHER||Mean pain scale|17.87|STANDARD_DEVIATION|2.39||0.0001|TWO_SIDED|95.0|16.5465|19.1935|||t-test, 2 sided|Degrees of freedom (DF)- 14||This procedure calculates the difference of an observed mean (from the assessment collected at the 4 week visit) with a hypothesized mean value (10, a mid level scale score). A significance value (P-value) and 95% Confidence Interval (CI) of the observed mean is reported. The P-value is the probability of obtaining the observed mean in the sample if the null hypothesis value were the true value.||19.1935|16.5465|0.0001
82456504|NCT01236521|164617255|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_DEVIATION|0.13||0.0385|TWO_SIDED||||||Mixed Models Analysis|||||||0.0385
82456505|NCT01236521|164617256|SUPERIORITY||Mean Difference (Net)|0.44|STANDARD_DEVIATION|0.11||0.0067|TWO_SIDED||||||Mixed Models Analysis|||||||0.0067
82541389|NCT02954848|164782013|SUPERIORITY||Median Difference (Final Values)|6.5||||0.149|TWO_SIDED|95.0|-1.9|15.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade N of endoscopic findings||15.300|-1.900|0.1490
82541390|NCT02954848|164782013|SUPERIORITY||Median Difference (Final Values)|3.6||||0.2146|TWO_SIDED|95.0|-1.4|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade M of endoscopic findings||10.700|-1.400|0.2146
82541391|NCT02954848|164782014|SUPERIORITY|||||||0.0059|||||||Log Rank|||||||0.0059
82456506|NCT01236521|164617257|SUPERIORITY||Median Difference (Net)|0.39|STANDARD_DEVIATION|0.15||0.074|TWO_SIDED||||||Mixed Models Analysis|||||||0.0740
82456507|NCT03890588|164617267|SUPERIORITY||Risk Ratio (RR)|1.17|STANDARD_ERROR_OF_MEAN|0.12||0.21|TWO_SIDED|95.0|0.91|1.51|||Mixed Models Analysis|||||1.51|.91|.21
82456508|NCT03890588|164617268|SUPERIORITY||Risk Ratio (RR)|0.95|STANDARD_ERROR_OF_MEAN|0.11||0.61|TWO_SIDED|95.0|0.76|1.18|||Mixed Models Analysis|||||1.18|.76|.61
82541392|NCT02954848|164782015|SUPERIORITY|||||||0.0153|||||||Log Rank|||||||0.0153
82541393|NCT02954848|164782016|SUPERIORITY||Median Difference (Final Values)|-0.18||||0.0757|TWO_SIDED|95.0|-0.43|0.02|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade N of endoscopic findings||0.0200|-0.4300|0.0757
82456509|NCT03890588|164617269|SUPERIORITY||Risk Ratio (RR)|0.98|STANDARD_ERROR_OF_MEAN|0.08||0.84|TWO_SIDED|95.0|0.84|1.15|||Mixed Models Analysis|||||1.15|0.84|.84
82456510|NCT03890588|164617270|SUPERIORITY||Risk Ratio (RR)|1.0|STANDARD_ERROR_OF_MEAN|0.11||0.99|TWO_SIDED|95.0|0.8|1.24|||Mixed Models Analysis|||||1.24|.8|.99
82456511|NCT03890588|164617271|SUPERIORITY||Risk Ratio (RR)|1.02|STANDARD_ERROR_OF_MEAN|0.12||0.86|TWO_SIDED|95.0|0.79|1.32|||Mixed Models Analysis|||||1.32|.79|.86
82456512|NCT02052752|164617272|SUPERIORITY_OR_OTHER|||||||0.283||95.0|||||ANCOVA|||The ANCOVA results for the primary endpoint with treatment group as a main effect and average baseline value as a covariate showed no statistically significant differences in the percentage change from baseline in swelling of the target lesions between the 3% BPO group and the vehicle control group at Day 4 for the ITT population||||0.283
82541394|NCT02954848|164782016|SUPERIORITY||Median Difference (Final Values)|-0.07||||0.3837|TWO_SIDED|95.0|-0.22|0.09|||Wilcoxon Rank-Sum Test|||Statistical analysis for Grade M of endoscopic findings||0.0900|-0.2200|0.3837
82541395|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|0.0||||0.6631|TWO_SIDED|95.0|-5.0|3.5|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and improved response||3.500|-5.000|0.6631
82541396|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|3.2||||0.5627|TWO_SIDED|95.0|-7.1|13.9|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and not improved response||13.900|-7.100|0.5627
82438771|NCT01007435|164585659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.77|||<|0.0001|TWO_SIDED|95.0|3.19|7.14||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 8 mg/kg + methotrexate treatment groups.||7.14|3.19|<0.0001
82438772|NCT01007435|164585659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.0001|TWO_SIDED|95.0|2.47|5.55||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 8 mg/kg + placebo to methotrexate treatment groups.||5.55|2.47|<0.0001
82438773|NCT01007435|164585659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.72|||<|0.0001|TWO_SIDED|95.0|1.8|4.11||A hierarchy of statistical testing was implemented in order to control the type I error rate for multiple comparisons. This comparison came after the break in statistical hierarchy.|Regression, Logistic|The stratification factors, region and serologic status, were included in the model.|"Last observation carried forward was used for TJC and SJC. No imputation was used for ESR and GH. Patients who withdrew prematurely or where a DAS28 could not be calculated were set to non-responder."|The null hypothesis is that there is no difference in the DAS28 remission response at Week 24 between the placebo to tocilizumab + methotrexate and the tocilizumab 4 mg/kg + methotrexate treatment groups.||4.11|1.80|<0.0001
82438774|NCT00523705|164585725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|STANDARD_ERROR_OF_MEAN|4.86||0.467|TWO_SIDED||||||Regression, Linear||estimate of main effect of treatment in a linear mixed effects model.|Pilot data were examined at treatment endpoint for change from baseline. Statistical power was very low due to the small sample size.||||0.467
82438775|NCT01180036|164585733|SUPERIORITY||Risk Difference (RD)|40.0||||0.001|TWO_SIDED|95.0|24.6|55.4|||Chi-squared|||||55.4|24.6|0.001
82438776|NCT01180036|164585734|NON_INFERIORITY|With a non-inferiority margin of 15%. enrollment of 63 evaluable patients per study are is required to achieve 80% power to show that RTX is not inferior.||||||0.009|||||||Chi-squared|||||||0.009
82438777|NCT04243577|164585735|EQUIVALENCE|Margins for this test were calculated as plus or minus half a standard deviation using preliminary data acquired with the conventional electrodes, which were considered as the current gold standard and were ± 3.1.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|t-test, 2 sided|||For Iteration 1 testing, we hypothesized that normalized amplitude during swallow trials obtained using the conventional sensors and the experimental sensors will be equivalent. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
82438778|NCT04243577|164585735|EQUIVALENCE|Margins for this test were based on the absolute value of the effect size (Cohen's d) being smaller than 0.5.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|Bootstrapping CIs|In this 2nd iteration testing, we are accounting for variance uncertainty, and thus bootstrapping a Confidence Interval for Cohen's d.||For Iteration 2 testing again, we hypothesized that normalized amplitude during swallow trials obtained using the conventional sensors and the experimental sensors will be equivalent. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
82438779|NCT04243577|164585736|NON_INFERIORITY|Margin for this test was calculated as minus half a standard deviation using preliminary data acquired with the conventional electrodes, which were considered as the current gold standard and was -.99.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|t-test, 1 sided|||For Iteration 1 testing, we hypothesized that Signal to Noise Ratio (SNR) obtained using the experimental sensors will not be inferior to the Signal to Noise Ratio (SNR) obtained using the conventional sensors. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
82438780|NCT04243577|164585736|NON_INFERIORITY|Margin for this test was based on the effect size (Cohen's d) being larger than -0.5.|||||<|0.025||||||Alpha level based on Bonferroni correction was set to .025 to correct for multiple comparisons.|Bootstrapping CIs|In this 2nd iteration testing, we are accounting for variance uncertainty, and thus bootstrapping a one-sided confidence bound for Cohen's d.||For Iteration 2 testing, we again hypothesized that Signal to Noise Ratio (SNR) obtained using the newer version of the experimental sensors will not be inferior to the Signal to Noise Ratio (SNR) obtained using the conventional sensors. Alpha level was set to .025 to correct for multiple comparisons.||||<0.025
82438781|NCT04243577|164585737|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|Paired t-test||For Iteration 1 testing, we hypothesized that ease of use/comfort expressed after using the experimental patch will be higher than the one reported using the conventional electrodes. Alpha level was set to .05.||||<0.05
82456513|NCT04266795|164617278|SUPERIORITY||Hazard Ratio (HR)|0.99|||=|0.477|TWO_SIDED|95.0|0.61|1.6|||Log Rank|P-value was comparison of EFS between treatment groups and was based on the 1-sided stratified log-rank test statistic.|Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (randomization strata of age and AML subtype) and treatment as a factor in the model.|||1.60|0.61|=0.477
82438782|NCT04243577|164585737|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|Paired t-test||For Iteration 2 testing, again we hypothesized that ease of use/comfort expressed after using the experimental patch will be higher than the one reported using the conventional electrodes. Alpha level was set to .05.||||<0.05
82438783|NCT04452435|164585762|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.4891|||||||ANCOVA|||||||=0.4891
82490317|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.6|||||TWO_SIDED|95.0|0.48|0.67||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.67|0.48|
82649593|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-12.0||||0.367|TWO_SIDED|95.0|-40.3|16.3|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||16.3|-40.3|0.367
82438784|NCT04452435|164585762|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0881|||||||ANCOVA|||A subgroup analyses was performed in subjects with supplemental oxygen use at baseline. A total of 26 subjects in the C21 group and 27 in the placebo group were included in the analysis of change in CRP from baseline to the mean of the last 2 non-missing scheduled assessments during the treatment period by baseline supplemental oxygen use.||||=0.0881
82438785|NCT04452435|164585763|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0492|||||||ANCOVA|||||||=0.0492
82438786|NCT04452435|164585764|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9923|||||||ANCOVA|||||||=0.9923
82438787|NCT04452435|164585765|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.5355|||||||ANCOVA|||||||=0.5355
82438788|NCT04452435|164585766|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.4738|||||||ANCOVA|||||||=0.4738
82438789|NCT04452435|164585767|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9418|||||||ANCOVA|||||||=0.9418
82438790|NCT04452435|164585768|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.9733|||||||ANCOVA|||||||=0.9733
82438791|NCT04452435|164585769|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.0568|||||||Regression, Logistic|||||||=0.0568
82438792|NCT04452435|164585770|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.6088|||||||Regression, Logistic|||||||=0.6088
82438793|NCT04452435|164585771|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.5757|||||||Log Rank|||||||=0.5757
82438794|NCT04452435|164585772|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.8588|||||||Wilcoxon (Mann-Whitney)|||||||=0.8588
82438795|NCT04452435|164585774|EQUIVALENCE|The null hypothesis was that the treatments were equivalent and was to be rejected in favour of the alternative hypothesis that a treatment difference existed, if the probability of the null hypothesis being true was less than 10%.|||||=|0.003|||||||Chi-squared|||||||=0.003
82438796|NCT02292758|164585783|SUPERIORITY||Hazard Ratio (HR)|0.912||||0.7609|TWO_SIDED|95.0|0.431|1.93|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.930|0.431|0.7609
82438797|NCT02292758|164585783|SUPERIORITY||Hazard Ratio (HR)|0.642|||||TWO_SIDED|95.0|0.249|1.656|||||Adjusted HR; Model adjusted by: age, gender, race (white vs others), number of metastatic sites (1 vs 2 vs 3+), ECOG PS (0 vs 1), tumor site (colon, rectum/rectosigmoid, multiple)|||1.656|0.249|
82438798|NCT02292758|164585786|SUPERIORITY||Hazard Ratio (HR)|0.471||||0.0446|TWO_SIDED|95.0|0.209|1.062|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.062|0.209|0.0446
82438799|NCT02292758|164585786|SUPERIORITY||Hazard Ratio (HR)|0.406|||||TWO_SIDED|95.0|0.151|1.089|||||Adjusted HR; Model adjusted by: age, gender, race (white vs others), number of metastatic sites (1 vs 2 vs 3+), ECOG PS (0 vs 1), tumor site (colon, rectum/rectosigmoid, multiple)|||1.089|0.151|
82438800|NCT02292758|164585788|SUPERIORITY|||||||0.3415|||||||Chi-squared|||||||0.3415
82438801|NCT02292758|164585789|SUPERIORITY|||||||0.1279|||||||Fisher Exact|||||||0.1279
82438802|NCT02292758|164585790|SUPERIORITY|||||||0.447|||||||Log Rank|||||||0.447
82438803|NCT02292758|164585791|SUPERIORITY||Hazard Ratio (HR)|0.755||||0.3738|TWO_SIDED|95.0|0.345|1.655|||Log Rank||Unadjusted HR; Model stratified by: prior bevacizumab (Y vs N) and prior lines of chemotherapy (1 vs 2+)|||1.655|0.345|0.3738
82438804|NCT02292758|164585792|SUPERIORITY|||||||0.4283|||||||Wilcoxon (Mann-Whitney)|||Cetuximab comparison||||0.4283
82438805|NCT02292758|164585792|SUPERIORITY|||||||0.5262|||||||Wilcoxon (Mann-Whitney)|||Irinotecan comparison||||0.5262
82438806|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|-0.036||||0.437|TWO_SIDED|95.0|-0.126|0.054|||Mixed Models Analysis|||||0.054|-0.126|0.437
82438807|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|-0.054||||0.236|TWO_SIDED|95.0|-0.143|0.035|||Mixed Models Analysis|||||0.035|-0.143|0.236
82438808|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.389|TWO_SIDED|95.0|-0.05|0.128|||Mixed Models Analysis|||||0.128|-0.050|0.389
82438809|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.094|TWO_SIDED|95.0|-0.013|0.165|||Mixed Models Analysis|||||0.165|-0.013|0.094
82438810|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.06|TWO_SIDED|95.0|-0.003|0.167|||Mixed Models Analysis|||||0.167|-0.003|0.060
82438811|NCT03622112|164585795|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.014|TWO_SIDED|95.0|0.023|0.199|||Mixed Models Analysis|||||0.199|0.023|0.014
82578103|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.06
82438812|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.463|TWO_SIDED|95.0|-0.048|0.105|||Mixed Models Analysis|||Week 2||0.105|-0.048|0.463
82438813|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.576|TWO_SIDED|95.0|-0.055|0.098|||Mixed Models Analysis|||Week 2||0.098|-0.055|0.576
82438814|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.047|TWO_SIDED|95.0|0.001|0.154|||Mixed Models Analysis|||Week 2||0.154|0.001|0.047
82438815|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.009|TWO_SIDED|95.0|0.025|0.179|||Mixed Models Analysis|||Week 2||0.179|0.025|0.009
82438816|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.104||||0.006|TWO_SIDED|95.0|0.031|0.178|||Mixed Models Analysis|||Week 2||0.178|0.031|0.006
82438817|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.003|TWO_SIDED|95.0|0.041|0.194|||Mixed Models Analysis|||Week 2||0.194|0.041|0.003
82438818|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.685|TWO_SIDED|95.0|-0.068|0.103|||Mixed Models Analysis|||Week 4||0.103|-0.068|0.685
82438819|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.176|TWO_SIDED|95.0|-0.026|0.144|||Mixed Models Analysis|||Week 4||0.144|-0.026|0.176
82438820|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.098||||0.024|TWO_SIDED|95.0|0.013|0.183|||Mixed Models Analysis|||Week 4||0.183|0.013|0.024
82438821|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.106||||0.014|TWO_SIDED|95.0|0.021|0.191|||Mixed Models Analysis|||Week 4||0.191|0.021|0.014
82438822|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.006|TWO_SIDED|95.0|0.032|0.196|||Mixed Models Analysis|||Week 4||0.196|0.032|0.006
82438823|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.165|||<|0.001|TWO_SIDED|95.0|0.081|0.249|||Mixed Models Analysis|||Week 4||0.249|0.081|< 0.001
82438824|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.707|TWO_SIDED|95.0|-0.072|0.106|||Mixed Models Analysis|||Week 8||0.106|-0.072|0.707
82438825|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.005||||0.904|TWO_SIDED|95.0|-0.083|0.094|||Mixed Models Analysis|||Week 8||0.094|-0.083|0.904
82438826|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.121|TWO_SIDED|95.0|-0.018|0.157|||Mixed Models Analysis|||Week 8||0.157|-0.018|0.121
82438827|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.026|TWO_SIDED|95.0|0.012|0.188|||Mixed Models Analysis|||Week 8||0.188|0.012|0.026
82438828|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.139||||0.001|TWO_SIDED|95.0|0.055|0.224|||Mixed Models Analysis|||Week 8||0.224|0.055|0.001
82438829|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.122||||0.006|TWO_SIDED|95.0|0.035|0.209|||Mixed Models Analysis|||Week 8||0.209|0.035|0.006
82438830|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.856|TWO_SIDED|95.0|-0.068|0.081|||Mixed Models Analysis|||Treatment period average||0.081|-0.068|0.856
82438831|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.832|TWO_SIDED|95.0|-0.066|0.082|||Mixed Models Analysis|||Treatment period average||0.082|-0.066|0.832
82438832|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.06|TWO_SIDED|95.0|-0.003|0.145|||Mixed Models Analysis|||Treatment period average||0.145|-0.003|0.060
82438833|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.096||||0.011|TWO_SIDED|95.0|0.022|0.17|||Mixed Models Analysis|||Treatment period average||0.170|0.022|0.011
82438834|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.003|TWO_SIDED|95.0|0.039|0.181|||Mixed Models Analysis|||Treatment period average||0.181|0.039|0.003
82438835|NCT03622112|164585796|SUPERIORITY||Mean Difference (Final Values)|0.129|||<|0.001|TWO_SIDED|95.0|0.055|0.202|||Mixed Models Analysis|||Treatment period average||0.202|0.055|<0.001
82438836|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.936||||0.322|TWO_SIDED|95.0|0.822|1.067|||Mixed Models Analysis|||Week 2||1.067|0.822|0.322
82438837|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.876||||0.047|TWO_SIDED|95.0|0.768|0.999|||Mixed Models Analysis|||Week 2||0.999|0.768|0.047
82438838|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.842||||0.01|TWO_SIDED|95.0|0.739|0.959|||Mixed Models Analysis|||Week 2||0.959|0.739|0.010
82438839|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.825||||0.004|TWO_SIDED|95.0|0.724|0.941|||Mixed Models Analysis|||Week 2||0.941|0.724|0.004
82438840|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.687|||<|0.001|TWO_SIDED|95.0|0.606|0.779|||Mixed Models Analysis|||Week 2||0.779|0.606|<0.001
82438841|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.63|||<|0.001|TWO_SIDED|95.0|0.553|0.719|||Mixed Models Analysis|||Week 2||0.719|0.553|<0.001
82438842|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.931||||0.329|TWO_SIDED|95.0|0.805|1.076|||Mixed Models Analysis|||Week 4||1.076|0.805|0.329
82438843|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.911||||0.203|TWO_SIDED|95.0|0.789|1.052|||Mixed Models Analysis|||Week 4||1.052|0.789|0.203
82438844|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.923||||0.273|TWO_SIDED|95.0|0.8|1.065|||Mixed Models Analysis|||Week 4||1.065|0.800|0.273
82438845|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.846||||0.023|TWO_SIDED|95.0|0.734|0.977|||Mixed Models Analysis|||Week 4||0.977|0.734|0.023
82438846|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.742|||<|0.001|TWO_SIDED|95.0|0.646|0.852|||Mixed Models Analysis|||Week 4||0.852|0.646|<0.001
82438847|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.703|||<|0.001|TWO_SIDED|95.0|0.609|0.81|||Mixed Models Analysis|||Week 4||0.810|0.609|<0.001
82438848|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.917||||0.283|TWO_SIDED|95.0|0.783|1.074|||Mixed Models Analysis|||Week 8||1.074|0.783|0.283
82438849|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.933||||0.386|TWO_SIDED|95.0|0.797|1.092|||Mixed Models Analysis|||Week 8||1.092|0.797|0.386
82578104|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.79||||||The reported p-value is representative of the changes in levels of CD4+cells/µL among HIV+ participants.|Wilcoxon rank sum test|||||||0.79
82649594|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-7.2||||0.587|TWO_SIDED|95.0|-35.5|21.2|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||21.2|-35.5|0.587
82541397|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|3.7||||0.0042|TWO_SIDED|95.0|0.0|8.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and improved response||8.000|0.000|0.0042
82541398|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|-0.7||||0.6452|TWO_SIDED|95.0|-9.4|6.4|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and not improved response||6.400|-9.400|0.6452
82541399|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|7.4||||0.0376|TWO_SIDED|95.0|0.0|17.8|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and improved response||17.800|0.000|0.0376
82541400|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|-13.0||||0.16|TWO_SIDED|95.0|-35.7|3.6|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and not improved response||3.600|-35.700|0.1600
82541401|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|3.6||||0.1032|TWO_SIDED|95.0|0.0|10.7|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and improved response||10.700|0.000|0.1032
82541402|NCT02954848|164782017|SUPERIORITY||Median Difference (Final Values)|-3.3||||0.2613|TWO_SIDED|95.0|-14.3|0.2|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and not improved response||0.200|-14.300|0.2613
82649595|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-4.7||||0.721|TWO_SIDED|95.0|-33.1|23.7|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||23.7|-33.1|0.721
82649596|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-3.3||||0.801|TWO_SIDED|95.0|-31.7|25.1|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.1|-31.7|0.801
82438850|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.886||||0.126|TWO_SIDED|95.0|0.758|1.035|||Mixed Models Analysis|||Week 8||1.035|0.758|0.126
82438851|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.855||||0.05|TWO_SIDED|95.0|0.731|1.0|||Mixed Models Analysis|||Week 8||1.000|0.731|0.050
82541403|NCT02954848|164782018|SUPERIORITY|||||||0.997|||||||Log Rank|||||||0.9970
82541404|NCT02954848|164782019|SUPERIORITY|||||||0.0125|||||||Log Rank|||||||0.0125
82541405|NCT02954848|164782020|SUPERIORITY|||||||0.0004|||||||Log Rank|||||||0.0004
82541406|NCT02954848|164782021|SUPERIORITY|||||||0.7999|||||||Log Rank|||||||0.7999
82541407|NCT02954848|164782022|SUPERIORITY|||||||0.0059|||||||Log Rank|||||||0.0059
82541408|NCT02954848|164782023|SUPERIORITY|||||||0.552|||||||Log Rank|||||||0.5520
82541409|NCT02954848|164782024|SUPERIORITY|||||||0.0175|||||||Log Rank|||||||0.0175
82541410|NCT02954848|164782025|SUPERIORITY|||||||0.7505|||||||Log Rank|||||||0.7505
82438852|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.723|||<|0.001|TWO_SIDED|95.0|0.623|0.84|||Mixed Models Analysis|||Week 8||0.840|0.623|<0.001
82541411|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|-0.03||||0.7845|TWO_SIDED|95.0|-0.23|0.16|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and improved response||0.1600|-0.2300|0.7845
82541412|NCT02954848|164782026|SUPERIORITY||Wilcoxon Rank-Sum Test|-0.11||||0.4456|TWO_SIDED|95.0|-0.33|0.17|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade N and not improved response||0.1700|-0.3300|0.4456
82541413|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|-0.15||||0.02|TWO_SIDED|95.0|-0.29|-0.02|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and improved response||-0.0200|-0.2900|0.0200
82541414|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|0.06||||0.4673|TWO_SIDED|95.0|-0.1|0.22|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 1, Grade M and not improved response||0.2200|-0.1000|0.4673
82541415|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|-0.29||||0.0095|TWO_SIDED|95.0|-0.53|-0.07|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and improved response||-0.0700|-0.5300|0.0095
82541416|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|0.31||||0.165|TWO_SIDED|95.0|-0.16|0.71|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade N and not improved response||0.7100|-0.1600|0.1650
82541417|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|-0.08||||0.2475|TWO_SIDED|95.0|-0.24|0.07|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and improved response||0.0700|-0.2400|0.2475
82541418|NCT02954848|164782026|SUPERIORITY||Median Difference (Final Values)|0.13||||0.2367|TWO_SIDED|95.0|-0.09|0.32|||Wilcoxon Rank-Sum Test|||Statistical analysis for Criteria 2, Grade M and not improved||0.3200|-0.0900|0.2367
82541419|NCT02954848|164782027|SUPERIORITY||Median Difference (Final Values)|5.5||||0.1885|TWO_SIDED|95.0|-2.7|14.3|||Wilcoxon Rank-Sum Test|||Statistical analysis for improved response||14.300|-2.700|0.1885
82541420|NCT02954848|164782027|SUPERIORITY||Wilcoxon Rank-Sum Test|25.6||||0.2337|TWO_SIDED|95.0|-19.2|75.0|||Wilcoxon Rank-Sum Test|||Statistical analysis for not improved response||75.000|-19.200|0.2337
82541421|NCT02954848|164782028|SUPERIORITY|||||||0.0811|||||||Log Rank|||||||0.0811
82541422|NCT02954848|164782029|SUPERIORITY|||||||0.0288|||||||Log Rank|||||||0.0288
82541423|NCT02954848|164782030|SUPERIORITY||Median Difference (Final Values)|-0.17||||0.1488|TWO_SIDED|95.0|-0.42|0.04|||Wilcoxon Rank-Sum Test|||Statistical analysis for improved response||0.0400|-0.4200|0.1488
82541424|NCT02954848|164782030|SUPERIORITY||Wilcoxon Rank-Sum Test|-0.44||||0.3778|TWO_SIDED|95.0|-1.57|0.69|||Wilcoxon Rank-Sum Test|||Statistical analysis for not improved response||0.6900|-1.5700|0.3778
82649597|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-5.0||||0.704|TWO_SIDED|95.0|-33.3|23.4|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||23.4|-33.3|0.704
82649598|NCT02868281|165014789|OTHER||Difference in Least Squares Mean|-4.0||||0.762|TWO_SIDED|95.0|-32.4|24.5|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||24.5|-32.4|0.762
82456514|NCT03043872|164617290|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0047|TWO_SIDED|95.0|0.591|0.909||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. The global cohort interim analysis of OS was based on a Lan-DeMets alpha spending function with O'Brien Fleming type boundary, using the actual number of events observed as a proportion of the planned total. Boundary for declaring statistical significance was 0.0178 for a 4% overall alpha. Hazard Ratio (HR) \<1 favors D + EP to be associated with a longer OS than EP.||0.909|0.591|0.0047
82456515|NCT03043872|164617291|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0032|TWO_SIDED|95.0|0.625|0.91||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP.||0.910|0.625|0.0032
82456516|NCT03043872|164617291|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0451|TWO_SIDED|95.0|0.682|0.995||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|"D + T + EP vs EP. The alpha level applied at the global cohort final analysis was adjusted (using a generalized Haybittle-Peto method) to account for actual alpha spent at the interim analysis based on the actual final total number of events, and thus maintain control of overall Type I error. Boundary for declaring statistical significance was 0.0418 for a 5% overall alpha.~HR \<1 favors D + T + EP to be associated with a longer OS than EP."||0.995|0.682|0.0451
82456517|NCT03043872|164617292|OTHER||Hazard Ratio (HR)|0.65||||0.0664|TWO_SIDED|95.0|0.414|1.029||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.029|0.414|0.0664
82456518|NCT03043872|164617293|OTHER||Hazard Ratio (HR)|0.75||||0.1455|TWO_SIDED|95.0|0.504|1.106||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.106|0.504|0.1455
82456519|NCT03043872|164617293|OTHER||Hazard Ratio (HR)|0.65||||0.0314|TWO_SIDED|95.0|0.439|0.964||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer OS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||0.964|0.439|0.0314
82456520|NCT03043872|164617294|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4352|TWO_SIDED|95.0|0.89|1.309||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer OS than D + EP.||1.309|0.890|0.4352
82456521|NCT03043872|164617295|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0157|TWO_SIDED|95.0|0.665|0.959||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer PFS than EP.||0.959|0.665|0.0157
82456522|NCT03043872|164617295|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0568|TWO_SIDED|95.0|0.696|1.005||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer PFS than EP.||1.005|0.696|0.0568
82541425|NCT04707313|164782043|SUPERIORITY||Difference to placebo|-5.6|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-7.41|-3.74|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-3.74|-7.41|<.0001
82541426|NCT04707313|164782043|SUPERIORITY||Difference to placebo|-5.0|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-6.8|-3.16|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-3.16|-6.80|<.0001
82649599|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-12.8||||0.354|TWO_SIDED|95.0|-42.1|16.5|||Mixed Model Repeat Measures||Weeks 1-4. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||16.5|-42.1|0.354
82456523|NCT03043872|164617295|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.754|TWO_SIDED|95.0|0.857|1.235||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer PFS than D + EP.||1.235|0.857|0.7540
82456524|NCT03043872|164617296|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0177|TWO_SIDED|95.0|1.086|2.401||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + EP vs EP. An odds ratio \>1 favors D + EP.||2.401|1.086|0.0177
82456525|NCT03043872|164617296|SUPERIORITY||Odds Ratio (OR)|1.19||||0.3611|TWO_SIDED|95.0|0.817|1.746||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + T + EP vs EP. An odds ratio \>1 favors D + T + EP.||1.746|0.817|0.3611
82456526|NCT03043872|164617308|OTHER||Hazard Ratio (HR)|0.86||||0.447|TWO_SIDED|95.0|0.574|1.277||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer OS than D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.277|0.574|0.4470
82456527|NCT03043872|164617309|OTHER||Hazard Ratio (HR)|0.97||||0.8934|TWO_SIDED|95.0|0.661|1.437||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + EP vs EP. HR \<1 favors D + EP to be associated with a longer PFS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.437|0.661|0.8934
82456528|NCT03043872|164617309|OTHER||Hazard Ratio (HR)|0.72||||0.1035|TWO_SIDED|95.0|0.487|1.068||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs EP. HR \<1 favors D + T + EP to be associated with a longer PFS than EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.068|0.487|0.1035
82456529|NCT03043872|164617309|OTHER||Hazard Ratio (HR)|0.76||||0.1673|TWO_SIDED|95.0|0.522|1.116||Analysis was performed using the stratified log-rank test, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and using the rank tests of association approach.|Log Rank||The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin), and ties handled by Efron approach.|D + T + EP vs D + EP. HR \<1 favors D + T + EP to be associated with a longer PFS than D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||1.116|0.522|0.1673
82456530|NCT03043872|164617310|OTHER||Odds Ratio (OR)|1.39||||0.432|TWO_SIDED|95.0|0.61|3.244||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + EP vs EP. An odds ratio \>1 favors D + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||3.244|0.610|0.4320
82456531|NCT03043872|164617310|OTHER||Odds Ratio (OR)|2.07||||0.0986|TWO_SIDED|95.0|0.874|5.118||Analysis was performed using a logistic regression model, adjusting for planned platinum therapy in Cycle 1 (carboplatin or cisplatin). P-value is based on twice the change in log-likelihood resulting from addition of a treatment factor to the model.|Regression, Logistic|||D + T + EP vs EP. An odds ratio \>1 favors D + T + EP. The study was not designed or powered to show statistical significance for efficacy endpoints in the China cohort, so all statistical analyses for the China cohort were considered exploratory.||5.118|0.874|0.0986
82456532|NCT04186871|164617332|SUPERIORITY|RESPONSE DIFFERENCE (95% CI) VS PLACEBO|Response Difference|-27.8|||||TWO_SIDED|95.0|-77.5|21.9||||||||21.9|-77.5|
82456533|NCT04186871|164617332|SUPERIORITY|ODDS RATIO (95% CI) VS PLACEBO|Odds Ratio (OR)|0.32||||0.3117|TWO_SIDED|95.0|0.04|2.73|||Cochran-Mantel-Haenszel|||||2.73|0.04|0.3117
82541427|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-9.1|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|90.0|-10.89|-7.28|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.28|-10.89|<.0001
82649600|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-8.4||||0.538|TWO_SIDED|95.0|-37.8|21.0|||Mixed Model Repeat Measures||Weeks 5-8. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||21.0|-37.8|0.538
82541428|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-6.6|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|90.0|-8.75|-4.39|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.39|-8.75|<.0001
82438853|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.642|||<|0.001|TWO_SIDED|95.0|0.55|0.749|||Mixed Models Analysis|||Week 8||0.749|0.550|<0.001
82438854|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.927||||0.359|TWO_SIDED|95.0|0.789|1.09|||Mixed Models Analysis|||Week 12||1.090|0.789|0.359
82438855|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.953||||0.556|TWO_SIDED|95.0|0.813|1.118|||Mixed Models Analysis|||Week 12||1.118|0.813|0.556
82438856|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.869||||0.084|TWO_SIDED|95.0|0.742|1.019|||Mixed Models Analysis|||Week 12||1.019|0.742|0.084
82438857|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.813||||0.011|TWO_SIDED|95.0|0.693|0.953|||Mixed Models Analysis|||Week 12||0.953|0.693|0.011
82438858|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.65|||<|0.001|TWO_SIDED|95.0|0.559|0.757|||Mixed Models Analysis|||Week 12||0.757|0.559|<0.001
82438859|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.623|||<|0.001|TWO_SIDED|95.0|0.533|0.729|||Mixed Models Analysis|||Week 12||0.729|0.533|<0.001
82438860|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.928||||0.231|TWO_SIDED|95.0|0.821|1.049|||Mixed Models Analysis|||Treatment period average||1.049|0.821|0.231
82438861|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.918||||0.17|TWO_SIDED|95.0|0.812|1.037|||Mixed Models Analysis|||Treatment period average||1.037|0.812|0.170
82438862|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.879||||0.039|TWO_SIDED|95.0|0.778|0.994|||Mixed Models Analysis|||Treatment period average||0.994|0.778|0.039
82438863|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.835||||0.004|TWO_SIDED|95.0|0.739|0.943|||Mixed Models Analysis|||Treatment period average||0.943|0.739|0.004
82438864|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.7|||<|0.001|TWO_SIDED|95.0|0.622|0.787|||Mixed Models Analysis|||Treatment period average||0.787|0.622|<0.001
82541429|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-9.52|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|90.0|-11.43|-7.56|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.56|-11.43|<.0001
82541430|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-7.12|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|90.0|-9.41|-4.78|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.78|-9.41|<.0001
82438865|NCT03622112|164585797|SUPERIORITY||Mean Difference (Final Values)|0.649|||<|0.001|TWO_SIDED|95.0|0.575|0.732|||Mixed Models Analysis|||Treatment period average||0.732|0.575|<0.001
82438866|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|-0.034||||0.519|TWO_SIDED|95.0|-0.139|0.07|||Mixed Models Analysis|||Week 12||0.070|-0.139|0.519
82438867|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|-0.078||||0.141|TWO_SIDED|95.0|-0.181|0.026|||Mixed Models Analysis|||Week 12||0.026|-0.181|0.141
82438868|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.772|TWO_SIDED|95.0|-0.088|0.119|||Mixed Models Analysis|||Week 12||0.119|-0.088|0.772
82438869|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.27|TWO_SIDED|95.0|-0.045|0.162|||Mixed Models Analysis|||Week 12||0.162|-0.045|0.270
82438870|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.592|TWO_SIDED|95.0|-0.072|0.126|||Mixed Models Analysis|||Week 12||0.126|-0.072|0.592
82438871|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.275|TWO_SIDED|95.0|-0.045|0.158|||Mixed Models Analysis|||Week 12||0.158|-0.045|0.275
82438872|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.963|TWO_SIDED|95.0|-0.087|0.083|||Mixed Models Analysis|||Treatment period average||0.083|-0.087|0.963
82438873|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|-0.027||||0.533|TWO_SIDED|95.0|-0.112|0.058|||Mixed Models Analysis|||Treatment period average||0.058|-0.112|0.533
82438874|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.342|TWO_SIDED|95.0|-0.044|0.126|||Mixed Models Analysis|||Treatment period average||0.126|-0.044|0.342
82438875|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.081||||0.061|TWO_SIDED|95.0|-0.004|0.165|||Mixed Models Analysis|||Treatment period average||0.165|-0.004|0.061
82438876|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.278|TWO_SIDED|95.0|-0.037|0.127|||Mixed Models Analysis|||Treatment period average||0.127|-0.037|0.278
82438877|NCT03622112|164585798|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.079|TWO_SIDED|95.0|-0.009|0.159|||Mixed Models Analysis|||Treatment period average||0.159|-0.009|0.079
82438878|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.153||||0.088|TWO_SIDED|95.0|-0.328|0.023|||Mixed Models Analysis|||Week 12||0.023|-0.328|0.088
82438879|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.257||||0.004|TWO_SIDED|95.0|-0.43|-0.084|||Mixed Models Analysis|||Week 12||-0.084|-0.430|0.004
82438880|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.221||||0.012|TWO_SIDED|95.0|-0.393|-0.049|||Mixed Models Analysis|||Week 12||-0.049|-0.393|0.012
82438881|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.193||||0.029|TWO_SIDED|95.0|-0.366|-0.02|||Mixed Models Analysis|||Week 12||-0.020|-0.366|0.029
82438882|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.269||||0.001|TWO_SIDED|95.0|-0.434|-0.104|||Mixed Models Analysis|||Week 12||-0.104|-0.434|0.001
82438883|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.223||||0.01|TWO_SIDED|95.0|-0.393|-0.054|||Mixed Models Analysis|||Week 12||-0.054|-0.393|0.010
82438884|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.125||||0.055|TWO_SIDED|95.0|-0.253|0.003|||Mixed Models Analysis|||Treatment period average||0.003|-0.253|0.055
82438885|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.141||||0.029|TWO_SIDED|95.0|-0.268|-0.014|||Mixed Models Analysis|||Treatment period average||-0.014|-0.268|0.029
82649601|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-5.0||||0.716|TWO_SIDED|95.0|-34.4|24.5|||Mixed Model Repeat Measures||Weeks 9-12. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||24.5|-34.4|0.716
82649602|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-3.1||||0.822|TWO_SIDED|95.0|-32.5|26.3|||Mixed Model Repeat Measures||Weeks 13-16. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||26.3|-32.5|0.822
82649603|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-4.0||||0.767|TWO_SIDED|95.0|-33.4|25.4|||Mixed Model Repeat Measures||Weeks 17-20. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.4|-33.4|0.767
82456534|NCT04186871|164617333|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.8|4.9||||||||4.9|-2.8|
82456535|NCT04186871|164617333|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 24|Mean Difference (Final Values)|-8.3|||||TWO_SIDED|95.0|-11.5|-5.0||||||||-5.0|-11.5|
82456536|NCT04186871|164617333|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 24|Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-9.3|-5.2||||||||-5.2|-9.3|
82456537|NCT04186871|164617334|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|16.7|||||TWO_SIDED|95.0|-31.8|65.2||||||||65.2|-31.8|
82456538|NCT04186871|164617334|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|2.0|||||TWO_SIDED|95.0|0.22|18.04||||||||18.04|0.22|
82456539|NCT04186871|164617335|SUPERIORITY|RESPONSE DIFFERENCE (95% CI) VS PLACEBO|Response Difference|-11.9|||||TWO_SIDED|95.0|-57.1|33.3||||||||33.3|-57.1|
82456540|NCT04186871|164617335|SUPERIORITY|ODDS RATIO (95% CI) VS PLACEBO|Odds Ratio (OR)|0.4||||0.593|TWO_SIDED|95.0|0.02|10.02|||Cochran-Mantel-Haenszel|||||10.02|0.02|0.5930
82456541|NCT04186871|164617336|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-14.6|||||TWO_SIDED|95.0|-36.9|7.7||||||||7.7|-36.9|
82456542|NCT04186871|164617336|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.46||||0.1639|TWO_SIDED|95.0|0.15|1.39|||Chi-squared|||||1.39|0.15|0.1639
82456543|NCT04186871|164617337|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE WEEK 12|Mean Difference (Final Values)|-1.61|||||TWO_SIDED|95.0|-2.11|-1.11||||||||-1.110|-2.110|
82541431|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-9.12|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|90.0|-11.11|-7.08|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-7.08|-11.11|<.0001
82541432|NCT04707313|164782043|SUPERIORITY||Difference to Placebo|-7.18|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|90.0|-9.32|-4.99|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.99|-9.32|<.0001
82541433|NCT04707313|164782044|SUPERIORITY||Difference to Placebo|-8.21|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-11.66|-4.63|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.63|-11.66|<.0001
82541434|NCT04707313|164782044|SUPERIORITY||Difference to placebo|-8.44|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-11.83|-4.92|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-4.92|-11.83|<.0001
82541435|NCT04707313|164782044|SUPERIORITY||Difference to Placebo|-12.87|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|90.0|-16.15|-9.47|||Mixed Models Analysis||MMRM:treatment,time,strata(female vs male),treatment-by-time interaction as fixed effect, natural log-transformed baseline as covariate,natural log-transformed baseline-by-time interaction with time fitted:repeated effect, participant:random effect.|||-9.47|-16.15|<.0001
82541436|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|7.37|||||TWO_SIDED|90.0|2.81|19.3||||||||19.30|2.81|
82541437|NCT04707313|164782057|SUPERIORITY||Odds Ratio (OR)|6.58|||||TWO_SIDED|90.0|2.62|16.53||||||Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.||16.53|2.62|
82541438|NCT04707313|164782057|SUPERIORITY||Odds Ratio (OR)|16.33|||||TWO_SIDED|90.0|6.47|41.24||||||Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.||41.24|6.47|
82578105|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.03||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.03
82456544|NCT04186871|164617337|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.567|||||TWO_SIDED|95.0|-1.855|-1.28||||||||-1.280|-1.855|
82456545|NCT04186871|164617337|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.043|||||TWO_SIDED|95.0|-0.534|0.62||||||||0.620|-0.534|
82456546|NCT04186871|164617338|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.741|||||TWO_SIDED|95.0|-2.256|-1.226||||||||-1.226|-2.256|
82456547|NCT04186871|164617338|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-1.698|||||TWO_SIDED|95.0|-1.998|-1.399||||||||-1.399|-1.998|
82456548|NCT04186871|164617338|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.043|||||TWO_SIDED|95.0|-0.553|0.639||||||||0.639|-0.553|
82541439|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|14.24|||||TWO_SIDED|90.0|5.39|37.66||||||||37.66|5.39|
82541440|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|30.17|||||TWO_SIDED|90.0|11.35|80.2||||||||80.20|11.35|
82578106|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.008||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.008
82578107|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.12||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.12
82438886|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.044|TWO_SIDED|95.0|-0.257|-0.003|||Mixed Models Analysis|||Treatment period average||-0.003|-0.257|0.044
82438887|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.201||||0.002|TWO_SIDED|95.0|-0.328|-0.074|||Mixed Models Analysis|||Treatment period average||-0.074|-0.328|0.002
82438888|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.217|||<|0.001|TWO_SIDED|95.0|-0.339|-0.094|||Mixed Models Analysis|||Treatment period average||-0.094|-0.339|<0.001
82438889|NCT03622112|164585799|SUPERIORITY||Mean Difference (Final Values)|-0.179||||0.005|TWO_SIDED|95.0|-0.305|-0.053|||Mixed Models Analysis|||Treatment period average||-0.053|-0.305|0.005
82438890|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|7.664||||0.097|TWO_SIDED|95.0|-1.403|16.73|||Mixed Models Analysis|||Treatment period average||16.730|-1.403|0.097
82438891|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|5.981||||0.19|TWO_SIDED|95.0|-2.98|14.941|||Mixed Models Analysis|||Treatment period average||14.941|-2.980|0.190
82438892|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|9.123||||0.045|TWO_SIDED|95.0|0.195|18.052|||Mixed Models Analysis|||Treatment period average||18.052|0.195|0.045
82438893|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|15.444|||<|0.001|TWO_SIDED|95.0|6.443|24.445|||Mixed Models Analysis|||Treatment period average||24.445|6.443|<0.001
82438894|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|16.599|||<|0.001|TWO_SIDED|95.0|8.031|25.167|||Mixed Models Analysis|||Treatment period average||25.167|8.031|<0.001
82438895|NCT03622112|164585800|SUPERIORITY||Mean Difference (Final Values)|10.491||||0.019|TWO_SIDED|95.0|1.726|19.256|||Mixed Models Analysis|||Treatment period average||19.256|1.726|0.019
82438896|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|2.398||||0.597|TWO_SIDED|95.0|-6.494|11.29|||Mixed Models Analysis|||Treatment period average||11.290|-6.494|0.597
82438897|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|2.162||||0.629|TWO_SIDED|95.0|-6.623|10.948|||Mixed Models Analysis|||Treatment period average||10.948|-6.623|0.629
82438898|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|3.833||||0.389|TWO_SIDED|95.0|-4.907|12.573|||Mixed Models Analysis|||Treatment period average||12.573|-4.907|0.389
82438899|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|10.258||||0.022|TWO_SIDED|95.0|1.456|19.059|||Mixed Models Analysis|||Treatment period average||19.059|1.456|0.022
82438900|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|11.994||||0.005|TWO_SIDED|95.0|3.571|20.417|||Mixed Models Analysis|||Treatment period average||20.417|3.571|0.005
82438901|NCT03622112|164585801|SUPERIORITY||Mean Difference (Final Values)|6.129||||0.163|TWO_SIDED|95.0|-2.479|14.737|||Mixed Models Analysis|||Treatment period average||14.737|-2.479|0.163
82438902|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.243||||0.012|TWO_SIDED|95.0|-0.431|-0.054|||Mixed Models Analysis|||Treatment period average||-0.054|-0.431|0.012
82438903|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.155||||0.108|TWO_SIDED|95.0|-0.344|0.034|||Mixed Models Analysis|||Treatment period average||0.034|-0.344|0.108
82438904|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.099||||0.295|TWO_SIDED|95.0|-0.286|0.087|||Mixed Models Analysis|||Treatment period average||0.087|-0.286|0.295
82438905|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.308||||0.002|TWO_SIDED|95.0|-0.5|-0.116|||Mixed Models Analysis|||Treatment period average||-0.116|-0.500|0.002
82438906|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.308|||<|0.001|TWO_SIDED|95.0|-0.489|-0.126|||Mixed Models Analysis|||Treatment period average||-0.126|-0.489|<0.001
82438907|NCT03622112|164585802|SUPERIORITY||Mean Difference (Final Values)|-0.177||||0.062|TWO_SIDED|95.0|-0.362|0.009|||Mixed Models Analysis|||Treatment period average||0.009|-0.362|0.062
82438908|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-9.993|||<|0.001|TWO_SIDED|95.0|-15.795|-4.191|||Mixed Models Analysis|||Treatment period average||-4.191|-15.795|<0.001
82438909|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-7.972||||0.006|TWO_SIDED|95.0|-13.694|-2.251|||Mixed Models Analysis|||Treatment period average||-2.251|-13.694|0.006
82438910|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-4.361||||0.133|TWO_SIDED|95.0|-10.051|1.329|||Mixed Models Analysis|||Treatment period average||1.329|-10.051|0.133
82438911|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-7.797||||0.008|TWO_SIDED|95.0|-13.555|-2.04|||Mixed Models Analysis|||Treatment period average||-2.040|-13.555|0.008
82438912|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-8.729||||0.002|TWO_SIDED|95.0|-14.195|-3.264|||Mixed Models Analysis|||Treatment period average||-3.264|-14.195|0.002
82438913|NCT03622112|164585803|SUPERIORITY||Mean Difference (Final Values)|-11.622|||<|0.001|TWO_SIDED|95.0|-17.211|-6.034|||Mixed Models Analysis|||Treatment period average||-6.034|-17.211|<0.001
82438914|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.212|||<|0.001|TWO_SIDED|95.0|-0.329|-0.094|||Mixed Models Analysis|||Treatment period average||-0.094|-0.329|<0.001
82438915|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.066|TWO_SIDED|95.0|-0.228|0.007|||Mixed Models Analysis|||Treatment period average||0.007|-0.228|0.066
82541441|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|9.88|||||TWO_SIDED|90.0|2.91|33.53||||||||33.53|2.91|
82541442|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|24.41|||||TWO_SIDED|90.0|8.28|71.95||||||||71.95|8.28|
82541443|NCT04707313|164782057|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|12.65|||||TWO_SIDED|90.0|4.56|35.08||||||||35.08|4.56|
82578108|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.02||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.02
82578109|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.02||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.02
82578110|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.36||||||The reported p-value is representative of the changes in levels of CD8+ cells/µL among HIV+ participants.|Wilcoxon signed rank test|||||||0.36
82649604|NCT02868281|165014790|OTHER||Difference in Least Squares Mean|-3.8||||0.779|TWO_SIDED|95.0|-33.4|25.7|||Mixed Model Repeat Measures||Weeks 21-24. The model included covariates of treatment, center, Baseline ACT total score, type of Baseline controller, gender, age and treatment-by-visit interaction, with the center as a random factor.|||25.7|-33.4|0.779
82649605|NCT02868281|165014791|OTHER||Difference in Least Squares Mean|0.3||||0.059|TWO_SIDED|95.0|0.0|0.6|||Mixed Model Repeat Measures||The model included covariates of treatment, center, Baseline AQLQ(S) score, type of Baseline controller, gender and age, with the center as a random factor.|||0.6|-0.0|0.059
82456549|NCT04186871|164617339|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-19.495|||||TWO_SIDED|95.0|-24.861|-14.128||||||||-14.128|-24.861|
82456550|NCT04186871|164617339|EQUIVALENCE|ADJUSTED MEAN DIFFERENCE AT WEEK 12|Mean Difference (Final Values)|-18.767|||||TWO_SIDED|95.0|-21.848|-15.686||||||||-15.686|-21.848|
82456551|NCT04186871|164617339|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.728|||||TWO_SIDED|95.0|-5.463|6.919||||||||6.919|-5.463|
82456552|NCT04186871|164617340|EQUIVALENCE|ADJUSTED MEAN AT DIFFERENCE WEEK 12|Mean Difference (Final Values)|-19.2|||||TWO_SIDED|95.0|-24.3|-14.1||||||||-14.1|-24.3|
82456553|NCT04186871|164617340|EQUIVALENCE|ADJUSTED MEAN AT DIFFERENCE WEEK 12|Mean Difference (Final Values)|-18.5|||||TWO_SIDED|95.0|-21.4|-15.5||||||||-15.5|-21.4|
82456554|NCT04186871|164617340|SUPERIORITY|ADJUSTED MEAN DIFFERENCE VS PLACEBO|Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-5.2|6.6||||||||6.6|-5.2|
82456555|NCT04186871|164617341|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-4.1|||||TWO_SIDED|95.0|-28.1|19.9||||||||19.9|-28.1|
82541444|NCT04707313|164782058|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|33.43|||||TWO_SIDED|90.0|3.05|366.64||||||||366.64|3.05|
82541445|NCT04707313|164782058|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|34.04|||||TWO_SIDED|90.0|3.1|373.85||||||||373.85|3.10|
82541446|NCT04707313|164782058|SUPERIORITY|Logistic regression models (included terms for treatment, strata \[females versus males\] and baseline body weight as a covariate) were applied to the imputed datasets from the multiple imputation method above and parameter estimates were combined using standard multiple imputation techniques.|Odds Ratio (OR)|127.21|||||TWO_SIDED|90.0|10.55|1533.46||||||||1533.46|10.55|
82578111|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.002||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.002
82456556|NCT04186871|164617341|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.31|2.32||||||||2.32|0.31|
82456557|NCT04186871|164617342|SUPERIORITY|RESPONSE DIFFERENCE VS PLACEBO|Response Difference|-6.5|||||TWO_SIDED|95.0|-22.8|9.9||||||||9.9|-22.8|
82578112|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.0002||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||0.0002
82578113|NCT01495598|164865740|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.|||||<|0.0001||||||The reported p-value is representative of the changes in levels of CD19+ cells/µL among all participants.|Wilcoxon signed rank test|||||||<0.0001
82578114|NCT01495598|164865741|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.13|||||||Wilcoxon signed rank test|||||||0.13
82578115|NCT01495598|164865741|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.65|||||||Wilcoxon signed rank test|||||||0.65
82578116|NCT01495598|164865741|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.32|||||||Wilcoxon signed rank test|||||||0.32
82649606|NCT02868281|165014792|OTHER||Hazard Ratio (HR)|1.843||||0.01|TWO_SIDED|95.0|1.16|2.926|||Cox proportional hazards model||The model included treatment, Baseline ACT total score, center, type of Baseline controller, gender and age as covariates.|||2.926|1.160|0.010
82541447|NCT02459899|164782069|SUPERIORITY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.139||0.07|TWO_SIDED|95.0|-0.53|0.02||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||0.02|-0.53|0.07
82541448|NCT02459899|164782069|SUPERIORITY||Least squares mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.135|<|0.001|TWO_SIDED|95.0|-0.75|-0.22||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.22|-0.75|<0.001
82541449|NCT02459899|164782069|SUPERIORITY||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.136||0.006|TWO_SIDED|95.0|-0.65|-0.11||Threshold for significance \< 0.05|MMRM|||Analysis was performed using MMRM model with treatment, randomization strata of insulin delivery method (CSII, MDI), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.11|-0.65|0.006
82541450|NCT01215695|164782142|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82541451|NCT01215695|164782143|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82541452|NCT01215695|164782144|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82649607|NCT02868281|165014793|OTHER||Rate Ratio|1.09||||0.897|TWO_SIDED|95.0|0.32|3.73|||Generalised linear model||The model included treatment, Baseline ACT total score, type of Baseline controller, gender and age as covariates.|||3.73|0.32|0.897
82438916|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.139||||0.02|TWO_SIDED|95.0|-0.255|-0.022|||Mixed Models Analysis|||Treatment period average||-0.022|-0.255|0.020
82438917|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.23|||<|0.001|TWO_SIDED|95.0|-0.35|-0.11|||Mixed Models Analysis|||Treatment period average||-0.110|-0.350|<0.001
82438918|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.185||||0.001|TWO_SIDED|95.0|-0.298|-0.071|||Mixed Models Analysis|||Treatment period average||-0.071|-0.298|0.001
82438919|NCT03622112|164585804|SUPERIORITY||Mean Difference (Final Values)|-0.206|||<|0.001|TWO_SIDED|95.0|-0.321|-0.09|||Mixed Models Analysis|||Treatment period average||-0.090|-0.321|<0.001
82541453|NCT01215695|164782145|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82541454|NCT01215695|164782146|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82541455|NCT01378065|164782169|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82541456|NCT01378065|164782170|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82541457|NCT01378065|164782171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82541458|NCT01378065|164782172|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<.001
82541459|NCT01378065|164782173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||t-test, 2 sided|||||||0.202
82541460|NCT01378065|164782174|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82541461|NCT01378065|164782175|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||||||0.004
82578117|NCT01495598|164865741|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.06|||||||Wilcoxon signed rank test|||||||0.06
82578118|NCT01495598|164865741|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.007|||||||Wilcoxon signed rank test|||||||0.007
82438920|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|9.611||||0.026|TWO_SIDED|95.0|1.18|18.042|||Mixed Models Analysis|||Treatment period average||18.042|1.180|0.026
82438921|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|5.503||||0.2|TWO_SIDED|95.0|-2.927|13.933|||Mixed Models Analysis|||Treatment period average||13.933|-2.927|0.200
82438922|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|6.787||||0.11|TWO_SIDED|95.0|-1.546|15.119|||Mixed Models Analysis|||Treatment period average||15.119|-1.546|0.110
82438923|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|10.066||||0.022|TWO_SIDED|95.0|1.461|18.672|||Mixed Models Analysis|||Treatment period average||18.672|1.461|0.022
82456558|NCT04186871|164617342|SUPERIORITY|ODDS RATIO VS PLACEBO|Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.11|2.34||||||||2.34|0.11|
82541462|NCT01378065|164782176|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|TWO_SIDED||||||t-test, 2 sided|||||||0.034
82541463|NCT01378065|164782177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 6 weeks.||||0.001
82541464|NCT01378065|164782178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 3 months.||||0.004
82541465|NCT01378065|164782179|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 6 months.||||<.001
82541466|NCT01378065|164782180|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Analysis baseline to 12 months.||||<.001
82541467|NCT00361283|164782181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-111.0|STANDARD_ERROR_OF_MEAN|76.7||0.15|TWO_SIDED|95.0|-264.0|42.0||No confounders were controlled for as each person is his/her own control.|t-test, 2 sided|||The study in healthy volunteers was to compare levels at baseline to 16 weeks in ENA-78, a cytokine. The one sample t-test was used to obtain the result.||42|-264|0.15
82541468|NCT01063517|164782182|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|80.0|0.62|1.03|||||The numerator of the hazard ratio is hazards of progression in olaparib+paclitaxel group and denominator is hazards of progression in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group, ATM status and gastrectomy (full, partial, none).||1.03|0.62|
82541469|NCT01063517|164782183|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|80.0|0.51|1.08|||||The numerator of the hazard ratio is hazards of progression in olaparib+paclitaxel group and denominator is hazards of progression in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group and gastrectomy (full, partial, none).||1.08|0.51|
82578119|NCT01495598|164865742|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
82649608|NCT01504867|165014815|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wald|This was a large sample (Wald) test estimated using a conditional logistic regression model with site as a stratification variable.||The primary outcome significance level was adjusted for multiple testing associated with the interim analysis. Its significance level is 92.6%||||0.53
82456559|NCT02796677|164617426|SUPERIORITY||LS mean difference|0.084|||<|0.0001|TWO_SIDED|95.0|0.051|0.117|||Mixed model for repeated measures|||||0.117|0.051|<0.0001
82456560|NCT02796677|164617427|SUPERIORITY||LS mean difference|0.055||||0.0009|TWO_SIDED|95.0|0.023|0.088|||Mixed model for repeated measures|||||0.088|0.023|0.0009
82456561|NCT02796677|164617428|NON_INFERIORITY|Non-inferiority was established by showing that the lower bound of the two-sided 95% confidence interval for change from baseline in morning pre-dose (trough) FEV1 at week 24 when compared AB 400 μg versus TIO 18 μg was higher than -50 mL (non-inferiority limit).|LS mean difference|0.007||||0.6377|TWO_SIDED|95.0|-0.021|0.035|||Mixed model for repeated measures|||||0.035|-0.021|0.6377
82456562|NCT02796677|164617429|SUPERIORITY||LS mean difference|0.075|||<|0.0001|TWO_SIDED|95.0|0.043|0.107|||Mixed model for repeated measures|||||0.107|0.043|<0.0001
82456563|NCT02796677|164617429|SUPERIORITY||LS mean difference|0.087|||<|0.0001|TWO_SIDED|95.0|0.052|0.122|||Mixed model for repeated measures|||||0.122|0.052|<0.0001
82456564|NCT02796677|164617430|SUPERIORITY||Odds ratio|0.96||||0.8714|TWO_SIDED|95.0|0.61|1.51|||Logistic random-effect model|||||1.51|0.61|0.8714
82456565|NCT02796677|164617430|SUPERIORITY||Odds ratio|0.97||||0.8873|TWO_SIDED|95.0|0.59|1.58|||Logistic random-effect model|||||1.58|0.59|0.8873
82456566|NCT01790594|164617457|SUPERIORITY||Mean Difference (Final Values)|2.088||||0.75|TWO_SIDED|95.0|-11.067|15.242|||Mixed Models Analysis|||The p-value compares Investigational arm and control arm.||15.242|-11.067|0.750
82649609|NCT01504867|165014816|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>0.99
82456567|NCT00181363|164617522|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82456568|NCT00181363|164617523|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82649610|NCT01504867|165014817|SUPERIORITY_OR_OTHER|||||||0.36|||||||Chi-squared|||||||0.36
82456569|NCT00181363|164617524|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82456570|NCT00181363|164617525|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82456571|NCT00181363|164617526|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82456572|NCT00279916|164617633|SUPERIORITY|||||||0.18|||||||Chi-squared|||||||0.18
82456573|NCT00279916|164617634|SUPERIORITY|||||||0.24|||||||Chi-squared|||||||0.24
82456574|NCT00731679|164617650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.01
82541470|NCT01063517|164782184|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|80.0|0.41|0.75|||||The numerator of the hazard ratio is hazards of death in olaparib+paclitaxel group and denominator is hazards of death in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group, ATM status and gastrectomy (full, partial, none).||0.75|0.41|
82578120|NCT01495598|164865742|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.65|||||||Wilcoxon signed rank test|||||||0.65
82456575|NCT00731679|164617651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.005
82456576|NCT01598922|164617652|OTHER|Intent-to-treat (ITT) analyses following multiple imputation. Generalized Linear Models (GENLIN) predicting post-treatment HRSD scores in the imputed dataset. Covarying for pre-treatment HRSD scores, age and sex.|Odds Ratio (OR)|6.11|STANDARD_ERROR_OF_MEAN|1.68|<|0.0001|TWO_SIDED|95.0|2.814|9.403|||GENLIN|||||9.403|2.814|<0.0001
82456577|NCT01598922|164617653|OTHER||Cohen's d measure of effect size|-0.79||||0.024|TWO_SIDED|95.0|-1.25|-0.32||Hierarchical Linear Modeling (HLM) was applied to PHQ-9 data, adjusting for baseline PHQ-9 score. Group x Time interactions tested for between-group differences in slope of improvement of PHQ-9 scores.|hierarchical linear modeling|Age and sex were covariates. Cohen's d effect sizes are reported.||||-0.32|-1.25|.024
82456578|NCT01598922|164617654|OTHER|Hierarchical Linear Modeling (HLM) was applied to K-10 data, adjusting for baseline K-10 score. Group x Time interactions tested for between-group differences in slope of improvement of K-10 scores.|Cohen's d measure of effect size|-0.95||||0.003|TWO_SIDED|95.0|-1.42|-0.48|||HLM|||The Kessler Psychological Distress Scale (K-10) is a 10-item scale with total scores that can range from 0 to 50. Higher scores represent worse (more severe) psychological distress.||-0.48|-1.42|.003
82456579|NCT04184297|164617683|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.76|0.96|||Regression, Cox|The method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of first COPD exacerbation for overall population.||0.96|0.76|
82456580|NCT04184297|164617684|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.64|1.07|||Regression, Cox|This method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of a hospitalization for community-acquired pneumonia for overall population.||1.07|0.64|
82456581|NCT04184297|164617685|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19|||Regression, Cox|The method was used to calculate hazard ratios with 95% confidence intervals.|Hazard ratio of Tiotropium+Olodaterol versus LABA/LAMA/ICS.|Cox proportional hazard regression models were used to assess the effect of Tiotropium + Olodaterol combination versus the Long-acting beta agonist / inhaled corticosteroid (LABA/LAMA/ICS) therapy combination on the risk of first COPD exacerbation for overall population.||1.19|0.91|
82649611|NCT01504867|165014818|SUPERIORITY_OR_OTHER|||||||0.23|||||||Chi-squared|||||||0.23
82649612|NCT01504867|165014819|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82649613|NCT01504867|165014820|SUPERIORITY_OR_OTHER|||||||0.08|||||||Chi-squared|||||||0.08
82649614|NCT01504867|165014821|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82456582|NCT02412098|164617686|OTHER||Geometric Least Square Mean (GLSM) Ratio|73.54|||||TWO_SIDED|90.0|41.92|129.01|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|An analysis of variance (ANOVA) appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine AUCinf.||129.01|41.92|
82456583|NCT02412098|164617686|OTHER||GLSM Ratio (%)|127.8|||||TWO_SIDED|90.0|73.57|222.01|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|An analysis of variance (ANOVA) appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine AUCinf.||222.01|73.57|
82456584|NCT02412098|164617687|OTHER||GLSM Ratio (%)|80.82|||||TWO_SIDED|90.0|45.11|144.79|||||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 AUCinf.||144.79|45.11|
82456585|NCT02412098|164617687|OTHER||GLSM Ratio (%)|73.52|||||TWO_SIDED|90.0|47.83|113.02||ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 AUCinf.|||A 90% CI was constructed for the GLSM ratio of AUCinf in the hepatic impairment group versus matched control.|||113.02|47.83|
82456586|NCT02412098|164617688|OTHER||GLSM Ratio (%)|66.55|||||TWO_SIDED|90.0|53.33|83.04|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine Cmax.||83.04|53.33|
82456587|NCT02412098|164617688|OTHER||GLSM Ratio (%)|102.06|||||TWO_SIDED|90.0|83.03|125.45|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of eleclazine Cmax.||125.45|83.03|
82649615|NCT00362401|165014827|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The comparison of the three valve groups with respect to the objective sound measures was made by the one-way ANOVA method. The null hypothesis is that there is no difference on intensity of heart valve sounds among the three groups.||||<0.05
82456588|NCT02412098|164617689|OTHER||GLSM Ratio (%)|76.24|||||TWO_SIDED|90.0|50.65|114.77|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 Cmax.||114.77|50.65|
82456589|NCT02412098|164617689|OTHER||GLSM Ratio (%)|71.06|||||TWO_SIDED|90.0|44.59|113.25|||||A 90% CI was constructed for the GLSM ratio of Cmax in the hepatic impairment group versus matched control.|ANOVA appropriate for a parallel design was fit to the natural logarithmic transformation of GS-623134 Cmax.||113.25|44.59|
82456590|NCT03089580|164617692|SUPERIORITY|Paired, Student's t-test was used to contrast the outcome variable of TBUT in the treated eye versus the sham eye from visit 1 to visit 5. The null hypothesis to be tested is one of no change from pre- to post treatment, with a Type I error probability of 0.05 for the primary outcome assessment. The pattern of change over the 4 treatment visits in these continuous variables will be assessed using mixed, linear regression. SAS version 9.4 statistical software (SAS Institute, Cary, NC) was used.||||||0.3|||||||paired t test|||The primary study outcome of pre to post change in TBUT within the treated eye and also the untreated, control eye dictated the use of a paired statistical approach to sample size estimation. Clinically relevant pre to post TBUT increase of 3 seconds with a standard deviation of 4.5 seconds was used. Type I and II error estimates used were standard for a non-pivotal study, 0.05 \& 0.20. The estimated the sample size needed detect this difference in TBUT is 27 subjects.||||0.3
82456591|NCT03089580|164617693|SUPERIORITY|The p-value results from a test of the hypothesis that the change in OSDI from visit 1 does not differ from zero. Change distributions that met normal distribution test criteria (Shapiro-Wilk p-value \>0.05) were tested with the paired Student's t-test; non-normal change distributions (at visits 2 \& 4) were tested with the non-parametric Wilcoxon signed rank test.||||||0.2026|||||||paired t test|||||||0.2026
82456592|NCT03087513|164617694|SUPERIORITY||||||<|0.01||||||In all cases of motor evoked potential changes, a P-value of 0.05 was considered significant.|Mixed Models Analysis|As the amplitude values were non-normally distributed, the Mann-Whitney U test was performed to compare the two groups.||In total, 40 patients were randomised for the study. Data from 2 patients were excluded as the crossover arm could not be completed due to intraoperative MEP change (n=1) and the equipment malfunction (n=1). The data distributions were tested for normality with the Kolmogorov-Smirnov test.||||<0.01
82490318|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.53|0.89||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.89|0.53|
82490319|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|1.05|1.67||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.67|1.05|
82490320|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.6|||||TWO_SIDED|95.0|0.53|0.76||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||0.76|0.53|
82490321|NCT00761631|164673508|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.91|1.28||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC Group 4 - 13vPnC Group 3).||1.28|0.91|
82490322|NCT00502944|164673513|SUPERIORITY_OR_OTHER||Rate Difference (%)|30.0|||<|0.001|TWO_SIDED|95.0|27.0|32.0|||Chi-squared|||HIV test completed among patients randomized||32|27|<0.001
82490323|NCT00502944|164673514|SUPERIORITY_OR_OTHER||Rate Difference (%)|44.0|||<|0.001|TWO_SIDED|95.0|42.0|47.0|||Chi-squared|||HIV test offered||47|42|<0.001
82490324|NCT00502944|164673515|SUPERIORITY_OR_OTHER||Rate Difference (%)|-4.0||||0.02|TWO_SIDED|95.0|-8.0|-1.0|||Chi-squared|||HIV test accepted among patients offered||-1|-8|0.02
82490325|NCT00310401|164673517|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Paired T Test|||Paired T Test was used to compare the change in PaO2/FiO2 ratio from enrollment to procurement between albuterol and saline treated donors||||0.98
82456593|NCT01059318|164617814|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|76.0|||||TWO_SIDED|95.0|-45.0|196.0|||Bayesian analysis|A Bayesian posterior distribution of the treatment effect at 26 weeks was evaluated using a non-informative prior.|MILES study and current study had different study designs, so change from baseline to 26 weeks in MILES study was estimated from the publicly reported rate of change per month in order to provide a meaningful comparison based on Bayesian analysis.|"Proof of Concept was proposed as follows:~* 90% level of proof that difference in FVC change from baseline everolimus vs. Historical Placebo Control arm from MILES study \> 0 mL~* 50% level of proof that difference in FVC change from baseline everolimus vs. Historical Placebo Control arm from MILES study \>= 100 mL~Historical data from 43 patients treated with placebo from the MILES study were down weighted to an effective sample size of 18 for comparison."||196|-45|
82456594|NCT01059318|164617815|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|186.0|||||TWO_SIDED|95.0|93.0|279.0|||Bayesian analysis|A Bayesian posterior distribution of the treatment effect at 26 weeks was evaluated using a non-informative prior.|MILES study and current study had different study designs, so change from baseline to 26 weeks in MILES study was estimated from the publicly reported rate of change per month in order to provide a meaningful comparison based on Bayesian analysis.|"Proof of Concept was proposed as follows:~* 90% level of proof that difference in FEV1 change from baseline everolimus vs. Historical Placebo Control arm from MILES study \> 0 mL~* 50% level of proof that difference in FEV1 change from baseline everolimus vs. Historical Placebo Control arm from MILES study \>= 100 mL~Historical data from 43 patients treated with placebo from the MILES study were down weighted to an effective sample size of 18 for comparison."||279|93|
82456595|NCT02781610|164617829|NON_INFERIORITY|The non-inferiority margin is -3.5%.|Mean Difference (Final Values)|-0.7||||0.0164|TWO_SIDED|95.0|-3.3|2.0|||ANOVA|Adjusted for four dichotomous randomization strata.||The ERR non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population for 93% power assuming 2-sided alpha=0.05 with 155 PP participants per arm. Difference between ERR treatment duration arms is ERR-10 - ERR-14.||2.0|-3.3|0.0164
82649616|NCT01154153|165014851|SUPERIORITY_OR_OTHER||Treatment Ratio of Geometric mean|0.966|||||TWO_SIDED|95.0|0.892|1.045|||ANCOVA||The treatment ratio was calculated as an exponential of the mean difference between treatments in log scale.|Missing cortisol values were imputed with multiple imputation. AUC(0-24 hr) was calculated for each imputation and analyzed with log-transformation using an ANCOVA model and analyzed with treatment, sex, and age group as fixed effects, and log-transformed baseline value as a covariate. The mean difference in log scale between treatments and its standard error were calculated by Least Squares mean. Results from multiply imputed data were combined using SAS procedure MIANALYZE.||1.045|0.892|
82456596|NCT02781610|164617830|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.568|TWO_SIDED|95.0|-1.3|1.1|||ANOVA|Adjusted for four dichotomous randomization strata.||The NERR superiority test was a priori designed to be conducted on the Intent-to-Treat (ITT) population for 91% power to detect a 2.5% difference, assuming 2-sided alpha=0.05 with 285 ITT participants per arm. Difference between NERR treatment duration arms is NERR-21 - NERR-14.||1.1|-1.3|0.568
82541471|NCT01063517|164782185|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||||TWO_SIDED|80.0|0.22|0.56|||||The numerator of the hazard ratio is hazards of death in olaparib+paclitaxel group and denominator is hazards of death in placebo+paclitaxel group. Confidence intervals are calculated using the profile-likelihood method.|The analysis was performed using a Cox proportional hazards model with factors for treatment group and gastrectomy (full, partial, none).||0.56|0.22|
82649617|NCT01154153|165014852|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.24||0.0007|TWO_SIDED|95.0|-1.34|-0.37|||ANCOVA|For ANCOVA, treatment arm, randomization strata were fixed effects and baseline value was a covariate.||||-0.37|-1.34|0.0007
82649618|NCT01154153|165014853|SUPERIORITY_OR_OTHER|||||||0.1332||95.0||||Based on the ordinal evaluation score and adjusted for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.1332
82649619|NCT01154153|165014854|SUPERIORITY_OR_OTHER|||||||0.3314||95.0||||Based on the ordinal evaluation score and adjusted for the randomization strata.|Cochran-Mantel-Haenszel|||||||0.3314
82649620|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.503||95.0|||||Repeated Measures|||||||0.503
82649621|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.447||95.0|||||Repeated Measures|||||||0.447
82649622|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.084||95.0|||||Repeated Measures|||||||0.084
82649623|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.964||95.0|||||Repeated Measures|||||||0.964
82456597|NCT02781610|164617831|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.546|TWO_SIDED|95.0|-2.4|4.6|||t-test, 2 sided|||Difference between ERR treatment duration arms is ERR-10 - ERR-14.||4.6|-2.4|0.546
82456598|NCT02781610|164617832|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.14|TWO_SIDED|95.0|-3.7|0.5|||t-test, 2 sided|||Difference between NERR treatment duration arms is NERR-21 - NERR-14.||0.5|-3.7|0.140
82456599|NCT02781610|164617833|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.563|TWO_SIDED|95.0|-0.42|0.77|||t-test, 2 sided|||Difference between ERR treatment duration arms is ERR-10 - ERR-14.||0.77|-0.42|0.563
82649624|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.451||95.0|||||Repeated Measures|||||||0.451
82649625|NCT00408876|165014865|SUPERIORITY_OR_OTHER|||||||0.333||95.0|||||Repeated Measures|||||||0.333
82649626|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.318||95.0|-0.62|0.2|||t-test, 2 sided|||||0.20|-0.62|0.318
82541472|NCT05328297|164782199|SUPERIORITY||Least Square Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|1.96|=|0.438|TWO_SIDED|80.0|-2.84|2.23|||Mixed Model for Repeated Measures (MMRM)|||||2.23|-2.84|=0.438
82649627|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.005||95.0|-0.83|-0.15|||t-test, 2 sided|||||-0.15|-0.83|0.005
82649628|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.124||95.0|-0.61|0.07|||t-test, 2 sided|||||0.07|-0.61|0.124
82649629|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.183||95.0|-0.7|0.13|||t-test, 2 sided|||||0.13|-0.70|0.183
82649630|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.778||95.0|-0.48|0.36|||t-test, 2 sided|||||0.36|-0.48|0.778
82649631|NCT00408876|165014866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.21||95.0|-0.13|0.57|||t-test, 2 sided|||||0.57|-0.13|0.210
82649632|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.161||95.0|-2.32|0.39|||t-test, 2 sided|||||0.39|-2.32|0.161
82649633|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.41||||0.019||95.0|-2.59|-0.24|||t-test, 2 sided|||||-0.24|-2.59|0.019
82456600|NCT02781610|164617834|SUPERIORITY|Difference between NERR treatment duration arms is NERR-21 - NERR-14.|Mean Difference (Final Values)|0.29||||0.083|TWO_SIDED|95.0|-0.04|0.61|||t-test, 2 sided|||||0.61|-0.04|0.083
82456601|NCT02719171|164617865|OTHER||Mean Difference (Final Values)|24.0||||0.007|TWO_SIDED|90.0|9.3|38.7|||Cochran-Mantel-Haenszel|||The 90% confidence interval (CI) for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior tumor necrosis factor inhibitor (TNFi) use and concurrent methotrexate use.||38.7|9.3|0.007
82456602|NCT02719171|164617866|OTHER||Mean Difference (Final Values)|12.0||||0.074|TWO_SIDED|90.0|1.0|23.0|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||23.0|1.0|0.074
82456603|NCT02719171|164617866|OTHER||Mean Difference (Final Values)|19.0||||0.007|TWO_SIDED|90.0|7.4|30.6|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||30.6|7.4|0.007
82456604|NCT02719171|164617867|OTHER||Mean Difference (Final Values)|10.3||||0.006|TWO_SIDED|90.0|4.1|16.4|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||16.4|4.1|0.006
82456605|NCT02719171|164617867|OTHER||Mean Difference (Final Values)|15.7|||<|0.001|TWO_SIDED|90.0|8.5|22.9|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||22.9|8.5|<0.001
82456606|NCT02719171|164617868|OTHER||Mean Difference (Final Values)|-0.8||||0.69|TWO_SIDED|90.0|-4.0|2.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||2.5|-4.0|0.690
82456607|NCT02719171|164617868|OTHER||Mean Difference (Final Values)|-2.1||||0.26|TWO_SIDED|90.0|-5.3|1.0|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.0|-5.3|0.260
82541473|NCT04541303|164782232|SUPERIORITY|||||||0.028|||||||None specified|||||||.028
82541474|NCT05219253|164782242|SUPERIORITY|The superiority was to be concluded if the lower limit (LL) of the 95% confidence interval (CI) of the adjusted GMC ratio between the HZ/su Group and Placebo Group for anti-gE antibody concentrations was equal to or above (\>=) 3.|GMC Ratio|19.8|||||TWO_SIDED|95.0|14.09|27.82|||ANOVA|||To demonstrate the immunogenicity of HZ/su vaccine compared to Placebo, in terms of anti-gE GMCs, at 1 month post-Dose 2 of study intervention administration (Month 3).||27.82|14.09|
82456608|NCT02719171|164617869|OTHER||Mean Difference (Final Values)|-0.3||||0.791|TWO_SIDED|90.0|-2.1|1.5|||Cochran-Mantel-Haenszel|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.5|-2.1|0.791
82456609|NCT02719171|164617869|OTHER||Mean Difference (Final Values)|-1.1||||0.32|TWO_SIDED|90.0|-2.8|0.7|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.7|-2.8|0.320
82456610|NCT02719171|164617870|OTHER||mixed model repeated measures model|-0.082||||0.341|TWO_SIDED|90.0|-0.225|0.06|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.060|-0.225|0.341
82456611|NCT02719171|164617870|OTHER||Mean Difference (Final Values)|-0.114||||0.181|TWO_SIDED|90.0|-0.254|0.027|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.027|-0.254|0.181
82456612|NCT02719171|164617871|OTHER||Mean Difference (Final Values)|1.7||||0.174|TWO_SIDED|90.0|-0.36|3.77|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.77|-0.36|0.174
82456613|NCT02719171|164617871|OTHER||Mean Difference (Final Values)|1.35||||0.284|TWO_SIDED|90.0|-0.73|3.44|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.44|-0.73|0.284
82456614|NCT02719171|164617872|OTHER||Mean Difference (Final Values)|0.59||||0.718|TWO_SIDED|90.0|-2.12|3.3|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||3.30|-2.12|0.718
82456615|NCT02719171|164617872|OTHER||Mean Difference (Final Values)|2.06||||0.204|TWO_SIDED|90.0|-0.61|4.74|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||4.74|-0.61|0.204
82541475|NCT03086369|164782254|SUPERIORITY||Hazard Ratio (HR)|1.054||||0.7902|TWO_SIDED|95.0|0.728|1.527|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|||1.527|0.728|0.7902
82456616|NCT02719171|164617873|OTHER||Mean Difference (Final Values)|1.2||||0.243|TWO_SIDED|90.0|-0.5|2.8|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||2.8|-0.5|0.243
82456617|NCT02719171|164617873|OTHER||Mean Difference (Final Values)|0.1||||0.906|TWO_SIDED|90.0|-1.0|1.1|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.1|-1.0|0.906
82456618|NCT02719171|164617874|OTHER||Mean Difference (Final Values)|-0.7||||0.325|TWO_SIDED|90.0|-1.8|0.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.5|-1.8|0.325
82456619|NCT02719171|164617874|OTHER||Mean Difference (Final Values)|-0.9||||0.16|TWO_SIDED|90.0|-2.1|0.2|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.2|-2.1|0.160
82456620|NCT02719171|164617875|OTHER||Mean Difference (Final Values)|-1.2||||0.453|TWO_SIDED|90.0|-4.0|1.5|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||1.5|-4.0|0.453
82456621|NCT02719171|164617875|OTHER||Mean Difference (Final Values)|-2.8||||0.111|TWO_SIDED|90.0|-5.7|0.1|||mixed model repeated measures model|||The 2-sided p-value is calculated using a mixed model repeated measures model with categorical fixed effects of treatment, stratification factors, week, and treatment-by-week interaction and the continuous fixed baseline measurement, with subject as a random effect.||0.1|-5.7|0.111
82456622|NCT02719171|164617876|OTHER||Mean Difference (Final Values)|53.5|||<|0.001|TWO_SIDED|90.0|35.9|71.1|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||71.1|35.9|<0.001
82456623|NCT02719171|164617876|OTHER||Mean Difference (Final Values)|48.8|||<|0.001|TWO_SIDED|90.0|33.1|64.5|||Cochran-Mantel-Haenszel|||The 90% CI for the difference in response rates between the groups and the 2-sided p-value are calculated using the Cochran Mantel-Haenszel method, stratified by prior TNFi use and concurrent methotrexate use.||64.5|33.1|<0.001
82541476|NCT03086369|164782258|SUPERIORITY||Hazard Ratio (HR)|1.192||||0.3771|TWO_SIDED|95.0|0.806|1.764|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|||1.764|0.806|0.3771
82649634|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56||||0.01||95.0|-2.74|-0.38|||t-test, 2 sided|||||-0.38|-2.74|0.010
82649635|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.526||95.0|-1.83|0.94|||t-test, 2 sided|||||0.94|-1.83|0.526
82456624|NCT05298202|164617900|SUPERIORITY|time x treatment ANOVA||||||0.284||||||difference between treatment and control|ANOVA|||||||0.284
82456625|NCT05298202|164617901|SUPERIORITY|||||||0.177|||||||t-test, 2 sided|||||||.177
82456626|NCT05298202|164617902|SUPERIORITY|||||||0.122|||||||t-test, 2 sided|||||||.122
82456627|NCT05298202|164617903|SUPERIORITY|||||||0.038|||||||ANOVA|time x treatment anova||||||.038
82456628|NCT05298202|164617904|SUPERIORITY|||||||0.976|||||||ANOVA|||||||.976
82456629|NCT05298202|164617905|SUPERIORITY|||||||0.747|||||||ANOVA|||||||.747
82456630|NCT01875159|164617906|SUPERIORITY_OR_OTHER||||||<|0.05|||||||GEE gamma regression models|||\>80% probability of detecting at least a 36% reduction in intermittent hypoxia events/hour of recording and in sec/hour \<90% oxygen saturation/hour of recording||||<0.05
82456631|NCT05736874|164617989|SUPERIORITY|Decision rule based on Bayesian posterior probability of efficacy. The decision threshold was a posterior probability of 0.95. A prespecified skeptical prior for the treatment effect was used to preserve type I error below 0.05.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.91|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.91|
82456632|NCT05736874|164617990|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.19|4.68|||||Descriptive analysis is a maximum partial likelihood proportional hazards regression model. Low event rate precluded covariate adjustment.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||4.68|0.19|
82456633|NCT05736874|164617993|SUPERIORITY|Statistical analysis was a Bayesian proportional hazards regression model with covariate adjustment and weakly informative priors.|Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|0.8|3.5|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||3.5|0.8|
82456634|NCT05736874|164617994|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.62|1.63|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||1.63|0.62|
82541477|NCT03086369|164782261|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.017|TWO_SIDED|95.0|0.175|0.872|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).||||0.872|0.175|0.017
82649636|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.397||95.0|-1.96|0.78|||t-test, 2 sided|||||0.78|-1.96|0.397
82490326|NCT00319501|164673528|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.012|TWO_SIDED|95.0|0.34|0.88||p-value is adjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Cox Proportional Hazard||Age adjusted|Null hypothesis||0.88|0.34|0.012
82438924|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|8.62||||0.038|TWO_SIDED|95.0|0.489|16.75|||Mixed Models Analysis|||Treatment period average||16.750|0.489|0.038
82578121|NCT01495598|164865742|OTHER|P\<0.005 was considered statistically significant while 0.005 \<P\<0.05 was considered evidence of a strong trend.||||||0.56|||||||Wilcoxon signed rank test|||||||0.56
82438925|NCT03622112|164585805|SUPERIORITY||Mean Difference (Final Values)|7.178||||0.09|TWO_SIDED|95.0|-1.112|15.467|||Mixed Models Analysis|||Treatment period average||15.467|-1.112|0.090
82438926|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|7.936||||0.123|TWO_SIDED|95.0|-2.16|18.031|||Mixed Models Analysis|||Treatment period average||18.031|-2.160|0.123
82438927|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|0.977||||0.849|TWO_SIDED|95.0|-9.112|11.065|||Mixed Models Analysis|||Treatment period average||11.065|-9.112|0.849
82438928|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|-1.242||||0.807|TWO_SIDED|95.0|-11.233|8.748|||Mixed Models Analysis|||Treatment period average||8.748|-11.233|0.807
82438929|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|11.789||||0.025|TWO_SIDED|95.0|1.488|22.09|||Mixed Models Analysis|||Treatment period average||22.090|1.488|0.025
82438930|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|7.574||||0.127|TWO_SIDED|95.0|-2.16|17.307|||Mixed Models Analysis|||Treatment period average||17.307|-2.160|0.127
82438931|NCT03622112|164585806|SUPERIORITY||Mean Difference (Final Values)|5.058||||0.318|TWO_SIDED|95.0|-4.874|14.99|||Mixed Models Analysis|||Treatment period average||14.990|-4.874|0.318
82438932|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|10.45||||0.015|TWO_SIDED|95.0|2.046|18.855|||Mixed Models Analysis|||Treatment period average||18.855|2.046|0.015
82438933|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|7.192||||0.093|TWO_SIDED|95.0|-1.208|15.592|||Mixed Models Analysis|||Treatment period average||15.592|-1.208|0.093
82438934|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|8.606||||0.042|TWO_SIDED|95.0|0.298|16.913|||Mixed Models Analysis|||Treatment period average||16.913|0.298|0.042
82438935|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|11.344||||0.01|TWO_SIDED|95.0|2.773|19.914|||Mixed Models Analysis|||Treatment period average||19.914|2.773|0.010
82438936|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|10.122||||0.014|TWO_SIDED|95.0|2.021|18.222|||Mixed Models Analysis|||Treatment period average||18.222|2.021|0.014
82438937|NCT03622112|164585807|SUPERIORITY||Mean Difference (Final Values)|10.689||||0.011|TWO_SIDED|95.0|2.424|18.953|||Mixed Models Analysis|||Treatment period average||18.953|2.424|0.011
82490327|NCT00319501|164673530|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED|||||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Fisher Exact|||||||0.066
82578122|NCT03852719|164865746|OTHER||Difference in percentages|46.0|||<|0.0001|TWO_SIDED|96.0|30.5|61.4||Fisher's exact test was used for comparison of bulevirtide 10 mg versus Delayed Treatment using a significance level of 0.04 at Week 48.|Fisher Exact|||||61.4|30.5|<0.0001
82438938|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|1.01||||0.909|TWO_SIDED|95.0|0.851|1.199|||Mixed Models Analysis|||||1.199|0.851|0.909
82438939|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|1.118||||0.218|TWO_SIDED|95.0|0.935|1.336|||Mixed Models Analysis|||||1.336|0.935|0.218
82438940|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|1.129||||0.181|TWO_SIDED|95.0|0.944|1.349|||Mixed Models Analysis|||||1.349|0.944|0.181
82438941|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|0.984||||0.859|TWO_SIDED|95.0|0.825|1.174|||Mixed Models Analysis|||||1.174|0.825|0.859
82438942|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|0.916||||0.285|TWO_SIDED|95.0|0.78|1.077|||Mixed Models Analysis|||||1.077|0.780|0.285
82438943|NCT03622112|164585818|SUPERIORITY||geometric LSMean ratio|0.991||||0.923|TWO_SIDED|95.0|0.831|1.182|||Mixed Models Analysis|||||1.182|0.831|0.923
82438944|NCT00385944|164585822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.91|||<|0.001|TWO_SIDED|95.0|-17.02|-8.81|||Mixed Models Analysis|||||-8.81|-17.02|<0.001
82438945|NCT00385944|164585823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.81|||<|0.001|TWO_SIDED|95.0|-10.96|-4.65|||Mixed Models Analysis|||||-4.65|-10.96|<0.001
82438946|NCT00385944|164585824|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.98|||<|0.001|TWO_SIDED|95.0|-17.06|-6.9|||Mixed Models Analysis|||||-6.90|-17.06|<0.001
82438947|NCT00385944|164585825|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.3||||0.001|TWO_SIDED|95.0|-6.84|-1.76|||Mixed Models Analysis|||||-1.76|-6.84|0.001
82438948|NCT00385944|164585826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.16|||<|0.001|TWO_SIDED|95.0|7.05|23.26|||Mixed Models Analysis|||||23.26|7.05|<0.001
82438949|NCT00385944|164585827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.69||||0.001|TWO_SIDED|95.0|5.56|19.81|||Mixed Models Analysis|||||19.81|5.56|0.001
82438950|NCT00385944|164585828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.26||||0.015|TWO_SIDED|95.0|2.17|18.34|||Mixed Models Analysis|||||18.34|2.17|0.015
82438951|NCT00385944|164585829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.85||||0.123|TWO_SIDED|95.0|-1.13|8.84|||Mixed Models Analysis|||||8.84|-1.13|0.123
82438952|NCT00385944|164585830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.83|||<|0.001|TWO_SIDED|95.0|-23.05|-10.62|||Mixed Models Analysis|||||-10.62|-23.05|<0.001
82438953|NCT00385944|164585831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.44|||<|0.001|TWO_SIDED|95.0|-70.87|-38.01|||Mixed Models Analysis|||||-38.01|-70.87|<0.001
82438954|NCT00385944|164585833|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.5|||<|0.001||95.0|||||two-sided paired t-test|||||||<.001
82438955|NCT00385944|164585834|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.011||95.0|||||two-sided paired t-test|||Paired t-test for each arm separately||||0.011
82438956|NCT00385944|164585834|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.847||95.0|||||two-sided paired t-test|||Paired t-test for each arm separately||||0.847
82438957|NCT00385944|164585835|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.24||||0.008|TWO_SIDED|95.0|-15.99|-2.49|||t-test, 2 sided|||||-2.49|-15.99|0.008
82490328|NCT00319501|164673531|SUPERIORITY_OR_OTHER|||||||0.443|||||||Fisher Exact|||||||0.443
82490329|NCT00319501|164673532|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|Fisher Exact|||||||0.245
82456635|NCT05736874|164617995|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.42|1.5|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||1.50|0.42|
82456636|NCT05736874|164617996|SUPERIORITY|Statistical analysis was a Bayesian cumulative probability ordinal regression model with covariate adjustment and weakly informative priors|Odds Ratio (OR)|2.74|||||TWO_SIDED|95.0|0.5|5.94|||||The interval is a highest-density credible interval on the log relative odds scale. Odds ratio estimate from a Bayesian cumulative probability ordinal regression model with weakly informative priors.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||5.94|0.50|
82456637|NCT05736874|164617997|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.69|1.11|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.11|0.69|
82456638|NCT05736874|164617997|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.78|1.34|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.34|0.78|
82456639|NCT05736874|164617997|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.78|1.45|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.45|0.78|
82456640|NCT05736874|164617997|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.79|1.53|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.53|0.79|
82456641|NCT05736874|164617998|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.72|1.09|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.09|0.72|
82456642|NCT05736874|164617998|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.84|1.27|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.27|0.84|
82649637|NCT00408876|165014867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.813||95.0|-1.35|1.06|||t-test, 2 sided|||||1.06|-1.35|0.813
82649638|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.657||95.0|-0.5|0.79|||t-test, 2 sided|||||0.79|-0.50|0.657
82649639|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.384||95.0|-0.76|0.29|||t-test, 2 sided|||||0.29|-0.76|0.384
82649640|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.04||95.0|-1.1|-0.03|||t-test, 2 sided|||||-0.03|-1.10|0.040
82456643|NCT05736874|164617998|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.76|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.20|0.76|
82456644|NCT05736874|164617998|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.84|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.32|0.84|
82456645|NCT05736874|164617999|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.58|0.93|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||0.93|0.58|
82456646|NCT05736874|164617999|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.76|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.32|0.76|
82490330|NCT00319501|164673533|SUPERIORITY_OR_OTHER||Difference in least square means|0.75||||0.086|TWO_SIDED|95.0|-0.11|1.61||p-Value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha = 0.05.|ANOVA|ANOVA=analysis of variance.|Model included treatment and age category.|||1.61|-0.11|0.086
82490331|NCT00319501|164673534|SUPERIORITY_OR_OTHER||Difference in least square means|0.79||||0.045|TWO_SIDED|95.0|0.02|1.56||p-value is unadjusted. All statistical tests were 2-sided and employed a level of significance of alpha=0.05.|ANOVA||Model included treatment and age category.|||1.56|0.02|0.045
82649641|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.253||95.0|-1.03|0.27|||t-test, 2 sided|||||0.27|-1.03|0.253
82456647|NCT05736874|164617999|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.71|1.25|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.25|0.71|
82456648|NCT05736874|164617999|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.64|0.89|
82456649|NCT05736874|164618000|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.15|0.70|
82456650|NCT05736874|164618000|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.29|0.75|
82456651|NCT05736874|164618000|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.72|1.26|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.26|0.72|
82456652|NCT05736874|164618000|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.92|1.61|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.61|0.92|
82456653|NCT05736874|164618001|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.81|1.28|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.28|0.81|
82456654|NCT05736874|164618001|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.6|0.99|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||0.99|0.60|
82541478|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.718||||0.288|TWO_SIDED|95.0|0.392|1.317|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Appetite loss||1.317|0.392|0.288
82541479|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.788||||0.442|TWO_SIDED|95.0|0.423|1.468|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Constipation||1.468|0.423|0.442
82649642|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.034||95.0|-1.36|-0.05|||t-test, 2 sided|||||-0.05|-1.36|0.034
82456655|NCT05736874|164618001|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.74|1.23|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.23|0.74|
82456656|NCT05736874|164618001|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.89|1.5|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.50|0.89|
82456657|NCT05736874|164618002|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.69|1.06|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||1.06|0.69|
82456658|NCT05736874|164618002|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.82|1.3|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.30|0.82|
82456659|NCT05736874|164618002|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.8|1.32|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.32|0.80|
82649643|NCT00408876|165014868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33||||0.232||95.0|-0.86|0.21|||t-test, 2 sided|||||0.21|-0.86|0.232
82456660|NCT05736874|164618002|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.75|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.29|0.75|
82456661|NCT05736874|164618003|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.62|0.93|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 7||0.93|0.62|
82456662|NCT05736874|164618003|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.78|1.18|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 14||1.18|0.78|
82456663|NCT05736874|164618003|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.74|1.12|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 28||1.12|0.74|
82456664|NCT05736874|164618003|OTHER|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.|Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|1.02|1.56|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is symmetric density Bayesian credible interval.|Day 90||1.56|1.02|
82456665|NCT05736874|164618004|SUPERIORITY||Difference in model estimate time unwell|-0.1|||||TWO_SIDED|95.0|-0.45|0.26|||||The interval is a highest-density credible interval.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||0.26|-0.45|
82456666|NCT05736874|164618005|SUPERIORITY||Difference in model estimated means|0.13|||||TWO_SIDED|95.0|-0.28|0.58|||||The interval is a highest-density credible interval.|Secondary endpoints were not used for formal decision making; there was no decision threshold. No formal hypothesis test was performed.||0.58|-0.28|
82541480|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|1.037||||0.883|TWO_SIDED|95.0|0.612|1.755|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Diarrhoea||1.755|0.612|0.883
82541481|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.803|TWO_SIDED|95.0|0.532|1.636|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Dyspnoea||1.636|0.532|0.803
82649644|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.365||95.0|-0.39|1.05|||t-test, 2 sided|||||1.05|-0.39|0.365
82649645|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.232||95.0|-0.95|0.23|||t-test, 2 sided|||||0.23|-0.95|0.232
82456667|NCT02981368|164618036|SUPERIORITY|||||||0.1097|||||||Fisher Exact|||Tissue Site: Bone||||0.1097
82456668|NCT02981368|164618036|SUPERIORITY|||||||0.1087|||||||Fisher Exact|||Tissue Site: Bone||||0.1087
82456669|NCT02981368|164618036|SUPERIORITY|||||||0.1949|||||||Fisher Exact|||Tissue Site: Bone||||0.1949
82456670|NCT02981368|164618036|SUPERIORITY|||||||0.1315|||||||Fisher Exact|||Tissue Site: Bone||||0.1315
82456671|NCT02981368|164618036|SUPERIORITY|||||||0.1977|||||||Fisher Exact|||Tissue Site: Bone||||0.1977
82456672|NCT02981368|164618036|SUPERIORITY|||||||0.2149|||||||Fisher Exact|||Tissue Site: Bone||||0.2149
82456673|NCT02981368|164618036|SUPERIORITY|||||||0.2582|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.2582
82456674|NCT02981368|164618036|SUPERIORITY|||||||0.0009|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.0009
82456675|NCT02981368|164618036|SUPERIORITY|||||||0.3588|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.3588
82456676|NCT02981368|164618036|SUPERIORITY|||||||0.8791|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.8791
82456677|NCT02981368|164618036|SUPERIORITY|||||||0.9457|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.9457
82456678|NCT02981368|164618036|SUPERIORITY|||||||0.2705|||||||Fisher Exact|||Tissue Site: Visceral/Soft tissue||||0.2705
82456679|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
82456680|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
82456681|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Type: Lymph nodes||||<0.0001
82456682|NCT02981368|164618036|SUPERIORITY|||||||0.5933|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.5933
82456683|NCT02981368|164618036|SUPERIORITY|||||||0.7094|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.7094
82456684|NCT02981368|164618036|SUPERIORITY|||||||0.5424|||||||Chi-squared|||Tissue Type: Lymph nodes||||0.5424
82456685|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: Prostate Gland||||<0.0001
82456686|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Tissue Site: Prostate Gland||||<0.0001
82456687|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Tissue Site: Prostate Gland||||<0.0001
82456688|NCT02981368|164618036|SUPERIORITY|||||||0.0038|||||||Fisher Exact|||Tissue Site: Prostate Gland||||0.0038
82456689|NCT02981368|164618036|SUPERIORITY|||||||0.0647|||||||Fisher Exact|||Tissue Site: Prostate Gland||||0.0647
82456690|NCT02981368|164618036|SUPERIORITY|||||||0.0021|||||||Chi-squared|||Tissue Site: Prostate Gland||||0.0021
82456691|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
82649646|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.314||95.0|-0.9|0.29|||t-test, 2 sided|||||0.29|-0.90|0.314
82649647|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.69||||0.062||95.0|-1.41|0.03|||t-test, 2 sided|||||0.03|-1.41|0.062
82649648|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.083||95.0|-1.36|0.08|||t-test, 2 sided|||||0.08|-1.36|0.083
82456692|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
82456693|NCT02981368|164618036|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Tissue Site: All||||<0.0001
82456694|NCT02981368|164618036|SUPERIORITY|||||||0.0815|||||||Chi-squared|||Tissue Site: All||||0.0815
82456695|NCT02981368|164618036|SUPERIORITY|||||||0.7507|||||||Chi-squared|||Tissue Site: All||||0.7507
82456696|NCT02981368|164618036|SUPERIORITY|||||||0.562|||||||Chi-squared|||Tissue Site: All||||0.5620
82456697|NCT01307319|164618057|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.63|||<|0.001|TWO_SIDED|95.0|-1.0|-0.3||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.3|-1.0|<0.001
82456698|NCT01307319|164618057|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.73|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
82541482|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|1.053||||0.805|TWO_SIDED|95.0|0.675|1.645|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Fatigue||1.645|0.675|0.805
82649649|NCT00408876|165014869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.859||95.0|-0.54|0.65|||t-test, 2 sided|||||0.65|-0.54|0.859
82456699|NCT01307319|164618058|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.71|||<|0.001|TWO_SIDED|95.0|-1.1|-0.3||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||The power calculation assumed the standard deviation (SD) for the change from baseline over two weeks in the average of AM and PM reflective TNSS is assumed to be 2.0. Using this standard deviation, 235 subjects per arm provides 90% power to detect a difference of 0.60 in TNSS change from baseline between treatment groups with a two-sided alpha level of 0.05.||-0.3|-1.1|<0.001
82456700|NCT01307319|164618058|SUPERIORITY_OR_OTHER||LSM treatment difference from placebo|-0.76|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||a priori statistical significance is \<0.05.|mixed-model for repeated measures (MMRM)|The MMRM included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
82456701|NCT02152631|164618068|SUPERIORITY||Hazard Ratio (HR)|0.968||||0.771|TWO_SIDED|95.0|0.768|1.219|||Stratified Log-Rank||Hazard Ratio (HR) was estimated based on Stratified Cox proportional hazard model.|The stratification factors used in the analysis were: number of prior chemotherapy regimens (1 versus 2), Eastern Cooperative Oncology Group (ECOG) Performance Score (PS) (0 versus 1), gender (male versus female), and kirsten rat sarcoma (KRAS) mutation (GLY12CYS \[G12C\] vs. all others)||1.219|0.768|0.771
82456702|NCT02152631|164618069|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|||Stratified by number of prior chemotherapy regimens (1 versus 2), ECOG PS (0 versus 1), gender (male versus female), and KRAS mutation (GLY12CYS \[G12C\] vs. all others)||||0.010
82456703|NCT02152631|164618070|SUPERIORITY||Hazard Ratio (HR)|0.583|||<|1e-06|TWO_SIDED|95.0|0.47|0.723|||Stratified Log-Rank|||||0.723|0.470|<0.000001
82456704|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.19||0.698|TWO_SIDED|95.0|-0.44|0.29|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Headache||0.29|-0.44|0.698
82456705|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|0.59|STANDARD_ERROR_OF_MEAN|0.28||0.038|TWO_SIDED|95.0|0.03|1.15|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Diarrhea||1.15|0.03|0.038
82456706|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.94|-1.86|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Rash||-1.86|-2.94|<.001
82456707|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.16||0.142|TWO_SIDED|95.0|-0.56|0.08|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Core Symptom Severity||0.08|-0.56|0.142
82456708|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.23||0.514|TWO_SIDED|95.0|-0.59|0.3|||Mixed Models Analysis|Analyzed by Type 3 sums of square, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Interference||0.30|-0.59|0.514
82456709|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.646|TWO_SIDED|95.0|-0.37|0.23|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Lung Cancer||0.23|-0.37|0.646
82456710|NCT02152631|164618071|SUPERIORITY||LS Mean Change Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.188|TWO_SIDED|95.0|-0.51|0.1|||Mixed Models Analysis|Analyzed by Type 3 sums of squares, model covariates included Treatment + Visit + Treatment\*Visit + Baseline.||Mean Core Plus Lung Cancer||0.10|-0.51|0.188
82456711|NCT02152631|164618073|SUPERIORITY||LS Mean Change Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.951|TWO_SIDED|95.0|-0.05|0.05|||Mixed Models Analysis|Analyzed By Type 3 sums of squares, Change from Baseline = Treatment + Visit + Treatment\*Visit + Baseline.||||0.05|-0.05|0.951
82456712|NCT00527735|164618075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.806||||0.1302|TWO_SIDED|95.0|0.553|1.174|||1-sided log rank|||||1.174|0.553|0.1302
82456713|NCT00527735|164618075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.724||||0.0473|TWO_SIDED|95.0|0.495|1.059|||1-sided log rank|||||1.059|0.495|0.0473
82456714|NCT00527735|164618076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.2502|TWO_SIDED|95.0|0.612|1.271|||One-sided log rank|||||1.271|0.612|0.2502
82456715|NCT00527735|164618076|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||0.024|TWO_SIDED|95.0|0.478|0.999|||One-sided log rank|||||0.999|0.478|0.0240
82541483|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.465|TWO_SIDED|95.0|0.42|1.464|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Financial difficulties||1.464|0.420|0.465
82456716|NCT00527735|164618077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.4759|TWO_SIDED|95.0|0.669|1.46|||1-sided log rank|||||1.460|0.669|0.4759
82456717|NCT00527735|164618077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.866||||0.234|TWO_SIDED|95.0|0.587|1.278|||1-sided log rank|||||1.278|0.587|0.2340
82456718|NCT00527735|164618084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.1098|TWO_SIDED|95.0|0.475|1.188|||1-sided log rank|||||1.188|0.475|0.1098
82541484|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|1.457||||0.231|TWO_SIDED|95.0|0.787|2.698|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Insomnia||2.698|0.787|0.231
82649650|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.984||95.0|-0.34|0.34|||t-test, 2 sided|||||0.34|-0.34|0.984
82438958|NCT00385944|164585836|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.52|||<|0.001|TWO_SIDED|95.0|9.22|25.83|||t-test, 2 sided|||||25.83|9.22|<0.001
82438959|NCT01155466|164585840|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.87|TWO_SIDED|95.0|-0.62|0.53|||Mixed Models Analysis||"The estimated parameter is the difference in the estimated mean change from baseline in mean off time for preladenant 10 mg - placebo."|||0.53|-0.62|0.8700
82438960|NCT01155466|164585842|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.6||||0.899|TWO_SIDED|95.0|-7.3|1.6|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 2 mg - placebo|||1.6|-7.3|0.899
82438961|NCT01155466|164585842|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.9||||0.815|TWO_SIDED|95.0|-6.8|2.6|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 5 mg - placebo|||2.6|-6.8|0.815
82438962|NCT01155466|164585842|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.4||||0.295|TWO_SIDED|95.0|-3.9|6.9|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with diastolic blood pressure \>=105 mm Hg for preladenant 10 mg - placebo|||6.9|-3.9|0.295
82438963|NCT01155466|164585845|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.629|TWO_SIDED|95.0|-5.1|3.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 2 mg - placebo|||3.7|-5.1|0.629
82438964|NCT01155466|164585845|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||0.625|TWO_SIDED|95.0|-5.1|3.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 5 mg - placebo|||3.7|-5.1|0.625
82438965|NCT01155466|164585845|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.6||||0.948|TWO_SIDED|95.0|-6.8|0.7|||Miettinen & Nurminen||The estimated parameter is the difference in the percentage of participants with suicidality for preladenant 10 mg - placebo|||0.7|-6.8|0.948
82438966|NCT01155466|164585846|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1||||0.7044|TWO_SIDED|95.0|-0.61|0.9|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 2 mg - placebo|||0.90|-0.61|0.7044
82438967|NCT01155466|164585846|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.4||||0.3439|TWO_SIDED|95.0|-0.4|1.14|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 5 mg - placebo|||1.14|-0.4|0.3439
82438968|NCT01155466|164585846|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3||||0.3941|TWO_SIDED|95.0|-0.43|1.08|||Constrained longitudinal data analysis||The estimated parameter is the difference in the change from baseline in mean ESS score for preladenant 10 mg - placebo|||1.08|-0.43|0.3941
82438969|NCT01155466|164585847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.994||||0.983|TWO_SIDED|95.0|0.597|1.657|||Mixed Models Analysis|Odds ratio was calculated for all randomized and treated participants with at least 1 post treatment value.|"Confidence intervals and P-values were based on a generalized linear mixed model with baseline average off time as a covariate and treatment-by-time interaction as fixed effect and participant as random effect."|||1.657|0.597|0.983
82438970|NCT01155466|164585848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.6405|TWO_SIDED|95.0|-0.49|0.8|||Mixed Models Analysis||"The estimated parameter is the difference in the estimated change from baseline in on time without troublesome dyskinesias for preladenant 10 mg - placebo."|||0.80|-0.49|0.6405
82438971|NCT02075047|164585865|SUPERIORITY||Difference in least square (LS) mean|-4.23|STANDARD_ERROR_OF_MEAN|1.47||0.005|TWO_SIDED|95.0|-7.14|-1.32|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-1.32|-7.14|0.005
82456719|NCT00527735|164618084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0282|TWO_SIDED|95.0|0.403|1.1016|||1-sided log rank|||||1.1016|0.403|0.0282
82456720|NCT00527735|164618093|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.3846|TWO_SIDED|95.0|0.588|1.481|||1-sided Log Rank|||||1.481|0.588|0.3846
82456721|NCT00527735|164618093|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.37|TWO_SIDED|95.0|0.591|1.453|||1-sided Log Rank|||||1.453|0.591|0.3700
82456722|NCT00527735|164618096|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947||||0.4132|TWO_SIDED|95.0|0.585|1.536|||1-sided Log Rank|||||1.536|0.585|0.4132
82456723|NCT00527735|164618096|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.753||||0.1287|TWO_SIDED|95.0|0.461|1.232|||1-sided Log Rank|||||1.232|0.461|0.1287
82456724|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority required a hazard ratio of 1.12 or lower, as well as an upper 95% confidence limit of 1.33 or lower in the ITT population and of 1.40 or lower in the MITT population.|Hazard Ratio (HR)|0.93||||0.0002|TWO_SIDED|95.0|0.76|1.13||Non inferiority P value, α=0.025|Regression, Cox|||ITT Population||1.13|0.76|0.0002
82456725|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio estimate does not exceed 1.40|Hazard Ratio (HR)|0.9||||0.0001|TWO_SIDED|95.0|0.72|1.14||Non inferiority P value, α=0.025|Regression, Cox|||MITT Population||1.14|0.72|0.0001
82456726|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio estimate does not exceed 1.33|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|95.0|0.7|1.04||Non inferiority P value, α=0.025|Regression, Cox|||ITT Population||1.04|0.70|<0.0001
82456727|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.40|Hazard Ratio (HR)|0.81|||<|0.0001|TWO_SIDED|95.0|0.64|1.02||Non-inferiority P-value, α=0.025|Regression, Cox|||MITT Population||1.02|0.64|<0.0001
82456728|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.33|Hazard Ratio (HR)|1.08||||0.0182|TWO_SIDED|95.0|0.89|1.31||Non-inferiority P-value, α=0.025|Regression, Cox|||ITT Population||1.31|0.89|0.0182
82456729|NCT00346216|164618109|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority requires the hazard ratio does not exceed 1.12, and the upper bound of the two-sided 95% CI for the hazard ratio (HR) estimate does not exceed 1.40|Hazard Ratio (HR)|1.12||||0.025|TWO_SIDED|95.0|0.89|1.4||Non-inferiority P-value, α=0.025|Regression, Cox|||MITT Population||1.40|0.89|0.0250
82456730|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.6427|TWO_SIDED|95.0|0.83|1.12|||Regression, Cox|||ITT Population||1.12|0.83|0.6427
82456731|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.0597|TWO_SIDED|95.0|0.75|1.01|||Regression, Cox|||ITT Population||1.01|0.75|0.0597
82456732|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.11||||0.1481|TWO_SIDED|95.0|0.96|1.29|||Regression, Cox|||ITT Population||1.29|0.96|0.1481
82456733|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.95||||0.5758|TWO_SIDED|95.0|0.8|1.13|||Regression, Cox|||MITT Population||1.13|0.80|0.5758
82456734|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.0204|TWO_SIDED|95.0|0.69|0.97|||Regression, Cox|||MITT Population||0.97|0.69|0.0204
82456735|NCT00346216|164618110|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17||||0.0751|TWO_SIDED|95.0|0.98|1.38|||Regression, Cox|||MITT Population||1.38|0.98|0.0751
82456736|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.8576|TWO_SIDED|95.0|0.67|1.4|||Regression, Cox|||ITT Population||1.40|0.67|0.8576
82456737|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.1202|TWO_SIDED|95.0|0.53|1.08|||Regression, Cox|||ITT Population||1.08|0.53|0.1202
82456738|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.27||||0.1734|TWO_SIDED|95.0|0.9|1.81|||Regression, Cox|||ITT Population||1.81|0.90|0.1734
82456739|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.51||||0.0041|TWO_SIDED|95.0|0.32|0.81|||Regression, Cox|||MITT Population||0.81|0.32|0.0041
82456740|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.43||||0.0003|TWO_SIDED|95.0|0.27|0.68|||Regression, Cox|||MITT Population||0.68|0.27|0.0003
82456741|NCT00346216|164618111|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.4243|TWO_SIDED|95.0|0.8|1.69|||Regression, Cox|||MITT Population||1.69|0.80|0.4243
82456742|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|1.01|2.53|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||2.53|1.01|<0.0001
82456743|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.39||0.0373|TWO_SIDED|95.0|0.05|1.56|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||1.56|0.05|0.0373
82456744|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|0.39||0.0129|TWO_SIDED|95.0|0.2|1.72|||Mixed Models Analysis|||Change from baseline to Month 1 (ITT)||1.72|0.20|0.0129
82456745|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.39||0.183|TWO_SIDED|95.0|-0.25|1.29|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||1.29|-0.25|0.1830
82456746|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.39||0.7777|TWO_SIDED|95.0|-0.88|0.66|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||0.66|-0.88|0.7777
82456747|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.39||0.1072|TWO_SIDED|95.0|-0.14|1.4|||Mixed Models Analysis|||Change from baseline to Month 2 (ITT)||1.40|-0.14|0.1072
82456748|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|0.4||0.8237|TWO_SIDED|95.0|-0.12|1.46|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||1.46|-0.12|0.8237
82456749|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.4||0.8237|TWO_SIDED|95.0|-0.88|0.7|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||0.70|-0.88|0.8237
82456750|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.4||0.0587|TWO_SIDED|95.0|-0.03|1.55|||Mixed Models Analysis|||Change from baseline to Month 4 (ITT)||1.55|-0.03|0.0587
82456751|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.41||0.3129|TWO_SIDED|95.0|-0.39|1.23|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.23|-0.39|0.3129
82456752|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.41||0.6526|TWO_SIDED|95.0|-0.63|1.0|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.00|-0.63|0.6526
82456753|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.42||0.5774|TWO_SIDED|95.0|-0.58|1.05|||Mixed Models Analysis|||Change from baseline to Month 8 (ITT)||1.05|-0.58|0.5774
82456754|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.42||0.0632|TWO_SIDED|95.0|-0.04|1.62|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.62|-0.04|0.0632
82456755|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.43||0.454|TWO_SIDED|95.0|-0.52|1.15|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.15|-0.52|0.4540
82456756|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.43||0.2705|TWO_SIDED|95.0|-0.37|1.3|||Mixed Models Analysis|||Change from baseline to Month 12 (ITT)||1.30|-0.37|0.2705
82456757|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.44||0.5225|TWO_SIDED|95.0|-0.58|1.14|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||1.14|-0.58|0.5225
82456758|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.44||0.5996|TWO_SIDED|95.0|-1.1|0.63|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||0.63|-1.10|0.5996
82456759|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.44||0.2461|TWO_SIDED|95.0|-0.35|1.38|||Mixed Models Analysis|||Change from baseline to Month 18 (ITT)||1.38|-0.35|0.2461
82456760|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.46||0.8127|TWO_SIDED|95.0|-0.79|1.0|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||1.00|-0.79|0.8127
82456761|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.46||0.9641|TWO_SIDED|95.0|-0.92|0.87|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||0.87|-0.92|0.9641
82456762|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.46||0.7784|TWO_SIDED|95.0|-0.77|1.03|||Mixed Models Analysis|||Change from baseline to Month 24 (ITT)||1.03|-0.77|0.7784
82456763|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.49||0.2105|TWO_SIDED|95.0|-0.34|1.56|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.56|-0.34|0.2105
82456764|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.49||0.2909|TWO_SIDED|95.0|-0.44|1.46|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.46|-0.44|0.2909
82541485|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.914||||0.748|TWO_SIDED|95.0|0.532|1.57|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Nausea and vomiting||1.570|0.532|0.748
82541486|NCT03086369|164782262|SUPERIORITY||Hazard Ratio (HR)|0.947||||0.875|TWO_SIDED|95.0|0.491|1.827|||Log Rank|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Stratified by age group (\<70 years versus ≥70 years) and prior adjuvant/neo-adjuvant gemcitabine use (yes vs no).|Pain||1.827|0.491|0.875
82456765|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.49||0.8459|TWO_SIDED|95.0|-0.86|1.05|||Mixed Models Analysis|||Change from baseline to Month 30 (ITT)||1.05|-0.86|0.8459
82456766|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.51||0.1116|TWO_SIDED|95.0|-0.19|1.8|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.80|-0.19|0.1116
82456767|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.51||0.9751|TWO_SIDED|95.0|-0.98|1.01|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.01|-0.98|0.9751
82456768|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|0.51||0.1202|TWO_SIDED|95.0|-0.21|1.79|||Mixed Models Analysis|||Change from baseline to Month 36 (ITT)||1.79|-0.21|0.1202
82456769|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.52||0.3767|TWO_SIDED|95.0|-0.56|1.48|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||1.48|-0.56|0.3767
82456770|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1123|TWO_SIDED|95.0|-1.85|0.19|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||0.19|-1.85|0.1123
82456771|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|0.52||0.0137|TWO_SIDED|95.0|0.26|2.31|||Mixed Models Analysis|||Change from baseline to Month 42 (ITT)||2.31|0.26|0.0137
82456772|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|1.07|2.47|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||2.47|1.07|<0.0001
82456773|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.84|STANDARD_ERROR_OF_MEAN|0.36||0.0197|TWO_SIDED|95.0|0.13|1.54|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||1.54|0.13|0.0197
82456774|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|0.36||0.0094|TWO_SIDED|95.0|0.23|1.64|||Mixed Models Analysis|||Change from Baseline to Month 1 (MITT)||1.64|0.23|0.0094
82456775|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.37||0.1247|TWO_SIDED|95.0|-0.16|1.31|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||1.31|-0.16|0.1247
82456776|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.37||0.8278|TWO_SIDED|95.0|-0.81|0.65|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||0.65|-0.81|0.8278
82456777|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.37||0.0802|TWO_SIDED|95.0|-0.08|1.39|||Mixed Models Analysis|||Change from baseline to Month 2 (MITT)||1.39|-0.08|0.0802
82456778|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.39||0.0822|TWO_SIDED|95.0|-0.09|1.46|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||1.46|-0.09|0.0822
82456779|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.39||0.8314|TWO_SIDED|95.0|-0.86|0.69|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||0.69|-0.86|0.8314
82456780|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.39||0.0516|TWO_SIDED|95.0|-0.01|1.54|||Mixed Models Analysis|||Change from baseline to Month 4 (MITT)||1.54|-0.01|0.0516
82456781|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.42||0.3202|TWO_SIDED|95.0|-0.4|1.24|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.24|-0.40|0.3202
82456782|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.42||0.5893|TWO_SIDED|95.0|-0.6|1.05|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.05|-0.60|0.5893
82456783|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.42||0.651|TWO_SIDED|95.0|-0.63|1.01|||Mixed Models Analysis|||Change from baseline to Month 8 (MITT)||1.01|-0.63|0.6510
82541487|NCT01124188|164782296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.63|1.8||||||||1.80|0.63|
82649651|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.004||95.0|-0.7|-0.13|||t-test, 2 sided|||||-0.13|-0.70|0.004
82649652|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53|||<|0.001||95.0|-0.81|-0.24|||t-test, 2 sided|||||-0.24|-0.81|<0.001
82456784|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.44||0.0796|TWO_SIDED|95.0|-0.09|1.62|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.62|-0.09|0.0796
82456785|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.44||0.5061|TWO_SIDED|95.0|-0.57|1.15|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.15|-0.57|0.5061
82456786|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.47|STANDARD_ERROR_OF_MEAN|0.44||0.2796|TWO_SIDED|95.0|-0.38|1.33|||Mixed Models Analysis|||Change from baseline to Month 12 (MITT)||1.33|-0.38|0.2796
82456787|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.45||0.6725|TWO_SIDED|95.0|-0.69|1.08|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||1.08|-0.69|0.6725
82456788|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.45||0.6381|TWO_SIDED|95.0|-1.1|0.67|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||0.67|-1.10|0.6381
82456789|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.45||0.3737|TWO_SIDED|95.0|-0.49|1.29|||Mixed Models Analysis|||Change from baseline to Month 18 (MITT)||1.29|-0.49|0.3737
82456790|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||0.9139|TWO_SIDED|95.0|-0.87|0.97|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.97|-0.87|0.9139
82456791|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.47||0.9998|TWO_SIDED|95.0|-0.92|0.92|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.92|-0.92|0.9998
82456792|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.47||0.9144|TWO_SIDED|95.0|-0.88|0.98|||Mixed Models Analysis|||Change from baseline to Month 24 (MITT)||0.98|-0.88|0.9144
82456793|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.62|STANDARD_ERROR_OF_MEAN|0.51||0.225|TWO_SIDED|95.0|-0.38|1.61|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.61|-0.38|0.2250
82456794|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.51||0.2758|TWO_SIDED|95.0|-0.44|1.55|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.55|-0.44|0.2758
82456795|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.51||0.903|TWO_SIDED|95.0|-0.94|1.06|||Mixed Models Analysis|||Change from baseline to Month 30 (MITT)||1.06|-0.94|0.9030
82456796|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.53||0.091|TWO_SIDED|95.0|-0.14|1.94|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.94|-0.14|0.0910
82456797|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.53||0.7668|TWO_SIDED|95.0|-0.88|1.2|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.20|-0.88|0.7668
82456798|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74|STANDARD_ERROR_OF_MEAN|0.53||0.1653|TWO_SIDED|95.0|-0.31|1.78|||Mixed Models Analysis|||Change from baseline to Month 36 (MITT)||1.78|-0.31|0.1653
82456799|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.55||0.4323|TWO_SIDED|95.0|-0.65|1.52|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||1.52|-0.65|0.4323
82456800|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.55||0.1439|TWO_SIDED|95.0|-1.89|0.28|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||0.28|-1.89|0.1439
82456801|NCT00346216|164618112|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.24|STANDARD_ERROR_OF_MEAN|0.55||0.0251|TWO_SIDED|95.0|0.16|2.33|||Mixed Models Analysis|||Change from baseline to Month 42 (MITT)||2.33|0.16|0.0251
82456802|NCT00896298|164618117|SUPERIORITY|||||||0.2572|||||||Mixed Models Analysis|||||||0.2572
82456803|NCT00896298|164618118|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||||||0.71
82456804|NCT00896298|164618119|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.68
82456805|NCT00896298|164618120|SUPERIORITY|||||||0.0256|||||||Mixed Models Analysis|||||||0.0256
82456806|NCT02163824|164618143|SUPERIORITY||Difference in % of responders|16.1||||0.0024|TWO_SIDED|95.0|5.9|26.4|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||26.4|5.9|.0024
82456807|NCT02163824|164618143|SUPERIORITY||Difference in % of responders|22.1|||<|0.0001|TWO_SIDED|95.0|11.7|32.6|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||32.6|11.7|<.0001
82456808|NCT02163824|164618144|SUPERIORITY||Difference in % of responders|19.5||||0.0019|TWO_SIDED|95.0|7.4|31.5|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||31.5|7.4|.0019
82456809|NCT02163824|164618144|SUPERIORITY||Difference in % of responders|22.5||||0.0003|TWO_SIDED|95.0|10.6|34.4|||Chi-squared||Estimated Value is the between-group difference for % of responders and is expressed as a percentage.|"All statistical tests of hypotheses performed for the pairwise comparison of means were two-sided.~All statistical tests employed a level of significance of alpha = 0.05."||34.4|10.6|.0003
82541488|NCT01124188|164782297|SUPERIORITY_OR_OTHER|||||||0.49|||||||Mixed Models Analysis|||||||.49
82541489|NCT01124188|164782298|SUPERIORITY_OR_OTHER|||||||0.88|||||||Mixed Models Analysis|||||||0.88
82541490|NCT01324453|164782330|SUPERIORITY|||||||0.9|||||||Kruskal-Wallis|||||||0.90
82541491|NCT01324453|164782331|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||||||0.81
82541492|NCT01324453|164782332|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
82456810|NCT02163824|164618145|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0007|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 8.|||||0.0007
82456811|NCT02163824|164618145|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.044|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean grade AC at Day 8.|||||0.0440
82456812|NCT02163824|164618146|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.0391|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 15.|||||0.0391
82456813|NCT02163824|164618146|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.1811|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean AC grade at Day 15.|||||0.1811
82456814|NCT02163824|164618147|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.1953|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean ocular pain grade at Day 8.|||||0.1953
82456815|NCT02163824|164618147|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.0307|TWO_SIDED||||||ANCOVA||Estimated value is the between group difference of mean ocular pain grade at Day 8.|||||0.0307
82456816|NCT02163824|164618148|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.2589|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference on mean ocular pain score at Day 15.|||||0.2589
82456817|NCT02163824|164618148|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.2132|TWO_SIDED||||||ANCOVA||Estimated value is the between-group difference in mean ocular pain score at Day 15.|||||0.2132
82649653|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.018||95.0|-0.76|-0.07|||t-test, 2 sided|||||-0.07|-0.76|0.018
82456818|NCT03170661|164618162|SUPERIORITY|||||||0.94|||||||GEEGLM|Effects of GEEGLM covariates: surgeon, p = 0.24; surgery length, p= 0.73 and body mass index, p= 0.22).||||||0.94
82456819|NCT03001557|164618180|SUPERIORITY||Least square mean (LSM) difference|3.177||||0.1099|TWO_SIDED|95.0|-0.741|7.096||Based on a mixed model for repeated measure (MMRM) analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.096|-0.741|0.1099
82456820|NCT03001557|164618180|SUPERIORITY||LSM Difference|2.802||||0.1576|TWO_SIDED|95.0|-1.119|6.723||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.723|-1.119|0.1576
82456821|NCT03001557|164618180|SUPERIORITY||LSM Difference|-0.96||||0.616|TWO_SIDED|95.0|-4.777|2.857||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.857|-4.777|0.6160
82456822|NCT03001557|164618180|SUPERIORITY||LSM Difference|0.713||||0.7135|TWO_SIDED|95.0|-3.16|4.585||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||4.585|-3.160|0.7135
82456823|NCT03001557|164618184|SUPERIORITY||LSM Difference|-5.098||||0.1582|TWO_SIDED|95.0|-12.24|2.045||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.045|-12.240|0.1582
82456824|NCT03001557|164618184|SUPERIORITY||LSM Difference|-6.105||||0.0961|TWO_SIDED|95.0|-13.332|1.122||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.122|-13.332|0.0961
82456825|NCT03001557|164618184|SUPERIORITY||LSM Difference|0.68||||0.8449|TWO_SIDED|95.0|-6.262|7.623||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.623|-6.262|0.8449
82456826|NCT03001557|164618184|SUPERIORITY||LSM Difference|-3.14||||0.3747|TWO_SIDED|95.0|-10.178|3.897||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||3.897|-10.178|0.3747
82456827|NCT03001557|164618188|SUPERIORITY||LSM Difference|1.932||||0.3966|TWO_SIDED|95.0|-2.601|6.465||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.465|-2.601|0.3966
82456828|NCT03001557|164618188|SUPERIORITY||LSM Difference|3.386||||0.1381|TWO_SIDED|95.0|-1.125|7.897||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||7.897|-1.125|0.1381
82456829|NCT03001557|164618188|SUPERIORITY||LSM Difference|1.337||||0.5487|TWO_SIDED|95.0|-3.104|5.778||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||5.778|-3.104|0.5487
82456830|NCT03001557|164618188|SUPERIORITY||LSM Difference|4.32||||0.0581|TWO_SIDED|95.0|-0.153|8.793||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||8.793|-0.153|0.0581
82456831|NCT03001557|164618192|SUPERIORITY||LSM Difference|-3.437||||0.1777|TWO_SIDED|95.0|-8.481|1.608||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.608|-8.481|0.1777
82456832|NCT03001557|164618192|SUPERIORITY||LSM Difference|1.458||||0.563|TWO_SIDED|95.0|-3.564|6.479||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||6.479|-3.564|0.5630
82456833|NCT03001557|164618192|SUPERIORITY||LSM Difference|-4.994||||0.0482|TWO_SIDED|95.0|-9.946|-0.041||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-0.041|-9.946|0.0482
82456834|NCT03001557|164618192|SUPERIORITY||LSM Difference|-2.593||||0.3036|TWO_SIDED|95.0|-7.599|2.413||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.413|-7.599|0.3036
82456835|NCT03001557|164618196|SUPERIORITY||LSM Difference|4.845||||0.1991|TWO_SIDED|95.0|-2.624|12.313||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||12.313|-2.624|0.1991
82456836|NCT03001557|164618196|SUPERIORITY||LSM Difference|-3.872||||0.2982|TWO_SIDED|95.0|-11.263|3.518||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||3.518|-11.263|0.2982
82456837|NCT03001557|164618196|SUPERIORITY||LSM Difference|6.776||||0.0664|TWO_SIDED|95.0|-0.474|14.025||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||14.025|-0.474|0.0664
82456838|NCT03001557|164618196|SUPERIORITY||LSM Difference|3.017||||0.4148|TWO_SIDED|95.0|-4.344|10.379||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||10.379|-4.344|0.4148
82456839|NCT03001557|164618200|SUPERIORITY||LSM Difference|0.063||||0.9599|TWO_SIDED|95.0|-2.452|2.579||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.579|-2.452|0.9599
82456840|NCT03001557|164618200|SUPERIORITY||LSM Difference|-0.238||||0.8541|TWO_SIDED|95.0|-2.817|2.342||Based on a MMRM analysis adjusted for baseline value, country, Visit and treatment by Visit interaction.|MMRM|||||2.342|-2.817|0.8541
82649654|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.003||95.0|-0.87|-0.19|||t-test, 2 sided|||||-0.19|-0.87|0.003
82649655|NCT00408876|165014870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.442||95.0|-0.4|0.17|||t-test, 2 sided|||||0.17|-0.40|0.442
82456841|NCT03001557|164618200|SUPERIORITY||LSM Difference|-0.293||||0.8117|TWO_SIDED|95.0|-2.745|2.16||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2.160|-2.745|0.8117
82456842|NCT03001557|164618200|SUPERIORITY||LSM Difference|-1.557||||0.2274|TWO_SIDED|95.0|-4.113|1.0||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1.000|-4.113|0.2274
82456843|NCT03001557|164618204|SUPERIORITY||LSM Difference|0.086||||0.2421|TWO_SIDED|95.0|-0.06|0.232||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.232|-0.060|0.2421
82456844|NCT03001557|164618204|SUPERIORITY||LSM Difference|-0.012||||0.8661|TWO_SIDED|95.0|-0.155|0.131||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.131|-0.155|0.8661
82456845|NCT03001557|164618204|SUPERIORITY||LSM Difference|0.057||||0.4251|TWO_SIDED|95.0|-0.085|0.199||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.199|-0.085|0.4251
82456846|NCT03001557|164618204|SUPERIORITY||LSM Difference|0.025||||0.7248|TWO_SIDED|95.0|-0.116|0.166||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.166|-0.116|0.7248
82456847|NCT03001557|164618208|SUPERIORITY||LSM Difference|-0.032||||0.2991|TWO_SIDED|95.0|-0.094|0.029||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.029|-0.094|0.2991
82649656|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31||||0.464||95.0|-0.52|1.14|||t-test, 2 sided|||||1.14|-0.52|0.464
82649657|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68||||0.052||95.0|-1.36|0.0|||t-test, 2 sided|||||0.00|-1.36|0.052
82438972|NCT02075047|164585866|SUPERIORITY||Difference in LS mean|-0.45|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.69|-0.2|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-0.20|-0.69|<0.001
82438973|NCT02075047|164585866|SUPERIORITY||Difference in LS mean|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.174|TWO_SIDED|95.0|-0.53|0.1|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.10|-0.53|0.174
82456848|NCT03001557|164618208|SUPERIORITY||LSM Difference|0.033||||0.2861|TWO_SIDED|95.0|-0.028|0.095||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.095|-0.028|0.2861
82456849|NCT03001557|164618208|SUPERIORITY||LSM Difference|-0.052||||0.0938|TWO_SIDED|95.0|-0.113|0.009||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.009|-0.113|0.0938
82456850|NCT03001557|164618208|SUPERIORITY||LSM Difference|0.005||||0.8618|TWO_SIDED|95.0|-0.055|0.066||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.066|-0.055|0.8618
82456851|NCT03001557|164618212|SUPERIORITY||LSM Difference|-389.873||||0.0294|TWO_SIDED|95.0|-739.177|-40.569||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-40.569|-739.177|0.0294
82456852|NCT03001557|164618212|SUPERIORITY||LSM Difference|-402.994||||0.0243|TWO_SIDED|95.0|-751.67|-54.319||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-54.319|-751.670|0.0243
82456853|NCT03001557|164618212|SUPERIORITY||LSM Difference|-141.026||||0.4209|TWO_SIDED|95.0|-489.805|207.752||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||207.752|-489.805|0.4209
82456854|NCT03001557|164618212|SUPERIORITY||LSM Difference|-367.845||||0.0398|TWO_SIDED|95.0|-717.87|-17.82||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||-17.820|-717.870|0.0398
82456855|NCT03001557|164618216|SUPERIORITY||LSM Difference|-1276.18||||0.1162|TWO_SIDED|95.0|-2878.587|326.226||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||326.226|-2878.587|0.1162
82456856|NCT03001557|164618216|SUPERIORITY||LSM Difference|227.464||||0.7781|TWO_SIDED|95.0|-1382.85|1837.777||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1837.777|-1382.850|0.7781
82456857|NCT03001557|164618216|SUPERIORITY||LSM Difference|-620.581||||0.4255|TWO_SIDED|95.0|-2170.342|929.179||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||929.179|-2170.342|0.4255
82456858|NCT03001557|164618216|SUPERIORITY||LSM Difference|-577.82||||0.4672|TWO_SIDED|95.0|-2160.337|1004.697||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1004.697|-2160.337|0.4672
82456859|NCT03001557|164618220|SUPERIORITY||LSM Difference|-839.088||||0.2984|TWO_SIDED|95.0|-2440.854|762.678||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||762.678|-2440.854|0.2984
82456860|NCT03001557|164618220|SUPERIORITY||LSM Difference|651.922||||0.4218|TWO_SIDED|95.0|-962.835|2266.678||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||2266.678|-962.835|0.4218
82456861|NCT03001557|164618220|SUPERIORITY||LSM Difference|-447.245||||0.5655|TWO_SIDED|95.0|-1998.44|1103.95||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1103.950|-1998.440|0.5655
82456862|NCT03001557|164618220|SUPERIORITY||LSM Difference|-130.603||||0.8686|TWO_SIDED|95.0|-1706.478|1445.272||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||1445.272|-1706.478|0.8686
82456863|NCT03001557|164618224|SUPERIORITY||LSM Difference|0.02||||0.4638|TWO_SIDED|95.0|-0.034|0.074||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.074|-0.034|0.4638
82456864|NCT03001557|164618224|SUPERIORITY||LSM Difference|0.06||||0.0322|TWO_SIDED|95.0|0.005|0.115||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.115|0.005|0.0322
82649658|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68||||0.052||95.0|-1.37|0.01|||t-test, 2 sided|||||0.01|-1.37|0.052
82649659|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99||||0.021||95.0|-1.83|-0.15|||t-test, 2 sided|||||-0.15|-1.83|0.021
82456865|NCT03001557|164618224|SUPERIORITY||LSM Difference|0.003||||0.9144|TWO_SIDED|95.0|-0.051|0.056||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction.|MMRM|||||0.056|-0.051|0.9144
82456866|NCT03001557|164618224|SUPERIORITY||LSM Difference|0.057||||0.0364|TWO_SIDED|95.0|0.004|0.11||Based on a MMRM analysis adjusted for baseline value, country, visit and treatment by visit interaction|MMRM|||||0.110|0.004|0.0364
82456867|NCT01794000|164618230|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.83||||0.117|TWO_SIDED|95.0|0.66|1.05|||Andersen-Gill model||The rate ratio and 2-sided 95% Confidence Interval (CI) were estimated from the Andersen-Gill model.|The time to a recurrent episode of VOC was analyzed using Andersen-Gill model. A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.||1.05|0.66|.117
82456868|NCT01794000|164618231|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.242||||0.912|TWO_SIDED|95.0|-4.564|4.079||Mixed Model Repeated Measures (MMRM) included fixed effects of treatment, baseline value of the pain-diary outcome measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The Least Square (LS) Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||4.079|-4.564|.912
82456869|NCT01794000|164618232|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.0968||||0.365|TWO_SIDED|95.0|-0.1132|0.3068||MMRM model included fixed effects of treatment, baseline value of the pain-diary outcome measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The LS Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||0.3068|-0.1132|.365
82456870|NCT01794000|164618233|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.82||||0.109|TWO_SIDED|95.0|0.65|1.04||The time to a recurrent episode of painful crisis was analyzed using Andersen-Gill model.|Andersen-Gill Model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.04|0.65|.109
82456871|NCT01794000|164618234|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.94||||0.759|TWO_SIDED|95.0|0.65|1.37||The time to a recurrent episode of hospitalization was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.37|0.65|.759
82541493|NCT01324453|164782333|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82541494|NCT01324453|164782334|SUPERIORITY|||||||0.86|||||||Kruskal-Wallis|||||||0.86
82456872|NCT01794000|164618235|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.96||||0.916|TWO_SIDED|95.0|0.48|1.93||The time to a recurrent episode of acute chest syndrome was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.93|0.48|.916
82456873|NCT01794000|164618236|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|1.17||||0.544|TWO_SIDED|95.0|0.71|1.91||The time to a recurrent episode of RBC transfusion was analyzed using Andersen-Gill model.|Andersen-Gill model|A robust variance estimate was used, with treatment, hydroxyurea use at baseline and age group included as factors in the model.|The rate ratio and 2-sided 95% CI were estimated from the Andersen-Gill model.|||1.91|0.71|.544
82456874|NCT01794000|164618237|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.513||||0.602|TWO_SIDED|95.0|-4.186|7.213||The MMRM model included the fixed effects of treatment, the baseline value of the pain-diary measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The Least Square Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||7.213|-4.186|.602
82456875|NCT01794000|164618238|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.272||||0.459|TWO_SIDED|95.0|-2.109|4.652||The MMRM model included the fixed effects of treatment, the baseline value of the pain-diary measure, hydroxyurea use, age group, time and treatment-by-time interaction.|Mixed Models Analysis||The LS Mean difference of prasugrel minus placebo and the corresponding 2-sided 95% CI were estimated from the MMRM model.|||4.652|-2.109|.459
82456876|NCT01794000|164618240|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.94||||0.662|TWO_SIDED|95.0|-3.31|5.19||The ANCOVA model included the factors of treatment, hydroxyurea use, age group, and length of follow-up.|ANCOVA||The LS Mean difference of prasugrel minus placebo and 2-sided 95% CI were estimated from the ANCOVA model.|||5.19|-3.31|.662
82456877|NCT01794000|164618241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.317|||||||Log Rank|A stratified log-rank test were performed with hydroxyurea use and age group as the stratification factors.||Time from Randomization to the First VOC||||.317
82456878|NCT01794000|164618241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.133|||||||Log Rank|A stratified log-rank test were performed with hydroxyurea use and age group as the stratification factors.||Time from Randomization to the Second VOC||||.133
82456879|NCT01794000|164618242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.638|||||||Fisher Exact|||||||.638
82490332|NCT00667875|164673541|SUPERIORITY|||||||0.49||||||The p value represents variation of the total 16 week trial over all three groups.|Mixed Models Analysis|||Analyzed as a mixed model, Group by time (4 time blocks) with an unstructured variance/covariance matrix. Baseline drinks per day was used as a covariate.||||0.49
82490333|NCT00667875|164673542|SUPERIORITY|||||||0.03||||||The p value represents variation of the total 16 week trial over all three groups.|Mixed Models Analysis|||Analyzed as a mixed model (SPSS linear mixed) with an unstructured variance/covariance and baseline percent heavy drinking days as a covariate||||0.03
82490334|NCT00667875|164673543|SUPERIORITY|Anova across all three treatment groups|||||<|0.05|||||||ANOVA|Naltrexone or naltrexone placebo pills taken F=3.9 df 2 Aripiprazole or aripiprazole placebo pills taken F=4.6 df 2||||||<.05
82490335|NCT00667875|164673544|SUPERIORITY||||||<|0.05|||||||ANOVA|f 3.2 df 2||Anova across three groups||||<.05
82541495|NCT01324453|164782335|SUPERIORITY|||||||1|||||||Kruskal-Wallis|||||||1.00
82541496|NCT01324453|164782336|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||0.58
82541497|NCT01324453|164782337|SUPERIORITY|||||||0.77|||||||Kruskal-Wallis|||||||0.77
82541498|NCT01904071|164782343|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
82541499|NCT01904071|164782344|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<.05
82541500|NCT01904071|164782345|SUPERIORITY_OR_OTHER||||||<|0.005|||||||ANOVA|||||||<.005
82541501|NCT01904071|164782346|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<.001
82456880|NCT00964496|164618243|SUPERIORITY_OR_OTHER||Differences in proportions|0.677||||1.3e-07|TWO_SIDED|95.0|0.547|0.807||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the participants whose rebleeds decreased from baseline by ≥ 50% at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the participants whose rebleeds decreased from baseline by ≥ 50% at 12 months.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||0.807|0.547|0.00000013
82649660|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.99||||0.02||95.0|-1.83|-0.16|||t-test, 2 sided|||||-0.16|-1.83|0.020
82649661|NCT00408876|165014871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.988||95.0|-0.7|0.69|||t-test, 2 sided|||||0.69|-0.70|0.988
82456881|NCT00964496|164618244|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08|||<|0.001|TWO_SIDED|95.0|-4.02|-2.13||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in hemoglobin level at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in hemoglobin level at 12 months.~Comparisons were performed with the use of the independent-samples t test."||-2.13|-4.02|<0.001
82456882|NCT00964496|164618245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.95|||<|0.01|TWO_SIDED|95.0|6.0|9.9||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in bleeding episodes at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in bleeding episodes at 12 months.~Comparisons were performed with the use of the independent-samples t test."||9.90|6.00|<0.01
82456883|NCT00964496|164618246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.0002474|TWO_SIDED|95.0|2.15|6.64||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in bleeding duration at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in bleeding duration at 12 months.~Comparisons were performed with the use of the independent-samples t test."||6.64|2.15|0.00024740
82456884|NCT00964496|164618247|SUPERIORITY_OR_OTHER||Differences in proportions|-0.374||||0.00298881|TWO_SIDED|95.0|-0.563|-0.185||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the participants dependent on blood transfusions.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the participants dependent on blood transfusions.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||-0.185|-0.563|0.00298881
82456885|NCT00964496|164618248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1557.14|||<|0.01|TWO_SIDED|95.0|1294.53|1819.76||P\<0.05 was considered as statistical different, while P\>0.05 was considered as no statistical significance between two groups. All reported P values are two-sided.|t-test, 2 sided|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the change from baseline in total transfused red cell requirements at 12 months.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the change from baseline in total transfused red cell requirements at 12 months.~Comparisons were performed with the use of the independent-samples t test."||1819.76|1294.53|<0.01
82456886|NCT00964496|164618249|SUPERIORITY_OR_OTHER||Differences in proportions|0.464||||3.962e-05|TWO_SIDED|95.0|0.28|0.649|||Fisher Exact|||"Null hypothesis (H0): Thalidomide 100 mg per day is equivalence to iron 400 mg per day with regard to the cessation of bleeding.~Alternative hypothesis (Ha): Thalidomide 100 mg per day is non-equivalent to iron 400 mg per day with regard to the cessation of bleeding.~Comparisons were performed with the use of the chi-square test, Fisher's exact test."||0.649|0.28|0.00003962
82456887|NCT01272232|164618250|SUPERIORITY_OR_OTHER||Treatment contrast|-3.97|||<|0.0001||95.0|-4.84|-3.11||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-3.11|-4.84|<0.0001
82456888|NCT01272232|164618250|SUPERIORITY_OR_OTHER||Treatment contrast|-2.62|||<|0.0001||95.0|-3.63|-1.62||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.62|-3.63|<0.0001
82456889|NCT01272232|164618250|SUPERIORITY_OR_OTHER||Treatment contrast|-1.35||||0.0024||95.0|-2.23|-0.48||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.48|-2.23|0.0024
82541502|NCT01904071|164782347|SUPERIORITY_OR_OTHER|||||||0.342|||||||ANOVA|||||||0.342
82649662|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.543||95.0|-0.46|0.88|||t-test, 2 sided|||||0.88|-0.46|0.543
82649663|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.053||95.0|-1.1|0.01|||t-test, 2 sided|||||0.01|-1.10|0.053
82649664|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.024||95.0|-1.21|-0.09|||t-test, 2 sided|||||-0.09|-1.21|0.024
82438974|NCT02075047|164585866|SUPERIORITY||Difference in LS mean|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.024|TWO_SIDED|95.0|-0.71|-0.05|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-0.05|-0.71|0.024
82438975|NCT02075047|164585866|SUPERIORITY||Difference in LS mean|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.138|TWO_SIDED|95.0|-0.64|0.09|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.09|-0.64|0.138
82438976|NCT02075047|164585867|SUPERIORITY||Difference in LS mean|-5.85|STANDARD_ERROR_OF_MEAN|1.17|<|0.001|TWO_SIDED|95.0|-8.16|-3.54|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-3.54|-8.16|<0.001
82438977|NCT02075047|164585867|SUPERIORITY||Difference in LS mean|-4.17|STANDARD_ERROR_OF_MEAN|1.3||0.002|TWO_SIDED|95.0|-6.74|-1.59|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-1.59|-6.74|0.002
82438978|NCT02075047|164585867|SUPERIORITY||Difference in LS mean|-5.63|STANDARD_ERROR_OF_MEAN|1.31|<|0.001|TWO_SIDED|95.0|-8.21|-3.04|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||-3.04|-8.21|<0.001
82438979|NCT02075047|164585868|SUPERIORITY||Difference in LS mean|-0.52|STANDARD_ERROR_OF_MEAN|0.13||0.001|TWO_SIDED|95.0|-0.78|-0.26|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||-0.26|-0.78|0.001
82438980|NCT02075047|164585868|SUPERIORITY||Difference in LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.15||0.349|TWO_SIDED|95.0|-0.45|0.16|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||0.16|-0.45|0.349
82438981|NCT02075047|164585868|SUPERIORITY||Difference in LS mean|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.103|TWO_SIDED|95.0|-0.57|0.05|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||0.05|-0.57|0.103
82438982|NCT02075047|164585868|SUPERIORITY||Difference in LS mean|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.044|TWO_SIDED|95.0|-0.68|-0.01|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects along with participant as a random effect.||-0.01|-0.68|0.044
82438983|NCT02075047|164585882|SUPERIORITY||Difference in LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.05||0.05|TWO_SIDED|95.0|0.0|0.2|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.20|0.00|0.050
82438984|NCT02075047|164585882|SUPERIORITY||Difference in LS mean|0.11|STANDARD_ERROR_OF_MEAN|0.07||0.124|TWO_SIDED|95.0|-0.03|0.25|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.25|-0.03|0.124
82438985|NCT02075047|164585882|SUPERIORITY||Difference in LS mean|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.23|-0.01|0.084
82438986|NCT02075047|164585882|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.05||0.104|TWO_SIDED|95.0|-0.02|0.2|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.20|-0.02|0.104
82438987|NCT02075047|164585883|SUPERIORITY||Difference in LS mean|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.169|TWO_SIDED|95.0|-0.06|0.01|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.01|-0.06|0.169
82438988|NCT02075047|164585883|SUPERIORITY||Difference in LS mean|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.893|TWO_SIDED|95.0|-0.1|0.08|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.08|-0.10|0.893
82438989|NCT02075047|164585883|SUPERIORITY||Difference in LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.915|TWO_SIDED|95.0|-0.04|0.04|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.04|-0.04|0.915
82438990|NCT02075047|164585883|SUPERIORITY||Difference in LS mean|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.289|TWO_SIDED|95.0|-0.01|0.04|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.04|-0.01|0.289
82456890|NCT01272232|164618251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.81|||<|0.0001||95.0|4.34|10.68||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||10.68|4.34|<0.0001
82456891|NCT01272232|164618251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69|||<|0.0001||95.0|2.24|6.09||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||6.09|2.24|<0.0001
82456892|NCT01272232|164618251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.0008||95.0|1.29|2.64||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.64|1.29|0.0008
82456893|NCT01272232|164618252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.1|||<|0.0001||95.0|3.48|14.48||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||14.48|3.48|<0.0001
82456894|NCT01272232|164618252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84||||0.0008||95.0|1.75|8.41||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||8.41|1.75|0.0008
82456895|NCT01272232|164618252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.0099||95.0|1.16|2.95||Superiority was established only if all preceding hypotheses had been rejected. p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||The 3 co-primary endpoints (Outcome Measures 1, 2 and 3) were ranked (#1, 2, 3); hypotheses of no difference were tested in a hierarchical manner. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.95|1.16|0.0099
82456896|NCT01272232|164618253|SUPERIORITY_OR_OTHER||Treatment contrast|-0.93|||<|0.0001||95.0|-1.08|-0.78||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.78|-1.08|<0.0001
82578123|NCT03852719|164865746|OTHER||Difference in percentages|42.9|||<|0.0001|TWO_SIDED|96.0|27.0|58.5||Fisher's exact test was used for comparison of bulevirtide 2 mg versus Delayed Treatment using a significance level of 0.04 at Week 48.|Fisher Exact|||||58.5|27.0|<0.0001
82649665|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.75||||0.03||95.0|-1.43|-0.07|||t-test, 2 sided|||||-0.07|-1.43|0.030
82649666|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.014||95.0|-1.54|-0.17|||t-test, 2 sided|||||-0.17|-1.54|0.014
82649667|NCT00408876|165014872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.727||95.0|-0.66|0.46|||t-test, 2 sided|||||0.46|-0.66|0.727
82649668|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.813||95.0|-0.63|0.8|||t-test, 2 sided|||||0.80|-0.63|0.813
82649669|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.035||95.0|-1.21|-0.04|||t-test, 2 sided|||||-0.04|-1.21|0.035
82456897|NCT01272232|164618253|SUPERIORITY_OR_OTHER||Treatment contrast|-0.74|||<|0.0001||95.0|-0.91|-0.57||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.57|-0.91|<0.0001
82456898|NCT01272232|164618253|SUPERIORITY_OR_OTHER||Treatment contrast|-0.19||||0.0125||95.0|-0.34|-0.04||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.04|-0.34|0.0125
82456899|NCT01272232|164618254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.79|||<|0.0001||95.0|5.74|13.4||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||13.4|5.74|<0.0001
82456900|NCT01272232|164618254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.71|||<|0.0001||95.0|4.76|12.51||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||12.51|4.76|<0.0001
82456901|NCT01272232|164618254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.5319||95.0|0.76|1.71||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||1.71|0.76|0.5319
82456902|NCT01272232|164618255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.61|||<|0.0001||95.0|6.05|15.26||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||15.26|6.05|<0.0001
82649670|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.054||95.0|-1.17|0.01|||t-test, 2 sided|||||0.01|-1.17|0.054
82456903|NCT01272232|164618255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.98|||<|0.0001||95.0|3.59|9.97||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||9.97|3.59|<0.0001
82456904|NCT01272232|164618255|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.0142||95.0|1.1|2.34||p values are 2-sided; 5% pre-defined significance level.|Regression, Logistic|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||2.34|1.10|0.0142
82649671|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.051||95.0|-1.43|0.0|||t-test, 2 sided|||||0.00|-1.43|0.051
82438991|NCT02075047|164585884|SUPERIORITY||Difference in LS mean|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.145|TWO_SIDED|95.0|-0.01|0.06|||Mixed Models Analysis|||Change at Week 1: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.06|-0.01|0.145
82438992|NCT02075047|164585884|SUPERIORITY||Difference in LS mean|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.148|TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|||Change at Week 2: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.07|-0.01|0.148
82438993|NCT02075047|164585884|SUPERIORITY||Difference in LS mean|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.082|TWO_SIDED|95.0|-0.01|0.15|||Mixed Models Analysis|||Change at Week 3: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.15|-0.01|0.082
82438994|NCT02075047|164585884|SUPERIORITY||Difference in LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.07|TWO_SIDED|95.0|0.0|0.09|||Mixed Models Analysis|||Change at Week 4: Results were obtained from a mixed effects repeated measures analysis of covariance model treatment, visit, visit-by-treatment interaction, and weight category as fixed effects and baseline score as a covariate along with participant as a random effect.||0.09|-0.00|0.070
82438995|NCT03552536|164585887|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. Least squares (LS) mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-0.6|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8583 and placebo at least 0.5 log10 copies/mL was 64%.|||||
82438996|NCT05898672|164585905|OTHER||Ratio of adjusted geometric means|131.18|||||TWO_SIDED|90.0|115.89|148.48||||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant within sequence as a random effect. Ratio of adjusted geometric means of test to reference was reported; where test treatment is Rosuvastatin 10 mg + Nirmatrelvir 300 mg/ Ritonavir 100 mg and reference treatment is Rosuvastatin 10 mg. Ratio and associated 90% CIs were reported in percentage.||148.48|115.89|
82438997|NCT05898672|164585906|OTHER||Ratio of adjusted geometric means|212.44|||||TWO_SIDED|90.0|174.31|258.9||||||Analysis was performed using mixed effect model with treatment as a fixed effect and participant within sequence as a random effect. Ratio of adjusted geometric means of test to reference was reported; where test treatment is Rosuvastatin 10 mg + Nirmatrelvir 300 mg/ Ritonavir 100 mg and reference treatment is Rosuvastatin 10 mg. Ratio and associated 90% CIs were reported in percentage.||258.90|174.31|
82438998|NCT01778049|164585921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.0013||95.0|-0.52|-0.13|||Mixed Model Repeated Measure (MMRM)|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference calculated as lina5 (E10) minus Plc (E10) value.|Superiority of lina5 (E10) vs. Plc (E10): change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c as linear covariates \& baseline estimated glomerula filtration rate (eGFR), geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.13|-0.52|0.0013
82438999|NCT01778049|164585921|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.66|-0.28|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E25) minus Plc (E25).|Superiority of lina5 (E25) vs. Plc (E25): change in HbA1c using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c as linear covariates \& baseline eGFR, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.28|-0.66|<0.0001
82439000|NCT01778049|164585922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.25||0.0103||95.0|-1.15|-0.16|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E10) minus Plc (E10).|Superiority of lina5 (E10) vs. Plc (E10): change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c \& baseline eGFR as linear covariates, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.16|-1.15|0.0103
82456905|NCT01272232|164618256|SUPERIORITY_OR_OTHER||Treatment contrast|-3.22|||<|0.0001||95.0|-4.2|-2.23||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-2.23|-4.20|<0.0001
82456906|NCT01272232|164618256|SUPERIORITY_OR_OTHER||Treatment contrast|-2.06||||0.0004||95.0|-3.2|-0.92||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.92|-3.20|0.0004
82649672|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.67||||0.07||95.0|-1.39|0.05|||t-test, 2 sided|||||0.05|-1.39|0.070
82649673|NCT00408876|165014873|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.872||95.0|-0.54|0.64|||t-test, 2 sided|||||0.64|-0.54|0.872
82649674|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.79||95.0|-0.68|0.89|||t-test, 2 sided|||||0.89|-0.68|0.790
82649675|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93||||0.005||95.0|-1.57|-0.28|||t-test, 2 sided|||||-0.28|-1.57|0.005
82456907|NCT01272232|164618256|SUPERIORITY_OR_OTHER||Treatment contrast|-1.16||||0.0224||95.0|-2.16|-0.16||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.16|-2.16|0.0224
82456908|NCT01272232|164618257|SUPERIORITY_OR_OTHER||Treatment contrast|-2.17||||0.0002||95.0|-3.32|-1.02||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.02|-3.32|0.0002
82456909|NCT01272232|164618257|SUPERIORITY_OR_OTHER||Treatment contrast|-1.2||||0.0725||95.0|-2.51|0.11||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.11|-2.51|0.0725
82456910|NCT01272232|164618257|SUPERIORITY_OR_OTHER||Treatment contrast|-0.97||||0.0717||95.0|-2.02|0.09||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.09|-2.02|0.0717
82456911|NCT01272232|164618259|SUPERIORITY_OR_OTHER||Treatment contrast|-2.49|||<|0.0001||95.0|-3.75|-1.24||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-1.24|-3.75|<0.0001
82456912|NCT01272232|164618259|SUPERIORITY_OR_OTHER||Treatment contrast|-1.47||||0.0457||95.0|-2.92|-0.03||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||-0.03|-2.92|0.0457
82456913|NCT01272232|164618259|SUPERIORITY_OR_OTHER||Treatment contrast|-1.02||||0.0961||95.0|-2.22|0.18||p values are 2-sided; 5% pre-defined significance level.|ANCOVA|||Test of no difference. Fixed factors: treatment, country, sex, background treatment, baseline HbA1c stratum, background treatment/HbA1c-stratum-interaction; covariate: baseline value.||0.18|-2.22|0.0961
82456914|NCT03101566|164618334|OTHER||||||||||||||||||PFS at 6 months was estimated for this trial using the product-limit method of Kaplan and Meier with 95% confidence intervals calculated using Greenwood's formula. All statistical analyses were completed using the SAS System, v9.4 \[Cary, NC, USA\].|||
82456915|NCT01363700|164618338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.52|-1.11|||t-test, 2 sided|||||-1.11|-1.52|<0.001
82456916|NCT01363700|164618339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.71|-0.92|||t-test, 2 sided|||||-0.92|-1.71|<0.001
82456917|NCT01363700|164618340|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in Mean Ocular itching score compared to Olopatadine was assessed on the non-inferiority margin (0.5) with the upper limit of the confidence interval of the difference between the Epinastine (DE-114) and Olopatadine treatment groups.|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.21|0.08||||||||0.08|-0.21|
82456918|NCT01363700|164618341|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority in Mean Ocular hyperemia score compared to Olopatadine was assessed on the non-inferiority margin (0.5) with the upper limit of the confidence interval of the difference between the Epinastine (DE-114) and Olopatadine treatment groups.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.81|0.22||||||||0.22|-0.81|
82456919|NCT01126723|164618350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||The a priori threshold for statistical significance was set to 0.05.|Fisher Exact|||||||0.15
82456920|NCT01329978|164618361|SUPERIORITY_OR_OTHER||Difference in proportions|-1.4||||0.77|TWO_SIDED|95.0|-12.2|9.4||The p-value is based on the Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||The difference in proportions and its 95% confidence interval (CI) were calculated based on stratum-adjusted Mantel-Haenszel (MH) proportions.|The analyses was stratified by IL28B (CC versus any T allele) and plasma HCV RNA (\< 800,000 IU/mL versus ≥ 800,000 IU/mL). Only participants with genotype 1 were included in the comparison due to the fact that participants with genotype 4 and 6 were only enrolled in the SOF+PEG+RBV 24 weeks group.||9.4|-12.2|0.77
82456921|NCT01329978|164618361|SUPERIORITY_OR_OTHER||Difference in proportions|-0.4||||0.93|TWO_SIDED|95.0|-10.8|9.9||The p-value is based on the CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel|The difference in proportions and its 95% CI were calculated based on stratum-adjusted MH proportions.||The analyses was stratified by IL28B (CC versus any T allele) and plasma HCV RNA (\< 800,000 IU/mL versus ≥ 800,000 IU/mL).||9.9|-10.8|0.93
82456922|NCT03901144|164618378|SUPERIORITY||Mean Difference (Final Values)|-9.026|||<|0.001|TWO_SIDED|95.0|-12.562|-5.489|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-5.489|-12.562|<0.001
82456923|NCT03901144|164618378|SUPERIORITY||Mean Difference (Final Values)|-4.194||||0.021|TWO_SIDED|95.0|-7.76|-0.629|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-0.629|-7.760|0.021
82456924|NCT03901144|164618378|SUPERIORITY||Mean Difference (Final Values)|-9.021|||<|0.001|TWO_SIDED|95.0|-12.602|-5.44|||ANCOVA|||Summary of TEWL (g/m2h) change from day 29 to day 31||-5.440|-12.602|<0.001
82456925|NCT03901144|164618379|SUPERIORITY||Mean Difference (Final Values)|-3.538|||<|0.001|TWO_SIDED|95.0|-5.114|-1.962|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-1.962|-5.114|<0.001
82649676|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.009||95.0|-1.52|-0.22|||t-test, 2 sided|||||-0.22|-1.52|0.009
82649677|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03||||0.011||95.0|-1.83|-0.24|||t-test, 2 sided|||||-0.24|-1.83|0.011
82649678|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97||||0.016||95.0|-1.77|-0.18|||t-test, 2 sided|||||-0.18|-1.77|0.016
82649679|NCT00408876|165014874|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.857||95.0|-0.6|0.72|||t-test, 2 sided|||||0.72|-0.60|0.857
82649680|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.948||95.0|-0.81|0.76|||t-test, 2 sided|||||0.76|-0.81|0.948
82649681|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.096||95.0|-1.2|0.1|||t-test, 2 sided|||||0.10|-1.20|0.096
82649682|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.239||95.0|-1.05|0.26|||t-test, 2 sided|||||0.26|-1.05|0.239
82649683|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.196||95.0|-1.32|0.27|||t-test, 2 sided|||||0.27|-1.32|0.196
82649684|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.367||95.0|-1.17|0.43|||t-test, 2 sided|||||0.43|-1.17|0.367
82456926|NCT03901144|164618379|SUPERIORITY||Mean Difference (Final Values)|-1.748||||0.031|TWO_SIDED|95.0|-3.332|-0.164|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-0.164|-3.332|0.031
82456927|NCT03901144|164618379|SUPERIORITY||Mean Difference (Final Values)|-4.744|||<|0.001|TWO_SIDED|95.0|-6.332|-3.156|||ANCOVA|||Summary of Objective Erythema (2D Skin Imaging) change from day 29 to day 31||-3.156|-6.332|<0.001
82456928|NCT03901144|164618380|SUPERIORITY||Mean Difference (Final Values)|-19.077||||0.002|TWO_SIDED|95.0|-31.325|-6.829|||ANCOVA|||Summary of Redness-Mexameter change from day 29 to day 31||-6.829|-31.325|0.002
82456929|NCT03901144|164618380|SUPERIORITY||Mean Difference (Final Values)|-4.493||||0.471|TWO_SIDED|95.0|-16.787|7.801|||ANCOVA|||||7.801|-16.787|0.471
82456930|NCT03901144|164618380|SUPERIORITY||Mean Difference (Final Values)|-27.035|||<|0.001|TWO_SIDED|95.0|-39.372|-14.698|||ANCOVA|||Summary of Redness - Mexameter change from day 29 to day 31||-14.698|-39.372|<0.001
82456931|NCT03901144|164618382|SUPERIORITY||Mean Difference (Net)|-0.354|||<|0.001|TWO_SIDED|95.0|-0.558|-0.15|||ANCOVA|||Summary of Visual Redness at day 31||-0.150|-0.558|<0.001
82456932|NCT03901144|164618382|SUPERIORITY||Mean Difference (Final Values)|-0.089||||0.392|TWO_SIDED|95.0|-0.292|0.115|||ANCOVA|||Summary of Visual Redness at day 31||0.115|-0.292|0.392
82649685|NCT00408876|165014875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.637||95.0|-0.5|0.82|||t-test, 2 sided|||||0.82|-0.50|0.637
82649686|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.887||95.0|-0.76|0.65|||t-test, 2 sided|||||0.65|-0.76|0.887
82456933|NCT03901144|164618382|SUPERIORITY||Mean Difference (Final Values)|-0.447|||<|0.001|TWO_SIDED|95.0|-0.652|-0.242|||ANCOVA|||Summary of Visual Redness at day 31||-0.242|-0.652|<0.001
82456934|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.483||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.483
82456935|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.698||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.698
82456936|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.782
82456937|NCT00452790|164618417|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456938|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.729||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.729
82456939|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of Induration-Severe within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456940|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.819||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Any within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.819
82456941|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.904
82456942|NCT00452790|164618417|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Moderate within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456943|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456944|NCT00452790|164618417|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Fisher Exact|||Difference in incidence rates of any local reaction (tenderness, induration and erythema) within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.690
82649687|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.006||95.0|-1.4|-0.23|||t-test, 2 sided|||||-0.23|-1.40|0.006
82649688|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.392||95.0|-0.84|0.33|||t-test, 2 sided|||||0.33|-0.84|0.392
82649689|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.036||95.0|-1.48|-0.05|||t-test, 2 sided|||||-0.05|-1.48|0.036
82649690|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.573||95.0|-0.92|0.51|||t-test, 2 sided|||||0.51|-0.92|0.573
82649691|NCT00408876|165014876|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.064||95.0|-0.03|1.15|||t-test, 2 sided|||||1.15|-0.03|0.064
82649692|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.374||95.0|-1.15|0.43|||t-test, 2 sided|||||0.43|-1.15|0.374
82649693|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.007||95.0|-1.55|-0.25|||t-test, 2 sided|||||-0.25|-1.55|0.007
82649694|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.169||95.0|-1.12|0.2|||t-test, 2 sided|||||0.20|-1.12|0.169
82649695|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.182||95.0|-1.35|0.26|||t-test, 2 sided|||||0.26|-1.35|0.182
82649696|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.802||95.0|-0.91|0.7|||t-test, 2 sided|||||0.70|-0.91|0.802
82456945|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.933
82456946|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.776||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.776
82456947|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.596||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.596
82456948|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.909||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.909
82456949|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.683
82456950|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456951|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.203||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.203
82456952|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.399||95.0|||||Fisher Exact|||Difference in incidence rates of Erythema-Mild within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.399
82456953|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.382||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.382
82456954|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456955|NCT00452790|164618418|SUPERIORITY_OR_OTHER|||||||0.738||95.0|||||Fisher Exact|||Difference in incidence rates of any Local reaction (tenderness, induration, erythema) within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.738
82456956|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.918||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.918
82456957|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.906
82456958|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.404
82456959|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.305||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.305
82456960|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.771||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.771
82456961|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82649697|NCT00408876|165014877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44||||0.191||95.0|-0.22|1.11|||t-test, 2 sided|||||1.11|-0.22|0.191
82649698|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.556||95.0|-1.1|0.59|||t-test, 2 sided|||||0.59|-1.10|0.556
82649699|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73||||0.041||95.0|-1.42|-0.03|||t-test, 2 sided|||||-0.03|-1.42|0.041
82649700|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.22||95.0|-1.14|0.26|||t-test, 2 sided|||||0.26|-1.14|0.220
82649701|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.278||95.0|-1.33|0.38|||t-test, 2 sided|||||0.38|-1.33|0.278
82649702|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.673||95.0|-1.04|0.68|||t-test, 2 sided|||||0.68|-1.04|0.673
82456962|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.867||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.867
82649703|NCT00408876|165014878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29||||0.422||95.0|-0.42|1.0|||t-test, 2 sided|||||1.00|-0.42|0.422
82649704|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.234||95.0|-1.03|0.25|||t-test, 2 sided|||||0.25|-1.03|0.234
82649705|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.93|||<|0.001||95.0|-1.46|-0.4|||t-test, 2 sided|||||-0.40|-1.46|<0.001
82649706|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.213||95.0|-0.87|0.2|||t-test, 2 sided|||||0.20|-0.87|0.213
82649707|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.105||95.0|-1.19|0.11|||t-test, 2 sided|||||0.11|-1.19|0.105
82456963|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.735||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.735
82456964|NCT00452790|164618419|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456965|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456966|NCT00452790|164618419|SUPERIORITY_OR_OTHER|||||||0.842||95.0|||||Fisher Exact|||Difference in incidence rates of any Local Reaction (tenderness, induration, erythema) within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.842
82456967|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.908
82456968|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.772||95.0|||||Fisher Exact|||Difference in incidence rates of tenderness-significant within 4 days of the toddler dose, dose 4(12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.772
82456969|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.681||95.0|||||Fisher Exact|||Difference in incidence rates of induration-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.681
82456970|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.881||95.0|||||Fisher Exact|||Difference in incidence rates of induration-mild within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.881
82456971|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.509||95.0|||||Fisher Exact|||Difference in incidence rates of induration-moderate within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.509
82456972|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of induration-severe within 4 days of the toddler dose (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456973|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-any within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.880
82456974|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-mild within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.739
82456975|NCT00452790|164618420|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-moderate within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456976|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of erythema-severe within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456977|NCT00452790|164618420|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Fisher Exact|||Difference in incidence rates of any local reaction (tenderness, induration, erythema) within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.446
82456978|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.625||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>=38 but \<=39 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.625
82456979|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.375||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<=40 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.375
82649708|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.876||95.0|-0.6|0.7|||t-test, 2 sided|||||0.70|-0.60|0.876
82649709|NCT00408876|165014879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59||||0.033||95.0|0.05|1.13|||t-test, 2 sided|||||1.13|0.05|0.033
82541503|NCT02477670|164782398|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.79||||0.073|TWO_SIDED|95.0|-3.75|0.17|||Mixed Models Analysis|||Sequential Parallel Comparison Design (SPCD) Weighted Ordinary Least Squares (OLS) z-statistic. Treatment differences in each stage were estimated by the Mixed Model Repeated Measures (MMRM).||0.17|-3.75|0.073
82649710|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.925||95.0|-0.73|0.8|||t-test, 2 sided|||||0.80|-0.73|0.925
82456980|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.624||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.624
82456981|NCT00452790|164618421|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456982|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.282||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.282
82541504|NCT02477670|164782399|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.25||||0.025|TWO_SIDED|95.0|-4.21|-0.29|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.29|-4.21|0.025
82541505|NCT02477670|164782400|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.2||||0.027|TWO_SIDED|95.0|-4.16|-0.24|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.24|-4.16|0.027
82541506|NCT02477670|164782401|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.26||||0.024|TWO_SIDED|95.0|-4.22|-0.3|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.3|-4.22|0.024
82541507|NCT02477670|164782402|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.6||||0.009|TWO_SIDED|95.0|-4.56|-0.64|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.64|-4.56|0.009
82541508|NCT02477670|164782403|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.39||||0.7|TWO_SIDED|95.0|-2.35|1.57|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.57|-2.35|0.700
82541509|NCT02477670|164782404|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.93||||0.054|TWO_SIDED|95.0|-3.89|0.03|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.03|-3.89|0.054
82541510|NCT02477670|164782405|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.35||||0.723|TWO_SIDED|95.0|-2.31|1.61|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.61|-2.31|0.723
82541511|NCT02477670|164782406|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.85||||0.064|TWO_SIDED|95.0|-3.81|0.11|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.11|-3.81|0.064
82649711|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.85||||0.008||95.0|-1.49|-0.22|||t-test, 2 sided|||||-0.22|-1.49|0.008
82649712|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.132||95.0|-1.12|0.15|||t-test, 2 sided|||||0.15|-1.12|0.132
82649713|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89||||0.024||95.0|-1.67|-0.12|||t-test, 2 sided|||||-0.12|-1.67|0.024
82456983|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.307||95.0|||||Fisher Exact|||Difference in incidence rates of Increased sleep within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.307
82456984|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.939||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.939
82456985|NCT00452790|164618421|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 1 (6 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.085
82541512|NCT02477670|164782407|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.64||||0.1|TWO_SIDED|95.0|-3.6|0.32|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.32|-3.6|0.100
82541513|NCT02477670|164782408|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.86||||0.388|TWO_SIDED|95.0|-2.82|1.1|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.1|-2.82|0.388
82541514|NCT02477670|164782409|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.9||||0.367|TWO_SIDED|95.0|-2.86|1.06|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.06|-2.86|0.367
82541515|NCT02477670|164782410|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.76||||0.447|TWO_SIDED|95.0|-2.72|1.2|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.2|-2.72|0.447
82541516|NCT02477670|164782411|SUPERIORITY||SPCD Weighted OLS z-statistic|-2.23||||0.026|TWO_SIDED|95.0|-4.19|-0.27|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||-0.27|-4.19|0.026
82541517|NCT02477670|164782412|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.62||||0.106|TWO_SIDED|95.0|-3.58|0.34|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||0.34|-3.58|0.106
82541518|NCT02477670|164782413|SUPERIORITY||SPCD Weighted OLS z-statistic|1.78||||0.074|TWO_SIDED|95.0|-0.18|3.74|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||3.74|-0.18|0.074
82541519|NCT02477670|164782414|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.79||||0.427|TWO_SIDED|95.0|-2.75|1.17|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||1.17|-2.75|0.427
82649714|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.184||95.0|-1.3|0.25|||t-test, 2 sided|||||0.25|-1.30|0.184
82649715|NCT00408876|165014880|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.37||||0.262||95.0|-0.27|1.01|||t-test, 2 sided|||||1.01|-0.27|0.262
82649716|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.849||95.0|-0.84|0.69|||t-test, 2 sided|||||0.69|-0.84|0.849
82649717|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73||||0.024||95.0|-1.36|-0.1|||t-test, 2 sided|||||-0.10|-1.36|0.024
82456986|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.111
82456987|NCT00452790|164618422|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456988|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.488||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.488
82456989|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Fisher Exact|||Difference in incidence rates of Decreased appetite within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.736
82456990|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.856||95.0|||||Fisher Exact|||Difference in incidence rates of Irritability within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.856
82541520|NCT02477670|164782415|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.91||||0.0566|TWO_SIDED|95.0|-3.87|0.05|||McNemar|||Treatment differences in each stage were estimated by the MMRM.||0.05|-3.87|0.0566
82541521|NCT02477670|164782416|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.37||||0.17|TWO_SIDED|95.0|-3.33|0.59|||ANCOVA|||||0.59|-3.33|0.1700
82541522|NCT02477670|164782417|SUPERIORITY||SPCD Weighted OLS z-statistic|0.53||||0.595|TWO_SIDED|95.0|-1.43|2.49|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||2.49|-1.43|0.595
82541523|NCT02477670|164782418|SUPERIORITY||SPCD Weighted OLS z-statistic|2.284||||0.022|TWO_SIDED|95.0|0.324|4.244|||ANCOVA|||||4.244|0.324|0.022
82649718|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.773||95.0|-0.73|0.54|||t-test, 2 sided|||||0.54|-0.73|0.773
82456991|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.098||95.0|||||Fisher Exact|||Difference in incidence rates of Increased sleep within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.098
82456992|NCT00452790|164618422|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Fisher Exact|||Difference in incidence rates of Decreased sleep within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.034
82456993|NCT00452790|164618422|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of Any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 2 (10 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82456994|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.085
82456995|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82456996|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.489||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.489
82456997|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.840
82456998|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.605||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.605
82541524|NCT02477670|164782419|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.17||||0.862|TWO_SIDED|95.0|-2.13|1.79|||ANCOVA|||||1.79|-2.13|0.862
82541525|NCT02477670|164782420|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.149||||0.251|TWO_SIDED|95.0|-3.109|0.811|||ANCOVA|||||0.811|-3.109|0.251
82541526|NCT02477670|164782421|SUPERIORITY||SPCD Weighted OLS z-statistic|-1.159||||0.246|TWO_SIDED|95.0|-3.119|0.801|||ANCOVA|||||0.801|-3.119|0.246
82541527|NCT02477670|164782422|SUPERIORITY||SPCD Weighted OLS z-statistic|0.231||||0.818|TWO_SIDED|95.0|-1.729|2.191|||ANCOVA|||||2.191|-1.729|0.818
82541528|NCT02477670|164782423|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.04||||0.968|TWO_SIDED|95.0|-2.0|1.92|||ANCOVA|||||1.92|-2.00|0.968
82541529|NCT02477670|164782424|SUPERIORITY||SPCD Weighted OLS z-statistic|-0.306||||0.76|TWO_SIDED|95.0|-2.266|1.654|||ANCOVA|||||1.654|-2.266|0.760
82541530|NCT02477670|164782425|SUPERIORITY||SPCD Weighted OLS z-statistic|1.243||||0.214|TWO_SIDED|95.0|-0.717|3.203|||ANCOVA|||||3.203|-0.717|0.214
82541531|NCT02477670|164782426|SUPERIORITY|||||||0.071|||||||SPCD 1 degree of freedom score test|||||||0.071
82541532|NCT02477670|164782427|SUPERIORITY||SPCD Weighted OLS z-statistic|0.951||||-0.06|TWO_SIDED|95.0|-1.009|2.911|||Mixed Models Analysis|||Treatment differences in each stage were estimated by the MMRM.||2.911|-1.009|-0.06
82541533|NCT00004124|164782432|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7|TWO_SIDED|95.0|0.79|1.43|||Regression, Cox|||||1.43|0.79|0.70
82541534|NCT00004124|164782433|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.8|1.27|||Regression, Cox|||||1.27|0.80|0.94
82649719|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.097||95.0|-1.43|0.12|||t-test, 2 sided|||||0.12|-1.43|0.097
82439001|NCT01778049|164585922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.22||0.0452||95.0|-0.87|-0.01|||MMRM|The unstructured covariance structure has been used to fit the mixed model.|Mean Difference (Final Values) is actually the adjusted mean difference value calculated as lina5 (E25) minus Plc (E25).|Superiority of lina5 (E25) vs. Plc (E25): change in FPG using a restricted maximum likelihood (REML)- based mixed model repeated measures (MMRM) approach. The model includes baseline HbA1c \& baseline eGFR as linear covariates, geographical region, treatment, visit, visit by treatment interaction as fixed effects.||-0.01|-0.87|0.0452
82649720|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.96||95.0|-0.79|0.75|||t-test, 2 sided|||||0.75|-0.79|0.960
82439002|NCT01218958|164585923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0245|TWO_SIDED|95.0|0.6|0.94||The Hochberg method was used to adjust P-value for multiple comparisons (ie, 380 mg dose vs. placebo and 190 mg dose vs. placebo).|Andersen-Gill recurrent-event Cox|||"The event rate (percentage) is represented by the number of heavy drinking days divided by number of days at risk. For each day, the active groups' results were contrasted with placebo to form the event rate ratio. Thus, a hazard ratio of 0.75 for the 380 mg group indicates a 25% reduction in heavy drinking compared with that of placebo.~The method of analysis estimates the average ratio over time and accounts for discontinuation. Point/interval estimates for pairwise ratios were derived."||0.940|0.600|0.0245
82439003|NCT01218958|164585923|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0744|TWO_SIDED|95.0|0.677|1.018|||Andersen-Gill recurrent-event Cox model|||||1.018|0.677|0.0744
82439004|NCT02379988|164585945|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions|||||=|0.0063||||||P-value for Free breathing and Breath Holding Heart Mean|Wilcoxon (Mann-Whitney)|||||||=0.0063
82439005|NCT02379988|164585945|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.011||||||P-value for Free breathing and Breath Holding Lung Mean|Wilcoxon (Mann-Whitney)|||||||=0 .0110
82439006|NCT02379988|164585945|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.5098||||||P-value for Free breathing and Breath Holding LAD Mean|Wilcoxon (Mann-Whitney)|||||||=0.5098
82439007|NCT02379988|164585946|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions|||||=|0.001||||||P-value for Heart Max Free breathing and Breath Hold|Wilcoxon (Mann-Whitney)|||||||=0.0010
82439008|NCT02379988|164585946|EQUIVALENCE|The wilcoxon paired signed rank test was used as the primary analysis because of the non-normal distributions.|||||=|0.011||||||P-value for Lung Max Free breathing and Breath Hold|Wilcoxon (Mann-Whitney)|||||||=0.0110
82439009|NCT02379988|164585947|EQUIVALENCE|Paired T-test|||||=|0.01||||||P-value for Large breast volume group|Paired T-test|||||||=0.01
82541535|NCT00516386|164782445|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|543.0|STANDARD_ERROR_OF_MEAN|41.0|<|0.05|||||||Paired t-test|||We used paired t-tests to assess changes in levels of IGF-1 from baseline levels in girls with AN receiving rhIGF-1. Our hypothesis was that rhIGF-1 administration would be associated with a significant increase in IGF-1 levels.||||<0.05
82649721|NCT00408876|165014881|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0.052||95.0|0.0|1.28|||t-test, 2 sided|||||1.28|0.00|0.052
82649722|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.756||95.0|||||Repeated Measures|||||||0.756
82439010|NCT02379988|164585947|EQUIVALENCE|Paired T-test|||||=|0.1||||||P-value for Small breast volume group|Paired T-test|||||||=0.10
82439011|NCT02379988|164585948|EQUIVALENCE|Wilcoxon test was used due to the non-normal distribution of the data|||||=|0.7776|||||||Wilcoxon (Mann-Whitney)|||||||=0.7776
82439012|NCT02089464|164586011|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
82439013|NCT02089464|164586012|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
82439014|NCT02089464|164586013|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82439015|NCT02089464|164586014|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82439016|NCT02089464|164586015|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82439017|NCT02089464|164586017|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
82439018|NCT02089464|164586018|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82439019|NCT02089464|164586019|SUPERIORITY|||||||0.63|||||||Chi-squared|||||||0.63
82439020|NCT04262882|164586043|SUPERIORITY||Odds Ratio (OR)|1.67||||0.2|TWO_SIDED|95.0|0.77|3.64|||Regression, Logistic|Adjusted for age and religion. Analysis in GEE to account for dependence in repeated, dyadic data.|Reference group is the comparator arm|||3.64|0.77|0.20
82439021|NCT04262882|164586046|SUPERIORITY||Wald Chi-Square|35.2|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints.|||||<0.001
82439022|NCT04262882|164586046|SUPERIORITY||unstandardized beta|0.41|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439023|NCT04262882|164586046|SUPERIORITY||unstandardized beta|0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82456999|NCT00452790|164618423|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of increased sleep within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82541536|NCT00516386|164782446|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|39.3|STANDARD_ERROR_OF_MEAN|9.3|<|0.05||95.0|||||Paired t-test|||We used a paired t-test to determine the change in P1NP from baseline to 7-10 days following administration of rhIGF-1||||<0.05
82649723|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.507||95.0|||||Repeated Measures|||||||0.507
82649724|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||Repeated Measures|||||||0.056
82649725|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.816||95.0|||||Repeated Measures|||||||0.816
82541537|NCT04001517|164782534|SUPERIORITY||Mean Difference (Net)|0.175||||0.049|TWO_SIDED|95.0|0.001|0.345||The comparison is of neflamapimod 40mg TID to placebo. The p-value was not adjusted for multiple comparisons.|Mixed Models Analysis||The comparison is of neflamapimod 40mg TID to placebo. The positive value represents a better outcome with neflamapimod 40mg treatment vs. placebo.|This was an exploratory trial and no explicit a priori hypothesis was established and contained in the protocol. As such, no formal power calculations were conducted. The primary objective of the study was to evaluate the effects of neflamapimod on cognition, and accordingly the primary endpoint was change in combined z-score of the six tests in the NTB, analyzed by Linear Mixed Effects (LME) model for repeated measures.||0.345|0.001|0.049
82541538|NCT04001517|164782534|SUPERIORITY|Comparison of combined neflamapimod groups vs. placebo.|||||>|0.2|||||||Mixed Models Analysis|||||||>0.2
82541539|NCT04001517|164782535|SUPERIORITY|Comparison of combined neflamapimod 40mg TID vs. placebo. The p-value is not adjusted for multiple comparisons.|Mean Difference (Net)|-0.56||||0.007|TWO_SIDED|95.0|-0.96|-0.16||Comparison of combined neflamapimod dose groups vs. placebo utilizing mixed model for repeated measures with baseline as a covariate. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis||The comparison is of neflamapimod 40mg TID to placebo. A negative value indicates improvement compared to placebo.|||-0.16|-0.96|0.007
82541540|NCT04001517|164782535|SUPERIORITY||Mean Difference (Net)|-0.45||||0.023|TWO_SIDED|95.0|-0.83|-0.06||Mixed model for repeated measures with baseline as a covariate. The p-value was not adjusted for multiple comparisons|Mixed Models Analysis||Comparison of combined neflamapimod dose groups vs. placebo. Negative values represents a better outcome with neflamapimod relative to placebo.|A secondary analysis was conducted comparing the combined neflamapimod dose groups vs. placebo.||-0.06|-0.83|0.023
82541541|NCT04001517|164782536|SUPERIORITY||||||>|0.2|||||||Mixed Models Analysis|||||||>0.2
82541542|NCT04001517|164782537|OTHER||Mean Difference (Net)|-1.53||||0.15|TWO_SIDED|95.0|-3.61|0.55|||Mixed Models Analysis|||||.55|-3.61|0.15
82541543|NCT04001517|164782537|SUPERIORITY||Mean Difference (Net)|-1.31||||0.077|TWO_SIDED|95.0|-5.03|2.34|||Mixed Models Analysis|||Comparison of combined neflamapimod groups (i.e., all neflamapimod) vs. placebo||2.34|-5.03|0.077
82541544|NCT04001517|164782538|SUPERIORITY||Mean Difference (Net)|0.32|||>|0.2|TWO_SIDED|95.0|-1.27|1.91|||Mixed Models Analysis||Comparison of change from baseline over course of study for NFMD 40mg TID vs. placebo.|||1.91|-1.27|>0.2
82541545|NCT04001517|164782539|OTHER||Mean Difference (Net)|-1.4||||0.024|TWO_SIDED|95.0|-2.6|-0.2|||Mixed Models Analysis||Mean difference for the comparison of 40 mg TID vs. placebo is reported.|||-0.2|-2.6|0.024
82541546|NCT04001517|164782539|SUPERIORITY|Comparison of combined neflamapimod dose groups vs. placebo.|Mean Difference (Net)|-1.36||||0.044|TWO_SIDED|95.0|-2.69|-0.04|||Mixed Models Analysis|||||-0.04|-2.69|0.044
82578124|NCT03852719|164865747|OTHER||Difference in percentages|7.8||||0.4139|TWO_SIDED|96.0|-8.5|24.3||Fisher's exact test was used for the comparison of bulevirtide 10 mg versus bulevirtide 2 mg using a significance level of 0.04 at Week 48.|Fisher Exact|||||24.3|-8.5|0.4139
82578125|NCT03852719|164865748|OTHER||Difference in percentages|39.3|||<|0.0001|TWO_SIDED|95.0|20.0|55.8||Fisher's exact test was used for comparison of bulevirtide 2 mg versus Delayed treatment using a significance level of 0.05.|Fisher Exact|||||55.8|20.0|<0.0001
82541547|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.03|||||TWO_SIDED|95.0|0.81|1.31|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-1.||1.31|0.81|
82541548|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.96|||||TWO_SIDED|95.0|0.8|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-3||1.16|0.8|
82541549|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.13|||||TWO_SIDED|95.0|0.92|1.4|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-4||1.4|0.92|
82578126|NCT03852719|164865748|OTHER||Difference in percentage|44.2|||<|0.0001|TWO_SIDED|95.0|25.8|59.9||Fisher's exact test was used for comparison of bulevirtide 10 mg versus Delayed treatment using a significance level of 0.05.|Fisher Exact|||||59.9|25.8|<0.0001
82578127|NCT03852719|164865749|OTHER||Difference in LS Mean|-4.02||||0.001|TWO_SIDED|95.0|-6.39|-1.65|||ANCOVA|||||-1.65|-6.39|0.0010
82578128|NCT03852719|164865749|OTHER||Difference in LS Mean|-3.93||||0.0009|TWO_SIDED|95.0|-6.23|-1.63|||ANCOVA|||||-1.63|-6.23|0.0009
82578129|NCT03852719|164865750|OTHER||Difference in Least Square (LS) Mean|0.57||||0.5156|TWO_SIDED|95.0|-1.16|2.3|||MMRM|||||2.30|-1.16|0.5156
82541550|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.96|||||TWO_SIDED|95.0|0.75|1.21|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-5||1.21|0.75|
82578130|NCT03852719|164865751|OTHER||Difference in Least Square (LS) Mean|-1.21||||0.2977|TWO_SIDED|95.0|-3.5|1.08|||MMRM|||||1.08|-3.50|0.2977
82578131|NCT03852719|164865752|SUPERIORITY||LS-Mean of Diffrence|-0.04||||0.9719|TWO_SIDED|95.0|-2.23|2.15||P-value was based on the mixed-effects model for repeated measurements (MMRM) model.|MMRM||Least squares (LS) means, standard errors (SE), 95% CIs and p-values were based on the mixed-effects model for repeated measurements (MMRM) model for change from baseline.|||2.15|-2.23|0.9719
82578132|NCT03852719|164865753|SUPERIORITY|P-value was based on the mixed-effects model for repeated measurements (MMRM) model.|LS-Mean of Difference|2.11||||0.2369|TWO_SIDED|95.0|-1.41|5.63|||MMRM||Least squares (LS) means, standard errors (SE), 95% CIs and p-values were based on the mixed-effects model for repeated measurements (MMRM) model for change from baseline.|||5.63|-1.41|0.2369
82649726|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.208||95.0|||||Repeated Measures|||||||0.208
82649727|NCT00408876|165014882|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Repeated Measures|||||||0.212
82439024|NCT04262882|164586047|SUPERIORITY||Wald Chi-Square|64.53|||<|0.001|TWO_SIDED|||||Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|Regression, Linear||Wald Chi-Square tests the overall arm\*time intervention effect across the timepoints.||"Tests of significance for each follow-up time point:~7-months: unstandardized beta=1.08, standard error=0.14, p \< 0.001; 10-months: unstandardized beta=0.79, standard error=0.14, p \< 0.001"|||<0.001
82439025|NCT04262882|164586047|SUPERIORITY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439026|NCT04262882|164586047|SUPERIORITY||unstandardized beta|0.79|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439027|NCT04262882|164586048|SUPERIORITY||Wald Chi-Square|23.89|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439028|NCT04262882|164586048|SUPERIORITY||unstandardized beta|0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||P value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439029|NCT04262882|164586048|SUPERIORITY||unstandardized beta|0.19|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439030|NCT04262882|164586049|SUPERIORITY||Wald Chi-Square|48.26|||<|0.001|TWO_SIDED||||||Regression, Linear|Models control for age and religion. Models were run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439031|NCT04262882|164586049|SUPERIORITY||unstandardized beta|0.68|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Cox|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439032|NCT04262882|164586049|SUPERIORITY||unstandardized beta|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.04|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.04
82439033|NCT04262882|164586050|SUPERIORITY||Wald Chi-Square|9.87||||0.007|TWO_SIDED|||||Arm\*Time p value for 10-months follow up overall.|Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.007
82578133|NCT03852719|164865754|SUPERIORITY||Response Rate Difference|7.6||||0.4695|TWO_SIDED|95.0|-9.6|24.4||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented.|||24.4|-9.6|0.4695
82649728|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.885||95.0|||||Repeated Measures|||||||0.885
82439034|NCT04262882|164586050|SUPERIORITY|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.|unstandardized beta|-0.16|STANDARD_ERROR_OF_MEAN|0.32||0.6|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|||||||0.60
82439035|NCT04262882|164586050|SUPERIORITY||Slope|-0.53|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.07
82439036|NCT04262882|164586051|SUPERIORITY||Wald Chi-Square|10.42||||0.005|TWO_SIDED||||||Regression, Logistic|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.005
82439037|NCT04262882|164586051|SUPERIORITY||Odds Ratio (OR)|1.36||||0.05|TWO_SIDED|95.0|0.99|1.85||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Logistic|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||1.85|0.99|0.05
82439038|NCT04262882|164586051|SUPERIORITY||Odds Ratio (OR)|0.96||||0.71|TWO_SIDED|95.0|0.75|1.22||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Logistic|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||1.22|0.75|0.71
82439039|NCT04262882|164586052|SUPERIORITY||Wald Chi-Square|13.4||||0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
82439040|NCT04262882|164586052|SUPERIORITY||unstandardized beta|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.07
82439041|NCT04262882|164586052|SUPERIORITY||unstandardized beta|0.21|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82649729|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
82649730|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
82649731|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.095||95.0|||||Repeated Measures|||||||0.095
82649732|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Repeated Measures|||||||0.040
82457000|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.265||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.265
82457001|NCT00452790|164618423|SUPERIORITY_OR_OTHER|||||||0.422||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event (fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the infant series dose 3 (14 weeks of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.422
82457002|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.815||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>= 38 but \<= 39 degrees within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.815
82457003|NCT00452790|164618424|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>39 but \<= 40 degrees within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||>0.99
82578134|NCT03852719|164865754|SUPERIORITY||Response Rate Difference|-0.4||||1|TWO_SIDED|95.0|-16.3|15.5||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented|||15.5|-16.3|1.0000
82649733|NCT00408876|165014883|SUPERIORITY_OR_OTHER|||||||0.635||95.0|||||Repeated Measures|||||||0.635
82649734|NCT00408876|165014884|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Repeated Measures|||||||0.575
82649735|NCT00408876|165014884|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Repeated Measures|||||||0.009
82649736|NCT00408876|165014884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82457004|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||||95.0|||||Fisher Exact|||Difference in incidence rates of fever \>40 degrees C within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||
82457005|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.401||95.0|||||Fisher Exact|||Difference in incidence rates of decreased appetite within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.401
82457006|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.511||95.0|||||Fisher Exact|||Difference in incidence rates of irritability within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.511
82457007|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.487||95.0|||||Fisher Exact|||Difference in incidence rates of increased sleep within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.487
82457008|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.388||95.0|||||Fisher Exact|||Difference in incidence rates of decreased sleep within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.388
82457009|NCT00452790|164618424|SUPERIORITY_OR_OTHER|||||||0.753||95.0|||||Fisher Exact|||Difference in incidence rates of any systemic event fever, decrease in appetite, irritability, increased or decreased sleep) within 4 days of the toddler dose, dose 4 (12 months of age) reported in the 13vPnC group relative to the incidence rates in the 7vPnC group. No hypothesis testing was performed. The analysis is descriptive.||||0.753
82457010|NCT01604291|164618431|OTHER|||||||0.9109||||||The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|Chi-squared|||Correlation between SVR 24 and Gender||||0.9109
82457011|NCT01604291|164618431|OTHER|||||||0.1163||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Age||||0.1163
82457012|NCT01604291|164618431|OTHER|||||||0.9269||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Height||||0.9269
82457013|NCT01604291|164618431|OTHER|||||||0.3376||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Weight||||0.3376
82457014|NCT01604291|164618431|OTHER|||||||0.4618||||||A t-test was done to compare SVR participants to non-SVR.|t-test, 1 sided|||Correlation between SVR 24 and Body mass index.||||0.4618
82457015|NCT01604291|164618444|OTHER||phi-coefficient|-0.0835||||0.0463|||||||Chi-squared|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables|Correlation with dose modification for Peginterferon alfa-2a.||||0.0463
82457016|NCT01604291|164618444|OTHER||phi-coefficient|0.0666||||0.2052|||||||Chi-squared|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables.|Correlation with dose modification for Ribavirin.||||0.2052
82457017|NCT01604291|164618444|OTHER||phi-coefficient|-0.1672||||0.0033|||||||Fisher Exact|The p-value from chi-square is the difference between SVR achieved (yes/no) and dose modifications.|phi-coefficient is a measure of the degree of association between two binary variables.|Correlation with dose modification for Telaprevir/boceprevir.||||0.0033
82457018|NCT04177212|164618446|OTHER||||||<|0.0001||||||P-value for testing null-hypothesis that response of Pooled Group was less or equal to 50 percent (%).|One-sided binomial test|||Between Groups calculation were not done because comparing Groups A and B was not part of the objective of this investigation.||||< 0.0001
82457019|NCT04177212|164618447|OTHER|||||||0.0003||||||P-value for testing null-hypothesis that response of Pooled Group was less or equal to 50%.|One-sided binomial test|||Between Groups calculation were not done because comparing Groups A and B was not part of the objective of this investigation.||||0.0003
82457020|NCT01279681|164618453|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.03||||0.93|TWO_SIDED|95.0|0.49|2.17|||Regression, Cox|||||2.17|0.49|0.93
82457021|NCT03270943|164618465|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.02
82649737|NCT00408876|165014884|SUPERIORITY_OR_OTHER|||||||0.115||95.0|||||Repeated Measures|||||||0.115
82649738|NCT00408876|165014884|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures|||||||0.002
82457022|NCT03270943|164618466|OTHER|within group|Mean Difference (Net)|-1.01|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|95.0|-6.06|3.84|||||Difference between score at 8 weeks and score at baseline.|||3.84|-6.06|
82457023|NCT03270943|164618466|OTHER|within group|Mean Difference (Net)|-4.46|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-8.7|-0.22|||||Difference between score at 8 weeks and score at baseline.|||-0.22|-8.70|
82457024|NCT03270943|164618467|OTHER|within group change|Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.72|0.2|||||Difference between score at 8 weeks and score at baseline.|||0.2|-2.72|
82457025|NCT03270943|164618467|OTHER|within group change|Mean Difference (Net)|-1.72|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-3.6|0.16|||||Difference between score at 8 weeks and score at baseline.|||0.16|-3.60|
82457026|NCT03270943|164618468|OTHER|Within group change|Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.15|0.61|||||Difference between score at 8 weeks and score at baseline.|||0.61|-0.15|
82457027|NCT03270943|164618468|OTHER|within group change|Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.07|0.63|||||Difference between score at 8 weeks and score at baseline.|||0.63|0.07|
82457028|NCT03776747|164618494|OTHER|Analysis of variance between lung inflation levels|||||<|0.001|||||||ANOVA|||We hypothesized that the anisotropic deformation index (ADC) is dependent upon lung inflation level. (Thus, it is important to standardize lung inflation when using this method)||||<0.001
82457029|NCT00669214|164618565|SUPERIORITY_OR_OTHER||Difference in proportion|0.163||||0.1054||95.0|-0.063|0.393|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.393|-0.063|0.1054
82649739|NCT00408876|165014884|SUPERIORITY_OR_OTHER|||||||0.072||95.0|||||Repeated Measures|||||||0.072
82649740|NCT00408876|165014885|SUPERIORITY_OR_OTHER|||||||0.516||95.0|||||Repeated Measures|||||||0.516
82457030|NCT00669214|164618567|SUPERIORITY_OR_OTHER||Difference in proportion|0.155||||0.2404||95.0|-0.072|0.388|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.388|-0.072|0.2404
82457031|NCT00669214|164618569|SUPERIORITY_OR_OTHER||Difference in proportion|0.228||||0.0366||95.0|0.003|0.452|||Fisher Exact|The p-value was based on the Fisher exact test for a 2x2 contingency table.||||0.452|0.003|0.0366
82457032|NCT00669214|164618571|SUPERIORITY_OR_OTHER||Difference in mean change from Day 0|3.33||||0.1816||95.0|-2.811|9.471|||Student T-test|||||9.471|-2.811|0.1816
82457033|NCT00669214|164618573|SUPERIORITY_OR_OTHER||Difference in mean change from Day 0|1.19||||0.0435||95.0|-0.161|2.532|||Student T-test|||||2.532|-0.161|0.0435
82457034|NCT00669214|164618575|SUPERIORITY_OR_OTHER|||||||0.0224||95.0|||||Wilcoxon rank sum|||||||0.0224
82457035|NCT00754377|164618577|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
82457036|NCT00754377|164618578|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82457037|NCT01276639|164618579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.46|||<|0.0001|TWO_SIDED|95.0|4.4|15.03||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||15.03|4.40|<0.0001
82457038|NCT01276639|164618579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.45|||<|0.0001|TWO_SIDED|95.0|9.01|31.88||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||31.88|9.01|<0.0001
82457039|NCT01276639|164618579|SUPERIORITY_OR_OTHER||Percent difference|17.29|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|10.11|24.47|||Normal approximation|||||24.47|10.11|<0.0001
82457040|NCT01276639|164618580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.93|||<|0.0001|TWO_SIDED|95.0|5.25|21.84||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||21.84|5.25|<0.0001
82457041|NCT01276639|164618580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.81|||<|0.0001|TWO_SIDED|95.0|11.9|49.86||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||49.86|11.90|<0.0001
82457042|NCT01276639|164618580|SUPERIORITY_OR_OTHER||Percent difference|19.22|STANDARD_ERROR_OF_MEAN|3.65|<|0.0001|TWO_SIDED|95.0|12.07|26.37|||Normal approximation|||||26.37|12.07|<0.0001
82578135|NCT03852719|164865755|SUPERIORITY||Response Rate Difference|7.7||||0.4539|TWO_SIDED|95.0|-8.8|24.0||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented|||24.0|-8.8|0.4539
82649741|NCT00408876|165014885|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Repeated Measures|||||||0.006
82649742|NCT00408876|165014885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82649743|NCT00408876|165014885|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||Repeated Measures|||||||0.112
82457043|NCT01276639|164618581|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-53.56|STANDARD_ERROR_OF_MEAN|4.34|<|0.0001|TWO_SIDED|95.0|-62.08|-45.04||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-45.04|-62.08|<0.0001
82457044|NCT01276639|164618581|SUPERIORITY_OR_OTHER||LS mean difference|-68.82|STANDARD_ERROR_OF_MEAN|4.34|<|0.0001|TWO_SIDED|95.0|-77.33|-60.31||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-60.31|-77.33|<0.0001
82457045|NCT01276639|164618581|SUPERIORITY_OR_OTHER||LS mean difference|-15.26|STANDARD_ERROR_OF_MEAN|3.46|<|0.0001|TWO_SIDED|95.0|-22.04|-8.48|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-8.48|-22.04|<0.0001
82457046|NCT01276639|164618582|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|34.55|||<|0.0001|TWO_SIDED|95.0|7.46|1786.9||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||1786.9|7.46|<0.0001
82457047|NCT01276639|164618582|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|98.05|||<|0.0001|TWO_SIDED|95.0|23.49|5689.8||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||5689.8|23.49|<0.0001
82457048|NCT01276639|164618582|SUPERIORITY_OR_OTHER||Percent difference|19.61|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|13.1|26.11|||Normal approximation|||||26.11|13.10|<0.0001
82457049|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-4.75|-3.05||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.05|-4.75|<0.0001
82457050|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-4.71|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-5.56|-3.86||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.86|-5.56|<0.0001
82457051|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.35||0.0212|TWO_SIDED|95.0|-1.5|-0.12|||Mixed Models Analysis|||Week 4: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.12|-1.50|0.0212
82457052|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-4.98|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-6.02|-3.95||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.95|-6.02|<0.0001
82649744|NCT00408876|165014885|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Repeated Measures|||||||0.010
82649745|NCT00408876|165014885|SUPERIORITY_OR_OTHER|||||||0.219||95.0|||||Repeated Measures|||||||0.219
82649746|NCT00408876|165014886|SUPERIORITY_OR_OTHER|||||||0.309||95.0|||||Repeated Measures|||||||0.309
82649747|NCT00408876|165014886|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Repeated Measures|||||||0.001
82578136|NCT03852719|164865755|SUPERIORITY||Response Rate Difference|-0.3||||1|TWO_SIDED|95.0|-15.6|15.5||P-value was based on Fisher's Exact Test.|Fisher Exact||For response rate difference, the 95% exact unconditional confidence interval (CI) based on the score statistic was presented.|||15.5|-15.6|1.0000
82439042|NCT04262882|164586053|SUPERIORITY||Wald Chi-Square|78.81||||0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
82439043|NCT04262882|164586053|SUPERIORITY||unstandardized beta|1.19|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439044|NCT04262882|164586053|SUPERIORITY||unstandardized beta|1.65|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.001
82439045|NCT04262882|164586054|SUPERIORITY||Wald Chi-Square|19.46|||<|0.001|TWO_SIDED||||||Regression, Linear|Model controls for age and religion. Model was run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82439046|NCT04262882|164586054|SUPERIORITY||unstandardized beta|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.008|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 7-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||0.008
82457053|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-6.97|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-8.0|-5.94||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-5.94|-8.00|<0.0001
82457054|NCT01276639|164618584|SUPERIORITY_OR_OTHER||LS mean difference|-1.99|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.8|-1.17|||Mixed Models Analysis|||Week 16: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-1.17|-2.80|<0.0001
82457055|NCT01276639|164618585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.34|||<|0.0001|TWO_SIDED|95.0|3.23|35.12||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||35.12|3.23|<0.0001
82457056|NCT01276639|164618585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.53|||<|0.0001|TWO_SIDED|95.0|5.06|54.42||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||54.42|5.06|<0.0001
82457057|NCT01276639|164618585|SUPERIORITY_OR_OTHER||Percent difference|5.98|STANDARD_ERROR_OF_MEAN|2.97||0.0443|TWO_SIDED|95.0|0.15|11.8|||Normal approximation|||||11.80|0.15|0.0443
82457058|NCT01276639|164618586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.76||||0.0003|TWO_SIDED|95.0|2.11|35.77||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||35.77|2.11|0.0003
82457059|NCT01276639|164618586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.55|||<|0.0001|TWO_SIDED|95.0|3.64|59.98||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||59.98|3.64|<0.0001
82457060|NCT01276639|164618586|SUPERIORITY_OR_OTHER||Percent difference|5.09|STANDARD_ERROR_OF_MEAN|2.5||0.0415|TWO_SIDED|95.0|0.19|9.98|||Normal approximation|||||9.98|0.19|0.0415
82499621|NCT01571427|164689938|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.64||0.68|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.68
82649748|NCT00408876|165014886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82457061|NCT01276639|164618587|SUPERIORITY_OR_OTHER||LS mean difference|-69.7|STANDARD_ERROR_OF_MEAN|17.6|<|0.0001|TWO_SIDED|95.0|-104.27|-35.13||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-35.13|-104.27|<0.0001
82649749|NCT00408876|165014886|SUPERIORITY_OR_OTHER|||||||0.116||95.0|||||Repeated Measures|||||||0.116
82457062|NCT01276639|164618587|SUPERIORITY_OR_OTHER||LS mean difference|-97.03|STANDARD_ERROR_OF_MEAN|17.47|<|0.0001|TWO_SIDED|95.0|-131.35|-62.72||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-62.72|-131.35|<0.0001
82457063|NCT01276639|164618587|SUPERIORITY_OR_OTHER||LS mean difference|-27.33|STANDARD_ERROR_OF_MEAN|13.22||0.0391|TWO_SIDED|95.0|-53.29|-1.37|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-1.37|-53.29|0.0391
82457064|NCT01276639|164618591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457065|NCT01276639|164618591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457066|NCT01276639|164618591|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457067|NCT01276639|164618592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457068|NCT01276639|164618592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82578137|NCT03086655|164865757|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.9|1.93|||||This is the 'inflation part' of the zero inflated negative binomial model. We used cluster robust standard errors due to the multiple observations over time being nested within participant. Result shows odds of intervention group relative to control.|"We used zero inflated negative binomial regression due to the count variable being overdispersed and containing a large number of 0. The analysis aggregated over multiple time points per participant. It simultaneously tests the odds of having 0 openings and the difference in the rate of openings between the 2 intervention groups. These 2 results are reported separately.~Null hypothesis 1: the odds of having 0 openings is lower in intervention than control group."||1.93|0.90|
82649750|NCT00408876|165014886|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Repeated Measures|||||||0.033
82649751|NCT00408876|165014886|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Repeated Measures|||||||0.480
82649752|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.709||95.0|||||Repeated Measures|||||||0.709
82457069|NCT01276639|164618592|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457070|NCT01276639|164618593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457071|NCT01276639|164618593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457072|NCT01276639|164618593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82457073|NCT03985761|164618637|SUPERIORITY|||||||0.182|||||||ANOVA|||||||.182
82457074|NCT03985761|164618638|SUPERIORITY|||||||0.296|||||||ANOVA|||||||.296
82457075|NCT03985761|164618639|SUPERIORITY|||||||0.483|||||||ANOVA|||||||.483
82457076|NCT03985761|164618640|SUPERIORITY|||||||0.995|||||||ANOVA|||||||.995
82457077|NCT03985761|164618641|SUPERIORITY|||||||0.22|||||||ANOVA|||||||.220
82457078|NCT03985761|164618642|SUPERIORITY|||||||0.538|||||||ANOVA|||||||.538
82457079|NCT03985761|164618645|SUPERIORITY|||||||0.121|||||||ANOVA|||||||.121
82457080|NCT03956550|164618647|SUPERIORITY|||||||0.2978|||||||Mixed Models Analysis|||||||0.2978
82457081|NCT03956550|164618647|SUPERIORITY|||||||0.689|||||||Mixed Models Analysis|||||||0.6890
82457082|NCT03956550|164618648|SUPERIORITY|||||||0.1973|||||||Mixed Models Analysis|||||||0.1973
82457083|NCT03956550|164618648|SUPERIORITY|||||||0.942|||||||Mixed Models Analysis|||||||0.9420
82457084|NCT03956550|164618649|SUPERIORITY|||||||0.1597|||||||Mixed Models Analysis|||||||0.1597
82457085|NCT03956550|164618649|SUPERIORITY|||||||0.9719|||||||Mixed Models Analysis|||||||0.9719
82457086|NCT03956550|164618650|SUPERIORITY|||||||0.1365|||||||Mixed Models Analysis|||||||0.1365
82457087|NCT03956550|164618650|SUPERIORITY|||||||0.0604|||||||Mixed Models Analysis|||||||0.0604
82457088|NCT03956550|164618651|SUPERIORITY|||||||0.0989|||||||Mixed Models Analysis|||||||0.0989
82457089|NCT03956550|164618651|SUPERIORITY|||||||0.5487|||||||Mixed Models Analysis|||||||0.5487
82457090|NCT03956550|164618652|SUPERIORITY|||||||0.3572|||||||Cochran-Mantel-Haenszel|||||||0.3572
82457091|NCT03956550|164618652|SUPERIORITY|||||||0.5747|||||||Cochran-Mantel-Haenszel|||||||0.5747
82457092|NCT01544920|164618676|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower bound of the 95% CI of the difference in SVR24 % exceeded -10%.|Difference in SVR24% in Arm 2 vs. Arm 1|1.7|||||TWO_SIDED|95.0|-3.2|6.5||||||Difference in percentage of participants achieving SVR24||6.5|-3.2|
82457093|NCT01544920|164618677|NON_INFERIORITY_OR_EQUIVALENCE|The observed lower bound of the 95% CI for the difference was 2.5% (which exceeds 0) for BOC added to peg-IFN + RBV in contrast to peg-IFN + RBV alone.|Difference in SVR24%|10.3|||||TWO_SIDED|95.0|2.5|18.1||||||||18.1|2.5|
82457094|NCT00796666|164618681|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8616||||0.5416|TWO_SIDED|95.0|0.602|1.233|||Log Rank|||||1.233|0.602|0.5416
82457095|NCT00796666|164618682|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||P-value was based on the analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO Functional Class (FC) as fixed effects and baseline 6 Minute Walk Distance (6MWD) as a covariate.|ANCOVA|||Baseline to Week 12||||0.0049
82649753|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Repeated Measures|||||||0.012
82541551|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.92|||||TWO_SIDED|95.0|0.73|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-6B||1.16|0.73|
82541552|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.07|||||TWO_SIDED|95.0|0.89|1.29|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-7F||1.29|0.89|
82541553|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.79|1.19|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-9V||1.19|0.79|
82541554|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.97|||||TWO_SIDED|95.0|0.81|1.18|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-14||1.18|0.81|
82541555|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.95|||||TWO_SIDED|95.0|0.77|1.16|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-18C||1.16|0.77|
82541556|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.15|||||TWO_SIDED|95.0|0.95|1.4|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-19A||1.4|0.95|
82541557|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|1.03|||||TWO_SIDED|95.0|0.84|1.25|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-19F||1.25|0.84|
82541558|NCT02045836|164782551|NON_INFERIORITY|Non Inferiority criterion used: Upper Limit (UL) of the 95% CI for each individual pneumococcal conjugate serotype Opsonophagocytic Assay (OPA) GMT ratio of the Control group over the Co-Ad group had to be below 2.|Adjusted GMT|0.89|||||TWO_SIDED|95.0|0.7|1.12|||ANCOVA|Ancova model: adjustment for baseline titre - pooled variance|Adjusted GMT ratio (Control group / Co-Ad group)|Adjusted ratios of GMTs between groups (Control group and Co-Ad group) for MOPA-23F||1.12|0.7|
82541559|NCT02045836|164782552|NON_INFERIORITY|Non Inferiority criterion used: UL of the 95% CI for the anti-gE antibodies GMC ratio between the Control group and the Co-Ad group had to be below 1.5|Adjusted GMC|1.02|||||TWO_SIDED|95.0|0.93|1.11|||ANCOVA|Ancova model: adjustment for baseline concentration and age - pooled variance|Adjusted ratios of GMCs between groups (Control group and Co-Ad group)|Adjusted ratios of GMCs between groups (Control group and Co-Ad group) for anti-gE antibody ELISA concentrations||1.11|0.93|
82541560|NCT02547922|164782590|SUPERIORITY||Geometric Mean Ratio|1.031||||0.9052|TWO_SIDED|95.0|0.621|1.713||The p-values presented are unadjusted and was compared with the respective adjusted significance level (α). If α is not displayed, no formal testing can be performed and the corresponding p-value was nominal.|Mixed Models Analysis||Geometric mean ratio \>1 favours placebo.|The model includes fixed effects for treatment group, visit, stratification factors, log-transformed 24-hour UPCR at baseline, and treatment-by-visit interaction. All data up to and including the date of discontinuation of study treatment were included in the analysis.||1.713|0.621|0.9052
82439047|NCT04262882|164586054|SUPERIORITY||unstandardized beta|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED|||||P-value is adjusted for multiple comparisons; this value is for the 10-month follow-up|Regression, Linear|Models control for age and religion. Models run using generalized estimating equations (GEE) to account for dependence in repeated, dyadic data.||||||<0.001
82541561|NCT02547922|164782591|SUPERIORITY||Difference in estimates|-0.08||||0.9929|TWO_SIDED|95.0|-16.92|16.76||At Week 52, the p-values presented are unadjusted and will be compared to the respective adjusted significance level (α). If α is not displayed no formal testing can be performed and the corresponding p-value is nominal.|Cochran-Mantel-Haenszel|||The statistical analysis represents the estimated percentage of responders. The responder/non-responder rates (percentages), the difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach.||16.76|-16.92|0.9929
82541562|NCT00102063|164782605|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
82541563|NCT00102063|164782605|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
82585972|NCT02640157|164883881|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|Difference in percentage of participants|-1.2|||||TWO_SIDED|95.0|-5.6|3.1||||||Difference in SVR12 rates (Arm A - Arm B).||3.1|-5.6|
82439048|NCT03172884|164586075|OTHER||LS means|1.385|||||TWO_SIDED|90.0|0.921|2.081||||||Moderate Hepatic Impairment vs Healthy Subjects||2.081|0.921|
82439049|NCT03172884|164586075|OTHER||LS means|1.445|||||TWO_SIDED|90.0|0.998|2.093||||||Severe hepatic impairment group vs Healthy Subjects||2.093|0.998|
82457096|NCT00796666|164618683|SUPERIORITY_OR_OTHER|||||||0.8223|TWO_SIDED|||||Missing values at Week 12 and Week 24 were imputed with the last non-missing WHO FC based on the last observation carried forward (LOCF) method.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test used modified ridit scores and the p-value corresponding to the ANCOVA (row mean scores) statistic was reported.||Baseline to Week 12||||0.8223
82457097|NCT00796666|164618684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-3.13|1.2|||||Least squared (LS) mean and p-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|Baseline to Week 12||1.20|-3.13|
82649754|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Repeated Measures|||||||0.001
82649755|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Repeated Measures|||||||0.097
82649756|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Repeated Measures|||||||0.023
82649757|NCT00408876|165014887|SUPERIORITY_OR_OTHER|||||||0.435||95.0|||||Repeated Measures|||||||0.435
82439050|NCT03172884|164586075|OTHER||LS means|0.646|||||TWO_SIDED|90.0|0.486|0.858||||||Severe renal impairment group vs Healthy Subjects||0.858|0.486|
82439051|NCT03172884|164586076|OTHER||LS Means|1.711|||||TWO_SIDED|90.0|1.148|2.55||||||Moderate Hepatic Impairment group vs Healthy Subjects||2.550|1.148|
82439052|NCT03172884|164586076|OTHER||LS Means|2.705|||||TWO_SIDED|90.0|2.115|3.46||||||Severe hepatic impairment group vs Healthy Subjects||3.460|2.115|
82439053|NCT03172884|164586076|OTHER||LS Means|1.075|||||TWO_SIDED|90.0|0.696|1.659||||||Severe renal impairment group vs Healthy Subjects||1.659|0.696|
82439054|NCT03172884|164586077|OTHER||LS Means|1.768|||||TWO_SIDED|90.0|1.251|2.498||||||Moderate Hepatic Impairment group vs Healthy Subjects||2.498|1.251|
82439055|NCT03172884|164586077|OTHER||LS Means|2.735|||||TWO_SIDED|90.0|2.163|3.459||||||Severe hepatic impairment group vs Healthy Subjects||3.459|2.163|
82439056|NCT03172884|164586077|OTHER||LS Means|1.124|||||TWO_SIDED|90.0|0.815|1.549||||||Severe renal impairment group vs Healthy Subjects||1.549|0.815|
82457098|NCT00796666|164618684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.33|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|0.31|4.36|||||Least squared (LS) mean and p-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|Baseline to Week 12||4.36|0.31|
82649758|NCT00408876|165014888|SUPERIORITY_OR_OTHER|||||||0.931||95.0|||||Repeated Measures|||||||0.931
82649759|NCT00408876|165014888|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
82457099|NCT00796666|164618684|SUPERIORITY_OR_OTHER|||||||0.0094|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Physical Functioning Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0094
82457100|NCT00796666|164618685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|-3.92|1.2|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|Baseline to Week 12||1.20|-3.92|
82457101|NCT00796666|164618685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-0.38|4.35|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|Baseline to Week 12||4.35|-0.38|
82457102|NCT00796666|164618685|SUPERIORITY_OR_OTHER|||||||0.0244|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitations Due to Physical Health Problems Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0244
82457103|NCT00796666|164618686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-3.78|2.04|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|Baseline to Week 12||2.04|-3.78|
82457104|NCT00796666|164618686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|95.0|-0.41|4.9|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|Baseline to Week 12||4.90|-0.41|
82457105|NCT00796666|164618686|SUPERIORITY_OR_OTHER|||||||0.0624|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Bodily Pain Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0624
82457106|NCT00796666|164618687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-2.57|2.06|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FCvas fixed effects and baseline General Health Score as a covariate.|Baseline to Week 12||2.06|-2.57|
82649760|NCT00408876|165014888|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82649761|NCT00408876|165014888|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Repeated Measures|||||||0.036
82649762|NCT00408876|165014888|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Repeated Measures|||||||0.007
82649763|NCT00408876|165014888|SUPERIORITY_OR_OTHER|||||||0.416||95.0|||||Repeated Measures|||||||0.416
82649764|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.634||95.0|||||Repeated Measures|||||||0.634
82649765|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Repeated Measures|||||||0.031
82649766|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Repeated Measures|||||||0.002
82649767|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
82649768|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Repeated Measures|||||||0.003
82649769|NCT00408876|165014889|SUPERIORITY_OR_OTHER|||||||0.313||95.0|||||Repeated Measures|||||||0.313
82649770|NCT00408876|165014890|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Repeated Measures|||||||0.910
82649771|NCT00408876|165014890|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Repeated Measures|||||||0.026
82457107|NCT00796666|164618687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|0.48|4.82|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline General Health Score as a covariate.|Baseline to Week 12||4.82|0.48|
82457108|NCT00796666|164618687|SUPERIORITY_OR_OTHER|||||||0.0324|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline General Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0324
82457109|NCT00796666|164618688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.28|||TWO_SIDED|95.0|-2.1|2.97|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|Baseline to Week 12||2.97|-2.10|
82457110|NCT00796666|164618688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|1.74|6.45|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|Baseline to Week 12||6.45|1.74|
82457111|NCT00796666|164618688|SUPERIORITY_OR_OTHER|||||||0.0136|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Vitality Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0136
82457112|NCT00796666|164618689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-2.33|3.23|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|Baseline to Week 12||3.23|-2.33|
82457113|NCT00796666|164618689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.73|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED|95.0|0.14|5.32|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|Baseline to Week 12||5.32|0.14|
82457114|NCT00796666|164618689|SUPERIORITY_OR_OTHER|||||||0.1582|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Social Functioning Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.1582
82457115|NCT00796666|164618690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|95.0|-3.09|3.18|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|Baseline to Week 12||3.18|-3.09|
82457116|NCT00796666|164618690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.27|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-0.62|5.16|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|Baseline to Week 12||5.16|-0.62|
82457117|NCT00796666|164618690|SUPERIORITY_OR_OTHER|||||||0.2161|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Role Limitation Due to Emotional Problems Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2161
82457118|NCT00796666|164618691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|1.54|||TWO_SIDED|95.0|-1.61|4.5|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|Baseline to Week 12||4.50|-1.61|
82649772|NCT00408876|165014890|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82457119|NCT00796666|164618691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|0.82|6.5|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|Baseline to Week 12||6.50|0.82|
82457120|NCT00796666|164618691|SUPERIORITY_OR_OTHER|||||||0.2087|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Mental Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2087
82649773|NCT00408876|165014890|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Repeated Measures|||||||0.090
82457121|NCT00796666|164618692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|1.21|||TWO_SIDED|95.0|-1.21|3.58|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|Baseline to Week 12||3.58|-1.21|
82457122|NCT00796666|164618692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.71|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|0.37|5.05|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|Baseline to Week 12||5.05|0.37|
82457123|NCT00796666|164618692|SUPERIORITY_OR_OTHER|||||||0.2897|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Mental Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.2897
82649774|NCT00408876|165014890|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Repeated Measures|||||||0.006
82649775|NCT00408876|165014890|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||Repeated Measures|||||||0.171
82649776|NCT00408876|165014891|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||Repeated Measures|||||||0.733
82649777|NCT00408876|165014891|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Repeated Measures|||||||0.022
82649778|NCT00408876|165014891|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Repeated Measures|||||||<0.001
82649779|NCT00408876|165014891|SUPERIORITY_OR_OTHER|||||||0.128||95.0|||||Repeated Measures|||||||0.128
82649780|NCT00408876|165014891|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Repeated Measures|||||||0.013
82541564|NCT02739035|164782616|SUPERIORITY|A difference of 10 degrees in total mean range of motion between the control and the treatment group was considered a clinically significant improvement.||||||0.23||||||Using a standard alpha value of 0.05, p values below 0.05 were considered statistically significant.|t-test, 2 sided|||"Outcomes were compared between the two study groups using two-sample t-tests. T-tests were two-sided and the standard alpha value of 0.05 was the threshold for statistical significance.~The null hypothesis was that there were no significant differences between control group of MUA alone and the treatment group of MUA with dexamethasone and celecoxib."||||0.23
82541565|NCT02739035|164782617|SUPERIORITY|A difference of 10 degrees in total mean range of motion (ROM) between the control and the treatment group was considered a clinically significant improvement. To detect this difference, a previous study's mean and standard deviation were referenced in order to predict the variation of results. 54 patients per arm were required to have 90% power with a two-sided t-test and a type I error rate of 5%. 130 patients were targeted for recruitment to account for up to a 20% dropout rate.||||||0.81||||||Using a standard alpha value of 0.05, p values below 0.05 were considered statistically significant.|t-test, 2 sided|||"Outcomes were compared between the two study groups using two-sample t-tests. T-tests were two-sided and the standard alpha value of 0.05 was the threshold for statistical significance.~The null hypothesis was that there were no significant differences between control group of MUA alone and the treatment group of MUA with dexamethasone and celecoxib."||||0.81
82541566|NCT03165175|164782639|SUPERIORITY|||||||0.72||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.72
82541567|NCT03165175|164782640|SUPERIORITY|||||||0.598||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.598
82541568|NCT03165175|164782641|SUPERIORITY|||||||0.954||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.954
82541569|NCT03165175|164782642|SUPERIORITY|||||||0.167||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.167
82541570|NCT03165175|164782643|SUPERIORITY|||||||0.022||||||This p-value is the for the group by time (group: intervention/control, by time: baseline/1 month) interaction.|ANOVA|||||||.022
82541571|NCT00688519|164782668|SUPERIORITY_OR_OTHER|||||||0.058|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.058
82541572|NCT00688519|164782668|SUPERIORITY_OR_OTHER|||||||0.313|||||||Breslow-Day Test|Breslow-Day test of the homogeneity of the odds ratio using a 0.1 significance level.||Consistency of results across investigative centers was verified using the Breslow-Day test of homogeneity the odds ration using a significance level of 0.1||||0.313
82457124|NCT00796666|164618693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.05|1.38|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|Baseline to Week 12||1.38|-2.05|
82649781|NCT00408876|165014891|SUPERIORITY_OR_OTHER|||||||0.225||95.0|||||Repeated Measures|||||||0.225
82541573|NCT00688519|164782669|SUPERIORITY_OR_OTHER|||||||0.029|||||||Cochran-Mantel-Haenszel|||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.029
82541574|NCT00688519|164782670|SUPERIORITY_OR_OTHER|||||||0.013|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.013
82649782|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||Repeated Measures|||||||0.890
82541575|NCT00688519|164782671|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.008
82541576|NCT00688519|164782672|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||These P-values are provided for information purposes only; they are considered non-significant (per the statistical analysis plan) because the analysis of the primary end point did not reach statistical significance.||||0.018
82541577|NCT00688519|164782673|SUPERIORITY_OR_OTHER|||||||0.167|||||||Cochran-Mantel-Haenszel|stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had mild disease at baseline||||0.167
82541578|NCT00688519|164782673|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|stratified by pooled center||Comparison of calcipotriene foam and vehicle foam for patients who had moderate disease at baseline||||0.009
82541579|NCT02945332|164782714|SUPERIORITY||Mean Difference (Net)|4.35|STANDARD_ERROR_OF_MEAN|4.85||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
82541580|NCT02945332|164782715|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||||||0.93
82541581|NCT02945332|164782716|SUPERIORITY||Mean Difference (Net)|4.79|STANDARD_ERROR_OF_MEAN|3.68||0.16|TWO_SIDED||||||Mixed Models Analysis|||||||0.16
82541582|NCT02945332|164782717|SUPERIORITY||Mean Difference (Net)|11.36|STANDARD_ERROR_OF_MEAN|15.32||0.4|TWO_SIDED||||||Mixed Models Analysis|||||||0.40
82541583|NCT02945332|164782718|SUPERIORITY||Mean Difference (Net)|-8.03|STANDARD_ERROR_OF_MEAN|31.36||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
82541584|NCT02945332|164782719|SUPERIORITY||Mean Difference (Net)|2.98|STANDARD_ERROR_OF_MEAN|4.16||0.42|TWO_SIDED||||||Mixed Models Analysis|||||||0.42
82561868|NCT04332991|164832909|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.68|1.34|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.34|0.68|
82649783|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Repeated Measures|||||||0.079
82649784|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Repeated Measures|||||||0.035
82649785|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||Repeated Measures|||||||0.117
82649786|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Repeated Measures|||||||0.060
82649787|NCT00408876|165014892|SUPERIORITY_OR_OTHER|||||||0.647||95.0|||||Repeated Measures|||||||0.647
82649788|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.243||95.0|||||Repeated Measures|||||||0.243
82457125|NCT00796666|164618693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.14|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|0.46|3.82|||||LS mean based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|Baseline to Week 12||3.82|0.46|
82457126|NCT00796666|164618693|SUPERIORITY_OR_OTHER|||||||0.0179|TWO_SIDED|||||P-value based on analysis of covariance on change from baseline with B1321003 treatment, B1321001 (NCT00795639) treatment, B1321003 Baseline WHO FC as fixed effects and baseline Composite Physical Health Score as a covariate.|ANCOVA|||Baseline to Week 12||||0.0179
82457127|NCT01147666|164618694|OTHER|||||||1||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||1.0000
82457128|NCT01147666|164618694|OTHER|||||||0.0698||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.0698
82457129|NCT01147666|164618694|OTHER|||||||0.1534||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.1534
82457130|NCT01147666|164618694|OTHER|||||||0.2657||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||0.2657
82457131|NCT01147666|164618695|OTHER|||||||1||||||Threshold for significance at 0.05 level.|Fisher Exact|||||||1.0000
82457132|NCT01135134|164618738|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82457133|NCT01135134|164618739|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82457134|NCT00255190|164618753|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.042
82457135|NCT00255190|164618754|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.006
82457136|NCT00255190|164618755|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using a one-way analysis of covariance (ANCOVA) model with treatment as the factor and baseline score as the covariate.||||||0.204
82457137|NCT00255190|164618756|SUPERIORITY_OR_OTHER|||||||0.109||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.109
82457138|NCT00255190|164618757|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||<0.001
82457139|NCT00255190|164618758|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.494
82649789|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Repeated Measures|||||||0.110
82457140|NCT00255190|164618759|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.026
82457141|NCT00255190|164618760|SUPERIORITY_OR_OTHER|||||||0.22||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.220
82457142|NCT00255190|164618761|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.843
82457143|NCT00255190|164618762|SUPERIORITY_OR_OTHER|||||||0.923||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.923
82457144|NCT00255190|164618763|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||<0.001
82457145|NCT00255190|164618764|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.758
82457146|NCT00255190|164618765|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.737
82457147|NCT00255190|164618766|SUPERIORITY_OR_OTHER|||||||0.673||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.673
82457148|NCT00255190|164618767|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.817
82457149|NCT00255190|164618768|SUPERIORITY_OR_OTHER|||||||0.601||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.601
82457150|NCT00255190|164618769|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.065
82457151|NCT00255190|164618770|SUPERIORITY_OR_OTHER|||||||0.319||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.319
82649790|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.236||95.0|||||Repeated Measures|||||||0.236
82649791|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Repeated Measures|||||||0.014
82649792|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Repeated Measures|||||||0.036
82457152|NCT00255190|164618771|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.011
82457153|NCT00255190|164618772|SUPERIORITY_OR_OTHER|||||||0.207||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANOVA|||||||0.207
82457154|NCT00255190|164618773|SUPERIORITY_OR_OTHER|||||||0.286||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.286
82457155|NCT00255190|164618774|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.102
82457156|NCT00255190|164618775|SUPERIORITY_OR_OTHER|||||||0.656||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.656
82457157|NCT00255190|164618776|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.176
82457158|NCT00255190|164618777|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.030
82457159|NCT00255190|164618778|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.243
82457160|NCT00255190|164618779|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.005
82457161|NCT00255190|164618780|SUPERIORITY_OR_OTHER|||||||0.469||95.0||||Statistical significance was determined at 0.05 level. All statistical tests were two-sided and the p-values were rounded to 3 decimal places prior to determining statistical significance.|ANCOVA|Comparisons were made using an ANCOVA model with treatment as the factor and baseline score as the covariate.||||||0.469
82457162|NCT01217463|164618837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.4109|TWO_SIDED|95.0|0.6|3.43|||Regression, Logistic|||||3.43|0.60|0.4109
82457163|NCT01217463|164618838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||||TWO_SIDED|95.0|0.78|2.4|||Regression, Logistic|||||2.4|0.78|
82457164|NCT03246789|164618922|SUPERIORITY||Mean Difference (Final Values)|2.15||||0.31|TWO_SIDED|95.0|-2.09|6.39|||t-test, 2 sided|||Week 12||6.39|-2.09|0.31
82457165|NCT03246789|164618923|SUPERIORITY||Mean Difference (Final Values)|-1.47||||0.28|TWO_SIDED|95.0|-4.22|1.28|||t-test, 2 sided|||Domain #1, Week 12||1.28|-4.22|0.28
82457166|NCT03246789|164618923|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.5|TWO_SIDED|95.0|-3.48|1.74|||t-test, 2 sided|||Domain #2, Week 12||1.74|-3.48|0.50
82457167|NCT03246789|164618923|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.02|TWO_SIDED|95.0|-2.88|-0.28|||t-test, 2 sided|||Domain #3, Week 12||-0.28|-2.88|0.02
82457168|NCT03246789|164618923|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.98|TWO_SIDED|95.0|-3.63|3.53|||t-test, 2 sided|||Domain 4, Week 12||3.53|-3.63|0.98
82585973|NCT02640157|164883881|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|percentage of participants|95.3|||||TWO_SIDED|97.5|92.2|98.4||||||||98.4|92.2|
82457169|NCT03246789|164618924|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.92|TWO_SIDED|95.0|-0.64|0.58|||t-test, 2 sided|||Domain #1, Week 12||0.58|-0.64|0.92
82457170|NCT03246789|164618924|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.48|TWO_SIDED|95.0|-0.69|0.33|||t-test, 2 sided|||Domain #2, Week 12||0.33|-0.69|0.48
82457171|NCT03246789|164618924|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.48|TWO_SIDED|95.0|-0.33|0.69|||t-test, 2 sided|||||0.69|-0.33|0.48
82457172|NCT03775486|164618971|OTHER||Hazard Ratio (HR)|0.76||||0.074|TWO_SIDED|95.0|0.57|1.02|||Log Rank|||||1.02|0.57|0.074
82457173|NCT03775486|164618971|OTHER||Median|7.2|||||TWO_SIDED|95.0|5.3|7.9||||||Median progression-free survival (months)||7.9|5.3|
82457174|NCT03775486|164618971|OTHER||Median|5.3|||||TWO_SIDED|95.0|3.7|5.8||||||Median progression-free survival (months)||5.8|3.7|
82457175|NCT03775486|164618972|OTHER||Hazard Ratio (HR)|0.9||||0.604|TWO_SIDED|95.0|0.59|1.36|||Log Rank|||||1.36|0.59|0.604
82457176|NCT03775486|164618972|OTHER||Median|17.4|||||TWO_SIDED|95.0|14.1||NA = insufficient number of participants with events|||||Median overall survival (months)|||14.1|
82457177|NCT03775486|164618972|OTHER||Median overall survival (months)|11.8|||||TWO_SIDED|95.0|11.8||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value|Median overall survival (months)|||11.8|
82457178|NCT03775486|164618974|OTHER|Median duration of response (months)|Median duration of response|6.5|||||TWO_SIDED|95.0|6.5||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value||||6.5|
82457179|NCT03775486|164618974|OTHER|Median duration of response (months)|Median duration of response|3.8|||||TWO_SIDED|95.0|3.8||NA = insufficient number of participants with events||||The CI lower limit is included as the estimated value as there was an insufficient number of participants with events to calculate a median value||||3.8|
82457180|NCT03775486|164618975|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.07|2.0||||||||2.00|0.07|
82457181|NCT03775486|164618975|OTHER||Median (months)|3.7|||||TWO_SIDED|95.0|1.7||NA = insufficient number of participants with events|||||Median progression-free survival (months)|||1.7|
82457182|NCT03775486|164618975|OTHER||Median (months)|3.7|||||TWO_SIDED|95.0|1.2|16.6||||||Median progression-free survival (months)||16.6|1.2|
82457183|NCT03775486|164618977|OTHER||Estimated difference in adjusted mean|-0.51|||||TWO_SIDED|95.0|-4.47|3.46||||||EORTC QLQ-LC13: Dyspnoea Estimated difference in adjusted mean change from baseline.||3.46|-4.47|
82457184|NCT03775486|164618977|OTHER||Estimated difference in adjusted mean|0.95|||||TWO_SIDED|95.0|-4.81|6.71||||||EORTC QLQ-LC13: Coughing Estimated difference in adjusted mean change from baseline.||6.71|-4.81|
82457185|NCT03775486|164618977|OTHER||Estimated difference in adjusted mean|-2.26|||||TWO_SIDED|95.0|-6.39|1.88||||||EORTC QLQ-LC13: Pain in chest Estimated difference in adjusted mean change from baseline.||1.88|-6.39|
82457186|NCT03775486|164618979|OTHER||Estimated difference in adjusted mean|1.64|||||TWO_SIDED|95.0|-2.2|5.47||||||EORTC QLQ-C30: Fatigue Estimated difference in adjusted mean change from baseline.||5.47|-2.20|
82457187|NCT03775486|164618979|OTHER||Estimated difference in adjusted mean|3.22|||||TWO_SIDED|95.0|-1.46|7.9||||||EORTC QLQ-C30: Appetite loss Estimated difference in adjusted mean change from baseline.||7.90|-1.46|
82457188|NCT04194944|164618990|SUPERIORITY||Hazard Ratio (HR)|0.465||||0.0002|TWO_SIDED|95.0|0.309|0.699|||Log Rank|||||0.699|0.309|0.0002
82457189|NCT04194944|164618991|SUPERIORITY||Hazard Ratio (HR)|0.482||||0.0001|TWO_SIDED|95.0|0.331|0.7|||Log Rank|||||0.700|0.331|0.0001
82457190|NCT04194944|164618992|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3996|TWO_SIDED|95.0|0.7|3.4|||Cochran-Mantel-Haenszel|||||3.4|0.7|0.3996
82457191|NCT04194944|164618993|SUPERIORITY||Odds Ratio (OR)|1.7||||0.139|TWO_SIDED|95.0|0.9|3.6|||Cochran-Mantel-Haenszel|||||3.6|0.9|0.1390
82457192|NCT04194944|164618996|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0028|TWO_SIDED|95.0|1.4|5.1|||Cochran-Mantel-Haenszel|||||5.1|1.4|0.0028
82457193|NCT04194944|164618997|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0003|TWO_SIDED|95.0|1.6|5.2|||Cochran-Mantel-Haenszel|||||5.2|1.6|0.0003
82457194|NCT04194944|164618998|SUPERIORITY||Hazard Ratio (HR)|0.377||||0.0001|TWO_SIDED|95.0|0.224|0.633|||Log Rank|||||0.633|0.224|0.0001
82457195|NCT04194944|164618999|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.0004|TWO_SIDED|95.0|0.256|0.684|||Log Rank|||||0.684|0.256|0.0004
82457196|NCT04194944|164619002|SUPERIORITY||Odds Ratio (OR)|3.2||||0.1809|TWO_SIDED|95.0|0.8|12.8|||Cochran-Mantel-Haenszel|||||12.8|0.8|0.1809
82457197|NCT04194944|164619003|SUPERIORITY||Odds Ratio (OR)|5.2||||0.0167|TWO_SIDED|95.0|1.4|19.6|||Cochran-Mantel-Haenszel|||||19.6|1.4|0.0167
82457198|NCT01721161|164619109|SUPERIORITY_OR_OTHER||Difference|-3.48||||0.3337|TWO_SIDED|95.0|-10.61|3.65|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||3.65|-10.61|0.3337
82457199|NCT01721161|164619110|SUPERIORITY_OR_OTHER||Difference|-3.89||||0.1868|TWO_SIDED|95.0|-9.7|1.92|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||1.92|-9.70|0.1868
82457200|NCT01721161|164619111|SUPERIORITY_OR_OTHER||Difference|-4.76||||0.1488|TWO_SIDED|95.0|-11.26|1.74|||ANCOVA|||||1.74|-11.26|0.1488
82457201|NCT01721161|164619112|SUPERIORITY_OR_OTHER||Difference|-1.15||||0.4975|TWO_SIDED|95.0|-4.51|2.21|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|||2.21|-4.51|0.4975
82457202|NCT01721161|164619113|SUPERIORITY_OR_OTHER||Difference|-1.76||||0.3505|TWO_SIDED|95.0|-5.5|1.98|||ANCOVA|||||1.98|-5.50|0.3505
82457203|NCT01721161|164619114|SUPERIORITY_OR_OTHER||Difference|-1.6||||0.5371|TWO_SIDED|95.0|-6.9|3.6|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|LCLA 1.25% chart||3.6|-6.9|0.5371
82457204|NCT01721161|164619114|SUPERIORITY_OR_OTHER||Difference|-0.8||||0.7741|TWO_SIDED|95.0|-6.5|4.9|||ANCOVA||Difference is calculated as BIIB033 100 mg/kg - placebo.|LCLA 2.5% chart||4.9|-6.5|0.7741
82457205|NCT01721161|164619115|SUPERIORITY_OR_OTHER||Difference|-1.2||||0.6645|TWO_SIDED|95.0|-6.6|4.3|||ANCOVA|||LCLA 1.25% chart||4.3|-6.6|0.6645
82457206|NCT01721161|164619115|SUPERIORITY_OR_OTHER||DIfference|-0.8||||0.8015|TWO_SIDED|95.0|-6.7|5.2|||ANCOVA|||LCLA 2.5%||5.2|-6.7|0.8015
82457207|NCT01721161|164619116|SUPERIORITY_OR_OTHER||Difference|-7.55||||0.0504|TWO_SIDED|95.0|-15.12|0.01|||ANCOVA|||||0.01|-15.12|0.0504
82457208|NCT03483896|164619128|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82457209|NCT03483896|164619129|SUPERIORITY||Mean Difference (Final Values)|-6.0||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
82457210|NCT02888106|164619130|SUPERIORITY|||||||0.0022|||||||Fisher Exact|||The proportions of negative HDV RNA response at week 72 in each of the MXB treatment groups were compared with the control group of PEG-IFNα by using Fisher's exact test and by presenting exact unconditional 95%-confidence intervals (CI) based on scores for the proportion differences.||||0.0022
82457211|NCT02888106|164619130|SUPERIORITY|||||||0.0996|||||||Fisher Exact|||||||0.0996
82457212|NCT02888106|164619130|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82457213|NCT02888106|164619130|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0000
82457214|NCT02888106|164619130|SUPERIORITY|||||||0.0421|||||||Fisher Exact|||||||0.0421
82457215|NCT02888106|164619131|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||Week 24||||0.0052
82457216|NCT02888106|164619131|SUPERIORITY|||||||0.0052|||||||Fisher Exact|||Week 24||||0.0052
82457217|NCT02888106|164619131|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457218|NCT02888106|164619131|SUPERIORITY|||||||0.0017|||||||Fisher Exact|||Week 24||||0.0017
82457219|NCT02888106|164619131|SUPERIORITY|||||||0.3295|||||||Fisher Exact|||Week 24||||0.3295
82457220|NCT02888106|164619131|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 48||||0.0007
82457221|NCT02888106|164619131|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||Week 48||||0.0001
82457222|NCT02888106|164619131|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457223|NCT02888106|164619131|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 48||||0.0007
82457224|NCT02888106|164619131|SUPERIORITY|||||||0.1086|||||||Fisher Exact|||Week 48||||0.1086
82457225|NCT02888106|164619132|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82649793|NCT00408876|165014893|SUPERIORITY_OR_OTHER|||||||0.756||95.0|||||Repeated Measures|||||||0.756
82649794|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.465||95.0|-0.84|0.39|||t-test, 2 sided|||||0.39|-0.84|0.465
82649795|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79||||0.002||95.0|-1.3|-0.29|||t-test, 2 sided|||||-0.29|-1.30|0.002
82649796|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.233||95.0|-0.82|0.2|||t-test, 2 sided|||||0.20|-0.82|0.233
82649797|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.075||95.0|-1.19|0.06|||t-test, 2 sided|||||0.06|-1.19|0.075
82457226|NCT02888106|164619132|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
82457227|NCT02888106|164619132|SUPERIORITY|||||||0.0002|||||||Fisher Exact|||Week 24||||0.0002
82457228|NCT02888106|164619132|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
82457229|NCT02888106|164619132|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||Week 24||||0.0007
82457230|NCT02888106|164619132|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457231|NCT02888106|164619132|SUPERIORITY|||||||0.4497|||||||Fisher Exact|||Week 48||||0.4497
82457232|NCT02888106|164619132|SUPERIORITY|||||||0.0268|||||||Fisher Exact|||Week 48||||0.0268
82457233|NCT02888106|164619132|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82649798|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.798||95.0|-0.71|0.54|||t-test, 2 sided|||||0.54|-0.71|0.798
82649799|NCT00408876|165014894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.48||||0.066||95.0|-0.03|1.0|||t-test, 2 sided|||||1.00|-0.03|0.066
82649800|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.869||95.0|||||Fisher Exact|||||||0.869
82649801|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.141||95.0|||||Fisher Exact|||||||0.141
82649802|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|||||||0.033
82649803|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.142||95.0|||||Fisher Exact|||||||0.142
82457234|NCT02888106|164619132|SUPERIORITY|||||||0.6999|||||||Fisher Exact|||Week 48||||0.6999
82457235|NCT02888106|164619132|SUPERIORITY|||||||0.0743|||||||Fisher Exact|||Week 72||||0.0743
82457236|NCT02888106|164619132|SUPERIORITY|||||||0.3449|||||||t-test, 1 sided|||Week 72||||0.3449
82457237|NCT02888106|164619132|SUPERIORITY|||||||0.6036|||||||Fisher Exact|||Week 72||||0.6036
82457238|NCT02888106|164619132|SUPERIORITY|||||||0.3408|||||||Fisher Exact|||Week 72||||0.3408
82457239|NCT02888106|164619132|SUPERIORITY|||||||0.3408|||||||Fisher Exact|||Week 72||||0.3408
82457240|NCT02888106|164619133|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457241|NCT02888106|164619133|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 24||||0.2241
82457242|NCT02888106|164619133|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
82457243|NCT02888106|164619133|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
82457244|NCT02888106|164619133|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 24||||0.4828
82457245|NCT02888106|164619133|SUPERIORITY|||||||0.5977|||||||Fisher Exact|||Week 48||||0.5977
82457246|NCT02888106|164619133|SUPERIORITY|||||||0.1686|||||||Fisher Exact|||Week 48||||0.1686
82457247|NCT02888106|164619133|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457248|NCT02888106|164619133|SUPERIORITY|||||||0.5977|||||||Fisher Exact|||Week 48||||0.5977
82457249|NCT02888106|164619133|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457250|NCT02888106|164619133|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||Week 72||||0.0063
82457251|NCT02888106|164619133|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
82457252|NCT02888106|164619133|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457253|NCT02888106|164619133|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457254|NCT02888106|164619133|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
82457255|NCT02888106|164619134|SUPERIORITY|||||||0.0801|||||||Fisher Exact|||Week 24||||0.0801
82457256|NCT02888106|164619134|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457257|NCT02888106|164619134|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457258|NCT02888106|164619134|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457259|NCT02888106|164619134|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457260|NCT02888106|164619134|SUPERIORITY|||||||0.0063|||||||Fisher Exact|||Week 48||||0.0063
82457261|NCT02888106|164619134|SUPERIORITY|||||||0.2241|||||||Fisher Exact|||Week 48||||0.2241
82457262|NCT02888106|164619134|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82649804|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||Fisher Exact|||||||0.049
82649805|NCT00408876|165014895|SUPERIORITY_OR_OTHER|||||||0.587||95.0|||||Fisher Exact|||||||0.587
82649806|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.356||95.0|||||Fisher Exact|||||||0.356
82649807|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.472||95.0|||||Fisher Exact|||||||0.472
82649808|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.255||95.0|||||Fisher Exact|||||||0.255
82649809|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.107||95.0|||||Fisher Exact|||||||0.107
82649810|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||Fisher Exact|||||||0.053
82649811|NCT00408876|165014896|SUPERIORITY_OR_OTHER|||||||0.779||95.0|||||Fisher Exact|||||||0.779
82649812|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.747||95.0|-1.47|1.06|||t-test, 2 sided|||||1.06|-1.47|0.747
82649813|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07||||0.045||95.0|-2.12|-0.02|||t-test, 2 sided|||||-0.02|-2.12|0.045
82649814|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.58||95.0|-0.76|1.36|||t-test, 2 sided|||||1.36|-0.76|0.580
82649815|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.86||||0.185||95.0|-2.14|0.41|||t-test, 2 sided|||||0.41|-2.14|0.185
82649816|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.438||95.0|-0.77|1.79|||t-test, 2 sided|||||1.79|-0.77|0.438
82649817|NCT00408876|165014897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37||||0.012||95.0|0.3|2.44|||t-test, 2 sided|||||2.44|0.30|0.012
82649818|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.46||||0.729||95.0|-2.16|3.08|||t-test, 2 sided|||||3.08|-2.16|0.729
82457263|NCT02888106|164619134|SUPERIORITY|||||||0.0169|||||||Regression, Cox|||Week 72||||0.0169
82457264|NCT02888106|164619134|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
82457265|NCT02888106|164619134|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 72||||0.4828
82457266|NCT02888106|164619135|SUPERIORITY|||||||0.4828|||||||Fisher Exact|||Week 48||||0.4828
82457267|NCT02888106|164619135|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457268|NCT02888106|164619135|SUPERIORITY|||||||0.2292|||||||Fisher Exact|||Week 72||||0.2292
82457269|NCT02888106|164619135|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457270|NCT02888106|164619136|SUPERIORITY|||||||0.4621|||||||Fisher Exact|||Week 24||||0.4621
82457271|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Chi-squared, Corrected|||Week 24||||1.0000
82457272|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 24||||1.0000
82457273|NCT02888106|164619136|SUPERIORITY|||||||0.4621|||||||Fisher Exact|||Week 24||||0.4621
82457274|NCT02888106|164619136|SUPERIORITY|||||||0.0253|||||||Fisher Exact|||Week 24||||0.0253
82457275|NCT02888106|164619136|SUPERIORITY|||||||0.0268|||||||Fisher Exact|||Week 48||||0.0268
82457276|NCT02888106|164619136|SUPERIORITY|||||||0.6999|||||||Fisher Exact|||Week 48||||0.6999
82457277|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 48||||1.0000
82457278|NCT02888106|164619136|SUPERIORITY|||||||0.0656|||||||Fisher Exact|||Week 48||||0.0656
82457279|NCT02888106|164619136|SUPERIORITY|||||||0.0005|||||||Fisher Exact|||Week 48||||0.0005
82457280|NCT02888106|164619136|SUPERIORITY|||||||0.1431|||||||Fisher Exact|||Week 72||||0.1431
82457281|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457282|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457283|NCT02888106|164619136|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 72||||1.0000
82457284|NCT02888106|164619136|SUPERIORITY|||||||0.7104|||||||Fisher Exact|||Week 72||||0.7104
82457285|NCT00430716|164619188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|24.15||||0.011|ONE_SIDED|97.5|3.37||||ANOVA|||An analysis of variance (ANOVA) model followed by the Williams trend test (one-sided, at the 2.5% level of significance) was used. The Williams trend test firstly determined if there was a significant downward trend in response for the descending doses, and then subsequently determined the highest dose that was statistically inferior to 20 mg (known to be an effective dose of sildenafil). A corresponding 97.5% lower confidence limit for the difference was presented.|||3.37|0.011
82457286|NCT00430716|164619188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.17||||0.545|ONE_SIDED|97.5|-21.48||||ANOVA|||ANOVA model followed by the Williams trend test (one-sided, at the 2.5% level of significance) was used. The Williams trend test firstly determined if there was a significant downward trend in response for the descending doses, and then subsequently determined the highest dose that was statistically inferior to 20 mg (known to be an effective dose of sildenafil). A corresponding 97.5% lower confidence limit for the difference was presented.|||-21.48|0.545
82457287|NCT00430716|164619189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-2.51||||0.278|TWO_SIDED|95.0|-7.07|2.05|||ANCOVA|||The analysis of change from baseline in week 12 mean PAP used Analysis of Covariance (ANCOVA), with etiology and baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||2.05|-7.07|0.278
82457288|NCT00430716|164619189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.44||||0.846|TWO_SIDED|95.0|-4.98|4.09|||ANCOVA|||The analysis of change from baseline in week 12 mean PAP used ANCOVA, with etiology and baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||4.09|-4.98|0.846
82457289|NCT00430716|164619191|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.55||||0.448|TWO_SIDED|95.0|0.5|4.78|||Regression, Logistic|||The analysis of the week 12 PAH functional class was done with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates.The odds ratio and corresponding two-sided 95% CI for the odds ratio for the treatment comparisons was presented along with the p-value for the tests.||4.78|0.50|0.448
82457290|NCT00430716|164619191|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.897|TWO_SIDED|95.0|0.35|3.32|||Regression, Logistic|||The analysis of the week 12 PAH functional class was done with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates.The odds ratio and corresponding two-sided 95% CI for the odds ratio for the treatment comparisons was presented along with the p-value for the tests.||3.32|0.35|0.897
82457291|NCT00430716|164619192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-104.8||||0.005|TWO_SIDED|95.0|-177.44|-32.16|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||-32.16|-177.44|0.005
82457292|NCT00430716|164619192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-25.0||||0.496|TWO_SIDED|95.0|-97.5|47.5|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||47.50|-97.50|0.496
82457293|NCT00430716|164619193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-462.12||||0.009|TWO_SIDED|95.0|-807.53|-116.71|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||-116.71|-807.53|0.009
82457294|NCT00430716|164619193|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-141.45||||0.414|TWO_SIDED|95.0|-483.48|200.58|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||200.58|-483.48|0.414
82541585|NCT03622593|164782727|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg Q8W and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg Q8W was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|1.5|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|97.5|-0.1|3.2|||||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||3.2|-0.1|
82541586|NCT03622593|164782727|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in adjusted means for the faricimab 6 mg PTI and the active comparator (aflibercept 2 mg Q8W) arms was greater than -4 letters, then faricimab 6 mg PTI was considered non-inferior to aflibercept 2 mg Q8W. Non-inferiority was tested one-sided at a significance level of α = 0.0248.|Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|97.5|-1.1|2.1|||||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.1|-1.1|
82541587|NCT03622593|164782727|SUPERIORITY||Adjusted mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.83||0.1718|TWO_SIDED|97.5|-0.7|3.0||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||3.0|-0.7|0.1718
82541588|NCT03622593|164782727|SUPERIORITY||Adjusted mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4602|TWO_SIDED|97.5|-1.2|2.4||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||2.4|-1.2|0.4602
82541589|NCT03622593|164782727|SUPERIORITY||Adjusted mean difference|1.5|STANDARD_ERROR_OF_MEAN|0.73||0.0361|TWO_SIDED|97.5|-0.1|3.2||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||3.2|-0.1|0.0361
82541590|NCT03622593|164782727|SUPERIORITY||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.73||0.493|TWO_SIDED|97.5|-1.1|2.1||Tested at an overall significance level of α = 0.0248.|Mixed Model for Repeated Measures||The difference in adjusted means was calculated as Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.|Three hypotheses were tested in order for each faricimab arm (Q8W or PTI) separately against the aflibercept arm using a graph-based testing procedure. The analysis presented here is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||2.1|-1.1|0.4930
82541591|NCT03622593|164782728|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab Q8W and the active comparator (aflibercept Q8W) arms was greater than -10%, then faricimab Q8W was considered non-inferior to aflibercept.|Difference in CMH Weighted Percentage|-2.6|||||TWO_SIDED|97.5|-12.6|7.4||||||This analysis is for the non-inferiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||7.4|-12.6|
82541592|NCT03622593|164782728|NON_INFERIORITY|If the lower bound of the two-sided 97.52% confidence interval for the difference in CMH weighted percentages of participants for the faricimab PTI and the active comparator (aflibercept Q8W) arms was greater than -10%, then faricimab PTI was considered non-inferior to aflibercept.|Difference in CMH Weighted Percentage|-3.5|||||TWO_SIDED|97.5|-13.4|6.3||||||This analysis is for the non-inferiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||6.3|-13.4|
82649819|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02||||0.352||95.0|-1.14|3.18|||t-test, 2 sided|||||3.18|-1.14|0.352
82649820|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.465||95.0|-3.0|1.37|||t-test, 2 sided|||||1.37|-3.00|0.465
82649821|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.677||95.0|-2.09|3.21|||t-test, 2 sided|||||3.21|-2.09|0.677
82649822|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.27||||0.345||95.0|-3.92|1.38|||t-test, 2 sided|||||1.38|-3.92|0.345
82649823|NCT00408876|165014898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.84||||0.102||95.0|-4.04|0.37|||t-test, 2 sided|||||0.37|-4.04|0.102
82649824|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.977||95.0|-2.91|2.83|||t-test, 2 sided|||||2.83|-2.91|0.977
82649825|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.9||||0.451||95.0|-1.44|3.24|||t-test, 2 sided|||||3.24|-1.44|0.451
82649826|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.74||||0.15||95.0|-0.63|4.11|||t-test, 2 sided|||||4.11|-0.63|0.150
82649827|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94||||0.524||95.0|-1.96|3.83|||t-test, 2 sided|||||3.83|-1.96|0.524
82649828|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.78||||0.23||95.0|-1.13|4.69|||t-test, 2 sided|||||4.69|-1.13|0.230
82649829|NCT00408876|165014899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84||||0.491||95.0|-1.55|3.23|||t-test, 2 sided|||||3.23|-1.55|0.491
82649830|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.645||95.0|-0.49|0.79|||t-test, 2 sided|||||0.79|-0.49|0.645
82457295|NCT00430716|164619194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.89|TWO_SIDED|95.0|-0.17|0.15|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (1 mg) was presented along with the p-value for the test.||0.15|-0.17|0.890
82457296|NCT00430716|164619194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.13||||0.124|TWO_SIDED|95.0|-0.29|0.04|||ANCOVA|||ANCOVA method was used with etiology, baseline walking distance category (\<325m or \>=325m) and baseline score as the covariates. The mean difference and corresponding two-sided 95% CI for the comparisons of sildenafil 20 mg against the lower sildenafil dose (5 mg) was presented along with the p-value for the test.||0.04|-0.29|0.124
82457297|NCT00430716|164619195|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|0.0||||0.382|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon (Van-Elteren)|||A stratified Wilcoxon test (Van-Elteren) was used. The stratified median difference and corresponding two-sided 95% CI (calculated using the Hodges-Lehmann estimator) was presented along with the p-value for the test.||0.00|-1.00|0.382
82457298|NCT00430716|164619195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.141|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Van-Elteren)|||A stratified Wilcoxon test (Van-Elteren) was used. The stratified median difference and corresponding two-sided 95% CI (calculated using the Hodges-Lehmann estimator) was presented along with the p-value for the test.||1.00|0.00|0.141
82457299|NCT03865446|164619196|OTHER||Geometric Means Ratio|130.91|||||TWO_SIDED|90.0|86.03|199.22|||||The model was an analysis of variance (ANOVA) model with unequal variance assumption and hepatic impairment group as fixed effect. Values were back-transformed from the log scale.|||199.22|86.03|
82457300|NCT03865446|164619197|OTHER||Geometric Means Ratio|104.41|||||TWO_SIDED|90.0|72.12|151.16|||||The model was an ANOVA model with unequal variance assumption and hepatic impairment group as fixed effect. Values are back-transformed from the log scale.|||151.16|72.12|
82457301|NCT03324802|164619209|SUPERIORITY|||||||1|||||||Log Rank|||||||1.0
82457302|NCT03324802|164619210|SUPERIORITY|||||||1|||||||Log Rank|||||||1.0
82457303|NCT03324802|164619212|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.320
82457304|NCT03324802|164619213|SUPERIORITY|||||||0.163|||||||Chi-squared|||||||0.163
82457305|NCT03324802|164619214|SUPERIORITY|||||||0.97|||||||Log Rank|||||||0.97
82457306|NCT03324802|164619215|SUPERIORITY|||||||0.5|||||||Gray Test P-value|||||||0.5
82457307|NCT03324802|164619216|SUPERIORITY|||||||0.54|||||||Log Rank|||||||0.54
82457308|NCT00104650|164619223|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.28|||<|0.001||95.0|3.35|45.03|||Cochran-Mantel-Haenszel|Adjusted for cancer type stratification factor||||45.03|3.35|<0.001
82457309|NCT00104650|164619223|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.33||||0.002||95.0|1.74|16.36|||Cochran-Mantel-Haenszel|Adjusted for cancer type stratification factor||||16.36|1.74|0.002
82457310|NCT00104650|164619223|SUPERIORITY_OR_OTHER||Percentage of participants|77.8||||||95.0|60.8|89.9||||||||89.9|60.8|
82457311|NCT00104650|164619223|SUPERIORITY_OR_OTHER||Percentage of participants|63.6||||||95.0|45.1|79.6||||||||79.6|45.1|
82457312|NCT00104650|164619223|SUPERIORITY_OR_OTHER||Percentage of participants|28.6||||||95.0|14.6|46.3||||||||46.3|14.6|
82457313|NCT00104650|164619224|SUPERIORITY_OR_OTHER||Percentage of participants|63.9||||||95.0|46.2|79.2||||||||79.2|46.2|
82457314|NCT00104650|164619224|SUPERIORITY_OR_OTHER||Percentage of participants|63.6||||||95.0|45.1|79.6||||||||79.6|45.1|
82457315|NCT00104650|164619224|SUPERIORITY_OR_OTHER||Percentage of participants|37.1||||||95.0|21.5|55.1||||||||55.1|21.5|
82457316|NCT00104650|164619225|SUPERIORITY_OR_OTHER|||||||0.388|||||||ANCOVA|Adjusted for the stratum to which participants were originally assigned by the Interactive Voice Response System (IVRS)||||||0.388
82457317|NCT00104650|164619226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.79|||<|0.001||95.0|2.01|7.15|||Regression, Cox|Stratified by cancer type and screening uNTx level||||7.15|2.01|<0.001
82457318|NCT00104650|164619226|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.32|||<|0.001||95.0|2.23|8.36|||Regression, Cox|Stratified by cancer type and screening uNTx level||||8.36|2.23|<0.001
82457319|NCT00104650|164619227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.274||||0.006||95.0|0.11|0.687|||Regression, Cox|Adjusted for cancer type stratification factor and screening uNTx level||||0.687|0.110|0.006
82457320|NCT00104650|164619227|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.199||||0.001||95.0|0.076|0.523|||Regression, Cox|Adjusted for cancer type stratification factor and screening uNTx level||||0.523|0.076|0.001
82457321|NCT00104650|164619228|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANCOVA|Adjusted for the stratum to which participants were originally assigned by the Interactive Voice Response System (IVRS)||||||0.056
82457322|NCT00104650|164619229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.162||||0.105||95.0|0.018|1.465|||Regression, Cox|||||1.465|0.018|0.105
82457323|NCT00104650|164619229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.43||95.0|0.143|2.289|||Regression, Cox|||||2.289|0.143|0.430
82457324|NCT00104650|164619230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||||95.0|0.05|1.44||||||||1.44|0.05|
82457325|NCT00104650|164619230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||||95.0|0.08|1.76||||||||1.76|0.08|
82457326|NCT02294058|164619232|SUPERIORITY||Rate Ratio|0.518|||<|0.0001|TWO_SIDED|95.0|0.405|0.663||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson regression model|Adjusted for region, Baseline age, number of gadolinium enhancing (GdE) lesions and included the natural log transformation of time as an offset term.||||0.663|0.405|<0.0001
82457327|NCT02294058|164619232|SUPERIORITY||Rate Ratio|0.688||||0.0013|TWO_SIDED|95.0|0.547|0.864||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.025 level.|Poisson Regression Model|Adjusted for region, Baseline age and the number of GdE lesions, and included the natural log transformation of time on study as an offset term.||||0.864|0.547|0.0013
82457328|NCT02294058|164619233|SUPERIORITY||Rate Ratio|0.517|||<|0.0001|TWO_SIDED|95.0|0.427|0.625||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans over 12 months as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.625|0.427|<0.0001
82649831|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.027||95.0|0.07|1.12|||t-test, 2 sided|||||1.12|0.07|0.027
82649832|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.006||95.0|0.22|1.29|||t-test, 2 sided|||||1.29|0.22|0.006
82457329|NCT02294058|164619233|SUPERIORITY||Rate Ratio|0.754||||0.0032|TWO_SIDED|95.0|0.625|0.91||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans over 12 months as an offset term.|Rate Ratio = Ozanimod / IFN β-1a|||0.910|0.625|0.0032
82457330|NCT02294058|164619234|SUPERIORITY||Rate Ratio|0.37|||<|0.0001|TWO_SIDED|95.0|0.256|0.536||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative Binomial Regression Model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans as an offset term.||||0.536|0.256|<0.0001
82649833|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44||||0.18||95.0|-0.21|1.1|||t-test, 2 sided|||||1.10|-0.21|0.180
82649834|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.069||95.0|-0.05|1.25|||t-test, 2 sided|||||1.25|-0.05|0.069
82649835|NCT00408876|165014900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.564||95.0|-0.38|0.7|||t-test, 2 sided|||||0.70|-0.38|0.564
82457331|NCT02294058|164619234|SUPERIORITY||Rate Ratio|0.662||||0.0182|TWO_SIDED|95.0|0.471|0.932||To account for multiple comparisons, each of the 2 treatment comparisons was tested at the alpha = 0.05 level.|Negative binomial regression model|Adjusted for region, Baseline age and GdE lesions; included the natural log transformation of available MRI scans as an offset term.||||0.932|0.471|0.0182
82457332|NCT02294058|164619235|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.3055|TWO_SIDED|95.0|0.34|1.402|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age, and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||1.402|0.340|0.3055
82457333|NCT02294058|164619235|SUPERIORITY||Hazard Ratio (HR)|0.886||||0.7163|TWO_SIDED|95.0|0.46|1.705|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||1.705|0.460|0.7163
82457334|NCT02294058|164619236|SUPERIORITY||Hazard Ratio (HR)|1.238||||0.6725|TWO_SIDED|95.0|0.46|3.337|||Cox proportional hazards model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||3.337|0.460|0.6725
82457335|NCT02294058|164619236|SUPERIORITY||Hazard Ratio (HR)|1.535||||0.3755|TWO_SIDED|95.0|0.595|3.963|||Cox proportional hazard model|Based on the Cox proportional hazard model with factors for treatment group, adjusted for region, Baseline age and Baseline EDSS score|Hazard Ratio (Ozanimod / IFN β-1a)|||3.963|0.595|0.3755
82457336|NCT02294058|164619237|SUPERIORITY||Difference in Percentages|10.88||||0.0006|TWO_SIDED|95.0|4.84|16.92|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS category per Interactive Voice Response System (IVRS)||||16.92|4.84|0.0006
82649836|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.929||95.0|-0.92|1.0|||t-test, 2 sided|||||1.00|-0.92|0.929
82457337|NCT02294058|164619237|SUPERIORITY||Difference in Percentages|5.12||||0.113|TWO_SIDED|95.0|-1.07|11.32|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS category per IVRS.||||11.32|-1.07|0.1130
82457338|NCT02294058|164619238|SUPERIORITY||Difference in Percentages|4.53||||0.118|TWO_SIDED|95.0|-1.19|10.24|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS Scale category per IVRS.||||10.24|-1.19|0.1180
82457339|NCT02294058|164619238|SUPERIORITY||Difference in percentages|2.95||||0.3023|TWO_SIDED|95.0|-2.7|8.6|||Cochran-Mantel-Haenszel|Based on the CMH test stratified by region and EDSS Scale category per IVRS.||||8.60|-2.70|0.3023
82649837|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.147||95.0|-0.21|1.36|||t-test, 2 sided|||||1.36|-0.21|0.147
82649838|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.7||95.0|-0.64|0.95|||t-test, 2 sided|||||0.95|-0.64|0.700
82649839|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.54||||0.279||95.0|-0.44|1.51|||t-test, 2 sided|||||1.51|-0.44|0.279
82649840|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.822||95.0|-0.86|1.09|||t-test, 2 sided|||||1.09|-0.86|0.822
82649841|NCT00408876|165014901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.299||95.0|-1.22|0.38|||t-test, 2 sided|||||0.38|-1.22|0.299
82457340|NCT02294058|164619239|SUPERIORITY||||||<|0.0001|||||||Rank ANCOVA|Adjusted for region and EDSS category per IVRS||Due to the non-normal distribution of the data for brain volume loss, the analyses for percent change from baseline in normalized brain volume were compared using rank-ANCOVA, adjusted for region (Eastern Europe vs Rest of World), and EDSS category per IVRS, with the dependent variable as the residual of the rank of brain volume at Baseline regressed on rank of percent change.||||<0.0001
82457341|NCT02294058|164619239|SUPERIORITY|||||||0.0615|||||||Rank ANCOVA|Adjusted for region and EDSS Scale per IVRS||Due to the non-normal distribution of the data for brain volume loss, the analyses for percent change from baseline in normalized brain volume were compared using rank-ANCOVA, adjusted for region (Eastern Europe vs Rest of World), and EDSS category per IVRS, with the dependent variable as the residual of the rank of brain volume at Baseline regressed on rank of percent change.||||0.0615
82649842|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.766||95.0|-1.33|0.98|||t-test, 2 sided|||||0.98|-1.33|0.766
82649843|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.217||95.0|-0.35|1.55|||t-test, 2 sided|||||1.55|-0.35|0.217
82649844|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.88||95.0|-0.89|1.04|||t-test, 2 sided|||||1.04|-0.89|0.880
82649845|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78||||0.193||95.0|-0.39|1.94|||t-test, 2 sided|||||1.94|-0.39|0.193
82649846|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.675||95.0|-0.92|1.42|||t-test, 2 sided|||||1.42|-0.92|0.675
82649847|NCT00408876|165014902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.288||95.0|-1.5|0.45|||t-test, 2 sided|||||0.45|-1.50|0.288
82649848|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.501||95.0|-1.66|0.81|||t-test, 2 sided|||||0.81|-1.66|0.501
82649849|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33||||0.524||95.0|-0.69|1.35|||t-test, 2 sided|||||1.35|-0.69|0.524
82649850|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.089||95.0|-0.14|1.91|||t-test, 2 sided|||||1.91|-0.14|0.089
82457342|NCT02294058|164619240|SUPERIORITY||LS Mean Difference|0.034||||0.129|TWO_SIDED|95.0|-0.01|0.077|||ANCOVA|Adjusted for region, EDSS category per IVRS and the Baseline MSFC score.||||0.077|-0.010|0.1290
82457343|NCT02294058|164619240|SUPERIORITY||LS Mean Difference|0.015||||0.4942|TWO_SIDED|95.0|-0.028|0.059|||ANCOVA|Adjusted for region, EDSS category per IVRS and the Baseline MSFC score||||0.059|-0.028|0.4942
82457344|NCT02294058|164619241|SUPERIORITY||Mean Difference (Final Values)|1.642||||0.0364|TWO_SIDED|95.0|0.104|3.18|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Physical Health Composite Summary||3.180|0.104|0.0364
82457345|NCT02294058|164619241|SUPERIORITY||Mean Difference (Final Values)|1.024||||0.1905|TWO_SIDED|95.0|-0.51|2.559|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Physical Health Composite Summary||2.559|-0.510|0.1905
82457346|NCT02294058|164619241|SUPERIORITY||Mean Difference (Final Values)|0.356||||0.7104|TWO_SIDED|95.0|-1.523|2.234|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Mental Health Composite Summary||2.234|-1.523|0.7104
82457347|NCT02294058|164619241|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.8587|TWO_SIDED|95.0|-2.045|1.705|||ANCOVA|Adjusted for region, EDSS category per IVRS, and the Baseline summary score.||Analysis of Mental Health Composite Summary||1.705|-2.045|0.8587
82457348|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.068||||0.037|TWO_SIDED|95.0|0.003|0.132|||Mixed Models Analysis|||"Comparison groups were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.132|0.003|0.037
82457349|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.116|||<|0.001|TWO_SIDED|95.0|0.051|0.181|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.181|0.051|<0.001
82457350|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.151|||<|0.001|TWO_SIDED|95.0|0.086|0.216|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.216|0.086|<0.001
82457351|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.145|||<|0.001|TWO_SIDED|95.0|0.081|0.209|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis for was performed as described for the statistical analysis 1 for this outcome measure.~Adjusted for multiplicity based on the parametric simulation method by Edwards and Berry."||0.209|0.081|<0.001
82457352|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.211|||<|0.001|TWO_SIDED|95.0|0.159|0.263|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.263|0.159|<0.001
82457353|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.066|TWO_SIDED|95.0|-0.003|0.1|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.100|-0.003|0.066
82457354|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.083||||0.002|TWO_SIDED|95.0|0.031|0.135|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.135|0.031|0.002
82457355|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.003|TWO_SIDED|95.0|0.026|0.128|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.128|0.026|0.003
82457356|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.035||||0.189|TWO_SIDED|95.0|-0.017|0.087|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.087|-0.017|0.189
82649851|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.234||95.0|-0.49|2.0|||t-test, 2 sided|||||2.00|-0.49|0.234
82457357|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.273|TWO_SIDED|95.0|-0.023|0.08|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.080|-0.023|0.273
82649852|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.31||||0.04||95.0|0.06|2.56|||t-test, 2 sided|||||2.56|0.06|0.040
82649853|NCT00408876|165014903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.56||||0.289||95.0|-0.48|1.59|||t-test, 2 sided|||||1.59|-0.48|0.289
82649854|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.862||95.0|-0.27|0.32|||t-test, 2 sided|||||0.32|-0.27|0.862
82457358|NCT03084796|164619246|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.813|TWO_SIDED|95.0|-0.058|0.045|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Analyzed using a linear mixed model for repeated measures (MMRM) including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West) and smoking status at screening as fixed effects, and the baseline value and baseline by visit interaction as covariates."||0.045|-0.058|0.813
82457359|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.002|TWO_SIDED|95.0|0.022|0.095|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.095|0.022|0.002
82457360|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.077|||<|0.001|TWO_SIDED|95.0|0.04|0.113|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.113|0.040|<0.001
82457361|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.126|||<|0.001|TWO_SIDED|95.0|0.089|0.163|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.163|0.089|<0.001
82457362|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.104|0.177|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.177|0.104|<0.001
82457363|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.183|||<|0.001|TWO_SIDED|95.0|0.147|0.22|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.220|0.147|<0.001
82457364|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.322|TWO_SIDED|95.0|-0.018|0.055|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.055|-0.018|0.322
82457365|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.067|||<|0.001|TWO_SIDED|95.0|0.031|0.104|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.104|0.031|<0.001
82457366|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.082|||<|0.001|TWO_SIDED|95.0|0.045|0.118|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.118|0.045|<0.001
82457367|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.008|TWO_SIDED|95.0|0.013|0.086|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.086|0.013|0.008
82457368|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.063|||<|0.001|TWO_SIDED|95.0|0.027|0.1|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.100|0.027|<0.001
82457369|NCT03084796|164619247|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.443|TWO_SIDED|95.0|-0.022|0.051|||Mixed Models Analysis|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 for this outcome measure."||0.051|-0.022|0.443
82457370|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.072|||<|0.001|TWO_SIDED|95.0|0.038|0.105|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.105|0.038|<0.001
82457371|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.086|||<|0.001|TWO_SIDED|95.0|0.052|0.119|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.119|0.052|<0.001
82457372|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.143|||<|0.001|TWO_SIDED|95.0|0.109|0.177|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.177|0.109|<0.001
82649855|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11||||0.368||95.0|-0.13|0.35|||t-test, 2 sided|||||0.35|-0.13|0.368
82649856|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.628||95.0|-0.18|0.31|||t-test, 2 sided|||||0.31|-0.18|0.628
82457373|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.127|0.194|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.194|0.127|<0.001
82649857|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.573||95.0|-0.21|0.38|||t-test, 2 sided|||||0.38|-0.21|0.573
82649858|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.819||95.0|-0.26|0.33|||t-test, 2 sided|||||0.33|-0.26|0.819
82457374|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.164|||<|0.001|TWO_SIDED|95.0|0.131|0.198|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.198|0.131|<0.001
82457375|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.418|TWO_SIDED|95.0|-0.02|0.048|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.048|-0.020|0.418
82457376|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.071|||<|0.001|TWO_SIDED|95.0|0.038|0.105|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.105|0.038|<0.001
82457377|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.089|||<|0.001|TWO_SIDED|95.0|0.055|0.122|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.122|0.055|<0.001
82649859|NCT00408876|165014904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.687||95.0|-0.3|0.2|||t-test, 2 sided|||||0.20|-0.30|0.687
82649860|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.972||95.0|-0.48|0.5|||t-test, 2 sided|||||0.50|-0.48|0.972
82649861|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.99||95.0|-0.4|0.4|||t-test, 2 sided|||||0.40|-0.40|0.990
82649862|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.793||95.0|-0.35|0.46|||t-test, 2 sided|||||0.46|-0.35|0.793
82649863|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.981||95.0|-0.5|0.49|||t-test, 2 sided|||||0.49|-0.50|0.981
82649864|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.857||95.0|-0.45|0.54|||t-test, 2 sided|||||0.54|-0.45|0.857
82649865|NCT00408876|165014905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.805||95.0|-0.36|0.46|||t-test, 2 sided|||||0.46|-0.36|0.805
82457378|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.057|||<|0.001|TWO_SIDED|95.0|0.024|0.091|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|0.024|<0.001
82457379|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.075|||<|0.001|TWO_SIDED|95.0|0.041|0.108|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.108|0.041|<0.001
82457380|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.308|TWO_SIDED|95.0|-0.016|0.051|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.051|-0.016|0.308
82457381|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.092|||<|0.001|TWO_SIDED|95.0|0.038|0.147|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.147|0.038|<0.001
82457382|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.079|0.188|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.188|0.079|<0.001
82457383|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.174|||<|0.001|TWO_SIDED|95.0|0.12|0.229|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.229|0.120|<0.001
82457384|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.181|||<|0.001|TWO_SIDED|95.0|0.127|0.235|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.235|0.127|<0.001
82457385|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.229|||<|0.001|TWO_SIDED|95.0|0.175|0.284|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.284|0.175|<0.001
82649866|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.34||95.0|-0.26|0.75|||t-test, 2 sided|||||0.75|-0.26|0.340
82649867|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.848||95.0|-0.45|0.37|||t-test, 2 sided|||||0.37|-0.45|0.848
82649868|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.573||95.0|-0.54|0.3|||t-test, 2 sided|||||0.30|-0.54|0.573
82649869|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.272||95.0|-0.79|0.22|||t-test, 2 sided|||||0.22|-0.79|0.272
82649870|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.161||95.0|-0.88|0.15|||t-test, 2 sided|||||0.15|-0.88|0.161
82649871|NCT00408876|165014906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.711||95.0|-0.5|0.34|||t-test, 2 sided|||||0.34|-0.50|0.711
82649872|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.713||95.0|-1.39|0.95|||t-test, 2 sided|||||0.95|-1.39|0.713
82649873|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52||||0.288||95.0|-0.44|1.49|||t-test, 2 sided|||||1.49|-0.44|0.288
82457386|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.141|TWO_SIDED|95.0|-0.013|0.095|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.095|-0.013|0.141
82457387|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.003|TWO_SIDED|95.0|0.028|0.137|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.137|0.028|0.003
82457388|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.088||||0.001|TWO_SIDED|95.0|0.035|0.142|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.142|0.035|0.001
82457389|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.137|TWO_SIDED|95.0|-0.013|0.096|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.096|-0.013|0.137
82457390|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.082|TWO_SIDED|95.0|-0.006|0.101|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.101|-0.006|0.082
82457391|NCT03084796|164619248|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.823|TWO_SIDED|95.0|-0.048|0.06|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.060|-0.048|0.823
82457392|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.002|TWO_SIDED|95.0|0.022|0.1|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.100|0.022|0.002
82578138|NCT03086655|164865757|SUPERIORITY||incidence rate ratio (IRR)|0.77|||||TWO_SIDED|95.0|0.61|0.98|||||This is the negative binomial part of the model. We used cluster robust standard errors due to the multiple observations being nested within participant. Result shows intervention group had lower rate of openings relative to control.|"We used zero inflated negative binomial regression due to the count variable being overdispersed and containing many 0s. The analysis aggregated over multiple time points per participant. It simultaneously tests the odds of having 0 openings and the difference in the rate of openings between the 2 intervention groups. These 2 results are reported separately.~Null hypothesis 2: the incidence rate ratio for # days with box opening is \>1, i.e. more openings in intervention than control group."||0.98|0.61|
82578139|NCT03086655|164865758|SUPERIORITY|||||||0.08|||||||Chi-squared|overall Wald chi2 (2 d.f.), simultaneously testing if parameters for both 6 mo. by intervention and 12 mo. by intervention are different from 0.||"statistical analyses is a GEE model with logit link function and binomial distribution with odds of undetectable VL as outcome and as predictors: intervention, time and time\*intervention. We hypothesize that over time, the odds of undetectable VL will be higher for the intervention than the control group, which would be reflected in a significant interaction effect time\*intervention.~H0: no significant interaction effect time\*intervention"||||0.08
82649874|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.351||95.0|-1.44|0.51|||t-test, 2 sided|||||0.51|-1.44|0.351
82457393|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.075|||<|0.001|TWO_SIDED|95.0|0.036|0.113|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.113|0.036|<0.001
82457394|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.085|0.163|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.163|0.085|<0.001
82457395|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.152|||<|0.001|TWO_SIDED|95.0|0.113|0.19|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.190|0.113|<0.001
82457396|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.163|||<|0.001|TWO_SIDED|95.0|0.124|0.202|||MMRM|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.202|0.124|<0.001
82457397|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.485|TWO_SIDED|95.0|-0.025|0.052|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.052|-0.025|0.485
82578140|NCT03086655|164865759|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|95.0|-0.11|0.43||a priori threshold for statistical significance was p=0.05.|t-test, 2 sided|(equal variances assumed)|Difference = control group - treatment group|||0.43|-0.11|<0.05
82649875|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.219||95.0|-0.44|1.93|||t-test, 2 sided|||||1.93|-0.44|0.219
82649876|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.686||95.0|-1.43|0.94|||t-test, 2 sided|||||0.94|-1.43|0.686
82649877|NCT00408876|165014907|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.98||||0.05||95.0|-1.97|0.0|||t-test, 2 sided|||||0.00|-1.97|0.050
82649878|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.663||95.0|-0.06|0.04|||t-test, 2 sided|||||0.04|-0.06|0.663
82649879|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.33||95.0|-0.02|0.06|||t-test, 2 sided|||||0.06|-0.02|0.330
82649880|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.143||95.0|-0.01|0.07|||t-test, 2 sided|||||0.07|-0.01|0.143
82649881|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.218||95.0|-0.02|0.08|||t-test, 2 sided|||||0.08|-0.02|0.218
82649882|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.1||95.0|-0.01|0.09|||t-test, 2 sided|||||0.09|-0.01|0.100
82649883|NCT00408876|165014908|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.614||95.0|-0.03|0.05|||t-test, 2 sided|||||0.05|-0.03|0.614
82457398|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.001|TWO_SIDED|95.0|0.025|0.102|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.102|0.025|0.001
82457399|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.091|||<|0.001|TWO_SIDED|95.0|0.053|0.13|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.130|0.053|<0.001
82457400|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.012|TWO_SIDED|95.0|0.011|0.088|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.088|0.011|0.012
82457401|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.077|||<|0.001|TWO_SIDED|95.0|0.039|0.116|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.116|0.039|<0.001
82457402|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.157|TWO_SIDED|95.0|-0.011|0.066|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.066|-0.011|0.157
82457403|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.069||||0.021|TWO_SIDED|95.0|0.011|0.128|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|0.011|0.021
82457404|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.053|0.17|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.053|<0.001
82457405|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.162|||<|0.001|TWO_SIDED|95.0|0.103|0.22|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.220|0.103|<0.001
82457406|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.157|||<|0.001|TWO_SIDED|95.0|0.099|0.215|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.215|0.099|<0.001
82457407|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.154|0.271|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.271|0.154|<0.001
82457408|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.149|TWO_SIDED|95.0|-0.015|0.101|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.101|-0.015|0.149
82457409|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.092||||0.002|TWO_SIDED|95.0|0.034|0.151|||Mixed Models Analysis|||"week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.151|0.034|0.002
82457410|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.088||||0.003|TWO_SIDED|95.0|0.031|0.146|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.146|0.031|0.003
82457411|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.096|TWO_SIDED|95.0|-0.009|0.108|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.108|-0.009|0.096
82457412|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.122|TWO_SIDED|95.0|-0.012|0.103|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.103|-0.012|0.122
82649884|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.786||95.0|-1.83|1.39|||t-test, 2 sided|||||1.39|-1.83|0.786
82649885|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.445||95.0|-1.85|0.81|||t-test, 2 sided|||||0.81|-1.85|0.445
82649886|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.39||||0.043||95.0|0.04|2.74|||t-test, 2 sided|||||2.74|0.04|0.043
82649887|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.721||95.0|-1.92|1.33|||t-test, 2 sided|||||1.33|-1.92|0.721
82457413|NCT03084796|164619249|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.886|TWO_SIDED|95.0|-0.062|0.054|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.054|-0.062|0.886
82457414|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.029|TWO_SIDED|95.0|0.008|0.141|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.141|0.008|0.029
82457415|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.121|||<|0.001|TWO_SIDED|95.0|0.055|0.188|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.188|0.055|<0.001
82457416|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.184|||<|0.001|TWO_SIDED|95.0|0.117|0.25|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.250|0.117|<0.001
82457417|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.208|||<|0.001|TWO_SIDED|95.0|0.142|0.275|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.275|0.142|<0.001
82457418|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.293|||<|0.001|TWO_SIDED|95.0|0.227|0.36|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.360|0.227|<0.001
82457419|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.161|TWO_SIDED|95.0|-0.019|0.113|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.113|-0.019|0.161
82457420|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.109||||0.001|TWO_SIDED|95.0|0.043|0.176|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.176|0.043|0.001
82457421|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.134|||<|0.001|TWO_SIDED|95.0|0.068|0.201|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.201|0.068|<0.001
82457422|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.066|TWO_SIDED|95.0|-0.004|0.128|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|-0.004|0.066
82649888|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.61||||0.053||95.0|-0.02|3.24|||t-test, 2 sided|||||3.24|-0.02|0.053
82457423|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.021|0.153|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.153|0.021|0.010
82457424|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.465|TWO_SIDED|95.0|-0.042|0.091|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|-0.042|0.465
82457425|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.008|TWO_SIDED|95.0|0.03|0.195|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.030|0.008
82457426|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.173|||<|0.001|TWO_SIDED|95.0|0.091|0.256|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.256|0.091|<0.001
82457427|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.219|||<|0.001|TWO_SIDED|95.0|0.136|0.302|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.302|0.136|<0.001
82457428|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.213|||<|0.001|TWO_SIDED|95.0|0.131|0.295|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.295|0.131|<0.001
82649889|NCT00408876|165014909|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.91||||0.006||95.0|0.54|3.27|||t-test, 2 sided|||||3.27|0.54|0.006
82649890|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.378||95.0|-0.48|1.25|||t-test, 2 sided|||||1.25|-0.48|0.378
82649891|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.723||95.0|-0.84|0.59|||t-test, 2 sided|||||0.59|-0.84|0.723
82649892|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.542||95.0|-0.95|0.5|||t-test, 2 sided|||||0.50|-0.95|0.542
82649893|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52||||0.245||95.0|-1.39|0.36|||t-test, 2 sided|||||0.36|-1.39|0.245
82457429|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.326|||<|0.001|TWO_SIDED|95.0|0.244|0.409|||McNemar|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.409|0.244|<0.001
82649894|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.169||95.0|-1.48|0.26|||t-test, 2 sided|||||0.26|-1.48|0.169
82649895|NCT00408876|165014910|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.796||95.0|-0.82|0.63|||t-test, 2 sided|||||0.63|-0.82|0.796
82457430|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.061||||0.144|TWO_SIDED|95.0|-0.021|0.143|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.143|-0.021|0.144
82457431|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.107||||0.011|TWO_SIDED|95.0|0.024|0.189|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.189|0.024|0.011
82457432|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.016|TWO_SIDED|95.0|0.019|0.182|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.182|0.019|0.016
82457433|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.28|TWO_SIDED|95.0|-0.037|0.128|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|-0.037|0.280
82457434|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.342|TWO_SIDED|95.0|-0.042|0.121|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.121|-0.042|0.342
82457435|NCT03084796|164619250|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.886|TWO_SIDED|95.0|-0.088|0.076|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.076|-0.088|0.886
82457436|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.003|TWO_SIDED|95.0|0.032|0.163|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.163|0.032|0.003
82457437|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.156|||<|0.001|TWO_SIDED|95.0|0.091|0.221|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.221|0.091|<0.001
82457438|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.208|||<|0.001|TWO_SIDED|95.0|0.143|0.273|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.273|0.143|<0.001
82457439|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.237|||<|0.001|TWO_SIDED|95.0|0.172|0.302|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.302|0.172|<0.001
82457440|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.276|||<|0.001|TWO_SIDED|95.0|0.211|0.341|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.341|0.211|<0.001
82457441|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.076|TWO_SIDED|95.0|-0.006|0.124|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.124|-0.006|0.076
82457442|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.111|||<|0.001|TWO_SIDED|95.0|0.046|0.176|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.176|0.046|<0.001
82457443|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.075|0.205|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.205|0.075|<0.001
82457444|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.116|TWO_SIDED|95.0|-0.013|0.117|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.117|-0.013|0.116
82457445|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.081||||0.014|TWO_SIDED|95.0|0.016|0.146|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.146|0.016|0.014
82649896|NCT00408876|165014912|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82457446|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.384|TWO_SIDED|95.0|-0.036|0.094|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.094|-0.036|0.384
82457447|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.064|0.236|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.236|0.064|<0.001
82457448|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.204|||<|0.001|TWO_SIDED|95.0|0.118|0.29|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.290|0.118|<0.001
82649897|NCT00408876|165014912|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
82457449|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.248|||<|0.001|TWO_SIDED|95.0|0.162|0.335|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.335|0.162|<0.001
82457450|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.254|||<|0.001|TWO_SIDED|95.0|0.168|0.339|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.339|0.168|<0.001
82457451|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.354|||<|0.001|TWO_SIDED|95.0|0.268|0.439|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.439|0.268|<0.001
82457452|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.054||||0.214|TWO_SIDED|95.0|-0.031|0.14|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.140|-0.031|0.214
82457453|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.098||||0.025|TWO_SIDED|95.0|0.012|0.184|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.184|0.012|0.025
82457454|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.104||||0.016|TWO_SIDED|95.0|0.019|0.189|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.189|0.019|0.016
82457455|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.313|TWO_SIDED|95.0|-0.042|0.13|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.130|-0.042|0.313
82457456|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.25|TWO_SIDED|95.0|-0.035|0.135|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure.~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.135|-0.035|0.250
82457457|NCT03084796|164619251|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.898|TWO_SIDED|95.0|-0.08|0.091|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.091|-0.080|0.898
82457458|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.035|TWO_SIDED|95.0|0.006|0.153|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.153|0.006|0.035
82457459|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.158|||<|0.001|TWO_SIDED|95.0|0.085|0.232|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.232|0.085|<0.001
82457460|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.201|||<|0.001|TWO_SIDED|95.0|0.127|0.275|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.275|0.127|<0.001
82649898|NCT00408876|165014912|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
82457461|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.241|||<|0.001|TWO_SIDED|95.0|0.168|0.315|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.315|0.168|<0.001
82649899|NCT00408876|165014913|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||t-test, 2 sided|||||||0.039
82649900|NCT00408876|165014914|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||t-test, 2 sided|||||||0.048
82649901|NCT00408876|165014915|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||t-test, 2 sided|||||||0.015
82649902|NCT00408876|165014915|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||t-test, 2 sided|||||||0.046
82649903|NCT00408876|165014916|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||t-test, 2 sided|||||||0.039
82457462|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.277|||<|0.001|TWO_SIDED|95.0|0.204|0.351|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.351|0.204|<0.001
82457463|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.035|TWO_SIDED|95.0|0.005|0.152|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.152|0.005|0.035
82457464|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.121||||0.001|TWO_SIDED|95.0|0.048|0.195|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.048|0.001
82457465|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.162|||<|0.001|TWO_SIDED|95.0|0.088|0.235|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.235|0.088|<0.001
82457466|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.256|TWO_SIDED|95.0|-0.031|0.116|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.116|-0.031|0.256
82457467|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.083||||0.027|TWO_SIDED|95.0|0.01|0.156|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.156|0.010|0.027
82457468|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.281|TWO_SIDED|95.0|-0.033|0.114|||Mixed Models Analysis|||"Day 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.114|-0.033|0.281
82457469|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.141||||0.003|TWO_SIDED|95.0|0.05|0.232|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.232|0.050|0.003
82457470|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.197|||<|0.001|TWO_SIDED|95.0|0.106|0.288|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.288|0.106|<0.001
82457471|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.249|||<|0.001|TWO_SIDED|95.0|0.157|0.34|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.340|0.157|<0.001
82457472|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.245|||<|0.001|TWO_SIDED|95.0|0.155|0.336|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.336|0.155|<0.001
82457473|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.348|||<|0.001|TWO_SIDED|95.0|0.258|0.439|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.439|0.258|<0.001
82457474|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.056||||0.222|TWO_SIDED|95.0|-0.034|0.147|||Mixed Models Analysis|||"week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.147|-0.034|0.222
82457475|NCT03084796|164619252|SUPERIORITY||Hazard Ratio, log|0.108||||0.02|TWO_SIDED|95.0|0.017|0.199|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.199|0.017|0.020
82457476|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.105||||0.022|TWO_SIDED|95.0|0.015|0.195|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.195|0.015|0.022
82457477|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.262|TWO_SIDED|95.0|-0.039|0.143|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.143|-0.039|0.262
82457478|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.29|TWO_SIDED|95.0|-0.041|0.138|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.138|-0.041|0.290
82457479|NCT03084796|164619252|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.938|TWO_SIDED|95.0|-0.094|0.087|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.087|-0.094|0.938
82649904|NCT00408876|165014917|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||||||0.042
82649905|NCT00408876|165014918|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82457480|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.64||||0.002|TWO_SIDED|95.0|1.21|2.24|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using Cox proportional hazards model, including treatment, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and baseline FEV1 value as covariate."||2.24|1.21|0.002
82457481|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|2.18|||<|0.001|TWO_SIDED|95.0|1.61|2.94|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.94|1.61|<0.001
82457482|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|2.79|||<|0.001|TWO_SIDED|95.0|2.07|3.78|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||3.78|2.07|<0.001
82457483|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|3.07|||<|0.001|TWO_SIDED|95.0|2.27|4.15|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.15|2.27|<0.001
82457484|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|3.1|||<|0.001|TWO_SIDED|95.0|2.3|4.17|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.17|2.30|<0.001
82457485|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.052|TWO_SIDED|95.0|1.0|1.76|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.76|1.00|0.052
82457486|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.7|||<|0.001|TWO_SIDED|95.0|1.28|2.26|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.26|1.28|<0.001
82457487|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.87|||<|0.001|TWO_SIDED|95.0|1.41|2.48|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.48|1.41|<0.001
82457488|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.074|TWO_SIDED|95.0|0.98|1.69|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.69|0.98|0.074
82541593|NCT03622593|164782728|SUPERIORITY||Difference in CMH Weighted Percentage|-5.4||||0.3009|TWO_SIDED|97.5|-16.9|6.1||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||6.1|-16.9|0.3009
82541594|NCT03622593|164782728|SUPERIORITY||Difference in CMH Weighted Percentage|-6.9||||0.1735|TWO_SIDED|97.5|-18.3|4.4||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||4.4|-18.3|0.1735
82457489|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.41||||0.013|TWO_SIDED|95.0|1.08|1.85|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.85|1.08|0.013
82457490|NCT03084796|164619253|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.494|TWO_SIDED|95.0|0.84|1.44|||Regression, Cox|||"Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.44|0.84|0.494
82457491|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.017|TWO_SIDED|95.0|0.011|0.107|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.107|0.011|0.017
82541595|NCT03622593|164782728|SUPERIORITY||Difference in CMH Weighted Percentage|-2.6||||0.5757|TWO_SIDED|97.5|-12.6|7.4||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm A: Faricimab 6 mg Q8W compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||7.4|-12.6|0.5757
82457492|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.001|TWO_SIDED|95.0|0.032|0.128|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.128|0.032|0.001
82541596|NCT03622593|164782728|SUPERIORITY||Difference in CMH Weighted Percentage|-3.5||||0.4293|TWO_SIDED|97.5|-13.4|6.3||Tested at an overall significance level of α = 0.0248.|Cochran-Mantel-Haenszel|||This analysis is for the superiority of Arm B: Faricimab 6 mg PTI compared with Arm C: Aflibercept 2 mg Q8W in the ITT Population.||6.3|-13.4|0.4293
82541597|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|3.5|||||TWO_SIDED|95.0|-4.0|11.1||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||11.1|-4.0|
82541598|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|-2.0|||||TWO_SIDED|95.0|-9.1|5.2||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.2|-9.1|
82541599|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|5.4|||||TWO_SIDED|95.0|-2.5|13.4||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||13.4|-2.5|
82541600|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-8.9|6.8||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||6.8|-8.9|
82541601|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|3.8|||||TWO_SIDED|95.0|-2.7|10.3||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||10.3|-2.7|
82541602|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|-0.7|||||TWO_SIDED|95.0|-7.3|5.9||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.9|-7.3|
82541603|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|0.7|||||TWO_SIDED|95.0|-3.8|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||5.2|-3.8|
82541604|NCT03622593|164782731|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-4.9|4.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.2|-4.9|
82541605|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|0.2|||||TWO_SIDED|95.0|-8.5|8.9||||||This is the difference in percentage of participants gaining ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||8.9|-8.5|
82541606|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|-3.5|||||TWO_SIDED|95.0|-11.8|4.8||||||This is the difference in percentage of participants gaining ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.8|-11.8|
82541607|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|2.2|||||TWO_SIDED|95.0|-6.9|11.4||||||This is the difference in percentage of participants gaining ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||11.4|-6.9|
82541608|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|-0.8|||||TWO_SIDED|95.0|-9.8|8.1||||||This is the difference in percentage of participants gaining ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||8.1|-9.8|
82541609|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-6.2|8.5||||||This is the difference in percentage of participants gaining ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||8.5|-6.2|
82541610|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|-1.1|||||TWO_SIDED|95.0|-8.3|6.2||||||This is the difference in percentage of participants gaining ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||6.2|-8.3|
82541611|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-3.8|6.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||6.2|-3.8|
82541612|NCT03622593|164782736|OTHER||Difference in CMH Weighted Percentage|0.2|||||TWO_SIDED|95.0|-4.8|5.2||||||This is the difference in percentage of participants gaining ≥0 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||5.2|-4.8|
82541613|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|0.3|||||TWO_SIDED|95.0|-1.6|2.1||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.1|-1.6|
82541614|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-1.8|1.9||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.9|-1.8|
82541615|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|-0.1|||||TWO_SIDED|95.0|-2.3|2.1||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.1|-2.3|
82541616|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.4|1.9||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||1.9|-2.4|
82541617|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-1.9|4.5||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.5|-1.9|
82541618|NCT03622593|164782741|OTHER||Difference in CMH Weighted Percentage|1.6|||||TWO_SIDED|95.0|-1.5|4.6||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.6|-1.5|
82541619|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.3|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.3|
82541620|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-2.0|2.2||||||This is the difference in percentage of participants avoiding a loss of ≥15 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.2|-2.0|
82541621|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|-2.7|2.6||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||2.6|-2.7|
82541622|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|-0.3|||||TWO_SIDED|95.0|-2.9|2.3||||||This is the difference in percentage of participants avoiding a loss of ≥10 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||2.3|-2.9|
82541623|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|1.3|||||TWO_SIDED|95.0|-2.0|4.7||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W.||4.7|-2.0|
82541624|NCT03622593|164782745|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-2.1|4.4||||||This is the difference in percentage of participants avoiding a loss of ≥5 letters in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W.||4.4|-2.1|
82541625|NCT03622593|164782749|OTHER||Difference in CMH Weighted Percentage|4.8|||||TWO_SIDED|95.0|-3.1|12.7||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||12.7|-3.1|
82541626|NCT03622593|164782749|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-8.8|6.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||6.2|-8.8|
82649906|NCT00408876|165014919|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||t-test, 2 sided|||||||0.031
82541627|NCT03622593|164782749|OTHER||Difference in CMH Weighted Percentage|2.6|||||TWO_SIDED|95.0|-6.5|11.6||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||11.6|-6.5|
82541628|NCT03622593|164782749|OTHER||Difference in CMH Weighted Percentage|-1.3|||||TWO_SIDED|95.0|-10.0|7.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||7.4|-10.0|
82541629|NCT03622593|164782752|OTHER||Difference in CMH Weighted Percentage|4.7|||||TWO_SIDED|95.0|-2.4|11.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||11.8|-2.4|
82541630|NCT03622593|164782752|OTHER||Difference in CMH Weighted Percentage|2.8|||||TWO_SIDED|95.0|-4.1|9.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||9.8|-4.1|
82541631|NCT03622593|164782752|OTHER||Difference in CMH Weighted Percentage|1.5|||||TWO_SIDED|95.0|-6.5|9.4||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||9.4|-6.5|
82541632|NCT03622593|164782752|OTHER||Difference in CMH Weighted Percentage|1.7|||||TWO_SIDED|95.0|-6.0|9.3||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||9.3|-6.0|
82541633|NCT03622593|164782755|OTHER||Difference in CMH Weighted Percentage|0.1|||||TWO_SIDED|95.0|-1.4|1.5||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.5|-1.4|
82541634|NCT03622593|164782755|OTHER||Difference in CMH Weighted Percentage|-0.7|||||TWO_SIDED|95.0|-1.6|0.2||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.2|-1.6|
82457493|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.074|0.17|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.074|<0.001
82457494|NCT03084796|164619255|SUPERIORITY||Hazard Ratio, log|0.111|||<|0.001|TWO_SIDED|95.0|0.063|0.159|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.159|0.063|<0.001
82457495|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.074|0.17|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.170|0.074|<0.001
82457496|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.377|TWO_SIDED|95.0|-0.026|0.069|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.069|-0.026|0.377
82541635|NCT03622593|164782755|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.1|2.1||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.1|-1.1|
82541636|NCT03622593|164782755|OTHER||Difference in CMH Weighted Percentage|-0.5|||||TWO_SIDED|95.0|-1.4|0.4||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.4|-1.4|
82541637|NCT03622593|164782764|OTHER||Difference in CMH Weighted Percentage|0.4|||||TWO_SIDED|95.0|-1.0|1.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||1.8|-1.0|
82649907|NCT00408876|165014920|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|||||||0.030
82457497|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.01|TWO_SIDED|95.0|0.015|0.111|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.111|0.015|0.010
82541638|NCT03622593|164782764|OTHER||Difference in CMH Weighted Percentage|0.5|||||TWO_SIDED|95.0|-1.0|2.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||2.0|-1.0|
82541639|NCT03622593|164782764|OTHER||Difference in CMH Weighted Percentage|0.6|||||TWO_SIDED|95.0|-0.6|1.8||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||1.8|-0.6|
82541640|NCT03622593|164782764|OTHER||Difference in CMH Weighted Percentage|1.2|||||TWO_SIDED|95.0|-0.4|2.8||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||2.8|-0.4|
82541641|NCT03622593|164782765|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
82541642|NCT03622593|164782765|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||0.0|0.0|
82541643|NCT03622593|164782765|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
82541644|NCT03622593|164782765|OTHER||Difference in CMH Weighted Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||0.0|0.0|
82649908|NCT00408876|165014921|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
82649909|NCT00408876|165014921|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82649910|NCT00408876|165014921|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
82649911|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.38||||0.348||95.0|-4.28|1.51|||t-test, 2 sided|||||1.51|-4.28|0.348
82541645|NCT03622593|164782772|OTHER||Adjusted mean difference|-25.7|STANDARD_ERROR_OF_MEAN|5.95|||TWO_SIDED|95.0|-37.4|-14.0||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-14.0|-37.4|
82541646|NCT03622593|164782772|OTHER||Adjusted mean difference|-17.6|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|95.0|-29.2|-6.0||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the ITT Population.||-6.0|-29.2|
82541647|NCT03622593|164782772|OTHER||Adjusted mean difference|-20.0|STANDARD_ERROR_OF_MEAN|6.59|||TWO_SIDED|95.0|-32.9|-7.0||||||This is the adjusted mean difference for Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-7.0|-32.9|
82541648|NCT03622593|164782772|OTHER||Adjusted mean difference|-14.3|STANDARD_ERROR_OF_MEAN|6.51|||TWO_SIDED|95.0|-27.1|-1.5||||||This is the adjusted mean difference for Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W in the Treatment-Naive Population.||-1.5|-27.1|
82541649|NCT03622593|164782775|OTHER||Difference in CMH Weighted Percentage|12.3|||||TWO_SIDED|95.0|5.7|18.9||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||18.9|5.7|
82541650|NCT03622593|164782775|OTHER||Difference in CMH Weighted Percentage|8.2|||||TWO_SIDED|95.0|1.5|14.9||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the ITT Population.||14.9|1.5|
82541651|NCT03622593|164782775|OTHER||Difference in CMH Weighted Percentage|9.0|||||TWO_SIDED|95.0|1.6|16.3||||||This is the difference in percentage of participants in Arm A: Faricimab 6 mg Q8W minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||16.3|1.6|
82541652|NCT03622593|164782775|OTHER||Difference in CMH Weighted Percentage|6.2|||||TWO_SIDED|95.0|-1.2|13.6||||||This is the difference in percentage of participants in Arm B: Faricimab 6 mg PTI minus Arm C: Aflibercept 2 mg Q8W for the Treatment-Naive Population.||13.6|-1.2|
82541653|NCT02544152|164782818|OTHER||||||=|0.987|||||||Cochran-Mantel-Haenszel|||P-value is from a Cochran-Mantel-Haenszel (CMH) test stratified by sex and baseline stool consistency||||=0.9870
82541654|NCT02296424|164782879|EQUIVALENCE|nominal 2.5% two-sided significance level was expected to have 90% powe to detect a difference between the Null Hypothesis proportion of patients who remain at their dose level.||||||0.0001|||||||exact binomial test|||||||0.0001
82541655|NCT00186186|164782882|SUPERIORITY_OR_OTHER||||||<|1e-05|||||||Wilcoxon (Mann-Whitney)|||||||<0.00001
82578141|NCT03086655|164865760|SUPERIORITY|||||||0.08|||||||Chi-squared|overall Wald chi2 (4 d.f.), simultaneously testing if parameters for all follow-ups by intervention are different from 0.||"statistical analyses is a GEE model with logit link function and binomial distribution with odds of optimal adherence as outcome and as predictors: intervention, time and time\*intervention. We hypothesize that over time, the odds of optimal adherence will be higher for the intervention than the control group, which would be reflected in a significant interaction effect time\*intervention.~H0: no significant interaction effect time\*intervention"||||0.08
82578142|NCT03841526|164865779|OTHER|Parameters that did not meet normality criterion were analyzed non-parametrically. Overall treatment effect was assessed using Friedman's test.||||||0.0002|||||||ANOVA|||The primary efficacy analysis was analyzed by analysis of variance (ANOVA) comparing the mean incidence rates among the 3 treatment groups in the Outpatient Phase. If the performed Friedman's test yielded an overall p-value less than 0.05, post-hoc analysis of groups means were conducted to statistically determine which group means differed.||||0.0002
82578143|NCT03841526|164865779|OTHER||||||<|0.0001|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||<0.0001
82578144|NCT03841526|164865779|OTHER|||||||0.0032|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||0.0032
82541656|NCT00186186|164782883|SUPERIORITY_OR_OTHER||Percentage|54.0|||||TWO_SIDED|||||||||||||
82541657|NCT00807144|164782884|SUPERIORITY|||||||0.26|||||||Log Rank|||||||0.26
82541658|NCT00807144|164782885|SUPERIORITY|||||||0.48|||||||Log Rank|||Year 1||||0.48
82541659|NCT00807144|164782885|SUPERIORITY|||||||0.75|||||||Log Rank|||Year 2||||0.75
82541660|NCT00071799|164782889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED|95.0|||||Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||"A 95% CI range value of 'does not exist' is not accommodated in the results table, so all the 95% CI range values are offered here.~Azacitidine: low range of 17.9 months and high range of 'does not exist'.~Conventional Care: low range of 9.8 and high range of 17.0 months."||||0.0001
82541661|NCT00071799|164782889|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58||||0.0002|TWO_SIDED|95.0|0.43|0.77|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.77|0.43|0.0002
82541662|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3973||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \< 65 years The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 7.1 months and high range of 15.6 months.~Conventional Care: low range of 4.4 and high range of 12.4 months."||||0.3973
82541663|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \>= 65 years~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 17.1 months and high range of 34.7 months.~Conventional Care: low range of 8.8 and high range of 16.4 months."||||<0.0001
82457498|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.031|TWO_SIDED|95.0|0.005|0.1|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.100|0.005|0.031
82541664|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0707||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Age \>= 75 years. The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 1.7 months and high range of 15.0 months.~Conventional Care: low range of 4.1 and high range of 7.6 months."||||0.0707
82541665|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0042||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Gender: Male~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 17.9 months and high range of 'does not exist'.~Conventional Care: low range of 10.8 and high range of 17.2 months."||||0.0042
82541666|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0469||||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"Gender: Female~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 13.0 months and high range of 'does not exist'.~Conventional Care: low range of 8.2 and high range of 17.6 months."||||0.0469
82578145|NCT03841526|164865779|OTHER|||||||0.2072|||||||Tukey Test/Kruskal-Wallis Test|Tukey Test (if the difference between 2 treatments was normally distributed) or Kruskal-Wallis Test (if not normally distributed).||If the overall treatment effect was significant, pairwise treatment comparisons were assessed using: If a difference between 2 treatments was normally distributed, the Tukey Test was used or if not normally distributed and the distribution was highly skewed, the sign test/Kruskal-Allis test was used.||||0.2072
82578146|NCT03841526|164865782|OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82457499|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.042||||0.085|TWO_SIDED|95.0|-0.006|0.089|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.089|-0.006|0.085
82457500|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.199|TWO_SIDED|95.0|-0.016|0.079|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.079|-0.016|0.199
82457501|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|-0.011||||0.657|TWO_SIDED|95.0|-0.058|0.037|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.037|-0.058|0.657
82457502|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.032||||0.246|TWO_SIDED|95.0|-0.022|0.086|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.086|-0.022|0.246
82457503|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.1|||<|0.001|TWO_SIDED|95.0|0.046|0.154|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.154|0.046|<0.001
82457504|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.119|||<|0.001|TWO_SIDED|95.0|0.064|0.173|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.173|0.064|<0.001
82457505|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.088|0.196|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.196|0.088|<0.001
82561869|NCT04332991|164832910|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.76|2.08|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||2.08|0.76|
82578147|NCT03841526|164865783|OTHER|||||||0.859|||||||Chi-squared|||||||0.8590
82578148|NCT03524092|164865821|SUPERIORITY||Risk Difference (RD)|23.2|||<|0.001|TWO_SIDED|95.0|15.2|31.2|||Cochran-Mantel-Haenszel|||||31.2|15.2|<0.001
82649912|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.04||95.0|0.11|4.89|||t-test, 2 sided|||||4.89|0.11|0.040
82457506|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.07|0.178|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.178|0.070|<0.001
82578149|NCT03524092|164865822|SUPERIORITY||Risk Difference (RD)|28.5|||<|0.001|TWO_SIDED|95.0|20.2|36.8|||Cochran-Mantel-Haenszel|||||36.8|20.2|<0.001
82578150|NCT03524092|164865823|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|14.5|30.5|||Cochran-Mantel-Haenszel|||||30.5|14.5|<0.001
82578151|NCT03524092|164865824|SUPERIORITY||Risk Difference (RD)|30.2|||<|0.001|TWO_SIDED|95.0|21.9|38.6|||Cochran-Mantel-Haenszel|||||38.6|21.9|<0.001
82649913|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.61||||0.191||95.0|-0.81|4.03|||t-test, 2 sided|||||4.03|-0.81|0.191
82457507|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.068||||0.014|TWO_SIDED|95.0|0.014|0.121|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.121|0.014|0.014
82457508|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.002|TWO_SIDED|95.0|0.032|0.141|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.141|0.032|0.002
82578152|NCT03524092|164865825|SUPERIORITY||Risk Difference (RD)|31.0|||<|0.001|TWO_SIDED|95.0|22.4|39.6|||Cochran-Mantel-Haenszel|||||39.6|22.4|<0.001
82578153|NCT03524092|164865826|SUPERIORITY||Risk Difference (RD)|30.6|||<|0.001|TWO_SIDED|95.0|22.3|38.9|||Cochran-Mantel-Haenszel|||||38.9|22.3|<0.001
82649914|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.89||||0.009||95.0|0.97|6.8|||t-test, 2 sided|||||6.80|0.97|0.009
82457509|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.11|||<|0.001|TWO_SIDED|95.0|0.057|0.163|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.163|0.057|<0.001
82457510|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.493|TWO_SIDED|95.0|-0.035|0.073|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.073|-0.035|0.493
82457511|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.042||||0.119|TWO_SIDED|95.0|-0.011|0.096|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.096|-0.011|0.119
82457512|NCT03084796|164619255|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.392|TWO_SIDED|95.0|-0.03|0.077|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.077|-0.030|0.392
82457513|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.109||||0.023|TWO_SIDED|95.0|0.015|0.203|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model for repeated measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by visit interaction as covariates."||0.203|0.015|0.023
82457514|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.058|TWO_SIDED|95.0|-0.003|0.184|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.184|-0.003|0.058
82457515|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.215|TWO_SIDED|95.0|-0.035|0.153|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.153|-0.035|0.215
82457516|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.051|TWO_SIDED|95.0|-0.001|0.187|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.187|-0.001|0.051
82457517|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.364|TWO_SIDED|95.0|-0.051|0.138|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.138|-0.051|0.364
82457518|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|-0.019||||0.694|TWO_SIDED|95.0|-0.112|0.074|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.074|-0.112|0.694
82457519|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.297|TWO_SIDED|95.0|-0.143|0.044|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.044|-0.143|0.297
82457520|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|-0.016||||0.734|TWO_SIDED|95.0|-0.109|0.077|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.077|-0.109|0.734
82457521|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.514|TWO_SIDED|95.0|-0.124|0.062|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.062|-0.124|0.514
82578154|NCT03524092|164865827|SUPERIORITY||LS Mean difference (Final Values)|25.24|STANDARD_ERROR_OF_MEAN|3.094|<|0.001|TWO_SIDED|95.0|19.16|31.32|||ANCOVA|ANCOVA with modified baseline observation carried forward (mBOCF).||||31.32|19.16|<0.001
82578155|NCT03524092|164865828|SUPERIORITY||LS Mean difference (Final Values)|-839.64|STANDARD_ERROR_OF_MEAN|245.99|<|0.001|TWO_SIDED|95.0|-1323.08|-356.21|||ANCOVA|ANCOVA with modified baseline observation carried forward (mBOCF).||||-356.21|-1323.08|<0.001
82649915|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.0||||0.044||95.0|0.08|5.91|||t-test, 2 sided|||||5.91|0.08|0.044
82457522|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.957|TWO_SIDED|95.0|-0.09|0.095|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.095|-0.090|0.957
82457523|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.479|TWO_SIDED|95.0|-0.06|0.127|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.127|-0.060|0.479
82457524|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.687|TWO_SIDED|95.0|-0.079|0.12|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.120|-0.079|0.687
82457525|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.195|TWO_SIDED|95.0|-0.034|0.165|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.165|-0.034|0.195
82457526|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.111||||0.03|TWO_SIDED|95.0|0.011|0.212|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.212|0.011|0.030
82457527|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.112|TWO_SIDED|95.0|-0.019|0.179|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.179|-0.019|0.112
82457528|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.147|TWO_SIDED|95.0|-0.026|0.174|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.174|-0.026|0.147
82457529|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.37|TWO_SIDED|95.0|-0.054|0.144|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.144|-0.054|0.370
82457530|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.091||||0.074|TWO_SIDED|95.0|-0.009|0.19|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.190|-0.009|0.074
82457531|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.233|TWO_SIDED|95.0|-0.039|0.158|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.158|-0.039|0.233
82457532|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.369|TWO_SIDED|95.0|-0.054|0.145|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.145|-0.054|0.369
82457533|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|0.014||||0.773|TWO_SIDED|95.0|-0.084|0.112|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.112|-0.084|0.773
82457534|NCT03084796|164619256|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.536|TWO_SIDED|95.0|-0.13|0.068|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.068|-0.130|0.536
82457535|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.05||||0.848|TWO_SIDED|95.0|0.62|1.77|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analysis based on logistic regression model - multiple logistic regression model, with treatment, US regions, smoking status at screening, and BDI as covariates."||1.77|0.62|0.848
82457536|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.35||||0.264|TWO_SIDED|95.0|0.8|2.28|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.28|0.80|0.264
82457537|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.29||||0.343|TWO_SIDED|95.0|0.76|2.18|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.18|0.76|0.343
82457538|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.74||||0.042|TWO_SIDED|95.0|1.02|2.98|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.98|1.02|0.042
82578156|NCT03524092|164865829|SUPERIORITY||LS Mean difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.228|<|0.001|TWO_SIDED|95.0|-1.51|-0.61|||Mixed Models Analysis|||||-0.61|-1.51|<0.001
82578157|NCT04303780|164865832|EQUIVALENCE|A hazard ratio \<1.0 indicates a lower average event rate and a longer PFS for AMG 510 relative to docetaxel. P-value was calculated using a stratified log-rank test.|Hazard Ratio (HR)|0.663||||0.002|TWO_SIDED|95.0|0.509|0.864|||Log Rank|||||0.864|0.509|0.002
82649916|NCT00408876|165014922|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.89||||0.473||95.0|-3.33|1.55|||t-test, 2 sided|||||1.55|-3.33|0.473
82649917|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.846||95.0|-3.61|4.4|||t-test, 2 sided|||||4.40|-3.61|0.846
82649918|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.934||95.0|-3.45|3.17|||t-test, 2 sided|||||3.17|-3.45|0.934
82649919|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.03||||0.234||95.0|-1.32|5.39|||t-test, 2 sided|||||5.39|-1.32|0.234
82649920|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.794||95.0|-4.58|3.5|||t-test, 2 sided|||||3.50|-4.58|0.794
82649921|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.64||||0.426||95.0|-2.4|5.67|||t-test, 2 sided|||||5.67|-2.40|0.426
82649922|NCT00408876|165014923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.17||||0.207||95.0|-1.21|5.55|||t-test, 2 sided|||||5.55|-1.21|0.207
82457539|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.2||||0.503|TWO_SIDED|95.0|0.71|2.02|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.02|0.71|0.503
82457540|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.28||||0.354|TWO_SIDED|95.0|0.76|2.16|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.16|0.76|0.354
82457541|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.22||||0.447|TWO_SIDED|95.0|0.73|2.07|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.07|0.73|0.447
82457542|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.66||||0.064|TWO_SIDED|95.0|0.97|2.83|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.83|0.97|0.064
82457543|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|0.96||||0.867|TWO_SIDED|95.0|0.57|1.62|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.62|0.57|0.867
82457544|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.29||||0.347|TWO_SIDED|95.0|0.76|2.22|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.22|0.76|0.347
82457545|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.35||||0.269|TWO_SIDED|95.0|0.79|2.32|||Regression, Logistic|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.32|0.79|0.269
82457546|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.92||||0.018|TWO_SIDED|95.0|1.12|3.3|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure.~Analysis based on logistic regression model - multiple logistic regression model, with treatment, US regions, smoking status at screening, and BDI as covariates."||3.30|1.12|0.018
82457547|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|2.59|||<|0.001|TWO_SIDED|95.0|1.5|4.49|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.49|1.50|<0.001
82457548|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|3.08|||<|0.001|TWO_SIDED|95.0|1.75|5.44|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.44|1.75|<0.001
82457549|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|1.94|6.02|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.02|1.94|<0.001
82649923|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.901||95.0|-2.54|2.89|||t-test, 2 sided|||||2.89|-2.54|0.901
82649924|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.926||95.0|-2.35|2.14|||t-test, 2 sided|||||2.14|-2.35|0.926
82649925|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.62||||0.002||95.0|1.35|5.9|||t-test, 2 sided|||||5.90|1.35|0.002
82649926|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.841||95.0|-3.02|2.46|||t-test, 2 sided|||||2.46|-3.02|0.841
82649927|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.45||||0.014||95.0|0.71|6.19|||t-test, 2 sided|||||6.19|0.71|0.014
82457550|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|2.45||||0.001|TWO_SIDED|95.0|1.41|4.26|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||4.26|1.41|0.001
82649928|NCT00408876|165014924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.73||||0.001||95.0|1.44|6.02|||t-test, 2 sided|||||6.02|1.44|0.001
82649929|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.057||95.0|-1.41|0.02|||t-test, 2 sided|||||0.02|-1.41|0.057
82649930|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.128||95.0|-1.05|0.13|||t-test, 2 sided|||||0.13|-1.05|0.128
82649931|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.82||||0.007||95.0|-1.42|-0.22|||t-test, 2 sided|||||-0.22|-1.42|0.007
82649932|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.518||95.0|-0.48|0.96|||t-test, 2 sided|||||0.96|-0.48|0.518
82649933|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.734||95.0|-0.85|0.6|||t-test, 2 sided|||||0.60|-0.85|0.734
82457551|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.35||||0.284|TWO_SIDED|95.0|0.78|2.35|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.35|0.78|0.284
82457552|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.61||||0.103|TWO_SIDED|95.0|0.91|2.84|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.84|0.91|0.103
82457553|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.78||||0.045|TWO_SIDED|95.0|1.01|3.14|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||3.14|1.01|0.045
82649934|NCT00408876|165014925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.239||95.0|-0.97|0.24|||t-test, 2 sided|||||0.24|-0.97|0.239
82457554|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.19||||0.557|TWO_SIDED|95.0|0.67|2.12|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.12|0.67|0.557
82457555|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.32||||0.345|TWO_SIDED|95.0|0.74|2.34|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.34|0.74|0.345
82649935|NCT01488019|165014926|NON_INFERIORITY|The hazard ratio and 90% two-sided confidence interval for the hazard ratio comparing Perforomist to placebo were estimated. Non-inferiority was declared if the upper limit of the two-sided 90% confidence interval was wholly less than 1.5.|Hazard Ratio (HR)|0.965|||||TWO_SIDED|90.0|0.711|1.308||Hazard Ratio was calculated as Perforomist vs Placebo. The non-inferiority margin for the hazard ratio is 1.5. Subjects with no primary event at withdrawal or study completion were treated as censored observations at time of withdrawal|Regression, Cox|Treatment, site group, and bronchodilator reversibility included as covariates in the model.|Hazard Ratio was calculated as Perforomist Inhalation Solution vs Placebo. The non-inferiority margin for the hazard ratio is 1.5.|||1.308|0.711|
82457556|NCT03084796|164619257|SUPERIORITY||Odds Ratio (OR)|1.11||||0.732|TWO_SIDED|95.0|0.61|2.0|||Regression, Logistic|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.00|0.61|0.732
82457557|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.666|TWO_SIDED|95.0|-0.52|0.81|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, visit, treatment by visit interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the BDI, BDI by visit interaction as covariates."||0.81|-0.52|0.666
82457558|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.224|TWO_SIDED|95.0|-0.25|1.07|||Mixed Models Analysis|||"week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.07|-0.25|0.224
82457559|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.239|TWO_SIDED|95.0|-0.27|1.06|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.27|0.239
82457560|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.019|TWO_SIDED|95.0|0.13|1.46|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.46|0.13|0.019
82457561|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.124|TWO_SIDED|95.0|-0.14|1.19|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.19|-0.14|0.124
82457562|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.432|TWO_SIDED|95.0|-0.39|0.92|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.92|-0.39|0.432
82457563|NCT03084796|164619258|SUPERIORITY||Mean Difference (Net)|0.25||||0.454|TWO_SIDED|95.0|-0.41|0.91|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.91|-0.41|0.454
82457564|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.053|TWO_SIDED|95.0|-0.01|1.31|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.31|-0.01|0.053
82457565|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.973|TWO_SIDED|95.0|-0.67|0.65|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.65|-0.67|0.973
82457566|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.247|TWO_SIDED|95.0|-0.27|1.04|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.04|-0.27|0.247
82457567|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.235|TWO_SIDED|95.0|-0.26|1.06|||Mixed Models Analysis|||"Week 3~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.26|0.235
82457568|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.071|TWO_SIDED|95.0|-0.05|1.28|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.28|-0.05|0.071
82457569|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.98||||0.004|TWO_SIDED|95.0|0.32|1.64|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.64|0.32|0.004
82457570|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|1.01||||0.003|TWO_SIDED|95.0|0.35|1.68|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.68|0.35|0.003
82457571|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED|95.0|0.86|2.18|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||2.18|0.86|<0.001
82457572|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|1.08||||0.002|TWO_SIDED|95.0|0.41|1.75|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.75|0.41|0.002
82457573|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.271|TWO_SIDED|95.0|-0.29|1.03|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.03|-0.29|0.271
82457574|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.235|TWO_SIDED|95.0|-0.26|1.06|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.06|-0.26|0.235
82457575|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.007|TWO_SIDED|95.0|0.25|1.56|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.56|0.25|0.007
82457576|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.923|TWO_SIDED|95.0|-0.63|0.69|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.69|-0.63|0.923
82457577|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.108|TWO_SIDED|95.0|-0.12|1.19|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.19|-0.12|0.108
82457578|NCT03084796|164619258|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.134|TWO_SIDED|95.0|-0.16|1.16|||Mixed Models Analysis|||"Week 6~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.16|-0.16|0.134
82457579|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|7.88||||0.022|TWO_SIDED|95.0|1.13|14.63|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||14.63|1.13|0.022
82457580|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|6.78||||0.048|TWO_SIDED|95.0|0.07|13.48|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.48|0.07|0.048
82541667|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 21.1 months and high range of 'does not exist'.~Conventional Care: low range of 9.3 and high range of 21.9 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||FAB: Refractory anemia with excess blasts (RAEB). All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.0056
82578158|NCT04893460|164865833|SUPERIORITY|This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Cost activity|Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.33||0.003|TWO_SIDED||||||t-test, 2 sided|||||||.003
82457581|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|6.65||||0.053|TWO_SIDED|95.0|-0.09|13.4|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.40|-0.09|0.053
82649936|NCT03404206|165014940|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82457582|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|9.29||||0.007|TWO_SIDED|95.0|2.55|16.04|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||16.04|2.55|0.007
82457583|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|4.61||||0.191|TWO_SIDED|95.0|-2.31|11.53|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.53|-2.31|0.191
82457584|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.747|TWO_SIDED|95.0|-7.8|5.6|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.60|-7.80|0.747
82457585|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-1.23||||0.72|TWO_SIDED|95.0|-7.96|5.5|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.50|-7.96|0.720
82457586|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|1.41||||0.68|TWO_SIDED|95.0|-5.31|8.14|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||8.14|-5.31|0.680
82457587|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.971|TWO_SIDED|95.0|-6.82|6.57|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.57|-6.82|0.971
82457588|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|2.52||||0.46|TWO_SIDED|95.0|-4.17|9.21|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.21|-4.17|0.460
82457589|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|2.64||||0.441|TWO_SIDED|95.0|-4.09|9.37|||Mixed Models Analysis|||"Inter-Visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.37|-4.09|0.441
82457590|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|6.76||||0.07|TWO_SIDED|95.0|-0.55|14.08|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.08|-0.55|0.070
82457591|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|8.44||||0.023|TWO_SIDED|95.0|1.16|15.72|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||15.72|1.16|0.023
82541668|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0322||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"FAB: RAEB in transformation~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 11.7 months and high range of 'does not exist'.~Conventional Care: low range of 9.4 and high range of 17.0 months."||||0.0322
82457592|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|6.96||||0.064|TWO_SIDED|95.0|-0.4|14.31|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.31|-0.40|0.064
82457593|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|11.08||||0.003|TWO_SIDED|95.0|3.79|18.38|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||18.38|3.79|0.003
82457594|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.274|TWO_SIDED|95.0|-3.32|11.72|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.72|-3.32|0.274
82457595|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.649|TWO_SIDED|95.0|-5.57|8.93|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||8.93|-5.57|0.649
82457596|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.958|TWO_SIDED|95.0|-7.12|7.51|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||7.51|-7.12|0.958
82457597|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|4.32||||0.242|TWO_SIDED|95.0|-2.93|11.58|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.58|-2.93|0.242
82578159|NCT04893460|164865833|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Quit Letter activity||||<.001
82457598|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.69|TWO_SIDED|95.0|-8.77|5.81|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.81|-8.77|0.690
82457599|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|2.64||||0.473|TWO_SIDED|95.0|-4.58|9.87|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.87|-4.58|0.473
82457600|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|4.13||||0.267|TWO_SIDED|95.0|-3.17|11.43|||Mixed Models Analysis|||"Inter-Visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.43|-3.17|0.267
82457601|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|7.32||||0.032|TWO_SIDED|95.0|0.65|13.99|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.99|0.65|0.032
82457602|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|7.61||||0.025|TWO_SIDED|95.0|0.97|14.24|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||14.24|0.97|0.025
82457603|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.046|TWO_SIDED|95.0|0.12|13.49|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||13.49|0.12|0.046
82457604|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|10.19||||0.003|TWO_SIDED|95.0|3.52|16.85|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||16.85|3.52|0.003
82457605|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.207|TWO_SIDED|95.0|-2.45|11.25|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||11.25|-2.45|0.207
82457606|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.932|TWO_SIDED|95.0|-6.33|6.91|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.91|-6.33|0.932
82457607|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.879|TWO_SIDED|95.0|-7.17|6.14|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||6.14|-7.17|0.879
82578160|NCT04893460|164865833|SUPERIORITY||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.41||0.004|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Pitfalls activity||||.004
82457608|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|2.87||||0.396|TWO_SIDED|95.0|-3.77|9.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.50|-3.77|0.396
82457609|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.812|TWO_SIDED|95.0|-7.44|5.83|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||5.83|-7.44|0.812
82457610|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.444|TWO_SIDED|95.0|-4.03|9.19|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||9.19|-4.03|0.444
82457611|NCT03084796|164619259|SUPERIORITY||Mean Difference (Final Values)|3.38||||0.319|TWO_SIDED|95.0|-3.27|10.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||10.04|-3.27|0.319
82457612|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.43|||<|0.001|TWO_SIDED|95.0|-0.67|-0.18|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed, using linear mixed model repeated for measurements (MMRM), including treatment, inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||-0.18|-0.67|<0.001
82457613|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.023|TWO_SIDED|95.0|-0.53|-0.04|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.04|-0.53|0.023
82578161|NCT04893460|164865833|SUPERIORITY||Mean Difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.48||0.098|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Smoke Free activity||||.098
82457614|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.067|TWO_SIDED|95.0|-0.47|0.02|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.02|-0.47|0.067
82457615|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.66|-0.17|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.17|-0.66|<0.001
82457616|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.084|TWO_SIDED|95.0|-0.47|0.03|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.03|-0.47|0.084
82578162|NCT04893460|164865833|SUPERIORITY||Mean Difference (Final Values)|-1.46|STANDARD_ERROR_OF_MEAN|0.68||0.042|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to after the Letter to Youth activity||||.042
82578163|NCT04893460|164865833|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.22||0.364|TWO_SIDED||||||t-test, 2 sided|||This model is a paired t-test that tests for change in cognitive dissonance from baseline to 6 weeks post baseline.||||.364
82457617|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.243|TWO_SIDED|95.0|-0.1|0.39|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.39|-0.10|0.243
82457618|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.112|TWO_SIDED|95.0|-0.05|0.44|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.44|-0.05|0.112
82457619|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.929|TWO_SIDED|95.0|-0.23|0.26|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.26|-0.23|0.929
82457620|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.668|TWO_SIDED|95.0|-0.19|0.3|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.30|-0.19|0.668
82457621|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.281|TWO_SIDED|95.0|-0.38|0.11|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.11|-0.38|0.281
82457622|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.134|TWO_SIDED|95.0|-0.43|0.06|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.06|-0.43|0.134
82578164|NCT04893460|164865834|SUPERIORITY||median pairwise average|17.67|||<|0.001|TWO_SIDED||||||Wilcoxson Signed Rank Test|||The non-parametric Wilcoxon signed-rank test was used to evaluate whether participants were smoking fewer cigarettes per day.||||<.001
82457623|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.003|TWO_SIDED|95.0|-0.7|-0.14|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.14|-0.70|0.003
82457624|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.02|TWO_SIDED|95.0|-0.61|-0.05|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.05|-0.61|0.020
82457625|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.017|TWO_SIDED|95.0|-0.62|-0.06|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.06|-0.62|0.017
82457626|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.8|-0.24|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.24|-0.80|<0.001
82457627|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.115|TWO_SIDED|95.0|-0.52|0.06|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.06|-0.52|0.115
82457628|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.532|TWO_SIDED|95.0|-0.19|0.36|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.36|-0.19|0.532
82578165|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Cost activity|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.42||0.776|TWO_SIDED||||||t-test, 2 sided|||||||.776
82578166|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Quit Latter activity|Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.45||0.219|TWO_SIDED||||||t-test, 2 sided|||||||.219
82578167|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Pitfalls activity|Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|0.55||0.043|TWO_SIDED||||||t-test, 2 sided|||||||.043
82457629|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.603|TWO_SIDED|95.0|-0.21|0.35|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.35|-0.21|0.603
82457630|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.46|TWO_SIDED|95.0|-0.38|0.17|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.17|-0.38|0.460
82457631|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.921|TWO_SIDED|95.0|-0.29|0.26|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD.~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.26|-0.29|0.921
82457632|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.172|TWO_SIDED|95.0|-0.47|0.08|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.08|-0.47|0.172
82457633|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.21|TWO_SIDED|95.0|-0.46|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.10|-0.46|0.210
82457634|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.67|-0.17|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.17|-0.67|<0.001
82457635|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.016|TWO_SIDED|95.0|-0.55|-0.06|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.06|-0.55|0.016
82457636|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.025|TWO_SIDED|95.0|-0.54|-0.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.04|-0.54|0.025
82457637|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.72|-0.22|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.22|-0.72|<0.001
82457638|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.083|TWO_SIDED|95.0|-0.48|0.03|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.03|-0.48|0.083
82457639|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.355|TWO_SIDED|95.0|-0.13|0.36|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.36|-0.13|0.355
82457640|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.283|TWO_SIDED|95.0|-0.11|0.38|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.38|-0.11|0.283
82457641|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.712|TWO_SIDED|95.0|-0.29|0.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.20|-0.29|0.712
82457642|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.877|TWO_SIDED|95.0|-0.23|0.27|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.27|-0.23|0.877
82457643|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.195|TWO_SIDED|95.0|-0.41|0.08|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.08|-0.41|0.195
82457644|NCT03084796|164619260|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.15|TWO_SIDED|95.0|-0.43|0.07|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.07|-0.43|0.150
82578168|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Smoke Free activity|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.67||0.219|TWO_SIDED||||||t-test, 2 sided|||||||.219
82649937|NCT03404206|165014940|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82649938|NCT03404206|165014941|SUPERIORITY||Least squares means|-34.73|||||TWO_SIDED|95.0|-45.67|-23.8|||ANCOVA|||||-23.8|-45.67|
82457645|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.967||||0.016|TWO_SIDED|95.0|-1.753|-0.181|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Analyzed using linear mixed model repeated for measurements (MMRM), including treatment, inter-visit period, treatment by inter-visit period interaction, US regions (Midwest, Northeast, South and West), and smoking status at screening as fixed effects, and the baseline value, and baseline by inter-visit period interaction as covariates."||-0.181|-1.753|0.016
82457646|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.824||||0.039|TWO_SIDED|95.0|-1.606|-0.043|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.043|-1.606|0.039
82649939|NCT03404206|165014941|SUPERIORITY||Least squares means|-73.43|||||TWO_SIDED|95.0|-89.01|-57.85|||ANCOVA|||||-57.85|-89.01|
82457647|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.227||||0.002|TWO_SIDED|95.0|-2.012|-0.441|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.441|-2.012|0.002
82457648|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.949||||0.018|TWO_SIDED|95.0|-1.733|-0.164|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.164|-1.733|0.018
82457649|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.566||||0.169|TWO_SIDED|95.0|-1.374|0.242|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.242|-1.374|0.169
82457650|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.142||||0.72|TWO_SIDED|95.0|-0.638|0.923|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.923|-0.638|0.720
82457651|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.515|TWO_SIDED|95.0|-1.043|0.523|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.523|-1.043|0.515
82457652|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.963|TWO_SIDED|95.0|-0.764|0.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.800|-0.764|0.963
82457653|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.402||||0.311|TWO_SIDED|95.0|-1.182|0.377|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.377|-1.182|0.311
82457654|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.124||||0.754|TWO_SIDED|95.0|-0.903|0.654|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.654|-0.903|0.754
82457655|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.278||||0.485|TWO_SIDED|95.0|-0.503|1.06|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.060|-0.503|0.485
82457656|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.349||||0.005|TWO_SIDED|95.0|-2.294|-0.403|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.403|-2.294|0.005
82457657|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.159||||0.016|TWO_SIDED|95.0|-2.1|-0.218|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.218|-2.100|0.016
82457658|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.466||||0.003|TWO_SIDED|95.0|-2.416|-0.516|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.516|-2.416|0.003
82457659|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.396||||0.004|TWO_SIDED|95.0|-2.337|-0.454|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.454|-2.337|0.004
82457660|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.824||||0.097|TWO_SIDED|95.0|-1.797|0.15|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.150|-1.797|0.097
82578169|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to after the Letter to Youth activity|Mean Difference (Final Values)|-1.41|STANDARD_ERROR_OF_MEAN|0.54||0.11|TWO_SIDED||||||t-test, 2 sided|||||||.110
82649940|NCT03404206|165014941|SUPERIORITY||Least squares means|-38.7|||||TWO_SIDED|95.0|-54.29|-23.11|||ANCOVA|||||-23.11|-54.29|
82457661|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.69|TWO_SIDED|95.0|-0.746|1.126|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.126|-0.746|0.690
82457662|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.117||||0.808|TWO_SIDED|95.0|-1.061|0.827|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.827|-1.061|0.808
82457663|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.922|TWO_SIDED|95.0|-0.983|0.889|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.889|-0.983|0.922
82457664|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.307||||0.522|TWO_SIDED|95.0|-1.248|0.634|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.634|-1.248|0.522
82457665|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.237||||0.618|TWO_SIDED|95.0|-1.17|0.696|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.696|-1.170|0.618
82457666|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.884|TWO_SIDED|95.0|-0.871|1.012|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||1.012|-0.871|0.884
82457667|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.158||||0.006|TWO_SIDED|95.0|-1.978|-0.337|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment A (CHF 5259 pMDI 12.5 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.337|-1.978|0.006
82457668|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.992||||0.017|TWO_SIDED|95.0|-1.808|-0.175|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.175|-1.808|0.017
82457669|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.346||||0.001|TWO_SIDED|95.0|-2.168|-0.524|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.524|-2.168|0.001
82457670|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-1.172||||0.005|TWO_SIDED|95.0|-1.991|-0.353|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||-0.353|-1.991|0.005
82578170|NCT04893460|164865835|SUPERIORITY|This model is a paired t-test that tests for change in readiness to quit smoking from baseline to 6 week post baseline assessment|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.26||0.868|TWO_SIDED||||||t-test, 2 sided|||||||.868
82649941|NCT03404206|165014942|SUPERIORITY||Least squares means|-18.21|||||TWO_SIDED|95.0|-23.52|-12.89|||ANCOVA|||||-12.89|-23.52|
82457671|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.695||||0.107|TWO_SIDED|95.0|-1.539|0.149|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment F (Tiotropium 18 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.149|-1.539|0.107
82457672|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.166||||0.689|TWO_SIDED|95.0|-0.648|0.98|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment B (CHF 5259 pMDI 25 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.980|-0.648|0.689
82457673|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.188||||0.651|TWO_SIDED|95.0|-1.007|0.63|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.630|-1.007|0.651
82457674|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.973|TWO_SIDED|95.0|-0.83|0.801|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment A (CHF 5259 pMDI 12.5 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.801|-0.830|0.973
82457675|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.355||||0.393|TWO_SIDED|95.0|-1.17|0.461|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment C (CHF 5259 pMDI 50 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.461|-1.170|0.393
82578171|NCT01123070|164865836|EQUIVALENCE|Bioequivalence declared if the back transformed 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.93||||0.4265|TWO_SIDED|90.0|0.797|1.084|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator and MabThera arm is the denominator|||1.084|0.797|0.4265
82649942|NCT03404206|165014942|SUPERIORITY||Least squares means|-33.72|||||TWO_SIDED|95.0|-41.29|-26.14|||ANCOVA|||||-26.14|-41.29|
82649943|NCT03404206|165014942|SUPERIORITY||Least squares means|-15.51|||||TWO_SIDED|95.0|-23.09|-7.93|||ANCOVA|||||-7.93|-23.09|
82457676|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|-0.181||||0.663|TWO_SIDED|95.0|-0.993|0.632|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment B (CHF 5259 pMDI 25 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.632|-0.993|0.663
82457677|NCT03084796|164619261|SUPERIORITY||Mean Difference (Final Values)|0.174||||0.676|TWO_SIDED|95.0|-0.643|0.991|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups for this analysis were:~Treatment D (CHF 5259 pMDI 100 μg TDD) versus Treatment C (CHF 5259 pMDI 50 μg TDD).~Statistical analysis was performed as described for the statistical analysis 1 of this outcome measure."||0.991|-0.643|0.676
82457678|NCT01708317|164619270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||<|0.001||||||We used a cutoff of P\<0.05 as statistically significant.|Chi-squared|3 degrees of freedom to compare 4 time periods.||We compared testing in the 4 time frames described, including the time frame in which we enrolled patients in the ACASI.||||<.001
82457679|NCT03259555|164619279|SUPERIORITY||Treatment difference|0.14|||=|0.8797|TWO_SIDED|95.0|-1.74|2.03|||Mixed-effect Model Repeated Measure|"An unstructured covariance was used."|"Comparison between treatment groups was carried out using MMRM, with study center, treatment group, visit, and treatment group-by-visit interaction as factor and baseline-by-visit interaction as a covariate. An unstructured covariance was used."|||2.03|-1.74|=0.8797
82457680|NCT00607087|164619281|SUPERIORITY_OR_OTHER|||||||0.039||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.039
82457681|NCT00607087|164619281|SUPERIORITY_OR_OTHER|||||||0.031||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025.|McNemar|||||||0.031
82457682|NCT00607087|164619282|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457683|NCT00607087|164619282|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457684|NCT00607087|164619283|SUPERIORITY_OR_OTHER|||||||0.08||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.080
82457685|NCT00607087|164619283|SUPERIORITY_OR_OTHER|||||||0.107||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.107
82652367|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.311||||0.0241|TWO_SIDED|95.0|-0.581|-0.041||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||-0.041|-0.581|0.0241
82457686|NCT00607087|164619284|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457687|NCT00607087|164619284|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||<0.001
82457688|NCT00607087|164619285|SUPERIORITY_OR_OTHER|||||||0.079||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.079
82457689|NCT00607087|164619285|SUPERIORITY_OR_OTHER|||||||0.063||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.063
82457690|NCT00607087|164619286|SUPERIORITY_OR_OTHER|||||||0.015||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.015
82457691|NCT00607087|164619286|SUPERIORITY_OR_OTHER|||||||0.073||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.073
82457692|NCT00607087|164619287|SUPERIORITY_OR_OTHER|||||||0.017||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.017
82457693|NCT00607087|164619287|SUPERIORITY_OR_OTHER|||||||0.032||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.032
82457694|NCT00607087|164619288|SUPERIORITY_OR_OTHER|||||||0.009||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.009
82457695|NCT00607087|164619288|SUPERIORITY_OR_OTHER|||||||0.019||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.019
82457696|NCT00607087|164619289|SUPERIORITY_OR_OTHER|||||||0.008||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.008
82457697|NCT00607087|164619289|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457698|NCT00607087|164619290|SUPERIORITY_OR_OTHER|||||||0.563||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.563
82457699|NCT00607087|164619290|SUPERIORITY_OR_OTHER|||||||0.186||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||0.186
82457700|NCT00607087|164619291|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457701|NCT00607087|164619291|SUPERIORITY_OR_OTHER||||||<|0.001||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|Mixed Models Analysis|||||||<0.001
82457702|NCT00607087|164619292|SUPERIORITY_OR_OTHER|||||||1||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||1.000
82457703|NCT00607087|164619292|SUPERIORITY_OR_OTHER|||||||0.701||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|McNemar|||||||0.701
82457704|NCT00607087|164619295|SUPERIORITY_OR_OTHER|||||||0.078||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|ANCOVA|ANCOVA adjusted on HbA1c value at the start of the first period||||||0.078
82457705|NCT00607087|164619295|SUPERIORITY_OR_OTHER|||||||0.938||97.5||||The p-value is adjusted for multiple comparisons. Each comparison is performed at the alpha level=2.5% (instead of 5%). Consequently a difference between 2 treatments is statistically significant if the corresponding p-value is \<0.025|ANCOVA|ANCOVA adjusted on HbA1c level at the start of the first period||||||0.938
82457706|NCT04532034|164619298|OTHER||Mean Difference (Final Values)|0.067||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||.95
82457707|NCT02717494|164619299|OTHER||% with grade 3+ AEs, up to week 4 Step 1|2.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
82457708|NCT02717494|164619299|OTHER||% with grade 3+ AEs, up to week 4 Step 1|3.0|||||TWO_SIDED|90.0|1.0|7.0|||||Confidence intervals were Exact Clopper-Pearson.|||7|1|
82457709|NCT02717494|164619299|OTHER||% with grade 3+ AEs up to week 4, Step 1|3.0|||||TWO_SIDED|90.0|1.0|8.0|||||Confidence intervals were Exact Clopper-Pearson.|||8|1|
82457710|NCT02717494|164619299|OTHER||% with grade 4+ AEs after week 4, Step 1|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
82457711|NCT02717494|164619299|OTHER||% with grade 4+ AEs after week 4, Step 1|2.0|||||TWO_SIDED|90.0|0.0|5.0|||||||Confidence intervals were Exact Clopper-Pearson.|5|0|
82457712|NCT02717494|164619299|OTHER||% with grade 4+ AEs, after week 4 Step 1|3.0|||||TWO_SIDED|90.0|1.0|8.0|||||Confidence intervals were Exact Clopper-Pearson.|||8|1|
82457713|NCT02717494|164619299|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
82457714|NCT02717494|164619299|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
82457715|NCT02717494|164619299|OTHER||% with Grade 3+ related to treatment|1.0|||||TWO_SIDED|90.0|0.0|4.0|||||Confidence intervals were Exact Clopper-Pearson.|||4|0|
82457716|NCT02717494|164619300|OTHER||% with grade 3+ AEs, up to week 4 Step 2|0.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
82457717|NCT02717494|164619300|OTHER||% with grade 3+ AEs, up to week 4 Step 2|0.0|||||TWO_SIDED|90.0|0.0|5.0|||||Confidence intervals were Exact Clopper-Pearson.|||5|0|
82457718|NCT02717494|164619301|OTHER||% infants with grade 3+ AEs|21.0|||||TWO_SIDED|90.0|14.0|28.0|||||Confidence intervals were Exact Clopper-Pearson.|||28|14|
82457719|NCT02717494|164619301|OTHER||% infants with grade 3+ AEs|20.0|||||TWO_SIDED|90.0|14.0|27.0|||||||Confidence intervals were Exact Clopper-Pearson.|27|14|
82457720|NCT02717494|164619301|OTHER||% infants with grade 3+ AEs|20.0|||||TWO_SIDED|90.0|14.0|27.0|||||Confidence intervals were Exact Clopper-Pearson.|||27|14|
82457721|NCT02717494|164619301|OTHER||% infants with congenital anomalies|17.0|||||TWO_SIDED|90.0|11.0|24.0|||||||Confidence intervals were Exact Clopper-Pearson.|24|11|
82457722|NCT02717494|164619301|OTHER||% infants with congenital anomalies|22.0|||||TWO_SIDED|90.0|15.0|29.0|||||||Confidence intervals were Exact Clopper-Pearson.|29|15|
82457723|NCT02717494|164619301|OTHER||% infants with congenital anomalies|13.0|||||TWO_SIDED|90.0|8.0|19.0|||||Confidence intervals were Exact Clopper-Pearson.|||19|8|
82457724|NCT02717494|164619301|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|3.0|||||||Confidence intervals were Exact Clopper-Pearson.|3|0|
82457725|NCT02717494|164619301|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|3.0|||||Confidence intervals were Exact Clopper-Pearson.|||3|0|
82457726|NCT02717494|164619301|OTHER||% infants with HIV infection|0.0|||||TWO_SIDED|90.0|0.0|2.0|||||Confidence intervals were Exact Clopper-Pearson.|||2|0|
82457727|NCT02717494|164619301|OTHER||% with pneumonia, meningitis or IPD|4.0|||||TWO_SIDED|90.0|2.0|9.0|||||Confidence intervals were Exact Clopper-Pearson.|||9|2|
82457728|NCT02717494|164619301|OTHER||% with pneumonia, meningitis or IPD|7.0|||||TWO_SIDED|90.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
82457729|NCT02717494|164619301|OTHER||% with pneumonia, meningitis or IPD|7.0|||||TWO_SIDED|90.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
82457730|NCT02717494|164619302|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at day 28.||||||0.44||||||The threshold for statistical significance is 0.05.|Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.44
82457731|NCT02717494|164619302|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with values \>=0.35ug/mL at day 28.||||||0.49||||||The threshold for statistical significance is 0.05.|Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.49
82457732|NCT02717494|164619302|OTHER||% vaccinees with >=2fold increase|96.0|||||TWO_SIDED|95.0|91.0|99.0|||||Confidence intervals were Exact Clopper-Pearson.|||99|91|
82457733|NCT02717494|164619302|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|94.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|94|
82457734|NCT02717494|164619302|OTHER||% with >=2 fold increase|6.0|||||TWO_SIDED|95.0|3.0|12.0|||||Confidence intervals were Exact Clopper-Pearson.|||12|3|
82457735|NCT02717494|164619302|OTHER||% vaccinees with >=0.35ug/mL at day 28|99.0|||||TWO_SIDED|95.0|95.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|95|
82457736|NCT02717494|164619302|OTHER||% vaccinees with >=0.35ug/mL at day 28|100.0|||||TWO_SIDED|95.0|97.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|97|
82457737|NCT02717494|164619302|OTHER||% with >=0.35ug/mL at day 28|94.0|||||TWO_SIDED|95.0|88.0|97.0|||||Confidence intervals were Exact Clopper-Pearson.|||97|88|
82457738|NCT02717494|164619303|SUPERIORITY|||||||0.29||||||The threshold for statistical significance is 0.05.|Chi-squared|||||||0.29
82457739|NCT02717494|164619304|SUPERIORITY|||||||0.08||||||The threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.08
82457740|NCT02717494|164619305|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at labor and delivery.||||||0.37||||||The threshold for statistical significance is 0.05.|Chi-squared|||||||0.37
82457741|NCT02717494|164619305|SUPERIORITY|This is the test to compare the two vaccine arms with respect to proportion of participants with \>=2 fold increase at 24 weeks post partum.||||||0.21|||||||Fisher Exact|Fisher's exact test was used because 50% of the cells had expected counts less than 5.||||||0.21
82457742|NCT02717494|164619306|OTHER||% vaccinees with >=2fold increase|96.0|||||TWO_SIDED|95.0|91.0|99.0||The threshold for statistical significance is 0.05.|||Confidence intervals were Exact Clopper-Pearson.|||99|91|
82457743|NCT02717494|164619306|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|89.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|89|
82457744|NCT02717494|164619307|OTHER||% vaccinees with >=2fold increase|98.0|||||TWO_SIDED|95.0|94.0|100.0|||||||Confidence intervals were Exact Clopper-Pearson.|100|94|
82457745|NCT02717494|164619307|OTHER||% vaccinees with >=2fold increase|100.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
82457746|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 16|100.0|||||TWO_SIDED|95.0|96.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|96|
82457747|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 16|98.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
82457748|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 16|97.0|||||TWO_SIDED|95.0|91.0|99.0|||||||Confidence intervals were Exact Clopper-Pearson.|99|91|
82457749|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 24|100.0|||||TWO_SIDED|95.0|96.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|96|
82457750|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 24|99.0|||||TWO_SIDED|95.0|95.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|95|
82457751|NCT02717494|164619308|OTHER||% infants with >=0.35ug/mL at week 24|98.0|||||TWO_SIDED|95.0|93.0|100.0|||||Confidence intervals were Exact Clopper-Pearson.|||100|93|
82457752|NCT06172348|164619346|OTHER||Ratio of Adjusted Geometric Means|21.89|||||TWO_SIDED|90.0|19.31|24.8|||||Ratios (Test/Reference) and 90 percent (%) confidence intervals were expressed as percentages. Test = MR1 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||24.80|19.31|
82457753|NCT06172348|164619346|OTHER||Ratio of Adjusted Geometric Means|12.65|||||TWO_SIDED|90.0|11.21|14.27|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||14.27|11.21|
82457754|NCT06172348|164619347|OTHER||Ratio of Adjusted Geometric Means|86.49|||||TWO_SIDED|90.0|79.11|94.54|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||94.54|79.11|
82457755|NCT06172348|164619347|OTHER||Ratio of Adjusted Geometric Means|76.99|||||TWO_SIDED|90.0|70.65|83.9|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule; Reference = Oral solution.|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||83.90|70.65|
82457756|NCT06172348|164619348|OTHER||Ratio of Adjusted Geometric Means|123.92|||||TWO_SIDED|90.0|105.16|146.02|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule (fed); Reference = MR1 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||146.02|105.16|
82457757|NCT06172348|164619348|OTHER||Ratio of Adjusted Geometric Means|129.79|||||TWO_SIDED|90.0|111.51|151.06|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule (fed); Reference = MR2 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||151.06|111.51|
82457758|NCT06172348|164619349|OTHER||Ratio of Adjusted Geometric Means|107.48|||||TWO_SIDED|90.0|96.46|119.76|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR1 capsule (fed); Reference = MR1 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||119.76|96.46|
82457759|NCT06172348|164619349|OTHER||Ratio of Adjusted Geometric Means|109.63|||||TWO_SIDED|90.0|99.19|121.17|||||Ratios (Test/Reference) and 90% confidence intervals were expressed as percentages. Test = MR2 capsule (fed); Reference = MR2 capsule (fasted).|A mixed effect model was used with sequence, period and treatment as fixed effects and participant with sequence as a random effect.||121.17|99.19|
82541669|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1679||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: RAEB 1. The Kaplan-Meier median time to death was not reached due to a small number of events, so the KM 25th percentile survival time is presented.~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 6.6 months and high range of 'does not exist'.~Conventional Care: low range of 1.8 and high range of 9.8 months."||||0.1679
82541670|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: RAEB-2~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 15.9 months and high range of 'does not exist'.~Conventional Care: low range of 8.8 and high range of 19.4 months."||||0.0692
82541671|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||"WHO: Other~Some of the values in outcome table #2 do not have 95% CI values so no 95% CI ranges are contained in the table. Those 95% CI ranges are added here.~Azacitidine: low range of 15.6 months and high range of 'does not exist'.~Conventional Care: low range of 11.1 and high range of 17.5 months."||||0.0017
82541672|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.103||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 17.1 months and high range of 'does not exist'.~Conventional Care: low range of 8.7 and high range of 24.1 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.||IPSS: Intermediate 2 All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.1030
82578172|NCT01123070|164865837|EQUIVALENCE|Bioequivalence declared if the back transformed 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.862||||0.0368|TWO_SIDED|90.0|0.768|0.968|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator, MabThera arm is the denominator|||0.968|0.768|0.0368
82457760|NCT05274958|164619362|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Patient measures for both groups were first summarized descriptively with means and standard deviations. To compare the two groups, a t-test was used.||||<0.05
82457761|NCT05214768|164619367|SUPERIORITY||Least Square Mean Difference|-223.2|STANDARD_ERROR_OF_MEAN|74.98||0.003|TWO_SIDED|95.0|-370.2|-76.3|||ANCOVA|||||-76.3|-370.2|0.003
82457762|NCT05579977|164619426|OTHER||LS Mean Difference|-0.95|||<|0.0001|TWO_SIDED|90.0|-1.2|-0.7|||Mixed Models Analysis|||||-0.70|-1.20|<.0001
82457763|NCT05579977|164619426|OTHER||LS Mean Difference|-1.3|||<|0.0001|TWO_SIDED|90.0|-1.55|-1.04|||Mixed Models Analysis|||||-1.04|-1.55|<.0001
82457764|NCT05579977|164619426|OTHER||LS Mean Difference|-1.37|||<|0.0001||90.0|-1.62|-1.11|||Mixed Models Analysis|||||-1.11|-1.62|<.0001
82457765|NCT05579977|164619426|OTHER||LS Mean Difference|-1.26|||<|0.0001|TWO_SIDED|90.0|-1.52|-1.01|||Mixed Models Analysis|||||-1.01|-1.52|<.0001
82541673|NCT00071799|164782890|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||"95% CI ranges are added here.~Azacitidine: low range of 15.0 months and high range of 'does not exist'.~Conventional Care: low range of 9.0 and high range of 17.0 months."|Log Rank|The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification||IPSS: High All patients were stratified at randomization by FAB classification and IPSS score as determined by the investigator using centrally read bone marrow and cytogenetic data. Subsequently, the FAB classifications and IPSS scores were reviewed by an Independent Review Committee (IRC). The subgroup analyses presented by FAB and IPSS represent the FAB classification and IPSS scores as determined by the IRC.||||0.0020
82541674|NCT00071799|164782891|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification.|Log Rank|||||||0.0025
82457766|NCT05579977|164619426|OTHER||LS Mean Difference|-1.29|||<|0.0001||90.0|-1.55|-1.03|||Mixed Models Analysis|||||-1.03|-1.55|<.0001
82457767|NCT05579977|164619426|OTHER||LS Mean Difference|-0.86|||<|0.0001|TWO_SIDED|90.0|-1.12|-0.61|||Mixed Models Analysis|||||-0.61|-1.12|<.0001
82457768|NCT05579977|164619427|OTHER||LS Mean Difference|-2.44||||0.0055|TWO_SIDED|90.0|-3.88|-1.0|||Mixed Models Analysis|||||-1.00|-3.88|0.0055
82457769|NCT05579977|164619427|OTHER||LS Mean Difference|-4.37|||<|0.0001|TWO_SIDED|90.0|-5.84|-2.89|||Mixed Models Analysis|||||-2.89|-5.84|<.0001
82457770|NCT05579977|164619427|OTHER||LS Mean Difference|-5.63|||<|0.0001|TWO_SIDED|90.0|-7.07|-4.18|||Mixed Models Analysis|||||-4.18|-7.07|<.0001
82457771|NCT05579977|164619427|OTHER||LS Mean Difference|-5.04|||<|0.0001|TWO_SIDED|90.0|-6.5|-3.58|||Mixed Models Analysis|||||-3.58|-6.50|<.0001
82457772|NCT05579977|164619427|OTHER||LS Mean Difference|-5.42|||<|0.0001|TWO_SIDED|90.0|-6.91|-3.93|||Mixed Models Analysis|||||-3.93|-6.91|<.0001
82457773|NCT05579977|164619430|OTHER||LS Mean Difference|-0.86|||<|0.0001|TWO_SIDED|90.0|-1.12|-0.61|||Mixed Models Analysis|||||-0.61|-1.12|<.0001
82457774|NCT02756572|164619470|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82457775|NCT02756572|164619471|OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82457776|NCT02756572|164619472|OTHER|||||||0.049|||||||Fisher Exact|||||||0.049
82457777|NCT02756572|164619473|OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82457778|NCT01712204|164619476|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81|STANDARD_ERROR_OF_MEAN|0.113||0.1356|TWO_SIDED|95.0|0.62|1.07|||Possion regression|||||1.07|0.62|0.1356
82457779|NCT02679287|164619477|SUPERIORITY||Mean Difference (Final Values)|1.8|||<|0.0001|TWO_SIDED|95.0|1.2|2.4|||Mixed Models Analysis|||The null hypothesis is that there is no difference in percentage of time \<70 mg/dL in SAP vs. evening-overnight CLC session. Change in HbA1c during study sessions was used as a covariate of the model.||2.4|1.2|<0.0001
82457780|NCT00599872|164619527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.418|||<|0.05|TWO_SIDED|95.0|-1.15|0.48|||ANCOVA|||||0.48|-1.15|<0.05
82457781|NCT00599872|164619528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.36|||<|0.05|TWO_SIDED|95.0|-1.72|0.63|||ANCOVA|||||0.63|-1.72|<0.05
82652368|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.093||||0.4881|TWO_SIDED|95.0|-0.355|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.170|-0.355|0.4881
82457782|NCT02341235|164619581|SUPERIORITY|||||||0.35|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.35
82457783|NCT02341235|164619582|SUPERIORITY|||||||0.22|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||0.22
82457784|NCT02341235|164619583|SUPERIORITY|||||||0.97|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.97
82457785|NCT02341235|164619584|SUPERIORITY|||||||0.98|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.98
82457786|NCT02341235|164619585|SUPERIORITY|||||||0.83|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.83
82457787|NCT02341235|164619586|SUPERIORITY|||||||0.055|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.055
82457788|NCT02341235|164619587|SUPERIORITY|||||||0.71|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.71
82457789|NCT02341235|164619588|SUPERIORITY|||||||0.33|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.33
82457790|NCT02341235|164619589|SUPERIORITY|||||||0.94|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.94
82457791|NCT02341235|164619590|SUPERIORITY|||||||0.57|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.57
82457792|NCT02341235|164619591|SUPERIORITY|||||||0.3|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.30
82457793|NCT02341235|164619592|SUPERIORITY|||||||0.44|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.44
82457794|NCT02341235|164619593|SUPERIORITY|||||||0.62|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.62
82457795|NCT02341235|164619594|SUPERIORITY|||||||0.7|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.70
82457796|NCT02341235|164619595|SUPERIORITY|||||||0.41|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.41
82457797|NCT02341235|164619596|SUPERIORITY|||||||0.72|||||||ANCOVA|||All analyses were adjusted for baseline values, age, race, ethnicity, and time since diagnosis.||||.72
82457798|NCT02341235|164619603|SUPERIORITY|||||||0.084|||||||ANCOVA|||||||0.084
82457799|NCT02341235|164619605|SUPERIORITY|||||||0.58|||||||ANCOVA|||||||0.580
82457800|NCT02341235|164619613|SUPERIORITY|||||||0.461|||||||ANCOVA|||||||0.461
82457801|NCT02341235|164619615|SUPERIORITY|||||||0.934|||||||ANCOVA|||||||0.934
82457802|NCT04244253|164619644|SUPERIORITY||Difference of score|-1.1||||0.288|TWO_SIDED|95.0|-3.3|1.0|||Mixed-model repeated measures|MMRM included treatment, visit, treatment-by-visit interaction, baseline, and baseline-by-visit interaction using an unstructured covariance matrix.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||1.0|-3.3|0.288
82457803|NCT04244253|164619645|OTHER||Difference in response rate|5.6||||0.329|TWO_SIDED|95.0|-5.6|16.8|||χ2 test|The MADRS response rate in the OPC-64005 20-mg group and the placebo group were compared using the χ2 test in the LOCF dataset.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||16.8|-5.6|0.329
82457804|NCT04244253|164619646|OTHER||Difference of Proportion|1.5||||0.731|TWO_SIDED|95.0|-7.2|10.3|||χ2 test|The MADRS remission rate in the OPC-64005 20-mg group and placebo group were compared using the χ2 test in the LOCF dataset.||The statistical analysis was performed at Week 6 to compare the OPC-64005 20-mg group and placebo group.||10.3|-7.2|0.731
82457805|NCT00411749|164619685|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82457806|NCT00411749|164619686|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82457807|NCT00411749|164619687|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82457808|NCT00411749|164619688|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82457809|NCT00411749|164619689|SUPERIORITY_OR_OTHER||Geometric Mean|155.2|||||TWO_SIDED|95.0|126.2|190.9||||||||190.9|126.2|
82457810|NCT00411749|164619689|SUPERIORITY_OR_OTHER||Geometric Mean|198.2|||||TWO_SIDED|95.0|160.9|244.2||||||||244.2|160.9|
82457811|NCT00411749|164619689|SUPERIORITY_OR_OTHER||Geometric Mean|617.1|||||TWO_SIDED|95.0|491.7|774.5||||||||774.5|491.7|
82457812|NCT00411749|164619689|SUPERIORITY_OR_OTHER||Geometric Mean|90.0|||||TWO_SIDED|95.0|68.8|117.8||||||||117.8|68.8|
82457813|NCT00628030|164619696|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Chi-squared|||||||.008
82457814|NCT00628030|164619697|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Chi-squared|||||||.041
82457815|NCT00628030|164619698|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Chi-squared|||||||.61
82457816|NCT00628030|164619699|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||0.13
82457817|NCT00628030|164619700|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Chi-squared|||||||.024
82457818|NCT03367858|164619706|SUPERIORITY|||||||0.0173||||||At 12 month follow up.|ANCOVA|||We conducted a repeated measures ANCOVA of Time (Post-Treatment: 3, 6, 12 months) × Treatment (MI, BAM) with the covariate of pre-treatment problem drinking.||||.0173
82457819|NCT00101686|164619724|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.433||||0.0152||95.0|1.09|1.89||p-value corresponds to the log-rank test for comparing Kaplan-Meier survival curves.|Log Rank||Hazard ratio \[mIRI:FOLFIRI\] is from the Cox Proportional Hazard Model using treatment (FOLFIRI, mIRI, CapeIRI), age (\<=70 vs \>70), performance status (0 vs 1), aspirin (Yes vs No), celecoxib (Yes or No) as the covariates.|||1.89|1.09|0.0152
82457820|NCT00101686|164619725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.512||||0.0042||95.0|1.16|1.97|||Log Rank|||||1.97|1.16|0.0042
82457821|NCT00101686|164619725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.368||||0.0156||95.0|1.04|1.8|||Log Rank|||||1.80|1.04|0.0156
82457822|NCT00101686|164619725|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.4659||95.0|0.81|1.38|||Log Rank|||||1.38|0.81|0.4659
82457823|NCT00101686|164619726|SUPERIORITY_OR_OTHER||F-distribution method|47.2||||||95.0|38.85|55.71|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||55.71|38.85|
82457824|NCT00101686|164619726|SUPERIORITY_OR_OTHER||F-distribution method|43.3||||||95.0|34.95|51.86|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||51.86|34.95|
82652369|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.164||||0.2205|TWO_SIDED|95.0|-0.427|0.099||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.099|-0.427|0.2205
82457825|NCT00101686|164619726|SUPERIORITY_OR_OTHER||F-distribution method|38.6||||||95.0|30.66|47.06|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||47.06|30.66|
82457826|NCT00101686|164619726|SUPERIORITY_OR_OTHER|||||||0.4751|||||||Cochran-Mantel-Haenszel|||||||0.4751
82457827|NCT00101686|164619726|SUPERIORITY_OR_OTHER|||||||0.1591|||||||Cochran-Mantel-Haenszel|||||||0.1591
82457828|NCT00101686|164619726|SUPERIORITY_OR_OTHER|||||||0.4395|||||||Cochran-Mantel-Haenszel|||||||0.4395
82457829|NCT00101686|164619727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.268||||0.0879||95.0|0.96|1.68|||Log Rank|||||1.68|0.96|0.0879
82457830|NCT00101686|164619727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2765||95.0|0.9|1.58|||Log Rank|||||1.58|0.90|0.2765
82457831|NCT00101686|164619727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.049||||0.9364||95.0|0.8|1.38|||Log Rank|||||1.38|0.80|0.9364
82457832|NCT00101686|164619729|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.068||||0.7163||95.0|0.86|1.33|||Log Rank|||||1.33|0.86|0.7163
82457833|NCT00101686|164619730|SUPERIORITY_OR_OTHER||F-distribution method|39.4||||||95.0|32.83|46.34|||||confidence interval for binomial proportion using the F-distribution method (unit: %)|||46.34|32.83|
82457834|NCT00101686|164619730|SUPERIORITY_OR_OTHER||F-distribution method|46.5||||||95.0|39.76|53.42|||||confidence interval for binomial proportion using the F-distribution method (unit: %)|||53.42|39.76|
82457835|NCT00101686|164619730|SUPERIORITY_OR_OTHER|||||||0.1559|||||||Cochran-Mantel-Haenszel|||||||0.1559
82457836|NCT00101686|164619731|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.5316||95.0|0.86|1.36|||Log Rank|||||1.36|0.86|0.5316
82457837|NCT00101686|164619732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.269||||0.2835||95.0|0.75|2.15|||Log Rank|||||2.15|0.75|0.2835
82457838|NCT00101686|164619733|SUPERIORITY_OR_OTHER||F-distribution method|57.9||||||95.0|44.08|70.86|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||70.86|44.08|
82457839|NCT00101686|164619733|SUPERIORITY_OR_OTHER||F-distribution method|53.3||||||95.0|40.0|66.33|||||Exact confidence interval for binomial proportion using the F-distribution method (unit: %)|||66.33|40.00|
82457840|NCT00101686|164619733|SUPERIORITY_OR_OTHER|||||||0.7388|||||||Cochran-Mantel-Haenszel|||||||0.7388
82457841|NCT00101686|164619735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.794||||0.037||95.0|1.12|2.88|||Log Rank|||||2.88|1.12|0.0370
82457842|NCT01292187|164619738|SUPERIORITY_OR_OTHER|||||||0.0265|||||||Mixed Models Analysis|||||||0.0265
82457843|NCT01292187|164619739|SUPERIORITY_OR_OTHER|||||||0.034|||||||Mixed Models Analysis|||||||0.0340
82457844|NCT03827655|164619740|SUPERIORITY||Hazard Ratio (HR)|0.92|||=|0.649|TWO_SIDED|90.0|0.63|1.33||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% confidence intervals (CIs) and associated Wald Chi-square p-values between TAK-954 dose levels and placebo were obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.33|0.63|=0.649
82457845|NCT03827655|164619740|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.505|TWO_SIDED|90.0|0.69|1.43||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.43|0.69|=0.505
82457846|NCT03827655|164619741|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.449|TWO_SIDED|90.0|0.71|1.49||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.49|0.71|=0.449
82457847|NCT03827655|164619741|SUPERIORITY||Hazard Ratio (HR)|1.0|||=|0.507|TWO_SIDED|90.0|0.69|1.44||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.44|0.69|=0.507
82457848|NCT03827655|164619742|SUPERIORITY||Hazard Ratio (HR)|1.05|||=|0.406|TWO_SIDED|90.0|0.73|1.52||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.52|0.73|=0.406
82457849|NCT03827655|164619742|SUPERIORITY||Hazard Ratio (HR)|0.77|||=|0.88|TWO_SIDED|90.0|0.54|1.11||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.11|0.54|=0.880
82457850|NCT03827655|164619743|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.446|TWO_SIDED|90.0|0.72|1.48||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.48|0.72|=0.446
82541675|NCT00071799|164782891|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68||||0.0027|TWO_SIDED|95.0|0.53|0.87|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.87|0.53|0.0027
82649944|NCT05478603|165014943|OTHER||Ratio of adjusted geometric means|94.88|||||TWO_SIDED|90.0|70.86|127.04|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||127.04|70.86|
82652370|NCT02637557|165019493|SUPERIORITY||LS Mean Difference|-0.433||||0.0015|TWO_SIDED|95.0|-0.699|-0.168||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||-0.168|-0.699|0.0015
82457851|NCT03827655|164619743|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.892|TWO_SIDED|90.0|0.53|1.09||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.09|0.53|=0.892
82457852|NCT03827655|164619744|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.76|TWO_SIDED|90.0|0.6|1.23||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.23|0.60|=0.760
82457853|NCT03827655|164619744|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.81|TWO_SIDED|90.0|0.58|1.18||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-squared test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.18|0.58|=0.810
82457854|NCT03827655|164619745|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.288|TWO_SIDED|90.0|0.78|1.64||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.64|0.78|=0.288
82457855|NCT03827655|164619745|SUPERIORITY||Hazard Ratio (HR)|1.03|||=|0.453|TWO_SIDED|90.0|0.72|1.47||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.47|0.72|=0.453
82457856|NCT03827655|164619746|SUPERIORITY||Risk Difference (RD)|-0.09|||=|0.046|TWO_SIDED|90.0|-0.17|0.0||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.00|-0.17|=0.046
82457857|NCT03827655|164619746|SUPERIORITY||Risk Difference (RD)|0.0|||=|0.516|TWO_SIDED|90.0|-0.11|0.11||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.11|-0.11|=0.516
82457858|NCT03827655|164619747|SUPERIORITY||Risk Difference (RD)|-0.03|||=|0.296|TWO_SIDED|90.0|-0.12|0.06||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.06|-0.12|=0.296
82457859|NCT03827655|164619747|SUPERIORITY||Risk Difference (RD)|0.03|||=|0.677|TWO_SIDED|90.0|-0.07|0.13||P-value was derived using a one-sided test with Ha: Risk Difference\<0.|Stratified Miettinen and Nurminen||The p-values, risk differences and corresponding 90% CIs were obtained using a stratified Miettinen and Nurminen approach with strata weighting by sample size.|||0.13|-0.07|=0.677
82457860|NCT03827655|164619748|SUPERIORITY||Hazard Ratio (HR)|1.1|||=|0.338|TWO_SIDED|90.0|0.76|1.57||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.57|0.76|=0.338
82457861|NCT03827655|164619748|SUPERIORITY||Hazard Ratio (HR)|1.04|||=|0.422|TWO_SIDED|90.0|0.73|1.49||P-values were derived using a one-sided test with alternative hypothesis (Ha): Hazard Ratio\>1.|Wald chi-square test||Hazard ratios, 90% CIs and associated Wald Chi-square p-values between TAK-954 dose levels and placebo are obtained using a stratified Cox proportional hazard model with treatment as the only independent variable.|||1.49|0.73|=0.422
82457862|NCT03649217|164619752|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||.0001
82457863|NCT03649217|164619753|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||.0001
82457864|NCT03649217|164619754|SUPERIORITY|||||||0.001|||||||ANOVA|||||||.001
82457865|NCT03649217|164619755|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||.0002
82457866|NCT03649217|164619756|SUPERIORITY|||||||0.006|||||||ANOVA|||||||.006
82457867|NCT02119871|164619771|SUPERIORITY||Median Difference (Final Values)|14.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.00
82457868|NCT02119871|164619772|SUPERIORITY||Median Difference (Final Values)|10.0||||0.656|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.656
82457869|NCT02119871|164619773|SUPERIORITY||Median Difference (Final Values)|4.0||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1
82457870|NCT02552966|164619778|OTHER|||||||0.61|||||||t-test, 2 sided|This t-test was applied to determine if the mean salivary pepsin concentration changed between baseline and 2 week post UESAD measurements.||||||0.61
82457871|NCT02552966|164619779|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82457872|NCT02552966|164619780|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82457873|NCT02552966|164619781|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82541676|NCT00071799|164782892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2555||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||||||0.2555
82457874|NCT00721396|164619788|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence interval of the difference in the percentage of subjects with hSBA titer ≥1:5 was greater than -10% for each of the 3 strains.|Difference % (B+R246 minus B246_R357)|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against 44/76-SL strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||1|-1|
82457875|NCT00721396|164619788|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence limit of the difference in the percentage of subjects with hSBA titer ≥5 was greater than -10% for each of the 3 strains.|Difference %(B+R246 minus B246_R357)|0.0|||||TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against 5/99 strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||1|-1|
82457876|NCT00721396|164619788|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R246 was considered non-inferior to response of Group B246\_R357, if at one month after the third rMenB+OMV NZ injection the 2-sided 95% lower confidence limit of the difference in the percentage of subjects with hSBA titer ≥5 was greater than -10% for each of the 3 strains.|Difference % (B+R246 minus B246_R357)|-8.0|||||TWO_SIDED|95.0|-12.0|-4.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against NZ98/254 strain when rMenB+OMV NZ vaccine was administered concomitantly with routine infant vaccines as compared to when rMenB+OMV NZ vaccine and routine vaccines were given separately.||-4|-12|
82457877|NCT00721396|164619789|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R234 was considered non-inferior to response of Group R234, if at one month after the third injection the 2-sided 95% lower confidence limit for the difference in the percentage of subjects with antibody response greater than the pre-specified cut off of for diphtheria (≥0.1 IU/mL) was \>-10%.|Difference %(B+R234 minus R234)|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Diphtheria antigen when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-1|
82578173|NCT01123070|164865839|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.909||||0.1484|TWO_SIDED|90.0|0.814|1.014|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|Cmax1||1.014|0.814|0.1484
82578174|NCT01123070|164865839|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.766||||0.0241|TWO_SIDED|90.0|0.633|0.927|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|Cmax2||0.927|0.633|0.0241
82578175|NCT01123070|164865840|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.969||||0.652|TWO_SIDED|90.0|0.863|1.088|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011 arm is the numerator, MabThera arm is the denominator|AUC1||1.088|0.863|0.6520
82578176|NCT01123070|164865840|EQUIVALENCE|Bioequivalence declared if the 90% CI of geometric mean ratio is within the predefined limits of 0.75 to 1.33|Geometric mean ratio|0.961||||0.7835|TWO_SIDED|90.0|0.757|1.222|||ANCOVA|PK parameters were calculated using a logarithmic transformation. Covariates included body weight at screening, gender and treatment.|TL011/MabThera|AUC2||1.222|0.757|0.7835
82457878|NCT00721396|164619789|NON_INFERIORITY_OR_EQUIVALENCE|Immune response of Group B+R234 was considered non-inferior to response of Group R234, if at one month after the third injection the 2-sided 95% lower confidence limit for the difference in the percentage of subjects with antibody response greater than the pre-specified cut off of for tetanus toxoid (≥0.1 IU/mL) was \>-10%.|Difference %(B+R234 minus R234)|0.0|||||TWO_SIDED|95.0|-1.0|2.0|||Miettinen and Nurminen|||Non-inferiority of immune response to Tetanus antigens when routine vaccines are administered concomitantly with rMen+OMV NZ vaccine.||2|-1|
82457879|NCT00721396|164619794|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-1.0|||||TWO_SIDED|95.0|-5.0|4.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen FHA when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||4|-5|
82457880|NCT00721396|164619794|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-2.0|||||TWO_SIDED|95.0|-7.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen pertactin antigen when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-7|
82457881|NCT00721396|164619794|NON_INFERIORITY_OR_EQUIVALENCE|Group B+R234 was to be considered non-inferior to Group R234 if the 2-sided 95% lower confidence limit of this difference at 30 days after the last injection was greater than -10% for each of the antigens of the routine vaccinations.|Difference %(B+R234 minus R234)|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen method|||Non-inferiority of immune responses against Pertussis antigen PT when routine vaccine was administered concomitantly with rMenB+OMV NZ vaccine to when only routine vaccines were administered.||2|-4|
82457882|NCT02365649|164619806|SUPERIORITY||Adjusted risk difference from placebo|9.9||||0.056|TWO_SIDED|95.0|-0.3|20.1||Statistical significance was prespecified at α = 0.1. Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||20.1|-0.3|0.056
82457883|NCT02365649|164619806|SUPERIORITY||Adjusted risk difference from placebo|7.4||||0.108|TWO_SIDED|95.0|-1.6|16.4||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.4|-1.6|0.108
82578177|NCT03079297|164865847|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.5||0.4128|TWO_SIDED|95.0|-3.56|7.56|||t-test, 2 sided|||||7.56|-3.56|0.4128
82541677|NCT00071799|164782892|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.2562|TWO_SIDED|95.0|0.6|1.15|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||1.15|0.60|0.2562
82541678|NCT00071799|164782893|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion dependent at baseline and transfusion independent during the on-treatment period.||||<0.0001
82541679|NCT00071799|164782894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion independent at baseline and remained transfusion independent during the on-treatment period.||||0.0005
82541680|NCT00071799|164782895|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion dependent at baseline and transfusion independent during the on-treatment period||||1.000
82541681|NCT00071799|164782896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||The p value is from Fisher's exact test comparing the difference in the azacitidine group and the combined group of CCR regimens among patients who were transfusion independent at baseline and remained transfusion independent during the on-treatment period.||||<0.0001
82541682|NCT00071799|164782897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Fisher Exact|||Overall (Complete + Partial Remission)||||0.0001
82541683|NCT00071799|164782897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||95.0|||||Fisher Exact|||Complete remission||||0.0150
82541684|NCT00071799|164782897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0094||95.0|||||Fisher Exact|||Partial Remission||||0.0094
82578178|NCT03079297|164865848|SUPERIORITY|||||||0.4286|||||||Fisher Exact|||||||0.4286
82541685|NCT00071799|164782897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3297||95.0|||||Fisher Exact|||Stable Disease||||0.3297
82541686|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||Any Improvement||||<0.0001
82541687|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Fisher Exact|||Erythroid Response - Major||||<0.0001
82541688|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6203||95.0|||||Fisher Exact|||Erythroid Response - Minor||||0.6203
82541689|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Fisher Exact|||Platelet Response - Major||||0.0003
82541690|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7514||95.0|||||Fisher Exact|||Platelet Response - Minor||||0.7514
82541691|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8695||95.0|||||Fisher Exact|||Neutrophil Response - Major||||0.8695
82541692|NCT00071799|164782898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0|||||Fisher Exact|||Neutrophil Response - Minor||||0.1760
82541693|NCT00071799|164782899|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0466||95.0||||The p value is two-sided from the log rank test which compares whether the azacitidine and control group follow the same duration curve.|Log Rank|||||||0.0466
82541694|NCT00071799|164782899|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.0474|TWO_SIDED|95.0|0.53|1.0|||Regression, Cox|||||1.00|0.53|0.0474
82541695|NCT00071799|164782900|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||The p value is two-sided from the log rank test which compares whether the azacitidine and control group follow the same duration curve.|Log Rank|||||||0.0002
82541696|NCT00071799|164782901|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.67||||0.1327|TWO_SIDED|95.0|0.35|1.2|||exact binomial|||||1.20|0.35|0.1327
82541697|NCT00071799|164782903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The p value is two-sided from the log rank test stratified by the randomization stratification factors of IPSS classification and FAB classification|Log Rank|||||||<0.0001
82541698|NCT00071799|164782903|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.35|0.7|||Regression, Cox||Cox proportional hazards model stratified on the randomization factors of FAB and IPSS with model term of treatment.|||0.70|0.35|<0.0001
82541699|NCT03959241|164782949|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.001|TWO_SIDED|95.0|0.492|0.835||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of GRFS hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies.||0.835|0.492|0.001
82541700|NCT03959241|164782950|SUPERIORITY|||||||0.995||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups.||||0.995
82541701|NCT03959241|164782950|SUPERIORITY|||||||0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of grade III-IV acute GVHD post-transplantation between the treatment groups||||0.001
82541702|NCT03959241|164782950|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.879|TWO_SIDED|95.0|0.758|1.267||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups using a Cox regression model for the cause-specific hazard of aGVHD||1.267|0.758|0.879
82541703|NCT03959241|164782950|SUPERIORITY||Hazard Ratio (HR)|0.386||||0.001|TWO_SIDED|95.0|0.215|0.691||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of grade III-IV aGVHD hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies.||0.691|0.215|0.001
82578179|NCT03079297|164865849|SUPERIORITY|||||||0.999|||||||Fisher Exact|||||||.999
82578180|NCT03079297|164865850|SUPERIORITY|||||||0.9932||||||P-value for Adverse effect burden 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9932
82578181|NCT03079297|164865850|SUPERIORITY|||||||0.9932||||||P-value for Adverse effect burden 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9932
82541704|NCT03959241|164782954|SUPERIORITY|||||||0.005||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of chronic GVHD post-transplantation between the treatment groups||||0.005
82541705|NCT03959241|164782954|SUPERIORITY||Hazard Ratio (HR)|0.556||||0.002|TWO_SIDED|95.0|0.381|0.813||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of the chronic GVHD hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||0.813|0.381|0.002
82541706|NCT03959241|164782957|SUPERIORITY|||||||0.038||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The null hypothesis is that there is no difference of Immunosuppression-Free Survival between the treatment groups||||0.038
82541707|NCT03959241|164782958|SUPERIORITY|||||||0.032||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Neutrophil Recovery between the treatment groups||||0.032
82578182|NCT03079297|164865850|SUPERIORITY|||||||0.2242||||||P-value for Adverse effect burden 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2242
82457884|NCT02365649|164619806|SUPERIORITY||Adjusted risk difference from placebo|7.7||||0.099|TWO_SIDED|95.0|-1.5|16.8||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.8|-1.5|0.099
82652371|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.043||||0.6653|TWO_SIDED|95.0|-0.152|0.238||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.238|-0.152|0.6653
82457885|NCT02365649|164619806|SUPERIORITY||Adjusted risk difference from placebo|21.0||||0.004|TWO_SIDED|95.0|6.8|35.2||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||35.2|6.8|0.004
82578183|NCT03079297|164865851|SUPERIORITY|||||||0.7282||||||P-value for General fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7282
82457886|NCT02365649|164619806|SUPERIORITY||Adjusted risk difference from placebo|13.6||||0.025|TWO_SIDED|95.0|1.8|25.5||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||25.5|1.8|0.025
82457887|NCT02365649|164619807|SUPERIORITY||Adjusted risk difference from placebo|2.5||||0.74|TWO_SIDED|95.0|-12.3|17.3||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||17.3|-12.3|0.74
82457888|NCT02365649|164619807|SUPERIORITY||Adjusted risk difference from placebo|16.2||||0.082|TWO_SIDED|95.0|-2.0|34.3||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.3|-2.0|0.082
82541708|NCT03959241|164782959|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet Recovery greater than or equal to 20,000/mm\^3 between the treatment groups||||<0.001
82541709|NCT03959241|164782959|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet Recovery greater than or equal to 50,000/mm\^3 between the treatment groups||||<0.001
82541710|NCT03959241|164782960|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Lymphocyte Recovery between the treatment groups||||<0.001
82541711|NCT03959241|164782961|SUPERIORITY|||||||0.919||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference of Donor Cell Engraftment at Day 28 after transplantation between the treatment groups||||0.919
82457889|NCT02365649|164619807|SUPERIORITY||Adjusted risk difference from placebo|0.5||||0.952|TWO_SIDED|95.0|-14.1|15.0||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.0|-14.1|0.952
82457890|NCT02365649|164619807|SUPERIORITY||Adjusted risk difference from placebo|11.2||||0.205|TWO_SIDED|95.0|-6.1|28.5||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||28.5|-6.1|0.205
82541712|NCT03959241|164782961|SUPERIORITY|||||||0.198||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Fisher Exact|||The null hypothesis is that there is no difference of Donor Cell Engraftment at Day 100 after transplantation between the treatment groups||||0.198
82541713|NCT03959241|164782962|SUPERIORITY|||||||0.67||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference of quantitative donor chimerism at Day 28 after transplantation between the treatment groups||||0.670
82541714|NCT03959241|164782962|SUPERIORITY|||||||0.607||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference of quantitative donor chimerism at Day 100 after transplantation between the treatment groups||||0.607
82457891|NCT02365649|164619807|SUPERIORITY||Adjusted risk difference from placebo|4.1||||0.607|TWO_SIDED|95.0|-11.5|19.6||Statistical significance was prespecified at α = 0.1. Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||19.6|-11.5|0.607
82457892|NCT02365649|164619808|SUPERIORITY||Adjusted risk difference from placebo|5.2||||0.564|TWO_SIDED|95.0|-12.5|22.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.9|-12.5|0.564
82457893|NCT02365649|164619808|SUPERIORITY||Adjusted risk difference from placebo|12.0||||0.221|TWO_SIDED|95.0|-7.2|31.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||31.2|-7.2|0.221
82457894|NCT02365649|164619808|SUPERIORITY||Adjusted risk difference from placebo|22.2||||0.036|TWO_SIDED|95.0|1.4|43.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||43|1.4|0.036
82457895|NCT02365649|164619808|SUPERIORITY||Adjusted risk difference from placebo|13.4||||0.179|TWO_SIDED|95.0|-6.2|33.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.1|-6.2|0.179
82457896|NCT02365649|164619808|SUPERIORITY||Adjusted risk difference from placebo|3.9||||0.677|TWO_SIDED|95.0|-14.3|22.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22|-14.3|0.677
82457897|NCT02365649|164619809|SUPERIORITY||Adjusted risk difference from placebo|10.4||||0.363|TWO_SIDED|95.0|-12.0|32.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.9|-12|0.363
82457898|NCT02365649|164619809|SUPERIORITY||Adjusted risk difference from placebo|17.3||||0.137|TWO_SIDED|95.0|-5.5|40.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40|-5.5|0.137
82457899|NCT02365649|164619809|SUPERIORITY||Adjusted risk difference from placebo|7.5||||0.512|TWO_SIDED|95.0|-14.9|29.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.9|-14.9|0.512
82457900|NCT02365649|164619809|SUPERIORITY||Adjusted risk difference from placebo|25.0||||0.035|TWO_SIDED|95.0|-1.8|48.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.2|-1.8|0.035
82457901|NCT02365649|164619809|SUPERIORITY||Adjusted risk difference from placebo|12.5||||0.29|TWO_SIDED|95.0|-10.7|35.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||35.6|-10.7|0.29
82457902|NCT02365649|164619810|SUPERIORITY||Adjusted risk difference from placebo|-0.9||||0.896|TWO_SIDED|95.0|-15.0|13.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||13.1|-15.0|0.896
82457903|NCT02365649|164619810|SUPERIORITY||Adjusted risk difference from placebo|18.6||||0.05|TWO_SIDED|95.0|0.0|37.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.3|0.0|0.05
82457904|NCT02365649|164619810|SUPERIORITY||Adjusted risk difference from placebo|3.0||||0.702|TWO_SIDED|95.0|-12.4|18.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||18.4|-12.4|0.702
82457905|NCT02365649|164619810|SUPERIORITY||Adjusted risk difference from placebo|14.3||||0.117|TWO_SIDED|95.0|-3.6|32.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.2|-3.6|0.117
82457906|NCT02365649|164619810|SUPERIORITY||Adjusted risk difference from placebo|-2.4||||0.736|TWO_SIDED|95.0|-16.4|11.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||11.6|-16.4|0.736
82457907|NCT02365649|164619811|SUPERIORITY||Adjusted risk difference from placebo|2.9||||0.276|TWO_SIDED|95.0|-2.3|8.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||8.1|-2.3|0.276
82457908|NCT02365649|164619811|SUPERIORITY||Adjusted risk difference from placebo|4.9||||0.195|TWO_SIDED|95.0|-2.5|12.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||12.4|-2.5|0.195
82457909|NCT02365649|164619811|SUPERIORITY||Adjusted risk difference from placebo|2.6||||0.355|TWO_SIDED|95.0|-2.9|8.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||8.0|-2.9|0.355
82457910|NCT02365649|164619811|SUPERIORITY||Adjusted risk difference from placebo|7.7||||0.099|TWO_SIDED|95.0|-1.5|16.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||16.8|-1.5|0.099
82457911|NCT02365649|164619811|SUPERIORITY||Adjusted risk difference from placebo|5.2||||0.185|TWO_SIDED|95.0|-2.5|12.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||12.9|-2.5|0.185
82457912|NCT02365649|164619812|SUPERIORITY||Adjusted risk difference from placebo|13.2||||0.05|TWO_SIDED|95.0|0.0|26.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.5|0.0|0.05
82457913|NCT02365649|164619812|SUPERIORITY||Adjusted risk difference from placebo|29.5||||0.001|TWO_SIDED|95.0|11.9|47.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||47.1|11.9|0.001
82457914|NCT02365649|164619812|SUPERIORITY||Adjusted risk difference from placebo|25.2||||0.003|TWO_SIDED|95.0|8.5|42.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||42.0|8.5|0.003
82457915|NCT02365649|164619812|SUPERIORITY||Adjusted risk difference from placebo|36.5|||<|0.001|TWO_SIDED|95.0|17.6|55.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||55.4|17.6|< 0.001
82457916|NCT02365649|164619812|SUPERIORITY||Adjusted risk difference from placebo|32.0|||<|0.001|TWO_SIDED|95.0|13.9|50.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.2|13.9|< 0.001
82457917|NCT02365649|164619813|SUPERIORITY||Adjusted risk difference from placebo|10.5||||0.243|TWO_SIDED|95.0|-7.2|28.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||28.2|-7.2|0.243
82457918|NCT02365649|164619813|SUPERIORITY||Adjusted risk difference from placebo|29.1||||0.006|TWO_SIDED|95.0|8.3|49.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.9|8.3|0.006
82457919|NCT02365649|164619813|SUPERIORITY||Adjusted risk difference from placebo|24.2||||0.017|TWO_SIDED|95.0|4.4|44.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||44.1|4.4|0.017
82457920|NCT02365649|164619813|SUPERIORITY||Adjusted risk difference from placebo|36.5|||<|0.001|TWO_SIDED|95.0|14.8|58.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.1|14.8|< 0.001
82457921|NCT02365649|164619813|SUPERIORITY||Adjusted risk difference from placebo|36.8|||<|0.001|TWO_SIDED|95.0|15.2|58.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.3|15.2|< 0.001
82457922|NCT02365649|164619814|SUPERIORITY||Adjusted risk difference from placebo|10.5||||0.353|TWO_SIDED|95.0|-11.7|32.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.7|-11.7|0.353
82649945|NCT05478603|165014943|OTHER||Ratio of adjusted geometric means|99.75|||||TWO_SIDED|90.0|74.5|133.56|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||133.56|74.50|
82652372|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.15||||0.1327|TWO_SIDED|95.0|-0.046|0.345||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.345|-0.046|0.1327
82457923|NCT02365649|164619814|SUPERIORITY||Adjusted risk difference from placebo|22.7||||0.05|TWO_SIDED|95.0|0.0|45.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||45.5|0.0|0.05
82457924|NCT02365649|164619814|SUPERIORITY||Adjusted risk difference from placebo|12.5||||0.268|TWO_SIDED|95.0|-9.6|34.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.6|-9.6|0.268
82457925|NCT02365649|164619814|SUPERIORITY||Adjusted risk difference from placebo|28.0||||0.018|TWO_SIDED|95.0|4.8|51.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||51.2|4.8|0.018
82457926|NCT02365649|164619814|SUPERIORITY||Adjusted risk difference from placebo|14.9||||0.204|TWO_SIDED|95.0|-8.1|37.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.8|-8.1|0.204
82457927|NCT02365649|164619815|SUPERIORITY||Adjusted risk difference from placebo|10.0||||0.421|TWO_SIDED|95.0|-14.4|34.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||34.4|-14.4|0.421
82457928|NCT02365649|164619815|SUPERIORITY||Adjusted risk difference from placebo|11.5||||0.371|TWO_SIDED|95.0|-13.8|36.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||36.8|-13.8|0.371
82457929|NCT02365649|164619815|SUPERIORITY||Adjusted risk difference from placebo|9.2||||0.445|TWO_SIDED|95.0|-14.4|32.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.8|-14.4|0.445
82457930|NCT02365649|164619815|SUPERIORITY||Adjusted risk difference from placebo|19.5||||0.198|TWO_SIDED|95.0|-10.2|49.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.3|-10.2|0.198
82457931|NCT02365649|164619815|SUPERIORITY||Adjusted risk difference from placebo|5.0||||0.654|TWO_SIDED|95.0|-17.0|27.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||27.0|-17.0|0.654
82457932|NCT02365649|164619816|SUPERIORITY||Adjusted risk difference from placebo|18.7||||0.093|TWO_SIDED|95.0|-3.1|40.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40.5|-3.1|0.093
82457933|NCT02365649|164619816|SUPERIORITY||Adjusted risk difference from placebo|13.5||||0.176|TWO_SIDED|95.0|-6.1|33.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.1|-6.1|0.176
82457934|NCT02365649|164619816|SUPERIORITY||Adjusted risk difference from placebo|35.9||||0.017|TWO_SIDED|95.0|6.3|65.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||65.5|6.3|0.017
82457935|NCT02365649|164619816|SUPERIORITY||Adjusted risk difference from placebo|26.1||||0.044|TWO_SIDED|95.0|0.7|51.5|||Cochran-Mantel-Haenszel|||||51.5|0.7|0.044
82457936|NCT02365649|164619816|SUPERIORITY||Adjusted risk difference from placebo|13.1||||0.121|TWO_SIDED|95.0|-3.5|29.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.6|-3.5|0.121
82457937|NCT02365649|164619817|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.564|TWO_SIDED|95.0|-8.1|14.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||14.9|-8.1|0.564
82457938|NCT02365649|164619817|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.584|TWO_SIDED|95.0|-8.8|15.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.7|-8.8|0.584
82457939|NCT02365649|164619817|SUPERIORITY||Adjusted risk difference from placebo|8.7||||0.326|TWO_SIDED|95.0|-8.7|26.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.1|-8.7|0.326
82457940|NCT02365649|164619818|SUPERIORITY||Adjusted risk difference from placebo|12.2||||0.195|TWO_SIDED|95.0|-6.2|30.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||30.7|-6.2|0.195
82457941|NCT02365649|164619818|SUPERIORITY||Adjusted risk difference from placebo|17.9||||0.116|TWO_SIDED|95.0|-4.4|40.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||40.1|-4.4|0.116
82457942|NCT02365649|164619818|SUPERIORITY||Adjusted risk difference from placebo|12.8||||0.178|TWO_SIDED|95.0|-5.8|31.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||31.5|-5.8|0.178
82457943|NCT02365649|164619818|SUPERIORITY||Adjusted risk difference from placebo|30.4||||0.031|TWO_SIDED|95.0|2.8|58.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||58.0|2.8|0.031
82457944|NCT02365649|164619818|SUPERIORITY||Adjusted risk difference from placebo|13.1||||0.121|TWO_SIDED|95.0|-3.5|29.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.6|-3.5|0.121
82457945|NCT02365649|164619819|SUPERIORITY||Adjusted risk difference from placebo|6.8||||0.392|TWO_SIDED|95.0|-8.7|22.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.2|-8.7|0.392
82457946|NCT02365649|164619819|SUPERIORITY||Adjusted risk difference from placebo|3.4||||0.584|TWO_SIDED|95.0|-8.8|15.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||15.7|-8.8|0.584
82457947|NCT02365649|164619819|SUPERIORITY||Adjusted risk difference from placebo|13.0||||0.199|TWO_SIDED|95.0|-6.8|32.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.9|-6.8|0.199
82457948|NCT02365649|164619819|SUPERIORITY||Adjusted risk difference from placebo|6.9||||0.439|TWO_SIDED|95.0|-10.6|24.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||24.5|-10.6|0.439
82457949|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-103.9||||0.788|TWO_SIDED|95.0|-865.69|657.87||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||657.87|-865.69|0.788
82457950|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-364.3||||0.325|TWO_SIDED|95.0|-1092.83|364.29||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||364.29|-1092.83|0.325
82457951|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-926.2||||0.015|TWO_SIDED|95.0|-1672.78|-179.63||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-179.63|-1672.78|0.015
82457952|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-763.1||||0.053|TWO_SIDED|95.0|-1534.52|8.39||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||8.39|-1534.52|0.053
82457953|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-359.5||||0.352|TWO_SIDED|95.0|-1119.52|400.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 4||400.56|-1119.52|0.352
82457954|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-396.2||||0.503|TWO_SIDED|95.0|-1565.39|772.9||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||772.90|-1565.39|0.503
82457955|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-364.3||||0.537|TWO_SIDED|95.0|-1531.04|802.44||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||802.44|-1531.04|0.537
82457956|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-483.2||||0.425|TWO_SIDED|95.0|-1677.87|711.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||711.52|-1677.87|0.425
82457957|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-1025.6||||0.134|TWO_SIDED|95.0|-2373.24|322.08||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||322.08|-2373.24|0.134
82457958|NCT02365649|164619820|SUPERIORITY||LS Mean Difference|-637.9||||0.293|TWO_SIDED|95.0|-1833.82|557.96||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||557.96|-1833.82|0.293
82457959|NCT02365649|164619821|SUPERIORITY||LS Mean Difference|0.5||||0.921|TWO_SIDED|95.0|-9.02|9.97||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||9.97|-9.02|0.921
82457960|NCT02365649|164619821|SUPERIORITY||LS Mean Difference|-1.6||||0.75|TWO_SIDED|95.0|-11.19|8.08||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||8.08|-11.19|0.75
82457961|NCT02365649|164619821|SUPERIORITY||LS Mean Difference|-1.9||||0.7|TWO_SIDED|95.0|-11.7|7.87||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||7.87|-11.7|0.7
82457962|NCT02365649|164619821|SUPERIORITY||LS Mean Difference|-11.4||||0.024|TWO_SIDED|95.0|-21.38|-1.51||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-1.51|-21.38|0.024
82457963|NCT02365649|164619821|SUPERIORITY||LS Mean Difference|-1.0||||0.845|TWO_SIDED|95.0|-10.72|8.79||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||8.79|-10.72|0.845
82457964|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|1.7||||0.83|TWO_SIDED|95.0|-13.6|16.92||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||16.92|-13.60|0.830
82457965|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|17.5||||0.027|TWO_SIDED|95.0|2.03|33.0||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||33.00|2.03|0.027
82457966|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|8.9||||0.263|TWO_SIDED|95.0|-6.72|24.47||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||24.47|-6.72|0.263
82457967|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|21.6||||0.008|TWO_SIDED|95.0|5.68|37.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||37.52|5.68|0.008
82457968|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|8.8||||0.269|TWO_SIDED|95.0|-6.88|24.53||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 8||24.53|-6.88|0.269
82578184|NCT03079297|164865851|SUPERIORITY|||||||0.8781||||||P-value for General fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.8781
82649946|NCT05478603|165014943|OTHER||Ratio of adjusted geometric means|68.7|||||TWO_SIDED|90.0|51.31|91.98|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||91.98|51.31|
82649947|NCT05478603|165014944|OTHER||Ratio of adjusted geometric means|101.87|||||TWO_SIDED|90.0|59.74|173.71|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||173.71|59.74|
82649948|NCT05478603|165014944|OTHER||Ratio of adjusted geometric means|156.07|||||TWO_SIDED|90.0|91.53|266.14|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||266.14|91.53|
82457969|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|10.3||||0.231|TWO_SIDED|95.0|-6.63|27.25||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||27.25|-6.63|0.231
82457970|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|27.9||||0.002|TWO_SIDED|95.0|10.68|45.15||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||45.15|10.68|0.002
82457971|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|17.1||||0.057|TWO_SIDED|95.0|-0.51|34.72||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||34.72|-0.51|0.057
82457972|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|28.8||||0.002|TWO_SIDED|95.0|11.12|46.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||Week 16||46.56|11.12|0.002
82457973|NCT02365649|164619822|SUPERIORITY||LS Mean Difference|12.3||||0.165|TWO_SIDED|95.0|-5.12|29.72||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||29.72|-5.12|0.165
82457974|NCT02365649|164619823|SUPERIORITY||Adjusted risk difference from placebo|20.0||||0.167|TWO_SIDED|95.0|-8.4|48.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.4|-8.4|0.167
82541715|NCT03959241|164782963|SUPERIORITY|||||||0.906||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Disease Relapse between the treatment groups||||0.906
82649949|NCT05478603|165014944|OTHER||Ratio of adjusted geometric means|96.48|||||TWO_SIDED|90.0|56.58|164.51|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||164.51|56.58|
82457975|NCT02365649|164619823|SUPERIORITY||Adjusted risk difference from placebo|16.7||||0.221|TWO_SIDED|95.0|-10.0|43.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||43.3|-10.0|0.221
82541716|NCT03959241|164782963|SUPERIORITY||Hazard Ratio (HR)|0.985||||0.947|TWO_SIDED|95.0|0.641|1.515||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Disease Relapse hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.515|0.641|0.947
82457976|NCT02365649|164619823|SUPERIORITY||Adjusted risk difference from placebo|20.0||||0.18|TWO_SIDED|95.0|-9.2|49.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||49.2|-9.2|0.18
82457977|NCT02365649|164619823|SUPERIORITY||LS Mean Difference|20.0||||0.167|TWO_SIDED|95.0|-8.4|48.4||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||48.4|-8.4|0.167
82457978|NCT02365649|164619824|SUPERIORITY||Adjusted risk difference from placebo|5.5||||0.607|TWO_SIDED|95.0|-15.5|26.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||26.5|-15.5|0.607
82457979|NCT02365649|164619824|SUPERIORITY||Adjusted risk difference from placebo|12.2||||0.272|TWO_SIDED|95.0|-9.6|33.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||33.9|-9.6|0.272
82457980|NCT02365649|164619824|SUPERIORITY||Adjusted risk difference from placebo|15.9||||-0.157|TWO_SIDED|95.0|-6.1|37.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.9|-6.1|-0.157
82457981|NCT02365649|164619824|SUPERIORITY||LS Mean Difference|27.7||||0.017|TWO_SIDED|95.0|4.9|50.6||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.6|4.9|0.017
82457982|NCT02365649|164619824|SUPERIORITY||Adjusted risk difference from placebo|2.8||||0.798|TWO_SIDED|95.0|-18.4|23.9||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||23.9|-18.4|0.798
82457983|NCT02365649|164619825|SUPERIORITY||Adjusted risk difference from placebo|9.8||||0.119|TWO_SIDED|95.0|-2.5|22.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||22.1|-2.5|0.119
82457984|NCT02365649|164619825|SUPERIORITY||Adjusted risk difference from placebo|15.4||||0.034|TWO_SIDED|95.0|1.1|29.7||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||29.7|1.1|0.034
82457985|NCT02365649|164619825|SUPERIORITY||Adjusted risk difference from placebo|23.2||||0.004|TWO_SIDED|95.0|7.3|39.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||39.2|7.3|0.004
82457986|NCT02365649|164619825|SUPERIORITY||Adjusted risk difference from placebo|32.4|||<|0.001|TWO_SIDED|95.0|14.2|50.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||50.5|14.2|< 0.001
82457987|NCT02365649|164619825|SUPERIORITY||Adjusted risk difference from placebo|22.9|||<|0.006|TWO_SIDED|95.0|6.6|39.2||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||39.2|6.6|< 0.006
82457988|NCT02365649|164619826|SUPERIORITY||Adjusted risk difference from placebo|3.9||||0.647|TWO_SIDED|95.0|-12.7|20.5||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||20.5|-12.7|0.647
82457989|NCT02365649|164619826|SUPERIORITY||Adjusted risk difference from placebo|17.1||||0.093|TWO_SIDED|95.0|-2.9|37.1||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||37.1|-2.9|0.093
82457990|NCT02365649|164619826|SUPERIORITY||Adjusted risk difference from placebo|13.6||||0.165|TWO_SIDED|95.0|-5.6|32.8||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||32.8|-5.6|0.165
82457991|NCT02365649|164619826|SUPERIORITY||Adjusted risk difference from placebo|24.9||||0.023|TWO_SIDED|95.0|3.4|46.3||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||46.3|3.4|0.023
82457992|NCT02365649|164619826|SUPERIORITY||Adjusted risk difference from placebo|7.0||||0.448|TWO_SIDED|95.0|-11.0|25.0||Based on CMH test stratified by baseline SES-CD (SES-CD \<15 and SES-CD \>=15).|Cochran-Mantel-Haenszel|||||25.0|-11.0|0.448
82457993|NCT02365649|164619827|SUPERIORITY||LS Mean Difference|0.4||||0.412|TWO_SIDED|95.0|-0.62|1.5||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||1.5|-0.62|0.412
82457994|NCT02365649|164619827|SUPERIORITY||LS Mean Difference|-1.4||||0.01|TWO_SIDED|95.0|-2.47|-0.34||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.34|-2.47|0.01
82457995|NCT02365649|164619827|SUPERIORITY||LS Mean Difference|-1.0||||0.082|TWO_SIDED|95.0|-2.13|0.13||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.13|-2.13|0.082
82541717|NCT03959241|164782964|SUPERIORITY|||||||0.167||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Treatment-related Mortality between the treatment groups||||0.167
82457996|NCT02365649|164619827|SUPERIORITY||LS Mean Difference|-1.6||||0.004|TWO_SIDED|95.0|-2.73|-0.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.52|-2.73|0.004
82457997|NCT02365649|164619827|SUPERIORITY||LS Mean Difference|0.2||||0.766|TWO_SIDED|95.0|-0.93|1.26||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||1.26|-0.93|0.766
82457998|NCT02365649|164619828|SUPERIORITY||LS Mean Difference|-0.6||||0.314|TWO_SIDED|95.0|-1.75|0.56||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.56|-1.75|0.314
82457999|NCT02365649|164619828|SUPERIORITY||LS Mean Difference|-1.8||||0.002|TWO_SIDED|95.0|-3.01|-0.68||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.68|-3.01|0.002
82458000|NCT02365649|164619828|SUPERIORITY||LS Mean Difference|-0.7||||0.255|TWO_SIDED|95.0|-1.94|0.52||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.52|-1.94|0.255
82458001|NCT02365649|164619828|SUPERIORITY||LS Mean Difference|-1.4||||0.022|TWO_SIDED|95.0|-2.61|-0.2||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||-0.2|-2.61|0.022
82458002|NCT02365649|164619828|SUPERIORITY||LS Mean Difference|-0.7||||0.239|TWO_SIDED|95.0|-1.92|0.48||P value for test of difference using the repeated measure model including treatment, Baseline disease severity (SES-CD \< 15 and ≥ 15), week, Baseline, interaction of treatment and week.|mixed-effect model repeated measure|||||0.48|-1.92|0.239
82458003|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-36.4|21.4||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||21.4|-36.4|1.000
82458004|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-22.5|32.5||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||32.5|-22.5|1.000
82458005|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|-20.0||||0.272|TWO_SIDED|95.0|-37.5|-2.5||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||-2.5|-37.5|0.272
82458006|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-2.7|8.6||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||8.6|-2.7|1.000
82458007|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|13.0||||0.068|TWO_SIDED|95.0|-0.7|26.8||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||26.8|-0.7|0.068
82458008|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|-5.4||||1|TWO_SIDED|95.0|-23.1|12.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||12.3|-23.1|1.0000
82458009|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-15.7|18.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||18.3|-15.7|1.000
82458010|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-16.7|23.3||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||23.3|-16.7|1.000
82458011|NCT02365649|164619829|SUPERIORITY||Risk Difference (RD)|4.8||||1|TWO_SIDED|95.0|-4.3|13.9||P value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders||13.9|-4.3|1.000
82458012|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-35.5|35.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||35.5|-35.5|1.000
82458013|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|12.5||||0.483|TWO_SIDED|95.0|-17.9|42.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||42.9|-17.9|0.483
82458014|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|-15.0||||0.633|TWO_SIDED|95.0|-41.6|11.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||11.6|-41.6|0.633
82458015|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|6.9||||0.424|TWO_SIDED|95.0|-12.7|26.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||26.4|-12.7|0.424
82458016|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|5.7||||0.614|TWO_SIDED|95.0|-5.6|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||17.0|-5.6|0.614
82541718|NCT03959241|164782964|SUPERIORITY||Hazard Ratio (HR)|0.675||||0.133|TWO_SIDED|95.0|0.404|1.127||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Treatment-related Mortality hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.127|0.404|0.133
82458017|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|14.3||||0.149|TWO_SIDED|95.0|-2.4|30.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||30.9|-2.4|0.149
82458018|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|5.8||||0.684|TWO_SIDED|95.0|-19.1|30.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||30.7|-19.1|0.684
82458019|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|8.5||||0.404|TWO_SIDED|95.0|-11.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.5|-11.5|0.404
82458020|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|10.7||||0.47|TWO_SIDED|95.0|-12.8|34.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||34.1|-12.8|0.470
82458021|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458022|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|4.5||||1|TWO_SIDED|95.0|-11.3|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||20.3|-11.3|1.000
82458023|NCT02365649|164619830|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458024|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|-16.9||||0.624|TWO_SIDED|95.0|-48.4|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||14.6|-48.4|0.624
82458025|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|3.9||||1|TWO_SIDED|95.0|-28.3|36.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||36.1|-28.3|1.000
82458026|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|-19.4||||0.363|TWO_SIDED|95.0|-48.0|9.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||9.1|-48.0|0.363
82652373|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.043||||0.6697|TWO_SIDED|95.0|-0.155|0.241||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 1||0.241|-0.155|0.6697
82458027|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|6.1||||0.495|TWO_SIDED|95.0|-2.1|14.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||14.2|-2.1|0.495
82458028|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|15.0||||0.066|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||30.6|-0.6|0.066
82458029|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|-10.7||||0.645|TWO_SIDED|95.0|-30.3|8.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||8.9|-30.3|0.645
82458030|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|4.4||||0.686|TWO_SIDED|95.0|-16.8|25.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||25.5|-16.8|0.686
82458031|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|4.4||||0.721|TWO_SIDED|95.0|-19.5|28.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.2|-19.5|0.721
82458032|NCT02365649|164619831|SUPERIORITY||Risk Difference (RD)|4.8||||1|TWO_SIDED|95.0|-4.3|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||13.9|-4.3|1.000
82458033|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||32.5|-47.5|1.000
82458034|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|5.0||||0.765|TWO_SIDED|95.0|-27.8|37.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||37.8|-27.8|0.765
82578185|NCT03079297|164865851|SUPERIORITY|||||||0.226||||||P-value for General fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.226
82541719|NCT03959241|164782968|SUPERIORITY|||||||0.018||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grade 2 and 3 infections between the treatment groups||||0.018
82541720|NCT03959241|164782969|SUPERIORITY|||||||0.825||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of CMV between the treatment groups||||0. 825
82541721|NCT03959241|164782970|SUPERIORITY|||||||0.351||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Disease-Free Survival between the treatment groups||||0.351
82541722|NCT03959241|164782970|SUPERIORITY||Hazard Ratio (HR)|0.847||||0.32|TWO_SIDED|95.0|0.61|1.176||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of Disease-Free Survival hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.176|0.610|0.320
82541723|NCT03959241|164782971|SUPERIORITY|||||||0.335||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||This is the unadjusted analysis. The null hypothesis is that there is no difference of Overall Survival between the treatment groups||||0.335
82458035|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.4|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||32.4|-42.4|1.000
82458036|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||32.5|-47.5|1.000
82541724|NCT03959241|164782971|SUPERIORITY||Hazard Ratio (HR)|0.797||||0.252|TWO_SIDED|95.0|0.541|1.175||Statistical significance was determined using a pre-specified threshold of 0.05|Regression, Cox|||This is the result of the Cox proportional hazards analysis. The null hypothesis is that there is no difference of the Overall Survival hazard ratio between treatment groups after adjustment for age group, donor type and HLA Matching Score, disease risk index, Planned RIC Conditioning Regimen, and Planned post-transplant maintenance therapies||1.175|0.541|0.252
82541725|NCT03557658|164782978|EQUIVALENCE|The acceptance range for bioequivalence is 80.0 - 125.00%.|Point Estimate|106.22|||||TWO_SIDED|90.0|78.34|144.02|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for total bexagliflozin by hepatic function group.||144.02|78.34|
82541726|NCT03557658|164782978|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|110.84|||||TWO_SIDED|90.0|75.34|163.06|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for unbound bexagliflozin by hepatic function group||163.06|75.34|
82541727|NCT03557658|164782981|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|128.34|||||TWO_SIDED|90.0|99.98|164.73|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for total bexagliflozin by hepatic function group||164.73|99.98|
82541728|NCT03557658|164782981|EQUIVALENCE|The acceptance range for bioequivalence is 80.00 - 125.00%.|Point Estimate|132.16|||||TWO_SIDED|90.0|96.46|181.08|||||Point Estimate is the estimated ratio of exponentiated mean difference of log-transformed PK parameter from ANOVA. Confidence interval is obtained from ANOVA with hepatic function group as a fixed effect, and the subject as a random effect.|Geometric LS Mean was used as PK parameters for unbound bexagliflozin by hepatic function group||181.08|96.46|
82541729|NCT05565391|164782999|OTHER||Risk Ratio (RR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.54|2.47|||Log-binomial regression model||Unweighted RRs were estimated using a log-binomial regression model with Wald confidence intervals.|||2.47|1.54|<.0001
82541730|NCT05565391|164782999|OTHER||Risk Ratio (RR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.52|2.67|||Log-binomial regression model||Unweighted RRs were estimated using a log-binomial regression model with Wald confidence intervals.|||2.67|1.52|<.0001
82541731|NCT05565391|164783000|OTHER||Risk Ratio (RR)|2.22|||<|0.0001|TWO_SIDED|95.0|1.69|2.9|||Log-binomial regression model||Risk ratio was estimated using a log-binomial regression model and confidence interval was estimated using robust error variance.|||2.90|1.69|<.0001
82541732|NCT05565391|164783001|OTHER||Risk Ratio (RR)|1.79||||0.0447|TWO_SIDED|95.0|1.01|3.15|||Log-binomial regression model||Risk ratio was estimated using a log-binomial regression model and confidence interval was estimated using robust error variance.|||3.15|1.01|0.0447
82541733|NCT05565391|164783002|OTHER|||||||0.4241|||||||Quantile regression|||||||0.4241
82458037|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|11.3||||0.502|TWO_SIDED|95.0|-21.4|43.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||43.9|-21.4|0.502
82541734|NCT05565391|164783002|OTHER|||||||0.0281|||||||Quantile regression|||||||0.0281
82541735|NCT05565391|164783003|OTHER|||||||0.7682|||||||Quantile regression|||||||0.7682
82541736|NCT05565391|164783004|OTHER|||||||0.0326|||||||Quantile regression|||||||0.0326
82541737|NCT05565391|164783005|OTHER||Hazard Ratio (HR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.09|0.31|||Cox proportional hazard model||Hazard ratio was estimated using unadjusted Cox proportional hazard model.|||0.31|0.09|<.0001
82458038|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-32.9|42.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||42.9|-32.9|1.000
82458039|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-2.5||||1|TWO_SIDED|95.0|-42.3|37.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||37.3|-42.3|1.000
82458040|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|22.5||||0.18|TWO_SIDED|95.0|-9.5|54.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||54.5|-9.5|0.180
82458041|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-10.0||||0.702|TWO_SIDED|95.0|-45.6|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||25.6|-45.6|0.702
82458042|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-27.5||||0.214|TWO_SIDED|95.0|-58.9|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||3.9|-58.9|0.214
82458043|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|28.8||||0.086|TWO_SIDED|95.0|-2.5|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.0|-2.5|0.086
82458044|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-37.2|37.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||37.2|-37.2|1.000
82458045|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|7.5||||1|TWO_SIDED|95.0|-31.6|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||46.6|-31.6|1.000
82649950|NCT05478603|165014945|OTHER||Ratio of adjusted geometric means|102.21|||||TWO_SIDED|90.0|59.91|174.39|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||174.39|59.91|
82458046|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|32.5||||0.051|TWO_SIDED|95.0|1.4|63.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||63.6|1.4|0.051
82458047|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-34.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||34.8|-34.8|1.000
82541738|NCT05565391|164783005|OTHER||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.11|0.43|||Cox proportional hazard model||Hazard ratio was estimated using unadjusted Cox proportional hazard model.|||0.43|0.11|<.0001
82541739|NCT05565391|164783006|OTHER||Hazard Ratio (HR)|0.11|||<|0.0001|TWO_SIDED|95.0|0.06|0.22|||Cox proportional hazard model||Hazard ratio was estimated using weighted Cox proportional hazard model and confidence interval was estimated using robust error variance.|||0.22|0.06|<.0001
82541740|NCT05565391|164783007|OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.1|0.45|||Weighted Cox proportional hazard model||Hazard ratio was estimated using weighted Cox proportional hazard model and confidence interval was estimated using robust error variance.|||0.45|0.10|<.0001
82652374|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.021||||0.8598|TWO_SIDED|95.0|-0.21|0.251||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.251|-0.210|0.8598
82458048|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||60.0|-5.0|0.075
82458049|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-3.7||||0.705|TWO_SIDED|95.0|-18.6|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||11.2|-18.6|0.705
82541741|NCT02716324|164783009|SUPERIORITY||Beta Coefficient|0.001||||0.871|TWO_SIDED|95.0|-0.01|0.012|||GLS random-effects model|||Random effects models regressed VPRS scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. We examined intervention X time interaction term for statistical significance.||0.012|-0.010|.871
82541742|NCT02716324|164783010|SUPERIORITY||Beta coefficient|0.001||||0.499|TWO_SIDED|95.0|-0.002|0.004|||Random effects model|||Random effects models regressed GAS scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. We examined intervention X time interaction term for statistical significance.||0.004|-0.002|0.499
82541743|NCT02716324|164783011|SUPERIORITY|||||||0.718|||||||Chi-squared|||Differences in proportions between the two groups in use of any services were assessed using the Chi-square Test.||||0.718
82541744|NCT02716324|164783011|SUPERIORITY|||||||0.903|||||||Chi-squared|||Differences in proportions between the two groups in use of ambulatory mental health services were assessed using the Chi-square Test.||||0.903
82541745|NCT02716324|164783011|SUPERIORITY|||||||0.915|||||||Chi-squared|||Differences in proportions between the two groups in use of any inpatient mental health services were assessed using the Chi-square Test.||||0.915
82541746|NCT02716324|164783012|SUPERIORITY|||||||0.31|||||||Chi-squared|||Differences in proportions between the two groups in use of any mental health services during the study period were assessed using the Chi-square Test.||||0.310
82578186|NCT03079297|164865851|SUPERIORITY|||||||0.2158||||||P-value for Mental fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2158
82649951|NCT05478603|165014945|OTHER||Ratio of adjusted geometric means|152.91|||||TWO_SIDED|90.0|89.62|260.9|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||260.90|89.62|
82649952|NCT05478603|165014945|OTHER||Ratio of adjusted geometric means|97.08|||||TWO_SIDED|90.0|56.9|165.65|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||165.65|56.90|
82541747|NCT02716324|164783012|SUPERIORITY|||||||0.251|||||||Chi-squared|||Differences in proportions between the two groups in use of ambulatory mental health services during the study period were assessed using the Chi-square Test.||||0.251
82541748|NCT02716324|164783012|SUPERIORITY|||||||1|||||||Chi-squared|||Differences in proportions between the two groups in use of inpatient mental health services during the study period were assessed using the Chi-square Test.||||1.00
82541749|NCT02716324|164783013|SUPERIORITY||Beta coefficient|0.0||||0.662|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Parent-reported PRO School Performance Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.662
82541750|NCT02716324|164783013|SUPERIORITY||Beta coefficient|0.001||||0.075|TWO_SIDED|95.0|0.0|0.002|||Random effects model|||Random effects models regressed Child PRO School Performance Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.002|0.000|0.075
82541751|NCT02716324|164783014|SUPERIORITY||Beta coefficient|0.0||||0.707|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Parent-reported PRO Student Engagement Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.707
82541752|NCT02716324|164783014|SUPERIORITY||Beta coefficient|0.0||||0.735|TWO_SIDED|95.0|-0.001|0.001|||Random effects model|||Random effects models regressed Child PRO Student Engagement Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.735
82541753|NCT02716324|164783015|SUPERIORITY||Beta coefficient|0.0||||0.735|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Teacher Connectedness Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child PRO Teacher Connectedness Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.735
82541754|NCT02716324|164783016|SUPERIORITY||Beta coefficient|0.0||||0.873|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Parent Patient Reported Outcomes Peer Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Parent-reported PRO Peer Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.873
82541755|NCT02716324|164783016|SUPERIORITY||Beta coefficient|0.0||||0.888|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Peer Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child-reported PRO Peer Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.888
82578187|NCT03079297|164865851|SUPERIORITY|||||||0.0081||||||P-value for Mental fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0081
82578188|NCT03079297|164865851|SUPERIORITY|||||||0.6768||||||P-value for Mental fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.6768
82458050|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-20.0|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||12.4|-20.0|1.000
82578189|NCT03079297|164865851|SUPERIORITY|||||||0.0076||||||P-value for Physical fatigue 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0076
82458051|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||60.0|-5.0|0.075
82458052|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-3.7||||0.705|TWO_SIDED|95.0|-18.6|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||11.2|-18.6|0.705
82458053|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|0.5||||1|TWO_SIDED|95.0|-17.4|18.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||18.5|-17.4|1.000
82458054|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.8|-20.5|1.000
82458055|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-6.4||||0.348|TWO_SIDED|95.0|-18.0|5.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||5.2|-18.0|0.348
82458056|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||20.7|-13.4|0.686
82458057|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|7.5||||0.616|TWO_SIDED|95.0|-19.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||34.8|-19.8|0.616
82458058|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-6.6||||0.42|TWO_SIDED|95.0|-20.5|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||7.3|-20.5|0.420
82458059|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-20.0|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||12.4|-20.0|1.000
82458060|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||21.8|-20.5|1.000
82458061|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-0.6||||1|TWO_SIDED|95.0|-14.4|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||13.3|-14.4|1.000
82458062|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||20.7|-13.4|0.686
82458063|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|9.4||||0.555|TWO_SIDED|95.0|-21.9|40.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||40.6|-21.9|0.555
82458064|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-2.7||||0.83|TWO_SIDED|95.0|-27.2|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||21.8|-27.2|0.830
82578190|NCT03079297|164865851|SUPERIORITY|||||||0.0858||||||P-value for Physical fatigue 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0858
82541756|NCT02716324|164783017|SUPERIORITY||Beta coefficient|0.0||||0.679|TWO_SIDED|95.0|-0.001|0.001||Random effects models regressed Child Patient Reported Outcomes Family Relationships Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. The threshold for statistical significance was p\<0.05.|Random effects model|||Random effects models regressed Child-reported PRO Family Relationship Scores on intervention status, time (days), intervention by time, season, and clustered by doctor's office. we examined intervention X time interaction term for statistical significance.||0.001|-0.001|0.679
82541757|NCT02716324|164783018|SUPERIORITY||Beta coefficient|0.074||||0.495|TWO_SIDED|95.0|-0.164|0.311|||Random effects model|||Random effects models regressed Access Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.311|-0.164|0.495
82541758|NCT02716324|164783018|SUPERIORITY||Beta coefficient|-0.013||||0.885|TWO_SIDED|95.0|-0.217|0.191|||Random effects model|||Random effects models regressed Patient Family Centered Care Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.191|-0.217|0.885
82541759|NCT02716324|164783018|SUPERIORITY||Beta coefficient|0.073||||0.527|TWO_SIDED|95.0|-0.182|0.328|||Random effects model|||Random effects models regressed Communication Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.328|-0.182|0.527
82541760|NCT02716324|164783018|SUPERIORITY||Beta coefficient|0.136||||0.285|TWO_SIDED|95.0|-0.138|0.41|||Random effects model|||Random effects models regressed Understanding Engagement Scores Scores on intervention status adjusted for season and clustered by doctor's office.||0.410|-0.138|0.285
82541761|NCT00922207|164783029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.6853|TWO_SIDED|95.0|0.46|1.75|||Cochran-Mantel-Haenszel|||||1.75|0.46|0.6853
82541762|NCT00922207|164783029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1977|TWO_SIDED|95.0|0.35|1.26|||Cochran-Mantel-Haenszel|||||1.26|0.35|0.1977
82541763|NCT00922207|164783029|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.2916|TWO_SIDED|95.0|0.39|1.38|||Cochran-Mantel-Haenszel|||||1.38|0.39|0.2916
82458065|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-9.0||||0.518|TWO_SIDED|95.0|-36.0|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||17.9|-36.0|0.518
82541764|NCT00922207|164783030|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.34||||0.0353|TWO_SIDED|95.0|0.02|0.66|||ANCOVA|||Baseline||0.66|0.02|0.0353
82541765|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.1114|TWO_SIDED|95.0|-0.05|0.52|||ANCOVA|||Baseline||0.52|-0.05|0.1114
82541766|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.515|TWO_SIDED|95.0|-0.42|0.21|||ANCOVA|||Baseline||0.21|-0.42|0.5150
82541767|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|||<|0.001|TWO_SIDED|95.0|0.34|0.89|||ANCOVA|||Change at Week 4||0.89|0.34|<0.001
82541768|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.19|-1.65|||ANCOVA|||Change at Week 4||-1.65|-2.19|<0.001
82541769|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.54|||<|0.001|TWO_SIDED|95.0|-2.81|-2.27|||ANCOVA|||Change at Week 4||-2.27|-2.81|<0.001
82458066|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|12.5||||0.428|TWO_SIDED|95.0|-18.6|43.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||43.6|-18.6|0.428
82541770|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|||<|0.001|TWO_SIDED|95.0|1.34|2.06|||ANCOVA|||Change at Week 8||2.06|1.34|<0.001
82541771|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55||||0.0071|TWO_SIDED|95.0|-0.95|-0.15|||ANCOVA|||Change at Week 8||-0.15|-0.95|0.0071
82541772|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.26|||<|0.001|TWO_SIDED|95.0|-2.61|-1.9|||ANCOVA|||Change at Week 8||-1.90|-2.61|<0.001
82541773|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|1.62|||<|0.001|TWO_SIDED|95.0|1.16|2.08|||ANCOVA|||Change at Week 16||2.08|1.16|<0.001
82541774|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.9557|TWO_SIDED|95.0|-0.56|0.53|||ANCOVA|||Change at Week 16||0.53|-0.56|0.9557
82541775|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.15|-1.14|||ANCOVA|||Change at Week 16||-1.14|-2.15|<0.001
82541776|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.0094|TWO_SIDED|95.0|0.18|1.27|||ANCOVA|||Change at Week 28||1.27|0.18|0.0094
82541777|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.0943|TWO_SIDED|95.0|-0.09|1.11|||ANCOVA|||Change at Week 28||1.11|-0.09|0.0943
82541778|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23||||0.4354|TWO_SIDED|95.0|-0.82|0.35|||ANCOVA|||Change at Week 28||0.35|-0.82|0.4354
82541779|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.2509|TWO_SIDED|95.0|-0.26|0.98|||ANCOVA|||Change at Week 40||0.98|-0.26|0.2509
82541780|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.67||||0.0429|TWO_SIDED|95.0|0.02|1.31|||ANCOVA|||Change at Week 40||1.31|0.02|0.0429
82541781|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.3585|TWO_SIDED|95.0|-0.34|0.93|||ANCOVA|||Change at Week 40||0.93|-0.34|0.3585
82541782|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.9014|TWO_SIDED|95.0|-0.65|0.74|||ANCOVA|||Change at Week 52||0.74|-0.65|0.9014
82541783|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.1122|TWO_SIDED|95.0|-0.13|1.28|||ANCOVA|||Change at Week 52||1.28|-0.13|0.1122
82541784|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51||||0.1602|TWO_SIDED|95.0|-0.2|1.23|||ANCOVA|||Change at Week 52||1.23|-0.20|0.1602
82578191|NCT03079297|164865851|SUPERIORITY|||||||0.2065||||||P-value for Physical fatigue 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2065
82578192|NCT03079297|164865851|SUPERIORITY|||||||0.9712||||||P-value for Reduced motivation 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9712
82578193|NCT03079297|164865851|SUPERIORITY|||||||0.7572||||||P-value for Reduced motivation 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7572
82541785|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49||||0.1599|TWO_SIDED|95.0|-1.17|0.19|||ANCOVA|||Change at Week 64||0.19|-1.17|0.1599
82578194|NCT03079297|164865851|SUPERIORITY|||||||0.0588||||||P-value for Reduced motivation 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0588
82649953|NCT05478603|165014946|OTHER||Ratio of adjusted geometric means|93.29|||||TWO_SIDED|90.0|64.61|134.69|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||134.69|64.61|
82458067|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|3.9||||0.757|TWO_SIDED|95.0|-20.7|28.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||28.4|-20.7|0.757
82458068|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|4.6||||0.745|TWO_SIDED|95.0|-23.2|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||32.4|-23.2|0.745
82458069|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.8||||1|TWO_SIDED|95.0|-34.6|23.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.0|-34.6|1.000
82458070|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|3.6||||0.773|TWO_SIDED|95.0|-20.6|27.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||27.7|-20.6|0.773
82458071|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-2.8||||0.838|TWO_SIDED|95.0|-29.4|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-29.4|0.838
82458072|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-12.9||||0.497|TWO_SIDED|95.0|-40.0|14.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||14.1|-40.0|0.497
82458073|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|10.5||||0.404|TWO_SIDED|95.0|-14.0|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||34.9|-14.0|0.404
82458074|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-2.8||||0.838|TWO_SIDED|95.0|-29.4|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.8|-29.4|0.838
82458075|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|3.6||||1|TWO_SIDED|95.0|-24.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||31.6|-24.4|1.000
82458076|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|16.4||||0.174|TWO_SIDED|95.0|-7.0|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||39.8|-7.0|0.174
82458077|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|6.6||||0.611|TWO_SIDED|95.0|-19.1|32.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||32.3|-19.1|0.611
82458078|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|1.000
82541786|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.23||||0.5045|TWO_SIDED|95.0|-0.45|0.92|||ANCOVA|||Change at Week 64||0.92|-0.45|0.5045
82541787|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72||||0.0412|TWO_SIDED|95.0|0.03|1.41|||ANCOVA|||Change at Week 64||1.41|0.03|0.0412
82541788|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.1347|TWO_SIDED|95.0|-1.24|0.17|||ANCOVA|||Change at Week 76||0.17|-1.24|0.1347
82541789|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.4027|TWO_SIDED|95.0|-0.41|1.01|||ANCOVA|||Change at Week 76||1.01|-0.41|0.4027
82578195|NCT03079297|164865851|SUPERIORITY|||||||0.1857||||||P-value for Reduced activity 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.1857
82541790|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.0311|TWO_SIDED|95.0|0.07|1.55|||ANCOVA|||Change at Week 76||1.55|0.07|0.0311
82541791|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36||||0.3183|TWO_SIDED|95.0|-1.07|0.35|||ANCOVA|||Change at Week 88||0.35|-1.07|0.3183
82541792|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52||||0.1371|TWO_SIDED|95.0|-0.17|1.22|||ANCOVA|||Change at Week 88||1.22|-0.17|0.1371
82649954|NCT05478603|165014946|OTHER||Ratio of adjusted geometric means|106.68|||||TWO_SIDED|90.0|73.89|154.03|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||154.03|73.89|
82541793|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.0113|TWO_SIDED|95.0|0.21|1.6|||ANCOVA|||Change at Week 88||1.60|0.21|0.0113
82541794|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.5608|TWO_SIDED|95.0|-0.92|0.5|||ANCOVA|||Change at Week 100||0.50|-0.92|0.5608
82578196|NCT03079297|164865851|SUPERIORITY|||||||0.9225||||||P-value for Reduced activity 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.9225
82652375|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.113||||0.3354|TWO_SIDED|95.0|-0.118|0.344||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.344|-0.118|0.3354
82458079|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||0.488|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|0.488
82458080|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||4.6|-14.6|1.000
82458081|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
82458082|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||0.488|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|0.488
82458083|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
82458084|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||4.6|-14.6|1.000
82458085|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||13.0|-13.4|1.000
82458086|NCT02365649|164619832|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||4.6|-14.6|1.000
82541795|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.17||||0.6323|TWO_SIDED|95.0|-0.53|0.88|||ANCOVA|||Change at Week 100||0.88|-0.53|0.6323
82541796|NCT00922207|164783030|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.2752|TWO_SIDED|95.0|-0.32|1.11|||ANCOVA|||Change at Week 100||1.11|-0.32|0.2752
82541797|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.6107|TWO_SIDED|95.0|0.26|9.71|||Cochran-Mantel-Haenszel|||Baseline||9.71|0.26|0.6107
82541798|NCT00922207|164783031|SUPERIORITY_OR_OTHER|||||||0.0788|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.0788
82541799|NCT00922207|164783031|SUPERIORITY_OR_OTHER|||||||0.1761|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.1761
82541800|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.7044|TWO_SIDED|95.0|0.34|5.09|||Cochran-Mantel-Haenszel|||Week 4||5.09|0.34|0.7044
82541801|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.35||||0.0927|TWO_SIDED|95.0|0.61|46.76|||Cochran-Mantel-Haenszel|||Week 4||46.76|0.61|0.0927
82578197|NCT03079297|164865851|SUPERIORITY|||||||0.0414||||||P-value for Reduced activity 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0414
82578198|NCT03079297|164865852|SUPERIORITY|||||||0.4603||||||P-value for Psychosocial function 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.4603
82541802|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.04||||0.1858|TWO_SIDED|95.0|0.44|36.89|||Cochran-Mantel-Haenszel|||Week 4||36.89|0.44|0.1858
82541803|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.9385|TWO_SIDED|95.0|0.33|3.38|||Cochran-Mantel-Haenszel|||Week 8||3.38|0.33|0.9385
82541804|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.5068|TWO_SIDED|95.0|0.43|5.77|||Cochran-Mantel-Haenszel|||Week 8||5.77|0.43|0.5068
82541805|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.5544|TWO_SIDED|95.0|0.41|5.5|||Cochran-Mantel-Haenszel|||Week 8||5.50|0.41|0.5544
82458087|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||45.5|-72.2|1.000
82541806|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.651|TWO_SIDED|95.0|0.26|2.31|||Cochran-Mantel-Haenszel|||Week 16||2.31|0.26|0.6510
82578199|NCT03079297|164865852|SUPERIORITY|||||||0.2521||||||P-value for Psychosocial function 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.2521
82541807|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.3192|TWO_SIDED|95.0|0.2|1.69|||Cochran-Mantel-Haenszel|||Week 16||1.69|0.20|0.3192
82541808|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.5818|TWO_SIDED|95.0|0.29|2.03|||Cochran-Mantel-Haenszel|||Week 16||2.03|0.29|0.5818
82541809|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8796|TWO_SIDED|95.0|0.41|2.66|||Cochran-Mantel-Haenszel|||Week 28||2.66|0.41|0.8796
82541810|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.305|TWO_SIDED|95.0|0.27|1.52|||Cochran-Mantel-Haenszel|||Week 28||1.52|0.27|0.3050
82541811|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.2414|TWO_SIDED|95.0|0.26|1.44|||Cochran-Mantel-Haenszel|||Week 28||1.44|0.26|0.2414
82541812|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8502|TWO_SIDED|95.0|0.5|2.22|||Cochran-Mantel-Haenszel|||Week 40||2.22|0.50|0.8502
82541813|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.5|TWO_SIDED|95.0|0.38|1.61|||Cochran-Mantel-Haenszel|||Week 40||1.61|0.38|0.5000
82541814|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.3882|TWO_SIDED|95.0|0.36|1.53|||Cochran-Mantel-Haenszel|||Week 40||1.53|0.36|0.3882
82458088|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||33.1|-50.2|1.000
82541815|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9584|TWO_SIDED|95.0|0.5|1.99|||Cochran-Mantel-Haenszel|||Week 52||1.99|0.50|0.9584
82458089|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|20.0||||1|TWO_SIDED|95.0|-4.8|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||44.8|-4.8|1.000
82458090|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-23.3||||0.423|TWO_SIDED|95.0|-79.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||33.2|-79.8|0.423
82541816|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2576|TWO_SIDED|95.0|0.35|1.34|||Cochran-Mantel-Haenszel|||Week 52||1.34|0.35|0.2576
82541817|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2362|TWO_SIDED|95.0|0.36|1.34|||Cochran-Mantel-Haenszel|||Week 52||1.34|0.36|0.2362
82541818|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9861|TWO_SIDED|95.0|0.49|1.9|||Cochran-Mantel-Haenszel|||Week 64||1.90|0.49|0.9861
82541819|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.2919|TWO_SIDED|95.0|0.37|1.35|||Cochran-Mantel-Haenszel|||Week 64||1.35|0.37|0.2919
82541820|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.2674|TWO_SIDED|95.0|0.38|1.38|||Cochran-Mantel-Haenszel|||Week 64||1.38|0.38|0.2674
82541821|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6148|TWO_SIDED|95.0|0.43|1.64|||Cochran-Mantel-Haenszel|||Week 76||1.64|0.43|0.6148
82541822|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.57||||0.0904|TWO_SIDED|95.0|0.3|1.08|||Cochran-Mantel-Haenszel|||Week 76||1.08|0.30|0.0904
82541823|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.2073|TWO_SIDED|95.0|0.36|1.27|||Cochran-Mantel-Haenszel|||Week 76||1.27|0.36|0.2073
82541824|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.998|TWO_SIDED|95.0|0.52|1.98|||Cochran-Mantel-Haenszel|||Week 88||1.98|0.52|0.9980
82541825|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.3489|TWO_SIDED|95.0|0.39|1.4|||Cochran-Mantel-Haenszel|||Week 88||1.40|0.39|0.3489
82541826|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.2847|TWO_SIDED|95.0|0.38|1.38|||Cochran-Mantel-Haenszel|||Week 88||1.38|0.38|0.2847
82541827|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.5596|TWO_SIDED|95.0|0.44|1.62|||Cochran-Mantel-Haenszel|||Week 100||1.62|0.44|0.5596
82541828|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.2112|TWO_SIDED|95.0|0.36|1.27|||Cochran-Mantel-Haenszel|||Week 100||1.27|0.36|0.2112
82541829|NCT00922207|164783031|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4066|TWO_SIDED|95.0|0.43|1.48|||Cochran-Mantel-Haenszel|||Week 100||1.48|0.43|0.4066
82541830|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.6921|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.6921
82541831|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.11||||0.3939|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.3939
82541832|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.6818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Baseline||||0.6818
82649955|NCT05478603|165014946|OTHER||Ratio of adjusted geometric means|246.28|||||TWO_SIDED|90.0|170.57|355.58|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||355.58|170.57|
82649956|NCT05478603|165014947|OTHER||Ratio of adjusted geometric means|88.5|||||TWO_SIDED|90.0|64.13|122.12|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||122.12|64.13|
82458091|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-32.9||||0.25|TWO_SIDED|95.0|-74.0|8.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||8.2|-74.0|0.250
82458092|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-8.6|28.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||28.6|-8.6|1.000
82458093|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|20.0||||1|TWO_SIDED|95.0|-4.8|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.8|-4.8|1.000
82458094|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||33.1|-50.2|1.000
82458095|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||45.5|-72.2|1.000
82458096|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-46.7||||0.203|TWO_SIDED|95.0|-100.0|12.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||12.2|-100.0|0.203
82458097|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-8.6||||1|TWO_SIDED|95.0|-50.2|33.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||33.1|-50.2|1.000
82458098|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-72.2|45.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||45.5|-72.2|1.000
82458099|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-54.7|68.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||68.0|-54.7|1.000
82458100|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|11.4||||1|TWO_SIDED|95.0|-33.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||56.6|-33.8|1.000
82458101|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-54.7|68.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||68.0|-54.7|1.000
82541833|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.7582|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.7582
82541834|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.5381|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.5381
82541835|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.7747|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6||||0.7747
82541836|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.8034|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.8034
82541837|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6306|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.6306
82541838|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.4574|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 12||||0.4574
82458102|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
82458103|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-100.0|1.000
82458104|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
82458105|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||86.7|-20.0|1.000
82458106|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||70.8|-100.0|1.000
82458107|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||86.7|-20.0|1.000
82458108|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-100.0|42.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||42.1|-100.0|1.000
82458109|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||70.8|-100.0|1.000
82458110|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||86.7|-20.0|1.000
82458111|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-75.4|75.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||75.4|-75.4|1.000
82458112|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||70.8|-100.0|1.000
82458113|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||86.7|-20.0|1.000
82458114|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-75.4|75.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||75.4|-75.4|1.000
82458115|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-86.7|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||20.0|-86.7|1.000
82458116|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|66.7||||1|TWO_SIDED|95.0|13.3|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|13.3|1.000
82458117|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|6.4||||1|TWO_SIDED|90.0|-31.2|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||44.0|-31.2|1.000
82458118|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||28.1|-48.6|0.655
82458119|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|23.1||||0.541|TWO_SIDED|95.0|0.2|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||46.0|0.2|0.541
82652376|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.055||||0.6429|TWO_SIDED|95.0|-0.179|0.289||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 2||0.289|-0.179|0.6429
82458120|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-1.3||||1|TWO_SIDED|95.0|-37.0|34.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||34.4|-37.0|1.000
82458121|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-29.1||||0.178|TWO_SIDED|95.0|-67.0|8.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||8.9|-67.0|0.178
82458122|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|15.4||||1|TWO_SIDED|95.0|-4.2|35.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||35.0|-4.2|1.000
82458123|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-10.3||||1|TWO_SIDED|95.0|-54.4|33.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||33.9|-54.4|1.000
82458124|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||28.1|-48.6|0.655
82458125|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-1.9||||1|TWO_SIDED|95.0|-50.1|46.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||46.3|-50.1|1.000
82458126|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-26.9||||0.32|TWO_SIDED|95.0|-73.0|19.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||19.2|-73.0|0.320
82458127|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-10.3||||0.655|TWO_SIDED|95.0|-48.6|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||28.1|-48.6|0.655
82458128|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-1.9||||1|TWO_SIDED|95.0|-50.1|46.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.3|-50.1|1.000
82458129|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-52.2|44.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||44.5|-52.2|1.000
82458130|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|1.7||||1|TWO_SIDED|95.0|-40.6|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||44.0|-40.6|1.000
82458131|NCT02365649|164619833|SUPERIORITY||Risk Difference (RD)|21.2||||0.603|TWO_SIDED|95.0|-29.2|71.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||71.5|-29.2|0.603
82458132|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|15.4||||0.673|TWO_SIDED|95.0|-25.6|56.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||56.5|-25.6|0.673
82458133|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|19.6||||0.265|TWO_SIDED|95.0|-14.0|53.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||53.3|-14.0|0.265
82458134|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|12.9||||0.695|TWO_SIDED|95.0|-25.6|51.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||51.5|-25.6|0.695
82458135|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-20.6||||0.394|TWO_SIDED|95.0|-61.4|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||20.3|-61.4|0.394
82458136|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-3.9||||1|TWO_SIDED|95.0|-36.1|28.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||28.3|-36.1|1.000
82458137|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-10.6||||0.683|TWO_SIDED|95.0|-47.9|26.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||26.7|-47.9|0.683
82458138|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|28.7||||0.205|TWO_SIDED|95.0|-4.1|61.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||61.4|-4.1|0.205
82458139|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|14.5||||0.388|TWO_SIDED|95.0|-17.9|46.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||46.9|-17.9|0.388
82458140|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-28.8||||0.236|TWO_SIDED|95.0|-65.6|8.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||8.0|-65.6|0.236
82458141|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-9.6||||1|TWO_SIDED|95.0|-50.6|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.5|-50.6|1.000
82458142|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|26.3||||0.131|TWO_SIDED|95.0|-6.3|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||58.9|-6.3|0.131
82458143|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-7.1||||1|TWO_SIDED|95.0|-45.6|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.5|-45.6|1.000
82458144|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|21.3||||0.411|TWO_SIDED|95.0|-19.6|62.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||62.2|-19.6|0.411
82458145|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|32.2||||0.067|TWO_SIDED|95.0|-0.2|64.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||64.5|-0.2|0.067
82458146|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-1.2||||1|TWO_SIDED|95.0|-39.5|37.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||37.2|-39.5|1.000
82458147|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|26.6||||0.178|TWO_SIDED|95.0|-8.8|62.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||62.0|-8.8|0.178
82541839|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5824|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.5824
82541840|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.9321|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.9321
82458148|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.7||||0.72|TWO_SIDED|95.0|-23.8|12.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||12.3|-23.8|0.720
82458149|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-7.9||||0.683|TWO_SIDED|95.0|-27.2|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||11.5|-27.2|0.683
82458150|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|23.0||||0.215|TWO_SIDED|95.0|-12.8|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||58.9|-12.8|0.215
82458151|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-12.3||||0.279|TWO_SIDED|95.0|-30.4|5.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||5.8|-30.4|0.279
82458152|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-6.4||||0.716|TWO_SIDED|95.0|-28.2|15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||15.4|-28.2|0.716
82458153|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-3.2||||1|TWO_SIDED|95.0|-27.5|21.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.1|-27.5|1.000
82458154|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-8.2||||0.4|TWO_SIDED|95.0|-23.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||7.1|-23.5|0.400
82458155|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|0.7||||1|TWO_SIDED|95.0|-19.6|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||21.0|-19.6|1.000
82458156|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|7.9||||0.62|TWO_SIDED|95.0|-22.2|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||38.0|-22.2|0.620
82458157|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-8.2||||0.4|TWO_SIDED|95.0|-23.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||7.1|-23.5|0.400
82458158|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-4.3||||1|TWO_SIDED|95.0|-22.7|14.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.2|-22.7|1.000
82458159|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|4.0||||1|TWO_SIDED|95.0|-18.7|26.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||26.6|-18.7|1.000
82458160|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|5.0||||0.678|TWO_SIDED|95.0|-9.7|19.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||19.6|-9.7|0.678
82458161|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|7.9||||0.636|TWO_SIDED|95.0|-10.5|26.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||26.2|-10.5|0.636
82458162|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|21.4||||0.19|TWO_SIDED|95.0|-9.7|52.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||52.5|-9.7|0.190
82541841|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.5263|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 16||||0.5263
82541842|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.2025|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Week 22||||0.2025
82458163|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|9.0||||0.504|TWO_SIDED|95.0|-17.3|35.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||35.3|-17.3|0.504
82458164|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|1.6||||0.916|TWO_SIDED|95.0|-27.8|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||31.0|-27.8|0.916
82458165|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-31.7|31.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||31.7|-31.7|1.000
82458166|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-9.0||||0.504|TWO_SIDED|95.0|-35.3|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||17.3|-35.3|0.504
82458167|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-7.1||||0.635|TWO_SIDED|95.0|-36.6|22.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||22.3|-36.6|0.635
82458168|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|10.7||||0.513|TWO_SIDED|95.0|-21.1|42.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||42.5|-21.1|0.513
82458169|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|1.7||||0.898|TWO_SIDED|95.0|-24.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||28.1|-24.7|0.898
82458170|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-13.1||||0.379|TWO_SIDED|95.0|-41.7|15.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||15.5|-41.7|0.379
82458171|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-3.6||||0.822|TWO_SIDED|95.0|-34.5|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||27.4|-34.5|0.822
82458172|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|8.9||||0.508|TWO_SIDED|95.0|-17.3|35.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||35.0|-17.3|0.508
82458173|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-6.0||||0.683|TWO_SIDED|95.0|-34.3|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||22.4|-34.3|0.683
82458174|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|14.3||||0.49|TWO_SIDED|95.0|-16.6|45.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||45.1|-16.6|0.490
82458175|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|23.3||||0.078|TWO_SIDED|95.0|-1.9|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||48.5|-1.9|0.078
82458176|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|10.3||||0.466|TWO_SIDED|95.0|-17.7|38.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||38.4|-17.7|0.466
82458177|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|1.000
82541843|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6702|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 22||||0.6702
82541844|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0818|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 22||||0.0818
82541845|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6214|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.6214
82541846|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6774|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.6774
82541847|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.3154|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 28||||0.3154
82541848|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2709|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.2709
82458178|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|0.447
82541849|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.3804|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.3804
82541850|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7645|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 34||||0.7645
82458179|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.3|-17.1|1.000
82458180|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-11.8||||1|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|1.000
82458181|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-11.8||||0.193|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|0.193
82458182|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-11.8||||0.498|TWO_SIDED|95.0|-27.1|3.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||3.6|-27.1|0.498
82458183|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|1.000
82458184|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|0.447
82458185|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||5.3|-17.1|1.000
82458186|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|1.000
82541851|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.182|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.1820
82541852|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.7167|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.7167
82541853|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.3104|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 40||||0.3104
82541854|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.091|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.0910
82541855|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.6094|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.6094
82541856|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.2166|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 46||||0.2166
82541857|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.901|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.9010
82541858|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.906|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.9060
82541859|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.7268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 52||||0.7268
82541860|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.5372|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.5372
82541861|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.1588|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.1588
82541862|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4268|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 64||||0.4268
82541863|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.4389|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.4389
82541864|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.6708|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.6708
82541865|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.2145|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 76||||0.2145
82458187|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||0.447|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|0.447
82458188|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||5.3|-17.1|1.000
82458189|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||5.3|-17.1|1.000
82458190|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-1.1||||1|TWO_SIDED|95.0|-15.5|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||13.3|-15.5|1.000
82458191|NCT02365649|164619834|SUPERIORITY||Risk Difference (RD)|-5.9||||1|TWO_SIDED|95.0|-17.1|5.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||5.3|-17.1|1.000
82458192|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-57.2|43.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||43.9|-57.2|1.000
82458193|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||55.8|-9.2|0.323
82458194|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||0.516|TWO_SIDED|95.0|6.7|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||60.0|6.7|0.516
82458195|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-31.7||||0.191|TWO_SIDED|95.0|-77.4|14.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||14.0|-77.4|0.191
82458196|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-26.0|22.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||22.6|-26.0|1.000
82458197|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-7.3|24.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||24.0|-7.3|1.000
82458198|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||0.261|TWO_SIDED|95.0|6.7|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||60.0|6.7|0.261
82458199|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||55.8|-9.2|0.323
82458200|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-41.8|58.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||58.5|-41.8|1.000
82458201|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-26.7||||0.593|TWO_SIDED|95.0|-77.2|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||23.9|-77.2|0.593
82541866|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.8608|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.8608
82541867|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.0283|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.0283
82541868|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.0369|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 88||||0.0369
82458202|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|23.3||||0.323|TWO_SIDED|95.0|-9.2|55.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.8|-9.2|0.323
82458203|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-41.8|58.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||58.5|-41.8|1.000
82458204|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|21.7||||0.6|TWO_SIDED|95.0|-23.1|66.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||66.5|-23.1|0.600
82458205|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|31.7||||0.162|TWO_SIDED|95.0|-1.9|65.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||65.2|-1.9|0.162
82458206|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-34.1|67.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||67.4|-34.1|1.000
82458207|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-50.5|77.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||77.2|-50.5|1.000
82458208|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-100.0|1.000
82458209|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||86.7|-20.0|1.000
82458210|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-40.0||||0.464|TWO_SIDED|95.0|-82.9|2.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||2.9|-82.9|0.464
82458211|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-50.0||||0.4|TWO_SIDED|95.0|-100.0|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||19.3|-100.0|0.400
82458212|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-46.7||||0.464|TWO_SIDED|95.0|-100.0|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||17.2|-100.0|0.464
82458213|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||70.8|-100.0|1.000
82458214|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||86.7|-20.0|1.000
82458215|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-26.7||||1|TWO_SIDED|95.0|-95.1|41.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||41.8|-95.1|1.000
82458216|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-16.7||||1|TWO_SIDED|95.0|-100.0|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||70.8|-100.0|1.000
82458217|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||1|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||86.7|-20.0|1.000
82541869|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4606|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.4606
82458218|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-77.2|50.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||50.5|-77.2|1.000
82458219|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-70.8|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|-70.8|1.000
82458220|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|66.7||||1|TWO_SIDED|95.0|13.3|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||100.0|13.3|1.000
82458221|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-33.8|40.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||40.4|-33.8|1.000
82458222|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||48.5|-15.2|0.408
82458223|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|33.3||||0.266|TWO_SIDED|95.0|9.5|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.2|9.5|0.266
82458224|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-33.3||||0.121|TWO_SIDED|95.0|-66.2|-0.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||-0.5|-66.2|0.121
82458225|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-10.0||||-10|TWO_SIDED|95.0|-34.6|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||14.6|-34.6|-10.0
82458226|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-6.0|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||19.3|-6.0|1.000
82458227|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-45.3|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||31.9|-45.3|1.000
82458228|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||48.5|-15.2|0.408
82458229|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-29.1|55.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||55.7|-29.1|1.000
82649957|NCT05478603|165014947|OTHER||Ratio of adjusted geometric means|106.4|||||TWO_SIDED|90.0|77.11|146.83|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||146.83|77.11|
82458230|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-26.7||||0.241|TWO_SIDED|95.0|-65.3|11.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||11.9|-65.3|0.241
82458231|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|16.7||||0.408|TWO_SIDED|95.0|-15.2|48.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||48.5|-15.2|0.408
82541870|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.0832|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.0832
82541871|NCT00922207|164783033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.2655|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 100||||0.2655
82458232|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-29.1|55.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||55.7|-29.1|1.000
82458233|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|-3.3||||1|TWO_SIDED|95.0|-43.3|36.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||36.6|-43.3|1.000
82458234|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|30.0||||0.217|TWO_SIDED|95.0|-2.9|62.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||62.9|-2.9|0.217
82458235|NCT02365649|164619835|SUPERIORITY||Risk Difference (RD)|26.7||||0.603|TWO_SIDED|95.0|-16.5|69.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||69.9|-16.5|0.603
82458236|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|12.5||||0.686|TWO_SIDED|95.0|-27.6|52.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||52.6|-27.6|0.686
82458237|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.3|-12.8|0.257
82458238|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||27.4|-47.4|0.709
82458239|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|3.7||||1|TWO_SIDED|95.0|-16.6|24.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||24.1|-16.6|1.000
82541872|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.0649|TWO_SIDED|95.0|-0.01|0.43|||ANCOVA|||Baseline||0.43|-0.01|0.0649
82541873|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.1867|TWO_SIDED|95.0|-0.06|0.33|||ANCOVA|||Baseline||0.33|-0.06|0.1867
82541874|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.5003|TWO_SIDED|95.0|-0.3|0.15|||ANCOVA|||Baseline||0.15|-0.30|0.5003
82541875|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.2259|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||Change at Week 4||0.05|-0.22|0.2259
82458240|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|8.5||||0.428|TWO_SIDED|95.0|-6.1|23.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||23.0|-6.1|0.428
82458241|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|6.8||||0.639|TWO_SIDED|95.0|-9.3|22.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||22.9|-9.3|0.639
82458242|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|8.5||||0.583|TWO_SIDED|95.0|-22.2|39.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||39.2|-22.2|0.583
82458243|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|17.3||||0.171|TWO_SIDED|95.0|-7.2|41.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||41.9|-7.2|0.171
82541876|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Change at Week 4||-0.11|-0.36|<0.001
82541877|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.0085|TWO_SIDED|95.0|-0.27|-0.04|||ANCOVA|||Change at Week 4||-0.04|-0.27|0.0085
82541878|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.816|TWO_SIDED|95.0|-0.22|0.18|||ANCOVA|||Change at Week 8||0.18|-0.22|0.8160
82541879|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.4393|TWO_SIDED|95.0|-0.27|0.12|||ANCOVA|||Change at Week 8||0.12|-0.27|0.4393
82541880|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.489|TWO_SIDED|95.0|-0.22|0.11|||ANCOVA|||Change at Week 8||0.11|-0.22|0.4890
82541881|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.4656|TWO_SIDED|95.0|-0.14|0.3|||ANCOVA|||Change at Week 16||0.30|-0.14|0.4656
82578200|NCT03079297|164865852|SUPERIORITY|||||||0.6635||||||P-value for Psychosocial function 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.6635
82649958|NCT05478603|165014947|OTHER||Ratio of adjusted geometric means|169.19|||||TWO_SIDED|90.0|122.61|233.47|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||233.47|122.61|
82652377|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.101||||0.401|TWO_SIDED|95.0|-0.336|0.135||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.135|-0.336|0.4010
82458244|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|2.5||||0.859|TWO_SIDED|95.0|-24.8|29.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.7|-24.8|0.859
82458245|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458246|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||13.0|-13.4|1.000
82458247|NCT02365649|164619836|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458248|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-23.9|28.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||28.9|-23.9|1.000
82458249|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|21.3||||0.204|TWO_SIDED|95.0|-5.0|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||47.5|-5.0|0.204
82458250|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|-10.0||||0.54|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||3.1|-23.1|0.540
82458251|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|-6.3||||1|TWO_SIDED|95.0|-14.6|2.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||2.1|-14.6|1.000
82458252|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|2.6||||1|TWO_SIDED|95.0|-10.1|15.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.3|-10.1|1.000
82458253|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|2.4||||1|TWO_SIDED|95.0|-11.8|16.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||16.7|-11.8|1.000
82458254|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|0.9||||1|TWO_SIDED|95.0|-15.0|16.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||16.8|-15.0|1.000
82458255|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|14.4||||0.135|TWO_SIDED|95.0|-2.5|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-2.5|0.135
82458256|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|4.3||||0.623|TWO_SIDED|95.0|-11.9|20.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||20.4|-11.9|0.623
82458257|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||3.1|-23.1|1.000
82541882|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.5016|TWO_SIDED|95.0|-0.15|0.31|||ANCOVA|||Change at Week 16||0.31|-0.15|0.5016
82649959|NCT05478603|165014948|OTHER||Ratio of adjusted geometric means|95.12|||||TWO_SIDED|90.0|52.6|172.03|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||172.03|52.60|
82458258|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||17.7|-18.7|1.000
82458259|NCT02365649|164619837|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||3.1|-23.1|0.501
82458260|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|2.5||||1|TWO_SIDED|95.0|-23.9|28.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||28.9|-23.9|1.000
82458261|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|21.3||||0.204|TWO_SIDED|95.0|-5.0|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||47.5|-5.0|0.204
82458262|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|-10.0||||0.54|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||3.1|-23.1|0.540
82458263|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|-3.1||||1|TWO_SIDED|95.0|-9.2|2.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||2.9|-9.2|1.000
82458264|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|5.7||||0.614|TWO_SIDED|95.0|-5.6|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||17.0|-5.6|0.614
82458265|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|1.2||||1|TWO_SIDED|95.0|-9.1|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||11.5|-9.1|1.000
82458266|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|0.9||||1|TWO_SIDED|95.0|-15.0|16.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||16.8|-15.0|1.000
82458267|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|14.4||||0.135|TWO_SIDED|95.0|-2.5|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-2.5|0.135
82458268|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-14.1|12.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||12.1|-14.1|1.000
82458269|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458270|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|4.5||||1|TWO_SIDED|95.0|-11.3|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||20.3|-11.3|1.000
82458271|NCT02365649|164619838|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||4.6|-14.6|1.000
82458272|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|15.0||||0.669|TWO_SIDED|95.0|-21.9|51.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||51.9|-21.9|0.669
82652378|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.129||||0.2821|TWO_SIDED|95.0|-0.364|0.106||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.106|-0.364|0.2821
82458273|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|15.0||||0.343|TWO_SIDED|95.0|-15.2|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||45.2|-15.2|0.343
82458274|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|-20.0||||0.442|TWO_SIDED|95.0|-57.2|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||17.2|-57.2|0.442
82458275|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-23.4|32.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||32.2|-23.4|1.000
82458276|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|5.0||||0.601|TWO_SIDED|95.0|-13.6|23.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||23.5|-13.6|0.601
82458277|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|1.8||||1|TWO_SIDED|95.0|-18.2|21.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||21.7|-18.2|1.000
82458278|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|16.5||||0.301|TWO_SIDED|95.0|-14.5|47.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||47.5|-14.5|0.301
82458279|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|14.5||||0.256|TWO_SIDED|95.0|-10.3|39.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||39.4|-10.3|0.256
82458280|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|1.5||||0.917|TWO_SIDED|95.0|-26.5|29.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.5|-26.5|0.917
82458281|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|-20.2||||1|TWO_SIDED|95.0|-37.5|-2.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||-2.5|-37.5|1.000
82458282|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|-5.7||||0.697|TWO_SIDED|95.0|-28.8|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||17.3|-28.8|0.697
82458283|NCT02365649|164619839|SUPERIORITY||Risk Difference (RD)|-20.0||||0.126|TWO_SIDED|95.0|-37.5|-2.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||-2.5|-37.5|0.126
82458284|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|10.0||||0.691|TWO_SIDED|95.0|-30.8|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.8|-30.8|0.691
82458285|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|28.8||||0.086|TWO_SIDED|95.0|-2.5|60.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||60.0|-2.5|0.086
82458286|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-10.0||||0.702|TWO_SIDED|95.0|-45.6|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||25.6|-45.6|0.702
82541883|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.9582|TWO_SIDED|95.0|-0.23|0.22|||ANCOVA|||Change at Week 16||0.22|-0.23|0.9582
82541884|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07||||0.6214|TWO_SIDED|95.0|-0.21|0.36|||ANCOVA|||Change at Week 28||0.36|-0.21|0.6214
82541885|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.5493|TWO_SIDED|95.0|-0.21|0.39|||ANCOVA|||Change at Week 28||0.39|-0.21|0.5493
82649960|NCT05478603|165014948|OTHER||Ratio of adjusted geometric means|166.77|||||TWO_SIDED|90.0|92.21|301.62|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||301.62|92.21|
82458287|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-12.5||||0.557|TWO_SIDED|95.0|-24.0|-1.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||-1.0|-24.0|0.557
82458288|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.5|15.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.0|-16.5|1.000
82458289|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|4.9||||0.707|TWO_SIDED|95.0|-14.4|24.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||24.2|-14.4|0.707
82458290|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|0.4||||1|TWO_SIDED|95.0|-27.9|28.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||28.8|-27.9|1.000
82458291|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|16.7||||0.175|TWO_SIDED|95.0|-7.2|40.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||40.6|-7.2|0.175
82458292|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|8.7||||0.517|TWO_SIDED|95.0|-18.0|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.4|-18.0|0.517
82458293|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
82458294|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
82458295|NCT02365649|164619840|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
82458296|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-41.0|41.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||41.0|-41.0|1.000
82458297|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||50.3|-12.8|0.257
82458298|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-20.0||||0.44|TWO_SIDED|95.0|-55.9|15.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||15.9|-55.9|0.440
82458299|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-2.5||||1|TWO_SIDED|95.0|-24.3|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||19.3|-24.3|1.000
82458300|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.5|15.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.0|-16.5|1.000
82458301|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-20.0||||0.44|TWO_SIDED|95.0|-55.9|15.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||15.9|-55.9|0.440
82458302|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-28.7|31.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||31.4|-28.7|1.000
82458303|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|10.5||||0.404|TWO_SIDED|95.0|-14.0|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||34.9|-14.0|0.404
82458304|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|2.5||||0.859|TWO_SIDED|95.0|-24.8|29.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||29.7|-24.8|0.859
82458305|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
82458306|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
82458307|NCT02365649|164619841|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
82458308|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|10.0||||0.606|TWO_SIDED|95.0|-23.8|43.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||43.8|-23.8|0.606
82458309|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|35.0||||0.034|TWO_SIDED|95.0|5.9|64.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significant at the 0.5 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||64.1|5.9|0.034
82541886|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.8881|TWO_SIDED|95.0|-0.28|0.32|||ANCOVA|||Change at Week 28||0.32|-0.28|0.8881
82541887|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.7912|TWO_SIDED|95.0|-0.36|0.27|||ANCOVA|||Change at Week 40||0.27|-0.36|0.7912
82458310|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-15.0||||0.532|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||0.6|-30.6|0.532
82458311|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|0.6||||1|TWO_SIDED|95.0|-20.5|21.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||21.8|-20.5|1.000
82458312|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-0.6||||1|TWO_SIDED|95.0|-14.4|13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||13.3|-14.4|1.000
82458313|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-16.0|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||14.6|-16.0|1.000
82541888|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.5427|TWO_SIDED|95.0|-0.24|0.46|||ANCOVA|||Change at Week 40||0.46|-0.24|0.5427
82541889|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.3788|TWO_SIDED|95.0|-0.19|0.49|||ANCOVA|||Change at Week 40||0.49|-0.19|0.3788
82541890|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.6172|TWO_SIDED|95.0|-0.44|0.26|||ANCOVA|||Change at Week 52||0.26|-0.44|0.6172
82541891|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11||||0.6002|TWO_SIDED|95.0|-0.29|0.5|||ANCOVA|||Change at Week 52||0.50|-0.29|0.6002
82541892|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.3101|TWO_SIDED|95.0|-0.18|0.56|||ANCOVA|||Change at Week 52||0.56|-0.18|0.3101
82541893|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.4256|TWO_SIDED|95.0|-0.47|0.2|||ANCOVA|||Change at Week 64||0.20|-0.47|0.4256
82541894|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.9762|TWO_SIDED|95.0|-0.35|0.36|||ANCOVA|||Change at Week 64||0.36|-0.35|0.9762
82541895|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.4504|TWO_SIDED|95.0|-0.21|0.47|||ANCOVA|||Change at Week 64||0.47|-0.21|0.4504
82541896|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.4076|TWO_SIDED|95.0|-0.42|0.17|||ANCOVA|||Change at Week 76||0.17|-0.42|0.4076
82541897|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.05||||0.7591|TWO_SIDED|95.0|-0.37|0.27|||ANCOVA|||Change at Week 76||0.27|-0.37|0.7591
82541898|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.6449|TWO_SIDED|95.0|-0.25|0.4|||ANCOVA|||Change at Week 76||0.40|-0.25|0.6449
82541899|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.7108|TWO_SIDED|95.0|-0.36|0.25|||ANCOVA|||Change at Week 88||0.25|-0.36|0.7108
82458314|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|12.1||||0.35|TWO_SIDED|95.0|-11.7|35.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.8|-11.7|0.350
82458315|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|21.7||||0.034|TWO_SIDED|95.0|2.0|41.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significant at the 0.5 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||41.3|2.0|0.034
82458316|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|1.2||||1|TWO_SIDED|95.0|-15.9|18.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||18.3|-15.9|1.000
82458317|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|1.000
82458318|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||14.6|-25.5|0.663
82458319|NCT02365649|164619842|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders||0.6|-30.6|0.251
82458320|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|15.0||||0.536|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||30.6|-0.6|0.536
82458321|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|15.0||||0.238|TWO_SIDED|95.0|-0.6|30.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||30.6|-0.6|0.238
82458322|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-34.3|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||24.3|-34.3|1.000
82541900|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.4725|TWO_SIDED|95.0|-0.22|0.47|||ANCOVA|||Change at Week 88||0.47|-0.22|0.4725
82541901|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.19||||0.2439|TWO_SIDED|95.0|-0.13|0.5|||ANCOVA|||Change at Week 88||0.50|-0.13|0.2439
82578201|NCT03079297|164865853|SUPERIORITY|||||||0.7839||||||P-value for Anhedonia 3 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.7839
82578202|NCT03079297|164865853|SUPERIORITY|||||||0.0248||||||P-value for Anhedonia function 7 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0248
82578203|NCT03079297|164865853|SUPERIORITY|||||||0.0199||||||P-value for Anhedonia 14 days Change. Model: Change from baseline=Baseline, Visit, Treatment, Treatment\*Visit|MMRM|||||||0.0199
82458323|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.0||||0.606|TWO_SIDED|95.0|-43.8|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||23.8|-43.8|0.606
82541902|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.1862|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||Change at Week 100||0.50|-0.10|0.1862
82541903|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|0.15||||0.3057|TWO_SIDED|95.0|-0.14|0.43|||ANCOVA|||Change at Week 100||0.43|-0.14|0.3057
82541904|NCT00922207|164783034|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.8002|TWO_SIDED|95.0|-0.38|0.29|||ANCOVA|||Change at Week 100||0.29|-0.38|0.8002
82541905|NCT03299816|164783036|SUPERIORITY|||||||0.17||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.17
82578204|NCT05262517|164865854|OTHER||Least square (LS) mean difference|-0.15|||||TWO_SIDED|95.0|-1.78|1.48||||||LS means and CIs were estimated by an analysis of covariance (ANCOVA) model, using restricted maximum likelihood (REML) with baseline NRS value as a covariate and treatment group and stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms) as the main effects.||1.48|-1.78|
82652379|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.149||||0.2189|TWO_SIDED|95.0|-0.388|0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 3||0.089|-0.388|0.2189
82458324|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-3.8||||1|TWO_SIDED|95.0|-28.5|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||21.0|-28.5|1.000
82458325|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-25.0||||0.181|TWO_SIDED|95.0|-59.2|9.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||9.2|-59.2|0.181
82458326|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.281
82458327|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
82458328|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-25.0||||0.231|TWO_SIDED|95.0|-61.3|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||11.3|-61.3|0.231
82458329|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|37.5||||0.099|TWO_SIDED|95.0|5.8|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||69.2|5.8|0.099
82458330|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|31.3||||0.052|TWO_SIDED|95.0|2.2|60.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.3|2.2|0.052
82458331|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||27.4|-47.4|0.709
82458332|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|32.5||||0.194|TWO_SIDED|95.0|0.9|64.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||64.1|0.9|0.194
82458333|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|13.8||||0.4|TWO_SIDED|95.0|-17.7|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||45.2|-17.7|0.400
82458334|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.9|32.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||32.9|-42.9|1.000
82458335|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|16.3||||0.477|TWO_SIDED|95.0|-18.6|51.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||51.1|-18.6|0.477
82458336|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-2.6||||0.833|TWO_SIDED|95.0|-26.4|21.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||21.3|-26.4|0.833
82458337|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-4.6||||0.732|TWO_SIDED|95.0|-30.9|21.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||21.7|-30.9|0.732
82458338|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|19.4||||0.468|TWO_SIDED|95.0|-15.4|54.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||54.2|-15.4|0.468
82541906|NCT03299816|164783037|SUPERIORITY|||||||0.36||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.36
82541907|NCT03299816|164783038|SUPERIORITY|||||||0.33||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.33
82541908|NCT03299816|164783039|SUPERIORITY|||||||0.61||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.61
82541909|NCT03299816|164783040|SUPERIORITY|||||||0.73||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|Urinary albumin-to-creatinine ratio (ACR) was not normally distributed and was natural log transformed for analyses||||||0.73
82649961|NCT05478603|165014948|OTHER||Ratio of adjusted geometric means|237.76|||||TWO_SIDED|90.0|131.46|430.0|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||430.00|131.46|
82652380|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.093||||0.4717|TWO_SIDED|95.0|-0.346|0.161||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.161|-0.346|0.4717
82458339|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-11.2||||0.339|TWO_SIDED|95.0|-34.1|11.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||11.7|-34.1|0.339
82458340|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-14.5||||0.263|TWO_SIDED|95.0|-39.3|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||10.2|-39.3|0.263
82458341|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|11.9||||0.697|TWO_SIDED|95.0|-22.3|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||46.0|-22.3|0.697
82458342|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||19.9|-23.2|0.880
82458343|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||11.2|-32.7|0.355
82458344|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-27.1|37.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||37.1|-27.1|1.000
82458345|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|1.5||||0.891|TWO_SIDED|95.0|-19.6|22.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||22.6|-19.6|0.891
82541910|NCT03299816|164783041|SUPERIORITY|||||||0.75||||||The a priori threshold for statistical significance was \<0.05|Mixed effects regression|||||||0.75
82541911|NCT02311907|164783050|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Generalized linear models (repeated measures analysis of variance \[ANOVA\]) will be used to compare the CIPN between GSH and placebo arms.||||0.21
82541912|NCT02311907|164783051|SUPERIORITY_OR_OTHER|||||||0.63|||||||Log Rank|||||||0.63
82541913|NCT00762619|164783199|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541914|NCT00762619|164783200|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541915|NCT00762619|164783201|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541916|NCT00762619|164783202|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541917|NCT00762619|164783203|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541918|NCT00762619|164783204|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541919|NCT00762619|164783205|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541920|NCT00762619|164783206|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541921|NCT00762619|164783207|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541922|NCT00762619|164783208|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541923|NCT00762619|164783209|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541924|NCT00762619|164783210|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541925|NCT00762619|164783211|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82649962|NCT05478603|165014949|OTHER||Ratio of adjusted geometric means|95.34|||||TWO_SIDED|90.0|52.67|172.59|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||172.59|52.67|
82541926|NCT00762619|164783212|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541927|NCT00762619|164783213|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541928|NCT00762619|164783214|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541929|NCT00762619|164783215|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541930|NCT00762619|164783216|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541931|NCT00762619|164783217|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82578205|NCT05262517|164865855|OTHER||LS mean difference|5.12|||||TWO_SIDED|95.0|-21.35|31.59||||||LS means and CIs were estimated by an analysis of covariance model using REML with baseline NRS value as a covariate and treatment group and stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms) as the main effects.||31.59|-21.35|
82649963|NCT05478603|165014949|OTHER||Ratio of adjusted geometric means|163.09|||||TWO_SIDED|90.0|90.1|295.22|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||295.22|90.10|
82649964|NCT05478603|165014949|OTHER||Ratio of adjusted geometric means|239.47|||||TWO_SIDED|90.0|132.29|433.47|||ANOVA||The ratio and 90% CI are expressed as percentages.|"One-way ANOVA was used on the natural log transformed PK parameters with hepatic function group as a fixed factor.~The adjusted mean differences and the corresponding 90% confidence intervals derived from ANOVA were exponentiated to provide estimate of the ratio of adjusted geometric means (Test \[hepatic impairment group\]/Reference \[without hepatic impairment group\]) and 90% confidence intervals for the ratio."||433.47|132.29|
82541932|NCT00762619|164783218|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541933|NCT00762619|164783219|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541934|NCT00762619|164783220|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82458346|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-3.3||||0.779|TWO_SIDED|95.0|-25.8|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||19.3|-25.8|0.779
82541935|NCT00762619|164783221|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541936|NCT00762619|164783222|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541937|NCT00762619|164783223|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541938|NCT00762619|164783224|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541939|NCT00762619|164783225|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82458347|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||39.9|-23.7|0.678
82458348|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|4.6||||0.663|TWO_SIDED|95.0|-16.0|25.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||25.2|-16.0|0.663
82541940|NCT00762619|164783226|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541941|NCT00762619|164783227|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541942|NCT00762619|164783228|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541943|NCT00762619|164783229|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541944|NCT00762619|164783230|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541945|NCT00762619|164783231|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541946|NCT00762619|164783232|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541947|NCT00762619|164783233|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541948|NCT00762619|164783234|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541949|NCT00762619|164783235|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541950|NCT00762619|164783236|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541951|NCT00762619|164783237|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541952|NCT00762619|164783238|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541953|NCT00762619|164783239|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541954|NCT00762619|164783240|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541955|NCT00762619|164783241|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82458349|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-8.8||||0.494|TWO_SIDED|95.0|-28.7|11.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||11.0|-28.7|0.494
82541956|NCT00762619|164783242|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541957|NCT00762619|164783243|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541958|NCT00762619|164783244|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541959|NCT00762619|164783245|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541960|NCT00762619|164783246|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82458350|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|21.9||||0.083|TWO_SIDED|95.0|7.6|36.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||36.2|7.6|0.083
82458351|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|15.0||||0.151|TWO_SIDED|95.0|-2.1|32.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||32.0|-2.1|0.151
82458352|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-22.4|24.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||24.1|-22.4|1.000
82458353|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|0.4||||1|TWO_SIDED|95.0|-25.4|26.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||26.3|-25.4|1.000
82578206|NCT05262517|164865856|OTHER||LS mean difference|0.21|||||TWO_SIDED|95.0|-0.99|1.41||||||LS means, and CIs were based on a generalized linear mixed effect model (GLMEM) that included the baseline value as a covariate and fixed effects for treatment group, stratification factor (use of daily medications/ oral devices to reduce the intensity of TMD symptoms; yes or no), scheduled time point, and time point by-treatment group interaction.||1.41|-0.99|
82541961|NCT00762619|164783247|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541962|NCT00762619|164783248|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541963|NCT00762619|164783249|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541964|NCT00762619|164783250|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541965|NCT00762619|164783251|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541966|NCT00762619|164783252|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541967|NCT00762619|164783253|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541968|NCT00762619|164783254|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541969|NCT00762619|164783255|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541970|NCT00762619|164783256|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541971|NCT00762619|164783257|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541972|NCT00762619|164783258|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541973|NCT00762619|164783259|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541974|NCT00762619|164783260|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541975|NCT00762619|164783261|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541976|NCT00762619|164783262|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82649965|NCT01512979|165014955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.13|-0.46||The model includes treatment and continuous baseline HbA1c.|ANCOVA|||||-0.46|-1.13|<0.0001
82649966|NCT01512979|165014956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.9|STANDARD_ERROR_OF_MEAN|5.7||0.0032||95.0|-28.0|-5.7||The model includes treatment, continuous baseline HbA1c and continuous baseline FPG.|ANCOVA|||||-5.7|-28.0|0.0032
82649967|NCT01512979|165014958|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.83||||0.0031||95.0|1.573|9.328||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||9.328|1.573|0.0031
82649968|NCT01512979|165014959|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.0025||95.0|1.458|5.849||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||5.849|1.458|0.0025
82649969|NCT01512979|165014960|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.448||||0.0008||95.0|1.453|4.123||The model includes treatment and continuous baseline HbA1c.|Regression, Logistic|||||4.123|1.453|0.0008
82649970|NCT00529568|165014962|SUPERIORITY_OR_OTHER||Percentage difference in SVR|6.0||||0.0202|TWO_SIDED|95.0|1.2|10.9||Stratified Cochran-Mantel-Haenszel (CMH) chi-square test adjusted for the randomization strata|Cochran-Mantel-Haenszel||The estimated value reflects the percentage of participants with SVR in the eltrombopag group minus the percentage of participants with SVR in the placebo group. Adjusted for the actual strata: HCV genotype, baseline platelet count, and HCV RNA.|||10.9|1.2|0.0202
82649971|NCT02033876|165014998|SUPERIORITY|||||||0.43|||||||ANCOVA|||||||0.43
82458354|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-9.2||||0.417|TWO_SIDED|95.0|-31.3|12.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||12.9|-31.3|0.417
82458355|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-20.2||||0.125|TWO_SIDED|95.0|-46.7|6.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||6.2|-46.7|0.125
82458356|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|12.9||||0.497|TWO_SIDED|95.0|-14.1|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||40.0|-14.1|0.497
82458357|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-0.1||||0.993|TWO_SIDED|95.0|-24.0|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-24.0|0.993
82458358|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-18.3||||0.2|TWO_SIDED|95.0|-46.1|9.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||9.6|-46.1|0.200
82458359|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|21.4||||0.177|TWO_SIDED|95.0|-7.9|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||50.8|-7.9|0.177
82649972|NCT02033876|165014999|SUPERIORITY|||||||0.65|||||||ANCOVA|||||||0.65
82649973|NCT02033876|165015001|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
82649974|NCT02033876|165015002|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
82541977|NCT00762619|164783263|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541978|NCT00762619|164783264|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82649975|NCT02033876|165015003|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||0.4
82649976|NCT02033876|165015004|SUPERIORITY|||||||0.8|||||||ANCOVA|||||||0.8
82649977|NCT02033876|165015005|SUPERIORITY|||||||0.006|||||||ANCOVA|||||||0.006
82649978|NCT02046369|165015009|SUPERIORITY|The primary efficacy endpoint (the change from baseline in CDRS-R total score at Week 6)will be analyzed using a likelihood-based mixed model for repeated measures (MMRM).The response (dependent) variable is the change from baseline in CDRS-R total score assessed weekly (Weeks 1 to 6).The MMRM model includes fixed effects terms for treatment, visit (as a categorical variable), pooled country, age stratum (stratification factor, CDRS-R total score at baseline, and treatment-by-visit interaction.|LS mean differnce (SE)|-5.7|STANDARD_ERROR_OF_MEAN|1.39|<|0.0001|TWO_SIDED|95.0|-8.4|-3.0|||LS mean differnece (SE)|||A mean difference in change from Baseline in CDRS-R total score of 5.0 units was assumed for the lurasidone 20-80 mg/day arm over the placebo arm, and a common standard deviation of 14.2 units (effect size=0.35), a sample size of 145 subjects per treatment arm was calculated to yield a power of 85%. With an expected attrition rate of 15%, approximately 170 subjects per treatment arm (340 in total) were to be randomized in a 1:1 ratio .||-3.0|-8.4|<0.0001
82649979|NCT02046369|165015010|SUPERIORITY||LS mean differnce (SE)|-1.1|STANDARD_ERROR_OF_MEAN|0.54||0.0385|TWO_SIDED|95.0|-2.2|-0.1|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.1|-2.2|0.0385
82649980|NCT02046369|165015011|SUPERIORITY||LS mean differnce (SE)|3.9|STANDARD_ERROR_OF_MEAN|1.35||0.0044|TWO_SIDED|95.0|1.2|6.5|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||6.5|1.2|0.0044
82649981|NCT02046369|165015012|SUPERIORITY||LS mean differnce (SE)|4.7|STANDARD_ERROR_OF_MEAN|1.19|<|0.0001|TWO_SIDED|95.0|2.4|7.0|||LS mean differnece (SE)|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||7.0|2.4|<0.0001
82541979|NCT00762619|164783265|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82649982|NCT02046369|165015013|SUPERIORITY||LS mean differnce (SE)|-0.7|STANDARD_ERROR_OF_MEAN|0.77||0.3715|TWO_SIDED|95.0|-2.2|0.8|||ANCOVA|||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||0.8|-2.2|0.3715
82458360|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|22.4||||0.074|TWO_SIDED|95.0|-1.4|46.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.2|-1.4|0.074
82458361|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||20.3|-36.1|0.585
82458362|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|21.4||||0.177|TWO_SIDED|95.0|-7.9|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||50.8|-7.9|0.177
82458363|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|12.1||||0.343|TWO_SIDED|95.0|-12.7|36.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||36.8|-12.7|0.343
82458364|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||20.3|-36.1|0.585
82458365|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-30.0||||0.539|TWO_SIDED|95.0|-50.1|-9.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||-9.9|-50.1|0.539
82458366|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-15.7||||0.277|TWO_SIDED|95.0|-40.8|9.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||9.3|-40.8|0.277
82458367|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-15.7||||0.422|TWO_SIDED|95.0|-42.9|11.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||11.5|-42.9|0.422
82458368|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-46.5|46.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||46.5|-46.5|1.000
82458369|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.7||||0.454|TWO_SIDED|95.0|-34.9|13.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||13.5|-34.9|0.454
82458370|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-17.9||||0.364|TWO_SIDED|95.0|-41.1|5.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||5.4|-41.1|0.364
82458371|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||55.2|-35.2|0.544
82458372|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||14.6|-25.5|0.663
82458373|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||0.6|-30.6|0.251
82458374|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Clinical non-responders, Week 44||3.1|-23.1|1.000
82458375|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-5.2||||0.606|TWO_SIDED|95.0|-21.2|10.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.8|-21.2|0.606
82458376|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-2.9||||1|TWO_SIDED|95.0|-21.7|16.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||16.0|-21.7|1.000
82458377|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|1.000
82458378|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||17.7|-18.7|1.000
82458379|NCT02365649|164619843|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|0.501
82458380|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|17.5||||0.633|TWO_SIDED|95.0|-13.0|48.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||48.0|-13.0|0.633
82458381|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|30.0||||0.0024|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.0024
82458382|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-34.8|34.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||34.8|-34.8|1.000
82458383|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-39.8|29.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||29.8|-39.8|1.000
82458384|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-24.7|27.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||27.2|-24.7|1.000
82458385|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-20.0||||0.384|TWO_SIDED|95.0|-55.1|15.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||15.1|-55.1|0.384
82541980|NCT00762619|164783266|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82541981|NCT01350804|164783269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79||||0.0458|TWO_SIDED|95.0|1.0|3.2|||Regression, Logistic|||||3.2|1.0|0.0458
82458386|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.281
82458387|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
82458388|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-35.0||||0.108|TWO_SIDED|95.0|-70.8|0.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||0.8|-70.8|0.108
82541982|NCT01350804|164783269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.0152|TWO_SIDED|95.0|1.1|3.5|||Regression, Logistic|||||3.5|1.1|0.0152
82541983|NCT02878850|164783281|SUPERIORITY||Mean Difference (Final Values)|2.95||||0.55|TWO_SIDED|95.0|-6.85|12.75|||t-test, 2 sided|||||12.75|-6.85|0.55
82541984|NCT02878850|164783282|SUPERIORITY||Mean Difference (Final Values)|-0.63||||0.92|TWO_SIDED|95.0|-12.48|11.21|||ANCOVA|||||11.21|-12.48|0.92
82541985|NCT02878850|164783283|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.75|TWO_SIDED|95.0|-1.83|2.53|||ANCOVA|||||2.53|-1.83|0.75
82458389|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|12.5||||0.686|TWO_SIDED|95.0|-27.6|52.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||52.6|-27.6|0.686
82458390|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|25.0||||0.126|TWO_SIDED|95.0|-5.5|55.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.5|-5.5|0.126
82458391|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-10.0||||0.709|TWO_SIDED|95.0|-47.4|27.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||27.4|-47.4|0.709
82458392|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|37.5||||0.099|TWO_SIDED|95.0|5.8|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||69.2|5.8|0.099
82458393|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||50.3|-12.8|0.257
82458394|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-38.0|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||38.0|-38.0|1.000
82458395|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|15.6||||0.465|TWO_SIDED|95.0|-19.5|50.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||50.7|-19.5|0.465
82458396|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|3.9||||0.745|TWO_SIDED|95.0|-19.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||27.0|-19.3|0.745
82458397|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-8.3||||0.512|TWO_SIDED|95.0|-32.6|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||16.1|-32.6|0.512
82458398|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|22.5||||0.281|TWO_SIDED|95.0|-12.2|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||57.2|-12.2|0.281
82458399|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-8.1||||0.486|TWO_SIDED|95.0|-30.8|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||14.6|-30.8|0.486
82458400|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-15.8||||0.212|TWO_SIDED|95.0|-39.5|8.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||8.0|-39.5|0.212
82458401|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|11.9||||0.697|TWO_SIDED|95.0|-22.3|46.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||46.0|-22.3|0.697
82458402|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||19.9|-23.2|0.880
82458403|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||11.2|-32.7|0.355
82458404|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||39.9|-23.7|0.678
82458405|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|1.7||||0.873|TWO_SIDED|95.0|-18.6|21.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||21.9|-18.6|0.873
82458406|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-0.1||||0.99|TWO_SIDED|95.0|-22.3|22.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||22.0|-22.3|0.990
82458407|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|8.1||||0.678|TWO_SIDED|95.0|-23.7|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||39.9|-23.7|0.678
82458408|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|4.6||||0.663|TWO_SIDED|95.0|-16.0|25.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||25.2|-16.0|0.663
82458409|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-8.8||||0.494|TWO_SIDED|95.0|-28.7|11.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||11.0|-28.7|0.494
82458410|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|23.2||||0.169|TWO_SIDED|95.0|-1.6|48.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||48.1|-1.6|0.169
82541986|NCT02878850|164783284|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.4|TWO_SIDED|95.0|-2.64|6.53|||ANCOVA|||||6.53|-2.64|0.40
82541987|NCT02878850|164783285|SUPERIORITY||Risk Ratio (RR)|2.0|||<|0.001||95.0|1.36|2.94|||Chi-squared|||||2.94|1.36|<0.001
82541988|NCT02878850|164783286|SUPERIORITY||Risk Ratio (RR)|1.08||||0.87|TWO_SIDED|95.0|0.44|3.65|||Chi-squared|||||3.65|0.44|0.87
82541989|NCT02878850|164783287|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.08|TWO_SIDED|95.0|-0.08|1.32|||ANCOVA|||||1.32|-0.08|0.08
82541990|NCT02878850|164783288|SUPERIORITY||Mean Difference (Final Values)|-5.73||||0.35|TWO_SIDED|95.0|-16.84|6.1|||t-test, 2 sided|||||6.10|-16.84|0.35
82649983|NCT02046369|165015014|SUPERIORITY||LS mean differnce (SE)|-0.44|STANDARD_ERROR_OF_MEAN|0.112|<|0.0001|TWO_SIDED|95.0|-0.66|-0.22||LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).|LS mean differnece (SE)|||||-0.22|-0.66|<0.0001
82458411|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|30.6||||0.005|TWO_SIDED|95.0|11.5|49.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||49.7|11.5|0.005
82458412|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|0.7||||0.963|TWO_SIDED|95.0|-26.8|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||28.1|-26.8|0.963
82458413|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|6.7||||0.729|TWO_SIDED|95.0|-19.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||33.2|-19.8|0.729
82458414|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-2.9||||0.804|TWO_SIDED|95.0|-25.8|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||20.0|-25.8|0.804
82458415|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-14.0||||0.306|TWO_SIDED|95.0|-41.1|13.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||13.1|-41.1|0.306
82458416|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|12.9||||0.497|TWO_SIDED|95.0|-14.1|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||40.0|-14.1|0.497
82541991|NCT02878850|164783289|SUPERIORITY||Mean Difference (Final Values)|-35.37||||0.04|TWO_SIDED|95.0|-68.87|-1.87|||t-test, 2 sided|||||-1.87|-68.87|0.04
82541992|NCT01286272|164783291|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.8457|TWO_SIDED|95.0|0.51|1.74|||Log Rank|||||1.74|0.51|0.8457
82541993|NCT04001829|164783296|SUPERIORITY|||||||0.27|||||||Fisher Exact|||||||0.27
82541994|NCT04001829|164783297|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82541995|NCT04001829|164783298|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82541996|NCT04001829|164783299|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82541997|NCT04001829|164783300|SUPERIORITY|||||||0.019|||||||Fisher Exact|||||||0.019
82458417|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-0.1||||0.993|TWO_SIDED|95.0|-24.0|23.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||23.8|-24.0|0.993
82458418|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-23.5||||0.101|TWO_SIDED|95.0|-51.2|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||4.1|-51.2|0.101
82458419|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|7.1||||0.655|TWO_SIDED|95.0|-24.0|38.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||38.3|-24.0|0.655
82458420|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|15.5||||0.221|TWO_SIDED|95.0|-9.0|40.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||40.0|-9.0|0.221
82458421|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-7.9||||0.585|TWO_SIDED|95.0|-36.1|20.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||20.3|-36.1|0.585
82458422|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|24.6||||0.124|TWO_SIDED|95.0|-4.8|53.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||53.9|-4.8|0.124
82458423|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|15.2||||0.234|TWO_SIDED|95.0|-9.5|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||39.9|-9.5|0.234
82458424|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-4.8||||0.741|TWO_SIDED|95.0|-32.9|23.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||23.4|-32.9|0.741
82458425|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-25.0||||0.544|TWO_SIDED|95.0|-44.0|-6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||-6.0|-44.0|0.544
82458426|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-15.5||||0.238|TWO_SIDED|95.0|-38.2|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||7.3|-38.2|0.238
82458427|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-17.9||||0.364|TWO_SIDED|95.0|-41.1|5.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 20||5.4|-41.1|0.364
82458428|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-46.5|46.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||46.5|-46.5|1.000
82458429|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-10.7||||0.454|TWO_SIDED|95.0|-34.9|13.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||13.5|-34.9|0.454
82458430|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-25.0||||0.063|TWO_SIDED|95.0|-44.0|-6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 28||-6.0|-44.0|0.063
82541998|NCT04001829|164783301|SUPERIORITY|||||||0.47|||||||Fisher Exact|||||||0.47
82541999|NCT05011396|164783302|SUPERIORITY||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|2.36||0.0153|TWO_SIDED|95.0|-10.5|-1.1|||ANCOVA|||||-1.1|-10.5|0.0153
82542000|NCT05011396|164783303|SUPERIORITY||Other|0.1625||||0.033|TWO_SIDED|95.0|0.0132|0.3119|||Wald Normal Approximation (Z)|||||0.3119|0.0132|0.0330
82542001|NCT01113931|164783345|SUPERIORITY_OR_OTHER||Difference in Percent Cure Rates|0.3|||||TWO_SIDED|95.0|-4.6|5.1||||||The planned sample size of 480 randomized subjects ensured that approximately 200 subjects per group were included in the primary efficacy analyses. The 20% rate of exclusion was to account for subjects who had a negative test for urogenital C. trachomatis at the Baseline visit.||5.1|-4.6|
82542002|NCT01113931|164783348|SUPERIORITY_OR_OTHER||Difference in Percent Cure Rates|0.2|||||TWO_SIDED|95.0|-4.6|5.1||||||The planned sample size of 480 randomized subjects ensured that approximately 200 subjects per group were included in the primary efficacy analyses. The 20% rate of exclusion was to account for subjects who had a negative test for urogenital C. trachomatis at the Baseline visit.||5.1|-4.6|
82542003|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.82|||||TWO_SIDED|95.0|1.27|2.61|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||2.61|1.27|
82542004|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.57|||||TWO_SIDED|95.0|1.79|3.7|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||3.70|1.79|
82542005|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.7|||||TWO_SIDED|95.0|1.88|3.88|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||3.88|1.88|
82542006|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.79|||||TWO_SIDED|95.0|1.29|2.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.50|1.29|
82542007|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.19|||||TWO_SIDED|95.0|1.57|3.05|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||3.05|1.57|
82649984|NCT02196506|165015015|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.0074|TWO_SIDED|95.0|-3.97|-0.62|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.62|-3.97|0.0074
82649985|NCT02196506|165015016|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.3331|TWO_SIDED|95.0|-0.66|0.23|||Mixed Models Analysis|||Statistical Analysis at Week 14||0.23|-0.66|0.3331
82458431|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||55.2|-35.2|0.544
82458432|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-5.5||||0.663|TWO_SIDED|95.0|-25.5|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||14.6|-25.5|0.663
82458433|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 36||0.6|-30.6|0.251
82458434|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-14.6|4.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||4.6|-14.6|1.000
82458435|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-13.4|13.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||13.0|-13.4|1.000
82458436|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|2.1||||1|TWO_SIDED|95.0|-14.4|18.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||18.7|-14.4|1.000
82458437|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|1.000
82458438|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||17.7|-18.7|1.000
82458439|NCT02365649|164619844|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 52||3.1|-23.1|0.501
82458440|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|30.0||||0.155|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.155
82649986|NCT02196506|165015017|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.0263|TWO_SIDED|95.0|-4.23|-0.27|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.27|-4.23|0.0263
82458441|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|30.0||||0.024|TWO_SIDED|95.0|9.9|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||50.1|9.9|0.024
82458442|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-3.3||||1|TWO_SIDED|95.0|-40.1|33.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||33.4|-40.1|1.000
82458443|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-8.6||||0.633|TWO_SIDED|95.0|-46.4|29.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||29.2|-46.4|0.633
82458444|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|1.3||||1|TWO_SIDED|95.0|-24.7|27.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||27.2|-24.7|1.000
82458445|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-24.4||||0.209|TWO_SIDED|95.0|-61.3|12.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||12.5|-61.3|0.209
82458446|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|25.0||||0.283|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||44.0|6.0|0.283
82458447|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||28.5|-28.5|1.000
82458448|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-41.7||||0.048|TWO_SIDED|95.0|-77.8|-5.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-5.5|-77.8|0.048
82458449|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|21.4||||0.408|TWO_SIDED|95.0|-18.6|61.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||61.4|-18.6|0.408
82458450|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|25.0||||0.126|TWO_SIDED|95.0|-5.5|55.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||55.5|-5.5|0.126
82458451|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-16.7||||0.454|TWO_SIDED|95.0|-54.5|21.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||21.1|-54.5|0.454
82458452|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|35.7||||0.183|TWO_SIDED|95.0|1.8|69.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||69.7|1.8|0.183
82458453|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|18.8||||0.257|TWO_SIDED|95.0|-12.8|50.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||50.3|-12.8|0.257
82458454|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-5.6||||1|TWO_SIDED|95.0|-44.7|33.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||33.6|-44.7|1.000
82542008|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.52|||||TWO_SIDED|95.0|1.81|3.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||3.50|1.81|
82578207|NCT05262517|164865857|OTHER||Difference in percentage|-5.2|||||TWO_SIDED|95.0|-21.3|10.9||||||Stratified by use of daily medications/ oral devices to reduce the intensity of TMD symptoms at randomization with Mantel-Haenzsel weighting.||10.9|-21.3|
82649987|NCT02196506|165015018|SUPERIORITY||Mean Difference (Final Values)|-2.98||||0.0099|TWO_SIDED|95.0|-5.24|-0.72|||Mixed Models Analysis|||Statistical Analysis at Week 14||-0.72|-5.24|0.0099
82458455|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|33.3||||0.307|TWO_SIDED|95.0|-9.7|76.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||76.3|-9.7|0.307
82542009|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.68|||||TWO_SIDED|95.0|0.54|0.87|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.87|0.54|
82542010|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.12|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||1.12|0.69|
82542011|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.06|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||1.06|0.66|
82542012|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.11|||||TWO_SIDED|95.0|0.86|1.44|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.44|0.86|
82542013|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.19|||||TWO_SIDED|95.0|0.93|1.54|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.54|0.93|
82578208|NCT05262517|164865860|OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-8.7|16.6||||||Stratified by use of daily medications/oral devices to reduce the intensity of TMD symptoms at randomization with Mantel-Haenszel weighting.||16.6|-8.7|
82458456|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|33.3||||0.172|TWO_SIDED|95.0|-4.1|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||70.8|-4.1|0.172
82458457|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||55.1|-40.9|1.000
82458458|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|13.3||||1|TWO_SIDED|95.0|-27.8|54.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||54.5|-27.8|1.000
82458459|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-11.7||||0.675|TWO_SIDED|95.0|-51.5|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.1|-51.5|0.675
82458460|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-12.9||||0.644|TWO_SIDED|95.0|-59.2|33.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||33.5|-59.2|0.644
82458461|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-50.6|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.6|-50.6|1.000
82458462|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-33.4|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.0|-33.4|1.000
82458463|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||55.1|-40.9|1.000
82458464|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-50.6|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||50.6|-50.6|1.000
82458465|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-33.4|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||50.0|-33.4|1.000
82542014|NCT04956575|164783404|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.55|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.55|0.93|
82542015|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.9|||||TWO_SIDED|95.0|0.57|1.44|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||1.44|0.57|
82458466|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|7.1||||1|TWO_SIDED|95.0|-40.9|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||55.1|-40.9|1.000
82458467|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-40.2|60.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||60.2|-40.2|1.000
82458468|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|18.3||||0.392|TWO_SIDED|95.0|-22.9|59.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||59.6|-22.9|0.392
82458469|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|2.9||||1|TWO_SIDED|95.0|-44.7|50.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||50.5|-44.7|1.000
82458470|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|29.0||||0.07|TWO_SIDED|95.0|6.5|51.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||51.5|6.5|0.070
82458471|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|29.5||||0.007|TWO_SIDED|95.0|9.8|49.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||49.2|9.8|0.007
82458472|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|3.3||||0.826|TWO_SIDED|95.0|-26.1|32.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||32.8|-26.1|0.826
82458473|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|0.3||||1|TWO_SIDED|95.0|-27.2|27.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||27.7|-27.2|1.000
82458474|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-5.2||||0.649|TWO_SIDED|95.0|-27.8|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||17.3|-27.8|0.649
82458475|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-16.7||||0.304|TWO_SIDED|95.0|-45.7|12.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||12.4|-45.7|0.304
82458476|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|10.3||||0.72|TWO_SIDED|95.0|-18.2|38.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||38.7|-18.2|0.720
82458477|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|1.2||||0.923|TWO_SIDED|95.0|-23.0|25.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||25.4|-23.0|0.923
82458478|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-20.0||||0.197|TWO_SIDED|95.0|-50.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||10.4|-50.4|0.197
82542016|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.25|||||TWO_SIDED|95.0|0.78|2.0|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||2.00|0.78|
82578209|NCT05602727|164865863|SUPERIORITY|Difference in LS Means (MK-1942 - Placebo)|LS Mean Difference|2.1||||0.186|TWO_SIDED|97.5|-1.6|5.8|||Longitudinal ANCOVA|||||5.8|-1.6|0.186
82458479|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|11.5||||0.486|TWO_SIDED|95.0|-20.4|43.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||43.5|-20.4|0.486
82458480|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|17.9||||0.168|TWO_SIDED|95.0|-7.0|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||42.7|-7.0|0.168
82458481|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|-3.3||||0.833|TWO_SIDED|95.0|-34.3|27.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||27.6|-34.3|0.833
82458482|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|22.6||||0.173|TWO_SIDED|95.0|-8.2|53.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||53.4|-8.2|0.173
82458483|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|17.6||||0.178|TWO_SIDED|95.0|-7.6|42.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||42.8|-7.6|0.178
82542017|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.86|||||TWO_SIDED|95.0|1.16|2.99|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent. against H1N1 at Day 29.||2.99|1.16|
82542018|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.41|||||TWO_SIDED|95.0|0.91|2.21|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.21|0.91|
82542019|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|1.89|||||TWO_SIDED|95.0|1.21|2.97|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||2.97|1.21|
82542020|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|2.64|||||TWO_SIDED|95.0|1.68|4.14|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||4.14|1.68|
82542021|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.36|||||TWO_SIDED|95.0|0.26|0.5|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.50|0.26|
82542022|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.46|||||TWO_SIDED|95.0|0.33|0.64|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.64|0.33|
82542023|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.54|||||TWO_SIDED|95.0|0.38|0.76|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.76|0.38|
82458484|NCT02365649|164619845|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-30.9|30.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANCOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||30.9|-30.9|1.000
82458485|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-27.8||||0.58|TWO_SIDED|95.0|-71.9|16.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||16.3|-71.9|0.580
82542024|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.62|||||TWO_SIDED|95.0|0.43|0.9|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||0.90|0.43|
82542025|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.92|||||TWO_SIDED|95.0|0.63|1.35|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.35|0.63|
82542026|NCT04956575|164783405|OTHER|The ratio of GMT was estimated by the ratio of model based GMT.|Ratio|0.75|||||TWO_SIDED|95.0|0.51|1.09|||||The 2 sided 95% assessed the difference in immune response between the mRNA-1010 compared with the active comparator, Afluria Quadrivalent, at Day 29.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||1.09|0.51|
82458486|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-6.9||||1|TWO_SIDED|95.0|-53.6|39.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||39.7|-53.6|1.000
82458487|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-24.4||||0.58|TWO_SIDED|95.0|-72.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||23.3|-72.2|0.580
82458488|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-38.9||||0.287|TWO_SIDED|95.0|-83.0|5.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||5.2|-83.0|0.287
82458489|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-5.6||||1|TWO_SIDED|95.0|-53.0|41.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||41.9|-53.0|1.000
82458490|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-15.6||||1|TWO_SIDED|95.0|-69.4|38.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||38.3|-69.4|1.000
82458491|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-27.8||||0.58|TWO_SIDED|95.0|-71.9|16.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||16.3|-71.9|0.580
82458492|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-41.9|53.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||53.0|-41.9|1.000
82458493|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-24.4||||0.58|TWO_SIDED|95.0|-72.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||23.3|-72.2|0.580
82458494|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-44.4||||0.103|TWO_SIDED|95.0|-76.9|-12.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||-12.0|-76.9|0.103
82542027|NCT04956575|164783408|OTHER||Percent difference|12.61|||||TWO_SIDED|95.0|-2.0|27.93|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||27.93|-2.00|
82458495|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|5.6||||1|TWO_SIDED|95.0|-41.9|53.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||53.0|-41.9|1.000
82458496|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-4.4||||1|TWO_SIDED|95.0|-58.3|49.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||49.4|-58.3|1.000
82458497|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-48.7|48.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||48.7|-48.7|1.000
82458498|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|16.7||||0.637|TWO_SIDED|95.0|-29.7|63.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||63.0|-29.7|0.637
82458499|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-60.0|33.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||33.3|-60.0|1.000
82458500|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|18.6||||0.57|TWO_SIDED|95.0|-29.4|66.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||66.6|-29.4|0.570
82578210|NCT05602727|164865863|SUPERIORITY|Difference in LS Means (MK-1942 - Placebo)|LS Mean Difference|-1.4||||0.4|TWO_SIDED|97.5|-5.2|2.4|||Longitudinal ANCOVA|||||2.4|-5.2|0.400
82542028|NCT04956575|164783408|OTHER||Percent difference|25.17|||||TWO_SIDED|95.0|11.18|39.89|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||39.89|11.18|
82542029|NCT04956575|164783408|OTHER||Percent Difference|26.2|||||TWO_SIDED|95.0|12.33|40.84|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||40.84|12.33|
82542030|NCT04956575|164783408|OTHER||Percent Difference|25.59|||||TWO_SIDED|95.0|9.82|40.13|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||40.13|9.82|
82542031|NCT04956575|164783408|OTHER||Percent Difference|31.35|||||TWO_SIDED|95.0|15.66|45.73|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||45.73|15.66|
82578211|NCT05602727|164865867|SUPERIORITY|Difference in LS Means|LS Mean Difference|-2.9||||0.196|TWO_SIDED|97.5|-8.0|2.2|||Longitudinal ANCOVA|||||2.2|-8.0|0.196
82649988|NCT02257632|165015021|SUPERIORITY||Mean Difference (Final Values)|-14.98|||<|0.0001|TWO_SIDED|95.0|-19.64|-10.32||missing Baseline VEGF-A level covariate values were imputed by the mean value of non-missing Baseline VEGF-A level from all other patients|ANCOVA|including treatment group and center as fixed effect factors and Baseline VEGF-A as a covariate||||-10.32|-19.64|<0.0001
82458501|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-14.8||||0.33|TWO_SIDED|95.0|-39.7|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||10.2|-39.7|0.330
82458502|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-10.3||||1|TWO_SIDED|95.0|-40.0|19.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||19.4|-40.0|1.000
82458503|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|18.6||||0.57|TWO_SIDED|95.0|-29.4|66.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||66.6|-29.4|0.570
82458504|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-14.8||||0.33|TWO_SIDED|95.0|-39.7|10.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||10.2|-39.7|0.330
82458505|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-33.8|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||35.4|-33.8|1.000
82458506|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-1.4||||1|TWO_SIDED|95.0|-42.6|39.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||39.7|-42.6|1.000
82458507|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-21.4||||0.1|TWO_SIDED|95.0|-42.9|0.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||0.1|-42.9|0.100
82458508|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|0.8||||1|TWO_SIDED|95.0|-33.8|35.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||35.4|-33.8|1.000
82458509|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|5.7||||1|TWO_SIDED|95.0|-33.8|45.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||45.3|-33.8|1.000
82458510|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-7.6||||0.598|TWO_SIDED|95.0|-29.9|14.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.6|-29.9|0.598
82542032|NCT04956575|164783408|OTHER||Percent Difference|38.34|||||TWO_SIDED|95.0|22.98|52.3|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||52.30|22.98|
82542033|NCT04956575|164783408|OTHER||Percent Difference|-9.78|||||TWO_SIDED|95.0|-24.83|3.79|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||3.79|-24.83|
82578212|NCT05602727|164865867|SUPERIORITY|Difference in LS Means|LS Mean Difference|-4.2||||0.081|TWO_SIDED|97.5|-9.6|1.3|||Longitudinal ANCOVA|||||1.3|-9.6|0.081
82458511|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-3.2||||1|TWO_SIDED|95.0|-30.7|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||24.3|-30.7|1.000
82458512|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|12.9||||0.468|TWO_SIDED|95.0|-24.7|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Non-responders, Week 52|Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|50.4|-24.7|0.468
82458513|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|6.2||||1|TWO_SIDED|95.0|-15.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||28.1|-15.7|1.000
82458514|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|15.1||||0.538|TWO_SIDED|95.0|-15.2|45.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||45.4|-15.2|0.538
82542034|NCT04956575|164783408|OTHER||Percent Difference|0.64|||||TWO_SIDED|95.0|-14.91|14.73|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||14.73|-14.91|
82458515|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-11.2||||0.692|TWO_SIDED|95.0|-48.0|25.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||25.6|-48.0|0.692
82458516|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-14.5||||0.388|TWO_SIDED|95.0|-46.9|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||17.9|-46.9|0.388
82458517|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-19.0||||0.418|TWO_SIDED|95.0|-54.8|16.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||16.9|-54.8|0.418
82458518|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-17.1||||0.448|TWO_SIDED|95.0|-54.1|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||20.0|-54.1|0.448
82458519|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-13.7||||0.43|TWO_SIDED|95.0|-47.4|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||19.9|-47.4|0.430
82458520|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-42.8|37.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||37.6|-42.8|1.000
82458521|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-21.2||||0.406|TWO_SIDED|95.0|-55.3|12.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||12.9|-55.3|0.406
82458522|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-14.5||||0.388|TWO_SIDED|95.0|-46.9|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||17.9|-46.9|0.388
82458523|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-7.8||||1|TWO_SIDED|95.0|-46.5|30.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||30.8|-46.5|1.000
82542035|NCT04956575|164783408|OTHER||Percent Difference|4.45|||||TWO_SIDED|95.0|-11.19|18.59|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||18.59|-11.19|
82578213|NCT02187159|164865868|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.183||0.0008|TWO_SIDED|95.0|-0.97|-0.25|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.25|-0.97|0.0008
82649989|NCT02257632|165015022|SUPERIORITY||Mean Difference (Final Values)|-11.46|||<|0.0001|TWO_SIDED|95.0|-15.98|-6.94||missing Baseline VEGF-A level covariate values were imputed by the mean value of non-missing Baseline VEGF-A level from all the patients with values|ANCOVA|including treatment group and center as fixed effect factors and Baseline VEGF-A as a covariate||||-6.94|-15.98|< 0.0001
82542036|NCT04956575|164783408|OTHER||Percent Difference|8.97|||||TWO_SIDED|95.0|-6.72|23.09|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||23.09|-6.72|
82542037|NCT04956575|164783408|OTHER||Percent Difference|15.13|||||TWO_SIDED|95.0|-0.74|29.37|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||29.37|-0.74|
82542038|NCT04956575|164783408|OTHER||Percent Difference|19.08|||||TWO_SIDED|95.0|3.22|33.22|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent. against Yamagata-lineage at Day 29.||33.22|3.22|
82649990|NCT00740727|165015063|SUPERIORITY_OR_OTHER||% of subjects with infusion pain|11.1||||||95.0|1.4|34.7|||95% binomial exact confidence interval|||This analysis reports the number of subjects (of 18 possible) who experienced pain, during EASI placement or infusion, at the a priori-defined level of at least 3 on a 10-point pain scale.||34.7|1.4|
82458524|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-25.3||||0.204|TWO_SIDED|95.0|-54.7|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||4.1|-54.7|0.204
82458525|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-2.0||||0.907|TWO_SIDED|95.0|-34.9|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||31.0|-34.9|0.907
82458526|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|-2.0||||1|TWO_SIDED|95.0|-40.2|36.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||36.3|-40.2|1.000
82458527|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|6.5||||1|TWO_SIDED|95.0|-28.4|41.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||41.3|-28.4|1.000
82458528|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|16.5||||0.45|TWO_SIDED|95.0|-15.5|48.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||48.4|-15.5|0.450
82458529|NCT02365649|164619846|SUPERIORITY||Risk Difference (RD)|9.8||||0.661|TWO_SIDED|95.0|-27.0|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||46.6|-27.0|0.661
82458530|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||77.5|-77.5|1.000
82458531|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|25.0||||0.608|TWO_SIDED|95.0|-20.8|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||70.8|-20.8|0.608
82458532|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||-15.4|-84.6|0.105
82458533|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||77.5|-77.5|1.000
82458534|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||49.0|-49.0|1.000
82542039|NCT04956575|164783409|OTHER||Percent Difference|9.18|||||TWO_SIDED|95.0|-10.62|28.31|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||28.31|-10.62|
82542040|NCT04956575|164783409|OTHER||Percent Difference|18.09|||||TWO_SIDED|95.0|-1.81|36.61|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||36.61|-1.81|
82578214|NCT02187159|164865868|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.183||0.0392|TWO_SIDED|95.0|-0.74|-0.02|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.02|-0.74|0.0392
82652381|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.096||||0.4572|TWO_SIDED|95.0|-0.349|0.158||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.158|-0.349|0.4572
82458535|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-30.0||||0.565|TWO_SIDED|95.0|-79.3|19.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|ANOVA||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||19.3|-79.3|0.565
82458536|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|50.0||||0.467|TWO_SIDED|95.0|15.4|84.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||84.6|15.4|0.467
82458537|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||49.0|-49.0|1.000
82458538|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-15.4|-84.6|0.105
82458539|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-64.5|89.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||89.5|-64.5|1.000
82458540|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||60.7|-35.7|1.000
82458541|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.0|-66.0|1.000
82458542|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|50.0||||0.467|TWO_SIDED|95.0|15.4|84.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||84.6|15.4|0.467
82458543|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||60.7|-35.7|1.000
82542041|NCT04956575|164783409|OTHER||Percent Difference|23.91|||||TWO_SIDED|95.0|4.2|41.86|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H1N1 at Day 29.||41.86|4.20|
82458544|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||-15.4|-84.6|0.105
82458545|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||72.9|-19.6|0.249
82458546|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||18.2|-28.2|1.000
82458547|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-13.3||||0.511|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.511
82458548|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|33.3||||0.14|TWO_SIDED|95.0|-11.4|78.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||78.1|-11.4|0.140
82578215|NCT02187159|164865868|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.183||0.2192|TWO_SIDED|95.0|-0.58|0.13|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.13|-0.58|0.2192
82542042|NCT04956575|164783409|OTHER||Percent Difference|1.15|||||TWO_SIDED|95.0|-18.41|20.6|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||20.60|-18.41|
82542043|NCT04956575|164783409|OTHER||Percent Difference|22.21|||||TWO_SIDED|95.0|2.09|40.6|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||40.60|2.09|
82542044|NCT04956575|164783409|OTHER||Percent Difference|36.68|||||TWO_SIDED|95.0|17.38|53.36|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against H3N2 at Day 29.||53.36|17.38|
82542045|NCT04956575|164783409|OTHER||Percent Difference|-37.71|||||TWO_SIDED|95.0|-53.36|-20.45|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||-20.45|-53.36|
82542046|NCT04956575|164783409|OTHER||Treatment Difference|-26.18|||||TWO_SIDED|95.0|-43.66|-6.9|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||-6.90|-43.66|
82542047|NCT04956575|164783409|OTHER||Percent Difference|-19.66|||||TWO_SIDED|95.0|-37.95|0.11|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Victoria-lineage at Day 29.||0.11|-37.95|
82542048|NCT04956575|164783409|OTHER||Percent Difference|-23.43|||||TWO_SIDED|95.0|-41.09|-4.26|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||-4.26|-41.09|
82542049|NCT04956575|164783409|OTHER||Percent Difference|-4.44|||||TWO_SIDED|95.0|-24.09|15.59|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of against Afluria Quadrivalent Yamagata-lineage at Day 29.||15.59|-24.09|
82578216|NCT02187159|164865868|SUPERIORITY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.184||0.2095|TWO_SIDED|95.0|-0.13|0.59|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.59|-0.13|0.2095
82578217|NCT02187159|164865868|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.185||0.0381|TWO_SIDED|95.0|0.02|0.75|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.75|0.02|0.0381
82652382|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.165||||0.2064|TWO_SIDED|95.0|-0.422|0.092||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 4||0.092|-0.422|0.2064
82542050|NCT04956575|164783409|OTHER||Percent Difference|-8.79|||||TWO_SIDED|95.0|-28.13|11.27|||||Seroconversion percent difference of mRNA-1010 - Afluria Quadrivalent. 95% CI was calculated using the Miettinen-Nurminen (score) method.|Humoral immunogenicity of mRNA-1010 relative to that of Afluria Quadrivalent against Yamagata-lineage at Day 29.||11.27|-28.13|
82542051|NCT03593876|164783415|OTHER||||||||||||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess mean participant-therapist communication scores across intervention sessions. The mean and standard deviation of these scores was 3.00 (1.00). The a priori criterion for feasibility was a mean score of 2.0 or greater.|||
82542052|NCT03593876|164783416|OTHER||Mean Difference (Net)|51.71|STANDARD_DEVIATION|21.04|||TWO_SIDED|||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess change scores and effect size of the change scores to compare with previously published clinical trials.|The repeated measures effect size of change was Cohen's d(rm)=3.08.|||
82542053|NCT03593876|164783417|OTHER||Mean Difference (Net)|11.02|STANDARD_DEVIATION|7.24|||TWO_SIDED|||||||||The a priori analysis plan was to defer statistical or hypothesis testing due to the focus on feasibility, and rather to assess change scores and effect size of the change scores to compare with previously published clinical trials.|The repeated measures effect size of change, Cohen's d(rm)=1.70|||
82542054|NCT00432458|164783418|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|Model was stratified by beta-2 microglobulin (high vs low), lytic bone lesions (present vs not) and bone marrow labeling index (high vs low)||||||0.02
82542055|NCT00432458|164783419|SUPERIORITY_OR_OTHER|||||||0.0048||95.0|||||Chi-squared|||||||0.0048
82542056|NCT00432458|164783420|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82542057|NCT00854906|164783425|NON_INFERIORITY_OR_EQUIVALENCE|This was a pilot study. Therefore, no formal power analyses were performed.|Mean Difference (Final Values)|0.666|STANDARD_DEVIATION|3.6||0.074|TWO_SIDED|95.0|-0.069|1.401|||t-test, 2 sided|||The paired T-test was used to compare mean KTBUT and mean FTBUT.||1.401|-0.069|0.074
82542058|NCT00854906|164783426|NON_INFERIORITY_OR_EQUIVALENCE|The analysis will evaluate the association between OSDI with KTBUT.|Pearson's Correlation, r|-0.34||||0.093|ONE_SIDED||||||Pearson's correlation|||A correlation was performed between ODSI questionnaire results and each participant's KTBUT.||||0.093
82578218|NCT02187159|164865870|SUPERIORITY||Mean Difference (Final Values)|-7.67|STANDARD_ERROR_OF_MEAN|1.598|<|0.0001|TWO_SIDED|95.0|-10.71|-4.44|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-4.44|-10.71|<0.0001
82578219|NCT02187159|164865870|SUPERIORITY||Mean Difference (Final Values)|-3.52|STANDARD_ERROR_OF_MEAN|1.613||0.0289|TWO_SIDED|95.0|-6.68|-0.36|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||-0.36|-6.68|0.0289
82578220|NCT02187159|164865870|SUPERIORITY||Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|1.625||0.1148|TWO_SIDED|95.0|-5.75|0.62|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||0.62|-5.75|0.1148
82578221|NCT02187159|164865870|SUPERIORITY||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|1.621||0.0125|TWO_SIDED|95.0|0.87|7.23|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||7.23|0.87|0.0125
82458549|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.0||||0.569|TWO_SIDED|95.0|-14.6|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||34.6|-14.6|0.569
82458550|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.5|-19.7|1.000
82458551|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||72.9|-19.6|0.249
82458552|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||18.2|-28.2|1.000
82458553|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-2.2||||1|TWO_SIDED|95.0|-29.0|24.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||24.6|-29.0|1.000
82458554|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|13.3||||0.613|TWO_SIDED|95.0|-35.1|61.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||61.8|-35.1|0.613
82458555|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-34.8|31.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||31.5|-34.8|1.000
82458556|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-15.6||||0.615|TWO_SIDED|95.0|-45.9|14.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||14.8|-45.9|0.615
82458557|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|20.0||||0.56|TWO_SIDED|95.0|-27.5|67.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||67.5|-27.5|0.560
82458558|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-26.8|36.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared|||Non-responders, Week 52||36.8|-26.8|1.000
82458559|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-8.9||||1|TWO_SIDED|95.0|-37.7|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||19.9|-37.7|1.000
82458560|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.1|-37.1|1.000
82458561|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.0||||0.588|TWO_SIDED|95.0|-26.1|46.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||46.1|-26.1|0.588
82458562|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-40.0||||0.058|TWO_SIDED|95.0|-64.8|-15.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||-15.2|-64.8|0.058
82458563|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|16.7||||0.631|TWO_SIDED|95.0|-29.9|63.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||63.2|-29.9|0.631
82458564|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|9.5||||0.597|TWO_SIDED|95.0|-25.7|44.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||44.8|-25.7|0.597
82458565|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-8.3||||1|TWO_SIDED|95.0|-46.7|30.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||30.0|-46.7|1.000
82458566|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|26.7||||0.361|TWO_SIDED|95.0|-18.5|71.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||71.8|-18.5|0.361
82458567|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-4.3||||0.812|TWO_SIDED|95.0|-39.6|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||31.0|-39.6|0.812
82458568|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-27.5||||0.345|TWO_SIDED|95.0|-61.3|6.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||6.3|-61.3|0.345
82649991|NCT00740727|165015064|SUPERIORITY_OR_OTHER||% subjects with next-day EASI site pain|0.0||||||97.5|0.0|18.5|||binomial exact confidence interval|Because the point estimate was zero, the statistical software (STATA version 10MP) reports a one-sided 97.5% confidence interval.||This analysis reports the number of subjects (of 18 possible) who experienced pain, as assessed on next-day follow-up (24 hours after EASI infusion), at the a priori-defined level of at least 3 on a 10-point pain scale.||18.5|0|
82649992|NCT05321810|165015070|OTHER|||||||0.016|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.016
82649993|NCT05321810|165015075|OTHER||Hazard Ratio (HR)|0.812||||0.013|TWO_SIDED|95.0|0.69|0.957|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.957|0.690|0.013
82649994|NCT05321810|165015081|OTHER|||||||0.002|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.002
82649995|NCT05321810|165015084|OTHER||||||<|0.001|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||<0.001
82649996|NCT05321810|165015085|OTHER||Hazard Ratio (HR)|0.57|||<|0.001|TWO_SIDED|95.0|0.42|0.773|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.773|0.420|<0.001
82649997|NCT05321810|165015087|OTHER|||||||0.35|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.350
82649998|NCT05321810|165015088|OTHER||Hazard Ratio (HR)|1.155||||0.324|TWO_SIDED|95.0|0.867|1.54|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.540|0.867|0.324
82649999|NCT05321810|165015090|OTHER|||||||0.111|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.111
82458569|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||57.1|-37.1|1.000
82458570|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.0||||0.588|TWO_SIDED|95.0|-26.1|46.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||46.1|-26.1|0.588
82458571|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-15.0||||0.657|TWO_SIDED|95.0|-53.9|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.9|-53.9|0.657
82650000|NCT05321810|165015091|OTHER||Hazard Ratio (HR)|0.866||||0.1|TWO_SIDED|95.0|0.73|1.028|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.028|0.730|0.100
82650001|NCT05321810|165015093|OTHER|||||||0.979|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||0.979
82650002|NCT05321810|165015094|OTHER||Hazard Ratio (HR)|1.002||||0.978|TWO_SIDED|95.0|0.854|1.177|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|1.177|0.854|0.978
82650003|NCT05321810|165015096|OTHER||||||<|0.001|||||||Log Rank|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|||<0.001
82650004|NCT05321810|165015097|OTHER||Hazard Ratio (HR)|0.428|||<|0.001|TWO_SIDED|95.0|0.263|0.697|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.697|0.263|<0.001
82650005|NCT05321810|165015101|OTHER||Hazard Ratio (HR)|0.727||||0.001|TWO_SIDED|95.0|0.599|0.881|||t-test, 2 sided|||Statistical analysis has been presented for all time points from 0 to 24 months.|\[Not specified\]|0.881|0.599|0.001
82650006|NCT00433381|165015130|OTHER|||||||||||||||||Null hypothesis: 20% of patients progression-free at six months. Alternative hypothesis: 35%. Type I and II error rates = 0.10. Required sample size = 57.|The determination of treatment efficacy was to be made made based on the following rules: If 16 or more of the cases (16/57=28.1%) are progression free and alive at 6 months, then reject the null hypothesis that the rate is no better than 20%. If 15 or fewer of the cases (15/57=26.3%) are progression free and alive at 6 months, then reject the alternative hypothesis that the rate is at least 35%.|||
82458572|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|20.0||||0.635|TWO_SIDED|95.0|-25.4|65.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||65.4|-25.4|0.635
82458573|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|10.5||||0.573|TWO_SIDED|95.0|-25.7|46.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||46.7|-25.7|0.573
82458574|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-34.2||||0.176|TWO_SIDED|95.0|-68.3|-0.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||-0.1|-68.3|0.176
82458575|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
82458576|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
82650007|NCT00433381|165015131|OTHER|||||||||||||||||Null hypothesis: 35% discontinuation rate of bevacizumab and temozolomide. Alternative hypothesis: 5%. Type I and II error rates = 0.10. Sample size = 29.|The determination of treatment tolerability was to be made based on the following rules: If 6 or fewer of the cases (6/29=20.6%) stop treatment due to medical conditions, then reject the null hypothesis that the discontinuation rate is at least 35% and conclude tolerability. If 7 or more of the cases (7/29=24.1%) stop treatment due to medical conditions, then reject the alternative hypothesis that the discontinuation rate no more than 15%.|||
82650008|NCT00433381|165015132|OTHER|Receiver Operating Characteristic (ROC) analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.09|0.91||||||Accuracy estimate, as measured by the Area under the Curve (AUC), for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 2 weeks||0.91|0.09|
82650009|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.54|||||TWO_SIDED|95.0|0.14|0.95||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 2 weeks||0.95|0.14|
82542059|NCT00854906|164783426|SUPERIORITY_OR_OTHER||Pearson's Correlation, r|-0.26||||0.216|||||||Pearson's Correlation|||A correlation was performed between ODSI questionnaire results and each participant's FTBUT.||||0.216
82650010|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.46|||||TWO_SIDED|95.0|0.0|0.99||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 2 weeks||0.99|0|
82650011|NCT00433381|165015132|OTHER||Area Under the Curve (AUC)|0.85|||||TWO_SIDED|95.0|0.53|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 8 weeks||1|0.53|
82458577|NCT02365649|164619847|SUPERIORITY||Risk Difference (RD)|-12.5||||1|TWO_SIDED|95.0|-35.4|10.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical non-responders, Week 44||10.4|-35.4|1.000
82458578|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||5.0|-55.0|1.000
82458579|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-32.5|57.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||57.5|-32.5|1.000
82458580|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||5.0|-55.0|0.487
82458581|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|11.1||||0.375|TWO_SIDED|95.0|-9.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ|Non-respoonders||31.6|-9.4|0.375
82542060|NCT04147897|164783427|SUPERIORITY||Difference in Difference|1.5||||0.06|TWO_SIDED||||||adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.28|||.06
82650012|NCT00433381|165015132|OTHER||Area Under the Curve (AUC)|0.83|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 8 weeks||1|0.47|
82650013|NCT00433381|165015132|OTHER||Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.11|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 8 weeks||1|0.11|
82542061|NCT04147897|164783427|SUPERIORITY||Difference-in-Difference|1.0||||0.25|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.19|||.25
82542062|NCT04147897|164783428|SUPERIORITY||difference in difference|0.7||||0.37|TWO_SIDED||||||adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.13|||0.37
82542063|NCT04147897|164783428|SUPERIORITY||Difference-in-Difference|0.6||||0.44|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.13|||.44
82542064|NCT04147897|164783429|SUPERIORITY||Difference-in-Difference|-0.4||||0.619|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: -0.07|||.619
82542065|NCT04147897|164783429|SUPERIORITY||Difference-in-Difference|1.5||||0.1|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.26|||0.10
82542066|NCT04147897|164783430|SUPERIORITY||Difference-in-Difference|1.9||||0.32|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.15|||.32
82542067|NCT04147897|164783430|SUPERIORITY||Difference-in-Difference|3.0||||0.16|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.23|||0.16
82542068|NCT04147897|164783431|SUPERIORITY||Difference-in-Difference|1.1||||0.31|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.15|||.31
82650014|NCT00433381|165015132|OTHER||Area Under the Curve (AUC)|0.75|||||TWO_SIDED|95.0|0.21|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cho at 16 weeks||1|0.21|
82542069|NCT04147897|164783431|SUPERIORITY||Difference-in-Difference|1.3||||0.28|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.17|||.28
82542070|NCT04147897|164783432|SUPERIORITY||Difference-in-Difference|0.5||||0.63|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.07|||.63
82650015|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor Cho/Cr at 16 weeks||1|1|
82458582|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||3.9|-30.5|1.000
82458583|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|8.1||||0.651|TWO_SIDED|95.0|-19.4|35.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||35.6|-19.4|0.651
82578222|NCT02187159|164865870|SUPERIORITY||Mean Difference (Final Values)|5.01|STANDARD_ERROR_OF_MEAN|1.647||0.0023|TWO_SIDED|95.0|1.78|8.24|||Difference of means|||Analysis was based on multiple imputation and pattern mixture model with delta shifting.||8.24|1.78|0.0023
82578223|NCT02187159|164865872|SUPERIORITY||Difference in least squares means|-1.2|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-1.8|-0.7|||ANCOVA|||||-0.7|-1.8|<0.0001
82578224|NCT02187159|164865872|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0247|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||||-0.1|-1.2|0.0247
82578225|NCT02187159|164865872|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0411|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||||-0.0|-1.1|0.0411
82578226|NCT02187159|164865872|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0352|TWO_SIDED|95.0|0.0|1.2|||ANCOVA|||||1.2|0.0|0.0352
82650016|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.46|||||TWO_SIDED|95.0|0.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of tumor NAA/Cr at 16 weeks||1|0|
82650017|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.39|||||TWO_SIDED|95.0|0.0|0.88||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 2 weeks||0.88|0|
82458584|NCT02365649|164619848|SUPERIORITY||Risk Difference (RD)|-0.8||||1|TWO_SIDED|95.0|-29.5|27.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||27.8|-29.5|1.000
82458585|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-77.5|77.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||77.5|-77.5|1.000
82458586|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-49.0|49.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||49.0|-49.0|1.000
82458587|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-50.0||||0.105|TWO_SIDED|95.0|-84.6|-15.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 20||-15.4|-84.6|0.105
82458588|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-64.5|89.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||89.5|-64.5|1.000
82458589|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-35.7|60.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||60.7|-35.7|1.000
82458590|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 28||31.0|-66.0|1.000
82458591|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|62.5||||0.444|TWO_SIDED|95.0|29.0|96.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||96.0|29.0|0.444
82458592|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|25.0||||0.619|TWO_SIDED|95.0|-22.4|72.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||72.4|-22.4|0.619
82458593|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-37.5||||0.231|TWO_SIDED|95.0|-71.0|-4.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 36||-4.0|-71.0|0.231
82458594|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-37.5||||1|TWO_SIDED|95.0|-71.0|-4.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||-4.0|-71.0|1.000
82458595|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|25.0||||0.619|TWO_SIDED|95.0|-22.4|72.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||72.4|-22.4|0.619
82650018|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.52|||||TWO_SIDED|95.0|0.13|0.91||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 2 weeks||0.91|0.13|
82458596|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-17.5||||1|TWO_SIDED|95.0|-66.0|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 44||31.0|-66.0|1.000
82458597|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|75.0||||0.133|TWO_SIDED|95.0|45.0|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||100.0|45.0|0.133
82458598|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|37.5||||0.315|TWO_SIDED|95.0|-7.5|82.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||82.5|-7.5|0.315
82542071|NCT04147897|164783432|SUPERIORITY||Difference-in-Difference|0.9||||0.46|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.12|||.46
82458599|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders, Week 52||5.0|-55.0|0.487
82458600|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|26.7||||0.249|TWO_SIDED|95.0|-19.6|72.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||72.9|-19.6|0.249
82458601|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-13.3||||0.487|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.487
82542072|NCT04147897|164783433|SUPERIORITY||Difference-in-Difference|-0.4||||0.67|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 3 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: -0.07|||0.67
82458602|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-13.3||||0.511|TWO_SIDED|95.0|-30.5|3.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 20||3.9|-30.5|0.511
82458603|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|33.3||||0.14|TWO_SIDED|95.0|-11.4|78.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||78.1|-11.4|0.140
82458604|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|10.0||||0.569|TWO_SIDED|95.0|-14.6|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||34.6|-14.6|0.569
82458605|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 28||28.5|-19.7|1.000
82458606|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|13.3||||0.447|TWO_SIDED|95.0|-23.9|50.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||50.6|-23.9|0.447
82458607|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-19.3|6.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||6.0|-19.3|1.000
82458608|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|4.4||||1|TWO_SIDED|95.0|-19.7|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 36||28.5|-19.7|1.000
82458609|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|20.0||||0.56|TWO_SIDED|95.0|-27.5|67.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||67.5|-27.5|0.560
82458610|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-20.0||||0.231|TWO_SIDED|95.0|-40.2|0.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||0.2|-40.2|0.231
82542073|NCT04147897|164783433|SUPERIORITY||Difference-in-Difference|0.7||||0.53|TWO_SIDED||||||Adjusted mixed-effects linear regression|||Mixed-effects linear models were used to analyze within-person changes from baseline to 6 months, accounting for repeated measures within participants and clustering of patients within agencies. Difference-in-differences estimates were derived to compare EF vs IF, with Cohen's d effect sizes calculated for each contrast.|Cohen's d: 0.10|||0.53
82561870|NCT04332991|164832911|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.61|1.72|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.72|0.61|
82650019|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.54|||||TWO_SIDED|95.0|0.06|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 2 weeks||1|0.06|
82458611|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-8.9||||1|TWO_SIDED|95.0|-37.7|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 44||19.9|-37.7|1.000
82458612|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|6.7||||1|TWO_SIDED|95.0|-32.4|45.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||45.7|-32.4|1.000
82458613|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-28.2|18.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||18.2|-28.2|1.000
82458614|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-2.2||||1|TWO_SIDED|95.0|-29.0|24.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders, Week 52||24.6|-29.0|1.000
82458615|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|10.0||||1|TWO_SIDED|95.0|-37.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||57.1|-37.1|1.000
82458616|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-11.4||||0.7|TWO_SIDED|95.0|-45.7|22.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||22.8|-45.7|0.700
82458617|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-40.0||||0.058|TWO_SIDED|95.0|-64.8|-15.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5). Prespecified statistical significance at the 0.1 level.|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 20||-15.2|-64.8|0.058
82458618|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||69.2|-22.5|0.354
82458619|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|16.2||||0.45|TWO_SIDED|95.0|-18.1|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||50.4|-18.1|0.450
82458620|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-1.7||||1|TWO_SIDED|95.0|-39.1|35.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 28||35.8|-39.1|1.000
82458621|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||69.2|-22.5|0.354
82458622|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|9.0||||0.7|TWO_SIDED|95.0|-24.6|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||42.7|-24.6|0.700
82458623|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-14.2||||0.621|TWO_SIDED|95.0|-46.2|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 36||17.9|-46.2|0.621
82458624|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-6.7||||1|TWO_SIDED|95.0|-51.8|38.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||38.5|-51.8|1.000
82578227|NCT02187159|164865872|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0214|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||||1.2|0.1|0.0214
82650020|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.47|||||TWO_SIDED|95.0|0.02|0.92||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 8 weeks||0.92|0.02|
82650021|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.41|||||TWO_SIDED|95.0|0.01|0.8||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 8 weeks||0.80|0.01|
82458625|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-4.3||||0.812|TWO_SIDED|95.0|-39.6|31.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||31.0|-39.6|0.812
82458626|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-15.0||||0.657|TWO_SIDED|95.0|-53.9|23.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 44||23.9|-53.9|0.657
82542074|NCT00114101|164783443|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This study was designed to have 80% power, with the use of the log-rank test at a one-sided significance level of 0.05, to detect a hazard ratio of 1.4, assuming proportional hazards and an exponential time to event distribution. Under the assumed framework, 309 events were expected. The expected drop out rate before randomization was 15%.|Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.26|0.53||Participants were randomized with the use of a permuted-block design stratified by beta 2 microglobulin, prior use of thalidomide and prior use of lenalidomide. TTP was monitored with the use of a group sequential design for superiority and futility.|Log Rank|||||0.53|0.26|<0.001
82542075|NCT00114101|164783445|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52||||0.7|TWO_SIDED|95.0|0.26|1.02|||Log Rank|||||1.02|0.26|0.70
82542076|NCT00114101|164783446|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.41|0.69|||Fisher Exact|||||0.69|0.41|<0.001
82542077|NCT05764161|164783447|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5859|TWO_SIDED|95.0|0.651|2.143|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||2.143|0.651|0.5859
82458627|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|23.3||||0.354|TWO_SIDED|95.0|-22.5|69.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||69.2|-22.5|0.354
82458628|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|16.2||||0.45|TWO_SIDED|95.0|-18.1|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||50.4|-18.1|0.450
82458629|NCT02365649|164619849|SUPERIORITY||Risk Difference (RD)|-14.2||||0.621|TWO_SIDED|95.0|-46.2|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders, Week 52||17.9|-46.2|0.621
82458630|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20%of the cells have expected cell count \<5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||95.6|-62.2|1.000
82458631|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||79.6|-21.3|0.592
82458632|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-64.8|38.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||38.2|-64.8|1.000
82458633|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-80.0|80.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||80.0|-80.0|1.000
82458634|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-39.7|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||64.7|-39.7|1.000
82458635|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-30.0||||0.545|TWO_SIDED|95.0|-83.2|23.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||23.2|-83.2|0.545
82542078|NCT05764161|164783447|SUPERIORITY||Response Rate Difference|3.81|STANDARD_ERROR_OF_MEAN|6.966|||TWO_SIDED|95.0|-9.84|17.46||||||||17.46|-9.84|
82650022|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.63|||||TWO_SIDED|95.0|0.22|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 8 weeks||1|0.22|
82542079|NCT05764161|164783448|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0741|TWO_SIDED|95.0|0.938|3.683|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||3.683|0.938|0.0741
82542080|NCT05764161|164783448|SUPERIORITY||Response Rate Difference|11.15|STANDARD_ERROR_OF_MEAN|6.162|||TWO_SIDED|95.0|-0.93|23.23||||||||23.23|-0.93|
82650023|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cho at 16 weeks||1|1|
82458636|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|50.0||||0.464|TWO_SIDED|95.0|10.0|90.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||90.0|10.0|0.464
82458637|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|12.5||||1|TWO_SIDED|95.0|-39.7|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||64.7|-39.7|1.000
82458638|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-50.0||||0.182|TWO_SIDED|95.0|-90.0|-10.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||-10.0|-90.0|0.182
82458639|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||95.6|-62.2|1.000
82458640|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||79.6|-21.3|0.592
82458641|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-13.3||||1|TWO_SIDED|95.0|-64.8|38.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||38.2|-64.8|1.000
82458642|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|66.7||||0.429|TWO_SIDED|95.0|28.9|100.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||100.0|28.9|0.429
82458643|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|29.2||||0.592|TWO_SIDED|95.0|-21.3|79.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||79.6|-21.3|0.592
82458644|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-33.3||||0.455|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||4.4|-71.1|0.455
82650024|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery Cho/Cr at 16 weeks||1|1|
82458645|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|31.7||||0.191|TWO_SIDED|95.0|-14.0|77.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||77.4|-14.0|0.191
82458646|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-22.1|22.1|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||22.1|-22.1|1.000
82458647|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-8.3||||1|TWO_SIDED|95.0|-24.0|7.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||7.3|-24.0|1.000
82458648|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|23.3||||0.538|TWO_SIDED|95.0|-24.5|71.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||71.2|-24.5|0.538
82542081|NCT05764161|164783449|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1493|TWO_SIDED|95.0|0.75|5.74|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||5.740|0.750|0.1493
82542082|NCT05764161|164783449|SUPERIORITY||Response Rate Difference|6.17|STANDARD_ERROR_OF_MEAN|4.257|||TWO_SIDED|95.0|-2.18|14.51||||||||14.51|-2.18|
82542083|NCT05764161|164783450|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0142|TWO_SIDED|95.0|1.193|6.033|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||6.033|1.193|0.0142
82650025|NCT00433381|165015132|OTHER|ROC analysis|Area Under the Curve (AUC)|0.93|||||TWO_SIDED|95.0|0.73|1.0||||||AUC (Accuracy) estimate for the prediction of PFS-6 by change in metabolic ratio of periphery NAA/Cr at 16 weeks||1|0.73|
82542084|NCT05764161|164783450|SUPERIORITY||Response Rate Difference|13.46|STANDARD_ERROR_OF_MEAN|5.384|||TWO_SIDED|95.0|2.9|24.01||||||||24.01|2.90|
82542085|NCT05764161|164783451|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0387|TWO_SIDED|95.0|1.06|8.897|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||8.897|1.060|0.0387
82542086|NCT05764161|164783451|SUPERIORITY||Response Rate Difference|9.49|STANDARD_ERROR_OF_MEAN|4.343|||TWO_SIDED|95.0|0.98|18.0||||||||18.00|0.98|
82542087|NCT05764161|164783453|SUPERIORITY||Least squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.244||0.0005|TWO_SIDED|95.0|-1.35|-0.39|||Mixed Model for Repeated Measures (MMRM)|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.39|-1.35|0.0005
82542088|NCT05764161|164783453|SUPERIORITY||Least squares Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.303||0.0007|TWO_SIDED|95.0|-1.64|-0.45|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.45|-1.64|0.0007
82542089|NCT05764161|164783453|SUPERIORITY||Least squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.367||0.0036|TWO_SIDED|95.0|-1.81|-0.36|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.36|-1.81|0.0036
82578228|NCT02187159|164865873|SUPERIORITY||Difference of least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.26||0.0003|TWO_SIDED|95.0|-1.5|-0.4|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||-0.4|-1.5|0.0003
82650026|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.42|||||TWO_SIDED|95.0|0.0|0.92||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 2 weeks||0.92|0|
82458649|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-29.8|29.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||29.8|-29.8|1.000
82458650|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-4.2||||1|TWO_SIDED|95.0|-35.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||27.0|-35.3|1.000
82650027|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.42|||||TWO_SIDED|95.0|0.0|0.88||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 2 weeks||0.88|0|
82458651|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|11.7||||0.515|TWO_SIDED|95.0|-26.7|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||50.1|-26.7|0.515
82542090|NCT05764161|164783453|SUPERIORITY||Least squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.396||0.0287|TWO_SIDED|95.0|-1.65|-0.09|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||-0.09|-1.65|0.0287
82542091|NCT05764161|164783455|SUPERIORITY||Hazard Ratio (HR)|1.783||||0.0005|TWO_SIDED|95.0|1.288|2.468|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.468|1.288|0.0005
82542092|NCT05764161|164783456|SUPERIORITY||Hazard Ratio (HR)|1.477||||0.0399|TWO_SIDED|95.0|1.015|2.15|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.150|1.015|0.0399
82458652|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-22.1|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||22.1|-22.1|1.000
82542093|NCT05764161|164783459|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.249||0.0016|TWO_SIDED|95.0|-1.29|-0.31|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.31|-1.29|0.0016
82542094|NCT05764161|164783459|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.32||0.0071|TWO_SIDED|95.0|-1.51|-0.24|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.24|-1.51|0.0071
82542095|NCT05764161|164783459|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.369||0.0198|TWO_SIDED|95.0|-1.6|-0.14|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.14|-1.60|0.0198
82542096|NCT05764161|164783459|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.403||0.1384|TWO_SIDED|95.0|-1.4|0.2|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||0.20|-1.40|0.1384
82578229|NCT02187159|164865873|SUPERIORITY||Difference of least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5066|TWO_SIDED|95.0|-0.7|0.3|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.3|-0.7|0.5066
82578230|NCT02187159|164865873|SUPERIORITY||Difference of least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.26||0.1462|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.1|-0.9|0.1462
82578231|NCT02187159|164865873|SUPERIORITY||Difference of least squares means|0.8|STANDARD_ERROR_OF_MEAN|0.26||0.0035|TWO_SIDED|95.0|0.3|1.3|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.3|0.3|0.0035
82458653|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|4.2||||1|TWO_SIDED|95.0|-23.6|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||31.9|-23.6|1.000
82458654|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|23.3||||0.538|TWO_SIDED|95.0|-24.5|71.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||71.2|-24.5|0.538
82458655|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-16.7||||0.478|TWO_SIDED|95.0|-37.8|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||4.4|-37.8|0.478
82458656|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-4.2||||1|TWO_SIDED|95.0|-35.3|27.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||27.0|-35.3|1.000
82458657|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|11.7||||0.515|TWO_SIDED|95.0|-26.7|50.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||50.1|-26.7|0.515
82458658|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-17.9|34.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||34.6|-17.9|1.000
82458659|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|4.2||||1|TWO_SIDED|95.0|-23.6|31.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||31.9|-23.6|1.000
82458660|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|25.0||||0.344|TWO_SIDED|95.0|-21.9|71.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||71.9|-21.9|0.344
82542097|NCT05764161|164783465|SUPERIORITY||Least Squares Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.744||0.0759|TWO_SIDED|95.0|-2.8|0.14|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||0.14|-2.80|0.0759
82458661|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|17.9||||0.429|TWO_SIDED|95.0|-17.8|53.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||53.5|-17.8|0.429
82458662|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-10.7||||1|TWO_SIDED|95.0|-46.4|25.0|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 20||25.0|-46.4|1.000
82458663|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|8.3||||1|TWO_SIDED|95.0|-40.4|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||57.1|-40.4|1.000
82458664|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|8.3||||0.671|TWO_SIDED|95.0|-29.9|46.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||46.6|-29.9|0.671
82458665|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-13.1||||0.656|TWO_SIDED|95.0|-56.7|30.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 28||30.5|-56.7|0.656
82542098|NCT05764161|164783465|SUPERIORITY||Least Squares Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.809||0.1447|TWO_SIDED|95.0|-2.78|0.41|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||0.41|-2.78|0.1447
82542099|NCT05764161|164783465|SUPERIORITY||Least Squares Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.9||0.3395|TWO_SIDED|95.0|-2.64|0.91|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||0.91|-2.64|0.3395
82542100|NCT05764161|164783465|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.943||0.4794|TWO_SIDED|95.0|-2.53|1.19|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||1.19|-2.53|0.4794
82458666|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|16.7||||0.627|TWO_SIDED|95.0|-31.4|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||64.7|-31.4|0.627
82650028|NCT00433381|165015133|OTHER|ROC analysis|Accuracy: Area Under the ROC|0.67|||||TWO_SIDED|95.0|0.25|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 2 weeks||1|0.25|
82458667|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|9.5||||0.701|TWO_SIDED|95.0|-27.7|46.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||46.7|-27.7|0.701
82458668|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-19.0||||0.603|TWO_SIDED|95.0|-56.2|18.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 36||18.1|-56.2|0.603
82458669|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|16.7||||0.627|TWO_SIDED|95.0|-31.4|64.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||64.7|-31.4|0.627
82458670|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|2.4||||1|TWO_SIDED|95.0|-34.2|39.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||39.0|-34.2|1.000
82458671|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-4.8||||1|TWO_SIDED|95.0|-47.6|38.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 44||38.0|-47.6|1.000
82458672|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|25.0||||0.344|TWO_SIDED|95.0|-21.9|71.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||71.9|-21.9|0.344
82542101|NCT05764161|164783467|SUPERIORITY||Least Squares Mean Difference|2.59|STANDARD_ERROR_OF_MEAN|2.522||0.3053|TWO_SIDED|95.0|-2.38|7.57|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||7.57|-2.38|0.3053
82542102|NCT05764161|164783467|SUPERIORITY||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|2.45||0.3893|TWO_SIDED|95.0|-2.72|6.95|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||6.95|-2.72|0.3893
82542103|NCT05764161|164783467|SUPERIORITY||Least Squares Mean Difference|2.82|STANDARD_ERROR_OF_MEAN|2.371||0.2357|TWO_SIDED|95.0|-1.86|7.5|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||7.50|-1.86|0.2357
82458673|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|25.0||||0.248|TWO_SIDED|95.0|-10.9|60.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||60.9|-10.9|0.248
82458674|NCT02365649|164619850|SUPERIORITY||Risk Difference (RD)|-10.7||||1|TWO_SIDED|95.0|-46.4|25.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical Responders, Week 52||25.0|-46.4|1.000
82458675|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||5.0|-55.0|1.000
82458676|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|25.0||||0.608|TWO_SIDED|95.0|-20.8|70.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||70.8|-20.8|0.608
82542104|NCT05764161|164783467|SUPERIORITY||Least Squares Mean Difference|1.41|STANDARD_ERROR_OF_MEAN|2.567||0.5839|TWO_SIDED|95.0|-3.66|6.47|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||6.47|-3.66|0.5839
82542105|NCT03718767|164783479|OTHER||Hazard Ratio (HR)|1.0||||0.623|TWO_SIDED||||||Regression, Cox|||||||0.623
82650029|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 8 weeks||1|0.47|
82542106|NCT03718767|164783479|OTHER||Hazard Ratio (HR)|1.73||||0.073|TWO_SIDED||||||Regression, Cox|||||||0.073
82650030|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.78|||||TWO_SIDED|95.0|0.44|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 8 weeks||1|0.44|
82650031|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.17|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 8 weeks||1|0.17|
82458677|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|-25.0||||0.487|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders||5.0|-55.0|0.487
82458678|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|20.0||||0.25|TWO_SIDED|95.0|-15.1|55.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||55.1|-15.1|0.250
82458679|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|8.3||||0.444|TWO_SIDED|95.0|-7.3|24.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||24.0|-7.3|0.444
82458680|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|11.1||||0.375|TWO_SIDED|95.0|-9.4|31.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders||31.6|-9.4|0.375
82458681|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|3.3||||1|TWO_SIDED|95.0|-31.1|37.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||37.8|-31.1|1.000
82458682|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|22.4||||0.215|TWO_SIDED|95.0|-8.0|52.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||52.8|-8.0|0.215
82458683|NCT02365649|164619851|SUPERIORITY||Risk Difference (RD)|-0.8||||1|TWO_SIDED|95.0|-29.5|27.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders||27.8|-29.5|1.000
82458684|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||0.671|TWO_SIDED|95.0|-55.5|25.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||25.5|-55.5|0.671
82458685|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|10.0||||0.718|TWO_SIDED|95.0|-19.8|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||39.8|-19.8|0.718
82458686|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||0.461|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||22.4|-52.4|0.461
82458687|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-50.0||||0.03|TWO_SIDED|95.0|-85.5|-14.5||Statistically significant at 0.05 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||-14.5|-85.5|0.030
82458688|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-12.5||||0.483|TWO_SIDED|95.0|-42.9|17.9|||Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||17.9|-42.9|0.483
82458689|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||0.431|TWO_SIDED|95.0|-50.8|20.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||20.8|-50.8|0.431
82458690|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-31.1|41.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||41.1|-31.1|1.000
82458691|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-7.5||||0.635|TWO_SIDED|95.0|-38.6|23.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||23.6|-38.6|0.635
82650032|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.45|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cho at 16 weeks||1|0.45|
82458692|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-40.0||||0.056|TWO_SIDED|95.0|-74.8|-5.2||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||-5.2|-74.8|0.056
82458693|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-7.5||||1|TWO_SIDED|95.0|-47.5|32.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||32.5|-47.5|1.000
82458694|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|17.5||||0.296|TWO_SIDED|95.0|-14.7|49.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||49.7|-14.7|0.296
82458695|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-42.4|32.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||32.4|-42.4|1.000
82458696|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-5.0||||1|TWO_SIDED|95.0|-45.9|35.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||35.9|-45.9|1.000
82542107|NCT01290224|164783488|NON_INFERIORITY_OR_EQUIVALENCE|A one-sided McNemar's test of the primary endpoint with 10 patients will have 86% power at 5% Type I error rate to detect a 60% difference in the percentage of at least 50% reduction in the scrambler and sham procedure, based on the assumption that the proportion of discordant pairs is at 70%.||||||0.763||95.0|||||McNemar|||McNemar's test was used to test for a difference between Scrambler and Sham procedure in their success rate.||||0.7630
82542108|NCT05694065|164783495|OTHER||||||||||||||||||The diagnostic discrimination ability of UFR was analyzed by ROC curve analysis using the DeLong method. Cutoff value of ≤0.80 was used for FFR and UFR to define the physiological significance of a coronary stenosis, with two-sided P\<0.05 considered statistically significant.|||
82542109|NCT05694065|164783499|OTHER||||||||||||||||||The diagnostic discrimination abilities of UFR and MLA were compared by ROC curves analysis using the DeLong method. A prespecified MLA cutoff value was applied based on the prior study. Cutoff value of ≤0.80 was used for FFR and UFR to define the physiological significance of a coronary stenosis, with two-sided P\<0.05 considered statistically significant.|||
82542110|NCT03861767|164783500|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.67|1.97||||||Low dose groups collapsed and compared to placebo||1.97|0.67|
82542111|NCT03861767|164783500|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.42|1.25||||||Intermediate dose groups were collapsed and compared to placebo||1.25|0.42|
82542112|NCT03861767|164783500|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.61|1.84||||||High dose groups were collapsed and compared to placebo||1.84|0.61|
82542113|NCT03861767|164783501|SUPERIORITY||Odds Ratio (OR)|1.03||||0.92|TWO_SIDED|95.0|0.52|2.03|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.03|0.52|0.92
82458697|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|13.8||||0.4|TWO_SIDED|95.0|-17.7|45.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||45.2|-17.7|0.400
82542114|NCT03861767|164783502|SUPERIORITY||Odds Ratio (OR)|1.08||||0.8|TWO_SIDED|95.0|0.52|2.0|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.00|0.52|0.80
82650033|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.73|||||TWO_SIDED|95.0|0.19|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor Cho/Cr at 16 weeks||1|0.19|
82458698|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||0.439|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||22.4|-52.4|0.439
82542115|NCT03861767|164783503|SUPERIORITY||Odds Ratio (OR)|1.23||||0.65|TWO_SIDED|95.0|0.49|3.11|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||3.11|0.49|0.65
82542116|NCT03861767|164783504|SUPERIORITY||Odds Ratio (OR)|1.62||||0.23|TWO_SIDED|95.0|0.73|3.62|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||3.62|0.73|0.23
82542117|NCT03861767|164783505|SUPERIORITY||Odds Ratio (OR)|1.42||||0.31|TWO_SIDED|95.0|0.71|2.86|||Regression, Logistic|||All intervention groups were grouped together and compared to placebo||2.86|0.71|0.31
82542118|NCT03861767|164783506|SUPERIORITY||Beta-coefficient|0.0011|STANDARD_ERROR_OF_MEAN|0.042||0.97|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.97
82542119|NCT03861767|164783507|SUPERIORITY||Beta-coefficient|-0.76|STANDARD_ERROR_OF_MEAN|0.74||0.3|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.30
82542120|NCT03861767|164783508|SUPERIORITY||Beta-coefficient|0.27|STANDARD_ERROR_OF_MEAN|0.59||0.65|TWO_SIDED||||||Regression, Linear|||All intervention groups were grouped together and compared to placebo||||0.65
82542121|NCT03861767|164783510|SUPERIORITY||Odds Ratio (OR)|1.45||||0.27|TWO_SIDED|95.0|0.74|2.86|||Regression, Logistic|||||2.86|0.74|0.27
82542122|NCT03861767|164783511|SUPERIORITY||Odds Ratio (OR)|2.98||||0.01|TWO_SIDED|95.0|1.19|7.44|||Regression, Logistic|||All intervention groups were collapsed and compared to placebo||7.44|1.19|0.01
82458699|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|21.9||||0.259|TWO_SIDED|95.0|-12.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||56.6|-12.8|0.259
82458700|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.5||||0.31|TWO_SIDED|95.0|-30.6|9.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||9.7|-30.6|0.310
82458701|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-19.4||||0.097|TWO_SIDED|95.0|-38.8|-0.1||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||-0.1|-38.8|0.097
82458702|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|24.4||||0.181|TWO_SIDED|95.0|-8.5|57.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||57.2|-8.5|0.181
82458703|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|2.0||||0.826|TWO_SIDED|95.0|-15.9|20.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||20.0|-15.9|0.826
82458704|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-21.2|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||16.1|-21.2|1.000
82458705|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|14.4||||0.369|TWO_SIDED|95.0|-16.7|45.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||45.4|-16.7|0.369
82542123|NCT03861767|164783512|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.01|TWO_SIDED|95.0|1.34|5.3|||Regression, Logistic|||All intervention groups were collapsed and compared to placebo||5.30|1.34|<0.01
82542124|NCT03861767|164783513|SUPERIORITY||Odds Ratio (OR)|0.9||||0.72|TWO_SIDED|95.0|0.52|1.56|||Regression, Logistic|||All intervention groups were collapsed into one group and compared with placebo. Patients were compared whether they were discharged home or other.||1.56|0.52|0.72
82542125|NCT00346333|164783515|SUPERIORITY_OR_OTHER|||||||0.66||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||"Primary Analysis:Proc mixed of the Statistical Analysis System (SAS) was used to compare annual rates of change by treatment group over 4 years.~Power Calculation:240 patients were estimated to be needed to provide sufficient power (i.e. alpha=0.05;beta=0.10)to observe a statistically significant difference between mean change in the 2 groups on the HFA 30-2 total point score over a 4-year interval."||||0.66
82542126|NCT00346333|164783515|SUPERIORITY_OR_OTHER|||||||0.52||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.52
82458706|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-0.9||||1|TWO_SIDED|95.0|-18.2|16.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||16.4|-18.2|1.000
82458707|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-2.6||||1|TWO_SIDED|95.0|-21.2|16.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||16.1|-21.2|1.000
82542127|NCT00346333|164783516|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Primary Analysis: Proc Mixed of SAS was used to compare annual rates of change by treatment group over four years.The unit of analysis was the eye. Each patient contributed 2, 1, or 0 eyes with non-missing data.||||0.05
82458708|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|11.3||||0.66|TWO_SIDED|95.0|-20.2|42.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||42.7|-20.2|0.660
82458709|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-1.1||||0.908|TWO_SIDED|95.0|-19.7|17.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||17.5|-19.7|0.908
82458710|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.1||||0.446|TWO_SIDED|95.0|-27.8|7.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||7.7|-27.8|0.446
82458711|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|20.6||||0.135|TWO_SIDED|95.0|-9.5|50.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||50.8|-9.5|0.135
82458712|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|11.2||||0.306|TWO_SIDED|95.0|-5.7|28.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||28.1|-5.7|0.306
82458713|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|3.7||||0.686|TWO_SIDED|95.0|-13.4|20.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||20.7|-13.4|0.686
82458714|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|4.9||||0.754|TWO_SIDED|95.0|-25.4|35.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||35.2|-25.4|0.754
82458715|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-7.7||||0.548|TWO_SIDED|95.0|-32.6|17.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||17.3|-32.6|0.548
82458716|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-22.5||||0.12|TWO_SIDED|95.0|-50.1|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||5.0|-50.1|0.120
82458717|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-13.4||||0.403|TWO_SIDED|95.0|-44.5|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||17.7|-44.5|0.403
82458718|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-8.0||||0.533|TWO_SIDED|95.0|-33.0|17.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||17.0|-33.0|0.533
82650034|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.57|||||TWO_SIDED|95.0|0.03|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of tumor NAA/Cr at 16 weeks||1|0.03|
82458719|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-8.9||||0.539|TWO_SIDED|95.0|-37.2|19.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||19.4|-37.2|0.539
82542128|NCT00346333|164783516|SUPERIORITY_OR_OTHER|||||||0.03||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.03
82650035|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.6|||||TWO_SIDED|95.0|0.2|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 2 weeks||1|0.20|
82458720|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|4.9||||0.754|TWO_SIDED|95.0|-25.4|35.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||35.2|-25.4|0.754
82458721|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-14.5||||0.256|TWO_SIDED|95.0|-39.4|10.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||10.3|-39.4|0.256
82458722|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-27.8||||0.055|TWO_SIDED|95.0|-54.7|-0.8||Statistically significant at 0.1 level.|Chi-squared|P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||-0.8|-54.7|0.055
82650036|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.72|||||TWO_SIDED|95.0|0.36|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 2 weeks||1|0.36|
82458723|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|2.2||||0.887|TWO_SIDED|95.0|-28.8|33.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||33.2|-28.8|0.887
82458724|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|14.5||||0.256|TWO_SIDED|95.0|-10.3|39.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||39.4|-10.3|0.256
82458725|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-9.0||||0.518|TWO_SIDED|95.0|-36.0|17.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||17.9|-36.0|0.518
82458726|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|6.3||||0.695|TWO_SIDED|95.0|-25.1|37.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||37.6|-25.1|0.695
82458727|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|11.4||||0.373|TWO_SIDED|95.0|-13.5|36.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||36.4|-13.5|0.373
82458728|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-6.9||||0.628|TWO_SIDED|95.0|-34.6|20.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||20.8|-34.6|0.628
82458729|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||1|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||0.6|-30.6|1.000
82542129|NCT00346333|164783517|SUPERIORITY_OR_OTHER|||||||0.24||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Primary analysis:Proc Mixed of SAS was used to compare annual rates of change by treatment group over four years.The unit of analysis was the eye.Each patient contributed 2,1,or 0 eyes with non-missing data.||||0.24
82542130|NCT00346333|164783517|SUPERIORITY_OR_OTHER|||||||0.2||||||Apriori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Clustered Wilcoxon|||Secondary Analysis: As change distribution was non-normal, slope for each eye was calculated with least squares regression and converted to ranks. The Clustered Wilcoxon test was used to compare slope distributions between groups accounting for correlation between slopes for eyes within individuals.||||0.20
82650037|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.06|0.94||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 2 weeks||0.94|0.06|
82458730|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-22.4|20.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||20.9|-22.4|1.000
82542131|NCT00346333|164783518|SUPERIORITY_OR_OTHER|||||||0.59||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Proc MIXED of SAS was used to compare annual rates of change over four years between the treatment groups.||||0.59
82542132|NCT00346333|164783519|SUPERIORITY_OR_OTHER|||||||0.8||||||A priori threshold for statistical significance= 0.05. Annual assessments of data by data monitoring board were done with p-values adjusted using the O'Brien-Fleming rule for intermediate looks.|Longitudinal regression analysis|||Proc MIXED of SAS was used to compare annual rates of change over 4 years between the 2 groups.||||0.80
82542133|NCT03515304|164783590|SUPERIORITY|||||||0.2497|||||||t-test, 2 sided|||||||0.2497
82650038|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.58|||||TWO_SIDED|95.0|0.22|0.95||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 8 weeks||0.95|0.22|
82458731|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-15.0||||0.251|TWO_SIDED|95.0|-30.6|0.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||0.6|-30.6|0.251
82458732|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||3.1|-23.1|1.000
82650039|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.5|||||TWO_SIDED|95.0|0.13|0.87||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 8 weeks||0.87|0.13|
82542134|NCT03684265|164783606|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|92.74|STANDARD_ERROR_OF_MEAN|8.66|||TWO_SIDED|95.0|89.02|96.62|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for AUC0-t. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||96.62|89.02|
82542135|NCT03684265|164783607|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|78.94|STANDARD_ERROR_OF_MEAN|14.57|||TWO_SIDED|90.0|73.7|84.56|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for Cmax. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||84.56|73.70|
82458733|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||17.7|-18.7|1.000
82458734|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||3.1|-23.1|0.501
82458735|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|9.5||||0.488|TWO_SIDED|95.0|-3.0|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||22.1|-3.0|0.488
82458736|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|1.000
82458737|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.0||||0.232|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|0.232
82458738|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|-10.0||||0.501|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|0.501
82458739|NCT02365649|164619852|SUPERIORITY||Risk Difference (RD)|9.5||||0.488|TWO_SIDED|95.0|-3.0|22.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||22.1|-3.0|0.488
82458740|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|20.0||||0.295|TWO_SIDED|95.0|2.5|37.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||37.5|2.5|0.295
82458741|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|13.8||||0.355|TWO_SIDED|95.0|-7.4|34.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||34.9|-7.4|0.355
82458742|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-20.0||||0.384|TWO_SIDED|95.0|-55.1|15.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 20||15.1|-55.1|0.384
82458743|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-22.5||||0.311|TWO_SIDED|95.0|-59.5|14.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||14.5|-59.5|0.311
82458744|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-16.3||||0.422|TWO_SIDED|95.0|-43.8|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||11.3|-43.8|0.422
82458745|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-25.0||||0.181|TWO_SIDED|95.0|-59.2|9.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 28||9.2|-59.2|0.181
82458746|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|25.0||||0.281|TWO_SIDED|95.0|6.0|44.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||44.0|6.0|0.281
82458747|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-28.5|28.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||28.5|-28.5|1.000
82458748|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-25.0||||0.231|TWO_SIDED|95.0|-61.3|11.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 36||11.3|-61.3|0.231
82458749|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|27.5||||0.214|TWO_SIDED|95.0|-3.9|58.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||58.9|-3.9|0.214
82458750|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|21.3||||0.277|TWO_SIDED|95.0|-7.5|50.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||50.0|-7.5|0.277
82458751|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-20.0||||0.442|TWO_SIDED|95.0|-57.2|17.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 44||17.2|-57.2|0.442
82458752|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|20.0||||0.419|TWO_SIDED|95.0|-17.1|57.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||57.1|-17.1|0.419
82458753|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|20.0||||0.214|TWO_SIDED|95.0|-10.4|50.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||50.4|-10.4|0.214
82458754|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-15.0||||0.439|TWO_SIDED|95.0|-52.4|22.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Responders, Week 52||22.4|-52.4|0.439
82650040|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.78|||||TWO_SIDED|95.0|0.47|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 8 weeks||1|0.47|
82458755|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|23.1||||0.284|TWO_SIDED|95.0|-10.1|56.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||56.4|-10.1|0.284
82458756|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|0.2||||0.988|TWO_SIDED|95.0|-23.9|24.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||24.3|-23.9|0.988
82458757|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-12.1||||0.37|TWO_SIDED|95.0|-38.1|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 20||13.9|-38.1|0.370
82458758|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|25.6||||0.268|TWO_SIDED|95.0|-8.9|60.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||60.2|-8.9|0.268
82458759|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-5.0||||0.665|TWO_SIDED|95.0|-27.4|17.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||17.5|-27.4|0.665
82458760|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-3.9||||0.759|TWO_SIDED|95.0|-28.9|21.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 28||21.0|-28.9|0.759
82650041|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cho at 16 weeks||1|1|
82458761|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|21.9||||0.259|TWO_SIDED|95.0|-12.8|56.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||56.6|-12.8|0.259
82458762|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-1.7||||0.88|TWO_SIDED|95.0|-23.2|19.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||19.9|-23.2|0.880
82458763|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-10.7||||0.355|TWO_SIDED|95.0|-32.7|11.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 36||11.2|-32.7|0.355
82458764|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-27.1|37.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||37.1|-27.1|1.000
82458765|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|4.4||||0.688|TWO_SIDED|95.0|-17.0|25.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||25.9|-17.0|0.688
82458766|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|1.1||||0.927|TWO_SIDED|95.0|-22.3|24.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 44||24.5|-22.3|0.927
82458767|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|27.5||||0.075|TWO_SIDED|95.0|-5.0|60.0||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||60.0|-5.0|0.075
82458768|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|14.0||||0.154|TWO_SIDED|95.0|-4.8|32.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||32.7|-4.8|0.154
82542136|NCT03684265|164783608|EQUIVALENCE|Bioequivalence acceptance range for the ratio of geometric means was 80- 125%|Geometric mean ratio T/R, %|97.04|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|90.0|92.57|101.72|||||Standard error of the mean is actually intra individual coefficient of variation.|Relative bioavailability comparison of Movalis® capsules (T) with Movalis® tablets (R) for AUC0-∞. The analysis of variance (ANOVA) model in the log scale was used. This model included the sequence, period and type of therapy as fixed effects and the effect study subjects grouped within the sequence was considered random||101.72|92.57|
82458769|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|4.9||||0.707|TWO_SIDED|95.0|-14.4|24.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Non-responders, Week 52||24.2|-14.4|0.707
82458770|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|25.0||||0.085|TWO_SIDED|95.0|10.0|40.0||Statistically significant at 0.1 level. P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||40.0|10.0|0.085
82458771|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|14.7||||0.137|TWO_SIDED|95.0|-4.0|33.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||33.3|-4.0|0.137
82458772|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-11.8||||0.37|TWO_SIDED|95.0|-38.2|14.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 20||14.5|-38.2|0.370
82542137|NCT03946670|164783609|SUPERIORITY|||||||0.769|||||||Cochran-Mantel-Haenszel|stratified by the randomization stratification factor IPSS-R category||||||0.769
82542138|NCT03946670|164783610|SUPERIORITY||Cox Proportional Hazard|0.749||||0.1022|TWO_SIDED|95.0|0.479|1.173|||Log Rank|stratified by the randomization stratification factor IPSS-R category||||1.173|0.479|0.1022
82542139|NCT03946670|164783611|SUPERIORITY||Hazard Ratio (HR)|0.795|||||TWO_SIDED|95.0|0.521|1.212|||||Cox model stratified by IPSS-R score as per IRT|||1.212|0.521|
82542140|NCT03946670|164783612|SUPERIORITY||Hazard Ratio (HR)|0.808|||||TWO_SIDED|95.0|0.542|1.205|||||Cox model stratified by IPSS-R score as per Interactive Response Technology (IRT)|||1.205|0.542|
82542141|NCT03946670|164783613|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.589|1.343|||||Cox model stratified by IPSS-R score as per IRT|||1.343|0.589|
82542142|NCT03946670|164783614|SUPERIORITY||Hazard Ratio (HR)|0.906|||||TWO_SIDED|95.0|0.57|1.44|||||Cox model stratified by IPSS-R score as per IRT|||1.440|0.570|
82458773|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-3.6||||1|TWO_SIDED|95.0|-31.6|24.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||24.4|-31.6|1.000
82458774|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-16.4||||0.174|TWO_SIDED|95.0|-39.8|7.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||7.0|-39.8|0.174
82458775|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-17.1||||0.203|TWO_SIDED|95.0|-43.9|9.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 28||9.7|-43.9|0.203
82458776|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|20.1||||0.286|TWO_SIDED|95.0|-4.5|44.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||44.7|-4.5|0.286
82458777|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-3.6||||0.773|TWO_SIDED|95.0|-27.7|20.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||20.6|-27.7|0.773
82458778|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-23.5||||0.101|TWO_SIDED|95.0|-51.2|4.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 36||4.1|-51.2|0.101
82458779|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|15.2||||0.332|TWO_SIDED|95.0|-14.1|44.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||44.4|-14.1|0.332
82458780|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|16.2||||0.189|TWO_SIDED|95.0|-7.5|39.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||39.8|-7.5|0.189
82542143|NCT03946670|164783616|SUPERIORITY||Hazard Ratio (HR)|0.664|||||TWO_SIDED|95.0|0.24|1.838|||||Cox model stratified by IPSS-R score as per IRT|||1.838|0.240|
82542144|NCT03946670|164783617|SUPERIORITY||Hazard Ratio (HR)|1.237|||||TWO_SIDED|95.0|0.588|2.601|||||Cox model stratified by IPSS-R score as per IRT|||2.601|0.588|
82458781|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-14.1||||0.329|TWO_SIDED|95.0|-42.2|13.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 44||13.9|-42.2|0.329
82458782|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|24.6||||0.124|TWO_SIDED|95.0|-4.8|53.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||53.9|-4.8|0.124
82458783|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|15.2||||0.234|TWO_SIDED|95.0|-9.5|39.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||39.9|-9.5|0.234
82542145|NCT00588770|164783652|SUPERIORITY|||||||0.22||||||The P value was based on stratified log rank test, stratified by choice of chemotherapy combination, performance status, weight loss in the last 6 months, and prior radiation of the head and neck.|Log Rank|||The study hypothesis is that the addition of bevacizumab will improve the median survival by 35% from 8.5 months (based on E1395 and E5397) to 11.5 months.||||0.22
82542146|NCT00843882|164783672|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82458784|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-10.0||||0.484|TWO_SIDED|95.0|-37.8|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical responders, Week 52||17.7|-37.8|0.484
82542147|NCT00843882|164783681|SUPERIORITY|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||||||0.0002
82542148|NCT02248480|164783687|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82542149|NCT01582269|164783726|SUPERIORITY||Hazard Ratio (HR)|0.9336|||||TWO_SIDED|95.0|0.58|1.49|||Bayesian exponential-likelihood model|||The Bayesian analyses below include credible intervals rather than confidence intervals for the hazard ratios.|The posterior probability treatment difference is 0.6158|1.49|0.58|
82542150|NCT01582269|164783726|SUPERIORITY||Hazard Ratio (HR)|1.129|||||TWO_SIDED|95.0|0.78|1.65|||Bayesian exponential-likelihood model|||The Bayesian analyses below include credible intervals rather than confidence intervals for the hazard ratios.|The posterior probability treatment difference is 0.2628|1.65|0.78|
82458785|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-57.3|37.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||37.3|-57.3|1.000
82458786|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-11.2||||0.431|TWO_SIDED|95.0|-38.9|16.5||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||16.5|-38.9|0.431
82458787|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-20.7||||0.25|TWO_SIDED|95.0|-48.5|7.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 20||7.1|-48.5|0.250
82458788|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|5.0||||1|TWO_SIDED|95.0|-40.9|50.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||50.9|-40.9|1.000
82458789|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-1.0||||1|TWO_SIDED|95.0|-25.2|23.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||23.3|-25.2|1.000
82458790|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-5.7||||1|TWO_SIDED|95.0|-31.1|19.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 28||19.6|-31.1|1.000
82458791|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|10.0||||0.544|TWO_SIDED|95.0|-35.2|55.2||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||55.2|-35.2|0.544
82458792|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-0.7||||1|TWO_SIDED|95.0|-22.4|20.9||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||20.9|-22.4|1.000
82458793|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-7.9||||0.627|TWO_SIDED|95.0|-28.5|12.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 36||12.8|-28.5|0.627
82458794|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-10.0||||1|TWO_SIDED|95.0|-23.1|3.1||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||3.1|-23.1|1.000
82458795|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|-0.5||||1|TWO_SIDED|95.0|-18.7|17.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||17.7|-18.7|1.000
82458796|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|4.3||||1|TWO_SIDED|95.0|-18.3|26.8||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 44||26.8|-18.3|1.000
82458797|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|14.3||||0.232|TWO_SIDED|95.0|-0.7|29.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||29.3|-0.7|0.232
82542151|NCT05797155|164783745|SUPERIORITY||Odds Ratio (OR)|1.66||||0.036|TWO_SIDED|95.0|1.04|2.67|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month.||2.67|1.04|.036
82542152|NCT05797155|164783745|SUPERIORITY||Odds Ratio (OR)|1.11||||0.632|TWO_SIDED|95.0|0.72|1.72|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||1.72|0.72|.632
82542153|NCT05797155|164783746|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.08||0.437|TWO_SIDED||||||t-test, 2 sided||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the condition by time interaction).|This is a longitudinal analysis from baseline to 3-month follow-up||||.437
82650042|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.63|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery Cho/Cr at 16 weeks||1|0.63|
82458798|NCT02365649|164619853|SUPERIORITY||Risk Difference (RD)|7.1||||0.412|TWO_SIDED|95.0|-6.3|20.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells have expected cell count \< 5).|Chi-squared||Risk difference = upadacitinib higher dose - upadacitinib lower dose. 95% confidence intervals for risk difference were calculated based on normal approximation using proc freq.|Clinical non-responders, Week 52||20.6|-6.3|0.412
82458799|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-745.7||||0.356|TWO_SIDED|95.0|-2369.73|878.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||878.37|-2369.73|0.356
82650043|NCT00433381|165015133|OTHER|ROC analysis|Area Under the Curve (AUC)|1.0|||||TWO_SIDED|95.0|1.0|1.0||||||AUC (Accuracy) estimate for the prediction of 12 month overall survival by change in metabolic ratio of periphery NAA/Cr at 16 weeks||1|1|
82650044|NCT00433381|165015134|OTHER||||||||||||||||||The determination of treatment efficacy was to be made made based on the following rules: If 16 or more of the cases (16/57=28.1%) are progression free and alive at 6 months, then reject the null hypothesis that the rate is no better than 20%. If 15 or fewer of the cases (15/57=26.3%) are progression free and alive at 6 months, then reject the alternative hypothesis that the rate is at least 35%.|||
82458800|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-1119.5||||0.158|TWO_SIDED|95.0|-2698.52|459.5||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||459.50|-2698.52|0.158
82458801|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-1166.0||||0.322|TWO_SIDED|95.0|-3531.3|1199.32||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||1199.32|-3531.30|0.322
82458802|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-828.2||||0.287|TWO_SIDED|95.0|-2387.16|730.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||730.75|-2387.16|0.287
82458803|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-1286.1||||0.088|TWO_SIDED|95.0|-2772.59|200.43||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Responders, Week 52||200.43|-2772.59|0.088
82458804|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-502.2||||0.613|TWO_SIDED|95.0|-2505.74|1501.38||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||1501.38|-2505.74|0.613
82458805|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|283.4||||0.609|TWO_SIDED|95.0|-823.64|1390.49||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||1390.49|-823.64|0.609
82458806|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-78.2||||0.855|TWO_SIDED|95.0|-930.47|774.16||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||774.16|-930.47|0.855
82458807|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|283.5||||0.584|TWO_SIDED|95.0|-751.66|1318.57||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||1318.57|-751.66|0.584
82458808|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|356.6||||0.624|TWO_SIDED|95.0|-1095.03|1808.19||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||1808.19|-1095.03|0.624
82458809|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-135.1||||0.806|TWO_SIDED|95.0|-1233.48|963.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||963.25|-1233.48|0.806
82458810|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|186.2||||0.793|TWO_SIDED|95.0|-1229.59|1602.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||1602.06|-1229.59|0.793
82650045|NCT00433381|165015136|OTHER|Agreement was assessed using a Kappa statistic|Kappa Statistic|0.39|||||TWO_SIDED|95.0|0.21|0.57||||||Agreement between Local and Central determinations 6-month PFS, based on imaging, was evaluated using Kappa statistics||0.57|0.21|
82458811|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-304.8||||0.561|TWO_SIDED|95.0|-1350.04|740.44||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||740.44|-1350.04|0.561
82458812|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-1119.0||||0.024|TWO_SIDED|95.0|-2083.81|-154.11||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders, Week 28||-154.11|-2083.81|0.024
82650046|NCT00433381|165015137|OTHER|Sensitivity|Sensitivity|0.6|||||TWO_SIDED|95.0|0.46|0.73||||||Sensitivity||0.73|0.46|
82650047|NCT00433381|165015137|OTHER|Specificity|Specificity|0.78|||||TWO_SIDED|95.0|0.66|0.87||||||Specificity||0.87|0.66|
82458813|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-819.3||||0.156|TWO_SIDED|95.0|-1959.79|321.21||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||321.21|-1959.79|0.156
82458814|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-346.6||||0.58|TWO_SIDED|95.0|-1592.66|899.45||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||899.45|-1592.66|0.580
82458815|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-1275.9||||0.029|TWO_SIDED|95.0|-2415.88|-135.92||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders, Week 52||-135.92|-2415.88|0.029
82458816|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-534.9||||0.431|TWO_SIDED|95.0|-1883.23|813.5||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||813.50|-1883.23|0.431
82458817|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|-25.4||||0.965|TWO_SIDED|95.0|-1200.67|1149.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1149.95|-1200.67|0.965
82458818|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|623.6||||0.123|TWO_SIDED|95.0|-183.52|1430.64||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1430.64|-183.52|0.123
82458819|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|368.2||||0.591|TWO_SIDED|95.0|-1031.23|1767.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||1767.60|-1031.23|0.591
82542154|NCT05797155|164783747|SUPERIORITY||Odds Ratio (OR)|1.51||||0.088|TWO_SIDED|95.0|0.94|2.42|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month||2.42|0.94|.088
82542155|NCT05797155|164783747|SUPERIORITY||Odds Ratio (OR)|1.15||||0.646|TWO_SIDED|95.0|0.64|2.07|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||2.07|0.64|.646
82542156|NCT05797155|164783748|SUPERIORITY||Odds Ratio (OR)|1.77||||0.01|TWO_SIDED|95.0|1.15|2.72|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 1-month||2.72|1.15|.010
82542157|NCT05797155|164783748|SUPERIORITY||Odds Ratio (OR)|1.36||||0.158|TWO_SIDED|95.0|0.89|2.11|||Regression, Logistic||The Support2Quit group was scored 1 and the Comparison group was scored 0 (reference group for the odds ratio).|This is a cross sectional analysis at 3-months||2.11|0.89|.158
82542158|NCT00026312|164783749|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|2.6803||||0.1016|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy were compared using the log-rank test.||||0.1016
82458820|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|192.2||||0.642|TWO_SIDED|95.0|-648.22|1032.68||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||1032.68|-648.22|0.642
82458821|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|455.8||||0.093|TWO_SIDED|95.0|-81.37|992.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical non-responders, Week 52||992.95|-81.37|0.093
82458822|NCT02365649|164619854|SUPERIORITY||LS Mean of Difference|463.6||||0.296|TWO_SIDED|95.0|-428.99|1356.2||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||1356.20|-428.99|0.296
82458823|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-2.0||||0.822|TWO_SIDED|95.0|-19.83|15.83||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||15.83|-19.83|0.822
82458824|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-6.4||||0.386|TWO_SIDED|95.0|-20.97|8.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||8.25|-20.97|0.386
82458825|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|12.9||||0.136|TWO_SIDED|95.0|-4.22|29.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 20||29.95|-4.22|0.136
82542159|NCT00026312|164783750|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|2.6176||||0.1057|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy for the subgroup of patients with INSS Stage 4 disease were compared using the log-rank test.||||0.1057
82578232|NCT02187159|164865873|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.26||0.0338|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.1|0.0|0.0338
82458826|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|1.0||||0.912|TWO_SIDED|95.0|-17.87|19.97||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||19.97|-17.87|0.912
82458827|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-12.3||||0.118|TWO_SIDED|95.0|-27.77|3.25||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||3.25|-27.77|0.118
82458828|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|12.5||||0.171|TWO_SIDED|95.0|-5.61|30.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 28||30.65|-5.61|0.171
82458829|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-6.9||||0.479|TWO_SIDED|95.0|-26.5|12.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 36||12.63|-26.50|0.479
82458830|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-17.1||||0.037|TWO_SIDED|95.0|-33.12|-1.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders, Week 36||-1.04|-33.12|0.037
82458831|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|6.9||||0.463|TWO_SIDED|95.0|-11.86|25.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 36||25.65|-11.86|0.463
82652383|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.088||||0.4932|TWO_SIDED|95.0|-0.339|0.164||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.164|-0.339|0.4932
82458832|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-4.6||||0.627|TWO_SIDED|95.0|-23.59|14.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||14.37|-23.59|0.627
82458833|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-12.2||||0.122|TWO_SIDED|95.0|-27.75|3.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||3.37|-27.75|0.122
82458834|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|10.7||||0.243|TWO_SIDED|95.0|-7.49|28.89||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 44||28.89|-7.49|0.243
82542160|NCT00026312|164783753|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.0262|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||The number of courses of therapy delivered or patients randomized to Regimen B - RA + Immunotherapy and non-randomly assigned to Regimen B after halting of randomization, excluding patients with persistent disease, were compared using the Wilcoxon rank-sum test.||||0.0262
82652384|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.069||||0.5897|TWO_SIDED|95.0|-0.321|0.183||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.183|-0.321|0.5897
82458835|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-4.2||||0.658|TWO_SIDED|95.0|-22.95|14.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||14.63|-22.95|0.658
82458836|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-12.3||||0.115|TWO_SIDED|95.0|-27.69|3.12||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||3.12|-27.69|0.115
82458837|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|10.0||||0.267|TWO_SIDED|95.0|-7.96|28.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders, Week 52||28.06|-7.96|0.267
82458838|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.2||||0.974|TWO_SIDED|95.0|-9.74|10.06||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||10.06|-9.74|0.974
82458839|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.5||||0.882|TWO_SIDED|95.0|-7.61|6.55||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||6.55|-7.61|0.882
82458840|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.1||||0.982|TWO_SIDED|95.0|-7.92|7.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 20||7.75|-7.92|0.982
82578233|NCT02187159|164865873|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.28||0.0116|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||-0.2|-1.3|0.0116
82458841|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.2||||0.673|TWO_SIDED|95.0|-8.11|12.51||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||12.51|-8.11|0.673
82458842|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.7||||0.467|TWO_SIDED|95.0|-4.64|10.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||10.04|-4.64|0.467
82458843|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.2||||0.583|TWO_SIDED|95.0|-5.79|10.23||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 28||10.23|-5.79|0.583
82458844|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|5.5||||0.564|TWO_SIDED|95.0|-13.33|24.31||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||24.31|-13.33|0.564
82458845|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-2.4||||0.728|TWO_SIDED|95.0|-15.74|11.04||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||11.04|-15.74|0.728
82458846|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|5.5||||0.46|TWO_SIDED|95.0|-9.16|20.08||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 36||20.08|-9.16|0.460
82458847|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|12.0||||0.253|TWO_SIDED|95.0|-8.72|32.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||32.75|-8.72|0.253
82458848|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|1.1||||0.884|TWO_SIDED|95.0|-13.67|15.84||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||15.84|-13.67|0.884
82458849|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|5.8||||0.474|TWO_SIDED|95.0|-10.28|21.95||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 44||21.95|-10.28|0.474
82542161|NCT00026312|164783754|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|3.4471||||0.0634|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy were compared using the log-rank test.||||0.0634
82542162|NCT00026312|164783754|SUPERIORITY_OR_OTHER_LEGACY||Log-Rank Test Statistic|4.1362||||0.042|TWO_SIDED|95.0|||||Log Rank|||The overall survival distributions of patients randomized to Regimen A - RA Only and randomized to Regimen B - RA + Immunotherapy for the subgroup of patients with INSS Stage 4 disease were compared using the log-rank test.||||0.042
82542163|NCT02445391|164783767|NON_INFERIORITY|The null hypothesis for testing non-inferiority of platinum was defined as that the hazard ratio (HR) for platinum/capecitabine ≥ 1.154 (ie, HR of 1.154 was used as the non-inferiority margin). The alternative hypothesis was HR=0.754 for platinum/ capecitabine. The 4-year IDFS rate was expected to be 67% on capecitabine arm.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.62|1.81|||||The 95% confidence interval provided above was the Jennison and Turnbull repeated confidence interval.|||1.81|0.62|
82458850|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|3.6||||0.727|TWO_SIDED|95.0|-17.03|24.3||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||24.30|-17.03|0.727
82458851|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.1||||0.78|TWO_SIDED|95.0|-12.63|16.78||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||16.78|-12.63|0.780
82458852|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|6.5||||0.424|TWO_SIDED|95.0|-9.57|22.54||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders, Week 52||22.54|-9.57|0.424
82458853|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-1.3||||0.841|TWO_SIDED|95.0|-14.23|11.62||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||11.62|-14.23|0.841
82458854|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-2.1||||0.702|TWO_SIDED|95.0|-12.94|8.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||8.75|-12.94|0.702
82458855|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|5.7||||0.353|TWO_SIDED|95.0|-6.43|17.83||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 20||17.83|-6.43|0.353
82458856|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.1||||0.77|TWO_SIDED|95.0|-11.89|16.0||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||16.00|-11.89|0.770
82458857|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-5.3||||0.367|TWO_SIDED|95.0|-17.04|6.37||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||6.37|-17.04|0.367
82458858|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|7.0||||0.291|TWO_SIDED|95.0|-6.09|20.07||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 28||20.07|-6.09|0.291
82458859|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.7||||0.942|TWO_SIDED|95.0|-20.87|19.4||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||19.40|-20.87|0.942
82458860|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-12.0||||0.162|TWO_SIDED|95.0|-28.89|4.91||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||4.91|-28.89|0.162
82458861|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|10.9||||0.253|TWO_SIDED|95.0|-7.96|29.82||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 36||29.82|-7.96|0.253
82458862|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|5.5||||0.617|TWO_SIDED|95.0|-16.25|27.21||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||27.21|-16.25|0.617
82542164|NCT05793112|164783786|SUPERIORITY||Median Difference (Final Values)|57.57||||0.154|||||||Wilcoxon range sum test|||||||0.154
82458863|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-6.0||||0.515|TWO_SIDED|95.0|-24.22|12.24||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||12.24|-24.22|0.515
82458864|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|13.8||||0.18|TWO_SIDED|95.0|-6.53|34.23||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 44||34.23|-6.53|0.180
82458865|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.4||||0.972|TWO_SIDED|95.0|-21.86|21.09||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||21.09|-21.86|0.972
82458866|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-4.9||||0.589|TWO_SIDED|95.0|-22.94|13.1||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||13.10|-22.94|0.589
82458867|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|14.1||||0.168|TWO_SIDED|95.0|-6.07|34.22||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders, Week 52||34.22|-6.07|0.168
82458868|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|1.9||||0.712|TWO_SIDED|95.0|-8.5|12.36||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||12.36|-8.50|0.712
82458869|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-2.3||||0.465|TWO_SIDED|95.0|-8.41|3.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||3.90|-8.41|0.465
82458870|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.3||||0.924|TWO_SIDED|95.0|-6.83|7.52||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 20||7.52|-6.83|0.924
82458871|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.4||||0.938|TWO_SIDED|95.0|-8.88|9.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||9.60|-8.88|0.938
82458872|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|2.2||||0.41|TWO_SIDED|95.0|-3.17|7.64||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||7.64|-3.17|0.410
82458873|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.2||||0.941|TWO_SIDED|95.0|-5.89|6.35||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 28||6.35|-5.89|0.941
82542165|NCT05793112|164783787|SUPERIORITY||Median Difference (Final Values)|-5.0||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
82542166|NCT05793112|164783788|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.471|||||||Fisher Exact|||||||0.471
82542167|NCT05793112|164783789|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||Day 0 (Baseline)||||0.057
82542168|NCT05793112|164783789|SUPERIORITY|||||||0.169|||||||Cochran-Mantel-Haenszel|||Day 7||||0.169
82458874|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.7||||0.872|TWO_SIDED|95.0|-8.23|9.67||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||9.67|-8.23|0.872
82458875|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-1.0||||0.692|TWO_SIDED|95.0|-6.27|4.2||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||4.20|-6.27|0.692
82458876|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.4||||0.896|TWO_SIDED|95.0|-6.32|5.54||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 36||5.54|-6.32|0.896
82458877|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|1.0||||0.826|TWO_SIDED|95.0|-7.92|9.87||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||9.87|-7.92|0.826
82458878|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.4||||0.885|TWO_SIDED|95.0|-4.82|5.58||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||5.58|-4.82|0.885
82458879|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.1||||0.964|TWO_SIDED|95.0|-6.03|5.76||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 44||5.76|-6.03|0.964
82458880|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|1.1||||0.806|TWO_SIDED|95.0|-7.59|9.72||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||9.72|-7.59|0.806
82542169|NCT05793112|164783789|SUPERIORITY|||||||0.168|||||||Cochran-Mantel-Haenszel|||Day 14||||0.168
82542170|NCT05793112|164783789|SUPERIORITY|||||||0.139|||||||Cochran-Mantel-Haenszel|||Day 21||||0.139
82652385|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.166||||0.2014|TWO_SIDED|95.0|-0.421|0.089||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 5||0.089|-0.421|0.2014
82652386|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.044||||0.7384|TWO_SIDED|95.0|-0.304|0.215||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.215|-0.304|0.7384
82458881|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|0.4||||0.871|TWO_SIDED|95.0|-4.65|5.47||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||5.47|-4.65|0.871
82458882|NCT02365649|164619855|SUPERIORITY||LS Mean of Difference|-0.5||||0.85|TWO_SIDED|95.0|-6.28|5.19||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders, Week 52||5.19|-6.28|0.850
82458883|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-3.9||||0.792|TWO_SIDED|95.0|-33.73|25.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||25.90|-33.73|0.792
82458884|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|18.1||||0.179|TWO_SIDED|95.0|-8.62|44.75||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||44.75|-8.62|0.179
82458885|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-19.1||||0.23|TWO_SIDED|95.0|-50.87|12.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||12.63|-50.87|0.230
82458886|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|16.4||||0.337|TWO_SIDED|95.0|-17.54|50.4||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||50.40|-17.54|0.337
82458887|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|1.1||||0.924|TWO_SIDED|95.0|-21.75|23.93||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||23.93|-21.75|0.924
82542171|NCT05793112|164783789|SUPERIORITY|||||||0.348|||||||Cochran-Mantel-Haenszel|||Day 28||||0.348
82542172|NCT03401489|164783790|SUPERIORITY||Odds Ratio (OR)|0.99||||0.822|TWO_SIDED|95.0|0.36|2.72||Significance threshold was α=0.05, two-sided. No adjustment for multiple comparisons.|Mixed Models Analysis|Generalized linear mixed models were also run for sensitivity analyses, adjusting for baseline SBP, site, and race.|Difference defined as Control minus PACESETTER at 12 months (SBP \<130 mmHg); odds ratio \<1 favors the PACESETTER arm.|Comparison between PACESETTER and control arms at 12 months for proportion of participants with SBP \<130 mmHg using a generalized linear mixed model (GLMM) with logit link. Model included baseline SBP, site, and race as covariates.||2.72|.36|0.822
82458888|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-11.7||||0.373|TWO_SIDED|95.0|-37.69|14.35||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||14.35|-37.69|0.373
82458889|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-3.1||||0.813|TWO_SIDED|95.0|-28.94|22.79||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||22.79|-28.94|0.813
82458890|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|5.3||||0.651|TWO_SIDED|95.0|-18.02|28.65||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||28.65|-18.02|0.651
82458891|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-23.8||||0.065|TWO_SIDED|95.0|-49.12|1.49||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||1.49|-49.12|0.065
82458892|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|5.3||||0.802|TWO_SIDED|95.0|-37.61|48.28||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||48.28|-37.61|0.802
82458893|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|0.6||||0.955|TWO_SIDED|95.0|-20.46|21.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||21.63|-20.46|0.955
82458894|NCT02365649|164619856|SUPERIORITY||LS Mean of Difference|-10.6||||0.395|TWO_SIDED|95.0|-35.73|14.47||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||14.47|-35.73|0.395
82458895|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|-0.0082||||0.893|TWO_SIDED|95.0|-0.1299|0.1136||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||0.1136|-0.1299|0.893
82458896|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0685||||0.182|TWO_SIDED|95.0|-0.0334|0.1705||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||0.1705|-0.0334|0.182
82458897|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|-0.1323||||0.036|TWO_SIDED|95.0|-0.2552|-0.0093||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders||-0.0093|-0.2552|0.036
82458898|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0768||||0.316|TWO_SIDED|95.0|-0.0749|0.2286||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.2286|-0.0749|0.316
82542173|NCT03401489|164783791|OTHER|Longitudinal mixed-effects repeated-measures modeling (MMRM) was used to compare systolic BP over time, adjusting for baseline BP, site, and race.|Mean Difference (Final Values)|2.4||||0.623|TWO_SIDED|95.0|-7.3|12.1||Two-sided α=0.05; no adjustment for multiple comparisons.|Mixed Models Analysis||Positive values favor the control arm.|||12.1|-7.3|0.623
82542174|NCT03401489|164783792|SUPERIORITY||Mean Difference (Net)|-0.9||||0.614|TWO_SIDED|95.0|-7.8|6.0||Two-sided α=0.05; no adjustment for multiple comparisons.|Mixed Models Analysis||Negative values favor the PACESETTER arm.|Longitudinal mixed-effects repeated-measures modeling (MMRM) was used to compare diastolic BP over time, adjusting for baseline BP, site, and race.||6.0|-7.8|0.614
82458899|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0573||||0.277|TWO_SIDED|95.0|-0.0471|0.1617||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.1617|-0.0471|0.277
82458900|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0428||||0.467|TWO_SIDED|95.0|-0.0741|0.1597||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||0.1597|-0.0741|0.467
82458901|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|-0.036||||0.464|TWO_SIDED|95.0|-0.1336|0.0616||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||0.0616|-0.1336|0.464
82458902|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0404||||0.345|TWO_SIDED|95.0|-0.0444|0.1252||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||0.1252|-0.0444|0.345
82458903|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|-0.0873||||0.071|TWO_SIDED|95.0|-0.1822|0.0076||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||0.0076|-0.1822|0.071
82578234|NCT02187159|164865873|SUPERIORITY||Difference of least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7085|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0.4|-0.7|0.7085
82458904|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.1109||||0.317|TWO_SIDED|95.0|-0.1109|0.3326||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.3326|-0.1109|0.317
82458905|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0848||||0.125|TWO_SIDED|95.0|-0.0248|0.1945||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.1945|-0.0248|0.125
82458906|NCT02365649|164619857|SUPERIORITY||LS Mean of Difference|0.0559||||0.39|TWO_SIDED|95.0|-0.0745|0.1864||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||0.1864|-0.0745|0.390
82458907|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|8.7||||0.263|TWO_SIDED|95.0|-6.79|24.16||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||24.16|-6.79|0.263
82458908|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|15.2||||0.031|TWO_SIDED|95.0|1.47|28.93||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Responders||28.93|1.47|0.031
82458909|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-12.0||||0.135|TWO_SIDED|95.0|-27.93|3.9||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Responders||3.90|-27.93|0.135
82458910|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|6.3||||0.458|TWO_SIDED|95.0|-10.61|23.27||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||23.27|-10.61|0.458
82458911|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|1.9||||0.738|TWO_SIDED|95.0|-9.59|13.45||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||13.45|-9.59|0.738
82458912|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-5.4||||0.412|TWO_SIDED|95.0|-18.32|7.6||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Non-responders||7.60|-18.32|0.412
82458913|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|3.9||||0.534|TWO_SIDED|95.0|-8.56|16.36||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical responders||16.36|-8.56|0.534
82458914|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|11.0||||0.052|TWO_SIDED|95.0|-0.1|22.01||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.1 level.||Clinical responders||22.01|-0.10|0.052
82458915|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-13.9||||0.027|TWO_SIDED|95.0|-26.15|-1.63||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|Prespecified statistically significant at 0.05 level.||Clinical responders||-1.63|-26.15|0.027
82561871|NCT04332991|164832912|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.84|1.88|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.88|0.84|
82458916|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-1.0||||0.928|TWO_SIDED|95.0|-24.02|21.97||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||21.97|-24.02|0.928
82458917|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-2.5||||0.658|TWO_SIDED|95.0|-13.72|8.77||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||8.77|-13.72|0.658
82458918|NCT02365649|164619858|SUPERIORITY||LS Mean of Difference|-3.5||||0.601|TWO_SIDED|95.0|-16.96|9.96||P-value for test of difference between each upadacitinib higher dose and upadacitinib lower dose for mean change from induction baseline using analysis of covariance with treatment as factor and induction baseline value as covariate.|ANCOVA|||Clinical non-responders||9.96|-16.96|0.601
82458919|NCT02365649|164619860|SUPERIORITY||Risk Difference (RD)|-50.0||||1|TWO_SIDED|95.0|-99.0|-1.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||-1.0|-99.0|1.000
82458920|NCT02365649|164619860|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
82458921|NCT02365649|164619860|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
82458922|NCT02365649|164619860|SUPERIORITY||Risk Difference (RD)|-25.0||||1|TWO_SIDED|95.0|-55.0|5.0||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical Responders||5.0|-55.0|1.000
82458923|NCT02365649|164619861|SUPERIORITY||Risk Difference (RD)|-66.7||||1|TWO_SIDED|95.0|-100.0|-13.3||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Responders||-13.3|-100.0|1.000
82458924|NCT02365649|164619861|SUPERIORITY||Risk Difference (RD)|33.3||||0.25|TWO_SIDED|95.0|-20.0|86.7||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Non-responders||86.7|-20.0|0.250
82458925|NCT02365649|164619861|SUPERIORITY||Risk Difference (RD)|16.7||||1|TWO_SIDED|95.0|-62.2|95.6||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||95.6|-62.2|1.000
82458926|NCT02365649|164619861|SUPERIORITY||Risk Difference (RD)|-33.3||||0.5|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||4.4|-71.1|0.500
82458927|NCT02365649|164619861|SUPERIORITY||Risk Difference (RD)|-33.3||||1|TWO_SIDED|95.0|-71.1|4.4||P-value was calculated based on chi-square test (or Fisher's exact test if \>= 20% of the cells had expected cell count \< 5).|Chi-squared||Risk difference = (upadacitinib higher dose - upadacitinib 3 mg BID). 95% confidence intervals for risk difference were calculated based on normal approximation using proc FREQ.|Clinical responders||4.4|-71.1|1.000
82458928|NCT02021565|164619895|SUPERIORITY|||||||0.973||||||alpha = 0.025|ANOVA|Repeated measures||Analysis 1 is for the caregiver reported confidence that Veteran care recipient can perform 10 transfer tasks with assistance from the informal caregiver.||||0.973
82458929|NCT02021565|164619895|SUPERIORITY|Alpha = .025||||||0.223|||||||ANOVA|||Analysis 2 is for the caregiver reported confidence that Veteran care recipient can perform 10 transfer tasks independently.||||0.223
82458930|NCT02021565|164619896|SUPERIORITY|||||||0.547|||||||ANOVA|||Analysis 1 is for the Veteran care recipient reported task efficacy||||0.547
82458931|NCT02021565|164619896|SUPERIORITY|||||||0.891|||||||ANOVA|||Analysis 2 is for the Veteran reported confidence that he/she can perform 10 transfer tasks independently.||||0.891
82458932|NCT02021565|164619897|SUPERIORITY|||||||0.729|||||||ANOVA|||||||0.729
82561872|NCT04332991|164832913|SUPERIORITY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.85|1.61|||||Odds ratios greater than 1.0 indicated more favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.61|0.85|
82458933|NCT00287716|164619913|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.023|TWO_SIDED|95.0|0.44|0.95|||Log Rank|||The null hypothesis is that there is no treatment difference between the pirfenidone 2403 mg/day treatment group and the placebo treatment group.||0.95|0.44|0.023
82458934|NCT00287716|164619919|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.515|TWO_SIDED|95.0|0.5|1.42|||Log Rank|||The null hypothesis is that there is no treatment difference between the pirfenidone 2403-mg/d treatment group and the placebo treatment group.||1.42|0.50|0.515
82458935|NCT02927392|164619936|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82458936|NCT01774799|164620074|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.69|1.69||||||||1.69|0.69|
82458937|NCT01774799|164620075|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.66|2.2||||||||2.20|0.66|
82458938|NCT01774799|164620076|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.58|1.58||||||||1.58|0.58|
82458939|NCT01774799|164620077|SUPERIORITY||Odds Ratio (OR)|1.79|||||TWO_SIDED|95.0|1.13|2.82||||||||2.82|1.13|
82458940|NCT01774799|164620078|SUPERIORITY|||||||0.32|||||||Regression, Linear|||||||0.32
82458941|NCT00141102|164620138|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.32|||<|0.0001|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||<0.0001
82458942|NCT00141102|164620139|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||<0.0001
82458943|NCT00141102|164620140|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.019|STANDARD_ERROR_OF_MEAN|0.023||0.4146|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.03|-0.06|0.4146
82458944|NCT00141102|164620141|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.29||||0.1132|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.1132
82458945|NCT00141102|164620143|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.0495|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.0495
82458946|NCT00141102|164620144|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.0006|TWO_SIDED||||||Life Table Extension|Stratified by history of GD ulceration and by region.||||||0.0006
82458947|NCT00141102|164620145|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.406|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.36|0.45|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.45|0.36|<0.0001
82561873|NCT04332991|164832914|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-1.0|1.8||||||||1.8|-1.0|
82458948|NCT00141102|164620146|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.118|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001|TWO_SIDED|95.0|0.98|1.25|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||1.25|0.98|<0.0001
82458949|NCT00141102|164620147|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.748|||<|0.0001|TWO_SIDED|95.0|1.96|3.84|||Cochran-Mantel-Haenszel|Stratified by history of GD ulceration and by region.||||3.84|1.96|<0.0001
82458950|NCT00141102|164620148|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|3.329|||<|0.0001|TWO_SIDED|95.0|2.156|5.141|||Fisher Exact|||GGT||5.141|2.156|<0.0001
82458951|NCT00141102|164620148|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|1.509||||0.3809|TWO_SIDED|95.0|0.618|3.684|||Fisher Exact|||AST||3.684|0.618|0.3809
82458952|NCT00141102|164620148|SUPERIORITY_OR_OTHER_LEGACY||Relative Risk|2.089||||0.0264|TWO_SIDED|95.0|1.081|4.038|||Fisher Exact|||ALT||4.038|1.081|0.0264
82458953|NCT00141102|164620149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.144|STANDARD_ERROR_OF_MEAN|0.697|<|0.0001|TWO_SIDED|95.0|-11.51|-8.78|||ANCOVA|||GGT||-8.78|-11.51|<0.0001
82458954|NCT00141102|164620149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.391|STANDARD_ERROR_OF_MEAN|0.281|<|0.0001|TWO_SIDED|95.0|-2.94|-1.84|||ANCOVA|||AST||-1.84|-2.94|<0.0001
82458955|NCT00141102|164620149|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.364|STANDARD_ERROR_OF_MEAN|0.428|<|0.0001|TWO_SIDED|95.0|-7.2|-5.52|||ANCOVA|||ALT||-5.52|-7.20|<0.0001
82458956|NCT00141102|164620150|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.565|STANDARD_ERROR_OF_MEAN|1.366||0.6795|TWO_SIDED|95.0|-2.11|3.24|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||3.24|-2.11|0.6795
82542175|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence|Slope|0.0||||0.74|TWO_SIDED|95.0|-0.1|0.2||P value: For the categorical variable with more than 2 levels, this is the p value from the overall test of the null hypothesis that all estimates are equal against the alternative that at least one is different.|Regression, Linear|||"Age covariate effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||0.2|-0.1|0.74
82542176|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence|Slope|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3||P value: For the categorical variable with more than 2 levels, this is the p value from the overall test of the null hypothesis that all estimates are equal against the alternative that at least one is different.|Regression, Linear|||"Baseline COST effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||-0.3|-0.6|<0.001
82542177|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence||||||0.002||||||This is the p value of the null hypothesis that COST estimates for all cancer types (Colon cancer, Rectal cancer and Rectosigmoid) are equal against the alternative that at least one is different.|Regression, Linear|||"Cancer type (Colon cancer, Rectal cancer and Rectosigmoid) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||||0.002
82458957|NCT00141102|164620151|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.406|STANDARD_ERROR_OF_MEAN|2.624||0.592|TWO_SIDED|95.0|-6.55|3.74|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||3.74|-6.55|0.5920
82458958|NCT00141102|164620152|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.038||0.6819|TWO_SIDED|95.0|-0.09|0.06|||ANCOVA|Fixed effects of region and history of GD ulceration with Baseline covariate.||||0.06|-0.09|0.6819
82458959|NCT04037891|164620187|SUPERIORITY||Difference of percentage of participants|16.7|||||TWO_SIDED|95.0|-53.57|72.99||||||||72.99|-53.57|
82458960|NCT04037891|164620187|SUPERIORITY||Difference of percentage of participants|33.3|||||TWO_SIDED|95.0|-25.45|78.39||||||Comparison of incidence of ocular TEAE in all patients receiving rVA576 (part 1 and 2) vs placebo||78.39|-25.45|
82458961|NCT03400475|164620199|SUPERIORITY||Mean Difference (Final Values)|-2.088||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458962|NCT03400475|164620200|SUPERIORITY||Mean Difference (Final Values)|3.59||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458963|NCT03400475|164620201|SUPERIORITY||Mean Difference (Final Values)|3.596||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458964|NCT03400475|164620202|SUPERIORITY||Mean Difference (Final Values)|-0.083||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458965|NCT03400475|164620203|SUPERIORITY||Mean Difference (Final Values)|0.581||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458966|NCT03400475|164620204|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.9|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.90
82458967|NCT03400475|164620205|SUPERIORITY||Mean Difference (Final Values)|-64.696||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
82458968|NCT03400475|164620206|SUPERIORITY||Mean Difference (Final Values)|111.03||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
82458969|NCT03400475|164620207|SUPERIORITY||Mean Difference (Final Values)|213.314||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
82458970|NCT03400475|164620208|SUPERIORITY||Mean Difference (Final Values)|37.356||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
82458971|NCT03400475|164620209|SUPERIORITY||Mean Difference (Final Values)|1.6537||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
82458972|NCT03400475|164620210|SUPERIORITY||Mean Difference (Final Values)|1.552||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
82458973|NCT03400475|164620211|SUPERIORITY|||||||0.071|||||||Fisher Exact|||||||0.071
82458974|NCT03400475|164620212|SUPERIORITY|||||||0.071|||||||Fisher Exact|||||||0.071
82458975|NCT03400475|164620213|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82458976|NCT03400475|164620214|SUPERIORITY|||||||0.062|||||||Fisher Exact|||||||0.062
82458977|NCT03400475|164620215|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
82458978|NCT03400475|164620216|SUPERIORITY|||||||0.34|||||||Fisher Exact|||||||0.34
82458979|NCT04491136|164620258|OTHER||||||>|0.9999|||||||McNemar|||At least one SVT occurred||||>0.9999
82458980|NCT04491136|164620258|OTHER|||||||0.7905|||||||McNemar|||At least one NSVT occurred||||0.7905
82650048|NCT00434161|165015144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.679||||0.188|TWO_SIDED|97.5|0.351|1.313||A 2.5% type I error rate for each comparison gives an overall type I error rate of 5%.|Proportional odds model|The proportional odds model including the randomization factors as covariates was used for the primary endpoint, maximum severity of OM.|The odds ratio was defined to be the odds of a subject receiving placebo experiencing OM divided by the odds of a subject receiving palifermin developing OM.|The null hypothesis was that the severity distribution for OM was identical for the placebo and each of the two palifermin groups, and the alternative hypothesis was that palifermin resulted in a shift in the distribution to less severe mucositis than placebo. A total of 275 subjects would give at least 95% power, with a 2.5% type I error rate for each comparison to detect an odds ratio of at least 3.5 between the placebo group and each of the two palifermin groups.||1.313|0.351|0.188
82542178|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence|Slope|0.3||||0.03|TWO_SIDED|95.0|0.0|0.6|||Regression, Linear|||"FACT-G7 effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||0.6|0.0|0.03
82542179|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence|Slope|1.6||||0.13|TWO_SIDED|95.0|-0.5|3.7|||Regression, Linear|||"Gender effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||3.7|-0.5|0.13
82542180|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence||||||0.91||||||This is the p value of the null hypothesis that COST estimates for all RACES (White, Black, other) are equal against the alternative that at least one is different.|Regression, Linear|||"RACE (White. Black Other) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Null: All estimates are equal"||||0.91
82542181|NCT03516942|164783793|EQUIVALENCE|No margin of equivalence|Slope|0.0|||>|0.99|TWO_SIDED|95.0|-0.3|0.3|||Regression, Linear|||"Neighborhood Deprivation (NDI) effect on change in COST The linear (non-longitudinal) model of \[change in COST from baseline to 12-month follow-up\] included covariates for: age, Baseline COST score, cancer stage, cancer type, chemotherapy, comorbidities, education, FACT-G7, gender, income, marital status, insurance status, race, safety-net hospital, self-efficacy, NDI.~Higher NDI = greater neighborhood deprivation"||0.3|-0.3|>0.99
82542182|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.4142||||||alpha=0.05|McNemar|||Work Time Missed from Baseline to 6 Months||||0.4142
82542183|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.1797|||||||McNemar|||Impairment of Activities at Work from Baseline to 6 Months||||0.1797
82542184|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.8415|||||||McNemar|||Overall Work Impairment from Baseline to 6 Months||||0.8415
82542185|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.6831|||||||McNemar|||Impairment of Activities Outside of Work from Baseline to 6 Months||||0.6831
82542186|NCT03516942|164783795|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Work Time Missed from Baseline to 12 Months||||<.0001
82542187|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.0455|||||||McNemar|||Impairment of Activities at Work from Baseline to 12 Months||||0.0455
82542188|NCT03516942|164783795|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Overall Work Impairment from Baseline to 12 Months||||<.0001
82542189|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.0164|||||||McNemar|||3 Impairment of Activities Outside of Work from Baseline to 12 Months||||0.0164
82542190|NCT03516942|164783795|EQUIVALENCE|nomargin||||||0.0027|||||||McNemar|||Work Time Missed from Baseline to 24 Months||||0.0027
82542191|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.0124|||||||McNemar|||Impairment of Activities at Work from Baseline to 24 Months||||0.0124
82542192|NCT03516942|164783795|EQUIVALENCE|no margin|||||<|0.0001|||||||McNemar|||Overall Work Impairment from Baseline to 24 Months||||<.0001
82542193|NCT03516942|164783795|EQUIVALENCE|no margin||||||0.0011|||||||McNemar|||Impairment of Activities Outside of Work from Baseline to 24 Months||||0.0011
82542194|NCT03516942|164783801|EQUIVALENCE|no equivalence margin was assumed||||||0.017|||||||McNemar|||the McNemar test was used to compare the results assuming a null of no difference.||||0.017
82542195|NCT03215927|164783824|SUPERIORITY||Median Difference (Net)|-2.55|STANDARD_ERROR_OF_MEAN|3.34|<|0.05|TWO_SIDED|95.0|-9.36|4.26|||Mixed Models Analysis|Adjustments are for baseline FVC, age, and gender, with a repeated measures effect of participant.|The comparison difference value is µABT - µPlacebo.|The null hypothesis for the change outcomes is µABT - µPlacebo = 0.||4.26|-9.36|<0.05
82542196|NCT03215927|164783825|SUPERIORITY||Hazard Ratio (HR)|0.66|STANDARD_ERROR_OF_MEAN|0.73|<|0.05|TWO_SIDED|95.0|0.16|2.77|||Regression, Cox||ABT is the numerator and Placebo is the denominator for the hazard ratios. The dispersion value given is the SE of the estimate on the natural log scale.|The null hypothesis for the time to event outcomes is exp(bABT) / exp(bPlacebo) = 1.||2.77|0.16|<0.05
82561874|NCT04332991|164832915|SUPERIORITY||Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|0.61|3.02|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.02|0.61|
82561875|NCT04332991|164832916|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.24|2.7|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.70|0.24|
82561876|NCT04332991|164832917|SUPERIORITY||Odds Ratio (OR)|2.51|||||TWO_SIDED|95.0|0.78|8.12|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||8.12|0.78|
82561877|NCT04332991|164832918|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.45|1.05|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.05|0.45|
82561878|NCT04332991|164832919|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.24|2.7|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.70|0.24|
82458981|NCT04491136|164620258|OTHER|||||||0.625|||||||McNemar|||At least one PVC occurred||||0.6250
82458982|NCT04491136|164620260|OTHER||Mean Difference (Final Values)|2.41|STANDARD_ERROR_OF_MEAN|0.653||0.0008|TWO_SIDED|95.0|1.11|3.7|||Wilcoxon signed-rank|||||3.70|1.11|0.0008
82458983|NCT04491136|164620261|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.028||0.5733|TWO_SIDED|95.0|-0.07|0.04|||Ridit analysis|||||0.04|-0.07|0.5733
82458984|NCT04491136|164620262|OTHER||Mean Difference (Final Values)|-231.46|STANDARD_ERROR_OF_MEAN|93.03||0.0006|TWO_SIDED|95.0|-415.9|-47.02|||Wilcoxon signed rank test|||||-47.02|-415.90|0.0006
82458985|NCT04491136|164620264|OTHER||||||>|0.9999|||||||McNemar|||Occurrence of at least one shock||||>0.9999
82458986|NCT04491136|164620264|OTHER|||||||0.0654|||||||McNemar|||Occurrence of at least one ATP event||||0.0654
82458987|NCT02360228|164620285|OTHER|||||||0.47|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham groups using a one way ANOVA. Degrees of freedom: df=19||The null hypothesis was that there is no difference between the changes in the AHRS score from baseline to 5 days between the groups.H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)||||0.47
82458988|NCT02360228|164620287|OTHER|||||||0.37|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham using a one way ANOVA. Degrees of freedom: df=19||The null hypothesis was that there is no difference between the changes in the PANSS score from day 5 to baseline. H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)||||0.37
82578235|NCT02187159|164865873|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.9392|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||0.6|-0.5|0.9392
82458989|NCT02360228|164620288|OTHER|||||||0.11|||||||ANOVA|Difference from day 5 to baseline was compared between the tACS, tDCS, and sham groups using a one way ANOVA. Degrees of freedom: df=19||"The null hypothesis was that there is no difference between the changes in the BACS score from baseline to 5 days between the groups:~H0: μ1=μ2=μ3 μ1: mean(difference 5 days-baseline) for tACS group (n=8) μ2: mean(difference 5 days-baseline) for tDCS group (n=7) μ3: mean(difference 5 days-baseline) for sham group (n=7)"||||0.11
82458990|NCT03628976|164620310|SUPERIORITY|||||||0.0096|||||||ANOVA|||||||0.0096
82458991|NCT03628976|164620311|SUPERIORITY|||||||0.764|||||||ANOVA|||||||0.764
82458992|NCT03628976|164620312|SUPERIORITY|||||||0.446|||||||ANOVA|||||||0.446
82578236|NCT02187159|164865873|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0311|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.2|0.1|0.0311
82652387|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.043||||0.7423|TWO_SIDED|95.0|-0.303|0.216||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.216|-0.303|0.7423
82458993|NCT00851786|164620314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|0.45|0.69||The p-value was adjusted for baseline gpELISA titer, measurement time (week 6 vs. week 12), CD4 stratum and age.|Linear mixed effect model|Natural log transformed gpELISA titers after one or two doses of vaccine was modeled.||Null hypothesis: VZV antibody titer measured by gpELISA, after 1 or 2 doses of ZOSTAVAX/placebo is the same between ZOSTAVAX arm and the placebo arm||0.69|0.45|<.001
82458994|NCT02831764|164620316|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 48 was greater than -10%.|Adjusted difference in proportion|-0.7|||||TWO_SIDED|95.0|-4.3|2.9|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 copies per milliliter) and CD4+ cell count (\<= vs. \>200 cells per cubic millimeter \[cells/mm\^3\]).|||2.9|-4.3|
82458995|NCT02831764|164620317|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 24 was greater than -10%.|Adjusted difference in proportion|0.1|||||TWO_SIDED|95.0|-3.4|3.6|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||3.6|-3.4|
82458996|NCT02831764|164620318|OTHER||Adjusted difference in proportion|-1.8|||||TWO_SIDED|95.0|-6.4|2.7|||||Week 96. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||2.7|-6.4|
82458997|NCT02831764|164620319|OTHER||Adjusted difference in proportion|0.0|||||TWO_SIDED|95.0|-5.3|5.3|||||Week 144. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||5.3|-5.3|
82458998|NCT02831764|164620320|OTHER||Hazard Ratio (HR)|1.02||||0.797|TWO_SIDED|95.0|0.88|1.19||The generalised Wilcoxon procedure was used to estimate a p-value for detecting a difference in cumulative incidence curves between treatment groups.|Generalised Wilcoxon procedure||Hazard ratios were estimated using the Cox proportional hazard regression model.|||1.19|0.88|0.797
82458999|NCT02831764|164620324|OTHER||Mean Difference (Net)|25.6||||0.043|TWO_SIDED|95.0|0.8|50.4|||Mixed Model Repeated Measures (MMRM)||Week 24. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||50.4|0.8|0.043
82459000|NCT02831764|164620324|OTHER||Mean Difference (Net)|8.5||||0.523|TWO_SIDED|95.0|-17.7|34.8|||MMRM||Week 48. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||34.8|-17.7|0.523
82578237|NCT02187159|164865873|SUPERIORITY||Difference in least squares means|0.7|STANDARD_ERROR_OF_MEAN|0.28||0.0094|TWO_SIDED|95.0|0.2|1.3|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.3|0.2|0.0094
82578238|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|1.256|STANDARD_ERROR_OF_MEAN|0.6027||0.0373|TWO_SIDED|95.0|0.074|2.439|||ANCOVA|||Physical Component: Placebo vs Pregabalin||2.439|0.074|0.0373
82459001|NCT02831764|164620325|OTHER||Mean Difference (Net)|7.4||||0.635|TWO_SIDED|95.0|-23.2|38.0|||Mixed Model Repeated Measures (MMRM)||Week 96. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||38.0|-23.2|0.635
82459002|NCT02831764|164620326|OTHER||Mean Difference (Net)|5.1||||0.777|TWO_SIDED|95.0|-29.9|40.0|||MMRM||Week 144.Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||40.0|-29.9|0.777
82459003|NCT02831764|164620337|OTHER||Mean Difference (Net)|-0.03|||<|0.001|TWO_SIDED|95.0|-0.05|-0.02|||MMRM||Week 24. Serum Cystatin C.|||-0.02|-0.05|<0.001
82459004|NCT02831764|164620337|OTHER||Mean Difference (Net)|-0.02||||0.022|TWO_SIDED|95.0|-0.03|0.0|||MMRM||Week 48. Serum Cystatin C.|||0.00|-0.03|0.022
82459005|NCT02831764|164620337|OTHER||Mean Difference (Net)|-0.2||||0.797|TWO_SIDED|95.0|-1.4|1.1|||MMRM||Week 24. Serum RBP|||1.1|-1.4|0.797
82459006|NCT02831764|164620337|OTHER||Mean Difference (Net)|0.7||||0.258|TWO_SIDED|95.0|-0.5|1.9|||MMRM||Week 48. Serum RBP|||1.9|-0.5|0.258
82459007|NCT02831764|164620338|OTHER||Mean Difference (Net)|-0.02||||0.034|TWO_SIDED|95.0|-0.03|0.0|||MMRM||Week 96. Serum Cystatin C.|||0.00|-0.03|0.034
82459008|NCT02831764|164620339|OTHER||Mean Difference (Net)|-0.02||||0.006|TWO_SIDED|95.0|-0.04|-0.01|||MMRM||Week 144. Serum Cystatin C.|||-0.01|-0.04|0.006
82459009|NCT02831764|164620342|OTHER||Mean Difference (Net)|3.6|||<|0.001|TWO_SIDED|95.0|1.8|5.4|||MMRM||Week 24. GFR Cystatin C adjusted.|||5.4|1.8|<0.001
82459010|NCT02831764|164620342|OTHER||Mean Difference (Net)|1.7||||0.056|TWO_SIDED|95.0|0.0|3.5|||MMRM||Week 48. GFR Cystatin C adjusted.|||3.5|0.0|0.056
82459011|NCT02831764|164620342|OTHER||Mean Difference (Net)|3.4|||<|0.001|TWO_SIDED|95.0|1.7|5.2|||MMRM||Week 24. GFR creatinine adjusted.|||5.2|1.7|<0.001
82459012|NCT02831764|164620342|OTHER||Mean Difference (Net)|3.3|||<|0.001|TWO_SIDED|95.0|1.6|5.0|||MMRM||Week 48. GFR creatinine adjusted.|||5.0|1.6|<0.001
82459013|NCT02831764|164620345|OTHER||Mean Difference (Net)|-3.02|||<|0.001|TWO_SIDED|95.0|-4.49|-1.55|||MMRM||Week 24. Serum or Plasma Creatinine|||-1.55|-4.49|<0.001
82459014|NCT02831764|164620345|OTHER||Mean Difference (Net)|-3.12|||<|0.001|TWO_SIDED|95.0|-4.59|-1.65|||MMRM||Week 48. Serum or Plasma creatinine|||-1.65|-4.59|<0.001
82459015|NCT02831764|164620346|OTHER||Mean Difference (Net)|-3.04|||<|0.001|TWO_SIDED|95.0|-4.56|-1.53|||MMRM||Week 96. Serum or Plasma creatinine|||-1.53|-4.56|<0.001
82459016|NCT02831764|164620347|OTHER||Mean Difference (Net)|-2.86|||<|0.001|TWO_SIDED|95.0|-4.52|-1.19|||MMRM||Week 144. Serum or Plasma creatinine|||-1.19|-4.52|<0.001
82542197|NCT03215927|164783826|SUPERIORITY||Mean Difference (Net)|7.51|STANDARD_ERROR_OF_MEAN|8.12|<|0.05|TWO_SIDED|95.0|-8.8|23.83|||Mixed Models Analysis|Adjustments are for baseline FVC, age, and gender, with a repeated measures effect of participant.|The comparison difference value is µABT - µPlacebo.|The null hypothesis for the change outcomes is µABT - µPlacebo = 0.||23.83|-8.80|<0.05
82459017|NCT02831764|164620348|OTHER||Ratio of geometric means|0.917|||<|0.001|TWO_SIDED|95.0|0.893|0.941|||MMRM||Week 24. Serum B2M.|||0.941|0.893|<0.001
82459018|NCT02831764|164620348|OTHER||Ratio of geometric means|0.914|||<|0.001|TWO_SIDED|95.0|0.89|0.939|||MMRM||Week 48. Serum B2M.|||0.939|0.890|<0.001
82459019|NCT02831764|164620348|OTHER||Ratio of geometric means|0.748||||0.002|TWO_SIDED|95.0|0.621|0.901|||MMRM||Week 24. Urine B2M.|||0.901|0.621|0.002
82542198|NCT03215927|164783827|SUPERIORITY||Hazard Ratio (HR)|0.42|STANDARD_ERROR_OF_MEAN|1.16|<|0.05|TWO_SIDED|95.0|0.04|4.02|||Regression, Cox||ABT is the numerator and Placebo is the denominator for the hazard ratios. The dispersion value given is the SE of the estimate on the natural log scale.|The null hypothesis for the time to event outcomes is exp(bABT) / exp(bPlacebo) = 1.||4.02|0.04|<0.05
82459020|NCT02831764|164620348|OTHER||Ratio of geometric means|0.693||||0.005|TWO_SIDED|95.0|0.538|0.892|||MMRM||Week 48. Urine B2M.|||0.892|0.538|0.005
82459021|NCT02831764|164620348|OTHER||Ratio of geometric means|0.889||||0.036|TWO_SIDED|95.0|0.796|0.992|||MMRM||Week 24. Urine Albumin/Creatinine.|||0.992|0.796|0.036
82459022|NCT02831764|164620348|OTHER||Ratio of geometric means|0.938||||0.308|TWO_SIDED|95.0|0.83|1.061|||MMRM||Week 48. Urine Albumin/Creatinine.|||1.061|0.830|0.308
82459023|NCT02831764|164620348|OTHER||Ratio of geometric means|0.781||||0.007|TWO_SIDED|95.0|0.654|0.934|||MMRM||Week 24. Urine B2M/Urine Creatinine.|||0.934|0.654|0.007
82459024|NCT02831764|164620348|OTHER||Ratio of geometric means|0.742||||0.012|TWO_SIDED|95.0|0.588|0.935|||MMRM||Week 48. Urine B2M/Urine Creatinine.|||0.935|0.588|0.012
82459025|NCT02831764|164620348|OTHER||Ratio of geometric means|0.979||||0.728|TWO_SIDED|95.0|0.868|1.104|||MMRM||Week 24. Urine Phosphate.|||1.104|0.868|0.728
82459026|NCT02831764|164620348|OTHER||Ratio of geometric means|1.062||||0.311|TWO_SIDED|95.0|0.945|1.194|||MMRM||Week 48. Urine Phosphate.|||1.194|0.945|0.311
82459027|NCT02831764|164620348|OTHER||Ratio of geometric means|0.826|||<|0.001|TWO_SIDED|95.0|0.769|0.887|||MMRM||Week 24. Urine Protein/Creatinine.|||0.887|0.769|<0.001
82459028|NCT02831764|164620348|OTHER||Ratio of geometric means|0.86|||<|0.001|TWO_SIDED|95.0|0.795|0.93|||MMRM||Week 48. Urine Protein/Creatinine.|||0.930|0.795|<0.001
82459029|NCT02831764|164620348|OTHER||Ratio of geometric means|0.796||||0.003|TWO_SIDED|95.0|0.683|0.927|||MMRM||Week 24. Urine RBP 4|||0.927|0.683|0.003
82459030|NCT02831764|164620348|OTHER||Ratio of geometric means|0.903||||0.2|TWO_SIDED|95.0|0.773|1.056|||MMRM||Week 48. Urine RBP 4|||1.056|0.773|0.200
82459031|NCT02831764|164620348|OTHER||Ratio of geometric means|0.826||||0.003|TWO_SIDED|95.0|0.728|0.936|||MMRM||Week 24. Urine RBP 4/Urine Creatinine|||0.936|0.728|0.003
82459032|NCT02831764|164620348|OTHER||Ratio of geometric means|0.888||||0.052|TWO_SIDED|95.0|0.787|1.001|||MMRM||Week 48. Urine RBP 4/Urine Creatinine|||1.001|0.787|0.052
82459033|NCT02831764|164620349|OTHER||Ratio of geometric means|0.942||||0.338|TWO_SIDED|95.0|0.833|1.065|||MMRM||Week 96. Urine Albumin/Creatinine.|||1.065|0.833|0.338
82459034|NCT02831764|164620349|OTHER||Ratio of geometric means|0.671|||<|0.001|TWO_SIDED|95.0|0.545|0.826|||MMRM||Week 96. Urine B2M/Urine Creatinine.|||0.826|0.545|<0.001
82459035|NCT02831764|164620349|OTHER||Ratio of geometric means|1.082||||0.174|TWO_SIDED|95.0|0.966|1.213|||MMRM||Week 96. Urine Phosphate.|||1.213|0.966|0.174
82459036|NCT02831764|164620349|OTHER||Ratio of geometric means|0.873|||<|0.001|TWO_SIDED|95.0|0.806|0.946|||MMRM||Week 96. Urine Protein/Creatinine.|||0.946|0.806|<0.001
82459037|NCT02831764|164620349|OTHER||Ratio of geometric means|0.8|||<|0.001|TWO_SIDED|95.0|0.716|0.894|||MMRM||Week 96. Urine RBP 4/Urine Creatinine|||0.894|0.716|<0.001
82459038|NCT02831764|164620350|OTHER||Ratio of geometric means|0.971||||0.658|TWO_SIDED|95.0|0.852|1.107|||MMRM||Week 144. Urine Albumin/Creatinine.|||1.107|0.852|0.658
82459039|NCT02831764|164620350|OTHER||Ratio of geometric means|0.584|||<|0.001|TWO_SIDED|95.0|0.483|0.706|||MMRM||Week 144. Urine B2M/Urine Creatinine.|||0.706|0.483|<0.001
82459040|NCT02831764|164620350|OTHER||Ratio of geometric means|1.0||||0.993|TWO_SIDED|95.0|0.892|1.12|||MMRM||Week 144. Urine Phosphate.|||1.120|0.892|0.993
82459041|NCT02831764|164620350|OTHER||Ratio of geometric means|0.847|||<|0.001|TWO_SIDED|95.0|0.785|0.913|||MMRM||Week 144. Urine Protein/Creatinine.|||0.913|0.785|<0.001
82459042|NCT02831764|164620350|OTHER||Ratio of geometric means|0.739|||<|0.001|TWO_SIDED|95.0|0.667|0.819|||MMRM||Week 144. Urine RBP 4/Urine Creatinine|||0.819|0.667|<0.001
82459043|NCT02831764|164620351|OTHER||Mean Difference (Net)|-2.66|||<|0.001|TWO_SIDED|95.0|-3.25|-2.08|||MMRM||Week 24, Bone ALP|||-2.08|-3.25|<0.001
82459044|NCT02831764|164620351|OTHER||Mean Difference (Net)|-3.09|||<|0.001|TWO_SIDED|95.0|-3.75|-2.44|||MMRM||Week 48, Bone ALP|||-2.44|-3.75|<0.001
82459045|NCT02831764|164620351|OTHER||Mean Difference (Net)|-4.67|||<|0.001|TWO_SIDED|95.0|-5.63|-3.71|||MMRM||Week 28, Serum Osteocalcin|||-3.71|-5.63|<0.001
82459046|NCT02831764|164620351|OTHER||Mean Difference (Net)|-5.9|||<|0.001|TWO_SIDED|95.0|-6.89|-4.91|||MMRM||Week 48, Serum Osteocalcin|||-4.91|-6.89|<0.001
82459047|NCT02831764|164620351|OTHER||Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-16.4|-10.6|||MMRM||Week 24, Serum PINP|||-10.6|-16.4|<0.001
82459048|NCT02831764|164620351|OTHER||Mean Difference (Net)|-12.8|||<|0.001|TWO_SIDED|95.0|-15.4|-10.2|||MMRM||Week 48, Serum PINP|||-10.2|-15.4|<0.001
82459049|NCT02831764|164620351|OTHER||Mean Difference (Net)|-0.127|||<|0.001|TWO_SIDED|95.0|-0.164|-0.09|||MMRM||Week 24, CTX-1|||-0.0900|-0.1640|<0.001
82459050|NCT02831764|164620351|OTHER||Mean Difference (Net)|-0.2043|||<|0.001|TWO_SIDED|95.0|-0.2532|-0.1554|||MMRM||Week 48, CTX-1|||-0.1554|-0.2532|<0.001
82459051|NCT02831764|164620352|OTHER||Mean Difference (Net)|-2.13|||<|0.001|TWO_SIDED|95.0|-2.72|-1.54|||MMRM||Week 96, Bone ALP|||-1.54|-2.72|<0.001
82578239|NCT02187159|164865874|SUPERIORITY||Difference of least squares means|0.364|STANDARD_ERROR_OF_MEAN|0.602||0.5458|TWO_SIDED|95.0|-0.817|1.545|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||1.545|-0.817|0.5458
82459052|NCT02831764|164620352|OTHER||Mean Difference (Net)|-3.77|||<|0.001|TWO_SIDED|95.0|-4.69|-2.85|||MMRM||Week 96, Serum Osteocalcin|||-2.85|-4.69|<0.001
82459053|NCT02831764|164620352|OTHER||Mean Difference (Net)|-12.6|||<|0.001|TWO_SIDED|95.0|-16.8|-8.3|||MMRM||Week 96, Serum PINP|||-8.3|-16.8|<0.001
82459054|NCT02831764|164620352|OTHER||Mean Difference (Net)|-0.1183|||<|0.001|TWO_SIDED|95.0|-0.1529|-0.0838|||MMRM||Week 96, CTX-1|||-0.0838|-0.1529|<0.001
82459055|NCT02831764|164620353|OTHER||Mean Difference (Net)|-2.13|||<|0.001|TWO_SIDED|95.0|-2.74|-1.53|||MMRM||Week 144, Bone ALP|||-1.53|-2.74|<0.001
82459056|NCT02831764|164620353|OTHER||Mean Difference (Net)|-3.89|||<|0.001|TWO_SIDED|95.0|-4.87|-2.91|||MMRM||Week 144, Serum Osteocalcin|||-2.91|-4.87|<0.001
82459057|NCT02831764|164620353|OTHER||Mean Difference (Net)|-9.5|||<|0.001|TWO_SIDED|95.0|-12.8|-6.2|||MMRM||Week 144, Serum PINP|||-6.2|-12.8|<0.001
82459058|NCT02831764|164620353|OTHER||Mean Difference (Net)|-0.1364|||<|0.001|TWO_SIDED|95.0|-0.1739|-0.0988|||MMRM||Week 144, CTX-1|||-0.0988|-0.1739|<0.001
82459059|NCT02831764|164620354|OTHER||Mean Difference (Net)|-4.2||||0.015|TWO_SIDED|95.0|-7.5|-0.8|||MMRM||Week 24|||-0.8|-7.5|0.015
82459060|NCT02831764|164620354|OTHER||Mean Difference (Net)|-0.1||||0.96|TWO_SIDED|95.0|-2.8|2.6|||MMRM||Week 48|||2.6|-2.8|0.960
82459061|NCT02831764|164620355|OTHER||Mean Difference (Net)|-3.0||||0.048|TWO_SIDED|95.0|-5.9|0.0|||MMRM||Week 96, Serum Vitamin D|||0.0|-5.9|0.048
82459062|NCT02831764|164620356|OTHER||Mean Difference (Net)|-0.2||||0.887|TWO_SIDED|95.0|-3.6|3.1|||MMRM||Week 144, Serum Vitamin D|||3.1|-3.6|0.887
82459063|NCT02831764|164620363|OTHER||Mean Difference (Final Values)|3.5|||<|0.001|TWO_SIDED|95.0|1.5|5.6|||Fisher Exact||Week 24|||5.6|1.5|<0.001
82459064|NCT02831764|164620363|OTHER||Mean Difference (Final Values)|2.8||||0.037|TWO_SIDED|95.0|0.2|5.4|||Fisher Exact||Week 48|||5.4|0.2|0.037
82459065|NCT02831764|164620364|OTHER||Mean Difference (Final Values)|3.1||||0.045|TWO_SIDED|95.0|0.2|6.1|||Fisher Exact||Week 96|||6.1|0.2|0.045
82578240|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|0.235|STANDARD_ERROR_OF_MEAN|0.6038||0.6968|TWO_SIDED|95.0|-0.949|1.42|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||1.420|-0.949|0.6968
82459066|NCT02831764|164620365|OTHER||Mean Difference (Final Values)|2.6||||0.16|TWO_SIDED|95.0|-0.8|6.0|||Fisher Exact||Week 144|||6.0|-0.8|0.160
82459067|NCT02831764|164620370|OTHER||Mean Difference (Net)|37.8|||||TWO_SIDED|95.0|9.98|65.62|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||65.62|9.98|
82459068|NCT02831764|164620370|OTHER||Mean Difference (Net)|-26.81|||||TWO_SIDED|95.0|-82.72|29.1|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||29.10|-82.72|
82459069|NCT02831764|164620370|OTHER||Mean Difference (Net)|61.72|||||TWO_SIDED|95.0|-26.94|150.39|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||150.39|-26.94|
82459070|NCT02831764|164620370|OTHER||Mean Difference (Net)|22.57|||||TWO_SIDED|95.0|-3.42|48.55|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||48.55|-3.42|
82578241|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|-0.893|STANDARD_ERROR_OF_MEAN|0.6014||0.1379|TWO_SIDED|95.0|-2.073|0.287|||ANCOVA|||Physical Component: Pregabalin vs DS-5565 15 mg QD||0.287|-2.073|0.1379
82578242|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|-1.021|STANDARD_ERROR_OF_MEAN|0.6033||0.0908|TWO_SIDED|95.0|-2.205|0.163|||ANCOVA|||Physical Component: Pregabalin vs DS-5565 15 mg BID||0.163|-2.205|0.0908
82459071|NCT02831764|164620370|OTHER||Mean Difference (Net)|38.99|||||TWO_SIDED|95.0|5.88|72.09|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||72.09|5.88|
82459072|NCT02831764|164620370|OTHER||Mean Difference (Net)|-9.9|||||TWO_SIDED|95.0|-53.1|33.3|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||33.30|-53.10|
82561879|NCT04332991|164832920|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.59|1.59|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.59|0.59|
82459073|NCT02831764|164620370|OTHER||Mean Difference (Net)|65.53|||||TWO_SIDED|95.0|-14.43|145.5|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||145.50|-14.43|
82459074|NCT02831764|164620370|OTHER||Mean Difference (Net)|59.66|||||TWO_SIDED|95.0|-8.62|127.94|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||127.94|-8.62|
82459075|NCT02831764|164620370|OTHER||Mean Difference (Net)|19.23|||||TWO_SIDED|95.0|-7.65|46.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.10|-7.65|
82459076|NCT02831764|164620370|OTHER||Mean Difference (Net)|19.04|||||TWO_SIDED|95.0|-11.06|49.13|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||49.13|-11.06|
82459077|NCT02831764|164620370|OTHER||Mean Difference (Net)|43.25|||||TWO_SIDED|95.0|-30.59|117.09|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||117.09|-30.59|
82459078|NCT02831764|164620370|OTHER||Mean Difference (Net)|12.8|||||TWO_SIDED|95.0|-72.14|97.73|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||97.73|-72.14|
82459079|NCT02831764|164620370|OTHER||Mean Difference (Net)|62.01|||||TWO_SIDED|95.0|-16.09|140.12|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||140.12|-16.09|
82459080|NCT02831764|164620371|OTHER||Mean Difference (Net)|6.9|||||TWO_SIDED|95.0|-22.7|36.6|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||36.6|-22.7|
82459081|NCT02831764|164620371|OTHER||Mean Difference (Net)|13.2|||||TWO_SIDED|95.0|-46.8|73.2|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||73.2|-46.8|
82459082|NCT02831764|164620371|OTHER||Mean Difference (Net)|57.7|||||TWO_SIDED|95.0|-37.2|152.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||152.5|-37.2|
82459083|NCT02831764|164620371|OTHER||Mean Difference (Net)|4.1|||||TWO_SIDED|95.0|-23.5|31.7|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||31.7|-23.5|
82459084|NCT02831764|164620371|OTHER||Mean Difference (Net)|32.5|||||TWO_SIDED|95.0|-2.7|67.7|||||Age Group-1,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||67.7|-2.7|
82459085|NCT02831764|164620371|OTHER||Mean Difference (Net)|-31.5|||||TWO_SIDED|95.0|-77.1|14.2|||||Age Group-1,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||14.2|-77.1|
82459086|NCT02831764|164620371|OTHER||Mean Difference (Net)|5.2|||||TWO_SIDED|95.0|-81.4|91.8|||||Age Group-1,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||91.8|-81.4|
82459087|NCT02831764|164620371|OTHER||Mean Difference (Net)|8.6|||||TWO_SIDED|95.0|-19.4|36.5|||||Age Group-2, \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||36.5|-19.4|
82459088|NCT02831764|164620371|OTHER||Mean Difference (Net)|4.5|||||TWO_SIDED|95.0|-82.3|91.3|||||Age Group-2, \>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||91.3|-82.3|
82459089|NCT02831764|164620371|OTHER||Mean Difference (Net)|-27.3|||||TWO_SIDED|95.0|-100.8|46.1|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.1|-100.8|
82459090|NCT02831764|164620371|OTHER||Mean Difference (Net)|12.8|||||TWO_SIDED|95.0|-15.7|41.2|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||41.2|-15.7|
82459091|NCT02831764|164620371|OTHER||Mean Difference (Net)|11.3|||||TWO_SIDED|95.0|-20.4|43.1|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||43.1|-20.4|
82561880|NCT04332991|164832921|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.3|1.58|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.58|0.30|
82561881|NCT04332991|164832922|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.48|3.18|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.18|0.48|
82561882|NCT04332991|164832923|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.24|3.96|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||3.96|0.24|
82561883|NCT04332991|164832924|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.73|1.53|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.53|0.73|
82459092|NCT02831764|164620371|OTHER||Mean Difference (Net)|-37.8|||||TWO_SIDED|95.0|-119.6|44.0|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||44.0|-119.6|
82459093|NCT02831764|164620371|OTHER||Mean Difference (Net)|15.6|||||TWO_SIDED|95.0|-74.4|105.7|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||105.7|-74.4|
82459094|NCT02831764|164620371|OTHER||Mean Difference (Net)|37.6|||||TWO_SIDED|95.0|-45.4|120.5|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||120.5|-45.4|
82459095|NCT02831764|164620372|OTHER||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-34.1|35.0|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||35.0|-34.1|
82459096|NCT02831764|164620372|OTHER||Mean Difference (Net)|14.7|||||TWO_SIDED|95.0|-55.6|84.9|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||84.9|-55.6|
82459097|NCT02831764|164620372|OTHER||Mean Difference (Net)|26.5|||||TWO_SIDED|95.0|-87.3|140.3|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||140.3|-87.3|
82459098|NCT02831764|164620372|OTHER||Mean Difference (Net)|2.8|||||TWO_SIDED|95.0|-29.4|35.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||35.1|-29.4|
82459099|NCT02831764|164620372|OTHER||Mean Difference (Net)|8.3|||||TWO_SIDED|95.0|-32.5|49.1|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||49.1|-32.5|
82459100|NCT02831764|164620372|OTHER||Mean Difference (Net)|-13.3|||||TWO_SIDED|95.0|-67.6|41.1|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||41.1|-67.6|
82459101|NCT02831764|164620372|OTHER||Mean Difference (Net)|32.7|||||TWO_SIDED|95.0|-68.5|133.9|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||133.9|-68.5|
82459102|NCT02831764|164620372|OTHER||Mean Difference (Net)|5.1|||||TWO_SIDED|95.0|-80.7|90.8|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||90.8|-80.7|
82459103|NCT02831764|164620372|OTHER||Mean Difference (Net)|2.1|||||TWO_SIDED|95.0|-31.1|35.3|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||35.3|-31.1|
82459104|NCT02831764|164620372|OTHER||Mean Difference (Net)|13.7|||||TWO_SIDED|95.0|-23.2|50.6|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||50.6|-23.2|
82459105|NCT02831764|164620372|OTHER||Mean Difference (Net)|-57.4|||||TWO_SIDED|95.0|-155.3|40.4|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||40.4|-155.3|
82459106|NCT02831764|164620372|OTHER||Mean Difference (Net)|-40.1|||||TWO_SIDED|95.0|-144.2|64.0|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||64.0|-144.2|
82459107|NCT02831764|164620372|OTHER||Mean Difference (Net)|33.1|||||TWO_SIDED|95.0|-63.3|129.6|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||129.6|-63.3|
82459108|NCT02831764|164620373|OTHER||Mean Difference (Net)|9.1|||||TWO_SIDED|95.0|-31.1|49.2|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||49.2|-31.1|
82459109|NCT02831764|164620373|OTHER||Mean Difference (Net)|-16.6|||||TWO_SIDED|95.0|-98.9|65.8|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||65.8|-98.9|
82459110|NCT02831764|164620373|OTHER||Mean Difference (Net)|56.0|||||TWO_SIDED|95.0|-77.2|189.1|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||189.1|-77.2|
82459111|NCT02831764|164620373|OTHER||Mean Difference (Net)|2.4|||||TWO_SIDED|95.0|-35.2|39.9|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||39.9|-35.2|
82459112|NCT02831764|164620373|OTHER||Mean Difference (Net)|25.8|||||TWO_SIDED|95.0|-22.3|74.0|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||74.0|-22.3|
82459113|NCT02831764|164620373|OTHER||Mean Difference (Net)|-36.4|||||TWO_SIDED|95.0|-98.6|25.8|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||25.8|-98.6|
82459114|NCT02831764|164620373|OTHER||Mean Difference (Net)|24.1|||||TWO_SIDED|95.0|-89.0|137.2|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||137.2|-89.0|
82459115|NCT02831764|164620373|OTHER||Mean Difference (Net)|-26.9|||||TWO_SIDED|95.0|-125.9|72.2|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||72.2|-125.9|
82578243|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|1.89|STANDARD_ERROR_OF_MEAN|0.6965||0.0068|TWO_SIDED|95.0|0.523|3.256|||ANCOVA|||Mental Component: Placebo vs Pregabalin||3.256|0.523|0.0068
82459116|NCT02831764|164620373|OTHER||Mean Difference (Net)|8.1|||||TWO_SIDED|95.0|-30.3|46.5|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||46.5|-30.3|
82542199|NCT00465816|164783828|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenA GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.8|1.22|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenA GMT of the Nimenrix + Twinrix group compared to Nimenrix one, two-sided 95% confidence interval (CI) from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.22|0.8|
82542200|NCT00465816|164783828|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenC GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|0.91|||||TWO_SIDED|95.0|0.68|1.21|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenC GMT of the Nimenrix+Twinrix group compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.21|0.68|
82459117|NCT02831764|164620373|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|-39.4|46.3|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||46.3|-39.4|
82459118|NCT02831764|164620373|OTHER||Mean Difference (Net)|-121.2|||||TWO_SIDED|95.0|-237.2|-5.1|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||-5.1|-237.2|
82459119|NCT02831764|164620373|OTHER||Mean Difference (Net)|13.1|||||TWO_SIDED|95.0|-106.4|132.6|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||132.6|-106.4|
82459120|NCT02831764|164620373|OTHER||Mean Difference (Net)|114.3|||||TWO_SIDED|95.0|4.6|224.0|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||224.0|4.6|
82459121|NCT02831764|164620374|OTHER||Mean Difference (Net)|-0.0019||||0.759|TWO_SIDED|95.0|-0.0137|0.01|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0100|-0.0137|0.759
82459122|NCT02831764|164620374|OTHER||Mean Difference (Net)|0.0003||||0.943|TWO_SIDED|95.0|-0.0088|0.0095|||MMRM||Week 24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0095|-0.0088|0.943
82459123|NCT02831764|164620374|OTHER||Mean Difference (Net)|-0.0019||||0.703|TWO_SIDED|95.0|-0.0117|0.0079|||MMRM||Week 48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA , Baseline CD4+ cell count , and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0079|-0.0117|0.703
82459124|NCT02831764|164620375|OTHER||Mean Difference (Net)|-0.0003||||0.957|TWO_SIDED|95.0|-0.011|0.0104|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0104|-0.0110|0.957
82459125|NCT02831764|164620376|OTHER||Mean Difference (Net)|0.0079||||0.162|TWO_SIDED|95.0|-0.0032|0.0189|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0189|-0.0032|0.162
82459126|NCT02831764|164620377|OTHER||Mean Difference (Net)|-1.3||||0.045|TWO_SIDED|95.0|-2.6|0.0|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0|-2.6|0.045
82459127|NCT02831764|164620377|OTHER||Mean Difference (Net)|-0.6||||0.358|TWO_SIDED|95.0|-1.9|0.7|||MMRM||Week 24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.7|-1.9|0.358
82459128|NCT02831764|164620377|OTHER||Mean Difference (Net)|-0.6||||0.328|TWO_SIDED|95.0|-1.9|0.6|||MMRM||Week 48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.6|-1.9|0.328
82459129|NCT02831764|164620378|OTHER||Mean Difference (Net)|-0.7||||0.318|TWO_SIDED|95.0|-2.1|0.7|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.7|-2.1|0.318
82459130|NCT02831764|164620379|OTHER||Mean Difference (Net)|0.3||||0.674|TWO_SIDED|95.0|-1.0|1.6|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||1.6|-1.0|0.674
82459131|NCT00865345|164620380|SUPERIORITY_OR_OTHER||Intercept from ANCOVA model|70.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.05|TWO_SIDED|95.0|60.0|100.0|||ANCOVA|null model ANOVA is used to calculate 95% CI around accuracy rate. Intercept was fit in the abscence of other predictors.||||100|60|<0.05
82459132|NCT04290039|164620400|OTHER|Estimation only|Geometric ratio of least-square means|0.579|||||TWO_SIDED|90.0|0.5265|0.636|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6360|0.5265|
82459133|NCT04290039|164620400|OTHER|Estimation only|Geometric ratio of least-square means|0.349|||||TWO_SIDED|90.0|0.3171|0.3839|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.3839|0.3171|
82561884|NCT04332991|164832925|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.92|1.89|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||1.89|0.92|
82459134|NCT04290039|164620400|OTHER|Estimation only|Geometric ratio of least-square means|0.603|||||TWO_SIDED|90.0|0.5524|0.6582|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6582|0.5524|
82459135|NCT04290039|164620401|OTHER|Estimation only|Geometric ratio of least-square means|0.546|||||TWO_SIDED|90.0|0.4971|0.6004|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6004|0.4971|
82459136|NCT04290039|164620401|OTHER|Estimation only|Geometric ratio of least-square means|0.306|||||TWO_SIDED|90.0|0.2788|0.3367|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.3367|0.2788|
82459137|NCT04290039|164620401|OTHER|Estimation only|Geometric ratio of least-square means|0.561|||||TWO_SIDED|90.0|0.5104|0.6164|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.6164|0.5104|
82459138|NCT04290039|164620402|OTHER|Estimation only|Geometric ratio of least-square means|0.549|||||TWO_SIDED|90.0|0.4273|0.7118|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.7118|0.4273|
82459139|NCT04290039|164620402|OTHER|Estimation only|Geometric ratio of least-square means|0.049|||||TWO_SIDED|90.0|0.0381|0.0641|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.0641|0.0381|
82459140|NCT04290039|164620402|OTHER|Estimation only|Geometric ratio of least-square means|0.09|||||TWO_SIDED|90.0|0.0695|0.1167|||Mixed Models Analysis||Only subjects who had at least 2 periods where study drug was received with an evaluable PK profile were included in the comparisons.|||0.1167|0.0695|
82542201|NCT00465816|164783828|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenW-135 GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|1.02|||||TWO_SIDED|95.0|0.87|1.19|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenW-135 GMT of the Nimenrix+Twinrixg roup compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.19|0.87|
82542202|NCT00465816|164783828|NON_INFERIORITY|The lower limit of the two-sided 95% CI on the ratio of rSBA-MenY GMTs between Nimenrix + Twinrix group and (over) Nimenrix group was ≥ 0.5.|Adjusted GMT ratio|1.01|||||TWO_SIDED|95.0|0.85|1.19|||ANCOVA|||To assess the Non-inferiority in term of rSBA-MenY GMT of the Nimenrix+Twinrix group compared to Nimenrix one, Two-sided 95% CI from ANCOVA model on the GMTs ratio (Nimenrix+Twinrix group over Nimenrix group) was computed. The model was adjusted for age strata and baseline titre.||1.19|0.85|
82561885|NCT04332991|164832926|SUPERIORITY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.21|2.94|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||2.94|0.21|
82561886|NCT04332991|164832927|SUPERIORITY||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.06|15.74|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|||15.74|0.06|
82459141|NCT00387881|164620470|SUPERIORITY_OR_OTHER||Percent difference|18.0|||<|0.001||95.0|10.0|25.0||Endpoints were co-primary and both needed to have p-value of \<0.05 to be considered indicative of efficacy.|Cochran-Mantel-Haenszel||Analysis for Migraine Pain-Free at 2 hours Post-Dose|Pain-Free (2 hours)||25|10|<0.001
82459142|NCT00387881|164620470|SUPERIORITY_OR_OTHER||Percent difference|15.0|||<|0.001||95.0|8.0|22.0|||Cochran-Mantel-Haenszel||Analysis for Sustained Pain Free from 2-24 hours Post-dose|Sustained Pain-Free (2-24 hours)||22|8|<0.001
82459143|NCT00453154|164620480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using a 1-sided significance level of 0.15, the study has approximately 89% power to reject the null hypothesis|Hazard Ratio (HR)|1.62||||0.02|TWO_SIDED|70.0|1.27|2.08||All randomization was done using a permuted-block scheme with a block size of 6, stratified by combination chemotherapy (cisplatin vs carboplatin) and number of combination chemotherapy cycles (\< 6 vs 6 cycles)|Log Rank|||||2.08|1.27|0.02
82459144|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-16 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|0.15|||||TWO_SIDED|95.0|0.09|0.23||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=1963). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.23|0.09|
82459145|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-16 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.88|||||TWO_SIDED|95.0|0.73|1.05||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=1917). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||1.05|0.73|
82459146|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.09|||||TWO_SIDED|95.0|0.05|0.15||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2356). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.15|0.05|
82561887|NCT04332991|164832928|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.69|1.35|||||Odds ratios greater than 1.0 indicated less favorable outcomes for patients in the hydroxychloroquine group compared with the placebo group|Outcome measure was adjusted for: age, sex, baseline COVID Outcome Scale category, baseline Sequential Organ Failure Assessment score, and duration of acute respiratory infection symptoms prior to randomization||1.35|0.69|
82459147|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.44|||||TWO_SIDED|95.0|0.35|0.56||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2357). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.56|0.35|
82459148|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|0.2|||||TWO_SIDED|95.0|0.14|0.27||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2534). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||0.27|0.14|
82459149|NCT03629886|164620491|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100 Person-years|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2547). Those subjects were or were not enrolled in the current study, were HPV DNA negative and seronegative subjects at baseline and had cervical samples collected data.||1.18|0.88|
82459150|NCT03629886|164620492|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.25|||||TWO_SIDED|95.0|0.19|0.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2818). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.33|0.19|
82459151|NCT03629886|164620492|OTHER|The IR (n/T) of incident cervical infection with HPV-16 and/or HPV-18 (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n), over the sum of follow-up period expressed in years (T), and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.21|||||TWO_SIDED|95.0|1.06|1.37||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of HPV-16/18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2815). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.37|1.06|
82459152|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.17|||||TWO_SIDED|95.0|0.11|0.24||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2718). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.24|0.11|
82459153|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2722). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.99|0.72|
82459154|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.1|||||TWO_SIDED|95.0|0.06|0.15||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2781). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.15|0.06|
82459155|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.47||||||95.0|0.38|0.58||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-18 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2781). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.58|0.38|
82459156|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.21|||||TWO_SIDED|95.0|0.15|0.28||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2786). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.28|0.15|
82459157|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.48|||||TWO_SIDED|95.0|0.39|0.59||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2782). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.59|0.39|
82542203|NCT00465816|164783829|NON_INFERIORITY|The lower limit of the two-sided standardised asymptotic 95% CI for group difference (Nimenrix+Twinrix group minus Twinrix group) in the percentage of subjects with vaccine seroconversion was ≥ pre-defined clinical limit of -10%.|Percentage difference|0.0|||||TWO_SIDED|95.0|-1.19|3.9||||||To assess the Non-inferiority of the Nimenrix+Twinrix group compared to Twinrix one, two-sided standardized asymptotic 95% CI for the difference in seroconversion rates for hepatitis A (Nimenrix+Twinrix group minus Twinrix group) was computed.||3.9|-1.19|
82542204|NCT00465816|164783830|NON_INFERIORITY|The lower limit of the two-sided standardised asymptotic 95% CI for group difference (Nimenrix+Twinrix group minus Twinrix group) in the percentage of subjects with vaccine seroconversion was ≥ pre-defined clinical limit of -10%.|Percentage difference|-0.91|||||TWO_SIDED|95.0|-2.64|2.92||||||To assess the Non-inferiority of the Nimenrix+Twinrix group compared to the Twinrix one, two-sided standardized asymptotic 95% CI for the difference in seroprotection rates for hepatitis B (Nimenrix+Twinrix group minus Twinrix group) was computed.||2.92|-2.64|
82459158|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.25|||||TWO_SIDED|95.0|0.18|0.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-33 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.33|0.18|
82459159|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.41|||||TWO_SIDED|95.0|0.33|0.51||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-33 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2784). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.51|0.33|
82459160|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.3|||||TWO_SIDED|95.0|0.23|0.39||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-35 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2806). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.39|0.23|
82459161|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.36|||||TWO_SIDED|95.0|0.28|0.46||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-35 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2803). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.46|0.28|
82459162|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.88||||||95.0|0.75|1.02||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-39 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2759). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.02|0.75|
82459163|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-39 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2773). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.93|0.67|
82459164|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.11|||||TWO_SIDED|95.0|0.07|0.16||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2794). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.16|0.07|
82459165|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.21|||||TWO_SIDED|95.0|0.15|0.28||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N= 2802). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.28|0.15|
82459166|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.02|||||TWO_SIDED|95.0|0.88|1.18||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-51 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2753). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.18|0.88|
82459167|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.18|||||TWO_SIDED|95.0|1.03|1.34||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-51 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2756). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.34|1.03|
82459168|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.67|||||TWO_SIDED|95.0|1.48|1.87||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-52 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2666). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.87|1.48|
82459169|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|1.8|||||TWO_SIDED|95.0|1.61|2.0||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-52 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2663). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||2.00|1.61|
82459170|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.61|||||TWO_SIDED|95.0|0.5|0.73||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-56 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2783). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.73|0.50|
82542205|NCT00818454|164783863|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||MMRM ANCOVA|||||||<0.0001
82542206|NCT00818454|164783864|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||MMRM ANCOVA|||||||<0.0001
82542207|NCT00818454|164783865|SUPERIORITY_OR_OTHER|||||||0.159|||||||MMRM ANCOVA|||||||0.159
82542208|NCT00818454|164783866|SUPERIORITY_OR_OTHER|||||||0.8278|||||||MMRM ANCOVA|||||||0.8278
82542209|NCT00818454|164783867|SUPERIORITY_OR_OTHER|||||||0.5098|||||||MMRM ANCOVA|||||||0.5098
82459171|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.64|||||TWO_SIDED|95.0|0.53|0.76||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-56 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.76|0.53|
82459172|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.51|||||TWO_SIDED|95.0|0.42|0.62||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-58 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2772). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.62|0.42|
82459173|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.65||||||95.0|0.55|0.77||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-58 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2768). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.77|0.55|
82459174|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.31|||||TWO_SIDED|95.0|0.24|0.4||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-59 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2814). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.40|0.24|
82459175|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.36|||||TWO_SIDED|95.0|0.28|0.45||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-59 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2797). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.45|0.28|
82459176|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.62|||||TWO_SIDED|95.0|0.51|0.74||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-66 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2779). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.74|0.51|
82542210|NCT00818454|164783868|SUPERIORITY_OR_OTHER|||||||0.6591|||||||MMRM ANCOVA|||||||0.6591
82542211|NCT00818454|164783869|SUPERIORITY_OR_OTHER|||||||0.3631|||||||MMRM ANCOVA|||||||0.3631
82542212|NCT00818454|164783870|NON_INFERIORITY_OR_EQUIVALENCE|Enter additional comments here, if non-inferiority or equivalence analysis||||||0.6787|||||||MMRM ANCOVA|||||||0.6787
82542213|NCT00818454|164783871|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Mixed Models Analysis|Adjusted for baseline, period, week, and treatment by week interaction||||||0.0001
82542214|NCT00818454|164783872|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Mixed Models Analysis|Adjusted for baseline, period, week, and treatment by week interaction||||||0.0003
82542215|NCT03675581|164783873|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|101.36|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|92.83|110.67|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||110.67|92.83|
82542216|NCT03675581|164783874|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|96.4|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|91.48|101.58|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T = Test, R = Reference|||101.58|91.48|
82561888|NCT02336958|164832929|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
82561889|NCT02336958|164832930|SUPERIORITY_OR_OTHER|||||||0.459|TWO_SIDED||||||t-test, 2 sided|||||||0.459
82459177|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.64|||||TWO_SIDED|95.0|0.54|0.77||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-66 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2763). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.77|0.54|
82459178|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.56||||||95.0|0.46|0.68||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-68 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2775). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.68|0.46|
82459179|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.59|||||TWO_SIDED|95.0|0.49|0.71||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-68 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2785). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.71|0.49|
82459180|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.5|||||TWO_SIDED|95.0|0.41|0.61||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31/33/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.61|0.41|
82459181|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.97|||||TWO_SIDED|95.0|0.84|1.12||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-31/33/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2824). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||1.12|0.84|
82459182|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|0.75|||||TWO_SIDED|95.0|0.63|0.88||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16/18/33/31/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||0.88|0.63|
82459183|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|2.11|||||TWO_SIDED|95.0|1.91|2.33||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HPV-16/18/33/31/45 incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||2.33|1.91|
82459184|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.13|||||TWO_SIDED|95.0|4.79|5.49||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HRW-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||5.49|4.79|
82561890|NCT03547154|164832931|SUPERIORITY_OR_OTHER|||||||0.322||||||Analysis of Major Response|Fisher Exact|Missing data considered failures||||||0.322
82561891|NCT03547154|164832932|SUPERIORITY_OR_OTHER||||||>|0.999||||||Analysis of Major Response|Fisher Exact|Missing data considered failures||||||>0.999
82459185|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.72|||||TWO_SIDED|95.0|5.36|6.1||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HRW-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||6.10|5.36|
82459186|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|5.29|||||TWO_SIDED|95.0|4.94|5.65||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HR-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received HPV vaccine in that study (N=2823). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||5.65|4.94|
82459187|NCT03629886|164620493|OTHER|The IR (n/T) of incident cervical infection with any oncogenic HPV type or combination of oncogenic HPV types (per 100 Person-years rate) was calculated as the number of subjects reporting at least one event (n) in a group (assessed by detecting HPV DNA using PCR), over the sum of follow-up period expressed in years (T) in the same group, and multiplied by 100 and 95% Confidence Intervals (CI) were used for calculation.|Incidence rate per 100-Person years|6.29|||||TWO_SIDED|95.0|5.91|6.69||||||Analysis was performed to assess the protective effect of HPV Vaccine in terms of incidence rate of oncogenic HR-HPV incident cervical infection, in subjects who participated in the HPV-039 study and who received placebo in that study (N=2825). Those subjects were or were not enrolled in the current study, were HPV DNA negative subjects at baseline and had cervical samples collected data.||6.69|5.91|
82459188|NCT03016312|164620500|SUPERIORITY||Hazard Ratio (HR)|1.184||||0.094|TWO_SIDED|95.0|0.971|1.445|||Log Rank|||Unstratified Analysis||1.445|0.971|0.0940
82459189|NCT03016312|164620500|SUPERIORITY||Hazard Ratio (HR)|1.118||||0.2786|TWO_SIDED|95.0|0.913|1.37|||Log Rank|||Stratified Analysis||1.370|0.913|0.2786
82459190|NCT03016312|164620501|SUPERIORITY||Difference in Event Free Rate|-0.2||||0.9391|TWO_SIDED|95.0|-5.38|4.97|||z-test|||Difference in Event Free Rate - 6 months||4.97|-5.38|0.9391
82459191|NCT03016312|164620501|SUPERIORITY||Difference in Event Free Rate|-4.03||||0.2706|TWO_SIDED|95.0|-11.21|3.14|||z-test|||Difference in Event Free Rate - 12 months||3.14|-11.21|0.2706
82459192|NCT03016312|164620503|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.3157|TWO_SIDED|95.0|0.775|1.086|||Log Rank|||Unstratified Analysis||1.086|0.775|0.3157
82459193|NCT03016312|164620503|SUPERIORITY||Hazard Ratio (HR)|0.899||||0.2366|TWO_SIDED|95.0|0.754|1.072|||Log Rank|||Stratified Analysis||1.072|0.754|0.2366
82459194|NCT03016312|164620504|SUPERIORITY||Difference in Event Free Rate|2.21||||0.5959|TWO_SIDED|95.0|-5.95|10.37|||z-test|||Difference in Event Free Rate - 6 months||10.37|-5.95|0.5959
82459195|NCT03016312|164620504|SUPERIORITY||Difference in Event Free Rate|1.44||||0.6262|TWO_SIDED|95.0|-4.35|7.23|||z-test|||Difference in Event Free Rate - 12 months||7.23|-4.35|0.6262
82459196|NCT03016312|164620505|SUPERIORITY||Difference in 50% Decrease Response Rate|1.6|||||TWO_SIDED|2.0|-4.5|7.8|||||||Odds Ratio: 1.1 95%CI: 0.8, 1.5|7.8|-4.5|
82459197|NCT03016312|164620506|SUPERIORITY||Hazard Ratio (HR)|1.055||||0.5359|TWO_SIDED|95.0|0.89|1.251|||Log Rank|||Unstratified Analysis||1.251|0.890|0.5359
82459198|NCT03016312|164620506|SUPERIORITY||Hazard Ratio (HR)|1.037||||0.6857|TWO_SIDED|95.0|0.869|1.238|||Log Rank|||Stratified Analysis||1.238|0.869|0.6857
82459199|NCT00496015|164620514|SUPERIORITY|Superiority criteria: The lower limit (LL) of the standardized asymptotic 95% confidence interval (CI) for the difference between groups (Synflorix PRE Group minus Synflorix I Group) was above 0%.|Difference in percentages|22.18|||||TWO_SIDED|95.0|11.78|32.11||||||||32.11|11.78|
82459200|NCT01116401|164620547|SUPERIORITY_OR_OTHER|||||||0.007|||||||Regression, Linear|||||||0.007
82459201|NCT01116401|164620548|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||||||<0.01
82459202|NCT00904813|164620574|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.38||||0.52|TWO_SIDED|90.0|0.06|2.56||The threshold for statistical significance was p=0.05.|Log Rank|An overall p-value was calculated.|SRT was used as reference group. Estimation described above is for SRT-delay. For LRT-delay HR (90% CI) was 1.22 with lower limit: 0.33, and upper limit: 3.45.|The effect of treatment regimen on local recurrence as first event in the three-armed group comparison (n = 385) was estimated with proportional hazards regression, stratified by participating centre.||2.56|0.06|0.52
82459203|NCT00904813|164620574|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.93||||0.92|TWO_SIDED|95.0|0.64|1.35||The threshold for statistical significance was p=0.05.|Log Rank|An overall p-value was calculated.|SRT was used as reference group (1.00). Estimation described above is for SRT-delay. For LRT-delay HR (95% CI) was 0.99 with lower limit: 0.68, and upper limit: 1.42.|The effect of treatment regimen on recurrence-free survival in the three armed randomisation comparison (n = 385) was estimated with proportional hazards regression, stratified by participating centre.||1.35|0.64|0.92
82561892|NCT03547154|164832933|SUPERIORITY_OR_OTHER|||||||0.588||||||Analysis of Complete Response|Fisher Exact|Missing data considered failures||||||0.588
82459204|NCT00904813|164620574|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.91||||0.59|TWO_SIDED|90.0|0.36|2.27||The threshold for statistical significance was p=0.05.|Log Rank||SRT was used as reference group (1.00). Estimation described above is for SRT-delay.|The effect of treatment regimen on local recurrence as first event in the pooled short-course RT comparison (n = 712) was estimated with proportional hazards regression, stratified by participating centre.||2.27|0.36|0.59
82459205|NCT00904813|164620574|NON_INFERIORITY|In the initial protocol treatment groups were deemed non-inferior if the upper limit of a two-sided 90% CI for the hazard ratio did not exceed 1.7. With a cumulative incidence of local recurrence at 15%, a sample size of 840 participants were determined to provide a power of 80%. However, due to lower recurrence rate, the trial was re-powered in the amendment 1999 to deem non-inferiority at an HR not exceeding 2.5 or 3.6 depending on the frequency of local recurrence.|Hazard Ratio (HR)|0.9||||0.39|TWO_SIDED|95.0|0.69|1.18||The threshold for statistical significance was p=0.05.|Log Rank||SRT was used as reference group. Estimation described above is for SRT-delay.|The effect of treatment regimen on recurrence-free survival in the pooled short-course RT comparison (n = 712) was estimated with proportional hazards regression, stratified by participating centre.||1.18|0.69|0.39
82459206|NCT00904813|164620575|SUPERIORITY||Odds Ratio (OR)|0.72||||0.289|TWO_SIDED|95.0|0.4|1.32||The threshold of statistical significance was p=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||1.32|0.40|0.289
82459207|NCT00904813|164620575|SUPERIORITY||Odds Ratio (OR)|0.5||||0.009|TWO_SIDED|95.0|0.3|0.84||The threshold for statistical significance was p=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||0.84|0.30|0.009
82459208|NCT00904813|164620575|SUPERIORITY||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.23|0.65||The threshold for statistical significance was p-value=0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group B was used as the reference group.|The association between postoperative complications and short-course RT by overall treatment time was assessed using logistic regression analysis.||0.65|0.23|<0.001
82459209|NCT00904813|164620575|SUPERIORITY||Odds Ratio (OR)|1.58||||0.521|TWO_SIDED|95.0|0.39|6.37||The threshold for statistical significance was p-value = 0.05.|Regression, Logistic|Model was adjusted for sex, age over 75 years, type of surgery and ASA fitness grade.|Group E was used as the reference group.|The association between postoperative complications and long-course RT by overall treatment time was assessed using logistic regression analysis.||6.37|0.39|0.521
82459210|NCT00904813|164620576|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.046|TWO_SIDED|95.0|0.26|0.99||The threshold for statistical significance was p=0.05.|Regression, Cox|Model adjusted for age, sex and type of surgery.|No pCR was used as reference group.|The association between pathological complete response (pCR), eg no signs of viable tumour or metastatic nodes (T0N0) and overall survival (OS) was assessed using Cox-regression model.||0.99|0.26|0.046
82459211|NCT02656017|164620593|SUPERIORITY||Mean Difference (Net)|0.07||||0.5|TWO_SIDED|95.0|-0.13|0.26|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in GSRS score as a function of time, the interaction between time and study arm, and clinical site.||0.26|-0.13|0.50
82459212|NCT02656017|164620594|SUPERIORITY|||||||0.12|||||||Gray's test|||The Gray's test of homogeneity for competing risks was used to compare cumulative incidence of tolerating the drug between study arms.||||0.12
82459213|NCT02656017|164620595|SUPERIORITY|||||||0.98|||||||Regression, Logistic|||Cumulative incidence between study arms and logistic regression was used to assess the association between study arms.||||0.98
82459214|NCT02656017|164620596|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.72|TWO_SIDED|95.0|-1.81|2.6|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in SF-36 PCS as a function of time, the interaction between time and study arm, and clinical site.||2.60|-1.81|0.72
82459215|NCT02656017|164620597|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.49|TWO_SIDED|95.0|-2.02|4.25|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in SF-36 MCS as a function of time, the interaction between time and study arm, and clinical site.||4.25|-2.02|0.49
82459216|NCT02656017|164620598|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare back pain frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.44
82459217|NCT02656017|164620599|SUPERIORITY||Mean Difference (Final Values)|2.73||||0.2|TWO_SIDED|95.0|-1.4|6.87|||Mixed Models Analysis|||Linear mixed model with random intercept was used to compare the change in eGFR as a function of time, the interaction between time and study arm, and clinical site.||6.87|-1.40|0.20
82459218|NCT02656017|164620600|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.38|TWO_SIDED|95.0|-2.11|5.62|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htTKV) as a function of time, the interaction between time and study arm, and clinical site.||5.62|-2.11|0.38
82459219|NCT02656017|164620601|SUPERIORITY||Mean Difference (Final Values)|3.81||||0.31|TWO_SIDED|95.0|-3.48|11.65|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htTKCV) as a function of time, the interaction between time and study arm, and clinical site.||11.65|-3.48|0.31
82578244|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|0.406|STANDARD_ERROR_OF_MEAN|0.6956||0.5594|TWO_SIDED|95.0|-0.959|1.771|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.771|-0.959|0.5594
82578245|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|0.023|STANDARD_ERROR_OF_MEAN|0.6979||0.9736|TWO_SIDED|95.0|-1.346|1.392|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||1.392|-1.346|0.9736
82459220|NCT02656017|164620602|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.72|TWO_SIDED|95.0|-1.78|2.61|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htLV) as a function of time, the interaction between time and study arm, and clinical site.||2.61|-1.78|0.72
82459221|NCT02656017|164620603|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.8|TWO_SIDED|95.0|-10.05|14.76|||Mixed Models Analysis|||Linear mixed model with random intercept and slope was used to compare the annual percent change of ln(htLCV) as a function of time, the interaction between time and study arm, and clinical site.||14.76|-10.05|0.80
82459222|NCT02656017|164620604|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare abdominal fullness interfered as a function of time, the interaction between time and study arm, and clinical site.||||0.83
82459223|NCT02656017|164620605|SUPERIORITY|||||||0.72|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare interference of pain with sleep frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.72
82459224|NCT02656017|164620606|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||Generalized linear mixed model (logit link) with random intercept and slope was used to compare interference of pain with strenuous physical activity frequency as a function of time, the interaction between time and study arm, and clinical site.||||0.28
82459225|NCT01755234|164620607|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.97
82459226|NCT01755234|164620608|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.96
82459227|NCT01755234|164620609|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.96
82652388|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.141||||0.2923|TWO_SIDED|95.0|-0.404|0.122||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 6||0.122|-0.404|0.2923
82459228|NCT01755234|164620610|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.84
82459229|NCT01216202|164620631|SUPERIORITY|||||||0.014||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||The association between change in serum testosterone levels and cumulative mean testicular radiation dose was assessed using longitudinal regression analysis (GEE). No preoperative RT contributed with baseline values.||||0.014
82459230|NCT01216202|164620632|SUPERIORITY||Estimated mean change|-4.0||||0.008|TWO_SIDED|95.0|-6.9|-1.0||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for time between preoperative radiotherapy (RT) and surgery.||The association between change in total number of sperms per ejaculate and relative mean testicular dose was assessed using longitudinal regression analysis (GEE).||-1.0|-6.9|0.008
82459231|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.34||||||95.0|0.22|0.53|||Cochran-Mantel-Haenszel|||||0.53|0.22|
82459232|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31||||||95.0|0.12|0.81|||Cochran-Mantel-Haenszel|||||0.81|0.12|
82459233|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.08||||||95.0|0.06|0.13|||Cochran-Mantel-Haenszel|||||0.13|0.06|
82459234|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||||95.0|0.34|2.41|||Cochran-Mantel-Haenszel|||||2.41|0.34|
82459235|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.25||||||95.0|0.16|0.39|||Cochran-Mantel-Haenszel|||||0.39|0.16|
82459236|NCT00614380|164620641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||||95.0|0.1|0.72|||Cochran-Mantel-Haenszel|||||0.72|0.10|
82459237|NCT01506271|164620655|NON_INFERIORITY|Non-inferiority test based on unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|1.1|||<|0.001|TWO_SIDED|95.0|-6.2|8.6|||Miettinen and Nurminen||Relebactam minus Placebo|MK-7655 250 mg - Placebo: Percentage Difference||8.6|-6.2|< 0.001
82459238|NCT01506271|164620655|NON_INFERIORITY|Non-inferiority test based on unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|3.7|||<|0.001|TWO_SIDED|95.0|-2.0|10.8|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||10.8|-2.0|< 0.001
82459239|NCT01506271|164620656|OTHER|Test for a non-zero difference.|Percentage Difference|0.0||||0.979|TWO_SIDED|95.0|-4.7|4.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||4.5|-4.7|0.979
82459240|NCT01506271|164620656|OTHER|Test for a non-zero difference.|Percentage Difference|-1.8||||0.153|TWO_SIDED|95.0|-6.2|1.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||1.5|-6.2|0.153
82459241|NCT01506271|164620657|OTHER|Test for a non-zero difference.|Percentage Difference|0.9||||0.324|TWO_SIDED|95.0|-2.4|4.7|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||4.7|-2.4|0.324
82459242|NCT01506271|164620657|OTHER|Test for a non-zero difference|Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.3|3.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||3.2|-3.3|> 0.999
82459243|NCT01506271|164620658|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|7.5|||||TWO_SIDED|95.0|-5.4|20.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||20.1|-5.4|
82459244|NCT01506271|164620658|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|6.2|||||TWO_SIDED|95.0|-6.7|18.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||18.8|-6.7|
82459245|NCT01506271|164620659|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.6|||||TWO_SIDED|95.0|-10.3|2.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||2.4|-10.3|
82459246|NCT01506271|164620659|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|2.5|||||TWO_SIDED|95.0|-5.0|10.1|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||10.1|-5.0|
82459247|NCT01506271|164620660|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.0|||||TWO_SIDED|95.0|-4.5|12.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||12.7|-4.5|
82652389|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.085||||0.5388|TWO_SIDED|95.0|-0.359|0.188||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.188|-0.359|0.5388
82459248|NCT01506271|164620660|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-4.4|12.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||12.8|-4.4|
82459249|NCT01506271|164620661|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.0|||||TWO_SIDED|95.0|-4.0|3.9|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||3.9|-4.0|
82459250|NCT01506271|164620661|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-4.8|2.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||2.4|-4.8|
82459251|NCT01506271|164620662|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-6.7|2.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||2.3|-6.7|
82459252|NCT01506271|164620662|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-3.7|7.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||7.4|-3.7|
82459253|NCT01506271|164620663|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.6|||||TWO_SIDED|95.0|-7.5|0.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||0.6|-7.5|
82459254|NCT01506271|164620663|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-6.7|2.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||2.4|-6.7|
82578246|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|-1.484|STANDARD_ERROR_OF_MEAN|0.6953||0.0331|TWO_SIDED|95.0|-2.848|-0.119|||ANCOVA|||Mental Component: Pregabalin vs DS-5565 15 mg QD||-0.119|-2.848|0.0331
82459255|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-4.7|8.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Diarrhoea||8.1|-4.7|
82459256|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-4.6|8.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Diarrhoea||8.2|-4.6|
82459257|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.2|||||TWO_SIDED|95.0|-7.3|6.9|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Nausea||6.9|-7.3|
82459258|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.7|||||TWO_SIDED|95.0|-6.5|8.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Nausea||8.0|-6.5|
82459259|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|3.4|||||TWO_SIDED|95.0|-2.3|9.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Vomiting||9.6|-2.3|
82459260|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|5.1|||||TWO_SIDED|95.0|-0.7|11.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Vomiting||11.8|-0.7|
82459261|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.6|3.5|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Postoperative Infection||3.5|-7.6|
82459262|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Postoperative Infection||2.2|-8.4|
82459263|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.9|||||TWO_SIDED|95.0|-2.4|4.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Seroma||4.7|-2.4|
82459264|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.3|||||TWO_SIDED|95.0|1.0|9.7|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Seroma||9.7|1.0|
82459265|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-5.0|6.6|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - ALT increased||6.6|-5.0|
82459266|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-4.9|6.7|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - ALT increased||6.7|-4.9|
82459267|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-3.7|7.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - AST increased||7.3|-3.7|
82459268|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-3.7|7.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - AST increased||7.4|-3.7|
82578247|NCT02187159|164865874|SUPERIORITY||Difference in least squares means|-1.867|STANDARD_ERROR_OF_MEAN|0.6976||0.0076|TWO_SIDED|95.0|-3.235|-0.498|||ANCOVA|||Mental Component: Pregabalin vs DS-5565 15 mg BID||-0.498|-3.235|0.0076
82459269|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.5|4.2|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Lipase increased||4.2|-6.5|
82459270|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Lipase increased||3.0|-7.2|
82459271|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.5|||||TWO_SIDED|95.0|-8.7|-0.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Hypertension||-0.3|-8.7|
82459272|NCT01506271|164620664|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.9|||||TWO_SIDED|95.0|-6.4|4.3|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Hypertension||4.3|-6.4|
82578248|NCT02187159|164865875|SUPERIORITY||Difference in least squares means|0.0309|STANDARD_ERROR_OF_MEAN|0.01328||0.0201|TWO_SIDED|95.0|0.0048|0.057|||ANCOVA|||||0.0570|0.0048|0.0201
82459273|NCT01506271|164620665|SUPERIORITY||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|0.0|0.0|||Fisher Exact||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||0|0|> 0.999
82459274|NCT01506271|164620665|SUPERIORITY||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|0.0|0.0|||Fisher Exact||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||0|0|> 0.999
82459275|NCT01506271|164620666|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.4||||0.001|TWO_SIDED|95.0|-9.1|6.0|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.0|-9.1|0.001
82459276|NCT01506271|164620666|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-2.1||||0.002|TWO_SIDED|95.0|-9.7|5.3|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||5.3|-9.7|0.002
82459277|NCT01506271|164620667|NON_INFERIORITY|Two participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-6.3|6.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.2|-6.3|< 0.001
82459278|NCT01506271|164620667|NON_INFERIORITY|Two participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|2.4|||<|0.001|TWO_SIDED|95.0|-2.0|8.3|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.3|-2.0|< 0.001
82459279|NCT01506271|164620668|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-6.7|6.4|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.4|-6.7|< 0.001
82459280|NCT01506271|164620668|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.1|||<|0.001|TWO_SIDED|95.0|-6.3|6.5|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||6.5|-6.3|< 0.001
82459281|NCT01506271|164620669|NON_INFERIORITY|Non-inferiority test based on Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|-1.3||||0.002|TWO_SIDED|95.0|-9.6|6.9|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||6.9|-9.6|0.002
82459282|NCT01506271|164620669|NON_INFERIORITY|Unconditional asymptotic Miettinen and Nurminen method without stratification.|Percentage Difference|0.4|||<|0.001|TWO_SIDED|95.0|-7.2|8.2|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.2|-7.2|< 0.001
82459283|NCT01506271|164620670|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|0.0|||<|0.001|TWO_SIDED|95.0|-7.4|7.4|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference||7.4|-7.4|< 0.001
82459284|NCT01506271|164620670|NON_INFERIORITY|Eight participants with indeterminate or missing response were excluded from the analysis.|Percentage Difference|1.4|||<|0.001|TWO_SIDED|95.0|-5.2|8.6|||Miettinen and Nurminen||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference||8.6|-5.2|< 0.001
82459285|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-7.3|5.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Blood, lymphatic||5.1|-7.3|
82459286|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-4.4|||||TWO_SIDED|95.0|-10.3|0.1|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Blood, lymphatic||0.1|-10.3|
82459287|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-5.2|5.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Cardiac disorder||5.0|-5.2|
82459288|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.8|||||TWO_SIDED|95.0|-4.5|6.3|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Cardiac disorder||6.3|-4.5|
82459289|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|5.6|||||TWO_SIDED|95.0|-3.9|15.3|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - GI disorders||15.3|-3.9|
82459290|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-5.4|13.6|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - GI disorders||13.6|-5.4|
82459291|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.2|||||TWO_SIDED|95.0|-2.0|11.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Gen. dis \& admin.||11.0|-2.0|
82459292|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.7|||||TWO_SIDED|95.0|-4.2|7.8|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Gen. dis \& admin.||7.8|-4.2|
82459293|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|4.1|||||TWO_SIDED|95.0|-3.6|12.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Infect. \& Infest.||12.0|-3.6|
82459294|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.7|||||TWO_SIDED|95.0|-6.5|8.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Infect. \& Infest.||8.0|-6.5|
82459295|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-7.3|5.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Injury, poison.||5.1|-7.3|
82459296|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|1.6|||||TWO_SIDED|95.0|-5.0|8.5|||||Relebactam minus Placebo|Relebactam 1250mg - Placebo: Percentage Difference - Injury, poison.||8.5|-5.0|
82459297|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.2|||||TWO_SIDED|95.0|-9.8|7.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Investigations||7.4|-9.8|
82578249|NCT02187159|164865875|SUPERIORITY||Difference of least squares means|0.0178|STANDARD_ERROR_OF_MEAN|0.01324||0.1798|TWO_SIDED|95.0|-0.0082|0.0438|||ANCOVA|||||0.0438|-0.0082|0.1798
82459298|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.9|||||TWO_SIDED|95.0|-10.5|6.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Investigations||6.5|-10.5|
82459299|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Nervous System||2.2|-8.4|
82459300|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-2.7|||||TWO_SIDED|95.0|-8.4|2.2|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Nervous System||2.2|-8.4|
82459301|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-5.7|5.4|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Psychiatric disorders||5.4|-5.7|
82459302|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-5.7|5.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Psychiatric disorders||5.5|-5.7|
82652390|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|0.008||||0.9565|TWO_SIDED|95.0|-0.266|0.281||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.281|-0.266|0.9565
82459303|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Renal \& Urinary||3.0|-7.2|
82459304|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-7.2|3.0|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Renal \& Urinary||3.0|-7.2|
82459305|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-4.4|||||TWO_SIDED|95.0|-10.7|0.7|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Resp. \& chest||0.7|-10.7|
82459306|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-1.8|||||TWO_SIDED|95.0|-8.4|4.4|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Resp. \& chest||4.4|-8.4|
82459307|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|2.5|||||TWO_SIDED|95.0|-2.4|8.1|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Skin \& subcutan.||8.1|-2.4|
82459308|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|0.0|||||TWO_SIDED|95.0|-4.7|4.5|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Skin \& subcutan.||4.5|-4.7|
82459309|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-3.6|||||TWO_SIDED|95.0|-9.9|2.0|||||Relebactam minus Placebo|Relebactam 250 mg - Placebo: Percentage Difference - Vascular disorders||2.0|-9.9|
82459310|NCT01506271|164620672|OTHER|Unconditional asymptotic Miettinen and Nurminen method without stratification|Percentage Difference|-0.1|||||TWO_SIDED|95.0|-6.9|6.6|||||Relebactam minus Placebo|Relebactam 125 mg - Placebo: Percentage Difference - Vascular disorders||6.6|-6.9|
82459311|NCT00965250|164620677|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kaplan Meier|||||||<0.0001
82459312|NCT00965250|164620678|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Kaplan Meier|||||||<0.0001
82459313|NCT00479713|164620697|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|1.72|<=|0.001||95.0|-14.1|-7.33|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-7.33|-14.10|<=0.001
82459314|NCT00479713|164620698|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1|||<=|0.001||95.0|1.5|3.0|||Regression, Logistic|Model terms: treatment, stratum and baseline LDL-C (continuous)||Percentage of Participants who Attained Target LDL-C Goal of \< 100 mg/dL (2.59 mmol/L)||3.0|1.5|<=0.001
82459315|NCT00479713|164620698|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.8|||<=|0.001||95.0|1.8|4.4|||Regression, Logistic|Model terms: treatment, stratum and baseline LDL-C (continuous)||Percentage of Participants who Attained Target LDL-C Goal of \< 70 mg/dL (1.81 mmol/L)||4.4|1.8|<=0.001
82459316|NCT00479713|164620699|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|1.2|<=|0.001||95.0|-9.56|-4.84|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-4.84|-9.56|<=0.001
82459317|NCT00479713|164620700|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-5.06||||0.056||95.0|-9.56|-0.3|||Nonparametric ANOVA|ANOVA model based on Tukey's normalized ranks with term for treatment, stratum, baseline (categorized based on quartiles) and center.|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free Confidence Interval (CI) based on Wilcoxon's rank.|||-0.30|-9.56|0.056
82459318|NCT00479713|164620701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.92|STANDARD_ERROR_OF_MEAN|1.17||0.433||95.0|-3.21|1.38|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||1.38|-3.21|0.433
82459319|NCT00479713|164620702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.41|STANDARD_ERROR_OF_MEAN|1.58|<=|0.001||95.0|-12.5|-6.31|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-6.31|-12.50|<=0.001
82459320|NCT00479713|164620703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.59|STANDARD_ERROR_OF_MEAN|1.98|<=|0.001||95.0|-13.49|-5.69|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-5.69|-13.49|<=0.001
82459321|NCT00479713|164620704|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.25|STANDARD_ERROR_OF_MEAN|1.44|<=|0.001||95.0|-9.07|-3.43|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center.||||-3.43|-9.07|<=0.001
82459322|NCT00479713|164620705|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.11|STANDARD_ERROR_OF_MEAN|1.43|<=|0.001||95.0|-10.91|-5.3|||ANOVA|Model terms: treatment, stratum, baseline (categorized based on quartiles) and center||||-5.30|-10.91|<=0.001
82459323|NCT00479713|164620706|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.67||||0.172||95.0|-16.67|2.87|||Nonparametric ANOVA|ANOVA model based on Tukey's normalized ranks with term for treatment, stratum, baseline (categorized based on quartiles) and center|The median difference between treatments is based on the Hodges-Lehmann estimates of shift with a corresponding distribution-free CI based on Wilcoxon's rank|||2.87|-16.67|0.172
82459324|NCT00932321|164620727|NON_INFERIORITY_OR_EQUIVALENCE|Primary hypothesis tested was the independence (lack of association) of mean number of IB days in Cycles 2-6 across treatment groups.||||||0.311|||||||Cochran-Mantel-Haenszel|Stratified by investigational site.||||||0.311
82459325|NCT04564846|164620731|OTHER||Risk Ratio (RR)|0.974||||0.1628|TWO_SIDED|95.0|0.938|1.011|||Analysis of Covariance||Estimated Difference from Placebo Across All Time Points. Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|Comparison to Placebo Across All Time Points||1.011|0.938|0.1628
82459326|NCT04564846|164620733|OTHER||Risk Ratio (RR)|0.784||||0.0674|TWO_SIDED|95.0|0.605|1.017|||Analysis of Covariance|||Estimated Difference from Placebo Across All Time Points|Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|1.017|0.605|0.0674
82459327|NCT04564846|164620734|OTHER|Log transformed values analyzed using an Analysis of Covariance model with treatment and time point as effects and baseline HbA1c as a covariate.|Risk Ratio, log|1.067||||0.8182|TWO_SIDED|95.0|0.976|1.167|||Analysis of Covariance|||Estimated Difference from Placebo Across All Time Points.||1.167|0.976|0.8182
82459328|NCT04564846|164620735|OTHER|AUC Parameters analyzed using an Analysis of Covariance model with treatment as the main effect and baseline HbA1c as a covariate.|Risk Ratio, log|1.007||||0.8182|TWO_SIDED|95.0|0.951|1.066|||Analysis of Covariance|||||1.066|0.951|0.8182
82459329|NCT04564846|164620736|OTHER||Analysis of Variance|0.4628|||||TWO_SIDED|||||Parameter analyzed using an Analysis of Variance model with treatment as the main effect.||||||||
82459330|NCT01342913|164620737|SUPERIORITY_OR_OTHER||Least squares mean difference|0.022||||0.282|TWO_SIDED|95.0|-0.018|0.063|||ANCOVA|||||0.063|-0.018|0.282
82459331|NCT05482308|164620742|OTHER||Mean differences(Test-Reference)|98.35|||||TWO_SIDED|90.0|92.92|104.1|||Mixed effect model|"Mixed effect model was fitted to obtain:~1.Adjusted mean differences 2.90% Confidence intervals(CI)"||||104.10|92.92|
82459332|NCT05482308|164620743|OTHER||Mean difference (Test-Reference)|91.58|||||TWO_SIDED|90.0|81.5|102.9|||Mixed effect model|"Mixed effect model was fitted to obtain:~1.Adjusted mean differences 2.90% Confidence intervals(CI)"||||102.90|81.50|
82459333|NCT03489863|164620768|NON_INFERIORITY|see above|Mean Difference (Net)|-18.0|||<|0.05|TWO_SIDED|95.0|-38.0|2.0|||ANCOVA|||The primary endpoint is non-inferiority in PRU, at 24 hours of prasugrel versus ticagrelor. Under the assumption of 0 difference at 24 hours in mean PRU between ticagrelor and prasugrel and a common standard deviation of 50 PRU, a sample size of 22 patients per group allows for the 95% CI to stay within ± 45 PRU with a 90% power and alpha = 0.05.||2|-38|<0.05
82459334|NCT01169103|164620774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7||95.0|||||t-test, 2 sided|||We assumed that mean decrease in visceral fat in our population would be 0.85\*standard deviation score (SDS). Therefore, 18 subjects in each group would be required in order for us to have an 81.7% chance of detecting a significant difference in the mean 6-month changes in visceral adiposity between the groups at a 5% significance level by rejecting the null hypothesis that there is no difference in change in visceral fat following administration of rhGH or placebo in obese adolescent girls.||||0.70
82459335|NCT01169103|164620774|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||t-test, 2 sided|||Change in SAT p-value||||0.30
82459336|NCT01169103|164620775|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.93
82459337|NCT01169103|164620776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||t-test, 2 sided|||Change in Total Cholesterol p-value||||0.03
82459338|NCT01169103|164620776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Change in Triglyceride p-value||||0.57
82459339|NCT01169103|164620776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||t-test, 2 sided|||Change in Low-density lipoprotein p-value||||0.062
82542217|NCT03675581|164783875|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|116.69|STANDARD_DEVIATION|12.6|||TWO_SIDED|90.0|107.63|126.51|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||126.51|107.63|
82459340|NCT01169103|164620776|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0396|||||||t-test, 2 sided|||Change in High-density lipoprotein p-value||||0.0396
82459341|NCT01169103|164620777|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||t-test, 2 sided|||||||0.58
82459342|NCT01169103|164620778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0|||||t-test, 2 sided|||||||0.04
82459343|NCT00890825|164620816|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2069|TWO_SIDED|80.0|0.56|1.14||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure - Overall survival.|Regression, Cox|Analysis adjusted for the following covariates; WHO PS, gender, histology and smoking status|A Hazard Ratio less than 1 favoured AZD6244 + Docetaxel|||1.14|0.56|0.2069
82459344|NCT00890825|164620817|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0138|TWO_SIDED|80.0|0.42|0.79||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure.|Regression, Cox|The model allowed for the effect of treatment and included terms for WHO PS, gender, histology, and smoking status.|A Hazard Ratio (HR) \< 1 favoured AZD6244 + Docetaxel|||0.79|0.42|0.0138
82459345|NCT00890825|164620818|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|37.2|||<|0.0001|TWO_SIDED|95.0|23.0|53.0||Two-sided P-value|Fisher Exact|||||53|23|< 0.0001
82459346|NCT00890825|164620820|SUPERIORITY_OR_OTHER||LSmeans difference|-17.03||||0.004|TWO_SIDED|80.0|-25.2|-8.86||One-sided p-value. The p-value is associated with the point estimate comparing AZD6244 + Docetaxel vs Placebo + Docetaxel on the outcome measure.|ANCOVA|LS means were adjusted for baseline tumour size, time from baseline scan to randomisation, WHO PS, gender, histology, and smoking status.|(AZD6244 + Docetaxel) - (Placebo + Docetaxel)|||-8.86|-25.2|0.004
82578250|NCT02187159|164865875|SUPERIORITY||Difference of least squares means|0.0071|STANDARD_ERROR_OF_MEAN|0.01329||0.5922|TWO_SIDED|95.0|-0.0189|0.0332|||ANCOVA|||||0.0332|-0.0189|0.5922
82459347|NCT00890825|164620821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.0||||0.004|TWO_SIDED|80.0|-38.34|-13.7||One-sided p-value. The p-value is associated with the point estimate comparing AZD6244 + Docetaxel vs Placebo + Docetaxel on the outcome measure.|ANCOVA|LS means were adjusted for baseline tumour size, time from baseline scan to randomisation, WHO PS, gender, histology, and smoking status|(AZD6244 + Docetaxel) - (Placebo + Docetaxel)|||-13.7|-38.34|0.004
82459348|NCT00890825|164620822|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0158|TWO_SIDED|80.0|0.37|0.78||One-sided p-value. The p-value is associated with the point estimate (e.g. HR comparing AZD6244 + Docetaxel vs Placebo + Docetaxel) on the outcome measure.|Log Rank|Confidence interval (CI) used Greenwood's formula for the standard error of a survival estimate|A hazard ratio (HR) \<1 favours AZD6244 75 mg bd+Docetaxel|||0.78|0.37|0.0158
82459349|NCT02920892|164620828|SUPERIORITY||Slope|-0.1||||0.1587|TWO_SIDED|90.0|-0.22|0.02|||Mixed Models Analysis|||||0.02|-0.22|0.1587
82459350|NCT02920892|164620829|SUPERIORITY||Slope|-1.66||||0.1054|TWO_SIDED|90.0|-3.34|0.03|||Mixed Models Analysis|||||0.03|-3.34|0.1054
82459351|NCT02920892|164620830|SUPERIORITY||Slope|-0.67||||0.32|TWO_SIDED|90.0|-1.79|0.45|||Mixed Models Analysis|||||0.45|-1.79|0.32
82459352|NCT02920892|164620831|SUPERIORITY||Slope|-0.29||||0.78|TWO_SIDED|90.0|-1.98|1.4|||Mixed Models Analysis|||||1.4|-1.98|0.78
82578251|NCT02187159|164865875|SUPERIORITY||Difference in least squares means|-0.0131|STANDARD_ERROR_OF_MEAN|0.01326||0.3221|TWO_SIDED|95.0|-0.0392|0.0129|||ANCOVA|||||0.0129|-0.0392|0.3221
82578252|NCT02187159|164865875|SUPERIORITY||Difference in least squares means|-0.0238|STANDARD_ERROR_OF_MEAN|0.0133||0.0739|TWO_SIDED|95.0|-0.0499|0.0023|||ANCOVA|||||0.0023|-0.0499|0.0739
82459353|NCT02920892|164620832|SUPERIORITY||Slope|0.1||||0.94|TWO_SIDED|90.0|-2.05|2.24|||Mixed Models Analysis|||||2.24|-2.05|0.94
82459354|NCT02920892|164620833|SUPERIORITY||Slope|-0.85||||0.1428|TWO_SIDED|90.0|-1.81|0.11|||Mixed Models Analysis|||||0.11|-1.81|0.1428
82459355|NCT02920892|164620834|SUPERIORITY||Odds Ratio (OR)|0.9462||||0.24|TWO_SIDED|90.0|0.8764|1.0215|||Mixed Models Analysis|||||1.0215|0.8764|0.24
82459356|NCT02920892|164620835|SUPERIORITY||Odds Ratio (OR)|0.95||||0.92|TWO_SIDED|90.0|0.4|2.27|||Mixed Models Analysis|||||2.27|0.4|0.92
82459357|NCT00660192|164620860|SUPERIORITY_OR_OTHER|||||||0.0347|TWO_SIDED||||||t-test, 2 sided|||||||0.0347
82459358|NCT00660192|164620861|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.0300
82459359|NCT00462306|164620870|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||4000 parturients and 500 non-pregnant achieves 90% power to detect a difference of 3% positive Berlin Questionnaire rates between pregnant and non-pregnant women using a two sided chi squared test at a significance level of 0.05|Chi-squared, Corrected|||We hypothesized that the rate of positive Berlin questionnaires would be higher in pregnant women compared to age matched controls undergoing surgery.||||0.001
82459360|NCT00462306|164620871|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
82459361|NCT03515824|164620878|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|0.0|||||TWO_SIDED|80.0|0.0|33.1||||||||33.1|0.0|
82459362|NCT03515824|164620878|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|0.0|||||TWO_SIDED|80.0|0.0|33.1||||||||33.1|0.0|
82459363|NCT03515824|164620878|OTHER|Bayesian posterior credible interval|Pooled-adjacent-violator algorithm|15.4|||||TWO_SIDED|80.0|5.8|30.2||||||||30.2|5.8|
82459364|NCT03515824|164620881|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|70.8||||||||70.8|0.0|
82459365|NCT03515824|164620881|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|60.2||||||||60.2|0.0|
82459366|NCT03515824|164620881|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|21.8||||||||21.8|0.0|
82459367|NCT03515824|164620882|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|84.2||||||||84.2|0.0|
82459368|NCT03515824|164620882|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate (ORR)|0.0|||||TWO_SIDED|95.0|0.0|70.8||||||||70.8|0.0|
82459369|NCT03515824|164620882|OTHER|Clopper Pearson confidence interval method for binomial data|Objective Response Rate )ORR)|0.0|||||TWO_SIDED|95.0|0.0|28.5||||||||28.5|0.0|
82459370|NCT02673918|164620904|EQUIVALENCE|Differences (the number of participants in each of the three categories) between baseline and follow-up was calculated using a Wilcoxon signed-rank test. This was a feasibility test and no power calculation was performed.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82459371|NCT02673918|164620905|EQUIVALENCE|Differences (the number of participants in each of the three categories) between baseline and follow-up was calculated using a Wilcoxon signed-rank test. This was a feasibility test and no power calculation was performed.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82459372|NCT02741245|164620944|OTHER||Difference in M-estimates|-35.9|||<|0.001|TWO_SIDED|95.0|-39.9|-32.0|||Shapiro-Wilk test|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach||||-32.0|-39.9|<0.001
82459373|NCT02741245|164620944|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Difference in M-estimates|-14.8|||<|0.001|TWO_SIDED|95.0|-18.0|-11.6|||Shapiro-Wilk test|||||-11.6|-18.0|<0.001
82459374|NCT02741245|164620944|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Difference in M-estimates|-41.8|||<|0.001|TWO_SIDED|95.0|-45.8|-37.9|||Shapiro-Wilk test|||||-37.9|-45.8|<0.001
82459375|NCT02741245|164620944|OTHER|Robust regression model with terms for treatment, risk category and baseline, after imputing missing values by a multiple imputation approach|Differecne in M-estimates|-13.3|||<|0.001|TWO_SIDED|95.0|-16.6|-10.1|||Shapiro-Wilk test|||||-10.1|-16.6|<0.001
82578253|NCT02187159|164865876|SUPERIORITY||Difference in least squares means|-0.49|STANDARD_ERROR_OF_MEAN|0.153||0.0015|TWO_SIDED|95.0|-0.79|-0.19|||Mixed Models Analysis|||||-0.19|-0.79|0.0015
82578254|NCT02187159|164865876|SUPERIORITY||Difference in least squares means|-0.56|STANDARD_ERROR_OF_MEAN|0.153||0.0003|TWO_SIDED|95.0|-0.86|-0.26|||Mixed Models Analysis|||||-0.26|-0.86|0.0003
82578255|NCT02187159|164865876|SUPERIORITY||Difference in least squares means|-0.51|STANDARD_ERROR_OF_MEAN|0.153||0.0008|TWO_SIDED|95.0|-0.81|-0.21|||Mixed Models Analysis|||||-0.21|-0.81|0.0008
82459376|NCT01787461|164620968|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.14||||0.358|TWO_SIDED|95.0|-0.16|0.44|||ANOVA|||Change at Week 24: Analysis was performed using an analysis of variance (ANOVA) model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.44|-0.16|0.358
82459377|NCT01787461|164620969|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.037||||0.568|TWO_SIDED|95.0|-0.19|0.27|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for Glogau classification of photoaging and site.||0.27|-0.19|0.568
82459378|NCT01787461|164620970|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.797|TWO_SIDED|95.0|-0.25|0.33|||ANOVA|||Change at Week 12: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.33|-0.25|0.797
82459379|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.965|TWO_SIDED|95.0|-0.29|0.3|||ANOVA|||Change at Week 12, Fine lines/wrinkles (Periocular area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.29|0.965
82459380|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.674|TWO_SIDED|95.0|-0.2|0.3|||ANOVA|||Change at Week 12, Fine lines/wrinkles (Perioral area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.20|0.674
82459381|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.916|TWO_SIDED|95.0|-0.35|0.32|||ANOVA|||Change at Week 12, Under eye dark circles or bags: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.32|-0.35|0.916
82459382|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.915|TWO_SIDED|95.0|-0.39|0.35|||ANOVA|||Change at Week 12, Mottled hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.35|-0.39|0.915
82459383|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.672|TWO_SIDED|95.0|-0.4|0.26|||ANOVA|||Change at Week 12, Sallowness/yellowing: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.26|-0.40|0.672
82459384|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.655|TWO_SIDED|95.0|-0.27|0.43|||ANOVA|||Change at Week 12, Roughness/texture: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.27|0.655
82459385|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.561|TWO_SIDED|95.0|-0.23|0.43|||ANOVA|||Change at Week 24, Fine lines/wrinkles(Periocular area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.23|0.561
82459386|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.356|TWO_SIDED|95.0|-0.14|0.4|||ANOVA|||Change at Week 24, Fine lines/wrinkles(Perioral area): Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.40|-0.14|0.356
82459387|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08||||0.669|TWO_SIDED|95.0|-0.28|0.43|||ANOVA|||Change at Week 24, Under eye dark circles or bags: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.43|-0.28|0.669
82459388|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01||||0.954|TWO_SIDED|95.0|-0.32|0.34|||ANOVA|||Change at Week 24, Mottled hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.34|-0.32|0.954
82459389|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.684|TWO_SIDED|95.0|-0.34|0.22|||ANOVA|||Change at Week 24, Sallowness/yellowing: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.22|-0.34|0.684
82459390|NCT01787461|164620971|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.886|TWO_SIDED|95.0|-0.35|0.3|||ANOVA|||Change at Week 24, Roughness/texture: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.30|-0.35|0.886
82459391|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.901|TWO_SIDED|95.0|-0.33|0.37|||ANOVA|||Change at Week 12, Decolletage-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.37|-0.33|0.901
82459392|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14||||0.399|TWO_SIDED|95.0|-0.19|0.47|||ANOVA|||Change at Week 12, Decolletage-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.47|-0.19|0.399
82459393|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.875|TWO_SIDED|95.0|-0.38|0.32|||ANOVA|||Change at Week 12, Back of Hands-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.32|-0.38|0.875
82459394|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.43||||0.005|TWO_SIDED|95.0|0.13|0.73|||ANOVA|||Change at Week 12, Back of Hands-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.73|0.13|0.005
82459395|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.876|TWO_SIDED|95.0|-0.33|0.38|||ANOVA|||Change at Week 24, Decolletage-Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.33|0.876
82561893|NCT03547154|164832934|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.859|||||TWO_SIDED|95.0|0.429|1.721|||||Overall survival was analyzed using the log-rank statistic. The HR and 95% CI for the HR were obtained using Cox's proportional hazards model.|||1.721|0.429|
82578256|NCT02187159|164865876|SUPERIORITY||Difference in least squares means|-0.07|STANDARD_ERROR_OF_MEAN|0.154||0.6464|TWO_SIDED|95.0|-0.37|0.23|||Mixed Models Analysis|||||0.23|-0.37|0.6464
82578257|NCT02187159|164865876|SUPERIORITY||Difference in least squares means|-0.03|STANDARD_ERROR_OF_MEAN|0.154||0.8543|TWO_SIDED|95.0|-0.33|0.27|||Mixed Models Analysis|||||0.27|-0.33|0.8543
82578258|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0014|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||0.2|-1.0|0.0014
82459396|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05||||0.789|TWO_SIDED|95.0|-0.29|0.38|||ANOVA|||Change at Week 24, Decolletage-Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.29|0.789
82459397|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04||||0.901|TWO_SIDED|95.0|-0.31|0.38|||ANOVA|||Change at Week 24, Back of Hands- Crepyness: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.38|-0.31|0.901
82459398|NCT01787461|164620972|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.027|TWO_SIDED|95.0|0.04|0.72|||ANOVA|||Change at Week 24, Back of Hands - Mottled Hyperpigmentation: Analysis was performed using an ANOVA model with treatment, Glogau cassification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.72|0.04|0.027
82459399|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.083||||0.688|TWO_SIDED|95.0|-0.1|0.27|||Cochran-Mantel-Haenszel|||Improvement Week 12, Overall appearance of facial skin: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.27|-0.10|0.688
82459400|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.121||||0.445|TWO_SIDED|95.0|-0.08|0.33|||Cochran-Mantel-Haenszel|||Improvement Week 12, Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.33|-0.08|0.445
82459401|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.205||||0.318|TWO_SIDED|95.0|0.01|0.4|||Cochran-Mantel-Haenszel|||Improvement Week 12, Under eye dark circles or bags: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.40|0.01|0.318
82459402|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.012||||0.633|TWO_SIDED|95.0|-0.15|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.15|0.633
82459403|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.018||||0.996|TWO_SIDED|95.0|-0.23|0.19|||Cochran-Mantel-Haenszel|||Improvement Week 12, Complexion/Glow: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.19|-0.23|0.996
82459404|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.059||||0.432|TWO_SIDED|95.0|-0.13|0.25|||Cochran-Mantel-Haenszel|||Improvement Week 12, Smoothness: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.25|-0.13|0.432
82459405|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.03||||0.833|TWO_SIDED|95.0|-0.13|0.19|||Cochran-Mantel-Haenszel|||Improvement Week 24, Overall appearance of facial skin: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.19|-0.13|0.833
82459406|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.226||||0.171|TWO_SIDED|95.0|0.06|0.39|||Cochran-Mantel-Haenszel|||Improvement Week 24, Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.39|0.06|0.171
82459407|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.02||||0.796|TWO_SIDED|95.0|-0.16|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 24, Under eye dark circles or bags: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.16|0.796
82459408|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.033||||0.942|TWO_SIDED|95.0|-0.23|0.16|||Cochran-Mantel-Haenszel|||Improvement Week 24, Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.16|-0.23|0.942
82459409|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.118||||0.405|TWO_SIDED|95.0|-0.05|0.28|||Cochran-Mantel-Haenszel|||Improvement Week 24, Complexion/Glow: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.28|-0.05|0.405
82459410|NCT01787461|164620973|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.061||||0.687|TWO_SIDED|95.0|-0.14|0.26|||Cochran-Mantel-Haenszel|||Improvement Week 24, Smoothness: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.26|-0.14|0.687
82459411|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.384||||0.017|TWO_SIDED|95.0|0.23|0.54|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.54|0.23|0.017
82459412|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.248||||0.073|TWO_SIDED|95.0|0.09|0.4|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Wrinkling/crinkling: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.40|0.09|0.073
82459413|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.057||||0.117|TWO_SIDED|95.0|-0.11|0.22|||Cochran-Mantel-Haenszel|||Improvement Week 12, Decolletage-Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.22|-0.11|0.117
82459414|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.096||||0.662|TWO_SIDED|95.0|-0.31|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.31|0.662
82578259|NCT02187159|164865878|SUPERIORITY||Difference of least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1285|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.1285
82459415|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.1||||0.373|TWO_SIDED|95.0|-0.05|0.25|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands - Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.25|-0.05|0.373
82542218|NCT03675581|164783876|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|100.89|STANDARD_DEVIATION|18.1|||TWO_SIDED|90.0|89.9|113.23|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||113.23|89.90|
82542219|NCT03675581|164783877|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|101.24|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|93.95|109.1|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||109.10|93.95|
82652391|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.099||||0.4848|TWO_SIDED|95.0|-0.376|0.179||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 7||0.179|-0.376|0.4848
82459416|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.031||||0.294|TWO_SIDED|95.0|-0.19|0.12|||Cochran-Mantel-Haenszel|||Improvement Week 12, Back of Hands - Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.12|-0.19|0.294
82459417|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.035||||0.857|TWO_SIDED|95.0|-0.2|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 12, Body - Dryness Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.20|0.857
82459418|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.206||||0.088|TWO_SIDED|95.0|0.02|0.39|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.39|0.02|0.088
82459419|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.193||||0.11|TWO_SIDED|95.0|-0.02|0.41|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Wrinkling/crinkling: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.41|-0.02|0.110
82459420|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.205||||0.112|TWO_SIDED|95.0|0.07|0.34|||Cochran-Mantel-Haenszel|||Improvement Week 24, Decolletage-Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.34|0.07|0.112
82459421|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.003||||0.614|TWO_SIDED|95.0|-0.13|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands-Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.13|0.614
82542220|NCT03675581|164783878|OTHER|Relative systemic exposure|Ratio of the geometric means (T/R) %|88.09|STANDARD_DEVIATION|15.0|||TWO_SIDED|90.0|80.03|96.96|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||96.96|80.03|
82459422|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.011||||0.693|TWO_SIDED|95.0|-0.18|0.16|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands - Fine lines/wrinkles: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.16|-0.18|0.693
82459423|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|0.079||||0.762|TWO_SIDED|95.0|-0.06|0.22|||Cochran-Mantel-Haenszel|||Improvement Week 24, Back of Hands - Discoloration: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.22|-0.06|0.762
82459424|NCT01787461|164620974|SUPERIORITY_OR_OTHER||Weighted Gamma Statistic|-0.013||||0.662|TWO_SIDED|95.0|-0.16|0.13|||Cochran-Mantel-Haenszel|||Improvement Week 24, Body - Dryness Overall: Analysis was performed using CMH test with modified ridit scores, controlling for Glogau Classification of Photoaging, site, and baseline.||0.13|-0.16|0.662
82459425|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|3.93||||0.587|TWO_SIDED|95.0|-10.32|18.18|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||18.18|-10.32|0.587
82459426|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.08||||0.814|TWO_SIDED|95.0|-14.49|12.32|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||12.32|-14.49|0.814
82459427|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.57||||0.453|TWO_SIDED|95.0|-16.14|8.99|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||8.99|-16.14|0.453
82459428|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.16||||0.191|TWO_SIDED|95.0|-22.92|4.61|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.61|-22.92|0.191
82459429|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|2.61||||0.685|TWO_SIDED|95.0|-10.07|15.28|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||15.28|-10.07|0.685
82459430|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|5.74||||0.48|TWO_SIDED|95.0|-11.67|23.15|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||23.15|-11.67|0.480
82542221|NCT01112670|164783890|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||||||0.83
82459431|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.98||||0.299|TWO_SIDED|95.0|-17.29|5.34|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||5.34|-17.29|0.299
82459432|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.07||||0.107|TWO_SIDED|95.0|-20.04|1.9|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.90|-20.04|0.107
82459433|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.82||||0.776|TWO_SIDED|95.0|-14.39|10.76|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||10.76|-14.39|0.776
82459434|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.33||||0.603|TWO_SIDED|95.0|-15.96|9.29|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||9.29|-15.96|0.603
82459435|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.82||||0.51|TWO_SIDED|95.0|-15.23|7.6|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||7.60|-15.23|0.510
82459436|NCT01787461|164620975|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.75||||0.225|TWO_SIDED|95.0|-17.7|4.2|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.20|-17.70|0.225
82459437|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78||||0.214|TWO_SIDED|95.0|-0.46|2.02|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.02|-0.46|0.214
82459438|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.027|TWO_SIDED|95.0|0.12|2.09|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.09|0.12|0.027
82459439|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.99||||0.049|TWO_SIDED|95.0|0.01|1.96|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.96|0.01|0.049
82459440|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|1.17||||0.019|TWO_SIDED|95.0|0.2|2.14|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.14|0.20|0.019
82459441|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.449|TWO_SIDED|95.0|-0.36|0.8|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.80|-0.36|0.449
82459442|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.37||||0.105|TWO_SIDED|95.0|-0.07|0.8|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.80|-0.07|0.105
82459443|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27||||0.205|TWO_SIDED|95.0|-0.14|0.68|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.68|-0.14|0.205
82459444|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35||||0.1|TWO_SIDED|95.0|-0.06|0.77|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.77|-0.06|0.100
82459445|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25||||0.244|TWO_SIDED|95.0|-0.17|0.66|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.66|-0.17|0.244
82459446|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12||||0.594|TWO_SIDED|95.0|-0.32|0.56|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.56|-0.32|0.594
82459447|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22||||0.317|TWO_SIDED|95.0|-0.2|0.63|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.63|-0.20|0.317
82459448|NCT01787461|164620976|SUPERIORITY_OR_OTHER||LS Mean Difference|0.24||||0.264|TWO_SIDED|95.0|-0.17|0.64|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.64|-0.17|0.264
82459449|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.16||||0.266|TWO_SIDED|95.0|-69.63|19.31|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||19.31|-69.63|0.266
82459450|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.79||||0.21|TWO_SIDED|95.0|-73.99|16.41|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||16.41|-73.99|0.210
82542222|NCT01112670|164783891|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
82542223|NCT01112670|164783892|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||||||0.90
82542224|NCT01112670|164783893|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||||||0.56
82542225|NCT01112670|164783894|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
82542226|NCT01112670|164783895|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||||||0.86
82459451|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.78||||0.753|TWO_SIDED|95.0|-56.55|40.99|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||40.99|-56.55|0.753
82459452|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.9||||0.632|TWO_SIDED|95.0|-76.32|46.51|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||46.51|-76.32|0.632
82459453|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|4.54||||0.715|TWO_SIDED|95.0|-19.94|29.01|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||29.01|-19.94|0.715
82459454|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|6.35||||0.648|TWO_SIDED|95.0|-21.04|33.75|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||33.75|-21.04|0.648
82459455|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.49||||0.315|TWO_SIDED|95.0|-48.81|15.83|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||15.83|-48.81|0.315
82459456|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|14.42||||0.402|TWO_SIDED|95.0|-19.5|48.34|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||48.34|-19.50|0.402
82459457|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|12.43||||0.381|TWO_SIDED|95.0|-15.49|40.35|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||40.35|-15.49|0.381
82459458|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|1.49||||0.916|TWO_SIDED|95.0|-26.44|29.43|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||29.43|-26.44|0.916
82459459|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.88||||0.566|TWO_SIDED|95.0|-43.81|24.05|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||24.05|-43.81|0.566
82459460|NCT01787461|164620977|SUPERIORITY_OR_OTHER||LS Mean Difference|8.58||||0.667|TWO_SIDED|95.0|-30.78|47.94|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||47.94|-30.78|0.667
82459461|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.458|TWO_SIDED|95.0|-2.21|1.0|||ANOVA|||Change at Week 6, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.00|-2.21|0.458
82459462|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53||||0.497|TWO_SIDED|95.0|-2.07|1.01|||ANOVA|||Change at Week 12, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.01|-2.07|0.497
82459463|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.113|TWO_SIDED|95.0|-3.05|0.33|||ANOVA|||Change at Week 18, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.33|-3.05|0.113
82459464|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.708|TWO_SIDED|95.0|-2.11|1.44|||ANOVA|||Change at Week 24, Left Cheek: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.44|-2.11|0.708
82459465|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24||||0.495|TWO_SIDED|95.0|-2.34|4.82|||ANOVA|||Change at Week 6, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||4.82|-2.34|0.495
82459466|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.85||||0.243|TWO_SIDED|95.0|-4.96|1.27|||ANOVA|||Change at Week 12, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||1.27|-4.96|0.243
82459467|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.453|TWO_SIDED|95.0|-4.96|2.23|||ANOVA|||Change at Week 18, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.23|-4.96|0.453
82459468|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.55||||0.745|TWO_SIDED|95.0|-2.79|3.89|||ANOVA|||Change at Week 24, Left Inner Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||3.89|-2.79|0.745
82459469|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.987|TWO_SIDED|95.0|-2.44|2.48|||ANOVA|||Change at Week 6, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.48|-2.44|0.987
82459470|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.42||||0.218|TWO_SIDED|95.0|-3.69|0.85|||ANOVA|||Change at Week 12, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||0.85|-3.69|0.218
82542227|NCT01112670|164783896|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANOVA|||||||0.21
82542228|NCT01112670|164783897|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
82542229|NCT01112670|164783898|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
82542230|NCT01112670|164783899|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANOVA|||||||0.29
82459471|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67||||0.63|TWO_SIDED|95.0|-3.41|2.08|||ANOVA|||Change at Week 18, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||2.08|-3.41|0.630
82459472|NCT01787461|164620978|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.576|TWO_SIDED|95.0|-2.06|3.68|||ANOVA|||Change at Week 24, Left Outer Arm: Analysis was performed using an ANOVA model with treatment, Glogau classification of photoaging, site, baseline and treatment-by-baseline interaction (if applicable) terms.||3.68|-2.06|0.576
82459473|NCT02586623|164621028|SUPERIORITY||Cox Proportional Hazard|1.04||||0.803|TWO_SIDED|95.0|0.67|1.62|||Log Rank||Droxidopa / Placebo|||1.62|0.67|0.803
82459474|NCT05051579|164621047|SUPERIORITY||LS Mean difference (Final Values)|-6.5|||<|0.001|TWO_SIDED|95.0|-8.9|-4.2|||Mixed Models Analysis|||||-4.2|-8.9|<0.001
82459475|NCT05051579|164621047|SUPERIORITY||LS Mean difference (Final Values)|-9.2|||<|0.001|TWO_SIDED|95.0|-11.5|-6.9|||Mixed Models Analysis|||||-6.9|-11.5|<0.001
82459476|NCT05051579|164621047|SUPERIORITY||LS Mean difference (Final Values)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.4|-8.0|||Mixed Models Analysis|||||-8.0|-12.4|<0.001
82459477|NCT05051579|164621047|SUPERIORITY||LS Mean difference (Final Values)|-10.6|||<|0.001|TWO_SIDED|95.0|-12.7|-8.4|||Mixed Models Analysis|||||-8.4|-12.7|<0.001
82459478|NCT05051579|164621048|OTHER||LS Mean difference (Final Values)|-7.1|||<|0.001|TWO_SIDED|95.0|-9.9|-4.2|||Mixed Models Analysis|||||-4.2|-9.9|<0.001
82459479|NCT05051579|164621048|OTHER||LS Mean difference (Final Values)|-10.1|||<|0.001|TWO_SIDED|95.0|-12.9|-7.3|||Mixed Models Analysis|||||-7.3|-12.9|<0.001
82542231|NCT01112670|164783900|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||||||0.43
82459480|NCT05051579|164621048|OTHER||LS Mean difference (Final Values)|-11.1|||<|0.001|TWO_SIDED|95.0|-13.8|-8.4|||Mixed Models Analysis|||||-8.4|-13.8|<0.001
82459481|NCT05051579|164621048|OTHER||LS Mean difference (Final Values)|-12.3|||<|0.001|TWO_SIDED|95.0|-15.0|-9.6|||Mixed Models Analysis|||||-9.6|-15.0|<0.001
82459482|NCT05051579|164621049|OTHER||LS Mean difference (Final Values)|-6.9|||<|0.001|TWO_SIDED|95.0|-9.3|-4.4|||Mixed Models Analysis|||||-4.4|-9.3|<0.001
82459483|NCT05051579|164621049|OTHER||LS Mean difference (Final Values)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.5|-7.8|||Mixed Models Analysis|||||-7.8|-12.5|<0.001
82459484|NCT05051579|164621049|OTHER||LS Mean difference (Final Values)|-10.8|||<|0.001|TWO_SIDED|95.0|-13.1|-8.5|||Mixed Models Analysis|||||-8.5|-13.1|<0.001
82459485|NCT05051579|164621049|OTHER||LS Mean difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.5|-8.9|||Mixed Models Analysis|||||-8.9|-13.5|<0.001
82459486|NCT05051579|164621050|OTHER||LS Mean difference (Final Values)|-7.4|||<|0.001|TWO_SIDED|95.0|-10.4|-4.3|||Mixed Models Analysis|||||-4.3|-10.4|<0.001
82459487|NCT05051579|164621050|OTHER||LS Mean difference (Final Values)|-11.2|||<|0.001|TWO_SIDED|95.0|-14.2|-8.3|||Mixed Models Analysis|||||-8.3|-14.2|<0.001
82459488|NCT05051579|164621050|OTHER||LS Mean difference (Final Values)|-11.8|||<|0.001|TWO_SIDED|95.0|-14.7|-9.0|||Mixed Models Analysis|||||-9.0|-14.7|<0.001
82459489|NCT05051579|164621050|OTHER||LS Mean difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.8|-10.2|||Mixed Models Analysis|||||-10.2|-15.8|<0.001
82459490|NCT05051579|164621051|OTHER||LS Mean difference (Final Values)|-4.4||||0.002|TWO_SIDED|95.0|-7.2|-1.6|||Mixed Models Analysis|||||-1.6|-7.2|0.002
82459491|NCT05051579|164621051|OTHER||LS Mean difference (Final Values)|-5.2|||<|0.001|TWO_SIDED|95.0|-8.0|-2.4|||Mixed Models Analysis|||||-2.4|-8.0|<0.001
82459492|NCT05051579|164621051|OTHER||LS Mean difference (Final Values)|-6.5|||<|0.001|TWO_SIDED|95.0|-9.2|-3.8|||Mixed Models Analysis|||||-3.8|-9.2|<0.001
82459493|NCT05051579|164621051|OTHER||LS Mean difference (Final Values)|-8.7|||<|0.001|TWO_SIDED|95.0|-11.3|-6.0|||Mixed Models Analysis|||||-6.0|-11.3|<0.001
82542232|NCT01765543|164783901|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.614|||||TWO_SIDED|90.0|0.484|0.78||||||Analysis of variance (ANOVA) was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||0.780|0.484|
82459494|NCT05051579|164621052|OTHER||LS Mean difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-8.8|-2.4|||Mixed Models Analysis|||||-2.4|-8.8|<0.001
82459495|NCT05051579|164621052|OTHER||LS Mean difference (Final Values)|-7.2|||<|0.001|TWO_SIDED|95.0|-10.3|-4.0|||Mixed Models Analysis|||||-4.0|-10.3|<0.001
82459496|NCT05051579|164621052|OTHER||LS Mean difference (Final Values)|-6.6|||<|0.001|TWO_SIDED|95.0|-9.7|-3.6|||Mixed Models Analysis|||||-3.6|-9.7|<0.001
82459497|NCT05051579|164621052|OTHER||LS Mean difference (Final Values)|-9.6|||<|0.001|TWO_SIDED|95.0|-12.7|-6.6|||Mixed Models Analysis|||||-6.6|-12.7|<0.001
82459498|NCT05051579|164621053|OTHER||LS Mean difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.2|-1.6|||Mixed Models Analysis|||||-1.6|-3.2|<0.001
82459499|NCT05051579|164621053|OTHER||LS Mean difference (Final Values)|-3.5|||<|0.001|TWO_SIDED|95.0|-4.3|-2.6|||Mixed Models Analysis|||||-2.6|-4.3|<0.001
82459500|NCT05051579|164621053|OTHER||LS Mean difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-4.6|3.0|||Mixed Models Analysis|||||3.0|-4.6|<0.001
82459501|NCT05051579|164621053|OTHER||LS Mean difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-4.7|-3.1|||Mixed Models Analysis|||||-3.1|-4.7|<0.001
82459502|NCT05051579|164621054|OTHER||LS Mean difference (Final Values)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.6|-1.5|||Mixed Models Analysis|||||-1.5|-3.6|<0.001
82459503|NCT05051579|164621054|OTHER||LS Mean difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-4.8|-2.8|||Mixed Models Analysis|||||-2.8|-4.8|<0.001
82459504|NCT05051579|164621054|OTHER||LS Mean difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.2|-3.2|||Mixed Models Analysis|||||-3.2|-5.2|<0.001
82459505|NCT05051579|164621054|OTHER||LS Mean difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-5.6|-3.6|||Mixed Models Analysis|||||-3.6|-5.6|<0.001
82459506|NCT05051579|164621055|OTHER||Odds Ratio (OR)|9.96|||<|0.001|TWO_SIDED|95.0|3.61|27.44|||Regression, Logistic|||||27.44|3.61|<0.001
82459507|NCT05051579|164621055|OTHER||Odds Ratio (OR)|27.97|||<|0.001|TWO_SIDED|95.0|8.15|96.01|||Regression, Logistic|||||96.01|8.15|<0.001
82542233|NCT01765543|164783902|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.596|||||TWO_SIDED|90.0|0.469|0.759||||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||0.759|0.469|
82459508|NCT05051579|164621055|OTHER||Odds Ratio (OR)|27.36|||<|0.001|TWO_SIDED|95.0|8.71|85.91|||Regression, Logistic|||||85.91|8.71|<0.001
82459509|NCT05051579|164621055|OTHER||Odds Ratio (OR)|23.59|||<|0.001|TWO_SIDED|95.0|7.65|72.77|||Regression, Logistic|||||72.77|7.65|<0.001
82459510|NCT05051579|164621056|OTHER||Odds Ratio (OR)|19.93|||<|0.001|TWO_SIDED|95.0|3.47|114.4|||Regression, Logistic|||||114.40|3.47|<0.001
82459511|NCT05051579|164621056|OTHER||Odds Ratio (OR)|39.52|||<|0.001|TWO_SIDED|95.0|6.95|224.83|||Regression, Logistic|||||224.83|6.95|<0.001
82459512|NCT05051579|164621056|OTHER||Odds Ratio (OR)|74.97|||<|0.001|TWO_SIDED|95.0|13.16|427.18|||Regression, Logistic|||||427.18|13.16|<0.001
82459513|NCT05051579|164621056|OTHER||Odds Ratio (OR)|72.23|||<|0.001|TWO_SIDED|95.0|12.62|413.21|||Regression, Logistic|||||413.21|12.62|<0.001
82459514|NCT05051579|164621057|OTHER||Odds Ratio (OR)|7.79|||<|0.001|TWO_SIDED|95.0|2.9|20.92|||Regression, Logistic|||||20.92|2.90|<0.001
82459515|NCT05051579|164621057|OTHER||Odds Ratio (OR)|25.07|||<|0.001|TWO_SIDED|95.0|7.49|83.91|||Regression, Logistic|||||83.91|7.49|<0.001
82459516|NCT05051579|164621057|OTHER||Odds Ratio (OR)|34.76|||<|0.001|TWO_SIDED|95.0|8.17|147.86|||Regression, Logistic|||||147.86|8.17|<0.001
82459517|NCT05051579|164621057|OTHER||Odds Ratio (OR)|28.01|||<|0.001|TWO_SIDED|95.0|8.15|96.29|||Regression, Logistic|||||96.29|8.15|<0.001
82459518|NCT05051579|164621058|OTHER||Odds Ratio (OR)|8.27|||<|0.001|TWO_SIDED|95.0|2.59|26.45|||Regression, Logistic|||||26.45|2.59|<0.001
82459519|NCT05051579|164621058|OTHER||Odds Ratio (OR)|15.64|||<|0.001|TWO_SIDED|95.0|4.83|50.68|||Regression, Logistic|||||50.68|4.83|<0.001
82459520|NCT05051579|164621058|OTHER||Odds Ratio (OR)|27.24|||<|0.001|TWO_SIDED|95.0|8.39|88.38|||Regression, Logistic|||||88.38|8.39|<0.001
82459521|NCT05051579|164621058|OTHER||Odds Ratio (OR)|20.88|||<|0.001|TWO_SIDED|95.0|6.59|66.17|||Regression, Logistic|||||66.17|6.59|<0.001
82459522|NCT00871871|164621086|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.067|TWO_SIDED|90.0|-0.22|0.01||one-sided, alpha = 0.05|ANCOVA|||||0.01|-0.22|0.067
82459523|NCT00871871|164621087|SUPERIORITY_OR_OTHER||Least squares mean difference|1.1|||>|0.5|TWO_SIDED|90.0|0.86|1.34|||ANCOVA|||||1.34|0.86|>0.500
82459524|NCT00871871|164621088|SUPERIORITY_OR_OTHER||Least squares mean difference|0.016||||0.13|TWO_SIDED|90.0|-0.012|0.044||one-sided, alpha = 0.05|ANOVA|||||0.044|-0.012|0.130
82459525|NCT00871871|164621089|SUPERIORITY_OR_OTHER||Least squares mean difference|0.54|||>|0.5|TWO_SIDED|90.0|0.4|0.67|||ANCOVA|||||0.67|0.40|>0.500
82459526|NCT00871871|164621090|SUPERIORITY_OR_OTHER||Least squares mean difference|0.004||||0.342|TWO_SIDED|90.0|-0.023|0.014||one-sided, alpha = 0.05|ANOVA|||||0.014|-0.023|0.342
82459527|NCT00871871|164621091|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0016|||>|0.5|TWO_SIDED|90.0|-0.008|0.011|||ANOVA|||||0.011|-0.008|>0.500
82459528|NCT00871871|164621092|SUPERIORITY_OR_OTHER||Least squares mean difference|0.003|||>|0.5|TWO_SIDED|90.0|-0.003|0.01|||ANOVA|||||0.010|-0.003|>0.500
82459529|NCT03863509|164621093|OTHER|||||||0.494|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 384) = 0.707, p = .494||||||.494
82459530|NCT03863509|164621094|OTHER|||||||0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference F(2, 381) = 7.409, p = .001||||||0.001
82459531|NCT03863509|164621094|OTHER||Mean Difference (Final Values)|-0.42||||0.822|TWO_SIDED|95.0|-4.08|3.24|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race/ethnicity were covaried.||these are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||3.240|-4.080|0.822
82459532|NCT03863509|164621094|OTHER||Mean Difference (Final Values)|7.267||||0.001|TWO_SIDED|95.0|2.974|11.559|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||these are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||11.559|2.974|0.001
82459533|NCT03863509|164621094|OTHER||Mean Difference (Final Values)|7.687|||<|0.001|TWO_SIDED|95.0|3.485|11.889|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||These are pairwise follow-up tests probing a larger omnibus group difference involving three groups.||11.889|3.485|<0.001
82459534|NCT03863509|164621095|OTHER|||||||0.074||||||Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 2.616, p = .074|ANCOVA|||||||.074
82459535|NCT03863509|164621096|OTHER||Type III F-test of Fixed Group x Time ef|6.609||||0.002|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Omnibus Group x Time (pre-post) interaction test: F (2, 378.467) = 6.609, p = .002. Age, race, and sex were covaried.|F (2, 378.467) = 6.609, p = .002|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||.002
82459536|NCT03863509|164621096|OTHER||interaction estimate|3.3|STANDARD_ERROR_OF_MEAN|0.99||0.001|TWO_SIDED|95.0|1.36|5.24|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in systolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||5.24|1.36|0.001
82459537|NCT03863509|164621096|OTHER||interaction term estimate|3.29|STANDARD_ERROR_OF_MEAN|1.06||0.002|TWO_SIDED|95.0|1.2|5.38|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in systolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive cigarette smokers x Time vs never users x time as reference|||5.38|1.20|0.002
82459538|NCT03863509|164621096|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.948||0.992|TWO_SIDED||||||ANCOVA|||||||.992
82542234|NCT01765543|164783903|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.908|1.36||||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric mean ratio (Period C/Period A) and confidence intervals.||1.36|0.908|
82542235|NCT02138006|164783922|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Log Rank|||||||0.30
82542236|NCT01188499|164783924|SUPERIORITY_OR_OTHER||Percent|100.0|||||TWO_SIDED||||||||Primary objective of safety and tolerability measured by percent participants experiencing at least one adverse event. No formal statistics performed.|||||
82542237|NCT01188499|164783925|SUPERIORITY_OR_OTHER||Percent|10.0|||||TWO_SIDED||||||||Percent patients overall across all five arms demonstrating complete or partial response by RECIST. No formal statistics performed.|||||
82459539|NCT03863509|164621097|OTHER||Type III F-test of Fixed Group x Time ef|5.843||||0.003|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 378.999) = 5.843, p = .003|F (2, 378.999) = 5.843, p = .003|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.003
82459540|NCT03863509|164621097|OTHER||Interaction term Coefficient|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.002|TWO_SIDED|95.0|0.01|0.05|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||0.05|0.01|.002
82459541|NCT03863509|164621097|OTHER||Interaction term Coefficient|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.003|TWO_SIDED|95.0|0.01|0.05|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race. Here presented the Exclusive Smokers x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||0.05|0.01|.003
82459542|NCT03863509|164621097|OTHER||Interaction term Coefficient|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.917|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in diastolic blood pressure, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||||.917
82459543|NCT03863509|164621098|OTHER||Type III F-test of Fixed Group x Time Ef|49.42|||<|0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 376.099) = 49.420, p \< .001|F (2, 376.099) = 49.420, p \< .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||< .001
82459544|NCT03863509|164621098|OTHER||interaction term coefficient|6.06|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|4.83|7.3|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||7.3|4.83|<0.001
82459545|NCT03863509|164621098|OTHER||interaction term coefficient|5.09|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|3.76|6.42|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||6.42|3.76|<0.001
82459546|NCT03863509|164621098|OTHER||interaction term coefficient|-0.97|STANDARD_ERROR_OF_MEAN|0.602||0.107|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in Heart Rate, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.107
82459547|NCT03863509|164621099|OTHER||Type III F-test of Fixed Group x Time Ef|6.194||||0.002|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2,372.971) = 6.194, p = .002|F (2,372.971) = 6.194, p = .002|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.002
82459548|NCT03863509|164621099|OTHER||interaction term coefficient|-0.005|STANDARD_ERROR_OF_MEAN|0.001||0.003|TWO_SIDED|95.0|-0.01|-0.002|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.002|-0.01|0.003
82459549|NCT03863509|164621099|OTHER||interaction term coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.002||0.001|TWO_SIDED|95.0|-0.01|-0.002|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-0.002|-0.01|0.001
82459550|NCT03863509|164621099|OTHER||interaction term coefficient|-0.001|STANDARD_ERROR_OF_MEAN|0.002||0.582|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in Brachial Artery Diameter, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.582
82459551|NCT03863509|164621100|OTHER||Type III F-test of Fixed Group x Time E|1.753||||0.175|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried.|FMD responses in e-cigarette users, cigarette users, and never-users controls after adjusting for changes in brachial artery diameter.|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.175
82459552|NCT03863509|164621100|OTHER||interaction term coefficient|0.75|STANDARD_ERROR_OF_MEAN|0.41||0.067|TWO_SIDED|95.0|-0.05|1.56|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Flow Mediated Dilation, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||1.56|-0.05|0.067
82459553|NCT03863509|164621100|OTHER||interaction term coefficient|0.33|STANDARD_ERROR_OF_MEAN|0.44||0.464|TWO_SIDED|95.0|-0.55|1.2|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in Brachial Artery Flow Mediated Dilation, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.20|-0.55|0.464
82542238|NCT00424762|164783927|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|||powered to detect at least 33% difference between groups||||>0.05
82542239|NCT00424762|164783928|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||powered to detect difference of at least 10% between groups||||0.26
82542240|NCT00424762|164783929|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Chi-squared|||comparative incidence||||0.03
82542241|NCT00723450|164783949|SUPERIORITY_OR_OTHER|||||||0.0717||95.0|||||Log Rank|A stratified log rank test was performed where the stratification factor was the index mood state at Screen visit.||||||0.0717
82542242|NCT04303156|164784031|OTHER||GMR|2.2|||||TWO_SIDED|90.0|1.68|2.88|||||Severe Renal Impairment / Healthy|Geometric mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.88|1.68|
82542243|NCT04303156|164784032|OTHER||GMR|1.93|||||TWO_SIDED|90.0|1.46|2.55|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.55|1.46|
82542244|NCT04303156|164784033|OTHER||GMR|1.03|||||TWO_SIDED|90.0|0.67|1.57|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.57|0.67|
82542245|NCT04303156|164784036|OTHER||GMR|0.46|||||TWO_SIDED|90.0|0.35|0.6|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.60|0.35|
82542246|NCT04303156|164784037|OTHER||GMR|0.8|||||TWO_SIDED|90.0|0.56|1.14|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.14|0.56|
82542247|NCT04303156|164784038|OTHER||GMR|1.48|||||TWO_SIDED|90.0|1.03|2.14|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|2.14|1.03|
82542248|NCT04303156|164784039|OTHER||GMR|1.38|||||TWO_SIDED|90.0|0.98|1.93|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.93|0.98|
82542249|NCT04303156|164784040|OTHER||GMR|0.94|||||TWO_SIDED|90.0|0.64|1.39|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.39|0.64|
82542250|NCT04303156|164784042|OTHER||GMR|0.97|||||TWO_SIDED|90.0|0.69|1.35|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.35|0.69|
82542251|NCT04303156|164784043|OTHER||GMR|1.82|||||TWO_SIDED|90.0|0.55|6.02|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|6.02|0.55|
82542252|NCT04303156|164784044|OTHER||GMR|2.69|||||TWO_SIDED|90.0|1.51|4.8|||||Severe Renal Impairment / Healthy|GMR|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|4.80|1.51|
82542253|NCT03482011|164784055|SUPERIORITY||Risk Difference (RD)|63.0|||<|0.001|TWO_SIDED|95.0|56.5|69.4|||Cochran-Mantel-Haenszel|||||69.4|56.5|<0.001
82542254|NCT03482011|164784056|SUPERIORITY||Risk Difference (RD)|57.8|||<|0.001|TWO_SIDED|95.0|51.3|64.4|||Cochran-Mantel-Haenszel|||||64.4|51.3|<0.001
82542255|NCT03482011|164784057|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|11.6|19.7|||Cochran-Mantel-Haenszel|||||19.7|11.6|<0.001
82542256|NCT03482011|164784058|SUPERIORITY||Risk Difference (RD)|73.6|||<|0.001|TWO_SIDED|95.0|67.1|80.1|||Cochran-Mantel-Haenszel|||||80.1|67.1|<0.001
82542257|NCT03482011|164784059|SUPERIORITY||Risk Difference (RD)|30.8|||<|0.001|TWO_SIDED|95.0|26.0|35.7|||Cochran-Mantel-Haenszel|||||35.7|26.0|<0.001
82542258|NCT03482011|164784060|SUPERIORITY||Risk Difference (RD)|48.1|||<|0.001|TWO_SIDED|95.0|42.9|53.2|||Cochran-Mantel-Haenszel|||||53.2|42.9|<0.001
82542259|NCT03482011|164784061|SUPERIORITY||Risk Difference (RD)|18.3|||<|0.001|TWO_SIDED|95.0|14.5|22.1|||Cochran-Mantel-Haenszel|||||22.1|14.5|<0.001
82542260|NCT03482011|164784062|SUPERIORITY||Risk Difference (RD)|49.6|||<|0.001|TWO_SIDED|95.0|42.8|56.4|||Cochran-Mantel-Haenszel|||||56.4|42.8|<0.001
82542261|NCT03482011|164784063|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|56.0|77.5|||Cochran-Mantel-Haenszel|||||77.5|56.0|<0.001
82542262|NCT03482011|164784063|SUPERIORITY||Risk Difference (RD)|65.9|||<|0.001|TWO_SIDED|95.0|54.9|77.0|||Cochran-Mantel-Haenszel|||||77.0|54.9|<0.001
82542263|NCT03482011|164784064|SUPERIORITY||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|1.32|<|0.001|TWO_SIDED|95.0|-7.31|-2.1|||Mixed Models Analysis|||||-2.10|-7.31|<0.001
82542264|NCT03482011|164784065|SUPERIORITY||Mean Difference (Net)|-17.33|STANDARD_ERROR_OF_MEAN|0.99|<|0.001|TWO_SIDED|95.0|-19.28|-15.39|||Mixed Models Analysis|||||-15.39|-19.28|<0.001
82542265|NCT03482011|164784066|SUPERIORITY||Mean Difference (Net)|-6.98|STANDARD_ERROR_OF_MEAN|1.73|<|0.001|TWO_SIDED|95.0|-10.37|-3.58|||Mixed Models Analysis|||||-3.58|-10.37|<0.001
82542266|NCT03482011|164784067|SUPERIORITY||Mean Difference (Net)|4.86|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|3.5|6.22|||ANCOVA|||||6.22|3.50|<0.001
82542267|NCT03482011|164784068|SUPERIORITY||Mean Difference (Net)|4.78|STANDARD_ERROR_OF_MEAN|0.74|<|0.001|TWO_SIDED|95.0|3.33|6.23|||ANCOVA|||||6.23|3.33|<0.001
82542268|NCT03482011|164784069|SUPERIORITY||Risk Difference (RD)|68.1|||<|0.001|TWO_SIDED|95.0|63.2|72.9|||Cochran-Mantel-Haenszel|||||72.9|63.2|<0.001
82542269|NCT03482011|164784070|SUPERIORITY||Mean Difference (Net)|-3.68|STANDARD_ERROR_OF_MEAN|1.84||0.002|TWO_SIDED|95.0|-7.3|-0.06|||ANOVA|||Absenteeism||-0.06|-7.30|0.002
82542270|NCT03482011|164784070|SUPERIORITY||Mean Difference (Net)|-20.24|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-24.89|-15.6|||ANCOVA|||Presenteeism||-15.60|-24.89|<0.001
82542271|NCT03482011|164784070|SUPERIORITY||Mean Difference (Net)|-21.09|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-26.56|-15.62|||ANCOVA|||Overall Absenteeism and Presenteeism||-15.62|-26.56|<0.001
82542272|NCT03482011|164784070|SUPERIORITY||Mean Difference (Net)|-22.91|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-27.39|-18.43|||ANCOVA|||Impairment in Activities Performed Outside of Work||-18.43|-27.39|<0.001
82542273|NCT03482011|164784071|SUPERIORITY||Mean Difference (Net)|0.53|STANDARD_ERROR_OF_MEAN|1.79||0.004|TWO_SIDED|95.0|-3.08|4.14|||ANCOVA|||||4.14|-3.08|0.004
82459554|NCT03863509|164621100|OTHER||interaction term coefficient|-0.43|STANDARD_ERROR_OF_MEAN|0.4||0.284|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing effects of group, time, and group x time in FMD, age, sex, race adjusted, for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.284
82459555|NCT03863509|164621101|OTHER||Type III F-test of Fixed Group x Time Ef|8.323|||<|0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 342.847) = 8.323, p = \<.001|F (2,342.847) = 8.323, p = \<.001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||<0.001
82459556|NCT03863509|164621101|OTHER||interaction term coefficient|-6.55|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-9.89|-3.2|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-3.20|-9.89|<0.001
82459557|NCT03863509|164621101|OTHER||interaction term coefficient|-6.11|STANDARD_ERROR_OF_MEAN|1.83||0.001|TWO_SIDED|95.0|-9.71|-2.52|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-2.52|-9.71|0.001
82459558|NCT03863509|164621101|OTHER||interaction term coefficient|0.44|STANDARD_ERROR_OF_MEAN|1.61||0.787|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in PNN50, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.787
82459559|NCT03863509|164621102|OTHER||Type III F-test of Fixed Group x Time Ef|7.26||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 345.918) = 7.260, p = .001|F (2,345.918) = 7.260, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use Outcome measure ln transformed for analysis.||||0.001
82459560|NCT03863509|164621102|OTHER||interaction term coefficient|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.31|-0.08|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.08|-0.31|0.001
82459561|NCT03863509|164621102|OTHER||interaction term coefficient|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.001|TWO_SIDED|95.0|-0.33|-0.09|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||-0.09|-0.33|0.001
82459562|NCT03863509|164621102|OTHER||interaction term coefficient|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.847|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in RMSSD, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.847
82459563|NCT03863509|164621103|OTHER||Type III F-test of Fixed Group x Time Ef|1.712||||0.182|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 312.081) = 1.712, p = .182|F (2, 312.081) = 1.712, p = .182|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||.182
82459564|NCT03863509|164621103|OTHER||interaction term coefficient|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.07|TWO_SIDED|95.0|-0.09|0.004|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||0.004|-0.09|0.07
82459565|NCT03863509|164621103|OTHER||interaction term coefficient|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.196|TWO_SIDED|95.0|-0.09|0.02|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||0.02|-0.09|0.196
82459566|NCT03863509|164621103|OTHER||interaction term coefficient|0.09|STANDARD_ERROR_OF_MEAN|0.02||0.69|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in HRV-Standing Ratio adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.69
82459567|NCT03863509|164621104|OTHER||Type III F-test of Fixed Group x Time Ef|4.096||||0.017|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.239) = 4.096, p = .017|F (2, 373.239) = 4.096, p = .017|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.017
82459568|NCT03863509|164621104|OTHER||interaction term coefficient|-3.04|STANDARD_ERROR_OF_MEAN|1.09||0.005|TWO_SIDED|95.0|-5.18|-0.91|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||-0.91|-5.18|0.005
82459569|NCT03863509|164621104|OTHER||interaction term coefficient|-1.29|STANDARD_ERROR_OF_MEAN|1.18||0.274|TWO_SIDED|95.0|-3.61|1.03|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.03|-3.61|0.274
82542274|NCT03482011|164784072|SUPERIORITY||Risk Difference (RD)|48.8|||<|0.001|TWO_SIDED|95.0|41.6|55.9|||Cochran-Mantel-Haenszel|||||55.9|41.6|<0.001
82561894|NCT01328756|164832967|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline to LOTA value was assessed for differences from zero using a 2-sided, 1 sample t-test at a 0.05 significance level.||||< 0.001
82459570|NCT03863509|164621104|OTHER||interaction term coefficient|1.75|STANDARD_ERROR_OF_MEAN|1.06||0.098|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEV1, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.098
82459571|NCT03863509|164621105|OTHER||Type III F-test of Fixed Group x Time Ef|0.26||||0.771|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.434) = 0.260, p = .771|F (2, 373.434) = 0.260, p = .771|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||.771
82459572|NCT03863509|164621105|OTHER||interaction term coefficient|-0.12|STANDARD_ERROR_OF_MEAN|1.14||0.918|TWO_SIDED|95.0|-2.35|2.12|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||2.12|-2.35|0.918
82459573|NCT03863509|164621105|OTHER||interaction term coefficient|-0.8|STANDARD_ERROR_OF_MEAN|1.23||0.518|TWO_SIDED|95.0|-3.22|1.63|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.63|-3.22|0.518
82459574|NCT03863509|164621105|OTHER||interaction term coefficient|-0.68|STANDARD_ERROR_OF_MEAN|1.11||0.539|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.539
82459575|NCT03863509|164621106|OTHER||Type III F-test of Fixed Group x Time Ef|7.157||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 375.412) = 7.157, p = .001|F (2, 375.412) = 7.157, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use.||||0.001
82459576|NCT03863509|164621106|OTHER||interaction term coefficient|-3.39|STANDARD_ERROR_OF_MEAN|1.04||0.001|TWO_SIDED|95.0|-5.43|-1.35|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|||-1.35|-5.43|0.001
82459577|NCT03863509|164621106|OTHER||interaction term coefficient|-0.32|STANDARD_ERROR_OF_MEAN|1.12||0.778|TWO_SIDED|95.0|-2.53|1.89|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||1.89|-2.53|0.778
82459578|NCT03863509|164621106|OTHER||interaction term coefficient|3.08|STANDARD_ERROR_OF_MEAN|1.08||0.002|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEV1/FVC, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.002
82459579|NCT03863509|164621107|OTHER||Type III F-test of Fixed Group x Time Ef|4.317||||0.014|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2, 373.170) = 4.317, p = .014|F (2, 373.170) = 4.317, p = .014|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and between-group responses following product use||||0.014
82459580|NCT03863509|164621107|OTHER||interaction term coefficient|-5.08|STANDARD_ERROR_OF_MEAN|2.1||0.016|TWO_SIDED|95.0|-9.21|-0.95|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.95|-9.21|0.016
82459581|NCT03863509|164621107|OTHER||interaction term coefficient|0.01|STANDARD_ERROR_OF_MEAN|2.28||0.998|TWO_SIDED|95.0|-4.47|4.48|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||4.48|-4.47|0.998
82459582|NCT03863509|164621107|OTHER||interaction term coefficient|5.09|STANDARD_ERROR_OF_MEAN|2.04||0.013|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FEF 25-75, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.013
82459583|NCT03863509|164621108|OTHER||Type III F-test of Fixed Group x Time Ef|6.694||||0.001|TWO_SIDED|||||False Discovery Rate correction (Benjamini and Hochberg procedure) applied to a set of 13 Group x Time interaction tests.|Mixed Models Analysis|Age, race, and sex were covaried. Omnibus Group x Time (pre-post) interaction test: F (2,376.779) = 6.694, p = .001|F ((2,376.779) = 6.694, p = .001|Linear mixed models adjusted for age, sex, race/ethnicity compared the within-and-between-group responses following product use Outcome measure ln transformed for analysis.||||0.001
82459584|NCT03863509|164621108|OTHER||interaction term coefficient|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|-0.14|-0.04|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs never users x time as reference|Fixed effects from mixed models of measures before and after nicotine-containing product challenge (covariate-adjusted)||-0.04|-0.14|0.001
82459585|NCT03863509|164621108|OTHER||interaction term coefficient|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.555|TWO_SIDED|95.0|-0.08|0.04|||Mixed Models Analysis||fixed effects from linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive Smokers x Time vs never users x time as reference|||0.04|-0.08|0.555
82459586|NCT03863509|164621108|OTHER||interaction term coefficient|0.007|STANDARD_ERROR_OF_MEAN|0.03||0.007|TWO_SIDED||||||Mixed Models Analysis||fixed effects from re-parameterized linear mixed model testing for effects of group, time, and group x time in FeNO, adjusting for age, sex, and race for Exclusive E-cigarette users x Time vs Exclusive Smokers x time as reference|||||0.007
82459587|NCT03863509|164621109|OTHER||||||<|0.001||||||ANCOVA for group differences|ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 12.869, p \< .001||||||< .001
82459588|NCT03863509|164621109|OTHER||Mean Difference (Final Values)|1.352||||0.269|TWO_SIDED|95.0|-1.048|3.752|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||3.752|-1.048|0.269
82459589|NCT03863509|164621109|OTHER||Mean Difference (Final Values)|-5.575|||<|0.001|TWO_SIDED|95.0|-8.37|-2.78|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||-2.780|-8.37|<0.001
82459590|NCT03863509|164621109|OTHER||Mean Difference (Final Values)|-6.927|||<|0.001|TWO_SIDED|95.0|-9.672|-4.183|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried.||Exclusive E-Cig Users minus Exclusive Smokers||-4.183|-9.672|<0.001
82459591|NCT03863509|164621110|OTHER|||||||0.035|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 361) = 3.392, p = .035|||Group difference did not survive correction for false discovery rate at .05, therefore not followed with post-hoc pairwise comparisons.|||.035
82459592|NCT03863509|164621111|OTHER|||||||0.549|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 0.601, p = .549||||||.549
82459593|NCT03863509|164621112|OTHER|||||||0.022|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 381) = 3.877, p = .022|||Group difference tested after correction for false discovery rate at .05, therefore we followed with post-hoc pairwise comparisons.|||.022
82459594|NCT03863509|164621112|OTHER|||||||0.952|||||||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||||0.952
82459595|NCT03863509|164621112|OTHER|||||||0.014|||||||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||post hoc pairwise group comparisons.. Never Users minus Exclusive Smokers||||0.014
82652392|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.164||||0.2523|TWO_SIDED|95.0|-0.445|0.117||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.117|-0.445|0.2523
82459596|NCT03863509|164621112|OTHER|||||||0.011||||||Age, sex, and race were covaried|ANCOVA post-hoc pairwise group compariso|||Exclusive E-Cig Users minus Exclusive Smokers||||0.011
82459597|NCT03863509|164621113|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Outcome variable log-transformed for analysis. Test for group difference: F (2, 381) = 33.442, p \< .001|||Group difference tested for false discovery rate at .05 and followed with post-hoc pairwise comparisons.|||< .001
82459598|NCT03863509|164621113|OTHER||Mean Difference (Final Values)|0.18||||0.013|TWO_SIDED|95.0|0.039|0.322|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried|Estimated marginal mean differences (log-transformed scale)|Never Users minus Exclusive E-Cig Users:||0.322|0.039|0.013
82459599|NCT03863509|164621113|OTHER||Mean Difference (Final Values)|0.679|||<|0.001|TWO_SIDED|95.0|0.514|0.844|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried|Estimated marginal mean differences (log-transformed scale)|Never Users minus Exclusive Smokers||0.844|0.514|<0.001
82459600|NCT03863509|164621113|OTHER||Mean Difference (Final Values)|0.498|||<|0.001|TWO_SIDED|95.0|0.336|0.66|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race/ethnicity were covaried|"Estimated marginal mean differences (log-transformed scale)"|Exclusive E-Cig users minus Exclusive Smokers||0.660|0.336|<0.001
82459601|NCT03863509|164621114|OTHER|||||||0.15|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 361) = 1.904, p = .150||||||.150
82459602|NCT03863509|164621115|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 385) = 17.872, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons. Estimated marginal mean differences:|||< .001
82459603|NCT03863509|164621115|OTHER||Mean Difference (Final Values)|-3.632||||0.003|TWO_SIDED|95.0|-6.019|-1.245|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive E-Cig Users||-1.245|-6.019|0.003
82459604|NCT03863509|164621115|OTHER||Mean Difference (Final Values)|-8.38|||<|0.001|TWO_SIDED|95.0|-11.14|-5.62|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Never Users minus Exclusive Smokers||-5.62|-11.14|<0.001
82459605|NCT03863509|164621115|OTHER||Mean Difference (Final Values)|-4.748||||0.001|TWO_SIDED|95.0|-7.456|-2.04|||ANCOVA post-hoc pairwise group compariso|Age, sex, and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||-2.040|-7.456|0.001
82459606|NCT03863509|164621116|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||< .001
82459607|NCT03863509|164621116|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|age, sex and race were covaried||Never Users minus Exclusive E-Cig Users||1.824|0.733|<0.001
82459608|NCT03863509|164621116|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
82459609|NCT03863509|164621116|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
82459610|NCT03863509|164621117|OTHER|||||||0.199|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 386) = 1.621, p = .199||||||.199
82459611|NCT03863509|164621118|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p\< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||<0.001
82459612|NCT03863509|164621118|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive E-Cig users||1.824|0.733|<0.001
82459613|NCT03863509|164621118|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|age, sex, race covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
82459614|NCT03863509|164621118|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
82459615|NCT03863509|164621119|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 343) = 17.056, p\< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons.|||<0.001
82459616|NCT03863509|164621119|OTHER||Mean Difference (Final Values)|1.279|||<|0.001|TWO_SIDED|95.0|0.733|1.824|||ANCOVA post-hoc pairwise group compariso|Age, sex, race were covaried||Never Users minus Exclusive E-Cig Users||1.824|0.733|<0.001
82459617|NCT03863509|164621119|OTHER||Mean Difference (Final Values)|1.739|||<|0.001|TWO_SIDED|95.0|1.083|2.395|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Never Users minus Exclusive Smokers||2.395|1.083|<0.001
82459618|NCT03863509|164621119|OTHER||Mean Difference (Final Values)|0.46||||0.165|TWO_SIDED|95.0|-0.19|1.11|||ANCOVA post-hoc pairwise group compariso|Age, sex and race were covaried||Exclusive E-Cig Users minus Exclusive Smokers||1.110|-0.190|0.165
82459619|NCT03863509|164621120|OTHER||||||<|0.001|||||||ANCOVA|Age, sex, and race/ethnicity were covaried. Test for group difference: F (2, 344) = 10.075, p \< .001|||Group difference tested for false discovery rate at .05, and followed with post-hoc pairwise comparisons. Estimated marginal mean differences:|||<0.001
82459620|NCT03799341|164621121|OTHER|||||||0.177|||||||Wilcoxon (Mann-Whitney)|||||||0.177
82459621|NCT03799341|164621122|OTHER|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
82459622|NCT03799341|164621123|OTHER|||||||0.126|||||||Wilcoxon (Mann-Whitney)|||||||0.126
82459623|NCT03799341|164621124|OTHER|||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
82459624|NCT03799341|164621125|OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
82459625|NCT03799341|164621126|OTHER|||||||0.976|||||||Wilcoxon (Mann-Whitney)|||||||0.976
82459626|NCT03799341|164621127|OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.920
82459627|NCT03799341|164621128|OTHER|||||||0.873|||||||Wilcoxon (Mann-Whitney)|||||||0.873
82459628|NCT03799341|164621129|OTHER||||||<|0.001|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the influence of Contingency Management session attendance. The design included 4 factors: time (2 levels), stimulus condition (3 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||<0.001
82459629|NCT03799341|164621129|OTHER||||||<|0.001|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit covariates. A median split approach was therefore used to examine the influence of self-reported cocaine abstinence during treatment. The design included 4 factors: time (2 levels), stimulus condition (3 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||<0.001
82459630|NCT03799341|164621129|OTHER|||||||0.022|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the influence of Contingency Management session attendance. The design included 4 factors: time (2 levels), response accuracy (2 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.022
82459631|NCT03799341|164621129|OTHER|||||||0.024|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit covariates. A median split approach was therefore used to examine the influence of self-reported cocaine abstinence during treatment. The design included 4 factors: time (2 levels), response accuracy (2 levels), electrode pair (4 levels), and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.024
82459632|NCT03799341|164621130|OTHER|||||||0.973|||||||ANOVA|||No violations of normality assumptions were identified. A repeated measures ANOVA was conducted. To maintain consistency with other outcome measures, a median split approach was used to examine the potential influence of Contingency Management session attendance. The design included two factors: time (2 levels) and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.973
82459633|NCT03799341|164621130|OTHER|||||||0.662|||||||ANOVA|||No violations of normality assumptions were identified. A repeated measures ANOVA was conducted. To maintain consistency with other outcome measures, a median split approach was used to examine the potential influence of self-reported cocaine abstinence during the 12-week treatment interval. The design included two factors: time (2 levels) and median split group membership (2 levels). Reported results reflect the interaction between time and median split group.||||0.662
82459634|NCT03799341|164621131|OTHER|||||||0.878|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the potential influence of Contingency Management session attendance. The design included 3 factors: time (2 levels), condition (2 levels), and median split group membership (2 levels). Reported results reflect the interaction between time, condition, and median split group.||||0.878
82459635|NCT03799341|164621131|OTHER|||||||0.645|||||||ANOVA|||Due to violations of normality assumptions, a non-parametric Aligned Rank Transform ANOVA was conducted, which does not permit inclusion of covariates. A median split approach was therefore used to examine the potential influence of self-reported cocaine abstinence during treatment. The design included 3 factors: time (2 levels), condition (2 levels), and median split group membership (2 levels). Reported results reflect the interaction between time, condition, and median split group.||||0.645
82459636|NCT03100149|164621135|SUPERIORITY||Difference in Adjusted Means|-2.02|STANDARD_ERROR_OF_MEAN|1.71||0.2385|TWO_SIDED|80.0|-4.21|0.18|||Mixed Models Analysis|||||0.18|-4.21|0.2385
82459637|NCT03100149|164621135|SUPERIORITY||Difference in Adjusted Means|-0.62|STANDARD_ERROR_OF_MEAN|1.71||0.7169|TWO_SIDED|80.0|-2.82|1.58|||Mixed Models Analysis|||||1.58|-2.82|0.7169
82459638|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.165||0.6116|TWO_SIDED|80.0|-0.3|0.13||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IA||0.13|-0.30|0.6116
82459639|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.08|STANDARD_ERROR_OF_MEAN|0.165||0.6188|TWO_SIDED|80.0|-0.13|0.3||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IA||0.30|-0.13|0.6188
82459640|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.04|STANDARD_ERROR_OF_MEAN|0.345||0.9062|TWO_SIDED|80.0|-0.48|0.4||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IB||0.40|-0.48|0.9062
82459641|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.02|STANDARD_ERROR_OF_MEAN|0.347||0.9621|TWO_SIDED|80.0|-0.43|0.46||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part IB||0.46|-0.43|0.9621
82459642|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.19|STANDARD_ERROR_OF_MEAN|0.411||0.651|TWO_SIDED|80.0|-0.71|0.34||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part I Total||0.34|-0.71|0.6510
82459643|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.12|STANDARD_ERROR_OF_MEAN|0.413||0.7709|TWO_SIDED|80.0|-0.41|0.65||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part I Total||0.65|-0.41|0.7709
82459644|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.34|STANDARD_ERROR_OF_MEAN|0.523||0.5177|TWO_SIDED|80.0|-0.33|1.01||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part II Total||1.01|-0.33|0.5177
82459645|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.06|STANDARD_ERROR_OF_MEAN|0.523||0.9095|TWO_SIDED|80.0|-0.73|0.61||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part II Total||0.61|-0.73|0.9095
82459646|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-1.88|STANDARD_ERROR_OF_MEAN|1.255||0.1354|TWO_SIDED|80.0|-3.49|-0.27||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Total||-0.27|-3.49|0.1354
82459647|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-1.02|STANDARD_ERROR_OF_MEAN|1.262||0.4217|TWO_SIDED|80.0|-2.64|0.61||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Total||0.61|-2.64|0.4217
82459648|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.09|STANDARD_ERROR_OF_MEAN|0.369||0.8053|TWO_SIDED|80.0|-0.38|0.56||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Rigidity||0.56|-0.38|0.8053
82578260|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.6595|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.6595
82459649|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|0.25|STANDARD_ERROR_OF_MEAN|0.37||0.497|TWO_SIDED|80.0|-0.22|0.73||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Rigidity||0.73|-0.22|0.4970
82459650|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-1.07|STANDARD_ERROR_OF_MEAN|0.779||0.1703|TWO_SIDED|80.0|-2.07|-0.07||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Bradykinesia||-0.07|-2.07|0.1703
82459651|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.44|STANDARD_ERROR_OF_MEAN|0.782||0.5729|TWO_SIDED|80.0|-1.45|0.56||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Bradykinesia||0.56|-1.45|0.5729
82459652|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.61|STANDARD_ERROR_OF_MEAN|0.324||0.0628|TWO_SIDED|80.0|-1.02|-0.19||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Resting Tremor||-0.19|-1.02|0.0628
82459653|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.41|STANDARD_ERROR_OF_MEAN|0.325||0.2125|TWO_SIDED|80.0|-0.82|0.01||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Resting Tremor||0.01|-0.82|0.2125
82459654|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.4577|TWO_SIDED|80.0|-0.22|0.06||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Axial Symptoms||0.06|-0.22|0.4577
82459655|NCT03100149|164621136|SUPERIORITY||Difference in Adjusted Means|-0.01|STANDARD_ERROR_OF_MEAN|0.109||0.9182|TWO_SIDED|80.0|-0.15|0.13||Nominal p-values are displayed for descriptive purposes only.|Mixed Models Analysis|||MDS-UPDRS Part III Subscore: Axial Symptoms||0.13|-0.15|0.9182
82459656|NCT03100149|164621137|SUPERIORITY||LS Means Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3582|TWO_SIDED|80.0|-0.05|0.01||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.01|-0.05|0.3582
82459657|NCT03100149|164621137|SUPERIORITY||LS Means Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1955|TWO_SIDED|80.0|-0.06|0.0||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.00|-0.06|0.1955
82459658|NCT03100149|164621138|SUPERIORITY||Difference in Adjusted Means|0.22|STANDARD_ERROR_OF_MEAN|0.245||0.3611|TWO_SIDED|80.0|-0.09|0.54||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.54|-0.09|0.3611
82459659|NCT03100149|164621138|SUPERIORITY||Difference in Adjusted Means|0.44|STANDARD_ERROR_OF_MEAN|0.243||0.0727|TWO_SIDED|80.0|0.13|0.75||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.75|0.13|0.0727
82459660|NCT03100149|164621139|SUPERIORITY||Odds Ratio (OR)|0.77||||0.4265|TWO_SIDED|80.0|0.5|1.18||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.18|0.50|0.4265
82459661|NCT03100149|164621139|SUPERIORITY||Odds Ratio (OR)|0.76||||0.4063|TWO_SIDED|80.0|0.49|1.16||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.16|0.49|0.4063
82459662|NCT03100149|164621140|SUPERIORITY||Odds Ratio (OR)|0.75||||0.3847|TWO_SIDED|80.0|0.48|1.15||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.15|0.48|0.3847
82459663|NCT03100149|164621140|SUPERIORITY||Odds Ratio (OR)|0.88||||0.7055|TWO_SIDED|80.0|0.57|1.36||Nominal p-values are displayed for descriptive purposes only.|Regression, Logistic|||||1.36|0.57|0.7055
82459664|NCT03100149|164621141|SUPERIORITY||Difference in Adjusted Means|-0.73|STANDARD_ERROR_OF_MEAN|0.888||0.4142|TWO_SIDED|80.0|-1.87|0.41||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.41|-1.87|0.4142
82459665|NCT03100149|164621141|SUPERIORITY||Difference in Adjusted Means|-0.67|STANDARD_ERROR_OF_MEAN|0.885||0.4486|TWO_SIDED|80.0|-1.81|0.47||Nominal p-values are displayed for descriptive purposes only.|ANCOVA|||||0.47|-1.81|0.4486
82459666|NCT03100149|164621142|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.3769|TWO_SIDED|80.0|0.94|1.42||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.42|0.94|0.3769
82578261|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0938|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0938
82459667|NCT03100149|164621142|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.1658|TWO_SIDED|80.0|1.02|1.53||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.53|1.02|0.1658
82459668|NCT03100149|164621143|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9542|TWO_SIDED|80.0|0.77|1.33||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.33|0.77|0.9542
82459669|NCT03100149|164621143|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.4567|TWO_SIDED|80.0|0.63|1.13||Nominal p-values are displayed for descriptive purposes only.|Regression, Cox|||||1.13|0.63|0.4567
82459670|NCT01782898|164621173|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.82
82459671|NCT01782898|164621174|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.05
82459672|NCT01782898|164621175|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.14
82459673|NCT02849418|164621178|OTHER||Mean Difference (Net)|-3.02|||||TWO_SIDED|95.0|-5.85|-0.19|||||The analysis method was mixed-model for repeated measures (MMRM) with treatment, visit, treatment-by-visit interaction, Baseline value, Baseline-by-visit interaction as fixed effects.|||-0.19|-5.85|
82459674|NCT01405768|164621258|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||.13
82459675|NCT01405768|164621260|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||.13
82542275|NCT00468052|164784074|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Null hypothesis is not significantly different from group D and F.|Wilcoxon (Mann-Whitney)|||Sixty subjects were required per group to determine that with Dex would decrease the incidence of severe EA after surgery by 50% with 80% power (0.05)in comparison with the control group.60 subjects were required by group to show the that intraoperative rescue fentanyl and rescue morphine in the PACU would be 50% lower in subjects receiving dex.||||.001
82459676|NCT03692208|164621262|OTHER|Quantitative outcomes from chart and survey data were summarized by basic descriptive statistics.|||||<|0.01||||||P-values were calculated. Only P values of \<0.05 were considered statistically significant.|Chi-squared|Chi-squared tests, Fisher's Exact tests, two-sample t-tests, and paired two-sample t-tests were utilized to assess the outcomes between study arms.||||||<0.01
82459677|NCT02792231|164621266|SUPERIORITY||rate ratio|0.416|||<|0.001|TWO_SIDED|95.0|0.309|0.56|||negative binomial regression model|||Obtained from fitting a negative binomial regression model with log-link to the number of relapses, adjusted for treatment and region as factors, number of relapses in previous year, baseline EDSS, baseline number of Gd-enhancing lesions and the patient's age at baseline as covariates. The natural log of the time-in-study was used as offset to annualize the relapse rate.||0.560|0.309|<0.001
82459678|NCT02792231|164621267|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.003|TWO_SIDED|95.0|0.5|0.863|||Regression, Cox|||Pooled data - this study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.863|0.500|0.003
82459679|NCT02792231|164621268|SUPERIORITY||Hazard Ratio (HR)|0.662||||0.038|TWO_SIDED|95.0|0.449|0.977|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.977|0.449|0.038
82459680|NCT02792231|164621269|SUPERIORITY||Hazard Ratio (HR)|0.676||||0.012|TWO_SIDED|95.0|0.498|0.917|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.917|0.498|0.012
82459681|NCT02792231|164621270|SUPERIORITY||Hazard Ratio (HR)|0.759||||0.215|TWO_SIDED|95.0|0.49|1.174|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||1.174|0.490|0.215
82459682|NCT02792231|164621271|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.092|TWO_SIDED|95.0|0.952|1.928|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||1.928|0.952|0.092
82459683|NCT02792231|164621272|SUPERIORITY||Hazard Ratio (HR)|1.523||||0.09|TWO_SIDED|95.0|0.936|2.477|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||2.477|0.936|0.090
82459684|NCT02792231|164621273|SUPERIORITY||rate ratio|0.061|||<|0.001|TWO_SIDED|95.0|0.037|0.101|||negative binomial regression model|||||0.101|0.037|<.001
82459685|NCT02792231|164621274|SUPERIORITY||rate ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.17|0.27|||negative binomial regression model|||Month 12||0.27|0.17|<.001
82459686|NCT02792231|164621274|SUPERIORITY||rate ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.12|0.31|||negative binomial regression model|||Month 24||0.31|0.12|<.001
82459687|NCT02792231|164621274|SUPERIORITY||rate ratio|0.15|||<|0.001|TWO_SIDED|95.0|0.13|0.19|||negative binomial regression model|||End of Study||0.19|0.13|<.001
82459688|NCT02792231|164621275|SUPERIORITY||Geo-mean ratio|0.89|||<|0.001|TWO_SIDED|95.0|0.85|0.93|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 3||0.93|0.85|<.001
82459689|NCT02792231|164621275|SUPERIORITY||Geo-mean ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.7|0.79|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 12||0.79|0.70|<.001
82459690|NCT02792231|164621275|SUPERIORITY||Geo-mean ratio|0.76|||<|0.001|TWO_SIDED|95.0|0.71|0.81|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||Month 24||0.81|0.71|<.001
82459691|NCT02792231|164621276|SUPERIORITY||Mean Difference (Net)|0.07||||0.128|TWO_SIDED|95.0|-0.02|0.15|||random coefficient model|||||0.15|-0.02|0.128
82459692|NCT02792231|164621279|SUPERIORITY||Hazard Ratio (HR)|0.641||||0.002|TWO_SIDED|95.0|0.486|0.847|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.847|0.486|0.002
82459693|NCT02792231|164621280|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.008|TWO_SIDED|95.0|0.481|0.898|||Regression, Cox|||This study was not powered for the analysis of this endpoint individually. It was pre-specified in the study protocol to combine the data from this study with study COMB157G2301 to address this endpoint.||0.898|0.481|0.008
82578262|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0061|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0061
82459694|NCT04073186|164621302|SUPERIORITY|The superiority of the First wearing Cycle was concluded if the lower confidence limit of leastsquare mean as greater than 32.|Least-square Mean|59.3|STANDARD_ERROR_OF_MEAN|2.37|||TWO_SIDED|95.0|54.6|64.0|||Linear Mixed Model|the Kenward and Roger method was used for the denominator degrees of freedom.||||64.0|54.6|
82459695|NCT04073186|164621303|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.10 logMAR.|Least-square Mean|-0.084|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.124|-0.044||Distance (4 Meter)|Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom.||||-0.044|-0.124|
82652393|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.112||||0.4356|TWO_SIDED|95.0|-0.393|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.170|-0.393|0.4356
82459696|NCT04073186|164621303|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.17 logMAR.|Least-square Mean|-0.028|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.068|0.012|||Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom||Intermediate (64 CM)||0.012|-0.068|
82459697|NCT04073186|164621303|SUPERIORITY|The superiority of the Test lens was concluded if the upper confidence limit of least-square mean was below the pre-defined threshold 0.17 logMAR|Least-square Means|0.037|STANDARD_ERROR_OF_MEAN|0.0191|||TWO_SIDED|95.0|-0.003|0.077|||Linear Mixed Model|The Kenward and Roger Method was used for the demoninator degrees of freedom||Near (40 CM)||0.077|-0.003|
82459698|NCT04073186|164621304|SUPERIORITY|The superiority of the Test lens at 4-week followup compared to it at 2-week follow-up will beconcluded if the lower confidence limit of leastsquare mean difference is greater than 0.|Least-square Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|2.03|||TWO_SIDED|95.0|-8.1|-0.1|||Linear Mixed Model|the Kenward and Roger method was used for the denominator degrees of freedom.|LSM difference was calculated as Second Wearing Cycle minus First Wearing Cycle|||-0.1|-8.1|
82459699|NCT00423657|164621316|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% confidence interval (CI) for the observed difference in the primary outcome measure between ceftaroline and vancomycin plus aztreonam was calculated. Noninferiority was concluded if the lower limit of the 95%CI was higher than -10%.|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-5.8|5.0|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Vancomycin plus Aztreonam clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in clinical cure rate of ceftaroline in comparison with vancomycin plus aztreonam in adult subjects with cSSSI.||5.0|-5.8|
82459700|NCT02748863|164621324|SUPERIORITY||Odds Ratio (OR)|717.42|||<|0.0001|TWO_SIDED|95.0|68.0|7569.56|||Regression, Logistic|||||7569.56|68.00|< 0.0001
82459701|NCT02748863|164621325|SUPERIORITY||Odds Ratio (OR)|168.39|||<|0.0001|TWO_SIDED|95.0|21.2|1337.22|||Regression, Logistic|||||1337.22|21.20|< 0.0001
82459702|NCT02748863|164621326|SUPERIORITY||Risk Difference (RD)|38.75|||<|0.0001|TWO_SIDED|95.0|27.41|50.09|||t-test, 2 sided|||||50.09|27.41|< 0.0001
82459703|NCT02748863|164621326|SUPERIORITY||Risk Difference (RD)|36.48|||<|0.0001|TWO_SIDED|95.0|25.19|47.76|||t-test, 2 sided|||||47.76|25.19|< 0.0001
82459704|NCT02748863|164621328|SUPERIORITY||Odds Ratio (OR)|400.58|||<|0.0001|TWO_SIDED|95.0|47.48|3379.99|||Regression, Logistic|||||3379.99|47.48|< 0.0001
82459705|NCT00657046|164621332|SUPERIORITY_OR_OTHER|||||||0.693|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.693
82459706|NCT00657046|164621332|SUPERIORITY_OR_OTHER|||||||0.807|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.807
82459707|NCT00657046|164621333|SUPERIORITY_OR_OTHER|||||||0.212|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.212
82459708|NCT00657046|164621333|SUPERIORITY_OR_OTHER|||||||0.23|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.230
82459709|NCT00657046|164621334|SUPERIORITY_OR_OTHER|||||||0.712|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.712
82459710|NCT00657046|164621334|SUPERIORITY_OR_OTHER|||||||0.607|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.607
82459711|NCT00657046|164621335|SUPERIORITY_OR_OTHER|||||||0.4602|||||||ANCOVA|GLM model with baseline as a covariate||||||0.4602
82459712|NCT00657046|164621335|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|GLM model with baseline as a covariate||||||0.940
82459713|NCT00657046|164621336|SUPERIORITY_OR_OTHER|||||||0.376|||||||ANCOVA|GLM model with baseline as a covariate||||||0.376
82459714|NCT00657046|164621336|SUPERIORITY_OR_OTHER|||||||0.903|||||||ANCOVA|GLM model with baseline as a covariate||||||0.903
82459715|NCT00657046|164621337|SUPERIORITY_OR_OTHER|||||||0.319|||||||ANCOVA|GLM model with baseline as a covariate||||||0.319
82459716|NCT00657046|164621337|SUPERIORITY_OR_OTHER|||||||0.408|||||||ANCOVA|GLM model with baseline as a covariate||||||0.408
82459717|NCT00657046|164621338|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|GLM model with baseline as a covariate||||||0.004
82459718|NCT00657046|164621338|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANCOVA|GLM model with baseline as a covariate||||||0.030
82459719|NCT00657046|164621339|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANCOVA|GLM model with baseline as a covariate||||||0.025
82459720|NCT00657046|164621339|SUPERIORITY_OR_OTHER|||||||0.022|||||||ANCOVA|GLM model with baseline as a covariate.||||||0.022
82459721|NCT00657046|164621340|SUPERIORITY_OR_OTHER|||||||0.082|||||||Fisher Exact|||||||0.082
82459722|NCT00657046|164621340|SUPERIORITY_OR_OTHER|||||||0.008|||||||Fisher Exact|||||||0.008
82499622|NCT01571427|164689938|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.84||0.69|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.69
82499623|NCT01571427|164689938|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|1.02||0.86|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.86
82578263|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0235|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||-0.1|-0.8|0.0235
82459723|NCT00844376|164621362|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|95.77||||||90.0|85.82|106.88|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUC48 was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUC48; restricted (residual) maximum likelihood (REML) method of estimation.||106.88|85.82|
82459724|NCT00844376|164621363|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|95.04||||||90.0|84.99|106.27|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUCinf was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUCinf||106.27|84.99|
82459725|NCT00844376|164621364|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|94.86||||||90.0|83.86|107.29|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for AUClast||107.29|83.86|
82459726|NCT00844376|164621365|SUPERIORITY_OR_OTHER_LEGACY||ratio of adjusted geometric means|117.9||||||90.0|98.22|141.53|||Mixed Models Analysis|The mixed effects model was implemented using SAS Proc Mixed, with REML estimation method and Kenward-Roger degrees of freedom algorithm.|Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as a fixed effect and subject within sequence as a random effect.|Ratio of adjusted means (test/reference), and 90% CI for ratio--for Cmax||141.53|98.22|
82459727|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.88|1.08|||ANOVA|||Anti-HPV 6||1.08|0.88|<0.001
82459728|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.97|||<|0.001|TWO_SIDED|95.0|0.87|1.07|||ANOVA|||Anti-HPV 11||1.07|0.87|<0.001
82459729|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.98|||<|0.001|TWO_SIDED|95.0|0.89|1.09|||ANOVA|||Anti-HPV 16||1.09|0.89|<0.001
82459730|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.88|1.12|||ANOVA|||Anti-HPV 18||1.12|0.88|<0.001
82459731|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|1.04|||<|0.001|TWO_SIDED|95.0|0.93|1.17|||ANOVA|||Anti-HPV 31||1.17|0.93|<0.001
82459732|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.89|1.11|||ANOVA|||Anti-HPV 33||1.11|0.89|<0.001
82459733|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|1.1|||<|0.001|TWO_SIDED|95.0|0.97|1.25|||ANOVA|||Anti-HPV 45||1.25|0.97|<0.001
82459734|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.98|||<|0.001|TWO_SIDED|95.0|0.88|1.1|||ANOVA|||Anti-HPV 52||1.10|0.88|<0.001
82459735|NCT00988884|164621369|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 95% confidence interval for the fold difference is \>0.5|Fold difference in GMT|0.99|||<|0.001|TWO_SIDED|95.0|0.88|1.1|||ANOVA|||Anti-HPV 58||1.10|0.88|<0.001
82459736|NCT00988884|164621370|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|3.8|||<|0.001|TWO_SIDED|97.5|-1.7|9.3|||Miettinen and Nurminen|||Serogroup A||9.3|-1.7|<0.001
82459737|NCT00988884|164621370|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-2.1|||<|0.001|TWO_SIDED|97.5|-5.4|1.1|||Miettinen and Nurminen|||Serogroup C||1.1|-5.4|<0.001
82459738|NCT00988884|164621370|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|2.1|||<|0.001|TWO_SIDED|97.5|-1.8|6.1|||Miettinen and Nurminen|||Serogroup Y||6.1|-1.8|<0.001
82459739|NCT00988884|164621370|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-2.1|||<|0.001|TWO_SIDED|97.5|-4.7|0.3|||Miettinen and Nurminen|||Serogroup W-135||0.3|-4.7|<0.001
82578264|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3652|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.2|-0.5|0.3652
82578265|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.6885|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||0.3|-0.4|0.6885
82459740|NCT00988884|164621371|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|97.5|-0.8|0.9|||Miettinen and Nurminen|||Anti-diphtheria titer \>=0.1 IU/mL||0.9|-0.8|<0.001
82459741|NCT00988884|164621371|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the percentage difference is greater than -10|Difference in percentage|-0.2|||<|0.001|TWO_SIDED|97.5|-1.2|0.7|||Miettinen and Nurminen|||Anti-tetanus titer \>=0.1 IU/mL||0.7|-1.2|<0.001
82459742|NCT00988884|164621372|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.8||||0.003|TWO_SIDED|97.5|0.69|0.92|||ANOVA|||Anti-PT||0.92|0.69|0.003
82459743|NCT00988884|164621372|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.91|||<|0.001|TWO_SIDED|97.5|0.83|1.01|||ANOVA|||Anti-FHA||1.01|0.83|<0.001
82459744|NCT00988884|164621372|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.95|||<|0.001|TWO_SIDED|97.5|0.84|1.08|||ANOVA|||Anti-PRN||1.08|0.84|<0.001
82459745|NCT00988884|164621372|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of concomitant versus non-concomitant vaccination is demonstrated if the lower limit of the 97.5% confidence interval for the fold difference is \>0.67|Fold difference in GMT|0.96|||<|0.001|TWO_SIDED|97.5|0.76|1.21|||ANOVA|||Anti-FIM 2/3||1.21|0.76|<0.001
82459746|NCT00988884|164621375|SUPERIORITY_OR_OTHER||Difference in percentage|-0.4||||0.806|TWO_SIDED|95.0|-3.5|2.7|||Miettinen and Nurminen|||||2.7|-3.5|0.806
82459747|NCT03546621|164621382|SUPERIORITY||||||<|0.0001|||||||Bonferroni-Holm|||For each of the three Myrcludex B treatment groups, a null hypothesis of no clinically significant difference in proportion of responders compared to the control group (Tenofovir only), at week 24, were tested using the one-sided Wald test for superiority, at a one-sided overall significance level of 0.05 adjusted for multiple testing according to Bonferroni-Holm, with the superiority limit (test margin) set to 5%.||||<.0001
82459748|NCT03546621|164621383|SUPERIORITY|||||||0.9818||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||0.9818
82578266|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1726|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.1|0.1726
82459749|NCT03546621|164621383|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value as smaller than 0.05|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||1.0000
82459750|NCT03546621|164621383|SUPERIORITY|||||||0.7132||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Week 48. Two-sided Fisher's exact tests were used to test null hypothesis of no difference in the proportion of responders compared to the Tenofovir only group. Separate comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted p-values were computed using the Bonferroni-Holm method.||||0.7132
82459751|NCT03546621|164621384|SUPERIORITY|||||||0.0232||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.~This analysis, and presentation of descriptive statistics, was repeated for the subgroups of patients with normal/abnormal baseline ALT values."||||0.0232
82459752|NCT03546621|164621384|SUPERIORITY|||||||0.0047||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.||||0.0047
82459753|NCT03546621|164621384|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Bonferroni-Holm|||Fisher's exact test was used to test a null hypothesis of no difference in proportions against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computered using the Bonferroni-Holm method.||||0.0010
82459754|NCT03546621|164621385|SUPERIORITY|||||||0.1642||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. The change from baseline to week 24 and week 48 in ALT levels was performed using van Elteren tests.~Fisher's exact test was used to test a null hypothesis of no difference in proportions (of patients with normal ALT values) against a two-sided alternative hypothesis. Separate tests were performed for each of the three Myrcludex B treatment groups against the control group, at week 24 and week 48, and adjusted p-values were computed using the Bonferroni-Holm method."||||0.1642
82459755|NCT03546621|164621385|SUPERIORITY|||||||0.0428||||||A test is considered statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 24||||0.0428
82459756|NCT03546621|164621385|SUPERIORITY|||||||0.0428||||||A test is considered statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 24||||0.0428
82459757|NCT03546621|164621385|SUPERIORITY|||||||0.2388||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Boferroni-Holm|||Week 48||||0.2388
82578267|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0627|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.0|0.0627
82459758|NCT03546621|164621385|SUPERIORITY|||||||0.7157||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.7157
82459759|NCT03546621|164621385|SUPERIORITY|||||||0.2388||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.2388
82459760|NCT03546621|164621386|SUPERIORITY|||||||0.7416||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. Two-sided van Elteren tests, stratified by presence of cirrhosis, were used to test for differences compared to the control group.~Separate comparisons were made for each of the three MXB groups versus the control group, and adjusted p-values were computed using the Bonferroni-Holm method."||||0.7416
82459761|NCT03546621|164621386|SUPERIORITY|||||||0.4434||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.4434
82459762|NCT03546621|164621386|SUPERIORITY|||||||0.7371||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24.||||0.7371
82459763|NCT03546621|164621386|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459764|NCT03546621|164621386|SUPERIORITY|||||||0.9441||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||0.9441
82459765|NCT03546621|164621386|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459766|NCT03546621|164621387|SUPERIORITY||Bonferroni-Holm|||||0.5984||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. The change from baseline to Week 24 in HBsAg was performed using van Elteren tests. Tests were performed on log-10 transformed data.~Separare comparisons were made for each of the three Myrcludex B groups versus the control group, and the adjusted values were computed using the Bonferroni-Holm method."||||0.5984
82459767|NCT03546621|164621387|SUPERIORITY|||||||0.7529||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.7529
82459768|NCT03546621|164621387|SUPERIORITY|||||||0.3305||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 24||||0.3305
82459769|NCT03546621|164621387|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459770|NCT03546621|164621387|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459771|NCT03546621|164621387|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459772|NCT03546621|164621388|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||"Week 24. Two-sided van Elteren tests, stratified by presence of cirrhosis, were used to test for differences compared to the control group.~Tests were performed on log-10 transformed data. Separate comparisons were made for each of the three MXB groups versus the control group, and adjusted p-values were computed using the Bonferroni-Holm method."||||1.0000
82459773|NCT03546621|164621388|SUPERIORITY|||||||1|||||||Bonferroni-Holm|||Week 24.||||1.0000
82459774|NCT03546621|164621388|SUPERIORITY|||||||1|||||||Bonferroni-Holm|||Week 24||||1.0000
82459775|NCT03546621|164621388|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05|Bonferroni-Holm|||Week 48||||1.0000
82459776|NCT03546621|164621388|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459777|NCT03546621|164621388|SUPERIORITY|||||||1||||||A test is considered as statistically significant if the adjusted p-value is smaller than 0.05.|Bonferroni-Holm|||Week 48||||1.0000
82459778|NCT03318549|164621398|OTHER|||||||0.011|||||||t-test, 2 sided|||||||0.011
82459779|NCT03318549|164621398|OTHER|||||||0.022|||||||t-test, 2 sided|||||||0.022
82459780|NCT03318549|164621399|OTHER|||||||0.303|||||||Chi-squared|||||||0.303
82459781|NCT03318549|164621402|OTHER|||||||0.132|||||||t-test, 2 sided|||||||0.132
82459782|NCT03318549|164621402|OTHER|||||||0.647|||||||t-test, 2 sided|||||||0.647
82459783|NCT00539994|164621407|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82459784|NCT00539994|164621407|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82459785|NCT03861273|164621462|NON_INFERIORITY|A repeated measure negative binomial regression model was used to do the hypothesis test on non-inferiority with one-sided test.|Mean Difference (Final Values)|-3.13||||0.0081|TWO_SIDED|95.0|-5.44|-0.81|||Generalized linear model (GLM)|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.||||-0.81|-5.44|0.0081
82459786|NCT03861273|164621463|NON_INFERIORITY|A repeated measure negative binomial regression model was used to do the hypothesis test on non-inferiority with one-sided test.|Median Difference (Final Values)|-2.62||||0.0019|TWO_SIDED|95.0|-4.27|-0.96|||Generalized linear model (GLM)|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.||||-0.96|-4.27|0.0019
82459787|NCT03861273|164621464|SUPERIORITY||Mean Difference (Final Values)|-54.37|||<|0.0001|TWO_SIDED|95.0|-63.64|-45.1|||Paired t-test|||The treatment difference (PF-06838435 - FIX Prophylaxis) estimate (95% CI) and p-value were obtained from paired t-test.||-45.10|-63.64|<.0001
82459788|NCT03861273|164621465|OTHER||||||<|0.0001||||||P-value from one-sided t-statistic testing the log transformation of the steady state FIX:C \> log(5). Cumulative for 3 assays.|One-sided t-statistic testing|||Week 12 to Month 15||||<.0001
82459789|NCT03861273|164621467|SUPERIORITY||Mean Difference (Final Values)|-2935.7|||<|0.0001|TWO_SIDED|95.0|-3403.1|-2468.3|||Paired t-test|||||-2468.30|-3403.10|<.0001
82459790|NCT03861273|164621468|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Mean Difference (Final Values)|-2.55||||0.0191|TWO_SIDED|95.0|-4.67|-0.42|||Generalized linear model (GLM)|||||-0.42|-4.67|0.0191
82578268|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.0026|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||-0.2|-0.8|0.0026
82459791|NCT03861273|164621469|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Median Difference (Final Values)|-0.57||||0.1528|TWO_SIDED|95.0|-1.35|0.21|||Generalized linear model (GLM)|||||0.21|-1.35|0.1528
82459792|NCT03861273|164621470|NON_INFERIORITY|The treatment difference and P-value were obtained from a repeated measures GLM with negative binomial distribution and identity link function.|Mean Difference (Final Values)|-0.51||||0.3738|TWO_SIDED|95.0|-1.63|0.61|||Generalized linear model (GLM)|||||0.61|-1.63|0.3738
82459793|NCT03861273|164621473|OTHER|||||||0.0117|||||||Paired t-test|||||||0.0117
82459794|NCT03861273|164621474|OTHER|||||||0.0052|||||||Paired t-test|||||||0.0052
82459795|NCT03861273|164621475|OTHER|||||||0.0237|||||||Paired t-test|||||||0.0237
82459796|NCT01116648|164621495|OTHER||Maximum Tolerated Dose (mg)|30.0|||||TWO_SIDED||||||||Cediranib|||||
82459797|NCT01116648|164621495|OTHER||Maximum Tolerated Dose (mg BID)|200.0|||||TWO_SIDED||||||||Olaparib|||||
82459798|NCT01116648|164621497|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.006|TWO_SIDED|95.0|0.3|0.83|||Kaplan-Meier Plot|||||0.83|0.30|0.006
82542276|NCT00468052|164784074|NON_INFERIORITY_OR_EQUIVALENCE|Treatment with Dex would reduce the incidence of severe agitation be 50% with an 80% power (alpha 0.05)||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Null hypothesis dexmedetomidine would be a safe and effective substitute to opiates in reducing pain and the incidence of severe EA||||.001
82578269|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1362|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||0.1|-0.6|0.1362
82459799|NCT01420926|164621534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Stratified 1-sided log-rank|||||||0.30
82459800|NCT00833040|164621577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.3|STANDARD_ERROR_OF_MEAN|4.49|<|0.001||95.0|||||ANCOVA|||difference between the active and placebo groups||||<0.001
82459801|NCT04233008|164621578|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82459802|NCT04233008|164621579|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
82459803|NCT04233008|164621580|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82459804|NCT04233008|164621581|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82459805|NCT04233008|164621582|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82459806|NCT04233008|164621584|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
82459807|NCT00416624|164621590|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the\> above sample size will provide an 80% power to detect a difference as small as\> 25%.|||||>|0.41|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be\> about 80% power to detect a difference through Fisher's exact test across two\> treatment arms of 25% in the true percentage of patients that experience a\> hematopoietic response as defined previously, if that percentage is at least 30% in\> the superior group, again with a 1.7% type I error rate.||||>0.41
82459808|NCT00416624|164621592|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 80 patients per arm will provide\> 80% power to detect differences between average hemoglobin levels in the\> reference arm and another treatment of 50% of the standard deviation. Note that\> typically one would expect the estimates for the standard deviation at a single time\> point to differ from the standard deviation for the difference from baseline.|||||>|0.13|TWO_SIDED||||||Fisher Exact|||||||>0.13
82459809|NCT00416624|164621594|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the\> above sample size will provide an 80% power to detect a difference as small as\> 25%.|||||>|0.49|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be\> about 80% power to detect a difference through Fisher's exact test across two\> treatment arms of 25% in the true percentage of patients that experience a\> hematopoietic response as defined previously, if that percentage is at least 30% in\> the superior group, again with a 1.7% type I error rate.||||>0.49
82459810|NCT00416624|164621597|NON_INFERIORITY_OR_EQUIVALENCE|If the hematopoietic response rate in the standard therapy group is far from 50% (\<25% or \>75%), the above sample size will provide an 80% power to detect a difference as small as 25%.|||||>|0.56|TWO_SIDED||||||Fisher Exact|||With 80 patients per treatment arm, there will be about 80% power to detect a difference through Fisher's exact test across two treatment arms of 25% in the true percentage of patients that experience a hematopoietic response as defined previously, if that percentage is at least 30% in the superior group, again with a 1.7% type I error rate.||||>0.56
82459811|NCT00657540|164621609|SUPERIORITY_OR_OTHER|||||||0.0185|||||||Chi-squared|The proportion of treatment failures was compared between groups using a one-sided test at the 0.025 level of significance.||||||0.0185
82459812|NCT00657540|164621610|SUPERIORITY_OR_OTHER|||||||0.2302|||||||Chi-squared|Chi-squared tests at the 0.025 level of significance were used to test for a difference in proportions between the treatment groups.||||||0.2302
82459813|NCT00657540|164621611|SUPERIORITY_OR_OTHER|||||||0.8213|||||||Chi-squared|The proportion of subjects with at least one drug-related adverse event by treatment groups using a two-sided test at the 0.05 level of significance.||||||0.8213
82459814|NCT00657540|164621612|SUPERIORITY_OR_OTHER|||||||0.2765|||||||Chi-squared|The proportion of subjects with decreased pain at any time point between treatment groups using a one-sided test at the 0.025 level of significance.||||||0.2765
82459815|NCT04245111|164621631|OTHER|No other statistical analysis completed other than percentage of patients completed as reported in the data table section||||||||||||||||No other statistical analysis completed other than percentage of patients completed as reported in the data table section|No other statistical analysis completed other than percentage of patients completed as reported in the data table section|||
82459816|NCT04755816|164621656|OTHER|Estimates and confidence intervals are provided|Win Ratio|1.29|||||TWO_SIDED|95.0|1.08|1.54||||||"Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C. By the unmatched pairs win ratio method, each participant receiving the intervention will be compared to each participant not receiving the intervention. For each comparison, winners will be determined according to the hierarchy described above. The win ratio is the number winners divided by the number of losers associated with the intervention."||1.54|1.08|
82542277|NCT00468052|164784075|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.004
82542278|NCT00468052|164784077|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
82542279|NCT00468052|164784078|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||||||0.02
82459817|NCT04755816|164621657|OTHER|Estimates and confidence intervals are provided|Win Ratio|1.29|||||TWO_SIDED|95.0|1.08|1.54||||||"Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in group A and B. By the unmatched pairs win ratio method, each participant receiving the intervention will be compared to each participant not receiving the intervention. For each comparison, winners will be determined according to the hierarchy described above. The win ratio is the number winners divided by the number of losers associated with the intervention."||1.54|1.08|
82459818|NCT04755816|164621659|OTHER|Estimates and confidence intervals are provided|Hazard Ratio (HR)|1.096|||||TWO_SIDED|95.0|0.321|3.743||||||Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C.||3.743|0.321|
82459819|NCT04755816|164621660|OTHER|Estimates and confidence intervals are provided|Slope|-15.37|||||TWO_SIDED|95.0|-37.5|6.76|||||"The total score for the MLHFQ ranges from 0 to 105, with higher scores indicating more significant impairment in health-related quality of life. The change in MLHFQ is defined as MLHFQ at Week 12 minus MLHFQ at Week 0."|Dietary Sodium Intervention includes those in treatment group B and D. No Dietary Sodium Intervention includes those in treatment group A and C. Simple linear regression models will be used to assess the outcome of change in MLHFQ over 12 weeks as a function of treatment group assignment. Beta coefficients and 95% confidence intervals will be reported.||6.76|-37.5|
82459820|NCT04755816|164621661|OTHER|Estimates and confidence intervals are provided|Hazard Ratio (HR)|0.556|||||TWO_SIDED|95.0|0.163|1.901||||||Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in treatment group A and B.||1.901|0.163|
82459821|NCT04755816|164621662|OTHER|Estimates and confidence intervals are provided|Slope|-12.98|||||TWO_SIDED|95.0|-33.67|7.72|||||"The total score for the MLHFQ ranges from 0 to 105, with higher scores indicating more significant impairment in health-related quality of life. The change in MLHFQ is defined as MLHFQ at Week 12 minus MLHFQ at Week 0."|Clinical Worsening Intervention includes those in treatment group C and D. No Clinical Worsening Intervention includes those in treatment group A and B. Simple linear regression models will be used to assess the outcome of change in MLHFQ over 12 weeks as a function of treatment group assignment. Beta coefficients and 95% confidence intervals will be reported.||7.72|-33.67|
82459822|NCT00558246|164621743|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of INTRADERMAL SUTURE successful subjects) does not exceed 12%.|Differences in proportion of successes|0.0||||1|TWO_SIDED|95.0|-5.9|5.9|||McNemar||The level of significance for statistical testing was 0.05 for this study.|||5.9|-5.9|1.0000
82459823|NCT00558246|164621744|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82459824|NCT00558246|164621745|SUPERIORITY_OR_OTHER|||||||1||95.0|||||McNemar|||||||1.0000
82459825|NCT00558246|164621746|SUPERIORITY_OR_OTHER|||||||0.2266|||||||McNemar|||||||0.2266
82578270|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.4344|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||0.2|-0.4|0.4344
82459826|NCT00558246|164621747|SUPERIORITY_OR_OTHER|||||||0.5078||0.0|||||McNemar|||||||0.5078
82459827|NCT05552027|164621752|SUPERIORITY||||||<|0.001||||||At the completion of scenario A (a full child safety seat installation), the participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.001
82459828|NCT05552027|164621752|SUPERIORITY||||||<|0.01||||||At the end of scenario B (loose harness straps), participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.01
82459829|NCT05552027|164621752|SUPERIORITY||||||<|0.01||||||At the end of scenario C (loose attachment at the base), like the other two scenarios, participants using the CCS app had significantly fewer errors present compared to the control group.|Chi-squared|||||||<.01
82459830|NCT04663321|164621759|SUPERIORITY|Difference in LS Means|LS Mean Difference|3.3||||0.168|TWO_SIDED|95.0|-1.4|8.0|||ANCOVA|||||8.0|-1.4|0.168
82459831|NCT04663321|164621759|SUPERIORITY|Difference in LS Means|LS Mean Difference|-1.1||||0.697|TWO_SIDED|95.0|-6.9|4.7|||ANCOVA|||||4.7|-6.9|0.697
82578271|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1264|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.1|0.1264
82459832|NCT04663321|164621760|SUPERIORITY|Difference in LS Means|LS Mean Difference|2.9||||0.124|TWO_SIDED|95.0|-0.8|6.6|||ANCOVA|||||6.6|-0.8|0.124
82459833|NCT04663321|164621760|SUPERIORITY|Difference in LS Means|LS Mean Difference|1.9||||0.417|TWO_SIDED|95.0|-2.7|6.4|||ANCOVA|||||6.4|-2.7|0.417
82459834|NCT04663321|164621763|SUPERIORITY|Difference in LS Means|LS Mean Difference|2.0||||0.187|TWO_SIDED|95.0|-1.0|5.1|||ANCOVA|||||5.1|-1.0|0.187
82459835|NCT04663321|164621763|SUPERIORITY|Difference in LS Means|LS Mean Difference|-0.6||||0.738|TWO_SIDED|95.0|-4.3|3.1|||ANCOVA|||||3.1|-4.3|0.738
82459836|NCT04663321|164621764|SUPERIORITY|Difference in LS means|LS Mean Difference|1.7||||0.182|TWO_SIDED|95.0|-0.8|4.3|||ANCOVA|||||4.3|-0.8|0.182
82459837|NCT04663321|164621765|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.1||||0.63|TWO_SIDED|95.0|-0.4|0.7|||ANCOVA|||||0.7|-0.4|0.630
82459838|NCT04663321|164621765|SUPERIORITY|Difference in LS Means|LS Mean Difference|-0.2||||0.549|TWO_SIDED|95.0|-0.9|0.5|||ANCOVA|||||0.5|-0.9|0.549
82459839|NCT04663321|164621766|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.4||||0.062|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||||0.8|-0.0|0.062
82459840|NCT04663321|164621766|SUPERIORITY|Difference in LS Means|LS Mean Difference|0.0||||0.878|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||||0.5|-0.5|0.878
82459841|NCT04862065|164621785|SUPERIORITY||Clinical Specificity (%)|99.96|||||TWO_SIDED|95.0|99.92|99.99|||Binomial Distribution|Specificity sample size is a minimum of 15,000 donors.||||99.99|99.92|
82459842|NCT04862065|164621786|OTHER|95% Confidence Interval provided|Point Estimate|100.0|||||TWO_SIDED|95.0|99.09|100.0|||Sensitivity|||||100.00|99.09|
82459843|NCT04862065|164621787|OTHER|95% Confidence Interval provided.|Point Estimate|100.0|||||TWO_SIDED|95.0|94.87|100.0|||Sensitivity|||Sensitivity||100.00|94.87|
82578272|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.16||0.026|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|0.0|0.0260
82459844|NCT00718510|164621795|OTHER||||||<|0.05||||||General Psychopathology Subscale Score|ANOVA|F(1,11)=5.03||Null hypothesis is that there was no difference in change of PANSS between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time). A sample size of 14 patients was needed to give 90% power to detect a 4 point difference on the PANSS. This included a drop-out rate of about 10%.||||<0.05
82459845|NCT00718510|164621796|OTHER|||||||0.46|||||||ANOVA|||Null hypothesis is that there was no difference in change of CGI ratings between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time).||||0.46
82459846|NCT00718510|164621797|OTHER|||||||0.55|||||||ANOVA|||Null hypothesis is that there was no difference in change of CDSS ratings between L-arginine and Placebo. A two-factor ANOVA was used across all subjects with the within-subject factor being the treatment phase (L-arginine first/Placebo second or Placebo first/L-arginine second) and the between-subject factor being the day of treatment (time).||||0.55
82459847|NCT02795117|164621798|EQUIVALENCE|provides 85% power of success|equivalence ratio|96.4|||||TWO_SIDED|90.0|91.0|105.4||No p-value was calculated for bioequivalence, only a T/R ratio and 90% confidence interval|ANOVA|||||105.4|91.0|
82459848|NCT02795117|164621799|EQUIVALENCE|provides 85% power of success|Equivalence difference|-6.48|||||TWO_SIDED|90.0|-18.31|1.85|||Wald's method|||||1.85|-18.31|
82459849|NCT02653326|164621800|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
82459850|NCT02653326|164621801|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||||||0.32
82459851|NCT00702468|164621815|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.335||||0.013|TWO_SIDED|90.0|0.162|0.691|||Chi-squared|||||0.691|0.162|0.013
82459852|NCT00702468|164621816|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.21||||0.72|TWO_SIDED|90.0|-1.22|0.79|||ANCOVA||Negative difference indicates the comparison is in favour of Sativex|||0.79|-1.22|0.720
82578273|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0002|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|0.0002
82459853|NCT00702468|164621817|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.53||||0.86|TWO_SIDED|90.0|-4.68|5.74|||ANCOVA|||||5.74|-4.68|0.86
82459854|NCT00702468|164621819|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.78||||0.81|TWO_SIDED|90.0|-14.52|10.96|||ANCOVA||Negative difference indicates the comparison is in favour of Sativex|It is important to emphasise that only four placebo subjects were included in the analysis and 11 of the Sativex subjects - this sample size is too small for a meaningful comparison between treatments. The reason for not including some of the data in this analysis is that a number of the subjects who withdrew early from the study restarted their own Sativex before the assessment was done.||10.96|-14.52|0.81
82459855|NCT00702468|164621820|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.64||||0.271|TWO_SIDED|90.0|-1.6|0.33|||ANCOVA||A negative difference indicates the comparison is in favour of Sativex|||0.33|-1.60|0.271
82459856|NCT00702468|164621821|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.562||||0.017|TWO_SIDED|90.0|1.585|13.997|||Regression, Logistic|||||13.997|1.585|0.017
82459857|NCT00702468|164621822|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|18.55||||0.0011|TWO_SIDED|90.0|3.942|118.773|||Regression, Logistic|||||118.773|3.942|0.0011
82578274|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0597|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0597
82459858|NCT00702468|164621823|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.444||||0.1151|TWO_SIDED|90.0|0.948|13.718|||Regression, Logistic|||||13.718|0.948|0.1151
82459859|NCT00867165|164621831|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-26.74|||<|0.001|TWO_SIDED|95.0|-30.8|-22.69|||ANCOVA|||||-22.69|-30.80|<0.001
82459860|NCT00867165|164621832|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.92|||<|0.001|TWO_SIDED|95.0|-24.2|-17.65|||ANCOVA|||||-17.65|-24.20|<0.001
82459861|NCT00867165|164621833|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.24|||<|0.001|TWO_SIDED|95.0|-24.02|-16.45|||ANCOVA|||||-16.45|-24.02|<0.001
82459862|NCT00867165|164621834|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|0.7||||0.807|TWO_SIDED|95.0|-4.97|6.36|||ANCOVA|||||6.36|-4.97|0.807
82459863|NCT00867165|164621835|SUPERIORITY_OR_OTHER_LEGACY||Differrence in least-squares means|-25.75|||<|0.001|TWO_SIDED|95.0|-29.59|-21.91|||ANCOVA|||||-21.91|-29.59|<0.001
82459864|NCT00867165|164621836|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-14.68||||0.021|TWO_SIDED|95.0|-27.35|-2.0|||Constrained longitudinal data analysis|||||-2.00|-27.35|0.021
82459865|NCT00867165|164621837|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.97|||<|0.001|TWO_SIDED|95.0|-28.95|-20.99|||ANCOVA|||||-20.99|-28.95|<0.001
82459866|NCT00867165|164621838|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-square means|-23.94|||<|0.001|TWO_SIDED|95.0|-27.49|-20.39|||ANCOVA|||||-20.39|-27.49|<0.001
82459867|NCT00867165|164621839|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-27.71|||<|0.001|TWO_SIDED|95.0|-31.7|-23.73|||ANCOVA|||||-23.73|-31.70|<0.001
82459868|NCT00867165|164621840|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.09|||<|0.001|TWO_SIDED|95.0|-23.3|-16.89|||ANCOVA|||||-16.89|-23.30|<0.001
82459869|NCT00867165|164621841|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.27|||<|0.001|TWO_SIDED|95.0|-23.39|-17.15|||ANCOVA|||||-17.15|-23.39|<0.001
82459870|NCT00867165|164621842|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-21.37|||<|0.001|TWO_SIDED|95.0|-24.67|-18.08|||ANCOVA|||||-18.08|-24.67|<0.001
82459871|NCT00867165|164621843|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-0.95||||0.733|TWO_SIDED|95.0|-6.46|4.55|||ANCOVA|||||4.55|-6.46|0.733
82459872|NCT00867165|164621844|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.53||||0.863|TWO_SIDED|95.0|-5.59|6.66|||ANCOVA|||||6.66|-5.59|0.863
82459873|NCT00867165|164621845|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|1.92||||0.501|TWO_SIDED|95.0|-3.71|7.56|||ANCOVA|||||7.56|-3.71|0.501
82459874|NCT00867165|164621846|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.18|||<|0.001|TWO_SIDED|95.0|-27.78|-20.58|||ANCOVA|||||-20.58|-27.78|<0.001
82459875|NCT00867165|164621847|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.61|||<|0.001|TWO_SIDED|95.0|-28.06|-21.16|||ANCOVA|||||-21.16|-28.06|<0.001
82459876|NCT00867165|164621848|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-26.55|||<|0.001|TWO_SIDED|95.0|-30.35|-22.75|||ANCOVA|||||-22.75|-30.35|<0.001
82459877|NCT00867165|164621849|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-9.73||||0.137|TWO_SIDED|95.0|-22.73|3.27|||Constrained longitudinal data analysis|||||3.27|-22.73|0.137
82459878|NCT00867165|164621850|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-15.19||||0.005|TWO_SIDED|95.0|-26.05|-4.34|||Constrained longitudinal data analysis|||||-4.34|-26.05|0.005
82459879|NCT00867165|164621851|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-8.61||||0.149|TWO_SIDED|95.0|-20.44|3.23|||Constrained longitudinal data analysis|||||3.23|-20.44|0.149
82459880|NCT00867165|164621852|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-1.91||||0.373|TWO_SIDED|95.0|-6.15|2.32|||ANCOVA|||||2.32|-6.15|0.373
82459881|NCT00867165|164621853|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|-19.76|||<|0.001|TWO_SIDED|95.0|-24.7|-14.82|||ANCOVA|||||-14.82|-24.70|<0.001
82459882|NCT00867165|164621854|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-20.83|||<|0.001|TWO_SIDED|95.0|-25.59|-16.07|||ANCOVA|||||-16.07|-25.59|<0.001
82459883|NCT00867165|164621855|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-23.48|||<|0.001|TWO_SIDED|95.0|-29.0|-17.97|||ANCOVA|||||-17.97|-29.00|<0.001
82459884|NCT00867165|164621856|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-22.29|||<|0.001|TWO_SIDED|95.0|-27.25|-17.34|||ANCOVA|||||-17.34|-27.25|<0.001
82459885|NCT00867165|164621857|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-24.5|||<|0.001|TWO_SIDED|95.0|-29.88|-19.12|||ANCOVA|||||-19.12|-29.88|<0.001
82459886|NCT00867165|164621858|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-25.15|||<|0.001|TWO_SIDED|95.0|-30.69|-19.62|||ANCOVA|||||-19.62|-30.69|<0.001
82459887|NCT00867165|164621859|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-29.31|||<|0.001|TWO_SIDED|95.0|-35.71|-22.91|||ANCOVA|||||-22.91|-35.71|<0.001
82459888|NCT00867165|164621860|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-28.35|||<|0.001|TWO_SIDED|95.0|-34.41|-22.29|||ANCOVA|||||-22.29|-34.41|<0.001
82459889|NCT00867165|164621861|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-19.28|||<|0.001|TWO_SIDED|95.0|-23.87|-14.7|||ANCOVA|||||-14.70|-23.87|<0.001
82459890|NCT00867165|164621862|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-46.11||||0.116|TWO_SIDED|95.0|-108.14|15.92|||Constrained longitudinal data analysis|||||15.92|-108.14|0.116
82459891|NCT00867165|164621863|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|17.27||||0.382|TWO_SIDED|95.0|-20.46|55.0|||Constrained longitudinal data analysis|||||55.00|-20.46|0.382
82459892|NCT00867165|164621864|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-49.61|||<|0.001|TWO_SIDED|95.0|-55.36|-43.87|||ANCOVA|||||-43.87|-55.36|<0.001
82459893|NCT00867165|164621865|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-58.52|||<|0.001|TWO_SIDED|95.0|-63.67|-53.38|||ANCOVA|||||-53.38|-63.67|<0.001
82459894|NCT00867165|164621866|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-61.02|||<|0.001|TWO_SIDED|95.0|-67.51|-54.53|||ANCOVA|||||-54.53|-67.51|<0.001
82459895|NCT00867165|164621867|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-62.74||||0.001|TWO_SIDED|95.0|-73.22|-52.26|||ANCOVA|||||-52.26|-73.22|0.001
82459896|NCT00867165|164621868|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-49.48|||<|0.001|TWO_SIDED|95.0|-54.83|-44.14|||ANCOVA|||||-44.14|-54.83|<0.001
82459897|NCT00867165|164621869|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-57.99|||<|0.001|TWO_SIDED|95.0|-62.87|-53.11|||ANCOVA|||||-53.11|-62.87|<0.001
82459898|NCT00867165|164621870|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-62.6|||<|0.001|TWO_SIDED|95.0|-68.54|-56.66|||ANCOVA|||||-56.66|-68.54|<0.001
82459899|NCT00867165|164621871|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-64.67|||<|0.001|TWO_SIDED|95.0|-74.11|-55.23|||ANCOVA|||||-55.23|-74.11|<0.001
82459900|NCT00867165|164621872|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-18.35|||<|0.001|TWO_SIDED|95.0|-24.7|-11.99|||ANCOVA|||||-11.99|-24.70|<0.001
82459901|NCT00867165|164621873|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-25.61|||<|0.001|TWO_SIDED|95.0|-31.2|-20.02|||ANCOVA|||||-20.02|-31.20|<0.001
82459902|NCT00867165|164621874|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-28.74|||<|0.001|TWO_SIDED|95.0|-34.89|-22.59|||ANCOVA|||||-22.59|-34.89|<0.001
82459903|NCT00867165|164621875|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|-32.14|||<|0.001|TWO_SIDED|95.0|-40.38|-23.9|||ANCOVA|||||-23.90|-40.38|<0.001
82459904|NCT00867165|164621876|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|20.01||||0.001|TWO_SIDED|95.0|8.1|31.91|||ANCOVA|||||31.91|8.10|0.001
82459905|NCT00867165|164621877|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|26.29|||<|0.001|TWO_SIDED|95.0|13.99|38.58|||ANCOVA|||||38.58|13.99|<0.001
82459906|NCT00867165|164621878|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|36.7|||<|0.001|TWO_SIDED|95.0|24.12|49.28|||ANCOVA|||||49.28|24.12|<0.001
82459907|NCT00867165|164621879|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|24.05|||<|0.001|TWO_SIDED|95.0|10.43|37.67|||ANCOVA|||||37.67|10.43|<0.001
82542280|NCT02709655|164784081|OTHER||Mean Difference (Final Values)|-2.09|STANDARD_ERROR_OF_MEAN|1.24||0.0937|TWO_SIDED|95.0|-4.54|0.36|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.36|-4.54|0.0937
82542281|NCT02709655|164784081|OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|1.44||0.2336|TWO_SIDED|95.0|-4.56|1.11|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||1.11|-4.56|0.2336
82459908|NCT04678115|164621880|OTHER|Power Calculation: Sample size was estimated based on the treatment condition (three-level factor) effect size on the spontaneous blink IPF measurements (0.55) after eight participants had completed the crossover using one-way analysis of variance power calculation. This led to a sample size of 12 participants with power of 0.80 and type II error of alpha 0.05. To account for possible attrition, 16 were enrolled, with 15 completing the crossover.|||||<|0.001||||||a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Linear mixed-effects regression was used to determine the effect of treatment condition on the spontaneous blink and resting state open IPF, with participant as random intercept. Covariates of age, gender, blink sequence, and crossover order were investigated alone, and significant (P \< 0.05) covariates were included in the final model, from which the estimated marginal means and their 95% confidence interval were reported. Hypothesis: MLP allows a more complete spontaneous blink.||||<0.001
82459909|NCT04678115|164621881|OTHER|||||||0.001|||||||Mixed Models Analysis|||Hypothesis was that both devices (MLP and KFTS) would open the eye equally well, and that both would be better than sham treatment.||||0.001
82459910|NCT04678115|164621882|OTHER|||||||0.001|||||||test of proportionality|||A test of proportionality was performed to determine the effect of the three treatments on the probability of the eyelid not fully closing.||||0.001
82459911|NCT04621448|164621887|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.048|TWO_SIDED|95.0|0.01|4.39|||Mixed Models Analysis||The mean difference estimate of 2.2 was confirmed. It is slightly different than the difference of the raw change values \[+.7 - (-1.7) = 2.4\] because it comes from the mixed effects model.|||4.39|0.01|0.048
82459912|NCT04621448|164621888|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.603|TWO_SIDED|95.0|-4.12|2.4|||Mixed Models Analysis|||||2.40|-4.12|0.603
82459913|NCT04621448|164621889|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.734|TWO_SIDED|95.0|-2.75|3.92|||Mixed Models Analysis|||||3.92|-2.75|0.734
82459914|NCT04621448|164621890|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.159|TWO_SIDED|95.0|-0.62|3.74|||Mixed Models Analysis|||||3.74|-0.62|0.159
82459915|NCT04621448|164621891|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.818|TWO_SIDED|95.0|-1.97|1.56|||Mixed Models Analysis|||||1.56|-1.97|0.818
82459916|NCT04621448|164621892|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.089|TWO_SIDED|95.0|-0.26|3.51|||Mixed Models Analysis|||||3.51|-0.26|0.089
82542282|NCT02709655|164784081|OTHER||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|1.44||0.0879|TWO_SIDED|95.0|-5.29|0.37|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.37|-5.29|0.0879
82459917|NCT04621448|164621893|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.631|TWO_SIDED|95.0|-0.96|1.58|||Mixed Models Analysis|||||1.58|-0.96|0.631
82459918|NCT04621448|164621894|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.484|TWO_SIDED|95.0|-0.71|1.49|||Mixed Models Analysis|||||1.49|-0.71|0.484
82459919|NCT04621448|164621895|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.81|TWO_SIDED|95.0|-2.36|3.01|||Mixed Models Analysis|||||3.01|-2.36|0.81
82459920|NCT04621448|164621896|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.384|TWO_SIDED|95.0|-0.77|2.0|||Mixed Models Analysis|||||2.00|-0.77|0.384
82459921|NCT04621448|164621897|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.509|TWO_SIDED|95.0|-1.65|0.81|||Mixed Models Analysis|||||0.81|-1.65|0.509
82459922|NCT04621448|164621898|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.021|TWO_SIDED|95.0|0.24|3.01|||Mixed Models Analysis|||||3.01|0.24|0.021
82459923|NCT04621448|164621899|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.156|TWO_SIDED|95.0|-1.94|0.31|||Mixed Models Analysis|||||0.31|-1.94|0.156
82459924|NCT04621448|164621900|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.582|TWO_SIDED|95.0|-0.62|1.1|||Mixed Models Analysis|||||1.10|-0.62|0.582
82459925|NCT04621448|164621901|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.271|TWO_SIDED|95.0|-1.21|0.34|||Mixed Models Analysis|||||0.34|-1.21|0.271
82459926|NCT04621448|164621902|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.834|TWO_SIDED|95.0|-1.52|1.88|||Mixed Models Analysis|||||1.88|-1.52|0.834
82459927|NCT04621448|164621903|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.529|TWO_SIDED|95.0|-1.62|3.15|||Mixed Models Analysis|||||3.15|-1.62|0.529
82459928|NCT04621448|164621904|SUPERIORITY|||||||0.377|||||||Poisson regression|||||||0.377
82459929|NCT04621448|164621905|SUPERIORITY|||||||0.043|||||||Poisson regression|||||||0.043
82459930|NCT03550378|164621911|SUPERIORITY||LS Mean Difference|-30.384|||<|0.001|TWO_SIDED|90.0|-41.27|-19.498|||ANCOVA|||||-19.498|-41.270|<0.001
82459931|NCT03040141|164621952|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|1.9||||0.181|TWO_SIDED|95.0|1.03|13.55|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||13.55|1.03|0.181
82459932|NCT03040141|164621952|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|3.3||||0.073|TWO_SIDED|95.0|0.9|12.13|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||12.13|0.90|0.073
82459933|NCT03040141|164621952|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|3.5||||0.037|TWO_SIDED|95.0|1.08|11.48|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||11.48|1.08|0.037
82459934|NCT03040141|164621952|SUPERIORITY|The null hypothesis was defined as no treatment difference.|Odds Ratio (OR)|1.1||||0.814|TWO_SIDED|95.0|0.4|3.25|||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||3.25|0.40|0.814
82459935|NCT03040141|164621954|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.748||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level. The goal will be used to assess the strength of evidence to select the endpoints for a Phase 3 trial.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.748
82459936|NCT03040141|164621954|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.94||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 low-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference||||0.940
82459937|NCT03040141|164621954|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.902||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The total VIS410 high-dose group (high-dose + low-dose) was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.902
82459938|NCT03040141|164621954|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.283||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the VIS410 low-dose group. The null hypothesis was defined as no treatment difference.||||0.283
82459939|NCT03040141|164621955|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.919||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.919
82459940|NCT03040141|164621955|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.9||||||p-value is not adjusted for multiple comparisons, which were performed at the 0.05 significance level.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 low-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.900
82459941|NCT03040141|164621955|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.99||||||p-value is not adjusted for multiple comparisons|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level||The combined VIS410 high- and low-dose groups was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.990
82459942|NCT03040141|164621955|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.521||||||The p-value is not adjusted for multiple comparisons.|Chi-squared|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||The VIS410 high-dose group was compared against the VIS410 low-dose group. The null hypothesis was defined as no treatment difference.||||0.521
82459943|NCT03040141|164621956|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.36||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|ANOVA|||The VIS410 high-dose group was compared against the placebo group. The null hypothesis was defined as no treatment difference.||||0.360
82459944|NCT03040141|164621957|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.735|||||||ANOVA|||||||0.735
82459945|NCT03040141|164621957|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.259|||||||ANOVA|||||||0.259
82459946|NCT03040141|164621957|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.644||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.644
82459947|NCT03040141|164621957|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.146|||||||ANOVA|||||||0.146
82459948|NCT03040141|164621958|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.624||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.624
82459949|NCT03040141|164621958|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.399||||||The p-value is not adjusted for multiple comparisons. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.|ANOVA|||||||0.399
82459950|NCT03040141|164621958|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.837|||||||ANOVA|||||||0.837
82578275|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1198|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||0.1|-0.7|0.1198
82459951|NCT03040141|164621958|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.183|||||||ANOVA|||||||0.183
82459952|NCT03040141|164621959|SUPERIORITY|The null hypothesis was defined as no treatment difference||||||0.88|||||||ANOVA|||||||0.880
82459953|NCT03040141|164621959|SUPERIORITY|The null hypothesis was defined as no treatment difference||||||0.778|||||||ANOVA|||||||0.778
82459954|NCT03040141|164621959|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.94|||||||ANOVA|||||||0.940
82459955|NCT03040141|164621959|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.662|||||||ANOVA|||||||0.662
82459956|NCT03040141|164621960|OTHER|||||||0.64|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.640
82459957|NCT03040141|164621960|OTHER|||||||0.775|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.775
82459958|NCT03040141|164621960|OTHER|||||||0.701|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.701
82459959|NCT03040141|164621960|OTHER|||||||0.638|||||||Chi-squared|A Wald Chi-square statistic from a Cox proportional model was used for comparisons of treatment groups||||||0.638
82459960|NCT03040141|164621961|OTHER|||||||0.127|||||||Regression, Logistic|||||||0.127
82459961|NCT03040141|164621961|OTHER|||||||1|||||||Regression, Logistic|||||||1.000
82459962|NCT03040141|164621961|OTHER|||||||0.458|||||||Regression, Logistic|||||||0.458
82459963|NCT03040141|164621961|OTHER|||||||0.127|||||||Regression, Logistic|||||||0.127
82459964|NCT03040141|164621962|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.371|||||||ANOVA|||||||0.371
82459965|NCT03040141|164621962|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.735|||||||ANOVA|||||||0.735
82459966|NCT03040141|164621962|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.476|||||||ANOVA|||||||0.476
82542283|NCT02709655|164784081|OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.7||0.0531|TWO_SIDED|95.0|-6.65|0.04|||Mixed Models Analysis|||Analysis was performed using an REML-based MMRM approach with freely varying mean and covariance structure and with country, treatment (vortioxetine 10 mg/day, vortioxetine 20 mg/day, fluoxetine, and placebo), and Week as fixed factors and Baseline CDRS-R total score as a continuous covariate, the treatment-by-week interaction, and Baseline CDRS-R-by-Week interaction.||0.04|-6.65|0.0531
82459967|NCT03040141|164621962|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.581|||||||ANOVA|||||||0.581
82459968|NCT03040141|164621963|OTHER|||||||0.98|||||||Regression, Logistic|||||||0.980
82459969|NCT03040141|164621963|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
82459970|NCT03040141|164621963|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
82459971|NCT03040141|164621963|OTHER|||||||0.955|||||||Regression, Logistic|||||||0.955
82459972|NCT03040141|164621964|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.695|||||||ANOVA|||||||0.695
82459973|NCT03040141|164621964|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.542|||||||ANOVA|||||||0.542
82459974|NCT03040141|164621964|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.899|||||||ANOVA|||||||0.899
82542284|NCT03779048|164784104|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|0.11||||0.24|TWO_SIDED||||||Regression, Linear|Controls for postprandial increases in GLP-1 and gastric emptying (acetaminophen tests)||||||.24
82459975|NCT03040141|164621964|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.321|||||||ANOVA|||||||0.321
82459976|NCT03040141|164621965|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.663|||||||ANOVA|||||||0.663
82459977|NCT03040141|164621965|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.54|||||||ANOVA|||||||0.540
82459978|NCT03040141|164621965|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.918|||||||ANOVA|||||||0.918
82459979|NCT03040141|164621965|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.294|||||||ANOVA|||||||0.294
82459980|NCT03040141|164621967|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.25|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.250
82459981|NCT03040141|164621967|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.133|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.133
82459982|NCT03040141|164621967|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.177|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.177
82459983|NCT03040141|164621967|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.36|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.360
82459984|NCT03040141|164621968|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.636|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.636
82459985|NCT03040141|164621968|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.446|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.446
82459986|NCT03040141|164621968|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.53|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.530
82459987|NCT03040141|164621968|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.463|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.463
82459988|NCT03040141|164621969|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.152|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.152
82459989|NCT03040141|164621969|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.176|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.176
82459990|NCT03040141|164621969|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.157|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.157
82459991|NCT03040141|164621969|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.844|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||||||0.844
82459992|NCT03040141|164621970|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.531|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.531
82459993|NCT03040141|164621970|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.582|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.582
82459994|NCT03040141|164621970|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.55|||||||Chi-squared|Wald Chi-square statistic from a Cox proportional model is used for comparisons of treatment groups.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.550
82459995|NCT03040141|164621970|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.84|||||||Chi-squared|P-value determined based on Cox proportional hazards model Wald Chi-Square Statistic.||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.840
82459996|NCT03040141|164621971|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.3534|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.3534
82459997|NCT03040141|164621971|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.7839|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.7839
82459998|NCT03040141|164621971|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.4893|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.4893
82459999|NCT03040141|164621971|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.5101|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.5101
82460000|NCT03040141|164621972|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.5436|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.5436
82460001|NCT03040141|164621972|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.8215|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.8215
82578276|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.563|STANDARD_ERROR_OF_MEAN|0.1644||0.0006|TWO_SIDED|95.0|-0.885|-0.24|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||-0.240|-0.885|0.0006
82652394|NCT02637557|165019494|SUPERIORITY||LS Mean Difference|-0.199||||0.1706|TWO_SIDED|95.0|-0.485|0.086||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||Week 8||0.086|-0.485|0.1706
82460002|NCT03040141|164621972|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.6319|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.6319
82460003|NCT03040141|164621972|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.7011|||||||ANCOVA|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.7011
82460004|NCT03040141|164621973|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.478|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.478
82460005|NCT03040141|164621973|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.468|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.||||0.468
82460006|NCT03040141|164621973|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.412|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.412
82578277|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.261|STANDARD_ERROR_OF_MEAN|0.164||0.1118|TWO_SIDED|95.0|-0.583|0.061|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.061|-0.583|0.1118
82578278|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.142|STANDARD_ERROR_OF_MEAN|0.1646||0.387|TWO_SIDED|95.0|-0.465|0.18|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||0.180|-0.465|0.3870
82578279|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.302|STANDARD_ERROR_OF_MEAN|0.1642||0.0633|TWO_SIDED|95.0|-0.02|0.624|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.624|-0.020|0.0633
82460007|NCT03040141|164621973|SUPERIORITY|The null hypothesis was defined as no treatment difference.||||||0.982|||||||Regression, Logistic|||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons||||0.982
82460008|NCT04879628|164621991|SUPERIORITY||Rate ratio|0.21|||||TWO_SIDED|95.0|0.08|0.56||||||Negative binomial regression model adjusting for the categorical baseline GdE T1 lesion count (presence/absence) as covariate, treatment as factor, with offset equal to the log of the duration (in months) between the Week 12 MRI and previous MRI at Week 8.||0.56|0.08|
82460009|NCT04879628|164621991|SUPERIORITY||Rate ratio|0.11|||||TWO_SIDED|95.0|0.03|0.38||||||Negative binomial regression model adjusting for the categorical baseline GdE T1 lesion count (presence/absence) as covariate, treatment as factor, with offset equal to the log of the duration (in months) between the Week 12 MRI and previous MRI at Week 8.||0.38|0.03|
82460010|NCT02775916|164622000|SUPERIORITY||Mean Difference (Net)|-0.69|STANDARD_DEVIATION|1.332|||TWO_SIDED|95.0|-3.343|1.937||||||||1.937|-3.343|
82460011|NCT02775916|164622001|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|1.466|||TWO_SIDED|95.0|-2.52|3.55||||||||3.55|-2.52|
82460012|NCT02775916|164622002|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|3.119|||TWO_SIDED|95.0|-6.08|6.89||||||||6.89|-6.08|
82460013|NCT02775916|164622002|SUPERIORITY||Mean Difference (Net)|4.33|STANDARD_ERROR_OF_MEAN|4.615|||TWO_SIDED|95.0|-5.27|13.93||||||||13.93|-5.27|
82460014|NCT02775916|164622003|SUPERIORITY||Mean Difference (Net)|-6.55|STANDARD_ERROR_OF_MEAN|7.27|||TWO_SIDED|95.0|-21.76|8.66||||||||8.66|-21.76|
82460015|NCT02775916|164622004|SUPERIORITY||Mean Difference (Net)|-10.97|STANDARD_ERROR_OF_MEAN|9.626|||TWO_SIDED|95.0|-30.94|9.0||||||||9.00|-30.94|
82460016|NCT02775916|164622005|SUPERIORITY||Mean Difference (Net)|-7.69|STANDARD_ERROR_OF_MEAN|10.595|||TWO_SIDED|95.0|-29.75|14.37||||||||14.37|-29.75|
82460017|NCT00383552|164622007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82460018|NCT00383552|164622008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82460019|NCT00383552|164622010|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82460020|NCT00383552|164622011|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82460021|NCT00383552|164622012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073|||||||Longitudinal Model|||||||0.073
82460022|NCT00383552|164622013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015||||||BMI 25 to \<30|ANCOVA|||||||0.015
82460023|NCT00383552|164622013|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||BMI less than 25 and for BMI 30 or more|ANCOVA|||||||<0.001
82578280|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.42|STANDARD_ERROR_OF_MEAN|0.1647||0.0108|TWO_SIDED|95.0|0.097|0.744|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.744|0.097|0.0108
82460024|NCT01600326|164622019|OTHER|Pair-wise comparison at Time point 1 compared to baseline|||||<|0.0001||||||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison|Tukey|See comments on P value||||||<0.0001
82460025|NCT01600326|164622019|SUPERIORITY||||||<|0.0001||||||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison|Tukey|||One way repeated measure analysis of variance for outcome of total pain score over time adjusted for treatment with post hoc Tukey correction to adjust for multiple comparison||||<0.0001
82460026|NCT01600326|164622020|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>.99
82460027|NCT02413918|164622028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|STANDARD_DEVIATION|20.0|<|0.0094|TWO_SIDED|||||p value is not adjusted for multiple comparisons (see above). A priori threshold for significance was p\<0.05.|t-test, 2 sided|||BISS Outcomes: Mean changes in depression and mania for study completers were measured. The a priori hypothesis was a mean change of 50%.||||<0.0094
82460028|NCT02413918|164622028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|STANDARD_DEVIATION|10.1|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||BISS Outcomes: Mean changes in mania for study completers were measured. The a priori hypothesis was a mean change of 50%.||||<0.0001
82460029|NCT04024891|164622041|SUPERIORITY||Mean Difference (Net)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.7|||Mixed Models Analysis|||||-0.7|-1.3|<0.0001
82460030|NCT01693029|164622048|EQUIVALENCE|"Equivalence margin (-0.5, 0.5) g/dL. Results from ANCOVA with factors treatment group and covariates mean baseline Hb and mean weekly dose during the evaluation period (Week 21-28)"|Mean Difference (Final Values)|-0.0926|||||TWO_SIDED|90.0|-0.2264|0.0413|||||||95% confidence interval for the difference is (-0.2522, 0.0670).|0.0413|-0.2264|
82460031|NCT00308139|164622052|NON_INFERIORITY_OR_EQUIVALENCE|The choice of a 0.4% noninferiority margin was resulted from the considerations of expected clinical benefit of BYETTA in this study based on clinical data evaluating exenatide LAR and BYETTA, regulatory guidance, published literature, and statistical considerations.|Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.107||0.0023|TWO_SIDED|95.0|-0.54|-0.12|||ANOVA|Analysis of variance (ANOVA) model includes treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors.||Superiority of exenatide long-acting release (LAR) once weekly to BYETTA if the upper limit of the 2-sided 95% confidence interval (CI) for treatment difference (LAR minus BYETTA) is less than 0; non-inferiority if this upper limit is less than 0.4%. Power:Assuming 20% dropout rate with 246 subjects will complete the study. This sample size would provide 90% power for non-inferiority test with assumption of greater reduction (0.1%) in LAR and a common standard deviation of 1.2%.||-0.12|-0.54|0.0023
82460032|NCT00308139|164622055|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target value of \<7% at Week 30 were compared between treatments using a Cochran-Mantel-Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.0003
82460033|NCT00308139|164622057|SUPERIORITY_OR_OTHER|||||||0.2042|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target value of \<=6.5% at Week 30 were compared between treatments using CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.2042
82460034|NCT00308139|164622059|SUPERIORITY_OR_OTHER|||||||0.1513|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target values of \<=6.0% at Week 30 were compared between treatments using CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and concomitant SU use at screening served as the stratification factors. Null hypothesis: no difference between treatments in percentage of subjects achieving HbA1c target. Power: based on the primary measurement.||||0.1513
82460035|NCT00308139|164622061|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|30.08|STANDARD_ERROR_OF_MEAN|11.458||0.0124|TWO_SIDED|95.0|6.88|53.28|||ANCOVA|||Analysis: Change in 2h postprandial glucose from baseline (Day -3) to Week 14 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the 2h postprandial glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline 2h postprandial glucose.||53.28|6.88|0.0124
82460036|NCT00308139|164622063|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.612||0.8916|TWO_SIDED|95.0|-1.29|1.12|||ANCOVA|||Analysis: Change in body weight from baseline (Day -3) to Week 30 was analyzed using an analysis of covariance (ANCOVA) model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the body weight as a covariate. Null hypothesis: no difference between treatments in change from baseline body weight. Power: based on the primary measurement.||1.12|-1.29|0.8916
82460037|NCT00308139|164622065|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-24.4|-9.4|||ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the fasting plasma glucose as a covariate. Null hypothesis: no difference between treatments in change from baseline fasting plasma glucose. Power: based on the primary measurement.||-9.4|-24.4|<.0001
82460038|NCT00308139|164622069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|3.04||0.0077|TWO_SIDED|95.0|-14.1|-2.2|||ANCOVA|||Analysis: Change in total cholesterol from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the total cholesterol as a covariate. Null hypothesis: no difference between treatments in change from baseline total cholesterol. Power: based on the primary measurement.||-2.2|-14.1|0.0077
82460039|NCT00308139|164622071|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.74||0.5613|TWO_SIDED|95.0|-1.0|1.9|||ANCOVA|||Analysis: Change in HDL-C from baseline (Day -3) to Week 30 was analyzed using an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the HDL as a covariate. Null hypothesis: no difference between treatments in change from baseline HDL. Power: based on the primary measurement.||1.9|-1.0|0.5613
82542285|NCT03779048|164784105|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|-0.09||||0.34|TWO_SIDED||||||Regression, Linear|Controls for baseline postprandial satiety and gastric emptying (acetaminophen test)||||||.34
82542286|NCT03779048|164784106|OTHER|Regression using baseline scores to predict 4-week weight loss during the behavioral treatment run-in. Primary prediction analysis presented below was pre-specified to evaluate together postprandial satiety, postprandial increases in GLP-1 and gastric emptying (acetaminophen tests) and includes only the 125 participants from whom baseline blood samples could be obtained.|Standardized Beta coefficient|0.03||||0.78|TWO_SIDED||||||Regression, Linear|Controls for baseline postprandial satiety and postprandial change in GLP-1||||||.78
82542287|NCT03779048|164784107|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.0||0.003|TWO_SIDED|95.0|1.1|5.1|||Mixed Models Analysis|||||5.1|1.1|.003
82542288|NCT03779048|164784108|OTHER|Correlation between baseline postprandial hunger AUC and 4-week percent weight loss.|r|-0.1||||0.23|TWO_SIDED||||||Regression, Linear|||||||.23
82542289|NCT03779048|164784109|OTHER|Correlation between baseline high energy density food reinforcer points earned and 4-week percent weight loss.|r|-0.1||||0.23|TWO_SIDED||||||Regression, Linear|||||||.23
82578281|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|7.5|STANDARD_ERROR_OF_MEAN|2.41||0.002|TWO_SIDED|95.0|2.7|12.2|||ANCOVA|||Relief by treatment of pain: Placebo vs Pregabalin 150 mg BID||12.2|2.7|0.0020
82652395|NCT02637557|165019495|SUPERIORITY||LS Mean Difference|-0.02||||0.7689|TWO_SIDED|95.0|-0.155|0.115||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.115|-0.155|0.7689
82460040|NCT00308139|164622074|SUPERIORITY_OR_OTHER||Geometic Least Squares Mean Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.042||0.2915|TWO_SIDED|95.0|0.87|1.04|||ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 30 to baseline (Day -3), expressed as the ratio, was analyzed by an ANCOVA model including treatment, baseline HbA1c stratum (\<9% or \>=9%), and concomitant SU use at screening as factors, and baseline value of the triglycerides as a covariate. Null hypothesis: no difference between treatments in change from baseline triglycerides. Power: based on the primary measurement.||1.04|0.87|0.2915
82460041|NCT01173016|164622117|OTHER|||||||0.038|||||||Regression, Logistic|||Impact of anti-laronidase antibody status on the change in 6MWT outcome was tested||||0.038
82460042|NCT00141453|164622118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.79||95.0|0.75|1.24|||Regression, Cox|The covariates were urinary albumin:creatinine ratio and serum creatinine at baseline \& regions (Japan/Hong Kong) for the renal composite event rate.||We planned to collect 400 patients to detect 35% risk reduction for renal outcome in olmesartan group with 80% power at 2-sided .05 alpha level. The Cox regression model was applied to estimate the hazard ratios (HR)between treatment groups with 95% confidence intervals for the renal and cardiovascular composite event rate.||1.24|0.75|0.79
82460043|NCT00141453|164622119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.039||95.0|0.43|0.98|||Regression, Cox|Covariates baseline urinary albumin:creatinine ratio, age and history of cardiovascular disease for cardiovascular composite event rate.||||0.98|0.43|0.039
82460044|NCT02648204|164622145|NON_INFERIORITY|Non-Inferiority margin: 0.4|Treatment difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.55|-0.25|||Mixed Models Analysis|||||-0.25|-0.55|<0.0001
82460045|NCT02648204|164622145|SUPERIORITY||Treatment difference|-0.4|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.55|-0.25|||Mixed Models Analysis|||||-0.25|-0.55|<0.0001
82460046|NCT02648204|164622145|NON_INFERIORITY|Non-Inferiority margin: 0.04|Treatment difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.57|-0.25|||Mixed Models Analysis|||||-0.25|-0.57|<0.0001
82460047|NCT02648204|164622145|SUPERIORITY||Treatment difference|-0.41|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.57|-0.25|||Mixed Models Analysis|||||-0.25|-0.57|<0.0001
82460048|NCT02648204|164622146|SUPERIORITY||Treatment difference|-2.26|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-3.02|-1.51|||Mixed Models Analysis|||||-1.51|-3.02|<0.0001
82460049|NCT02648204|164622146|SUPERIORITY||Treatment difference|-3.55|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-4.32|-2.78|||Mixed Models Analysis|||||-2.78|-4.32|<0.0001
82460050|NCT05757648|164622176|SUPERIORITY|||||||0.005|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.005
82460051|NCT05757648|164622177|SUPERIORITY|||||||0.775|||||||Mixed Models Analysis|||||||0.775
82460052|NCT05757648|164622178|SUPERIORITY|||||||0.682|||||||Mixed Models Analysis|||||||0.682
82460053|NCT05108246|164622201|SUPERIORITY|||||||0.001||||||P-value is calculated.|Wilcoxon (Mann-Whitney)|||Change in balance was assessed by calculating a change score between pre-test and end point scores for balance. Change scores were then compared using Mann-Whitney U test and reported as Median (Interquartile range).||||.001
82460054|NCT05108246|164622201|SUPERIORITY|||||||0.003||||||P-value is calculated.|Wilcoxon (Mann-Whitney)|||Change in balance was assessed by calculating a change score between pre-test and end point scores for balance. Change scores were then compared using Mann-Whitney U test and reported as Median (Interquartile range).||||.003
82460055|NCT02201524|164622213|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-5.08|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|90.0|-9.15|-1.01||||||PF-04965842 200 mg vs Placebo: Longitudinal analysis of covariance (LANCOVA) model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.01|-9.15|
82460056|NCT02201524|164622213|SUPERIORITY_OR_OTHER||LS mean difference|-5.61|STANDARD_ERROR_OF_MEAN|2.375|||TWO_SIDED|90.0|-9.61|-1.62||||||PF-04965842 400 mg vs Placebo: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.62|-9.61|
82542290|NCT03779048|164784110|OTHER|Regression results using baseline AUC for delay discounting to predict 4-week percent weight loss, controlling for participant age.|r2 change|0.033||||0.033|TWO_SIDED||||||Regression, Linear|||||||.033
82542291|NCT03779048|164784111|OTHER|Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.|r|0.17||||0.04|TWO_SIDED|||||Correlation to Implicit wanting of High Fat Savory.|Regression, Linear|||||||.04
82460057|NCT02201524|164622213|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|STANDARD_ERROR_OF_MEAN|2.506|||TWO_SIDED|90.0|-14.19|-5.77||||||PF-04965842 200 mg vs Placebo: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.77|-14.19|
82460058|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-9.32|STANDARD_ERROR_OF_MEAN|8.291|||TWO_SIDED|90.0|-23.19|4.56||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||4.56|-23.19|
82460059|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-11.19|STANDARD_ERROR_OF_MEAN|8.177|||TWO_SIDED|90.0|-24.87|2.5||||||PF-04965842 400 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.50|-24.87|
82460060|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-19.22|STANDARD_ERROR_OF_MEAN|8.504|||TWO_SIDED|90.0|-33.45|-4.99||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-4.99|-33.45|
82460061|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|10.387|||TWO_SIDED|90.0|-21.71|13.11||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||13.11|-21.71|
82460062|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-18.04|STANDARD_ERROR_OF_MEAN|10.273|||TWO_SIDED|90.0|-35.25|-0.82||||||PF-04965842 400 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.82|-35.25|
82460063|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-27.07|STANDARD_ERROR_OF_MEAN|10.646|||TWO_SIDED|90.0|-44.9|-9.23||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-9.23|-44.90|
82460064|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-10.07|STANDARD_ERROR_OF_MEAN|11.013|||TWO_SIDED|90.0|-28.53|8.39||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||8.39|-28.53|
82460065|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-29.23|STANDARD_ERROR_OF_MEAN|10.793|||TWO_SIDED|90.0|-47.33|-11.13||||||PF-04965842 400 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-11.13|-47.33|
82460066|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-49.99|STANDARD_ERROR_OF_MEAN|11.299|||TWO_SIDED|90.0|-68.92|-31.05||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-31.05|-68.92|
82460067|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-24.25|STANDARD_ERROR_OF_MEAN|11.33|||TWO_SIDED|90.0|-43.26|-5.24||||||PF-04965842 200 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.24|-43.26|
82460068|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-27.47|STANDARD_ERROR_OF_MEAN|11.155|||TWO_SIDED|90.0|-46.18|-8.75||||||PF-04965842 400 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-8.75|-46.18|
82460069|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-52.63|STANDARD_ERROR_OF_MEAN|11.697|||TWO_SIDED|90.0|-72.24|-33.02||||||PF-04965842 200 mg vs Placebo at Week 4: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-33.02|-72.24|
82460070|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-17.98|STANDARD_ERROR_OF_MEAN|10.605|||TWO_SIDED|90.0|-35.8|-0.15|||LANCOVA|||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.15|-35.80|
82460071|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-14.78|STANDARD_ERROR_OF_MEAN|10.513|||TWO_SIDED|90.0|-32.44|2.88||||||PF-04965842 400 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.88|-32.44|
82460072|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-47.94|STANDARD_ERROR_OF_MEAN|11.125|||TWO_SIDED|90.0|-66.61|-29.27||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-29.27|-66.61|
82542292|NCT03779048|164784111|OTHER|Correlation to Implicit wanting of Low Fat Savory.|r|-0.03||||0.72|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included taughter in the same analysis, so separate correlations were conducted.||||.72
82542293|NCT03779048|164784111|OTHER|Correlation to Implicit wanting of High Fat Sweet.|r|0.01||||0.94|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.||||.94
82542294|NCT03779048|164784111|OTHER|Correlation to Implicit wanting of Low Fat Sweet.|r|-0.15||||0.09|TWO_SIDED||||||Regression, Linear|||Correlation between baseline implicit wanting and 4-week percent weight loss. Because categories are scored relative to each other they cannot be included together in the same analysis, so separate correlations were conducted.||||.09
82542295|NCT03779048|164784112|OTHER|Correlation between baseline fasting active ghrelin and 4-week percent weight loss.|r|0.03||||0.73|TWO_SIDED||||||Regression, Linear|||||||.73
82542296|NCT03779048|164784113|OTHER||r|-0.1||||0.25|TWO_SIDED||||||Regression, Linear|||Correlation between baseline fasting leptin and 4-week percent weight loss.||||.25
82460073|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean|-21.75|STANDARD_ERROR_OF_MEAN|11.459|||TWO_SIDED|90.0|-41.0|-2.49||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.49|-41.00|
82460074|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-17.75|STANDARD_ERROR_OF_MEAN|11.416|||TWO_SIDED|90.0|-36.92|1.42||||||PF-04965842 400 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.42|-36.92|
82460075|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-35.88|STANDARD_ERROR_OF_MEAN|11.893|||TWO_SIDED|90.0|-55.85|-15.9||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-15.90|-55.85|
82460076|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-10.75|STANDARD_ERROR_OF_MEAN|12.985|||TWO_SIDED|90.0|-32.57|11.07||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||11.07|-32.57|
82460077|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-13.03|STANDARD_ERROR_OF_MEAN|12.902|||TWO_SIDED|90.0|-34.71|8.64||||||PF-04965842 400 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||8.64|-34.71|
82460078|NCT02201524|164622214|SUPERIORITY_OR_OTHER||LS mean difference|-34.46|STANDARD_ERROR_OF_MEAN|13.69|||TWO_SIDED|90.0|-57.44|-11.48||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-11.48|-57.44|
82460079|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-2.01|STANDARD_ERROR_OF_MEAN|1.626|||TWO_SIDED|90.0|-4.73|0.72||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.72|-4.73|
82460080|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.603|||TWO_SIDED|90.0|-4.99|0.38||||||PF-04965842 400 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.38|-4.99|
82460081|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-3.65|STANDARD_ERROR_OF_MEAN|1.668|||TWO_SIDED|90.0|-6.45|-0.86||||||PF-04965842 200 mg vs Placebo at Week 1: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.86|-6.45|
82460082|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|2.032|||TWO_SIDED|90.0|-4.49|2.32||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||2.32|-4.49|
82460083|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-3.86|STANDARD_ERROR_OF_MEAN|2.011|||TWO_SIDED|90.0|-7.23|-0.49||||||PF-04965842 400 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.49|-7.23|
82460084|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-5.16|STANDARD_ERROR_OF_MEAN|2.084|||TWO_SIDED|90.0|-8.65|-1.67||||||PF-04965842 200 mg vs Placebo at Week 2: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.67|-8.65|
82460085|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-2.34|STANDARD_ERROR_OF_MEAN|2.224|||TWO_SIDED|90.0|-6.07|1.39||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.39|-6.07|
82460086|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-6.12|STANDARD_ERROR_OF_MEAN|2.177|||TWO_SIDED|90.0|-9.78|-2.47||||||PF-04965842 400 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.47|-9.78|
82460087|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-9.39|STANDARD_ERROR_OF_MEAN|2.286|||TWO_SIDED|90.0|-13.22|-5.56||||||PF-04965842 200 mg vs Placebo at Week 3: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-5.56|-13.22|
82460088|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-3.25|STANDARD_ERROR_OF_MEAN|2.054|||TWO_SIDED|90.0|-6.71|0.21||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.21|-6.71|
82460089|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-2.98|STANDARD_ERROR_OF_MEAN|2.035|||TWO_SIDED|90.0|-6.4|0.45||||||PF-04965842 400 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.45|-6.40|
82460090|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-8.59|STANDARD_ERROR_OF_MEAN|2.167|||TWO_SIDED|90.0|-12.24|-4.95||||||PF-04965842 200 mg vs Placebo at Week 5: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-4.95|-12.24|
82460091|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-3.98|STANDARD_ERROR_OF_MEAN|2.321|||TWO_SIDED|90.0|-7.89|-0.08||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-0.08|-7.89|
82460092|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-3.8|STANDARD_ERROR_OF_MEAN|2.304|||TWO_SIDED|90.0|-7.68|0.07||||||PF-04965842 400 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||0.07|-7.68|
82460093|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-6.94|STANDARD_ERROR_OF_MEAN|2.412|||TWO_SIDED|90.0|-11.0|-2.89||||||PF-04965842 200 mg vs Placebo at Week 6: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-2.89|-11.00|
82460094|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|2.607|||TWO_SIDED|90.0|-5.65|3.11||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||3.11|-5.65|
82542297|NCT03779048|164784114|OTHER|Correlation between baseline postprandial AUC for change in insulin and 4-week percent weight loss.|r|-0.03||||0.72|TWO_SIDED||||||Regression, Linear|||||||.72
82460095|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-2.83|STANDARD_ERROR_OF_MEAN|2.586|||TWO_SIDED|90.0|-7.18|1.51||||||PF-04965842 400 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||1.51|-7.18|
82460096|NCT02201524|164622215|SUPERIORITY_OR_OTHER||LS mean difference|-6.52|STANDARD_ERROR_OF_MEAN|2.758|||TWO_SIDED|90.0|-11.15|-1.89||||||PF-04965842 200 mg vs Placebo at Week 8: LANCOVA model contains fixed factors of treatment, week, treatment by week interaction, baseline value and unstructured covariance matrix.||-1.89|-11.15|
82460097|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.5|||||TWO_SIDED|90.0|-21.5|19.6||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||19.6|-21.5|
82460098|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-5.9|40.3||||||PF-04965842 400 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||40.3|-5.9|
82460099|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|14.3|||||TWO_SIDED|90.0|-9.3|38.0|||Difference in Percentage Analysed using|||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||38.0|-9.3|
82460100|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|-14.3|||||TWO_SIDED|90.0|-38.0|9.3||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||9.3|-38.0|
82460101|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|1.6|||||TWO_SIDED|90.0|-25.4|29.1||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||29.1|-25.4|
82460102|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|20.2|||||TWO_SIDED|90.0|-10.2|48.3||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||48.3|-10.2|
82542298|NCT03779048|164784115|OTHER|Correlation between baseline postprandial incremental AUC for PYY and 4-week percent weight loss.|r|-0.02||||0.82|TWO_SIDED||||||Regression, Linear|||||||.82
82460103|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|1.9|||||TWO_SIDED|90.0|-26.7|31.0||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||31.0|-26.7|
82460104|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|23.6|||||TWO_SIDED|90.0|-6.9|49.8||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||49.8|-6.9|
82460105|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|67.8|||||TWO_SIDED|90.0|36.4|85.3||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||85.3|36.4|
82460106|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|7.6|67.1||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||67.1|7.6|
82460107|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|7.6|67.1||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||67.1|7.6|
82460108|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|55.0|||||TWO_SIDED|90.0|19.7|77.6||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||77.6|19.7|
82460109|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|12.1|||||TWO_SIDED|90.0|-21.4|43.4||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||43.4|-21.4|
82542299|NCT03779048|164784116|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.002|TWO_SIDED|95.0|1.1|5.0|||Mixed Models Analysis|||||5.0|1.1|.002
82460110|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|3.8|||||TWO_SIDED|90.0|-29.4|36.4||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||36.4|-29.4|
82460111|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|45.5|||||TWO_SIDED|90.0|17.1|69.0||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||69.0|17.1|
82460112|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|36.4|||||TWO_SIDED|90.0|1.9|63.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||63.4|1.9|
82460113|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|14.5|||||TWO_SIDED|90.0|-21.4|47.0||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||47.0|-21.4|
82460114|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|24.5|||||TWO_SIDED|90.0|-11.8|54.9||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||54.9|-11.8|
82460115|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|-4.5|||||TWO_SIDED|90.0|-40.4|32.3||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||32.3|-40.4|
82460116|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|13.6|||||TWO_SIDED|90.0|-23.7|48.2||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||48.2|-23.7|
82460117|NCT02201524|164622216|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-28.0|49.3||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|-28.0|
82460118|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
82460119|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|90.0|-27.0|10.2||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||10.2|-27.0|
82460120|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|8.2|||||TWO_SIDED|90.0|-14.4|32.2||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||32.2|-14.4|
82460121|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-6.7|43.6||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||43.6|-6.7|
82542300|NCT03779048|164784121|SUPERIORITY|Difference between placebo- and phentermine-treated participants in change in delay discounting area under the curve from randomization to week 24 was calculated using repeated measures ANCOVA, controlling for age.|F|0.17||||0.68|TWO_SIDED||||||ANCOVA|||||||.68
82542301|NCT03779048|164784122|OTHER|Regression using the three Eating Inventory subscales (Cognitive restraint, disinhibition, hunger) to predict 4-week weight loss|r2|0.01||||0.75|TWO_SIDED|||||For full model including all 3 predictors|Regression, Linear|||||||.75
82460122|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.7|||||TWO_SIDED|90.0|-28.8|12.1||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||12.1|-28.8|
82460123|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|32.3|||||TWO_SIDED|90.0|5.4|55.4||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.4|5.4|
82460124|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|28.7|||||TWO_SIDED|90.0|0.8|55.3||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.3|0.8|
82460125|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|90.0|-27.3|27.3||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||27.3|-27.3|
82460126|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|33.3|||||TWO_SIDED|90.0|1.0|59.8||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||59.8|1.0|
82460127|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|43.3|||||TWO_SIDED|90.0|8.8|69.3||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||69.3|8.8|
82460128|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|2.1|49.3||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|2.1|
82542302|NCT03779048|164784123|OTHER|Correlation between baseline past-week appetite and 4-week percent weight loss.|r|-0.09||||0.31|TWO_SIDED||||||Regression, Linear|||||||.31
82460129|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|50.0|||||TWO_SIDED|90.0|25.4|71.8||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||71.8|25.4|
82460130|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|66.7|||||TWO_SIDED|90.0|39.2|86.1||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||86.1|39.2|
82460131|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|-9.1|||||TWO_SIDED|90.0|-36.3|18.3||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||18.3|-36.3|
82460132|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|41.8|||||TWO_SIDED|90.0|6.2|68.5||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||68.5|6.2|
82460133|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|31.8|||||TWO_SIDED|90.0|-2.9|60.5||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||60.5|-2.9|
82460134|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|-15.9|||||TWO_SIDED|90.0|-47.8|13.7||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||13.7|-47.8|
82460135|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|-6.8|||||TWO_SIDED|90.0|-40.6|24.8||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||24.8|-40.6|
82460136|NCT02201524|164622217|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|90.0|-36.4|36.4||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||36.4|-36.4|
82542303|NCT03779048|164784125|OTHER|Regression using baseline scores for Behavioral Inhibition (BIS) and Behavioral Activation fro Reward to predict 4-week weight loss during the behavioral treatment run-in.|r2|0.05||||0.03|TWO_SIDED||||||Regression, Linear|||||||.03
82652396|NCT02637557|165019495|SUPERIORITY||LS Mean Difference|0.034||||0.6287|TWO_SIDED|95.0|-0.103|0.17||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.170|-0.103|0.6287
82460137|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
82460138|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|-7.1|||||TWO_SIDED|90.0|-27.0|10.2||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||10.2|-27.0|
82460139|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|0.5|||||TWO_SIDED|90.0|-20.7|22.8||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||22.8|-20.7|
82460140|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|1.2|||||TWO_SIDED|90.0|-20.3|24.8||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||24.8|-20.3|
82460141|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|13.3|||||TWO_SIDED|90.0|-5.6|33.8||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||33.8|-5.6|
82460142|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|36.4|||||TWO_SIDED|90.0|15.3|61.1||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||61.1|15.3|
82460143|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|33.3|||||TWO_SIDED|90.0|11.3|57.3||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||57.3|11.3|
82460144|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|60.0|||||TWO_SIDED|90.0|34.7|80.9||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||80.9|34.7|
82460145|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|2.1|49.3||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||49.3|2.1|
82460146|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|44.4|||||TWO_SIDED|90.0|19.4|70.2||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||70.2|19.4|
82460147|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|20.0|||||TWO_SIDED|90.0|-2.7|46.6||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||46.6|-2.7|
82460148|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|30.0|||||TWO_SIDED|90.0|6.4|56.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||56.4|6.4|
82460149|NCT02201524|164622218|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|-4.9|54.9||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||54.9|-4.9|
82460150|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|13.3|||||TWO_SIDED|90.0|-4.4|33.8||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||33.8|-4.4|
82460151|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-5.2|32.0||||||PF-04965842 400 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||32.0|-5.2|
82460152|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|90.0|-10.2|27.0||||||PF-04965842 200 mg vs Placebo at Week 1: Analysed using Asymptotic Miettinen and Nurminen method.||27.0|-10.2|
82460153|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|21.4|||||TWO_SIDED|90.0|-3.2|45.5||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||45.5|-3.2|
82460154|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|15.9|||||TWO_SIDED|90.0|-8.1|40.7||||||PF-04965842 400 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||40.7|-8.1|
82460155|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|34.5|||||TWO_SIDED|90.0|7.3|59.4||||||PF-04965842 200 mg vs Placebo at Week 2: Analysed using Asymptotic Miettinen and Nurminen method.||59.4|7.3|
82460156|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|90.0|-11.2|45.5||||||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||45.5|-11.2|
82460157|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|31.3|||||TWO_SIDED|90.0|1.7|55.7||||||PF-04965842 400 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||55.7|1.7|
82460158|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|30.1|||||TWO_SIDED|90.0|-1.2|57.4|||Difference in Percentage Analysed using|||PF-04965842 200 mg vs Placebo at Week 3: Analysed using Asymptotic Miettinen and Nurminen method.||57.4|-1.2|
82460159|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|25.0|||||TWO_SIDED|90.0|-6.4|52.5||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||52.5|-6.4|
82578282|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|3.0|STANDARD_ERROR_OF_MEAN|2.41||0.2188|TWO_SIDED|95.0|-1.8|7.7|||ANCOVA|||Relief by treatment of pain: Placebo vs DS-5565 15 mg QD||7.7|-1.8|0.2188
82460160|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|41.7|||||TWO_SIDED|90.0|8.7|66.7||||||PF-04965842 400 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||66.7|8.7|
82460161|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|53.3|||||TWO_SIDED|90.0|18.5|76.6||||||PF-04965842 200 mg vs Placebo at Week 4: Analysed using Asymptotic Miettinen and Nurminen method.||76.6|18.5|
82460162|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|6.1|||||TWO_SIDED|90.0|-26.1|36.6||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||36.6|-26.1|
82460163|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|14.4|||||TWO_SIDED|90.0|-18.9|44.5||||||PF-04965842 400 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||44.5|-18.9|
82460164|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|50.5|||||TWO_SIDED|90.0|12.9|75.3||||||PF-04965842 200 mg vs Placebo at Week 5: Analysed using Asymptotic Miettinen and Nurminen method.||75.3|12.9|
82460165|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|9.1|||||TWO_SIDED|90.0|-25.2|41.4||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||41.4|-25.2|
82460166|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|3.6|||||TWO_SIDED|90.0|-30.5|37.3||||||PF-04965842 400 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||37.3|-30.5|
82460167|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|13.6|||||TWO_SIDED|90.0|-21.9|46.2||||||PF-04965842 200 mg vs Placebo at Week 6: Analysed using Asymptotic Miettinen and Nurminen method.||46.2|-21.9|
82460168|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|2.3|||||TWO_SIDED|90.0|-33.2|34.6||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||34.6|-33.2|
82460169|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|20.5|||||TWO_SIDED|90.0|-17.6|51.9||||||PF-04965842 400 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||51.9|-17.6|
82460170|NCT02201524|164622219|SUPERIORITY_OR_OTHER||Difference in Percentage|12.5|||||TWO_SIDED|90.0|-26.4|48.1||||||PF-04965842 200 mg vs Placebo at Week 8: Analysed using Asymptotic Miettinen and Nurminen method.||48.1|-26.4|
82460171|NCT02646826|164622248|SUPERIORITY|||||||0.0017|||||||ANOVA|||||||0.0017
82460172|NCT02646826|164622249|SUPERIORITY||||||<|0.44|||||||ANOVA|||||||<.44
82460173|NCT04864249|164622254|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
82460174|NCT04864249|164622255|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82460175|NCT04864249|164622256|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
82460176|NCT04864249|164622257|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82460177|NCT04864249|164622258|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
82460178|NCT04864249|164622259|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
82460179|NCT04864249|164622260|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82460180|NCT04864249|164622261|SUPERIORITY|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82460181|NCT04864249|164622262|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82460182|NCT04864249|164622263|SUPERIORITY|||||||0.62|||||||t-test, 2 sided|||||||0.62
82460183|NCT04864249|164622264|SUPERIORITY|||||||0.19|||||||Chi-squared|||||||0.19
82460184|NCT04864249|164622265|SUPERIORITY|||||||0.66|||||||Chi-squared|||||||0.66
82460185|NCT04864249|164622266|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82460186|NCT04864249|164622267|SUPERIORITY|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82460187|NCT04864249|164622268|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||||||0.56
82460188|NCT04864249|164622269|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
82460189|NCT04864249|164622270|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
82460190|NCT04864249|164622271|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
82460191|NCT04864249|164622272|SUPERIORITY|||||||0.21|||||||Chi-squared|||||||0.21
82460192|NCT04864249|164622273|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82460193|NCT04864249|164622274|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82578283|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|4.0|STANDARD_ERROR_OF_MEAN|2.41||0.0991|TWO_SIDED|95.0|-0.8|8.7|||ANCOVA|||Relief by treatment of pain: Placebo vs DS-5565 15 mg BID||8.7|-0.8|0.0991
82460194|NCT04864249|164622275|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
82460195|NCT04864249|164622276|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82460196|NCT04864249|164622277|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
82460197|NCT04864249|164622278|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82460198|NCT04864249|164622279|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
82460199|NCT04864249|164622280|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82460200|NCT04864249|164622281|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82460201|NCT04864249|164622282|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82460202|NCT04864249|164622283|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82460203|NCT04864249|164622284|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82460204|NCT04864249|164622285|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82460205|NCT04864249|164622286|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82460206|NCT04864249|164622287|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
82460207|NCT04864249|164622288|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82460208|NCT04864249|164622289|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82460209|NCT03192826|164622290|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
82460210|NCT03192826|164622291|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
82460211|NCT03192826|164622292|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
82460212|NCT03192826|164622293|EQUIVALENCE|The SPSS statistical package version 23.0 (Statistical Package for the Social Sciences, version 23.0, SSPS Inc. Chicago, IL, USA) was used for statistical analysis.|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|Repeated measures ANOVA was used to compare parametric values with Bonferroni post hoc test for within group comparisons.|the reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|||||<0.05
82460213|NCT00883779|164622298|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.7|||Log Rank|||||0.70|0.46|<0.0001
82460214|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.39|0.64|||Log Rank|||PFS in adenocarcinoma subgroup||0.64|0.39|<0.0001
82460215|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||=|0.579|TWO_SIDED|95.0|0.6|1.33|||Log Rank|||PFS in non-adenocarcinoma subgroup||1.33|0.60|=0.579
82460216|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.28|0.53|||Log Rank|||PFS in never smoked subgroup||0.53|0.28|<0.0001
82460217|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||=|0.2067|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||PFS in former/current smoker subgroup||1.10|0.64|=0.2067
82460218|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.12|0.35|||Log Rank|||PFS in subgroup EGFR mutation||0.35|0.12|<0.0001
82460219|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||=|0.7511|TWO_SIDED|95.0|0.67|1.34|||Log Rank|||PFS in subgroup EGFR wild-type||1.34|0.67|=0.7511
82460220|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||=|0.3169|TWO_SIDED|95.0|0.25|1.58|||Log Rank|||PFS in subgroup KRAS mutation||1.58|0.25|=0.3169
82460221|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.7|||Log Rank|||PFS in subgroup KRAS wild-type||0.70|0.37|<0.0001
82460222|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51|||=|0.0091|TWO_SIDED|95.0|0.31|0.86|||Log Rank|||PFS in subgroup EGFR IHC positive||0.86|0.31|=0.0091
82460223|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||=|0.0179|TWO_SIDED|95.0|0.18|0.88|||Log Rank|||PFS in subgroup EGFR IHC negative||0.88|0.18|=0.0179
82460224|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||=|0.0017|TWO_SIDED|95.0|0.11|0.64|||Log Rank|||PFS in subgroup EGFR FISH positive||0.64|0.11|=0.0017
82460225|NCT00883779|164622300|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||=|0.188|TWO_SIDED|95.0|0.37|1.22|||Log Rank|||PFS in subgroup EGFR FISH negative||1.22|0.37|=0.1880
82460226|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||=|0.1213|TWO_SIDED|95.0|0.7|1.04|||Log Rank|||OS in overall participants (FAS population)||1.04|0.70|=0.1213
82460227|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||=|0.0356|TWO_SIDED|95.0|0.62|0.98|||Log Rank|||OS in subgroup adenocarcinoma||0.98|0.62|=0.0356
82460228|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37|||=|0.1157|TWO_SIDED|95.0|0.92|2.03|||Log Rank|||OS in subgroup non-adenocarcinoma||2.03|0.92|=0.1157
82460229|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||=|0.0056|TWO_SIDED|95.0|0.49|0.89|||Log Rank|||OS in subgroup never smoked||0.89|0.49|=0.0056
82460230|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||=|0.3473|TWO_SIDED|95.0|0.87|1.5|||Log Rank|||OS in subgroup current/former smoker||1.50|0.87|=0.3473
82460231|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||=|0.1614|TWO_SIDED|95.0|0.45|1.14|||Log Rank|||OS in subgroup EGFR mutation||1.14|0.45|=0.1614
82460232|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||=|0.1691|TWO_SIDED|95.0|0.55|1.11|||Log Rank|||OS in subgroup EGFR wild-type||1.11|0.55|=0.1691
82460233|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5|||=|0.1415|TWO_SIDED|95.0|0.19|1.28|||Log Rank|||OS in subgroup KRAS mutation||1.28|0.19|=0.1415
82460234|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||=|0.1447|TWO_SIDED|95.0|0.59|1.08|||Log Rank|||OS in subgroup KRAS wild-type||1.08|0.59|=0.1447
82460235|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||=|0.031|TWO_SIDED|95.0|0.35|0.96|||Log Rank|||OS in EGFR IHC positive||0.96|0.35|=0.0310
82460236|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||=|0.0581|TWO_SIDED|95.0|0.21|1.05|||Log Rank|||OS in subgroup EGFR IHC negative||1.05|0.21|=0.0581
82460237|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||=|0.0063|TWO_SIDED|95.0|0.14|0.75|||Log Rank|||OS of subgroup EGFR FISH positive||0.75|0.14|=0.0063
82460238|NCT00883779|164622301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||=|0.3268|TWO_SIDED|95.0|0.4|1.36|||Log Rank|||OS of subgroup EGFR FISH negative||1.36|0.40|=0.3268
82460239|NCT00883779|164622303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81|||=|0.5289|TWO_SIDED|95.0|-6.2|11.8|||Chi-squared|||Difference in non-progression response rates||11.8|-6.2|=0.5289
82460240|NCT00883779|164622304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.14|||<|0.0001|TWO_SIDED|95.0|16.7|33.5|||Chi-squared|||Difference in objective response rates||33.5|16.7|<0.0001
82460241|NCT00883779|164622305|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.5|||Log Rank|||||0.50|0.21|<0.0001
82460242|NCT00883779|164622306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.45|0.69|||Log Rank|||||0.69|0.45|<0.0001
82460243|NCT00883779|164622308|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||=|0.0364|TWO_SIDED|95.0|0.63|0.99|||Log Rank|||||0.99|0.63|=0.0364
82460244|NCT00883779|164622310|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||=|0.0181|TWO_SIDED|95.0|0.61|0.96|||Log Rank|||||0.96|0.61|=0.0181
82460245|NCT00883779|164622312|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.73|||=|0.0035|TWO_SIDED|95.0|0.59|0.9|||Log Rank|||||0.90|0.59|=0.0035
82460246|NCT00883779|164622313|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.913|TWO_SIDED|95.0|0.6|1.59|||Log Rank|||||1.59|0.60|0.9130
82460247|NCT03748823|164622381|NON_INFERIORITY|Noninferiority was determined based on the 90% Confidence interval calculated from the combination z-score that accounts for the interim analysis.|Ratio of Geometric Least Squares Mean|1.257|||<|0.0001|TWO_SIDED|90.0|1.16|1.361||Analysis of variance (ANOVA) was performed on log-transformed Ctrough and included treatment and stratified weight group as fixed effects.|ANOVA||Geometric least squares mean are the least squares mean from the mixed model after back transformation to the original scale. The 90% confidence interval is presented after back transformation to the original scale.|||1.361|1.160|<0.0001
82460248|NCT02374164|164622422|SUPERIORITY_OR_OTHER||Point Estimate|0.72|||||TWO_SIDED|90.0|0.612|0.847|||||Ratio Fed/Fasted. Point estimate and 90% CI were obtained from the exponentiated results of analysis of the natural logarithm-transformed data. Bioequivalence was reached if the value was 0.80 to 1.25.|Relative bioavailability of a single dose of Febuxostat XR 80 mg in the fasted and fed (high-fat meal) states.||0.847|0.612|
82460249|NCT02734693|164622431|SUPERIORITY||Mean Difference (Final Values)|-5.18|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-7.565|-2.802|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), mean SKAMP-CS at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol.||-2.802|-7.565|<0.001
82460250|NCT02734693|164622434|SUPERIORITY||Mean Difference (Final Values)|23.67|STANDARD_ERROR_OF_MEAN|7.395||0.002|TWO_SIDED|95.0|8.987|38.346|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), PERMP at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol||38.346|8.987|0.002
82460251|NCT02734693|164622434|SUPERIORITY||Mean Difference (Net)|24.05|STANDARD_ERROR_OF_MEAN|7.389||0.002|TWO_SIDED|95.0|9.381|38.714|||ANCOVA|||Least squares means, SEs, effect sizes, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), PERMP at baseline, and site as fixed effects. The dasotraline 6 mg/day treatment arm was discontinued in Version 3.00 of the protocol||38.714|9.381|0.002
82460252|NCT01300234|164622463|SUPERIORITY_OR_OTHER||percentage of participants|58.5|||<|0.0001|TWO_SIDED|97.5|45.8|71.3||HBeAg-positive participants|Roche COBAS Taqman HBV test||"A non-completers equal failures approach is used for the primary analysis. The estimated value represents the difference between the percentage of participants achieving HBV DNA \<400 copies/mL at Week 48 in the TDF group and the ADV group."|||71.3|45.8|<0.0001
82460253|NCT01300234|164622463|SUPERIORITY_OR_OTHER||percentage of participants|25.6|||<|0.0001|TWO_SIDED|97.5|16.7|34.3||HBeAg-negative participants|Roche COBAS Taqman HBV test||"A non-completers equal failures approach was used for the primary analysis. The estimated value represents the difference between the percentage of participants achieving HBV DNA \<400 copies/mL at Week 48 in the TDF group and the ADV group."|||34.3|16.7|<0.0001
82460254|NCT02722564|164622497|OTHER||||||<|0.001||||||p value associated with the change between estimated and actual BrAC when the participants BrAC was ascending to 0.1.|t-test, 2 sided|||||||<0.001
82460255|NCT02722564|164622497|OTHER||||||<|0.0001||||||p value associated with change between estimated and actual BrAC as participants BrAC descended to 0.08.|t-test, 2 sided|||||||<0.0001
82460256|NCT03096834|164622505|SUPERIORITY||Odds Ratio (OR)|2.73||||0.002|TWO_SIDED|95.0|1.43|5.19|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (4-7 vs. 8-14) migraine days at Baseline after missing data are imputed as non-response (NRI).||||5.19|1.43|0.002
82460257|NCT03096834|164622506|SUPERIORITY||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|0.55||0.004|TWO_SIDED|95.0|-2.67|-0.51|||Mixed Models Analysis|||Month 3||-0.51|-2.67|0.004
82460258|NCT03096834|164622507|SUPERIORITY||Mean Difference (Final Values)|-3.46|STANDARD_ERROR_OF_MEAN|1.13||0.003|TWO_SIDED|95.0|-5.7|-1.23|||Mixed Models Analysis|||Physical impairment domain||-1.23|-5.70|0.003
82460259|NCT03096834|164622507|SUPERIORITY||Mean Difference (Final Values)|-3.91|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.12|-1.7|||Mixed Models Analysis|||Everyday activities domain||-1.70|-6.12|<0.001
82460260|NCT03096834|164622508|SUPERIORITY||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.43|-0.99|||Mixed Models Analysis|||||-0.99|-2.43|<0.001
82460261|NCT03096834|164622509|SUPERIORITY||Odds Ratio (OR)|3.16||||0.025|TWO_SIDED|95.0|1.11|9.01|||Cochran-Mantel-Haenszel|Adjusted for stratification factor (4-7 vs. 8-14) migraine days at Baseline after missing data are imputed as non-response||||9.01|1.11|0.025
82460262|NCT04233801|164622527|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.71|||Mixed model repeated measures|||||-0.71|-1.28|< 0.0001
82460263|NCT04233801|164622527|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.26|-0.7|||Mixed model repeated measures|||||-0.70|-1.26|< 0.0001
82460264|NCT04233801|164622528|OTHER|Logistic regression including treatment, baseline Estimated glomerular filtration rate (eGFR), background therapy, and continuous baseline HbA1c.|Odds Ratio (OR)|2.29||||0.1375|TWO_SIDED|95.0|0.77|6.83|||Regression, Logistic|||||6.83|0.77|0.1375
82460265|NCT04233801|164622528|OTHER|Logistic regression including treatment, baseline Estimated glomerular filtration rate (eGFR), background therapy, and continuous baseline HbA1c.|Odds Ratio (OR)|6.01||||0.0008|TWO_SIDED|95.0|2.11|17.1|||Regression, Logistic|||||17.10|2.11|0.0008
82460266|NCT04233801|164622529|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.66|-1.34|||Mixed model repeated measures|||||-1.34|-2.66|< 0.0001
82460267|NCT04233801|164622529|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.32|||<|0.0001|TWO_SIDED|95.0|-1.96|-0.67|||Mixed model repeated measures|||||-0.67|-1.96|< 0.0001
82460268|NCT04233801|164622530|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-3.6||||0.0774|TWO_SIDED|95.0|-7.61|0.4|||Mixed model repeated measures|||||0.40|-7.61|0.0774
82460269|NCT04233801|164622530|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.01||||0.616|TWO_SIDED|95.0|-4.98|2.96|||Mixed model repeated measures|||||2.96|-4.98|0.6160
82578284|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-4.5|STANDARD_ERROR_OF_MEAN|2.41||0.0611|TWO_SIDED|95.0|-9.2|0.2|||ANCOVA|||Relief by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.2|-9.2|0.0611
82460270|NCT04233801|164622531|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-1.78||||0.1222|TWO_SIDED|95.0|-4.05|0.48|||Mixed model repeated measures|||||0.48|-4.05|0.1222
82460271|NCT04233801|164622531|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|0.65||||0.5687|TWO_SIDED|95.0|-1.59|2.89|||Mixed model repeated measures|||||2.89|-1.59|0.5687
82460272|NCT04233801|164622532|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-20.05||||0.0003|TWO_SIDED|95.0|-30.73|-9.38|||Mixed model repeated measures|||||-9.38|-30.73|0.0003
82460273|NCT04233801|164622532|OTHER|"A restricted maximum likelihood (REML) based mixed model repeated measures (MMRM) approach was applied.The model included baseline value for the corresponding endpoint and its interaction with visit as additional covariates."|Adjusted mean|-24.13|||<|0.0001|TWO_SIDED|95.0|-34.72|-13.54|||Mixed model repeated measures|||||-13.54|-34.72|<0.0001
82460274|NCT04233801|164622533|OTHER|The Analysis of covariance (ANCOVA) model included treatment and background therapy as classification effects, baseline PPG and baseline Estimated glomerular filtration rate (eGFR) as the linear covariates.|Adjusted mean|-56.32|||<|0.0001|TWO_SIDED|95.0|-78.22|-34.41|||ANCOVA|||||-34.41|-78.22|<0.0001
82460275|NCT04233801|164622533|OTHER|The Analysis of covariance (ANCOVA) model included treatment and background therapy as classification effects, baseline PPG and baseline Estimated glomerular filtration rate (eGFR) as the linear covariates.|Adjusted mean|-60.71|||<|0.0001|TWO_SIDED|95.0|-82.31|-39.11|||ANCOVA|||||-39.11|-82.31|<0.0001
82460276|NCT04233801|164622534|OTHER||Odds Ratio (OR)|1.76||||0.2422|TWO_SIDED|95.0|0.68|4.55|||Regression, Logistic|Logistic regression including treatment and continuous baseline glycosylated haemoglobin A1c (HbA1c).|Odds ratio used Placebo as the reference group.|||4.55|0.68|0.2422
82460277|NCT04233801|164622534|OTHER||Odds Ratio (OR)|0.85||||0.7661|TWO_SIDED|95.0|0.29|2.5|||Regression, Logistic|Logistic regression including treatment and continuous baseline glycosylated haemoglobin A1c (HbA1c).|Odds ratio used Placebo as the reference group.|||2.50|0.29|0.7661
82460278|NCT00762359|164622536|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.0989|||<|0.0001|TWO_SIDED|95.0|0.0425|0.23|||Log Rank|||||0.2300|0.0425|<0.0001
82460279|NCT00762359|164622537|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82578285|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-3.5|STANDARD_ERROR_OF_MEAN|2.41||0.1489|TWO_SIDED|95.0|-8.2|1.2|||ANCOVA|||Relief by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.2|-8.2|0.1489
82578286|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-6.04|STANDARD_ERROR_OF_MEAN|1.751||0.0006|TWO_SIDED|95.0|-9.47|-2.6|||ANCOVA|||Interference: Placebo vs Pregabalin 150 mg BID||-2.60|-9.47|0.0006
82460280|NCT00762359|164622538|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82460281|NCT00762359|164622539|SUPERIORITY_OR_OTHER|||||||0.0079||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0079
82460282|NCT00762359|164622540|SUPERIORITY_OR_OTHER|||||||0.0433||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0433
82460283|NCT00762359|164622542|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82460284|NCT00762359|164622543|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0006
82460285|NCT00762359|164622544|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0025
82460286|NCT00762359|164622545|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0010
82460287|NCT00762359|164622547|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
82460288|NCT00762359|164622548|SUPERIORITY_OR_OTHER|||||||0.6148||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6148
82578287|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-4.09|STANDARD_ERROR_OF_MEAN|1.747||0.0193|TWO_SIDED|95.0|-7.52|-0.67|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg QD||-0.67|-7.52|0.0193
82578288|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-1.64|STANDARD_ERROR_OF_MEAN|1.752||0.3506|TWO_SIDED|95.0|-5.07|1.8|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg BID||1.80|-5.07|0.3506
82460289|NCT00762359|164622549|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8050
82460290|NCT00762359|164622550|SUPERIORITY_OR_OTHER|||||||0.8678||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8678
82460291|NCT00762359|164622551|SUPERIORITY_OR_OTHER|||||||0.2688||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2688
82460292|NCT00762359|164622553|SUPERIORITY_OR_OTHER|||||||0.7054||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7054
82460293|NCT00762359|164622554|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3400
82460294|NCT00762359|164622555|SUPERIORITY_OR_OTHER|||||||0.8813||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8813
82460295|NCT00762359|164622556|SUPERIORITY_OR_OTHER|||||||0.1862||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1862
82460296|NCT00762359|164622558|SUPERIORITY_OR_OTHER|||||||0.8604||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8604
82460297|NCT00762359|164622559|SUPERIORITY_OR_OTHER|||||||0.5485||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5485
82460298|NCT00762359|164622560|SUPERIORITY_OR_OTHER|||||||0.7382||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7382
82460299|NCT00762359|164622561|SUPERIORITY_OR_OTHER|||||||0.7619||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7619
82460300|NCT00762359|164622563|SUPERIORITY_OR_OTHER|||||||0.0204||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0204
82460301|NCT00762359|164622564|SUPERIORITY_OR_OTHER|||||||0.0046||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0046
82578289|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|1.94|STANDARD_ERROR_OF_MEAN|1.748||0.266|TWO_SIDED|95.0|-1.48|5.37|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg QD||5.37|-1.48|0.2660
82578290|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|4.4|STANDARD_ERROR_OF_MEAN|1.754||0.0122|TWO_SIDED|95.0|0.96|7.84|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg BID||7.84|0.96|0.0122
82578291|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0119|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||General activity: Placebo vs Pregabalin 150 mg BID||-0.1|-0.9|0.0119
82460302|NCT00762359|164622565|SUPERIORITY_OR_OTHER|||||||0.0059||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0059
82460303|NCT00762359|164622566|SUPERIORITY_OR_OTHER|||||||0.1229||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1229
82460304|NCT00762359|164622568|SUPERIORITY_OR_OTHER|||||||0.2694||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2694
82460305|NCT00762359|164622569|SUPERIORITY_OR_OTHER|||||||0.0141||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0141
82460306|NCT00762359|164622570|SUPERIORITY_OR_OTHER|||||||0.3128||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3128
82460307|NCT00762359|164622571|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1450
82460308|NCT00762359|164622573|SUPERIORITY_OR_OTHER|||||||0.6175||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6175
82460309|NCT00762359|164622574|SUPERIORITY_OR_OTHER|||||||0.4496||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4496
82460310|NCT00762359|164622575|SUPERIORITY_OR_OTHER|||||||0.4718||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4718
82460311|NCT00762359|164622576|SUPERIORITY_OR_OTHER|||||||0.4484||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4484
82460312|NCT00762359|164622578|SUPERIORITY_OR_OTHER|||||||0.2604||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2604
82460313|NCT00762359|164622579|SUPERIORITY_OR_OTHER|||||||0.6818||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6818
82460314|NCT00762359|164622580|SUPERIORITY_OR_OTHER|||||||0.9015||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9015
82460315|NCT00762359|164622581|SUPERIORITY_OR_OTHER|||||||0.4497||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4497
82460316|NCT01690052|164622596|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|The p-value is calculated from the ANOVA||||||0.05
82460317|NCT02421172|164622598|SUPERIORITY_OR_OTHER_LEGACY||Posterior probablility|0.9729||||||||||||||||||
82460318|NCT01841281|164622607|OTHER|||||||0.78||||||The p-value is for the interaction term|testing for interaction term|||||||0.78
82460319|NCT01841281|164622608|OTHER|||||||0.09||||||The p-value is for the interaction term|testing for interaction term|||The treatment effect was tested as an interaction term between treatment and FeNO. The null hypothesis is the effect of treatment is stratified by the FeNO status. We used a regression model instead of t-test or Wilcoxon signed-rank test in order to control period and carry-over effect which is common in a cross-over study design||||0.09
82460320|NCT00683878|164622609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1175||0.0007|TWO_SIDED|95.0|-0.63|-0.17||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.17|-0.63|0.0007
82460321|NCT00683878|164622609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.1175|<|0.0001|TWO_SIDED|95.0|-0.78|-0.31||Primary endpoints were tested at alpha=0.027 applying Dunnett's adjustment|ANCOVA|||||-0.31|-0.78|<0.0001
82460322|NCT00683878|164622610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.0|STANDARD_ERROR_OF_MEAN|9.007|<|0.0001|TWO_SIDED|95.0|-68.7|-33.2||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-33.2|-68.7|<0.0001
82460323|NCT00683878|164622610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.3|STANDARD_ERROR_OF_MEAN|9.039|<|0.0001|TWO_SIDED|95.0|-71.1|-35.6||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-35.6|-71.1|<0.0001
82460324|NCT00683878|164622611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.3896|<|0.0001|TWO_SIDED|95.0|-2.32|-0.79||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.79|-2.32|<0.0001
82460325|NCT00683878|164622611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78|STANDARD_ERROR_OF_MEAN|0.3896|<|0.0001|TWO_SIDED|95.0|-2.55|-1.02||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-1.02|-2.55|<0.0001
82460326|NCT00683878|164622612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|4.088|<|0.0001|TWO_SIDED|95.0|-27.5|-11.4||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-11.4|-27.5|<0.0001
82460327|NCT00683878|164622612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1|STANDARD_ERROR_OF_MEAN|4.082|<|0.0001|TWO_SIDED|95.0|-32.2|-16.1||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-16.1|-32.2|<0.0001
82460328|NCT00683878|164622613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|STANDARD_ERROR_OF_MEAN|5.119||0.0496|TWO_SIDED|95.0|0.0|20.1||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||20.1|0.0|0.0496
82460329|NCT00683878|164622613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.4|STANDARD_ERROR_OF_MEAN|5.253||0.0018|TWO_SIDED|95.0|6.1|26.7||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|Modified logistic regression|||||26.7|6.1|0.0018
82460330|NCT00683878|164622614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.6006||0.1566|TWO_SIDED|95.0|-2.03|0.33||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||0.33|-2.03|0.1566
82460331|NCT00683878|164622614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55|STANDARD_ERROR_OF_MEAN|0.5995||0.0101|TWO_SIDED|95.0|-2.73|-0.37||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.37|-2.73|0.0101
82460332|NCT00683878|164622615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|0.4838|||TWO_SIDED|95.0|-2.53|-0.62||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05. The comparison was stopped due to the preceding test (PLACEBO + Pio vs Dapa 5MG + Pio) not statistically significant P value = 0.1566.|ANCOVA|||||-0.62|-2.53|
82460333|NCT00683878|164622615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.4688|<|0.0001|TWO_SIDED|95.0|-2.83|-0.98||Secondary endpoints were tested following a sequential testing procedure at alpha=0.05|ANCOVA|||||-0.98|-2.83|<0.0001
82578292|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0659|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0659
82578293|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.5104|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.5104
82652397|NCT02637557|165019495|SUPERIORITY||LS Mean Difference|0.07||||0.3106|TWO_SIDED|95.0|-0.066|0.207||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.207|-0.066|0.3106
82460334|NCT03112681|164622616|SUPERIORITY|||||||0.0001|||||||paired t-test|||||||0.0001
82460335|NCT03112681|164622616|SUPERIORITY|||||||0.0002|||||||paired t-test|||||||0.0002
82460336|NCT02891174|164622654|EQUIVALENCE|margin=10 mmHg|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-3.7|5.7|||||The adjusted mean difference between ibuprofen and acetaminophen is presented here. The adjusted mean difference was calculated using a linear mixed model adjusting for time period by intention-to-treat principles.|||5.7|-3.7|
82460337|NCT02891174|164622655|SUPERIORITY|||||||0.59||||||Abdominal pain|t-test, 2 sided|||Change in abdominal pain||||0.59
82460338|NCT02891174|164622655|SUPERIORITY|||||||0.91||||||Perineal pain|t-test, 2 sided|||Change in perineal pain||||0.91
82460339|NCT02891174|164622655|SUPERIORITY|||||||0.88||||||Overall pain|t-test, 2 sided|||Change in overall pain||||0.88
82460340|NCT02891174|164622656|OTHER|||||||0.76|||||||t-test, 2 sided|||||||0.76
82578294|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.4934|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.4934
82578295|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0634|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0634
82460341|NCT02891174|164622657|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||First intervention (24 hours)||||0.02
82460342|NCT02891174|164622657|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Second intervention (24 hours)||||0.06
82460343|NCT02891174|164622657|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Overall satisfaction with pain control during study period||||0.04
82460344|NCT02210000|164622660|SUPERIORITY||Median Difference (Net)|-0.212||||0.017|TWO_SIDED|95.0|-0.3716|-0.0448||Posterior probability of the treatment difference in response rate at Week 12 being greater than 0%.|Bayesian method|||||-0.0448|-0.3716|0.017
82460345|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.2353|0.6553|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Nausea at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.6553|-0.2353|
82460346|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.749|||||TWO_SIDED|95.0|0.2275|1.2705|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Feeling full after meals at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||1.2705|0.2275|
82460347|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.489|||||TWO_SIDED|95.0|-0.0592|1.0374|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Bloating at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||1.0374|-0.0592|
82460348|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.497|||||TWO_SIDED|95.0|0.0396|0.955|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Not able to finish meal at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9550|0.0396|
82460349|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.3386|0.4395|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Retching at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.4395|-0.3386|
82460350|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|-0.038|||||TWO_SIDED|95.0|-0.3242|0.2492|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Vomiting at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.2492|-0.3242|
82460351|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-0.0483|0.9978|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Stomach visibly larger at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9978|-0.0483|
82460352|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.461|||||TWO_SIDED|95.0|-0.0519|0.9748|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Stomach fullness at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9748|-0.0519|
82578296|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0007|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||Mood: Placebo vs Pregabalin 150 mg BID||-0.3|-1.1|0.0007
82578297|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0837|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg QD||0.0|-0.8|0.0837
82652398|NCT02637557|165019496|SUPERIORITY||LS Mean Difference|0.0||||0.9961|TWO_SIDED|95.0|-0.1|0.101||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.101|-0.100|0.9961
82460353|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.536|||||TWO_SIDED|95.0|0.0967|0.9745|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Loss of appetite at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9745|0.0967|
82460354|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.196|||||TWO_SIDED|95.0|-0.2746|0.6671|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Upper abdominal pain at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.6671|-0.2746|
82460355|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.314|||||TWO_SIDED|95.0|-0.2013|0.8292|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Upper abdominal discomfort at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.8292|-0.2013|
82460356|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.384|||||TWO_SIDED|95.0|-0.0323|0.7997|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Overall severity of your GP symptoms at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.7997|-0.0323|
82460357|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.068|||||TWO_SIDED|95.0|-0.2366|0.3723|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Nausea/Vomiting Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.3723|-0.2366|
82460358|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.548|||||TWO_SIDED|95.0|0.1333|0.9628|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Fullness/Early Satiety Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9628|0.1333|
82460359|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.479|||||TWO_SIDED|95.0|-0.0386|0.9966|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Bloating Subscale at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.9966|-0.0386|
82578298|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.2379|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg BID||0.2|-0.7|0.2379
82578299|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.098|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.0980
82578300|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0283|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.0|0.0283
82578301|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2179|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Walking ability: Placebo vs Pregabalin 150 mg BID||0.2|-0.7|0.2179
82578302|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6683|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.6683
82460360|NCT02210000|164622661|SUPERIORITY||Mean Difference (Net)|0.356|||||TWO_SIDED|95.0|-0.0049|0.7179|||||A negative difference indicated greater improvement in the Camicinal group compared to Placebo.|Total GCSI-DD at Week 12. The least square means were the adjusted means which had been estimated with a mixed model using Baseline weekly average value, diabetes type, treatment, week and the interaction between treatment and week as fixed effects, participants as random effect and week as repeated effect.||0.7179|-0.0049|
82460361|NCT04673214|164622672|SUPERIORITY|The null hypothesis for the modification in the clinical evolution of the conjunctivitis sign in patients diagnosed with COVID-19 under early intervention treatment with Azithromycin / Ribaroxaban / Paracetamol for 14 days followed by video call is rejected.||||||0.05||||||Presence of a p \<0.05 as significant in the comparison of treatment with clinical symptoms|Chi-squared|||Null Hypothesis: There will be no modification in the clinical evolution ≥ 25% of patients diagnosed with COVID-19 under an early intervention treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol for 14 days followed by video call from U.M.F 13 and U.M.F 20 from I.M.S.S., during the period of December 2020- February 2021, with a power of 90%, type I error rate 1% and loss to follow-up 20%.||||0.05
82460362|NCT04673214|164622672|SUPERIORITY|The null hypothesis is rejected with a difference of 2 days in the modification of the clinical evolution (symptoms of fever, cough, headache, myalgia, odynophagia, anosmia, rhinorrhea, arthralgia, chest pain, dyspnea, conjunctivitis) of patients diagnosed with COVID -19 in early intervention treatment. vs. therapeutic failure, for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of 20%||||||0.05|||||||t-test, 2 sided|||Assuming a difference of 2 days in the modification of the clinical course (symptoms of fever, cough, headache, myalgia, odynophagia, anosmia, rhinorrhea, arthralgia, chest pain, dyspnea, conjunctivitis) of patients diagnosed with COVID-19 in early intervention treatment vs. therapeutic failure, for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of the twenty%||||0.05
82460363|NCT04673214|164622673|SUPERIORITY|Assuming a difference in the percentage of effectiveness in the clinical modification and therapeutic failure of patients diagnosed with the outcome of improvement in the Modification of the clinical evolution of the symptoms of patients with COVID-19 using double therapy was reported 95.7% (n = 44) Vs. triple therapy 90.8% (n = 59) and therapeutic failure 4.3% (n = 2) vs. 9.2% (n = 6), respectively.||||||0.05||||||Presence of a p \<0.05 as significant in the comparison of treatment with clinical symptoms the clinical modification and therapeutic failure of patients diagnosed with COVID-19|Chi-squared|||Assuming a difference in the percentage of effectiveness in the clinical modification and therapeutic failure of patients diagnosed with COVID-19 under treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol followed for 14 days followed by video call, with a power of 90%, a type I error rate of 1% and a loss to follow-up of 20%||||0.05
82460364|NCT04673214|164622674|SUPERIORITY|The null hypothesis is rejected with a mean duration of 2 days with clinical symptoms of COVID-19 in early intervention treatment as a result of improving the modification of the clinical evolution of symptoms vs therapeutic failure.||||||0.05|||||||t-test, 2 sided|||Assuming a difference in days of effectiveness in clinical modification and therapeutic failure of patients diagnosed with COVID-19 in treatment with Azithromycin / Ivermectin / Ribaroxaban / Paracetamol vs. Azithromycin / Ribaroxaban / Paracetamol followed for 14 days followed by video call, with a potency 90%, a Type I error rate of 1%, and a loss to follow-up of 20%||||0.05
82460365|NCT04673214|164622675|SUPERIORITY|A total of 62 patients was calculated, however due to the availability of medication, it was recalculated to 111 patients, that is, 65 cases in the triple therapy group and 46 in the double therapy group would be necessary for the analysis.||||||0.05|||||||Wilcoxon (Gehan) statistical test|||Assuming a 25% efficacy in modifying the clinical course (COVID-19 mild phase symptoms) of patients with COVID-19 under a comparative treatment for 14 days followed by video call, with a power of 90%, type I error rate 1% and loss to follow-up 20%||||0.05
82460366|NCT03585660|164622677|SUPERIORITY|||||||0.02|||||||bootstrap z-test|The standard error of the difference in accuracy was estimated using nonparametric bootstrap, with B=9999 resamples.||The null hypothesis is that the accuracy of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the accuracy of HM-MRI is greater than the accuracy of mp-MRI.||||0.02
82578303|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2247|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg BID||0.7|-0.2|0.2247
82578304|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4198|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.2|0.4198
82652399|NCT02637557|165019496|SUPERIORITY||LS Mean Difference|-0.008||||0.8829|TWO_SIDED|95.0|-0.109|0.094||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.094|-0.109|0.8829
82460367|NCT03585660|164622678|SUPERIORITY|||||||0.08|||||||bootstrap z-test|The standard error of the difference of AUCs was estimated using nonparametric bootstrap, with B=9999 resamples.||The null hypothesis is that the AUCs of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the AUC of HM-MRI is greater than the AUC of mp-MRI.||||0.08
82578305|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0146|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0146
82578306|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0662|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Normal work: Placebo vs Pregabalin 150 mg BID||0.0|-0.8|0.0662
82578307|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2282|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg QD||0.2|-0.7|0.2282
82578308|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7336|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.7336
82578309|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.524|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.5240
82578310|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1349|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1349
82578311|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0464|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs Pregabalin 150 mg BID||-0.0|-0.8|0.0464
82460368|NCT03585660|164622679|SUPERIORITY|||||||0.97|||||||bootstrap z-test|||The null hypothesis is that the sensitivity of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the sensitivity of HM-MRI is greater than the sensitivity of mp-MRI.||||0.97
82460369|NCT03585660|164622680|SUPERIORITY||||||<|0.01|||||||bootstrap z-test|||The null hypothesis is that the specificity of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the specificity of HM-MRI is greater than the specificity of mp-MRI.||||<0.01
82460370|NCT03585660|164622681|SUPERIORITY|The null hypothesis is that the PPV of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the PPV of HM-MRI is greater than the PPV of mp-MRI.||||||0.06|||||||bootstrap z-test|||||||0.06
82460371|NCT03585660|164622682|SUPERIORITY|The null hypothesis is that the NPV of HM-MRI and mp-MRI are the same and the alternative hypothesis is that the NPV of HM-MRI is greater than the NPV of mp-MRI.||||||0.97|||||||bootstrap z-test|||||||0.97
82460372|NCT05635461|164622683|OTHER||Geometric Mean Ratio|60.13|||||TWO_SIDED|90.0|56.12|64.42|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||64.42|56.12|
82460373|NCT05635461|164622684|OTHER||Geometric Mean Ratio|60.12|||||TWO_SIDED|90.0|56.12|64.42|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||64.42|56.12|
82460374|NCT05635461|164622685|OTHER||Geometric Mean Ratio|27.94|||||TWO_SIDED|90.0|25.09|31.13|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet fasted) and reference (CVN424 suspension fasted).|||31.13|25.09|
82460375|NCT05635461|164622686|OTHER||Median Difference (Final Values)|1.04|||<|0.0001|TWO_SIDED|90.0|0.9265|2.247|||ANOVA|||||2.2470|0.9265|<0.0001
82460376|NCT05635461|164622686|OTHER||Median Difference (Final Values)|2.78|||<|0.0001|TWO_SIDED|90.0|2.4475|3.0035|||ANOVA|||||3.0035|2.4475|<0.0001
82460377|NCT05635461|164622687|OTHER||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|0.0|0.0||||||||0.000|0.000|
82460378|NCT05635461|164622687|OTHER||Median Difference (Final Values)|0.25||||0.001|TWO_SIDED|90.0|0.0|0.251|||ANOVA|||||0.2510|0.0000|0.0010
82460379|NCT05635461|164622688|OTHER||Geometric Mean Ratio|161.57|||||TWO_SIDED|90.0|150.96|172.92|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||172.92|150.96|
82460380|NCT05635461|164622689|OTHER||Geometric Mean Ratio|161.59|||||TWO_SIDED|90.0|150.98|172.95|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||172.95|150.98|
82460381|NCT05635461|164622690|OTHER||Geometric Mean Ratio|304.19|||||TWO_SIDED|90.0|273.51|338.31|||||Geometric mean ratio was obtained by multiplying 100 with ratio of test (CVN424 tablet Fed) and reference (CVN424 tablet fasted).|||338.31|273.51|
82460382|NCT05635461|164622691|OTHER||Median Difference (Final Values)|0.99||||0.0662|TWO_SIDED|90.0|0.006|1.537|||ANOVA|||||1.5370|0.0060|0.0662
82460383|NCT05635461|164622692|OTHER||Median Difference (Final Values)|0.25||||0.0039|TWO_SIDED|90.0|0.0|0.251|||ANOVA|||||0.2510|0.0000|0.0039
82460384|NCT00861705|164622694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0018|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||The study was designed to detect an increase in the incidence of pCR from 35% in the control arm to 55% in the experimental arm using a 1-sided chi square test of proportions. With a target sample of 362 patients and assuming a 10% dropout rate, an overall assessable sample size of 326 patients resulted in \> 95% power.||||0.0018
82460385|NCT00861705|164622695|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0089|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||The study was designed to detect an increase in the incidence of pCR from 35% in the control arm to 55% in the experimental arm using a 1-sided chi square test of proportions. With a target sample of 362 patients and assuming a 10% dropout rate, an overall assessable sample size of 326 patients resulted in \> 95% power.||||0.0089
82460386|NCT00861705|164622696|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0029|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||||||0.0029
82460387|NCT00861705|164622697|SUPERIORITY_OR_OTHER_LEGACY|||||||0.057|||||||Chi-squared|Reported p-values are unadjusted and 1-sided||||||0.057
82460388|NCT00861705|164622701|SUPERIORITY||Cox Proportional Hazard|1.19|||||TWO_SIDED|95.0|0.67|2.1||||||||2.10|0.67|
82460389|NCT00861705|164622701|SUPERIORITY||Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.82|2.47||||||||2.47|0.82|
82460390|NCT00861705|164622701|SUPERIORITY||Cox Proportional Hazard|0.82|||||TWO_SIDED|95.0|0.49|1.37||||||||1.37|0.49|
82460391|NCT00861705|164622702|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.66|1.75||||||||1.75|0.66|
82460392|NCT00861705|164622702|SUPERIORITY||Cox Proportional Hazard|1.2|||||TWO_SIDED|95.0|0.74|1.92||||||||1.92|0.74|
82460393|NCT00861705|164622702|SUPERIORITY||Cox Proportional Hazard|0.82|||||TWO_SIDED|95.0|0.49|1.37||||||||1.37|0.49|
82460394|NCT00861705|164622703|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.66|2.03||||||||2.03|0.66|
82460395|NCT00861705|164622703|SUPERIORITY||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.72|2.16||||||||2.16|0.72|
82578312|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.0975|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.0975
82460396|NCT00861705|164622703|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.53|1.7||||||||1.70|0.53|
82460397|NCT02694744|164622728|OTHER||||||||||||||||||If the 95% confidence interval for the w/out food Arm overlapped the confidence interval for the w/ food Arm, the study will conclude that there is no evidence of a statistically significant difference between treatment arms.|||
82460398|NCT02694744|164622729|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.7893|TWO_SIDED|95.0|-0.17|0.22|||ANCOVA|||Estimation of mean change in serum potassium from Baseline to week 4.||0.22|-0.17|0.7893
82460399|NCT00079040|164622749|SUPERIORITY_OR_OTHER||Percentage|63.5|||||TWO_SIDED|90.0|52.4|73.6||||||||73.6|52.4|
82460400|NCT02898454|164622750|SUPERIORITY||LS mean difference|-0.87|||<|0.0001|TWO_SIDED|95.0|-1.03|-0.71|||ANCOVA|||Data was analyzed using a hybrid method of the worst-observation carried forward (WOCF) and multiple imputation (MI). The imputed completed data were analyzed by fitting ANCOVA model with the corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.71|-1.03|<0.0001
82460401|NCT02898454|164622751|SUPERIORITY||LS mean difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.51|||ANCOVA|||Data was analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.51|-2.10|<0.0001
82460402|NCT02898454|164622752|SUPERIORITY|Hierarchical testing procedure was used to control type I error. For regions outside of Japan, this first secondary endpoint was not tested unless both co-primary endpoints were significant at the 0.05 level. Hierarchical testing continued only when previous endpoint was statistically significant. For Japan submission, LMK was instead a co-primary endpoint which also had to be met before secondary endpoints were tested in the hierarchy. Last endpoint in hierarchy is Week 52 SNOT-22.|LS mean difference|-5.13|||<|0.0001|TWO_SIDED|95.0|-5.8|-4.46||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-4.46|-5.80|<0.0001
82460403|NCT02898454|164622753|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.44|||<|0.0001|TWO_SIDED|95.0|-2.87|-2.02||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.02|-2.87|<0.0001
82460404|NCT02898454|164622754|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|10.52|||<|0.0001|TWO_SIDED|95.0|8.98|12.07||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||12.07|8.98|<0.0001
82460405|NCT02898454|164622755|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.81||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.81|-1.15|<0.0001
82460406|NCT02898454|164622756|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-17.36|||<|0.0001|TWO_SIDED|95.0|-20.87|-13.85||Threshold for significance at 0.05 level.|ANCOVA|||Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline value, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-13.85|-20.87|<0.0001
82460407|NCT02898454|164622757|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.21|||<|0.0001|TWO_SIDED|95.0|-2.59|-1.83||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-1.83|-2.59|<0.0001
82542304|NCT03779048|164784126|OTHER|Correlation between baseline BIS-15 total score and 4-week percent weight loss.|r|0.03||||0.76|TWO_SIDED||||||Regression, Linear|||||||.76
82578313|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6088|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg BID||0.5|-0.3|0.6088
82578314|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7341|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.7341
82460408|NCT02898454|164622757|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.78|-2.03||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-2.03|-2.78|<0.0001
82460409|NCT02898454|164622758|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-1.11|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.92||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.92|-1.30|<0.0001
82542305|NCT03762668|164784149|NON_INFERIORITY|Noninferiority in VA was declared if the Upper Confidence Limit was less than 0.05.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.005|||ONE_SIDED|95.0||0.01|||mixed effects repeated measures model||test minus control|||0.01||
82578315|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0125|TWO_SIDED|95.0|0.1|0.9|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.1|0.0125
82578316|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.4|-0.5|||ANCOVA|||Sleep: Placebo vs Pregabalin 150 mg BID||-0.5|-1.4|<0.0001
82460410|NCT02898454|164622758|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.18|-0.8||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-0.80|-1.18|<0.0001
82460411|NCT02898454|164622759|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-21.36|||<|0.0001|TWO_SIDED|95.0|-25.45|-17.27||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w then q4w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-17.27|-25.45|<0.0001
82460412|NCT02898454|164622759|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if previous outcome measures were statistically significant).|LS mean difference|-20.73|||<|0.0001|TWO_SIDED|95.0|-24.81|-16.65||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs. Placebo|Data were analyzed using a hybrid method of the WOCF and MI. The imputed completed data were analyzed by fitting an ANCOVA model with corresponding baseline, treatment group, asthma/NSAID-ERD status, prior surgery history, and regions as covariates. Statistical inference obtained from all imputed data was combined using Rubin's rule.||-16.65|-24.81|<0.0001
82460413|NCT03071263|164622824|SUPERIORITY||||||<|0.0001||||||α-level 0.05. Stratified by baseline potassium category (4.3-\<4.7 mEq/L or 4.7-5.1 mEq/L) and history of Type 1 or Type 2 diabetes mellitus (Yes or No) as randomized|Cochran-Mantel-Haenszel|||A sample size of 280 subjects has 90% power to detect a difference between treatment groups of 20% or more in the proportion of subjects remaining on spironolactone at Week 12, at α = 0.05.||||<0.0001
82460414|NCT03071263|164622825|SUPERIORITY|||||||0.5757||||||Baseline AOBP SBP as a covariate and treatment group, baseline serum potassium (K+ 4.3-\<4.7 or 4.7-5.1 mEq/L), and history of Type 1 or Type 2 diabetes mellitus (Yes or No) as factors in the model.|ANCOVA|||||||0.5757
82460415|NCT03071263|164622826|SUPERIORITY|||||||0.6367||||||Baseline AOBP SBP as a covariate and treatment group, baseline serum potassium (K+ 4.3-\<4.7 or 4.7-5.1 mEq/L), and history of Type 1 or Type 2 diabetes mellitus as factors in the model.|ANCOVA|||The p-value is from a test comparing the difference between two groups in the mean change in AOBP SBP from baseline.||||0.6367
82460416|NCT04612725|164622843|SUPERIORITY||LS mean difference|-1.01||||0.3824|TWO_SIDED|95.0|-3.28|1.26||Change from baseline in ISS7 at Week 12= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.26|-3.28|0.3824
82460417|NCT04612725|164622843|SUPERIORITY||LS mean difference|-1.79||||0.1244|TWO_SIDED|95.0|-4.09|0.5||Change from baseline in ISS7 at Week 12= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.50|-4.09|0.1244
82460418|NCT04612725|164622844|SUPERIORITY||LS mean difference|-2.07||||0.4016|TWO_SIDED|95.0|-6.95|2.8||Change from baseline in UAS7 at Week 12= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.80|-6.95|0.4016
82578317|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg QD||-0.4|-1.3|0.0003
82460419|NCT04612725|164622844|SUPERIORITY||LS mean difference|-4.36||||0.0819|TWO_SIDED|95.0|-9.28|0.56||Change from baseline in UAS7 at Week 12= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.56|-9.28|0.0819
82460420|NCT04612725|164622844|SUPERIORITY||LS mean difference|-2.56||||0.3314|TWO_SIDED|95.0|-7.74|2.63||Change from baseline in UAS7 at Week 24= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.63|-7.74|0.3314
82460421|NCT04612725|164622844|SUPERIORITY||LS mean difference|-3.74||||0.1582|TWO_SIDED|95.0|-8.95|1.47||Change from baseline in UAS7 at Week 24= Treatment + baseline UAS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.47|-8.95|0.1582
82460422|NCT04612725|164622845|SUPERIORITY||LS mean difference|-1.62||||0.1995|TWO_SIDED|95.0|-4.1|0.86||Change from baseline in ISS7 at Week 24= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.86|-4.10|0.1995
82460423|NCT04612725|164622845|SUPERIORITY||LS mean difference|-1.76||||0.1654|TWO_SIDED|95.0|-4.25|0.73||Change from baseline in ISS7 at Week 24= Treatment + baseline ISS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.73|-4.25|0.1654
82460424|NCT04612725|164622846|SUPERIORITY||percentage difference|11.72||||0.1373|TWO_SIDED|95.0|-2.37|25.82||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||25.82|-2.37|0.1373
82460425|NCT04612725|164622846|SUPERIORITY||percentage difference|10.73||||0.1697|TWO_SIDED|95.0|-3.42|24.88||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||24.88|-3.42|0.1697
82460426|NCT04612725|164622846|SUPERIORITY||percentage difference|1.03||||0.9105|TWO_SIDED|95.0|-16.9|18.96||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||18.96|-16.90|0.9105
82460427|NCT04612725|164622846|SUPERIORITY||percentage difference|9.27||||0.3389|TWO_SIDED|95.0|-9.37|27.9||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||27.90|-9.37|0.3389
82460428|NCT04612725|164622847|SUPERIORITY||LS mean difference|-1.16||||0.4203|TWO_SIDED|95.0|-4.0|1.68||Change from baseline in HSS7 at Week 12= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.68|-4.00|0.4203
82578318|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.23||0.004|TWO_SIDED|95.0|-1.1|-0.2|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg BID||-0.2|-1.1|0.0040
82460429|NCT04612725|164622847|SUPERIORITY||LS mean difference|-2.6||||0.0754|TWO_SIDED|95.0|-5.46|0.27||Change from baseline in HSS7 at Week 12= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.27|-5.46|0.0754
82460430|NCT04612725|164622847|SUPERIORITY||LS mean difference|-1.06||||0.4772|TWO_SIDED|95.0|-4.01|1.89||Change from baseline in HSS7 at Week 24= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.89|-4.01|0.4772
82460431|NCT04612725|164622847|SUPERIORITY||LS mean difference|-2.0||||0.1851|TWO_SIDED|95.0|-4.96|0.97||Change from baseline in HSS7 at Week 24= Treatment + baseline HSS7 + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||0.97|-4.96|0.1851
82460432|NCT04612725|164622849|SUPERIORITY|||||||0.9678||||||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||||0.9678
82460433|NCT04612725|164622849|SUPERIORITY|||||||0.3689||||||Week 12: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||||0.3689
82460434|NCT04612725|164622849|SUPERIORITY||percentage difference|-3.43||||0.6624|TWO_SIDED|95.0|-18.96|12.11||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||12.11|-18.96|0.6624
82460435|NCT04612725|164622849|SUPERIORITY||percentage difference|0.28||||0.9726|TWO_SIDED|95.0|-15.84|16.4||Week 24: Estimates included treatment group, region (Europe, North America, Asia) and baseline UAS7.|Regression, Logistic|||||16.40|-15.84|0.9726
82460436|NCT04612725|164622851|SUPERIORITY||LS mean difference|-0.29||||0.7256|TWO_SIDED|95.0|-1.9|1.32||Change from baseline in UCT at Week 12= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.32|-1.90|0.7256
82460437|NCT04612725|164622851|SUPERIORITY||LS mean difference|1.09||||0.189|TWO_SIDED|95.0|-0.54|2.72||Change from baseline in UCT at Week 12= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.72|-0.54|0.1890
82578319|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.5801|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.3|0.5801
82460438|NCT04612725|164622851|SUPERIORITY||LS mean difference|-0.63||||0.5048|TWO_SIDED|95.0|-2.51|1.24||Change from baseline in UCT at Week 24= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.24|-2.51|0.5048
82460439|NCT04612725|164622851|SUPERIORITY||LS mean difference|0.99||||0.2991|TWO_SIDED|95.0|-0.89|2.88||Change from baseline in UCT at Week 24= Treatment + baseline UCT + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.88|-0.89|0.2991
82460440|NCT04612725|164622852|SUPERIORITY||LS mean difference|1.63||||0.5704|TWO_SIDED|95.0|-4.05|7.32||Change from baseline in CU-Q2oL at Week 12= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||7.32|-4.05|0.5704
82460441|NCT04612725|164622852|SUPERIORITY||LS mean difference|-2.24||||0.4416|TWO_SIDED|95.0|-7.98|3.5||Change from baseline in CU-Q2oL at Week 12= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.50|-7.98|0.4416
82460442|NCT04612725|164622852|SUPERIORITY||LS mean difference|1.47||||0.6591|TWO_SIDED|95.0|-5.09|8.02||Change from baseline in CU-Q2oL at Week 24= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||8.02|-5.09|0.6591
82460443|NCT04612725|164622852|SUPERIORITY||LS mean difference|-3.04||||0.3624|TWO_SIDED|95.0|-9.62|3.54||Change from baseline in CU-Q2oL at Week 24= Treatment + baseline CU-Q2oL + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.54|-9.62|0.3624
82460444|NCT04612725|164622853|SUPERIORITY||LS mean difference|0.48||||0.7037|TWO_SIDED|95.0|-2.02|2.98||Change from baseline in DLQI at Week 12= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||2.98|-2.02|0.7037
82460445|NCT04612725|164622853|SUPERIORITY||LS mean difference|-1.25||||0.332|TWO_SIDED|95.0|-3.78|1.29||Change from baseline in DLQI at Week 12= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.29|-3.78|0.3320
82460446|NCT04612725|164622853|SUPERIORITY||LS mean difference|1.24||||0.359|TWO_SIDED|95.0|-1.42|3.9||Change from baseline in DLQI at Week 24= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||3.90|-1.42|0.3590
82460447|NCT04612725|164622853|SUPERIORITY||LS mean difference|-0.88||||0.5175|TWO_SIDED|95.0|-3.56|1.8||Change from baseline in DLQI at Week 24= Treatment + baseline DLQI + region (Europe, North America, Asia) + visit + treatment by visit.|Mixed-effect model for repeated measures|||||1.80|-3.56|0.5175
82460448|NCT02354235|164622856|SUPERIORITY||Least Squares Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-1.15|-0.6|||ANCOVA|||||-0.60|-1.15|<0.001
82460449|NCT02354235|164622857|SUPERIORITY||Least Squares Mean Difference|-38.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-48.5|-29.2|||ANCOVA|||||-29.2|-48.5|<0.001
82460450|NCT02354235|164622858|SUPERIORITY||Least Squares Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.2|-1.45|||ANCOVA|||||-1.45|-3.20|<0.001
82460451|NCT02354235|164622859|SUPERIORITY||Least Squares Mean Difference|-100.3|STANDARD_ERROR_OF_MEAN|11.1|<|0.001|TWO_SIDED|95.0|-122.2|-78.4|||ANCOVA|||||-78.4|-122.2|<0.001
82460452|NCT02354235|164622860|SUPERIORITY||Least Squares Mean Difference|-50.9|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-64.9|-36.9|||ANCOVA|||||-36.9|-64.9|<0.001
82460453|NCT03069352|164622861|SUPERIORITY||Hazard Ratio (HR)|0.749||||0.114|TWO_SIDED|95.0|0.524|1.071|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||1.071|0.524|0.114
82578320|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.23||0.1869|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1869
82460454|NCT03069352|164622861|SUPERIORITY||Hazard Ratio (HR)|0.743||||0.103|TWO_SIDED|95.0|0.521|1.061|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||1.061|0.521|0.103
82460455|NCT03069352|164622862|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
82460456|NCT03069352|164622862|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460457|NCT03069352|164622863|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
82460458|NCT03069352|164622863|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460459|NCT03069352|164622864|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
82460460|NCT03069352|164622864|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460461|NCT03069352|164622865|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
82460462|NCT03069352|164622865|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460463|NCT03069352|164622866|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||<0.001
82460464|NCT03069352|164622866|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460465|NCT03069352|164622867|OTHER||LS Mean Difference|-4.507|STANDARD_ERROR_OF_MEAN|2.068|||TWO_SIDED|95.0|-8.6|-0.41|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 3, Day 1||-0.41|-8.60|
82460466|NCT03069352|164622867|OTHER||LS Mean Difference|-4.923|STANDARD_ERROR_OF_MEAN|2.58|||TWO_SIDED|95.0|-10.03|0.19|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 5 Day 1||0.19|-10.03|
82460467|NCT03069352|164622867|OTHER||LS Mean Difference|-0.807|STANDARD_ERROR_OF_MEAN|2.609|||TWO_SIDED|95.0|-5.98|4.36|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 7 Day 1||4.36|-5.98|
82460468|NCT03069352|164622867|OTHER||LS Mean Difference|-1.648|STANDARD_ERROR_OF_MEAN|3.176|||TWO_SIDED|95.0|-7.94|4.64|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 9 day 1||4.64|-7.94|
82460469|NCT03069352|164622867|SUPERIORITY|||||||0.126|||||||Linear Mixed Effects Regression Model|Model included AML status (de novo vs. secondary), age (18-\< 75 vs. ≥ 75), treatment arm, time, and treatment arm by time interaction as fixed factors||A linear mixed effects regression model with a variable covariance structure was fitted to the longitudinal data (considering all time points) to test for differences between treatment arms.||||0.126
82460470|NCT03069352|164622868|OTHER||LS Mean Difference|2.917|STANDARD_ERROR_OF_MEAN|4.617|||TWO_SIDED|95.0|-6.23|12.06|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 3 Day 1||12.06|-6.23|
82460471|NCT03069352|164622868|OTHER||LS Mean Difference|13.388|STANDARD_ERROR_OF_MEAN|5.659|||TWO_SIDED|95.0|2.18|24.59|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 5 Day 1||24.59|2.18|
82460472|NCT03069352|164622868|OTHER||LS Mean Difference|7.119|STANDARD_ERROR_OF_MEAN|6.031|||TWO_SIDED|95.0|-4.83|19.06|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 7 Day 1||19.06|-4.83|
82460473|NCT03069352|164622868|OTHER||LS Mean Difference|6.381|STANDARD_ERROR_OF_MEAN|7.511|||TWO_SIDED|95.0|-8.49|21.26|||||A linear mixed-effects regression model with a covariance structure including baseline score, stratification factors (age and AML status) treatment arm, visit, and treatment arm by visit interaction.|Cycle 9 Day 1||21.26|-8.49|
82542306|NCT00773370|164784151|SUPERIORITY_OR_OTHER||difference between slopes|8.43|STANDARD_DEVIATION|7.17|<|0.25|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||<0.25
82460474|NCT03069352|164622868|SUPERIORITY|||||||0.085|||||||Linear Mixed Effects Regression Model|Model included AML status (de novo vs. secondary), age (18-\< 75 vs. ≥ 75), treatment arm, time, and treatment arm by time interaction as fixed factors||A linear mixed effects regression model with a variable covariance structure was fitted to the longitudinal data (considering all time points) to test for differences between treatment arms.||||0.085
82460475|NCT03069352|164622869|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.002|TWO_SIDED|95.0|0.416|0.817|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||0.817|0.416|0.002
82460476|NCT03069352|164622869|SUPERIORITY||Hazard Ratio (HR)|0.601||||0.003|TWO_SIDED|95.0|0.43|0.839|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||0.839|0.430|0.003
82460477|NCT03069352|164622870|SUPERIORITY||Treatment Difference|22.9||||0.001|TWO_SIDED|95.0|10.8|35.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).|Treatment difference = Venetoclax - Placebo|||35.0|10.8|0.001
82460478|NCT03069352|164622870|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82460479|NCT03069352|164622871|SUPERIORITY||Treatment Difference|15.2||||0.04|TWO_SIDED|95.0|1.4|29.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).|Treatment difference = Venetoclax - Placebo|||29.0|1.4|0.040
82460480|NCT03069352|164622871|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
82460481|NCT03069352|164622872|SUPERIORITY||Treatment Difference|22.4|||||TWO_SIDED|95.0|9.0|35.8||||||||35.8|9.0|
82460482|NCT03069352|164622873|SUPERIORITY||Slope|17.7|||||TWO_SIDED|95.0|-0.4|35.8||||||||35.8|-0.4|
82542307|NCT00773370|164784151|SUPERIORITY_OR_OTHER||Slope|14.95|STANDARD_DEVIATION|4.92|<|0.004|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||<0.004
82652400|NCT02637557|165019496|SUPERIORITY||LS Mean Difference|0.1||||0.0527|TWO_SIDED|95.0|-0.001|0.201||P-values are based on a pairwise comparison versus placebo in an ANCOVA model with fixed effect terms for treatment group and esophagitis stratum and baseline value as covariate.|ANCOVA|||||0.201|-0.001|0.0527
82460483|NCT03069352|164622874|SUPERIORITY|||||||0.162|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||0.162
82542308|NCT00773370|164784151|SUPERIORITY_OR_OTHER||Slope|6.52|STANDARD_DEVIATION|5.13||0.218|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.218
82542309|NCT00773370|164784152|SUPERIORITY_OR_OTHER||Difference between slopes|0.186|STANDARD_DEVIATION|0.256||0.47|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||.47
82542310|NCT00773370|164784152|SUPERIORITY_OR_OTHER||Slope|0.215|STANDARD_DEVIATION|0.175||0.225|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.225
82542311|NCT00773370|164784152|SUPERIORITY_OR_OTHER||Slope|0.029|STANDARD_DEVIATION|0.187||0.88|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.88
82542312|NCT00773370|164784153|SUPERIORITY_OR_OTHER||Difference between slopes|0.002|STANDARD_DEVIATION|0.078||0.98|TWO_SIDED|||||Random effects ANOVA with random intercept and random slope compared the time course (slopes) of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.|ANOVA|||||||.98
82542313|NCT00773370|164784153|SUPERIORITY_OR_OTHER||Slope|0.033|STANDARD_DEVIATION|0.054||0.54|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.54
82542314|NCT00773370|164784153|SUPERIORITY_OR_OTHER||Slope|0.031|STANDARD_DEVIATION|0.057||0.59|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||Within group change over time||||.59
82542315|NCT00773370|164784154|SUPERIORITY_OR_OTHER||Slope|0.296|STANDARD_DEVIATION|9.77||0.98|TWO_SIDED||||||ANOVA|||Random effects ANOVA with random intercept and random slope was used to compare the time course of change in our outcome measures across three time points: baseline, three, and six-months in our two experimental groups--APA-stroke and Sittercise.||||.98
82542316|NCT00773370|164784154|SUPERIORITY_OR_OTHER||Slope|15.49|STANDARD_DEVIATION|6.19||0.02|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||||||.02
82542317|NCT00773370|164784154|SUPERIORITY_OR_OTHER||Slope|15.193|STANDARD_DEVIATION|7.553||0.051|TWO_SIDED|||||Random effects ANOVA, random intercept, random slope estimating within group change (slope) over time|ANOVA|||||||.051
82542318|NCT01786564|164784192|OTHER|This is cross-sectional analysis in a single group.|Regression Coefficient|-0.075||||0.13|TWO_SIDED|95.0|-0.173|0.023||Unadjusted association. A priori p value of .05 was selected for statistical significance.|Regression, Linear|||The cross-sectional association between habitual sleep duration and oral disposition index was analyzed.||.023|-.173|.13
82542319|NCT01786564|164784192|OTHER|This is cross-sectional analysis|Regression Coefficient|0.12||||0.83|TWO_SIDED|95.0|-0.95|1.19||Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression, Linear|Unadjusted.||The cross-sectional association between habitual sleep quality (sleep percentage) and oral disposition index was analyzed.||1.19|-0.95|.83
82542320|NCT01786564|164784192|OTHER|This is cross-sectional analysis in a single group.|Regression Coefficient|-0.05||||0.39|TWO_SIDED|95.0|-0.166|0.66||Unadjusted association. A priori p value of .05 was selected for statistical significance.|Regression, Linear|Unadjusted||The cross-sectional association between amount of Stage 3 sleep and oral disposition index was analyzed.||0.66|-.166|.39
82542321|NCT01786564|164784192|OTHER|Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression Coefficient|-0.058||||0.11|TWO_SIDED|95.0|-0.129|0.014||Unadjusted association. P value of .05 was selected a priori as statistical significance|Regression, Linear|Unadjusted association.||The cross-sectional association between amount of REM sleep and oral disposition index was analyzed.||.014|-.129|.11
82542322|NCT03034915|164784213|OTHER||Mean Difference (Net)|0.066|STANDARD_ERROR_OF_MEAN|0.0118|<|0.001|TWO_SIDED|95.0|0.043|0.089|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.089|0.043|<0.001
82542323|NCT03034915|164784213|OTHER||Mean Difference (Net)|0.141|STANDARD_ERROR_OF_MEAN|0.0117|<|0.001|TWO_SIDED|95.0|0.118|0.164|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.164|0.118|<0.001
82542324|NCT03034915|164784213|OTHER||Mean Difference (Net)|0.075|STANDARD_ERROR_OF_MEAN|0.0119|<|0.001|TWO_SIDED|95.0|0.051|0.098|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||0.098|0.051|<0.001
82542325|NCT03034915|164784214|OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.157||0.018|TWO_SIDED|95.0|0.06|0.68|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.68|0.06|0.018
82542326|NCT03034915|164784214|OTHER||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|0.155||0.004|TWO_SIDED|95.0|0.15|0.76|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.76|0.15|0.004
82542327|NCT03034915|164784214|OTHER||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.159||0.61|TWO_SIDED|95.0|-0.23|0.39|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24|||0.39|-0.23|0.610
82460484|NCT03069352|164622874|SUPERIORITY|||||||0.277|||||||Fisher Exact|||||||0.277
82460485|NCT03069352|164622875|SUPERIORITY|||||||0.162|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (18 - \< 75, ≥ 75) and AML status (de novo, secondary).||||||0.162
82460486|NCT03069352|164622875|SUPERIORITY|||||||0.277|||||||Fisher Exact|||||||0.277
82460487|NCT03069352|164622879|OTHER||Hazard Ratio (HR)|0.704||||0.04|TWO_SIDED|95.0|0.503|0.985|||Log Rank|Log-rank test stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|The hazard ratio was estimated using the Cox proportional hazards model, stratified by AML status (de novo, secondary) and age (18 - \< 75, ≥ 75).|||0.985|0.503|0.040
82460488|NCT03069352|164622879|OTHER||Hazard Ratio (HR)|0.717||||0.049|TWO_SIDED|95.0|0.514|1.0|||Log Rank|Unstratified analysis|The hazard ratio was estimated using the Cox proportional hazards model.|||1.000|0.514|0.049
82460489|NCT01928927|164622915|SUPERIORITY||Theta statistic|0.5||||0.97|TWO_SIDED|95.0|0.26|0.73||No adjustment for multiple comparisons|Theta statistic; DeLong & Clarke-Pearson||The theta statistic estimates the probability that a randomly selected outcome from the telmisartan arm is \<= a randomly selected outcome from the control arm.|Null hypothesis: theta = 0.50||0.73|0.26|0.97
82460490|NCT01928927|164622916|SUPERIORITY||Theta statistic|0.57||||0.61|TWO_SIDED|95.0|0.31|0.83||No adjustment for multiple comparisons|Theta statistic; DeLong & Clarke-Pearson||The theta statistic estimates the probability that a randomly selected outcome from the telmisartan arm is \<= a randomly selected outcome from the control arm.|Null hypothesis: theta = 0.50||0.83|0.31|0.61
82460491|NCT02649556|164622983|OTHER||LS Mean Difference|1.75|||||TWO_SIDED|95.0|-0.16|3.65||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of HDL-C levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|3.65|-0.160|
82460492|NCT02649556|164622984|OTHER||LS Mean Difference|-0.413|||||TWO_SIDED|95.0|-0.694|-0.131||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of White Blood Cell counts between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|-0.131|-0.694|
82578321|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0002|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|||Enjoyment of life: Placebo vs Pregabalin 150 mg BID||-0.4|-1.3|0.0002
82460493|NCT02649556|164622985|OTHER||LS Mean Difference|0.914|||||TWO_SIDED|95.0|-0.339|2.17||||||"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of LS Mean difference of FEV1 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on original values with visit, baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|2.17|-0.339|
82542328|NCT03034915|164784215|OTHER||Odds Ratio (OR)|1.43|||<|0.001|TWO_SIDED|95.0|1.17|1.75|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI vs UMEC at Week 24|||1.75|1.17|<0.001
82542329|NCT03034915|164784215|OTHER||Odds Ratio (OR)|1.48|||<|0.001|TWO_SIDED|95.0|1.21|1.81|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24|||1.81|1.21|<0.001
82578322|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0271|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg QD||-0.1|-0.9|0.0271
82460494|NCT02649556|164622986|OTHER||% Relative Reduction|3.11|||||TWO_SIDED|95.0|0.0231|6.1|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of sICAM-1 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|6.10|0.0231|
82460495|NCT02649556|164622987|OTHER||% Relative Reduction|3.44|||||TWO_SIDED|95.0|-8.74|14.3|||||Derived as 100 x (1-Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of 11-DTXB2 levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|14.3|-8.74|
82542330|NCT03034915|164784215|OTHER||Odds Ratio (OR)|1.03||||0.755|TWO_SIDED|95.0|0.84|1.27|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.27|0.84|0.755
82542331|NCT03034915|164784216|OTHER||Mean Difference (Net)|-0.53|STANDARD_ERROR_OF_MEAN|0.213||0.013|TWO_SIDED|95.0|-0.95|-0.11|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24|||-0.11|-0.95|0.013
82542332|NCT03034915|164784216|OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.211|<|0.001|TWO_SIDED|95.0|-1.25|-0.42|||Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24..|||-0.42|-1.25|<0.001
82542333|NCT03034915|164784216|OTHER||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.214||0.159|TWO_SIDED|95.0|-0.72|0.12|||Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24|||0.12|-0.72|0.159
82578323|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.1123|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg BID||0.1|-0.8|0.1123
82652401|NCT01711021|165019503|SUPERIORITY||Least Square (LS) mean difference|-5.87|||<|0.001|TWO_SIDED|95.0|-6.76|-4.97|||Mixed Models Analysis|Mixed model repeated measure (MMRM) analysis for SKAMP total score in Double-Blind period||||-4.97|-6.76|< 0.001
82652402|NCT01711021|165019505|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82460496|NCT02649556|164622988|OTHER||% Relative Reduction|7.15|||||TWO_SIDED|95.0|-1.03|14.7|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of 8-epi-PGF2α levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|14.7|-1.03|
82542334|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.114||0.016|TWO_SIDED|95.0|-0.5|-0.05||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24.|||-0.05|-0.50|0.016
82542335|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-0.68|-0.23||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||-0.23|-0.68|<0.001
82542336|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.115||0.115|TWO_SIDED|95.0|-0.41|0.04||E-RS Breathlessness Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.04|-0.41|0.115
82542337|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.063||0.247|TWO_SIDED|95.0|-0.2|0.05||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24.|||0.05|-0.20|0.247
82542338|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.063||0.042|TWO_SIDED|95.0|-0.25|0.0||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||0.00|-0.25|0.042
82542339|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.063||0.391|TWO_SIDED|95.0|-0.18|0.07||E-RS Cough and Sputum Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.07|-0.18|0.391
82542340|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.014|TWO_SIDED|95.0|-0.31|-0.04||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 21 to Week 24|||-0.04|-0.31|0.014
82542341|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.37|-0.1||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comapring UMEC/VI versus salmeterol at Week 21 to Week 24.|||-0.10|-0.37|<0.001
82542342|NCT03034915|164784217|OTHER||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.34|TWO_SIDED|95.0|-0.2|0.07||E-RS Chest Symptoms Score|Mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 21 to Week 24.|||0.07|-0.20|0.340
82542343|NCT03034915|164784218|OTHER||Odds Ratio (OR)|1.52|||<|0.001|TWO_SIDED|95.0|1.22|1.89|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI vs UMEC at Week 21 to Week 24|||1.89|1.22|<0.001
82542344|NCT03034915|164784218|OTHER||Odds Ratio (OR)|1.53|||<|0.001|TWO_SIDED|95.0|1.23|1.9|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 21 to Week 24.|||1.90|1.23|<0.001
82542345|NCT03034915|164784218|OTHER||Odds Ratio (OR)|1.0||||0.969|TWO_SIDED|95.0|0.8|1.26|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 21 to Week 24.|||1.26|0.80|0.969
82542346|NCT03034915|164784219|OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.672||0.709|TWO_SIDED|95.0|-1.07|1.57|||mixed model repeated measure||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||1.57|-1.07|0.709
82542347|NCT03034915|164784219|OTHER||Mean Difference (Net)|-1.69|STANDARD_ERROR_OF_MEAN|0.665||0.011|TWO_SIDED|95.0|-2.99|-0.39|||mixed model repeated measure||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||-0.39|-2.99|0.011
82542348|NCT03034915|164784219|OTHER||Mean Difference (Net)|-1.94|STANDARD_ERROR_OF_MEAN|0.678||0.004|TWO_SIDED|95.0|-3.27|-0.61|||mixed model repeated measure||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||-0.61|-3.27|0.004
82542349|NCT03034915|164784220|OTHER||Odds Ratio (OR)|1.21||||0.063|TWO_SIDED|95.0|0.99|1.48|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus UMEC at Week 24.|||1.48|0.99|0.063
82542350|NCT03034915|164784220|OTHER||Odds Ratio (OR)|1.49|||<|0.001|TWO_SIDED|95.0|1.22|1.83|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24.|||1.83|1.22|<0.001
82542351|NCT03034915|164784220|OTHER||Odds Ratio (OR)|1.23||||0.045|TWO_SIDED|95.0|1.0|1.51|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.51|1.00|0.045
82542352|NCT03034915|164784221|OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.891|TWO_SIDED|95.0|-0.6|0.6|||mixed model repeated measures||LS Mean difference comparing UMEC/VI versus UMEC at Week 24.|||0.6|-0.6|0.891
82542353|NCT03034915|164784221|OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.074|TWO_SIDED|95.0|-1.1|0.1|||mixed model repeated measures||LS Mean difference comparing UMEC/VI versus salmeterol at Week 24.|||0.1|-1.1|0.074
82542354|NCT03034915|164784221|OTHER||Odds Ratio (OR)|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.107|TWO_SIDED|95.0|-1.1|0.1|||mixed model repeated measures||LS Mean difference comparing UMEC versus salmeterol at Week 24.|||0.1|-1.1|0.107
82542355|NCT03034915|164784222|OTHER||Odds Ratio (OR)|1.35||||0.003|TWO_SIDED|95.0|1.11|1.65|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus UMEC at Week 24.|||1.65|1.11|0.003
82652403|NCT01844583|165019512|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.14|||||TWO_SIDED|90.0|0.97|1.35|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.35|0.97|
82460497|NCT02649556|164622989|OTHER||% Relative Reduction|46.3|||||TWO_SIDED|95.0|36.2|54.8|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of Total NNAL levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect|54.8|36.2|
82460498|NCT02649556|164622990|OTHER||% Relative Reduction|31.7|||||TWO_SIDED|95.0|23.3|39.1|||||Derived as 100 x (1 - Geometric LS Mean Ratio)|"The analysis will determine the effect of THS 2.2 compared to CC at Month 12 on the components of the smokers' health profile. This study has no formal pre-specified hypotheses associated with the study objectives. Estimates of THS 2.2 effect will be presented by mean of relative reduction of COHb levels between CC and THS 2.2 and related 95% CI."|Mixed model conducted on log-transformed values with visit, log-transformed baseline value and its interaction with visit, sex, Caucasian origin, product use pattern category and its interaction with visit, and other baseline covariates relevant for the specific clinical risk endpoint as fixed effect factors and site as a random effect.|39.1|23.3|
82460499|NCT03349723|164622992|OTHER||Slope|0.9806|STANDARD_ERROR_OF_MEAN|0.0322|||TWO_SIDED|95.0|0.9155|1.0457|||||Based on the estimate for the slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate.||1.0457|0.9155|
82542356|NCT03034915|164784222|OTHER||Odds Ratio (OR)|1.23||||0.037|TWO_SIDED|95.0|1.01|1.5|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC/VI versus salmeterol at Week 24.|||1.50|1.01|0.037
82542357|NCT03034915|164784222|OTHER||Odds Ratio (OR)|0.91||||0.363|TWO_SIDED|95.0|0.75|1.11|||generalized linear mixed model||Odds Ratio (responder vs. a non-responder) comparing UMEC versus salmeterol at Week 24.|||1.11|0.75|0.363
82542358|NCT03593213|164784224|SUPERIORITY||Hazard Ratio (HR)|0.56|||=|0.1576|TWO_SIDED|95.0|0.25|1.29||The significance level was 0.05 using the log rank test.|Log Rank||Hazard ratio (cariprazine 3.0 or 4.5 mg/day vs. placebo) was based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||1.29|0.25|=0.1576
82542359|NCT03593213|164784224|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.2066|TWO_SIDED|95.0|0.26|1.45||The significance level was 0.05 using the log rank test.|Log Rank||Hazard ratio (cariprazine 3.0 or 4.5 mg/day vs. placebo) was based on Cox proportional hazards regression model, with treatment group as an explanatory variable.|||1.45|0.26|=0.2066
82542360|NCT01254019|164784276|SUPERIORITY||Mean Difference (Net)|10.334||||0.415|TWO_SIDED|95.0|-14.645|35.312||Statistical significance was assessed at the 5% level.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||35.312|-14.645|0.415
82542361|NCT01254019|164784277|SUPERIORITY||Mean Difference (Net)|-0.53||||0.757|TWO_SIDED|95.0|-3.95|2.88||Statistical significance (SS) was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||2.88|-3.95|0.757
82542362|NCT01254019|164784278|SUPERIORITY||Mean Difference (Net)|-0.021||||0.718|TWO_SIDED|95.0|-0.137|0.095||SS was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.095|-0.137|0.718
82542363|NCT01254019|164784279|SUPERIORITY||Mean Difference (Net)|-0.009||||0.881|TWO_SIDED|95.0|-0.129|0.111||SS was only to be assessed if a statistically significant difference was observed for the primary and any secondary endpoints higher in the pre-defined hierarchy. Hence conclusions with regards to SS should not be made.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.111|-0.129|0.881
82542364|NCT01254019|164784280|SUPERIORITY||Mean Difference (Net)|-1.115||||0.658|TWO_SIDED|95.0|-6.097|3.866||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||3.866|-6.097|0.658
82542365|NCT01254019|164784281|SUPERIORITY||Mean Difference (Net)|0.041||||0.513|TWO_SIDED|95.0|-0.082|0.164||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||0.164|-0.082|0.513
82542366|NCT01254019|164784282|SUPERIORITY||Mean Difference (Net)|-0.965||||0.769|TWO_SIDED|95.0|-7.446|5.516||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||5.516|-7.446|0.769
82542367|NCT01254019|164784285|SUPERIORITY||Mean Difference (Net)|-4044.99||||0|TWO_SIDED|95.0|-5232.21|-2857.77||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Effect Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo||-2857.77|-5232.21|0.000
82460500|NCT03349723|164622993|OTHER||Slope|0.9892|STANDARD_ERROR_OF_MEAN|0.0339|||TWO_SIDED|95.0|0.9207|1.0577|||||Based on the estimate for the slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate.||1.0577|0.9207|
82460501|NCT03409796|164622994|OTHER|||||||0.385|||||||t-test, 1 sided|||Gluten 3 gram: Baseline versus Day 15. Change in Vh:Cd follows a normal distribution. A 1-sided paired t-test was used to compare Baseline and follow-up Vh:Cd measures. The normality assumption was checked using the Shapiro-Wilk test. If the data was not normal at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare Vh:CdBaseline (B) and Vh:Cd15.||||0.385
82460502|NCT03409796|164622994|OTHER|||||||0.003|||||||t-test, 1 sided|||Gluten 10 gram: Baseline versus Day 15. Change in Vh:Cd follows a normal distribution. A 1-sided paired t-test was used to compare Baseline and follow-up Vh:Cd measures. The normality assumption was checked using the Shapiro-Wilk test. If the data was not normal at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare Vh:CdB and Vh:Cd15.||||0.003
82460503|NCT03409796|164622995|OTHER|||||||0.01|||||||Poisson distribution|||Gluten 3 gram: Baseline versus Day 15. The Poisson distribution assumption was checked using Kolmogorov-Smirnov test. Poisson generalized linear mixed models (GLMM) was fitted to data, where IEL measurements were grouped by participant (the random effect) and the change in IEL counts was the fixed effect. If the data was found to not be Poisson at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare IELB and IEL15.||||0.010
82460504|NCT03409796|164622995|OTHER|||||||0.006|||||||Poisson distribution|||Gluten 10 gram: Baseline versus Day 15. The Poisson distribution assumption was checked using Kolmogorov-Smirnov test. Poisson GLMM was fitted to data, where IEL measurements were grouped by participant (the random effect) and the change in IEL counts was the fixed effect. If the data was found to not be Poisson at alpha=0.05, a 1-sided Wilcoxon signed-rank test was used instead to compare IELB and IEL15.||||0.006
82460505|NCT00960622|164623012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|8.5|<|0.05|TWO_SIDED|95.0|-6.3|11.3|||t-test, 2 sided|||"Paired t-tests for inter-group differences between baseline and end-of-study measurements.Regression analysis, physiological correlates of statistically significant between-group changes.~P\<0.05 chosen for statistical significance"||11.3|-6.3|<0.05
82542368|NCT01254019|164784291|SUPERIORITY||Mean Difference (Net)|0.0288||||0.207|TWO_SIDED|95.0|-0.0161|0.0738||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo, HUI2 at Week 48||0.0738|-0.0161|0.207
82542369|NCT01254019|164784291|SUPERIORITY||Mean Difference (Net)|0.0048||||0.88|TWO_SIDED|95.0|-0.058|0.0676||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance.|Mixed Model for Repeated Measures|Model included terms for treatment, visit, treatment by visit, country grouping, Baseline and Baseline by visit.||GSK2402968 6mg/kg/week Vs Placebo, HUI3 at Week 48||0.0676|-0.0580|0.880
82542370|NCT03061474|164784300|SUPERIORITY|||||||0.6096|||||||ANCOVA|||||||0.6096
82542371|NCT03061474|164784310|SUPERIORITY|||||||0.648|||||||ANCOVA|||||||0.648
82542372|NCT03061474|164784311|SUPERIORITY|||||||0.6833|||||||ANCOVA|||||||0.6833
82542373|NCT03061474|164784312|SUPERIORITY|||||||0.4438|||||||ANCOVA|||||||0.4438
82542374|NCT03061474|164784313|SUPERIORITY|||||||0.7158|||||||ANCOVA|||||||0.7158
82542375|NCT03061474|164784314|SUPERIORITY|||||||0.93428359|||||||ANCOVA|||||||0.93428359
82542376|NCT03061474|164784315|SUPERIORITY|||||||0.9931|||||||ANCOVA|||||||0.9931
82542377|NCT03061474|164784316|SUPERIORITY|||||||0.3233|||||||Mixed Models Analysis|||||||0.3233
82542378|NCT03061474|164784317|SUPERIORITY|||||||0.1008|||||||Mixed Models Analysis|||||||0.1008
82460506|NCT03270436|164623013|SUPERIORITY|||||||0.3599||||||The p-value above reflects results of between-arms analysis of change in mean weight from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3599
82460507|NCT03270436|164623013|SUPERIORITY|||||||0.3207||||||The p-value above reflects results of between-arms analysis of change in mean weight from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3207
82460508|NCT03270436|164623014|SUPERIORITY|||||||0.5698||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.5698
82542379|NCT03061474|164784318|SUPERIORITY|||||||0.0323|||||||Mixed Models Analysis|||||||0.0323
82542380|NCT01391130|164784322|SUPERIORITY||Hazard Ratio (HR)|1.2149||||0.4318|TWO_SIDED|95.0|0.7462|1.9779|||Log Rank|||||1.9779|0.7462|0.4318
82542381|NCT00189202|164784327|EQUIVALENCE|Equivalence margin 8% plus or minus 4.||||||0.28|||||||Mantel Haenszel|||||||0.28
82542382|NCT00189202|164784328|OTHER|||||||0.7|||||||Kaplan-Meier|||||||0.70
82542383|NCT03260140|164784339|SUPERIORITY||Mean Difference (Final Values)|-1.93||||0.001|TWO_SIDED|97.5|-3.24|-0.61|||Mixed Models Analysis|Difference in average weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month weight between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||-0.61|-3.24|0.001
82542384|NCT03260140|164784340|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.388|TWO_SIDED|97.5|-1.11|2.49|||Mixed Models Analysis|Difference in average SF-12 PCS score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the 12-month SF-12 PCS between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.49|-1.11|0.388
82460509|NCT03270436|164623014|SUPERIORITY|||||||0.4106||||||The p-value above reflects results of between-arms analysis of mean change in HbA1c from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4106
82578324|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1183|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.1183
82578325|NCT02187159|164865878|SUPERIORITY||Difference in least squares means|0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0299|TWO_SIDED|95.0|0.0|0.9|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|0.0|0.0299
82652404|NCT01844583|165019513|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.25|||||TWO_SIDED|90.0|1.08|1.45|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.45|1.08|
82460510|NCT03270436|164623015|SUPERIORITY|||||||0.0293||||||The p-value above reflects results of between-arms analysis of mean change in systolic blood pressure from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.0293
82460511|NCT03270436|164623015|SUPERIORITY|||||||0.4686||||||The p-value above reflects results of between-arms analysis of mean change in systolic blood pressure from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4686
82460512|NCT03270436|164623016|SUPERIORITY|||||||0.0068||||||The p-value above reflects results of between-arms analysis of mean change in diastolic blood pressure from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.0068
82460513|NCT03270436|164623016|SUPERIORITY|||||||0.9181||||||The p-value above reflects results of between-arms analysis of mean change in diastolic blood pressure from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.9181
82460514|NCT03270436|164623017|SUPERIORITY|||||||0.5984||||||The p-value above reflects results of between-arms analysis of mean change in sugar-sweetened beverages consumed per day from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.5984
82460515|NCT03270436|164623017|SUPERIORITY|||||||0.3376||||||The p-value above reflects results of between-arms analysis of mean change in sugar-sweetened beverages consumed per day from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.3376
82652405|NCT01844583|165019514|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.28|||||TWO_SIDED|90.0|1.07|1.53|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.53|1.07|
82460516|NCT03270436|164623018|SUPERIORITY|||||||0.296||||||The p-value above reflects results of between-arms analysis of mean change in fruit \& vegetable consumption scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.2960
82460517|NCT03270436|164623018|SUPERIORITY|||||||0.1519||||||The p-value above reflects results of between-arms analysis of mean change in fruit \& vegetable consumption scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1519
82460518|NCT03270436|164623019|SUPERIORITY|||||||0.2824||||||The p-value above reflects results of between-arms analysis of change from baseline to immediate post-intervention. Analyses do not include imputed values.|Mantel Haenszel|The model includes only the study arm and time interaction.||Adjusted repeated measures generalized estimating equations (GEE) model.||||0.2824
82460519|NCT03270436|164623019|SUPERIORITY|||||||0.7547||||||The p-value above reflects results of between-arms analysis of change from baseline to 6 months post-intervention. Analyses do not include imputed values.|Mantel Haenszel|The model includes only the study arm and time interaction.||Adjusted repeated measures generalized estimating equations (GEE) model.||||0.7547
82460520|NCT03270436|164623020|SUPERIORITY|||||||0.6928||||||The p-value above reflects results of between-arms analysis of mean change in eating self-efficacy scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.6928
82578326|NCT02187159|164865879|SUPERIORITY||Difference in least squares means|-0.015|STANDARD_ERROR_OF_MEAN|0.0249||0.5578|TWO_SIDED|95.0|-0.063|0.034|||ANCOVA|||||0.034|-0.063|0.5578
82460521|NCT03270436|164623020|SUPERIORITY|||||||0.4947||||||The p-value above reflects results of between-arms analysis of mean change in eating self-efficacy scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4947
82460522|NCT03270436|164623021|SUPERIORITY|||||||0.1539||||||The p-value above reflects results of between-arms analysis of mean change in physical activity self-efficacy scores from baseline to immediate post-intervention. Analyses do not include imputed values|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1539
82460523|NCT03270436|164623021|SUPERIORITY|||||||0.1878||||||The p-value above reflects results of between-arms analysis of mean change in physical activity self-efficacy scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.1878
82460524|NCT03270436|164623022|SUPERIORITY|||||||0.4322||||||The p-value above reflects results of between-arms analysis of mean change in family support scale scores from baseline to immediate post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.4322
82460525|NCT03270436|164623022|SUPERIORITY|||||||0.9529||||||The p-value above reflects results of between-arms analysis of mean change in family support scale scores from baseline to 6 months post-intervention. Analyses do not include imputed values.|linear mixed effects regression|Model includes group, time, g x t interaction, state, age, gender, marital status, employment, education, and accounts for clustering within churches.||Repeated measures regression model used all available participant data (no listwise deletion).||||0.9529
82460526|NCT03287791|164623068|SUPERIORITY||Mean Difference (Final Values)|-11.27|||<|0.0001|TWO_SIDED|95.0|-16.8|-5.73|||ANOVA|||Analyses was performed using an Analysis of Variance (ANOVA) model with percent change from baseline to Week 12 in the lesion count as outcome and treatment, center and treatment-by-center interaction as factors.||-5.73|-16.80|<.0001
82460527|NCT03287791|164623068|SUPERIORITY||Median Difference (Final Values)|-9.71||||0.0007|TWO_SIDED|95.0|-15.28|-4.14|||ANOVA|||Analyses was performed using an ANOVA model with percent change from baseline to Week 12 in the lesion count as outcome and treatment, center and treatment-by-center interaction as factors.||-4.14|-15.28|0.0007
82460528|NCT00117637|164623118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.5|TWO_SIDED|95.0|0.61|1.27||The log rank test is stratified by region (western Europe, Eastern Europe, USA) and by Motzer risk category (low, intermediate).|Log Rank|||The study was planned to show a 80% improvement in PFS for the group treated with Sorafenib compared to the group treated with Interferon, with a 80% power and a 2-sided type I error of 5%||1.27|0.61|0.50
82460529|NCT00117637|164623119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.469|TWO_SIDED|95.0|0.628|1.239||The log rank test is stratified by region (western Europe, Eastern Europe, USA) and by Motzer risk category (low, intermediate).|Log Rank|||The study was planned to show a 80% improvement in PFS for the group treated with Sorafenib compared to the group treated with Interferon, with a 80% power and a 2-sided type I error of 5%||1.239|0.628|0.469
82460530|NCT00117637|164623120|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||The Cochran-Mantel-Haenszel statistics was stratified by region and Motzer risk category.|Cochran-Mantel-Haenszel|||||||0.006
82460531|NCT00117637|164623121|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||the Cochran-Mantel-Haenszel statistics was stratified by region and Motzer risk category.|Cochran-Mantel-Haenszel|||||||0.0004
82460532|NCT00117637|164623123|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline) and using the baseline respiratory score as covariate.||||0.022
82460533|NCT00117637|164623125|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline) and using the baseline respiratory score as covariate.||||0.015
82542385|NCT03260140|164784341|SUPERIORITY||Sign test|1.76||||0.308|TWO_SIDED|95.0|0.85|3.66|||F test-ratio of 2 McNemar's Chi-Squares|||Group-specific McNemar's Chi-Square tests were applied to examine the change from baseline to follow-up in dichotomized IPAQ (\>=150 vs \<150) minutes of physical activity per week. To compare intervention vs. control at 12 months, we applied an F test. The intervention effect was an odds ratio of the ratios of discordant pairs in the intervention vs the control group.||3.66|0.85|0.308
82542386|NCT03260140|164784342|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.396|TWO_SIDED|95.0|-0.61|0.24|||Mixed Models Analysis|Difference in average weight at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.24|-0.61|0.396
82542387|NCT03260140|164784343|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.657|TWO_SIDED|95.0|-1.02|1.61|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.61|-1.02|0.657
82578327|NCT02187159|164865879|SUPERIORITY||Difference in least squares means|-0.009|STANDARD_ERROR_OF_MEAN|0.0248||0.7034|TWO_SIDED|95.0|-0.058|0.039|||ANCOVA|||||0.039|-0.058|0.7034
82652406|NCT01844583|165019517|SUPERIORITY_OR_OTHER||LS Mean Ratio|1.03|||||TWO_SIDED|90.0|0.84|1.26|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||1.26|0.84|
82460534|NCT00117637|164623127|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.073
82460535|NCT00117637|164623129|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.067
82460536|NCT00117637|164623130|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.005
82460537|NCT00117637|164623131|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.001
82460538|NCT00117637|164623132|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Mixed Models Analysis|||The least square (LS) means have been adjusted according to the stratification factors (geographical region, Motzer score at baseline).||||0.019
82460539|NCT00117637|164623141|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Log Rank|||||||0.014
82460540|NCT04664153|164623179|SUPERIORITY||Mean Difference (Final Values)|-39.4|STANDARD_ERROR_OF_MEAN|11.74||0.0004|TWO_SIDED|90.0|-58.76|-20.12|||t-test, 1 sided|||||-20.12|-58.76|0.0004
82460541|NCT04664153|164623180|SUPERIORITY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|90.0|-7.02|-2.77|||t-test, 1 sided|||||-2.77|-7.02|<0.0001
82460542|NCT00097500|164623209|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
82578328|NCT02187159|164865879|SUPERIORITY||Difference in least squares means|-0.02|STANDARD_ERROR_OF_MEAN|0.0249||0.4143|TWO_SIDED|95.0|-0.069|0.028|||ANCOVA|||||0.028|-0.069|0.4143
82578329|NCT02187159|164865879|SUPERIORITY||Difference in least squares means|0.005|STANDARD_ERROR_OF_MEAN|0.0249||0.8365|TWO_SIDED|95.0|-0.044|0.054|||ANCOVA|||||0.054|-0.044|0.8365
82460543|NCT00097500|164623210|SUPERIORITY_OR_OTHER|||||||0.4185||95.0|||||ANCOVA|||||||0.4185
82460544|NCT00097500|164623211|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical analysis at week 52.||||<0.0001
82460545|NCT00097500|164623211|SUPERIORITY_OR_OTHER|||||||0.1188||95.0|||||ANCOVA|||Statistical analysis at week 56.||||0.1188
82460546|NCT00097500|164623212|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical analysis at week 52.||||<0.0001
82460547|NCT00097500|164623212|SUPERIORITY_OR_OTHER|||||||0.1996||95.0|||||ANCOVA|||Statistical analysis at week 56.||||0.1996
82460548|NCT00097500|164623213|SUPERIORITY_OR_OTHER|||||||0.5522||95.0|||||ANCOVA|||||||0.5522
82460549|NCT00097500|164623214|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82460550|NCT00097500|164623216|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82460551|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.049||||0.7239|TWO_SIDED|90.0|-0.288|0.19|||Mixed Model Repeated Measure|||Week 1||0.190|-0.288|0.7239
82460552|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.018||||0.8351|TWO_SIDED|90.0|-0.127|0.163|||Mixed Model Repeated Measure|||Week 2||0.163|-0.127|0.8351
82460553|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.088||||0.4541|TWO_SIDED|90.0|-0.287|0.11|||Mixed Model Repeated Measure|||Week 3||0.110|-0.287|0.4541
82460554|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.089||||0.4148|TWO_SIDED|90.0|-0.272|0.093|||Mixed Model Repeated Measure|||Week 4||0.093|-0.272|0.4148
82460555|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086||||0.3887|TWO_SIDED|90.0|-0.082|0.254|||Mixed Model Repeated Measure|||Week 5||0.254|-0.082|0.3887
82460556|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.195||||0.2594|TWO_SIDED|90.0|-0.093|0.484|||Mixed Model Repeated Measure|||Week 6||0.484|-0.093|0.2594
82460557|NCT01009060|164623239|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.103||||0.4778|TWO_SIDED|90.0|-0.139|0.344|||Mixed Model Repeated Measure|||Week 7||0.344|-0.139|0.4778
82460558|NCT01009060|164623240|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.737||||0.6947|TWO_SIDED|90.0|-3.884|2.409|||ANCOVA|||||2.409|-3.884|0.6947
82460559|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.252||||0.1399|TWO_SIDED|90.0|-0.535|0.03|||Mixed Model Repeated Measure||For Speed of Processing/Simple Reaction Time|||0.030|-0.535|0.1399
82460560|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.179||||0.3992|TWO_SIDED|90.0|-0.176|0.534|||Mixed Model Repeated Measure||For Attention/Vigilance|||0.534|-0.176|0.3992
82460561|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.391||||0.1547|TWO_SIDED|90.0|-0.063|0.845|||Mixed Model Repeated Measure||For Working Memory|||0.845|-0.063|0.1547
82460562|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.279||||0.2531|TWO_SIDED|90.0|-0.127|0.685|||Mixed Model Repeated Measure||For Visual Learning|||0.685|-0.127|0.2531
82460563|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.398||||0.2417|TWO_SIDED|90.0|-0.167|0.963|||Mixed Model Repeated Measure||For Verbal Learning|||0.963|-0.167|0.2417
82460564|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.177||||0.2069|TWO_SIDED|90.0|-0.055|0.409|||Mixed Model Repeated Measure||For Reasoning/Problem Solving|||0.409|-0.055|0.2069
82460565|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.8645|TWO_SIDED|90.0|-0.262|0.322|||Mixed Model Repeated Measure||For Social Cognition|||0.322|-0.262|0.8645
82460566|NCT01009060|164623241|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069||||0.7873|TWO_SIDED|90.0|-0.364|0.503|||Mixed Model Repeated Measure||For Working Memory (Two-Back Memory)|||0.503|-0.364|0.7873
82460567|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.024||||0.0225|TWO_SIDED|90.0|-6.872|-1.175|||ANCOVA||For Speed of Processing|||-1.175|-6.872|0.0225
82460568|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.24||||0.3317|TWO_SIDED|95.0|-6.085|1.605|||ANCOVA||For Attention/Vigilance|||1.605|-6.085|0.3317
82460569|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.038||||0.3243|TWO_SIDED|90.0|-5.482|1.406|||ANCOVA||For Working Memory|||1.406|-5.482|0.3243
82460570|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.746||||0.7497|TWO_SIDED|90.0|-4.667|3.175|||ANCOVA||For Visual Learning|||3.175|-4.667|0.7497
82460571|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.112||||0.1585|TWO_SIDED|90.0|-0.537|6.761|||ANCOVA||For Verbal Learning|||6.761|-0.537|0.1585
82578330|NCT02187159|164865879|SUPERIORITY||Difference in least squares means|-0.006|STANDARD_ERROR_OF_MEAN|0.0249||0.8189|TWO_SIDED|95.0|-0.055|0.043|||ANCOVA|||||0.043|-0.055|0.8189
82460572|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.972||||0.6582|TWO_SIDED|90.0|-2.709|4.654|||ANCOVA||For Reasoning and Problem Solving|||4.654|-2.709|0.6582
82460573|NCT01009060|164623242|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.338||||0.9092|TWO_SIDED|90.0|-5.316|4.639|||ANCOVA||For Social Cognition|||4.639|-5.316|0.9092
82460574|NCT01009060|164623243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.024||||0.4406|TWO_SIDED|90.0|-3.237|1.19|||Mixed Model Repeated Measure|||||1.190|-3.237|0.4406
82460575|NCT01009060|164623244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.876||||0.5197|TWO_SIDED|90.0|-6.743|2.99|||Mixed Model Repeated Measure|||||2.990|-6.743|0.5197
82460576|NCT01009060|164623245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.824||||0.4637|TWO_SIDED|90.0|-2.334|5.982|||Mixed Model Repeated Measure|||||5.982|-2.334|0.4637
82460577|NCT04201431|164623255|OTHER|Comparison of pooled data from Groups 1 and 2 volunteers who completed primary CHMI with pooled data of infectivity controls undergoing primary CHMI from VAC069 study running in parallel (NCT03797989).||||||0.01||||||Two tailed p value reported for Mann-Whitney test comparing infectivity controls with vaccinees|Wilcoxon (Mann-Whitney)|||Comparison of parasite multiplication rate in vaccinated subjects compared to infectivity controls in a blood-stage controlled human malaria infection model||||0.01
82460578|NCT02174731|164623321|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% confidence interval (CI) of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|0.01|0.18|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean changes.|||0.18|0.01|<0.001
82460579|NCT02174731|164623322|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.056|<|0.001|TWO_SIDED|95.0|0.03|0.25|||MMRM||Difference between groups (roxadustat minus Epoetin alfa) in LS mean change.|||0.25|0.03|<0.001
82460580|NCT02174731|164623323|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.15. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.013|<|0.001|TWO_SIDED|95.0|0.0|0.05|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.05|0.00|<0.001
82460581|NCT02174731|164623324|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.15. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.014|<|0.001|TWO_SIDED|95.0|-0.01|0.05|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.05|-0.01|<0.001
82460582|NCT02174731|164623325|SUPERIORITY|Superiority was also declared as the lower bound of the 95% CI exceeded 0 and p-value was lower than 0.05.|Least Square Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|-0.39|-0.27|||ANCOVA||Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||-0.27|-0.39|<0.001
82460583|NCT02174731|164623326|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the lower bound of the 95% CI of the difference between roxadustat and epoetin alfa exceeded -0.75. Non-inferiority p-value is 1-sided.|Least Square Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|0.04|0.36|||ANCOVA|MAR-based multiple imputation.|Difference between groups (roxadustat minus Epoetin alfa) in LS mean.|||0.36|0.04|<0.001
82460584|NCT02174731|164623327|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||||||<0.0001
82460585|NCT02174731|164623328|NON_INFERIORITY|Non-inferiority of roxadustat versus epoetin alfa was declared if the upper bound of the HR 95% CI of the difference between roxadustat and epoetin alfa was less than or equal to 1.8. Non-inferiority p-value is 1-sided. The CIs were from Wald and ties were calculated using the Efron method.|Hazard Ratio (HR)|0.83|||<|0.001|TWO_SIDED|95.0|0.64|1.07|||Regression, Cox|||||1.07|0.64|<0.001
82460586|NCT03535974|164623350|OTHER||Mean Difference (Final Values)|10.57|STANDARD_ERROR_OF_MEAN|5.122||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82460587|NCT00549640|164623361|SUPERIORITY_OR_OTHER|||||||0.973||95.0|||||Fisher Exact|1-tailed||||||0.973
82460588|NCT00549640|164623362|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|1 tailed test||||||0.500
82460589|NCT00549640|164623363|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|For each subject, the average daily withdrawal score for the 14 days following target quit date was calculated and expressed as a change from baseline||||||0.65
82460590|NCT00549640|164623363|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Mixed Models Analysis|analysis performed using daily scores||||||0.79
82460591|NCT02675907|164623401|SUPERIORITY|||||||0.0034|||||||t-test, 2 sided|||||||0.0034
82460592|NCT02675907|164623402|SUPERIORITY||||||<|0.05||||||Row 1 (SPID6)|t-test, 2 sided|||||||<0.05
82460593|NCT02675907|164623402|SUPERIORITY||||||<|0.01||||||Row 2 (SPID12)|t-test, 2 sided|||||||<0.01
82460594|NCT02675907|164623402|SUPERIORITY||||||<|0.01||||||Row 3 (SPID24)|t-test, 2 sided|||||||<0.01
82460595|NCT02675907|164623402|SUPERIORITY||||||<|0.01||||||Row 4 (SPID12-48)|t-test, 2 sided|||||||<0.01
82460596|NCT02675907|164623402|SUPERIORITY||||||<|0.01||||||Row 5 (SPID24-48)|t-test, 2 sided|||||||<0.01
82460597|NCT02675907|164623403|SUPERIORITY|||||||0.0076|||||||Log Rank|||||||0.0076
82460598|NCT02675907|164623404|SUPERIORITY||||||<|0.001||||||Row 1 (Hour 0-24)|Cochran-Mantel-Haenszel|||||||<0.001
82460599|NCT02675907|164623404|SUPERIORITY||||||<|0.01||||||Row 2 (Hour 24-48)|Cochran-Mantel-Haenszel|||||||<0.01
82460600|NCT02675907|164623404|SUPERIORITY||||||<|0.01||||||Row 3 (Hour 0-48)|Cochran-Mantel-Haenszel|||||||<0.01
82460601|NCT02675907|164623405|SUPERIORITY||||||<|0.05||||||Row 1 (Hour 0-24)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
82460602|NCT02675907|164623405|SUPERIORITY||||||<|0.05||||||Row 2 (Hour 24-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
82578331|NCT04325282|164865880|OTHER|||||||0.04||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Within-group analysis of change after active rTMS (post-rTMS compared to pre-rTMS).||||0.04
82460603|NCT02675907|164623405|SUPERIORITY||||||<|0.05||||||Row 3 (Hour 0-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||<0.05
82460604|NCT02675907|164623406|SUPERIORITY|||||||0.1228|||||||Log Rank|||||||0.1228
82460605|NCT02675907|164623407|SUPERIORITY|||||||0.1048|||||||Log Rank|||||||0.1048
82578332|NCT04325282|164865880|OTHER|||||||0.46||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Within-group analysis of change after sham rTMS (post-rTMS compared to pre-rTMS).||||0.46
82650049|NCT00434161|165015144|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.242||||0.468|TWO_SIDED|97.5|0.635|2.431||A 2.5% type I error rate for each comparison gives an overall type I error rate of 5%.|Proportional odds model|The proportional odds model including the randomization factors as covariates was used for the primary endpoint, maximum severity of OM.|The odds ratio was defined to be the odds of a subject receiving placebo experiencing OM divided by the odds of a subject receiving palifermin developing OM.|The null hypothesis was that the severity distribution for OM was identical for the placebo and each of the two palifermin groups, and the alternative hypothesis was that palifermin resulted in a shift in the distribution to less severe mucositis than placebo. A total of 275 subjects would give at least 95% power, with a 2.5% type I error rate for each comparison to detect an odds ratio of at least 3.5 between the placebo group and each of the two palifermin groups.||2.431|0.635|0.468
82650050|NCT00434161|165015145|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.262||||0.245|TWO_SIDED|97.5|-4.303|30.828||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|Cochran-Mantel-Haenszel|||||30.828|-4.303|0.245
82460606|NCT02675907|164623408|SUPERIORITY|||||||0.0451|||||||Cochran-Mantel-Haenszel|||||||0.0451
82542388|NCT03260140|164784344|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.281|TWO_SIDED|95.0|-2.33|0.68|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.68|-2.33|0.281
82578333|NCT04325282|164865880|OTHER|||||||0.12||||||The a priori threshold for statistical significance was \<0.05.|Wilcoxon signed rank test|||Between-group analysis of change induced by active rTMS versus sham rTMS||||0.12
82578334|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed-rank test|||Within-group analysis of change in cF-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||<0.0001
82650051|NCT00434161|165015145|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.014||||0.806|TWO_SIDED|97.5|-20.519|16.491||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|Cochran-Mantel-Haenszel|||||16.491|-20.519|0.806
82652407|NCT01844583|165019518|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.51|||||TWO_SIDED|90.0|0.41|0.62|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||0.62|0.41|
82460607|NCT02675907|164623409|SUPERIORITY|||||||0.0107|||||||Cochran-Mantel-Haenszel|||||||0.0107
82460608|NCT02675907|164623410|SUPERIORITY|||||||0.0781|||||||Cochran-Mantel-Haenszel|||||||0.0781
82460609|NCT02675907|164623411|SUPERIORITY|||||||0.043|||||||Cochran-Mantel-Haenszel|||||||0.0430
82460610|NCT02675907|164623412|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.1070
82460611|NCT02675907|164623413|SUPERIORITY|||||||0.0046|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0046
82460612|NCT01611792|164623414|SUPERIORITY||Mean Difference (Net)|-10.0|STANDARD_DEVIATION|9.02|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<.0001
82460613|NCT01611792|164623415|SUPERIORITY||Mean Difference (Net)|-6.67|STANDARD_DEVIATION|11.86||0.0038|TWO_SIDED||||||Mixed Models Analysis|||||||0.0038
82460614|NCT01611792|164623416|SUPERIORITY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|5.36||0.36|TWO_SIDED||||||Mixed Models Analysis|||||||0.36
82460615|NCT01611792|164623417|SUPERIORITY||Mean Difference (Net)|-1.31|STANDARD_DEVIATION|1.98||0.0018|TWO_SIDED||||||Mixed Models Analysis|||||||0.0018
82460616|NCT01611792|164623418|SUPERIORITY||Mean Difference (Net)|0.69|STANDARD_DEVIATION|2.12||0.19|TWO_SIDED||||||Mixed Models Analysis|||||||0.19
82460617|NCT01611792|164623419|SUPERIORITY||Mean Difference (Net)|0.69|STANDARD_DEVIATION|2.12||0.19|TWO_SIDED||||||Mixed Models Analysis|||||||0.19
82460618|NCT00647296|164623438|SUPERIORITY||Slope|-0.606|STANDARD_ERROR_OF_MEAN|0.408||0.1385|TWO_SIDED|95.0|-1.41|0.19|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||0.19|-1.41|0.1385
82460619|NCT00647296|164623438|SUPERIORITY||Slope|0.113|STANDARD_ERROR_OF_MEAN|0.39||0.7718|TWO_SIDED|95.0|-0.65|0.88|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||0.88|-0.65|0.7718
82460620|NCT00647296|164623438|SUPERIORITY||Slope|0.401|STANDARD_ERROR_OF_MEAN|0.397||0.3146|TWO_SIDED|95.0|-0.38|1.18|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||1.18|-0.38|0.3146
82460621|NCT00647296|164623439|SUPERIORITY||Slope|0.395|STANDARD_ERROR_OF_MEAN|1.536||0.7973|TWO_SIDED|95.0|-2.61|3.4|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents a better outcome.|||3.40|-2.61|0.7973
82460622|NCT00647296|164623439|SUPERIORITY||Slope|2.009|STANDARD_ERROR_OF_MEAN|1.47||0.1732|TWO_SIDED|95.0|-0.87|4.89|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents better outcome.|||4.89|-0.87|0.1732
82460623|NCT00647296|164623439|SUPERIORITY||Slope|0.451|STANDARD_ERROR_OF_MEAN|1.497||0.7635|TWO_SIDED|95.0|-2.48|3.39|||Mixed Models Analysis||placebo minus active treatment arm, positive direction represents a better outcome.|||3.39|-2.48|0.7635
82460624|NCT00647296|164623450|SUPERIORITY||Slope|0.263|STANDARD_ERROR_OF_MEAN|0.19||0.1772|TWO_SIDED|95.0|-0.12|0.64|||Mixed Models Analysis||50 mg/day minus 150 mg/day arm, negative direction represents worse outcome.|||0.64|-0.12|0.1772
82460625|NCT00647296|164623451|SUPERIORITY||Slope|-0.615|STANDARD_ERROR_OF_MEAN|0.73||0.4025|TWO_SIDED|95.0|-2.06|0.83|||Mixed Models Analysis||50 mg/day minus 300 mg/day treatment arm, negative direction represents worse outcome.|||0.83|-2.06|0.4025
82460626|NCT00550407|164623452|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Log Rank|||||||0.010
82460627|NCT03883581|164623472|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82460628|NCT03883581|164623473|SUPERIORITY|||||||0.647|||||||Paired t test|||||||0.647
82460629|NCT03883581|164623474|SUPERIORITY|||||||0.103|||||||Paired t test|||||||0.103
82542389|NCT03260140|164784345|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.483|TWO_SIDED|95.0|-0.11|0.23|||Mixed Models Analysis|Difference in average score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rodgers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average score between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||0.23|-0.11|0.483
82460630|NCT03883581|164623475|SUPERIORITY|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||||||0.0004
82460631|NCT03883581|164623476|SUPERIORITY|||||||0.103|||||||Paired t test|||||||0.103
82578335|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.69||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.69
82460632|NCT01650194|164623499|OTHER|||||||0.615|||||||t-test, 2 sided|||Testosterone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||0.6150
82460633|NCT01650194|164623501|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Cortisol biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460634|NCT01650194|164623502|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Androstenedione biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460635|NCT01650194|164623503|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Progesterone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460636|NCT01650194|164623504|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Pregnenolone biomarker results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460637|NCT01650194|164623505|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Testosterone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460638|NCT01650194|164623507|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Cortisol blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460639|NCT01650194|164623508|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Androstenedione blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460640|NCT01650194|164623509|OTHER|||||||0.0002|||||||t-test, 2 sided|||Progesterone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||0.0002
82460641|NCT01650194|164623510|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Pregnenolone blood results collected at baseline and at Week 9 were compared using the paired t-test to evaluate the effect of enzalutamide.||||<.0001
82460642|NCT01908426|164623527|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0049|TWO_SIDED|95.0|0.63|0.92|||Log Rank|The Log-Rank Test was stratified by etiology of disease, geo. region, presence of extrahepatic spread of disease and/or macrovascular invasion.||||0.92|0.63|0.0049
82460643|NCT01908426|164623528|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.36|0.52|||Log Rank|The Log Rank Test was stratified by etiology of disease, geographic region, presence of extrahepatic spread of disease and/or macrovascular invasion.||||0.52|0.36|< 0.0001
82460644|NCT01908426|164623529|SUPERIORITY|||||||0.0086|||||||Cochran-Mantel-Haenszel|||||||0.0086
82460645|NCT03346434|164623539|SUPERIORITY||Percentage difference|23.8|||<|0.0001|TWO_SIDED|95.0|13.27|34.37||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||34.37|13.27|< 0.0001
82460646|NCT03346434|164623540|SUPERIORITY||Percentage difference|42.3|||<|0.0001|TWO_SIDED|95.0|29.47|55.16||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||55.16|29.47|< 0.0001
82460647|NCT03346434|164623549|SUPERIORITY||Least Square (LS) Mean Difference|-50.4|||<|0.0001|TWO_SIDED|95.0|-62.38|-38.4||Threshold for significance at 0.05 level.|ANCOVA|||||-38.40|-62.38|< 0.0001
82460648|NCT03346434|164623550|SUPERIORITY||LS Mean Difference|-47.1|||<|0.0001|TWO_SIDED|95.0|-59.47|-34.79||Threshold for significance at 0.05 level.|ANCOVA|||||-34.79|-59.47|< 0.0001
82460649|NCT03346434|164623551|SUPERIORITY||Percentage difference|39.2|||<|0.0001|TWO_SIDED|95.0|26.18|52.27||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||52.27|26.18|< 0.0001
82460650|NCT03346434|164623552|SUPERIORITY||Percentage difference|43.3|||<|0.0001|TWO_SIDED|95.0|30.03|56.67||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||56.67|30.03|< 0.0001
82460651|NCT03346434|164623553|SUPERIORITY||Percentage difference|48.5|||<|0.0001|TWO_SIDED|95.0|35.03|62.0||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||62.00|35.03|< 0.0001
82460652|NCT03346434|164623554|SUPERIORITY||Percentage difference|22.5|||=|0.0001|TWO_SIDED|95.0|12.37|32.6||Threshold for significance at 0.05 level.|Cochran-Mantel-Haenszel|||||32.60|12.37|= 0.0001
82460653|NCT03346434|164623555|SUPERIORITY||LS Mean Difference|-24.27|||<|0.0001|TWO_SIDED|95.0|-31.204|-17.329||Threshold for significance at 0.05 level.|ANCOVA|||||-17.329|-31.204|< 0.0001
82542390|NCT03260140|164784346|SUPERIORITY||Mean percent change in HbA1c|0.02||||0.985|TWO_SIDED|95.0|-2.57|2.69|||Mixed Models Analysis|Difference in average HbA1c at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis on log-transformed HbA1c comparing the average HbA1c between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.69|-2.57|0.985
82542391|NCT03260140|164784347|SUPERIORITY||Mean Difference (Net)|-0.22||||0.806|TWO_SIDED|95.0|-1.99|1.55|||Mixed Models Analysis|Difference in average SF-12 MCS score at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month MCS between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.55|-1.99|0.806
82542392|NCT03260140|164784348|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.62|TWO_SIDED|95.0|-1.77|1.05|||Mixed Models Analysis|Difference in average DBP at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average 12-month DBP between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||1.05|-1.77|0.620
82542393|NCT03260140|164784349|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.987|TWO_SIDED|95.0|-2.32|2.28|||Mixed Models Analysis|Difference in average SPB at 12 months between control and intervention groups.|Standard errors estimated using Kenward-Rogers adjustment for the denominator degrees of freedom.|Linear mixed model analysis comparing the average SBP between control and intervention groups. Our analysis controlled for randomization strata: age (less than or greater than/equal to 65), BMI (at least 30/less than 35, at least 35/less than 40, or at least 40/less than for 45), and population density (rural or urban), while random effects were used to account for within-person variability.||2.28|-2.32|0.987
82542394|NCT01063972|164784355|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
82542395|NCT01063972|164784356|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
82650052|NCT00434161|165015146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.409|STANDARD_DEVIATION|6.82||0.095|TWO_SIDED|97.5|0.07|4.748||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||A type I error rate was protected by using the Hochberg procedure to adjust for multiple testing. Palifermin was not to be declared to be statistically superior to placebo with respect to secondary efficacy endpoints unless the primary endpoint was statistically significant in favor of palifermin.||4.748|0.070|0.095
82542396|NCT01063972|164784357|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
82542397|NCT01063972|164784358|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
82542398|NCT03401112|164784377|SUPERIORITY|||||||0.0686|||||||Log Rank|||||||0.0686
82542399|NCT03401112|164784377|SUPERIORITY|||||||0.0294|||||||Log Rank|||||||0.0294
82542400|NCT03475316|164784381|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|-1.14|1.49|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the composite score pre and post intervention.||1.49|-1.14|
82542401|NCT03475316|164784382|SUPERIORITY||Mean Difference (Net)|166.16|STANDARD_ERROR_OF_MEAN|-202.7|||TWO_SIDED|95.0|-231.12|563.44|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) are from linear mixed effect models used to examine the difference in change in functional activation/deactivation covariance patterns during the Digit Symbol Substitution test at post intervention from pre intervention between the social dancing and treadmill walking group.||563.44|-231.12|
82542402|NCT03475316|164784382|SUPERIORITY||Mean Difference (Net)|24.6|STANDARD_ERROR_OF_MEAN|28.47|||TWO_SIDED|95.0|-31.2|80.4|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) and p-values are from linear mixed effect models used to examine the difference in change in functional activation/deactivation covariance patterns during the Flanker interference test at post intervention from pre intervention between the social dancing and treadmill walking group.||80.40|-31.20|
82542403|NCT03475316|164784382|SUPERIORITY||Mean Difference (Net)|58.22|STANDARD_ERROR_OF_MEAN|51.2|||TWO_SIDED|95.0|-42.14|158.58|||||The estimate parameter reflects change in functional activation/deactivation pattern from pre to post intervention as a function intervention (social dancing vs. treadmill walking).|Estimates with standard errors (SE) are from linear mixed effect models used to examine the difference in functional activation/deactivation covariance patterns during the Imagery of Walking-While Talking task at post intervention from pre intervention between the social dancing and treadmill walking group.||158.58|-42.14|
82542404|NCT03475316|164784383|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|2.7|||TWO_SIDED|95.0|-5.1|6.64|||||The Estimation Parameter is the difference in change at post from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the CHAMPS scores pre and post intervention.||6.64|-5.10|
82650053|NCT00434161|165015146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|STANDARD_DEVIATION|6.13||0.806|TWO_SIDED|97.5|-2.575|2.15||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||||2.150|-2.575|0.806
82460654|NCT03346434|164623556|SUPERIORITY||LS Mean Difference|-9.1|||<|0.0001|TWO_SIDED|95.0|-11.26|-6.89||Threshold for significance at 0.05 level.|ANCOVA|||||-6.89|-11.26|< 0.0001
82542405|NCT03475316|164784384|SUPERIORITY||Mean Difference (Final Values)|7.27|STANDARD_ERROR_OF_MEAN|8.57|||TWO_SIDED|95.0|-11.6|26.14|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in gait speed pre and post intervention.||26.14|-11.60|
82542406|NCT03475316|164784385|SUPERIORITY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-13.4|14.55|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in unipedal stance time pre and post intervention.||14.55|-13.40|
82542407|NCT03475316|164784387|SUPERIORITY||Mean Difference (Final Values)|1.08|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|95.0|-1.3|3.46|||||The estimate parameter is the difference in change at post intervention from pre between dance and treadmill group.|Linear mixed effects model were used to compare changes in the geriatric depression scale pre and post intervention.||3.46|-1.30|
82542408|NCT00442117|164784450|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.074||||0.4982|TWO_SIDED|95.0|-4.196|2.049|||ANOVA|||||2.049|-4.196|0.4982
82542409|NCT00442117|164784451|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7601||||0.6544|TWO_SIDED|95.0|-2.585|4.106|||ANOVA|||||4.106|-2.585|0.6544
82650054|NCT00434161|165015147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.436||||0.142|TWO_SIDED|97.5|-1.542|32.415||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||For the secondary endpoints, the type I error rate was protected by using the Hochberg procedure to adjust for multiple testing16. Palifermin was not to be declared to be statistically superior to placebo with respect to secondary efficacy endpoints unless the primary endpoint was statistically significant in favor of palifermin.||32.415|-1.542|0.142
82650055|NCT00434161|165015147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.331||||0.806|TWO_SIDED|97.5|-11.82|22.482||For secondary endpoints the type I error was protected by using the Hochberg procedure. The reported p-values are adjusted by the Hochberg procedure.|van Elteren test|||||22.482|-11.820|0.806
82460655|NCT03346434|164623557|SUPERIORITY||LS Mean Difference|-38.4|||<|0.0001|TWO_SIDED|95.0|-46.65|-30.21||Threshold for significance at 0.05 level.|ANCOVA|||||-30.21|-46.65|< 0.0001
82460656|NCT03346434|164623558|SUPERIORITY||LS Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|1.093|2.317||Threshold significance was at 0.05 level.|ANCOVA|||||2.317|1.093|< 0.0001
82542410|NCT00442117|164784452|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.704||||0.3796|TWO_SIDED|95.0|-5.528|2.115|||ANOVA|||||2.115|-5.528|0.3796
82542411|NCT00442117|164784453|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.432||||0.9622|TWO_SIDED|95.0|-17.56|18.24|||ANOVA|||||18.240|-17.560|0.9622
82542412|NCT02601170|164784485|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82542413|NCT00385801|164784500|SUPERIORITY_OR_OTHER|||||||0.86||||||The effect of treatment on intensity of craving was assessed and the threshold for statistical significance was p \< 0.05|Mixed Models Analysis|F=0.03||Intensity of craving||||0.86
82578336|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-iT connectivity induced by active versus sham rTMS.||||<0.0001
82650056|NCT00434161|165015148|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.88|||||TWO_SIDED|95.0|-21.669|33.43||According to statistical analysis plan it was not planned to calculate any P-Value.||||||33.43|-21.669|
82650057|NCT00434161|165015150|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.023|||||TWO_SIDED|95.0|-0.134|0.181||||||||0.181|-0.134|
82650058|NCT00434161|165015151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|||||TWO_SIDED|95.0|-0.138|0.26||||||||0.260|-0.138|
82650059|NCT00434161|165015152|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.689|||||TWO_SIDED|95.0|-21.641|14.264||||||||14.264|-21.641|
82650060|NCT00434161|165015153|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.951|||||TWO_SIDED|95.0|-0.679|12.58||||||||12.580|-0.679|
82460657|NCT03346434|164623559|SUPERIORITY||LS Mean Difference|-3.31|||<|0.0001|TWO_SIDED|95.0|-4.029|-2.6||Threshold significance at 0.05 level.|ANCOVA|||||-2.600|-4.029|< 0.0001
82460658|NCT03346434|164623560|SUPERIORITY||LS Mean Difference|-7.8|||<|0.0001|TWO_SIDED|95.0|-9.789|-5.814||Threshold significance at 0.05 level.|ANCOVA|||||-5.814|-9.789|< 0.0001
82460659|NCT03346434|164623561|SUPERIORITY||LS Mean Difference|-7.5|||<|0.0001|TWO_SIDED|95.0|-10.29|-4.75||Threshold significance at 0.05 level.|ANCOVA|||||-4.75|-10.29|< 0.0001
82460660|NCT03346434|164623562|SUPERIORITY||LS Mean Difference|-8.96|||<|0.0001|TWO_SIDED|95.0|-11.711|-6.202||Threshold significance at 0.05 level.|ANCOVA|||||-6.202|-11.711|< 0.0001
82460661|NCT03346434|164623563|SUPERIORITY||||||=|0.0015||||||Threshold significance is at 0.05 level.|ANCOVA|||||||= 0.0015
82460662|NCT03346434|164623564|SUPERIORITY||LS Mean Difference|-2.9|||=|0.0997|TWO_SIDED|95.0|-6.35|0.56||Threshold significance at 0.05 level.|ANCOVA|||||0.56|-6.35|= 0.0997
82542414|NCT02582593|164784595|SUPERIORITY||Cohen's D|0.27||||0.575|TWO_SIDED|||||t = .581, only 1 comparison (2 groups) and thus multiple comparison correction not needed|t-test, 2 sided|||An independent sample t-test was used to examine difference in Pre-post intervention change scores for the Active and Sham groups;. Cohen's d was calculated to determine effect size.||||.575
82542415|NCT02582593|164784596|SUPERIORITY||Cohen's D|1.06||||0.16|TWO_SIDED|||||t = 1.574; only two comparisons, thus not necessary to adjust|t-test, 2 sided|||independent t-test, cohen's d effect size||||.160
82542416|NCT02582593|164784597|SUPERIORITY||Cohen's D|0.27||||0.424|TWO_SIDED||||||t-test, 2 sided|||independent t-test, Cohen's d effect size||||.424
82542417|NCT02582593|164784598|SUPERIORITY||Cohen's D|-1.03||||0.099|TWO_SIDED|||||no adjustment necessary, only 1 comparison|t-test, 2 sided|||independent sample t-test, Cohen's d effect size||||0.099
82542418|NCT03785782|164784599|OTHER|||||||0.2988|||||||Regression, Logistic|||||||0.2988
82542419|NCT03785782|164784600|OTHER|||||||0.36|||||||Regression, Linear|||||||0.36
82542420|NCT03785782|164784601|OTHER|||||||0.43|||||||Regression, Linear|||||||0.43
82542421|NCT03785782|164784602|OTHER|||||||0.42|||||||Regression, Linear|||||||0.42
82542422|NCT03785782|164784603|OTHER|||||||0.45|||||||Regression, Linear|||||||0.45
82542423|NCT03785782|164784604|OTHER|||||||0.18|||||||Regression, Linear|||||||0.18
82460663|NCT01183689|164623605|SUPERIORITY||Mean Difference (Net)|0.82|STANDARD_ERROR_OF_MEAN|0.3|<|0.05|TWO_SIDED|95.0|0.23|1.41||No interim analyses were conducted. Pairwise differences among the three arms were assessed with a 2 degree of freedom Wald Test.|Mixed Models Analysis||Above is provided the mean difference between Arms 1 and 2.|Mean changes from random effects model applied to repeated measures to compute the average differences among groups over time.||1.41|0.23|<0.05
82460664|NCT01183689|164623605|SUPERIORITY||Mean Difference (Net)|2.64|||<|0.05|TWO_SIDED|95.0|2.05|3.22|||Mixed Models Analysis|This was fitted with Proc Mixed in SAS.|95% confidence interval excludes 0|Mean changes from a random effects model applied to repeated measures to compute the average differences between groups over time. This entry is for the comparison between groups 1 and 3.||3.22|2.05|<0.05
82460665|NCT01183689|164623606|OTHER|Generalized Estimating Equations|Odds Ratio (OR)|1.41|||<|0.05|TWO_SIDED|95.0|1.02|1.9|||Generalized Estimating Equations|||Generalized estimating equations were used to compare the average percent of weight gainers over time among the three groups. The null hypothesis was that there was no difference in these average percentages. Participants were assigned values of 0 or 1 at each visit depending on their weight gain status. The percentages were summarized with odds ratios for weight gain over time.||1.90|1.02|<0.05
82460666|NCT01183689|164623606|SUPERIORITY||Odds Ratio (OR)|2.28|||<|0.05|TWO_SIDED|95.0|1.64|3.19|||generalized estimating equations|||This is a parallel analysis, comparing groups 1 and 3, using generalized estimating equations to summarize the odds ratio for weight gain in group 1 versus group 3,||3.19|1.64|<0.05
82460667|NCT01183689|164623607|SUPERIORITY||Mean Difference (Net)|1.31|STANDARD_ERROR_OF_MEAN|0.47|<|0.05|TWO_SIDED|95.0|0.39|2.24|||Mixed Models Analysis|The p-value is based on a 2 degree of freedom Wald test within the mixed effect model to test for pairwise differences among the 3 arms.|Listed above is the mean difference between arms 1 and 2|Mean differences at 2 years are calculated from a linear contrast within a mixed effects model. Note that this comparison is between Groups 1 and 2.||2.24|0.39|<0.05
82460668|NCT01183689|164623607|SUPERIORITY||Median Difference (Net)|2.04|||<|0.05|TWO_SIDED|95.0|1.11|2.98|||Mixed Models Analysis|A linear contrast was used to compare groups 1 and 3 at 24 months.||A linear contrast from a mixed effects model was used to compare mean differences at 24 months between groups 1 and 3.||2.98|1.11|<0.05
82460669|NCT01183689|164623608|SUPERIORITY||Mean Difference (Net)|1.99||||0.13|TWO_SIDED|95.0|0.06|3.92||The p-value is from a 2 degree of freedom test for pairwise difference among the 3 arms within an analysis of variance.|ANOVA|||Analysis of variance to assess mean differences in changes from baseline in systolic blood pressure. This analysis compares groups 1 and 2.||3.92|0.06|0.13
82460670|NCT01183689|164623608|SUPERIORITY||Mean Difference (Net)|0.93||||0.13|TWO_SIDED|95.0|-0.98|2.84|||ANOVA|||Mean differences in systolic blood pressure between groups 1 and 3 over time.||2.84|-0.98|0.13
82460671|NCT01183689|164623609|SUPERIORITY||Mean Difference (Net)|1.73||||0.06|TWO_SIDED|95.0|0.32|3.14||The p-value is from a 2 degree of freedom F-test from an analysis of variance to compare mean differences among the 3 arms.|ANOVA|||Mean differences from baseline to 2 years were compared among the 3 arms using analysis of variance.||3.14|0.32|0.06
82460672|NCT01183689|164623609|SUPERIORITY||Mean Difference (Net)|0.92||||0.06|TWO_SIDED|95.0|-0.49|2.33||This p-value is from a 2 degree of freedom omnibus test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years in diastolic blood pressure.||2.33|-0.49|0.06
82460673|NCT01183689|164623610|SUPERIORITY||Mean Difference (Net)|-1.3||||0.73|TWO_SIDED|95.0|-6.12|3.52||The p-value results from a 2 degree of freedom F-test.|ANOVA|||Mean changes from baseline to 2 years were compared between Groups 1 and 2.||3.52|-6.12|0.73
82460674|NCT01183689|164623610|SUPERIORITY||Mean Difference (Net)|-1.89||||0.73|TWO_SIDED|95.0|-4.36|0.58||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in total cholesterol changes from baseline among groups.||0.58|-4.36|0.73
82460675|NCT01183689|164623611|SUPERIORITY||Odds Ratio (OR)|2.36|||<|0.001|TWO_SIDED|95.0|1.23|4.52||The p-value is a 2 degree of freedom test from the generalized estimating equations analysis applied to the longitudinal binary data among the 3 study arms.|generalized estimating equations|||The average percentage of participants who were obese across follow-up were compared among the 3 arms using a generalized estimating equations approach for repeated binary measures. Participants were assigned values of 0 or 1 depending on their obesity status at each exam. Differences were summarized with odds ratios.||4.52|1.23|<0.001
82460676|NCT01183689|164623611|SUPERIORITY||Odds Ratio (OR)|2.13||||0.008|TWO_SIDED|95.0|1.12|4.1||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|generalized estimating equations|||Generalized estimating equations were used. Differences were summarized with odds ratios.||4.10|1.12|0.008
82542424|NCT03785782|164784605|OTHER|||||||0.78|||||||Regression, Linear|||||||0.78
82542425|NCT03785782|164784606|OTHER|||||||0.45|||||||Regression, Linear|||||||0.45
82542426|NCT03785782|164784607|OTHER|||||||0.34|||||||Regression, Linear|||||||0.34
82542427|NCT03785782|164784608|OTHER|||||||0.7465|||||||Regression, Logistic|||||||0.7465
82542428|NCT03785782|164784609|OTHER|||||||0.0466|||||||Regression, Logistic|||||||0.0466
82542429|NCT03785782|164784610|OTHER|||||||0.1567|||||||Regression, Logistic|||||||0.1567
82542430|NCT03785782|164784611|OTHER|||||||0.1837|||||||Regression, Logistic|||||||0.1837
82542431|NCT03785782|164784612|OTHER|||||||0.7447|||||||Regression, Logistic|||||||0.7447
82542432|NCT03785782|164784613|OTHER|||||||0.0739|||||||Regression, Logistic|||||||0.0739
82542433|NCT03785782|164784614|OTHER|||||||0.9995|||||||Regression, Logistic|||||||0.9995
82542434|NCT00304031|164784620|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.03||||0.63|TWO_SIDED|95.0|0.88|1.2||One-sided|Log Rank||Reference level = Conventional adjuvant TMZ|This study was looking for a 20% reduction in hazard rate: null hypothesis (conventional arm): Median survival time (MST) = 14.0 mo.; alternative hypothesis (dose-dense arm): MST= 17.5 mo. A one-sided log-rank test at a significance level of 0.025 would have 80% power to detect this difference with a sample size of 750 patients (647 deaths were required for the final analysis).||1.20|0.88|0.63
82542435|NCT00304031|164784621|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.06|TWO_SIDED|95.0|0.75|1.0||Two-side significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|||1.00|0.75|0.06
82542436|NCT00304031|164784622|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.44|TWO_SIDED|95.0|0.82|1.19||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Unmethylated MGMT||1.19|0.82|0.44
82578337|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||<0.0001
82650061|NCT00434161|165015155|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.192|TWO_SIDED|95.0|0.33|1.26|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.26|0.33|0.192
82650062|NCT00434161|165015156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.417|||||TWO_SIDED|95.0|-11.086|45.919||||||||45.919|-11.086|
82650063|NCT00434161|165015157|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.236|TWO_SIDED|95.0|0.55|1.16|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.16|0.55|0.236
82460677|NCT01183689|164623612|SUPERIORITY||Mean Difference (Net)|-0.08||||0.002|TWO_SIDED|95.0|-0.61|0.45||the p-value results from a 2 degree of freedom F-test to assess pairwise differences among the 3 groups|ANOVA|the p-value results from a 2 degree of freedom F-test to assess pairwise differences among the 3 groups||Mean changes from baseline to 2 years among the 3 groups were assessed using a 2 degree of freedom F-test||0.45|-0.61|0.002
82460678|NCT01183689|164623612|SUPERIORITY||Mean Difference (Net)|0.55||||0.002|TWO_SIDED|95.0|0.02|1.08||This p-value is from a 2 degree of freedom test for differences among all 3 groups|ANOVA|||Differences among the 3 groups were based on analyses of variance.||1.08|0.02|0.002
82460679|NCT01183689|164623613|SUPERIORITY|A 2 degree of freedom F-test from ANOVA was used to compare mean differences in changes among the 3 arms of the study.|Mean Difference (Net)|-0.85|||<|0.001|TWO_SIDED|95.0|-1.32|-0.38||The p-value is from a 2 degree of freedom F test to assess differences among the 3 arms of the study.|ANOVA|The p-value is from a 2 degree of freedom F test to assess differences among the 3 arms of the study.||Changes in units of the scale from baseline to 2 years||-0.38|-1.32|<0.001
82460680|NCT01183689|164623613|SUPERIORITY||Mean Difference (Net)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.57|0.37||This p-value is from a 2 degree of freedom test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years among the 3 groups.||0.37|-0.57|<0.001
82460681|NCT01183689|164623614|SUPERIORITY|2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study|Mean Difference (Net)|0.2|||<|0.001|TWO_SIDED|95.0|-0.31|0.71||2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study, not adjusted for multiple comparisons among endpoints|ANOVA|2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study||2 degree of freedom F-test from analysis of variance to compare 2 year differences from baseline among the 3 arms of the study||0.71|-0.31|<0.001
82460682|NCT01183689|164623614|SUPERIORITY||Mean Difference (Net)|0.88||||0.002|TWO_SIDED|95.0|0.37|1.39||This p-value is from a 2 degree freedom test of differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to year 2 among the 3 groups.||1.39|0.37|0.002
82650064|NCT00434161|165015158|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.84||||0.372|TWO_SIDED|95.0|0.58|1.23|||Log Rank|||All comparisons for the long-term safety endpoints were based on the combined palifermin group (pre- and post- high dose chemotherapy and pre-high dose chemotherapy only) versus placebo (placebo over palifermin). Overall survival was analyzed using the Kaplan-Meier method. Kaplan-Meier estimates were provided together with the 95% confidence interval.||1.23|0.58|0.372
82650065|NCT00549198|165015191|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.435
82650066|NCT00549198|165015192|SUPERIORITY_OR_OTHER|||||||0.057||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, age group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.057
82460683|NCT01183689|164623615|SUPERIORITY||Mean Difference (Net)|-0.13|||<|0.001|TWO_SIDED|95.0|-0.71|0.45||2 degree of freedom F-test from analysis of variance|ANOVA|2 degree of freedom F-test from analysis of variance to compare mean differences among arms||2 degree F-test from analysis of variance applied to 2 year changes in scores from baseline||0.45|-0.71|<0.001
82460684|NCT01183689|164623615|SUPERIORITY||Median Difference (Net)|1.4|||<|0.001|TWO_SIDED|95.0|0.82|1.98||This p-value is from the omnibus 2 degree of freedom test for mean differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean changes from baseline to 2 years among the 3 groups.||1.98|0.82|<0.001
82460685|NCT01183689|164623616|SUPERIORITY||Mean Difference (Net)|-0.08||||0.24|TWO_SIDED|95.0|-0.24|0.09||This p-value is from a 2 degree of freedom test for differences among the 3 arms.|ANOVA|2 degree of freedom test from analysis of variance to assess mean differences among the 3 arms||2 degree of freedom F-test from analysis of variance to compare 2 year differences in general health index values among the 3 arms||0.09|-0.24|0.24
82460686|NCT01183689|164623616|SUPERIORITY||Mean Difference (Net)|-0.15||||0.24|TWO_SIDED|95.0|-0.32|0.02||This p-value is from the 2 degree of freedom test of differences among the 3 arms.|ANOVA|||Analysis of variance was used to compare differences in changes from baseline to 2 years among the three arms.||0.02|-0.32|0.24
82460687|NCT01183689|164623617|SUPERIORITY||Mean Difference (Net)|1.52||||0.16|TWO_SIDED|95.0|-0.77|3.81||This p-value is from a 2 degree of freedom F-test to compare the 3 arms using analysis of variance.|ANOVA|||Mean differences between baseline and year 2 were compared among the 3 arms using analysis of variance.||3.81|-0.77|0.16
82460688|NCT01183689|164623617|SUPERIORITY||Mean Difference (Net)|2.21||||0.16|TWO_SIDED|95.0|-0.09|4.51||This p-value is from a 2 degree of freedom F test.|ANOVA|||Analysis of variance was used to compared mean differences among the 3 groups.||4.51|-0.09|0.16
82542437|NCT00304031|164784622|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.86|TWO_SIDED|95.0|0.87|1.62||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Methylated MGMT||1.62|0.87|0.86
82542438|NCT00304031|164784623|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.15|TWO_SIDED|95.0|0.73|1.05||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Unmethylated MGMT||1.05|0.73|0.15
82542439|NCT00304031|164784623|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.33|TWO_SIDED|95.0|0.66|1.15||One-sided significance level = 0.05|Log Rank||Reference level = Conventional adjuvant TMZ|Methylated MGMT||1.15|0.66|0.33
82542440|NCT00304031|164784624|SUPERIORITY|||||||0.012||||||Two-sided significance level of 0.05|Chi-squared|||||||0.012
82542441|NCT00304031|164784625|SUPERIORITY||||||<|0.001|||||||Chi-squared|Two-sided significance level of 0.05||||||<0.001
82542442|NCT00304031|164784626|SUPERIORITY||||||<|0.001||||||Two-sided test|Log Rank|||||||<0.001
82542443|NCT00304031|164784627|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||0.96
82542444|NCT00304031|164784628|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
82542445|NCT00304031|164784629|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||||||0.57
82542446|NCT00304031|164784630|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
82650067|NCT00549198|165015193|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by MDRD, baseline BMI, race group, treatment\*visit, baseline GFR by MDRD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.060
82652408|NCT01844583|165019519|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.53|||||TWO_SIDED|90.0|0.41|0.7|||||Estimates for each PK parameter were obtained using a mixed effects model of log (PK parameter) with fixed terms for the esomeprazole effect and random terms for participants within sequence.|||0.70|0.41|
82542447|NCT00304031|164784631|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82542448|NCT00304031|164784632|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||||||0.74
82542449|NCT00304031|164784633|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82542450|NCT00304031|164784634|SUPERIORITY|||||||0.2184|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.2184
82542451|NCT00304031|164784634|SUPERIORITY|||||||0.0763|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, RPA class, MGMT status, and time were included in the model. RPA class is reported here.||||0.0763
82542452|NCT00304031|164784634|SUPERIORITY|||||||0.5235|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10,12, 22, 24, and 46 weeks) as the outcome of interest. Treatment arm, RPA class, MGMT status, and time were included in the model. MGMT status is reported here.||||0.5235
82542453|NCT00304031|164784635|SUPERIORITY|||||||0.03|||||||Z-test of two proportions|||||||0.03
82542454|NCT00304031|164784636|SUPERIORITY|||||||0.03|||||||Z-test of two proportions|||||||0.03
82542455|NCT00304031|164784637|SUPERIORITY|||||||0.0002|||||||Chi-squared|Two-sided test||||||0.0002
82542456|NCT00304031|164784638|SUPERIORITY|||||||0.005|||||||Fisher Exact|Two-sided test||||||0.005
82542457|NCT00304031|164784639|SUPERIORITY|||||||0.018|||||||Fisher Exact|Two-sided test||||||0.018
82542458|NCT00304031|164784640|SUPERIORITY|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||||||0.1702|||||||Mixed Models Analysis|||A mixed effects model was run with MDASI Symptom Severity Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.1702
82542459|NCT00304031|164784640|SUPERIORITY|||||||0.8159|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. RPA is reported here.||||0.8159
82542460|NCT00304031|164784640|SUPERIORITY|||||||0.2174|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with EORTC QLQ-C30 Global Health Status Score (baseline, 10, 12, 22, 24, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. MGMT status is reported here.||||0.2174
82542461|NCT00304031|164784641|OTHER|||||||0.023|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. EORTC physical functioning is reported here.||||0.023
82542462|NCT00304031|164784641|OTHER|||||||0.043|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. Standardized HVLT-R recognition is reported here.||||0.043
82542463|NCT00304031|164784641|OTHER|||||||0.021|||||||Regression, Cox|||A Cox proportional hazards model was run with overall survival as the outcome of interest and baseline scores as continuous covariates. The final model was determined from stepwise selection. EORTC physical functioning, EORTC role functioning, standardized HVLT-R recognition, standardized HVLT-R recall, and standardized COWA were included in the initial model. Standardized COWA is reported here.||||0.021
82542464|NCT00304031|164784642|SUPERIORITY|||||||0.2357|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. Treatment arm is reported here.||||0.2357
82542465|NCT00304031|164784642|SUPERIORITY|||||||0.0147|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. RPA is reported here.||||0.0147
82542466|NCT00304031|164784642|SUPERIORITY|||||||0.457|||||||Mixed Models Analysis|Each explanatory variable is reported separately. (Time and intercept effects are not shown.)||A mixed effects model was run with NCF Composite Score (baseline, 10, 22, 46 weeks) as the outcome of interest. Treatment arm, recursive partitioning analysis (RPA) class, MGMT status, and time were included in the model. MGMT Status is reported here.||||0.457
82542467|NCT00304031|164784643|SUPERIORITY|||||||0.02|||||||Chi-squared|Two-sided test||||||0.02
82542468|NCT00304031|164784644|SUPERIORITY|||||||0.99|||||||Fisher Exact|Two-sided test||||||0.99
82542469|NCT00304031|164784645|SUPERIORITY|||||||0.33|||||||Fisher Exact|Two-sided test||||||0.33
82542470|NCT02189252|164784685|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|160.05||||0.2702|TWO_SIDED|95.0|64.71|395.82||The closed sequential testing procedure stopped at this step as the P Value is greater than 0.05.|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the first test in the fixed testing sequence.||395.82|64.71|0.2702
82542471|NCT02189252|164784685|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|121.61||||0.6367|TWO_SIDED|95.0|49.17|300.76||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the second test in the fixed testing sequence.||300.76|49.17|0.6367
82542472|NCT02189252|164784686|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|193.91||||0.0511|TWO_SIDED|95.0|99.61|377.47||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the third test in the fixed testing sequence.||377.47|99.61|0.0511
82578338|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.43||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.43
82650068|NCT00549198|165015194|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline GFR by CG\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.186
82542473|NCT02189252|164784686|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|133.32||||0.3543|TWO_SIDED|95.0|68.49|259.52||The p-value was only interpreted descriptively|Mixed Models Analysis|||In order to address the issue of multiple testing while maintaining overall type I error, a closed testing sequence was used involving 4 analyses stated in the primary objective of this study. In total, 4 statistical tests, each at a significance level of 5%, were carried along the fixed sequence until the first statistically non-significant treatment difference was observed (i.e. p-value\>0.05). This is the fourth test in the fixed testing sequence.||259.52|68.49|0.3543
82542474|NCT02189252|164784687|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|259.19||||0.021|TWO_SIDED|95.0|119.75|560.99|||Mixed Models Analysis|||||560.99|119.75|0.0210
82542475|NCT02189252|164784687|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|177.95||||0.1256|TWO_SIDED|95.0|82.22|385.16|||Mixed Models Analysis|||||385.16|82.22|0.1256
82542476|NCT02189252|164784688|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|298.91||||0.0025|TWO_SIDED|95.0|164.32|543.74||The p-value was only interpreted descriptively|Mixed Models Analysis|||||543.74|164.32|0.0025
82542477|NCT02189252|164784688|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|187.28||||0.0418|TWO_SIDED|95.0|102.95|340.66||The p-value was only interpreted descriptively|Mixed Models Analysis|||||340.66|102.95|0.0418
82542478|NCT02189252|164784689|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|79.36||||0.6833|TWO_SIDED|95.0|22.95|274.45|||Mixed Models Analysis|||||274.45|22.95|0.6833
82542479|NCT02189252|164784689|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|69.39||||0.522|TWO_SIDED|95.0|20.07|239.98|||Mixed Models Analysis|||||239.98|20.07|0.5220
82542480|NCT02189252|164784690|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|104.78||||0.9034|TWO_SIDED|95.0|44.92|244.41|||Mixed Models Analysis|||||244.41|44.92|0.9034
82542481|NCT02189252|164784690|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|80.58||||0.5782||95.0|34.55|187.95|||Mixed Models Analysis|||||187.95|34.55|0.5782
82542482|NCT02189252|164784691|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|753.75||||0.0391|TWO_SIDED|95.0|112.03|5071.6|||Mixed Models Analysis|||||5071.6|112.03|0.0391
82542483|NCT02189252|164784691|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|104.98||||0.9578|TWO_SIDED|95.0|15.6|706.33|||Mixed Models Analysis|||||706.33|15.60|0.9578
82542484|NCT02189252|164784692|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|376.64||||0.0186|TWO_SIDED|95.0|128.55|1103.5|||Mixed Models Analysis|||||1103.5|128.55|0.0186
82542485|NCT02189252|164784692|SUPERIORITY_OR_OTHER||Geometric mean ratio in %|131.74||||0.5955|TWO_SIDED|95.0|44.97|386.0|||Mixed Models Analysis|||||386.00|44.97|0.5955
82542486|NCT00566735|164784694|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 1 sided|Degrees of freedom = 28||Independent t-test to assess differences between the placebo and galantamine groups in regard to pre- and post-ECT scores on the Delayed Memory Index (DMI).||||<0.05
82460689|NCT01183689|164623618|SUPERIORITY||Mean Difference (Net)|0.17||||0.75|TWO_SIDED|95.0|-3.89|4.23||This p-value is from a 2 degree of freedom F-test from analysis of variance.|ANOVA|||Mean changes from baseline to year 2 among the 3 arms were compared using analysis of variance.||4.23|-3.89|0.75
82542487|NCT04603924|164784698|OTHER||||||||||||||||||"For the analysis of this efficacy endpoint, missing scores of the WHO Ordinal Scale for Clinical Improvement will be assumed to be \> 2 (i.e., no hospital discharge). Median time-to-clinical improvement and corresponding 95% confidence interval were estimated from the Kaplan-Meier curves. In some cases the 95% confidence interval was Not Evaluable (NE) by this method."|||
82650069|NCT00549198|165015195|SUPERIORITY_OR_OTHER|||||||0.413||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline GFR by CG\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.413
82650070|NCT00549198|165015196|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||The model includes the following covariates: treatment, visit, baseline GFR by CG, baseline BMI, race group, baseline CD4, treatment\*visit, baseline GFR by CG\*visit, baseline BMI\*visit and baseline CD4\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.315
82652409|NCT02833415|165019530|OTHER|Differences of Least Squares Means|Differences of Least Squares Means|0.9398|STANDARD_ERROR_OF_MEAN|0.2941||0.0053|TWO_SIDED||||||Mixed Models Analysis|||Baseline to Followup||||0.0053
82460690|NCT01183689|164623618|SUPERIORITY||Mean Difference (Net)|1.44||||0.75|TWO_SIDED|95.0|-2.61|5.49||This p-value is from a 2 degree of freedom test.|ANOVA||No significant differences between groups 1 and 3.|Analysis of variance was used to compare mean changes among the 3 groups.||5.49|-2.61|0.75
82460691|NCT01183689|164623619|SUPERIORITY||Mean Difference (Net)|-1.08||||0.05|TWO_SIDED|95.0|-2.44|0.28||This p-value is from a 2 degree of freedom F-test to compare the 3 arms within an analysis of variance.|ANOVA||No significant difference between groups 1 and 2.|Mean changes from baseline to year 2 among the 3 arms were compared using analysis of variance.||0.28|-2.44|0.05
82460692|NCT01183689|164623619|SUPERIORITY||Mean Difference (Net)|-1.66||||0.05|TWO_SIDED|95.0|-3.0|-0.32||This p-value is from an F-test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in changes from baseline to 2 years among the 3 groups.||-0.32|-3.00|0.05
82460693|NCT01183689|164623620|SUPERIORITY||Mean Difference (Net)|-0.46||||0.03|TWO_SIDED|95.0|-1.37|0.45||This p-value is from a 2 degree of freedom F-test from an analysis of variance to assess differences among the 3 arms.|ANOVA|||Mean changes between baseline and year 2 were compared among the 3 arms using analysis of variance.||0.45|-1.37|0.03
82460694|NCT01183689|164623620|SUPERIORITY||Mean Difference (Net)|-1.21||||0.03|TWO_SIDED|95.0|-2.11|-0.3||This p-value is from a 2 degree of freedom F-test to compare differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences from baseline to 2 years among the 3 groups.||-0.30|-2.11|0.03
82460695|NCT01183689|164623621|SUPERIORITY||Mean Difference (Net)|1.08||||0.2|TWO_SIDED|95.0|-0.84|3.0||This p-value is from a 2 degree of freedom F-test from an analysis of variance to assess mean differences among the 3 arms.|ANOVA||The 95% confidence interval for differences between groups 1 and 2 includes 0.|Mean differences from baseline to year 2 among the 3 arms were assessed using analysis of variance.||3.00|-0.84|0.20
82460696|NCT01183689|164623621|SUPERIORITY||Mean Difference (Net)|-0.05||||0.2|TWO_SIDED|95.0|-1.45|1.35||This p-value is from an analysis of variance comparing all 3 groups.|ANOVA||The 95% confidence interval for differences between groups 1 and 3 includes 0.|Analysis of variance was used to compare differences among the 3 groups.||1.35|-1.45|0.20
82460697|NCT01183689|164623622|SUPERIORITY||Mean Difference (Net)|-0.12||||0.02|TWO_SIDED|95.0|-0.34|0.1||2 degree of freedom F-test from analysis of variance, with no adjustment for multiple outcomes|ANOVA|||2 degree of freedom F-test to compare mean 2 year differences among 3 arms||0.10|-0.34|0.02
82460698|NCT01183689|164623622|SUPERIORITY||Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|95.0|-0.52|-0.08||This p-value is from a 2 degree of freedom test for differences among the 3 groups.|ANOVA|||Analysis of variance was used to compare mean differences in changes from baseline to 2 years among the 3 groups.||-0.08|-0.52|0.02
82460699|NCT01183689|164623623|SUPERIORITY||Mean Difference (Net)|-52.0||||0.58|TWO_SIDED|95.0|-164.0|60.0||2 degree of freedom F-test to compare 3 arms with respect to 2-year changes in kilocalories|ANOVA|||2 degree of freedom F-test to compare mean differences among 3 arms in changes in kilocalories from baseline to year 2||60|-164|0.58
82460700|NCT01183689|164623623|SUPERIORITY||Mean Difference (Net)|-50.0||||0.58|TWO_SIDED|95.0|-162.0|61.0||This p-value is from a 2 degree of freedom F-test to compare differences among the 3 groups|ANOVA|||Analysis of variance was used to assess mean differences in 2 year changes in kilocalories intake among the 3 groups.||61|-162|0.58
82460701|NCT01183689|164623624|SUPERIORITY||Mean Difference (Net)|-1.27||||0.001|TWO_SIDED|95.0|-2.55|0.02||2 degree of freedom F-test from analysis of variance to compare changes in waist circumference from baseline among the three arms|ANOVA|No adjustment to degrees of freedom|Difference between groups 1 and 2: 95% confidence interval includes 0|2 degree of freedom F-test from ANOVA to compare differences among 3 arms||0.02|-2.55|0.001
82460702|NCT01183689|164623624|SUPERIORITY||Mean Difference (Net)|-2.42||||0.001|TWO_SIDED|95.0|-3.69|-1.14||The p-value is from a 2 degree of freedom F-test for differences among the 3 arms|ANOVA||The 95% confidence interval for differences between groups 1 and 3 does not include 0.|Mean change in waist girth from baseline to year 2||-1.14|-3.69|0.001
82460703|NCT01183689|164623625|SUPERIORITY|Chi-squared test to compare the percentage of participants reporting self-weighing more than once per week among the 3 arms.|Odds Ratio (OR)|1.77||||0.004|TWO_SIDED|95.0|1.04|3.02||This is based on a 2 degree of freedom likelihood ratio test to compare differences among the 3 arms.|Regression, Logistic||The 95% confidence interval for the odds ratio comparing the rates of self-weighing at year 2 between groups 1 and 2 excludes 0.|Logistic regression to compare differences among the 3 groups||3.02|1.04|0.004
82542488|NCT04603924|164784699|OTHER||||||||||||||||||"For the analysis of this efficacy endpoint, missing scores of the WHO Ordinal Scale for Clinical Improvement were be assumed to be \> 2 (i.e., no hospital discharge). Median number of days to a 2-point improvement and corresponding 95% confidence interval were estimated from the Kaplan-Meier curves.~In some cases the 95% confidence interval was Not Evaluable (NE) by this method."|||
82542489|NCT02164240|164784708|OTHER||Clinical Benefit Rate|0.0|||||TWO_SIDED|95.0|0.0|24.7||descriptive statistics only||||Clinical benefit rate of at least 30% at 16 weeks for the entire, combined population, was considered worthy of further study.||24.7|0|
82460704|NCT01183689|164623625|SUPERIORITY||Odds Ratio (OR)|2.35||||0.004|TWO_SIDED|95.0|1.4|3.94||2 degree of freedom likelihood ratio statistic to compare differences among the 3 arms|Regression, Logistic|No adjustments|The 95% confidence interval for the odds ratio comparing groups 1 and 3 excludes 0.|Logistic regression analysis was used to compare the rates of daily self-weighing at 2 years among the 3 groups.||3.94|1.40|0.004
82460705|NCT03224130|164623633|SUPERIORITY|||||||0.21|||||||Regression, Logistic|||||||0.21
82460706|NCT03224130|164623634|SUPERIORITY|||||||0.31|||||||Regression, Linear|||||||0.31
82460707|NCT03224130|164623635|SUPERIORITY|||||||0.24|||||||censored Poisson model|||||||0.24
82460708|NCT03224130|164623636|SUPERIORITY||||||<|0.01|||||||Poisson model|||||||<0.01
82460709|NCT03224130|164623637|SUPERIORITY|||||||0.5|||||||Regression, Logistic|||||||0.50
82460710|NCT03224130|164623638|SUPERIORITY|||||||0.998|||||||Regression, Logistic|||||||0.998
82460711|NCT03224130|164623639|SUPERIORITY|||||||0.92|||||||Regression, Logistic|||||||0.92
82460712|NCT04516746|164623650|SUPERIORITY||Vaccine efficacy|73.98|||<|0.001|TWO_SIDED|95.0|65.34|80.47|||Poisson regression with robust variance|||The 95% confidence interval (CI) and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||80.47|65.34|<0.001
82460713|NCT04516746|164623654|SUPERIORITY||Vaccine efficacy|64.32|||<|0.001|TWO_SIDED|95.0|56.05|71.03|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||71.03|56.05|<0.001
82460714|NCT04516746|164623655|SUPERIORITY||Vaccine efficacy|69.65|||<|0.001|TWO_SIDED|95.0|60.68|76.57|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||76.57|60.68|<0.001
82460715|NCT04516746|164623656|SUPERIORITY||Vaccine efficacy|70.7|||<|0.001|TWO_SIDED|95.0|61.62|77.64|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||77.64|61.62|<0.001
82460716|NCT04516746|164623657|SUPERIORITY||Vaccine efficacy|73.68|||<|0.001|TWO_SIDED|95.0|65.13|80.13|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||80.13|65.13|<0.001
82460717|NCT04516746|164623658|SUPERIORITY||Vaccine efficacy|100.0|||<|0.001|ONE_SIDED|97.5|71.62||||Poisson regression exact conditional|||The exact 1-sided 97.5% CI and p-value were estimated based on stratified Poisson regression with exact conditional method (including study arm and stratification factor \[age group at informed consent\] as strata factor and log of total number of participants for each combination of study arm and strata as an offset).|||71.62|<0.001
82460718|NCT04516746|164623659|SUPERIORITY||Vaccine efficacy|84.97|||<|0.001|TWO_SIDED|95.0|58.97|94.5|||Poisson regression with robust variance|||The 95% CI were estimated based on Poisson regression with robust variance (including study arm and age group at screening (18-65 years, ≥ 65 years) as covariates and log of the follow-up time as an offset).||94.50|58.97|<0.001
82460719|NCT04516746|164623660|SUPERIORITY||Vaccine efficacy|94.8||||0.005|TWO_SIDED|95.0|58.98|99.34|||Poisson regression with robust variance|||The 95% CI and p-value were estimated based on Poisson regression with robust variance (including study arm and stratification factor \[age group at informed consent\] as covariates, and log of the follow up time as an offset).||99.34|58.98|0.005
82460720|NCT04516746|164623667|SUPERIORITY||Vaccine efficacy|54.47|||||TWO_SIDED|95.0|46.48|61.26||||||The 95% CI were estimated based on Poisson regression with robust variance (including study arm and age group at screening (18-65 years, ≥ 65 years) as covariates and log of the follow-up time as an offset).||61.26|46.48|
82460721|NCT00435409|164623679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2239||||0.9409|TWO_SIDED|95.0|0.9487|1.5789||Stratification factors included metastatic organ sites (2 or less versus \[vs\] more than \[\>\] 2 sites), hormone receptor status (HER2-/ER-/PR-) vs all others), and prior chemotherapy regimens (1 vs \>1), from interactive voice response system (IVRS).|Log Rank|||A stratified log-rank test (1-sided, α=0.025) based on randomization stratification factors||1.5789|0.9487|0.9409
82460722|NCT00435409|164623679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1084||||0.812|TWO_SIDED|95.0|0.8817|1.3935||Stratification factors include metastatic organ sites (2 or less versus \[vs\] 2 or more sites), hormone receptor status (HER2-/ER-/PR-) vs all others), and prior chemotherapy regimens (1 vs more than 1), from IVRS.|Log Rank|||A stratified log-rank test (1-sided, α=0.025) based on randomization stratification factors||1.3935|0.8817|0.8120
82460723|NCT00435409|164623680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.3143|TWO_SIDED|95.0|0.69|1.97||A stratified CMH test stratified by randomization stratification factors was used to compare objective response rate (ORR) between two treatment arms.|Cochran-Mantel-Haenszel|||Independent radiology assessment||1.97|0.69|0.3143
82460724|NCT00435409|164623680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.1269|TWO_SIDED|95.0|0.83|2.13||A stratified CMH test stratified by randomization stratification factors was used to compare ORR between two treatment arms.|Cochran-Mantel-Haenszel|||Investigator's assessment||2.13|0.83|0.1269
82460725|NCT00435409|164623682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0372||||0.6275|TWO_SIDED|95.0|0.8322|1.2927||Stratification factors (all from IVRS) included number of metastatic organ sites (\<=2 vs \>2 sites), hormone receptor status (HER2-/ER-/PR- vs all others), and prior chemotherapy regimens (1 vs \>1).|Log Rank||Hazard ratio for sunitinib + capecitabine versus capecitabine.|||1.2927|0.8322|0.6275
82460726|NCT03631940|164623701|SUPERIORITY||Least squares mean difference|-0.49||||0.87|TWO_SIDED|95.0|-6.36|5.37|||Hierarchical generalized linear mixed mo|Hierarchical generalized linear mixed models||||5.37|-6.36|.87
82460727|NCT03562195|164623712|SUPERIORITY||Posterior probablity|0.9999|||||||||||Bayesian Dynamic Borrowing|A BDB approach was used in the estimation of primary endpoint in the Chinese participants of this study, with information borrowed from MEA115588.|"Pr (rate ratio \<1 \| data)\>0.999. The 'positive result' is defined as if the posterior probability that the rate ratio is less than 1 is at least 0.95"|||||
82542490|NCT02731755|164784715|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||Between time points and treatments, calculated p value||||0.5
82542491|NCT02731755|164784716|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Ach-iAUC||||0.04
82650071|NCT00549198|165015203|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, hypertension, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
82652410|NCT02833415|165019530|OTHER|Differences of Least Squares Means|Differences of Least Squares Means|0.152|STANDARD_ERROR_OF_MEAN|0.2424||0.5394|TWO_SIDED||||||Mixed Models Analysis|||Baseline to Followup||||0.5394
82460728|NCT03562195|164623712|SUPERIORITY|The null hypothesis is defined as the rate ratio of events between Mepolizumab 100mg SC versus placebo is less than 1.|Rate Ratio|0.35|||<|0.001|TWO_SIDED|95.0|0.24|0.5|||Negative binomial model|||||0.50|0.24|<0.001
82460729|NCT00614575|164623738|SUPERIORITY_OR_OTHER||Mean change from baseline|-7.2|STANDARD_DEVIATION|9.0|<|0.0001|||||||Paired t-test|||||||<0.0001
82460730|NCT00614575|164623739|SUPERIORITY_OR_OTHER||Mean change from baseline|-4.8|STANDARD_DEVIATION|7.8|<|0.0001|||||||Paired t-test|||||||<0.0001
82460731|NCT00614575|164623740|SUPERIORITY_OR_OTHER||Mean change from baseline|-0.7|STANDARD_DEVIATION|0.9|<|0.0001|||||||paired t-test|||||||<0.0001
82460732|NCT00614575|164623741|SUPERIORITY_OR_OTHER||mean change from baseline|-0.3|STANDARD_DEVIATION|0.6|<|0.0001|||||||paired t-test|||||||<0.0001
82460733|NCT00189098|164623759|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-25.0|||||TWO_SIDED|95.0|-44.0|-6.0|||risk differences (RD)||Risk difference and 95% confidence intervals reported for 6 weeks follow-up.|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||-6|-44|
82460734|NCT00189098|164623759|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-34.0|4.0|||risk difference (RD)||Risk difference and confidence interval reported for 12 week follow-up|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||4|-34|
82460735|NCT00189098|164623759|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-12.0|22.0|||risk difference (RD)||Risk difference and confidence interval reported for 1 year follow-up.|"Assuming a spontaneous recovery of 25% and a treatment effect of TMP-SMX of 50% (based on a retrospective study of children treated with TMP-SMX for COM at our hospital), and taking α=0.05 and a power of 0.80, we calculated that each group should consist of 50 children.~Rate differences with 95% confidence intervals were calculated at the three control visits to compare both groups for the outcome measures."||22|-12|
82460736|NCT00189098|164623760|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.0|||||TWO_SIDED|95.0|-34.0|10.0|||rate differences (95%CI intervals)||Risk difference and confidence interval reported for eardrop usage between 6 and 12 weeks follow-up.|||10|-34|
82460737|NCT00189098|164623761|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-22.0|14.0|||rate difference (RD)||Risk difference and confidence interval reported for eardrop usage between 12 weeks and 1 year follow-up.|||14|-22|
82460738|NCT00189098|164623762|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.0|||||TWO_SIDED|95.0|-23.0|9.0|||Rate differences (95%CI interval)||Risk difference and confidence interval reported for the use of additional systemic antibiotics other than the study medication between 6 to 12 weeks follow-up.|||9|-23|
82460739|NCT00189098|164623763|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.0|||||TWO_SIDED|95.0|-7.0|37.0|||Rate difference (RD)||Risk difference and confidence interval reported for the use of additional systemic antibiotics other than the study medication between 12 weeks and 1 year follow-up.|||37|-7|
82460740|NCT00189098|164623764|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|-12.0|24.0|||Rate differences (95%CI intervals)||Risk difference and confidence interval reported for participants who underwent Ear Nose and Throat Surgery between 12 weeks and 1 year follow-up.|||24|-12|
82460741|NCT00474123|164623772|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Wilcoxon (Mann-Whitney)|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.3
82460742|NCT00474123|164623773|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.65
82542492|NCT02731755|164784716|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||SNP-IAUC||||0.007
82542493|NCT02731755|164784716|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Ach - AUC||||0.02
82542494|NCT02731755|164784717|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.9
82542495|NCT02731755|164784719|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.7
82542496|NCT00516321|164784736|SUPERIORITY_OR_OTHER||Percentage difference in SVR|7.9||||0.0064|TWO_SIDED|95.0|2.4|13.4||Stratified Cochran-Mantel-Haenszel (CMH) chi-square test adjusted for the randomization strata|Cochran-Mantel-Haenszel||The estimated value reflects the percentage of participants with SVR in the eltrombopag group minus the percentage of participants with SVR in the placebo group. Adjusted for the actual strata: HCV genotype, baseline platelet count, and HCV RNA.|||13.4|2.4|0.0064
82542497|NCT02139046|164784759|SUPERIORITY_OR_OTHER||Difference in Proportions|25.6|||<|0.001|TWO_SIDED|95.0|20.4|30.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the Cui, Hung, and Wang (CHW) Z-test which accounts for the interim analysis.||||30.9|20.4|<0.001
82578339|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.|||||<|0.0001||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cM-iT connectivity induced by active versus sham rTMS.||||<0.0001
82578340|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.002||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.002
82460743|NCT00474123|164623774|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.02
82460744|NCT00474123|164623775|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANCOVA|||The sample size was determined as 78 patients. Continuous data were presented as means ± SD, or median (interquartile range) when the distribution was non-normal. For qualitative variables, we presented counts and relative frequencies. For between-group comparison we used multiple regression with adjustment for baseline values of the outcome variable (ANCOVA), or Wilcoxon rank-sum test when the variable had a non-normal distribution.||||0.85
82460745|NCT00300755|164623784|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||<0.001
82460746|NCT00300755|164623784|SUPERIORITY_OR_OTHER|||||||0.063|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||0.063
82460747|NCT00300755|164623784|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline.||||< 0.001
82578341|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.54||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.54
82652411|NCT00449072|165019531|SUPERIORITY_OR_OTHER||Difference (LS Mean)|-0.45||||0.0096|TWO_SIDED|95.0|-0.78|-0.11|||ANCOVA|The treatment arm, age group (at Visit 1) and sex were fixed effects, and baseline growth velocity was a covariate in the ANCOVA model||||-0.11|-0.78|0.0096
82460748|NCT00300755|164623784|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.004
82460749|NCT00300755|164623784|SUPERIORITY_OR_OTHER|||||||0.082|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.082
82460750|NCT00300755|164623784|SUPERIORITY_OR_OTHER|||||||0.217|||||||ANCOVA|Analysis with treatment group and baseline age as fixed effects, and baseline GERD symptom score and baseline antacid use as covariates||Between group analysis of final week change from baseline.||||0.217
82460751|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Vomiting/regurgitation.||||0.002
82460752|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.033|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Vomiting/regurgitation.||||0.033
82460753|NCT00300755|164623785|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Choking/gagging.||||<0.001
82460754|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Choking/gagging.||||0.002
82460755|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.009|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Refusal to eat.||||0.009
82460756|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Difficulty swallowing.||||0.004
82460757|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.044|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Difficulty swallowing.||||0.044
82460758|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.002
82460759|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.026
82460760|NCT00300755|164623785|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for symptom Abdominal/belly pain.||||0.026
82578342|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.007||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cM connectivity induced by active versus sham rTMS.||||0.007
82578343|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.002||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.002
82542498|NCT02139046|164784759|SUPERIORITY_OR_OTHER||Difference in Proportions|49.8|||<|0.001|TWO_SIDED|95.0|43.9|55.8||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||55.8|43.9|<0.001
82542499|NCT02139046|164784759|SUPERIORITY_OR_OTHER||Difference in Proportions|10.2||||0.001|TWO_SIDED|95.0|3.5|17.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||17.0|3.5|0.001
82542500|NCT02139046|164784759|SUPERIORITY_OR_OTHER||Difference in Proportions|7.5||||0.043|TWO_SIDED|95.0|-0.8|15.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||15.9|-0.8|0.043
82542501|NCT02139046|164784760|SUPERIORITY_OR_OTHER||Difference in Proportions|2.1||||0.503|TWO_SIDED|95.0|-4.9|9.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||9.0|-4.9|0.503
82542502|NCT02139046|164784760|SUPERIORITY_OR_OTHER||Difference in Proportions|5.9||||0.064|TWO_SIDED|95.0|-1.2|13.0||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||13.0|-1.2|0.064
82542503|NCT02139046|164784760|SUPERIORITY_OR_OTHER||Difference in Proportions|1.8||||0.561|TWO_SIDED|95.0|-5.1|8.7||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||8.7|-5.1|0.561
82542504|NCT02139046|164784760|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.5||||0.869|TWO_SIDED|95.0|-8.0|6.9||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||6.9|-8.0|0.869
82542505|NCT02139046|164784761|SUPERIORITY_OR_OTHER||Difference in Proportions|47.6|||<|0.001|TWO_SIDED|95.0|41.6|53.6||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||53.6|41.6|<0.001
82542506|NCT02139046|164784761|SUPERIORITY_OR_OTHER||Difference in Proportions|60.5|||<|0.001|TWO_SIDED|95.0|54.6|66.3||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||66.3|54.6|<0.001
82542507|NCT02139046|164784761|SUPERIORITY_OR_OTHER||Difference in Proportions|7.8||||0.036|TWO_SIDED|95.0|-0.5|16.1||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||16.1|-0.5|0.036
82578344|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.32||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.32
82542508|NCT02139046|164784761|SUPERIORITY_OR_OTHER||Difference in Proportions|3.3||||0.364|TWO_SIDED|95.0|-4.9|11.6||To adjust for multiple comparisons, a closed testing strategy was used. Febuxostat XR 40 and 80 mg were tested separately versus placebo and the corresponding febuxostat IR group at a Bonferroni-corrected significance level of 0.025.|Z-test|Point estimates, confidence intervals, and p-values are presented using the CHW Z-test which accounts for the interim analysis.||||11.6|-4.9|0.364
82542509|NCT00373386|164784766|SUPERIORITY_OR_OTHER|||||||0.644|||||||t-test, 2 sided|||compared with baseline||||0.644
82542510|NCT00373386|164784767|SUPERIORITY_OR_OTHER|||||||0.018||||||Versus baseline|t-test, 2 sided|paired||Compared with baseline||||0.018
82542511|NCT00373386|164784768|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Comparison to baseline||||0.04
82542512|NCT00373386|164784769|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Comparison with baseline||||0.004
82542513|NCT00373386|164784770|SUPERIORITY_OR_OTHER|||||||0.804|||||||t-test, 2 sided|||Comparison with baseline||||0.804
82542514|NCT00373386|164784771|SUPERIORITY_OR_OTHER|||||||0.095|||||||t-test, 2 sided|||Comparison with baseline||||0.095
82542515|NCT00373386|164784772|SUPERIORITY_OR_OTHER|||||||0.648|||||||t-test, 2 sided|||Comparison with baseline||||0.648
82542516|NCT01925469|164784773|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|Differences in the median change in pain scores were assessed using Wilcoxon rank sum test.||An a priori sample size calculation determined at least 28 patients were needed to detect a clinically significant 13 mm difference in pain score (α=0.05, power =0.80) with a standard deviation of 12 mm. Intention to treat analysis was performed.||||0.43
82460761|NCT00300755|164623786|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for Cough without cold.||||0.004
82460762|NCT00300755|164623786|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||Within group analysis of final week change from baseline for Noisy breathing.||||0.047
82460763|NCT04571944|164623788|SUPERIORITY||Difference in % vs Placebo|-8.7||||0.129|TWO_SIDED|95.0|-20.1|2.6|||Miettinen and Nurminen method|Analysis was stratified by hospitalization reason (acute disease, elective surgery) and age category (\<75 years, ≥75 years).||||2.6|-20.1|0.129
82460764|NCT04571944|164623789|OTHER||Difference in % vs. Placebo|0.8|||||TWO_SIDED|95.0|-9.3|11.0||||||||11.0|-9.3|
82460765|NCT04571944|164623790|OTHER||Difference in % vs. Placebo|0.0|||||TWO_SIDED|95.0|-5.1|5.2||||||||5.2|-5.1|
82460766|NCT04571944|164623791|SUPERIORITY||Difference vs. Placebo|-0.5||||0.485|TWO_SIDED|95.0|-2.0|1.0||Based on aligned rank test.|Hodges-Lehmann method|||||1.0|-2.0|0.485
82460767|NCT04571944|164623792|SUPERIORITY||Difference in % vs. Placebo|-8.6||||0.136|TWO_SIDED|95.0|-20.2|2.8|||Miettinen and Nurminen method|Analysis was stratified by hospitalization reason (acute disease, elective surgery) and age category (\<75 years, ≥75 years).||||2.8|-20.2|0.136
82460768|NCT02732600|164623890|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.59||0.39|TWO_SIDED|95.0|-0.66|1.68|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||1.68|-0.66|0.39
82578345|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-iT connectivity induced by active versus sham rTMS.||||0.01
82650072|NCT00549198|165015204|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, country group, treatment\*visit, baseline hip BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
82460769|NCT02732600|164623890|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.71||0.35|TWO_SIDED|95.0|-0.75|2.06|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||2.06|-0.75|0.35
82460770|NCT02732600|164623890|SUPERIORITY||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|0.81||0.21|TWO_SIDED|95.0|-0.57|2.6|||t-test, 2 sided|||Analysis 1 is Comparison Across Conditions at BASELINE Analysis 2 is Comparison Across Conditions at 6 Months Analysis 3 is Comparison Across Conditions at 1 year||2.60|-0.57|0.21
82460771|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|3.6||0.156|TWO_SIDED|95.0|-2.2|13.48|||t-test, 2 sided|||t-test used to compare group differences in Cohesiveness at BASELINE||13.48|-2.2|0.156
82460772|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|7.97|STANDARD_ERROR_OF_MEAN|5.89||0.182|TWO_SIDED|95.0|-3.85|19.8|||t-test, 2 sided|||t-test to compare group means on Communication at BASELINE||19.8|-3.85|0.182
82460773|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|8.41|STANDARD_ERROR_OF_MEAN|6.31||0.234|TWO_SIDED|95.0|-5.74|22.57|||t-test, 2 sided|||t-test to compare group differences on Role Clarity at BASELINE||22.57|-5.74|0.234
82460774|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|14.14|STANDARD_ERROR_OF_MEAN|9.63||0.149|TWO_SIDED|95.0|-5.22|33.5|||t-test, 2 sided|||t-test to compare group values on Goals at Baseline||33.5|-5.22|0.149
82460775|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|7.1||0.947|TWO_SIDED|95.0|-14.7|13.8|||t-test, 2 sided|||t-test of differences between groups on Cohesiveness at 6-Months||13.8|-14.7|0.947
82460776|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|8.4||0.87|TWO_SIDED|95.0|-15.6|18.4|||t-test, 2 sided|||t-test of groups differences on Communication at 6 Months||18.4|-15.6|0.870
82460777|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|6.18|STANDARD_ERROR_OF_MEAN|8.62||0.478|TWO_SIDED|95.0|-11.26|23.63|||t-test, 2 sided|||t-test of group differences on Role Clarity at 6 months||23.63|-11.26|0.478
82460778|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_ERROR_OF_MEAN|7.71||0.773|TWO_SIDED|95.0|-13.35|17.83|||t-test, 2 sided|||t-test of group differences on Goals at 6 Months||17.83|-13.35|0.773
82460779|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|9.09|STANDARD_ERROR_OF_MEAN|9.8||0.498|TWO_SIDED|95.0|-20.4|38.6|||t-test, 2 sided|||t-test of group differences on Cohesiveness at 1year||38.6|-20.4|0.498
82460780|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|11.4||0.78|TWO_SIDED|95.0|-20.3|26.7|||t-test, 2 sided|||t-test of group differences on Communication at 1 year||26.7|-20.3|0.780
82460781|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|11.46|STANDARD_ERROR_OF_MEAN|12.54||0.474|TWO_SIDED|95.0|-23.19|46.11|||t-test, 2 sided|||t-test of group differences on Role Clarity at 1 year||46.11|-23.19|0.474
82460782|NCT02732600|164623891|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_ERROR_OF_MEAN|8.78||0.267|TWO_SIDED|95.0|-8.21|28.21|||t-test, 2 sided|||t-test of group differences on Goals at 1 year||28.21|-8.21|0.267
82460783|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.38||0.098|TWO_SIDED|95.0|-0.09|1.0|||t-test, 2 sided|||t test comparison across groups on CORE PEER at 6 months||1.00|-0.09|0.098
82460784|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.1||0.282|TWO_SIDED|95.0|-0.43|1.43|||t-test, 2 sided|||t-test comparison across groups on COLLABORATION at 6 months||1.43|-0.43|0.282
82460785|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.56||0.06|TWO_SIDED|95.0|-0.05|2.29|||t-test, 2 sided|||t-test comparison across groups on PEER SPECIALIST AS LIAISON at 6 months||2.29|-0.05|0.06
82650073|NCT00549198|165015205|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||0.036
82542517|NCT01925469|164784774|SUPERIORITY_OR_OTHER|||||||0.4|||||||Fisher Exact|||Fisher exact test was used to assess differences in satisfaction scores by treatment group. Correlation between pain and satisfaction scores was assessed by Spearman's correlation coefficient.||||0.4
82542518|NCT01925469|164784775|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82542519|NCT00779870|164784778|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82542520|NCT00779870|164784778|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82542521|NCT01040689|164784781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.145|0.224|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.224|0.145|<0.0001
82542522|NCT01040689|164784781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.167|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.246|0.167|<0.0001
82542523|NCT01040689|164784781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.133|0.212|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.212|0.133|<0.0001
82542524|NCT01040689|164784782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.09|0.173|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.173|0.090|<0.0001
82542525|NCT01040689|164784782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.136|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.219|0.136|<0.0001
82542526|NCT01040689|164784782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.081|0.164|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.164|0.081|<0.0001
82542527|NCT01040689|164784783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.121|0.196|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.196|0.121|<0.0001
82542528|NCT01040689|164784783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.155|0.23|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.230|0.155|<0.0001
82542529|NCT01040689|164784783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.11|0.185|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.185|0.110|<0.0001
82542530|NCT01040689|164784784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.147|0.216|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.216|0.147|<0.0001
82542531|NCT01040689|164784784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.178|0.247|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.247|0.178|<0.0001
82542532|NCT01040689|164784784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.097|0.167|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.167|0.097|<0.0001
82542533|NCT01040689|164784785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.17|0.243|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.243|0.170|<0.0001
82542534|NCT01040689|164784785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.179|0.252|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.252|0.179|<0.0001
82542535|NCT01040689|164784785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.146|0.219|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.219|0.146|<0.0001
82542536|NCT01040689|164784786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.177|0.249|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.249|0.177|<0.0001
82542537|NCT01040689|164784786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.203|0.275|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.275|0.203|<0.0001
82542538|NCT01040689|164784786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.125|0.197|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.197|0.125|<0.0001
82652412|NCT00449072|165019532|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.12||||0.7341|TWO_SIDED|95.0|-0.83|0.58|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|||0.58|-0.83|0.7341
82460786|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.86||0.34|TWO_SIDED|95.0|0.07|1.59|||t-test, 2 sided|||t-test comparison across groups on PROVIDES INFO ON SERVICES at 6 months||1.59|0.07|0.34
82460787|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.34|TWO_SIDED|95.0|-0.94|2.62|||t-test, 2 sided|||t-test comparison across groups on Symptoms and Medication at 6-months||2.62|-0.94|0.34
82460788|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.64||0.66|TWO_SIDED|95.0|-1.03|1.5|||t-test, 2 sided|||t-test comparison across groups on Training and Preparation at 6-months||1.50|-1.03|0.66
82460789|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.61||0.15|TWO_SIDED|95.0|-0.36|2.16|||t-test, 2 sided|||t-test comparison across groups on Team Integration and Relationships at 6 Months||2.16|-0.36|0.15
82460790|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.39||0.59|TWO_SIDED|95.0|-1.01|0.59|||t-test, 2 sided|||t-test comparison across groups on Leadership at 6-months||0.59|-1.01|0.59
82460791|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.84||0.95|TWO_SIDED|95.0|-1.77|1.68|||t-test, 2 sided|||t-test comparison across groups on Fits to Experience at 6 months||1.68|-1.77|0.95
82460792|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_ERROR_OF_MEAN|0.55||0.32|TWO_SIDED|95.0|-0.58|1.68|||t-test, 2 sided|||t-test comparison across groups on Role Clarity at 6 months||1.68|-0.58|0.32
82460793|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.64||0.27|TWO_SIDED|95.0|-0.6|2.04|||t-test, 2 sided|||t-test comparison across both groups on Resources at 6 months||2.04|-0.60|0.27
82460794|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.86||0.93|TWO_SIDED|95.0|-1.71|1.85|||t-test, 2 sided|||t-test comparison across groups on Performance Reviews at 6 months||1.85|-1.71|0.93
82542539|NCT01040689|164784787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.168|0.258|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.258|0.168|<0.0001
82542540|NCT01040689|164784787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.189|0.279|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.279|0.189|<0.0001
82460795|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.32||0.15|TWO_SIDED|95.0|-1.45|-0.005|||t-test, 2 sided|||t-test comparison across groups on CORE PEER at 1 year||-0.005|-1.45|0.15
82460796|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.45||0.04|TWO_SIDED|95.0|-1.7|0.32|||t-test, 2 sided|||t-test comparison across groups on Collaboration at 1 year||0.32|-1.7|0.04
82460797|NCT02732600|164623892|SUPERIORITY||Hazard Ratio, log|-0.95|STANDARD_ERROR_OF_MEAN|0.5||0.08|TWO_SIDED|95.0|-2.07|0.17|||t-test, 2 sided|||t-test comparison across groups on Peer Specialists as Liaison at 1 year||0.17|-2.07|0.08
82460798|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.26|TWO_SIDED|95.0|-0.58|0.18|||t-test, 2 sided|||t-test comparison across groups on Provides Info on Services at 1 year||0.18|-0.58|0.26
82460799|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|1.65||0.61|TWO_SIDED|95.0|-4.53|2.83|||t-test, 2 sided|||t-test comparison between groups on Symptoms and Medication at 1 year||2.83|-4.53|0.61
82460800|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.87||0.3|TWO_SIDED|95.0|-2.87|1.01|||t-test, 2 sided|||t-test comparison across groups on Training and Preparation at 1 year||1.01|-2.87|0.30
82460801|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.35||0.004|TWO_SIDED|95.0|-2.08|-0.52|||t-test, 2 sided|||t-test comparison across groups on Team Integration and Relationships at 1 year||-0.52|-2.08|0.004
82460802|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.81||0.01|TWO_SIDED|95.0|-4.2|-0.6|||t-test, 2 sided|||t-test comparison across groups on Leadership at 1 year||-0.60|-4.20|0.01
82460803|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.9||0.9|TWO_SIDED|95.0|-24.1|23.5|||t-test, 2 sided|||t-test comparison across groups on Fits to Experience at 1 year||23.5|-24.1|0.90
82460804|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.7||0.06|TWO_SIDED|95.0|-3.02|0.12|||t-test, 2 sided|||t-test comparison across groups on Role Clarity at 1 year||0.12|-3.02|0.06
82460805|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.53||0.71|TWO_SIDED|95.0|-0.97|1.37|||t-test, 2 sided|||t-test comparison across groups on Resources at 1 year||1.37|-0.97|0.71
82460806|NCT02732600|164623892|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.63||0.41|TWO_SIDED|95.0|-5.03|2.23|||t-test, 2 sided|||t-test comparison on Performance Reviews at 1 year||2.23|-5.03|0.41
82460807|NCT02732600|164623893|SUPERIORITY||Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.17||0.002|TWO_SIDED|95.0|1.29|5.88||not adjusted for multiple comparisons|t-test, 2 sided|||Group Comparison at Baseline||5.88|1.29|0.002
82460808|NCT02732600|164623893|SUPERIORITY||Mean Difference (Final Values)|2.62|STANDARD_ERROR_OF_MEAN|1.6||0.1|TWO_SIDED|95.0|-0.54|5.78|||t-test, 2 sided|||Group Comparison at 6 Months||5.78|-0.54|0.10
82460809|NCT02732600|164623893|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.83||0.77|TWO_SIDED|95.0|-3.06|4.14|||t-test, 2 sided|||Group Comparison at 1 year||4.14|-3.06|0.77
82460810|NCT02732600|164623894|SUPERIORITY||Mean Difference (Final Values)|3.47|STANDARD_ERROR_OF_MEAN|1.56||0.02|TWO_SIDED|95.0|0.56|6.38||p value for 1st year only|t-test, 2 sided|||||6.38|0.56|0.02
82460811|NCT02732600|164623894|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|2.39||0.93|TWO_SIDED|95.0|-4.67|5.04|||t-test, 2 sided|||||5.04|-4.67|0.93
82460812|NCT02732600|164623895|SUPERIORITY||Mean Difference (Final Values)|1.02|STANDARD_ERROR_OF_MEAN|0.2||0.0001|TWO_SIDED|95.0|0.68|1.37|||t-test, 2 sided|p value for 1st year||||1.37|0.68|0.0001
82460813|NCT02732600|164623896|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|2.26||0.02|TWO_SIDED|95.0|1.46|9.96|||t-test, 2 sided|||||9.96|1.46|0.02
82542541|NCT01040689|164784787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.156|0.246|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.246|0.156|<0.0001
82542542|NCT01040689|164784788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.096|0.17|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.170|0.096|<0.0001
82460814|NCT02732600|164623896|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|2.92||0.38|TWO_SIDED|95.0|-3.14|8.54|||t-test, 2 sided|||||8.54|-3.14|0.38
82460815|NCT02732600|164623897|SUPERIORITY||Mean Difference (Final Values)|-99.4|STANDARD_ERROR_OF_MEAN|41.73||0.027|TWO_SIDED|95.0|-186.2|-12.66|||t-test, 2 sided|||||-12.66|-186.2|0.027
82460816|NCT02732600|164623898|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|0.28|0.92|||t-test, 2 sided|||||0.92|0.28|0.001
82460817|NCT02051764|164623919|OTHER|||||||0.2837||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Overall change from baseline between groups. Test compared slopes of cognitively impaired (CI) vs healthy volunteers (HV). As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were the different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.2837
82460818|NCT02051764|164623919|OTHER|||||||0.9276||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Change from baseline between groups for amyloid negative only. Test compared slopes of CI vs HV. As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.9276
82460819|NCT02051764|164623919|OTHER|||||||0.6324||||||Not adjusted for multiple comparisons. No a priori threshold was selected.|ANCOVA|Adjustments included baseline tau deposition, age, time (in years) between imaging, and included an interaction of time and enrolling diagnosis.||Change from baseline between groups for amyloid positive only. Test compared slopes of CI vs HV. As the time between scans varied across subjects, an ANCOVA model was used to estimate slopes in each diagnosis group and test whether they were different at 1 year. The flortaucipir change from baseline was used as the dependent variable in the model.||||0.6324
82460820|NCT00591006|164623920|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<0.01
82542543|NCT01040689|164784788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.11|0.184|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.184|0.110|<0.0001
82460821|NCT00591006|164623920|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|||||||.12
82460822|NCT00591006|164623920|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Mixed Models Analysis|||||||.15
82460823|NCT00591006|164623920|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Mixed Models Analysis|||||||.10
82460824|NCT00591006|164623921|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
82460825|NCT00591006|164623921|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
82460826|NCT00591006|164623921|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
82460827|NCT00591006|164623921|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|||||||.02
82460828|NCT00591006|164623922|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Mixed Models Analysis|||||||.08
82460829|NCT00591006|164623922|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||||||<.01
82460830|NCT00591006|164623922|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Mixed Models Analysis|||||||.11
82460831|NCT00591006|164623922|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Mixed Models Analysis|||||||.06
82460832|NCT02099864|164623934|OTHER||Odds Ratio (OR)|10.0||||0.055|TWO_SIDED|95.0|0.9|108.8|||Fisher Exact|Due to sample size, Fisher's exact test was used rather than simple logistic regression.||||108.8|0.9|0.055
82460833|NCT02099864|164623935|OTHER||Odds Ratio (OR)|0.7||||1|TWO_SIDED|95.0|0.1|5.3|||Fisher Exact|Due to sample size, Fisher's exact was used rather than regression.||||5.3|0.1|1.000
82460834|NCT02099864|164623936|OTHER||Odds Ratio (OR)|0.7||||1|TWO_SIDED|95.0|0.0|17.0|||Fisher Exact|||||17.0|0.0|1.000
82460835|NCT02099864|164623937|OTHER||Median Difference (Final Values)|23.2||||0.84|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for responders minus the median for non-responders.|||||0.84
82460836|NCT02099864|164623938|OTHER||Median Difference (Final Values)|-1.9||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for responders minus the median for non-responders.|||||0.14
82460837|NCT02099864|164623939|OTHER||Odds Ratio (OR)|2.7||||1|TWO_SIDED|95.0|0.1|60.2|||Fisher Exact|||||60.2|0.1|1.00
82460838|NCT02099864|164623941|OTHER||Median Difference (Final Values)|4.8||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Difference is the median for the responders minus the median for the non-responders.|||||0.01
82460839|NCT02099864|164623944|OTHER||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.45|||Regression, Cox|||||0.45|0.07|<0.001
82460840|NCT02099864|164623945|OTHER||Hazard Ratio (HR)|0.22||||0.002|TWO_SIDED|95.0|0.08|0.56|||Regression, Cox|||||0.56|0.08|0.002
82460841|NCT02099864|164623946|OTHER||Hazard Ratio (HR)|0.23||||0.23|TWO_SIDED|95.0|0.02|0.59|||Regression, Cox|||||0.59|0.02|0.23
82460842|NCT02099864|164623947|OTHER||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.07|0.45|||Regression, Cox|||||0.45|0.07|<0.001
82460843|NCT02099864|164623952|OTHER||Hazard Ratio (HR)|4.9|||<|0.001|TWO_SIDED|95.0|2.03|11.82|||Regression, Cox|||||11.82|2.03|<0.001
82542544|NCT01040689|164784788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.06|0.134|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.134|0.060|<0.0001
82460844|NCT03062358|164623953|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.018|TWO_SIDED|95.0|0.63|0.99||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.99|0.63|0.0180
82460845|NCT03062358|164623954|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0032|TWO_SIDED|95.0|0.6|0.92||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.92|0.60|0.0032
82460846|NCT03062358|164623955|OTHER||Percent Difference|11.4||||4e-05|TWO_SIDED|95.0|6.7|16.0|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|Difference in % vs Placebo|Difference in % vs Placebo|Based on Miettinen \& Nurminen method stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. \>= 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|16.0|6.7|0.00004
82460847|NCT03062358|164623957|OTHER||Percent Difference|5.4||||0.13281|TWO_SIDED|95.0|-4.1|14.8|||One-sided p-value for testing|H0: difference in % =0 versus H1: difference in % \> 0.|Difference in % vs Placebo|Difference in % vs Placebo|Based on Miettinen \& Nurminen method stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|14.8|-4.1|0.13281
82460848|NCT03062358|164623958|OTHER||Hazard Ratio (HR)|0.72||||0.0019|TWO_SIDED|95.0|0.58|0.9||Log-rank test|One-sided p-value|Stratified by macrovascular invasion, α-Fetoprotein and region with all cells that correspond to macrovascular invasion=Yes combined|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||Stratified by macrovascular invasion (Yes vs. No), α-Fetoprotein (ng/mL) (\< 200 vs. ≥ 200) and region (China vs. ex-China) with all cells that correspond to macrovascular invasion=Yes combined.|0.90|0.58|0.0019
82460849|NCT00880698|164623975|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.1||||0.62|TWO_SIDED|95.0|-20.6|14.8||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference and 95% confidence interval (RotaTeq minus Placebo) in percentage of HIV-uninfected participants experiencing a new grade \>=3 adverse event|||14.8|-20.6|0.62
82460850|NCT00880698|164623975|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.7||||1|TWO_SIDED|95.0|-21.0|23.4||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference and 95% confidence interval (RotaTeq minus Placebo) in percentage of HIV-infected participants experiencing a new grade \>=3 adverse event|||23.4|-21.0|1.00
82542545|NCT01040689|164784789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.216|0.348|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.348|0.216|<0.0001
82542546|NCT01040689|164784789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.303|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.237|0.368|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.368|0.237|<0.0001
82542547|NCT01040689|164784789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.21|0.342|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.342|0.210|<0.0001
82542548|NCT01040689|164784790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.131|0.262|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.262|0.131|<0.0001
82542549|NCT01040689|164784790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.187|0.318|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.318|0.187|<0.0001
82460851|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|29.9|||<|0.001|TWO_SIDED|95.0|11.5|46.1||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G1 in RotaTeq group minus Placebo group.|SNA G1||46.1|11.5|<0.001
82460852|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|49.8|||<|0.001|TWO_SIDED|95.0|27.1|68.6||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G1 in RotaTeq group minus Placebo group.|SNA G1||68.6|27.1|<0.001
82460853|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.1||||0.2|TWO_SIDED|95.0|-11.3|24.8||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G2 in RotaTeq group minus Placebo group.|SNA G2||24.8|-11.3|0.20
82460854|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.2||||0.19|TWO_SIDED|95.0|-10.6|36.7||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G2 in RotaTeq group minus Placebo group.|SNA G2||36.7|-10.6|0.19
82460855|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.3|||<|0.001|TWO_SIDED|95.0|0.9|36.4||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G3 in RotaTeq group minus Placebo group.|SNA G3||36.4|0.9|<0.001
82460856|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|29.4|||<|0.001|TWO_SIDED|95.0|4.7|50.6||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G3 in RotaTeq group minus Placebo group.|SNA G3||50.6|4.7|<0.001
82460857|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|8.0|42.9||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA G4 in RotaTeq group minus Placebo group.|SNA G4||42.9|8.0|<0.001
82460858|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|58.6|||<|0.001|TWO_SIDED|95.0|37.2|75.9||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA G4 in RotaTeq group minus Placebo group.|SNA G4||75.9|37.2|<0.001
82460859|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.4||||0.024|TWO_SIDED|95.0|-1.7|34.2||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for SNA P1 in RotaTeq group minus Placebo group.|SNA P1||34.2|-1.7|0.024
82460860|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.7||||0.34|TWO_SIDED|95.0|-12.0|35.5||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for SNA P1 in RotaTeq group minus Placebo group.|SNA P1||35.5|-12.0|0.34
82460861|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|51.4|||<|0.001|TWO_SIDED|95.0|34.3|66.3||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 uninfected participants classified as responders for IgA in RotaTeq group minus Placebo group.|IgA||66.3|34.3|<0.001
82460862|NCT00880698|164623976|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|65.1|||<|0.001|TWO_SIDED|95.0|42.7|81.7||The pre-specified significance level was 5%. No adjustments were made for multiple comparisons.|Fisher Exact||Difference (95% confidence interval) in percentage of HIV-1 infected participants classified as responders for IgA in RotaTeq group minus Placebo group.|IgA||81.7|42.7|<0.001
82460863|NCT04972162|164623982|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.38||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Ease of Communication Subscale (EC)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.38
82460864|NCT04972162|164623982|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.79||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Background Noise Subscale (BN)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.79
82460865|NCT04972162|164623982|OTHER|The rm-ANOVA model fitted for the primary analysis was run to confirm if there is a significant interaction for treatment and order. This confirmation of the absence of an interaction effect is needed to validate the pooling of the two periods of Web-App treatment and the two periods of Standard-of-Care treatment, respectively.||||||0.51||||||p\<0.05 would show that there is an interaction effect i.e. results would differ depending on the order in which the participants wore the hearing aids|ANOVA|||"Check for interaction effect for Reverberant Room Subscale (RV)~The statistical analysis method was a repeated-measures ANOVA in which:~* order is a between-subjects effect - i.e., each subject has just one order~* treatment is a within-subjects effect - i.e., each subjects has both treatments because of the cross-over design~* the interaction term treatment x order is a within-subjects effect. The rm-ANOVAs generates a nuisance p-value: that of the interaction effect."||||0.51
82490408|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.1|||||TWO_SIDED|95.0|0.93|1.31|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H02 LotA ≠ LotC versus H12 LotA = Lotc H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.31|0.93|
82460866|NCT04972162|164623982|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.44|||<|0.0001|TWO_SIDED|95.0|-4.3|5.2||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Ease of Communication Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||5.2|-4.3|<0.0001
82460867|NCT04972162|164623982|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.97|||<|0.0001|TWO_SIDED|95.0|-5.3|7.2||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Background Noise Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||7.2|-5.3|<0.0001
82460868|NCT04972162|164623982|NON_INFERIORITY|Non-inferiority tests compared the subject´s perceived hearing aid benefit when the hearing aid was standard-of-care fitted compared to Web-App fitted by the subject. The non-inferiority margins are the minimum clinically important differences on each of the 3 communication benefit subscales as described by Cox \& Alexander (Ear and Hearing 1995;16;176-186). These literature values are as follows: Ease of Communication (EC): 26, Background Noise (BN): 27, Reverberant Room (RV): 28|Mean Difference (Final Values)|0.98|||<|0.0001|TWO_SIDED|95.0|-4.6|6.5||Threshold for statistical significance was p =0.05. p-value was calculated using the estimated difference of benefits, calculating a new t-statistic by subtracting the applicable non-inf. margin from the difference and dividing by standard error.|ANOVA|repeated measures ANOVA where factors are order and treatment is device with patient as a random effect. Added interaction term of treatment and order|Difference calculated as benefit(standard-of-care fit) - benefit(web-app-fit)|Results for Reverberant Room Subscale. Null hypothesis: benefit(standard-of-care fit) - benefit(web-app-fit) \< noninferiority margin for all subscales. Each subscale was analyzed using an rm-ANOVA in which the repeated factors are order \& treatment; no between-group factors. Interaction term was order x treatment. ITT population includes 2 subjects who withdrew. It was concluded that their primary endpoint data was missing for cause and their APHAB benefit scores were imputed as 0.||6.5|-4.6|<0.0001
82460869|NCT01602224|164623998|SUPERIORITY||Odds Ratio (OR)|1.98||||0.401|TWO_SIDED||||||Regression, Logistic|||100 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only tabalumab odds ratio compared to placebo.||||0.401
82460870|NCT01602224|164623998|SUPERIORITY||Odds Ratio (OR)|1.84||||0.455|TWO_SIDED||||||Regression, Logistic|||300 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only tabalumab odds ratio compared to placebo.||||0.455
82460871|NCT01602224|164623998|SUPERIORITY||Odds Ratio (OR)|1.9||||0.419|TWO_SIDED||||||Regression, Logistic|||100 mg Tabalumab+Dexamethasone+Bortezomib and 300 mg Tabalumab+Dexamethasone+Bortezomib compared with Placebo Comparator: Placebo + Dexamethasone + Bortezombib, only compared to placebo.||||0.419
82460872|NCT00770653|164624014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267||||0.0018|TWO_SIDED|95.0|1.2264|5.3076|||ANCOVA|||Null hypothesis (H0) = mean increase of HDL after 24 weeks of treatment of Pio/Met group ≤ the mean increase in the Gli/Met group. Alternate hypothesis (H1) = mean increase of HDL after 24 weeks of treatment of Pio/Met group \> the mean increase in the Gli/Met group. The relevant clinical effect size to detect with adequate power was 0.35. With this assumption, a one sided t-test with a type I error rate had 80% power to reject the H0 for the H1 when the sample size was 130 patients per group.||5.3076|1.2264|0.0018
82460873|NCT00770653|164624015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.267||||0.0018|TWO_SIDED|95.0|1.2264|5.3076|||ANCOVA||Deviation from the normal distribution assumption was detected for original and rank-transformed data for all time-points due to p-value of Shapiro-Wilk test, indicating the normal distribution assumption might be distrusted for HDL-cholesterol data.|||5.3076|1.2264|0.0018
82460874|NCT00770653|164624016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1311||||0.1167|TWO_SIDED|95.0|-0.2951|0.0329|||ANCOVA|||||0.0329|-0.2951|0.1167
82542550|NCT01040689|164784790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001||95.0|0.118|0.249|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.249|0.118|<0.0001
82460875|NCT00770653|164624017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.9479||||0.1012|TWO_SIDED|95.0|-39.4331|3.5373|||ANCOVA|||||3.5373|-39.4331|0.1012
82460876|NCT00770653|164624018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1292||||0.7486|TWO_SIDED|95.0|-17.0109|23.2693|||ANCOVA|||||23.2693|-17.0109|0.7486
82542551|NCT01040689|164784791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.178|0.301|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.301|0.178|<0.0001
82542552|NCT01040689|164784791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.216|0.339|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.339|0.216|<0.0001
82542553|NCT01040689|164784791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.168|0.291|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.291|0.168|<0.0001
82542554|NCT01040689|164784792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.207|0.33|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.330|0.207|<0.0001
82542555|NCT01040689|164784792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.312|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.251|0.374|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.374|0.251|<0.0001
82542556|NCT01040689|164784792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001||95.0|0.153|0.277|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.277|0.153|<0.0001
82542557|NCT01040689|164784793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.246|0.388|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.388|0.246|<0.0001
82542558|NCT01040689|164784793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.318|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.247|0.388|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.388|0.247|<0.0001
82542559|NCT01040689|164784793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.302|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.231|0.373|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.373|0.231|<0.0001
82542560|NCT01040689|164784794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.222|0.378|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.378|0.222|<0.0001
82542561|NCT01040689|164784794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.22|0.375|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.375|0.220|<0.0001
82542562|NCT01040689|164784794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.295|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.217|0.373|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.373|0.217|<0.0001
82542563|NCT01040689|164784795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.115|0.255|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 5 mcg qd minus Placebo|||0.255|0.115|<0.0001
82542564|NCT01040689|164784795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.143|0.282|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Olo 10 mcg qd minus Placebo|||0.282|0.143|<0.0001
82542565|NCT01040689|164784795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.036||0.0003||95.0|0.059|0.199|||Mixed Models Analysis|Adjusted using a mixed model with treatment and period as fixed effects and patient as a random effect and study baseline as a continuous covariate.|Tio 18 mcg qd minus Placebo|||0.199|0.059|0.0003
82542566|NCT01185561|164784797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.89|STANDARD_ERROR_OF_MEAN|2.43||0.001|TWO_SIDED|95.0|4.03|13.76|||t-test, 2 sided|||The null hypothesis is that there is no difference in CES-D score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||13.76|4.03|.001
82542567|NCT01185561|164784798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.82|STANDARD_ERROR_OF_MEAN|3.27||0.02|TWO_SIDED|95.0|1.29|14.37|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Anxiety Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||14.37|1.29|.02
82542568|NCT01185561|164784799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48|STANDARD_ERROR_OF_MEAN|2.91||0.005|TWO_SIDED|95.0|2.64|14.31|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Trait Anxiety Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||14.31|2.64|.005
82542569|NCT01185561|164784800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|3.75||0.85|TWO_SIDED|95.0|-6.77|8.24|||t-test, 2 sided|||The null hypothesis is that there is no difference in the State Trait Anger Expression Sub-test score between those assigned to the psychoeducational intervention and those assigned to usual medical care six months after randomization.||8.24|-6.77|.85
82460877|NCT00770653|164624019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2355||||0.9464|TWO_SIDED|95.0|-7.1253|6.6543|||ANCOVA|||||6.6543|-7.1253|0.9464
82542570|NCT03698708|164784846|SUPERIORITY||cohen's d|0.88|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82542571|NCT03698708|164784847|SUPERIORITY||cohen's d|0.22|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82542572|NCT03698708|164784848|SUPERIORITY||cohen's d|0.05|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82542573|NCT03698708|164784849|SUPERIORITY||cohen's d|0.14|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82542574|NCT03698708|164784850|SUPERIORITY||cohen's d|0.09|||||TWO_SIDED||||||repeated measures ANOVA|||||||
82542575|NCT03698708|164784851|SUPERIORITY||Mean Difference (Final Values)|-4.16|||||TWO_SIDED|95.0|-10.07|1.74|||ANOVA|||||1.74|-10.07|
82542576|NCT01068743|164784854|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% confidence intervals (CIs) for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|101.45|||||TWO_SIDED|90.0|98.17|104.84|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries. LS=Least Squares.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude bioequivalence (BE) with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||104.84|98.17|
82542577|NCT01068743|164784854|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|102.43|||||TWO_SIDED|90.0|99.53|105.42|||||Ratio=Treatment D/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf,respectively.||105.42|99.53|
82542578|NCT01068743|164784854|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|49.23||||||||||||||Geometric least squares means for Treatment A.||||
82542579|NCT01068743|164784854|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|49.94||||||||||||||Geometric least squares means for Treatment B.||||
82542580|NCT01068743|164784854|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|52.71||||||||||||||Geometric least squares means for Treatment C.||||
82578346|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.003||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cF connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.003
82542581|NCT01068743|164784854|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|53.99||||||||||||||Geometric least squares means for Treatment D.||||
82650074|NCT00549198|165015206|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, prohibited medication, previous fracture, treatment\*visit, baseline hip BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|Correlation matrix for within-subject errors is unstructured.||||||<0.001
82542582|NCT01068743|164784857|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|102.46|||||TWO_SIDED|90.0|94.68|110.88|||||Ratio=Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||110.88|94.68|
82542583|NCT01068743|164784857|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of saxagliptin.|Ratio (%) of Geometric LS Means|106.24|||||TWO_SIDED|90.0|98.43|114.66|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of saxagliptin from the FDC tablet versus saxagliptin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 98% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively. If there was a 5% difference, then 20 participants would have provided 93% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||114.66|98.43|
82542584|NCT01068743|164784857|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|9.73||||||||||||||Geometric least squares means for Treatment A.||||
82542585|NCT01068743|164784857|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|9.97||||||||||||||Geometric least squares means for Treatment B.||||
82542586|NCT01068743|164784857|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|10.33||||||||||||||Geometric least squares means for Treatment C.||||
82542587|NCT01068743|164784857|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|10.97||||||||||||||Geometric least squares means for Treatment D.||||
82542588|NCT01068743|164784858|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|102.1|||||TWO_SIDED|90.0|97.26|107.18|||||Ratio = Treatment B/Treatment A. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||107.18|97.26|
82652413|NCT00449072|165019533|SUPERIORITY_OR_OTHER||LS Mean Differerence|-0.15||||0.1963|TWO_SIDED|95.0|-0.37|0.08|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in nasal stuffiness||0.08|-0.37|0.1963
82460878|NCT00770653|164624020|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1574||||0.0807|TWO_SIDED|95.0|-0.0193|0.3341|||ANCOVA|||||0.3341|-0.0193|0.0807
82460879|NCT00770653|164624021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5039|||<|0.0001|TWO_SIDED|95.0|-6.4222|-2.5855|||ANCOVA|||||-2.5855|-6.4222|<.0001
82650075|NCT00549198|165015207|SUPERIORITY_OR_OTHER|||||||0.112||95.0||||The model includes the following covariates: treatment, visit, baseline spine BMD, baseline BMI, race group, age group, treatment\*visit, baseline spine BMD\*visit and baseline BMI\*visit.|Mixed Models Analysis|correlation matrix for within-subject errors is unstructured.||||||0.112
82460880|NCT00770653|164624022|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0707||||0.7799|TWO_SIDED|95.0|-6.4665|8.6079|||ANCOVA|||||8.6079|-6.4665|0.7799
82460881|NCT00770653|164624023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3161|||<|0.0001|TWO_SIDED|95.0|5.0994|7.5329|||ANCOVA|||||7.5329|5.0994|<.0001
82460882|NCT00770653|164624024|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8323||||0.4131|TWO_SIDED|95.0|-2.8312|1.1665|||ANCOVA|||||1.1665|-2.8312|0.4131
82460883|NCT00770653|164624025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8847|||<|0.0001|TWO_SIDED|95.0|-1.3067|-0.4627|||ANCOVA|||||-0.4627|-1.3067|<.0001
82460884|NCT00770653|164624026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4903||||0.0929|TWO_SIDED|95.0|-5.3979|0.4172|||ANCOVA|||||0.4172|-5.3979|0.0929
82460885|NCT00770653|164624027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8832||||0.3279|TWO_SIDED|95.0|-2.6571|0.8906|||ANCOVA|||||0.8906|-2.6571|0.3279
82460886|NCT00770653|164624028|SUPERIORITY_OR_OTHER||Fisher Exact|-3.33||||0.2895|TWO_SIDED|95.0|-14.83|8.39|||Fisher Exact|||The number and percentage of participants with a calculated compliance \>80% and \<120% are presented for both treatment groups. In addition, the p-values of Fisher's exact test, the two-sided 95% confidence intervals for the percentage of patients per treatment group and for the difference between the treatment groups are provided.||8.39|-14.83|0.2895
82460887|NCT00770653|164624029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.9516||||0.3517|TWO_SIDED|95.0|-94.1999|34.2967|||ANCOVA|||||34.2967|-94.1999|0.3517
82460888|NCT00770653|164624030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-151.4477||||0.1979|TWO_SIDED|95.0|-386.2256|83.3302|||ANCOVA|||||83.3302|-386.2256|0.1979
82460889|NCT00770653|164624031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.8589||||0.7186|TWO_SIDED|95.0|-163.3229|113.6052|||ANCOVA|||||113.6052|-163.3229|0.7186
82460890|NCT00770653|164624032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9728||||0.5058|TWO_SIDED|95.0|-39.9915|20.0459|||ANCOVA|||||20.0459|-39.9915|0.5058
82460891|NCT00770653|164624033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.3988||||0.523|TWO_SIDED|95.0|-60.7193|117.5169|||ANCOVA|||||117.5169|-60.7193|0.5230
82460892|NCT00770653|164624034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-367.2639||||0.2203|TWO_SIDED|95.0|-964.3923|229.8646|||ANCOVA|||||229.8646|-964.3923|0.2203
82561895|NCT01262456|164832970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.0001|TWO_SIDED|95.0|-0.61|-0.22||A priori threshold for significance was p\<=0.05.|ANCOVA|Repeated measures ANCOVA of change from baseline at Week 1, Months 1, 2, 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||"Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary outcomes in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.22|-0.61|<0.0001
82460893|NCT00770653|164624035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.0794||||0.585|TWO_SIDED|95.0|-95.6468|151.8057|||ANCOVA|||||151.8057|-95.6468|0.5850
82460894|NCT00770653|164624036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4205||||0.0138|TWO_SIDED|95.0|-4.3207|-0.5202|||ANCOVA|||||-0.5202|-4.3207|0.0138
82460895|NCT00770653|164624037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0009||||0.0817|TWO_SIDED|95.0|-30.1139|1.8578|||ANCOVA|||||1.8578|-30.1139|0.0817
82460896|NCT00770653|164624038|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9935||||0.1761|TWO_SIDED|95.0|-0.4843|2.4712|||ANCOVA|||||2.4712|-0.4843|0.1761
82460897|NCT00770653|164624039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5263||||0.0002|TWO_SIDED|95.0|1.3832|3.6695|||ANCOVA|||||3.6695|1.3832|0.0002
82460898|NCT00770653|164624040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2345||||0.0055|TWO_SIDED|95.0|1.0675|5.4016|||ANCOVA|||||5.4016|1.0675|0.0055
82460899|NCT00770653|164624041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9712||||0.0264|TWO_SIDED|95.0|0.3863|5.5562|||ANCOVA|||||5.5562|0.3863|0.0264
82460900|NCT00770653|164624042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5394||||0.0509|TWO_SIDED|95.0|-0.0114|5.0901|||ANCOVA|||||5.0901|-0.0114|0.0509
82460901|NCT00770653|164624043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1718||||0.1013|TWO_SIDED|95.0|-0.466|4.8097|||ANCOVA|||||4.8097|-0.4660|0.1013
82460902|NCT00770653|164624044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1346||||0.1363|TWO_SIDED|95.0|-0.7338|5.0031|||ANCOVA|||||5.0031|-0.7338|0.1363
82460903|NCT00770653|164624045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4181||||0.1165|TWO_SIDED|95.0|-0.6561|5.4922|||ANCOVA|||||5.4922|-0.6561|0.1165
82460904|NCT04906499|164624049|OTHER||Cohen's d effect size|0.13|||||TWO_SIDED|95.0|-0.68|0.93||||||||0.93|-0.68|
82460905|NCT04906499|164624051|OTHER||Cohen's d effect size|0.42|||||TWO_SIDED|95.0|-0.44|1.24||||||||1.24|-0.44|
82460906|NCT04906499|164624053|OTHER||Cohen's d effect size|0.85|||||TWO_SIDED|95.0|-0.13|1.77||||||||1.77|-0.13|
82460907|NCT04906499|164624055|OTHER||Cohen's d effect size|0.97|||||TWO_SIDED|95.0|-0.05|1.93||||||||1.93|-0.05|
82460908|NCT04906499|164624057|OTHER||Pearson's r Correlation Coefficient|0.32|||||TWO_SIDED|95.0|-0.67|0.9||||||||0.90|-0.67|
82460909|NCT04906499|164624058|OTHER||Pearson's r Correlation Coefficient|0.55|||||TWO_SIDED|95.0|-0.48|0.94||||||||0.94|-0.48|
82460910|NCT04906499|164624059|OTHER||Pearson's r Correlation Coefficient|0.23|||||TWO_SIDED|95.0|-0.88|0.71||||||||0.71|-0.88|
82460911|NCT04906499|164624060|OTHER||Pearson's r Correlation Coefficient|-0.19|||||TWO_SIDED|95.0|-0.87|0.73||||||||0.73|-0.87|
82460912|NCT04906499|164624062|OTHER||Cohen's d effect size|-0.42|||||TWO_SIDED|95.0|-1.24|0.44||||||||0.44|-1.24|
82460913|NCT00179621|164624065|SUPERIORITY_OR_OTHER||||||<|0.001||||||To compare the response rates of Lenalidomide 5 mg QD vs. placebo, the Hochberg procedure was used to control the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
82460914|NCT00179621|164624065|SUPERIORITY_OR_OTHER||||||<|0.001||||||To compare the response rates of Lenalidomide 10 mg QD vs. placebo, the Hochberg procedure was used to control the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
82460915|NCT00179621|164624066|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
82460916|NCT00179621|164624066|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Scoring System (IPSS) score (IPSS combined score =0 versus \>0) to compare lenalidomide treatment with placebo.||||||<0.001
82460917|NCT00179621|164624076|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82460918|NCT00179621|164624076|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82460919|NCT00179621|164624077|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||ANOVA|||||||0.054
82460920|NCT00179621|164624077|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANOVA|||||||0.080
82460921|NCT00179621|164624078|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||ANOVA|||||||0.062
82650076|NCT00549198|165015208|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The model includes the following covariates: treatment, visit, baseline hip BMD, baseline BMI, race group, risk factor, prohibited medication, previous fracture, treatment\*visit, baseline hip BMD\*visit, and baseline BMI\*visit.|Mixed Models Analysis|The correlation matrix for within-subject errors is unstructured.||||||<0.001
82650077|NCT00549198|165015241|SUPERIORITY_OR_OTHER|||||||0.3025||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||0.3025
82460922|NCT00179621|164624078|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||ANOVA|||||||0.113
82460923|NCT03525444|164624084|SUPERIORITY||Least Squares (LS) Mean Difference|13.8|||<|0.0001|TWO_SIDED|95.0|12.1|15.4|||Mixed-effects model for repeated measure|||The data presented for Primary endpoint was based on interim analysis at Week 4.||15.4|12.1|<0.0001
82460924|NCT03525444|164624085|SUPERIORITY||LS Mean Difference|14.3|||<|0.0001|TWO_SIDED|95.0|12.7|15.8|||Mixed-effects model for repeated measure|||||15.8|12.7|<0.0001
82460925|NCT03525444|164624086|SUPERIORITY||Rate ratio|0.37|||<|0.0001|TWO_SIDED|95.0|0.25|0.55|||Negative binomial regression model|||||0.55|0.25|<0.0001
82460926|NCT03525444|164624087|SUPERIORITY||LS Mean Difference|-41.8|||<|0.0001|TWO_SIDED|95.0|-44.4|-39.3|||Mixed-effects model for repeated measure|||||-39.3|-44.4|<0.0001
82460927|NCT03525444|164624088|SUPERIORITY||LS Mean Difference|20.2|||<|0.0001|TWO_SIDED|95.0|17.5|23.0|||Mixed-effects model for repeated measure|||||23.0|17.5|<0.0001
82460928|NCT03525444|164624089|SUPERIORITY||LS Mean Difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.85|1.23|||Mixed-effects model for repeated measure|||||1.23|0.85|<0.0001
82460929|NCT03525444|164624090|SUPERIORITY||LS Mean Difference|-41.2|||<|0.0001|TWO_SIDED|95.0|-44.0|-38.5|||Mixed-effects model for repeated measure|||||-38.5|-44.0|<0.0001
82460930|NCT03525444|164624091|SUPERIORITY||LS Mean Difference|20.1|||<|0.0001|TWO_SIDED|95.0|16.9|23.2|||Mixed-effects model for repeated measure|||||23.2|16.9|<0.0001
82460931|NCT03525444|164624093|SUPERIORITY||LS Mean Difference|0.3|||||TWO_SIDED|95.0|0.17|0.43||||||||0.43|0.17|
82460932|NCT03525444|164624094|SUPERIORITY||LS Mean Difference|2.9|||||TWO_SIDED|95.0|2.3|3.4||||||||3.4|2.3|
82460933|NCT02973100|164624109|SUPERIORITY||Mean Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.07|-0.53|||Mixed Models Analysis|||||-0.53|-1.07|<.001
82460934|NCT02973100|164624109|SUPERIORITY||Mean Difference (Final Values)|-0.87|||<|0.001|TWO_SIDED|95.0|-1.14|-0.6|||Mixed Models Analysis|||||-0.60|-1.14|<0.001
82460935|NCT02973100|164624109|SUPERIORITY||Mean Difference (Final Values)|-0.96|||<|0.001|TWO_SIDED|95.0|-1.24|-0.69|||Mixed Models Analysis|||||-0.69|-1.24|<.001
82460936|NCT02973100|164624110|SUPERIORITY||Odds Ratio (OR)|24.489|||<|0.001|TWO_SIDED|95.0|8.368|71.667|||Regression, Logistic|||||71.667|8.368|<.001
82460937|NCT02973100|164624110|SUPERIORITY||Odds Ratio (OR)|27.906|||<|0.001|TWO_SIDED|95.0|9.238|84.3|||Regression, Logistic|||||84.300|9.238|<.001
82460938|NCT02973100|164624110|SUPERIORITY||Odds Ratio (OR)|21.852|||<|0.001|TWO_SIDED|95.0|7.672|62.242|||Regression, Logistic|||||62.242|7.672|<.001
82460939|NCT02973100|164624111|SUPERIORITY||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-2.02|-0.62|||Mixed Models Analysis|||||-0.62|-2.02|<0.001
82460940|NCT02973100|164624111|SUPERIORITY||Mean Difference (Final Values)|-1.23|||<|0.001|TWO_SIDED|95.0|-1.91|-0.54|||Mixed Models Analysis|||||-0.54|-1.91|<0.001
82460941|NCT02973100|164624111|SUPERIORITY||Mean Difference (Final Values)|-1.42|||<|0.001|TWO_SIDED|95.0|-2.12|-0.72|||Mixed Models Analysis|||||-0.72|-2.12|<0.001
82460942|NCT02973100|164624112|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.025|TWO_SIDED|95.0|-2.3|-0.2|||Mixed Models Analysis|||||-0.2|-2.3|0.025
82460943|NCT02973100|164624112|SUPERIORITY||Mean Difference (Final Values)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.4|-1.3|||Mixed Models Analysis|||||-1.3|-3.4|<0.001
82460944|NCT02973100|164624112|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.7|-1.5|||Mixed Models Analysis|||||-1.5|-3.7|<0.001
82460945|NCT01959503|164624131|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank-Sum Test|||||||<0.0001
82460946|NCT01959503|164624132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|4.07|19.89|||Regression, Logistic|||||19.89|4.07|<0.0001
82460947|NCT01959503|164624133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.69|||<|0.0001|TWO_SIDED|95.0|3.27|18.11|||Regression, Logistic|||||18.11|3.27|<0.0001
82460948|NCT01419236|164624139|SUPERIORITY_OR_OTHER||LS Mean Difference|0.66||||0.38|TWO_SIDED|90.0|-0.59|1.91|||Mixed Models Repeated Measure Analysis|||||1.91|-0.59|0.380
82460949|NCT01419236|164624140|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44||||0.164|TWO_SIDED|90.0|-0.96|0.08|||Mixed Models Repeated Measures Analysis|||||0.08|-0.96|0.164
82460950|NCT01419236|164624141|SUPERIORITY_OR_OTHER||LS Mean Difference|0.42||||0.342|TWO_SIDED|90.0|-0.31|1.15|||Mixed Models Repeated Measure Analysis|||||1.15|-0.31|0.342
82460951|NCT01419236|164624142|SUPERIORITY_OR_OTHER||LS Mean Difference|0.81||||0.079|TWO_SIDED|90.0|0.05|1.57|||Mixed Models Repeated Measure Analysis|||||1.57|0.05|0.079
82460952|NCT01419236|164624143|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.535|TWO_SIDED|90.0|-0.5|1.1|||Mixed Models Repeated Measure Analysis|||||1.10|-0.50|0.535
82542589|NCT01068743|164784858|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|99.17|||||TWO_SIDED|90.0|96.23|102.21|||||Ratio=Treatment D/Treatment C. Geometric least squares means values are presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||102.21|96.23|
82542590|NCT01068743|164784858|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11998.0||||||||||||||Geometric least squares mean for Treatment A.||||
82542591|NCT01068743|164784858|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|12250.0||||||||||||||Geometric least squares means for Treatment B.||||
82542592|NCT01068743|164784858|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|12036.0||||||||||||||Geometric least squares means for Treatment C.||||
82542593|NCT01068743|164784858|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*hr/mL)|11937.0||||||||||||||Geometric least squares means for Treatment D.||||
82542594|NCT01068743|164784859|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (B/A) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|99.5|||||TWO_SIDED|90.0|90.41|109.5|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||109.5|90.41|
82542595|NCT01068743|164784859|NON_INFERIORITY_OR_EQUIVALENCE|BE was concluded if the 90% CIs for the test-to-reference ratios (D/C) of geometric means were entirely contained within 80% to 125% for both Cmax and AUC0-inf of metformin.|Ratio (%) of Geometric LS Means|98.22|||||TWO_SIDED|90.0|94.28|102.32|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|If there was no difference between the bioavailabilities of metformin from the FDC tablet versus metformin from coadministration of saxagliptin and metformin tablets under both fasted and fed conditions, then 20 participants would have provided 99% power to conclude BE with respect to each of Cmax and AUC0-inf. If there was a 5% difference, then 20 subjects would provide 97% and 99% power to conclude BE with respect to Cmax and AUC0-inf, respectively.||102.32|94.28|
82542596|NCT01068743|164784859|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL|1724.4||||||||||||||Geometric least squares means for Treatment A.||||
82542597|NCT01068743|164784859|SUPERIORITY_OR_OTHER||Geometric Least Square Means (ng/mL)|1715.8||||||||||||||Geometric least squares means for Treatment B.||||
82542598|NCT01068743|164784859|SUPERIORITY_OR_OTHER||Geometric Least Square Mean (ng/mL)|1581.4||||||||||||||Geometric least squares means for Treatment C.||||
82542599|NCT01068743|164784859|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng/mL)|1553.2||||||||||||||Geometric least squares means for Treatment D.||||
82650078|NCT00549198|165015242|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, baseline CD4, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
82542600|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|101.43|||||TWO_SIDED|90.0|98.07|104.9|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|||104.90|98.07|
82542601|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|102.52|||||TWO_SIDED|90.0|99.56|105.57|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|||105.57|99.56|
82542602|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|47.15|||||||||||||Geometric least squares means for Treatment A.|||||
82542603|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|47.83|||||||||||||Geometric least squares means for Treatment B.|||||
82542604|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|50.89|||||||||||||Geometric least squares means for Treatment C.|||||
82542605|NCT01068743|164784864|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|52.17|||||||||||||Geometric least squares means for Treatment D.|||||
82578347|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.29||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cF connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.29
82460953|NCT01419236|164624144|SUPERIORITY_OR_OTHER||LS Mean Difference|1.03||||0.172|TWO_SIDED|90.0|-0.22|2.27|||ANCOVA|||||2.27|-0.22|0.172
82542606|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|100.41|||||TWO_SIDED|90.0|95.4|105.68|||||Ratio=Treatment B/Treatment A. Geometric least squares means values presented in other statistical analysis entries.|||105.68|95.40|
82542607|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Ratio (%) of Geometric LS Means|99.06|||||TWO_SIDED|90.0|96.19|102.02|||||Ratio=Treatment D/Treatment C. Geometric least squares means values presented in other statistical analysis entries.|||102.02|96.19|
82542608|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11827.0|||||||||||||Geometric least squares means for Treatment A.|||||
82542609|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11875.0|||||||||||||Geometric least squares means for Treatment B.|||||
82542610|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11845.0|||||||||||||Geometric least squares means for Treatment C.|||||
82542611|NCT01068743|164784867|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean (ng*h/mL)|11734.0|||||||||||||Geometric least squares means for Treatment D.|||||
82650079|NCT00549198|165015243|SUPERIORITY_OR_OTHER|||||||0.3323||95.0||||The model includes the following covariates: treatment, age, and baseline biomarker value.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||0.3323
82460954|NCT01419236|164624145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.473|TWO_SIDED|90.0|-0.41|1.04|||Mixed Models Repeated Measure Analysis|||||1.04|-0.41|0.473
82460955|NCT01419236|164624146|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.885|TWO_SIDED|90.0|-1.03|0.87|||Mixed Models Repeated Measure Analysis|||||0.87|-1.03|0.885
82460956|NCT01419236|164624147|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.938|TWO_SIDED|90.0|-0.61|0.55|||Mixed Models Repeated Measure Analysis|||||0.55|-0.61|0.938
82460957|NCT02764385|164624150|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|1.73|2.01||||||||2.01|1.73|
82460958|NCT02764385|164624150|SUPERIORITY||Odds Ratio (OR)|0.68||||0.05|TWO_SIDED|95.0|0.45|1.02|||Regression, Logistic|We adjust for clustering of visit within clinician and clinical site and the stepped wedge study design using generalized estimating equation methods.||||1.02|.45|.05
82460959|NCT02764385|164624151|SUPERIORITY||Odds Ratio (OR)|1.87|||||TWO_SIDED|95.0|1.73|2.1||||||||2.10|1.73|
82460960|NCT04607668|164624198|OTHER||Mean Difference (Final Values)|-1.2|||<|0.001|TWO_SIDED|95.0|-1.7|-0.6||Two-sided p-value for treatment effect was generated from a nonparametric ANCOVA controlling for stratification factors of Region and Prior chemotherapy with study baseline ANC value as a covariate.|ANCOVA|||||-0.6|-1.7|<0.001
82460961|NCT04607668|164624199|OTHER||aRR|0.04|STANDARD_ERROR_OF_MEAN|0.032|<|0.001|TWO_SIDED|95.0|0.01|0.19|||modified Poisson model|||||0.19|0.01|<0.001
82460962|NCT02250326|164624213|SUPERIORITY||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|1.94||||Based on stratification factors of ECOG Performance Status (0 or 1), sex (male or female), and current smoker status (yes or no).||Based on stratified Cox proportional hazards regression model.||1.94|0.90|
82542612|NCT00463788|164784891|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.126||||0.1109|TWO_SIDED|95.0|0.809|5.591|||Cochran-Mantel-Haenszel|Randomization strata: first- or second line according to Interactive Voice Response System (IVRS).||||5.591|0.809|0.1109
82460963|NCT02250326|164624214|SUPERIORITY||Disease Control Rate Ratio|0.97|||||TWO_SIDED|95.0|0.778|1.207|||||95% CI was calculated using Clopper-Pearson method.||Direction of Disease Control Rate Ratio is DCR of Nab-Paclitaxel + CC-486 Combination Arm over DCR of Nab-Paclitaxel Alone|1.207|0.778|
82460964|NCT02250326|164624215|SUPERIORITY||Overall Response Rate Ratio|0.84|||||TWO_SIDED|95.0|0.398|1.754|||||95% CI was calculated using Clopper-Pearson method.||Direction of Overall Response Rate Ratio is ORR of Nab-Paclitaxel + CC-486 Combination Arm over ORR of nab-Paclitaxel Alone.|1.754|0.398|
82460965|NCT02250326|164624216|SUPERIORITY||Hazard Ratio (HR)|1.7|||||TWO_SIDED|95.0|1.08|2.57||||Based on stratification factors of ECOG performance status (0 or 1), sex (male or female), and current smoker status (yes or no).||Based on stratified Cox proportional hazards regression model.||2.57|1.08|
82542613|NCT00463788|164784892|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.675||||0.0324|TWO_SIDED|95.0|0.47|0.969|||Log Rank|||||0.969|0.470|0.0324
82460966|NCT01751061|164624241|SUPERIORITY|To test the primary hypothesis, we used a general linear model fit with generalized estimating equations, a linear link, and an exchangeable correlation (PROC GENMOD). Model parameters included indictor variables for intervention, Interview 2, the interaction between intervention and Interview 2, and a 4-level site variable. The mean CSCS between-groups difference, corresponding 95% confidence interval (CI), and p value were derived from the intervention-by-Interview 2 interaction term.|||||<|0.05||||||P values were calculated. A two-sided type-I error rate of 0.05 was set for all tests; there were no adjustments for multiple comparisons. All participants were included in analyses as per their group randomization.|GEE|||We estimated that 210 patients (315 surrogates, assuming \~1.5 per patient) would provide a power of 80% to detect a between-groups mean CSCS score difference of 9 percentage points between Interviews 1 and 2, assuming a baseline mean of 50, SD=24, a type-I error=5%, a correlation between interviews of 0.5, an expectation that 50% of patients would have multiple surrogates, an intraclass correlation coefficient of 0.8 for multiple surrogates for a patient, and 5% dropout before Interview 2.||||<0.05
82460967|NCT01751061|164624242|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear model|||Generalized linear model.||||<0.05
82460968|NCT01751061|164624243|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear model|||||||<0.05
82460969|NCT01751061|164624244|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
82460970|NCT01751061|164624245|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
82460971|NCT01751061|164624246|SUPERIORITY||||||<|0.05||||||P values were calculated.|generalized linear models|||||||<0.05
82460972|NCT01751061|164624247|SUPERIORITY||||||<|0.05||||||P values were calculated.|GEE|||To test the hypothesis, we used a general linear model fit with generalized estimating equations, a linear link, and an exchangeable correlation (PROC GENMOD). Model parameters included indictor variables for intervention, Interview 2, the interaction between intervention and Interview 2, and a 4-level site variable. The mean CSCS between-groups difference, corresponding 95% confidence interval (CI), and p value were derived from the intervention-by-Interview 2 interaction term.||||<0.05
82460973|NCT01194830|164624270|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.16||0.0005||95.0|-0.91|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.91|0.0005
82460974|NCT01194830|164624271|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.62|-0.22|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.22|-0.62|<0.0001
82460975|NCT01194830|164624272|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0002||95.0|-0.84|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.84|0.0002
82460976|NCT01194830|164624273|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0003||95.0|-0.85|-0.26|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c and number of other Oral Antidiabetic Drugs||||-0.26|-0.85|0.0003
82460977|NCT01194830|164624274|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.063||||0.001|TWO_SIDED|95.0|1.764|9.358|||Regression, Logistic|||||9.358|1.764|0.0010
82460978|NCT01194830|164624275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.433||||0.0352|TWO_SIDED|95.0|1.124|26.26|||Regression, Logistic|||||26.260|1.124|0.0352
82460979|NCT01194830|164624276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.951||||0.0003|TWO_SIDED|95.0|1.651|5.274|||Regression, Logistic|||||5.274|1.651|0.0003
82542614|NCT00463788|164784893|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.821||||0.3121|TWO_SIDED|95.0|0.561|1.204|||Log Rank|||||1.204|0.561|0.3121
82578348|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.02||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cF connectivity induced by active versus sham rTMS.||||0.02
82578349|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.003||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.003
82650080|NCT00549198|165015244|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, baseline biomarker value, baseline CD4, and gender.|ANOVA|Estimates are calculated from an ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
82460980|NCT01194830|164624277|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|7.2||0.0972||95.0|-26.1|2.2|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline FPG, and number of other Oral Antidiabetic Drugs||||2.2|-26.1|0.0972
82460981|NCT01194830|164624278|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|24.45||0.9368||95.0|-53.8|49.86|||ANCOVA|ANCOVA model included terms for treatment, baseline HbA1c, baseline 2-hour PPG, and number of other Oral Antidiabetic Drugs||||49.86|-53.80|0.9368
82460982|NCT03284710|164624314|OTHER|||||||0.358||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 2||||0.358
82460983|NCT03284710|164624314|OTHER|||||||1||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 2||||1.000
82578350|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.66||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.66
82650081|NCT00549198|165015245|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The model includes the following covariates: treatment, age, and baseline biomarker value.|ANOVA|Estimates are calculated from ana ANOVA model. Parameters are analyzed based on log transformed data.||||||<0.0001
82650082|NCT00549198|165015246|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||The model includes the following covariates: treatment, baseline biomarker value, and gender.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0019
82460984|NCT03284710|164624314|OTHER|||||||0.361||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgGAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 2||||0.361
82460985|NCT03284710|164624315|OTHER|||||||0.238||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 2||||0.238
82460986|NCT03284710|164624315|OTHER|||||||0.893||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 2||||0.893
82460987|NCT03284710|164624315|OTHER|||||||0.411||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgGAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 2||||0.411
82460988|NCT03284710|164624316|OTHER|||||||1||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 3||||1.000
82460989|NCT03284710|164624316|OTHER|||||||0.044||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 3||||0.044
82460990|NCT03284710|164624316|OTHER|||||||0.045||||||The threshold for statistical significance was p = 0.05.|Barnard's test|||IgAAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 3||||0.045
82460991|NCT03284710|164624317|OTHER|||||||0.215||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to 1086C\_D7gp120.avi/293F in Group 1 versus Group 3||||0.215
82460992|NCT03284710|164624317|OTHER|||||||0.683||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to 96ZM651.D11gp120.avi in Group 1 versus Group 3||||0.683
82542615|NCT00463788|164784894|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.754||||0.5993|TWO_SIDED|95.0|0.262|2.17|||Log Rank|||||2.170|0.262|0.5993
82542616|NCT00360698|164784896|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.68||||0.0499||95.0|0.01|28.37|||Chi-squared||Difference in percentage between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the percentage of patients with Glycosylated Haemoglobin (HbA1c) level \<7%. A sample size of 98 randomized (49/arm) patients would allow to demonstrate with 80% power that 40 % of patients in the Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group would achieve a HbA1c level \< 7 % compared to 15 % of patients in the Insulin Glargine+Metformin+Glimepiride group(5% alpha risk, 2-sided test).||28.37|0.01|0.0499
82542617|NCT00360698|164784898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.116||0.029||95.0|-0.49|-0.03||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline HbA1c as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no difference between the 2 treatment groups regarding the adjusted mean change from baseline in Glycosylated Haemoglobin (HbA1c) at the end of treatment.||-0.03|-0.49|0.029
82460993|NCT03284710|164624317|OTHER|||||||0.322||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||IgAAb binding to TV1c8\_D11gp120.avi/293F in Group 1 versus Group 3||||0.322
82460994|NCT04231669|164624386|SUPERIORITY|||||||0.05|||||||Linear Mixed-effects regression|||||||0.05
82578351|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.008||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-cT connectivity induced by active versus sham rTMS.||||0.008
82650083|NCT00549198|165015247|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||The model includes the following covariates: treatment, age, baseline biomarker value, and baseline CD4.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0019
82650084|NCT00549198|165015248|SUPERIORITY_OR_OTHER|||||||0.0266||95.0||||The model includes the following covariates: treatment, baseline biomarker value, and baseline CD4.|ANOVA|Estimates are calculated from an ANOVA model.||||||0.0266
82460995|NCT00286442|164624536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.68|-0.32||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Analysis of covariance (ANCOVA) with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at wk 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 participants had 95% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of participants meeting per protocol criteria.||-0.32|-0.68|<0.001
82460996|NCT00286442|164624536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.67|-0.3||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 participants had 95% power to detect a treatment difference as small as 0.4% in the per protocol analysis set assuming SD=0.8%, 2-sided test at 0.05 significance level and \>=80% of participants meeting per protocol criteria.||-0.30|-0.67|<0.001
82460997|NCT00286442|164624537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.37|-0.16||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.16|-0.37|<0.001
82460998|NCT00286442|164624537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.19||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.19|-0.40|<0.001
82460999|NCT00286442|164624538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001|TWO_SIDED|95.0|-0.52|-0.24||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.52|<0.001
82461000|NCT00286442|164624538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|||<|0.001|TWO_SIDED|95.0|-0.52|-0.24||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.24|-0.52|<0.001
82650085|NCT01473758|165015249|SUPERIORITY_OR_OTHER||LS Mean Difference|1.404|STANDARD_ERROR_OF_MEAN|3.07||0.6491|TWO_SIDED|95.0|-4.731|7.538||The model contains neutrophil count at Baseline and treatment as independent variables, fixed effects.|ANCOVA|||||7.538|-4.731|0.6491
82461001|NCT00286442|164624539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.66|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.66|<0.001
82578352|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.005||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.005
82650086|NCT01473758|165015250|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.412|STANDARD_ERROR_OF_MEAN|2.687||0.8786|TWO_SIDED|95.0|-5.766|4.943||The model contains neutrophil count at Baseline and treatment as independent variables, fixed effects.|ANCOVA|||||4.943|-5.766|0.8786
82650087|NCT04229303|165015328|OTHER||Slope|0.62|||<|0.0001|TWO_SIDED|90.0|0.424|0.821|||General power constant model|||Statistics for Voriconazole AUC0-t||0.821|0.424|<0.0001
82650088|NCT04229303|165015328|OTHER||Slope|1.21||||0.0363|TWO_SIDED|90.0|1.05|1.362|||General power linear model|||Statistics for Voriconazole AUC0-t||1.362|1.050|0.0363
82461002|NCT00286442|164624539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.66|-0.34||No multiplicity adjustments|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.66|<0.001
82461003|NCT00286442|164624540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.7|-0.36||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.70|<0.001
82461004|NCT00286442|164624540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
82461005|NCT00286442|164624541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
82461006|NCT00286442|164624541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.69|-0.34||No multiplicity adjustments.|ANCOVA|ANCOVA on change from baseline with treatment and geographic region as class variables and baseline metformin dose and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.69|<0.001
82461007|NCT00286442|164624542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.7|||<|0.001|TWO_SIDED|95.0|-20.7|-6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the metformin arm.|||-6.8|-20.7|<0.001
82461008|NCT00286442|164624542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.9|||<|0.001|TWO_SIDED|95.0|-18.9|-4.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the metformin arm.|||-4.9|-18.9|<0.001
82461009|NCT00286442|164624543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-23.9|-9.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.5|-23.9|<0.001
82542618|NCT00360698|164784900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.94|STANDARD_ERROR_OF_MEAN|4.987||0.0109||95.0|-22.83|-3.04||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline daily mean plasma glucose as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the adjusted mean change from baseline in daily mean plasma glucose at the end of treatment.||-3.04|-22.83|0.0109
82578353|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.87||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.87
82650089|NCT04229303|165015328|OTHER||Geometric mean difference|13.48|||<|0.0001|TWO_SIDED|90.0|10.096|17.994|||ANOVA|||Statistics for Voriconazole AUC0-t, 40mg vs 5mg||17.994|10.096|<0.0001
82650090|NCT04229303|165015328|OTHER||Slope|1.85|||<|0.0001|TWO_SIDED|90.0|1.728|1.963|||General power constant model|||Statistics for N-oxide Voriconazole AUC0-t||1.963|1.728|<0.0001
82461010|NCT00286442|164624543|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.8|||<|0.001|TWO_SIDED|95.0|-24.1|-9.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates. Missing data imputed with LOCF.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.6|-24.1|<0.001
82461011|NCT00286442|164624544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||<|0.001|TWO_SIDED|95.0|-24.6|-11.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-11.0|-24.6|<0.001
82461012|NCT00286442|164624544|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|||<|0.001|TWO_SIDED|95.0|-24.3|-10.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.6|-24.3|<0.001
82461013|NCT00286442|164624545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|||<|0.001|TWO_SIDED|95.0|-28.0|-12.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.2|-28.0|<0.001
82461014|NCT00286442|164624545|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|95.0|-25.6|-9.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.7|-25.6|<0.001
82461015|NCT00286442|164624546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||<|0.001|TWO_SIDED|95.0|-25.6|-8.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.9|-25.6|<0.001
82461016|NCT00286442|164624546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.0|||<|0.001|TWO_SIDED|95.0|-25.4|-8.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.6|-25.4|<0.001
82461017|NCT00286442|164624547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.001|TWO_SIDED|95.0|-27.4|-10.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.8|-27.4|<0.001
82461018|NCT00286442|164624547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-25.0|-8.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.3|-25.0|<0.001
82461019|NCT00286442|164624548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.1|||<|0.001|TWO_SIDED|95.0|-26.7|-9.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.4|-26.7|<0.001
82461020|NCT00286442|164624548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.001|TWO_SIDED|95.0|-24.2|-6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.8|-24.2|<0.001
82542619|NCT00360698|164784901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|0.431||0.5762||95.0|-0.61|1.1||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|ANCOVA|The analysis is an ANCOVA analysis on the change with group as fixed effect and baseline weight as covariate|Difference between groups: Insulin Glulisine+Insulin Glargine+Metformin+Glimepiride group - Insulin Glargine+Metformin+Glimepiride group|The null-hypothesis stated no differences between the 2 treatment groups regarding the adjusted mean change from baseline in weight at the end of treatment.||1.1|-0.61|0.5762
82542620|NCT00360698|164784904|SUPERIORITY_OR_OTHER|||||||0.958||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of symptomatic hypoglycemia with plasma glucose \<70 mg/dL during the treatment period.||||0.958
82542621|NCT00360698|164784905|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of nocturnal symptomatic hypoglycemia with plasma glucose \<70 mg/dL during the treatment period.||||0.302
82542622|NCT00360698|164784906|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||Threshold for statistical significance (alpha) = 0.05 ; 2 sided-test|Wilcoxon (Mann-Whitney)|||The null-hypothesis stated no difference between the 2 treatment groups regarding the rate of severe symptomatic hypoglycemia during the treatment period.||||0.192
82650091|NCT04229303|165015328|OTHER||Slope|0.87||||0.0201|TWO_SIDED|90.0|0.789|0.96|||General power linear model|||Statistics for N-oxide Voriconazole AUC0-t||0.960|0.789|0.0201
82650092|NCT04229303|165015328|OTHER||Geometric mean difference|6.16|||<|0.0001|TWO_SIDED|90.0|5.253|7.217|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t, 40mg vs 5mg||7.217|5.253|<0.0001
82461021|NCT00286442|164624549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.7|||<|0.001|TWO_SIDED|95.0|-27.3|-10.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.2|-27.3|<0.001
82461022|NCT00286442|164624549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.9|-8.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.8|-25.9|<0.001
82461023|NCT00286442|164624550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.372|||<|0.001|TWO_SIDED|95.0|0.213|0.65||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.650|0.213|<0.001
82461024|NCT00286442|164624550|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.405||||0.002|TWO_SIDED|95.0|0.231|0.708||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.708|0.231|0.002
82461025|NCT00286442|164624551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.302||||0.002|TWO_SIDED|95.0|0.143|0.635||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.635|0.143|0.002
82650093|NCT04229303|165015328|OTHER||Slope|0.81|||<|0.0001|TWO_SIDED|90.0|0.661|0.958|||General power constant model|||Statistics for Voriconazole AUC0-inf||0.958|0.661|<0.0001
82461026|NCT00286442|164624551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.236|||<|0.001|TWO_SIDED|95.0|0.109|0.51|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.510|0.109|<0.001
82461027|NCT00286442|164624552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.634|TWO_SIDED|95.0|-7.4|4.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.5|-7.4|0.634
82461028|NCT00286442|164624552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.136|TWO_SIDED|95.0|-10.5|1.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.4|-10.5|0.136
82461029|NCT00286442|164624553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.274|TWO_SIDED|95.0|-6.9|2.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.0|-6.9|0.274
82461030|NCT00286442|164624553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.046|TWO_SIDED|95.0|-9.1|-0.1||No multiplicity adjustments.|ANCOVA||Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.1|-9.1|0.046
82461031|NCT00286442|164624554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.655|TWO_SIDED|95.0|-7.4|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-7.4|0.655
82461032|NCT00286442|164624554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.645|TWO_SIDED|95.0|-7.4|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-7.4|0.645
82461033|NCT00286442|164624555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.748|TWO_SIDED|95.0|-6.3|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-6.3|0.748
82461034|NCT00286442|164624555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.432|TWO_SIDED|95.0|-7.7|3.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.3|-7.7|0.432
82461035|NCT00286442|164624556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.427|TWO_SIDED|95.0|-7.8|3.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.3|-7.8|0.427
82461036|NCT00286442|164624556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.746|TWO_SIDED|95.0|-4.6|6.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.5|-4.6|0.746
82461037|NCT00286442|164624557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.727|TWO_SIDED|95.0|-5.0|7.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.2|-5.0|0.727
82542623|NCT01755949|164784907|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Baseline C-reactive protein vs day 28 C-reactive protein||||0.038
82542624|NCT01755949|164784907|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||Baseline C-reactive protein vs day 28 C-reactive protein||||0.98
82542625|NCT01755949|164784907|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||difference between placebo and colchicine levels at day 28||||0.072
82542626|NCT01755949|164784908|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||placebo vs colchicine||||0.08
82542627|NCT02755116|164784914|SUPERIORITY||Adjusted relative risk|0.76||||0.003|TWO_SIDED|95.0|0.48|1.2|||log-binomial regression|||||1.20|0.48|0.003
82542628|NCT01214824|164784926|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.014||95.0|||||Wilcoxon signed rank test|||Comparison is HbA1c at 6 months versus Baseline||||0.014
82542629|NCT01214824|164784928|SUPERIORITY_OR_OTHER|||||||0.5304||95.0|||||Paired t-test|||Comparison is masked phase 2 versus masked phase 1||||0.5304
82542630|NCT04975308|164784930|SUPERIORITY||Hazard Ratio (HR)|0.867||||0.1158|TWO_SIDED|95.0|0.724|1.039|||Log Rank|||||1.039|0.724|0.1158
82542631|NCT04975308|164784931|SUPERIORITY||Hazard Ratio (HR)|0.569|||<|0.0001|TWO_SIDED|95.0|0.441|0.733|||Log Rank|||||0.733|0.441|<0.0001
82542632|NCT04975308|164784932|SUPERIORITY||Hazard Ratio (HR)|0.617||||0.0008|TWO_SIDED|95.0|0.464|0.821|||Log Rank|||||0.821|0.464|0.0008
82650094|NCT04229303|165015328|OTHER||Slope|1.12||||0.1278|TWO_SIDED|90.0|0.99|1.245|||General power linear model|||Statistics for Voriconazole AUC0-inf||1.245|0.990|0.1278
82650095|NCT04229303|165015328|OTHER||Geometric mean difference|9.43|||<|0.0001|TWO_SIDED|90.0|6.834|13.012|||ANOVA|||Statistics for Voriconazole AUC0-inf, 40mg vs 5mg||13.012|6.834|<0.0001
82578354|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.11||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-cT connectivity induced by active versus sham rTMS.||||0.11
82578355|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.012||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.012
82461038|NCT00286442|164624557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.601||||1.6|TWO_SIDED|95.0|-4.5|7.8||No multiplicity adjustments|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.8|-4.5|1.6
82461039|NCT00286442|164624558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19||||0.066|TWO_SIDED|95.0|-0.15|4.52||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.52|-0.15|0.066
82461040|NCT00286442|164624558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.18|TWO_SIDED|95.0|-0.74|3.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.93|-0.74|0.180
82461041|NCT00286442|164624559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.944|TWO_SIDED|95.0|-5.02|4.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.68|-5.02|0.944
82461042|NCT00286442|164624559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.316|TWO_SIDED|95.0|-7.4|2.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.40|-7.40|0.316
82461043|NCT00286442|164624560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.901|TWO_SIDED|95.0|-5.42|4.77||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.77|-5.42|0.901
82461044|NCT00286442|164624560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45||||0.578|TWO_SIDED|95.0|-6.59|3.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.68|-6.59|0.578
82461045|NCT00286442|164624561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63||||0.708|TWO_SIDED|95.0|-2.67|3.93||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.93|-2.67|0.708
82461046|NCT00286442|164624561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.601|TWO_SIDED|95.0|-2.44|4.21||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.21|-2.44|0.601
82461047|NCT00286442|164624562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12||||0.398|TWO_SIDED|95.0|-1.48|3.72||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.72|-1.48|0.398
82461048|NCT00286442|164624562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.425|TWO_SIDED|95.0|-1.56|3.69||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.69|-1.56|0.425
82461049|NCT00286442|164624563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.87||||0.018|TWO_SIDED|95.0|0.5|5.23||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.23|0.50|0.018
82461050|NCT00286442|164624563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22||||0.067|TWO_SIDED|95.0|-0.15|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline insulin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.60|-0.15|0.067
82461051|NCT00286442|164624564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036||||0.011|TWO_SIDED|95.0|-0.064|-0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.009|-0.064|0.011
82461052|NCT00286442|164624564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.047|||<|0.001|TWO_SIDED|95.0|-0.075|-0.019||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.019|-0.075|<0.001
82461053|NCT00286442|164624565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|||<|0.001|TWO_SIDED|95.0|-0.07|-0.021||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.021|-0.070|<0.001
82461054|NCT00286442|164624565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.004|TWO_SIDED|95.0|-0.062|-0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.012|-0.062|0.004
82461055|NCT00286442|164624566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.007|TWO_SIDED|95.0|-0.068|-0.011||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm|||-0.011|-0.068|0.007
82461056|NCT00286442|164624566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.011|TWO_SIDED|95.0|-0.066|-0.008||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm|||-0.008|-0.066|0.011
82461057|NCT00286442|164624567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.052|||<|0.001|TWO_SIDED|95.0|-0.08|-0.024||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.024|-0.080|<0.001
82542633|NCT02755805|164784965|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|1.11||||0.007|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|"F(3,74)=4.37~P-values were calculated using mixed model analyses and controlled for stoke severity as a covariate."|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||0.007
82542634|NCT02755805|164784966|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|0.76||||0.09|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|F(2,34)=2.55|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||0.09
82542635|NCT02755805|164784967|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|1.23||||0.002|TWO_SIDED|||||a priori threshold set at p\<0.05|Mixed Models Analysis|F(2,34)=7.83|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to assigned intervention group regardless of study completion.||||.002
82542636|NCT02755805|164784968|SUPERIORITY_OR_OTHER||Cohen's d effect size at month 6|0.7||||0.04|TWO_SIDED|||||a priori threshold set at \<0.05|repeated measures fixed effects model|F(2,28)=3.61|Effect size was calculated using mean change scores (baseline to month 6) and standard error of change (baseline to month 6) for each group.|All analyses were performed using the intent-to-treat principle so that comparisons were made according to the assigned intervention group regardless of study completion.||||.04
82542637|NCT02252042|164784978|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0316|TWO_SIDED|95.0|0.67|1.01|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.01|0.67|0.03160
82650096|NCT04229303|165015328|OTHER||Slope|1.98|||<|0.0001|TWO_SIDED|90.0|1.86|2.106|||General power constant model|||Statistics for N-oxide Voriconazole AUC0-inf||2.106|1.860|<0.0001
82650097|NCT04229303|165015328|OTHER||Slope|0.79||||0.0082|TWO_SIDED|90.0|0.67|0.912|||General power linear model|||Statistics for N-oxide Voriconazole AUC0-inf||0.912|0.670|0.0082
82542638|NCT02252042|164784979|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.01605|TWO_SIDED|95.0|0.65|0.98||Nominal p-value|Log Rank||Nominal HR. Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||0.98|0.65|0.01605
82542639|NCT02252042|164784980|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.00493|TWO_SIDED|95.0|0.58|0.93|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||0.93|0.58|0.00493
82542640|NCT02252042|164784981|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.32504|TWO_SIDED|95.0|0.79|1.16|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.16|0.79|0.32504
82542641|NCT02252042|164784982|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07736|TWO_SIDED|95.0|0.69|1.06|||Log Rank||Cox regression model with treatment as a single covariate|||1.06|0.69|0.07736
82650098|NCT04229303|165015328|OTHER||Geometric mean difference|5.86|||<|0.0001|TWO_SIDED|90.0|4.627|7.421|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf, 40mg vs 5mg||7.421|4.627|<0.0001
82461058|NCT00286442|164624567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.003|TWO_SIDED|95.0|-0.072|-0.015||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.015|-0.072|0.003
82461059|NCT00286442|164624568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.046||||0.078|TWO_SIDED|95.0|-0.097|0.005||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.005|-0.097|0.078
82461060|NCT00286442|164624568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005||||0.86|TWO_SIDED|95.0|-0.056|0.047||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.047|-0.056|0.860
82461061|NCT00286442|164624569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053||||0.048|TWO_SIDED|95.0|-0.106|-0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.001|-0.106|0.048
82461062|NCT00286442|164624569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004||||0.889|TWO_SIDED|95.0|-0.057|0.05||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline proinsulin/insulin ratio as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.050|-0.057|0.889
82461063|NCT00286442|164624570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.336||||0.031|TWO_SIDED|95.0|0.03|0.642||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.642|0.030|0.031
82461064|NCT00286442|164624570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.304||||0.051|TWO_SIDED|95.0|-0.002|0.611||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.611|-0.002|0.051
82461065|NCT00286442|164624571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.563|TWO_SIDED|95.0|-0.209|0.384||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.384|-0.209|0.563
82461066|NCT00286442|164624571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111||||0.467|TWO_SIDED|95.0|-0.188|0.41||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.410|-0.188|0.467
82461067|NCT00286442|164624572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.243|TWO_SIDED|95.0|-0.127|0.501||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.501|-0.127|0.243
82461068|NCT00286442|164624572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.279||||0.083|TWO_SIDED|95.0|-0.037|0.595||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.595|-0.037|0.083
82461069|NCT00286442|164624573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155||||0.321|TWO_SIDED|95.0|-0.152|0.463||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.463|-0.152|0.321
82461070|NCT00286442|164624573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268||||0.089|TWO_SIDED|95.0|-0.041|0.577||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.577|-0.041|0.089
82461071|NCT00286442|164624574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144||||0.305|TWO_SIDED|95.0|-0.132|0.42||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.420|-0.132|0.305
82461072|NCT00286442|164624574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191||||0.177|TWO_SIDED|95.0|-0.086|0.468||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.468|-0.086|0.177
82461073|NCT00286442|164624575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.394||||0.007|TWO_SIDED|95.0|0.107|0.68||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.680|0.107|0.007
82542642|NCT02252042|164784983|SUPERIORITY||Difference in percentages|4.6||||0.061|TWO_SIDED|95.0|-1.2|10.6|||Log Rank|H0: difference in %=0; H1: difference in %\>0|Stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||10.6|-1.2|0.0610
82542643|NCT02252042|164784984|SUPERIORITY||Difference in percentages|7.5||||0.0171|TWO_SIDED|95.0|0.6|14.6|||Log Rank|H0: difference in %=0; H1: difference in %\>0|Stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||14.6|0.6|0.0171
82461074|NCT00286442|164624575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263||||0.074|TWO_SIDED|95.0|-0.025|0.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline C-peptide as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.550|-0.025|0.074
82461075|NCT00286442|164624576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.15|||<|0.001|TWO_SIDED|95.0|2.117|17.864||no multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||17.864|2.117|<0.001
82461076|NCT00286442|164624576|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.322||||0.002|TWO_SIDED|95.0|1.82|15.564||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) is alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||15.564|1.820|0.002
82461077|NCT00286442|164624577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.092|||<|0.001|TWO_SIDED|95.0|3.271|11.345||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||11.345|3.271|<0.001
82461078|NCT00286442|164624577|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.451|||<|0.001|TWO_SIDED|95.0|2.388|8.296||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||8.296|2.388|<0.001
82542644|NCT02252042|164784987|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.14545|TWO_SIDED|95.0|0.7|1.12||p-value stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.12|0.70|0.14545
82542645|NCT02252042|164784988|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.05851|TWO_SIDED|95.0|0.62|1.06||p-value stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.06|0.62|0.05851
82542646|NCT02252042|164784989|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.65759|TWO_SIDED|95.0|0.86|1.27|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.27|0.86|0.65759
82542647|NCT02252042|164784990|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.51982|TWO_SIDED|95.0|0.81|1.26|||Log Rank||Cox regression model with treatment as a covariate stratified by ECOG PS (0 vs. 1), HPV status (Positive vs. Negative) \& PD-L1 status (Strongly Positive, Not Strongly Positive)|||1.26|0.81|0.51982
82542648|NCT02658240|164785003|SUPERIORITY|||||||0.05|||||||ANOVA|||The study was powered to detect a mean difference of 1.5 in pain scores in favor of patients undergoing SFICB procedure assuming a standard deviation of 2.5. With a two sided alpha level of 0.05, a total of 52 patients would be needed to have 80% power using a repeated measures ANOVA F test with 6 observations on each subject. Correlation on the repeat observations was assumed to be 0.5. Assuming a 14% loss to follow-up, 60 patients were enrolled at 1:1 ratio.||||0.05
82542649|NCT02658240|164785004|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
82542650|NCT02658240|164785005|SUPERIORITY|||||||0.149|TWO_SIDED|80.0|||||t-test, 2 sided|||||||0.149
82542651|NCT02658240|164785006|SUPERIORITY|||||||0.584|TWO_SIDED|80.0|||||Wilcoxon (Mann-Whitney)|||||||0.584
82542652|NCT03691428|164785007|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82542653|NCT03691428|164785008|SUPERIORITY|A multivariate dyadic linear growth curve model was used to predict the trajectories of psychological well-being (Raudenbush, Brennan, \& Barnett, 1995).|||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82542654|NCT03691428|164785009|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82542655|NCT03691428|164785010|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82542656|NCT03691428|164785011|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82542657|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 weeks for the control cases||||<0.0001
82542658|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 weeks for the Shapematch cases||||<0.0001
82542659|NCT02527148|164785029|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 6 weeks between both groups.||||0.0004
82542660|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 6 months for Control cases.||||<0.0001
82542661|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement form preoperative to 6 months for Shapematch cases.||||<0.0001
82542662|NCT02527148|164785029|SUPERIORITY|||||||0.3894|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 6 months between both groups.||||0.3894
82542663|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 12 months for the Control cases||||<0.0001
82542664|NCT02527148|164785029|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Improvement from preoperative to 12 months for the Shapematch cases||||<0.0001
82542665|NCT02527148|164785029|SUPERIORITY|||||||0.4387|||||||t-test, 2 sided|p-values from repeated ANOVA with change from preoperative variable/scores as dependent variable.||To compare improvement of OKS from preoperative to 12 months between both groups.||||0.4387
82542666|NCT02527148|164785029|SUPERIORITY|||||||0.261|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 2 years between both groups.||||0.2610
82542667|NCT02527148|164785029|SUPERIORITY|||||||0.8458|||||||t-test, 2 sided|||To compare improvement of OKS from preoperative to 5 years between both groups.||||0.8458
82650099|NCT04229303|165015329|OTHER||Slope|0.12||||0.2575|TWO_SIDED|90.0|-0.06|0.308|||General power constant model|||Statistics for Voriconazole Cmax||0.308|-0.060|0.2575
82542668|NCT02527148|164785030|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||To compare mean duration of surgery between both groups.||||0.10
82542669|NCT02527148|164785031|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||To compare wound length between both groups.||||0.05
82542670|NCT02527148|164785033|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||To compare average length of hospital stay between both groups.||||0.07
82542671|NCT02527148|164785034|SUPERIORITY||Mean Difference (Final Values)|-0.023||||0.55|TWO_SIDED||||||t-test, 2 sided|||Comparison of baseline differences||||0.55
82461079|NCT00286442|164624578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.238|||<|0.001|TWO_SIDED|95.0|2.327|7.717||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||7.717|2.327|<0.001
82461080|NCT00286442|164624578|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.293|||<|0.001|TWO_SIDED|95.0|1.814|5.979|||Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||5.979|1.814|<0.001
82461081|NCT00286442|164624579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.103|||<|0.001|TWO_SIDED|95.0|2.428|6.934||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||6.934|2.428|<0.001
82461082|NCT00286442|164624579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.314|||<|0.001|TWO_SIDED|95.0|2.545|7.312||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||7.312|2.545|<0.001
82461083|NCT00286442|164624580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.601|||<|0.001|TWO_SIDED|95.0|2.554|12.282||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||12.282|2.554|<0.001
82461084|NCT00286442|164624580|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.793|||<|0.001|TWO_SIDED|95.0|2.645|12.684||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||12.684|2.645|<0.001
82461085|NCT00286442|164624581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.449||||0.085|TWO_SIDED|95.0|0.883|6.797||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||6.797|0.883|0.085
82461086|NCT00286442|164624581|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.958||||0.034|TWO_SIDED|95.0|1.087|8.046||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||8.046|1.087|0.034
82461087|NCT00286442|164624582|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.404||||0.639|TWO_SIDED|95.0|0.34|5.803||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||5.803|0.340|0.639
82461088|NCT00286442|164624582|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.959||||0.956|TWO_SIDED|95.0|0.218|4.223||No multiplicity adjustments.|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \>1.0 indicates higher incidence of response compared to placebo.|||4.223|0.218|0.956
82461089|NCT00286442|164624583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.439|TWO_SIDED|95.0|-0.63|0.27||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.27|-0.63|0.439
82461090|NCT00286442|164624583|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.075|TWO_SIDED|95.0|-0.86|0.04||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.04|-0.86|0.075
82461091|NCT00286442|164624584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.305|TWO_SIDED|95.0|-0.26|0.83||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.83|-0.26|0.305
82542672|NCT02527148|164785034|SUPERIORITY||Mean Difference (Final Values)|-0.043||||0.23|TWO_SIDED||||||t-test, 2 sided|||Analysis of QALY between each instrument platform at 12-months||||0.23
82542673|NCT02527148|164785035|EQUIVALENCE|To determine equivalence in baseline characteristics between the control and intervention group.||||||0.724|||||||t-test, 2 sided|||To compare VAS rest preoperatively between both groups.||||0.7240
82542674|NCT02527148|164785035|EQUIVALENCE|To determine equivalence in baseline characteristics between the control and intervention group.||||||0.7545|||||||t-test, 2 sided|||To compare VAS mobilisation preoperatively between both groups.||||0.7545
82542675|NCT02527148|164785035|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.6921|||||||t-test, 2 sided|||To compare VAS rest at 6 weeks between both groups.||||0.6921
82542676|NCT02527148|164785035|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.9601|||||||t-test, 2 sided|||To compare VAS mobilisation at 6 weeks between both groups.||||0.9601
82650100|NCT04229303|165015329|OTHER||Slope|1.17||||0.0491|TWO_SIDED|90.0|1.03|1.316|||General power linear model|||Statistics for Voriconazole Cmax||1.316|1.030|0.0491
82650101|NCT04229303|165015329|OTHER||Geometric mean difference|11.17|||<|0.0001|TWO_SIDED|90.0|8.435|14.803|||ANOVA|||Statistics for Voriconazole Cmax, 40mg vs 5mg||14.803|8.435|<0.0001
82461092|NCT00286442|164624584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.788|TWO_SIDED|95.0|-0.63|0.47||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.47|-0.63|0.788
82461093|NCT00286442|164624585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.93|TWO_SIDED|95.0|-0.58|0.63||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.63|-0.58|0.930
82461094|NCT00286442|164624585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.559|TWO_SIDED|95.0|-0.79|0.43||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.43|-0.79|0.559
82461095|NCT00286442|164624586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-0.66|0.66||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.66|-0.66|0.996
82461096|NCT00286442|164624586|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.407|TWO_SIDED|95.0|-0.94|0.38||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline metformin dose and baseline weight as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.38|-0.94|0.407
82461097|NCT00467740|164624604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.045||0.0754||95.0|-0.008|0.167|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.167|-0.008|0.0754
82542677|NCT02527148|164785035|NON_INFERIORITY|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.0697|||||||t-test, 2 sided|||To compare VAS rest at 6 months between both groups.||||0.0697
82542678|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.0342|||||||t-test, 2 sided|||To compare VAS mobilisation at 6 months between both groups.||||0.0342
82542679|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.3487|||||||t-test, 2 sided|||To compare VAS rest at 12 months between both groups.||||0.3487
82542680|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.2201|||||||t-test, 2 sided|||To compare VAS mobilisation at 1 year between both groups.||||0.2201
82578356|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.46||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.46
82650102|NCT04229303|165015329|OTHER||Slope|1.25|||<|0.0001|TWO_SIDED|90.0|1.135|1.363|||General power constant model|||Statistics for N-oxide Voriconazole Cmax||1.363|1.135|<0.0001
82650103|NCT04229303|165015329|OTHER||Slope|0.74||||0.0003|TWO_SIDED|90.0|0.634|0.843|||General power linear model|||Statistics for N-oxide Voriconazole Cmax||0.843|0.634|0.0003
82650104|NCT04229303|165015329|OTHER||Geometric mean difference|4.97|||<|0.0001|TWO_SIDED|90.0|3.946|6.254|||ANOVA|||Statistics for N-oxide Voriconazole Cmax, 40mg vs 5mg||6.254|3.946|<0.0001
82542681|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.2291|||||||t-test, 2 sided|||To compare VAS rest at 2 years between both groups.||||0.2291
82542682|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.6436|||||||t-test, 2 sided|||To compare VAS mobilisation at 2 years between both groups.||||0.6436
82542683|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.4344|||||||t-test, 2 sided|||To compare VAS rest at 5 years between both groups.||||0.4344
82542684|NCT02527148|164785035|EQUIVALENCE|Precision Knee Navigation is the current standard of care and is the control against the newer intervention of OtisMed® ShapeMatch® with Triathlon||||||0.8732|||||||t-test, 2 sided|||To compare VAS mobilisation at 5 years between both groups.||||0.8732
82542685|NCT02527148|164785036|SUPERIORITY|||||||0.911|||||||t-test, 2 sided|||To compare WOMAC preoperatively between both groups.||||0.911
82542686|NCT02527148|164785036|SUPERIORITY|||||||0.588|||||||t-test, 2 sided|||To compare WOMAC at 6-weeks between both groups.||||0.588
82542687|NCT02527148|164785036|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||To compare WOMAC at 6-months between both groups.||||0.030
82542688|NCT02527148|164785036|SUPERIORITY|||||||0.131|||||||t-test, 2 sided|||To compare WOMAC at 1-year between both groups.||||0.131
82542689|NCT02527148|164785036|SUPERIORITY|||||||0.347|||||||t-test, 2 sided|||To compare WOMAC at 2-years between both groups.||||0.347
82650105|NCT04229303|165015336|OTHER||Slope|2.0||||0.0004|TWO_SIDED|90.0|1.528|2.617|||ANOVA|||Statistics for Voriconazole AUC0-t Day 1||2.617|1.528|0.0004
82650106|NCT04229303|165015336|OTHER||Slope|4.73|||<|0.0001|TWO_SIDED|90.0|3.612|6.187|||ANOVA|||Statistics for Voriconazole AUC0-t Day 1||6.187|3.612|<0.0001
82461098|NCT00467740|164624604|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.045||0.0571||95.0|-0.003|0.174|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.174|-0.003|0.0571
82461099|NCT00467740|164624604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.045||0.0906||95.0|-0.012|0.164|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.164|-0.012|0.0906
82461100|NCT00467740|164624604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.044||0.0011||95.0|0.059|0.234|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.234|0.059|0.0011
82461101|NCT00467740|164624605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.238|STANDARD_ERROR_OF_MEAN|7.843||0.0393||95.0|0.801|31.675|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||31.675|0.801|0.0393
82461102|NCT00467740|164624605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.878|STANDARD_ERROR_OF_MEAN|7.875||0.0005||95.0|12.379|43.378|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||43.378|12.379|0.0005
82461103|NCT00467740|164624605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.072|STANDARD_ERROR_OF_MEAN|7.906|<|0.0001||95.0|20.512|51.633|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||51.633|20.512|<0.0001
82461104|NCT00467740|164624605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.943|STANDARD_ERROR_OF_MEAN|7.848|<|0.0001||95.0|27.498|58.389|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||58.389|27.498|<0.0001
82461105|NCT00467740|164624606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067|STANDARD_ERROR_OF_MEAN|0.044||0.1264||95.0|-0.019|0.154|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.154|-0.019|0.1264
82461106|NCT00467740|164624606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.044||0.0232||95.0|0.014|0.188|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.188|0.014|0.0232
82461107|NCT00467740|164624606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.044||0.0106||95.0|0.027|0.2|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.200|0.027|0.0106
82461108|NCT00467740|164624606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.044||0.0001||95.0|0.087|0.26|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.260|0.087|0.0001
82461109|NCT00467740|164624607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.048||0.0329||95.0|0.008|0.198|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.198|0.008|0.0329
82461110|NCT00467740|164624607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.048||0.0666||95.0|-0.006|0.184|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.184|-0.006|0.0666
82461111|NCT00467740|164624607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.048||0.3738||95.0|-0.052|0.137|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.137|-0.052|0.3738
82461112|NCT00467740|164624607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.048||0.0037||95.0|0.046|0.234|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.234|0.046|0.0037
82461113|NCT00467740|164624608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.046||0.2646||95.0|-0.039|0.142|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.142|-0.039|0.2646
82461114|NCT00467740|164624608|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.046||0.3527||95.0|-0.048|0.135|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.135|-0.048|0.3527
82461115|NCT00467740|164624608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.046||0.1369||95.0|-0.022|0.16|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.160|-0.022|0.1369
82461116|NCT00467740|164624608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.046||0.0051||95.0|0.039|0.221|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.221|0.039|0.0051
82461117|NCT00467740|164624609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.053||0.017||95.0|0.023|0.232|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.232|0.023|0.0170
82542690|NCT02527148|164785036|SUPERIORITY|||||||0.341|||||||t-test, 2 sided|||To compare WOMAC at 5-years between both groups.||||0.341
82542691|NCT02527148|164785037|SUPERIORITY|||||||0.452|||||||t-test, 2 sided|||To compare EQ-5D index preoperatively between both groups.||||0.452
82542692|NCT02527148|164785037|SUPERIORITY|||||||0.201|||||||t-test, 2 sided|||To compare EQ-5D VAS preoperatively between both groups.||||0.201
82578357|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.02||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iF-iM connectivity induced by active versus sham rTMS.||||0.02
82578358|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iT-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.01
82461118|NCT00467740|164624609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.053||0.0646||95.0|-0.006|0.204|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.204|-0.006|0.0646
82461119|NCT00467740|164624609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.053||0.602||95.0|-0.077|0.132|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.132|-0.077|0.6020
82461120|NCT00467740|164624609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.053||0.0147||95.0|0.026|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.233|0.026|0.0147
82461121|NCT00467740|164624610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.053||0.4902||95.0|-0.068|0.142|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.142|-0.068|0.4902
82461122|NCT00467740|164624610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.054||0.2832||95.0|-0.048|0.164|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.164|-0.048|0.2832
82461123|NCT00467740|164624610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.054||0.6516||95.0|-0.081|0.13|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.130|-0.081|0.6516
82461124|NCT00467740|164624610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.053||0.006||95.0|0.042|0.252|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.252|0.042|0.0060
82461125|NCT00467740|164624611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.05||0.0005||95.0|0.079|0.277|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.277|0.079|0.0005
82461126|NCT00467740|164624611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.137|STANDARD_ERROR_OF_MEAN|0.051||0.007||95.0|0.038|0.237|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.237|0.038|0.0070
82461127|NCT00467740|164624611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.05||0.0512||95.0|-0.001|0.198|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.198|-0.001|0.0512
82461128|NCT00467740|164624611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.133|0.331|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.331|0.133|<0.0001
82461129|NCT00467740|164624612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.061||0.1811||95.0|-0.039|0.203|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.203|-0.039|0.1811
82461130|NCT00467740|164624612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.062||0.2118||95.0|-0.044|0.199|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.199|-0.044|0.2118
82461131|NCT00467740|164624612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037|STANDARD_ERROR_OF_MEAN|0.062||0.5504||95.0|-0.085|0.158|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.158|-0.085|0.5504
82461132|NCT00467740|164624612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.062||0.0022||95.0|0.069|0.312|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.312|0.069|0.0022
82461133|NCT00467740|164624613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.102|0.255|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.255|0.102|<0.0001
82461134|NCT00467740|164624613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.106|0.26|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.260|0.106|<0.0001
82461135|NCT00467740|164624613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.096|0.25|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.250|0.096|<0.0001
82461136|NCT00467740|164624613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.291|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.214|0.367|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.367|0.214|<0.0001
82542693|NCT02527148|164785037|SUPERIORITY|||||||0.741|||||||t-test, 2 sided|||To compare EQ-5D index at 6-weeks between both groups.||||0.741
82578359|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.99||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iT-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.99
82578360|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iT-cT connectivity induced by active versus sham rTMS.||||0.04
82461137|NCT00467740|164624614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001||95.0|0.101|0.279|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.279|0.101|<0.0001
82461138|NCT00467740|164624614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.196|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001||95.0|0.107|0.286|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.286|0.107|<0.0001
82461139|NCT00467740|164624614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.045||0.0007||95.0|0.067|0.246|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.246|0.067|0.0007
82461140|NCT00467740|164624614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001||95.0|0.174|0.352|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.352|0.174|<0.0001
82461141|NCT00467740|164624615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.115|0.313|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.313|0.115|<0.0001
82461142|NCT00467740|164624615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.05||0.0021||95.0|0.057|0.255|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.255|0.057|0.0021
82461143|NCT00467740|164624615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.05||0.0795||95.0|-0.01|0.187|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.187|-0.010|0.0795
82461144|NCT00467740|164624615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.129|0.326|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.326|0.129|<0.0001
82650107|NCT04229303|165015336|OTHER||Slope|2.81|||<|0.0001|TWO_SIDED|90.0|2.017|3.925|||ANOVA|||Statistics for Voriconazole AUC0-t day 10||3.925|2.017|<0.0001
82650108|NCT04229303|165015336|OTHER||Slope|5.28|||<|0.0001|TWO_SIDED|90.0|3.783|7.361|||ANOVA|||Statistics for Voriconazole AUC0-t Day 10||7.361|3.783|<0.0001
82461145|NCT00467740|164624616|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.049||0.0003||95.0|0.082|0.276|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.276|0.082|0.0003
82461146|NCT00467740|164624616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.049||0.0077||95.0|0.035|0.229|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.229|0.035|0.0077
82461147|NCT00467740|164624616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.049||0.0427||95.0|0.003|0.197|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.197|0.003|0.0427
82461148|NCT00467740|164624616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.143|0.336|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.336|0.143|<0.0001
82461149|NCT00467740|164624617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.048||0.0005||95.0|0.074|0.263|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.263|0.074|0.0005
82542694|NCT02527148|164785037|SUPERIORITY|||||||0.794|||||||t-test, 2 sided|||To compare EQ-5D VAS at 6-weeks between both groups.||||0.794
82542695|NCT02527148|164785037|SUPERIORITY|||||||0.232|||||||t-test, 2 sided|||To compare EQ-5D index at 6-months between both groups.||||0.232
82542696|NCT02527148|164785037|SUPERIORITY|||||||0.513|||||||t-test, 2 sided|||To compare EQ-5D VAS at 6-months between both groups.||||0.513
82542697|NCT02527148|164785037|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||To compare EQ-5D index at 1-year between both groups.||||0.180
82542698|NCT02527148|164785037|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||To compare EQ-5D VAS at 1-year between both groups.||||0.864
82461150|NCT00467740|164624617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.048||0.0003||95.0|0.08|0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.269|0.080|0.0003
82461151|NCT00467740|164624617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.048||0.0004||95.0|0.078|0.268|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.268|0.078|0.0004
82461152|NCT00467740|164624617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.296|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001||95.0|0.202|0.39|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.390|0.202|<0.0001
82461153|NCT00467740|164624618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.048||0.0004||95.0|0.078|0.268|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.268|0.078|0.0004
82461154|NCT00467740|164624618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.048||0.0002||95.0|0.09|0.281|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.281|0.090|0.0002
82461155|NCT00467740|164624618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.048||0.0047||95.0|0.043|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.233|0.043|0.0047
82461156|NCT00467740|164624618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001||95.0|0.142|0.332|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.332|0.142|<0.0001
82461157|NCT00467740|164624619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.055||0.0002||95.0|0.096|0.312|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.312|0.096|0.0002
82542699|NCT02527148|164785037|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||To compare EQ-5D index at 2-year between both groups.||||0.223
82542700|NCT02527148|164785037|SUPERIORITY|||||||0.355|||||||t-test, 2 sided|||To compare EQ-5D VAS at 2-year between both groups.||||0.355
82542701|NCT02527148|164785037|SUPERIORITY|||||||0.314|||||||t-test, 2 sided|||To compare EQ-5D index at 5-year between both groups.||||0.314
82542702|NCT02527148|164785037|SUPERIORITY|||||||0.914|||||||t-test, 2 sided|||To compare EQ-5D VAS at 5-year between both groups.||||0.914
82650109|NCT04229303|165015336|OTHER||Slope|1.97|||<|0.0001|TWO_SIDED|90.0|1.615|2.396|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 1||2.396|1.615|<0.0001
82650110|NCT04229303|165015336|OTHER||Slope|5.09|||<|0.0001|TWO_SIDED|90.0|4.178|6.196|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 1||6.196|4.178|<0.0001
82461158|NCT00467740|164624619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.055||0.0057||95.0|0.045|0.261|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.261|0.045|0.0057
82461159|NCT00467740|164624619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.055||0.1513||95.0|-0.029|0.186|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.186|-0.029|0.1513
82542703|NCT02527148|164785038|SUPERIORITY|||||||0.523|||||||t-test, 2 sided|||To compare FJS at 6-weeks between both groups.||||0.523
82542704|NCT02527148|164785038|SUPERIORITY|||||||0.932|||||||t-test, 2 sided|||To compare FJS at 6-months between both groups.||||0.932
82542705|NCT02527148|164785038|SUPERIORITY|||||||0.934|||||||t-test, 2 sided|||To compare FJS at 1-year between both groups.||||0.934
82542706|NCT02527148|164785038|SUPERIORITY|||||||0.566|||||||t-test, 2 sided|||To compare FJS at 2-year between both groups.||||0.566
82542707|NCT02527148|164785038|SUPERIORITY|||||||0.263|||||||t-test, 2 sided|||To compare FJS at 5-year between both groups.||||0.263
82542708|NCT02527148|164785039|SUPERIORITY|||||||0.3768|||||||t-test, 2 sided|||To compare IKSS Pain preoperatively between both groups.||||0.3768
82542709|NCT02527148|164785039|SUPERIORITY|||||||0.6425|||||||t-test, 2 sided|||To compare IKSS Function preoperatively between both groups.||||0.6425
82542710|NCT02527148|164785039|SUPERIORITY|||||||0.5041|||||||t-test, 2 sided|||To compare IKSS ROM preoperatively between both groups.||||0.5041
82542711|NCT02527148|164785039|SUPERIORITY|||||||0.223|||||||t-test, 2 sided|||To compare IKSS Pain at 6-weeks between both groups.||||0.2230
82542712|NCT02527148|164785039|SUPERIORITY|||||||0.8209|||||||t-test, 2 sided|||To compare IKSS Function at 6-weeks between both groups.||||0.8209
82542713|NCT02527148|164785039|SUPERIORITY|||||||0.6958|||||||t-test, 2 sided|||To compare IKSS ROM at 6-weeks between both groups.||||0.6958
82542714|NCT02527148|164785039|SUPERIORITY|||||||0.0548|||||||t-test, 2 sided|||To compare IKSS Pain at 6-months between both groups.||||0.0548
82542715|NCT02527148|164785039|SUPERIORITY|||||||0.1958|||||||t-test, 2 sided|||To compare IKSS Function at 6-months between both groups.||||0.1958
82542716|NCT02527148|164785039|SUPERIORITY|||||||0.2786|||||||t-test, 2 sided|||To compare IKSS ROM at 6-months between both groups.||||0.2786
82542717|NCT02527148|164785039|SUPERIORITY|||||||0.2399|||||||t-test, 2 sided|||To compare IKSS Pain at 1-year between both groups.||||0.2399
82542718|NCT02527148|164785039|SUPERIORITY|||||||0.4135|||||||t-test, 2 sided|||To compare IKSS Function at 1-year between both groups.||||0.4135
82542719|NCT02527148|164785039|SUPERIORITY|||||||0.5278|||||||t-test, 2 sided|||To compare IKSS ROM at 1-year between both groups.||||0.5278
82542720|NCT02527148|164785039|SUPERIORITY|||||||0.2992|||||||t-test, 2 sided|||To compare IKSS Pain at 2-year between both groups.||||0.2992
82542721|NCT02527148|164785039|SUPERIORITY|||||||0.5462|||||||t-test, 2 sided|||To compare IKSS Function at 2-year between both groups.||||0.5462
82542722|NCT02527148|164785039|SUPERIORITY|||||||0.5765|||||||t-test, 2 sided|||To compare IKSS ROM at 2-year between both groups.||||0.5765
82542723|NCT02527148|164785039|SUPERIORITY|||||||0.5493|||||||t-test, 2 sided|||To compare IKSS Pain at 5-year between both groups.||||0.5493
82542724|NCT02527148|164785039|SUPERIORITY|||||||0.1705|||||||t-test, 2 sided|||To compare IKSS Function at 5-year between both groups.||||0.1705
82578361|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.01||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.01
82542725|NCT02527148|164785039|SUPERIORITY|||||||0.2918|||||||t-test, 2 sided|||To compare IKSS ROM at 5-year between both groups.||||0.2918
82542726|NCT02527148|164785040|OTHER|||||||0.6|||||||t-test, 2 sided|||Comparison of coronal mechanical axis:hip knee ankle angle between both groups.||||0.6
82542727|NCT02527148|164785040|OTHER|||||||0.002|||||||t-test, 2 sided|||Comparison of coronal angle fem comp and mech axis femur between both groups.||||0.002
82542728|NCT02527148|164785040|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of coronal angle tibial comp and mech axis tibia between both groups.||||<0.001
82542729|NCT02527148|164785040|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of sagital tibial component slope between both groups.||||<0.001
82542730|NCT02527148|164785040|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison of Fem comp rotation relative to surg epicond axis+=ER between both groups.||||<0.001
82461160|NCT00467740|164624619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001||95.0|0.114|0.328|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.328|0.114|<0.0001
82542731|NCT04589689|164785041|OTHER|||||||0.777||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3 months.||||0.777
82542732|NCT04589689|164785041|OTHER|||||||0.247||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month.||||0.247
82542733|NCT04589689|164785042|OTHER|||||||0.16||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.160
82542734|NCT04589689|164785042|OTHER|||||||0.275||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.275
82542735|NCT04589689|164785043|OTHER|||||||0.509||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.509
82578362|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.31||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.31
82650111|NCT04229303|165015336|OTHER||Slope|2.45||||0.0002|TWO_SIDED|90.0|1.791|3.349|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 10||3.349|1.791|0.0002
82542736|NCT04589689|164785043|OTHER|||||||0.61||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.610
82542737|NCT04589689|164785044|OTHER|||||||0.807||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.807
82542738|NCT04589689|164785044|OTHER|||||||0.826||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.826
82542739|NCT04589689|164785045|OTHER|||||||0.076||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.076
82542740|NCT04589689|164785045|OTHER|||||||0.747||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.747
82461161|NCT00467740|164624620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.054||0.0022||95.0|0.06|0.271|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.271|0.060|0.0022
82542741|NCT04589689|164785046|OTHER|||||||0.154||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.154
82542742|NCT04589689|164785046|OTHER|||||||0.107||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.107
82542743|NCT04589689|164785047|OTHER|||||||0.445||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 3-month follow-up.||||0.445
82542744|NCT04589689|164785047|OTHER|||||||0.543||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.543
82542745|NCT04589689|164785048|OTHER|||||||0.157||||||The a priori threshold for statistical significance is \<.05.|t-test, 2 sided|||Analysis at 6-month follow-up.||||0.157
82542746|NCT04283552|164785070|SUPERIORITY|||||||0.001|||||||Two-tailed Wildoxon signed-rank test|||This statistical analysis is for Reader 1.||||0.001
82542747|NCT04283552|164785070|SUPERIORITY|||||||0.28|||||||Two-tailed Wilcoxon signed-rank test|||This statistical analysis is for Reader 2.||||0.28
82542748|NCT04283552|164785071|SUPERIORITY|||||||0.22|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||0.22
82650112|NCT04229303|165015336|OTHER||Slope|4.6|||<|0.0001|TWO_SIDED|90.0|3.365|6.294|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-t Day 10||6.294|3.365|<0.0001
82650113|NCT04229303|165015336|OTHER||Slope|1.99||||0.0005|TWO_SIDED|90.0|1.524|2.602|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 1||2.602|1.524|0.0005
82542749|NCT04283552|164785071|SUPERIORITY||||||>|0.05|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||>0.05
82542750|NCT04283552|164785072|SUPERIORITY|||||||0.009|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||0.009
82542751|NCT04283552|164785072|SUPERIORITY||||||>|0.05|||||||Two-tailed Wilcoxon signed-rank test.|||This statistical analysis is for Reader 2.||||>0.05
82461162|NCT00467740|164624620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.054||0.0307||95.0|0.011|0.223|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.223|0.011|0.0307
82461163|NCT00467740|164624620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.054||0.132||95.0|-0.025|0.187|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.187|-0.025|0.1320
82461164|NCT00467740|164624620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001||95.0|0.127|0.337|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.337|0.127|<0.0001
82461165|NCT00467740|164624621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.056||0.1585||95.0|-0.031|0.188|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.188|-0.031|0.1585
82461166|NCT00467740|164624621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.056||0.0848||95.0|-0.013|0.207|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.207|-0.013|0.0848
82461167|NCT00467740|164624621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.056||0.0838||95.0|-0.013|0.207|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.207|-0.013|0.0838
82461168|NCT00467740|164624621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.056||0.0014||95.0|0.07|0.289|||Mixed Models Analysis||Olo 20 mcg qd minus Placebo|||0.289|0.070|0.0014
82461169|NCT00467740|164624622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.059||0.0959||95.0|-0.018|0.216|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.216|-0.018|0.0959
82461170|NCT00467740|164624622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.06||0.047||95.0|0.002|0.237|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.237|0.002|0.0470
82461171|NCT00467740|164624622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.06||0.196||95.0|-0.04|0.195|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.195|-0.040|0.1960
82461172|NCT00467740|164624622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.059||0.002||95.0|0.068|0.302|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.302|0.068|0.0020
82461173|NCT00467740|164624623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.064||0.027||95.0|0.016|0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.269|0.016|0.0270
82542752|NCT04283552|164785073|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||<0.001
82542753|NCT04283552|164785073|SUPERIORITY|||||||0.02|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||0.02
82542754|NCT04283552|164785074|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 1.||||<0.001
82461174|NCT00467740|164624623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|0.065||0.1031||95.0|-0.021|0.233|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.233|-0.021|0.1031
82461175|NCT00467740|164624623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.064||0.4378||95.0|-0.077|0.177|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.177|-0.077|0.4378
82461176|NCT00467740|164624623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.064||0.0064||95.0|0.05|0.303|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.303|0.050|0.0064
82461177|NCT00467740|164624624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.069||0.2781||95.0|-0.061|0.21|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.210|-0.061|0.2781
82461178|NCT00467740|164624624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.069||0.3284||95.0|-0.068|0.204|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.204|-0.068|0.3284
82542755|NCT04283552|164785074|SUPERIORITY|||||||0.02|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis for Reader 2.||||0.02
82542756|NCT04283552|164785077|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis comparing PS-Early Reader 1 to PS-Late Reader 1.||||<0.001
82542757|NCT04283552|164785077|SUPERIORITY||||||<|0.001|||||||Two-tailed Wilcoxon signed-rank test.|||This is the statistical analysis comparing PS-Early Reader 2 and PS-Late Reader 2.||||<0.001
82542758|NCT02384070|164785079|SUPERIORITY_OR_OTHER|||||||1||||||Analysis of the variance was used and Chi-square test for categorical variables. A sample size was calculated for a 95% confidence level and a power of 80%, assuming a 10% difference between groups.|ANOVA|||||||1
82542759|NCT02384070|164785079|SUPERIORITY_OR_OTHER|||||||1||||||The prior threshold for statistical significance was P \< 0.05|ANOVA|||||||1
82542760|NCT01667796|164785106|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||univariate generalized estimating equati|||||||0.001
82650114|NCT04229303|165015336|OTHER||Slope|4.58|||<|0.0001|TWO_SIDED|90.0|3.505|5.984|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 1||5.984|3.505|<0.0001
82461179|NCT00467740|164624624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.069||0.602||95.0|-0.1|0.171|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.171|-0.100|0.6020
82461180|NCT00467740|164624624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.069||0.0006||95.0|0.104|0.375|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.375|0.104|0.0006
82461181|NCT00467740|164624625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.067||0.4331|TWO_SIDED|95.0|-0.079|0.184|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.184|-0.079|0.4331
82461182|NCT00467740|164624625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.068||0.515|TWO_SIDED|95.0|-0.089|0.178|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||0.178|-0.089|0.5150
82461183|NCT00467740|164624625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.068||0.5714|TWO_SIDED|95.0|-0.095|0.171|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||0.171|-0.095|0.5714
82461184|NCT00467740|164624625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.068||0.0177|TWO_SIDED|95.0|0.028|0.296|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||0.296|0.028|0.0177
82461185|NCT00467740|164624626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.97|STANDARD_ERROR_OF_MEAN|7.665||0.003|TWO_SIDED|95.0|7.883|38.057|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||38.057|7.883|0.0030
82461186|NCT00467740|164624626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.6|STANDARD_ERROR_OF_MEAN|7.7||0.0016|TWO_SIDED|95.0|9.446|39.754|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||39.754|9.446|0.0016
82461187|NCT00467740|164624626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|36.806|STANDARD_ERROR_OF_MEAN|7.727|<|0.0001|TWO_SIDED|95.0|21.598|52.015|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||52.015|21.598|<.0001
82461188|NCT00467740|164624626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.505|STANDARD_ERROR_OF_MEAN|7.675|<|0.0001|TWO_SIDED|95.0|27.399|57.611|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||57.611|27.399|<.0001
82461189|NCT00467740|164624627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.118|STANDARD_ERROR_OF_MEAN|1.055||0.2898|TWO_SIDED|95.0|-3.194|0.957|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 2 mcg qd minus Placebo|||0.957|-3.194|0.2898
82461190|NCT00467740|164624627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.351|STANDARD_ERROR_OF_MEAN|1.057||0.027|TWO_SIDED|95.0|-4.432|-0.269|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 5 mcg qd minus Placebo|||-0.269|-4.432|0.0270
82461191|NCT00467740|164624627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.045|STANDARD_ERROR_OF_MEAN|1.063||0.0045|TWO_SIDED|95.0|-5.138|-0.952|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 10 mcg qd minus Placebo|||-0.952|-5.138|0.0045
82461192|NCT00467740|164624627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.937|STANDARD_ERROR_OF_MEAN|1.053||0.0056|TWO_SIDED|95.0|-5.01|-0.865|||Mixed Models Analysis|Mixed effect model with terms baseline, treatment, test day, baseline-by-test-day, treatment-by-test-day, and center as random effect|Olo 20 mcg qd minus Placebo|||-0.865|-5.010|0.0056
82461193|NCT00467740|164624628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.287|STANDARD_ERROR_OF_MEAN|0.257||0.2645|TWO_SIDED|95.0|-0.793|0.218|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.218|-0.793|0.2645
82461194|NCT00467740|164624628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.526|STANDARD_ERROR_OF_MEAN|0.258||0.0423|TWO_SIDED|95.0|-1.034|-0.018|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||-0.018|-1.034|0.0423
82461195|NCT00467740|164624628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.332|STANDARD_ERROR_OF_MEAN|0.259||0.2008|TWO_SIDED|95.0|-0.842|0.178|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||0.178|-0.842|0.2008
82461196|NCT00467740|164624628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.593|STANDARD_ERROR_OF_MEAN|0.257||0.0218|TWO_SIDED|95.0|-1.098|-0.087|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||-0.087|-1.098|0.0218
82461197|NCT00467740|164624637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.142|STANDARD_ERROR_OF_MEAN|0.114||0.2156||95.0|-0.368|0.083|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 2 mcg qd minus Placebo|||0.083|-0.368|0.2156
82542761|NCT01667796|164785106|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Adjusted for adherence, body mass index, and oral contraceptive use|Generalized estimating equation|||||||0.008
82650115|NCT04229303|165015336|OTHER||Slope|2.65||||0.0003|TWO_SIDED|90.0|1.851|3.781|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 10||3.781|1.851|0.0003
82650116|NCT04229303|165015336|OTHER||Slope|5.04|||<|0.0001|TWO_SIDED|90.0|3.587|7.088|||ANOVA|||Statistics for Voriconazole AUC0-inf Day 10||7.088|3.587|<0.0001
82542762|NCT02200770|164785122|SUPERIORITY||Hazard Ratio (HR)|0.272|||<|0.0001|TWO_SIDED|95.0|0.1496|0.4961|||Regression, Cox|||||0.4961|0.1496|<0.0001
82542763|NCT02200770|164785123|SUPERIORITY||Odds Ratio (OR)|0.352||||0.0033|TWO_SIDED|95.0|0.1755|0.7059|||Regression, Logistic|||||0.7059|0.1755|0.0033
82542764|NCT02200770|164785124|SUPERIORITY||Mean Difference (Net)|0.134|STANDARD_ERROR_OF_MEAN|1.096||0.9026|TWO_SIDED|95.0|-2.0254|2.2941|||ANCOVA|||||2.2941|-2.0254|0.9026
82542765|NCT02200770|164785125|SUPERIORITY||Rate Ratio|0.566||||0.0034|TWO_SIDED|95.0|0.3866|0.8279|||Negative Binomial Regression|||||0.8279|0.3866|0.0034
82542766|NCT02200770|164785126|SUPERIORITY||Rate Ratio|0.317||||0.0146|TWO_SIDED|95.0|0.1257|0.7972|||Negative Binomial Regression|||||0.7972|0.1257|0.0146
82542767|NCT02476409|164785156|SUPERIORITY|||||||0.094|||||||Kruskal-Wallis|||||||0.094
82542768|NCT02476409|164785157|SUPERIORITY|||||||0.166|||||||Kruskal-Wallis|||||||0.166
82542769|NCT02476409|164785157|SUPERIORITY|||||||0.491|||||||Kruskal-Wallis|||||||0.491
82578363|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.05||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-cT connectivity induced by active versus sham rTMS.||||0.05
82578364|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.03|||||||Wilcoxon signed rank test|The threshold for statistical significance was p \< 0.0076.||Within-group analysis of change in cF-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.03
82461198|NCT00467740|164624637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.114||0.0869||95.0|-0.422|0.029|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 5 mcg qd minus Placebo|||0.029|-0.422|0.0869
82461199|NCT00467740|164624637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.328|STANDARD_ERROR_OF_MEAN|0.114||0.0044||95.0|-0.552|-0.103|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 10 mcg qd minus Placebo|||-0.103|-0.552|0.0044
82461200|NCT00467740|164624637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.276|STANDARD_ERROR_OF_MEAN|0.113||0.0158||95.0|-0.499|-0.052|||ANCOVA|Analysis of covariance model with terms for baseline, treatment, centre (centre random, all other effects fixed)|Olo 20 mcg qd minus Placebo|||-0.052|-0.499|0.0158
82542770|NCT02476409|164785158|SUPERIORITY|||||||0.543|||||||Kruskal-Wallis|||P-value for Change in Dyspnea VAS - Baseline to Day 3 Tolvaptan versus placebo.||||0.543
82542771|NCT02476409|164785159|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.050
82542772|NCT02476409|164785160|SUPERIORITY|||||||0.092|||||||Fisher Exact|||||||0.092
82542773|NCT02476409|164785161|SUPERIORITY|||||||0.034|||||||Kruskal-Wallis|||||||0.034
82542774|NCT02476409|164785162|SUPERIORITY|||||||0.643|||||||Kruskal-Wallis|||||||0.643
82542775|NCT00468910|164785288|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The study was powered to detect an attributable change in the aspirin group of 50% relative to baseline values - an approximate 50% increase in spectral slope.||||0.11
82542776|NCT00468910|164785289|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.17
82542777|NCT05323734|164785328|OTHER||Median Difference (Final Values)|-14.53||||0.0904|TWO_SIDED|95.0|-32.04|2.48|||Wilcoxon Rank-Sum|Wilcoxon Rank-Sum statistic is applied using a 2-sided significance level of 0.05.|The Hodges-Lehmann approach is applied for estimating 95% confidence interval.|||2.48|-32.04|0.0904
82542778|NCT05323734|164785329|OTHER||Difference in percentage|6.4||||0.3407|TWO_SIDED|95.0|-6.4|20.1|||Fisher Exact|||||20.1|-6.4|0.3407
82542779|NCT05323734|164785330|OTHER||Odds Ratio (OR)|0.88||||0.7069|TWO_SIDED|95.0|0.46|1.7|||Regression, Logistic||The estimated odds ratio of the ganaxolone group compared to the placebo group based on proportional odds logistic regression with treatment as a factor.|||1.70|0.46|0.7069
82542780|NCT05323734|164785331|OTHER||Odds Ratio (OR)|0.85||||0.6434|TWO_SIDED|95.0|0.42|1.72|||Regression, Logistic||The estimated odds ratio of the ganaxolone group compared to the placebo group based on proportional odds logistic regression with treatment as a factor.|||1.72|0.42|0.6434
82542781|NCT05061693|164785332|SUPERIORITY||Odds Ratio (OR)|7.1||||0.0061|TWO_SIDED|95.0|1.6|45.4|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||45.4|1.6|0.0061
82542782|NCT05061693|164785332|SUPERIORITY||difference in response rate|28.0|STANDARD_ERROR_OF_MEAN|9.18|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
82542783|NCT05061693|164785332|SUPERIORITY||Odds Ratio (OR)|10.2||||0.0005|TWO_SIDED|95.0|2.3|65.6|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||65.6|2.3|0.0005
82542784|NCT05061693|164785332|SUPERIORITY||difference in response rate|36.3|STANDARD_ERROR_OF_MEAN|9.42|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
82542785|NCT05061693|164785332|SUPERIORITY||Odds Ratio (OR)|16.8|||<|0.0001|TWO_SIDED|95.0|3.9|107.5|||Regression, Logistic|Exact Logistic regression: (response at Week 16 = treatment + stratification factor \[Day 1 Investigator's Global Assessment score (3 or 4)\])||||107.5|3.9|<0.0001
82542786|NCT05061693|164785332|SUPERIORITY||difference in response rate|48.6|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|||||||The standard error of the difference between response rates was from normal approximation.|||||
82578365|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.2||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.20
82542787|NCT01152190|164785339|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.009||0.121||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 between the tadalafil and placebo treatment groups was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.121
82542788|NCT01152190|164785340|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.008||0.226||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 between the tadalafil and placebo treatment groups was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.226
82542789|NCT01152190|164785341|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.009||0.208||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate peripheral zone RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.208
82542790|NCT01152190|164785341|SUPERIORITY_OR_OTHER||Difference in LS Means|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.066||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate peripheral zone RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.066
82542791|NCT01152190|164785341|SUPERIORITY_OR_OTHER||Difference in LS Means|0.02|STANDARD_ERROR_OF_MEAN|0.017||0.195||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in bladder neck RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.195
82578366|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-cM connectivity induced by active versus sham rTMS.||||0.04
82578367|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.05||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.05
82578368|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.59||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cF-iM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.59
82578369|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cF-iM connectivity induced by active versus sham rTMS.||||0.12
82461201|NCT04999839|164624657|SUPERIORITY||Odds Ratio (OR)|3.727|||=|0.052|TWO_SIDED|95.0|0.933|14.885||P-value was calculated using a Cochran-Mantel-Haenszel (CMH) test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the Mantel-Haenszel (MH) method.|||14.885|0.933|=0.052
82542792|NCT01152190|164785341|SUPERIORITY_OR_OTHER||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.022||0.625||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in bladder neck RI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.625
82578370|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.1||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-iT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.10
82578371|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.57||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-iT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.57
82650117|NCT04229303|165015336|OTHER||Slope|1.93|||<|0.0001|TWO_SIDED|90.0|1.569|2.384|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 1||2.384|1.569|<0.0001
82542793|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|2.63|STANDARD_ERROR_OF_MEAN|3.38||0.439||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate transition zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.439
82542794|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|0.51|STANDARD_ERROR_OF_MEAN|2.867||0.86||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate transition zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.860
82542795|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|3.47|STANDARD_ERROR_OF_MEAN|2.937||0.24||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the prostate peripheral zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.240
82461202|NCT04999839|164624657|SUPERIORITY||Odds Ratio (OR)|12.733|||<|0.001|TWO_SIDED|95.0|3.525|45.994||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||45.994|3.525|<0.001
82461203|NCT04999839|164624657|SUPERIORITY||Odds Ratio (OR)|29.014|||<|0.001|TWO_SIDED|95.0|8.526|98.735||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||98.735|8.526|<0.001
82461204|NCT04999839|164624657|SUPERIORITY||Odds Ratio (OR)|40.111|||<|0.001|TWO_SIDED|95.0|10.277|156.548||P-value was calculated using a CMH test, with prior treatment with biologics included as a stratification factor, comparing the percentage of participants in each dose of NDI-034858 vs placebo.|Cochran-Mantel-Haenszel||Odds ratio for achievement of PASI-75 was calculated using the MH method.|||156.548|10.277|<0.001
82461205|NCT00528957|164624673|NON_INFERIORITY_OR_EQUIVALENCE|In the randomized phase, it was assumed that the respective proportions of participants maintaining HIV-1 RNA \< 400 copies/mL was 92% for participants switching to tenofovir DF and 90% for participants continuing stavudine or zidovudine, as estimated from previous GSI studies. The equivalence limit was set at -15% for the lower boundary of a two-sided 95% confidence interval (CI) on the difference in proportions of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48.|Difference in percentages between groups|-8.5|||||TWO_SIDED|95.0|-21.5|4.5|||Normal approximation|The difference between the two proportions and its CI were based on normal approximation methods.|Difference is for tenofovir DF minus stavudine or zidovudine (randomized phase)|"The statistical hypotheses for the primary endpoint was as follows:~* Null Hypothesis: tenofovir DF group is more than 15% worse than the stavudine or zidovudine group with respect to the proportion of participants maintaining HIV-1 RNA concentrations \< 400 copies/mL at Week 48.~* Alternate Hypothesis: tenofovir DF group is no more than 15% worse than the stavudine or zidovudine group with respect to the proportion of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48."||4.5|-21.5|
82461206|NCT00528957|164624674|NON_INFERIORITY|In the randomized phase, it was assumed that the respective proportions of participants maintaining HIV-1 RNA \< 400 copies/mL was 92% for subjects switching to tenofovir DF and 90% for subjects continuing stavudine or zidovudine, as estimated from previous GSI studies. The equivalence limit was set at -15% for the lower boundary of a two-sided 95% confidence interval (CI) on the difference in proportions of participants maintaining HIV-1 RNA \< 400 copies/mL at Week 48.|Difference in percentages between groups|-0.9|||||TWO_SIDED|95.0|-13.7|11.8|||||The difference between the two proportions and its CI were based on normal approximation methods.|||11.8|-13.7|
82461207|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|1.07||||0.009|TWO_SIDED|95.0|0.85|1.36||Threshold for significance of p value was 0.05.|ANOVA|||A/Solomon Islands (H1N1): FluBlok: Lot A versus FluBlok: Lot B||1.36|0.85|0.009
82461208|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|0.91||||0.009|TWO_SIDED|0.91|0.71|1.15||Threshold for significance of p value was 0.05.|ANOVA|||A/Solomon Islands (H1N1): FluBlok: Lot A versus FluBlok: Lot C||1.15|0.71|0.009
82461209|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.85||||0.009|TWO_SIDED|95.0|0.67|1.07|||ANOVA|Threshold for significance of p value was 0.05.||A/Solomon Islands (H1N1): FluBlok: Lot B versus FluBlok: Lot C||1.07|0.67|0.009
82461210|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|2.03||||0.065|TWO_SIDED|95.0|1.56|2.64||Threshold of significance for p value was 0.05.|ANOVA|||A/Wisconsin (H3N2): FluBlok: Lot A versus FluBlok: Lot B||2.64|1.56|0.065
82461211|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|1.63||||0.065|TWO_SIDED|95.0|1.26|2.11|||ANOVA|Threshold of significance for p value was 0.05.||A/Wisconsin (H3N2): FluBlok: Lot A versus FluBlok: Lot C||2.11|1.26|0.065
82461212|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.8||||0.065|TWO_SIDED|95.0|0.62|1.04|||ANOVA|Threshold of significance for p value was 0.05.||A/Wisconsin (H3N2): FluBlok: Lot B versus FluBlok: Lot C||1.04|0.62|0.065
82542796|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|2.729||0.839||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the prostate peripheral zone CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.839
82542797|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.2|STANDARD_ERROR_OF_MEAN|5.77||0.468||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 4 in the bladder neck CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.468
82542798|NCT01152190|164785342|SUPERIORITY_OR_OTHER||Difference in LS Means|7.93|STANDARD_ERROR_OF_MEAN|5.199||0.131||95.0||||The p-value associated with the LS mean difference of change from baseline to Week 8 in the bladder neck CPI was tested at a significance level of 0.05 with no adjustments for multiplicity.|Mixed-Model Repeated Measures|||||||0.131
82542799|NCT01499654|164785347|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82542800|NCT01499654|164785347|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.67
82542801|NCT01499654|164785348|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82542802|NCT01499654|164785348|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.002
82542803|NCT01499654|164785349|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82542804|NCT01499654|164785349|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.08
82542805|NCT01499654|164785350|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
82542806|NCT01499654|164785350|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.44
82542807|NCT03603717|164785353|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82542808|NCT03603717|164785354|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82542809|NCT03603717|164785355|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||||||0.84
82542810|NCT03603717|164785356|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82542811|NCT03505099|164785358|SUPERIORITY||Difference of Proportion|76.5|||<|0.0001|TWO_SIDED|95.0|50.95|92.21|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al, 2014 - PubMed 25080519) where 19 out of 81 participants (23.46%) with 3 copies of SMN2 achieved standing alone for at least 3 seconds.|92.21|50.95|<0.0001
82542812|NCT03505099|164785359|SUPERIORITY||Difference of Proportion|73.9|||<|0.0001|TWO_SIDED|95.0|44.67|91.61|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 6 out of 23 participants (26.09%) with 2 copies of SMN2 were alive and did not require permanent ventilation.|91.61|44.67|<0.0001
82542813|NCT03505099|164785361|SUPERIORITY||Difference of Proportion|72.3|||<|0.0001|TWO_SIDED|95.0|44.9|90.11|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al, 2014 - PubMed 25080519) where 17 out of 81 participants (20.99%) with 3 copies of SMN2 achieved the ability to walk alone.|90.11|44.90|<0.0001
82542814|NCT00732381|164785362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||95.0|||||ANCOVA|||||||0.006
82650118|NCT04229303|165015336|OTHER||Slope|4.56|||<|0.0001|TWO_SIDED|90.0|3.608|5.759|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 1||5.759|3.608|<0.0001
82542815|NCT00732381|164785363|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<.001
82542816|NCT00457691|164785364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.095||||0.8072|TWO_SIDED|95.0|0.892|1.344||p-value from 1-sided log-rank test, stratified by Eastern Cooperative Oncology Group (ECOG) performance status, organ sites with disease, primary tumor site, prior adjuvant treatment|Log Rank|||||1.344|0.892|0.8072
82542817|NCT00457691|164785365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.9163|TWO_SIDED|95.0|0.936|1.466||p-value from 1-sided log-rank test, stratified by ECOG performance status, organ sites with disease, primary tumor site, prior adjuvant treatment|Log Rank|||||1.466|0.936|0.9163
82542818|NCT01420549|164785372|NON_INFERIORITY|The non-inferiority assessment was analyzed by the bilateral confidence interval (95%) for the ratio of the mean LDLfinal/LDLbaseline of the R/E combination, compared to the mean LDLfinal/LDLbaseline of the S/E combination and the bilateral confidence interval (95%) for the difference between the two means of the percentage variation of LDL-C in the treatments (\[(LDLfinal - LDLbaseline)/LDLbaseline))\*100)R+E\] - \[(LDLfinal - LDLbaseline)/LDLbaseline))\*100)S+E\].|Median Difference (Final Values)|-10.32|STANDARD_ERROR_OF_MEAN|3.33||0.0013|TWO_SIDED|95.0|-16.94|-3.7|||ANCOVA|Estimates for treatment effect and their 95% confidence intervals were exponentiated to produce estimates of percentage change.|Mean Percentage Change LDL- C (%)|Rosuvastatin + Ezetimibe versus Simvastatin + Ezetimibe||-3.70|-16.94|0.0013
82542819|NCT05777785|164785375|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|0.9789||||0.037|TWO_SIDED||||||t-test, 2 sided|||||||0.037
82578372|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.06||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-iT connectivity induced by active versus sham rTMS.||||0.06
82542820|NCT05777785|164785377|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|2.09||||0.027|TWO_SIDED||||||t-test, 2 sided|||||||0.027
82542821|NCT05777785|164785378|SUPERIORITY|Power analysis determined that a sample size of 90 participants will have 80% power to detect an effect size of 0.30 (Cohen's D) using a paired t-test with a 0.05 two-sided significance level.|Mean Difference (Final Values)|2.09||||0.029|TWO_SIDED||||||t-test, 2 sided|||||||0.029
82542822|NCT02396316|164785396|SUPERIORITY_OR_OTHER||Difference of LS mean change|-4.9||||0.0644|TWO_SIDED|95.0|-10.2|0.3|||ANCOVA|||Point estimate, 95% CI and P-value were based on treatment difference of the LS mean changes using an ANCOVA model with treatment group and stage of NVG for randomization as fixed effects, baseline value as covariate. The superiority of aflibercept injection to sham injection was to be established if the upper limit of the two-sided 95% confidence interval for the difference (the aflibercept group minus the sham group) is less than 0.||0.3|-10.2|0.0644
82542823|NCT02396316|164785397|SUPERIORITY_OR_OTHER||MH adjusted difference|59.1|||||TWO_SIDED|95.0|37.0|81.2|||Mantel Haenszel|||The point estimate of the treatment difference (the aflibercept group minus the sham group) at Week 1 and its two-sided 95% confidence interval stratified by stage of NVG (as randomized) using Mantel-Haenszel weights.||81.2|37.0|
82542824|NCT01149369|164785401|NON_INFERIORITY_OR_EQUIVALENCE|P-values, relative risk ratios, and 95% confidence limits (CI) for the primary ITT were calculated using the Cochran-Mantel-Haenszel chi-square test, stratified by clinic.|Risk Ratio (RR)|1.2||||0.43|TWO_SIDED|95.0|0.8|1.7|||Cochran-Mantel-Haenszel|Stratified by clinic||Either 1) improvement in mean of available nausea VAS scores over 28-day treatment period compared to means of VAS during the 7-day baseline (BL) period being ≤ -25 mm, or 2) mean VAS after 28-days of treatment was \< 25 mm.||1.7|0.8|0.43
82542825|NCT01149369|164785402|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.5||||0.03|TWO_SIDED|95.0|-2.8|-0.1|||ANCOVA|||||-0.1|-2.8|0.03
82650119|NCT04229303|165015336|OTHER||Slope|2.4||||0.0007|TWO_SIDED|90.0|1.694|3.402|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 10||3.402|1.694|0.0007
82650120|NCT04229303|165015336|OTHER||Slope|4.22|||<|0.0001|TWO_SIDED|90.0|2.975|5.974|||ANOVA|||Statistics for N-oxide Voriconazole AUC0-inf Day 10||5.974|2.975|<0.0001
82650121|NCT04229303|165015337|OTHER||Slope|2.03||||0.0003|TWO_SIDED|90.0|1.562|2.65|||ANOVA|||Statistics for Voriconazole Cmax Day 1||2.650|1.562|0.0003
82650122|NCT04229303|165015337|OTHER||Slope|4.87|||<|0.0001|TWO_SIDED|90.0|3.74|6.345|||ANOVA|||Statistics for Voriconazole Cmax Day 1||6.345|3.740|<0.0001
82461213|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. B falls within 0.67 to 1.5.|GMT ratio|0.88||||0.011|TWO_SIDED|95.0|0.69|1.13|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot A versus FluBlok: Lot B||1.13|0.69|0.011
82461214|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot A vs. C falls within 0.67 to 1.5.|GMT ratio|0.85||||0.011|TWO_SIDED|95.0|0.65|1.09|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot A versus FluBlok: Lot C||1.09|0.65|0.011
82461215|NCT00539981|164624722|EQUIVALENCE|Equivalence between 2 lots for each strain was concluded if the 2-sided 95% CI for the ratio of post-vaccination GMTs for Lot B vs. C falls within 0.67 to 1.5.|GMT ratio|0.96||||0.011|TWO_SIDED|95.0|0.75|1.23|||ANOVA|Threshold of significance for p value was 0.05.||B/Malaysia: FluBlok: Lot B versus FluBlok: Lot C||1.23|0.75|0.011
82461216|NCT00539981|164624723|SUPERIORITY|Relative protective efficacy is equivalent to absolute efficacy which is defined as the reduction in the influenza rate for Flublok relative to placebo.|Relative protective efficacy|75.4|||||TWO_SIDED|95.0|-148.0|99.5||||||FluBlok versus Placebo||99.5|-148.0|
82461217|NCT01323582|164624726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6|STANDARD_ERROR_OF_MEAN|11.7||0.76|TWO_SIDED|95.0|-21.5|28.6|||t-test, 2 sided|Satterthwaite corrected t-test was used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Study planned to accrue 50 subjects, but due to difficult recruitment was not able to meet its objective.||28.6|-21.5|0.76
82461218|NCT01323582|164624727|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.8||0.65||95.0|-4.8|7.5|||t-test, 2 sided|Satterthwaite Correction used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Study planned to accrue 50 subjects, but due to difficult recruitment was not able to meet its objective.||7.5|-4.8|0.65
82461219|NCT01323582|164624728|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|2.3||0.88|TWO_SIDED|95.0|-4.58|5.19|||t-test, 2 sided|Satterthwaite correction for unequal standard deviations was used|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|Half of the period 2 minus period 1 differences were used, since the difference between these two derived means is an unbiased estimate of the effect size.||5.19|-4.58|0.88
82461220|NCT01323582|164624729|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.49|STANDARD_ERROR_OF_MEAN|5.7||0.8|TWO_SIDED|95.0|-13.9|10.9|||t-test, 2 sided|Satterthwaite Corrected t-test|A positive (negative) value would suggest AZI values would tend to be larger (smaller) than EZ values.|||10.9|-13.9|0.80
82461221|NCT01323582|164624730|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.8|STANDARD_ERROR_OF_MEAN|9.1||0.21|TWO_SIDED|95.0|-30.9|7.3|||t-test, 2 sided||Negative values suggest shorter emptying time post-treatment.|||7.3|-30.9|0.21
82461222|NCT01323582|164624731|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|STANDARD_ERROR_OF_MEAN|6.61||0.034|TWO_SIDED|95.0|-28.7|-1.26|||t-test, 2 sided||Negative values suggest shorter emptying time post-treatment.|||-1.26|-28.7|0.034
82461223|NCT01323582|164624732|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.32|STANDARD_ERROR_OF_MEAN|1.98||0.015|TWO_SIDED|95.0|-9.48|-1.16|||t-test, 2 sided||Lower scores are favorable.|||-1.16|-9.48|0.015
82461224|NCT01323582|164624733|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.4|STANDARD_ERROR_OF_MEAN|2.2||0.0083|TWO_SIDED|95.0|-10.97|-1.83|||t-test, 2 sided||Lower scores are favorable.|||-1.83|-10.97|0.0083
82461225|NCT00988832|164624734|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82461226|NCT00988832|164624735|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANOVA|||||||0.0004
82461227|NCT00988832|164624736|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||ANOVA|||||||0.0041
82461228|NCT00988832|164624737|SUPERIORITY_OR_OTHER|||||||0.0423||95.0|||||ANOVA|||||||0.0423
82461229|NCT00988832|164624738|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANOVA|||||||0.0006
82461230|NCT00988832|164624739|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||ANOVA|||||||0.0014
82461231|NCT00988832|164624741|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||||||<0.0001
82578373|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-cT connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.12
82461232|NCT03155724|164624769|SUPERIORITY||||||<|0.0001|||||||Exact, binomial, one-sided|||The primary endpoint 1 hypothesis was evaluated by performing an exact, binomial test comparing the binomial proportion of 'improved' patients to 3.0% with power of 80% and type 1 error (alpha) of 0.0224. A pre-planned interim analysis at 45 patients required a type 1 error (alpha) of 0.0026 to demonstrate significance.||||<0.0001
82461233|NCT00525512|164624773|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.13||||0.1062||95.0|0.97|1.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.32|0.97|0.1062
82461234|NCT00525512|164624774|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.12||||0.008||95.0|1.03|1.23||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.23|1.03|0.008
82461235|NCT00525512|164624775|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.1||||0.0597||95.0|1.0|1.21||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.21|1.00|0.0597
82461236|NCT00525512|164624776|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.15||||0.0131||95.0|1.03|1.29||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.29|1.03|0.0131
82461237|NCT00525512|164624777|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.18||||0.0041||95.0|1.05|1.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.32|1.05|0.0041
82650123|NCT04229303|165015337|OTHER||Slope|2.67|||<|0.0001|TWO_SIDED|90.0|2.081|3.429|||ANOVA|||Statistics for Voriconazole Cmax Day 10||3.429|2.081|<0.0001
82650124|NCT04229303|165015337|OTHER||Slope|5.97|||<|0.0001|TWO_SIDED|90.0|4.647|7.658|||ANOVA|||Statistics for Voriconazole Cmax Day 10||7.658|4.647|<0.0001
82542826|NCT01149369|164785403|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.01||||0.94|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.94
82542827|NCT01149369|164785404|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.73|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.73
82542828|NCT01149369|164785405|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.22
82542829|NCT01149369|164785406|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.06|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||||0.0|-0.6|0.06
82542830|NCT01149369|164785407|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.24|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.24
82542831|NCT01149369|164785408|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.01|TWO_SIDED|95.0|-0.7|-0.1|||ANCOVA|||||-0.1|-0.7|0.01
82578374|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.69||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in cM-cT connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.69
82578375|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.14||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in cM-cT connectivity induced by active versus sham rTMS.||||0.14
82650125|NCT04229303|165015337|OTHER||Slope|2.02|||<|0.0001|TWO_SIDED|90.0|1.688|2.406|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 1||2.406|1.688|<0.0001
82461238|NCT00525512|164624778|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.11||||0.0945||95.0|0.98|1.26||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.26|0.98|0.0945
82542832|NCT01149369|164785409|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.22|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.22
82542833|NCT01149369|164785410|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.03||||0.51|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.51
82542834|NCT01149369|164785411|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.12|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||||0.1|-0.5|0.12
82542835|NCT01149369|164785412|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|||||-0.1|-0.6|0.02
82542836|NCT01149369|164785413|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.3||||0.17|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||||0.7|-0.1|0.17
82542837|NCT01149369|164785414|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.6||||0.59|TWO_SIDED|95.0|-7.0|12.2|||ANCOVA|||||12.2|-7.0|0.59
82542838|NCT01149369|164785415|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.1||||0.61|TWO_SIDED|95.0|-5.9|10.0|||ANCOVA|||||10.0|-5.9|0.61
82542839|NCT01149369|164785416|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.23|TWO_SIDED|95.0|-0.1|0.2|||ANCOVA|||||0.2|-0.1|0.23
82542840|NCT01149369|164785417|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.97|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||||0.5|-0.5|0.97
82542841|NCT01149369|164785418|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|3.1||||0.77|TWO_SIDED|95.0|-18.0|24.2|||ANCOVA|||||24.2|-18.0|0.77
82650126|NCT04229303|165015337|OTHER||Slope|4.73|||<|0.0001|TWO_SIDED|90.0|3.964|5.65|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 1||5.650|3.964|<0.0001
82461239|NCT00525512|164624779|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.12||||0.0899||95.0|0.98|1.28||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.28|0.98|0.0899
82461240|NCT00525512|164624780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|||<|0.0001||95.0|0.073|0.16||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.160|0.073|<0.0001
82461241|NCT00525512|164624781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082||||0.0005||95.0|0.036|0.128||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.128|0.036|0.0005
82461242|NCT00525512|164624782|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089||||0.0003||95.0|0.041|0.137||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.137|0.041|0.0003
82461243|NCT00525512|164624783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|||<|0.0001||95.0|0.058|0.153||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.153|0.058|<0.0001
82461244|NCT00525512|164624784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0005||95.0|0.04|0.141||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.141|0.040|0.0005
82461245|NCT00525512|164624785|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.094||||0.0002||95.0|0.045|0.144||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.144|0.045|0.0002
82461246|NCT00525512|164624786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075||||0.0059||95.0|0.022|0.128||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.128|0.022|0.0059
82461247|NCT00525512|164624787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|||<|0.0001||95.0|0.11|0.198||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.198|0.110|<0.0001
82461248|NCT00525512|164624788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|||<|0.0001||95.0|0.117|0.208||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.208|0.117|<0.0001
82461249|NCT00525512|164624789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|||<|0.0001||95.0|0.099|0.192||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.192|0.099|<0.0001
82650127|NCT04229303|165015337|OTHER||Slope|2.12|||<|0.0001|TWO_SIDED|90.0|1.655|2.711|||ANOVA|||Statistics for N-oxide Voriconazole Cmax Day 10||2.711|1.655|<0.0001
82461250|NCT00525512|164624790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|||<|0.0001||95.0|0.077|0.176||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.176|0.077|<0.0001
82461251|NCT00525512|164624791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||<|0.0001||95.0|0.083|0.185||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.185|0.083|<0.0001
82461252|NCT00525512|164624792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|||<|0.0001||95.0|0.097|0.202||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.202|0.097|<0.0001
82461253|NCT00525512|164624793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.0001||95.0|0.077|0.183||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.183|0.077|<0.0001
82461254|NCT00525512|164624794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|||<|0.0001||95.0|0.127|0.307||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.307|0.127|<0.0001
82461255|NCT00525512|164624795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157||||0.0019||95.0|0.058|0.255||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.255|0.058|0.0019
82461256|NCT00525512|164624796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.0006||95.0|0.078|0.286||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.286|0.078|0.0006
82461257|NCT00525512|164624797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|||<|0.0001||95.0|0.13|0.339||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.339|0.130|<0.0001
82461258|NCT00525512|164624798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161||||0.009||95.0|0.04|0.281||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.281|0.040|0.009
82461259|NCT00525512|164624799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212||||0.0002||95.0|0.102|0.322||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.322|0.102|0.0002
82461260|NCT00525512|164624800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|||<|0.0001||95.0|0.128|0.355||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.355|0.128|<0.0001
82461261|NCT00525512|164624801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.277|||<|0.0001||95.0|0.179|0.375||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.375|0.179|<0.0001
82461262|NCT00525512|164624802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.325|||<|0.0001||95.0|0.226|0.425||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.425|0.226|<0.0001
82461263|NCT00525512|164624803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353|||<|0.0001||95.0|0.245|0.461||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.461|0.245|<0.0001
82461264|NCT00525512|164624804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.259|||<|0.0001||95.0|0.154|0.365||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.365|0.154|<0.0001
82461265|NCT00525512|164624805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.0001||95.0|0.194|0.406||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.406|0.194|<0.0001
82650128|NCT04229303|165015337|OTHER||Slope|4.01|||<|0.0001|TWO_SIDED|90.0|3.135|5.135|||ANOVA|||Statistics for N-oxide Voriconazole Cmax day 10||5.135|3.135|<0.0001
82650129|NCT04229303|165015358|OTHER||Geometric mean ratio|0.13|||||TWO_SIDED|90.0|0.107|0.146||||||Part 3 - ZP-059 20mg: Oral Voriconazole (200mg VFEND)||0.146|0.107|
82650130|NCT04229303|165015358|OTHER||Geometric mean ratio|2.1|||||TWO_SIDED|90.0|1.545|2.853||||||ZP-059 20mg: Part 3 / Part 1||2.853|1.545|
82650131|NCT04229303|165015358|OTHER||Geometric mean ratio|2.63|||||TWO_SIDED|90.0|1.953|3.544||||||ZP-059 20mg: Part 3 / Part 2 Day 1||3.544|1.953|
82578376|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.12||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cM connectivity during active rTMS (post-rTMS versus pre-rTMS).||||0.12
82578377|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.6||||||The threshold for statistical significance was p \< 0.0076.|Wilcoxon signed rank test|||Within-group analysis of change in iM-cM connectivity during sham rTMS (post-rTMS versus pre-rTMS).||||0.60
82461266|NCT00525512|164624806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|||<|0.0001||95.0|0.144|0.364||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.364|0.144|<0.0001
82461267|NCT00525512|164624807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|||<|0.0001||95.0|0.209|0.456||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.456|0.209|<0.0001
82461268|NCT00525512|164624808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.1131||95.0|-0.72|0.08||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.08|-0.72|0.1131
82461269|NCT00525512|164624809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.9071||95.0|-0.38|0.33||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.33|-0.38|0.9071
82461270|NCT00525512|164624810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.6878||95.0|-0.35|0.53||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||0.53|-0.35|0.6878
82461271|NCT00525512|164624811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||||95.0|-2.39|3.11||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.11|-2.39|
82461272|NCT00525512|164624812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||||95.0|-2.66|3.31||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.31|-2.66|
82461273|NCT00525512|164624813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||||95.0|-2.91|3.58||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.58|-2.91|
82461274|NCT00525512|164624814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||||95.0|-2.97|3.43||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.43|-2.97|
82461275|NCT00525512|164624815|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||||95.0|-3.02|3.46||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.46|-3.02|
82542842|NCT01149369|164785419|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.46|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.46
82542843|NCT01149369|164785420|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.44|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||||0.4|-0.2|0.44
82650132|NCT04229303|165015358|OTHER||Geometric mean ratio|1.87|||||TWO_SIDED|90.0|1.386|2.52||||||ZP-059 20mg: Part 3 / Part 2 Day 10||2.520|1.386|
82650133|NCT04229303|165015359|OTHER||Geometric mean ratio|0.07|||||TWO_SIDED|90.0|0.059|0.075||||||Part 3 ZP-059 20mg: Oral Voriconazole (200mg VFEND®)||0.075|0.059|
82650134|NCT04229303|165015359|OTHER||Geometric mean ratio|1.27|||||TWO_SIDED|90.0|0.85|1.891||||||ZP-059 20mg: Part 3 / Part 1||1.891|0.850|
82461276|NCT00525512|164624816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||||95.0|-3.1|3.41||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.41|-3.10|
82461277|NCT00525512|164624817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||||95.0|-3.22|3.55||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.55|-3.22|
82461278|NCT00525512|164624818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||||95.0|-2.78|3.52||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.52|-2.78|
82461279|NCT00525512|164624819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||||95.0|-3.05|3.51||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.51|-3.05|
82461280|NCT00525512|164624820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||||95.0|-3.4|3.55||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.55|-3.40|
82461281|NCT00525512|164624821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||||95.0|-3.61|3.92||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.92|-3.61|
82461282|NCT00525512|164624822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||||95.0|-3.53|3.9||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.90|-3.53|
82461283|NCT00525512|164624823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||||95.0|-3.36|3.71||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.71|-3.36|
82461284|NCT00525512|164624824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||||95.0|-3.82|3.96||Based on a MMRM analysis with terms for treatment, centre and baseline.||||||3.96|-3.82|
82542844|NCT01149369|164785421|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.77|TWO_SIDED|95.0|-0.7|0.9|||ANCOVA|||||0.9|-0.7|0.77
82542845|NCT01149369|164785422|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.8|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||||0.5|-0.6|0.80
82542846|NCT01149369|164785423|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.88|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.88
82578378|NCT04325282|164865881|OTHER|Given the multiple ROIs investigated, we adjusted significance thresholds using principal component analysis, which accounts for the effective number of independent tests. This method is suitable when data in each comparison are not completely independent, as is the case with EEG where signal represents summated activity from multiple regions.||||||0.04||||||The threshold for statistical significance was p \< 0.0071.|Wilcoxon signed rank test|||Between-group analysis of change in iM-cM connectivity induced by active versus sham rTMS.||||0.04
82578379|NCT04020185|164865898|OTHER||maximum tolerated dose (monotherapy)|1200.0|||||TWO_SIDED|||||||||||||
82578380|NCT00527787|164865908|SUPERIORITY_OR_OTHER||proportions|4.1||||0.001|TWO_SIDED|95.0|1.9|7.7|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjetcs developing gastric ulcers throughout 6 months of study treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 6 months. The cumulative proportion of subjects developing gastric ulcers at 6 months was analyzed using the CMH test stratified by use of low-dose aspirin (Yes/No) at randomization.||7.7|1.9|0.001
82578381|NCT00527787|164865909|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82578382|NCT00527787|164865910|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82578383|NCT00527787|164865911|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Cochran-Mantel-Haenszel|||||||0.003
82578384|NCT00527787|164865912|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82578385|NCT02783027|164865926|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|Two sample t-test on the change in sleep quality from baseline to 4 months.||||||0.76
82650135|NCT04229303|165015359|OTHER||Geometric mean ratio|2.63|||||TWO_SIDED|90.0|1.953|3.544||||||ZP-059 20mg: Part 3 / Part 2 Day 1||3.544|1.953|
82461285|NCT00525512|164624825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03||||0.0072||95.0|-6.97|-1.1||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-1.10|-6.97|0.0072
82578386|NCT02783027|164865927|SUPERIORITY||||||<|0.0001||||||Test for group\*time interaction.|Mixed Models Analysis|||||||<0.0001
82578387|NCT02783027|164865928|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Test for group\*time interaction.||||||<0.0001
82578388|NCT02783027|164865929|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Test for group\*time interaction.||||||<0.0001
82578389|NCT02783027|164865930|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|Two sample t-test for change in Occupational Fatigue Exhaustion Recovery (OFER) inter-shift recovery between groups||||||0.91
82578390|NCT04833127|164865931|EQUIVALENCE|Null hypothesis: no difference between the groups|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.56|1.8||generalized linear models (GLM) and generalized estimating equations (GEE) for clustering within recruitment chain|GLM (logit link) with GEE|||||1.80|0.56|1.0
82578391|NCT04833127|164865931|EQUIVALENCE|Null H: No difference between the groups|Odds Ratio (OR)|1.13||||0.69|TWO_SIDED|95.0|0.62|2.07||GLM with GEE to account for clustering by recruitment chain.|GLM (logit link) with GEE|Adjusted for age, education, if has a main male partner, which differed between the two groups at baseline.||||2.07|0.62|0.69
82578392|NCT04833127|164865932|EQUIVALENCE|Null hypothesis: No difference between the groups.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.35|2.85|||GLM with GEE|GLM with GEE accounting for clustering by recruitment chain||||2.85|0.35|1.00
82578393|NCT04833127|164865932|EQUIVALENCE|Null H: No difference between the 2 groups|Odds Ratio (OR)|0.95||||0.927|TWO_SIDED|95.0|0.31|2.9||GLM (logit link) with GEE to account for clustering by recruitment chain|GLM (logit link) with GEE|adjusted for baseline differences in age, educational status, and whether has a primary male partner.||||2.90|0.31|0.927
82578394|NCT04833127|164865933|EQUIVALENCE|Null Hypothesis: No difference between the groups|Odds Ratio (OR)|1.72||||0.215|TWO_SIDED|95.0|0.73|4.04|||GLM (logit link) with GEE|Used GEE to account for clustering by recruitment chain.||||4.04|0.73|0.215
82578395|NCT04833127|164865933|EQUIVALENCE|Null hypothesis: No difference between the groups|Odds Ratio (OR)|1.64||||0.295|TWO_SIDED|95.0|0.65|4.13|||GLM (logit link) with GEE|GEE used to account for clustering by recruitment chain|adjusted for baseline differences in age, education, and whether has a main male partner.|||4.13|0.65|0.295
82578396|NCT01145898|164866019|SUPERIORITY_OR_OTHER|||||||0.6261||95.0|||||ANCOVA|||There will be (as shown) differences in the number of subjects based upon the time of analysis due to patient loss, data of insufficient quality at visit, or change in the drug use during period of study (patient switched off treatment by their doctor) so the number of data points varies throughout the analysis by availability.||||.6261
82578397|NCT01145898|164866020|SUPERIORITY_OR_OTHER|||||||0.6081||95.0|||||ANCOVA|||||||.6081
82578398|NCT01145898|164866021|SUPERIORITY_OR_OTHER|||||||0.1822||95.0|||||ANCOVA|||||||.1822
82578399|NCT01145898|164866022|SUPERIORITY_OR_OTHER|||||||0.2383||95.0|||||ANCOVA|||||||.2383
82578400|NCT01145898|164866023|SUPERIORITY_OR_OTHER|||||||0.2383||95.0|||||ANCOVA|||||||.2383
82578401|NCT01145898|164866024|SUPERIORITY_OR_OTHER|||||||0.1564||95.0|||||ANCOVA|||||||.1564
82578402|NCT01145898|164866025|SUPERIORITY_OR_OTHER|||||||0.2265||95.0|||||ANCOVA|||||||.2265
82578403|NCT01145898|164866026|SUPERIORITY_OR_OTHER|||||||0.4645||95.0|||||ANCOVA|||||||.4645
82578404|NCT01145898|164866027|SUPERIORITY_OR_OTHER|||||||0.5998||95.0|||||ANCOVA|||||||.5998
82578405|NCT01145898|164866028|SUPERIORITY_OR_OTHER|||||||0.8119||95.0|||||ANCOVA|||||||.8119
82578406|NCT01145898|164866029|SUPERIORITY_OR_OTHER|||||||0.1319||95.0|||||ANCOVA|||||||.1319
82578407|NCT01145898|164866030|SUPERIORITY_OR_OTHER|||||||0.0199||95.0|||||ANCOVA|||||||.0199
82578408|NCT01145898|164866031|SUPERIORITY_OR_OTHER|||||||0.7597||95.0|||||ANCOVA|||||||.7597
82578409|NCT01145898|164866032|SUPERIORITY_OR_OTHER|||||||0.2528||95.0|||||ANCOVA|||||||.2528
82578410|NCT01712061|164866033|SUPERIORITY_OR_OTHER||Ratio of geometric mean changes|0.92|||||TWO_SIDED|95.0|0.75|1.09|||ANCOVA|Bayesian ANCOVA with covariates for baseline UACR and systolic blood pressure (SBP).||||1.09|0.75|
82650136|NCT04229303|165015359|OTHER||Geometric mean ratio|1.87|||||TWO_SIDED|90.0|1.386|2.52||||||ZP-059 20mg: Part 3 / Part 2 Day 10||2.520|1.386|
82650137|NCT02763579|165015360|SUPERIORITY||Stratified Hazard Ratio|0.77||||0.017|TWO_SIDED|95.0|0.62|0.96|||Log Rank|||||0.96|0.62|0.0170
82650138|NCT02763579|165015361|SUPERIORITY||Stratified Hazard Ratio|0.7||||0.0069|TWO_SIDED|95.0|0.54|0.91|||Log Rank|||||0.91|0.54|0.0069
82650139|NCT02763579|165015362|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.37||||||||1.37|0.55|
82461286|NCT00525512|164624826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.2029||95.0|-5.91|1.26||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||1.26|-5.91|0.2029
82461287|NCT00525512|164624827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.58||||0.0313||95.0|-6.84|-0.32||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-0.32|-6.84|0.0313
82461288|NCT00525512|164624828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.94||||0.0001||95.0|-13.37|-4.52||Based on a MMRM analysis with terms for treatment, centre and baseline.|Mixed Models Analysis|||||-4.52|-13.37|0.0001
82461289|NCT00525512|164624829|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.94||||0.6541||95.0|0.719|1.23||Based on a MMRM analysis with terms for treatment, centre and baseline.|Regression, Cox|||||1.230|0.719|0.6541
82461290|NCT00525512|164624830|SUPERIORITY_OR_OTHER||Adjusted mean ratio|1.06||||0.4443||95.0|0.91|1.25||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||1.25|0.91|0.4443
82461291|NCT00525512|164624831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.8644||95.0|-0.05|0.06||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.06|-0.05|0.8644
82461292|NCT00525512|164624832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.4277||95.0|-0.07|0.17||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.17|-0.07|0.4277
82461293|NCT00525512|164624833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.7071||95.0|-3.81|2.59||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||2.59|-3.81|0.7071
82461294|NCT00525512|164624834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.6556||95.0|-3.03|4.81||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||4.81|-3.03|0.6556
82461295|NCT00525512|164624835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.9896||95.0|-3.44|3.48||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||3.48|-3.44|0.9896
82542847|NCT01149369|164785424|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-10.9||||0.17|TWO_SIDED|95.0|-26.5|4.7|||ANCOVA|||||4.7|-26.5|0.17
82650140|NCT02763579|165015363|SUPERIORITY||Hazard Ratio (HR)|0.715||||0.0063|TWO_SIDED|95.0|0.562|0.911|||Log Rank|||||0.911|0.562|0.0063
82461296|NCT00525512|164624836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33||||0.0807||95.0|-9.19|0.53||Based on a ANCOVA analysis with terms for treatment, centre and baseline.|ANCOVA|||||0.53|-9.19|0.0807
82461297|NCT05893862|164624847|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|9.22|||<|0.0001|TWO_SIDED|90.0|7.4|11.04|||t-test, 1 sided|||||11.04|7.40|<0.0001
82461298|NCT05893862|164624847|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|8.44||||0.0141|TWO_SIDED|90.0|6.31|10.56|||t-test, 1 sided|||||10.56|6.31|0.0141
82461299|NCT05893862|164624847|OTHER|LS Mean Difference 3 Hr|LS Mean Difference|10.8|||<|0.0001|TWO_SIDED|90.0|8.85|12.74|||t-test, 1 sided|||||12.74|8.85|<0.0001
82461300|NCT05893862|164624847|OTHER|LS Mean Difference Week 4 Hr|LS Mean Difference|6.43||||0.1045|TWO_SIDED|90.0|3.96|8.91|||t-test, 1 sided|||||8.91|3.96|0.1045
82461301|NCT05893862|164624847|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|6.52|||||TWO_SIDED|90.0|4.66|8.38||||||||8.38|4.66|
82461302|NCT05893862|164624847|OTHER|LS Mean Difference 11 Hr|LS Mean Difference|7.33||||||90.0|4.74|9.93||||||||9.93|4.74|
82461303|NCT05893862|164624847|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|6.42|||||TWO_SIDED|90.0|3.95|8.88||||||||8.88|3.95|
82461304|NCT05893862|164624847|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|2.79|||||TWO_SIDED|90.0|0.81|4.76||||||||4.76|0.81|
82461305|NCT05893862|164624850|OTHER|LS Mean Difference 0.5 Hr|LS Mean Difference|0.52|||||TWO_SIDED|90.0|-1.11|2.14||||||||2.14|-1.11|
82461306|NCT05893862|164624850|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|0.36|||||TWO_SIDED|90.0|-1.26|1.98||||||||1.98|-1.26|
82461307|NCT05893862|164624850|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|1.31|||||TWO_SIDED|90.0|-1.04|3.66||||||||3.66|-1.04|
82461308|NCT05893862|164624850|OTHER|LS Mean Difference 3 hr|LS Mean Difference|4.27|||||TWO_SIDED|90.0|1.9|6.64||||||||6.64|1.90|
82461309|NCT05893862|164624850|OTHER|LS Mean Difference 4 Hr|LS Mean Difference|7.0|||||TWO_SIDED|90.0|4.35|9.64||||||||9.64|4.35|
82542848|NCT01149369|164785425|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.07|TWO_SIDED|95.0|-1.5|0.0|||ANCOVA|||||0.0|-1.5|0.07
82650141|NCT02763579|165015364|SUPERIORITY||Difference in Event Free Rate|8.47||||0.0593|TWO_SIDED|95.0|-0.33|17.27|||Z-test|||PFS Rate at 6 months||17.27|-0.33|0.0593
82461310|NCT05893862|164624850|OTHER|LS Mean Difference 6 Hr|LS Mean Difference|7.85|||||TWO_SIDED|90.0|4.35|9.64||||||||9.64|4.35|
82461311|NCT05893862|164624850|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|9.25|||||TWO_SIDED|90.0|6.71|11.8||||||||11.80|6.71|
82461312|NCT05893862|164624850|OTHER|LS Mean Difference 12 Hr|LS Mean Difference|4.81|||||TWO_SIDED|90.0|2.27|7.35||||||||7.35|2.27|
82461313|NCT05893862|164624850|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|3.57|||||TWO_SIDED|90.0|0.91|6.23||||||||6.23|0.91|
82461314|NCT05893862|164624850|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|5.01|||||TWO_SIDED|90.0|3.18|6.85||||||||6.85|3.18|
82461315|NCT05893862|164624850|OTHER|LS Mean Difference 1 Hr|LS Mean Difference|3.95|||||TWO_SIDED|90.0|1.56|6.34||||||||6.34|1.56|
82461316|NCT05893862|164624850|OTHER|LS Mean Difference 2 Hr|LS Mean Difference|3.92|||||TWO_SIDED|90.0|1.49|6.35||||||||6.35|1.49|
82461317|NCT05893862|164624850|OTHER|LS Mean Difference 3 Hr|LS Mean Difference|4.68|||||TWO_SIDED|90.0|2.33|7.03||||||||7.03|2.33|
82461318|NCT05893862|164624850|OTHER|LS Mean Difference 4 Hr|LS Mean Difference|4.79|||||TWO_SIDED|90.0|2.45|7.12||||||||7.12|2.45|
82461319|NCT05893862|164624850|OTHER|LS Mean Difference 8 Hr|LS Mean Difference|4.82|||||TWO_SIDED|90.0|1.93|7.71||||||||7.71|1.93|
82461320|NCT05893862|164624850|OTHER|LS Mean Difference 11 Hr|LS Mean Difference|5.3|||||TWO_SIDED|90.0|2.51|8.09||||||||8.09|2.51|
82461321|NCT05893862|164624850|OTHER|LS Mean Difference 14 Hr|LS Mean Difference|5.85|||||TWO_SIDED|90.0|2.97|8.74||||||||8.74|2.97|
82461322|NCT05893862|164624850|OTHER|LS Mean Difference 16 Hr|LS Mean Difference|4.12|||||TWO_SIDED|90.0|1.79|6.45||||||||6.45|1.79|
82650142|NCT02763579|165015364|SUPERIORITY||Difference in Event Free Rate|7.27||||0.0133|TWO_SIDED|95.0|1.52|13.02|||Z-test|||PFS Rate at 1 year||13.02|1.52|0.0133
82461323|NCT05893862|164624850|OTHER|LS Mean Difference 24 Hr|LS Mean Difference|0.78|||||TWO_SIDED|90.0|-1.69|3.26||||||||3.26|-1.69|
82461324|NCT02919761|164624857|OTHER||||||=|0.242||||||At Week 4|One-sample binomial test|||||||=0.242
82461325|NCT02919761|164624857|OTHER||||||<|0.0001||||||At Week 8|One-sample binomial test|||||||<0.0001
82461326|NCT02919761|164624857|OTHER||||||<|0.0001|||||||One-sample binomial test|||||||<0.0001
82461327|NCT02919761|164624858|OTHER||||||=|0.313||||||Comparison at Week 12|Pearson's Chi-square test|||||||=0.313
82461328|NCT02919761|164624858|OTHER||||||=|0.439||||||Comparison at Week 16|Pearson's Chi-square test|||||||=0.439
82542849|NCT01149369|164785426|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.3||||0.53|TWO_SIDED|95.0|-0.7|1.3|||ANCOVA|||||1.3|-0.7|0.53
82542850|NCT01149369|164785427|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.93|TWO_SIDED|95.0|-0.9|1.0|||ANCOVA|||||1.0|-0.9|0.93
82578411|NCT04145700|164866077|SUPERIORITY||Posterior Mean Hazard Ratio|2.62||||0.051|TWO_SIDED|80.0|1.19|4.46|||Bayesian hierarchical model|||To conclude success for the intervention, the Bayesian analysis must yield a minimum of 99% posterior probability for PFS Hazard ratio less than 1 \[i.e., Pr(HR \< 1) \> 99%\]. The Bayesian analyses below include posterior mean of Hazard ratio, posterior probabilities instead of p-values, and credible intervals instead of confidence intervals.||4.46|1.19|0.051
82578412|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.86||||0.0648|TWO_SIDED|95.0|0.75|0.99||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H11: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 300 mg dose group is greater than or equal to the hazard rate of the placebo group||0.99|0.75|0.0648
82578413|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.85||||0.0241|TWO_SIDED|95.0|0.74|0.98||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H21: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 150 mg dose group is greater than or equal to the hazard rate of the placebo group||0.98|0.74|0.0241
82650143|NCT02763579|165015365|SUPERIORITY||Difference in Event Free Rate|13.46||||0.0095|TWO_SIDED|95.0|3.29|23.64|||Z-test|||OS Rate at 1 year||23.64|3.29|0.0095
82461329|NCT02919761|164624858|OTHER||||||=|0.028||||||Comparison at Week 20|Pearson's Chi-square test|||||||=0.028
82461330|NCT02919761|164624858|OTHER||||||=|0.019||||||Comparison at Week 24|Pearson's Chi-square test|||||||=0.019
82461331|NCT00904943|164624871|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|104.27|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Mean falls within 80-125.|||||
82461332|NCT00904943|164624872|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|102.35|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Least Squares Mean falls within 80-125.|||||
82461333|NCT00904943|164624873|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|103.66|||||TWO_SIDED||||||||Bioequivalence is established when Ratio of the Least Squares Mean falls within 80-125.|||||
82461334|NCT05546476|164624874|SUPERIORITY||Difference in Posterior Median|1.33|||||TWO_SIDED|90.0|0.49|2.34||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||2.34|0.49|
82461335|NCT05546476|164624874|SUPERIORITY||Difference in Posterior Median|2.08|||||TWO_SIDED|90.0|1.08|3.15||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||3.15|1.08|
82461336|NCT05546476|164624874|SUPERIORITY||Difference in Posterior Median|3.0|||||TWO_SIDED|90.0|1.68|4.34||||||Bayesian Emax model was used for statistical calculation. The posterior medians and 90% credible intervals (5th and 95th percentiles of the relevant posterior distribution) were reported for differences relative to placebo). No adjustments were made for multiplicity.||4.34|1.68|
82542851|NCT01149369|164785428|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.52|TWO_SIDED|95.0|-1.0|0.2|||ANCOVA|||||0.2|-1.0|0.52
82542852|NCT01149369|164785429|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.76|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.1|-0.1|0.76
82542853|NCT01149369|164785430|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.45|TWO_SIDED|95.0|-2.0|0.9|||ANCOVA|||||0.9|-2.0|0.45
82542854|NCT01149369|164785431|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.0||||0.18|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||||0.1|0.0|0.18
82650144|NCT02763579|165015366|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.221||||0.3604|TWO_SIDED|95.0|0.795|1.874|||Log Rank|||Cough||1.874|0.795|0.3604
82461337|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|53.36|||=|0.826|TWO_SIDED|90.0|-40.89|147.6|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||147.60|-40.89|=0.8260
82578414|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Cox Proportional Hazard|0.93||||0.1895|TWO_SIDED|95.0|0.8|1.07||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE|H31: The hazard rate of first adjudication committee confirmed MACE in the canakinumab 50 mg dose group is greater than or equal to the hazard rate of the placebo group.||1.07|0.80|0.1895
82578415|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94||||0.572|TWO_SIDED|95.0|0.77|1.16||2-sided unadjusted p-value|Regression, Cox||CV death|||1.16|0.77|0.572
82461338|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|-37.9|||=|0.254|TWO_SIDED|90.0|-132.94|57.14|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||57.14|-132.94|=0.2540
82461339|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|-1.95|||=|0.487|TWO_SIDED|90.0|-101.63|97.73|||MMRM analysis; 1-sided|||Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||97.73|-101.63|=0.4870
82461340|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|37.76|||=|0.0497|TWO_SIDED|90.0|0.07|75.46|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||75.46|0.07|=0.0497
82542855|NCT01149369|164785432|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.1||||0.008|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|||||-0|-0.2|0.008
82542856|NCT01149369|164785433|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||||-0.3|-0.9|0.001
82542857|NCT01149369|164785434|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||||-0.4|-1.2|<0.001
82542858|NCT01149369|164785435|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.13|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.13
82542859|NCT01149369|164785436|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.004|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||||-0.2|-1.2|0.004
82542860|NCT01149369|164785437|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.08|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.08
82542861|NCT01149369|164785438|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.007|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||||-0.1|-0.8|0.007
82542862|NCT01149369|164785439|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.005|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||||-0.2|-1.3|0.005
82578416|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.9||||0.296|TWO_SIDED|95.0|0.73|1.1||2-sided unadjusted p-value|Regression, Cox||CV death|||1.10|0.73|0.296
82578417|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.91||||0.369|TWO_SIDED|95.0|0.73|1.12||2-sided unadjusted p-value|Regression, Cox||CV death|||1.12|0.73|0.369
82542863|NCT01149369|164785440|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.001|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||||-0.3|-1.1|0.001
82542864|NCT01149369|164785441|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8||||0.003|TWO_SIDED|95.0|-2.3|-0.3|||ANCOVA|||||-0.3|-2.3|0.003
82578418|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.84||||0.067|TWO_SIDED|95.0|0.69|1.01||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||1.01|0.69|0.067
82578419|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.76||||0.006|TWO_SIDED|95.0|0.63|0.92||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||0.92|0.63|0.006
82578420|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94||||0.542|TWO_SIDED|95.0|0.78|1.14||2-sided unadjusted p-value|Regression, Cox||MI (fatal and non-fatal)|||1.14|0.78|0.542
82542865|NCT01149369|164785442|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.03|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||||-0.1|-1.0|0.03
82542866|NCT01149369|164785443|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.16|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.16
82542867|NCT01149369|164785444|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.05|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.05
82542868|NCT01149369|164785445|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|0.1||||0.72|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||||0.6|-0.4|0.72
82542869|NCT01149369|164785446|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.8||||0.001|TWO_SIDED|95.0|-1.2|-0.3|||ANCOVA|||||-0.3|-1.2|0.001
82542870|NCT01149369|164785447|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.04|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.04
82542871|NCT01149369|164785448|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.14|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.14
82650145|NCT02763579|165015366|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.058||||0.7712|TWO_SIDED|95.0|0.722|1.553|||Log Rank|||Pain in Chest||1.553|0.722|0.7712
82542872|NCT01149369|164785449|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.07|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||||0.0|-1.0|0.07
82542873|NCT01149369|164785450|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.19|TWO_SIDED|95.0|-0.8|0.2|||ANCOVA|||||0.2|-0.8|0.19
82542874|NCT01149369|164785451|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.04|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||-0.0|-0.9|0.04
82542875|NCT01149369|164785452|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.02|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||||-0.1|-1.0|0.02
82542876|NCT01149369|164785453|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.06|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.06
82542877|NCT01149369|164785454|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.09|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.09
82650146|NCT02763579|165015366|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|1.077||||0.6922|TWO_SIDED|95.0|0.747|1.552|||Log Rank|||Pain in Arm or Shoulder||1.552|0.747|0.6922
82650147|NCT02763579|165015366|SUPERIORITY|Stratified analysis. Stratification factors: Sex (male vs female) and ECOG (0 vs 1).|Hazard Ratio (HR)|0.748||||0.065|TWO_SIDED|95.0|0.549|1.019|||Log Rank|||Dyspnea||1.019|0.549|0.0650
82542878|NCT01149369|164785455|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.17|TWO_SIDED|95.0|-7.0|0.1|||ANCOVA|||||0.1|-7|0.17
82542879|NCT01149369|164785456|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.009|TWO_SIDED|95.0|-1.1|-0.2|||ANCOVA|||||-0.2|-1.1|0.009
82542880|NCT01149369|164785457|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.7||||0.004|TWO_SIDED|95.0|-1.2|-0.2|||ANCOVA|||||-0.2|-1.2|0.004
82542881|NCT01149369|164785458|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.1|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||||0.1|-0.8|0.10
82578421|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.68|1.0|||||MI (non-fatal)|||1.00|0.68|
82650148|NCT02967133|165015373|SUPERIORITY|||||||0.5186|||||||Log Rank|||||||0.5186
82650149|NCT01764854|165015374|SUPERIORITY|||||||0.46|||||||ANCOVA|||AZD1722 in-patient and Placebo in-patient are not included in this analysis since it was only a one week evaluation period and an effect was not expected. Also the size (n=8) of the group was too small to .perform this analysis.||||0.46
82650150|NCT01764854|165015375|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||AZD1722 out-patient and Placebo out-patient were not included in this analysis since stool was only collected in the clinical pharmacology unit of the in-patient groups.||||<0.0001
82461341|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|-4.36|||=|0.5745|TWO_SIDED|90.0|-42.94|34.22|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||34.22|-42.94|=0.5745
82461342|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|49.85|||=|0.0189|TWO_SIDED|90.0|10.62|89.08|||MMRM analysis; 1-sided|||Non-Sedentary Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||89.08|10.62|=0.0189
82461343|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|8.51|||=|0.1302|TWO_SIDED|90.0|-4.0|21.03|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||21.03|-4.00|=0.1302
82542882|NCT01149369|164785459|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.13|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.13
82542883|NCT01149369|164785460|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.01||||0.98|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||||0.4|-0.5|0.98
82542884|NCT01149369|164785461|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.007|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||||0.1|-0.7|0.007
82542885|NCT01149369|164785462|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.06|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||||0.0|-0.9|0.06
82542886|NCT01149369|164785463|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.6||||0.001|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|||||-0.2|-1.0|0.001
82542887|NCT01149369|164785464|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.2||||0.28|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||||0.2|-0.6|0.28
82542888|NCT01149369|164785465|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.5||||0.05|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|||||0.0|-1.0|0.05
82542889|NCT01149369|164785466|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.08|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||||0.1|-0.9|0.08
82542890|NCT01149369|164785467|SUPERIORITY|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.3||||0.53|TWO_SIDED|95.0|-1.1|0.6|||ANCOVA|||||0.6|-1.1|0.53
82650151|NCT04169282|165015419|SUPERIORITY|||||||0.108|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.108
82650152|NCT04169282|165015420|SUPERIORITY|||||||0.003|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.003
82650153|NCT04169282|165015421|SUPERIORITY|||||||0.025|||||||t-test, 1 sided|paired t-test for normally distributed and transformed data or Wilcoxon's Signed Rank test for non-parametric paired data||||||0.025
82461344|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|4.49|||=|0.278|TWO_SIDED|90.0|-8.18|17.16|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||17.16|-8.18|=0.2780
82461345|NCT05546476|164624875|SUPERIORITY||Difference in LS Mean|8.11|||=|0.1529|TWO_SIDED|90.0|-5.01|21.23|||MMRM analysis; 1-sided|||Moderate to Vigorous Physical Activity Time: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||21.23|-5.01|=0.1529
82461346|NCT05546476|164624876|SUPERIORITY||Difference in LS Mean|-130.27|||=|0.5762|TWO_SIDED|90.0|-1257.31|996.77|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||996.77|-1257.31|=0.5762
82461347|NCT05546476|164624876|SUPERIORITY||Difference in LS Mean|724.14|||=|0.1486|TWO_SIDED|90.0|-425.81|1874.09|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1874.09|-425.81|=0.1486
82650154|NCT00322309|165015433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|2.6|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||It was hypothesized that there would be no significant difference between the two treatment groups for benzoylecgonine data collected for Week 11.||||>0.05
82461348|NCT05546476|164624876|SUPERIORITY||Difference in LS Mean|185.62|||=|0.3972|TWO_SIDED|90.0|-997.94|1369.18|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1369.18|-997.94|=0.3972
82461349|NCT05546476|164624877|SUPERIORITY||Difference in LS Mean|1587.26|||=|0.0985|TWO_SIDED|90.0|-443.79|3618.31|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3618.31|-443.79|=0.0985
82461350|NCT05546476|164624877|SUPERIORITY||Difference in LS Mean|-98.54|||=|0.5315|TWO_SIDED|90.0|-2169.67|1972.58|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1972.58|-2169.67|=0.5315
82461351|NCT05546476|164624877|SUPERIORITY||Difference in LS Mean|2203.18|||=|0.0437|TWO_SIDED|90.0|84.51|4321.85|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||4321.85|84.51|=0.0437
82461352|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|0.0|||=|0.5052|TWO_SIDED|90.0|-0.046|0.045|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.045|-0.046|=0.5052
82461353|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|-0.004|||=|0.5599|TWO_SIDED|90.0|-0.05|0.042|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.042|-0.050|=0.5599
82461354|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|0.017|||=|0.277|TWO_SIDED|90.0|-0.03|0.064|||MMRM analysis; 1-sided|||Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.064|-0.030|=0.2770
82461355|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|0.0|||=|0.5047|TWO_SIDED|90.0|-0.071|0.07|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.070|-0.071|=0.5047
82542891|NCT01149369|164785468|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.4||||0.38|TWO_SIDED|95.0|-1.3|0.5|||ANCOVA|||||0.5|-1.3|0.38
82542892|NCT01149369|164785469|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-2.2||||0.09|TWO_SIDED|95.0|-4.7|0.4|||ANCOVA|||||0.4|-4.7|0.09
82461356|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|-0.026|||=|0.7316|TWO_SIDED|90.0|-0.097|0.045|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.045|-0.097|=0.7316
82461357|NCT05546476|164624878|SUPERIORITY||Difference in LS Mean|0.01|||=|0.4145|TWO_SIDED|90.0|-0.063|0.082|||MMRM analysis; 1-sided|||95th Percentile of Gait Speed: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.082|-0.063|=0.4145
82461358|NCT05546476|164624879|SUPERIORITY||Difference in LS Mean|4.24|||=|0.0114|TWO_SIDED|90.0|1.19|7.28|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||7.28|1.19|=0.0114
82578422|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.62|0.92|||||MI (non-fatal)|||0.92|0.62|
82578423|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.78|1.14|||||MI (non-fatal)|||1.14|0.78|
82542893|NCT01149369|164785470|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.8||||0.28|TWO_SIDED|95.0|-5.2|1.5|||ANCOVA|||||1.5|-5.2|0.28
82542894|NCT01149369|164785471|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-1.6||||0.3|TWO_SIDED|95.0|-4.6|1.4|||ANCOVA|||||1.4|-4.6|0.30
82461359|NCT05546476|164624879|SUPERIORITY||Difference in LS Mean|0.64|||=|0.36|TWO_SIDED|90.0|-2.3|3.57|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.57|-2.30|=0.3600
82461360|NCT05546476|164624879|SUPERIORITY||Difference in LS Mean|4.11|||=|0.0138|TWO_SIDED|90.0|1.06|7.17|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||7.17|1.06|=0.0138
82461361|NCT05546476|164624880|SUPERIORITY||Difference in LS Mean|2.35|||=|0.009|TWO_SIDED|90.0|0.72|3.97|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.97|0.72|=0.0090
82461362|NCT05546476|164624880|SUPERIORITY||Difference in LS Mean|0.0|||=|0.4987|TWO_SIDED|90.0|-1.55|1.56|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.56|-1.55|=0.4987
82461363|NCT05546476|164624880|SUPERIORITY||Difference in LS Mean|2.3|||=|0.01|TWO_SIDED|90.0|0.68|3.92|||MMRM analysis; 1-sided|||MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||3.92|0.68|=0.0100
82461364|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.43|||=|0.1912|TWO_SIDED|90.0|-0.38|1.24|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.24|-0.38|=0.1912
82461365|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.46|||=|0.1866|TWO_SIDED|90.0|-0.39|1.3|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.30|-0.39|=0.1866
82461366|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.92|||=|0.0349|TWO_SIDED|90.0|0.09|1.75|||MMRM analysis; 1-sided|||Appetite: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.75|0.09|=0.0349
82461367|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.47|||=|0.8754|TWO_SIDED|90.0|-0.2|1.14|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.14|-0.20|=0.8754
82461368|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.38|||=|0.8205|TWO_SIDED|90.0|-0.31|1.08|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.08|-0.31|=0.8205
82461369|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|-0.17|||=|0.3375|TWO_SIDED|90.0|-0.86|0.51|||MMRM analysis; 1-sided|||Nausea: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||0.51|-0.86|=0.3375
82461370|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.66|||=|0.9138|TWO_SIDED|90.0|-0.14|1.45|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.45|-0.14|=0.9138
82578424|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.8||||0.19|TWO_SIDED|95.0|0.56|1.12||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.12|0.56|0.190
82578425|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.98||||0.912|TWO_SIDED|95.0|0.71|1.35||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.35|0.71|0.912
82650155|NCT00322309|165015434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|6.6|>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||It was hypothesized that means scores for the CGI-O would not differ significantly for these values obtained in the final treatment week, Week 11.||||>0.05
82650156|NCT00322309|165015435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|5.4|>|0.05|TWO_SIDED|||||This analysis involves a between group comparison.|t-test, 2 sided|||It hypothesized that the two treatment groups would not differ significantly with respect to the total HAM-D scores obtained in the final week of the study (Week 11).||||>0.05
82461371|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.64|||=|0.9011|TWO_SIDED|90.0|-0.18|1.46|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.46|-0.18|=0.9011
82461372|NCT05546476|164624881|SUPERIORITY||Difference in LS Mean|0.21|||=|0.6618|TWO_SIDED|90.0|-0.61|1.02|||MMRM analysis; 1-sided|||Physical Fatigue: MMRM model included participant as a random term, and baseline, time (as a factor), baseline-by-time interaction, treatment and treatment-by-time interaction, type of therapy \[platinum or not at randomization +/- 28 days\], and type of cancer as fixed terms, with an unstructured covariance matrix and Kenwood-Roger degrees of freedom.||1.02|-0.61|=0.6618
82461373|NCT00910104|164624890|SUPERIORITY||Hazard Ratio (HR)|8.6|||=|0.001|TWO_SIDED|95.0|2.0|37.3||All P-values were 2-sided. Analyses were performed in SAS 9.1 (SAS Institute, USA) and S-plus 8 (Insightful, USA). P\<0.05 was established as an a priori threshold for statistical significance.|Regression, Cox|||The primary efficacy end-point was time to reversal of cholestasis (direct bilirubin \[DB\]\<=2 mg/dL). Crude (unadjusted) hazard ratios were estimated using proportional hazard regression. Subjects who died, were transplanted, or still on PN at the end of follow-up were censored (Ref: PMID 19661785).||37.3|2.0|=0.001
82461374|NCT00910104|164624890|SUPERIORITY||Hazard Ratio (HR)|17.4||||0.001|TWO_SIDED|95.0|3.7|83.0||All P-values were 2-sided. Analyses were performed in SAS 9.1 (SAS Institute, USA) and S-plus 8 (Insightful, USA). P\<0.05 was established as an a priori threshold for statistical significance.|Regression, Cox|||The primary efficacy end-point was time to reversal of cholestasis (direct bilirubin \[DB\]\<=2 mg/dL). Adjusted hazard ratios were estimated using proportional hazard regression adjusted for baseline covariates (including duration of parenteral nutrition (PN) and baseline DB). Subjects who died, were transplanted, or still on PN at the end of follow-up were censored (Ref: PMID 19661785).||83|3.7|0.001
82461375|NCT00910104|164624890|OTHER||||||<|0.0001|||||||Fisher Exact|||Comparison of proportion with reversal of cholestasis (direct bilirubin \<=2.0 mg/dL).||||<0.0001
82461376|NCT03137654|164624891|SUPERIORITY|||||||0.0078|||||||Linear Mixed Model|||||||.0078
82461377|NCT03137654|164624895|SUPERIORITY|||||||0.393|||||||ANOVA|||||||0.393
82461378|NCT03137654|164624897|SUPERIORITY|||||||0.0344|||||||ANOVA|||||||.0344
82461379|NCT03137654|164624898|SUPERIORITY|||||||0.0344|||||||ANOVA|||||||.0344
82461380|NCT03137654|164624899|SUPERIORITY|||||||0.0365|||||||ANOVA|||||||0.0365
82461381|NCT03137654|164624900|SUPERIORITY|||||||0.212|||||||ANOVA|||||||.212
82461382|NCT03137654|164624901|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82542895|NCT01149369|164785472|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-21.2||||0.4|TWO_SIDED|95.0|-70.5|28.1|||ANCOVA|||||28.1|-70.5|0.40
82461383|NCT03137654|164624902|SUPERIORITY|||||||0.445|||||||ANOVA|||||||.445
82461384|NCT03137654|164624903|SUPERIORITY|||||||0.245|||||||ANOVA|||||||.245
82542896|NCT01149369|164785473|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-4.2||||0.28|TWO_SIDED|95.0|-12.0|3.5|||ANCOVA|||||3.5|-12.0|0.28
82578426|NCT01327846|164866090|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.03||||0.871|TWO_SIDED|95.0|0.74|1.43||2-sided unadjusted p-value|Regression, Cox||Stroke (fatal and non-fatal)|||1.43|0.74|0.871
82650157|NCT00322309|165015436|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|18.0|>|0.05||95.0||||Percent of capsules administered does not differ significantly between the two groups.|t-test, 2 sided|||It was hypothesized that there would be no significant difference in the mean percentage of capsules of those dispensed between the two groups.||||>0.05
82461385|NCT03583099|164624904|SUPERIORITY||Difference in proportion|4.0||||0.47|TWO_SIDED|95.0|-6.9|15.0|||generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.0|-6.9|0.47
82461386|NCT03583099|164624905|SUPERIORITY||Difference in proportion|10.4||||0.05|TWO_SIDED|95.0|0.1|20.7|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||20.7|0.1|0.05
82461387|NCT03583099|164624906|SUPERIORITY||Difference in proportion|1.3||||0.75|TWO_SIDED|95.0|-6.7|9.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.2|-6.7|0.75
82461388|NCT03583099|164624907|SUPERIORITY||Difference in proportion|-2.7||||0.54|TWO_SIDED|95.0|-11.5|6.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||6.1|-11.5|0.54
82461389|NCT03583099|164624908|SUPERIORITY||Difference in proportion|5.1||||0.16|TWO_SIDED|95.0|-2.1|12.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.3|-2.1|0.16
82542897|NCT01149369|164785474|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.4||||0.47|TWO_SIDED|95.0|-4.1|8.9|||ANCOVA|||||8.9|-4.1|0.47
82578427|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.57|1.13|||||Stroke (nonfatal)|||1.13|0.57|
82461390|NCT03583099|164624909|SUPERIORITY||Difference in proportion|-0.6||||0.82|TWO_SIDED|95.0|-6.4|5.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.1|-6.4|0.82
82461391|NCT03583099|164624910|SUPERIORITY||Difference in proportion|-6.3||||0.06|TWO_SIDED|95.0|-13.0|0.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.4|-13.0|0.06
82650158|NCT00322309|165015437|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|8.5|>|0.05||95.0|||||t-test, 2 sided|||It was hypothesized that there would not be a significant difference between the two groups in the mean percent of urines positive for riboflavin.||||>0.05
82461392|NCT03583099|164624911|SUPERIORITY||Difference in proportion|-2.5||||0.68|TWO_SIDED|95.0|-14.5|9.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||9.5|-14.5|0.68
82461393|NCT03583099|164624912|SUPERIORITY||Difference in proportion|13.3||||0.19|TWO_SIDED|95.0|-6.72|33.38|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||33.38|-6.72|0.19
82461394|NCT03583099|164624913|SUPERIORITY||Difference in proportion|0.85||||0.93|TWO_SIDED|95.0|-17.82|19.52|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||19.52|-17.82|0.93
82461395|NCT03583099|164624914|SUPERIORITY||Difference in proportion|6.83||||0.45|TWO_SIDED|95.0|-10.84|24.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||24.50|-10.84|0.45
82461396|NCT03583099|164624915|SUPERIORITY||Difference in proportion|7.6||||0.41|TWO_SIDED|95.0|-10.58|25.78|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.78|-10.58|0.41
82461397|NCT03583099|164624916|SUPERIORITY||Difference in proportion|1.85||||0.81|TWO_SIDED|95.0|-13.17|16.88|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.88|-13.17|0.81
82461398|NCT03583099|164624917|SUPERIORITY||Difference in proportion|8.01||||0.51|TWO_SIDED|95.0|-15.38|31.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||31.40|-15.38|0.51
82461399|NCT03583099|164624918|SUPERIORITY||Difference in proportion|-10.34||||0.41|TWO_SIDED|95.0|-34.78|14.09|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.09|-34.78|0.41
82461400|NCT03583099|164624919|SUPERIORITY||Difference in proportion|-3.94||||0.76|TWO_SIDED|95.0|-31.03|23.16|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||23.16|-31.03|0.76
82461401|NCT03583099|164624920|SUPERIORITY||Difference in proportion|-0.76||||0.95|TWO_SIDED|95.0|-25.36|23.83|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||23.83|-25.36|0.95
82461402|NCT03583099|164624921|SUPERIORITY||Difference in means|-0.32||||0.55|TWO_SIDED|95.0|-2.01|1.36||The p-value is adjusted for baseline CAT score.|Mixed Models Analysis||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.36|-2.01|0.55
82461403|NCT03583099|164624922|SUPERIORITY||Difference in proportion|8.7||||0.05|TWO_SIDED|95.0|-0.1|17.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.4|-0.1|0.05
82542898|NCT01149369|164785475|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.2||||0.68|TWO_SIDED|95.0|-4.5|6.9|||ANCOVA|||||6.9|-4.5|0.68
82652414|NCT00449072|165019533|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.7193|TWO_SIDED|95.0|-0.24|0.17|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Nasal Discharge||0.17|-0.24|0.7193
82461404|NCT03583099|164624923|SUPERIORITY||Difference in proportion|1.81||||0.88|TWO_SIDED|95.0|-21.47|25.08|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.08|-21.47|0.88
82461405|NCT03583099|164624924|SUPERIORITY||Difference in proportion|-5.62||||0.53|TWO_SIDED|95.0|-23.21|11.97|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.97|-23.21|0.53
82461406|NCT03583099|164624925|SUPERIORITY||Difference in proportion|10.68||||0.24|TWO_SIDED|95.0|-7.27|28.63|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education|||28.63|-7.27|0.24
82542899|NCT01149369|164785476|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|2.0||||0.48|TWO_SIDED|95.0|-3.6|7.6|||ANCOVA|||||7.6|-3.6|0.48
82650159|NCT01165684|165015438|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI was below or equal to 0.4% or equivalently if the p-value for the one-sided test of was less than or equal to 2.5%, where D is the mean treatment difference (step-wise regimen minus basal-bolus regimen).|Estimated treatment difference, Mean|0.14||||0.088||95.0|-0.02|0.3|||Regression, Linear|||||0.30|-0.02|0.088
82461407|NCT03583099|164624926|SUPERIORITY||Difference in proportion|-13.55||||0.19|TWO_SIDED|95.0|-33.65|6.55|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.55|-33.65|0.19
82461408|NCT03583099|164624927|SUPERIORITY||Difference in proportion|0.38||||0.95|TWO_SIDED|95.0|-12.5|13.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.27|-12.50|0.95
82461409|NCT03583099|164624928|SUPERIORITY||Difference in proportion|-6.97||||0.14|TWO_SIDED|95.0|-16.12|2.17|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.17|-16.12|0.14
82461410|NCT03583099|164624929|SUPERIORITY||Difference in proportion|-1.06||||0.87|TWO_SIDED|95.0|-13.39|11.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.27|-13.39|0.87
82461411|NCT03583099|164624930|SUPERIORITY||Difference in proportion|-1.8||||0.81|TWO_SIDED|95.0|-15.9|12.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.4|-15.9|0.81
82461412|NCT03583099|164624931|SUPERIORITY||Difference in proportion|2.3||||0.63|TWO_SIDED|95.0|-7.2|11.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.8|-7.2|0.63
82461413|NCT03583099|164624932|SUPERIORITY||Difference in proportion|5.8||||0.17|TWO_SIDED|95.0|-2.5|14.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.2|-2.5|0.17
82461414|NCT03583099|164624933|SUPERIORITY||Difference in proportion|-2.9||||0.58|TWO_SIDED|95.0|-13.0|7.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.3|-13.0|0.58
82461415|NCT03583099|164624934|SUPERIORITY||Difference in proportion|-0.6||||0.89|TWO_SIDED|95.0|-8.3|7.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.1|-8.3|0.89
82461416|NCT03583099|164624935|SUPERIORITY||Difference in proportion|-3.9||||0.16|TWO_SIDED|95.0|-9.2|1.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.5|-9.2|0.16
82461417|NCT03583099|164624936|SUPERIORITY||Difference in proportion|-2.2||||0.62|TWO_SIDED|95.0|-10.9|6.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.5|-10.9|0.62
82461418|NCT03583099|164624937|SUPERIORITY||Difference in proportion|-1.64||||0.84|TWO_SIDED|95.0|-17.27|13.99|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.99|-17.27|0.84
82461419|NCT03583099|164624938|SUPERIORITY||Difference in proportion|6.09||||0.27|TWO_SIDED|95.0|-4.63|16.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.80|-4.63|0.27
82461420|NCT03583099|164624939|SUPERIORITY||Difference in proportion|2.91||||0.55|TWO_SIDED|95.0|-6.59|12.41|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.41|-6.59|0.55
82461421|NCT03583099|164624940|SUPERIORITY||Difference in proportion|2.37||||0.69|TWO_SIDED|95.0|-9.09|13.83|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.83|-9.09|0.69
82461422|NCT03583099|164624941|SUPERIORITY||Difference in proportion|0.36||||0.93|TWO_SIDED|95.0|-8.13|8.85|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.85|-8.13|0.93
82461423|NCT03583099|164624942|SUPERIORITY||Difference in proportion|-4.01||||0.26|TWO_SIDED|95.0|-10.97|2.95|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.95|-10.97|0.26
82461424|NCT03583099|164624943|SUPERIORITY||Difference in proportion|-2.04||||0.74|TWO_SIDED|95.0|-14.28|10.21|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.21|-14.28|0.74
82650160|NCT01165684|165015439|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.55|||<|0.001||95.0|0.42|0.69|||Regression, Linear|||||0.69|0.42|<0.001
82650161|NCT01165684|165015440|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|0.37|||<|0.001||95.0|0.21|0.53|||Regression, Linear|||||0.53|0.21|<0.001
82650162|NCT01165684|165015441|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.85|||<|0.001||95.0|4.12|11.39|||Regression, Logistic|||||11.39|4.12|<0.001
82461425|NCT03583099|164624944|SUPERIORITY||Difference in proportion|0.1||||0.98|TWO_SIDED|95.0|-7.9|8.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.1|-7.9|0.98
82461426|NCT03583099|164624945|SUPERIORITY||Difference in proportion|2.6||||0.46|TWO_SIDED|95.0|-4.3|9.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.6|-4.3|0.46
82461427|NCT03583099|164624946|SUPERIORITY||Difference in proportion|1.5||||0.5|TWO_SIDED|95.0|-3.0|6.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.1|-3.0|0.50
82461428|NCT03583099|164624947|SUPERIORITY||Difference in proportion|-0.2||||0.96|TWO_SIDED|95.0|-6.8|6.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.5|-6.8|0.96
82461429|NCT03583099|164624948|SUPERIORITY||Difference in proportion|2.2||||0.4|TWO_SIDED|95.0|-3.0|7.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.5|-3.0|0.40
82461430|NCT03583099|164624949|SUPERIORITY||Difference in proportion|-0.1||||0.96|TWO_SIDED|95.0|-4.3|4.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.0|-4.3|0.96
82461431|NCT03583099|164624950|SUPERIORITY||Difference in proportion|0.1||||0.98|TWO_SIDED|95.0|-7.9|8.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.1|-7.9|0.98
82461432|NCT03583099|164624951|SUPERIORITY||Difference in proportion|-4.2||||0.46|TWO_SIDED|95.0|-15.2|6.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.8|-15.2|0.46
82461433|NCT03583099|164624952|SUPERIORITY||Difference in proportion|3.9||||0.37|TWO_SIDED|95.0|-4.7|12.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.4|-4.7|0.37
82461434|NCT03583099|164624953|SUPERIORITY||Difference in proportion|-0.8||||0.75|TWO_SIDED|95.0|-6.0|4.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.4|-6.0|0.75
82461435|NCT03583099|164624954|SUPERIORITY||Difference in proportion|-8.7||||0.08|TWO_SIDED|95.0|-18.3|0.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.9|-18.3|0.08
82461436|NCT03583099|164624955|SUPERIORITY||Difference in proportion|-4.8||||0.11|TWO_SIDED|95.0|-10.6|1.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.1|-10.6|0.11
82650163|NCT01165684|165015442|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38|||<|0.001||95.0|1.56|3.64|||Regression, Logistic|||||3.64|1.56|<0.001
82650164|NCT01165684|165015443|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.146||95.0|0.9|2.07|||Regression, Logistic|||||2.07|0.90|0.146
82461437|NCT03583099|164624956|SUPERIORITY||Difference in proportion|0.4||||0.89|TWO_SIDED|95.0|-5.1|5.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.9|-5.1|0.89
82461438|NCT03583099|164624957|SUPERIORITY||Difference in proportion|-8.8||||0.05|TWO_SIDED|95.0|-17.5|0.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-0.0|-17.5|0.05
82461439|NCT03583099|164624958|SUPERIORITY||Difference in proportion|16.76||||0.09|TWO_SIDED|95.0|-2.89|36.42|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||36.42|-2.89|0.09
82461440|NCT03583099|164624959|SUPERIORITY||Difference in proportion|3.7||||0.56|TWO_SIDED|95.0|-8.6|15.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.9|-8.6|0.56
82461441|NCT03583099|164624960|SUPERIORITY||Difference in proportion|10.41||||0.49|TWO_SIDED|95.0|-19.39|40.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||40.20|-19.39|0.49
82461442|NCT03583099|164624961|SUPERIORITY||Difference in proportion|10.8||||0.06|TWO_SIDED|95.0|-0.5|22.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||22.1|-0.5|0.06
82461443|NCT03583099|164624962|SUPERIORITY||Difference in proportion|0.41||||0.94|TWO_SIDED|95.0|-10.97|11.79|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.79|-10.97|0.94
82578428|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.72|1.37|||||Stroke (nonfatal)|||1.37|0.72|
82578429|NCT01327846|164866090|OTHER|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.75|1.45|||||Stroke (nonfatal)|||1.45|0.75|
82650165|NCT01165684|165015446|SUPERIORITY_OR_OTHER||Estimated Mean|0.12||||0.635||95.0|-0.37|0.6|||Regression, Linear|||||0.60|-0.37|0.635
82461444|NCT03583099|164624963|SUPERIORITY||Difference in proportion|2.7||||0.57|TWO_SIDED|95.0|-6.5|11.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.8|-6.5|0.57
82461445|NCT03583099|164624964|SUPERIORITY||Difference in proportion|1.36||||0.89|TWO_SIDED|95.0|-18.01|20.73|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||20.73|-18.01|0.89
82461446|NCT03583099|164624965|SUPERIORITY||Difference in proportion|-2.2||||0.65|TWO_SIDED|95.0|-12.1|7.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.6|-12.1|0.65
82461447|NCT03583099|164624966|SUPERIORITY||Difference in proportion|12.48||||0.16|TWO_SIDED|95.0|-5.0|29.96|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||29.96|-5.00|0.16
82461448|NCT03583099|164624967|SUPERIORITY||Difference in proportion|4.3||||0.29|TWO_SIDED|95.0|-3.6|12.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.2|-3.6|0.29
82461449|NCT03583099|164624968|SUPERIORITY||Difference in proportion|5.28||||0.44|TWO_SIDED|95.0|-8.07|18.62|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||18.62|-8.07|0.44
82461450|NCT03583099|164624969|SUPERIORITY||Difference in proportion|-1.5||||0.62|TWO_SIDED|95.0|-7.6|4.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.5|-7.6|0.62
82461451|NCT03583099|164624970|SUPERIORITY||Difference in proportion|-7.1||||0.39|TWO_SIDED|95.0|-23.18|9.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.0|-23.18|0.39
82461452|NCT03583099|164624971|SUPERIORITY||Difference in proportion|-6.6||||0.08|TWO_SIDED|95.0|-13.9|0.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.8|-13.9|0.08
82461453|NCT03583099|164624972|SUPERIORITY||Difference in proportion|-11.3||||0.23|TWO_SIDED|95.0|-29.06|7.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.00|-29.06|0.23
82542900|NCT01149369|164785477|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.5||||0.43|TWO_SIDED|95.0|-2.2|5.1|||ANCOVA|||||5.1|-2.2|0.43
82461454|NCT03583099|164624973|SUPERIORITY||Difference in means|-1.14||||0.97|TWO_SIDED|95.0|-6.42|4.13||The p-value adjusts for baseline CAT score.|Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.13|-6.42|0.97
82542901|NCT01149369|164785478|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-4.8||||0.01|TWO_SIDED|95.0|-8.5|-1.2|||ANCOVA|||||-1.2|-8.5|0.01
82461455|NCT03583099|164624974|SUPERIORITY||Difference in means|-0.003||||0.47|TWO_SIDED|95.0|-1.86|1.85|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.85|-1.86|0.47
82461456|NCT03583099|164624975|SUPERIORITY||Difference in proportion|17.84||||0.02|TWO_SIDED|95.0|2.34|33.34|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||33.34|2.34|0.02
82461457|NCT03583099|164624976|SUPERIORITY||Difference in proportion|7.8||||0.12|TWO_SIDED|95.0|-2.0|17.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.6|-2.0|0.12
82461458|NCT03583099|164624977|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test. This test is appropriate since only one outcome per practice was seen.||||||1.0
82461459|NCT03583099|164624978|SUPERIORITY||Difference in proportion|2.06||||0.87|TWO_SIDED|95.0|-22.67|26.79|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||26.79|-22.67|0.87
82461460|NCT03583099|164624979|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
82461461|NCT03583099|164624980|SUPERIORITY||Difference in proportion|-5.53||||0.56|TWO_SIDED|95.0|-24.33|13.28|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.28|-24.33|0.56
82461462|NCT03583099|164624981|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
82461463|NCT03583099|164624982|SUPERIORITY||Difference in proportion|12.66||||0.21|TWO_SIDED|95.0|-7.05|32.37|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||32.37|-7.05|0.21
82461464|NCT03583099|164624983|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
82461465|NCT03583099|164624984|SUPERIORITY||Difference in proportion|-18.29||||0.08|TWO_SIDED|95.0|-38.66|2.08|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.08|-38.66|0.08
82461466|NCT03583099|164624985|SUPERIORITY|||||||1|||||||Fisher Exact|The p-value is calculated from a two-sided Fisher's exact test.||||||1.0
82461467|NCT03583099|164624986|SUPERIORITY||Difference in proportion|-0.67||||0.92|TWO_SIDED|95.0|-14.06|12.71|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.71|-14.06|0.92
82461468|NCT03583099|164624988|SUPERIORITY||Difference in proportion|-5.47||||0.29|TWO_SIDED|95.0|-15.72|4.77|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||4.77|-15.72|0.29
82542902|NCT01149369|164785479|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|1.4||||0.57|TWO_SIDED|95.0|-3.4|6.1|||ANCOVA|||||6.1|-3.4|0.57
82542903|NCT01149369|164785480|NON_INFERIORITY_OR_EQUIVALENCE|Mean adjusted change from baseline, 95% confidence limits (CI), and P-values were calculated using ANCOVA, regressing change from baseline to 28 days on treatment group and baseline value of the secondary outcome.|Mean Difference (Net)|-0.84||||0.34|TWO_SIDED|95.0|-2.6|1.0|||ANCOVA|||||1.0|-2.6|0.34
82542904|NCT04532528|164785489|OTHER|No formal hypotheses were tested.||||||0.9701|||||||Chi-squared|||||||0.9701
82461469|NCT03583099|164624990|SUPERIORITY||Difference in proportion|-2.87||||0.69|TWO_SIDED|95.0|-17.14|11.39|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||11.39|-17.14|0.69
82461470|NCT03583099|164624991|SUPERIORITY||Difference in proportion|-13.15||||0.32|TWO_SIDED|95.0|-39.06|12.76|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.76|-39.06|0.32
82461471|NCT03583099|164624992|SUPERIORITY||Difference in proportion|-0.2||||0.98|TWO_SIDED|95.0|-15.5|15.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.0|-15.5|0.98
82542905|NCT04532528|164785490|OTHER|No formal hypotheses were tested.||||||0.7376|||||||Chi-squared|||At 3 months only||||0.7376
82542906|NCT04532528|164785490|OTHER|No formal hypotheses were tested.||||||0.1356|||||||Chi-squared|||At 6 months only||||0.1356
82542907|NCT04532528|164785490|OTHER|No formal hypotheses were tested.||||||0.68|||||||Chi-squared|||At 9 months only||||0.6800
82461472|NCT03583099|164624994|SUPERIORITY||Difference in proportion|3.1||||0.55|TWO_SIDED|95.0|-7.0|13.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.1|-7.0|0.55
82461473|NCT03583099|164624995|SUPERIORITY||Difference in proportion|-8.61||||0.43|TWO_SIDED|95.0|-30.19|12.97|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.97|-30.19|0.43
82461474|NCT03583099|164624996|SUPERIORITY||Difference in proportion|7.6||||0.1|TWO_SIDED|95.0|-1.4|16.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||16.5|-1.4|0.10
82461475|NCT03583099|164624997|SUPERIORITY||Difference in proportion|0.82||||0.94|TWO_SIDED|95.0|-20.92|21.92|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||21.92|-20.92|0.94
82542908|NCT04532528|164785491|OTHER|No formal hypotheses were tested.||||||0.5777|||||||Chi-squared|||At 3 months only||||0.5777
82542909|NCT04532528|164785491|OTHER|No formal hypotheses were tested.||||||0.3313|||||||Chi-squared|||At 6 months only||||0.3313
82461476|NCT03583099|164624998|SUPERIORITY||Difference in proportion|-3.4||||0.55|TWO_SIDED|95.0|-14.4|7.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.6|-14.4|0.55
82461477|NCT03583099|164625000|SUPERIORITY||Difference in proportion|-1.1||||0.8|TWO_SIDED|95.0|-9.3|7.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.1|-9.3|0.80
82542910|NCT04532528|164785491|OTHER|No formal hypotheses was tested.||||||0.5697|||||||Chi-squared|||At 9 months only||||0.5697
82542911|NCT04532528|164785491|OTHER|No formal hypotheses were tested.||||||0.5135|||||||Chi-squared|||At 12 months only||||0.5135
82542912|NCT04532528|164785492|OTHER|No formal hypotheses were tested.||||||0.8509|||||||Chi-squared|||At 3 months only||||0.8509
82542913|NCT04532528|164785492|OTHER|No formal hypotheses were tested.||||||0.3302|||||||Chi-squared|||At 6 months only||||0.3302
82542914|NCT04532528|164785492|OTHER|No formal hypotheses was tested.||||||0.9005|||||||Chi-squared|||At 9 months only||||0.9005
82542915|NCT04532528|164785492|OTHER|No formal hypotheses were tested.||||||0.2789|||||||Chi-squared|||At 12 months only||||0.2789
82542916|NCT04532528|164785493|OTHER|No formal hypotheses were tested.||||||0.667|||||||Wilcoxon (Mann-Whitney)|||At 3 months only||||0.6670
82542917|NCT04532528|164785493|OTHER|||||||0.1285|||||||Wilcoxon (Mann-Whitney)|||At 6 months only||||0.1285
82542918|NCT04532528|164785493|OTHER|No formal hypotheses was tested.||||||0.7151|||||||Wilcoxon (Mann-Whitney)|||At 9 months only||||0.7151
82542919|NCT04532528|164785493|OTHER|No formal hypotheses were tested||||||0.803|||||||Wilcoxon (Mann-Whitney)|||At 12 months only||||0.8030
82542920|NCT00392054|164785508|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.0016|TWO_SIDED|95.0|0.35|0.9||Cox regression analysis, stratified by clinical site, was performed and presented as hazard ratios with 95% confidence intervals and a two-sided p-value testing of less than or equal to 0.05 (two-sided) for the Wald test.|Regression, Cox|||Event rates were plotted over time using Kaplan-Meier methodology. Only events occurring after the 90-day treatment period were included in the final analysis. Treatment groups were analyzed on an intention-to-treat basis.||0.90|0.35|0.0016
82542921|NCT00392054|164785510|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.03|TWO_SIDED|95.0|0.33|0.95|||Regression, Cox|||||0.95|0.33|0.03
82542922|NCT00392054|164785511|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.52||||0.017|TWO_SIDED|95.0|0.3|0.89|||Regression, Cox|||||0.89|0.3|0.017
82542923|NCT00392054|164785512|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.28|0.4|||Regression, Cox|||||0.4|0.28|<0.0001
82578430|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.82||||0.0648|TWO_SIDED|95.0|0.72|0.94||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||0.94|0.72|0.0648
82650166|NCT01165684|165015449|SUPERIORITY_OR_OTHER||Estimated mean|0.36||||0.046||95.0|0.01|0.71|||Regression, Linear|||||0.71|0.01|0.046
82461478|NCT03583099|164625002|SUPERIORITY||Difference in proportion|-3.9||||0.18|TWO_SIDED|95.0|-9.7|1.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.8|-9.7|0.18
82461479|NCT03583099|164625003|SUPERIORITY||Difference in proportion|-0.17||||0.99|TWO_SIDED|95.0|-26.06|25.72|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||25.72|-26.06|0.99
82650167|NCT01165684|165015450|SUPERIORITY_OR_OTHER||Estimated mean|-0.48||||0.228||95.0|-1.25|0.3|||Regression, Linear|||||0.30|-1.25|0.228
82650168|NCT01165684|165015451|SUPERIORITY_OR_OTHER||Estimated mean|-0.17||||0.224||95.0|-0.45|0.11|||Regression, Linear|||||0.11|-0.45|0.224
82461480|NCT03583099|164625004|SUPERIORITY||Difference in proportion|-2.6||||0.59|TWO_SIDED|95.0|-12.0|6.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.8|-12.0|0.59
82461481|NCT03583099|164625006|SUPERIORITY||Difference in proportion|1.9||||0.82|TWO_SIDED|95.0|-14.5|18.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||18.4|-14.5|0.82
82461482|NCT03583099|164625008|SUPERIORITY||Difference in proportion|7.6||||0.2|TWO_SIDED|95.0|-4.1|19.3|||Wilcoxon (Mann-Whitney)||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||19.3|-4.1|0.20
82542924|NCT00392054|164785513|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.66|TWO_SIDED|95.0|0.42|1.72|||Regression, Cox|||||1.72|0.42|0.66
82650169|NCT04549259|165015453|SUPERIORITY||Odds Ratio (OR)|3.23||||0.33|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.33
82652415|NCT00449072|165019533|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09||||0.402|TWO_SIDED|95.0|-0.12|0.29|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Sneezing||0.29|-0.12|0.4020
82652416|NCT00449072|165019533|SUPERIORITY_OR_OTHER||LS mean Difference|-0.02||||0.8854|TWO_SIDED|95.0|-0.23|0.2|||ANCOVA||The treatment arm, sex and age group were fixed effects, and baseline value was a covariate in the ANCOVA model.|Change in Nasal Itching||0.20|-0.23|0.8854
82461483|NCT03583099|164625010|SUPERIORITY||Difference in proportion|4.9||||0.36|TWO_SIDED|95.0|-5.5|15.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||15.3|-5.5|0.36
82461484|NCT03583099|164625012|SUPERIORITY||Difference in proportion|4.6||||0.47|TWO_SIDED|95.0|-7.9|17.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||17.1|-7.9|0.47
82461485|NCT03583099|164625014|SUPERIORITY||Difference in proportion|0.6||||0.88|TWO_SIDED|95.0|-7.8|9.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.0|-7.8|0.88
82542925|NCT02928224|164785520|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542926|NCT02928224|164785521|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542927|NCT02928224|164785522|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82542928|NCT02928224|164785531|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542929|NCT02928224|164785532|OTHER|||||||0.5958|||||||Stratified Log-rank|||||||0.5958
82542930|NCT02928224|164785533|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542931|NCT02928224|164785534|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542932|NCT02928224|164785535|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542933|NCT02928224|164785536|OTHER||||||<|0.0001|||||||Stratified Log-rank|||||||<0.0001
82542934|NCT02928224|164785537|OTHER|||||||0.1004|||||||Stratified Log-rank|||||||0.1004
82578431|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.83||||0.0241|TWO_SIDED|95.0|0.73|0.95||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||0.95|0.73|0.0241
82652417|NCT00449072|165019534|SUPERIORITY_OR_OTHER|||||||0.0951||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 120||||0.0951
82461486|NCT03583099|164625016|SUPERIORITY||Difference in proportion|-4.3||||0.27|TWO_SIDED|95.0|-12.0|3.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.4|-12.0|0.27
82461487|NCT03583099|164625017|SUPERIORITY||Difference in proportion|-4.94||||0.82|TWO_SIDED|95.0|-47.92|38.04|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||38.04|-47.92|0.82
82461488|NCT03583099|164625018|SUPERIORITY||Difference in proportion|-1.1||||0.87|TWO_SIDED|95.0|-14.5|12.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||12.2|-14.5|0.87
82461489|NCT03583099|164625019|SUPERIORITY||Difference in proportion|-37.6||||0.03|TWO_SIDED|95.0|-71.8|-3.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-3.5|-71.8|0.03
82461490|NCT03583099|164625020|SUPERIORITY||Difference in proportion|2.3||||0.56|TWO_SIDED|95.0|-5.6|10.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.3|-5.6|0.56
82461491|NCT03583099|164625021|SUPERIORITY||Difference in proportion|-23.07||||0.06|TWO_SIDED|95.0|-47.4|1.27|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||1.27|-47.40|0.06
82461492|NCT03583099|164625022|SUPERIORITY||Difference in proportion|3.2||||0.39|TWO_SIDED|95.0|-4.0|10.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||10.4|-4.0|0.39
82461493|NCT03583099|164625023|SUPERIORITY||Difference in proportion|-1.72||||0.84|TWO_SIDED|95.0|-18.24|14.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.80|-18.24|0.84
82461494|NCT03583099|164625024|SUPERIORITY||Difference in proportion|2.0||||0.42|TWO_SIDED|95.0|-2.9|6.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.9|-2.9|0.42
82461495|NCT03583099|164625025|SUPERIORITY||Difference in proportion|-42.09||||0.01|TWO_SIDED|95.0|-74.27|-9.92|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-9.92|-74.27|0.01
82461496|NCT03583099|164625026|SUPERIORITY||Difference in proportion|2.4||||0.47|TWO_SIDED|95.0|-4.2|9.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||9.1|-4.2|0.47
82542935|NCT02928224|164785538|OTHER|||||||0.3724|||||||Stratified Log-rank|||||||0.3724
82542936|NCT02928224|164785539|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82652418|NCT00449072|165019534|SUPERIORITY_OR_OTHER|||||||0.1247||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical analysis for Day 240||||0.1247
82461497|NCT03583099|164625027|SUPERIORITY||Difference in proportion|-12.27||||0.34|TWO_SIDED|95.0|-37.72|13.18|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.18|-37.72|0.34
82461498|NCT03583099|164625028|SUPERIORITY||Difference in proportion|2.4||||0.39|TWO_SIDED|95.0|-3.1|7.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.9|-3.1|0.39
82461499|NCT03583099|164625030|SUPERIORITY||Difference in proportion|-1.2||||0.59|TWO_SIDED|95.0|-5.5|3.1|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.1|-5.5|0.59
82461500|NCT03583099|164625032|SUPERIORITY||Difference in proportion|0.3||||0.94|TWO_SIDED|95.0|-8.2|8.8|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.8|-8.2|0.94
82461501|NCT03583099|164625033|SUPERIORITY||Difference in proportion|0.6||||0.93|TWO_SIDED|95.0|-12.2|13.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||13.4|-12.2|0.93
82461502|NCT03583099|164625034|SUPERIORITY||Difference in proportion|-8.2||||0.25|TWO_SIDED|95.0|-22.0|5.7|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||5.7|-22.0|0.25
82542937|NCT02928224|164785540|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82542938|NCT02928224|164785541|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82542939|NCT02928224|164785542|OTHER|||||||0.1928|||||||Cochran-Mantel-Haenszel|||||||0.1928
82542940|NCT02928224|164785543|OTHER|||||||0.0357|||||||Cochran-Mantel-Haenszel|||||||0.0357
82542941|NCT00958633|164785640|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.12|TWO_SIDED|95.0|0.43|1.1|||Log Rank||The hazard ratio for time to any mood episode in the 52-week group relative to the 8-week group was 0.68 (95% confidence interval \[CI\], 0.43 to 1.10; P = 0.12 by log-rank test).|||1.10|0.43|0.12
82461503|NCT03583099|164625035|SUPERIORITY||Difference in proportion|-3.4||||0.48|TWO_SIDED|95.0|-12.7|6.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||6.0|-12.7|0.48
82461504|NCT03583099|164625036|SUPERIORITY||Difference in proportion|3.9||||0.45|TWO_SIDED|95.0|-6.3|14.2|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||14.2|-6.3|0.45
82461505|NCT03583099|164625038|SUPERIORITY||Difference in proportion|-2.2||||0.48|TWO_SIDED|95.0|-8.4|3.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.9|-8.4|0.48
82461506|NCT03583099|164625039|SUPERIORITY||Difference in proportion|-0.4||||0.97|TWO_SIDED|95.0|-20.4|19.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||19.5|-20.4|0.97
82461507|NCT03583099|164625040|SUPERIORITY||Difference in proportion|-12.1||||0.04|TWO_SIDED|95.0|-23.5|-0.6|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||-0.6|-23.5|0.04
82461508|NCT03583099|164625041|SUPERIORITY||Difference in proportion|-1.8||||0.39|TWO_SIDED|95.0|-5.8|2.3|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.3|-5.8|0.39
82461509|NCT03583099|164625042|SUPERIORITY||Difference in proportion|-7.3||||0.06|TWO_SIDED|95.0|-14.9|0.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||0.4|-14.9|0.06
82461510|NCT03583099|164625043|SUPERIORITY||Difference in proportion|-0.9||||0.82|TWO_SIDED|95.0|-8.8|7.0|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.0|-8.8|0.82
82461511|NCT03583099|164625044|SUPERIORITY||Difference in proportion|0.6||||0.86|TWO_SIDED|95.0|-6.6|7.9|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||7.9|-6.6|0.86
82542942|NCT00958633|164785641|SUPERIORITY||Hazard Ratio (HR)|2.28|||||TWO_SIDED|95.0|0.86|6.08||||||Manic or Hypomanic events||6.08|.86|
82542943|NCT00958633|164785641|SUPERIORITY||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.25|0.75||||||Depressive Events||0.75|0.25|
82542944|NCT00357097|164785685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|||<|0.001||95.0|-5.6|-1.6|||ANCOVA||Mean difference = Ropinirole minus Placebo. Used adjusted change from baseline.|||-1.6|-5.6|<0.001
82578432|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.9||||0.1895|TWO_SIDED|95.0|0.79|1.03||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank||MACE or unstable angina|||1.03|0.79|0.1895
82578433|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.58||||0.007|TWO_SIDED|95.0|0.39|0.86||2-sided unadjusted p-value|Regression, Cox||unstable angina|||0.86|0.39|0.007
82461512|NCT03583099|164625045|SUPERIORITY||Difference in proportion|-7.4||||0.14|TWO_SIDED|95.0|-17.3|2.5|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||2.5|-17.3|0.14
82461513|NCT03583099|164625047|SUPERIORITY||Difference in proportion|-14.66||||0.21|TWO_SIDED|95.0|-37.54|8.22|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||8.22|-37.54|0.21
82542945|NCT00094575|164785705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.81|TWO_SIDED|95.0|0.77|1.22|||Log Rank||The HR was estimated by comparing Endovascular repair arm vs the Open repair arm.|The primary outcome was long-term, all-cause mortality. The sample size would provide 80% power to detect a 25% relative reduction in mortality at a two-sided alpha level of 0.05. The primary comparison was the main effects of Endovascular repair vs Open repair of AAA.||1.22|0.77|0.81
82542946|NCT00094575|164785706|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Chi-squared|||||||0.12
82461514|NCT03583099|164625048|SUPERIORITY||Difference in proportion|0.4||||0.76|TWO_SIDED|95.0|-2.0|2.7|||Generalized estimating equation contrast|||||2.7|-2.0|0.76
82461515|NCT03583099|164625051|SUPERIORITY||Difference in proportion|0.6||||0.66|TWO_SIDED|95.0|-2.1|3.4|||Generalized estimating equation contrast||The direction of the difference is Intervention: COPD education plus CAPTURE education and patient-level CAPTURE screening results minus the Enhanced Usual Care: COPD education.|||3.4|-2.1|0.66
82461516|NCT04890652|164625054|OTHER|single group. The power-related information was estimated by calculating the effect size, specifically partial eta squared.|||||<|0.001|||||||General Linear Model|||||||<0.001
82461517|NCT04890652|164625055|OTHER|Single group. The power-related information was estimated by calculating the effect size, specifically partial eta squared.|||||<|0.001|||||||General Linear Model|||||||<0.001
82461518|NCT00807911|164625080|OTHER||Hazard Ratio (HR)|0.657||||0.047|TWO_SIDED|95.0|0.434|0.994|||t-test, 1 sided|||||0.994|0.434|0.047
82542947|NCT00094575|164785707|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||Mixed Models Analysis|||||||0.81
82542948|NCT00094575|164785708|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82542949|NCT00094575|164785709|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Mixed Models Analysis|||||||0.78
82578434|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.64||||0.022|TWO_SIDED|95.0|0.44|0.94||2-sided unadjusted p-value|Regression, Cox||unstable angina|||0.94|0.44|0.022
82578435|NCT01327846|164866093|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.71||||0.086|TWO_SIDED|95.0|0.48|1.05||2-sided unadjusted p-value|Regression, Cox||unstable angina|||1.05|0.48|0.086
82542950|NCT00094575|164785710|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Mixed Models Analysis|||Note: Since this is measuring change over time since baseline, values could be below 0.||||0.58
82542951|NCT00094575|164785711|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Mixed Models Analysis|||||||0.37
82578436|NCT01327846|164866094|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.01||||0.8456|TWO_SIDED|95.0|0.83|1.23||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.23|0.83|0.8456
82461519|NCT00807911|164625081|OTHER||Hazard Ratio (HR)|0.602||||0.04|TWO_SIDED|95.0|0.371|0.977|||t-test, 1 sided|||||0.977|0.371|0.040
82461520|NCT00807911|164625082|OTHER||Hazard Ratio (HR)|0.744||||0.47|TWO_SIDED|95.0|0.334|1.657|||t-test, 1 sided|||||1.657|0.334|0.47
82461521|NCT00807911|164625083|OTHER||Hazard Ratio (HR)|0.456||||0.036|TWO_SIDED|95.0|0.215|0.97|||t-test, 1 sided|||||0.970|0.215|0.036
82578437|NCT01327846|164866094|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|1.06||||0.8456|TWO_SIDED|95.0|0.87|1.29||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.29|0.87|0.8456
82578438|NCT01327846|164866094|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.98||||0.6541|TWO_SIDED|95.0|0.8|1.2||1-sided adjusted for multiplicity using weighted Dunnett test. \[significance level 0.0245\]|Log Rank|||||1.20|0.80|0.6541
82578439|NCT01327846|164866095|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.028|TWO_SIDED|95.0|0.77|0.99||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||0.99|0.77|0.028
82461525|NCT00836589|164625125|NON_INFERIORITY|"Estimated SAEFR at 5 years is 92.5% with a 5% non-inferiority margin (87.5%).~Type I error (alpha) is 0.05 (one-sided for non-inferiority).~Statistical power is 80%."||||||0.002|||||||Binomial Proportion|||||||0.0020
82461526|NCT03324607|164625135|OTHER|||||||0.006|||||||Paired t-test|||||||0.006
82461527|NCT01018030|164625168|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.386||||0.008|TWO_SIDED|95.0|-0.67|-0.1|||ANCOVA||The estimation for least squares mean was adjusted for baseline value, country, allergic rhinitis status, age, and gender.|||-0.10|-0.67|0.008
82542952|NCT00094575|164785712|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Mixed Models Analysis|||||||0.68
82578440|NCT01327846|164866095|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.011|TWO_SIDED|95.0|0.75|0.96||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||0.96|0.75|0.011
82461528|NCT01018030|164625168|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.357||||0.014|TWO_SIDED|95.0|-0.64|-0.07|||ANCOVA||The estimation for least squares mean was adjusted for baseline value, country, allergic rhinitis status, age, and gender.|||-0.07|-0.64|0.014
82461529|NCT04529083|164625195|OTHER||Mean Difference (Net)|-0.625||||0.011|TWO_SIDED|95.0|-1.06|-0.19|||t-test, 2 sided|||||-0.19|-1.06|0.011
82461530|NCT04529083|164625197|SUPERIORITY||Mean Difference (Net)|1.94||||0.006|TWO_SIDED|95.0|0.63|3.26|||t-test, 2 sided|||||3.26|0.63|0.006
82578441|NCT01327846|164866095|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.377|TWO_SIDED|95.0|0.83|1.07||2-sided unadjusted p-value|Regression, Cox||All-cause mortality or MI or Stroke|||1.07|0.83|0.377
82461531|NCT04196686|164625203|OTHER||Hazard Ratio (HR)|0.36|||<|0.001|TWO_SIDED|95.0|0.25|0.51|||Cox mixed effects model|||||0.51|0.25|<0.001
82461532|NCT04196686|164625204|OTHER||Mean Difference (Net)|0.455||||0.2|TWO_SIDED|95.0|0.32|0.59|||Linear mixed effects model|||Analysis was controlled for dominant hand treatment assignment, dominant hand order, and gender. Overall mean difference calculated from regression model.||0.59|0.32|0.200
82461533|NCT04196686|164625205|OTHER||Mean Difference (Net)|0.002||||0.047|TWO_SIDED|95.0|0.00007|0.00368|||Linear mixed effects model|||The variables in the physiologic model were SCRD change over time and the SCRD change between groups, defined as those with and without VR.||0.00368|0.00007|0.047
82542953|NCT05714696|164785735|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||.007
82542954|NCT05714696|164785736|SUPERIORITY|||||||0.049|||||||t-test, 2 sided|||||||.049
82542955|NCT05714696|164785737|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||.029
82542956|NCT05714696|164785738|SUPERIORITY|||||||0.163|||||||t-test, 2 sided|||||||.163
82542957|NCT05714696|164785739|SUPERIORITY|||||||0.442|||||||t-test, 2 sided|||||||.442
82542958|NCT05714696|164785741|SUPERIORITY|||||||0.527|||||||t-test, 2 sided|||||||.527
82542959|NCT05714696|164785742|SUPERIORITY|||||||0.311|||||||t-test, 2 sided|||||||.311
82542960|NCT05714696|164785743|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
82542961|NCT05714696|164785744|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||.005
82542962|NCT03073941|164785784|NON_INFERIORITY|A non-Inferiority analysis was performed once the 1 year OKS of the first 216 patients were collected. A one-sided T-test, 90% power, SD=10 and with a non-inferiority margin of 4 OKS was used and the analysis was based on the difference of average OKS between Persona and NexGen 1 year postoperatively.|||||<|0.05|||||||t-test, 1 sided|90% power, SD=10 and with a non-inferiority margin of 4 OKS||||||<0.05
82578442|NCT01327846|164866096|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.93||||0.406|TWO_SIDED|95.0|0.79|1.1||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.10|0.79|0.406
82578443|NCT01327846|164866096|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.92||||0.329|TWO_SIDED|95.0|0.78|1.09||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.09|0.78|0.329
82578444|NCT01327846|164866096|SUPERIORITY|A HR \< 1 favors Canakinumab|Hazard Ratio (HR)|0.96||||0.597|TWO_SIDED|95.0|0.81|1.13||2-sided unadjusted p-value|Regression, Cox||All-cause mortality|||1.13|0.81|0.597
82578445|NCT00203268|164866111|SUPERIORITY_OR_OTHER|||||||0.3025|||||||clustered survival analysis|||||||.3025
82578446|NCT02193490|164866188|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82578447|NCT02193490|164866189|OTHER|||||||0.078|||||||Kruskal-Wallis|||||||0.078
82578448|NCT02193490|164866190|OTHER||||||<|0.001|||||||Kruskal-Wallis|||||||<0.001
82578449|NCT02299414|164866191|SUPERIORITY||Risk Ratio (RR)|0.82|||<|0.001|TWO_SIDED|95.0|0.73|0.92|||Chi-squared|||||.92|.73|<0.001
82578450|NCT02299414|164866191|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.7|0.9||||||||.90|.70|
82578451|NCT02299414|164866191|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.6|0.89||||||||.89|.60|
82578452|NCT02299414|164866191|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.49|1.64||||||||1.64|.49|
82578453|NCT02299414|164866191|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.54|1.21||||||||1.21|.54|
82578454|NCT02299414|164866192|SUPERIORITY||Risk Ratio (RR)|1.07||||0.56|TWO_SIDED|95.0|0.85|1.36|||Chi-squared|||||1.36|0.85|0.56
82461534|NCT00119847|164625213|SUPERIORITY||Mean Difference (Net)|-0.04||||0.34|TWO_SIDED|95.0|-0.12|0.04||p\<0.05 required for statistical significance|t-test, 2 sided|||The planned sample size of 300 subjects was chosen to provide 80% power to detect a clinically relevant difference of 0.1 in the change in α1 from baseline to 1 year between the 2 treatment groups on the basis of data from prior studies that indicated that baseline levels of α1 would be 1.0 with a common SD of 0.2.||0.04|-0.12|0.34
82461535|NCT00119847|164625214|SUPERIORITY||Mean Difference (Net)|3.0||||0.45|TWO_SIDED|95.0|-4.8|10.7||p\<0.01 required for statistical significance|t-test, 2 sided|||||10.7|-4.8|0.45
82461536|NCT00119847|164625215|SUPERIORITY||Mean Difference (Net)|2.2||||0.23|TWO_SIDED|95.0|-1.4|5.9||p\<0.01 required for statistical significance|t-test, 2 sided|||||5.9|-1.4|0.23
82461537|NCT00265564|164625221|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||We investigated treatment condition differences in change of drug and alcohol use over four time-points using generalized linear mixed modeling analyses. A trajectory for each participant was modeled yielding estimates of baseline scores (intercept), slope, and error. Four between-person parameters were estimated: average baseline score for all participants, average slope over time in TAU condition, effect of being in SS on average intercept, effect of being in SS on average slope.||||> .05
82461538|NCT00265564|164625222|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82461539|NCT00265564|164625223|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Mixed Models Analysis|||Generalized linear mixed modeling analysis||||>.05
82461540|NCT01553084|164625224|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3623|TWO_SIDED|95.0|0.8|1.7|||Regression, Logistic|||Combination NRT will be compared statististically versus Nicotine patch only (the reference or control group).||1.7|0.8|.3623
82461541|NCT01553084|164625224|SUPERIORITY||Odds Ratio (OR)|0.9||||0.1947|TWO_SIDED|95.0|0.6|1.2|||Regression, Logistic|||Varenicline will be compared statististically versus Nicotine patch only (the reference or control group).||1.2|0.6|.1947
82461542|NCT01553084|164625225|SUPERIORITY||Hazard Ratio (HR)|0.915||||0.3613|TWO_SIDED|95.0|0.756|1.107|||Regression, Cox|||||1.107|.756|.3613
82461543|NCT01553084|164625225|SUPERIORITY||Hazard Ratio (HR)|0.943||||0.5503|TWO_SIDED|95.0|0.779|1.142|||Regression, Cox|||||1.142|.779|.5503
82461544|NCT01553084|164625226|SUPERIORITY||Odds Ratio (OR)|1.5||||0.03|TWO_SIDED|95.0|1.1|2.2|||Regression, Logistic|||||2.2|1.1|.03
82461545|NCT01553084|164625226|SUPERIORITY||Odds Ratio (OR)|0.8||||0.19|TWO_SIDED|95.0|0.6|1.1|||Regression, Logistic|||||1.1|0.6|.19
82461546|NCT01553084|164625227|SUPERIORITY||Mean Difference (Final Values)|-0.00612|STANDARD_ERROR_OF_MEAN|0.00625||0.3282|TWO_SIDED||||||t-test, 2 sided|df=710||||||.3282
82461547|NCT00659061|164625230|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||at baseline|Chi-squared|||||||0.32
82461548|NCT00659061|164625230|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||at endline|Chi-squared|||||||<0.001
82461549|NCT00659061|164625232|SUPERIORITY_OR_OTHER||||||<|0||95.0|||||ANOVA|adjusted for baseline, child age, sex, number of sprinkles sachets consumed, number of mths between enrollment and endline Hb measurement)||||||<0.000
82461550|NCT00659061|164625233|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||baseline|Chi-squared|||||||0.34
82461551|NCT00659061|164625233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||endline|Chi-squared|||||||<0.001
82461552|NCT00659061|164625234|SUPERIORITY_OR_OTHER|||||||0||95.0||||endline|ANOVA|adjusted for baseline child age, sex, # of sprinkle sachet consumed, # of mths between enrollment and endline Hb measurement||||||0.000
82461553|NCT00659061|164625235|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||baseline|Chi-squared|||||||0.7
82461554|NCT00659061|164625235|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||endline|Chi-squared|||||||0.02
82461555|NCT00659061|164625236|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||baseline|Chi-squared|||||||0.62
82461556|NCT00659061|164625236|SUPERIORITY_OR_OTHER|||||||0.89||95.0||||endline|Chi-squared|||||||0.89
82461557|NCT00659061|164625237|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||baseline|Chi-squared|||||||0.93
82461558|NCT00659061|164625237|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||endline|Chi-squared|||||||0.49
82461559|NCT01856270|164625240|SUPERIORITY|The data from this study was compared with the data from the Natural History of Headache after Mild TBI which was previously published (Lucas, Hoffman, Bell, Dikmen. (2014), A prospective study of prevalence and characterization of headache following mild traumatic brain injury. Cephalalgia (34) 93-102).|Difference of proportions|0.114||||0.101|ONE_SIDED|95.0|-0.017|||A priori significance threshold α=.05|Fisher Exact||Confidence interval estimation method from Wallenstein (1997). 71 of 205 participants (at 3 Mo post) in the Natural History study endorsed having a headache more than once per week.|A positive difference of proportions would indicate an improvement in the Amitriptyline sample, while a negative difference would indicate a worsening.|||-0.017|.101
82461560|NCT01856270|164625241|SUPERIORITY|The data from this study was compared with the data from the Natural History of Headache after Mild TBI which was previously published (Lucas, Hoffman, Bell, Dikmen. (2014), A prospective study of prevalence and characterization of headache following mild traumatic brain injury. Cephalalgia (34) 93-102).|Difference of proportions|0.194||||0.017|ONE_SIDED|95.0|0.057|||A priori significance threshold α=.05|Fisher Exact||Confidence interval estimation method from Wallenstein (1997). 56 of 148 participants (at 3 mo post) in the Natural History study reported pain \>=6.|A positive difference of proportions would indicate an improvement in the Amitriptyline sample, while a negative difference would indicate a worsening|||.057|.017
82461561|NCT01856270|164625242|SUPERIORITY||Difference of proportions|0.093||||0.456|TWO_SIDED|95.0|-0.106|0.286||A priori significance threshold α=.05|Fisher Exact||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed). Confidence interval estimation method from Wallenstein (1997).|||.286|-.106|.456
82461562|NCT01856270|164625243|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.684|TWO_SIDED|95.0|-5.1|3.4||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||3.4|-5.1|.684
82461563|NCT01856270|164625244|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.306|TWO_SIDED|95.0|-1.0|2.9||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||2.9|-1.0|.306
82578455|NCT02299414|164866193|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.45|1.26||||||||1.26|.45|
82578456|NCT02299414|164866194|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.77|0.91||||||||0.91|0.77|
82578457|NCT02299414|164866195|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.77|0.99||||||||.99|.77|
82578458|NCT02299414|164866196|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.45|1.3||||||||1.3|.45|
82461564|NCT01856270|164625245|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.583|TWO_SIDED|95.0|-0.9|1.6||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||1.6|-0.9|.583
82461565|NCT01856270|164625246|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.444|TWO_SIDED|95.0|-4.0|8.8||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||8.8|-4.0|.444
82461566|NCT01856270|164625247|SUPERIORITY||Mean Difference (Final Values)|27.3||||0.041|TWO_SIDED|95.0|1.2|53.3||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||53.3|1.2|.041
82461567|NCT01856270|164625248|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.089|TWO_SIDED|95.0|-3.8|0.3||A priori significance threshold α=.05|t-test, 2 sided||Estimate is the effect observed in the Immediate group (i.e. Immediate - Delayed)|||0.3|-3.8|.089
82461568|NCT01168349|164625264|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.55|||||TWO_SIDED|95.0|0.42|0.71||||||||0.71|0.42|
82461569|NCT01168349|164625267|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Log Rank|||||||<0.0001
82461570|NCT03111875|164625321|SUPERIORITY|common effect|Risk Ratio (RR)|1.04||||0.69|TWO_SIDED|95.6|0.87|1.24|||Mixed Models Analysis|||||1.24|0.87|0.69
82461571|NCT03111875|164625321|SUPERIORITY|average relative effect|Risk Ratio (RR)|0.68||||0.1|TWO_SIDED|95.6|0.43|1.08|||Mixed Models Analysis|||||1.08|0.43|0.10
82461572|NCT03111875|164625322|SUPERIORITY||Risk Ratio (RR)|1.13||||0.25|TWO_SIDED|98.75|0.87|1.47|||log-binomial models|The relative risk was estimated using a GEE model to adjust for within-patient correlation across components and log link (to estimate relative risk).||||1.47|0.87|0.25
82542963|NCT04588259|164785794|NON_INFERIORITY|The upper limit of the 95% confidence interval (CI) for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4%, non-inferiority was considered to be established and effect demonstrated.|Treatment difference|-0.05||||0.5102|TWO_SIDED|95.0|-0.19|0.09||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|Mixed Models Analysis|||The outcome measure was analysed using mixed-effect model for repeated measurement (MMRM) where all calculated changes in HbA1c from baseline at visits were included in analysis. Model included treatment and stratification of type 1 diabetes mellitus/ type 2 diabetes mellitus (T1DM/T2DM) as fixed factors, HbA1c at baseline as covariate and interactions between all fixed factors and visit. An unstructured covariance matrix described the variability for the repeated measurements for a participant.||0.09|-0.19|0.5102
82542964|NCT04588259|164785795|NON_INFERIORITY|The upper limit of the 95% CI for the difference between faster aspart and NovoRapid was compared to a non-inferiority margin of 0.4%. If it was below or equal to 0.4%, non-inferiority was considered to be established and effect demonstrated.|Treatment Difference|-0.52||||0.5102|TWO_SIDED|95.0|-2.08|1.03||p-values are from the 2-sided test for treatment difference evaluated at the 5% level.|Mixed Models Analysis|||The outcome measure was analysed using a mixed-effect model for repeated measurements (MMRM) where all calculated changes in HbA1c from baseline at visits are included in the analysis. The model includes treatment and stratification (T1DM/T2DM) as fixed factors, HbA1c at baseline as covariate and interactions between all fixed factors and visit. An unstructured covariance matrix is used to describe the variability for the repeated measurements for a participant.||1.03|-2.08|0.5102
82542965|NCT01391832|164785879|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 1-month follow-up.|t-value on group differences in change|-1.51|||>|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||>0.05
82542966|NCT01391832|164785879|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 3-month follow-up.|t-value on group differences in change|-2.05|||<|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||<0.05
82578459|NCT02299414|164866197|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.98|1.18||||||||1.18|.98|
82578460|NCT02299414|164866198|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.69|0.89||||||||.89|.69|
82578461|NCT02299414|164866199|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.68|1.04||||||||1.04|0.68|
82578462|NCT02299414|164866200|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.74|0.9||||||||.90|.74|
82461573|NCT03111875|164625323|SUPERIORITY||Risk Ratio (RR)|1.07||||0.41|TWO_SIDED|98.75|0.87|1.33|||log-binomial models|The relative risk was estimated using a GEE model to adjust for within-patient correlation across components and log link (to estimate relative risk)||||1.33|0.87|0.41
82461574|NCT00960375|164625361|SUPERIORITY_OR_OTHER|||||||0.489|TWO_SIDED||||||ANOVA|||Smoking reduction outcomes were examined in the randomized sample using data from baseline and post-treatment assessments. The variable examined was self-reported number of cigarettes smoked per day during the last 7 days. This variable was skewed so a natural log transformation was applied before linear mixed model analysis.||||0.489
82461575|NCT00960375|164625362|SUPERIORITY_OR_OTHER|||||||0.685|TWO_SIDED||||||ANOVA|||This outcome was examined in the randomized sample. Abstinence was defined as self-reported no smoking in the last 7 days + expired CO ≤ 10 PPM. To assess difference in change between conditions, we tested the significance of the condition-by-time interaction using repeated measured mixed models with a random participant effect. Time was binary: post-treatment versus baseline. We used a logistic model for binary outcomes.||||0.685
82461576|NCT03174184|164625368|EQUIVALENCE|Equivalence tests will be conducted to examine whether the EBA0-14CFU of Arm A is different from the EBA0-14CFU of Arm B. A similar comparison will be done comparing Arm C to Arm D, Arm A to Arm C, Arm D to Arm E, Arm D to Arm F, and Arm E to Arm F.|||||<|0.001|||||||Regression, Linear|||||||<0.001
82461577|NCT02588599|164625376|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|t=8.0; df=53||||||<0.0001
82461578|NCT03309020|164625384|OTHER|||||||0.802||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||Null hypothesis is no difference in grade between survivor statuses one month after cataract surgery||||0.802
82461579|NCT03309020|164625385|OTHER|||||||0.713||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||Null hypothesis is no difference in grade between survivor statuses three months after cataract surgery||||.713
82461580|NCT03309020|164625386|OTHER||Odds Ratio (OR)|0.1|||||TWO_SIDED|95.0|0.01|0.69|||||Odds of eye with at least 20/40 best corrected visual acuity (BCVA) 12 months after cataract surgery for controls vs. EVD survivors|Null hypothesis is no difference in the proportion of participants with at least 20/40 best corrected visual acuity (BCVA) between survivor statuses||0.69|0.01|
82461581|NCT03309020|164625387|OTHER|||||||0.832||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||.832
82461582|NCT03309020|164625388|OTHER|||||||0.995||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||.995
82461583|NCT03309020|164625389|OTHER|||||||0.441||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment and gender (male or female) were included as covariates in the model||||||0.441
82461584|NCT03309020|164625390|OTHER|||||||0.892||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment, survivor status (EVD survivor/control) included as covariates; within-subject measurement of distinct eyes treated as independent||||||.892
82461585|NCT03309020|164625391|OTHER|||||||0.913||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Age at enrollment, survivor status (EVD survivor/control) included as covariates; within-subject measurement of distinct eyes treated as independent||||||.913
82461586|NCT03309020|164625392|OTHER|||||||0.106||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Gender (male/female), survivor status (EVD survivor/control) as covariates; within-subject measurement of distinct eyes treated as independent||||||.106
82461587|NCT03309020|164625393|OTHER|||||||0.09||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|Gender (male/female), survivor status (EVD survivor/control) as covariates; within-subject measurement of distinct eyes treated as independent||||||0.09
82461588|NCT00402168|164625397|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|95.0|2.1|14.9||||||At Month 6, difference in percentage of participants with acute rejection (number with acute rejection/number randomized) using exact method.||14.9|2.1|
82461589|NCT00402168|164625397|SUPERIORITY_OR_OTHER||Difference in Percentage|7.1|||||TWO_SIDED|95.0|2.1|14.9||||||At Month 12, difference in percentage of participants with acute rejection using exact method.||14.9|2.1|
82461590|NCT00402168|164625398|SUPERIORITY_OR_OTHER||Percent Difference|1.1|||||TWO_SIDED|95.0|-3.3|6.1||||||Participants surviving with a functioning graft by Month 6: For 95% Confidence Interval (CI) of difference, exact method was used.||6.1|-3.3|
82461591|NCT00402168|164625398|SUPERIORITY_OR_OTHER||Percent Difference|1.1|||||TWO_SIDED|95.0|-3.3|6.1||||||Participants surviving with a functioning graft by Month 12: For 95% CI of difference, exact method was used.||6.1|-3.3|
82461592|NCT00402168|164625401|SUPERIORITY_OR_OTHER||Difference|6.0|||||TWO_SIDED|95.0|-0.1|13.8||||||||13.8|-0.1|
82461593|NCT00402168|164625406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1||||0.4491|TWO_SIDED|95.0|-1.7|3.9|||ANCOVA|||Mental Component Scales (MCS)||3.9|-1.7|0.4491
82461594|NCT00402168|164625406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.7892|TWO_SIDED|95.0|-2.5|1.9|||ANCOVA|||Physical Component Scales (PCS)||1.9|-2.5|0.7892
82461595|NCT00402168|164625408|SUPERIORITY_OR_OTHER||Estimated Difference|0.0076|||||TWO_SIDED|95.0|-0.01|0.0252||||||Difference in Symptom Occurrence between treatment groups.||.0252|-.010|
82461596|NCT00402168|164625408|SUPERIORITY_OR_OTHER||Estimated Difference|0.0148|||||TWO_SIDED|95.0|-0.002|0.0321||||||Difference in Symptom Distress between treatment groups.||.0321|-.002|
82461597|NCT05543265|164625475|SUPERIORITY||Mean Difference (Final Values)|22.0|||<|0.001|TWO_SIDED|95.0|6.4|28.8|||Chi-squared|||||28.8|6.4|<0.001
82461598|NCT05316597|164625503|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.914|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.914
82461599|NCT05316597|164625504|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.554|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||.554
82461600|NCT05316597|164625505|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.905|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|||||||0.905
82461601|NCT05316597|164625506|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.076|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.076
82461602|NCT05316597|164625506|SUPERIORITY|||||||0.02||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||Exploratory ANOVA results comparing full and reduced models to test the effect of terpene exposure on pattern of outcome over time.||||0.02
82461603|NCT05316597|164625507|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.21|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.210
82461604|NCT05316597|164625507|SUPERIORITY|||||||0.57||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||Exploratory ANOVA results comparing full and reduced models to test the effect of terpene exposure on pattern of outcome over time.||||0.57
82461605|NCT05316597|164625508|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.921|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.921
82542967|NCT01391832|164785879|SUPERIORITY|Comparison of differences between rTMS+CPT and sham+CPT groups in change Clinical Administered Post-Traumatic Scale Total Severity Scores from baseline to 6-month follow-up.|t-value on group differences in change|-2.01|||<|0.05|ONE_SIDED|||||Predicted effects on symptom reduction were evaluated with α = 0.05 for one-tailed t-distributions, recommended for designs examining efficacy of therapeutic interventions (Overall, 1991).|Mixed Models Analysis|Restricted maximum likelihood estimators of variance components for fixed effects; Satterthwaite estimates of effective degrees of freedom.|degrees of freedom = 327|Restricted maximum likelihood estimators (ReML) of the variance components were used to compute the maximum likelihood estimators of the fixed effects parameters (i.e., group, time, therapist, all two-way interaction terms, and the three-way interaction term). Thus, we did not exclude participants with missing time points.||||<0.05
82461606|NCT05316597|164625508|SUPERIORITY|||||||0.82||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||||||0.82
82461607|NCT05316597|164625509|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.265|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.265
82461608|NCT05316597|164625509|SUPERIORITY|||||||0.63||||||Threshold of P \< 0.05 for significance. ANCOVA results of comparing reduced vs. full model over time.|ANOVA|||||||0.63
82461609|NCT05316597|164625510|SUPERIORITY||Median Difference (Final Values)|-0.34||||0.724|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.724
82461610|NCT05316597|164625511|SUPERIORITY||Mean Difference (Final Values)|-2.85||||0.716|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.716
82461611|NCT05316597|164625512|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.852|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.852
82461612|NCT05316597|164625513|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.166|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.166
82461613|NCT05316597|164625514|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.046|TWO_SIDED|||||a priori threshold for statistical significance = p \< 0.05.|Mixed Models Analysis|Control for that session's baseline included in the mixed model.||||||0.046
82461614|NCT01706458|164625534|OTHER|||||||0.906|||||||Log Rank|||||||0.9060
82542968|NCT01391832|164785880|SUPERIORITY||Mean Difference (Final Values)|-0.666|STANDARD_DEVIATION|0.7101||0.3422|TWO_SIDED|1.422|-0.7548|2.088||It is not adjusted for multiple comparisons.|t-test, 2 sided|degrees of freedom = 58|mean change from baseline to 6-month follow-up, rTMS Active - rTMS Sham|Null hypothesis test of differences in N2 micro-volt change from baseline to 6-month followup.||2.088|-0.7548|.3422
82461615|NCT03547518|164625546|SUPERIORITY|||||||0.111|||||||t-test, 2 sided|||||||0.111
82461616|NCT03547518|164625547|SUPERIORITY|||||||0.487|||||||t-test, 2 sided|||||||0.487
82461617|NCT03547518|164625548|SUPERIORITY|||||||0.0393|||||||t-test, 2 sided|||||||0.0393
82461618|NCT03547518|164625549|SUPERIORITY|||||||0.242|||||||t-test, 2 sided|||||||0.242
82461619|NCT03547518|164625550|SUPERIORITY|||||||0.855|||||||t-test, 2 sided|||||||0.855
82461620|NCT03192176|164625569|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.84||0.024|TWO_SIDED|95.0|-3.56|-0.25||LS Means(LSM), standard errors(SE), confidence intervals(CI), \& p-values come from an ANCOVA model with CFB as the dependent variable \& treatment group, pooled center, smoking status as factors \& baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.25|-3.56|0.0240
82461621|NCT03192176|164625569|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0004|TWO_SIDED|95.0|-4.68|-1.38||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.38|-4.68|0.0004
82461622|NCT03192176|164625569|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.001|TWO_SIDED|95.0|-4.44|-1.14||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.14|-4.44|0.0010
82461623|NCT03192176|164625569|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED|95.0|-5.2|-1.89||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.89|-5.20|<0.0001
82461624|NCT03192176|164625569|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.84||0.0058||95.0|-4.0|-0.68||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.68|-4.00|0.0058
82461625|NCT03192176|164625569|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|-4.65|-1.41||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.41|-4.65|0.0003
82461626|NCT03192176|164625569|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.84||0.0042|TWO_SIDED|95.0|-4.06|0.76||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.76|-4.06|0.0042
82461627|NCT03192176|164625570|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.0154|TWO_SIDED|95.0|-3.3|-0.35||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.35|-3.30|0.0154
82461628|NCT03192176|164625570|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.74||0.0043|TWO_SIDED|95.0|-3.6|-0.67||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.67|-3.60|0.0043
82461629|NCT03192176|164625570|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.75||0.0023|TWO_SIDED|95.0|-3.76|-0.83||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.83|-3.76|0.0023
82461630|NCT03192176|164625570|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.75||0.0005|TWO_SIDED|95.0|-4.09|-1.16||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.16|-4.09|0.0005
82461631|NCT03192176|164625570|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0064|TWO_SIDED|95.0|-3.52|-0.58||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.58|-3.52|0.0064
82461632|NCT03192176|164625570|SUPERIORITY||-2.6|-2.6|STANDARD_ERROR_OF_MEAN|0.74||0.0005|TWO_SIDED|95.0|-4.04|-1.15||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-1.15|-4.04|0.0005
82461633|NCT03192176|164625570|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0063|TWO_SIDED|95.0|-3.52|-0.59||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.59|-3.52|0.0063
82461634|NCT03192176|164625571|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0215|TWO_SIDED|95.0|-0.84|-0.07||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.07|-0.84|0.0215
82461635|NCT03192176|164625571|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0017|TWO_SIDED|95.0|-1.01|-0.24||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.24|-1.01|0.0017
82461636|NCT03192176|164625571|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.21|-0.44||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.44|-1.21|<0.0001
82461637|NCT03192176|164625571|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.37|-0.59||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.59|-1.37|<0.0001
82461638|NCT03192176|164625571|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0322|TWO_SIDED|95.0|-0.81|-0.04||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.04|-0.81|0.0322
82461639|NCT03192176|164625571|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0017|TWO_SIDED|95.0|-0.99|-0.23||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.23|-0.99|0.0017
82461640|NCT03192176|164625571|SUPERIORITY||LSMean differencce|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0004|TWO_SIDED|95.0|-1.08|-0.31||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.31|-1.08|0.0004
82461641|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.2324|TWO_SIDED|95.0|-0.67|-0.16||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.16|-0.67|0.2324
82461642|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0736|TWO_SIDED|95.0|-0.8|0.04||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.04|-0.80|0.0736
82461643|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.008|TWO_SIDED|95.0|-0.98|-0.15||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.15|-0.98|0.0080
82461644|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.0028|TWO_SIDED|95.0|-1.07|-0.22||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.22|-1.07|0.0028
82461645|NCT03192176|164625572|SUPERIORITY||LSMean differnce|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4647|TWO_SIDED|95.0|-0.58|0.26||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.26|-0.58|0.4647
82461646|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.016|TWO_SIDED|95.0|-0.92|-0.1||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||-0.10|-0.92|0.0160
82461647|NCT03192176|164625572|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0901|TWO_SIDED|95.0|-0.78|0.06||LS Means, SE, CI, and p-values come from an ANCOVA model with change from baseline as the dependent variable and treatment group, pooled center, smoking status as factors and baseline measurement, baseline weight as covariates.|ANCOVA|||||0.06|-0.78|0.0901
82578463|NCT02299414|164866201|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.93|1.1||||||||1.10|.93|
82578464|NCT02299414|164866202|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.59|1.27||||||||1.27|.59|
82461648|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.79||0.0865|TWO_SIDED|95.0|-2.92|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||0.20|-2.92|0.0865
82461649|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0009|TWO_SIDED|95.0|-4.22|-1.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.10|-4.22|0.0009
82461650|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.79|<|1e-05|TWO_SIDED|95.0|-5.06|-1.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.94|-5.06|<0.00001
82461651|NCT03192176|164625573|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.8|<|1e-05|TWO_SIDED|95.0|-5.63|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.47|-5.63|<0.00001
82461652|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.81||0.236|TWO_SIDED|95.0|-2.55|0.63||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.63|-2.55|0.2360
82461653|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|-2.4||0.0032|TWO_SIDED|95.0|-3.92|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.80|-3.92|0.0032
82461654|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0006|TWO_SIDED|95.0|-4.29|-1.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.19|-4.29|0.0006
82461655|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.82||0.1318|TWO_SIDED|95.0|-2.86|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.38|-2.86|0.1318
82542969|NCT01391832|164785880|OTHER|The analysis examined correlations in change in N2 and PTSD symptoms.|Slope|-0.3||||0.02|TWO_SIDED|||||Not adjusted|Regression, Linear|||The analysis examined the association between change in PTSD symptoms from baseline to 6-month follow-up and the change in N2 amplitude to the threatening stimulus from baseline to 6-month follow-up.|Correlations for the individual groups were active rTMS r(28)=-.373 and sham rTMS r(32)=-.296.|||0.02
82542970|NCT01154985|164785881|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Cochran-Armitage trend test|||Proportion of responders in the EPA-E 1800 mg and 2700 mg groups compared to the proportion of responders in the placebo group compared using the Cochran-Armitage trend test in the Efficacy Evaluable analysis set. P-value less than 5% 1-sided. A total sample size of 210 (70 per arm) was planned to give 80% power for detecting a positive dose-response slope among the 3 treatment arms at 12 months.||||0.57
82542971|NCT01154985|164785882|SUPERIORITY_OR_OTHER|||||||0.0137|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||||0.0137
82542972|NCT01154985|164785882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2|||||TWO_SIDED|95.0|3.4|29.1||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||29.1|3.4|
82542973|NCT01154985|164785882|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||||0.0006
82542974|NCT01154985|164785882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.0|||||TWO_SIDED|95.0|9.6|34.4||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||34.4|9.6|
82542975|NCT01154985|164785883|SUPERIORITY_OR_OTHER|||||||0.1592|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||||0.1592
82542976|NCT01154985|164785883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||||TWO_SIDED|95.0|-3.8|23.0||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 1,800 mg/day EPA-E treatment group compared to placebo.||23.0|-3.8|
82578465|NCT02299414|164866203|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.81|1.02||||||||1.02|.81|
82578466|NCT02299414|164866204|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.71|0.97||||||||.97|.71|
82578467|NCT02299414|164866205|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.11|0.43||||||||0.43|-0.11|
82578468|NCT02299414|164866206|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|0.05|0.56||||||||0.56|0.05|
82461656|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.83||0.0014|TWO_SIDED|95.0|-4.3|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.04|-4.30|0.0014
82461657|NCT03192176|164625573|SUPERIORITY||LSMean differencce|-3.2|STANDARD_ERROR_OF_MEAN|0.82||0.0001|TWO_SIDED|95.0|-4.82|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.58|-4.82|0.0001
82461658|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.84|<|0.0001|TWO_SIDED|95.0|-5.3|-2.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.00|-5.30|<0.0001
82461659|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.84||0.0752|TWO_SIDED|95.0|-3.15|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.15|-3.15|0.0752
82461660|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.83||0.0343|TWO_SIDED|95.0|-3.38|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.13|-3.38|0.0343
82461661|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.82||0.0049|TWO_SIDED|95.0|-3.95|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.71|-3.95|0.0049
82461662|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.84||0.0285|TWO_SIDED|95.0|-3.5|-0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.20|-3.50|0.0285
82461663|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.85||0.0004|TWO_SIDED|95.0|-4.69|-1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.37|-4.69|0.0004
82461664|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|95.0|-5.14|-1.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.84|-5.14|<0.0001
82461665|NCT03192176|164625573|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-5.65|-2.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRm|||Week 3||-2.28|-5.65|<0.0001
82461666|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.86||0.0169|TWO_SIDED|95.0|-3.74|-0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.37|-3.74|0.0169
82461667|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.84||0.0049|TWO_SIDED|95.0|-4.04|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.73|-4.04|0.0049
82461668|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.0008|TWO_SIDED|95.0|-4.48|-1.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.18|-4.48|0.0008
82461669|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.84||0.0428|TWO_SIDED|95.0|-3.36|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.06|-3.36|0.0428
82461670|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.84||0.0004|TWO_SIDED|95.0|-4.65|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.34|-4.65|0.0004
82461671|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|-0.84||1e-05|TWO_SIDED|95.0|-4.88|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.58|-4.88|0.00001
82461672|NCT03192176|164625573|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|0.85|<|0.0001|TWO_SIDED|95.0|-5.73|-2.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.37|-5.73|<0.0001
82578469|NCT02299414|164866207|SUPERIORITY||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-17.6|20.9||||||||20.9|-17.6|
82578470|NCT02299414|164866208|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|.81|
82578471|NCT02299414|164866209|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.55|1.42||||||||1.42|.55|
82578472|NCT02299414|164866210|SUPERIORITY||Risk Ratio (RR)|0.43|||||TWO_SIDED|95.0|0.18|1.05||||||||1.05|.18|
82578473|NCT02299414|164866211|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.71|1.06||||||||1.06|.71|
82578474|NCT02299414|164866212|SUPERIORITY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.24|1.35||||||||1.35|.24|
82578475|NCT02299414|164866213|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.85|1.12||||||||1.12|.85|
82578476|NCT02299414|164866214|SUPERIORITY||Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.3|1.37||||||||1.37|0.30|
82578477|NCT02299414|164866215|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.14|7.06||||||||7.06|.14|
82461673|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0225|TWO_SIDED|95.0|-3.64|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.28|-3.64|0.0225
82461674|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.84||0.0008|TWO_SIDED|95.0|-4.49|-1.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.19|-4.49|0.0008
82461675|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.84||0.0003|TWO_SIDED|95.0|-4.7|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.42|-4.70|0.0003
82578478|NCT02299414|164866216|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.81|1.08||||||||1.08|.81|
82578479|NCT02299414|164866217|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.62|1.16||||||||1.16|0.62|
82578480|NCT02299414|164866218|SUPERIORITY||Risk Ratio (RR)|0.61|||||TWO_SIDED|95.0|0.36|1.05||||||||1.05|.36|
82578481|NCT02299414|164866219|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.2|0.03||||||||0.03|-0.2|
82578482|NCT02299414|164866220|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.1|0.1||||||||0.1|-0.1|
82578483|NCT02299414|164866221|SUPERIORITY||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.12|0.002||||||||0.002|-0.12|
82578484|NCT02299414|164866222|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||||0.04|-0.02|
82578485|NCT02299414|164866223|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.9|1.06||||||||1.06|0.90|
82461676|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1168|TWO_SIDED|95.0|-2.8|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.31|-2.80|0.1168
82578486|NCT04608773|164866248|SUPERIORITY||||||<|0.501|||||||ANCOVA|||Null hypothesis is that there was no difference in change of Dry mouth score between Refresh and Biotene. ANCOVA model was performed by regressing the difference in after-treatment measurement between Refresh and Biotene over the difference of baseline between Refresh and Biotene. The test was performed with a significance level of 0.05 (two- sided)||||<0.501
82578487|NCT04608773|164866249|SUPERIORITY|||||||0.109|||||||ANCOVA|||||||.109
82578488|NCT04608773|164866250|SUPERIORITY|||||||0.107|||||||ANCOVA|||||||.107
82578489|NCT04608773|164866251|SUPERIORITY|||||||0.489|||||||ANCOVA|||||||.489
82578490|NCT04608773|164866252|SUPERIORITY|||||||0.213|||||||ANCOVA|||||||.213
82578491|NCT04608773|164866253|SUPERIORITY|||||||0.486|||||||ANCOVA|||||||.486
82578492|NCT02833077|164866255|SUPERIORITY||Responder Rate Difference|28.85||||0.0019|TWO_SIDED|95.0|11.16|45.6||If the 2-sided p-value is \< 0.05, the responder rate is greater for treatment than for control group, and point estimate of the responder rater for treatment group is greater than 50%, then treatment will be considered superior to control group.|Fisher's exact test|||Superiority of treatment group was established if responder rate at month 6 was statistically greater than that for the control group at month 6 and the observed responder rate at month 6 for the treatment group was greater than 50%.||45.60|11.16|0.0019
82578493|NCT02833077|164866256|OTHER||||||<|0.0001||||||P-value is based on a 2-sided paired t-test at the 5% level to demonstrate that the mean overall satisfaction score at month 6 visit is statistically greater than that at the baseline for the treatment group.|Two sided paired t-test|||||||<.0001
82578494|NCT00972322|164866272|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.34|STANDARD_ERROR_OF_MEAN|8.7||0.083|TWO_SIDED|90.0|-29.87|-0.82|||Least Squares Means Difference||Placebo - MK-8245 on Day 28|||-0.82|-29.87|0.083
82578495|NCT02387970|164866280|SUPERIORITY|||||||0.088|||||||t-test, 2 sided|||||||0.088
82578496|NCT02387970|164866281|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||||||0.235
82578497|NCT02387970|164866282|SUPERIORITY|||||||0.165|||||||t-test, 2 sided|||||||0.165
82578498|NCT02387970|164866283|SUPERIORITY|||||||0.297|||||||t-test, 2 sided|||||||0.297
82578499|NCT02387970|164866284|SUPERIORITY|||||||0.121|||||||t-test, 2 sided|||||||0.121
82578500|NCT02387970|164866285|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|||||||0.248
82578501|NCT02387970|164866286|SUPERIORITY|||||||0.854|||||||t-test, 2 sided|||||||0.854
82578502|NCT01310231|164866290|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.71|TWO_SIDED|95.0|0.63|2.31||One-sided p-value for group-effect obtained from Cox model. The prespecified threshold was 0.20 (one-sided).|Regression, Cox|Cox model for PFS with metf/plac and the two randomization stratification variables line of chemotherapy and hormone receptor status.|Ratio of hazard of progression in the Metformin group relative to hazard in the Placebo group|Power: Final study plan called for 40 progression events, giving 80% power to detect a hazard ratio (HR) of 0.58 for PFS with a one-sided type I error of 20%, where the relatively high type I error reflects the Phase II status of the trial||2.31|0.63|0.71
82578503|NCT01310231|164866291|SUPERIORITY||Odds Ratio (OR)|1.77||||0.41|TWO_SIDED|95.0|0.45|6.99||Two-side p-value from a logistic regression model.|Regression, Logistic|Logistic regression model included metf/plac and the two stratification variables line of chemotherapy and hormone receptor status.||||6.99|0.45|0.41
82652419|NCT00449072|165019534|SUPERIORITY_OR_OTHER|||||||0.0207||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical analysis for Day 360||||0.0207
82461677|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.79||0.0012|TWO_SIDED|95.0|-4.15|-1.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.03|-4.15|0.0012
82578504|NCT04662060|164866300|OTHER||Hazard Ratio (HR)|0.6||||0.07|TWO_SIDED|95.0|0.34|1.04||A p-value of \<0.05 would be considered statistically significant.|Cox proportional hazards model|Two-sided Cox proportional hazards model adjusted for age, sex, and receipt of baseline receipt of monoclonal antibodies.||A two-sided log rank test at the 0.04999 level of significance for the final analysis required 78 events (i.e., sustained symptom resolution) to provide 80% power to detect a hazard ratio of 1.91. Based on previous outpatient COVID-19 trials at Stanford, assumed placebo and treatment arm median time to symptom resolution of 10 and 5 days, respectively, for a total sample size of 120 patients. Participants with missing data lasting through Day 28 were censored on Day 28.||1.04|0.34|0.07
82461678|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.79||0.0002|TWO_SIDED|95.0|-4.54|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.42|-4.54|0.0002
82461679|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-5.44|-2.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.28|-5.44|<0.0001
82461680|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.8||0.0134|TWO_SIDED|95.0|-3.58|-0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.42|-3.58|0.0134
82461681|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0057|TWO_SIDED|95.0|-3.76|-0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.65|-3.76|0.0057
82461682|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.79||0.0016|TWO_SIDED|95.0|-4.06|-0.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.96|-4.06|0.0016
82461683|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.79||0.0843|TWO_SIDED|95.0|-2.94|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.19|-2.94|0.0843
82461684|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.8||0.0035|TWO_SIDED|95.0|-3.9|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.77|-3.90|0.0035
82461685|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.66|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.52|-4.66|0.0001
82578505|NCT04662060|164866301|OTHER|||||||0.2||||||A p-value of \<0.05 would be considered statistically significant.|Linear mixed-effects regression model|||A generalized linear mixed effects model with parameterization was utilized to capture the difference in change in viral shedding at day 10 between treatment arms. SARS-CoV2 viral RNA CT values were transformed using a standard Reference curve.||||0.20
82578506|NCT04662060|164866303|OTHER||Hazard Ratio (HR)|0.62||||0.05|TWO_SIDED|95.0|0.38|1.01|||Linear mixed-effects regression model|||||1.01|0.38|0.05
82461686|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.28|-2.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.10|-5.28|<0.0001
82461687|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.81||0.0315|TWO_SIDED|95.0|-3.33|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.16|-3.33|0.0315
82461688|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0063|TWO_SIDED|95.0|-3.75|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.62|-3.75|0.0063
82461689|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.79||0.0007|TWO_SIDED|95.0|-4.25|-1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.14|-4.25|0.0007
82461690|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.81||0.109|TWO_SIDED|95.0|-2.89|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.29|-2.89|0.1090
82578507|NCT04662060|164866304|OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.34|1.01||||||||1.01|0.34|
82461691|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.0018|TWO_SIDED|95.0|-4.14|-0.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.95|-4.14|0.0018
82461692|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.81||0.0004|TWO_SIDED|95.0|-4.54|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.34|-4.54|0.0004
82461693|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-5.4|-2.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.15|-5.40|<0.0001
82461694|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.82||0.0231|TWO_SIDED|95.0|-3.5|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.26|-3.50|0.0231
82461695|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.81||0.0056|TWO_SIDED|95.0|-3.86|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.67|-3.86|0.0056
82542977|NCT01154985|164785883|SUPERIORITY_OR_OTHER|||||||0.0153|TWO_SIDED|||||Two-sided p-values testing for significance was performed within treatment group change from baseline and comparisons between treatment groups. Multiple comparison techniques were not applied.|ANCOVA|||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||||0.0153
82542978|NCT01154985|164785883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|3.1|28.9||||||Least Squares (LS) mean, 95% CI and 2-sided p-value obtained from ANCOVA model with treatment group as a factor and baseline ALT as a covariate. 2,700 mg/day EPA-E treatment group compared to placebo.||28.9|3.1|
82461696|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.81||0.0007|TWO_SIDED|95.0|-4.35|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.17|-4.35|0.0007
82461697|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.81||0.3568|TWO_SIDED|95.0|-2.35|0.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.85|-2.35|0.3568
82461698|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.82||0.0129|TWO_SIDED|95.0|-3.65|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.43|-3.65|0.0129
82542979|NCT00722046|164785920|SUPERIORITY||Least Squares (LS) Mean Difference|1.38|STANDARD_ERROR_OF_MEAN|3.04||0.6504|TWO_SIDED|90.0|-3.68|6.45|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||6.45|-3.68|0.6504
82542980|NCT00722046|164785920|SUPERIORITY||LS Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|3.13||0.5213|TWO_SIDED|90.0|-3.2|7.23|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||7.23|-3.20|0.5213
82542981|NCT00722046|164785920|SUPERIORITY||LS Mean Difference|2.27|STANDARD_ERROR_OF_MEAN|3.13||0.4698|TWO_SIDED|90.0|-2.94|7.48|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||7.48|-2.94|0.4698
82542982|NCT00722046|164785920|SUPERIORITY||LS Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.66||0.5183|TWO_SIDED|90.0|-2.71|6.17|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||6.17|-2.71|0.5183
82461699|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.82||0.0018|TWO_SIDED|95.0|-4.19|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.97|-4.19|0.0018
82461700|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.83||0.0003|TWO_SIDED|95.0|-4.7|-1.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.42|-4.70|0.0003
82461701|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.83||0.1004|TWO_SIDED|95.0|-3.0|0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.27|-3.00|0.1004
82461702|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.82||0.0173|TWO_SIDED|95.0|-3.57|-0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.35|-3.57|0.0173
82578508|NCT04662060|164866305|OTHER|||||||0.21||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||Difference in incidence of ED visits||||0.21
82461703|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.81||0.0038|TWO_SIDED|95.0|-3.97|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.77|-3.97|0.0038
82461704|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.78||0.1767|TWO_SIDED|95.0|-2.57|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.48|-2.57|0.1767
82461705|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.77||0.0308|TWO_SIDED|95.0|-3.2|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.16|-3.20|0.0308
82461706|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.78||0.0013|TWO_SIDED|95.0|-4.07|-1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.00|-4.07|0.0013
82461707|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.47|-1.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.36|-4.47|0.0003
82461708|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.79||0.2109|TWO_SIDED|95.0|-2.55|0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.56|-2.55|0.2109
82461709|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0152|TWO_SIDED|95.0|-3.44|-0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.37|-3.44|0.0152
82461710|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.77||0.0075|TWO_SIDED|95.0|-3.61|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.56|-3.61|0.0075
82461711|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.8||0.0869|TWO_SIDED|95.0|-2.96|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.20|-2.96|0.0869
82461712|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.052|TWO_SIDED|95.0|-3.14|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.01|-3.14|0.0520
82461713|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.81||0.0009|TWO_SIDED|95.0|-4.3|-1.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.12|-4.30|0.0009
82461714|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.82||0.0002|TWO_SIDED|95.0|-4.68|-1.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.46|-4.68|0.0002
82461715|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.82||0.0456|TWO_SIDED|95.0|-3.25|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-0.03|-3.25|0.0456
82461716|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.81||0.0073|TWO_SIDED|95.0|-3.76|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.59|-3.76|0.0073
82461717|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.8||0.0026|TWO_SIDED|95.0|-4.01|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.86|-4.01|0.0026
82461718|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.78||0.0878|TWO_SIDED|95.0|-2.87|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.20|-2.87|0.0878
82461719|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0182|TWO_SIDED|95.0|-3.39|-0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.32|-3.39|0.0182
82542983|NCT00722046|164785920|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|2.7||0.7529|TWO_SIDED|90.0|-3.65|5.35|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.35|-3.65|0.7529
82461720|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.79||0.0002|TWO_SIDED|95.0|-4.55|-1.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.44|-4.55|0.0002
82461721|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.8||0.0002|TWO_SIDED|95.0|-4.53|-1.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.40|-4.53|0.0002
82461722|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.8||0.0387|TWO_SIDED|95.0|-3.22|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.09|-3.22|0.0387
82461723|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.79||0.0031|TWO_SIDED|95.0|-3.89|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.80|-3.89|0.0031
82542984|NCT00722046|164785922|SUPERIORITY||LS Mean Difference|-4.07|STANDARD_ERROR_OF_MEAN|5.59||0.4688|TWO_SIDED|90.0|-13.38|5.24|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.24|-13.38|0.4688
82461724|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.78||0.0029|TWO_SIDED|95.0|-3.88|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.81|-3.88|0.0029
82461725|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.76||0.0653|TWO_SIDED|95.0|-2.9|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.09|-2.90|0.0653
82461726|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.76||0.0102|TWO_SIDED|95.0|-3.46|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.47|-3.46|0.0102
82461727|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.77||0.0002|TWO_SIDED|95.0|-4.38|-1.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.36|-4.38|0.0002
82461728|NCT03192176|164625573|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|-4.72|-1.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.67|-4.72|<0.0001
82461729|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.78||0.0231|TWO_SIDED|95.0|-3.3|-0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.25|-3.30|0.0231
82461730|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.78||0.0021|TWO_SIDED|95.0|-3.88|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.87|-3.88|0.0021
82542985|NCT00722046|164785922|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|5.64||0.9743|TWO_SIDED|90.0|-9.59|9.22|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||9.22|-9.59|0.9743
82542986|NCT00722046|164785922|SUPERIORITY||LS Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|5.65||0.8824|TWO_SIDED|90.0|-8.57|10.25|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||10.25|-8.57|0.8824
82461731|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.76||0.0021|TWO_SIDED|95.0|-3.88|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.87|-3.88|0.0021
82461732|NCT03192176|164625573|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.76||0.0013|TWO_SIDED|95.0|-3.96|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.97|-3.96|0.0013
82461733|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.84||0.146|TWO_SIDED|95.0|-2.89|0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.43|-2.89|0.1460
82542987|NCT00722046|164785922|SUPERIORITY||LS Mean Difference|-4.09|STANDARD_ERROR_OF_MEAN|5.81||0.4831|TWO_SIDED|90.0|-13.77|5.58|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||5.58|-13.77|0.4831
82461734|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.84||0.6066|TWO_SIDED|95.0|-2.1|1.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||1.23|-2.10|0.6066
82461735|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.87||0.8422|TWO_SIDED|95.0|-1.88|1.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.54|-1.88|0.8422
82461736|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.87||0.2346|TWO_SIDED|95.0|-2.74|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.67|-2.74|0.2346
82461737|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.87||0.1128|TWO_SIDED|95.0|-3.11|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.33|-3.11|0.1128
82461738|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.87||0.1811|TWO_SIDED|95.0|-2.89|0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.55|-2.89|0.1811
82461739|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.3521|TWO_SIDED|95.0|-2.45|0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.87|-2.45|0.3521
82461740|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.357|TWO_SIDED|95.0|-2.44|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.88|-2.44|0.3570
82461741|NCT03192176|164625573|SUPERIORITY||LSMean differencce|-0.1|STANDARD_ERROR_OF_MEAN|0.84||0.9227|TWO_SIDED|95.0|-1.73|1.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.57|-1.73|0.9227
82461742|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.87||0.8894|TWO_SIDED|95.0|-1.84|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.60|-1.84|0.8894
82461743|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.87||0.5074|TWO_SIDED|95.0|-2.29|1.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.13|-2.29|0.5074
82542988|NCT00722046|164785922|SUPERIORITY||LS Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|5.88||0.9562|TWO_SIDED|90.0|-9.48|10.13|||Mixed Models Analysis|||Mixed model repeated measures used terms for treatment, visit, baseline value, country, and treatment-by-visit interaction, with unstructured covariance matrix.||10.13|-9.48|0.9562
82461744|NCT03192176|164625573|SUPERIORITY||LSMean differencce|-1.2|STANDARD_ERROR_OF_MEAN|0.87||0.1753|TWO_SIDED|95.0|-2.91|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.53|-2.91|0.1753
82461745|NCT03192176|164625573|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.88||0.1212|TWO_SIDED|95.0|-3.09|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.36|-3.09|0.1212
82461746|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.84||0.3702|TWO_SIDED|95.0|-2.41|0.9||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.90|-2.41|0.3702
82461747|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.81||0.6459|TWO_SIDED|95.0|-1.22|1.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.96|-1.22|0.6459
82461748|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.8248|TWO_SIDED|95.0|-1.4|1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.75|-1.40|0.8248
82461749|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.7|STANDARD_ERROR_OF_MEAN|0.84||0.4226|TWO_SIDED|95.0|-0.98|2.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.33|-0.98|0.4226
82542989|NCT00925587|164785932|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin -0.5 g/dL|Mean Difference (Final Values)|-0.188|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|-0.427|0.052|||||Darbepoetin alfa QM - Darbepoetin alfa Q2W|Power = 90% at sample size calculation||0.052|-0.427|
82542990|NCT00666276|164786033|SUPERIORITY_OR_OTHER||||||=|0.712|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is there is no difference between males and females in the incidence rate of ADRs."||||=0.712
82461750|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.83||0.6469|TWO_SIDED|95.0|-1.25|2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.01|-1.25|0.6469
82461751|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.84||0.7642|TWO_SIDED|95.0|-1.41|1.91||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.91|-1.41|0.7642
82461752|NCT03192176|164625573|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.84||0.4068|TWO_SIDED|95.0|-2.36|0.966||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.966|-2.36|0.4068
82461753|NCT03192176|164625573|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.7974|TWO_SIDED|95.0|-1.37|1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.78|-1.37|0.7974
82461754|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.78||0.0297|TWO_SIDED|95.0|-3.23|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.17|-3.23|0.0297
82461755|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.78|<|0.0001|TWO_SIDED|95.0|-4.66|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.58|-4.66|<0.0001
82461756|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.78|<|1e-05|TWO_SIDED|95.0|-5.1|-2.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.02|-5.10|<0.00001
82461757|NCT03192176|164625574|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|-5.78|-2.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.66|-5.78|<0.0001
82461758|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1318|TWO_SIDED|95.0|-2.76|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.36|-2.76|0.1318
82542991|NCT00666276|164786034|SUPERIORITY_OR_OTHER||||||=|0.257|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is there is no difference between over 65 and less than 65 in the incidence rate of ADRs."||||=0.257
82542992|NCT00666276|164786035|SUPERIORITY_OR_OTHER||||||=|0.082|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Hepatic dysfunctions. The null hypothesis is there is no difference between with Hepatic dysfunction and without Hepatic dysfunction in the incidence rate of ADRs."||||=0.082
82461759|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.001|TWO_SIDED|95.0|-4.13|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.05|-4.13|0.0010
82461760|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.0011|TWO_SIDED|95.0|-4.1|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.04|-4.10|0.0011
82461761|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.79||0.0405|TWO_SIDED|95.0|-3.2|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.07|-3.20|0.0405
82542993|NCT00666276|164786036|SUPERIORITY_OR_OTHER||||||=|0.462|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Renal dysfunctions. The null hypothesis is there is no difference between with Renal dysfunction and without Renal dysfunction in the incidence rate of ADRs."||||=0.462
82542994|NCT00666276|164786037|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Duration of drug administration. The null hypothesis is there is no difference between over 15 days and less than 15 days in the incidence rate of ADRs."||||<0.001
82542995|NCT00666276|164786038|SUPERIORITY_OR_OTHER||||||=|0.018|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Route of administration. The null hypothesis is there is no difference between oral, injection and switch in the incidence rate of ADRs."||||=0.018
82542996|NCT00666276|164786039|SUPERIORITY_OR_OTHER||||||=|0.311|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Weight. The null hypothesis is there is no difference between over 40kg and less than 40kg in the incidence rate of ADRs."||||=0.311
82542997|NCT00666276|164786040|SUPERIORITY_OR_OTHER||||||=|0.044|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Concomitant drugs. The null hypothesis is there is no difference between with Concomitant drug and without Concomitant drug in the incidence rate of ADRs."||||=0.044
82461762|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.7|-1.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.55|-4.70|0.0001
82461763|NCT03192176|164625574|SUPERIORITY||LSMean differencce|-3.1|STANDARD_ERROR_OF_MEAN|0.8||0.0001|TWO_SIDED|95.0|-4.66|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.52|-4.66|0.0001
82461764|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.26|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.07|-5.26|<0.0001
82461765|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.81||0.0325|TWO_SIDED|95.0|-3.34|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.15|-3.34|0.0325
82461766|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.8||0.0035|TWO_SIDED|95.0|-3.92|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.78|-3.92|0.0035
82461767|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0102|TWO_SIDED|95.0|-3.61|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.49|-3.61|0.0102
82461768|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.81||0.0098|TWO_SIDED|95.0|-3.69|-0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.51|-3.69|0.0098
82461769|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.18|-1.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.98|-5.18|<0.0001
82461770|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-4.89|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.70|-4.89|<0.0001
82542998|NCT00666276|164786041|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Non-drug therapies. The null hypothesis is there is no difference between with Non-drug therapies and without Non-drug therapies in the incidence rate of ADRs."||||=0.008
82461771|NCT03192176|164625574|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|0.82|<|0.0001|TWO_SIDED|95.0|-5.61|-2.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.37|-5.61|<0.0001
82461772|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.82||0.0021|TWO_SIDED|95.0|-4.17|-0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.93|-4.17|0.0021
82461773|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.81||0.0001|TWO_SIDED|95.0|-4.71|-1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.52|-4.71|0.0001
82461774|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.81||0.002|TWO_SIDED|95.0|-4.11|-0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.93|-4.11|0.0020
82461775|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.76||0.021|TWO_SIDED|95.0|-3.27|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.27|-3.27|0.0210
82461776|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.1|STANDARD_ERROR_OF_MEAN|0.77|<|0.0001|TWO_SIDED|95.0|-4.59|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.58|-4.59|<0.0001
82461777|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.88|STANDARD_ERROR_OF_MEAN|0.77||0.0003|TWO_SIDED|95.0|-4.34|-1.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.33|-4.34|0.0003
82542999|NCT01039688|164786043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.14||0.0014|TWO_SIDED|95.0|-0.73|-0.18||A stepdown procedure was used to control for multiple comparisons. In order for the comparison of CP-690,550 5 mg to be statistically significant versus MTX, the comparison of CP-690,550 10 mg versus MTX had to be statistically significant.|ANCOVA|||||-0.18|-0.73|0.0014
82461778|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-5.29|-2.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.23|-5.29|<0.0001
82461779|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.77||0.0023|TWO_SIDED|95.0|-3.91|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.86|-3.91|0.0023
82461780|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.76||0.0004|TWO_SIDED|95.0|-4.25|-1.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.24|-4.25|0.0004
82461781|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.76||0.0036|TWO_SIDED|95.0|-3.73|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.74|-3.73|0.0036
82461782|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.77||0.0195|TWO_SIDED|95.0|-3.33|-0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.29|-3.33|0.0195
82461783|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.21|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.17|-4.21|0.0006
82461784|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.77||0.0004|TWO_SIDED|95.0|-4.32|-1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.27|-4.32|0.0004
82461785|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|-5.01|-1.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.92|-5.01|<0.0001
82461786|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.78||0.0061|TWO_SIDED|95.0|-3.71|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.62|-3.71|0.0061
82461787|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0006|TWO_SIDED|95.0|-4.19|-1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.14|-4.19|0.0006
82461788|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.77||0.003|TWO_SIDED|95.0|-3.81|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.78|-3.81|0.0030
82652420|NCT00449072|165019535|SUPERIORITY_OR_OTHER|||||||0.2445||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 120||||0.2445
82461789|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.78||0.0383|TWO_SIDED|95.0|-3.17|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.09|-3.17|0.0383
82461790|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.79||0.0004|TWO_SIDED|95.0|-4.33|-1.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.24|-4.33|0.0004
82461791|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.79||0.0011|TWO_SIDED|95.0|-4.14|-1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.04|-4.14|0.0011
82461792|NCT03192176|164625574|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|0.8|<|0.0001|TWO_SIDED|95.0|-5.07|-1.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.93|-5.07|<0.0001
82461793|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0055|TWO_SIDED|95.0|-3.8|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.66|-3.80|0.0055
82461794|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.79||0.0014|TWO_SIDED|95.0|-4.09|-0.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.99|-4.09|0.0014
82461795|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.78||0.004|TWO_SIDED|95.0|-3.8|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.73|-3.80|0.0040
82461796|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.78||0.1502|TWO_SIDED|95.0|-2.68|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.41|-2.68|0.1502
82461797|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0057|TWO_SIDED|95.0|-3.74|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.64|-3.74|0.0057
82461798|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0054|TWO_SIDED|95.0|-3.76|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.66|-3.76|0.0054
82461799|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.8||0.0006|TWO_SIDED|95.0|-4.38|-1.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.22|-4.38|0.0006
82461800|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.8||0.0412|TWO_SIDED|95.0|-3.21|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.07|-3.21|0.0412
82461801|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.79||0.0054|TWO_SIDED|95.0|-3.76|-0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.66|-3.76|0.0054
82461802|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.78||0.0167|TWO_SIDED|95.0|-3.43|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.34|-3.43|0.0167
82461803|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.75||0.0533|TWO_SIDED|95.0|-2.94|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.02|-2.94|0.0533
82578509|NCT00316017|164866307|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who survived to day 28 day between the three groups.||||0.91
82461804|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.0065|TWO_SIDED|95.0|-3.54|-0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.58|-3.54|0.0065
82461805|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.76||0.0025|TWO_SIDED|95.0|-3.8|-0.82||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.82|-3.80|0.0025
82461806|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.77||0.0005|TWO_SIDED|95.0|-4.22|-1.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.20|-4.22|0.0005
82461807|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.77||0.0541|TWO_SIDED|95.0|-2.99|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.03|-2.99|0.0541
82461808|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.76||0.0039|TWO_SIDED|95.0|-3.69|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.71|-3.69|0.0039
82461809|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.75||0.0245|TWO_SIDED|95.0|-3.18|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.22|-3.18|0.0245
82461810|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.78||0.0187|TWO_SIDED|95.0|-3.36|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.31|-3.36|0.0187
82578510|NCT00316017|164866308|SUPERIORITY_OR_OTHER|||||||0.94||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in ARDS-free survival through day 28 between the three groups.||||0.94
82461811|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.78||0.006|TWO_SIDED|95.0|-3.68|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.62|-3.68|0.0060
82543000|NCT01039688|164786043|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.0004|TWO_SIDED|95.0|-0.77|-0.23||A stepdown procedure was used to control for multiple comparisons. In order for the comparison of CP-690,550 5 mg to be statistically significant versus MTX, the comparison of CP-690,550 10 mg versus MTX had to be statistically significant.|ANCOVA|||||-0.23|-0.77|0.0004
82543001|NCT01039688|164786044|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.32|||<|0.0001|TWO_SIDED|95.0|6.81|19.82||A stepdown procedure was used to control for multiple comparisons. For comparison of 5 mg to be statistically significant, comparison of 10 mg to MTX in ACR70 and comparison of 5 mg to MTX in change from BL in mTSS had to be statistically significant|Normal approximation|||||19.82|6.81|<0.0001
82543002|NCT01039688|164786044|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.25|||<|0.0001|TWO_SIDED|95.0|18.51|31.99||A stepdown procedure was used to control for multiple comparisons. For comparison of 10 mg to MTX in ACR70 to be statistically significant, comparison of 10 mg to MTX in change from BL in mTSS had to be statistically significant|Normal approximation|||||31.99|18.51|<0.0001
82543003|NCT02594735|164786133|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82578511|NCT00316017|164866309|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in average Worst Multiple Organ Dysfunction Scores (MODS) through day 28 between the three groups.||||0.73
82578512|NCT00316017|164866310|SUPERIORITY_OR_OTHER|||||||0.8||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients with the Presence of Nosocomial Infection through day 28 between the three groups.||||0.8
82578513|NCT00316017|164866311|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of PRBC units given within the first 24 hours between the three groups.||||0.69
82578514|NCT00316017|164866312|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average amount of Total fluids given within the first 24 hours between the three groups.||||0.57
82461812|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.78||0.0014|TWO_SIDED|95.0|-4.06|-0.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.98|-4.06|0.0014
82543004|NCT02594735|164786134|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82578515|NCT00316017|164866313|SUPERIORITY_OR_OTHER|||||||0.66||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Ventilator-free days through day 28 between the three groups.||||0.66
82578516|NCT00316017|164866314|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Days alive out of the ICU through day 28 between the three groups.||||0.82
82578517|NCT00316017|164866315|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|ANOVA|||The null hypothesis is that there are no differences in the average number of Days alive out of the hospital through day 28 between the three groups.||||0.98
82578518|NCT00316017|164866316|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who survived to hospital discharge between the three groups.||||0.85
82578519|NCT00316017|164866317|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received zero units of PRBC in the first 24 hours between the three groups.||||0.48
82578520|NCT00316017|164866318|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died in field or ED between the three groups among the patients who received zero units of PRBC.||||<0.01
82543005|NCT02594735|164786135|OTHER|||||||0.004|||||||t-test, 2 sided|||||||0.004
82543006|NCT02594735|164786136|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82543007|NCT02594735|164786137|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82543008|NCT02594735|164786138|OTHER|||||||0.375|||||||t-test, 2 sided|||||||0.375
82543009|NCT02594735|164786139|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82543010|NCT02594735|164786140|OTHER|||||||0.044|||||||Sign test|Data was not normally distributed||||||0.044
82543011|NCT02594735|164786141|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82543012|NCT03844269|164786154|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||EEG data excluded if excessive noise (rejection of more than 30% of target trials due to voltage fluctuations greater than ± 100 μV deflections within an epoch) at the pre- or post-intervention assessment||||<0.05
82543013|NCT00475319|164786156|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||versus placebo|t-test, 2 sided|a general linear model||||||0.001
82461813|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.49|-1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.37|-4.49|0.0003
82543014|NCT00475319|164786157|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||versus placebo|t-test, 2 sided|a general linear model||||||0.001
82543015|NCT03520413|164786164|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-0.61||||0.02|TWO_SIDED|95.0|-1.12|-0.11|||Mixed Models Analysis|||||-0.11|-1.12|0.02
82543016|NCT03520413|164786165|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-0.25||||0.007|TWO_SIDED|95.0|-0.42|-0.07|||Mixed Models Analysis|||||-0.07|-0.42|0.007
82543017|NCT03520413|164786166|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|0.51||||0.0002|TWO_SIDED|95.0|0.25|0.78|||Mixed Models Analysis|||||0.78|0.25|0.0002
82543018|NCT03520413|164786167|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|0.39||||0.02|TWO_SIDED|95.0|0.07|0.71|||Mixed Models Analysis|||||0.71|0.07|0.02
82543019|NCT03520413|164786168|EQUIVALENCE|Difference between groups at 6months|Mean Difference (Final Values)|0.19||||0.39|TWO_SIDED|95.0|-0.24|0.62|||Mixed Models Analysis|||||0.62|-0.24|0.39
82543020|NCT03520413|164786169|EQUIVALENCE|Difference between groups at 12months|Mean Difference (Final Values)|-1.16||||0.1|TWO_SIDED|95.0|-2.53|0.21|||Mixed Models Analysis|||||0.21|-2.53|0.10
82543021|NCT00346151|164786174|SUPERIORITY_OR_OTHER||Incidence Rate|60.0||||||95.0|15.0|95.0|||95% exact binomial CI of proportion|||Proportion of participant's cumulative incidence of acute rejection at 24 weeks with 95% exact binomial confidence interval. Local biopsy reads were used in determining primary endpoint.||95|15|
82543022|NCT00346151|164786175|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|40.0|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|40|
82543023|NCT00346151|164786176|SUPERIORITY_OR_OTHER||Incidence rate|80.0||||||95.0|28.0|99.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||99|28|
82543024|NCT00346151|164786179|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|40.0|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|40|
82543025|NCT00346151|164786181|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
82461814|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.01|TWO_SIDED|95.0|-3.61|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.49|-3.61|0.0100
82543026|NCT00346151|164786182|SUPERIORITY_OR_OTHER||Incidence Rate|80.0||||||95.0|28.0|99.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||99|28|
82461815|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.78||0.0019|TWO_SIDED|95.0|-3.98|-0.91||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.91|-3.98|0.0019
82461816|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.78||0.0049|TWO_SIDED|95.0|-3.73|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.67|-3.73|0.0049
82461817|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.75||0.0186|TWO_SIDED|95.0|-3.25|-0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.30|-3.25|0.0186
82543027|NCT00346151|164786183|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
82543028|NCT00346151|164786184|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
82543029|NCT00346151|164786185|SUPERIORITY_OR_OTHER||Incidence Rate|100.0||||||95.0|47.8|100.0|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||100|47.8|
82543030|NCT00346151|164786186|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
82543031|NCT00346151|164786187|SUPERIORITY_OR_OTHER||Incidence Rate|0.0||||||95.0|0.0|52.2|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||52.2|0|
82543032|NCT00346151|164786188|SUPERIORITY_OR_OTHER||Incidence Rate|20.0||||||95.0|0.5|71.6|||95% exact binomial CI of proportion|||Proportion with 95% exact binomial confidence interval||71.6|0.5|
82543033|NCT00891930|164786192|SUPERIORITY|||||||0.013|||||||Regression, Cox|||||||0.0130
82543034|NCT01574807|164786205|SUPERIORITY||Percentage difference|0.0||||1|TWO_SIDED|||||Multiple McNemar tests corrected with Step-down Bonferroni method of Holm. A priori threshold for significance was 0.05.|McNemar|||||||1.00
82543035|NCT02507752|164786207|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Physical component score at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA).||||< 0.001
82543036|NCT02507752|164786207|SUPERIORITY_OR_OTHER||||||=|0.014|TWO_SIDED||||||ANOVA|||Mental component score at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA).||||= 0.014
82543037|NCT02507752|164786209|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||ANOVA|||Mean change from Baseline in ESR at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.021
82543038|NCT02507752|164786209|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||ANOVA|||Mean change from Baseline in ESR at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.003
82543039|NCT02507752|164786210|SUPERIORITY_OR_OTHER||||||=|0.744|TWO_SIDED||||||ANOVA|||Mean change from Baseline in CRP at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.744
82543040|NCT02507752|164786210|SUPERIORITY_OR_OTHER||||||=|0.646|TWO_SIDED||||||ANOVA|||Mean change from Baseline in CRP at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.646
82543041|NCT02507752|164786211|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in SJC at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543042|NCT02507752|164786211|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in SJC at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543043|NCT02507752|164786212|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in TJC at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543044|NCT02507752|164786212|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in TJC at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543045|NCT02507752|164786213|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in DAS28 at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543046|NCT02507752|164786213|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in DAS28 at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543047|NCT02507752|164786214|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in patient global assessment at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543048|NCT02507752|164786214|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Mean change from Baseline in patient global assessment at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543049|NCT02507752|164786215|SUPERIORITY_OR_OTHER||||||=|0.011|TWO_SIDED||||||ANOVA|||Change in HAQ score from screening to Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.011
82543050|NCT02507752|164786215|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Change in HAQ score from screening to Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
82543051|NCT02507752|164786216|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change in pain scale from screening to Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82578521|NCT00316017|164866319|SUPERIORITY_OR_OTHER||||||<|0.02||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in percent of patients who died within 6 hours of admission to the hospital between the three groups among patients who received zero units of PRBC.||||<0.02
82578522|NCT00316017|164866320|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received zero units of PRBC.||||<0.01
82652421|NCT00449072|165019535|SUPERIORITY_OR_OTHER|||||||0.4488||95.0|||||Mixed model for repeated measures|The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.||Statistical Analysis for Day 240||||0.4488
82543052|NCT02507752|164786216|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change in pain scale from screening to Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543053|NCT02507752|164786217|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Physical component score at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
82543054|NCT02507752|164786217|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||ANOVA|||Mental component score at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.001
82578523|NCT00316017|164866321|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received 1-9 units PRBC in the first 24 hours between the three groups.||||0.51
82543055|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.102|TWO_SIDED||||||ANOVA|||Physical functioning domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.102
82543056|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||ANOVA|||Physical functioning domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.008
82543057|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||ANOVA|||Role physical domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.008
82543058|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Role physical domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543059|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||ANOVA|||Bodily pain domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.002
82543060|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Bodily pain domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||< 0.001
82543061|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.077|TWO_SIDED||||||ANOVA|||General health domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.077
82543062|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||ANOVA|||General health domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.068
82543063|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.018|TWO_SIDED||||||ANOVA|||Vitality domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.018
82543064|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.053|TWO_SIDED||||||ANOVA|||Vitality domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.053
82543065|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.002|TWO_SIDED||||||ANOVA|||Social functioning domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.002
82543066|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||ANOVA|||Social functioning domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.003
82543067|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.015|TWO_SIDED||||||ANOVA|||Role emotional domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.015
82543068|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.154|TWO_SIDED||||||ANOVA|||Role emotional domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.154
82543069|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.024|TWO_SIDED||||||ANOVA|||Mental health domain at Week 12: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.024
82543070|NCT02507752|164786218|SUPERIORITY_OR_OTHER||||||=|0.029|TWO_SIDED||||||ANOVA|||Mental health domain at Week 24: The statistical hypothesis (H0) that the change is equal to 0 is evaluated using the Repeated Measures Analysis of Variance (ANOVA)||||= 0.029
82543071|NCT01852071|164786224|SUPERIORITY||Difference in percentages|14.29|||||TWO_SIDED|95.0|-5.4|42.81||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||42.81|-5.40|
82543072|NCT01852071|164786224|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||||
82543073|NCT01852071|164786224|SUPERIORITY||Difference in percentages|7.69|||||TWO_SIDED|95.0|-10.08|25.13||||||Percentage of patients alive at 1-year post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients alive at 1-year post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||25.13|-10.08|
82578524|NCT00316017|164866322|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died in Field or ED between the three groups among the patients who received 1-9 units of PRBC.||||0.73
82650170|NCT04549259|165015453|SUPERIORITY||Odds Ratio (OR)|1.76||||0.63|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.63
82543074|NCT01852071|164786225|SUPERIORITY||Difference in percentages|35.71|||||TWO_SIDED|95.0|11.21|64.86||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||64.86|11.21|
82543075|NCT01852071|164786225|SUPERIORITY||Difference in percentages|0.0|||||TWO_SIDED|||||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||||
82543076|NCT01852071|164786225|SUPERIORITY||Difference in percentages|19.23|||||TWO_SIDED|95.0|0.71|39.35||||||Percentage of patients with EvFS at 1-year post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients with EvFS at 1-year post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||39.35|0.71|
82543077|NCT01852071|164786226|SUPERIORITY||Difference in percentages|14.29|||||TWO_SIDED|95.0|-5.4|42.81||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||42.81|-5.40|
82543078|NCT01852071|164786226|SUPERIORITY||Difference in percentages|9.09|||||TWO_SIDED|95.0|-9.55|41.28||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||41.28|-9.55|
82461818|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|0.75||0.0024|TWO_SIDED|95.0|-3.77|-0.82||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.82|-3.77|0.0024
82461819|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.76||0.0003|TWO_SIDED|95.0|-4.28|-1.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.30|-4.28|0.0003
82461820|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|0.77||0.0003|TWO_SIDED|95.0|-4.3|-1.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.29|-4.30|0.0003
82461821|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.76||0.0058|TWO_SIDED|95.0|-3.63|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.62|-3.63|0.0058
82461822|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.75||0.0008|TWO_SIDED|95.0|-4.04|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.7|-4.04|0.0008
82461823|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.75||0.005|TWO_SIDED|95.0|-3.59|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.64|-3.59|0.0050
82461824|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0205|TWO_SIDED|95.0|-3.63|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.31|-3.63|0.0205
82461825|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.85||0.2818|TWO_SIDED|95.0|-2.58|0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.75|-2.58|0.2818
82461826|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.87||0.3102|TWO_SIDED|95.0|-2.6|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.83|-2.60|0.3102
82461827|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.87||0.1422|TWO_SIDED|95.0|-2.99|0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.43|-2.99|0.1422
82461828|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.87||0.0064|TWO_SIDED|95.0|-4.12|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.68|-4.12|0.0064
82461829|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0752|TWO_SIDED|95.0|-3.28|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.16|-3.28|0.0752
82461830|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.85||0.3632|TWO_SIDED|95.0|-2.43|0.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.89|-2.43|0.3632
82461831|NCT03192176|164625574|SUPERIORITY||LSMean differencce|-1.6|STANDARD_ERROR_OF_MEAN|0.87||0.0625|TWO_SIDED|95.0|-3.32|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.09|-3.32|0.0625
82543079|NCT01852071|164786226|SUPERIORITY||Difference in percentages|12.0|||||TWO_SIDED|95.0|-5.62|31.22||||||Percentage of patients alive at 2-years post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients alive at 2-years post-treatment with OTL-101. Results are reported as percentage difference in OS of historical control group from OTL-101 on-study subjects.||31.22|-5.62|
82461832|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.86||0.6613|TWO_SIDED|95.0|-2.07|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.32|-2.07|0.6613
82543080|NCT01852071|164786227|SUPERIORITY||Difference in percentages|50.0|||||TWO_SIDED|95.0|22.71|76.96||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (without MRD) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||76.96|22.71|
82652422|NCT00449072|165019535|SUPERIORITY_OR_OTHER|||||||0.0142||95.0||||The treatment arm, assessment visit, their interaction, sex and age group were fixed effects, and assessment visit was a repeated factor.|Mixed model for repeated measures|||Statistical Analysis for Day 360||||0.0142
82543081|NCT01852071|164786227|SUPERIORITY||Difference in percentages|36.36|||||TWO_SIDED|95.0|9.8|69.21||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (with MRD) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||69.21|9.80|
82543082|NCT01852071|164786227|SUPERIORITY||Difference in percentages|44.0|||||TWO_SIDED|95.0|22.78|65.23||||||Percentage of patients with EvFS at 2-years post-treatment in the historical control groups (all control patients) were compared to the percentage of study patients with EvFS at 2-years post-treatment with OTL-101. Results are reported as percentage difference in EvFS of historical control group from OTL-101 on-study subjects.||65.23|22.78|
82543083|NCT01240330|164786235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.9|STANDARD_DEVIATION|7.46|<|0.0001|TWO_SIDED|95.0|16.3|21.59|||t-test, 1 sided|||The femoral venous peak flow velocity (PFV) compared to the subject's own resting baseline PFV.||21.59|16.30|<0.0001
82543084|NCT02423798|164786242|OTHER||Mean|9.13|||||TWO_SIDED|||||||||||||
82543085|NCT00566527|164786259|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Measles Response Rate (Arm 2 - Arm 3)|-0.91|||||TWO_SIDED|95.0|-2.82|0.87||||||Measles difference||0.87|-2.82|
82543086|NCT00566527|164786259|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Mumps Response Rate (Arm 2 - Arm 3)|0.03|||||TWO_SIDED|95.0|-1.2|1.32||||||Mumps difference||1.32|-1.20|
82543087|NCT00566527|164786259|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Rubella Response Rate (Arm 2 - Arm 3)|-0.22|||||TWO_SIDED|95.0|-1.55|1.03||||||Rubella difference||1.03|-1.55|
82578525|NCT00316017|164866323|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 6 hours of admission to the hospital between the three groups among the patients who received 1-9 units of PRBC.||||0.83
82578526|NCT00316017|164866324|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received 1-9 units of PRBC.||||0.31
82578527|NCT00316017|164866325|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who received greater than 10 units of PRBC in first 24 hours between the three groups.||||0.97
82578528|NCT00316017|164866327|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 6 hours of admission to the hospital between the three groups among the patients who received greater than 10 units of PRBC.||||0.35
82650171|NCT04549259|165015453|SUPERIORITY||Odds Ratio (OR)|0.68||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.78
82578529|NCT00316017|164866328|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||The Statistical Analysis applies to the 7.5% hypertonic saline/6% Dextran-70 (HSD),7.5% hypertonic saline (HS), and 0.9% normal saline groups.|test for proportions|||The null hypothesis is that there are no differences in the percent of patients who died within 28 days from the time of the 911 call between the three groups among the patients who received greater than 10 units of PRBC.||||0.34
82578530|NCT03746392|164866338|SUPERIORITY|||||||0.036|||||||Fisher Exact|||||||0.036
82578531|NCT04777864|164866344|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Parent group only||||0.18
82578532|NCT04777864|164866344|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Adolescent group only||||0.91
82578533|NCT04777864|164866345|SUPERIORITY|||||||0.975|||||||Regression, Linear|||Parent: Post-Index Visit||||0.975
82543088|NCT00566527|164786259|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -10. Values are shown as percentages.|Varicella Response Rate (Arm 2 - Arm 3)|0.0|||||TWO_SIDED|95.0|-1.28|1.1||||||Varicella difference||1.10|-1.28|
82543089|NCT00566527|164786260|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Measles Response Rate (Arm 1 - Arm 3)|-3.97|||||TWO_SIDED|95.0|-6.44|-1.87||||||Measles difference||-1.87|-6.44|
82543090|NCT00566527|164786260|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Mumps Response Rate (Arm 1 - Arm 3)|-0.35|||||TWO_SIDED|95.0|-1.71|1.01||||||Mumps difference||1.01|-1.71|
82578534|NCT04777864|164866345|SUPERIORITY|||||||0.854|||||||Regression, Linear|||Adolescent: Post-Index Visit||||0.854
82578535|NCT04777864|164866348|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Post-Index Visit||||0.03
82578536|NCT04777864|164866348|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||3 months after initial clinic visit||||0.21
82578537|NCT04777864|164866349|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Baseline||||0.76
82578538|NCT04777864|164866349|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Post-Index Visit||||0.96
82578539|NCT04777864|164866349|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||3 months after initial clinic visit||||0.96
82578540|NCT05718466|164866368|SUPERIORITY|||||||0.11|||||||Log Rank|||||||0.11
82578541|NCT05718466|164866369|SUPERIORITY|||||||0.001|||||||Log Rank|||||||0.001
82578542|NCT01253135|164866371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|4.7||0.3393|TWO_SIDED|95.0|-3.08|0.84|||Prentice-Wilcoxon test||The Confidence Interval was based on a t-distribution|||0.84|-3.08|.3393
82578543|NCT01253135|164866372|SUPERIORITY_OR_OTHER|||||||0.4771|TWO_SIDED||||||Log Rank|Testing was by a Log Rank test with significance being at P \< 0.05||||||.4771
82578544|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|77.4||||||95.0||||||||||||
82578545|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|28.4||||||95.0||||||||||||
82578546|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|5.7||||||95.0||||||||||||
82578547|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|4.9||||||95.0||||||||||||
82578548|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|79.2||||||95.0||||||||||||
82461833|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.9||0.4209|TWO_SIDED|95.0|-2.48|1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.04|-2.48|0.4209
82461834|NCT03192176|164625574|SUPERIORITY||LSMean differencce|-0.9|STANDARD_ERROR_OF_MEAN|0.89||0.3288|TWO_SIDED|95.0|-2.63|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.88|-2.63|0.3288
82461835|NCT03192176|164625574|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.9||0.0202|TWO_SIDED|95.0|-3.86|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.33|-3.86|0.0202
82461836|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.0682|TWO_SIDED|95.0|-3.42|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.12|-3.42|0.0682
82461837|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86||0.3912|TWO_SIDED|95.0|-2.44|0.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.96|-2.44|0.3912
82578549|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|23.1||||||95.0||||||||||||
82578550|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|3.8||||||95.0||||||||||||
82578551|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|6.1||||||95.0||||||||||||
82461838|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.85||0.4964|TWO_SIDED|95.0|-2.25|1.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.09|-2.25|0.4964
82578552|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|82.4||||||95.0||||||||||||
82578553|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|23.5||||||95.0||||||||||||
82578554|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|5.9||||||95.0||||||||||||
82578555|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|5.8||||||95.0||||||||||||
82578556|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with TEAEs|76.9||||||95.0||||||||||||
82578557|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with related AEs|20.0||||||95.0||||||||||||
82578558|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with severe AEs|6.2||||||95.0||||||||||||
82578559|NCT00379288|164866390|SUPERIORITY_OR_OTHER_LEGACY||percentage of subjects with serious AEs|3.1||||||95.0||||||||||||
82578560|NCT00918879|164866391|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.139||0.0011||95.0|-0.73|-0.18|||ANCOVA|\* adjusted for baseline HbA1c||||-0.18|-0.73|0.0011
82578561|NCT00918879|164866392|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.19|STANDARD_ERROR_OF_MEAN|5.438||0.0623||95.0|-20.91|0.53|||ANCOVA|\* Adjusted for baseline FPG||||0.53|-20.91|0.0623
82578562|NCT00918879|164866393|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.302||0.0623||95.0|-1.17|0.02|||ANCOVA|\* Adjusted for baseline FPG||||0.02|-1.17|0.0623
82578563|NCT00918879|164866394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.8||||||95.0|-1.7|19.3|||Fisher Exact|||||19.3|-1.7|
82578564|NCT00515671|164866427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8868|TWO_SIDED||||||Mixed Models Analysis|||||||.8868
82578565|NCT00515671|164866428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3328|TWO_SIDED||||||Mixed Models Analysis|||||||.3328
82578566|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Headache Response||||1.0000
82578567|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0991|||||||Fisher Exact|||Headache Response||||0.0991
82578568|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4851|||||||Chi-squared|||Headache Response||||0.4851
82578569|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1178|||||||Chi-squared|||Headache Response||||0.1178
82578570|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1093|||||||Chi-squared|||Headache Response||||0.1093
82578571|NCT00384774|164866429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3364|||||||Fisher Exact|||Headache Response||||0.3364
82578572|NCT00288639|164866445|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.72|STANDARD_DEVIATION|55.232||||95.0|-34.16|-11.28|||||Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-11.28|-34.16|
82650172|NCT04549259|165015453|SUPERIORITY||Odds Ratio (OR)|0.87||||0.9|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.90
82652423|NCT01787825|165019541|NON_INFERIORITY|This is McNemar design.|percentage concordance|77.19||||1|TWO_SIDED|95.0|68.68|83.93||The blinded readers assessed concordance of normal versus abnormal and overall concordance of clinically significant abnormal images.|McNemar||Overall concordance of clinically significant abnormal images.|There was a comparison between normal and abnormal images. And detailed analysis of abnormal images that were considered clinical significant.||83.93|68.68|1.0000
82461839|NCT03192176|164625574|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.84||0.983|TWO_SIDED|95.0|-1.64|1.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.68|-1.64|0.9830
82461840|NCT03192176|164625574|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.89||0.9715|TWO_SIDED|95.0|-1.71|1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.78|-1.71|0.9715
82461841|NCT03192176|164625574|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.87||0.8715|TWO_SIDED|95.0|-1.58|1.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.86|-1.58|0.8715
82461842|NCT03192176|164625574|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.89||0.2233|TWO_SIDED|95.0|-2.83|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.66|-2.83|0.2233
82461843|NCT03192176|164625574|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.89||0.2882|TWO_SIDED|95.0|-2.69|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.80|-2.69|0.2882
82461844|NCT03192176|164625574|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.84||0.8643||95.0|-1.52|1.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.80|-1.52|0.8643
82461845|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0104|TWO_SIDED|95.0|-0.53|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.07|-0.53|0.0104
82461846|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.006|TWO_SIDED|95.0|-0.56|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.09|-0.56|0.0060
82461847|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.71|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.24|-0.71|<0.0001
82461848|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.85|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.38|-0.85|<0.0001
82461849|NCT03192176|164625575|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.6977|TWO_SIDED|95.0|-0.28|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.19|-0.28|0.6977
82461850|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0121|TWO_SIDED|95.0|-0.53|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.07|-0.53|0.0121
82543091|NCT00566527|164786260|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -5. Values are shown as percentages.|Rubella Response Rate (Arm 1 - Arm 3)|-0.15|||||TWO_SIDED|95.0|-1.34|1.09||||||Rubella difference||1.09|-1.34|
82543092|NCT00566527|164786260|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared when the lower bound of the 95% CI was \> -10. Values are shown as percentages.|Varicella Response Rate (Arm 1 - Arm 3)|0.0|||||TWO_SIDED|95.0|-1.83|1.1||||||Varicella difference||1.10|-1.83|
82543093|NCT00457743|164786281|SUPERIORITY_OR_OTHER||Disease control Rate (percentage)|56.7||||||95.0|37.4|74.5|||||The disease control rate, defined as the percentage of subjects confirmed with CR, PR, and SD \>=10 weeks on study according to RECIST.|||74.5|37.4|
82543094|NCT00457743|164786283|SUPERIORITY_OR_OTHER||Objective Response Rate(percentage)|13.3||||||95.0|3.8|30.7|||||The subjects confirmed with complete response (CR) and partial response (PR) according to Response Evaluation Criteria in Solid Tumors (RECIST).|||30.7|3.8|
82461851|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0086|TWO_SIDED|95.0|-0.54|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.08|-0.54|0.0086
82461852|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0138|TWO_SIDED|95.0|-0.66|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.08|-0.66|0.0138
82461853|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0014|TWO_SIDED|95.0|-0.78|-0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.19|-0.78|0.0014
82461854|NCT03192176|164625575|SUPERIORITY||LSMean differencce|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.02|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.43|-1.02|<0.0001
82461855|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.19|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.59|-1.19|<0.0001
82461856|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.2831|TWO_SIDED|95.0|-0.46|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.14|-0.46|0.2831
82461857|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0051|TWO_SIDED|95.0|-0.72|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.13|-0.72|0.0051
82461858|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0006|TWO_SIDED|95.0|-0.81|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.22|-0.81|0.0006
82461859|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0058|TWO_SIDED|95.0|-0.83|-0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.14|-0.83|0.0058
82461860|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0004|TWO_SIDED|95.0|-0.97|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.28|-0.97|0.0004
82461861|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.46|-1.14|<0.0001
82461862|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.27|-0.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.57|-1.27|<0.0001
82461863|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0807|TWO_SIDED|95.0|-0.66|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||0.04|-0.66|0.0807
82461864|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0014|TWO_SIDED|95.0|-0.91|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.22|-0.91|0.0014
82461865|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17||0.0001|TWO_SIDED|95.0|-1.02|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.34|-1.02|0.0001
82652424|NCT01787825|165019543|SUPERIORITY_OR_OTHER||percentage concordance|71.93||||0.972|TWO_SIDED|95.0|63.07|79.36|||Bowkers|||||79.36|63.07|0.972
82461866|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0046|TWO_SIDED|95.0|-0.85|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.16|-0.85|0.0046
82461867|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0003|TWO_SIDED|95.0|-0.99|-0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.29|-0.99|0.0003
82652425|NCT02398188|165019598|SUPERIORITY|||||||0.397|||||||Cochran-Mantel-Haenszel|||||||0.397
82652426|NCT02398188|165019599|SUPERIORITY|||||||0.379|||||||Cochran-Mantel-Haenszel|||||||0.379
82543095|NCT00457743|164786292|SUPERIORITY_OR_OTHER||CBR rate (percentage)|40.0||||||95.0|22.7|59.4|||||The clinical benefit response (CBR) rate, defined as the percentage of the subjects confirmed with CR, PR, or SD\>=22 weeks on study according to Response Evaluation Criteria in Solid Tumors (RECIST).|||59.4|22.7|
82543096|NCT04090190|164786295|SUPERIORITY|||||||0.6497|||||||Wilcoxon (Mann-Whitney)|||T-test of Wilcoxon rank sum was used to test this non-normal data. Null hypothesis is that the concentration of urine inflammatory markers is the same at baseline and follow-up. This p-value is the probability that the difference in the CRP Calc. Conc. (pg/ml) between baseline and follow-up.||||0.6497
82543097|NCT04090190|164786295|SUPERIORITY|||||||0.4281|||||||Wilcoxon (Mann-Whitney)|||T-test of Wilcoxon rank sum was used to test this non-normal data. Null hypothesis is that the concentration of urine inflammatory markers is the same at baseline and follow-up. This p-value is the probability that the difference in the IL-12/IL-23p40 Calc. Conc. (pg/ml) between baseline and follow-up.||||0.4281
82543098|NCT04090190|164786295|SUPERIORITY|||||||0.3157|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of MCP-1 Calc. Conc. (pg/ml) is due to chance.||||0.3157
82543099|NCT04090190|164786295|SUPERIORITY|||||||0.1463|||||||Wilcoxon (Mann-Whitney)|||This p-value represents the probability that the difference between baseline and follow-up levels of GM-CSF Calc. Conc. (pg/ml) is due to chance.||||0.1463
82543100|NCT04090190|164786295|SUPERIORITY|||||||0.6091|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-1β Calc. Conc. (pg/ml) is due to chance.||||0.6091
82543101|NCT04090190|164786295|SUPERIORITY|||||||0.3011|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-6 Calc. Conc. (pg/ml) is due to chance.||||0.3011
82543102|NCT04090190|164786295|SUPERIORITY|||||||0.5009|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the baseline and follow-up levels of the urine inflammatory markers are due to chance. This p-value represents the probability that the difference between the baseline and follow-up levels of IL-8 Calc. Conc. (pg/ml) is due to chance.||||0.5009
82543103|NCT00028093|164786298|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: there is no difference in the outcome between the two groups||||0.54
82543104|NCT02079844|164786299|SUPERIORITY_OR_OTHER||LS Mean Difference|0.232|STANDARD_ERROR_OF_MEAN|0.7313||0.753|TWO_SIDED|95.0|-1.269|1.733||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||1.733|-1.269|0.753
82461868|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.45|-1.14|<0.0001
82461869|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.14|-0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.70|-1.14|<0.0001
82543105|NCT02079844|164786299|SUPERIORITY_OR_OTHER||LS Mean Difference|0.133|STANDARD_ERROR_OF_MEAN|0.7417||0.859|TWO_SIDED|95.0|-1.389|1.655||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||1.655|-1.389|0.859
82543106|NCT02079844|164786300|SUPERIORITY_OR_OTHER||LS Mean Difference|1.938|STANDARD_ERROR_OF_MEAN|1.2436||0.131|TWO_SIDED|95.0|-0.614|4.49||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||4.490|-0.614|0.131
82543107|NCT02079844|164786300|SUPERIORITY_OR_OTHER||LS Mean Difference|2.377|STANDARD_ERROR_OF_MEAN|1.2545||0.069|TWO_SIDED|95.0|-0.198|4.951||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||4.951|-0.198|0.069
82543108|NCT02079844|164786301|SUPERIORITY_OR_OTHER||LS Mean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.1757||0.671|TWO_SIDED|95.0|-0.739|0.106||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||0.106|-0.739|0.671
82543109|NCT02079844|164786301|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.171|STANDARD_ERROR_OF_MEAN|0.1757||0.345|TWO_SIDED|95.0|-1.193|0.571||P-values are from ANOVA with treatment sequence, study period, and treatment as fixed effects and subject nested within treatment sequence as a random effect.|ANOVA|||||0.571|-1.193|0.345
82543110|NCT02515305|164786321|EQUIVALENCE|provides 85% power of success|equivalence ratio|97.54|||||TWO_SIDED|90.0|94.6|104.7||No p-value calculated, just a T/R ratio and 90% confidence interval for the bioequivalence analysis|Fieller's method|||||104.7|94.6|
82543111|NCT02515305|164786322|EQUIVALENCE|provides 85% power of success|Equivalence ratio|100.1|||||TWO_SIDED|90.0|96.0|109.3|||Fieller's method|||||109.3|96|
82543112|NCT01351272|164786327|SUPERIORITY||||||=|0.09|||||||SPM two-sample t-test|||||||=0.09
82543113|NCT01351272|164786328|SUPERIORITY||||||=|0.16|||||||t-test, 1 sided|||||||= 0.16
82543114|NCT01351272|164786329|SUPERIORITY||||||=|0.09|||||||t-test, 1 sided|||||||= 0.09
82543115|NCT05135000|164786390|OTHER||Cox Proportional Hazard|0.7||||0.6843|TWO_SIDED|80.0|0.2|2.8|||Log Rank|||||2.8|0.2|0.6843
82543116|NCT02576574|164786392|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.007|TWO_SIDED|95.0|0.54|0.93|||Log Rank|||||0.93|0.54|0.0070
82543117|NCT02576574|164786393|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0196|TWO_SIDED|95.0|0.52|0.98|||Log Rank|||||0.98|0.52|0.0196
82543118|NCT02576574|164786394|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1032|TWO_SIDED|95.0|0.67|1.09|||Log Rank|||||1.09|0.67|0.1032
82543119|NCT02576574|164786395|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.063|TWO_SIDED|95.0|0.59|1.07|||Log Rank|||||1.07|0.59|0.0630
82543120|NCT02576574|164786396|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0147|TWO_SIDED|95.0|0.62|0.98|||Log Rank|||||0.98|0.62|0.0147
82543121|NCT02576574|164786397|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1753|TWO_SIDED|95.0|0.67|1.15|||Log Rank|||||1.15|0.67|0.1753
82461870|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0209|TWO_SIDED|95.0|-0.77|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.06|-0.77|0.0209
82461871|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_DEVIATION|0.18||0.0011|TWO_SIDED|95.0|-0.93|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.24|-0.93|0.0011
82461872|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.07|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.38|-1.07|<0.0001
82461873|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0956|TWO_SIDED|95.0|-0.67|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.67|0.0956
82461874|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|95.0|-0.89|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.89|0.0050
82461875|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.18|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.45|-1.18|<0.0001
82543122|NCT02576574|164786398|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0257|TWO_SIDED|95.0|0.66|1.0|||Log Rank|||||1.00|0.66|0.0257
82543123|NCT02576574|164786399|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0809|TWO_SIDED|95.0|0.66|1.07|||Log Rank|||||1.07|0.66|0.0809
82543124|NCT02576574|164786400|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1294|TWO_SIDED|95.0|0.78|1.07|||Log Rank|||||1.07|0.78|0.1294
82578573|NCT00288639|164866446|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-17.26|STANDARD_DEVIATION|48.797||||95.0|-27.36|-7.15|||||Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-7.15|-27.36|
82578574|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.43|STANDARD_DEVIATION|56.615||||95.0|-34.16|-10.71|||||1-28 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts.Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-10.71|-34.16|
82652427|NCT00220701|165019606|SUPERIORITY_OR_OTHER||F statistics|2.82||||0.1|TWO_SIDED||||||Repeated Measures ANOVA|||||||0.10
82461876|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.4|-0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.65|-1.40|<0.0001
82461877|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0915|TWO_SIDED|95.0|-0.69|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.69|0.0915
82543125|NCT02576574|164786401|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2618|TWO_SIDED|95.0|0.79|1.13|||Log Rank|||||1.13|0.79|0.2618
82543126|NCT02576574|164786402|SUPERIORITY||Odds Ratio (OR)|1.41||||0.064|TWO_SIDED|95.0|0.91|2.18|||Cochran-Mantel-Haenszel|||||2.18|0.91|0.0640
82543127|NCT02576574|164786403|SUPERIORITY||Odds Ratio (OR)|1.23||||0.2217|TWO_SIDED|95.0|0.73|2.07|||Cochran-Mantel-Haenszel|||||2.07|0.73|0.2217
82543128|NCT02576574|164786404|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1912|TWO_SIDED|95.0|0.81|1.72|||Cochran-Mantel-Haenszel|||||1.72|0.81|0.1912
82543129|NCT02576574|164786405|SUPERIORITY||Odds Ratio (OR)|1.0||||0.4951|TWO_SIDED|95.0|0.64|1.57|||Cochran-Mantel-Haenszel|||||1.57|0.64|0.4951
82543130|NCT04250883|164786430|SUPERIORITY|||||||0.54|||||||Chi-squared, Corrected|for age||||||0.54
82543131|NCT04250883|164786431|SUPERIORITY|||||||0.97|||||||Chi-squared, Corrected|for age||||||0.97
82543132|NCT04250883|164786433|SUPERIORITY|||||||0.64||||||At 12 days postoperative|Chi-squared, Corrected|for age||||||0.64
82543133|NCT04250883|164786433|SUPERIORITY|||||||0.38||||||At 3 months postoperative|Chi-squared, Corrected|for age||||||0.38
82543134|NCT04250883|164786434|SUPERIORITY|||||||0.84|||||||Chi-squared, Corrected|For age||Count of patients with or without pain at 3 months postoperative||||0.84
82543135|NCT04250883|164786434|SUPERIORITY|||||||0.89|||||||ANCOVA|Correction for age||Number of Words Chosen||||0.89
82543136|NCT04250883|164786434|SUPERIORITY|||||||0.98|||||||ANCOVA|Correction for age||Pain Rating index||||0.98
82543137|NCT04250883|164786435|SUPERIORITY|||||||0.9|||||||ANCOVA|Correction for age||||||0.9
82543138|NCT04250883|164786436|SUPERIORITY|||||||0.68|||||||ANCOVA|Correction for age||At 1 hour||||0.68
82543139|NCT04250883|164786436|SUPERIORITY|||||||0.91|||||||ANCOVA|Correction for age||At 6 hours||||0.91
82543140|NCT04250883|164786436|SUPERIORITY|||||||0.73|||||||ANCOVA|Correction for age||||||0.73
82543141|NCT04250883|164786436|SUPERIORITY|||||||0.77|||||||ANCOVA|Correction for age||||||0.77
82543142|NCT04250883|164786437|SUPERIORITY|||||||0.63|||||||ANCOVA|Correction for age||At 1 hour||||0.63
82543143|NCT04250883|164786437|SUPERIORITY|||||||0.19|||||||ANCOVA|Correction for age||At postoperative day 1||||0.19
82578575|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.83|STANDARD_DEVIATION|57.543||||95.0|-34.74|-10.91|||||29-56 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power,true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-10.91|-34.74|
82543144|NCT04250883|164786438|SUPERIORITY|||||||0.89|||||||ANCOVA|Correction for age||At 1 hour||||0.89
82578576|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-27.18|STANDARD_DEVIATION|59.323||||95.0|-39.9|-14.46|||||57-84 Days. Response ratio = 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency. .|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-14.46|-39.90|
82461878|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0378|TWO_SIDED|95.0|-0.75|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.02|-0.75|0.0378
82461879|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0053|TWO_SIDED|95.0|-0.89|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.89|0.0053
82461880|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0614|TWO_SIDED|95.0|-0.83|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.08|-0.83|0.0614
82461881|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.92|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.18|-0.92|0.0040
82461882|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.33|-0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.58|-1.33|<0.0001
82543145|NCT04250883|164786438|SUPERIORITY|||||||0.49|||||||ANCOVA|Correction for age||At postoperative day 1||||0.49
82543146|NCT04250883|164786439|SUPERIORITY|||||||0.42|||||||ANCOVA|Correction for age||||||0.42
82543147|NCT04250883|164786440|SUPERIORITY|||||||0.92|||||||ANCOVA|Correction for age||Of Total complications within 30 days postoperative||||0.92
82543148|NCT04250883|164786441|SUPERIORITY|||||||0.098|||||||ANCOVA|correction for age||Time to maximal intensity||||0.098
82543149|NCT04250883|164786441|SUPERIORITY|||||||0.008|||||||ANCOVA|correction for age||Angle from minimal to maximal intensity||||0.008
82543150|NCT04250883|164786441|SUPERIORITY|||||||0.042|||||||ANCOVA|correction for age||Delta between minimal and maximal intensity||||0.042
82543151|NCT04250883|164786442|SUPERIORITY|||||||0.35|||||||ANCOVA|Correction for age||postoperative day 1||||0.35
82543152|NCT04250883|164786442|SUPERIORITY|||||||0.52|||||||ANCOVA|Correction for age||at postoperative day 12||||0.52
82543153|NCT04250883|164786443|SUPERIORITY|||||||0.99|||||||ANCOVA|correction for age||at postoperative day 1||||0.99
82543154|NCT04250883|164786443|SUPERIORITY|||||||0.3|||||||ANCOVA|Correction for age||At postoperative day 12||||0.30
82543155|NCT04250883|164786444|SUPERIORITY|||||||0.42|||||||ANCOVA|Correction for age||||||0.42
82543156|NCT04250883|164786445|SUPERIORITY|||||||0.3|||||||ANCOVA|Correction for age||||||0.3
82543157|NCT04250883|164786446|SUPERIORITY|||||||0.33|||||||ANCOVA|Correction for age||||||0.33
82543158|NCT04250883|164786447|SUPERIORITY|||||||0.018|||||||ANCOVA|Correction for age||||||0.018
82543159|NCT01308567|164786471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.7574|TWO_SIDED|95.0|0.819|1.16||P-value from two-sided stratified log-rank test, stratified for ECOG PS score at baseline, measurable disease at baseline and region with commercial availability of cabazitaxel at time of randomization. Threshold for statistical significance = 0.0479|Log Rank||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by Eastern Cooperative Oncology Group performance status (ECOG PS) score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.16|0.819|0.7574
82543160|NCT01308567|164786471|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.009||||0.9967|TWO_SIDED|95.0|0.85|1.197||P-value from two-sided stratified log-rank test, stratified for ECOG PS score at baseline, measurable disease at baseline and region with commercial availability of cabazitaxel at time of randomization. Threshold for statistical significance = 0.0479|Log Rank||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.197|0.85|0.9967
82461883|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.47|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.71|-1.47|<0.0001
82461884|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0967|TWO_SIDED|95.0|-0.7|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.06|-0.70|0.0967
82461885|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0063|TWO_SIDED|95.0|-0.9|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.15|-0.90|0.0063
82461886|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.13|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.38|-1.13|<0.0001
82461887|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0632|TWO_SIDED|95.0|-0.75|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.02|-0.75|0.0632
82461888|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.0|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.23|-1.00|0.0020
82461889|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.29|-0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.51|-1.29|<0.0001
82461890|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.48|-0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.69|-1.48|<0.0001
82461891|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0308|TWO_SIDED|95.0|-0.82|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.04|-0.82|0.0308
82461892|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.2||0.0105|TWO_SIDED|95.0|-0.89|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.12|-0.89|0.0105
82461893|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.03|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.26|-1.03|0.0010
82461894|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1469|TWO_SIDED|95.0|-0.69|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.11|-0.69|0.1469
82461895|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0315|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.04|-0.84|0.0315
82543161|NCT01308567|164786472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.989|||||TWO_SIDED|95.0|0.849|1.152|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.152|0.849|
82461896|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.18|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.38|-1.18|0.0002
82461897|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.26|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.43|-1.26|<0.0001
82461898|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.4494|TWO_SIDED|95.0|-0.56|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.25|-0.56|0.4494
82543162|NCT01308567|164786472|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.063|||||TWO_SIDED|95.0|0.913|1.236|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.236|0.913|
82461899|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0595|TWO_SIDED|95.0|-0.79|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.02|-0.79|0.0595
82461900|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0065|TWO_SIDED|95.0|-0.96|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.16|-0.96|0.0065
82461901|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0745|TWO_SIDED|95.0|-0.77|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.04|-0.77|0.0745
82461902|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.054|TWO_SIDED|95.0|-0.8|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.01|-0.80|0.0540
82461903|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0001|TWO_SIDED|95.0|-1.22|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.41|-1.22|0.0001
82461904|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.26|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.43|-1.26|<0.0001
82461905|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.5317|TWO_SIDED|95.0|-0.54|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.28|-0.54|0.5317
82461906|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0424|TWO_SIDED|95.0|-0.83|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.01|-0.83|0.0424
82461907|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0134|TWO_SIDED|95.0|-0.91|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.11|-0.91|0.0134
82461908|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.03|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.04|-0.84|0.0300
82461909|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0605|TWO_SIDED|95.0|-0.78|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||0.02|-0.78|0.0605
82543163|NCT01308567|164786473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958|||||TWO_SIDED|95.0|0.785|1.17|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.17|0.785|
82543164|NCT01308567|164786473|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.916|||||TWO_SIDED|95.0|0.75|1.118|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.118|0.75|
82461910|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2||0.0001|TWO_SIDED|95.0|-1.2|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.40|-1.20|0.0001
82461911|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.38|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.56|-1.38|<0.0001
82461912|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1848|TWO_SIDED|95.0|-0.68|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||0.13|-0.68|0.1848
82461913|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0321|TWO_SIDED|95.0|-0.84|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.04|-0.84|0.0321
82461914|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0025|TWO_SIDED|95.0|-1.01|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.22|-1.01|0.0025
82461915|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0441|TWO_SIDED|95.0|-0.81|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.01|-0.81|0.0441
82461916|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0422|TWO_SIDED|95.0|-0.82|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.01|-0.82|0.0422
82461917|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.27|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.45|-1.27|<0.0001
82461918|NCT03192176|164625575|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.44|-0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.62|-1.44|<0.0001
82461919|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1464|TWO_SIDED|95.0|-0.71|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.11|-0.71|0.1464
82461920|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0144|TWO_SIDED|95.0|-0.91|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.10|-0.91|0.0144
82461921|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0013|TWO_SIDED|95.0|-1.06|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.26|-1.06|0.0013
82461922|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0596|TWO_SIDED|95.0|-0.8|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.02|-0.80|0.0596
82461923|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.036|TWO_SIDED|95.0|-0.85|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.03|-0.85|0.0360
82461924|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0006|TWO_SIDED|95.0|-1.15|-0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.32|-1.15|0.0006
82461925|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.21||0.0002|TWO_SIDED|95.0|-1.23|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.39|-1.23|0.0002
82461926|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3227|TWO_SIDED|95.0|-0.62|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.21|-0.62|0.3227
82461927|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.022|TWO_SIDED|95.0|-0.89|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.07|-0.89|0.0220
82461928|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.038|TWO_SIDED|95.0|-0.84|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.02|-0.84|0.0380
82461929|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0067|TWO_SIDED|95.0|-0.6|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.10|-0.60|0.0067
82543165|NCT01308567|164786475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.948|||||TWO_SIDED|95.0|0.8|1.123|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.123|0.8|
82543166|NCT01308567|164786475|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.047|||||TWO_SIDED|95.0|0.886|1.238|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.238|0.886|
82543167|NCT01308567|164786477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.986|1.434|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.434|0.986|
82543168|NCT01308567|164786477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.189|||||TWO_SIDED|95.0|0.985|1.435|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.435|0.985|
82543169|NCT01308567|164786479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.121|||||TWO_SIDED|95.0|0.886|1.417|||||Cabazitaxel 25 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.417|0.886|
82543170|NCT01308567|164786479|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014|||||TWO_SIDED|95.0|0.798|1.288|||||Cabazitaxel 20 mg/m\^2 vs Docetaxel 75 mg/m\^2|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was adjusted by ECOG PS score at baseline, measurable disease at baseline, and region with commercial availability of cabazitaxel at the time of randomization.||1.288|0.798|
82543171|NCT02374463|164786545|SUPERIORITY||||||<|0.05||||||P value not adjusted for multiple comparisons|t-test, 2 sided|||within group change was assessed||||<0.05
82543172|NCT02374463|164786546|SUPERIORITY||||||=|0.08||||||p value not adjusted for multiple comparisons|ANOVA|||||||=0.08
82543173|NCT02374463|164786547|SUPERIORITY||||||=|0.6|||||||ANOVA|not adjusted for multiple comparisons||||||=0.6
82543174|NCT02374463|164786548|SUPERIORITY|||||||0.84||||||Not adjusted for multiple comparisons|Chi-squared|exploratory aim prespecified.||||||0.84
82543175|NCT02374463|164786548|SUPERIORITY||||||=|0.4|||||||Chi-squared|||||||=0.4
82543176|NCT02374463|164786549|SUPERIORITY||||||=|0.3||||||not adjusted for multiple comparisons|ANOVA|||||||=0.3
82543177|NCT02374463|164786550|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82543178|NCT01424397|164786551|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with FP alone compared to Placebo using Mixed Models Analysis was 1.0000|||
82543179|NCT01424397|164786551|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 alone compared to Placebo using Mixed Models Analysis was 0.7127|||
82543180|NCT01424397|164786551|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 + FP compared to Placebo using Mixed Models Analysis was 1.0000|||
82543181|NCT01424397|164786551|SUPERIORITY_OR_OTHER||||||||||||||||||Bayesian analysis: The posterior probability of a reduction in TNSS with SB-705498 + FP compared to FP alone using Mixed Models Analysis was 0.0160|||
82543182|NCT01424397|164786553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.35|STANDARD_ERROR_OF_MEAN|12.56|||TWO_SIDED|90.0|60.54|102.15||||||Placebo versus FP 200 μg,Nasal Airflow resistance Total WM,0-4 hr||102.15|60.54|
82543183|NCT01424397|164786553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.31|STANDARD_ERROR_OF_MEAN|19.548|||TWO_SIDED|90.0|-39.7|25.05||||||Placebo versus FP 12 mg SB-705498 , Nasal Airflow resistance Total WM, 0-4 hr||25.05|-39.7|
82543184|NCT01424397|164786553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|72.4|STANDARD_ERROR_OF_MEAN|14.567|||TWO_SIDED|90.0|48.28|96.52||||||Placebo versus SB-705498 + FP 12 mg, Nasal Airflow resistance Total WM, 0-4 hr||96.52|48.28|
82543185|NCT01424397|164786553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.95|STANDARD_ERROR_OF_MEAN|14.592|||TWO_SIDED|90.0|-33.1|15.22||||||FP 200 μg versus SB-705498 + FP 12 mg, Nasal Airflow resistance Total WM, 0-4 hr||15.22|-33.1|
82543186|NCT01424397|164786554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.113|||TWO_SIDED|90.0|-0.87|-0.49||||||||-0.49|-0.87|
82543187|NCT01424397|164786554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.173|||TWO_SIDED|90.0|-0.3|0.27||||||||0.27|-0.30|
82543188|NCT01424397|164786554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.74|-0.31||||||||-0.31|-0.74|
82543189|NCT01424397|164786554|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.06|0.37||||||||0.37|-0.06|
82543190|NCT01305252|164786564|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82543191|NCT01305252|164786564|SUPERIORITY_OR_OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82543192|NCT01305252|164786567|SUPERIORITY_OR_OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82543193|NCT01305252|164786567|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||||||0.33
82543194|NCT00774397|164786574|SUPERIORITY_OR_OTHER|||||||0.0537||95.0||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||0.0537
82543195|NCT00774397|164786574|SUPERIORITY_OR_OTHER|||||||0.0213||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||0.0213
82543196|NCT00774397|164786574|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
82543197|NCT00774397|164786574|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
82543198|NCT00774397|164786574|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
82543199|NCT00774397|164786574|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value based on Fisher's exact test (2-sided)|Fisher Exact|||||||<0.0001
82543200|NCT00253890|164786613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|35.7||||0.05||95.0|||||t-test, 2 sided|||Change in sleep quality was assessed by calculating gain scores. We used a 2-sided t-test to report mean change.||||.05
82461930|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1227|TWO_SIDED|95.0|-0.45|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.05|-0.45|0.1227
82461931|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0208|TWO_SIDED|95.0|-0.57|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.05|-0.57|0.0208
82461932|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.2396|TWO_SIDED|95.0|-0.41|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.10|-0.41|0.2396
82461933|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0022|TWO_SIDED|95.0|-0.67|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.15|-0.67|0.0022
82461934|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0479|TWO_SIDED|95.0|-0.53|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.00|-0.53|0.0479
82461935|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.4152|TWO_SIDED|95.0|-0.35|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.15|-0.35|0.4152
82461936|NCT03192176|164625575|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0262|TWO_SIDED|95.0|-0.52|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.03|-0.52|0.0262
82461937|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.121|TWO_SIDED|95.0|-0.43|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.05|-0.43|0.1210
82461938|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0369|TWO_SIDED|95.0|-0.52|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.02|-0.52|0.0369
82461939|NCT03192176|164625575|SUPERIORITY||LSMean differencce|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.5855|TWO_SIDED|95.0|-0.32|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.18|-0.32|0.5855
82461940|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0041|TWO_SIDED|95.0|-0.62|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.12|-0.62|0.0041
82461941|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.0614|TWO_SIDED|95.0|-0.5|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.01|-0.50|0.0614
82461942|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3391|TWO_SIDED|95.0|-0.36|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.12|-0.36|0.3391
82461943|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0515|TWO_SIDED|95.0|-0.49|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.00|-0.49|0.0515
82461944|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0667|TWO_SIDED|95.0|-0.47|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.02|-0.47|0.0667
82461945|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0047|TWO_SIDED|95.0|-0.63|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.12|-0.63|0.0047
82461946|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.513|TWO_SIDED|95.0|-0.34|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.17|-0.34|0.5130
82461947|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.75|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.23|-0.75|0.0002
82461948|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0126|TWO_SIDED|95.0|-0.6|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.07|-0.60|0.0126
82461949|NCT03192176|164625575|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3507|TWO_SIDED|95.0|-0.36|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.13|-0.36|0.3507
82461950|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0098|TWO_SIDED|95.0|-0.6|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.08|-0.60|0.0098
82461951|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0048|TWO_SIDED|95.0|-0.63|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.11|-0.63|0.0048
82461952|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.28|-0.80|<0.0001
82461953|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.47|-1.00|<0.0001
82461954|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.6761|TWO_SIDED|95.0|-0.32|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.21|-0.32|0.6761
82461955|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0188|TWO_SIDED|95.0|-0.57|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.05|-0.57|0.0188
82461956|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0067|TWO_SIDED|95.0|-0.61|-0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.10|-0.61|0.0067
82461957|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0335|TWO_SIDED|95.0|-0.68|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.03|-0.68|0.0335
82461958|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.91|-0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.25|-0.91|0.0007
82461959|NCT03192176|164625576|SUPERIORITY||LSMean differencce|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.14|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.48|-1.14|<0.0001
82461960|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.41|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.74|-1.41|<0.0001
82650173|NCT04549259|165015453|OTHER|Single group change over time.|Odds Ratio (OR)|2.89||||0.38|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.38
82461961|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3227|TWO_SIDED|95.0|-0.5|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||0.17|-0.50|0.3227
82461962|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0085|TWO_SIDED|95.0|-0.77|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.11|-0.77|0.0085
82461963|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0002|TWO_SIDED|95.0|-0.95|-0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.30|-0.95|0.0002
82461964|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0102|TWO_SIDED|95.0|-0.87|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.12|-0.87|0.0102
82461965|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.15|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.39|-1.15|<0.0001
82461966|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.29|-0.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.54|-1.29|<0.0001
82461967|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.46|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.68|-1.46|<0.0001
82461968|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.074|TWO_SIDED|95.0|-0.73|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||0.03|-0.73|0.0740
82461969|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0024|TWO_SIDED|95.0|-0.97|-0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.21|-0.97|0.0024
82461970|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.17|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-0.41|-1.17|<0.0001
82461971|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1197|TWO_SIDED|95.0|-0.72|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.08|-0.72|0.1197
82461972|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0046|TWO_SIDED|95.0|-0.98|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.18|-0.98|0.0046
82461973|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.28|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.47|-1.28|<0.0001
82461974|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.51|-0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.69|-1.51|<0.0001
82461975|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0553|TWO_SIDED|95.0|-0.8|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.01|-0.80|0.0553
82543201|NCT00077675|164786614|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was selected on the basis of clinical judgment and was deemed adequate to provide clinically meaningful descriptive results consistent with study objectives. This sample size was estimated to provide 91% power to test telavancin's non-inferiority to vancomycin with respect to clinical response using a non-inferiority margin of 20%||||||0.5318|||||||2-sided 95% confidence interval calculat|||95% Confidence Interval: -0.0527 to 0.1102 No estimated value Parameter that was estimated: Risk Difference||||0.5318
82543202|NCT04425863|164786629|OTHER|||||||0.0246|||||||Chi-squared|||A chi-squared test is used to find out whether there is a statistically significant decrease in mortality rate when the IDEA treatment protocol is used in hospitalized patients in comparison with other treatments in the same hospital in the same period of time (3 out of 12 inpatients died)||||0.0246
82543203|NCT04425863|164786629|OTHER|||||||0.0475|||||||Chi-squared|||Overall mortality rate of patients treated according to IDEA protocol is compared by a chi-squared test against overall mortality rate in Argentina (the same region where the hospital is located). Data used for overall mortality in Argentina correspond to June 30th according to the website of the Ministry of Health of Argentina||||0.0475
82461976|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0823|TWO_SIDED|95.0|-0.76|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||0.05|-0.76|0.0823
82543204|NCT04425863|164786629|OTHER|||||||0.0025|||||||Chi-squared|||A chi-square test was applied to compare the mortality rate of patients treated with IDEA protocol as compared with data published (26.84 %) in Bertsimas D, Lukin G, Mingardi L, Nohadani O, Orfanoudaki A, Stellato B et al. (2020), COVID-19 Mortality Risk Assessment: An International Multi-Center Study doi: 10.1101/2020.07.07.20148304||||0.0025
82543205|NCT01599793|164786643|EQUIVALENCE|Testing if the change of ktrans between 2 weeks and baseline = 0 (i.e testing if the difference of means between 2 weeks and baseline =0)||||||0.0016|||||||Mixed Models Analysis|||The least square means of ktrans at different time points (baseline, 2 weeks, 12 weeks, 24 weeks) are estimated by a linear mixed model. Comparison of means at different time points were performed. The primary result reported below is for the difference of means between 2 weeks and baseline.||||0.0016
82543206|NCT01599793|164786645|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the bone scan response change. We tested if the coefficient = 0|Spearman Correlation Coefficients|0.36853||||0.3291|TWO_SIDED||||||t-test, 2 sided|||||||0.3291
82543207|NCT01599793|164786647|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the PSA change. We tested if the coefficient = 0|Spearman Correlation Coefficients|-0.41818||||0.2006|TWO_SIDED||||||t-test, 2 sided|||||||0.2006
82543208|NCT01599793|164786649|OTHER|We calculated Spearman Correlation Coefficient between the percent change in Ktrans (from week 0 to 12) and the Change in pain scale. We tested if the coefficient = 0|Spearman Correlation Coefficients|0.17669||||0.5828|TWO_SIDED||||||t-test, 2 sided|||||||0.5828
82543209|NCT01636687|164786721|SUPERIORITY_OR_OTHER||Risk Difference (RD)|53.3|||<|0.0001|TWO_SIDED|95.0|36.6|67.7|||Fisher Exact|||Response criterion: IGA 0/1||67.7|36.6|<0.0001
82543210|NCT01636687|164786721|SUPERIORITY_OR_OTHER||Risk Difference (RD)|73.3|||<|0.0001|TWO_SIDED|95.0|58.8|83.9|||Fisher Exact|||Response Criterion: IGA 0/1||83.9|58.8|<0.0001
82543211|NCT01636687|164786721|SUPERIORITY_OR_OTHER||Risk Difference (RD)|68.4|||<|0.0001|TWO_SIDED|95.0|53.1|79.8|||Fisher Exact|||Response criterion: PASI 75||79.8|53.1|<0.0001
82543212|NCT01636687|164786721|SUPERIORITY_OR_OTHER||Risk Difference (RD)|83.4|||<|0.0001|TWO_SIDED|95.0|70.7|91.7|||Fisher Exact|||Response criterion: PASI 75||91.7|70.7|<0.0001
82543213|NCT02918279|164786744|SUPERIORITY||Treatment difference|-0.22||||0.0022|TWO_SIDED|95.0|-0.37|-0.08|||ANCOVA||Liraglutide 3.0 mg - Placebo|Analysis of in-trial data with missing observations was imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Responses at week 56 were analysed using an analysis of covariance model with treatment, sex, region, baseline glycaemic category, stratification factor for Tanner stage and interaction between baseline glycaemic category and stratification factor for Tanner stage as fixed effects, baseline BMI SDS, age as covariates.||-0.08|-0.37|0.0022
82543214|NCT01641198|164786826|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.115|<|0.05|TWO_SIDED|95.0|-0.59|0.01||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.01|-0.59|<0.05
82543215|NCT01641198|164786826|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.12|<|0.05|TWO_SIDED|95.0|0.09|0.69||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||0.69|0.09|<0.05
82543216|NCT01641198|164786826|SUPERIORITY||Mean Difference (Final Values)|-0.685|STANDARD_ERROR_OF_MEAN|0.115|<|0.05|TWO_SIDED|95.0|-0.98|-0.39||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI)||-0.39|-0.98|<0.05
82543217|NCT01641198|164786827|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.135|<|0.05|TWO_SIDED|95.0|-0.47|0.13||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.13|-0.47|<0.05
82543218|NCT01641198|164786827|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|TWO_SIDED|95.0|0.26|0.85||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||0.85|0.26|<0.05
82543219|NCT01641198|164786827|SUPERIORITY||Mean Difference (Final Values)|-0.725|STANDARD_ERROR_OF_MEAN|0.135|<|0.05|TWO_SIDED|95.0|-1.02|-0.43||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI)||-0.43|-1.02|<0.05
82543220|NCT01641198|164786828|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|-0.19|0.59||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SW estimated with the mixed linear model (mean±SE, 95% CI)||0.59|-0.19|<0.05
82461977|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.006|TWO_SIDED|95.0|-0.96|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-0.16|-0.96|0.0060
82461978|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0374|TWO_SIDED|95.0|-0.83|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.03|-0.83|0.0374
82461979|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.21||0.0042|TWO_SIDED|95.0|-1.0|-0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.19|-1.00|0.0042
82461980|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.38|-0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.56|-1.38|<0.0001
82461981|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.54|-0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.71|-1.54|<0.0001
82461982|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.071|TWO_SIDED|95.0|-0.79|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||0.03|-0.79|0.0710
82461983|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.016|TWO_SIDED|95.0|-0.91|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.09|-0.91|0.0160
82461984|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0003|TWO_SIDED|95.0|-1.15|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-0.34|-1.15|0.0003
82461985|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1013|TWO_SIDED|95.0|-0.76|0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||0.07|-0.76|0.1013
82461986|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0011|TWO_SIDED|95.0|-1.11|-0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.28|-1.11|0.0011
82461987|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.36|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.53|-1.36|<0.0001
82461988|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.57|-0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.72|-1.57|<0.0001
82461989|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0476|TWO_SIDED|95.0|-0.85|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.00|-0.85|0.0476
82461990|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.022|TWO_SIDED|95.0|-0.9|-0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.07|-0.90|0.0220
82461991|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.0019|TWO_SIDED|95.0|-1.07|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.24|-1.07|0.0019
82461992|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1457|TWO_SIDED|95.0|-0.74|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.11|-0.74|0.1457
82461993|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0284|TWO_SIDED|95.0|-0.91|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.05|-0.91|0.0284
82461994|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.22||0.0002|TWO_SIDED|95.0|-1.26|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.39|-1.26|0.0002
82543221|NCT01641198|164786828|SUPERIORITY||Mean Difference (Final Values)|0.83|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|0.45|1.22||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between B and SC estimated with the mixed linear model (mean±SE, 95% CI)||1.22|0.45|<0.05
82543222|NCT01641198|164786828|SUPERIORITY||Mean Difference (Final Values)|-0.635|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|95.0|-1.01|-0.26||Statistical analysis was based on the mixed linear model with the level of significance set at p\<0.05 and Bonferroni correction for pairwise comparisons|Mixed Models Analysis|Mixed linear model with effects of time, implant position, implant configuration, implant type (and implant length as a covariate effect)||Mean bone change between SW and SC estimated with the mixed linear model (mean±SE, 95% CI).||-0.26|-1.01|<0.05
82543223|NCT00364013|164786895|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-2.27||||0.0234||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer progression-free survival time.|PFS in the Wild-type KRAS Efficacy Analysis Set was compared at a significance level of 5%.||||0.0234
82543224|NCT00364013|164786895|SUPERIORITY_OR_OTHER_LEGACY||Normal score|2.28||||0.0227||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer progression-free survival time.|PFS in the Mutant KRAS Efficacy Analysis Set was compared at a significance level of 5% conditional on first demonstrating a significant treatment effect in PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.0227
82461995|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.36|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.48|-1.36|<0.0001
82461996|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.4223|TWO_SIDED|95.0|-0.61|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.26|-0.61|0.4223
82461997|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0442|TWO_SIDED|95.0|-0.87|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.01|-0.87|0.0442
82461998|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.22||0.0071|TWO_SIDED|95.0|-1.02|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.16|-1.02|0.0071
82461999|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0823|TWO_SIDED|95.0|-0.8|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.05|-0.80|0.0823
82543225|NCT00364013|164786896|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.8||||0.0723||||||cP-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer overall survival time.|Overall survival comparisons in the wild-type KRAS Efficacy Analysis Set was performed at a significance level of 4.99% conditional on a statistically significant difference for PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.0723
82462000|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0336|TWO_SIDED|95.0|-0.89|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.04|-0.89|0.0336
82462001|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.32|-0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.46|-1.32|<0.0001
82543226|NCT00364013|164786896|SUPERIORITY_OR_OTHER_LEGACY||Normal score|1.83||||0.0678||||||P-value is based on a 2-sided log-rank test stratified by Region (Western Europe, Canada and Australia vs. Rest of World) and ECOG score (0 or 1 vs. 2).|Stratified log-rank test||A normal score \<0 indicates fewer than expected events for the panitumumab plus FOLFOX arm and therefore a longer overall survival time.|Overall survival comparisons in the mutant KRAS Efficacy Analysis Set was performed at an significance level of 4.99% conditional on a statistically significant difference for PFS in the Mutant KRAS Efficacy Analysis Set.||||0.0678
82543227|NCT00364013|164786897|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.35||||0.0684|TWO_SIDED|95.0|0.98|1.87|||Stratified exact test|Adjusted for geographic region and ECOG score.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFOX alone arm.|||1.87|0.98|0.0684
82543228|NCT00364013|164786897|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.9822|TWO_SIDED|95.0|0.65|1.47|||Stratified exact test|Adjusted for geographic region and ECOG score|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFOX alone arm.|||1.47|0.65|0.9822
82462002|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.47|-1.34|<0.0001
82462003|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.4819|TWO_SIDED|95.0|-0.59|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.28|-0.59|0.4819
82462004|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0371|TWO_SIDED|95.0|-0.88|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.03|-0.88|0.0371
82462005|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0121|TWO_SIDED|95.0|-0.97|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.12|-0.97|0.0121
82462006|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0281|TWO_SIDED|95.0|-0.89|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.05|-0.89|0.0281
82462007|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0436|TWO_SIDED|95.0|-0.86|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.01|-0.86|0.0436
82462008|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.34|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.49|-1.34|<0.0001
82462009|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.47|-0.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.60|-1.47|<0.0001
82462010|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1488|TWO_SIDED|95.0|-0.75|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||0.11|-0.75|0.1488
82462011|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0251|TWO_SIDED|95.0|-0.91|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.06|-0.91|0.0251
82462012|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.0027|TWO_SIDED|95.0|-1.08|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-0.23|-1.08|0.0027
82462013|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.22||0.1053|TWO_SIDED|95.0|-0.77|0.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.07|-0.77|0.1053
82462014|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0304|TWO_SIDED|95.0|-0.9|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.04|-0.90|0.0304
82462015|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.33|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.43|-1.33|<0.0001
82462016|NCT03192176|164625576|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-1.49|-0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.61|-1.49|<0.0001
82462017|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0873|TWO_SIDED|95.0|-0.81|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||0.06|-0.81|0.0873
82462018|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22||0.0124|TWO_SIDED|95.0|-0.97|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.12|-0.97|0.0124
82462019|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.0014|TWO_SIDED|95.0|-1.12|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-0.27|-1.12|0.0014
82462020|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0479|TWO_SIDED|95.0|-0.68|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.00|-0.68|0.0479
82462021|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2342|TWO_SIDED|95.0|-0.54|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.13|-0.54|0.2342
82462022|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.007|TWO_SIDED|95.0|-0.84|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.13|-0.84|0.0070
82462023|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4291|TWO_SIDED|95.0|-0.49|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.21|-0.49|0.4291
82462024|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0076|TWO_SIDED|95.0|-0.83|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.13|-0.83|0.0076
82462025|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.1506|TWO_SIDED|95.0|-0.62|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.10|-0.62|0.1506
82462026|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.5479|TWO_SIDED|95.0|-0.44|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||0.24|-0.44|0.5479
82543229|NCT01444417|164786913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0497||||0.0018|TWO_SIDED|95.0|1.896|43.199|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group.||The incidence of durable platelet response was compared by the Cochran-Mantel-Haenszel test stratified by the baseline age group. The Mantel-Haenszel common odds ratio (romiplostim vs placebo) was estimated along with its 95% confidence interval.||43.199|1.896|0.0018
82543230|NCT01444417|164786914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.0443||||0.0002|TWO_SIDED|95.0|2.535|32.265|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group.||The incidence of overall platelet response was compared by the Cochran-Mantel-Haenszel test stratified by the baseline age group. The Mantel-Haenszel common odds ratio (romiplostim vs placebo) was estimated along with its 95% confidence interval.||32.265|2.535|0.0002
82543231|NCT01444417|164786915|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANOVA|P-value from Analysis of Variance with main effects (treatment and age group) model after testing for non-significant interaction (p-value ≥ 0.10).||||||0.0004
82462027|NCT03192176|164625576|SUPERIORITY||LSMean differencce|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.1427|TWO_SIDED|95.0|-0.57|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.08|-0.57|0.1427
82462028|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1498|TWO_SIDED|95.0|-0.56|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.09|-0.56|0.1498
82462029|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0103|TWO_SIDED|95.0|-0.79|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.11|-0.79|0.0103
82543232|NCT01444417|164786916|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.813||||0.7103|TWO_SIDED|95.0|0.277|2.391|||Cochran-Mantel-Haenszel|P-value from Cochran-Mantel-Haenszel test stratified by baseline age group||||2.391|0.277|0.7103
82543233|NCT02214160|164786925|SUPERIORITY|||||||0.0347|||||||Paired T-test|||||||0.0347
82543234|NCT02214160|164786926|SUPERIORITY|||||||0.0343|||||||Wilcoxon Signed Rank Test|||||||0.0343
82543235|NCT00275392|164786942|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Interaction effect|RM ANOVA|||||||0.026
82543236|NCT00275392|164786942|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||main effect of time|RM ANOVA|||||||<.001
82543237|NCT00275392|164786942|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||main effect of group|RM ANOVA|||||||>.05
82543238|NCT00275392|164786943|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Interaction effect|RM ANOVA|||||||> 0.05
82543239|NCT00275392|164786943|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||main effect of time|RM ANOVA|||||||.016
82543240|NCT00275392|164786943|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||Main effect of Group|RM ANOVA|||||||>.05
82462030|NCT03192176|164625576|SUPERIORITY||LSMean differencce|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.8984|TWO_SIDED|95.0|-0.36|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.32|-0.36|0.8984
82462031|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0095|TWO_SIDED|95.0|-0.79|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.11|-0.79|0.0095
82462032|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.137|TWO_SIDED|95.0|-0.6|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.08|-0.60|0.1370
82462033|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.4223|TWO_SIDED|95.0|-0.46|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.19|-0.46|0.4223
82462034|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3265|TWO_SIDED|95.0|-0.5|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.17|-0.50|0.3265
82462035|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0852|TWO_SIDED|95.0|-0.62|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.04|-0.62|0.0852
82462036|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18||0.0021|TWO_SIDED|95.0|-0.91|-0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.21|-0.91|0.0021
82462037|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5717|TWO_SIDED|95.0|-0.45|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.25|-0.45|0.5717
82462038|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0084|TWO_SIDED|95.0|-0.82|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.12|-0.82|0.0084
82462039|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0277|TWO_SIDED|95.0|-0.75|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||-0.04|-0.75|0.0277
82462040|NCT03192176|164625576|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.4627|TWO_SIDED|95.0|-0.46|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.21|-0.46|0.4627
82462041|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.94||0.0142|TWO_SIDED|95.0|-8.62|-0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-0.97|-8.62|0.0142
82462042|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-11.73|-4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-4.05|-11.73|<0.0001
82462043|NCT03192176|164625577|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-12.98|-5.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-5.31|-12.98|<0.0001
82462044|NCT03192176|164625577|SUPERIORITY||LSMean difference|-10.5|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-14.39|-6.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-6.61|-14.39|<0.0001
82462045|NCT03192176|164625577|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|1.98||0.0819|TWO_SIDED|95.0|-7.36|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.44|-7.36|0.0819
82462046|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.95||0.0004|TWO_SIDED|95.0|-10.78|-3.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.09|-10.78|0.0004
82462047|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.94||0.0005|TWO_SIDED|95.0|-10.69|-3.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.05|-10.69|0.0005
82462048|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|1.98||0.038|TWO_SIDED|95.0|-8.01|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.23|-8.01|0.0380
82462049|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.99||0.0002|TWO_SIDED|95.0|-11.46|-3.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-3.64|-11.46|0.0002
82462050|NCT03192176|164625577|SUPERIORITY||LSMean differencce|-8.1|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-11.96|-4.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.17|-11.96|<0.0001
82462051|NCT03192176|164625577|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.01|<|0.0001|TWO_SIDED|95.0|-13.17|-5.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-5.25|-13.17|<0.0001
82462052|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.02||0.0245|TWO_SIDED|95.0|-8.52|-0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.59|-8.52|0.0245
82462053|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.99||0.0031|TWO_SIDED|95.0|-9.83|-2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.01|-9.83|0.0031
82462054|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.98||0.0046|TWO_SIDED|95.0|-9.53|-1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-1.75|-9.53|0.0046
82462055|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.04||0.0064|TWO_SIDED|95.0|-9.61|-1.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.59|-9.61|0.0064
82462056|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.7|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-12.72|-4.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.65|-12.72|<0.0001
82462057|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.78|-4.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.75|-12.78|<0.0001
82462058|NCT03192176|164625577|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.27|-6.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-6.09|-14.27|<0.0001
82462059|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|2.08||0.0021|TWO_SIDED|95.0|-10.54|-2.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.36|-10.54|0.0021
82462060|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|2.05||0.0002|TWO_SIDED|95.0|-11.71|-3.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-3.66|-11.71|0.0002
82462061|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|2.04||0.0007|TWO_SIDED|95.0|-10.96|-2.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.95|-10.96|0.0007
82578577|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-30.75|STANDARD_DEVIATION|58.11||||95.0|-43.44|-18.06|||||85-112 Days. Response ratio=100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-18.06|-43.44|
82462062|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.5|STANDARD_ERROR_OF_MEAN|2.03||0.0075|TWO_SIDED|95.0|-9.46|-1.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.47|-9.46|0.0075
82462063|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.44|-4.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.42|-12.44|<0.0001
82462064|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.2|STANDARD_ERROR_OF_MEAN|2.03|<|0.0001|TWO_SIDED|95.0|-12.15|-4.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.16|-12.15|<0.0001
82462065|NCT03192176|164625577|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.07|<|0.0001|TWO_SIDED|95.0|-14.3|-6.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-6.16|-14.30|<0.0001
82462066|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|2.06||0.0021|TWO_SIDED|95.0|-10.46|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.34|-10.46|0.0021
82462067|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.3|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-12.25|-4.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.25|-12.25|<0.0001
82462068|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.02||0.0002|TWO_SIDED|95.0|-11.58|-3.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.62|-11.58|0.0002
82462069|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.92||0.0123|TWO_SIDED|95.0|-8.6|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.05|-8.60|0.0123
82462070|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.92|<|0.0001|TWO_SIDED|95.0|-11.63|-4.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.07|-11.63|<0.0001
82462071|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.0|STANDARD_ERROR_OF_MEAN|1.92|<|0.0001|TWO_SIDED|95.0|-11.8|-4.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.23|-11.80|<0.0001
82462072|NCT03192176|164625577|SUPERIORITY||LSMean difference|-9.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-13.73|-6.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-6.03|-13.73|<0.0001
82462073|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.95||0.0013|TWO_SIDED|95.0|-10.13|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.47|-10.13|0.0013
82543241|NCT00940537|164787017|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||a priori threshhold for significance was set at p\<0.05.|t-test, 2 sided|this was a paired t-test||As there was no a priori reason for the level of IHTG to impact this measurement we compared the pre and post-prandial results for all subjects whose data were of sufficient quality (N=12). These results are comparing the two categories of fasting and post-prandial. Null hypothesis was that there would be no difference in IHTG before and after a high fat, high carbohydrate meal.||||.097
82462074|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.92||0.0002|TWO_SIDED|95.0|-10.97|-3.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-3.41|-10.97|0.0002
82462075|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.91||0.0006|TWO_SIDED|95.0|-10.41|-2.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.89|-10.41|0.0006
82462076|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.9||0.0119|TWO_SIDED|95.0|-8.54|-1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.07|-8.54|0.0119
82543242|NCT00940537|164787018|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||This p-value compares the low IHTG (\<5%) subjects to those with medium levels of IHTG (5 - 10%). The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||null hypothesis was that the T2 ratio would not depend on level of intrahepatic triglyceride (IHTG) and would be equal for the low and medium IHTG categories.||||0.006
82650174|NCT04549259|165015453|OTHER|Single group change over time.|Odds Ratio (OR)|1.25||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.78
82462077|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.9||0.0004|TWO_SIDED|95.0|-10.58|-3.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.09|-10.58|0.0004
82462078|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-11.57|-4.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-4.06|-11.57|<0.0001
82462079|NCT03192176|164625577|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.94|<|0.0001|TWO_SIDED|95.0|-12.89|-5.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-5.27|-12.89|<0.0001
82462080|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.93||0.0057|TWO_SIDED|95.0|-9.18|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.58|-9.18|0.0057
82462081|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.91||0.0006|TWO_SIDED|95.0|-10.4|-2.9||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.90|-10.40|0.0006
82462082|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.89||0.0006|TWO_SIDED|95.0|-10.27|-2.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.81|-10.27|0.0006
82462083|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.93||0.021|TWO_SIDED|95.0|-8.27|-0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.68|-8.27|0.0210
82543243|NCT00940537|164787018|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||null hypothesis was that the T2 ratio would not depend on level of intra-hepatic triglyceride (IHTG) and would be equal for the low (\<5%) and high (\>10%) IHTG categories.||||<0.0001
82543244|NCT00940537|164787018|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||The a priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that there would be no difference in T2 relaxation ratios for varying levels of intra-hepatic triglyceride (IHTG). Thus the medium (5 - 10%) and high (\<10%) IHTG groups would not be statistically different with regard to average T2 ratio.||||.93
82543245|NCT00933400|164787021|EQUIVALENCE|equivalence margin = 0|Percent Difference|0.02|||||TWO_SIDED|95.0|-5.6|5.7||||||Difference in AMI rate. NULL: equal rates of AMI in both Groups.||5.7|-5.6|
82543246|NCT00933400|164787022|EQUIVALENCE|equivalence margin = 0|Difference (rates)|26.8|||||TWO_SIDED|95.0|21.4|32.2||||||Difference in Discharge rates. H0: equal rates of Discharge in both Groups.||32.2|21.4|
82543247|NCT00933400|164787022|EQUIVALENCE|equivalence margin = 0|Difference (percents)|5.6|||||TWO_SIDED|95.0|0.0|11.2|||||exact procedures were used to estimate and compare rates of detection for significant coronary disease|Difference in diagnosis rate of Significant coronary disease at index visit. H0: equal rates in both Groups.||11.2|0.0|
82543248|NCT00933400|164787024|SUPERIORITY||binomial proportion|26.8|||||TWO_SIDED|95.0|21.4|32.2|||||Exact confidence intervals for the difference in proportions|H0: no difference in Patient disposition (Discharge) rates between arms||32.2|21.4|
82543249|NCT00933400|164787026|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|-0.4|||||TWO_SIDED|95.0|-6.0|5.2|||||Exact confidence intervals for the difference in proportions|Compare all cause mortality between groups||5.2|-6.0|
82543250|NCT00933400|164787026|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|0.1|||||TWO_SIDED|95.0|-5.5|5.7|||||Exact confidence intervals for the difference in proportions|Compare Cardiac Death between groups||5.7|-5.5|
82543251|NCT00933400|164787026|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|0.1|||||TWO_SIDED|95.0|-5.6|5.9|||||Exact confidence intervals for the difference in proportions|Compare AMI between groups||5.9|-5.6|
82543252|NCT00933400|164787026|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|3.0|||||TWO_SIDED|95.0|-5.5|6.0|||||Exact confidence intervals for the difference in proportions|Compare MACE between groups||6.0|-5.5|
82578578|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-38.75|STANDARD_DEVIATION|59.368||||95.0|-51.79|-25.7|||||113-140 Days. Response ratio=100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-25.70|-51.79|
82462084|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.93||0.0002|TWO_SIDED|95.0|-10.98|-3.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.38|-10.98|0.0002
82462085|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.3|STANDARD_ERROR_OF_MEAN|1.94||0.0002|TWO_SIDED|95.0|-11.12|-3.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.49|-11.12|0.0002
82462086|NCT03192176|164625577|SUPERIORITY||LSMean difference|-9.1|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|-12.99|-5.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-5.25|-12.99|<0.0001
82462087|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.96||0.0047|TWO_SIDED|95.0|-9.45|-1.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-1.73|-9.45|0.0047
82462088|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.94||0.0009|TWO_SIDED|95.0|-10.29|-2.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.67|-10.29|0.0009
82462089|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.92||0.0008|TWO_SIDED|95.0|-10.28|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.71|-10.28|0.0008
82462090|NCT03192176|164625577|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.93||0.0889|TWO_SIDED|95.0|-7.1|0.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.51|-7.10|0.0889
82462091|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.94||0.0023|TWO_SIDED|95.0|-9.76|-2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.13|-9.76|0.0023
82462092|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.94||0.0009|TWO_SIDED|95.0|-10.36|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.71|-10.36|0.0009
82462093|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.98||0.0002|TWO_SIDED|95.0|-11.36|-3.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-3.58|-11.36|0.0002
82462094|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.97||0.0255|TWO_SIDED|95.0|-8.3|-0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.55|-8.30|0.0255
82462095|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.94||0.0031|TWO_SIDED|95.0|-9.63|-1.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.98|-9.63|0.0031
82462096|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|1.93||0.0037|TWO_SIDED|95.0|-9.45|-1.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.85|-9.45|0.0037
82462097|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|1.84||0.0316|TWO_SIDED|95.0|-7.59|-0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.35|-7.59|0.0316
82462098|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.84||0.0036|TWO_SIDED|95.0|-9.02|-1.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.78|-9.02|0.0036
82462099|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.85||0.0004|TWO_SIDED|95.0|-10.23|-2.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.94|-10.23|0.0004
82462100|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.88||0.0001|TWO_SIDED|95.0|-10.93|-3.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-3.54|-10.93|0.0001
82462101|NCT03192176|164625577|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.87||0.0502|TWO_SIDED|95.0|-7.37|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||0.00|-7.37|0.0502
82462102|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.85||0.0025|TWO_SIDED|95.0|-9.28|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.99|-9.28|0.0025
82462103|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.1|STANDARD_ERROR_OF_MEAN|1.84||0.0063|TWO_SIDED|95.0|-8.67|-1.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.44|-8.67|0.0063
82462104|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.9||0.0117|TWO_SIDED|95.0|-8.58|-1.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.08|-8.58|0.0117
82462105|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.91||0.0047|TWO_SIDED|95.0|-9.17|-1.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.67|-9.17|0.0047
82462106|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.92||0.0003|TWO_SIDED|95.0|-10.8|-3.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.23|-10.80|0.0003
82462107|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.94|<|0.0001|TWO_SIDED|95.0|-11.51|-3.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.86|-11.51|<0.0001
82462108|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.94||0.0083|TWO_SIDED|95.0|-8.97|-1.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-1.34|-8.97|0.0083
82462109|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.92||0.0011|TWO_SIDED|95.0|-10.1|-2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.56|-10.10|0.0011
82462110|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.9||0.0017|TWO_SIDED|95.0|-9.77|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.29|-9.77|0.0017
82462111|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.86||0.0119|TWO_SIDED|95.0|-8.37|-1.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.05|-8.37|0.0119
82462112|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0015|TWO_SIDED|95.0|-9.61|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.29|-9.61|0.0015
82462113|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.38|-3.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.99|-11.38|<0.0001
82462114|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-11.33|-3.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.87|-11.33|<0.0001
82578579|NCT00288639|164866447|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-44.24|STANDARD_DEVIATION|62.703||||95.0|-58.47|-30.01|||||\>140 Days. Response ratio= 100 x \[(t - b)/(t + b)\] where t= 4 wk interval seizure frequency and b=baseline seizure frequency.|Noncomparative study.Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power,true change from baseline approximately 25%.Allowing for dropouts assume 85% pts analyzed.||-30.01|-58.47|
82462115|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.89||0.0051|TWO_SIDED|95.0|-9.07|-1.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.62|-9.07|0.0051
82462116|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.87||0.0004|TWO_SIDED|95.0|-10.33|-2.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.96|-10.33|0.0004
82578580|NCT00288639|164866448|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|7.19|STANDARD_DEVIATION|84.425||||95.0|-17.6|31.98|||||Simple Partial Seizures. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||31.98|-17.60|
82578581|NCT00288639|164866448|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-22.24|STANDARD_DEVIATION|68.058||||95.0|-37.8|-6.69|||||Complex Partial Seizures. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.69|-37.80|
82462117|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0014|TWO_SIDED|95.0|-9.64|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.34|-9.64|0.0014
82462118|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.1|STANDARD_ERROR_OF_MEAN|1.82||0.0054|TWO_SIDED|95.0|-8.67|-1.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.51|-8.67|0.0054
82462119|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.82||0.0008|TWO_SIDED|95.0|-9.71|-2.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.55|-9.71|0.0008
82462120|NCT03192176|164625577|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.84|<|0.0001|TWO_SIDED|95.0|-11.2|-3.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.97|-11.20|<0.0001
82462121|NCT03192176|164625577|SUPERIORITY||LSMean difference|-8.2|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-11.88|-4.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-4.59|-11.88|<0.0001
82462122|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.85||0.0026|TWO_SIDED|95.0|-9.27|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-1.99|-9.27|0.0026
82462123|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.83||0.0003|TWO_SIDED|95.0|-10.35|-3.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.16|-10.35|0.0003
82462124|NCT03192176|164625577|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|1.81||0.0006|TWO_SIDED|95.0|-9.88|-2.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.75|-9.88|0.0006
82462125|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|2.12||0.0126|TWO_SIDED|95.0|-9.48|-1.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.15|-9.48|0.0126
82462126|NCT03192176|164625577|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|2.12||0.1724|TWO_SIDED|95.0|-7.06|1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||1.27|-7.06|0.1724
82462127|NCT03192176|164625577|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.18||0.3548|TWO_SIDED|95.0|-6.31|2.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||2.27|-6.31|0.3548
82543253|NCT00933400|164787026|EQUIVALENCE|The trial was powered to test the principal hypothesis that the major adverse cardiac event (MACE, including myocardial infarction and cardiac death) rate among patients found not to have significant CAD on CCTA exceeds 1%|binomial proportion|1.3|||||TWO_SIDED|95.0|-4.4|7.0|||||Exact confidence intervals for the difference in proportions|Compare Revascularization between groups||7.0|-4.4|
82543254|NCT01415349|164787027|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of Geometric LS Means|1.03|||||TWO_SIDED|90.0|0.966|1.09|||Mixed Models Analysis|||||1.09|0.966|
82543255|NCT01415349|164787028|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.998|1.08|||Mixed Models Analysis|||||1.08|0.998|
82543256|NCT03473340|164787051|SUPERIORITY|||||||0.17697507|||||||t-test, 2 sided|||P-Value provided is for net change only.||||0.17697507
82543257|NCT03473340|164787052|SUPERIORITY|||||||0.77367872|||||||Welch Two Sample t-test|||P-Value provided is for net change only.||||0.77367872
82543258|NCT03473340|164787053|SUPERIORITY|||||||0.68595748|||||||t-test, 2 sided|||P-Value provided is for net change only.||||0.68595748
82543259|NCT03473340|164787054|SUPERIORITY|||||||0.00127634|||||||Fisher Exact|||||||0.00127634
82543260|NCT03473340|164787055|SUPERIORITY|||||||0.80904544|||||||Fisher Exact|||||||0.80904544
82543261|NCT02763319|164787112|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.468|TWO_SIDED|95.0|0.837|1.351|||Inverse normal test|The Inverse Normal method combines information (p-value) from the interim analysis and information from the final analysis.|The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per the Interactive Web Response System (IWRS). Rituximab + bendamustine was the reference treatment group.|||1.351|0.837|0.468
82543262|NCT02763319|164787113|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.568|TWO_SIDED|95.0|0.586|1.33|||Inverse normal test|The Inverse Normal method combines information (p-value) from the interim analysis and information from the final analysis.|The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per the Interactive Web Response System. Rituximab + bendamustine is the reference treatment group.|||1.330|0.586|0.568
82543263|NCT02763319|164787114|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.812|1.779|||||||A Cochran-Mantel-Haenszel (CMH) test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|1.779|0.812|
82578582|NCT00288639|164866448|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-23.85|STANDARD_DEVIATION|84.313||||95.0|-55.33|7.64|||||Evolved to Generalized. Response ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||7.64|-55.33|
82578583|NCT00288639|164866452|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-24.93|STANDARD_DEVIATION|60.867||||95.0|-43.66|-6.2|||||Seizure freq. ≤3 / 28 d. Resp. ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.20|-43.66|
82543264|NCT02763319|164787115|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.778|3.041|||||||A Cochran-Mantel-Haenszel (CMH) test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|3.041|0.778|
82543265|NCT02763319|164787116|SUPERIORITY||Hazard Ratio (HR)|1.28|||||TWO_SIDED|95.0|0.938|1.745|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.745|0.938|
82543266|NCT02763319|164787117|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.673|2.035|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|2.035|0.673|
82543267|NCT02763319|164787118|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.875|1.452|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.452|0.875|
82543268|NCT02763319|164787119|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.682|1.626|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.626|0.682|
82543269|NCT02763319|164787120|SUPERIORITY||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.829|1.985|||||||A CMH test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|1.985|0.829|
82543270|NCT02763319|164787121|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|0.755|3.457|||||||A CMH test stratified by Baseline stratification factors was performed for response variable coded as follows: 1 for response (CR or PR) and 0 for nonresponse (stable disease \[SD\] or progressive disease \[PD\] or unknown).|3.457|0.755|
82543271|NCT02763319|164787122|SUPERIORITY||Hazard Ratio (HR)|1.08|||||TWO_SIDED|95.0|0.831|1.416|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.416|0.831|
82543272|NCT02763319|164787123|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.633|1.595|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.595|0.633|
82543273|NCT02763319|164787124|SUPERIORITY||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.794|1.244|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.244|0.794|
82462128|NCT03192176|164625577|SUPERIORITY||LSMean difference|-3.8|STANDARD_ERROR_OF_MEAN|2.18||0.086|TWO_SIDED|95.0|-8.04|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.53|-8.04|0.0860
82462129|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|2.19||0.0111|TWO_SIDED|95.0|-9.89|-1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.28|-9.89|0.0111
82462130|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.19||0.0349|TWO_SIDED|95.0|-8.94|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.33|-8.94|0.0349
82462131|NCT03192176|164625577|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.12||0.2205|TWO_SIDED|95.0|-6.77|1.57||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.57|-6.77|0.2205
82462132|NCT03192176|164625577|SUPERIORITY||LSMean differencce|-4.0|STANDARD_ERROR_OF_MEAN|2.17||0.0645|TWO_SIDED|95.0|-8.29|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||0.24|-8.29|0.0645
82462133|NCT03192176|164625577|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|2.16||0.5031|TWO_SIDED|95.0|-5.69|2.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.80|-5.69|0.5031
82462134|NCT03192176|164625577|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|2.24||0.5263|TWO_SIDED|95.0|-5.84|2.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.99|-5.84|0.5263
82462135|NCT03192176|164625577|SUPERIORITY||LSMean differencce|-2.4|STANDARD_ERROR_OF_MEAN|2.24||0.2782|TWO_SIDED|95.0|-6.83|1.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.97|-6.83|0.2782
82462136|NCT03192176|164625577|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|2.24||0.0198|TWO_SIDED|95.0|-9.67|-0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.84|-9.67|0.0198
82462137|NCT03192176|164625577|SUPERIORITY||LSMean difference|-4.6|STANDARD_ERROR_OF_MEAN|2.25||0.0417|TWO_SIDED|95.0|-9.05|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.18|-9.05|0.0417
82462138|NCT03192176|164625577|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.16||0.2963|TWO_SIDED|95.0|-6.52|2.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.00|-6.52|0.2963
82462139|NCT03192176|164625577|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|2.09||0.5408|TWO_SIDED|95.0|-5.39|2.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.83|-5.39|0.5408
82462140|NCT03192176|164625577|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|2.07||0.7473|TWO_SIDED|95.0|-4.74|3.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||3.41|-4.74|0.7473
82462141|NCT03192176|164625577|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|2.18||0.9214|TWO_SIDED|95.0|-4.07|4.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.50|-4.07|0.9214
82462142|NCT03192176|164625577|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|2.14||0.9876|TWO_SIDED|95.0|-4.19|4.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.26|-4.19|0.9876
82462143|NCT03192176|164625577|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.18||0.2379|TWO_SIDED|95.0|-6.86|1.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.71|-6.86|0.2379
82543274|NCT02763319|164787125|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.57|1.22|||||||The hazard ratio estimate for treatment was based on a stratified Cox model with stratification factors as per IWRS. Rituximab + bendamustine was the reference treatment group.|1.220|0.570|
82578584|NCT00288639|164866452|SUPERIORITY_OR_OTHER_LEGACY||Mean Response Ratio|-20.78|STANDARD_DEVIATION|50.334||||95.0|-35.24|-6.33|||||Seizure freq. \>3 / 28 d. Resp. ratio = 100 x \[(t - b)/(t + b)\] where t=treatment seizure frequency and b=baseline seizure frequency.|Noncomparative study. Summary stats, 2 sided 95% CI to est. effect size. No adjustments made to alpha levels to acct for multiple 2o endpts. Sample size=83 patients (pts) sufficient to detect statistically significant difference in % change from baseline in 28-day seizure rate with 80% power, true change from baseline approximately 25%. Allowing for dropouts assume 85% pts analyzed.||-6.33|-35.24|
82462144|NCT03192176|164625577|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|2.18||0.1491|TWO_SIDED|95.0|-7.45|1.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.14|-7.45|0.1491
82462145|NCT03192176|164625577|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|2.07||0.956|TWO_SIDED|95.0|-3.96|4.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.19|-3.96|0.9560
82462146|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.96||0.0089|TWO_SIDED|95.0|-9.01|-1.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-1.30|-9.01|0.0089
82462147|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|1.97|<|0.0001|TWO_SIDED|95.0|-12.22|-4.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-4.48|-12.22|<0.0001
82462148|NCT03192176|164625578|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-13.06|-5.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-5.34|-13.06|<0.0001
82462149|NCT03192176|164625578|SUPERIORITY||LSMean difference|-10.7|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-14.58|-6.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-6.75|-14.58|<0.0001
82462150|NCT03192176|164625578|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|2.0||0.063|TWO_SIDED|95.0|-7.65|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||0.20|-7.65|0.0630
82462151|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.97||0.0003|TWO_SIDED|95.0|-11.04|-3.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-3.30|-11.04|0.0003
82462152|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.96||0.0007|TWO_SIDED|95.0|-10.53|-2.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 1||-2.84|-10.53|0.0007
82462153|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|1.98||0.0231|TWO_SIDED|95.0|-8.43|-0.63||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.63|-8.43|0.0231
82462154|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-11.94|-4.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.09|-11.94|<0.0001
82462155|NCT03192176|164625578|SUPERIORITY||LSMean differencce|-8.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|-11.87|-4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-4.05|-11.87|<0.0001
82462156|NCT03192176|164625578|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.02|<|0.0001|TWO_SIDED|95.0|-13.21|-5.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-5.26|-13.21|<0.0001
82462157|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|2.02||0.0177|TWO_SIDED|95.0|-8.8|-0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-0.84|-8.80|0.0177
82462158|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.99||0.0012|TWO_SIDED|95.0|-10.45|-2.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.60|-10.45|0.0012
82462159|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|2.04||0.0072|TWO_SIDED|95.0|-9.26|-2.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 2||-2.64|-9.26|0.0072
82462160|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|2.04||0.0044|TWO_SIDED|95.0|-9.86|-1.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-1.84|-9.86|0.0044
82462161|NCT03192176|164625578|SUPERIORITY||LSMean difference|-9.2|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-13.27|-5.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-5.21|-13.27|<0.0001
82462162|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.6|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.57|-4.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.55|-12.57|<0.0001
82462163|NCT03192176|164625578|SUPERIORITY||LSMean difference|-10.2|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|-14.29|-6.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-6.11|-14.29|<0.0001
82462164|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|2.08||0.0009|TWO_SIDED|95.0|-11.04|-2.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.87|-11.04|0.0009
82462165|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-12.44|-4.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-4.39|-12.44|<0.0001
82462166|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|2.04||0.0012|TWO_SIDED|95.0|-10.65|-2.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 3||-2.64|-10.65|0.0012
82462167|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|2.04||0.0053|TWO_SIDED|95.0|-9.72|-1.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-1.71|-9.72|0.0053
82462168|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.77|-4.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.73|-12.77|<0.0001
82462169|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.8|STANDARD_ERROR_OF_MEAN|2.04||0.0001|TWO_SIDED|95.0|-11.84|-3.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.84|-11.84|0.0001
82462170|NCT03192176|164625578|SUPERIORITY||LSMean difference|-10.0|STANDARD_ERROR_OF_MEAN|2.07|<|0.0001|TWO_SIDED|95.0|-14.12|-5.96||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-5.96|-14.12|<0.0001
82578585|NCT02815579|164866472|SUPERIORITY||Difference in log odds|-0.08||||0.86|TWO_SIDED|95.0|-1.0|0.84|||Mixed Models Analysis|||The investigators produced a difference-in-difference estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.84|-1.0|0.86
82578586|NCT02815579|164866473|SUPERIORITY||Difference in log odds|0.32||||0.23|TWO_SIDED|95.0|-0.28|0.92|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.92|-0.28|0.23
82462171|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|2.07||0.001|TWO_SIDED|95.0|-10.92|-2.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-2.78|-10.92|0.0010
82462172|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.5|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-12.49|-4.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-4.46|-12.49|<0.0001
82462173|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|2.03||0.0005|TWO_SIDED|95.0|-11.12|-3.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-3.13|-11.12|0.0005
82462174|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.4|STANDARD_ERROR_OF_MEAN|1.93||0.0057|TWO_SIDED|95.0|-9.15|-1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-1.58|-9.15|0.0057
82578587|NCT02815579|164866474|SUPERIORITY||Mean Difference (Net)|1.39||||0.26|TWO_SIDED|95.0|-1.01|3.78|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||3.78|-1.01|0.26
82462175|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.4|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-12.15|-4.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.56|-12.15|<0.0001
82462176|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-11.68|-4.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-4.08|-11.68|<0.0001
82462177|NCT03192176|164625578|SUPERIORITY||LSMean difference|-9.8|STANDARD_ERROR_OF_MEAN|1.96|<|0.0001|TWO_SIDED|95.0|-13.66|-5.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-5.93|-13.66|<0.0001
82462178|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|1.95||0.0007|TWO_SIDED|95.0|-10.54|-2.85||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.85|-10.54|0.0007
82462179|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.7|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-11.55|-3.95||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-3.95|-11.55|<0.0001
82462180|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.92||0.001|TWO_SIDED|95.0|-10.16|-2.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 5||-2.60|-10.16|0.0010
82462181|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.91||0.0064|TWO_SIDED|95.0|-8.99|-1.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.48|-8.99|0.0064
82462182|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.91||0.0002|TWO_SIDED|95.0|-10.94|-3.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.42|-10.94|0.0002
82462183|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.92||0.0001|TWO_SIDED|95.0|-11.29|-3.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.75|-11.29|0.0001
82543275|NCT01622868|164787175|SUPERIORITY|||||||0.97||||||One-sided significance level = 0.10|Z-test|||The study was designed to see if there is a signal in the 12-week CR rate with the addition of lapatinib to warrant a future phase III trial. Null hypothesis: the 12-week post-WBRT/SRS CR rate is ≤ 5%; alternative hypothesis: the addition of lapatinib will increase that CR rate to at least 20%. 114 eligible participants provide 86% power to detect a 15% absolute increase in CR rate at a significance level of 0.10, using a 1-sided Z-test for the difference of 2 proportions.||||0.97
82462184|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.9|STANDARD_ERROR_OF_MEAN|1.95|<|0.0001|TWO_SIDED|95.0|-12.69|-5.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-5.03|-12.69|<0.0001
82462185|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.94||0.003|TWO_SIDED|95.0|-9.62|-1.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-1.99|-9.62|0.0030
82462186|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|1.92||0.0002|TWO_SIDED|95.0|-10.92|-3.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-3.37|-10.92|0.0002
82462187|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.9||0.0013|TWO_SIDED|95.0|-9.91|-2.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 6||-2.42|-9.91|0.0013
82462188|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|1.94||0.0137|TWO_SIDED|95.0|-8.61|-0.99||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-0.99|-8.61|0.0137
82462189|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.4|STANDARD_ERROR_OF_MEAN|1.94||0.0002|TWO_SIDED|95.0|-11.24|-3.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.60|-11.24|0.0002
82543276|NCT01622868|164787176|SUPERIORITY|||||||0.78||||||One-sided significance level = 0.10|Z-test|||||||0.78
82543277|NCT01622868|164787177|SUPERIORITY|||||||0.78||||||One-sided significance level = 0.10|Z-test|||4 weeks post-RT||||0.78
82543278|NCT01622868|164787177|SUPERIORITY|||||||0.97||||||One-sided significance level = 0.10|Z-test|||12 weeks post-RT||||0.97
82543279|NCT01622868|164787183|SUPERIORITY|||||||1||||||One-sided significance level = 0.10|z-test|||||||1.00
82462190|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.95||0.0004|TWO_SIDED|95.0|-10.79|-3.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-3.13|-10.79|0.0004
82462191|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.9|STANDARD_ERROR_OF_MEAN|1.98|<|0.0001|TWO_SIDED|95.0|-12.74|-4.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-4.97|-12.74|<0.0001
82462192|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.9|STANDARD_ERROR_OF_MEAN|1.97||0.0028|TWO_SIDED|95.0|-9.82|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.07|-9.82|0.0028
82462193|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.95||0.0006|TWO_SIDED|95.0|-10.6|-2.94||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.94|-10.60|0.0006
82462194|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.93||0.002|TWO_SIDED|95.0|-9.82|-2.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 7||-2.21|-9.82|0.0020
82462195|NCT03192176|164625578|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.93||0.0588|TWO_SIDED|95.0|-7.46|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.14|-7.46|0.0588
82462196|NCT03192176|164625578|SUPERIORITY||LSMean difference|-3.7|STANDARD_ERROR_OF_MEAN|1.93||0.0018|TWO_SIDED|95.0|-9.9|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.14|-9.90|0.0018
82462197|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.94||0.0017|TWO_SIDED|95.0|-9.98|-2.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.34|-9.98|0.0017
82462198|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.97||0.0003|TWO_SIDED|95.0|-11.09|-3.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-3.32|-11.09|0.0003
82462199|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.97||0.081|TWO_SIDED|95.0|-8.55|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.81|-8.55|0.0810
82543280|NCT01622868|164787185|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.67|TWO_SIDED|95.0|0.62|1.36||Two-sided significance level = 0.05|Log Rank|||||1.36|0.62|0.67
82543281|NCT03538717|164787196|SUPERIORITY|||||||0.113|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.113
82462200|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.94||0.002|TWO_SIDED|95.0|-9.88|-2.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-2.23|-9.88|0.0020
82462201|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.93||0.0076|TWO_SIDED|95.0|-8.98|-1.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-1.39|-8.98|0.0076
82462202|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.4|STANDARD_ERROR_OF_MEAN|1.85||0.0182|TWO_SIDED|95.0|-8.01|-0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.75|-8.01|0.0182
82543282|NCT03538717|164787197|SUPERIORITY|||||||0.228|||||||Fisher Exact|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.228
82543283|NCT03538717|164787198|SUPERIORITY|||||||0.02|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.020
82543284|NCT03538717|164787199|SUPERIORITY|||||||0.138|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.138
82543285|NCT03538717|164787200|SUPERIORITY|||||||0.524|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.524
82543286|NCT03538717|164787201|SUPERIORITY|||||||0.265|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.265
82543287|NCT03538717|164787202|SUPERIORITY|||||||0.035|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.035
82543288|NCT03538717|164787203|SUPERIORITY|||||||0.123|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.123
82543289|NCT03538717|164787204|SUPERIORITY|||||||0.327|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.327
82543290|NCT03538717|164787205|SUPERIORITY|||||||0.419|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.419
82462203|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.84||0.0019|TWO_SIDED|95.0|-9.42|-2.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.16|-9.42|0.0019
82462204|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.86||0.0007|TWO_SIDED|95.0|-10.02|-2.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.71|-10.02|0.0007
82462205|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.1|STANDARD_ERROR_OF_MEAN|1.88||0.0002|TWO_SIDED|95.0|-10.76|-3.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-3.35|-10.76|0.0002
82462206|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.88||0.0263|TWO_SIDED|95.0|-7.89|-0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-0.50|-7.89|0.0263
82462207|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.86||0.0015|TWO_SIDED|95.0|-9.61|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-2.29|-9.61|0.0015
82462208|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.84||0.0113|TWO_SIDED|95.0|-8.32|-1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 9||-1.07|-8.32|0.0113
82462209|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.91||0.0059|TWO_SIDED|95.0|-9.04|-1.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-1.54|-9.04|0.0059
82462210|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|1.91||0.0018|TWO_SIDED|95.0|-9.76|-2.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.25|-9.76|0.0018
82462211|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.8|STANDARD_ERROR_OF_MEAN|1.93||0.0004|TWO_SIDED|95.0|-10.62|-3.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.05|-10.62|0.0004
82462212|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.6|STANDARD_ERROR_OF_MEAN|1.95||0.0001|TWO_SIDED|95.0|-11.39|-3.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-3.73|-11.39|0.0001
82462213|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.94||0.0044|TWO_SIDED|95.0|-9.4|-1.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 10||-1.75|-9.40|0.0044
82543291|NCT03538717|164787206|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.010
82543292|NCT03538717|164787207|SUPERIORITY|||||||0.446|||||||Chi-squared|||100% clear cells||||0.446
82578588|NCT02815579|164866475|SUPERIORITY||Difference in log odds|0.84||||0.31|TWO_SIDED|95.0|-0.79|2.47|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||2.47|-0.79|0.31
82462214|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.6|STANDARD_ERROR_OF_MEAN|1.92||0.0006|TWO_SIDED|95.0|-10.4|-2.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.84|-10.40|0.0006
82543293|NCT03538717|164787207|SUPERIORITY|||||||0.596|||||||Chi-squared|||100% non-clear cells||||0.596
82578589|NCT02815579|164866476|SUPERIORITY||Difference in log odds|-0.34||||0.44|TWO_SIDED|95.0|-1.22|0.53|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||0.53|-1.22|0.44
82543294|NCT03538717|164787207|SUPERIORITY|||||||0.578|||||||Chi-squared|||Majority component of clear cells||||0.578
82543295|NCT03538717|164787207|SUPERIORITY|||||||0.706|||||||Fisher Exact|||Majority component of non-clear cells||||0.706
82543296|NCT03538717|164787208|SUPERIORITY|||||||0.074|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.074
82543297|NCT03538717|164787209|SUPERIORITY|||||||0.07|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.070
82543298|NCT03538717|164787210|SUPERIORITY|||||||0.091|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.091
82543299|NCT03538717|164787211|SUPERIORITY|||||||0.046|||||||Chi-squared|||Lymph nodes||||0.046
82543300|NCT03538717|164787211|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||CNS||||>0.999
82543301|NCT03538717|164787211|SUPERIORITY|||||||0.026|||||||Chi-squared|||Hepatic||||0.026
82543302|NCT03538717|164787211|SUPERIORITY|||||||0.327|||||||Chi-squared|||Pulmonary||||0.327
82462215|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.91||0.0025|TWO_SIDED|95.0|-9.57|-2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 10||-2.07|-9.57|0.0025
82462216|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.2|STANDARD_ERROR_OF_MEAN|1.86||0.0059|TWO_SIDED|95.0|-8.81|-1.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-1.49|-8.81|0.0059
82462217|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.86||0.0007|TWO_SIDED|95.0|-10.06|-2.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.74|-10.06|0.0007
82462218|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-11.18|-3.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.79|-11.18|<0.0001
82462219|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|1.9||0.0001|TWO_SIDED|95.0|-11.18|-3.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.72|-11.18|0.0001
82462220|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.89||0.0022|TWO_SIDED|95.0|-9.56|-2.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.11|-9.56|0.0022
82462221|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.87||0.0003|TWO_SIDED|95.0|-10.56|-3.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-3.19|-10.56|0.0003
82462222|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|-9.44|-2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 11||-2.13|-9.44|0.0020
82462223|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|1.82||0.0023|TWO_SIDED|95.0|-9.18|-2.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.01|-9.18|0.0023
82462224|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.5|STANDARD_ERROR_OF_MEAN|1.82||0.0004|TWO_SIDED|95.0|-10.06|-2.89||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.89|-10.06|0.0004
82462225|NCT03192176|164625578|SUPERIORITY||LSMean difference|-7.4|STANDARD_ERROR_OF_MEAN|1.84|<|0.0001|TWO_SIDED|95.0|-11.05|-3.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.81|-11.05|<0.0001
82462226|NCT03192176|164625578|SUPERIORITY||LSMean difference|-8.1|STANDARD_ERROR_OF_MEAN|1.86|<|0.0001|TWO_SIDED|95.0|-11.8|-4.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-4.49|-11.80|<0.0001
82462227|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.85||0.0011|TWO_SIDED|95.0|-9.77|-2.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.47|-9.77|0.0011
82462228|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.9|STANDARD_ERROR_OF_MEAN|1.83||0.0002|TWO_SIDED|95.0|-10.54|-3.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-3.32|-10.54|0.0002
82462229|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|1.82||0.0008|TWO_SIDED|95.0|-9.71|-2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-2.56|-9.71|0.0008
82543303|NCT03538717|164787211|SUPERIORITY|||||||0.024|||||||Chi-squared|||Bone||||0.024
82543304|NCT03538717|164787211|SUPERIORITY|||||||0.045|||||||Chi-squared|||Another site of metastasis||||0.045
82543305|NCT03538717|164787212|SUPERIORITY|||||||0.555|||||||Chi-squared|||LDH level \>1.5\*ULN||||0.555
82543306|NCT03538717|164787212|SUPERIORITY||||||<|0.001|||||||Chi-squared|||Hgb levels \<=LLN||||<0.001
82543307|NCT03538717|164787212|SUPERIORITY|||||||0.344|||||||Chi-squared|||Corrected Ca levels \>10 mg/dL||||0.344
82543308|NCT03538717|164787212|SUPERIORITY||||||>|0.999|||||||Chi-squared|||Neutrophil levels \>ULN||||>0.999
82543309|NCT03538717|164787212|SUPERIORITY|||||||0.795|||||||Chi-squared|||Platelet levels \>ULN||||0.795
82543310|NCT03538717|164787212|SUPERIORITY|||||||0.184|||||||Chi-squared|||Neutrophil-to-lymphocyte ratio \<=3||||0.184
82543311|NCT03538717|164787213|SUPERIORITY|||||||0.235|||||||Chi-squared|||Statistics analysis (P value) was performed compositely for all the categories reported.||||0.235
82462230|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|2.15||0.0054|TWO_SIDED|95.0|-10.26|-1.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-1.80|-10.26|0.0054
82462231|NCT03192176|164625578|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|2.15||0.1145|TWO_SIDED|95.0|-7.63|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMMRM|||Week 13||0.83|-7.63|0.1145
82462232|NCT03192176|164625578|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|2.21||0.2106|TWO_SIDED|95.0|-7.13|1.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.58|-7.13|0.2106
82462233|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|2.21||0.0685|TWO_SIDED|95.0|-8.39|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|LSMean difference|||Week 13||0.31|-8.39|0.0685
82462234|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.7|STANDARD_ERROR_OF_MEAN|2.22||0.0029|TWO_SIDED|95.0|-11.02|-2.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-2.29|-11.02|0.0029
82462235|NCT03192176|164625578|SUPERIORITY||LSMean difference|-5.0|STANDARD_ERROR_OF_MEAN|2.22||0.0239|TWO_SIDED|95.0|-9.42|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||-0.67|-9.42|0.0239
82462236|NCT03192176|164625578|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|2.15||0.2224|TWO_SIDED|95.0|-6.86|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 13||1.60|-6.86|0.2224
82462237|NCT03192176|164625578|SUPERIORITY||LSMean differencce|-4.8|STANDARD_ERROR_OF_MEAN|2.22||0.0308|TWO_SIDED|95.0|-9.17|-0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.45|-9.17|0.0308
82462238|NCT03192176|164625578|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|2.21||0.4194|TWO_SIDED|95.0|-6.13|2.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.56|-6.13|0.4194
82543312|NCT01951170|164787239|SUPERIORITY_OR_OTHER|||||||0.83||||||Change in mTSS scores from baseline to Week 24.|Wilcoxon signed rank test|||||||0.83
82543313|NCT02765100|164787287|EQUIVALENCE|Unless specified otherwise, each of the statistical tests above will use a two-tailed alpha-level of 0.05.|Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|3.4|<|0.05|TWO_SIDED||||||t-test, 2 sided|||This is a pilot proof of concept study and does not require formal sample size calculations. High and low CRP groups will be compared on demographic, clinical and biological variables using two-sample t-tests or analysis of variance (ANOVA) tests for continuous variables (for nonparametric continuous variables, either Mann-Whitney tests or Kruskal-Wallis tests will be used) and chi-square tests or Fisher's exact tests for categorical variables.||||<0.05
82543314|NCT04040296|164787318|SUPERIORITY||Difference in percentage|1.4||||0.28|TWO_SIDED|95.0|-1.1|3.8|||Cochran-Mantel-Haenszel||Difference between arms in the percentage of subjects with the primary outcome within 14 days of randomization.|||3.8|-1.1|0.28
82462239|NCT03192176|164625578|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|2.29||0.3759|TWO_SIDED|95.0|-6.55|2.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.48|-6.55|0.3759
82462240|NCT03192176|164625578|SUPERIORITY||LSMean differencce|-2.8|STANDARD_ERROR_OF_MEAN|2.29||0.2285|TWO_SIDED|95.0|-7.26|1.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||1.74|-7.26|0.2285
82462241|NCT03192176|164625578|SUPERIORITY||LSMean difference|-6.2|STANDARD_ERROR_OF_MEAN|2.29||0.0072|TWO_SIDED|95.0|-10.71|-1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-1.70|-10.71|0.0072
82462242|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.9|STANDARD_ERROR_OF_MEAN|2.31||0.0338|TWO_SIDED|95.0|-9.46|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||-0.38|-9.46|0.0338
82543315|NCT04040296|164787319|SUPERIORITY||Difference in percentage|9.5|||<|0.001|TWO_SIDED|95.0|8.1|11.0|||Van Elteren test||Difference between arms in the percentage of implemented recommendations with 24 hours of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||11|8.1|<.001
82543316|NCT04040296|164787320|SUPERIORITY||Difference in percentage|0.5||||0.65|TWO_SIDED|95.0|-1.6|2.6|||Van Elteren test||Difference between arms in the percentage of subjects with AKI progression within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||2.6|-1.6|.65
82462243|NCT03192176|164625578|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.21||0.3026|TWO_SIDED|95.0|-6.64|2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 14||2.07|-6.64|0.3026
82462244|NCT03192176|164625578|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.16||0.312|TWO_SIDED|95.0|-6.45|2.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||2.07|-6.45|0.3120
82543317|NCT04040296|164787321|SUPERIORITY||Difference in percentage|0.1||||0.89|TWO_SIDED|95.0|-0.7|0.8|||Van Elteren test||Difference between arms in the percentage of subjects who received inpatient dialysis within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||.8|-.7|.89
82543318|NCT04040296|164787322|SUPERIORITY||Difference in percentage|0.4||||0.72|TWO_SIDED|95.0|-1.5|2.1|||Van Elteren test||Difference between arms in the percentage of subjects with inpatient mortality within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||2.1|-1.5|.72
82543319|NCT04040296|164787323|SUPERIORITY||Difference in percentage|1.9||||0.31|TWO_SIDED|95.0|-0.3|4.1|||Van Elteren test||Difference between arms in the percentage of subjects who received a kidney consult within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||4.1|-.3|.31
82543320|NCT04040296|164787324|SUPERIORITY||Difference in percentage|-0.9||||0.17|TWO_SIDED|95.0|-2.3|0.4|||Van Elteren test||Difference between arms in the percentage of subjects discharged to hospice care within 14 days of randomization.|Proportions were compared using Cochrane-Mantel Haenszel χ2 test, accounting for stratification by hospital site.||.4|-2.3|.17
82578590|NCT02815579|164866477|SUPERIORITY||Mean Difference (Net)|-3.54|||<|0.001|TWO_SIDED|95.0|-4.16|-2.92|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-2.92|-4.16|<0.001
82462245|NCT03192176|164625578|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|2.15||0.6816|TWO_SIDED|95.0|-5.11|3.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||3.34|-5.11|0.6816
82462246|NCT03192176|164625578|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|2.26||0.8599|TWO_SIDED|95.0|-4.85|4.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.05|-4.85|0.8599
82462247|NCT03192176|164625578|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|2.23||0.9093|TWO_SIDED|95.0|-4.64|4.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.13|-4.64|0.9093
82462248|NCT03192176|164625578|SUPERIORITY||LSMean difference|-4.0|STANDARD_ERROR_OF_MEAN|2.26||0.0788|TWO_SIDED|95.0|-8.43|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.46|-8.43|0.0788
82462249|NCT03192176|164625578|SUPERIORITY||LSMean difference|-3.5|STANDARD_ERROR_OF_MEAN|2.26||0.1278|TWO_SIDED|95.0|-7.92|1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.00|-7.92|0.1278
82462250|NCT03192176|164625578|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|2.15||0.9848|TWO_SIDED|95.0|-4.19|4.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit and smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||4.27|-4.19|0.9848
82462251|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|7.05||0.0388|TWO_SIDED|95.0|0.76|28.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||28.49|0.76|0.0388
82462252|NCT03192176|164625579|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|7.08||0.0012|TWO_SIDED|95.0|9.17|37.02||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||37.02|9.17|0.0012
82543321|NCT02652442|164787369|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the off-axis distance of 3.5 cm and 7.0 cm.||||0.97
82543322|NCT02652442|164787369|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the centrifugation duration of 1 minute and 3 minutes.||||0.51
82543323|NCT02652442|164787369|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|Paired samples t-test for change in SVV (measured in degrees)||Null hypothesis: The change in SVV (Post-OAR - Pre-OAR) will not be different for the centrifugation schedule of daily OAR and biweekly OAR for a total of 5 sessions.||||0.44
82543324|NCT01075217|164787376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|2.45|<|0.0001|TWO_SIDED|95.0|1.4|3.5||P-value provided is for the difference in pain assessment between Isovue and Visipaque in Group 1, i.e., pain was not assessed separately from heat.|t-test, 2 sided|||||3.5|1.4|<0.0001
82578591|NCT02815579|164866478|SUPERIORITY||Mean Difference (Net)|-0.21||||0.02|TWO_SIDED|95.0|-0.39|-0.04|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-0.04|-0.39|0.02
82578592|NCT02815579|164866479|SUPERIORITY||Mean Difference (Net)|0.01||||0.98|TWO_SIDED|95.0|-0.82|0.84|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||0.84|-0.82|0.98
82462253|NCT03192176|164625579|SUPERIORITY||LSMean difference|37.3|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|23.41|51.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||51.22|23.41|<0.0001
82462254|NCT03192176|164625579|SUPERIORITY||LSMean difference|41.0|STANDARD_ERROR_OF_MEAN|7.16|<|0.0001|TWO_SIDED|95.0|26.88|55.05||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||55.05|26.88|<0.0001
82462255|NCT03192176|164625579|SUPERIORITY||LSMean difference|8.2|STANDARD_ERROR_OF_MEAN|7.19||0.2569|TWO_SIDED|95.0|-5.98|22.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||22.32|-5.98|0.2569
82543325|NCT01075217|164787376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|1.94||0.3244|TWO_SIDED|95.0|-0.5|1.4||P-value provided is for the difference in pain assessment between Isovue and Visipaque in Group 2, i.e., pain was assessed separately from heat.|t-test, 2 sided|||||1.4|-0.5|0.3244
82543326|NCT01075217|164787377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|STANDARD_DEVIATION|2.35||0.0059|TWO_SIDED|95.0|0.5|2.7|||t-test, 2 sided|||||2.7|0.5|0.0059
82543327|NCT01911169|164787381|OTHER||Cohen's d|0.68|||||TWO_SIDED|||||||||Effect size of primary outcome was calculated||||
82578593|NCT02815579|164866480|SUPERIORITY||Mean Difference (Net)|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2.||-0.15|-0.59|0.001
82578594|NCT02815579|164866481|SUPERIORITY||Difference in log odds|-0.83||||0.001|TWO_SIDED|95.0|-1.45|-0.2|||Mixed Models Analysis|||The investigators analyzed longitudinal data measured every 6 months to assess trends in the two study arms and produced a difference-in-differences estimate between baseline and year 2 using multi-level logistic regression. Units are in log odds.||-0.20|-1.45|0.001
82578595|NCT02815579|164866482|SUPERIORITY||Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.52|-0.31|||Mixed Models Analysis|||||-0.31|-0.52|<0.001
82578596|NCT02385240|164866483|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.034|||||TWO_SIDED|90.0|-7.52|10.72|||Wald's method|||||10.72|-7.52|
82578597|NCT02385240|164866484|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.05|||||TWO_SIDED|90.0|-6.94|11.33|||Wald's method|||||11.33|-6.94|
82578598|NCT02385240|164866485|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.26|||||TWO_SIDED|90.0|-1.77|15.46|||Wald's method|||||15.46|-1.77|
82462256|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.6|STANDARD_ERROR_OF_MEAN|7.07||0.0003|TWO_SIDED|95.0|11.65|39.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||39.47|11.65|0.0003
82462257|NCT03192176|164625579|SUPERIORITY||LSMean difference|30.2|STANDARD_ERROR_OF_MEAN|7.03|<|0.0001|TWO_SIDED|95.0|16.39|44.06||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||44.06|16.39|<0.0001
82543328|NCT01911169|164787381|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||This study was conducted to determine the effect size for in change in FMD at 16 weeks with 25(OH) therapy. For change in FMD at 16 weeks with 25(OH)D repletion, based on this effect size, to detect significant differences between 2 groups, assuming 1) normally distributed data, 2) the same effect size, 3) alpha= 0.05, and 4) a power of 0.8, 35 patients in each group would be required. Therefore, this was designed as a pilot to determine effect size.||||> 0.05
82543329|NCT03873337|164787410|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 25||One-tailed, paired sample t-tests will be used to examine decreases in scores on the TASQ at one-month post target quit date (2-months after baseline assessment.||||<0.001
82543330|NCT03873337|164787410|SUPERIORITY|||||||0.002||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in scores on the TASQ at 3-months post target quit date (4 months after baseline assessment.||||0.002
82543331|NCT03873337|164787411|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in cigarettes smoked per day at one-month post target quit date (2-months after baseline assessment.||||<0.001
82578599|NCT02311673|164866490|OTHER||Least Squares (LS) Mean Difference|-0.3||||0.42|TWO_SIDED|95.0|-3.1|2.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.5|-3.1|0.420
82578600|NCT02311673|164866490|OTHER||LS Mean Difference|-0.4||||0.348|TWO_SIDED|95.0|-2.3|1.6|||Longitudinal mixed analysis of variance|One sided p-value.|A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.6|-2.3|0.348
82578601|NCT02311673|164866490|OTHER||LS Mean Difference|0.8||||0.779|TWO_SIDED|95.0|-1.3|2.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.9|-1.3|0.779
82462258|NCT03192176|164625579|SUPERIORITY||LSMean difference|15.9|STANDARD_ERROR_OF_MEAN|7.02||0.024|TWO_SIDED|95.0|2.11|29.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||29.71|2.11|0.0240
82462259|NCT03192176|164625579|SUPERIORITY||LSMean difference|24.5|STANDARD_ERROR_OF_MEAN|7.05||0.0006|TWO_SIDED|95.0|10.62|38.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||38.37|10.62|0.0006
82462260|NCT03192176|164625579|SUPERIORITY||LSMean differencce|33.7|STANDARD_ERROR_OF_MEAN|7.03|<|0.0001|TWO_SIDED|95.0|19.87|47.52||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||47.52|19.87|<0.0001
82462261|NCT03192176|164625579|SUPERIORITY||LSMean difference|38.0|STANDARD_ERROR_OF_MEAN|7.15|<|0.0001|TWO_SIDED|95.0|23.93|52.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||52.04|23.93|<0.0001
82462262|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.5|STANDARD_ERROR_OF_MEAN|7.16||0.0441|TWO_SIDED|95.0|0.38|28.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||28.53|0.38|0.0441
82462263|NCT03192176|164625579|SUPERIORITY||LSMean difference|19.4|STANDARD_ERROR_OF_MEAN|7.04||0.0061|TWO_SIDED|95.0|5.58|33.28||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||33.28|5.58|0.0061
82462264|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.7|STANDARD_ERROR_OF_MEAN|7.01||0.0003|TWO_SIDED|95.0|11.96|39.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||39.53|11.96|0.0003
82462265|NCT03192176|164625579|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|7.55||0.0078|TWO_SIDED|95.0|5.36|35.07||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||35.07|5.36|0.0078
82462266|NCT03192176|164625579|SUPERIORITY||LSMean difference|28.3|STANDARD_ERROR_OF_MEAN|7.59||0.0002|TWO_SIDED|95.0|13.36|43.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||43.22|13.36|0.0002
82578602|NCT02311673|164866492|OTHER||LS Mean Difference|21.5||||0.901|TWO_SIDED|95.0|-11.8|54.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||54.8|-11.8|0.901
82462267|NCT03192176|164625579|SUPERIORITY||LSMean difference|36.9|STANDARD_ERROR_OF_MEAN|7.55|<|0.0001|TWO_SIDED|95.0|22.07|51.77||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||51.77|22.07|<0.0001
82462268|NCT03192176|164625579|SUPERIORITY||LSMean difference|40.5|STANDARD_ERROR_OF_MEAN|7.69|<|0.0001|TWO_SIDED|95.0|25.41|55.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRm|||Week 3||55.67|25.41|<0.0001
82462269|NCT03192176|164625579|SUPERIORITY||LSMean difference|19.7|STANDARD_ERROR_OF_MEAN|7.7||0.0108|TWO_SIDED|95.0|4.59|34.88||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||34.88|4.59|0.0108
82462270|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.0|STANDARD_ERROR_OF_MEAN|7.56||0.0011|TWO_SIDED|95.0|10.09|39.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||39.84|10.09|0.0011
82462271|NCT03192176|164625579|SUPERIORITY||LSMean difference|30.9|STANDARD_ERROR_OF_MEAN|7.53|<|0.0001|TWO_SIDED|95.0|16.03|45.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||45.67|16.03|<0.0001
82462272|NCT03192176|164625579|SUPERIORITY||LSMean difference|20.5|STANDARD_ERROR_OF_MEAN|7.47||0.0063|TWO_SIDED|95.0|5.84|35.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||35.23|5.84|0.0063
82462273|NCT03192176|164625579|SUPERIORITY||LSMean difference|28.7|STANDARD_ERROR_OF_MEAN|7.49||0.0002|TWO_SIDED|95.0|13.98|43.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||43.46|13.98|0.0002
82462274|NCT03192176|164625579|SUPERIORITY||LSMean difference|33.3|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|18.66|48.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||48.00|18.66|<0.0001
82462275|NCT03192176|164625579|SUPERIORITY||LSMean difference|41.5|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|26.52|56.41||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||56.41|26.52|<0.0001
82462276|NCT03192176|164625579|SUPERIORITY||LSMean difference|19.7|STANDARD_ERROR_OF_MEAN|7.59||0.0098|TWO_SIDED|95.0|4.78|34.66||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||34.66|4.78|0.0098
82462277|NCT03192176|164625579|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|15.26|44.61||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||44.61|15.26|<0.0001
82462278|NCT03192176|164625579|SUPERIORITY||LSMean difference|33.1|STANDARD_ERROR_OF_MEAN|7.43|<|0.0001|TWO_SIDED|95.0|18.5|47.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||47.73|18.50|<0.0001
82462279|NCT03192176|164625579|SUPERIORITY||LSMean difference|15.4|STANDARD_ERROR_OF_MEAN|7.1||0.0303|TWO_SIDED|95.0|1.48|29.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||29.40|1.48|0.0303
82462280|NCT03192176|164625579|SUPERIORITY||LSMean difference|24.8|STANDARD_ERROR_OF_MEAN|7.11||0.0006|TWO_SIDED|95.0|10.77|38.74||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||38.74|10.77|0.0006
82462281|NCT03192176|164625579|SUPERIORITY||LSMean difference|30.8|STANDARD_ERROR_OF_MEAN|7.11|<|0.0001|TWO_SIDED|95.0|16.77|44.75||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||44.75|16.77|<0.0001
82462282|NCT03192176|164625579|SUPERIORITY||LSMean difference|38.8|STANDARD_ERROR_OF_MEAN|7.23|<|0.0001|TWO_SIDED|95.0|24.55|53.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||53.00|24.55|<0.0001
82462283|NCT03192176|164625579|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|7.2||0.0086|TWO_SIDED|95.0|4.88|33.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||33.23|4.88|0.0086
82462284|NCT03192176|164625579|SUPERIORITY||LSMean difference|22.3|STANDARD_ERROR_OF_MEAN|7.09||0.0018|TWO_SIDED|95.0|8.33|36.24||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||36.24|8.33|0.0018
82462285|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.1|STANDARD_ERROR_OF_MEAN|7.07||0.0004|TWO_SIDED|95.0|11.24|39.05||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||39.05|11.24|0.0004
82462286|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.62||0.0282|TWO_SIDED|95.0|1.56|27.6||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||27.60|1.56|0.0282
82462287|NCT03192176|164625579|SUPERIORITY||LSMean difference|19.9|STANDARD_ERROR_OF_MEAN|6.63||0.0029|TWO_SIDED|95.0|6.85|32.92||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||32.92|6.85|0.0029
82462288|NCT03192176|164625579|SUPERIORITY||LSMean difference|29.7|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|16.58|42.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||42.73|16.58|<0.0001
82543332|NCT03873337|164787411|SUPERIORITY||||||<|0.001||||||not adjusted for multiple comparisons|t-test, 1 sided|df = 27||One-tailed, paired sample t-tests will be used to examine decreases in cigarettes smoked per day at 3-months post target quit date (4-months after baseline assessment.||||<0.001
82543333|NCT02512965|164787412|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0002|TWO_SIDED|95.0|1.79|6.69||2-sided, adjusted for stratification factors at randomization.|Cochran-Mantel-Haenszel||Mantel-Haenszel estimate stratified by stratification factor at randomization.|||6.69|1.79|0.0002
82543334|NCT02512965|164787413|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0036|TWO_SIDED|95.0|1.35|4.85|||Cochran-Mantel-Haenszel||Mantel-Haenszel estimate stratified by stratification factors at randomization.|||4.85|1.35|0.0036
82543335|NCT02512965|164787414|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.26|TWO_SIDED|95.0|0.46|1.24|||Log Rank|2-sided p-value adjusted for stratification factors at randomization.|Estimate adjusted for stratification factors at randopmization.|||1.24|0.46|0.26
82543336|NCT02512965|164787415|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.47|TWO_SIDED|95.0|0.48|1.4||2-sided p-value adjusted for stratification factors at randomization.|Log Rank|||||1.40|0.48|0.47
82543337|NCT01185782|164787432|NON_INFERIORITY_OR_EQUIVALENCE|"The primary endpoint was to determine whether or not SJ-0021 is inferior to u-hFSH in inducing ovulation. The criterion for non-inferiority was that the lower limit of the two-sided 95% CI (= one-sided 97.5% CI) had to be greater than -15% for SJ-0021 to be considered not inferior to u-hFSH.)"|Delta|-3.51|||||TWO_SIDED|95.0|-13.05|6.04|||Chi-squared|||||6.04|-13.05|
82543338|NCT01185782|164787433|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||Chi-squared|||||||0.214
82462289|NCT03192176|164625579|SUPERIORITY||LSMean difference|35.7|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|95.0|22.42|48.99||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||48.99|22.42|<0.0001
82462290|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.74||0.0304|TWO_SIDED|95.0|1.4|27.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||27.90|1.40|0.0304
82462291|NCT03192176|164625579|SUPERIORITY||LSMean difference|20.4|STANDARD_ERROR_OF_MEAN|6.64||0.0022|TWO_SIDED|95.0|7.38|33.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||33.50|7.38|0.0022
82462292|NCT03192176|164625579|SUPERIORITY||LSMean difference|26.5|STANDARD_ERROR_OF_MEAN|6.59|<|0.0001|TWO_SIDED|95.0|13.56|39.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||39.50|13.56|<0.0001
82462293|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.4|STANDARD_ERROR_OF_MEAN|6.87||0.0362|TWO_SIDED|95.0|0.93|27.95||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||27.95|0.93|0.0362
82462294|NCT03192176|164625579|SUPERIORITY||LSMean difference|22.9|STANDARD_ERROR_OF_MEAN|6.88||0.0009|TWO_SIDED|95.0|9.41|36.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.47|9.41|0.0009
82462295|NCT03192176|164625579|SUPERIORITY||LSMean difference|28.9|STANDARD_ERROR_OF_MEAN|6.91|<|0.0001|TWO_SIDED|95.0|15.27|42.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||42.46|15.27|<0.0001
82462296|NCT03192176|164625579|SUPERIORITY||LSMean difference|36.8|STANDARD_ERROR_OF_MEAN|7.01|<|0.0001|TWO_SIDED|95.0|22.99|50.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||50.57|22.99|<0.0001
82462297|NCT03192176|164625579|SUPERIORITY||LSMean difference|15.6|STANDARD_ERROR_OF_MEAN|6.99||0.0265|TWO_SIDED|95.0|1.83|29.34||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||29.34|1.83|0.0265
82543339|NCT01185782|164787434|SUPERIORITY_OR_OTHER|||||||0.087||95.0|||||t-test, 2 sided|||||||0.087
82578603|NCT02311673|164866492|OTHER||LS Mean Difference|-3.9||||0.362|TWO_SIDED|95.0|-26.3|18.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||18.5|-26.3|0.362
82462298|NCT03192176|164625579|SUPERIORITY||LSMean difference|21.2|STANDARD_ERROR_OF_MEAN|6.89||0.0023|TWO_SIDED|95.0|7.6|34.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||34.71|7.60|0.0023
82462299|NCT03192176|164625579|SUPERIORITY||LSMean difference|27.1|STANDARD_ERROR_OF_MEAN|6.85|<|0.0001|TWO_SIDED|95.0|13.64|40.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||40.59|13.64|<0.0001
82462300|NCT03192176|164625579|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|6.8||0.158|TWO_SIDED|95.0|-3.75|22.99||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||22.99|-3.75|0.1580
82462301|NCT03192176|164625579|SUPERIORITY||LSMean difference|18.1|STANDARD_ERROR_OF_MEAN|6.8||0.0082|TWO_SIDED|95.0|4.72|31.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||31.50|4.72|0.0082
82462302|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.2|STANDARD_ERROR_OF_MEAN|6.85||0.0003|TWO_SIDED|95.0|11.77|38.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||38.71|11.77|0.0003
82543340|NCT01185782|164787435|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||t-test, 2 sided|||||||0.069
82543341|NCT01185782|164787436|SUPERIORITY_OR_OTHER|||||||0.852||95.0|||||Chi-squared|||||||0.852
82543342|NCT01185782|164787437|SUPERIORITY_OR_OTHER|||||||0.102||95.0|||||Chi-squared|||||||0.102
82578604|NCT02311673|164866492|OTHER||LS Mean Difference|-3.7||||0.378|TWO_SIDED|95.0|-28.0|20.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||20.5|-28.0|0.378
82543343|NCT01185782|164787438|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Chi-squared|||||||0.560
82543344|NCT01185782|164787439|SUPERIORITY_OR_OTHER|||||||0.555||95.0|||||Chi-squared|||||||0.555
82543345|NCT01185782|164787440|SUPERIORITY_OR_OTHER|||||||0.416||95.0|||||Chi-squared|||||||0.416
82462303|NCT03192176|164625579|SUPERIORITY||LSMean difference|30.6|STANDARD_ERROR_OF_MEAN|6.96|<|0.0001|TWO_SIDED|95.0|16.93|44.31||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||44.31|16.93|<0.0001
82462304|NCT03192176|164625579|SUPERIORITY||LSMean difference|11.2|STANDARD_ERROR_OF_MEAN|6.93||0.1074|TWO_SIDED|95.0|-2.45|24.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||24.84|-2.45|0.1074
82462305|NCT03192176|164625579|SUPERIORITY||LSMean difference|18.3|STANDARD_ERROR_OF_MEAN|6.83||0.0077|TWO_SIDED|95.0|4.87|31.76||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||31.76|4.87|0.0077
82462306|NCT03192176|164625579|SUPERIORITY||LSMean difference|23.6|STANDARD_ERROR_OF_MEAN|6.79||0.0006|TWO_SIDED|95.0|10.29|37.01||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||37.01|10.29|0.0006
82462307|NCT03192176|164625579|SUPERIORITY||LSMean difference|11.8|STANDARD_ERROR_OF_MEAN|6.47||0.0689|TWO_SIDED|95.0|-0.92|24.53||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||24.53|-0.92|0.0689
82543346|NCT01061151|164787444|SUPERIORITY||Risk Difference (RD)|-1.3|||||TWO_SIDED|96.5|-2.1|-0.4|||||The combination of Arm B and Arm C minus Arm A, based on a repeated confidence interval (Lan-DeMets approach with an O'Brien-Fleming type I error spending function to preserve an experiment-wise type I error rate of 5%).|Arm B and Arm C were combined and compared to Arm A. This comparison was an a priori planned comparison.||-0.4|-2.1|
82543347|NCT01061151|164787445|SUPERIORITY|||||||0.008|||||||Fisher Exact|||Periods 1 and 2||||0.008
82543348|NCT01061151|164787445|SUPERIORITY|||||||0.77|||||||Fisher Exact|||Period 2||||0.77
82543349|NCT01061151|164787445|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Period 2||||>0.99
82462308|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.6|STANDARD_ERROR_OF_MEAN|6.46||0.025|TWO_SIDED|95.0|1.84|27.27||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||27.27|1.84|0.0250
82543350|NCT01061151|164787446|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Periods 1 and 2||||0.30
82462309|NCT03192176|164625579|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.51||0.0002|TWO_SIDED|95.0|11.54|37.17||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||37.17|11.54|0.0002
82462310|NCT03192176|164625579|SUPERIORITY||LSMean difference|29.6|STANDARD_ERROR_OF_MEAN|6.6|<|0.0001|TWO_SIDED|95.0|16.6|42.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||42.57|16.60|<0.0001
82462311|NCT03192176|164625579|SUPERIORITY||LSMean difference|8.4|STANDARD_ERROR_OF_MEAN|6.59||0.2041|TWO_SIDED|95.0|-4.58|21.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||21.36|-4.58|0.2041
82462312|NCT03192176|164625579|SUPERIORITY||LSMean difference|18.4|STANDARD_ERROR_OF_MEAN|6.5||0.0049|TWO_SIDED|95.0|5.62|31.2||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||31.20|5.62|0.0049
82543351|NCT01061151|164787446|SUPERIORITY|||||||0.64|||||||Fisher Exact|||Period 2||||0.64
82543352|NCT01061151|164787446|SUPERIORITY|||||||0.06|||||||Fisher Exact|||Period 2||||0.06
82543353|NCT01061151|164787447|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Periods 1 and 2||||<0.001
82543354|NCT01061151|164787447|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Period 2||||0.04
82543355|NCT01061151|164787447|SUPERIORITY|||||||0.46|||||||Fisher Exact|||Period 2||||0.46
82543356|NCT01061151|164787448|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|96.0|0.3|3.1|||||The confidence interval was based on a repeated confidence interval.|||3.1|0.3|
82543357|NCT01061151|164787449|SUPERIORITY|||||||0.98|||||||Log Rank|||||||0.98
82543358|NCT01061151|164787450|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.37|TWO_SIDED|95.0|0.14|2.08|||Log Rank||The hazard ratio compares Arm A relative to Arm B.|||2.08|0.14|0.37
82543359|NCT01061151|164787452|SUPERIORITY|||||||0.16|||||||Two-sided Z test|||Overall survival||||0.16
82543360|NCT01061151|164787452|SUPERIORITY|||||||0.0156|||||||Two-sided Z test|||Overall survival, period 2 group||||0.0156
82543361|NCT01061151|164787452|SUPERIORITY|||||||0.31|||||||Two-sided Z test|||Overall survival, period 2 group||||0.31
82543362|NCT01061151|164787452|SUPERIORITY|||||||0.0022|||||||Two-sided Z test|||Overall survival, period 2 group||||0.0022
82543363|NCT01061151|164787452|SUPERIORITY|||||||0.13|||||||Two-sided Z test|||HIV-free survival||||0.13
82543364|NCT01061151|164787452|SUPERIORITY|||||||0.44|||||||Two-sided Z test|||HIV-free survival, period 2 group||||0.44
82543365|NCT01061151|164787452|SUPERIORITY|||||||0.24|||||||Two-sided Z test|||HIV-free survival, period 2 group||||0.24
82543366|NCT01061151|164787452|SUPERIORITY|||||||0.26|||||||Two-sided Z test|||HIV-free survival, group 2||||0.26
82543367|NCT03903822|164787512|SUPERIORITY||Least square (LS) mean difference|-13.9|STANDARD_ERROR_OF_MEAN|11.04||0.104|TWO_SIDED|90.0|-32.1|4.3|||ANCOVA|||Analysis of covariance (ANCOVA) contained fixed factors of treatment and baseline value.||4.3|-32.1|0.1040
82543368|NCT03903822|164787512|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|11.0||0.0334|TWO_SIDED|90.0|-38.3|-2.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-2.1|-38.3|0.0334
82462313|NCT03192176|164625579|SUPERIORITY||LSMean difference|20.7|STANDARD_ERROR_OF_MEAN|6.45||0.0015|TWO_SIDED|95.0|8.0|33.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||33.37|8.00|0.0015
82462314|NCT03192176|164625579|SUPERIORITY||LSMean difference|15.8|STANDARD_ERROR_OF_MEAN|6.66||0.0184|TWO_SIDED|95.0|2.68|28.89||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||28.89|2.68|0.0184
82462315|NCT03192176|164625579|SUPERIORITY||LSMean difference|12.8|STANDARD_ERROR_OF_MEAN|6.66||0.0551|TWO_SIDED|95.0|-0.28|25.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||25.93|-0.28|0.0551
82462316|NCT03192176|164625579|SUPERIORITY||LSMean difference|25.8|STANDARD_ERROR_OF_MEAN|6.73||0.0002|TWO_SIDED|95.0|12.51|39.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||39.00|12.51|0.0002
82462317|NCT03192176|164625579|SUPERIORITY||LSMean difference|31.6|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|18.17|44.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||44.93|18.17|<0.0001
82462318|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.3|STANDARD_ERROR_OF_MEAN|6.79||0.0367|TWO_SIDED|95.0|0.89|27.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Wek 10||27.62|0.89|0.0367
82462319|NCT03192176|164625579|SUPERIORITY||LSMean difference|21.2|STANDARD_ERROR_OF_MEAN|6.7||0.0017|TWO_SIDED|95.0|7.99|34.34||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||34.34|7.99|0.0017
82462320|NCT03192176|164625579|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.65||0.0003|TWO_SIDED|95.0|11.29|37.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||37.44|11.29|0.0003
82462321|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.5|STANDARD_ERROR_OF_MEAN|6.45||0.0255|TWO_SIDED|95.0|1.78|27.15||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||27.15|1.78|0.0255
82462322|NCT03192176|164625579|SUPERIORITY||LSMean difference|15.3|STANDARD_ERROR_OF_MEAN|6.45||0.0186|TWO_SIDED|95.0|2.57|27.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||27.94|2.57|0.0186
82462323|NCT03192176|164625579|SUPERIORITY||LSMean difference|26.5|STANDARD_ERROR_OF_MEAN|6.52|<|0.0001|TWO_SIDED|95.0|13.71|39.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||39.36|13.71|<0.0001
82543369|NCT03903822|164787512|SUPERIORITY||LS Mean Difference|-25.6|STANDARD_ERROR_OF_MEAN|10.75||0.0086|TWO_SIDED|90.0|-43.3|-8.0|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-8.0|-43.3|0.0086
82462324|NCT03192176|164625579|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|16.94|42.81||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||42.81|16.94|<0.0001
82462325|NCT03192176|164625579|SUPERIORITY||LSMean difference|13.9|STANDARD_ERROR_OF_MEAN|6.57||0.0347|TWO_SIDED|95.0|1.01|26.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||26.85|1.01|0.0347
82462326|NCT03192176|164625579|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.48||0.0008|TWO_SIDED|95.0|9.16|34.65||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||34.65|9.16|0.0008
82462327|NCT03192176|164625579|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|6.43||0.0003|TWO_SIDED|95.0|10.75|36.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||36.04|10.75|0.0003
82462328|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.8|STANDARD_ERROR_OF_MEAN|6.43||0.0221|TWO_SIDED|95.0|2.13|27.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||27.43|2.13|0.0221
82462329|NCT03192176|164625579|SUPERIORITY||LSMean difference|17.0|STANDARD_ERROR_OF_MEAN|6.43||0.0087|TWO_SIDED|95.0|4.32|29.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||29.62|4.32|0.0087
82543370|NCT03903822|164787512|SUPERIORITY||LS Mean Difference|-23.5|STANDARD_ERROR_OF_MEAN|10.93||0.0158|TWO_SIDED|90.0|-41.5|-5.5|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-5.5|-41.5|0.0158
82543371|NCT03903822|164787512|SUPERIORITY||LS Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|8.11||0.0879|TWO_SIDED|90.0|-24.3|2.4|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||2.4|-24.3|0.0879
82543372|NCT03903822|164787512|SUPERIORITY||LS Mean Difference|-27.4|STANDARD_ERROR_OF_MEAN|8.11||0.0004|TWO_SIDED|90.0|-40.7|-14.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-14.1|-40.7|0.0004
82543373|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|18.9||||0.0244|TWO_SIDED|90.0|2.4|34.7|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||34.7|2.4|0.0244
82543374|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|22.5||||0.0113|TWO_SIDED|90.0|4.8|38.6|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||38.6|4.8|0.0113
82543375|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|29.7||||0.0018|TWO_SIDED|90.0|11.0|45.7|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||45.7|11.0|0.0018
82543376|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|33.6||||0.0007|TWO_SIDED|90.0|13.7|49.9|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||49.9|13.7|0.0007
82543377|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|19.4||||0.0289|TWO_SIDED|90.0|1.8|36.5|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||36.5|1.8|0.0289
82462330|NCT03192176|164625579|SUPERIORITY||LSMean difference|26.4|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|13.65|39.23||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||39.23|13.65|<0.0001
82543378|NCT03903822|164787513|SUPERIORITY||Risk Difference (RD)|13.1||||0.1145|TWO_SIDED|90.0|-2.9|29.6|||Chan and Zhang Exact Method|||Risk difference = difference in percentage of participants.||29.6|-2.9|0.1145
82543379|NCT03903822|164787514|SUPERIORITY||LS mean difference|-1.31|STANDARD_ERROR_OF_MEAN|0.79||0.0488|TWO_SIDED|90.0|-2.61|-0.01|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.01|-2.61|0.0488
82543380|NCT03903822|164787514|SUPERIORITY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.788||0.0413|TWO_SIDED|90.0|-2.66|-0.07|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.07|-2.66|0.0413
82543381|NCT03903822|164787514|SUPERIORITY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.773||0.02|TWO_SIDED|90.0|-2.86|-0.32|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.32|-2.86|0.0200
82543382|NCT03903822|164787514|SUPERIORITY||LS Mean Difference|-2.33|STANDARD_ERROR_OF_MEAN|0.758||0.0011|TWO_SIDED|90.0|-3.58|-1.08|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-1.08|-3.58|0.0011
82543383|NCT03903822|164787514|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.535||0.0727|TWO_SIDED|90.0|-1.66|0.1|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||0.10|-1.66|0.0727
82543384|NCT03903822|164787514|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.534||0.001|TWO_SIDED|90.0|-2.52|-0.77|||ANCOVA|||ANCOVA contained fixed factors of treatment and baseline value.||-0.77|-2.52|0.0010
82543385|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|0.5||||0.5246|TWO_SIDED|90.0|-14.7|16.4|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||16.4|-14.7|0.5246
82543386|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|3.8||||0.3906|TWO_SIDED|90.0|-12.5|19.9|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||19.9|-12.5|0.3906
82543387|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|13.5||||0.1193|TWO_SIDED|90.0|-3.2|30.6|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||30.6|-3.2|0.1193
82543388|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|28.2||||0.0048|TWO_SIDED|90.0|8.8|45.5|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||45.5|8.8|0.0048
82543389|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|14.7||||0.0777|TWO_SIDED|90.0|-2.0|31.1|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||31.1|-2.0|0.0777
82543390|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|11.8||||0.1245|TWO_SIDED|90.0|-4.3|28.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||28.0|-4.3|0.1245
82543391|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|6.2||||0.3322|TWO_SIDED|90.0|-12.2|24.4|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||24.4|-12.2|0.3322
82543392|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|18.5||||0.0535|TWO_SIDED|90.0|-0.3|36.5|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||36.5|-0.3|0.0535
82543393|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|24.3||||0.0159|TWO_SIDED|90.0|4.5|41.9|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||41.9|4.5|0.0159
82543394|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|36.8||||0.0008|TWO_SIDED|90.0|15.4|54.0|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||54.0|15.4|0.0008
82543395|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|20.7||||0.0386|TWO_SIDED|90.0|1.5|38.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||38.8|1.5|0.0386
82543396|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|12.1||||0.1485|TWO_SIDED|90.0|-6.4|30.3|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||30.3|-6.4|0.1485
82543397|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|17.3||||0.062|TWO_SIDED|90.0|-0.8|34.8|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||34.8|-0.8|0.0620
82543398|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|26.9||||0.0089|TWO_SIDED|90.0|6.5|44.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||44.4|6.5|0.0089
82543399|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|37.8||||0.0005|TWO_SIDED|90.0|17.5|54.7|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||54.7|17.5|0.0005
82543400|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|36.7||||0.0007|TWO_SIDED|90.0|15.4|54.0|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||54.0|15.4|0.0007
82543401|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|18.1||||0.0711|TWO_SIDED|90.0|-2.0|37.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||37.5|-2.0|0.0711
82543402|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|23.8||||0.0266|TWO_SIDED|90.0|2.7|42.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||42.5|2.7|0.0266
82543403|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|3.8||||0.4173|TWO_SIDED|90.0|-15.3|23.1|||Chan and Zhang Exact Method|||At week 4: Risk difference = difference in percentage of participants.||23.1|-15.3|0.4173
82543404|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|16.3||||0.1096|TWO_SIDED|90.0|-4.3|35.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||35.6|-4.3|0.1096
82543405|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|27.0||||0.0133|TWO_SIDED|90.0|6.1|45.7|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||45.7|6.1|0.0133
82543406|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|23.2||||0.0304|TWO_SIDED|90.0|2.6|41.7|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||41.7|2.6|0.0304
82543407|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
82578605|NCT02311673|164866493|OTHER||LS Mean Difference|20.6||||0.84|TWO_SIDED|95.0|-20.9|62.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||62.2|-20.9|0.840
82578606|NCT02311673|164866493|OTHER||LS Mean Difference|-10.2||||0.236|TWO_SIDED|95.0|-38.7|18.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||18.4|-38.7|0.236
82578607|NCT02311673|164866493|OTHER||LS Mean Difference|-13.4||||0.191|TWO_SIDED|95.0|-44.2|17.4|||Longitudinal mixed analysis of variance|One sided p-value.||||17.4|-44.2|0.191
82578608|NCT02311673|164866494|OTHER||LS Mean Difference|19.5||||0.812|TWO_SIDED|95.0|-24.8|63.8||One sided p-value.|Longitudinal mixed analysis of variance||||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|63.8|-24.8|0.812
82543408|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
82543409|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|1.1||||0.4966|TWO_SIDED|90.0|-18.4|20.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||20.4|-18.4|0.4966
82543410|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|10.9||||0.2753|TWO_SIDED|90.0|-9.3|30.1|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||30.1|-9.3|0.2753
82543411|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|16.2||||0.1036|TWO_SIDED|90.0|-4.2|35.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||35.7|-4.2|0.1036
82543412|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|20.6||||0.0457|TWO_SIDED|90.0|0.4|39.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||39.6|0.4|0.0457
82543413|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
82543414|NCT03903822|164787515|SUPERIORITY||Risk Difference (RD)|29.4||||0.0078|TWO_SIDED|90.0|7.2|47.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||47.6|7.2|0.0078
82578609|NCT02311673|164866494|OTHER||LS Mean Difference|-1.3||||0.464|TWO_SIDED|95.0|-29.9|27.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||27.4|-29.9|0.464
82578610|NCT02311673|164866494|OTHER||LS Mean Difference|-2.6||||0.432|TWO_SIDED|95.0|-33.6|28.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||28.4|-33.6|0.432
82578611|NCT02311673|164866495|OTHER||LS Mean Difference|49.9||||0.988|TWO_SIDED|95.0|6.7|93.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||93.2|6.7|0.988
82543415|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|3.3||||0.245|TWO_SIDED|90.0|-5.4|14.9|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||14.9|-5.4|0.2450
82543416|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|3.1||||0.2575|TWO_SIDED|90.0|-5.3|14.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||14.0|-5.3|0.2575
82543417|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|16.1||||0.0087|TWO_SIDED|90.0|5.7|31.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||31.0|5.7|0.0087
82543418|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|10.7||||0.0392|TWO_SIDED|90.0|0.8|25.4|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||25.4|0.8|0.0392
82543419|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-11.2|11.2|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||11.2|-11.2|1.0000
82543420|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|7.8||||0.1528|TWO_SIDED|90.0|-4.9|22.5|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||22.5|-4.9|0.1528
82462331|NCT03192176|164625579|SUPERIORITY||LSMean difference|31.0|STANDARD_ERROR_OF_MEAN|6.56|<|0.0001|TWO_SIDED|95.0|18.13|43.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||43.94|18.13|<0.0001
82462332|NCT03192176|164625579|SUPERIORITY||LSMean difference|14.8|STANDARD_ERROR_OF_MEAN|6.55||0.0244|TWO_SIDED|95.0|1.92|27.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||27.70|1.92|0.0244
82462333|NCT03192176|164625579|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.46||0.0008|TWO_SIDED|95.0|9.21|34.62||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||34.62|9.21|0.0008
82462334|NCT03192176|164625579|SUPERIORITY||LSMean difference|23.2|STANDARD_ERROR_OF_MEAN|6.41||0.0003|TWO_SIDED|95.0|10.63|35.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||35.83|10.63|0.0003
82462335|NCT03192176|164625579|SUPERIORITY||LSMean difference|9.8|STANDARD_ERROR_OF_MEAN|7.38||0.1871|TWO_SIDED|95.0|-4.77|24.3||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||24.30|-4.77|0.1871
82462336|NCT03192176|164625579|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|7.38||0.7552|TWO_SIDED|95.0|-12.23|16.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMMRM|||Week 13||16.83|-12.23|0.7552
82543421|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|0.9||||0.4989|TWO_SIDED|90.0|-12.7|15.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||15.2|-12.7|0.4989
82543422|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|0.3||||0.5419|TWO_SIDED|90.0|-13.6|14.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||14.2|-13.6|0.5419
82543423|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|10.3||||0.1362|TWO_SIDED|90.0|-5.0|26.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||26.2|-5.0|0.1362
82543424|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|15.9||||0.0541|TWO_SIDED|90.0|-0.4|33.9|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||33.9|-0.4|0.0541
82543425|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|3.3||||0.3945|TWO_SIDED|90.0|-12.0|19.5|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||19.5|-12.0|0.3945
82543426|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|23.3||||0.0201|TWO_SIDED|90.0|3.9|41.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||41.8|3.9|0.0201
82543427|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|11.2||||0.1372|TWO_SIDED|90.0|-5.4|28.2|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||28.2|-5.4|0.1372
82543428|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|3.5||||0.3924|TWO_SIDED|90.0|-11.6|19.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||19.1|-11.6|0.3924
82543429|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|20.1||||0.0311|TWO_SIDED|90.0|2.4|38.3|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||38.3|2.4|0.0311
82543430|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|20.0||||0.0392|TWO_SIDED|90.0|0.8|38.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||38.1|0.8|0.0392
82543431|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|10.0||||0.1541|TWO_SIDED|90.0|-6.2|26.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||26.4|-6.2|0.1541
82543432|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|27.0||||0.0091|TWO_SIDED|90.0|6.8|45.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||45.4|6.8|0.0091
82543433|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|8.5||||0.2835|TWO_SIDED|90.0|-9.5|27.0|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||27.0|-9.5|0.2835
82543434|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|9.9||||0.27|TWO_SIDED|90.0|-8.7|27.8|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||27.8|-8.7|0.2700
82543435|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|17.3||||0.0662|TWO_SIDED|90.0|-1.4|36.2|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||36.2|-1.4|0.0662
82543436|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|31.8||||0.005|TWO_SIDED|90.0|9.2|50.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||50.4|9.2|0.0050
82543437|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|20.0||||0.0302|TWO_SIDED|90.0|2.2|38.3|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||38.3|2.2|0.0302
82543438|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|27.0||||0.0091|TWO_SIDED|90.0|6.8|45.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||45.4|6.8|0.0091
82543439|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|11.8||||0.1561|TWO_SIDED|90.0|-6.5|30.2|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||30.2|-6.5|0.1561
82543440|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|16.2||||0.0753|TWO_SIDED|90.0|-2.7|34.8|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||34.8|-2.7|0.0753
82462337|NCT03192176|164625579|SUPERIORITY||LSMean difference|1.5|STANDARD_ERROR_OF_MEAN|7.61||0.8407|TWO_SIDED|95.0|-13.44|16.5||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||16.50|-13.44|0.8407
82462338|NCT03192176|164625579|SUPERIORITY||LSMean difference|7.2|STANDARD_ERROR_OF_MEAN|7.6||0.345|TWO_SIDED|95.0|-7.77|22.14||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|LSMean difference|||Week 13||22.14|-7.77|0.3450
82462339|NCT03192176|164625579|SUPERIORITY||LSMean difference|5.7|STANDARD_ERROR_OF_MEAN|7.66||0.455|TWO_SIDED|95.0|-9.34|20.8||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||20.80|-9.34|0.4550
82462340|NCT03192176|164625579|SUPERIORITY||LSMean difference|10.4|STANDARD_ERROR_OF_MEAN|7.64||0.1747|TWO_SIDED|95.0|-4.64|25.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||25.44|-4.64|0.1747
82462341|NCT03192176|164625579|SUPERIORITY||LSMean difference|4.4|STANDARD_ERROR_OF_MEAN|7.38||0.5476|TWO_SIDED|95.0|-10.08|18.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||18.97|-10.08|0.5476
82462342|NCT03192176|164625579|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|8.01||0.7954|TWO_SIDED|95.0|-13.69|17.84||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||17.84|-13.69|0.7954
82543441|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|27.0||||0.0108|TWO_SIDED|90.0|5.7|46.0|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||46.0|5.7|0.0108
82543442|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|31.8||||0.005|TWO_SIDED|90.0|9.2|50.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||50.4|9.2|0.0050
82543443|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|16.7||||0.0775|TWO_SIDED|90.0|-2.9|35.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||35.7|-2.9|0.0775
82543444|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|24.1||||0.0243|TWO_SIDED|90.0|3.4|43.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||43.4|3.4|0.0243
82543445|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|20.9||||0.0234|TWO_SIDED|90.0|3.5|38.8|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||38.8|3.5|0.0234
82543446|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|12.8||||0.1134|TWO_SIDED|90.0|-2.8|29.3|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||29.3|-2.8|0.1134
82578612|NCT02311673|164866495|OTHER||LS Mean Difference|16.0||||0.859|TWO_SIDED|95.0|-13.7|45.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||45.6|-13.7|0.859
82462343|NCT03192176|164625579|SUPERIORITY||LSMean differencce|1.3|STANDARD_ERROR_OF_MEAN|7.96||0.8731|TWO_SIDED|95.0|-14.41|16.95||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||16.95|-14.41|0.8731
82543447|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|10.3||||0.1362|TWO_SIDED|90.0|-5.0|26.2|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||26.2|-5.0|0.1362
82543448|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|12.3||||0.1029|TWO_SIDED|90.0|-3.4|29.8|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||29.8|-3.4|0.1029
82543449|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-17.9|17.9|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||17.9|-17.9|1.0000
82543450|NCT03903822|164787516|SUPERIORITY||Risk Difference (RD)|-12.6||||0.8972|TWO_SIDED|90.0|-28.8|3.5|||Chan and Zhang Exact Method|||At follow-up visit: Risk difference = difference in percentage of participants.||3.5|-28.8|0.8972
82543451|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-0.5|STANDARD_ERROR_OF_MEAN|8.33||0.4781|TWO_SIDED|90.0|-14.2|13.3|||Mixed Model Repeated Measure|||At Week 1: Mixed Model Repeated Measure (MMRM) contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||13.3|-14.2|0.4781
82543452|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-13.8|STANDARD_ERROR_OF_MEAN|8.47||0.0522|TWO_SIDED|90.0|-27.8|0.2|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||0.2|-27.8|0.0522
82543453|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-17.5|STANDARD_ERROR_OF_MEAN|8.37||0.0187|TWO_SIDED|90.0|-31.4|-3.7|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-3.7|-31.4|0.0187
82543454|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-20.6|STANDARD_ERROR_OF_MEAN|8.45||0.008|TWO_SIDED|90.0|-34.5|-6.6|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-6.6|-34.5|0.0080
82543455|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-25.0|STANDARD_ERROR_OF_MEAN|14.17||0.0401|TWO_SIDED|90.0|-48.6|-1.5|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-1.5|-48.6|0.0401
82543456|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-25.5|STANDARD_ERROR_OF_MEAN|14.25||0.0379|TWO_SIDED|90.0|-49.2|-1.9|||Mixed Model Repeated Measure|||At Week 1: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-1.9|-49.2|0.0379
82543457|NCT03903822|164787517|SUPERIORITY||LS Mean difference|8.1|STANDARD_ERROR_OF_MEAN|11.01||0.7678|TWO_SIDED|90.0|-10.1|26.3|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit(Weeks 1, 2, 3, 4, 6 and follow up), treatment-by-visit interaction and baseline value.||26.3|-10.1|0.7678
82543458|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-22.8|STANDARD_ERROR_OF_MEAN|10.94||0.0193|TWO_SIDED|90.0|-40.9|-4.7|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-4.7|-40.9|0.0193
82543459|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-28.3|STANDARD_ERROR_OF_MEAN|10.95||0.0052|TWO_SIDED|90.0|-46.5|-10.2|||Mixed Model Repeated Measure|||At Week 2:MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-10.2|-46.5|0.0052
82543460|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-23.7|STANDARD_ERROR_OF_MEAN|11.03||0.0164|TWO_SIDED|90.0|-42.0|-5.5|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-5.5|-42.0|0.0164
82543461|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-31.7|STANDARD_ERROR_OF_MEAN|9.72||0.0008|TWO_SIDED|90.0|-47.8|-15.6|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.6|-47.8|0.0008
82543462|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-40.6|STANDARD_ERROR_OF_MEAN|9.86|<|0.0001|TWO_SIDED|90.0|-57.0|-24.3|||Mixed Model Repeated Measure|||At Week 2: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-24.3|-57.0|<0.0001
82543463|NCT03903822|164787517|SUPERIORITY||LS Mean difference|3.9|STANDARD_ERROR_OF_MEAN|12.09||0.6269|TWO_SIDED|90.0|-16.1|23.9|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||23.9|-16.1|0.6269
82543464|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-33.5|STANDARD_ERROR_OF_MEAN|11.87||0.0027|TWO_SIDED|90.0|-53.1|-13.8|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-13.8|-53.1|0.0027
82462344|NCT03192176|164625579|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|8.31||0.9689|TWO_SIDED|95.0|-16.68|16.03||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||16.03|-16.68|0.9689
82462345|NCT03192176|164625579|SUPERIORITY||LSMean difference|3.9|STANDARD_ERROR_OF_MEAN|8.28||0.6378|TWO_SIDED|95.0|-12.4|20.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||20.21|-12.40|0.6378
82462346|NCT03192176|164625579|SUPERIORITY||LSMean differencce|1.6|STANDARD_ERROR_OF_MEAN|8.33||0.8503|TWO_SIDED|95.0|-14.82|17.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||17.97|-14.82|0.8503
82462347|NCT03192176|164625579|SUPERIORITY||LSMean difference|13.0|STANDARD_ERROR_OF_MEAN|8.37||0.1224|TWO_SIDED|95.0|-3.51|29.44||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||29.44|-3.51|0.1224
82462348|NCT03192176|164625579|SUPERIORITY||LSMean difference|7.1|STANDARD_ERROR_OF_MEAN|7.99||0.3743|TWO_SIDED|95.0|-8.62|22.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||22.85|-8.62|0.3743
82543465|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-38.8|STANDARD_ERROR_OF_MEAN|11.89||0.0007|TWO_SIDED|90.0|-58.5|-19.2|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-19.2|-58.5|0.0007
82543466|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-32.1|STANDARD_ERROR_OF_MEAN|12.0||0.0041|TWO_SIDED|90.0|-51.9|-12.3|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-12.3|-51.9|0.0041
82543467|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-14.6|STANDARD_ERROR_OF_MEAN|11.61||0.1054|TWO_SIDED|90.0|-33.9|4.6|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||4.6|-33.9|0.1054
82543468|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-18.8|STANDARD_ERROR_OF_MEAN|11.62||0.0542|TWO_SIDED|90.0|-38.1|0.5|||Mixed Model Repeated Measure|||At Week 3: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||0.5|-38.1|0.0542
82543469|NCT03903822|164787517|SUPERIORITY||LS Mean difference|5.8|STANDARD_ERROR_OF_MEAN|12.12||0.6847|TWO_SIDED|90.0|-14.2|25.9|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||25.9|-14.2|0.6847
82543470|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-29.9|STANDARD_ERROR_OF_MEAN|11.82||0.0062|TWO_SIDED|90.0|-49.4|-10.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-10.3|-49.4|0.0062
82543471|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-32.0|STANDARD_ERROR_OF_MEAN|11.89||0.004|TWO_SIDED|90.0|-51.6|-12.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-12.3|-51.6|0.0040
82543472|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-30.8|STANDARD_ERROR_OF_MEAN|11.97||0.0054|TWO_SIDED|90.0|-50.6|-11.0|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-11.0|-50.6|0.0054
82543473|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-11.7|STANDARD_ERROR_OF_MEAN|9.35||0.1076|TWO_SIDED|90.0|-27.2|3.9|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||3.9|-27.2|0.1076
82462349|NCT03192176|164625579|SUPERIORITY||LSMean difference|-7.9|STANDARD_ERROR_OF_MEAN|7.89||0.3173|TWO_SIDED|95.0|-23.44|7.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||7.63|-23.44|0.3173
82462350|NCT03192176|164625579|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|7.82||0.7905|TWO_SIDED|95.0|-17.48|13.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.32|-17.48|0.7905
82462351|NCT03192176|164625579|SUPERIORITY||LSMean difference|-7.2|STANDARD_ERROR_OF_MEAN|8.24||0.3804|TWO_SIDED|95.0|-23.46|8.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||8.98|-23.46|0.3804
82462352|NCT03192176|164625579|SUPERIORITY||LSMean difference|-5.6|STANDARD_ERROR_OF_MEAN|8.11||0.4905|TWO_SIDED|95.0|-21.58|10.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||10.38|-21.58|0.4905
82462353|NCT03192176|164625579|SUPERIORITY||LSMean difference|-12.6|STANDARD_ERROR_OF_MEAN|8.25||0.1289|TWO_SIDED|95.0|-28.83|3.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||3.68|-28.83|0.1289
82462354|NCT03192176|164625579|SUPERIORITY||LSMean difference|6.4|STANDARD_ERROR_OF_MEAN|8.24||0.4398|TWO_SIDED|95.0|-9.86|22.61||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||22.61|-9.86|0.4398
82462355|NCT03192176|164625579|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|7.81||0.7921|TWO_SIDED|95.0|-17.45|13.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.33|-17.45|0.7921
82462356|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|7.28||0.009|TWO_SIDED|95.0|4.82|33.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|MMRM: Mixed Model Repeated Measures||Week 1||33.46|4.82|0.0090
82462357|NCT03192176|164625580|SUPERIORITY||LSMean difference|27.0|STANDARD_ERROR_OF_MEAN|7.32||0.0003|TWO_SIDED|95.0|12.61|41.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||41.39|12.61|0.0003
82462358|NCT03192176|164625580|SUPERIORITY||LSMean difference|39.5|STANDARD_ERROR_OF_MEAN|7.31|<|0.0001|TWO_SIDED|95.0|25.14|53.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||53.90|25.14|<0.0001
82462359|NCT03192176|164625580|SUPERIORITY||LSMean difference|44.8|STANDARD_ERROR_OF_MEAN|7.4|<|0.0001|TWO_SIDED|95.0|30.27|59.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||59.39|30.27|<0.0001
82578613|NCT02311673|164866495|OTHER||LS Mean Difference|22.2||||0.916|TWO_SIDED|95.0|-9.8|54.3||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||54.3|-9.8|0.916
82462360|NCT03192176|164625580|SUPERIORITY||LSMean difference|12.2|STANDARD_ERROR_OF_MEAN|7.43||0.1019|TWO_SIDED|95.0|-2.43|26.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||26.79|-2.43|0.1019
82462361|NCT03192176|164625580|SUPERIORITY||LSMean difference|27.8|STANDARD_ERROR_OF_MEAN|7.31||0.0002|TWO_SIDED|95.0|13.45|42.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||42.22|13.45|0.0002
82462362|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.5|STANDARD_ERROR_OF_MEAN|7.27|<|0.0001|TWO_SIDED|95.0|15.21|43.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 1||43.82|15.21|<0.0001
82462363|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.9|STANDARD_ERROR_OF_MEAN|7.03||0.0049|TWO_SIDED|95.0|6.1|33.76||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||33.76|6.10|0.0049
82462364|NCT03192176|164625580|SUPERIORITY||LSMean difference|28.6|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|14.64|42.46||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||42.46|14.64|<0.0001
82462365|NCT03192176|164625580|SUPERIORITY||LSMean differencce|33.8|STANDARD_ERROR_OF_MEAN|7.05|<|0.0001|TWO_SIDED|95.0|19.96|47.69||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||47.69|19.96|<0.0001
82543474|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-23.0|STANDARD_ERROR_OF_MEAN|9.42||0.0082|TWO_SIDED|90.0|-38.6|-7.3|||Mixed Model Repeated Measure|||At Week 4: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-7.3|-38.6|0.0082
82543475|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-17.8|STANDARD_ERROR_OF_MEAN|14.14||0.1051|TWO_SIDED|90.0|-41.2|5.6|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||5.6|-41.2|0.1051
82462366|NCT03192176|164625580|SUPERIORITY||LSMean difference|39.5|STANDARD_ERROR_OF_MEAN|7.16|<|0.0001|TWO_SIDED|95.0|25.4|53.58||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||53.58|25.40|<0.0001
82462367|NCT03192176|164625580|SUPERIORITY||LSMean difference|17.6|STANDARD_ERROR_OF_MEAN|7.17||0.0146|TWO_SIDED|95.0|3.5|31.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||31.70|3.50|0.0146
82462368|NCT03192176|164625580|SUPERIORITY||LSMean difference|24.1|STANDARD_ERROR_OF_MEAN|7.06||0.0007|TWO_SIDED|95.0|10.21|38.0||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||38.00|10.21|0.0007
82462369|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.9|STANDARD_ERROR_OF_MEAN|7.03||0.0008|TWO_SIDED|95.0|10.05|37.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 2||37.70|10.05|0.0008
82462370|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.2|STANDARD_ERROR_OF_MEAN|7.46||0.002|TWO_SIDED|95.0|8.56|37.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||37.90|8.56|0.0020
82462371|NCT03192176|164625580|SUPERIORITY||LSMean difference|34.4|STANDARD_ERROR_OF_MEAN|7.5|<|0.0001|TWO_SIDED|95.0|19.6|49.11||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||49.11|19.60|<0.0001
82462372|NCT03192176|164625580|SUPERIORITY||LSMean difference|35.6|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|20.96|50.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||50.32|20.96|<0.0001
82462373|NCT03192176|164625580|SUPERIORITY||LSMean difference|43.0|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|28.03|57.93||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||57.93|28.03|<0.0001
82462374|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.4|STANDARD_ERROR_OF_MEAN|7.6||0.0009|TWO_SIDED|95.0|10.48|40.37||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||40.37|10.48|0.0009
82578614|NCT02311673|164866496|OTHER||LS Mean Difference|32.7||||0.943|TWO_SIDED|95.0|-8.4|73.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||73.8|-8.4|0.943
82578615|NCT02311673|164866496|OTHER||LS Mean Difference|-4.2||||0.339|TWO_SIDED|95.0|-24.4|16.1||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||16.1|-24.4|0.339
82462375|NCT03192176|164625580|SUPERIORITY||LSMean difference|31.2|STANDARD_ERROR_OF_MEAN|7.48|<|0.0001|TWO_SIDED|95.0|16.49|45.9||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||45.90|16.49|<0.0001
82462376|NCT03192176|164625580|SUPERIORITY||LSMean difference|28.9|STANDARD_ERROR_OF_MEAN|7.44||0.0001|TWO_SIDED|95.0|14.24|43.52||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 3||43.52|14.24|0.0001
82543476|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-37.8|STANDARD_ERROR_OF_MEAN|13.8||0.0034|TWO_SIDED|90.0|-60.6|-15.0|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.0|-60.6|0.0034
82543477|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-41.9|STANDARD_ERROR_OF_MEAN|13.83||0.0014|TWO_SIDED|90.0|-64.8|-19.0|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-19.0|-64.8|0.0014
82543478|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-38.6|STANDARD_ERROR_OF_MEAN|13.9||0.003|TWO_SIDED|90.0|-61.6|-15.6|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-15.6|-61.6|0.0030
82578616|NCT02311673|164866496|OTHER||LS Mean Difference|1.1||||0.533|TWO_SIDED|95.0|-25.0|27.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||27.2|-25.0|0.533
82462377|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|7.42||0.0021|TWO_SIDED|95.0|8.46|37.66||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||37.66|8.46|0.0021
82462378|NCT03192176|164625580|SUPERIORITY||LSMean difference|32.1|STANDARD_ERROR_OF_MEAN|7.45|<|0.0001|TWO_SIDED|95.0|17.42|46.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||46.71|17.42|<0.0001
82462379|NCT03192176|164625580|SUPERIORITY||LSMean difference|31.3|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.73|45.91||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||45.91|16.73|<0.0001
82462380|NCT03192176|164625580|SUPERIORITY||LSMean difference|41.8|STANDARD_ERROR_OF_MEAN|7.56|<|0.0001|TWO_SIDED|95.0|26.95|56.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||56.68|26.95|<0.0001
82462381|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.6|STANDARD_ERROR_OF_MEAN|7.54||0.0008|TWO_SIDED|95.0|10.77|40.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||40.43|10.77|0.0008
82462382|NCT03192176|164625580|SUPERIORITY||LSMean difference|31.3|STANDARD_ERROR_OF_MEAN|7.42|<|0.0001|TWO_SIDED|95.0|16.75|45.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||45.94|16.75|<0.0001
82462383|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.4|STANDARD_ERROR_OF_MEAN|7.39|<|0.0001|TWO_SIDED|95.0|14.91|43.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 4||43.97|14.91|<0.0001
82462384|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|7.05||0.0045|TWO_SIDED|95.0|6.31|34.06||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||34.06|6.31|0.0045
82462385|NCT03192176|164625580|SUPERIORITY||LSMean difference|30.6|STANDARD_ERROR_OF_MEAN|7.07|<|0.0001|TWO_SIDED|95.0|16.68|44.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||44.49|16.68|<0.0001
82462386|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.1|STANDARD_ERROR_OF_MEAN|7.08|<|0.0001|TWO_SIDED|95.0|15.14|42.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||42.98|15.14|<0.0001
82462387|NCT03192176|164625580|SUPERIORITY||LSMean difference|40.1|STANDARD_ERROR_OF_MEAN|7.19|<|0.0001|TWO_SIDED|95.0|25.96|54.26||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||54.26|25.96|<0.0001
82462388|NCT03192176|164625580|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|7.15||0.0007|TWO_SIDED|95.0|10.28|38.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||38.42|10.28|0.0007
82462389|NCT03192176|164625580|SUPERIORITY||LSMean difference|26.7|STANDARD_ERROR_OF_MEAN|7.06||0.0002|TWO_SIDED|95.0|1.78|40.55||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||40.55|1.78|0.0002
82462390|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|7.03||0.001|TWO_SIDED|95.0|9.55|37.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 5||37.22|9.55|0.0010
82462391|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|6.6||0.004|TWO_SIDED|95.0|6.13|32.11||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||32.11|6.13|0.0040
82462392|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.8|STANDARD_ERROR_OF_MEAN|6.62||0.0004|TWO_SIDED|95.0|10.8|36.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||36.83|10.80|0.0004
82462393|NCT03192176|164625580|SUPERIORITY||LSMean difference|27.2|STANDARD_ERROR_OF_MEAN|6.64|<|0.0001|TWO_SIDED|95.0|14.1|40.24||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||40.24|14.10|<0.0001
82462394|NCT03192176|164625580|SUPERIORITY||LSMean difference|35.6|STANDARD_ERROR_OF_MEAN|6.75|<|0.0001|TWO_SIDED|95.0|22.34|48.88||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||48.88|22.34|<0.0001
82462395|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.0|STANDARD_ERROR_OF_MEAN|6.72||0.0032|TWO_SIDED|95.0|6.76|33.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||33.19|6.76|0.0032
82462396|NCT03192176|164625580|SUPERIORITY||LSMean difference|24.1|STANDARD_ERROR_OF_MEAN|6.64||0.0003|TWO_SIDED|95.0|11.02|37.13||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||37.13|11.02|0.0003
82462397|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|6.59||0.0005|TWO_SIDED|95.0|10.17|36.08||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 6||36.08|10.17|0.0005
82462398|NCT03192176|164625580|SUPERIORITY||LSMean difference|17.6|STANDARD_ERROR_OF_MEAN|6.82||0.0102|TWO_SIDED|95.0|4.2|31.04||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||31.04|4.20|0.0102
82462399|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.9|STANDARD_ERROR_OF_MEAN|6.83||0.0002|TWO_SIDED|95.0|12.42|39.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||39.29|12.42|0.0002
82462400|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.8|STANDARD_ERROR_OF_MEAN|6.87||0.0002|TWO_SIDED|95.0|12.29|39.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||39.33|12.29|0.0002
82462401|NCT03192176|164625580|SUPERIORITY||LSMean difference|36.3|STANDARD_ERROR_OF_MEAN|6.97|<|0.0001|TWO_SIDED|95.0|22.58|49.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||49.98|22.58|<0.0001
82543479|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-17.7|STANDARD_ERROR_OF_MEAN|9.22||0.0289|TWO_SIDED|90.0|-33.0|-2.4|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit(Weeks 1, 2, 3, 4, 6 and follow up), treatment-by-visit interaction and baseline value.||-2.4|-33.0|0.0289
82462402|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.6|STANDARD_ERROR_OF_MEAN|6.94||0.0031|TWO_SIDED|95.0|7.0|34.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||34.29|7.00|0.0031
82462403|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.9|STANDARD_ERROR_OF_MEAN|6.85||0.0009|TWO_SIDED|95.0|9.43|36.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.38|9.43|0.0009
82462404|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.8|STANDARD_ERROR_OF_MEAN|6.8||0.0009|TWO_SIDED|95.0|9.42|36.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 7||36.19|9.42|0.0009
82462405|NCT03192176|164625580|SUPERIORITY||LSMean difference|13.8|STANDARD_ERROR_OF_MEAN|6.71||0.0408|TWO_SIDED|95.0|0.58|26.97||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||26.97|0.58|0.0408
82462406|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.0|STANDARD_ERROR_OF_MEAN|6.72||0.0031|TWO_SIDED|95.0|6.77|33.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||33.21|6.77|0.0031
82462407|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.1|STANDARD_ERROR_OF_MEAN|6.76||0.0012|TWO_SIDED|95.0|8.8|35.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||35.40|8.80|0.0012
82462408|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.9|STANDARD_ERROR_OF_MEAN|6.87|<|0.0001|TWO_SIDED|95.0|16.39|43.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||43.42|16.39|<0.0001
82543480|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-33.8|STANDARD_ERROR_OF_MEAN|9.27||0.0002|TWO_SIDED|90.0|-49.2|-18.4|||Mixed Model Repeated Measure|||At Week 6: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-18.4|-49.2|0.0002
82543481|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-0.9|STANDARD_ERROR_OF_MEAN|13.88||0.4739|TWO_SIDED|90.0|-23.9|22.0|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||22.0|-23.9|0.4739
82543482|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-19.1|STANDARD_ERROR_OF_MEAN|13.43||0.0789|TWO_SIDED|90.0|-41.3|3.2|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||3.2|-41.3|0.0789
82543483|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-13.4|STANDARD_ERROR_OF_MEAN|13.5||0.1611|TWO_SIDED|90.0|-35.7|8.9|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||8.9|-35.7|0.1611
82543484|NCT03903822|164787517|SUPERIORITY||LS Mean Difference|-31.6|STANDARD_ERROR_OF_MEAN|13.94||0.0124|TWO_SIDED|90.0|-54.7|-8.5|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||-8.5|-54.7|0.0124
82462409|NCT03192176|164625580|SUPERIORITY||LSMean difference|14.9|STANDARD_ERROR_OF_MEAN|6.84||0.0303|TWO_SIDED|95.0|1.42|28.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||28.32|1.42|0.0303
82462410|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.6|STANDARD_ERROR_OF_MEAN|6.75||0.004|TWO_SIDED|95.0|6.3|32.87||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||32.87|6.30|0.0040
82462411|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.5|STANDARD_ERROR_OF_MEAN|6.71||0.0038|TWO_SIDED|95.0|6.34|32.73||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 8||32.73|6.34|0.0038
82462412|NCT03192176|164625580|SUPERIORITY||LSMean difference|16.0|STANDARD_ERROR_OF_MEAN|6.45||0.0137|TWO_SIDED|95.0|3.29|28.68||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||28.68|3.29|0.0137
82462413|NCT03192176|164625580|SUPERIORITY||LSMean difference|18.1|STANDARD_ERROR_OF_MEAN|6.45||0.0052|TWO_SIDED|95.0|5.44|30.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||30.82|5.44|0.0052
82462414|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.6|STANDARD_ERROR_OF_MEAN|6.5||0.0006|TWO_SIDED|95.0|9.81|35.39||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||35.39|9.81|0.0006
82462415|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.4|STANDARD_ERROR_OF_MEAN|6.58|<|0.0001|TWO_SIDED|95.0|16.41|42.32||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||42.32|16.41|<0.0001
82462416|NCT03192176|164625580|SUPERIORITY||LSMean difference|13.7|STANDARD_ERROR_OF_MEAN|6.57||0.0378|TWO_SIDED|95.0|0.78|26.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||26.63|0.78|0.0378
82462417|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.1|STANDARD_ERROR_OF_MEAN|6.49||0.002|TWO_SIDED|95.0|7.31|32.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||32.85|7.31|0.002
82462418|NCT03192176|164625580|SUPERIORITY||LSMean difference|17.4|STANDARD_ERROR_OF_MEAN|6.44||0.0071|TWO_SIDED|95.0|4.77|30.09||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 9||30.09|4.77|0.0071
82543485|NCT03903822|164787517|SUPERIORITY||LS Mean difference|-5.3|STANDARD_ERROR_OF_MEAN|17.68||0.3828|TWO_SIDED|90.0|-34.7|24.1|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||24.1|-34.7|0.3828
82462419|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.7|STANDARD_ERROR_OF_MEAN|6.63||0.002|TWO_SIDED|95.0|7.61|33.71||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||33.71|7.61|0.0020
82462420|NCT03192176|164625580|SUPERIORITY||LSMean difference|18.7|STANDARD_ERROR_OF_MEAN|6.63||0.005|TWO_SIDED|95.0|5.68|31.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||31.79|5.68|0.0050
82462421|NCT03192176|164625580|SUPERIORITY||LSMean difference|24.4|STANDARD_ERROR_OF_MEAN|6.71||0.0003|TWO_SIDED|95.0|11.2|37.6||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||37.60|11.20|0.0003
82462422|NCT03192176|164625580|SUPERIORITY||LSMean difference|32.1|STANDARD_ERROR_OF_MEAN|6.77|<|0.0001|TWO_SIDED|95.0|18.77|45.42||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||45.42|18.77|<0.0001
82462423|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.1|STANDARD_ERROR_OF_MEAN|6.76||0.005|TWO_SIDED|95.0|5.79|32.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Wek 10||32.38|5.79|0.0050
82543486|NCT03903822|164787517|SUPERIORITY||LS Mean difference|1.7|STANDARD_ERROR_OF_MEAN|17.8||0.5383|TWO_SIDED|90.0|-27.9|31.3|||Mixed Model Repeated Measure|||At follow-up visit: MMRM contained fixed factors of treatment, visit, treatment-by-visit interaction and baseline value.||31.3|-27.9|0.5383
82543487|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|-5.4||||0.8964|TWO_SIDED|90.0|-16.1|2.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||2.0|-16.1|0.8964
82543488|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|14.0||||0.0391|TWO_SIDED|90.0|1.0|28.2|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||28.2|1.0|0.0391
82543489|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-10.8|10.8|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||10.8|-10.8|1.0000
82462424|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.1|STANDARD_ERROR_OF_MEAN|6.68||0.0006|TWO_SIDED|95.0|9.95|36.22||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||36.22|9.95|0.0006
82462425|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.8|STANDARD_ERROR_OF_MEAN|6.62||0.0006|TWO_SIDED|95.0|9.79|35.85||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 10||35.85|9.79|0.0006
82462426|NCT03192176|164625580|SUPERIORITY||LSMean difference|18.5|STANDARD_ERROR_OF_MEAN|6.32||0.0036|TWO_SIDED|95.0|6.11|30.98||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||30.98|6.11|0.0036
82462427|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.2|STANDARD_ERROR_OF_MEAN|6.32||0.0015|TWO_SIDED|95.0|7.77|32.65||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||32.65|7.77|0.0015
82462428|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.0|STANDARD_ERROR_OF_MEAN|6.39||0.0001|TWO_SIDED|95.0|12.41|37.57||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||37.57|12.41|0.0001
82462429|NCT03192176|164625580|SUPERIORITY||LSMean difference|29.8|STANDARD_ERROR_OF_MEAN|6.45|<|0.0001|TWO_SIDED|95.0|17.12|42.49||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||42.49|17.12|<0.0001
82462430|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.6|STANDARD_ERROR_OF_MEAN|6.43||0.0026|TWO_SIDED|95.0|6.9|32.21||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||32.21|6.90|0.0026
82543490|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|11.3||||0.0708|TWO_SIDED|90.0|-1.4|25.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||25.0|-1.4|0.0708
82578617|NCT02311673|164866504|OTHER||LS Mean Difference|-0.2||||0.439|TWO_SIDED|95.0|-3.0|2.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.6|-3.0|0.439
82462431|NCT03192176|164625580|SUPERIORITY||LSMean difference|23.4|STANDARD_ERROR_OF_MEAN|6.36||0.0003|TWO_SIDED|95.0|10.92|35.94||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||35.94|10.92|0.0003
82462432|NCT03192176|164625580|SUPERIORITY||LSMean difference|21.7|STANDARD_ERROR_OF_MEAN|6.3||0.0006|TWO_SIDED|95.0|9.34|34.14||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 11||34.14|9.34|0.0006
82462433|NCT03192176|164625580|SUPERIORITY||LSMean difference|19.3|STANDARD_ERROR_OF_MEAN|6.37||0.0026|TWO_SIDED|95.0|6.78|31.83||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||31.83|6.78|0.0026
82543491|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|13.9||||0.0122|TWO_SIDED|90.0|4.7|27.0|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||27.0|4.7|0.0122
82543492|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|21.6||||0.0016|TWO_SIDED|90.0|11.0|35.6|||Chan and Zhang Exact Method|||At Week 1: Risk difference = difference in percentage of participants.||35.6|11.0|0.0016
82543493|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|2.7||||0.395|TWO_SIDED|90.0|-9.8|16.1|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||16.1|-9.8|0.3950
82462434|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.8|STANDARD_ERROR_OF_MEAN|6.36||0.0012|TWO_SIDED|95.0|8.29|33.33||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||33.33|8.29|0.0012
82462435|NCT03192176|164625580|SUPERIORITY||LSMean difference|25.1|STANDARD_ERROR_OF_MEAN|6.44||0.0001|TWO_SIDED|95.0|12.48|37.82||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||37.82|12.48|0.0001
82462436|NCT03192176|164625580|SUPERIORITY||LSMean difference|31.9|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|19.11|44.67||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||44.67|19.11|<0.0001
82462437|NCT03192176|164625580|SUPERIORITY||LSMean difference|20.1|STANDARD_ERROR_OF_MEAN|6.48||0.0021|TWO_SIDED|95.0|7.32|32.81||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||32.81|7.32|0.0021
82543494|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|19.7||||0.0173|TWO_SIDED|90.0|4.2|35.6|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||35.6|4.2|0.0173
82543495|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|16.2||||0.0327|TWO_SIDED|90.0|1.4|31.0|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||31.0|1.4|0.0327
82462438|NCT03192176|164625580|SUPERIORITY||LSMean difference|22.7|STANDARD_ERROR_OF_MEAN|6.4||0.0004|TWO_SIDED|95.0|10.1|35.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||35.29|10.10|0.0004
82462439|NCT03192176|164625580|SUPERIORITY||LSMean difference|21.9|STANDARD_ERROR_OF_MEAN|6.34||0.0006|TWO_SIDED|95.0|9.42|34.38||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 12||34.38|9.42|0.0006
82462440|NCT03192176|164625580|SUPERIORITY||LSMean difference|17.0|STANDARD_ERROR_OF_MEAN|7.82||0.0304|TWO_SIDED|95.0|1.62|32.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||32.40|1.62|0.0304
82462441|NCT03192176|164625580|SUPERIORITY||LSMean difference|6.8|STANDARD_ERROR_OF_MEAN|7.82||0.3857|TWO_SIDED|95.0|-8.6|22.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMMRM|||Week 13||22.19|-8.60|0.3857
82462442|NCT03192176|164625580|SUPERIORITY||LSMean difference|7.5|STANDARD_ERROR_OF_MEAN|8.06||0.3497|TWO_SIDED|95.0|-8.31|23.4||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||23.40|-8.31|0.3497
82462443|NCT03192176|164625580|SUPERIORITY||LSMean difference|10.9|STANDARD_ERROR_OF_MEAN|8.05||0.1771|TWO_SIDED|95.0|-4.95|26.75||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|LSMean difference|||Week 13||26.75|-4.95|0.1771
82462444|NCT03192176|164625580|SUPERIORITY||LSMean difference|16.3|STANDARD_ERROR_OF_MEAN|8.1||0.0444|TWO_SIDED|95.0|0.41|32.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||32.29|0.41|0.0444
82462445|NCT03192176|164625580|SUPERIORITY||LSMean difference|11.7|STANDARD_ERROR_OF_MEAN|8.1||0.15|TWO_SIDED|95.0|-4.25|27.63||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||27.63|-4.25|0.1500
82462446|NCT03192176|164625580|SUPERIORITY||LSMean difference|3.9|STANDARD_ERROR_OF_MEAN|7.83||0.6196|TWO_SIDED|95.0|-11.51|19.29||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 13||19.29|-11.51|0.6196
82462447|NCT03192176|164625580|SUPERIORITY||LSMean difference|9.4|STANDARD_ERROR_OF_MEAN|8.48||0.2664|TWO_SIDED|95.0|-7.25|26.15||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||26.15|-7.25|0.2664
82462448|NCT03192176|164625580|SUPERIORITY||LSMean differencce|4.0|STANDARD_ERROR_OF_MEAN|8.44||0.6388|TWO_SIDED|95.0|-12.66|20.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||20.59|-12.66|0.6388
82462449|NCT03192176|164625580|SUPERIORITY||LSMean difference|4.9|STANDARD_ERROR_OF_MEAN|8.79||0.5797|TWO_SIDED|95.0|-12.43|22.19||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||22.19|-12.43|0.5797
82462450|NCT03192176|164625580|SUPERIORITY||LSMean difference|6.2|STANDARD_ERROR_OF_MEAN|8.78||0.4817|TWO_SIDED|95.0|-11.1|23.47||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||23.47|-11.10|0.4817
82462451|NCT03192176|164625580|SUPERIORITY||LSMean differencce|10.5|STANDARD_ERROR_OF_MEAN|8.8||0.2358|TWO_SIDED|95.0|-6.87|27.79||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||27.79|-6.87|0.2358
82462452|NCT03192176|164625580|SUPERIORITY||LSMean difference|14.3|STANDARD_ERROR_OF_MEAN|8.86||0.107|TWO_SIDED|95.0|-3.11|31.77||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||31.77|-3.11|0.1070
82543496|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|30.8||||0.0011|TWO_SIDED|90.0|13.2|46.6|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||46.6|13.2|0.0011
82462453|NCT03192176|164625580|SUPERIORITY||LSMean difference|6.7|STANDARD_ERROR_OF_MEAN|8.47||0.4268|TWO_SIDED|95.0|-9.94|23.43||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 14||23.43|-9.94|0.4268
82543497|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|11.1||||0.1348|TWO_SIDED|90.0|-5.0|27.2|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||27.2|-5.0|0.1348
82543498|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|18.5||||0.0328|TWO_SIDED|90.0|1.5|34.8|||Chan and Zhang Exact Method|||At Week 2: Risk difference = difference in percentage of participants.||34.8|1.5|0.0328
82543499|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|10.8||||0.0769|TWO_SIDED|90.0|-1.8|24.4|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||24.4|-1.8|0.0769
82462454|NCT03192176|164625580|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|8.61||0.9197|TWO_SIDED|95.0|-17.81|16.08||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||16.08|-17.81|0.9197
82462455|NCT03192176|164625580|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|8.54||0.9954|TWO_SIDED|95.0|-16.77|16.87||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||16.87|-16.77|0.9954
82462456|NCT03192176|164625580|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|9.0||0.9607|TWO_SIDED|95.0|-17.28|18.17||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||18.17|-17.28|0.9607
82462457|NCT03192176|164625580|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|8.87||0.6625|TWO_SIDED|95.0|-21.33|13.59||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||13.59|-21.33|0.6625
82462458|NCT03192176|164625580|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|9.01||0.9952|TWO_SIDED|95.0|-17.81|17.7||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||17.70|-17.81|0.9952
82462459|NCT03192176|164625580|SUPERIORITY||LSMean difference|7.6|STANDARD_ERROR_OF_MEAN|9.02||0.4001|TWO_SIDED|95.0|-10.16|25.36||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& BM as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||25.36|-10.16|0.4001
82462460|NCT03192176|164625580|SUPERIORITY||LSMean difference|-2.7|STANDARD_ERROR_OF_MEAN|8.54||0.751|TWO_SIDED|95.0|-19.52|14.1||LSM, SE, CI, \& p-values come from an MMRM model with PR from baseline as dependent variable \& TG, visit and smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& interaction of BM by week.|MMRM|||Week 15||14.10|-19.52|0.7510
82462461|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.02||||0.0018|TWO_SIDED|95.0|1.95|18.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.64|1.95|0.0018
82462462|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|8.28||||0.0002|TWO_SIDED|95.0|2.7|25.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.42|2.70|0.0002
82462463|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|10.92|||<|0.0001|TWO_SIDED|95.0|3.53|33.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.74|3.53|<0.0001
82462464|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|12.18|||<|0.0001|TWO_SIDED|95.0|3.91|37.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||37.89|3.91|<0.0001
82462465|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2244|TWO_SIDED|95.0|0.64|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.92|0.64|0.2244
82462466|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|8.58||||0.0002|TWO_SIDED|95.0|2.77|26.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||26.53|2.77|0.0002
82543500|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|30.7||||0.0005|TWO_SIDED|90.0|13.2|46.0|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||46.0|13.2|0.0005
82543501|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|37.8|||<|0.0001|TWO_SIDED|90.0|22.1|53.1|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||53.1|22.1|<0.0001
82462467|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|8.25||||0.0002|TWO_SIDED|95.0|2.71|25.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.13|2.71|0.0002
82543502|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|36.3||||0.0001|TWO_SIDED|90.0|19.7|51.8|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||51.8|19.7|0.0001
82543503|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-16.5|16.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||16.5|-16.5|1.0000
82543504|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|23.8||||0.0173|TWO_SIDED|90.0|4.5|41.5|||Chan and Zhang Exact Method|||At Week 3: Risk difference = difference in percentage of participants.||41.5|4.5|0.0173
82543505|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5663|TWO_SIDED|90.0|-19.9|14.2|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||14.2|-19.9|0.5663
82543506|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|14.6||||0.1243|TWO_SIDED|90.0|-3.8|32.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||32.6|-3.8|0.1243
82462468|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.04||||0.0149|TWO_SIDED|95.0|1.24|7.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.45|1.24|0.0149
82462469|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.65||||0.0011|TWO_SIDED|95.0|1.85|11.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.73|1.85|0.0011
82462470|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.36||||0.0001|TWO_SIDED|95.0|2.46|16.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.45|2.46|0.0001
82462471|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.87||||0.0001|TWO_SIDED|95.0|2.56|18.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.46|2.56|0.0001
82462472|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0897|TWO_SIDED|95.0|0.89|5.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.34|0.89|0.0897
82462473|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.46||||0.007|TWO_SIDED|95.0|1.42|8.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.53|1.42|0.0070
82462474|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.75||||0.0041|TWO_SIDED|95.0|1.52|9.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.23|1.52|0.0041
82462475|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0254|TWO_SIDED|95.0|1.13|6.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.78|1.13|0.0254
82462476|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0032|TWO_SIDED|95.0|1.59|10.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.04|1.59|0.0032
82462477|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.25||||0.0002|TWO_SIDED|95.0|2.37|16.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.51|2.37|0.0002
82462478|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|8.78|||<|0.0001|TWO_SIDED|95.0|3.0|25.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.70|3.00|<0.0001
82462479|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0214|TWO_SIDED|95.0|1.17|7.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.18|1.17|0.0214
82462480|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0049|TWO_SIDED|95.0|1.48|9.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.09|1.48|0.0049
82462481|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0078|TWO_SIDED|95.0|1.38|8.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.22|1.38|0.0078
82462482|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0727|TWO_SIDED|95.0|0.93|5.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.63|0.93|0.0727
82462483|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0199|TWO_SIDED|95.0|1.19|7.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.29|1.19|0.0199
82462484|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0034|TWO_SIDED|95.0|1.61|11.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.01|1.61|0.0034
82543507|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|18.9||||0.046|TWO_SIDED|90.0|-0.5|36.6|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||36.6|-0.5|0.0460
82543508|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|25.7||||0.013|TWO_SIDED|90.0|4.8|43.3|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||43.3|4.8|0.0130
82543509|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|13.9||||0.1194|TWO_SIDED|90.0|-4.2|31.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||31.4|-4.2|0.1194
82543510|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|26.4||||0.0097|TWO_SIDED|90.0|6.5|44.4|||Chan and Zhang Exact Method|||At Week 4: Risk difference = difference in percentage of participants.||44.4|6.5|0.0097
82543511|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|-2.7||||0.5556|TWO_SIDED|90.0|-21.0|16.1|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||16.1|-21.0|0.5556
82462485|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.26||||0.0007|TWO_SIDED|95.0|2.16|18.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.26|2.16|0.0007
82543512|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|17.6||||0.0761|TWO_SIDED|90.0|-2.5|36.5|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||36.5|-2.5|0.0761
82462486|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1206|TWO_SIDED|95.0|0.83|4.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.92|0.83|0.1206
82462487|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.58||||0.007|TWO_SIDED|95.0|1.42|9.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.03|1.42|0.0070
82462488|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.41||||0.0088|TWO_SIDED|95.0|1.36|8.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.54|1.36|0.0088
82462489|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4485|TWO_SIDED|95.0|0.58|3.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||3.40|0.58|0.4485
82462490|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.92||||0.0255|TWO_SIDED|95.0|1.14|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.47|1.14|0.0255
82462491|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0066|TWO_SIDED|95.0|1.49|11.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.75|1.49|0.0066
82462492|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0061|TWO_SIDED|95.0|1.53|13.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.01|1.53|0.0061
82462493|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.22||||0.0879|TWO_SIDED|95.0|0.89|5.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.57|0.89|0.0879
82462494|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0389|TWO_SIDED|95.0|1.05|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.83|1.05|0.0389
82462495|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0446|TWO_SIDED|95.0|1.02|6.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.73|1.02|0.0446
82462496|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8196|TWO_SIDED|95.0|0.45|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||2.72|0.45|0.8196
82462497|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.0||||0.145|TWO_SIDED|95.0|0.79|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.10|0.79|0.1450
82543513|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|18.9||||0.0583|TWO_SIDED|90.0|-0.8|37.6|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||37.6|-0.8|0.0583
82543514|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|14.9||||0.1245|TWO_SIDED|90.0|-5.0|33.7|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||33.7|-5.0|0.1245
82543515|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|19.4||||0.0382|TWO_SIDED|90.0|1.5|36.5|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||36.5|1.5|0.0382
82543516|NCT03903822|164787518|SUPERIORITY||Risk Difference (RD)|34.7||||0.0011|TWO_SIDED|90.0|13.2|51.4|||Chan and Zhang Exact Method|||At Week 6: Risk difference = difference in percentage of participants.||51.4|13.2|0.0011
82543517|NCT06243796|164787577|SUPERIORITY||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82543518|NCT06243796|164787578|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82543519|NCT01395758|164787586|SUPERIORITY|||||||0.5017|||||||Log Rank|||||||0.5017
82543520|NCT01395758|164787587|SUPERIORITY|||||||0.4356|||||||Log Rank|||||||0.4356
82462498|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.08||||0.0114|TWO_SIDED|95.0|1.37|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.11|1.37|0.0114
82462499|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.29||||0.0307|TWO_SIDED|95.0|1.12|9.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.71|1.12|0.0307
82462500|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5921|TWO_SIDED|95.0|0.51|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.24|0.51|0.5921
82462501|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0502|TWO_SIDED|95.0|1.0|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.26|1.00|0.0502
82462502|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0224|TWO_SIDED|95.0|1.18|9.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.25|1.18|0.0224
82462503|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7225|TWO_SIDED|95.0|0.47|2.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||2.93|0.47|0.7225
82462504|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0762|TWO_SIDED|95.0|0.91|6.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.48|0.91|0.0762
82462505|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0252|TWO_SIDED|95.0|1.17|10.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.53|1.17|0.0252
82462506|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.98||||0.049|TWO_SIDED|95.0|1.0|8.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.87|1.00|0.0490
82462507|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.97||||0.1773|TWO_SIDED|95.0|0.74|5.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.30|0.74|0.1773
82462508|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0609|TWO_SIDED|95.0|0.96|7.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.16|0.96|0.0609
82462509|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1364|TWO_SIDED|95.0|0.79|5.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.61|0.79|0.1364
82462510|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.36||||0.5268|TWO_SIDED|95.0|0.53|3.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.51|0.53|0.5268
82462511|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1645|TWO_SIDED|95.0|0.75|5.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.46|0.75|0.1645
82462512|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0215|TWO_SIDED|95.0|1.22|12.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||12.57|1.22|0.0215
82578618|NCT02311673|164866504|OTHER||LS Mean Difference|-0.3||||0.366|TWO_SIDED|95.0|-2.3|1.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.6|-2.3|0.366
82578619|NCT02311673|164866504|OTHER||LS Mean Difference|0.7||||0.744|TWO_SIDED|95.0|-1.4|2.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.8|-1.4|0.744
82578620|NCT02311673|164866505|OTHER||LS Mean Difference|1.0||||0.883|TWO_SIDED|95.0|-0.7|2.8||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.8|-0.7|0.883
82543521|NCT00696618|164787590|SUPERIORITY_OR_OTHER||||||<|0.05||||||Adjusted for multiple comparisons.|multi-level|||Nine research participants provided the ability to detect an effect size of 1.25 standard deviation units relative to the mean with 80% power using two-sided, 5% alpha in a paired analysis. The Baseline condition (no intervention) was assigned a value of 1 and geometric mean ratios with 95% confidence intervals for each intervention were calculated relative to baseline.||||<.05
82543522|NCT00696618|164787591|SUPERIORITY_OR_OTHER||||||<|0.05|||||||multi-level|||||||<.05
82543523|NCT00696618|164787592|SUPERIORITY_OR_OTHER||||||<|0.05|||||||mulit-level analysis|||||||<.05
82543524|NCT00736853|164787606|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.377||||0.0001|TWO_SIDED|95.0|0.221|0.641|||Log Rank|Stratified Log-rank test with the target disease as the stratification factor||||0.641|0.221|0.0001
82543525|NCT01199705|164787633|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||1.39||||||||1.390||
82543526|NCT01199705|164787633|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.953||||||||0.953||
82543527|NCT01199705|164787633|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.914||||||||0.914||
82578621|NCT02311673|164866505|OTHER||LS Mean Difference|-0.2||||0.338|TWO_SIDED|95.0|-1.3|0.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||0.9|-1.3|0.338
82543528|NCT01199705|164787635|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||1.204||||||||1.204||
82543529|NCT01199705|164787635|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.834||||||||0.834||
82543530|NCT01199705|164787635|SUPERIORITY_OR_OTHER||Annualized Rate|0.0|||||ONE_SIDED|99.0||0.802||||||||0.802||
82543531|NCT01212991|164787645|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.706|||<|0.0001|TWO_SIDED|95.0|0.596|0.837||A 2-stage group sequential method (Lan DeMets OBF) assigned the level of significance for the pre-specified interim overall survival analysis (p\<0.015) based on overall 2-sided type I error rate of 0.049. Final results based upon interim analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \<1 favoring enzalutamide.|||0.837|0.596|<0.0001
82543532|NCT01212991|164787646|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.186|||<|0.0001|TWO_SIDED|95.0|0.149|0.231||The assigned 2-sided type I error rate was 0.001 for the analysis of radiographic progression-free survival.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.231|0.149|<0.0001
82543533|NCT01212991|164787647|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.718|||<|0.0001||95.0|0.61|0.844||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.01 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.844|0.610|<0.0001
82543534|NCT01212991|164787648|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.349|||<|0.0001||95.0|0.303|0.403||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.0125 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.403|0.303|<0.0001
82543535|NCT01212991|164787649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.169|||<|0.0001||95.0|0.147|0.195||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.0167 for this analysis.|Log Rank||The hazard ratio is based on an unstratified Cox regression model (with treatment as the only covariate) and is relative to placebo with \< 1 favoring enzalutamide.|||0.195|0.147|<0.0001
82543536|NCT01212991|164787650|SUPERIORITY_OR_OTHER_LEGACY||Difference in response rates|74.51|||<|0.0001||95.0|71.45|77.57||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.025 for this analysis.|Cochran-Mantel-Haenszel|||||77.57|71.45|<0.0001
82543537|NCT01212991|164787651|SUPERIORITY_OR_OTHER_LEGACY||Difference in objective response rate|53.85|||<|0.0001||95.0|48.53|59.17||The Holm step down method of multiple comparisons was used to maintain a study wide type I error of 5% for prespecified secondary efficacy analyses. The 2-sided type I error rate was 0.05 for this analysis.|Cochran-Mantel-Haenszel|||||59.17|48.53|<0.0001
82543538|NCT03949335|164787655|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82543539|NCT03949335|164787656|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82543540|NCT03949335|164787657|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82543541|NCT03949335|164787658|NON_INFERIORITY|Noninferiority margin equals -0.1|Mean Difference (Final Values)|-0.031|||||TWO_SIDED|95.0|-0.053|-0.01||Success criteria was evaluated using lower confidence interval. No P-Value was calculated.||||||-0.010|-0.053|
82543542|NCT03949335|164787660|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82543543|NCT03122886|164787680|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.9|TWO_SIDED|95.0|0.12|6.37|||Log Rank|||||6.37|0.12|0.90
82543544|NCT03312907|164787710|OTHER||Odds Ratio (OR)|1.27||||0.5342|TWO_SIDED|95.0|0.6|2.71|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose. Belimumab + Standard therapy arm was excluded from model.|||2.71|0.60|0.5342
82543545|NCT03312907|164787710|OTHER||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.32|1.54|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, and Baseline prednisone equivalent dose. Belimumab + Placebo arm excluded from model.|||1.54|0.32|
82543546|NCT03312907|164787711|OTHER||Odds Ratio (OR)|1.12||||0.8582|TWO_SIDED|95.0|0.33|3.78|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||3.78|0.33|0.8582
82543547|NCT03312907|164787711|OTHER||Odds Ratio (OR)|0.53|||||TWO_SIDED|95.0|0.17|1.7|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from model.|||1.70|0.17|
82543548|NCT03312907|164787712|OTHER||Odds Ratio (OR)|1.64||||0.3613|TWO_SIDED|95.0|0.57|4.72|||Regression, Logistic||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||4.72|0.57|0.3613
82462513|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.04||||0.06|TWO_SIDED|95.0|0.95|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.69|0.95|0.0600
82462514|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6503|TWO_SIDED|95.0|0.47|3.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.32|0.47|0.6503
82462515|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0683|TWO_SIDED|95.0|0.93|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.88|0.93|0.0683
82462516|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0618|TWO_SIDED|95.0|0.95|8.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.44|0.95|0.0618
82462517|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5621|TWO_SIDED|95.0|0.5|3.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.63|0.50|0.5621
82462518|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.92||||0.2182|TWO_SIDED|95.0|0.68|5.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.40|0.68|0.2182
82462519|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.11||||0.06|TWO_SIDED|95.0|0.95|10.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.15|0.95|0.0600
82462520|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.6||||0.029|TWO_SIDED|95.0|1.17|18.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||18.12|1.17|0.0290
82543549|NCT03312907|164787712|OTHER||Odds Ratio (OR)|0.45|||||TWO_SIDED|95.0|0.19|1.09|||||Odds ratio was calculated using logistic regression model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||1.09|0.19|
82543550|NCT03312907|164787718|OTHER||Hazard Ratio (HR)|0.81||||0.215|TWO_SIDED|95.0|0.57|1.13|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||1.13|0.57|0.2150
82462521|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8485|TWO_SIDED|95.0|0.4|3.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.04|0.40|0.8485
82462522|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1652|TWO_SIDED|95.0|0.73|6.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.42|0.73|0.1652
82543551|NCT03312907|164787718|OTHER||Hazard Ratio (HR)|1.64|||||TWO_SIDED|95.0|1.03|2.63|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||2.63|1.03|
82543552|NCT03312907|164787719|OTHER||Hazard Ratio (HR)|0.87||||0.3757|TWO_SIDED|95.0|0.64|1.19|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||1.19|0.64|0.3757
82543553|NCT03312907|164787719|OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.71|1.49|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||1.49|0.71|
82543554|NCT03312907|164787720|OTHER||Hazard Ratio (HR)|1.55||||0.5127|TWO_SIDED|95.0|0.42|5.78|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||5.78|0.42|0.5127
82543555|NCT03312907|164787720|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.23|2.1|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||2.10|0.23|
82543556|NCT03312907|164787721|OTHER||Hazard Ratio (HR)|0.83||||0.8436|TWO_SIDED|95.0|0.14|5.05|||Cox proportional hazards model||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from model.|||5.05|0.14|0.8436
82578622|NCT02311673|164866505|OTHER||LS Mean Difference|-0.2||||0.381|TWO_SIDED|95.0|-1.6|1.2||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.2|-1.6|0.381
82578623|NCT02311673|164866507|OTHER||LS Mean Difference|1.3||||0.679|TWO_SIDED|95.0|-4.5|7.0||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||7.0|-4.5|0.679
82578624|NCT02311673|164866507|OTHER||LS Mean Difference|0.7||||0.641|TWO_SIDED|95.0|-3.3|4.7||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||4.7|-3.3|0.641
82462523|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.94||||0.2244|TWO_SIDED|95.0|0.67|5.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.65|0.67|0.2244
82462524|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2097|TWO_SIDED|95.0|0.71|4.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.84|0.71|0.2097
82462525|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.53||||0.3708|TWO_SIDED|95.0|0.6|3.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.92|0.60|0.3708
82462526|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0704|TWO_SIDED|95.0|0.92|7.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.66|0.92|0.0704
82462527|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|7.21||||0.004|TWO_SIDED|95.0|1.88|27.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||27.73|1.88|0.0040
82462528|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.04||||0.1625|TWO_SIDED|95.0|0.75|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.55|0.75|0.1625
82462529|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0093|TWO_SIDED|95.0|1.46|14.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||14.50|1.46|0.0093
82462530|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|4.44||||0.0103|TWO_SIDED|95.0|1.42|13.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.87|1.42|0.0103
82462531|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.89||||0.1965|TWO_SIDED|95.0|0.72|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.95|0.72|0.1965
82462532|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0549|TWO_SIDED|95.0|0.98|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.42|0.98|0.0549
82462533|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0503|TWO_SIDED|95.0|1.0|9.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.09|1.00|0.0503
82543557|NCT03312907|164787721|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.09|3.14|||||Hazard ratio was calculated using Cox proportional hazards model with covariates: Baseline SLEDAI-2K, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm excluded from model.|||3.14|0.09|
82578625|NCT02311673|164866507|OTHER||LS Mean Difference|1.9||||0.809|TWO_SIDED|95.0|-2.6|6.4||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|Statistical analysis is provided for percent change from baseline at Day 56.||6.4|-2.6|0.809
82578626|NCT02311673|164866508|OTHER||LS Mean Difference|0.5||||0.633|TWO_SIDED|95.0|-2.6|3.6||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||3.6|-2.6|0.633
82462534|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|7.03||||0.0046|TWO_SIDED|95.0|1.82|27.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||27.10|1.82|0.0046
82462535|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.46||||0.0866|TWO_SIDED|95.0|0.88|6.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.88|0.88|0.0866
82462536|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|5.96||||0.0045|TWO_SIDED|95.0|1.74|20.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||20.40|1.74|0.0045
82462537|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|3.59||||0.0207|TWO_SIDED|95.0|1.22|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.62|1.22|0.0207
82462538|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2127|TWO_SIDED|95.0|0.7|4.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.91|0.70|0.2127
82462539|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.04||||0.1521|TWO_SIDED|95.0|0.77|5.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.43|0.77|0.1521
82462540|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|5.12||||0.0098|TWO_SIDED|95.0|1.48|17.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.70|1.48|0.0098
82462541|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|7.08||||0.0047|TWO_SIDED|95.0|1.82|27.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||27.50|1.82|0.0047
82462542|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1817|TWO_SIDED|95.0|0.72|5.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.51|0.72|0.1817
82462543|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0042|TWO_SIDED|95.0|1.77|20.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.95|1.77|0.0042
82462544|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0039|TWO_SIDED|95.0|1.78|20.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.74|1.78|0.0039
82462545|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.23||||0.7025|TWO_SIDED|95.0|0.42|3.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.57|0.42|0.7025
82462546|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.03||||0.9599|TWO_SIDED|95.0|0.36|2.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.97|0.36|0.9599
82462547|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9671|TWO_SIDED|95.0|0.34|3.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.10|0.34|0.9671
82462548|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.26||||0.681|TWO_SIDED|95.0|0.42|3.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.83|0.42|0.6810
82543558|NCT03312907|164787728|OTHER||Odds Ratio (OR)|1.55||||0.7102|TWO_SIDED|95.0|0.15|15.7|||Regression, Logistic|Week 52|Odds ratio at Week 52 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab+ Standard therapy arm was excluded from the model.|||15.70|0.15|0.7102
82543559|NCT03312907|164787728|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.1|10.71|||||Odds ratio at Week 52 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant, Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from the model.|||10.71|0.10|
82543560|NCT03312907|164787728|OTHER||Odds Ratio (OR)|0.9||||0.8641|TWO_SIDED|95.0|0.26|3.15|||Regression, Logistic|Week 104|Odds ratio at Week 104 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab + Standard therapy arm was excluded from the model.|||3.15|0.26|0.8641
82543561|NCT03312907|164787728|OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.26|5.64|||||Odds ratio at Week 104 was calculated using Logistic regression model with covariates:Baseline SLEDAI-2K,Baseline immunosuppressant,Baseline prednisone equivalent dose and treatment group. Belimumab + Placebo arm was excluded from the model.|||5.64|0.26|
82650175|NCT04549259|165015453|OTHER|Single group change over time.|Odds Ratio (OR)|2.32||||0.45|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.45
82650176|NCT04549259|165015453|OTHER|Single group change over time.|Odds Ratio (OR)|0.92||||0.91|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.91
82650177|NCT04549259|165015454|SUPERIORITY||B|2.58|STANDARD_ERROR_OF_MEAN|2.8||0.36|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.36
82462549|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6346|TWO_SIDED|95.0|0.43|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.04|0.43|0.6346
82462550|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7929|TWO_SIDED|95.0|0.38|3.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.57|0.38|0.7929
82462551|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8188|TWO_SIDED|95.0|0.39|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.28|0.39|0.8188
82462552|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8226|TWO_SIDED|95.0|0.3|2.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.60|0.30|0.8226
82462553|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9088|TWO_SIDED|95.0|0.32|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.72|0.32|0.9088
82462554|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6189|TWO_SIDED|95.0|0.24|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.35|0.24|0.6189
82462555|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6463|TWO_SIDED|95.0|0.42|4.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.03|0.42|0.6463
82462556|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.47||||0.506|TWO_SIDED|95.0|0.47|4.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.54|0.47|0.5060
82462557|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3842|TWO_SIDED|95.0|0.53|5.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.31|0.53|0.3842
82462558|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5021|TWO_SIDED|95.0|0.49|4.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.23|0.49|0.5021
82543562|NCT03926039|164787800|EQUIVALENCE|Equivalence Analysis||||||0.05|||||||ANOVA|||Both group of average difference (95% CI) in intervention group and control group||||0.05
82543563|NCT05082935|164787808|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.09|TWO_SIDED|95.0|-0.008|0.104|||ANCOVA|||||0.104|-0.008|0.09
82543564|NCT05082935|164787809|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.02|TWO_SIDED|95.0|0.02|0.29|||ANCOVA|||||0.29|0.02|0.02
82578627|NCT02311673|164866508|OTHER||LS Mean Difference|0.1||||0.528|TWO_SIDED|95.0|-2.1|2.3||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.3|-2.1|0.528
82543565|NCT05082935|164787810|SUPERIORITY||Ratio of Means|-0.076||||0.03|TWO_SIDED|95.0|-0.145|-0.007|||ANCOVA|||||-0.007|-0.145|0.03
82543566|NCT05082935|164787811|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.38|TWO_SIDED|95.0|-0.04|0.09|||ANCOVA|||||0.09|-0.04|0.38
82543567|NCT05082935|164787812|SUPERIORITY||Mean Difference (Final Values)|0.096||||0.002|TWO_SIDED|95.0|0.04|0.16|||ANCOVA|||||0.16|0.04|0.002
82543568|NCT03292913|164787828|SUPERIORITY||Risk Ratio (RR)|1.07||||0.22|TWO_SIDED|95.0|0.96|1.21|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, viral load suppression at baseline, and new to care.||Outcome measure for this analysis is viral load suppression. A priori threshold for statistical significance is p-value less than 0.05.||1.21|0.96|0.220
82543569|NCT03292913|164787829|SUPERIORITY||Risk Ratio (RR)|1.04||||0.481|TWO_SIDED|95.0|0.94|1.15|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, and new to care.||Outcome measure for this analysis is retention in care. A priori threshold for statistical significance is p-value less than 0.05.||1.15|0.94|0.481
82543570|NCT03292913|164787830|SUPERIORITY||Risk Ratio (RR)|0.86||||0.093|TWO_SIDED|95.0|0.72|1.03|||Mixed Models Analysis|Risk ratio is adjusted for sex, age, race, site, and new to care.||Outcome measure for this analysis is a 6-month visit gap defined ashaving at least 189 days between two sequentially kept visits, post-randomization. A priori threshold for statistical significance is p-value less than 0.05.||1.03|0.72|0.093
82543571|NCT03950622|164787831|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-2.4||||0.175|TWO_SIDED|95.0|-5.8|1.1|||Miettinen & Nurminen|||Injection site redness/erythema||1.1|-5.8|0.175
82543572|NCT03950622|164787831|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|11.7|||<|0.001|TWO_SIDED|95.0|6.0|17.2|||Miettinen & Nurminen|||Injection site tenderness/pain||17.2|6.0|<0.001
82543573|NCT03950622|164787831|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.3||||0.488|TWO_SIDED|95.0|-2.4|5.0|||Miettinen & Nurminen|||Injection site swelling||5.0|-2.4|0.488
82543574|NCT03950622|164787832|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.2||||0.888|TWO_SIDED|95.0|-2.8|2.4|||Miettinen & Nurminen|||Joint pain/arthralgia||2.4|-2.8|0.888
82543575|NCT03950622|164787832|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.1||||0.96|TWO_SIDED|95.0|-4.2|4.4|||Miettinen & Nurminen|||Tiredness/fatigue||4.4|-4.2|0.960
82543576|NCT03950622|164787832|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-1.4||||0.469|TWO_SIDED|95.0|-5.1|2.4|||Miettinen & Nurminen|||Headache||2.4|-5.1|0.469
82543577|NCT03950622|164787832|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|3.4||||0.082|TWO_SIDED|95.0|-0.4|7.4|||Miettinen & Nurminen|||Muscle pain/myalgia||7.4|-0.4|0.082
82543578|NCT03950622|164787833|OTHER|Estimated differences and CIs are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.6|0.6|||Miettinen & Nurminen|||Vaccine-related SAEs||0.6|-0.6|
82543579|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.96|||Constrained longitudinal data analysis|GMT ratio, 95% CI, and p-value are estimated from a constrained longitudinal data analysis (cLDA) model.||Serotype 1 (Shared)||0.96|0.66|<0.001
82543580|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.38|1.85|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 3 (Shared)||1.85|1.38|<0.001
82543581|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.57|0.8|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 4 (Shared)||0.80|0.57|<0.001
82543582|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.64|0.98|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 5 (Shared)||0.98|0.64|<0.001
82543583|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.84|1.19|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 6A (Shared)||1.19|0.84|<0.001
82543584|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.23|||<|0.001|TWO_SIDED|95.0|1.02|1.48|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 6B (Shared)||1.48|1.02|<0.001
82543585|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.79|||<|0.001|TWO_SIDED|95.0|0.68|0.9|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 7F (Shared)||0.90|0.68|<0.001
82543586|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.81|||<|0.001|TWO_SIDED|95.0|0.7|0.94|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 9V (Shared)||0.94|0.70|<0.001
82543587|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.64|0.89|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 14 (Shared)||0.89|0.64|<0.001
82543588|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.07|||<|0.001|TWO_SIDED|95.0|0.91|1.26|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 18C (Shared)||1.26|0.91|<0.001
82543589|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.7|0.93|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 19A (Shared)||0.93|0.70|<0.001
82543590|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|0.88|||<|0.001|TWO_SIDED|95.0|0.76|1.02|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 19F (Shared)||1.02|0.76|<0.001
82543591|NCT03950622|164787834|NON_INFERIORITY|The statistical criterion for noninferiority requires the lower bound of the 2-sided 95% confidence interval (CI) of the OPA GMT ratio (V114/ Prevnar 13™) to be greater than 0.5.|GMT Ratio|1.18|||<|0.001|TWO_SIDED|95.0|0.96|1.44|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 23F (Shared)||1.44|0.96|<0.001
82543592|NCT03950622|164787834|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 2.0.|GMT Ratio|31.83|||<|0.001|TWO_SIDED|95.0|25.35|39.97|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 22F (Unique to V114)||39.97|25.35|<0.001
82543593|NCT03950622|164787834|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 2.0.|GMT Ratio|7.11|||<|0.001|TWO_SIDED|95.0|6.07|8.32|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 33F (Unique to V114)||8.32|6.07|<0.001
82543594|NCT03950622|164787835|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the differences \[V114 - Prevnar 13™\] between the proportions of participants with a ≥4-fold rise from prevaccination \[Day 1\] to 30 days postvaccination \[Day 30\] to be greater than 0.1.|Percentage Point Difference|57.1|||<|0.001|TWO_SIDED|95.0|52.0|61.8|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 22F (Unique to V114)||61.8|52.0|<0.001
82543595|NCT03950622|164787835|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the differences \[V114 - Prevnar 13™\] between the proportions of participants with a ≥4-fold rise from prevaccination \[Day 1\] to 30 days postvaccination \[Day 30\] to be greater than 0.1)|Percentage Point Difference|50.5|||<|0.001|TWO_SIDED|95.0|45.9|54.9|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 33F (Unique to V114)||54.9|45.9|<0.001
82543596|NCT03950622|164787836|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the OPA GMT ratio \[V114/ Prevnar 13™\] to be greater than 1.2.|GMT Ratio|1.6|||<|0.001|TWO_SIDED|95.0|1.38|1.85|||cLDA|GMT ratio, 95% CI, and p-value are estimated from a cLDA model.||Serotype 3 (Shared)||1.85|1.38|<0.001
82543597|NCT03950622|164787837|SUPERIORITY|The statistical criterion for superiority requires the lower bound of the 2-sided 95% CI of the difference(V114 - Prevnar 13™) between the proportions of participants with a ≥4-fold rise from prevaccination (Day 1) to 30 days postvaccination (Day 30) to be greater than 0.|Percentage Point Difference|11.5|||<|0.001|TWO_SIDED|95.0|6.0|16.9|||Miettinen & Nurminen|Estimated difference, 95% CI, and p-value are based on the stratified Miettinen \& Nurminen method.||Serotype 3 (Shared) ≥4-Fold Rise in OPA||16.9|6.0|<0.001
82543598|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 1 (Shared)||0.83|0.62|
82543599|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.51|||||TWO_SIDED|95.0|1.33|1.71||||||Serotype 3 (Shared)||1.71|1.33|
82543600|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.72|||||TWO_SIDED|95.0|0.62|0.83||||||Serotype 4 (Shared)||0.83|0.62|
82543601|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.96||||||Serotype 5 (Shared)||0.96|0.70|
82543602|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.87|1.21||||||Serotype 6A (Shared)||1.21|0.87|
82543603|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.39|||||TWO_SIDED|95.0|1.17|1.64||||||Serotype 6B (Shared)||1.64|1.17|
82543604|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.66|0.89||||||Serotype 7F (Shared)||0.89|0.66|
82543605|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.75|1.0||||||Serotype 9V (Shared)||1.00|0.75|
82543606|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.89||||||Serotype 14 (Shared)||0.89|0.65|
82462559|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.42||||0.1349|TWO_SIDED|95.0|0.14|1.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.31|0.14|0.1349
82543607|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.05||||||Serotype 18C (Shared)||1.05|0.77|
82543608|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.97||||||Serotype 19A (Shared)||0.97|0.73|
82543609|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.05||||||Serotype 19F (Shared)||1.05|0.78|
82543610|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 23F (Shared)||1.28|0.92|
82578628|NCT02311673|164866508|OTHER||LS Mean Difference|0.5||||0.648|TWO_SIDED|95.0|-2.0|2.9||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.9|-2.0|0.648
82578629|NCT02311673|164866510|OTHER||LS Mean Difference|0.7||||0.712|TWO_SIDED|95.0|-1.8|3.1||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||3.1|-1.8|0.712
82578630|NCT02311673|164866510|OTHER||LS Mean Difference|-0.2||||0.414|TWO_SIDED|95.0|-1.9|1.5||One sided p-value.|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||1.5|-1.9|0.414
82578631|NCT02311673|164866510|OTHER||LS Mean Difference|0.6||||0.732|TWO_SIDED|95.0|-1.3|2.5||One sided p-value|Longitudinal mixed analysis of variance||A longitudinal mixed analysis of variance model with fixed effects for treatment, time, treatment-by-time interaction, treatment-by-baseline weight interaction, baseline weight as covariate and participant as random effect was used.|||2.5|-1.3|0.732
82578632|NCT01014208|164866512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.333|TWO_SIDED|95.0|0.89|1.42||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-rank test||The Pike estimator was the statistical method used to estimate the hazard ratio.|||1.42|0.89|0.333
82578633|NCT01014208|164866513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4053|TWO_SIDED|95.0|0.56|1.24||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed OR|||1.24|0.56|0.4053
82578634|NCT01014208|164866513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.1167|TWO_SIDED|95.0|0.39|1.1||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed CR|||1.10|0.39|0.1167
82578635|NCT01014208|164866514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.8209|TWO_SIDED|95.0|0.55|2.43||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed OR|||2.43|0.55|0.8209
82578636|NCT01014208|164866514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6313|TWO_SIDED|95.0|0.62|2.43||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||For Category title- Independent reviewer-assessed CR|||2.43|0.62|0.6313
82543611|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|10.62|||||TWO_SIDED|95.0|9.37|12.03||||||Serotype 22F (Unique to V114)||12.03|9.37|
82543612|NCT03950622|164787838|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|8.98|||||TWO_SIDED|95.0|8.0|10.07||||||Serotype 33F (Unique to V114)||10.07|8.00|
82543613|NCT01839331|164787846|SUPERIORITY|||||||0.004||||||Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.|ANOVA|||||||0.004
82543614|NCT01839331|164787846|SUPERIORITY|||||||0.017||||||Adjusted for injection volume and baseline WOMAC score.|ANOVA|||||||0.017
82543615|NCT01839331|164787846|SUPERIORITY|||||||0.093||||||Adjusted for injection volume and baseline WOMAC score.|ANOVA|||||||0.093
82543616|NCT01839331|164787847|SUPERIORITY|Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.||||||0.0442|||||||ANOVA|||||||0.0442
82543617|NCT01839331|164787848|SUPERIORITY|||||||0.4133||||||Adjusted for injection volume (4 mL or 10 mL) and baseline WOMAC score.|ANOVA|||||||0.4133
82543618|NCT01839331|164787849|SUPERIORITY|||||||0.0122||||||Adjusted for injection volume (4 mL or 10 mL) and baseline PGA|ANOVA|||||||0.0122
82543619|NCT03074331|164787890|SUPERIORITY|||||||0.009|||||||2-sided exact 1-sample binomial test|||The SVR12 rate was compared to the pre-specified performance goal of 85% by using a two-sided exact one-sample binomial test at the 0.05 significance level.||||0.009
82543620|NCT04470375|164787893|OTHER|Paired samples pre-post t-test||||||0.137|||||||t-test, 2 sided|||||||.137
82543621|NCT04470375|164787894|OTHER|Paired samples t-test (pre - post measure of group)||||||0.01|||||||t-test, 2 sided|||||||.010
82543622|NCT04470375|164787895|OTHER|Paired samples t-test (pre post measure of group)||||||0.591|||||||t-test, 2 sided|||||||.591
82543623|NCT01943799|164787908|SUPERIORITY||LS Mean Difference|-0.001||||0.976|TWO_SIDED|95.0|-0.061|0.059|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.059|-0.061|0.976
82543624|NCT01943799|164787908|SUPERIORITY||LS Mean Difference|-0.007||||0.828|TWO_SIDED|95.0|-0.067|0.053|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.053|-0.067|0.828
82543625|NCT01943799|164787908|SUPERIORITY||LS Mean Difference|-0.029||||0.343|TWO_SIDED|95.0|-0.089|0.031|||MMRM|||Each null hypothesis was tested against the 2-sided alternative that the mean change from baseline in serum HBsAg (log10 IU/mL) titers in the respective GS-4774 group was not equal to that of the OAV group. Estimated least squares means (LSM) of treatment effects and estimated differences in treatment effects between GS-4774 treatment groups and the OAV group at Week 24 were calculated with 95% confidence intervals (CIs) and unadjusted p-values.||0.031|-0.089|0.343
82543626|NCT03811574|164787921|SUPERIORITY||Treatment difference|-7.52|||<|0.0001|TWO_SIDED|95.0|-9.62|-5.43|||ANCOVA|||Treatment policy estimand||-5.43|-9.62|<.0001
82543627|NCT03811574|164787921|SUPERIORITY||Treatment difference|-11.06|||<|0.0001|TWO_SIDED|95.0|-12.88|-9.24|||ANCOVA|||Treatment policy estimand||-9.24|-12.88|<.0001
82543628|NCT03811574|164787922|SUPERIORITY||Odds Ratio (OR)|11.08|||<|0.0001|TWO_SIDED|95.0|5.53|22.22|||Regression, Logistic|||Treatment policy estimand||22.22|5.53|<.0001
82543629|NCT03811574|164787922|SUPERIORITY||Odds Ratio (OR)|21.72|||<|0.0001|TWO_SIDED|95.0|11.27|41.86|||Regression, Logistic|||Treatment policy estimand||41.86|11.27|<.0001
82462560|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.57||||0.3191|TWO_SIDED|95.0|0.19|1.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.71|0.19|0.3191
82462561|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.3||||0.0623|TWO_SIDED|95.0|0.09|1.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.06|0.09|0.0623
82462562|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.47||||0.1958|TWO_SIDED|95.0|0.15|1.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.48|0.15|0.1958
82462563|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.62||||0.4353|TWO_SIDED|95.0|0.19|2.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.05|0.19|0.4353
82462564|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9729|TWO_SIDED|95.0|0.31|3.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.31|0.31|0.9729
82462565|NCT03192176|164625581|SUPERIORITY||Odds Ratio (OR)|0.64||||0.4211|TWO_SIDED|95.0|0.22|1.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.89|0.22|0.4211
82462566|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.05||||0.1938|TWO_SIDED|95.0|0.57|16.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.35|0.57|0.1938
82462567|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|6.97||||0.0162|TWO_SIDED|95.0|1.43|33.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.91|1.43|0.0162
82462568|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|14.37||||0.0008|TWO_SIDED|95.0|3.04|67.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||67.96|3.04|0.0008
82462569|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|16.02||||0.0005|TWO_SIDED|95.0|3.39|75.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||75.68|3.39|0.0005
82462570|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.02||||0.1971|TWO_SIDED|95.0|0.56|16.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.17|0.56|0.1971
82543630|NCT00262730|164787984|NON_INFERIORITY_OR_EQUIVALENCE|study design has 85% power to detect 25% deduction in hazard rate compared to EORTC Phase 3 results.|Hazard Ratio (HR)|0.8|STANDARD_DEVIATION|0.025|>|0.1|TWO_SIDED|95.0|0.8|0.85|||Log Rank|||||0.85|0.8|>.1
82578637|NCT01014208|164866515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.346|TWO_SIDED|95.0|0.9|1.36||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified log-rank test||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.36|0.90|0.346
82578638|NCT01014208|164866516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.377|TWO_SIDED|95.0|0.7|1.15||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified log-rank test||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.15|0.70|0.377
82543631|NCT02918071|164787994|OTHER||percentage|97.4|||||TWO_SIDED|95.0|92.63|99.46|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients successfully administered benralizumab with an AI at home (Week 12)|||99.46|92.63|
82578639|NCT01014208|164866517|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.57||||0.1161|TWO_SIDED|95.0|0.83|9.5||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel|||||9.50|0.83|0.1161
82462571|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0811|TWO_SIDED|95.0|0.83|22.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.27|0.83|0.0811
82543632|NCT02918071|164787994|OTHER||Percentage|96.6|||||TWO_SIDED|95.0|91.41|99.05|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of patients who successfully administered benralizumab with an AI at home (Week 16)|||99.05|91.41|
82578640|NCT01014208|164866518|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4481|TWO_SIDED|95.0|0.56|1.27||p-value for the test of Odds Ratio being 1.|Cochran-Mantel-Haenszel||Statistics are presented for Completion rate|||1.27|0.56|0.4481
82578641|NCT01014208|164866519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.978|TWO_SIDED|95.0|-2.11|2.17|||ANCOVA|||||2.170|-2.110|0.978
82578642|NCT01014208|164866520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.129||||0.387|TWO_SIDED|95.0|-1.434|3.691|||ANCOVA|||||3.691|-1.434|0.387
82462572|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|11.44||||0.0021|TWO_SIDED|95.0|2.43|53.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||53.94|2.43|0.0021
82462573|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.11||||0.137|TWO_SIDED|95.0|0.79|5.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.64|0.79|0.1370
82462574|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.2||||0.0181|TWO_SIDED|95.0|1.22|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.40|1.22|0.0181
82462575|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|6.43||||0.0002|TWO_SIDED|95.0|2.43|17.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.05|2.43|0.0002
82462576|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|6.08||||0.0003|TWO_SIDED|95.0|2.26|16.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.31|2.26|0.0003
82462577|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3241|TWO_SIDED|95.0|0.61|4.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.49|0.61|0.3241
82462578|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2249|TWO_SIDED|95.0|0.68|5.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.03|0.68|0.2249
82462579|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.53||||0.0096|TWO_SIDED|95.0|1.36|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.18|1.36|0.0096
82543633|NCT02918071|164787994|OTHER||Percentage|93.1|||||TWO_SIDED|95.0|86.86|96.98|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 and 16)|Percentage of patients who successfully administered benralizumab with an AI at home (Week 12 and 16)|||96.98|86.86|
82543634|NCT02918071|164787995|OTHER||Percentage|97.4|||||TWO_SIDED|95.0|92.69|99.47|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of patients returned functional AI administered at home (Week 12)|||99.47|92.69|
82578643|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.479|TWO_SIDED|95.0|0.74|1.16||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 1. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.16|0.74|0.479
82578644|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.059|TWO_SIDED|95.0|0.64|1.02||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 2. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.02|0.64|0.059
82543635|NCT02918071|164787995|OTHER||Percentage|96.6|||||TWO_SIDED|95.0|91.48|99.06|||Clopper Pearson Exact CI|One sample confidence interval (Week 16)|Percentage of patients returned functional AI administered at home (Week 16)|||99.06|91.48|
82543636|NCT02918071|164787996|OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|3.0|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0)|Percentage of mulfunctioning AI used to administer benralizumab at home or clinic (Week 0)|||3.00|0.00|
82462580|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.35||||0.0768|TWO_SIDED|95.0|0.91|6.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.05|0.91|0.0768
82462581|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.91||||0.00251|TWO_SIDED|95.0|1.14|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.39|1.14|0.00251
82462582|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0002|TWO_SIDED|95.0|2.3|15.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.57|2.30|0.0002
82543637|NCT02918071|164787996|OTHER||Percentage|0.8|||||TWO_SIDED|95.0|0.02|4.52|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 4)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 4)|||4.52|0.02|
82543638|NCT02918071|164787996|OTHER||Percentage|0.8|||||TWO_SIDED|95.0|0.02|4.59|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 8)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 8)|||4.59|0.02|
82543639|NCT02918071|164787996|OTHER||Percentage|2.6|||||TWO_SIDED|95.0|0.53|7.31|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 12)|||7.31|0.53|
82543640|NCT02918071|164787996|OTHER||Percentage|3.4|||||TWO_SIDED|95.0|0.94|8.52|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 16)|||8.52|0.94|
82543641|NCT02918071|164787996|OTHER||Percentage|0.6|||||TWO_SIDED|95.0|0.07|1.99|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 8)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 0 to 8)|||1.99|0.07|
82543642|NCT02918071|164787996|OTHER||Percentage|3.0|||||TWO_SIDED|95.0|1.21|6.07|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 12 to 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 12 to 16)|||6.07|1.21|
82543643|NCT02918071|164787996|OTHER||Percentage|1.5|||||TWO_SIDED|95.0|0.69|2.85|||Clopper-pearson Exact CI|One sample Confidence Interval (Week 0 to 16)|Percentage of malfunctioning AI used to administer benralizumab at home or clinic (Week 0 to 16)|||2.85|0.69|
82543644|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.51 in the 11Pn Group and N= 203 and Adjusted GMC= 1.36 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.9|||||TWO_SIDED|95.9|0.75|1.07||||||ANTI-1 serotype test :to demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.07|0.75|
82462583|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|7.29|||<|0.0001|TWO_SIDED|95.0|2.7|19.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||19.71|2.70|<0.0001
82462584|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.14||||0.1144|TWO_SIDED|95.0|0.83|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.50|0.83|0.1144
82543645|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.77 in the 11Pn Group and N= 203 and Adjusted GMC= 1.66 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.94|||||TWO_SIDED|95.9|0.77|1.14||||||ANTI-4 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.14|0.77|
82543646|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 2.46 in the 11Pn Group and N= 201 and Adjusted GMC= 2.16 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.88|||||TWO_SIDED|95.9|0.75|1.03||||||ANTI-5 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.03|0.75|
82543647|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =0.51 in the 11Pn Group and N= 200 and Adjusted GMC= 0.47 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.93|||||TWO_SIDED|95.9|0.71|1.23||||||ANTI-6B serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.23|0.71|
82561896|NCT01262456|164832970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0003|TWO_SIDED|95.0|-0.57|-0.17||A priori threshold for significance was p\<=0.05|ANCOVA|Repeated measures ANCOVA of change from baseline at Week 1, Months 1, 2, 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||"Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary outcomes in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.~A summary of mean change in nocturnal voids, assessed longitudinally during 3 months of treatment, is presented below for the FAS using LOCF."||-0.17|-0.57|0.0003
82462585|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1341|TWO_SIDED|95.0|0.8|5.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.30|0.80|0.1341
82462586|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|4.43||||0.0017|TWO_SIDED|95.0|1.75|11.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.22|1.75|0.0017
82462587|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1488|TWO_SIDED|95.0|0.77|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.50|0.77|0.1488
82462588|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0043|TWO_SIDED|95.0|1.54|10.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.30|1.54|0.0043
82462589|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.53||||0.0005|TWO_SIDED|95.0|2.1|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.57|2.10|0.0005
82462590|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|14.54|||<|0.0001|TWO_SIDED|95.0|4.85|43.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||43.58|4.85|<0.0001
82462591|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0262|TWO_SIDED|95.0|1.14|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.68|1.14|0.0262
82462592|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0009|TWO_SIDED|95.0|1.95|13.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.19|1.95|0.0009
82462593|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.33||||0.0006|TWO_SIDED|95.0|2.06|13.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.80|2.06|0.0006
82462594|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3673|TWO_SIDED|95.0|0.61|3.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||3.75|0.61|0.3673
82462595|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1207|TWO_SIDED|95.0|0.83|4.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.91|0.83|0.1207
82462596|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0011|TWO_SIDED|95.0|1.9|13.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.21|1.90|0.0011
82462597|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|9.19|||<|0.0001|TWO_SIDED|95.0|3.08|27.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||27.38|3.08|<0.0001
82462598|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0594|TWO_SIDED|95.0|0.97|5.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.86|0.97|0.0594
82462599|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.47||||0.05|TWO_SIDED|95.0|1.0|6.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.09|1.00|0.0500
82462600|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0123|TWO_SIDED|95.0|1.29|8.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.03|1.29|0.0123
82462601|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2243|TWO_SIDED|95.0|0.71|4.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.37|0.71|0.2243
82462602|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0976|TWO_SIDED|95.0|0.87|5.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.24|0.87|0.0976
82462603|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0004|TWO_SIDED|95.0|2.25|16.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.44|2.25|0.0004
82462604|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|9.13|||<|0.0001|TWO_SIDED|95.0|3.04|27.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||27.40|3.04|<0.0001
82462605|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1237|TWO_SIDED|95.0|0.82|5.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.17|0.82|0.1237
82462606|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0226|TWO_SIDED|95.0|1.16|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.41|1.16|0.0226
82462607|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0069|TWO_SIDED|95.0|1.42|8.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.91|1.42|0.0069
82462608|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.9||||0.1666|TWO_SIDED|95.0|0.76|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.75|0.76|0.1666
82462609|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0317|TWO_SIDED|95.0|1.09|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|1.09|0.0317
82462610|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0011|TWO_SIDED|95.0|1.94|14.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.39|1.94|0.0011
82462611|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|8.45||||0.0001|TWO_SIDED|95.0|2.81|25.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||25.46|2.81|0.0001
82462612|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1142|TWO_SIDED|95.0|0.84|5.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.27|0.84|0.1142
82561897|NCT01262456|164832971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04||||0.0004|TWO_SIDED|95.0|1.38|3.03||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method for 33% responder status at Week 1, Month 1, Month 2, and Month 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary endpoints in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.||3.03|1.38|0.0004
82462613|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.91||||0.025|TWO_SIDED|95.0|1.14|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.39|1.14|0.0250
82462614|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.08||||0.0166|TWO_SIDED|95.0|1.23|7.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.75|1.23|0.0166
82462615|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6033|TWO_SIDED|95.0|0.52|3.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.11|0.52|0.6033
82462616|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.05||||0.117|TWO_SIDED|95.0|0.84|5.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.02|0.84|0.1170
82462617|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.69||||0.04|TWO_SIDED|95.0|1.05|6.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.91|1.05|0.0400
82462618|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.61||||0.002|TWO_SIDED|95.0|1.88|16.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||16.72|1.88|0.0020
82543648|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=219 and Adjusted GMC =2.30 in the 11Pn Group and N= 202 and Adjusted GMC= 2.17 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.94|||||TWO_SIDED|95.9|0.81|1.1||||||ANTI-7F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.10|0.81|
82543649|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =1.56 in the 11Pn Group and N= 200 and Adjusted GMC= 1.40 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.89|||||TWO_SIDED|95.9|0.76|1.06||||||ANTI-9V serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.06|0.76|
82543650|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 4.22 in the 11Pn Group and N= 201 and Adjusted GMC= 4.06 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.96|||||TWO_SIDED|95.9|0.81|1.15||||||ANTI-14 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.15|0.81|
82561898|NCT01262456|164832971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.0009|TWO_SIDED|95.0|1.32|2.96||A priori threshold for significance was p\<=0.05.|Generalized Estimating Equation (GEE)|GEE Method for 33% responder status at Week 1, Month 1, Month 2, and Month 3, adjusted for age (\<65, ≥65 years), visit, and baseline nocturnal voids.||Superiority to placebo was to be simultaneously demonstrated on the 2 co-primary endpoints in a step-down approach from highest (75 μg) to lowest dose (50 μg), thereby controlling the family-wise error rate at the 5% nominal significance level.||2.96|1.32|0.0009
82578645|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.451|TWO_SIDED|95.0|0.83|1.48||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Neutrophils, Cycle 3. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.48|0.83|0.451
82462619|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5177|TWO_SIDED|95.0|0.54|3.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.37|0.54|0.5177
82462620|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.79||||0.2117|TWO_SIDED|95.0|0.72|4.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.48|0.72|0.2117
82462621|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0426|TWO_SIDED|95.0|1.03|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.67|1.03|0.0426
82462622|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.54||||0.3508|TWO_SIDED|95.0|0.62|3.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.82|0.62|0.3508
82462623|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4431|TWO_SIDED|95.0|0.58|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.45|0.58|0.4431
82462624|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|4.27||||0.005|TWO_SIDED|95.0|1.55|11.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||11.78|1.55|0.0050
82462625|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0023|TWO_SIDED|95.0|1.84|16.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||16.30|1.84|0.0023
82462626|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5663|TWO_SIDED|95.0|0.52|3.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.32|0.52|0.5663
82462627|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0461|TWO_SIDED|95.0|1.02|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.83|1.02|0.0461
82462628|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.5||||0.0552|TWO_SIDED|95.0|0.98|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.38|0.98|0.0552
82462629|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.95||||0.1536|TWO_SIDED|95.0|0.78|4.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.88|0.78|0.1536
82462630|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.69||||0.2575|TWO_SIDED|95.0|0.68|4.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.20|0.68|0.2575
82462631|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0096|TWO_SIDED|95.0|1.38|10.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.11|1.38|0.0096
82462632|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|8.48||||0.0003|TWO_SIDED|95.0|2.69|26.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||26.76|2.69|0.0003
82462633|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1047|TWO_SIDED|95.0|1.48|10.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.35|1.48|0.1047
82462634|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.91||||0.006|TWO_SIDED|95.0|1.48|10.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.35|1.48|0.0060
82462635|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0414|TWO_SIDED|95.0|1.04|6.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.71|1.04|0.0414
82462636|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0809|TWO_SIDED|95.0|0.9|5.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.89|0.90|0.0809
82462637|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2377|TWO_SIDED|95.0|0.69|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.34|0.69|0.2377
82462638|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0087|TWO_SIDED|95.0|1.44|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.34|1.44|0.0087
82462639|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0022|TWO_SIDED|95.0|1.9|18.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||18.94|1.90|0.0022
82462640|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.4||||0.4788|TWO_SIDED|95.0|0.55|3.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.55|0.55|0.4788
82462641|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.98||||0.0074|TWO_SIDED|95.0|1.45|10.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.94|1.45|0.0074
82462642|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0187|TWO_SIDED|95.0|1.22|8.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.75|1.22|0.0187
82578646|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.597|TWO_SIDED|95.0|0.86|1.29||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 1. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.29|0.86|0.597
82543651|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC =2.81 in the 11Pn Group and N= 201 and Adjusted GMC= 2.57 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|0.92|||||TWO_SIDED|95.9|0.74|1.14||||||ANTI-18C serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.14|0.74|
82543652|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 3.70 in the 11Pn Group and N= 202 and Adjusted GMC= 3.68 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.0|||||TWO_SIDED|95.9|0.81|1.23||||||ANTI-19F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.23|0.81|
82543653|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=218 and Adjusted GMC = 0.62 in the 11Pn Group and N= 199 and Adjusted GMC= 0.71 for the Synflorix Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.15|||||TWO_SIDED|95.9|0.89|1.48||||||ANTI-23F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||1.48|0.89|
82543654|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|GMCs ratio and its CI were calculated using an ANCOVA model on the logarithm-transformed concentrations/titres, including the vaccine group as fixed effect and the pre-vaccination concentration as regressor. The GMCs were used to calculate the Adjusted GMCs (N=217 and Adjusted GMC =1.61 in the 11Pn Group and N= 206 and Adjusted GMC= 2.75 for the Prevnar13 Group) which in turn were used to calculate the Adjusted GMC ratio with 95.9% confidence interval.|Adjusted GMCs ratio|1.71|||||TWO_SIDED|95.9|1.44|2.03||||||ANTI-19A serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 9 out of 11 vaccine serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.9% CI of the ELISA GMC ratios (Prevnar13/11Pn) and (Synflorix/11Pn) groups \< a limit of 2-fold for at least 9 out of 11 vaccine pneumococcal serotypes.||2.03|1.44|
82543655|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=207 and Adj. GMC =1.58 in 12Pn Group and N= 203 and Adj. GMC= 1.35 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.86||||||95.8|0.72|1.02||||||ANTI-1 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.02|0.72|
82578647|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.199|TWO_SIDED|95.0|0.7|1.1||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 2. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.10|0.70|0.199
82578648|NCT01014208|164866521|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.102|TWO_SIDED|95.0|0.93|1.59||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank|||Statistics are presented for Category-Platelets, Cycle 3. Confidence Interval (CI) estimated using the Brookmeyer-Crowley method. HR are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.||1.59|0.93|0.102
82578649|NCT01014208|164866522|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.035|TWO_SIDED|95.0|0.36|1.0||p-value from stratified log-rank test are adjusted for stratification factors.|Stratified Log-Rank||Confidence Interval estimated using the Brookmeyer-Crowley method. HR are estimated using Pike estimator. A hazard ratio \<1 indicates a lower probability of recovery with Ofatumumab compared to Rituximab. HR was adjusted for stratification factors.|||1.00|0.36|0.035
82578650|NCT02683772|164866523|NON_INFERIORITY|The method proposed for this analysis was a one-sided paired t-test using a significance level of 0.05 and a non-inferiority margin of 2 events/hour|Mean Difference (Final Values)|-4.45|STANDARD_DEVIATION|17.23||0.0134|TWO_SIDED||||||t-test, 1 sided|||||||0.0134
82462643|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3443|TWO_SIDED|95.0|0.62|4.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.00|0.62|0.3443
82462644|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.66||||0.2867|TWO_SIDED|95.0|0.65|4.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.22|0.65|0.2867
82462645|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.12||||0.0044|TWO_SIDED|95.0|1.66|15.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||15.78|1.66|0.0044
82462646|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|5.58||||0.0038|TWO_SIDED|95.0|1.74|17.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.87|1.74|0.0038
82462647|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.09||||0.1424|TWO_SIDED|95.0|0.78|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.60|0.78|0.1424
82462648|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0191|TWO_SIDED|95.0|1.22|9.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.07|1.22|0.0191
82462649|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0244|TWO_SIDED|95.0|1.16|8.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.56|1.16|0.0244
82462650|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.63||||0.1462|TWO_SIDED|95.0|0.71|9.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.67|0.71|0.1462
82462651|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7403|TWO_SIDED|95.0|0.32|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.97|0.32|0.7403
82462652|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.35||||0.2144|TWO_SIDED|95.0|0.61|9.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.07|0.61|0.2144
82462653|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4321|TWO_SIDED|95.0|0.44|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.96|0.44|0.4321
82462654|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.53||||0.1778|TWO_SIDED|95.0|0.66|9.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.75|0.66|0.1778
82462655|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8016|TWO_SIDED|95.0|0.28|5.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.20|0.28|0.8016
82462656|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|2.62||||0.1486|TWO_SIDED|95.0|0.71|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.64|0.71|0.1486
82462657|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.51||||0.2881|TWO_SIDED|95.0|0.15|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.77|0.15|0.2881
82462658|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.36||||0.1217|TWO_SIDED|95.0|0.1|1.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.31|0.10|0.1217
82462659|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.36||||0.1027|TWO_SIDED|95.0|0.07|1.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.28|0.07|0.1027
82462660|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.18||||0.0428|TWO_SIDED|95.0|0.03|0.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||0.94|0.03|0.0428
82462661|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5943|TWO_SIDED|95.0|0.21|2.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.44|0.21|0.5943
82462662|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.94||||0.928|TWO_SIDED|95.0|0.27|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.28|0.27|0.9280
82462663|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.94||||0.916|TWO_SIDED|95.0|0.3|2.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.94|0.30|0.9160
82462664|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.43||||0.2262|TWO_SIDED|95.0|0.11|1.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.69|0.11|0.2262
82462665|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2682|TWO_SIDED|95.0|0.13|1.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.75|0.13|0.2682
82462666|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.4||||0.2344|TWO_SIDED|95.0|0.09|1.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.81|0.09|0.2344
82462667|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.22||||0.0835|TWO_SIDED|95.0|0.04|1.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.22|0.04|0.0835
82462668|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.72||||0.6322|TWO_SIDED|95.0|0.19|2.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.72|0.19|0.6322
82462669|NCT03192176|164625582|SUPERIORITY||Odds Ratio (OR)|0.65||||0.4845|TWO_SIDED|95.0|0.2|2.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.17|0.20|0.4845
82462670|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9587|TWO_SIDED|95.0|0.06|17.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.98|0.06|0.9587
82462671|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9895|TWO_SIDED|95.0|0.06|16.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.89|0.06|0.9895
82462672|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.24||||0.0736|TWO_SIDED|95.0|0.83|63.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||63.32|0.83|0.0736
82462673|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.08||||0.0767|TWO_SIDED|95.0|0.81|61.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||61.78|0.81|0.0767
82462674|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.51||||0.288|TWO_SIDED|95.0|0.35|35.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||35.49|0.35|0.2880
82462675|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.96||||0.5894|TWO_SIDED|95.0|0.17|22.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.47|0.17|0.5894
82462676|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.45||||0.3093|TWO_SIDED|95.0|0.44|13.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.78|0.44|0.3093
82462677|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.31||||0.1606|TWO_SIDED|95.0|0.62|17.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.58|0.62|0.1606
82578651|NCT00414908|164866528|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Non parametric ANCOVA|||The following null hypothesis was tested (μ0 and μ1 denote the treatment group means respectively in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase delayed release capsules are equal). The hypothesis corresponded to the primary objective to show superior efficacy of pancrelipase delayed release capsules over placebo. A non-parametric ANCOVA was used because the necessary assumptions were not met for the parametric ANCOVA.||||<0.0001
82578652|NCT00414908|164866529|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Non parametric ANCOVA|||The following null hypothesis was tested (μ0 and μ1 denote the treatment group means respectively in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase delayed release capsules are equal). The hypothesis corresponded to the primary objective to show superior efficacy of pancrelipase delayed release capsules over placebo. A non-parametric ANCOVA was used because the necessary assumptions were not met for the parametric ANCOVA.||||0.0002
82462678|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|11.92||||0.0019|TWO_SIDED|95.0|2.5|56.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||56.87|2.50|0.0019
82462679|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|14.4||||0.0008|TWO_SIDED|95.0|3.02|68.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||68.73|3.02|0.0008
82462680|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8803|TWO_SIDED|95.0|0.11|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.55|0.11|0.8803
82462681|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.98||||0.2096|TWO_SIDED|95.0|0.54|16.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.46|0.54|0.2096
82462682|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.69||||0.011|TWO_SIDED|95.0|1.6|37.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||37.11|1.60|0.0110
82462683|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0845|TWO_SIDED|95.0|0.86|11.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.11|0.86|0.0845
82462684|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1094|TWO_SIDED|95.0|0.79|10.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.13|0.79|0.1094
82462685|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|8.97||||0.0004|TWO_SIDED|95.0|2.68|30.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||30.07|2.68|0.0004
82462686|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0016|TWO_SIDED|95.0|2.1|24.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||24.09|2.10|0.0016
82462687|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4375|TWO_SIDED|95.0|0.44|6.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.64|0.44|0.4375
82462688|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.02||||0.0898|TWO_SIDED|95.0|0.84|10.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.85|0.84|0.0898
82462689|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|6.32||||0.0027|TWO_SIDED|95.0|1.9|21.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.06|1.90|0.0027
82462690|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1242|TWO_SIDED|95.0|0.78|7.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.64|0.78|0.1242
82462691|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0815|TWO_SIDED|95.0|0.88|8.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.03|0.88|0.0815
82543656|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.94 in 12Pn Group and N= 203 and Adj. GMC= 1.66 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.86||||||95.8|0.7|1.05||||||ANTI-4 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.05|0.70|
82578653|NCT00414908|164866530|SUPERIORITY_OR_OTHER||LS Means difference|-112.45|||<|0.0001||95.0|-147.04|-77.87|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal).~The hypothesis was to show superior efficacy of pancrelipase delayed release capsules over placebo.~For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool fat at baseline as a covariate."||-77.87|-147.04|<0.0001
82543657|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =2.37 in 12Pn Group and N= 201 and Adj. GMC= 2.16 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.91|||||TWO_SIDED|95.8|0.78|1.07||||||ANTI-5 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.07|0.78|
82543658|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =0.56 in 12Pn Group and N= 200 and Adj. GMC= 0.47 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.84||||||95.8|0.64|1.11||||||ANTI-6B serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.11|0.64|
82543659|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=211 and Adj. GMC =2.42 in 12Pn Group and N= 202 and Adj. GMC= 2.17 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.9|||||TWO_SIDED|95.8|0.76|1.06||||||ANTI-7F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.06|0.76|
82543660|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.78 in 12Pn Group and N= 200 and Adj. GMC= 1.40 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.79|||||TWO_SIDED|95.8|0.67|0.93||||||ANTI-9V serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||0.93|0.67|
82578654|NCT00414908|164866531|SUPERIORITY_OR_OTHER||LS Means difference|-11.68|||<|0.0001||95.0|-17.3|-6.06|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal).~The hypothesis was to show superior efficacy of pancrelipase delayed release capsules over placebo. For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool nitrogen at baseline as a covariate."||-6.06|-17.30|<0.0001
82578655|NCT00414908|164866532|SUPERIORITY_OR_OTHER||LS Means difference|-0.76||||0.005||95.0|-1.27|-0.24|||ANCOVA|||"The following null hypothesis was tested (μ0 and μ1 denote the treatment group means in the placebo and pancrelipase delayed release capsules group): H0: μ0 = μ1 (i.e., placebo and pancrelipase capsules are equal). The hypothesis was to show superior efficacy of pancrelipase capsules over placebo.~For this secondary efficacy variable, an analysis of covariance (ANCOVA) model was assumed with the treatment group as a fixed factor and the Stool frequency at baseline as a covariate."||-0.24|-1.27|0.005
82578656|NCT00414908|164866536|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|Mean difference based on all subjects combined using the paired t-test between baseline and visit 8 or early termination||||||<0.001
82578657|NCT00798434|164866643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.12|-0.97|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline urgency episodes.||Based on a 2-sided t-test (5% significance). Null hypothesis: no difference in mean change in mean micturition-related urgency episodes per 24 hours at Week 12 for the 2 groups. Last observation carried forward (LOCF) method used for statistical analyses of the FAS (change from baseline to Week 12).||-0.97|-2.12|<0.0001
82561899|NCT01262456|164832972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0029|TWO_SIDED|95.0|-0.57|-0.12||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||"Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.~The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg)."||-0.12|-0.57|0.0029
82462692|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|6.21||||0.0009|TWO_SIDED|95.0|2.11|18.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.27|2.11|0.0009
82462693|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0027|TWO_SIDED|95.0|1.78|15.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||15.64|1.78|0.0027
82462694|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.35||||0.6267|TWO_SIDED|95.0|0.41|4.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.46|0.41|0.6267
82462695|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0709|TWO_SIDED|95.0|0.92|8.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.38|0.92|0.0709
82462696|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|4.62||||0.0049|TWO_SIDED|95.0|1.59|13.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||13.59|1.59|0.0049
82462697|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5107|TWO_SIDED|95.0|0.45|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.98|0.45|0.5107
82462698|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1297|TWO_SIDED|95.0|0.78|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.22|0.78|0.1297
82462699|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.04||||0.0005|TWO_SIDED|95.0|2.34|21.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.22|2.34|0.0005
82462700|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|8.5||||0.0001|TWO_SIDED|95.0|2.82|25.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||25.63|2.82|0.0001
82462701|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.84||||0.299|TWO_SIDED|95.0|0.58|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.81|0.58|0.2990
82462702|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.38||||0.1355|TWO_SIDED|95.0|0.76|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.42|0.76|0.1355
82462703|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|5.17||||0.0028|TWO_SIDED|95.0|1.76|15.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.14|1.76|0.0028
82462704|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.2||||0.7422|TWO_SIDED|95.0|0.41|3.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.47|0.41|0.7422
82462705|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.44||||0.075|TWO_SIDED|95.0|0.91|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.52|0.91|0.0750
82462706|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|6.0||||0.0006|TWO_SIDED|95.0|2.16|16.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.67|2.16|0.0006
82462707|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|7.63||||0.0001|TWO_SIDED|95.0|2.69|21.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||21.65|2.69|0.0001
82462708|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8405|TWO_SIDED|95.0|0.38|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.23|0.38|0.8405
82462709|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6257|TWO_SIDED|95.0|0.45|3.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.79|0.45|0.6257
82578658|NCT00798434|164866644|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-14.44|||<|0.0001|TWO_SIDED|95.0|-14.67|-14.25|||2-sided Van Elteren's test||Hodges-Lehman estimate of median treatment difference and confidence interval (CI)|Week 12 LOCF||-14.25|-14.67|<0.0001
82543661|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=209 and Adj. GMC =4.48 in 12Pn Group and N= 201 and Adj. GMC= 4.10 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|0.91|||||TWO_SIDED|95.8|0.77|1.09||||||ANTI-14 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.09|0.77|
82543662|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=209 and Adj. GMC =2.55 in 12Pn Group and N= 201 and Adj. GMC= 2.57 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.01|||||TWO_SIDED|95.8|0.81|1.26||||||ANTI-18C serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.26|0.81|
82543663|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=211 and Adj. GMC =3.29 in 12Pn Group and N= 202 and Adj. GMC= 3.67 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.12|||||TWO_SIDED|95.8|0.9|1.38||||||ANTI-19F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.38|0.90|
82543664|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =0.68 in 12Pn Group and N= 199 and Adj. GMC= 0.71 for Synflorix Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI..|Adjusted GMCs ratio|1.05|||||TWO_SIDED|95.8|0.81|1.37||||||ANTI-23F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||1.37|0.81|
82543665|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=210 and Adj. GMC =1.09 in 12Pn Group and N= 214 and Adj. GMC= 2.07 for Prevnar13 Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|1.9|||||TWO_SIDED|95.8|1.51|2.39||||||ANTI-6A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A\&19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||2.39|1.51|
82543666|NCT01616459|164788001|NON_INFERIORITY_OR_EQUIVALENCE|12-valent formulation objectives to be assessed sequentially after demonstration for 11-valent formulation. GMCs ratio and its CI obtained using ANCOVA model on logarithm-transformed concentrations, including vaccine group as fixed effect and pre-vaccination concentration as regressor. GMCs were used to calculate Adjusted GMCs (N=208 and Adj. GMC =1.19 in 12Pn Group and N= 206 and Adj. GMC= 2.76 for Prevnar13 Group) which in turn were used to calculate Adjusted GMC ratio with 95.8% CI.|Adjusted GMCs ratio|2.32|||||TWO_SIDED|95.8|1.94|2.77||||||ANTI-19A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™ 1 month post-dose 3 was non-inferior for at least 10 out of 12 vaccine serotypes to Prevnar13 (for 6A\&19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of Enzyme-linked immunosorbent assay (ELISA) GMCs. Criteria: UL of the 2-sided 95.8 CI of the ELISA GMC ratios (Prevnar13/12Pn) and (Synflorix/12Pn) groups \< a limit of 2-fold for at least 10 out of 12 vaccine pneumococcal serotypes.||2.77|1.94|
82561900|NCT01262456|164832972|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.0128|TWO_SIDED|95.0|-0.52|-0.06||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal voids.||"Change from baseline in the adjusted mean number of nocturnal voids in the FAS using LOCF.~The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg)."||-0.06|-0.52|0.0128
82561901|NCT01262456|164832973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0233|TWO_SIDED|95.0|1.08|3.02||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||3.02|1.08|0.0233
82543667|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.98|||||TWO_SIDED|95.9|-3.89|1.36||||||ANTI-1 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.36|-3.89|
82543668|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9% Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-1.08|||||TWO_SIDED|95.9|-4.94|2.45||||||ANTI-4 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.45|-4.94|
82543669|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.48|||||TWO_SIDED|95.9|-2.82|1.38||||||ANTI-5 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.38|-2.82|
82543670|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-2.24|||||TWO_SIDED|95.9|-10.65|6.13||||||ANTI-6B serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||6.13|-10.65|
82543671|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.03|||||TWO_SIDED|95.9|-2.39|2.21||||||ANTI-7F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.21|-2.39|
82543672|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.4|||||TWO_SIDED|95.9|-2.36|3.22||||||ANTI-9V serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||3.22|-2.36|
82543673|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.45|||||TWO_SIDED|95.9|-1.51|2.66||||||ANTI-14 serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||2.66|-1.51|
82462710|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.92||||0.006|TWO_SIDED|95.0|1.48|10.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.36|1.48|0.0060
82543674|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-1.0|||||TWO_SIDED|95.9|-4.18|1.7||||||ANTI-18C serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||1.70|-4.18|
82543675|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-2.38|||||TWO_SIDED|95.9|-5.64|-0.52||||||ANTI-19F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||-0.52|-5.64|
82543676|NCT01616459|164788002|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|2.73|||||TWO_SIDED|95.9|-4.84|10.25||||||ANTI-23F serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||10.25|-4.84|
82543677|NCT01616459|164788003|NON_INFERIORITY_OR_EQUIVALENCE|2-sided 95.9 % Confidence Interval (CI) adjusted 1-sided (alpha = 2.05 %) of the difference between groups in terms of percentage of subjects. Confidence Interval (CI) for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe, 1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.89|||||TWO_SIDED|95.9|-1.46|3.66||||||ANTI-19A serotype test: To demonstrate that 11Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 9 out of 11 serotypes to Prevnar13 (for 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.9 % CI of the difference between (Prevnar13 minus 11Pn) and (Synflorix minus 11Pn) groups \< 10 % for at least 9 out of 11 vaccine pneumococcal serotypes.||3.66|-1.46|
82543678|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.49|||||TWO_SIDED|95.8|-3.44|2.22||||||ANTI-1 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.22|-3.44|
82543679|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.06|||||TWO_SIDED|95.8|-4.03|3.86||||||ANTI-4 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.86|-4.03|
82578659|NCT00798434|164866645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.22||0.0001|TWO_SIDED|95.0|-1.28|-0.42|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline severe urgency episodes||Week 12 LOCF||-0.42|-1.28|0.0001
82578660|NCT00798434|164866646|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0005|TWO_SIDED|95.0|0.0|0.0|||2-sided Van Elteren's test||Hodges-Lehman estimate of median treatment difference and CI|Week 12 LOCF||0.00|0.00|0.0005
82578661|NCT00798434|164866647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.33|-0.64|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of micturitions||Week 12 LOCF||-0.64|-1.33|<0.0001
82543680|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.01|||||TWO_SIDED|95.8|-2.37|2.3||||||ANTI-5 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.30|-2.37|
82543681|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-4.67|||||TWO_SIDED|95.8|-12.94|3.6||||||ANTI-6B serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.60|-12.94|
82561902|NCT01262456|164832973|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.0386|TWO_SIDED|95.0|1.03|2.87||A priori threshold for significance was p\<=0.05.|Regression, Logistic|Logistical regression of 33% responder status adjusted for age (\<65, \>=65) and baseline nocturnal voids using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||2.87|1.03|0.0386
82578662|NCT00798434|164866648|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.31|||<|0.0001|TWO_SIDED|95.0|-7.4|-7.19|||2-sided Van Elteren's test|||Week 12 LOCF||-7.19|-7.40|<0.0001
82578663|NCT00798434|164866649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.0026|TWO_SIDED|95.0|-0.4|-0.09|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of night-time micturitions||Week 12 LOCF||-0.09|-0.40|0.0026
82578664|NCT00798434|164866650|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-9.52||||0.0012|TWO_SIDED|95.0|-9.52|-9.09|||2-sided Van Elteren's test|||Week 12 LOCF||-9.09|-9.52|0.0012
82462711|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.74||||0.3556|TWO_SIDED|95.0|0.54|5.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.68|0.54|0.3556
82462712|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.67||||0.019|TWO_SIDED|95.0|1.24|10.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.90|1.24|0.0190
82462713|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|9.9|||<|0.0001|TWO_SIDED|95.0|3.2|30.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||30.68|3.20|<0.0001
82462714|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|14.81|||<|0.0001|TWO_SIDED|95.0|4.67|47.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||47.05|4.67|<0.0001
82561903|NCT01262456|164832974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.76||||0.0026|TWO_SIDED|95.0|15.02|70.51||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||70.51|15.02|0.0026
82578665|NCT00798434|164866651|SUPERIORITY_OR_OTHER||Hodges-Lehman estimate|0.0||||0.1005|TWO_SIDED|95.0|0.0|0.0||The protocol-defined analysis (ANOVA, parametric) not presented because normality assumptions were not met, instead an alternative analysis (Van-Elteren'ts test, non-parametric) as defined in the statistical analysis plan presented.|Van-Elteren's Test||Hodges-Lehman estimate of median treatment difference and CI|Week 12 LOCF||0.00|0.00|0.1005
82578666|NCT00798434|164866652|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0218|TWO_SIDED|95.0|0.0|0.0|||2-sided Van Elteren's test|||Week 12 LOCF||0.00|0.00|0.0218
82578667|NCT00798434|164866653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-6.3|-3.1|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and daily sum rating of USS at baseline||Week 12 LOCF||-3.10|-6.30|<0.0001
82462715|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1936|TWO_SIDED|95.0|0.68|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|0.68|0.1936
82462716|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0335|TWO_SIDED|95.0|1.1|10.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.47|1.10|0.0335
82462717|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|6.18||||0.0009|TWO_SIDED|95.0|2.1|18.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||18.17|2.10|0.0009
82462718|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.9||||0.833|TWO_SIDED|95.0|0.34|2.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.39|0.34|0.8330
82462719|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.56||||0.341|TWO_SIDED|95.0|0.62|3.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.91|0.62|0.3410
82462720|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0075|TWO_SIDED|95.0|1.42|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.69|1.42|0.0075
82462721|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|4.86||||0.002|TWO_SIDED|95.0|1.78|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.26|1.78|0.0020
82462722|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.78||||0.6216|TWO_SIDED|95.0|0.29|2.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.10|0.29|0.6216
82462723|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.43||||0.4615|TWO_SIDED|95.0|0.55|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.71|0.55|0.4615
82462724|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0281|TWO_SIDED|95.0|1.12|7.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.19|1.12|0.0281
82462725|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8028|TWO_SIDED|95.0|0.33|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.35|0.33|0.8028
82462726|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.21||||0.6846|TWO_SIDED|95.0|0.48|3.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.07|0.48|0.6846
82462727|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0149|TWO_SIDED|95.0|1.26|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.67|1.26|0.0149
82462728|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|5.64||||0.0009|TWO_SIDED|95.0|2.03|15.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.65|2.03|0.0009
82462729|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.79||||0.6434|TWO_SIDED|95.0|0.29|2.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.15|0.29|0.6434
82462730|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.41||||0.4784|TWO_SIDED|95.0|0.54|3.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.69|0.54|0.4784
82462731|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0955|TWO_SIDED|95.0|0.87|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.55|0.87|0.0955
82462732|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.06||||0.9082|TWO_SIDED|95.0|0.4|2.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.79|0.40|0.9082
82462733|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6478|TWO_SIDED|95.0|0.48|3.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.21|0.48|0.6478
82462734|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0104|TWO_SIDED|95.0|1.35|9.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.82|1.35|0.0104
82543682|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.46|||||TWO_SIDED|95.8|-1.93|3.06||||||ANTI-7F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||3.06|-1.93|
82462735|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|6.66||||0.0004|TWO_SIDED|95.0|2.34|18.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.94|2.34|0.0004
82462736|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.91||||0.856|TWO_SIDED|95.0|0.34|2.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.45|0.34|0.8560
82462737|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.6||||0.3319|TWO_SIDED|95.0|0.62|4.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.17|0.62|0.3319
82462738|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0747|TWO_SIDED|95.0|0.92|5.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.95|0.92|0.0747
82462739|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8986|TWO_SIDED|95.0|0.41|2.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.76|0.41|0.8986
82462740|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9712|TWO_SIDED|95.0|0.38|2.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.53|0.38|0.9712
82462741|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|3.31||||0.091|TWO_SIDED|95.0|1.22|8.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.98|1.22|0.0910
82462742|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|5.68||||0.0011|TWO_SIDED|95.0|2.01|16.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||16.06|2.01|0.0011
82462743|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8466|TWO_SIDED|95.0|0.35|2.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.39|0.35|0.8466
82462744|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1409|TWO_SIDED|95.0|0.79|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.21|0.79|0.1409
82462745|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1212|TWO_SIDED|95.0|0.82|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.25|0.82|0.1212
82578668|NCT00798434|164866654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.515||||0.1113|TWO_SIDED|95.0|0.909|2.528||Logistic regression determined the odds of improvement versus no improvement in dryness, where improvement was defined as dry at both weeks 8 and 12 relative to baseline incontinence.|Regression, Logistic|Covariates were treatment, study center, dosing time, and age category||LOCF||2.528|0.909|0.1113
82462746|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.48||||0.4269|TWO_SIDED|95.0|0.56|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.88|0.56|0.4269
82462747|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5454|TWO_SIDED|95.0|0.52|3.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.49|0.52|0.5454
82462748|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0595|TWO_SIDED|95.0|0.96|7.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.15|0.96|0.0595
82462749|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0041|TWO_SIDED|95.0|1.62|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.98|1.62|0.0041
82462750|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.77||||0.6121|TWO_SIDED|95.0|0.28|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.13|0.28|0.6121
82462751|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.8||||0.2329|TWO_SIDED|95.0|0.68|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.75|0.68|0.2329
82462752|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0891|TWO_SIDED|95.0|0.88|5.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.90|0.88|0.0891
82462753|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.55||||0.6857|TWO_SIDED|95.0|0.03|9.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.97|0.03|0.6857
82462754|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.56||||0.7291|TWO_SIDED|95.0|0.12|19.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.71|0.12|0.7291
82462755|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.82||||0.8951|TWO_SIDED|95.0|0.05|14.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||14.41|0.05|0.8951
82462756|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.66||||0.6865|TWO_SIDED|95.0|0.14|19.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.74|0.14|0.6865
82462757|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.17||||0.9132|TWO_SIDED|95.0|0.07|20.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||20.24|0.07|0.9132
82462758|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.38||||0.7982|TWO_SIDED|95.0|0.12|16.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.59|0.12|0.7982
82462759|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|1.17||||0.9029|TWO_SIDED|95.0|0.09|15.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||15.57|0.09|0.9029
82462760|NCT03192176|164625583|SUPERIORITY||Odds Ratio (OR)|0.69||||0.7971|TWO_SIDED|95.0|0.04|11.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||11.94|0.04|0.7971
82462761|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|0.67||||0.7899|TWO_SIDED|95.0|0.04|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.34|0.04|0.7899
82462762|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|0.86||||0.9186|TWO_SIDED|95.0|0.05|14.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.73|0.05|0.9186
82462763|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.19||||0.5303|TWO_SIDED|95.0|0.19|25.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||25.46|0.19|0.5303
82462764|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|5.85||||0.1149|TWO_SIDED|95.0|0.65|52.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||52.66|0.65|0.1149
82462765|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|9.07||||0.0442|TWO_SIDED|95.0|1.06|77.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||77.71|1.06|0.0442
82462766|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.53||||0.2851|TWO_SIDED|95.0|0.35|35.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||35.68|0.35|0.2851
82561904|NCT01262456|164832974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.95||||0.0064|TWO_SIDED|95.0|11.03|66.88||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline time to first nocturnal void using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||66.88|11.03|0.0064
82543683|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.02|||||TWO_SIDED|95.8|-2.72|2.64||||||ANTI-9V serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.64|-2.72|
82543684|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|0.0|||||TWO_SIDED|95.8|-1.94|1.9||||||ANTI-14 serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||1.90|-1.94|
82561905|NCT01262456|164832975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-86.17||||0.0034|TWO_SIDED|95.0|-143.69|-28.64||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||-28.64|-143.69|0.0034
82561906|NCT01262456|164832975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-77.8||||0.0086|TWO_SIDED|95.0|-135.7|-19.89||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline nocturnal urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||-19.89|-135.70|0.0086
82462767|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.22||||0.2073|TWO_SIDED|95.0|0.45|39.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||39.48|0.45|0.2073
82462768|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.68||||0.27|TWO_SIDED|95.0|0.36|37.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||37.16|0.36|0.2700
82462769|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.41||||0.2982|TWO_SIDED|95.0|0.34|34.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||34.27|0.34|0.2982
82462770|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|12.3||||0.0204|TWO_SIDED|95.0|1.47|102.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||102.6|1.47|0.0204
82462771|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|11.1||||0.027|TWO_SIDED|95.0|1.31|93.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||93.74|1.31|0.0270
82462772|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.22||||0.5224|TWO_SIDED|95.0|0.19|25.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.68|0.19|0.5224
82462773|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.92||||0.1635|TWO_SIDED|95.0|0.52|46.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||46.35|0.52|0.1635
82462774|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|10.97||||0.0266|TWO_SIDED|95.0|1.32|91.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||91.15|1.32|0.0266
82462775|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.69||||0.4299|TWO_SIDED|95.0|0.23|31.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||31.21|0.23|0.4299
82462776|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.87||||0.1667|TWO_SIDED|95.0|0.52|45.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||45.84|0.52|0.1667
82462777|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|8.11||||0.0592|TWO_SIDED|95.0|0.92|71.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||71.35|0.92|0.0592
82462778|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|18.28||||0.007|TWO_SIDED|95.0|2.21|151.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||151.2|2.21|0.0070
82462779|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.79||||0.2594|TWO_SIDED|95.0|0.37|38.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||38.32|0.37|0.2594
82462780|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|8.14||||0.0589|TWO_SIDED|95.0|0.92|71.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||71.67|0.92|0.0589
82462781|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|10.08||||0.0338|TWO_SIDED|95.0|1.19|85.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||85.20|1.19|0.0338
82462782|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7756|TWO_SIDED|95.0|0.12|4.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.88|0.12|0.7756
82462783|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9246|TWO_SIDED|95.0|0.2|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.74|0.20|0.9246
82462784|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0177|TWO_SIDED|95.0|1.34|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.93|1.34|0.0177
82462785|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|5.38||||0.0178|TWO_SIDED|95.0|1.34|21.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||21.65|1.34|0.0178
82462786|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.17||||0.8564|TWO_SIDED|95.0|0.22|6.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.20|0.22|0.8564
82578669|NCT00798434|164866655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.11||0.023|TWO_SIDED|95.0|-0.47|-0.04|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of pads per 24 hours||Incontinence pads at Week 12 LOCF||-0.04|-0.47|0.0230
82578670|NCT00798434|164866655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0909|TWO_SIDED|95.0|-0.12|0.01|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of creams per 24 hours||Creams at Week 12 LOCF||0.01|-0.12|0.0909
82462787|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.52||||0.2202|TWO_SIDED|95.0|0.58|11.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.00|0.58|0.2202
82462788|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.37||||0.2498|TWO_SIDED|95.0|0.55|10.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.25|0.55|0.2498
82462789|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|8.22||||0.0576|TWO_SIDED|95.0|0.93|72.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||72.29|0.93|0.0576
82462790|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.34||||0.3065|TWO_SIDED|95.0|0.33|33.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||33.59|0.33|0.3065
82462791|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|19.9||||0.0056|TWO_SIDED|95.0|2.4|165.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||165.1|2.40|0.0056
82462792|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|25.05||||0.0027|TWO_SIDED|95.0|3.05|205.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||205.5|3.05|0.0027
82462793|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.61||||0.2762|TWO_SIDED|95.0|0.36|36.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||36.51|0.36|0.2762
82462794|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|6.93||||0.0851|TWO_SIDED|95.0|0.77|62.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||62.69|0.77|0.0851
82543685|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.5|||||TWO_SIDED|95.8|-3.72|2.52||||||ANTI-18C serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.52|-3.72|
82543686|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|-0.98|||||TWO_SIDED|95.8|-4.38|2.1||||||ANTI-19F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||2.10|-4.38|
82543687|NCT01616459|164788004|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|2.5|||||TWO_SIDED|95.8|-5.07|10.06||||||ANTI-23F serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A and 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \< 10 % for at least 10 out of 12 vaccine pneumococcal serotypes.||10.06|-5.07|
82543688|NCT01616459|164788005|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|11.22|||||TWO_SIDED|95.8|7.22|16.49||||||ANTI-6A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \<10% for at least 10 out of 12 vaccine pneumococcal serotypes.||16.49|7.22|
82543689|NCT01616459|164788005|NON_INFERIORITY_OR_EQUIVALENCE|Objectives for 12-valent formulation were to be assessed sequentially after demonstration of objectives for 11-valent formulation. 2-sided 95.8% Confidence Interval (CI) adjusted 1-sided (alpha =2.08%) of the difference between groups in terms of percentage of subjects. CI for difference in proportion: Proc StatXact was used to derive the standardized asymptotic CI for the group difference in proportions \[Newcombe,1998\]. The standardized asymptotic method used within GSK Biologicals is method 6.|Difference in percentage|3.75|||||TWO_SIDED|95.8|1.03|7.57||||||ANTI-19A serotype test: To demonstrate that 12Pn co-administered with Infanrix hexa™1 month post-dose 3 was non-inferior for at least 10 out of 12 serotypes to Prevnar13 (for 6A \& 19A) or Synflorix™ (for 1, 4, 5, 6B, 7F, 9V, 14, 18C, 19F and 23F) in terms of % of subjects with antibody concentrations ≥ 0.2 μg/mL. Criteria: UL of 2-sided 95.8 % CI of the difference between (Prevnar13 minus 12Pn) and (Synflorix minus 12Pn) groups \<10% for at least 10 out of 12 vaccine pneumococcal serotypes.||7.57|1.03|
82543690|NCT03394885|164788026|OTHER||Exact Binomial Confidence Interval|83.0|||||TWO_SIDED|95.0|66.0|100.0||||||||100|66|
82543691|NCT00801983|164788039|SUPERIORITY_OR_OTHER||||||>|0.05|||||||GEE|||Subjects were compared across keyboard types - The percentage of subjects with MSD when using the alternative keyboard were compared to the % of subjects with MSD when they were using the typical keyboard||||>.05
82561907|NCT01262456|164832976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.31||||0.4126|TWO_SIDED|95.0|-153.94|63.32||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||63.32|-153.94|0.4126
82561908|NCT01262456|164832976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.79||||0.7353|TWO_SIDED|95.0|-127.99|90.41||A priori threshold for significance was p\<=0.05.|ANCOVA|ANCOVA of change from baseline adjusted for age (\<65, \>=65) and baseline 24-hour urine volume using last observation carried forward.||The active treatment groups were compared to placebo using a step-down approach from highest dose (75 µg) to lowest dose (50 µg).||90.41|-127.99|0.7353
82578671|NCT00798434|164866655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.2039|TWO_SIDED|95.0|-0.08|0.02|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline number of powders per 24 hours||Powder at Week 12 LOCF||0.02|-0.08|0.2039
82462795|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|17.02||||0.0081|TWO_SIDED|95.0|2.09|138.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||138.7|2.09|0.0081
82462796|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|6.37||||0.0995|TWO_SIDED|95.0|0.7|57.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||57.62|0.70|0.0995
82462797|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|5.76||||0.1184|TWO_SIDED|95.0|0.64|51.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||51.80|0.64|0.1184
82462798|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|26.54||||0.0023|TWO_SIDED|95.0|3.23|218.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||218.3|3.23|0.0023
82462799|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|19.09||||0.0062|TWO_SIDED|95.0|2.31|157.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||157.9|2.31|0.0062
82462800|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|7.49||||0.0695|TWO_SIDED|95.0|0.85|65.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||65.87|0.85|0.0695
82462801|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|8.64||||0.052|TWO_SIDED|95.0|0.98|75.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||75.98|0.98|0.0520
82462802|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|22.3||||0.0036|TWO_SIDED|95.0|2.75|180.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||180.6|2.75|0.0036
82561909|NCT00257894|164832981|SUPERIORITY_OR_OTHER|||||||0.57||||||Effect size close to zero (eta squared of .01)|ANOVA|Interaction effect term from group by time ANOVA||||||.57
82561910|NCT00257894|164832982|SUPERIORITY_OR_OTHER|||||||0.6||||||Effect size about zero (eta squared = .01)|ANOVA|Interaction term from a group by time ANOVA||||||.60
82578672|NCT00798434|164866656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.096|||<|0.0001|TWO_SIDED|95.0|2.181|4.395|||Regression, Logistic|Covariates were treatment, study center, dosing time, and age category||Week 12 LOCF||4.395|2.181|<0.0001
82578673|NCT00798434|164866659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.506|||<|0.0001|TWO_SIDED|95.0|1.767|3.556||Logistic regression determined the odds of improvement versus no improvement in PPBC score, where improvement was defined as a negative change from baseline.|Regression, Logistic|Covariates were treatment, study center, dosing time, age category, and baseline PPBC category||Week 12 LOCF||3.556|1.767|<0.0001
82462803|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0676|TWO_SIDED|95.0|0.89|24.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||24.23|0.89|0.0676
82462804|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.14||||0.0903|TWO_SIDED|95.0|0.8|21.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||21.38|0.80|0.0903
82462805|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|15.46||||0.0007|TWO_SIDED|95.0|3.18|75.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||75.14|3.18|0.0007
82462806|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|10.94||||0.0032|TWO_SIDED|95.0|2.22|53.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.77|2.22|0.0032
82462807|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.04||||0.2031|TWO_SIDED|95.0|0.55|16.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||16.85|0.55|0.2031
82462808|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.13||||0.0972|TWO_SIDED|95.0|0.77|22.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||22.10|0.77|0.0972
82561911|NCT00257894|164832983|SUPERIORITY_OR_OTHER|||||||0.79||||||Effect size (eta squared) = 0|ANOVA|Interaction term of a group by time ANOVA||||||.79
82561912|NCT00257894|164832984|SUPERIORITY_OR_OTHER|||||||0.21||||||For test of drug by time interaction effect|ANOVA|Medium effect size, eta squared = .061||Analysis of variance, group by time (Day 0 vs. Day 10).||||.21
82543692|NCT03149991|164788042|SUPERIORITY|The unstructured covariance matrix structure was used to model nesting of observations within persons. Non-significant site interaction effects were removed one at a time. Least squares means estimates of the linear fixed effects model on SDQ change scores, adjusting for baseline covariates was used to test the primary hypothesis via contrast statements.|Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.15||0.46|TWO_SIDED||||||Mixed Models Analysis|Because sample sizes per site varied substantially, we used the Kenward-Roger degrees of freedom method.|degrees of freedom = 44.5; t=-0.74|SDQ total was primary outcome \& Day 14 primary endpoint. Change from baseline was calculated for each person at each follow-up. Change score was the dependent variable in a linear fixed effects model, where a (-)number = less severe depression. For group comparison, treatment was coded as 1 \& placebo as 0, thus a (-)value means treatment doing better. Fixed effects: group(brex v placebo), day(1-28), site(6 sites). All 2-\& 3-way interactions were included, as well as a priori defined covariates.||||0.46
82543693|NCT03149991|164788042|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.11||0.04|TWO_SIDED||||||Mixed Models Analysis||Degrees of freedom = 41.3; t=2.07.|Secondary Aim: To evaluate the short-term effect of brexpiprazole, as measured by the Symptoms of Depression Questionnaire (SDQ), on Day 2. We used the same model as in Aim 1 to test this hypothesis.||||0.04
82543694|NCT03149991|164788042|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.21||0.92|TWO_SIDED||||||Mixed Models Analysis||Degrees of freedom=38.2; t=0.10.|To evaluate the long-term effect of brexpiprazole as measured by the Symptoms of Depression Questionnaire (SDQ) on Day 28. The same model as was used in Aim 1 was used to test this hypothesis.||||0.92
82543695|NCT03149991|164788043|SUPERIORITY||Chi-squared test|0.51||||0.47|TWO_SIDED|||||This p-value was not adjusted, however there were adjustments when using a logistic regression in Statistical Analysis #2.|Chi-squared|||We used a Chi-squared test to assess differences between treatment and control in terms of percent of participants achieving a long-term sustained response, as measured by achieving a 50% or greater reduction on the MADRS on Day 28.||||0.47
82543696|NCT03149991|164788043|SUPERIORITY||Odds Ratio (OR)|1.83||||0.35|TWO_SIDED|95.0|0.52|6.44|||Regression, Logistic|Adjusted for a priori defined covariates also included in Aim 1.||Logistic regression was used to assess a difference in 50% reduction on the MADRS on Day 28 between groups.||6.44|0.52|0.35
82543697|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|1.59||0.04|TWO_SIDED|||||Because tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||degrees of freedom = 41.0, t=2.13.|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 2.||||0.04
82543698|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|2.94||0.73|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 44.2, t=-0.35|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 14.||||0.73
82543699|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-2.86|STANDARD_ERROR_OF_MEAN|3.16||0.37|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df =44.8, t=-0.91|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the MADRS change scores, reporting here information for Day 28.||||0.37
82543700|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|0.85||0.06|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||degrees of freedom = 40.3, t=1.94.|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 2.||||0.06
82543701|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.06||0.83|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 44.2, t=-0.22|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 14.||||0.83
82578674|NCT00798434|164866663|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.916||||0.0009|TWO_SIDED|95.0|1.305|2.811||Logistic regression determined the odds of improvement versus no improvement in PPBC score, where improvement was defined as an increase of 1 or more points in difference of scores relative to baseline.|Regression, Logistic|Covariates were treatment, study center, dosing time, age category, and baseline PPUS category||LOCF||2.811|1.305|0.0009
82578675|NCT00798434|164866665|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.12|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|-9.65|-4.59|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline symptom/bother score||Week 12 LOCF||-4.59|-9.65|<0.0001
82462809|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|11.04||||0.0027|TWO_SIDED|95.0|2.3|53.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.06|2.30|0.0027
82462810|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.06||||0.1306|TWO_SIDED|95.0|0.72|13.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.02|0.72|0.1306
82462811|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.83||||0.0248|TWO_SIDED|95.0|1.22|19.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||19.10|1.22|0.0248
82462812|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|7.14||||0.0054|TWO_SIDED|95.0|1.79|28.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||28.53|1.79|0.0054
82462813|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|10.01||||0.001|TWO_SIDED|95.0|2.55|39.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||39.36|2.55|0.0010
82462814|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.21||||0.8271|TWO_SIDED|95.0|0.23|6.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.45|0.23|0.8271
82462815|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.27||||0.1089|TWO_SIDED|95.0|0.77|13.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.95|0.77|0.1089
82462816|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|5.58||||0.0138|TWO_SIDED|95.0|1.42|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||21.93|1.42|0.0138
82462817|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1987|TWO_SIDED|95.0|0.63|9.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.15|0.63|0.1987
82561913|NCT02326220|164832987|SUPERIORITY||H-L estimate of median difference|0.75|||<|0.0001|TWO_SIDED|95.0|0.667|0.833||Threshold for significance at 0.05 level.|ANCOVA||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|"Analysis was performed using the ranked analysis of covariance (ANCOVA) model with baseline frequency of the apheresis procedure (QW or Q2W) and Lp(a) levels (normal or elevated) as fixed effect and the baseline LDL-C level as a covariate. Hodges-Lehmann estimator of median difference (median of all pairwise differences; CI is Moses distribution free CI.~p-value is derived from the rank-based ANCOVA model. The model includes the baseline LDL-C value and stratification factors per IVRS."||0.833|0.667|< 0.0001
82578676|NCT00798434|164866666|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.48|STANDARD_ERROR_OF_MEAN|1.14|<|0.0001|TWO_SIDED|95.0|2.24|6.73|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total health-related quality of life (HRQL) score.||Week 12 LOCF||6.73|2.24|<0.0001
82578677|NCT00798434|164866667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|1.44||0.0002|TWO_SIDED|95.0|2.57|8.22|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Coping Subscale at Week 12; LOCF||8.22|2.57|0.0002
82462818|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3984|TWO_SIDED|95.0|0.46|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.02|0.46|0.3984
82462819|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0402|TWO_SIDED|95.0|1.06|14.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||14.45|1.06|0.0402
82462820|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|8.05||||0.001|TWO_SIDED|95.0|2.32|27.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||27.95|2.32|0.0010
82462821|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8287|TWO_SIDED|95.0|0.17|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.08|0.17|0.8287
82462822|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.93||||0.1083|TWO_SIDED|95.0|0.79|10.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.92|0.79|0.1083
82462823|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0043|TWO_SIDED|95.0|1.76|20.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||20.66|1.76|0.0043
82543702|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|1.2||0.52|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df =44.0, t=-0.64|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the HAMD6 change scores, reporting here information for Day 28.||||0.52
82543703|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.19||0.11|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df = 31.0, t=1.67|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 2.||||0.11
82543704|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.36||0.98|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=41.1, t=-0.03|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 14.||||0.98
82543705|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest.|Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.41||0.45|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=46.0, t=-0.76|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-S change scores, reporting here information for Day 28.||||0.45
82543706|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.29||0.02|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=49.2, t=2.39;|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 2.||||0.02
82543707|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|0.34||0.07|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=56.8, t=1.85|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 14.||||0.07
82543708|NCT03149991|164788044|SUPERIORITY|We used contrast tests comparing brexpiprazole and placebo on the a priori specified days of interest. This model contains an interaction effect with site, because the SITE\*DRUG effect was significant (p=0.03).|Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.41||0.37|TWO_SIDED|||||Because these tests were conducted for secondary outcomes, p-values were not corrected for multiple testing.|Mixed Models Analysis||df=50.5, t=0.91|The same model building approach as used for the primary outcome variable was used for the secondary outcome variables. As per the primary outcome variable, the change scores (i.e., compared to baseline) were the dependent variables of interest. For each secondary outcome variable, non-significant site interaction effects were removed one at a time. This analysis is for the CGI-I change scores, reporting here information for Day 28.||||0.37
82543709|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in terms of occurrence of abnormal ECGs.|Chi-squared test|0.28||||0.6|TWO_SIDED||||||Chi-squared|||This analysis was to assess group differences (drug vs. placebo) in terms of number of abnormal ECGs out of total ECGs assessed.||||0.60
82578678|NCT00798434|164866667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.39|STANDARD_ERROR_OF_MEAN|1.29|<|0.0001|TWO_SIDED|95.0|2.84|7.93|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Concern Subscale at Week 12; LOCF||7.93|2.84|<0.0001
82578679|NCT00798434|164866667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|STANDARD_ERROR_OF_MEAN|1.38||0.0032|TWO_SIDED|95.0|1.38|6.81|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Sleep Subscale at Week 12; LOCF||6.81|1.38|0.0032
82578680|NCT00798434|164866667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.51|STANDARD_ERROR_OF_MEAN|1.03||0.0152|TWO_SIDED|95.0|0.49|4.53|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline HRQL subscale score||Social Subscale at Week 12; LOCF||4.53|0.49|0.0152
82543710|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at baseline.|Chi-squared test|0.94||||0.33|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at baseline.||||0.33
82543711|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 4.|Chi-squared test|0.0||||1|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 4.||||1.00
82543712|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 5.|Chi-squared test|0.08||||0.78|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 5.||||0.78
82543713|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 6.|Chi-squared test|0.02||||0.9|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 6.||||0.90
82462824|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.23||||0.1126|TWO_SIDED|95.0|0.76|13.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.79|0.76|0.1126
82462825|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.9||||0.1479|TWO_SIDED|95.0|0.69|12.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.30|0.69|0.1479
82462826|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|10.49||||0.001|TWO_SIDED|95.0|2.59|42.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||42.46|2.59|0.0010
82462827|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|13.01||||0.0002|TWO_SIDED|95.0|3.31|51.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||51.14|3.31|0.0002
82543714|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 7.|Chi-squared test|0.63||||0.43|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 7.||||0.43
82543715|NCT03149991|164788048|EQUIVALENCE|The hypothesis was that there would be no group differences in number/percentage of people with an abnormal ECG at Visit 9.|Chi-squared test|0.09||||0.76|TWO_SIDED||||||Chi-squared|||This analysis was to assess for group differences (drug vs. placebo) in number/percentage of people with an abnormal ECG at Visit 9.||||0.76
82543716|NCT03149991|164788050|EQUIVALENCE|The hypothesis was that there would be no group differences in number of participants reporting adverse events.|Chi-squared test|0.009||||0.92|TWO_SIDED||||||Chi-squared|||This analysis assessed group differences (drug vs. placebo) in terms of number of participants reporting adverse events.||||0.92
82543717|NCT03149991|164788051|EQUIVALENCE|The hypothesis was that there would be no difference between the groups in terms of mean number of adverse events per person, among those who reported any adverse events.|Mean Difference (Final Values)|0.24||||0.81|TWO_SIDED||||||t-test, 2 sided|||This analysis assessed group differences (drug vs. placebo) in terms of mean number of adverse events per person, among those who reported any adverse events.||||0.81
82543718|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared test|0.43||||0.51|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) throughout the trial.||||0.51
82543719|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|2.85||||0.09|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) at Screening.||||0.09
82543720|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.004||||0.95|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) at Baseline.||||0.95
82578681|NCT00798434|164866668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.537|||<|0.001|TWO_SIDED|95.0|2.281|5.484||Analysis determined the odds of responding on the OAB-S scale (satisfaction with OAB control) for Fesoterodine versus placebo, where a responder was defined as a response of 'satisfied' or better on all 7 questions at week 12.|Regression, Logistic|Covariates were treatment, study center, dosing time and age category||LOCF||5.484|2.281|<0.001
82462828|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1483|TWO_SIDED|95.0|0.68|12.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.41|0.68|0.1483
82462829|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|4.03||||0.0557|TWO_SIDED|95.0|0.97|16.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||16.84|0.97|0.0557
82462830|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|6.47||||0.0072|TWO_SIDED|95.0|1.66|25.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||25.28|1.66|0.0072
82543721|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.005||||0.94|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 1.||||0.94
82543722|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|1.97||||0.16|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 2.||||0.16
82543723|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.44||||0.51|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 5.||||0.51
82543724|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.94||||0.33|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 8.||||0.33
82543725|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.003||||0.96|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 11.||||0.96
82543726|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.5||||0.48|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 14.||||0.48
82543727|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 17.||||0.41
82543728|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.17||||0.68|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 21.||||0.68
82543729|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 23.||||0.41
82543730|NCT03149991|164788052|EQUIVALENCE|The hypothesis was that there would be no group differences in occurrence of suicidal ideation.|Chi-squared|0.67||||0.41|TWO_SIDED||||||Chi-squared|||This analysis was to compare by group (drug vs. placebo) the occurrence of suicidal ideation (endorsement of item 1 on the CHRT) on Day 28.||||0.41
82543731|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-36.278|||<|0.0001|TWO_SIDED|95.0|-42.203|-30.352|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||-30.352|-42.203|<0.0001
82543732|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-32.739|||<|0.0001|TWO_SIDED|95.0|-38.418|-27.06|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||-27.060|-38.418|<0.0001
82543733|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-25.265|||<|0.0001|TWO_SIDED|95.0|-31.081|-19.449|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||-19.449|-31.081|<0.0001
82543734|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.538||||0.1504|TWO_SIDED|95.0|-8.398|1.321|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||1.321|-8.398|0.1504
82543735|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.474||||0.0002|TWO_SIDED|95.0|-11.207|-3.741|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||-3.741|-11.207|0.0002
82543736|NCT01780298|164788146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.013|||<|0.0001|TWO_SIDED|95.0|-15.979|-6.046|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||-6.046|-15.979|<0.0001
82543737|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.611|||<|0.0001|TWO_SIDED|95.0|-32.249|-22.973|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||-22.973|-32.249|<0.0001
82543738|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-24.553|||<|0.0001|TWO_SIDED|95.0|-29.501|-19.604|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||-19.604|-29.501|<0.0001
82543739|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.107|||<|0.0001|TWO_SIDED|95.0|-19.043|-9.17|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||-9.170|-19.043|<0.0001
82543740|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.058||||0.0983|TWO_SIDED|95.0|-6.702|0.585|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.585|-6.702|0.0983
82543741|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.446|||<|0.0001|TWO_SIDED|95.0|-13.845|-7.047|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||-7.047|-13.845|<0.0001
82543742|NCT01780298|164788147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.504|||<|0.0001|TWO_SIDED|95.0|-17.302|-9.707|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||-9.707|-17.302|<0.0001
82543743|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.448|||<|0.0001|TWO_SIDED|95.0|28.374|52.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||52.521|28.374|<0.0001
82543744|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.538|||<|0.0001|TWO_SIDED|95.0|14.89|38.185|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||38.185|14.890|<0.0001
82543745|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.661||||0.0018|TWO_SIDED|95.0|7.997|33.324|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||33.324|7.997|0.0018
82543746|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.91||||0.0015|TWO_SIDED|95.0|5.534|22.286|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||22.286|5.534|0.0015
82543747|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.877||||0.1847|TWO_SIDED|95.0|-2.886|14.639|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||14.639|-2.886|0.1847
82543748|NCT01780298|164788148|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.787||||0.0003|TWO_SIDED|95.0|9.536|30.038|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||30.038|9.536|0.0003
82578682|NCT00798434|164866669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.881|||<|0.0001|TWO_SIDED|95.0|2.045|4.058||Analysis determined the odds of responding on the OAB-S scale (OAB medication expectation) for Fesoterodine versus placebo, where a responder was defined as a response of 'satisfied' or better on all 7 questions at week 12.|Regression, Logistic|Covariates were treatment, study center, dosing time and age category||LOCF||4.058|2.045|<0.0001
82578683|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.18|STANDARD_ERROR_OF_MEAN|4.12||0.3163|TWO_SIDED|95.0|-4.13|12.49|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||General Health Perception; LOCF||12.49|-4.13|0.3163
82543749|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2979.725||||0.1981|TWO_SIDED|95.0|-7560.258|1600.808|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1600.808|-7560.258|0.1981
82543750|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2317.131||||0.1956|TWO_SIDED|95.0|-1224.786|5859.048|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||5859.048|-1224.786|0.1956
82543751|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2396.589||||0.2077|TWO_SIDED|95.0|-1367.692|6160.87|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||6160.870|-1367.692|0.2077
82543752|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5296.856||||0.1154|TWO_SIDED|95.0|-11930.19|1336.478|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||1336.478|-11930.190|0.1154
82543753|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-79.458||||0.8095|TWO_SIDED|95.0|-736.151|577.234|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||577.234|-736.151|0.8095
82543754|NCT01780298|164788149|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5376.314||||0.1113|TWO_SIDED|95.0|-12030.714|1278.085|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||1278.085|-12030.714|0.1113
82578684|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.29|STANDARD_ERROR_OF_MEAN|8.63||0.4698|TWO_SIDED|95.0|-23.7|11.11|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Incontinence Impact; LOCF||11.11|-23.70|0.4698
82543755|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.015|||<|0.0001|TWO_SIDED|95.0|4.51|7.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||7.521|4.510|<0.0001
82543756|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.845|||<|0.0001|TWO_SIDED|95.0|3.379|6.31|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||6.310|3.379|<0.0001
82578685|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|STANDARD_ERROR_OF_MEAN|9.28||0.5321|TWO_SIDED|95.0|-24.58|12.88|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Role Limitations; LOCF||12.88|-24.58|0.5321
82462831|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9715|TWO_SIDED|95.0|0.32|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.24|0.32|0.9715
82462832|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.49||||0.472|TWO_SIDED|95.0|0.5|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.39|0.50|0.4720
82462833|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1262|TWO_SIDED|95.0|0.79|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.05|0.79|0.1262
82462834|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0396|TWO_SIDED|95.0|1.05|8.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.92|1.05|0.0396
82462835|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|0.66||||0.5137|TWO_SIDED|95.0|0.19|2.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.29|0.19|0.5137
82462836|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|2.25||||0.137|TWO_SIDED|95.0|0.77|6.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.58|0.77|0.1370
82462837|NCT03192176|164625584|SUPERIORITY||Odds Ratio (OR)|1.39||||0.5526|TWO_SIDED|95.0|0.47|4.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.07|0.47|0.5526
82462838|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.75||||0.0012|TWO_SIDED|95.0|1.99|16.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.62|1.99|0.0012
82543757|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.454|||<|0.0001|TWO_SIDED|95.0|1.923|4.984|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||4.984|1.923|<0.0001
82543758|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.171||||0.0418|TWO_SIDED|95.0|0.045|2.296|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||2.296|0.045|0.0418
82462839|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|8.86|||<|0.0001|TWO_SIDED|95.0|3.06|25.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.68|3.06|<0.0001
82462840|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|11.55|||<|0.0001|TWO_SIDED|95.0|3.94|33.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.85|3.94|<0.0001
82462841|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|13.55|||<|0.0001|TWO_SIDED|95.0|4.55|40.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||40.38|4.55|<0.0001
82462842|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0555|TWO_SIDED|95.0|0.98|8.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.61|0.98|0.0555
82462843|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|7.98||||0.0001|TWO_SIDED|95.0|2.75|23.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.18|2.75|0.0001
82462844|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|8.07||||0.0001|TWO_SIDED|95.0|2.81|23.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.19|2.81|0.0001
82462845|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.55||||0.0012|TWO_SIDED|95.0|1.82|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.39|1.82|0.0012
82462846|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.25||||0.0005|TWO_SIDED|95.0|2.06|13.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.43|2.06|0.0005
82543759|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.391||||0.0357|TWO_SIDED|95.0|0.096|2.686|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||2.686|0.096|0.0357
82543760|NCT01780298|164788150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.562||||0.0001|TWO_SIDED|95.0|1.303|3.82|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||3.820|1.303|0.0001
82543761|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|39.633|||<|0.0001|TWO_SIDED|95.0|33.964|45.302|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||45.302|33.964|<0.0001
82543762|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.792|||<|0.0001|TWO_SIDED|95.0|29.761|41.822|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||41.822|29.761|<0.0001
82543763|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.167|||<|0.0001|TWO_SIDED|95.0|23.445|34.888|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||34.888|23.445|<0.0001
82543764|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.842||||0.0418|TWO_SIDED|95.0|0.147|7.536|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||7.536|0.147|0.0418
82543765|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.625||||0.0084|TWO_SIDED|95.0|1.763|11.487|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||11.487|1.763|0.0084
82543766|NCT01780298|164788151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.467|||<|0.0001|TWO_SIDED|95.0|5.888|15.045|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||15.045|5.888|<0.0001
82543767|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.929|||<|0.0001|TWO_SIDED|95.0|0.654|1.203|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1.203|0.654|<0.0001
82543768|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.875|||<|0.0001|TWO_SIDED|95.0|0.609|1.141|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||1.141|0.609|<0.0001
82543769|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.649|||<|0.0001|TWO_SIDED|95.0|0.386|0.912|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||0.912|0.386|<0.0001
82578686|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|8.39||0.6523|TWO_SIDED|95.0|-20.74|13.12|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Physical Limitations; LOCF||13.12|-20.74|0.6523
82543770|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.069||||0.3985|TWO_SIDED|95.0|-0.093|0.231|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.231|-0.093|0.3985
82543771|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22||||0.0267|TWO_SIDED|95.0|0.026|0.414|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.414|0.026|0.0267
82543772|NCT01780298|164788152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.305||||0.0036|TWO_SIDED|95.0|0.104|0.506|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.506|0.104|0.0036
82543773|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.564|||<|0.0001|TWO_SIDED|95.0|1.179|1.949|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||1.949|1.179|<0.0001
82543774|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.291|||<|0.0001|TWO_SIDED|95.0|0.924|1.658|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||1.658|0.924|<0.0001
82543775|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.073|||<|0.0001|TWO_SIDED|95.0|0.724|1.421|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||1.421|0.724|<0.0001
82543776|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.276||||0.0282|TWO_SIDED|95.0|0.031|0.521|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.521|0.031|0.0282
82543777|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.207||||0.1223|TWO_SIDED|95.0|-0.057|0.471|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.471|-0.057|0.1223
82543778|NCT01780298|164788153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.492|||<|0.0001|TWO_SIDED|95.0|0.273|0.71|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.710|0.273|<0.0001
82543779|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.372|||<|0.0001|TWO_SIDED|95.0|0.269|0.478|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 4 (Never smokers)|||0.478|0.269|<0.0001
82543780|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.256|||<|0.0001|TWO_SIDED|95.0|0.158|0.354|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 3 (Ex-smokers)|||0.354|0.158|<0.0001
82543781|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.136||||0.0199|TWO_SIDED|95.0|0.022|0.249|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 1 (COPD) - Group 2 (Current cigarette smokers)|||0.249|0.022|0.0199
82543782|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.117||||0.0247|TWO_SIDED|95.0|0.015|0.218|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 3 (Ex-smokers) - Group 4 (Never smokers)|||0.218|0.015|0.0247
82543783|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.0204|TWO_SIDED|95.0|0.019|0.221|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 3 (Ex-smokers)|||0.221|0.019|0.0204
82543784|NCT01780298|164788154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.237|||<|0.0001|TWO_SIDED|95.0|0.127|0.347|||t-test, 2 sided|Pairwise comparisons obtained by 2-sided paired t-test (COPD subjects are paired to the non-COPD subjects by gender, age and ethnicity).|Difference Group 2 (Current cigarette smokers) - Group 4 (Never smokers)|||0.347|0.127|<0.0001
82543785|NCT02566902|164788176|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82543786|NCT02566902|164788177|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82543787|NCT02566902|164788178|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82543788|NCT02566902|164788179|SUPERIORITY|||||||0.96|||||||Chi-squared|||||||0.96
82543789|NCT02566902|164788180|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||||||0.99
82578687|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|6.8||0.6344|TWO_SIDED|95.0|-10.47|16.99|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Social Limitations; LOCF||16.99|-10.47|0.6344
82578688|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.11|STANDARD_ERROR_OF_MEAN|8.38||0.2013|TWO_SIDED|95.0|-28.71|6.49|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Personal Relationships; LOCF||6.49|-28.71|0.2013
82543790|NCT02566902|164788181|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82543791|NCT01164098|164788187|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|Using Natural Log Transformed Data||T-test of the natural logarithmic transformed data||||0.18
82543792|NCT01164098|164788188|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||T-test of Natural Log Transformed Data.||||0.49
82543793|NCT01164098|164788189|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||T-test||||0.37
82543794|NCT04425629|164788193|SUPERIORITY||LS Mean|-0.33|STANDARD_ERROR_OF_MEAN|0.1|=|0.0006|TWO_SIDED|95.0|-0.52|-0.14|||ANCOVA|||||-0.14|-0.52|= 0.0006
82578689|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.07|STANDARD_ERROR_OF_MEAN|6.88||0.3831|TWO_SIDED|95.0|-19.96|7.83|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Emotions; LOCF||7.83|-19.96|0.3831
82543795|NCT04425629|164788193|SUPERIORITY||LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.56|-0.19|||ANCOVA|||||-0.19|-0.56|< 0.0001
82543796|NCT04425629|164788194|SUPERIORITY||||||=|0.0024|||||||Cochran-Mantel-Haenszel|||||||= 0.0024
82543797|NCT04425629|164788195|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||< 0.0001
82543798|NCT04425629|164788201|SUPERIORITY||||||=|0.1903|||||||Mixed Models Analysis|||||||= 0.1903
82543799|NCT04425629|164788201|SUPERIORITY||||||=|0.8431|||||||Mixed Models Analysis|||||||= 0.8431
82543800|NCT04425629|164788257|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.06|16.12||||||||16.12|0.06|
82543801|NCT04425629|164788258|SUPERIORITY||Hazard Ratio (HR)|0.33|||||TWO_SIDED|95.0|0.03|3.13||||||||3.13|0.03|
82543802|NCT00232180|164788288|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.535|0.741||Using an adaptation of Haybittle-Peto stopping criterion adjusting for two interim analyses, p-value for final primary analysis will be compared to alpha=0.049. No adjustment in alpha will be made on parameters/endpoints other than primary endpoint.|Cox proportional hazard model|||Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, time from electrocardiogram Q wave to the end of the S wave corresponding to ventricle depolarization (QRS) and atrial fibrillation as covariates.||0.741|0.535|<0.0001
82543803|NCT00232180|164788290|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.647|||<|0.0001|TWO_SIDED|95.0|0.552|0.757||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.757|0.552|<0.0001
82578690|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.46|STANDARD_ERROR_OF_MEAN|6.82||0.5167|TWO_SIDED|95.0|-9.3|18.23|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Sleep/Energy; LOCF||18.23|-9.30|0.5167
82578691|NCT00798434|164866670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.19|STANDARD_ERROR_OF_MEAN|5.12||0.0532|TWO_SIDED|95.0|-20.53|0.15|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline total domain score||Severity of Urinary Symptoms; LOCF||0.15|-20.53|0.0532
82543804|NCT00232180|164788291|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.761||||0.0081|TWO_SIDED|95.0|0.622|0.932||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.932|0.622|0.0081
82543805|NCT00232180|164788292|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.757||||0.012|TWO_SIDED|95.0|0.609|0.941||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.941|0.609|0.0120
82543806|NCT00232180|164788293|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.768|||<|0.0001|TWO_SIDED|95.0|0.673|0.876||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.876|0.673|<0.0001
82543807|NCT00232180|164788294|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.576|||<|0.0001|TWO_SIDED|95.0|0.473|0.702||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.702|0.473|<0.0001
82543808|NCT00232180|164788295|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.751|||<|0.0001|TWO_SIDED|95.0|0.664|0.849||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.849|0.664|<0.0001
82543809|NCT00232180|164788296|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.577|||<|0.0001|TWO_SIDED|95.0|0.475|0.701||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.701|0.475|<0.0001
82543810|NCT00232180|164788297|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.694|||<|0.0001|TWO_SIDED|95.0|0.598|0.806||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.806|0.598|<0.0001
82578692|NCT00798434|164866671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0016|STANDARD_ERROR_OF_MEAN|0.0125||0.8959|TWO_SIDED|95.0|-0.0229|0.0262|||ANCOVA|Covariates were treatment, study center, dosing time, age category, and baseline single utility score||||0.0262|-0.0229|0.8959
82543811|NCT00232180|164788298|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.316||||0.2321|TWO_SIDED|95.0|0.839|2.064||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||2.064|0.839|0.2321
82578693|NCT00558792|164866722|SUPERIORITY_OR_OTHER|||||||0.0099||95.0|||||Chi-squared|||||||0.0099
82578694|NCT00558792|164866723|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82578695|NCT00558792|164866724|SUPERIORITY_OR_OTHER|||||||0.1212||95.0|||||Chi-squared|||||||0.1212
82578696|NCT00558792|164866726|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.0200
82578697|NCT00558792|164866727|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||ANOVA|||||||0.0044
82578698|NCT00558792|164866728|SUPERIORITY_OR_OTHER|||||||0.0371||95.0|||||ANOVA|||||||0.0371
82578699|NCT00558792|164866729|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|14.1||||0.2758|TWO_SIDED|95.0|-11.4|39.6||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||39.6|-11.4|0.2758
82578700|NCT00558792|164866729|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|12.3||||0.3102|TWO_SIDED|95.0|-11.1|35.6||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||35.6|-11.1|0.3102
82578701|NCT00558792|164866729|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|1.9||||0.8893|TWO_SIDED|95.0|-24.6|28.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||28.4|-24.6|0.8893
82578702|NCT00558792|164866730|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-1.7||||0.2511|TWO_SIDED|95.0|-4.7|1.3||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.3|-4.7|0.2511
82462847|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.62||||0.0003|TWO_SIDED|95.0|2.2|14.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.39|2.20|0.0003
82462848|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|8.42|||<|0.0001|TWO_SIDED|95.0|2.99|23.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||23.74|2.99|<0.0001
82462849|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0277|TWO_SIDED|95.0|1.12|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.70|1.12|0.0277
82462850|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0022|TWO_SIDED|95.0|1.66|10.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.32|1.66|0.0022
82462851|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0314|TWO_SIDED|95.0|1.26|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.41|1.26|0.0314
82462852|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0041|TWO_SIDED|95.0|1.54|9.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.97|1.54|0.0041
82462853|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.19||||0.0028|TWO_SIDED|95.0|1.64|10.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.74|1.64|0.0028
82462854|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.96||||0.0011|TWO_SIDED|95.0|1.9|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.98|1.90|0.0011
82462855|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|8.79||||0.0001|TWO_SIDED|95.0|2.86|26.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||26.99|2.86|0.0001
82462856|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.09||||0.0036|TWO_SIDED|95.0|1.59|10.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.57|1.59|0.0036
82462857|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.52||||0.0018|TWO_SIDED|95.0|1.75|11.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.67|1.75|0.0018
82462858|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0243|TWO_SIDED|95.0|1.14|6.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.68|1.14|0.0243
82462859|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.33||||0.077|TWO_SIDED|95.0|0.91|5.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.96|0.91|0.0770
82462860|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.61||||0.0451|TWO_SIDED|95.0|1.02|6.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.69|1.02|0.0451
82462861|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0165|TWO_SIDED|95.0|1.25|9.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.04|1.25|0.0165
82462862|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0037|TWO_SIDED|95.0|1.72|16.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||16.23|1.72|0.0037
82462863|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0812|TWO_SIDED|95.0|0.9|5.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.82|0.90|0.0812
82578703|NCT00558792|164866730|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|1.3||||0.4985|TWO_SIDED|95.0|-2.6|5.3||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||5.3|-2.6|0.4985
82462864|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.46||||0.0577|TWO_SIDED|95.0|0.97|6.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.22|0.97|0.0577
82462865|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0706|TWO_SIDED|95.0|0.93|5.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.85|0.93|0.0706
82462866|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0404|TWO_SIDED|95.0|1.04|7.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.00|1.04|0.0404
82462867|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0054|TWO_SIDED|95.0|1.54|11.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.99|1.54|0.0054
82462868|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0186|TWO_SIDED|95.0|1.22|9.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.27|1.22|0.0186
82462869|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|6.58||||0.0023|TWO_SIDED|95.0|1.96|22.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||22.14|1.96|0.0023
82462870|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.63||||0.0118|TWO_SIDED|95.0|1.33|9.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.93|1.33|0.0118
82462871|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.57||||0.002|TWO_SIDED|95.0|1.88|16.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.53|1.88|0.0020
82462872|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.71||||0.043|TWO_SIDED|95.0|1.03|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.14|1.03|0.0430
82462873|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.81||||0.2197|TWO_SIDED|95.0|0.7|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.66|0.70|0.2197
82462874|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1341|TWO_SIDED|95.0|0.8|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.42|0.80|0.1341
82462875|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0196|TWO_SIDED|95.0|1.23|11.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.05|1.23|0.0196
82543812|NCT00232180|164788299|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.789||||0.4213|TWO_SIDED|95.0|0.443|1.406||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.406|0.443|0.4213
82462876|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.79||||0.0121|TWO_SIDED|95.0|1.41|16.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.26|1.41|0.0121
82462877|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1511|TWO_SIDED|95.0|0.77|5.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.56|0.77|0.1511
82462878|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.94||||0.0068|TWO_SIDED|95.0|1.55|15.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.68|1.55|0.0068
82462879|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.49||||0.0741|TWO_SIDED|95.0|0.91|6.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.79|0.91|0.0741
82462880|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.7||||0.2772|TWO_SIDED|95.0|0.65|4.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.43|0.65|0.2772
82543813|NCT00232180|164788300|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.994||||0.9754|TWO_SIDED|95.0|0.694|1.424||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.424|0.694|0.9754
82543814|NCT00232180|164788301|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.2652|TWO_SIDED|95.0|0.485|1.22||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.220|0.485|0.2652
82543815|NCT00232180|164788302|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.971||||0.9537|TWO_SIDED|95.0|0.366|2.578||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||2.578|0.366|0.9537
82543816|NCT00232180|164788303|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.154||||0.8539|TWO_SIDED|95.0|0.251|5.312||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||5.312|0.251|0.8539
82543817|NCT00232180|164788304|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.585||||0.0175|TWO_SIDED|95.0|0.376|0.91||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||0.910|0.376|0.0175
82543818|NCT00232180|164788305|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.885||||0.6009|TWO_SIDED|95.0|0.559|1.4||Statistically significant if p-value \<0.01|Cox proportional hazard model|||The statistical analysis was only performed on the adjudicated endpoint data up to cut-off. Cox proportional hazard model includes treatment as the major factor, adjusting for age, estimated glomerular filtration rate, left ventricular ejection fraction, body mass index, hemoglobin, heart rate, systolic blood pressure, diabetes, history of hypertension, prior myocardial infarction, baseline left bundle branch block, QRS complex and atrial fibrillation as covariates.||1.400|0.559|0.6009
82543819|NCT02748317|164788306|OTHER|1 group t-test no comparison group|||||=|0.219||||||P-value is not adjusted|t-test, 2 sided|||||||=0.219
82543820|NCT00414544|164788308|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority was tested.|Mean Difference (Final Values)|-0.13|STANDARD_DEVIATION|0.6|||TWO_SIDED|90.0|-2.0|1.0|||Confidence interval|The 90% lower confidence bound of the difference between CosmetaLife and Restylane were computed.|The confidence interval is built around the mean difference of the two reporting groups.|The a priori hypothesis for statistical analysis was based on predetermined clinical relevance being set to a difference score between CosmetaLife and Control (Restylane) of -0.5. This clinical relevance was set to -0.5 because the observation scale used is not accurate below 0.5 differences. That is CosmetaLife needed to be greater than 0.5 less than Control (Restylane) in the treatment difference scores to be considered inferior.||1.0|-2.0|
82543821|NCT03740009|164788374|NON_INFERIORITY|For analyses the researchers used a paired T-test to compare baseline and post-treatment mean activation values across 3 regions of interest (ROIs): the caudate, putamen and nucleus accumbens.||||||0.53|||||||t-test, 2 sided|||\[Ho\]: TSEC has no meaningful effect on activity within key nodes of the frontostriate in response to reward.||||0.53
82543822|NCT03740009|164788375|NON_INFERIORITY|Analysis included MASQ-AD scores from all visits to characterize the change in scores from baseline to post-treatment.|GLM|-5.8|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|||||Mixed models of 3 week TSEC administration for MASQ-AD scores assessed at each study visit from baseline to post-treatment.|GLM||F value=13.26|\[Ho\] No change in depressive symptoms from baseline throughout 3 weeks of TSEC administration||||<0.001
82578704|NCT00558792|164866730|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-3.1||||0.0693|TWO_SIDED|95.0|-6.5|0.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||0.4|-6.5|0.0693
82578705|NCT00558792|164866731|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|-1.5||||0.9104|TWO_SIDED|95.0|-27.9|24.8||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||24.8|-27.9|0.9104
82578706|NCT00558792|164866731|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|-12.6||||0.2857|TWO_SIDED|95.0|-35.7|10.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||10.5|-35.7|0.2857
82578707|NCT00558792|164866731|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|11.1||||0.3664|TWO_SIDED|95.0|-13.3|35.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||35.5|-13.3|0.3664
82578708|NCT00558792|164866732|SUPERIORITY_OR_OTHER||Difference in Specifcity between Doses|-3.7||||0.1322|TWO_SIDED|95.0|-8.7|1.2||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.2|-8.7|0.1322
82462881|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0705|TWO_SIDED|95.0|0.92|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.02|0.92|0.0705
82462882|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.88||||0.022|TWO_SIDED|95.0|1.22|12.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.39|1.22|0.0220
82462883|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.33||||0.0196|TWO_SIDED|95.0|1.27|14.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.82|1.27|0.0196
82462884|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0433|TWO_SIDED|95.0|1.03|9.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.24|1.03|0.0433
82462885|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0355|TWO_SIDED|95.0|1.08|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.20|1.08|0.0355
82462886|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3238|TWO_SIDED|95.0|0.62|4.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.28|0.62|0.3238
82462887|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.68||||0.3208|TWO_SIDED|95.0|0.6|4.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.68|0.60|0.3208
82462888|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2281|TWO_SIDED|95.0|0.67|5.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.40|0.67|0.2281
82462889|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0566|TWO_SIDED|95.0|0.97|10.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.46|0.97|0.0566
82462890|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.39||||0.1491|TWO_SIDED|95.0|0.73|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.78|0.73|0.1491
82462891|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1477|TWO_SIDED|95.0|0.74|7.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.23|0.74|0.1477
82462892|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0532|TWO_SIDED|95.0|0.98|10.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.64|0.98|0.0532
82462893|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1616|TWO_SIDED|95.0|0.73|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.76|0.73|0.1616
82462894|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.5||||0.432|TWO_SIDED|95.0|0.55|4.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.11|0.55|0.4320
82462895|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.9||||0.2231|TWO_SIDED|95.0|0.68|5.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.35|0.68|0.2231
82462896|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.88||||0.0347|TWO_SIDED|95.0|1.1|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.64|1.10|0.0347
82462897|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.59||||0.0291|TWO_SIDED|95.0|1.17|18.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||18.07|1.17|0.0291
82543823|NCT03752151|164788378|SUPERIORITY||||||<|0.001|||||||McNemar|||The null hypothesis was that the probability of meeting the endpoint (Atrioventricular synchrony \>70%) was the same in MARVEL 2 Monitor Mode and MARVEL 2 Adaptive Mode. A sample size of 35 participants with a predominant rhythm of 3rd degree atrioventricular block and normal sinus function provided \>90% power at a type I error rate of 0.05 assuming the proportion of patients meeting the endpoint in one mode, but not the other exceeded 50% and 90% of these pairs favored the Adaptive mode.||||<0.001
82543824|NCT03752151|164788379|SUPERIORITY||proportion expressed as a percentage|100.0|||<|0.001|TWO_SIDED|95.0|95.2|100.0|||Exact binomial test|||The null hypothesis is that 87% or fewer participants will achieve the endpoint. The alternative hypothesis is that more than 87% of participants will achieve the endpoint. A sample size of 70 participants provides at least 90% power to test the null hypothesis assuming the true rate of meeting the endpoint in the population is 98% at a type I error rate of 2.5%.||100|95.2|<0.001
82543825|NCT03752151|164788380|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.002|TWO_SIDED|95.0|0.7|2.7|||t-test, 2 sided|Paired t-test since each participant had LVOT VTI measurements in MARVEL 2 Adaptive and Monitor modes||The null hypothesis is that the mean LVOT VTI during MARVEL 2 Adaptive mode equals the mean LVOT VTI during MARVEL 2 Monitor mode. A sample size of 35 participants with paired LVOT VTI measurements provides 89% power at a type I error rate of 5% to reject the null hypothesis assuming the true difference in LVOT VTI is 2.1 cm with a standard deviation of 3.8 cm.||2.7|0.7|0.002
82543826|NCT02528188|164788474|SUPERIORITY||Risk Difference (RD)|2.39||||0.0123|TWO_SIDED|95.0|0.58|4.68|||Exact methods for risk difference|||||4.68|0.58|0.0123
82543827|NCT02528188|164788474|SUPERIORITY||Risk Difference (RD)|5.61|||<|0.0001|TWO_SIDED|95.0|3.55|8.14|||Exact methods for risk difference|||||8.14|3.55|<0.0001
82543828|NCT02528188|164788475|SUPERIORITY||Rate Difference|23.5||||0.0012|TWO_SIDED|95.0|9.3|37.7|||Poisson model for rate difference|||||37.7|9.3|0.0012
82543829|NCT02528188|164788475|SUPERIORITY||Rate Difference|56.7|||<|0.0001|TWO_SIDED|95.0|38.4|74.9|||Poisson model for rate difference|||||74.9|38.4|<0.0001
82543830|NCT02528188|164788476|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.11||0.0148|TWO_SIDED|95.0|-0.46|-0.05||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.46|0.0148
82543831|NCT02528188|164788476|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.11||0.1597|TWO_SIDED|95.0|-0.36|0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.36|0.1597
82543832|NCT02528188|164788477|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.1||0.003|TWO_SIDED|95.0|-0.52|-0.11||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.11|-0.52|0.0030
82543833|NCT02528188|164788477|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.11||0.0691|TWO_SIDED|95.0|-0.4|0.02||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.40|0.0691
82543834|NCT02528188|164788478|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3431|TWO_SIDED|95.0|-0.11|0.04||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.11|0.3431
82578709|NCT00558792|164866732|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-1.3||||0.6381|TWO_SIDED|95.0|-6.9|4.2||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||4.2|-6.9|0.6381
82578710|NCT00558792|164866732|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-2.4||||0.3217|TWO_SIDED|95.0|-7.2|2.4||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||2.4|-7.2|0.3217
82462898|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2805|TWO_SIDED|95.0|0.61|5.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.38|0.61|0.2805
82462899|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0602|TWO_SIDED|95.0|0.95|10.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.11|0.95|0.0602
82462900|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5087|TWO_SIDED|95.0|0.51|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.88|0.51|0.5087
82462901|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1224|TWO_SIDED|95.0|0.8|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.38|0.80|0.1224
82462902|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.85||||0.228|TWO_SIDED|95.0|0.68|5.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.02|0.68|0.2280
82462903|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1835|TWO_SIDED|95.0|0.71|6.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.02|0.71|0.1835
82462904|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.85||||0.0107|TWO_SIDED|95.0|1.51|22.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||22.69|1.51|0.0107
82462905|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.94||||0.0576|TWO_SIDED|95.0|0.97|8.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.96|0.97|0.0576
82462906|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|9.68||||0.0047|TWO_SIDED|95.0|2.0|46.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||46.77|2.00|0.0047
82462907|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0569|TWO_SIDED|95.0|0.97|8.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.64|0.97|0.0569
82543835|NCT02528188|164788478|SUPERIORITY|A graphical testing procedure was applied to maintain Type I error. Tanezumab 5 mg versus NSAID was tested first and if all primary endpoints were found significant, then the testing was continued for Tanezumab 2.5 mg versus NSAID and the key secondary endpoint (\>=50% reduction from baseline in WOMAC Pain at Week 16). Primary endpoints were tested sequentially within a dose in order of WOMAC pain, WOMAC physical function, and PGA.|LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6332|TWO_SIDED|95.0|-0.09|0.06||Threshold for significance at 0.05 level.|ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.09|0.6332
82462908|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.35||||0.1078|TWO_SIDED|95.0|0.83|6.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.68|0.83|0.1078
82462909|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0772|TWO_SIDED|95.0|0.9|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.47|0.90|0.0772
82462910|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.36||||0.1311|TWO_SIDED|95.0|0.77|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.22|0.77|0.1311
82462911|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.64||||0.01255|TWO_SIDED|95.0|1.45|21.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||21.96|1.45|0.01255
82462912|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.97||||0.0128|TWO_SIDED|95.0|1.41|17.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||17.54|1.41|0.0128
82543836|NCT02528188|164788479|SUPERIORITY||Risk Difference (RD)|0.5||||0.4082|TWO_SIDED|95.0|-0.75|2.28|||Exact methods for risk difference|||||2.28|-0.75|0.4082
82543837|NCT02528188|164788479|SUPERIORITY||Risk Difference (RD)|1.7||||0.0238|TWO_SIDED|95.0|0.31|3.63|||Exact methods for risk difference|||||3.63|0.31|0.0238
82543838|NCT02528188|164788480|SUPERIORITY||Rate Difference|4.8||||0.2035|TWO_SIDED|95.0|-2.6|12.2|||Poisson model for rate difference|||||12.2|-2.6|0.2035
82462913|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|6.32||||0.0079|TWO_SIDED|95.0|1.62|24.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||24.63|1.62|0.0079
82462914|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0572|TWO_SIDED|95.0|0.97|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.67|0.97|0.0572
82462915|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0284|TWO_SIDED|95.0|1.14|9.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.79|1.14|0.0284
82462916|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0705|TWO_SIDED|95.0|0.92|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.22|0.92|0.0705
82462917|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.81||||0.0136|TWO_SIDED|95.0|1.38|16.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.77|1.38|0.0136
82462918|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|9.96||||0.0043|TWO_SIDED|95.0|2.06|48.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||48.29|2.06|0.0043
82462919|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.66||||0.076|TWO_SIDED|95.0|0.9|7.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.83|0.90|0.0760
82462920|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|5.75||||0.0059|TWO_SIDED|95.0|1.65|20.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.00|1.65|0.0059
82462921|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|4.22||||0.0143|TWO_SIDED|95.0|1.33|13.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||13.35|1.33|0.0143
82462922|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2779|TWO_SIDED|95.0|0.62|5.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.35|0.62|0.2779
82462923|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7559|TWO_SIDED|95.0|0.41|3.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.41|0.41|0.7559
82462924|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.07||||0.905|TWO_SIDED|95.0|0.35|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.23|0.35|0.9050
82543839|NCT02528188|164788480|SUPERIORITY||Rate Difference|16.9||||0.001|TWO_SIDED|95.0|6.8|27.0|||Poisson model for rate difference|||||27.0|6.8|0.0010
82543840|NCT02528188|164788481|SUPERIORITY||Risk Difference|1.99||||0.0248|TWO_SIDED|95.0|0.31|4.17|||Exact methods for risk difference|||Rapidly progressive OA Type 1 or 2||4.17|0.31|0.0248
82543841|NCT02528188|164788481|SUPERIORITY||Risk difference|5.11|||<|0.0001|TWO_SIDED|95.0|3.16|7.54|||Exact methods for risk difference|||Rapidly Progressive OA Type 1 or 2||7.54|3.16|<0.0001
82543842|NCT02528188|164788481|SUPERIORITY||Risk difference|1.79||||0.0366|TWO_SIDED|95.0|0.16|3.92|||Exact methods for risk difference|||Rapidly Progressive OA Type 1||3.92|0.16|0.0366
82462925|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.05||||0.2163|TWO_SIDED|95.0|0.66|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.38|0.66|0.2163
82462926|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.24||||0.1713|TWO_SIDED|95.0|0.7|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.14|0.70|0.1713
82462927|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3981|TWO_SIDED|95.0|0.52|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.09|0.52|0.3981
82543843|NCT02528188|164788481|SUPERIORITY||Risk difference|3.81||||0.0001|TWO_SIDED|95.0|1.99|6.12|||Exact methods for risk difference|||Rapidly Progressive OA Type 1||6.12|1.99|0.0001
82543844|NCT02528188|164788481|SUPERIORITY||Risk difference|0.2||||0.6168|TWO_SIDED|95.0|-0.76|1.71|||Exact methods for risk difference|||Rapidly Progressive OA Type 2||1.71|-0.76|0.6168
82543845|NCT02528188|164788481|SUPERIORITY||Risk difference|1.3||||0.0388|TWO_SIDED|95.0|0.17|2.97|||Exact methods for risk difference|||Rapidly Progressive OA Type 2||2.97|0.17|0.0388
82543846|NCT02528188|164788481|SUPERIORITY||Risk difference|0.1||||0.7245|TWO_SIDED|95.0|-0.74|1.51|||Exact methods for risk difference|||Primary osteonecrosis||1.51|-0.74|0.7245
82543847|NCT02528188|164788481|SUPERIORITY||Risk difference|0.1||||0.7182|TWO_SIDED|95.0|-0.74|1.52|||Exact methods for risk difference|||Primary osteonecrosis||1.52|-0.74|0.7182
82543848|NCT02528188|164788481|SUPERIORITY||Risk difference|0.2||||0.6824|TWO_SIDED|95.0|-0.96|1.9|||Exact methods for risk difference|||Subchondral insufficiency fracture||1.90|-0.96|0.6824
82543849|NCT02528188|164788481|SUPERIORITY||Risk difference|0.3||||0.5632|TWO_SIDED|95.0|-0.86|2.03|||Exact methods for risk difference|||Subchondral insufficiency fracture||2.03|-0.86|0.5632
82543850|NCT02528188|164788482|SUPERIORITY||Rate Difference|19.56||||0.0027|TWO_SIDED|95.0|6.78|32.35|||Poisson model for rate difference|||Rapidly Progressive OA Type 1 or 2||32.35|6.78|0.0027
82578711|NCT00558792|164866733|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|7.6||||0.5843|TWO_SIDED|95.0|-19.6|34.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||34.7|-19.6|0.5843
82578712|NCT00558792|164866733|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|4.6||||0.7197|TWO_SIDED|95.0|-20.5|29.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||29.7|-20.5|0.7197
82578713|NCT00558792|164866733|SUPERIORITY_OR_OTHER||Difference in Sensitivity between Doses|3.0||||0.8292|TWO_SIDED|95.0|-24.1|30.1||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||30.1|-24.1|0.8292
82462928|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9692|TWO_SIDED|95.0|0.35|2.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.96|0.35|0.9692
82462929|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.77||||0.2978|TWO_SIDED|95.0|0.6|5.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.22|0.60|0.2978
82543851|NCT02528188|164788482|SUPERIORITY||Rate Difference|51.48|||<|0.0001|TWO_SIDED|95.0|34.47|68.5|||Poisson model for rate difference|||Rapidly Progressive OA Type 1 or 2||68.50|34.47|<0.0001
82543852|NCT02528188|164788482|SUPERIORITY||Rate Difference|17.58||||0.0047|TWO_SIDED|95.0|5.39|29.76|||Poisson model for rate difference|||Rapidly Progressive OA Type 1||29.76|5.39|0.0047
82543853|NCT02528188|164788482|SUPERIORITY||Rate Difference|38.22|||<|0.0001|TWO_SIDED|95.0|23.05|53.4|||Poisson model for rate difference|||Rapidly Progressive OA Type 1||53.40|23.05|<0.0001
82543854|NCT02528188|164788482|SUPERIORITY||Rate Difference|1.94||||0.3214|TWO_SIDED|95.0|-1.89|5.76|||Poisson model for rate difference|||Rapidly Progressive OA Type 2||5.76|-1.89|0.3214
82578714|NCT00558792|164866734|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-4.2||||0.0888|TWO_SIDED|95.0|-9.0|0.7||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||0.7|-9.0|0.0888
82578715|NCT00558792|164866734|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-0.8||||0.7796|TWO_SIDED|95.0|-6.4|4.8||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||4.8|-6.4|0.7796
82578716|NCT00558792|164866734|SUPERIORITY_OR_OTHER||Difference in Specificity between Doses|-3.4||||0.1662|TWO_SIDED|95.0|-8.2|1.5||Study was not powered for diagnostic performance analyses. Sample size was based on quality of visualization of coronary artery segments.|Chi-squared|||||1.5|-8.2|0.1662
82578717|NCT06988800|164866774|SUPERIORITY||Odds Ratio (OR)|37.1|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests||||<.001
82543855|NCT02528188|164788482|SUPERIORITY||Rate Difference|12.88||||0.0008|TWO_SIDED|95.0|5.36|20.39|||Poisson model for rate difference|||Rapidly Progressive OA Type 2||20.39|5.36|0.0008
82543856|NCT02528188|164788482|SUPERIORITY||Rate Difference|1.9||||0.5394|TWO_SIDED|95.0|-4.17|7.96|||Poisson model for rate difference|||Subchondral Insufficiency Fracture||7.96|-4.17|0.5394
82462930|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8525|TWO_SIDED|95.0|0.38|3.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.18|0.38|0.8525
82543857|NCT02528188|164788482|SUPERIORITY||Rate Difference|2.98||||0.3636|TWO_SIDED|95.0|-3.44|9.39|||Poisson model for rate difference|||Subchondral Insufficiency Fracture||9.39|-3.44|0.3636
82543858|NCT02528188|164788482|SUPERIORITY||Poisson model for rate difference|1.0|||||||||||||95% CI was not estimable since there were less number of participants with events.|Primary osteonecrosis||||
82543859|NCT02528188|164788482|SUPERIORITY||Rate Difference|1.0|||||||||||||95% CI was not estimable since there were less number of participants with events.|Primary osteonecrosis||||
82543860|NCT02528188|164788483|SUPERIORITY||Risk Difference (RD)|4.87||||0.0002|TWO_SIDED|95.0|2.43|7.74||The event of adjudicated primary osteonecrosis in the tanezumab 2.5 mg treatment group is not included in this analysis. Conclusions for this analysis do not change as the comparison to NSAID is already statistically significant in favor of NSAID.|Exact methods for risk difference|||||7.74|2.43|0.0002
82543861|NCT02528188|164788483|SUPERIORITY||Risk Difference (RD)|9.41|||<|0.0001|TWO_SIDED|95.0|6.73|12.52|||Exact methods for risk difference|||||12.52|6.73|<0.0001
82543862|NCT02528188|164788484|SUPERIORITY||Rate Difference|48.25|||<|0.0001|TWO_SIDED|95.0|26.76|69.74||The event of adjudicated primary osteonecrosis in the tanezumab 2.5 mg treatment group is not included in this analysis. Conclusions for this analysis do not change as the comparison to NSAID is already statistically significant in favor of NSAID.|Poisson model for rate difference|||||69.74|26.76|<0.0001
82543863|NCT02528188|164788484|SUPERIORITY||Rate Difference|95.83|||<|0.0001|TWO_SIDED|95.0|70.25|121.42|||Poisson model for rate difference|||||121.42|70.25|<0.0001
82543864|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0979|TWO_SIDED|95.0|-0.15|0.01|||ANCOVA|||Change in medial JSW width at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.01|-0.15|0.0979
82578718|NCT06988800|164866775|SUPERIORITY||Odds Ratio (OR)|19.5|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests.||||<.001
82462931|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.67||||0.5028|TWO_SIDED|95.0|0.21|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.13|0.21|0.5028
82462932|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.53||||0.4594|TWO_SIDED|95.0|0.5|4.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.73|0.50|0.4594
82462933|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.56||||0.1124|TWO_SIDED|95.0|0.8|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||8.17|0.80|0.1124
82462934|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3415|TWO_SIDED|95.0|0.55|5.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.58|0.55|0.3415
82462935|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3635|TWO_SIDED|95.0|0.56|4.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.83|0.56|0.3635
82462936|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.73||||0.5716|TWO_SIDED|95.0|0.24|2.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.20|0.24|0.5716
82462937|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5028|TWO_SIDED|95.0|0.23|2.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.05|0.23|0.5028
82462938|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.6||||0.3982|TWO_SIDED|95.0|0.18|1.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.98|0.18|0.3982
82462939|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.93||||0.93|TWO_SIDED|95.0|0.3|2.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.87|0.30|0.93
82462940|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|2.12||||0.2364|TWO_SIDED|95.0|0.61|7.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.32|0.61|0.2364
82462941|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|1.25||||0.7095|TWO_SIDED|95.0|0.39|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.04|0.39|0.7095
82578719|NCT06988800|164866776|SUPERIORITY||Odds Ratio (OR)|18.7|||<|0.001|TWO_SIDED||||||ANCOVA|||ANCOVAs and post hoc Tukey pairwise tests||||<.001
82578720|NCT02344290|164866777|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.48|0.84|||||Hazard ratio is shown as pitavastatin/placebo. Two-sided 95% repeated confidence interval that adjusts for interim looks according to the realized Lan and DeMets implementation of the O'Brien-Fleming sequential stopping boundary is presented.|||0.84|0.48|
82578721|NCT02344290|164866778|SUPERIORITY||Hazard Ratio (HR)|0.56|||||TWO_SIDED|95.0|0.36|0.87|||||Hazard ratio is shown as pitavastatin/placebo.|||0.87|0.36|
82462942|NCT03192176|164625585|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6011|TWO_SIDED|95.0|0.26|2.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.20|0.26|0.6011
82462943|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.78||||0.0181|TWO_SIDED|95.0|1.39|33.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.10|1.39|0.0181
82462944|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|9.97||||0.0039|TWO_SIDED|95.0|2.1|47.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||47.48|2.10|0.0039
82462945|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|21.2||||0.0001|TWO_SIDED|95.0|4.51|99.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||99.65|4.51|0.0001
82462946|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|23.97|||<|0.0001|TWO_SIDED|95.0|5.09|112.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||112.9|5.09|<0.0001
82578722|NCT02344290|164866779|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.4|0.97|||||Hazard ratio is shown as pitavastatin/placebo.|||0.97|0.40|
82578723|NCT02344290|164866780|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.11|4.02|||||Hazard ratio is shown as pitavastatin/placebo.|||4.02|0.11|
82578724|NCT02344290|164866781|SUPERIORITY||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.35|1.38|||||Hazard ratio is shown as pitavastatin/placebo.|||1.38|0.35|
82462947|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.17||||0.1766|TWO_SIDED|95.0|0.59|16.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.87|0.59|0.1766
82462948|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|7.68||||0.0116|TWO_SIDED|95.0|1.58|37.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||37.43|1.58|0.0116
82462949|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|12.74||||0.0013|TWO_SIDED|95.0|2.71|59.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||59.81|2.71|0.0013
82462950|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0359|TWO_SIDED|95.0|1.07|7.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.43|1.07|0.0359
82462951|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.8||||0.0004|TWO_SIDED|95.0|2.2|15.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||15.33|2.20|0.0004
82462952|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|7.13|||<|0.0001|TWO_SIDED|95.0|2.68|18.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.98|2.68|<0.0001
82462953|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.84||||0.0001|TWO_SIDED|95.0|2.53|18.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.46|2.53|0.0001
82462954|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.04||||0.154|TWO_SIDED|95.0|0.76|5.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.47|0.76|0.1540
82462955|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.84||||0.0065|TWO_SIDED|95.0|1.46|10.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.12|1.46|0.0065
82462956|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0052|TWO_SIDED|95.0|1.5|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.14|1.50|0.0052
82462957|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.68||||0.0064|TWO_SIDED|95.0|1.44|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.39|1.44|0.0064
82462958|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0003|TWO_SIDED|95.0|2.26|15.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.21|2.26|0.0003
82543865|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||ANCOVA|||Change in medial JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.08|-0.24|<0.0001
82543866|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1162|TWO_SIDED|95.0|-0.17|0.02|||ANCOVA|||Change in medial JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.02|-0.17|0.1162
82578725|NCT02344290|164866782|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||Hazard ratio is shown as pitavastatin/placebo.|||1.03|0.44|
82578726|NCT02344290|164866783|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.36|1.05|||||||Hazard ratio is shown as pitavastatin/placebo.|1.05|0.36|
82462959|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0001|TWO_SIDED|95.0|2.47|16.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.69|2.47|0.0001
82462960|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|8.21|||<|0.0001|TWO_SIDED|95.0|3.01|22.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||22.42|3.01|<0.0001
82462961|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0171|TWO_SIDED|95.0|1.22|7.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.97|1.22|0.0171
82578727|NCT02344290|164866785|SUPERIORITY||Hazard Ratio (HR)|0.0|||||TWO_SIDED|95.0|0.0|0.54|||||||Hazard ratio is shown as pitavastatin/placebo. Estimation of the confidence interval used a Bayes analysis with a non-informative prior using adaptive rejection Metropolis sampling. In this case, the interval shown is a 95% highest posterior density (HPD) interval.|0.54|0.00|
82578728|NCT02344290|164866786|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.64|0.94|||||Hazard ratio is shown as pitavastatin/placebo.|||0.94|0.64|
82543867|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0128|TWO_SIDED|95.0|-0.22|-0.03|||ANCOVA|||Change in medial JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.03|-0.22|0.0128
82462962|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.38||||0.002|TWO_SIDED|95.0|1.71|11.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.18|1.71|0.0020
82462963|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.97||||0.0034|TWO_SIDED|95.0|1.58|9.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.99|1.58|0.0034
82462964|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0399|TWO_SIDED|95.0|1.05|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.59|1.05|0.0399
82462965|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.76||||0.0003|TWO_SIDED|95.0|2.23|14.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.84|2.23|0.0003
82462966|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.05||||0.0031|TWO_SIDED|95.0|1.6|10.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.23|1.60|0.0031
82462967|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|3.41|28.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||28.28|3.41|<0.0001
82462968|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0036|TWO_SIDED|95.0|1.57|10.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.01|1.57|0.0036
82462969|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.79||||0.0009|TWO_SIDED|95.0|1.89|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||12.11|1.89|0.0009
82462970|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0091|TWO_SIDED|95.0|1.35|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.21|1.35|0.0091
82462971|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.78||||0.2043|TWO_SIDED|95.0|0.73|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.34|0.73|0.2043
82462972|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.7||||0.0012|TWO_SIDED|95.0|1.84|12.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||12.01|1.84|0.0012
82462973|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0058|TWO_SIDED|95.0|1.47|9.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.70|1.47|0.0058
82543868|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.8885|TWO_SIDED|95.0|-0.17|0.2|||ANCOVA|||Change in lateral JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.20|-0.17|0.8885
82543869|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6345|TWO_SIDED|95.0|-0.24|0.15|||ANCOVA|||Change in lateral JSW at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.15|-0.24|0.6345
82543870|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4406|TWO_SIDED|95.0|-0.32|0.14|||ANCOVA|||Change in lateral JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.14|-0.32|0.4406
82462974|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|8.07||||0.0002|TWO_SIDED|95.0|2.73|23.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||23.83|2.73|0.0002
82462975|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0221|TWO_SIDED|95.0|1.16|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.12|1.16|0.0221
82462976|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0034|TWO_SIDED|95.0|1.58|10.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.13|1.58|0.0034
82543871|NCT02528188|164788485|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.12||0.7109|TWO_SIDED|95.0|-0.19|0.28|||ANCOVA|||Change in lateral JSW at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.28|-0.19|0.7109
82543872|NCT02528188|164788486|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.08||0.102|TWO_SIDED|95.0|-0.3|0.03|||ANCOVA|||Change at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.03|-0.30|0.1020
82543873|NCT02528188|164788486|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.08||0.023|TWO_SIDED|95.0|-0.35|-0.03|||ANCOVA|||Change at Week 56: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||-0.03|-0.35|0.0230
82543874|NCT02528188|164788486|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0645|TWO_SIDED|95.0|-0.37|0.01|||ANCOVA|||Change at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.01|-0.37|0.0645
82543875|NCT02528188|164788486|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.5005|TWO_SIDED|95.0|-0.26|0.13|||ANCOVA|||Change at Week 80: ANCOVA model included treatment, baseline JSW as covariate, and study site as a random effect.||0.13|-0.26|0.5005
82543876|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0358|TWO_SIDED|95.0|1.04|3.29|||Regression, Logistic|||Decrease in medial JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||3.29|1.04|0.0358
82543877|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0021|TWO_SIDED|95.0|1.37|4.12|||Regression, Logistic|||Decrease in medial JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||4.12|1.37|0.0021
82543878|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0301|TWO_SIDED|95.0|1.07|3.77|||Regression, Logistic|||Decrease in medial JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||3.77|1.07|0.0301
82543879|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|2.65||||0.0016|TWO_SIDED|95.0|1.45|4.85|||Regression, Logistic|||Decrease in medial JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||4.85|1.45|0.0016
82543880|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|0.55||||0.3002|TWO_SIDED|95.0|0.18|1.7|||Regression, Logistic|||Decrease in lateral JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||1.70|0.18|0.3002
82543881|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8997|TWO_SIDED|95.0|0.39|2.89|||Regression, Logistic|||Decrease in lateral JSW at Week 56: Logistic regression model included treatment, and baseline JSW as covariate.||2.89|0.39|0.8997
82543882|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|1.48||||0.4559|TWO_SIDED|95.0|0.53|4.18|||Regression, Logistic|||Decrease in lateral JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||4.18|0.53|0.4559
82543883|NCT02528188|164788487|SUPERIORITY||Odds Ratio (OR)|0.71||||0.5996|TWO_SIDED|95.0|0.2|2.54|||Regression, Logistic|||Decrease in lateral JSW at Week 80: Logistic regression model included treatment, and baseline JSW as covariate.||2.54|0.20|0.5996
82578729|NCT02344290|164866787|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.7|1.12|||||Hazard ratio is shown as pitavastatin/placebo.|||1.12|0.70|
82578730|NCT02344290|164866788|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.76|1.13|||||Hazard ratio is shown as pitavastatin/placebo.|||1.13|0.76|
82543884|NCT02528188|164788488|SUPERIORITY||Odds Ratio (OR)|3.37||||0.0714|TWO_SIDED|95.0|0.9|12.65|||Regression, Logistic|||Decrease at Week 56: Logistic regression model included treatment, and baseline JSW as covariate||12.65|0.90|0.0714
82543885|NCT02528188|164788488|SUPERIORITY||Odds Ratio (OR)|3.42||||0.0681|TWO_SIDED|95.0|0.91|12.84|||Regression, Logistic|||Decrease at Week 56: Logistic regression model included treatment, and baseline JSW as covariate||12.84|0.91|0.0681
82543886|NCT02528188|164788488|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0967|TWO_SIDED|95.0|0.81|11.95|||Regression, Logistic|||Decrease at Week 80: Logistic regression model included treatment, and baseline JSW as covariate||11.95|0.81|0.0967
82543887|NCT02528188|164788488|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0976|TWO_SIDED|95.0|0.81|11.9|||Regression, Logistic|||Decrease at Week 80: Logistic regression model included treatment, and baseline JSW as covariate||11.90|0.81|0.0976
82543888|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.2212|TWO_SIDED|95.0|-0.27|0.06|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.27|0.2212
82543889|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.08||0.4557|TWO_SIDED|95.0|-0.1|0.23|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.10|0.4557
82543890|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.09||0.0029|TWO_SIDED|95.0|-0.45|-0.09|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.09|-0.45|0.0029
82543891|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.5|-0.14|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.50|0.0005
82578731|NCT02344290|164866789|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.71|1.2|||||Hazard ratio is shown as pitavastatin/placebo.|||1.20|0.71|
82578732|NCT02344290|164866790|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.68|1.31|||||Hazard ratio is shown as pitavastatin/placebo.|||1.31|0.68|
82578733|NCT02344290|164866791|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.14|2.51|||||Hazard ratio is shown as pitavastatin/placebo.|||2.51|0.14|
82578734|NCT02344290|164866792|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.42|2.02|||||Hazard ratio is shown as pitavastatin/placebo.|||2.02|0.42|
82462977|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0123|TWO_SIDED|95.0|1.29|8.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.04|1.29|0.0123
82462978|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.56||||0.3291|TWO_SIDED|95.0|0.64|3.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.78|0.64|0.3291
82462979|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0118|TWO_SIDED|95.0|1.3|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.21|1.30|0.0118
82462980|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.93||||0.0058|TWO_SIDED|95.0|1.49|10.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.40|1.49|0.0058
82462981|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.98||||0.0012|TWO_SIDED|95.0|2.03|17.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||17.65|2.03|0.0012
82462982|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1043|TWO_SIDED|95.0|0.85|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.32|0.85|0.1043
82462983|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0015|TWO_SIDED|95.0|1.85|13.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||13.54|1.85|0.0015
82462984|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0658|TWO_SIDED|95.0|0.95|5.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.73|0.95|0.0658
82462985|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1253|TWO_SIDED|95.0|0.82|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.98|0.82|0.1253
82462986|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.01||||0.0013|TWO_SIDED|95.0|1.88|13.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||13.34|1.88|0.0013
82462987|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0096|TWO_SIDED|95.0|1.37|9.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.75|1.37|0.0096
82543892|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.09||0.1273|TWO_SIDED|95.0|-0.33|0.04|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.33|0.1273
82462988|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.06||||0.0012|TWO_SIDED|95.0|2.04|17.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||17.96|2.04|0.0012
82462989|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0344|TWO_SIDED|95.0|1.08|7.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.02|1.08|0.0344
82462990|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.07||||0.0045|TWO_SIDED|95.0|1.55|10.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.72|1.55|0.0045
82462991|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.24||||0.081|TWO_SIDED|95.0|0.91|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.55|0.91|0.0810
82462992|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0761|TWO_SIDED|95.0|0.92|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.70|0.92|0.0761
82543893|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.57|-0.2|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.20|-0.57|<0.0001
82462993|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0078|TWO_SIDED|95.0|1.41|9.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.51|1.41|0.0078
82462994|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0253|TWO_SIDED|95.0|1.15|7.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.82|1.15|0.0253
82462995|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.23||||0.0017|TWO_SIDED|95.0|1.99|19.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||19.55|1.99|0.0017
82462996|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3512|TWO_SIDED|95.0|0.62|3.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.87|0.62|0.3512
82462997|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0352|TWO_SIDED|95.0|1.07|7.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.13|1.07|0.0352
82462998|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.36||||0.0704|TWO_SIDED|95.0|0.93|5.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.97|0.93|0.0704
82462999|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.94||||0.1651|TWO_SIDED|95.0|0.76|4.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.93|0.76|0.1651
82463000|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.21||||0.0964|TWO_SIDED|95.0|0.87|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.62|0.87|0.0964
82463001|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.12||||0.0276|TWO_SIDED|95.0|1.13|8.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.59|1.13|0.0276
82463002|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.99||||0.006|TWO_SIDED|95.0|1.58|15.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.70|1.58|0.0060
82463003|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1556|TWO_SIDED|95.0|0.76|5.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.39|0.76|0.1556
82463004|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.33||||0.0202|TWO_SIDED|95.0|1.21|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.18|1.21|0.0202
82463005|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2063|TWO_SIDED|95.0|0.72|4.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.67|0.72|0.2063
82463006|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0383|TWO_SIDED|95.0|1.06|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.92|1.06|0.0383
82463007|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.46||||0.0118|TWO_SIDED|95.0|1.32|9.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.10|1.32|0.0118
82543894|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.6349|TWO_SIDED|95.0|-0.31|0.19|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.31|0.6349
82543895|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.13||0.1339|TWO_SIDED|95.0|-0.44|0.06|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.44|0.1339
82578735|NCT02344290|164866793|SUPERIORITY||Incidence rate ratio|1.0|||||TWO_SIDED|95.0|0.9|1.1|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.10|0.90|
82578736|NCT02344290|164866794|SUPERIORITY||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|1.07|1.57|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.57|1.07|
82463008|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0314|TWO_SIDED|95.0|1.1|7.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.97|1.10|0.0314
82463009|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|6.8||||0.001|TWO_SIDED|95.0|2.17|21.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||21.34|2.17|0.0010
82463010|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.24||||0.0956|TWO_SIDED|95.0|0.87|5.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.80|0.87|0.0956
82463011|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0027|TWO_SIDED|95.0|1.72|13.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.40|1.72|0.0027
82463012|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.41||||0.066|TWO_SIDED|95.0|0.94|6.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.14|0.94|0.0660
82463013|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.32||||0.0853|TWO_SIDED|95.0|0.89|6.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.05|0.89|0.0853
82543896|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.6237|TWO_SIDED|95.0|-0.33|0.2|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.33|0.6237
82543897|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4224|TWO_SIDED|95.0|-0.37|0.16|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.37|0.4224
82543898|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7526|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7526
82463014|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.49||||0.0159|TWO_SIDED|95.0|1.26|9.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.62|1.26|0.0159
82463015|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0303|TWO_SIDED|95.0|1.12|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.53|1.12|0.0303
82463016|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.84||||0.0071|TWO_SIDED|95.0|1.54|15.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||15.28|1.54|0.0071
82543899|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.13||0.7328|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7328
82578737|NCT02344290|164866795|SUPERIORITY||Incidence rate ratio|1.58|||||TWO_SIDED|95.0|1.14|2.19|||||Incidence rate ratio is shown as pitavastatin/placebo.|||2.19|1.14|
82578738|NCT02344290|164866796|SUPERIORITY||Incidence rate ratio|0.75|||||TWO_SIDED|95.0|0.17|3.37|||||Incidence rate ratio is shown as pitavastatin/placebo.|||3.37|0.17|
82578739|NCT02344290|164866797|SUPERIORITY||Incidence rate ratio|1.34|||||TWO_SIDED|95.0|0.56|3.18|||||Incidence rate ratio is shown as pitavastatin/placebo.|||3.18|0.56|
82463017|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0621|TWO_SIDED|95.0|0.95|7.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.09|0.95|0.0621
82463018|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0081|TWO_SIDED|95.0|1.45|12.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.15|1.45|0.0081
82463019|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0533|TWO_SIDED|95.0|0.99|7.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.09|0.99|0.0533
82463020|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.71||||0.2666|TWO_SIDED|95.0|0.66|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.42|0.66|0.2666
82463021|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0754|TWO_SIDED|95.0|0.91|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.52|0.91|0.0754
82463022|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.27||||0.0313|TWO_SIDED|95.0|1.11|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.64|1.11|0.0313
82463023|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|5.76||||0.0056|TWO_SIDED|95.0|1.67|19.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||19.88|1.67|0.0056
82463024|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.58||||0.0736|TWO_SIDED|95.0|0.91|7.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.28|0.91|0.0736
82463025|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0184|TWO_SIDED|95.0|1.24|10.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||10.00|1.24|0.0184
82463026|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1187|TWO_SIDED|95.0|0.82|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.81|0.82|0.1187
82463027|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0299|TWO_SIDED|95.0|1.14|12.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.69|1.14|0.0299
82463028|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5989|TWO_SIDED|95.0|0.4|4.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.89|0.40|0.5989
82463029|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1337|TWO_SIDED|95.0|0.74|9.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.14|0.74|0.1337
82463030|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4605|TWO_SIDED|95.0|0.45|5.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.89|0.45|0.4605
82463031|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0188|TWO_SIDED|95.0|1.28|15.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||15.65|1.28|0.0188
82543900|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.5888|TWO_SIDED|95.0|-0.33|0.19|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.33|0.5888
82463032|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5854|TWO_SIDED|95.0|0.39|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.42|0.39|0.5854
82578740|NCT02344290|164866798|SUPERIORITY||Incidence rate ratio|1.04|||||TWO_SIDED|95.0|0.97|1.12|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.12|0.97|
82463033|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1768|TWO_SIDED|95.0|0.68|7.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.86|0.68|0.1768
82463034|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8426|TWO_SIDED|95.0|0.29|2.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.78|0.29|0.8426
82463035|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3017|TWO_SIDED|95.0|0.17|1.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.73|0.17|0.3017
82463036|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5958|TWO_SIDED|95.0|0.21|2.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.43|0.21|0.5958
82543901|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.14||0.9345|TWO_SIDED|95.0|-0.28|0.26|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.26|-0.28|0.9345
82543902|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8782|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.29|0.8782
82463037|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.23||||0.0515|TWO_SIDED|95.0|0.05|1.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.01|0.05|0.0515
82463038|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9734|TWO_SIDED|95.0|0.31|3.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.11|0.31|0.9734
82463039|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.85||||0.7969|TWO_SIDED|95.0|0.25|2.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.93|0.25|0.7969
82463040|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.78||||0.6637|TWO_SIDED|95.0|0.25|2.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.40|0.25|0.6637
82463041|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.53||||0.4921|TWO_SIDED|95.0|0.45|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.15|0.45|0.4921
82463042|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.09||||0.891|TWO_SIDED|95.0|0.33|3.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.64|0.33|0.8910
82463043|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.68||||0.5881|TWO_SIDED|95.0|0.16|2.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.78|0.16|0.5881
82463044|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.11||||0.0523|TWO_SIDED|95.0|0.01|1.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.02|0.01|0.0523
82463045|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.6||||0.4646|TWO_SIDED|95.0|0.46|5.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.61|0.46|0.4646
82463046|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|1.43||||0.5806|TWO_SIDED|95.0|0.4|5.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.14|0.40|0.5806
82543903|NCT02528188|164788489|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7076|TWO_SIDED|95.0|-0.22|0.32|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain subscale and baseline diary average pain as covariates, and study site as a random effect.||0.32|-0.22|0.7076
82578741|NCT02344290|164866801|SUPERIORITY||Incidence rate ratio|0.75|||||TWO_SIDED|95.0|0.52|1.08|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.08|0.52|
82463047|NCT03192176|164625586|SUPERIORITY||Odds Ratio (OR)|0.94||||0.922|TWO_SIDED|95.0|0.28|3.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.12|0.28|0.9220
82463048|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.45||||0.1933|TWO_SIDED|95.0|0.47|42.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||42.25|0.47|0.1933
82463049|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.61||||0.124|TWO_SIDED|95.0|0.62|50.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||50.44|0.62|0.1240
82578742|NCT02344290|164866802|SUPERIORITY||Incidence rate ratio|1.05|||||TWO_SIDED|95.0|0.96|1.16|||||Incidence rate ratio is shown as pitavastatin/placebo.|||1.16|0.96|
82578743|NCT02344290|164866803|SUPERIORITY||Mean Difference (Net)|-4.3||||0.04|TWO_SIDED|95.0|-8.6|-0.1|||Regression, Linear||Treatment group difference was estimated as baseline-adjusted mean difference in change at year 2, using linear regression.|||-0.1|-8.6|0.04
82463050|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|14.16||||0.014|TWO_SIDED|95.0|1.71|117.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||117.2|1.71|0.0140
82463051|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|17.5||||0.0075|TWO_SIDED|95.0|2.15|142.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||142.7|2.15|0.0075
82463052|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.98||||0.5853|TWO_SIDED|95.0|0.17|22.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||22.96|0.17|0.5853
82463053|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.0||||0.1596|TWO_SIDED|95.0|0.53|47.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||47.05|0.53|0.1596
82463054|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.48||||0.0908|TWO_SIDED|95.0|0.74|56.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||56.51|0.74|0.0908
82463055|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.97||||0.1318|TWO_SIDED|95.0|0.72|12.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.19|0.72|0.1318
82463056|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0093|TWO_SIDED|95.0|1.56|23.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||23.04|1.56|0.0093
82463057|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|10.13||||0.0006|TWO_SIDED|95.0|2.69|38.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||38.22|2.69|0.0006
82463058|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|15.63|||<|0.0001|TWO_SIDED|95.0|4.11|59.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||59.40|4.11|<0.0001
82463059|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.53||||0.2054|TWO_SIDED|95.0|0.6|10.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.64|0.60|0.2054
82463060|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.8||||0.1592|TWO_SIDED|95.0|0.67|11.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.72|0.67|0.1592
82463061|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.31||||0.007|TWO_SIDED|95.0|1.66|24.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||24.07|1.66|0.0070
82543904|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.015|TWO_SIDED|95.0|-0.37|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.04|-0.37|0.0150
82578744|NCT02344290|164866804|SUPERIORITY||Risk Ratio (RR)|0.67||||0.003|TWO_SIDED|95.0|0.52|0.88|||Chi-squared||Treatment effect was estimated as relative risk (pitavastatin/placebo), adjusted for presence of NCP at entry.|||0.88|0.52|0.003
82463062|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.39||||0.0392|TWO_SIDED|95.0|1.06|10.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.85|1.06|0.0392
82463063|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.49||||0.0096|TWO_SIDED|95.0|1.44|13.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.96|1.44|0.0096
82463064|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|10.11|||<|0.0001|TWO_SIDED|95.0|3.28|31.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||31.16|3.28|<0.0001
82463065|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|11.76|||<|0.0001|TWO_SIDED|95.0|3.75|36.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.90|3.75|<0.0001
82578745|NCT02344290|164866805|SUPERIORITY||Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-9.2|0.62|||||Treatment group difference was estimated as baseline-adjusted difference in mean change at year 2, using linear regression.|||0.62|-9.2|
82463066|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.11||||0.2217|TWO_SIDED|95.0|0.64|7.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.03|0.64|0.2217
82463067|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.26||||0.0131|TWO_SIDED|95.0|1.36|13.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.38|1.36|0.0131
82463068|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0031|TWO_SIDED|95.0|1.76|16.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.46|1.76|0.0031
82463069|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.15||||0.1485|TWO_SIDED|95.0|0.76|6.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.10|0.76|0.1485
82463070|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0128|TWO_SIDED|95.0|1.31|9.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.56|1.31|0.0128
82463071|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.5||||0.0003|TWO_SIDED|95.0|2.37|17.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||17.81|2.37|0.0003
82463072|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0003|TWO_SIDED|95.0|2.32|17.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||17.77|2.32|0.0003
82463073|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.87||||0.2354|TWO_SIDED|95.0|0.67|5.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.26|0.67|0.2354
82463074|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0894|TWO_SIDED|95.0|0.87|6.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.65|0.87|0.0894
82463075|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.23||||0.0201|TWO_SIDED|95.0|1.2|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.67|1.20|0.0201
82463076|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1614|TWO_SIDED|95.0|0.74|5.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.94|0.74|0.1614
82543905|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3286|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.25|0.3286
82463077|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0123|TWO_SIDED|95.0|1.32|9.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.66|1.32|0.0123
82578746|NCT02344290|164866806|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of LpPla2 Levels at Month 24||||<0.001
82463078|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.08||||0.0006|TWO_SIDED|95.0|2.17|17.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||17.03|2.17|0.0006
82463079|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.0001|TWO_SIDED|95.0|3.4|28.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||28.36|3.40|<0.0001
82578747|NCT02344290|164866807|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in LpPla2 from Baseline at Month 24||||<0.001
82463080|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1609|TWO_SIDED|95.0|0.75|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.81|0.75|0.1609
82463081|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.42||||0.093|TWO_SIDED|95.0|0.86|6.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.79|0.86|0.0930
82578748|NCT02344290|164866808|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Comparison of hsCRP Levels at Month 24||||0.02
82463082|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0063|TWO_SIDED|95.0|1.48|10.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.91|1.48|0.0063
82463083|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2621|TWO_SIDED|95.0|0.65|4.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.74|0.65|0.2621
82463084|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0092|TWO_SIDED|95.0|1.37|9.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.21|1.37|0.0092
82463085|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.69||||0.0007|TWO_SIDED|95.0|2.09|15.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.48|2.09|0.0007
82463086|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|8.85|||<|0.0001|TWO_SIDED|95.0|3.08|25.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||25.43|3.08|<0.0001
82463087|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4259|TWO_SIDED|95.0|0.55|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.08|0.55|0.4259
82463088|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1334|TWO_SIDED|95.0|0.79|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.74|0.79|0.1334
82463089|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.39||||0.012|TWO_SIDED|95.0|1.31|8.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.77|1.31|0.0120
82463090|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.84||||0.2443|TWO_SIDED|95.0|0.66|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.10|0.66|0.2443
82463091|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0022|TWO_SIDED|95.0|1.73|12.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.25|1.73|0.0022
82463092|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.6||||0.0004|TWO_SIDED|95.0|2.35|18.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||18.58|2.35|0.0004
82463093|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|12.17|||<|0.0001|TWO_SIDED|95.0|4.05|36.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||36.63|4.05|<0.0001
82463094|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.7||||0.3101|TWO_SIDED|95.0|0.61|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.71|0.61|0.3101
82578749|NCT02344290|164866809|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in hsCRP from Baseline at Month 24||||0.09
82463095|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.65||||0.0116|TWO_SIDED|95.0|1.34|10.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.00|1.34|0.0116
82463096|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0045|TWO_SIDED|95.0|1.56|11.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.05|1.56|0.0045
82463097|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3505|TWO_SIDED|95.0|0.62|3.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.88|0.62|0.3505
82463098|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0739|TWO_SIDED|95.0|0.92|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.62|0.92|0.0739
82463099|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0163|TWO_SIDED|95.0|1.24|8.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.20|1.24|0.0163
82578750|NCT02344290|164866810|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Comparison of soluble CD163 Levels at Month 24.||||0.65
82543906|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|-0.5|-0.15|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.50|0.0004
82543907|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09||0.0001|TWO_SIDED|95.0|-0.53|-0.17|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.17|-0.53|0.0001
82543908|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.0517|TWO_SIDED|95.0|-0.37|0.0|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.00|-0.37|0.0517
82543909|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.61|-0.23|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-0.61|<0.0001
82543910|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.3621|TWO_SIDED|95.0|-0.37|0.13|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.13|-0.37|0.3621
82543911|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.0832|TWO_SIDED|95.0|-0.47|0.03|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.47|0.0832
82543912|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4072|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4072
82543913|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.13||0.3404|TWO_SIDED|95.0|-0.39|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.13|-0.39|0.3404
82543914|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6344|TWO_SIDED|95.0|-0.34|0.2|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.34|0.6344
82543915|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5756|TWO_SIDED|95.0|-0.35|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.19|-0.35|0.5756
82543916|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4394|TWO_SIDED|95.0|-0.38|0.16|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.38|0.4394
82543917|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7747|TWO_SIDED|95.0|-0.31|0.23|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.31|0.7747
82578751|NCT02344290|164866811|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Comparison of Change in soluble CD163 from Baseline at Month 24||||0.88
82578752|NCT02344290|164866812|SUPERIORITY|||||||0.98|||||||Regression, Cox|Treatment effect modification by sex was evaluated via interaction of treatment and sex in the Cox proportional hazards regression model.||Evaluation of treatment effect modification by sex (i.e. pitavastatin effect differing in females compared to males).||||0.98
82578753|NCT02344290|164866812|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.39|1.04|||||Hazard ratio is shown as pitavastatin/placebo among females.|Evaluation of pitavastatin effect among females.||1.04|0.39|
82543918|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7305|TWO_SIDED|95.0|-0.32|0.22|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.32|0.7305
82543919|NCT02528188|164788491|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.733|TWO_SIDED|95.0|-0.22|0.32|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint and highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC physical function subscale and baseline diary average pain as covariates, and study site as a random effect.||0.32|-0.22|0.7330
82543920|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2159|TWO_SIDED|95.0|-0.1|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.10|0.2159
82543921|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2049|TWO_SIDED|95.0|-0.1|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.10|0.2049
82543922|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.03||0.0002|TWO_SIDED|95.0|-0.19|-0.06|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.19|0.0002
82543923|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.21|-0.08|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.08|-0.21|<0.0001
82543924|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7799|TWO_SIDED|95.0|-0.08|0.06|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.08|0.7799
82543925|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0061|TWO_SIDED|95.0|-0.16|-0.03|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||-0.03|-0.16|0.0061
82543926|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9718|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9718
82543927|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.3292|TWO_SIDED|95.0|-0.14|0.05|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.05|-0.14|0.3292
82543928|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.983|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9830
82578754|NCT02344290|164866812|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.48|0.86|||||Hazard ratio is shown as pitavastatin/placebo among males.|Evaluation of pitavastatin effect among males.||0.86|0.48|
82578755|NCT02344290|164866813|SUPERIORITY|||||||0.14|||||||Regression, Cox|Treatment effect modification by race was evaluated via interaction of treatment and race in the Cox proportional hazards regression model.||Evaluation of treatment effect modification by race (i.e. pitavastatin effect differing between races).||||0.14
82578756|NCT02344290|164866813|SUPERIORITY||Hazard Ratio (HR)|0.22|||||TWO_SIDED|95.0|0.09|0.59||||||Pitavastatin effect among Asians from subgroup analysis by race.|Hazard ratio is shown as pitavastatin/placebo among Asians.|0.59|0.09|
82543929|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.9137|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.09|0.9137
82578757|NCT02344290|164866813|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.46|0.96|||||Hazard ratio is shown as pitavastatin/placebo among Blacks.|Pitavastatin effect among Blacks from subgroup analysis by race.||0.96|0.46|
82463100|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|8.49||||0.0001|TWO_SIDED|95.0|2.81|25.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||25.64|2.81|0.0001
82463101|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8358|TWO_SIDED|95.0|0.35|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||2.35|0.35|0.8358
82463102|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1006|TWO_SIDED|95.0|0.86|5.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.52|0.86|0.1006
82463103|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0484|TWO_SIDED|95.0|1.01|6.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.34|1.01|0.0484
82463104|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.24||||0.6492|TWO_SIDED|95.0|0.5|3.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.08|0.50|0.6492
82463105|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.74||||0.223|TWO_SIDED|95.0|0.71|4.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.27|0.71|0.2230
82463106|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.43||||0.0126|TWO_SIDED|95.0|1.3|9.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.02|1.30|0.0126
82463107|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.56||||0.0014|TWO_SIDED|95.0|1.94|15.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.98|1.94|0.0014
82463108|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|0.7||||0.4713|TWO_SIDED|95.0|0.27|1.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||1.83|0.27|0.4713
82543930|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8784|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.09|-0.11|0.8784
82543931|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9995|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.10|0.9995
82543932|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.6648|TWO_SIDED|95.0|-0.13|0.08|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.13|0.6648
82543933|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.728|TWO_SIDED|95.0|-0.09|0.12|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.09|0.7280
82543934|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8856|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.09|0.8856
82578758|NCT02344290|164866813|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.49|1.13|||||Hazard ratio is shown as pitavastatin/placebo among Whites.|Pitavastatin effect among Whites from subgroup analysis by race.||1.13|0.49|
82463109|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.02||||0.1397|TWO_SIDED|95.0|0.79|5.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.12|0.79|0.1397
82463110|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.75||||0.2272|TWO_SIDED|95.0|0.71|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.34|0.71|0.2272
82463111|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2024|TWO_SIDED|95.0|0.72|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.64|0.72|0.2024
82463112|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.9||||0.1716|TWO_SIDED|95.0|0.76|4.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.79|0.76|0.1716
82463113|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.2||||0.0199|TWO_SIDED|95.0|1.2|8.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.51|1.20|0.0199
82463114|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|8.45||||0.0002|TWO_SIDED|95.0|2.8|25.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||25.54|2.80|0.0002
82463115|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4243|TWO_SIDED|95.0|0.57|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.77|0.57|0.4243
82463116|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.99||||0.1507|TWO_SIDED|95.0|0.78|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.09|0.78|0.1507
82463117|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0449|TWO_SIDED|95.0|1.02|6.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.60|1.02|0.0449
82463118|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.68||||0.2759|TWO_SIDED|95.0|0.66|4.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.24|0.66|0.2759
82463119|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.9||||0.17|TWO_SIDED|95.0|0.76|4.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.78|0.76|0.1700
82463120|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.47||||0.0153|TWO_SIDED|95.0|1.27|9.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.51|1.27|0.0153
82463121|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|6.04||||0.0009|TWO_SIDED|95.0|2.08|17.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||17.53|2.08|0.0009
82463122|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6228|TWO_SIDED|95.0|0.5|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.23|0.50|0.6228
82463123|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.62||||0.046|TWO_SIDED|95.0|1.02|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.76|1.02|0.0460
82463124|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1215|TWO_SIDED|95.0|0.82|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.23|0.82|0.1215
82463125|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.75||||0.247|TWO_SIDED|95.0|0.68|4.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.48|0.68|0.2470
82463126|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2072|TWO_SIDED|95.0|0.72|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.66|0.72|0.2072
82463127|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0621|TWO_SIDED|95.0|0.95|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.94|0.95|0.0621
82463128|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|5.67||||0.0016|TWO_SIDED|95.0|1.93|16.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.69|1.93|0.0016
82578759|NCT02344290|164866813|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.36|2.1||||||Pitavastatin effect among Other race from subgroup analysis by race.|Hazard ratio is shown as pitavastatin/placebo among Other race.|2.10|0.36|
82463129|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4372|TWO_SIDED|95.0|0.56|3.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.84|0.56|0.4372
82463130|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.18||||0.11|TWO_SIDED|95.0|0.84|5.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.66|0.84|0.1100
82463131|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0533|TWO_SIDED|95.0|0.99|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.59|0.99|0.0533
82463132|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.68||||0.1769|TWO_SIDED|95.0|0.5|44.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||44.00|0.50|0.1769
82463133|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.26||||0.4942|TWO_SIDED|95.0|0.22|23.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||23.53|0.22|0.4942
82463134|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|12.82||||0.0214|TWO_SIDED|95.0|1.46|112.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||112.7|1.46|0.0214
82463135|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.93||||0.6013|TWO_SIDED|95.0|0.16|22.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||22.99|0.16|0.6013
82463136|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0537|TWO_SIDED|95.0|0.97|76.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||76.58|0.97|0.0537
82463137|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.8||||0.2662|TWO_SIDED|95.0|0.36|39.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||39.91|0.36|0.2662
82463138|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.51||||0.7431|TWO_SIDED|95.0|0.13|17.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||17.84|0.13|0.7431
82463139|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|3.53||||0.2829|TWO_SIDED|95.0|0.35|35.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||35.22|0.35|0.2829
82463140|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|2.12||||0.5311|TWO_SIDED|95.0|0.2|22.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||22.29|0.20|0.5311
82463141|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.71||||0.1857|TWO_SIDED|95.0|0.47|46.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||46.83|0.47|0.1857
82578760|NCT05014568|164866917|SUPERIORITY||Risk Ratio, log|2.6|||<|0.0001|TWO_SIDED|95.0|1.66|4.09|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|H0: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is equal between tapinarof cream, 1% and vehicle cream; H1: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is different between the tapinarof cream, 1% and vehicle cream.||4.09|1.66|<0.0001
82463142|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9879|TWO_SIDED|95.0|0.06|17.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||17.50|0.06|0.9879
82463143|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.57||||0.1853|TWO_SIDED|95.0|0.48|43.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||43.19|0.48|0.1853
82463144|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|4.43||||0.217|TWO_SIDED|95.0|0.42|46.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||46.93|0.42|0.2170
82463145|NCT03192176|164625587|SUPERIORITY||Odds Ratio (OR)|0.74||||0.8354|TWO_SIDED|95.0|0.04|12.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||12.62|0.04|0.8354
82463146|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9671|TWO_SIDED|95.0|0.06|16.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.04|0.06|0.9671
82463147|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.16||||0.3289|TWO_SIDED|95.0|0.31|31.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||31.87|0.31|0.3289
82463148|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.26||||0.3157|TWO_SIDED|95.0|0.32|32.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||32.71|0.32|0.3157
82463149|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.0||||0.991|TWO_SIDED|95.0|0.06|16.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.83|0.06|0.991
82463150|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.26||||0.5139|TWO_SIDED|95.0|0.2|26.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||26.12|0.20|0.5139
82463151|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.32||||0.3079|TWO_SIDED|95.0|0.33|33.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||33.45|0.33|0.3079
82463152|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|8.83||||0.0469|TWO_SIDED|95.0|1.03|75.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||75.68|1.03|0.0469
82463153|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|14.39||||0.0134|TWO_SIDED|95.0|1.74|119.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||119.1|1.74|0.0134
82463154|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.98||||0.1606|TWO_SIDED|95.0|0.53|46.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||46.90|0.53|0.1606
82463155|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|6.69||||0.0854|TWO_SIDED|95.0|0.77|58.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||58.35|0.77|0.0854
82463156|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|6.07||||0.1082|TWO_SIDED|95.0|0.67|54.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||54.72|0.67|0.1082
82463157|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|7.22||||0.0737|TWO_SIDED|95.0|0.83|63.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||63.04|0.83|0.0737
82543935|NCT02528188|164788493|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.05||0.2814|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline PGA and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.05|0.2814
82543936|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4691|TWO_SIDED|95.0|0.89|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2||1.28|0.89|0.4691
82543937|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|0.95||||0.5451|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2||1.13|0.79|0.5451
82543938|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0059|TWO_SIDED|95.0|1.08|1.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4||1.54|1.08|0.0059
82463158|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|11.98||||0.0217|TWO_SIDED|95.0|1.44|99.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||99.74|1.44|0.0217
82463159|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|19.24||||0.0058|TWO_SIDED|95.0|2.36|157.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||157.1|2.36|0.0058
82463160|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.44||||0.1924|TWO_SIDED|95.0|0.47|41.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||41.87|0.47|0.1924
82463161|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|7.54||||0.068|TWO_SIDED|95.0|0.86|66.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||66.00|0.86|0.0680
82463162|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|15.95||||0.0095|TWO_SIDED|95.0|1.97|129.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||129.4|1.97|0.0095
82463163|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.68||||0.269|TWO_SIDED|95.0|0.36|37.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||37.21|0.36|0.2690
82463164|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|10.28||||0.0321|TWO_SIDED|95.0|1.22|86.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||86.53|1.22|0.0321
82463165|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|14.48||||0.0131|TWO_SIDED|95.0|1.75|119.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||119.7|1.75|0.0131
82543939|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0057|TWO_SIDED|95.0|1.08|1.55|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4||1.55|1.08|0.0057
82543940|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1584|TWO_SIDED|95.0|0.95|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8||1.38|0.95|0.1584
82543941|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.3||||0.006||95.0|1.08|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8||1.58|1.08|0.0060
82543942|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1117|TWO_SIDED|95.0|0.96|1.46|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16||1.46|0.96|0.1117
82543943|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1004|TWO_SIDED|95.0|0.97|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16||1.47|0.97|0.1004
82543944|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.05||||0.6258|TWO_SIDED|95.0|0.87|1.25|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24||1.25|0.87|0.6258
82543945|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.16||||0.1154|TWO_SIDED|95.0|0.96|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24||1.39|0.96|0.1154
82543946|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8018|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32||1.22|0.86|0.8018
82543947|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5697|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32||1.26|0.88|0.5697
82543948|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9557|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40||1.20|0.84|0.9557
82463166|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|25.22||||0.0025|TWO_SIDED|95.0|3.11|204.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||204.6|3.11|0.0025
82463167|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.65||||0.1788|TWO_SIDED|95.0|0.49|43.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||43.72|0.49|0.1788
82463168|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|10.33||||0.032|TWO_SIDED|95.0|1.22|87.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||87.31|1.22|0.0320
82463169|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|11.24||||0.0251|TWO_SIDED|95.0|1.35|93.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||93.33|1.35|0.0251
82463170|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.43||||0.6154|TWO_SIDED|95.0|0.35|5.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.83|0.35|0.6154
82463171|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1906|TWO_SIDED|95.0|0.65|8.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.63|0.65|0.1906
82463172|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.67||||0.045|TWO_SIDED|95.0|1.03|13.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.07|1.03|0.0450
82463173|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0017|TWO_SIDED|95.0|2.1|24.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||24.66|2.10|0.0017
82463174|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.8||||0.3939|TWO_SIDED|95.0|0.47|6.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.97|0.47|0.3939
82463175|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.06||||0.2869|TWO_SIDED|95.0|0.55|7.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.74|0.55|0.2869
82543949|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8553|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40||1.22|0.85|0.8553
82463176|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1817|TWO_SIDED|95.0|0.66|8.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.80|0.66|0.1817
82463177|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|11.41||||0.0256|TWO_SIDED|95.0|1.35|96.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||96.77|1.35|0.0256
82463178|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|13.65||||0.0153|TWO_SIDED|95.0|1.65|112.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||112.8|1.65|0.0153
82463179|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|21.76||||0.0042|TWO_SIDED|95.0|2.64|179.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||179.2|2.64|0.0042
82463180|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|35.75||||0.0008|TWO_SIDED|95.0|4.39|291.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||291.5|4.39|0.0008
82463181|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|6.45||||0.0967|TWO_SIDED|95.0|0.71|58.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||58.21|0.71|0.0967
82463182|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|8.3||||0.0564|TWO_SIDED|95.0|0.94|72.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||72.95|0.94|0.0564
82463183|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|23.63||||0.003|TWO_SIDED|95.0|2.93|190.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||190.5|2.93|0.0030
82463184|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|9.72||||0.0384|TWO_SIDED|95.0|1.13|83.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||83.68|1.13|0.0384
82463185|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|13.65||||0.0153|TWO_SIDED|95.0|1.65|112.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||112.9|1.65|0.0153
82463186|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|30.55||||0.0015|TWO_SIDED|95.0|3.72|250.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||250.6|3.72|0.0015
82463187|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|35.99||||0.0008|TWO_SIDED|95.0|4.41|293.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||293.5|4.41|0.0008
82463188|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|12.67||||0.0192|TWO_SIDED|95.0|1.51|106.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||106.1|1.51|0.0192
82463189|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|16.92||||0.0089|TWO_SIDED|95.0|2.03|141.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||141.0|2.03|0.0089
82463190|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|24.96||||0.0025|TWO_SIDED|95.0|3.09|201.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||201.6|3.09|0.0025
82463191|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.03||||0.091|TWO_SIDED|95.0|0.84|10.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.94|0.84|0.0910
82543950|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9901|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48||1.20|0.84|0.9901
82578761|NCT05014568|164866918|SUPERIORITY||Risk Ratio, log|2.17|||<|0.0001|TWO_SIDED|95.0|1.57|3.0|||Cochran-Mantel-Haenszel|Stratified by vIGA-AD score at Baseline (vIGA-AD scores of 3 or 4) and age group (2-6 yrs, 7-11 yrs, 12-17 yrs, 18+ yrs)|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.00|1.57|<0.0001
82463192|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0296|TWO_SIDED|95.0|1.15|13.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.67|1.15|0.0296
82463193|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|8.23||||0.0009|TWO_SIDED|95.0|2.38|28.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||28.44|2.38|0.0009
82463194|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|8.54||||0.0007|TWO_SIDED|95.0|2.46|29.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||29.63|2.46|0.0007
82463195|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.76||||0.4152|TWO_SIDED|95.0|0.45|6.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.86|0.45|0.4152
82463196|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.29||||0.07|TWO_SIDED|95.0|0.91|11.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.93|0.91|0.0700
82463197|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|5.83||||0.0048|TWO_SIDED|95.0|1.71|19.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||19.84|1.71|0.0048
82543951|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|0.95||||0.587|TWO_SIDED|95.0|0.8|1.14|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48||1.14|0.80|0.5870
82543952|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8302|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56||1.22|0.85|0.8302
82463198|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1497|TWO_SIDED|95.0|0.72|8.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.23|0.72|0.1497
82463199|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0608|TWO_SIDED|95.0|0.95|9.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||9.77|0.95|0.0608
82463200|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|5.99||||0.0028|TWO_SIDED|95.0|1.85|19.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||19.34|1.85|0.0028
82463201|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|7.84||||0.0005|TWO_SIDED|95.0|2.45|25.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||25.13|2.45|0.0005
82463202|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8393|TWO_SIDED|95.0|0.3|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.39|0.30|0.8393
82463203|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.01||||0.0215|TWO_SIDED|95.0|1.23|13.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.10|1.23|0.0215
82463204|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.42||||0.0112|TWO_SIDED|95.0|1.4|13.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.94|1.40|0.0112
82463205|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3498|TWO_SIDED|95.0|0.55|5.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.29|0.55|0.3498
82543953|NCT02528188|164788495|SUPERIORITY||Odds Ratio (OR)|0.94||||0.4823|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56||1.12|0.79|0.4823
82578762|NCT05014568|164866919|SUPERIORITY||Least squares mean difference|-6.17|STANDARD_ERROR_OF_MEAN|0.657|<|0.0001|TWO_SIDED|95.0|-7.69|-4.66|||ANCOVA|age\*vIGA cohort and treatment as categorical covariates, and baseline %BSA as a continuous covariate||||-4.66|-7.69|<0.0001
82578763|NCT05014568|164866920|SUPERIORITY||Risk Ratio, log|3.74|||<|0.0001|TWO_SIDED|95.0|1.98|7.09|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||7.09|1.98|<0.0001
82578764|NCT05014568|164866921|SUPERIORITY||Risk Ratio, log|1.54||||0.0366|TWO_SIDED|95.0|1.03|2.31|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||2.31|1.03|0.0366
82463206|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1981|TWO_SIDED|95.0|0.69|6.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.08|0.69|0.1981
82463207|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0029|TWO_SIDED|95.0|1.76|15.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.78|1.76|0.0029
82463208|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|5.95||||0.0011|TWO_SIDED|95.0|2.03|17.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||17.40|2.03|0.0011
82463209|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9511|TWO_SIDED|95.0|0.29|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.23|0.29|0.9511
82543954|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.11||||0.2938|TWO_SIDED|95.0|0.92|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=30% reduction||1.33|0.92|0.2938
82543955|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.91||||0.3146|TWO_SIDED|95.0|0.75|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=30% reduction||1.10|0.75|0.3146
82543956|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0748|TWO_SIDED|95.0|0.98|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=50% reduction||1.58|0.98|0.0748
82463210|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.76||||0.3241|TWO_SIDED|95.0|0.57|5.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.45|0.57|0.3241
82463211|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.9||||0.0111|TWO_SIDED|95.0|1.36|11.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||11.16|1.36|0.0111
82463212|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.51||||0.1375|TWO_SIDED|95.0|0.74|8.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.48|0.74|0.1375
82463213|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.02||||0.067|TWO_SIDED|95.0|0.93|9.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.83|0.93|0.0670
82463214|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|7.57||||0.0009|TWO_SIDED|95.0|2.29|25.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||25.04|2.29|0.0009
82463215|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|9.42||||0.0002|TWO_SIDED|95.0|2.91|30.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||30.49|2.91|0.0002
82463216|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0982|TWO_SIDED|95.0|0.83|9.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.14|0.83|0.0982
82543957|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3|TWO_SIDED|95.0|0.89|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=50% reduction||1.45|0.89|0.3000
82543958|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.23||||0.255|TWO_SIDED|95.0|0.86|1.74|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=70% reduction||1.74|0.86|0.2550
82463217|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1233|TWO_SIDED|95.0|0.77|8.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.80|0.77|0.1233
82463218|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|4.63||||0.0091|TWO_SIDED|95.0|1.46|14.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||14.64|1.46|0.0091
82463219|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.03||||0.962|TWO_SIDED|95.0|0.34|3.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.10|0.34|0.9620
82463220|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3527|TWO_SIDED|95.0|0.58|4.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.59|0.58|0.3527
82543959|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.14||||0.478|TWO_SIDED|95.0|0.8|1.62|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=70% reduction||1.62|0.80|0.4780
82543960|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.3||||0.4006|TWO_SIDED|95.0|0.7|2.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=90% reduction||2.42|0.70|0.4006
82463221|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.04||||0.0394|TWO_SIDED|95.0|1.06|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.76|1.06|0.0394
82463222|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0224|TWO_SIDED|95.0|1.19|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.53|1.19|0.0224
82463223|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7891|TWO_SIDED|95.0|0.39|3.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.44|0.39|0.7891
82463224|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.48||||0.0851|TWO_SIDED|95.0|0.88|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.99|0.88|0.0851
82463225|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2885|TWO_SIDED|95.0|0.63|4.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.83|0.63|0.2885
82463226|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|0.78||||0.8611|TWO_SIDED|95.0|0.05|13.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||13.30|0.05|0.8611
82463227|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.48||||0.7549|TWO_SIDED|95.0|0.13|17.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||17.42|0.13|0.7549
82463228|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|2.07||||0.5658|TWO_SIDED|95.0|0.17|24.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||24.66|0.17|0.5658
82463229|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.83||||0.6319|TWO_SIDED|95.0|0.15|21.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||21.86|0.15|0.6319
82463230|NCT03192176|164625588|SUPERIORITY||Odds Ratio (OR)|1.09||||0.9526|TWO_SIDED|95.0|0.06|18.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||18.96|0.06|0.9526
82463231|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2251|TWO_SIDED|95.0|0.71|4.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||4.26|0.71|0.2251
82463232|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0084|TWO_SIDED|95.0|1.39|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||9.20|1.39|0.0084
82463233|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.71||||0.0007|TWO_SIDED|95.0|2.09|15.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||15.62|2.09|0.0007
82463234|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.11||||0.0015|TWO_SIDED|95.0|1.87|14.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.00|1.87|0.0015
82463235|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6976|TWO_SIDED|95.0|0.48|2.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||2.95|0.48|0.6976
82463236|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.57||||0.0021|TWO_SIDED|95.0|1.73|12.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.05|1.73|0.0021
82463237|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0171|TWO_SIDED|95.0|1.22|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||7.68|1.22|0.0171
82463238|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2224|TWO_SIDED|95.0|0.69|5.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.04|0.69|0.2224
82463239|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.74||||0.2716|TWO_SIDED|95.0|0.65|4.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.69|0.65|0.2716
82463240|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.49||||0.0112|TWO_SIDED|95.0|1.41|14.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.32|1.41|0.0112
82578765|NCT02787044|164866966|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.21|TWO_SIDED|95.0|0.97|1.17|||Regression, Cox|||Note, each participant can be included in the primary analysis up to 3 times (participating seasons).||1.17|0.97|0.21
82463241|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.08||||0.0461|TWO_SIDED|95.0|1.02|9.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.31|1.02|0.0461
82463242|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3463|TWO_SIDED|95.0|0.59|4.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.47|0.59|0.3463
82463243|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0419|TWO_SIDED|95.0|1.04|8.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.92|1.04|0.0419
82463244|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.68||||0.2977|TWO_SIDED|95.0|0.63|4.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.46|0.63|0.2977
82463245|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.87||||0.23|TWO_SIDED|95.0|0.67|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.21|0.67|0.2300
82463246|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.83||||0.0655|TWO_SIDED|95.0|0.94|8.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.58|0.94|0.0655
82463247|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.79||||0.0245|TWO_SIDED|95.0|1.19|12.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.11|1.19|0.0245
82543961|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3089|TWO_SIDED|95.0|0.74|2.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 2: \>=90% reduction||2.54|0.74|0.3089
82543962|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0114|TWO_SIDED|95.0|1.05|1.5|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=30% reduction||1.50|1.05|0.0114
82543963|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.23||||0.0239|TWO_SIDED|95.0|1.03|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=30% reduction||1.47|1.03|0.0239
82463248|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.62||||0.0129|TWO_SIDED|95.0|1.44|21.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.93|1.44|0.0129
82463249|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1259|TWO_SIDED|95.0|0.79|7.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.15|0.79|0.1259
82463250|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1015|TWO_SIDED|95.0|0.84|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.82|0.84|0.1015
82463251|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0167|TWO_SIDED|95.0|1.31|15.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.33|1.31|0.0167
82463252|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5232|TWO_SIDED|95.0|0.5|3.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.95|0.50|0.5232
82543964|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0079|TWO_SIDED|95.0|1.07|1.6|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=50% reduction||1.60|1.07|0.0079
82578766|NCT02787044|164866967|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.44|TWO_SIDED|95.0|0.94|1.15|||Regression, Cox|||||1.15|0.94|0.44
82463253|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.0||||0.2055|TWO_SIDED|95.0|0.68|5.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.82|0.68|0.2055
82463254|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0658|TWO_SIDED|95.0|0.93|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.64|0.93|0.0658
82463255|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|7.34||||0.0136|TWO_SIDED|95.0|1.51|35.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||35.75|1.51|0.0136
82463256|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3238|TWO_SIDED|95.0|0.59|5.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.00|0.59|0.3238
82463257|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0118|TWO_SIDED|95.0|1.48|23.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||23.21|1.48|0.0118
82463258|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.29||||0.0163|TWO_SIDED|95.0|1.36|20.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||20.62|1.36|0.0163
82463259|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6363|TWO_SIDED|95.0|0.42|4.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.18|0.42|0.6363
82463260|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.68||||0.0722|TWO_SIDED|95.0|0.89|15.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.25|0.89|0.0722
82463261|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.35||||0.2019|TWO_SIDED|95.0|0.63|8.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.73|0.63|0.2019
82463262|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|10.15||||0.0337|TWO_SIDED|95.0|1.2|86.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||86.09|1.20|0.0337
82463263|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.25||||0.2207|TWO_SIDED|95.0|0.61|8.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.24|0.61|0.2207
82463264|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.5||||0.0849|TWO_SIDED|95.0|0.84|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.57|0.84|0.0849
82463265|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.47||||0.0844|TWO_SIDED|95.0|0.84|14.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.24|0.84|0.0844
82463266|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2383|TWO_SIDED|95.0|0.6|7.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.65|0.60|0.2383
82463267|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1653|TWO_SIDED|95.0|0.68|9.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.58|0.68|0.1653
82543965|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0068|TWO_SIDED|95.0|1.08|1.6|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=50% reduction||1.60|1.08|0.0068
82543966|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1037|TWO_SIDED|95.0|0.96|1.62|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=70% reduction||1.62|0.96|0.1037
82543967|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0046|TWO_SIDED|95.0|1.12|1.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=70% reduction||1.88|1.12|0.0046
82543968|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1971|TWO_SIDED|95.0|0.85|2.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=90% reduction||2.19|0.85|0.1971
82578767|NCT02787044|164866968|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.16|TWO_SIDED|95.0|0.97|1.2|||Regression, Cox|||Each participant can be analyzed up to three times (seasons)||1.2|.97|0.16
82463268|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1836|TWO_SIDED|95.0|0.65|9.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.48|0.65|0.1836
82463269|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|8.3||||0.0529|TWO_SIDED|95.0|0.97|70.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||70.80|0.97|0.0529
82463270|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3197|TWO_SIDED|95.0|0.52|7.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.27|0.52|0.3197
82463271|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.88||||0.0376|TWO_SIDED|95.0|1.11|31.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||31.25|1.11|0.0376
82463272|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|10.08||||0.0343|TWO_SIDED|95.0|1.19|85.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||85.64|1.19|0.0343
82463273|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4435|TWO_SIDED|95.0|0.49|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.09|0.49|0.4435
82463274|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1805|TWO_SIDED|95.0|0.67|8.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.13|0.67|0.1805
82463275|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0857|TWO_SIDED|95.0|0.84|14.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||14.95|0.84|0.0857
82463276|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|10.5||||0.0316|TWO_SIDED|95.0|1.23|89.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||89.63|1.23|0.0316
82463277|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.81||||0.3471|TWO_SIDED|95.0|0.52|6.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.27|0.52|0.3471
82463278|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|6.15||||0.0313|TWO_SIDED|95.0|1.18|32.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||32.09|1.18|0.0313
82463279|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|12.49||||0.0208|TWO_SIDED|95.0|1.47|106.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||106.3|1.47|0.0208
82463280|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8669|TWO_SIDED|95.0|0.31|3.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.97|0.31|0.8669
82463281|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.34||||0.6592|TWO_SIDED|95.0|0.37|4.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.89|0.37|0.6592
82463282|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.23||||0.2923|TWO_SIDED|95.0|0.5|9.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.98|0.50|0.2923
82463283|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.78||||0.1145|TWO_SIDED|95.0|0.65|51.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||51.04|0.65|0.1145
82463284|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.77||||0.447|TWO_SIDED|95.0|0.4|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.78|0.40|0.4470
82463285|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|7.31||||0.0753|TWO_SIDED|95.0|0.82|65.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||65.41|0.82|0.0753
82578768|NCT02787044|164866969|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.26|TWO_SIDED|95.0|0.96|1.15|||Regression, Cox|||||1.15|.96|0.26
82578769|NCT02787044|164866970|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.96|TWO_SIDED|95.0|0.84|1.21|||Regression, Cox|||||1.21|0.84|0.96
82543969|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.59||||0.048|TWO_SIDED|95.0|1.0|2.52|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 4: \>=90% reduction||2.52|1.00|0.0480
82543970|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4744|TWO_SIDED|95.0|0.89|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=30% reduction||1.28|0.89|0.4744
82543971|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0336|TWO_SIDED|95.0|1.02|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=30% reduction||1.45|1.02|0.0336
82543972|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.2||||0.0559|TWO_SIDED|95.0|1.0|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=50% reduction||1.44|1.00|0.0559
82543973|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0021|TWO_SIDED|95.0|1.11|1.61|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=50% reduction||1.61|1.11|0.0021
82543974|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0535|TWO_SIDED|95.0|1.0|1.59|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=70% reduction||1.59|1.00|0.0535
82543975|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0003|TWO_SIDED|95.0|1.22|1.92|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=70% reduction||1.92|1.22|0.0003
82543976|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.11||||0.6421|TWO_SIDED|95.0|0.72|1.7|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=90% reduction||1.70|0.72|0.6421
82578770|NCT00567567|164866971|SUPERIORITY_OR_OTHER_LEGACY||Log Rank Test Statistic|6.9883||||0.0082|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients randomized to Regimen A - Single HST (CEM) and randomized to Regimen B - Tandem HST (CEM) were compared using the log-rank test.||||0.0082
82463286|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|6.85||||0.0829|TWO_SIDED|95.0|0.78|60.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||60.24|0.78|0.0829
82543977|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.6||||0.0207|TWO_SIDED|95.0|1.07|2.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 8: \>=90% reduction||2.38|1.07|0.0207
82543978|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.15||||0.1635|TWO_SIDED|95.0|0.95|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=30% reduction||1.39|0.95|0.1635
82543979|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0529|TWO_SIDED|95.0|1.0|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=30% reduction||1.47|1.00|0.0529
82543980|NCT02528188|164788496|SUPERIORITY|The two key secondary comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus NSAID and tanezumab 5 mg treatment group versus NSAID) could not be considered significant since preceding tests in the graphical testing procedure were not significant.|Odds Ratio (OR)|1.15||||0.1322|TWO_SIDED|95.0|0.96|1.37|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=50% reduction||1.37|0.96|0.1322
82543981|NCT02528188|164788496|SUPERIORITY|The two key secondary comparisons for 'Participants with \>=50% reduction from baseline in WOMAC Pain at Week 16' (tanezumab 2.5 mg treatment group versus NSAID and tanezumab 5 mg treatment group versus NSAID) could not be considered significant since preceding tests in the graphical testing procedure were not significant.|Odds Ratio (OR)|1.22||||0.0262|TWO_SIDED|95.0|1.02|1.46|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=50% reduction||1.46|1.02|0.0262
82578771|NCT00567567|164866972|SUPERIORITY_OR_OTHER_LEGACY||Chi-squared test statistic|8.5751||||0.0034|TWO_SIDED|95.0|||||Chi-squared|||Chi-square test of proportions in all patients to compare the proportion of responders (complete response \[CR\]+ very good partial response \[VGPR\]) at the end of induction therapy in this study to an analogous cohort of responders in A3973.||||0.0034
82578772|NCT00567567|164866973|SUPERIORITY_OR_OTHER_LEGACY||Gray's test statistic|0.33709||||0.5615|TWO_SIDED|95.0|||||Gray's test for competing risks|||The cumulative incidence rates of local recurrence between patients from ANBL0532 randomized or assigned to receive single CEM transplant and boost radiation and A3973 patients who were transplanted and received boost radiation were compared using Gray's test.||||0.5615
82463287|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9978|TWO_SIDED|95.0|0.28|3.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.59|0.28|0.9978
82463288|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.68||||0.4571|TWO_SIDED|95.0|0.43|6.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.65|0.43|0.4571
82463289|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.99||||0.3681|TWO_SIDED|95.0|0.44|8.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.94|0.44|0.3681
82463290|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|6.12||||0.1038|TWO_SIDED|95.0|0.69|54.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||54.38|0.69|0.1038
82463291|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4639|TWO_SIDED|95.0|0.39|7.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.72|0.39|0.4639
82463292|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|7.15||||0.077|TWO_SIDED|95.0|0.81|63.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||63.27|0.81|0.0770
82463293|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9838|TWO_SIDED|95.0|0.26|4.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.01|0.26|0.9838
82463294|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.77||||0.6995|TWO_SIDED|95.0|0.21|2.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.86|0.21|0.6995
82463295|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8808|TWO_SIDED|95.0|0.26|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.71|0.26|0.8808
82463296|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.94||||0.157|TWO_SIDED|95.0|0.54|45.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||45.13|0.54|0.1570
82463297|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.19||||0.3742|TWO_SIDED|95.0|0.39|12.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.26|0.39|0.3742
82463298|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.24||||0.1436|TWO_SIDED|95.0|0.57|48.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||48.26|0.57|0.1436
82463299|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.57||||0.1277|TWO_SIDED|95.0|0.61|50.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||50.77|0.61|0.1277
82463300|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6689|TWO_SIDED|95.0|0.2|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||2.81|0.20|0.6689
82463301|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.2||||0.8019|TWO_SIDED|95.0|0.29|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.95|0.29|0.8019
82463302|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9591|TWO_SIDED|95.0|0.23|4.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.05|0.23|0.9591
82463303|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.33||||0.3364|TWO_SIDED|95.0|0.42|13.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.06|0.42|0.3364
82463304|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.2||||0.3698|TWO_SIDED|95.0|0.39|12.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.32|0.39|0.3698
82578773|NCT00567567|164866974|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.0557||||0.0939|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.0939
82578774|NCT00567567|164866975|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.0543||||0.3277|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.3277
82463305|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.92||||0.1587|TWO_SIDED|95.0|0.54|45.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||45.01|0.54|0.1587
82578775|NCT00567567|164866976|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4328||||0.7598|TWO_SIDED|95.0|0.4105|5.001|||Fisher Exact|Fisher's exact test was used instead of chi-square test due to small expected cell counts.||Null Hypothesis: The response rate after two cycles of induction therapy and the presence of a polymorphism are independent in the study population||5.001|0.4105|0.7598
82463306|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|5.5||||0.13|TWO_SIDED|95.0|0.61|50.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||50.06|0.61|0.1300
82463307|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.81||||0.4152|TWO_SIDED|95.0|0.43|7.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.53|0.43|0.4152
82463308|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9645|TWO_SIDED|95.0|0.27|3.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.50|0.27|0.9645
82463309|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3884|TWO_SIDED|95.0|0.43|8.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.96|0.43|0.3884
82463310|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.62||||0.267|TWO_SIDED|95.0|0.48|14.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.41|0.48|0.2670
82463311|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|6.91||||0.0861|TWO_SIDED|95.0|0.76|62.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||62.90|0.76|0.0861
82463312|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|7.21||||0.0774|TWO_SIDED|95.0|0.8|64.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||64.66|0.80|0.0774
82463313|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|4.73||||0.0389|TWO_SIDED|95.0|1.08|20.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||20.65|1.08|0.0389
82463314|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.81||||0.3695|TWO_SIDED|95.0|0.5|6.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.57|0.50|0.3695
82463315|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3501|TWO_SIDED|95.0|0.48|7.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.89|0.48|0.3501
82463316|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.49||||0.2021|TWO_SIDED|95.0|0.61|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.14|0.61|0.2021
82578776|NCT00567567|164866980|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.015||||0.6853|TWO_SIDED|95.0|||||Regression, Cox|||The relationship between the peak serum isotretinoin concentration level with event-free survival was explored with a Cox proportional hazards model. Eligible patients treated with isotretinoin on A3973, ANBL0032, ANBL0532, or ANBL0931 with peak serum concentration level data were included in the analysis.||||0.6853
82578777|NCT03433677|164866988|SUPERIORITY||Median Difference (Final Values)|0.0||||0.375|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon signed-rank test|||||0.00|0.00|0.375
82463317|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.42||||0.6201|TWO_SIDED|95.0|0.36|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.62|0.36|0.6201
82463318|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|13.71||||0.0235|TWO_SIDED|95.0|1.42|132.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||132.0|1.42|0.0235
82463319|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.43||||0.0929|TWO_SIDED|95.0|0.81|14.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||14.48|0.81|0.0929
82578778|NCT03433677|164866989|SUPERIORITY|||||||0.468|||||||Prescott's Exact test|||||||0.468
82578779|NCT03433677|164866990|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82578780|NCT03433677|164866991|SUPERIORITY||LSMean Difference|-1.8||||0.304|TWO_SIDED|95.0|-5.3|1.7|||Mixed Models Analysis|||||1.7|-5.3|0.304
82578781|NCT03433677|164866992|SUPERIORITY||LSMean Difference|-2.4||||0.057|TWO_SIDED|95.0|-4.8|0.1|||Mixed Models Analysis|||||0.1|-4.8|0.057
82578782|NCT03433677|164866993|SUPERIORITY||LSMeans|0.11||||0.177|TWO_SIDED|95.0|-0.05|0.27|||Mixed Models Analysis||LSMean Difference|||0.27|-0.05|0.177
82463320|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.99||||0.982|TWO_SIDED|95.0|0.29|3.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.33|0.29|0.9820
82463321|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.55||||0.4956|TWO_SIDED|95.0|0.44|5.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.41|0.44|0.4956
82463322|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5708|TWO_SIDED|95.0|0.2|2.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.44|0.20|0.5708
82463323|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1985|TWO_SIDED|95.0|0.61|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||10.61|0.61|0.1985
82463324|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8368|TWO_SIDED|95.0|0.31|4.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.32|0.31|0.8368
82463325|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|3.18||||0.1397|TWO_SIDED|95.0|0.68|14.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||14.76|0.68|0.1397
82463326|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.88||||0.0366|TWO_SIDED|95.0|0.52|6.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.85|0.52|0.0366
82463327|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.84||||0.7968|TWO_SIDED|95.0|0.23|3.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.05|0.23|0.7968
82463328|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9074|TWO_SIDED|95.0|0.3|3.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.81|0.30|0.9074
82463329|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.41||||0.1987|TWO_SIDED|95.0|0.1|1.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.60|0.10|0.1987
82463330|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|2.58||||0.204|TWO_SIDED|95.0|0.6|11.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||11.18|0.60|0.2040
82463331|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|0.51||||0.3318|TWO_SIDED|95.0|0.13|1.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.99|0.13|0.3318
82463332|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7437|TWO_SIDED|95.0|0.31|5.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.10|0.31|0.7437
82463333|NCT03192176|164625589|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6848|TWO_SIDED|95.0|0.36|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.71|0.36|0.6848
82463334|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1114|TWO_SIDED|95.0|0.84|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.32|0.84|0.1114
82578783|NCT04552899|164867003|SUPERIORITY||Difference in Change from Baseline|-20.83|STANDARD_ERROR_OF_MEAN|34.11||0.54|TWO_SIDED|95.0|-87.94|46.29|||RCRM|Random Coefficient Regression Model (RCRM)||||46.29|-87.94|0.54
82463335|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.69||||0.0013|TWO_SIDED|95.0|1.83|12.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.04|1.83|0.0013
82578784|NCT04552899|164867006|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.2512|TWO_SIDED|95.0|0.91|1.47|||Log Rank|||||1.47|0.91|0.2512
82578785|NCT04552899|164867007|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9833|TWO_SIDED|95.0|0.51|1.97|||Log Rank|||||1.97|0.51|0.9833
82578786|NCT04552899|164867010|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.7005|TWO_SIDED|95.0|0.4|1.86|||Log Rank|||||1.86|0.40|0.7005
82578787|NCT00731133|164867020|SUPERIORITY_OR_OTHER||Slope|2.6466|STANDARD_ERROR_OF_MEAN|0.9016||0.05|TWO_SIDED|95.0|0.7858|4.5073|||Mixed Models Analysis|7,24||Open-label study testing for change in side-effects ratings over time (i.e., slope).||4.5073|.7858|0.05
82463336|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|7.01|||<|0.0001|TWO_SIDED|95.0|2.65|18.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.54|2.65|<0.0001
82463337|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.96||||0.001|TWO_SIDED|95.0|1.91|12.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.89|1.91|0.0010
82463338|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.25||||0.6384|TWO_SIDED|95.0|0.49|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||3.22|0.49|0.6384
82463339|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|5.77||||0.0003|TWO_SIDED|95.0|2.23|14.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.93|2.23|0.0003
82463340|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0025|TWO_SIDED|95.0|1.65|10.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||10.45|1.65|0.0025
82463341|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0279|TWO_SIDED|95.0|1.12|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.12|1.12|0.0279
82463342|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0114|TWO_SIDED|95.0|1.31|8.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.61|1.31|0.0114
82463343|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|7.55||||0.0001|TWO_SIDED|95.0|2.66|21.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||21.45|2.66|0.0001
82463344|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|6.41||||0.0005|TWO_SIDED|95.0|2.25|18.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||18.26|2.25|0.0005
82463345|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0695|TWO_SIDED|95.0|0.93|6.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.02|0.93|0.0695
82463346|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.83||||0.0015|TWO_SIDED|95.0|1.83|12.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.77|1.83|0.0015
82463347|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.28||||0.012|TWO_SIDED|95.0|1.3|8.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.28|1.30|0.0120
82463348|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.49||||0.662|TWO_SIDED|95.0|0.94|6.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.57|0.94|0.662
82463349|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1019|TWO_SIDED|95.0|0.85|5.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.80|0.85|0.1019
82578788|NCT00731133|164867021|SUPERIORITY_OR_OTHER||Slope|-0.373|STANDARD_ERROR_OF_MEAN|0.2196||0.05|TWO_SIDED|95.0|-0.8075|0.0615|||Mixed Models Analysis|7,24||Open label study testing changes in amphetamine use over time (i.e., slope).||0.06150|-0.8075|0.05
82463350|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0023|TWO_SIDED|95.0|1.83|16.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.18|1.83|0.0023
82463351|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|7.33||||0.0015|TWO_SIDED|95.0|2.15|25.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||25.02|2.15|0.0015
82463352|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.78||||0.238|TWO_SIDED|95.0|0.68|4.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||4.66|0.68|0.2380
82463353|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.61||||0.012|TWO_SIDED|95.0|1.33|9.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.81|1.33|0.0120
82578789|NCT01725126|164867067|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-1.38|1.75|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in body weight.||1.75|-1.38|
82463354|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.25||||0.091|TWO_SIDED|95.0|0.88|5.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.77|0.88|0.0910
82463355|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.93||||0.1926|TWO_SIDED|95.0|0.72|5.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.18|0.72|0.1926
82463356|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1017|TWO_SIDED|95.0|0.85|6.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.15|0.85|0.1017
82463357|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0153|TWO_SIDED|95.0|1.29|11.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.45|1.29|0.0153
82463358|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|7.52||||0.0034|TWO_SIDED|95.0|1.95|28.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||28.98|1.95|0.0034
82463359|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4539|TWO_SIDED|95.0|0.55|3.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.76|0.55|0.4539
82463360|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.03||||0.0327|TWO_SIDED|95.0|1.1|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.40|1.10|0.0327
82463361|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0555|TWO_SIDED|95.0|0.98|7.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.30|0.98|0.0555
82463362|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.64||||0.3505|TWO_SIDED|95.0|0.58|4.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.67|0.58|0.3505
82463363|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0265|TWO_SIDED|95.0|1.17|13.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.11|1.17|0.0265
82463364|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0174|TWO_SIDED|95.0|1.32|17.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||17.32|1.32|0.0174
82463365|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|8.95||||0.0075|TWO_SIDED|95.0|1.8|44.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||44.61|1.80|0.0075
82463366|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1228|TWO_SIDED|95.0|0.78|7.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.68|0.78|0.1228
82463367|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0431|TWO_SIDED|95.0|1.04|10.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.38|1.04|0.0431
82463368|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0851|TWO_SIDED|95.0|0.87|8.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.35|0.87|0.0851
82463369|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.45||||0.4726|TWO_SIDED|95.0|0.53|3.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.99|0.53|0.4726
82463370|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1289|TWO_SIDED|95.0|0.79|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.67|0.79|0.1289
82650178|NCT04549259|165015454|SUPERIORITY||B|-0.42|STANDARD_ERROR_OF_MEAN|2.78||0.88|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.88
82650179|NCT04549259|165015454|SUPERIORITY||B|0.38|STANDARD_ERROR_OF_MEAN|2.8||0.89|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.89
82463371|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.39||||0.04|TWO_SIDED|95.0|1.06|10.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.84|1.06|0.0400
82463372|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|8.22||||0.0097|TWO_SIDED|95.0|1.67|40.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||40.55|1.67|0.0097
82463373|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.97||||0.226|TWO_SIDED|95.0|0.66|5.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.94|0.66|0.2260
82463374|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|8.63||||0.0031|TWO_SIDED|95.0|2.07|35.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||35.96|2.07|0.0031
82463375|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|10.16||||0.0043|TWO_SIDED|95.0|2.07|49.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||49.90|2.07|0.0043
82463376|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5571|TWO_SIDED|95.0|0.47|4.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.04|0.47|0.5571
82463377|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1911|TWO_SIDED|95.0|0.69|6.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.59|0.69|0.1911
82463378|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.74||||0.1101|TWO_SIDED|95.0|0.8|9.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.41|0.80|0.1101
82463379|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|6.86||||0.0199|TWO_SIDED|95.0|1.36|34.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||34.74|1.36|0.0199
82463380|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.96||||0.26|TWO_SIDED|95.0|0.61|6.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.33|0.61|0.2600
82578790|NCT01725126|164867067|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|1.08|||||TWO_SIDED|95.0|-0.2|2.36|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in body weight.||2.36|-0.20|
82463381|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|8.93||||0.009|TWO_SIDED|95.0|1.73|46.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||46.19|1.73|0.0090
82463382|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|17.22||||0.0089|TWO_SIDED|95.0|2.04|145.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||145.2|2.04|0.0089
82543982|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9805|TWO_SIDED|95.0|0.83|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=70% reduction||1.22|0.83|0.9805
82543983|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0033|TWO_SIDED|95.0|1.1|1.61|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=70% reduction||1.61|1.10|0.0033
82543984|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.24||||0.159|TWO_SIDED|95.0|0.92|1.69|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=90% reduction||1.69|0.92|0.1590
82543985|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.57||||0.0024|TWO_SIDED|95.0|1.17|2.11|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 16: \>=90% reduction||2.11|1.17|0.0024
82543986|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|95.0|0.83|1.2|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=30% reduction||1.20|0.83|0.9932
82543987|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4374|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=30% reduction||1.29|0.90|0.4374
82543988|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4406|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=50% reduction||1.28|0.90|0.4406
82543989|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4078|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=50% reduction||1.29|0.90|0.4078
82463383|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8966|TWO_SIDED|95.0|0.36|3.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.19|0.36|0.8966
82543990|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4071|TWO_SIDED|95.0|0.89|1.31|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=70% reduction||1.31|0.89|0.4071
82463384|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.47||||0.5031|TWO_SIDED|95.0|0.48|4.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.51|0.48|0.5031
82543991|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0248|TWO_SIDED|95.0|1.03|1.5|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=70% reduction||1.50|1.03|0.0248
82543992|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.88||||0.3641|TWO_SIDED|95.0|0.66|1.16|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=90% reduction||1.16|0.66|0.3641
82543993|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2497|TWO_SIDED|95.0|0.89|1.53|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 24: \>=90% reduction||1.53|0.89|0.2497
82543994|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8682|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=30% reduction||1.21|0.85|0.8682
82543995|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7317|TWO_SIDED|95.0|0.81|1.16|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=30% reduction||1.16|0.81|0.7317
82543996|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6493|TWO_SIDED|95.0|0.87|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=50% reduction||1.24|0.87|0.6493
82463385|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2603|TWO_SIDED|95.0|0.59|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.92|0.59|0.2603
82463386|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.16||||0.2447|TWO_SIDED|95.0|0.59|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.88|0.59|0.2447
82463387|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.64||||0.4239|TWO_SIDED|95.0|0.49|5.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.55|0.49|0.4239
82463388|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|11.72||||0.024|TWO_SIDED|95.0|1.38|99.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||99.35|1.38|0.0240
82463389|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1457|TWO_SIDED|95.0|0.72|9.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.41|0.72|0.1457
82463390|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9|TWO_SIDED|95.0|0.34|3.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.38|0.34|0.9000
82463391|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7644|TWO_SIDED|95.0|0.39|3.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.64|0.39|0.7644
82463392|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.29||||0.2245|TWO_SIDED|95.0|0.6|8.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.67|0.60|0.2245
82463393|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0475|TWO_SIDED|95.0|1.02|27.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||27.40|1.02|0.0475
82463394|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.15||||0.2569|TWO_SIDED|95.0|0.57|8.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.07|0.57|0.2569
82463395|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|9.32||||0.0412|TWO_SIDED|95.0|1.09|79.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||79.44|1.09|0.0412
82463396|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1201|TWO_SIDED|95.0|0.76|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.61|0.76|0.1201
82543997|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.98||||0.7973|TWO_SIDED|95.0|0.82|1.17|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=50% reduction||1.17|0.82|0.7973
82543998|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0757|TWO_SIDED|95.0|0.98|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=70% reduction||1.45|0.98|0.0757
82463397|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3814|TWO_SIDED|95.0|0.53|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.23|0.53|0.3814
82463398|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8549|TWO_SIDED|95.0|0.38|3.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.23|0.38|0.8549
82463399|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.77||||0.1274|TWO_SIDED|95.0|0.75|10.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.24|0.75|0.1274
82463400|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0703|TWO_SIDED|95.0|0.9|15.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.01|0.90|0.0703
82543999|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0578|TWO_SIDED|95.0|0.99|1.47|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=70% reduction||1.47|0.99|0.0578
82463401|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1821|TWO_SIDED|95.0|0.66|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.76|0.66|0.1821
82463402|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|12.96||||0.0187|TWO_SIDED|95.0|1.53|109.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||109.5|1.53|0.0187
82463403|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|4.18||||0.0458|TWO_SIDED|95.0|1.03|17.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||17.00|1.03|0.0458
82463404|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6806|TWO_SIDED|95.0|0.41|3.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.89|0.41|0.6806
82544000|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.02||||0.901|TWO_SIDED|95.0|0.76|1.37|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=90% reduction||1.37|0.76|0.9010
82544001|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0548|TWO_SIDED|95.0|0.99|1.74|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 32: \>=90% reduction||1.74|0.99|0.0548
82544002|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7331|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=30% reduction||1.23|0.86|0.7331
82544003|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.98||||0.8632|TWO_SIDED|95.0|0.82|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=30% reduction||1.18|0.82|0.8632
82544004|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6262|TWO_SIDED|95.0|0.88|1.25|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=50% reduction||1.25|0.88|0.6262
82544005|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6817|TWO_SIDED|95.0|0.81|1.15|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=50% reduction||1.15|0.81|0.6817
82463405|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.15||||0.809|TWO_SIDED|95.0|0.38|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.45|0.38|0.8090
82463406|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.22||||0.2352|TWO_SIDED|95.0|0.6|8.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.26|0.60|0.2352
82544006|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.03||||0.799|TWO_SIDED|95.0|0.85|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=70% reduction||1.24|0.85|0.7990
82544007|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6786|TWO_SIDED|95.0|0.86|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=70% reduction||1.26|0.86|0.6786
82578791|NCT01725126|164867068|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-1.64|1.87|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 percent change from Baseline in body weight.||1.87|-1.64|
82463407|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.04||||0.1231|TWO_SIDED|95.0|0.74|12.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.50|0.74|0.1231
82463408|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.86||||0.1445|TWO_SIDED|95.0|0.7|11.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||11.76|0.70|0.1445
82544008|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.04||||0.8069|TWO_SIDED|95.0|0.78|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=90% reduction||1.38|0.78|0.8069
82463409|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|12.03||||0.023|TWO_SIDED|95.0|1.41|102.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||102.7|1.41|0.0230
82463410|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.51||||0.0801|TWO_SIDED|95.0|0.86|14.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||14.36|0.86|0.0801
82463411|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.63||||0.4152|TWO_SIDED|95.0|0.5|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.32|0.50|0.4152
82463412|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.7||||0.3845|TWO_SIDED|95.0|0.51|5.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.65|0.51|0.3845
82463413|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1864|TWO_SIDED|95.0|0.65|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.39|0.65|0.1864
82463414|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.06||||0.01268|TWO_SIDED|95.0|0.73|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.86|0.73|0.01268
82463415|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.8||||0.16|TWO_SIDED|95.0|0.67|11.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.76|0.67|0.1600
82463416|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|6.13||||0.0317|TWO_SIDED|95.0|1.17|32.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||32.11|1.17|0.0317
82463417|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0709|TWO_SIDED|95.0|0.89|15.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||15.53|0.89|0.0709
82544009|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2951|TWO_SIDED|95.0|0.88|1.54|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 40: \>=90% reduction||1.54|0.88|0.2951
82463418|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.6||||0.4533|TWO_SIDED|95.0|0.47|5.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.41|0.47|0.4533
82463419|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7053|TWO_SIDED|95.0|0.24|2.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||2.60|0.24|0.7053
82463420|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3677|TWO_SIDED|95.0|0.49|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.99|0.49|0.3677
82463421|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.24||||0.735|TWO_SIDED|95.0|0.35|4.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||4.40|0.35|0.7350
82463422|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.37||||0.6443|TWO_SIDED|95.0|0.36|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.15|0.36|0.6443
82463423|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4865|TWO_SIDED|95.0|0.43|5.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.76|0.43|0.4865
82463424|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.52||||0.1628|TWO_SIDED|95.0|0.69|9.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.27|0.69|0.1628
82544010|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9093|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=30% reduction||1.21|0.85|0.9093
82463425|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.79||||0.6935|TWO_SIDED|95.0|0.24|2.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.57|0.24|0.6935
82463426|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9753|TWO_SIDED|95.0|0.32|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.28|0.32|0.9753
82463427|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.81||||0.7407|TWO_SIDED|95.0|0.23|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.81|0.23|0.7407
82463428|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.55||||0.4929|TWO_SIDED|95.0|0.44|5.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.49|0.44|0.4929
82463429|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8496|TWO_SIDED|95.0|0.25|3.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.15|0.25|0.8496
82463430|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|1.92||||0.3248|TWO_SIDED|95.0|0.52|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.05|0.52|0.3248
82463431|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2589|TWO_SIDED|95.0|0.59|6.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.92|0.59|0.2589
82463432|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3318|TWO_SIDED|95.0|0.16|1.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.87|0.16|0.3318
82463433|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8536|TWO_SIDED|95.0|0.26|3.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.01|0.26|0.8536
82463434|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2817|TWO_SIDED|95.0|0.12|1.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.84|0.12|0.2817
82544011|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5032|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=30% reduction||1.12|0.79|0.5032
82463435|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.59||||0.4091|TWO_SIDED|95.0|0.17|2.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.07|0.17|0.4091
82463436|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.5||||0.3147|TWO_SIDED|95.0|0.13|1.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.93|0.13|0.3147
82463437|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8547|TWO_SIDED|95.0|0.24|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.24|0.24|0.8547
82463438|NCT03192176|164625590|SUPERIORITY||Odds Ratio (OR)|0.66||||0.5023|TWO_SIDED|95.0|0.2|2.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.19|0.20|0.5023
82463439|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0093|TWO_SIDED|95.0|1.41|11.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||11.35|1.41|0.0093
82463440|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0035|TWO_SIDED|95.0|1.66|13.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||13.09|1.66|0.0035
82544012|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4382|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=50% reduction||1.28|0.90|0.4382
82463441|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|8.48|||<|0.0001|TWO_SIDED|95.0|3.01|23.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.90|3.01|<0.0001
82463442|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|7.57||||0.0002|TWO_SIDED|95.0|2.65|21.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||21.59|2.65|0.0002
82463443|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.13||||0.1664|TWO_SIDED|95.0|0.73|6.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.22|0.73|0.1664
82463444|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0012|TWO_SIDED|95.0|1.94|14.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.96|1.94|0.0012
82463445|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|9.85|||<|0.0001|TWO_SIDED|95.0|3.49|27.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||27.86|3.49|<0.0001
82463446|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.73||||0.0334|TWO_SIDED|95.0|1.08|6.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.89|1.08|0.0334
82463447|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0034|TWO_SIDED|95.0|1.6|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.62|1.60|0.0034
82463448|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|6.55||||0.0002|TWO_SIDED|95.0|2.45|17.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||17.47|2.45|0.0002
82463449|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.9||||0.0014|TWO_SIDED|95.0|1.85|12.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.98|1.85|0.0014
82463450|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0872|TWO_SIDED|95.0|0.89|5.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.74|0.89|0.0872
82463451|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0131|TWO_SIDED|95.0|1.28|7.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.98|1.28|0.0131
82463452|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0386|TWO_SIDED|95.0|1.05|6.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.43|1.05|0.0386
82544013|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.95||||0.5638|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=50% reduction||1.13|0.79|0.5638
82578792|NCT01725126|164867068|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|-0.24|2.75|||ANCOVA|Repeated measures analysis of variance was used with terms for treatment, visit, treatment by visit interaction and Baseline.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 percent change from Baseline in body weight.||2.75|-0.24|
82463453|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0191|TWO_SIDED|95.0|1.2|8.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.05|1.20|0.0191
82463454|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0291|TWO_SIDED|95.0|1.11|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.26|1.11|0.0291
82463455|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0004|TWO_SIDED|95.0|2.23|16.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||16.58|2.23|0.0004
82578793|NCT01725126|164867069|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.182|||||TWO_SIDED|95.0|-1.694|1.331|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in AUC (0-4 hour) weighted mean glucose.||1.331|-1.694|
82544014|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.05||||0.6436|TWO_SIDED|95.0|0.86|1.27|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=70% reduction||1.27|0.86|0.6436
82544015|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.04||||0.706|TWO_SIDED|95.0|0.85|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=70% reduction||1.26|0.85|0.7060
82544016|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.96||||0.7729|TWO_SIDED|95.0|0.72|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=90% reduction||1.28|0.72|0.7729
82544017|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.6405|TWO_SIDED|95.0|0.81|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 48: \>=90% reduction||1.42|0.81|0.6405
82544018|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9046|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=30% reduction||1.21|0.85|0.9046
82544019|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.93||||0.4491|TWO_SIDED|95.0|0.78|1.11|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=30% reduction||1.11|0.78|0.4491
82544020|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7429|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=50% reduction||1.23|0.86|0.7429
82544021|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.92||||0.3467|TWO_SIDED|95.0|0.77|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=50% reduction||1.10|0.77|0.3467
82544022|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7624|TWO_SIDED|95.0|0.85|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=70% reduction||1.26|0.85|0.7624
82544023|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7686|TWO_SIDED|95.0|0.8|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=70% reduction||1.18|0.80|0.7686
82544024|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9384|TWO_SIDED|95.0|0.74|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=90% reduction||1.33|0.74|0.9384
82544025|NCT02528188|164788496|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8495|TWO_SIDED|95.0|0.77|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.|Week 56: \>=90% reduction||1.38|0.77|0.8495
82544026|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0651|TWO_SIDED|95.0|0.99|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=30% reduction||1.44|0.99|0.0651
82544027|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9032|TWO_SIDED|95.0|0.84|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=30% reduction||1.22|0.84|0.9032
82544028|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.36||||0.01|TWO_SIDED|95.0|1.08|1.72|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=50% reduction||1.72|1.08|0.0100
82544029|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.12||||0.3728|TWO_SIDED|95.0|0.88|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=50% reduction||1.42|0.88|0.3728
82544030|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0434|TWO_SIDED|95.0|1.01|2.04|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=70% reduction||2.04|1.01|0.0434
82544031|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0425|TWO_SIDED|95.0|1.01|2.04|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=70% reduction||2.04|1.01|0.0425
82463456|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|7.24||||0.0003|TWO_SIDED|95.0|2.49|21.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||21.02|2.49|0.0003
82463457|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.22||||0.0992|TWO_SIDED|95.0|0.86|5.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||5.72|0.86|0.0992
82463458|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|5.66||||0.0006|TWO_SIDED|95.0|2.11|15.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.16|2.11|0.0006
82463459|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.74||||0.006|TWO_SIDED|95.0|1.46|9.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.59|1.46|0.0060
82463460|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.01||||0.1472|TWO_SIDED|95.0|0.78|5.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.14|0.78|0.1472
82463461|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1284|TWO_SIDED|95.0|0.81|5.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.15|0.81|0.1284
82463462|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0117|TWO_SIDED|95.0|1.32|9.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||9.50|1.32|0.0117
82463463|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0067|TWO_SIDED|95.0|1.49|12.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||12.03|1.49|0.0067
82463464|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4088|TWO_SIDED|95.0|0.59|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||3.71|0.59|0.4088
82463465|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0194|TWO_SIDED|95.0|1.2|7.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.96|1.20|0.0194
82463466|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0423|TWO_SIDED|95.0|1.03|6.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.73|1.03|0.0423
82544032|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5442|TWO_SIDED|95.0|0.64|2.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=90% reduction||2.34|0.64|0.5442
82544033|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0349|TWO_SIDED|95.0|1.05|3.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 2: \>=90% reduction||3.45|1.05|0.0349
82463467|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.86||||0.2151|TWO_SIDED|95.0|0.7|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.99|0.70|0.2151
82463468|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0531|TWO_SIDED|95.0|0.99|7.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.42|0.99|0.0531
82544034|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0108|TWO_SIDED|95.0|1.05|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=30% reduction||1.51|1.05|0.0108
82544035|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.27||||0.008|TWO_SIDED|95.0|1.07|1.52|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=30% reduction||1.52|1.07|0.0080
82544036|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.5|||<|0.0001|TWO_SIDED|95.0|1.22|1.83|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=50% reduction||1.83|1.22|<0.0001
82544037|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.51|||<|0.0001|TWO_SIDED|95.0|1.24|1.85|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=50% reduction||1.85|1.24|<0.0001
82544038|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.45||||0.006|TWO_SIDED|95.0|1.11|1.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=70% reduction||1.88|1.11|0.0060
82544039|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0031|TWO_SIDED|95.0|1.14|1.93|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=70% reduction||1.93|1.14|0.0031
82544040|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0235|TWO_SIDED|95.0|1.08|2.88|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=90% reduction||2.88|1.08|0.0235
82544041|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0021|TWO_SIDED|95.0|1.31|3.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 4: \>=90% reduction||3.42|1.31|0.0021
82544042|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7613|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=30% reduction||1.23|0.86|0.7613
82544043|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0548|TWO_SIDED|95.0|1.0|1.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=30% reduction||1.43|1.00|0.0548
82544044|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0196|TWO_SIDED|95.0|1.04|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=50% reduction||1.51|1.04|0.0196
82544045|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.45|||<|0.0001|TWO_SIDED|95.0|1.2|1.75|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=50% reduction||1.75|1.20|<0.0001
82544046|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0077||95.0|1.09|1.77|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=70% reduction||1.77|1.09|0.0077
82544047|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.65|||<|0.0001|TWO_SIDED|95.0|1.3|2.09|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=70% reduction||2.09|1.30|<0.0001
82544048|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.31||||0.1942|TWO_SIDED|95.0|0.87|1.96|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=90% reduction||1.96|0.87|0.1942
82544049|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0122|TWO_SIDED|95.0|1.11|2.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 8: \>=90% reduction||2.43|1.11|0.0122
82544050|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.18||||0.0977|TWO_SIDED|95.0|0.97|1.43|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=30% reduction||1.43|0.97|0.0977
82544051|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.19||||0.0806|TWO_SIDED|95.0|0.98|1.44|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=30% reduction||1.44|0.98|0.0806
82544052|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.12||||0.2097|TWO_SIDED|95.0|0.94|1.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=50% reduction||1.34|0.94|0.2097
82544053|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0135|TWO_SIDED|95.0|1.05|1.49|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=50% reduction||1.49|1.05|0.0135
82544054|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.1||||0.3571|TWO_SIDED|95.0|0.9|1.33|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=70% reduction||1.33|0.90|0.3571
82544055|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0025|TWO_SIDED|95.0|1.11|1.63|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=70% reduction||1.63|1.11|0.0025
82578794|NCT01725126|164867069|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.356|||||TWO_SIDED|95.0|-1.409|0.698|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in AUC (0-24 hour) weighted mean glucose.||0.698|-1.409|
82463469|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0118|TWO_SIDED|95.0|1.37|12.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||12.34|1.37|0.0118
82463470|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|16.28||||0.0006|TWO_SIDED|95.0|3.29|80.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||80.46|3.29|0.0006
82463471|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3698|TWO_SIDED|95.0|0.59|4.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.22|0.59|0.3698
82463472|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0059|TWO_SIDED|95.0|1.55|13.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.53|1.55|0.0059
82544056|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4658|TWO_SIDED|95.0|0.83|1.49|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=90% reduction||1.49|0.83|0.4658
82544057|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0108|TWO_SIDED|95.0|1.09|1.9|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 16: \>=90% reduction||1.90|1.09|0.0108
82544058|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8393|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=30% reduction||1.22|0.85|0.8393
82578795|NCT01725126|164867069|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.853|||||TWO_SIDED|95.0|-2.232|0.526|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in AUC (0-4 hour) weighted mean glucose.||0.526|-2.232|
82463473|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0241|TWO_SIDED|95.0|1.17|9.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.44|1.17|0.0241
82463474|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.38||||0.5308|TWO_SIDED|95.0|0.5|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.77|0.50|0.5308
82463475|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.09||||0.8603|TWO_SIDED|95.0|0.41|2.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||2.90|0.41|0.8603
82463476|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.73||||0.0264|TWO_SIDED|95.0|1.17|11.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.95|1.17|0.0264
82544059|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.1||||0.2977|TWO_SIDED|95.0|0.92|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=30% reduction||1.32|0.92|0.2977
82544060|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.12||||0.1944|TWO_SIDED|95.0|0.94|1.34|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=50% reduction||1.34|0.94|0.1944
82544061|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5714|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=50% reduction||1.26|0.88|0.5714
82544062|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.12||||0.2472|TWO_SIDED|95.0|0.92|1.36|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=70% reduction||1.36|0.92|0.2472
82544063|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0235|TWO_SIDED|95.0|1.03|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=70% reduction||1.51|1.03|0.0235
82544064|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.13||||0.4074|TWO_SIDED|95.0|0.85|1.51|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=90% reduction||1.51|0.85|0.4074
82544065|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0296|TWO_SIDED|95.0|1.03|1.81|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 24: \>=90% reduction||1.81|1.03|0.0296
82544066|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7607|TWO_SIDED|95.0|0.86|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=30% reduction||1.23|0.86|0.7607
82544067|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.02||||0.7979|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=30% reduction||1.22|0.86|0.7979
82578796|NCT01725126|164867069|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-1.219|||||TWO_SIDED|95.0|-2.447|0.009|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in AUC (0-24 hour) weighted mean glucose.||0.009|-2.447|
82578797|NCT01725126|164867070|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|0.155|||||TWO_SIDED|95.0|-1.277|1.587|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B -Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in fasting glucose.||1.587|-1.277|
82578798|NCT01725126|164867070|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.524|||||TWO_SIDED|95.0|-1.939|0.892|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in fasting glucose.||0.892|-1.939|
82544068|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.1||||0.2964|TWO_SIDED|95.0|0.92|1.31|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=50% reduction||1.31|0.92|0.2964
82544069|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.04||||0.695|TWO_SIDED|95.0|0.87|1.24|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=50% reduction||1.24|0.87|0.6950
82544070|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1985|TWO_SIDED|95.0|0.93|1.38|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=70% reduction||1.38|0.93|0.1985
82544071|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.17||||0.1239|TWO_SIDED|95.0|0.96|1.42|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=70% reduction||1.42|0.96|0.1239
82544072|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2762|TWO_SIDED|95.0|0.88|1.58|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=90% reduction||1.58|0.88|0.2762
82544073|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.44||||0.0121|TWO_SIDED|95.0|1.08|1.91|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 32: \>=90% reduction||1.91|1.08|0.0121
82544074|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8443|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=30% reduction||1.22|0.85|0.8443
82544075|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8472|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=30% reduction||1.22|0.85|0.8472
82544076|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.01||||0.898|TWO_SIDED|95.0|0.85|1.21|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=50% reduction||1.21|0.85|0.8980
82544077|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9385|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=50% reduction||1.19|0.83|0.9385
82544078|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4261|TWO_SIDED|95.0|0.89|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=70% reduction||1.32|0.89|0.4261
82544079|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.07||||0.525|TWO_SIDED|95.0|0.88|1.3|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=70% reduction||1.30|0.88|0.5250
82544080|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6273|TWO_SIDED|95.0|0.8|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=90% reduction||1.45|0.80|0.6273
82544081|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0132|TWO_SIDED|95.0|1.08|1.9|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 40: \>=90% reduction||1.90|1.08|0.0132
82544082|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9095|TWO_SIDED|95.0|0.83|1.18|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=30% reduction||1.18|0.83|0.9095
82578799|NCT01725126|164867072|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.065|||||TWO_SIDED|95.0|-0.495|0.365|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part B-GSK2890457+Liraglutide minus Part B-Placebo+Liraglutide.|Part B-Placebo+Liraglutide versus Part B-GSK2890457+Liraglutide for Day 42 change from Baseline in HbA1c.||0.365|-0.495|
82544083|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5098|TWO_SIDED|95.0|0.79|1.12|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=30% reduction||1.12|0.79|0.5098
82544084|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.07||||0.4488|TWO_SIDED|95.0|0.9|1.28|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=50% reduction||1.28|0.90|0.4488
82544085|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9757|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=50% reduction||1.19|0.83|0.9757
82544086|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.14||||0.1843|TWO_SIDED|95.0|0.94|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=70% reduction||1.39|0.94|0.1843
82544087|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.08||||0.4356|TWO_SIDED|95.0|0.89|1.32|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=70% reduction||1.32|0.89|0.4356
82544088|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6342|TWO_SIDED|95.0|0.8|1.45|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=90% reduction||1.45|0.80|0.6342
82544089|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.29||||0.081|TWO_SIDED|95.0|0.97|1.73|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 48: \>=90% reduction||1.73|0.97|0.0810
82463477|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0188|TWO_SIDED|95.0|1.29|16.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.42|1.29|0.0188
82544090|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6527|TWO_SIDED|95.0|0.8|1.15|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=30% reduction||1.15|0.80|0.6527
82544091|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.92||||0.3857|TWO_SIDED|95.0|0.77|1.1|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=30% reduction||1.10|0.77|0.3857
82544092|NCT02528188|164788498|SUPERIORITY||Odds Ratio, log|1.06||||0.528|TWO_SIDED|95.0|0.89|1.27|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=50% reduction||1.27|0.89|0.5280
82544093|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|0.94||||0.5355|TWO_SIDED|95.0|0.79|1.13|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=50% reduction||1.13|0.79|0.5355
82544094|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7732|TWO_SIDED|95.0|0.84|1.26|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=70% reduction||1.26|0.84|0.7732
82544095|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9397|TWO_SIDED|95.0|0.82|1.23|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=70% reduction||1.23|0.82|0.9397
82544096|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9044|TWO_SIDED|95.0|0.75|1.39|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=90% reduction||1.39|0.75|0.9044
82544097|NCT02528188|164788498|SUPERIORITY||Odds Ratio (OR)|1.16||||0.3193|TWO_SIDED|95.0|0.86|1.57|||Regression, Logistic||OR and 95% CI estimated from logistic regression model.Logistic regression model included baseline WOMAC physical function subscale,baseline diary average pain,classification variables index joint,highest Kellgren-Lawrence grade,NSAID and treatment.|Week 56: \>=90% reduction||1.57|0.86|0.3193
82544098|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1772|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.62|0.91|0.1772
82544099|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0154|TWO_SIDED|95.0|1.07|1.89|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.89|1.07|0.0154
82544100|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0105|TWO_SIDED|95.0|1.08|1.81|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.81|1.08|0.0105
82544101|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0002|TWO_SIDED|95.0|1.26|2.1|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||2.10|1.26|0.0002
82544102|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4007|TWO_SIDED|95.0|0.87|1.43|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.43|0.87|0.4007
82544103|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0116|TWO_SIDED|95.0|1.07|1.75|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.75|1.07|0.0116
82544104|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.95||||0.6279|TWO_SIDED|95.0|0.76|1.18|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.18|0.76|0.6279
82544105|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.09||||0.4674|TWO_SIDED|95.0|0.87|1.35|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.35|0.87|0.4674
82544106|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3135|TWO_SIDED|95.0|0.71|1.12|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.12|0.71|0.3135
82463478|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.17||||0.7642|TWO_SIDED|95.0|0.42|3.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.27|0.42|0.7642
82463479|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.91||||0.0101|TWO_SIDED|95.0|1.46|16.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.53|1.46|0.0101
82463480|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0572|TWO_SIDED|95.0|0.97|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.55|0.97|0.0572
82463481|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7348|TWO_SIDED|95.0|0.44|3.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||3.20|0.44|0.7348
82463482|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.2||||0.1397|TWO_SIDED|95.0|0.77|6.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.25|0.77|0.1397
82463483|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.07||||0.0231|TWO_SIDED|95.0|1.21|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||13.64|1.21|0.0231
82463484|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.54||||0.0196|TWO_SIDED|95.0|1.27|16.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.15|1.27|0.0196
82463485|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7703|TWO_SIDED|95.0|0.42|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||3.24|0.42|0.7703
82463486|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.83||||0.0222|TWO_SIDED|95.0|1.21|12.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.12|1.21|0.0222
82463487|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0668|TWO_SIDED|95.0|0.93|8.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.21|0.93|0.0668
82463488|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7533|TWO_SIDED|95.0|0.43|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.22|0.43|0.7533
82463489|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3325|TWO_SIDED|95.0|0.59|4.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.73|0.59|0.3325
82544107|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7581|TWO_SIDED|95.0|0.83|1.3|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.30|0.83|0.7581
82463490|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0899|TWO_SIDED|95.0|0.86|8.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||8.57|0.86|0.0899
82463491|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.31||||0.0642|TWO_SIDED|95.0|0.93|11.79||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.79|0.93|0.0642
82463492|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5964|TWO_SIDED|95.0|0.46|3.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.89|0.46|0.5964
82463493|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.43||||0.0224|TWO_SIDED|95.0|1.23|15.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||15.91|1.23|0.0224
82463494|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.72||||0.3139|TWO_SIDED|95.0|0.6|4.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.96|0.60|0.3139
82544108|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.92||||0.4504|TWO_SIDED|95.0|0.73|1.15|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.15|0.73|0.4504
82544109|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.88||||0.2629|TWO_SIDED|95.0|0.7|1.1|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.10|0.70|0.2629
82544110|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.95||||0.6763|TWO_SIDED|95.0|0.75|1.2|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.75|0.6763
82544111|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9456|TWO_SIDED|95.0|0.8|1.27|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.27|0.80|0.9456
82544112|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.96||||0.752|TWO_SIDED|95.0|0.76|1.22|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.76|0.7520
82544113|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9981|TWO_SIDED|95.0|0.79|1.26|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.26|0.79|0.9981
82544114|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.93||||0.5284|TWO_SIDED|95.0|0.74|1.17|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.17|0.74|0.5284
82544115|NCT02528188|164788500|SUPERIORITY||Odds Ratio (OR)|0.89||||0.322|TWO_SIDED|95.0|0.7|1.12|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of OA scale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.12|0.70|0.3220
82544116|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.06||0.112|TWO_SIDED|95.0|-0.02|0.2|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.20|-0.02|0.1120
82544117|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9686|TWO_SIDED|95.0|-0.11|0.11|||ANCOVA|||Week 1: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.11|-0.11|0.9686
82544118|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.08||0.1589|TWO_SIDED|95.0|-0.25|0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.04|-0.25|0.1589
82544119|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.472|TWO_SIDED|95.0|-0.2|0.09|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.09|-0.20|0.4720
82544120|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.032|TWO_SIDED|95.0|-0.33|-0.01|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.01|-0.33|0.0320
82544121|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3336|TWO_SIDED|95.0|-0.24|0.08|||ANCOVA|||Week 3: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.24|0.3336
82544122|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09||0.0005|TWO_SIDED|95.0|-0.47|-0.13|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.13|-0.47|0.0005
82578800|NCT01725126|164867072|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Mean Difference (Final Values)|-0.219|||||TWO_SIDED|95.0|-0.91|0.472|||ANCOVA|Terms for treatment and Baseline were included in the model.|Point estimate was calculated as difference in least squares means: Part C-GSK2890457+Metformin minus Part Part C-Placebo+Metformin.|Part C-Placebo+Metformin versus Part C-GSK2890457+Metformin for Day 42 change from Baseline in HbA1c.||0.472|-0.910|
82578801|NCT01725126|164867076|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|1.046|||||TWO_SIDED|90.0|0.729|1.5008|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day -1) and confidence interval.|Comparison of Day 42 to Day -1 in GSK2890457+Liraglutide treated participants in the Liraglutide PK Population.||1.5008|0.7290|
82463495|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6343|TWO_SIDED|95.0|0.45|3.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.76|0.45|0.6343
82463496|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6557|TWO_SIDED|95.0|0.45|3.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.61|0.45|0.6557
82578802|NCT01725126|164867077|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|1.0334|||||TWO_SIDED|90.0|0.781|1.3673|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day -1) and confidence interval.|Comparison of Day 42 to Day -1 in GSK2890457+Liraglutide treated participants in the Liraglutide PK Population.||1.3673|0.7810|
82463497|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0516|TWO_SIDED|95.0|0.99|13.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.51|0.99|0.0516
82463498|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.38||||0.04|TWO_SIDED|95.0|1.07|17.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||17.91|1.07|0.0400
82463499|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.37||||0.5825|TWO_SIDED|95.0|0.44|4.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.24|0.44|0.5825
82463500|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|7.46||||0.0152|TWO_SIDED|95.0|1.47|37.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||37.83|1.47|0.0152
82463501|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1565|TWO_SIDED|95.0|0.73|7.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.30|0.73|0.1565
82463502|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.45||||0.4932|TWO_SIDED|95.0|0.5|4.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.25|0.50|0.4932
82463503|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8504|TWO_SIDED|95.0|0.39|3.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.12|0.39|0.8504
82463504|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0759|TWO_SIDED|95.0|0.89|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.61|0.89|0.0759
82463505|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0477|TWO_SIDED|95.0|1.01|13.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||13.46|1.01|0.0477
82463506|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.47||||0.1448|TWO_SIDED|95.0|0.73|8.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.36|0.73|0.1448
82463507|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|5.54||||0.0173|TWO_SIDED|95.0|1.35|22.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||22.71|1.35|0.0173
82463508|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.57||||0.1101|TWO_SIDED|95.0|0.81|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.17|0.81|0.1101
82578803|NCT01725126|164867079|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|0.675|||||TWO_SIDED|90.0|0.585|0.779|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day 1) and confidence interval.|Comparison of Day 42 to Day 1 in GSK2890457 treated participants in the PK Population.||0.779|0.585|
82544123|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09||0.0001|TWO_SIDED|95.0|-0.5|-0.16|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.16|-0.50|0.0001
82463509|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6022|TWO_SIDED|95.0|0.46|3.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.78|0.46|0.6022
82544124|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.55|-0.18|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.18|-0.55|<0.0001
82544125|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.66|-0.3|||ANCOVA|||Week 6: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.30|-0.66|<0.0001
82544126|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0115|TWO_SIDED|95.0|-0.42|-0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.05|-0.42|0.0115
82544127|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.63|-0.26|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.26|-0.63|<0.0001
82544128|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.56|-0.17|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.17|-0.56|0.0002
82544129|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.28|||ANCOVA|||Week 10: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.28|-0.67|<0.0001
82544130|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.57|-0.18|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.18|-0.57|0.0002
82544131|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.64|-0.25|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.25|-0.64|<0.0001
82578804|NCT01725126|164867080|OTHER|The analysis used an Estimation approach. No hypothesis testing was performed.|Ratio|0.662|||||TWO_SIDED|90.0|0.578|0.757|||Mixed Models Analysis|The PK parameter was log-transformed prior to analysis.|The difference in least squares means and corresponding confidence interval were back-transformed to form ratio of geometric least squares means (Day 42/ Day 1) and confidence interval.|Comparison of Day 42 to Day 1 in GSK2890457 treated participants in the PK Population.||0.757|0.578|
82578805|NCT01240915|164867098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.223||0.96|TWO_SIDED|80.0|0.12|0.69||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||0.69|0.12|0.96
82578806|NCT01240915|164867099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.161||0.54|TWO_SIDED|80.0|-0.19|0.22||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 8||Pooled MultiStem versus Pooled Placebo (Week 4)||0.22|-0.19|0.54
82578807|NCT01240915|164867100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.174||0.67|TWO_SIDED|80.0|-0.15|0.3||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 8||Pooled MultiStem versus Pooled Placebo (Week 8)||0.30|-0.15|0.67
82578808|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.02||||0.53|TWO_SIDED|80.0|0.73|1.42||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||1.42|0.73|0.53
82578809|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.48||||0.91|TWO_SIDED|80.0|1.02|2.14||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||2.14|1.02|0.91
82578810|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.38||||0.81|TWO_SIDED|80.0|0.86|2.23||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||2.23|0.86|0.81
82578811|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.94||||0.44|TWO_SIDED|80.0|0.59|1.51||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.51|0.59|0.44
82463510|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6128|TWO_SIDED|95.0|0.46|3.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.73|0.46|0.6128
82463511|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.82||||0.1001|TWO_SIDED|95.0|0.82|9.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.68|0.82|0.1001
82463512|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.95||||0.0255|TWO_SIDED|95.0|1.22|20.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||20.12|1.22|0.0255
82463513|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.42||||0.1521|TWO_SIDED|95.0|0.72|8.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||8.10|0.72|0.1521
82463514|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|9.37||||0.0071|TWO_SIDED|95.0|1.84|47.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||47.69|1.84|0.0071
82463515|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.52||||0.115|TWO_SIDED|95.0|0.8|7.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.93|0.80|0.1150
82463516|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8101|TWO_SIDED|95.0|0.4|3.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.22|0.40|0.8101
82463517|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.49||||0.4663|TWO_SIDED|95.0|0.51|4.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.33|0.51|0.4663
82463518|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.8||||0.0453|TWO_SIDED|95.0|1.03|14.01||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.01|1.03|0.0453
82463519|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.36||||0.0659|TWO_SIDED|95.0|0.92|12.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.21|0.92|0.0659
82463520|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.83||||0.3117|TWO_SIDED|95.0|0.57|5.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||5.86|0.57|0.3117
82463521|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|6.02||||0.0129|TWO_SIDED|95.0|1.46|24.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||24.73|1.46|0.0129
82463522|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0303|TWO_SIDED|95.0|1.14|14.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.83|1.14|0.0303
82463523|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.94||||0.2772|TWO_SIDED|95.0|0.59|6.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.42|0.59|0.2772
82463524|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9432|TWO_SIDED|95.0|0.29|3.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.16|0.29|0.9432
82544132|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.0238|TWO_SIDED|95.0|-0.44|-0.03|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.03|-0.44|0.0238
82544133|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.0011|TWO_SIDED|95.0|-0.55|-0.14|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.14|-0.55|0.0011
82463525|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.08||||0.2577|TWO_SIDED|95.0|0.59|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.36|0.59|0.2577
82463526|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1496|TWO_SIDED|95.0|0.71|9.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.12|0.71|0.1496
82463527|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.05||||0.2874|TWO_SIDED|95.0|0.55|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.67|0.55|0.2874
82463528|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1981|TWO_SIDED|95.0|0.65|7.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.78|0.65|0.1981
82463529|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|3.35||||0.0531|TWO_SIDED|95.0|0.98|11.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.43|0.98|0.0531
82463530|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.72||||0.5858|TWO_SIDED|95.0|0.22|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.35|0.22|0.5858
82463531|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.68||||0.5122|TWO_SIDED|95.0|0.21|2.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.16|0.21|0.5122
82463532|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.55||||0.3415|TWO_SIDED|95.0|0.16|1.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.89|0.16|0.3415
82463533|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.87||||0.8263|TWO_SIDED|95.0|0.25|2.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.98|0.25|0.8263
82544134|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0064|TWO_SIDED|95.0|-0.51|-0.08|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.08|-0.51|0.0064
82544135|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.11||0.0025|TWO_SIDED|95.0|-0.54|-0.12|||ANCOVA|||Week 20: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.12|-0.54|0.0025
82544136|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0589|TWO_SIDED|95.0|-0.48|0.01|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.01|-0.48|0.0589
82544137|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.018|TWO_SIDED|95.0|-0.53|-0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||-0.05|-0.53|0.0180
82544138|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.0944|TWO_SIDED|95.0|-0.47|0.04|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.04|-0.47|0.0944
82544139|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1198|TWO_SIDED|95.0|-0.45|0.05|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.05|-0.45|0.1198
82544140|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1837|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.43|0.1837
82544141|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.13||0.317|TWO_SIDED|95.0|-0.39|0.13|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.13|-0.39|0.3170
82578812|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.18||||0.67|TWO_SIDED|80.0|0.72|1.94||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.94|0.72|0.67
82578813|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12||||0.62|TWO_SIDED|80.0|0.68|1.84||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||1.84|0.68|0.62
82578814|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95||||0.95|TWO_SIDED|80.0|0.58|1.57||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.57|0.58|0.95
82578815|NCT01240915|164867107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.81||||0.3|TWO_SIDED|80.0|0.49|1.36||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.36|0.49|0.30
82578816|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.17||||0.79|TWO_SIDED|80.0|0.91|1.51||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||1.51|0.91|0.79
82578817|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.21||||0.8|TWO_SIDED|80.0|0.9|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||1.63|0.90|0.80
82578818|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.75||||0.99|TWO_SIDED|80.0|1.63|4.64||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||4.64|1.63|0.99
82578819|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.96||||0.96|TWO_SIDED|80.0|1.19|3.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||3.25|1.19|0.96
82578820|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.98||||0.95|TWO_SIDED|80.0|1.15|3.41||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||3.41|1.15|0.95
82578821|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|2.3||||0.99|TWO_SIDED|80.0|1.52|3.48||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||3.48|1.52|0.99
82463534|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.86||||0.8085|TWO_SIDED|95.0|0.24|3.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.03|0.24|0.8085
82463535|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.3||||0.6745|TWO_SIDED|95.0|0.38|4.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.43|0.38|0.6745
82463536|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9019|TWO_SIDED|95.0|0.34|3.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.45|0.34|0.9019
82463537|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.62||||0.4425|TWO_SIDED|95.0|0.18|2.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.10|0.18|0.4425
82463538|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.54||||0.3106|TWO_SIDED|95.0|0.17|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.77|0.17|0.3106
82463539|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.32||||0.0912|TWO_SIDED|95.0|0.08|1.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.20|0.08|0.0912
82463540|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5681|TWO_SIDED|95.0|0.2|2.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.41|0.20|0.5681
82578822|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1||||0.62|TWO_SIDED|80.0|0.74|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.63|0.74|0.62
82578823|NCT01240915|164867108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.51||||0.89|TWO_SIDED|80.0|0.98|2.32||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||2.32|0.98|0.89
82578824|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.34|TWO_SIDED|80.0|0.66|2.19||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 4)||2.19|0.66|0.34
82578825|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.33|TWO_SIDED|80.0|0.68|2.23||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 8)||2.23|0.68|0.33
82578826|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.1|TWO_SIDED|80.0|0.99|5.67||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 12)||5.67|0.99|0.10
82578827|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.74|TWO_SIDED|80.0|0.28|1.55||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.55|0.28|0.74
82578828|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.48|TWO_SIDED|80.0|0.41|2.64||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 12)||2.64|0.41|0.48
82578829|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.58|TWO_SIDED|80.0|0.38|2.03||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.03|0.38|0.58
82578830|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.68|TWO_SIDED|80.0|0.33|1.66||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.66|0.33|0.68
82578831|NCT01240915|164867109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.51||||0.84|TWO_SIDED|80.0|0.21|1.23||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.23|0.21|0.84
82463541|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.58||||0.4261|TWO_SIDED|95.0|0.15|2.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.21|0.15|0.4261
82544142|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1873|TWO_SIDED|95.0|-0.43|0.08|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.08|-0.43|0.1873
82544143|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.13||0.5719|TWO_SIDED|95.0|-0.33|0.18|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.18|-0.33|0.5719
82544144|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.3571|TWO_SIDED|95.0|-0.39|0.14|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.14|-0.39|0.3571
82544145|NCT02528188|164788501|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.9072|TWO_SIDED|95.0|-0.25|0.28|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline pain in the index joint as covariate, and study site as a random effect.||0.28|-0.25|0.9072
82544146|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.09||0.0004|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.49|0.0004
82544147|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.09||0.0134|TWO_SIDED|95.0|-0.4|-0.05|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.40|0.0134
82544148|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.56|-0.19|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.19|-0.56|<0.0001
82544149|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.29|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.29|-0.67|<0.0001
82463542|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7514|TWO_SIDED|95.0|0.24|2.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.82|0.24|0.7514
82544150|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0031|TWO_SIDED|95.0|-0.49|-0.1|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.10|-0.49|0.0031
82544151|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.82|-0.43|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.43|-0.82|<0.0001
82578832|NCT01240915|164867110|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.57|TWO_SIDED|80.0|0.22|3.07||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||3.07|0.22|0.57
82578833|NCT01240915|164867111|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.85|TWO_SIDED|80.0|0.12|1.23||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||1.23|0.12|0.85
82578834|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27||||0.05|TWO_SIDED|80.0|1.21|4.24||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 4)||4.24|1.21|0.05
82578835|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.43|TWO_SIDED|80.0|0.61|1.95||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo (Week 8)||1.95|0.61|0.43
82578836|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.44|TWO_SIDED|80.0|0.45|2.76||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 12)||2.76|0.45|0.44
82463543|NCT03192176|164625591|SUPERIORITY||Odds Ratio (OR)|0.52||||0.2712|TWO_SIDED|95.0|0.16|1.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.67|0.16|0.2712
82463544|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.89||||0.0103|TWO_SIDED|95.0|1.46|16.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.40|1.46|0.0103
82463545|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0011|TWO_SIDED|95.0|2.2|23.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.48|2.20|0.0011
82463546|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|11.06|||<|0.0001|TWO_SIDED|95.0|3.41|35.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||35.86|3.41|<0.0001
82463547|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|10.48||||0.0001|TWO_SIDED|95.0|3.18|34.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||34.55|3.18|0.0001
82463548|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.46||||0.1571|TWO_SIDED|95.0|0.71|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.55|0.71|0.1571
82463549|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|7.14||||0.001|TWO_SIDED|95.0|2.21|23.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.04|2.21|0.0010
82463550|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|7.35||||0.0008|TWO_SIDED|95.0|2.29|23.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||23.61|2.29|0.0008
82463551|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.78||||0.0342|TWO_SIDED|95.0|1.08|7.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.18|1.08|0.0342
82463552|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0231|TWO_SIDED|95.0|1.16|7.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.66|1.16|0.0231
82463553|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.12||||0.0032|TWO_SIDED|95.0|1.6|10.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.55|1.60|0.0032
82463554|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.89||||0.0059|TWO_SIDED|95.0|1.48|10.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.22|1.48|0.0059
82463555|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.76||||0.2471|TWO_SIDED|95.0|0.68|4.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.59|0.68|0.2471
82463556|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0381|TWO_SIDED|95.0|1.05|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.70|1.05|0.0381
82463557|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.34||||0.0113|TWO_SIDED|95.0|1.31|8.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.48|1.31|0.0113
82463558|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.56||||0.0486|TWO_SIDED|95.0|1.01|6.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.52|1.01|0.0486
82463559|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.71||||0.035|TWO_SIDED|95.0|1.07|6.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.87|1.07|0.0350
82463560|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0027|TWO_SIDED|95.0|1.65|10.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.90|1.65|0.0027
82578837|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.38|TWO_SIDED|80.0|0.5|3.04||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 12)||3.04|0.50|0.38
82544152|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.0425|TWO_SIDED|95.0|-0.43|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.01|-0.43|0.0425
82544153|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.65|-0.23|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.23|-0.65|<0.0001
82544154|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.13||0.298|TWO_SIDED|95.0|-0.4|0.12|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.40|0.2980
82544155|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.13||0.0179|TWO_SIDED|95.0|-0.58|-0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.58|0.0179
82544156|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.13||0.2328|TWO_SIDED|95.0|-0.42|0.1|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.42|0.2328
82544157|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.1019|TWO_SIDED|95.0|-0.49|0.04|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.04|-0.49|0.1019
82544158|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.14||0.4002|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4002
82544159|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2149|TWO_SIDED|95.0|-0.45|0.1|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.10|-0.45|0.2149
82544160|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.2442|TWO_SIDED|95.0|-0.43|0.11|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.43|0.2442
82544161|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.4609|TWO_SIDED|95.0|-0.37|0.17|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.37|0.4609
82544162|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8129|TWO_SIDED|95.0|-0.31|0.24|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.31|0.8129
82544163|NCT02528188|164788503|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7883|TWO_SIDED|95.0|-0.32|0.24|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC stiffness subscale and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.32|0.7883
82544164|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.08||0.0119|TWO_SIDED|95.0|-0.37|-0.05|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.37|0.0119
82578838|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.89|TWO_SIDED|80.0|0.14|1.04||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.04|0.14|0.89
82544165|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3073|TWO_SIDED|95.0|-0.24|0.08|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.08|-0.24|0.3073
82544166|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.09||0.0002|TWO_SIDED|95.0|-0.5|-0.15|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.15|-0.50|0.0002
82544167|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.56|-0.22|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.22|-0.56|<0.0001
82544168|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.09||0.0251|TWO_SIDED|95.0|-0.39|-0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.03|-0.39|0.0251
82544169|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.66|-0.3|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.30|-0.66|<0.0001
82544170|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0625|TWO_SIDED|95.0|-0.39|0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.01|-0.39|0.0625
82544171|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.54|-0.14|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||-0.14|-0.54|0.0010
82463561|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.68||||0.002|TWO_SIDED|95.0|1.76|12.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||12.47|1.76|0.0020
82463562|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0686|TWO_SIDED|95.0|0.94|6.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.19|0.94|0.0686
82463563|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0034|TWO_SIDED|95.0|1.58|10.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.21|1.58|0.0034
82463564|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0222|TWO_SIDED|95.0|1.16|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.22|1.16|0.0222
82463565|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0876|TWO_SIDED|95.0|0.89|5.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.84|0.89|0.0876
82463566|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.72||||0.0345|TWO_SIDED|95.0|1.08|6.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.88|1.08|0.0345
82463567|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0319|TWO_SIDED|95.0|1.09|6.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.99|1.09|0.0319
82463568|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.27||||0.0013|TWO_SIDED|95.0|1.92|14.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.47|1.92|0.0013
82463569|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.91||||0.1751|TWO_SIDED|95.0|0.75|4.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.87|0.75|0.1751
82544172|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4005|TWO_SIDED|95.0|-0.36|0.14|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.14|-0.36|0.4005
82544173|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.13||0.053|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.00|-0.50|0.0530
82544174|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.13||0.4074|TWO_SIDED|95.0|-0.37|0.15|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.37|0.4074
82544175|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2629|TWO_SIDED|95.0|-0.41|0.11|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.41|0.2629
82544176|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.5582|TWO_SIDED|95.0|-0.34|0.18|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.18|-0.34|0.5582
82544177|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.4907|TWO_SIDED|95.0|-0.35|0.17|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.35|0.4907
82544178|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4043|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.38|0.4043
82544179|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7663|TWO_SIDED|95.0|-0.31|0.23|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.23|-0.31|0.7663
82650180|NCT04549259|165015454|SUPERIORITY||B|-0.99|STANDARD_ERROR_OF_MEAN|2.78||0.73|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.73
82463570|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0019|TWO_SIDED|95.0|1.73|11.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||11.50|1.73|0.0019
82544180|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7415|TWO_SIDED|95.0|-0.31|0.22|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.31|0.7415
82544181|NCT02528188|164788505|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8688|TWO_SIDED|95.0|-0.24|0.29|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC average score and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.24|0.8688
82544182|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09||0.3622|TWO_SIDED|95.0|-0.25|0.09|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.09|-0.25|0.3622
82463571|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0284|TWO_SIDED|95.0|1.11|6.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.97|1.11|0.0284
82463572|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.72||||0.265|TWO_SIDED|95.0|0.66|4.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.45|0.66|0.2650
82463573|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1238|TWO_SIDED|95.0|0.82|5.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.38|0.82|0.1238
82463574|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0219|TWO_SIDED|95.0|1.18|8.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.74|1.18|0.0219
82463575|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.46||||0.0022|TWO_SIDED|95.0|1.84|16.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.16|1.84|0.0022
82463576|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.82||||0.223|TWO_SIDED|95.0|0.69|4.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.77|0.69|0.2230
82463577|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0018|TWO_SIDED|95.0|1.83|13.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||13.97|1.83|0.0018
82463578|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0205|TWO_SIDED|95.0|1.19|8.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.42|1.19|0.0205
82463579|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.44||||0.4628|TWO_SIDED|95.0|0.54|3.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.81|0.54|0.4628
82463580|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.51||||0.4015|TWO_SIDED|95.0|0.58|3.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.92|0.58|0.4015
82463581|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.39||||0.0031|TWO_SIDED|95.0|1.76|16.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||16.47|1.76|0.0031
82463582|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.15||||0.0115|TWO_SIDED|95.0|1.38|12.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.50|1.38|0.0115
82463583|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.81||||0.2513|TWO_SIDED|95.0|0.66|4.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.98|0.66|0.2513
82463584|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0099|TWO_SIDED|95.0|1.39|11.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.14|1.39|0.0099
82544183|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.3894|TWO_SIDED|95.0|-0.09|0.24|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.09|0.3894
82544184|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.09||0.0137|TWO_SIDED|95.0|-0.42|-0.05|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.42|0.0137
82578839|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.47|TWO_SIDED|80.0|0.45|2.42||1-sided p-value|Regression, Logistic|||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.42|0.45|0.47
82463585|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0242|TWO_SIDED|95.0|1.16|8.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.74|1.16|0.0242
82544185|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.0106|TWO_SIDED|95.0|-0.43|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.06|-0.43|0.0106
82463586|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1518|TWO_SIDED|95.0|0.77|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.60|0.77|0.1518
82463587|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.95||||0.1811|TWO_SIDED|95.0|0.73|5.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.17|0.73|0.1811
82463588|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.88||||0.015|TWO_SIDED|95.0|1.3|11.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.55|1.30|0.0150
82463589|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0046|TWO_SIDED|95.0|1.67|16.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.68|1.67|0.0046
82463590|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.58||||0.3788|TWO_SIDED|95.0|0.57|4.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.34|0.57|0.3788
82463591|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0424|TWO_SIDED|95.0|1.04|7.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.70|1.04|0.0424
82463592|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.69||||0.0139|TWO_SIDED|95.0|1.3|10.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||10.43|1.30|0.0139
82544186|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7179|TWO_SIDED|95.0|-0.23|0.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.16|-0.23|0.7179
82463593|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3057|TWO_SIDED|95.0|0.63|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.42|0.63|0.3057
82544187|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|95.0|-0.44|-0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-0.44|0.0120
82463594|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.55||||0.3717|TWO_SIDED|95.0|0.59|4.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.02|0.59|0.3717
82463595|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0252|TWO_SIDED|95.0|1.16|9.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||9.50|1.16|0.0252
82463596|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.56||||0.0235|TWO_SIDED|95.0|1.19|10.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.69|1.19|0.0235
82578840|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.24|TWO_SIDED|80.0|0.7|3.57||1-sided p-value|Regression, Logistic|||Cohort 3 MP versus Cohort 3 PP (Week 16)||3.57|0.70|0.24
82463597|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.25||||0.658|TWO_SIDED|95.0|0.46|3.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.39|0.46|0.6580
82463598|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.58||||0.0061|TWO_SIDED|95.0|1.54|13.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||13.62|1.54|0.0061
82463599|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0149|TWO_SIDED|95.0|1.29|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.61|1.29|0.0149
82463600|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.95||||0.9282|TWO_SIDED|95.0|0.35|2.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.62|0.35|0.9282
82463601|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.87||||0.7902|TWO_SIDED|95.0|0.33|2.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.35|0.33|0.7902
82463602|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.22||||0.1603|TWO_SIDED|95.0|0.73|6.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.74|0.73|0.1603
82463603|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1144|TWO_SIDED|95.0|0.8|8.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||8.14|0.80|0.1144
82463604|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.75||||0.5903|TWO_SIDED|95.0|0.26|2.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||2.13|0.26|0.5903
82463605|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.89||||0.029|TWO_SIDED|95.0|1.15|13.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||13.16|1.15|0.0290
82463606|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1721|TWO_SIDED|95.0|0.72|6.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.26|0.72|0.1721
82463607|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2439|TWO_SIDED|95.0|0.66|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.09|0.66|0.2439
82463608|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7402|TWO_SIDED|95.0|0.44|3.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.19|0.44|0.7402
82463609|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0422|TWO_SIDED|95.0|1.04|9.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.63|1.04|0.0422
82463610|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.44||||0.0061|TWO_SIDED|95.0|1.62|18.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.27|1.62|0.0061
82463611|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3191|TWO_SIDED|95.0|0.59|4.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.92|0.59|0.3191
82463612|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.91||||0.0037|TWO_SIDED|95.0|1.78|19.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||19.66|1.78|0.0037
82463613|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0139|TWO_SIDED|95.0|1.33|12.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.20|1.33|0.0139
82578841|NCT01240915|164867112|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.81|TWO_SIDED|80.0|0.22|1.32||1-sided p-value|Regression, Logistic|||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.32|0.22|0.81
82578842|NCT01240915|164867113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.84|TWO_SIDED|80.0|0.2|1.24||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||1.24|0.20|0.84
82578843|NCT01240915|164867114|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3||||0.96|TWO_SIDED|80.0|0.12|0.73||1-sided p-value|Regression, Logistic|||Pooled MultiStem versus Pooled Placebo||0.73|0.12|0.96
82463614|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.59||||0.3757|TWO_SIDED|95.0|0.57|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.42|0.57|0.3757
82578844|NCT01240915|164867115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_ERROR_OF_MEAN|0.513||0.87|TWO_SIDED|80.0|-0.08|1.24||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||1.24|-0.08|0.87
82578845|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.345||0.8|TWO_SIDED|80.0|-0.15|0.74||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||0.74|-0.15|0.80
82463615|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7087|TWO_SIDED|95.0|0.45|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.28|0.45|0.7087
82463616|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.53||||0.1083|TWO_SIDED|95.0|0.81|7.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.88|0.81|0.1083
82463617|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0473|TWO_SIDED|95.0|1.01|10.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.14|1.01|0.0473
82463618|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2481|TWO_SIDED|95.0|0.64|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.60|0.64|0.2481
82463619|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|5.84||||0.0066|TWO_SIDED|95.0|1.64|20.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||20.89|1.64|0.0066
82463620|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0466|TWO_SIDED|95.0|1.02|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.18|1.02|0.0466
82463621|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8769|TWO_SIDED|95.0|0.34|2.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||2.53|0.34|0.8769
82463622|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.37||||0.5448|TWO_SIDED|95.0|0.49|3.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.82|0.49|0.5448
82463623|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.57||||0.4125|TWO_SIDED|95.0|0.53|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.64|0.53|0.4125
82463624|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.36||||0.05|TWO_SIDED|95.0|1.0|11.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.30|1.00|0.0500
82463625|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6167|TWO_SIDED|95.0|0.45|3.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.87|0.45|0.6167
82463626|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0233|TWO_SIDED|95.0|1.21|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||13.26|1.21|0.0233
82463627|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0803|TWO_SIDED|95.0|0.89|8.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.09|0.89|0.0803
82463628|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.64||||0.1274|TWO_SIDED|95.0|0.76|9.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.18|0.76|0.1274
82463629|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.05||||0.9445|TWO_SIDED|95.0|0.29|3.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.71|0.29|0.9445
82544188|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.11||0.5372|TWO_SIDED|95.0|-0.28|0.15|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.15|-0.28|0.5372
82463630|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.69||||0.4204|TWO_SIDED|95.0|0.47|6.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.03|0.47|0.4204
82578846|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.418||0.77|TWO_SIDED|80.0|-0.23|0.84||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||0.84|-0.23|0.77
82578847|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.666||0.74|TWO_SIDED|80.0|-0.42|1.3||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||1.30|-0.42|0.74
82544189|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.0899|TWO_SIDED|95.0|-0.4|0.03|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.03|-0.40|0.0899
82544190|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.13||0.7646|TWO_SIDED|95.0|-0.3|0.22|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.22|-0.30|0.7646
82544191|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2547|TWO_SIDED|95.0|-0.41|0.11|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.11|-0.41|0.2547
82544192|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8806|TWO_SIDED|95.0|-0.29|0.25|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.29|0.8806
82544193|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8416|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.30|0.8416
82544194|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.9981|TWO_SIDED|95.0|-0.28|0.28|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.28|-0.28|0.9981
82544195|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6485|TWO_SIDED|95.0|-0.21|0.34|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.34|-0.21|0.6485
82544196|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8317|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.30|0.8317
82544197|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.5819|TWO_SIDED|95.0|-0.19|0.35|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.35|-0.19|0.5819
82544198|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8538|TWO_SIDED|95.0|-0.26|0.31|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.31|-0.26|0.8538
82578848|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_ERROR_OF_MEAN|0.645||0.88|TWO_SIDED|80.0|-0.08|1.59||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||1.59|-0.08|0.88
82544199|NCT02528188|164788507|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.15||0.1981|TWO_SIDED|95.0|-0.1|0.47|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when walking on a flat surface and baseline diary average pain as covariates, and study site as a random effect.||0.47|-0.10|0.1981
82578849|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.705||0.72|TWO_SIDED|80.0|-0.5|1.33||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||1.33|-0.50|0.72
82578850|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|STANDARD_ERROR_OF_MEAN|0.656||0.97|TWO_SIDED|80.0|0.37|2.06||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||2.06|0.37|0.97
82578851|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.635||0.75|TWO_SIDED|80.0|-0.39|1.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||1.25|-0.39|0.75
82544200|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.0846|TWO_SIDED|95.0|-0.33|0.02|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.02|-0.33|0.0846
82544201|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9749|TWO_SIDED|95.0|-0.18|0.17|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.18|0.9749
82544202|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.1||0.0076|TWO_SIDED|95.0|-0.45|-0.07|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.07|-0.45|0.0076
82578852|NCT01240915|164867116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.692||0.85|TWO_SIDED|80.0|-0.16|1.63||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||1.63|-0.16|0.85
82578853|NCT01240915|164867117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.753||0.75|TWO_SIDED|80.0|-0.46|1.49||1-sided p-value|ANCOVA|||Pooled MultiStem versus Pooled Placebo||1.49|-0.46|0.75
82463631|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.78||||0.1315|TWO_SIDED|95.0|0.74|10.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.49|0.74|0.1315
82463632|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0944|TWO_SIDED|95.0|0.82|12.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.87|0.82|0.0944
82463633|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.99||||0.2801|TWO_SIDED|95.0|0.57|6.89||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||6.89|0.57|0.2801
82463634|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1524|TWO_SIDED|95.0|0.72|8.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.30|0.72|0.1524
82463635|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.38||||0.6129|TWO_SIDED|95.0|0.4|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.75|0.40|0.6129
82463636|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.63||||0.4617|TWO_SIDED|95.0|0.18|2.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.18|0.18|0.4617
82463637|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.74||||0.6519|TWO_SIDED|95.0|0.2|2.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.70|0.20|0.6519
82463638|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.84||||0.8011|TWO_SIDED|95.0|0.22|3.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.18|0.22|0.8011
82463639|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.95||||0.3254|TWO_SIDED|95.0|0.51|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.41|0.51|0.3254
82463640|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|2.0||||0.273|TWO_SIDED|95.0|0.58|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.94|0.58|0.2730
82463641|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6601|TWO_SIDED|95.0|0.39|4.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.41|0.39|0.6601
82463642|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.74||||0.6588|TWO_SIDED|95.0|0.2|2.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.76|0.20|0.6588
82578854|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.144||0.51|TWO_SIDED|80.0|-0.18|0.19||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 4)||0.19|-0.18|0.51
82578855|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.158||0.62|TWO_SIDED|80.0|-0.16|0.25||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Pooled MultiStem versus Pooled Placebo (Week 8)||0.25|-0.16|0.62
82544203|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.1||0.0003|TWO_SIDED|95.0|-0.54|-0.16|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.16|-0.54|0.0003
82544204|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.4402|TWO_SIDED|95.0|-0.27|0.12|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.12|-0.27|0.4402
82544205|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.21|-0.61|<0.0001
82544206|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.11||0.1543|TWO_SIDED|95.0|-0.38|0.06|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.06|-0.38|0.1543
82544207|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.11||0.0053|TWO_SIDED|95.0|-0.53|-0.09|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||-0.09|-0.53|0.0053
82544208|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6445|TWO_SIDED|95.0|-0.33|0.2|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.20|-0.33|0.6445
82544209|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1439|TWO_SIDED|95.0|-0.47|0.07|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.07|-0.47|0.1439
82544210|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8402|TWO_SIDED|95.0|-0.3|0.25|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.30|0.8402
82544211|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.14||0.4439|TWO_SIDED|95.0|-0.38|0.17|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.17|-0.38|0.4439
82544212|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.9376|TWO_SIDED|95.0|-0.27|0.29|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.27|0.9376
82544213|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7614|TWO_SIDED|95.0|-0.33|0.24|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.24|-0.33|0.7614
82544214|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.8081|TWO_SIDED|95.0|-0.32|0.25|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.25|-0.32|0.8081
82578856|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.213||0.29|TWO_SIDED|80.0|-0.39|0.16||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 12)||0.16|-0.39|0.29
82578857|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.209||0.74|TWO_SIDED|80.0|-0.14|0.4||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 12)||0.40|-0.14|0.74
82544215|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.15||0.8078|TWO_SIDED|95.0|-0.25|0.33|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.33|-0.25|0.8078
82544216|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.15||0.9705|TWO_SIDED|95.0|-0.28|0.29|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.29|-0.28|0.9705
82544217|NCT02528188|164788509|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.15||0.5785|TWO_SIDED|95.0|-0.21|0.38|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WOMAC pain when going up or down stairs and baseline diary average pain as covariates, and study site as a random effect.||0.38|-0.21|0.5785
82544218|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.74||0.4303|TWO_SIDED|95.0|-0.87|2.04|||ANCOVA|||Week 16: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.04|-0.87|0.4303
82544219|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.75||0.5656|TWO_SIDED|95.0|-1.9|1.04|||ANCOVA|||Week 16: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.04|-1.90|0.5656
82544220|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.92||0.976|TWO_SIDED|95.0|-1.78|1.83|||ANCOVA|||Week 24: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.83|-1.78|0.9760
82544221|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.93||0.5678|TWO_SIDED|95.0|-1.3|2.36|||ANCOVA|||Week 24: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.36|-1.30|0.5678
82544222|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|1.76||0.6974|TWO_SIDED|95.0|-2.77|4.14|||ANCOVA|||Week 56: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.14|-2.77|0.6974
82544223|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|2.64|STANDARD_ERROR_OF_MEAN|1.72||0.1261|TWO_SIDED|95.0|-0.75|6.04|||ANCOVA|||Week 56: Percent Work Time Missed: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||6.04|-0.75|0.1261
82544224|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|1.78||0.406|TWO_SIDED|95.0|-4.96|2.01|||ANCOVA|||Week 16: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.01|-4.96|0.4060
82544225|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|1.78||0.848|TWO_SIDED|95.0|-3.84|3.15|||ANCOVA|||Week 16: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.15|-3.84|0.8480
82578858|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.226||0.36|TWO_SIDED|80.0|-0.37|0.21||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 12)||0.21|-0.37|0.36
82578859|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.234||0.56|TWO_SIDED|80.0|-0.26|0.34||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MM versus Cohort 3 PP (Week 16)||0.34|-0.26|0.56
82578860|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.231||0.18|TWO_SIDED|80.0|-0.51|0.09||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 MP versus Cohort 3 PP (Week 16)||0.09|-0.51|0.18
82578861|NCT01240915|164867118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.31|TWO_SIDED|80.0|-0.45|0.2||1-sided p-value|Mixed Models Analysis|MMRM using data up to Week 16||Cohort 3 PM versus Cohort 3 PP (Week 16)||0.20|-0.45|0.31
82578862|NCT02574845|164867122|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|101.95|||||TWO_SIDED|90.0|89.49|116.15|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||116.15|89.49|
82463643|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.52||||0.3257|TWO_SIDED|95.0|0.14|1.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.92|0.14|0.3257
82578863|NCT02574845|164867122|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|106.09|||||TWO_SIDED|90.0|96.12|117.11|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||117.11|96.12|
82463644|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.42||||0.2229|TWO_SIDED|95.0|0.1|1.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.69|0.10|0.2229
82463645|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.43||||0.2425|TWO_SIDED|95.0|0.1|1.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.77|0.10|0.2425
82463646|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9672|TWO_SIDED|95.0|0.23|4.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.11|0.23|0.9672
82463647|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|1.43||||0.5838|TWO_SIDED|95.0|0.4|5.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.09|0.40|0.5838
82463648|NCT03192176|164625592|SUPERIORITY||Odds Ratio (OR)|0.95||||0.9361|TWO_SIDED|95.0|0.28|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.24|0.28|0.9361
82463649|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.6||||0.0429|TWO_SIDED|95.0|1.03|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.55|1.03|0.0429
82463650|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0296|TWO_SIDED|95.0|1.11|7.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||7.12|1.11|0.0296
82463651|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.48||||0.0032|TWO_SIDED|95.0|1.65|12.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.13|1.65|0.0032
82463652|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0006|TWO_SIDED|95.0|2.31|21.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||21.90|2.31|0.0006
82463653|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.8||||0.2073|TWO_SIDED|95.0|0.72|4.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||4.47|0.72|0.2073
82463654|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.54||||0.0096|TWO_SIDED|95.0|1.36|9.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||9.20|1.36|0.0096
82578864|NCT02574845|164867122|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|152.18|||||TWO_SIDED|90.0|135.12|171.41|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||171.41|135.12|
82578865|NCT02574845|164867122|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|106.97|||||TWO_SIDED|90.0|94.34|121.3|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||121.30|94.34|
82463655|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.52||||0.0462|TWO_SIDED|95.0|1.02|6.27||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.27|1.02|0.0462
82463656|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1387|TWO_SIDED|95.0|0.77|6.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.63|0.77|0.1387
82463657|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.71||||0.313|TWO_SIDED|95.0|0.6|4.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||4.84|0.60|0.3130
82544226|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|1.94||0.923|TWO_SIDED|95.0|-4.0|3.63|||ANCOVA|||Week 24: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.63|-4.00|0.9230
82544227|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|1.96||0.4421|TWO_SIDED|95.0|-5.36|2.34|||ANCOVA|||Week 24: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.34|-5.36|0.4421
82544228|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.44||0.2049|TWO_SIDED|95.0|-1.7|7.91|||ANCOVA|||Week 56: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||7.91|-1.70|0.2049
82544229|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|4.68|STANDARD_ERROR_OF_MEAN|2.4||0.0527|TWO_SIDED|95.0|-0.05|9.41|||ANCOVA|||Week 56: Percent Impairment While Working: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||9.41|-0.05|0.0527
82544230|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|1.82||0.3699|TWO_SIDED|95.0|-5.21|1.94|||ANCOVA|||Week 16: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.94|-5.21|0.3699
82544231|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.83||0.7945|TWO_SIDED|95.0|-4.06|3.11|||ANCOVA|||Week 16: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.11|-4.06|0.7945
82544232|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|2.03||0.941|TWO_SIDED|95.0|-4.13|3.83|||ANCOVA|||Week 24: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.83|-4.13|0.9410
82544233|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|2.05||0.486|TWO_SIDED|95.0|-5.44|2.59|||ANCOVA|||Week 24: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.59|-5.44|0.4860
82544234|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|3.05|STANDARD_ERROR_OF_MEAN|2.62||0.2448|TWO_SIDED|95.0|-2.1|8.2|||ANCOVA|||Week 56: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||8.20|-2.10|0.2448
82544235|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|4.96|STANDARD_ERROR_OF_MEAN|2.58||0.0551|TWO_SIDED|95.0|-0.11|10.04|||ANCOVA|||Week 56: Percent Overall Work Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||10.04|-0.11|0.0551
82544236|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|1.05||0.247|TWO_SIDED|95.0|-3.26|0.84|||ANCOVA|||Week 16: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.84|-3.26|0.2470
82578866|NCT02574845|164867122|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|115.92|||||TWO_SIDED|90.0|101.93|131.82|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||131.82|101.93|
82578867|NCT02574845|164867123|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|102.47|||||TWO_SIDED|90.0|87.19|120.42|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||120.42|87.19|
82544237|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-1.98|STANDARD_ERROR_OF_MEAN|1.04||0.057|TWO_SIDED|95.0|-4.01|0.06|||ANCOVA|||Week 16: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.06|-4.01|0.0570
82544238|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|1.14||0.917|TWO_SIDED|95.0|-2.36|2.12|||ANCOVA|||Week 24: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.12|-2.36|0.9170
82578868|NCT02574845|164867123|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|106.98|||||TWO_SIDED|90.0|92.54|123.69|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||123.69|92.54|
82463658|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0392|TWO_SIDED|95.0|1.06|10.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.40|1.06|0.0392
82463659|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.7||||0.0135|TWO_SIDED|95.0|1.43|22.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||22.71|1.43|0.0135
82463660|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.85||||0.084|TWO_SIDED|95.0|0.87|9.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||9.36|0.87|0.0840
82463661|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.47||||0.0163|TWO_SIDED|95.0|1.32|15.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||15.17|1.32|0.0163
82463662|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5056|TWO_SIDED|95.0|0.52|3.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||3.84|0.52|0.5056
82463663|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.69||||0.3358|TWO_SIDED|95.0|0.58|4.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||4.90|0.58|0.3358
82463664|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.05||||0.0696|TWO_SIDED|95.0|0.91|10.18||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.18|0.91|0.0696
82463665|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.8||||0.0794|TWO_SIDED|95.0|0.89|8.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.82|0.89|0.0794
82463666|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.32||||0.0149|TWO_SIDED|95.0|1.48|36.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.28|1.48|0.0149
82463667|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.37||||0.0377|TWO_SIDED|95.0|1.09|17.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||17.59|1.09|0.0377
82463668|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.32||||0.0454|TWO_SIDED|95.0|1.03|10.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.77|1.03|0.0454
82463669|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.77||||0.039|TWO_SIDED|95.0|1.07|13.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||13.26|1.07|0.0390
82463670|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1947|TWO_SIDED|95.0|0.68|6.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.64|0.68|0.1947
82463671|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.79||||0.2913|TWO_SIDED|95.0|0.61|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.25|0.61|0.2913
82463672|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1665|TWO_SIDED|95.0|0.72|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.82|0.72|0.1665
82544239|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|1.14||0.4991|TWO_SIDED|95.0|-3.0|1.46|||ANCOVA|||Week 24: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.46|-3.00|0.4991
82544240|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.44||0.2377|TWO_SIDED|95.0|-1.12|4.52|||ANCOVA|||Week 56: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.52|-1.12|0.2377
82578869|NCT02574845|164867123|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|154.07|||||TWO_SIDED|90.0|131.7|180.24|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||180.24|131.70|
82463673|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|13.41||||0.0157|TWO_SIDED|95.0|1.63|110.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||110.3|1.63|0.0157
82463674|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0846|TWO_SIDED|95.0|0.86|10.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.49|0.86|0.0846
82463675|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.42||||0.0171|TWO_SIDED|95.0|1.35|21.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||21.75|1.35|0.0171
82463676|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.71||||0.0262|TWO_SIDED|95.0|1.2|18.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||18.49|1.20|0.0262
82463677|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.88||||0.2858|TWO_SIDED|95.0|0.59|5.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.95|0.59|0.2858
82463678|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.65||||0.0155|TWO_SIDED|95.0|1.47|39.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||39.72|1.47|0.0155
82463679|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.66||||0.1249|TWO_SIDED|95.0|0.76|9.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||9.31|0.76|0.1249
82463680|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0616|TWO_SIDED|95.0|0.94|15.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||15.82|0.94|0.0616
82463681|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|8.32||||0.0126|TWO_SIDED|95.0|1.58|43.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||43.90|1.58|0.0126
82463682|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0853|TWO_SIDED|95.0|0.85|11.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.23|0.85|0.0853
82463683|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.56||||0.1562|TWO_SIDED|95.0|0.7|9.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.35|0.70|0.1562
82463684|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.83||||0.1297|TWO_SIDED|95.0|0.74|10.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||10.91|0.74|0.1297
82463685|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.34||||0.2001|TWO_SIDED|95.0|0.64|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||8.55|0.64|0.2001
82463686|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|8.6||||0.0495|TWO_SIDED|95.0|1.0|73.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||73.70|1.00|0.0495
82463687|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.86||||0.1553|TWO_SIDED|95.0|0.67|12.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||12.20|0.67|0.1553
82544241|NCT02528188|164788511|SUPERIORITY||LS Mean Difference|3.26|STANDARD_ERROR_OF_MEAN|1.44||0.0238|TWO_SIDED|95.0|0.43|6.08|||ANCOVA|||Week 56: Percent Activity Impairment: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||6.08|0.43|0.0238
82463688|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.67||||0.0199|TWO_SIDED|95.0|1.38|42.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||42.67|1.38|0.0199
82463689|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.28||||0.0472|TWO_SIDED|95.0|1.02|27.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||27.34|1.02|0.0472
82463690|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3736|TWO_SIDED|95.0|0.51|5.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.98|0.51|0.3736
82463691|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.06||||0.2628|TWO_SIDED|95.0|0.58|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.26|0.58|0.2628
82463692|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.43||||0.1998|TWO_SIDED|95.0|0.63|9.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.39|0.63|0.1998
82463693|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.89||||0.1507|TWO_SIDED|95.0|0.68|12.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.28|0.68|0.1507
82463694|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.92||||0.0385|TWO_SIDED|95.0|1.1|31.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||31.94|1.10|0.0385
82463695|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|10.85||||0.0299|TWO_SIDED|95.0|1.26|93.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||93.28|1.26|0.0299
82463696|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.19||||0.8034|TWO_SIDED|95.0|0.3|4.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.74|0.30|0.8034
82463697|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8532|TWO_SIDED|95.0|0.29|4.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.42|0.29|0.8532
82463698|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8823|TWO_SIDED|95.0|0.28|4.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.41|0.28|0.8823
82463699|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.79||||0.1651|TWO_SIDED|95.0|0.52|43.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||43.76|0.52|0.1651
82463700|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|6.36||||0.1048|TWO_SIDED|95.0|0.68|59.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||59.55|0.68|0.1048
82463701|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.87||||0.1168|TWO_SIDED|95.0|0.64|53.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||53.53|0.64|0.1168
82544242|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|2.66|STANDARD_ERROR_OF_MEAN|1.08||0.0142|TWO_SIDED|95.0|0.53|4.78|||ANCOVA|||TSQM Effectiveness; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.78|0.53|0.0142
82544243|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|4.67|STANDARD_ERROR_OF_MEAN|1.08|<|0.0001|TWO_SIDED|95.0|2.56|6.78|||ANCOVA|||TSQM Effectiveness; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||6.78|2.56|<0.0001
82463702|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.31||||0.6936|TWO_SIDED|95.0|0.35|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.95|0.35|0.6936
82463703|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.74||||0.4315|TWO_SIDED|95.0|0.44|6.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.90|0.44|0.4315
82463704|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7936|TWO_SIDED|95.0|0.31|4.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.53|0.31|0.7936
82463705|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|6.3||||0.099|TWO_SIDED|95.0|0.71|56.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||56.03|0.71|0.0990
82463706|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.86||||0.1128|TWO_SIDED|95.0|0.66|52.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||52.21|0.66|0.1128
82463707|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.36||||0.0732|TWO_SIDED|95.0|0.83|65.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||65.38|0.83|0.0732
82463708|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.39||||0.6559|TWO_SIDED|95.0|0.33|5.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.91|0.33|0.6559
82544244|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|1.45||0.1371|TWO_SIDED|95.0|-0.69|4.99|||ANCOVA|||TSQM Effectiveness; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.99|-0.69|0.1371
82544245|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.46||0.8524|TWO_SIDED|95.0|-2.6|3.14|||ANCOVA|||TSQM Effectiveness; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.14|-2.60|0.8524
82544246|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|-2.42|STANDARD_ERROR_OF_MEAN|3.8||0.5253|TWO_SIDED|95.0|-9.93|5.09|||ANCOVA|||TSQM Side Effects; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.09|-9.93|0.5253
82544247|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|2.29|STANDARD_ERROR_OF_MEAN|3.71||0.5381|TWO_SIDED|95.0|-5.04|9.62|||ANCOVA|||TSQM Side Effects; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||9.62|-5.04|0.5381
82463709|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7333|TWO_SIDED|95.0|0.21|2.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||2.96|0.21|0.7333
82463710|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9266|TWO_SIDED|95.0|0.24|3.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.74|0.24|0.9266
82544248|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|7.27|STANDARD_ERROR_OF_MEAN|6.44||0.2694|TWO_SIDED|95.0|-5.99|20.54|||ANCOVA|||TSQM Side Effects; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||20.54|-5.99|0.2694
82544249|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|-9.34|STANDARD_ERROR_OF_MEAN|6.05||0.1349|TWO_SIDED|95.0|-21.8|3.11|||ANCOVA|||TSQM Side Effects; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.11|-21.80|0.1349
82544250|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.81||0.0264|TWO_SIDED|95.0|0.21|3.38|||ANCOVA|||TSQM Convenience; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.38|0.21|0.0264
82544251|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|2.07|STANDARD_ERROR_OF_MEAN|0.8||0.0098|TWO_SIDED|95.0|0.5|3.65|||ANCOVA|||TSQM Convenience; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.65|0.50|0.0098
82544252|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|1.1||0.0937|TWO_SIDED|95.0|-0.31|4.01|||ANCOVA|||TSQM Convenience; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.01|-0.31|0.0937
82544253|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|1.48|STANDARD_ERROR_OF_MEAN|1.11||0.1838|TWO_SIDED|95.0|-0.7|3.67|||ANCOVA|||TSQM Convenience; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||3.67|-0.70|0.1838
82544254|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|3.18|STANDARD_ERROR_OF_MEAN|1.05||0.0025|TWO_SIDED|95.0|1.12|5.25|||ANCOVA|||TSQM Global Satisfaction; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.25|1.12|0.0025
82463711|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.04||||0.1518|TWO_SIDED|95.0|0.55|46.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||46.13|0.55|0.1518
82544255|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|3.55|STANDARD_ERROR_OF_MEAN|1.04||0.0007|TWO_SIDED|95.0|1.51|5.6|||ANCOVA|||TSQM Global Satisfaction; Week 16: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||5.60|1.51|0.0007
82544256|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|1.94|STANDARD_ERROR_OF_MEAN|1.31||0.1373|TWO_SIDED|95.0|-0.62|4.51|||ANCOVA|||TSQM Global Satisfaction; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||4.51|-0.62|0.1373
82463712|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.69||||0.1714|TWO_SIDED|95.0|0.51|42.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||42.91|0.51|0.1714
82463713|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.6||||0.1299|TWO_SIDED|95.0|0.6|51.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||51.95|0.60|0.1299
82463714|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.75||||0.2495|TWO_SIDED|95.0|0.49|15.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||15.44|0.49|0.2495
82463715|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.32||||0.7065|TWO_SIDED|95.0|0.31|5.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.60|0.31|0.7065
82463716|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.26||||0.7504|TWO_SIDED|95.0|0.3|5.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.24|0.30|0.7504
82463717|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7862|TWO_SIDED|95.0|0.21|3.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.29|0.21|0.7862
82463718|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.98||||0.155|TWO_SIDED|95.0|0.54|45.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||45.59|0.54|0.1550
82463719|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.7||||0.1706|TWO_SIDED|95.0|0.51|42.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||42.96|0.51|0.1706
82463720|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.31||||0.1415|TWO_SIDED|95.0|0.57|49.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||49.11|0.57|0.1415
82463721|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.67||||0.1241|TWO_SIDED|95.0|0.62|51.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||51.74|0.62|0.1241
82544257|NCT02528188|164788519|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|1.32||0.996|TWO_SIDED|95.0|-2.59|2.6|||ANCOVA|||TSQM Global Satisfaction; Week 56: ANCOVA model included treatment, randomization stratification variables (index joint, highest Kellgren-Lawrence grade and NSAID) as fixed effects, baseline diary average pain as covariates, and study site as a random effect.||2.60|-2.59|0.9960
82544258|NCT02528188|164788521|SUPERIORITY|||||||0.0823|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0823
82463722|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.64||||0.2169|TWO_SIDED|95.0|0.57|12.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.29|0.57|0.2169
82578870|NCT02574845|164867123|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|106.81|||||TWO_SIDED|90.0|91.78|124.3|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||124.30|91.78|
82463723|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9982|TWO_SIDED|95.0|0.28|3.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.60|0.28|0.9982
82463724|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.57||||0.5364|TWO_SIDED|95.0|0.38|6.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.54|0.38|0.5364
82544259|NCT02528188|164788521|SUPERIORITY|||||||0.0049|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0049
82463725|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.68||||0.121|TWO_SIDED|95.0|0.63|51.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||51.07|0.63|0.1210
82544260|NCT02528188|164788521|SUPERIORITY|||||||0.0718|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0718
82463726|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.65||||0.0726|TWO_SIDED|95.0|0.83|70.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||70.58|0.83|0.0726
82463727|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|7.34||||0.0749|TWO_SIDED|95.0|0.82|65.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||65.81|0.82|0.0749
82463728|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.01||||0.053|TWO_SIDED|95.0|0.98|16.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.35|0.98|0.0530
82463729|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.32||||0.2134|TWO_SIDED|95.0|0.62|8.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.72|0.62|0.2134
82463730|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.88||||0.3688|TWO_SIDED|95.0|0.48|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.41|0.48|0.3688
82463731|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|4.61||||0.0563|TWO_SIDED|95.0|0.96|22.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||22.11|0.96|0.0563
82463732|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.94||||0.0935|TWO_SIDED|95.0|0.79|19.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||19.52|0.79|0.0935
82463733|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0901|TWO_SIDED|95.0|0.81|16.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||16.93|0.81|0.0901
82463734|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|2.84||||0.1366|TWO_SIDED|95.0|0.72|11.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.26|0.72|0.1366
82463735|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7876|TWO_SIDED|95.0|0.34|4.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.08|0.34|0.7876
82463736|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4658|TWO_SIDED|95.0|0.45|5.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.59|0.45|0.4658
82463737|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8707|TWO_SIDED|95.0|0.25|3.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.20|0.25|0.8707
82544261|NCT02528188|164788521|SUPERIORITY|||||||0.1947|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1947
82578871|NCT02574845|164867123|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|117.98|||||TWO_SIDED|90.0|98.27|141.65|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||141.65|98.27|
82463738|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.89||||0.3584|TWO_SIDED|95.0|0.49|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.36|0.49|0.3584
82463739|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|3.13||||0.1455|TWO_SIDED|95.0|0.67|14.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||14.57|0.67|0.1455
82544262|NCT02528188|164788522|SUPERIORITY|||||||0.0229|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0229
82463740|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0661|TWO_SIDED|95.0|0.9|28.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||28.66|0.90|0.0661
82463741|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.97||||0.3034|TWO_SIDED|95.0|0.54|7.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.17|0.54|0.3034
82463742|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9901|TWO_SIDED|95.0|0.28|3.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.60|0.28|0.9901
82463743|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.55||||0.507|TWO_SIDED|95.0|0.42|5.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.68|0.42|0.5070
82463744|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7927|TWO_SIDED|95.0|0.21|3.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.26|0.21|0.7927
82463745|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4426|TWO_SIDED|95.0|0.44|6.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||6.69|0.44|0.4426
82463746|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8925|TWO_SIDED|95.0|0.23|3.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.56|0.23|0.8925
82463747|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.79||||0.4285|TWO_SIDED|95.0|0.42|7.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.52|0.42|0.4285
82463748|NCT03192176|164625593|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9|TWO_SIDED|95.0|0.31|3.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.72|0.31|0.9000
82463749|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0602|TWO_SIDED|95.0|0.96|6.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||6.06|0.96|0.0602
82463750|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.88||||0.001|TWO_SIDED|95.0|1.89|12.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||12.57|1.89|0.0010
82463751|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.24||||0.0006|TWO_SIDED|95.0|2.03|13.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||13.51|2.03|0.0006
82463752|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|9.07|||<|0.0001|TWO_SIDED|95.0|3.23|25.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||25.45|3.23|<0.0001
82463753|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.06||||0.1259|TWO_SIDED|95.0|0.82|5.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.22|0.82|0.1259
82463754|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|7.05|||<|0.0001|TWO_SIDED|95.0|2.65|18.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||18.71|2.65|<0.0001
82463755|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.51||||0.007|TWO_SIDED|95.0|1.41|8.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.76|1.41|0.0070
82463756|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0193|TWO_SIDED|95.0|1.2|8.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.23|1.20|0.0193
82544263|NCT02528188|164788522|SUPERIORITY|||||||0.0029|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0029
82544264|NCT02528188|164788522|SUPERIORITY|||||||0.0266|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.0266
82544265|NCT02528188|164788522|SUPERIORITY|||||||0.1835|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1835
82463757|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.34||||0.0148|TWO_SIDED|95.0|1.27|8.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.81|1.27|0.0148
82463758|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0018|TWO_SIDED|95.0|1.83|13.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||13.94|1.83|0.0018
82544266|NCT02528188|164788523|SUPERIORITY||Odds Ratio (OR)|0.63||||0.0076|TWO_SIDED|95.0|0.45|0.88|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||0.88|0.45|0.0076
82544267|NCT02528188|164788523|SUPERIORITY||Odds Ratio (OR)|0.67||||0.0187|TWO_SIDED|95.0|0.48|0.94|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline diary average pain, baseline WOMAC pain score, classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||0.94|0.48|0.0187
82544268|NCT02528188|164788524|SUPERIORITY|||||||0.0074|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0074
82544269|NCT02528188|164788524|SUPERIORITY|||||||0.0162|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.0162
82544270|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.15||||0.1136|TWO_SIDED|95.0|0.97|1.38|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.38|0.97|0.1136
82544271|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.08||||0.391|TWO_SIDED|95.0|0.9|1.29|||Regression, Logistic|||Week 2: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.29|0.90|0.3910
82463759|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|7.27||||0.0007|TWO_SIDED|95.0|2.32|22.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||22.78|2.32|0.0007
82463760|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0246|TWO_SIDED|95.0|1.16|8.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.35|1.16|0.0246
82463761|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.22||||0.0016|TWO_SIDED|95.0|1.87|14.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||14.60|1.87|0.0016
82463762|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0825|TWO_SIDED|95.0|0.9|5.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||5.62|0.90|0.0825
82463763|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0542|TWO_SIDED|95.0|0.98|7.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.20|0.98|0.0542
82463764|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0837|TWO_SIDED|95.0|0.89|6.33||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.33|0.89|0.0837
82544272|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.03||||0.7691|TWO_SIDED|95.0|0.86|1.22|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.86|0.7691
82544273|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.88||||0.143|TWO_SIDED|95.0|0.73|1.05|||Regression, Logistic|||Week 4: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.05|0.73|0.1430
82463765|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.67||||0.0131|TWO_SIDED|95.0|1.31|10.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.26|1.31|0.0131
82544274|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.04||||0.6454|TWO_SIDED|95.0|0.87|1.25|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.25|0.87|0.6454
82544275|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.84||||0.0561|TWO_SIDED|95.0|0.7|1.0|||Regression, Logistic|||Week 8: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.00|0.70|0.0561
82463766|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|9.34||||0.0012|TWO_SIDED|95.0|2.41|36.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||36.19|2.41|0.0012
82463767|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.1||||0.0359|TWO_SIDED|95.0|1.08|8.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.93|1.08|0.0359
82463768|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.86||||0.0019|TWO_SIDED|95.0|1.91|17.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||17.92|1.91|0.0019
82463769|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0715|TWO_SIDED|95.0|0.93|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.38|0.93|0.0715
82463770|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.89||||0.0465|TWO_SIDED|95.0|1.02|8.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||8.20|1.02|0.0465
82463771|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0839|TWO_SIDED|95.0|0.89|6.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.53|0.89|0.0839
82463772|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.56||||0.0191|TWO_SIDED|95.0|1.23|10.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.28|1.23|0.0191
82463773|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|12.11||||0.0019|TWO_SIDED|95.0|2.52|58.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||58.22|2.52|0.0019
82544276|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9056|TWO_SIDED|95.0|0.82|1.19|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.82|0.9056
82544277|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.9||||0.2919|TWO_SIDED|95.0|0.75|1.09|||Regression, Logistic|||Week 16: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.09|0.75|0.2919
82544278|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.94||||0.4976|TWO_SIDED|95.0|0.78|1.13|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.13|0.78|0.4976
82544279|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.9||||0.2425|TWO_SIDED|95.0|0.75|1.08|||Regression, Logistic|||Week 24: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.08|0.75|0.2425
82578872|NCT02574845|164867124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T1/REF (%)|101.22|||||TWO_SIDED|90.0|89.23|114.82|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 10 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||114.82|89.23|
82463774|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0593|TWO_SIDED|95.0|0.96|7.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.90|0.96|0.0593
82463775|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.95||||0.0048|TWO_SIDED|95.0|1.63|15.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||15.04|1.63|0.0048
82578873|NCT02574845|164867124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T2/REF (%)|107.26|||||TWO_SIDED|90.0|97.65|117.81|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 50 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||117.81|97.65|
82463776|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0494|TWO_SIDED|95.0|1.0|7.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.57|1.00|0.0494
82544280|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9242|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic|||Week 32: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.83|0.9242
82463777|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.15||||0.1887|TWO_SIDED|95.0|0.69|6.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.70|0.69|0.1887
82463778|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.06||||0.0717|TWO_SIDED|95.0|0.91|10.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||10.7|0.91|0.0717
82463779|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.43||||0.1419|TWO_SIDED|95.0|0.74|7.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.92|0.74|0.1419
82463780|NCT03192176|164625594|SUPERIORITY|0.0141|Odds Ratio (OR)|14.37||||0.0141|TWO_SIDED|95.0|1.71|120.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||120.6|1.71|0.0141
82463781|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.19||||0.0775|TWO_SIDED|95.0|0.88|11.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.54|0.88|0.0775
82463782|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.35||||0.0283|TWO_SIDED|95.0|1.17|16.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||16.19|1.17|0.0283
82463783|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1767|TWO_SIDED|95.0|0.7|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.96|0.70|0.1767
82463784|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.2||||0.1675|TWO_SIDED|95.0|0.72|6.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.72|0.72|0.1675
82463785|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.84||||0.2717|TWO_SIDED|95.0|0.62|5.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.49|0.62|0.2717
82463786|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.4||||0.1367|TWO_SIDED|95.0|0.76|7.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.64|0.76|0.1367
82463787|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|13.53||||0.0162|TWO_SIDED|95.0|1.62|113.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||113.0|1.62|0.0162
82463788|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.23||||0.0765|TWO_SIDED|95.0|0.88|11.78||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||11.78|0.88|0.0765
82463789|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|7.8||||0.0061|TWO_SIDED|95.0|1.79|33.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||33.87|1.79|0.0061
82463790|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.4||||0.0181|TWO_SIDED|95.0|1.33|21.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||21.85|1.33|0.0181
82544281|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6621|TWO_SIDED|95.0|0.8|1.15|||Regression, Logistic|||Week 32: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.15|0.80|0.6621
82463791|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.63||||0.3925|TWO_SIDED|95.0|0.53|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||4.99|0.53|0.3925
82463792|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.66||||0.374|TWO_SIDED|95.0|0.54|5.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||5.12|0.54|0.3740
82544282|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9977|TWO_SIDED|95.0|0.83|1.2|||Regression, Logistic|||Week 40: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.83|0.9977
82463793|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.33||||0.1753|TWO_SIDED|95.0|0.69|7.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.93|0.69|0.1753
82463794|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|12.85||||0.0195|TWO_SIDED|95.0|1.51|109.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||109.5|1.51|0.0195
82463795|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1932|TWO_SIDED|95.0|0.66|8.02||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.02|0.66|0.1932
82463796|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.55||||0.0537|TWO_SIDED|95.0|0.98|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||12.86|0.98|0.0537
82463797|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|7.72||||0.0144|TWO_SIDED|95.0|1.5|39.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||39.66|1.50|0.0144
82463798|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.29||||0.666|TWO_SIDED|95.0|0.41|4.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.09|0.41|0.6660
82463799|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.16||||0.7923|TWO_SIDED|95.0|0.37|3.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.62|0.37|0.7923
82463800|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.73||||0.3796|TWO_SIDED|95.0|0.51|5.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.90|0.51|0.3796
82463801|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0874|TWO_SIDED|95.0|0.81|21.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||21.73|0.81|0.0874
82463802|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1925|TWO_SIDED|95.0|0.62|10.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||10.96|0.62|0.1925
82463803|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.99||||0.0651|TWO_SIDED|95.0|0.92|17.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.38|0.92|0.0651
82463804|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5361|TWO_SIDED|95.0|0.44|4.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.81|0.44|0.5361
82463805|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6258|TWO_SIDED|95.0|0.42|4.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.17|0.42|0.6258
82463806|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.32||||0.6275|TWO_SIDED|95.0|0.43|4.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.06|0.43|0.6275
82463807|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.21||||0.2212|TWO_SIDED|95.0|0.62|7.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.90|0.62|0.2212
82578874|NCT02574845|164867124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T3/REF (%)|146.45|||||TWO_SIDED|90.0|135.21|158.62|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 500 mg metformin hydrochloride on the primary outcome measure of the REF treatment.||158.62|135.21|
82463808|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|11.13||||0.028|TWO_SIDED|95.0|1.3|95.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||95.49|1.30|0.0280
82463809|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.88||||0.0589|TWO_SIDED|95.0|0.94|25.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||25.32|0.94|0.0589
82544283|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9762|TWO_SIDED|95.0|0.84|1.2|||Regression, Logistic|||Week 40: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.20|0.84|0.9762
82544284|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9718|TWO_SIDED|95.0|0.83|1.19|||Regression, Logistic|||Week 48: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.19|0.83|0.9718
82544285|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8219|TWO_SIDED|95.0|0.85|1.22|||Regression, Logistic|||Week 48: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.22|0.85|0.8219
82544286|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|0.96||||0.6936|TWO_SIDED|95.0|0.8|1.16|||Regression, Logistic|||Week 56: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.16|0.80|0.6936
82544287|NCT02528188|164788525|SUPERIORITY||Odds Ratio (OR)|1.05||||0.5769|TWO_SIDED|95.0|0.88|1.26|||Regression, Logistic|||Week 56: Odds ratio and 95%CI estimated from logistic regression model. Logistic regression model included baseline WOMAC pain subscale, baseline diary average pain, and classification variables index joint, highest Kellgren-Lawrence grade, NSAID and treatment.||1.26|0.88|0.5769
82544288|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.07||0.7746|TWO_SIDED|95.0|0.89|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.89|0.7746
82463810|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.63||||0.0799|TWO_SIDED|95.0|0.86|15.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||15.39|0.86|0.0799
82463811|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1112|TWO_SIDED|95.0|0.78|10.87||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.87|0.78|0.1112
82463812|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0959|TWO_SIDED|95.0|0.84|9.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.11|0.84|0.0959
82463813|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.62||||0.3886|TWO_SIDED|95.0|0.54|4.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||4.85|0.54|0.3886
82463814|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.0||||0.0864|TWO_SIDED|95.0|0.85|10.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.52|0.85|0.0864
82463815|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|14.22||||0.0145|TWO_SIDED|95.0|1.69|119.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||119.5|1.69|0.0145
82463816|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|13.08||||0.018|TWO_SIDED|95.0|1.56|110.0||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||110.0|1.56|0.0180
82463817|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|18.53||||0.008|TWO_SIDED|95.0|2.14|160.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||160.6|2.14|0.0080
82544289|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.07||0.8441|TWO_SIDED|95.0|0.89|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.89|0.8441
82544290|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.08||0.658|TWO_SIDED|95.0|0.83|1.13|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.83|0.6580
82544291|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.07||0.2279|TWO_SIDED|95.0|0.78|1.06|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.06|0.78|0.2279
82463818|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|5.07||||0.0236|TWO_SIDED|95.0|1.24|20.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||20.65|1.24|0.0236
82463819|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4303|TWO_SIDED|0.4303|0.5|5.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||5.07|0.50|0.4303
82463820|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.41||||0.5529|TWO_SIDED|95.0|0.45|4.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.39|0.45|0.5529
82463821|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.87||||0.3268|TWO_SIDED|95.0|0.53|6.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.55|0.53|0.3268
82463822|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|10.02||||0.0343|TWO_SIDED|95.0|1.19|84.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||84.66|1.19|0.0343
82463823|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|9.45||||0.0391|TWO_SIDED|95.0|1.12|79.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||79.82|1.12|0.0391
82463824|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|13.31||||0.0187|TWO_SIDED|95.0|1.54|115.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||115.1|1.54|0.0187
82463825|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.6||||0.1475|TWO_SIDED|95.0|0.71|9.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.47|0.71|0.1475
82463826|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.19||||0.2161|TWO_SIDED|95.0|0.63|7.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||7.55|0.63|0.2161
82463827|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.79||||0.3478|TWO_SIDED|95.0|0.53|6.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.04|0.53|0.3478
82463828|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.22||||0.2269|TWO_SIDED|95.0|0.61|8.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.14|0.61|0.2269
82463829|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|4.66||||0.0683|TWO_SIDED|95.0|0.89|24.35||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||24.35|0.89|0.0683
82463830|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|7.11||||0.0228|TWO_SIDED|95.0|1.31|38.49||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||38.49|1.31|0.0228
82463831|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.95||||0.062|TWO_SIDED|95.0|0.93|16.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||16.72|0.93|0.0620
82463832|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.18||||0.2251|TWO_SIDED|95.0|0.62|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.67|0.62|0.2251
82463833|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7908|TWO_SIDED|95.0|0.35|3.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.99|0.35|0.7908
82463834|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.84||||0.3735|TWO_SIDED|95.0|0.48|7.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.06|0.48|0.3735
82544292|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.09||0.9986|TWO_SIDED|95.0|0.84|1.18|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.18|0.84|0.9986
82544293|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.07||0.0771|TWO_SIDED|95.0|0.72|1.02|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.02|0.72|0.0771
82544294|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.09||0.4485|TWO_SIDED|95.0|0.77|1.13|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.77|0.4485
82544295|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.09||0.2817|TWO_SIDED|95.0|0.74|1.09|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.09|0.74|0.2817
82544296|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5426|TWO_SIDED|95.0|0.79|1.13|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.79|0.5426
82544297|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5385|TWO_SIDED|95.0|0.79|1.13|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.13|0.79|0.5385
82544298|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.09||0.5041|TWO_SIDED|95.0|0.79|1.12|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.12|0.79|0.5041
82578875|NCT02574845|164867124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T4/REF (%)|105.63|||||TWO_SIDED|90.0|92.2|121.0|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 1 mg furosemide on the primary outcome measure of the REF treatment.||121.00|92.20|
82578876|NCT02574845|164867124|SUPERIORITY_OR_OTHER_LEGACY||Adjusted geometric mean ratio T5/REF (%)|118.1|||||TWO_SIDED|90.0|106.75|130.67|||ANOVA|ANOVA model on the logarithmic scale including the effects: 'sequence', 'subjects within sequence', 'period' and 'treatment'.||This statistical analysis assess the effect of coadministration of 5 mg furosemide on the primary outcome measure of the REF treatment.||130.67|106.75|
82578877|NCT02551653|164867139|OTHER||Mean Ratio|0.832|||||TWO_SIDED|95.0|0.682|0.979|||||||Volume of Distribution - Heart, Left Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|0.979|0.682|
82578878|NCT02551653|164867139|OTHER||Mean Ratio|1.472|||||TWO_SIDED|95.0|1.113|1.891|||||||Volume of Distribution - Heart, Right Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.891|1.113|
82578879|NCT02551653|164867139|OTHER||Mean Ratio|0.958|||||TWO_SIDED|95.0|0.692|1.241|||||||Volume of Distribution - Lung: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.241|0.692|
82578880|NCT02551653|164867140|OTHER||Mean Ratio|1.013|||||TWO_SIDED|95.0|0.846|1.189|||||||Mean Standardized Uptake Values - Heart, Left Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.189|0.846|
82544299|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.08||0.441|TWO_SIDED|95.0|0.78|1.11|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.11|0.78|0.4410
82544300|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.09||0.7426|TWO_SIDED|95.0|0.81|1.16|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.81|0.7426
82544301|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.09||0.7469|TWO_SIDED|95.0|0.81|1.16|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.81|0.7469
82578881|NCT02551653|164867140|OTHER||Mean Ratio|1.056|||||TWO_SIDED|95.0|0.853|1.269|||||||Mean Standardized Uptake Values - Heart, Right Ventricular Wall: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.269|0.853|
82578882|NCT02551653|164867140|OTHER||Mean Ratio|1.047|||||TWO_SIDED|95.0|0.786|1.34|||||||Mean Standardized Uptake Values - Lung: The mean ratio was calculated using the posterior distribution of the ratio of group means (PAH subjects to Healthy Volunteers). The 95% confidence interval is a 95% Bayesian credible interval based on the highest posterior density interval.|1.340|0.786|
82578883|NCT02683785|164867141|OTHER||Mean Difference (Net)|-0.36||||0.442|TWO_SIDED|95.0|-1.31|0.58||MMRM model with fixed effects of Baseline Value,Treatment Group,Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used.p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented.|||0.58|-1.31|0.442
82544302|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.09||0.6784|TWO_SIDED|95.0|0.81|1.15|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.15|0.81|0.6784
82544303|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.09||0.8822|TWO_SIDED|95.0|0.85|1.21|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.21|0.85|0.8822
82544304|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.09||0.9119|TWO_SIDED|95.0|0.83|1.18|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.18|0.83|0.9119
82463835|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.49||||0.1856|TWO_SIDED|95.0|0.64|9.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.64|0.64|0.1856
82463836|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.67||||0.01798|TWO_SIDED|95.0|0.64|11.2||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.20|0.64|0.01798
82463837|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.19||||0.1101|TWO_SIDED|95.0|0.77|13.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||13.22|0.77|0.1101
82463838|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|2.99||||0.106|TWO_SIDED|95.0|0.79|11.31||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.31|0.79|0.1060
82463839|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.47||||0.5258|TWO_SIDED|95.0|0.45|4.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.86|0.45|0.5258
82463840|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.1||||0.8746|TWO_SIDED|95.0|0.34|3.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.50|0.34|0.8746
82463841|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.82||||0.7434|TWO_SIDED|95.0|0.24|2.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.77|0.24|0.7434
82463842|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.9||||0.3211|TWO_SIDED|95.0|0.53|6.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||6.80|0.53|0.3211
82578884|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.46||||0.046|TWO_SIDED|95.0|-0.9|-0.01||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||-0.01|-0.90|0.046
82463843|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.51||||0.533|TWO_SIDED|95.0|0.41|5.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.48|0.41|0.5330
82544305|NCT02528188|164788527|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.09||0.5148|TWO_SIDED|95.0|0.89|1.26|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.26|0.89|0.5148
82544306|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.3348|TWO_SIDED|95.0|0.66|1.15|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.15|0.66|0.3348
82578885|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.38||||0.257|TWO_SIDED|95.0|-1.05|0.29||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||0.29|-1.05|0.257
82463844|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|3.0||||0.1119|TWO_SIDED|95.0|0.77|11.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||11.64|0.77|0.1119
82463845|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.76||||0.354|TWO_SIDED|95.0|0.53|5.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.85|0.53|0.3540
82463846|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.65||||0.5076|TWO_SIDED|95.0|0.19|2.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.29|0.19|0.5076
82463847|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.71||||0.5801|TWO_SIDED|95.0|0.21|2.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.41|0.21|0.5801
82463848|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.48||||0.2785|TWO_SIDED|95.0|0.13|1.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.82|0.13|0.2785
82463849|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5656|TWO_SIDED|95.0|0.19|2.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.45|0.19|0.5656
82463850|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.73||||0.6445|TWO_SIDED|95.0|0.19|2.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.81|0.19|0.6445
82463851|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|1.27||||0.7363|TWO_SIDED|95.0|0.32|4.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.99|0.32|0.7363
82463852|NCT03192176|164625594|SUPERIORITY||Odds Ratio (OR)|0.56||||0.3455|TWO_SIDED|95.0|0.17|1.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.86|0.17|0.3455
82463853|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.3||||0.0037|TWO_SIDED|95.0|1.6|11.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||11.54|1.60|0.0037
82463854|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.95||||0.0057|TWO_SIDED|95.0|1.49|10.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||10.48|1.49|0.0057
82463855|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0003|TWO_SIDED|95.0|2.26|16.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.13|2.26|0.0003
82463856|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|6.42||||0.0003|TWO_SIDED|95.0|2.37|17.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.39|2.37|0.0003
82463857|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.11||||0.141|TWO_SIDED|95.0|0.78|5.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||5.73|0.78|0.1410
82578886|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.5||||0.22|TWO_SIDED|95.0|-1.31|0.31||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 3 is presented|||0.31|-1.31|0.220
82463858|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.85||||0.0004|TWO_SIDED|95.0|2.2|15.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||15.55|2.20|0.0004
82463859|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.5||||0.0006|TWO_SIDED|95.0|2.08|14.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||14.54|2.08|0.0006
82463860|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.09||||0.0037|TWO_SIDED|95.0|1.58|10.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||10.57|1.58|0.0037
82463861|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0026|TWO_SIDED|95.0|1.67|11.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.16|1.67|0.0026
82463862|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|6.26||||0.0002|TWO_SIDED|95.0|2.63|16.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||16.60|2.63|0.0002
82463863|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|9.4|||<|0.0001|TWO_SIDED|95.0|3.23|27.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||27.34|3.23|<0.0001
82650181|NCT04549259|165015454|OTHER|Single group change over time.|B|4.88|STANDARD_ERROR_OF_MEAN|1.83||0.01|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.01
82463864|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.64||||0.0431|TWO_SIDED|95.0|1.03|6.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.76|1.03|0.0431
82463865|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.4||||0.002|TWO_SIDED|95.0|1.72|11.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||11.29|1.72|0.0020
82463866|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.76||||0.0291|TWO_SIDED|95.0|1.11|6.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||6.86|1.11|0.0291
82463867|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.96||||0.0063|TWO_SIDED|95.0|1.48|10.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.61|1.48|0.0063
82463868|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0202|TWO_SIDED|95.0|1.19|8.11||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.11|1.19|0.0202
82463869|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.1||||0.0044|TWO_SIDED|95.0|1.55|10.84||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||10.84|1.55|0.0044
82463870|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|9.21||||0.0002|TWO_SIDED|95.0|2.89|29.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||29.38|2.89|0.0002
82463871|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0706|TWO_SIDED|95.0|0.93|6.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.37|0.93|0.0706
82463872|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|8.2||||0.0001|TWO_SIDED|95.0|2.79|24.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||24.08|2.79|0.0001
82463873|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0146|TWO_SIDED|95.0|1.26|8.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||8.32|1.26|0.0146
82578887|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.74||||0.085|TWO_SIDED|95.0|-1.59|0.11||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.11|-1.59|0.085
82463874|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.37||||0.0816|TWO_SIDED|95.0|0.9|6.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||6.24|0.90|0.0816
82463875|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.25||||0.093|TWO_SIDED|95.0|0.87|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.81|0.87|0.0930
82463876|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.81||||0.365|TWO_SIDED|95.0|1.07|7.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.39|1.07|0.365
82463877|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.93||||0.0042|TWO_SIDED|95.0|1.65|14.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.73|1.65|0.0042
82463878|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.73||||0.0488|TWO_SIDED|95.0|1.01|7.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.41|1.01|0.0488
82463879|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0075|TWO_SIDED|95.0|1.43|10.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.36|1.43|0.0075
82463880|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0984|TWO_SIDED|95.0|0.86|5.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.59|0.86|0.0984
82463881|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.89||||0.2226|TWO_SIDED|95.0|0.68|5.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.29|0.68|0.2226
82463882|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1467|TWO_SIDED|95.0|0.76|6.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||6.08|0.76|0.1467
82463883|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0705|TWO_SIDED|95.0|0.92|8.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.19|0.92|0.0705
82463884|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|26.62||||0.0025|TWO_SIDED|95.0|3.16|223.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||223.9|3.16|0.0025
82463885|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.75||||0.0757|TWO_SIDED|95.0|0.9|8.4||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||8.40|0.90|0.0757
82463886|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.66||||0.0045|TWO_SIDED|95.0|1.71|18.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||18.74|1.71|0.0045
82463887|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0771|TWO_SIDED|95.0|0.9|7.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.67|0.90|0.0771
82650182|NCT04549259|165015454|OTHER|Single group change over time.|B|3.28|STANDARD_ERROR_OF_MEAN|2.03||0.12|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.12
82463888|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1856|TWO_SIDED|95.0|0.71|5.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.81|0.71|0.1856
82463889|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5973|TWO_SIDED|95.0|0.48|3.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||3.54|0.48|0.5973
82463890|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0935|TWO_SIDED|95.0|0.85|7.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.77|0.85|0.0935
82463891|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.52||||0.0157|TWO_SIDED|95.0|1.38|22.1||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||22.10|1.38|0.0157
82463892|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1963|TWO_SIDED|95.0|0.68|6.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.32|0.68|0.1963
82544307|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.88|STANDARD_ERROR_OF_MEAN|0.13||0.3595|TWO_SIDED|95.0|0.66|1.16|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.16|0.66|0.3595
82544308|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.75|STANDARD_ERROR_OF_MEAN|0.13||0.0854|TWO_SIDED|95.0|0.54|1.04|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.04|0.54|0.0854
82544309|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.69|STANDARD_ERROR_OF_MEAN|0.12||0.0281|TWO_SIDED|95.0|0.5|0.96|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||0.96|0.50|0.0281
82544310|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.7|STANDARD_ERROR_OF_MEAN|0.13||0.0595|TWO_SIDED|95.0|0.49|1.01|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.01|0.49|0.0595
82544311|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.57|STANDARD_ERROR_OF_MEAN|0.11||0.003|TWO_SIDED|95.0|0.4|0.83|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||0.83|0.40|0.0030
82544312|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.15||0.1389|TWO_SIDED|95.0|0.48|1.11|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.11|0.48|0.1389
82544313|NCT02528188|164788529|SUPERIORITY||LS Mean Ratio|0.68|STANDARD_ERROR_OF_MEAN|0.14||0.0709|TWO_SIDED|95.0|0.45|1.03|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of baseline WOMAC Pain subscale score, baseline diary average pain score, index joint, Kellgren Lawrence grade, NSAID and treatment group.||1.03|0.45|0.0709
82544314|NCT02528188|164788538|SUPERIORITY|||||||0.6037|||||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.6037
82544315|NCT02528188|164788538|SUPERIORITY|||||||0.1928|||||||Cochran-Mantel-Haenszel|||Week 4: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1928
82544316|NCT02528188|164788538|SUPERIORITY|||||||0.7204|||||||Cochran-Mantel-Haenszel|||Week 8: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7204
82463893|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.31||||0.0085|TWO_SIDED|95.0|1.53|18.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||18.43|1.53|0.0085
82463894|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.21||||0.1433|TWO_SIDED|95.0|0.76|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.38|0.76|0.1433
82544317|NCT02528188|164788538|SUPERIORITY|||||||0.7969|||||||Cochran-Mantel-Haenszel|||Week 8: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7969
82544318|NCT02528188|164788538|SUPERIORITY|||||||0.7857|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7857
82544319|NCT02528188|164788538|SUPERIORITY|||||||0.6627|||||||Cochran-Mantel-Haenszel|||Week 16: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.6627
82544320|NCT02528188|164788538|SUPERIORITY|||||||0.9867|||||||Cochran-Mantel-Haenszel|||Week 24: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.9867
82544321|NCT02528188|164788538|SUPERIORITY|||||||0.819|||||||Cochran-Mantel-Haenszel|||Week 24: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.8190
82544322|NCT02528188|164788538|SUPERIORITY|||||||0.7284|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.7284
82544323|NCT02528188|164788538|SUPERIORITY|||||||0.1545|||||||Cochran-Mantel-Haenszel|||Week 56: Cochran-Mantel-Haenszel test for row mean scores differ, stratified by the combinations of the three stratification factors (index joint, highest Kellgren-Lawrence grade and NSAID)||||0.1545
82578888|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.36||||0.442|TWO_SIDED|95.0|-1.31|0.58||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||0.58|-1.31|0.442
82650183|NCT04549259|165015454|OTHER|Single group change over time.|B|3.82|STANDARD_ERROR_OF_MEAN|2.06||0.08|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.08
82463895|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.17||||0.1577|TWO_SIDED|95.0|0.74|6.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.37|0.74|0.1577
82463896|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.16||||0.1608|TWO_SIDED|95.0|0.74|6.34||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.34|0.74|0.1608
82463897|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.96||||0.0693|TWO_SIDED|95.0|0.92|9.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.53|0.92|0.0693
82463898|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|9.57||||0.0063|TWO_SIDED|95.0|1.89|48.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||48.39|1.89|0.0063
82463899|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.25||||0.1637|TWO_SIDED|95.0|0.72|7.05||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||7.05|0.72|0.1637
82463900|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.57||||0.0326|TWO_SIDED|95.0|1.11|11.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||11.47|1.11|0.0326
82463901|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.24||||0.1455|TWO_SIDED|95.0|0.76|6.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.67|0.76|0.1455
82463902|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1951|TWO_SIDED|95.0|0.69|6.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.32|0.69|0.1951
82463903|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.56||||0.4097|TWO_SIDED|95.0|0.54|4.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.53|0.54|0.4097
82463904|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.29||||0.1554|TWO_SIDED|95.0|0.73|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.22|0.73|0.1554
82463905|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.22||||0.044|TWO_SIDED|95.0|1.04|17.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.14|1.04|0.0440
82463906|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.23||||0.1928|TWO_SIDED|95.0|0.67|7.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.47|0.67|0.1928
82463907|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.67||||0.0222|TWO_SIDED|95.0|1.25|17.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||17.47|1.25|0.0222
82463908|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4075|TWO_SIDED|95.0|0.54|4.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.65|0.54|0.4075
82650184|NCT04549259|165015454|OTHER|Single group change over time.|B|3.19|STANDARD_ERROR_OF_MEAN|1.99||0.12|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.12
82650185|NCT04549259|165015455|SUPERIORITY||Odds Ratio (OR)|22.3||||0.049|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.049
82650186|NCT04549259|165015455|SUPERIORITY||Odds Ratio (OR)|1.86||||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.66
82650187|NCT04549259|165015455|SUPERIORITY||Odds Ratio (OR)|0.68||||0.78|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.78
82650188|NCT04549259|165015455|SUPERIORITY||Odds Ratio (OR)|0.43||||0.54|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a generalized linear mixed model using the glmer function and a logit link in the R package lme4. The model included a random effect for participant. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.54
82544324|NCT03887650|164788565|SUPERIORITY|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||||||0.127
82544325|NCT03887650|164788566|SUPERIORITY|||||||0.975|||||||Wilcoxon (Mann-Whitney)|||||||.975
82544326|NCT03887650|164788567|SUPERIORITY|||||||0.852||||||PACU pain scores|Wilcoxon (Mann-Whitney)|||||||.852
82544327|NCT03887650|164788567|SUPERIORITY|||||||0.661||||||For (PACU-24) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.661
82544328|NCT03887650|164788567|SUPERIORITY|||||||0.747||||||For (PACU-24 hr.) maximum pain score|Wilcoxon (Mann-Whitney)|||||||.747
82544329|NCT03887650|164788567|SUPERIORITY|||||||0.604||||||For (PACU-24 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.604
82544330|NCT03887650|164788567|SUPERIORITY|||||||0.002||||||(24-48 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.002
82544331|NCT03887650|164788567|SUPERIORITY||||||<|0.01||||||For (24-48 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||<0.01
82544332|NCT03887650|164788567|SUPERIORITY||||||<|0.01||||||For (24-48 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||<0.01
82544333|NCT03887650|164788567|SUPERIORITY|||||||0.011||||||(48-72 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.011
82544334|NCT03887650|164788567|SUPERIORITY|||||||0.001||||||(48-72 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.001
82544335|NCT03887650|164788567|SUPERIORITY|||||||0.003||||||(48-72 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.003
82544336|NCT03887650|164788567|SUPERIORITY|||||||0.23||||||For (72-96 hr) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.230
82544337|NCT03887650|164788567|SUPERIORITY|||||||0.007||||||For (72-96 hr) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.007
82544338|NCT03887650|164788567|SUPERIORITY|||||||0.011||||||For (72-96 hr) average pain scores|Wilcoxon (Mann-Whitney)|||||||.011
82544339|NCT03887650|164788567|SUPERIORITY|||||||0.378||||||For (postoperative day 60) minimum pain scores|Wilcoxon (Mann-Whitney)|||||||.378
82544340|NCT03887650|164788567|SUPERIORITY|||||||0.001||||||For (postoperative day 60) maximum pain scores|Wilcoxon (Mann-Whitney)|||||||.001
82544341|NCT03887650|164788567|SUPERIORITY|||||||0.403||||||For (postoperative day 60) average pain scores|Wilcoxon (Mann-Whitney)|||||||.403
82544342|NCT03887650|164788568|SUPERIORITY|||||||0.112|||||||Wilcoxon (Mann-Whitney)|||||||.112
82544343|NCT03887650|164788569|SUPERIORITY|||||||0.096||||||P-Value for POD4|Fisher Exact|Fisher's Exact for POD4||||||0.096
82544344|NCT03887650|164788569|SUPERIORITY|||||||1||||||For POD60|Chi-squared|Chi-squared for POD60||||||1.0
82544345|NCT03887650|164788570|SUPERIORITY|||||||1||||||Any distress on PACU|Chi-squared|||||||1.0
82544346|NCT03887650|164788570|SUPERIORITY|||||||0.947||||||Postoperative day 2|Chi-squared|||||||.947
82544347|NCT03887650|164788571|SUPERIORITY|||||||0.441||||||Full sensation|Fishers Freeman Halton|||||||.441
82544348|NCT03887650|164788571|SUPERIORITY|||||||0.691||||||First sensation|Fishers Freeman Halton|||||||.691
82544349|NCT03887650|164788572|SUPERIORITY|||||||0.876|||||||Wilcoxon (Mann-Whitney)|||||||.876
82544350|NCT03887650|164788573|SUPERIORITY|||||||0.011||||||Any movement|Fisher' Freeman Halton|||||||.011
82544351|NCT03887650|164788573|SUPERIORITY|||||||0.536||||||Full movement|Fishers Freeman Halton|||||||.536
82544352|NCT03887650|164788574|SUPERIORITY|||||||0.648||||||MME 0-24|Wilcoxon (Mann-Whitney)|||||||.648
82544353|NCT03887650|164788574|SUPERIORITY|||||||0.285||||||MME24-48|Wilcoxon (Mann-Whitney)|||||||.285
82544354|NCT03887650|164788574|SUPERIORITY|||||||0.122||||||MME48-72|Wilcoxon (Mann-Whitney)|||||||.122
82544355|NCT03887650|164788574|SUPERIORITY|||||||0.367||||||MME 72-120|Wilcoxon (Mann-Whitney)|||||||.367
82463909|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.65||||0.3659|TWO_SIDED|95.0|0.56|4.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.93|0.56|0.3659
82463910|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.15||||0.7878|TWO_SIDED|95.0|0.41|3.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||3.24|0.41|0.7878
82463911|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0635|TWO_SIDED|95.0|0.94|11.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||11.38|0.94|0.0635
82463912|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|14.62||||0.0137|TWO_SIDED|95.0|1.73|123.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||123.3|1.73|0.0137
82463913|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.91||||0.1069|TWO_SIDED|95.0|0.79|10.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||10.62|0.79|0.1069
82463914|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.6||||0.0186|TWO_SIDED|95.0|1.33|23.47||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||23.47|1.33|0.0186
82463915|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1434|TWO_SIDED|95.0|0.75|7.56||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||7.56|0.75|0.1434
82463916|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.2||||0.167|TWO_SIDED|95.0|0.72|6.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.75|0.72|0.1670
82463917|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.16||||0.781|TWO_SIDED|95.0|0.41|3.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||3.28|0.41|0.7810
82463918|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.27||||0.1682|TWO_SIDED|95.0|0.71|7.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||7.26|0.71|0.1682
82463919|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|5.22||||0.0215|TWO_SIDED|95.0|1.28|21.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||21.39|1.28|0.0215
82544356|NCT01503749|164788576|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>0.05
82544357|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.22|||||TWO_SIDED|90.0|-4.98|2.54||||||SBP||2.54|-4.98|
82463920|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.75||||0.0306|TWO_SIDED|95.0|1.16|19.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||19.52|1.16|0.0306
82463921|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|10.1||||0.0059|TWO_SIDED|95.0|1.92|52.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||52.29|1.92|0.0059
82463922|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.64||||0.1004|TWO_SIDED|95.0|0.83|8.43||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||8.43|0.83|0.1004
82463923|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1837|TWO_SIDED|95.0|0.7|6.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.36|0.70|0.1837
82544358|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|90.0|-4.7|2.53||||||SBP||2.53|-4.70|
82544359|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.54|||||TWO_SIDED|90.0|-5.3|2.22||||||SBP||2.22|-5.30|
82544360|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.53|||||TWO_SIDED|90.0|-5.16|2.1||||||SBP||2.10|-5.16|
82544361|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-3.84|||||TWO_SIDED|90.0|-7.74|0.07||||||SBP||0.07|-7.74|
82544362|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-0.38|||||TWO_SIDED|90.0|-2.95|2.18||||||DBP||2.18|-2.95|
82544363|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.11|||||TWO_SIDED|90.0|-3.69|1.48||||||DBP||1.48|-3.69|
82544364|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|90.0|-3.75|1.85||||||DBP||1.85|-3.75|
82544365|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-1.49|||||TWO_SIDED|90.0|-4.09|1.1||||||DBP||1.10|-4.09|
82463924|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5929|TWO_SIDED|95.0|0.47|3.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||3.75|0.47|0.5929
82463925|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.93||||0.2588|TWO_SIDED|95.0|0.62|6.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.07|0.62|0.2588
82463926|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|7.69||||0.0129|TWO_SIDED|95.0|1.54|38.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||38.41|1.54|0.0129
82463927|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|7.12||||0.0168|TWO_SIDED|95.0|1.42|35.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||35.61|1.42|0.0168
82463928|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|9.95||||0.0058|TWO_SIDED|95.0|1.94|50.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||50.97|1.94|0.0058
82463929|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1934|TWO_SIDED|95.0|0.69|6.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.26|0.69|0.1934
82463930|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.01||||0.2181|TWO_SIDED|95.0|0.66|6.12||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.12|0.66|0.2181
82463931|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.58||||0.4116|TWO_SIDED|95.0|0.53|4.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.71|0.53|0.4116
82463932|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0938|TWO_SIDED|95.0|0.84|9.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||9.66|0.84|0.0938
82463933|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|8.02||||0.0125|TWO_SIDED|95.0|1.57|41.08||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||41.08|1.57|0.0125
82544366|NCT01849055|164788583|SUPERIORITY||Mean Difference (Final Values)|-2.51|||||TWO_SIDED|90.0|-5.23|0.2||||||DBP||0.20|-5.23|
82544367|NCT00475501|164788584|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.9|STANDARD_DEVIATION|2.57|<|0.001|TWO_SIDED|95.0|7.86|18.0||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis||mean difference is for subjects reveiving testosterone (groups T and T/F) vs. subjects not receiving testosterone (F and Placebo)|The studies was powered for 1-RM strength based on a 1.18-alpha increase reported in the literature||18.0|7.86|<0.001
82544368|NCT00475501|164788585|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77|STANDARD_DEVIATION|0.311||0.015|TWO_SIDED|95.0|0.16|1.31||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered on grip strength. We employed 2x2 analysis to determine effects of testosterone, finasteride and interaction.||1.31|0.16|0.015
82463934|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.29||||0.0761|TWO_SIDED|95.0|0.88|12.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||12.23|0.88|0.0761
82463935|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|4.02||||0.0305|TWO_SIDED|95.0|1.14|14.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||14.16|1.14|0.0305
82463936|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|3.42||||0.0501|TWO_SIDED|95.0|1.0|11.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.68|1.00|0.0501
82463937|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1212|TWO_SIDED|95.0|0.78|8.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.77|0.78|0.1212
82463938|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8332|TWO_SIDED|95.0|0.35|3.68||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||3.68|0.35|0.8332
82463939|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.66||||0.4285|TWO_SIDED|95.0|0.48|5.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.76|0.48|0.4285
82463940|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0954|TWO_SIDED|95.0|0.83|10.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||10.74|0.83|0.0954
82463941|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.98||||0.111|TWO_SIDED|95.0|0.78|11.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||11.38|0.78|0.1110
82463942|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.44||||0.1642|TWO_SIDED|95.0|0.69|8.55||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||8.55|0.69|0.1642
82463943|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|2.19||||0.1976|TWO_SIDED|95.0|0.66|7.24||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.24|0.66|0.1976
82463944|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5761|TWO_SIDED|95.0|0.43|4.58||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.58|0.43|0.5761
82463945|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.64||||0.454|TWO_SIDED|95.0|0.2|2.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.04|0.20|0.4540
82463946|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.57||||0.3732|TWO_SIDED|95.0|0.17|1.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||1.96|0.17|0.3732
82463947|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4665|TWO_SIDED|95.0|0.46|5.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.50|0.46|0.4665
82463948|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.46||||0.5634|TWO_SIDED|95.0|0.41|5.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.25|0.41|0.5634
82463949|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.65||||0.4297|TWO_SIDED|95.0|0.48|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||5.70|0.48|0.4297
82463950|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9789|TWO_SIDED|95.0|0.31|3.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.14|0.31|0.9789
82463951|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.81||||0.7357|TWO_SIDED|95.0|0.24|2.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.70|0.24|0.7357
82463952|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.46||||0.1977|TWO_SIDED|95.0|0.14|1.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.50|0.14|0.1977
82544369|NCT00475501|164788586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.19|STANDARD_DEVIATION|1.142|<|0.001|TWO_SIDED|95.0|1.95|6.43||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered on lumbar spine bone mineral density. We employed a 2x2 analysis for effects ot testosterone, finasteride and interaction||6.43|1.95|<0.001
82463953|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.52||||0.3203|TWO_SIDED|95.0|0.14|1.88||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.88|0.14|0.3203
82544370|NCT00475501|164788587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.737|STANDARD_ERROR_OF_MEAN|0.343||0.037|TWO_SIDED|95.0|-1.41|-0.064||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study is was not powered for score on Geriatric Depression Scale||-0.064|-1.41|0.037
82544371|NCT00475501|164788588|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.871|STANDARD_ERROR_OF_MEAN|1.108||0.012|TWO_SIDED|95.0|0.699|5.04||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for 30-minute recall on Rey figure test||5.04|0.699|0.012
82544372|NCT00475501|164788589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.642|STANDARD_ERROR_OF_MEAN|2.272||0.779|TWO_SIDED|95.0|-5.095|3.811||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Trials A test||3.811|-5.095|0.779
82544373|NCT00475501|164788590|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.587|STANDARD_ERROR_OF_MEAN|0.743||0.433|TWO_SIDED|95.0|-0.869|2.043||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Benton test||2.043|-0.869|0.433
82544374|NCT00475501|164788591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.13|STANDARD_DEVIATION|0.54|<|0.001|TWO_SIDED|95.0|3.07|5.18||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||This study was powered for hematocrit based on literature report that testosterone \> 2 alpha increase in hematocrit||5.18|3.07|<0.001
82544375|NCT00475501|164788592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1419|STANDARD_ERROR_OF_MEAN|0.2529||0.6219|TWO_SIDED|95.0|-0.353|6.37||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for dietary protein intake||6.37|-0.353|0.6219
82544376|NCT00475501|164788593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.33|STANDARD_DEVIATION|1.83||0.0051|TWO_SIDED|95.0|1.73|8.94||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was powered for prostate volume based on a literature report that testosterone increases prostate volume 1.85 alpha per year. We employed a 2x2 analysis for effects of testosterone, finasteride and interaction.||8.94|1.73|0.0051
82544377|NCT00475501|164788594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.868|STANDARD_ERROR_OF_MEAN|0.668||0.196|TWO_SIDED|95.0|-3.434|1.698||The difference in means and p value are for 12 months (using data from all time points to make the calculation). We tested the effect of testosterone (\[T-placebo plus T-finasteride\] vs. \[vehicle-placebo plus vehicle-finasteride\]).|Mixed Models Analysis|||The study was not powered for score on Lif Satisfaction A test||1.698|-3.434|0.196
82544378|NCT02299375|164788596|SUPERIORITY_OR_OTHER||Adjusted median|1.04|STANDARD_DEVIATION|0.28|||TWO_SIDED|95.0|0.63|1.73|||||Data presented above are for 95% equal-tailed credible intervals. The estimated posterior probability that the true ratio losmapimod/placebo is \<1 assuming noninformative priors is 0.44.The estimated posterior probability that the true ratio losmapi|||1.73|0.63|
82544379|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.026||||0.371|TWO_SIDED|95.0|-0.031|0.084||Analysis performed using a Mixed-effect Model Repeated Measures (MMRM) with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 2|||0.084|-0.031|0.371
82544380|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035||||0.244|TWO_SIDED|95.0|-0.024|0.093||Analysis performed using a Mixed-effect Repeated Measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 4|||0.093|-0.024|0.244
82544381|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.05|TWO_SIDED|95.0|0.0|0.119||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 8|||0.119|-0.000|0.050
82650189|NCT04549259|165015455|OTHER|Single group change over time.|Odds Ratio (OR)|6.26||||0.09|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.09
82544382|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002||||0.942|TWO_SIDED|95.0|-0.063|0.058||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 12|||0.058|-0.063|0.942
82544383|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.127|TWO_SIDED|95.0|-0.014|0.114||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 18|||0.114|-0.014|0.127
82463954|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9739|TWO_SIDED|95.0|0.3|3.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.44|0.30|0.9739
82463955|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6714|TWO_SIDED|95.0|0.36|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||4.97|0.36|0.6714
82463956|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.75||||0.6375|TWO_SIDED|95.0|0.22|2.52||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.52|0.22|0.6375
82463957|NCT03192176|164625595|SUPERIORITY||Odds Ratio (OR)|0.54||||0.298|TWO_SIDED|95.0|0.17|1.71||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||1.71|0.17|0.2980
82463958|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.35||||0.0044|TWO_SIDED|95.0|1.69|16.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||16.96|1.69|0.0044
82463959|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|8.65||||0.0002|TWO_SIDED|95.0|2.79|26.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||26.83|2.79|0.0002
82463960|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|10.82|||<|0.0001|TWO_SIDED|95.0|3.49|33.54||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||33.54|3.49|<0.0001
82463961|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|10.01|||<|0.0001|TWO_SIDED|95.0|3.2|31.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||31.29|3.20|<0.0001
82463962|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.51||||0.1266|TWO_SIDED|95.0|0.77|8.15||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||8.15|0.77|0.1266
82463963|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.72||||0.0024|TWO_SIDED|95.0|1.85|17.66||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||17.66|1.85|0.0024
82463964|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|7.93||||0.0003|TWO_SIDED|95.0|2.59|24.26||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 1||24.26|2.59|0.0003
82463965|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0217|TWO_SIDED|95.0|1.18|8.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||8.17|1.18|0.0217
82463966|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.63||||0.0021|TWO_SIDED|95.0|1.75|12.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.25|1.75|0.0021
82463967|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.72||||0.0016|TWO_SIDED|95.0|1.8|12.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.37|1.80|0.0016
82463968|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.8||||0.0018|TWO_SIDED|95.0|1.79|12.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.86|1.79|0.0018
82463969|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0467|TWO_SIDED|95.0|1.01|7.14||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.14|1.01|0.0467
82463970|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.7||||0.0016|TWO_SIDED|95.0|1.8|12.28||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||12.28|1.80|0.0016
82463971|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.98||||0.0234|TWO_SIDED|95.0|1.16|7.65||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 2||7.65|1.16|0.0234
82544384|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.079||||0.024|TWO_SIDED|95.0|0.011|0.148||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 26|||0.148|0.011|0.024
82650190|NCT04549259|165015455|OTHER|Single group change over time.|Odds Ratio (OR)|2.05||||0.4|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.40
82463972|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.88||||0.0294|TWO_SIDED|95.0|1.11|7.46||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||7.46|1.11|0.0294
82463973|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.74||||0.0068|TWO_SIDED|95.0|1.44|9.73||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||9.73|1.44|0.0068
82463974|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.35||||0.0025|TWO_SIDED|95.0|1.68|11.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||11.29|1.68|0.0025
82463975|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.82||||0.0006|TWO_SIDED|95.0|2.13|15.92||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.92|2.13|0.0006
82463976|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0572|TWO_SIDED|95.0|0.97|6.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.61|0.97|0.0572
82463977|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|6.03||||0.0003|TWO_SIDED|95.0|2.28|15.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||15.97|2.28|0.0003
82463978|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.55||||0.046|TWO_SIDED|95.0|1.02|6.38||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 3||6.38|1.02|0.0460
82463979|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.03||||0.1406|TWO_SIDED|95.0|0.79|5.23||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.23|0.79|0.1406
82544385|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.086||||0.057|TWO_SIDED|95.0|-0.003|0.174||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 39|||0.174|-0.003|0.057
82463980|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.97||||0.0234|TWO_SIDED|95.0|1.16|7.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.63|1.16|0.0234
82463981|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.82||||0.0302|TWO_SIDED|95.0|1.1|7.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||7.22|1.10|0.0302
82463982|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.23||||0.0016|TWO_SIDED|95.0|1.87|14.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||14.63|1.87|0.0016
82463983|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.82||||0.2105|TWO_SIDED|95.0|0.71|4.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||4.64|0.71|0.2105
82463984|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.17||||0.0033|TWO_SIDED|95.0|1.61|10.81||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||10.81|1.61|0.0033
82463985|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1087|TWO_SIDED|95.0|0.85|5.21||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 4||5.21|0.85|0.1087
82544386|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.481|TWO_SIDED|95.0|-0.09|0.191||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 pre-dose, Week 52|||0.191|-0.090|0.481
82463986|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.56||||0.36|TWO_SIDED|95.0|0.6|4.03||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||4.03|0.60|0.3600
82463987|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.05||||0.1394|TWO_SIDED|95.0|0.79|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.32|0.79|0.1394
82463988|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0522|TWO_SIDED|95.0|0.99|7.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||7.36|0.99|0.0522
82463989|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.97||||0.0119|TWO_SIDED|95.0|1.63|11.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||11.61|1.63|0.0119
82463990|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.07||||0.1474|TWO_SIDED|95.0|0.77|5.53||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.53|0.77|0.1474
82463991|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.08||||0.0026|TWO_SIDED|95.0|1.76|14.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||14.67|1.76|0.0026
82463992|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1263|TWO_SIDED|95.0|0.81|5.51||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 5||5.51|0.81|0.1263
82544387|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.014||||0.521|TWO_SIDED|95.0|-0.03|0.059||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 2|||0.059|-0.030|0.521
82544388|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.084|TWO_SIDED|95.0|-0.005|0.086||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 4|||0.086|-0.005|0.084
82544389|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033||||0.266|TWO_SIDED|95.0|-0.025|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 8|||0.090|-0.025|0.266
82544390|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012||||0.665|TWO_SIDED|95.0|-0.066|0.042||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 12|||0.042|-0.066|0.665
82544391|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.023||||0.489|TWO_SIDED|95.0|-0.043|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 18|||0.090|-0.043|0.489
82544392|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.099||||0.007|TWO_SIDED|95.0|0.028|0.17||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 26|||0.170|0.028|0.007
82544393|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.055||||0.248|TWO_SIDED|95.0|-0.039|0.148||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 39|||0.148|-0.039|0.248
82544394|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.043||||0.506|TWO_SIDED|95.0|-0.087|0.172||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV1 post-dose, Week 52|||0.172|-0.087|0.506
82463993|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.83||||0.2327|TWO_SIDED|95.0|0.68|4.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||4.95|0.68|0.2327
82463994|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.12||||0.1359|TWO_SIDED|95.0|0.79|5.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||5.70|0.79|0.1359
82544395|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.051||||0.223|TWO_SIDED|95.0|-0.032|0.134||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 2|||0.134|-0.032|0.223
82544396|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.046||||0.276|TWO_SIDED|95.0|-0.037|0.129||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 4|||0.129|-0.037|0.276
82463995|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.35||||0.0258|TWO_SIDED|95.0|1.16|9.69||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||9.69|1.16|0.0258
82463996|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.77||||0.0076|TWO_SIDED|95.0|1.51|15.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||15.04|1.51|0.0076
82463997|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.36||||0.1088|TWO_SIDED|95.0|0.83|6.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||6.75|0.83|0.1088
82463998|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.89||||0.0045|TWO_SIDED|95.0|1.64|14.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||14.62|1.64|0.0045
82463999|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0493|TWO_SIDED|95.0|1.0|7.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 6||7.50|1.00|0.0493
82464000|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0376|TWO_SIDED|95.0|1.06|8.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.41|1.06|0.0376
82464001|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0723|TWO_SIDED|95.0|0.92|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.94|0.92|0.0723
82464002|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.11||||0.0396|TWO_SIDED|95.0|1.06|9.17||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||9.17|1.06|0.0396
82464003|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|6.18||||0.0031|TWO_SIDED|95.0|1.85|20.67||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||20.67|1.85|0.0031
82544397|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.075||||0.131|TWO_SIDED|95.0|-0.023|0.173||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 8|||0.173|-0.023|0.131
82544398|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.003||||0.949|TWO_SIDED|95.0|-0.084|0.09||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 12|||0.090|-0.084|0.949
82544399|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.259|TWO_SIDED|95.0|-0.044|0.163||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 18|||0.163|-0.044|0.259
82544400|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.152|TWO_SIDED|95.0|-0.027|0.172||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 26|||0.172|-0.027|0.152
82544401|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.114||||0.076|TWO_SIDED|95.0|-0.012|0.241||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 39|||0.241|-0.012|0.076
82544402|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.171||||0.107|TWO_SIDED|95.0|-0.038|0.381||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 pre-dose, Week 52|||0.381|-0.038|0.107
82544403|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.484|TWO_SIDED|95.0|-0.046|0.097||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 2|||0.097|-0.046|0.484
82544404|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037||||0.256|TWO_SIDED|95.0|-0.027|0.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 4|||0.100|-0.027|0.256
82544405|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052||||0.184|TWO_SIDED|95.0|-0.025|0.128||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 8|||0.128|-0.025|0.184
82544406|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.001||||0.97|TWO_SIDED|95.0|-0.077|0.074||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 12|||0.074|-0.077|0.970
82544407|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.025||||0.608|TWO_SIDED|95.0|-0.07|0.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 18|||0.120|-0.070|0.608
82544408|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.084||||0.071|TWO_SIDED|95.0|-0.007|0.175||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 26|||0.175|-0.007|0.071
82544409|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028||||0.622|TWO_SIDED|95.0|-0.085|0.141||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 39|||0.141|-0.085|0.622
82544410|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.102||||0.277|TWO_SIDED|95.0|-0.086|0.291||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FEV6 post-dose, Week 52|||0.291|-0.086|0.277
82544411|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.056||||0.241|TWO_SIDED|95.0|-0.038|0.15||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 2|||0.150|-0.038|0.241
82544412|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.348|TWO_SIDED|95.0|-0.049|0.14|||MMRM||FVC Pre-dose, Week 4|||0.140|-0.049|0.348
82544413|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.138|TWO_SIDED|95.0|-0.024|0.169||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 8|||0.169|-0.024|0.138
82544414|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.012||||0.813|TWO_SIDED|95.0|-0.111|0.087||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 12|||0.087|-0.111|0.813
82544415|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.073||||0.172|TWO_SIDED|95.0|-0.032|0.177||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 18|||0.177|-0.032|0.172
82544416|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.067||||0.242|TWO_SIDED|95.0|-0.045|0.18||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 26|||0.180|-0.045|0.242
82544417|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.082||||0.267|TWO_SIDED|95.0|-0.063|0.228||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 39|||0.228|-0.063|0.267
82544418|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083||||0.471|TWO_SIDED|95.0|-0.143|0.309||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Pre-dose, Week 52|||0.309|-0.143|0.471
82544419|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.045||||0.315|TWO_SIDED|95.0|-0.043|0.132||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 2|||0.132|-0.043|0.315
82544420|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.054||||0.143|TWO_SIDED|95.0|-0.018|0.126||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 4|||0.126|-0.018|0.143
82544421|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072||||0.111|TWO_SIDED|95.0|-0.017|0.16||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 8|||0.160|-0.017|0.111
82544422|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.012||||0.783|TWO_SIDED|95.0|-0.075|0.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 12|||0.100|-0.075|0.783
82544423|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.059||||0.283|TWO_SIDED|95.0|-0.049|0.167||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 18|||0.167|-0.049|0.283
82544424|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138||||0.038|TWO_SIDED|95.0|0.008|0.267||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 26|||0.267|0.008|0.038
82544425|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.048||||0.467|TWO_SIDED|95.0|-0.083|0.18||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 39|||0.180|-0.083|0.467
82544426|NCT02299375|164788599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.042||||0.64|TWO_SIDED|95.0|-0.138|0.222||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||FVC Post-dose, Week 52|||0.222|-0.138|0.640
82544427|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.661|TWO_SIDED|95.0|-2.08|3.27||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 2|||3.27|-2.08|0.661
82544428|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44||||0.074|TWO_SIDED|95.0|-0.24|5.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 6|||5.12|-0.24|0.074
82544429|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.52||||0.21|TWO_SIDED|95.0|-1.43|6.46||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 8|||6.46|-1.43|0.210
82544430|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.933|TWO_SIDED|95.0|-3.4|3.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 12|||3.12|-3.40|0.933
82544431|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.7||||0.091|TWO_SIDED|95.0|-0.43|5.82||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 18|||5.82|-0.43|0.091
82544432|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.69||||0.018|TWO_SIDED|95.0|0.82|8.56||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 26|||8.56|0.82|0.018
82544433|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3||||0.103|TWO_SIDED|95.0|-0.69|7.29||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 39|||7.29|-0.69|0.103
82544434|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.16||||0.448|TWO_SIDED|95.0|-3.5|7.82||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FVC, Week 52|||7.82|-3.50|0.448
82544435|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75||||0.089|TWO_SIDED|95.0|-0.27|3.77||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 2|||3.77|-0.27|0.089
82544436|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.76||||0.095|TWO_SIDED|95.0|-0.31|3.84||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 4|||3.84|-0.31|0.095
82544437|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.19||||0.073|TWO_SIDED|95.0|-0.2|4.58||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 8|||4.58|-0.20|0.073
82544438|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.22||||0.853|TWO_SIDED|95.0|-2.08|2.51||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 12|||2.51|-2.08|0.853
82544439|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37||||0.334|TWO_SIDED|95.0|-1.43|4.17||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 18|||4.17|-1.43|0.334
82544440|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.33||||0.017|TWO_SIDED|95.0|0.61|6.05||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 26|||6.05|0.61|0.017
82544441|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.13||||0.077|TWO_SIDED|95.0|-0.34|6.59||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 39|||6.59|-0.34|0.077
82544442|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.34||||0.355|TWO_SIDED|95.0|-2.7|7.38||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV1, Week 52|||7.38|-2.70|0.355
82544443|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.82||||0.044|TWO_SIDED|95.0|0.08|5.55||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 2|||5.55|0.08|0.044
82464004|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1044|TWO_SIDED|95.0|0.83|6.96||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||6.96|0.83|0.1044
82464005|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0029|TWO_SIDED|95.0|1.78|16.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||16.75|1.78|0.0029
82464006|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.01||||0.0364|TWO_SIDED|95.0|1.07|8.45||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 7||8.45|1.07|0.0364
82464007|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.26||||0.6396|TWO_SIDED|95.0|0.47|3.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.37|0.47|0.6396
82464008|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.47||||0.4378|TWO_SIDED|95.0|0.55|3.91||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||3.91|0.55|0.4378
82464009|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.95||||0.2045|TWO_SIDED|95.0|0.7|5.44||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||5.44|0.70|0.2045
82464010|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.54||||0.0958|TWO_SIDED|95.0|0.85|7.62||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||7.62|0.85|0.0958
82464011|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.7||||0.321|TWO_SIDED|95.0|0.6|4.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||4.85|0.60|0.3210
82464012|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.75||||0.0199|TWO_SIDED|95.0|1.23|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||11.39|1.23|0.0199
82464013|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.26||||0.1219|TWO_SIDED|95.0|0.8|6.36||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 8||6.36|0.80|0.1219
82464014|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.72||||0.2975|TWO_SIDED|95.0|0.62|4.76||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.76|0.62|0.2975
82464015|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.75||||0.2763|TWO_SIDED|95.0|0.64|4.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||4.80|0.64|0.2763
82544444|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.87||||0.032|TWO_SIDED|95.0|0.25|5.49||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 4|||5.49|0.25|0.032
82544445|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.75||||0.025|TWO_SIDED|95.0|0.49|7.01||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 8|||7.01|0.49|0.025
82544446|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.785|TWO_SIDED|95.0|-2.5|3.29||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 12|||3.29|-2.50|0.785
82544447|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.34||||0.052|TWO_SIDED|95.0|-0.03|6.7||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 18|||6.70|-0.03|0.052
82464016|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.33||||0.1235|TWO_SIDED|95.0|0.79|6.82||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.82|0.79|0.1235
82464017|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.24||||0.019|TWO_SIDED|95.0|1.27|14.19||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||14.19|1.27|0.0190
82544448|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.53||||0.041|TWO_SIDED|95.0|0.14|6.92||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 26|||6.92|0.14|0.041
82464018|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.98||||0.2213|TWO_SIDED|95.0|0.66|5.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||5.93|0.66|0.2213
82464019|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.88||||0.005|TWO_SIDED|95.0|1.71|20.25||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||20.25|1.71|0.0050
82464020|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.39||||0.1053|TWO_SIDED|95.0|0.83|6.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 9||6.85|0.83|0.1053
82464021|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0991|TWO_SIDED|95.0|0.85|6.72||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||6.72|0.85|0.0991
82464022|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.93||||0.2056|TWO_SIDED|95.0|0.7|5.32||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||5.32|0.70|0.2056
82464023|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0407|TWO_SIDED|95.0|1.05|9.57||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||9.57|1.05|0.0407
82464024|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.47||||0.0059|TWO_SIDED|95.0|1.63|18.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||18.30|1.63|0.0059
82464025|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.85||||0.023|TWO_SIDED|95.0|1.2|12.3||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||12.30|1.20|0.0230
82464026|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|7.36||||0.0015|TWO_SIDED|95.0|2.14|25.29||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||25.29|2.14|0.0015
82544449|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.19||||0.043|TWO_SIDED|95.0|0.13|8.25||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 39|||8.25|0.13|0.043
82544450|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.67||||0.562|TWO_SIDED|95.0|-6.58|11.92||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||PP FEV6, Week 52|||11.92|-6.58|0.562
82650191|NCT04549259|165015455|OTHER|Single group change over time.|Odds Ratio (OR)|1.42||||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.66
82464027|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.45||||0.0248|TWO_SIDED|95.0|1.17|10.16||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 10||10.16|1.17|0.0248
82544451|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21||||0.746|TWO_SIDED|95.0|-1.09|1.52||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 2|||1.52|-1.09|0.746
82544452|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.878|TWO_SIDED|95.0|-1.53|1.79||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 4|||1.79|-1.53|0.878
82464028|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.37||||0.1091|TWO_SIDED|95.0|0.82|6.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||6.83|0.82|0.1091
82464029|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.71||||0.3054|TWO_SIDED|95.0|0.61|4.75||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||4.75|0.61|0.3054
82464030|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1129|TWO_SIDED|95.0|0.81|7.61||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||7.61|0.81|0.1129
82544453|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35||||0.644|TWO_SIDED|95.0|-1.15|1.85||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 8|||1.85|-1.15|0.644
82544454|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.715|TWO_SIDED|95.0|-1.86|1.28||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 12|||1.28|-1.86|0.715
82544455|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.24||||0.803|TWO_SIDED|95.0|-1.62|2.1||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 18|||2.10|-1.62|0.803
82544456|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.184|TWO_SIDED|95.0|-0.63|3.27||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 26|||3.27|-0.63|0.184
82544457|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.05||||0.102|TWO_SIDED|95.0|-0.42|4.52||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 39|||4.52|-0.42|0.102
82544458|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.44||||0.383|TWO_SIDED|95.0|-1.85|4.73||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Pre-dose FEV1/FVC, Week 52|||4.73|-1.85|0.383
82544459|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43||||0.607|TWO_SIDED|95.0|-1.2|2.06||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 2|||2.06|-1.20|0.607
82544460|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.348|TWO_SIDED|95.0|-0.74|2.08||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 4|||2.08|-0.74|0.348
82578889|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.83||||0.139|TWO_SIDED|95.0|-1.93|0.28||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.28|-1.93|0.139
82650192|NCT04549259|165015455|OTHER|Single group change over time.|Odds Ratio (OR)|1.14||||0.87|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.87
82544461|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.826|TWO_SIDED|95.0|-1.32|1.65||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 8|||1.65|-1.32|0.826
82544462|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.588|TWO_SIDED|95.0|-2.13|1.21||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 12|||1.21|-2.13|0.588
82544463|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41||||0.585|TWO_SIDED|95.0|-1.08|1.91||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 18|||1.91|-1.08|0.585
82544464|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.82||||0.231|TWO_SIDED|95.0|-2.48|10.12||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 26|||10.12|-2.48|0.231
82544465|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.45||||0.24|TWO_SIDED|95.0|-0.99|3.89||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 39|||3.89|-0.99|0.240
82544466|NCT02299375|164788600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.17||||0.517|TWO_SIDED|95.0|-2.49|4.84||Analysis performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment and Baseline by visit interactions. Toeplitz structure was used.|MMRM||Post-dose FEV1/FVC, Week 52|||4.84|-2.49|0.517
82544467|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.67||||0.706|TWO_SIDED|95.0|-4.2|2.85||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 12|||2.85|-4.20|0.706
82464031|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0432|TWO_SIDED|95.0|1.04|10.37||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||10.37|1.04|0.0432
82464032|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.77||||0.0315|TWO_SIDED|95.0|1.13|12.6||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||12.60|1.13|0.0315
82464033|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|4.26||||0.0147|TWO_SIDED|95.0|1.33|13.64||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||13.64|1.33|0.0147
82464034|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.18||||0.0405|TWO_SIDED|95.0|1.05|9.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 11||9.59|1.05|0.0405
82544468|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.89||||0.694|TWO_SIDED|95.0|-3.58|5.36||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 26|||5.36|-3.58|0.694
82650193|NCT04549259|165015456|SUPERIORITY||B|-1.74|STANDARD_ERROR_OF_MEAN|1.47||0.24|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.24
82464035|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.4||||0.5238|TWO_SIDED|95.0|0.5|3.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||3.93|0.50|0.5238
82464036|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.73||||0.306|TWO_SIDED|95.0|0.6|4.97||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.97|0.60|0.3060
82464037|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.64||||0.3747|TWO_SIDED|95.0|0.55|4.86||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||4.86|0.55|0.3747
82464038|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.49||||0.0443|TWO_SIDED|95.0|1.03|11.8||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||11.80|1.03|0.0443
82464039|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.49||||0.1269|TWO_SIDED|95.0|0.77|8.06||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||8.06|0.77|0.1269
82464040|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|5.15||||0.0095|TWO_SIDED|95.0|1.49|17.13||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||17.13|1.49|0.0095
82464041|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1254|TWO_SIDED|95.0|0.79|6.94||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 12||6.94|0.79|0.1254
82464042|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|3.66||||0.0402|TWO_SIDED|95.0|1.06|12.63||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||12.63|1.06|0.0402
82464043|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.59||||0.4547|TWO_SIDED|95.0|0.47|5.42||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.42|0.47|0.4547
82464044|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.71||||0.4008|TWO_SIDED|95.0|0.49|5.99||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||5.99|0.49|0.4008
82544469|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.83||||0.382|TWO_SIDED|95.0|-9.23|3.58||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 39|||3.58|-9.23|0.382
82464045|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.55||||0.1535|TWO_SIDED|95.0|0.71|9.22||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||9.22|0.71|0.1535
82464046|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|7.19||||0.0055|TWO_SIDED|95.0|1.79|28.95||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||28.95|1.79|0.0055
82464047|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.19||||0.2116|TWO_SIDED|95.0|0.64|7.5||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.50|0.64|0.2116
82464048|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.34||||0.1668|TWO_SIDED|95.0|0.7|7.83||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 13||7.83|0.70|0.1668
82464049|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.32||||0.1824|TWO_SIDED|95.0|0.67|7.98||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.98|0.67|0.1824
82464050|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|0.85||||0.797|TWO_SIDED|95.0|0.25|2.9||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.90|0.25|0.7970
82464051|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|0.78||||0.7065|TWO_SIDED|95.0|0.21|2.85||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||2.85|0.21|0.7065
82464052|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.08||||0.9126|TWO_SIDED|95.0|0.29|3.93||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||3.93|0.29|0.9126
82464053|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.82||||0.1282|TWO_SIDED|95.0|0.74|10.7||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||10.70|0.74|0.1282
82464054|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.03||||0.2661|TWO_SIDED|95.0|0.58|7.04||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||7.04|0.58|0.2661
82464055|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7457|TWO_SIDED|95.0|0.36|4.09||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 14||4.09|0.36|0.7457
82464056|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.73||||0.4095|TWO_SIDED|95.0|0.47|6.41||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||6.41|0.47|0.4095
82464057|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.04||||0.9571|TWO_SIDED|95.0|0.28|3.77||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.77|0.28|0.9571
82544470|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.903|TWO_SIDED|95.0|-8.54|7.57||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Total, Week 52|||7.57|-8.54|0.903
82464058|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8827|TWO_SIDED|95.0|0.23|3.59||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||3.59|0.23|0.8827
82464059|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|0.69||||0.5944|TWO_SIDED|95.0|0.17|2.74||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||2.74|0.17|0.5944
82464060|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.74||||0.1647|TWO_SIDED|95.0|0.66|11.39||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||11.39|0.66|0.1647
82464061|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|2.07||||0.2684|TWO_SIDED|95.0|0.57|7.48||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||7.48|0.57|0.2684
82650194|NCT04549259|165015456|SUPERIORITY||B|-2.05|STANDARD_ERROR_OF_MEAN|1.46||0.17|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.17
82544471|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.67||||0.481|TWO_SIDED|95.0|-6.33|2.99||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 12|||2.99|-6.33|0.481
82544472|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73||||0.793|TWO_SIDED|95.0|-4.79|6.25||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 26|||6.25|-4.79|0.793
82544473|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.6||||0.421|TWO_SIDED|95.0|-12.45|5.26||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 39|||5.26|-12.45|0.421
82544474|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.98||||0.162|TWO_SIDED|95.0|-19.35|3.4||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Symptoms, Week 52|||3.40|-19.35|0.162
82544475|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.23||||0.592|TWO_SIDED|95.0|-3.31|5.78||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 12|||5.78|-3.31|0.592
82544476|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03||||0.704|TWO_SIDED|95.0|-4.31|6.36||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 26|||6.36|-4.31|0.704
82544477|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.41||||0.546|TWO_SIDED|95.0|-10.32|5.5||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 39|||5.50|-10.32|0.546
82544478|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.39||||0.35|TWO_SIDED|95.0|-5.06|13.84||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Activity, Week 52|||13.84|-5.06|0.350
82544479|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.411|TWO_SIDED|95.0|-5.75|2.37||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 12|||2.37|-5.75|0.411
82544480|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.896|TWO_SIDED|95.0|-5.67|4.97||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 26|||4.97|-5.67|0.896
82544481|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.21||||0.559|TWO_SIDED|95.0|-9.73|5.3||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 39|||5.30|-9.73|0.559
82544482|NCT02299375|164788607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.809|TWO_SIDED|95.0|-12.19|9.6||Analysis was performed using a mixed-effects repeated measures model with covariates of treatment, smoking status at Screening, ICS use, region, Baseline, visit, treatment by visit and Baseline by visit interactions.|Mixed Models Analysis||SGRQ Impact, Week 52|||9.60|-12.19|0.809
82544483|NCT00704184|164788640|SUPERIORITY_OR_OTHER||Adjusted difference in %|69.3|||<|0.001|TWO_SIDED|95.0|40.3|86.7|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||86.7|40.3|<0.001
82578890|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.9||||0.103|TWO_SIDED|95.0|-2.0|0.19||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||0.19|-2.00|0.103
82578891|NCT02683785|164867142|OTHER||Mean Difference (Net)|-0.89||||0.132|TWO_SIDED|95.0|-2.06|0.28||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented.|||0.28|-2.06|0.132
82578892|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.45||||0.082|TWO_SIDED|95.0|-0.97|0.06||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented.|||0.06|-0.97|0.082
82464062|NCT03192176|164625596|SUPERIORITY||Odds Ratio (OR)|1.48||||0.5338|TWO_SIDED|95.0|0.43|5.07||Odds ratio, corresponding 95% CI and p-value are based on a logistic regression with responder as the dependent variable and treatment group and smoking status as factors and baseline measurement (mean frequency of vasomotor symptoms) as a covariate.|Regression, Logistic|||Week 15||5.07|0.43|0.5338
82464063|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.45||0.0179|TWO_SIDED|95.0|-1.95|-0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|Mixed model repeated measures (MMRM)|||Week 4||-0.18|-1.95|0.0179
82464064|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0027|TWO_SIDED|95.0|-2.25|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.47|-2.25|0.0027
82464065|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.45||0.0004|TWO_SIDED|95.0|-2.5|-0.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.73|-2.50|0.0004
82464066|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.46||0.0009|TWO_SIDED|95.0|-2.43|-0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.64|-2.43|0.0009
82464067|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.5806|TWO_SIDED|95.0|-1.14|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||0.64|-1.14|0.5806
82464068|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.45||0.0105|TWO_SIDED|95.0|-2.03|-0.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.27|-2.03|0.0105
82464069|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0048|TWO_SIDED|95.0|-2.16|-0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4||-0.39|-2.16|0.0048
82464070|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.46||0.1801|TWO_SIDED|95.0|-1.52|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.29|-1.52|0.1801
82464071|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.46||0.0609|TWO_SIDED|95.0|-1.76|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.04|-1.76|0.0609
82464072|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.47||0.0028|TWO_SIDED|95.0|-2.33|-0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.49|-2.33|0.0028
82464073|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.47||0.0018|TWO_SIDED|95.0|-2.4|-0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.55|-2.40|0.0018
82464074|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.5519|TWO_SIDED|95.0|-1.19|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.64|-1.19|0.5519
82464075|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.46||0.1922|TWO_SIDED|95.0|-1.51|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||0.31|-1.51|0.1922
82464076|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.46||0.0463|TWO_SIDED|95.0|-1.82|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8||-0.02|-1.82|0.0463
82464077|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.44||0.1288|TWO_SIDED|95.0|-1.53|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.19|-1.53|0.1288
82650195|NCT04549259|165015456|SUPERIORITY||B|0.64|STANDARD_ERROR_OF_MEAN|1.47||0.66|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.66
82464078|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.44||0.0577|TWO_SIDED|95.0|-1.72|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.03|-1.72|0.0577
82464079|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.45||0.0027|TWO_SIDED|95.0|-2.26|-0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.48|-2.26|0.0027
82464080|NCT03192176|164625597|SUPERIORITY||-1.3|-1.3|STANDARD_ERROR_OF_MEAN|0.45||0.0043|TWO_SIDED|95.0|-2.2|-0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.41|-2.20|0.0043
82464081|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.45||0.4089|TWO_SIDED|95.0|-1.27|0.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.52|-1.27|0.4089
82464082|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.44||0.205|TWO_SIDED|95.0|-1.44|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||0.31|-1.44|0.2050
82464083|NCT03192176|164625597|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.44||0.0265|TWO_SIDED|95.0|-1.84|-0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12||-0.11|-1.84|0.0265
82464084|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.53||0.7617|TWO_SIDED|95.0|-1.2|0.88||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.88|-1.20|0.7617
82464085|NCT03192176|164625597|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6061|TWO_SIDED|95.0|-0.77|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.32|-0.77|0.6061
82464086|NCT03192176|164625597|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.54||0.7997|TWO_SIDED|95.0|-0.93|1.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.21|-0.93|0.7997
82464087|NCT03192176|164625597|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.55||0.3391|TWO_SIDED|95.0|-0.55|1.6||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.60|-0.55|0.3391
82464088|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.55||0.3934|TWO_SIDED|95.0|-1.55|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.61|-1.55|0.3934
82464089|NCT03192176|164625597|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.54||0.975|TWO_SIDED|95.0|-1.08|1.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||1.04|-1.08|0.9750
82464090|NCT03192176|164625597|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.883|TWO_SIDED|95.0|-1.13|0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors and baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15||0.97|-1.13|0.8830
82464091|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|4.27||0.5872|TWO_SIDED|95.0|-6.09|10.73||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||10.73|-6.09|0.5872
82464092|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.8|STANDARD_ERROR_OF_MEAN|4.33||0.3779|TWO_SIDED|95.0|-4.7|12.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||12.35|-4.70|0.3779
82464093|NCT03192176|164625598|SUPERIORITY||LSMean difference|-4.1|STANDARD_ERROR_OF_MEAN|4.34||0.3506|TWO_SIDED|95.0|-12.61|4.49||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||4.49|-12.61|0.3506
82544484|NCT00704184|164788640|SUPERIORITY_OR_OTHER||Adjusted difference in %|73.6|||<|0.001|TWO_SIDED|95.0|46.0|88.6|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||88.6|46.0|<0.001
82578893|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.27||||0.426|TWO_SIDED|95.0|-0.96|0.41||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||0.41|-0.96|0.426
82578894|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.6||||0.129|TWO_SIDED|95.0|-1.38|0.18||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 3 is presented|||0.18|-1.38|0.129
82578895|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.78||||0.067|TWO_SIDED|95.0|-1.63|0.06||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented.|||0.06|-1.63|0.067
82578896|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.33||||0.494|TWO_SIDED|95.0|-1.28|0.63||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||0.63|-1.28|0.494
82464094|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.0|STANDARD_ERROR_OF_MEAN|4.39||0.8236|TWO_SIDED|95.0|-7.66|9.62||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||9.62|-7.66|0.8236
82464095|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.3|STANDARD_ERROR_OF_MEAN|4.35||0.5949|TWO_SIDED|95.0|-6.24|10.87||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||10.87|-6.24|0.5949
82464096|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.19||0.9237|TWO_SIDED|95.0|-8.65|7.85||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||7.85|-8.65|0.9237
82464097|NCT03192176|164625598|SUPERIORITY||LSMean difference|4.0|STANDARD_ERROR_OF_MEAN|4.32||0.3599|TWO_SIDED|95.0|-4.54|12.46||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Getting to Sleep||12.46|-4.54|0.3599
82464098|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.7|STANDARD_ERROR_OF_MEAN|5.08||0.7422|TWO_SIDED|95.0|-8.33|11.68||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||11.68|-8.33|0.7422
82464099|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|5.09||0.603|TWO_SIDED|95.0|-12.67|7.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||7.37|-12.67|0.6030
82464100|NCT03192176|164625598|SUPERIORITY||LSMean difference|-6.0|STANDARD_ERROR_OF_MEAN|5.14||0.2478|TWO_SIDED|95.0|-16.07|4.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||4.17|-16.07|0.2478
82464101|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.3|STANDARD_ERROR_OF_MEAN|5.18||0.5295|TWO_SIDED|95.0|-6.94|13.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||13.47|-6.94|0.5295
82464102|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|5.16||0.6938|TWO_SIDED|95.0|-12.2|8.13||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||8.13|-12.20|0.6938
82544485|NCT00704184|164788640|SUPERIORITY_OR_OTHER||Adjusted difference in %|63.3|||<|0.001|TWO_SIDED|95.0|32.8|82.7|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3%) and stratifies by HCV genotype (1a vs. non-1a).|||82.7|32.8|<0.001
82544486|NCT00704184|164788640|SUPERIORITY_OR_OTHER||Adjusted difference in %|77.8|||<|0.001|TWO_SIDED|95.0|49.2|91.3|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of placebo responders (5.3) and stratifies by HCV genotype (1a vs. non-1a).|||91.3|49.2|<0.001
82544487|NCT00704184|164788643|SUPERIORITY_OR_OTHER||Adjusted difference|11.2|||||TWO_SIDED|95.0|-9.7|33.8|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.8|-9.7|
82544488|NCT00704184|164788643|SUPERIORITY_OR_OTHER||Adjusted difference|10.8|||||TWO_SIDED|95.0|-7.6|33.2|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.2|-7.6|
82544489|NCT00704184|164788643|SUPERIORITY_OR_OTHER||Adjusted difference|11.2|||||TWO_SIDED|95.0|-9.7|33.8|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||33.8|-9.7|
82544490|NCT00704184|164788643|SUPERIORITY_OR_OTHER||Adjusted difference|5.4|||||TWO_SIDED|95.0|-16.5|28.4|||||Adjusted difference subtracts the percentage of placebo responders (88.9%) and stratifies by HCV genotype (1a vs. non-1a).|||28.4|-16.5|
82544491|NCT00704184|164788644|SUPERIORITY_OR_OTHER||Adjusted difference|16.9|||||TWO_SIDED|95.0|-4.0|40.2|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||40.2|-4.0|
82544492|NCT00704184|164788644|SUPERIORITY_OR_OTHER||Adjusted difference|16.2|||||TWO_SIDED|95.0|-2.2|39.5|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||39.5|-2.2|
82544493|NCT00704184|164788644|SUPERIORITY_OR_OTHER||Adjusted difference|16.9|||||TWO_SIDED|95.0|-4.0|40.2|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||40.2|-4.0|
82544494|NCT00704184|164788644|SUPERIORITY_OR_OTHER||Adjusted difference|10.7|||||TWO_SIDED|95.0|-11.4|34.6|||||Adjusted difference subtracts the percentage of placebo responders (83.3%) and stratifies by HCV genotype (1a vs. non-1a).|||34.6|-11.4|
82464103|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|4.97||0.9765|TWO_SIDED|95.0|-9.93|9.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||9.63|-9.93|0.9765
82464104|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.7|STANDARD_ERROR_OF_MEAN|5.13||0.4771|TWO_SIDED|95.0|-6.45|13.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Quality of Sleep||13.76|-6.45|0.4771
82464105|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.5|STANDARD_ERROR_OF_MEAN|4.44||0.4256|TWO_SIDED|95.0|-5.19|12.27||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||12.27|-5.19|0.4256
82464106|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|4.45||0.9559|TWO_SIDED|95.0|-8.52|9.01||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||9.01|-8.52|0.9559
82464107|NCT03192176|164625598|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|4.49||0.2003|TWO_SIDED|95.0|-14.6|3.07||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||3.07|-14.60|0.2003
82544495|NCT00704184|164788645|SUPERIORITY_OR_OTHER||Difference in Least Squares (LC) Means|-2.5|||||TWO_SIDED|95.0|-3.2|-1.8|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-1.8|-3.2|
82544496|NCT00704184|164788645|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.4|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.4|
82544497|NCT00704184|164788645|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.4|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.4|
82544498|NCT00704184|164788645|SUPERIORITY_OR_OTHER||Difference in LS Means|-2.7|||||TWO_SIDED|95.0|-3.3|-2.0|||||The difference in LS Means reflects the mean decrease from baseline in HCV RNA between vaniprevir and placebo at Week 4.|||-2.0|-3.3|
82544499|NCT00716859|164788646|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If lower limit of 95% Confidence Interval (CI) for treatment difference is above non-inferiority margin, then non-inferiority concluded. If lower limit of 95% CI for treatment difference is above non-inferiority margin and above zero, then superiority concluded. The difference and 95% CI of the difference in IOP reduction (Week 12) was computed from an analysis of covariance (ANCOVA) model with treatment and baseline diagnosis as factors and baseline IOP as covariate.|Mean Difference (Net)|1.46|||||TWO_SIDED|95.0|-0.81|3.74||||||Null hypothesis: latanoprost inferior to timolol (0.5 percent \[%\] optionally 0.25% for participants younger than 3 years). Power calculation: assuming common standard deviation (7 mmHg), 110 participants have 84% power to demonstrate latanoprost not inferior to timolol within 3 mmHg margin, assuming latanoprost has 1 mmHg reduction more than timolol in mean change from baseline IOP.||3.74|-0.81|
82544500|NCT00716859|164788647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.68|||||TWO_SIDED|95.0|-1.66|3.02||||||||3.02|-1.66|
82544501|NCT00716859|164788648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.62|||||TWO_SIDED|95.0|-1.0|4.25||||||||4.25|-1.00|
82544502|NCT00716859|164788649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.4085|||||TWO_SIDED|95.0|-1.1|2.67||||||||2.67|-1.10|
82544503|NCT00716859|164788654|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3315|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value from a Cochran-Mantel-Haenszel chi-square test stratified by baseline diagnosis (PCG vs non-PCG).||||||0.3315
82544504|NCT03546608|164788663|OTHER||Ratio of Geometric Least Square Mean (%)|94.99|||||TWO_SIDED|90.0|64.75|139.35||||||||139.35|64.75|
82544505|NCT03546608|164788663|OTHER||Ratio of Geometric Least Square Mean (%)|87.92|||||TWO_SIDED|90.0|59.93|128.98||||||||128.98|59.93|
82544506|NCT03546608|164788664|OTHER||Ratio of Geometric Least Square Mean (%)|94.81|||||TWO_SIDED|90.0|64.09|140.26||||||||140.26|64.09|
82544507|NCT03546608|164788664|OTHER||Ratio of Geometric Least Square Mean (%)|87.2|||||TWO_SIDED|90.0|58.94|129.0||||||||129.00|58.94|
82544508|NCT03546608|164788665|OTHER||Ratio of Geometric Least Square Mean (%)|102.45|||||TWO_SIDED|90.0|80.9|129.73||||||||129.73|80.90|
82544509|NCT03546608|164788665|OTHER||Ratio of Geometric Least Square Mean (%)|71.02|||||TWO_SIDED|90.0|56.08|89.93||||||||89.93|56.08|
82544510|NCT03546608|164788676|OTHER||Ratio of Geometric Least Square Mean (%)|82.62|||||TWO_SIDED|90.0|45.67|149.47|||||For MSC2571109|||149.47|45.67|
82544511|NCT03546608|164788676|OTHER||Ratio of Geometric Least Square Mean (%)|136.59|||||TWO_SIDED|90.0|75.5|247.12|||||For MSC2571109|||247.12|75.50|
82464108|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|4.53||0.6692|TWO_SIDED|95.0|-10.86|6.98||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||6.98|-10.86|0.6692
82578897|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.94||||0.107|TWO_SIDED|95.0|-2.08|0.21||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented.|||0.21|-2.08|0.107
82578898|NCT02683785|164867143|OTHER||Mean Difference (Net)|-0.98||||0.092|TWO_SIDED|95.0|-2.13|0.17||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented.|||0.17|-2.13|0.092
82464109|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|4.51||0.6894|TWO_SIDED|95.0|-10.68|7.08||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||7.08|-10.68|0.6894
82464110|NCT03192176|164625598|SUPERIORITY||LSMean difference|-6.1|STANDARD_ERROR_OF_MEAN|4.35||0.1627|TWO_SIDED|95.0|-14.66|2.48||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||2.48|-14.66|0.1627
82464111|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.48||0.9371|TWO_SIDED|95.0|-9.18|8.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Ease of Awaking From Sleep||8.47|-9.18|0.9371
82464112|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.8|STANDARD_ERROR_OF_MEAN|4.53||0.8521|TWO_SIDED|95.0|-8.07|9.77||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.77|-8.07|0.8521
82464113|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|4.56||0.9367|TWO_SIDED|95.0|-8.62|9.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.35|-8.62|0.9367
82464114|NCT03192176|164625598|SUPERIORITY||LSMean difference|-8.8|STANDARD_ERROR_OF_MEAN|4.57||0.0551|TWO_SIDED|95.0|-17.82|0.19||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||0.19|-17.82|0.0551
82464115|NCT03192176|164625598|SUPERIORITY||LSMean differencce|-3.2|STANDARD_ERROR_OF_MEAN|4.64||0.4936|TWO_SIDED|95.0|-12.32|5.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||5.96|-12.32|0.4936
82464116|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|4.59||0.6404|TWO_SIDED|95.0|-6.89|11.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||11.17|-6.89|0.6404
82464117|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|4.45||0.8955|TWO_SIDED|95.0|-8.17|9.34||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.34|-8.17|0.8955
82464118|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|4.59||0.9776|TWO_SIDED|95.0|-8.91|9.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 4: Integrity of Behavior following Awaking||9.17|-8.91|0.9776
82464119|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|4.14||0.7852|TWO_SIDED|95.0|-9.27|7.01||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||7.01|-9.27|0.7852
82464120|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.2|STANDARD_ERROR_OF_MEAN|4.15||0.7812|TWO_SIDED|95.0|-7.02|9.33||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||9.33|-7.02|0.7812
82464121|NCT03192176|164625598|SUPERIORITY||LSMean difference|-4.7|STANDARD_ERROR_OF_MEAN|4.23||0.2648|TWO_SIDED|95.0|-13.07|3.61||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||3.61|-13.07|0.2648
82464122|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|4.25||0.6312|TWO_SIDED|95.0|-10.41|6.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||6.32|-10.41|0.6312
82464123|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.4|STANDARD_ERROR_OF_MEAN|4.2||0.7416|TWO_SIDED|95.0|-6.89|9.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||9.67|-6.89|0.7416
82464124|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.3|STANDARD_ERROR_OF_MEAN|4.12||0.4254|TWO_SIDED|95.0|-4.83|11.41||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||11.41|-4.83|0.4254
82464125|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.4|STANDARD_ERROR_OF_MEAN|4.11||0.4038|TWO_SIDED|95.0|-4.66|11.54||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Getting to Sleep||11.54|-4.66|0.4038
82464126|NCT03192176|164625598|SUPERIORITY||LSMean difference|-4.8|STANDARD_ERROR_OF_MEAN|4.91||0.327|TWO_SIDED|95.0|-14.49|4.85||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||4.85|-14.49|0.3270
82464127|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|4.85||0.7333|TWO_SIDED|95.0|-11.21|7.9||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||7.90|-11.21|0.7333
82464128|NCT03192176|164625598|SUPERIORITY||LSMean difference|-7.5|STANDARD_ERROR_OF_MEAN|4.99||0.1319|TWO_SIDED|95.0|-17.36|2.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||2.28|-17.36|0.1319
82464129|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|5.0||0.6132|TWO_SIDED|95.0|-12.38|7.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||7.32|-12.38|0.6132
82464130|NCT03192176|164625598|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|4.98||0.4024|TWO_SIDED|95.0|-13.98|5.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||5.63|-13.98|0.4024
82464131|NCT03192176|164625598|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|4.88||0.4904|TWO_SIDED|95.0|-12.97|6.23||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||6.23|-12.97|0.4904
82464132|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|4.87||0.5521|TWO_SIDED|95.0|-12.48|6.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Quality of Sleep||6.69|-12.48|0.5521
82464133|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|4.5||0.737|TWO_SIDED|95.0|-10.38|7.35||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||7.35|-10.38|0.7370
82464134|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|4.46||0.5269|TWO_SIDED|95.0|-11.62|5.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||5.96|-11.62|0.5269
82464135|NCT03192176|164625598|SUPERIORITY||LSMean difference|-3.9|STANDARD_ERROR_OF_MEAN|4.58||0.3937|TWO_SIDED|95.0|-12.93|5.11||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||5.11|-12.93|0.3937
82544512|NCT03546608|164788676|OTHER||Ratio of Geometric Least Square Mean (%)|100.47|||||TWO_SIDED|90.0|54.53|185.1|||||For MSC2571107|||185.10|54.53|
82544513|NCT03546608|164788676|OTHER||Ratio of Geometric Least Square Mean (%)|94.48|||||TWO_SIDED|90.0|51.28|174.07|||||For MSC2571107|||174.07|51.28|
82544514|NCT03546608|164788677|OTHER||Ratio of Geometric Least Square Mean (%)|82.35|||||TWO_SIDED|90.0|45.56|148.84|||||For MSC2571109|||148.84|45.56|
82544515|NCT03546608|164788677|OTHER||Ratio of Geometric Least Square Mean (%)|137.51|||||TWO_SIDED|90.0|76.08|248.54|||||For MSC2571109|||248.54|76.08|
82544516|NCT03546608|164788677|OTHER||Ratio of Geometric Least Square Mean (%)|100.81|||||TWO_SIDED|90.0|55.16|184.23|||||For MSC2571107|||184.23|55.16|
82544517|NCT03546608|164788677|OTHER||Ratio of Geometric Least Square Mean (%)|96.18|||||TWO_SIDED|90.0|52.63|175.78|||||For MSC2571107|||175.78|52.63|
82464136|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.59||0.846|TWO_SIDED|95.0|-8.15|9.94||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||9.94|-8.15|0.8460
82464137|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|4.57||0.5673|TWO_SIDED|95.0|-11.62|6.38||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||6.38|-11.62|0.5673
82464138|NCT03192176|164625598|SUPERIORITY||LSMean difference|4.0|STANDARD_ERROR_OF_MEAN|4.49||0.3791|TWO_SIDED|95.0|-4.88|12.79||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||12.79|-4.88|0.3791
82464139|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.47||0.834|TWO_SIDED|95.0|-7.86|9.73||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Ease of Awaking From Sleep||9.73|-7.86|0.8340
82464140|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|4.67||0.9457|TWO_SIDED|95.0|-9.51|8.88||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||8.88|-9.51|0.9457
82464141|NCT03192176|164625598|SUPERIORITY||LSMean difference|-2.1|STANDARD_ERROR_OF_MEAN|4.65||0.657|TWO_SIDED|95.0|-11.22|7.09||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||7.09|-11.22|0.6570
82464142|NCT03192176|164625598|SUPERIORITY||LSMean difference|-5.7|STANDARD_ERROR_OF_MEAN|4.73||0.231|TWO_SIDED|95.0|-15.0|3.64||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||3.64|-15.00|0.2310
82464143|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|4.77||0.9066|TWO_SIDED|95.0|-8.84|9.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||9.96|-8.84|0.9066
82464144|NCT03192176|164625598|SUPERIORITY||LSMean differnce|-5.0|STANDARD_ERROR_OF_MEAN|4.71||0.2914|TWO_SIDED|95.0|-14.26|4.3||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||4.30|-14.26|0.2914
82464145|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|4.64||0.9277|TWO_SIDED|95.0|-8.73|9.57||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||9.57|-8.73|0.9277
82544518|NCT03546608|164788678|OTHER||Ratio of Geometric Least Square Mean (%)|92.3|||||TWO_SIDED|90.0|62.52|136.26|||||For MSC2571109|||136.26|62.52|
82544519|NCT03546608|164788678|OTHER||Ratio of Geometric Least Square Mean (%)|114.8|||||TWO_SIDED|90.0|77.76|169.48|||||For MSC2571109|||169.48|77.76|
82544520|NCT03546608|164788678|OTHER||Ratio of Geometric Least Square Mean (%)|106.51|||||TWO_SIDED|90.0|70.25|161.49|||||For MSC2571107|||161.49|70.25|
82464146|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|4.64||0.9367|TWO_SIDED|95.0|-9.51|8.77||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 8: Integrity of Behavior Following Awaking||8.77|-9.51|0.9367
82464147|NCT03192176|164625598|SUPERIORITY||LSMean difference|5.1|STANDARD_ERROR_OF_MEAN|4.35||0.2407|TWO_SIDED|95.0|-3.46|13.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||13.69|-3.46|0.2407
82544521|NCT03546608|164788678|OTHER||Ratio of Geometric Least Square Mean (%)|72.58|||||TWO_SIDED|90.0|47.87|110.04|||||For MSC2571107|||110.04|47.87|
82544522|NCT00130117|164788692|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||||||0.024
82544523|NCT00130117|164788692|SUPERIORITY|||||||0.049|||||||ANOVA|||||||0.049
82544524|NCT00130117|164788693|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.6||||0.02|TWO_SIDED|||||"p value reflects treatment of leptin for on-treatment, n=4"|ANOVA|||||||0.02
82544525|NCT01285999|164788707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29||||0.05|TWO_SIDED|95.0|-0.37|-0.21||p-value has not been adjusted.|t-test, 2 sided|No adjustment.||H0: μt - μc = 0 H1: μt - μc ≠ 0 where μt and μc are the mean 9-month in-stent late loss values for the subjects in the PROMUS Element test and TAXUS Liberté control treatment groups, respectively.||-0.21|-0.37|0.05
82544526|NCT05286385|164788734|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|4.59|||TWO_SIDED|95.0|-6.29|0.29||||||||0.29|-6.29|
82544527|NCT05286385|164788735|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|8.03|||TWO_SIDED|95.0|-8.04|3.44||||||||3.44|-8.04|
82544528|NCT05286385|164788736|NON_INFERIORITY|Non-inferiority margin -10%|Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|4.55|||TWO_SIDED|95.0|-2.95|3.55||||||||3.55|-2.95|
82464148|NCT03192176|164625598|SUPERIORITY||LSMean difference|6.9|STANDARD_ERROR_OF_MEAN|4.55||0.1305|TWO_SIDED|95.0|-2.06|15.89||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||15.89|-2.06|0.1305
82464149|NCT03192176|164625598|SUPERIORITY||LSMean difference|5.7|STANDARD_ERROR_OF_MEAN|4.59||0.2152|TWO_SIDED|95.0|-3.34|14.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||14.75|-3.34|0.2152
82464150|NCT03192176|164625598|SUPERIORITY||LSMean difference|7.6|STANDARD_ERROR_OF_MEAN|4.72||0.1099|TWO_SIDED|95.0|-1.73|16.89||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||16.89|-1.73|0.1099
82464151|NCT03192176|164625598|SUPERIORITY||LSMean difference|7.4|STANDARD_ERROR_OF_MEAN|4.75||0.1219|TWO_SIDED|95.0|-1.99|16.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||16.75|-1.99|0.1219
82464152|NCT03192176|164625598|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|4.44||0.0316|TWO_SIDED|95.0|0.85|18.36||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||18.36|0.85|0.0316
82464153|NCT03192176|164625598|SUPERIORITY||LSMean difference|6.4|STANDARD_ERROR_OF_MEAN|4.47||0.1557|TWO_SIDED|95.0|-2.44|15.16||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Getting to Sleep||15.16|-2.44|0.1557
82464154|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|4.97||0.8592|TWO_SIDED|95.0|-8.91|10.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||10.67|-8.91|0.8592
82464155|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.1|STANDARD_ERROR_OF_MEAN|5.15||0.6891|TWO_SIDED|95.0|-8.08|12.2||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||12.20|-8.08|0.6891
82464156|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|5.2||0.9481|TWO_SIDED|95.0|-10.59|9.92||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||9.92|-10.59|0.9481
82464157|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|5.36||0.7246|TWO_SIDED|95.0|-12.46|8.68||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||8.68|-12.46|0.7246
82464158|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.8|STANDARD_ERROR_OF_MEAN|5.45||0.8842|TWO_SIDED|95.0|-9.94|11.53||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||11.53|-9.94|0.8842
82464159|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.2|STANDARD_ERROR_OF_MEAN|5.05||0.8103|TWO_SIDED|95.0|-8.74|11.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||11.17|-8.74|0.8103
82464160|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|5.1||0.9631|TWO_SIDED|95.0|-9.81|10.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Quality of Sleep||10.28|-9.81|0.9631
82464161|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|4.87||0.9788|TWO_SIDED|95.0|-9.73|9.47||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||9.47|-9.73|0.9788
82464162|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|5.02||0.7875|TWO_SIDED|95.0|-11.26|8.54||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||8.54|-11.26|0.7875
82464163|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|5.08||0.9746|TWO_SIDED|95.0|-9.85|10.17||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.17|-9.85|0.9746
82544529|NCT05930782|164788774|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of Cmax falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|73.9|||||TWO_SIDED|90.0|48.32|113.02||||||||113.02|48.32|
82544530|NCT05930782|164788775|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratio (GMR)|75.41|||||TWO_SIDED|90.0|56.46|100.71||||||||100.71|56.46|
82544531|NCT05930782|164788776|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|86.45|||||TWO_SIDED|90.0|68.16|109.63||||||||109.63|68.16|
82544532|NCT05930782|164788777|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|77.67|||||TWO_SIDED|90.0|59.49|101.39||||||||101.39|59.49|
82544533|NCT05930782|164788778|EQUIVALENCE|The treatment was considered as bioequivalent if the 90% confidence interval (CI) for geometric least square mean ratios (GMR) of ln-transformed parameters falls within the acceptance range of 80.00 % to 125.00 %.|geometric least square mean ratios (GMR)|55.24|||||TWO_SIDED|90.0|6.03|113.02|||||For AUC0-inf, the GMR and 90% CI values were unreliable as there was only 1 calculable value for the Test (Group 2) and 2 values for the Reference (Group 1) products.|||113.02|6.03|
82544534|NCT03112174|164788804|SUPERIORITY||Hazard Ratio (HR)|0.629||||0.0024|TWO_SIDED|95.0|0.465|0.85||P value is from stratified log-rank test.|Log Rank|||||0.850|0.465|0.0024
82544535|NCT03112174|164788810|SUPERIORITY||Rate Ratio|1.658||||0.0004|TWO_SIDED|95.0|1.24|2.218||Estimate and p-value for rate ratio are based on Cochran-Mantel-Haenszel (CMH) test adjusted for two randomization stratification factors: number of prior lines of therapy (1-2 vs \>=3) and TLS category (low risk vs increased risk) at randomization.|Cochran-Mantel-Haenszel||For rate ratio, numerator is Ibrutinib + Venetoclax arm and denominator is Ibrutinib + Placebo arm.|||2.218|1.240|0.0004
82544536|NCT03112174|164788811|SUPERIORITY||Rate Ratio|1.101||||0.1279|TWO_SIDED|95.0|0.973|1.247||Estimate and p-value for rate ratio are based on CMH test adjusted for two randomization stratification factors: number of prior lines of therapy (1-2 vs \>=3) and TLS category (low risk vs increased risk) at randomization.|Cochran-Mantel-Haenszel||For rate ratio, numerator is Ibrutinib + Venetoclax arm and denominator is Ibrutinib + Placebo arm.|||1.247|0.973|0.1279
82544537|NCT03112174|164788812|SUPERIORITY|||||||0.2028|||||||Fisher Exact|||Bone marrow aspirate||||0.2028
82544538|NCT03112174|164788812|SUPERIORITY|||||||0.0014|||||||Fisher Exact|||Peripheral blood||||0.0014
82544539|NCT03112174|164788813|SUPERIORITY||Hazard Ratio (HR)|0.832||||0.2669|TWO_SIDED|95.0|0.602|1.151||P value is from stratified log-rank test.|Log Rank||Hazard ratio is estimated using stratified Cox regression model with treatment as the only covariate.|||1.151|0.602|0.2669
82544540|NCT03112174|164788815|SUPERIORITY||Hazard Ratio (HR)|0.541||||0.0013|TWO_SIDED|95.0|0.369|0.792||P value is from stratified log-rank test.|Log Rank||Hazard ratio is estimated using stratified Cox regression model with treatment as the only covariate.|||0.792|0.369|0.0013
82544541|NCT03112174|164788830|SUPERIORITY||Hazard Ratio (HR)|1.169||||0.2861|TWO_SIDED|95.0|0.879|1.554||P value is from stratified log-rank test.|Log Rank|||||1.554|0.879|0.2861
82544542|NCT00802464|164788834|OTHER||Fold increase|5.21|||||TWO_SIDED|95.0|3.89|6.98||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 3 Group.||6.98|3.89|
82464164|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|5.21||0.9092|TWO_SIDED|95.0|-9.67|10.86||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.86|-9.67|0.9092
82544543|NCT00802464|164788834|OTHER||Fold increase|4.02|||||TWO_SIDED|95.0|3.0|5.4||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 2 over GSK1437173A Formulation 3 Group.||5.4|3|
82544544|NCT00802464|164788834|OTHER||Fold increase|1.3|||||TWO_SIDED|95.0|1.07|1.58||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 2 Group.||1.58|1.07|
82544545|NCT00802464|164788835|OTHER||Fold increase|2.12|||||TWO_SIDED|95.0|1.67|2.69||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 3 Group.||2.69|1.67|
82544546|NCT00802464|164788835|OTHER||Fold increase|1.63|||||TWO_SIDED|95.0|1.28|2.07||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 2 over GSK1437173A Formulation 3 Group.||2.07|1.28|
82544547|NCT00802464|164788835|OTHER||Fold increase|1.3|||||TWO_SIDED|95.0|1.09|1.56||||||Fold increase in frequency of gE-specific CD4+ T-cells secreting at least 2 different immunological activation markers among IFN-γ, IL-2, TNF-α and CD40L for GSK1437173A Formulation 1 over GSK1437173A Formulation 2 Group.||1.56|1.09|
82544548|NCT00802464|164788836|OTHER||Fold increase|4.72|||||TWO_SIDED|95.0|3.81|5.85||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 3 Group.||5.85|3.81|
82544549|NCT00802464|164788836|OTHER||Fold increase|3.36|||||TWO_SIDED|95.0|2.72|4.17||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 2 Group over GSK1437173A Formulation 3 Group.||4.17|2.72|
82544550|NCT00802464|164788836|OTHER||Fold increase|1.4|||||TWO_SIDED|95.0|1.17|1.68||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 2 Group.||1.68|1.17|
82544551|NCT00802464|164788837|OTHER||Fold increase|3.21|||||TWO_SIDED|36.0|2.64|3.9||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 3 Group.||3.9|2.64|
82578899|NCT02683785|164867143|OTHER||Mean Difference (Net)|-1.01||||0.098|TWO_SIDED|95.0|-2.22|0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented.|||0.20|-2.22|0.098
82464165|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|5.27||0.9745|TWO_SIDED|95.0|-10.55|10.21||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||10.21|-10.55|0.9745
82464166|NCT03192176|164625598|SUPERIORITY||LSMean difference|4.7|STANDARD_ERROR_OF_MEAN|4.95||0.3458|TWO_SIDED|95.0|-5.08|14.44||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||14.44|-5.08|0.3458
82464167|NCT03192176|164625598|SUPERIORITY||LSMean differnce|3.6|STANDARD_ERROR_OF_MEAN|4.98||0.4657|TWO_SIDED|95.0|-6.17|13.45||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Ease of Awaking From Sleep||13.45|-6.17|0.4657
82464168|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.8|STANDARD_ERROR_OF_MEAN|5.07||0.5838|TWO_SIDED|95.0|-7.2|12.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||12.76|-7.20|0.5838
82464169|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.1|STANDARD_ERROR_OF_MEAN|5.22||0.8322|TWO_SIDED|95.0|-9.18|11.39||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||11.39|-9.18|0.8322
82464170|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.8|STANDARD_ERROR_OF_MEAN|5.26||0.7366|TWO_SIDED|95.0|-8.59|12.13||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||12.13|-8.59|0.7366
82464171|NCT03192176|164625598|SUPERIORITY||LSMean difference|5.6|STANDARD_ERROR_OF_MEAN|5.4||0.2971|TWO_SIDED|95.0|-4.99|16.28||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||16.28|-4.99|0.2971
82464172|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|5.41||0.9562|TWO_SIDED|95.0|-10.96|10.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||10.37|-10.96|0.9562
82464173|NCT03192176|164625598|SUPERIORITY||0.28|8.7|STANDARD_ERROR_OF_MEAN|5.13||0.0926|TWO_SIDED|95.0|-1.44|18.76||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||18.76|-1.44|0.0926
82464174|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.5|STANDARD_ERROR_OF_MEAN|5.18||0.4996|TWO_SIDED|95.0|-6.7|13.7||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 12: Integrity of Behavior Following Awaking||13.70|-6.70|0.4996
82464175|NCT03192176|164625598|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|4.76||0.896|TWO_SIDED|95.0|-9.99|8.75||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||8.75|-9.99|0.8960
82464176|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.9|STANDARD_ERROR_OF_MEAN|4.89||0.5471|TWO_SIDED|95.0|-6.68|12.58||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||12.58|-6.68|0.5471
82464177|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.7|STANDARD_ERROR_OF_MEAN|4.93||0.738|TWO_SIDED|95.0|-8.06|11.36||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||11.36|-8.06|0.7380
82464178|NCT03192176|164625598|SUPERIORITY||LSMean difference|9.6|STANDARD_ERROR_OF_MEAN|5.14||0.0644|TWO_SIDED|95.0|-0.58|19.69||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||19.69|-0.58|0.0644
82464179|NCT03192176|164625598|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|5.04||0.8475|TWO_SIDED|95.0|-10.9|8.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||8.96|-10.90|0.8475
82464180|NCT03192176|164625598|SUPERIORITY||LSMean difference|5.0|STANDARD_ERROR_OF_MEAN|4.86||0.3044|TWO_SIDED|95.0|-4.57|14.59||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||14.59|-4.57|0.3044
82544552|NCT00802464|164788837|OTHER||Fold increase|2.44|||||TWO_SIDED|95.0|2.02|2.97||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 2 Group over GSK1437173A Formulation 3 Group.||2.97|2.02|
82464181|NCT03192176|164625598|SUPERIORITY||LSMean difference|4.2|STANDARD_ERROR_OF_MEAN|4.89||0.3895|TWO_SIDED|95.0|-5.42|13.86||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Getting to Sleep||13.86|-5.42|0.3895
82464182|NCT03192176|164625598|SUPERIORITY||LSMean difference|-4.5|STANDARD_ERROR_OF_MEAN|6.07||0.4551|TWO_SIDED|95.0|-16.5|7.42||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||7.42|-16.50|0.4551
82464183|NCT03192176|164625598|SUPERIORITY||LSMean differencce|-2.2|STANDARD_ERROR_OF_MEAN|6.1||0.7182|TWO_SIDED|95.0|-14.21|9.81||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||9.81|-14.21|0.7182
82464184|NCT03192176|164625598|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|6.21||0.6259|TWO_SIDED|95.0|-15.26|9.2||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||9.20|-15.26|0.6259
82464185|NCT03192176|164625598|SUPERIORITY||LSMean difference|6.6|STANDARD_ERROR_OF_MEAN|6.5||0.312|TWO_SIDED|95.0|-6.22|19.4||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||19.40|-6.22|0.3120
82464186|NCT03192176|164625598|SUPERIORITY||LSMean difference|-6.3|STANDARD_ERROR_OF_MEAN|6.41||0.3297|TWO_SIDED|95.0|-18.89|6.37||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||6.37|-18.89|0.3297
82464187|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.1|STANDARD_ERROR_OF_MEAN|6.16||0.613|TWO_SIDED|95.0|-9.02|15.26||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||15.26|-9.02|0.6130
82464188|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.2|STANDARD_ERROR_OF_MEAN|6.22||0.7292|TWO_SIDED|95.0|-10.09|14.4||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Quality of Sleep||14.40|-10.09|0.7292
82464189|NCT03192176|164625598|SUPERIORITY||LSMean difference|0.9|STANDARD_ERROR_OF_MEAN|5.6||0.8695|TWO_SIDED|95.0|-1.11|11.96||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||11.96|-1.11|0.8695
82464190|NCT03192176|164625598|SUPERIORITY||LSMean difference|3.1|STANDARD_ERROR_OF_MEAN|5.64||0.58|TWO_SIDED|95.0|-7.99|14.25||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||14.25|-7.99|0.5800
82464191|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.2|STANDARD_ERROR_OF_MEAN|5.74||0.7024|TWO_SIDED|95.0|-9.11|13.5||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||13.50|-9.11|0.7024
82464192|NCT03192176|164625598|SUPERIORITY||LSMean difference|11.4|STANDARD_ERROR_OF_MEAN|5.99||0.0572|TWO_SIDED|95.0|-0.35|23.23||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||23.23|-0.35|0.0572
82544553|NCT00802464|164788837|OTHER||Fold increase|1.31|||||TWO_SIDED|95.0|1.12|1.54||||||Fold increase in anti-gE antibody concentrations for GSK1437173A Formulation 1 Group over GSK1437173A Formulation 2 Group.||1.54|1.12|
82544554|NCT04512482|164788882|SUPERIORITY|||||||0.044|||||||ANOVA|||A power analysis determined that a sample size of forty-five (45) subjects would possess 90% power to detect an effect size of 0.5 between the intervention and control legs of the crossover design. With 43 total subjects the study had between 85 and 90% power.||||.044
82544555|NCT04723394|164788894|SUPERIORITY||Relative Risk Reduction (100*[1-RR])|50.38||||0.01|TWO_SIDED|95.0|14.38|71.25|||Cochran-Mantel-Haenszel|CMH was stratified by randomization factors||AZD7442 vs Placebo||71.25|14.38|0.010
82544556|NCT04723394|164788895|SUPERIORITY||Relative Risk Reduction (100*[1-RR])|49.24||||0.009|TWO_SIDED|95.0|14.72|69.79|||Cochran-Mantel-Haenszel|CMH was stratified by randomization factors||AZD7442 vs Placebo||69.79|14.72|0.009
82544557|NCT02706717|164788899|SUPERIORITY||Mean Difference (Net)|-51.3||||0.6|TWO_SIDED|95.0|-246.0|143.9|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||143.9|-246|0.60
82544558|NCT02706717|164788905|SUPERIORITY||Mean Difference (Net)|0.042||||0.51|TWO_SIDED|95.0|-0.09|0.17|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||0.17|-0.09|0.51
82578900|NCT02683785|164867148|OTHER||Mean Difference (Net)|-2.8||||0.061|TWO_SIDED|95.0|-5.6|0.1||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 1|||0.1|-5.6|0.061
82464193|NCT03192176|164625598|SUPERIORITY||LSMean difference|1.6|STANDARD_ERROR_OF_MEAN|5.93||0.783|TWO_SIDED|95.0|-10.04|13.31||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||13.31|-10.04|0.7830
82464194|NCT03192176|164625598|SUPERIORITY||0.1|15.4|STANDARD_ERROR_OF_MEAN|5.71||0.0074|TWO_SIDED|95.0|4.19|26.67||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||26.67|4.19|0.0074
82544559|NCT02706717|164788906|SUPERIORITY||Mean Difference (Net)|28.4||||0.09|TWO_SIDED|95.0|-3.6|71.0|||t-test, 2 sided|2-sample t-test with equal variance|"The estimation parameter is the percent difference between the geometric mean fold changes.~With d-dimer data log10 transformed, this is (exp(Visbiome ES mean minus placebo mean) - 1)\*100."|||71.0|-3.6|0.09
82544560|NCT02706717|164788909|SUPERIORITY||Mean Difference (Net)|-32.7||||0.29|TWO_SIDED|95.0|-93.5|28.2|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||28.2|-93.5|0.29
82544561|NCT02706717|164788910|SUPERIORITY||Mean Difference (Net)|-0.02||||0.41|TWO_SIDED|95.0|-0.08|0.04|||t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Visbiome ES mean minus placebo mean.|||0.04|-0.08|0.41
82464195|NCT03192176|164625598|SUPERIORITY||LSMean difference|11.0|STANDARD_ERROR_OF_MEAN|5.73||0.0551|TWO_SIDED|95.0|-0.24|22.32||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Ease of Awaking From Sleep||22.32|-0.24|0.0551
82464196|NCT03192176|164625598|SUPERIORITY||LSMean difference|-5.8|STANDARD_ERROR_OF_MEAN|5.51||0.2959|TWO_SIDED|95.0|-16.63|5.08||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||5.08|-16.63|0.2959
82464197|NCT03192176|164625598|SUPERIORITY||LSMean difference|5.8|STANDARD_ERROR_OF_MEAN|5.55||0.2976|TWO_SIDED|95.0|-5.14|16.74||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||16.74|-5.14|0.2976
82464198|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.0|STANDARD_ERROR_OF_MEAN|5.62||0.7236|TWO_SIDED|95.0|-9.07|13.05||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||13.05|-9.07|0.7236
82464199|NCT03192176|164625598|SUPERIORITY||LSMean difference|10.1|STANDARD_ERROR_OF_MEAN|5.88||0.0884|TWO_SIDED|95.0|-1.52|21.63||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||21.63|-1.52|0.0884
82464200|NCT03192176|164625598|SUPERIORITY||LSMean difference|-5.0|STANDARD_ERROR_OF_MEAN|5.77||0.3887|TWO_SIDED|95.0|-16.35|6.38||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||6.38|-16.35|0.3887
82464201|NCT03192176|164625598|SUPERIORITY||LSMean difference|6.2|STANDARD_ERROR_OF_MEAN|5.59||0.2671|TWO_SIDED|95.0|-4.8|17.24||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||17.24|-4.80|0.2671
82464202|NCT03192176|164625598|SUPERIORITY||LSMean difference|2.9|STANDARD_ERROR_OF_MEAN|5.63||0.6076|TWO_SIDED|95.0|-8.2|13.99||LSM, SE, CI, \& p-values come from an MMRM model with domain score as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement (BM) as a covariate, as well as interaction of treatment by week \& an interaction of BM by week.|MMRM|||Week 15: Integrity of Behavior Following Awaking||13.99|-8.20|0.6076
82464203|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.91||0.2159|TWO_SIDED|95.0|-2.93|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.67|-2.93|0.2159
82464204|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.92||0.0405|TWO_SIDED|95.0|-3.7|-0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.08|-3.70|0.0405
82464205|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.93||0.0115|TWO_SIDED|95.0|-4.18|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.53|-4.18|0.0115
82544562|NCT02706717|164788927|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
82464206|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.93||0.0553|TWO_SIDED|95.0|-3.62|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.04|-3.62|0.0553
82544563|NCT00106080|164788936|SUPERIORITY_OR_OTHER_LEGACY||Difference between groups after adjust|5.7||||0.03||||||No multiple comparisons, a priori threshold \< 0.05|GEE regression|Generalized estimating equations (GEE) regression, clustering for provider.||Power calculation: With 60 providers in each group, maintaining the probability of a type I error of 0.05, power of 0.90, provider level mean QOC score of 54.5 and provider level standard deviation in QOC score of 12.0, the minimal detectable difference in QOC score would be 7.5.||||0.03
82544564|NCT01266122|164788979|SUPERIORITY_OR_OTHER||log(Incident Risk Ratio)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.47|-0.44|||Mixed Models Analysis|Mixed effects Poisson regression||Intent to treat analysis||-.44|-1.47|<.001
82544565|NCT01266122|164788980|SUPERIORITY_OR_OTHER||Chi-square statistic|1.39|||=|0.239|TWO_SIDED||||||Chi-squared|||Intent to treat analysis.||||=.239
82544566|NCT03224390|164789017|SUPERIORITY||Instrumental variables estimate|0.41|||||TWO_SIDED|95.0|-0.03|0.85||||||||.85|-.03|
82544567|NCT00703820|164789019|SUPERIORITY||Odds Ratio (OR)|1.87||||0.035|TWO_SIDED|95.0|1.03|3.41||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.0429 so that the overall level of the study is maintained at 0.05 across the 4 interim analyses and the final analysis.|Cochran-Mantel-Haenszel|The p-value was computed using an exact, risk-group stratified, two-sided test.|The odds ratio is defined as the ratio of the odds that a Clofarabine+Cytarabine patient is MRD positive to the odds that a Cytarabine+Daunorubicin+Etoposide patient is MRD positive.|The study was designed to test the null hypothesis that Cytarabine+Daunorubicin+Etoposide and Clofarabine+Cytarabine result in the same proportion of patients with positive MRD after 22 days. Power calculations indicate that enrollment of a total of 240 MRD-evaluable patients in a 5-stage Haybittle-Peto group sequential design gives 80% power at the 5% level to detect an odds ratio of 2.5. The design was developed using East statistical software.||3.41|1.03|0.035
82544568|NCT01985334|164789044|SUPERIORITY_OR_OTHER|||||||0.018|||||||linear mixed model|||||||0.0180
82464207|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.92||0.2753|TWO_SIDED|95.0|-2.82|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||0.80|-2.82|0.2753
82464208|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.6|STANDARD_ERROR_OF_MEAN|0.91||0.514|TWO_SIDED|95.0|-1.2|2.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||2.40|-1.20|0.5140
82464209|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.93||0.0178|TWO_SIDED|95.0|-4.03|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Symptoms Score||-0.38|-4.03|0.0178
82464210|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9675|TWO_SIDED|95.0|-1.02|0.98||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.98|-1.02|0.9675
82464211|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.3122|TWO_SIDED|95.0|-1.52|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.49|-1.52|0.3122
82464212|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9977|TWO_SIDED|95.0|-1.0|1.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||1.00|-1.00|0.9977
82544569|NCT01985334|164789045|NON_INFERIORITY_OR_EQUIVALENCE|"H0: Glycopyrronium (50 μg o.d.) \[randomized group B2\] was inferior to LABA or LAMA (random group B1) with respect to mean trough FEV1 after 12 weeks of treatment.~H0: μFEV1, NVA237 - μFEV1, LABA and/or LAMA \< -40 mL Ha: Glycopyrronium (50 μg o.d.) \[randomized group B2\] is non-inferior to LABA or LAMA (random group B1) with respect to mean trough FEV1 after 12 weeks of treatment.~Ha: μFEV1, NVA237 - μFEV1, LABA and/or LAMA ≥ -40 mL"|||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544570|NCT01985334|164789046|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544571|NCT01985334|164789047|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544572|NCT01985334|164789048|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544573|NCT01985334|164789049|NON_INFERIORITY_OR_EQUIVALENCE|A difference of 0.6 points in TDI was adopted as boundary for non-inferiority|||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544574|NCT01985334|164789050|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
82544575|NCT01985334|164789051|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||linear mixed model|||||||<0.0001
82464213|NCT03192176|164625599|SUPERIORITY||LSMean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.51||0.9312|TWO_SIDED|95.0|-1.05|0.97||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.97|-1.05|0.9312
82544576|NCT01546753|164789060|SUPERIORITY|The change from baseline OFC to week 38 OFC (primary outcome measure) was compared between the two groups using a Mann-Whitney U test.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82544577|NCT01546753|164789061|SUPERIORITY|Differences in dichotomous outcomes for the percentage of participants who reach the 5000 mg cumulative dose to the walnut at the week 38 desensitization OFC was analyzed using Fisher's exact test||||||0.01|||||||Fisher Exact|||||||0.01
82544578|NCT01546753|164789062|SUPERIORITY|Differences in dichotomous outcomes including the percentage of subjects who reach the 2000 mg cumulative dose to the walnut at the week 38 desensitization OFC was analyzed using Fisher's exact test|||||<|0.01|||||||Fisher Exact|||||||<0.01
82544579|NCT01546753|164789063|SUPERIORITY|Differences in dichotomous outcomes such as the percentage of subjects who reach the 2000 mg cumulative dose to the tree nut at the week 38 desensitization OFC was analyzed using Fisher's exact test|||||<|0.01|||||||Fisher Exact|||||||<0.01
82544580|NCT01546753|164789065|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82544581|NCT01102231|164789073|OTHER||Proportion difference|0.905|||||TWO_SIDED|95.0|0.846|0.964||||||||0.964|0.846|
82544582|NCT00546754|164789076|SUPERIORITY_OR_OTHER_LEGACY|||||||0.153||95.0|||||ANOVA|||||||0.153
82544583|NCT00546754|164789077|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343||95.0|||||ANOVA|||||||0.343
82544584|NCT00546754|164789078|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0|||||Fisher Exact|||||||0.118
82544585|NCT00546754|164789079|SUPERIORITY_OR_OTHER_LEGACY|||||||0.395||95.0|||||ANOVA|||||||0.395
82544586|NCT00546754|164789080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.662||95.0|||||Fisher Exact|||||||0.662
82544587|NCT00546754|164789081|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Log Rank|||||||0.020
82544588|NCT00546754|164789082|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82578901|NCT02683785|164867148|OTHER||Mean Difference (Net)|-2.0||||0.282|TWO_SIDED|95.0|-5.6|1.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Pain component, Week 2|||1.7|-5.6|0.282
82544589|NCT00546754|164789083|SUPERIORITY_OR_OTHER_LEGACY|||||||0.935||95.0|||||ANOVA|||||||0.935
82650196|NCT04549259|165015456|SUPERIORITY||B|-0.21|STANDARD_ERROR_OF_MEAN|1.46||0.89|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||We fit a linear mixed model using the lmer function in the R package lme4. The model included a random effect for participant and utilized all available data. Predictors (fixed effects) included time (baseline vs. follow-up), random assignments, and interactions between assignments and time. We adjusted for mode of survey completion. Significant interactions indicated differential changes in outcomes over time for those randomly assigned vs. not randomly assigned to different interventions.||||.89
82544590|NCT00546754|164789084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82544591|NCT00546754|164789085|SUPERIORITY_OR_OTHER_LEGACY|||||||0.899||95.0|||||ANOVA|||||||0.899
82544592|NCT00546754|164789086|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||95.0|||||ANOVA|||||||0.218
82544593|NCT00546754|164789087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386||95.0|||||ANOVA|||||||0.386
82544594|NCT00546754|164789088|SUPERIORITY_OR_OTHER_LEGACY|||||||0.725||95.0|||||ANOVA|||||||0.725
82544595|NCT00311363|164789109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.353||||0.0158||95.0|0.2|0.8||Model included terms for treatment group, randomization IRLS score (Week 24), and pooled study site|Regression, Logistic|||||0.8|0.2|0.0158
82544596|NCT00396084|164789142|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Mean adjusted aAUC for all 4 treatment groups over the 7 days of study drug administration||||<0.001
82544597|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Day 1. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.041
82544598|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Wilcoxon (Mann-Whitney)|||Day 2. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.008
82544599|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Wilcoxon (Mann-Whitney)|||Day 3. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.012
82544600|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||Day 4. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.01
82544601|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||Day 5. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.03
82544602|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||Wilcoxon (Mann-Whitney)|||Day 6. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.091
82544603|NCT00396084|164789142|SUPERIORITY_OR_OTHER|||||||0.354||95.0|||||Wilcoxon (Mann-Whitney)|||Day 7. Pooled sputum bacillary load data for patients in the 3 fluoroquinolones arms were combined and compared to that of patients in the INH arm.||||0.354
82544604|NCT00396084|164789146|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Mean values of EBA Days 0 to 2 for the 4 treatment groups were compared.||||0.05
82544605|NCT00396084|164789146|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against gatifloxacin using a simultaneous non-parametric procedure.||||0.01
82544606|NCT00396084|164789146|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against moxifloxacin using a simultaneous non-parametric procedure.||||0.02
82544607|NCT00396084|164789146|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against levofloxacin using a simultaneous non-parametric procedure.||||0.14
82544608|NCT00396084|164789147|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||Mean values of EBA Days 2 to 7 for the 4 treatment groups were compared.||||0.51
82544609|NCT00396084|164789147|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||The rate of fall in sputum cfu for the 4 treatment groups between day 2 and day 7 of monotherapy was estimated by the slope of the linear regression obtained from fitting the 6 sputum cfu values corresponding to days 2 through 7.||||0.16
82544610|NCT00396084|164789147|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon (Mann-Whitney)|||EBA Days 2-7 for patients in the 3 fluoroquinolone groups were pooled and compared to bactericidal activity of patients in the INH arm.||||0.036
82544611|NCT00396084|164789148|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Mean adjusted aAUC for all 3 treatment groups over the 7 days of study drug administration||||<0.001
82464214|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.51||0.6005|TWO_SIDED|95.0|-1.27|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.74|-1.27|0.6005
82464215|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.51||0.5284|TWO_SIDED|95.0|-0.68|1.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||1.32|-0.68|0.5284
82464216|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.51||0.1111|TWO_SIDED|95.0|-1.82|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Physical Symptoms Score||0.19|-1.82|0.1111
82464217|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1764|TWO_SIDED|95.0|-1.16|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||0.21|-1.16|0.1764
82464218|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.35||0.0037|TWO_SIDED|95.0|-1.73|-0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms||-0.34|-1.73|0.0037
82464219|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.3|-0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.92|-2.30|<0.0001
82464220|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.21|-0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.81|-2.21|<0.0001
82464221|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1444|TWO_SIDED|95.0|-1.21|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||0.18|-1.21|0.1444
82464222|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.35||0.0088|TWO_SIDED|95.0|-1.6|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.23|-1.60|0.0088
82464223|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.35||0.0005|TWO_SIDED|95.0|-1.93|-0.54||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Symptoms Score||-0.54|-1.93|0.0005
82464224|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0416|TWO_SIDED|95.0|-0.69|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.01|-0.69|0.0416
82464225|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0353|TWO_SIDED|95.0|-0.71|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.03|-0.71|0.0353
82464226|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.004|TWO_SIDED|95.0|-0.84|-0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.16|-0.84|0.0040
82464227|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0495|TWO_SIDED|95.0|-0.69|0.0||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||-0.00|-0.69|0.0495
82464228|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.8665|TWO_SIDED|95.0|-0.31|0.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.37|-0.31|0.8665
82464229|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.9303|TWO_SIDED|95.0|-0.35|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.32|-0.35|0.9303
82464230|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.1039|TWO_SIDED|95.0|-0.62|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Dysfunction Score||0.06|-0.62|0.1039
82544612|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Day 1. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.023
82544613|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Wilcoxon (Mann-Whitney)|||Day 2. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.018
82544614|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||Day 3. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.03
82544615|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Wilcoxon (Mann-Whitney)|||Day 4. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.012
82544616|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||Day 5. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.003
82544617|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||Day 6. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.003
82544618|NCT00396084|164789148|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||Day 7. Pooled sputum bacillary load data for patients in the linezolid arms were combined and compared to that of patients in the INH arm.||||0.004
82544619|NCT00396084|164789149|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|||Mean values of EBA Days 0 to 2 for the 3 treatments groups were compared.||||<0.01
82544620|NCT00396084|164789149|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Two way comparison of INH against Linezolid once daily using a simultaneous non-parametric procedure.||||<0.01
82544621|NCT00396084|164789149|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Mean EBA 0-2 of INH was compared to pooled Linezolid once daily and Linezolid twice daily results.||||<0.01
82578902|NCT02683785|164867148|OTHER||Mean Difference (Net)|-3.7||||0.113|TWO_SIDED|95.0|-8.4|0.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component Week 4|||0.9|-8.4|0.113
82578903|NCT02683785|164867148|OTHER||Mean Difference (Net)|-1.0||||0.695|TWO_SIDED|95.0|-5.9|4.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 6|||4.0|-5.9|0.695
82544622|NCT00396084|164789152|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|||Mean values EBA Days 2-7 for the 3 treatment groups were compared.||||0.25
82544623|NCT00396084|164789152|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||The rate of fall in sputum cfu for the 3 treatment groups between day 2 and day 7 of monotherapy was estimated by the slope of the linear regression obtained from fitting the 6 sputum cfu values corresponding to days 2 through 7.||||0.42
82544624|NCT00396084|164789152|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||EBA Days 2-7 for INH was compared to that of the pooled linezolid arms.||||0.14
82544625|NCT03422276|164789312|SUPERIORITY||Mean Difference (Net)|-0.78||||0.44|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|t-test, 2 sided|t-test for independent samples, two-tailed, allocation ratio=1|Intervention mean minus control mean|It was calculated that 500 to 900 participants randomized in a 1:1 fashion between the two arms would have practically 100% power to detect an effect size of 0.5, and even a small sample size of 300 would have 80% power to detect a small effect size of 0.3 (800 to 900 would be 100% power).||||0.44
82544626|NCT03422276|164789313|SUPERIORITY||Mean Difference (Net)|1.63||||0.1|TWO_SIDED||||||t-test, 2 sided|||||||0.10
82544627|NCT05165485|164789325|SUPERIORITY||Mean Difference (Net)|-23.0||||0.22|TWO_SIDED|95.0|-61.0|14.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence, stopping after the first failure to reject the null hypothesis.|Mixed Models Analysis|Denominator degrees of freedom were approximated by the Kenward and Roger (1997) method.|Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|14|-61|0.22
82544628|NCT05165485|164789326|SUPERIORITY||Mean Difference (Net)|-9.0|||||TWO_SIDED|95.0|-38.0|20.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The OTE is defined as the average of the Day 30, Day 60, and Day 85 Revefenacin - Tiotropium Least Squares Mean differences. The null hypothesis was that the OTE Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|20|-38|
82578904|NCT02683785|164867148|OTHER||Mean Difference (Net)|-3.8||||0.176|TWO_SIDED|95.0|-9.4|1.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 8|||1.8|-9.4|0.176
82578905|NCT02683785|164867148|OTHER||Mean Difference (Net)|-5.5||||0.041|TWO_SIDED|95.0|-10.8|-0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 10|||-0.2|-10.8|0.041
82464231|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.54||0.2547|TWO_SIDED|95.0|-4.78|1.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||1.27|-4.78|0.2547
82464232|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.6|STANDARD_ERROR_OF_MEAN|1.55||0.0225|TWO_SIDED|95.0|-6.6|-0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-0.50|-6.60|0.0225
82464233|NCT03192176|164625599|SUPERIORITY||LSMean differencce|-4.3|STANDARD_ERROR_OF_MEAN|1.55||0.0058|TWO_SIDED|95.0|-7.38|-1.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-1.26|-7.38|0.0058
82464234|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.56||0.0301|TWO_SIDED|95.0|-6.48|-0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-0.33|-6.48|0.0301
82464235|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|1.55||0.322|TWO_SIDED|95.0|-4.59|1.51||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||1.51|-4.59|0.3220
82464236|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|1.54||0.8782|TWO_SIDED|95.0|-2.8|3.27||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||3.27|-2.80|0.8782
82464237|NCT03192176|164625599|SUPERIORITY||LSMean difference|-4.2|STANDARD_ERROR_OF_MEAN|1.55||0.0069|TWO_SIDED|95.0|-7.27|-1.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 4: Total Score||-1.17|-7.27|0.0069
82464238|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.95||0.089|TWO_SIDED|95.0|-3.49|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.25|-3.49|0.0890
82464239|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.95||0.1444|TWO_SIDED|95.0|-3.25|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.48|-3.25|0.1444
82464240|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.97||0.1022|TWO_SIDED|95.0|-3.51|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.32|-3.51|0.1022
82464241|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.97||0.2342|TWO_SIDED|95.0|-3.07|0.75||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.75|-3.07|0.2342
82464242|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.96||0.9906|TWO_SIDED|95.0|-1.89|1.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||1.87|-1.89|0.9906
82464243|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.95||0.577|TWO_SIDED|95.0|-1.34|2.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||2.40|-1.34|0.5770
82464244|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.95||0.1865|TWO_SIDED|95.0|-3.14|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Symptoms Score||0.61|-3.14|0.1865
82464245|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.4575|TWO_SIDED|95.0|-1.45|0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.65|-1.45|0.4575
82578906|NCT02683785|164867148|OTHER||Mean Difference (Net)|-4.7||||0.082|TWO_SIDED|95.0|-10.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Pain component, Week 12|||0.6|-10.1|0.082
82464246|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6016|TWO_SIDED|95.0|-1.33|0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.77|-1.33|0.6016
82464247|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7026|TWO_SIDED|95.0|-0.86|1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||1.28|-0.86|0.7026
82464248|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.2971|TWO_SIDED|95.0|-1.64|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.50|-1.64|0.2971
82464249|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.54||0.5491|TWO_SIDED|95.0|-1.38|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.74|-1.38|0.5491
82464250|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7142|TWO_SIDED|95.0|-0.86|1.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||1.25|-0.86|0.7142
82464251|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.53||0.1157|TWO_SIDED|95.0|-1.89|0.21||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.21|-1.89|0.1157
82464252|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.36||0.1114|TWO_SIDED|95.0|-1.3|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||0.14|-1.30|0.1114
82464253|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.36||0.0025|TWO_SIDED|95.0|-1.83|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.40|-1.83|0.0025
82464254|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.2|-0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Scre||-0.74|-2.20|<0.0001
82464255|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.37||0.5093|TWO_SIDED|95.0|-0.96|0.48|||MMRM|||Week 8: Vasomotor Symptoms Score||0.48|-0.96|0.5093
82464256|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.0001|TWO_SIDED|95.0|-2.33|-0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.86|-2.33|<0.0001
82464257|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.36||0.009|TWO_SIDED|95.0|-1.67|-0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Symptoms Score||-0.24|-1.67|0.0090
82464258|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.37||0.0024|TWO_SIDED|95.0|-1.84|-0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|LSMean difference|||Week 4: Vasomotor Symptoms Score||-0.40|-1.84|0.0024
82464259|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5497|TWO_SIDED|95.0|-0.47|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.25|-0.47|0.5497
82464260|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0276|TWO_SIDED|95.0|-0.76|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||-0.04|-0.76|0.0276
82578907|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.2||||0.587|TWO_SIDED|95.0|-1.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 1|||0.6|-1.1|0.587
82544629|NCT05165485|164789327|SUPERIORITY||Mean Difference (Net)|2.0|||||TWO_SIDED|95.0|-29.0|32.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|32|-29|
82544630|NCT05165485|164789328|SUPERIORITY||Mean Difference (Net)|-6.0|||||TWO_SIDED|95.0|-40.0|29.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|29|-40|
82544631|NCT05165485|164789329|SUPERIORITY||Mean Difference (Net)|-41.0|||||TWO_SIDED|95.0|-118.0|35.0||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Mixed Models Analysis||Revefenacin - Tiotropium Least Squares Mean Difference.|The null hypothesis was that the Revefenacin - Tiotropium Least Squares Mean Difference was zero and the alternative hypothesis was that it was nonzero.|The Revefenacin - Tiotropium Least Squares Mean Difference was estimated by fitting a repeated measures mixed model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FVC, screening FVC, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|35|-118|
82544632|NCT05165485|164789330|SUPERIORITY||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.39|0.92||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Regression, Logistic||The profile likelihood method was used to estimate the Revefenacin / Tiotropium responder OR.|The null hypothesis was that the Revefenacin / Tiotropium responder Odds Ratio was equal to 1 and the alternative hypothesis was that it was not equal to 1.|The Revefenacin / Tiotropium responder OR was estimated by fitting a logistic regression model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|0.92|0.39|
82544633|NCT05165485|164789331|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.69|1.45||The familywise type 1 error rate is controlled at 0.05 by testing the primary and secondary endpoint hypotheses in sequence and stopping after the first failure to reject the null hypothesis. Accordingly, the p-value is not shown.|Regression, Cox||The profile likelihood method was used to estimate the Revefenacin / Tiotropium HR.|The null hypothesis was that the Revefenacin / Tiotropium CompEx Event Hazard Ratio was equal to 1 and the alternative hypothesis was that it was not equal to 1.|The Revefenacin / Tiotropium HR was estimated by fitting a Cox proportional hazards model which included terms for participant, treatment, 6 categorical covariates, and 3 continuous covariates: baseline FEV1, screening FEV1, and baseline PIFR. The 6 categorical covariates were reversibility to ipratropium status (reversible/not reversible), smoking status (current/former), concomitant LABA or LABA/ICS use (Yes/No), GOLD airflow category (3/4, i.e., postipratropium FEV1 % predicted \< 30%/≥ 30%), sex (woman/man), and age group (\< 65/≥ 65).|1.45|0.69|
82544634|NCT05938413|164789360|NON_INFERIORITY|Non-inferiority test to compare viral suppression rate between month 3 and baseline.|Odds Ratio (OR)|3.01|||||TWO_SIDED|||||||||||||
82561914|NCT02326220|164832988|SUPERIORITY||Least Square (LS) Mean Difference|-55.3|STANDARD_ERROR_OF_MEAN|3.9|<|0.0001|TWO_SIDED|95.0|-63.0|-47.5||Threshold for significance at 0.05 level.|MMRM|MMRM: Mixed-effect model with repeated measures|Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-47.5|-63.0|< 0.0001
82561915|NCT02326220|164832989|SUPERIORITY||H-L estimate of median difference|0.5|||<|0.0001|TWO_SIDED|95.0|0.5|1.0||Threshold for significance at 0.05 level.|ANCOVA||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.000|0.500|<.0001
82464261|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1274|TWO_SIDED|95.0|-0.65|0.08||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.08|-0.65|0.1274
82464262|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.1865|TWO_SIDED|95.0|-0.61|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|LSMean difference|||Week 8: Sexual Dysfunction Score||0.12|-0.61|0.1865
82464263|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1857|TWO_SIDED|95.0|-0.61|0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.12|-0.61|0.1857
82464264|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.8631|TWO_SIDED|95.0|-0.33|0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||0.39|-0.33|0.8631
82464265|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0304|TWO_SIDED|95.0|-0.75|-0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Dysfunction Score||-0.04|-0.75|0.0304
82464266|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.63||0.1246|TWO_SIDED|95.0|-5.71|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.70|-5.71|0.1246
82464267|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.63||0.068|TWO_SIDED|95.0|-6.19|0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.22|-6.19|0.0680
82464268|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.67||0.0729|TWO_SIDED|95.0|-6.28|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.28|-6.28|0.0729
82464269|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.2|STANDARD_ERROR_OF_MEAN|1.66||0.0541|TWO_SIDED|95.0|-6.49|0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||0.06|-6.49|0.0541
82464270|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|1.64||0.696|TWO_SIDED|95.0|-3.87|2.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||2.59|-3.87|0.6960
82464271|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.63||0.9725|TWO_SIDED|95.0|-3.27|3.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||3.15|-3.27|0.9725
82464272|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.3|STANDARD_ERROR_OF_MEAN|1.63||0.0419|TWO_SIDED|95.0|-6.53|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 8: Total Score||-0.12|-6.53|0.0419
82464273|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.96||0.0794|TWO_SIDED|95.0|-3.57|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.20|-3.57|0.0794
82464274|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.98||0.1153|TWO_SIDED|95.0|-3.47|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.38|-3.47|0.1153
82464275|NCT03192176|164625599|SUPERIORITY||-1.5|-1.5|STANDARD_ERROR_OF_MEAN|1.0||0.1334|TWO_SIDED|95.0|-3.47|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.46|-3.47|0.1334
82464276|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.0||0.3457|TWO_SIDED|95.0|-2.93|1.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||1.03|-2.93|0.3457
82578908|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.4||||0.457|TWO_SIDED|95.0|-1.3|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 2|||0.6|-1.3|0.457
82578909|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.6||||0.298|TWO_SIDED|95.0|-1.8|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 4|||0.6|-1.8|0.298
82544635|NCT04922021|164789363|SUPERIORITY|Two-sided hypotheses were tested based on the pre-specified primary analysis for the primary estimand. The primary estimand used a hypothetical strategy evaluating the treatment difference as if all subjects adhered to the treatment regimen, i.e. they did not discontinue IMP permanently, did not initiate rescue treatment, or did not have more than one missed treatment dose related to COVID-19.|Mean Difference (Net)|-11.8||||0.003|TWO_SIDED|95.0|-19.6|-4.1||The type I error rate of the two-sided hypothesis test was controlled at the 5% significance level.|ANCOVA|ANCOVA model: Change in EASI = Treatment + Region + Baseline EASI. Missing values and data 'treated as missing' were imputed using MI assuming MAR.|Estimates of difference in LS-means and associated standard errors from the analyses were combined using Rubin's rule to provide the overall pooled estimate and associated standard error. LS-means was estimated using the observed margins for the FAS.|||-4.1|-19.6|0.003
82544636|NCT03237481|164789378|SUPERIORITY||Least Squares Mean Difference (LSMD)|-81.43|STANDARD_ERROR_OF_MEAN|22.592|=|0.0004|TWO_SIDED|95.0|-125.83|-37.02|||ANOVA|||||-37.02|-125.83|= 0.0004
82544637|NCT03237481|164789379|SUPERIORITY||Least Squares Mean Difference (LSMD)|-72.49|STANDARD_ERROR_OF_MEAN|18.23|<|0.0001|TWO_SIDED|95.0|-108.32|-36.65|||ANOVA|||||-36.65|-108.32|< 0.0001
82544638|NCT03237481|164789380|SUPERIORITY||||||=|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||= 0.0001
82578910|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.2||||0.726|TWO_SIDED|95.0|-1.3|0.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 6|||0.9|-1.3|0.726
82578911|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.7||||0.213|TWO_SIDED|95.0|-1.9|0.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 8|||0.4|-1.9|0.213
82544639|NCT03237481|164789381|SUPERIORITY||Risk Difference (RD)|0.111|||=|0.0486|TWO_SIDED|95.0|0.003|0.218|||Fisher Exact|||||0.218|0.003|= 0.0486
82544640|NCT03237481|164789382|SUPERIORITY||||||=|0.024|||||||Wilcoxon (Mann-Whitney)|||||||= 0.024
82544641|NCT04714320|164789442|SUPERIORITY||||||=|0.135||||||The stratification factor (screening estimated glomerular filtration rate (eGFR) status \[\<60 vs. ≥60 mL/min/1.73 m\^2\]), treatment received, and baseline measure were included in the analysis of covariate (ANCOVA) model as independent variables.|ANCOVA|||Change From Baseline in Seated Automated Office SBP to Day 85||||=0.135
82578912|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.6||||0.331|TWO_SIDED|95.0|-1.9|0.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 10|||0.7|-1.9|0.331
82578913|NCT02683785|164867148|OTHER||Mean Difference (Net)|-0.8||||0.248|TWO_SIDED|95.0|-2.1|0.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Stiffness component, Week 12|||0.6|-2.1|0.248
82578914|NCT02683785|164867148|OTHER||Mean Difference (Net)|-2.9||||0.35|TWO_SIDED|95.0|-9.0|3.3||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 1|||3.3|-9.0|0.350
82578915|NCT02683785|164867148|OTHER||Mean Difference (Net)|-3.0||||0.383|TWO_SIDED|95.0|-9.8|3.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 2|||3.8|-9.8|0.383
82544642|NCT04714320|164789442|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in Seated Automated Office SBP to Day 85||||=0.867
82544643|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline at Day 15||||<0.001
82544644|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline at Day 15||||<0.001
82544645|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||<0.001
82544646|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||<0.001
82544647|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||<0.001
82544648|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||<0.001
82544649|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||<0.001
82578916|NCT02683785|164867148|OTHER||Mean Difference (Net)|-4.8||||0.271|TWO_SIDED|95.0|-13.5|3.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 4|||3.9|-13.5|0.271
82578917|NCT02683785|164867148|OTHER||Mean Difference (Net)|-2.7||||0.565|TWO_SIDED|95.0|-12.1|6.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 6|||6.7|-12.1|0.565
82578918|NCT02683785|164867148|OTHER||Mean Difference (Net)|-4.9||||0.343|TWO_SIDED|95.0|-15.2|5.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 8|||5.4|-15.2|0.343
82578919|NCT02683785|164867148|OTHER||Mean Difference (Net)|-6.2||||0.266|TWO_SIDED|95.0|-17.3|4.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 10|||4.9|-17.3|0.266
82578920|NCT02683785|164867148|OTHER||Mean Difference (Net)|-8.2||||0.136|TWO_SIDED|95.0|-19.1|2.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Physical Function component, Week 12|||2.7|-19.1|0.136
82544650|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||<0.001
82544651|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 71||||<0.001
82578921|NCT02683785|164867148|OTHER||Mean Difference (Net)|-5.5||||0.23|TWO_SIDED|95.0|-14.5|3.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 1|||3.6|-14.5|0.230
82578922|NCT02683785|164867148|OTHER||Mean Difference (Net)|-4.6||||0.381|TWO_SIDED|95.0|-15.2|5.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 2|||5.9|-15.2|0.381
82578923|NCT02683785|164867148|OTHER||Mean Difference (Net)|-8.7||||0.207|TWO_SIDED|95.0|-22.4|5.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 4|||5.0|-22.4|0.207
82578924|NCT02683785|164867148|OTHER||Mean Difference (Net)|-3.4||||0.648|TWO_SIDED|95.0|-18.4|11.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 6|||11.6|-18.4|0.648
82578925|NCT02683785|164867148|OTHER||Mean Difference (Net)|-9.0||||0.278|TWO_SIDED|95.0|-25.4|7.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 8|||7.5|-25.4|0.278
82578926|NCT02683785|164867148|OTHER||Mean Difference (Net)|-12.1||||0.16|TWO_SIDED|95.0|-29.1|5.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 10|||5.0|-29.1|0.160
82578927|NCT02683785|164867148|OTHER||Mean Difference (Net)|-13.3||||0.127|TWO_SIDED|95.0|-30.5|3.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||For Total of all component scores, Week 12|||3.9|-30.5|0.127
82578928|NCT02683785|164867149|OTHER||Mean Difference (Net)|0.0||||0.957|TWO_SIDED|95.0|-1.9|1.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||1.8|-1.9|0.957
82578929|NCT02683785|164867149|OTHER||Mean Difference (Net)|0.3||||0.775|TWO_SIDED|95.0|-2.1|2.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||2.8|-2.1|0.775
82544652|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 71||||<0.001
82544653|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 85||||<0.001
82464277|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.99||0.2607|TWO_SIDED|95.0|-3.07|0.83||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.83|-3.07|0.2607
82464278|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.97||0.7816|TWO_SIDED|95.0|-2.18|1.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||1.64|-2.18|0.7816
82464279|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.97||0.0955|TWO_SIDED|95.0|-3.54|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Symptoms Score||0.29|-3.54|0.0955
82464280|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.2582|TWO_SIDED|95.0|-1.57|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.42|-1.57|0.2582
82464281|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.52||0.3448|TWO_SIDED|95.0|-0.53|1.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.52|-0.53|0.3448
82464282|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.53||0.6587|TWO_SIDED|95.0|-0.81|1.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.28|-0.81|0.6587
82464283|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.8299|TWO_SIDED|95.0|-1.16|0.93||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.93|-1.16|0.8299
82464284|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.53||0.8129|TWO_SIDED|95.0|-1.17|0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.92|-1.17|0.8129
82464285|NCT03192176|164625599|SUPERIORITY||LSMean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.52||0.213|TWO_SIDED|95.0|-0.37|1.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||1.66|-0.37|0.2130
82464286|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.51||0.4131|TWO_SIDED|95.0|-1.42|0.59||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Physical Symptoms Score||0.59|-1.42|0.4131
82464287|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.34||0.1273|TWO_SIDED|95.0|-1.2|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||0.15|-1.20|0.1273
82464288|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.35||0.0046|TWO_SIDED|95.0|-1.69|-0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.31|-1.69|0.0046
82464289|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.19|-0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.80|-2.19|<0.0001
82544654|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 85||||<0.001
82544655|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||<0.001
82544656|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||<0.001
82544657|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||<0.001
82544658|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||<0.001
82544659|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 120||||<0.001
82464290|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-2.19|-0.78||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.78|-2.19|<0.0001
82464291|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0333|TWO_SIDED|95.0|-1.45|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.06|-1.45|0.0333
82464292|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0423|TWO_SIDED|95.0|-1.39|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.02|-1.39|0.0423
82464293|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0208|TWO_SIDED|95.0|-1.49|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Symptoms Score||-0.12|-1.49|0.0208
82464294|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3435|TWO_SIDED|95.0|-0.55|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.19|-0.55|0.3435
82464295|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.0021|TWO_SIDED|95.0|-0.98|-0.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||-0.22|-0.98|0.0021
82464296|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0408|TWO_SIDED|95.0|-0.79|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||-0.02|-0.79|0.0408
82464297|NCT03192176|164625599|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0911|TWO_SIDED|95.0|-0.73|0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.05|-0.73|0.0911
82464298|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.7891|TWO_SIDED|95.0|-0.44|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.33|-0.44|0.7891
82464299|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9973|TWO_SIDED|95.0|-0.38|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.38|-0.38|0.9973
82464300|NCT03192176|164625599|SUPERIORITY||-0.1|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.6377|TWO_SIDED|95.0|-0.47|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Dysfunction Score||0.29|-0.47|0.6377
82544660|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 120||||<0.001
82544661|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 148||||<0.001
82578930|NCT02683785|164867149|OTHER||Mean Difference (Net)|-0.5||||0.624|TWO_SIDED|95.0|-2.7|1.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||1.7|-2.7|0.624
82464301|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.61||0.0862|TWO_SIDED|95.0|-5.95|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.40|-5.95|0.0862
82464302|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.5|STANDARD_ERROR_OF_MEAN|1.65||0.1305|TWO_SIDED|95.0|-5.74|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.74|-5.74|0.1305
82464303|NCT03192176|164625599|SUPERIORITY||LSMean difference|-3.0|STANDARD_ERROR_OF_MEAN|1.68||0.0707|TWO_SIDED|95.0|-6.34|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.26|-6.34|0.0707
82544662|NCT04714320|164789444|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 148||||=0.002
82544663|NCT04714320|164789444|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 169||||<0.001
82544664|NCT04714320|164789444|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 169||||=0.002
82544665|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 15||||<0.001
82544666|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 15||||<0.001
82544667|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day at 29||||<0.001
82544668|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day at 29||||<0.001
82544669|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 43||||<0.001
82578931|NCT02683785|164867149|OTHER||Mean Difference (Net)|1.4||||0.243|TWO_SIDED|95.0|-1.0|3.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||3.8|-1.0|0.243
82578932|NCT02683785|164867149|OTHER||Mean Difference (Net)|0.2||||0.875|TWO_SIDED|95.0|-2.5|2.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||2.9|-2.5|0.875
82578933|NCT02683785|164867149|OTHER||Mean Difference (Net)|-0.3||||0.848|TWO_SIDED|95.0|-3.4|2.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||2.8|-3.4|0.848
82544670|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 43||||<0.001
82544671|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 57||||<0.001
82544672|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 57||||<0.001
82544673|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 71||||<0.001
82578934|NCT02683785|164867149|OTHER||Mean Difference (Net)|-0.2||||0.883|TWO_SIDED|95.0|-2.8|2.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||2.4|-2.8|0.883
82578935|NCT02683785|164867150|OTHER||Mean Difference (Net)|-1.2||||0.463|TWO_SIDED|95.0|-4.4|2.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 1 is presented|||2.0|-4.4|0.463
82544674|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 71||||<0.001
82544675|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 85||||<0.001
82544676|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 85||||<0.001
82544677|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 92||||<0.001
82544678|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables|Van Elteren|||Percent Change from Baseline at Day 92||||<0.001
82464304|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.68||0.1232|TWO_SIDED|95.0|-5.92|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.71|-5.92|0.1232
82544679|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 106||||<0.001
82544680|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 106||||<0.001
82464305|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.66||0.253|TWO_SIDED|95.0|-5.18|1.37||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||1.37|-5.18|0.2530
82464306|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|1.64||0.9133|TWO_SIDED|95.0|-3.4|3.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||3.04|-3.40|0.9133
82464307|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.6|STANDARD_ERROR_OF_MEAN|1.63||0.1078|TWO_SIDED|95.0|-5.85|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 12: Total Score||0.58|-5.85|0.1078
82464308|NCT03192176|164625599|SUPERIORITY||LSMean differencce|-1.9|STANDARD_ERROR_OF_MEAN|1.08||0.0719|TWO_SIDED|95.0|-4.07|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.18|-4.07|0.0719
82464309|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|1.09||0.1298|TWO_SIDED|95.0|-3.8|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.49|-3.80|0.1298
82464310|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.9532|TWO_SIDED|95.0|-2.26|2.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.13|-2.26|0.9532
82464311|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|1.12||0.751|TWO_SIDED|95.0|-1.84|2.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.55|-1.84|0.7510
82464312|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.11||0.112|TWO_SIDED|95.0|-3.95|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.42|-3.95|0.1120
82464313|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|1.1||0.9781|TWO_SIDED|95.0|-2.13|2.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||2.19|-2.13|0.9781
82464314|NCT03192176|164625599|SUPERIORITY||LSMean difference|-1.4|STANDARD_ERROR_OF_MEAN|1.1||0.206|TWO_SIDED|95.0|-3.57|0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Symptoms Score||0.77|-3.57|0.2060
82464315|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.5332|TWO_SIDED|95.0|-1.46|0.76||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.76|-1.46|0.5332
82464316|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.4599|TWO_SIDED|95.0|-1.54|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.70|-1.54|0.4599
82544681|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 120||||<0.001
82544682|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 120||||<0.001
82544683|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 148||||<0.001
82464317|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.58||0.4752|TWO_SIDED|95.0|-0.72|1.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.55|-0.72|0.4752
82464318|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.58||0.9051|TWO_SIDED|95.0|-1.21|1.07||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.07|-1.21|0.9051
82464319|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.58||0.9937|TWO_SIDED|95.0|-1.14|1.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.15|-1.14|0.9937
82464320|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.57||0.6956|TWO_SIDED|95.0|-0.91|1.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||1.35|-0.91|0.6956
82464321|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.57||0.2302|TWO_SIDED|95.0|-1.81|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Physical Symptoms Score||0.44|-1.81|0.2302
82464322|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.46||0.1544|TWO_SIDED|95.0|-1.55|0.25||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.25|-1.55|0.1544
82464323|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.6847|TWO_SIDED|95.0|-1.1|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.72|-1.10|0.6847
82464324|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.552|TWO_SIDED|95.0|-1.2|0.64||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.64|-1.20|0.5520
82464325|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.3632|TWO_SIDED|95.0|-1.36|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.50|-1.36|0.3632
82464326|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47||0.2828|TWO_SIDED|95.0|-1.43|0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.42|-1.43|0.2828
82578936|NCT02683785|164867150|OTHER||Mean Difference (Net)|-0.4||||0.809|TWO_SIDED|95.0|-3.7|2.9||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||2.9|-3.7|0.809
82464327|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.4702|TWO_SIDED|95.0|-1.24|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.58|-1.24|0.4702
82464328|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.8262|TWO_SIDED|95.0|-1.02|0.81||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Symptoms Score||0.81|-1.02|0.8262
82464329|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3152|TWO_SIDED|95.0|-0.6|0.19||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.19|-0.60|0.3152
82464330|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4399|TWO_SIDED|95.0|-0.56|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.24|-0.56|0.4399
82464331|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1898|TWO_SIDED|95.0|-0.67|0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.13|-0.67|0.1898
82464332|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.9791|TWO_SIDED|95.0|-0.4|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.41|-0.40|0.9791
82464333|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3178|TWO_SIDED|95.0|-0.61|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.20|-0.61|0.3178
82464334|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4174|TWO_SIDED|95.0|-0.57|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.24|-0.57|0.4174
82464335|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.249|TWO_SIDED|95.0|-0.63|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Dysfunction Score||0.16|-0.63|0.2490
82464336|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.9|STANDARD_ERROR_OF_MEAN|1.87||0.1233|TWO_SIDED|95.0|-6.57|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||0.79|-6.57|0.1233
82464337|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.9||0.2858|TWO_SIDED|95.0|-5.76|1.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.70|-5.76|0.2858
82464338|NCT03192176|164625599|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|1.93||0.9716|TWO_SIDED|95.0|-3.87|3.73||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||3.73|-3.87|0.9716
82464339|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|1.93||0.9072|TWO_SIDED|95.0|-3.58|4.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||4.03|-3.58|0.9072
82464340|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.3|STANDARD_ERROR_OF_MEAN|1.92||0.2334|TWO_SIDED|95.0|-6.07|1.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.49|-6.07|0.2334
82464341|NCT03192176|164625599|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|1.91||0.9859|TWO_SIDED|95.0|-3.79|3.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||3.72|-3.79|0.9859
82464342|NCT03192176|164625599|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|1.9||0.287|TWO_SIDED|95.0|-5.77|1.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \&TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& an interaction of baseline measurement by week.|MMRM|||Week 15: Total Score||1.72|-5.77|0.2870
82464343|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1632|TWO_SIDED|95.0|-1.41|0.24||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.24|-1.41|0.1632
82464344|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.42||0.0045|TWO_SIDED|95.0|-2.03|-0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.38|-2.03|0.0045
82464345|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.42||0.0002|TWO_SIDED|95.0|-2.43|-0.77||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.77|-2.43|0.0002
82464346|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.7|-1.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-1.02|-2.70|<0.0001
82464347|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.42||0.8569|TWO_SIDED|95.0|-0.91|0.76||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.76|-0.91|0.8569
82464348|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.42||0.111|TWO_SIDED|95.0|-1.49|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||0.15|-1.49|0.1110
82544684|NCT04714320|164789445|SUPERIORITY||||||=|0.005||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Percent Change from Baseline at Day 148||||=0.005
82464349|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42||0.0187|TWO_SIDED|95.0|-1.83|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Vasomotor Mean Score||-0.17|-1.83|0.0187
82464350|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4972|TWO_SIDED|95.0|-0.73|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.36|-0.73|0.4972
82464351|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2568|TWO_SIDED|95.0|-0.86|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.23|-0.86|0.2568
82464352|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2609|TWO_SIDED|95.0|-0.86|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.23|-0.86|0.2609
82464353|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4148|TWO_SIDED|95.0|-0.78|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.32|-0.78|0.4148
82464354|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5575|TWO_SIDED|95.0|-0.38|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.71|-0.38|0.5575
82464355|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.28||0.1671|TWO_SIDED|95.0|-0.16|0.92||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.92|-0.16|0.1671
82464356|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.9462|TWO_SIDED|95.0|-0.57|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Psychological Mean Score||0.53|-0.57|0.9462
82464357|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0699|TWO_SIDED|95.0|-0.91|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.04|-0.91|0.0699
82464358|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0056|TWO_SIDED|95.0|-1.15|-0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.20|-1.15|0.0056
82464359|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1117|TWO_SIDED|95.0|-0.86|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.09|-0.86|0.1117
82464360|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0265|TWO_SIDED|95.0|-1.02|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.06|-1.02|0.0265
82464361|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1119|TWO_SIDED|95.0|-0.86|0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.09|-0.86|0.1119
82464362|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.7607|TWO_SIDED|95.0|-0.54|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||0.40|-0.54|0.7607
82464363|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0437|TWO_SIDED|95.0|-0.97|-0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Physical Mean Score||-0.01|-0.97|0.0437
82464364|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.35||0.0211|TWO_SIDED|95.0|-1.51|-0.12||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||-0.12|-1.51|0.0211
82464365|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.35||0.0017|TWO_SIDED|95.0|-1.82|-0.42||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||-0.42|-1.82|0.0017
82544685|NCT04714320|164789445|SUPERIORITY||||||<|0.001||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 169||||<0.001
82544686|NCT04714320|164789445|SUPERIORITY||||||=|0.002||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received were included in the Van Elteren model as independent variables.|Van Elteren|||Percent Change from Baseline at Day 169||||=0.002
82544687|NCT04714320|164789446|SUPERIORITY||||||=|0.094||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline in 24-hour Mean SBP at Day 85||||=0.094
82544688|NCT04714320|164789446|SUPERIORITY||||||=|0.842||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline in 24-hour Mean SBP at Day 85||||=0.842
82544689|NCT04714320|164789446|SUPERIORITY||||||=|0.066||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in 24-hour Mean DBP at Day 85||||=0.066
82544690|NCT04714320|164789446|SUPERIORITY||||||=|0.442||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change From Baseline in 24-hour Mean DBP at Day 85||||=0.442
82544691|NCT04714320|164789447|SUPERIORITY||||||=|0.834||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 8||||=0.834
82544692|NCT04714320|164789447|SUPERIORITY||||||=|0.945||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 8||||=0.945
82544693|NCT04714320|164789447|SUPERIORITY||||||=|0.208||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 15||||=0.208
82544694|NCT04714320|164789447|SUPERIORITY||||||=|0.74||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 15||||=0.740
82544695|NCT04714320|164789447|SUPERIORITY||||||=|0.019||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 22||||=0.019
82544696|NCT04714320|164789447|SUPERIORITY||||||=|0.56||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in the Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 22||||=0.560
82544697|NCT04714320|164789447|SUPERIORITY||||||=|0.903||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure are included in Logistic Regression model, firth correction will be applied if quasi-complete separation of data points is detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 29||||=0.903
82544698|NCT04714320|164789447|SUPERIORITY||||||=|0.268||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure are included in Logistic Regression model, firth correction will be applied if quasi-complete separation of data points is detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 29||||=0.268
82544699|NCT04714320|164789447|SUPERIORITY||||||=|0.702||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 36||||=0.702
82544700|NCT04714320|164789447|SUPERIORITY||||||=|0.885||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 36||||=0.885
82464366|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.0598|TWO_SIDED|95.0|-1.37|0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.03|-1.37|0.0598
82544701|NCT04714320|164789447|SUPERIORITY||||||=|0.066||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 43||||=0.066
82544702|NCT04714320|164789447|SUPERIORITY||||||=|0.783||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 43||||=0.783
82544703|NCT04714320|164789447|SUPERIORITY||||||=|0.456||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 50||||=0.456
82464367|NCT03192176|164625600|SUPERIORITY||LSMean differencce|-0.5|STANDARD_ERROR_OF_MEAN|0.36||0.1573|TWO_SIDED|95.0|-1.21|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.20|-1.21|0.1573
82464368|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.7257|TWO_SIDED|95.0|-0.83|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.58|-0.83|0.7257
82464369|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9324|TWO_SIDED|95.0|-0.72|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.66|-0.72|0.9324
82464370|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.2172|TWO_SIDED|95.0|-1.14|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Sexual Mean Score||0.26|-1.14|0.2172
82464371|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.0742|TWO_SIDED|95.0|-0.88|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.04|-0.88|0.0742
82464372|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.0035|TWO_SIDED|95.0|-1.16|-0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Score||-0.23|-1.16|0.0035
82464373|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0266|TWO_SIDED|95.0|-0.99|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||-0.06|-0.99|0.0266
82464374|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.24||0.0124|TWO_SIDED|95.0|-1.06|-0.13||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||-0.13|-1.06|0.0124
82544704|NCT04714320|164789447|SUPERIORITY||||||=|0.102||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 50||||=0.102
82544705|NCT04714320|164789447|SUPERIORITY||||||=|0.668||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 57||||=0.668
82544706|NCT04714320|164789447|SUPERIORITY||||||=|0.454||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 57||||=0.454
82544707|NCT04714320|164789447|SUPERIORITY||||||=|0.044||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 64||||=0.044
82544708|NCT04714320|164789447|SUPERIORITY||||||=|0.704||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 64||||=0.704
82544709|NCT04714320|164789447|SUPERIORITY||||||=|0.878||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 71||||=0.878
82544710|NCT04714320|164789447|SUPERIORITY||||||=|0.681||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 71||||=0.681
82544711|NCT04714320|164789447|SUPERIORITY||||||=|0.199||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 78||||=0.199
82544712|NCT04714320|164789447|SUPERIORITY||||||=|0.602||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 78||||=0.602
82544713|NCT04714320|164789447|SUPERIORITY||||||=|0.135||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 85||||=0.135
82464375|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.4367|TWO_SIDED|95.0|-0.65|0.28||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.28|-0.65|0.4367
82464376|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.9318|TWO_SIDED|95.0|-0.48|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.44|-0.48|0.9318
82464377|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.0714|TWO_SIDED|95.0|-0.89|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 4: Overall Mean Score||0.04|-0.89|0.0714
82464378|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.42||0.2027|TWO_SIDED|95.0|-1.35|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||0.29|-1.35|0.2027
82464379|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.41||0.0013|TWO_SIDED|95.0|-2.16|-0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.53|-2.16|0.0013
82464380|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.7|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.53|-0.87||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.87|-2.53|<0.0001
82464381|NCT03192176|164625600|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.83|-1.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-1.16|-2.83|<0.0001
82464382|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.42||0.3791|TWO_SIDED|95.0|-1.19|0.45||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||0.45|-1.19|0.3791
82578937|NCT02683785|164867150|OTHER||Mean Difference (Net)|-1.9||||0.324|TWO_SIDED|95.0|-5.8|2.0||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||2.0|-5.8|0.324
82464383|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.42||0.0211|TWO_SIDED|95.0|-1.78|-0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.15|-1.78|0.0211
82464384|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.42||0.0021|TWO_SIDED|95.0|-2.1|-0.47||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Vasomotor Mean Score||-0.47|-2.10|0.0021
82464385|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.889|TWO_SIDED|95.0|-0.55|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 8: Psychological Mean Score||0.48|-0.55|0.8890
82464386|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5568|TWO_SIDED|95.0|-0.67|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.36|-0.67|0.5568
82464387|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.3989|TWO_SIDED|95.0|-0.75|0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.30|-0.75|0.3989
82544714|NCT04714320|164789447|SUPERIORITY||||||=|0.407||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 85||||=0.407
82544715|NCT04714320|164789447|SUPERIORITY||||||=|0.795||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 92||||=0.795
82544716|NCT04714320|164789447|SUPERIORITY||||||=|0.036||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 92||||=0.036
82464388|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.6094|TWO_SIDED|95.0|-0.66|0.39||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.39|-0.66|0.6094
82544717|NCT04714320|164789447|SUPERIORITY||||||=|0.915||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 106||||=0.915
82464389|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.5229|TWO_SIDED|95.0|-0.35|0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.69|-0.35|0.5229
82544718|NCT04714320|164789447|SUPERIORITY||||||=|0.957||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 106||||=0.957
82578938|NCT02683785|164867150|OTHER||Mean Difference (Net)|-0.5||||0.783|TWO_SIDED|95.0|-4.2|3.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 6 is presented|||3.2|-4.2|0.783
82464390|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4409|TWO_SIDED|95.0|-0.31|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.72|-0.31|0.4409
82464391|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.8062|TWO_SIDED|95.0|-0.45|0.58||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Psychological Mean Score||0.58|-0.45|0.8062
82464392|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3663|TWO_SIDED|95.0|-0.71|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.26|-0.71|0.3663
82464393|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0424|TWO_SIDED|95.0|-0.99|-0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||-0.02|-0.99|0.0424
82464394|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.25||0.1597|TWO_SIDED|95.0|-0.85|0.14||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.14|-0.85|0.1597
82464395|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.25||0.0595|TWO_SIDED|95.0|-0.97|0.02||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.02|-0.97|0.0595
82464396|NCT03192176|164625600|SUPERIORITY||LSMean differnce|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.2162|TWO_SIDED|95.0|-0.8|0.18||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Symptoms Score||0.18|-0.80|0.2162
82464397|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9833|TWO_SIDED|95.0|-0.49|0.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.48|-0.49|0.9833
82464398|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.2034|TWO_SIDED|95.0|-0.81|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Physical Mean Score||0.17|-0.81|0.2034
82464399|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.35||0.9576|TWO_SIDED|95.0|-0.7|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.67|-0.70|0.9576
82544719|NCT04714320|164789447|SUPERIORITY||||||=|0.804||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 120||||=0.804
82578939|NCT02683785|164867150|OTHER||Mean Difference (Net)|-1.4||||0.464|TWO_SIDED|95.0|-5.4|2.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||2.5|-5.4|0.464
82544720|NCT04714320|164789447|SUPERIORITY||||||=|0.775||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 120||||=0.775
82544721|NCT04714320|164789447|SUPERIORITY||||||=|0.801||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 148||||=0.801
82544722|NCT04714320|164789447|SUPERIORITY||||||=|0.329||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 148||||=0.329
82544723|NCT04714320|164789447|SUPERIORITY||||||=|0.882||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 169||||=0.882
82544724|NCT04714320|164789447|SUPERIORITY||||||=|0.235||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg at Day 169||||=0.235
82464400|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.35||0.041|TWO_SIDED|95.0|-1.4|-0.03||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||-0.03|-1.40|0.0410
82464401|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3961|TWO_SIDED|95.0|-1.0|0.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.40|-1.00|0.3961
82464402|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.36||0.5012|TWO_SIDED|95.0|-0.94|0.46||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.46|-0.94|0.5012
82578940|NCT02683785|164867150|OTHER||Mean Difference (Net)|-0.7||||0.736|TWO_SIDED|95.0|-4.9|3.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 10 is presented|||3.5|-4.9|0.736
82464403|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.35||0.2592|TWO_SIDED|95.0|-1.1|0.3||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.30|-1.10|0.2592
82464404|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.35||0.6141|TWO_SIDED|95.0|-0.51|0.86||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.86|-0.51|0.6141
82464405|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.439|TWO_SIDED|95.0|-0.95|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Sexual Mean Score||0.41|-0.95|0.4390
82464406|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4521|TWO_SIDED|95.0|-0.64|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.29|-0.64|0.4521
82464407|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0257|TWO_SIDED|95.0|-0.99|-0.06||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||-0.06|-0.99|0.0257
82464408|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0564|TWO_SIDED|95.0|-0.93|0.01||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.01|-0.93|0.0564
82544725|NCT04714320|164789447|SUPERIORITY||||||=|0.505||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 8||||=0.505
82544726|NCT04714320|164789447|SUPERIORITY||||||=|0.436||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 8||||=0.436
82544727|NCT04714320|164789447|SUPERIORITY||||||=|0.637||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 15||||=0.637
82464409|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.0293|TWO_SIDED|95.0|-0.99|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Wek 8: Overall Mean Score||-0.05|-0.99|0.0293
82464410|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.3742|TWO_SIDED|95.0|-0.68|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.26|-0.68|0.3742
82464411|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.9106|TWO_SIDED|95.0|-0.49|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean Score||0.44|-0.49|0.9106
82464412|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23||0.1844|TWO_SIDED|95.0|-0.78|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 8: Overall Mean SCore||0.15|-0.78|0.1844
82464413|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.41||0.0287|TWO_SIDED|95.0|-1.69|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.09|-1.69|0.0287
82464414|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0028|TWO_SIDED|95.0|-2.05|-0.43||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.43|-2.05|0.0028
82464415|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.42||0.0004|TWO_SIDED|95.0|-2.32|-0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.67|-2.32|0.0004
82464416|NCT03192176|164625600|SUPERIORITY||LSMean difference|-2.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-2.87|-1.22||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-1.22|-2.87|<0.0001
82464417|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1826|TWO_SIDED|95.0|-1.38|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||0.26|-1.38|0.1826
82464418|NCT03192176|164625600|SUPERIORITY||LSMean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.41||0.0178|TWO_SIDED|95.0|-1.79|-0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.17|-1.79|0.0178
82464419|NCT03192176|164625600|SUPERIORITY||LSMean differnce|-1.2|STANDARD_ERROR_OF_MEAN|0.41||0.0025|TWO_SIDED|95.0|-2.06|-0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||-0.44|-2.06|0.0025
82464420|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9163|TWO_SIDED|95.0|-0.55|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.50|-0.55|0.9163
82544728|NCT04714320|164789447|SUPERIORITY||||||=|0.254||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 15||||=0.254
82464421|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.1597|TWO_SIDED|95.0|-0.92|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.15|-0.92|0.1597
82464422|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4871|TWO_SIDED|95.0|-0.74|0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.35|-0.74|0.4871
82464423|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5401|TWO_SIDED|95.0|-0.72|0.38||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.38|-0.72|0.5401
82544729|NCT04714320|164789447|SUPERIORITY||||||=|0.848||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 22||||=0.848
82578941|NCT02683785|164867150|OTHER||Mean Difference (Net)|-0.5||||0.806|TWO_SIDED|95.0|-4.8|3.7||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||3.7|-4.8|0.806
82578942|NCT02683785|164867151|OTHER||Mean Difference (Net)|0.3||||0.586|TWO_SIDED|95.0|-0.9|1.6||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented|||1.6|-0.9|0.586
82464424|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.3788|TWO_SIDED|95.0|-0.3|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.79|-0.30|0.3788
82464425|NCT03192176|164625600|SUPERIORITY||0.28|0.2|STANDARD_ERROR_OF_MEAN|0.27||0.4541|TWO_SIDED|95.0|-0.33|0.74||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.74|-0.33|0.4541
82464426|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9233|TWO_SIDED|95.0|-0.51|0.56||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Psychological Mean Score||0.56|-0.51|0.9233
82464427|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6043|TWO_SIDED|95.0|-0.61|0.35||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.35|-0.61|0.6043
82464428|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1781|TWO_SIDED|95.0|-0.82|0.15||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.15|-0.82|0.1781
82464429|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5221|TWO_SIDED|95.0|-0.66|0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.34|-0.66|0.5221
82464430|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.4744|TWO_SIDED|95.0|-0.68|0.32||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.32|-0.68|0.4744
82464431|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5167|TWO_SIDED|95.0|-0.66|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.33|-0.66|0.5167
82464432|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3441|TWO_SIDED|95.0|-0.25|0.72||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.72|-0.25|0.3441
82464433|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.5362|TWO_SIDED|95.0|-0.64|0.33||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Physical Mean Score||0.33|-0.64|0.5362
82464434|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9349|TWO_SIDED|95.0|-0.78|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.71|-0.78|0.9349
82464435|NCT03192176|164625600|SUPERIORITY||LSMean differencce|-1.0|STANDARD_ERROR_OF_MEAN|0.39||0.0084|TWO_SIDED|95.0|-1.78|-0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||-0.26|-1.78|0.0084
82464436|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.39||0.1212|TWO_SIDED|95.0|-1.38|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.16|-1.38|0.1212
82464437|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39||0.7709|TWO_SIDED|95.0|-0.89|0.66||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.66|-0.89|0.7709
82578943|NCT02683785|164867151|OTHER||Mean Difference (Net)|-0.5||||0.416|TWO_SIDED|95.0|-1.9|0.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.8|-1.9|0.416
82464438|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1667|TWO_SIDED|95.0|-1.33|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.23|-1.33|0.1667
82464439|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9213|TWO_SIDED|95.0|-0.72|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.79|-0.72|0.9213
82464440|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.2315|TWO_SIDED|95.0|-1.21|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Sexual Mean Score||0.29|-1.21|0.2315
82464441|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4731|TWO_SIDED|95.0|-0.63|0.29||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.29|-0.63|0.4731
82464442|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.24||0.031|TWO_SIDED|95.0|-0.98|-0.05||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||-0.05|-0.98|0.0310
82464443|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.132|TWO_SIDED|95.0|-0.84|0.11||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.11|-0.84|0.1320
82464444|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1212|TWO_SIDED|95.0|-0.85|0.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.10|-0.85|0.1212
82464445|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.5689|TWO_SIDED|95.0|-0.62|0.34||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.34|-0.62|0.5689
82464446|NCT03192176|164625600|SUPERIORITY||0.1|0.1|STANDARD_ERROR_OF_MEAN|0.24||0.734|TWO_SIDED|95.0|-0.39|0.55||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.55|-0.39|0.7340
82464447|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2704|TWO_SIDED|95.0|-0.73|0.2||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Overall Mean Score||0.20|-0.73|0.2704
82544730|NCT04714320|164789447|SUPERIORITY||||||=|0.24||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 22||||=0.240
82544731|NCT04714320|164789447|SUPERIORITY||||||=|0.382||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 29||||=0.382
82544732|NCT04714320|164789447|SUPERIORITY||||||=|0.935||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 29||||=0.935
82544733|NCT04714320|164789447|SUPERIORITY||||||=|0.278||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 36||||=0.278
82464448|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.561|TWO_SIDED|95.0|-1.24|0.67||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||0.67|-1.24|0.5610
82544734|NCT04714320|164789447|SUPERIORITY||||||=|0.211||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 36||||=0.211
82544735|NCT04714320|164789447|SUPERIORITY||||||=|0.562||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 43||||=0.562
82544736|NCT04714320|164789447|SUPERIORITY||||||=|0.25||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 43||||=0.250
82464449|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.49||0.7966|TWO_SIDED|95.0|-0.83|1.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.09|-0.83|0.7966
82464450|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.4|STANDARD_ERROR_OF_MEAN|0.5||0.3965|TWO_SIDED|95.0|-0.56|1.4||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.40|-0.56|0.3965
82464451|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8189|TWO_SIDED|95.0|-0.87|1.1||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.10|-0.87|0.8189
82464452|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5||0.5693|TWO_SIDED|95.0|-1.27|0.7||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 12: Vasomotor Mean Score||0.70|-1.27|0.5693
82464453|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.49||0.5217|TWO_SIDED|95.0|-1.29|0.65||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||0.65|-1.29|0.5217
82464454|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.5|STANDARD_ERROR_OF_MEAN|0.49||0.2988|TWO_SIDED|95.0|-0.46|1.48||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Vasomotor Mean Score||1.48|-0.46|0.2988
82544737|NCT04714320|164789447|SUPERIORITY||||||=|0.114||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 50||||=0.114
82544738|NCT04714320|164789447|SUPERIORITY||||||=|0.55||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 50||||=0.550
82544739|NCT04714320|164789447|SUPERIORITY||||||=|0.423||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 57||||=0.423
82544740|NCT04714320|164789447|SUPERIORITY||||||=|0.422||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 57||||=0.422
82544741|NCT04714320|164789447|SUPERIORITY||||||=|0.073||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 64||||=0.073
82464455|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7957|TWO_SIDED|95.0|-0.69|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.53|-0.69|0.7957
82464456|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.31||0.254|TWO_SIDED|95.0|-0.97|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.26|-0.97|0.2540
82464457|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.6956|TWO_SIDED|95.0|-0.75|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.50|-0.75|0.6956
82464458|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.32||0.8694|TWO_SIDED|95.0|-0.57|0.68||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.68|-0.57|0.8694
82464459|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.32||0.5047|TWO_SIDED|95.0|-0.84|0.41||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.41|-0.84|0.5047
82544742|NCT04714320|164789447|SUPERIORITY||||||=|0.278||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 64||||=0.278
82578944|NCT02683785|164867151|OTHER||Mean Difference (Net)|-1.2||||0.12|TWO_SIDED|95.0|-2.8|0.3||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.3|-2.8|0.120
82578945|NCT02683785|164867151|OTHER||Mean Difference (Net)|-0.3||||0.687|TWO_SIDED|95.0|-2.1|1.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||1.4|-2.1|0.687
82464460|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7515|TWO_SIDED|95.0|-0.52|0.71||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.71|-0.52|0.7515
82464461|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.7818|TWO_SIDED|95.0|-0.7|0.53||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Psychological Mean Score||0.53|-0.70|0.7818
82464462|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.577|TWO_SIDED|95.0|-0.65|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.36|-0.65|0.5770
82464463|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.1893|TWO_SIDED|95.0|-0.85|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.17|-0.85|0.1893
82464464|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2997|TWO_SIDED|95.0|-0.25|0.79||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.79|-0.25|0.2997
82464465|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.7529|TWO_SIDED|95.0|-0.6|0.44||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.44|-0.60|0.7529
82464466|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4173|TWO_SIDED|95.0|-0.73|0.31||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.31|-0.73|0.4173
82464467|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4944|TWO_SIDED|95.0|-0.34|0.69||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.69|-0.34|0.4944
82464468|NCT03192176|164625600|SUPERIORITY||LSMean differencce|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9231|TWO_SIDED|95.0|-0.54|0.49||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Physical Mean Score||0.49|-0.54|0.9231
82464469|NCT03192176|164625600|SUPERIORITY||LSMean differencce|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.5112|TWO_SIDED|95.0|-1.04|0.52||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.52|-1.04|0.5112
82464470|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.03|TWO_SIDED|95.0|-1.66|-0.09||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||-0.09|-1.66|0.0300
82578946|NCT02683785|164867152|OTHER||Mean Difference (Net)|-0.2||||0.651|TWO_SIDED|95.0|-1.3|0.8||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 2 is presented.|||0.8|-1.3|0.651
82464471|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.0634|TWO_SIDED|95.0|-1.57|0.04||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.04|-1.57|0.0634
82464472|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.9406|TWO_SIDED|95.0|-0.78|0.84||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.84|-0.78|0.9406
82464473|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41||0.1168|TWO_SIDED|95.0|-1.46|0.16||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.16|-1.46|0.1168
82544743|NCT04714320|164789447|SUPERIORITY||||||=|0.338||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 71||||=0.338
82544744|NCT04714320|164789447|SUPERIORITY||||||=|0.969||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 71||||=0.969
82544745|NCT04714320|164789447|SUPERIORITY||||||=|0.489||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 78||||=0.489
82544746|NCT04714320|164789447|SUPERIORITY||||||=|0.156||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 78||||=0.156
82544747|NCT04714320|164789447|SUPERIORITY||||||=|0.389||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 85||||=0.389
82544748|NCT04714320|164789447|SUPERIORITY||||||=|0.775||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 85||||=0.775
82544749|NCT04714320|164789447|SUPERIORITY||||||=|0.437||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 92||||=0.437
82544750|NCT04714320|164789447|SUPERIORITY||||||=|0.618|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 92||||=0.618
82544751|NCT04714320|164789447|SUPERIORITY||||||=|0.079||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 106||||=0.079
82544752|NCT04714320|164789447|SUPERIORITY||||||=|0.349||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 106||||=0.349
82544753|NCT04714320|164789447|SUPERIORITY||||||=|0.58||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 120||||=0.580
82544754|NCT04714320|164789447|SUPERIORITY||||||=|0.106||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 120||||=0.106
82544755|NCT04714320|164789447|SUPERIORITY||||||=|0.955||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 148||||=0.955
82544756|NCT04714320|164789447|SUPERIORITY||||||=|0.134||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 148||||=0.134
82544757|NCT04714320|164789447|SUPERIORITY||||||=|0.933||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 169||||=0.933
82578947|NCT02683785|164867152|OTHER||Mean Difference (Net)|-0.7||||0.271|TWO_SIDED|95.0|-1.9|0.5||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 4 is presented|||0.5|-1.9|0.271
82544758|NCT04714320|164789447|SUPERIORITY||||||=|0.502||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 90 mmHg at Day 169||||=0.502
82544759|NCT04714320|164789447|SUPERIORITY||||||=|0.653||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 8||||=0.653
82544760|NCT04714320|164789447|SUPERIORITY||||||=|0.816||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 8||||=0.816
82544761|NCT04714320|164789447|SUPERIORITY||||||=|0.184||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 15||||=0.184
82544762|NCT04714320|164789447|SUPERIORITY||||||=|0.765||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 15||||=0.765
82544763|NCT04714320|164789447|SUPERIORITY||||||=|0.009||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 22||||=0.009
82544764|NCT04714320|164789447|SUPERIORITY||||||=|0.578||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 22||||=0.578
82544765|NCT04714320|164789447|SUPERIORITY||||||=|0.725||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 29||||=0.725
82544766|NCT04714320|164789447|SUPERIORITY||||||=|0.287||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 29||||=0.287
82544767|NCT04714320|164789447|SUPERIORITY||||||=|0.705||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 36||||=0.705
82544768|NCT04714320|164789447|SUPERIORITY||||||=|0.975||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 36||||=0.975
82544769|NCT04714320|164789447|SUPERIORITY||||||=|0.118||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 43||||=0.118
82544770|NCT04714320|164789447|SUPERIORITY||||||=|0.959||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 43||||=0.959
82578948|NCT02683785|164867152|OTHER||Mean Difference (Net)|-0.9||||0.186|TWO_SIDED|95.0|-2.2|0.4||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 8 is presented|||0.4|-2.2|0.186
82578949|NCT02683785|164867152|OTHER||Mean Difference (Net)|-1.1||||0.109|TWO_SIDED|95.0|-2.4|0.2||MMRM model with fixed effects of Baseline Value, Treatment Group, Visit and Treatment Group by Visit Interaction was used. Unstructured covariance structure was used. p-value corresponds to the difference over placebo measure and confidence interval.|Mixed Model Repeated Measures Analysis||Difference from placebo for Week 12 is presented|||0.2|-2.4|0.109
82544771|NCT04714320|164789447|SUPERIORITY||||||=|0.413||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 50||||=0.413
82544772|NCT04714320|164789447|SUPERIORITY||||||=|0.043||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 50||||=0.043
82544773|NCT04714320|164789447|SUPERIORITY||||||=|0.849||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 57||||=0.849
82544774|NCT04714320|164789447|SUPERIORITY||||||=|0.662||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 57||||=0.662
82544775|NCT04714320|164789447|SUPERIORITY||||||=|0.047||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 64||||=0.047
82578950|NCT00368927|164867170|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Fisher Exact|||With a sample size of 60 evaluable participants per intervention arm, we would have 90% power to detect a bronchial dysplasia response rate of 54% and 82% power to detect a bronchial dysplasia response rate of\> 51% among participants assigned to receive active sulindac (2-sided chi-square test with continuity correction; alpha=0.05).||||0.85
82464474|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9937|TWO_SIDED|95.0|-0.79|0.8||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.80|-0.79|0.9937
82464475|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1858|TWO_SIDED|95.0|-1.32|0.26||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Sexual Mean Score||0.26|-1.32|0.1858
82464476|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.5765|TWO_SIDED|95.0|-0.65|0.36||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.36|-0.65|0.5765
82464477|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.1848|TWO_SIDED|95.0|-0.86|0.17||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.17|-0.86|0.1848
82464478|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.7299|TWO_SIDED|95.0|-0.43|0.61||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.61|-0.43|0.7299
82464479|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9415|TWO_SIDED|95.0|-0.54|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.50|-0.54|0.9415
82464480|NCT03192176|164625600|SUPERIORITY||LSMean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.2742|TWO_SIDED|95.0|-0.82|0.23||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.23|-0.82|0.2742
82464481|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.1|STANDARD_ERROR_OF_MEAN|0.26||0.6946|TWO_SIDED|95.0|-0.41|0.62||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.62|-0.41|0.6946
82464482|NCT03192176|164625600|SUPERIORITY||LSMean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9442|TWO_SIDED|95.0|-0.53|0.5||LSM, SE, CI, \& p-values come from an MMRM model with CFB as dependent variable \& TG, visit \& smoking status as factors \& baseline measurement as a covariate, as well as interaction of treatment by week \& interaction of baseline measurement by week.|MMRM|||Week 15: Overall Mean Score||0.50|-0.53|0.9442
82464483|NCT00072462|164625605|SUPERIORITY||Hazard Ratio (HR)|0.88|STANDARD_DEVIATION|0.12||0.33|TWO_SIDED|95.0|0.67|1.14|||Regression, Cox|Univariate||||1.14|0.67|0.33
82544776|NCT04714320|164789447|SUPERIORITY||||||=|0.95||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 64||||=0.950
82544777|NCT04714320|164789447|SUPERIORITY||||||=|0.656||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 71||||=0.656
82464484|NCT00072462|164625605|SUPERIORITY||Hazard Ratio (HR)|0.87|STANDARD_DEVIATION|0.12||0.33|TWO_SIDED|95.0|0.66|1.15|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.15|0.66|0.33
82464485|NCT00072462|164625606|SUPERIORITY||Hazard Ratio (HR)|0.72|STANDARD_DEVIATION|0.12||0.06|TWO_SIDED|95.0|0.52|1.01|||Regression, Cox|Univariate||||1.01|0.52|0.06
82464486|NCT00072462|164625606|SUPERIORITY||Hazard Ratio (HR)|0.74|STANDARD_DEVIATION|0.13||0.09|TWO_SIDED|95.0|0.52|1.05|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.05|0.52|0.09
82464487|NCT00072462|164625607|SUPERIORITY||Hazard Ratio (HR)|1.64|STANDARD_DEVIATION|0.54||0.13|TWO_SIDED|95.0|0.75|2.84|||Regression, Cox|Univariate||||2.84|0.75|0.13
82464488|NCT00072462|164625607|SUPERIORITY||Hazard Ratio (HR)|1.46|STANDARD_DEVIATION|0.5||0.26|TWO_SIDED|95.0|0.75|2.84|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||2.84|0.75|0.26
82464489|NCT00072462|164625608|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.97|TWO_SIDED|95.0|0.21|5.11|||Regression, Cox|Univariate||||5.11|0.21|0.97
82464490|NCT00072462|164625608|SUPERIORITY||Hazard Ratio (HR)|1.08|STANDARD_DEVIATION|0.88||0.93|TWO_SIDED|95.0|0.22|5.36|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||5.36|0.22|0.93
82464491|NCT00072462|164625609|SUPERIORITY||Hazard Ratio (HR)|0.93|STANDARD_DEVIATION|0.17||0.67|TWO_SIDED|95.0|0.65|1.32|||Regression, Cox|Univariate||||1.32|0.65|0.67
82464492|NCT00072462|164625609|SUPERIORITY||Hazard Ratio (HR)|0.85|STANDARD_DEVIATION|0.16||0.38|TWO_SIDED|95.0|0.59|1.22|||Regression, Cox|Covariates included in model: Hormone Replacement Therapy use, Age, BMI, Use of radiotherapy, Extent of margins, Grade(categorical: low, medium, high)||||1.22|0.59|0.38
82464493|NCT02927301|164625614|SUPERIORITY||Other/Percentage|20.3|||<|0.0001|ONE_SIDED|95.0|14.9||||binomial test||||||14.900|<.0001
82464494|NCT02927301|164625615|SUPERIORITY||Risk Difference (RD)|11.41||||0.0358|ONE_SIDED|80.0|5.279||||Fisher Exact||||||5.279|0.0358
82464495|NCT02927301|164625616|SUPERIORITY||Risk Difference (RD)|16.363||||0.0395|ONE_SIDED|80.0|6.509||||Chi-squared||||||6.509|0.0395
82464496|NCT01890343|164625664|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||The effect of diagnostic group on mean cortical florbetapir binding relative to cerebellar cortex was determined.||||0.002
82464497|NCT00772538|164625676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.034||0.011||95.0|0.02|0.152||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.152|0.020|0.0110
82464498|NCT00772538|164625677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.031||0.005||95.0|0.027|0.149||Step-wise testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful, significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.027|0.0050
82464499|NCT00772538|164625678|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0343||||||Confirmatory only if previous hypotheses for each of the 2 twin studies had been successful, significance level of alpha=0.05 (2-sided). A pre-specified interim analysis was performed. Cui et al (Biometrics,1999) was used to calculate the p-value.|Regression, Cox|Parameter estimates of Cox proportional hazard model regression regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||||0.0343
82464500|NCT00772538|164625679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.043||0.0362||95.0|0.006|0.173||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.173|0.006|0.0362
82544778|NCT04714320|164789447|SUPERIORITY||||||=|0.922||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 71||||=0.922
82544779|NCT04714320|164789447|SUPERIORITY||||||=|0.143||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 78||||=0.143
82578951|NCT00368927|164867171|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||A sample size of 60 participants per intervention arm would provide 90% power and 80% power to detect effect sizes of 60% and 52%, respectively, using a two-sample t-test(alpha=0.05).||||0.63
82464501|NCT00772538|164625680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.04||0.0007||95.0|0.058|0.214||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.214|0.058|0.0007
82544780|NCT04714320|164789447|SUPERIORITY||||||=|0.452||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 78||||=0.452
82578952|NCT04978493|164867185|OTHER||Difference of adjusted means|1.92|STANDARD_ERROR_OF_MEAN|1.45|||TWO_SIDED|95.0|-0.99|4.84|||||(Adjusted mean BI 706321 and ustekinumab) - (adjusted mean Placebo and ustekinumab)|The analysis was a restricted maximum likelihood (REML) based analysis of covariance (ANCOVA). For the ANCOVA model, absolute change in SES-CD score was the dependent variable, treatment group and baseline corticosteroid use (yes/no) were fixed effects and baseline SES-CD score was a continuous covariate.||4.84|-0.99|
82464502|NCT00772538|164625681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.032||0.0067||95.0|0.024|0.149||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.149|0.024|0.0067
82464503|NCT00772538|164625682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.04||0.0139||95.0|0.02|0.176||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.176|0.020|0.0139
82464504|NCT00772538|164625683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.034||0.0347||95.0|0.005|0.14||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.140|0.005|0.0347
82464505|NCT00772538|164625684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.032||0.1896||95.0|-0.021|0.104||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.104|-0.021|0.1896
82464506|NCT00772538|164625685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.032||0.0247||95.0|0.009|0.136||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.136|0.009|0.0247
82464507|NCT00772538|164625686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.043||0.0039||95.0|0.04|0.21||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.210|0.040|0.0039
82464508|NCT00772538|164625687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.04||0.0063||95.0|0.031|0.19||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.190|0.031|0.0063
82464509|NCT00772538|164625688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.041||0.0027||95.0|0.042|0.201||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.201|0.042|0.0027
82464510|NCT00772538|164625689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.293|STANDARD_ERROR_OF_MEAN|4.584|<|0.0001||95.0|13.279|31.308||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||31.308|13.279|<0.0001
82464511|NCT00772538|164625690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.267|STANDARD_ERROR_OF_MEAN|4.699|<|0.0001||95.0|14.027|32.507||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||32.507|14.027|<0.0001
82464512|NCT00772538|164625691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001||95.0|0.061|0.173||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.173|0.061|<0.0001
82464513|NCT00772538|164625692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.068|0.181||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.181|0.068|<0.0001
82464514|NCT00772538|164625693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.283|STANDARD_ERROR_OF_MEAN|0.736||0.7012||95.0|-1.165|1.731||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||1.731|-1.165|0.7012
82464515|NCT00772538|164625694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.0499||95.0|0.49|1.0||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium.|||1.00|0.49|0.0499
82464516|NCT00772538|164625695|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71|STANDARD_ERROR_OF_MEAN|0.09||0.0102||95.0|0.55|0.92||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||0.92|0.55|0.0102
82464517|NCT00772538|164625696|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.64|STANDARD_ERROR_OF_MEAN|0.1||0.0062||95.0|0.46|0.88||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||0.88|0.46|0.0062
82544781|NCT04714320|164789447|SUPERIORITY||||||=|0.231||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 85||||=0.231
82464518|NCT00772538|164625697|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0065||95.0|0.4|0.88||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||0.88|0.40|0.0065
82464519|NCT00772538|164625698|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.0561||95.0|0.42|1.01||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||1.01|0.42|0.0561
82464520|NCT00772538|164625699|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.5604||95.0|0.3|1.92||Significance level of alpha=0.05 (two-sided).|Regression, Cox|Parameter estimates of Cox proportional hazard model regarding. Only treatment was fitted as an effect in the model.|If HR is below 1 then favours tiotropium|||1.92|0.30|0.5604
82464521|NCT00772538|164625700|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87|STANDARD_ERROR_OF_MEAN|0.21||0.5538||95.0|0.54|1.39||Significance level of alpha=0.05 (two-sided).|Poisson Regression|Parameter estimates of Poisson regression model. Log exposure was used as offset and adjusted for overdispersion.|Tio R5 - Placebo|||1.39|0.54|0.5538
82464522|NCT00772538|164625701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.633||95.0|0.25|2.13||Significance level of alpha=0.05 (two-sided).|Fisher Exact|Exact 95percent confidence interval by Clopper and Pearson.|Tio R5 vs Placebo|||2.13|0.25|0.6330
82464523|NCT00772538|164625702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.074||0.5714||95.0|-0.103|0.186||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.186|-0.103|0.5714
82464524|NCT00772538|164625703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.075||0.6099||95.0|-0.109|0.185||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.185|-0.109|0.6099
82464525|NCT00772538|164625704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.126|STANDARD_ERROR_OF_MEAN|0.066||0.0586||95.0|-0.256|0.005||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.005|-0.256|0.0586
82464526|NCT00772538|164625705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.121|STANDARD_ERROR_OF_MEAN|0.067||0.0727||95.0|-0.253|0.011||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.011|-0.253|0.0727
82578953|NCT04978493|164867186|OTHER||Difference of adjusted means|13.34|STANDARD_ERROR_OF_MEAN|11.32|||TWO_SIDED|95.0|-9.46|36.14|||||(Adjusted mean BI 706321 and ustekinumab) - (adjusted mean Placebo and ustekinumab)|The analysis was a restricted maximum likelihood (REML) based analysis of covariance (ANCOVA). For the ANCOVA model, absolute change in SES-CD score was the dependent variable, treatment group and baseline corticosteroid use (yes/no) were fixed effects and baseline SES-CD score was a continuous covariate.||36.14|-9.46|
82544782|NCT04714320|164789447|SUPERIORITY||||||=|0.405||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 85||||=0.405
82544783|NCT04714320|164789447|SUPERIORITY||||||=|0.718||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 92||||=0.718
82544784|NCT04714320|164789447|SUPERIORITY||||||=|0.053||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 92||||=0.053
82544785|NCT04714320|164789447|SUPERIORITY||||||=|0.893||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 106||||=0.893
82544786|NCT04714320|164789447|SUPERIORITY||||||=|0.662||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 106||||=0.662
82544787|NCT04714320|164789447|SUPERIORITY||||||=|0.688||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 120||||=0.688
82544788|NCT04714320|164789447|SUPERIORITY||||||=|0.611||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 120||||=0.611
82578954|NCT04978493|164867187|OTHER||Unadjusted risk difference|-27.5|||||TWO_SIDED|95.0|-48.42|-2.64|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||-2.64|-48.42|
82544789|NCT04714320|164789447|SUPERIORITY||||||=|0.907||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 148||||=0.907
82544790|NCT04714320|164789447|SUPERIORITY||||||=|0.699||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 148||||=0.699
82544791|NCT04714320|164789447|SUPERIORITY||||||=|0.802||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 169||||=0.802
82544792|NCT04714320|164789447|SUPERIORITY||||||=|0.206||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 140 mmHg and DBP ≤ 90 mmHg at Day 169||||=0.206
82544793|NCT04714320|164789448|SUPERIORITY||||||=|0.28||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 8||||=0.280
82650197|NCT04549259|165015456|OTHER|Single group change over time.|B|-1.6|STANDARD_ERROR_OF_MEAN|0.75||0.045|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.045
82544794|NCT04714320|164789448|SUPERIORITY||||||=|0.648||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 8||||=0.648
82544795|NCT04714320|164789448|SUPERIORITY||||||=|0.416||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 15||||=0.416
82544796|NCT04714320|164789448|SUPERIORITY||||||=|0.9||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 15||||=0.900
82544797|NCT04714320|164789448|SUPERIORITY||||||=|0.627||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 22||||=0.627
82544798|NCT04714320|164789448|SUPERIORITY||||||=|0.921||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 22||||=0.921
82544799|NCT04714320|164789448|SUPERIORITY||||||=|0.464||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 29||||=0.464
82544800|NCT04714320|164789448|SUPERIORITY||||||=|0.458||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 29||||=0.458
82544801|NCT04714320|164789448|SUPERIORITY||||||=|0.779||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 36||||=0.779
82544802|NCT04714320|164789448|SUPERIORITY||||||=|0.629||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 36||||=0.629
82544803|NCT04714320|164789448|SUPERIORITY||||||=|0.242||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 43||||=0.242
82544804|NCT04714320|164789448|SUPERIORITY||||||=|0.29||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 43||||=0.290
82544805|NCT04714320|164789448|SUPERIORITY||||||=|0.349||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 50||||=0.349
82544806|NCT04714320|164789448|SUPERIORITY||||||=|0.532||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 50||||=0.532
82544807|NCT04714320|164789448|SUPERIORITY||||||=|0.205||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 57||||=0.205
82544808|NCT04714320|164789448|SUPERIORITY||||||=|0.368||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 57||||=0.368
82544809|NCT04714320|164789448|SUPERIORITY||||||=|0.084||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 64||||=0.084
82544810|NCT04714320|164789448|SUPERIORITY||||||=|0.179||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 64||||=0.179
82544811|NCT04714320|164789448|SUPERIORITY||||||=|0.584||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 71||||=0.584
82544812|NCT04714320|164789448|SUPERIORITY||||||=|0.762||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 71||||=0.762
82544813|NCT04714320|164789448|SUPERIORITY||||||=|0.675||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 78||||=0.675
82464527|NCT00772538|164625706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.024||0.9807||95.0|-0.048|0.047||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.047|-0.048|0.9807
82464528|NCT00772538|164625707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.092|STANDARD_ERROR_OF_MEAN|0.172||0.5927||95.0|-0.43|0.246||Significance level of alpha=0.05 (two-sided).|Mixed Models Analysis|REML-based repeated measures approach (MMRM).|Tio R5 - Placebo. Means are adjusted for treatment, centre, visit, baseline, treatment\*visit and baseline\*visit.|||0.246|-0.430|0.5927
82464529|NCT00772538|164625708|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.0427|TWO_SIDED|95.0|1.01|1.73||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 24 weeks||1.73|1.01|0.0427
82464530|NCT00772538|164625708|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0001|TWO_SIDED|95.0|1.28|2.21||Calculated as 2\*one-sided-p-value in the direction corresponding to testing the null hypothesis|Fisher Exact||Tio R5 / Placebo|Comparison at 48 weeks||2.21|1.28|0.0001
82464531|NCT00189540|164625709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||95.0|||||ANCOVA|||Comparison made is the difference from baseline at Month 3.||||0.35
82464532|NCT00189540|164625709|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||ANCOVA|||Comparison made is the difference from baseline at Month 6.||||0.17
82464533|NCT00189540|164625710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||Fisher Exact|||The comparison of groups at Month 3||||0.55
82464534|NCT00189540|164625710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28||95.0|||||Fisher Exact|||The comparison of groups at Month 6.||||0.28
82464535|NCT00189540|164625711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||ANCOVA|||Comparison between groups at Month 3||||0.2
82464536|NCT00189540|164625711|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||95.0|||||ANCOVA|||Comparison between groups at Month 6||||0.04
82578955|NCT04978493|164867188|OTHER||Unadjusted risk difference|0.67|||||TWO_SIDED|95.0|-20.49|22.12|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||22.12|-20.49|
82464537|NCT00189540|164625712|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Fisher Exact|||||||1.00
82464538|NCT00189540|164625713|SUPERIORITY_OR_OTHER_LEGACY|||||||0.77||95.0|||||ANCOVA|||Comparison at Month 3||||0.77
82464539|NCT00189540|164625713|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45||95.0|||||ANCOVA|||Comparison at Month 6||||0.45
82464540|NCT00189540|164625714|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||ANCOVA|||Comparison between groups for mean TBI at Month 3 versus baseline.||||0.06
82464541|NCT00189540|164625714|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0|||||ANCOVA|||Comparison between groups for mean TBI at Month 6 versus baseline.||||0.05
82464542|NCT01903356|164625717|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis.||Comparison of % of HbA1c before and 24 weeks after administration of TrajentaDuo® Tablet treatment.|The difference considered in the analysis is HbA1c values after drug administration minus HbA1c values before drug administration|||<0.0001
82464543|NCT01903356|164625720|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis.||Comparison of FPG before and 24 weeks after administration of TrajentaDuo® Tablet treatment|The difference considered in the analysis is FPG values after drug administration minus FPG values before drug administration|||<0.0001
82464544|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.692||||||For ILC|ANCOVA|||||||0.692
82464545|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.467||||||For ILC|ANCOVA|||||||0.467
82464546|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.281||||||For ILC|ANCOVA|||||||0.281
82464547|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.075||||||For ILC|ANCOVA|||||||0.075
82464548|NCT00713609|164625722|SUPERIORITY_OR_OTHER||||||<|0.001||||||For ILC|ANCOVA|||||||<0.001
82464549|NCT00713609|164625722|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
82464550|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.803||||||For NILC|ANCOVA|||||||0.803
82464551|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.175||||||For NILC|ANCOVA|||||||0.175
82464552|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.552||||||For NILC|ANCOVA|||||||0.552
82464553|NCT00713609|164625722|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
82464554|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.006||||||For TC|ANCOVA|||||||0.006
82464555|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.618||||||For TC|ANCOVA|||||||0.618
82464556|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.149||||||For TC|ANCOVA|||||||0.149
82464557|NCT00713609|164625722|SUPERIORITY_OR_OTHER|||||||0.255||||||For TC|ANCOVA|||||||0.255
82464558|NCT00713609|164625722|SUPERIORITY_OR_OTHER||||||<|0.001||||||For TC|ANCOVA|||||||<0.001
82464559|NCT00713609|164625723|SUPERIORITY_OR_OTHER|||||||0.922|||||||Cochran-Mantel-Haenszel|||||||0.922
82464560|NCT00713609|164625723|SUPERIORITY_OR_OTHER|||||||0.132|||||||Cochran-Mantel-Haenszel|||||||0.132
82464561|NCT00713609|164625723|SUPERIORITY_OR_OTHER|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.020
82464562|NCT00713609|164625723|SUPERIORITY_OR_OTHER|||||||0.706|||||||Cochran-Mantel-Haenszel|||||||0.706
82464563|NCT00713609|164625723|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|||||||0.009
82464564|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.504||||||For ILC|ANCOVA|||||||0.504
82464565|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.504||||||For ILC|ANCOVA|||||||0.504
82464566|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.177||||||For ILC|ANCOVA|||||||0.177
82464567|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.084||||||For ILC|ANCOVA|||||||0.084
82464568|NCT00713609|164625724|SUPERIORITY_OR_OTHER||||||<|0.001||||||For ILC|ANCOVA|||||||<0.001
82464569|NCT00713609|164625724|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
82464570|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.776||||||For NILC|ANCOVA|||||||0.776
82464571|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.465||||||For NILC|ANCOVA|||||||0.465
82464572|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.288||||||For NILC|ANCOVA|||||||0.288
82464573|NCT00713609|164625724|SUPERIORITY_OR_OTHER||||||<|0.001||||||For NILC|ANCOVA|||||||<0.001
82544814|NCT04714320|164789448|SUPERIORITY||||||=|0.166||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 78||||=0.166
82544815|NCT04714320|164789448|SUPERIORITY||||||=|0.09||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 85||||=0.090
82544816|NCT04714320|164789448|SUPERIORITY||||||=|0.488||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 85||||=0.488
82544817|NCT04714320|164789448|SUPERIORITY||||||=|0.218||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 92||||=0.218
82544818|NCT04714320|164789448|SUPERIORITY||||||=|0.232||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 92||||=0.232
82544819|NCT04714320|164789448|SUPERIORITY||||||=|0.421||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 106||||=0.421
82544820|NCT04714320|164789448|SUPERIORITY||||||=|0.815||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 106||||=0.815
82544821|NCT04714320|164789448|SUPERIORITY||||||=|0.711||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 120||||=0.711
82578956|NCT04978493|164867189|OTHER||Unadjusted risk difference|-3.83|||||TWO_SIDED|95.0|-21.14|13.25|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||13.25|-21.14|
82578957|NCT04978493|164867190|OTHER||Unadjusted risk difference|0.33|||||TWO_SIDED|95.0|-17.67|18.78|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||18.78|-17.67|
82578958|NCT04978493|164867191|OTHER||Unadjusted risk difference|-3.33|||||TWO_SIDED|95.0|-24.91|18.85|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||18.85|-24.91|
82464574|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.006||||||For TC|ANCOVA|||||||0.006
82578959|NCT04978493|164867192|OTHER||Unadjusted risk difference|-3.5|||||TWO_SIDED|95.0|-23.86|17.34|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||17.34|-23.86|
82544822|NCT04714320|164789448|SUPERIORITY||||||=|0.514||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 120||||=0.514
82544823|NCT04714320|164789448|SUPERIORITY||||||=|0.479||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 148||||=0.479
82544824|NCT04714320|164789448|SUPERIORITY||||||=|0.292||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 148||||=0.292
82578960|NCT04978493|164867193|OTHER||Unadjusted risk difference|-18.5|||||TWO_SIDED|95.0|-42.32|8.89|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||8.89|-42.32|
82578961|NCT04978493|164867194|OTHER||Unadjusted risk difference|0.83|||||TWO_SIDED|95.0|-21.53|23.41|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||23.41|-21.53|
82464575|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.62||||||For TC|ANCOVA|||||||0.620
82464576|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.291||||||For TC|ANCOVA|||||||0.291
82464577|NCT00713609|164625724|SUPERIORITY_OR_OTHER|||||||0.085||||||For TC|ANCOVA|||||||0.085
82464578|NCT00713609|164625724|SUPERIORITY_OR_OTHER||||||<|0.001||||||For TC|ANCOVA|||||||<0.001
82464579|NCT00713609|164625725|SUPERIORITY_OR_OTHER|||||||0.652|||||||Cochran-Mantel-Haenszel|||||||0.652
82464580|NCT00713609|164625725|SUPERIORITY_OR_OTHER|||||||0.279|||||||Cochran-Mantel-Haenszel|||||||0.279
82464581|NCT00713609|164625725|SUPERIORITY_OR_OTHER|||||||0.312|||||||Cochran-Mantel-Haenszel|||||||0.312
82464582|NCT00713609|164625725|SUPERIORITY_OR_OTHER|||||||0.063|||||||Cochran-Mantel-Haenszel|||||||0.063
82464583|NCT00713609|164625725|SUPERIORITY_OR_OTHER|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
82464584|NCT04369404|164625726|SUPERIORITY|We hypothesize that participants who received the decision aid will have higher knowledge. This is pilot study, thus we did not have a power calculation.|Mean Difference (Final Values)|12.0||||0.06|TWO_SIDED|95.0|0.7|24.6|||t-test, 2 sided|||||24.6|0.7|0.06
82464585|NCT04369404|164625727|OTHER||Pearson Chi-Square|2.97||||0.085|TWO_SIDED||||||Chi-squared|||"a chisquare test was conducted to determine if the proportion of treatment unsure responses were different between the usual care and intervention arms."||||0.085
82464586|NCT04369404|164625728|OTHER||Pearson Chi-Square|1.524||||0.47|TWO_SIDED||||||Chi-squared|||||||0.47
82578962|NCT04978493|164867195|OTHER||Unadjusted risk difference|-22.17|||||TWO_SIDED|95.0|-45.42|5.19|||||BI 706321 and ustekinumab - Placebo and ustekinumab|Unadjusted risk difference between treatment groups were calculated simply as the difference in the observed percentage of patients. The method to provide confidence intervals for the unadjusted risk differences was derived from the Newcombe method.||5.19|-45.42|
82578963|NCT02206061|164867201|OTHER|Repeated measure analyses testing the overall treatment effect were performed by fitting the Generalized Estimating Equation (GEE) with SFD at the three follow-up time points (3, 5, 7 months) as the dependent variable and treatment as independent variable. Normal error and identity link was specified and standard error was calculated using Sandwich estimator. Baseline SFDs, poverty level, and the presence of smokers in the home were controlled in the regression model.|Mean Difference (Net)|0.9|STANDARD_DEVIATION|2.6|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<.05
82464587|NCT03988400|164625735|SUPERIORITY|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1
82464588|NCT03988400|164625736|SUPERIORITY|||||||0.017||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||0.017
82464589|NCT03988400|164625737|SUPERIORITY|||||||1||||||The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1
82464590|NCT03988400|164625738|SUPERIORITY|||||||0.72||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.72
82464591|NCT03988400|164625739|SUPERIORITY|||||||0.001||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.001
82464592|NCT03988400|164625740|SUPERIORITY|||||||0.68||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||||0.68
82464593|NCT03988400|164625741|SUPERIORITY|||||||0.25||||||The a priori threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.25
82464594|NCT03988400|164625742|SUPERIORITY|||||||0.69||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.69
82464595|NCT03988400|164625743|SUPERIORITY|||||||0.2||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.20
82464596|NCT03988400|164625744|SUPERIORITY|||||||0.62||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.62
82464597|NCT02542865|164625749|SUPERIORITY||Mean Difference (Net)|-6.0|STANDARD_ERROR_OF_MEAN|1.56||0.0628|TWO_SIDED|95.0|-12.7|0.8|||ANCOVA|Analysis of variance(ANCOVA):cluster/school=random effect,product group and gender=fixed effects,baseline Individual Dietary Diversity Score=covariate|Difference is difference in back-transformed adjusted means for Test Group (fortified malt based food plus dietary counselling) minus Control Group (dietary counselling only).|||0.8|-12.7|0.0628
82464598|NCT02542865|164625749|SUPERIORITY||Mean Difference (Net)|-4.9||||0.039|||||||ANCOVA|ANCOVA:cluster/school=random effect,product group and gender=fixed effects,baseline Individual Dietary Diversity Score=covariate|Difference is difference in back-transformed adjusted means for Test Group minus Control Group. The corresponding CI is not presented as there is no direct back-transformation.|Since the distribution of the data was found to be more skewed with more zero counts than was anticipated at the time the trial was designed, an additional analysis of log (+1)-transformed data was performed.||||0.0390
82464599|NCT04913610|164625777|OTHER||||||=|0.036|||||||Mann-Whitney U test|The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the percentage per participant.||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.036
82464600|NCT04913610|164625777|OTHER||||||=|0.53||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.530
82464601|NCT04913610|164625777|OTHER||||||=|0.852||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.852
82464602|NCT04913610|164625777|OTHER||||||=|0.366||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.366
82464603|NCT04913610|164625778|OTHER||||||=|0.869||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.869
82464604|NCT04913610|164625778|OTHER||||||=|0.973||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.973
82464605|NCT04913610|164625778|OTHER||||||=|0.744||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.744
82464606|NCT04913610|164625778|OTHER||||||=|0.794||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the percentage per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.794
82464607|NCT04913610|164625779|OTHER||||||=|0.559||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.559
82464608|NCT04913610|164625779|OTHER||||||=|0.786||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.786
82464609|NCT04913610|164625779|OTHER||||||=|0.423||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.423
82464610|NCT04913610|164625779|OTHER||||||=|0.92||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.920
82464611|NCT04913610|164625780|OTHER||||||=|0.981||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.981
82464612|NCT04913610|164625780|OTHER||||||=|0.981||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.981
82464613|NCT04913610|164625780|OTHER||||||=|0.96||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.960
82464614|NCT04913610|164625780|OTHER||||||=|0.96||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.960
82578964|NCT04157400|164867218|OTHER||||||<|0.01|||||||Kruskal-Wallis|||||||<0.01
82464615|NCT04913610|164625781|OTHER||||||=|0.157||||||The p-value is for the pairwise comparison of Arm A to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.157
82464616|NCT04913610|164625781|OTHER||||||=|0.15||||||The p-value is for the pairwise comparison of Arm B to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.150
82464617|NCT04913610|164625781|OTHER||||||=|0.15||||||The p-value is for the pairwise comparison of Arm C to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.150
82464618|NCT04913610|164625781|OTHER||||||=|0.173||||||The p-value is for the pairwise comparison of Arm D to Arm E using the using the Chi-square test for the binary response per participant.|Chi-square test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.173
82464619|NCT04913610|164625782|OTHER||||||=|0.619||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.619
82464620|NCT04913610|164625782|OTHER||||||=|0.194||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.194
82578965|NCT04157400|164867219|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82585974|NCT02640157|164883881|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm A was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm A was below 92%.|Difference in percentage of participants|-1.2|||||TWO_SIDED|97.5|-6.2|3.7||||||Difference in SVR12 rates (Arm A - Arm B).||3.7|-6.2|
82544825|NCT04714320|164789448|SUPERIORITY||||||=|0.528||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 169||||=0.528
82544826|NCT04714320|164789448|SUPERIORITY||||||=|0.946||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg at Day 169||||=0.946
82544827|NCT04714320|164789448|SUPERIORITY||||||=|0.552||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 8||||=0.552
82544828|NCT04714320|164789448|SUPERIORITY||||||=|0.598||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 8||||=0.598
82544829|NCT04714320|164789448|SUPERIORITY||||||=|0.184||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 15||||=0.184
82544830|NCT04714320|164789448|SUPERIORITY||||||=|0.614||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 15||||=0.614
82464621|NCT04913610|164625782|OTHER||||||=|0.518||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.518
82544831|NCT04714320|164789448|SUPERIORITY||||||=|0.933||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 22||||=0.933
82544832|NCT04714320|164789448|SUPERIORITY||||||=|0.803||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 22||||=0.803
82544833|NCT04714320|164789448|SUPERIORITY||||||=|0.686||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 29||||=0.686
82544834|NCT04714320|164789448|SUPERIORITY||||||=|0.752||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 29||||=0.752
82544835|NCT04714320|164789448|SUPERIORITY||||||=|0.106||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 36||||=0.106
82544836|NCT04714320|164789448|SUPERIORITY||||||=|0.779||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 36||||=0.779
82544837|NCT04714320|164789448|SUPERIORITY||||||=|0.323||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 43||||=0.323
82544838|NCT04714320|164789448|SUPERIORITY||||||=|0.991||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 43||||=0.991
82544839|NCT04714320|164789448|SUPERIORITY||||||=|0.973||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 50||||=0.973
82544840|NCT04714320|164789448|SUPERIORITY||||||=|0.23||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 50||||=0.230
82544841|NCT04714320|164789448|SUPERIORITY||||||=|0.792||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 57||||=0.792
82464622|NCT04913610|164625782|OTHER||||||=|0.652||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.652
82464623|NCT04913610|164625783|OTHER||||||=|0.386||||||The p-value is for the pairwise comparison of Arm A to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 pbo for 7 days (Arm A) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.386
82464624|NCT04913610|164625783|OTHER||||||=|0.279||||||The p-value is for the pairwise comparison of Arm B to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole pbo for 7 days, then ABBV-4083 400 mg for 7 days (Arm B) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.279
82464625|NCT04913610|164625783|OTHER||||||=|0.385||||||The p-value is for the pairwise comparison of Arm C to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083 400 mg + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm C) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.385
82464626|NCT04913610|164625783|OTHER||||||=|0.755||||||The p-value is for the pairwise comparison of Arm D to Arm E using the Mann-Whitney U test for the change from baseline in skin microfilarial density per participant.|Mann-Whitney U test|||Part 1: ABBV-4083/albendazole 400 mg 3 d; ABBV-4083 400 mg/albendazole pbo 4 d; ABBV-4083 pbo 7 d (Arm D) versus Part 1: ABBV-4083 pbo + albendazole 400 mg for 7 days, then ABBV-4083 pbo for 7 days (Arm E)||||=0.755
82464627|NCT01210716|164625785|NON_INFERIORITY_OR_EQUIVALENCE|If the lower 97.5% confidence limit on the mean of the paired differences is greater than -15% of the Control group mean (i.e., p-value \<=0.05), then the Test group will be considered non-inferior in the primary efficacy parameter to Control at the margin of 15%.|Mean Difference (Final Values)|6.69|STANDARD_DEVIATION|6.97|<|0.001|ONE_SIDED|95.0|4.0||||paired t-test|||A one-sample t-test on the mean of paired differences was used to evaluate the primary objective. Sample size was determined using historical data and the 95% chi-square upper confidence limit on the observed standard deviation of the paired differences. A minimum sample of 27 pairs was required to demonstrate the AMICUS procedure to be non-inferior to Spectra with a mean efficiency of plasma removal with a non-inferiority margin of 15% with at least 97.5% (one-sided) confidence and 90% power.|||4.0|<0.001
82544842|NCT04714320|164789448|SUPERIORITY||||||=|0.744||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 57||||=0.744
82544843|NCT04714320|164789448|SUPERIORITY|Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|||||=|0.925|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 64||||=0.925
82544844|NCT04714320|164789448|SUPERIORITY||||||=|0.991||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 64||||=0.991
82544845|NCT04714320|164789448|SUPERIORITY|Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|||||=|0.53|||||||Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 71||||=0.530
82544846|NCT04714320|164789448|SUPERIORITY||||||=|0.849||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 71||||=0.849
82544847|NCT04714320|164789448|SUPERIORITY||||||=|0.953||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 78||||=0.953
82544848|NCT04714320|164789448|SUPERIORITY||||||=|0.884||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 78||||=0.884
82544849|NCT04714320|164789448|SUPERIORITY||||||=|0.23||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 85||||=0.230
82544850|NCT04714320|164789448|SUPERIORITY||||||=|0.589||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 85||||=0.589
82544851|NCT04714320|164789448|SUPERIORITY||||||=|0.919||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 92||||=0.919
82544852|NCT04714320|164789448|SUPERIORITY||||||=|0.753||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 92||||=0.753
82464628|NCT03186209|164625787|SUPERIORITY||Rate Ratio|0.26|||<|0.0001|TWO_SIDED|95.0|0.19|0.36||Multiplicity protected by hierarchy testing procedure. First in line hypothesis testing, requiring p-value \<0.05.|Negative binomial|Model with covariates: treatment group, region (China/Non-China), number of exacerbations in previous year, use of maintenance oral corticosteroids||||0.36|0.19|<0.0001
82464629|NCT03186209|164625788|SUPERIORITY||Mean Difference (Final Values)|0.25|||<|0.0001|TWO_SIDED|95.0|0.17|0.34||Test after significant primary endpoint. Two secondary endpoints (change in FEV1 and total asthma symptom score) using Holm's procedure; smaller p-value to be \<0.025, and larger p-value to be \<0.05.|Mixed Models Analysis|Model includes Treatment, baseline pre-bronchodilator FEV1, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.34|0.17|<0.0001
82464630|NCT03186209|164625789|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.0126|TWO_SIDED|95.0|-0.45|-0.05||Test after significant primary endpoint. Two secondary endpoints (change in FEV1 and total asthma symptom score) using Holm's procedure; smaller p-value to be \<0.025, and larger p-value to be \<0.05.|Mixed Models Analysis|Model includes Treatment, baseline total asthma symptom score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-0.05|-0.45|0.0126
82464631|NCT03186209|164625790|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.1835|TWO_SIDED|95.0|-0.42|0.08||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline total asthma rescue medication use, region, use of maintenance oral corticosteroids, visit, treatment\*visit||||0.08|-0.42|0.1835
82464632|NCT03186209|164625791|SUPERIORITY||Mean Difference (Final Values)|38.66|||<|0.0001|TWO_SIDED|95.0|24.24|53.07||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline morning PEF, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||53.07|24.24|<0.0001
82464633|NCT03186209|164625792|SUPERIORITY||Mean Difference (Final Values)|35.85|||<|0.0001|TWO_SIDED|95.0|21.52|50.18||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline evening PEF, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||50.18|21.52|<0.0001
82464634|NCT03186209|164625793|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.3385|TWO_SIDED|95.0|-0.03|0.01||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline proportion of nights awakening, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.01|-0.03|0.3385
82464635|NCT03186209|164625794|SUPERIORITY||Mean Difference (Final Values)|-0.43|||<|0.0001|TWO_SIDED|95.0|-0.58|-0.28||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline ACQ-6 score, use of maintenance oral corticosteroids, visit, and treatment by visit||||-0.28|-0.58|<0.0001
82464636|NCT03186209|164625795|SUPERIORITY||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.23|0.43||Nominal p-value. Not multiplicity protected by testing procedure.|Regression, Cox|model including covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.43|0.23|<0.0001
82464637|NCT03186209|164625796|SUPERIORITY||Odds Ratio (OR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.19|0.42||Nominal p-value. Not multiplicity protected by testing procedure.|Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year (2, \>=3), use of OCS||||0.42|0.19|<0.0001
82464638|NCT03186209|164625797|SUPERIORITY||Mean Difference (Final Values)|-9.19|||<|0.0001|TWO_SIDED|95.0|-12.79|-5.6||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model with covariates: treatment group, baseline SGRQ total score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-5.60|-12.79|<0.0001
82464639|NCT03186209|164625798|SUPERIORITY||Rate ratio|0.46||||0.0222|TWO_SIDED|95.0|0.24|0.9||Nominal p-value. Not multiplicity protected by testing procedure.|Negative binomial|Model includes Treatment, use of maintenance oral corticosteroids, categorical variable of ER/UC or hospitalization exacerbations during previous year||||0.90|0.24|0.0222
82464640|NCT03186209|164625802|SUPERIORITY||Mean Difference (Final Values)|-119.31|||<|0.0001|TWO_SIDED|95.0|-169.78|-68.84||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|model includes treatment , baseline eosinophil count, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||-68.84|-169.78|<0.0001
82464641|NCT03186209|164625803|SUPERIORITY||Rate Ratio|0.83||||0.4519|TWO_SIDED|95.0|0.51|1.35||Nominal p-value. Not multiplicity protected by testing procedure.|Negative binomial|Model with covariates: treatment group, region (China/Non-China), number of exacerbations in previous year, use of maintenance oral corticosteroids||||1.35|0.51|0.4519
82464642|NCT03186209|164625804|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.0214|TWO_SIDED|95.0|0.02|0.22||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline pre-bronchodilator FEV1, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.22|0.02|0.0214
82544853|NCT04714320|164789448|SUPERIORITY||||||=|0.747||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 106||||=0.747
82544854|NCT04714320|164789448|SUPERIORITY||||||=|0.764||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 106||||=0.764
82544855|NCT04714320|164789448|SUPERIORITY||||||=|0.527||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 120||||=0.527
82544856|NCT04714320|164789448|SUPERIORITY||||||=|0.639||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 120||||=0.639
82464643|NCT03186209|164625805|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.1589|TWO_SIDED|95.0|-0.51|0.08||Nominal p-value. Not multiplicity protected by testing procedure.|Mixed Models Analysis|Model includes Treatment, baseline total asthma symptom score, region, use of maintenance oral corticosteroids, visit, and treatment by visit||||0.08|-0.51|0.1589
82464644|NCT01791244|164625806|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.48||||0.9148|TWO_SIDED|95.0|-8.3|9.25|||linear mixed model|||Linear mixed model, with baseline value, time, Expanded Disability Status Score (EDSS) at baseline and sex as fixed factors was used for the analysis.||9.25|-8.30|0.9148
82464645|NCT01983228|164625903|SUPERIORITY||Odds Ratio (OR)|1.61||||0.09|TWO_SIDED|95.0|0.94|2.77||Multiple logistic regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||measured change as a responder yes/no (30% or greater improvement from baseline).||2.77|0.94|0.09
82464646|NCT01983228|164625904|SUPERIORITY||Median Difference (Final Values)|-0.2||||0.34|TWO_SIDED|95.0|-0.62|0.21||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.21|-0.62|0.34
82464647|NCT01983228|164625905|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.38|TWO_SIDED|95.0|-1.69|0.65||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.65|-1.69|0.38
82464648|NCT01983228|164625906|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.28|TWO_SIDED|95.0|-1.68|0.49||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.49|-1.68|0.28
82464649|NCT01983228|164625907|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.05|TWO_SIDED|95.0|0.0|0.77||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.77|-0.00|0.05
82464650|NCT01983228|164625908|SUPERIORITY|Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Mean Difference (Final Values)|193.9||||0.56|TWO_SIDED|95.0|-454.93|842.73||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||842.73|-454.93|0.56
82464651|NCT01983228|164625909|SUPERIORITY||Odds Ratio (OR)|1.49||||0.16|TWO_SIDED|95.0|0.85|2.62||Multiple logistic regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||measured change as a responder yes/no (30% or greater improvement from baseline).||2.62|0.85|0.16
82464652|NCT01983228|164625910|SUPERIORITY||Mean Difference (Final Values)|-0.61||||0.002|TWO_SIDED|95.0|-0.99|-0.23||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||-0.23|-0.99|0.002
82544857|NCT04714320|164789448|SUPERIORITY||||||=|0.744||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 148||||=0.744
82544858|NCT04714320|164789448|SUPERIORITY||||||=|0.539||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 148||||=0.539
82464653|NCT01983228|164625911|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.54|TWO_SIDED|95.0|-0.79|1.51||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.51|-0.79|0.54
82464654|NCT01983228|164625912|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.41|TWO_SIDED|95.0|-0.66|1.62||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.62|-0.66|0.41
82464655|NCT01983228|164625913|SUPERIORITY||Mean Difference (Final Values)|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.38||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||-0.38|-1.07|<0.0001
82464656|NCT01983228|164625914|SUPERIORITY||Mean Difference (Final Values)|540.78||||0.06|TWO_SIDED|95.0|-28.77|1110.33||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1110.33|-28.77|0.06
82464657|NCT01983228|164625915|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.05|TWO_SIDED|95.0|-0.01|5.86||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||5.86|-0.01|0.05
82464658|NCT01983228|164625916|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.01|TWO_SIDED|95.0|0.15|1.36||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.36|0.15|0.01
82464659|NCT01983228|164625917|SUPERIORITY||Mean Difference (Final Values)|-1.07||||0.15|TWO_SIDED|95.0|-2.53|0.39||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.39|-2.53|0.15
82464660|NCT01983228|164625918|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.56|TWO_SIDED|95.0|-0.8|1.47||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||1.47|-0.80|0.56
82464661|NCT01983228|164625919|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.38|TWO_SIDED|95.0|-0.17|0.46||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.46|-0.17|0.38
82464662|NCT01983228|164625920|SUPERIORITY||Odds Ratio (OR)|1.2||||0.56|TWO_SIDED|95.0|0.66|2.19||Logistic regression modeling the odds of yes to using opioids for pain treatment adjusting for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Logistic|||||2.19|0.66|0.56
82464663|NCT01983228|164625921|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.21|TWO_SIDED|95.0|-0.18|0.84||Multiple linear regression adjusted for use of walking aids and opioids (both significantly difference between arms at baseline).|Regression, Linear|||||0.84|-0.18|0.21
82464664|NCT01650558|164625935|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.27|||<=|0.05|TWO_SIDED|95.0|0.89|1.82||P-Value is not adjusted for multiple comparisons.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.82|0.89|<=0.05
82464665|NCT01650558|164625935|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.28|||<=|0.05|TWO_SIDED|95.0|0.89|1.83||P-Value is not adjusted for multiple comparisons.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.83|0.89|<=0.05
82464666|NCT01650558|164625936|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.38|||<=|0.05|TWO_SIDED|95.0|0.83|2.3||No adjustment for multiple comparisons was made.|Fisher Exact|||||2.30|0.83|<=0.05
82464667|NCT01650558|164625936|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.51|||<=|0.05|TWO_SIDED|95.0|0.91|2.49||No adjustment for multiple comparisons was made.|Fisher Exact|||||2.49|0.91|<=0.05
82464668|NCT01650558|164625937|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.13|||<=|0.05|TWO_SIDED|95.0|0.66|1.93||No adjustments for multiple comparisons were made.|Fisher Exact|||||1.93|0.66|<=0.05
82464669|NCT01650558|164625937|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|0.96|||<=|0.05|TWO_SIDED|95.0|0.55|1.68||No adjustments for multiple comparisons were made.|Fisher Exact|||||1.68|0.55|<=0.05
82464670|NCT01650558|164625938|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.47|||<=|0.05|TWO_SIDED|95.0|1.07|2.0||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||2.00|1.07|<=0.05
82464671|NCT01650558|164625938|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.43|||<=|0.05|TWO_SIDED|95.0|1.04|1.96||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.96|1.04|<=0.05
82464672|NCT01650558|164625939|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.31|||<=|0.05|TWO_SIDED|95.0|1.11|1.55||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.55|1.11|<=0.05
82499624|NCT01571427|164689939|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.43||0.92|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.92
82464673|NCT01650558|164625939|NON_INFERIORITY|Will assess performance of each experimental group relative to TS with a noninferiority margin for 1-HR of 0.35 to test the null (1-HR ≥ 0.35) and alternative (1-HR \< 0.35) hypotheses. Each experimental group will be declared noninferior to TS if the upper bound of the 95% confidence interval of 1-HR is below 0.35. For ease of interpretation, the HRs have been recast with TS as the reference group, such that HRs greater than 1 indicate an increase in the experimental hazard rate relative to TS.|Hazard Ratio (HR)|1.34|||<=|0.05|TWO_SIDED|95.0|1.14|1.58||No adjustments for multiple comparisons were made.|Poisson|Rate ratio confidence intervals and p-values were adjusted for overdispersion using the Pearson's chi-square scale.||||1.58|1.14|<=0.05
82464674|NCT02960217|164625943|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|1.46||||0.2684|TWO_SIDED|95.0|-1.12|4.36||Hodges-Lehmann estimate of the location shift with 95% confidence interval (CI) and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Participants completing both UX007 treatment period and placebo period (n=42). Per protocol, when the normality assumption is not met (p value for Wilk-Shapiro test \< 0.05), Wilcoxon rank-sum test will be considered as the primary analysis to assess treatment difference in movement disorder event frequency.||4.36|-1.12|0.2684
82464675|NCT02960217|164625943|SUPERIORITY||||||<|0.0001|||||||Wilk-Shapiro test for normality|||||||< 0.0001
82464676|NCT02960217|164625946|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|25.0||||0.6419|TWO_SIDED|95.0|-62.5|91.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=34).||91.5|-62.5|0.6419
82464677|NCT02960217|164625946|SUPERIORITY|||||||0.0005|||||||Wilk-Shapiro Test for Normality|||||||0.0005
82464678|NCT02960217|164625947|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.91||0.9513|TWO_SIDED|95.0|-2.0|1.9||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||1.9|-2.0|0.9513
82464679|NCT02960217|164625947|SUPERIORITY|||||||0.8214|||||||Wilk-Shapiro Test for Normality|||||||0.8214
82464680|NCT02960217|164625948|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.32||0.1572|TWO_SIDED|95.0|-0.8|4.7||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.7|-0.8|0.1572
82464681|NCT02960217|164625948|SUPERIORITY|||||||0.8451|||||||Wilk-Shapiro Test for Normality|||||||0.8451
82464682|NCT02960217|164625949|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.66||0.8345|TWO_SIDED|95.0|-3.8|3.1||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||3.1|-3.8|0.8345
82464683|NCT02960217|164625949|SUPERIORITY|||||||0.2894|||||||Wilk-Shapiro Test for Normality|||||||0.2894
82464684|NCT02960217|164625950|SUPERIORITY|||||||0.0005|||||||Wilk-Shapiro Test for Normality|||||||0.0005
82464685|NCT02960217|164625950|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|0.2||||0.4898|TWO_SIDED|95.0|-5.4|5.8||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=21).||5.8|-5.4|0.4898
82464686|NCT02960217|164625951|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.42||0.5853|TWO_SIDED|95.0|-2.2|3.8||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||3.8|-2.2|0.5853
82464687|NCT02960217|164625951|SUPERIORITY|||||||0.1066|||||||Wilk-Shapiro Test for Normality|||||||0.1066
82464688|NCT02960217|164625952|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.33||0.1875|TWO_SIDED|95.0|-4.6|1.0||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||1.0|-4.6|0.1875
82464689|NCT02960217|164625952|SUPERIORITY|||||||0.2034|||||||Wilk-Shapiro Test for Normality|||||||0.2034
82464690|NCT02960217|164625953|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.56||0.1138|TWO_SIDED|95.0|-0.7|5.9||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||5.9|-0.7|0.1138
82464691|NCT02960217|164625953|SUPERIORITY|||||||0.1478|||||||Wilk-Shapiro Test for Normality|||||||0.1478
82464692|NCT02960217|164625954|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.62||0.5505|TWO_SIDED|95.0|-4.6|2.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||2.6|-4.6|0.5505
82464693|NCT02960217|164625954|SUPERIORITY|||||||0.4459|||||||Wilk-Shapiro Test for Normality|||||||0.4459
82464694|NCT02960217|164625955|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.84||0.5544|TWO_SIDED|95.0|-8.1|4.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.6|-8.1|0.5544
82464695|NCT02960217|164625955|SUPERIORITY|||||||0.1104|||||||Wilk-Shapiro Test for Normality|||||||0.1104
82464696|NCT02960217|164625956|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|3.27||0.7145|TWO_SIDED|95.0|-8.5|6.1|||ANCOVA|||||6.1|-8.5|0.7145
82464697|NCT02960217|164625956|SUPERIORITY|||||||0.8255|||||||Wilk-Shapiro Test for Normality|||||||0.8255
82464698|NCT02960217|164625957|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.82||0.4176|TWO_SIDED|95.0|-2.5|5.6||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||5.6|-2.5|0.4176
82464699|NCT02960217|164625957|SUPERIORITY|||||||0.6557|||||||Wilk-Shapiro Test for Normality|||||||0.6557
82464700|NCT02960217|164625958|SUPERIORITY||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.09||0.0935|TWO_SIDED|95.0|-0.4|4.5||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for participant within the sequence.|ANCOVA|||||4.5|-0.4|0.0935
82464701|NCT02960217|164625958|SUPERIORITY|||||||0.7267|||||||Wilk-Shapiro Test for Normality|||||||0.7267
82464702|NCT02960217|164625959|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.8329|TWO_SIDED|95.0|-0.6|0.5||Based on an ANCOVA model including covariate for study baseline CGI-S score, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||0.5|-0.6|0.8329
82464703|NCT02960217|164625959|SUPERIORITY|||||||0.2348|||||||Wilk-Shapiro Test for Normality|||||||0.2348
82464704|NCT02960217|164625961|SUPERIORITY|||||||0.0315|||||||Wilk-Shapiro Test for Normality|||||||0.0315
82464705|NCT02960217|164625961|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|-0.5||||0.2425|TWO_SIDED|95.0|-1.5|0.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=13).||0.5|-1.5|0.2425
82464706|NCT02960217|164625962|SUPERIORITY|||||||0.0072|||||||Wilk-Shapiro Test for Normality|||||||0.0072
82464707|NCT02960217|164625962|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|0.0||||1|TWO_SIDED|95.0|-14.5|13.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=12).||13.5|-14.5|1.0000
82464708|NCT02960217|164625963|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.54||0.1076|TWO_SIDED|95.0|-0.3|2.2||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||2.2|-0.3|0.1076
82544859|NCT04714320|164789448|SUPERIORITY||||||=|0.417||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 169||||=0.417
82578966|NCT04157400|164867220|OTHER||||||||||||||||||Segments of EMG recorded during walking at self-selected walking speed were used to investigate complexity of muscle synergies using a nonnegative matrix factorization (NNMF) algorithm (MATLAB®, Mathworks, Natick, MA). The approach involves calculation of an mxt matrix of the original EMG data (EMG0), where m represents the number of muscles being measured and t represents a time base normalized to percentage of gait cycle. The algorithm also calculates two surrogate matrices, mxn and nxt, where n is the amplitude of muscle activation. The product of the surrogate matrices are considered a reconstruction of EMG (EMGr). EMGr for each module is then compared to EMG0 by finding the variability accounted for (VAF). A threshold necessary for module classification was chosen to be 90% for all conditions (8 muscles + 6 phases of gait) based on similar studies in the literature. Classifications were not increased unless the higher module VAF was at least 5% higher than the preceding module.|||
82578967|NCT02671500|164867235|SUPERIORITY||||||<|0.001|||||||2-sided 1 sample exact binomial test|||A sample size of 260 participants in Region 1 would provide more than 80% power to detect an improvement of at least 6 percentage points in SVR12 rate from the performance goal of 85% by using a two-sided exact one-sample binomial test at the significance level of 0.05.||||<0.001
82578968|NCT03578887|164867262|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82464709|NCT02960217|164625963|SUPERIORITY|||||||0.7698|||||||Wilk-Shapiro Test for Normality|||||||0.7698
82464710|NCT02960217|164625964|SUPERIORITY|||||||0.0138|||||||Wilk-Shapiro Test for Normality|||||||0.0138
82464711|NCT02960217|164625964|SUPERIORITY||Hodges-Lehmann estimate (Median Diff.)|2.0||||0.3907|TWO_SIDED|95.0|-3.5|20.5||Hodges-Lehmann estimate of the location shift with 95% CI and Wilcoxon Rank Sum test p-value are based on Wilcoxon rank-sum test.|Wilcoxon Rank Sum test|||Number of participants in this analysis completed both UX007 treatment period and placebo treatment period (n=13).||20.5|-3.5|0.3907
82544860|NCT04714320|164789448|SUPERIORITY||||||=|0.466||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office DBP ≤ 80 mmHg at Day 169||||=0.466
82578969|NCT03578887|164867263|SUPERIORITY|||||||0.85|||||||ANOVA|||||||0.85
82578970|NCT00926497|164867293|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|||The trial was designed to obtain a power of 90% to detect a 30% difference between the two groups in the duration of antibiotic therapy with an estimated standard deviation of 50%.||||0.002
82578971|NCT00926497|164867294|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|||||||0.012
82578972|NCT00926497|164867294|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
82464712|NCT02960217|164625965|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.51||0.5233|TWO_SIDED|95.0|-4.4|2.4||Based on an ANCOVA model including covariate for period baseline value, fixed effects for treatment sequence, treatment group, period, and a random effect for subject within the sequence.|ANCOVA|||||2.4|-4.4|0.5233
82464713|NCT02960217|164625965|SUPERIORITY|||||||0.6918|||||||Wilk-Shapiro Test for Normality|||||||0.6918
82464714|NCT01069484|164625966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on the study by Mørkved and Bø (1997), showing 67% prevalence reduction of UI in the PFMT group and 34% reduction in the control group. Assuming a similar effect, two-sided significance of \<0.05, and a power of 0.90, required a total of 62 women. Stratified analysis on major levator ani (LA) muscle defects was planned, but the effect of PFMT in women with such defects was unknown. The statistical advice was to aim for 80 women with- and 80 women without such defects.|Risk Ratio (RR)|0.89||||0.57|TWO_SIDED|95.0|0.6|1.32||P-values \< 0.05 were considered significant.|Mantel Haenszel||"Pelvic floor muscle training arm represents the numerator for relative risk and usual care arm represents the denominator for relative risk"|"Intention to treat was the principal analysis. Missing values for categorical data (self-reported UI) the approach of last observation carried forward was used."||1.32|0.60|0.57
82464715|NCT01069484|164625967|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.51|TWO_SIDED|95.0|0.49|1.42||P-values \< 0.05 were considered significant.|Mantel Haenszel||"Pelvic floor muscle training arm represents the numerator for relative risk and usual care arm represents the denominator for relative risk"|"Intention to treat was the principal analysis. Missing values for categorical data (self-reported UI) the approach of last observation carried forward was used."||1.42|0.49|0.51
82464716|NCT00083889|164625986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5268|||<|0.0001|TWO_SIDED|95.0|0.4316|0.643||p-value from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio les than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α). Progression-free survival (PFS) was assessed in each treatment arm using the Kaplan-Meier method.||0.6430|0.4316|<0.0001
82464717|NCT00083889|164625986|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5136|||<|1e-05|TWO_SIDED|95.0|0.4196|0.6288||p-value is from 2-sided, stratified test. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-a).||0.6288|0.4196|<.00001
82464718|NCT00083889|164625987|SUPERIORITY_OR_OTHER||treatment difference|30.93|||<|0.001|TWO_SIDED|95.0|25.31|36.56|||Chi-squared||95% confidence interval was calculated based on a normal distribution.|||36.56|25.31|<0.001
82464719|NCT00083889|164625988|SUPERIORITY_OR_OTHER||treatment difference|33.66|||<|0.001|TWO_SIDED|95.0|27.62|39.69|||Chi-squared||95% confidence interval was calculated based on a normal distribution.|||39.69|27.62|<0.001
82464720|NCT00083889|164625989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8209||||0.051|TWO_SIDED|95.0|0.673|1.0013||p-value is from 2-sided, unstratified tests.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||1.0013|0.6730|0.0510
82464721|NCT00083889|164625989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8209||||0.0128|TWO_SIDED|95.0|0.673|1.0013||p-value is from 2-sided, unstratified tests.|Wilcoxon (Mann-Whitney)||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||1.0013|0.6730|0.0128
82464722|NCT00083889|164625989|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8179||||0.049|TWO_SIDED|95.0|0.6692|0.9995||p-value is from 2-sided, stratified tests. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.9995|0.6692|0.0490
82464723|NCT00083889|164625990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5332|||<|0.0001|TWO_SIDED|95.0|0.4345|0.6544||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a|Unstratified Analysis: Hazard Ratio (SU011248 vs IFN-a)||0.6544|0.4345|<0.0001
82464724|NCT00083889|164625990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.516|||<|1e-05|TWO_SIDED|95.0|0.4191|0.6352||p-value is from 2-sided, stratified test. Stratification factors are: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified Analysis: Hazard Ratio (SU011248 vs IFN-a)||0.6352|0.4191|<.00001
82464725|NCT00083889|164625991|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5454|||<|0.0001|TWO_SIDED|95.0|0.4558|0.6526||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio \< 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio \> 1 indicates a reduction in hazard rate in favor of IFN-a.|Unstratified Analysis: Hazard Ratio (SU011248 vs IFN-α)||0.6526|0.4558|<0.0001
82464726|NCT00083889|164625991|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5417|||<|1e-05|TWO_SIDED|95.0|0.4519|0.6492||p-value is from 2-sided, stratified test. Stratification factors were: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248; a hazard ratio greater than 1 indicates a reduction in hazard rate in favor of IFN-a.|Stratified Analysis: Hazard Ratio (SU011248 vs IFN-α)||0.6492|0.4519|<.00001
82464727|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.913|||<|0.0001|TWO_SIDED|95.0|1.376|2.45|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index-Disease Related Symptoms (FKSI-DRS) baseline score (intercept and time since randomization are included as random effects).||2.450|1.376|<.0001
82464728|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.935|||<|0.0001|TWO_SIDED|95.0|1.421|2.449|||Mixed Models Analysis|||Cycle 1 Day 28: Difference in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.449|1.421|<.0001
82464729|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.948|||<|0.0001|TWO_SIDED|95.0|1.443|2.452|||Mixed Models Analysis|||Cycle 2 Day 1: Difference in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.452|1.443|<.0001
82578973|NCT03439254|164867297|OTHER||Response ratio(Mantel-Haenszel estimate)|1.13||||0.6172|TWO_SIDED|95.0|0.71|1.79|||Cochran-Mantel-Haenszel||Treatment / Placebo Response Ratio = Percentage of Responders in Active Treatment Arm / Percentage of Responders in Placebo, stratified by Baseline diabetes status (yes/no).|||1.79|0.71|0.6172
82578974|NCT03439254|164867297|OTHER||Response ratio(Mantel-Haenszel estimate)|1.2||||0.4184|TWO_SIDED|95.0|0.77|1.89|||Cochran-Mantel-Haenszel||Treatment / Placebo Response Ratio = Percentage of Responders in Active Treatment Arm / Percentage of Responders in Placebo, stratified by Baseline diabetes status (yes/no).|||1.89|0.77|0.4184
82544861|NCT04714320|164789448|SUPERIORITY||||||=|0.38||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 8||||=0.380
82544862|NCT04714320|164789448|SUPERIORITY||||||=|0.73||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 8||||=0.730
82544863|NCT04714320|164789448|SUPERIORITY||||||=|0.595||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 15||||=0.595
82544864|NCT04714320|164789448|SUPERIORITY||||||=|0.279||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 15||||=0.279
82544865|NCT04714320|164789448|SUPERIORITY||||||=|0.196||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 22||||=0.196
82544866|NCT04714320|164789448|SUPERIORITY||||||=|0.728||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 22||||=0.728
82544867|NCT04714320|164789448|SUPERIORITY||||||=|0.453||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 29||||=0.453
82544868|NCT04714320|164789448|SUPERIORITY||||||=|0.681||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 29||||=0.681
82544869|NCT04714320|164789448|SUPERIORITY||||||=|0.863||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 36||||=0.863
82544870|NCT04714320|164789448|SUPERIORITY||||||=|0.837||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 36||||=0.837
82544871|NCT04714320|164789448|SUPERIORITY||||||=|0.504||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 43||||=0.504
82544872|NCT04714320|164789448|SUPERIORITY||||||=|0.531||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 43||||=0.531
82544873|NCT04714320|164789448|SUPERIORITY||||||=|0.6||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 50||||=0.600
82544874|NCT04714320|164789448|SUPERIORITY||||||=|0.83||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 50||||=0.830
82544875|NCT04714320|164789448|SUPERIORITY||||||=|0.209||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 57||||=0.209
82544876|NCT04714320|164789448|SUPERIORITY||||||=|0.809||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 57||||=0.809
82544877|NCT04714320|164789448|SUPERIORITY||||||=|0.045||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 64||||=0.045
82544878|NCT04714320|164789448|SUPERIORITY||||||=|0.104||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 64||||=0.104
82578975|NCT01531673|164867310|SUPERIORITY||Least Squares (LS) Mean Difference|4.77||||0.0647|TWO_SIDED|95.0|-0.3|9.84|||Mixed-effect repeated measure (MMRM)|||||9.84|-0.3|0.0647
82544879|NCT04714320|164789448|SUPERIORITY||||||=|0.69||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 71||||=0.690
82544880|NCT04714320|164789448|SUPERIORITY||||||=|0.59||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 71||||=0.590
82544881|NCT04714320|164789448|SUPERIORITY||||||=|0.538||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 78||||=0.538
82544882|NCT04714320|164789448|SUPERIORITY||||||=|0.407||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 78||||=0.407
82544883|NCT04714320|164789448|SUPERIORITY||||||=|0.398||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 85||||=0.398
82544884|NCT04714320|164789448|SUPERIORITY||||||=|0.93||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 85||||=0.930
82544885|NCT04714320|164789448|SUPERIORITY||||||=|0.111||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 92||||=0.111
82544886|NCT04714320|164789448|SUPERIORITY||||||=|0.196||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 92||||=0.196
82544887|NCT04714320|164789448|SUPERIORITY||||||=|0.816||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 106||||=0.816
82544888|NCT04714320|164789448|SUPERIORITY||||||=|0.473||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 106||||=0.473
82544889|NCT04714320|164789448|SUPERIORITY||||||=|0.615||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 120||||=0.615
82578976|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-3.91||||0.1686|TWO_SIDED|95.0|-9.5|1.68|||MMRM|||||1.68|-9.5|0.1686
82578977|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-4.2||||0.0348|TWO_SIDED|95.0|-8.1|-0.31|||MMRM|||||-0.31|-8.1|0.0348
82544890|NCT04714320|164789448|SUPERIORITY||||||=|0.214||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 120||||=0.214
82544891|NCT04714320|164789448|SUPERIORITY||||||=|0.575||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 148||||=0.575
82544892|NCT04714320|164789448|SUPERIORITY||||||=|0.276||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 148||||=0.276
82544893|NCT04714320|164789448|SUPERIORITY||||||=|0.573||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 169||||=0.573
82578978|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-19.58|||<|0.0001|TWO_SIDED|95.0|-24.57|-14.59|||MMRM|||||-14.59|-24.57|<0.0001
82578979|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-5.14||||0.0101|TWO_SIDED|95.0|-9.03|-1.25|||MMRM|||||-1.25|-9.03|0.0101
82578980|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-5.19||||0.011|TWO_SIDED|95.0|-9.16|-1.21|||MMRM|||||-1.21|-9.16|0.011
82578981|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-9.6||||0.0001|TWO_SIDED|95.0|-14.38|-4.82|||MMRM|||||-4.82|-14.38|0.0001
82578982|NCT01531673|164867310|SUPERIORITY||LS Mean Difference|-1.77||||0.3745|TWO_SIDED|95.0|-5.71|2.17|||MMRM|||||2.17|-5.71|0.3745
82578983|NCT01531673|164867311|SUPERIORITY||LS Mean Difference|-6.7||||0.0357|TWO_SIDED|95.0|-12.94|-0.46|||MMRM|||||-0.46|-12.94|0.0357
82578984|NCT01531673|164867312|SUPERIORITY||LS Mean Difference|-17.2||||0.0238|TWO_SIDED|95.0|-31.75|-2.65|||MMRM|||||-2.65|-31.75|0.0238
82464730|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.97|||<|0.0001|TWO_SIDED|95.0|1.476|2.464|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.464|1.476|<.0001
82464731|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.983|||<|0.0001|TWO_SIDED|95.0|1.491|2.475|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.475|1.491|<.0001
82464732|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.005|||<|0.0001|TWO_SIDED|95.0|1.51|2.501|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.501|1.510|<.0001
82464733|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.018|||<|0.0001|TWO_SIDED|95.0|1.517|2.519|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.519|1.517|<.0001
82464734|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|||<|0.0001|TWO_SIDED|95.0|1.522|2.559|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.559|1.522|<.0001
82464735|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.053|||<|0.0001|TWO_SIDED|95.0|1.522|2.584|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.584|1.522|<.0001
82464736|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.075|||<|0.0001|TWO_SIDED|95.0|1.515|2.635|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.635|1.515|<.0001
82464737|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.088|||<|0.0001|TWO_SIDED|95.0|1.509|2.667|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.667|1.509|<.0001
82464738|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.11|||<|0.0001|TWO_SIDED|95.0|1.494|2.727|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.727|1.494|<.0001
82464739|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.123|||<|0.0001|TWO_SIDED|95.0|1.483|2.763|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.763|1.483|<.0001
82464740|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.146|||<|0.0001|TWO_SIDED|95.0|1.461|2.83|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.830|1.461|<.0001
82464741|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.158|||<|0.0001|TWO_SIDED|95.0|1.447|2.869|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.869|1.447|<.0001
82464742|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.181|||<|0.0001|TWO_SIDED|95.0|1.42|2.941|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.941|1.420|<.0001
82464743|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.193|||<|0.0001|TWO_SIDED|95.0|1.404|2.983|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||2.983|1.404|<.0001
82544894|NCT04714320|164789448|SUPERIORITY||||||=|0.706||||||Stratification factor (screening eGFR status (\<60 vs ≤ 60 mL/min/1.73 m2)), treatment received and baseline measure were included in Logistic Regression model, firth correction was applied if quasi-complete separation of data points was detected.|Regression, Logistic|||Seated Automated Office SBP ≤ 130 mmHg and DBP ≤ 80 mmHg at Day 169||||=0.706
82544895|NCT04714320|164789449|SUPERIORITY||||||=|0.853||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables|ANCOVA|||Change from Baseline at Day 8||||=0.853
82464744|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.216|||<|0.0001|TWO_SIDED|95.0|1.373|3.059|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.059|1.373|<.0001
82464745|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.228|||<|0.0001|TWO_SIDED|95.0|1.355|3.102|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.102|1.355|<.0001
82464746|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.251|||<|0.0001|TWO_SIDED|95.0|1.321|3.18|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.180|1.321|<.0001
82464747|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.263|||<|0.0001|TWO_SIDED|95.0|1.302|3.225|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.225|1.302|<.0001
82464748|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.286|||<|0.0001|TWO_SIDED|95.0|1.266|3.305|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.305|1.266|<.0001
82464749|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.298|||<|0.0001|TWO_SIDED|95.0|1.246|3.351|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.351|1.246|<.0001
82464750|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.321|||<|0.0001|TWO_SIDED|95.0|1.209|3.433|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.433|1.209|<.0001
82464751|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.333|||<|0.0001|TWO_SIDED|95.0|1.188|3.479|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.479|1.188|<.0001
82464752|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.356||||0.0001|TWO_SIDED|95.0|1.15|3.562|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.562|1.150|0.0001
82464753|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.369||||0.0002|TWO_SIDED|95.0|1.128|3.609|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.609|1.128|0.0002
82464754|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.391||||0.0003|TWO_SIDED|95.0|1.089|3.693|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.693|1.089|0.0003
82464755|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.404||||0.0004|TWO_SIDED|95.0|1.067|3.74|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.740|1.067|0.0004
82464756|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.426||||0.0007|TWO_SIDED|95.0|1.027|3.825|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.825|1.027|0.0007
82544896|NCT04714320|164789449|SUPERIORITY||||||=|0.542||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.542
82544897|NCT04714320|164789449|SUPERIORITY||||||=|0.43||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.430
82464757|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.439||||0.0009||95.0|1.005|3.872|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.872|1.005|0.0009
82464758|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.461||||0.0013|TWO_SIDED|95.0|0.964|3.958|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||3.958|0.964|0.0013
82464759|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.474||||0.0016|TWO_SIDED|95.0|0.942|4.006|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.006|0.942|0.0016
82464760|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.496||||0.0022|TWO_SIDED|95.0|0.901|4.092|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.092|0.901|0.0022
82464761|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.509||||0.0026|TWO_SIDED|95.0|0.878|4.14|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.140|0.878|0.0026
82464762|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.531||||0.0034|TWO_SIDED|95.0|0.836|4.226|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.226|0.836|0.0034
82464763|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.544||||0.004|TWO_SIDED|95.0|0.813|4.274|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.274|0.813|0.0040
82464764|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.566||||0.0051|TWO_SIDED|95.0|0.772|4.361|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.361|0.772|0.0051
82464765|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.579||||0.0058|TWO_SIDED|95.0|0.748|4.41|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.410|0.748|0.0058
82464766|NCT00083889|164625994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.602||||0.0071|TWO_SIDED|95.0|0.706|4.497|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FKSI-DRS baseline score (intercept and time since randomization are included as random effects).||4.497|0.706|0.0071
82464767|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.165|||<|0.0001|TWO_SIDED|95.0|2.234|4.095|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.095|2.234|<.0001
82464768|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.205|||<|0.0001|TWO_SIDED|95.0|2.318|4.092|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.092|2.318|<.0001
82464769|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.228|||<|0.0001|TWO_SIDED|95.0|2.358|4.097|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects)||4.097|2.358|<.0001
82464770|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.268|||<|0.0001|TWO_SIDED|95.0|2.418|4.119|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.119|2.418|<.0001
82578985|NCT00568178|164867327|SUPERIORITY_OR_OTHER_LEGACY||Ratio in Geometric Mean|0.63||||0.001|TWO_SIDED|95.0|0.54|0.74|||Mixed Models Analysis|||||0.74|0.54|0.001
82464771|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.291|||<|0.0001|TWO_SIDED|95.0|2.443|4.139|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.139|2.443|<.0001
82464772|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.331|||<|0.0001|TWO_SIDED|95.0|2.474|4.189|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.189|2.474|<.0001
82464773|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.354|||<|0.0001||95.0|2.484|4.224|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.224|2.484|<.0001
82464774|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.395|||<|0.0001|TWO_SIDED|95.0|2.489|4.3|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.300|2.489|<.0001
82464775|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.417|||<|0.0001|TWO_SIDED|95.0|2.486|4.348|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.348|2.486|<.0001
82464776|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.458|||<|0.0001|TWO_SIDED|95.0|2.469|4.446|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.446|2.469|<.0001
82464777|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.48|||<|0.0001|TWO_SIDED|95.0|2.455|4.505|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.505|2.455|<.0001
82464778|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.521|||<|0.0001|TWO_SIDED|95.0|2.422|4.62|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.620|2.422|<.0001
82464779|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.543|||<|0.0001|TWO_SIDED|95.0|2.399|4.687|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.687|2.399|<.0001
82464780|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.584|||<|0.0001||95.0|2.354|4.814|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects)||4.814|2.354|<.0001
82464781|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.606|||<|0.0001|TWO_SIDED|95.0|2.326|4.887|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||4.887|2.326|<.0001
82464782|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.647|||<|0.0001|TWO_SIDED|95.0|2.272|5.022|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.022|2.272|<.0001
82464783|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.669|||<|0.0001|TWO_SIDED|95.0|2.24|5.099|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.099|2.240|<.0001
82544898|NCT04714320|164789449|SUPERIORITY||||||=|0.587||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.587
82544899|NCT04714320|164789449|SUPERIORITY||||||=|0.91||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.910
82544900|NCT04714320|164789449|SUPERIORITY||||||=|0.846||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.846
82544901|NCT04714320|164789449|SUPERIORITY|||||||0.634||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||0.634
82544902|NCT04714320|164789449|SUPERIORITY||||||=|0.767||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.767
82544903|NCT04714320|164789449|SUPERIORITY||||||=|0.399||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.399
82544904|NCT04714320|164789449|SUPERIORITY||||||=|0.323||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.323
82544905|NCT04714320|164789449|SUPERIORITY||||||=|0.115||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.115
82544906|NCT04714320|164789449|SUPERIORITY||||||=|0.982||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.982
82544907|NCT04714320|164789449|SUPERIORITY||||||=|0.859||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.859
82544908|NCT04714320|164789449|SUPERIORITY||||||=|0.344||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.344
82544909|NCT04714320|164789449|SUPERIORITY||||||=|0.633||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.633
82544910|NCT04714320|164789449|SUPERIORITY||||||=|0.889||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.889
82544911|NCT04714320|164789449|SUPERIORITY||||||=|0.241||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.241
82544912|NCT04714320|164789449|SUPERIORITY||||||=|0.367||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.367
82544913|NCT04714320|164789449|SUPERIORITY||||||=|0.716||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.716
82544914|NCT04714320|164789449|SUPERIORITY||||||=|0.21||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.210
82544915|NCT04714320|164789449|SUPERIORITY||||||=|0.363||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.363
82544916|NCT04714320|164789449|SUPERIORITY||||||=|0.193||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.193
82544917|NCT04714320|164789449|SUPERIORITY||||||=|0.135||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.135
82544918|NCT04714320|164789449|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.867
82544919|NCT04714320|164789449|SUPERIORITY||||||=|0.761||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.761
82544920|NCT04714320|164789449|SUPERIORITY||||||=|0.618||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.618
82544921|NCT04714320|164789449|SUPERIORITY||||||=|0.363||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received are included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||=0.363
82544922|NCT04714320|164789449|SUPERIORITY||||||=|0.125||||||The stratification factor (screening eGFR status (\<60 vs ≥60 mL/min/1.73 m2)) and treatment received are included in the Van Elteren model as independent variables.|Van Elteren|||Change from Baseline at Day 106||||=0.125
82544923|NCT04714320|164789449|SUPERIORITY||||||=|0.435||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.435
82464784|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.71|||<|0.0001|TWO_SIDED|95.0|2.18|5.24|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.240|2.180|<.0001
82464785|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.733|||<|0.0001|TWO_SIDED|95.0|2.145|5.32|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.320|2.145|<.0001
82464786|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.773|||<|0.0001|TWO_SIDED|95.0|2.08|5.466|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.466|2.080|<.0001
82464787|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.796|||<|0.0001|TWO_SIDED|95.0|2.043|5.548|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.548|2.043|<.0001
82464788|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.836|||<|0.0001|TWO_SIDED|95.0|1.975|5.698|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.698|1.975|<.0001
82464789|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.859|||<|0.0001|TWO_SIDED|95.0|1.936|5.781|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.781|1.936|<.0001
82464790|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.899||||0.0002|TWO_SIDED|95.0|1.866|5.933|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||5.933|1.866|0.0002
82464791|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.922||||0.0002|TWO_SIDED|95.0|1.826|6.018|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.018|1.826|0.0002
82464792|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.962||||0.0004|TWO_SIDED|95.0|1.753|6.172|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.172|1.753|0.0004
82464793|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.985||||0.0006||95.0|1.712|6.258|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.258|1.712|0.0006
82464794|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.026||||0.001|TWO_SIDED|95.0|1.638|6.413|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.413|1.638|0.0010
82464795|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.048||||0.0012|TWO_SIDED|95.0|1.597|6.5|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.500|1.597|0.0012
82464796|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.089||||0.0018|TWO_SIDED|95.0|1.521|6.656|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.656|1.521|0.0018
82578986|NCT00568178|164867328|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4||||||95.0|-9.9|-1.0|||Mixed Models Analysis|||||-1.0|-9.9|
82578987|NCT00568178|164867329|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6||||||95.0|-9.2|-0.1|||Mixed Models Analysis|||||-0.1|-9.2|
82578988|NCT00568178|164867330|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio|1.18|||||TWO_SIDED|95.0|0.86|1.6||No P Value was calculated for this outcome.|Mixed Models Analysis|An unstructured variance-covariance was used.||||1.60|0.86|
82464797|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.111||||0.0022|TWO_SIDED|95.0|1.479|6.743|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.743|1.479|0.0022
82464798|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.152||||0.0031|TWO_SIDED|95.0|1.403|6.901|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.901|1.403|0.0031
82464799|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.174||||0.0037||95.0|1.36|6.988|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||6.988|1.360|0.0037
82464800|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.215||||0.0048|TWO_SIDED|95.0|1.283|7.147|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.147|1.283|0.0048
82464801|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.237||||0.0056|TWO_SIDED|95.0|1.24|7.235|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.235|1.240|0.0056
82464802|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.278||||0.0071|TWO_SIDED|95.0|1.162|7.394|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.394|1.162|0.0071
82464803|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.3||||0.0081|TWO_SIDED|95.0|1.119|7.482|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.482|1.119|0.0081
82464804|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.341||||0.0099|TWO_SIDED|95.0|1.041|7.642|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.642|1.041|0.0099
82464805|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.364||||0.0111|TWO_SIDED|95.0|0.997|7.73|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.730|0.997|0.0111
82464806|NCT00083889|164625995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.404||||0.0133|TWO_SIDED|95.0|0.918|7.89|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-Kidney Symptom Index (FKSI) baseline score (intercept and time since randomization are included as random effects).||7.890|0.918|0.0133
82464807|NCT00083889|164625996|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5404|||<|0.0001|TWO_SIDED|95.0|0.4532|0.6444||p-value is from 2-sided, unstratified test.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Unstratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.6444|0.4532|<0.0001
82499625|NCT01571427|164689939|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.61||0.92|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.92
82650198|NCT04549259|165015456|OTHER|Single group change over time.|B|-1.81|STANDARD_ERROR_OF_MEAN|0.95||0.07|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.07
82578989|NCT00568178|164867331|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-3.8||||||95.0|-15.2|7.6||A P-Value was not calculated for this outcome.|Mixed Models Analysis|||||7.6|-15.2|
82578990|NCT00264303|164867332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25||||0.005||95.0|0.08|0.43|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline CIU composite score as covariate.||||0.43|0.08|0.005
82578991|NCT00264303|164867333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.041||95.0|0.01|0.34|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline CIU composite score as covariate||||0.34|0.01|0.041
82578992|NCT00264303|164867334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.004||95.0|0.04|0.22|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline pruritus severity score as covariate.||||0.22|0.04|0.004
82464808|NCT00083889|164625996|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5418|||<|1e-05|TWO_SIDED|95.0|0.4536|0.6473||p-value is from 2-sided, stratified test. Stratification factors are: Lactic Dehydrogenase (LDH) \> or \<= 1.5 x upper limit of normal, Eastern Cooperative Oncology Group (ECOG) performance status 0 or 1, and absence or presence of prior nephrectomy.|Log Rank||Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of SU011248: a hazard ratio greater than 1 indicates a reduction in favor of IFN-a.|Stratified analysis: Hazard Ratio (SU011248 vs IFN-α).||0.6473|0.4536|<.00001
82464809|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.486|||<|0.0001|TWO_SIDED|95.0|3.852|7.119|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) baseline score (intercept and time since randomization are included as random effects).||7.119|3.852|<.0001
82464810|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.535|||<|0.0001|TWO_SIDED|95.0|3.955|7.115|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.115|3.955|<.0001
82464811|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.562|||<|0.0001|TWO_SIDED|95.0|4.0|7.124|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.124|4.000|<.0001
82464812|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.611|||<|0.0001|TWO_SIDED|95.0|4.061|7.162|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.162|4.061|<.0001
82464813|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.639|||<|0.0001|TWO_SIDED|95.0|4.083|7.195|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.195|4.083|<.0001
82464814|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.688|||<|0.0001|TWO_SIDED|95.0|4.1|7.276|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.276|4.100|<.0001
82464815|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.715|||<|0.0001|TWO_SIDED|95.0|4.098|7.333|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.333|4.098|<.0001
82464816|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.764|||<|0.0001|TWO_SIDED|95.0|4.075|7.454|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.454|4.075|<.0001
82464817|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.792|||<|0.0001|TWO_SIDED|95.0|4.053|7.531|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.531|4.053|<.0001
82578993|NCT00264303|164867335|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.002||95.0|0.06|0.26|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline pruritus duration as covariate.||||0.26|0.06|0.002
82578994|NCT00264303|164867336|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.009||95.0|0.03|0.22|||ANCOVA|ANCOVA with treatment and pooled centers as factors and baseline pruritus duration score as covariate.||||0.22|0.03|0.009
82578995|NCT00264303|164867337|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|||<|0.001||95.0|0.07|0.26|||ANCOVA|ANCOVA with treatment and pooled center as factors and baseline severity as covariate.||The primary hypothesis to be tested in this study was that the clinical efficacy of Levocetirizine 5 mg is superior to that of Desloratidine 5 mg||0.26|0.07|<0.001
82578996|NCT02389452|164867338|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||||||<0.0001
82578997|NCT01006252|164867352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.121||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|||||||0.121
82578998|NCT01006252|164867353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.048||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|Analysis adjusted for Baseline Lactate Dehydrogenase (LDH); Disease Stage; Sex; Previous Single Agent Immunotherapy Treatment; Age Group||||||0.048
82544924|NCT04714320|164789449|SUPERIORITY||||||=|0.413||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.413
82544925|NCT04714320|164789449|SUPERIORITY||||||=|0.658||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.658
82544926|NCT04714320|164789449|SUPERIORITY||||||=|0.275||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.275
82544927|NCT04714320|164789449|SUPERIORITY||||||=|0.578||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.578
82544928|NCT04714320|164789449|SUPERIORITY||||||=|0.114||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.114
82544929|NCT04714320|164789450|SUPERIORITY||||||=|0.378||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.378
82544930|NCT04714320|164789450|SUPERIORITY||||||=|0.648||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 8||||=0.648
82544931|NCT04714320|164789450|SUPERIORITY||||||=|0.961||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.961
82544932|NCT04714320|164789450|SUPERIORITY||||||=|0.817||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 15||||=0.817
82544933|NCT04714320|164789450|SUPERIORITY||||||=|0.823||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.823
82544934|NCT04714320|164789450|SUPERIORITY||||||=|0.362||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 22||||=0.362
82544935|NCT04714320|164789450|SUPERIORITY||||||=|0.66||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.660
82544936|NCT04714320|164789450|SUPERIORITY||||||=|0.539||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 29||||=0.539
82464818|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.841|||<|0.0001|TWO_SIDED|95.0|3.998|7.684|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.684|3.998|<.0001
82544937|NCT04714320|164789450|SUPERIORITY||||||=|0.43||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.430
82544938|NCT04714320|164789450|SUPERIORITY||||||=|0.594||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 36||||=0.594
82544939|NCT04714320|164789450|SUPERIORITY||||||=|0.783||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.783
82544940|NCT04714320|164789450|SUPERIORITY||||||=|0.599||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 43||||=0.599
82544941|NCT04714320|164789450|SUPERIORITY||||||=|0.454||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.454
82544942|NCT04714320|164789450|SUPERIORITY||||||=|0.394||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 50||||=0.394
82544943|NCT04714320|164789450|SUPERIORITY||||||=|0.93||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.930
82544944|NCT04714320|164789450|SUPERIORITY||||||=|0.313||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 57||||=0.313
82544945|NCT04714320|164789450|SUPERIORITY||||||=|0.276||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.276
82544946|NCT04714320|164789450|SUPERIORITY||||||=|0.168||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 64||||=0.168
82544947|NCT04714320|164789450|SUPERIORITY||||||=|0.199||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.199
82544948|NCT04714320|164789450|SUPERIORITY||||||=|0.506||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 71||||=0.506
82544949|NCT04714320|164789450|SUPERIORITY||||||=|0.32||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.320
82544950|NCT04714320|164789450|SUPERIORITY||||||=|0.25||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 78||||=0.250
82544951|NCT04714320|164789450|SUPERIORITY||||||=|0.373||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.373
82544952|NCT04714320|164789450|SUPERIORITY||||||=|0.597||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 85||||=0.597
82544953|NCT04714320|164789450|SUPERIORITY||||||=|0.867||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.867
82544954|NCT04714320|164789450|SUPERIORITY||||||=|0.5||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 92||||=0.500
82544955|NCT04714320|164789450|SUPERIORITY||||||=|0.863||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 106||||=0.863
82544956|NCT04714320|164789450|SUPERIORITY||||||=|0.681||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 106||||=0.681
82544957|NCT04714320|164789450|SUPERIORITY||||||=|0.262||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.262
82544958|NCT04714320|164789450|SUPERIORITY||||||=|0.645||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 120||||=0.645
82544959|NCT04714320|164789450|SUPERIORITY||||||=|0.947||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.947
82544960|NCT04714320|164789450|SUPERIORITY||||||=|0.665||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 148||||=0.665
82464819|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.868|||<|0.0001|TWO_SIDED|95.0|3.96|7.777|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.777|3.960|<.0001
82544961|NCT04714320|164789450|SUPERIORITY||||||=|0.498||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.498
82578999|NCT01006252|164867354|SUPERIORITY_OR_OTHER|||||||0.396||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Unadjusted normal distribution|Unadjusted normal-distribution approximation for the difference in rates||||||0.396
82579000|NCT01006252|164867356|SUPERIORITY_OR_OTHER|||||||0.483||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Unadjusted normal distribution|Unadjusted normal-distribution approximation for the difference in rates.||||||0.483
82579001|NCT01006252|164867357|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.505||95.0||||Statistical significance was assessed at an alpha level of 0.05.|Stratified log rank|||||||0.505
82544962|NCT04714320|164789450|SUPERIORITY||||||=|0.173||||||The stratification factor (screening eGFR status \[\<60 vs. ≥60 mL/min/1.73 m2\]), treatment received, and baseline measure were included in the ANCOVA model as independent variables.|ANCOVA|||Change from Baseline at Day 169||||=0.173
82544963|NCT05057897|164789455|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.18|3.01|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 57 (28 days post Dose 2)||3.01|0.18|
82579002|NCT01006252|164867358|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value given for Overall Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.902
82579003|NCT01006252|164867358|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.970
82650199|NCT04549259|165015456|OTHER|Single group change over time.|B|-0.51|STANDARD_ERROR_OF_MEAN|0.88||0.57|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.57
82464820|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.917|||<|0.0001|TWO_SIDED|95.0|3.88|7.955|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||7.955|3.880|<.0001
82464821|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.945|||<|0.0001|TWO_SIDED|95.0|3.83|8.06|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.060|3.830|<.0001
82464822|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.994|||<|0.0001|TWO_SIDED|95.0|3.731|8.257|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.257|3.731|<.0001
82464823|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.021|||<|0.0001|TWO_SIDED|95.0|3.672|8.37|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.370|3.672|<.0001
82464824|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.071|||<|0.0001|TWO_SIDED|95.0|3.56|8.581|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.581|3.560|<.0001
82464825|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.098|||<|0.0001|TWO_SIDED|95.0|3.495|8.701|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.701|3.495|<.0001
82464826|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.147|||<|0.0001|TWO_SIDED|95.0|3.373|8.921|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||8.921|3.373|<.0001
82464827|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.174|||<|0.0001|TWO_SIDED|95.0|3.303|9.045|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.045|3.303|<.0001
82464828|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.224|||<|0.0001|TWO_SIDED|95.0|3.174|9.273|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.273|3.174|<.0001
82464829|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.251||||0.0001|TWO_SIDED|95.0|3.101|9.401|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.401|3.101|0.0001
82464830|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.0002|TWO_SIDED|95.0|2.966|9.634|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.634|2.966|0.0002
82464831|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.327||||0.0003|TWO_SIDED|95.0|2.89|9.765|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||9.765|2.890|0.0003
82544964|NCT05057897|164789456|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|-30.36|||||TWO_SIDED|95.0|-62.82|3.69||||The 2-sided 95% CI was calculated using the Newcombe score without continuity correction.|The difference in seroresponse 28 days post Dose 2 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 57 (28 days post Dose 2)||3.69|-62.82|
82464832|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.377||||0.0006|TWO_SIDED|95.0|2.751|10.002|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.002|2.751|0.0006
82464833|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.404||||0.0008|TWO_SIDED|95.0|2.673|10.135|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.135|2.673|0.0008
82464834|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.453||||0.0013|TWO_SIDED|95.0|2.53|10.376|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.376|2.530|0.0013
82464835|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.48||||0.0016|TWO_SIDED|95.0|2.451|10.51|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.510|2.451|0.0016
82464836|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.53||||0.0025|TWO_SIDED|95.0|2.306|10.754|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.754|2.306|0.0025
82464837|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.557||||0.003|TWO_SIDED|95.0|2.224|10.889|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||10.889|2.224|0.0030
82464838|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.606||||0.0043|TWO_SIDED|95.0|2.077|11.135|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.135|2.077|0.0043
82464839|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.634||||0.0051|TWO_SIDED|95.0|1.995|11.272|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.272|1.995|0.0051
82464840|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.683||||0.0068|TWO_SIDED|95.0|1.847|11.519|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.519|1.847|0.0068
82464841|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.71||||0.0079|TWO_SIDED|95.0|1.764|11.657|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.657|1.764|0.0079
82464842|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.759||||0.01|TWO_SIDED|95.0|1.613|11.905|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||11.905|1.613|0.0100
82464843|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.787||||0.0114|TWO_SIDED|95.0|1.53|12.043|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.043|1.530|0.0114
82464844|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.836||||0.0141|TWO_SIDED|95.0|1.378|12.293|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.293|1.378|0.0141
82544965|NCT05057897|164789457|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.47|||||TWO_SIDED|95.0|0.06|3.86|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 57 (28 days post Dose 2)||3.86|0.06|
82544966|NCT05057897|164789458|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|-25.0|||||TWO_SIDED|95.0|-59.07|2.97||||The 2-sided 95% CI was calculated using the Newcombe score without continuity correction.|The difference in seroresponse 28 days post Dose 2 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 57 (28 days post Dose 2)||2.97|-59.07|
82544967|NCT05057897|164789459|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.32|||||TWO_SIDED|95.0|0.12|0.8|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||0.80|0.12|
82464845|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.863||||0.0157|TWO_SIDED|95.0|1.294|12.432|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.432|1.294|0.0157
82464846|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.912||||0.0189|TWO_SIDED|95.0|1.142|12.683|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.683|1.142|0.0189
82464847|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.94||||0.0208|TWO_SIDED|95.0|1.057|12.822|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||12.822|1.057|0.0208
82464848|NCT00083889|164625997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.989||||0.0244|TWO_SIDED|95.0|0.904|13.074|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G baseline score (intercept and time since randomization are included as random effects).||13.074|0.904|0.0244
82464849|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.459|||<|0.0001|TWO_SIDED|95.0|0.805|2.114|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Physical Well Being (PWB) subscale baseline score (intercept and time since randomization are included as random effects).||2.114|0.805|<.0001
82464850|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.453|||<|0.0001|TWO_SIDED|95.0|0.827|2.079|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.079|0.827|<.0001
82464851|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.837|2.063|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.063|0.837|<.0001
82464852|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.444|||<|0.0001|TWO_SIDED|95.0|0.847|2.041|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.041|0.847|<.0001
82464853|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.0001|TWO_SIDED|95.0|0.848|2.032|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.032|0.848|<.0001
82464854|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.434|||<|0.0001|TWO_SIDED|95.0|0.844|2.024|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.024|0.844|<.0001
82464855|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.431|||<|0.0001|TWO_SIDED|95.0|0.838|2.023|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.023|0.838|<.0001
82464856|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.424|||<|0.0001|TWO_SIDED|95.0|0.819|2.029|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.029|0.819|<.0001
82464857|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.421|||<|0.0001|TWO_SIDED|95.0|0.805|2.037|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.037|0.805|<.0001
82579004|NCT01006252|164867360|SUPERIORITY_OR_OTHER|||||||0.902||95.0||||P-value given for Overall Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.902
82579005|NCT01006252|164867360|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||P-value given for Overall Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.970
82464858|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.415|||<|0.0001|TWO_SIDED|95.0|0.774|2.056|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.056|0.774|<.0001
82464859|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.411|||<|0.0001|TWO_SIDED|95.0|0.753|2.069|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.069|0.753|<.0001
82464860|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.405|||<|0.0001|TWO_SIDED|95.0|0.711|2.099|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.099|0.711|<.0001
82464861|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.402||||0.0001|TWO_SIDED|95.0|0.685|2.119|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.119|0.685|0.0001
82464862|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.396||||0.0003|TWO_SIDED|95.0|0.634|2.157|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.157|0.634|0.0003
82464863|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.392||||0.0005|TWO_SIDED|95.0|0.604|2.18|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.180|0.604|0.0005
82464864|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.386||||0.0012|TWO_SIDED|95.0|0.547|2.225|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.225|0.547|0.0012
82464865|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.383||||0.0018|TWO_SIDED|95.0|0.514|2.252|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.252|0.514|0.0018
82650200|NCT04549259|165015456|OTHER|Single group change over time.|B|-0.92|STANDARD_ERROR_OF_MEAN|1.12||0.42|TWO_SIDED|||||All tests performed were 2-sided. Given that the study was a pilot, we used α = .25 as a significance level cutoff and focus primarily on patterns in the data and effect sizes.|Mixed Models Analysis|||"Given that our factorial design resulted in many control participants who were assigned to alternative interventions, for this pilot we also report on changes over time in outcomes for participants randomly assigned to each intervention. These changes tested with mixed models that contained only participants assigned to each intervention. Here, time was the predictor of interest, and we again controlled for mode of survey administration."||||.42
82464866|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.376||||0.0035|TWO_SIDED|95.0|0.451|2.301|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.301|0.451|0.0035
82464867|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.373||||0.0049|TWO_SIDED|95.0|0.416|2.33|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.330|0.416|0.0049
82464868|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.367||||0.0084|TWO_SIDED|95.0|0.35|2.383|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.383|0.350|0.0084
82464869|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.363||||0.011|TWO_SIDED|95.0|0.313|2.414|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.414|0.313|0.0110
82464870|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.357||||0.0168|TWO_SIDED|95.0|0.245|2.47|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.470|0.245|0.0168
82561916|NCT02326220|164832990|SUPERIORITY||LS Mean Difference|-44.0|||<|0.0001|TWO_SIDED|95.0|-51.3|-36.6||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.6|-51.3|< 0.0001
82579006|NCT01006252|164867361|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-value given for Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.547
82579007|NCT01006252|164867361|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.414
82464871|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.354||||0.0208|TWO_SIDED|95.0|0.206|2.501|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.501|0.206|0.0208
82464872|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.348||||0.0293|TWO_SIDED|95.0|0.136|2.559|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.559|0.136|0.0293
82464873|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.344||||0.0348|TWO_SIDED|95.0|0.096|2.592|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.592|0.096|0.0348
82464874|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.338||||0.0459|TWO_SIDED|95.0|0.024|2.652|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.652|0.024|0.0459
82464875|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.335||||0.0528|TWO_SIDED|95.0|-0.016|2.685|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.685|-0.016|0.0528
82464876|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.328||||0.0663|TWO_SIDED|95.0|-0.09|2.746|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.746|-0.090|0.0663
82464877|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.325||||0.0744|TWO_SIDED|95.0|-0.131|2.78|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.780|-0.131|0.0744
82464878|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.319||||0.0898|TWO_SIDED|95.0|-0.205|2.842|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.842|-0.205|0.0898
82464879|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.315||||0.0988|TWO_SIDED|95.0|-0.246|2.877|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.877|-0.246|0.0988
82464880|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.309||||0.1156|TWO_SIDED|95.0|-0.321|2.94|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.940|-0.321|0.1156
82464881|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.306||||0.1252|TWO_SIDED|95.0|-0.363|2.975|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||2.975|-0.363|0.1252
82464882|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.1429|TWO_SIDED|95.0|-0.439|3.038|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.038|-0.439|0.1429
82464883|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.296||||0.1529|TWO_SIDED|95.0|-0.481|3.074|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.074|-0.481|0.1529
82464884|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.1711|TWO_SIDED|95.0|-0.558|3.138|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.138|-0.558|0.1711
82464885|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.287||||0.1813|TWO_SIDED|95.0|-0.6|3.173|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.173|-0.600|0.1813
82464886|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.1998|TWO_SIDED|95.0|-0.677|3.238|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.238|-0.677|0.1998
82464887|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.277||||0.21|TWO_SIDED|95.0|-0.72|3.273|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.273|-0.720|0.2100
82464888|NCT00083889|164625998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.271||||0.2283|TWO_SIDED|95.0|-0.797|3.338|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G PWB subscale baseline score (intercept and time since randomization are included as random effects).||3.338|-0.797|0.2283
82464889|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.214|||<|0.0001|TWO_SIDED|95.0|0.719|1.708|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Social/Family Well Being (SWB) subscale baseline score (intercept and time since randomization are included as random effects).||1.708|0.719|<.0001
82464890|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.216|||<|0.0001|TWO_SIDED|95.0|0.729|1.703|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.703|0.729|<.0001
82464891|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.217|||<|0.0001|TWO_SIDED|95.0|0.731|1.704|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.704|0.731|<.0001
82464892|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|||<|0.0001|TWO_SIDED|95.0|0.73|1.71|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.710|0.730|<.0001
82464893|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.221|||<|0.0001|TWO_SIDED|95.0|0.727|1.716|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.716|0.727|<.0001
82464894|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.224|||<|0.0001|TWO_SIDED|95.0|0.716|1.732|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.732|0.716|<.0001
82579008|NCT01006252|164867363|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-value given for Main Treatment Effect from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.547
82579009|NCT01006252|164867363|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value given for Treatment-By-Cycle Interaction from the repeated measure model where time was a class variable. Statistical significance was assessed at an alpha level of 0.05.|Mixed Model Repeated Measures (MMRM)|MMRM analyses limited to first 4 cycles due to sparse data; data from 30-day follow-up visit coded to first cycle after last on-treatment cycle.||||||0.414
82579010|NCT01008553|164867385|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Log Rank|||||||0.0003
82579011|NCT01008410|164867398|SUPERIORITY|||||||0.0324||||||Threshold for significance at 0.05 level.|Regression, Logistic|||The logistic regression test was used to test for a difference in the percentages between the 2 treatment arms after adjusting for analysis center (country).||||0.0324
82650201|NCT02462421|165015513|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||No adjustment for multiple comparisons. Viewed as unnecessary inasmuch as none of the comparisons achieved p\<0.05.|t-test, 2 sided|||"Each of the variant genotypes was compared to the control group (homozygous for major alleles at all three genetic loci) in an unpaired t-test. The study was terminated early because it was clear that we would not meet our recruitment targets and that the study was likely underpowered.~Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant."||||0.92
82464895|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.225|||<|0.0001|TWO_SIDED|95.0|0.707|1.744|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.744|0.707|<.0001
82464896|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.228|||<|0.0001|TWO_SIDED|95.0|0.687|1.769|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.769|0.687|<.0001
82464897|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.229|||<|0.0001|TWO_SIDED|95.0|0.673|1.785|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.785|0.673|<.0001
82464898|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.232|||<|0.0001|TWO_SIDED|95.0|0.646|1.818|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.818|0.646|<.0001
82464899|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.233|||<|0.0001|TWO_SIDED|95.0|0.629|1.838|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.838|0.629|<.0001
82464900|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.236||||0.0002|TWO_SIDED|95.0|0.595|1.876|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.876|0.595|0.0002
82464901|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.237||||0.0003|TWO_SIDED|95.0|0.575|1.899|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.899|0.575|0.0003
82464902|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24||||0.0005|TWO_SIDED|95.0|0.537|1.942|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.942|0.537|0.0005
82464903|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.241||||0.0008|TWO_SIDED|95.0|0.515|1.967|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||1.967|0.515|0.0008
82464904|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.244||||0.0015|TWO_SIDED|95.0|0.474|2.013|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.013|0.474|0.0015
82464905|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.245||||0.0021|TWO_SIDED|95.0|0.45|2.04|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.040|0.450|0.0021
82464906|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.248||||0.0037|TWO_SIDED|95.0|0.406|2.089|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.089|0.406|0.0037
82464907|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.249||||0.0048|TWO_SIDED|95.0|0.382|2.116|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.116|0.382|0.0048
82464908|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.251||||0.0074|TWO_SIDED|95.0|0.336|2.167|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.167|0.336|0.0074
82650202|NCT02462421|165015513|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.63||||||Not corrected for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.63
82650203|NCT02462421|165015513|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.86||||||Not adjusted for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.86
82464909|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.253||||0.0092|TWO_SIDED|95.0|0.31|2.196|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.196|0.310|0.0092
82464910|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.255||||0.0132|TWO_SIDED|95.0|0.262|2.248|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.248|0.262|0.0132
82464911|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.257||||0.0159|TWO_SIDED|95.0|0.236|2.278|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.278|0.236|0.0159
82464912|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.259||||0.0213|TWO_SIDED|95.0|0.187|2.332|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.332|0.187|0.0213
82464913|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.261||||0.0248|TWO_SIDED|95.0|0.16|2.362|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.362|0.160|0.0248
82464914|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263||||0.0318|TWO_SIDED|95.0|0.11|2.416|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.416|0.110|0.0318
82544968|NCT05057897|164789460|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|0.0||||||||||||Due to everyone in both cohorts being a seroresponder, the confidence interval (CI) around the difference is not estimable.|The difference in seroresponse 28 days post Dose 3 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||||
82544969|NCT05057897|164789461|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|GMT Ratio|0.56|||||TWO_SIDED|95.0|0.25|1.25|||||The GMT ratio was calculated as the ratio of the titer levels in the immunocompromised cohort to the immunocompetent cohort.|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||1.25|0.25|
82544970|NCT05057897|164789462|OTHER|Descriptive only. Analysis conducted at request of clinicaltrials.gov.|Difference in Seroresponse|0.0||||||||||||Due to everyone in both cohorts being a seroresponder, the confidence interval (CI) around the difference is not estimable.|The difference in seroresponse 28 days post Dose 3 of AZD1222 was calculated as (seroresponse rate of immunocompromised cohort) - (seroresponse rate of immunocompetent cohort).|Day 85 Immunocompromised / Day 211 Immunocompetent (28 days post Dose 3)||||
82544971|NCT04524390|164789516|SUPERIORITY||Least-Square mean|-0.39|STANDARD_ERROR_OF_MEAN|1.182||0.7419|TWO_SIDED|95.0|-2.76|1.97|||MMRM|||||1.97|-2.76|0.7419
82544972|NCT04524390|164789517|SUPERIORITY||Least-Square mean|-45.9|STANDARD_ERROR_OF_MEAN|35.398||0.2002|TWO_SIDED|95.0|-116.86|25.05|||MMRM|||||25.05|-116.86|0.2002
82544973|NCT04524390|164789518|SUPERIORITY|||||||0.8412|||||||Barnard's exact test|||||||0.8412
82544974|NCT04524390|164789519|SUPERIORITY||||||>|0.9999|||||||Barnard's exact test|||||||> 0.9999
82544975|NCT04524390|164789520|SUPERIORITY|||||||0.6658|||||||Barnard's exact test|||||||0.6658
82544976|NCT04524390|164789521|SUPERIORITY|||||||0.6236|||||||Barnard's exact test|||||||0.6236
82544977|NCT04524390|164789522|SUPERIORITY|||||||0.6658|||||||Barnard's exact test|||||||0.6658
82544978|NCT04524390|164789523|SUPERIORITY|||||||0.6659|||||||Barnard's exact test|||||||0.6659
82544979|NCT03088813|164789530|OTHER||Hazard Ratio (HR)|1.11||||0.3094|TWO_SIDED|95.0|0.9|1.37|||Stratified log-rank test|From stratified log-rank test, stratified by corrected region and corrected platinum sensitivity.|The associated HR and two-sided 95% Confidence Interval (CI) were estimated using stratified Cox proportional hazards model, stratified by corrected region and corrected platinum sensitivity.|||1.37|0.90|0.3094
82544980|NCT03088813|164789534|OTHER||Hazard Ratio (HR)|0.96||||0.7053|TWO_SIDED|95.0|0.77|1.2||From stratified log-rank test, stratified by corrected region and corrected platinum sensitivity|Stratified log-rank test||The associated HR and two-sided 95% CI were estimated using stratified Cox proportional hazards model, stratified by corrected region and corrected platinum sensitivity.|||1.20|0.77|0.7053
82544981|NCT03088813|164789535|OTHER||Difference in ORR|22.29|||<|0.0001|TWO_SIDED|95.0|13.97|30.61||ORR difference, 95% CI and P-value are obtained from the Cochran-Mantel-Haenszel test stratified by corrected region and corrected platinum sensitivity.|Cochran-Mantel-Haenszel|||||30.61|13.97|<0.0001
82544982|NCT03756571|164789542|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82544983|NCT03756571|164789543|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
82544984|NCT03756571|164789544|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82544985|NCT03756571|164789545|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82544986|NCT03756571|164789546|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.70
82544987|NCT03756571|164789547|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
82544988|NCT03756571|164789548|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
82544989|NCT03756571|164789549|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||0.03
82544990|NCT03756571|164789550|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82544991|NCT03756571|164789551|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
82544992|NCT03756571|164789552|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82544993|NCT03756571|164789553|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.80
82544994|NCT04247074|164789554|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82464915|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.265||||0.036|TWO_SIDED|95.0|0.083|2.447|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.447|0.083|0.0360
82464916|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.267||||0.0443|TWO_SIDED|95.0|0.032|2.502|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.502|0.032|0.0443
82464917|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.269||||0.0493|TWO_SIDED|95.0|0.004|2.533|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.533|0.004|0.0493
82464918|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.271||||0.0587|TWO_SIDED|95.0|-0.047|2.589|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.589|-0.047|0.0587
82464919|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.273||||0.0642|TWO_SIDED|95.0|-0.075|2.62|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.620|-0.075|0.0642
82464920|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.275||||0.0746|TWO_SIDED|95.0|-0.127|2.677|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.677|-0.127|0.0746
82464921|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.276||||0.0806|TWO_SIDED|95.0|-0.155|2.708|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.708|-0.155|0.0806
82464922|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.279||||0.0917|TWO_SIDED|95.0|-0.207|2.765|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.765|-0.207|0.0917
82464923|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.28||||0.098|TWO_SIDED|95.0|-0.236|2.797|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.797|-0.236|0.0980
82464924|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.283||||0.1095|TWO_SIDED|95.0|-0.288|2.854|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.854|-0.288|0.1095
82464925|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.284||||0.1161|TWO_SIDED|95.0|-0.318|2.886|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.886|-0.318|0.1161
82544995|NCT04247074|164789555|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82544996|NCT04247074|164789556|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82544997|NCT04247074|164789557|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82544998|NCT01796236|164789558|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mantel Haenszel|||||||0.12
82544999|NCT01796236|164789559|SUPERIORITY_OR_OTHER|||||||0.45|||||||Mantel Haenszel|||"Combined Endpoint is calculated as the sum of the following four events from 3 weeks to 3 years:~Holgers Index \>=2. Any Overgrowth \>=2. Pain (scar/neuropathic) \>=3. Any numbness \>=2.~Each event is counted only once"||||0.45
82545000|NCT01796236|164789560|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mann-Whitney U test|||||||<0.0001
82545001|NCT01796236|164789561|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Fisher Exact|||Day 10||||0.020
82545002|NCT01796236|164789561|SUPERIORITY_OR_OTHER|||||||0.4|||||||Fisher Exact|||Week 3||||0.4
82545003|NCT01796236|164789561|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Week 6||||1.00
82545004|NCT01796236|164789561|SUPERIORITY_OR_OTHER|||||||0.97|||||||Fisher Exact|||Week 12||||0.97
82545005|NCT01796236|164789561|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Week 24||||1.00
82545006|NCT01796236|164789562|SUPERIORITY_OR_OTHER|||||||0.4|||||||Mantel Haenszel|||Maximum of Holgers at 12 Months||||0.40
82545007|NCT01796236|164789562|SUPERIORITY_OR_OTHER|||||||0.14|||||||Mantel Haenszel|||Maximum of Holgers at 36 Months||||0.14
82545008|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.38|||||||Mantel Haenszel|||Holgers Index Day 10||||0.38
82545009|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.17|||||||Mantel Haenszel|||Holgers Index Week 3||||0.17
82464926|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.287||||0.128|TWO_SIDED|95.0|-0.37|2.944|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.944|-0.370|0.1280
82464927|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.288||||0.1346|TWO_SIDED|95.0|-0.399|2.976|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||2.976|-0.399|0.1346
82464928|NCT00083889|164625999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.291||||0.1466|TWO_SIDED|95.0|-0.452|3.034|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G SWB subscale baseline score (intercept and time since randomization are included as random effects).||3.034|-0.452|0.1466
82464929|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.929||||0.0001|TWO_SIDED|95.0|0.46|1.398|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Emotional Well Being (EWB) subscale baseline score (intercept and time since randomization are included as random effects).||1.398|0.460|0.0001
82464930|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.922|||<|0.0001||95.0|0.469|1.375|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.375|0.469|<.0001
82464931|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.918|||<|0.0001||95.0|0.471|1.365|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.365|0.471|<.0001
82464932|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.911|||<|0.0001||95.0|0.469|1.352|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.352|0.469|<.0001
82464933|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.907|||<|0.0001||95.0|0.466|1.348|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.348|0.466|<.0001
82464934|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.899|||<|0.0001||95.0|0.453|1.345|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.345|0.453|<.0001
82464935|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.895||||0.0001||95.0|0.444|1.347|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.347|0.444|0.0001
82464936|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.888||||0.0002||95.0|0.421|1.355|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.355|0.421|0.0002
82464937|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.884||||0.0003||95.0|0.406|1.362|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.362|0.406|0.0003
82545010|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mantel Haenszel|||Holgers Index Week 6||||0.37
82545011|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mantel Haenszel|||Holgers Index Week 12||||0.73
82545012|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.47|||||||Mantel Haenszel|||Holgers Index Week 24||||0.47
82545013|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.73|||||||Mantel Haenszel|||Holgers Index Month 12||||0.73
82545014|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.37|||||||Mantel Haenszel|||Holgers Index Month 24||||0.37
82545015|NCT01796236|164789563|SUPERIORITY_OR_OTHER|||||||0.75|||||||Mantel Haenszel|||Holgers Index Month 36||||0.75
82464938|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.877||||0.0006||95.0|0.375|1.379|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.379|0.375|0.0006
82545016|NCT01796236|164789564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mantel Haenszel|||maximum numbness at 12 months||||<0.0001
82545017|NCT01796236|164789564|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mantel Haenszel|||maximum numbness at 36 months||||<0.0001
82545018|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Day 10, Neuropathic pain||||0.74
82545019|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||Day 10, Scar pain||||0.36
82545020|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Week 3, Neuropathic pain||||0.030
82545021|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Week 3, Scar pain||||0.92
82545022|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Week 6, Neuropathic pain||||0.15
82545023|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Week 6, Scar pain||||0.38
82545024|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Week 12, Neuropathic pain||||0.015
82545025|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Week 12, Scar pain||||0.72
82545026|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Week 24, Neuropathic pain||||0.44
82545027|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 24, Scar pain||||0.43
82545028|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 12, Neuropathic pain||||0.21
82545029|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Month 12, Scar pain||||0.97
82545030|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36, Neuropathic pain||||0.19
82545031|NCT01796236|164789565|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Month 36, Scar pain||||0.77
82545032|NCT01796236|164789566|SUPERIORITY_OR_OTHER|||||||0.076|||||||Mantel Haenszel|||Neuropathic Categorical Max Pain||||0.076
82545033|NCT01796236|164789566|SUPERIORITY_OR_OTHER|||||||0.49|||||||Mantel Haenszel|||Scar Categorical Max Pain||||0.49
82545034|NCT01796236|164789567|SUPERIORITY_OR_OTHER|||||||0.076|||||||Mantel Haenszel|||Neuropathic Categorical Max Pain 36 months||||0.076
82545035|NCT01796236|164789567|SUPERIORITY_OR_OTHER|||||||0.71|||||||Mantel Haenszel|||Scar Categorical Max Pain 36 months||||0.71
82545036|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.52|||||||Cochran-Mantel-Haenszel|||Day 10: Neuropathic pain||||0.52
82545037|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|||Day 10: Scar pain||||0.44
82545038|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.14|||||||Cochran-Mantel-Haenszel|||Week 3: Neuropathic pain||||0.14
82545039|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.59|||||||Cochran-Mantel-Haenszel|||Week 3: Scar pain||||0.59
82545040|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.17|||||||Cochran-Mantel-Haenszel|||Week 6: Neuropathic pain||||0.17
82545041|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.44|||||||Cochran-Mantel-Haenszel|||Week 6: Scar pain||||0.44
82545042|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.0087|||||||Cochran-Mantel-Haenszel|||Week 12: Neuropathic pain||||0.0087
82545043|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.84|||||||Cochran-Mantel-Haenszel|||Week 12: Scar pain||||0.84
82545044|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.43|||||||Cochran-Mantel-Haenszel|||Week 24: Neuropathic pain||||0.43
82545045|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.33|||||||Cochran-Mantel-Haenszel|||Week 24: Scar pain||||0.33
82545046|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.21|||||||Cochran-Mantel-Haenszel|||Month 12 Neuropathic pain||||0.21
82545047|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.82|||||||Cochran-Mantel-Haenszel|||Month 12 Scar pain||||0.82
82545048|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.19|||||||Cochran-Mantel-Haenszel|||Month 36 Neuropathic pain||||0.19
82545049|NCT01796236|164789568|SUPERIORITY_OR_OTHER|||||||0.77|||||||Cochran-Mantel-Haenszel|||Month 36 Scar pain||||0.77
82545050|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.12|||||||Mantel Haenszel|||Day 10 Soft tissue thickening/overgrowth||||0.12
82545051|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mantel Haenszel|||Week 3 Soft tissue thickening/overgrowth||||0.016
82545052|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.84|||||||Mantel Haenszel|||Week 6 Soft tissue thickening/overgrowth||||0.84
82545053|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.53|||||||Mantel Haenszel|||Week 12 Soft tissue thickening/overgrowth||||0.53
82545054|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.18|||||||Mantel Haenszel|||Week 24 Soft tissue thickening/overgrowth||||0.18
82545055|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.63|||||||Mantel Haenszel|||Month 12 Soft tissue thickening/overgrowth||||0.63
82545056|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||0.81|||||||Mantel Haenszel|||Month 24 Soft tissue thickening/overgrowth||||0.81
82545057|NCT01796236|164789569|SUPERIORITY_OR_OTHER|||||||1|||||||Mantel Haenszel|||Month 36 Soft tissue thickening/overgrowth||||1.00
82545058|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Day 10||||0.0009
82545059|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 3||||0.0080
82545060|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 6||||0.46
82545061|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 12||||0.45
82545062|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Week 24||||0.18
82545063|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 12||||0.017
82545064|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 24||||0.15
82545065|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Visible Abutment Length Month 36||||0.32
82545066|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.74|||||||Sign test|||Change in Visible Test Abutment - Week 3 change from day 10||||0.74
82545067|NCT01796236|164789570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Visible Test Abutment - Week 6 change from day 10||||<0.0001
82545068|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.041|||||||Sign test|||Change in Visible Test Abutment - Week 12 change from day 10||||0.041
82545069|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0065|||||||Sign test|||Change in Visible Test Abutment - Week 24 change from day 10||||0.0065
82545070|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Sign test|||Change in Visible Test Abutment - Month 12 change from day 10||||0.0003
82545071|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.028|||||||Sign test|||Change in Visible Test Abutment - Month 24 change from day 10||||0.028
82464939|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.873||||0.0009||95.0|0.356|1.39|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.390|0.356|0.0009
82464940|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.866||||0.002||95.0|0.318|1.414|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.414|0.318|0.0020
82464941|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.862||||0.0029||95.0|0.295|1.428|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.428|0.295|0.0029
82464942|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.854||||0.0055||95.0|0.251|1.457|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.457|0.251|0.0055
82464943|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.0076||95.0|0.226|1.475|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.475|0.226|0.0076
82464944|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.843||||0.0129||95.0|0.179|1.508|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.508|0.179|0.0129
82464945|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.839||||0.0168||95.0|0.151|1.527|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.527|0.151|0.0168
82464946|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.832||||0.0257||95.0|0.101|1.563|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.563|0.101|0.0257
82464947|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.828||||0.0318||95.0|0.072|1.583|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.583|0.072|0.0318
82464948|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.821||||0.0447||95.0|0.019|1.622|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.622|0.019|0.0447
82464949|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.817||||0.0529||95.0|-0.01|1.643|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.643|-0.010|0.0529
82464950|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.809||||0.0696||95.0|-0.065|1.683|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.683|-0.065|0.0696
82464951|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.805||||0.0797||95.0|-0.095|1.706|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.706|-0.095|0.0797
82545072|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.037|||||||Sign test|||Change in Visible Test Abutment - Month 36 change from day 10||||0.037
82545073|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.072|||||||Sign test|||Change in Visible Control Abutment - Week 3 change from day 10||||0.072
82545074|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.034|||||||Sign test|||Change in Visible Control Abutment - Week 6 change from day 10||||0.034
82545075|NCT01796236|164789570|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Sign test|||Change in Visible Control Abutment - Week 12 change from day 10||||<0.0001
82545076|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.01|||||||Sign test|||Change in Visible Control Abutment - Week 24 change from day 10||||0.010
82545077|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0086|||||||Sign test|||Change in Visible Control Abutment - Month 12 change from day 10||||0.0086
82545078|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0021|||||||Sign test|||Change in Visible Control Abutment - Month 24 change from day 10||||0.0021
82545079|NCT01796236|164789570|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Sign test|||Change in Visible Control Abutment - Month 36 change from day 10||||0.0005
82545080|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||Week 12: Vascularity (observer)||||0.026
82545081|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Month 12: Vascularity (observer)||||0.33
82545082|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||Month 36: Vascularity (observer)||||0.094
82545083|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pigmentation (observer)||||0.30
82545084|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pigmentation (observer)||||0.23
82545085|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pigmentation (observer)||||0.48
82545086|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Week 12: Thickness (observer)||||0.0003
82545087|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||Month 12: Thickness (observer)||||0.062
82579012|NCT04143945|164867408|OTHER|Comparison|Estimated treatment difference|2.6||||0.0395|TWO_SIDED|95.0|0.1|5.1|||ANOVA|||The intensity of pain was analysed by a fixed analysis of variance model with VAS pain score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||5.1|0.1|0.0395
82545088|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Month 36: Thickness (observer)||||0.11
82545089|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Week 12: Relief (observer)||||0.0003
82545090|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Month 12: Relief (observer)||||0.079
82545091|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||Month 36: Relief (observer)||||0.025
82545092|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pliability (observer)||||0.0020
82545093|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pliability (observer)||||0.14
82545094|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pliability (observer)||||0.0014
82545095|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||Week 12: Surface Area (observer)||||0.0001
82545096|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Month 12: Surface Area (observer)||||0.023
82545097|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||Month 36: Surface Area (observer)||||0.045
82545098|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||Week 12: Total Score (observer)||||0.0005
82545099|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||Month 12: Total Score (observer)||||0.085
82545100|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Month 36: Total Score (observer)||||0.030
82545101|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (observer)||||0.0015
82545102|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.076|||||||Wilcoxon (Mann-Whitney)|||Month 12: Overall Opinion (observer)||||0.076
82545103|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Month 36: Overall Opinion (observer)||||0.15
82545104|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Week 12: Painful (patient)||||0.72
82545105|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Month 12: Painful (patient)||||0.97
82545106|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Month 36: Painful (patient)||||0.82
82545107|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Week 12: Itching (patient)||||0.86
82545108|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Month 12: Itching (patient)||||0.84
82545109|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 36: Itching (patient)||||0.76
82545110|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Week 12: Color (patient)||||0.41
82545111|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Month 12: Color (patient)||||0.98
82545112|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 36: Color (patient)||||0.76
82545113|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 12: Stiffness (patient)||||0.43
82545114|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Month 12: Stiffness (patient)||||0.25
82545115|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||Month 36: Stiffness (patient)||||0.017
82545116|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Week 12: Thickness (patient)||||0.13
82545117|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||Month 12: Thickness (patient)||||0.33
82545118|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Month 36: Thickness (patient)||||0.65
82545119|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Week 12: Irregularity (patient)||||0.18
82545120|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Month 12: Irregularity (patient)||||0.38
82545121|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Month 36: Irregularity (patient)||||0.080
82545122|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Week 12: Total Score (patient)||||0.28
82545123|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Month 12: Total Score (patient)||||0.44
82545124|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36: Total Score (patient)||||0.19
82579013|NCT03268603|164867415|SUPERIORITY|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82464952|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.798||||0.0994||95.0|-0.151|1.747|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.747|-0.151|0.0994
82464953|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.794||||0.111||95.0|-0.182|1.77|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.770|-0.182|0.1110
82464954|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.787||||0.1328||95.0|-0.239|1.813|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.813|-0.239|0.1328
82464955|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.783||||0.1454||95.0|-0.271|1.836|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.836|-0.271|0.1454
82464956|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.776||||0.1686||95.0|-0.329|1.88|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.880|-0.329|0.1686
82464957|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.771||||0.1817||95.0|-0.361|1.904|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.904|-0.361|0.1817
82464958|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.764||||0.2055||95.0|-0.419|1.948|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.948|-0.419|0.2055
82464959|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76||||0.2188||95.0|-0.452|1.972|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||1.972|-0.452|0.2188
82464960|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.753||||0.2427||95.0|-0.51|2.016|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.016|-0.510|0.2427
82464961|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.749||||0.2559||95.0|-0.543|2.041|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.041|-0.543|0.2559
82464962|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.742||||0.2794||95.0|-0.602|2.086|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.086|-0.602|0.2794
82464963|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.738||||0.2923||95.0|-0.635|2.111|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.111|-0.635|0.2923
82464964|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73||||0.3152||95.0|-0.695|2.156|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.156|-0.695|0.3152
82464965|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.726||||0.3276||95.0|-0.728|2.181|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.181|-0.728|0.3276
82464966|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.719||||0.3497||95.0|-0.788|2.227|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.227|-0.788|0.3497
82545125|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (patient)||||0.16
82545126|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Week 12: Overall Opinion (patient)||||0.23
82579014|NCT03098563|164867462|SUPERIORITY|||||||0.021|||||||ANOVA|||||||.021
82464967|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.715||||0.3616||95.0|-0.822|2.252|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.252|-0.822|0.3616
82464968|NCT00083889|164626000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.708||||0.3827||95.0|-0.882|2.298|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G EWB subscale baseline score (intercept and time since randomization are included as random effects)||2.298|-0.882|0.3827
82464969|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.897|||<|0.0001|TWO_SIDED|95.0|1.261|2.533|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Functional Assessment of Cancer Therapy-General (FACT-G) Functional Well Being (FWB) subscale baseline score (intercept and time since randomization are included as random effects).||2.533|1.261|<.0001
82464970|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.924|||<|0.0001||95.0|1.309|2.539|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.539|1.309|<.0001
82464971|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.939|||<|0.0001||95.0|1.331|2.546|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.546|1.331|<.0001
82464972|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.965|||<|0.0001||95.0|1.363|2.568|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.568|1.363|<.0001
82464973|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.98|||<|0.0001||95.0|1.376|2.584|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.584|1.376|<.0001
82464974|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.007|||<|0.0001||95.0|1.392|2.622|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.622|1.392|<.0001
82464975|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.022|||<|0.0001||95.0|1.396|2.647|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.647|1.396|<.0001
82464976|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.048|||<|0.0001||95.0|1.397|2.7|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.700|1.397|<.0001
82545127|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Month 36: Overall Opinion (patient)||||0.079
82545128|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Week 12: Pain not within Scar (patient)||||0.0018
82464977|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.063|||<|0.0001||95.0|1.394|2.732|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.732|1.394|<.0001
82464978|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|||<|0.0001||95.0|1.383|2.797|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.797|1.383|<.0001
82545129|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain not within Scar (patient)||||0.053
82579015|NCT02383940|164867463|SUPERIORITY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.207||0.1|TWO_SIDED|95.0|-0.76|0.06||Threshold for significance = 0.05|MMRM||Difference is sotagliflozin - placebo|Between-group comparison was based on MMRM model with treatment, randomization strata of insulin delivery (MDI, CSII) and Week-4 A1C (\<=10%, \>10%), time (study week), and a treatment-by-time interaction as fixed categorical effects, and baseline A1C-by-time interaction as a covariate.||0.06|-0.76|0.10
82545130|NCT01796236|164789571|SUPERIORITY_OR_OTHER|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain not within Scar (patient)||||0.068
82545131|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Baseline: Comprehensive Health State (HUI3)||||0.90
82545132|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Week 24: Comprehensive Health State (HUI3)||||0.43
82545133|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 12: Comprehensive Health State (HUI3)||||0.23
82464979|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.105|||<|0.0001||95.0|1.374|2.836|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.836|1.374|<.0001
82464980|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.132|||<|0.0001||95.0|1.353|2.91|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.910|1.353|<.0001
82464981|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.146|||<|0.0001||95.0|1.339|2.954|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||2.954|1.339|<.0001
82464982|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.173|||<|0.0001||95.0|1.311|3.036|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.036|1.311|<.0001
82464983|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.188|||<|0.0001||95.0|1.294|3.082|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.082|1.294|<.0001
82464984|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.215|||<|0.0001||95.0|1.26|3.169|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.169|1.260|<.0001
82464985|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.23|||<|0.0001||95.0|1.241|3.219|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.219|1.241|<.0001
82464986|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.256|||<|0.0001||95.0|1.203|3.309|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.309|1.203|<.0001
82464987|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.271|||<|0.0001||95.0|1.182|3.361|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.361|1.182|<.0001
82464988|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.298|||<|0.0001||95.0|1.142|3.454|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.454|1.142|<.0001
82464989|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.313||||0.0001||95.0|1.119|3.507|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.507|1.119|0.0001
82464990|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.0003||95.0|1.076|3.603|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.603|1.076|0.0003
82464991|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.354||||0.0004||95.0|1.052|3.657|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.657|1.052|0.0004
82545134|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Month 36: Comprehensive Health State (HUI3)||||0.019
82545135|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.079|||||||Wilcoxon (Mann-Whitney)|||Baseline: Vision (HUI3)||||0.079
82545136|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Week 24: Vision (HUI3)||||0.96
82545137|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Month 12: Vision (HUI3)||||0.55
82545138|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Month 36: Vision (HUI3)||||0.64
82545139|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Baseline: Hearing (HUI3)||||0.76
82464992|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.381||||0.0007||95.0|1.008|3.754|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.754|1.008|0.0007
82464993|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.396||||0.0009||95.0|0.983|3.809|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.809|0.983|0.0009
82464994|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.423||||0.0014||95.0|0.938|3.908|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.908|0.938|0.0014
82464995|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.438||||0.0017||95.0|0.912|3.963|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||3.963|0.912|0.0017
82464996|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.464||||0.0025||95.0|0.866|4.063|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.063|0.866|0.0025
82464997|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.479||||0.003||95.0|0.84|4.119|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.119|0.840|0.0030
82464998|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.506||||0.0042||95.0|0.792|4.219|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.219|0.792|0.0042
82464999|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.521||||0.0049||95.0|0.766|4.275|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.275|0.766|0.0049
82465000|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.547||||0.0064||95.0|0.718|4.377|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.377|0.718|0.0064
82465001|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.562||||0.0073||95.0|0.691|4.433|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.433|0.691|0.0073
82465002|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.589||||0.0091||95.0|0.643|4.535|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.535|0.643|0.0091
82465003|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.604||||0.0103||95.0|0.616|4.592|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.592|0.616|0.0103
82465004|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.631||||0.0125||95.0|0.567|4.695|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.695|0.567|0.0125
82545140|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||Week 24: Hearing (HUI3)||||0.059
82545141|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||Month 12: Hearing (HUI3)||||0.38
82545142|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Hearing (HUI3)||||0.14
82545143|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Baseline: Speech (HUI3)||||0.73
82545144|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||Week 24: Speech (HUI3)||||0.65
82545145|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Month 12: Speech (HUI3)||||1.00
82545146|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||Month 36: Speech (HUI3)||||0.35
82545147|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ambulation (HUI3)||||0.50
82545148|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ambulation (HUI3)||||0.40
82545149|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ambulation (HUI3)||||0.21
82545150|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ambulation (HUI3)||||0.0010
82545151|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Baseline: Emotion (HUI3)||||0.13
82545152|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||Week 24: Emotion (HUI3)||||0.96
82545153|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Month 12: Emotion (HUI3)||||0.75
82545154|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Month 36: Emotion (HUI3)||||0.20
82545155|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Baseline: Cognition (HUI3)||||0.95
82545156|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||Week 24: Cognition (HUI3)||||0.31
82579016|NCT02672852|164867483|OTHER||Adjusted percentage difference|70.8|||<|0.001|TWO_SIDED|95.0|65.7|76.0|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the Cochran-Mantel-Haenszel (CMH) test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||76.0|65.7|< 0.001
82545157|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Month 12: Cognition (HUI3)||||0.15
82545158|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Month 36: Cognition (HUI3)||||0.19
82650204|NCT02462421|165015514|OTHER|"We compared the two groups (wild type versus SLC2A9 variant homozygotes. Null hypothesis: there are no differences between the two groups with respect to the pharmacodynamic effect of canagliflozin on fractional excretion of uric acid in the urine."||||||0.04||||||Because the study was terminated early, we did not have sufficient statistical power to adjust for multiple comparisons. We are reporting a nominal p-value without adjusting for multiple comparisons|t-test, 2 sided|||The study was terminated early because of slow recruitment. As a result the study did not achieve the statistical power that had been planned.||||0.04
82650205|NCT02462421|165015515|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.07||||||Not corrected for multiple comparisons|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.07
82465005|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.645||||0.0138||95.0|0.539|4.752|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.752|0.539|0.0138
82465006|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.672||||0.0164||95.0|0.49|4.855|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.855|0.490|0.0164
82465007|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.687||||0.0179||95.0|0.462|4.912|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||4.912|0.462|0.0179
82545159|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Baseline: Pain (HUI3)||||0.41
82545160|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Week 24: Pain (HUI3)||||0.30
82545161|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain (HUI3)||||0.42
82545162|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain (HUI3)||||0.040
82545163|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Baseline: Comprehensive Health State (HUI2)||||0.99
82545164|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Week 24: Comprehensive Health State (HUI2)||||0.88
82545165|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Month 12: Comprehensive Health State (HUI2)||||0.32
82545166|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.0084|||||||Wilcoxon (Mann-Whitney)|||Month 36: Comprehensive Health State (HUI2)||||0.0084
82545167|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||Baseline: Sensation (HUI2)||||0.77
82545168|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Week 24: Sensation (HUI2)||||0.95
82545169|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||Month 12: Sensation (HUI2)||||0.60
82545170|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Sensation (HUI2)||||0.48
82545171|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Baseline: Mobility (HUI2)||||0.51
82545172|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||Week 24: Mobility (HUI2)||||0.42
82545173|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||Month 12: Mobility (HUI2)||||0.22
82545174|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.0018|||||||Wilcoxon (Mann-Whitney)|||Month 36: Mobility (HUI2)||||0.0018
82545175|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Baseline: Emotion (HUI2)||||0.30
82545176|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Week 24: Emotion (HUI2)||||0.52
82545177|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Month 12: Emotion (HUI2)||||0.47
82545178|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Month 36: Emotion (HUI2)||||0.18
82545179|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Baseline: Cognition (HUI2)||||0.82
82545180|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Week 24: Cognition (HUI2)||||0.41
82545181|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 12: Cognition (HUI2)||||0.14
82545182|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Month 36: Cognition (HUI2)||||0.25
82465008|NCT00083889|164626001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.714||||0.0208||95.0|0.413|5.015|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline FACT-G FWB subscale baseline score (intercept and time since randomization are included as random effects)||5.015|0.413|0.0208
82465009|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049||||0.0004|TWO_SIDED|95.0|0.022|0.076|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EuroQoL Five Dimension (EQ-5D): Health state index baseline score (intercept and time since randomization are included as random effects).||0.076|0.022|0.0004
82465010|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048||||0.0003||95.0|0.022|0.075|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.075|0.022|0.0003
82465011|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048||||0.0003||95.0|0.022|0.074|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.074|0.022|0.0003
82465012|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047||||0.0003||95.0|0.021|0.072|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.021|0.0003
82465013|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046||||0.0004||95.0|0.021|0.072|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.021|0.0004
82465014|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045||||0.0005||95.0|0.02|0.071|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.020|0.0005
82465015|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045||||0.0007||95.0|0.019|0.07|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.019|0.0007
82465016|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044||||0.0011||95.0|0.017|0.07|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.017|0.0011
82465017|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.043||||0.0016||95.0|0.016|0.07|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.016|0.0016
82465018|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.0029||95.0|0.014|0.07|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.014|0.0029
82465019|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.0041||95.0|0.013|0.07|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.070|0.013|0.0041
82465020|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041||||0.0076||95.0|0.011|0.071|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.011|0.0076
82545183|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Baseline: Self Care (HUI2)||||0.59
82545184|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Week 24: Self Care (HUI2)||||1.00
82545185|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||Month 12: Self Care (HUI2)||||0.55
82545186|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Self Care (HUI2)||||0.14
82545187|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline: Pain (HUI2)||||0.75
82545188|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Week 24: Pain (HUI2)||||0.63
82545189|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 12: Pain (HUI2)||||0.57
82545190|NCT01796236|164789572|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Month 36: Pain (HUI2)||||0.019
82545191|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.047|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Aided)||||0.047
82465021|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.0105||95.0|0.009|0.071|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.071|0.009|0.0105
82465022|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.0179||95.0|0.007|0.072|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.007|0.0179
82465023|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.0236||95.0|0.005|0.072|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.072|0.005|0.0236
82465024|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.037||95.0|0.002|0.073|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.073|0.002|0.0370
82465025|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.037||||0.0464||95.0|0.001|0.074|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.074|0.001|0.0464
82465026|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.0667||95.0|-0.002|0.075|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.075|-0.002|0.0667
82465027|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036||||0.08||95.0|-0.004|0.076|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.076|-0.004|0.0800
82545192|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Aided)||||0.23
82465028|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035||||0.107||95.0|-0.007|0.077|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.077|-0.007|0.1070
82545193|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Aided)||||0.015
82465029|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.1237||95.0|-0.009|0.078|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.078|-0.009|0.1237
82465030|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.1561||95.0|-0.013|0.079|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.079|-0.013|0.1561
82465031|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033||||0.1752||95.0|-0.015|0.08|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.080|-0.015|0.1752
82465032|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.2112||95.0|-0.018|0.081|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.081|-0.018|0.2112
82465033|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.2319||95.0|-0.02|0.082|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.082|-0.020|0.2319
82545194|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Aided)||||0.13
82545195|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Aided)||||0.041
82545196|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Unaided)||||0.071
82545197|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Unaided)||||0.75
82545198|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Unaided)||||0.32
82545199|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Unaided)||||0.24
82545200|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Unaided)||||0.24
82465034|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.2698||95.0|-0.023|0.084|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.084|-0.023|0.2698
82545201|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||Baseline: Ease of Communication (Benefit)||||0.12
82465035|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.291||95.0|-0.025|0.085|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.085|-0.025|0.2910
82465036|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.3293||95.0|-0.029|0.086|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.086|-0.029|0.3293
82465037|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.3504||95.0|-0.031|0.087|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.087|-0.031|0.3504
82465038|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.3881||95.0|-0.034|0.089|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.089|-0.034|0.3881
82465039|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.4086||95.0|-0.036|0.09|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.090|-0.036|0.4086
82545202|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Baseline: Background Noise (Benefit)||||0.19
82465040|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026||||0.4449||95.0|-0.04|0.091|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.091|-0.040|0.4449
82465041|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.4646||95.0|-0.042|0.092|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.092|-0.042|0.4646
82465042|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.499||95.0|-0.046|0.094|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.094|-0.046|0.4990
82465043|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024||||0.5176||95.0|-0.048|0.095|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.095|-0.048|0.5176
82465044|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.023||||0.5501||95.0|-0.051|0.097|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.097|-0.051|0.5501
82465045|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.022||||0.5675||95.0|-0.054|0.098|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.098|-0.054|0.5675
82465046|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021||||0.5979||95.0|-0.057|0.099|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.099|-0.057|0.5979
82545203|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||Baseline: Reverberation (Benefit)||||0.055
82545204|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Baseline: Aversiveness (Benefit)||||0.24
82545205|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||Baseline: Global (Benefit)||||0.042
82545206|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Aided)||||0.19
82545207|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Aided)||||0.99
82545208|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Aided)||||0.24
82545209|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Aided)||||0.73
82465047|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021||||0.6141||95.0|-0.059|0.1|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.100|-0.059|0.6141
82465048|NCT00083889|164626002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.6424||95.0|-0.063|0.102|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-5D Health state index baseline score (intercept and time since randomization are included as random effects)||0.102|-0.063|0.6424
82465049|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.026|||<|0.0001|TWO_SIDED|95.0|2.088|5.965|||Mixed Models Analysis|||Cycle 1 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline Euro-QoL Visual Analog Scale (EQ-VAS) baseline score (intercept and time since randomization are included as random effects).||5.965|2.088|<.0001
82465050|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.165|||<|0.0001||95.0|2.269|6.061|||Mixed Models Analysis|||Cycle 1 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.061|2.269|<.0001
82465051|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.243|||<|0.0001||95.0|2.358|6.128|||Mixed Models Analysis|||Cycle 2 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.128|2.358|<.0001
82465052|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.382|||<|0.0001||95.0|2.494|6.269|||Mixed Models Analysis|||Cycle 2 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.269|2.494|<.0001
82465053|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.459|||<|0.0001||95.0|2.558|6.361|||Mixed Models Analysis|||Cycle 3 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.361|2.558|<.0001
82545210|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Aided)||||0.39
82465054|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.598|||<|0.0001||95.0|2.65|6.547|||Mixed Models Analysis|||Cycle 3 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.547|2.650|<.0001
82465055|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.676|||<|0.0001||95.0|2.689|6.662|||Mixed Models Analysis|||Cycle 4 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.662|2.689|<.0001
82465056|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.815|||<|0.0001||95.0|2.741|6.889|||Mixed Models Analysis|||Cycle 4 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||6.889|2.741|<.0001
82465057|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.892|||<|0.0001||95.0|2.76|7.024|||Mixed Models Analysis|||Cycle 5 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.024|2.760|<.0001
82465058|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.031|||<|0.0001||95.0|2.78|7.283|||Mixed Models Analysis|||Cycle 5 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.283|2.780|<.0001
82465059|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.109|||<|0.0001||95.0|2.783|7.435|||Mixed Models Analysis|||Cycle 6 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.435|2.783|<.0001
82465060|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.248|||<|0.0001||95.0|2.776|7.72|||Mixed Models Analysis|||Cycle 6 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.720|2.776|<.0001
82545211|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Unaided)||||0.24
82545212|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Unaided)||||0.81
82545213|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Unaided)||||0.34
82545214|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Unaided)||||0.038
82545215|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Unaided)||||0.53
82465061|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.325|||<|0.0001||95.0|2.767|7.884|||Mixed Models Analysis|||Cycle 7 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||7.884|2.767|<.0001
82465062|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.464|||<|0.0001||95.0|2.741|8.188|||Mixed Models Analysis|||Cycle 7 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.188|2.741|<.0001
82465063|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.542||||0.0001||95.0|2.723|8.361|||Mixed Models Analysis|||Cycle 8 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.361|2.723|0.0001
82465064|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.681||||0.0002||95.0|2.683|8.679|||Mixed Models Analysis|||Cycle 8 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.679|2.683|0.0002
82465065|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.758||||0.0003||95.0|2.657|8.859|||Mixed Models Analysis|||Cycle 9 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||8.859|2.657|0.0003
82465066|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.898||||0.0004||95.0|2.607|9.188|||Mixed Models Analysis|||Cycle 9 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.188|2.607|0.0004
82465067|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.975||||0.0006||95.0|2.576|9.374|||Mixed Models Analysis|||Cycle 10 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.374|2.576|0.0006
82465068|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.114||||0.0009||95.0|2.517|9.711|||Mixed Models Analysis|||Cycle 10 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.711|2.517|0.0009
82465069|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.191||||0.0011||95.0|2.482|9.9|||Mixed Models Analysis|||Cycle 11 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||9.900|2.482|0.0011
82465070|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.331||||0.0015||95.0|2.417|10.244|||Mixed Models Analysis|||Cycle 11 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.244|2.417|0.0015
82465071|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.408||||0.0018||95.0|2.379|10.436|||Mixed Models Analysis|||Cycle 12 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.436|2.379|0.0018
82465072|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.547||||0.0025||95.0|2.309|10.785|||Mixed Models Analysis|||Cycle 12 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.785|2.309|0.0025
82465073|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.624||||0.0029||95.0|2.269|10.98|||Mixed Models Analysis|||Cycle 13 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||10.980|2.269|0.0029
82465074|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.764||||0.0037||95.0|2.195|11.332|||Mixed Models Analysis|||Cycle 13 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.332|2.195|0.0037
82465075|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.841||||0.0042||95.0|2.153|11.529|||Mixed Models Analysis|||Cycle 14 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.529|2.153|0.0042
82465076|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.98||||0.0053||95.0|2.076|11.884|||Mixed Models Analysis|||Cycle 14 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||11.884|2.076|0.0053
82465077|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.057||||0.0059||95.0|2.032|12.083|||Mixed Models Analysis|||Cycle 15 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.083|2.032|0.0059
82465078|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.197||||0.0072||95.0|1.953|12.441|||Mixed Models Analysis|||Cycle 15 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.441|1.953|0.0072
82465079|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.274||||0.0079||95.0|1.908|12.64|||Mixed Models Analysis|||Cycle 16 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||12.640|1.908|0.0079
82465080|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.413||||0.0093||95.0|1.826|13.0|||Mixed Models Analysis|||Cycle 16 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.000|1.826|0.0093
82465081|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.491||||0.0101||95.0|1.78|13.201|||Mixed Models Analysis|||Cycle 17 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.201|1.780|0.0101
82465082|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.63||||0.0117||95.0|1.697|13.562|||Mixed Models Analysis|||Cycle 17 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.562|1.697|0.0117
82465083|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.707||||0.0126||95.0|1.65|13.764|||Mixed Models Analysis|||Cycle 18 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||13.764|1.650|0.0126
82465084|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.846||||0.0144||95.0|1.565|14.127|||Mixed Models Analysis|||Cycle 18 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.127|1.565|0.0144
82465085|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.924||||0.0153||95.0|1.518|14.329|||Mixed Models Analysis|||Cycle 19 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.329|1.518|0.0153
82465086|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.063||||0.0172||95.0|1.432|14.693|||Mixed Models Analysis|||Cycle 19 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.693|1.432|0.0172
82465087|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.14||||0.0182||95.0|1.384|14.896|||Mixed Models Analysis|||Cycle 20 Day 1: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||14.896|1.384|0.0182
82465088|NCT00083889|164626003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.279||||0.0201||95.0|1.297|15.261|||Mixed Models Analysis|||Cycle 20 Day 28: Differences in effect estimates between treatment arms. Repeated measures mixed-effects model with an intercept term, treatment, time since randomization, treatment-by-time interaction, and baseline EQ-VAS baseline score (intercept and time since randomization are included as random effects)||15.261|1.297|0.0201
82465089|NCT03668873|164626044|SUPERIORITY||Difference of Least Squares Means|-1.85|||<|0.001|TWO_SIDED|95.0|-2.88|-0.81||Threshold for significance was p=0.05.|Mixed Models Analysis|Mixed models with repeated measures with fixed effects for baseline CSI, treatment, week as a categorical variable, and treatment-week interaction.|Treatment difference = SPT minus SPE.|The null hypothesis was that the SPE and SPT groups did not differ on change in CSI score at 10 weeks. Assuming a standard deviation of 2.5 units and an attrition rate of 10%, an enrollment target of 90 participants would provide 90% power to detect a difference of 1.85 points or greater with a type I error rate of 0.05 using a two-tailed two-sample t-test.||-0.81|-2.88|<0.001
82465090|NCT03668873|164626045|SUPERIORITY||Absolute percent difference|24.0||||0.037|TWO_SIDED|95.0|2.0|46.0||Threshold for significance was 0.05|Chi-squared||Difference = SPT minus SPE.|The null hypothesis was that the SPE and SPT groups did not differ on the rate of positive response to CGI-I at 10 weeks. Assuming a 25%-40% positive response rate at 10 weeks in the SPE group and 45 patients per group, power was 90% to detect a 32% or greater difference in positive response rate (57%-72% in SPT group, respectively), with a type I error rate of 0.05 using a Chi-square test.||46|2|0.037
82465091|NCT03668873|164626046|SUPERIORITY|||||||0.81||||||threshold for significant 0.05|Mixed Models Analysis|||||||0.81
82465092|NCT03668873|164626047|SUPERIORITY|||||||0.77||||||Threshold for significance was 0.05|Mixed Models Analysis|||||||0.77
82465093|NCT03668873|164626048|SUPERIORITY|||||||0.003||||||Threshold for significance was 0.05|Mixed Models Analysis|||||||0.003
82465094|NCT04267380|164626056|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||||||0.73
82465095|NCT04267380|164626057|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82579017|NCT02672852|164867484|OTHER||Adjusted percentage difference|76.5|||<|0.001|TWO_SIDED|95.0|70.4|82.5|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||82.5|70.4|< 0.001
82579018|NCT02672852|164867485|OTHER||Adjusted percentage difference|25.9|||<|0.001|TWO_SIDED|95.0|17.3|34.6|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||34.6|17.3|< 0.001
82579019|NCT02672852|164867486|OTHER||Adjusted percentage difference|80.6|||<|0.001|TWO_SIDED|95.0|74.5|86.6|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||86.6|74.5|< 0.001
82579020|NCT02672852|164867487|OTHER||Adjusted percentage difference|45.5|||<|0.001|TWO_SIDED|95.0|40.3|50.8|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||50.8|40.3|< 0.001
82579021|NCT02672852|164867488|OTHER||Adjusted percentage difference|44.8|||<|0.001|TWO_SIDED|95.0|39.5|50.0|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||50.0|39.5|< 0.001
82579022|NCT02672852|164867489|OTHER||Adjusted percentage difference|62.1|||<|0.001|TWO_SIDED|95.0|56.4|67.9|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||67.9|56.4|< 0.001
82579023|NCT02672852|164867490|OTHER||Adjusted percentage difference|73.9|||<|0.001|TWO_SIDED|95.0|66.0|81.9|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||81.9|66.0|< 0.001
82579024|NCT02672852|164867491|OTHER||Adjusted percentage difference|21.2|||<|0.001|TWO_SIDED|95.0|13.7|28.7|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||28.7|13.7|< 0.001
82579025|NCT02672852|164867492|OTHER||Adjusted percentage difference|33.1|||<|0.001|TWO_SIDED|95.0|24.0|42.2|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||42.2|24.0|< 0.001
82579026|NCT02672852|164867493|OTHER||Adjusted percentage difference|33.7|||<|0.001|TWO_SIDED|95.0|23.2|44.2|||Cochran-Mantel-Haenszel|||Across strata, P value was calculated from the CMH test adjusted for strata. Within each stratum, P value was calculated based on the chi-square test (or Fisher's exact test if ≥25% of the cells had expected cell count \<5).||44.2|23.2|< 0.001
82579027|NCT03248882|164867494|SUPERIORITY||Mean Difference (Net)|-10.7|||||TWO_SIDED|80.0|-19.4|-1.1||||||||-1.1|-19.4|
82579028|NCT03248882|164867494|SUPERIORITY||Mean Difference (Net)|-46.0|||||TWO_SIDED|80.0|-51.3|-40.1||||||||-40.1|-51.3|
82579029|NCT03248882|164867494|SUPERIORITY||Mean Difference (Net)|-52.4|||||TWO_SIDED|80.0|-57.2|-47.1||||||||-47.1|-57.2|
82579030|NCT03248882|164867494|SUPERIORITY||Mean Difference (Net)|-62.1|||||TWO_SIDED|80.0|-66.0|-57.8||||||||-57.8|-66.0|
82579031|NCT03248882|164867495|SUPERIORITY||Mean Difference (Net)|-4.4|||||TWO_SIDED|80.0|-14.0|6.3||||||||6.3|-14.0|
82579032|NCT03248882|164867495|SUPERIORITY||Mean Difference (Net)|-21.0|||||TWO_SIDED|80.0|-29.0|-12.2||||||||-12.2|-29.0|
82579033|NCT03248882|164867495|SUPERIORITY||Mean Difference (Net)|-25.0|||||TWO_SIDED|80.0|-32.8|-16.1||||||||-16.1|-32.8|
82579034|NCT03248882|164867495|SUPERIORITY||Mean Difference (Net)|-41.8|||||TWO_SIDED|80.0|-47.9|-35.0||||||||-35.0|-47.9|
82579035|NCT04308590|164867500|EQUIVALENCE|The primary analysis will determine whether there is a difference between treatment groups in terms of change from Baseline to Week 22 in 24-hour average SBP. This was performed using a linear mixed-model-for-repeated-measures (MMRM) analysis using a placebo wash-out multiple imputation for treatment discontinuation and for patients that use rescue medication.|Least squares mean difference|-2.67||||0.416|TWO_SIDED|95.0|-9.096|3.766|||Mixed Models Analysis|||||3.766|-9.096|0.4160
82579036|NCT02175641|164867675|OTHER|Generalized linear mixed-effects models with a logistic link|Odds Ratio (OR)|1.07|||>|0.05|TWO_SIDED|95.0|0.62|1.84|||Regression, Logistic|||||1.84|0.62|>0.05
82579037|NCT02175641|164867676|OTHER|Mixed effect models controlling for study site.|Time by treatment interaction coefficien|0.15|STANDARD_ERROR_OF_MEAN|0.59||0.804|TWO_SIDED||||||Mixed Models Analysis|||||||0.804
82579038|NCT02175641|164867677|OTHER||Time*treatment interaction coefficient|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.91|TWO_SIDED||||||Mixed Models Analysis|||||||0.91
82579039|NCT02175641|164867678|OTHER|Mixed effect models controlling for study site.|time*treatment interaction coefficient|-0.34|STANDARD_ERROR_OF_MEAN|0.74||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
82579040|NCT02175641|164867679|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.38|TWO_SIDED||||||Mixed Models Analysis|||||||0.38
82579041|NCT02175641|164867680|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.02|STANDARD_ERROR_OF_MEAN|0.02||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||0.39
82579042|NCT02175641|164867681|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|0.23|STANDARD_ERROR_OF_MEAN|0.37||0.52|TWO_SIDED||||||Mixed Models Analysis|||||||0.52
82579043|NCT02175641|164867682|OTHER|Mixed effect models controlling for study site.|Time*treatment interaction coefficient|3.83|STANDARD_ERROR_OF_MEAN|3.28||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
82650206|NCT02462421|165015515|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.53||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.53
82465096|NCT04267380|164626058|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
82465097|NCT04267380|164626059|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
82465098|NCT04267380|164626060|SUPERIORITY|||||||0.33|||||||Chi-squared|||||||0.33
82465099|NCT04267380|164626061|SUPERIORITY|||||||0.07|||||||Chi-squared|||||||0.07
82465100|NCT04267380|164626062|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
82465101|NCT04267380|164626063|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
82465102|NCT04267380|164626065|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
82465103|NCT04267380|164626066|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||||||0.53
82465104|NCT04267380|164626067|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
82465105|NCT04267380|164626068|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||||||0.83
82465106|NCT04267380|164626069|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82465107|NCT04267380|164626070|SUPERIORITY|||||||0.86|||||||t-test, 2 sided|||||||0.86
82465108|NCT04267380|164626071|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
82465109|NCT04267380|164626072|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||||||0.99
82465110|NCT04267380|164626073|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
82465111|NCT04267380|164626074|SUPERIORITY|||||||0.63|||||||Chi-squared|||||||0.63
82465112|NCT04267380|164626075|SUPERIORITY|||||||0.25|||||||Chi-squared|||||||0.25
82465113|NCT01601535|164626125|OTHER|||||||0.14||||||MYCN Amplified vs. MYCN not Amplified|Fisher Exact|||||||0.14
82465114|NCT01601535|164626125|OTHER|||||||0.21|||||||Fisher Exact|MYCN Amplified or Myc Positive vs. MYCN Non-amplified and Myc Negative||||||0.21
82465115|NCT01601535|164626125|OTHER|||||||1|||||||Fisher Exact|Aurora A protein Positive vs. Aurora A protein Negative||||||1.0
82465116|NCT01601535|164626126|OTHER|||||||0.094||||||UGT1A1 6\\6 vs. UGT1A1 6\\7 vs. UGT1A1 7\\7|Fisher Exact|||||||0.094
82465117|NCT01601535|164626126|OTHER|||||||0.63||||||UGT1A1 6\\6 vs. UGT1A1 6\\7 vs. UGT1A1 7\\7|Fisher Exact|||||||0.63
82465118|NCT01601535|164626127|OTHER|||||||0.9||||||AurkA Codon 31 Summary H vs. AurkA Codon 31 Summary V vs. AurkA Codon 31 Summary W|Fisher Exact|||||||0.90
82465119|NCT01601535|164626127|OTHER|||||||1||||||AurkA Codon 57 Summary H vs. AurkA Codon 57 Summary W|Fisher Exact|||||||1.0
82490336|NCT02569671|164673550|NON_INFERIORITY|"is less than the non-inferiority margin (indicating non-inferior bone gain).~The hypotheses associated with the primary analysis are defined as:~H0: µc - µs ≥ δ H1: µc - µs \< δ where µc is the mean change in crestal bone levels from implant loading to 12 months post-implant loading for the treatment group, µs is the mean change for the control group, and δ is the 0.5 mm non-inferiority margin. The hypotheses will be tested using a one-sided t-test with a 5% significance level."|Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.5||0.95|ONE_SIDED|95.0||||SD for both test and control group is 0.5 mm, A difference between groups of ≥ 0.5 mm is considered clinically significant, The difference between the treatment groups is expected to be 0 mm, Statistical test will be one-sided 5% significance level.|t-test, 1 sided|The hypotheses will be tested using a one-sided t-test with a 5% significance level.|The hypotheses will be tested using a one-sided t-test with a 5% significance level.|The null hypothesis for the primary analysis is that the difference between the mean change in crestal bone levels for the treatment and control groups is at least the non-inferiority margin (indicating inferior bone gain). Rejection of the null hypothesis indicates the observed data supports the alternative hypothesis that the difference between the mean change in crestal bone levels for the treatment and control groups|The change in mean bone level from implant loading to 12-month follow-up was calculated. Change in crestal bone levels was calculated as the crestal bone level at 12-months post implant loading minus crestal bone level at implant loading.|||.950
82490337|NCT02569671|164673552|NON_INFERIORITY|Smaller bone dimensional thickness of the buccal plate measurements indicates less bone loss and better healing.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.3||0.022|ONE_SIDED|95.0|||||t-test, 1 sided|The hypotheses will be tested using a one-sided t-test with a 5% significance level.||All secondary effectiveness endpoints were planned to be summarized descriptively, and no hypothesis tests was planned.||||0.022
82490338|NCT02612129|164673559|SUPERIORITY||Least Square (LS) Mean Difference|-1.4||||0.0456|TWO_SIDED|95.0|-2.76|-0.03|||GLMM for Repeated Measures|||A general linear mixed model (GLMM) for repeated measurements was used for the analysis of NPC disease severity assessed based on the 5-domain NPCCSS scores at Month 12. The general linear mixed model analysis for repeated measures was fitted with treatment, miglustat level and visit as fixed effects including treatment-by-visit interaction and baseline score as a covariate.||-0.03|-2.76|0.0456
82490339|NCT02612129|164673560|SUPERIORITY|||||||1|||||||Chi-squared Test|||||||1.0000
82490340|NCT02612129|164673561|SUPERIORITY|||||||0.5456|||||||Chi-squared Test|||||||0.5456
82490341|NCT02612129|164673562|SUPERIORITY|||||||0.8021|||||||Log-Rank Test|||Log-rank test had been stratified by miglustat use.||||0.8021
82490342|NCT02612129|164673563|SUPERIORITY|||||||0.3662|||||||Fisher's Exact Test|||Percentage of participants worsening at Month 6||||0.3662
82490343|NCT02612129|164673563|SUPERIORITY|||||||1|||||||Fisher's Exact Test|||Percentage of participants worsening at Month 12||||1.0000
82490344|NCT02612129|164673564|SUPERIORITY||LS Mean Difference|-1.69||||0.1546|TWO_SIDED|95.0|-4.04|0.66|||ANCOVA|||Change From Baseline in 17-Domain NPCCSS Apart from Hearing Domains (i.e. Hearing and Auditory Brainstem Response) at Month 6 was analyzed using the Analysis of covariance (ANCOVA) model. ANCOVA model was fitted with treatment, baseline full-scale NPCCSS apart from hearing domains score, and use of miglustat as covariates.||0.66|-4.04|0.1546
82490345|NCT02612129|164673564|SUPERIORITY||LS Mean Difference|-1.61||||0.2199|TWO_SIDED|95.0|-4.24|1.01|||ANCOVA|||Change From Baseline in 17-Domain NPCCSS Apart from Hearing Domains (i.e. Hearing and Auditory Brainstem Response) at Month 12 was analyzed using the ANCOVA model. ANCOVA model is fitted with treatment, baseline full-scale NPCCSS apart from hearing domains score, and use of miglustat as covariates.||1.01|-4.24|0.2199
82490346|NCT02612129|164673565|SUPERIORITY||Least Square (LS) Mean Difference|-1.11||||0.0188|TWO_SIDED|95.0|-2.03|-0.19|||ANCOVA|||An ANCOVA model was fitted with treatment, baseline 5-domain NPCCSS score, and use of miglustat as covariates.||-0.19|-2.03|0.0188
82490347|NCT02612129|164673567|SUPERIORITY||LS Mean Difference|-5.09||||0.0536|TWO_SIDED|95.0|-10.26|0.08|||ANCOVA|||"Change from baseline in the NPC-CDB score (modified Stampfer Score) at Month 6 was analyzed using the ANCOVA model. ANCOVA model was fitted with treatment, baseline NPC-CDB total score and use of miglustat as covariates."||0.08|-10.26|0.0536
82465120|NCT01428258|164626180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-147.0|STANDARD_ERROR_OF_MEAN|39.0||0.0008|TWO_SIDED||||||ANCOVA|||||||0.0008
82465121|NCT01428258|164626180|OTHER|||||||0.136|||||||ANCOVA|||||||0.136
82465122|NCT01428258|164626180|OTHER|||||||0.044|||||||ANCOVA|||||||0.044
82465123|NCT01428258|164626181|OTHER|||||||0.576|||||||ANOVA|||||||0.576
82465124|NCT01428258|164626182|OTHER|||||||0.902|||||||t-test, 2 sided|||||||0.902
82465125|NCT01428258|164626183|OTHER|||||||0.797|||||||t-test, 2 sided|||||||0.797
82465126|NCT01428258|164626184|OTHER|||||||0.0001|||||||ANOVA|||||||0.0001
82465127|NCT04742556|164626234|OTHER||Probability of true DLT rate in [0.33-1]|0.0051||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82465128|NCT04742556|164626234|OTHER||Probability of true DLT rate in [0.33-1]|0.03105||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82545216|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Week 24: Ease of Communication (Benefit)||||0.63
82545217|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Week 24: Background Noise (Benefit)||||0.83
82579044|NCT02233803|164867711|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority (NI) is demonstrated as the lower limit of CI for the difference is greater than the pre-specified NI margin of -1.25ML. The lower limit of the 95% CI for the treatment difference (NEUMOTEROL 400 -Symbicort Forte) was greater than the pre-specified non-inferiority margin of -1.25 mL.|Difference of LS means|0.044|||||TWO_SIDED|95.0|-0.008|0.096||||||Sample size calculations are based on the primary efficacy endpoint (change from baseline in trough FEV1 at day 29). Assuming a within-subject standard deviation of 210 mL, 168 completed subjects are required to demonstrate the non-inferiority of BFF 400/12 mcg SINGLE CAPSULE INHALER and BFF 320/9 mcg TURBUHALER BID, assuming a true difference of -50 mL with 90% power and a 2.5% one-sided significance level. The pre-specified NI margin is set at -1.25mL.||0.096|-0.008|
82465129|NCT04742556|164626234|OTHER||Probability of true DLT rate in [0.33-1]|0.27405||||||||||||||Probability of true DLT rate was determined using a Bayesian 2-parameter logistic regression model with overdose control.||||
82465130|NCT03305666|164626243|NON_INFERIORITY|Statistical analyses were conduced using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.12|||||||ANOVA|||||||0.12
82465131|NCT03305666|164626244|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.41|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #1.||||0.41
82465132|NCT03305666|164626244|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.25|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #2.||||0.25
82465133|NCT03305666|164626244|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.12|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #3.||||0.12
82465134|NCT03305666|164626244|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.04|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #4.||||0.04
82465135|NCT03305666|164626244|NON_INFERIORITY|Statistical analyses were conducted using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.32|||||||ANOVA|||This is the P-Value for between groups comparison of Postoperative Day #5.||||0.32
82465136|NCT03305666|164626245|NON_INFERIORITY|Statistical analyses were conduced using SAS version 9.4. This non-inferiority test was conducted via a one-way ANOVA test, with statistical significance set at p \< 0.05.||||||0.23|||||||ANOVA|||||||0.23
82465137|NCT02546609|164626249|OTHER|||||||0.0572|||||||ANCOVA|||Analysis of variance (ANOVA) model: with treatment group as the factor. Placebo is used as the reference group.||||0.0572
82465138|NCT02546609|164626249|OTHER|||||||0.377|||||||ANCOVA|||Analysis of variance (ANOVA) model: with treatment group as the factor. Placebo is used as the reference group.||||0.3770
82465139|NCT02546609|164626250|OTHER|||||||0.3811|||||||Mixed Effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3811
82465140|NCT02546609|164626250|OTHER|||||||0.8479|||||||Mixed Effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8479
82465141|NCT02546609|164626251|OTHER|||||||0.7742|||||||Mixed effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.7742
82465142|NCT02546609|164626251|OTHER|||||||0.6666|||||||Mixed effect Model Repeat Measurement|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6666
82465143|NCT02546609|164626252|OTHER|||||||0.002|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0020
82545218|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Week 24: Reverberation (Benefit)||||0.71
82545219|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Week 24: Aversiveness (Benefit)||||0.16
82545220|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Week 24: Global (Benefit)||||0.81
82545221|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Aided)||||0.51
82545222|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Aided)||||0.47
82545223|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.93|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Aided)||||0.93
82545224|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Aided)||||0.62
82545225|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Aided)||||0.63
82545226|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Unaided)||||0.18
82579045|NCT02233803|164867712|SUPERIORITY_OR_OTHER||Difference of LS means|0.98|||||TWO_SIDED|95.0|0.576|1.384||||||||1.384|0.576|
82579046|NCT02233803|164867713|SUPERIORITY_OR_OTHER||Difference of LS means|0.6|||||TWO_SIDED|95.0|0.1|1.1||||||||1.1|0.1|
82579047|NCT03548220|164867961|SUPERIORITY||||||<|0.0001||||||2-sided p-value|Exact Cochran-Mantel-Haenszel|||||||<0.0001
82579048|NCT03548220|164867962|SUPERIORITY||LS Mean Difference|18.21|||<|0.0001|TWO_SIDED|95.0|12.41|24.01|||Mixed-effect Model Repeated Measure||Standard error = 2.913|||24.01|12.41|<0.0001
82650207|NCT02462421|165015515|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.92
82465144|NCT02546609|164626252|OTHER|||||||0.0164|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0164
82465145|NCT02546609|164626253|OTHER|||||||0.4099|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4099
82465146|NCT02546609|164626253|OTHER|||||||0.1455|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.1455
82465147|NCT02546609|164626254|OTHER|||||||0.2559|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.2559
82465148|NCT02546609|164626254|OTHER|||||||0.9776|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.9776
82465149|NCT02546609|164626255|OTHER|||||||0.2265|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.2265
82465150|NCT02546609|164626255|OTHER|||||||0.8366|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8366
82465151|NCT02546609|164626256|OTHER|||||||0.347|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3470
82465152|NCT02546609|164626256|OTHER|||||||0.6221|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6221
82465153|NCT02546609|164626257|OTHER|||||||0.347|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3470
82465154|NCT02546609|164626257|OTHER|||||||0.6221|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.6221
82465155|NCT02546609|164626258|OTHER|||||||0.0129|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.0129
82545227|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Unaided)||||0.76
82545228|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Unaided)||||0.17
82545229|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Unaided)||||0.29
82545230|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Unaided)||||0.40
82545231|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Month 12: Ease of Communication (Benefit)||||0.29
82545232|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Month 12: Background Noise (Benefit)||||0.90
82545233|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Month 12: Reverberation (Benefit)||||0.24
82545234|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Month 12: Aversiveness (Benefit)||||0.45
82579049|NCT03548220|164867965|SUPERIORITY||LS Mean Difference|-26.26|||<|0.0001|TWO_SIDED|95.0|-37.82|-14.7|||Mixed-effect Model Repeated Measure||Standard error = 5.788|||-14.70|-37.82|<0.0001
82579050|NCT03548220|164867966|SUPERIORITY||LS Mean Difference|-70.81||||0.0027|TWO_SIDED|95.0|-115.88|-25.74|||Mixed-effect Model Repeated Measure||Standard error = 22.488|||-25.74|-115.88|0.0027
82579051|NCT03548220|164867967|SUPERIORITY||LS Mean Difference|0.158||||0.0079|TWO_SIDED|95.0|0.043|0.273|||Mixed-effect Model Repeated Measure||Standard error = 0.0578|||0.273|0.043|0.0079
82579052|NCT03548220|164867968|SUPERIORITY||LS Mean Difference|-0.1011|||<|0.0001|TWO_SIDED|95.0|-0.1391|-0.0632|||Mixed-effect Model Repeated Measure||Standard error = 0.01904|||-0.0632|-0.1391|<0.0001
82579053|NCT03548220|164867969|SUPERIORITY||LS Mean Difference|-3.11||||0.0247|TWO_SIDED|95.0|-5.8|-0.41|||Mixed-effect Model Repeated Measure||Standard error = 1.352|||-0.41|-5.80|0.0247
82650208|NCT02462421|165015516|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.|||||<|0.01||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||<0.01
82545235|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||Month 12: Global (Benefit)||||0.37
82465156|NCT02546609|164626258|OTHER|||||||0.4316|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4316
82545236|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Aided)||||0.84
82465157|NCT02546609|164626259|OTHER|MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||||0.1946|||||||MMRM|||||||0.1946
82465158|NCT02546609|164626259|OTHER|||||||0.4697|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.4697
82465159|NCT02546609|164626260|OTHER|||||||0.3474|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.3474
82465160|NCT02546609|164626260|OTHER|||||||0.8832|||||||MMRM|||MMRM model: with treatment group, visit, and treatment-by-visit interaction as fixed effects, the baseline value of the response variable as a covariate, and subject as a random effect. Placebo is used as the reference group.||||0.8832
82465161|NCT02212015|164626266|OTHER||Rate|0.46|||||TWO_SIDED|||||||||Question is, if 6 months progression free survival rate (PFS-R) denoted by pPFS is higher than 35%. Test hypothesis is thus formulated as: H0: pPFS ≤0.35 versus H1: pPFS ≥0.35. This hypothesis is tested at the one-side significance level of 0.05. A 6 months PFS-R of 0.55 of cases or more is considered as clinically relevant success rate. The design is chosen such that rates of 0.55 or higher can be detected with a power of at least 0.8.||||
82465162|NCT02212015|164626267|SUPERIORITY||Rate difference|0.486|||||TWO_SIDED|||||||||||||
82545237|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Aided)||||0.57
82465163|NCT02212015|164626268|SUPERIORITY||Rate difference|0.0|||||TWO_SIDED|||||||||||||
82465164|NCT02212015|164626269|OTHER||Median|21.6|||||TWO_SIDED|||||||||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||
82465165|NCT02212015|164626270|SUPERIORITY|||||||0.752|||||||Log Rank|||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) for subgroup 1 was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||0.752
82465166|NCT02212015|164626271|SUPERIORITY|||||||0.621|||||||Log Rank|||"The analysis of secondary endpoints is of descriptive nature and generally consists of summary statistics and interval estimation.~Overall survival (OS) for subgroup 2 was defined as the time of start of treatment until death (event status=1) or last contact (censoring, event status=0). OS was analyzed using Kaplan-Meier curves. Median survival time is provided alonsgside two-sided 95% confidence interval (CI), if possible."||||0.621
82465167|NCT02212015|164626272|OTHER||||||||||||||||||Frequency of each category is given|||
82465168|NCT02212015|164626273|SUPERIORITY|||||||0.349|||||||Chi squared test, exact|||Response Rate (RR) is given as Best Overall Response (BOR) and given be absolute and relative frequencies. Categories of BOR are CR, PR, SD, PD and NE)|Response Rate (RR) is given as Best Overall Response (BOR) and given be absolute and relative frequencies applied to the total of 26 enrolled subjects.. Categories of BOR are CR, PR, SD, PD and NE).|||0.349
82465169|NCT02212015|164626274|SUPERIORITY|||||||0.385|||||||Chi squared test, exact|||||||0.385
82465170|NCT03448406|164626347|SUPERIORITY||Median difference (HL-estimate)|4.0||||0.366|TWO_SIDED|95.0|-5.0|13.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodge-Lehman (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||13.0|-5.0|0.3660
82465171|NCT03448406|164626348|SUPERIORITY||Median difference (HL-estimate)|2.08||||0.2783|TWO_SIDED|95.0|-2.08|6.25|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||6.25|-2.08|0.2783
82465172|NCT03448406|164626349|SUPERIORITY||Median difference (HL-estimate)|-0.07||||0.5512|TWO_SIDED|95.0|-0.35|0.2|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||0.20|-0.35|0.5512
82465173|NCT03448406|164626350|SUPERIORITY||Median Difference (HL-estimate)|3.0||||0.3657|TWO_SIDED|95.0|-4.0|11.0|||Wilcoxon rank test, normal approximation||Empagliflozin vs. Placebo. For estimation of effect, the non-parametric Hodges-Lehmann (HL) estimate for the median difference was calculated.|H0: There is no difference between the effect of Placebo and the effect of empagliflozin.||11.0|-4.0|0.3657
82545238|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Aided)||||0.71
82545239|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.99|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Aided)||||0.99
82545240|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Aided)||||0.78
82545241|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Unaided)||||0.50
82545242|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Unaided)||||0.48
82545243|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Unaided)||||0.64
82545244|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Unaided)||||0.041
82545245|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Unaided)||||0.89
82545246|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Month 36: Ease of Communication (Benefit)||||0.14
82545247|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||Month 36: Background Noise (Benefit)||||0.48
82545248|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Month 36: Reverberation (Benefit)||||0.23
82545249|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||Month 36: Aversiveness (Benefit)||||0.57
82545250|NCT01796236|164789573|SUPERIORITY_OR_OTHER|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||Month 36: Global (Benefit)||||0.21
82545251|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Sound Processor Usage: Week 6||||0.46
82545252|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Week 12||||0.75
82545253|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Week 24||||0.83
82545254|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 12||||0.52
82545255|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 24||||0.67
82545256|NCT01796236|164789574|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||Use of Sound Processor: Month 36||||0.71
82465174|NCT03448406|164626351|OTHER||Difference of adjusted mean|-0.09|STANDARD_DEVIATION|0.11||0.444|TWO_SIDED|95.0|-0.31|0.14|||Mixed Model Repeated Measure (MMRM)|Covariates: visit-by-treatment interaction, baseline-by-visit interaction. Unstructured covariance structure was used to model within-patient errors.||||0.14|-0.31|0.4440
82465175|NCT03448406|164626352|OTHER|||||||0.3924|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.3924
82465176|NCT03448406|164626353|OTHER|||||||0.4435|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.4435
82465177|NCT03448406|164626354|OTHER|||||||0.5124|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5124
82545257|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.91|||||||Mantel Haenszel|||Baseline: Smoking and Wet Snuff habits||||0.91
82545258|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.7|||||||Mantel Haenszel|||Week 3: Smoking and Wet Snuff habits||||0.70
82545259|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.95|||||||Mantel Haenszel|||Week 12: Smoking and Wet Snuff habits||||0.95
82545260|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.22|||||||Mantel Haenszel|||Month 12: Smoking and Wet Snuff habits||||0.22
82545261|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.19|||||||Mantel Haenszel|||Month 24: Smoking and Wet Snuff habits||||0.19
82545262|NCT01796236|164789576|SUPERIORITY_OR_OTHER|||||||0.45|||||||Mantel Haenszel|||Month 36: Smoking and Wet Snuff habits||||0.45
82545263|NCT01796236|164789577|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.989|TWO_SIDED|95.0|||||Log Rank|||Loss of Implant (safety population)||||0.989
82545264|NCT00895531|164789581|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
82545265|NCT01195883|164789582|SUPERIORITY||Risk Ratio (RR)|0.9||||0.51|TWO_SIDED|95.0|0.65|1.23|||GEE model|||||1.23|0.65|0.51
82545266|NCT01195883|164789583|SUPERIORITY||Risk Ratio (RR)|0.95||||0.42|TWO_SIDED|95.0|0.81|1.11|||Chi-squared|||||1.11|0.81|0.42
82545267|NCT01195883|164789584|SUPERIORITY||Risk Ratio (RR)|0.89||||0.26|TWO_SIDED|95.0|0.72|1.09|||Chi-squared|||||1.09|0.72|0.26
82545268|NCT01195883|164789585|SUPERIORITY||Odds Ratio (OR)|1.33||||0.4|TWO_SIDED|95.0|0.69|2.58|||Chi-squared|||||2.58|0.69|0.40
82545269|NCT03337399|164789593|NON_INFERIORITY|Non-inferiority of stepped PC was established if the lower one-sided 95% confidence limit for the estimated difference in means was greater than the pre-specified margin of -4.5 points, which corresponds to the one-sided 5% significance level test against this margin.|Mean Difference (Final Values)|2.9|||<|0.05|ONE_SIDED|95.0|-0.01||||Regression, Linear|||The difference in week 24 means between groups was estimated using a linear regression model adjusted for baseline FACT-L score.|||-.01|<0.05
82545270|NCT03337399|164789594|NON_INFERIORITY|Pre-specified margin of -10%.|Estimated Proportions|-2.6|||<|0.15|ONE_SIDED|95.0|-10.4|||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15.|Regression, Linear|||Non-inferiority of stepped PC in the proportion reporting patient-clinician communication about end-of-life care at each patient's final follow-up assessment was evaluated using a binomial generalized linear model with identity link and a one-sided test against the pre-specified margin of -10%.|||-10.4|<0.15
82545271|NCT03337399|164789595|NON_INFERIORITY|Pre-specified margin of -7 days|Median Difference (Final Values)|-15.2||||0.15|ONE_SIDED|95.0|-25.1|||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15.|Regression, Linear|||Among patients who died, non-inferiority of stepped PC in the mean length of stay in hospice was assessed using linear regression and a one-sided test against the pre-specified margin of -7 days, based upon published quality metrics.|||-25.1|0.15
82545272|NCT03337399|164789596|SUPERIORITY||Median Difference (Final Values)|-2.3||||0.15|TWO_SIDED|95.0|-2.7|-1.8||We used a false discovery rate (FDR) control approach to interpret the results of significance tests of the three secondary outcomes with an FDR of 0.15|Regression, Linear|||The difference between groups in the mean number of outpatient PC visits per patient by week 24 was assessed using linear regression and a two-sided superiority test.||-1.8|-2.7|0.15
82545273|NCT00603954|164789600|SUPERIORITY|||||||0.508|||||||Multivariate Cox models|||||||0.508
82545274|NCT00603954|164789600|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||At day 180||||0.02
82545275|NCT00603954|164789600|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||At Day 365||||0.002
82545276|NCT00603954|164789601|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||At day 100||||0.09
82545277|NCT00603954|164789601|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||At Day 40||||0.03
82545278|NCT00603954|164789601|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||At Day 180||||0.01
82545279|NCT00603954|164789602|SUPERIORITY|||||||0.0165|||||||Multivariate Cox models|||||||0.0165
82465178|NCT03448406|164626355|OTHER|||||||0.5713|||||||Cochran-Mantel-Haenszel test|Test on difference in mean treatment scores, based on modified ridit scores.||||||0.5713
82545280|NCT00603954|164789602|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|||||Mutivariate|||||||0.010
82579054|NCT03548220|164867970|SUPERIORITY||LS Mean Difference|-3.25||||0.0421|TWO_SIDED|95.0|-6.39|-0.12|||Mixed-effect Model Repeated Measure||Standard error = 1.574|||-0.12|-6.39|0.0421
82465179|NCT03448406|164626356|OTHER||Adjusted geometric mean ratio|0.95||||0.4032|TWO_SIDED|95.0|0.85|1.07|||Mixed model repeated Measure (MMRM)|Covariates: Visit-by-treatment interaction and baseline-by-visit interaction. Unstructured covariance structure to model within-patient errors.|Adjusted geometric mean ratio \[Empagliflozin/Placebo\] of relative change to baseline.|||1.07|0.85|0.4032
82465180|NCT01292486|164626357|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 2 days.|Median Difference (Final Values)|0.0|||<|0.025|TWO_SIDED|95.0|0.0|0.0|||Hodges-Lehman estimation|||The null hypothesis was that the median day to neutrophil recovery in this study was more than two days longer than historical controls.||0.0|0.0|<0.025
82465181|NCT03882021|164626370|OTHER||Kaplan Meier Survival Estimate|57.2|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|51.2|62.8|||||Kaplan-Meier estimate of freedom from recurrence after removal from AAD at one year.|||62.8|51.2|
82465182|NCT03882021|164626371|OTHER|Kaplan Meier Estimate of freedom from symptomatic recurrence.|Kaplan-Meier Survival Estimate|61.7|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|55.8|67.1|||||Kaplan-Meier estimate of freedom from symptomatic AF/AFL/AT recurrence after removal from AAD|||67.1|55.8|
82465183|NCT03882021|164626372|OTHER|Kaplan Meier estimate of single procedure clinical success.|Kaplan-Meier Survival Estimate|79.4|STANDARD_ERROR_OF_MEAN|2.4|||TWO_SIDED|95.0|74.2|83.6|||||Kaplan-Meier estimate of freedom from symptomatic AF/AFL/AT without new or increased dose of Class I/III AAD at one year.|||83.6|74.2|
82465184|NCT03882021|164626373|OTHER|Kaplan Meier estimate of freedom from AF/AFL/AT|Kaplan Meier Survival Estimate|75.5|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|69.9|80.1|||||Kaplan Meier estimate of freedom from AF/AFL/AT at 12 months.|||80.1|69.9|
82545281|NCT00603954|164789602|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0495|TWO_SIDED|95.0|||||Multivariate|||||||0.0495
82545282|NCT00603954|164789602|SUPERIORITY||Hazard Ratio (HR)|3.8||||0.001|TWO_SIDED|95.0|||||Multivariate|||||||0.001
82465185|NCT03164668|164626387|SUPERIORITY||Estimated mean ratio|0.31|||||TWO_SIDED|95.0|0.13|0.72|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day of those randomized conditions in which menthol cigarettes are avoided relative to conditions in which participants can continue smoking usual cigarettes|Comparison of those assigned to conditions in which menthol cigarettes are avoided relative to conditions in which can continue smoking usual cigarettes||0.72|0.13|
82465186|NCT03164668|164626387|SUPERIORITY||Estimated mean ratio|0.98|||||TWO_SIDED|95.0|0.78|1.22|||||Baseline adjusted model estimated mean ratio in cigarettes smoked per day among those in conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes|Comparison of those assigned to conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes||1.22|0.78|
82465187|NCT03164668|164626388|SUPERIORITY||Estimated mean ratio|3.03|||||TWO_SIDED|95.0|1.39|6.61|||||Model estimated mean ratio in puffs of e-cigarettes used per day among those randomized to conditions in which menthol cigarettes are avoided relative to conditions in which participants can continue smoking usual cigarettes|Comparison of those assigned to conditions in which menthol cigarettes are avoided relative to conditions in which can continue smoking usual cigarettes||6.61|1.39|
82465188|NCT03164668|164626388|SUPERIORITY||Estimated mean ratio|0.74|||||TWO_SIDED|95.0|0.59|0.92|||||Estimated mean ratio of number of puffs of e-cigarettes used per day among those in conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes|Comparison of those assigned to conditions in which they receive tobacco flavored e-cigarettes relative to conditions in which they receive menthol flavored e-cigarettes||0.92|0.59|
82465189|NCT02913482|164626444|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465190|NCT02913482|164626445|SUPERIORITY|Result compared to a performance criterion of 17% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465191|NCT02913482|164626446|SUPERIORITY|Result compared to a performance criterion of 17% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465192|NCT02913482|164626452|SUPERIORITY|Result compared to a performance criterion of 12% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465193|NCT02913482|164626454|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465194|NCT02913482|164626455|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.|||||<|0.0001|||||||One-sided Exact Binomial Test|||||||<0.0001
82465195|NCT02913482|164626456|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.||||||1|||||||One-sided Exact Binomial Test|||||||1.0000
82465196|NCT02913482|164626457|SUPERIORITY|Result compared to a performance criterion of 5% derived from natural history data.||||||1|||||||One-sided Exact Binomial Test|||||||1.0000
82545283|NCT00603954|164789603|SUPERIORITY|||||||0.15|||||||Fisher Exact|||19 of 49 Flu-TBI patients (39%) versus 25 of 45 TLI ATG patients (56%) had a least one episode of bacterial infection the first 100 days after transplantation (P = 0.15).||||0.15
82545284|NCT00603954|164789603|SUPERIORITY|||||||0.19|||||||Fisher Exact|||For fungal infections, the figures were 3 of 45 (6%) and 7 of 45 (16%), respectively (P = 0.19)||||0.19
82545285|NCT00603954|164789603|SUPERIORITY|||||||0.12|||||||Fisher Exact|||Among CMV-seropositive patients and/or donors, the 100-day cumulative incidence of CMV reactivation was 31% in Flu-TBI patients versus 47% in TLI-ATG patient||||0.12
82545286|NCT00603954|164789604|SUPERIORITY||Multivariate Cox models|2.3|STANDARD_DEVIATION|0.02||0.017|TWO_SIDED|95.0|1.1|4.7|||Cumulative incidence curves|||Four-year cumulative incidences of relapse/progression were 22% and 50% in Flu-TBI and TLI-ATG patients, respectively||4.7|1.1|0.017
82465197|NCT02913482|164626461|SUPERIORITY|Result compared to a performance criterion of 42% derived from natural history data. Statistical analysis was only performed for Month 12 data.|||||<|0.0001|||||||One-sided Z-test|||||||<0.0001
82465198|NCT02913482|164626462|SUPERIORITY|Result compared to a performance criterion of 60% derived from natural history data. Statistical analysis was only performed for Month 12 data.||||||0.0005|||||||One-sided Z-test|||||||0.0005
82465199|NCT02913482|164626463|SUPERIORITY|Result compared to a performance criterion of 89% derived from natural history data. Statistical analysis was only performed for Month 12 data.||||||0.2595|||||||One-sided Z-test|||||||0.2595
82465200|NCT02005016|164626482|OTHER|This was a single-group study. A t-test was administered comparing pre- and post-treatment PNT scores (range: 1-175; higher scores are better).|||||<|0.005|||||||t-test, 1 sided|||||||<0.005
82465201|NCT02005016|164626483|OTHER|This was a single-group study. A t-test was administered comparing pre- and post-treatment CAT modality mean T-scores (range: 30-70, mean: 50; higher scores are better).|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82465202|NCT00168844|164626488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
82465203|NCT00168844|164626488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
82465204|NCT00168844|164626489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.269|STANDARD_ERROR_OF_MEAN|0.996||0.0011||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||0.0011
82465205|NCT00168844|164626489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.242|STANDARD_ERROR_OF_MEAN|0.999|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
82545287|NCT00603954|164789605|SUPERIORITY||Median Difference (Final Values)|4.0|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 0||||
82650209|NCT02462421|165015516|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.77||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.77
82465206|NCT00168844|164626490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_ERROR_OF_MEAN|0.165|<|0.0001|TWO_SIDED|95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
82465207|NCT00168844|164626490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.075|STANDARD_ERROR_OF_MEAN|0.166|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.||||||<0.0001
82465208|NCT00168844|164626491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.782||||0.0002|TWO_SIDED|95.0|0.687|0.89|||Poisson regression||Tiotropium Respimat 5mcg - Placebo|||0.890|0.687|0.0002
82465209|NCT00168844|164626491|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.725|||<|0.0001|TWO_SIDED|95.0|0.635|0.828|||Poisson regression||Tiotropium Respimat 10mcg - Placebo|||0.828|0.635|<0.0001
82465210|NCT00168844|164626535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465211|NCT00168844|164626535|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82465212|NCT00168844|164626536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465213|NCT00168844|164626536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.234|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82465214|NCT00168844|164626537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465215|NCT00168844|164626537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82465216|NCT00168844|164626538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.5|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465217|NCT00168844|164626538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.1|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82465218|NCT00168844|164626539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465219|NCT00168844|164626539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82545288|NCT00603954|164789605|SUPERIORITY||Mean Difference (Final Values)|2.2|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 3||||
82545289|NCT00603954|164789605|SUPERIORITY||Mean Difference (Final Values)|0.95|||||TWO_SIDED|||||||||This statistical analysis applies to median ATG serum levels at day 10||||
82545290|NCT00603954|164789606|SUPERIORITY|||||||0.5|||||||Cumulative incidence curve|||||||0.5
82545291|NCT00603954|164789607|SUPERIORITY||multivariate analyses|2.0|STANDARD_DEVIATION|0.07||0.14|TWO_SIDED|95.0|1.0|4.1|||Kaplan-Meier method|||||4.1|1|0.14
82579055|NCT04531982|164868004|SUPERIORITY|||||||0.4825||||||Two-sided p-value for treatment difference at Week 26 from MMRM analysis.|Mixed Models Analysis|||Difference between LSM changes for adjunctive pimavanserin and adjunctive placebo (pimavanserin - placebo) at the specified visit from MMRM analysis.||||0.4825
82650210|NCT02462421|165015516|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.65||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.65
82465220|NCT00168844|164626540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82465221|NCT00168844|164626540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82465222|NCT00537394|164626594|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority margin defined as 15 percentage points. If the confidence interval for the difference in regimen failure between omitting versus adding NRTIs was fully below 15 percentage points, then omitting NRTIs would be concluded to be not inferior to adding NRTIs for this outcome.|Risk Difference (RD)|3.2|||||TWO_SIDED|95.0|-6.1|12.5|||||Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and stratum. Differences in week 48 failure proportions by treatment calculated weighted by the inverse of the variance in each stratum.|Null Hypothesis was that omitting NRTIs is inferior to adding NRTIs for the outcome of regimen failure through 48 weeks.||12.5|-6.1|
82465223|NCT03980730|164626680|SUPERIORITY|||||||0.2057|||||||Mixed Models Analysis|||||||0.2057
82465224|NCT02392806|164626691|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82465225|NCT03125226|164626693|OTHER|Single group mean and standard deviation||||||||||||||||Coordinates in x/y/z planes were assigned to each hydrogel marker on the planning CT and daily CBCT to calculate interfraction motion.|Single group mean and standard deviation|||
82465226|NCT03125226|164626698|OTHER|The Van Herk (VH) margin equation for the planning target volume margin, as a function of systemic and random errors, was calculated such that the CTV receives at least 95%-prescription dose in 90% of patients.|||||||||||||||||The Van Herk (VH) margin equation for the planning target volume margin, as a function of systemic and random errors, was calculated such that the CTV receives at least 95%-prescription dose in 90% of patients.|||
82465227|NCT00301808|164626702|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier product limit|0.66|STANDARD_ERROR_OF_MEAN|0.1423|||TWO_SIDED|95.0|0.48|0.84||||||||0.84|0.48|
82465228|NCT02977403|164626709|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for AB reaction time measures. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. AB reaction times were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-1.948|||||TWO_SIDED|95.0|-20.79|16.894||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in AB, change scores were computed (post-pre = delta). Positive scores represent an increase in AB from pre- to post- intervention. Negative ∆reaction time scores represent a decrease in AB from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in AB following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||16.894|-20.790|
82465229|NCT02977403|164626709|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.952|||||TWO_SIDED|95.0|-35.28|33.377||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||33.377|-35.280|
82465230|NCT02977403|164626710|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficent|0.047|||||TWO_SIDED|95.0|-0.025|0.119||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.119|-0.025|
82465231|NCT02977403|164626710|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.134|||||TWO_SIDED|95.0|-0.288|0.019||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.019|-0.288|
82490348|NCT02612129|164673567|SUPERIORITY||LS Mean Difference|-3.03||||0.3785|TWO_SIDED|95.0|-9.9|3.85|||ANCOVA|||"Change from baseline in the NPC-CDB score (modified Stampfer Score) at Month 12 was analyzed using the ANCOVA model. ANCOVA model was fitted with treatment, baseline NPC-CDB total score and use of miglustat as covariates."||3.85|-9.90|0.3785
82490349|NCT02612129|164673568|SUPERIORITY|||||||0.6951|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 6 in Quality of Life (EQ-5D-Y) being 'Better'||||0.6951
82490350|NCT02612129|164673568|SUPERIORITY|||||||0.7542|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 6 in Quality of Life (EQ-5D-Y) being 'Worse'||||0.7542
82465232|NCT02977403|164626711|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass and height, race and ethnicity.|beta coefficent|-0.002|||||TWO_SIDED|95.0|-0.085|0.082||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post-intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.082|-0.085|
82465233|NCT02977403|164626711|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.053|||||TWO_SIDED|95.0|-0.177|0.071||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.071|-0.177|
82465234|NCT02977403|164626712|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.08|||||TWO_SIDED|95.0|-0.022|0.182||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.182|-0.022|
82465235|NCT02977403|164626712|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.018|||||TWO_SIDED|95.0|-0.139|0.103||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.103|-0.139|
82465236|NCT02977403|164626713|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.013|||||TWO_SIDED|95.0|-0.086|0.113||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.113|-0.086|
82465237|NCT02977403|164626713|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.035|||||TWO_SIDED|95.0|-0.179|0.109||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.109|-0.179|
82465238|NCT02977403|164626714|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.083|||||TWO_SIDED|95.0|-0.001|0.167||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.167|-0.001|
82465239|NCT02977403|164626714|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.069|||||TWO_SIDED|95.0|-0.201|0.063||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.063|-0.201|
82490351|NCT02612129|164673568|SUPERIORITY|||||||0.488|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 12 in Quality of Life (EQ-5D-Y) being 'Better'||||0.4880
82490352|NCT02612129|164673568|SUPERIORITY|||||||0.1804|||||||Chi-squared Test|||Percentage of participants with change from baseline at Month 12 in Quality of Life (EQ-5D-Y) being 'Worse'||||0.1804
82490353|NCT02612129|164673569|SUPERIORITY||LS Mean Difference|0.74||||0.371|TWO_SIDED|95.0|-0.92|2.4|||ANCOVA|||Change from baseline in the SARA score at Month 6 was measured using an ANCOVA model. ANCOVA model was fitted with treatment, baseline SARA score, and use of miglustat as covariates.||2.40|-0.92|0.3710
82465240|NCT02977403|164626715|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity|beta coefficient|0.031|||||TWO_SIDED|95.0|-0.059|0.121||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.121|-0.059|
82465241|NCT02977403|164626715|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.002|||||TWO_SIDED|95.0|-0.157|0.152||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.152|-0.157|
82465242|NCT02977403|164626716|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.042|||||TWO_SIDED|95.0|-0.149|0.065||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.065|-0.149|
82465243|NCT02977403|164626716|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.068|||||TWO_SIDED|95.0|-0.266|0.131||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.131|-0.266|
82490354|NCT02612129|164673569|SUPERIORITY||LS Mean Difference|0.28||||0.7899|TWO_SIDED|95.0|-1.82|2.37|||ANCOVA|||Change from baseline in the SARA score at Month 12 was measured using an ANCOVA model. ANCOVA model was fitted with treatment, baseline SARA score and use of miglustat as covariates.||2.37|-1.82|0.7899
82490355|NCT02612129|164673570|SUPERIORITY||LS Mean Difference|-10.34||||0.6195|TWO_SIDED|95.0|-53.01|32.33|||ANCOVA|||Dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 6 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||32.33|-53.01|0.6195
82490356|NCT02612129|164673570|SUPERIORITY||LS Mean Difference|-15.87||||0.4693|TWO_SIDED|95.0|-60.73|29.0|||ANCOVA|||Non-dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 6 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||29.00|-60.73|0.4693
82545292|NCT00603954|164789609|SUPERIORITY||multivariate analyses|1.2|STANDARD_DEVIATION|0.02||0.9|TWO_SIDED|95.0|1.0|1.4|||Kaplan-Meier method|||||1.4|1|0.9
82545293|NCT00603954|164789610|SUPERIORITY||multivariate analyses|1.2|STANDARD_DEVIATION|0.02||0.96|TWO_SIDED|95.0|1.0|1.4|||Kaplan-Meier method|||||1.4|1|0.96
82545294|NCT00891436|164789616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|>|0.1||95.0|||||t-test, 2 sided|||paired t-test was used for the data analysis||||>0.1
82545295|NCT00891436|164789616|NON_INFERIORITY_OR_EQUIVALENCE|t-test showed no different between the 2 groups.|Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|>|0.1||95.0|||||t-test, 2 sided|||||||>0.1
82545296|NCT02214550|164789617|SUPERIORITY||Slope|-1.96|STANDARD_ERROR_OF_MEAN|0.69||0.02|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (OCP vs. No OCP). PBS participants are included in the OCP group|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.02
82545297|NCT02214550|164789617|SUPERIORITY||Slope|-1.4597|STANDARD_ERROR_OF_MEAN|0.8245||0.08|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.08
82561917|NCT02326220|164832991|SUPERIORITY||LS Mean Difference|-50.0|||<|0.0001|TWO_SIDED|95.0|-57.3|-42.7||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.7|-57.3|< 0.0001
82579056|NCT04531982|164868005|SUPERIORITY|||||||0.8872||||||Two-sided p-value for treatment difference at Week 26 from MMRM analysis.|Mixed Models Analysis|||||||0.8872
82465244|NCT02977403|164626717|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.034|||||TWO_SIDED|95.0|-0.122|0.053||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.053|-0.122|
82465245|NCT02977403|164626717|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.07|||||TWO_SIDED|95.0|-0.233|0.092||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.092|-0.233|
82465246|NCT02977403|164626718|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.042|||||TWO_SIDED|95.0|-0.041|0.126||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.126|-0.041|
82465247|NCT02977403|164626718|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.252|0.082||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.082|-0.252|
82465248|NCT02977403|164626719|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.021|||||TWO_SIDED|95.0|-0.06|0.102||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.102|-0.060|
82465249|NCT02977403|164626719|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.071|||||TWO_SIDED|95.0|-0.26|0.119||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.119|-0.260|
82465250|NCT02977403|164626720|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.107|||||TWO_SIDED|95.0|0.03|0.185||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.185|0.030|
82465251|NCT02977403|164626720|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.197|||||TWO_SIDED|95.0|-0.346|-0.047||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.047|-0.346|
82490357|NCT02612129|164673570|SUPERIORITY||LS Mean Difference|3.2||||0.7283|TWO_SIDED|95.0|-15.71|22.12|||ANCOVA|||Dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 12 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||22.12|-15.71|0.7283
82490358|NCT02612129|164673570|SUPERIORITY||LS Mean Difference|-5.91||||0.7708|TWO_SIDED|95.0|-47.54|35.72|||ANCOVA|||Non-dominant Hand: Change From Baseline in the Nine-Hole Peg Test (9HPT) at Month 12 was measured using an ANCOVA model: ANCOVA models were fitted with treatment, baseline dominant/non-dominant hand 9HPT time (secs), and use of miglustat as covariates||35.72|-47.54|0.7708
82561918|NCT02326220|164832992|SUPERIORITY||LS Mean Difference|-39.4|||<|0.0001|TWO_SIDED|95.0|-45.6|-33.2||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.2|-45.6|< 0.0001
82545298|NCT02214550|164789617|SUPERIORITY||Slope|1.9186|STANDARD_ERROR_OF_MEAN|0.8121||0.023|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates a time x group interaction (D+COS-continuous microgestin vs. PBS-continuous microgestin).|A linear mixed-effects model was estimated predicting bladder pain at first urge ratings (0-100 visual analog scale) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||.023
82545299|NCT02214550|164789618|SUPERIORITY||Slope|0.3716|STANDARD_ERROR_OF_MEAN|0.3056||0.2315|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time\*group interaction (OCP vs. No OCP). PBS participants are included in the OCP group|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.2315
82545300|NCT02214550|164789618|SUPERIORITY||Slope|0.2703|STANDARD_ERROR_OF_MEAN|0.3244||0.4097|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.4097
82545301|NCT02214550|164789618|SUPERIORITY||Slope|-0.1574|STANDARD_ERROR_OF_MEAN|0.3283||0.6341|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter estimated indicates the time x group (continuous microgestin: D+COS-vs. PBS) interaction.|A linear mixed-effects model was estimated predicting pressure pain thresholds (in Newtons of force transvaginally measured anteriorly against the bladder) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The following three orthogonal contrasts were estimated: 1) OCP vs. No OCP, 2) cyclic vs. continuous microgestin, and 3) PBS-continuous microgestin vs. D+COS-continuous microgestin.||||0.6341
82545302|NCT02214550|164789619|SUPERIORITY||Slope|0.086|STANDARD_ERROR_OF_MEAN|0.1||0.393|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (OCP vs. No OCP). PBS participants are included in the OCP group.|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The OCP vs No OCP contrast was estimated here:||||.393
82545303|NCT02214550|164789619|SUPERIORITY||Slope|0.007|STANDARD_ERROR_OF_MEAN|0.09||0.941|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameters reported indicates time x group (Continuous vs. Cyclic OCP) interaction. PBS participants are included in the continuous OCP group.|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The cyclic vs. continuous microgestin contrast was run here||||0.941
82545304|NCT02214550|164789619|SUPERIORITY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.1||0.005|TWO_SIDED|||||The a priori threshold for statistical significance was .05 and p-values were not adjusted for multiple comparisons given a priori orthogonal contrasts.|Mixed Models Analysis||Parameter reported indicates time x group interaction (D+COS-continuous microgestin vs. PBS-continuous microgestin).|A linear mixed-effects model was estimated for parieto-occipital peak alpha (Hz) as a function of time (0, 6, 12 month visits), group, and their interaction. Random intercepts were estimated for each participant. The PBS-continuous microgestin vs. D+COS-continuous microgestin contrast was evaluated here||||0.005
82545305|NCT05113771|164789631|SUPERIORITY||LS Mean Difference|-4.4||||0.0056|TWO_SIDED|95.0|-7.6|-1.3|||MMRM|mixed model for repeated measures (MMRM) with imputation based on the missing at random (MAR) assumption was used.||||-1.3|-7.6|0.0056
82545306|NCT05113771|164789632|SUPERIORITY|||||||0.0189|||||||MMRM|||||||0.0189
82545307|NCT05113771|164789633|SUPERIORITY|||||||0.0026|||||||Cochran-Mantel-Haenszel|||||||0.0026
82545308|NCT02574455|164789637|OTHER||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.305|0.492||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, presence of known brain metastases at study entry, and region.|Log Rank|||||0.492|0.305|<0.0001
82545309|NCT02574455|164789638|OTHER||Hazard Ratio (HR)|0.413|||<|0.0001|TWO_SIDED|95.0|0.33|0.517||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, presence of known brain metastases at study entry, and region.|Log Rank|||||0.517|0.330|<0.0001
82545310|NCT02574455|164789639|OTHER||Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.39|0.592||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||||0.592|0.390|<0.0001
82545311|NCT02574455|164789640|OTHER||Hazard Ratio (HR)|0.514|||<|0.0001|TWO_SIDED|95.0|0.422|0.625||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||||0.625|0.422|<0.0001
82545312|NCT02574455|164789641|OTHER||Odds Ratio (OR)|10.859|||<|0.0001|TWO_SIDED|95.0|5.59|21.095|||Cochran-Mantel-Haenszel|||ORR by IRC Assessment||21.095|5.590|<0.0001
82545313|NCT02574455|164789641|OTHER||Odds Ratio (OR)|7.363|||<|0.0001|TWO_SIDED|95.0|4.063|13.341|||Cochran-Mantel-Haenszel|||ORR by Investigator Assessment||13.341|4.063|<0.0001
82465252|NCT02977403|164626721|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.092|||||TWO_SIDED|95.0|0.01|0.175||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.175|0.010|
82465253|NCT02977403|164626721|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.049|||||TWO_SIDED|95.0|-0.204|0.107||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.107|-0.204|
82465254|NCT02977403|164626722|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.046|||||TWO_SIDED|95.0|-0.032|0.123||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.123|-0.032|
82465255|NCT02977403|164626722|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.007|||||TWO_SIDED|95.0|-0.163|0.177||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.177|-0.163|
82465256|NCT02977403|164626723|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.041|||||TWO_SIDED|95.0|-0.03|0.112||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.112|-0.03|
82465257|NCT02977403|164626723|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.014|||||TWO_SIDED|95.0|-0.168|0.14||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.140|-0.168|
82465258|NCT02977403|164626724|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.037|||||TWO_SIDED|95.0|-0.125|0.052||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.052|-0.125|
82465259|NCT02977403|164626724|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.034|||||TWO_SIDED|95.0|-0.196|0.129||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.129|-0.196|
82545314|NCT02574455|164789644|OTHER||Hazard Ratio (HR)|0.407||||0.0683|TWO_SIDED|95.0|0.15|1.107||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, and region.|Log Rank|||DOR by IRC Assessment||1.107|0.150|0.0683
82545315|NCT02574455|164789644|OTHER||Hazard Ratio (HR)|0.212|||<|0.0001|TWO_SIDED|95.0|0.103|0.435||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies, and region.|Log Rank|||DOR by Investigator Assessment||0.435|0.103|<0.0001
82545316|NCT02574455|164789645|OTHER||Hazard Ratio (HR)|0.317|||<|0.0001|TWO_SIDED|95.0|0.248|0.404||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||TTP by Investigator Assessment||0.404|0.248|<0.0001
82465260|NCT02977403|164626725|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.001|||||TWO_SIDED|95.0|-0.091|0.093||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.093|-0.091|
82465261|NCT02977403|164626725|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.143|||||TWO_SIDED|95.0|-0.286|0.001||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.001|-0.286|
82465262|NCT02977403|164626726|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.065|||||TWO_SIDED|95.0|-0.001|0.132||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.132|-0.001|
82465263|NCT02977403|164626726|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.246|0.055||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.055|-0.246|
82465264|NCT02977403|164626727|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.023|||||TWO_SIDED|95.0|-0.055|0.101||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.101|-0.055|
82465265|NCT02977403|164626727|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.02|||||TWO_SIDED|95.0|-0.178|0.137||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.137|-0.178|
82465266|NCT02977403|164626728|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.032|||||TWO_SIDED|95.0|-0.116|0.051||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.051|-0.116|
82465267|NCT02977403|164626728|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.06|||||TWO_SIDED|95.0|-0.104|0.223||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.223|-0.104|
82490359|NCT01757535|164673573|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0009|TWO_SIDED|95.0|0.55|0.86||The p-value is 2-sided from a log-rank test stratified by age, cytogenetic risk category, and received consolidation therapy or not.|Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by age, cytogenetic risk category, and received consolidation therapy or not.||The confidence interval (CI) for the difference was derived using Kosorok's method.|0.86|0.55|0.0009
82490360|NCT01757535|164673574|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.52|0.8||The p-value is 2-sided from a log-rank test stratified by age, cytogenetic risk category, and received consolidation therapy or not.|Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by age, cytogenetic risk category, and received consolidation therapy or not.|||0.80|0.52|< 0.0001
82545317|NCT02574455|164789646|OTHER||Hazard Ratio (HR)|0.406|||<|0.0001|TWO_SIDED|95.0|0.315|0.525||Stratified log-rank test and stratified Cox regression adjusted for stratification factors: number of prior chemotherapies and region.|Log Rank|||TTP by IRC Assessment||0.525|0.315|<0.0001
82650211|NCT02462421|165015517|OTHER|Null hypothesis: None of the three genotypes is associated with an alteration in the pharmacodynamic effect of canagliflozin on urinary Na excretion||||||0.2||||||Because the study was terminated early, the study does not have sufficient statistical power to adjust for multiple comparisons. Accordingly, nominal p-values are reported.|t-test, 2 sided|||"The wild type genotype group was compared to homozygotes for each of the three other genotypes."||||0.20
82650212|NCT02462421|165015517|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.01|||||||t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.01
82650213|NCT02462421|165015517|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.16||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.16
82650214|NCT02462421|165015518|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.21||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.21
82650215|NCT02462421|165015518|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.92||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Null hypothesis: pharmacodynamic response is the same in the control group and homozygotes for the genetic variant.||||0.92
82650216|NCT02462421|165015518|OTHER|Probability that the observed difference was the result of random variation rather than a difference between the two populations.||||||0.39||||||Not corrected for multiple comparisons.|t-test, 2 sided|||Not corrected for multiple comparisons.||||0.39
82465268|NCT02977403|164626729|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.012|||||TWO_SIDED|95.0|-0.078|0.053||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.053|-0.078|
82465269|NCT02977403|164626729|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.064|||||TWO_SIDED|95.0|-0.248|0.12||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.120|-0.248|
82490361|NCT01757535|164673580|SUPERIORITY||Hazard Ratio (HR)|0.9345||||0.7522|TWO_SIDED|95.0|0.6136|1.4231||Stratification factors: • Age (at induction therapy): 55 to 64 years and ≥ 65 years • Prior history of MDS: yes/no • Cytogenetic risk (at induction therapy): intermediate-risk/poor-risk • Received consolidation therapy following induction: yes/no|Regression, Cox|||||1.4231|0.6136|0.7522
82650217|NCT00992264|165015519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.51|1.51|||||OR for smoking abstinence at 12 months in intent to treat sample. Participants receiving content written in a Prescriptive tone were compared against persons receiving content in a Motivational tone (ref group).|Comparison of persons assigned to Prescriptive message tone (n = 932) against persons assigned to Motivational message tone (n = 933).||1.51|0.51|
82650218|NCT00992264|165015519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.66|1.91|||||OR for smoking abstinence at 12 months when persons who randomly received a Testimonial were compared against persons receiving No Testimonial (ref group).|Comparison of persons assigned to Testimonials (n = 933) against persons assigned to receive no testimonials (n = 932).||1.91|0.66|
82650219|NCT00992264|165015519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.7|2.02|||||OR for smoking abstinence at 12 months when persons assigned to Dictated navigation were compared to those not assigned to Dictated navigation (ref group).|Comparison of persons assigned to the Dictated Navigation arm (n = 934) against persons assigned to assigned free navigation of the website (n = 931).||2.02|0.70|
82650220|NCT00992264|165015519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED|95.0|0.43|1.3|||||OR for smoking abstinence at 12 months when persons assigned to receive Proactive Email reminders were compared against persons who received No Emails (ref group).|Comparison of persons assigned to Proactive Email Outreach (n = 933) against persons assigned to receive No Proactive Email Outreach (n = 932).||1.30|0.43|
82650221|NCT00992264|165015520|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.94|||||TWO_SIDED|95.0|0.62|1.43|||||OR for use of adjunct treatment at 12 months when persons assigned to Prescriptive Tone were compared to persons assigned to receive content in a Motivational Tone (ref group).|Comparison of persons assigned to Prescriptive message tone (n = 932) against persons assigned to Motivational message tone (n = 933).||1.43|0.62|
82650222|NCT00992264|165015520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.46|1.07|||||OR for use of adjunct treatment at 12 months when persons assigned to receive a Testimonial were compared to persons assigned to receive No Testimonial (ref group).|Comparison of persons assigned to Testimonials (n = 933) against persons assigned to receive no testimonials (n = 932).||1.07|0.46|
82650223|NCT00992264|165015520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.51|1.18|||||OR for use of adjunct treatment at 12 months when persons assigned to Dictated Navigation were compared to persons not assigned to Dictated Navigation (ref group).|Comparison of persons assigned to the Dictated Navigation arm (n = 934) against persons assigned to assigned free navigation of the website (n = 931).||1.18|0.51|
82490362|NCT02903355|164673605|SUPERIORITY|||||||0.4385|||||||Fisher Exact|||||||.4385
82490363|NCT02903355|164673606|SUPERIORITY|||||||0.5562|||||||Fisher Exact|||||||.5562
82490364|NCT02903355|164673607|SUPERIORITY|||||||0.5441|||||||Fisher Exact|||||||.5441
82465270|NCT02977403|164626730|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.089|||||TWO_SIDED|95.0|0.004|0.174||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.174|0.004|
82545318|NCT02574455|164789647|OTHER||Odds Ratio (OR)|8.543|||<|0.0001|TWO_SIDED|95.0|5.055|14.437|||Cochran-Mantel-Haenszel|||CBR by IRC Assessment||14.437|5.055|<0.0001
82545319|NCT02574455|164789647|OTHER||Odds Ratio (OR)|7.492|||<|0.0001|TWO_SIDED|95.0|4.54|12.364|||Cochran-Mantel-Haenszel|||CBR by Investigator Assessment||12.364|4.540|<0.0001
82545320|NCT03631550|164789667|SUPERIORITY|||||||0.018|||||||Chi-squared|||||||0.018
82545321|NCT03631550|164789668|SUPERIORITY|||||||0.0466|||||||Chi-squared|||||||0.0466
82465271|NCT02977403|164626730|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.021|||||TWO_SIDED|95.0|-0.159|0.201||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.201|-0.159|
82465272|NCT02977403|164626731|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.113|0.081||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.081|-0.113|
82465273|NCT02977403|164626731|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.072|||||TWO_SIDED|95.0|-0.206|0.062||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.062|-0.206|
82545322|NCT03631550|164789669|SUPERIORITY|||||||0.0677|||||||Chi-squared|||||||0.0677
82545323|NCT03631550|164789670|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
82545324|NCT03631550|164789671|OTHER|||||||0.0968|||||||Fisher Exact|||||||0.0968
82545325|NCT03631550|164789672|SUPERIORITY|||||||0.0121|||||||ANCOVA|||||||0.0121
82579057|NCT03151993|164868194|NON_INFERIORITY|The non-inferiority hypothesis would be declared if the lower limit of the 95% CI for an mRS score of 0-1 on day 90 did not cross the margin of noninferiority of 16%. The non-inferiority hypothesis was tested using Welch's t-test for the primary outcome only.|Odds Ratio (OR)|9.5|||<|0.01|TWO_SIDED|95.0|-1.7|20.7|||Welch's t-test|||||20.7|-1.7|<0.01
82545326|NCT00440011|164789687|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|||||||0.024
82545327|NCT04515641|164789693|OTHER||GMR|0.75|||||TWO_SIDED|90.0|0.58|0.96|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.96|0.58|
82545328|NCT04515641|164789694|OTHER||GMR|0.75|||||TWO_SIDED|90.0|0.58|0.98|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|0.98|0.58|
82545329|NCT04515641|164789695|OTHER||GMR|0.65|||||TWO_SIDED|90.0|0.38|1.14|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.14|0.38|
82545330|NCT04515641|164789702|OTHER||GMR|0.76|||||TWO_SIDED|90.0|0.57|1.0|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.00|0.57|
82545331|NCT04515641|164789703|OTHER||GMR|0.77|||||TWO_SIDED|90.0|0.58|1.03|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.03|0.58|
82545332|NCT04515641|164789704|OTHER||GMR|0.96|||||TWO_SIDED|90.0|0.63|1.46|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.46|0.63|
82545333|NCT04515641|164789705|OTHER||GMR|1.05|||||TWO_SIDED|90.0|0.65|1.71|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.71|0.65|
82545334|NCT04515641|164789706|OTHER||GMR|0.86|||||TWO_SIDED|90.0|0.59|1.26|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.26|0.59|
82650224|NCT00992264|165015520|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.44|1.03|||||OR for use of adjunct treatment at 12 months when persons assigned to Proactive Email reminders were compared to persons not assigned to receive Proactive Email reminders (ref group).|Comparison of persons assigned to Proactive Email Outreach (n = 933) against persons assigned to receive No Proactive Email Outreach (n = 932).||1.03|0.44|
82465274|NCT02977403|164626732|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.129|||||TWO_SIDED|95.0|0.049|0.209||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.209|0.049|
82465275|NCT02977403|164626732|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.181|||||TWO_SIDED|95.0|-0.33|-0.033||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.033|-0.330|
82465276|NCT02977403|164626733|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.126|||||TWO_SIDED|95.0|0.045|0.207||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.207|0.045|
82465277|NCT02977403|164626733|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.056|||||TWO_SIDED|95.0|-0.223|0.112||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.112|-0.223|
82465278|NCT02977403|164626734|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.115|||||TWO_SIDED|95.0|0.027|0.203||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.203|0.027|
82465279|NCT02977403|164626734|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.058|||||TWO_SIDED|95.0|-0.203|0.087||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.087|-0.203|
82490365|NCT02903355|164673608|SUPERIORITY|||||||0.3666|||||||Fisher Exact|||||||.3666
82650225|NCT03882047|165015527|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650226|NCT03882047|165015527|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650227|NCT03882047|165015527|OTHER|||||||0.03|||||||ANOVA|||||||0.03
82650228|NCT03882047|165015528|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82490366|NCT02903355|164673609|SUPERIORITY|||||||0.4446|||||||Fisher Exact|||||||.4446
82490367|NCT02903355|164673610|SUPERIORITY|||||||0.5431|||||||Fisher Exact|||||||.5431
82490368|NCT02903355|164673611|SUPERIORITY|||||||0.7409|||||||Fisher Exact|||||||.7409
82490369|NCT02903355|164673612|SUPERIORITY|||||||0.1597|||||||Fisher Exact|||||||.1597
82490370|NCT02903355|164673613|SUPERIORITY|||||||0.2784|||||||t-test, 1 sided|||||||.2784
82490371|NCT02903355|164673614|SUPERIORITY|||||||0.2303|||||||Fisher Exact|||||||.2303
82490372|NCT03689530|164673658|SUPERIORITY|||||||0.7436|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.7436
82650229|NCT03882047|165015528|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650230|NCT03882047|165015528|OTHER|||||||0.31|||||||ANOVA|||||||0.31
82650231|NCT03882047|165015529|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82490373|NCT03689530|164673659|SUPERIORITY|||||||0.1212|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1212
82490374|NCT03689530|164673660|SUPERIORITY|||||||0.8839|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.8839
82490375|NCT03689530|164673661|SUPERIORITY|||||||0.1137|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1137
82650232|NCT03882047|165015529|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650233|NCT03882047|165015529|OTHER|||||||0.01|||||||ANOVA|||||||0.01
82650234|NCT03882047|165015530|OTHER|||||||0.08|||||||ANOVA|||||||0.08
82650235|NCT03882047|165015530|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650236|NCT03882047|165015530|OTHER|||||||0.1|||||||ANOVA|||||||0.10
82650237|NCT03882047|165015531|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650238|NCT03882047|165015531|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650239|NCT03882047|165015531|OTHER|||||||0.01|||||||ANOVA|||||||0.01
82650240|NCT03882047|165015532|OTHER|||||||0.02|||||||ANOVA|||||||0.02
82650241|NCT03882047|165015532|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650242|NCT03882047|165015532|OTHER|||||||0.05|||||||ANOVA|||||||0.05
82650243|NCT03882047|165015533|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650244|NCT03882047|165015533|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650245|NCT03882047|165015533|OTHER|||||||0.06|||||||ANOVA|||||||0.06
82650246|NCT03882047|165015534|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650247|NCT03882047|165015534|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650248|NCT03882047|165015534|OTHER|||||||0.46|||||||ANOVA|||||||0.46
82650249|NCT03882047|165015535|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650250|NCT03882047|165015535|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650251|NCT03882047|165015535|OTHER|||||||0.07|||||||ANOVA|||||||0.07
82650252|NCT03882047|165015536|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650253|NCT03882047|165015536|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650254|NCT03882047|165015536|OTHER|||||||0.53|||||||ANOVA|||||||0.53
82650255|NCT03882047|165015537|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650256|NCT03882047|165015537|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82650257|NCT03882047|165015537|OTHER|||||||0.12|||||||ANOVA|||||||0.12
82650258|NCT00723554|165015559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|||<|0.001|TWO_SIDED|95.0|-6.9|-5.4|||t-test, 2 sided|||Comparison of the change in average inhalation times from Period I (PD-6) to Period II (PD-15)||-5.4|-6.9|<0.001
82650259|NCT00723554|165015563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.59|TWO_SIDED|95.0|-1.0|0.6|||t-test, 2 sided|||Comparison of the change in average number of days of dosing from Period I (PD-6) to Period II (PD-15)||0.6|-1.0|0.59
82650260|NCT00723554|165015567|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|||<|0.001|TWO_SIDED|95.0|0.2|0.7|||t-test, 2 sided|||Comparison of the change in average number of daily doses from Period I (PD-6) to Period II (PD-15)||0.7|0.2|<0.001
82650261|NCT00723554|165015571|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.0|||<|0.0001|TWO_SIDED|95.0|6.5|15.6|||t-test, 2 sided|||Comparison of the change in percentage of complete doses delivered from Period I (PD-6) to Period II (PD-15)||15.6|6.5|<0.0001
82650262|NCT00475852|165015594|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.7||||0.313|TWO_SIDED|95.0|-2.1|0.7|||Cochran-Mantel-Haenszel|Stratified by geographical region.||||0.7|-2.1|0.313
82650263|NCT00475852|165015595|SUPERIORITY_OR_OTHER|||||||0.03|||||||Van Elteren test|Controlled for region.||||||0.030
82650264|NCT00475852|165015596|SUPERIORITY_OR_OTHER|||||||0.007|||||||Van Elteren test|Controlled for region.||||||0.007
82650265|NCT00475852|165015597|SUPERIORITY_OR_OTHER|||||||0.318|||||||Van Elteren test|Controlled for region.||||||0.318
82650266|NCT00475852|165015598|SUPERIORITY_OR_OTHER|||||||0.018|||||||Van Elteren test|Controlled for region.||||||0.018
82650267|NCT00475852|165015599|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.5||||0.295|TWO_SIDED|95.0|-1.5|0.5|||Cochran-Mantel-Haenszel|Controlled for region.||||0.5|-1.5|0.295
82650268|NCT00475852|165015600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.16|||||||ANOVA|Controlled for region.|This analysis excluded subjects who were lost to follow-up, or withdrawal of consent before Day 30, or whose Day 30 visit occurred prior to Day 30.|||||0.160
82650269|NCT00475852|165015601|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.9||||0.238|TWO_SIDED|95.0|-2.4|0.6|||Cochran-Mantel-Haenszel|Controlled for region.|For subjects with a Day 30 visit prior to Day 30, information from their Day 180 visit, if available, was used to impute the mortality and rehospitalization status at Day 30.|||0.6|-2.4|0.238
82650270|NCT00475852|165015605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.109|TWO_SIDED|95.0|0.98|1.21|||Cochran-Mantel-Haenszel|Controlled for region.||||1.21|0.98|0.109
82650271|NCT02063698|165015606|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 2: BPI Worst Pain Past 24 Hours||||1.0
82650272|NCT02063698|165015606|SUPERIORITY|||||||0.45|||||||Fisher Exact|||Day 3: BPI Worst Pain Past 24 Hours||||0.45
82650273|NCT02063698|165015606|SUPERIORITY|||||||0.38|||||||Fisher Exact|||Day 4: BPI Worst Pain Past 24 Hours||||0.38
82650274|NCT02063698|165015606|SUPERIORITY|||||||0.12|||||||Fisher Exact|||Day 5: BPI Worst Pain Past 24 Hours||||0.12
82650275|NCT02063698|165015606|SUPERIORITY|||||||0.7|||||||Fisher Exact|||Day 6: BPI Worst Pain Past 24 Hours||||0.70
82650276|NCT02063698|165015606|SUPERIORITY|||||||1|||||||Fisher Exact|||Day 7: BPI Worst Pain Past 24 Hours||||1.0
82650277|NCT02063698|165015606|SUPERIORITY|||||||0.44|||||||Fisher Exact|||Day 8: BPI Worst Pain Past 24 Hours||||0.44
82650278|NCT02063698|165015607|SUPERIORITY|||||||0.44|||||||Equal variance t-test|||||||0.44
82650279|NCT02063698|165015608|SUPERIORITY|||||||0.13|||||||Equal variance t-test|||||||0.13
82650280|NCT02063698|165015610|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
82650281|NCT02063698|165015611|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82650282|NCT02063698|165015612|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
82650283|NCT02063698|165015613|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82650284|NCT02063698|165015614|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82650285|NCT00125931|165015625|SUPERIORITY_OR_OTHER|||||||0.01|ONE_SIDED|95.0|||||ANOVA|||comparison of mean scores at hour 2 vs 3||||0.01
82650286|NCT00125931|165015626|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||comparison of mean score on treatment vs post-treatment days||||0.01
82650287|NCT00125931|165015626|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 1 sided|||comparison of mean scores at pre-treatment vs treatment days||||0.4
82650288|NCT02345486|165015636|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.001|TWO_SIDED|95.0|0.66|0.74|||Wilcoxon (Mann-Whitney)||"reported mean difference is a difference in proportions."|||0.74|0.66|0.001
82650289|NCT03979677|165015674|OTHER|HDI and DHI analyzed using linear mixed-effects models with two within-participant factors, Intervention (pre-intervention, post-intervention) and Inventory (DHI, HDI). All models included participant as a random factor. Models constructed using lmer function of the lme package in R and analyzed using anova function in base R. Significant main effects and interactions were evaluated using emmeans . Pairwise comparisons were adjusted to account for false-discovery rates.|||||<|0.0001||||||Multiple comparisons were adjusted.|linear mixed-effects models|||||||<.0001
82465280|NCT02977403|164626735|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.037|||||TWO_SIDED|95.0|-0.053|0.127||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.127|-0.053|
82465281|NCT02977403|164626735|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.24|0.069||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.069|-0.240|
82465282|NCT02977403|164626736|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.021|||||TWO_SIDED|95.0|-0.092|0.05||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.050|-0.092|
82465283|NCT02977403|164626736|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.249|0.056||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.056|-0.249|
82465284|NCT02977403|164626737|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.013|||||TWO_SIDED|95.0|-0.095|0.069||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.069|-0.095|
82465285|NCT02977403|164626737|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.078|||||TWO_SIDED|95.0|-0.227|0.071||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.071|-0.227|
82465286|NCT02977403|164626738|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.005|||||TWO_SIDED|95.0|-0.103|0.092||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.092|-0.103|
82465287|NCT02977403|164626738|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.032|||||TWO_SIDED|95.0|-0.173|0.11||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.110|-0.173|
82490376|NCT03689530|164673662|SUPERIORITY|||||||0.0162|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.0162
82579058|NCT03361605|164868222|SUPERIORITY|"Our study adopted a within-subject design, which is not a randomized controlled trial (RCT) such as testing if one treatment is superior to another. Therefore, here the Superiority indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli."|Mean Difference (Net)|-0.349|STANDARD_DEVIATION|0.223|<|0.0001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = BOLD Response During Sedation - BOLD Response During Baseline|The null hypothesis is no difference in BOLD response between sedated state and baseline.||||<0.0001
82579059|NCT03361605|164868223|SUPERIORITY|"Our study adopted a within-subject design, which is not a randomized controlled trial (RCT) such as testing if one treatment is superior to another. Therefore, here the Superiority indicates if propofol administration has a statistically significant impact on the squeeze pressure in response to verbal instructions."|Mean Difference (Net)|-2.16|STANDARD_DEVIATION|3.09||0.00148|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = Squeeze Pressure During Sedation - Squeeze Pressure During Baseline|The null hypothesis is no difference in squeeze pressure between sedated state and baseline.||||0.00148
82465288|NCT02977403|164626739|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.02|||||TWO_SIDED|95.0|-0.069|0.109||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.109|-0.069|
82465289|NCT02977403|164626739|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.088|||||TWO_SIDED|95.0|-0.252|0.077||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.077|-0.252|
82465290|NCT02977403|164626740|OTHER|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.01|||||TWO_SIDED|95.0|-0.099|0.08||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.080|-0.099|
82465291|NCT02977403|164626740|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.155|||||TWO_SIDED|95.0|-0.294|-0.017||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.017|-0.294|
82465292|NCT02977403|164626741|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.013|||||TWO_SIDED|95.0|-0.069|0.095||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.095|-0.069|
82465293|NCT02977403|164626741|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.085|||||TWO_SIDED|95.0|-0.216|0.047||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.047|-0.216|
82490377|NCT03689530|164673664|SUPERIORITY|||||||0.2117|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.2117
82490378|NCT03689530|164673665|SUPERIORITY|||||||0.4169|||||||Mixed Models Analysis|||||||0.4169
82490379|NCT03689530|164673666|SUPERIORITY|||||||0.8785|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.8785
82490380|NCT03689530|164673667|SUPERIORITY|||||||0.1006|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.1006
82490381|NCT03689530|164673668|SUPERIORITY|||||||0.7168|||||||Mixed Models Analysis|||||||0.7168
82490382|NCT03689530|164673669|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Outcomes were analyzed using multilevel models adapted for partially clustered data. Analyses was done in SAS v9.4||||0.0001
82545335|NCT04515641|164789707|OTHER||GMR|0.65|||||TWO_SIDED|90.0|0.42|1.01|||||Participants with Moderate Hepatic Impairment / Healthy Matched Control Participants|Geometric least-squares mean ratio (GMR)|GMR calculated using the mean square error referencing a t-distribution. Confidence limits exponentiated to obtain the 90% confidence interval.|1.01|0.42|
82545336|NCT05505045|164789769|OTHER||Cohen's d effect size|0.44|||||TWO_SIDED|95.0|-0.16|1.05||||||||1.05|-.16|
82545337|NCT05505045|164789770|OTHER||Cohen's d effect size|0.42|||||TWO_SIDED|95.0|-0.19|1.03||||||||1.03|-.19|
82545338|NCT05505045|164789771|OTHER||Cohen's d effect size|0.31|||||TWO_SIDED|95.0|-0.3|0.93||||||||0.93|-.30|
82545339|NCT05505045|164789772|OTHER||Cohen's d effect size|-0.42|||||TWO_SIDED|96.0|-1.04|0.21||||||||0.21|-1.04|
82545340|NCT05505045|164789777|OTHER||Cohen's d effect size|0.01|||||TWO_SIDED|95.0|-0.61|0.64||||||||.64|-.61|
82545341|NCT05540535|164789778|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|The Wilcoxon signed-rank test was used for a within-group comparison.||||||<0.05
82650290|NCT03979677|165015675|OTHER|HDI and DHI analyzed using linear mixed-effects models with two within-participant factors, Intervention (pre-intervention, post-intervention) and Inventory (DHI, HDI). All models included participant as a random factor. Models constructed using lmer function of the lme package in R and analyzed using anova function in base R. Significant main effects and interactions were evaluated using emmeans . Pairwise comparisons were adjusted to account for false-discovery rates.|||||<|0.0001||||||Point change in DHI was tests.|linear mixed-effects models|||||||<.0001
82545342|NCT05540535|164789779|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82545343|NCT05540535|164789780|SUPERIORITY||||||<|0.05|||||||Kruskal-Wallis|The Wilcoxon signed-rank test was used for a within-group comparison.||||||<0.05
82545344|NCT05540535|164789781|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82545345|NCT05540535|164789782|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
82579060|NCT01305408|164868224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.2717|TWO_SIDED|95.0|-3.76|1.06||Statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||1.06|-3.76|0.2717
82579061|NCT03101462|164868247|OTHER|ANOVA||||||0.89|||||||t-test, 2 sided|||A/H1N1 Day 0||||0.89
82650291|NCT05085613|165015682|SUPERIORITY||Mean Difference (Final Values)|0.6279928|STANDARD_ERROR_OF_MEAN|4.150369||0.998|TWO_SIDED|95.0|-9.463627|10.71961||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF=6|Economic recovery condition - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||10.71961|-9.463627|0.998
82545346|NCT05540535|164789783|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
82545347|NCT05540535|164789784|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
82545348|NCT02217904|164789812|SUPERIORITY||Posterior mean difference|-1.64|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
82545349|NCT02217904|164789812|SUPERIORITY||Posterior mean difference|-1.32|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
82545350|NCT02217904|164789812|SUPERIORITY||Posterior mean difference|-1.57|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
82545351|NCT02217904|164789812|SUPERIORITY||Posterior mean difference|-1.28|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
82545352|NCT02217904|164789812|SUPERIORITY||Posterior mean difference|-1.18|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between islatravir and placebo at least 0.5 log10 copies/mL was \>99%.|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean of pooled historical placebo data was -0.03 log10 copies/mL (95% CI -014, 0.09) change from baseline at 168 hours post dose.||||
82545353|NCT01903811|164789823|SUPERIORITY||Hazard Ratio (HR)|1.061||||0.384|TWO_SIDED|80.0|0.821|1.37||Stratified by pre-specified randomization stratification factors: 1 - 3 prior therapies vs. 4-6 prior therapies and refractory to bortezomib vs. not refractory to bortezomib.|Log Rank|One-sided stratified log rank test||||1.370|0.821|0.384
82579062|NCT03101462|164868247|OTHER|||||||0.00082||||||This is the calculated p-value.|t-test, 2 sided|||A/H1N1 Day 7||||0.00082
82579063|NCT03101462|164868247|OTHER|||||||7.6e-05||||||This is the calculated p-value|t-test, 2 sided|||A/H1N1 Day 45||||0.000076
82579064|NCT03101462|164868247|OTHER|||||||0.63|||||||t-test, 2 sided|||A/H3N2 Day 0||||0.63
82579065|NCT03101462|164868247|OTHER|||||||0.0186||||||This is the calculated p-value|t-test, 2 sided|||A/H3N2 Day 7||||0.0186
82545354|NCT01903811|164789824|SUPERIORITY||Hazard Ratio (HR)|1.149||||0.284|TWO_SIDED|80.0|0.841|1.571||Stratified by pre-specified randomization stratification factors: 1 - 3 prior therapies vs. 4-6 prior therapies and refractory to bortezomib vs. not refractory to bortezomib.|Log Rank|One-sided stratified log rank test||||1.571|0.841|0.284
82545355|NCT01903811|164789825|SUPERIORITY|||||||0.113|||||||Cochran-Mantel-Haenszel|||Compare the rate of confirmed PR or better between treatment arms.||||0.1130
82545356|NCT04188379|164789918|SUPERIORITY||Odds Ratio (OR)|4.884||||0.0316|TWO_SIDED|95.0|1.007|43.591|||Cochran-Mantel-Haenszel|||||43.591|1.007|0.0316
82545357|NCT04188379|164789919|SUPERIORITY||Median Difference (Net)|1.0||||0.0009|TWO_SIDED|95.0|0.0|4.0|||Wilcoxon (Mann-Whitney)|||||4.000|0.000|0.0009
82545358|NCT04188379|164789920|SUPERIORITY||Odds Ratio (OR)|5.224||||0.0108|TWO_SIDED|95.0|1.268|26.268|||Cochran-Mantel-Haenszel|||||26.268|1.268|0.0108
82545359|NCT04188379|164789921|SUPERIORITY||Rate Ratio|0.958||||0.8287|TWO_SIDED|95.0|0.651|1.41|||Wald Test|||||1.41|0.651|0.8287
82545360|NCT04188379|164789922|SUPERIORITY||Odds Ratio (OR)|4.354||||0.0265|TWO_SIDED|95.0|1.048|22.865|||Cochran-Mantel-Haenszel|||||22.865|1.0480|0.0265
82545361|NCT04928001|164789923|SUPERIORITY||Mean Difference (Final Values)|31.0||||0.01|TWO_SIDED|95.0|0.0|60.0|||t-test, 1 sided|||||60|0|.01
82545362|NCT01693120|164789924|SUPERIORITY||rate|1.6||||0.175|ONE_SIDED|95.0||4.9|||exact binomial test|||The null hypothesis was that the procedure or device related stroke rate within 30-days of a Phased RF ablation procedure was 3.5% or greater. The alternative hypothesis was that this rate was less than 3.5%. A sample size of 300 subjects provided 90% power to test the null hypothesis assuming the true stroke rate was 1.0% with a one-sided type I error rate of 0.05||4.9||0.175
82545363|NCT01693120|164789925|OTHER|The goal of the analysis was to compute a two-sided 95% confidence interval around the 6-month effectiveness rate. There was no pre-specified hypothesis.|rate|52.6|||||TWO_SIDED|95.0|43.1|62.1||||||||62.1|43.1|
82545364|NCT01693120|164789926|OTHER|There was no prespecified hypothesis tested.|rate|90.7|||||TWO_SIDED|95.0|84.3|95.1||||||There was no prespecified hypothesis tested.||95.1|84.3|
82545365|NCT01693120|164789927|OTHER|There was no pre-specified hypothesis to test|rate|0.0|||||TWO_SIDED|95.0|0.0|6.1||||||There was no pre-specified hypothesis to test||6.1|0|
82650292|NCT05085613|165015682|SUPERIORITY||Mean Difference (Final Values)|4.044194|STANDARD_ERROR_OF_MEAN|4.302202||0.725|TWO_SIDED|95.0|-6.416608|14.505||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||14.505|-6.416608|0.725
82545366|NCT01534494|164789973|OTHER|Paired t-test||||||0.008|||||||t-test, 2 sided|Paired t-test for significance of change. t(8) = 3.477. P(2-sided) = 0.008||Single-group pre-post contrast||||0.008
82579066|NCT03101462|164868247|OTHER|||||||0.0052||||||This is the calculated p-value|t-test, 2 sided|||A/H3N2 Day 45||||0.0052
82545367|NCT00431834|164789996|SUPERIORITY_OR_OTHER||binomial proportions|37.7|||<|0.0041|ONE_SIDED|97.5|25.6|||The percent of patients off Class I and III AADs and successfully converted out of AF following treatment (ptest) will exceed the percenter of patients off Class I and III AADs and convereted out of AF, as reported in literature (pcontrol=22.1%)|Fisher Exact|||"The specific test hypothesis is as follows:~H0: ptest ≤ 22.1% Ha: ptest \> 22.1%"|||25.6|<0.0041
82545368|NCT00431834|164789999|SUPERIORITY_OR_OTHER||binomial proportions|5.3|||<|0.0001|ONE_SIDED|97.5||13.1||The percent of subjects following treatment, p, who experience any of the MAEs during the first 30 days following surgery, or hospital discharge, whichever is longer will be less than 23.6%.|Fisher Exact|||"The specific test hypothesis is as follows:~H0: p ≥ 23.6% Ha: p \< 23.6%"||13.1||<0.0001
82545369|NCT01643616|164790000|SUPERIORITY_OR_OTHER||Percentage Difference|33.0|||<|0.05|||||||Fisher Exact||For success rate without supplementation the difference between group US (94.9%) and group NS (61.9%) is 33%.|For sample size calculation we assumed a significance level of 0.05 and a success rate derived from clinical data of 75% in the nerve stimulation group and of 90% in the ultrasound group. With a group ratio of 1:1 and a power of 0.8, the required sample size was at least 226. For statistical analysis we used the exact Fisher test as a distribution-free, non-parametric test method.||||< 0.05
82545370|NCT01643616|164790001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.9|||<|0.05|TWO_SIDED|95.0|13.6|31.1|||Log Rank|||We used the log-rank test to compare the onset times. The significance level was defined with p\<0.05.||31.1|13.6|< 0.05
82545371|NCT01643616|164790002|SUPERIORITY_OR_OTHER||Percentage Difference|26.2||||0.05|||||||Fisher Exact||For success rate with supplementation the difference between group US (98.2%) and group NS (72%) is 26.2%.|For sample size calculation we assumed a significance level of 0.05 and a success rate derived from clinical data of 75% in the nerve stimulation group and of 90% in the ultrasound group. With a group ratio of 1:1 and a power of 0.8, the required sample size was at least 226. For statistical analysis we used the exact Fisher test as a distribution-free, non-parametric test method.||||0.05
82545372|NCT02622568|164790003|NON_INFERIORITY|Veregen alone has efficacy compared to Veregen + cryotherapy|Mean Difference (Final Values)|1.556||||0.383|TWO_SIDED|||||Comparison at week 12|t-test, 2 sided|||||||0.383
82545373|NCT02622568|164790003|NON_INFERIORITY|Comparison at week 0|Mean Difference (Final Values)|-0.222||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
82545374|NCT00324350|164790004|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.678|TWO_SIDED|95.0|0.86|1.27||Analyses were by intention to treat. All analyses adjusted for baseline cardiovascular disease, assignment to blood pressure (BP) trial or lipid trial, assignment to intensive BP intervention in BP trial, and assignment to fibrate in lipid trial.|Regression, Cox|||The BONE ancillary study was designed to have 80% power to detect a relative reduction in risk of non-spine clinical fractures of 22-29%. This was based on an estimated total number of fractures between 259-494, calculated with the following assumptions: rate of clinical non-spine fracture among women in the standard glycemia therapy group between 15 and 25/1000 person yrs, fracture rates for men between 35-40% of the rates for women of the same age, and an avg follow-up time of 4.6 yrs.||1.27|0.86|0.678
82561919|NCT02326220|164832993|SUPERIORITY||LS Mean Difference|4.2||||0.3012|TWO_SIDED|95.0|-3.9|12.3||Threshold for significance at 0.05 level.|MMRM||Alirocumab 150 mg Q2W (Double Blind Period) vs. Placebo Q2W (Double Blind Period)|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.3|-3.9|0.3012
82579067|NCT03101462|164868247|OTHER|||||||0.25|||||||t-test, 2 sided|||Influenza B Day 0||||0.25
82579068|NCT03101462|164868247|OTHER|||||||0.061|||||||t-test, 2 sided|||Influenza B Day 7||||0.061
82650293|NCT05085613|165015682|SUPERIORITY||Mean Difference (Final Values)|-1.53656|STANDARD_ERROR_OF_MEAN|-1.53656||0.98|TWO_SIDED|95.0|-12.25295|9.179834||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||9.179834|-12.25295|0.980
82465294|NCT02977403|164626742|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.041|||||TWO_SIDED|95.0|-0.123|0.041||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.041|-0.123|
82465295|NCT02977403|164626742|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.213|0.021||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.021|-0.213|
82465296|NCT02977403|164626743|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.038|||||TWO_SIDED|95.0|-0.142|0.066||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.066|-0.142|
82465297|NCT02977403|164626743|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.096|||||TWO_SIDED|95.0|-0.29|0.097||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.097|-0.290|
82465298|NCT02977403|164626744|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.023|||||TWO_SIDED|95.0|-0.105|0.059||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.059|-0.105|
82465299|NCT02977403|164626744|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.124|||||TWO_SIDED|95.0|-0.277|0.029||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.029|-0.277|
82465300|NCT02977403|164626745|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.057|||||TWO_SIDED|95.0|-0.14|0.027||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.027|-0.140|
82465301|NCT02977403|164626745|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.161|||||TWO_SIDED|95.0|-0.302|-0.02||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.020|-0.302|
82490383|NCT03689530|164673670|OTHER|Single group analysis for peer support group only|Mean|3.799|STANDARD_DEVIATION|0.885|||TWO_SIDED|||||||||||||
82490384|NCT03689530|164673671|OTHER|Single group analysis for peer support group only|Mean|3.732|STANDARD_DEVIATION|0.985|||TWO_SIDED|||||||||||||
82490385|NCT03689530|164673672|OTHER|Single group analysis for peer support group only|Mean|6.222|STANDARD_DEVIATION|1.083|||TWO_SIDED|||||||||||||
82490386|NCT03689530|164673673|OTHER|Single group analysis for peer support group only|Mean|6.179|STANDARD_DEVIATION|1.141|||TWO_SIDED|||||||||||||
82490387|NCT03689530|164673674|SUPERIORITY|||||||0.9126|||||||Mixed Models Analysis|||||||0.9126
82545375|NCT00324350|164790005|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.49|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|||Number of participants with falls reported at each annual visit were compared by treatment assignment using a repeated-measures negative binomial model, with robust standard errors to account for clustering of the repeated outcomes within participants; the log of the length of the reporting period varied slightly and was included as an offset||1.43|0.84|0.490
82545376|NCT00324350|164790006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.854|TWO_SIDED|95.0|0.88|1.11|||Mixed Models Analysis||The rate of height loss did not differ between groups (p = 0.573). Height loss of \>2 cm during ACCORD was experienced by 678 (19.5%) participants in the intensive and 686 (19.6%) in the standard glycemia group (OR 0.99; 95% CI 0.88, 1.11).|Height loss was compared by treatment assignment using linear mixed models with random intercepts and slopes. The proportions losing \>2 cm of height during follow-up were compared using logistic models. Based on previous research by Siminoski et al., this degree of height loss is associated with incident vertebral fracture with 94% specificity but only 28% sensitivity.(Siminoski K, Jiang G, Adachi JD, et al. Osteoporos Int 2005;16:403-410)||1.11|0.88|0.854
82545377|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-concomitant Group. GMT Ratio is reported for Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.22|||||TWO_SIDED|95.0|0.92|1.61|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 6||1.61|0.92|
82545378|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.33|||||TWO_SIDED|95.0|1.01|1.75|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 11||1.75|1.01|
82545379|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.36|||||TWO_SIDED|95.0|1.02|1.82|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 16||1.82|1.02|
82545380|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.25|||||TWO_SIDED|95.0|0.92|1.7|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 18||1.70|0.92|
82579069|NCT03101462|164868247|OTHER|||||||0.0025|||||||t-test, 2 sided|||Influenza B Day 45||||0.0025
82579070|NCT03101462|164868248|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 7||||0.24
82650294|NCT05085613|165015683|SUPERIORITY||Mean Difference (Final Values)|7.002255|STANDARD_ERROR_OF_MEAN|8.801527||0.813|TWO_SIDED|95.0|-14.39448|28.39899||Sidak's adjusted p-value for multiple comparisons|ANCOVA|Df = 6|Economic recovery condition - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||28.39899|-14.39448|0.813
82545381|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.21|||||TWO_SIDED|95.0|0.91|1.61|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 31||1.61|0.91|
82545382|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.32|||||TWO_SIDED|95.0|0.98|1.77|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 33||1.77|0.98|
82545383|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.4|||||TWO_SIDED|95.0|1.01|1.93|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 45||1.93|1.01|
82579071|NCT03101462|164868248|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 45||||0.76
82579072|NCT03101462|164868248|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 7||||0.06
82579073|NCT03101462|164868248|OTHER|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 45||||0.56
82650295|NCT05085613|165015683|SUPERIORITY||Mean Difference (Final Values)|15.12214|STANDARD_ERROR_OF_MEAN|9.07444||0.268|TWO_SIDED|95.0|-6.938055|37.18234||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||37.18234|-6.938055|0.268
82579074|NCT03101462|164868248|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 7||||0.04
82579075|NCT03101462|164868248|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 45||||0.16
82579076|NCT03101462|164868248|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 7||||0.02
82579077|NCT03101462|164868248|OTHER|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and 2, Day 0 and Day 45||||0.94
82579078|NCT03101462|164868248|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 7||||0.002
82579079|NCT03101462|164868248|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Live H3N2, Day 0 and Day 45||||0.16
82579080|NCT03101462|164868248|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 7||||0.02
82579081|NCT03101462|164868248|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||Flumist, Day 0 and Day 45||||0.98
82465302|NCT02977403|164626746|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.0002|||||TWO_SIDED|95.0|-0.091|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.091|
82465303|NCT02977403|164626746|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.004|||||TWO_SIDED|95.0|-0.157|0.149||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.149|-0.157|
82465304|NCT02977403|164626747|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.01|||||TWO_SIDED|95.0|-0.092|0.071||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.071|-0.092|
82465305|NCT02977403|164626747|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.029|||||TWO_SIDED|95.0|-0.126|0.183||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.183|-0.126|
82465306|NCT02977403|164626748|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.013|||||TWO_SIDED|95.0|-0.101|0.076||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.076|-0.101|
82465307|NCT02977403|164626748|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.106|||||TWO_SIDED|95.0|-0.273|0.06||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.060|-0.273|
82465308|NCT02977403|164626749|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.033|||||TWO_SIDED|95.0|-0.11|0.043||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.043|-0.110|
82465309|NCT02977403|164626749|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.166|||||TWO_SIDED|95.0|-0.335|0.003||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.003|-0.335|
82490388|NCT03689530|164673675|SUPERIORITY|||||||0.7405|||||||Mixed Models Analysis|||||||0.7405
82490389|NCT03689530|164673676|SUPERIORITY|||||||0.5956|||||||Mixed Models Analysis|||||||0.5956
82490390|NCT03689530|164673677|SUPERIORITY|||||||0.3341|||||||Mixed Models Analysis|||||||0.3341
82579082|NCT03101462|164868249|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.04
82579083|NCT03101462|164868249|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.02
82490391|NCT03689530|164673678|SUPERIORITY|||||||0.2049|||||||Mixed Models Analysis|||||||0.2049
82490392|NCT03689530|164673679|SUPERIORITY|||||||0.0335|||||||Mixed Models Analysis|||||||0.0335
82490393|NCT03689530|164673680|SUPERIORITY|||||||0.3219|||||||Mixed Models Analysis|||||||0.3219
82490394|NCT03689530|164673681|SUPERIORITY|||||||0.5223|||||||Mixed Models Analysis|||||||0.5223
82490395|NCT01392443|164673682|OTHER|||||||0.0007|||||||single-sample biniminal test|||||||0.0007
82545384|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.45|||||TWO_SIDED|95.0|1.13|1.87|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 52||1.87|1.13|
82545385|NCT05119855|164790012|OTHER|Geometric Mean Titer (GMT) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-HPV titers and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMT Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Titer (GMT) Ratio|1.2|||||TWO_SIDED|95.0|0.91|1.58|||||GMT Ratio is between Concomitant Group/Non-concomitant Group.|Anti-HPV 58||1.58|0.91|
82545386|NCT05119855|164790013|OTHER|Geometric Mean Concentration (GMC) Ratio with corresponding 2-sided 95% confidence interval (CI) was calculated using an analysis of variance model (ANOVA) with a response of log individual anti-SARS-CoV-2 concentrations and a fixed effect for the vaccination groups, Concomitant Group versus Non-Concomitant Group. GMC Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Concentration (GMC) Ratio|1.17|||||TWO_SIDED|95.0|0.99|1.4|||||GMC Ratio is between Concomitant Group/Non-concomitant Group.|Geometric Mean Concentration (GMC) Ratio||1.40|0.99|
82545387|NCT04059042|164790020|EQUIVALENCE|Between-session pain measures were assessed with related-samples Wilcoxon signed-rank tests (Audio minus Silence). Data were not normally distributed so nonparametric tests were used.|Z score|39.0||||0.0051|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.0051
82545388|NCT04059042|164790020|EQUIVALENCE|Between-session change scores were calculated per participant as Audio minus Silence and compared between groups with independent samples Mann-Whitney U-tests. Data were not normally distributed so nonparametric tests were used.|Z score|19.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
82545389|NCT04059042|164790021|EQUIVALENCE|Between-session pain measures were assessed with related-samples Wilcoxon signed-rank tests (Audio minus Silence). Data were not normally distributed so nonparametric tests were used.|Z score|18.0||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.59
82545390|NCT04059042|164790021|EQUIVALENCE|Between-session change scores were calculated per participant as Audio minus Silence and compared between groups with independent samples Mann-Whitney U-tests. Data were not normally distributed so nonparametric tests were used.|Z score|14.0||||0.41|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.41
82545391|NCT02597920|164790026|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline CDS with that of Visit 2.||||<0.0001
82545392|NCT02597920|164790026|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline CDS with that of Visit 3.||||<0.0001
82545393|NCT02597920|164790026|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline SDS with that of Visit 2.||||<0.0001
82545394|NCT02597920|164790026|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Baseline SDS with that of Visit 3.||||<0.0001
82650296|NCT05085613|165015683|SUPERIORITY||Mean Difference (Final Values)|14.4032|STANDARD_ERROR_OF_MEAN|9.305576||0.33|TWO_SIDED|95.0|-8.218891|37.0253||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - Control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||37.0253|-8.218891|0.330
82579084|NCT03101462|164868249|OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.95
82545395|NCT02597920|164790027|OTHER|||||||0.0005|||||||Propensity score matching method|||Between group comparison of Visit 2 CDS||||0.0005
82545396|NCT02597920|164790027|OTHER|||||||0.0002|||||||Propensity score matching method|||Between group comparison of Visit 3 CDS||||0.0002
82545397|NCT02597920|164790027|OTHER|||||||0.0002|||||||Propensity score matching method|||Between group comparison of Visit 2 SDS||||0.0002
82545398|NCT02597920|164790027|OTHER|||||||0.0004|||||||Propensity score matching method|||Between group comparison of Visit 3 SDS||||0.0004
82545399|NCT02597920|164790032|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Visit 2 CDS with that of Visit 3.||||<0.0001
82545400|NCT02597920|164790032|OTHER||||||<|0.0001|||||||Paired t-test|||Within group comparison of Visit 2 SDS with that of Visit 3.||||<0.0001
82545401|NCT05489484|164790051|OTHER|Paired-sample t-test was used to assess the change in Constant-Murley Score from baseline to 3 months.|Mean Difference (Net)|10.03|STANDARD_ERROR_OF_MEAN|2.124||0.001|TWO_SIDED|95.0|3.63|16.0|||t-test, 2 sided||Mean change from baseline in CMS at 3 months. Higher scores represent better shoulder function. Positive difference indicates clinical improvement.|Statistical analysis was performed on 23 participants with valid Constant-Murley Score (CMS) data at both baseline and 3-month follow-up.||16.00|3.63|0.001
82545402|NCT00444600|164790060|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-55.0|||<|0.001|TWO_SIDED|95.0|-78.0|-32.0||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in central subfield thickness mean change from sham+prompt laser||-32|-78|<0.001
82545403|NCT00444600|164790060|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-49.0|||<|0.001|TWO_SIDED|95.0|-72.0|-26.0||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in optical coherence tomography central subfield thickness mean change from sham+prompt laser||-26|-72|<0.001
82545404|NCT00444600|164790060|SUPERIORITY_OR_OTHER_LEGACY||Difference in mean change|-52.0|||<|0.001|TWO_SIDED|95.0|-75.0|-29.0||Confidence interval is adjusted for multiple comparisons|ANCOVA|Adjusted for baseline retinal thickness and visual acuity and correlation between two study eyes.||Difference in optical coherence tomography central subfield thickness mean change from sham+prompt laser||-29|-75|<0.001
82579085|NCT03101462|164868249|OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.17
82579086|NCT03101462|164868249|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.06
82579087|NCT03101462|164868249|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.14
82465310|NCT02977403|164626750|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.011|||||TWO_SIDED|95.0|-0.069|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.069|
82465311|NCT02977403|164626750|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.167|||||TWO_SIDED|95.0|-0.332|-0.002||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.002|-0.332|
82465312|NCT02977403|164626751|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.054|||||TWO_SIDED|95.0|-0.037|0.146||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.146|-0.037|
82465313|NCT02977403|164626751|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.019|||||TWO_SIDED|95.0|-0.127|0.09||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.090|-0.127|
82465314|NCT02977403|164626752|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.002|||||TWO_SIDED|95.0|-0.061|0.065||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.065|-0.061|
82465315|NCT02977403|164626752|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.086|||||TWO_SIDED|95.0|-0.215|0.042||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.042|-0.215|
82465316|NCT02977403|164626753|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.032|||||TWO_SIDED|95.0|-0.05|0.115||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.115|-0.05|
82465317|NCT02977403|164626753|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.248|0.058||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.058|-0.248|
82490396|NCT01977794|164673687|SUPERIORITY_OR_OTHER||||||<|0.001||||||P value in both groups (Amlodipine failed and Bisoprolol failed) for comparison of SBP after 18 weeks versus baseline|Paired t test|||For each group (Amlodipine failed and Bisoprolol failed) SBP after 18 weeks compared to baseline (under monotherapy). Superiority was assessed between FDC and monotherapies.||||<0.001
82490397|NCT01895062|164673692|SUPERIORITY_OR_OTHER||||||<|0.022|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.022
82490398|NCT01935791|164673699|OTHER||||||<|0.01||||||The p-values were adjusted for multiple comparisons. The a priori threshold for statistical significance is p\<0.05.|ANOVA|plus Tukey test||||||<0.01
82490399|NCT01935791|164673700|OTHER||||||<|0.001|||||||ANOVA|plus Tukey test||||||<0.001
82490400|NCT03019185|164673724|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|13.37|STANDARD_ERROR_OF_MEAN|1.4111|<|0.0001|TWO_SIDED|95.0|10.48|16.27|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||16.27|10.48|<0.0001
82545405|NCT00444600|164790062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.8|||<|0.001|TWO_SIDED|95.0|3.2|8.5||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||8.5|3.2|<0.001
82465318|NCT02977403|164626754|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.075|0.042||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.042|-0.075|
82465319|NCT02977403|164626754|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.025|||||TWO_SIDED|95.0|-0.13|0.18||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.180|-0.130|
82465320|NCT02977403|164626755|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.03|||||TWO_SIDED|95.0|-0.039|0.099||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).||||Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.099|-0.039|
82465321|NCT02977403|164626755|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.143|||||TWO_SIDED|95.0|-0.335|0.049||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.049|-0.335|
82465322|NCT02977403|164626756|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.016|||||TWO_SIDED|95.0|-0.097|0.066||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.066|-0.097|
82465323|NCT02977403|164626756|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.162|||||TWO_SIDED|95.0|-0.314|-0.01||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||-0.01|-0.314|
82465324|NCT02977403|164626757|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.053|||||TWO_SIDED|95.0|-0.051|0.156||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.156|-0.051|
82465325|NCT02977403|164626757|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.07|||||TWO_SIDED|95.0|-0.251|0.111||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.111|-0.251|
82490401|NCT03019185|164673725|SUPERIORITY||LS Mean difference (Net)|9.49|STANDARD_ERROR_OF_MEAN|1.813|<|0.0001|TWO_SIDED|97.5|5.38|13.6|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 48 were included. Missing data were not imputed.|Difference is bardoxolone methyl - placebo|||13.60|5.38|<0.0001
82490402|NCT03019185|164673726|SUPERIORITY||LS Mean difference (Net)|7.65|STANDARD_ERROR_OF_MEAN|2.144||0.0005|TWO_SIDED|95.0|3.41|11.89|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 100 (excluding Week 52) were included. Missing data were not imputed.|Difference is bardoxolone methyl - placebo|||11.89|3.41|0.0005
82490403|NCT03019185|164673727|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 48.|LS Mean change from baseline|7.4|STANDARD_ERROR_OF_MEAN|1.9451||0.0008|TWO_SIDED|95.0|3.4|11.39|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 48 were included. Missing data were not imputed.||||11.39|3.40|0.0008
82545406|NCT00444600|164790062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.0|||<|0.001|TWO_SIDED|95.0|3.4|8.6||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||8.6|3.4|<0.001
82545407|NCT00444600|164790062|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.31|TWO_SIDED|95.0|-1.5|3.7||Adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline visual acuity and correlation between 2 study eyes.||||3.7|-1.5|0.31
82545408|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|23.0|||||TWO_SIDED|95.0|13.0|34.0||Confidence intervals are adjusted for multiple comparisons.|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement for sham+prompt laser at 1 year||34|13|
82545409|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|19.0|||||TWO_SIDED|95.0|9.0|29.0||Confidence intervals adjusted for multiple comparisons|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement from sham+prompt laser at 1 year||29|9|
82465326|NCT02977403|164626758|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.015|||||TWO_SIDED|95.0|-0.061|0.091||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.091|-0.061|
82465327|NCT02977403|164626758|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.108|||||TWO_SIDED|95.0|-0.26|0.044||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.044|-0.260|
82465328|NCT02977403|164626759|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.036|||||TWO_SIDED|95.0|-0.047|0.119||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.119|-0.047|
82465329|NCT02977403|164626759|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.106|||||TWO_SIDED|95.0|-0.276|0.064||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.064|-0.276|
82490404|NCT03019185|164673728|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 100.|LS Mean change from baseline|4.28|STANDARD_ERROR_OF_MEAN|1.7484||0.015|TWO_SIDED|95.0|0.84|7.72|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 100 (excluding Week 52) were included. Missing data were not imputed.||||7.72|0.84|0.0150
82490405|NCT03019185|164673729|SUPERIORITY||LS Mean difference (Net)|5.09|STANDARD_ERROR_OF_MEAN|1.656||0.0021|TWO_SIDED|97.5|1.37|8.8|||ANCOVA|Missing eGFR data were imputed using multiple imputation based on the treatment group to which the patient was assigned.|Difference is bardoxolone methyl - placebo|||8.80|1.37|0.0021
82545410|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|6.0|||||TWO_SIDED|95.0|-4.0|16.0||Confidence intervals adjusted for multiple comparisons|Binomial regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter improvement from sham+prompt laser at 1 year||16|-4|
82545411|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.84|||<|0.001|TWO_SIDED|95.0|1.4|2.42||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||2.42|1.40|<0.001
82545412|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.68|||<|0.001|TWO_SIDED|95.0|1.27|2.21||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||2.21|1.27|<0.001
82545413|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.21||||0.16|TWO_SIDED|95.0|0.88|1.66||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.|Eyes were analyzed.|Relative risk for ≥10 letter improvement comparison with sham+prompt laser at 1 year||1.66|0.88|0.16
82545414|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-10.0|||||TWO_SIDED|95.0|-16.0|-5.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||-5|-16|
82545415|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-10.0|||||TWO_SIDED|95.0|-16.0|-4.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||-4|-16|
82579088|NCT03101462|164868249|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.02
82465330|NCT02977403|164626760|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|-0.017|||||TWO_SIDED|95.0|-0.092|0.057||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.057|-0.092|
82465331|NCT02977403|164626760|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|0.002|||||TWO_SIDED|95.0|-0.15|0.153||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.153|-0.150|
82465332|NCT02977403|164626761|SUPERIORITY|Change scores were computed (post-intervention - pre-intervention = delta) for oscillatory power. A linear mixed model was run with change scores as the dependent variable. Between-subject factors were condition, recent LOC-eating (0=absent, 1=present), and a condition by LOC-eating interaction term. Oscillatory power analyses were nested within subject. Models included a random intercept and were adjusted for stimuli pairing type, age, fat mass, height, and race and ethnicity.|beta coefficient|0.07|||||TWO_SIDED|95.0|-0.019|0.159||Effect sizes and 95% CIs, rather than statistical significance, were used. Cohen's d was interpreted as minimal to no effect (\<.02) small effect (0.2-0.49) medium effect (0.5-0.79) large effect (0.8).|||To examine changes in oscillatory power, change scores were computed (post-pre=delta). Positive scores represent an increase from pre- to post- intervention. Negative scores represent a decrease from pre- to post- intervention.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||0.159|-0.019|
82465333|NCT02977403|164626761|SUPERIORITY|See Statistical Analysis 1 for details. No p-values supplied, only confidence intervals and Cohen's d|beta coefficient|-0.095|||||TWO_SIDED|95.0|-0.26|0.07||||||Interaction of Loss of Control Eating with attention bias. See Statistical Analysis 1 for details.||0.070|-0.260|
82465334|NCT02977403|164626762|SUPERIORITY||beta coefficient|-0.8707|STANDARD_ERROR_OF_MEAN|0.766||0.256|TWO_SIDED||||||Generalized estimation equations||Reported variable is a condition by time (pre or post-intervention) interaction term. The model included a Poisson distribution, log link function, exchangeable covariance matrix and was adjusted for age, fat mass, height, and race and ethnicity.|Sample size estimation was based on the power analysis for the first hypothesis (examine changes in oscillatory power following completion of the smartphone program). Assuming 35% attrition, 80 girls, 40 with LOC-eating and 40 without LOC-eating, were estimated to provide \>80% power to detect medium to large effects.||||0.256
82465335|NCT01352117|164626792|SUPERIORITY|||||||0.911||||||The critical value for the final analysis was adjusted for the three interim analyses conducted for the Data and Safety Monitoring Board (DSMB) review using the Haybittle-Peto guidelines, at the p-value cutoff of 0.0487.|Wilcoxon (Mann-Whitney)|Stratified Wilcoxon-Mann-Whitney test (asymptotic method) known as van Elteren test, stratification by screening CD4 (\<200 vs. \>=200 cells/mm\^3).||||||0.911
82465336|NCT01766050|164626817|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.898|1.093||||||||1.093|0.898|
82465337|NCT01766050|164626817|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.911|||||TWO_SIDED|90.0|0.83|1.0||||||||1.000|0.830|
82465338|NCT01766050|164626817|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.994|||||TWO_SIDED|90.0|0.885|1.116||||||||1.116|0.885|
82465339|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.05|||||TWO_SIDED|90.0|0.976|1.13||||||AUC (0-T)||1.130|0.976|
82465340|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.966|||||TWO_SIDED|90.0|0.889|1.049||||||AUC (0-T)||1.049|0.889|
82465341|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.033|||||TWO_SIDED|90.0|0.95|1.123||||||AUC (0-T)||1.123|0.950|
82465342|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.049|||||TWO_SIDED|90.0|0.975|1.127||||||AUC (INF)||1.127|0.975|
82465343|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.968|||||TWO_SIDED|90.0|0.892|1.049||||||AUC (INF)||1.049|0.892|
82545416|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|1.0|||||TWO_SIDED|95.0|-7.0|9.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥10 letter worsening from sham+prompt laser at 1 year||9|-7|
82465344|NCT01766050|164626835|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.031|||||TWO_SIDED|90.0|0.948|1.121||||||AUC(INF)||1.121|0.948|
82465345|NCT01766050|164626836|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.991|||||TWO_SIDED|90.0|0.898|1.093||||||||1.093|0.898|
82465346|NCT01766050|164626836|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.911|||||TWO_SIDED|90.0|0.83|1.0||||||||1.000|0.830|
82465347|NCT01766050|164626836|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.994|||||TWO_SIDED|90.0|0.885|1.116||||||||1.116|0.885|
82465348|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.013|||||TWO_SIDED|90.0|0.944|1.088||||||AUC (0-T)||1.088|0.944|
82465349|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.016|||||TWO_SIDED|90.0|0.936|1.103||||||AUC (0-T)||1.103|0.936|
82465350|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.001|||||TWO_SIDED|90.0|0.893|1.121||||||AUC (0-T)||1.121|0.893|
82465351|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.011|||||TWO_SIDED|90.0|0.942|1.085||||||AUC (INF)||1.085|0.942|
82465352|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.016|||||TWO_SIDED|90.0|0.938|1.101||||||AUC (INF)||1.101|0.938|
82465353|NCT01766050|164626837|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.002|||||TWO_SIDED|90.0|0.896|1.121||||||AUC (INF)||1.121|0.896|
82579089|NCT03101462|164868249|OTHER|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.09
82465354|NCT01766050|164626838|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.26|||||TWO_SIDED|90.0|1.118|1.421||||||||1.421|1.118|
82465355|NCT01766050|164626838|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.292|||||TWO_SIDED|90.0|1.09|1.531||||||||1.531|1.090|
82465356|NCT01766050|164626838|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.178|||||TWO_SIDED|90.0|0.971|1.429||||||||1.429|0.971|
82465357|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.159|||||TWO_SIDED|90.0|1.056|1.272||||||AUC (0-T)||1.272|1.056|
82465358|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.228|||||TWO_SIDED|90.0|1.092|1.381||||||AUC (0-T)||1.381|1.092|
82545417|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.24|||<|0.001|TWO_SIDED|95.0|0.09|0.65||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||0.65|0.09|<0.001
82465359|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.215|||||TWO_SIDED|90.0|1.047|1.41||||||AUC (0-T)||1.410|1.047|
82545418|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.24||||0.001|TWO_SIDED|95.0|0.08|0.68||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||0.68|0.08|0.001
82545419|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.08||||0.75|TWO_SIDED|95.0|0.62|1.87||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥10 letter worsening comparison with sham+prompt laser at 1 year||1.87|0.62|0.75
82545420|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|16.0|||||TWO_SIDED|95.0|6.0|26.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between to study eyes.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||26|6|
82545421|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|13.0|||||TWO_SIDED|95.0|4.0|22.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||22|4|
82545422|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|6.0|||||TWO_SIDED|95.0|-2.0|15.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter improvement from sham+prompt laser at 1 year||15|-2|
82545423|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.09|||<|0.001|TWO_SIDED|95.0|1.35|3.22|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||3.22|1.35|<0.001
82545424|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.89|||<|0.001|TWO_SIDED|95.0|1.25|2.87||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||2.87|1.25|<0.001
82465360|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.193|||||TWO_SIDED|90.0|1.091|1.304||||||AUC (INF)||1.304|1.091|
82465361|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.227|||||TWO_SIDED|90.0|1.093|1.379||||||AUC (INF)||1.379|1.093|
82465362|NCT01766050|164626839|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.3|||||TWO_SIDED|90.0|1.141|1.482||||||AUC (INF)||1.482|1.141|
82465363|NCT01766050|164626840|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.863|||||TWO_SIDED|90.0|0.746|0.997||||||||0.997|0.746|
82465364|NCT01766050|164626840|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.922|||||TWO_SIDED|90.0|0.793|1.071||||||||1.071|0.793|
82465365|NCT01766050|164626840|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.856|||||TWO_SIDED|90.0|0.709|1.034||||||||1.034|0.709|
82465366|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.915|||||TWO_SIDED|90.0|0.817|1.024||||||AUC (0-T)||1.024|0.817|
82465367|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.003|||||TWO_SIDED|90.0|0.856|1.175||||||AUC (0-T)||1.175|0.856|
82465368|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.963|||||TWO_SIDED|90.0|0.821|1.13||||||AUC (0-T)||1.130|0.821|
82465369|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.877|||||TWO_SIDED|90.0|0.783|0.982||||||AUC (INF)||0.982|0.783|
82465370|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.031|||||TWO_SIDED|90.0|0.885|1.2||||||AUC (INF)||1.200|0.885|
82465371|NCT01766050|164626841|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.022|||||TWO_SIDED|90.0|0.839|1.245||||||AUC (INF)||1.245|0.839|
82465372|NCT01766050|164626842|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.948|||||TWO_SIDED|90.0|0.88|1.021||||||||1.021|0.880|
82465373|NCT01766050|164626842|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.922|||||TWO_SIDED|90.0|0.857|0.993||||||||0.993|0.857|
82465374|NCT01766050|164626842|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.954|||||TWO_SIDED|90.0|0.885|1.028||||||||1.028|0.885|
82465375|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.941|||||TWO_SIDED|90.0|0.874|1.013||||||AUC (0-T)||1.013|0.874|
82465376|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.986|||||TWO_SIDED|90.0|0.902|1.076||||||AUC (0-T)||1.076|0.902|
82545425|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.43||||0.07|TWO_SIDED|95.0|0.9|2.29||Confidence intervals are adjusted for multiple comparisons.|Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter improvement comparison with sham+prompt laser at 1 year||2.29|0.90|0.07
82545426|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-6.0|||||TWO_SIDED|95.0|-11.0|-2.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||-2|-11|
82545427|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|-6.0|||||TWO_SIDED|95.0|-10.0|-1.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||-1|-10|
82579090|NCT03101462|164868249|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.01
82545428|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Proportion|0.0|||||TWO_SIDED|95.0|-6.0|6.0||Confidence intervals are adjusted for multiple comparisons.|Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Difference in proportion with ≥15 letter worsening from sham+prompt laser at 1 year||6|-6|
82545429|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.21||||0.009|TWO_SIDED|95.0|0.05|0.87|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||0.87|0.05|0.009
82545430|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.28||||0.01|TWO_SIDED|95.0|0.08|0.97|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||0.97|0.08|0.01
82465377|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.027|||||TWO_SIDED|90.0|0.942|1.12||||||AUC (0-T)||1.120|0.942|
82465378|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.939|||||TWO_SIDED|90.0|0.868|1.017||||||AUC (INF)||1.017|0.868|
82465379|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.002|||||TWO_SIDED|90.0|0.914|1.098||||||||1.098|0.914|
82465380|NCT01766050|164626843|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.036|||||TWO_SIDED|90.0|0.94|1.142||||||AUC (INF)||1.142|0.940|
82465381|NCT03577275|164626853|OTHER|||||||||||||||||"The primary analysis was based on concentration-QTc modeling of the relationship between icosabutate and delta delta QTcF, with the intent to exclude an effect \> 10 msec at clinically relevant icosabutate plasma concentrations.~Assay sensitivity was evaluated by concentration-QTc analysis of the effect on delta delta QTcF of moxifloxacin using a similar model as for the primary analysis."|The primary analysis was based on concentration-QTc modeling of the relationship between icosabutate and delta delta QTcF, with the intent to exclude an effect \> 10 msec at clinically relevant icosabutate plasma concentrations.|||
82545431|NCT00444600|164790063|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.02||||0.95|TWO_SIDED|95.0|0.47|2.2|||Log-Binomial Regression|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for ≥15 letter worsening comparison with sham+prompt laser at 1 year||2.20|0.47|0.95
82545432|NCT00444600|164790064|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.0|||<|0.001|TWO_SIDED|95.0|1.52|2.64||Confidence intervals are adjusted for multiple comparisons.|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.64|1.52|<0.001
82545433|NCT00444600|164790064|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.55||||0.001|TWO_SIDED|95.0|1.13|2.13||Confidence intervals adjusted for multiple comparisons|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.13|1.13|0.001
82545434|NCT00444600|164790064|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.76|||<|0.001||95.0|1.31|2.36||Confidence intervals adjusted for multiple comparisons.|Regression, Logistic|Adjusted for correlation between 2 study eyes and multiple comparisons.||Relative risk for comparison with sham+prompt laser||2.36|1.31|<0.001
82545435|NCT00444600|164790074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.08
82545436|NCT00444600|164790074|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.17
82465382|NCT01097668|164626884|SUPERIORITY_OR_OTHER||||||<|0.001|||||||negative binomial model|||Comparison of the baseline 'ITT population' MRI data with week 16 data.||||<0.001
82465383|NCT01097668|164626884|SUPERIORITY_OR_OTHER|||||||0.03|||||||negative binomial model|||Comparison of the baseline 'MRI population' data with data from week 16.||||0.030
82465384|NCT00385671|164626885|NON_INFERIORITY_OR_EQUIVALENCE|Basis of non-inferiority margin (maximum disadvantage for duloxetine compared to pregabalin not considered meaningful): In 3 previous placebo-controlled trials of duloxetine in DPNP, in the subgroup of patients that had been treated with gabapentin prior to entry, the estimated mean change in pain at Week 12 was -2.74 for duloxetine and -1.09 for placebo, an advantage of about 1.65. The non-inferiority margin represents about half of this previous treatment effect in a similar population.|Mean Difference (Final Values)|0.49||||0.076|TWO_SIDED|95.0|-0.05|1.04||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week, Kenward-Roger approximation was used.||Null hypothesis: no difference in mean change from baseline to 12 weeks in weekly mean of daily 24 hour average pain score between pregabalin \& duloxetine treatments. Sample size: 125 participants/treatment, 6% increase for 400 planned enrollees. 92% power with 1-sided 97.5% confidence interval; mean change in duloxetine group, -2.7; in pregabalin group, -2.5; standard deviation, 2.3; margin of non-inferiority: -0.8.||1.04|-0.05|0.076
82545437|NCT00444600|164790075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.03
82545438|NCT00444600|164790075|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17||95.0|||||GEE repeated measures|||P value for comparison with sham||||0.17
82545439|NCT00444600|164790079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.01|-0.44||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.44|-1.01|<0.001
82545440|NCT00444600|164790079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.68|||<|0.001|TWO_SIDED|95.0|-0.96|-0.41||Confidence intervals adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.41|-0.96|<0.001
82545441|NCT00444600|164790079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.91|-0.34||Confidence intervals are adjusted for multiple comparisons.|ANCOVA|Adjusted for baseline optical coherence tomography (OCT) retinal volume, OCT retinal thickness and visual acuity and correlation between 2 study eyes.||Difference in mean change from sham+prompt laser||-0.34|-0.91|<0.001
82545442|NCT05132478|164790081|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||||||0.720
82545443|NCT05132478|164790082|SUPERIORITY|||||||0.743|||||||t-test, 2 sided|||||||0.743
82545444|NCT05132478|164790083|SUPERIORITY|||||||0.228|||||||t-test, 2 sided|||baseline||||0.228
82545445|NCT05132478|164790083|SUPERIORITY|||||||0.176|||||||t-test, 2 sided|||Post-Intervention||||0.176
82650297|NCT05085613|165015684|SUPERIORITY||Mean Difference (Final Values)|-1.457003|STANDARD_ERROR_OF_MEAN|6.380984||0.994|TWO_SIDED|95.0|-16.98852|14.07451||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Economic recovery - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||14.07451|-16.98852|0.994
82465385|NCT00385671|164626886|NON_INFERIORITY_OR_EQUIVALENCE|Basis of non-inferiority margin (maximum disadvantage for duloxetine compared to pregabalin not considered meaningful): In 3 previous placebo-controlled trials of duloxetine in DPNP, in the subgroup of patients that had been treated with gabapentin prior to entry, the estimated mean change in pain at Week 12 was -2.74 for duloxetine and -1.09 for placebo, an advantage of about 1.65. The non-inferiority margin represents about half of this previous treatment effect in a similar population.|Mean Difference (Final Values)|0.23||||0.417|TWO_SIDED|95.0|-0.32|0.78||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week, Kenward-Roger approximation was used.||Null hypothesis: no difference in mean change from baseline to 12 weeks in weekly mean of daily 24 hour average pain score between duloxetine \& duloxetine+gabapentin treatments. Sample size: 125 participants/treatment, 6% increase for 400 planned enrollees. 92% power with 1-sided 97.5% confidence interval; mean change in duloxetine group, -2.7; in pregabalin group, -2.5; standard deviation, 2.3; margin of non-inferiority: -0.8.||0.78|-0.32|0.417
82465386|NCT00385671|164626887|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.463
82465387|NCT00385671|164626887|SUPERIORITY_OR_OTHER|||||||0.52||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.520
82465388|NCT00385671|164626887|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||||0.463
82465389|NCT00385671|164626888|SUPERIORITY_OR_OTHER|||||||0.389||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.389
82465390|NCT00385671|164626888|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.126
82465391|NCT00385671|164626888|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in weekly mean of the daily worst pain severity score.||||0.489
82465392|NCT00385671|164626889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.602|TWO_SIDED|95.0|-0.2|0.35||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Covariance model and t-tests: Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.35|-0.20|0.602
82490406|NCT03019185|164673730|SUPERIORITY||LS Mean difference (Net)|4.26|STANDARD_ERROR_OF_MEAN|1.876||0.0232|TWO_SIDED|95.0|0.58|7.94|||ANCOVA|Missing eGFR data were imputed using multiple imputation based on the treatment group to which the patient was assigned.|Difference is bardoxolone methyl - placebo|||7.94|0.58|0.0232
82545446|NCT05132478|164790084|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||baseline||||0.410
82545447|NCT05132478|164790084|SUPERIORITY|||||||0.351|||||||ANOVA|||Post-Intervention||||0.351
82545448|NCT05132478|164790085|SUPERIORITY||||||<|0.001||||||calculated p-value|t-test, 2 sided|||||||<0.001
82545449|NCT05132478|164790086|SUPERIORITY||||||<|0.001||||||calculated p-value|t-test, 2 sided|||||||<0.001
82545450|NCT02549170|164790094|SUPERIORITY||Newcombe confidence interval|-21.8|||=|0.0045|TWO_SIDED|95.0|-34.45|-7.94|||Chi-squared|||||-7.94|-34.45|=0.0045
82545451|NCT02549170|164790096|SUPERIORITY||Newcombe confidence interval|-16.9|||=|0.0896|TWO_SIDED|95.0|-33.02|0.69||The treatment groups were compared using a continuity-corrected chi-square test.|Chi-squared, Corrected|||||0.69|-33.02|=0.0896
82545452|NCT02549170|164790097|SUPERIORITY||||||=|0.002|||||||Wilcoxon Survival Test|||||||=0.002
82545453|NCT02549170|164790098|SUPERIORITY||Least Square Mean|5.2|||=|0.03|TWO_SIDED|95.0|0.5|9.9|||ANCOVA|||||9.9|0.5|=0.030
82545454|NCT01290341|164790148|SUPERIORITY_OR_OTHER||p-value|0.001|||<|0.025||95.0|||||Cochran-Mantel-Haenszel|The CMH test statistic after stratification by site was used to compare subjects with complete cure between NAFT-600 and Placebo.||"In order to compare complete cure rate in the NAFT-600 group with that of the Placebo group, the following one-sided hypothesis test was carried out:~H0 (null): p1\<=p0 versus Ha (alternate): p1\>p0, where p0 and p1 are the proportions of subjects with complete cure in the placebo and NAFT-600 treatment groups respectively."||||<0.025
82545455|NCT02253537|164790159|EQUIVALENCE|2 x 2 contingency table with 95% CI.|2 x 2 contingency table|86.7|||||TWO_SIDED|95.0|62.1|96.3||||||||96.3|62.1|
82545456|NCT03684044|164790160|SUPERIORITY||Median Difference (Net)|-2.7||||0.4666|TWO_SIDED|95.0|-53.4|25.9|||Gehan Wilcoxon|The Gehan Wilcoxon test was used to analyze the TTCI data because the proportional hazards assumption was violated||||25.9|-53.4|0.4666
82545457|NCT03684044|164790161|SUPERIORITY|||||||0.6326|||||||Cochran-Mantel-Haenszel|Statistic was stratified by region, NEWS2 at baseline (≤7, \>7), and time from symptom onset to study treatment (≤48 hours, \>48 hours)||||||0.6326
82545458|NCT03684044|164790162|SUPERIORITY||Mean Difference (Net)|-6.8||||0.3272|TWO_SIDED|95.0|-50.9|17.7|||Gehan Wilcoxon|The Gehan Wilcoxon test was used to analyze the TTCI data because the proportional hazards assumption was violated||||17.7|-50.9|0.3272
82545459|NCT03703336|164790189|NON_INFERIORITY|If the lower limit of the 95% confidence interval (CI) of the ratio of GMCs between the ROTAVIN and ROTAVIN-M1 groups were to be larger than 1/2, ROTAVIN was considered to be non-inferior to the licensed frozen formulation of the vaccine (ROTAVIN-M1).|GMC Ratio|1.38|||||TWO_SIDED|95.0|1.02|1.86|||||Log10-transformed IgA concentrations were used to construct a 2-sided 95% CI for the mean difference between the arms using t-distribution. The mean difference and 95% CI were exponentiated to obtain the GMC ratio and corresponding 95% CI.|||1.86|1.02|
82545460|NCT03703336|164790191|OTHER||Percentage Difference|6.0|||||TWO_SIDED|95.0|-3.57|15.87||||||||15.87|-3.57|
82465393|NCT00385671|164626889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.469|TWO_SIDED|95.0|-0.17|0.37||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.37|-0.17|0.469
82545461|NCT03703336|164790192|OTHER||Percentage Difference|0.4|||||TWO_SIDED|95.0|-2.4|2.09||||||Percentage Difference on Day 1||2.09|-2.40|
82545462|NCT03703336|164790192|OTHER||Percentage Difference|6.3|||||TWO_SIDED|95.0|-3.19|16.23||||||Percentage Difference on Day 85||16.23|-3.19|
82545463|NCT02708108|164790197|OTHER|Multivariable analysis|Odds Ratio (OR)|0.3||||0.02|TWO_SIDED|95.0|0.09|0.92||Reported as 1-sided p-value.|Regression, Logistic||Multivariable model includes age, BMI category, cytogenetic risk, ethnicity, sex|||0.92|0.09|0.02
82545464|NCT01061671|164790202|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||negative binomial regression|Adjustments of confidence intervals for between-participant variation (overdispersion).||||||0.54
82545465|NCT01061671|164790203|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Log Rank|||||||0.34
82545466|NCT01061671|164790204|SUPERIORITY_OR_OTHER|||||||0.1461|TWO_SIDED||||||t-test, 2 sided|||||||.1461
82545467|NCT00419341|164790209|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of SCIG:IVIG treatment was concluded if the lower GMR confidence limit was 0.8 or more. With 18 evaluable subjects, the power to show this non-inferiority was calculated to be 85% based on the assumptions of an intra-individual variability with a coefficient of variation (CV) = 25% and a GMR equal to or greater than 1.|Geometric mean ratio (GMR)|1.002|||||TWO_SIDED|90.0|0.951|1.055||No P-value is provided as non-inferiority was assessed by the CI of the GMR.|t-test, 2 sided|Based on log-transformed individual differences.|Geometric mean ratio SCIG:IVIG non-inferiority was concluded if the lower GMR confidence limit was 0.8 or more|Individual sAUC values (standardized to a 7-day period) of the IV and adjusted SC sampling periods in each individual subject were log transformed and a parametric 2-sided 90% confidence interval (CI) for the mean of the individual differences was obtained. Back-transformation of the mean and its CI produced the geometric mean ratio (GMR) and its respective 90% CI.||1.055|0.951|
82545468|NCT06336629|164790225|SUPERIORITY||two-sided|100.0|||||TWO_SIDED|95.0||||||||||||
82545469|NCT06336629|164790226|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82545470|NCT06336629|164790227|SUPERIORITY|||||||0.007|||||||Wilcoxon rank-sum test|||||||0.007
82545471|NCT06336629|164790228|SUPERIORITY|||||||0.009|||||||Wilcoxon rank sum test|||||||0.009
82545472|NCT06336629|164790229|SUPERIORITY|||||||0.037||||||P-value from Baseline at Week 16|Wilcoxon signed rank|P-value from Baseline at Week 16||||||0.037
82545473|NCT06336629|164790231|SUPERIORITY|||||||1||||||P-value from Baseline at Week 16|Wilcoxon signed rank|||||||1
82545474|NCT06336629|164790232|SUPERIORITY|||||||1||||||P-value from Baseline at Week 16|Wilcoxon signed rank|||||||1
82545475|NCT04043455|164790235|SUPERIORITY||Least square mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.407|=|0.65|TWO_SIDED|95.0|-0.99|0.62|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% confidence interval (CI) has been presented.||0.62|-0.99|=0.650
82545476|NCT04043455|164790235|SUPERIORITY||Least square mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.409|=|0.439|TWO_SIDED|95.0|-1.12|0.49|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||0.49|-1.12|=0.439
82545477|NCT04043455|164790235|SUPERIORITY||Least square mean difference|-0.55|STANDARD_ERROR_OF_MEAN|0.401|=|0.172|TWO_SIDED|95.0|-1.34|0.24|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||0.24|-1.34|=0.172
82545478|NCT04043455|164790242|SUPERIORITY||Odds Ratio (OR)|1.156||||0.659|TWO_SIDED|95.0|-0.019|2.331|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 10 mg and placebo using Odds ratio and 95% CI has been presented.||2.331|-0.019|0.659
82545479|NCT04043455|164790242|SUPERIORITY||Odds Ratio (OR)|1.248||||0.557|TWO_SIDED|95.0|-0.04|2.535|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 25 mg and placebo using Odds ratio and 95% CI has been presented.||2.535|-0.040|0.557
82545480|NCT04043455|164790242|SUPERIORITY||Odds Ratio (OR)|1.245||||0.541|TWO_SIDED|95.0|0.027|2.462|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 50 mg and placebo using Odds ratio and 95% CI has been presented.||2.462|0.027|0.541
82650298|NCT05085613|165015684|SUPERIORITY||Mean Difference (Final Values)|-1.097586|STANDARD_ERROR_OF_MEAN|6.675066||0.998|TWO_SIDED|95.0|-17.34491|15.14973||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||15.14973|-17.34491|0.998
82465394|NCT00385671|164626889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.841|TWO_SIDED|95.0|-0.24|0.3||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in CGI severity.||0.30|-0.24|0.841
82465395|NCT00385671|164626890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.276|TWO_SIDED|95.0|-0.16|0.55||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in PGI-Improvement at 12 weeks.||0.55|-0.16|0.276
82465396|NCT00385671|164626890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.929|TWO_SIDED|95.0|-0.33|0.37||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in PGI-Improvement at 12 weeks.||0.37|-0.33|0.929
82465397|NCT00385671|164626890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.313|TWO_SIDED|95.0|-0.53|0.17||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Variance model and t-tests:~Endpoint = InvestigatorGroup + Treatment. Last-observation-carried-forward imputation was implemented."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in PGI-Improvement at 12 weeks.||0.17|-0.53|0.313
82465398|NCT00385671|164626891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.078|TWO_SIDED|95.0|-0.06|1.04||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||1.04|-0.06|0.078
82465399|NCT00385671|164626891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.025|TWO_SIDED|95.0|0.08|1.2||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||1.20|0.08|0.025
82465400|NCT00385671|164626891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.602|TWO_SIDED|95.0|-0.41|0.7||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: 24-hour average pain.||0.70|-0.41|0.602
82465401|NCT00385671|164626892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.353|TWO_SIDED|95.0|-0.34|0.94||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-severity: worst pain.||0.94|-0.34|0.353
82499626|NCT01571427|164689939|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.62||0.94|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.94
82499627|NCT01571427|164689940|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-2.11|STANDARD_ERROR_OF_MEAN|2.84||0.46|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.46
82545481|NCT04043455|164790243|SUPERIORITY||Odds Ratio (OR)|1.234||||0.529|TWO_SIDED|95.0|-0.001|2.468|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 10 mg and placebo using Odd's ratio and 95% CI has been presented.||2.468|-0.001|0.529
82545482|NCT04043455|164790243|SUPERIORITY||Odds Ratio (OR)|1.123||||0.73|TWO_SIDED|95.0|0.015|2.232|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 25 mg and placebo using Odd's ratio and 95% CI has been presented.||2.232|0.015|0.730
82545483|NCT04043455|164790243|SUPERIORITY||Odds Ratio (OR)|1.226||||0.548|TWO_SIDED|95.0|0.025|2.428|||Cochran-Mantel-Haenszel|||Treatment comparison between Olorinab 50 mg and placebo using Odd's ratio and 95% CI has been presented.||2.428|0.025|0.548
82465402|NCT00385671|164626892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.039|TWO_SIDED|95.0|0.03|1.34||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: worst pain.||1.34|0.03|0.039
82579091|NCT03101462|164868249|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.08
82650299|NCT05085613|165015684|SUPERIORITY||Mean Difference (Final Values)|8.926191|STANDARD_ERROR_OF_MEAN|6.588643||0.447|TWO_SIDED|95.0|-7.110771|24.96315||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 5|Humor - Control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||24.96315|-7.110771|0.447
82465403|NCT00385671|164626892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.244|TWO_SIDED|95.0|-0.27|1.04||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Worst Pain.||1.04|-0.27|0.244
82465404|NCT00385671|164626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.298|TWO_SIDED|95.0|-0.25|0.8||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Least Pain.||0.80|-0.25|0.298
82465405|NCT00385671|164626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.304|TWO_SIDED|95.0|-0.25|0.81||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-Severity: Least Pain.||0.81|-0.25|0.304
82465406|NCT00385671|164626893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.989|TWO_SIDED|95.0|-0.53|0.54||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-severity: least pain.||0.54|-0.53|0.989
82465407|NCT00385671|164626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.145|TWO_SIDED|95.0|-0.14|0.97||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: pain right now.||0.97|-0.14|0.145
82465408|NCT00385671|164626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.112|TWO_SIDED|95.0|-0.11|1.03||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-severity: pain right now.||1.03|-0.11|0.112
82465409|NCT00385671|164626894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.865|TWO_SIDED|95.0|-0.52|0.62||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean of nighttime pain severity.||0.62|-0.52|0.865
82465410|NCT00385671|164626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.263|TWO_SIDED|95.0|-0.26|0.95||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||0.95|-0.26|0.263
82465411|NCT00385671|164626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.007|TWO_SIDED|95.0|0.24|1.49||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||1.49|0.24|0.007
82579092|NCT03101462|164868249|OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.16
82579093|NCT03101462|164868249|OTHER|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.76
82579094|NCT03101462|164868249|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.84
82465412|NCT00385671|164626895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.102|TWO_SIDED|95.0|-0.1|1.13||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with general activity.||1.13|-0.10|0.102
82465413|NCT00385671|164626896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.922|TWO_SIDED|95.0|-0.61|0.55||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||0.55|-0.61|0.922
82465414|NCT00385671|164626896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.195|TWO_SIDED|95.0|-0.2|0.99||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||0.99|-0.20|0.195
82465415|NCT00385671|164626896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.162|TWO_SIDED|95.0|-0.17|1.02||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with mood.||1.02|-0.17|0.162
82545484|NCT04043455|164790244|SUPERIORITY||Least square mean difference|-2.42|STANDARD_ERROR_OF_MEAN|6.189||0.696|TWO_SIDED|95.0|-14.61|9.76|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% CI has been presented.||9.76|-14.61|0.696
82465416|NCT00385671|164626897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.541|TWO_SIDED|95.0|-0.46|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||0.87|-0.46|0.541
82465417|NCT00385671|164626897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.051|TWO_SIDED|95.0|0.0|1.36||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||1.36|-0.00|0.051
82465418|NCT00385671|164626897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.173|TWO_SIDED|95.0|-0.21|1.15||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with walking ability.||1.15|-0.21|0.173
82465419|NCT00385671|164626898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.451|TWO_SIDED|95.0|-0.4|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly BPI-interference with normal work.||0.90|-0.40|0.451
82465420|NCT00385671|164626898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.485|TWO_SIDED|95.0|-0.43|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with normal work.||0.90|-0.43|0.485
82545485|NCT04043455|164790244|SUPERIORITY||Least square mean difference|-3.25|STANDARD_ERROR_OF_MEAN|6.222||0.602|TWO_SIDED|95.0|-15.51|9.0|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||9.00|-15.51|0.602
82545486|NCT04043455|164790244|SUPERIORITY||Least square mean difference|-3.96|STANDARD_ERROR_OF_MEAN|6.088||0.516|TWO_SIDED|95.0|-15.95|8.03|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||8.03|-15.95|0.516
82579095|NCT03101462|164868249|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.04
82579096|NCT03101462|164868249|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.07
82579097|NCT03101462|164868249|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Peptide Pool 1 and Peptide Pool 2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.27
82579098|NCT03101462|164868249|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.11
82465421|NCT00385671|164626898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.969|TWO_SIDED|95.0|-0.68|0.65||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with normal work.||0.65|-0.68|0.969
82465422|NCT00385671|164626899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.479|TWO_SIDED|95.0|-0.36|0.76||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly BPI-interference with relations with other people.||0.76|-0.36|0.479
82650300|NCT05085613|165015685|SUPERIORITY||Mean Difference (Final Values)|-4.154612|STANDARD_ERROR_OF_MEAN|1.986723||0.113|TWO_SIDED|95.0|-8.985328|0.6761041||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Economic recovery - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||.6761041|-8.985328|0.113
82465423|NCT00385671|164626899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.301|TWO_SIDED|95.0|-0.27|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with relations with other people.||0.87|-0.27|0.301
82465424|NCT00385671|164626899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.731|TWO_SIDED|95.0|-0.47|0.67||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with relations with other people.||0.67|-0.47|0.731
82465425|NCT00385671|164626900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.528|TWO_SIDED|95.0|-0.45|0.87||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.87|-0.45|0.528
82465426|NCT00385671|164626900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.626|TWO_SIDED|95.0|-0.84|0.51||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.51|-0.84|0.626
82465427|NCT00385671|164626900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.27|TWO_SIDED|95.0|-1.06|0.3||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with sleep.||0.30|-1.06|0.270
82465428|NCT00385671|164626901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.098|TWO_SIDED|95.0|-0.1|1.13||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||1.13|-0.10|0.098
82465429|NCT00385671|164626901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.383|TWO_SIDED|95.0|-0.35|0.9||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||0.90|-0.35|0.383
82465430|NCT00385671|164626901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.452|TWO_SIDED|95.0|-0.86|0.39||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI-interference with enjoyment of life.||0.39|-0.86|0.452
82545487|NCT04043455|164790245|SUPERIORITY||Least square mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.305||0.804|TWO_SIDED|95.0|-0.53|0.68|||Mixed Models Analysis|||Treatment comparison between Olorinab 10 mg and placebo using least square mean difference and 95% CI has been presented.||0.68|-0.53|0.804
82579099|NCT03101462|164868249|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||Live H3N2 CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.46
82465431|NCT00385671|164626902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.309|TWO_SIDED|95.0|-0.26|0.82||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.82|-0.26|0.309
82465432|NCT00385671|164626902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.174|TWO_SIDED|95.0|-0.17|0.93||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.93|-0.17|0.174
82465433|NCT00385671|164626902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.717|TWO_SIDED|95.0|-0.45|0.65||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BPI mean interference score.||0.65|-0.45|0.717
82465434|NCT00385671|164626903|SUPERIORITY_OR_OTHER|||||||0.975||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.975
82465435|NCT00385671|164626903|SUPERIORITY_OR_OTHER|||||||0.448||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.448
82465436|NCT00385671|164626903|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with ≥ 30% reduction in the weekly mean 24 hour average pain score at 12 weeks.||||0.280
82545488|NCT04043455|164790245|SUPERIORITY||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.308||0.618|TWO_SIDED|95.0|-0.76|0.45|||Mixed Models Analysis|||Treatment comparison between Olorinab 25 mg and placebo using least square mean difference and 95% CI has been presented.||0.45|-0.76|0.618
82545489|NCT04043455|164790245|SUPERIORITY||Least square mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.301||0.687|TWO_SIDED|95.0|-0.47|0.71|||Mixed Models Analysis|||Treatment comparison between Olorinab 50 mg and placebo using least square mean difference and 95% CI has been presented.||0.71|-0.47|0.687
82545490|NCT04788641|164790282|OTHER||Geometric LS Mean Ratio (%)|71.1|||||TWO_SIDED|90.0|65.44|77.24|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||77.24|65.44|
82545491|NCT04788641|164790282|OTHER||Geometric LS Mean Ratio (%)|102.9|||||TWO_SIDED|90.0|96.11|110.1|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||110.1|96.11|
82545492|NCT04788641|164790283|OTHER||Geometric LS Mean Ratio (%)|62.91|||||TWO_SIDED|90.0|55.64|71.13|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||71.13|55.64|
82545493|NCT04788641|164790283|OTHER||Geometric LS Mean Ratio (%)|97.23|||||TWO_SIDED|90.0|92.93|101.7|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||101.7|92.93|
82545494|NCT04788641|164790284|OTHER||Geometric LS Mean Ratio (%)|65.57|||||TWO_SIDED|90.0|58.69|73.24|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||73.24|58.69|
82579100|NCT03101462|164868249|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 7||||0.006
82545495|NCT04788641|164790284|OTHER||Geometric LS Mean Ratio (%)|97.04|||||TWO_SIDED|90.0|92.7|101.6|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||101.6|92.70|
82545496|NCT04788641|164790285|OTHER||Geometric LS Mean Ratio (%)|83.86|||||TWO_SIDED|90.0|73.38|95.84|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||95.84|73.38|
82579101|NCT03101462|164868249|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Flumist CD4+/CFSE(low)/IFN-gamma+, Day 0 and Day 45||||0.41
82579102|NCT03101462|164868250|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H1N1 HA, Day 0 and Day 45||||0.72
82579103|NCT03101462|164868250|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H3N2 HA, Day 0 and 45||||0.06
82579104|NCT03101462|164868250|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Influenza B HA, Day 0 and Day 45||||0.75
82650301|NCT05085613|165015685|SUPERIORITY||Mean Difference (Final Values)|-2.685896|STANDARD_ERROR_OF_MEAN|2.046067||0.473|TWO_SIDED|95.0|-7.6609|2.289114||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Freedom - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||2.289114|-7.66090|0.473
82465437|NCT00385671|164626904|SUPERIORITY_OR_OTHER|||||||0.548||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||0.548
82465438|NCT00385671|164626904|SUPERIORITY_OR_OTHER|||||||0.599||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||0.599
82465439|NCT00385671|164626904|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference in the number of patients with a reduction of ≥ 50% in Weekly mean of 24 hour average pain score.||||1.00
82465440|NCT00385671|164626905|SUPERIORITY_OR_OTHER|||||||0.905||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.905
82465441|NCT00385671|164626905|SUPERIORITY_OR_OTHER|||||||0.368||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.368
82465442|NCT00385671|164626905|SUPERIORITY_OR_OTHER|||||||0.2||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Mantel Haenszel|Treatments were compared with stratification defined by InvestigatorGroup. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of Participants with a ≥ 2-points reduction on the weekly average of the daily 24-hour average pain scale at 12 Weeks.||||0.200
82465443|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ GTS scores.||||0.572
82465444|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.345||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 weeks in LSEQ GTS scores.||||0.345
82465445|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||P-value is for GTS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ GTS scores.||||0.699
82465446|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS scores.||||0.954
82465447|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.734||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS scores.||||0.734
82545497|NCT04788641|164790285|OTHER||Geometric LS Mean Ratio (%)|97.55|||||TWO_SIDED|90.0|87.16|109.2|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||109.2|87.16|
82465448|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.693||95.0||||P-value is for QOS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ QOS.||||0.693
82650302|NCT05085613|165015685|SUPERIORITY||Mean Difference (Final Values)|-6.469932|STANDARD_ERROR_OF_MEAN|2.102231||0.008|TWO_SIDED|95.0|-11.58151|-1.358358||Sidak's adjusted p-value for multiple comparisons|ANCOVA|DF = 6|Humor - control|Note that analyses are underpowered due to administrative issues with funding that halted recruitment early.||-1.358358|-11.58151|0.008
82650303|NCT03654898|165015698|SUPERIORITY||cross-tabulation|0.48||||0.49|TWO_SIDED||||||Chi-squared|||||||0.49
82465449|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.720
82465450|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.722
82465451|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||P-value is for AFS. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ AFS scores.||||0.480
82465452|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.498
82465453|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.865||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.865
82465454|NCT00385671|164626906|SUPERIORITY_OR_OTHER|||||||0.408||95.0||||P-value is for BFW. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in LSEQ BFW scores.||||0.408
82465455|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.635|TWO_SIDED|95.0|-2.18|1.33||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS total score.||1.33|-2.18|0.635
82465456|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.092|TWO_SIDED|95.0|-3.24|0.24||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS total score.||0.24|-3.24|0.092
82650304|NCT03654898|165015698|SUPERIORITY||Odds Ratio (OR)|1.06||||0.67|TWO_SIDED|95.0|0.8|1.42|||Regression, Logistic|Adjusted logistic regression||||1.42|0.80|0.67
82650305|NCT03654898|165015699|SUPERIORITY||Cross-tabulation|0.71||||0.4|TWO_SIDED||||||Chi-squared|||||||0.40
82650306|NCT03654898|165015700|SUPERIORITY||Cross-tabulation|0.5||||0.78|TWO_SIDED||||||Chi-squared|||Test 1 was for TFVdp while test 2 was for 3TCtp.||||0.78
82650307|NCT03654898|165015700|SUPERIORITY||Cross-tabulation|2.13||||0.34|TWO_SIDED||||||Chi-squared|||Test 2 was for 3TCtp while test 1 was for TFVdp.||||0.34
82650308|NCT00479401|165015740|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority hypothesis comparing pramipexole ER to pramipexole IR was to be tested using a non-inferiority margin of -3 points. The primary efficacy endpoint in UPDRS part II+III was the change from baseline (week 0) to week 33 on the UPDRS Parts II+III score combined. The statistical model was analysis of covariance, controlling for baseline UPDRS Part II+III. Fixed terms in the model were treatment, country, and UPDRS Part II+III score at baseline.|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.2|1.7|||ANCOVA|Null hypothesis was tested using an analysis of covariance model with α = 0.05 in full analysis set with last observation carried forward.|PPX ER non-inferior to PPX IR, if the lower limit of the confidence interval for the difference is higher than the non-inferiority margin of -3|A non-inferiority hypothesis (H0: μER - μIR \< -3 vs. H1: μER - μIR ≥ -3) comparing pramipexole ER to pramipexole IR was tested using a non-inferiority margin of -3 points.||1.7|-2.2|
82579105|NCT03101462|164868250|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H1N1 HA, Day 0 and Day 45||||0.05
82579106|NCT03101462|164868250|OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||Influenza A/H3N2 HA, Day 0 and Day 45||||0.0004
82579107|NCT03101462|164868250|OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Influenza B HA, Day 0 and Day 45||||0.02
82465457|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.221|TWO_SIDED|95.0|-2.8|0.65||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS total score.||0.65|-2.80|0.221
82465458|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.974|TWO_SIDED|95.0|-0.88|0.85||P-value is for item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.85|-0.88|0.974
82465459|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.093|TWO_SIDED|95.0|-1.63|0.13||P-value is for Item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.13|-1.63|0.093
82465460|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.091|TWO_SIDED|95.0|-1.59|0.12||P-value is for item 1. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 1 score.||0.12|-1.59|0.091
82465461|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.733|TWO_SIDED|95.0|-0.75|0.52||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS Item 2 score.||0.52|-0.75|0.733
82465462|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.102|TWO_SIDED|95.0|-1.15|0.11||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS item 2 score.||0.11|-1.15|0.102
82465463|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.193|TWO_SIDED|95.0|-1.04|0.21||P-value is for item 2. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 2 score.||0.21|-1.04|0.193
82465464|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.584|TWO_SIDED|95.0|-0.76|0.43||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.43|-0.76|0.584
82579108|NCT03101462|164868251|OTHER|||||||0.02|||||||Fisher Exact|||Fold increase IgA anti-H1N1 HA, Day 7||||0.02
82579109|NCT03101462|164868251|OTHER|||||||0.67|||||||Fisher Exact|||Fold increase IgA anti-H3N2, Day 7||||0.67
82579110|NCT03101462|164868251|OTHER|||||||0.3|||||||Fisher Exact|||Fold increase IgA anti-influenza B HA, Day 7||||0.30
82579111|NCT02770612|164868261|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||We used a one sided one sample Wilcoxon test to compare the median number of oxycodone tablets chosen and prescribed to the institutional standard of 40 tablets of oxycodone 5mg on discharge||||<0.001
82579112|NCT03846453|164868262|SUPERIORITY||Least Squares (LS) Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.064||0.1871|TWO_SIDED|95.0|-0.04|0.21||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.21|-0.04|0.1871
82579113|NCT03846453|164868263|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.09||0.5549|TWO_SIDED|95.0|-0.12|0.23|||ANCOVA|P-value calculated using a model with treatment, baseline score, and site as covariates.||||0.23|-0.12|0.5549
82579114|NCT03653208|164868332|OTHER||Slope|1.01||||0.1075|TWO_SIDED|90.0|||||Kruskal-Wallis|||||||0.1075
82579115|NCT03653208|164868333|OTHER||Slope|1.2||||0.0548|TWO_SIDED|90.0|||||Kruskal-Wallis|||||||0.0548
82650309|NCT02151461|165015772|OTHER|A mixed-effects model for analysis of covariance (ANCOVA) was used to analyze changes from Baseline in plasma glucose AUC(0-3hr) at Week 4 in the Day 28 Evaluable population. The model includes factors for treatment group and fasting plasma glucose stratum.||||||0.0435||||||Baseline plasma glucose AUC(0-3hr) is adjusted as a covariate.|ANCOVA|||||||0.0435
82650310|NCT02151461|165015772|OTHER|||||||0.065|||||||ANCOVA|||||||0.065
82650311|NCT02151461|165015772|OTHER|||||||0.1216|||||||ANCOVA|||||||0.1216
82465465|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.077|TWO_SIDED|95.0|-1.12|0.06||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.06|-1.12|0.077
82585975|NCT02640157|164883882|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Difference in percentage of participants|-0.4|||||TWO_SIDED|95.0|-4.8|4.0||||||Difference in SVR12 rates (Arm C - Arm A)||4.0|-4.8|
82465466|NCT00385671|164626907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.221|TWO_SIDED|95.0|-0.95|0.22||P-value is for item 3. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in SDS item 3 score.||0.22|-0.95|0.221
82465467|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.82||||0.096|TWO_SIDED|95.0|-3.96|0.32||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||0.32|-3.96|0.096
82465468|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.353|TWO_SIDED|95.0|-3.16|1.13||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.13|-3.16|0.353
82465469|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.444|TWO_SIDED|95.0|-1.27|2.88||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||2.88|-1.27|0.444
82465470|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.682|TWO_SIDED|95.0|-2.29|3.48||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||3.48|-2.29|0.682
82465471|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.45|TWO_SIDED|95.0|-4.08|1.82||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.82|-4.08|0.450
82465472|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73||||0.218|TWO_SIDED|95.0|-4.49|1.04||P-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) total score.||1.04|-4.49|0.218
82465473|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.747|TWO_SIDED|95.0|-0.36|0.26||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.26|-0.36|0.747
82465474|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.39|TWO_SIDED|95.0|-0.18|0.45||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.45|-0.18|0.390
82579116|NCT02917603|164868381|EQUIVALENCE|Null hypothesis is that there would be no mean difference between baseline and last measure between intervention and control groups with p\<.05|Mean Difference (Net)|0.12|||<|0.009|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the mean differences between baseline and last measure in the PHQ- 9 score will not differ between groups. Study is powered a two-tailed test of significance, allowing the detection of a significant difference in either direction and the following assumptions: expected difference in PHQ-9 is 5 points, the documented clinically significant effect;78 (2) the variance of scores is 5.33; (3) error protection: α =.10, β = .20 and, (4) anticipated attrition of 15%||||<.009
82579117|NCT02917603|164868382|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|0.46|||<|0.21|TWO_SIDED||||||t-test, 2 sided|||||||<.21
82579118|NCT02917603|164868383|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|1.02|||<|0.06|TWO_SIDED||||||t-test, 2 sided|||||||<.06
82579119|NCT02917603|164868384|EQUIVALENCE|Null hypothesis is there will be the mean differences between baseline scores will be the same between groups. Study powered after primary outcome measure.|Mean Difference (Net)|0.23|||<|0.73|TWO_SIDED||||||t-test, 2 sided|||||||<.73
82579120|NCT01204710|164868410|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.29||||0.2201|TWO_SIDED|95.0|0.87|1.9||Analysis was stratified by the randomization stratification factor: best overall response to prior docetaxel-based chemotherapy.|Log Rank||Hazard ratio is expressed as IMC-3G3 + Mitoxantrone / Mitoxantrone and estimated from Cox model.|||1.90|0.87|0.2201
82579121|NCT01204710|164868411|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.7291|TWO_SIDED|95.0|0.72|1.61||Analysis was stratified by the randomization stratification factor: best overall response to prior docetaxel-based chemotherapy.|Log Rank||Hazard ratio is expressed as Olaratumab + Mitoxantrone / Mitoxantrone and estimated from Cox model.|||1.61|0.72|0.7291
82579122|NCT01204710|164868412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3465|TWO_SIDED||||||Fisher Exact|||||||0.3465
82579123|NCT01204710|164868413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6571|TWO_SIDED||||||Fisher Exact|||||||0.6571
82579124|NCT01204710|164868414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4986|TWO_SIDED||||||Fisher Exact|||||||0.4986
82579125|NCT02406677|164868463|SUPERIORITY||Hazard Ratio (HR)|1.073||||0.3503|TWO_SIDED|95.0|0.925|1.246|||Regression, Cox|Cox proportional hazards model accounting for within hospital clustering using robust standard errors|Usual Care arm is the reference group|||1.246|0.925|0.3503
82579126|NCT02406677|164868464|SUPERIORITY||Odds Ratio (OR)|0.838||||0.026|TWO_SIDED|95.0|0.717|0.979|||Regression, Logistic|Logistic regression model with parameters estimated using GEE to account for within hospital clustering for selected patient characteristics||||0.979|0.717|0.0260
82650312|NCT02151461|165015773|OTHER|A mixed-effects model for analysis of covariance (ANCOVA) was used to analyze changes from Baseline in incremental plasma glucose AUC at Week 4 in the Day 28 Evaluable population. The model will include factors for treatment group and fasting plasma glucose stratum.||||||0.8867|||||||ANCOVA|The model includes factors for treatment group and fasting plasma glucose stratum.||||||0.8867
82579127|NCT02406677|164868465|SUPERIORITY||Odds Ratio (OR)|2.035|||<|0.0001|TWO_SIDED|95.0|1.564|2.649|||Regression, Logistic|Logistic regression with GEE to account for within hospital clustering||||2.649|1.564|<0.0001
82579128|NCT01114880|164868466|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82579129|NCT01114880|164868468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82579130|NCT01114880|164868470|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82579131|NCT01114880|164868472|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82579132|NCT01114880|164868474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82579133|NCT01114880|164868476|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||||||< 0.001
82579134|NCT01114880|164868478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82579135|NCT01114880|164868480|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82579136|NCT01114880|164868482|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82579137|NCT01114880|164868484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82579138|NCT01114880|164868486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||< 0.001
82579139|NCT02628028|164868515|SUPERIORITY|||||||0.473|||||||Regression, Logistic|||||||0.473
82579140|NCT02628028|164868515|SUPERIORITY|||||||0.67|||||||Regression, Logistic|||||||0.670
82579141|NCT02628028|164868515|SUPERIORITY|||||||0.823|||||||Regression, Logistic|||||||0.823
82579142|NCT02628028|164868516|SUPERIORITY|||||||0.743|||||||Regression, Logistic|||||||0.743
82579143|NCT02628028|164868516|SUPERIORITY|||||||0.124|||||||Regression, Logistic|||||||0.124
82579144|NCT02628028|164868516|SUPERIORITY|||||||0.858|||||||Regression, Logistic|||||||0.858
82579145|NCT02628028|164868517|SUPERIORITY|||||||0.199|||||||Regression, Logistic|||||||0.199
82579146|NCT02628028|164868517|SUPERIORITY|||||||0.028|||||||Regression, Logistic|||||||0.028
82579147|NCT02628028|164868517|SUPERIORITY|||||||0.863|||||||Regression, Logistic|||||||0.863
82579148|NCT02628028|164868518|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.25||0.863|TWO_SIDED|95.0|-0.53|0.44|||Mixed-effects Model for Repeated Measure|||||0.44|-0.53|0.863
82579149|NCT02628028|164868518|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.25||0.503|TWO_SIDED|95.0|-0.32|0.65|||Mixed-effects Model for Repeated Measure|||||0.65|-0.32|0.503
82579150|NCT02628028|164868518|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.25||0.289|TWO_SIDED|95.0|-0.77|0.23|||Mixed-effects Model for Repeated Measure|||||0.23|-0.77|0.289
82579151|NCT02628028|164868519|SUPERIORITY|||||||0.626|||||||Regression, Logistic|||||||0.626
82579152|NCT02628028|164868519|SUPERIORITY|||||||0.418|||||||Regression, Logistic|||||||0.418
82579153|NCT02628028|164868519|SUPERIORITY|||||||0.951|||||||Regression, Logistic|||||||0.951
82579154|NCT02628028|164868520|SUPERIORITY|||||||0.905|||||||Regression, Logistic|||||||0.905
82579155|NCT02628028|164868520|SUPERIORITY|||||||0.069|||||||Regression, Logistic|||||||0.069
82579156|NCT02628028|164868520|SUPERIORITY|||||||0.547|||||||Regression, Logistic|||||||0.547
82650313|NCT02151461|165015773|OTHER|||||||0.7641|||||||ANCOVA|||||||0.7641
82545498|NCT04788641|164790286|OTHER||Geometric LS Mean Ratio (%)|98.42|||||TWO_SIDED|90.0|94.62|102.4|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Tacrolimus||102.4|94.62|
82579157|NCT02145468|164868522|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.238|TWO_SIDED|95.0|0.91|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|||1.47|0.91|0.238
82579158|NCT02145468|164868523|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.329|TWO_SIDED|95.0|0.9|1.38|||Log Rank||"Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk.~with the treatment compared with placebo."|||1.38|0.90|0.329
82545499|NCT04788641|164790286|OTHER||Geometric LS Mean Ratio (%)|94.12|||||TWO_SIDED|90.0|85.74|103.3|||||Result based on a mixed effect following a natural logarithmic transformation of the individual PK parameters, with period, treatment, and sequence as fixed effects, and participant nested within sequence as random effects.|Cyclosporin||103.3|85.74|
82545500|NCT03283371|164790294|SUPERIORITY||LS Mean logarithmic difference|-0.16||||0.5053|TWO_SIDED|95.0|-0.62|0.31|||Mixed Model for Repeated Measures (MMRM)|||Analysis is based on MMRM and adjusted for natural log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures), structural etiology category (yes and no), visit, treatment and treatment by visit interaction. An unstructured variance-covariance matrix is used in the model.||0.31|-0.62|0.5053
82545501|NCT03283371|164790295|SUPERIORITY||Odds Ratio (OR)|2.09||||0.2231|TWO_SIDED|95.0|0.64|6.85|||Regression, Logistic|||Based on logistic regression with a term for treatment group and with adjustment for natural log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures) and structural etiology category (yes and no).||6.85|0.64|0.2231
82579159|NCT02145468|164868524|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.338|TWO_SIDED|95.0|0.88|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.47|0.88|0.338
82579160|NCT02145468|164868524|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.41|TWO_SIDED|95.0|0.88|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.38|0.88|0.410
82545502|NCT03283371|164790298|SUPERIORITY||Odds Ratio (OR)|0.67||||0.6854|TWO_SIDED|95.0|0.1|4.57|||Regression, Logistic|||Based on the logistic regression model with a term for treatment group and with adjustment for log-transformed baseline seizure frequency, high seizure frequency category (\>=24 seizures and \<24 seizures) and structural etiology category (yes and no) are considered as covariates.||4.57|0.10|0.6854
82579161|NCT02145468|164868525|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.472|TWO_SIDED|95.0|0.86|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death, MI or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.38|0.86|0.472
82545503|NCT00914589|164790314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0482||||0.8648||95.0|0.6095|1.8029||P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.8029|0.6095|0.8648
82545504|NCT00914589|164790314|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9871||||0.9634||95.0|0.5673|1.7176||P values less than 0.05 are considered statistically significant in this study.|Regression, Logistic|||||1.7176|0.5673|0.9634
82545505|NCT00093015|164790323|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.41||95.0|0.94|1.17||Nominal p-value from a 2-sided log rank test is presented. The primary cardiovascular composite endpoint was tested at the 0.04056 significance level at final analysis after accounting for 4 planned interim analyses (overall alpha = 0.048).|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.17|0.94|0.41
82579162|NCT02145468|164868526|SUPERIORITY||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.91|1.44|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of arterial CV events (CV death, MI, SRI-UR or stroke), Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.44|0.91|
82579163|NCT02145468|164868527|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.505|TWO_SIDED|95.0|0.86|1.36|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of coronary events (CHD death, MI, SRI-UR or any unplanned coronary artery revascularization), Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.36|0.86|0.505
82579164|NCT02145468|164868528|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.536|TWO_SIDED|95.0|0.64|1.26|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.26|0.64|0.536
82650314|NCT02151461|165015773|OTHER|||||||0.2518|||||||ANCOVA|||||||0.2518
82545506|NCT00093015|164790324|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.06||||0.29||95.0|0.95|1.19||Nominal p-value from a 2-sided log rank test is presented. The primary renal composite endpoint was tested at the 0.002 significance level at final analysis.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.19|0.95|0.29
82579165|NCT02145468|164868528|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.6|TWO_SIDED|95.0|0.69|1.24|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.24|0.69|0.6
82650315|NCT02151461|165015774|OTHER|||||||0.0179|||||||ANCOVA|Total daily dose is twice the respective dose, Pairwise comparison using Treatment D as the reference group||||||0.0179
82465475|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.228|TWO_SIDED|95.0|-0.12|0.49||P-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.49|-0.12|0.228
82465476|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.26|TWO_SIDED|95.0|-0.18|0.67||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.67|-0.18|0.260
82465477|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.141|TWO_SIDED|95.0|-0.76|0.11||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||0.11|-0.76|0.141
82465478|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.007|TWO_SIDED|95.0|-0.98|-0.16||P-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) pleasure subscore.||-0.16|-0.98|0.007
82465479|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.409|TWO_SIDED|95.0|-0.61|0.25||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.25|-0.61|0.409
82465480|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.715|TWO_SIDED|95.0|-0.51|0.35||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.35|-0.51|0.715
82465481|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.641|TWO_SIDED|95.0|-0.32|0.52||P-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.52|-0.32|0.641
82465482|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.767|TWO_SIDED|95.0|-0.64|0.47||P-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.47|-0.64|0.767
82579166|NCT02145468|164868529|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.356|TWO_SIDED|95.0|0.88|1.43|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, MI or stroke, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.43|0.88|0.356
82650316|NCT02151461|165015774|OTHER|||||||0.0736|||||||ANCOVA|||||||0.0736
82650317|NCT02151461|165015774|OTHER|||||||0.0475|||||||ANCOVA|||||||0.0475
82650318|NCT02151461|165015775|OTHER|||||||0.0089|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise Comparison using Treatment D as the Reference Group||||||0.0089
82650319|NCT02151461|165015775|OTHER|||||||0.376|||||||ANCOVA|||||||0.376
82650320|NCT02151461|165015775|OTHER|||||||0.0578|||||||ANCOVA|||||||0.0578
82579167|NCT02145468|164868530|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.329|TWO_SIDED|95.0|0.9|1.39|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, MI, SRI-UR, stroke or hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.39|0.9|0.329
82465483|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.881|TWO_SIDED|95.0|-0.61|0.52||P-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.52|-0.61|0.881
82465484|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.885|TWO_SIDED|95.0|-0.51|0.59||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/frequency subscore.||0.59|-0.51|0.885
82465485|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.325|TWO_SIDED|95.0|-0.96|0.32||P-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.32|-0.96|0.325
82465486|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.798|TWO_SIDED|95.0|-0.73|0.56||P-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.56|-0.73|0.798
82465487|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.461|TWO_SIDED|95.0|-0.39|0.87||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.87|-0.39|0.461
82465488|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.67|TWO_SIDED|95.0|-1.02|0.66||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.66|-1.02|0.670
82465489|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.243|TWO_SIDED|95.0|-1.37|0.35||P-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.35|-1.37|0.243
82465490|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.423|TWO_SIDED|95.0|-1.14|0.48||P-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) desire/interest subscore.||0.48|-1.14|0.423
82465491|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.333|TWO_SIDED|95.0|-1.04|0.35||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.35|-1.04|0.333
82545507|NCT00093015|164790325|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.48||95.0|0.92|1.21||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.21|0.92|0.48
82545508|NCT00093015|164790326|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.05||||0.61||95.0|0.88|1.25||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.25|0.88|0.61
82545509|NCT00093015|164790327|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.96||||0.73||95.0|0.75|1.23||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.23|0.75|0.73
82545510|NCT00093015|164790328|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.92|||<|0.001||95.0|1.38|2.68||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||2.68|1.38|<0.001
82545511|NCT00093015|164790329|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.89||||0.24||95.0|0.74|1.08||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.08|0.74|0.24
82545512|NCT00093015|164790330|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.02||||0.83||95.0|0.87|1.18||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.18|0.87|0.83
82545513|NCT00093015|164790331|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.12||||0.54||95.0|-0.51|0.26||Nominal p-value is from the term treatment group\*visit in the mixed model.|Mixed Models Analysis|Adjusted for baseline eGFR and the stratification factors of proteinuria and CVD history.|Estimated difference in rate of decline in eGFR per year between darbepoetin alfa and placebo.|||0.26|-0.51|0.54
82545514|NCT00093015|164790332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|0.35|<|0.001||95.0|0.64|2.02||Nominal p-value is presented.|t-test, 2 sided||Difference (darbepoetin alfa - placebo)|||2.02|0.64|<0.001
82545515|NCT00093015|164790333|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.84||||0.4||95.0|0.55|1.27||Nominal p-value from a 2-sided log rank test is presented.|Log Rank|A 2-sided log-rank test comparing the survival functions of the 2 groups stratified by baseline proteinuria and CV disease (CVD) history.|Treatment effect was estimated using a hazards ratio and 95% confidence interval (CI) obtained from a Cox proportional hazards model stratified by baseline proteinuria and CVD history. Hazard ratio (darbepoetin alfa / placebo)|||1.27|0.55|0.40
82545516|NCT00520546|164790336|SUPERIORITY_OR_OTHER||sensitivity|97.0||||0.0526|TWO_SIDED|95.0|86.0|100.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||100|86|0.0526
82545517|NCT00520546|164790336|SUPERIORITY_OR_OTHER||specificity|0.0||||0.0526|TWO_SIDED|95.0|0.0|98.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||98|0|0.0526
82545518|NCT00520546|164790336|SUPERIORITY_OR_OTHER||accuracy|95.0||||0.0526|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from FEC-PET as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0526
82545519|NCT00520546|164790336|SUPERIORITY_OR_OTHER||sensitivity|70.0|||<|0.0001|TWO_SIDED|95.0|53.0|84.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||84|53|<0.0001
82545520|NCT00520546|164790336|SUPERIORITY_OR_OTHER||specificity|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|98.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||98|0|<0.0001
82545521|NCT00520546|164790336|SUPERIORITY_OR_OTHER||accuracy|68.0|||<|0.0001|TWO_SIDED|95.0|51.0|83.0|||Fisher Exact|||"results from MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||83|51|<0.0001
82545522|NCT00520546|164790336|SUPERIORITY_OR_OTHER||sensitivity|95.0||||0.0043|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0043
82545523|NCT00520546|164790336|SUPERIORITY_OR_OTHER||specificity|100.0||||0.0043|TWO_SIDED|95.0|3.0|100.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||100|3|0.0043
82579168|NCT02145468|164868531|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.285|TWO_SIDED|95.0|0.89|1.47|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CHD death, MI or SRI-UR, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.47|0.89|0.285
82579169|NCT02145468|164868532|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.401|TWO_SIDED|95.0|0.86|1.46|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CHD death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.46|0.86|0.401
82579170|NCT02145468|164868533|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.295|TWO_SIDED|95.0|0.89|1.44|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of all-cause death, MI or SRI-UR,Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.44|0.89|0.295
82579171|NCT02145468|164868534|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.412|TWO_SIDED|95.0|0.86|1.43|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of all-cause death or MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.43|0.86|0.412
82579172|NCT02145468|164868535|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.469|TWO_SIDED|95.0|0.83|1.49|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death, type I (spontaneous) MI or SRI-UR, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.49|0.83|0.469
82579173|NCT02145468|164868536|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.664|TWO_SIDED|95.0|0.78|1.48|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Composite of CV death or type I (spontaneous) MI, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.48|0.78|0.664
82545524|NCT00520546|164790336|SUPERIORITY_OR_OTHER||accuracy|95.0||||0.0043|TWO_SIDED|95.0|82.0|99.0|||Fisher Exact|||"results from PET/MRI as compared with histological results on a patient based analysis~Null hypothesis: patient distribution in contingency table is incidental."||99|82|0.0043
82545525|NCT00520546|164790337|SUPERIORITY_OR_OTHER||positive prediction|69.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
82545526|NCT00520546|164790337|SUPERIORITY_OR_OTHER||negative prediction|44.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
82545527|NCT00520546|164790337|SUPERIORITY_OR_OTHER||sensitivity|71.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
82545528|NCT00520546|164790337|SUPERIORITY_OR_OTHER||specificity|42.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
82579174|NCT02145468|164868537|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.13|TWO_SIDED|95.0|0.27|1.19|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Participants with first occurrence of definite or probable stent thrombosis, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.19|0.27|0.130
82579175|NCT02145468|164868538|SUPERIORITY||Odds Ratio (OR)|1.03||||0.744|TWO_SIDED|95.0|0.84|1.27|||Wald chi-squared||Odds ratio is estimated using a logistic regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. An odds ratio \<1 indicates a lower risk with the treatment compared with placebo.|||1.27|0.84|0.744
82579176|NCT02145468|164868539|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.309|TWO_SIDED|95.0|0.53|1.22|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Participants with all-cause mortality, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.22|0.53|0.309
82579177|NCT02145468|164868540|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.398|TWO_SIDED|95.0|0.53|1.28|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.28|0.53|0.398
82545529|NCT00520546|164790337|SUPERIORITY_OR_OTHER||accuracy|61.0||||0.09||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from FEC-PET as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.09
82545530|NCT00520546|164790337|SUPERIORITY_OR_OTHER||positive prediction|60.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
82545531|NCT00520546|164790337|SUPERIORITY_OR_OTHER||negative prediction|30.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
82465492|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.334|TWO_SIDED|95.0|-1.05|0.36||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.36|-1.05|0.334
82465493|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.69|0.68||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.68|-0.69|0.990
82465494|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.665|TWO_SIDED|95.0|-0.7|1.09||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||1.09|-0.70|0.665
82465495|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.7|TWO_SIDED|95.0|-1.1|0.74||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.74|-1.10|0.700
82465496|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.386|TWO_SIDED|95.0|-1.23|0.48||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) arousal subscore.||0.48|-1.23|0.386
82465497|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.12|TWO_SIDED|95.0|-1.27|0.15||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.15|-1.27|0.120
82465498|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.119|TWO_SIDED|95.0|-1.29|0.15||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.15|-1.29|0.119
82465499|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.976|TWO_SIDED|95.0|-0.71|0.69||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in male participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.69|-0.71|0.976
82465500|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17||||0.026|TWO_SIDED|95.0|0.14|2.2||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||2.20|0.14|0.026
82465501|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36||||0.497|TWO_SIDED|95.0|-0.69|1.42||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||1.42|-0.69|0.497
82545532|NCT00520546|164790337|SUPERIORITY_OR_OTHER||sensitivity|48.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
82545533|NCT00520546|164790337|SUPERIORITY_OR_OTHER||specificity|40.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
82499628|NCT01571427|164689940|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|2.08||0.61|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.61
82499629|NCT01571427|164689940|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.66|STANDARD_ERROR_OF_MEAN|6.42||0.8|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.80
82499630|NCT01571427|164689941|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|8.88||0.72|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.72
82499631|NCT01571427|164689941|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|2.26|STANDARD_ERROR_OF_MEAN|11.1||0.84|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.84
82499632|NCT01571427|164689941|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|12.39|STANDARD_ERROR_OF_MEAN|14.4||0.4|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.40
82499633|NCT01571427|164689942|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.91||0.38|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.38
82499634|NCT01571427|164689942|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.31||0.39|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.39
82499635|NCT01571427|164689942|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.26||0.59|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.59
82499636|NCT01571427|164689943|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.03|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.03
82499637|NCT01571427|164689943|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.24|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.24
82499638|NCT01571427|164689943|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.04|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.04
82499639|NCT01571427|164689944|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.65|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.65
82465502|NCT00385671|164626909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.112|TWO_SIDED|95.0|-1.8|0.19||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|"Analysis of Covariance model and t-tests:~Change=InvestigatorGroup+Baseline+Treatment. Last-observation-carried-forward imputation was used."||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in female participants in mean change from baseline to 12 Weeks in Sexual Functioning Questionnaire (CSFQ) orgasm subscore.||0.19|-1.80|0.112
82545534|NCT00520546|164790337|SUPERIORITY_OR_OTHER||accuracy|45.0||||0.27||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.27
82545535|NCT00520546|164790337|SUPERIORITY_OR_OTHER||positive prediction|87.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545536|NCT00520546|164790337|SUPERIORITY_OR_OTHER||negative prediction|57.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545537|NCT00520546|164790337|SUPERIORITY_OR_OTHER||sensitivity|66.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82465503|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.486||95.0||||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.486
82465504|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.983||95.0||||P-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.983
82465505|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||p-value is for male, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.411
82465506|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.554||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.554
82465507|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.128||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.128
82465508|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.488||95.0||||p-value is for female, total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in total score from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.488
82545538|NCT00520546|164790337|SUPERIORITY_OR_OTHER||specificity|82.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545539|NCT00520546|164790337|SUPERIORITY_OR_OTHER||accuracy|72.0|||<|0.001||95.0|||||Fisher Exact|||"lesion based (all lesions = 128) results from PET/MRI as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545540|NCT00520546|164790338|SUPERIORITY_OR_OTHER||positive prediction|84.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545541|NCT00520546|164790338|SUPERIORITY_OR_OTHER||negative prediction|73.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545542|NCT00520546|164790338|SUPERIORITY_OR_OTHER||sensitivity|90.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545543|NCT00520546|164790338|SUPERIORITY_OR_OTHER||specificity|84.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545544|NCT00520546|164790338|SUPERIORITY_OR_OTHER||accuracy|82.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545545|NCT00520546|164790338|SUPERIORITY_OR_OTHER||positive prediction|71.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
82545546|NCT00520546|164790338|SUPERIORITY_OR_OTHER||negative prediction|33.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
82545547|NCT00520546|164790338|SUPERIORITY_OR_OTHER||sensitivity|73.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
82545548|NCT00520546|164790338|SUPERIORITY_OR_OTHER||specificity|31.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
82545549|NCT00520546|164790338|SUPERIORITY_OR_OTHER||accuracy|60.0||||0.53||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.53
82579178|NCT02145468|164868540|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.264|TWO_SIDED|95.0|0.55|1.18|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CV death events, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.18|0.55|0.264
82579179|NCT02145468|164868541|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.251|TWO_SIDED|95.0|0.47|1.22|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|CHD death events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.22|0.47|0.251
82579180|NCT02145468|164868542|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.182|TWO_SIDED|95.0|0.91|1.67|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Myocardial infarction (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.67|0.91|0.182
82545550|NCT00520546|164790338|SUPERIORITY_OR_OTHER||positive prediction|96.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82579181|NCT02145468|164868542|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.158|TWO_SIDED|95.0|0.93|1.58|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Myocardial infarction (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.58|0.93|0.158
82579182|NCT02145468|164868543|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.21|TWO_SIDED|95.0|0.85|2.12|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Type I (spontaneous) MI events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||2.12|0.85|0.21
82545551|NCT00520546|164790338|SUPERIORITY_OR_OTHER||negative prediction|73.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82579183|NCT02145468|164868544|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.697|TWO_SIDED|95.0|0.58|2.24|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|SRI-UR events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||2.24|0.58|0.697
82579184|NCT02145468|164868545|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.883|TWO_SIDED|95.0|0.46|1.96|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Stroke (fatal and non-fatal) events, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.96|0.46|0.883
82545552|NCT00520546|164790338|SUPERIORITY_OR_OTHER||sensitivity|87.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545553|NCT00520546|164790338|SUPERIORITY_OR_OTHER||specificity|92.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82465509|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.226
82465510|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.710
82465511|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||p-value is for male, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.133
82465512|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.257||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.257
82465513|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.412||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.412
82465514|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||p-value is for female, pleasure. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in pleasure subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.030
82465515|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.024
82465516|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.250
82465517|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||p-value is for male, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.489
82465518|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.682||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.682
82545554|NCT00520546|164790338|SUPERIORITY_OR_OTHER||accuracy|88.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with Gleason Score \>6 (n=43) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545555|NCT00520546|164790339|SUPERIORITY_OR_OTHER||positive prediction|67.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
82545556|NCT00520546|164790339|SUPERIORITY_OR_OTHER||negative prediction|69.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
82545557|NCT00520546|164790339|SUPERIORITY_OR_OTHER||sensitivity|86.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
82545558|NCT00520546|164790339|SUPERIORITY_OR_OTHER||specificity|43.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
82545559|NCT00520546|164790339|SUPERIORITY_OR_OTHER||accuracy|67.0||||0.002||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.002
82545560|NCT00520546|164790339|SUPERIORITY_OR_OTHER||positive prediction|59.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
82545561|NCT00520546|164790339|SUPERIORITY_OR_OTHER||negative prediction|46.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
82545562|NCT00520546|164790339|SUPERIORITY_OR_OTHER||sensitivity|66.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
82545563|NCT00520546|164790339|SUPERIORITY_OR_OTHER||specificity|38.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
82545564|NCT00520546|164790339|SUPERIORITY_OR_OTHER||accuracy|54.0||||0.41||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||0.41
82545565|NCT00520546|164790339|SUPERIORITY_OR_OTHER||positive prediction|86.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545566|NCT00520546|164790339|SUPERIORITY_OR_OTHER||negative prediction|76.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82650321|NCT02151461|165015776|OTHER|||||||0.2177|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise Comparison using Treatment D as the Reference Group||The HOMA Calculator,is an algorithm that takes account of variations in hepatic and peripheral glucose resistance, increases in insulin secretion curve for plasma glucose concentrations above 10 mmol/L (180 mg/dL), and contribution of circulating proinsulin (eg, C-peptide) to estimate steady state beta cell function (%HOMA-B) and insulin sensitivity (%HOMA-S), as percentages of a normal reference population. %HOMA-IR was analyzed on a logarithmic scale (natural logarithmic transformation).||||0.2177
82650322|NCT02151461|165015776|OTHER|||||||0.4144|||||||ANCOVA|||||||0.4144
82545567|NCT00520546|164790339|SUPERIORITY_OR_OTHER||sensitivity|83.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545568|NCT00520546|164790339|SUPERIORITY_OR_OTHER||specificity|80.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545569|NCT00520546|164790339|SUPERIORITY_OR_OTHER||accuracy|82.0|||<|0.001||95.0|||||Fisher Exact|||"Lesion based analysis of FEC-PET, endorectal MRI and combined FEC-PET/eMRI in patients with malign lesions \>5mm (n=98) as compared with histological results on a lesion based analysis of all patients (n=38)~Null hypothesis: patient distribution in contingency table is incidental."||||<0.001
82545570|NCT00595790|164790341|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of non-inferiority of IC51 1x12 mcg vs. IC51 2x6 mcg at Day 56 based on the difference (IC51 1x12 mcg - IC51 2x6 mcg) in SCRs in the PP population. Non-inferiority of IC51 1 x 12 mcg compared to IC51 2 x 6 mcg was accepted if the lower limit of the 95% CI of the adjusted for center SCR difference (IC51 1 x 12 mcg - IC51 2 x 6 mcg) was higher than the noninferiority margin at -10%.|||||>|0.99|||||||Mantel Haenszel|||||||>0.99
82545571|NCT03988023|164790345|SUPERIORITY|||||||0.32|||||||MMRM|||||||0.32
82545572|NCT03988023|164790346|SUPERIORITY|||||||0.3|||||||MMRM|||||||0.30
82545573|NCT00174382|164790365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.33||0.182||95.0|-0.21|1.09||Baseline value, center, and week as fixed effects; subject was included as a random effect.|Mixed Models Analysis|||Week 12 Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||1.09|-0.21|0.182
82650323|NCT02151461|165015776|OTHER|||||||0.3117|||||||ANCOVA|||||||0.3117
82650324|NCT02151461|165015777|OTHER|Average Change in Pre-meal Glucose Level||||||0.011|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.011
82579185|NCT02145468|164868546|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.457|TWO_SIDED|95.0|0.54|1.32|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.32|0.54|0.457
82579186|NCT02145468|164868546|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.736|TWO_SIDED|95.0|0.63|1.38|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Hospitalization for HF, Placebo Vs Losmapimod 7.5 mg BID at Week 24||1.38|0.63|0.736
82650325|NCT02151461|165015777|OTHER|Average Change in Pre-meal Glucose Level||||||0.0152|||||||ANCOVA|||||||0.0152
82465519|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.953
82465520|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.803||95.0||||p-value is for female, desire/frequency. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in desire/frequency subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.803
82465521|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.694||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.694
82465522|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.835||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.835
82465523|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||p-value is for male, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.435
82465524|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.379
82465525|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.247||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.247
82465526|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||p-value is for female, desire/interest. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in desire/interest subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.784
82465527|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||p-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.696
82579187|NCT02145468|164868547|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.581|TWO_SIDED|95.0|0.77|1.59|||Log Rank||Hazard ratio and CI are estimated using a Cox proportional hazard regression model stratified by baseline STEMI/NSTEMI status with treatment as the only covariate. A hazard ratio \<1 indicates a lower risk with the treatment compared with placebo.|Any unplanned coronary revascularization, Placebo Vs Losmapimod 7.5 mg BID at Week 12||1.59|0.77|0.581
82579188|NCT00422812|164868564|SUPERIORITY|||||||0.0012||||||Overall effect at 2 hr (by Cochran-Mantel-Haenszel) for TREATMENT|Cochran-Mantel-Haenszel|||||||0.0012
82579189|NCT00422812|164868565|SUPERIORITY|||||||0.281|||||||Fisher Exact|||||||0.281
82650326|NCT02151461|165015777|OTHER|Average Change in Pre-meal Glucose Level||||||0.0284|||||||ANCOVA|||||||0.0284
82579190|NCT00422812|164868565|SUPERIORITY|||||||0.0226|||||||Fisher Exact|||||||0.0226
82465528|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.725
82465529|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||P-value is for male, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.899
82465530|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.782||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.782
82465531|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.307||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.307
82465532|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-value is for female, arousal. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in arousal subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.457
82465533|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.712||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.712
82465534|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.403||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.403
82465535|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.713||95.0||||P-value is for male, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of male participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.713
82465536|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.498
82465537|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.963
82465538|NCT00385671|164626910|SUPERIORITY_OR_OTHER|||||||0.338||95.0||||P-value is for female, orgasm. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of female participants with a categorical change in orgasm subscore from baseline to 12 weeks in the Sexual Functioning Questionnaire (CSFQ).||||0.338
82579191|NCT00422812|164868565|SUPERIORITY|||||||0.0019|||||||Fisher Exact|||||||0.0019
82579192|NCT00422812|164868566|SUPERIORITY|||||||0.0007||||||Overall effect (0-4 hr) for TREATMENT by Log-rank p-value|Log Rank|There was no adjustment for multiple comparisons.||||||0.0007
82579193|NCT00422812|164868566|SUPERIORITY|||||||0.0008|||||||Log Rank|No adjustments were made for multiple comparisons||||||0.0008
82650327|NCT02151461|165015777|OTHER|Average Change in Post-meal Glucose Level||||||0.1273|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.1273
82579194|NCT00422812|164868566|SUPERIORITY|||||||0.0008||||||No adjustments were made for multiple comparisons|Log Rank|||||||0.0008
82579195|NCT00422812|164868566|SUPERIORITY|||||||0.0003||||||No adjustments were made for multiple comparisons|Log Rank|||||||0.0003
82465539|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.645
82465540|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.248
82465541|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.47||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Total Score.||||0.470
82465542|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.914
82465543|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.505
82465544|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Cognitive Toxicity Score.||||0.570
82465545|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.430
82465546|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.090
82465547|NCT00385671|164626911|SUPERIORITY_OR_OTHER|||||||0.341||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Portland Neurotoxicity Scale Somatomotor Toxicity Score.||||0.341
82465548|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.130
82465549|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.192||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.192
82579196|NCT03843554|164868570|SUPERIORITY|Primary hypothesis. Null hypothesis is that the proportion of patients with a successful outcome of WHO OM severity grades 0-2 at the post study evaluation will not differ between the two randomized intervention groups. The estimated proportion of successes from our pilot trial is 0.30 with SOC. The alternative hypothesis is that the proportion of patients with a successful outcome differs between the two groups from the SOC proportion of 0.30 by +/-0.265 or more.||||||0.999|||||||Fisher Exact|OM WHO grading scale (less or equal to 2) severity employed a two-sided Fisher's exact test to compare the two arms at Visit 9.||||||0.999
82650328|NCT02151461|165015777|OTHER|Average Change in Post-meal Glucose Level||||||0.0085|||||||ANCOVA|||||||0.0085
82465550|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.936||95.0||||P-value is for total. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale total score.||||0.936
82465551|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.480
82465552|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.690
82465553|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.923||95.0||||P-value is for cognitive toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale cognitive toxicity score.||||0.923
82579197|NCT03843554|164868571|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|174.6||0.6336|TWO_SIDED|95.0||||The above t-test p-value is for IL1a.|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t-test was used to compare the change in inflammatory markers between the two groups.||||0.6336
82650329|NCT02151461|165015777|OTHER|Average Change in Post-meal Glucose Level||||||0.1289|||||||ANCOVA|||||||0.1289
82465554|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.202||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.202
82579198|NCT03843554|164868571|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|52.1||0.351|TWO_SIDED|95.0||||IL1b|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.3510
82579199|NCT03843554|164868571|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-102.2|STANDARD_ERROR_OF_MEAN|252.8||0.351|TWO_SIDED|95.0||||IL2|t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.3510
82579200|NCT03843554|164868571|SUPERIORITY|IL4|Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|46.0||0.8371|TWO_SIDED|95.0|||||t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.8371
82650330|NCT02151461|165015778|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.3143|||||||ANCOVA|Total daily dose is twice the respective dose. Pairwise comparison using Treatment D as the reference group.||||||0.3143
82650331|NCT02151461|165015778|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.5677|||||||ANCOVA|||||||0.5677
82650332|NCT02151461|165015778|OTHER|Plasma Insulin Absolute AUC(0-2hr) (h\*uIU/mL)||||||0.8407|||||||ANCOVA|||||||0.8407
82579201|NCT03843554|164868571|SUPERIORITY|IL5|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|10.7||0.2991|TWO_SIDED|95.0|||||t-test, 2 sided|||The change in the inflammatory marker from baseline to the final intervention visit was analyzed using 95% confidence intervals and presented by treatment group. The two-sided t- test was used to compare the change in inflammatory markers between the two groups.||||0.2991
82579202|NCT03843554|164868572|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-0.2293|STANDARD_ERROR_OF_MEAN|0.8555||0.2373|TWO_SIDED|95.0|-1.906|1.4475|||t-test, 2 sided|||||1.4475|-1.9060|0.2373
82579203|NCT03843554|164868573|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|0.0569|STANDARD_ERROR_OF_MEAN|0.116||0.6263|TWO_SIDED|95.0|-0.1755|0.2893||A Week 8 general linear mixed effects model (GLM) was used to compare the change in saliva flow rate from Baseline (day 0) to week 8 (day 56) between the two groups. The change was calculated by subtracting week 8 saliva flow rate from the Baseline.|ANCOVA||Estimation of the difference in least-square means for the change from Baseline to FIV in saliva flow rate.|||0.2893|-0.1755|0.6263
82579204|NCT03843554|164868574|SUPERIORITY|OMDP-STANDARD|Mean Difference (Net)|-1.94||||0.6956|TWO_SIDED|95.0|||||Regression, Linear|A Week 8 (Day 56) GLM analyzing the pain change Week 8 relative to Baseline (Day 0) was used with treatment and Baseline pain as covariates.|Difference in least-square mean change from baseline to Visit 9 in pain score.|||||0.6956
82650333|NCT02151461|165015779|OTHER|||||||0.9789|||||||ANCOVA|Total daily dose is twice the respective dose Pairwise comparison using Treatment D as the reference group||||||0.9789
82650334|NCT02151461|165015779|OTHER|||||||0.841|||||||ANCOVA|||||||0.841
82650335|NCT02151461|165015779|OTHER|||||||0.748|||||||ANCOVA|||||||0.748
82650336|NCT02191579|165015784|SUPERIORITY||Odds Ratio (OR)|4.94|||<|0.001|TWO_SIDED|95.0|2.681|9.085||Odds ratio, 95% CI, and p-value were estimated using a logistic regression model adjusted by baseline headache days.|Regression, Logistic|||||9.085|2.681|<0.001
82465555|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.114||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.114
82465556|NCT00385671|164626912|SUPERIORITY_OR_OTHER|||||||0.954||95.0||||P-value is for somatomotor toxicity. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Chi-squared|Pairwise p-values come from the Likelihood-Ratio Chi-squared test.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with a categorial change from baseline to 12 weeks in the Portland Neurotoxicity Scale somatomotor toxicity score.||||0.954
82465557|NCT00385671|164626913|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P-value for Direct Treatment Effect. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for tests of direct and indirect effects.|Regression, Linear|||||||0.107
82465558|NCT00385671|164626914|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.968
82465559|NCT00385671|164626914|SUPERIORITY_OR_OTHER|||||||0.492||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.492
82465560|NCT00385671|164626914|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in BDI-II total score.||||0.463
82465561|NCT00385671|164626917|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.103
82465562|NCT00385671|164626917|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.167
82465563|NCT00385671|164626917|SUPERIORITY_OR_OTHER|||||||0.919||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in time to first ≥ 30% reduction in weekly mean 24 hour average pain score.||||0.919
82465564|NCT00385671|164626920|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.008
82545574|NCT00174382|164790365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66|STANDARD_ERROR_OF_MEAN|0.36||0.067||95.0|-0.05|1.36|||Mixed Models Analysis|||Week 24 Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||1.36|-0.05|0.067
82465565|NCT00385671|164626920|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.033
82545575|NCT00174382|164790365|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||Mixed Models Analysis|||Week 24 LOCF Null hypothesis; change from baseline to the final visit = 0. Alternative hypothesis; change from baseline to final visit not = to 0. Sample of 260 participants was required for study to have 85% power to detect change from baseline to final visit of 0.73 in SMMSE total score, with a SD of 3.5. Fewer than 260 patients were enrolled, due to this loss in power the number of analyses specified in the protocol has been reduced and any analyses carried out will be exploratory in nature.||||0.085
82545576|NCT00174382|164790366|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.16||0.218||95.0|-1.2|5.19|||Mixed Models Analysis|||||5.19|-1.20|0.218
82650337|NCT02191579|165015785|SUPERIORITY||Mean Difference (Net)|-6.199|||<|0.001|TWO_SIDED|95.0|-7.936|-4.462||Estimated mean difference, 95% CI, and p-value were assessed using analysis of covariance adjusting for baseline headache days.|ANCOVA|||||-4.462|-7.936|<0.001
82465566|NCT00385671|164626920|SUPERIORITY_OR_OTHER|||||||0.688||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Log Rank|Pairwise p-values come from the log-rank test comparing treatment-specific time-to-event curves constructed using the Kaplan-Meier technique.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in time to first ≥ 2 points reduction in weekly mean 24 hour average pain score.||||0.688
82465567|NCT00385671|164626922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.365|TWO_SIDED|95.0|-0.33|0.9||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||0.90|-0.33|0.365
82465568|NCT00385671|164626922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.172|TWO_SIDED|95.0|-0.2|1.13||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||1.13|-0.20|0.172
82465569|NCT00385671|164626922|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.594|TWO_SIDED|95.0|-0.49|0.85||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week with participant is as a random effect, Kenward-Roger approximation.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in Weekly mean change from baseline to 12 weeks in 24 hour average pain severity score when analyzing only treatment-compliant participants.||0.85|-0.49|0.594
82465570|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.622|TWO_SIDED|95.0|-0.48|0.8||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||0.80|-0.48|0.622
82465571|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.153|TWO_SIDED|95.0|-0.18|1.16||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.16|-0.18|0.153
82465572|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.344|TWO_SIDED|95.0|-0.35|1.0||P-value is for de novo, week 1. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.00|-0.35|0.344
82465573|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.058|TWO_SIDED|95.0|-0.02|1.45||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||1.45|-0.02|0.058
82465574|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.032|TWO_SIDED|95.0|0.07|1.59||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||1.59|0.07|0.032
82545577|NCT00174382|164790366|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|2.12||0.385||95.0|-6.03|2.34|||Mixed Models Analysis|||||2.34|-6.03|0.385
82545578|NCT00174382|164790366|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||Mixed Models Analysis|||||||0.228
82650338|NCT02191579|165015786|SUPERIORITY||Median Difference (Net)|-4.248|||<|0.001||95.0|-5.766|-2.731||Estimated mean difference, 95% CI, and p-value for Week 30 were assessed using analysis of covariance adjusting for baseline headache days.|ANCOVA|||||-2.731|-5.766|<0.001
82650339|NCT02191579|165015787|SUPERIORITY||Odds Ratio (OR)|4.05|||<|0.001||95.0|2.014|8.157||Odds ratio, 95% CI, and p-value for the Week 29-32 interval were estimated using a logistic regression model adjusted by baseline headache days.|Regression, Logistic|||||8.157|2.014|<0.001
82650340|NCT01191255|165015788|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The P-value for the change in mean serum phosphorus was calculated via an ANCOVA model with treatment as the fixed effect and Week-52-baseline as the co-variate.|ANCOVA|||||||<0.0001
82499640|NCT01571427|164689944|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.05||0.64|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.64
82499641|NCT01571427|164689944|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.42|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.42
82499642|NCT01571427|164689945|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.45||0.45|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.45
82499643|NCT01571427|164689945|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.05||0.93|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.93
82499644|NCT01571427|164689945|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.4|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.40
82499645|NCT01571427|164689946|EQUIVALENCE|It was calculated that 82 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% to detect a Cohen's D of 0.45 in the difference in changes from baseline to week 6 at alpha=0.05 (two tailed). All randomized participants (n=83) were included in the analysis.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.09||0.3|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|||||0.30
82499646|NCT01571427|164689946|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.1||0.75|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 2: CDR 0 (n=49)||||0.75
82499647|NCT01571427|164689946|EQUIVALENCE|Power calculation was based on the entire sample which combined CDR=0 and CDR=0.5 groups. Analyses by each CDR group are exploratory.|Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.15||0.12|TWO_SIDED||||||Regression, Linear||Estimates reported here is coefficient for the experimental group (with the control group as a reference), using a linear regression model controlling for Geriatric Depression Scale - 15 items version (GDS-15).|Analysis 3: CDR 0.5 (n=34)||||0.12
82499648|NCT04493281|164689947|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-t for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|0.97|||||TWO_SIDED|90.0|0.91|1.04||||||||1.04|0.91|
82499649|NCT04493281|164689948|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-inf for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|0.98|||||TWO_SIDED|90.0|0.92|1.04||||||||1.04|0.92|
82499650|NCT04493281|164689949|EQUIVALENCE|The analysis was performed by analysis of variance (ANOVA), which included factors accounting for the following sources of variation: sequence, subjects nested in sequences, period, and treatment. For bioequivalence, the 90% CIs of the geometric mean ratio of Cmax for oral suspension and intravenous formulation were required to be within the range of 0.80 to 1.25.|Ratio (PO/IV)|1.22|||||TWO_SIDED|90.0|1.09|1.36||||||||1.36|1.09|
82499651|NCT03454581|164689970|SUPERIORITY||Mean Difference (Final Values)|0.05|||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
82499652|NCT03454581|164689971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82499653|NCT03454581|164689972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82499654|NCT03454581|164689973|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Generalized Estimating Equation|||||||<0.05
82499655|NCT03454581|164689974|OTHER||||||<|0.01|||||||Generalized Estimating Equation|||||||<0.01
82499656|NCT03454581|164689975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82499657|NCT03454581|164689976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82499658|NCT03454581|164689977|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Generalized Estimating Equation|||||||0.05
82499659|NCT03395886|164689981|OTHER|||||||0.831|||||||Chi-squared|||Summary statistics are expressed as numbers and percentages and compared between groups by Chi-square test.||||0.831
82499660|NCT03395886|164689982|OTHER|||||||0.8|||||||Generalized estimating equations|||||||0.800
82545579|NCT00174382|164790367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.84|STANDARD_ERROR_OF_MEAN|2.19||0.404||95.0|-2.51|6.18|||Mixed Models Analysis|||||6.18|-2.51|0.404
82545580|NCT00174382|164790367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57|STANDARD_ERROR_OF_MEAN|2.56||0.826||95.0|-4.51|5.64|||Mixed Models Analysis|||||5.64|-4.51|0.826
82545581|NCT00174382|164790367|SUPERIORITY_OR_OTHER|||||||0.494||95.0|||||Mixed Models Analysis|||||||0.494
82545582|NCT00174382|164790368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.78|STANDARD_ERROR_OF_MEAN|1.61||0.272||95.0|-1.42|4.99|||Mixed Models Analysis|||||4.99|-1.42|0.272
82545583|NCT00174382|164790368|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|2.0||0.894||95.0|-4.21|3.68|||Mixed Models Analysis|||||3.68|-4.21|0.894
82545584|NCT00174382|164790368|SUPERIORITY_OR_OTHER|||||||0.906||95.0|||||Mixed Models Analysis|||||||0.906
82545585|NCT00174382|164790369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.35||0.719||95.0|-0.56|0.82|||Mixed Models Analysis|||||0.82|-0.56|0.719
82545586|NCT00174382|164790369|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|0.36||0.006||95.0|0.29|1.71|||Mixed Models Analysis|||||1.71|0.29|0.006
82545587|NCT00174382|164790369|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Mixed Models Analysis|||||||0.007
82650341|NCT01191255|165015789|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The P-value for the change in mean serum Ferritin were created via an ANCOVA model with treatment as the fixed effect and Study-baseline as the co-variate.|ANCOVA|||||||<0.0001
82650342|NCT01191255|165015790|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82545588|NCT00174382|164790370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.35||0.368||95.0|-0.38|1.01|||Mixed Models Analysis|||||1.01|-0.38|0.368
82545589|NCT00174382|164790370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.72|STANDARD_ERROR_OF_MEAN|0.33||0.03||95.0|0.07|1.37|||Mixed Models Analysis|||||1.37|0.07|0.030
82545590|NCT00174382|164790370|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Mixed Models Analysis|||||||0.060
82545591|NCT00174382|164790371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.33||0.516||95.0|-0.44|0.86|||Mixed Models Analysis|||||0.86|-0.44|0.516
82545592|NCT00174382|164790371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.32||0.297||95.0|-0.97|0.3|||Mixed Models Analysis|||||0.30|-0.97|0.297
82545593|NCT00174382|164790371|SUPERIORITY_OR_OTHER|||||||0.133||95.0|||||Mixed Models Analysis|||||||0.133
82545594|NCT00174382|164790372|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.79|STANDARD_ERROR_OF_MEAN|0.33||0.02||95.0|0.13|1.45|||Mixed Models Analysis|||||1.45|0.13|0.020
82545595|NCT00174382|164790372|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|0.36||0.018||95.0|0.16|1.59|||Mixed Models Analysis|||||1.59|0.16|0.018
82650343|NCT01191255|165015791|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82545596|NCT00174382|164790372|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Mixed Models Analysis|||||||0.004
82545597|NCT00174382|164790373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.42||0.01||95.0|-1.93|-0.27|||Mixed Models Analysis|||||-0.27|-1.93|0.010
82545598|NCT00174382|164790373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.47||0.018||95.0|-2.05|-0.19|||Mixed Models Analysis|||||-0.19|-2.05|0.018
82545599|NCT00174382|164790373|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Mixed Models Analysis|||||||0.018
82545600|NCT00174382|164790374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83|STANDARD_ERROR_OF_MEAN|0.62||0.182||95.0|-2.06|0.39|||Mixed Models Analysis|||||0.39|-2.06|0.182
82545601|NCT00174382|164790374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09|STANDARD_ERROR_OF_MEAN|0.68||0.114||95.0|-2.44|0.26|||Mixed Models Analysis|||||0.26|-2.44|0.114
82545602|NCT00174382|164790374|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||Mixed Models Analysis|||||||0.038
82545603|NCT04629950|164790403|SUPERIORITY|||||||0.395||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||||||0.395
82545604|NCT04629950|164790403|SUPERIORITY|||||||0.41||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.410
82545605|NCT04629950|164790404|SUPERIORITY|||||||0.691|||||||Fisher Exact|||||||0.691
82545606|NCT04629950|164790404|SUPERIORITY|||||||1||||||P values not adjusted for multiple comparisons.|Fisher Exact|||||||1
82545607|NCT04629950|164790405|SUPERIORITY|||||||0.758|||||||t-test, 2 sided|P value not adjusted for multiple comparisons,||||||0.758
82545608|NCT04629950|164790405|SUPERIORITY|||||||0.247||||||P values not adjusted for multiple comparisons.|Fisher Exact|||Data represent change values.||||0.247
82545609|NCT04629950|164790406|SUPERIORITY|||||||0.316||||||P values were not adjusted for multiple comparisons.|t-test, 2 sided|||||||0.316
82545610|NCT04629950|164790406|SUPERIORITY|||||||0.605||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||Data represent change values.||||0.605
82545611|NCT04629950|164790407|SUPERIORITY|||||||0.192||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Average Itch||||0.192
82545612|NCT04629950|164790407|SUPERIORITY|||||||0.392||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Average Itch. Data represent change values.||||0.392
82545613|NCT04629950|164790407|SUPERIORITY|||||||0.347||||||P values not adjusted for multiple comparisons.|t-test, 2 sided|||Mean Reduction in Maximum Itch||||0.347
82545614|NCT04629950|164790407|SUPERIORITY|||||||0.572||||||P value not adjusted for multiple comparisons,|t-test, 2 sided|||Mean Reduction in Maximum Itch. Data represent change values.||||0.572
82545615|NCT04629950|164790408|OTHER|||||||0.359|||||||Wilcoxon (Mann-Whitney)|||||||0.359
82545616|NCT04629950|164790409|OTHER|||||||0.141|||||||Wilcoxon (Mann-Whitney)|||||||0.141
82650344|NCT01191255|165015792|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82650345|NCT04578548|165015827|SUPERIORITY||Geometric Mean Difference|-0.91||||0.606|TWO_SIDED|95.0|-4.34|2.64|||Random coefficient regression model|||Based on a random coefficient regression model (linear slope model) on htTKV log-transformed values with time (in weeks) as a continuous variable, treatment, time-by-treatment interaction and a random intercept and slope. The treatment effect was determined by using estimated slopes for each treatment group on the basis of the time-by-treatment interaction term from the mixed model.||2.64|-4.34|0.606
82465575|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.762|TWO_SIDED|95.0|-0.66|0.9||P-value is for de novo, week 2. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 2.||0.90|-0.66|0.762
82465576|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.029|TWO_SIDED|95.0|0.09|1.73||P-value is for de novo, week 3. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.73|0.09|0.029
82465577|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12||||0.01|TWO_SIDED|95.0|0.27|1.97||P-value is for de nove, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.97|0.27|0.010
82465578|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.619|TWO_SIDED|95.0|-0.63|1.06||P-value is for de nove, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 3.||1.06|-0.63|0.619
82465579|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.058|TWO_SIDED|95.0|-0.03|1.69||P-value is for de novo, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 4.||1.69|-0.03|0.058
82465580|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.001|TWO_SIDED|95.0|0.61|2.41||P-value is for de novo, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 4.||2.41|0.61|0.001
82465581|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.142|TWO_SIDED|95.0|-0.23|1.58||P-value is for de nove, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.58|-0.23|0.142
82465582|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.065|TWO_SIDED|95.0|-0.05|1.76||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||1.76|-0.05|0.065
82465583|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|0.75|2.65||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||2.65|0.75|<0.001
82465584|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.079|TWO_SIDED|95.0|-0.1|1.79||P-value is for de novo, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 5.||1.79|-0.10|0.079
82499661|NCT00267046|164689983|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fine and Gray method.|||||||<0.001
82545617|NCT04629950|164790410|OTHER|||||||0.582|||||||Wilcoxon (Mann-Whitney)|||||||0.582
82545618|NCT04629950|164790411|OTHER|||||||0.713|||||||Wilcoxon (Mann-Whitney)|||||||0.713
82465585|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.093|TWO_SIDED|95.0|-0.13|1.71||P-value is for de novo, 6 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||1.71|-0.13|0.093
82465586|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56||||0.002|TWO_SIDED|95.0|0.59|2.53||P-value is for de novo, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||2.53|0.59|0.002
82465587|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.119|TWO_SIDED|95.0|-0.2|1.74||P-value is for de novo, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 6.||1.74|-0.20|0.119
82465588|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98||||0.036|TWO_SIDED|95.0|0.06|1.91||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||1.91|0.06|0.036
82465589|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.65|||<|0.001|TWO_SIDED|95.0|0.68|2.61||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||2.61|0.68|<0.001
82465590|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.178|TWO_SIDED|95.0|-0.3|1.63||P-value is for de novo, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||1.63|-0.30|0.178
82465591|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81||||0.093|TWO_SIDED|95.0|-0.14|1.75||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 8.||1.75|-0.14|0.093
82465592|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.003|TWO_SIDED|95.0|0.53|2.51||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 7.||2.51|0.53|0.003
82465593|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.157|TWO_SIDED|95.0|-0.28|1.71||P-value is for de novo, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 1.||1.71|-0.28|0.157
82465594|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.063|TWO_SIDED|95.0|-0.05|1.82||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||1.82|-0.05|0.063
82545619|NCT04629950|164790412|OTHER|||||||0.346|||||||Wilcoxon (Mann-Whitney)|||||||0.346
82545620|NCT04629950|164790413|OTHER|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
82545621|NCT04629950|164790414|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||Analysis for Average Itch Over the Preceding 3 Days||||0.221
82545622|NCT04629950|164790414|OTHER|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||Analysis is for the Maximum Itch of the Preceding 7 Days||||0.286
82545623|NCT04629950|164790415|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Analysis for Average Itch Over the Preceding 3 Days||||1
82465595|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|0.7|2.66||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||2.66|0.70|<0.001
82465596|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.114|TWO_SIDED|95.0|-0.19|1.77||P-value is for de novo, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 9.||1.77|-0.19|0.114
82465597|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51||||0.295|TWO_SIDED|95.0|-0.44|1.46||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||1.46|-0.44|0.295
82499662|NCT01979016|164689993|SUPERIORITY||Least Squares (LS) Mean Difference|-69.4|||<|0.0001|TWO_SIDED|95.0|-92.5|-46.2|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a mixed model repeated measures (MMRM) model.||-46.2|-92.5|< 0.0001
82545624|NCT04629950|164790415|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Analysis is for the Maximum Itch of the Preceding 7 Days||||1
82545625|NCT02088853|164790422|SUPERIORITY|Wilcoxon test|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82545626|NCT02088853|164790423|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82545627|NCT02088853|164790424|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82545628|NCT02570022|164790440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||t-test, 2 sided||This analysis corresponds to the visual analog scale and morphine equivalent data.|Our hypothesis was that in patients undergoing shoulder arthroplasty, treatment with LB would lead to no significant differences in average daily pain scores. A power analysis was performed prior to the study to assess the primary hypothesis that a significant difference in average daily pain of 13mm on VAS will not be found between the INB and LB groups. With a power of 80% (beta level = 0.80, alpha level = 0.05), a sample size of 25 patients per group was obtained||||<0.05
82545629|NCT02692417|164790445|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
82545630|NCT02692417|164790445|OTHER|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.225
82499663|NCT01979016|164689994|SUPERIORITY||Percentage difference|37.0|||=|0.0006|TWO_SIDED|95.0|18.82|55.25|||Cochran-Mantel-Haenszel||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||55.25|18.82|= 0.0006
82499664|NCT01979016|164689995|SUPERIORITY||Percentage difference|48.1|||<|0.0001|TWO_SIDED|95.0|28.0|68.3|||Cochran-Mantel-Haenszel||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||68.30|28.00|< 0.0001
82499665|NCT01979016|164689996|SUPERIORITY||LS Mean Difference|-2.66|||<|0.0001|TWO_SIDED|95.0|-3.8|-1.52|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-1.52|-3.80|< 0.0001
82499666|NCT01979016|164689997|SUPERIORITY||LS Mean Difference|-48.08|||=|0.0001|TWO_SIDED|95.0|-71.31|-24.85|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-24.85|-71.31|= 0.0001
82499667|NCT01979016|164689998|SUPERIORITY||LS Mean Difference|-21.5|||<|0.0001|TWO_SIDED|95.0|-29.0|-14.0|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-14.0|-29.0|<0.0001
82499668|NCT01979016|164689999|SUPERIORITY||LS Mean Difference|-31.3|||<|0.0001|TWO_SIDED|95.0|-41.5|-21.1|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by a MMRM model.||-21.1|-41.5|< 0.0001
82499669|NCT01979016|164690000|SUPERIORITY||LS Mean Difference|-46.6|||<|0.0001|TWO_SIDED|95.0|-62.0|-31.3|||ANCOVA||Dupilumab 200 mg qw vs Placebo qw|Analysis was performed by MMRM model.||-31.3|-62.0|< 0.0001
82545631|NCT02692417|164790446|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
82545632|NCT02692417|164790446|OTHER|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.046
82545633|NCT02692417|164790447|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test comparing FSFI score from baseline to time point.||||0.109
82545634|NCT02692417|164790447|OTHER|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82545635|NCT02020252|164790463|SUPERIORITY|||||||0.307||||||This is for the receptivity sub-scale, and the comparison between pre and post-test scores.|t-test, 2 sided|This was a paired t-test.||||||.307
82545636|NCT02020252|164790463|SUPERIORITY|||||||0.009||||||This is for the willingness sub-scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||.009
82545637|NCT02020252|164790463|SUPERIORITY||||||<|0.001||||||This is for knowledge sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|A paired t-test.||||||<.001
82545638|NCT02020252|164790463|SUPERIORITY|||||||0.004||||||This is for the positive attitudes sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||.004
82545639|NCT02020252|164790463|SUPERIORITY||||||<|0.001||||||This was for the self-efficacy sub scale, and the comparison between pre and posttest scores.|t-test, 2 sided|This was a paired t-test.||||||<.001
82545640|NCT01803555|164790477|NON_INFERIORITY|The noninferiority of BF Spiromax to Symbicort Turbohaler was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -15 L/min.|Least Square (LS) mean difference|-2.957||||0.3387|TWO_SIDED|95.0|-9.02|3.11|||Mixed Models Analysis|Analysis included effects due to baseline weekly average of daily trough AM PEF, gender, age, treatment, time, and treatment-by-time interaction.||||3.11|-9.02|0.3387
82545641|NCT01551355|164790482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED|95.0|1.64|6.16|||t-test, 2 sided|The intervention was evaluated using generalized estimating equation models, controlling for cluster effect, sex, age, weight, and education level.||||6.16|1.64|<.001
82545642|NCT01551355|164790483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||<|0.001|TWO_SIDED|95.0|2.03|6.12|||t-test, 2 sided|||||6.12|2.03|<.001
82545643|NCT01551355|164790484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.36|||=|0.06|TWO_SIDED|95.0|-0.29|11.01|||t-test, 2 sided|||||11.01|-0.29|=.06
82545644|NCT02409667|164790486|NON_INFERIORITY|The statistical null-hypothesis to be rejected in the primary analysis was that the odds ratio of maintaining a PASI 90 response for patients with secukinumab 4-weekly dosing versus patients on secukinumab 6-weekly dosing exceeds the non-inferiority margin of 1+δ.|Odds Ratio (OR)|1.91||||0.1499|TWO_SIDED|95.0|1.44|2.55|||Regression, Logistic|||||2.55|1.44|0.1499
82545645|NCT02409667|164790487|SUPERIORITY||Odds Ratio (OR)|0.62||||0.1013|TWO_SIDED|95.0|0.35|1.1|||Regression, Logistic|||||1.10|0.35|0.1013
82545646|NCT02409667|164790490|SUPERIORITY||Least square mean (LSM) estimate|-0.09||||0.0489|TWO_SIDED|95.0|-0.18|0.0|||ANCOVA|||Week 28||-0.00|-0.18|0.0489
82545647|NCT02409667|164790490|SUPERIORITY||LSM estimate|-0.09||||0.1073|TWO_SIDED|95.0|-0.19|0.02|||ANCOVA|||Week 32||0.02|-0.19|0.1073
82545648|NCT02409667|164790490|SUPERIORITY||LSM estimate|-0.24||||0.0001|TWO_SIDED|95.0|-0.37|-0.12|||ANCOVA|||Week 36||-0.12|-0.37|0.0001
82545649|NCT02409667|164790490|SUPERIORITY||LSM estimate|-0.25||||0.0005|TWO_SIDED|95.0|-0.38|-0.11|||ANCOVA|||Week 40||-0.11|-0.38|0.0005
82650346|NCT04578548|165015829|SUPERIORITY||Least-squares mean difference|-2.31||||0.171|TWO_SIDED|95.0|-5.64|1.02|||Random coefficient regression model|||Least-squares mean difference (95% CI) from a random coefficient regression model (linear slope model) on eGFR values with time (in weeks) as a continuous variable, the time-by-treatment interaction and a random intercept and slope. The treatment effect was determined by using estimated slopes for each treatment group on the basis of the time-by-treatment interaction term from the mixed model.||1.02|-5.64|0.171
82499670|NCT01979016|164690001|SUPERIORITY||Percentage difference|55.6|||<|0.0001|TWO_SIDED|95.0|33.38|77.73|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 50% reduction from baseline in EASI score (EASI-50). Analysis was performed by a MMRM model.||77.73|33.38|< 0.0001
82545650|NCT02409667|164790490|SUPERIORITY||LSM estimate|-0.3||||0.0001|TWO_SIDED|95.0|-0.45|-0.15|||ANCOVA|||Week 44||-0.15|-0.45|0.0001
82545651|NCT02409667|164790490|SUPERIORITY||LSM estimate|-0.49||||0|TWO_SIDED|95.0|-0.7|-0.27|||ANCOVA|||Week 48||-0.27|-0.70|0.0000
82545652|NCT02409667|164790490|SUPERIORITY||LSM mean|-0.59||||0|TWO_SIDED|95.0|-0.81|-0.36|||ANCOVA|||||-0.36|-0.81|0.0000
82545653|NCT02409667|164790491|SUPERIORITY||LSM estimate|0.4||||0.174|TWO_SIDED|95.0|-0.18|0.99|||ANCOVA|||Week 28||0.99|-0.18|0.1740
82545654|NCT02409667|164790491|SUPERIORITY||LSM estimate|0.79||||0.0287|TWO_SIDED|95.0|0.08|1.5|||ANCOVA|||Week 32||1.50|0.08|0.0287
82545655|NCT02409667|164790491|SUPERIORITY||LSM estimate|0.62||||0.1202|TWO_SIDED|95.0|-0.16|1.41|||ANCOVA|||Week 36||1.41|-0.16|0.1202
82545656|NCT02409667|164790491|SUPERIORITY||LSM estimate|0.75||||0.1157|TWO_SIDED|95.0|-0.19|1.68|||ANCOVA|||Week 40||1.68|-0.19|0.1157
82545657|NCT02409667|164790491|SUPERIORITY||LSM estimate|0.54||||0.3189|TWO_SIDED|95.0|-0.52|1.59|||ANCOVA|||Week 44||1.59|-0.52|0.3189
82499671|NCT01979016|164690001|SUPERIORITY||Percentage difference|51.9|||=|0.0001|TWO_SIDED|95.0|29.59|74.12|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 75% reduction from baseline in EASI score (EASI-75). Analysis was performed by a MMRM model.||74.12|29.59|= 0.0001
82499672|NCT01979016|164690001|SUPERIORITY||Percentage difference|33.3|||=|0.0011|TWO_SIDED|95.0|15.55|51.11|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 90% reduction from baseline in EASI score (EASI-90). Analysis was performed by a MMRM model.||51.11|15.55|= 0.0011
82499673|NCT01979016|164690002|SUPERIORITY||Percentage difference|48.1|||=|0.0002|TWO_SIDED|95.0|27.0|69.3|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 50% reduction from baseline in SCORAD Score (SCORAD-50). Analysis was performed by a MMRM model.||69.3|27.0|= 0.0002
82499674|NCT01979016|164690002|SUPERIORITY||Percentage difference|11.1|||=|0.0792|TWO_SIDED|95.0|-0.7|23.0|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 75% reduction from baseline in SCORAD Score (SCORAD-75). Analysis was performed by a MMRM model.||23.0|-0.7|= 0.0792
82499675|NCT01979016|164690002|SUPERIORITY||Percentage difference|7.4|||=|0.1573|TWO_SIDED|95.0|-2.5|17.3|||Cochran-Mantel-Haenszel|||Statistical comparison for percentage of participants who achieved 90% reduction from baseline in SCORAD Score (SCORAD-90). Analysis was performed by a MMRM model.||17.3|-2.5|= 0.1573
82499676|NCT01979016|164690003|SUPERIORITY||LS Mean Difference|-10.4|||<|0.0001|TWO_SIDED|95.0|-14.3|-6.6|||ANCOVA|||Analysis was performed by a MMRM model.||-6.6|-14.3|< 0.0001
82499677|NCT01979016|164690004|SUPERIORITY||LS Mean Difference|-46.2|||<|0.0001|TWO_SIDED|95.0|-63.9|-28.5|||ANCOVA|||Analysis was performed by a MMRM model.||-28.5|-63.9|< 0.0001
82499678|NCT01979016|164690006|SUPERIORITY||LS Mean Difference|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.02|-2.39|||ANCOVA|||||-2.39|-5.02|< 0.0001
82499679|NCT01124422|164690034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.6|STANDARD_ERROR_OF_MEAN|20.58||0.181|TWO_SIDED|95.0|-68.2|13.0||ANCOVA model with terms for treatment, investigator, Oxycon stratum, and baseline value|ANCOVA|||||13.0|-68.2|0.181
82499680|NCT01669915|164690110|SUPERIORITY||Mean Difference (Net)|0.01||||0.31|TWO_SIDED|95.0|-0.01|0.02|||Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.02|-0.01|0.31
82465598|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44||||0.005|TWO_SIDED|95.0|0.45|2.44||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||2.44|0.45|0.005
82579205|NCT03843554|164868575|SUPERIORITY|OMDP-STANDARD|Mean Difference (Final Values)|-0.188|STANDARD_ERROR_OF_MEAN|0.113||0.1153|TWO_SIDED|95.0|-0.4095|0.0334|||ANCOVA|ANCOVA via generalized linear mixed repeated measures model (GLMER)||The statistical analysis comprised an ANCOVA for a longitudinal response based on a generalized linear mixed effects repeated measures model (GLMER). The response variable is the mean change from Baseline to Visit 9 in EORTC QLQ-C30 Questions 31-48 (total).||0.0334|-0.4095|0.1153
82465599|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.066|TWO_SIDED|95.0|-0.06|1.94||P-value is for de novo, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 10.||1.94|-0.06|0.066
82545658|NCT02409667|164790491|SUPERIORITY||LSM estimate|1.17||||0.024|TWO_SIDED|95.0|0.16|2.18|||ANCOVA|||Week 48||2.18|0.16|0.0240
82545659|NCT02409667|164790491|SUPERIORITY||LSM estimate|1.47||||0.009|TWO_SIDED|95.0|0.37|2.57|||ANCOVA|||Week 52||2.57|0.37|0.0090
82545660|NCT02409667|164790492|SUPERIORITY||LSM estimate|-0.62||||0.0001|TWO_SIDED|95.0|-0.93|-0.31|||ANCOVA|||||-0.31|-0.93|0.0001
82545661|NCT02409667|164790493|SUPERIORITY||LSM estimate|1.17||||0.0675|TWO_SIDED|95.0|-0.09|2.42|||ANCOVA|||||2.42|-0.09|0.0675
82545662|NCT02409667|164790494|SUPERIORITY||LSM estimate|-0.97||||0.2101|TWO_SIDED|95.0|-2.48|0.55|||ANCOVA|||Absenteeism||0.55|-2.48|0.2101
82545663|NCT02409667|164790494|SUPERIORITY||LSM estimate|-0.67||||0.2971|TWO_SIDED|95.0|-1.93|0.59|||ANCOVA|||Presenteeism||0.59|-1.93|0.2971
82545664|NCT02409667|164790494|SUPERIORITY||LSM estimate|-0.61||||0.5499|TWO_SIDED|95.0|-2.59|1.38|||ANCOVA|||Total activity impairment||1.38|-2.59|0.5499
82545665|NCT02409667|164790494|SUPERIORITY||LSM estimate|-1.08||||0.0758|TWO_SIDED|95.0|-2.28|0.11|||ANCOVA|||||0.11|-2.28|0.0758
82545666|NCT02409667|164790495|SUPERIORITY||LSM estimate|1.2||||0.4156|TWO_SIDED|95.0|-1.71|4.11|||ANCOVA|||Absenteeism||4.11|-1.71|0.4156
82650347|NCT00395083|165015833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.62|TWO_SIDED|95.0|0.7|1.8|||Log Rank|||||1.80|0.70|0.62
82545667|NCT02409667|164790495|SUPERIORITY||LSM estimate|0.63||||0.8619|TWO_SIDED|95.0|-6.59|7.85|||ANCOVA|||Presenteeism||7.85|-6.59|0.8619
82545668|NCT02409667|164790495|SUPERIORITY||LSM estimate|-0.61||||0.6139|TWO_SIDED|95.0|-6.31|10.61|||ANCOVA|||Total activity impairment||10.61|-6.31|0.6139
82545669|NCT02409667|164790495|SUPERIORITY||LSM estimate|1.7||||0.5674|TWO_SIDED|95.0|-4.16|7.56|||ANCOVA|||Work productivity loss||7.56|-4.16|0.5674
82545670|NCT02409667|164790496|SUPERIORITY||LSM estimate|-0.13||||0.1219|TWO_SIDED|95.0|-0.3|0.04|||ANCOVA|||Pain||0.04|-0.30|0.1219
82545671|NCT02409667|164790496|SUPERIORITY||LSM estimate|-0.38||||0.0001|TWO_SIDED|95.0|-0.57|-0.18|||ANCOVA|||Itching||-0.18|-0.57|0.0001
82545672|NCT02409667|164790496|SUPERIORITY||LSM estimate|-0.31||||0.0003|TWO_SIDED|95.0|-0.48|-0.14|||ANCOVA|||Scaling||-0.14|-0.48|0.0003
82545673|NCT02409667|164790497|SUPERIORITY||LSM estimate|0.17||||0.6457|TWO_SIDED|95.0|-0.57|0.92|||ANCOVA|||Pain||0.92|-0.57|0.6457
82545674|NCT02409667|164790497|SUPERIORITY||LSM estimate|0.19||||0.6136|TWO_SIDED|95.0|-0.56|0.94|||ANCOVA|||Itching||0.94|-0.56|0.6136
82545675|NCT02409667|164790497|SUPERIORITY||LSM estimate|0.75||||0.0203|TWO_SIDED|95.0|0.12|1.39|||ANCOVA|||Scaling||1.39|0.12|0.0203
82545676|NCT02409667|164790498|SUPERIORITY||LSM estimate|2.22||||0.0027|TWO_SIDED|95.0|0.77|3.68|||ANCOVA|||||3.68|0.77|0.0027
82545677|NCT02409667|164790499|SUPERIORITY||LSM estimate|-2.31||||0.2823|TWO_SIDED|95.0|-6.55|1.92|||ANCOVA|||||1.92|-6.55|0.2823
82545678|NCT02409667|164790500|SUPERIORITY||LSM estimate|0.01||||0.0861|TWO_SIDED|95.0|0.0|0.02|||ANCOVA|||Germany||0.02|-0.00|0.0861
82545679|NCT02409667|164790500|SUPERIORITY||LSM estimate|0.02||||0.0117|TWO_SIDED|95.0|0.0|0.04|||ANCOVA|||UK||0.04|0.00|0.0117
82545680|NCT02409667|164790501|SUPERIORITY||LSM estimate|-0.02||||0.1852|TWO_SIDED|95.0|-0.05|0.01|||ANCOVA|||Germany||0.01|-0.05|0.1852
82545681|NCT02409667|164790501|SUPERIORITY||LSM estimate|-0.03||||0.2203|TWO_SIDED|95.0|-0.07|0.02|||ANCOVA|||UK||0.02|-0.07|0.2203
82545682|NCT01255670|164790515|OTHER|Mann-Whitney U-test and Fisher's exact test||||||0.05|||||||Fisher Exact|||||||0.05
82545683|NCT01255670|164790516|OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U-test and Fisher's exact test||||0.05
82545684|NCT03087708|164790544|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<1
82545685|NCT03087708|164790544|OTHER||||||<|0.7051|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.7051
82545686|NCT03087708|164790544|OTHER||||||<|0.6546|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<0.6546
82545687|NCT03087708|164790544|OTHER||||||<|0.7051|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.7051
82545688|NCT03087708|164790544|OTHER||||||<|0.2262|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<0.2262
82545689|NCT03087708|164790544|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Hematologic 3+ vs Hematologic \<3||||<1
82545690|NCT03087708|164790544|OTHER||||||<|1|||||||Fisher Exact|||Comparison of Non-Hematologic 3+ vs Non-Hematologic \<3||||<1
82545691|NCT03087708|164790548|OTHER||||||<|0.68182|||||||Fisher Exact|||||||<0.68182
82579206|NCT01072630|164868686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.1302|TWO_SIDED|95.0|-4.67|0.6||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||0.60|-4.67|0.1302
82650348|NCT00395083|165015834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.62|TWO_SIDED|95.0|0.7|1.8|||Regression, Cox|||||1.80|0.70|0.62
82545692|NCT03087708|164790548|OTHER||||||<|0.1091|||||||Fisher Exact|||||||<0.1091
82545693|NCT03087708|164790549|OTHER||||||<|1|||||||Wilcoxon (Mann-Whitney)|||||||<1.0
82545694|NCT03087708|164790549|OTHER||||||<|0.3339|||||||Wilcoxon (Mann-Whitney)|||||||<0.3339
82545695|NCT03087708|164790550|OTHER||||||<|0.593|||||||Wilcoxon (Mann-Whitney)|||||||<0.5930
82545696|NCT03087708|164790550|OTHER||||||<|0.3105|||||||Wilcoxon (Mann-Whitney)|||||||<0.3105
82545697|NCT03087708|164790551|OTHER|||||||0.6024|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at Baseline||||0.6024
82545698|NCT03087708|164790551|OTHER||||||<|0.3116|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at Baseline||||<0.3116
82545699|NCT03087708|164790551|OTHER||||||<|0.7712|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at 6 Months||||<0.7712
82545700|NCT03087708|164790551|OTHER||||||<|1|||||||Wilcoxon (Mann-Whitney)|||Average Pain Scores at 6 Months||||<1.0
82545701|NCT03087708|164790552|OTHER||||||<|1|||||||Fisher Exact|||Analgesic Use at 6 Months||||<1.0000
82545702|NCT03087708|164790552|OTHER||||||<|0.5758|||||||Fisher Exact|||Analgesic Use at 6 Months||||<0.5758
82545703|NCT03087708|164790552|OTHER||||||<|1|||||||Fisher Exact|||Analgesic use at Baseline||||<1.0000
82545704|NCT03087708|164790552|OTHER|||||||0.593|||||||Fisher Exact|||Analgesic use at Baseline||||0.5930
82545705|NCT01827787|164790560|SUPERIORITY|||||||0.42|||||||Fisher Exact|||"Using a one sample binomial design, with 45 patients there was 90% power to detect a null hypothesis 30% overall response rate (historical control) versus an alternative hypothesis of 53% overall response rate assuming a two-sided 10% alpha.~Of note, cohort 2: TNBC did not fully accrue 45 patients so a testing was not done."||||0.42
82545706|NCT02769858|164790599|OTHER|||||||0.001|||||||t-test, 2 sided|||||||.001
82545707|NCT02769858|164790600|OTHER|||||||0.019|||||||t-test, 2 sided|||||||.019
82545708|NCT02769858|164790601|OTHER|||||||0.502|||||||t-test, 2 sided|||||||.502
82545709|NCT01853748|164790662|SUPERIORITY|||||||0.0012|||||||Mantel Haenszel|||||||0.0012
82545710|NCT01853748|164790667|SUPERIORITY|||||||0.0001|||||||Regression, Linear|||||||0.0001
82545711|NCT01853748|164790670|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82545712|NCT01643070|164790699|SUPERIORITY||Odds Ratio (OR)|1.5||||0.719|TWO_SIDED|95.0|0.346|6.501|||t-test, 1 sided|||||6.501|0.346|0.719
82545713|NCT02980276|164790712|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-6.9||||0.13|TWO_SIDED|95.0|-15.1|1.4||The primary analysis, as per sample size calculation, was a two-sample comparison of reduction in the proportion of women needing insulin between treatment and control arms using an exact test for a binomial response.|Risk difference||Units are %|The primary analysis, as per sample size calculation, was a two-sample comparison of reduction in the proportion of women needing insulin between treatment and control arms using an exact test for a binomial response.||1.4|-15.1|0.13
82545714|NCT02980276|164790713|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-12.7||||0.004|TWO_SIDED|95.0|-21.2|-4.3|||Risk difference||Units are %|||-4.3|-21.2|0.004
82545715|NCT02980276|164790714|SUPERIORITY|||||||0.001|||||||Log Rank|Median survival times could not be calculated; time to insulin initiation would be censored at delivery in \>50% of participants in treatment group.||||||0.001
82545716|NCT02980276|164790715|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio, log|0.61||||0.005|TWO_SIDED|95.0|0.43|0.86|||Regression, Logistic|Unadjusted|Unadjusted|||0.86|0.43|0.005
82545717|NCT02980276|164790715|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.56||||0.003|TWO_SIDED|95.0|0.38|0.82|||Regression, Logistic|Adjusted|Adjusted|||0.82|0.38|0.003
82545718|NCT02980276|164790716|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.78||||0.178|TWO_SIDED|95.0|0.55|1.12|||Regression, Logistic||Unadjusted|||1.12|0.55|0.178
82545719|NCT02980276|164790716|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.72||||0.105|TWO_SIDED|95.0|0.48|1.07||Two-sided test comparing observed odds ratio to 1.|Regression, Logistic||Adjusted|||1.07|0.48|0.105
82545720|NCT02980276|164790717|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|-3.7||||0.17|TWO_SIDED|95.0|-9.3|1.7|||t-test, 2 sided|||||1.7|-9.3|0.17
82650349|NCT00395083|165015835|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.0||||0.003|TWO_SIDED|95.0|1.46|6.17|||Regression, Cox|||||6.17|1.46|0.003
82650350|NCT00395083|165015836|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.0||||0.002|TWO_SIDED|95.0|1.46|6.17|||Log Rank|||||6.17|1.46|0.002
82545721|NCT02980276|164790718|EQUIVALENCE|Two-sided test comparing observed mean difference ratio to zero.|Mean Difference (Final Values)|-1.2||||0.003|TWO_SIDED|95.0|-1.99|-0.42|||t-test, 2 sided|||||-0.42|-1.99|0.003
82545722|NCT02980276|164790719|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.21||||0.99|TWO_SIDED|95.0|0.65|1.55|||Regression, Logistic|||||1.55|0.65|0.99
82545723|NCT02980276|164790720|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.96||||0.911|TWO_SIDED|95.0|0.46|2.0|||Regression, Logistic|||||2|0.46|0.911
82545724|NCT02980276|164790721|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.82||||0.519|TWO_SIDED|95.0|0.44|1.51|||Regression, Logistic|||||1.51|0.44|0.519
82545725|NCT02980276|164790722|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.66|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||||0.2|-0.3|0.66
82545726|NCT02980276|164790723|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.21||||0.367|TWO_SIDED|95.0|0.8|1.85|||Regression, Logistic|Unadjusted|Unadjusted|||1.85|0.8|0.367
82545727|NCT02980276|164790723|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.22||||0.359|TWO_SIDED|95.0|0.8|1.87|||Regression, Logistic|Adjusted|Adjusted|||1.87|0.8|0.359
82545728|NCT02980276|164790724|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-6.5||||1|TWO_SIDED|95.0|-13.9|12.9|||Risk difference||Units are %|||12.9|-13.9|1.0
82545729|NCT02980276|164790725|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.603|TWO_SIDED|95.0|0.56|1.39|||Regression, Logistic|Unadjusted|Unadjusted|||1.39|0.56|0.603
82545730|NCT02980276|164790725|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.621|TWO_SIDED|95.0|0.57|1.4|||Regression, Logistic|Adjusted|Adjusted|||1.4|0.57|0.621
82499681|NCT01669915|164690110|SUPERIORITY||Mean Difference (Net)|-0.01||||0.14|TWO_SIDED|95.0|-0.02|0.003|||Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 fatty acids active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.003|-0.02|0.14
82499682|NCT01669915|164690111|SUPERIORITY||Mean Difference (Net)|0.01||||0.49|TWO_SIDED|95.0|-0.01|0.03||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.03|-0.01|0.49
82499683|NCT01669915|164690111|SUPERIORITY||Mean Difference (Net)|-0.02||||0.03|TWO_SIDED|95.0|-0.04|-0.002||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||-0.002|-0.04|0.03
82499684|NCT01669915|164690112|SUPERIORITY||Mean Difference (Net)|0.01||||0.23|TWO_SIDED|95.0|-0.01|0.02||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.02|-0.01|0.23
82499685|NCT01669915|164690112|SUPERIORITY||Mean Difference (Net)|0.003||||0.68|TWO_SIDED|95.0|-0.01|0.02||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included terms for the variables time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization)||0.02|-0.01|0.68
82499686|NCT01669915|164690113|SUPERIORITY||Mean Difference (Net)|0.03||||0.46|TWO_SIDED|95.0|-0.04|0.09||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in vitamin D active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||0.09|-0.04|0.46
82499687|NCT01669915|164690113|SUPERIORITY||Mean Difference (Net)|-0.1||||0.003|TWO_SIDED|95.0|-0.17|-0.04||Given the 3 secondary analyses, the p-value threshold was 0.0167 (=Bonferroni correction of 0.05/3=0.0167).|Mixed Models Analysis|||The rates of cognitive decline over 2.8 years were compared in the two groups (rate in omega-3 active group minus the rate in placebo group). A mixed model included the variables, time since randomization, assignment to one arm, assignment to the other arm, sex, age, race/ethnicity, history of depression and the six interaction terms (products with time since randomization).||-0.04|-0.17|0.003
82499688|NCT01025791|164690124|OTHER||0.1 mg vs. placebo|-7.06||||0.003|TWO_SIDED|90.0|-11.1|-3.0|||ANOVA|||||-3.00|-11.1|0.003
82499689|NCT01025791|164690124|OTHER||0.2 mg vs. placebo|-1.23||||0.31|TWO_SIDED|90.0|-5.42|2.96|||ANOVA|||||2.96|-5.42|0.310
82499690|NCT01025791|164690124|OTHER||0.5 mg vs. placebo|0.01||||0.498|TWO_SIDED|90.0|-4.05|4.06|||ANOVA|||||4.06|-4.05|0.498
82499691|NCT01025791|164690124|OTHER||1 mg vs. placebo|-5.69||||0.012|TWO_SIDED|90.0|-9.74|-1.63|||ANOVA|||||-1.63|-9.74|0.012
82499692|NCT01025791|164690124|OTHER||1 mg + 0.8 mg vs. placebo|-3.97||||0.059|TWO_SIDED|90.0|-8.16|0.22|||ANOVA|||||0.22|-8.16|0.059
82499693|NCT01025791|164690124|OTHER||0.4 mg vs. placebo|2.22||||0.191|TWO_SIDED|90.0|-2.09|6.54|||ANOVA|||||6.54|-2.09|0.191
82499694|NCT01025791|164690124|OTHER||1.2 mg vs. placebo|1.24||||0.333|TWO_SIDED|90.0|-3.67|6.15|||ANOVA|||||6.15|-3.67|0.333
82499695|NCT01025791|164690124|OTHER||1.2 mg + 0.6 mg vs. placebo|-1.43||||0.314|TWO_SIDED|90.0|-6.5|3.63|||ANOVA|||||3.63|-6.50|0.314
82499696|NCT01025791|164690124|OTHER||1 mg + 0.8 mg vs. placebo|-9.31||||0.001|TWO_SIDED|90.0|-14.2|-4.37|||ANOVA|||||-4.37|-14.2|0.001
82499697|NCT01025791|164690124|OTHER||1.2 mg + 1.0 mg vs. placebo|-6.45||||0.017|TWO_SIDED|90.0|-11.4|-1.51|||ANOVA|||||-1.51|-11.4|0.017
82499698|NCT01025791|164690124|OTHER||1.0 mg + 0.6 mg + 0.6 mg vs. placebo|-9.96||||0.001|TWO_SIDED|90.0|-14.9|-5.02|||ANOVA|||||-5.02|-14.9|0.001
82499699|NCT01025791|164690124|OTHER||1 mg + 1 mg + 0.6 mg vs. placebo|-9.0||||0.002|TWO_SIDED|95.0|-13.8|-4.17|||ANOVA|||||-4.17|-13.8|0.002
82499700|NCT01025791|164690129|OTHER||GMR (Fed/Fasted)|0.89|||||TWO_SIDED|95.0|0.86|0.92||||||||0.92|0.86|
82499701|NCT01025791|164690130|OTHER||GMR (Fed/fasted)|0.97|||||TWO_SIDED|95.0|0.79|1.19||||||||1.19|0.79|
82499702|NCT01025791|164690131|OTHER||0.1 mg vs placebo|-0.53||||0.396|TWO_SIDED|90.0|-3.92|2.86|||ANOVA|||||2.86|-3.92|0.396
82499703|NCT01025791|164690131|OTHER||0.2 mg vs. placebo|2.33||||0.1329|TWO_SIDED|90.0|-1.17|5.83|||ANOVA|||||5.83|-1.17|0.1329
82499704|NCT01025791|164690131|OTHER||0.5mg vs. placebo|-2.96||||0.0741|TWO_SIDED|90.0|-6.35|0.43|||ANOVA|||||0.43|-6.35|0.0741
82499705|NCT01025791|164690131|OTHER||1 mg vs. placebo|7.08|||<|0.001|TWO_SIDED|90.0|3.69|10.47|||ANOVA|||||10.47|3.69|<0.001
82499706|NCT01025791|164690131|OTHER||1 mg + 0.8 mg vs. placebo|4.39||||0.0211|TWO_SIDED|90.0|0.89|7.09|||ANOVA|||||7.09|0.89|0.0211
82499707|NCT01025791|164690131|OTHER||0.4 mg vs. placebo|0.85||||0.399|TWO_SIDED|90.0|-4.79|6.48|||ANOVA|||||6.48|-4.79|0.399
82499708|NCT01025791|164690131|OTHER||1.2 mg vs. placebo|4.54||||0.1|TWO_SIDED|90.0|-1.94|11.02|||ANOVA|||||11.02|-1.94|0.100
82465600|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62||||0.208|TWO_SIDED|95.0|-0.35|1.58||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||1.58|-0.35|0.208
82465601|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.004|TWO_SIDED|95.0|0.49|2.51||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||2.51|0.49|0.004
82465602|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.086|TWO_SIDED|95.0|-0.13|1.89||P-value is for de novo, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 11.||1.89|-0.13|0.086
82465603|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.328|TWO_SIDED|95.0|-0.49|1.45||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||1.45|-0.49|0.328
82465604|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46||||0.005|TWO_SIDED|95.0|0.44|2.47||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||2.47|0.44|0.005
82465605|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98||||0.059|TWO_SIDED|95.0|-0.04|1.99||P-value is for de novo, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin de novo group in change in 24 hour average pain severity at Week 12.||1.99|-0.04|0.059
82465606|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.117|TWO_SIDED|95.0|-0.09|0.79||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.79|-0.09|0.117
82465607|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.412|TWO_SIDED|95.0|-0.25|0.62||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.62|-0.25|0.412
82465608|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.445|TWO_SIDED|95.0|-0.6|0.26||P-value is for prior use, 1 week. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 1.||0.26|-0.60|0.445
82499709|NCT01025791|164690131|OTHER||1.2 mg + 0.6 mg vs. placebo|3.38||||0.195|TWO_SIDED|90.0|-3.29|10.06|||ANOVA|||||10.06|-3.29|0.195
82499710|NCT01025791|164690131|OTHER||1.0 mg + 0.8 mg vs. placebo|9.16||||0.022|TWO_SIDED|90.0|1.74|16.58|||ANOVA|||||16.58|1.74|0.022
82499711|NCT01025791|164690131|OTHER||1.2 mg + 1.0 mg vs. placebo|5.74||||0.098|TWO_SIDED|90.0|-1.68|13.16|||ANOVA|||||13.16|-1.68|0.098
82499712|NCT01025791|164690131|OTHER||1 mg + 0.6 mg + 0.6 mg vs. placebo|3.48||||0.214|TWO_SIDED|90.0|-3.94|10.9|||ANOVA|||||10.90|-3.94|0.214
82499713|NCT01025791|164690131|OTHER||1 mg + 1 mg + 0.6 mg vs. placebo|4.24||||0.163|TWO_SIDED|95.0|-3.03|11.52|||ANOVA|||||11.52|-3.03|0.163
82499714|NCT02756689|164690132|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82499715|NCT02756689|164690133|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
82499716|NCT02756689|164690134|SUPERIORITY||Risk Ratio (RR)|2.1||||0.09|TWO_SIDED|95.0|0.8|5.3|||Chi-squared|||||5.3|0.8|0.09
82499717|NCT02756689|164690135|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||0.12
82465609|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.025|TWO_SIDED|95.0|0.07|1.09||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||1.09|0.07|0.025
82465610|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.257|TWO_SIDED|95.0|-0.21|0.79||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||0.79|-0.21|0.257
82465611|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.257|TWO_SIDED|95.0|-0.79|0.21||P-value is for prior use, 2 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 2.||0.21|-0.79|0.257
82465612|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.075|TWO_SIDED|95.0|-0.05|1.04||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||1.04|-0.05|0.075
82465613|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.634|TWO_SIDED|95.0|-0.42|0.68||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||0.68|-0.42|0.634
82465614|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.193|TWO_SIDED|95.0|-0.91|0.19||P-value is for prior use, 3 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 3.||0.19|-0.91|0.193
82465615|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.688|TWO_SIDED|95.0|-0.46|0.7||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.70|-0.46|0.688
82545731|NCT02980276|164790726|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.89||||0.739|TWO_SIDED|95.0|0.45|1.76|||Regression, Logistic|Unadjusted|Unadjusted|||1.76|0.45|0.739
82545732|NCT02980276|164790726|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.92||||0.812|TWO_SIDED|95.0|0.46|1.84|||Regression, Logistic|Adjusted|Adjusted|||1.84|0.46|0.812
82545733|NCT02980276|164790727|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|1.84||||0.282|TWO_SIDED|95.0|0.63|6.04|||Regression, Logistic|Unadjusted|Unadjusted|Unadjusted||6.04|0.63|0.282
82545734|NCT02980276|164790727|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|2.14||||0.196|TWO_SIDED|95.0|0.7|7.38|||Regression, Logistic||Adjusted|||7.38|0.7|0.196
82545735|NCT02980276|164790728|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.53||||0.058|TWO_SIDED|95.0|0.27|1.01|||Regression, Logistic|Unadjusted||||1.01|0.27|0.058
82545736|NCT02980276|164790728|EQUIVALENCE|Two-sided test comparing observed odds ratio to 1.|Odds Ratio (OR)|0.53||||0.061|TWO_SIDED|95.0|0.27|1.02|||Regression, Logistic|Adjusted||||1.02|0.27|0.061
82545737|NCT02980276|164790729|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-4.5||||0.24|TWO_SIDED|95.0|-11.6|2.5|||Risk difference||Units are %|||2.5|-11.6|0.24
82545738|NCT02980276|164790729|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.81||||0.24|TWO_SIDED|95.0|0.59|1.12|||Regression, Logistic||Units are %|||1.12|0.59|0.24
82545739|NCT02980276|164790730|EQUIVALENCE|Regression model that adjusts for the infant's sex and maternal height and weight at randomization.|Median Difference (Final Values)|-113.0||||0.005|TWO_SIDED|95.0|-201.0|-24.0|||Regression, Linear|P value was derived from a statistical model that adjusts for the infant's sex and maternal height and weight at randomization.||||-24|-201|0.005
82545740|NCT02980276|164790731|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.82|TWO_SIDED|95.0|-0.3|0.3|||t-test, 2 sided|||||0.3|-0.3|0.82
82545741|NCT02980276|164790732|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|-0.7||||0.02|TWO_SIDED|95.0|-1.3|-0.2|||t-test, 2 sided|||||-0.2|-1.3|0.02
82465616|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.944|TWO_SIDED|95.0|-0.6|0.56||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.56|-0.60|0.944
82465617|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.64|TWO_SIDED|95.0|-0.73|0.45||P-value is for prior use, 4 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 4.||0.45|-0.73|0.640
82465618|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.439|TWO_SIDED|95.0|-0.37|0.84||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.84|-0.37|0.439
82465619|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.461|TWO_SIDED|95.0|-0.38|0.84||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.84|-0.38|0.461
82465620|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.976|TWO_SIDED|95.0|-0.62|0.6||P-value is for prior use, 5 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 5.||0.60|-0.62|0.976
82465621|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.829|TWO_SIDED|95.0|-0.55|0.68||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.68|-0.55|0.829
82465622|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.713|TWO_SIDED|95.0|-0.5|0.74||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.74|-0.50|0.713
82465623|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.878|TWO_SIDED|95.0|-0.58|0.67||P-value is for prior use, 6 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 6.||0.67|-0.58|0.878
82465624|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.447|TWO_SIDED|95.0|-0.38|0.85||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.85|-0.38|0.447
82465625|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.511|TWO_SIDED|95.0|-0.41|0.83||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.83|-0.41|0.511
82499718|NCT02756689|164690136|SUPERIORITY||Risk Ratio (RR)|3.3||||0.06|TWO_SIDED|95.0|0.9|11.4|||Chi-squared|||||11.4|0.9|0.06
82499719|NCT02756689|164690137|SUPERIORITY||Risk Ratio (RR)|0.8||||0.74|TWO_SIDED|95.0|0.2|2.8|||Chi-squared|||||2.8|0.2|0.74
82499720|NCT02756689|164690138|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82499721|NCT02756689|164690139|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
82499722|NCT02756689|164690140|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82465626|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.924|TWO_SIDED|95.0|-0.65|0.59||P-value is for prior use, 7 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 7.||0.59|-0.65|0.924
82465627|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.185|TWO_SIDED|95.0|-0.2|1.06||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||1.06|-0.20|0.185
82465628|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.403|TWO_SIDED|95.0|-0.37|0.91||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||0.91|-0.37|0.403
82465629|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.636|TWO_SIDED|95.0|-0.79|0.49||P-value is for prior use, 8 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 8.||0.49|-0.79|0.636
82465630|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.304|TWO_SIDED|95.0|-0.3|0.95||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.95|-0.30|0.304
82465631|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34||||0.295|TWO_SIDED|95.0|-0.29|0.97||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.97|-0.29|0.295
82465632|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.975|TWO_SIDED|95.0|-0.62|0.64||P-value is for prior use, 9 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 9.||0.64|-0.62|0.975
82465633|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.349|TWO_SIDED|95.0|-0.33|0.93||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.93|-0.33|0.349
82465634|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.351|TWO_SIDED|95.0|-0.34|0.94||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.94|-0.34|0.351
82465635|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.992|TWO_SIDED|95.0|-0.64|0.65||P-value is for prior use, 10 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 10.||0.65|-0.64|0.992
82499723|NCT02756689|164690141|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||||||0.42
82499724|NCT02756689|164690142|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82499725|NCT02756689|164690143|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.2|4.7|||Chi-squared|||||4.7|0.2|>0.99
82499726|NCT02756689|164690144|SUPERIORITY||Risk Ratio (RR)|0.7||||0.43|TWO_SIDED|95.0|0.3|1.7|||Chi-squared|||||1.7|0.3|0.43
82465636|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.681|TWO_SIDED|95.0|-0.5|0.77||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.77|-0.50|0.681
82465637|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.569|TWO_SIDED|95.0|-0.46|0.83||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.83|-0.46|0.569
82465638|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.871|TWO_SIDED|95.0|-0.6|0.7||P-value is for prior use, 11 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 11.||0.70|-0.60|0.871
82465639|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.675|TWO_SIDED|95.0|-0.5|0.78||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.78|-0.50|0.675
82465640|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.823|TWO_SIDED|95.0|-0.57|0.72||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.72|-0.57|0.823
82465641|NCT00385671|164626923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.85|TWO_SIDED|95.0|-0.72|0.59||P-value is for prior use, 12 weeks. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Model Change=Investigator+ Treatment+Week+Subgroup+Baseline+Treatment\*Week+ Baseline\*Week+Subgroup\*Week+Subgroup\*Treatment+Subgroup\*Treatment\*Week||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the gabapentin prior use group in change in 24 hour average pain severity at Week 12.||0.59|-0.72|0.850
82465642|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.448||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.448
82465643|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.118
82465644|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in diastolic blood pressure.||||0.021
82465645|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.537||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.537
82465646|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.911||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.911
82499727|NCT02756689|164690145|SUPERIORITY||Risk Ratio (RR)|0.3||||0.09|TWO_SIDED|95.0|0.1|1.3|||Chi-squared|||||1.3|0.1|0.09
82499728|NCT02756689|164690146|SUPERIORITY||Risk Ratio (RR)|0.7||||0.68|TWO_SIDED|95.0|0.1|3.8|||Chi-squared|||||3.8|0.1|0.68
82465647|NCT00385671|164626925|SUPERIORITY_OR_OTHER|||||||0.627||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in systolic blood pressure.||||0.627
82465648|NCT00385671|164626926|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.078
82465649|NCT00385671|164626926|SUPERIORITY_OR_OTHER|||||||0.13||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.130
82465650|NCT00385671|164626926|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in heart rate.||||0.850
82465651|NCT00385671|164626927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in body weight.||||<0.001
82465652|NCT00385671|164626927|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in body weight.||||<0.001
82465653|NCT00385671|164626927|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-values are not adjusted for multiple comparisons. The a priori significance level was set to 0.05 for treatment comparisons and 0.10 for tests of interaction.|Mixed Models Analysis|Change=Treatment+InvestigatorGroup+Week+Baseline+Treatment\*Week+Baseline\*Week; denominator degrees of freedom, Kenward-Rogers approximation||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in body weight.||||0.011
82465654|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||0.83||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||0.830
82499729|NCT02756689|164690147|SUPERIORITY||Risk Ratio (RR)|0.8||||0.73|TWO_SIDED|95.0|0.3|2.6|||Chi-squared|||||2.6|0.3|0.73
82499730|NCT02756689|164690148|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82499731|NCT02756689|164690149|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.1|15.4|||Chi-squared|||||15.4|0.1|>0.99
82499732|NCT02756689|164690150|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
82499733|NCT02756689|164690151|SUPERIORITY|||||||0.5|||||||Chi-squared|||||||0.5
82499734|NCT02756689|164690152|SUPERIORITY||Risk Ratio (RR)|0.3||||0.37|TWO_SIDED|95.0|0.03|2.3|||Chi-squared|||||2.3|0.03|0.37
82499735|NCT02756689|164690153|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
82499736|NCT02756689|164690154|SUPERIORITY||Risk Ratio (RR)|0.5||||0.62|TWO_SIDED|95.0|0.05|5.3|||Chi-squared|||||5.3|0.05|0.62
82499737|NCT02756689|164690155|SUPERIORITY||Risk Ratio (RR)|1.0|||>|0.99|TWO_SIDED|95.0|0.3|3.2|||Chi-squared|||||3.2|0.3|>0.99
82499738|NCT02756689|164690156|SUPERIORITY|||||||0.234|||||||Wilcoxon (Mann-Whitney)|||||||0.234
82499739|NCT02756689|164690157|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82499740|NCT02756689|164690158|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82499741|NCT02756689|164690159|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82499742|NCT02756689|164690160|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82499743|NCT02756689|164690161|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82499744|NCT02756689|164690162|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82499745|NCT02756689|164690163|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82499746|NCT02756689|164690164|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82499747|NCT02756689|164690165|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.75
82499748|NCT02756689|164690166|SUPERIORITY|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82499749|NCT02756689|164690167|SUPERIORITY|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82499750|NCT02756689|164690168|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82499751|NCT02756689|164690169|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82499752|NCT02756689|164690170|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82499753|NCT02756689|164690171|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
82499754|NCT02756689|164690172|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82465655|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||1.00
82465656|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for diastolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated diastolic blood pressure.||||1.00
82465657|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.060
82465658|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||0.502||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.502
82465659|NCT00385671|164626928|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||P-value is for systolic. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in the number of participants with elevated systolic blood pressure.||||0.376
82465660|NCT00385671|164626929|SUPERIORITY_OR_OTHER|||||||0.281||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.281
82465661|NCT00385671|164626929|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.060
82465662|NCT00385671|164626929|SUPERIORITY_OR_OTHER|||||||0.596||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated heart rate.||||0.596
82465663|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of patients with treatment-emergent high body weight.||||0.332
82465664|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with treatment-emergent high body weight.||||0.065
82465665|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.622||95.0||||P-value is for high. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with treatment-emergent high body weight.||||0.622
82465666|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of patients with treatment-emergent low body weight.||||0.103
82465667|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of patients with treatment-emergent low body weight.||||0.034
82465668|NCT00385671|164626930|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-value is for low. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of patients with treatment-emergent low body weight.||||0.808
82465669|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AST.||||0.055
82545742|NCT02980276|164790733|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.1||||0.72|TWO_SIDED|95.0|-0.5|0.7|||t-test, 2 sided|||||0.7|-0.5|0.72
82545743|NCT02980276|164790734|EQUIVALENCE|Two-sided test comparing observed mean difference to zero.|Mean Difference (Final Values)|0.0||||0.68|TWO_SIDED|95.0|-0.1|0.1|||t-test, 2 sided|||||0.1|-0.1|0.68
82465670|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.051||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in AST.||||0.051
82465671|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.993||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AST.||||0.993
82499755|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.62|||||TWO_SIDED|90.0|-1.2|2.44||||||Comparison at 0.5 hours postdose.||2.44|-1.20|
82499756|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.89|||||TWO_SIDED|90.0|1.05|4.73||||||Comparison at 2.0 hours postdose.||4.73|1.05|
82499757|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.11|||||TWO_SIDED|90.0|0.28|3.95||||||Comparison at 3.0 hours postdose.||3.95|0.28|
82499758|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.48|||||TWO_SIDED|90.0|-0.36|3.32||||||Comparison at 4.0 hours postdose.||3.32|-0.36|
82499759|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.48|||||TWO_SIDED|90.0|-0.36|3.32||||||Comparison at 5.0 hours postdose.||3.32|-0.36|
82499760|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.48|||||TWO_SIDED|90.0|1.64|5.32||||||Comparison at 6.0 hours postdose.||5.32|1.64|
82499761|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.12|||||TWO_SIDED|90.0|0.27|3.97||||||Comparison at 8.0 hours postdose.||3.97|0.27|
82499762|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.67|||||TWO_SIDED|90.0|-0.17|3.51||||||Comparison at 12.0 hours postdose.||3.51|-0.17|
82499763|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.01|||||TWO_SIDED|90.0|-1.57|3.59||||||Comparison at 0.5 hours postdose.||3.59|-1.57|
82499764|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.99|||||TWO_SIDED|90.0|2.4|7.57||||||Comparison at 2.0 hours postdose.||7.57|2.40|
82499765|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.28|||||TWO_SIDED|90.0|3.71|8.86||||||Comparison at 3.0 hours postdose.||8.86|3.71|
82499766|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.35|||||TWO_SIDED|90.0|3.78|8.93||||||Comparison at 4.0 hours postdose.||8.93|3.78|
82499767|NCT01606436|164690254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.71|||||TWO_SIDED|90.0|2.11|7.31||||||Comparison at 12.0 hours postdose.||7.31|2.11|
82499768|NCT00110149|164690255|OTHER|As the study was not able to be completed the simple number of patients per outcome is listed.|||||||||||||||||The trial was to measure the response rate and EFS of patients but the manufacturer of the investigational agent closed and sold the agent to a new company so the trial was not able to be completed.|||
82499769|NCT00064844|164690265|SUPERIORITY_OR_OTHER_LEGACY||chi square|7.25|||<|0.01||95.0|||||Chi-squared|df = 1, N = 96||||||<0.01
82499770|NCT01428453|164690270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|39.8||||0.133|TWO_SIDED|95.0|-12.4|92.0|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Abeta1-42 and Age.|Comparison of CSF Abeta42 between placebo and rilapladib 250 mg.|||92.0|-12.4|0.133
82499771|NCT01428453|164690270|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-250.3|STANDARD_ERROR_OF_MEAN|265.66||0.829|TWO_SIDED|95.0|-771.9|271.2|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Abeta1-40 and Age.|Comparison of CSF Abeta40 between placebo and rilapladib 250 mg.|||271.2|-771.9|0.829
82499772|NCT01428453|164690271|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.016|||||TWO_SIDED|95.0|-0.003|0.036|||||The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Ratio Abeta1-42/Abeta1-40 and Age.|||0.036|-0.003|
82499773|NCT01428453|164690272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-57.1|STANDARD_ERROR_OF_MEAN|44.4||0.902|TWO_SIDED|95.0|-144.5|30.3|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF tau and Age.|Comparison of CSF tau between placebo and rilapladib 250 mg.|||30.3|-144.5|0.902
82499774|NCT01428453|164690272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|2.46||0.892|TWO_SIDED|95.0|-7.9|1.8|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF P-tau and Age.|Comparison of P-tau between placebo and rilapladib 250 mg.|||1.8|-7.9|0.892
82499775|NCT01428453|164690273|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.167||||0.026|TWO_SIDED|95.0|0.021|0.313||The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Working Memory/Executive Function Composite Score, Treatment by Visit and Baseline Working Memory/Executive Function Composite Score by Visit.|Mixed-Model Repeated Measures analysis||A positive treatment difference indicates benefit, relative to placebo.|||0.313|0.021|0.026
82499776|NCT01428453|164690274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.256||0.828|TWO_SIDED|95.0|-0.74|0.26|||ANCOVA|The analysis method was ANCOVA adjusted for Treatment, Baseline CSF Albumin Quotient and Age.||||0.26|-0.74|0.828
82499777|NCT01428453|164690275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.9|1.2|||Mixed-Model Repeated Measures analysis||Comparison of Abeta42 between placebo and rilapladib 250 mg. The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||1.2|-3.9|
82499778|NCT01428453|164690275|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||||95.0|-10.2|12.2|||Mixed-Model Repeated Measures analysis||Comparison of Abeta40 between placebo and rilapladib 250 mg. The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||12.2|-10.2|
82499779|NCT01428453|164690276|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003|||||TWO_SIDED|95.0|-0.016|0.01|||Mixed-Model Repeated Measures analysis||The analysis method for Plasma parameters was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline, Treatment by Visit, Baseline by Visit and Age.|||0.010|-0.016|
82579207|NCT01072630|164868686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.135|TWO_SIDED|95.0|-4.51|0.61||All statistical tests were 2-tailed at the 0.05 level of significance.|mixed-model repeated measures (MMRM)|Treatment, visit, treatment-by-visit interaction, concurrent mood-stabilizing medication, and region of the world used as fixed factors.||||0.61|-4.51|0.1350
82579208|NCT04091061|164868709|OTHER|90% Confidence Intervals (CIs) for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.99|||||TWO_SIDED|90.0|83.14|296.44|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference.|||296.44|83.14|
82579209|NCT04091061|164868709|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|125.58|||||TWO_SIDED|90.0|66.51|237.13|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||237.13|66.51|
82579210|NCT04091061|164868709|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|123.75|||||TWO_SIDED|90.0|65.54|233.68|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||233.68|65.54|
82579211|NCT04091061|164868710|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.25|||||TWO_SIDED|90.0|81.07|301.16|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||301.16|81.07|
82579212|NCT04091061|164868710|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|165.66|||||TWO_SIDED|90.0|85.95|319.29|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||319.29|85.95|
82579213|NCT04091061|164868710|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|152.18|||||TWO_SIDED|90.0|78.96|293.32|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||293.32|78.96|
82579214|NCT04091061|164868711|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|156.0|||||TWO_SIDED|90.0|80.95|300.6|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 1: Mild Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||300.60|80.95|
82465672|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.928||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in ALT.||||0.928
82579215|NCT04091061|164868711|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|165.38|||||TWO_SIDED|90.0|85.82|318.67|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 2: Moderate Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||318.67|85.82|
82579216|NCT04091061|164868711|OTHER|90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|Ratio (%)|152.2|||||TWO_SIDED|90.0|78.99|293.29|||||90% CIs for the ratios of adjusted geometric means (Test/Reference): Analysis 3: Severe Hepatic Impairment = Test, Without Hepatic Impairment = Reference|||293.29|78.99|
82579217|NCT04488770|164868768|OTHER||Ratio of Geometric Mean|0.75|||||TWO_SIDED|90.0|0.61|0.93|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-24). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Unstructured covariance structure is used.|||0.93|0.61|
82579218|NCT04488770|164868769|OTHER||Ratio of Geometric Mean|0.8|||||TWO_SIDED|90.0|0.65|0.98|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter AUC(0-t). Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.98|0.65|
82579219|NCT04488770|164868770|OTHER||Ratio of Geometric Mean|0.8|||||TWO_SIDED|90.0|0.65|0.98|||||Mixed Effect Model was used to assess Food Effect for log transformed parameter AUC(0-infinity). Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.98|0.65|
82579220|NCT04488770|164868771|OTHER||Ratio of Geometric Mean|0.59|||||TWO_SIDED|90.0|0.46|0.75|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter Cmax. Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||0.75|0.46|
82579221|NCT04488770|164868772|OTHER||Ratio of Geometric Mean|0.91|||||TWO_SIDED|90.0|0.74|1.11|||||Mixed Effect Model was used to assess Food Effect for the log transformed parameter C24h. Treatment in the fed/fasted state was fitted as Fixed Effect. Participant was fitted as Random Effect. Unstructured covariance structure was used.|||1.11|0.74|
82579222|NCT04488770|164868773|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|90.0|0.0|2.0|||||Wilcoxon matched pair test was used to assess Food Effect for the parameter Tmax.|||2.000|0.000|
82579223|NCT04488770|164868774|OTHER||Median Difference (Net)|0.0|||||TWO_SIDED|90.0|0.0|0.25|||||Wilcoxon matched pair test was used to assess Food Effect for the parameter Tlag.|||0.250|0.000|
82585976|NCT02640157|164883882|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Percentage of participants|94.9|||||TWO_SIDED|97.5|91.0|98.8||||||||98.8|91.0|
82465673|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in ALT.||||0.609
82499780|NCT01428453|164690278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.067|||||TWO_SIDED|95.0|-0.191|0.057|||Mixed-Model Repeated Measures analysis||"The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit. A positive treatment difference indicates benefit, relative to placebo.~placebo."|||0.057|-0.191|
82499781|NCT01428453|164690278|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138||||0.982|TWO_SIDED|95.0|0.01|0.267||The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Overall Composite Score, Treatment by Visit and Baseline Overall Composite Score by Visit.|Mixed-Model Repeated Measures analysis|The probability (effect size) for change from Baseline in CogState battery overall composite score \>0 is presented.|A positive treatment difference indicates benefit, relative to placebo. Comparison of overall composite score between placebo and rilapladib 250 mg at Week 24.|||0.267|0.010|0.982
82499782|NCT01428453|164690279|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.063|||||TWO_SIDED|95.0|-0.257|0.13|||Mixed-Model Repeated Measures analysis|The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit.|Comparison of attention composite score between placebo and rilapladib 250 mg at Week 12. A positive treatment difference indicates benefit, relative to placebo.|||0.130|-0.257|
82499783|NCT01428453|164690279|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.13|0.269|||Mixed-Model Repeated Measures analysis|The analysis method was Mixed-Model Repeated Measures adjusted for Treatment, Visit, Baseline Score, Treatment by Visit and Baseline Score by Visit.|Comparison of attention composite score between placebo and rilapladib 250 mg at Week 24. A positive treatment difference indicates benefit, relative to placebo.|||0.269|-0.130|
82499784|NCT02421315|164690284|OTHER|a t-test comparing groups in a specific region-of-interest (ROI); the insula|Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.057||0.0585|TWO_SIDED|95.0|-0.004|0.224|||t-test, 2 sided|||We hypothesized that compared to HC, children and adolescents with OCD would have increased activation in subcortical structures (insula, and putamen) comprising a right hemisphere dorsal frontostriatal circuit.||0.224|-0.004|0.0585
82499785|NCT02421315|164690285|SUPERIORITY|We selected 'arbitrary units' as the unit of measure here because we are looking at connectivity strengths|Mean Difference (Final Values)|0.49512921|STANDARD_ERROR_OF_MEAN|0.06553315||0.037|TWO_SIDED|||||"NBS controls for family-wise error rate using permutation testing to identify components or clusters of contiguous region-to-region connections. A statistical threshold of p\<.05 with 20,000 permutations was used."|t-test, 1 sided||Direction of the comparison: HC\>OCD|Whole-Brain Connectome-Level Analyses were performed on the FC-strength indices between 352 regions. Edge-wise functional connectivity analyses was then be conducted across the resulting matrix comprised of 352 nodes and 123,904 edges, using the Network-Based Statistics (NBS) Toolbox. We hypothesized that youth with OCD would show altered FC between task-control circuit regions.||||.037
82499786|NCT02421315|164690285|OTHER||Slope|-0.521|||<|0.05|TWO_SIDED||||||Regression, Linear|||Separate cross-lagged panel models were computed in the OCD group for the three functional connections that differed significantly across groups at baseline (see Statistical Analysis 1). These models were constructed using IBM SPSS Amos (v.23) to test for directional relationships between OCD symptoms and FC pre- to post-treatment in the OCD patients. CY-BOCS total scores at each time point were used as the OCD symptoms measure.||||<.05
82499787|NCT02421315|164690286|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.0464|TWO_SIDED|95.0|0.0018|0.218|||t-test, 2 sided|||||0.218|0.0018|0.0464
82499788|NCT02421315|164690287|SUPERIORITY|only participants were assigned to groups (OCD, HC) and we measured streamline count in these participants to index structural connectivity|Slope|-102.67|||<|0.025|TWO_SIDED|||||"NBS controls for family-wise error rate using permutation testing to identify components or clusters of contiguous region-to-region connections. A statistical threshold of p=.025 with 10,000 permutations was used."|Regression, Linear||Direction of comparison: HC\>OCD|Whole-Brain Connectome-Level Analyses were performed on the structural connectivity indices (streamline count) between 164 regions. Edge-wise structural connectivity analyses was then be conducted across the resulting matrix comprised of 164 nodes and 26,896 edges, using the Network-Based Statistics (NBS) Toolbox.||||<0.025
82499789|NCT04853225|164690354|OTHER||Adjusted rate of change|-59.46|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499790|NCT04853225|164690354|OTHER||Adjusted rate of change|-62.73|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499791|NCT04853225|164690354|OTHER||Adjusted rate of change|-48.54|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499792|NCT04853225|164690354|OTHER||Adjusted rate of change|-50.32|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499793|NCT04853225|164690354|OTHER||Adjusted rate of change|-22.67|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499794|NCT04853225|164690354|OTHER||Adjusted rate of change|-33.32|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499795|NCT04853225|164690354|OTHER||Adjusted rate of change|-20.4|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499796|NCT04853225|164690354|OTHER||Adjusted rate of change|-31.08|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499797|NCT04853225|164690354|OTHER||Adjusted rate of change|-64.74|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82545744|NCT02980276|164790735|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-7.2||||0.02|TWO_SIDED|95.0|-12.6|-1.8|||Regression, Logistic|P value derived from a statistical model that adjusts for the infant's sex, gestational age at birth, and maternal height and weight at randomization.|P value derived from a statistical model that adjusts for the infant's sex, gestational age at birth, and maternal height and weight at randomization.|||-1.8|-12.6|0.02
82545745|NCT02980276|164790736|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|-8.4||||0.003|TWO_SIDED|95.0|-13.7|-3.2|||Risk difference|P value derived from a statistical model that adjusts for the infant's sex and maternal height and weight at randomization|Units are %|||-3.2|-13.7|0.003
82545746|NCT02980276|164790737|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.7||||0.012|TWO_SIDED|95.0|-1.0|6.3|||Risk difference|Units are %. P value derived from model adjusting for the gestational age at birth, sex and maternal height and weight at randomization.|Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|||6.3|-1|.012
82545747|NCT02980276|164790738|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|3.0||||0.13|TWO_SIDED|95.0|-0.4|6.5||Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|Regression, Logistic||Units are %. P value was derived from a statistical model that adjusts for the infant's gestational age at birth, sex and maternal height and weight at randomization.|||6.5|-0.4|0.13
82545748|NCT02980276|164790739|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|3.0||||0.38|TWO_SIDED|95.0|-2.9|9.0|||Risk difference||Units are %.|||9|-2.9|0.38
82545749|NCT02980276|164790740|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.8||||0.33|TWO_SIDED|95.0|-2.0|7.3|||Risk difference||Units are %|||7.3|-2.0|0.33
82545750|NCT02980276|164790741|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|2.3||||0.42|TWO_SIDED|95.0|-2.4|6.9|||Risk difference||Units are %|||6.9|-2.4|0.42
82465674|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in ALT.||||0.675
82465675|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.985||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in GGT.||||0.985
82465676|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.847||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in GGT.||||0.847
82545751|NCT02980276|164790742|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.4|||>|0.99|TWO_SIDED|95.0|-0.4|1.1|||Risk difference||Units are %.|||1.1|-0.4|>0.99
82545752|NCT02980276|164790743|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|1.1||||0.62|TWO_SIDED|95.0|-1.9|4.2|||Risk difference||Units are %|||4.2|-1.9|0.62
82545753|NCT02980276|164790744|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.0|||>|0.99|TWO_SIDED|95.0|-1.0|1.0|||Risk difference||Units are %|||1|-1|>0.99
82545754|NCT02980276|164790745|EQUIVALENCE|Two-sided test comparing observed risk difference to zero.|Risk Difference (RD)|0.7||||0.9|TWO_SIDED|95.0|-5.1|6.6|||Risk difference||Units are %|||6.6|-5.1|0.9
82545755|NCT01998984|164790746|SUPERIORITY||Relative risk|2.97||||0.18|TWO_SIDED|95.0|0.6|14.74||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Cochran-Mantel-Haenszel logit estimators were used for comparisons with vehicle due to absence of cleared participant in the vehicle group."||14.74|0.60|0.18
82545756|NCT01998984|164790746|SUPERIORITY||Relative risk|3.51||||0.051|TWO_SIDED|95.0|1.0|12.41||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Cochran-Mantel-Haenszel logit estimators were used for comparisons with vehicle due to absence of cleared subject in the vehicle group.~Type I error not controlled."||12.41|1.00|0.051
82561920|NCT02699099|164833010|NON_INFERIORITY|Non-inferiority (1 month post-Dose 3 of SB257049) was defined as the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio (RTS,S group/Coad group) for anti-CS, being below a limit of 2.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07|||ANOVA|||Adjusted GMC ratios for anti-CS antibody: To demonstrate the non-inferiority of the antibody response to the CS antigen when SB257049 is co-administered with YF vaccine and a combined measles and rubella vaccine versus SB257049 administered alone.||1.07|0.81|
82465677|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in GGT.||||0.832
82465678|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.169||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in AlkPhos.||||0.169
82465679|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in AlkPhos.||||0.910
82465680|NCT00385671|164626931|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 in AlkPhos.||||0.134
82465681|NCT00385671|164626932|SUPERIORITY_OR_OTHER|||||||0.285||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 total bilirubin.||||0.285
82465682|NCT00385671|164626932|SUPERIORITY_OR_OTHER|||||||0.505||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 in total bilirubin.||||0.505
82465683|NCT00385671|164626932|SUPERIORITY_OR_OTHER|||||||0.679||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 in total bilirubin.||||0.679
82465684|NCT00385671|164626933|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.047
82465685|NCT00385671|164626933|SUPERIORITY_OR_OTHER|||||||0.232||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.232
82465686|NCT00385671|164626933|SUPERIORITY_OR_OTHER|||||||0.424||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in fasting blood glucose.||||0.424
82465687|NCT00385671|164626934|SUPERIORITY_OR_OTHER|||||||0.298||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.298
82465688|NCT00385671|164626934|SUPERIORITY_OR_OTHER|||||||0.987||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.987
82465689|NCT00385671|164626934|SUPERIORITY_OR_OTHER|||||||0.297||95.0||||P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|t-test, 2 sided|Analysis of Variance model \& t-test: Rank-transformed Change=InvestigatorGroup+Treatment. Last-observation-carried-forward imputation was implemented.||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in mean change from baseline to 12 Weeks in hemoglobin A1C.||||0.297
82376851|NCT04841577|164460424|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the group GMT ratio \[Control group divided by Co Ad group\] for each of the FLU vaccine strains is ≤1.5.|Adjusted geometric mean Titer ratio|1.1|||||TWO_SIDED|95.0|0.95|1.26||||||For the Flu B/Washington/02/2019 (Victoria) strain, an ANOVA model was used to analyze post-vaccination log-transformed titers. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 transformed titer as covariate.||1.26|0.95|
82465690|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AST values.||||1.00
82465691|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated AST values.||||0.749
82465692|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||P-value is for AST. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AST values.||||0.750
82465693|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.050
82465694|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.320
82465695|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||P-value is for ALT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated ALT values.||||0.440
82465696|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value is for TBili. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated TBili values.||||0.498
82465697|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.245||95.0||||P-value is for TBili. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated TBili values.||||0.245
82465698|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated GGT values.||||0.160
82465699|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated GGT values.||||0.280
82465700|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for GGT. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated GGT values.||||1.00
82465701|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.023
82465702|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.264
82465703|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||P-value is for FPG. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated FPG values.||||0.325
82465704|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||1.00
82465705|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||0.121
82465706|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||P-value is for HbA1C. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated HbA1C values.||||0.095
82465707|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||1.00
82465708|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.72||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between pregabalin and duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||0.720
82376852|NCT04841577|164460425|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|2.6|||||TWO_SIDED|95.0|-4.13|9.3|||Miettinen and Nurminen|||For the Flu A/Hong Kong/2671/2019 (H3N2) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||9.30|-4.13|
82499798|NCT04853225|164690354|OTHER||Adjusted rate of change|-60.26|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499799|NCT04853225|164690354|OTHER||Adjusted rate of change|-27.85|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499800|NCT04853225|164690354|OTHER||Adjusted rate of change|-28.65|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499801|NCT04853225|164690355|OTHER||Adjusted rate of change|-87.47|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499802|NCT04853225|164690355|OTHER||Adjusted rate of change|-83.25|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499803|NCT04853225|164690355|OTHER||Adjusted rate of change|-77.54|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499804|NCT04853225|164690355|OTHER||Adjusted rate of change|-77.41|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499805|NCT04853225|164690355|OTHER||Adjusted rate of change|-60.1|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499806|NCT04853225|164690355|OTHER||Adjusted rate of change|-73.65|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499807|NCT04853225|164690355|OTHER||Adjusted rate of change|-45.44|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499808|NCT04853225|164690355|OTHER||Adjusted rate of change|-79.49|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499809|NCT04853225|164690355|OTHER||Adjusted rate of change|-74.39|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499810|NCT04853225|164690355|OTHER||Adjusted rate of change|-63.04|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499811|NCT04853225|164690355|OTHER||Adjusted rate of change|-25.59|||||||||||||Pre-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499812|NCT04853225|164690355|OTHER||Adjusted rate of change|-38.69|||||||||||||Post-bronchodilator. Adjusted rate of change was analyzed using Random Coefficient Model. The model was fitted with an unstructured variance-covariance matrix.|||||
82499813|NCT00850564|164690356|SUPERIORITY_OR_OTHER||||||<|0.005||95.0|||||Paired t-test|||Paired t-test comparing baseline and 2 week mean overnight growth hormone||||<0.005
82499814|NCT00850564|164690357|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||Paired t-test|||Paired t-test comparing insulin stimulated glucose uptake (M) between baseline and 2 week visits.||||0.61
82499815|NCT00848081|164690358|SUPERIORITY_OR_OTHER|||||||0.403||||||1-sided test|Fisher Exact|||The p-value is from a one-sided Fisher's exact test with a significance level of 0.05. A total of 142 subjects per treatment arm would provide 91% power to detect the difference between a Group 1 proportion of 0.03 and a Group 2 proportion of 0.13.||||0.403
82499816|NCT00848081|164690360|SUPERIORITY_OR_OTHER|||||||0.13||||||p-value is on change from baseline|ANCOVA|||The LS mean, standard error, 2-sided 95% confidence interval and p-value for the difference between placebo and tadalafil 5 mg are from an analysis of covariance (ANCOVA) model.||||0.130
82499817|NCT00848081|164690361|SUPERIORITY_OR_OTHER|||||||0.258||||||p-value is on change from baseline|ANOVA|The p-value is from Type III sums of squares ANOVA on rank-transformed data.||||||0.258
82499818|NCT00848081|164690362|SUPERIORITY_OR_OTHER|||||||0.828|||||||ANOVA|P-value is from Type III sums of squares ANOVA on rank-transformed data; p-value is on change from baseline.||||||0.828
82545757|NCT01998984|164790746|SUPERIORITY||Relative risk|0.47||||0.25|TWO_SIDED|95.0|0.13|1.68||P-value was adjusted for analysis site using Rubin's pooling methodology after log transformation of RR (relative risk) of each imputation. Complete clearance relative to vehicle group and 2-day group.|Mantel Haenszel||Relative risk and confidence interval were adjusted for analysis site using Rubin's pooling methodology after log transformation of RR of each imputation. Complete clearance relative to vehicle group and 2-day group.|"Treatment comparison based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.~Type I error not controlled. Mantel-Haenszel estimators were used."||1.68|0.13|0.25
82579224|NCT01669577|164868798|SUPERIORITY_OR_OTHER||GEE(Generalyzed Estimation Equation)|0.989214|||<|0.001|TWO_SIDED|95.0|0.982855|0.995613||arterial hemoglobin Oxygen saturation|ANOVA|Non parametric(NPar) ANOVA|GEE model (dichotomous response variable)with logit link function. The NPar ANOVA (p\<0.1 for death) was the test used for inclusion in the model variables for the final models - backward method, with alpha equal to 0.05.|"significance level of 0.05, power of 0.80, moderate correlation of 0.5 between time periods and assumption that the variability is equal within each factor (non-sphericity). Due to the effect size between 0.1 and 0.5, there was no need for samples larger than 140 patients. A total of 200 patients was defined conservatively, with a margin for possible deaths. The software G\*Power 3.1.7 was used for sample size calculation.~Fischer's test, Mann-Whitney, t-test; Non parametric ANOVA and GEE"||0.995613|0.982855|< 0.001
82579225|NCT01669577|164868798|SUPERIORITY_OR_OTHER||GEE|0.99728|||<|0.001|TWO_SIDED|95.0|0.995791|0.998772|||ANOVA|||diastolic arterial blood pressure||0.998772|0.995791|< 0.001
82579226|NCT01669577|164868798|SUPERIORITY_OR_OTHER||GEE|1.046961|||<|0.004|TWO_SIDED|95.0|1.012521|1.082572|||ANOVA|||lactate||1.082572|1.012521|< 0.004
82579227|NCT01669577|164868798|SUPERIORITY_OR_OTHER||GEE|0.973987|||<|0.001|TWO_SIDED|95.0|0.965308|0.982744|||ANOVA|||Glasgow coma score||0.982744|0.965308|<0.001
82579228|NCT01669577|164868798|SUPERIORITY_OR_OTHER||GEE|1.000013|||<|0.023|TWO_SIDED|95.0|1.0|1.000025|||ANOVA|||amount of Infused crystalloids||1.000025|1.000000|<0.023
82579229|NCT01989169|164868821|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios were within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.215|||||TWO_SIDED|90.0|1.116|1.323|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in AUCinf, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.323|1.116|
82579230|NCT01989169|164868822|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.216|||||TWO_SIDED|90.0|1.115|1.327|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in AUClast, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.327|1.115|
82545758|NCT01998984|164790747|SUPERIORITY||Ratio of adjusted mean|0.4|||<|0.001|TWO_SIDED|95.0|0.32|0.51||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||0.51|0.32|<0.001
82545759|NCT01998984|164790747|SUPERIORITY||Ratio of adjusted mean|0.36|||<|0.001|TWO_SIDED|95.0|0.29|0.45||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||0.45|0.29|<0.001
82545760|NCT01998984|164790747|SUPERIORITY||Ratio of adjusted mean|0.89||||0.36|TWO_SIDED|95.0|0.7|1.14||P-value was from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|Negative binomial regression||Estimation parameter and confidence interval were from negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset with 1000 Imputations.|||1.14|0.70|0.36
82579231|NCT01989169|164868823|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% CI of the geometric mean ratios fell within the range (0.80, 1.25), then equivalence was assumed and the hypothesis that a drug interaction occurred was rejected. If the 90% CIs were not wholly contained within the range (0.80, 1.25), then a drug interaction was not excluded.|Ratio of Geometric LS Means|1.383|||||TWO_SIDED|90.0|1.282|1.491|||Mixed-effects Model||The ratio of geometric LS means and 90% CIs for the geometric mean ratio is for Treatment B to Treatment A.|The means of the log-transformed pharmacokinetic parameters were compared between treatments using a mixed-effects model with period and treatment as fixed effects, and subject nested within sequence as a random effect. In order to estimate the magnitude of the treatment regimen differences in Cmax, the geometric mean ratio (i.e., the least squares mean difference in the log-transformed parameters back transformed to the original scale) and their 90% CIs were calculated.||1.491|1.282|
82579232|NCT00515723|164868828|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA total fat used a likelihood-based mixed-effects model using time (0, 6, and 12 weeks) as the independent variable, with Toeplitz covariance structure specified, based on Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there was no difference in the outcome over time (main effect of time).||||0.002
82545761|NCT01998984|164790748|SUPERIORITY||Relative risk|32.26|||<|0.001|TWO_SIDED|95.0|4.39|236.8||P value adjusted for analysis site.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||236.8|4.39|<0.001
82545762|NCT01998984|164790748|SUPERIORITY||Relative risk|25.2||||0.002|TWO_SIDED|95.0|3.39|187.4||Adjusted for analysis site. Relative risk of partial clearance relative to vehicle group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||187.4|3.39|0.002
82545763|NCT01998984|164790748|SUPERIORITY||Relative risk|1.2||||0.28|TWO_SIDED|95.0|0.86|1.65||Adjusted for analysis site. Relative risk of partial clearance relative to 2-day group.|Cochran-Mantel-Haenszel||Relative risk and confidence interval were adjusted for analysis site and were Mantel-Haenszel estimators. Relative risk of partial clearance relative to vehicle group.|The treatment comparison was based on 1000 imputations of AK count at week 8 using a negative binomial regression model with factors treatment and analysis site and with log of baseline AK count as offset.||1.65|0.86|0.28
82545764|NCT01631214|164790825|SUPERIORITY|The primary endpoints were tested at the 5% level (2-sided), accounting for multiplicity using the Hochberg procedure. If the larger of the 2 p-values was significant at the 0.05 level (2-sided), the statistical testing continued to the secondary endpoint in the testing sequence.|Odds Ratio (OR)|0.48|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|0.36|0.64|||Regression, Logistic|Based on a logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.64|0.36|<0.001
82545765|NCT01631214|164790825|SUPERIORITY||Risk Ratio (RR)|0.5|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.38|0.66|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.66|0.38|
82545766|NCT01631214|164790825|SUPERIORITY||Absolute risk reduction|4.03|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|2.5|5.57||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||5.57|2.50|
82545767|NCT01631214|164790826|SUPERIORITY|The primary endpoints were tested at the 5% level (2-sided), accounting for multiplicity using the Hochberg procedure. If the larger of the 2 p-values was significant at the 0.05 level (2-sided), the statistical testing continued to the secondary endpoint in the testing sequence.|Hazard Ratio (HR)|0.73|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|0.61|0.88|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)|||0.88|0.61|<0.001
82545768|NCT01631214|164790827|SUPERIORITY|If the 2 primary endpoints and the specified BMD secondary endpoints were all significant, the nonvertebral fracture at the primary analysis was evaluated based on a 1-sided test (overall α=0.025) determined by the Lan-DeMets alpha spending function that approximates a Pocock boundary, 0.0233 (1-sided).|Hazard Ratio (HR)|0.81|STANDARD_ERROR_OF_MEAN|0.1||0.04|TWO_SIDED|95.0|0.66|0.99||The adjusted 2-sided p-value is reported.|Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.99|0.66|0.040
82545769|NCT01631214|164790828|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.65|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.56|0.76|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.76|0.56|<0.001
82545770|NCT01631214|164790829|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.49|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|0.37|0.64|||Regression, Logistic|Based on logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.64|0.37|<0.001
82545771|NCT01631214|164790829|SUPERIORITY||Risk Ratio (RR)|0.52|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|0.4|0.66|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.66|0.40|
82545772|NCT01631214|164790829|SUPERIORITY||Absolute risk reduction|4.44|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|2.8|6.08||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||6.08|2.80|
82465709|NCT00385671|164626935|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value is for AlkPhos. P-values are not adjusted for multiple comparisons. The a priori level of significance was specified to be 0.05 for between-treatment-group comparisons.|Fisher Exact|||Tested was the null-hypothesis that there would be no difference between duloxetine and gabapentin+duloxetine in the number of participants with treatment-emergent elevated AlkPhos values.||||0.722
82465710|NCT02535481|164627013|SUPERIORITY|||||||0.366||||||At 6 weeks|Fisher Exact|||||||0.366
82465711|NCT02535481|164627013|SUPERIORITY|||||||0.24||||||At 3 months|Fisher Exact|||||||0.24
82465712|NCT02535481|164627014|SUPERIORITY||||||<|0.0001|||||||Log Rank|Kaplan-Meier analysis of cumulative wound healing followed by a log rank test||||||<0.0001
82465713|NCT02535481|164627015|SUPERIORITY|||||||0.12|||||||Log Rank|||||||0.12
82465714|NCT02535481|164627016|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82465715|NCT02535481|164627017|SUPERIORITY|||||||0.001||||||At 6 weeks|Wilcoxon (Mann-Whitney)|||||||0.001
82465716|NCT02535481|164627017|SUPERIORITY|||||||0.001||||||At 3 months|Wilcoxon (Mann-Whitney)|||||||0.001
82465717|NCT02766023|164627032|SUPERIORITY||Risk Difference (RD)|0.04||||0.467|TWO_SIDED|95.0|-0.1|0.18|||Fisher Exact|||||0.18|-0.10|0.467
82465718|NCT02766023|164627033|SUPERIORITY||Odds Ratio (OR)|0.54||||0.031|TWO_SIDED|95.0|0.3|0.95|||Chi-squared|||||0.95|0.30|0.031
82465719|NCT02766023|164627034|SUPERIORITY||Risk Difference (RD)|0.03||||0.643|TWO_SIDED|95.0|-0.08|0.15|||Chi-squared|||Analysis is for self-reported compliance||0.15|-0.08|0.643
82465720|NCT02766023|164627034|SUPERIORITY||Risk Difference (RD)|0.05||||0.446|TWO_SIDED|95.0|-0.07|0.17|||Chi-squared|||Analysis is for compliance assessed by staining.||0.17|-0.07|0.446
82465721|NCT02766023|164627043|SUPERIORITY||Odds Ratio (OR)|79.64|||<|0.001|TWO_SIDED|95.0|29.02|218.57|||Chi-squared|||||218.57|29.02|<0.001
82465722|NCT02766023|164627051|SUPERIORITY||Odds Ratio (OR)|72.78|||<|0.001|TWO_SIDED|95.0|28.07|188.66|||Chi-squared|||||188.66|28.07|<0.001
82465723|NCT02766023|164627052|SUPERIORITY||Odds Ratio (OR)|0.54||||0.03|TWO_SIDED|95.0|0.31|0.94|||Chi-squared|||||0.94|0.31|0.030
82499819|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.36357||||0.0131|TWO_SIDED|95.0|-4.19228|-0.53485|||ANCOVA|||An analysis of covariance (ANCOVA) model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95 percentage (%) confidence interval (CI) were calculated.||-0.53485|-4.19228|0.0131
82499820|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4919||||0.0142|TWO_SIDED|95.0|-4.44619|-0.5376|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53760|-4.44619|0.0142
82499821|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.46325||||0.1368|TWO_SIDED|95.0|-3.41898|0.49248|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.49248|-3.41898|0.1368
82499822|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.90032||||0.3321|TWO_SIDED|95.0|-2.76711|0.96648|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.96648|-2.76711|0.3321
82499823|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.02865||||0.2839|TWO_SIDED|95.0|-2.95573|0.89844|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.89844|-2.95573|0.2839
82499824|NCT00720434|164690391|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12833||||0.8891|TWO_SIDED|95.0|-1.73676|1.99342|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||1.99342|-1.73676|0.8891
82499825|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.6|||||TWO_SIDED|95.0|0.1565|0.8785||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.8785|0.1565|
82499826|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.75|||||TWO_SIDED|95.0|0.233|0.969||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.9690|0.2330|
82499827|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.625|||||TWO_SIDED|95.0|0.0871|0.9191||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.9191|0.0871|
82499828|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.025|||||TWO_SIDED|95.0|-0.4769|0.4336||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.4336|-0.4769|
82499829|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125||||||95.0|-0.4024|0.6049||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
82499830|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.15|||||TWO_SIDED|95.0|-0.5729|0.3149||||||Week 4: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3149|-0.5729|
82499831|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.3|||||TWO_SIDED|95.0|-0.1836|0.6931||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6931|-0.1836|
82499832|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.375|||||TWO_SIDED|95.0|-0.1732|0.7797||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.7797|-0.1732|
82545773|NCT01631214|164790830|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.73|STANDARD_ERROR_OF_MEAN|0.11||0.004|TWO_SIDED|95.0|0.59|0.9|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.90|0.59|0.004
82545774|NCT01631214|164790831|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.62|STANDARD_ERROR_OF_MEAN|0.2||0.015|TWO_SIDED|95.0|0.42|0.92|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.92|0.42|0.015
82545775|NCT01631214|164790832|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.51|STANDARD_ERROR_OF_MEAN|0.25||0.008|TWO_SIDED|95.0|0.31|0.85|||Regression, Logistic|Based on logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.85|0.31|0.008
82545776|NCT01631214|164790832|SUPERIORITY||Risk Ratio (RR)|0.52|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|0.32|0.85|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.85|0.32|
82545777|NCT01631214|164790832|SUPERIORITY||Absolute risk reduction|1.21|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|0.33|2.1||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||2.10|0.33|
82545778|NCT01631214|164790833|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.74|STANDARD_ERROR_OF_MEAN|0.11||0.005|TWO_SIDED|95.0|0.59|0.91|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.91|0.59|0.005
82545779|NCT01631214|164790834|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.81|STANDARD_ERROR_OF_MEAN|0.12||0.074|TWO_SIDED|95.0|0.64|1.02|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.02|0.64|0.074
82650351|NCT00972153|165015837|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Descriptive statistics (means, medians, frequencies) were used to evaluate the distributions of variables. One-way analysis of variance and independent t-tests or Mann-Whitney U tests were used to compare patient and environmental characteristics between groups. Generalized estimating equations were used to evaluate the effects of group and other factors on airborne CFUs/cubic meter at the surgical site in each 10 minute interval.||||<0.001
82545780|NCT01631214|164790835|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.24||0.17|TWO_SIDED|95.0|0.46|1.15|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.15|0.46|0.17
82545781|NCT01631214|164790836|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.41|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|0.24|0.71|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.71|0.24|<0.001
82545782|NCT01631214|164790837|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.15||0.027|TWO_SIDED|95.0|0.54|0.96|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.96|0.54|0.027
82579233|NCT00515723|164868828|SUPERIORITY|||||||0.002||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA total fat used a likelihood-based mixed-effects model using time (0, 6, and 12 weeks) and treatment group as independent variables, with Toeplitz covariance structure specified, based on Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there were no differences between groups in the change over time (time by treatment condition).||||0.002
82465724|NCT00286468|164627054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for glycosylated hemoglobin as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 94% power to detect a treatment difference as small as 0.4% in the supportive per-protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level, and \>=80% of subjects meeting per protocol criteria.||-0.19|-0.59|<0.001
82465725|NCT00286468|164627054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.73|-0.33||A step-down strategy was used for the primary analysis. First, the 25mg dose was compared to placebo at the 2-sided 0.05 significance level. The 12.5 mg dose was compared to placebo only if the comparison of the 25mg dose to placebo was significant.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|Null Hypothesis: No difference between treatment and placebo arms in change from baseline in glycosylated hemoglobin at week 26. Sample size calculated based on normally distributed means. For comparison of either dose vs. placebo (2-sample t-test), study sample size \>=500 subjects had 94% power to detect a treatment difference as small as 0.4% in the supportive per protocol analysis set assuming SD=0.8%, 2-sided \>0.05 significance level and \>=80% of subjects meeting per-protocol criteria.||-0.33|-0.73|<0.001
82465726|NCT00286468|164627055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|||<|0.001|TWO_SIDED|95.0|-0.33|-0.13||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.13|-0.33|<0.001
82545783|NCT01631214|164790838|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Odds Ratio (OR)|0.63|STANDARD_ERROR_OF_MEAN|0.18||0.008|TWO_SIDED|95.0|0.44|0.89|||Regression, Logistic|Based on a logistic regression model adjusted for age strata, baseline total hip BMD T-score and presence of severe vertebral fracture at baseline.|Values \< 1 for odds ratio favor romosozumab. The standard error (SE) represents the standard error of log(odds ratio).|||0.89|0.44|0.008
82545784|NCT01631214|164790838|SUPERIORITY||Risk Ratio (RR)|0.64|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.46|0.89|||||SE represents the standard error of log (risk ratio).|"The risk ratio (ratio of percentages, Romosozumab:Alendronate) was based on the Mantel Haenszel method, adjusted for age strata (\<75 vs. ≥75 years), the presence or absence of severe vertebral fracture at baseline, and baseline bone mineral density T-score at the total hip (≤ -2.5, \> -2.5).~Values \< 1 for risk ratio favor romosozumab."||0.89|0.46|
82545785|NCT01631214|164790838|SUPERIORITY||Absolute risk reduction|1.84|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|0.51|3.17||||||"The absolute risk reduction (difference in percentages, Alendronate - Romosozumab) was based on the Mantel-Haenszel method adjusted for age strata, baseline total hip BMD T-score (≤ -2.5, \> -2.5), and presence of severe vertebral fracture at baseline.~Positive values for absolute risk reduction favor romosozumab."||3.17|0.51|
82545786|NCT01631214|164790839|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.71|STANDARD_ERROR_OF_MEAN|0.11||0.002|TWO_SIDED|95.0|0.57|0.88|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||0.88|0.57|0.002
82545787|NCT01631214|164790840|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.74|STANDARD_ERROR_OF_MEAN|0.16||0.057|TWO_SIDED|95.0|0.54|1.01|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.01|0.54|0.057
82545788|NCT01631214|164790841|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.64|STANDARD_ERROR_OF_MEAN|0.34||0.19|TWO_SIDED|95.0|0.33|1.26|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.26|0.33|0.19
82545789|NCT01631214|164790842|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.72|STANDARD_ERROR_OF_MEAN|0.17||0.053|TWO_SIDED|95.0|0.52|1.01|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.01|0.52|0.053
82579234|NCT00515723|164868829|SUPERIORITY|||||||0.05||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in insulin sensitivity used a likelihood-based mixed-effects model using time (0 and 12 weeks) as the independent variable, with an unstructured covariance structure specified, based on the Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there was no difference in the outcome over time (main effect of time).||||0.05
82465727|NCT00286468|164627055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.38|-0.18||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.18|-0.38|<0.001
82465728|NCT00286468|164627056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.53|-0.26||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.26|-0.53|<0.001
82465729|NCT00286468|164627056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.61|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.61|<0.001
82465730|NCT00286468|164627057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||<|0.001|TWO_SIDED|95.0|-0.57|-0.25||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.25|-0.57|<0.001
82465731|NCT00286468|164627057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.68|-0.36||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.36|-0.68|<0.001
82465732|NCT00286468|164627058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||<|0.001|TWO_SIDED|95.0|-0.54|-0.19||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.19|-0.54|<0.001
82465733|NCT00286468|164627058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-0.68|-0.33||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.33|-0.68|<0.001
82465734|NCT00286468|164627059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.17||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.17|-0.54|<0.001
82465735|NCT00286468|164627059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.71|-0.34||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.34|-0.71|<0.001
82465736|NCT00286468|164627060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1||||0.006|TWO_SIDED|95.0|-20.8|-3.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-3.4|-20.8|0.006
82465737|NCT00286468|164627060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.3|||<|0.001|TWO_SIDED|95.0|-28.0|-10.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-10.6|-28.0|<0.001
82465738|NCT00286468|164627061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|||<|0.001|TWO_SIDED|95.0|-22.5|-7.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-7.2|-22.5|<0.001
82465739|NCT00286468|164627061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.0|||<|0.001|TWO_SIDED|95.0|-27.7|-12.4||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-12.4|-27.7|<0.001
82499833|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
82499834|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.175|||||TWO_SIDED|95.0|-0.2934|0.5917||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5917|-0.2934|
82499835|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25|||||TWO_SIDED|95.0|-0.2913|0.696||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6960|-0.2913|
82499836|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.075|||||TWO_SIDED|95.0|-0.5144|0.388||||||Week 12: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3880|-0.5144|
82465740|NCT00286468|164627062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.9||||0.01|TWO_SIDED|95.0|-19.3|-2.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.6|-19.3|0.010
82465741|NCT00286468|164627062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.4|||<|0.001|TWO_SIDED|95.0|-25.8|-9.1||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-9.1|-25.8|<0.001
82465742|NCT00286468|164627063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-25.2|-8.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-8.2|-25.2|<0.001
82465743|NCT00286468|164627063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4|||<|0.001|TWO_SIDED|95.0|-23.9|-6.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-6.9|-23.9|<0.001
82465744|NCT00286468|164627064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.1||||0.03|TWO_SIDED|95.0|-19.2|-1.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-1.0|-19.2|0.030
82465745|NCT00286468|164627064|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7||||0.012|TWO_SIDED|95.0|-20.8|-2.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.5|-20.8|0.012
82465746|NCT00286468|164627065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.701|TWO_SIDED|95.0|-11.6|7.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.8|-11.6|0.701
82465747|NCT00286468|164627065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.228|TWO_SIDED|95.0|-15.7|3.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.7|-15.7|0.228
82465748|NCT00286468|164627066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0||||0.097|TWO_SIDED|95.0|-19.6|1.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.6|-19.6|0.097
82465749|NCT00286468|164627066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.3||||0.014|TWO_SIDED|95.0|-23.9|-2.7||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-2.7|-23.9|0.014
82465750|NCT00286468|164627067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8||||0.241|TWO_SIDED|95.0|-18.3|4.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.6|-18.3|0.241
82465751|NCT00286468|164627067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.5||||0.072|TWO_SIDED|95.0|-22.0|0.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.9|-22.0|0.072
82465752|NCT00286468|164627068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.775||||0.338|TWO_SIDED|95.0|0.46|1.306||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||1.306|0.460|0.338
82465753|NCT00286468|164627068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.521||||0.016|TWO_SIDED|95.0|0.306|0.887||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline metformin dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.887|0.306|0.016
82545790|NCT01631214|164790843|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|Hazard Ratio (HR)|0.56|STANDARD_ERROR_OF_MEAN|0.39||0.14|TWO_SIDED|95.0|0.26|1.22|||Regression, Cox|Model adjusted for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.|"Based on Cox proportional hazards model adjusting for age strata, baseline total hip BMD T-score, and presence of severe vertebral fracture at baseline.~Hazard ratio \< 1 favors romosozumab; SE represents the standard error of log (hazard ratio)."|||1.22|0.26|0.14
82465754|NCT00286468|164627069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.374||||0.003|TWO_SIDED|95.0|0.194|0.72||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.720|0.194|0.003
82465755|NCT00286468|164627069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.372||||0.003|TWO_SIDED|95.0|0.193|0.718||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||0.718|0.193|0.003
82465756|NCT00286468|164627070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.923|TWO_SIDED|95.0|-6.1|6.7||No multiplicity adjustments.|Regression, Logistic|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.7|-6.1|0.923
82465757|NCT00286468|164627070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.259|TWO_SIDED|95.0|-2.7|10.1||No multiplicity adjustments.|Regression, Logistic|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||10.1|-2.7|0.259
82465758|NCT00286468|164627071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.916|TWO_SIDED|95.0|-6.6|5.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.9|-6.6|0.916
82465759|NCT00286468|164627071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.305|TWO_SIDED|95.0|-3.0|9.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||9.5|-3.0|0.305
82465760|NCT00286468|164627072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.953|TWO_SIDED|95.0|-6.1|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.1|0.953
82465761|NCT00286468|164627072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.957|TWO_SIDED|95.0|-6.1|5.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||5.8|-6.1|0.957
82465762|NCT00286468|164627073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.908|TWO_SIDED|95.0|-5.9|6.6||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.6|-5.9|0.908
82465763|NCT00286468|164627073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.826|TWO_SIDED|95.0|-5.6|7.0||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||7.0|-5.6|0.826
82465764|NCT00286468|164627074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.894|TWO_SIDED|95.0|-5.9|6.8||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.8|-5.9|0.894
82465765|NCT00286468|164627074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.432|TWO_SIDED|95.0|-3.8|8.9||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||8.9|-3.8|0.432
82465766|NCT00286468|164627075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.548|TWO_SIDED|95.0|-8.1|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.3|-8.1|0.548
82465767|NCT00286468|164627075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.986|TWO_SIDED|95.0|-6.3|6.2||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.2|-6.3|0.986
82465768|NCT00286468|164627076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26||||0.415|TWO_SIDED|95.0|-1.78|4.3||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.30|-1.78|0.415
82465769|NCT00286468|164627076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51||||0.332|TWO_SIDED|95.0|-1.54|4.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.55|-1.54|0.332
82545791|NCT01631214|164790844|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|7.58|8.57|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an analysis of covariance (ANCOVA) model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||8.57|7.58|<0.001
82545792|NCT01631214|164790845|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.42|4.1|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.10|3.42|<0.001
82579235|NCT00515723|164868829|SUPERIORITY|||||||0.22||||||The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in insulin sensitivity used a likelihood-based mixed-effects model using time (0 and 12 weeks) and treatment group as the independent variables, with an unstructured covariance structure specified, based on the Akaike Information Criterion-Corrected (AIC-C). The null hypothesis was that there were no differences between groups in the change over time (time by treatment condition).||||0.22
82579236|NCT04655027|164868834|OTHER|Treatment effect|Difference in Estimate (LSM)|19.5|STANDARD_ERROR_OF_MEAN|15.62||0.212|TWO_SIDED|95.0|-11.155|50.15|||ANCOVA|||||50.150|-11.155|0.212
82579237|NCT04655027|164868835|OTHER|Baseline hepcidin by treatment effect|Difference in Estimate|-0.13|STANDARD_ERROR_OF_MEAN|0.17||0.441|TWO_SIDED|95.0|-0.477|0.208|||ANCOVA|||||0.208|-0.477|0.441
82579238|NCT04655027|164868835|OTHER|Baseline hs CRP by treatment effect|Difference in Estimates|-2.34|STANDARD_ERROR_OF_MEAN|3.76||0.532|TWO_SIDED|95.0|-9.707|5.017|||ANCOVA|||||5.017|-9.707|0.532
82579239|NCT04655027|164868836|OTHER|Treatment effect|Ratio of Estimates|1.09|STANDARD_ERROR_OF_MEAN|1.23||0.688|TWO_SIDED|95.0|0.723|1.635|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.635|0.723|0.688
82579240|NCT04655027|164868836|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.43|STANDARD_ERROR_OF_MEAN|0.2||0.029|TWO_SIDED|95.0|0.045|0.822|||ANCOVA|||||0.822|0.045|0.029
82650352|NCT00972153|165015838|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Descriptive statistics (means, medians, frequencies) were used to evaluate the distributions of variables. One-way analysis of variance and independent t-tests or Mann-Whitney U tests were used to compare patient and environmental characteristics between groups. Generalized estimating equations were used to evaluate the effects of group and other factors on airborne CFUs/cubic meter at the surgical site in each 10 minute interval.||||<0.001
82579241|NCT04655027|164868836|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.568|TWO_SIDED|95.0|-0.201|0.366|||ANCOVA|||||0.366|-0.201|0.568
82579242|NCT04655027|164868837|OTHER|Treatment effect|Ratio of Estimates|0.84|STANDARD_ERROR_OF_MEAN|1.11||0.096|TWO_SIDED|95.0|0.687|1.031|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.031|0.687|0.096
82579243|NCT04655027|164868837|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.63|TWO_SIDED|95.0|-0.282|0.171|||ANCOVA|||||0.171|-0.282|0.630
82579244|NCT04655027|164868837|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.19|STANDARD_ERROR_OF_MEAN|0.08||0.015|TWO_SIDED|95.0|0.037|0.342|||ANCOVA|||||0.342|0.037|0.015
82579245|NCT04655027|164868838|OTHER|Treatment effect|Ratio of Estimates|1.23|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.123|1.354|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.354|1.123|< 0.001
82579246|NCT04655027|164868838|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.171|TWO_SIDED|95.0|-0.027|0.149|||ANCOVA|||||0.149|-0.027|0.171
82579247|NCT04655027|164868838|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.03|STANDARD_ERROR_OF_MEAN|0.04||0.387|TWO_SIDED|95.0|-0.039|0.101|||ANCOVA|||||0.101|-0.039|0.387
82579248|NCT04655027|164868839|OTHER|Treatment effect|Ratio of Estimates|0.89|STANDARD_ERROR_OF_MEAN|1.22||0.561|TWO_SIDED|95.0|0.606|1.312|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.312|0.606|0.561
82579249|NCT04655027|164868839|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.38|STANDARD_ERROR_OF_MEAN|0.19||0.043|TWO_SIDED|95.0|0.013|0.75|||ANCOVA|||||0.750|0.013|0.043
82579250|NCT04655027|164868839|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.766|TWO_SIDED|95.0|-0.222|0.302|||ANCOVA|||||0.302|-0.222|0.766
82579251|NCT04655027|164868840|OTHER|Treatment effect|Ratio of Estimates|1.23|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.108|1.369|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.369|1.108|< 0.001
82579252|NCT04655027|164868840|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.351|TWO_SIDED|95.0|-0.059|0.159|||ANCOVA|||||0.159|-0.059|0.351
82579253|NCT04655027|164868840|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.248|TWO_SIDED|95.0|-0.031|0.114|||ANCOVA|||||0.114|-0.031|0.248
82579254|NCT04655027|164868841|OTHER|Treatment effect|Ratio of Estimates|1.29|STANDARD_ERROR_OF_MEAN|1.11||0.021|TWO_SIDED|95.0|1.043|1.598|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||1.598|1.043|0.021
82465770|NCT00286468|164627077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.89|TWO_SIDED|95.0|-2.47|2.85||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||2.85|-2.47|0.890
82465771|NCT00286468|164627077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.38|TWO_SIDED|95.0|-1.48|3.86||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.86|-1.48|0.380
82465772|NCT00286468|164627078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35||||0.448|TWO_SIDED|95.0|-2.14|4.85||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.85|-2.14|0.448
82465773|NCT00286468|164627078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.568|TWO_SIDED|95.0|-2.48|4.52||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.52|-2.48|0.568
82465774|NCT00286468|164627079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.95||||0.077|TWO_SIDED|95.0|-0.32|6.22||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||6.22|-0.32|0.077
82465775|NCT00286468|164627079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.303|TWO_SIDED|95.0|-1.55|4.99||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.99|-1.55|0.303
82465776|NCT00286468|164627080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25||||0.461|TWO_SIDED|95.0|-2.08|4.57||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.57|-2.08|0.461
82465777|NCT00286468|164627080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99||||0.559|TWO_SIDED|95.0|-2.34|4.32||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.32|-2.34|0.559
82465778|NCT00286468|164627081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04||||0.43|TWO_SIDED|95.0|-1.54|3.62||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||3.62|-1.54|0.430
82465779|NCT00286468|164627081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03||||0.124|TWO_SIDED|95.0|-0.56|4.61||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||4.61|-0.56|0.124
82465780|NCT00286468|164627082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056||||0.011|TWO_SIDED|95.0|-0.099|-0.013||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.013|-0.099|0.011
82465781|NCT00286468|164627082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035||||0.116|TWO_SIDED|95.0|-0.078|0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.078|0.116
82465782|NCT00286468|164627083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044||||0.024|TWO_SIDED|95.0|-0.081|-0.006||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.006|-0.081|0.024
82465783|NCT00286468|164627083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.059|TWO_SIDED|95.0|-0.074|0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.001|-0.074|0.059
82465784|NCT00286468|164627084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.028||||0.159|TWO_SIDED|95.0|-0.067|0.011||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.011|-0.067|0.159
82579255|NCT04655027|164868841|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.03|STANDARD_ERROR_OF_MEAN|0.12||0.826|TWO_SIDED|95.0|-0.276|0.223|||ANCOVA|||||0.223|-0.276|0.826
82465785|NCT00286468|164627084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038||||0.055|TWO_SIDED|95.0|-0.077|0.001||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.001|-0.077|0.055
82465786|NCT00286468|164627085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039||||0.062|TWO_SIDED|95.0|-0.08|0.002||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.002|-0.080|0.062
82465787|NCT00286468|164627085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043||||0.041|TWO_SIDED|95.0|-0.084|-0.002||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||-0.002|-0.084|0.041
82465788|NCT00286468|164627086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.148|TWO_SIDED|95.0|-0.069|0.01||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.010|-0.069|0.148
82465789|NCT00286468|164627086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031||||0.135|TWO_SIDED|95.0|-0.071|0.009||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.009|-0.071|0.135
82465790|NCT00286468|164627087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.177|TWO_SIDED|95.0|-0.065|0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.012|-0.065|0.177
82465791|NCT00286468|164627087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.177|TWO_SIDED|95.0|-0.065|0.012||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.012|-0.065|0.177
82465792|NCT00286468|164627088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162||||0.324|TWO_SIDED|95.0|-0.161|0.486||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.486|-0.161|0.324
82545793|NCT01631214|164790846|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.4|4.14|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.14|3.40|<0.001
82465793|NCT00286468|164627088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176||||0.284|TWO_SIDED|95.0|-0.147|0.5||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.500|-0.147|0.284
82465794|NCT00286468|164627089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268||||0.053|TWO_SIDED|95.0|-0.004|0.54||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.540|-0.004|0.053
82465795|NCT00286468|164627089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.349||||0.012|TWO_SIDED|95.0|0.077|0.621||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.621|0.077|0.012
82499837|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.1|||||TWO_SIDED|95.0|-0.3728|0.5414||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5414|-0.3728|
82499838|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25|||||TWO_SIDED|95.0|-0.2913|0.696||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6960|-0.2913|
82499839|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
82499840|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.025||||||95.0|-0.4769|0.4336||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.4336|-0.4769|
82579256|NCT04655027|164868841|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|-0.04|STANDARD_ERROR_OF_MEAN|0.08||0.634|TWO_SIDED|95.0|-0.212|0.132|||ANCOVA|||||0.132|-0.212|0.634
82465796|NCT00286468|164627090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.196|TWO_SIDED|95.0|-0.094|0.458||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.458|-0.094|0.196
82465797|NCT00286468|164627090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226||||0.11|TWO_SIDED|95.0|-0.051|0.502||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.502|-0.051|0.110
82465798|NCT00286468|164627091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228||||0.121|TWO_SIDED|95.0|-0.06|0.517||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.517|-0.060|0.121
82465799|NCT00286468|164627091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159||||0.28|TWO_SIDED|95.0|-0.13|0.448||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.448|-0.130|0.280
82465800|NCT00286468|164627092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.015||||0.924|TWO_SIDED|95.0|-0.29|0.32||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.320|-0.290|0.924
82465801|NCT00286468|164627092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138||||0.376|TWO_SIDED|95.0|-0.168|0.444||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.444|-0.168|0.376
82465802|NCT00286468|164627093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075||||0.642|TWO_SIDED|95.0|-0.242|0.393||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.393|-0.242|0.642
82465803|NCT00286468|164627093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063||||0.698|TWO_SIDED|95.0|-0.255|0.381||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||0.381|-0.255|0.698
82465804|NCT00286468|164627094|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.596|TWO_SIDED|95.0|0.503|3.306||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.306|0.503|0.596
82465805|NCT00286468|164627094|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.148|TWO_SIDED|95.0|0.787|4.885||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.885|0.787|0.148
82465806|NCT00286468|164627095|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.925||||0.046|TWO_SIDED|95.0|1.011|3.666||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.666|1.011|0.046
82465807|NCT00286468|164627095|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.505||||0.005|TWO_SIDED|95.0|1.313|4.78||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||4.780|1.313|0.005
82465808|NCT00286468|164627096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.955||||0.025|TWO_SIDED|95.0|1.086|3.519||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.519|1.086|0.025
82465809|NCT00286468|164627096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.707|||<|0.001|TWO_SIDED|95.0|2.012|6.831||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.831|2.012|<0.001
82465810|NCT00286468|164627097|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.994|||<|0.001|TWO_SIDED|95.0|1.72|5.213||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.213|1.720|<0.001
82465811|NCT00286468|164627097|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.401|||<|0.001|TWO_SIDED|95.0|1.95|5.933||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.933|1.950|<0.001
82579257|NCT04655027|164868842|OTHER|Treatment effect|Ratio of Estimates|0.45|STANDARD_ERROR_OF_MEAN|1.31||0.007|TWO_SIDED|95.0|0.257|0.786|||Geometric ANCOVA|Geometric ANCOVA of relative change from baseline. The Standard error of Mean (SEM) refers to Geometric SEM.||||0.786|0.257|0.007
82465812|NCT00286468|164627098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.776||||0.115|TWO_SIDED|95.0|0.87|3.627||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||3.627|0.870|0.115
82465813|NCT00286468|164627098|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.416|||<|0.001|TWO_SIDED|95.0|1.703|6.851||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||6.851|1.703|<0.001
82465814|NCT00286468|164627099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.991||||0.986|TWO_SIDED|95.0|0.365|2.689||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||2.689|0.365|0.986
82465815|NCT00286468|164627099|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.131|TWO_SIDED|95.0|0.808|5.203||no multiplicity adjustments|Regression, Logistic|Logistic regression model includes effects for treatment, geographic region, baseline glyburide dose and baseline HbA1c.|Odd's Ratio (OR) compares alogliptin arm versus placebo. OR \<1.0 indicates lower incidence compared to placebo.|||5.203|0.808|0.131
82465816|NCT00286468|164627100|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||no multiplicity adjustments|Mantel Haenszel|OR and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.626
82465817|NCT00286468|164627100|SUPERIORITY_OR_OTHER|||||||0.178||||||no multiplicity adjustments|Mantel Haenszel|OR and 95% CI not estimable using logistic regression model. Tested using extended Mantel-Haenszel test.||||||0.178
82465818|NCT00286468|164627101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||<|0.001|TWO_SIDED|95.0|0.32|1.16||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.16|0.32|<0.001
82465819|NCT00286468|164627101|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.006|TWO_SIDED|95.0|0.17|1.02||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.02|0.17|0.006
82465820|NCT00286468|164627102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.006|TWO_SIDED|95.0|0.2|1.18||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.18|0.20|0.006
82465821|NCT00286468|164627102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.04|TWO_SIDED|95.0|0.02|1.01||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.01|0.02|0.040
82465822|NCT00286468|164627103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.47|1.73||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.73|0.47|<0.001
82465823|NCT00286468|164627103|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.005|TWO_SIDED|95.0|0.28|1.55||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.55|0.28|0.005
82465824|NCT00286468|164627104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.018|TWO_SIDED|95.0|0.14|1.46||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.46|0.14|0.018
82465825|NCT00286468|164627104|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.01|TWO_SIDED|95.0|0.21|1.54||No multiplicity adjustments.|ANCOVA|Treatment and geographic region as class variables; baseline glyburide dose and baseline value for the endpoint parameter as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|||1.54|0.21|0.010
82465826|NCT02923726|164627117|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.005|TWO_SIDED|95.9|0.57|0.92|||Log Rank||Shock only was the reference group. Confidence interval adjusted for interim analyses.|||0.92|0.57|0.005
82545794|NCT01631214|164790847|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|8.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|8.31|9.09|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||9.09|8.31|<0.001
82465827|NCT02923726|164627118|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.284|TWO_SIDED|95.0|0.78|1.07|||Log Rank||Shock Only was the reference group.|||1.07|0.78|0.284
82465828|NCT02923726|164627119|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.56|0.95|||Log Rank||Shock Only arm is reference group.|||0.95|0.56|0.020
82465829|NCT02923726|164627120|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.033|TWO_SIDED|95.0|0.44|0.97|||Log Rank||Shock Only is the reference group.|||0.97|0.44|0.033
82579258|NCT04655027|164868842|OTHER|Baseline hepcidin-by-treatment effect|Difference in Estimates|-0.16|STANDARD_ERROR_OF_MEAN|0.31||0.61|TWO_SIDED|95.0|-0.798|0.48|||ANCOVA|||||0.480|-0.798|0.610
82650353|NCT04136626|165015849|SUPERIORITY||Mean Difference (Final Values)|-2.0475||||0.0871|TWO_SIDED|95.0|-4.3977|0.3027||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in Y-BOCS total scores between the treatment groups at endpoint (week 12).||0.3027|-4.3977|0.0871
82465830|NCT02923726|164627121|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.184|TWO_SIDED|95.0|0.94|1.41|||Log Rank||Shock Only is the reference group.|||1.41|0.94|0.184
82465831|NCT02587221|164627142|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|19.8|||||TWO_SIDED|97.45|-5.27|38.91|||Regression, Cox|Adjusted for covariates||The efficacy of aQIV would be demonstrated if the LL of the two-sided multiplicity adjusted 95%CI for the vaccine efficacy is \>40%||38.91|-5.27|
82465832|NCT02587221|164627147|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as the presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|32.12|||||TWO_SIDED|95.0|10.23|48.67|||Regression, Cox|Adjusted for covariates||||48.67|10.23|
82465833|NCT02587221|164627148|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the vaccine strains.~An ILI was defined as the presence of ≥1 respiratory symptom (eg. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|49.94|||||TWO_SIDED|95.0|-24.03|79.79|||Regression, Cox|Adjusted for covariates||The efficacy of aQIV would be demonstrated if the LL of the two-sided multiplicity adjusted 95%CI for the vaccine efficacy is \>40%||79.79|-24.03|
82465834|NCT02587221|164627149|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|61.5|||||TWO_SIDED|95.0|-7.98|86.28|||Regression, Cox|Adjusted for covariates||||86.28|-7.98|
82465835|NCT02587221|164627150|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any vaccine strain regardless of antigenic match.~An ILI was defined as the presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|28.66|||||TWO_SIDED|95.0|0.05|49.08|||Regression, Cox|Adjusted for covariates||||49.08|0.05|
82465836|NCT02587221|164627151|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza regardless of antigenic match~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|33.47|||||TWO_SIDED|95.0|2.56|54.57|||Regression, Cox|Adjusted for covariates||||54.57|2.56|
82465837|NCT02587221|164627152|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the vaccine strains.~An ILI is the presence of ≥1 respiratory symptom (e.g. sore throat, cough, sputum production, wheezing, or difficulty breathing) concurrently with ≥1 systemic symptom (temp \>37.2°C/99°F, chills, tiredness, headache, or myalgia) (protocol defined ILI definition)."|Vaccine efficacy (VE)|23.79|||||TWO_SIDED|95.0|-9.69|47.05|||Regression, Cox|Adjusted for covariates||||47.05|-9.69|
82465838|NCT02587221|164627153|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature \>37.2°C) with cough or sore throat (modified CDC ILI definition)."|Vaccine efficacy (VE)|26.11|||||TWO_SIDED|95.0|-11.71|51.13|||Regression, Cox|Adjusted for covariates||||51.13|-11.71|
82545795|NCT01631214|164790848|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|3.03|3.6|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.60|3.03|<0.001
82579259|NCT04655027|164868842|OTHER|Baseline hs-CRP-by-treatment effect|Difference in Estimates|0.07|STANDARD_ERROR_OF_MEAN|0.22||0.74|TWO_SIDED|95.0|-0.387|0.536|||ANCOVA|||||0.536|-0.387|0.740
82579260|NCT00186888|164868878|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportion|88.9|||||TWO_SIDED|95.0|71.3|96.9||||||||96.9|71.3|
82579261|NCT00186888|164868879|SUPERIORITY_OR_OTHER_LEGACY||Binomial Proportion|91.7|||||TWO_SIDED|95.0|65.1|99.6||||||||99.6|65.1|
82579262|NCT00186888|164868880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.452||95.0|||||ANOVA|||CYP3A4\*1B: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.452
82579263|NCT00186888|164868880|SUPERIORITY_OR_OTHER_LEGACY|||||||0.106||95.0|||||ANOVA|||CYP3A5\*3: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.106
82650354|NCT04136626|165015849|SUPERIORITY||Difference in the amount of change|-3.4385||||0.0036|TWO_SIDED|95.0|-5.7394|-1.1376||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment Y-BOCS total scores between the treatment groups.||-1.1376|-5.7394|0.0036
82650355|NCT04136626|165015850|SUPERIORITY||Mean Difference (Final Values)|-0.8743||||0.3616|TWO_SIDED|95.0|-2.7666|1.0181||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in depression severity (QIDS-SR total scores) between the treatment groups at endpoint (week 12).||1.0181|-2.7666|0.3616
82650356|NCT04136626|165015850|SUPERIORITY||Difference in the amount of change|-1.3076||||0.1973|TWO_SIDED|95.0|-3.3014|0.6862||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment depression severity (QIDS-SR total scores) between the treatment groups.||0.6862|-3.3014|0.1973
82465839|NCT02587221|164627158|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of RT-PCR confirmed due to any strain.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|51.08|||||TWO_SIDED|95.0|28.21|66.67|||Regression, Cox|Adjusted for covariates||||66.67|28.21|
82465840|NCT02587221|164627159|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically matched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)"|Vaccine efficacy (VE)|74.96|||||TWO_SIDED|95.0|-17.93|94.68|||Regression, Cox|Adjusted for covariates||||94.68|-17.93|
82465841|NCT02587221|164627160|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza regardless of antigenic match.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|60.17|||||TWO_SIDED|95.0|31.19|76.94|||Regression, Cox|Adjusted for covariates||||76.94|31.19|
82545796|NCT01631214|164790849|SUPERIORITY|If the differences in both primary end points were significant with the use of the Hochberg procedure, a fixed-sequence testing procedure was used for bone mineral density and the key secondary end point of nonvertebral fracture to adjust for multiple comparisons and to maintain an overall significance level of 0.05.|LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|2.9|3.54|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.54|2.90|<0.001
82545797|NCT01631214|164790850|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|7.4|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|6.84|7.89|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||7.89|6.84|<0.001
82545798|NCT01631214|164790851|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.29|4.02|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||4.02|3.29|<0.001
82579264|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||95.0|||||ANOVA|||BCRP 1143: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.245
82465842|NCT02587221|164627161|OTHER|"VE=1-HR, where HR is the hazard ratio estimated by the Cox proportional hazards model for time to first occurrence of culture confirmed influenza due to any strain of influenza antigenically unmatched to the strains selected for the seasonal vaccine.~An ILI was defined as presence of fever (temperature ≥38°C) with cough (WHO ILI definition)."|Vaccine efficacy (VE)|57.02|||||TWO_SIDED|95.0|22.73|76.09|||Regression, Cox|Adjusted for covariates||||76.09|22.73|
82465843|NCT00214045|164627292|SUPERIORITY_OR_OTHER|Results were analyzed using Wilcoxon rank sums and Fisher exact tests with Statistical Analysis System (SAS) statistical software version 9.||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||.39
82465844|NCT00214045|164627292|NON_INFERIORITY_OR_EQUIVALENCE|Results were analyzed using Wilcoxon rank sums and Fisher exact tests with Statistical Analysis System (SAS) statistical software version 9.||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.37
82465845|NCT01446159|164627298|SUPERIORITY||Hazard Ratio (HR)|0.991||||0.86|TWO_SIDED|95.0|0.689|1.429|||Log Rank|||||1.429|0.689|0.86
82465846|NCT01283139|164627318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.057|TWO_SIDED|90.0|1.03|2.71|||Regression, Logistic|||||2.71|1.03|0.057
82465847|NCT01283139|164627318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.094|TWO_SIDED|90.0|1.01|2.54|||Regression, Logistic|||||2.54|1.01|0.094
82579265|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.297||95.0|||||ANOVA|||BCRP 15622: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.297
82545799|NCT01631214|164790852|SUPERIORITY|This endpoint was not included in the sequential testing procedure and was analyzed without multiplicity adjustment at a significance level of 0.05 (two-sided).|LS Mean Difference|3.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|3.18|3.97|||ANCOVA|||Between-group comparisons of the percent change from baseline in bone mineral density were analyzed using an ANCOVA model adjusted for treatment, age strata, presence of severe vertebral fracture at baseline, baseline BMD value, machine type, and baseline BMD value-by-machine type interaction.||3.97|3.18|<0.001
82545800|NCT00402246|164790924|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|17.4|||<|0.001||95.0||||The a priori threshold for significance was an alpha level of 0.05.|Wilcoxon (Mann-Whitney)|||The null hypothesis is that the time from a clinical event to a clinical decision for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||||<0.001
82545801|NCT00402246|164790925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.524|ONE_SIDED|95.0||1.21||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple hospitalization events per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the CV hospitalization hazard rates for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.21||0.524
82545802|NCT00402246|164790925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.325|ONE_SIDED|95.0||1.43||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple ED visits per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the ED hazard rates for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.43||0.325
82545803|NCT00402246|164790925|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.099|ONE_SIDED|95.0||1.31||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|An Andersen-Gill model was utilized to account for multiple unscheduled clinic visits per subject.||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the hazard rates of the CV unscheduled clinic or urgent care visits for patients in the remote arm is equal to that of similar patients in the in-office arm.||1.31||0.099
82545804|NCT00402246|164790926|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.29|ONE_SIDED|95.0||2.56||Model was fit with device group (CRT-D vs. DR-ICD) as a stratifying variable.|Andersen-Gill model|||An Andersen-Gill proportional hazards regression model was fit to test the hypothesis that the hazard rate of transesophageal echocardiography (TEE) taken for patients in the remote arm is equal to that of similar patients in the in-office arm.||2.56||0.29
82545805|NCT00402246|164790929|SUPERIORITY_OR_OTHER||probability|0.23||||||95.0|||||Regression, Logistic|A GEE model was utilized to account for multiple events within same patient in estimating the probability of an AT/AF alert event being symptomatic.||||||
82545806|NCT00402246|164790931|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|4.3||0.779|TWO_SIDED|95.0|-0.8|1.0||The a priori threshold for significance was an alpha level of 0.05.|t-test, 2 sided|||The null hypothesis is that the time from event onset to clinical decision for symptom-driven device interrogations for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||1.0|-0.8|0.779
82545807|NCT00402246|164790932|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_DEVIATION|19.1|<|0.001|TWO_SIDED|95.0|-13.1|-6.9||The a priori threshold for significance was an alpha level of 0.05.|t-test, 2 sided|||The null hypothesis is the time from event onset to clinical decision for both device events and symptom-driven device interrogations for patients followed through the remote management system is greater than and equal to that of patients receiving only in-office care.||-6.9|-13.1|<0.001
82545808|NCT00402246|164790933|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82||||0.002|TWO_SIDED|95.0|0.7|0.9||The a priori threshold for statistical significance was 0.05. The threshold was met, and the null hypothesis was rejected.|negative binomial model|||The null hypothesis was that the mean LOS per hospitalization visit for patients in the remote arm was equal to that for similar patients in the in-office arm.||0.9|0.7|0.002
82545809|NCT00402246|164790934|SUPERIORITY_OR_OTHER||compliance rate|0.761|||||ONE_SIDED|95.0|0.737||||Binomial Exact Test|||3-month compliance rate|||0.737|
82545810|NCT00402246|164790934|SUPERIORITY_OR_OTHER||compliance rate|0.815|||||ONE_SIDED|95.0|0.793||||Binomial Exact Test|||6-month compliance rate|||0.793|
82545811|NCT00402246|164790934|SUPERIORITY_OR_OTHER||compliance rate|0.815|||||ONE_SIDED|95.0|0.792||||Binomial Exact Test|||9-month compliance rate|||0.792|
82545812|NCT00402246|164790934|SUPERIORITY_OR_OTHER||compliance rate|0.814|||||ONE_SIDED|95.0|0.79||||Binomial Exact Test|||12-month compliance rate|||0.79|
82545813|NCT00402246|164790936|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||The a prior threshold for statistical significance was 0.05.|Mixed Models Analysis|Model was fit with randomization arm, device group (CRT-D vs. DR-ICD), and follow-up visit as fixed effects, and subject as a random effect.||A mixed model was fit to test whether patients followed through the remote management system will experience less anxiety than patients followed through in-office care.||||0.217
82545814|NCT00402246|164790937|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||The a priori threshold for statistical significance for was 0.05.|Mixed Models Analysis|Model was fit with randomization arm, device group (CRT-D vs. DR-ICD), and follow-up visit as fixed effects, and subject as a random effect.||A mixed model was fit to test whether patients followed through the remote management system will experience less anxiety than patients followed through in-office care.||||0.154
82545815|NCT03628885|164790946|SUPERIORITY||||||<|0.02||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||||||<.02
82545816|NCT03628885|164790946|SUPERIORITY||||||=|0.07||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||||||=.07
82545817|NCT03628885|164790946|SUPERIORITY||||||<|0.01||||||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05|ANOVA|||Adjusted for mother's educational level, which differed across groups. A priori threshold for statistical significance = P\<.05||||<.01
82545818|NCT01808339|164790947|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.077|||||TWO_SIDED|90.0|0.001|0.152|||||The estimated value represents the difference in Least Squares Means between FF 100 µg AM and Placebo (FF 100 µg AM minus Placebo).|||0.152|0.001|
82465848|NCT01283139|164627318|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.031|TWO_SIDED|90.0|1.16|2.94|||Regression, Logistic|||||2.94|1.16|0.031
82465849|NCT01283139|164627319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||0.042|TWO_SIDED|90.0|1.13|3.14|||Regression, Logistic|||||3.14|1.13|0.042
82465850|NCT01283139|164627319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.264|TWO_SIDED|90.0|0.85|2.35|||Regression, Logistic|||||2.35|0.85|0.264
82465851|NCT01283139|164627319|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.038|TWO_SIDED|90.0|1.14|3.19|||Regression, Logistic|||||3.19|1.14|0.038
82465852|NCT01283139|164627320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.808|TWO_SIDED|90.0|0.37|3.81|||Regression, Logistic|||||3.81|0.37|0.808
82465853|NCT01283139|164627320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.598|TWO_SIDED|90.0|0.45|4.66|||Regression, Logistic|||||4.66|0.45|0.598
82465854|NCT01283139|164627320|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.884|TWO_SIDED|90.0|0.27|3.02|||Regression, Logistic|||||3.02|0.27|0.884
82465855|NCT01283139|164627321|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.044|TWO_SIDED|90.0|1.22|7.01|||Regression, Logistic|||||7.01|1.22|0.044
82579266|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372||95.0|||||ANOVA|||BCRP Exon 2: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.372
82579267|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.844||95.0|||||ANOVA|||BCRP Exon 5: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.844
82465856|NCT01283139|164627321|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.498|TWO_SIDED|90.0|0.62|3.19|||Regression, Logistic|||||3.19|0.62|0.498
82465857|NCT01283139|164627321|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03||||0.049|TWO_SIDED|90.0|1.2|7.68|||Regression, Logistic|||||7.68|1.20|0.049
82465858|NCT01283139|164627322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.27|TWO_SIDED|90.0|0.85|2.25|||Regression, Logistic|||||2.25|0.85|0.270
82465859|NCT01283139|164627322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.69||||0.077|TWO_SIDED|90.0|1.04|2.74|||Regression, Logistic|||||2.74|1.04|0.077
82465860|NCT01283139|164627322|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.453|TWO_SIDED|90.0|0.76|2.05|||Regression, Logistic|||||2.05|0.76|0.453
82465861|NCT00321789|164627367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.44|TWO_SIDED|95.0|-3.6|8.3|||Mixed Models Analysis|Model was adjusted for a priori race and cardiovascular disease risk level strata.||||8.3|-3.6|0.44
82465862|NCT00321789|164627368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.03|TWO_SIDED|95.0|-0.23|-0.01|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.01|-0.23|0.03
82465863|NCT00321789|164627369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.02|TWO_SIDED|95.0|-0.29|-0.02|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.02|-0.29|0.02
82465864|NCT00321789|164627370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.16||||0.02|TWO_SIDED|95.0|-0.29|-0.03|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||-0.03|-0.29|0.02
82465865|NCT00321789|164627371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.11|TWO_SIDED|95.0|-0.3|0.03|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||0.03|-0.30|0.11
82465866|NCT00321789|164627372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.26|TWO_SIDED|95.0|-0.06|0.2|||Mixed Models Analysis|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||0.20|-0.06|0.26
82465867|NCT00321789|164627373|SUPERIORITY_OR_OTHER||incident rate ratio|1.2||||0.06|TWO_SIDED|95.0|1.0|1.5|||generalized estimating equations|Based on log-transformed values. Model was adjusted for a priori race and cardiovascular disease risk level strata.||||1.5|1.0|0.06
82465868|NCT00321789|164627374|SUPERIORITY_OR_OTHER||incident rate ratio|1.1||||0.37|TWO_SIDED|95.0|0.9|1.4|||generalized estimating equations|Model adjusted for a priori race and cardiovascular disease risk category.||||1.4|0.9|0.37
82465869|NCT00321789|164627375|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.11||||0.04|TWO_SIDED|95.0|-4.13|-0.09|||Mixed Models Analysis|Model adjusted for a priori race and cardiovascular disease risk category.||||-0.09|-4.13|0.04
82465870|NCT00321789|164627376|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.09|TWO_SIDED|95.0|-1.38|0.1|||Mixed Models Analysis|Model adjusted for a priori race and cardiovascular disease risk category.||||0.10|-1.38|0.09
82465871|NCT00321789|164627377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.87|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|Model adjusted for a priori race and cardiovascular disease risk category.||||1.7|0.6|0.87
82465872|NCT03137992|164627403|EQUIVALENCE|Bioequivalence was declared if the 90% CI was entirely contained within the bioequivalence interval, 0.80 to 1.25.|Least Squared Mean Ratio|0.9369|||||TWO_SIDED|90.0|0.834|1.047|||||Fieller's formula was applied to calculate the 90% confidence interval (CI) for the Lupin Tiotropium and Spiriva Handihaler LS mean ratio.|A blinded interim analysis was performed after 241 subjects had been randomized with measurable AUC data, which estimated 238 patients would be needed to demonstrate BE with 90% power. Therefore, it was planned that approximately 378 patients would be randomized to allow for a potential 30% loss/withdrawal from the PP population.||1.047|0.834|
82499841|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.125|||||TWO_SIDED|95.0|-0.4024|0.6049||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.6049|-0.4024|
82499842|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.15|||||TWO_SIDED|95.0|-0.5729|0.3149||||||Week 48: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.3149|-0.5729|
82499843|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82499844|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82465873|NCT03137992|164627404|SUPERIORITY||Least Squared Mean Difference|3.29|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|2.9386|3.646||Efficacy of the Test (T) product was demonstrated if the T was shown to be statistically superior to Placebo (p\<0.05 \[two-tailed\]).Outcome variable was Difference in Baseline adjusted FEV1 AUC0-24h.|Mixed Models Analysis|Mixed model repeated measures analysis consisted of effects of treatment, period, and sequence.||||3.646|2.9386|<0.001
82465874|NCT03137992|164627404|SUPERIORITY||Least Squared Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|3.0718|3.7797||Study sensitivity was demonstrated if the Reference (R) product was shown to be statistically superior to Placebo (P) (p \<0.05 \[two-tailed\]). Outcome variable was Difference in Baseline adjusted FEV1 AUC0-24h.|Mixed Models Analysis|Mixed model repeated measures analysis consisted of effects of treatment, period, and sequence.||||3.7797|3.0718|<0.001
82465875|NCT00795704|164627418|SUPERIORITY_OR_OTHER|||||||0.079|||||||t-test, 2 sided|||||||0.079
82465876|NCT00795704|164627420|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82465877|NCT01247324|164627421|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio|0.536|||<|0.0001|TWO_SIDED|95.0|0.4|0.719|||Negative Binomial Model||Rate ratio was calculated as Ocrelizumab ARR/Interferon beta-1a 44 mcg SC ARR.|Adjusted by Geographical Region (US vs. Rest of World) and baseline EDSS (\<4.0 vs. \>=4.0).||0.719|0.4|<0.0001
82465878|NCT01247324|164627422|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||=|0.0139|TWO_SIDED|95.0|0.37|0.9|||Log Rank|||Time to onset CDP at week 12||0.90|0.37|= 0.0139
82465879|NCT01247324|164627423|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.058|||<|0.0001||95.0|0.032|0.104|||Negative Binomial Model||Adjusted by baseline T1 Gd lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.104|0.032|< 0.0001
82465880|NCT01247324|164627424|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.229|||<|0.0001||95.0|0.174|0.3|||Negative Binomial Model||Adjusted by baseline T2 lesion (present or not), baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.300|0.174|< 0.0001
82465881|NCT01247324|164627425|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.61|||=|0.0106|TWO_SIDED|95.0|1.11|2.33|||CMH Chi-Squared test (stratified)|CMH (Cochran-Mantel-Haenszel) Chi-Squared test Stratified by Geographical Region (US vs. Rest of World) and Baseline EDSS (\<4.0 vs. \>=4.0)||||2.33|1.11|= 0.0106
82465882|NCT01247324|164627426|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57|||=|0.0278|TWO_SIDED|95.0|0.34|0.95|||Log Rank|||Time to onset CDP at week 24||0.95|0.34|= 0.0278
82545819|NCT01808339|164790947|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.105|||||TWO_SIDED|90.0|0.029|0.18|||||The estimated value represents the difference in Least Squares Means between FF 100 µg PM and Placebo (FF 100 µg PM minus Placebo).|||0.180|0.029|
82465883|NCT01247324|164627427|SUPERIORITY_OR_OTHER_LEGACY||Adjusted rate ratio|0.428|||<|0.0001||95.0|0.328|0.557|||Negative Binomial Model||Adjusted by baseline T1-hypointense lesion count, baseline EDSS (\<4.0 vs. \>=4.0) and geographical region (US vs. rest-of-world). Adjusted rate ratio was calculated as Ocrelizumab adjusted rate/Interferon beta-1a 44 mcg SC adjusted rate.|||0.557|0.328|< 0.0001
82465884|NCT01247324|164627428|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.039|STANDARD_ERROR_OF_MEAN|0.039|=|0.3261|TWO_SIDED|95.0|-0.039|0.116|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.116|-0.039|= 0.3261
82465885|NCT01247324|164627429|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.168|STANDARD_ERROR_OF_MEAN|0.058|=|0.0042|TWO_SIDED|95.0|0.053|0.283|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures (MMRM) using unstructured covariance matrix.|Difference in the rate of brain volume loss: 22.8%. Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||0.283|0.053|= 0.0042
82465886|NCT01247324|164627430|SUPERIORITY_OR_OTHER_LEGACY||Difference in Adjusted Means|0.693|STANDARD_ERROR_OF_MEAN|0.564|=|0.2193|TWO_SIDED|95.0|-0.414|1.8|||mixed-effect model of repeated measures|Estimates are from analysis based on mixed-effect model of repeated measures using unstructured covariance matrix.|Difference in adjusted means was calculated as Ocrelizumab adjusted mean at Week 96/ Interferon beta-1a 44 mcg SC adjusted mean at Week 96.|||1.800|-0.414|= 0.2193
82545820|NCT01808339|164790947|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.028|||||TWO_SIDED|90.0|-0.102|0.045|||||The estimated value represents the difference in Least Squares Means between FF 100 µg AM and FF 100 µg PM (FF 100 µg AM minus FF 100 µg PM).|||0.045|-0.102|
82465887|NCT01247324|164627431|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (stratified)|1.74|||<|0.0001|TWO_SIDED|95.0|1.39|2.17|||CMH Chi-Squared test (stratified)|Analyzed using CMH test, stratified by Geographical Region (US vs. rest-of-world) and baseline EDSS (\<4.0 vs. \>=4.0).||||2.17|1.39|< 0.0001
82465888|NCT01607957|164627435|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.58|0.81|||Stratified log-rank test|||||0.81|0.58|<0.0001
82465889|NCT01607957|164627436|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.0001|TWO_SIDED|95.0|0.41|0.57|||Stratified log-rank test|||||0.57|0.41|<0.0001
82465890|NCT03905096|164627444|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|92.63|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|85.34|100.53|||ANOVA|"The statistical model was analysis of variance (ANOVA) on the logarithmic scale considering the effects subjects as random and treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||100.53|85.34|
82465891|NCT03905096|164627445|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|98.64|STANDARD_DEVIATION|6.9|||TWO_SIDED|90.0|93.21|104.39|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||104.39|93.21|
82465892|NCT03905096|164627446|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|98.48|STANDARD_DEVIATION|12.4|||TWO_SIDED|90.0|90.74|106.88|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||106.88|90.74|
82545821|NCT02932579|164790952|SUPERIORITY||Mean Difference (Final Values)|13.0||||0.098|TWO_SIDED||||||t-test, 2 sided|||||||0.098
82465893|NCT03905096|164627447|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|100.15|STANDARD_DEVIATION|14.4|||TWO_SIDED|90.0|89.01|112.68|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||112.68|89.01|
82465894|NCT03905096|164627448|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|94.77|STANDARD_DEVIATION|10.6|||TWO_SIDED|90.0|88.36|101.64|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||101.64|88.36|
82465895|NCT03905096|164627449|OTHER|Relative bioavailability|Ratio of the geometric means (T/R) %|100.06|STANDARD_DEVIATION|6.9|||TWO_SIDED|90.0|94.56|105.87|||ANOVA|"The statistical model was ANOVA on the logarithmic scale considering the effect subjects as random and the effect treatment as fixed."|The standard deviation is actually the geometric coefficient of variation (gCV) T=Test, R=Reference|||105.87|94.56|
82465896|NCT02016781|164627453|SUPERIORITY|||||||0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|Wald test of difference in adjusted OS estimates.||The null hypothesis is that the rates of three-year OS are the same for both treatments. The results posted are from the interim analysis per protocol study design.||||0.0001
82465897|NCT02016781|164627453|SUPERIORITY|||||||0.3345||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between response to hypomethylating therapy and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of response to hypomethylating therapy (No Response to Hypomethylation vs. Any Response or Hematologic Improvement to Hypomethylation vs. No Prior Hypomethylation) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.3345
82465898|NCT02016781|164627453|SUPERIORITY|||||||0.7328||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between patient age and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of patient age (\< vs. \>= 65) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.7328
82465899|NCT02016781|164627453|SUPERIORITY|||||||0.6261||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between disease duration and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of disease duration (less than vs. 3 months or more) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.6261
82465900|NCT02016781|164627453|SUPERIORITY|||||||0.4134||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between IPSS score and treatment assignment in regression model.||This subgroup analysis investigated the differential impact of IPSS score (Intermediate-2 vs. High) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4134
82545822|NCT02932579|164790953|SUPERIORITY||Risk Ratio (RR)|1.38||||0.74|TWO_SIDED|95.0|0.45|4.21|||Fisher Exact|||||4.21|0.45|0.740
82545823|NCT00818246|164790957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.94|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|||||||ANCOVA|analysis of covariance (ANCOVA) was used to assess statistical differences between the LED-treated and untreated sides taking into account Age.||Sample sizes and power calculations were generated according to the primary outcome measures of the study. In order to have a 98% chance of detecting as significant (at the two sided 5% level) a 10% difference between the treated and untreated/control sides in the Ra and Rz post-treatment improvement, with an assumed standard deviation of 10, 33 subjects were required. To account for an 80% per protocol completion rate, the planned number of patients to be enrolled was 40.||||<0.0001
82579268|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.616||95.0|||||ANOVA|||Pgp Exon 21: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.616
82465901|NCT02016781|164627453|SUPERIORITY|||||||0.3147||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|Overall Wald test of interaction terms between IPSS-R score and treatment assignment in regression model.||Statistical Analysis 6: This subgroup analysis investigated the differential impact of IPSS-R score (Very Low, Low, or Intermediate vs. High vs. Very High) on the treatment effect for OS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.3147
82545824|NCT00818246|164790958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.605|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|||||||ANCOVA|||||||<0.001
82579269|NCT00186888|164868881|SUPERIORITY_OR_OTHER_LEGACY|||||||0.424||95.0|||||ANOVA|||Pgp Exon 26: The null hypothesis is there is not a statistically significant difference between the genotype groups.||||0.424
82376853|NCT04841577|164460425|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|4.53|||||TWO_SIDED|95.0|-0.77|9.83|||Miettinen and Nurminen|||For the Flu A/Victoria/2570/2019 (H1N1) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||9.83|-0.77|
82465902|NCT02016781|164627454|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year LFS are the same for both treatments.||||0.0030
82465903|NCT02016781|164627454|SUPERIORITY|||||||0.9908||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of response to hypomethylating therapy on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.9908
82465904|NCT02016781|164627454|SUPERIORITY|||||||0.8981||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of patient age (\< or \>= 65) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.8981
82465905|NCT02016781|164627454|SUPERIORITY|||||||0.1465||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of disease duration (less than vs. 3 months or more) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.1465
82465906|NCT02016781|164627454|SUPERIORITY|Statistical significance was determined using a pre-specified threshold of 0.05.||||||0.4991|||||||pseudo-value regression models|||This subgroup analysis investigated the differential impact of IPSS score (Intermediate-2 vs. High) on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4991
82465907|NCT02016781|164627454|SUPERIORITY|||||||0.4953||||||Statistical significance was determined using a pre-specified threshold of 0.05.|pseudo-value regression models|||This subgroup analysis investigated the differential impact of IPSS-R score on the treatment effect for LFS at three years post-consent for the HCT arm vs. the non-HCT arm. The analysis was conducted using pseudo-value regression models via an interaction term between the factor and the treatment group with a logit link function.||||0.4953
82465908|NCT02016781|164627455|SUPERIORITY|||||||0.2777||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the FACT-G scores are the same at Enrollment for both treatments.||||0.2777
82465909|NCT02016781|164627455|SUPERIORITY|||||||0.225||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 6 Months for both treatments.||||0.2250
82545825|NCT00818246|164790959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001|||||||ANCOVA|analysis of covariance (ANCOVA) was used to assess statistical differences between the LED-treated and untreated sides taking into account Age.||Sample sizes and power calculations were generated according to the primary outcome measures of the study. In order to have a 98% chance of detecting as significant (at the two sided 5% level) a 10% difference between the treated and untreated/control sides in the Ra and Rz post-treatment improvement, with an assumed standard deviation of 10, 33 subjects were required. To account for an 80% per protocol completion rate, the planned number of patients to be enrolled was 40.||||<0.0001
82545826|NCT00296036|164790973|SUPERIORITY_OR_OTHER|||||||0.768|||||||Fisher Exact|||||||0.768
82545827|NCT01828554|164790988|OTHER|||||||0.4882||||||A paired t-test will be used to compare the PK parameters between the full weight and limited weight based dosing.|t-test, 2 sided|||The null hypothesis that the AUC from cycle 1 day 1 (based on ideal body weight) is equal to the AUC from cycle 1 day 9 (based on actual body weight) was tested against the alternative hypothesis that the AUCs are not equal. A linear mixed effect model with patient specific random effects was conducted||||0.4882
82465910|NCT02016781|164627455|SUPERIORITY|||||||0.1048||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 12 Months for both treatments.||||0.1048
82465911|NCT02016781|164627455|SUPERIORITY|||||||0.0888||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 18 Months for both treatments.||||0.0888
82465912|NCT02016781|164627455|SUPERIORITY|||||||0.5844||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 24 Months for both treatments.||||0.5844
82465913|NCT02016781|164627455|SUPERIORITY|||||||0.0344||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in FACT-G scores from enrollment are the same at 36 Months for both treatments.||||0.0344
82465914|NCT02016781|164627456|SUPERIORITY|||||||0.5583||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the MOS SF-36 PCS scores are the same at Enrollment for both treatments.||||0.5583
82545828|NCT01828554|164790989|OTHER|||||||0.7497||||||A paired t-test will be used to compare the PK parameters between the full weight and limited weight based dosing.|t-test, 2 sided|||||||0.7497
82545829|NCT05052996|164790995|OTHER||Difference in percentage|1.9|||||TWO_SIDED|95.0|-6.8|11.6|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||11.6|-6.8|
82465915|NCT02016781|164627456|SUPERIORITY|||||||0.669||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 6 Months for both treatments.||||0.6690
82465916|NCT02016781|164627456|SUPERIORITY|||||||0.2089||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 12 Months for both treatments.||||0.2089
82465917|NCT02016781|164627456|SUPERIORITY|||||||0.4343||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 18 Months for both treatments.||||0.4343
82465918|NCT02016781|164627456|SUPERIORITY|||||||0.5942||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 24 Months for both treatments.||||0.5942
82465919|NCT02016781|164627456|SUPERIORITY|||||||0.1615||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 PCS scores from enrollment are the same at 36 Months for both treatments.||||0.1615
82465920|NCT02016781|164627456|SUPERIORITY|||||||0.5659||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the MOS SF-36 MCS scores are the same at Enrollment for both treatments.||||0.5659
82465921|NCT02016781|164627456|SUPERIORITY|||||||0.8555||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 6 Months for both treatments.||||0.8555
82465922|NCT02016781|164627456|SUPERIORITY|||||||0.8995||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 12 Months for both treatments.||||0.8995
82465923|NCT02016781|164627456|SUPERIORITY|||||||0.0105||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 18 Months for both treatments.||||0.0105
82465924|NCT02016781|164627456|SUPERIORITY|||||||0.2596||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 24 Months for both treatments.||||0.2596
82465925|NCT02016781|164627456|SUPERIORITY|||||||0.5022||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in MOS SF-36 MCS scores from enrollment are the same at 36 Months for both treatments.||||0.5022
82465926|NCT02016781|164627457|SUPERIORITY|||||||0.1768||||||Statistical significance was determined using a pre-specified threshold of 0.05.|t-test, 2 sided|||The null hypothesis is that the EQ-5D scores are the same at Enrollment for both treatments.||||0.1768
82465927|NCT02016781|164627457|SUPERIORITY|||||||0.8318||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 6 Months for both treatments.||||0.8318
82465928|NCT02016781|164627457|SUPERIORITY|||||||0.4752||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 12 Months for both treatments.||||0.4752
82465929|NCT02016781|164627457|SUPERIORITY|||||||0.5671||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 18 Months for both treatments.||||0.5671
82499845|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82499846|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82499847|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82499848|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 60: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82499849|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82579270|NCT03898167|164868917|OTHER||Relative Participation|2.36|||||TWO_SIDED|95.0|1.99|2.8||95% CIs were calculated.||||Bivariable tables, Pearson chi-square and Kruskal-Wallis nonparametric tests were used to compare demographic/health care characteristics by study group. Log binomial regression was used to calculate screening proportion, participation difference, and relative participation (calculated as relative risk), with 95% CIs. Overall participation difference and relative participation for SC and SC with patient navigation vs TR were calculated by combining numerators and denominators from each group.||2.80|1.99|
82579271|NCT04696653|164868955|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
82579272|NCT04696653|164868956|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.2|1.8||||||hypertension||1.8|0.2|
82579273|NCT04696653|164868956|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|0.0|2.1||||||dyslipidemia||2.1|0.0|
82465930|NCT02016781|164627457|SUPERIORITY|||||||0.3009||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 24 Months for both treatments.||||0.3009
82465931|NCT02016781|164627457|SUPERIORITY|||||||0.3403||||||Statistical significance was determined using a pre-specified threshold of 0.05.|ANOVA|Changes in scores from enrollment were compared between arms using ANOVA models with treatment arm as main effect and enrollment score as a covariate||The null hypothesis is that the changes in EQ-5D scores from enrollment are the same at 36 Months for both treatments.||||0.3403
82465932|NCT02016781|164627458|SUPERIORITY||||||<|0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year OS are the same for both treatments in treated population.||||< 0.0001
82465933|NCT02016781|164627459|SUPERIORITY||||||<|0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Wald test|||The null hypothesis is that the rates of three-year LFS are the same for both treatments in treated population.||||< 0.0001
82465934|NCT02994108|164627473|SUPERIORITY||Chi-Square|0.415||||0.601|TWO_SIDED||||||Chi-squared|||||||.601
82465935|NCT02994108|164627474|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.249|TWO_SIDED||||||t-test, 2 sided|||||||.249
82465936|NCT02994108|164627475|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.675|TWO_SIDED||||||t-test, 2 sided|||||||.675
82465937|NCT02994108|164627476|SUPERIORITY||Odds Ratio (OR)|3.43||||0.025|TWO_SIDED|95.0|1.17|10.08|||Regression, Logistic|||||10.08|1.17|.025
82465938|NCT02994108|164627477|SUPERIORITY||Odds Ratio (OR)|1.14||||0.923|TWO_SIDED|95.0|0.08|16.95|||Regression, Logistic|||||16.95|0.08|.923
82465939|NCT02994108|164627478|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.174|TWO_SIDED||||||t-test, 2 sided|||||||.174
82465940|NCT02994108|164627479|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.002|TWO_SIDED||||||t-test, 2 sided|||||||.002
82465941|NCT02994108|164627480|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.964|TWO_SIDED||||||t-test, 2 sided|||||||.964
82465942|NCT02994108|164627481|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.053|TWO_SIDED||||||t-test, 2 sided|||||||.053
82579274|NCT04696653|164868956|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.1|2.0||||||diabetes||2.0|0.1|
82465943|NCT02994108|164627482|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.183|TWO_SIDED||||||t-test, 2 sided|||||||.183
82465944|NCT02994108|164627483|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.064|TWO_SIDED||||||t-test, 2 sided|||||||.064
82465945|NCT02994108|164627484|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.147|TWO_SIDED||||||t-test, 2 sided|||||||.147
82465946|NCT02994108|164627485|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.096|TWO_SIDED||||||t-test, 2 sided|||||||.096
82465947|NCT02994108|164627486|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.013|TWO_SIDED||||||t-test, 2 sided|||||||.013
82465948|NCT04386291|164627517|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.071|TWO_SIDED||||||t-test, 1 sided|||||||0.071
82465949|NCT04386291|164627517|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.46|TWO_SIDED||||||t-test, 1 sided|||||||0.46
82579275|NCT04696653|164868957|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||Evidenced based practice||0.1|-0.6|
82579276|NCT04696653|164868957|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1||||||CUSP strategy||0.1|-0.6|
82465950|NCT04386291|164627518|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.01|TWO_SIDED||||||t-test, 1 sided|||||||0.01
82465951|NCT04386291|164627518|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.04|TWO_SIDED||||||t-test, 1 sided|||||||0.04
82465952|NCT04386291|164627519|SUPERIORITY||Mean Difference (Final Values)|-1.47||||0.08|TWO_SIDED||||||t-test, 1 sided|||||||0.08
82465953|NCT04386291|164627519|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.5|TWO_SIDED||||||t-test, 1 sided|||||||0.5
82465954|NCT04386291|164627520|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.25|TWO_SIDED||||||t-test, 1 sided|||||||0.25
82465955|NCT04386291|164627520|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.065|TWO_SIDED||||||t-test, 1 sided|||||||0.065
82579277|NCT04696653|164868958|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.6|0.2||||||CUSP strategy||0.2|-0.6|
82579278|NCT04696653|164868958|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Evidenced based practice||0.1|-0.5|
82579279|NCT04696653|164868959|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||evidenced based practice||0.1|-0.5|
82579280|NCT04696653|164868959|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.5|0.2||||||CUSP strategy||0.2|-0.5|
82579281|NCT04696653|164868960|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.9|2.2||||||||2.2|0.9|
82579282|NCT04696653|164868961|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.1|1.9||||||||1.9|1.1|
82465956|NCT04386291|164627521|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.88|TWO_SIDED||||||t-test, 1 sided|||||||0.88
82465957|NCT04386291|164627521|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.7|TWO_SIDED||||||t-test, 1 sided|||||||0.7
82465958|NCT04386291|164627522|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.038|TWO_SIDED||||||t-test, 1 sided|||||||0.038
82465959|NCT04386291|164627522|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.059|TWO_SIDED||||||t-test, 1 sided|||||||0.059
82465960|NCT04386291|164627523|SUPERIORITY||Median Difference (Final Values)|1.58||||0.9|TWO_SIDED||||||t-test, 1 sided|||Reappraisal subscale analysis||||0.9
82579283|NCT04696653|164868962|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.7|1.4||||||||1.4|0.7|
82465961|NCT04386291|164627523|SUPERIORITY||Mean Difference (Net)|-0.73||||0.23|TWO_SIDED||||||t-test, 1 sided|||Subpression subscale analysis||||0.23
82465962|NCT04386291|164627523|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.7|TWO_SIDED||||||t-test, 1 sided|||Reappraisal subscale analysis||||0.7
82465963|NCT04386291|164627523|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.5|TWO_SIDED||||||t-test, 1 sided|||Suppression subscale analysis||||0.5
82465964|NCT04386291|164627524|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.5|TWO_SIDED||||||ANOVA|||||||0.5
82465965|NCT04386291|164627525|SUPERIORITY||mean rank difference|79.0||||0.076|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Mann-Witney was used because assumption of normality of variance was violated||||||0.076
82465966|NCT04386291|164627525|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.8|TWO_SIDED||||||t-test, 1 sided|||||||0.8
82465967|NCT00989911|164627526|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82465968|NCT02491684|164627607|SUPERIORITY_OR_OTHER||Ratio of proportions|1.29||||0.645|TWO_SIDED|95.0|0.43|3.85|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||3.85|0.43|0.645
82465969|NCT02491684|164627608|SUPERIORITY_OR_OTHER||Ratio of proportions|1.97||||0.411|TWO_SIDED|95.0|0.39|9.89|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 7|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||9.89|0.39|0.411
82465970|NCT02491684|164627608|SUPERIORITY_OR_OTHER||Ratio of proportions|1.25||||0.659|TWO_SIDED|95.0|0.46|3.41|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 30|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||3.41|0.46|0.659
82465971|NCT02491684|164627609|SUPERIORITY_OR_OTHER||Ratio of proportions|1.1||||0.944|TWO_SIDED|95.0|0.08|15.79|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 14|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||15.79|0.08|0.944
82465972|NCT02491684|164627609|SUPERIORITY_OR_OTHER||Ratio of proportions|1.1||||0.944|TWO_SIDED|95.0|0.08|15.79|||log-binomial regression model|The ratio of proportions was calculated by back-transforming the estimated treatment effect.|AZD9412 versus Placebo for Days 1 - 30|Proportions of patients with exacerbations are compared using a log-binomial regression model with treatment group and region as factors.||15.79|0.08|0.944
82465973|NCT02491684|164627610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.634|TWO_SIDED|95.0|0.45|3.77|||Regression, Cox|Hazard ratio was calculated adjusting for treatment group and region.|AZD9412 versus Placebo|Analysis of time to first severe exacerbation within 30 days of treatment start.||3.77|0.45|0.634
82545830|NCT05052996|164790996|OTHER||Difference in percentage|-1.9|||||TWO_SIDED|95.0|-12.4|8.6|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||8.6|-12.4|
82545831|NCT05052996|164790997|OTHER||Difference in percentage|1.9|||||TWO_SIDED|95.0|-8.6|12.4|||||The difference in percentages between treatment groups and their 95% CI were calculated based on unconditional exact method using 2 inverted 1-sided tests.|||12.4|-8.6|
82545832|NCT05052996|164790998|OTHER||difference in least squares means|-68.0||||0.3859|TWO_SIDED|95.0|-226.0|91.0|||ANOVA||P-value, difference in least squares means (Diff in LSM), and its 95% confidence interval (CI) were from ANOVA model with treatment group as a fixed effect in the model.|||91|-226|0.3859
82465974|NCT02491684|164627611|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.973|TWO_SIDED|95.0|0.07|16.78|||Regression, Cox|Hazard ratio was calculated adjusting for treatment group and region.|AZD9412 versus Placebo|Analysis of time to first moderate exacerbation within 30 days of treatment start.||16.78|0.07|0.973
82465975|NCT02491684|164627613|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|0.09||||0.495|TWO_SIDED|95.0|-0.17|0.35|||ANCOVA|Change from baseline is analysed using an Analysis of Covariance (ANCOVA) model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo for change from baseline in total score at Visit 4.|Analysis of change from baseline in total score at Visit 4.||0.35|-0.17|0.495
82545833|NCT05052996|164790998|OTHER||difference in least squares means|13.0||||0.7085|TWO_SIDED|95.0|-56.0|82.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||82|-56|0.7085
82465976|NCT02491684|164627613|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06||||0.715|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in total score at Visit 6.||0.38|-0.26|0.715
82465977|NCT02491684|164627613|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.687|TWO_SIDED|95.0|-0.42|0.28|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in total score at Visit 8.||0.28|-0.42|0.687
82465978|NCT02491684|164627614|SUPERIORITY_OR_OTHER||LS Mean difference|0.11||||0.516|TWO_SIDED|95.0|-0.23|0.45|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 1-14.||0.45|-0.23|0.516
82465979|NCT02491684|164627614|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.417|TWO_SIDED|95.0|-0.16|0.37|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 1-7.||0.37|-0.16|0.417
82545834|NCT05052996|164790999|OTHER||difference in least squares means|33.0||||0.3477|TWO_SIDED|95.0|-37.0|103.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||103|-37|0.3477
82579284|NCT04696653|164868963|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||||2.6|1.2|
82579285|NCT04696653|164868968|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.0|1.6||||||||1.6|1.0|
82650357|NCT04136626|165015851|SUPERIORITY||Mean Difference (Final Values)|-2.7992||||0.1289|TWO_SIDED|95.0|-6.4246|0.8262||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in functional impairment (WSAS total scores) between the treatment groups at endpoint (week 12).||0.8262|-6.4246|0.1289
82650358|NCT04136626|165015851|SUPERIORITY||Difference in the amount of change|-4.5704||||0.0137|TWO_SIDED|95.0|-8.1939|-0.9468||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment functional impairment (WSAS total scores) between the treatment groups.||-0.9468|-8.1939|0.0137
82650359|NCT04136626|165015852|SUPERIORITY||Mean Difference (Final Values)|4.3953||||0.1796|TWO_SIDED|95.0|-2.0543|10.8448||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the Perspectives OCD group outcome compared to the Health and Well-Being Program group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in quality of life (Q-LES-Q-SF percentage scores) between the treatment groups at endpoint (week 12).||10.8448|-2.0543|0.1796
82650360|NCT04136626|165015852|SUPERIORITY||Difference in the amount of change|6.7962||||0.04|TWO_SIDED|95.0|0.314|13.2785||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a first-order heterogeneous auto-regressive (ARH(1)) covariance structure.|The effect is presented as the difference in the amount of symptom reduction (week 12 - week 0) between Perspectives OCD and the Health and Well-Being Program group (i.e., a group difference in the amount of change over time).|Null hypothesis: there is no significant difference in the change from baseline to end-of-treatment quality of life (Q-LES-Q-SF percentage scores) between the treatment groups.||13.2785|0.3140|0.0400
82650361|NCT02060461|165015879|OTHER|||||||0.003|||||||t-test, 2 sided|||Paired Students t-test of FS200 and IntraLase intraoperative flap thickness measurements obtained by ultrasound pachymetry||||.003
82465980|NCT02491684|164627614|SUPERIORITY_OR_OTHER||LS mean difference|0.01||||0.954|TWO_SIDED|95.0|-0.34|0.36|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 8-14.||0.36|-0.34|0.954
82465981|NCT02491684|164627614|SUPERIORITY_OR_OTHER||LS Mean difference|0.0||||0.985|TWO_SIDED|95.0|-0.35|0.35|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline in total score over Days 15-30.||0.35|-0.35|0.985
82650362|NCT01133821|165015884|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||time effect for HRSD-17||||<0.0001
82465982|NCT02491684|164627616|SUPERIORITY_OR_OTHER||LS Mean difference|-0.07||||0.66|TWO_SIDED|95.0|-0.38|0.24|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in overall score at Visit 6.||0.24|-0.38|0.660
82465983|NCT02491684|164627616|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09||||0.624|TWO_SIDED|95.0|-0.48|0.29|||ANCOVA|Change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of change from baseline in overall score at Visit 8.||0.29|-0.48|0.624
82465984|NCT02491684|164627617|SUPERIORITY_OR_OTHER||LS Mean difference|0.54||||0.309|TWO_SIDED|95.0|-0.51|1.59|||ANCOVA|AUC for change from baseline is analysed using an ANCOVA model with treatment and region as factors and baseline value as covariate.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||1.59|-0.51|0.309
82465985|NCT02491684|164627618|SUPERIORITY_OR_OTHER||LS Mean difference|16.98||||0.059|TWO_SIDED|95.0|-0.63|34.6|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||34.60|-0.63|0.059
82465986|NCT02491684|164627618|SUPERIORITY_OR_OTHER||LS Mean difference|19.35||||0.01|TWO_SIDED|95.0|4.66|34.05|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||34.05|4.66|0.010
82579286|NCT04696653|164868969|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
82650363|NCT01133821|165015885|SUPERIORITY||||||>|0.05|||||||Regression, Linear|Adjusted for baseline scores||||||>0.05
82499850|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82499851|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82650364|NCT00803959|165015886|NON_INFERIORITY_OR_EQUIVALENCE|The investigators selected the 11% noninferiority margin on the basis of clinical judgement that it was a reasonable threshold for a trade-off between a decrease in the rate of successful treatment and the potential benefits of eliminating UDS studies from preoperative assessment. To minimize bias toward noninferiority, only women treated per protocol (e.g. who underwent the randomly assigned evaluation) were considered in the primary outcome analysis (ITT analysis considered secondary).|Difference in success % (UDS - no UDS)|-0.3|||||TWO_SIDED|95.0|-7.5|6.9|||Chi-squared|Noninferiority declared if the upper boundary of the two-sided 95% confidence interval for the difference in % success (UDS - no UDS) was \< 11%.|Point estimates of success percentage are calculated as 200/259= 77.2% for Office Evaluation Only and 203/264 = 76.9% for Urodynamic Testing arm.|The null hypothesis was that the no UDS group was non-inferior to those in the UDS group. Assuming a significance level of 5% and a true success rate in each group of 70% with a noninferiority margin of 11 percentage points, we needed to enroll 270 women/group to have 80% power for determining whether the results in the no UDS group were non inferior to those in the UDS group. Assuming a 10% dropout rate, a sample of 300 women per group was required.||6.9|-7.5|
82650365|NCT00803959|165015887|SUPERIORITY_OR_OTHER|||||||0.63||95.0||||The p-value is not adjusted for multiple comparisons. Alpha level is considered to be 0.05.|Chi-squared|No adjustments were made; test had 1 degree of freedom.||Null hypothesis is that the two groups will not differ in the percent meeting 70% reduction in Urogenital Distress Inventory score.||||0.63
82650366|NCT00803959|165015888|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||P-value not adjusted for multiple comparisons; a priori threshold for statistical significance set at alpha = 0.05.|Chi-squared|No adjustments made; 1 degree of freedom test.||"Null hypothesis is that there is no difference in the proportion responding very much better or much better on the Patient Global Impression of Improvement at the 12 month visit."||||0.68
82650367|NCT00803959|165015889|SUPERIORITY_OR_OTHER|||||||0.68||95.0||||P-value is not adjusted for multiple comparisons; a priori threshold for statistical significance was set at alpha = 0.05.|t-test, 2 sided|One df t test assumed equal variance; no evidence was found to the contrary.||Null hypothesis is that the two arms do not differ according to change in UDI score.||||0.68
82650368|NCT00803959|165015890|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||P-value was not adjusted for multiple comparisons; a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|Test was 1 df t-test assuming equal variances; no evidence to the contrary was found.||Null hypothesis is that the 2 arms do not differ according to change in ISI score.||||0.40
82650369|NCT00803959|165015891|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||P-value not adjusted for multiple comparisons; a priori threshold was alpha = 0.05.|t-test, 2 sided|The t test had 1 df assuming equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ in change in MESA stress score.||||0.50
82465987|NCT02491684|164627618|SUPERIORITY_OR_OTHER||LS Mean difference|14.38||||0.153|TWO_SIDED|95.0|-5.44|34.2|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||34.20|-5.44|0.153
82465988|NCT02491684|164627618|SUPERIORITY_OR_OTHER||LS Mean difference|19.26||||0.096|TWO_SIDED|95.0|-3.44|41.97|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||41.97|-3.44|0.096
82465989|NCT02491684|164627619|SUPERIORITY_OR_OTHER||LS Mean difference|0.07||||0.161|TWO_SIDED|95.0|-0.03|0.17|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||0.17|-0.03|0.161
82465990|NCT02491684|164627619|SUPERIORITY_OR_OTHER||LS Mean difference|0.08||||0.087|TWO_SIDED|95.0|-0.01|0.17|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||0.17|-0.01|0.087
82465991|NCT02491684|164627619|SUPERIORITY_OR_OTHER||LS Mean difference|0.06||||0.28|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||0.16|-0.05|0.280
82579287|NCT04696653|164868970|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82465992|NCT02491684|164627619|SUPERIORITY_OR_OTHER||LS Mean difference|0.11||||0.086|TWO_SIDED|95.0|-0.02|0.24|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||0.24|-0.02|0.086
82579288|NCT04696653|164868971|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.1||||||||0.1|-0.2|
82650370|NCT00803959|165015892|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|The t test had 1 df and assumed equal variances; no evidence of different variances was found.||Null hypothesis is that the two arms do not differ according to change in MESA urgency score.||||0.19
82650371|NCT00803959|165015893|SUPERIORITY_OR_OTHER|||||||0.49||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05|t-test, 2 sided|T test had 1 df and assumed equal variance; no evidence of different variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in IIQ score.||||0.49
82465993|NCT02491684|164627620|SUPERIORITY_OR_OTHER||LS Mean difference|11.69||||0.211|TWO_SIDED|95.0|-6.76|30.14|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||30.14|-6.76|0.211
82579289|NCT04696653|164868972|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82579290|NCT04696653|164868973|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
82650372|NCT00803959|165015894|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value not adjusted for multiple comparisons and a priori threshold for statistical significance set at alpha = 0.05.|t-test, 2 sided|T test had 1 df assuming equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in SF-12 scores.||||0.02
82465994|NCT02491684|164627620|SUPERIORITY_OR_OTHER||LS Mean difference|11.19||||0.125|TWO_SIDED|95.0|-3.18|25.56|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||25.56|-3.18|0.125
82465995|NCT02491684|164627620|SUPERIORITY_OR_OTHER||LS Mean difference|11.14||||0.277|TWO_SIDED|95.0|-9.08|31.36|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||31.36|-9.08|0.277
82465996|NCT02491684|164627620|SUPERIORITY_OR_OTHER||LS Mean difference|17.13||||0.161|TWO_SIDED|95.0|-6.92|41.18|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||41.18|-6.92|0.161
82465997|NCT02491684|164627621|SUPERIORITY_OR_OTHER||LS Mean difference|0.06||||0.287|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-14.||0.16|-0.05|0.287
82465998|NCT02491684|164627621|SUPERIORITY_OR_OTHER||LS Mean difference|0.04||||0.457|TWO_SIDED|95.0|-0.06|0.14|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 1-7.||0.14|-0.06|0.457
82465999|NCT02491684|164627621|SUPERIORITY_OR_OTHER||LS Mean difference|0.05||||0.315|TWO_SIDED|95.0|-0.05|0.16|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 8-14.||0.16|-0.05|0.315
82545835|NCT05052996|164791000|OTHER||difference in least squares means|-5.0||||0.8849|TWO_SIDED|95.0|-76.0|66.0|||ANCOVA||P-value, difference in least squares means (Diff in LSM), and its 95% CI were from ANCOVA model with baseline value as a covariate and treatment as a fixed effect in the model.|||66|-76|0.8849
82545836|NCT03951805|164791012|OTHER||Treatment difference|0.76||||0.7675|TWO_SIDED|95.0|-4.28|5.8|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||5.80|-4.28|0.7675
82545837|NCT03951805|164791012|OTHER||Treatment difference|7.08||||0.0051|TWO_SIDED|95.0|2.12|12.04|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||12.04|2.12|0.0051
82545838|NCT03951805|164791012|OTHER||Treatment difference|5.01||||0.0519|TWO_SIDED|95.0|-0.04|10.05|||ANCOVA|||The response and change from baseline in response during the last two weeks of treatment (week 15 and 16) are analysed using an analysis of covariance (ANCOVA) model with treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values are imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset is analysed separately and estimates are combined using Rubin's rules.||10.05|-0.04|0.0519
82545839|NCT01198145|164791052|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82545840|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Chi-squared|||Comparing Tenesmus During RT||||0.23
82545841|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||Chi-squared|||Comparing Tenesmus after RT||||0.64
82545842|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|||||||Chi-squared|||Comparing abdominal pain during RT.||||0.30
82545843|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||Comparing abdominal pain after RT||||0.02
82466000|NCT02491684|164627621|SUPERIORITY_OR_OTHER||LS Mean difference|0.09||||0.134|TWO_SIDED|95.0|-0.03|0.22|||ANCOVA|Analysis uses an ANCOVA model with treatment, region, gender, and smoking status as factors, and baseline value and height as covariates.|AZD9412 versus Placebo|Analysis of AUC for change from baseline over Days 15-30.||0.22|-0.03|0.134
82466001|NCT00771914|164627657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from baseline compared to four hours after placebo.||||0.00
82545844|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7|||||||Chi-squared|||Comparing constipation during RT||||0.70
82545845|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|||||||Chi-squared|||Comparing constipation after RT||||0.63
82545846|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Chi-squared|||Comparing diarrhea during RT||||0.44
82579291|NCT04696653|164868974|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.3|0.0||||||||0.0|-0.3|
82545847|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|||||||Chi-squared|||Comparing diarrhea after RT||||0.48
82545848|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|||||||Chi-squared|||Comparing rectal bleeding during RT||||0.38
82545849|NCT01198145|164791053|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|||||||Chi-squared|||||||0.15
82545850|NCT01198145|164791054|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||Wilcoxon (Mann-Whitney)|||Result comparing Arm I and Arm II during RT.||||0.56
82545851|NCT01198145|164791054|SUPERIORITY_OR_OTHER_LEGACY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Result comparing Arm I and Arm II after RT.||||0.74
82545852|NCT03830866|164791060|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.174|TWO_SIDED|95.0|0.65|1.08|||Log Rank|||||1.08|0.65|0.174
82545853|NCT03830866|164791061|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.203|TWO_SIDED|95.0|0.64|1.1|||Log Rank|||||1.10|0.64|0.203
82545854|NCT03830866|164791063|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.091|TWO_SIDED|95.0|0.6|1.04|||Log Rank|||||1.04|0.60|0.091
82579292|NCT04696653|164868975|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||||0.3|-0.1|
82466002|NCT00771914|164627657|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12.0||||0.31|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from Aspirin compared to Placebo.||||0.31
82466003|NCT00771914|164627657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0||||0.49|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from Lovaza compared to Placebo.||||0.49
82466004|NCT00771914|164627657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0||||0.03|TWO_SIDED|95.0||||The analyses were not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The Wilcoxon Signed-Rank Test was used to determine significant differences between the closure time effect (clotting)in seconds from both Aspirin and Lovaza compared to Placebo.||||0.03
82466005|NCT01283555|164627682|SUPERIORITY_OR_OTHER|||||||0.487||95.0||||The p-value presented here represents a comparison of the total number of non-iatrogenic findings at baseline and after one week of product use.|Fisher Exact|||Fishers exact test was used to compare the frequency of non-iatrogenic colposcopic findings at baseline and follow-up visits (after one week of twice-daily product use).||||0.4870
82466006|NCT01377584|164627707|OTHER||Effect size|-0.51|||||TWO_SIDED|||||||||||||
82466007|NCT01377584|164627707|OTHER||Effect size|-0.42|||||TWO_SIDED|||||||||||||
82466008|NCT01377584|164627707|OTHER||Effect size|-0.82|||||TWO_SIDED|||||||||||||
82545855|NCT03830866|164791064|SUPERIORITY||Odds Ratio (OR)|1.15||||0.465|TWO_SIDED|95.0|0.794|1.657|||Regression, Logistic|||||1.657|0.794|0.465
82545856|NCT03830866|164791065|SUPERIORITY||Odds Ratio (OR)|1.11||||0.469|TWO_SIDED|95.0|0.833|1.487|||Regression, Logistic|||||1.487|0.833|0.469
82579293|NCT04696653|164868976|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.2||||||||0.2|-0.1|
82466009|NCT01377584|164627707|OTHER||Effect size|-1.31|||||TWO_SIDED|||||||||||||
82466010|NCT01377584|164627707|OTHER||Effect size|-0.08|||||TWO_SIDED|||||||||||||
82466011|NCT01377584|164627707|OTHER||Effect size|-0.77|||||TWO_SIDED|||||||||||||
82466012|NCT01377584|164627708|OTHER||Effect size|0.51|||||TWO_SIDED|||||||||||||
82466013|NCT01377584|164627708|OTHER||Effect size|0.41|||||TWO_SIDED|||||||||||||
82466014|NCT01377584|164627708|OTHER||Effect size|0.57|||||TWO_SIDED|||||||||||||
82466015|NCT01377584|164627708|OTHER||Effect size|1.54|||||TWO_SIDED|||||||||||||
82466016|NCT01377584|164627708|OTHER||Effect size|0.0|||||TWO_SIDED|||||||||||||
82466017|NCT01377584|164627708|OTHER||Effect size|0.65|||||TWO_SIDED|||||||||||||
82466018|NCT01377584|164627709|OTHER||Effect size|-1.01|||||TWO_SIDED|||||||||||||
82466019|NCT01377584|164627709|OTHER||Effect size|-0.94|||||TWO_SIDED|||||||||||||
82466020|NCT01377584|164627709|OTHER||Effect size|-0.4|||||TWO_SIDED|||||||||||||
82466021|NCT01377584|164627709|OTHER||Effect size|-0.31|||||TWO_SIDED|||||||||||||
82466022|NCT01377584|164627709|OTHER||Effect size|-0.65|||||TWO_SIDED|||||||||||||
82466023|NCT01377584|164627709|OTHER||Effect size|-0.77|||||TWO_SIDED|||||||||||||
82466024|NCT01377584|164627710|OTHER||Effect size|0.52|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
82466025|NCT01377584|164627710|OTHER||Effect size|-0.63|||||TWO_SIDED||||||||Comparing 1 month and 3 months|||||
82466026|NCT01377584|164627710|OTHER||Effect size|0.5|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
82466027|NCT01377584|164627710|OTHER||Effect size|-0.63|||||TWO_SIDED||||||||Comparing 1 month to 3 months|||||
82466028|NCT01377584|164627710|OTHER||Effect size|-0.92|||||TWO_SIDED||||||||Comparing 1 week to 1 month|||||
82466029|NCT01377584|164627710|OTHER||Effect size|-0.26|||||TWO_SIDED||||||||Comparing 1 month to 3 months|||||
82466030|NCT04576988|164627711|OTHER||Treatment difference|40.8|||<|0.001|TWO_SIDED|95.0|27.53|54.14||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|Aligned Rank Stratified Wilcoxon (ARSW)|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% confidence interval (CI) was reported.|||54.14|27.53|<0.001
82466031|NCT04576988|164627714|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|A 2-sided p-value was calculated using Cochran-Mantel-Haenszel (CMH) method with WHO FC II/III and background PAH therapy as strata.||||||<0.001
82466032|NCT04576988|164627715|OTHER||Treatment difference|-234.6|||<|0.001|TWO_SIDED|95.0|-288.37|-180.75||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-180.75|-288.37|<0.001
82466033|NCT04576988|164627716|OTHER||Treatment difference|-441.6|||<|0.001|TWO_SIDED|95.0|-573.54|-309.61||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-309.61|-573.54|<.001
82466034|NCT04576988|164627717|OTHER|A 2-sided p-value was calculated using CMH method with WHO FC II/III and background PAH therapy as strata.|||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82466035|NCT04576988|164627718|OTHER|A 2-sided p-value was calculated using Log rank test with WHO FC II/III and background PAH therapy as strata.|Hazard Ratio (HR)|0.163|||<|0.001|TWO_SIDED|95.0|0.076|0.347|||Log Rank||Cox proportional hazard model was used to generate hazard ratio (HR) and 95% CI was reported with treatment group as the covariate stratified by the WHO FC II/III and background PAH therapy.|||0.347|0.076|<0.001
82466036|NCT04576988|164627719|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|A 2-sided p-value was calculated using Cochran-Mantel-Haenszel (CMH) method with WHO FC II/III and background PAH therapy as strata.||||||<0.001
82545857|NCT01736215|164791086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.343||||0.266|TWO_SIDED|95.0|0.052|2.261||The binary logistic regression analysis was performed using a crude model between predictor variable endogenous EPO (EPO less than or equal to 45.2 and EPO greater than 45.3)|Regression, Logistic|||||2.261|0.052|0.266
82545858|NCT01736215|164791087|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.125||||0.05|TWO_SIDED|95.0|0.016|0.999||The binary logistic regression analysis was performed using a crude model between predictor variable CRP (CRP less than or equal to 10.3 and CRP greater than 10.4)|Regression, Logistic|||||0.999|0.016|0.05
82579294|NCT04696653|164868977|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82466037|NCT04576988|164627720|OTHER||Treatment difference|-0.26||||0.01|TWO_SIDED|95.0|-0.49|-0.04||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-0.040|-0.490|0.010
82466038|NCT04576988|164627721|OTHER||Treatment difference|-0.13||||0.028|TWO_SIDED|95.0|-0.256|-0.014||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||-0.014|-0.256|0.028
82466039|NCT04576988|164627722|OTHER||Treatment difference|-0.16||||0.156|TWO_SIDED|95.0|-0.399|0.084||A 2-sided p-value was calculated using ARSW test with WHO FC II/III and background PAH therapy as strata.|ARSW test|Participants who died were assigned the worst rank and who had missing data due to non-fatal clinical worsening event were assigned next worst-rank.|Hodges-Lehmann location-shift estimate of the overall treatment difference with 95% CI was reported.|||0.084|-0.399|0.156
82545859|NCT03447249|164791094|SUPERIORITY||Least Squares (LS) Mean Difference|14.0|||<|0.0001|TWO_SIDED|95.0|12.4|15.7|||Mixed-effects model for repeated measure|||The data presented for Primary endpoint was based on interim analysis at Week 4.||15.7|12.4|<0.0001
82545860|NCT03447249|164791095|SUPERIORITY||LS Mean Difference|14.2|||<|0.0001|TWO_SIDED|95.0|12.6|15.7|||Mixed-effects model for repeated measure|||||15.7|12.6|<0.0001
82545861|NCT03447249|164791096|SUPERIORITY||Rate ratio|0.14|||<|0.0001|TWO_SIDED|95.0|0.09|0.24|||Negative binomial regression model|||||0.24|0.09|<0.0001
82545862|NCT03447249|164791097|SUPERIORITY||LS Mean Difference|-44.6|||<|0.0001|TWO_SIDED|95.0|-47.2|-41.9|||Mixed-effects model for repeated measure|||||-41.9|-47.2|<0.0001
82545863|NCT03447249|164791098|SUPERIORITY||LS Mean Difference|20.1|||<|0.0001|TWO_SIDED|95.0|17.2|23.0|||Mixed-effects model for repeated measure|||||23.0|17.2|<0.0001
82545864|NCT03447249|164791099|SUPERIORITY||LS Mean Difference|1.11|||<|0.0001|TWO_SIDED|95.0|0.91|1.31|||Mixed-effects model for repeated measure|||||1.31|0.91|<0.0001
82545865|NCT03447249|164791100|SUPERIORITY||LS Mean Difference|-43.4|||<|0.0001|TWO_SIDED|95.0|-46.3|-40.5|||Mixed-effects model for repeated measure|||||-40.5|-46.3|<0.0001
82545866|NCT03447249|164791101|SUPERIORITY||LS Mean Difference|17.9|||<|0.0001|TWO_SIDED|95.0|14.5|21.3|||Mixed-effects model for repeated measure|||||21.3|14.5|<0.0001
82545867|NCT03447249|164791103|SUPERIORITY||LS Mean Difference|0.39|||||TWO_SIDED|95.0|0.24|0.54||||||||0.54|0.24|
82545868|NCT03447249|164791104|SUPERIORITY||LS Mean Difference|3.2|||||TWO_SIDED|95.0|2.7|3.8||||||||3.8|2.7|
82545869|NCT00390299|164791147|OTHER||Maximum Tolerated Dose (x 10^7 TCID50)|1.0|||||TWO_SIDED|||||||||||||
82545870|NCT00390299|164791147|OTHER||Maximum Tolerated Dose (x 10^7 TCID50)|1.0|||||TWO_SIDED|||||||||||||
82545871|NCT00390299|164791151|SUPERIORITY||Hazard Ratio (HR)|1.66||||0.28|TWO_SIDED|95.0|0.67|4.11|||Log Rank|||||4.11|0.67|0.28
82545872|NCT04870645|164791174|OTHER||||||<|0.05|||||||Statistical Significance|||||||< 0.05
82545873|NCT01600014|164791188|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.44||||0.001|TWO_SIDED|95.0|1.32|4.51||Chi-square test for stratified data with a significance level of 5%. No adjustment for multiple tests was needed, due to the analyses were based on distinct subject groups|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 141 subjects were included||4.51|1.32|0.001
82545874|NCT01600014|164791188|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.37||||0.013|TWO_SIDED|95.0|1.07|5.25||Chi-square test for stratified data with a significance level of 5%. No adjustment for multiple tests was needed, due to the analyses were based on distinct subject groups|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and week of randomisation||The analysis type was superiority between groups. In total 62 subjects were included||5.25|1.07|0.013
82545875|NCT01600014|164791189|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|4.41||||0.016|TWO_SIDED|95.0|1.1|17.62||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 141 subjects were included||17.62|1.10|0.016
82545876|NCT01600014|164791189|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.24||||0.1|TWO_SIDED|95.0|0.78|6.47||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel ratio of clearance rates (Ingenol mebutate relative to Vehicle) adjusted for anatomical location and country||The analysis type was superiority between groups. In total 62 subjects were included||6.47|0.78|0.10
82545877|NCT01600014|164791189|SUPERIORITY_OR_OTHER_LEGACY||Percent cleared subjects|50.0|||||TWO_SIDED|95.0|44.0|56.1|||||Estimation based on completers only.|Subjects randomised to vehicle were not included in the estimate of the overall clearance rate for the repeat-use regimen, from last treatment throught to Month 12. Instead, the subjects randomised to ingenol mebutate were given higher weights to reflect the hypothetical scenario where all randomised subjects were given active treatment during the repeat use cycle||56.1|44.0|
82545878|NCT01600014|164791190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.38|-0.38||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|ANCOVA|Analysed using ANCOVA adjusted for anatomical location, country and AK count at randomisation|Using baseline observation carried forward (BOCF) as the imputation method.|The analysis type was superiority between groups. In total 141 subjects were included||-0.38|-1.38|<0.001
82579295|NCT04696653|164868978|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.4|0.0||||||||0.0|-0.4|
82579296|NCT04696653|164868979|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.0|3.3||||||||3.3|1.0|
82579297|NCT04348435|164869001|SUPERIORITY||Mean Difference (Net)|0.253|STANDARD_ERROR_OF_MEAN|0.49||0.6113|TWO_SIDED|95.0|||||ANCOVA|||||||0.6113
82579298|NCT04348435|164869001|SUPERIORITY||Mean Difference (Net)|-0.434|STANDARD_ERROR_OF_MEAN|0.638||0.5039|TWO_SIDED|95.0|||||ANCOVA|||||||0.5039
82579299|NCT04348435|164869001|SUPERIORITY||Mean Difference (Net)|0.077|STANDARD_ERROR_OF_MEAN|0.555||0.8903|TWO_SIDED|95.0|||||ANCOVA|||||||0.8903
82579300|NCT04348435|164869002|SUPERIORITY||Mean Difference (Net)|-0.247|STANDARD_ERROR_OF_MEAN|1.056||0.8171|TWO_SIDED|95.0|||||ANCOVA|||||||0.8171
82579301|NCT04348435|164869002|SUPERIORITY||Mean Difference (Net)|-0.913|STANDARD_ERROR_OF_MEAN|1.342||0.5034|TWO_SIDED|95.0|||||ANCOVA|||||||0.5034
82579302|NCT04348435|164869002|SUPERIORITY||Mean Difference (Net)|0.008|STANDARD_ERROR_OF_MEAN|1.193||0.9948|TWO_SIDED|95.0|||||ANCOVA|||||||0.9948
82579303|NCT04348435|164869003|SUPERIORITY||Mean Difference (Net)|0.179|STANDARD_ERROR_OF_MEAN|0.156||0.2641|TWO_SIDED|95.0|||||ANCOVA|||||||0.2641
82579304|NCT04348435|164869003|SUPERIORITY||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.198||0.822|TWO_SIDED|95.0|||||ANCOVA|||||||0.8220
82579305|NCT04348435|164869003|SUPERIORITY||Median Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.171||0.3097|TWO_SIDED|95.0|||||ANCOVA|||||||0.3097
82579306|NCT04348435|164869004|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.07||1|TWO_SIDED|95.0|||||ANCOVA|||||||1.000
82545879|NCT01600014|164791190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.01|||<|0.001|TWO_SIDED|95.0|-1.52|-0.51||A closed test procedure was chosen where the evaluation process stopped when the first non-significant results were observed thus securing that the overall significance level did not exceed 5% for multiple testing|ANCOVA|Sensitivity analysis using complete cases|Sensitivity analysis using complete cases|The analysis type was superiority between groups. In total 141 subjects were included||-0.51|-1.52|<0.001
82579307|NCT04348435|164869004|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.087||1|TWO_SIDED|95.0|||||ANCOVA|||||||1.000
82545880|NCT01600014|164791190|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69||||0.008|TWO_SIDED|95.0|-1.19|-0.19||Formal statistical significance could not be established because of the closed test procedure where the first secondary endpoint tested (12 months clearance) did not reach statistical significance in the recurrent subgroup|ANCOVA|Analysed using ANCOVA adjusted for anatomical location, country and AK count at randomisation|Using BOCF as the imputation method, the difference in the adjusted mean AK count between the ingenol mebutate and vehicle groups|The analysis type was superiority between groups. In total 62 subjects were included||-0.19|-1.19|0.008
82545881|NCT02975505|164791192|SUPERIORITY||beta|11.7|||<|0.05|TWO_SIDED|95.0|7.5|16.0|||Mixed Models Analysis|||||16|7.5|<0.05
82545882|NCT02975505|164791195|SUPERIORITY||beta|12.5||||0.05|TWO_SIDED|95.0|8.0|16.0|||Mixed Models Analysis|||||16|8|0.05
82579308|NCT04348435|164869004|SUPERIORITY||Mean Difference (Net)|0.112|STANDARD_ERROR_OF_MEAN|0.079||0.1713|TWO_SIDED|95.0|||||ANCOVA|||||||0.1713
82579309|NCT04348435|164869005|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.091||0.3868|TWO_SIDED|95.0|||||ANCOVA|||||||0.3868
82466040|NCT01576341|164627724|OTHER||Incidence rate|0.019|||||TWO_SIDED||||||||Incidence rate is based on duration of treatment period (years)|||||
82579310|NCT04348435|164869005|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|0.115||0.9429|TWO_SIDED|95.0|||||ANCOVA|||||||0.9429
82579311|NCT04348435|164869005|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|0.103||0.9362|TWO_SIDED|95.0|||||ANCOVA|||||||0.9362
82579312|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|-0.708|STANDARD_ERROR_OF_MEAN|8.38||0.9333|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.9333
82579313|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|8.78|STANDARD_ERROR_OF_MEAN|9.483||0.3627|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.3627
82579314|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|6.282|STANDARD_ERROR_OF_MEAN|7.604||0.416|TWO_SIDED|95.0|||||ANCOVA|||Average Energy/Fatigue - Treatment Contrast||||0.4160
82579315|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|0.52|STANDARD_ERROR_OF_MEAN|3.32||0.8768|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.8768
82579316|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|-7.719|STANDARD_ERROR_OF_MEAN|4.344||0.0869|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.0869
82579317|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|1.434|STANDARD_ERROR_OF_MEAN|3.514||0.6864|TWO_SIDED|95.0|||||ANCOVA|||Average Social Functioning - Treatment Contrast||||0.6864
82579318|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|-4.12|STANDARD_ERROR_OF_MEAN|3.571||0.2587|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.2587
82579319|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|8.417|STANDARD_ERROR_OF_MEAN|5.316||0.125|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.1250
82579320|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|-0.104|STANDARD_ERROR_OF_MEAN|3.732||0.978|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Physical Health - Treatment Contrast||||0.9780
82579321|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|0.963|STANDARD_ERROR_OF_MEAN|5.925||0.8721|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.8721
82579322|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|3.34|STANDARD_ERROR_OF_MEAN|7.735||0.6694|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.6694
82579323|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|5.498|STANDARD_ERROR_OF_MEAN|6.073||0.3733|TWO_SIDED|95.0|||||ANCOVA|||Average General Health - Treatment Contrast||||0.3733
82579324|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|2.433|STANDARD_ERROR_OF_MEAN|4.116||0.5594|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.5594
82579325|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|6.878|STANDARD_ERROR_OF_MEAN|5.389||0.2127|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.2127
82579326|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|3.67|STANDARD_ERROR_OF_MEAN|4.303||0.4012|TWO_SIDED|95.0|||||ANCOVA|||Average Physical Functioning - Treatment Contrast||||0.4012
82579327|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|11.678|STANDARD_ERROR_OF_MEAN|5.748||0.0521|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.0521
82579328|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|5.635|STANDARD_ERROR_OF_MEAN|7.696||0.4704|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.4704
82579329|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|12.101|STANDARD_ERROR_OF_MEAN|6.017||0.0544|TWO_SIDED|95.0|||||ANCOVA|||Average Pain - Treatment Contrast||||0.0544
82545883|NCT02791230|164791203|SUPERIORITY||Hazard Ratio (HR)|0.6202||||0.0001|TWO_SIDED|95.0|0.4865|0.7906|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, Transthyretin (TTR) genotype (variant and wild-type) and New York Heart Association (NYHA) baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.7906|0.4865|0.0001
82545884|NCT02791230|164791206|SUPERIORITY||Hazard ratio|0.6133||||0.0005|TWO_SIDED|95.0|0.4666|0.8062|||Cox Proportional Hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and NYHA baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.8062|0.4666|0.0005
82466041|NCT00395746|164627776|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.27|||<|0.0001||95.0|-1.51|1.02||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and HbA1C at baseline as a covariate. Two null hypotheses were statistically tested:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively. When the test of comparison between 0.9 mg+SU and SU mono was significant, the test of comparison between 0.6 mg+SU and SU mono was performed."||1.02|-1.51|<0.0001
82466042|NCT00395746|164627776|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.0|||<|0.0001||95.0|-1.24|-0.75|||ANOVA|A significance level of a two-sided 5% was used for statistical hypothesis testing.||"ANOVA model included treatment group and pre-trial SU as fixed effects and HbA1C at baseline as a covariate. Two null hypotheses were statistically tested:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively. When the test of comparison between 0.9 mg+SU and SU mono was significant, the test of comparison between 0.6 mg+SU and SU mono was performed."||-0.75|-1.24|<0.0001
82466043|NCT00395746|164627777|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.33||||||95.0|-1.62|-1.04|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.04|-1.62|
82466044|NCT00395746|164627777|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.96||||||95.0|-1.25|-0.67|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-0.67|-1.25|
82466045|NCT00395746|164627778|SUPERIORITY_OR_OTHER||Least Squares Mean|-32.4|||<|0.0001||95.0|-40.5|-24.2||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%: H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively.||-24.2|-40.5|<0.0001
82466046|NCT00395746|164627778|SUPERIORITY_OR_OTHER||Least Squares Mean|-26.4|||<|0.0001||95.0|-34.5|-18.2||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%: H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively.||-18.2|-34.5|<0.0001
82545885|NCT03089125|164791235|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.038|TWO_SIDED|95.0|-0.61|-0.05||Bonferroni-adjusted P-value|ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||-0.05|-0.61|0.038
82545886|NCT03089125|164791236|SUPERIORITY||Mean Difference (Final Values)|-0.55|||>|0.99|TWO_SIDED|95.0|-2.2|1.1||Bonferroni-adjusted P-value|ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||1.10|-2.20|>0.99
82545887|NCT03089125|164791237|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.38|TWO_SIDED|95.0|-1.98|5.18|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||5.18|-1.98|0.380
82545888|NCT03089125|164791238|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.99|TWO_SIDED|95.0|-0.83|0.82|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||0.82|-0.83|0.990
82466047|NCT00395746|164627779|SUPERIORITY_OR_OTHER||Least Squares Mean|-30.2||||||95.0|-39.6|-20.7|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-20.7|-39.6|
82466048|NCT00395746|164627779|SUPERIORITY_OR_OTHER||Least Squares Mean|-24.4||||||95.0|-33.8|-14.9|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-14.9|-33.8|
82466049|NCT00395746|164627780|SUPERIORITY_OR_OTHER||Least Squares Mean|-150.22|||<|0.0001||95.0|-186.32|-114.12||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-114.12|-186.32|<0.0001
82545889|NCT03089125|164791239|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.251|TWO_SIDED|95.0|-1.34|0.35|||ANCOVA|||||0.35|-1.34|0.251
82499852|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82499853|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0|||||TWO_SIDED|95.0|-0.507|0.507||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.5070|-0.5070|
82499854|NCT00720434|164690392|SUPERIORITY_OR_OTHER||Difference in Proportions|-0.2|||||TWO_SIDED|95.0|-0.6191|0.2811||||||Week 72: The difference in proportions between treatment groups presented along with 95% CI, were based on exact method for small samples from the binomial distribution.||0.2811|-0.6191|
82499855|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.36357||||0.0131|TWO_SIDED|95.0|-4.19228|-0.53485|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53485|-4.19228|0.0131
82499856|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.4919||||0.0142|TWO_SIDED|95.0|-4.44619|-0.5376|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||-0.53760|-4.44619|0.0142
82499857|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.46325||||0.1368|TWO_SIDED|95.0|-3.41898|0.49248|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.49248|-3.41898|0.1368
82499858|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.90032||||0.3321|TWO_SIDED|95.0|-2.76711|0.96648|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.96648|-2.76711|0.3321
82499859|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.02865||||0.2839|TWO_SIDED|95.0|-2.95573|0.89844|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||0.89844|-2.95573|0.2839
82499860|NCT00720434|164690395|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12833||||0.8891|TWO_SIDED|95.0|-1.73676|1.99342|||ANCOVA|||An ANCOVA model was used to compare differences among treatments. Independent variables included treatment and log-transformed baseline HCV viral load. Adjusted mean difference and corresponding 95% CI were calculated.||1.99342|-1.73676|0.8891
82499861|NCT01830699|164690400|NON_INFERIORITY_OR_EQUIVALENCE|For details of power calculation, see above. Using a minimal clinical importance of -9.1, the null hypothesis was a mean difference less than -9.1.|Mean Difference (Final Values)|-23.9||||0.004|||||||t-test, 2 sided|||"Setting α=0.05 and β=0.8, with effect size of 0.17 anticipated total n = 138 to be recruited (requested recruitment of 150 to account for possible drop-outs)~1st data analysis (n = 33), effect size calculated at 1.1 with new n = 29 with α=0.05 and β=1.0."||||0.004
82499862|NCT01830699|164690401|NON_INFERIORITY_OR_EQUIVALENCE|See details above regarding effect size, power, etc.||||||0.044|||||||t-test, 2 sided|||"Setting α=0.05 and β=0.8, with effect size of 0.17 anticipated total n = 138 to be recruited (requested recruitment of 150 to account for possible drop-outs)~1st data analysis (n = 33), effect size calculated at 1.1 with new n = 29 with α=0.05 and β=1.0."||||0.044
82499863|NCT00759954|164690403|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|97.19|||<|0.05||90.0|91.31|103.45|||ANOVA|||||103.45|91.31|<0.05
82499864|NCT00759954|164690405|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|95.82|||<|0.05||90.0|92.93|98.8|||ANOVA|Analysis of Variance for the log-transformed AUC. The 90% confidence interval for the ratio of AUC(Test)/AUC(Ref) is provided.||||98.80|92.93|< 0.05
82499865|NCT00759954|164690406|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated. The Wilcoxon signed rank test was used for a nonparametric comparison of Tmax values and a significant difference was defined a priori as p \< 0.05.|mean ratio|98.1|||<|0.05||90.0|94.2|102.1|||ANOVA|||||102.1|94.2|< 0.05
82499866|NCT03315208|164690408|SUPERIORITY||Chi-squared statistic value|0.23||||0.63|TWO_SIDED||||||Chi-squared, Corrected|df=1||||||0.63
82499867|NCT03315208|164690409|SUPERIORITY||Slope|0.72||||0.29|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.29
82499868|NCT03315208|164690410|SUPERIORITY||Slope|-0.56||||0.5|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||.50
82650373|NCT00803959|165015895|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|The t test had 1 df and assumed equal variance; no evidence of different variances was found.||Null hypothesis is that the 2 arms do not differ according to mean change in PGI-S score.||||0.51
82650374|NCT00803959|165015896|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||Chi-squared|Chi-squared test had 1 df and no adjustments.||Null hypothesis is that the 2 arms do not differ in the proportion of women who score moderate or severe on the PGI-S at 12 months||||0.51
82466050|NCT00395746|164627780|SUPERIORITY_OR_OTHER||Least Squares Mean|-111.15|||<|0.0001||95.0|-147.61|-74.68||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-74.68|-147.61|<0.0001
82466051|NCT00395746|164627781|SUPERIORITY_OR_OTHER||Least Squares Mean|-127.57||||||95.0|-166.91|-88.24|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-88.24|-166.91|
82466052|NCT00395746|164627781|SUPERIORITY_OR_OTHER||Least Squares Mean|-68.68||||||95.0|-108.91|-28.45|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-28.45|-108.91|
82466053|NCT00395746|164627782|SUPERIORITY_OR_OTHER||Least Squares Mean|-44.45|||<|0.0001||95.0|-55.02|-33.89||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-33.89|-55.02|<0.0001
82466054|NCT00395746|164627782|SUPERIORITY_OR_OTHER||Least Squares Mean|-34.3|||<|0.0001||95.0|-45.06|-23.54||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-23.54|-45.06|<0.0001
82466055|NCT00395746|164627783|SUPERIORITY_OR_OTHER||Least Squares Mean|-34.49||||||95.0|-46.77|-22.22|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-22.22|-46.77|
82579330|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|2.333|STANDARD_ERROR_OF_MEAN|3.888||0.5535|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.5535
82579331|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|3.689|STANDARD_ERROR_OF_MEAN|4.969||0.4642|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.4642
82579332|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|2.268|STANDARD_ERROR_OF_MEAN|3.936||0.5692|TWO_SIDED|95.0|||||ANCOVA|||Average Emotional Well Being - Treatment Contrast||||0.5692
82466056|NCT00395746|164627783|SUPERIORITY_OR_OTHER||Least Squares Mean|-46.34||||||95.0|-58.49|-34.18|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-34.18|-58.49|
82466057|NCT00395746|164627784|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.37||||0.0433||95.0|-22.4|-0.34||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||-0.34|-22.40|0.0433
82499952|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-21.2|6.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||6.0|-21.2|
82499953|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-18.2|5.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||5.3|-18.2|
82650375|NCT00803959|165015897|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was alpha = 0.05.|t-test, 2 sided|T test had 1 df and assumed equal variances; no evidence of unequal variances was found.||Null hypothesis is that the 2 arms do not differ according to mean overall patient satisfaction score at 12 months.||||0.28
82466058|NCT00395746|164627784|SUPERIORITY_OR_OTHER||Least Squares Mean|6.67||||0.2359||95.0|-4.39|17.73||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||17.73|-4.39|0.2359
82650376|NCT00803959|165015898|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-values was not adjusted for multiple comparisons and the a priori threshold for statistical significance was set at alpha = 0.05.|Chi-squared|Chi-squared test had 1 df and no adjustments.||Null hypothesis is that the proportion having a positive provocative stress test at 12 months was the same in both treatment arms.||||0.19
82650377|NCT03342898|165015899|NON_INFERIORITY|Non-inferiority of the immune response was performed only between YF + TDV (Group 3) and YF + Placebo (Group 1) at Day 120. Non-inferiority between Group 3 and Group 1 was concluded if the upper bound of the 95% CI for the seroprotection rate difference (Group 1 - Group 3) was less than 5%.|Seroprotection Rate Difference|0.4|||||TWO_SIDED|95.0|-1.85|2.69|||||The Newcombe score method was used to compute the 95% CI of the seroprotection rate difference.|||2.69|-1.85|
82650378|NCT03342898|165015900|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.6|||||TWO_SIDED|95.0|1.19|2.22|||||Analysis of variance (ANOVA) model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-1||2.22|1.19|
82466059|NCT00395746|164627785|SUPERIORITY_OR_OTHER||Least Squares Mean|-13.3||||||95.0|-24.69|-1.9|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.90|-24.69|
82466060|NCT00395746|164627785|SUPERIORITY_OR_OTHER||Least Squares Mean|-7.11||||||95.0|-18.42|4.21|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||4.21|-18.42|
82579333|NCT04348435|164869006|SUPERIORITY||Median Difference (Net)|2.667|STANDARD_ERROR_OF_MEAN|3.592||0.4642|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||0.4642
82650379|NCT03342898|165015900|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.3||||||95.0|1.03|1.75|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-2||1.75|1.03|
82650380|NCT03342898|165015900|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.3||||||95.0|0.99|1.61|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-3||1.61|0.99|
82650381|NCT03342898|165015900|NON_INFERIORITY|Non-inferiority of the immune response was performed only between TDV + YF (Group 3) and TDV + Placebo (Group 2) at Day 120. Non-inferiority between Group 3 and Group 2 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 2/Group 3) was less than 2.0.|Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.89|1.46|||||ANOVA model was used for analysis, including log-transformed value of titer as the dependent variable and trial group as a factor.|Day 120, DENV-4||1.46|0.89|
82376854|NCT04841577|164460425|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|4.04|||||TWO_SIDED|95.0|-2.21|10.28|||Miettinen and Nurminen|||For the Flu B/Phuket/3073/2013 (Yamagata) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||10.28|-2.21|
82466061|NCT00395746|164627786|SUPERIORITY_OR_OTHER||Least Squares Mean|0.75||||0.0071||95.0|0.21|1.3||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||1.30|0.21|0.0071
82499954|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-14.9|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.5|-14.9|
82499955|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-25.1|7.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||7.1|-25.1|
82499956|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.6|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.5|-15.6|
82499957|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-12.7|3.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||3.9|-12.7|
82466062|NCT00395746|164627786|SUPERIORITY_OR_OTHER||Least Squares Mean|1.18|||<|0.0001||95.0|0.63|1.73||To perform the pairwise comparisons simultaneously, a closed testing procedure was applied. When the hypothesis μ0.9 = μ0.6 = μSU was rejected, the 2 hypotheses of pairwise comparison were tested simultaneously both at significance level of 5%.|ANOVA|||"ANOVA model included treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate. Two null hypotheses were statistically tested, when the hypothesis μ0.9 = μ0.6 = μSU was rejected at a significance level of 5%:~H10: μ0.9 = μSU, H11: μ0.9 ≠ μSU H20: μ0.6 = μSU, H21: μ0.6 ≠ μSU where μ0.6, μ0.9 and μSU are population mean after 24-week treatment for 0.6 mg+SU, 0.9 mg+SU and SU mono, respectively."||1.73|0.63|<0.0001
82650382|NCT03342898|165015904|NON_INFERIORITY|Non-inferiority of the immune response was performed only between YF + TDV (Group 3) and YF + Placebo (Group 1) at Day 30. Non-inferiority between Group 3 and Group 1 was concluded if the upper bound of the 95% CI for the GMT ratio (Group 1/Group 3) was less than 2.0.|Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.26|||||ANOVA model was used for analyses, including the log-transformed value of titer as the dependent variable and trial group as a factor.|||1.26|0.77|
82466063|NCT00395746|164627787|SUPERIORITY_OR_OTHER||Least Squares Mean|1.04||||||95.0|0.42|1.66|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||1.66|0.42|
82466064|NCT00395746|164627787|SUPERIORITY_OR_OTHER||Least Squares Mean|1.13||||||95.0|0.51|1.75|||ANOVA|||95% confidence interval for the mean difference (each liraglutide - SU monotherapy) was calculated under an analysis of variance (ANOVA) model with treatment group and pre-trial SU as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed||1.75|0.51|
82466065|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.59||||||95.0|0.86|2.96|||Negative binomial regression|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.96|0.86|
82545890|NCT03089125|164791240|SUPERIORITY||Mean Difference (Final Values)|-1.49||||0.647|TWO_SIDED|95.0|-7.9|4.92|||ANCOVA|ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.||||4.92|-7.90|0.647
82545891|NCT03089125|164791241|SUPERIORITY||Mean Difference (Final Values)|1.63||||0.431|TWO_SIDED|95.0|-2.45|5.71||ANCOVA models control for cancer type, study site, and baseline scores of outcome variable.|ANCOVA|||||5.71|-2.45|0.431
82545892|NCT03089125|164791242|SUPERIORITY||Between-group diff in change per 8 weeks|-0.06||||0.71|TWO_SIDED|95.0|-0.38|0.26|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||0.26|-0.38|0.710
82650383|NCT01387282|165015911|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon rank sum test|||Superiority analysis||||< 0.0001
82466066|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.18||||||95.0|0.56|2.47|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.47|0.56|
82466067|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.8||||||95.0|0.92|3.54|||Negative binomial regression model|||The relative risk for 'Symptoms only' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.54|0.92|
82466068|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.62||||||95.0|0.85|3.07|||Negative binomial regression model|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.07|0.85|
82466069|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.48||||||95.0|0.69|3.17|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||3.17|0.69|
82466070|NCT00395746|164627788|SUPERIORITY_OR_OTHER||Rate ratio|1.45||||||95.0|0.72|2.91|||Negative binomial regression model|||The relative risk for 'Symptoms only episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||2.91|0.72|
82499103|NCT05355805|164689212|SUPERIORITY||Risk Difference (RD)|4.79|STANDARD_ERROR_OF_MEAN|7.294||0.5116|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR90."||||0.5116
82545893|NCT03089125|164791243|SUPERIORITY||Between-group diff in change per 8 weeks|0.38||||0.677|TWO_SIDED|95.0|-1.4|2.16|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||2.16|-1.40|0.677
82545894|NCT03089125|164791244|SUPERIORITY||Between-group diff in change per 8 weeks|-1.95||||0.33|TWO_SIDED|95.0|-5.87|1.97|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||1.97|-5.87|0.330
82545895|NCT03089125|164791245|SUPERIORITY||Between-group diff in change per 8 weeks|0.73||||0.098|TWO_SIDED|95.0|-0.13|1.59|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||1.59|-0.13|0.098
82650384|NCT01387282|165015912|SUPERIORITY_OR_OTHER|||||||0.648|||||||Wilcoxon rank sum test|||Superiority analysis||||0.6480
82650385|NCT01387282|165015913|SUPERIORITY_OR_OTHER|||||||0.0016|||||||Mixed Models Analysis|||Superiority analysis||||0.0016
82650386|NCT01387282|165015914|SUPERIORITY_OR_OTHER|||||||0.8637|||||||Mixed Models Analysis|||Superiority analysis||||0.8637
82650387|NCT01387282|165015915|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Superiority analysis||||< 0.0001
82466071|NCT00310765|164627838|SUPERIORITY_OR_OTHER_LEGACY|The group-by-time interaction result from repeated-measure analysis of variance modeling was used to evaluate whether the two study groups differed regarding the pain score change that occurred across each of the two study phases (weeks 0-7 and weeks 7-10). To conform to the analysis of variance assumption of distributional normality, the pain scores were square root transformed before the analysis.|Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.5|<|0.05|TWO_SIDED|95.0|0.0|4.0|||ANOVA|||The number of patients required per treatment group to achieve a \>80% power with an alpha=0.05 were based on exact rates from reference articles cited in the paper. Patients were randomly assigned to active drug (pregabalin) or look alike placebo.||4.0|0.0|<0.05
82466072|NCT00310765|164627839|SUPERIORITY_OR_OTHER_LEGACY|The group-by-time interaction result from repeated-measures analysis of variance modeling was used to evaluate whether the two study groups differed regarding the sleep score change that occurred during the two study phases (weeks 0-7 and weeks 7-11. to conform to the analysis of variance assumption of distributional normality the sleep scores were square root transformed before the analysis.|Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.5|<|0.05|TWO_SIDED|95.0|0.0|4.0|||ANOVA|||The number of patients required per treatment group to achieve a \>80% power with an alpha=0.05 were based on the exact rates from the reference articles cited in the paper.||4.0|0.0|<0.05
82545896|NCT03089125|164791246|SUPERIORITY||Between-group diff in change per 8 weeks|0.08||||0.845|TWO_SIDED|95.0|-0.76|0.93|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||0.93|-0.76|0.845
82545897|NCT03089125|164791247|SUPERIORITY||Between-group diff in change per 8 weeks|0.74||||0.837|TWO_SIDED|95.0|-6.33|7.77|||Mixed Models Analysis|Estimated between-group difference in change in scores per every 8 weeks from baseline through week 24, controlling for cancer type and study site.||||7.77|-6.33|0.837
82545898|NCT05857644|164791345|OTHER||Geometric mean ratio|84.33|||||TWO_SIDED|90.0|50.94|139.59|||||Mild Hepatic Impairment versus No Hepatic Impairment|||139.59|50.94|
82545899|NCT05857644|164791345|OTHER||Geometric mean ratio|90.89|||||TWO_SIDED|90.0|54.91|150.45|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||150.45|54.91|
82545900|NCT05857644|164791345|OTHER||Geometric mean ratio|157.23|||||TWO_SIDED|90.0|84.81|291.49|||||Severe Hepatic Impairment versus No Hepatic Impairment|||291.49|84.81|
82545901|NCT05857644|164791346|OTHER||Geometric mean ratio|82.17|||||TWO_SIDED|90.0|49.24|137.11|||||Mild Hepatic Impairment versus No Hepatic Impairment|||137.11|49.24|
82545902|NCT05857644|164791346|OTHER||Geometric mean ratio|130.82|||||TWO_SIDED|90.0|78.4|218.3|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||218.30|78.40|
82545903|NCT05857644|164791346|OTHER||Geometric mean ratio|385.52|||||TWO_SIDED|90.0|205.92|721.77|||||Severe Hepatic Impairment versus No Hepatic Impairment|||721.77|205.92|
82545904|NCT05857644|164791347|OTHER||Geometric mean ratio|82.99|||||TWO_SIDED|90.0|50.53|136.28|||||Mild Hepatic Impairment versus No Hepatic Impairment|||136.28|50.53|
82545905|NCT05857644|164791347|OTHER||Geometric mean ratio|131.52|||||TWO_SIDED|90.0|80.09|215.99|||||Moderate Hepatic Impairment versus No Hepatic Impairment|||215.99|80.09|
82545906|NCT05857644|164791347|OTHER||Geometric mean ratio|392.1|||||TWO_SIDED|90.0|213.57|719.85|||||Severe Hepatic Impairment versus No Hepatic Impairment|||719.85|213.57|
82545907|NCT04878354|164791371|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.0004|TWO_SIDED|95.0|0.58|2.0|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||2.00|0.58|0.0004
82545908|NCT04878354|164791372|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.001|TWO_SIDED|95.0|0.34|1.35|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||1.35|0.34|0.0010
82466073|NCT03413891|164627865|SUPERIORITY||Risk Ratio (RR)|0.93|||=|0.72|TWO_SIDED|95.0|0.6|1.42|||Chi-squared|||||1.42|0.60|=0.72
82545909|NCT04878354|164791373|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.0354|TWO_SIDED|95.0|0.03|0.71|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||0.71|0.03|0.0354
82545910|NCT04878354|164791374|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.0734|TWO_SIDED|95.0|-0.02|0.5|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Adjusted p-value.||0.50|-0.02|0.0734
82545911|NCT04878354|164791375|SUPERIORITY||Mean Difference (Final Values)|0.86|||<|0.0001|TWO_SIDED|95.0|0.45|1.28|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||1.28|0.45|<0.0001
82579334|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|4.444||1|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||1.0000
82466074|NCT03413891|164627867|SUPERIORITY||Rate Ratio|0.76|||=|0.36|TWO_SIDED|95.0|0.42|1.37|||negative-binomial regression|||||1.37|0.42|=0.36
82466075|NCT03413891|164627868|SUPERIORITY||Rate Ratio|0.32|||=|0.03|TWO_SIDED|95.0|0.12|0.89|||negative-binomial regression|||||0.89|0.12|=0.03
82650388|NCT02661126|165015923|OTHER|Geometric least-squares mean ratio (GMR) of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.4|2.92||||||||2.92|1.40|
82650389|NCT02661126|165015924|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|2.0|||||TWO_SIDED|90.0|1.39|2.89||||||||2.89|1.39|
82650390|NCT02661126|165015925|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.39|2.92||||||||2.92|1.39|
82650391|NCT02661126|165015926|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.92|||||TWO_SIDED|90.0|1.35|2.74||||||||2.74|1.35|
82650392|NCT02661126|165015932|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.94|||||TWO_SIDED|90.0|1.39|2.72||||||||2.72|1.39|
82545912|NCT04878354|164791376|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.0002|TWO_SIDED|95.0|0.26|0.82|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.82|0.26|0.0002
82545913|NCT04878354|164791377|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.1516|TWO_SIDED|95.0|-0.11|0.76|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.76|-0.11|0.1516
82545914|NCT04878354|164791378|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9709|TWO_SIDED|95.0|-0.24|0.25|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.25|-0.24|0.9709
82545915|NCT04878354|164791379|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.0499|TWO_SIDED|95.0|0.0|0.41|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.41|0.00|0.0499
82545916|NCT04878354|164791380|SUPERIORITY||Median Difference (Final Values)|1.45|||<|0.0001|TWO_SIDED|95.0|0.73|2.18|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||2.18|0.73|<0.0001
82579335|NCT04348435|164869006|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|3.526||1|TWO_SIDED|95.0|||||ANCOVA|||Avg. Role Limitations Due to Emotional Problems - Treatment Contrast||||1.0000
82650393|NCT02661126|165015933|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|2.02|||||TWO_SIDED|90.0|1.5|2.74||||||||2.74|1.50|
82650394|NCT02661126|165015934|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.72|||||TWO_SIDED|90.0|1.15|2.56||||||||2.56|1.15|
82650395|NCT02661126|165015935|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.85|||||TWO_SIDED|90.0|1.2|2.87||||||||2.87|1.20|
82650396|NCT02661126|165015936|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|2.03|||||TWO_SIDED|90.0|1.38|2.97||||||||2.97|1.38|
82650397|NCT02661126|165015940|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.91|||||TWO_SIDED|90.0|1.44|2.53||||||||2.53|1.44|
82650398|NCT02661126|165015941|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.97|||||TWO_SIDED|90.0|1.48|2.63||||||||2.63|1.48|
82650399|NCT02661126|165015942|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.96|||||TWO_SIDED|90.0|1.54|2.48||||||||2.48|1.54|
82650400|NCT02661126|165015943|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.7|||||TWO_SIDED|90.0|1.29|2.24||||||||2.24|1.29|
82650401|NCT02661126|165015944|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.94|||||TWO_SIDED|90.0|1.47|2.57||||||||2.57|1.47|
82650402|NCT02661126|165015947|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.33|||||TWO_SIDED|90.0|0.65|2.75||||||||2.75|0.65|
82650403|NCT02661126|165015948|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.59|||||TWO_SIDED|90.0|0.79|3.19||||||||3.19|0.79|
82650404|NCT02661126|165015949|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.15|||||TWO_SIDED|90.0|0.51|2.57||||||||2.57|0.51|
82650405|NCT02661126|165015950|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.23|||||TWO_SIDED|90.0|0.5|3.05||||||||3.05|0.50|
82650406|NCT02661126|165015951|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.28|||||TWO_SIDED|90.0|0.56|2.91||||||||2.91|0.56|
82650407|NCT02661126|165015956|OTHER|GMR of AUC0-last in Moderate RI/Healthy Participants.|GMR of AUC0-last in Moderate RI/Healthy|1.56|||||TWO_SIDED|90.0|1.19|2.05||||||||2.05|1.19|
82650408|NCT02661126|165015957|OTHER|GMR of AUC0-∞ in Moderate RI/Healthy Participants|GMR of AUC0-∞ in Moderate RI/Healthy|1.57|||||TWO_SIDED|90.0|1.2|2.05||||||||2.05|1.20|
82650409|NCT02661126|165015958|OTHER|GMR of AUC0-24 in Moderate RI/Healthy Participants|GMR of AUC0-24 in Moderate RI/Healthy|1.49|||||TWO_SIDED|90.0|1.13|1.98||||||||1.98|1.13|
82545917|NCT04878354|164791381|SUPERIORITY||Median Difference (Final Values)|0.48||||0.0075|TWO_SIDED|95.0|0.13|0.83|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.83|0.13|0.0075
82545918|NCT04878354|164791382|SUPERIORITY||Median Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.44|1.29|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||1.29|0.44|<0.0001
82466076|NCT03413891|164627869|SUPERIORITY||Rate Ratio|0.6|||=|0.11|TWO_SIDED|95.0|0.32|1.12|||negative-binomial regression|||||1.12|0.32|=0.11
82466077|NCT03413891|164627870|SUPERIORITY||Rate Ratio|0.42|||=|0.15|TWO_SIDED|95.0|0.13|1.38|||negative-binomial regression|||||1.38|0.13|=0.15
82466078|NCT03413891|164627872|SUPERIORITY||Rate Ratio|0.57|||=|0.37|TWO_SIDED|95.0|0.17|1.91|||negative-binomial regression|||||1.91|0.17|=0.37
82466079|NCT03413891|164627873|SUPERIORITY||Risk Ratio (RR)|0.7|||=|0.66|TWO_SIDED|95.0|0.26|1.91|||Chi-squared|||||1.91|0.26|=0.66
82466080|NCT03413891|164627874|SUPERIORITY||Rate Ratio|0.4|||=|0.04|TWO_SIDED|95.0|0.16|0.98|||negative-binomial regression|||||0.98|0.16|=0.04
82466081|NCT03413891|164627875|SUPERIORITY||Rate Ratio|0.37|||<|0.01|TWO_SIDED|95.0|0.18|0.78|||negative-binomial regression|||||0.78|0.18|<0.01
82466082|NCT04905134|164627881|OTHER|||||||0.04|||||||Fisher Exact|||Flexible scope compared with the SOC scope||||0.04
82466083|NCT02234843|164627938|OTHER||Hazard Ratio (HR)|0.4||||0.1509|TWO_SIDED|95.0|0.11|1.41|||Expl. Cox Proportional Hazards Model|||||1.41|0.11|0.1509
82545919|NCT04878354|164791383|SUPERIORITY||Odds Ratio (OR)|1.2|||<|0.0001|TWO_SIDED|95.0|1.1|1.32|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a severe day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of severe days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||1.32|1.10|<0.0001
82545920|NCT04878354|164791384|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9124|TWO_SIDED|95.0|0.93|1.08|||Generalised linear mixed model (GLMM)||Odds ration is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a severe day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of severe days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||1.08|0.93|0.9124
82545921|NCT04878354|164791385|SUPERIORITY||Odds Ratio (OR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.71|0.81|||Generalised linear fixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a well day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of well days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.81|0.71|<0.0001
82545922|NCT04878354|164791386|SUPERIORITY||Odds Ratio (OR)|0.89|||<|0.0001|TWO_SIDED|95.0|0.85|0.93|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a well day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of well days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.93|0.85|<0.0001
82579336|NCT04348435|164869007|SUPERIORITY||Mean Difference (Net)|-0.144|STANDARD_ERROR_OF_MEAN|0.825||0.8628|TWO_SIDED|95.0|||||ANCOVA|||||||0.8628
82466084|NCT02787564|164627973|OTHER||||||<|0.001||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||<0.001
82466085|NCT02787564|164627974|OTHER|||||||0.038||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.038
82466086|NCT02787564|164627975|OTHER|||||||0.026||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.026
82466087|NCT02787564|164627976|OTHER|||||||0.443||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.443
82466088|NCT02787564|164627977|OTHER|||||||0.006||||||Comparison of difference of fruit and vegetable variety between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.006
82466089|NCT02787564|164627978|OTHER|||||||0.029||||||Comparison of difference of fruit and vegetable amount between intervention group and control group.|Wilcoxon (Mann-Whitney)|||||||0.029
82466090|NCT03474588|164628004|SUPERIORITY|||||||0.3||||||Presented is the p value for the interaction between time and treatment.|Regression, Linear|Random Effects Regression Models (RERM), time was log transformed to account for expectation of greater change closer to baseline||||||0.30
82466091|NCT03474588|164628005|SUPERIORITY||Mean Difference (Net)|1.39|STANDARD_ERROR_OF_MEAN|0.94||0.14|TWO_SIDED|95.0|-0.46|3.24||presented is the p value for the interaction of treatment and time in the model.|Regression, Linear|||Random Effects Regression Model (RERM), included in the model were treatment, time and the interaction of time and treatment.||3.24|-0.46|0.14
82466092|NCT03474588|164628006|SUPERIORITY|||||||0.097|||||||ANOVA|||||||0.097
82466093|NCT03474588|164628007|SUPERIORITY|||||||0.802|||||||Chi-squared|||||||0.802
82466094|NCT00844844|164628019|SUPERIORITY_OR_OTHER||LS mean change from baseline|65.18|||<|0.0001|TWO_SIDED|95.0|37.01|93.36|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||With at least 12 patients enrolled and assuming a null hypothesis of no post-dose change from baseline in mean platelet count, the study had approximately 88% power to detect as statistically significant an effect size (mean change from baseline/standard deviation) of at least 1 when using a one sample t-test with a two-sided α=0.05. All analyses were based on the pooled data from the two protocols:C08-002A (adult) and C08-002B (Adolescent), a similar protocol, for patients \<18 years with aHUS.||93.36|37.01|<0.0001
82466095|NCT00844844|164628020|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|82.0|||||TWO_SIDED|95.0|57.0|96.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||96|57|
82466096|NCT00844844|164628021|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
82466097|NCT00844844|164628022|SUPERIORITY_OR_OTHER||Percent of complete TMA response|65.0|||||TWO_SIDED|95.0|38.0|86.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||86|38|
82466098|NCT00844844|164628023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
82466099|NCT00844844|164628024|SUPERIORITY_OR_OTHER||LS mean change from baseline|111.62|||<|0.0001|TWO_SIDED|95.0|98.12|125.13|||ANOVA|Change from baseline was analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||125.13|98.12|<0.0001
82466100|NCT00844844|164628025|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
82466101|NCT00844844|164628026|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|88.0|||||TWO_SIDED|95.0|64.0|99.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||99|64|
82466102|NCT00844844|164628027|SUPERIORITY_OR_OTHER||Percent of complete TMA response|76.0|||||TWO_SIDED|95.0|50.0|93.0||||||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||93|50|
82466103|NCT00844844|164628028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: protocol C08-002A for adult patients with aHUS and protocol C08-002B, a similar protocol, for patients \< 18 years of age for adolescent patients with aHUS.||||<0.0001
82466104|NCT04886154|164628044|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY low dose\_06 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|4.67|||||TWO_SIDED|97.5|3.38|5.97|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (low dose) when administered at 0,6-months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||5.97|3.38|
82466105|NCT04886154|164628044|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY low dose\_02 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|-0.17|||||TWO_SIDED|97.5|-1.65|1.3|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (low dose) when administered at 0,2- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||1.30|-1.65|
82466106|NCT04886154|164628044|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY high dose\_06 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|4.6|||||TWO_SIDED|97.5|3.33|5.89|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (high dose) when administered at 0,6- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||5.89|3.33|
82466107|NCT04886154|164628044|SUPERIORITY|Superiority was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of samples with bactericidal serum activity is above 5% between the ABCWY high dose\_02 group compared to the Control group at 1 month after the last vaccination.|Difference in percentage|2.01|||||TWO_SIDED|97.5|0.6|3.42|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the superiority of the effectiveness of the MenABCWY-2Gen vaccine (high dose) when administered at 0,2- months schedule, compared to the MenB vaccine administered at 0,6-months schedule.||3.42|0.60|
82499958|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||||
82650410|NCT02661126|165015959|OTHER|GMR of Cmax in Moderate RI/Healthy Participants|GMR of Cmax in Moderate RI/Healthy|1.44|||||TWO_SIDED|90.0|1.05|1.98||||||||1.98|1.05|
82650411|NCT02661126|165015960|OTHER|GMR of C24 in Moderate RI/Healthy Participants|GMR of C24 in Moderate RI/Healthy|1.54|||||TWO_SIDED|90.0|1.15|2.07||||||||2.07|1.15|
82650412|NCT00461500|165015989|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.23|STANDARD_ERROR_OF_MEAN|17.6||0.683||95.0|-27.96|42.43|||ANCOVA||mean difference = drug SFC 100 minus FP 100|||42.43|-27.96|0.683
82650413|NCT01151813|165016002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||t-test, 2 sided|||||||.02
82650414|NCT01151813|165016003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82466108|NCT04886154|164628045|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|3.03|||||TWO_SIDED|97.5|-4.21|10.17|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||10.17|-4.21|
82466109|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|4.66|||||TWO_SIDED|97.5|-2.71|11.64|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||11.64|-2.71|
82466110|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|5.48|||||TWO_SIDED|97.5|-0.71|12.25|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||12.25|-0.71|
82466111|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|3.87|||||TWO_SIDED|97.5|-3.7|10.97|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men A).||10.97|-3.70|
82466112|NCT04886154|164628045|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|35.03|||||TWO_SIDED|97.5|25.22|44.75|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||44.75|25.22|
82499959|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-18.2|5.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.3|-18.2|
82499960|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-14.9|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||4.5|-14.9|
82499961|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||||
82499962|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.6|4.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||4.5|-15.6|
82499963|NCT00555321|164690607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.3|||||TWO_SIDED|95.0|-12.7|3.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||3.9|-12.7|
82579337|NCT04348435|164869007|SUPERIORITY||Mean Difference (Net)|-0.605|STANDARD_ERROR_OF_MEAN|0.94||0.5257|TWO_SIDED|95.0|||||ANCOVA|||||||0.5257
82579338|NCT04348435|164869007|SUPERIORITY||Mean Difference (Net)|-0.403|STANDARD_ERROR_OF_MEAN|0.659||0.5467|TWO_SIDED|95.0|||||ANCOVA|||||||0.5467
82650415|NCT01151813|165016004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82650416|NCT01151813|165016005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82650417|NCT01513551|165016010|OTHER||Risk Difference (RD)|6.8|||||TWO_SIDED|95.0|-1.4|15.0|||Miettinen & Nurminen|||||15.0|-1.4|
82499964|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-25.6|10.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.2|-25.6|
82499965|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|-11.7|22.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||22.3|-11.7|
82499966|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-20.1|15.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||15.2|-20.1|
82466113|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|34.16|||||TWO_SIDED|97.5|23.76|44.1|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||44.10|23.76|
82466114|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.88|||||TWO_SIDED|97.5|19.26|40.19|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||40.19|19.26|
82466115|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|33.54|||||TWO_SIDED|97.5|23.09|43.54|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men C).||43.54|23.09|
82466116|NCT04886154|164628045|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|30.88|||||TWO_SIDED|97.5|21.61|40.32|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||40.32|21.61|
82466117|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the MenABCWY-2Gen MenACWY vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.35|||||TWO_SIDED|97.5|19.31|39.08|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||39.08|19.31|
82466118|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.02|||||TWO_SIDED|97.5|19.42|38.67|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||38.67|19.42|
82466119|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|25.13|||||TWO_SIDED|97.5|14.2|35.45|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men W).||35.45|14.20|
82466120|NCT04886154|164628045|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|33.38|||||TWO_SIDED|97.5|23.08|43.26|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||43.26|23.08|
82545923|NCT04878354|164791387|SUPERIORITY||Odds Ratio (OR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.72|0.84|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a symptom-free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of symptom-free days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.84|0.72|<0.0001
82545924|NCT04878354|164791388|SUPERIORITY||Odds Ratio (OR)|0.9||||0.0001|TWO_SIDED|95.0|0.86|0.95|||Generalised linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet / odds tree SLIT-tablet)|The odds of having a symptom-free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model includes proportion of symptom-free days as the response variable and treatment, cohort, and age group as fixed effects and pollen station as random effect. Observed p-value.||0.95|0.86|0.0001
82650418|NCT01513551|165016010|OTHER||Risk Difference (RD)|9.5|||||TWO_SIDED|95.0|1.1|17.7|||Miettinen & Nurminen|||||17.7|1.1|
82545925|NCT04878354|164791391|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.0015|TWO_SIDED|95.0|0.07|0.29|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in an LME model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.29|0.07|0.0015
82545926|NCT04878354|164791392|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.0032|TWO_SIDED|95.0|0.04|0.2|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The square root transformed endpoint was analysed in a linear mixed effects (LME) model with treatment, cohort, and age group as fixed effects, and pollen station within cohort as a random effect with different residual errors specified for each treatment group. Back-transformation was used to estimate the absolute difference. Observed p-value.||0.20|0.04|0.0032
82545927|NCT04878354|164791393|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9277|TWO_SIDED|95.0|-0.21|0.23|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effects (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.23|-0.21|0.9277
82545928|NCT04878354|164791394|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9643|TWO_SIDED|95.0|-0.19|0.18|||Mixed Models Analysis||Placebo SLIT-tablet vs tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effect (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.18|-0.19|0.9643
82545929|NCT04878354|164791395|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.0287|TWO_SIDED|95.0|0.02|0.34|||Mixed Models Analysis||Placebo SLIT-tablet vs. tree SLIT-tablet|Multiple imputation was used to impute missing data under the hypothetical strategy. The endpoint was analysed in each dataset in a linear mixed effect (LME) model with treatment and cohort as fixed effects, and pollen station within cohort as a random effect. Each treatment group was allowed different residual errors. Observed p-value.||0.34|0.02|0.0287
82545930|NCT04878354|164791397|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.58|||Generalized linear mixed model (GLMM)||Odds ratio is (odds placebo SLIT-tablet/ odds tree SLIT-tablet)|"Multiple imputation was used to impute missing data under the hypothetical strategy.~The odds of having an improved treatment efficacy according to patient-rated global evaluation was analysed using a generalised linear mixed model with a logit link function. The model includes patient-rated global evaluation of treatment efficacy (improvement/no improvement) as the response variable and treatment, cohort and age group as fixed effects and pollen station as random effects. Observed p-value."||0.58|0.30|<0.0001
82545931|NCT04878354|164791398|SUPERIORITY||Mean Difference (Final Values)|0.43|||<|0.0001|TWO_SIDED|95.0|0.38|0.48|||Mixed Models Analysis||Tree SLIT-tablet vs placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analyzed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.48|0.38|<0.0001
82545932|NCT04878354|164791398|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.1038|TWO_SIDED|95.0|-0.09|0.01|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.01|-0.09|0.1038
82545933|NCT04878354|164791399|SUPERIORITY||Mean Difference (Final Values)|0.53|||<|0.0001|TWO_SIDED|95.0|0.48|0.57|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.57|0.48|<0.0001
82545934|NCT04878354|164791399|SUPERIORITY||Mean Difference (Final Values)|0.49|||<|0.0001|TWO_SIDED|95.0|0.45|0.53|||Mixed Models Analysis||Tree SLIT-tablet vs placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.53|0.45|<0.0001
82545935|NCT04878354|164791400|SUPERIORITY||Mean Difference (Final Values)|0.29|||<|0.0001|TWO_SIDED|95.0|0.24|0.33|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 4|Change from baseline (screening) to visit 4 (pre-TPS). Change from baseline of log transformed concentrations is analyzed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.33|0.24|<0.0001
82579339|NCT03826030|164869009|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||The null hypothesis was no overall difference in FM-UE scale change between the three groups on day 15. The change in FM-UE was modelled using a linear mixed-effects repeated measures model adjusted for visit (ie, day 15, day 45, and day 105), treatment group, treatment group by visit interaction, baseline FM-UE, time from stroke (30-90 vs. 91-180 days), and enrolment site. An AR(1) autocorrelation structure was used for visit, and variance components structure for sites.||||0.39
82466121|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY low dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|28.18|||||TWO_SIDED|97.5|16.61|38.86|||||The 97.5% CIs for the difference in percentages between ABCWY low dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (low dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||38.86|16.61|
82466122|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_06 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|29.37|||||TWO_SIDED|97.5|18.67|39.63|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_06 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,6-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||39.63|18.67|
82466123|NCT04886154|164628045|NON_INFERIORITY|NI was to be demonstrated if the lower limit of the 2-sided 97.5% CI for the difference in percentages of participants achieving a 4-fold rise in hSBA titres is above -10% at 1 month after the last MenABCWY-2Gen vaccination in the ABCWY high dose\_02 group compared to the MenACWY vaccination in the Control group.|Difference in percentage|27.21|||||TWO_SIDED|97.5|15.46|38.02|||||The 97.5% CIs for the difference in percentages between ABCWY high dose\_02 group and the control group is constructed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of the MenABCWY-2Gen vaccine (high dose) administered at 0,2-months schedule compared to the MenACWY vaccine administered at month 0 in the control group (Men Y).||38.02|15.46|
82466124|NCT03919773|164628083|SUPERIORITY|||||||0.629|||||||Kruskal-Wallis|||Intention-to-treat analysis||||0.629
82466125|NCT03919773|164628084|SUPERIORITY|||||||0.718|||||||Fisher Exact|||comparison of proportion with positive treatment response (as defined) in IVIG group compared to albumin||||0.718
82466126|NCT04966013|164628095|SUPERIORITY||Hazard Ratio (HR)|1.005||||0.9784|TWO_SIDED|95.0|0.717|1.408|||Regression, Cox|||Log Rank Test and Cox PH Regression analyses were performed unstratified||1.408|0.717|0.9784
82466127|NCT04966013|164628096|SUPERIORITY||Hazard Ratio (HR)|1.388||||0.1512|TWO_SIDED|95.0|0.887|2.172||Log Rank Test and Cox PH Regression analyses were performed unstratified|Regression, Cox|||||2.172|0.887|0.1512
82466128|NCT03563209|164628141|OTHER||||||<|0.001||||||p-value was adjusted for multiple comparisons. A priori threshold for statistical significance was set to 0.05/3 (0.0167)|Friedman|||Null hypothesis: no difference between dynamic components of elbow flexor spasticity (spasticity angle) in three different forearm positions. (Comparison groups were Spasticity angle in pronation, Spasticity angle in neutral position and Spasticity angle in supination)||||<0.001
82466129|NCT00804908|164628202|SUPERIORITY_OR_OTHER||||||=|0.071|||||||Stratified log-rank|||Comparisons between treatment groups were performed using a Comparisons between treatment groups were performed using a log-rank test stratified by baseline lactate dehydrogenase (LDH) status (0 to 1 ULN; \>1 to ≤ 2 ULN) and history of previously treated brain metastases (with, without). Hochberg testing procedure for multiplicity adjustment.||||=0.071
82466130|NCT00804908|164628202|SUPERIORITY_OR_OTHER||||||=|0.233|||||||Stratified log-rank|||Comparisons between treatment groups were performed using a Comparisons between treatment groups were performed using a log-rank test stratified by baseline lactate dehydrogenase (LDH) status (0 to 1 ULN; \>1 to ≤ 2 ULN) and history of previously treated brain metastases (with, without). Hochberg testing procedure for multiplicity adjustment.||||=0.233
82466131|NCT02177695|164628210|SUPERIORITY||Odds Ratio (OR)|2.63||||0.1|TWO_SIDED|95.0|0.82|8.36|||Regression, Logistic|||To determine the relationship of GC COXEN scores to pT0, GC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT0 within the GC treatment group.||8.36|0.82|0.1
82466132|NCT02177695|164628210|SUPERIORITY||Odds Ratio (OR)|1.12||||0.82|TWO_SIDED|95.0|0.42|2.95|||Regression, Logistic|||To determine the relationship of ddMVAC COXEN scores to pT0, ddMVAC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT0 within the ddMVAC treatment group.||2.95|0.42|0.82
82466133|NCT02177695|164628211|SUPERIORITY||Odds Ratio (OR)|2.33||||0.02|TWO_SIDED|95.0|1.11|4.89|||Regression, Logistic|||To determine the relationship of GC COXEN scores to \<= pT1, GC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT1 or better within the GC treatment group.||4.89|1.11|0.02
82466134|NCT02177695|164628211|SUPERIORITY||Odds Ratio (OR)|0.9||||0.76|TWO_SIDED|95.0|0.46|1.75|||Regression, Logistic|||To determine the relationship of ddMVAC COXEN scores to \<=pT1, ddMVAC COXEN score (dichotomous, favorable vs. unfavorable) was tested in a logistic regression model predicting the outcome of pT1 or better within the ddMVAC treatment group.||1.75|0.46|0.76
82466135|NCT00248625|164628221|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||||||0.19
82466136|NCT00248625|164628222|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Log Rank|||||||0.03
82545936|NCT04878354|164791400|SUPERIORITY||Mean Difference (Final Values)|0.31|||<|0.0001|TWO_SIDED|95.0|0.26|0.36|||Mixed Models Analysis||Tree SLIT-tablet vs. placebo SLIT-tablet, visit 6|Change from baseline (screening) to visit 6 (end of treatment). Change from baseline of log transformed concentrations is analysed in a mixed effects linear model including treatment, visit, and treatment-visit-interaction as fixed effects, log(baseline concentration) as a covariate and subject as random effect. Observed p-value.||0.36|0.26|<0.0001
82466137|NCT00248625|164628223|SUPERIORITY_OR_OTHER|||||||0.21|||||||Pepe and Mori test of CIF difference|||||||0.21
82466138|NCT00248625|164628224|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Kruskal-Wallis|||||||0.053
82466139|NCT00248625|164628225|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Cochran-Armitage trend|||||||0.29
82466140|NCT00248625|164628226|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Cochran-Armitage trend|||||||0.74
82466141|NCT00248625|164628227|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Cochran-Armitage tren|||||||0.54
82466142|NCT00248625|164628228|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Chi-squared|||||||0.86
82466143|NCT00834977|164628232|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|101.08||||||90.0|97.23|105.09|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.09|97.23|
82466144|NCT00834977|164628233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|99.38||||||90.0|96.63|102.22|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.22|96.63|
82650419|NCT03051256|165016069|SUPERIORITY||||||<|0.0122|||||||Mixed Models Analysis|||||||<0.0122
82650420|NCT03051256|165016069|SUPERIORITY||||||<|0.0308|||||||Mixed Models Analysis|||||||<0.0308
82466145|NCT00834977|164628234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|98.48||||||90.0|95.8|101.23|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.23|95.80|
82466146|NCT00834977|164628235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|98.72||||||90.0|86.95|112.09|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.09|86.95|
82466147|NCT00834977|164628236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|95.69||||||90.0|90.54|101.14|||||Metabolite presented for informational purposes only.|||101.14|90.54|
82466148|NCT00834977|164628237|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Slope|99.43||||||90.0|96.48|102.46|||||Metabolite presented for informational purposes only.|||102.46|96.48|
82466149|NCT00834977|164628238|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|97.2||||||90.0|92.82|101.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.78|92.82|
82466150|NCT00834977|164628239|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|96.99||||||90.0|92.52|101.68|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||101.68|92.52|
82466151|NCT00834977|164628240|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Parametric analysis of variance (ANOVA)on AUC0-t, AUCinf and Cmax; geometric Confidence Intervals for AUC0-t, AUC0-inf and Cmax|Ratio of Least Squares Means|99.24||||||90.0|96.21|102.35|||||Metabolite presented for informational purposes only.|||102.35|96.21|
82466152|NCT03402217|164628275|SUPERIORITY|||||||0.383|||||||Wilcoxon (Mann-Whitney)|||Pre and post-score paired comparison.||||.383
82466153|NCT03402217|164628276|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Information pre-post paired comparison||||.001
82466154|NCT03402217|164628276|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Motivation pre- and post-paired comparison.||||.07
82466155|NCT03402217|164628276|SUPERIORITY|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||Behavior pre and post paired comparison||||.230
82466156|NCT00333775|164628284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0318|TWO_SIDED|95.0|0.63|0.98|||Log Rank|||||0.98|0.63|0.0318
82466157|NCT00333775|164628284|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.72||||0.0036|TWO_SIDED|95.0|0.57|0.9|||Log Rank|||||0.90|0.57|0.0036
82466158|NCT00333775|164628287|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1105|TWO_SIDED|95.0|0.69|1.04|||Log Rank|||||1.04|0.69|0.1105
82466159|NCT00333775|164628287|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0241|TWO_SIDED|95.0|0.65|0.97|||Log Rank|||||0.97|0.65|0.0241
82650421|NCT03051256|165016070|SUPERIORITY||||||<|0.0103|||||||Mixed Models Analysis|||||||<0.0103
82466160|NCT00333775|164628288|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.6962|TWO_SIDED|95.0|0.62|1.37|||Log Rank|||||1.37|0.62|0.6962
82466161|NCT00333775|164628288|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0765|TWO_SIDED|95.0|0.45|1.04|||Log Rank|||||1.04|0.45|0.0765
82466162|NCT04739982|164628293|SUPERIORITY||Cohen's D|0.03|STANDARD_ERROR_OF_MEAN|1.36||0.41|TWO_SIDED|95.0|-0.21|0.27||An independent samples t-test was conducted to compare the change in baseline and follow-up scores of treatment and treatment as usual participants.|t-test, 1 sided|Degrees of freedom=274 Significance level=.05||||.27|-.21|.41
82466163|NCT04739982|164628294|SUPERIORITY||Cohen's D|0.153|STANDARD_ERROR_OF_MEAN|1.45||0.095|TWO_SIDED|95.0|-0.08|0.39|||t-test, 1 sided|||||.39|-.08|.095
82466164|NCT04739982|164628296|SUPERIORITY||Cohen's D|0.19|STANDARD_ERROR_OF_MEAN|0.55||0.09|TWO_SIDED|95.0|-0.09|0.47|||t-test, 1 sided|||||.47|-.09|.09
82466165|NCT03279081|164628304|SUPERIORITY||Difference in Combined Remission Rate|2.37|||=|0.571|TWO_SIDED|95.0|-5.82|10.55||P-value was based on stratified Cochran-Mantel-Haenszel (CMH) test adjusting for interactive web response system (IWRS) randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals (CI) are displayed.|||10.55|-5.82|=0.571
82466166|NCT03279081|164628305|SUPERIORITY||Difference in Clinical Remission Rate|2.72|||=|0.515|TWO_SIDED|95.0|-5.47|10.9||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||10.90|-5.47|=0.515
82466167|NCT03279081|164628306|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.374|TWO_SIDED|95.0|0.9|1.32||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate the hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.32|0.90|=0.374
82466168|NCT03279081|164628307|SUPERIORITY||Difference in Combined Remission Rate|1.27|||=|0.757|TWO_SIDED|95.0|-6.77|9.31||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||9.31|-6.77|=0.757
82466169|NCT03279081|164628308|SUPERIORITY||Difference in Clinical Remission Rate|1.6|||=|0.697|TWO_SIDED|95.0|-6.46|9.66||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||9.66|-6.46|=0.697
82466170|NCT03279081|164628309|SUPERIORITY||Difference in Clinical Response Rate|3.23|||=|0.428|TWO_SIDED|95.0|-4.76|11.21||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||11.21|-4.76|=0.428
82466171|NCT03279081|164628310|SUPERIORITY||Difference in Clinical Response Rate|2.84|||=|0.497|TWO_SIDED|95.0|-5.35|11.03||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||11.03|-5.35|=0.497
82650422|NCT03051256|165016070|SUPERIORITY||||||<|0.0039|||||||Mixed Models Analysis|||||||<0.0039
82650423|NCT03051256|165016071|SUPERIORITY|||||||0.1237|||||||Mixed Models Analysis|||||||0.1237
82650424|NCT03051256|165016071|SUPERIORITY|||||||0.1017|||||||Mixed Models Analysis|||||||0.1017
82650425|NCT03051256|165016072|SUPERIORITY||||||<|0.0066|||||||Mixed Models Analysis|||||||<0.0066
82466172|NCT03279081|164628311|SUPERIORITY||Hazard Ratio (HR)|1.09|||=|0.363|TWO_SIDED|95.0|0.9|1.32||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.32|0.90|=0.363
82466173|NCT03279081|164628312|SUPERIORITY||Hazard Ratio (HR)|0.98|||=|0.833|TWO_SIDED|95.0|0.82|1.18||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.18|0.82|=0.833
82466174|NCT03279081|164628313|SUPERIORITY||Hazard Ratio (HR)|0.97|||=|0.717|TWO_SIDED|95.0|0.81|1.16||P-value was based on a stratified log-rank test adjusting for IWRS randomization stratification factors.|Log Rank||Cox Proportional Hazard Regression model was used to estimate hazard ratio and 95% CI, adjusting for IWRS randomization stratification factors.|||1.16|0.81|=0.717
82466175|NCT03279081|164628314|SUPERIORITY||Difference in Relapse Rate|3.03|||=|0.599|TWO_SIDED|95.0|-8.28|14.34||P-value was based on stratified CMH test adjusting for IWRS randomization stratification factors.|Cochran-Mantel-Haenszel||The asymptotic Wald's confidence intervals are displayed.|||14.34|-8.28|=0.599
82466176|NCT00468169|164628328|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1225||||||Log-rank test comparing PFS between two treatment arms|Log Rank|||||||0.1225
82466177|NCT00784563|164628339|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Because all treatment arms were designed to deliver a similar average aerobic intensity, we planned to pool a priori all completers from the Continuous and Interval Training Arms for analysis.|Regression, Linear|||Sample size was estimated using 80% power to detect an effect size of 0.66 SD in VO2max (estimated improvement=10% /estimated SD of change=15%) within each arm at alpha=0.05 and an attrition rate of 25%.||||<0.001
82466178|NCT00784563|164628340|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82466179|NCT00784563|164628341|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Regression, Linear|||||||0.029
82466180|NCT00784563|164628342|SUPERIORITY_OR_OTHER|||||||0.271|TWO_SIDED||||||Regression, Linear|||||||0.271
82466181|NCT00784563|164628343|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||unadjusted p-value=0.009|Regression, Linear|||||||0.070
82466182|NCT00784563|164628344|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82466183|NCT00784563|164628345|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Regression, Linear|||||||0.006
82466184|NCT00784563|164628346|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Regression, Linear|||||||0.002
82466185|NCT00784563|164628347|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Regression, Linear|Adjusted for change in total daily equivalent levodopa dose||||||0.003
82466186|NCT00784563|164628348|SUPERIORITY_OR_OTHER||||||=|0.146|TWO_SIDED||||||t-test, 2 sided|||||||=0.146
82650426|NCT03051256|165016072|SUPERIORITY||||||<|0.0014|||||||Mixed Models Analysis|||||||<0.0014
82466187|NCT00784563|164628349|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Regression, Linear|||||||0.037
82466188|NCT00784563|164628350|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.057
82466189|NCT01668784|164628351|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0018|TWO_SIDED|98.52|0.57|0.93||The boundary for statistical significance required the p-value to be less than 0.0148 at the interim analyses.|Log Rank|Log-rank Test stratified by the Memorial Sloan-Kettering Cancer Center risk group, number of prior anti-angiogenic therapies, and the region.|Stratified Cox proportional hazard model. Hazard ratio (HR) was Nivolumab over Everolimus.|||0.93|0.57|0.0018
82466190|NCT01668784|164628355|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.034|TWO_SIDED|95.0|0.72|0.99|||Log Rank|Log-rank Test stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) risk group, number of prior anti-angiogenic therapies, and the region.|Stratified Cox proportional hazard model. Hazard ratio is nivolumab over everolimus.|||0.99|0.72|0.0340
82466191|NCT01668784|164628361|SUPERIORITY||Stratified Cox Proportional hazard Model|0.74||||0.0001|TWO_SIDED|95.0|0.63|0.86|||Log Rank|||||0.86|0.63|0.0001
82466192|NCT00534365|164628387|NON_INFERIORITY_OR_EQUIVALENCE|We chose a non-inferiority margin of 12% based on previously published multicenter trial of mid-urethral slings. Assuming subjective cure rate for TVT of 82%, 127 individuals in each group will provide 80% to reject the null hypothesis that the true difference in cure rates between the two procedures is less than or equal to 2% using a two group large sample normal approximation test of proportions with a one sided 0.05 significance level.||||||0.43|||||||Regression, Logistic|||||||0.43
82466193|NCT00534365|164628390|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
82466194|NCT00534365|164628391|SUPERIORITY_OR_OTHER|||||||0.015|||||||t-test, 2 sided|||||||0.015
82466195|NCT00617734|164628396|SUPERIORITY_OR_OTHER|||||||0.0667|||||||Log Rank|||||||0.0667
82466196|NCT00617734|164628397|SUPERIORITY_OR_OTHER|||||||0.1935|||||||Fisher Exact|||||||0.1935
82466197|NCT00617734|164628399|SUPERIORITY_OR_OTHER|||||||0.7455|||||||Log Rank|||||||0.7455
82466198|NCT02485691|164628403|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.4|0.73||P-value from 2-sided stratified log-rank test, stratified for ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization. Significance threshold was at 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.73|0.40|<0.0001
82499967|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-24.0|12.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||12.5|-24.0|
82499968|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|-10.5|24.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||24.2|-10.5|
82650427|NCT03051256|165016073|SUPERIORITY||||||<|0.0245|||||||Mixed Models Analysis|||||||<0.0245
82466199|NCT02485691|164628404|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.64||||0.0078|TWO_SIDED|95.0|0.46|0.89||P-value from two-sided stratified log-rank test, stratified for ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.89|0.46|0.0078
82466200|NCT02485691|164628405|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.|Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68||P-value from two-sided stratified log-rank test, stratified for ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Log Rank||Cabazitaxel vs Abiraterone Acetate or Enzalutamide|Hazard ratio was estimated using a Cox Proportional Hazards regression model. The Cox proportional hazard model was stratified by ECOG performance status, time from AR- targeted agent initiation progression, timing of AR targeted agent as specified at the time of randomization.||0.68|0.40|<0.0001
82466201|NCT02485691|164628406|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.||||||0.0003||||||Cochran-Mantel-Haenszel test stratified by ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Cochran-Mantel-Haenszel|||||||0.0003
82545937|NCT03358875|164791404|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.527|0.778||OS in the ITT population was tested at one-sided p value boundary of 0.0120.|1-sided Log Rank Test|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% confidence interval (CI).|||0.778|0.527|<0.0001
82545938|NCT03358875|164791405|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.407|0.702||OS in the PD-L1 positive analysis set was tested at the one-sided p-value boundary of 0.025.|1-sided Log Rank Test|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).||||0.702|0.407|<0.0001
82545939|NCT03358875|164791406|SUPERIORITY||Odds Ratio (OR)|3.86|||<|0.0001|TWO_SIDED|95.0|2.336|6.393|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology, line of therapy, and PDL1 expression.||||6.393|2.336|<0.0001
82466202|NCT02485691|164628407|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure are reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only the primary and the first 4 secondary outcome measures were included in the procedure.||||||0.0004||||||Cochran-Mantel-Haenszel test stratified by ECOG performance status, time from AR-targeted agent initiation to progression, timing of AR-targeted agent as specified at the time of randomization. Significance threshold = 0.05.|Cochran-Mantel-Haenszel|||||||0.0004
82545940|NCT03358875|164791407|SUPERIORITY||Odds Ratio (OR)|8.04|||<|0.0001|TWO_SIDED|95.0|3.721|17.379|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology and line of therapy.||||17.379|3.721|<0.0001
82545941|NCT03358875|164791408|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.176|0.536|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.536|0.176|<0.0001
82545942|NCT03358875|164791409|SUPERIORITY||Hazard Ratio (HR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.066|0.37|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.370|0.066|<0.0001
82545943|NCT03358875|164791410|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.528|0.745|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous), line of therapy (second vs third), and PDL1 expression (≥25% vs \<25% TC).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% CI.|||0.745|0.528|<0.0001
82545944|NCT03358875|164791411|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.285|0.494|||Log Rank|Stratified by stratification factors: histology (squamous vs non-squamous) and line of therapy (second vs third).|A stratified Cox proportional hazards model with Efron's method of tie handling was used to determine hazard ratio (HR) and its 95% confidence interval (CI).|||0.494|0.285|<0.0001
82545945|NCT03358875|164791412|OTHER||Least Squares (LS) Mean Difference|5.7||||0.0008|TWO_SIDED|95.0|2.38|9.07|||Mixed Models Analysis|||The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||9.07|2.38|0.0008
82545946|NCT03358875|164791413|OTHER||LS Mean Difference|-8.3||||0.0007|TWO_SIDED|95.0|-13.02|-3.51|||Mixed Models Analysis|||Analysis of Change from Baseline in Coughing Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||-3.51|-13.02|0.0007
82650428|NCT03051256|165016073|SUPERIORITY||||||<|0.0253|||||||Mixed Models Analysis|||||||<0.0253
82650429|NCT03051256|165016074|SUPERIORITY||||||<|0.0454|||||||Mixed Models Analysis|||||||<0.0454
82650430|NCT03051256|165016074|SUPERIORITY||||||<|0.0043|||||||Mixed Models Analysis|||||||<0.0043
82545947|NCT03358875|164791413|OTHER||LS Mean Difference|-3.2||||0.0579|TWO_SIDED|95.0|-6.52|0.11|||Mixed Models Analysis|||Analysis of Change from Baseline in Dyspnoea Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||0.11|-6.52|0.0579
82545948|NCT03358875|164791413|OTHER||LS Mean Difference|-2.2||||0.2472|TWO_SIDED|95.0|-6.05|1.56|||Mixed Models Analysis|||Analysis of Change from Baseline in Chest Pain Scale. The linear mixed-effect model for repeated measures (MMRM) includes baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects and visit as a repeated measure.||1.56|-6.05|0.2472
82545949|NCT03599648|164791416|SUPERIORITY|||||||0.361||||||baseline versus immediately after 16-week BPT-E intervention|t-test, 2 sided|||||||.361
82545950|NCT03599648|164791416|SUPERIORITY|||||||0.126||||||baseline versus 6 months after BPT-E intervention|t-test, 2 sided|||||||.126
82545951|NCT03599648|164791416|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
82545952|NCT03599648|164791416|SUPERIORITY|||||||0||||||baseline versus immediately after 16 week BPT-M intervention|t-test, 2 sided|||||||.000
82545953|NCT03599648|164791416|SUPERIORITY|||||||0||||||baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
82545954|NCT03599648|164791416|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
82545955|NCT03599648|164791417|SUPERIORITY|||||||0.035||||||Baseline versus immediately following 16-week BPT-E intervention|t-test, 2 sided|||||||.035
82545956|NCT03599648|164791417|SUPERIORITY|||||||0.001||||||Baseline versus 6-months after BPT-E intervention|t-test, 2 sided|||||||.001
82545957|NCT03599648|164791417|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
82545958|NCT03599648|164791417|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-M intervention|t-test, 2 sided|||||||.000
82545959|NCT03599648|164791417|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
82650431|NCT03051256|165016075|SUPERIORITY|||||||0.0177|||||||Mixed Models Analysis|||||||0.0177
82545960|NCT03599648|164791417|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
82545961|NCT03599648|164791418|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-E intervention|t-test, 2 sided|||||||.000
82545962|NCT03599648|164791418|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-E intervention|t-test, 2 sided|||||||.000
82545963|NCT03599648|164791418|SUPERIORITY|||||||0||||||Baseline versus 12 months after BPT-E intervention|t-test, 2 sided|||||||.000
82545964|NCT03599648|164791418|SUPERIORITY|||||||0||||||Baseline versus immediately after 16-week BPT-M intervention|t-test, 2 sided|||||||.000
82545965|NCT03599648|164791418|SUPERIORITY|||||||0||||||Baseline versus 6 months after BPT-M intervention|t-test, 2 sided|||||||.000
82545966|NCT03599648|164791418|SUPERIORITY|||||||0||||||baseline versus 12 months after BPT-M intervention|t-test, 2 sided|||||||.000
82545967|NCT03363854|164791422|SUPERIORITY||Risk Difference (RD)|12.4||||0.015|TWO_SIDED|95.0|2.9|21.9||The primary endpoints were tested sequentially at a 5% significance level.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants who achieved IGA 0 or 1 at Week 16 were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their IGA value at Week 16. The null hypothesis of no difference in response rates between tralokinumab Q2W+TCS and placebo+TCS was tested against the 2-sided alternative that there was a difference.||21.9|2.9|0.015
82545968|NCT03363854|164791423|SUPERIORITY||Risk Difference (RD)|20.2|||<|0.001|TWO_SIDED|95.0|9.8|30.6||The primary endpoints were tested sequentially at a 5% significance level.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants who achieved at least 75% reduction in EASI at Week 16 were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16. The null hypothesis of no difference in response rates between tralokinumab Q2W+TCS and placebo+TCS was tested against the 2-sided alternative that there was a difference.||30.6|9.8|<0.001
82545969|NCT03363854|164791424|SUPERIORITY||Risk Difference (RD)|11.3||||0.037|TWO_SIDED|95.0|0.9|21.6||This secondary endpoint was tested after the sequential testing of the primary endpoints, if these showed statistical significance.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their Worst daily Pruritus NRS value at Week 16.||21.6|0.9|0.037
82545970|NCT03363854|164791425|SUPERIORITY||Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-15.2|-6.6||This secondary endpoint was tested sequentially using the Holm method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-6.6|-15.2|<0.001
82545971|NCT03363854|164791426|SUPERIORITY||Difference|-2.9|||<|0.001|TWO_SIDED|95.0|-4.3|-1.6||This secondary endpoint was tested sequentially using the Holm method for multiplicity adjustment at a 5% significance level after sequential testing of the primary endpoints and the first secondary endpoint, if these showed statistical significance.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-1.6|-4.3|<0.001
82650432|NCT03051256|165016075|SUPERIORITY|||||||0.0072|||||||Mixed Models Analysis|||||||0.0072
82650433|NCT03051256|165016076|SUPERIORITY|||||||0.0895|||||||Mixed Models Analysis|||||||0.0895
82650434|NCT03051256|165016076|SUPERIORITY|||||||0.0109|||||||Mixed Models Analysis|||||||0.0109
82466203|NCT05010707|164628477|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||Time x treatment (month 0, and 1 month)||||0.005
82466204|NCT05010707|164628477|SUPERIORITY||Mean Difference (Final Values)|-225.3||||0.02|TWO_SIDED|95.0|-421.71|-28.79|||Mixed Models Analysis|||||-28.79|-421.71|0.02
82466205|NCT05010707|164628477|SUPERIORITY||Mean Difference (Final Values)|-250.6||||0.009|TWO_SIDED|95.0|-447.1|-54.19|||Mixed Models Analysis|||||-54.19|-447.10|0.009
82466206|NCT05010707|164628478|SUPERIORITY|||||||0.951|||||||Mixed Models Analysis|||Time x treatment (month 0 and month 1)||||0.951
82466207|NCT05010707|164628478|SUPERIORITY||Mean Difference (Final Values)|-1.6||||1|TWO_SIDED|95.0|-29.6|26.4|||Mixed Models Analysis||The mean difference is computed using the model based estimates rather than from the raw data.|||26.4|-29.6|1
82466208|NCT05010707|164628478|SUPERIORITY||Mean Difference (Final Values)|-7.1||||1|TWO_SIDED|95.0|-35.1|20.8|||Mixed Models Analysis||The mean difference is computed using the model based estimates rather than from the raw data.|||20.8|-35.1|1
82466209|NCT05010707|164628479|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||Time x treatment (month 0 and month 1)||||0.004
82466210|NCT05010707|164628479|SUPERIORITY||Mean Difference (Final Values)|-280.4||||0.005|TWO_SIDED|95.0|-487.3|-73.5|||Mixed Models Analysis|||||-73.5|-487.3|0.005
82466211|NCT05010707|164628479|SUPERIORITY||Mean Difference (Final Values)|-204.1||||0.054|TWO_SIDED|95.0|-411.1|2.8|||Mixed Models Analysis|||||2.8|-411.1|0.054
82466212|NCT03414983|164628491|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.3022|TWO_SIDED|80.0|0.61|1.07||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.07|0.61|0.3022
82466213|NCT03414983|164628491|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.3022|TWO_SIDED|95.0|0.53|1.23||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.23|0.53|0.3022
82466214|NCT03414983|164628492|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.19|||||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.19|0.54|
82466215|NCT03414983|164628507|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5041|TWO_SIDED|80.0|0.67|1.15||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.15|0.67|0.5041
82545972|NCT03363854|164791428|SUPERIORITY||Difference|-3.5||||0.41|TWO_SIDED|95.0|-11.9|4.9||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1-2 are reported below.||4.9|-11.9|0.41
82545973|NCT03363854|164791428|SUPERIORITY||Difference|-6.9||||0.033|TWO_SIDED|95.0|-13.3|-0.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3-4 are reported below.||-0.6|-13.3|0.033
82545974|NCT03363854|164791428|SUPERIORITY||Difference|-4.7||||0.12|TWO_SIDED|95.0|-10.6|1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5-6 are reported below.||1.2|-10.6|0.12
82466216|NCT03414983|164628507|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5041|TWO_SIDED|95.0|0.58|1.32||Stratified regular log-rank test|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: NIV+mFOLFOX+BEV over Arm B: mFOLFOX+BEV||1.32|0.58|0.5041
82466217|NCT02958917|164628517|SUPERIORITY||Mean Difference (Final Values)|-0.76|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466218|NCT02958917|164628518|SUPERIORITY||Cox Proportional Hazard|0.264|||<|0.05|TWO_SIDED|95.0|||||Regression, Cox|||||||<0.05
82466219|NCT02958917|164628519|SUPERIORITY||Slope|2.03|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466220|NCT02958917|164628520|SUPERIORITY||Median Difference (Final Values)|-0.108|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466221|NCT02958917|164628521|SUPERIORITY||Risk Difference (RD)|0.364|||<|0.05|TWO_SIDED||||||Log Rank|||||||<0.05
82466222|NCT02958917|164628522|SUPERIORITY||Risk Difference (RD)|0.128|||<|0.05|TWO_SIDED|95.0|||||Log Rank|||||||<0.05
82466223|NCT02958917|164628523|SUPERIORITY||Mean Difference (Final Values)|-2.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466224|NCT02958917|164628524|SUPERIORITY||Mean Difference (Final Values)|-6.72|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466225|NCT02958917|164628525|SUPERIORITY||Mean Difference (Final Values)|-4.92|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466226|NCT02958917|164628526|SUPERIORITY||Mean Difference (Final Values)|-7.92|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466227|NCT02958917|164628527|SUPERIORITY||Mean Difference (Final Values)|-2.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82466228|NCT02318706|164628536|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.03||||0.8773|TWO_SIDED|95.0|-0.35|0.3|||Mixed Models Analysis|||Week 14 change from baseline||0.30|-0.35|0.8773
82466229|NCT02318706|164628536|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.15||||0.3494|TWO_SIDED|95.0|-0.48|0.17|||Mixed Models Analysis|||Week 14 change from baseline||0.17|-0.48|0.3494
82466230|NCT02318706|164628536|SUPERIORITY|DS-5565 20 mg and 30 mg are tested against placebo at significance level of 0.025, respectively. If both arms are statistically significant, DS-5565 15 mg arm will be tested at level of 0.05. If neither of the arms is statistically significant, DS-5565 15 mg arm is no longer tested. If either DS-5565 20 mg or DS-5565 30 mg is statistically significant, DS-5565 15 mg arm is tested at level of 0.025.|Hazard Ratio (HR)|-0.5||||0.0027|TWO_SIDED|95.0|-0.82|-0.17|||Mixed Models Analysis|||Week 14 change from baseline||-0.17|-0.82|0.0027
82466231|NCT05024032|164628566|SUPERIORITY||LS Mean Difference|-12.0|||<|0.001|TWO_SIDED|95.0|-14.8|-9.3|||Mixed Models Analysis|||||-9.3|-14.8|<0.001
82466232|NCT05024032|164628566|SUPERIORITY||LS Mean Difference|-17.5|||<|0.001|TWO_SIDED|95.0|-20.3|-14.8|||Mixed Models Analysis|||||-14.8|-20.3|<0.001
82466233|NCT05024032|164628567|SUPERIORITY||Odds Ratio (OR)|23.11|||<|0.001|TWO_SIDED|95.0|8.8|60.69|||Regression, Logistic|||||60.69|8.80|<0.001
82466234|NCT05024032|164628567|SUPERIORITY||Odds Ratio (OR)|26.53|||<|0.001|TWO_SIDED|95.0|9.61|73.24|||Regression, Logistic|||||73.24|9.61|<0.001
82466235|NCT05024032|164628568|SUPERIORITY||LS Mean Difference|-7.2|||<|0.001|TWO_SIDED|95.0|-8.8|-5.5|||Mixed Models Analysis|||||-5.5|-8.8|<0.001
82466236|NCT05024032|164628568|SUPERIORITY||LS Mean Difference|-9.2|||<|0.001|TWO_SIDED|95.0|-10.9|-7.5|||Mixed Models Analysis|||||-7.5|-10.9|<0.001
82466237|NCT05024032|164628569|SUPERIORITY||Odds Ratio (OR)|13.19|||<|0.001|TWO_SIDED|95.0|5.63|30.89|||Regression, Logistic|||||30.89|5.63|<0.001
82466238|NCT05024032|164628569|SUPERIORITY||Odds Ratio (OR)|28.58|||<|0.001|TWO_SIDED|95.0|11.23|72.71|||Regression, Logistic|||||72.71|11.23|<0.001
82466239|NCT05024032|164628570|SUPERIORITY||Odds Ratio (OR)|25.64|||<|0.001|TWO_SIDED|95.0|6.68|98.49|||Regression, Logistic|||||98.49|6.68|<0.001
82466240|NCT05024032|164628570|SUPERIORITY||Odds Ratio (OR)|69.79|||<|0.001|TWO_SIDED|95.0|17.69|275.37|||Regression, Logistic|||||275.37|17.69|<0.001
82466241|NCT05024032|164628571|SUPERIORITY||LS Mean Difference|-9.2|||<|0.001|TWO_SIDED|95.0|-11.5|-6.9|||Mixed Models Analysis|||||-6.9|-11.5|<0.001
82466242|NCT05024032|164628571|SUPERIORITY||LS Mean Difference|-13.7|||<|0.001|TWO_SIDED|95.0|-16.0|-11.3|||Mixed Models Analysis|||||-11.3|-16.0|<0.001
82466243|NCT05024032|164628572|SUPERIORITY||LS Mean Difference|-10.9|||<|0.001|TWO_SIDED|95.0|-13.5|-8.3|||Mixed Models Analysis|||||-8.3|-13.5|<0.001
82466244|NCT05024032|164628572|SUPERIORITY||LS Mean Difference|-16.0|||<|0.001|TWO_SIDED|95.0|-18.6|-13.4|||Mixed Models Analysis|||||-13.4|-18.6|<0.001
82466245|NCT05024032|164628573|SUPERIORITY||LS Mean Difference|-3.9|||<|0.001|TWO_SIDED|95.0|-4.8|-3.1|||Mixed Models Analysis|||||-3.1|-4.8|<0.001
82466246|NCT05024032|164628573|SUPERIORITY||LS Mean Difference|-5.6|||<|0.001|TWO_SIDED|95.0|-6.4|-4.8|||Mixed Models Analysis|||||-4.8|-6.4|<0.001
82466247|NCT05024032|164628574|SUPERIORITY||LS Mean Difference|-0.37|||<|0.001|TWO_SIDED|95.0|-0.46|-0.28|||Mixed Models Analysis|||||-0.28|-0.46|<0.001
82466248|NCT05024032|164628574|OTHER||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.48|-0.29|||Mixed Models Analysis|||||-0.29|-0.48|<0.001
82545975|NCT03363854|164791428|SUPERIORITY||Difference|-7.3||||0.043|TWO_SIDED|95.0|-14.3|-0.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7-8 are reported below.||-0.2|-14.3|0.043
82466249|NCT05024032|164628575|SUPERIORITY||LS Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.61|-0.32|||Mixed Models Analysis|||||-0.32|-0.61|<0.001
82545976|NCT03363854|164791428|SUPERIORITY||Difference|-9.1||||0.002|TWO_SIDED|95.0|-14.8|-3.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9-10 are reported below.||-3.4|-14.8|0.002
82466250|NCT05024032|164628575|SUPERIORITY||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.69|-0.4|||Mixed Models Analysis|||||-0.40|-0.69|<0.001
82466251|NCT05024032|164628576|SUPERIORITY||LS Mean Difference|1.2||||0.044|TWO_SIDED|95.0|0.0|2.3|||ANCOVA|||||2.3|0.0|0.044
82466252|NCT05024032|164628576|SUPERIORITY||LS Mean Difference|1.2||||0.05|TWO_SIDED|95.0|0.0|2.3|||ANCOVA|||||2.3|0.0|0.050
82466253|NCT05024032|164628577|SUPERIORITY||LS Mean Difference|7.8|||<|0.001|TWO_SIDED|95.0|3.7|11.8|||ANCOVA|||||11.8|3.7|<0.001
82466254|NCT05024032|164628577|SUPERIORITY||LS Mean Difference|8.5|||<|0.001|TWO_SIDED|95.0|4.4|12.7|||ANCOVA|||||12.7|4.4|<0.001
82466255|NCT05024032|164628578|SUPERIORITY||LS Mean Difference|-4.8|||<|0.001|TWO_SIDED|95.0|-6.9|-2.7|||Mixed Models Analysis|||||-2.7|-6.9|<0.001
82466256|NCT05024032|164628579|SUPERIORITY||LS Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-9.1|-3.1|||Mixed Models Analysis|||||-3.1|-9.1|<0.001
82466257|NCT05024032|164628580|SUPERIORITY||LS Mean Difference|-0.31|||||TWO_SIDED|95.0|-0.51|-0.11||||||||-0.11|-0.51|
82466258|NCT05024032|164628581|SUPERIORITY||LS Mean Difference|0.09|||||TWO_SIDED|95.0|0.03|0.14||||||||0.14|0.03|
82466259|NCT05024032|164628582|SUPERIORITY||LS Mean Difference|-0.06|||||TWO_SIDED|95.0|-0.25|0.13||||||||0.13|-0.25|
82466260|NCT05024032|164628583|SUPERIORITY||LS Mean Difference|-0.25|||||TWO_SIDED|95.0|-0.34|-0.16||||||||-0.16|-0.34|
82466261|NCT05024032|164628584|SUPERIORITY||LS Mean Difference|-0.58|||||TWO_SIDED|95.0|-0.79|-0.37||||||||-0.37|-0.79|
82466262|NCT05024032|164628585|SUPERIORITY||LS Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.12|-0.01||||||||-0.01|-0.12|
82466263|NCT05024032|164628586|SUPERIORITY||LS Mean Difference|-6.3|||||TWO_SIDED|95.0|-8.6|-4.0||||||||-4.0|-8.6|
82466264|NCT03175367|164628606|SUPERIORITY||Least Squares Mean Difference|-38.5|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|95.0|-56.5|-20.6|||Mixed Models Analysis|||||-20.6|-56.5|< .0001
82466265|NCT03175367|164628606|SUPERIORITY||Least Squares Mean Difference|-52.9|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-70.7|-35.1|||Mixed Models Analysis|||||-35.1|-70.7|< .0001
82466266|NCT03175367|164628606|SUPERIORITY||Least Squares Mean Difference|-56.0|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-73.7|-38.3|||Mixed Models Analysis|||||-38.3|-73.7|< .0001
82466267|NCT03175367|164628606|SUPERIORITY||Least Squares Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|9.3|=|0.0109|TWO_SIDED|95.0|-42.6|-5.7||P-Value is not adjusted for multiplicity|Mixed Models Analysis|||||-5.7|-42.6|= 0.0109
82466268|NCT03175367|164628606|SUPERIORITY||Least Squares Mean Difference|-50.5|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|95.0|-68.4|-32.6|||Mixed Models Analysis|||||-32.6|-68.4|< .0001
82466269|NCT03175367|164628607|SUPERIORITY||Least Squares Mean Difference|-26.6|STANDARD_ERROR_OF_MEAN|7.2|=|0.0003|TWO_SIDED|95.0|-40.9|-12.4|||Mixed Models Analysis|||||-12.4|-40.9|= 0.0003
82466270|NCT03175367|164628607|SUPERIORITY||Least Squares Mean Difference|-42.0|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-56.1|-27.9|||Mixed Models Analysis|||||-27.9|-56.1|< 0.0001
82466271|NCT03175367|164628607|SUPERIORITY||Least Squares Mean Difference|-45.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-59.5|-31.5|||Mixed Models Analysis|||||-31.5|-59.5|< 0.0001
82466272|NCT03175367|164628607|SUPERIORITY||Least Squares Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|6.6|=|0.0132|TWO_SIDED|95.0|-29.7|-3.5|||Mixed Models Analysis|||||-3.5|-29.7|= 0.0132
82466273|NCT03175367|164628607|SUPERIORITY||Least Squares Mean Difference|-39.4|STANDARD_ERROR_OF_MEAN|6.4|<|0.0001|TWO_SIDED|95.0|-52.0|-26.8|||Mixed Models Analysis|||||-26.8|-52.0|< 0.0001
82466274|NCT03175367|164628608|SUPERIORITY||Least Squares Mean Difference|-21.8|STANDARD_ERROR_OF_MEAN|8.4|=|0.0111|TWO_SIDED|95.0|-38.4|-5.1|||Mixed Models Analysis|||||-5.1|-38.4|= 0.0111
82466275|NCT03175367|164628608|SUPERIORITY||Least Squares Mean Difference|-40.4|STANDARD_ERROR_OF_MEAN|8.2|<|0.0001|TWO_SIDED|95.0|-56.7|-24.0|||Mixed Models Analysis|||||-24.0|-56.7|< 0.0001
82466276|NCT03175367|164628609|SUPERIORITY||Least Squares Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|-54.4|-24.3|||Mixed Models Analysis|||||-24.3|-54.4|< 0.0001
82466277|NCT03175367|164628609|SUPERIORITY||Least Squares Mean Difference|-53.8|STANDARD_ERROR_OF_MEAN|7.6|<|0.0001|TWO_SIDED|95.0|-68.8|-38.9|||Mixed Models Analysis|||||-38.9|-68.8|< 0.0001
82466278|NCT03175367|164628609|SUPERIORITY||Least Squares Mean Difference|-58.5|STANDARD_ERROR_OF_MEAN|7.5|<|0.0001|TWO_SIDED|95.0|-73.4|-43.7|||Mixed Models Analysis|||||-43.7|-73.4|< 0.0001
82466279|NCT03175367|164628609|SUPERIORITY||Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|8.1|=|0.0042|TWO_SIDED|95.0|-39.7|-7.7|||Mixed Models Analysis|||||-7.7|-39.7|= 0.0042
82466280|NCT03175367|164628609|SUPERIORITY||Least Squares Mean Difference|-50.9|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|95.0|-66.4|-35.4|||Mixed Models Analysis|||||-35.4|-66.4|< 0.0001
82466281|NCT03175367|164628610|SUPERIORITY||Least Squares Mean Difference|-30.6|STANDARD_ERROR_OF_MEAN|9.7|=|0.0021|TWO_SIDED|95.0|-49.8|-11.4|||Mixed Models Analysis|||||-11.4|-49.8|= 0.0021
82466282|NCT03175367|164628610|SUPERIORITY||Least Squares Mean Difference|-54.6|STANDARD_ERROR_OF_MEAN|9.5|<|0.0001|TWO_SIDED|95.0|-73.4|-35.8|||Mixed Models Analysis|||||-35.8|-73.4|< 0.0001
82466283|NCT03175367|164628611|SUPERIORITY||Odds Ratio, log|19.4|||<|0.0001|TWO_SIDED|95.0|5.1|72.8|||Regression, Logistic|||||72.8|5.1|< 0.0001
82466284|NCT03175367|164628611|SUPERIORITY||Odds Ratio, log|23.9|||<|0.0001|TWO_SIDED|95.0|6.4|89.2|||Regression, Logistic|||||89.2|6.4|< 0.0001
82466285|NCT03175367|164628611|SUPERIORITY||Odds Ratio, log|22.1|||<|0.0001|TWO_SIDED|95.0|6.0|80.5|||Regression, Logistic|||||80.5|6.0|< 0.0001
82466286|NCT03175367|164628611|SUPERIORITY||Odds Ratio, log|8.5|||=|0.0007|TWO_SIDED|95.0|2.5|29.2|||Regression, Logistic|||||29.2|2.5|= 0.0007
82466287|NCT03175367|164628611|SUPERIORITY||Odds Ratio, log|42.3|||<|0.0001|TWO_SIDED|95.0|10.4|172.3|||Regression, Logistic|||||172.3|10.4|< 0.0001
82466288|NCT03175367|164628612|SUPERIORITY||Odds Ratio (OR)|9.6|||=|0.01|TWO_SIDED|95.0|1.7|53.5|||Regression, Logistic|||||53.5|1.7|= 0.0100
82466289|NCT03175367|164628612|SUPERIORITY||Odds Ratio (OR)|24.8|||=|0.0001|TWO_SIDED|95.0|4.7|129.9|||Regression, Logistic|||||129.9|4.7|= 0.0001
82466290|NCT03175367|164628612|SUPERIORITY||Odds Ratio (OR)|36.1|||<|0.0001|TWO_SIDED|95.0|6.7|194.7|||Regression, Logistic|||||194.7|6.7|< 0.0001
82466291|NCT03175367|164628612|SUPERIORITY||Odds Ratio (OR)|2.0|||=|0.3185|TWO_SIDED|95.0|0.5|8.2|||Regression, Logistic|||||8.2|0.5|= 0.3185
82466292|NCT03175367|164628612|SUPERIORITY||Odds Ratio (OR)|14.5|||<|0.0001|TWO_SIDED|95.0|3.9|54.2|||Regression, Logistic|||||54.2|3.9|< 0.0001
82466293|NCT03175367|164628613|SUPERIORITY||Odds Ratio (OR)|4.8|||=|0.0718|TWO_SIDED|95.0|0.9|26.5|||Regression, Logistic|||||26.5|0.9|= 0.0718
82466294|NCT03175367|164628613|SUPERIORITY||Odds Ratio (OR)|11.4|||=|0.0048|TWO_SIDED|95.0|2.1|62.1|||Regression, Logistic|||||62.1|2.1|= 0.0048
82466295|NCT03175367|164628613|SUPERIORITY||Odds Ratio (OR)|14.7|||=|0.0015|TWO_SIDED|95.0|2.8|76.8|||Regression, Logistic|||||76.8|2.8|= 0.0015
82466296|NCT03175367|164628613|SUPERIORITY||Odds Ratio (OR)|1.7|||=|0.527|TWO_SIDED|95.0|0.3|8.4|||Regression, Logistic|||||8.4|0.3|= 0.5270
82545977|NCT03363854|164791428|SUPERIORITY||Difference|-8.0||||0.001|TWO_SIDED|95.0|-12.8|-3.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11-12 are reported below.||-3.2|-12.8|0.001
82545978|NCT03363854|164791428|SUPERIORITY||Difference|-10.2|||<|0.001|TWO_SIDED|95.0|-15.8|-4.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13-14 are reported below.||-4.7|-15.8|<0.001
82545979|NCT03363854|164791428|SUPERIORITY||Difference|-8.6||||0.002|TWO_SIDED|95.0|-14.1|-3.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15-16 are reported below.||-3.2|-14.1|0.002
82466297|NCT03175367|164628613|SUPERIORITY||Odds Ratio (OR)|7.7|||=|0.0047|TWO_SIDED|95.0|1.9|31.7|||Regression, Logistic|||||31.7|1.9|= 0.0047
82466298|NCT03175367|164628614|SUPERIORITY||Least Squares Mean Difference|-32.5|STANDARD_ERROR_OF_MEAN|11.5|=|0.0059|TWO_SIDED|95.0|-55.5|-9.6|||Mixed Models Analysis|||||-9.6|-55.5|= 0.0059
82466299|NCT03175367|164628614|SUPERIORITY||Least Squares Mean Difference|-54.5|STANDARD_ERROR_OF_MEAN|11.3|<|0.0001|TWO_SIDED|95.0|-77.0|-32.0|||Mixed Models Analysis|||||-32.0|-77.0|< 0.0001
82466300|NCT03175367|164628615|SUPERIORITY||Least Squares Mean Difference|-37.1|STANDARD_ERROR_OF_MEAN|5.7|<|0.0001|TWO_SIDED|95.0|-48.4|-25.8|||Mixed Models Analysis|||||-25.8|-48.4|< .0001
82466301|NCT03175367|164628615|SUPERIORITY||Least Squares Mean Difference|-46.4|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-57.5|-35.2|||Mixed Models Analysis|||||-35.2|-57.5|< .0001
82466302|NCT03175367|164628615|SUPERIORITY||Least Squares Mean Difference|-51.5|STANDARD_ERROR_OF_MEAN|5.6|<|0.0001|TWO_SIDED|95.0|-62.5|-40.4|||Mixed Models Analysis|||||-40.4|-62.5|< .0001
82466303|NCT03175367|164628615|SUPERIORITY||Least Squares Mean Difference|-22.2|STANDARD_ERROR_OF_MEAN|6.2|=|0.0006|TWO_SIDED|95.0|-34.6|-9.8|||Mixed Models Analysis|||||-9.8|-34.6|= 0.0006
82466304|NCT03175367|164628615|SUPERIORITY||Least Squares Mean Difference|-46.4|STANDARD_ERROR_OF_MEAN|6.1|<|0.0001|TWO_SIDED|95.0|-58.4|-34.4|||Mixed Models Analysis|||||-34.4|-58.4|< .0001
82466305|NCT03175367|164628616|SUPERIORITY||Least Squares Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|7.1|=|0.0001|TWO_SIDED|95.0|-42.6|-14.3|||Mixed Models Analysis|||||-14.3|-42.6|= 0.0001
82650435|NCT01127581|165016084|SUPERIORITY_OR_OTHER||Median Difference (Net)|-677.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||Sample size 675 per group provides 90% power to see an improvement of ≥320 minutes (20% improvement from DVI) in time to vaginal delivery between MVI 200 \& DVI assuming a median time of 1600 minutes for DVI \& 34% dropout rate based on 5% 2-sided test|Subjects who underwent a cesarean delivery during the first hospitalization were censored using the longest time interval from study drug administration to cesarean delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||<0.001
82650436|NCT01127581|165016085|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 675 subjects per group will provide a sufficient number of subjects to assess non-inferiority of MVI 200 with respect to rate of cesarean delivery, based on an alpha level of 5% and 80% power for a two-sided approach using a 10% non-inferiority limit (relative to the DVI rate), assuming a 30% rate of cesarean delivery in the DVI group compared to a 26% rate in the MVI 200 group.|Difference in Populations|-1.1|||||TWO_SIDED|95.0|-5.79|3.59|||Chi-squared||MVI 200 - DVI|The analysis of the cesarean delivery rates during the first hospitalization was based on a between-treatment-group difference. If the upper limit of the asymptotic two-sided 95% confidence interval of the difference in event rates (MVI minus DVI) was less than the calculated non-inferiority margin (10% relative to the DVI rate, i.e., 0.1 times DVI rate), then MVI 200 would be considered non-inferior to DVI.||3.59|-5.79|
82650437|NCT01127581|165016086|SUPERIORITY_OR_OTHER||Median Difference (Net)|-543.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||MVI 200 - DVI|Subjects who did not deliver during the first hospitalization were censored using the longest time interval from study drug administration to labor and delivery discharge without delivery, independent of treatment group.||||<0.001
82650438|NCT01127581|165016087|SUPERIORITY_OR_OTHER||Median Difference (Net)|-390.0|||<|0.001|TWO_SIDED|95.0|||||Log Rank||MVI 200 - DVI|Subjects who never went into active labor during the first hospitalization were censored using the longest time interval from study drug administration to delivery during the first hospitalization, independent of treatment group. Subjects who, in their first hospitalization, were discharged prior to delivery or withdrew consent prior to delivery were censored using the longest time interval from study drug administration to labor and delivery discharge, independent of treatment group.||||<0.001
82650439|NCT01127581|165016088|SUPERIORITY_OR_OTHER||Difference in Proportions|-26.0|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82466306|NCT03175367|164628616|SUPERIORITY||Least Squares Mean Difference|-49.3|STANDARD_ERROR_OF_MEAN|7.0|<|0.0001|TWO_SIDED|95.0|-63.2|-35.4|||Mixed Models Analysis|||||-35.4|-63.2|< .0001
82545980|NCT03363854|164791429|SUPERIORITY||Difference|0.0||||1|TWO_SIDED|95.0|-11.0|11.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1-2 are reported below.||11.0|-11.0|1.00
82545981|NCT03363854|164791429|SUPERIORITY||Difference|1.1||||0.83|TWO_SIDED|95.0|-9.1|11.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3-4 are reported below.||11.4|-9.1|0.83
82545982|NCT03363854|164791429|SUPERIORITY||Difference|-1.4||||0.78|TWO_SIDED|95.0|-11.3|8.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5-6 are reported below.||8.5|-11.3|0.78
82545983|NCT03363854|164791429|SUPERIORITY||Difference|-4.8||||0.34|TWO_SIDED|95.0|-14.8|5.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7-8 are reported below.||5.1|-14.8|0.34
82650440|NCT01127581|165016089|SUPERIORITY_OR_OTHER||Difference in Proportions|9.67|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82545984|NCT03363854|164791429|SUPERIORITY||Difference|-4.4||||0.34|TWO_SIDED|95.0|-13.4|4.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9-10 are reported below.||4.6|-13.4|0.34
82545985|NCT03363854|164791429|SUPERIORITY||Difference|-6.2||||0.11|TWO_SIDED|95.0|-13.9|1.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11-12 are reported below.||1.5|-13.9|0.11
82545986|NCT03363854|164791429|SUPERIORITY||Difference|-8.9||||0.024|TWO_SIDED|95.0|-16.6|-1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13-14 are reported below.||-1.2|-16.6|0.024
82650441|NCT01127581|165016090|SUPERIORITY_OR_OTHER||Difference in Proportions|26.96|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82650442|NCT01127581|165016091|SUPERIORITY_OR_OTHER||Difference in Proportions|13.9|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82466307|NCT03175367|164628617|SUPERIORITY||Adjusted Mean Difference|-46.1|STANDARD_ERROR_OF_MEAN|6.0|<|0.0001|TWO_SIDED|95.0|-57.8|-34.3|||Regression, Linear|||||-34.3|-57.8|< .0001
82466308|NCT03175367|164628617|SUPERIORITY||Adjusted Mean Difference|-55.8|STANDARD_ERROR_OF_MEAN|5.9|<|0.0001|TWO_SIDED|95.0|-67.3|-44.3|||Regression, Linear|||||-44.3|-67.3|< .0001
82466309|NCT03175367|164628617|SUPERIORITY||Adjusted Mean Difference|-61.5|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|95.0|-72.9|-50.0|||Regression, Linear|||||-50.0|-72.9|< .0001
82650443|NCT01127581|165016092|SUPERIORITY_OR_OTHER||Difference in Proportions|29.8|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82650444|NCT01127581|165016093|SUPERIORITY_OR_OTHER||Difference in Proportions|1.68|||<|0.001|TWO_SIDED|95.0|||||Fisher Exact||MVI 200 - DVI|||||<0.001
82466310|NCT03175367|164628617|SUPERIORITY||Adjusted Mean Difference|-25.2|STANDARD_ERROR_OF_MEAN|6.5|=|0.0001|TWO_SIDED|95.0|-38.0|-12.4|||Regression, Linear|||||-12.4|-38.0|= 0.0001
82545987|NCT03363854|164791429|SUPERIORITY||Difference|-9.5||||0.017|TWO_SIDED|95.0|-17.3|-1.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15-16 are reported below.||-1.7|-17.3|0.017
82466311|NCT03175367|164628617|SUPERIORITY||Adjusted Mean Difference|-45.9|STANDARD_ERROR_OF_MEAN|6.3|<|0.0001|TWO_SIDED|95.0|-58.4|-33.5|||Regression, Linear|||||-33.5|-58.4|< .0001
82466312|NCT03175367|164628618|SUPERIORITY||Adjusted Mean Difference|-17.1|STANDARD_ERROR_OF_MEAN|7.5|=|0.0228|TWO_SIDED|95.0|-31.8|-2.4|||Regression, Linear|||||-2.4|-31.8|= 0.0228
82466313|NCT03175367|164628618|SUPERIORITY||Adjusted Mean Difference|-45.3|STANDARD_ERROR_OF_MEAN|7.3|<|0.0001|TWO_SIDED|95.0|-59.6|-31.0|||Regression, Linear|||||-31.0|-59.6|< .0001
82466314|NCT03175367|164628619|SUPERIORITY||Adjusted Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|5.7|=|0.0635|TWO_SIDED|95.0|-21.8|0.6|||Regression, Linear|||||0.6|-21.8|= 0.0635
82466315|NCT03175367|164628619|SUPERIORITY||Adjusted Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|5.5|=|0.0314|TWO_SIDED|95.0|-22.8|-1.1|||Regression, Linear|||||-1.1|-22.8|= 0.0314
82466316|NCT03175367|164628619|SUPERIORITY||Adjusted Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|5.5|=|0.0923|TWO_SIDED|95.0|-19.9|1.5|||Regression, Linear|||||1.5|-19.9|= 0.0923
82466317|NCT03175367|164628619|SUPERIORITY||Adjusted Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|5.3|=|0.0017|TWO_SIDED|95.0|-26.8|-6.2|||Regression, Linear|||||-6.2|-26.8|= 0.0017
82466318|NCT03175367|164628619|SUPERIORITY||Adjusted Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|4.9|=|0.0009|TWO_SIDED|95.0|-26.2|-6.8|||Regression, Linear|||||-6.8|-26.2|= 0.0009
82466319|NCT03175367|164628620|SUPERIORITY||Adjusted Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|5.8|=|0.0054|TWO_SIDED|95.0|-27.4|-4.7|||Regression, Linear|||||-4.7|-27.4|= 0.0054
82466320|NCT03175367|164628620|SUPERIORITY||Adjusted Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|5.5|=|0.0085|TWO_SIDED|95.0|-25.4|-3.7|||Regression, Linear|||||-3.7|-25.4|= 0.0085
82466321|NCT02670811|164628627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The primary outcome, systolic blood pressure (mmHg), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82466322|NCT02670811|164628627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The primary outcome, systolic blood pressure (mmHg), was analyzed using a paired student t test.|t-test, 2 sided|||||||<0.05
82466323|NCT02670811|164628628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, diastolic blood pressure (mmHg), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82545988|NCT03363854|164791431|SUPERIORITY||Difference|0.1||||0.64|TWO_SIDED|95.0|-0.5|0.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 1 are reported below.||0.7|-0.5|0.64
82545989|NCT03363854|164791431|SUPERIORITY||Difference|0.4||||0.26|TWO_SIDED|95.0|-0.3|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 2 are reported below.||1.0|-0.3|0.26
82466324|NCT02670811|164628629|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, total cholesterol (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82466325|NCT02670811|164628630|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, low density lipoprotein (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82466326|NCT02670811|164628631|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, high density lipoproteins (mg/dL), between groups were analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82466327|NCT02670811|164628632|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||The secondary outcome, triglycerides (mg/dL), between groups was analyzed using an independent sample student t test.|t-test, 2 sided|||||||<0.05
82466328|NCT03714672|164628633|SUPERIORITY||Mean Difference (Final Values)|-4.1|||<|0.0001|TWO_SIDED|95.0|-4.8|-3.4|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results.||-3.4|-4.8|<0.0001
82466329|NCT03714672|164628633|SUPERIORITY||Mean Difference (Final Values)|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.2|-3.8|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results.||-3.8|-5.2|<0.0001
82466330|NCT03714672|164628633|SUPERIORITY||Mean Difference (Final Values)|-3.2|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.5|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results. The planned test was a test for non-inferiority.||-2.5|-3.9|<0.0001
82466331|NCT03714672|164628633|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.1|||ANCOVA|ANCOVA model with treatment, baseline pain intensity, and site as covariates.|LS means, 95% CIs, and pairwise CIs and p-values comparing the combination treatment arm to the monotherapy arm.|Bonferroni-Holm procedure used for determining the statistical significance of the results. The planned test was a test for non-inferiority.||-2.1|-3.5|<0.0001
82466332|NCT02364700|164628644|EQUIVALENCE|Group means from baseline to discharge were compared to determine if 6-week and training on the Hand of Hope device elicited changes in outcome measures.|||||<|0.05|||||||Friedman Test|||||||<.05
82466333|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.046||||0.085|TWO_SIDED|95.0|-0.006|0.098|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.098|-0.006|0.085
82466334|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.041||||0.123|TWO_SIDED|95.0|-0.011|0.093|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.093|-0.011|0.123
82466335|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.185|||<|0.001|TWO_SIDED|95.0|0.133|0.237|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.237|0.133|<0.001
82650445|NCT03563027|165016145|SUPERIORITY||Mean Difference (Net)|433.0||||0.81|TWO_SIDED|95.0|-337.0|1203.0|||Regression, Linear|||||1203|-337|.81
82650446|NCT03563027|165016145|SUPERIORITY||Mean Difference (Net)|1224.0||||0.005|TWO_SIDED|95.0|451.0|1996.0|||Regression, Linear|||||1996|451|.005
82650447|NCT03563027|165016146|SUPERIORITY||Mean Difference (Net)|-160.0||||0.92|TWO_SIDED|95.0|-983.0|663.0|||Regression, Linear|||||663|-983|.92
82650448|NCT03563027|165016146|SUPERIORITY||Mean Difference (Net)|564.0||||0.37|TWO_SIDED|95.0|-261.0|1389.0|||Regression, Linear|||||1389|-261|.37
82650449|NCT03563027|165016147|SUPERIORITY||Median Difference (Net)|0.21|||<|0.001|TWO_SIDED|95.0|0.18|0.24|||Regression, Linear|||||.24|.18|<.001
82650450|NCT03563027|165016147|SUPERIORITY||Mean Difference (Net)|0.34|||<|0.001|TWO_SIDED|95.0|0.31|0.37|||Regression, Linear|||||.37|.31|<.001
82650451|NCT03563027|165016148|SUPERIORITY||Mean Difference (Net)|0.09|||<|0.001|TWO_SIDED|95.0|0.06|0.1|||Regression, Linear|||||0.1|.06|<.001
82466336|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.214|||<|0.001|TWO_SIDED|95.0|0.161|0.266||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.266|0.161|<0.001
82466337|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.209|||<|0.001|TWO_SIDED|95.0|0.157|0.261|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.261|0.157|<0.001
82466338|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.168|||<|0.001|TWO_SIDED|95.0|0.116|0.22||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.220|0.116|<0.001
82650452|NCT03563027|165016148|SUPERIORITY||Median Difference (Net)|0.18|||<|0.001|TWO_SIDED|95.0|0.15|0.2|||Regression, Linear|||||.20|.15|<.001
82650453|NCT02040766|165016164|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.0063|TWO_SIDED|95.0|0.796|4.821||significance at 0.05.|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (inhaled corticosteroid (ICS) or non-corticosteroid (NCS) therapy) at the time of screening visit, during the run-in period, and during treatment.||4.821|0.796|0.0063
82466339|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.168|||<|0.001|TWO_SIDED|95.0|0.117|0.219|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.219|0.117|<0.001
82466340|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.274|TWO_SIDED|95.0|-0.023|0.081|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.081|-0.023|0.274
82466341|NCT01054885|164628650|SUPERIORITY_OR_OTHER||Least squares mean difference|0.024||||0.357|TWO_SIDED|95.0|-0.027|0.075|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.075|-0.027|0.357
82466342|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.044||||0.095|TWO_SIDED|95.0|-0.008|0.097|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.097|-0.008|0.095
82545990|NCT03363854|164791431|SUPERIORITY||Difference|0.2||||0.46|TWO_SIDED|95.0|-0.4|0.8||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 3 are reported below.||0.8|-0.4|0.46
82650454|NCT02040766|165016164|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.5332|TWO_SIDED|95.0|-1.354|2.614||significance at 0.05.|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (ICS or NCS therapy) at the time of screening visit, during the run-in period, and during treatment.||2.614|-1.354|0.5332
82650455|NCT02040766|165016164|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.3649|TWO_SIDED|95.0|-1.077|2.924||significance at 0.05|ANCOVA|||ANCOVA model with effects due to baseline trough morning percent predicted FEV1, sex, age, current protocol-allowed asthma therapy (ICS or NCS therapy) at the time of screening visit, during the run-in period, and during treatment.||2.924|-1.077|0.3649
82650456|NCT02040766|165016164|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.2823|TWO_SIDED|95.0|-0.902|3.088|||ANCOVA|||||3.088|-0.902|0.2823
82650457|NCT02040766|165016165|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.0001|TWO_SIDED|95.0|5.58|17.06|||Mixed Models Analysis|||||17.06|5.58|0.0001
82650458|NCT02040766|165016165|SUPERIORITY||Mean Difference (Final Values)|8.5||||0.0041|TWO_SIDED|95.0|2.71|14.24|||Mixed Models Analysis|||||14.24|2.71|0.0041
82650459|NCT02040766|165016165|SUPERIORITY||Mean Difference (Final Values)|7.6||||0.0103|TWO_SIDED|95.0|1.79|13.35|||Mixed Models Analysis|||||13.35|1.79|0.0103
82650460|NCT02040766|165016165|SUPERIORITY||Mean Difference (Final Values)|6.5||||0.0278|TWO_SIDED|95.0|0.71|12.23|||Mixed Models Analysis|||||12.23|0.71|0.0278
82650461|NCT02040766|165016166|SUPERIORITY||Mean Difference (Final Values)|11.7|||<|0.0001|TWO_SIDED|95.0|5.96|17.45|||Mixed Models Analysis|||||17.45|5.96|<0.0001
82650462|NCT02040766|165016166|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.0007|TWO_SIDED|95.0|4.2|15.76|||Mixed Models Analysis|||||15.76|4.20|0.0007
82650463|NCT02040766|165016166|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.0008|TWO_SIDED|95.0|4.11|15.68|||Mixed Models Analysis|||||15.68|4.11|0.0008
82650464|NCT02040766|165016166|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.0031|TWO_SIDED|95.0|2.95|14.49|||Mixed Models Analysis|||||14.49|2.95|0.0031
82650465|NCT02040766|165016167|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0002|TWO_SIDED|95.0|-0.548|-0.174|||Mixed Models Analysis|||||-0.174|-0.548|0.0002
82650466|NCT02040766|165016167|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.132|TWO_SIDED|95.0|-0.331|0.044|||Mixed Models Analysis|||||0.044|-0.331|0.1320
82650467|NCT02040766|165016167|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.5866|TWO_SIDED|95.0|-0.24|0.136|||Mixed Models Analysis|||||0.136|-0.240|0.5866
82650468|NCT02040766|165016167|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.0587|TWO_SIDED|95.0|-0.369|0.007|||Mixed Models Analysis|||||0.007|-0.369|0.0587
82650469|NCT02040766|165016168|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.0011|TWO_SIDED|95.0|-0.261|-0.065|||Mixed Models Analysis|||||-0.065|-0.261|0.0011
82650470|NCT02040766|165016168|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.0869|TWO_SIDED|95.0|-0.185|0.013|||Mixed Models Analysis|||||0.013|-0.185|0.0869
82650471|NCT02040766|165016168|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.4388|TWO_SIDED|95.0|-0.138|0.06|||Mixed Models Analysis|||||0.060|-0.138|0.4388
82466343|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.008||||0.756|TWO_SIDED|95.0|-0.044|0.06|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.060|-0.044|0.756
82466344|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1|||<|0.001|TWO_SIDED|95.0|0.048|0.151|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.151|0.048|<0.001
82466345|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.144|||<|0.001|TWO_SIDED|95.0|0.091|0.197||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.197|0.091|<0.001
82466346|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.131|||<|0.001|TWO_SIDED|95.0|0.08|0.183|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.183|0.080|<0.001
82466347|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.1|||<|0.001|TWO_SIDED|95.0|0.047|0.152||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.152|0.047|<0.001
82466348|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.123|||<|0.001|TWO_SIDED|95.0|0.072|0.174||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.174|0.072|<0.001
82466349|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.045||||0.093|TWO_SIDED|95.0|-0.008|0.097|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.097|-0.008|0.093
82466350|NCT01054885|164628651|SUPERIORITY_OR_OTHER||Least squares mean difference|0.032||||0.224|TWO_SIDED|95.0|-0.019|0.083|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.083|-0.019|0.224
82466351|NCT01280903|164628655|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82466352|NCT01280903|164628656|SUPERIORITY|||||||0.13||||||p=0.130 for None to very low|Mixed Models Analysis|||||||0.130
82466353|NCT01280903|164628656|SUPERIORITY|||||||0.573||||||p=0.573 for Light|Mixed Models Analysis|||||||0.573
82466354|NCT01280903|164628656|SUPERIORITY|||||||0.197||||||p=0.197 for Moderate-to-vigorous|Mixed Models Analysis|||||||0.197
82466355|NCT01280903|164628657|SUPERIORITY|||||||0.461|||||||Mixed Models Analysis|||||||0.461
82466356|NCT01280903|164628658|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||0.180
82466357|NCT01280903|164628659|SUPERIORITY|||||||0.258|||||||Mixed Models Analysis|||||||0.258
82466358|NCT01280903|164628660|SUPERIORITY|||||||0.416|||||||Mixed Models Analysis|||||||0.416
82466359|NCT01280903|164628661|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82466360|NCT01280903|164628662|SUPERIORITY|||||||0.272||||||p=0.272 for None to very low|Mixed Models Analysis|||||||0.272
82466361|NCT01280903|164628662|SUPERIORITY|||||||0.823||||||p=0.823 for Light|Mixed Models Analysis|||||||0.823
82466362|NCT01280903|164628662|SUPERIORITY|||||||0.076||||||p=0.076 for Moderate-to-vigorous|Mixed Models Analysis|||||||0.076
82466363|NCT01280903|164628663|SUPERIORITY|||||||0.561|||||||Mixed Models Analysis|||||||0.561
82466364|NCT01280903|164628664|SUPERIORITY|||||||0.856|||||||Mixed Models Analysis|||||||0.856
82466365|NCT01280903|164628665|SUPERIORITY|||||||0.292|||||||Mixed Models Analysis|||||||0.292
82466366|NCT01280903|164628666|SUPERIORITY|||||||0.396|||||||Mixed Models Analysis|||||||0.396
82466367|NCT01280903|164628667|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.424
82466368|NCT01280903|164628668|SUPERIORITY|||||||0.586|||||||Mixed Models Analysis|||||||0.586
82466369|NCT01280903|164628669|SUPERIORITY|||||||0.596|||||||Mixed Models Analysis|||||||0.596
82466370|NCT01280903|164628670|SUPERIORITY|||||||0.639|||||||Mixed Models Analysis|||||||0.639
82466371|NCT01280903|164628671|SUPERIORITY|||||||0.466|||||||Mixed Models Analysis|||||||0.466
82466372|NCT01280903|164628672|SUPERIORITY|||||||0.322||||||p=0.322 for Short Form-36v2 Mental Component|Mixed Models Analysis|||||||0.322
82466373|NCT01280903|164628672|SUPERIORITY|||||||0.979||||||p=0.979 for Short Form-36v2 Physical Component|Mixed Models Analysis|||||||0.979
82466374|NCT01280903|164628673|SUPERIORITY|||||||0.71||||||p=0.710 for Exercise Barriers Self-Efficacy|Mixed Models Analysis|||||||0.710
82466375|NCT01280903|164628673|SUPERIORITY|||||||0.133||||||p=0.133 for Exercise Self-Efficacy|Mixed Models Analysis|||||||0.133
82466376|NCT01280903|164628674|SUPERIORITY|||||||0.005||||||p=0.005 for Arthritis Self Efficacy Pain|Mixed Models Analysis|||||||0.005
82466377|NCT01280903|164628674|SUPERIORITY|||||||0.948||||||p=0.948 for Arthritis Self Efficacy Function|Mixed Models Analysis|||||||0.948
82466378|NCT01280903|164628674|SUPERIORITY|||||||0.663||||||p=0.663 for Arthritis Self Efficacy Other Symptoms|Mixed Models Analysis|||||||0.663
82466379|NCT01280903|164628675|SUPERIORITY|||||||0.001||||||p=0.001 for Perceived Therapeutic Efficacy of Exercise and Arthritis|Mixed Models Analysis|||||||0.001
82466380|NCT01280903|164628675|SUPERIORITY|||||||0.031||||||p=0.031 for Perceived Therapeutic Efficacy of Exercise and Hypertension|Mixed Models Analysis|||||||0.031
82466381|NCT01280903|164628676|SUPERIORITY|||||||0.816|||||||Mixed Models Analysis|||||||0.816
82466382|NCT01280903|164628677|SUPERIORITY|||||||0.895|||||||Mixed Models Analysis|||||||0.895
82466383|NCT01280903|164628678|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||||||0.260
82466384|NCT01280903|164628679|SUPERIORITY|||||||0.993|||||||Mixed Models Analysis|||||||0.993
82466385|NCT01280903|164628680|SUPERIORITY|||||||0.947|||||||Mixed Models Analysis|||||||0.947
82466386|NCT01280903|164628681|SUPERIORITY|||||||0.406||||||p=0.406 for Short Form-36v2 Mental Component|Mixed Models Analysis|||||||0.406
82466387|NCT01280903|164628681|SUPERIORITY|||||||0.826||||||p=0.826 for Short Form-36v2 Physical Component|Mixed Models Analysis|||||||0.826
82466388|NCT01280903|164628682|SUPERIORITY|||||||0.95||||||p=0.950 for Exercise Barriers Self-Efficacy|Mixed Models Analysis|||||||0.950
82466389|NCT01280903|164628682|SUPERIORITY|||||||0.365||||||p=0.365 for Exercise Self-Efficacy|Mixed Models Analysis|||||||0.365
82466390|NCT01280903|164628683|SUPERIORITY|||||||0.219||||||p=0.219 for Arthritis Self Efficacy Pain|Mixed Models Analysis|||||||0.219
82466391|NCT01280903|164628683|SUPERIORITY|||||||0.34||||||p=0.340 for Arthritis Self Efficacy Function|Mixed Models Analysis|||||||0.340
82466392|NCT01280903|164628683|SUPERIORITY|||||||0.806||||||p=0.806 for Arthritis Self Efficacy Other Symptoms|Mixed Models Analysis|||||||0.806
82545991|NCT03363854|164791431|SUPERIORITY||Difference|0.4||||0.16|TWO_SIDED|95.0|-0.2|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 4 are reported below.||1.0|-0.2|0.16
82545992|NCT03363854|164791431|SUPERIORITY||Difference|0.5||||0.13|TWO_SIDED|95.0|-0.1|1.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 5 are reported below.||1.1|-0.1|0.13
82545993|NCT03363854|164791431|SUPERIORITY||Difference|0.3||||0.38|TWO_SIDED|95.0|-0.3|0.9||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 6 are reported below.||0.9|-0.3|0.38
82545994|NCT03363854|164791431|SUPERIORITY||Difference|0.6||||0.04|TWO_SIDED|95.0|0.0|1.2||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 7 are reported below.||1.2|0.0|0.040
82545995|NCT03363854|164791431|SUPERIORITY||Difference|0.3||||0.31|TWO_SIDED|95.0|-0.3|1.0||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 8 are reported below.||1.0|-0.3|0.31
82545996|NCT03363854|164791431|SUPERIORITY||Difference|1.0||||0.001|TWO_SIDED|95.0|0.4|1.6||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 9 are reported below.||1.6|0.4|0.001
82466393|NCT01280903|164628684|SUPERIORITY|||||||0.008||||||p=0.008 for Perceived Therapeutic Efficacy of Exercise and Arthritis|Mixed Models Analysis|||||||0.008
82466394|NCT01280903|164628684|SUPERIORITY|||||||0.12||||||p=0.120 for Perceived Therapeutic Efficacy of Exercise and Hypertension|t-test, 1 sided|||||||0.120
82466395|NCT02220920|164628702|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-1.33|-0.87|||ANCOVA|||||-0.87|-1.33|<0.001
82466396|NCT02220920|164628703|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-32.6|STANDARD_ERROR_OF_MEAN|6.9|<|0.001|TWO_SIDED|95.0|-46.3|-18.9|||ANCOVA|||||-18.9|-46.3|<0.001
82466397|NCT02220920|164628704|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.37|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-3.09|-1.65|||ANCOVA|||||-1.65|-3.09|<0.001
82466398|NCT02220920|164628705|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.19|STANDARD_ERROR_OF_MEAN|1.67||0.058|TWO_SIDED|95.0|-6.49|0.11|||ANCOVA||Estimated P-Value, Least-Squares Mean Difference, Standard Error of the mean, 95% CI are presented for the change from Baseline in systolic blood pressure for week 16.|||0.11|-6.49|0.058
82466399|NCT02220920|164628705|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|1.03||0.232|TWO_SIDED|95.0|-3.27|0.8|||ANCOVA||Estimated P-Value, Least-Squares Mean Difference, Standard Error of the mean, 95% CI are presented for the change from Baseline in diastolic blood pressure for week 16.|||0.80|-3.27|0.232
82545997|NCT03363854|164791431|SUPERIORITY||Difference|0.7||||0.026|TWO_SIDED|95.0|0.1|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 10 are reported below.||1.3|0.1|0.026
82545998|NCT03363854|164791431|SUPERIORITY||Difference|0.9||||0.006|TWO_SIDED|95.0|0.2|1.5||The statistical test was not controlled for multiplicity.|Repeated measurements model]|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 11 are reported below.||1.5|0.2|0.006
82545999|NCT03363854|164791431|SUPERIORITY||Difference|0.6||||0.043|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 12 are reported below.||1.3|0.0|0.043
82650472|NCT02040766|165016168|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.1041|TWO_SIDED|95.0|-0.18|0.017|||Mixed Models Analysis|||||0.017|-0.180|0.1041
82466400|NCT01231984|164628730|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4mm PN and the 8mm PN was calculated. Equivalence limits for HbA1C were defined a-priori as +/- 0.4% units.|Effect of 4mm versus 8mm PN on HbA1c|-0.076|||||TWO_SIDED|95.0|-0.209|0.058|||Two one-sided 95% confidence limits|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||0.058|-0.209|
82466401|NCT01231984|164628731|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4 mm PN and the longer PNs (pooled) was calculated. Equivalence limits for HbA1c were defined a-priori as +/- 0.4% units.|Effect of 4mm PN vs. longer PN on HbA1c|-0.09|||||TWO_SIDED|95.0|-0.23|0.051|||Two one-sided 95% confidence limits|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||0.051|-0.23|
82546000|NCT03363854|164791431|SUPERIORITY||Difference|0.8||||0.01|TWO_SIDED|95.0|0.2|1.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 13 are reported below.||1.4|0.2|0.010
82650473|NCT02040766|165016169|SUPERIORITY|||||||0.287|||||||Log Rank|||||||0.2870
82650474|NCT02040766|165016169|SUPERIORITY|||||||0.5257|||||||Log Rank|||||||0.5257
82650475|NCT02040766|165016169|SUPERIORITY|||||||0.9982|||||||Log Rank|||||||0.9982
82650476|NCT02040766|165016169|SUPERIORITY|||||||0.7633|||||||Log Rank|||||||0.7633
82650477|NCT01271933|165016170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0186|TWO_SIDED|||||The p-value was calculated using log-rank test for comparing pregabalin CR with placebo|Log Rank|||||||0.0186
82546001|NCT03363854|164791431|SUPERIORITY||Difference|0.7||||0.037|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 14 are reported below.||1.3|0.0|0.037
82546002|NCT03363854|164791431|SUPERIORITY||Difference|0.6||||0.045|TWO_SIDED|95.0|0.0|1.3||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 15 are reported below.||1.3|0.0|0.045
82466402|NCT01231984|164628732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.36|||<|0.05|ONE_SIDED|95.0|0.37|||p\< 0.05 was considered statistically significant in this study|t-test, 1 sided|||"Subjects rated the level of pain experienced when using the PN assigned for use during Study Period 2 compared to the PN assigned for use in Study Period 1. By placing a mark on a line, whose midpoint(anchor) was designated as 0, and represented equivalent pain with assigned PNs, ratings on the continuum represented the degree to which the PN used in the second Study Period was less than or greater than the PN used during the first Study Period."|||0.37|<0.05
82466403|NCT01231984|164628733|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.83|||<|0.05|ONE_SIDED|95.0|18.54|||p\< 0.05 was considered statistically significant in this study.|t-test, 1 sided||||||18.54|<0.05
82466404|NCT01231984|164628735|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two one-sided 95% confidence limits for the difference in HbA1c between the 4mm PN and the 12.7mm PN was calculated. Equivalence limits for HbA1C were defined a-priori as +/- 0.4% units|Effect of 4 mm vs.12.7mm PN on HbA1c|-0.095|||||TWO_SIDED|95.0|-0.19|0.0|||Two one-sided 95% confidence limit|For equivalence testing, a 95% test is the same as two one-sided 95% confidence limits.||General linear models with baseline as a covariate, needle type, period, and randomization sequence as fixed effects, and subject as random effect were fit to the data.||-0.000|-0.190|
82466405|NCT01968447|164628737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
82466406|NCT04026113|164628757|SUPERIORITY||Difference|1.17|STANDARD_ERROR_OF_MEAN|0.264|<|0.0001|TWO_SIDED|95.0|0.651|1.689||ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA|||||1.689|0.651|< 0.0001
82466407|NCT04026113|164628757|SUPERIORITY|||||||0.4323||||||Treatment-by-Age Group Interaction P-value: Interaction P-value base on ANCOVA model with treatment, age group, treatment-by-age group interaction as factors and baseline value as a covariate.|ANCOVA|||||||0.4323
82466408|NCT04026113|164628759|SUPERIORITY||Difference|0.423|STANDARD_ERROR_OF_MEAN|0.109||0.0001|TWO_SIDED|95.0|0.208|0.638||ANCOVA model estimates/t-tests comparing specified treatment groups, controlling for age group and baseline value.|ANCOVA|||||0.638|0.208|0.0001
82466409|NCT04026113|164628759|SUPERIORITY|||||||0.4381||||||Treatment-by-Age Group Interaction P-value: Interaction P-value base on ANCOVA model with treatment, age group, treatment-by-age group interaction as factors and baseline value as a covariate.|ANCOVA|||||||0.4381
82466410|NCT04613362|164628765|SUPERIORITY||Odds Ratio (OR)|0.82||||0.61|TWO_SIDED|95.0|0.34|1.97||adjusted for gender which is included as a covariate|Mixed Models Analysis|||||1.97|0.34|0.61
82466411|NCT04613362|164628767|SUPERIORITY||Mean Difference (Net)|-8.8028|STANDARD_ERROR_OF_MEAN|6.3895||0.1724|TWO_SIDED|95.0|-21.5314|3.9257|||Mixed Models Analysis|||3 month||3.9257|-21.5314|0.1724
82466412|NCT04613362|164628767|SUPERIORITY||Mean Difference (Net)|-4.6533|STANDARD_ERROR_OF_MEAN|5.9929||0.4399|TWO_SIDED|95.0|-16.5917|7.2851|||Mixed Models Analysis|||6 months||7.2851|-16.5917|0.4399
82466413|NCT04613362|164628768|SUPERIORITY||Mean Difference (Net)|18.7886|STANDARD_ERROR_OF_MEAN|18.0826||0.3021|TWO_SIDED|95.0|-17.2261|54.8032|||Mixed Models Analysis|||3 months||54.8032|-17.2261|0.3021
82466414|NCT04613362|164628768|SUPERIORITY||Mean Difference (Net)|-5.1996|STANDARD_ERROR_OF_MEAN|17.1338||0.7624|TWO_SIDED|95.0|-39.3245|28.9254|||Mixed Models Analysis|||6 months||28.9254|-39.3245|0.7624
82466415|NCT04613362|164628769|SUPERIORITY||Mean Difference (Net)|5.9613|STANDARD_ERROR_OF_MEAN|4.3867||0.1783|TWO_SIDED|95.0|-2.7794|14.7019|||Mixed Models Analysis|||3 months||14.7019|-2.7794|0.1783
82466416|NCT04613362|164628769|SUPERIORITY||Mean Difference (Net)|-0.2145|STANDARD_ERROR_OF_MEAN|4.1565||0.959|TWO_SIDED|95.0|-8.4965|8.0675|||Mixed Models Analysis|||6 months||8.0675|-8.4965|0.959
82466417|NCT04613362|164628770|SUPERIORITY||Mean Difference (Net)|-12.6627|STANDARD_ERROR_OF_MEAN|7.3097||0.0873|TWO_SIDED|95.0|-27.2243|1.8989|||Mixed Models Analysis|||3 months||1.8989|-27.2243|0.0873
82466418|NCT04613362|164628770|SUPERIORITY||Mean Difference (Net)|-7.3578|STANDARD_ERROR_OF_MEAN|6.8559||0.2866|TWO_SIDED|95.0|-21.0154|6.2999|||Mixed Models Analysis|||6 months||6.2999|-21.0154|0.2866
82466419|NCT04613362|164628772|SUPERIORITY||Mean Difference (Net)|-1.5655|STANDARD_ERROR_OF_MEAN|1.4313||0.2776|TWO_SIDED|95.0|-4.4168|1.2859|||Mixed Models Analysis|||3 months||1.2859|-4.4168|0.2776
82466420|NCT04613362|164628772|SUPERIORITY||Mean Difference (Net)|0.7202|STANDARD_ERROR_OF_MEAN|1.6492||0.6636|TWO_SIDED|95.0|-2.5651|4.0055|||Mixed Models Analysis|||6 months||4.0055|-2.5651|0.6636
82466421|NCT04613362|164628773|SUPERIORITY||Mean Difference (Net)|2.3254|STANDARD_ERROR_OF_MEAN|1.6911||0.1733|TWO_SIDED|95.0|-1.0443|5.695|||Mixed Models Analysis|||3 months||5.695|-1.0443|0.1733
82466422|NCT04613362|164628773|SUPERIORITY||Mean Difference (Net)|-0.5408|STANDARD_ERROR_OF_MEAN|1.622||0.7398|TWO_SIDED|95.0|-3.7726|2.6911|||Mixed Models Analysis|||6 months||2.6911|-3.7726|0.7398
82466423|NCT04613362|164628774|SUPERIORITY||Mean Difference (Net)|-0.1491|STANDARD_ERROR_OF_MEAN|1.5551||0.9239|TWO_SIDED|95.0|-3.2476|2.9494|||Mixed Models Analysis|||Physical Component Scale - 3 months||2.9494|-3.2476|0.9239
82466424|NCT04613362|164628774|SUPERIORITY||Mean Difference (Net)|-0.2879|STANDARD_ERROR_OF_MEAN|1.4735||0.8456|TWO_SIDED|95.0|-3.2238|2.6481|||Mixed Models Analysis|||Physical Component Scale - 6 months||2.6481|-3.2238|0.8456
82466425|NCT04613362|164628774|SUPERIORITY||Mean Difference (Net)|-0.1757|STANDARD_ERROR_OF_MEAN|2.3798||0.9413|TWO_SIDED|95.0|-4.9175|4.5661|||Mixed Models Analysis|||Mental Component Scale - 3 months||4.5661|-4.9175|0.9413
82546003|NCT03363854|164791431|SUPERIORITY||Difference|0.5||||0.17|TWO_SIDED|95.0|-0.2|1.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included. Results of Week 16 are reported below.||1.1|-0.2|0.17
82466426|NCT04613362|164628774|SUPERIORITY||Mean Difference (Net)|-2.9597|STANDARD_ERROR_OF_MEAN|2.2549||0.1934|TWO_SIDED|95.0|-7.4526|1.5333|||Mixed Models Analysis|||Mental Component Scale - 6 months||1.5333|-7.4526|0.1934
82546004|NCT03363854|164791432|SUPERIORITY||Risk Difference (RD)|21.3|||<|0.001|TWO_SIDED|95.0|11.3|31.3||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16.||31.3|11.3|<0.001
82650478|NCT01271933|165016174|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.41||0.331|TWO_SIDED|95.0|-1.2|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||||0.4|-1.2|0.3310
82650479|NCT01271933|165016177|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9247|TWO_SIDED|95.0|-0.8|0.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.8|-0.8|0.9247
82466427|NCT04613362|164628775|SUPERIORITY||Mean Difference (Net)|3.0999|STANDARD_ERROR_OF_MEAN|2.1004||0.1442|TWO_SIDED|95.0|-1.0852|7.2849|||Mixed Models Analysis|||3 months||7.2849|-1.0852|0.1442
82466428|NCT04613362|164628775|SUPERIORITY||Mean Difference (Net)|2.0675|STANDARD_ERROR_OF_MEAN|2.036||0.3132|TWO_SIDED|95.0|-1.9892|6.1243|||Mixed Models Analysis|||6 months||6.1243|-1.9892|0.3132
82466429|NCT02218372|164628778|OTHER||adjusted treatment difference|7.5|||||TWO_SIDED|95.0|-7.4|23.9||||||Adjusted difference of CCR at EOT + 2 Days. Adjusted treatment difference of proportions was calculated using a stratified Cochran-Mantel-Haenszel (CMH) method. Newcombe 95% confidence intervals (CIs) presented for adjusted treatment difference.||23.9|-7.4|
82466430|NCT02218372|164628779|OTHER||adjusted treatment difference|16.3|||||TWO_SIDED|95.0|1.8|34.2||||||Adjusted difference of SCR at EOT +9 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.2|1.8|
82466431|NCT02218372|164628780|OTHER||adjusted treatment difference|21.3|||||TWO_SIDED|95.0|4.5|37.7||||||Adjusted difference of GC at EOT +9 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||37.7|4.5|
82466432|NCT02218372|164628781|OTHER||adjusted treatment difference|-16.3|||||TWO_SIDED|95.0|-34.2|-1.8||||||Adjusted difference of CDAD recurrence at EOT +9 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||-1.8|-34.2|
82466433|NCT02218372|164628782|OTHER||adjusted treatment difference|17.2|||||TWO_SIDED|95.0|1.9|35.6||||||Adjusted difference of SCR at EOT +16 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.6|1.9|
82466434|NCT02218372|164628783|OTHER||adjusted treatment difference|19.4|||||TWO_SIDED|95.0|2.3|35.9||||||Adjusted difference of GC at EOT +16 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.9|2.3|
82466435|NCT02218372|164628784|OTHER||adjusted treatment difference|-17.2|||||TWO_SIDED|95.0|-35.6|-1.9||||||Adjusted difference of CDAD Recurrence at EOT +16 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||-1.9|-35.6|
82466436|NCT02218372|164628785|OTHER||adjusted treatment difference|15.8|||||TWO_SIDED|95.0|-0.5|34.5||||||Adjusted difference of SCR at EOT +23 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.5|-0.5|
82466437|NCT02218372|164628786|OTHER||adjusted treatment difference|18.8|||||TWO_SIDED|95.0|1.5|35.3||||||Adjusted difference of GC at EOT +23 days. Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.3|1.5|
82466438|NCT02218372|164628787|OTHER||adjusted treatment difference|-15.8|||||TWO_SIDED|95.0|-34.5|0.5||||||Adjusted difference of CDAD Recurrence at EOT +23 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||0.5|-34.5|
82466439|NCT02218372|164628788|OTHER||adjusted treatment difference|15.8|||||TWO_SIDED|95.0|-0.5|34.5||||||Adjusted difference of SCR at EOS (EOT +30 days). Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||34.5|-0.5|
82466440|NCT02218372|164628789|OTHER||adjusted treatment difference|18.8|||||TWO_SIDED|95.0|1.5|35.3||||||Adjusted difference of GC at EOS (EOT +30 days). Adjusted treatment difference of rates was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||35.3|1.5|
82466441|NCT02218372|164628790|OTHER|Newcombe 95% CIs presented for adjusted treatment difference.|adjusted treatment difference|-15.8|||||TWO_SIDED|95.0|-34.5|0.5||||||Adjusted difference of CDAD recurrence at EOS/EOT +30 days. Adjusted treatment difference of proportions was calculated using a stratified CMH method. Newcombe 95% CIs presented for adjusted treatment difference.||0.5|-34.5|
82466442|NCT02218372|164628791|OTHER|||||||0.579|||||||Log Rank|||Time to resolution of diarrhea.||||0.579
82466443|NCT02218372|164628792|OTHER|||||||0.023|||||||Log Rank|||Time to recurrence of CDAD.||||0.023
82466444|NCT04090203|164628816|SUPERIORITY||Percentage|75.0||||0.001|ONE_SIDED|95.0|40.0|||The test was performed at a one-sided significance level of 0.05.|Exact binomial test|The null hypothesis of the exact binomial test was that the percentage of patients who were successfully desensitized was less than or equal to 20%.|The percentage of successfully desensitized participants is presented with a one-sided 95% CI, obtained from the lower bound of the two-sided 90% Clopper-Pearson exact confidence interval.|The null hypothesis was that the percentage of patients who were successfully desensitized was less than or equal to 20%, and the alternative hypothesis was that this percentage was greater than 20%. Assuming 80% of study participants would be successfully desensitized, a sample size of 10 patients would provide greater than 90% power to reject the null hypothesis using a one-sided exact binomial test with a significance level of 0.05.|||40.0|0.001
82466445|NCT01488045|164628817|EQUIVALENCE|We compared patient satisfaction for those receiving the 2 sedation regimens using the Schuirmann 2 one-sided t test procedure.15 The groups were declared to be equivalent in terms of patient satisfaction if the 90% CI for the difference in mean satisfaction had outer boundaries indicating \<5% difference on the 100-point VAS. Nonequivalence was declared if the lower 90% CI boundary for the difference was less than -5.0, or if the upper 90% CI boundary for the difference was \>5.0.|Mean Difference (Final Values)|-14.0741|STANDARD_DEVIATION|22.2|||TWO_SIDED|95.0|-18.5|-9.6||||||To calculate the required sample size for this study, the equivalence limit was set at 5 units difference on the VAS, with an expected mean difference of 0. The common SD of 16.2 was estimated based on the range of expected scores for the VAS from Ulmer et al. Using these inputs, a total sample size of 262 patients was estimated to have 80% power to reject the null hypothesis that the test and standard were not equivalent and conclude that they were equivalent.||-9.6|-18.5|
82466446|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.16||||0.0029|TWO_SIDED|95.0|0.06|0.26||estimates of total lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2600|0.0600|0.0029
82466447|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.1825||||0.0007|TWO_SIDED|95.0|0.0855|0.2795||estimates of left lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2795|0.0855|0.0007
82466448|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.1565||||0.0093|TWO_SIDED|95.0|0.0419|0.2711||estimates of right lung|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2711|0.0419|0.0093
82466449|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.1764||||0.0007|TWO_SIDED|95.0|0.0823|0.2704||estimates of left lung apical|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2704|0.0823|0.0007
82466450|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.1999||||0.001|TWO_SIDED|95.0|0.0894|0.3103||estimates of left lung basal|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.3103|0.0894|0.0010
82466451|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.136||||0.0159|TWO_SIDED|95.0|0.0276|0.2443||estimates of right lung apical|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2443|0.0276|0.0159
82466452|NCT02135861|164628848|OTHER||Mean Difference (Final Values)|0.1748||||0.0064|TWO_SIDED|95.0|0.0535|0.2961||estimates of right lung basal|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2961|0.0535|0.0064
82466453|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|-0.0137||||0.7381|TWO_SIDED|95.0|-0.0968|0.0695||estimates of total lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0695|-0.0968|0.7381
82466454|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|0.0136||||0.6992|TWO_SIDED|95.0|-0.058|0.0852||estimates of left lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0852|-0.0580|0.6992
82466455|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|-0.0258||||0.5778|TWO_SIDED|95.0|-0.1201|0.0684||estimates of right lung|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0684|-0.1201|0.5778
82466456|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|0.0005||||0.9899|TWO_SIDED|95.0|-0.0738|0.0747||estimates of left lung apical|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0747|-0.0738|0.9899
82466457|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|0.0396||||0.2912|TWO_SIDED|95.0|-0.036|0.1153||estimates of left lung basal|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.1153|-0.0360|0.2912
82466458|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|-0.0362||||0.4592|TWO_SIDED|95.0|-0.1355|0.0631||estimates of right lung apical|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0631|-0.1355|0.4592
82466459|NCT02135861|164628849|OTHER||Mean Difference (Final Values)|-0.0118||||0.7936|TWO_SIDED|95.0|-0.1036|0.08||estimates of right lung basal|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0800|-0.1036|0.7936
82466460|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1148||||0.0156|TWO_SIDED|95.0|0.0236|0.2061||estimates of total lung- Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2061|0.0236|0.0156
82546005|NCT03363854|164791433|SUPERIORITY||Risk Difference (RD)|11.4||||0.022|TWO_SIDED|95.0|2.1|20.7||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their EASI value at Week 16.||20.7|2.1|0.022
82466461|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1366||||0.0026|TWO_SIDED|95.0|0.0523|0.2209||estimates of left lung- Pre-exercise|ANOVA|estimates of left lung- Pre-exercise|||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2209|0.0523|0.0026
82466462|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1067||||0.0328|TWO_SIDED|95.0|0.0094|0.204||estimates of right lung- Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2040|0.0094|0.0328
82466463|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1145||||0.0158|TWO_SIDED|95.0|0.0235|0.2056||estimates of left lung apical-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2056|0.0235|0.0158
82466464|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1776||||0.0002|TWO_SIDED|95.0|0.0917|0.2635||estimates of left lung basal-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2635|0.0917|0.0002
82466465|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.0956||||0.0658|TWO_SIDED|95.0|-0.0067|0.1979||estimates of right lung apical-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.1979|-0.0067|0.0658
82466466|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1194||||0.015|TWO_SIDED|95.0|0.0251|0.2137||estimates of right lung basal-Pre-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2137|0.0251|0.0150
82466467|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1428||||0.0015|TWO_SIDED|95.0|0.0598|0.2259||estimates of total lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2259|0.0598|0.0015
82466468|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1776|||<|0.0001|TWO_SIDED|95.0|0.1057|0.2496||estimates of left lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2496|0.1057|<.0001
82466469|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.126||||0.0114|TWO_SIDED|95.0|0.0308|0.2212||estimates of right lung-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2212|0.0308|0.0114
82466470|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1464||||0.0002|TWO_SIDED|95.0|0.0774|0.2153||estimates of left lung apical-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2153|0.0774|0.0002
82466471|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.2137|||<|0.0001|TWO_SIDED|95.0|0.1266|0.3008||estimates of left lung basal-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.3008|0.1266|<.0001
82466472|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1111||||0.025|TWO_SIDED|95.0|0.0151|0.2071||estimates of right lung apical-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2071|0.0151|0.0250
82466473|NCT02135861|164628850|OTHER||Mean Difference (Final Values)|0.1458||||0.0052||95.0|0.0475|0.2442||estimates of right lung basal-Post-exercise|ANOVA||||Ve was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.2442|0.0475|0.0052
82546006|NCT03363854|164791434|SUPERIORITY||Difference|-5.4|||<|0.001|TWO_SIDED|95.0|-7.7|-3.1||The statistical test was not controlled for multiplicity.|Repeated measurement model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-3.1|-7.7|<0.001
82546007|NCT03363854|164791435|SUPERIORITY||Risk Difference (RD)|22.9|||<|0.001|TWO_SIDED|95.0|12.4|33.3||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Partcipants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their SCORAD value at Week 16.||33.3|12.4|<0.001
82650480|NCT01271933|165016186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|7.12||0.4314|TWO_SIDED|95.0|-19.7|8.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||This analysis is for the domain: Subjective Wake after Sleep Onset||8.5|-19.7|0.4314
82466474|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0524||||0.173|TWO_SIDED|95.0|-0.1292|0.0244||estimates of total lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0244|-0.1292|0.1730
82466475|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0423||||0.2704|TWO_SIDED|95.0|-0.1196|0.0349||estimates of left lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0349|-0.1196|0.2704
82466476|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0515||||0.2072|TWO_SIDED|95.0|-0.1334|0.0303||estimates of right lung-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0303|-0.1334|0.2072
82466477|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0603||||0.1307|TWO_SIDED|95.0|-0.1398|0.0191||estimates of left lung apical-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0191|-0.1398|0.1307
82466478|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0078||||0.8427|TWO_SIDED|95.0|-0.0879|0.0722||estimates of left lung basal-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0722|-0.0879|0.8427
82466479|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0506||||0.1848|TWO_SIDED|95.0|-0.1269|0.0257||estimates of right lung apical-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0257|-0.1269|0.1848
82466480|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0413||||0.3408|TWO_SIDED|95.0|-0.1286|0.0461||estimates of right lung basal-Pre-exercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0461|-0.1286|0.3408
82466481|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0267||||0.3682|TWO_SIDED|95.0|-0.0866|0.0332||estimates of total lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0332|-0.0866|0.3682
82466482|NCT02135861|164628851|OTHER||Mean Difference (Net)|-0.0201||||0.4531|TWO_SIDED|95.0|-0.0744|0.0342||estimates of left lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0342|-0.0744|0.4531
82466483|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0188||||0.597|TWO_SIDED|95.0|-0.0909|0.0533||estimates of right lung-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0533|-0.0909|0.5970
82466484|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0159||||0.5472|TWO_SIDED|95.0|-0.0693|0.0375||estimates of left lung apical-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0375|-0.0693|0.5472
82466485|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0125||||0.6793|TWO_SIDED|95.0|-0.0742|0.0491||estimates of left lung basal-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0491|-0.0742|0.6793
82466486|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0249||||0.4806|TWO_SIDED|95.0|-0.0964|0.0466||estimates of right lung apical-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0466|-0.0964|0.4806
82466487|NCT02135861|164628851|OTHER||Mean Difference (Final Values)|-0.0029||||0.9379|TWO_SIDED|95.0|-0.0789|0.0731||estimates of right lung basal-Post-excercise|ANOVA||||Ktrans was fitted using a repeat measure ANOVA model with terms including participant population (HF or HV), visit (i.e. sessions), interaction of participant population and visit, with participant ID as block of the repeat factor|0.0731|-0.0789|0.9379
82466488|NCT03199976|164628858|SUPERIORITY||||||<|0.01||||||Bonferroni correction was applied in pairwise analyses.|Wilcoxon (Mann-Whitney)|||||||<0.01
82466489|NCT03199976|164628859|SUPERIORITY|||||||0.595|||||||Chi-squared|||||||0.595
82466490|NCT03199976|164628860|SUPERIORITY||||||<|0.01||||||Bonferroni correction was applied in pairwise analyses.|Wilcoxon (Mann-Whitney)|||||||<0.01
82466491|NCT03199976|164628861|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82499969|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-18.5|17.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||17.6|-18.5|
82499970|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-23.3|9.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||9.4|-23.3|
82499971|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.5|||||TWO_SIDED|95.0|-27.4|6.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||6.5|-27.4|
82499972|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|||||TWO_SIDED|95.0|-37.5|-2.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-2.7|-37.5|
82499973|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-15.5|19.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||19.7|-15.5|
82650481|NCT01271933|165016186|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|9.26||0.8915|TWO_SIDED|95.0|-17.1|19.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Subjective Latency to Sleep Onset||19.6|-17.1|0.8915
82650482|NCT01271933|165016187|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.41||0.4571|TWO_SIDED|95.0|-0.5|1.1||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||1.1|-0.5|0.4571
82499974|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-19.4|16.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||16.9|-19.4|
82499975|NCT00555321|164690608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|||||TWO_SIDED|95.0|-29.3|7.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||7.9|-29.3|
82499976|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|-6.3|36.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||36.0|-6.3|
82499977|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-23.4|10.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.2|-23.4|
82499978|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-23.4|10.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||10.0|-23.4|
82499979|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-22.0|23.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||23.4|-22.0|
82499980|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|||||TWO_SIDED|95.0|-38.6|-0.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||-0.1|-38.6|
82499981|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.2|||||TWO_SIDED|95.0|-39.1|-1.8|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||-1.8|-39.1|
82499982|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.8|||||TWO_SIDED|95.0|-8.7|34.0|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||34.0|-8.7|
82499983|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1|||||TWO_SIDED|95.0|-25.2|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||8.7|-25.2|
82499984|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.8|||||TWO_SIDED|95.0|-26.3|7.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||7.7|-26.3|
82499985|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-24.5|21.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12.||21.1|-24.5|
82499986|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|||||TWO_SIDED|95.0|-40.5|-1.9|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-1.9|-40.5|
82499987|NCT00555321|164690615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|||||TWO_SIDED|95.0|-41.8|-4.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-4.3|-41.8|
82499988|NCT01288469|164690625|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.82|||<|0.0001|TWO_SIDED|95.0|-65.62|-46.03||Threshold for significance ≤0.05.|ANCOVA||Alirocumab vs. placebo|Throughout the ANCOVA model, the Alirocumab + atorvastatin 80 mg group was compared to the placebo + atorvastatin 80 mg group using appropriate contrast and the 95% confidence interval (CI) of the difference was provided.||-46.03|-65.62|<0.0001
82499989|NCT00563381|164690632|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83|||<|0.0001||95.0|0.77|0.9|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.90|0.77|<0.0001
82499990|NCT00563381|164690633|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.73|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.66|0.82|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium vs. Salmeterol||0.82|0.66|<0.0001
82499991|NCT00563381|164690634|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.0002||95.0|0.85|0.95|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||0.95|0.85|0.0002
82499992|NCT00563381|164690635|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.89|STANDARD_ERROR_OF_MEAN|0.03||0.0017||95.0|0.83|0.96|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.96|0.83|0.0017
82499993|NCT00563381|164690636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||<|0.0001||95.0|0.61|0.85|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.85|0.61|<0.0001
82466492|NCT01761877|164628862|OTHER|Mixed Models Analysis|||||<|0.05||||||A p value was calculated for change in breast density from baseline to 12 months separately for each study arm.|Mixed Models Analysis|||The study was designed to assess change in breast density using fat/water MRI after 12 months of sulindac intervention in postmenopausal breast cancer patients taking aromatase inhibitors for the treatment of estrogen receptor positive breast cancer. A non-randomized observation arm was included with the same eligibility criteria to assess change in breast density over 12 months using the fat/water MRI method of quantifying breast density. Change was examined separately for each arm.||||<0.05
82466493|NCT01761877|164628863|OTHER||||||<|0.05||||||A p value of \<0.05 was selected for change in each arm. The study did not include a direct comparison between the two arms.|Mixed Models Analysis|||||||<0.05
82466494|NCT01761877|164628864|OTHER||||||<|0.05|TWO_SIDED|95.0||||A p value of \<0.05 was selected for change in each arm. The study did not include a direct comparison between the two arms.|Mixed Models Analysis|||||||<0.05
82466495|NCT02183675|164628881|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|108.39|STANDARD_ERROR_OF_MEAN|1.094|||TWO_SIDED|90.0|93.081|126.225|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||126.225|93.081|
82466496|NCT02183675|164628881|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|114.86|STANDARD_ERROR_OF_MEAN|1.097|||TWO_SIDED|90.0|98.216|134.326|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||134.326|98.216|
82466497|NCT02183675|164628882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|97.53|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|90.0|90.43|105.19|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||105.19|90.43|
82466498|NCT02183675|164628882|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|102.04|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|90.0|96.94|107.4|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||107.40|96.94|
82466499|NCT02183675|164628883|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|104.8|STANDARD_ERROR_OF_MEAN|1.016|||TWO_SIDED|90.0|101.949|107.734|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||107.734|101.949|
82466500|NCT02183675|164628884|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|103.95|STANDARD_ERROR_OF_MEAN|1.017|||TWO_SIDED|90.0|101.023|106.964|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||106.964|101.023|
82466501|NCT02183675|164628885|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|102.49|STANDARD_ERROR_OF_MEAN|1.014|||TWO_SIDED|90.0|100.167|104.867|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-A5|||104.867|100.167|
82466502|NCT02183675|164628886|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|105.35|STANDARD_ERROR_OF_MEAN|1.036|||TWO_SIDED|90.0|99.23|111.847|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||111.847|99.230|
82466503|NCT02183675|164628887|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority limits: 80% - 125%|Adjusted geometric mean ratio (%)|103.39|STANDARD_ERROR_OF_MEAN|1.028|||TWO_SIDED|90.0|98.73|108.28|||ANOVA|The model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment.|Ratio calculated as T80-A5-H12.5 divided by T80-H12.5|||108.280|98.730|
82466504|NCT00627393|164628888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.73|TWO_SIDED|95.0|0.44|3.2|||Regression, Logistic|Ordinary multiple logistic regression including treatment arm, infection strata, underlying disease, zubrod score, respiratory symptoms, and age.|Control group is the reference group. Model adjusted for infection strata, underlying disease, zubrod score, respiratory symptoms, and age.|||3.20|0.44|0.73
82466505|NCT00627393|164628891|SUPERIORITY_OR_OTHER||Log Rank P-Value|0.43||||0.43|TWO_SIDED|||||Competing risks analysis for time to GVHD for subjects with allogeneic HST. The sample size was very small (n=7 in the granulocyte group, and n=8 in the control group).|Competing Risks|||||||0.43
82466506|NCT00627393|164628896|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.293|STANDARD_ERROR_OF_MEAN|0.25885||0.35|TWO_SIDED|95.0|0.778|2.147|||Log Rank|Log-rank test to compare survival distributions between the control group and treatment group.|The control group is considered the reference group.|||2.147|0.778|0.35
82579340|NCT01882543|164869027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.061|TWO_SIDED|95.0|-2.1|0.0|||ANCOVA|||A sample size of 28 subjects per group had 80% power to detect a 1.5-point difference in the change from baseline pain score between AQX-1125 and placebo assuming a between-subject SD of 2.0 and a 2-sided 5% significance level. Average daily pain scores were calculated using an average of up to the last 7 recordings within 9 days before each visit. Missing data, including premature discontinuation, was imputed using the LOCF approach for the primary efficacy end point of average daily pain score||0.0|-2.1|0.061
82466507|NCT03337308|164628901|SUPERIORITY||Difference of Least Squares (LS) means|-38.0|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-46.5|-29.6|||ANCOVA||Standard Error of the Difference of Least Squares (LS) Means|||-29.6|-46.5|<0.001
82466508|NCT03337308|164628901|SUPERIORITY||Difference of LS means|-19.0|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-26.1|-11.9|||ANCOVA||Standard Error of the Difference of LS Means|||-11.9|-26.1|<0.001
82466509|NCT03337308|164628901|SUPERIORITY||Difference of LS means|-13.1|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-19.7|-6.5|||ANCOVA||Standard Error of the Difference of LS Means|||-6.5|-19.7|<0.001
82466510|NCT03337308|164628902|SUPERIORITY||Location shift|-46.1|STANDARD_ERROR_OF_MEAN|12.22|<|0.001|TWO_SIDED|99.0|-78.75|-15.78||using alpha = 0.01|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||-15.78|-78.75|<0.001
82546008|NCT03363854|164791436|SUPERIORITY||Risk Difference (RD)|11.1||||0.012|TWO_SIDED|95.0|3.2|19.0||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their SCORAD value at Week 16.||19.0|3.2|0.012
82546009|NCT03363854|164791437|SUPERIORITY||Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.7|-0.7||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of investigational medicinal product or initiation of rescue medication were not included.||-0.7|-1.7|<0.001
82546010|NCT03363854|164791438|SUPERIORITY||Risk Difference (RD)|17.6|||<|0.001|TWO_SIDED|95.0|8.0|27.1||The statistical test was not controlled for multiplicity.|Cochran-Mantel-Haenszel|The analysis was conducted using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||Participants meeting the endpoint were defined as responders. Participants with missing data at Week 16 or who received rescue medication prior to Week 16 were defined as non-responders, independently of their DLQI value at Week 16.||27.1|8.0|<0.001
82546011|NCT02879448|164791462|NON_INFERIORITY|The non-inferiority margin was developed based on reported rates for other devices. Therefore, the expected rate of the safety endpoint was assumed to be 15%. A non-inferiority margin of 5.8% represents a relative risk of 1.39.||||||0.0002|||||||Kaplan-Meier estimate|||"The following hypothesis was tested:~H0: p1(Amulet) - p1 (Watchman) ≥ Δ1~H1: p1(Amulet) - p1(Watchman) \< Δ1;~where Δ1 is the absolute value of the non-inferiority margin for the safety endpoint and p1 is the probability of a primary safety endpoint event."||||0.0002
82546012|NCT02879448|164791463|NON_INFERIORITY|The non-inferiority margin for this endpoint was developed based on the reported rates of ischemic stroke or systemic embolism for the Watchman. The 18-month rate of ischemic stroke or systemic embolism for the Watchman device has been reported in the literature as 4.2%. A non-inferiority margin of 3.2%, which represents a relative risk of 1.76, ensured that the rate observed was at most twice the rate expected with oral anticoagulant therapy.|||||<|0.0001|||||||Kaplan-Meier estimate|||"The following hypothesis was tested:~H0: p2(Amulet) - p2(Watchman) ≥ Δ2~H1: p2(Amulet) - p2(Watchman) \< Δ2;~where Δ2 is the absolute value of the non-inferiority margin for the effectiveness endpoint and p2 is the probability of a subject experiencing a primary effectiveness endpoint event."||||<0.0001
82546013|NCT02879448|164791464|NON_INFERIORITY|The non-inferiority margin for this endpoint was developed based on the reported closure rate for the Watchman device. The rate of device closure for the Watchman device has been reported in the literature as 95% (i.e., 5% had a residual jet \> 5mm). A non-inferiority margin of -3%, which represents a relative risk of 1.60, allows for trial to trial variability and implanter learning associated with implantation of a new device (Amulet).|||||<|0.0001|||||||Farrington Manning test|||"The following hypothesis was tested:~H0: p3(Amulet) - p3(Watchman) ≤ -Δ3~H1: p3(Amulet) - p3(Watchman) \> -Δ3;~where Δ3 is the absolute value of the non-inferiority margin and p3 is the 45-day closure probability."||||<0.0001
82546014|NCT02879448|164791465|NON_INFERIORITY|"The following hypothesis was tested:~H1: p4(Amulet) - p4(Watchman) \< 4.5%"|||||<|0.0001|||||||Kaplan-Meier estimate|||||||<0.0001
82546015|NCT02879448|164791466|SUPERIORITY|"The following hypothesis was tested:~H1: p5(Amulet) - p5(Watchman) \< 0"||||||0.3229|||||||Kaplan-Meier estimate|||||||0.3229
82546016|NCT02879448|164791467|SUPERIORITY|"The following hypothesis was tested:~H1: p1(Amulet) - p1(Watchman) \< 0"||||||0.466|||||||Kaplan-Meier estimate|||||||0.4660
82466511|NCT03337308|164628902|SUPERIORITY||Median Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|8.14||0.002|TWO_SIDED|98.0|-45.0|-7.15||using alpha = 0.02|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||-7.15|-45.00|0.002
82650483|NCT01271933|165016188|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3779|TWO_SIDED|95.0|-0.2|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-0.2|0.3779
82466512|NCT03337308|164628902|SUPERIORITY||Median Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|8.08||0.734|TWO_SIDED|98.0|-21.35|16.25||using alpha = 0.02|Wilcoxon rank sum test||Standard Error of the Hodges-Lehmann Median Difference|||16.25|-21.35|0.734
82466513|NCT03337308|164628903|SUPERIORITY|using alpha = 0.01|Difference in LS mean|-33.7|STANDARD_ERROR_OF_MEAN|3.97|<|0.001|TWO_SIDED|99.0|-43.9|-23.4|||ANCOVA||Standard Error of the Difference of LS Means|||-23.4|-43.9|<0.001
82546017|NCT02879448|164791468|SUPERIORITY|"The following hypothesis was tested:~H1: p2(Amulet) - p2(Watchman) \< 0"||||||0.5017|||||||Kaplan-Meier estimate|||||||0.5017
82546018|NCT02879448|164791469|SUPERIORITY|"The following hypothesis was tested:~H1: p3(Amulet) - p3(Watchman) \> 0"||||||0.0025|||||||Farrington Manning test|||||||0.0025
82650484|NCT01271933|165016189|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.34||0.2009|TWO_SIDED|95.0|-0.2|1.1||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||1.1|-0.2|0.2009
82466514|NCT03337308|164628903|SUPERIORITY||Difference in LS means|-17.8|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|98.0|-25.1|-10.5||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-10.5|-25.1|<0.001
82466515|NCT03337308|164628903|SUPERIORITY||Difference in LS means|-12.1|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|98.0|-19.1|-5.0||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-5.0|-19.1|<0.001
82546019|NCT03990649|164791490|SUPERIORITY|||||||0.54||||||The p-values were estimated using a two-sample t-test.|t-test, 2 sided|||||||0.540
82546020|NCT05773313|164791492|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Food Insecurity||||>0.999
82466516|NCT03337308|164628904|SUPERIORITY||Difference of LS means|-27.1|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|99.0|-35.1|-19.1||using alpha = 0.01|ANCOVA||Standard Error of the Difference of LS Means|||-19.1|-35.1|<0.001
82466517|NCT03337308|164628904|SUPERIORITY||Difference of LS means|-14.2|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|98.0|-20.4|-8.1||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-8.1|-20.4|<0.001
82466518|NCT03337308|164628904|SUPERIORITY||Difference of LS means|-10.4|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|98.0|-16.1|-4.6||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-4.6|-16.1|<0.001
82466519|NCT03337308|164628905|SUPERIORITY||Difference of LS means|-30.1|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|99.0|-39.9|-20.3||using alpha = 0.01|ANCOVA||Standard Error of the Difference of LS Means|||-20.3|-39.9|<0.001
82466520|NCT03337308|164628905|SUPERIORITY||Difference of LS means|-12.8|STANDARD_ERROR_OF_MEAN|3.23|<|0.001|TWO_SIDED|98.0|-20.3|-5.3||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-5.3|-20.3|<0.001
82466521|NCT03337308|164628905|SUPERIORITY||Difference of LS means|-9.3|STANDARD_ERROR_OF_MEAN|3.09||0.003|TWO_SIDED|98.0|-16.5|-2.1||using alpha = 0.02|ANCOVA||Standard Error of the Difference of LS Means|||-2.1|-16.5|0.003
82466522|NCT01614249|164628937|SUPERIORITY_OR_OTHER||Slope|1.01|STANDARD_ERROR_OF_MEAN|0.8||0.21|TWO_SIDED|95.0|-0.58|2.6||The p-value was adjusted for baseline variations in the analysis of covariance (ANCOVA) regression model. The significance level was set at p-value less than 0.05.|ANCOVA|In ANCOVA, fish oil group was main effect, participant baseline variables were covariates and presence of interaction between covariates was tested.||Null hypothesis: There is no difference in the magnitude of change in BDI-II scores between HIV-seropositive pregnant women on fish oil omega-3 EPA-rich supplements and the control group on soybean oil soft gels. A sample size of 91 women per arm gave an 85% power to detect as statistically significant at 5% level, a true difference of 4 scores in the mean depressive symptom scores between the two arms assuming a within group standard deviation of nine in depressive symptom scores.||2.60|-0.58|0.21
82466523|NCT02761330|164628960|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.016
82466524|NCT02761330|164628960|OTHER|||||||0.012||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.012
82466525|NCT02761330|164628960|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Digital Symbol Substitution Task (DSST) reaction time.||||0.031
82466526|NCT02761330|164628960|OTHER|||||||0.203||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Digital Symbol Substitution Task (DSST) reaction time.||||0.203
82466527|NCT02761330|164628960|OTHER|||||||0.008||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Motor Praxis Task (MP) reaction time.||||0.008
82466528|NCT02761330|164628960|OTHER|||||||0.496||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Motor Praxis Task (MP) reaction time.||||0.496
82466529|NCT02761330|164628960|OTHER|||||||0.844||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Visual Object Learning Task (VOLT) reaction time.||||0.844
82466530|NCT02761330|164628960|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Visual Object Learning Task (VOLT) reaction time.||||0.016
82466531|NCT02761330|164628960|OTHER|||||||0.062||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the recovery rate of Abstract Matching task (AM) reaction time.||||0.062
82466532|NCT02761330|164628960|OTHER|||||||0.039||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Abstract Matching task (AM) reaction time.||||0.039
82466533|NCT02761330|164628961|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Psychomotor Vigilance Task (PVT) reaction time.||||0.016
82466534|NCT02761330|164628961|OTHER|||||||0.039||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the recovery rate of Psychomotor Vigilance Task (PVT) reaction time.||||0.039
82466535|NCT02761330|164628961|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Digital Symbol Substitution Task (DSST) reaction time.||||0.031
82466536|NCT02761330|164628961|OTHER|||||||1||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Digital Symbol Substitution Task (DSST) reaction time.||||1.0
82466537|NCT02761330|164628961|OTHER|||||||0.195||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Motor Praxis task (MP) reaction time.||||0.195
82466538|NCT02761330|164628961|OTHER|||||||0.57||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Motor Praxis task (MP) reaction time.||||0.570
82466539|NCT02761330|164628961|OTHER|||||||0.031||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Visual Object Learning Task (VOLT) reaction time.||||0.031
82499994|NCT00563381|164690637|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.0005||95.0|0.66|0.89|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||0.89|0.66|0.0005
82499995|NCT00563381|164690638|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.0242||95.0|0.78|0.98|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.98|0.78|0.0242
82499996|NCT00563381|164690639|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.0406||95.0|0.82|1.0|||Cochran-Mantel-Haenszel|||Tiotropium versus Salmeterol||1.00|0.82|0.0406
82499997|NCT00563381|164690640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.0001||95.0|0.78|0.91|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.91|0.78|<0.0001
82499998|NCT00563381|164690641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||<|0.0001||95.0|0.69|0.85|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.85|0.69|<0.0001
82499999|NCT00563381|164690642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||<|0.0001||95.0|0.78|0.92|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.92|0.78|<0.0001
82466540|NCT02761330|164628961|OTHER|||||||0.016||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Visual Object Learning Task (VOLT) reaction time.||||0.016
82466541|NCT02761330|164628961|OTHER|||||||1||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Etomidate + ECT and Ketamine + ECT groups for the initial decrement of Abstract Matching (AM) task reaction time.||||1.00
82466542|NCT02761330|164628961|OTHER|||||||0.109||||||Not adjusted for multiple comparisons.|Wilcoxon Signed-Ranked Test|||Comparison between the Ketamine + ECT and Ketamine Alone groups for the initial decrement of Abstract Matching (AM) task reaction time.||||0.109
82466543|NCT02761330|164628969|OTHER|||||||0.301|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.301
82466544|NCT02761330|164628969|OTHER|||||||0.301|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.301
82466545|NCT02761330|164628969|OTHER|||||||0.557|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the delta band at baseline compared to T0 following return of responsiveness.||||0.557
82466546|NCT02761330|164628970|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.910
82466547|NCT02761330|164628970|OTHER|||||||0.734|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.734
82466548|NCT02761330|164628970|OTHER|||||||0.322|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the theta band at baseline compared to T0 following return of responsiveness.||||0.322
82466549|NCT02761330|164628971|OTHER|||||||0.164|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.164
82466550|NCT02761330|164628971|OTHER|||||||0.039|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.039
82466551|NCT02761330|164628971|OTHER|||||||0.375|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the alpha band at baseline compared to T0 following return of responsiveness.||||0.375
82546021|NCT05773313|164791492|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Financial Insecurity||||0.250
82466552|NCT02761330|164628972|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.910
82466553|NCT02761330|164628972|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.910
82466554|NCT02761330|164628972|OTHER|||||||0.625|||||||Wilcoxon signed-rank paired test|||Comparison of relative power in the beta band at baseline compared to T0 following return of responsiveness.||||0.625
82466555|NCT02761330|164628973|OTHER|||||||0.129|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.129
82466556|NCT02761330|164628973|OTHER|||||||0.91|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.910
82466557|NCT02761330|164628973|OTHER|||||||0.625|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior functional connectivity (coherence) at baseline compared to T0 following return of responsiveness.||||0.625
82466558|NCT02761330|164628974|OTHER|||||||1|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||1.000
82466559|NCT02761330|164628974|OTHER|||||||0.496|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||0.496
82466560|NCT02761330|164628974|OTHER|||||||0.16|||||||Wilcoxon signed-rank paired test|||Comparison of anterior-posterior phase-lag (PLI) at baseline compared to T0 following return of responsiveness.||||0.160
82466561|NCT02761330|164628975|OTHER|||||||0.008|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.008
82466562|NCT02761330|164628975|OTHER|||||||0.359|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.359
82466563|NCT02761330|164628975|OTHER|||||||0.375|||||||Wilcoxon Signed-Ranked Test|||Comparison of EEG Entropy using Permutation Entropy (PE) measures at baseline compared to T0 following return of responsiveness.||||0.375
82466564|NCT00795535|164629024|SUPERIORITY_OR_OTHER||||||<|0.15|TWO_SIDED|||||To avoid overfitting the models, only predictors with p\<0.15 were included in the final models.|Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum tests were used to compare continuous predictors, whereas chi-square tests were used to compare dichotomized predictors between those with and without serious injury. Test characteristics (specificity and positive/negative predictive values) of continuous predictors were reported based on threshold values chosen for a minimum of 80% of sensitivity. Multiple logistic regression models were used to examine the marginal effect of each predictor.||||< 0.15
82466565|NCT03341299|164629025|SUPERIORITY||Ratio of geometric least square means|0.991||||0.7734|TWO_SIDED|95.0|0.932|1.05|||Mixed Models Analysis|||||1.05|0.932|0.7734
82466566|NCT03341299|164629026|SUPERIORITY||difference in LS means|-14.5||||0.719|TWO_SIDED|95.0|-94.38|65.38|||Mixed Models Analysis|||||65.38|-94.38|0.7190
82466567|NCT03593044|164629041|OTHER|||||||0.002|||||||t-test, 2 sided|||Photopic pupil size||||0.002
82466568|NCT03593044|164629041|OTHER|||||||0.66|||||||t-test, 2 sided|||Mesopic pupil size||||0.66
82466569|NCT03593044|164629042|OTHER|||||||0.96|||||||t-test, 2 sided|||High contrast distance visual acuity||||0.96
82466570|NCT03593044|164629042|OTHER|||||||0.77|||||||t-test, 2 sided|||High contrast near visual acuity||||0.77
82466571|NCT03593044|164629042|OTHER|||||||0.82|||||||t-test, 2 sided|||Low contrast distance visual acuity||||0.82
82466572|NCT03593044|164629043|OTHER|||||||0.1|||||||t-test, 2 sided|||Accommodative amplitude||||0.10
82546022|NCT05773313|164791492|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Social Isolation||||>0.999
82546023|NCT05773313|164791492|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Physical Inactivity||||>0.999
82546024|NCT05773313|164791492|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Disability||||>0.999
82466573|NCT03593044|164629043|OTHER|||||||0.66|||||||t-test, 2 sided|||Accommodative lag||||0.66
82466574|NCT03593044|164629043|OTHER|||||||0.24|||||||t-test, 2 sided|||Accommodative facility||||0.24
82466575|NCT03593044|164629044|OTHER|||||||0.3|||||||t-test, 2 sided|||Glare||||0.3
82466576|NCT03593044|164629044|OTHER|||||||0.5|||||||t-test, 2 sided|||Ghost images||||0.5
82466577|NCT03593044|164629044|OTHER|||||||0.9|||||||t-test, 2 sided|||Strain/tiredness||||0.9
82466578|NCT03593044|164629044|OTHER|||||||0.9|||||||t-test, 2 sided|||Changing vision||||0.9
82466579|NCT03593044|164629044|OTHER|||||||0.3|||||||t-test, 2 sided|||Headache frequency||||0.3
82466580|NCT03593044|164629044|OTHER|||||||0.7|||||||t-test, 2 sided|||Distance clarity||||0.7
82466581|NCT03593044|164629044|OTHER|||||||0.3|||||||t-test, 2 sided|||Computer clarity||||0.3
82466582|NCT03593044|164629044|OTHER|||||||0.1|||||||t-test, 2 sided|||Small print clarity||||0.1
82466583|NCT03593044|164629044|OTHER|||||||1|||||||t-test, 2 sided|||Vision during sports/hobbies||||1.0
82466584|NCT03593044|164629044|OTHER|||||||0.2|||||||t-test, 2 sided|||Overall vision||||0.2
82466585|NCT03593044|164629044|OTHER|||||||0.7|||||||t-test, 2 sided|||Light sensitivity||||0.7
82466586|NCT03593044|164629044|OTHER|||||||0.002|||||||t-test, 2 sided|||Discomfort during bright light||||0.002
82466587|NCT03593044|164629045|OTHER|||||||0.001|||||||t-test, 2 sided|||Right eye intraocular pressure||||0.001
82546025|NCT05773313|164791493|SUPERIORITY|||||||0.461|||||||Wilcoxon (Mann-Whitney)|||||||0.461
82466588|NCT03593044|164629045|OTHER|||||||0.05|||||||t-test, 2 sided|||Left eye intraocular pressure||||0.05
82466589|NCT00781768|164629053|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED||||||Chi-squared|||The null hypothesis is that there will be a higher proportion of complete responders among those subjects receiving the combination therapy.||||<.001
82466590|NCT04567628|164629056|OTHER||||||=|0.003|||||||Spearman's Rank Correlation|||||||=0.003
82466591|NCT04567628|164629057|OTHER||||||=|0.25||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||=0.25
82466592|NCT04567628|164629060|OTHER||||||<|0.001||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||<0.001
82466593|NCT04567628|164629062|OTHER||||||<|0.0001||||||A two-sided p-value of \<0.05 was considered statistically significant.|Log Rank|||||||<0.0001
82466594|NCT02458313|164629063|SUPERIORITY|DMXB-A vs. Placebo groups compared at baseline||||||0.647|||||||t-test, 2 sided|||||||0.647
82466595|NCT02458313|164629063|SUPERIORITY|||||||0.679|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared post-intervention||||0.679
82546026|NCT05773313|164791494|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
82466596|NCT02458313|164629064|SUPERIORITY|||||||0.951|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared at baseline||||0.951
82466597|NCT02458313|164629064|SUPERIORITY|||||||0.884|||||||t-test, 2 sided|||DMXB-A vs. Placebo groups compared post-intervention||||0.884
82466598|NCT02892344|164629077|SUPERIORITY||Mean Difference (Net)|0.182|||<|0.001|TWO_SIDED|95.0|0.148|0.217|||Mixed Models Analysis|||||0.217|0.148|<0.001
82466599|NCT02892344|164629078|SUPERIORITY||Mean Difference (Net)|-0.218|||<|0.001|TWO_SIDED|95.0|-0.293|-0.143|||Mixed Models Analysis|||||-0.143|-0.293|<0.001
82466600|NCT02892344|164629079|SUPERIORITY||Mean Difference (Net)|0.132|||<|0.001|TWO_SIDED|95.0|0.105|0.158|||Mixed Models Analysis|||||0.158|0.105|<0.001
82466601|NCT02892344|164629080|SUPERIORITY||Mean Difference (Net)|0.176|||<|0.001|TWO_SIDED|95.0|0.145|0.207|||Mixed Models Analysis|||||0.207|0.145|<0.001
82466602|NCT02892344|164629081|SUPERIORITY||Mean Difference (Net)|0.1|||<|0.001|TWO_SIDED|95.0|0.061|0.139|||Mixed Models Analysis|||Pre-dose trough FVC||0.139|0.061|<0.001
82466603|NCT02892344|164629081|SUPERIORITY||Mean Difference (Net)|0.288|||<|0.001|TWO_SIDED|95.0|0.231|0.345|||Mixed Models Analysis|||Pre-dose trough FEF25-75%||0.345|0.231|<0.001
82466604|NCT02892344|164629082|SUPERIORITY||Mean Difference (Net)|27.2|||<|0.001|TWO_SIDED|95.0|22.1|32.4|||Mixed Models Analysis|||Mean Morning PEF||32.4|22.1|<0.001
82466605|NCT02892344|164629082|SUPERIORITY||Mean Difference (Net)|26.1|||<|0.001|TWO_SIDED|95.0|21.0|31.2|||Mixed Models Analysis|||Mean Evening PEF||31.2|21.0|<0.001
82466606|NCT02892344|164629085|SUPERIORITY||Mean Difference (Net)|-0.204|||<|0.001|TWO_SIDED|95.0|-0.277|-0.131|||Mixed Models Analysis|||||-0.131|-0.277|<0.001
82466607|NCT02892344|164629086|SUPERIORITY||Mean Difference (Net)|-0.11|||<|0.001|TWO_SIDED|95.0|-0.16|-0.05|||Mixed Models Analysis|||Night-time number of puffs of rescue medication||-0.05|-0.16|<0.001
82466608|NCT02892344|164629086|SUPERIORITY||Mean Difference (Net)|-0.15|||<|0.001|TWO_SIDED|95.0|-0.22|-0.08|||Mixed Models Analysis|||Daytime number of puffs of rescue medication||-0.08|-0.22|<0.001
82466609|NCT02892344|164629087|SUPERIORITY||Mean Difference (Net)|8.1|||<|0.001|TWO_SIDED|95.0|4.3|11.8|||Mixed Models Analysis|||||11.8|4.3|<0.001
82466610|NCT02892344|164629088|SUPERIORITY||Mean Difference (Net)|0.149|||<|0.001|TWO_SIDED|95.0|0.064|0.234|||Mixed Models Analysis|||||0.234|0.064|<0.001
82466611|NCT02892344|164629091|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.14|0.59|||Regression, Cox|||||0.59|0.14|<0.001
82466612|NCT01295814|164629092|NON_INFERIORITY_OR_EQUIVALENCE|"The study had acceptable sensitivity with a statistical power of 0.99 (99%) for the improvement in the adalimumab group from baseline to week 12.~The study had acceptable sensitivity with a statistical power of 0.92 (92%) for the improvement in the placebo group from baseline to week 12."|Mean Difference (Final Values)|7.9||||0.75|TWO_SIDED|95.0|4.0|11.8||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in OSPI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||11.8|4.0|0.75
82546027|NCT05773313|164791495|SUPERIORITY|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
82546028|NCT05773313|164791496|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.080
82546029|NCT03050814|164791497|OTHER||Hazard Ratio (HR)|1.061||||0.91|TWO_SIDED|95.0|0.38|2.966|||Kaplan Meier|Kaplan-Meier curves and a two-tailed log-rank test||||2.966|0.380|0.91
82546030|NCT01443845|164791500|SUPERIORITY_OR_OTHER||Rate Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.063||0.1634|TWO_SIDED|95.0|0.81|1.04|||negative binomial regression||p-values are based on a negative binomial regression with factors Treatment and LAMA use.|Rate ratio (Roflumilast/Placebo). A rate ratio \< 1 represents a favorable outcome for the test treatment.||1.04|0.81|0.1634
82466613|NCT01295814|164629093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.99|TWO_SIDED|95.0|1.7|6.3||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in ICSI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||6.3|1.7|0.99
82466614|NCT01295814|164629094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.76|TWO_SIDED|95.0|2.1|5.8||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in ICPI in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||5.8|2.1|0.76
82466615|NCT01295814|164629095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3||||0.76|TWO_SIDED|95.0|2.6|10.0||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided||Confidence interval was improvement in PUF in the adalimumab group from baseline to week 12.|Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||10.0|2.6|0.76
82466616|NCT01295814|164629096|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.|t-test, 2 sided|||Statistical improvement in the adalimumab group compared to the placebo group from baseline to week 12.||||0.67
82466617|NCT03085095|164629101|NON_INFERIORITY|The lower bound of the 95% CI for the difference in the cumulative probability of sustained profound castration rate between the 2 treatment groups was calculated with a noninferiority margin of -10%.|Treatment difference|7.9|||||TWO_SIDED|95.0|4.1|11.8|||||Treatment difference= Relugolix - Leuprolide acetate|Following statistical analysis of the lower bound of the 95% CI ≥ 90% for the relugolix group, secondary statistical analysis of non-inferiority was conducted.||11.8|4.1|
82466618|NCT03085095|164629101|SUPERIORITY|If non-inferiority was demonstrated, superiority could be claimed if the lower bound of the 95% CI for the difference in the cumulative probability of sustained profound castration rate between the 2 treatment groups also excluded 0%. The p value was calculated post hoc.|||||<|0.0001|||||||t-test, 2 sided|Two-sided type I error of 0.05.||Following statistical analysis of the lower bound of the 95% CI ≥ 90% for the relugolix group, secondary statistical analysis of superiority was conducted.||||< 0.0001
82466619|NCT03085095|164629102|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
82466620|NCT03085095|164629103|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
82466621|NCT03085095|164629104|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|Cochran-Mantel-Haenszel|||Alpha-protected statistical analysis.||||< 0.0001
82466622|NCT03085095|164629105|SUPERIORITY||Treatment difference|77.41|||<|0.0001|TWO_SIDED|95.0|73.98|80.83||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.|Treatment difference= Relugolix - Leuprolide acetate|Alpha-protected statistical analysis.||80.83|73.98|< 0.0001
82466623|NCT03085095|164629106|SUPERIORITY||||||<|0.0001||||||Statistically significance was met if p-value \< 0.05.|t-test, 2 sided|Two-sided type I error rate of 0.05.||Alpha-protected statistical analysis.||||< 0.0001
82466624|NCT03085095|164629110|OTHER||Treatment difference|13.0|||||TWO_SIDED|95.0|6.9|19.1|||||Treatment difference= Relugolix - Leuprolide acetate|||19.1|6.9|
82546031|NCT01443845|164791500|SUPERIORITY_OR_OTHER||Rate Ratio|0.83|STANDARD_ERROR_OF_MEAN|0.08||0.0195|TWO_SIDED|95.0|0.71|0.97|||negative binomial regression|||Subgroup Analysis - By Sex - Male||0.97|0.71|0.0195
82546032|NCT01443845|164791500|SUPERIORITY_OR_OTHER||Rate Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.101||0.3164|TWO_SIDED|95.0|0.91|1.35|||negative binomial regression|||Subgroup Analysis - By Sex - Female||1.35|0.91|0.3164
82466625|NCT03085095|164629112|OTHER||Treatment difference|-2.9|||||TWO_SIDED|95.0|-7.8|2.0|||||Treatment difference= Relugolix - Leuprolide acetate|||2.0|-7.8|
82466626|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.0187|=|0.02|TWO_SIDED|90.0|0.008|0.069|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo' at 1 hour||0.069|0.008|=0.020
82466627|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.0227|<|0.001|TWO_SIDED|90.0|0.101|0.176|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 12 hour||0.176|0.101|<0.001
82466628|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|90.0|0.087|0.158|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 24 hour||0.158|0.087|<0.001
82546033|NCT01443845|164791500|SUPERIORITY_OR_OTHER||Rate Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.076||0.0385|TWO_SIDED|95.0|0.74|0.99|||negative binomial regression|||Subgroup analysis between patients taking Advair verses patients taking Symbicort as LABA/ICS therapy.||0.99|0.74|0.0385
82546034|NCT01443845|164791500|SUPERIORITY_OR_OTHER||Rate Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.114||0.6475|TWO_SIDED|95.0|0.84|1.32|||negative binomial regression|||Subgroup analysis between patients taking Advair verses patients taking Symbicort as LABA/ICS therapy.||1.32|0.84|0.6475
82546035|NCT01443845|164791501|SUPERIORITY_OR_OTHER||Rate Ratio|0.95|STANDARD_ERROR_OF_MEAN|0.118||0.6354|TWO_SIDED|95.0|0.75|1.19|||negative binomial regression|||||1.19|0.75|0.6354
82466629|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.0185|=|0.22|TWO_SIDED|90.0|-0.016|0.045|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 1 hour||0.045|-0.016|=0.220
82466630|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|90.0|0.087|0.161|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 12 hour||0.161|0.087|<0.001
82546036|NCT01443845|164791502|SUPERIORITY_OR_OTHER||Rate Ratio|0.9|STANDARD_ERROR_OF_MEAN|0.06||0.0884|TWO_SIDED|95.0|0.8|1.02|||negative binomial regression|||||1.02|0.8|0.0884
82546037|NCT01443845|164791503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0532|STANDARD_ERROR_OF_MEAN|0.0067|<|0.0001|TWO_SIDED|95.0|0.04|0.0664||The MMRM analysis is based on all postbaseline observed data using a mixed model with terms for treatment, baseline, visit, LAMA use, treatment-by-visit and baseline-by-visit interactions.|Mixed Model for Repeated Measures (MMRM)|||||0.0664|0.04|< 0.0001
82466631|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.0214|<|0.001|TWO_SIDED|90.0|0.105|0.176|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 24 hour||0.176|0.105|<0.001
82466632|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.019|STANDARD_ERROR_OF_MEAN|0.0188||0.155|TWO_SIDED|90.0|-0.012|0.05|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 1 hour||0.050|-0.012|0.155
82466633|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.0229|<|0.001|TWO_SIDED|90.0|0.053|0.129|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 12 hour||0.129|0.053|<0.001
82466634|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|90.0|0.09|0.162|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 24 hour||0.162|0.090|<0.001
82466635|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.019||0.188|TWO_SIDED|90.0|-0.015|0.048|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 1 hour||0.048|-0.015|0.188
82466636|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.023|=|0.009|TWO_SIDED|90.0|0.017|0.093|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 12 hour||0.093|0.017|=0.009
82466637|NCT00674817|164629143|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|90.0|0.086|0.159|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 24 hour||0.159|0.086|<0.001
82466638|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.0616|=|0.856|TWO_SIDED|90.0|-0.168|0.036|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 1 hour||0.036|-0.168|=0.856
82466639|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.0496|=|0.033|TWO_SIDED|90.0|0.01|0.174|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 12 hour||0.174|0.010|=0.033
82466640|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.0523|=|0.099|TWO_SIDED|90.0|-0.019|0.154|||Mix model|||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo at 24 hour||0.154|-0.019|=0.099
82650485|NCT01271933|165016191|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.48||0.1845|TWO_SIDED|95.0|-1.6|0.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.3|-1.6|0.1845
82466641|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.067|STANDARD_ERROR_OF_MEAN|0.0612|=|0.862|TWO_SIDED|90.0|-0.168|0.034|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 1 hour||0.034|-0.168|=0.862
82466642|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.0493|=|0.008|TWO_SIDED|90.0|0.039|0.201|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 12 hour||0.201|0.039|=0.008
82466643|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.0516||0.027|TWO_SIDED|90.0|0.015|0.185|||Mix model|||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo at 24 hour||0.185|0.015|0.027
82466644|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.052|STANDARD_ERROR_OF_MEAN|0.0621|=|0.2|TWO_SIDED|90.0|-0.05|0.155|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 1 hour||0.155|-0.050|=0.200
82466645|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.05|=|0.031|TWO_SIDED|90.0|0.011|0.177|||Mix model|||GSK961081 1200 mcg Plus SAL versus that due to GSK961081 1200 mcg plus Placebo at 12 hour||0.177|0.011|=0.031
82466646|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.053|=|0.043|TWO_SIDED|90.0|0.004|0.179|||Mix model|||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo at 24 hour||0.179|0.004|=0.043
82466647|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.0625|=|0.637|TWO_SIDED|90.0|-0.125|0.081|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 1 hour||0.081|-0.125|=0.637
82466648|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.05|=|0.004|TWO_SIDED|90.0|0.053|0.218|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 12 hour||0.218|0.053|=0.004
82466649|NCT00674817|164629144|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.0534|=|0.031|TWO_SIDED|90.0|0.012|0.189|||Mix model|||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo at 24 hour||0.189|0.012|=0.031
82466650|NCT00674817|164629150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.747|STANDARD_ERROR_OF_MEAN|2.1768|||TWO_SIDED|95.0|-0.547|8.041||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||8.041|-0.547|
82466651|NCT00674817|164629150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.712|STANDARD_ERROR_OF_MEAN|2.1453|||TWO_SIDED|95.0|-2.521|5.944||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo over 0-4 hours||5.944|-2.521|
82466652|NCT00674817|164629150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.755|STANDARD_ERROR_OF_MEAN|2.1869|||TWO_SIDED|95.0|-2.559|6.069||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo over 0-4 hours||6.069|-2.559|
82466653|NCT00674817|164629150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.231|STANDARD_ERROR_OF_MEAN|2.197|||TWO_SIDED|95.0|-5.565|3.103||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||3.103|-5.565|
82466654|NCT00674817|164629151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.558|STANDARD_ERROR_OF_MEAN|2.7064|||TWO_SIDED|95.0|-0.781|9.897||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-27 hours||9.897|-0.781|
82466655|NCT00674817|164629151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.266|STANDARD_ERROR_OF_MEAN|2.6691|||TWO_SIDED|95.0|-2.999|7.532||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo over 0-27 hours||7.532|-2.999|
82466656|NCT00674817|164629151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93|STANDARD_ERROR_OF_MEAN|2.717|||TWO_SIDED|95.0|-4.429|6.29||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo over 0-27 hours||6.290|-4.429|
82546038|NCT01854385|164791514|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|||||||.079
82466657|NCT00674817|164629151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.152|STANDARD_ERROR_OF_MEAN|2.731|||TWO_SIDED|95.0|-6.539|4.236||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-27 hours||4.236|-6.539|
82650486|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|4.52||0.0305|TWO_SIDED|95.0|-18.9|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep disturbance||1.0|-18.9|0.0305
82650487|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.17||0.3133|TWO_SIDED|95.0|-5.0|15.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Snoring||15.5|-5.0|0.3133
82466658|NCT00674817|164629152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.249|STANDARD_ERROR_OF_MEAN|1.6816|||TWO_SIDED|95.0|-2.069|4.566||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||4.566|-2.069|
82650488|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|3.71||0.2985|TWO_SIDED|95.0|-11.2|3.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Awakening Short of Breath or with a Headache||3.5|-11.2|0.2985
82650489|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.8|STANDARD_ERROR_OF_MEAN|5.49||0.2159|TWO_SIDED|95.0|-4.1|17.7||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep adequacy||17.7|-4.1|0.2159
82650490|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|4.1||0.2041|TWO_SIDED|95.0|-13.4|2.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Somnolence||2.9|-13.4|0.2041
82466659|NCT00674817|164629152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.418|STANDARD_ERROR_OF_MEAN|1.6565|||TWO_SIDED|95.0|-2.85|3.687||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo over 0-4 hours||3.687|-2.850|
82466660|NCT00674817|164629152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|1.705|||TWO_SIDED|95.0|-4.013|2.714||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||2.714|-4.013|
82466661|NCT00674817|164629152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.949|STANDARD_ERROR_OF_MEAN|1.7112|||TWO_SIDED|95.0|-5.325|1.427||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo over 0-4 hours||1.427|-5.325|
82546039|NCT02590432|164791537|SUPERIORITY||Odds Ratio (OR)|1.3||||1|TWO_SIDED|95.0|0.3|5.5|||Fisher's Exact Test|||LINZESS® 145 μg versus (vs) LINZESS® 290 μg||5.5|0.3|1.0000
82650491|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.8|STANDARD_ERROR_OF_MEAN|3.81||0.1319|TWO_SIDED|95.0|-13.4|1.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep Problems Index I||1.8|-13.4|0.1319
82650492|NCT01271933|165016194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|3.89||0.1473|TWO_SIDED|95.0|-13.4|2.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Sleep Problems Index II||2.0|-13.4|0.1473
82650493|NCT01271933|165016195|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3596|TWO_SIDED|95.0|-0.2|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-0.2|0.3596
82650494|NCT01271933|165016197|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.4985|TWO_SIDED|95.0|0.66|2.36||Nominal p-value for two-sided test.|two-sided test|||"Odds ratio is the probability of the event occurring in Pregabalin 330 - 495 mg/day relative to the event occurring in Placebo for Pregabalin.~Odds ratio \> 1 is in favor of Pregabalin 330 - 495 mg/day."||2.36|0.66|0.4985
82466662|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.198|STANDARD_ERROR_OF_MEAN|2.5039|||TWO_SIDED|95.0|5.258|15.139||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||15.139|5.258|
82466663|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.686|STANDARD_ERROR_OF_MEAN|2.4738|||TWO_SIDED|95.0|-2.195|7.567||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||7.567|-2.195|
82466664|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.854|STANDARD_ERROR_OF_MEAN|2.5196|||TWO_SIDED|95.0|2.883|12.825||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||12.825|2.883|
82546040|NCT02590432|164791537|SUPERIORITY||Odds Ratio (OR)|0.2||||0.0844|TWO_SIDED|95.0|0.1|1.1|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 290 μg||1.1|0.1|0.0844
82650495|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|4.1||0.74|TWO_SIDED|95.0|-9.5|6.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Physical Functioning||6.8|-9.5|0.7400
82466665|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.884|STANDARD_ERROR_OF_MEAN|2.5244|||TWO_SIDED|95.0|-5.864|4.097||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||4.097|-5.864|
82466666|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.227|STANDARD_ERROR_OF_MEAN|2.9782|||TWO_SIDED|95.0|5.352|17.103||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||17.103|5.352|
82466667|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.39|STANDARD_ERROR_OF_MEAN|2.9434|||TWO_SIDED|95.0|-1.418|10.197||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||10.197|-1.418|
82466668|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.975|STANDARD_ERROR_OF_MEAN|2.9958|||TWO_SIDED|95.0|0.065|11.886||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||11.886|0.065|
82546041|NCT02590432|164791537|SUPERIORITY||Odds Ratio (OR)|0.9||||1|TWO_SIDED|95.0|0.3|2.5|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 145 μg||2.5|0.3|1.0000
82546042|NCT02590432|164791538|SUPERIORITY||Odds Ratio (OR)|1.3||||1|TWO_SIDED|95.0|0.3|5.1|||Fisher's Exact Test|||LINZESS® 145 μg vs LINZESS® 290 μg||5.1|0.3|1.0000
82466669|NCT00674817|164629153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.083|STANDARD_ERROR_OF_MEAN|3.0023|||TWO_SIDED|95.0|-8.006|3.84||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||3.840|-8.006|
82466670|NCT00674817|164629154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|1.6941|||TWO_SIDED|95.0|1.857|8.542||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||8.542|1.857|
82466671|NCT00674817|164629154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|1.6727|||TWO_SIDED|95.0|-3.294|3.307||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||3.307|-3.294|
82466672|NCT00674817|164629154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.956|STANDARD_ERROR_OF_MEAN|1.7178|||TWO_SIDED|95.0|-0.433|6.345||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||6.345|-0.433|
82466673|NCT00674817|164629154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.683|STANDARD_ERROR_OF_MEAN|1.7199|||TWO_SIDED|95.0|-5.076|1.711||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.711|-5.076|
82466674|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.588|STANDARD_ERROR_OF_MEAN|1.3932|||TWO_SIDED|95.0|3.839|9.336||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||9.336|3.839|
82466675|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.255|STANDARD_ERROR_OF_MEAN|1.3725|||TWO_SIDED|95.0|-1.453|3.962||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||3.962|-1.453|
82466676|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.985|STANDARD_ERROR_OF_MEAN|1.396|||TWO_SIDED|95.0|4.231|9.738||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||9.738|4.231|
82546043|NCT02590432|164791538|SUPERIORITY||Odds Ratio (OR)|0.2||||0.0799|TWO_SIDED|95.0|0.1|1.0|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 290 μg||1.0|0.1|0.0799
82546044|NCT02590432|164791538|SUPERIORITY||Odds Ratio (OR)|0.7||||0.7871|TWO_SIDED|95.0|0.3|2.2|||Fisher's Exact Test|||LINZESS® 72 μg vs LINZESS® 145 μg||2.2|0.3|0.7871
82466677|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.255|STANDARD_ERROR_OF_MEAN|1.4077|||TWO_SIDED|95.0|-0.522|5.031||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||5.031|-0.522|
82466678|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.121|STANDARD_ERROR_OF_MEAN|1.2464|||TWO_SIDED|95.0|1.662|6.58||||||GSK961081 400 mcg Plus SAL versus maximal GSK961081 400 mcg plus Placebo during 0-27 hours||6.580|1.662|
82466679|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|1.2278|||TWO_SIDED|95.0|-2.142|2.703||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||2.703|-2.142|
82466680|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.266|STANDARD_ERROR_OF_MEAN|1.249|||TWO_SIDED|95.0|1.802|6.729||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||6.729|1.802|
82466681|NCT00674817|164629155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.621|STANDARD_ERROR_OF_MEAN|1.2593|||TWO_SIDED|95.0|-0.863|4.106||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||4.106|-0.863|
82466682|NCT00674817|164629156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.094|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|2.456|5.732||||||GSK961081 400 mcg plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||5.732|2.456|
82466683|NCT00674817|164629156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.646|STANDARD_ERROR_OF_MEAN|0.8172|||TWO_SIDED|95.0|-0.967|2.258||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||2.258|-0.967|
82466684|NCT00674817|164629156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.98|STANDARD_ERROR_OF_MEAN|0.8395|||TWO_SIDED|95.0|2.324|5.636||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||5.636|2.324|
82466685|NCT00674817|164629156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.934|STANDARD_ERROR_OF_MEAN|0.846|||TWO_SIDED|95.0|-0.735|2.603||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||2.603|-0.735|
82466686|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.836|STANDARD_ERROR_OF_MEAN|1.8168|||TWO_SIDED|95.0|-5.42|1.748||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||1.748|-5.420|
82466687|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.599|STANDARD_ERROR_OF_MEAN|1.7809|||TWO_SIDED|95.0|-2.914|4.113||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||4.113|-2.914|
82466688|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.324|STANDARD_ERROR_OF_MEAN|1.8174|||TWO_SIDED|95.0|-3.261|3.909||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||3.909|-3.261|
82466689|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.182|STANDARD_ERROR_OF_MEAN|1.8242|||TWO_SIDED|95.0|-5.781|1.416||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.416|-5.781|
82546045|NCT02590432|164791540|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.993|TWO_SIDED|95.0|0.42|2.19|||Log-Rank Test|||LINZESS® 145 μg vs LINZESS® 290 μg||2.19|0.42|0.9930
82546046|NCT02590432|164791540|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.0247|TWO_SIDED|95.0|0.11|0.89|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 290 μg||0.89|0.11|0.0247
82466690|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.266|STANDARD_ERROR_OF_MEAN|1.7723|||TWO_SIDED|95.0|-6.762|0.23||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.230|-6.762|
82466691|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|1.7361|||TWO_SIDED|95.0|-3.502|3.348||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||3.348|-3.502|
82466692|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.827|STANDARD_ERROR_OF_MEAN|1.7743|||TWO_SIDED|95.0|-1.673|5.327||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||5.327|-1.673|
82466693|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.232|STANDARD_ERROR_OF_MEAN|1.78|||TWO_SIDED|95.0|-4.743|2.279||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.279|-4.743|
82546047|NCT02590432|164791540|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.5149|TWO_SIDED|95.0|0.41|1.5|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 145 μg||1.50|0.41|0.5149
82466694|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.394|STANDARD_ERROR_OF_MEAN|1.3084|||TWO_SIDED|95.0|-3.976|1.187||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||1.187|-3.976|
82466695|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.181|STANDARD_ERROR_OF_MEAN|1.2819|||TWO_SIDED|95.0|-1.348|3.71||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||3.710|-1.348|
82466696|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.106|STANDARD_ERROR_OF_MEAN|1.3201|||TWO_SIDED|95.0|-2.498|2.71||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||2.710|-2.498|
82466697|NCT00674817|164629157|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.713|STANDARD_ERROR_OF_MEAN|1.3241|||TWO_SIDED|95.0|-3.325|1.899||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||1.899|-3.325|
82466698|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.561|STANDARD_ERROR_OF_MEAN|1.2351|||TWO_SIDED|95.0|-2.997|1.876||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||1.876|-2.997|
82466699|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.705|STANDARD_ERROR_OF_MEAN|1.2125|||TWO_SIDED|95.0|-0.687|4.097||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||4.097|-0.687|
82466700|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.337|STANDARD_ERROR_OF_MEAN|1.2341|||TWO_SIDED|95.0|-3.771|1.098||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.098|-3.771|
82466701|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.067|STANDARD_ERROR_OF_MEAN|1.2416|||TWO_SIDED|95.0|-3.516|1.382||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||1.382|-3.516|
82546048|NCT02590432|164791541|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.9519|TWO_SIDED|95.0|0.39|2.18|||Log-Rank Test|||LINZESS® 145 μg vs LINZESS® 290 μg||2.18|0.39|0.9519
82546049|NCT02590432|164791541|SUPERIORITY||Hazard Ratio (HR)|0.27||||0.0234|TWO_SIDED|95.0|0.08|0.87|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 290 μg||0.87|0.08|0.0234
82546050|NCT02590432|164791541|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.4518|TWO_SIDED|95.0|0.39|1.47|||Log-Rank Test|||LINZESS® 72 μg vs LINZESS® 145 μg||1.47|0.39|0.4518
82466702|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.376|STANDARD_ERROR_OF_MEAN|1.0997|||TWO_SIDED|95.0|-2.545|1.794||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||1.794|-2.545|
82466703|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|1.0786|||TWO_SIDED|95.0|-1.588|2.668||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||2.668|-1.588|
82466704|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|1.0999|||TWO_SIDED|95.0|-2.185|2.154||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.154|-2.185|
82466705|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.466|STANDARD_ERROR_OF_MEAN|1.1058|||TWO_SIDED|95.0|-1.715|2.648||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||2.648|-1.715|
82466706|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|0.881|||TWO_SIDED|95.0|-2.918|0.559||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.559|-2.918|
82466707|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.876|STANDARD_ERROR_OF_MEAN|0.8644|||TWO_SIDED|95.0|-0.829|2.582||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||2.582|-0.829|
82466708|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.809|STANDARD_ERROR_OF_MEAN|0.8882|||TWO_SIDED|95.0|-2.561|0.944||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.944|-2.561|
82466709|NCT00674817|164629158|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.8929|||TWO_SIDED|95.0|-2.122|1.401||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||1.401|-2.122|
82466710|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.2352|||TWO_SIDED|95.0|0.066|0.994||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.994|0.066|
82466711|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.388|STANDARD_ERROR_OF_MEAN|0.2318|||TWO_SIDED|95.0|-0.069|0.846||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.846|-0.069|
82466712|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.2363|||TWO_SIDED|95.0|-0.157|0.775||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.775|-0.157|
82466713|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.2392|||TWO_SIDED|95.0|-0.163|0.78||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.780|-0.163|
82466714|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.874|STANDARD_ERROR_OF_MEAN|0.3099|||TWO_SIDED|95.0|0.262|1.485||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||1.485|0.262|
82466715|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.3056|||TWO_SIDED|95.0|-0.656|0.55||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.550|-0.656|
82466716|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.829|STANDARD_ERROR_OF_MEAN|0.3112|||TWO_SIDED|95.0|0.215|1.443||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||1.443|0.215|
82546051|NCT04583423|164791621|OTHER||Difference in Percentages|10.4||||0.3504|TWO_SIDED|95.0|-13.4|35.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50-mg MK-3655 minus % placebo|||35.1|-13.4|0.3504
82546052|NCT04583423|164791621|OTHER||Difference in Percentages|9.2||||0.373|TWO_SIDED|95.0|-15.6|32.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100-mg MK-3655 minus % placebo|||32.1|-15.6|0.3730
82546053|NCT04583423|164791621|OTHER||Difference in Percentages|15.4||||0.1428|TWO_SIDED|95.0|-8.5|42.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 300-mg MK-3655 minus % placebo|||42.3|-8.5|0.1428
82650496|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|4.89||0.5938|TWO_SIDED|95.0|-7.1|12.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Role-Physical||12.3|-7.1|0.5938
82650497|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|4.61||0.4842|TWO_SIDED|95.0|-5.9|12.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Pain Index||12.4|-5.9|0.4842
82650498|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|3.45||0.0827|TWO_SIDED|95.0|-12.9|0.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model|ANCOVA|||This analysis is for the domain: SF-36 General Health Perceptions||0.8|-12.9|0.0827
82466717|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.567|STANDARD_ERROR_OF_MEAN|0.3151|||TWO_SIDED|95.0|-0.054|1.189||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||1.189|-0.054|
82466718|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.312|STANDARD_ERROR_OF_MEAN|0.1021|||TWO_SIDED|95.0|0.11|0.513||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.513|0.110|
82466719|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.1006|||TWO_SIDED|95.0|-0.025|0.372||||||GSK961081 400 mcg Plus IPR versus maximum GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||0.372|-0.025|
82466720|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.1035|||TWO_SIDED|95.0|0.006|0.414||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.414|0.006|
82466721|NCT00674817|164629159|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.1047|||TWO_SIDED|95.0|-0.103|0.311||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.311|-0.103|
82466722|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.0503|||TWO_SIDED|95.0|-0.276|-0.078||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours||-0.078|-0.276|
82466723|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.049|||TWO_SIDED|95.0|-0.096|0.097||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.097|-0.096|
82466724|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.076|STANDARD_ERROR_OF_MEAN|0.0498|||TWO_SIDED|95.0|-0.174|0.022||||||SK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.022|-0.174|
82466725|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.0507|||TWO_SIDED|95.0|-0.128|0.072||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours||0.072|-0.128|
82466726|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.166|STANDARD_ERROR_OF_MEAN|0.0493|||TWO_SIDED|95.0|-0.263|-0.069||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-27 hours||-0.069|-0.263|
82546054|NCT04583423|164791624|OTHER||Difference in Least Square (LS) Means|19.1|||||TWO_SIDED|95.0|1.7|36.4|||||Difference=LS Mean 50 mg minus LS Mean Placebo|||36.4|1.7|
82546055|NCT04583423|164791624|OTHER||Difference in LS Means|19.0|||||TWO_SIDED|95.0|2.2|35.8|||||Difference=LS Mean 100 mg minus LS Mean Placebo|||35.8|2.2|
82546056|NCT04583423|164791624|OTHER||Difference in LS Means|26.1|||||TWO_SIDED|95.0|9.5|42.8|||||Difference=LS Mean 300 mg minus LS Mean Placebo|||42.8|9.5|
82546057|NCT04583423|164791625|OTHER||Difference in Percentages|1.6||||0.8978|TWO_SIDED|95.0|-26.5|30.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50 mg minus % Placebo|||30.3|-26.5|0.8978
82546058|NCT04583423|164791625|OTHER||Difference in Parentages|20.0||||0.1869|TWO_SIDED|95.0|-10.6|46.4|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100 mg minus % Placebo|||46.4|-10.6|0.1869
82546059|NCT04583423|164791625|OTHER||Difference in Percentages|8.5||||0.5636|TWO_SIDED|95.0|-22.1|38.5|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 300 mg minus % Placebo|||38.5|-22.1|0.5636
82546060|NCT04583423|164791626|OTHER||Difference in Percentages|1.6||||0.9174|TWO_SIDED|95.0|-28.6|32.6|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 50 mg minus % Placebo|||32.6|-28.6|0.9174
82466727|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057|STANDARD_ERROR_OF_MEAN|0.0481|||TWO_SIDED|95.0|-0.152|0.038||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-27 hours||0.038|-0.152|
82466728|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.171|STANDARD_ERROR_OF_MEAN|0.0489|||TWO_SIDED|95.0|-0.267|-0.075||||||GSK961081 1200 mcg Plus SAL versus GSK961081 1200 mcg plus Placebo during 0-27 hours||-0.075|-0.267|
82466729|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.009|STANDARD_ERROR_OF_MEAN|0.0498|||TWO_SIDED|95.0|-0.108|0.089||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-27 hours||0.089|-0.108|
82466730|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.0522|||TWO_SIDED|95.0|-0.211|-0.005||||||GSK961081 400 mcg Plus SAL versus GSK961081 400 mcg plus Placebo during 0-4 hours (WMC)||-0.005|-0.211|
82466731|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.0509|||TWO_SIDED|95.0|-0.087|0.114||||||GSK961081 400 mcg Plus IPR versus GSK961081 400 mcg plus Placebo during 0-4 hours||0.114|-0.087|
82466732|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.18|0.026||||||GSK961081 1200 mcg Plus SAL GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.026|-0.180|
82546061|NCT04583423|164791626|OTHER||Difference in Percentages|18.5||||0.272|TWO_SIDED|95.0|-14.5|47.1|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference=% 100 mg minus % Placebo|||47.1|-14.5|0.2720
82466733|NCT00674817|164629160|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.0529|||TWO_SIDED|95.0|-0.129|0.08||||||GSK961081 1200 mcg Plus IPR versus GSK961081 1200 mcg plus Placebo during 0-4 hours (WMC)||0.080|-0.129|
82466734|NCT02753283|164629244|SUPERIORITY||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|1.48||0.007|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.007
82466735|NCT02753283|164629244|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|1.09||0.018|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.018
82466736|NCT02753283|164629245|SUPERIORITY||Mean Difference (Final Values)|3.99|STANDARD_ERROR_OF_MEAN|1.45||0.014|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.014
82466737|NCT02753283|164629245|SUPERIORITY||Mean Difference (Final Values)|5.16|STANDARD_ERROR_OF_MEAN|1.45||0.002|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.002
82466738|NCT02753283|164629246|SUPERIORITY||Mean Difference (Final Values)|2.54|STANDARD_ERROR_OF_MEAN|1.26||0.06|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.060
82466739|NCT02753283|164629246|SUPERIORITY||Mean Difference (Final Values)|2.45|STANDARD_ERROR_OF_MEAN|1.22||0.055|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.055
82466740|NCT02753283|164629247|SUPERIORITY||Mean Difference (Final Values)|2.21|STANDARD_ERROR_OF_MEAN|1.37||0.112|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.112
82466741|NCT02753283|164629247|SUPERIORITY||Mean Difference (Final Values)|2.46|STANDARD_ERROR_OF_MEAN|1.34||0.07|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.070
82650499|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|4.73||0.4561|TWO_SIDED|95.0|-12.09|5.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Vitality||5.8|-12.09|0.4561
82650500|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|4.31||0.9645|TWO_SIDED|95.0|-8.8|8.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Social Functioning||8.4|-8.8|0.9645
82466742|NCT02753283|164629248|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|1.39||0.904|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.904
82466743|NCT02753283|164629248|SUPERIORITY||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|2.29||0.616|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.616
82466744|NCT02753283|164629249|SUPERIORITY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.001|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||<.001
82466745|NCT02753283|164629249|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.005|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.005
82466746|NCT02753283|164629250|SUPERIORITY||Mean Difference (Final Values)|-26.2|STANDARD_ERROR_OF_MEAN|6.0||0.001|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.001
82466747|NCT02753283|164629250|SUPERIORITY||Mean Difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|3.9||0.038|TWO_SIDED||||||Mixed Models Analysis|Using multiple imputation for missing data||||||.038
82466748|NCT02992288|164629280|SUPERIORITY|||||||0.2297||||||Linear dose-response shape: The multiple comparison procedures (MCP) approach was applied to calculate the adjusted one-sided one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2297
82466749|NCT02992288|164629280|SUPERIORITY|||||||0.4409||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.4409
82466750|NCT02992288|164629280|SUPERIORITY|||||||0.2842||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2842
82466751|NCT02992288|164629280|SUPERIORITY|||||||0.2534||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.2534
82466752|NCT02992288|164629280|SUPERIORITY|||||||0.3842||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.3842
82466753|NCT02992288|164629281|SUPERIORITY|||||||0.8966||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8966
82466754|NCT02992288|164629281|SUPERIORITY|||||||0.9233||||||Sigmoidal Emax 1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9233
82466755|NCT02992288|164629281|SUPERIORITY|||||||0.9296||||||Sigmoidal Emax 2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9296
82466756|NCT02992288|164629281|SUPERIORITY|||||||0.7357||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7357
82466757|NCT02992288|164629281|SUPERIORITY|||||||0.9083||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9083
82466758|NCT02992288|164629282|SUPERIORITY|||||||0.4596||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.4596
82466759|NCT02992288|164629282|SUPERIORITY|||||||0.7859||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7859
82466760|NCT02992288|164629282|SUPERIORITY|||||||0.5562||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5562
82466761|NCT02992288|164629282|SUPERIORITY|||||||0.5338||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5338
82466762|NCT02992288|164629282|SUPERIORITY|||||||0.7303||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.7303
82466763|NCT02992288|164629283|SUPERIORITY|||||||0.5703||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.5703
82466764|NCT02992288|164629283|SUPERIORITY|||||||0.8253||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8253
82466765|NCT02992288|164629283|SUPERIORITY|||||||0.6506||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.6506
82466766|NCT02992288|164629283|SUPERIORITY|||||||0.6923||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.6923
82466767|NCT02992288|164629283|SUPERIORITY|||||||0.8036||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.8036
82466768|NCT02992288|164629284|SUPERIORITY|||||||0.9955||||||Linear dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9955
82546062|NCT04583423|164791626|OTHER||Difference in Percentages|5.3||||0.7586|TWO_SIDED|95.0|-26.7|37.3|||Miettinen and Nurminen's method|Stratified by concurrent diagnosis of T2DM at the time of randomization and fibrosis score and using Cochran-Mantel-Haenszel weighting scheme|Difference= % 300 mg minus % Placebo|||37.3|-26.7|0.7586
82466769|NCT02992288|164629284|SUPERIORITY|||||||0.9946||||||Sigmoidal Emax1 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9946
82466770|NCT02992288|164629284|SUPERIORITY|||||||0.9913||||||Sigmoidal Emax2 dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9913
82466771|NCT02992288|164629284|SUPERIORITY|||||||0.9982||||||Emax dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9982
82466772|NCT02992288|164629284|SUPERIORITY|||||||0.9959||||||Quadratic dose-response shape: The MCP approach was applied to calculate the adjusted one-sided p-values of the contrast test.|MCP-Mod method|Dose response relationship was assessed using the MCP-Mod method combining MCP principles with modeling techniques under model uncertainty.||||||0.9959
82466773|NCT00656513|164629289|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||An effect size of 0.50 was chosen for sample size calculation. On the basis of a 2-sided t test with alpha= 0.05 and 1 interim analysis, 130 patients were required for 80% statistical power. Adjustment by 10% for loss to follow-up and retrospective ineligibility of recruited study participants yielded a sample size of 144 patients. Actual power given only 96 patients was 68.6%||||0.45
82650501|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|5.41||0.7636|TWO_SIDED|95.0|-9.1|12.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Role-Emotional||12.4|-9.1|0.7636
82466774|NCT00656513|164629291|SUPERIORITY|||||||0.11||||||Two-sided test of values at 4 months.|Wilcoxon (Mann-Whitney)|||||||0.11
82466775|NCT00656513|164629291|SUPERIORITY|||||||0.31||||||Two-sided test of values at 6 months.|Wilcoxon (Mann-Whitney)|||||||0.31
82466776|NCT00656513|164629291|SUPERIORITY|||||||0.21||||||Two-sided test of values at 15 months.|Wilcoxon (Mann-Whitney)|||||||0.21
82546063|NCT02238483|164791627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.2371|TWO_SIDED|95.0|0.81|2.4|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|H0: Hazard Ratio (AZD7624/placebo) equals 1 vs. H1: Hazard Ratio does not equal 1.||2.40|0.81|0.2371
82546064|NCT02238483|164791628|SUPERIORITY_OR_OTHER||Rate Ratio|1.33|STANDARD_ERROR_OF_MEAN|0.33||0.249|TWO_SIDED|95.0|0.82|2.16|||regression, negative binomial||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.16|0.82|0.249
82466777|NCT00656513|164629292|SUPERIORITY|||||||0.35||||||4-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.35
82466778|NCT00656513|164629292|SUPERIORITY|||||||0.78||||||4 months Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.78
82466779|NCT00656513|164629292|SUPERIORITY|||||||0.12||||||4 months Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.12
82466780|NCT00656513|164629292|SUPERIORITY|||||||0.28||||||4-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
82466781|NCT00656513|164629292|SUPERIORITY|||||||0.98||||||6-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.98
82466782|NCT00656513|164629292|SUPERIORITY|||||||0.28||||||6-month Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
82466783|NCT00656513|164629292|SUPERIORITY|||||||0.13||||||6-month Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.13
82466784|NCT00656513|164629292|SUPERIORITY|||||||0.58||||||6-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.58
82579341|NCT01882543|164869028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.03|TWO_SIDED|95.0|-2.5|-0.1|||ANCOVA|||E-diary maximum daily pain scores were calculated using an average of up to the last 7 recordings within 9 days before each visit. Missing data, including premature discontinuation, was imputed using the LOCF approach for the secondary efficacy variable of maximum daily pain score||-0.1|-2.5|0.030
82650502|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|3.54||0.7067|TWO_SIDED|95.0|-5.7|8.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: SF-36 Mental Health Index||8.4|-5.7|0.7067
82466785|NCT00656513|164629292|SUPERIORITY|||||||0.88||||||9-month Physical Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.88
82466786|NCT00656513|164629292|SUPERIORITY|||||||0.09||||||9-month Pain/Discomfort score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.09
82466787|NCT00656513|164629292|SUPERIORITY|||||||0.49||||||9-month Personal/Psychological Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.49
82466788|NCT00656513|164629292|SUPERIORITY|||||||0.45||||||9-month Social Functioning score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.45
82466789|NCT00656513|164629292|SUPERIORITY|||||||0.45||||||15-month Physical Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.45
82579342|NCT01882543|164869029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.008|TWO_SIDED|95.0|-2.8|-0.5|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.5|-2.8|0.008
82466790|NCT00656513|164629292|SUPERIORITY|||||||0.3||||||15-month Pain/Discomfort; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.30
82466791|NCT00656513|164629292|SUPERIORITY|||||||0.48||||||15-month Personal/Psychological Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.48
82466792|NCT00656513|164629292|SUPERIORITY|||||||0.68||||||15-month Social Functioning; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.68
82466793|NCT00656513|164629293|SUPERIORITY|||||||0.97||||||4-month score; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.97
82466794|NCT00656513|164629293|SUPERIORITY|||||||0.83||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.83
82466795|NCT00656513|164629293|SUPERIORITY|||||||0.28||||||9-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.28
82466796|NCT00656513|164629293|SUPERIORITY|||||||0.89||||||15-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.89
82466797|NCT00656513|164629294|SUPERIORITY|||||||0.54||||||4-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.54
82466798|NCT00656513|164629294|SUPERIORITY|||||||0.99||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.99
82466799|NCT00656513|164629294|SUPERIORITY|||||||0.56||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.56
82466800|NCT00656513|164629294|SUPERIORITY|||||||0.58||||||6-months; two-sided test, significance level 0.05|Wilcoxon (Mann-Whitney)|||||||0.58
82466801|NCT00656513|164629295|SUPERIORITY|||||||0.14||||||Two-sided test, significance level 0.05|t-test, 2 sided|||||||0.14
82466802|NCT01867671|164629307|SUPERIORITY||Odds Ratio (OR)|205.45|||<|0.0001|TWO_SIDED|95.0|24.0|1758.51|||Regression, Logistic|||||1758.51|24.00|<0.0001
82466803|NCT01867671|164629308|SUPERIORITY||Odds Ratio (OR)|27.82|||<|0.0031|TWO_SIDED|95.0|3.07|252.33|||Regression, Logistic|||||252.33|3.07|<0.0031
82466804|NCT01867671|164629309|OTHER|McNemar's Test|Simple Kappa Coefficient|0.162|||<|0.0001|TWO_SIDED|95.0|0.0628|0.2612|||McNemar|||||0.2612|0.0628|<0.0001
82466805|NCT01867671|164629310|SUPERIORITY||Mean Difference (Final Values)|1464.0|||<|0.0001|TWO_SIDED|95.0|944.0|1985.0|||Chi-squared|||||1985|944|<0.0001
82466806|NCT03165617|164629312|SUPERIORITY|Success criterion were met as the LL of the 2-sided 95% CI was above 20%.|Absolute Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical Analysis title - Absolute Vaccine Efficacy Any Strain. Adjusted aVE for QIVc vs. comparator. Success criteria for the primary efficacy endpoint was met if the LL of the 2-sided 95% CI of the aVE estimate was greater than 20% (primary endpoint) using the protocol definition of ILI for the entire age range (2 to \<18 years of age).||62.12|45.67|
82500000|NCT00563381|164690643|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||<|0.0001||95.0|0.68|0.86|||Regression, Cox|Treatment effect adjusted for pooled centre||Tiotropium versus Salmeterol||0.86|0.68|<0.0001
82579343|NCT01882543|164869030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.028|TWO_SIDED|95.0|-3.0|-0.2|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.2|-3.0|0.028
82579344|NCT01882543|164869031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.011|TWO_SIDED|95.0|-9.5|-1.3|||ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-1.3|-9.5|0.011
82579345|NCT01882543|164869032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.007|TWO_SIDED|95.0|-8.8|-1.4||ICSI/PI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-1.4|-8.8|0.007
82466807|NCT03165617|164629313|SUPERIORITY|Success criteria was met as the LL of the 2-sided 95% CI of the VE estimate was greater than 30% (co-primary endpoint)|Absolute Vaccine Efficacy|54.03|||||TWO_SIDED|95.0|44.8|61.71||||||Statistical analysis title - Absolute Vaccine Efficacy, Any Strain Adjusted aVE for QIVc vs. comparator. Success criteria for the primary efficacy endpoint was met if the LL of the 2-sided 95% CI of the aVE estimate was greater than 30% (co-primary endpoint) using the protocol definition of ILI for the entire age range (≥ 3 to \<18 years of age).||61.71|44.8|
82466808|NCT03165617|164629314|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||62.12|45.67|
82466809|NCT03165617|164629314|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|50.51|||||TWO_SIDED|95.0|38.43|60.22||||||Statistical analysis title: Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||60.22|38.43|
82466810|NCT03165617|164629314|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|53.33|||||TWO_SIDED|95.0|43.38|61.54||||||Statistical analysis title: Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||61.54|43.38|
82466811|NCT03165617|164629314|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|61.85|||||TWO_SIDED|95.0|47.37|72.34||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||72.34|47.37|
82466812|NCT03165617|164629315|SUPERIORITY|Absolute Vaccine Efficacy (aVE) for 2 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints|Absolute Vaccine Efficacy|54.63|||||TWO_SIDED|95.0|45.67|62.12||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||62.12|45.67|
82466813|NCT03165617|164629315|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.78|||||TWO_SIDED|95.0|49.01|69.83||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||69.83|49.01|
82466814|NCT03165617|164629315|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|59.66|||||TWO_SIDED|95.0|49.08|68.05||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||68.05|49.08|
82466815|NCT03165617|164629315|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.72|||||TWO_SIDED|95.0|42.14|73.33||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||73.33|42.14|
82466816|NCT03165617|164629316|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.81|||||TWO_SIDED|95.0|51.3|68.46||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||68.46|51.3|
82466817|NCT03165617|164629316|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.78|||||TWO_SIDED|95.0|49.01|69.83||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||69.83|49.01|
82466818|NCT03165617|164629316|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|59.66|||||TWO_SIDED|95.0|49.08|68.05||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||68.05|49.08|
82466819|NCT03165617|164629316|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|60.72|||||TWO_SIDED|95.0|42.14|73.33||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||73.33|42.14|
82466820|NCT03165617|164629317|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<18 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|63.64|||||TWO_SIDED|95.0|53.64|71.48||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<18yrs||71.48|53.64|
82466821|NCT03165617|164629317|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 2 to \<9 Years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|63.04|||||TWO_SIDED|95.0|50.66|72.32||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 2 to \<9yrs||72.32|50.66|
82546065|NCT02238483|164791629|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.1261|TWO_SIDED|95.0|0.89|2.5|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.50|0.89|0.1261
82466822|NCT03165617|164629317|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 4 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|61.58|||||TWO_SIDED|95.0|50.25|70.53||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 4 to \<18yrs||70.53|50.25|
82466823|NCT03165617|164629317|SUPERIORITY|"Statistical analysis description:~Absolute Vaccine Efficacy (aVE) for 9 to \<18 years. Note that no prespecified criteria for success were defined for the secondary efficacy endpoints"|Absolute Vaccine Efficacy|64.78|||||TWO_SIDED|95.0|44.84|77.51||||||Statistical analysis title Absolute Vaccine Efficacy, Any Strain, 9 to \<18yrs||77.51|44.84|
82466824|NCT00135226|164629337|OTHER||Rate Ratio|0.88||||0.01|TWO_SIDED|95.0|0.79|0.97|||Log Rank|||||0.97|0.79|0.01
82546066|NCT02238483|164791630|SUPERIORITY_OR_OTHER||Rate ratio|1.4|STANDARD_ERROR_OF_MEAN|0.33||0.157|TWO_SIDED|95.0|0.88|2.21|||regression, negative binomial|||||2.21|0.88|0.157
82546067|NCT02238483|164791631|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.53||||0.1529|TWO_SIDED|95.0|0.85|2.76|||Regression, Cox|||||2.76|0.85|0.1529
82466825|NCT00135226|164629337|OTHER||Rate Ratio|0.97||||0.55|TWO_SIDED|95.0|0.87|1.08|||Log Rank|||||1.08|0.87|0.55
82466826|NCT00135226|164629338|OTHER||Rate Ratio|1.29||||0.003|TWO_SIDED|95.0|1.09|1.52|||Log Rank|||||1.52|1.09|0.003
82466827|NCT00135226|164629339|OTHER||Rate Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.97||||||||0.97|0.80|
82466828|NCT00135226|164629339|OTHER||Rate Ratio|1.0|||||TWO_SIDED|95.0|0.91|1.09||||||||1.09|0.91|
82466829|NCT00135226|164629340|OTHER||Rate Ratio|0.99|||||TWO_SIDED|95.0|0.8|1.24||||||||1.24|0.80|
82466830|NCT00135226|164629341|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.85|1.04||||||||1.04|0.85|
82466831|NCT00135226|164629341|OTHER||Risk Ratio|0.95|||||TWO_SIDED|95.0|0.86|1.05||||||||1.05|0.86|
82466832|NCT00135226|164629342|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.12||||||||1.12|0.66|
82466833|NCT00135226|164629342|OTHER||Rate ratio|0.79|||||TWO_SIDED|95.0|0.61|1.02||||||||1.02|0.61|
82466834|NCT00135226|164629343|OTHER||Rate Ratio|1.12|||||TWO_SIDED|95.0|0.7|1.77||||||||1.77|0.7|
82466835|NCT00135226|164629343|OTHER||Rate Ratio|0.94|||||TWO_SIDED|95.0|0.59|1.5||||||||1.50|0.59|
82466836|NCT00135226|164629344|OTHER||Rate Ratio|0.96|||||TWO_SIDED|95.0|0.68|1.34||||||||1.34|0.68|
82466837|NCT00135226|164629344|OTHER||Rate Ratio|0.8|||||TWO_SIDED|95.0|0.57|1.12||||||||1.12|0.57|
82466838|NCT00135226|164629345|OTHER||Rate Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.15||||||||1.15|0.84|
82546068|NCT02238483|164791632|SUPERIORITY_OR_OTHER||rate ratio|1.5|STANDARD_ERROR_OF_MEAN|0.4||0.129|TWO_SIDED|95.0|0.89|2.52|||regression, negative binomial|||||2.52|0.89|0.129
82466839|NCT00135226|164629345|OTHER||Rate ratio|0.95|||||TWO_SIDED|95.0|0.82|1.12||||||||1.12|0.82|
82466840|NCT00135226|164629346|OTHER||Rate ratio|1.19|||||TWO_SIDED|95.0|0.86|1.63||||||||1.63|0.86|
82466841|NCT00135226|164629346|OTHER||Rate Ratio|0.93|||||TWO_SIDED|95.0|0.68|1.28||||||||1.28|0.68|
82466842|NCT00135226|164629347|OTHER||Rate Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.01||||||||1.01|0.64|
82466843|NCT00135226|164629347|OTHER||Rate Ratio|1.26|||||TWO_SIDED|95.0|1.0|1.59||||||||1.59|1.00|
82466844|NCT00135226|164629348|OTHER||Rate Ratio|0.86|||||TWO_SIDED|95.0|0.46|1.6||||||||1.60|0.46|
82466845|NCT00135226|164629348|OTHER||Rate ratio|0.77|||||TWO_SIDED|95.0|0.41|1.45||||||||1.45|0.41|
82466846|NCT00135226|164629349|OTHER||Rate Ratio|0.75|||||TWO_SIDED|95.0|0.17|3.3||||||||3.30|0.17|
82466847|NCT00135226|164629349|OTHER||Rate Ratio|0.75|||||TWO_SIDED|95.0|0.17|3.31||||||||3.31|0.17|
82466848|NCT00135226|164629350|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|0.92|1.11||||||||1.11|0.92|
82466849|NCT00135226|164629350|OTHER||Risk Ratio|1.0|||||TWO_SIDED|95.0|0.91|1.1||||||||1.10|0.91|
82466850|NCT00135226|164629351|OTHER||Rate Ratio|1.06|||||TWO_SIDED|95.0|0.78|1.43||||||||1.43|0.78|
82466851|NCT00135226|164629352|OTHER||Rate ratio|0.98|||||TWO_SIDED|95.0|0.74|1.29||||||||1.29|0.74|
82466852|NCT00135226|164629352|OTHER||Rate Ratio|1.04|||||TWO_SIDED|95.0|0.79|1.37||||||||1.37|0.79|
82466853|NCT00135226|164629353|OTHER||Rate Ratio|1.13|||||TWO_SIDED|95.0|0.97|1.32||||||||1.32|0.97|
82466854|NCT00135226|164629353|OTHER||Rate Ratio|1.07|||||TWO_SIDED|95.0|0.91|1.25||||||||1.25|0.91|
82466855|NCT00135226|164629354|OTHER||Rate Ratio|1.02|||||TWO_SIDED|95.0|0.76|1.38||||||||1.38|0.76|
82466856|NCT00135226|164629354|OTHER||Rate Ratio|1.17|||||TWO_SIDED|95.0|0.87|1.58||||||||1.58|0.87|
82466857|NCT00135226|164629355|OTHER||Rate Ratio|1.01|||||TWO_SIDED|95.0|0.76|1.34||||||||1.34|0.76|
82466858|NCT00135226|164629355|OTHER||Rate Ratio|1.14|||||TWO_SIDED|95.0|0.86|1.52||||||||1.52|0.86|
82466859|NCT00135226|164629356|OTHER||Rate Ratio|0.85|||||TWO_SIDED|95.0|0.58|1.23||||||||1.23|0.58|
82466860|NCT00135226|164629356|OTHER||Rate ratio|1.02|||||TWO_SIDED|95.0|0.7|1.48||||||||1.48|0.70|
82466861|NCT00135226|164629357|OTHER||Rate Ratio|0.83|||||TWO_SIDED|95.0|0.49|1.41||||||||1.41|0.49|
82466862|NCT00135226|164629357|OTHER||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.42|1.22||||||||1.22|0.42|
82466863|NCT00135226|164629358|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.5|1.41||||||||1.41|0.50|
82466864|NCT00135226|164629358|OTHER||Rate Ratio|0.78|||||TWO_SIDED|95.0|0.46|1.31||||||||1.31|0.46|
82466865|NCT00135226|164629359|OTHER||Rate Ratio|1.23|||||TWO_SIDED|95.0|0.98|1.54||||||||1.54|0.98|
82466866|NCT00135226|164629360|OTHER||Rate Ratio|0.84|||||TWO_SIDED|95.0|0.63|1.12||||||||1.12|0.63|
82466867|NCT02893293|164629382|OTHER|||||||0.002||||||A p-value less than the a priori threshold of 0.05 was considered statistically significant.|Mixed Models Analysis|Mixed effects model including a random effect term accounting for correlation among the measures with a same patient.||||||0.002
82466868|NCT02893293|164629383|OTHER|||||||0.02||||||A p-value less than the a priori threshold of 0.05 was considered statistically significant.|Mixed Models Analysis|Mixed effects model including a random effect term accounting for correlation among the measures with a same patient.||||||0.02
82466869|NCT04531176|164629387|NON_INFERIORITY|The results of non-inferiority test results are between pairwise groups. Non-inferiority was tested at the 0.05 level at 1 year and performed pairwise with Bonferroni adjusted significance levels for each paired comparison.||||||0.004||||||The non-inferiority regions were set to be 1% for weight loss change. When both primary endpoints are non-inferior, superiority testing at the 0.025 overall error level with Bonferroni adjustment for each endpoint at 1 year was then performed.|t-test, 1 sided|||||||0.004
82466870|NCT04531176|164629388|NON_INFERIORITY|Non-inferiority was tested at the 0.05 level at 1 year and performed pairwise with Bonferroni adjusted significance levels for each paired comparison||||||0.05||||||The non-inferiority regions were set to be 0.5% for A1C. When both primary endpoints are non-inferior, superiority testing at the 0.025 overall error level with Bonferroni adjustment for each endpoint at 1 year was then performed.|t-test, 1 sided|||||||0.05
82466871|NCT01743469|164629396|SUPERIORITY_OR_OTHER|||||||0.142||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>20%).||||0.142
82466872|NCT01743469|164629396|SUPERIORITY_OR_OTHER|||||||1||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>35%).||||1.000
82466873|NCT01743469|164629396|SUPERIORITY_OR_OTHER|||||||0.8||||||One-sided alpha of 0.1|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>20%).||||0.800
82466874|NCT01743469|164629396|SUPERIORITY_OR_OTHER|||||||0.63||||||One-sided alpha of 0.1|Exact binomial test|||The PFS rate was compared with the prespecified threshold (\>15%).||||0.630
82546069|NCT02238483|164791633|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.8543|TWO_SIDED|95.0|0.43|2.01|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||2.01|0.43|0.8543
82466875|NCT01743469|164629397|SUPERIORITY_OR_OTHER|||||||0.5||||||One-sided alpha of 0.1.|Exact binomial test|||The PFS rate was compared with a prespecified threshold (\>20%).||||0.500
82466876|NCT00528112|164629412|SUPERIORITY_OR_OTHER||failure rate|0.009|||||TWO_SIDED|95.0|0.005|0.017||||||Cumulative failure rate (Kaplan-Meier) at 3 years||0.017|0.005|
82466877|NCT00528112|164629412|SUPERIORITY_OR_OTHER||failure rate|0.01||||||95.0|0.005|0.018||||||Cumulative failure rate (Kaplan-Meier) at 3 years||0.018|0.005|
82546070|NCT02238483|164791634|SUPERIORITY_OR_OTHER||rate ratio|1.12|STANDARD_ERROR_OF_MEAN|0.41||0.751|TWO_SIDED|95.0|0.55|2.29|||regression, negative binomial|||||2.29|0.55|0.751
82546071|NCT02238483|164791635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.5381|TWO_SIDED|95.0|0.54|1.38|||Regression, Cox||A hazard ratio greater than 1 indicates a higher rate of incidence in the AZD7624 group.|||1.38|0.54|0.5381
82546072|NCT02238483|164791636|SUPERIORITY_OR_OTHER||rate ratio|0.84|STANDARD_ERROR_OF_MEAN|0.19||0.44|TWO_SIDED|95.0|0.55|1.3|||regression, negative binomial|||||1.30|0.55|0.440
82546073|NCT02238483|164791637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.5474|TWO_SIDED|95.0|-1.6|0.85|||Mixed Models Analysis||LSMean difference for overall treatment effect. Negative values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.85|-1.60|0.5474
82546074|NCT02238483|164791638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.83||||0.6352|TWO_SIDED|95.0|-2.62|4.29|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||4.29|-2.62|0.6352
82546075|NCT02238483|164791639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.2694|TWO_SIDED|95.0|-0.34|0.1|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.10|-0.34|0.2694
82546076|NCT02238483|164791640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.5144|TWO_SIDED|95.0|-0.03|0.07|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.07|-0.03|0.5144
82546077|NCT02238483|164791641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02||||0.5416|TWO_SIDED|95.0|-0.1|0.05|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.05|-0.10|0.5416
82546078|NCT02238483|164791642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.1965|TWO_SIDED|95.0|0.0|0.02|||Mixed Models Analysis||LSMean difference for overall treatment effect. Positive values for a difference show AZD7624 to have a favourable outcome compared to Placebo|||0.02|0.00|0.1965
82466878|NCT00528112|164629434|SUPERIORITY_OR_OTHER||failure rate|0.01445|||||TWO_SIDED|95.0|0.00823|0.02531||||||Cumulative failure rate (Kaplan-Meier) at 5 years||0.02531|0.00823|
82466879|NCT02718898|164629453|SUPERIORITY||Odds Ratio (OR)|33.8|||<|0.001|TWO_SIDED|95.0|12.39|92.23|||Regression, Logistic|||||92.23|12.39|<0.001
82546079|NCT00567489|164791643|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
82546080|NCT00567489|164791643|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
82546081|NCT00567489|164791644|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
82546082|NCT00567489|164791644|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
82650503|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.78||0.8352|TWO_SIDED|95.0|-3.9|3.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Physical Component Score||3.2|-3.9|0.8352
82466880|NCT02718898|164629454|SUPERIORITY||Odds Ratio (OR)|102.55|||<|0.001|TWO_SIDED|95.0|22.79|461.43|||Regression, Logistic|||||461.43|22.79|<0.001
82466881|NCT02718898|164629455|SUPERIORITY||Odds Ratio (OR)|16.27|||<|0.001|TWO_SIDED|95.0|5.71|46.4|||Regression, Logistic|||||46.40|5.71|<0.001
82466882|NCT02718898|164629456|SUPERIORITY||Odds Ratio (OR)|13.57|||<|0.001|TWO_SIDED|95.0|4.57|40.29|||Regression, Logistic|||||40.29|4.57|<0.001
82466883|NCT02718898|164629457|SUPERIORITY||Odds Ratio (OR)|9.84|||<|0.001|TWO_SIDED|95.0|3.08|31.4|||Regression, Logistic|||||31.40|3.08|<0.001
82466884|NCT02718898|164629458|SUPERIORITY||Mean Difference (Final Values)|-8.4|STANDARD_ERROR_OF_MEAN|0.86|<|0.001|TWO_SIDED|95.0|-10.1|-6.7|||Mixed Models Analysis|||||-6.7|-10.1|<0.001
82466885|NCT02718898|164629459|SUPERIORITY||Mean Difference (Final Values)|-20.0|STANDARD_ERROR_OF_MEAN|2.15|<|0.001|TWO_SIDED|95.0|-24.3|-15.8|||Mixed Models Analysis|||||-15.8|-24.3|<0.001
82466886|NCT02718898|164629460|SUPERIORITY||Odds Ratio (OR)|13.95|||<|0.001|TWO_SIDED|95.0|6.12|31.8|||Regression, Logistic|||||31.80|6.12|<0.001
82466887|NCT02718898|164629461|SUPERIORITY||Mean Difference (Final Values)|4.506|STANDARD_ERROR_OF_MEAN|1.1339|<|0.001|TWO_SIDED|95.0|2.264|6.748|||ANCOVA|||||6.748|2.264|<0.001
82466888|NCT02718898|164629462|SUPERIORITY||Mean Difference (Final Values)|1.797|STANDARD_ERROR_OF_MEAN|1.0367||0.085|TWO_SIDED|95.0|-0.253|3.847|||ANCOVA|||||3.847|-0.253|0.085
82466889|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-28.75|STANDARD_ERROR_OF_MEAN|3.015|<|0.001|TWO_SIDED|95.0|-34.72|-22.78|||Mixed Models Analysis|||Total Score||-22.78|-34.72|<0.001
82466890|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|0.399|<|0.001|TWO_SIDED|95.0|-4.6|-3.02|||Mixed Models Analysis|||Itch||-3.02|-4.60|<0.001
82466891|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|0.405|<|0.001|TWO_SIDED|95.0|-4.3|-2.7|||Mixed Models Analysis|||Pain||-2.70|-4.30|<0.001
82466892|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.85|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-4.66|-3.04|||Mixed Models Analysis|||Discomfort||-3.04|-4.66|<0.001
82546083|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
82546084|NCT00567489|164791646|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
82466893|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-4.04|-2.42|||Mixed Models Analysis|||Stinging||-2.42|-4.04|<0.001
82466894|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-3.99|-2.41|||Mixed Models Analysis|||Burning||-2.41|-3.99|<0.001
82466895|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.81|STANDARD_ERROR_OF_MEAN|0.395|<|0.001|TWO_SIDED|95.0|-4.59|-3.03|||Mixed Models Analysis|||Redness||-3.03|-4.59|<0.001
82466896|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.78|STANDARD_ERROR_OF_MEAN|0.377|<|0.001|TWO_SIDED|95.0|-4.53|-3.03|||Mixed Models Analysis|||Scaling||-3.03|-4.53|<0.001
82466897|NCT02718898|164629463|SUPERIORITY||Mean Difference (Final Values)|-3.55|STANDARD_ERROR_OF_MEAN|0.385|<|0.001|TWO_SIDED|95.0|-4.31|-2.79|||Mixed Models Analysis|||Cracking||-2.79|-4.31|<0.001
82466898|NCT01451606|164629465|SUPERIORITY|||||||0.52||||||Note that sample size was well below our target, making this test very low power.|Wilcoxon (Mann-Whitney)|||||||0.52
82466899|NCT01451606|164629466|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82466900|NCT02559622|164629471|SUPERIORITY||Least Square (LS) mean difference|1.17||||0.223|TWO_SIDED|95.0|-0.72|3.06|||ANCOVA|||||3.06|-0.72|0.2230
82466901|NCT02163538|164629489|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82466902|NCT02163538|164629490|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
82546085|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
82546086|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
82546087|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
82466903|NCT02163538|164629491|SUPERIORITY|||||||0.582|||||||Chi-squared|||||||0.582
82546088|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
82546089|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
82546090|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
82546091|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
82466904|NCT02163538|164629492|SUPERIORITY|||||||0.0031|||||||Chi-squared|||||||0.0031
82466905|NCT02163538|164629493|SUPERIORITY|||||||0.0281|||||||Wilcoxon (Mann-Whitney)|||||||0.0281
82466906|NCT02163538|164629494|SUPERIORITY|||||||0.0821|||||||Wilcoxon (Mann-Whitney)|||||||.0821
82466907|NCT01345240|164629517|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the difference in percent seroprotection below 5% between recipients of licensed hepatitis B vaccine (Engerix-B) and recipients of RTS,S/AS01E vaccine.|Difference in percent seroprotection|-3.95|||||TWO_SIDED|95.0|-7.12|-2.16||||||Non-inferiority of the immune response to the hepatitis B antigen induced by RTS,S/AS01E vaccine versus a licensed hepatitis B vaccine.||-2.16|-7.12|
82466908|NCT01345240|164629520|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|0.91|||||TWO_SIDED|95.0|0.69|1.2|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.20|0.69|
82466909|NCT01345240|164629520|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|1.0|||||TWO_SIDED|95.0|0.76|1.32|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.32|0.76|
82466910|NCT01345240|164629520|EQUIVALENCE|Criteria for consistency: one month post Dose 3 of RTS,S/AS01E, the two-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio between all pairs of lots are within \[0.5, 2\].|GMC ratio|1.1|||||TWO_SIDED|95.0|0.84|1.45|||ANOVA|||To demonstrate the lot-to-lot consistency in terms of anti-HBs immunogenicity between three commercial lots of the RTS,S/AS01E candidate malaria vaccine.||1.45|0.84|
82466911|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.15|||||TWO_SIDED|95.0|0.95|1.39|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 1 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.39|0.95|
82466912|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.2|||||TWO_SIDED|95.0|0.97|1.48|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 4 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.48|0.97|
82546092|NCT00567489|164791646|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
82546093|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
82546094|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
82466913|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.27|||||TWO_SIDED|95.0|1.06|1.52|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 5 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.52|1.06|
82466914|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.17|||||TWO_SIDED|95.0|0.83|1.65|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 6B responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.65|0.83|
82466915|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.94|1.33|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 7F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.33|0.94|
82500001|NCT00563381|164690644|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.82|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.76|0.9|||Poisson regression|Poisson regression correcting for overdispersion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.90|0.76|<0.0001
82500002|NCT00563381|164690645|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.9|STANDARD_ERROR_OF_MEAN|0.03||0.0036||95.0|0.84|0.97|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.97|0.84|0.0036
82500003|NCT00563381|164690646|SUPERIORITY_OR_OTHER||Rate ratio (ratio of incidence rates)|0.8|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|0.73|0.88|||Poisson regression|Poisson regression correcting for overdisperion and adjusted for treatment exposure||Tiotropium versus Salmeterol||0.88|0.73|<0.0001
82500004|NCT00563381|164690647|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.6||||0.1035||95.0|-3.53|0.33|||Mixed Effects Repeated Measures Model|Mixed effects repeated measures model (MMRM) (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.33|-3.53|0.1035
82500005|NCT00563381|164690648|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-2.06||||0.0369||95.0|-3.99|-0.12|||Mixed Effects Repeated Measures Model|Mixed effects repeated measures model (MRMM)(fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week).||Tiotropium versus Salmeterol||-0.12|-3.99|0.0369
82500006|NCT00563381|164690649|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-2.07||||0.0362||95.0|-4.0|-0.13|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||-0.13|-4.00|0.0362
82500007|NCT00563381|164690650|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.88||||0.0573||95.0|-3.82|0.06|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.06|-3.82|0.0573
82500008|NCT00563381|164690651|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.1||||0.2641||95.0|-3.04|0.83|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.83|-3.04|0.2641
82500009|NCT00563381|164690652|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.01||||0.3068||95.0|-2.95|0.93|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.93|-2.95|0.3068
82500010|NCT00563381|164690653|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.78||||0.4299||95.0|-2.72|1.16|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.16|-2.72|0.4299
82500011|NCT00563381|164690654|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.48||||0.6277||95.0|-2.42|1.46|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.46|-2.42|0.6277
82500012|NCT00563381|164690655|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.85||||0.3931||95.0|-2.8|1.1|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.10|-2.80|0.3931
82500013|NCT00563381|164690656|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.97||||0.3297||95.0|-2.92|0.98|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.98|-2.92|0.3297
82500014|NCT00563381|164690657|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.3||||0.1904||95.0|-3.25|0.65|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.65|-3.25|0.1904
82500015|NCT00563381|164690658|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.99||||0.3172||95.0|-2.94|0.95|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.95|-2.94|0.3172
82500016|NCT00563381|164690659|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.67||||0.5017||95.0|-2.62|1.28|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.28|-2.62|0.5017
82500017|NCT00563381|164690660|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.23||||0.2174||95.0|-3.18|0.72|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.72|-3.18|0.2174
82466916|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.32|||||TWO_SIDED|95.0|1.08|1.63|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 9V responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.63|1.08|
82466917|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|0.99|||||TWO_SIDED|95.0|0.77|1.27|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 14 responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.27|0.77|
82466918|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.81|||||TWO_SIDED|95.0|1.38|2.38|||ANOVA|||To demonstrate the non-inferiority of antibody against 18C responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||2.38|1.38|
82466919|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.21|||||TWO_SIDED|95.0|0.89|1.65|||ANOVA|||To demonstrate the non-inferiority of antibody against serotype 19F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.65|0.89|
82466920|NCT01345240|164629528|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of 10 pneumococcal serotypes titers (measured with an ELISA test), is below a limit of 2 for the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.81|1.55|||ANOVA|||To demonstrate the non-inferiority of antibody against 23F responses to the pneumococcal conjugate vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen.||1.55|0.81|
82466921|NCT01345240|164629534|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.97|1.2|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, pertussis toxoid, (PT) of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.20|0.97|
82466922|NCT01345240|164629534|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.08|||||TWO_SIDED|95.0|0.97|1.21|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, filamentous haemagglutinin (FHA), of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.21|0.97|
82466923|NCT01345240|164629534|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 3, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the GMC ratios of anti-PT, anti-FHA, anti-PRN antibody concentrations, is below a limit of 2 for the DTPa/Hib vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.1|||||TWO_SIDED|95.0|0.98|1.22|||ANOVA|||To demonstrate the non-inferiority of antibody response to the acellular B pertussis antigen, pertactin (anti-PRN), of the DTPa/Hib vaccine when co-administered with RTS,S/AS01E as part of an EPI regimen.||1.22|0.98|
82546095|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
82546096|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
82466924|NCT01345240|164629535|NON_INFERIORITY|Criteria for non-inferiority: one month post Dose 2, upper limit (UL) of the 2-sided 95% confidence interval (CI) on the geometric mean concentrations (GMC) ratios of rotavirus antibodies (IgA) concentrations is below 2 for the rotavirus vaccine when co-administered with versus without RTS,S/AS01E.|GMC ratio|1.11|||||TWO_SIDED|95.0|0.76|1.61|||ANOVA|||To demonstrate the non-inferiority of antibody response to the rotavirus vaccine when co-administered with versus without RTS,S/AS01E as part of an EPI regimen||1.61|0.76|
82466925|NCT04607005|164629617|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.067|TWO_SIDED|95.0|-0.89|0.03||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||0.03|-0.89|0.067
82546097|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
82546098|NCT00567489|164791647|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
82546099|NCT00567489|164791648|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
82466926|NCT04607005|164629618|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.043|TWO_SIDED|95.0|-0.92|-0.02||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.02|-0.92|0.043
82546100|NCT00567489|164791648|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
82546101|NCT00567489|164791648|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
82546102|NCT00567489|164791648|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
82546103|NCT00567489|164791649|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
82546104|NCT00567489|164791649|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
82546105|NCT00567489|164791650|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
82546106|NCT00567489|164791651|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
82546107|NCT00567489|164791651|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
82546108|NCT00567489|164791651|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
82546109|NCT00567489|164791651|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
82546110|NCT00567489|164791652|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
82546111|NCT00567489|164791652|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
82546112|NCT00567489|164791652|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
82546113|NCT00567489|164791652|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
82546114|NCT00567489|164791653|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
82376855|NCT04841577|164460425|NON_INFERIORITY|Non-inferiority is demonstrated if the upper limit of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in seroconversion rate is ≤10% for HI antibody titers.|Difference in percentage|0.41|||||TWO_SIDED|95.0|-6.07|6.9|||Miettinen and Nurminen|||For the Flu B/Washington/02/2019 (Victoria) strain, the 2-sided 95% CI on group difference in seroconversion rate (Control group minus Co-Ad group).||6.90|-6.07|
82546115|NCT00567489|164791653|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
82546116|NCT00567489|164791654|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
82546117|NCT00567489|164791654|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
82546118|NCT00567489|164791655|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
82546119|NCT00567489|164791655|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
82546120|NCT00567489|164791656|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
82546121|NCT00567489|164791657|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
82546122|NCT00567489|164791657|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
82546123|NCT00567489|164791657|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
82546124|NCT00567489|164791657|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
82546125|NCT00567489|164791658|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
82546126|NCT00567489|164791658|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
82546127|NCT00567489|164791659|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
82546128|NCT00567489|164791659|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
82546129|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
82546130|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
82546131|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
82650504|NCT01271933|165016199|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|2.22||0.9347|TWO_SIDED|95.0|-4.2|4.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Mental Component Score||4.6|-4.2|0.9347
82650505|NCT01271933|165016201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.69||0.1901|TWO_SIDED|95.0|-0.5|2.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||HADS-A Anxiety scale||2.3|-0.5|0.1901
82466927|NCT04607005|164629619|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.003|TWO_SIDED|95.0|-2.37|-0.5||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.50|-2.37|0.003
82466928|NCT04607005|164629620|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.002|TWO_SIDED|95.0|-2.35|-0.51||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.51|-2.35|0.002
82466929|NCT04607005|164629621|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.003|TWO_SIDED|95.0|-2.52|-0.55||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.55|-2.52|0.003
82466930|NCT04607005|164629622|SUPERIORITY||Mean Difference (Final Values)|-1.54||||0.002|TWO_SIDED|95.0|-2.51|-0.57||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.57|-2.51|0.002
82466931|NCT04607005|164629623|SUPERIORITY||Mean Difference (Final Values)|-1.63||||0.012|TWO_SIDED|95.0|-2.9|-0.37||p-Value was based on a ANCOVA Model.|ANCOVA|||||-0.37|-2.90|0.012
82466932|NCT04607005|164629624|SUPERIORITY||Mean Difference (Final Values)|-1.67||||0.009|TWO_SIDED|95.0|-2.93|-0.42||p-Value was based on a ANCOVA Model.|ANCOVA|||||-0.42|-2.93|0.009
82466933|NCT04607005|164629625|SUPERIORITY||Mean Difference (Final Values)|-1.17||||0.005|TWO_SIDED|95.0|-1.99|-0.35||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.35|-1.99|0.005
82466934|NCT04607005|164629626|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.004|TWO_SIDED|95.0|-2.02|-0.4||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.40|-2.02|0.004
82466935|NCT04607005|164629627|SUPERIORITY||Mean Difference (Final Values)|-10.63||||0.01|TWO_SIDED|95.0|-18.68|-2.57||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-2.57|-18.68|0.010
82466936|NCT04607005|164629628|SUPERIORITY||Mean Difference (Final Values)|-11.39||||0.004|TWO_SIDED|95.0|-19.19|-3.6||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-3.60|-19.19|0.004
82466937|NCT04607005|164629629|SUPERIORITY||Mean Difference (Final Values)|-0.82||||0.009|TWO_SIDED|95.0|-1.43|-0.21||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.21|-1.43|0.009
82466938|NCT04607005|164629630|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.004|TWO_SIDED|95.0|-1.49|-0.28||p-Value was based on a mixed model repeated measures (MMRM) Model.|Mixed Models Analysis|||||-0.28|-1.49|0.004
82466939|NCT04607005|164629631|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.026|TWO_SIDED|95.0|0.26|0.92||p-Value was based on Cox Proportional Hazards Model.|Cox proportional hazards model|||||0.92|0.26|0.026
82466940|NCT04607005|164629632|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.018|TWO_SIDED|95.0|0.25|0.88||p-Value was based on Cox Proportional Hazards Model.|Cox proportional hazards model|||||0.88|0.25|0.018
82466941|NCT04944992|164629642|SUPERIORITY||Difference in least squared means|30.4|||<|0.0001|TWO_SIDED|90.0|22.1|38.7|||Mixed Models Analysis|||||38.7|22.1|<0.0001
82466942|NCT04944992|164629643|OTHER|Difference (Efinopegdutide - Semaglutide) in %|difference in percentage|16.3||||||95.0|3.5|29.1||||||||29.1|3.5|
82650506|NCT01271933|165016201|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.6914|TWO_SIDED|95.0|-1.6|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||HADS-D Depression scale||1.0|-1.6|0.6914
82466943|NCT04944992|164629644|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in percentage|5.6||||||95.0|0.4|13.5||||||||13.5|0.4|
82466944|NCT04944992|164629645|SUPERIORITY||Difference in least squared means|6.1|||<|0.001|TWO_SIDED|90.0|4.6|7.7|||Mixed Models Analysis|||||7.7|4.6|<0.001
82466945|NCT04944992|164629646|SUPERIORITY||Difference in Least Squared Means|-1.4||||0.085|TWO_SIDED|90.0|-2.7|-0.1|||Mixed Models Analysis|||||-0.1|-2.7|0.085
82466946|NCT04944992|164629647|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in Least Squared Means|-7.2|||||TWO_SIDED|90.0|-11.2|-3.1||||||||-3.1|-11.2|
82466947|NCT04944992|164629648|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-5.7||||||90.0|-10.9|-0.6||||||||-0.6|-10.9|
82466948|NCT04944992|164629649|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-11.7||||||90.0|-15.8|-7.7||||||||-7.7|-15.8|
82466949|NCT04944992|164629650|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-6.1||||||90.0|-12.0|-0.1||||||||-0.1|-12.0|
82466950|NCT04944992|164629651|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-7.6|||||TWO_SIDED|90.0|-14.3|-0.9||||||||-0.9|-14.3|
82466951|NCT04944992|164629652|OTHER|Difference (Efinopegdutide - Semaglutide) in %|Difference in least squared means|-5.4|||||TWO_SIDED|90.0|-10.4|-0.4||||||||-0.4|-10.4|
82466952|NCT00303069|164629654|SUPERIORITY_OR_OTHER||Risk Difference (RD)|84.5|||<|0.001|TWO_SIDED|95.0|65.2|93.6||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 90 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||93.6|65.2|<0.001
82650507|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.41||0.3721|TWO_SIDED|95.0|-0.5|1.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 1: Physical activities||1.2|-0.5|0.3721
82466953|NCT00303069|164629654|SUPERIORITY_OR_OTHER||Risk Difference (RD)|81.6|||<|0.01|TWO_SIDED|95.0|61.6|92.0||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 30 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||92.0|61.6|<0.01
82466954|NCT00303069|164629654|SUPERIORITY_OR_OTHER||Risk Difference (RD)|25.0|||<|0.001|TWO_SIDED|95.0|6.7|43.8||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 5 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||43.8|6.7|<0.001
82466955|NCT00303069|164629655|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.9|||<|0.001|TWO_SIDED|95.0|17.2|48.3||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 90 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||48.3|17.2|<0.001
82466956|NCT00303069|164629655|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.4|||<|0.001|TWO_SIDED|95.0|1.6|32.1||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 30 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||32.1|1.6|<0.001
82466957|NCT00303069|164629655|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.5|||<|0.001|TWO_SIDED|95.0|-8.2|16.9||P-value \< 0.025 considered significant.|Chi-squared|Normal approximation for testing 2 independent binomial proportions, stratified by age group (\<40 yrs, ≥40 yrs)|Risk Difference is 5 μg minus Placebo and is expressed in percentage points, confidence intervals were computed using the stratified method given by Miettinen and Nurminen|Testing was performed in a sequential manner. First, the response rate of the 90-μg group was compared to placebo and assessed for significance (using a 1-tailed α=0.025). If significant, the response rate of the 30-μg group was compared to placebo and assessed for significance. The testing continued sequentially until a non-significant result was observed or until all V710 groups had been compared with placebo.||16.9|-8.2|<0.001
82466958|NCT01972217|164629667|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.017|TWO_SIDED|95.0|0.438|0.969|||Log Rank|||The 1-sided p-value provides a test for rejecting the null hypothesis of no treatment effect versus the superiority alternative that patients on olaparib have a lower risk of progression compared with placebo.||0.969|0.438|0.017
82466959|NCT01972217|164629680|OTHER||Odds Ratio (OR)|0.813||||0.309|TWO_SIDED|95.0|0.285|2.261||The p value was calculated with a 1-sided significance level of 2.5%.|Regression, Logistic|||||2.261|0.285|0.309
82466960|NCT01972217|164629681|OTHER||Hazard Ratio (HR)|0.781||||0.095|TWO_SIDED|95.0|0.54|1.13||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||Olapatib + abiraterone versus placebo + abiraterone: TFST||1.130|0.540|0.095
82466961|NCT01972217|164629681|OTHER||Hazard Ratio (HR)|0.809||||0.147|TWO_SIDED|95.0|0.545|1.201||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||Olaparib + abiraterone versus placebo + abiraterone: TSST||1.201|0.545|0.147
82466962|NCT01972217|164629682|OTHER||Hazard Ratio (HR)|0.911||||0.331|TWO_SIDED|95.0|0.6|1.384||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||||1.384|0.600|0.331
82466963|NCT01972217|164629683|OTHER||Hazard Ratio (HR)|0.788||||0.14|TWO_SIDED|95.0|0.511|1.215||The p value was calculated with a 1-sided significance level of 2.5%.|Log Rank|||||1.215|0.511|0.140
82466964|NCT04328077|164629686|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|9.44||0.7755|TWO_SIDED|95.0|-16.1|21.5|||ANCOVA|||||21.5|-16.1|0.7755
82466965|NCT04328077|164629686|SUPERIORITY||Mean Difference (Final Values)|-12.66|STANDARD_ERROR_OF_MEAN|9.369||0.1798|TWO_SIDED|95.0|-31.3|5.9|||ANCOVA|||||5.9|-31.3|0.1798
82466966|NCT04328077|164629686|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|9.807||0.4229|TWO_SIDED|95.0|-27.4|11.6|||ANCOVA|||||11.6|-27.4|0.4229
82466967|NCT01456039|164629692|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Based on one sample binomial test for dichotomized response proportion against the null hypothesis ( H0 p≤0.1)|Binomial test for dichotomized response|||||||<0.0001
82466968|NCT00335777|164629717|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|2 sided McNemar test||||||0.289|TWO_SIDED|95.0|||||McNemar|2 sided McNemar||Null hypothesis: there is no difference in the proportion of subjects who were pain free when treating early, as compared to treating late.||||0.289
82546132|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
82546133|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
82650508|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.64||0.8084|TWO_SIDED|95.0|-1.1|1.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 2: Feel good||1.4|-1.1|0.8084
82650509|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35||0.6312|TWO_SIDED|95.0|-0.9|0.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 3: Work missed||0.5|-0.9|0.6312
82650510|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.57||0.8824|TWO_SIDED|95.0|-1.0|1.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 4: Do job||1.2|-1.0|0.8824
82650511|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.49||0.2742|TWO_SIDED|95.0|-1.5|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 5: Pain||0.4|-1.5|0.2742
82650512|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.852|TWO_SIDED|95.0|-0.8|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 6: Fatigue||1.0|-0.8|0.8520
82650513|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.55||0.5264|TWO_SIDED|95.0|-1.4|0.7||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 7: Rested||0.7|-1.4|0.5264
82650514|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.55||0.6601|TWO_SIDED|95.0|-1.3|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 8: Stiffness||0.9|-1.3|0.6601
82650515|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.56||0.8937|TWO_SIDED|95.0|-1.2|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 9: Anxiety||1.0|-1.2|0.8937
82546134|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
82650516|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.9151|TWO_SIDED|95.0|-1.0|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Item 10: Depression||0.9|-1.0|0.9151
82650517|NCT01271933|165016203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|3.91||0.9045|TWO_SIDED|95.0|-8.2|7.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the total score||7.3|-8.2|0.9045
82650518|NCT01271933|165016205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.31||0.4606|TWO_SIDED|95.0|-0.4|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: General Fatigue||0.9|-0.4|0.4606
82650519|NCT01271933|165016205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.37||0.4703|TWO_SIDED|95.0|-1.0|0.5||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Physical Fatigue||0.5|-1.0|0.4703
82650520|NCT01271933|165016205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.36||0.4009|TWO_SIDED|95.0|-0.4|1.0||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Reduced activity||1.0|-0.4|0.4009
82650521|NCT01271933|165016205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.35||0.0695|TWO_SIDED|95.0|-0.1|1.3||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Reduced motivation||1.3|-0.1|0.0695
82650522|NCT01271933|165016205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.5869|TWO_SIDED|95.0|-0.7|0.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Mental fatigue||0.4|-0.7|0.5869
82650523|NCT01271933|165016207|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.29||||0.0296|TWO_SIDED|95.0|1.09|4.81||Nominal p-value for two-sided test.|two-sided test|||This analysis is for the domain: Benefit from treatment||4.81|1.09|0.0296
82650524|NCT01271933|165016207|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.29||||0.4691|TWO_SIDED|95.0|0.64|2.61||Nominal p-value for two-sided test|two-sided test|||This analysis is for the domain: Satisfaction from treatment||2.61|0.64|0.4691
82650525|NCT01271933|165016207|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.9577|TWO_SIDED|95.0|0.48|2.01||Nominal p-value for two-sided test|two-sided test|||This analysis is for the domain: Willingness to continue treatment||2.01|0.48|0.9577
82466969|NCT00335777|164629718|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|2 sided McNemar test||||||1|||||||McNemar|2 sided McNemar test||Null hypothesis: there is no difference in the proportion of subjects who had pain relief when treating early, as compared to treating late.||||1.000
82466970|NCT02798627|164629719|SUPERIORITY||||||=|0.97|||||||Chi-squared|||||||=0.97
82546135|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
82650526|NCT01271933|165016209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.3|STANDARD_ERROR_OF_MEAN|9.85||0.0562|TWO_SIDED|95.0|-0.5|39.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Work Time Missed||39.2|-0.5|0.0562
82466971|NCT03821402|164629721|SUPERIORITY|||||||0.7645|||||||ANCOVA|||||||0.7645
82466972|NCT03821402|164629721|SUPERIORITY|||||||0.5509|||||||ANCOVA|||||||0.5509
82466973|NCT03821402|164629721|SUPERIORITY|||||||0.0488|||||||ANCOVA|||||||0.0488
82466974|NCT03821402|164629722|SUPERIORITY|||||||0.3698|||||||ANCOVA|||||||0.3698
82466975|NCT03821402|164629722|SUPERIORITY|||||||0.1972|||||||ANCOVA|||||||0.1972
82466976|NCT03821402|164629722|SUPERIORITY|||||||0.2037|||||||ANCOVA|||||||0.2037
82466977|NCT03821402|164629727|SUPERIORITY|||||||0.4324|||||||ANCOVA|||||||0.4324
82466978|NCT03821402|164629727|SUPERIORITY|||||||0.3893|||||||ANCOVA|||||||0.3893
82466979|NCT03821402|164629727|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82466980|NCT03821402|164629728|SUPERIORITY|||||||0.0562|||||||ANCOVA|||||||0.0562
82466981|NCT03821402|164629728|SUPERIORITY|||||||0.015|||||||ANCOVA|||||||0.0150
82466982|NCT03821402|164629728|SUPERIORITY|||||||0.0092|||||||ANCOVA|||||||0.0092
82466983|NCT02851615|164629740|SUPERIORITY|Power analyses were calculated on the PAM-13, our primary outcome measure. Analyses were conducted using the internal Monte Carlo simulation capabilities of Mplus (Version 1.20). Based on the effect size obtained from published pilot data, we expected the change in baseline/posttreatment Behavioral Activation for the SCThrive intervention group to be n2 = .14 (large effect). Based on these assumptions, the desired sample size was 54 participants (N = 27 per group) to achieve power of .80.|Mean Difference (Net)|7.75|STANDARD_ERROR_OF_MEAN|13.14||0.09|TWO_SIDED|95.0|-1.27|19.22||The threshold for statistical significance was p =.05|ANCOVA|||We conducted separate mixed ANOVA analyses to assess for the effects of group (SCThrive/SCHealthEd), time (baseline/post-treatment), and group x time interaction for the PAM-13.||19.22|-1.27|.09
82466984|NCT02851615|164629741|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.55||0.28|TWO_SIDED|95.0|-0.19|0.66||The threshold for significance was p =.05|ANCOVA|||We conducted separate mixed ANOVA analyses to assess for the effects of group (SCThrive/SCHealthEd), time (baseline/post-treatment), and group x time interaction for the TRAQ-5||.66|-.19|.28
82466985|NCT02851615|164629742|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.13||0.27|TWO_SIDED|95.0|-0.018|0.06||The threshold for statistical significance was p =.05|t-test, 2 sided|||We conducted a paired-samples t-test to assess for the effects of time (baseline/post-treatment) for participants (n=16) in the SCThrive intervention arm for the UNC TRxANSITION Scale.||.06|-.018|.27
82466986|NCT00313014|164629743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.163|<|0.001|TWO_SIDED|95.0|-0.99|-0.35||P value was 2-sided and performed at the 5% error level.|Mixed Models Analysis|Repeated measures mixed linear model with treatment, time, and time by treatment interaction as fixed effects.||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.35|-0.99|<.001
82650527|NCT01271933|165016209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|3.96||0.7892|TWO_SIDED|95.0|-7.0|9.2||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Impairment While Working||9.2|-7.0|0.7892
82466987|NCT00313014|164629743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.161|<|0.001|TWO_SIDED|95.0|-1.07|-0.44||P value was 2-sided and performed at the 5% error level.|Mixed Models Analysis|Repeated measures mixed linear model with treatment, time, and time by treatment interaction as fixed effect.||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.44|-1.07|<.001
82466988|NCT00313014|164629744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.006|TWO_SIDED|95.0|-0.9|-0.13||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||The analysis was based on the number of subjects who took \> 1 tablet of supplemental analgesia.|The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.13|-0.90|.006
82466989|NCT00313014|164629744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.158|TWO_SIDED|95.0|-0.7|0.09||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|ANCOVA||The analysis was based on the number of subjects who took \> 1 tablet of supplemental analgesia.|The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||0.09|-0.70|.158
82466990|NCT00313014|164629745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.065|TWO_SIDED|95.0|-3.55|0.11||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||0.11|-3.55|.065
82466991|NCT00313014|164629745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.031||95.0|-3.79|-0.18||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-0.18|-3.79|.031
82500018|NCT00563381|164690661|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-1.1||||0.2682||95.0|-3.05|0.85|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||0.85|-3.05|0.2682
82500019|NCT00563381|164690662|SUPERIORITY_OR_OTHER||difference in peak expiratory flow rates|-0.59||||0.552||95.0|-2.55|1.36|||Mixed Effects Repeated Measures Model|MMRM (fixed terms: treatment, centre, week, treatment\*week; covariates: baseline PEFR, baseline PEFR\*week)||Tiotropium versus Salmeterol||1.36|-2.55|0.5520
82466992|NCT00313014|164629746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23|STANDARD_ERROR_OF_MEAN|1.735|<|0.001|TWO_SIDED|95.0|-9.64|-2.82||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|Mixed linear model: treatment, time as fixed effects, screening, prerandomization sleep disturbance subscale as covariates; subject as a random effect||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that the BTDS 20 arm was different from the BTDS 5 arm.||-2.82|-9.64|<.001
82466993|NCT00313014|164629746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.65|STANDARD_ERROR_OF_MEAN|1.709||0.121||95.0|-6.01|0.7||To address the issue of multiplicity and control the family-wise error rate, a gate-keeping strategy and a stepwise approach (Holm's methodology) were used to evaluate the statistical significance of the secondary efficacy analyses.|Mixed Models Analysis|||The null hypothesis was that there was no difference between BTDS 20 or oxycodone HCl immediate-release 40 mg with respect to BTDS 5. The alternative hypothesis was that BTDS 20 arm was different from the BTDS 5 arm.||0.70|-6.01|.121
82466994|NCT02345070|164629775|SUPERIORITY|The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|Least Square (LS) Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.05|=|0.6339|TWO_SIDED|95.0|-2.56|1.56||Threshold for significance at 0.05 level.|Mixed Models Analysis||SAR156597 200mg qw versus Placebo qw|A hierarchical testing procedure was used to control type I error. Testing was done sequentially in order the outcome measures were reported. Analyzed using Mixed Model for Repeated Measurements (MMRM) with fixed categorical effects of treatment arm, stratification factor (with/without background therapy), time point, treatment-by-time point interaction, stratification factor-by-treatment-by-time point interaction, and continuous fixed covariate of percent predicted FVC baseline.||1.56|-2.56|= 0.6339
82466995|NCT02345070|164629775|SUPERIORITY|The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.|LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.04|=|0.5874|TWO_SIDED|95.0|-1.47|2.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||SAR156597 200mg q2w versus Placebo qw|A hierarchical testing procedure was used to control type I error. Testing was performed sequentially in the order outcome measures were reported (q2w dose group compared to placebo). Analysis was performed using MMRM with fixed categorical effects of treatment arm, stratification factor (with/without background therapy), time point, treatment-by-time point interaction, stratification factor-by-treatment-by-time point interaction, and continuous fixed covariate of percent predicted FVC baseline.||2.6|-1.47|= 0.5874
82466996|NCT03081117|164629779|SUPERIORITY|||||||0.669|||||||Fisher Exact|||Analysis of Enrolled group.||||0.669
82466997|NCT03081117|164629780|SUPERIORITY||Mean Difference (Net)|-0.3914||||0.0366|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 14||Analysis for Intent-to-Treat group.||||0.0366
82466998|NCT03081117|164629780|SUPERIORITY||Mean Difference (Net)|-0.5146||||0.0103|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 12||Analysis for Per Protocol group.||||0.0103
82466999|NCT03081117|164629783|SUPERIORITY||||||>|0.25||||||The threshold for statistical significance was p = 0.05.|Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
82467000|NCT03081117|164629784|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
82467001|NCT03081117|164629785|SUPERIORITY||Unstandardized beta coefficient|-0.32|STANDARD_ERROR_OF_MEAN|0.27||0.244|TWO_SIDED||||||Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||0.244
82467002|NCT03081117|164629786|SUPERIORITY||||||>|0.25||||||The threshold for statistical significance was p = 0.05.|Wald test, two-sided|||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
82467003|NCT03081117|164629787|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
82467004|NCT03081117|164629788|SUPERIORITY||||||>|0.25|||||||Wald test, two-sided|The threshold for statistical significance was p = 0.05.||Comparisons of change from W0 to W24 between treatment and placebo are based on a mixed effects regression model using a two-sided Wald test of the interaction term for treatment and time.||||>0.25
82467005|NCT03081117|164629789|SUPERIORITY||Mean Difference (Net)|0.0031351||||0.366|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 13||Analysis for All Available group (participants who had both Baseline and Week 24 scans).||||0.366
82467006|NCT03081117|164629789|SUPERIORITY||Mean Difference (Net)|0.0025586||||0.505|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees fo freedom = 10||Analysis for Per Protocol group.||||0.505
82467007|NCT03081117|164629790|SUPERIORITY||Mean Difference (Net)|0.00000061||||0.98|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 13||Analysis for All Available group (participants who had both Baseline and Week 24 scans).||||0.98
82467008|NCT03081117|164629790|SUPERIORITY||Mean Difference (Net)|-0.0000054||||0.86|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of freedom = 10||Analysis for Per Protocol group.||||0.86
82467009|NCT03829228|164629792|SUPERIORITY||Mean Difference (Net)|1.31|||<|0.0001|TWO_SIDED|95.0|0.62|2.01||The threshold for statistical significance was p=0.01|ANOVA||Treatment Difference= Visit5-Baseline|||2.01|0.62|<0.0001
82467010|NCT03829228|164629793|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significance was p=0.01|Regression, Logistic|||||||<0.0001
82467011|NCT03829228|164629794|SUPERIORITY||Mean Difference (Net)|1.31|||<|0.0001|TWO_SIDED|95.0|0.64|1.98||The threshold for statistical significance was p=0.01|ANOVA||Treatment difference=Visit5-Baseline|||1.98|0.64|<0.0001
82467012|NCT03829228|164629795|SUPERIORITY||||||<|0.0001||||||The threshold for statistical significant was p=0.01.|Regression, Logistic|||||||<0.0001
82467013|NCT00408317|164629796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.74|||<|0.0001|||||||Mixed Models Analysis|||P-values are from a semi-parametric mixed model on ranked CFA% values including sequence, period, and treatment group as fixed effects; participant identification (ID) as random effect.||||<0.0001
82467014|NCT00408317|164629797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.68|||<|0.0001|||||||Mixed Models Analysis|||P-values are from a semi-parametric mixed model on ranked CNA% values including sequence, period, and treatment group as fixed effects, and participant ID as random effect.||||<0.0001
82467015|NCT04723056|164629822|OTHER|||||||0.282||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||0.282
82467016|NCT04723056|164629823|OTHER|||||||0.217||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||0.217
82467017|NCT04723056|164629824|OTHER|||||||0.462||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||0.462
82467018|NCT04723056|164629824|OTHER|||||||0.179||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||0.179
82467019|NCT04723056|164629825|OTHER|||||||0.573||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||.573
82467020|NCT04723056|164629825|OTHER|||||||0.606||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.606
82467021|NCT04723056|164629826|OTHER|||||||0.181||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.181
82467022|NCT04723056|164629827|OTHER|||||||0.407||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.407
82467023|NCT04723056|164629828|OTHER|||||||0.643||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.643
82467024|NCT04723056|164629829|OTHER|||||||0.625||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 8||||.625
82467025|NCT04723056|164629829|OTHER|||||||0.707||||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Between-group analysis at week 24||||.707
82467026|NCT05106894|164629831|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-7.4|5.5||||||||5.5|-7.4|
82467027|NCT05106894|164629832|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Median Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-8.3|3.6||||||||3.6|-8.3|
82467028|NCT05106894|164629833|EQUIVALENCE|Adjusted difference between groups in composite scores calculated using an ordinary least squares linear regression model (with adjustments for sex of child, caregiver educational level, poverty score, birth weight and change in length for age Z score from 0 to 6 months).|Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-5.6|2.1||||||||2.1|-5.6|
82467029|NCT04196777|164629859|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 3. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|0.089||||0.004|TWO_SIDED|95.0|0.016|0.445|||Regression, Logistic|||To model the primary outcome for site 3, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||0.445|0.016|0.004
82467030|NCT04196777|164629859|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 1. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|1.593||||0.259|TWO_SIDED|95.0|0.71|3.585|||Regression, Logistic|||To model the primary outcome for site 1, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||3.585|0.710|0.259
82467031|NCT04196777|164629859|OTHER|We performed a logistic regression analysis that measured the effect of the intervention at site 2. The below results show the interaction term between time and the intervention from this model. Time was measured in days divided by 365, giving an annualized figure for the time coefficient estimate and interaction coefficient.|Odds Ratio (OR)|0.748||||0.738|TWO_SIDED|95.0|0.135|4.147|||Regression, Logistic|||To model the primary outcome for site 2, we used a logistic regression model and a set of three explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, and an interaction term between these two main effects (time and intervention).||4.147|0.135|0.738
82467032|NCT04196777|164629860|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 3 between the baseline and intervention periods.|Rank sum test statistic|1280.5||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 3 were compared using the Wilcoxon rank-sum test.||||0.001
82467033|NCT04196777|164629860|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 1 between the baseline and intervention periods.|Rank sum test statistic|28662.0||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 1 were compared using the Wilcoxon rank-sum test.Type of statistical test||||0.013
82467034|NCT04196777|164629860|OTHER|The Wilcoxon rank-sum test assessed whether the post-procedural antimicrobial duration significantly differed at site 2 between the baseline and intervention periods.|Rank sum test statistic|784.0||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The median duration of post-procedural antimicrobial prescriptions at site 2 were compared using the Wilcoxon rank-sum test.||||0.14
82467035|NCT04196777|164629861|OTHER|We performed a logistic regression model that included patients across all 3 sites.|Odds Ratio (OR)|0.76||||0.04|TWO_SIDED|95.0|0.58|0.99|||Regression, Logistic|||To model this secondary outcome, we used a logistic regression model and a set of four explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, an interaction term between these two main effects (time and intervention), and a binary indicator for the primary outcome. This last variable was included to assess the risk of these secondary outcomes in patients who were not exposed to post-procedural antimicrobials compared to those who were exposed.||0.99|0.58|0.04
82467036|NCT04196777|164629862|OTHER|We performed a logistic regression model that included patients across all 3 sites.|Odds Ratio (OR)|0.68|||<|0.01|TWO_SIDED|95.0|0.53|0.87|||Regression, Logistic|||To model this secondary outcome across all sites, we used a logistic regression model and a set of four explanatory variables: time, a binary indicator for an observation occurring within the intervention phase, an interaction term between these two main effects (time and intervention), and a binary indicator for the primary outcome.||0.87|0.53|<0.01
82467037|NCT00981656|164629866|OTHER|No testing is done, conclusions are made based on the confidence interval.||||||||||||||||Null hypothesis = this treatment will result in 75% of participants free from radical cystectomy at 3 years. A lower confidence bound of 60% will be promising enough to pursue this regimen further. A sample size of 33 analyzable patients provides a one-sided 97.5% lower bound of 60% relative to the hypothesized 75%. In terms of type I error, this design provides a 2.5% chance of observing a 3-year percentage less than 60% if the true rate is 75%.|If the lower confidence interval (CI) limit was above 60% then the regimen would be considered promising enough to warrant further study for this treatment regimen. If the lower limit was below 25% then the treatment would not be considered worthy of further study. If the lower limit fell between 25% and 60%, the investigators would consider the possibility of further investigation.|||
82467038|NCT01709721|164629890|SUPERIORITY|||||||0.147|||||||Chi-squared|Pearson's chi-square test||Superiority of intrathecal hydromorphone hydrochloride as compared to a control arm.||||0.147
82467039|NCT01709721|164629891|SUPERIORITY|||||||0.0342|||||||ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0342
82467040|NCT01709721|164629892|SUPERIORITY|||||||0.1642|||||||ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.1642
82467041|NCT01709721|164629893|SUPERIORITY|||||||0.016|||||||ANCOVA|ANCOVA, with randomization group as the factor and initial parameter value as covariate.||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0160
82467042|NCT01709721|164629894|SUPERIORITY|||||||0.0007|||||||ANCOVA|ANCOVA, with randomization group as the factor and initial parameter value as covariate.||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0007
82467043|NCT01709721|164629895|SUPERIORITY|||||||0.0088||||||ANCOVA, with randomization group as the factor and initial parameter value as covariate.|ANCOVA|||"P-value by ANCOVA, with randomization group as the factor and initial parameter value as covariate.~Note: For subjects with missing endpoint on Day 119, value is imputed using the Last Observation Carried Forward (LOCF).~Note: Baseline for this analysis is the Day 84 visit."||||0.0088
82467044|NCT01709721|164629896|SUPERIORITY|||||||0.011||||||Log-rank test for Kaplan-Meier Estimate of Time to Rescue (days).|Log Rank|||||||0.011
82467045|NCT01709721|164629897|SUPERIORITY|||||||0.0335|||||||Cochran-Mantel-Haenszel|||P-value by the Cochran-Mantel-Haenszel mean score test (using equally spaced scores).||||0.0335
82467046|NCT01709721|164629899|SUPERIORITY|Pearson's chi-square test||||||0.01||||||Pearson's chi-square test|Chi-squared|||||||0.010
82467047|NCT00423579|164629933|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-14.5||||0||95.0|-18.9|-10.1|||Student's t test for independent data||Difference in percentage change in mean LDL-C values (change from baseline to week 6) between the two treatment groups. (Ezetimibe \[EZ\]/Simvastatin \[S\] \[10/20mg\] + S \[placebo\] group minus the EZ/S \[10mg/placebo\] + S \[40mg\] group)|||-10.1|-18.9|0.0000
82467048|NCT02392637|164629934|SUPERIORITY|||||||0.62|||||||Log Rank|||||||0.62
82467049|NCT02392637|164629935|SUPERIORITY|||||||0.39|||||||Log Rank|||||||0.39
82467050|NCT03697252|164629971|SUPERIORITY||LS mean difference|-11.56|||<|0.0001|TWO_SIDED|95.0|-16.07|-7.05|||Mixed model for repeated measures||||Statistics are from a mixed model for repeated measures (MMRM). The model includes the treatment group (KarXT or placebo), visit, and the interaction between the treatment group and visit as fixed factors, and baseline PANSS total score, site, age, and gender as covariates. An unstructured covariance matrix is used to model the correlation among repeated measurements and the denominator degrees of freedom are computed using the Kenward-Roger method.|-7.05|-16.07|<0.0001
82467051|NCT03697252|164629973|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of KarXT and Placebo at Week 5||||<0.001
82467052|NCT00106704|164629993|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-90.0|-0.57|||ANCOVA|Model terms: treatment, stratum (on metformin or not), baseline A1C||||-0.57|-90.0|<0.001
82467053|NCT00106704|164629994|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.1|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-28.4|-11.8|||ANCOVA|Model terms: treatment, stratum (on metformin or not at Visit 3), baseline A1C||||-11.8|-28.4|<0.001
82467054|NCT01780506|164629995|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the E/C/F/TAF group was ≥ 12% worse than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48; alternative hypothesis: the E/C/F/TAF group was \< 12% worse than the E/C/F/TDF group.|Difference in percentages|0.5||||0.78|TWO_SIDED|95.002|-3.0|4.0||P-value was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL) and region (US vs ex-US).|Cochran-Mantel-Haenszel||The difference in percentages and its 95.002% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA and region stratum.|||4.0|-3.0|0.78
82467055|NCT03486912|164630032|SUPERIORITY||Odds Ratio (OR)|0.88||||0.773|TWO_SIDED|95.0|0.3|2.62|||Cochran-Mantel-Haenszel|||||2.62|0.30|0.773
82467056|NCT03486912|164630032|SUPERIORITY||Odds Ratio (OR)|0.72||||0.544|TWO_SIDED|95.0|0.23|2.23|||Cochran-Mantel-Haenszel|||||2.23|0.23|0.544
82467057|NCT03486912|164630032|SUPERIORITY||Odds Ratio (OR)|0.88||||0.811|TWO_SIDED|95.0|0.3|2.62|||Cochran-Mantel-Haenszel|||||2.62|0.30|0.811
82467058|NCT03486912|164630033|SUPERIORITY||Odds Ratio (OR)|1.12||||0.836|TWO_SIDED|95.0|0.4|3.09|||Cochran-Mantel-Haenszel|||||3.09|0.40|0.836
82467059|NCT03486912|164630033|SUPERIORITY||Odds Ratio (OR)|0.86||||0.763|TWO_SIDED|95.0|0.3|2.46|||Cochran-Mantel-Haenszel|||||2.46|0.30|0.763
82467060|NCT03486912|164630033|SUPERIORITY||Odds Ratio (OR)|0.89||||0.821|TWO_SIDED|95.0|0.32|2.51|||Cochran-Mantel-Haenszel|||||2.51|0.32|0.821
82467061|NCT03486912|164630034|SUPERIORITY||Odds Ratio (OR)|1.13||||0.837|TWO_SIDED|95.0|0.39|3.25|||Cochran-Mantel-Haenszel|||||3.25|0.39|0.837
82467062|NCT03486912|164630034|SUPERIORITY||Odds Ratio (OR)|1.53||||0.359|TWO_SIDED|95.0|0.54|4.4|||Cochran-Mantel-Haenszel|||||4.40|0.54|0.359
82467063|NCT03486912|164630034|SUPERIORITY||Odds Ratio (OR)|1.26||||0.627|TWO_SIDED|95.0|0.44|3.61|||Cochran-Mantel-Haenszel|||||3.61|0.44|0.627
82467064|NCT03486912|164630035|SUPERIORITY||Odds Ratio (OR)|1.12||||0.864|TWO_SIDED|95.0|0.4|3.16|||Cochran-Mantel-Haenszel|||||3.16|0.40|0.864
82467065|NCT03486912|164630035|SUPERIORITY||Odds Ratio (OR)|0.85||||0.743|TWO_SIDED|95.0|0.29|2.49|||Cochran-Mantel-Haenszel|||||2.49|0.29|0.743
82467066|NCT03486912|164630035|SUPERIORITY||Odds Ratio (OR)|0.79||||0.63|TWO_SIDED|95.0|0.27|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.27|0.630
82467067|NCT03486912|164630036|SUPERIORITY||Odds Ratio (OR)|1.43||||0.477|TWO_SIDED|95.0|0.48|4.25|||Cochran-Mantel-Haenszel|||||4.25|0.48|0.477
82467068|NCT03486912|164630036|SUPERIORITY||Odds Ratio (OR)|1.04||||0.814|TWO_SIDED|95.0|0.32|3.44|||Cochran-Mantel-Haenszel|||||3.44|0.32|0.814
82467069|NCT03486912|164630036|SUPERIORITY||Odds Ratio (OR)|0.64||||0.367|TWO_SIDED|95.0|0.21|1.93|||Cochran-Mantel-Haenszel|||||1.93|0.21|0.367
82467070|NCT03486912|164630037|SUPERIORITY|||||||0.309|||||||Cochran-Mantel-Haenszel|||||||0.309
82546136|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
82467071|NCT03486912|164630037|SUPERIORITY|||||||0.146|||||||Cochran-Mantel-Haenszel|||||||0.146
82467072|NCT03486912|164630037|SUPERIORITY|||||||0.317|||||||Cochran-Mantel-Haenszel|||||||0.317
82467073|NCT03486912|164630038|SUPERIORITY||Odds Ratio (OR)|6.91||||0.054|TWO_SIDED|95.0|0.76|325.97|||Cochran-Mantel-Haenszel|||||325.97|0.76|0.054
82467074|NCT03486912|164630038|SUPERIORITY||Odds Ratio (OR)|12.21||||0.004|TWO_SIDED|95.0|1.5|549.08|||Cochran-Mantel-Haenszel|||||549.08|1.50|0.004
82467075|NCT03486912|164630038|SUPERIORITY||Odds Ratio (OR)|5.59||||0.087|TWO_SIDED|95.0|0.57|271.11|||Cochran-Mantel-Haenszel|||||271.11|0.57|0.087
82467076|NCT00412984|164630041|SUPERIORITY|With an average 2.1 years follow-up and assuming a stroke rate of 1.20 per hundred patient-years, \~18,000 randomized subjects allocated in a 1:1 ratio to apixaban or warfarin group would be needed to achieve the desired power. These calculations assumed an incidence of 1% loss to follow-up. Non-inferiority for the primary efficacy endpoint will be assessed first. If non-inferiority (using a NI margin of 1.38) is demonstrated then, superiority for the primary efficacy endpoint will be tested|Hazard Ratio (HR)|0.79||||0.0114|TWO_SIDED|95.0|0.66|0.95||2-sided P-value for superiority test|Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status. (experienced, naïve).|apixaban / warfarin|With 448 subjects with confirmed strokes or systemic emboli, study would have at least 90% power to meet both regulatory definitions of non-inferiority described in the following: (1) the non-inferiority (NI) of apixaban relative to warfarin was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for relative risk (RR) was less than 1.38; (2) the NI of apixaban relative to warfarin was demonstrated if the upper bound of the two-sided 99% CI for RR was less than 1.44.||.95|.66|0.0114
82467077|NCT00412984|164630043|SUPERIORITY|"4 key objectives were tested using a closed testing procedure. NI for the primary efficacy will be tested 1st. If NI is demonstrated then~1. superiority for the primary efficacy will be tested~2. if superiority for the primary efficacy is~   1. not demonstrated, stop~  2. demonstrated, then superiority for MB will be tested~3. if superiority for MB is~   1. not demonstrated, stop~  2. demonstrated, then superiority for all cause death will be tested All tests will be done at 1-sided α = 0.025"|Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.6|0.8|||Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status.|apixaban / warfarin|||0.80|0.60|<.0001
82467078|NCT00412984|164630045|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0465|TWO_SIDED|95.0|0.8|1.0|||Cox Proportional Hazards Model|Model included treatment group as a covariate; stratified by investigative site and prior warfarin/vitamin K antagonist status.|apixaban / warfarin|"4 key objectives were tested using a closed testing procedure. NI for the primary efficacy will be tested 1st. If NI is demonstrated then~1. superiority for the primary efficacy will be tested~2. if superiority for the primary efficacy is~   1. not demonstrated, stop~  2. demonstrated, then superiority for MB will be tested~3. if superiority for MB is~   1. not demonstrated, stop~  2. demonstrated, then superiority for all cause death will be tested All tests will be done at 1-sided α = 0.025"||1.00|0.80|0.0465
82467079|NCT00412984|164630046|OTHER||Hazard Ratio (HR)|0.92||||0.422|TWO_SIDED|95.0|0.74|1.13||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Ischemic or Unspecified Stroke||1.13|0.74|0.4220
82467080|NCT00412984|164630046|OTHER||Hazard Ratio (HR)|0.51||||0.0006|TWO_SIDED|95.0|0.35|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Hemorrhagic Stroke||0.75|0.35|0.0006
82467081|NCT00412984|164630046|OTHER||Hazard Ratio (HR)|0.87||||0.702|TWO_SIDED|95.0|0.44|1.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Systemic Embolism||1.75|0.44|0.7020
82546137|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
82467082|NCT00412984|164630046|OTHER||Hazard Ratio (HR)|0.88||||0.372|TWO_SIDED|95.0|0.66|1.17||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Myocardial Infarction||1.17|0.66|0.3720
82467083|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / Major Bleeding||0.86|0.69|<.0001
82467084|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.89||||0.0192|TWO_SIDED|95.0|0.81|0.98||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / All-Cause Death||0.98|0.81|0.0192
82467085|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.85||||0.0002|TWO_SIDED|95.0|0.78|0.92||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / Major Bleeding / All-Cause Death||0.92|0.78|0.0002
82467086|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.88||||0.0107|TWO_SIDED|95.0|0.8|0.97||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Stroke / Systemic Embolism / MI / All-Cause Death||0.97|0.80|0.0107
82467087|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.9||||0.0432|TWO_SIDED|95.0|0.82|1.0||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Ischemic or Unspecified Stroke / All-Cause Death||1.00|0.82|0.0432
82467088|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.88||||0.0167|TWO_SIDED|95.0|0.79|0.98||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Hemorrhagic Stroke / All-Cause Death||0.98|0.79|0.0167
82467089|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.89||||0.0464|TWO_SIDED|95.0|0.8|1.0||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Systemic Embolism / All-Cause Death||1.00|0.80|0.0464
82467090|NCT00412984|164630047|OTHER||Hazard Ratio (HR)|0.89||||0.0253|TWO_SIDED|95.0|0.8|0.99||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite of Myocardial Infarction / All-Cause Death||0.99|0.80|0.0253
82467091|NCT00412984|164630049|OTHER||Hazard Ratio (HR)|0.8||||0.0098|TWO_SIDED|95.0|0.67|0.95||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazards Model||apixaban / warfarin|Composite Stroke/Systemic Embolism/Major Bleeding in Warfarin/Vitamin K Antagonist (VKA) Naive Participants||0.95|0.67|0.0098
82467092|NCT00412984|164630052|OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.61|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.75|0.61|<.0001
82467093|NCT00412984|164630054|OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.68|0.75||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.75|0.68|<.0001
82546138|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
82467094|NCT00412984|164630055|OTHER||Hazard Ratio (HR)|0.46|||<|0.0001|TWO_SIDED|95.0|0.35|0.6||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Severe GUSTO bleeding events||0.60|0.35|<.0001
82467095|NCT00412984|164630055|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.5|0.71||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Severe or Moderate GUSTO bleeding events||0.71|0.50|<.0001
82467096|NCT00412984|164630056|OTHER||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.7||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|Major TIMI bleeding event||0.70|0.46|<.0001
82467097|NCT00412984|164630056|OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.54|0.75|||Cox Proportional Hazard Model||apixaban / warfarin|Major or Minor TIMI bleeding criteria||0.75|0.54|<.0001
82467098|NCT00412984|164630058|OTHER||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.65|0.83||nominal two-sided p-value was associated with a test of H0: RR=1 vs H1: RR ≠ 1|Cox Proportional Hazard Model||apixaban / warfarin|||0.83|0.65|<.0001
82467099|NCT02435212|164630082|SUPERIORITY||Least squares mean|2.58|STANDARD_ERROR_OF_MEAN|2.803||0.3598|TWO_SIDED|95.0|-2.99|8.15|||ANCOVA|||||8.15|-2.99|0.3598
82467100|NCT02435212|164630083|SUPERIORITY||Least squares mean|176.36|STANDARD_ERROR_OF_MEAN|153.933||0.2546|TWO_SIDED|95.0|-129.0|481.72|||ANCOVA|||||481.72|-129.00|0.2546
82467101|NCT03518086|164630111|SUPERIORITY||Risk Difference (RD)|11.1||||6e-05|TWO_SIDED|99.875|3.2|19.1|||Cochran-Mantel-Haenszel|||||19.1|3.2|0.00006
82467102|NCT03518086|164630112|SUPERIORITY||Risk Difference (RD)|21.4|||<|1e-05|TWO_SIDED|99.875|10.8|32.0|||Cochran-Mantel-Haenszel|||||32.0|10.8|<0.00001
82467103|NCT03518086|164630113|SUPERIORITY||Risk Difference (RD)|15.4|||<|1e-05|TWO_SIDED|99.875|6.3|24.5|||Cochran-Mantel-Haenszel|||||24.5|6.3|<0.00001
82467104|NCT03518086|164630114|SUPERIORITY||Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|99.875|11.4|23.6|||Cochran-Mantel-Haenszel|||||23.6|11.4|<0.001
82467105|NCT03518086|164630115|SUPERIORITY||Risk Difference (RD)|20.2|||<|0.001|TWO_SIDED|95.0|13.8|26.6|||Cochran-Mantel-Haenszel|||||26.6|13.8|<0.001
82467106|NCT03518086|164630116|SUPERIORITY||Risk Difference (RD)|13.7|||<|0.001|TWO_SIDED|95.0|8.6|18.7|||Cochran-Mantel-Haenszel|||||18.7|8.6|<0.001
82467107|NCT03518086|164630117|SUPERIORITY||Risk Difference (RD)|19.5|||<|1e-05|TWO_SIDED|95.0|13.2|25.8|||Cochran-Mantel-Haenszel|||||25.8|13.2|<0.00001
82467108|NCT03518086|164630118|SUPERIORITY||Mean Difference (Net)|-0.95|STANDARD_ERROR_OF_MEAN|0.159|<|1e-05|TWO_SIDED|99.875|-1.47|-0.44|||Mixed Models Analysis||The confidence interval of 99.875 % was chosen to match the significance level.|||-0.44|-1.47|<0.00001
82467109|NCT03518086|164630119|SUPERIORITY||Mean Difference (Net)|13.21|STANDARD_ERROR_OF_MEAN|2.005|<|0.001|TWO_SIDED|95.0|9.28|17.15|||ANCOVA|||||17.15|9.28|<0.001
82546139|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
82467110|NCT03518086|164630120|SUPERIORITY||Mean Difference (Net)|-935.6|STANDARD_ERROR_OF_MEAN|218.09|<|0.001|TWO_SIDED|95.0|-1363.64|-507.55|||Mixed Models Analysis|||||-507.55|-1363.64|<0.001
82467111|NCT02711891|164630123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Paired Sample T-test|||||||0.8
82467112|NCT02711891|164630123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Paired Sample T-test|||||||.003
82467113|NCT02711891|164630123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82467114|NCT02711891|164630125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||t-test, 1 sided|||||||0.01
82467115|NCT02711891|164630125|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|0.05|||||Chi-squared|||||||.001
82467116|NCT02711891|164630127|SUPERIORITY_OR_OTHER_LEGACY|||||||0.876||||||Comparison of mean BPM during lance procedure for L1 vs L2 Loperamide.|t-test, 1 sided|||The population BPM lance one = population BPM mean lance two. Loperamide 1= Loperamide 2. Placebo 1=Placebo 2.||||.876
82467117|NCT02711891|164630127|SUPERIORITY_OR_OTHER_LEGACY|||||||0.085||||||Comparison of the mean between HR one and HR two during the procedure for lance one will equal the mean HR lance two following loperamide gel application.|ANOVA|df 16.||Mean HR during the procedure for lance one will equal mean HR lance two following loperamide gel applciation||||.085
82467118|NCT02677493|164630132|EQUIVALENCE|"All statistical significance testing was performed at a two-sided significance level (α) of 5%.~Exceptionally, non-inferiority was tested at a one-sided CI of 97.5%."||||||0.09135|||||||ANCOVA|||To evaluate if the seroconversion (SCR) and seroprotection (SPR) rates on Day 28 after vaccination of IL-YANG Quadrivalent Influenza Vaccine Inj. meet the following criteria in all age groups of healthy male and female adults at the age of 19 or older.||||0.09135
82467119|NCT02151058|164630141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.659|STANDARD_ERROR_OF_MEAN|0.0999|<|0.001|TWO_SIDED|95.0|-0.8559|-0.4622||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.4622|-0.8559|<0.001
82467120|NCT02151058|164630141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.993|STANDARD_ERROR_OF_MEAN|0.1005|<|0.001|TWO_SIDED|95.0|-1.1909|-0.7946||The significance threshold level was 0.05 (two-sided). Hypotheses were tested according to a hierarchical strategy.|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.7946|-1.1909|<0.001
82467121|NCT02151058|164630141|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.334|STANDARD_ERROR_OF_MEAN|0.0812|<|0.001|TWO_SIDED|95.0|-0.4937|-0.1737||The significance threshold level was 0.05 (two-sided). Hypotheses were tested according to a hierarchical strategy.|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1737|-0.4937|<0.001
82467122|NCT02151058|164630142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.286|STANDARD_ERROR_OF_MEAN|0.0809|<|0.001|TWO_SIDED|95.0|-0.445|-0.1263||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1263|-0.4450|<0.001
82467123|NCT02151058|164630142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.328|STANDARD_ERROR_OF_MEAN|0.0811|<|0.001|TWO_SIDED|95.0|-0.4877|-0.1679||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1679|-0.4877|<0.001
82467124|NCT02151058|164630142|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.0653||0.52|TWO_SIDED|95.0|-0.1709|0.0866||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0866|-0.1709|0.520
82467125|NCT02151058|164630143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.513|STANDARD_ERROR_OF_MEAN|0.0971|<|0.001|TWO_SIDED|95.0|-0.7043|-0.3217||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3217|-0.7043|<0.001
82467126|NCT02151058|164630143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.685|STANDARD_ERROR_OF_MEAN|0.0975|<|0.001|TWO_SIDED|95.0|-0.877|-0.4925||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.4925|-0.8770|<0.001
82467127|NCT02151058|164630143|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|STANDARD_ERROR_OF_MEAN|0.0786||0.03|TWO_SIDED|95.0|-0.3268|-0.0168||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0168|-0.3268|0.030
82467128|NCT02151058|164630144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.0369||0.026|TWO_SIDED|95.0|-0.1556|-0.0102||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0102|-0.1556|0.026
82467129|NCT02151058|164630144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.118|STANDARD_ERROR_OF_MEAN|0.0372||0.002|TWO_SIDED|95.0|-0.1917|-0.0451||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0451|-0.1917|0.002
82467130|NCT02151058|164630144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.035|STANDARD_ERROR_OF_MEAN|0.0297||0.234|TWO_SIDED|95.0|-0.094|0.0231||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0231|-0.0940|0.234
82467131|NCT02151058|164630145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.0568||0.002|TWO_SIDED|95.0|-0.2882|-0.0644||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0644|-0.2882|0.002
82467132|NCT02151058|164630145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.351|STANDARD_ERROR_OF_MEAN|0.0573|<|0.001|TWO_SIDED|95.0|-0.4638|-0.2378||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.2378|-0.4638|<0.001
82467133|NCT02151058|164630145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.0458|<|0.001|TWO_SIDED|95.0|-0.2648|-0.0841||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0841|-0.2648|<0.001
82467134|NCT02151058|164630146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|STANDARD_ERROR_OF_MEAN|0.0631|<|0.001|TWO_SIDED|95.0|-0.3713|-0.1226||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||Treatment and baseline value as covariates.||-0.1226|-0.3713|<0.001
82467135|NCT02151058|164630146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.498|STANDARD_ERROR_OF_MEAN|0.0638|<|0.001|TWO_SIDED|95.0|-0.6236|-0.3722||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3722|-0.6236|<0.001
82467136|NCT02151058|164630146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.0511|<|0.001|TWO_SIDED|95.0|-0.3516|-0.1503||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1503|-0.3516|<0.001
82467137|NCT02151058|164630147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.124|STANDARD_ERROR_OF_MEAN|0.0372||0.001|TWO_SIDED|95.0|-0.197|-0.0504||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0504|-0.1970|0.001
82467138|NCT02151058|164630147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.168|STANDARD_ERROR_OF_MEAN|0.0373|<|0.001|TWO_SIDED|95.0|-0.2413|-0.0941||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0941|-0.2413|<0.001
82467139|NCT02151058|164630147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.0301||0.145|TWO_SIDED|95.0|-0.1034|0.0152||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.0152|-0.1034|0.145
82467140|NCT02151058|164630148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.0497|<|0.001|TWO_SIDED|95.0|-0.3282|-0.1321||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1321|-0.3282|<0.001
82467141|NCT02151058|164630148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.313|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|95.0|-0.4113|-0.2141||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.2141|-0.4113|<0.001
82467142|NCT02151058|164630148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.083|STANDARD_ERROR_OF_MEAN|0.0404||0.042|TWO_SIDED|95.0|-0.1621|-0.0031||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.0031|-0.1621|0.042
82467143|NCT02151058|164630149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.275|STANDARD_ERROR_OF_MEAN|0.0543|<|0.001|TWO_SIDED|95.0|-0.382|-0.1679||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1679|-0.3820|<0.001
82467144|NCT02151058|164630149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.464|STANDARD_ERROR_OF_MEAN|0.0548|<|0.001|TWO_SIDED|95.0|-0.5724|-0.3565||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.3565|-0.5724|<0.001
82467145|NCT02151058|164630149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.0442|<|0.001|TWO_SIDED|95.0|-0.2767|-0.1023||The significance threshold level was 0.05 (two-sided).|ANCOVA|Treatment and baseline value as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.1023|-0.2767|<0.001
82467146|NCT00124943|164630151|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||0.396
82467147|NCT00124943|164630152|SUPERIORITY_OR_OTHER|||||||0.783||95.0|||||Fisher Exact|||Comparison of the number of patients with any treatment emergent adverse event. The statistical testing of treatment difference is for exploratory purposes.||||0.783
82467148|NCT00124943|164630153|SUPERIORITY_OR_OTHER|||||||0.293||95.0|||||Fisher Exact|||Comparison of in-stent binary restenosis. The statistical testing of treatment difference is for exploratory purposes.||||0.293
82467149|NCT00124943|164630153|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Fisher Exact|||Comparison of in-segment binary restenosis. The statistical testing of treatment difference is for exploratory purposes||||0.400
82467150|NCT00124943|164630154|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||>0.999
82467151|NCT00124943|164630155|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||Fisher Exact|||The statistical testing of treatment difference is for exploratory purposes.||||0.061
82467152|NCT00124943|164630156|SUPERIORITY_OR_OTHER|||||||0.709||95.0|||||Fisher Exact|||Comparison of in-stent late lumen loss. The statistical testing of treatment difference is for exploratory purposes.||||0.709
82467153|NCT00124943|164630156|SUPERIORITY_OR_OTHER|||||||0.495||95.0|||||Fisher Exact|||Comparison of in-segment late lumen loss. The statistical testing of treatment difference is for exploratory purposes.||||0.495
82467154|NCT00124943|164630157|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||ANOVA|P-value testing dose group differences based on an analysis of variance with dose effect in the model.||||||0.317
82467155|NCT02844569|164630165|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82650528|NCT01271933|165016209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.82||0.0819|TWO_SIDED|95.0|-0.4|6.8||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Activity Impairment||6.8|-0.4|0.0819
82650529|NCT01271933|165016209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.91||0.4135|TWO_SIDED|95.0|-2.2|5.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Percent Overall Work Impairment||5.4|-2.2|0.4135
82650530|NCT01271933|165016220|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1224|TWO_SIDED|95.0|-0.1|0.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.9|-0.1|0.1224
82650531|NCT01271933|165016221|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|4.06||0.768|TWO_SIDED|95.0|-9.3|6.9||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||6.9|-9.3|0.7680
82650532|NCT01271933|165016222|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.136|TWO_SIDED|95.0|-4.5|0.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||0.6|-4.5|0.1360
82650533|NCT01271933|165016223|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6489.5|STANDARD_ERROR_OF_MEAN|12579.5||0.6077|TWO_SIDED|95.0|-18648.6|31627.6||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||This analysis is for the domain: Total daytime activity||31627.6|-18648.6|0.6077
82650534|NCT01271933|165016224|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.38||0.6647|TWO_SIDED|95.0|-2.2|3.4||Estimates and p-values are from a ANCOVA main effects model with baseline value, center, treatment in the model.|ANCOVA|||||3.4|-2.2|0.6647
82650535|NCT01335464|165016242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|125.26|STANDARD_ERROR_OF_MEAN|24.209|<|0.0001|TWO_SIDED|95.0|77.68|172.84||The objective of this trial was to assess the superiority of nintedanib 150 mg bid compared to placebo on the annual rate of decline in FVC.|Random coefficient regression|The Roger-Kenward approximation was used to estimate denominators degrees of freedom.|"Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-components variance-covariance matrix~Nintedanib 150 mg bid versus Placebo"|"Random coefficient regression with fixed effects for treatment, gender, age, height and random effect of patient specific intercept and time.~A hierarchical procedure was used in order to demonstrate the superiority of nintedanib over placebo for one primary and two key secondary endpoints.~The consecutive steps of the hierarchy were only considered if the previous step was significant at the one-sided 2.5% level and the results were in favour of nintedanib."||172.84|77.68|<0.0001
82467156|NCT02844569|164630166|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||||||<0.01
82467157|NCT02844569|164630167|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82467158|NCT02443688|164630168|OTHER|Single Group Difference from Placebo Mean Change from Baseline with 95% confidence interval (CI)|Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|1.38|||TWO_SIDED|95.0|-1.34|4.12|||ANOVA|||||4.12|-1.34|
82467159|NCT02443688|164630168|OTHER|Single Group Difference from Placebo Mean Change from Baseline with 95% CI|Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|-3.78|1.64|||ANOVA|||||1.64|-3.78|
82467160|NCT02443688|164630168|SUPERIORITY|Difference from placebo of pooled arms (100mg CTX-4430 and 50mg CTX-4430) in change from baseline in ppFEV1 at Week 48.|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|1.2||0.45|TWO_SIDED|95.0|-2.2|2.5||0.1 alpha level (2-sided) prespecified|ANOVA|||||2.50|-2.20|0.45
82467161|NCT02443688|164630169|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.57|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.22|2.02|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.02|1.22|
82467162|NCT02443688|164630169|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.46|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|1.13|1.89|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.89|1.13|
82467163|NCT02443688|164630169|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.56|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|1.21|2.01|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.01|1.21|
82467164|NCT02443688|164630169|OTHER|Pooled Group Rate with 95% CI|see Estimation Comment below|1.51|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|1.26|1.81|||||Estimated using negative binomial distribution unadjusted for multiple comparisons.|||1.81|1.26|
82467165|NCT02443688|164630170|OTHER|95% 2-sided confidence interval for the Hazard Ratio relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.88|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.58|1.34|||Regression, Cox|||||1.34|0.58|
82467166|NCT02443688|164630170|OTHER|95% 2-sided confidence interval for the Hazard Ratio relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.86|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.56|1.31|||Regression, Cox|||||1.31|0.56|
82467167|NCT02443688|164630170|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.87|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.61|1.25|||Regression, Cox|||||1.25|0.61|
82650536|NCT01335464|165016243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.248||0.9657|TWO_SIDED|95.0|-2.5|2.4|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Total score, baseline SGRQ Total score-by-visit and random effect for patient.||2.40|-2.50|0.9657
82467168|NCT02443688|164630176|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|0.84|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|0.49|1.44|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.44|0.49|
82467169|NCT02443688|164630176|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.28|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|95.0|0.84|1.96|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.96|0.84|
82467170|NCT02443688|164630176|OTHER|Single Group Rate with 95% CI|see Estimation Comment below|1.61|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|1.07|2.42|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||2.42|1.07|
82467171|NCT02443688|164630176|OTHER|Group Rate with 95% CI|see Estimation Comment below|1.04|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.74|1.46|||||Estimated using negative binomial distribution by treatment group unadjusted for multiple comparisons.|||1.46|0.74|
82467172|NCT02443688|164630177|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.52|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|0.25|1.1|||Regression, Cox|||||1.10|0.25|
82467173|NCT02443688|164630177|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.62|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.3|1.27|||Regression, Cox|||||1.27|0.30|
82467174|NCT02443688|164630177|OTHER|95% 2-sided confidence interval for the Hazard Ratio Relative to Placebo unadjusted for multiple comparisons|Hazard Ratio (HR)|0.57|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.31|1.05|||Regression, Cox|||||1.05|0.31|
82467175|NCT03416985|164630215|OTHER|||||||0.1561||||||p \< 0.05 considered significant|ANOVA|||Compare groups with respect to plaque level after 30 days||||0.1561
82467176|NCT03416985|164630216|OTHER|||||||0.2161||||||p \< 0.05 considered significant|ANOVA|||Compare groups with respect to Gingival scores at 30 days||||0.2161
82467177|NCT02006472|164630217|SUPERIORITY||LSM difference|1.42||||0.3202|TWO_SIDED|95.0|-1.39|4.23|||Mixed Models Analysis|||||4.23|-1.39|0.3202
82650537|NCT01335464|165016244|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6728|TWO_SIDED|95.0|0.54|2.42|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard Ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||2.42|0.54|0.6728
82467178|NCT02006472|164630217|SUPERIORITY||LSM difference|1.7||||0.2266|TWO_SIDED|95.0|-1.06|4.46|||Mixed Models Analysis|||||4.46|-1.06|0.2266
82467179|NCT02006472|164630217|SUPERIORITY||LSM difference|0.66||||0.6348|TWO_SIDED|95.0|-2.07|3.39|||Mixed Models Analysis|||||3.39|-2.07|0.6348
82467180|NCT02006472|164630217|SUPERIORITY||LSM difference|2.04||||0.1447|TWO_SIDED|95.0|-0.71|4.8|||Mixed Models Analysis|||||4.8|-0.71|0.1447
82467181|NCT02006472|164630219|SUPERIORITY||LSM difference|0.87||||0.0032|TWO_SIDED|95.0|0.29|1.45|||Mixed Models Analysis|||||1.45|0.29|0.0032
82467182|NCT02006472|164630219|SUPERIORITY||LSM difference|0.11||||0.7042|TWO_SIDED|95.0|-0.46|0.68|||Mixed Models Analysis|||||0.68|-0.46|0.7042
82467183|NCT02006472|164630219|SUPERIORITY||LSM difference|0.19||||0.5099|TWO_SIDED|95.0|-0.37|0.75|||Mixed Models Analysis|||||0.75|-0.37|0.5099
82467184|NCT02006472|164630219|SUPERIORITY||LSM difference|0.24||||0.4061|TWO_SIDED|95.0|-0.33|0.82|||Mixed Models Analysis|||||0.82|-0.33|0.4061
82467185|NCT02006472|164630220|SUPERIORITY||LSM difference|1.16||||0.0003|TWO_SIDED|95.0|0.54|1.78|||Mixed Models Analysis|||||1.78|0.54|0.0003
82467186|NCT02006472|164630221|SUPERIORITY|||||||0.003|||||||Chi-squared|||||||0.003
82467187|NCT02006472|164630222|SUPERIORITY||LSM difference|-0.0341||||0.0346|TWO_SIDED|95.0|-0.0658|-0.0026|||Mixed Models Analysis|||At Week 26||-0.0026|-0.0658|0.0346
82467188|NCT02006472|164630222|SUPERIORITY||LSM difference|-0.0444||||0.0305|TWO_SIDED|95.0|-0.0847|-0.0042|||Mixed Models Analysis|||At Week 52||-0.0042|-0.0847|0.0305
82467189|NCT03137381|164630226|SUPERIORITY|||||||0.177|||||||Chi-squared|||||||0.177
82467190|NCT03137381|164630226|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82467191|NCT03137381|164630226|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82467192|NCT01684917|164630228|SUPERIORITY||||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
82467193|NCT01684917|164630228|SUPERIORITY||||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
82467194|NCT01684917|164630229|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
82467195|NCT01684917|164630230|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
82467196|NCT01684917|164630231|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
82467197|NCT01684917|164630231|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
82467198|NCT01684917|164630231|SUPERIORITY||||||<|0.05||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||Baseline vs 12 weeks||||<0.05
82650538|NCT01335464|165016245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|109.93|STANDARD_ERROR_OF_MEAN|19.708|<|0.0001|TWO_SIDED|95.0|71.27|148.59|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||148.59|71.27|<0.0001
82546140|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
82546141|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
82546142|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
82546143|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
82546144|NCT00567489|164791660|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
82546145|NCT00567489|164791661|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
82467199|NCT01684917|164630233|SUPERIORITY|"Statistical Analysis was performed only for the Diet Arm/Group"|||||<|0.05||||||calculated. The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance|t-test, 2 sided|||"Baseline vs 12 weeks. Statistical Analysis was performed only for the Diet Arm/Group."||||<0.05
82467200|NCT00459316|164630237|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||||||Two-sided p-value \<0.05 was specified as statistically significant a priori. There were no adjustments for multiple outcomes.|Fisher Exact|||The null hypothesis was that there would be no difference between CD4% strata.||||0.03
82467201|NCT00459316|164630238|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||||||Two sided-p-value \<0.05 was specified as statistically significant a priori. No adjustment for multiple primary outcomes was made.|Fisher Exact|||The null hypothesis was that there were no differences between CD4% strata.||||0.01
82467202|NCT03044106|164630268|SUPERIORITY||Mean Difference (Final Values)|3.825|STANDARD_DEVIATION|3.308759||0.0068|TWO_SIDED|95.0|1.058809|6.591192|||t-test, 2 sided|||This is the difference between pre and post KEA in those receiving the active treatment with a history of hamstring strain.||6.591192|1.058809|0.0068
82579346|NCT01882543|164869032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7||||0.005|TWO_SIDED|95.0|-4.6|-0.9||ICSI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.9|-4.6|0.005
82546146|NCT00567489|164791661|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
82546147|NCT00567489|164791662|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
82546148|NCT00567489|164791662|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
82546149|NCT00567489|164791663|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
82546150|NCT00567489|164791663|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
82546151|NCT00567489|164791664|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
82579347|NCT01882543|164869032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.014|TWO_SIDED|95.0|-4.5|-0.5||ICPI|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.5|-4.5|0.014
82467203|NCT03044106|164630268|SUPERIORITY||Median Difference (Final Values)|1.0|STANDARD_DEVIATION|3.431784||0.2185|TWO_SIDED|95.0|-1.869044|3.869044|||t-test, 2 sided|||This is the difference in pre /post KEA means after receiving the sham treatment in those with a history of hamstring strains.||3.869044|-1.869044|0.2185
82467204|NCT03044106|164630268|SUPERIORITY||Mean Difference (Final Values)|0.6638904|STANDARD_DEVIATION|3.450892||0.1281|TWO_SIDED|95.0|-0.5037233|1.831504|||t-test, 2 sided|||This is the difference in pre/post KEA means in those receiving the active treatment with no history of hamstring strain.||1.831504|-.5037233|0.1281
82467205|NCT03044106|164630268|SUPERIORITY||Mean Difference (Final Values)|2.688237|STANDARD_DEVIATION|3.241751||0|TWO_SIDED|95.0|1.557137|3.819337|||t-test, 2 sided|||This is the difference in pre/post KEA means in those receiving the sham treatment who have no history of hamstring strain.||3.819337|1.557137|0.00
82546152|NCT02178098|164791734|SUPERIORITY||Least squares mean difference|-24.24|STANDARD_ERROR_OF_MEAN|3.08|<|0.0001|TWO_SIDED|95.0|-30.33|-18.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-18.15|-30.33|<0.0001
82546153|NCT02178098|164791735|SUPERIORITY||Least squares mean difference|-1.64|STANDARD_ERROR_OF_MEAN|1.511||0.2808|TWO_SIDED|95.0|-4.62|1.35|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.35|-4.62|0.2808
82546154|NCT02178098|164791736|SUPERIORITY||Least squares mean difference|-1.05|STANDARD_ERROR_OF_MEAN|1.111||0.3461|TWO_SIDED|95.0|-3.25|1.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.15|-3.25|0.3461
82546155|NCT02178098|164791737|SUPERIORITY||Least squares mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.734||0.1852|TWO_SIDED|95.0|-5.74|1.12|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.12|-5.74|0.1852
82579348|NCT01882543|164869033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.592|TWO_SIDED|95.0|-6.3|3.6||Mental Component|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||3.6|-6.3|0.592
82579349|NCT01882543|164869033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5||||0.221|TWO_SIDED|95.0|-1.6|6.7||Physical Component|ANCOVA|||Analyses of the secondary variable was based on observed data without imputation.||6.7|-1.6|0.221
82467206|NCT03044106|164630268|SUPERIORITY||Mean Difference (Final Values)|2.825||||0.09|TWO_SIDED|95.0|-0.4543|6.0581|||Mixed Models Analysis|||This is the mean difference in effect between active and sham in those with a history of hamstring strain||6.0581|-0.4543|0.090
82467207|NCT03044106|164630268|SUPERIORITY||Mean Difference (Final Values)|-2.024||||0.018|TWO_SIDED|95.0|-3.4474|-0.3406|||Mixed Models Analysis|||This is the mean difference of effect between active and sham in those without a history of hamstring strain.||-0.3406|-3.4474|0.018
82467208|NCT05179785|164630285|OTHER|||||||0.2938909|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.29389090
82467209|NCT05179785|164630285|OTHER|||||||0.97863544|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.97863544
82467210|NCT05179785|164630285|OTHER|||||||0.60236264|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.60236264
82467211|NCT05179785|164630285|OTHER|||||||0.35845126|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.35845126
82467212|NCT05179785|164630285|OTHER|||||||0.91766025|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.91766025
82467213|NCT05179785|164630285|OTHER|||||||0.09605169|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delayed discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delayed discounting task"||||0.09605169
82467214|NCT05179785|164630286|OTHER|||||||0.50030946|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.50030946
82467215|NCT05179785|164630286|OTHER|||||||0.3751738|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.37517380
82467216|NCT05179785|164630286|OTHER|||||||0.47876971|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.47876971
82467217|NCT05179785|164630286|OTHER|||||||0.21798816|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21798816
82467218|NCT05179785|164630286|OTHER|||||||0.47876971|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.47876971
82467219|NCT05179785|164630286|OTHER|||||||0.21798816|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21798816
82467220|NCT05179785|164630287|OTHER|||||||0.75298499|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75298499
82467221|NCT05179785|164630287|OTHER|||||||0.16043787|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.16043787
82467222|NCT05179785|164630287|OTHER|||||||0.67902693|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.67902693
82467223|NCT05179785|164630287|OTHER|||||||0.33832977|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.33832977
82467224|NCT05179785|164630287|OTHER|||||||0.67902693|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.67902693
82467225|NCT05179785|164630287|OTHER|||||||0.33832977|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.33832977
82467226|NCT05179785|164630288|OTHER|||||||0.73357221|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.73357221
82467227|NCT05179785|164630288|OTHER|||||||0.43954526|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.43954526
82467228|NCT05179785|164630288|OTHER|||||||0.4419898|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.44198980
82467229|NCT05179785|164630288|OTHER|||||||0.39565784|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.39565784
82467230|NCT05179785|164630288|OTHER|||||||0.35602382|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.35602382
82579350|NCT01882543|164869034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.04|TWO_SIDED|95.0|-5.5|-0.1|||ANOVA|||Analyses of the secondary variable was based on observed data without imputation.||-0.1|-5.5|0.040
82467231|NCT05179785|164630288|OTHER|||||||0.30499144|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.30499144
82467232|NCT05179785|164630289|OTHER|||||||0.81601415|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.81601415
82467233|NCT05179785|164630289|OTHER|||||||0.20563452|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.20563452
82467234|NCT05179785|164630289|OTHER|||||||0.21947623|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21947623
82467235|NCT05179785|164630289|OTHER|||||||0.45535329|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.45535329
82467236|NCT05179785|164630289|OTHER|||||||0.21947623|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.21947623
82467237|NCT05179785|164630289|OTHER|||||||0.45535329|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.45535329
82467238|NCT05179785|164630290|OTHER|||||||0.83462055|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.83462055
82467239|NCT05179785|164630290|OTHER|||||||0.21582586|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.21582586
82467240|NCT05179785|164630290|OTHER|||||||0.59574875|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.59574875
82467241|NCT05179785|164630290|OTHER|||||||0.75948776|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.75948776
82467242|NCT05179785|164630290|OTHER|||||||0.7238414|||||||t-test, 2 sided|||"Paired t-test examining delayed choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.72384140
82467243|NCT05179785|164630290|OTHER|||||||0.00477281|||||||t-test, 2 sided|||"Paired t-test examining immediate choices on the delay discounting task (post versus pre).~One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task"||||0.00477281
82467244|NCT05179785|164630291|OTHER|||||||0.20047055|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.20047055
82467245|NCT05179785|164630291|OTHER|||||||0.77922802|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.77922802
82467246|NCT05179785|164630291|OTHER|||||||0.29196708|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.29196708
82467247|NCT05179785|164630291|OTHER|||||||0.05605962|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.05605962
82467248|NCT05179785|164630291|OTHER|||||||0.57368284|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.57368284
82467249|NCT05179785|164630291|OTHER|||||||0.56397238|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.56397238
82467250|NCT05179785|164630292|OTHER|||||||0.86107891|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.86107891
82467251|NCT05179785|164630292|OTHER|||||||0.62228799|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.62228799
82467252|NCT05179785|164630292|OTHER|||||||0.79477883|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.79477883
82467253|NCT05179785|164630292|OTHER|||||||0.12634435|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.12634435
82467254|NCT05179785|164630292|OTHER|||||||0.79477883|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.79477883
82467255|NCT05179785|164630292|OTHER|||||||0.12634435|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (dorsal anterior cingulate cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.12634435
82467256|NCT05179785|164630292|OTHER|||||||0.62461968|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.62461968
82467257|NCT05179785|164630292|OTHER|||||||0.51324793|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.51324793
82467258|NCT05179785|164630292|OTHER|||||||0.60543603|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.60543603
82467259|NCT05179785|164630292|OTHER|||||||0.75565448|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75565448
82467260|NCT05179785|164630292|OTHER|||||||0.60543603|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.60543603
82546156|NCT02178098|164791738|SUPERIORITY||Least squares mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.253||0.2481|TWO_SIDED|95.0|-3.93|1.03|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||1.03|-3.93|0.2481
82546157|NCT02178098|164791739|SUPERIORITY||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|1.684||0.8181|TWO_SIDED|95.0|-3.72|2.94|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||2.94|-3.72|0.8181
82546158|NCT02178098|164791740|SUPERIORITY||Least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|1.274||0.8817|TWO_SIDED|95.0|-2.33|2.71|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||2.71|-2.33|0.8817
82546159|NCT02178098|164791741|SUPERIORITY||Least squares mean difference|1.53|STANDARD_ERROR_OF_MEAN|1.829||0.404|TWO_SIDED|95.0|-2.09|5.15|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||5.15|-2.09|0.4040
82546160|NCT02178098|164791742|SUPERIORITY||Least squares mean difference|0.79|STANDARD_ERROR_OF_MEAN|1.178||0.5061|TWO_SIDED|95.0|-1.54|3.11|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||3.11|-1.54|0.5061
82546161|NCT02178098|164791743|SUPERIORITY||Median Difference (Final Values)|-43.64|||<|0.0001|TWO_SIDED|95.0|-62.8|-25.21|||Wilcoxon Rank-Sum Test||The 95% confidence interval (CI) was calculated using Hodges-Lehmann analysis.|||-25.21|-62.80|<0.0001
82546162|NCT02178098|164791744|SUPERIORITY||Least squares mean difference|-16.67|STANDARD_ERROR_OF_MEAN|2.006|<|0.0001|TWO_SIDED|95.0|-20.63|-12.7|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-12.70|-20.63|<0.0001
82546163|NCT02178098|164791745|SUPERIORITY||Least squares mean difference|-18.9|STANDARD_ERROR_OF_MEAN|2.624|<|0.0001|TWO_SIDED|95.0|-24.09|-13.71|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.71|-24.09|<0.0001
82546164|NCT02178098|164791746|SUPERIORITY||Least squares mean difference|-18.69|STANDARD_ERROR_OF_MEAN|2.49|<|0.0001|TWO_SIDED|95.0|-23.62|-13.77|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.77|-23.62|<0.0001
82546165|NCT02178098|164791747|SUPERIORITY||Median Difference (Final Values)|5.25||||0.3689|TWO_SIDED|95.0|-6.78|16.42|||Wilcoxon Rank-Sum Test||The 95% CI was calculated using Hodges-Lehmann analysis.|||16.42|-6.78|0.3689
82546166|NCT02178098|164791748|SUPERIORITY||Least squares mean difference|-8.18|STANDARD_ERROR_OF_MEAN|2.319||0.0006|TWO_SIDED|95.0|-12.76|-3.59|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-3.59|-12.76|0.0006
82546167|NCT02178098|164791749|SUPERIORITY||Median Difference (Final Values)|7.6||||0.3093|TWO_SIDED|95.0|-8.21|24.02|||Wilcoxon Rank-Sum Test||The 95% CI was calculated using Hodges-Lehmann analysis.|||24.02|-8.21|0.3093
82467261|NCT05179785|164630292|OTHER|||||||0.75565448|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre) (posterior parietal cortex). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.75565448
82467262|NCT05179785|164630293|OTHER|||||||0.09266386|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.09266386
82467263|NCT05179785|164630293|OTHER|||||||0.53980185|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.53980185
82467264|NCT05179785|164630293|OTHER|||||||0.30223686|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.30223686
82467265|NCT05179785|164630293|OTHER|||||||0.39166649|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.39166649
82467266|NCT05179785|164630293|OTHER|||||||0.30223686|||||||t-test, 2 sided|||Paired t-test examining delayed choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.30223686
82467267|NCT05179785|164630293|OTHER|||||||0.39166649|||||||t-test, 2 sided|||Paired t-test examining immediate choices on the delay discounting task (post versus pre). One participant was excluded from the EEG data analysis due to lack of immediate choices on the delay discounting task||||0.39166649
82467268|NCT05179785|164630294|OTHER|||||||0.0265|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.0265
82467269|NCT05179785|164630294|OTHER|||||||0.1053|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.1053
82467270|NCT05179785|164630294|OTHER|||||||0.0033|||||||t-test, 2 sided|||Paired t-test (post versus pre)||||0.0033
82467271|NCT04852302|164630299|EQUIVALENCE|We evaluated the same group to determine whether their reported depression was the same, worse, or better at 6-months compared to baseline.|Mean Difference (Net)|-1.81|STANDARD_DEVIATION|4.81||0.168|TWO_SIDED|95.0|-4.47|0.86||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||Null hypothesis was that the mean difference between the paired observations is zero.||0.86|-4.47|0.168
82467272|NCT04852302|164630300|EQUIVALENCE|We evaluated the same group to determine whether their reported depression was the same, worse, or better at 3-months compared to baseline.|Mean Difference (Net)|-0.3|STANDARD_DEVIATION|3.59||0.752|TWO_SIDED|95.0|-2.29|1.69||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||1.69|-2.29|0.752
82467273|NCT04852302|164630301|EQUIVALENCE|We evaluated the same group to determine whether their reported anxiety via the Death and Dying Distress Scale was the same, worse, or better at 3-months compared to baseline.|Mean Difference (Net)|-4.67|STANDARD_DEVIATION|16.26||0.285|TWO_SIDED|95.0|-13.67|4.34||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||4.34|-13.67|0.285
82467274|NCT04852302|164630301|EQUIVALENCE|We evaluated the same group to determine whether their reported anxiety via the Death and Dying Distress Scale was the same, worse, or better at 6-months compared to baseline.|Mean Difference (Net)|-2.2|STANDARD_DEVIATION|17.22||0.628|TWO_SIDED|95.0|-11.74|7.34||The a priori threshold for statistical significance was \< 0.05. We did not adjust for multiple comparisons as this was exploratory.|paired sample t-Test, 2-sided|||||7.34|-11.74|0.628
82467275|NCT01436149|164630328|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.96||0.883|TWO_SIDED|95.0|-1.7|2.0|||Mixed- effects Model for Repeat Measures|||||2.0|-1.7|0.883
82467276|NCT01436149|164630329|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.69||0.576|TWO_SIDED|95.0|-1.8|1.0|||Mixed- effects Model for Repeat Measures|||||1.0|-1.8|0.576
82467277|NCT00573508|164630390|SUPERIORITY_OR_OTHER||Least Square Mean Difference|9.4|||<|0.0001||95.0|6.6|12.2|||ANCOVA|||Statistical Analysis applies to 'Change at End of Treatment'.||12.2|6.6|<0.0001
82467278|NCT00573508|164630391|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||Statistical Analysis applies to 'Change at Week 4', 'Change at Week 8' and 'Change at Week 12'.||||<.0001
82467279|NCT00573508|164630392|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-Value represents change from Baseline to Week 12.|ANCOVA|||Statistical Analysis applies to 'Change at Week 12'.||||<.0001
82467280|NCT00573508|164630393|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
82467281|NCT00573508|164630401|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-16.8|||<|0.0001||95.0|-22.1|-11.6|||ANCOVA|||Statistical Analysis applies to 'Change at EOT'.||-11.6|-22.1|<.0001
82467282|NCT03253796|164630403|SUPERIORITY||Difference in percentage|50.2|||<|0.001|TWO_SIDED|95.0|34.1|63.6|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||63.6|34.1|<0.001
82467283|NCT03253796|164630403|SUPERIORITY||Difference in percentage|34.4|||<|0.001|TWO_SIDED|95.0|17.0|49.7|||Meittinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||49.7|17.0|<0.001
82467284|NCT03253796|164630406|SUPERIORITY||Difference in percentage|9.5|||||TWO_SIDED|95.0|3.3|19.4|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||19.4|3.3|
82467285|NCT03253796|164630406|SUPERIORITY||Difference in percentage|3.2|||||TWO_SIDED|95.0|-2.8|10.9|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||10.9|-2.8|
82467286|NCT03253796|164630408|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-5.9|5.8|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||5.8|-5.9|
82467287|NCT03253796|164630408|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|-5.9|5.8|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||5.8|-5.9|
82467288|NCT03253796|164630410|SUPERIORITY||Difference in percentage|14.7|||||TWO_SIDED|95.0|0.2|29.0|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||29.0|0.2|
82467289|NCT03253796|164630410|SUPERIORITY||Difference in percentage|14.7|||||TWO_SIDED|95.0|0.2|29.1|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||29.1|0.2|
82467290|NCT03253796|164630412|SUPERIORITY||Difference in percentage|24.9|||||TWO_SIDED|95.0|8.5|40.3|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||40.3|8.5|
82467291|NCT03253796|164630412|SUPERIORITY||Difference in percentage|5.9|||||TWO_SIDED|95.0|-9.9|21.3|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||21.3|-9.9|
82467292|NCT03253796|164630414|SUPERIORITY||Difference in percentage|24.4|||||TWO_SIDED|95.0|9.1|39.0|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||39.0|9.1|
82467293|NCT03253796|164630414|SUPERIORITY||Difference in percentage|22.8|||||TWO_SIDED|95.0|7.3|37.7|||||Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor|||37.7|7.3|
82467294|NCT03253796|164630418|SUPERIORITY||Difference in percentage|32.9|||<|0.001|TWO_SIDED|95.0|19.2|44.5|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||44.5|19.2|<0.001
82546168|NCT00957242|164791752|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.32||||0.27|TWO_SIDED|95.0|0.7|2.47|||Regression, Cox|Prespecified covariates in the model included an indicator variable for the treatment group and the DLCO measurement from the baseline assessment.|Warfarin vs. Placebo|The study was designed to have 90% power to detect a difference in 48-week event free rates of 70% for the warfarin group versus 50% for the placebo group. A total of at least 95 adjudicated primary endpoints were required to achieve 90% power with 2-sided, type I error rate of 0.05 and a 1:1 randomization ratio. These calculations yielded a requisite total sample size of 256.||2.47|0.70|0.27
82546169|NCT00957242|164791753|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|5.03||||0.005|TWO_SIDED|95.0|1.44|17.54|||Cox Proportional|||||17.54|1.44|0.005
82546170|NCT00957242|164791754|SUPERIORITY_OR_OTHER||t-value|0.08||||0.083||95.0|-0.01|0.17|||Mixed Models Analysis|||||0.17|-0.01|0.083
82546171|NCT00957242|164791755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.06||||0.054|TWO_SIDED|95.0|0.99|4.31|||Cox Proportional|||||4.31|0.99|0.054
82546172|NCT00957242|164791756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.47||||0.19|TWO_SIDED|95.0|0.64|9.56|||Cox Proportional|||||9.56|0.64|0.19
82546173|NCT00957242|164791757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.25||||0.35|TWO_SIDED|95.0|0.41|12.34|||Cox Proportional|||||12.34|0.41|0.35
82546174|NCT00957242|164791758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.24||||0.15|TWO_SIDED|95.0|0.65|16.1|||Cox Proportional|||||16.10|0.65|0.15
82546175|NCT00957242|164791759|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.88|TWO_SIDED|95.0|0.24|3.39|||Cox Proportional|||||3.39|0.24|0.88
82546176|NCT00957242|164791760|SUPERIORITY_OR_OTHER||t-value|10.88||||0.7222|TWO_SIDED|95.0|-49.57|71.34|||Mixed Models Analysis|||||71.34|-49.57|0.7222
82467295|NCT03253796|164630419|SUPERIORITY||Difference in percentage|15.9||||0.037|TWO_SIDED|95.0|0.9|30.5|||Miettinen and Nurminen|Derived based on the stratified Miettinen and Nurminen method with CRP level (\>6 mg/L or ≤ 6 mg/L) as a stratification factor||||30.5|0.9|0.037
82467296|NCT00894803|164630420|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15||||0.053|TWO_SIDED|95.0|0.01|1.4|||Regression, Logistic|an exact logistic regression was used due to the number of events|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||1.40|0.01|0.053
82467297|NCT00894803|164630421|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.23|TWO_SIDED|95.0|0.7|4.31|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.31|0.70|0.23
82467298|NCT00894803|164630421|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.53|TWO_SIDED|95.0|0.51|3.71|||Regression, Logistic|adjusting for age, baseline NIHSS score and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.71|0.51|0.53
82546177|NCT00957242|164791761|SUPERIORITY_OR_OTHER||t-value|-1.78||||0.27|TWO_SIDED|95.0|-7.04|3048.0|||Mixed Models Analysis|||||3048|-7.04|0.27
82546178|NCT00957242|164791762|SUPERIORITY_OR_OTHER||t-value|0.05||||0.957|TWO_SIDED|95.0|-1.67|1076.0|||Mixed Models Analysis|||||1076|-1.67|0.957
82546179|NCT00957242|164791763|SUPERIORITY_OR_OTHER||t-value|-0.48||||0.009|TWO_SIDED|95.0|-0.84|-0.12|||Mixed Models Analysis|||||-0.12|-0.84|0.009
82546180|NCT01996605|164791920|SUPERIORITY||||||<|0.05||||||T|ANOVA|A one-way ANOVA was performed on the single primary outcome datapoint comparing the three groups.||The null hypothesis was that there would be no difference in area of hyperalgesia 105 minutes after study drug injection among the three groups.||||<0.05
82546181|NCT04992390|164791932|SUPERIORITY|Poisson regression was performed with baseline measure and binary arm status included as fixed effect covariates. Various regression models for count data were compared to find the best fitting model. Visual exploratory data and model evaluation showed that the Zero Inflated Negative Binomial (ZINB) regression model provided the best fit and was used as the model for the ITT analysis of the primary outcome.|Incidence Rate Ratio|0.31|||<=|0.001|TWO_SIDED|95.0|0.2|0.48||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|||For more information on analysis models see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|See also Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|0.48|0.20|<= 0.001
82546182|NCT04992390|164791933|SUPERIORITY|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories in the delayed intervention arm, comparing pre-intervention (week 4) to post-intervention (week 8).|Incidence Rate Ratio|0.31|||<=|0.001|TWO_SIDED|95.0|0.21|0.45||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories pre- to post-intervention.||Within the comparator arm, where participants had delayed access to the intervention (i.e., delayed arm crossover), the number of intrusive memories in week 8 was compared to week 4. For full information about statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|For full results see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|0.45|0.21|<= 0.001
82546183|NCT04992390|164791933|SUPERIORITY|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories in the immediate intervention arm, comparing pre-intervention (run-in/screening week) to post-intervention (week 4).|Incidence Rate Ratio|0.22|||<|0.001|TWO_SIDED|95.0|0.1|0.45||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Poisson|Single level general Poisson regression was used to quantify within arm changes of number of intrusive memories pre- to post-intervention.||Within the immediate intervention arm, where participants had immediate access to the intervention, the number of intrusive memories in Week 4 was compared to the run-in/screening week. For full information about statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0||0.45|0.10|<0.001
82579351|NCT01325311|164869036|SUPERIORITY_OR_OTHER|||||||0.922|TWO_SIDED||||||t-test, 2 sided|||Using the Student t-test. If the normality assumption is tenuous, an appropriate transformation of the data such as logarithm will be considered for Student t-test or a nonparametric test such as Wilcoxon rank-sum test will be used for comparison.||||0.922
82579352|NCT02314780|164869051|OTHER||||||=|0.001|||||||ANOVA|||||||=0.001
82579353|NCT02314780|164869052|OTHER||||||=|0.002|||||||ANOVA|||||||=0.002
82579354|NCT02314780|164869053|OTHER||||||=|0.002|||||||ANOVA|||||||=0.002
82467299|NCT00894803|164630423|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.15||||0.053|TWO_SIDED|95.0|0.01|1.4|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||1.40|0.01|0.053
82467300|NCT00894803|164630424|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.76||95.0|0.35|8.02|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||8.02|0.35|0.76
82467301|NCT00894803|164630425|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.99999|TWO_SIDED|95.0|0.24|5.92|||Regression, Logistic|Exact method used due to small number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.92|0.24|0.99999
82467302|NCT00894803|164630426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.99999|TWO_SIDED|95.0|0.24|5.92|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.92|0.24|0.99999
82467303|NCT00894803|164630427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.78|TWO_SIDED|95.0|0.38|5.76|||Regression, Logistic|Exact methods used due t number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.76|0.38|0.78
82467304|NCT00894803|164630428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.99999|TWO_SIDED|95.0|0.26|4.18|||Regression, Logistic|Exact method used due to number of responses|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.18|0.26|0.99999
82467305|NCT00894803|164630429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.35|TWO_SIDED|95.0|0.63|3.67|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.67|0.63|0.35
82467306|NCT00894803|164630429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.85|TWO_SIDED|95.0|0.4|3.02|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.02|0.40|0.85
82467307|NCT00894803|164630430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.3|TWO_SIDED|95.0|0.65|3.88|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.88|0.65|0.30
82467308|NCT00894803|164630430|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.73|TWO_SIDED|95.0|0.44|3.24|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||3.24|0.44|0.73
82579355|NCT02314780|164869054|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82579356|NCT02314780|164869055|OTHER||||||=|0.138|||||||ANOVA|||||||=0.138
82579357|NCT02314780|164869056|OTHER||||||=|0.696|||||||ANOVA|||||||=0.696
82467309|NCT00894803|164630431|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.31|TWO_SIDED|95.0|0.61|4.99|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.99|0.61|0.31
82467310|NCT00894803|164630432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.55|TWO_SIDED|95.0|0.47|4.07|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||4.07|0.47|0.55
82467311|NCT00894803|164630433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.82|TWO_SIDED|95.0|0.46|2.67|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||2.67|0.46|0.82
82467312|NCT00894803|164630434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44||||0.07|TWO_SIDED|95.0|0.9|6.64|||Regression, Logistic||Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||6.64|0.90|0.07
82467313|NCT00894803|164630434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.22|TWO_SIDED|95.0|0.67|5.88|||Regression, Logistic|adjusting for age, baseline NIHSS and time to IV rt-PA|Arm 2 (rt-PA and Eptifibitide) represents the numerator, Arm 1 (rt-PA only) the denominator|||5.88|0.67|0.22
82467314|NCT01075243|164630585|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.71||||0.0009|TWO_SIDED|95.0|1.53|5.89|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and Paracetamol 650 mg caplet.||5.89|1.53|0.0009
82467315|NCT01075243|164630585|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|11.33|||<|0.0001|TWO_SIDED|95.0|8.66|14.0|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 1000 mg caplet and placebo caplet.||14.00|8.66|<0.0001
82467316|NCT01075243|164630585|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.63|||<|0.0001||95.0|4.94|10.31|||ANCOVA|ANCOVA model included factors for treatment as a fixed effect and baseline assessment of pain intensity (VAS score) as a covariate.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference in SPRID\^6h between Paracetamol 650 mg caplet and placebo caplet.||10.31|4.94|<0.0001
82579358|NCT00215137|164869074|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||A Wilcoxon Signed Rank test was performed on the difference between the open label endpoint and baseline YBOCS scores.||||0.0002
82579359|NCT00215137|164869074|SUPERIORITY_OR_OTHER|||||||0.0417|TWO_SIDED|95.0|||||Wilcoxon Rank Sum Test|||A Wilcoxon Rank Sum Test was performed on the difference in the pre and post randomization YBOCS scores, using grouping to either escitalopram or placebo as a grouping variable.||||.0417
82579360|NCT03333876|164869075|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Each group was compared to baseline.||||<.001
82579361|NCT00095498|164869087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.264|||||||van Elteren stratified rank test|||||||0.264
82579362|NCT00095498|164869087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||van Elteren stratified rank test|||||||0.018
82579363|NCT00095498|164869088|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|||||||van Elteren Stratified Rank Test|||||||0.032
82579364|NCT00095498|164869088|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18|||||||van Elteren Stratified Rank Test|||||||0.180
82579365|NCT00095498|164869089|SUPERIORITY_OR_OTHER_LEGACY|||||||0.602|||||||van Elteren Stratified Rank Test|||||||0.602
82579366|NCT00095498|164869089|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||van Elteren Stratified Rank Test|||||||0.181
82546184|NCT04992390|164791934|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.63|||<=|0.001|TWO_SIDED|95.0|-3.72|-1.54||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How distressing were your intrusive memories?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.54|-3.72|<= 0.001
82546185|NCT04992390|164791934|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-3.21|||<=|0.001|TWO_SIDED|95.0|-4.28|-2.15||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did they disrupt your concentration?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-2.15|-4.28|<= 0.001
82546186|NCT04992390|164791934|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.92|||<=|0.001|TWO_SIDED|95.0|-3.9|-1.95||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did they interfere with what you were doing?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.95|-3.90|<= 0.001
82579367|NCT00095498|164869090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||van Elteren Stratified Rank Test|||||||0.012
82579368|NCT00095498|164869090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||van Elteren Stratified Rank Test|||||||0.007
82579369|NCT00095498|164869091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277|||||||van Elteren Stratified Rank Test|||||||0.277
82579370|NCT00095498|164869091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||van Elteren Stratified Rank Test|||||||0.019
82467317|NCT03094416|164630604|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.783797|STANDARD_ERROR_OF_MEAN|0.158271|<|0.0001|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||<0.0001
82467318|NCT03094416|164630605|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.037312|STANDARD_ERROR_OF_MEAN|0.026128||0.1607|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.1607
82467319|NCT03094416|164630606|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|3.397559|STANDARD_ERROR_OF_MEAN|4.174962||0.4204|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.4204
82579371|NCT00095498|164869092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.382|||||||van Elteren Stratified Rank Test|||||||0.382
82650539|NCT01335464|165016246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.02|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|2.54|5.5|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||5.50|2.54|<0.0001
82467320|NCT03094416|164630607|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.055199|STANDARD_ERROR_OF_MEAN|0.019171||0.0062|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0062
82579372|NCT00095498|164869092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.488|||||||van Elteren Stratified Rank Test|||||||0.488
82579373|NCT00095498|164869093|SUPERIORITY_OR_OTHER_LEGACY|||||||0.236|||||||van Elteren Stratified Rank Test|||||||0.236
82579374|NCT00095498|164869093|SUPERIORITY_OR_OTHER_LEGACY|||||||0.712|||||||van Elteren Stratified Rank Test|||||||0.712
82579375|NCT00095498|164869094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93||||0.026||95.0|0.11|1.74|||Repeated Measures Model|||||1.74|0.11|0.026
82650540|NCT01335464|165016247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.22|STANDARD_ERROR_OF_MEAN|0.564|<|0.0001|TWO_SIDED|95.0|2.11|4.33|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||4.33|2.11|<0.0001
82467321|NCT03094416|164630608|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|0.100127|STANDARD_ERROR_OF_MEAN|0.048171||0.0438|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0438
82467322|NCT03094416|164630609|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.216479|STANDARD_ERROR_OF_MEAN|0.093366||0.0254|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0254
82467323|NCT03094416|164630610|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.011187|STANDARD_ERROR_OF_MEAN|0.036679||0.7619|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.7619
82467324|NCT03094416|164630611|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.121537|STANDARD_ERROR_OF_MEAN|0.064264||0.0655|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0655
82467325|NCT03094416|164630612|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.031636|STANDARD_ERROR_OF_MEAN|0.053033||0.5542|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.5542
82467326|NCT03094416|164630613|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.019322|STANDARD_ERROR_OF_MEAN|0.046827||0.682|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.6820
82467327|NCT03094416|164630614|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|-0.049243|STANDARD_ERROR_OF_MEAN|0.024025||0.0468|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0468
82467328|NCT03094416|164630615|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|-0.213171|STANDARD_ERROR_OF_MEAN|0.088103||0.0203|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.0203
82467329|NCT03094416|164630616|OTHER|"A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).~Normal distribution of data was tested with Shapiro Wilks. No data transformation was done."|Mean Difference (Final Values)|-0.030904|STANDARD_ERROR_OF_MEAN|0.038699||0.4291|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.4291
82467330|NCT03094416|164630617|OTHER|Normal distribution of data was tested with Shapiro Wilks. Data were log transformed. A mixed model ANCOVA repeated measures model was used to test differences in means at Visit 4 vs baseline on original data. As covariates the following baseline variables were considered: Age, Sex, BMI and the prescribed Tirosint dosage (dose/Kg).|Mean Difference (Final Values)|0.025502|STANDARD_ERROR_OF_MEAN|0.047802||0.5967|TWO_SIDED|||||level of significance p-value \< 0.05|Mixed Models Analysis|||||||0.5967
82579376|NCT00095498|164869094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.59||||0.155||95.0|-0.23|1.41|||Repeated measures model|||||1.41|-0.23|0.155
82579377|NCT00095498|164869095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.67||||0.002||95.0|0.62|2.72|||Repeated Measures Model|||||2.72|0.62|0.002
82467331|NCT05386329|164630619|SUPERIORITY|Comparison of mid-treatment to end-of-treatment|Mean Difference (Final Values)|1.0308|STANDARD_ERROR_OF_MEAN|0.5485|=|0.0719|TWO_SIDED|95.0|-0.09883|2.1605||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CSQ-8 score compared to the end-point (week 8) CSQ-8 score.|Null hypothesis: there is no significant difference in CSQ-8 total scores between midpoint (week 4) and end-of-treatment (week 8).||2.1605|-0.09883|=.0719
82579378|NCT00095498|164869095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.89|||<|0.001||95.0|0.84|2.94|||Repeated Measures Model|||||2.94|0.84|<0.001
82579379|NCT00095498|164869096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|||<|0.001||95.0|1.1|3.29|||Repeated Measures Model|||||3.29|1.1|<0.001
82579380|NCT00095498|164869096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.29|||<|0.001||95.0|2.18|4.39|||Repeated Measures Model|||||4.39|2.18|<0.001
82467332|NCT05386329|164630620|SUPERIORITY|Comparison of mid-treatment (week 4) to baseline|Mean Difference (Final Values)|0.4296|STANDARD_ERROR_OF_MEAN|0.8857|=|0.6316|TWO_SIDED|95.0|-1.3884|2.2475||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CEQ credibility score compared to the baseline (week 0) CEQ credibility score.|Null hypothesis: there is no significant difference in treatment credibility total scores between baseline (week 0) and midpoint (week 4).||2.2475|-1.3884|=.6316
82467333|NCT05386329|164630621|SUPERIORITY|Comparison of mid-treatment (week 4) to baseline.|Mean Difference (Final Values)|1.1512|STANDARD_ERROR_OF_MEAN|0.9213|=|0.2225|TWO_SIDED|95.0|-0.7422|3.0446||The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT midpoint (week 4) CEQ expectancy scores compared to the baseline (week 0) CEQ expectancy scores.|Null hypothesis: there is no significant difference in treatment expectancy total scores between baseline (week 0) and midpoint (week 4).||3.0446|-0.7422|=.2225
82467334|NCT05386329|164630623|SUPERIORITY|Comparison of post-treatment (week 8) to mid-treatment (week 4)|Wilcoxon Z|0.2712|||=|0.7873|TWO_SIDED|||||The a priori threshold for statistical significance was alpha=.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no significant difference in treatment utilization between midpoint (week 4) and end of treatment (week 8).||||=.7873
82467335|NCT05386329|164630624|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|-7.8424|STANDARD_ERROR_OF_MEAN|1.2858|<|0.0001|TWO_SIDED|95.0|-10.4944|-5.1903||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) HAM-D score compared to the baseline (week 0) HAM-D score.|Null hypothesis: there is no significant difference in HAM-D total scores between baseline (week 0) and end of treatment (week 8).||-5.1903|-10.4944|<.0001
82467336|NCT05386329|164630625|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|-9.9409|STANDARD_ERROR_OF_MEAN|1.7329|<|0.0001|TWO_SIDED|95.0|-13.5043|-6.3776||The p-value was not adjusted for multiple comparisons because this was the pre-specified secondary outcome that addresses complementary aspects of the patient experience. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) WSAS scores compared to the baseline (week 0) WSAS scores.|Null hypothesis: there is no significant difference in WSAS total scores between baseline (week 0) and end of treatment (week 8).||-6.3776|-13.5043|<.0001
82467337|NCT05386329|164630626|SUPERIORITY|Pre-post comparison|Mean Difference (Final Values)|21.5463|STANDARD_ERROR_OF_MEAN|3.4152|<|0.0001|TWO_SIDED|95.0|14.512|28.5806||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary outcome assessing a complementary aspect of the patient experience. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an unstructured covariance matrix.|The effect is presented as the therapist-guided smartphone-delivered CBT end of treatment (week 8) Q-LES-Q-SF percent scores compared to the baseline (week 0) Q-LES-Q-SF percent scores.|Null hypothesis: there is no significant difference in Q-LES-Q-SF total scores between baseline (week 0) and end of treatment (week 8).||28.5806|14.5120|<.0001
82467338|NCT05810740|164630639|OTHER||LS-Mean Ratio, Percent|96.43|||||TWO_SIDED|90.0|92.57|100.46||||||||100.46|92.57|
82467339|NCT05810740|164630640|OTHER||Geometric Mean Ratio|97.19|||||TWO_SIDED|90.0|93.47|101.06||||||||101.06|93.47|
82467340|NCT05810740|164630641|OTHER||Geometric Mean Ratio|94.02|||||TWO_SIDED|90.0|87.25|101.33||||||||101.33|87.25|
82467341|NCT05712460|164630695|OTHER||Ratio|126.65|||||TWO_SIDED|90.0|106.87|150.1|||||Analysis was performed using mixed effect model with sequence, and treatment as fixed effects and participant within sequence as a random effect.|||150.10|106.87|
82467342|NCT05712460|164630696|OTHER||Ratio|142.94|||||TWO_SIDED|90.0|117.2|174.32|||||Analysis was performed using mixed effect model with sequence, and treatment as fixed effects and participant within sequence as a random effect.|||174.32|117.20|
82579381|NCT00095498|164869097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.986||95.0|-1.06|1.08|||Repeated Measures Model|||||1.08|-1.06|0.986
82579382|NCT00095498|164869097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.141||95.0|-0.27|1.86|||Repeated Measures Model|||||1.86|-0.27|0.141
82467343|NCT05560425|164630705|EQUIVALENCE|"The equivalence margin is a range of the compliance score for which the independent training of skills in each group is close enough to be considered equivalent."|Mean Difference (Final Values)|1.29|STANDARD_ERROR_OF_MEAN|3.45|<|0.05|TWO_SIDED|95.0|-6.22|8.79|||t-test, 1 sided|degrees of freedom = 12||Null hypothesis: Compliance with independent training of skills is not equivalent between groups.||8.79|-6.22|<0.05
82467344|NCT05737069|164630723|EQUIVALENCE|The two products were considered to be bioequivalent if 90 percent (%) confidence intervals (CIs) for the geometric mean ratio (GMR) (Test/Reference) for AUC(0-t) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|1.0008|||||TWO_SIDED|90.0|0.9698|1.0327||||||||1.0327|0.9698|
82467345|NCT05737069|164630724|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC (0-inf) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|1.0023|||||TWO_SIDED|90.0|0.971|1.0346||||||||1.0346|0.9710|
82467346|NCT05737069|164630725|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for Cmax were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9825|||||TWO_SIDED|90.0|0.9383|1.0288||||||||1.0288|0.9383|
82467347|NCT05737069|164630726|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC(0-t) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9916|||||TWO_SIDED|90.0|0.9755|1.0081||||||||1.0081|0.9755|
82467348|NCT05737069|164630727|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for AUC (0-inf) were contained within the acceptance interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9776|||||TWO_SIDED|90.0|0.9432|1.0133||||||||1.0133|0.9432|
82579383|NCT00095498|164869098|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.95||||0.073||95.0|-0.09|1.99|||Repeated Measures Model|||||1.99|-0.09|0.073
82467349|NCT05737069|164630728|EQUIVALENCE|The two products were considered to be bioequivalent if 90% CIs for the GMR (Test/Reference) for Cmax were contained within the interval of 0.8 to 1.25.|Geometric Mean Ratio|0.9982|||||TWO_SIDED|90.0|0.9431|1.0567||||||||1.0567|0.9431|
82467350|NCT00498940|164630752|SUPERIORITY_OR_OTHER|||||||0.14||||||Differences in cardiac index between groups were assessed by an independent 2-sample t test.|t-test, 2 sided|||||||.14
82467351|NCT02121535|164630841|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% confidence interval (CI) for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|101.97|||||TWO_SIDED|90.0|98.94|105.08|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||105.08|98.94|
82467352|NCT02121535|164630842|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|103.77|||||TWO_SIDED|90.0|97.03|110.99|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||110.99|97.03|
82467353|NCT02121535|164630843|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|100.24|||||TWO_SIDED|90.0|96.8|103.8|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||103.80|96.80|
82467354|NCT02121535|164630844|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|99.42|||||TWO_SIDED|90.0|97.94|100.93|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||100.93|97.94|
82467355|NCT02121535|164630845|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|99.5|||||TWO_SIDED|90.0|98.08|100.94|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||100.94|98.08|
82467356|NCT02121535|164630846|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|100.07|||||TWO_SIDED|90.0|98.45|101.72|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||101.72|98.45|
82376856|NCT04841577|164460427|OTHER||Adjusted group GMT ratio|1.28|||||TWO_SIDED|95.0|1.09|1.51||||||Adjusted ratios of Control group over Co-Ad Group in RSV-B Neutralizing antibody GMTs at one month after RSV\_PreF3 OA investigational vaccination. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed titers of RSV-B neutralizing antibodies. The ANCOVA model included the treatment group, the age category (age at vaccination: 60-69, 70-79 or \>=80 years), country and sex as fixed effects and the pre-dose log-10 titer as covariate.||1.51|1.09|
82467357|NCT02121535|164630847|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the Cmax were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|110.16|||||TWO_SIDED|90.0|106.87|113.54|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of Cmax was a mixed effect model on the logarithmic scale.||113.54|106.87|
82467358|NCT02121535|164630848|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-tz were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|104.3|||||TWO_SIDED|90.0|102.53|106.1|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0-tz was a mixed effect model on the logarithmic scale.||106.10|102.53|
82467359|NCT02121535|164630849|NON_INFERIORITY_OR_EQUIVALENCE|To determine whether the 2-sided 90% CI for the intra-subject ratio of the AUC0-∞ were contained in the acceptance range of 80% to 125% for bioequivalence.|Adjusted Mean Ratio|104.37|||||TWO_SIDED|90.0|102.68|106.1|||||Adjusted Mean Ratio (Test/Reference)|The statistical model used for the analysis of AUC0--∞ was a mixed effect model on the logarithmic scale.||106.10|102.68|
82467360|NCT01084655|164630898|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Square(LS)Means|1.204|||||TWO_SIDED|90.0|0.87|1.666||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.666|0.870|
82467361|NCT01084655|164630899|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.074|||||TWO_SIDED|90.0|0.793|1.455||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.455|0.793|
82467362|NCT01084655|164630902|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.066|||||TWO_SIDED|90.0|0.802|1.417||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.417|0.802|
82467363|NCT01084655|164630903|SUPERIORITY_OR_OTHER||Ratio of Geometric LS Means|1.068|||||TWO_SIDED|90.0|0.955|1.195||||||ANOVA with dose level as a fixed effect and participant as a random effect.||1.195|0.955|
82467364|NCT00906204|164630911|NON_INFERIORITY_OR_EQUIVALENCE|A one-sided alpha = 0.05, 85% power, an event rate of 0.70, equivalence margin of 0.20. Sample size = 75 patients per dose group, a total of 150 patients. Data analyzed will be counts of patients in each group who experience one or more component events of the primary endpoint during postoperative days one through seven. The DSMB requested an interim analysis after 80 patients and recommended ending the trial because the primary endpoint had been robustly reached.||||||0.64|TWO_SIDED||||||Fisher Exact|||The analysis compares the rates at which patients in each of the two groups cumulatively exceed the five composite endpoint thresholds. There are five safety outcomes monitored during the first seven post-transplantation days. The rates of observed vs. possible safety outcomes are compared.||||0.64
82467365|NCT00906204|164630912|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Log Rank|||||||0.35
82467366|NCT00906204|164630913|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Log Rank|||||||0.47
82467367|NCT00906204|164630914|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Log Rank|||||||0.78
82467368|NCT00906204|164630915|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Fisher Exact|||||||0.72
82467369|NCT00906204|164630916|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||t-test, 2 sided|||||||0.85
82579384|NCT00095498|164869098|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.89||||0.09||95.0|-0.14|1.93|||Repeated Measures Model|||||1.93|-0.14|0.09
82579385|NCT00095498|164869099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.81||||0.007||95.0|0.51|3.12|||Repeated Measures Model|||||3.12|0.51|0.007
82467370|NCT03181932|164630938|SUPERIORITY|The primary efficacy endpoint was tested sequentially at Week 4 (end of Cycle 1), Week 12 (end of Cycle 2) and at Week 20 (end of Cycle 3). If a statistically significant difference was observed in favor of vancomycin inhalation powder compared to placebo after Cycle 1, then the mean change in the FEV1 percent predicted during Cycle 2 was to be tested. Similarly, if the effect after Cycle 2 was statistically significant, then the analysis of Baseline to end of Cycle 3 was to be tested.|Least square mean difference|1.4||||0.325|TWO_SIDED|95.0|-1.4|4.1|||Mixed Models Analysis|||Based on previous experience, a sample size of 45 participants per arm would provide 89% power to detect a statistically significant difference at alpha level of 0.05. To account for potential dropouts and/or smaller effect size in a 3-cycle trial, a sample size of 75 participants per arm was to be enrolled in the primary analysis population, which if all completed would provide 90% power to detect a difference of 3.4% at 20 weeks assuming the same standard deviation of 6.3%.||4.1|-1.4|0.325
82467371|NCT00744497|164630950|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9009|TWO_SIDED|95.53|0.87|1.13||An interim analysis on survival was performed and the final test was corrected for multiplicity.|Log Rank|||Confidence intervals for median overall survival calculated using Brookmeyer and Crowley method. Compared survival in arms by 2-sided, alpha=0.0447 level, log-rank test, stratified by bisphosphonate intake (yes/no) and urinary N-telopeptide category (\<60 vs ≥60 nmol/mmol creatinine) defined at randomization. Null hypothesis was survival equal in both arms. Power calculations were that ≥858 deaths would lead to ≥90% power at 5% level for rejecting null hypothesis, given true hazard ratio of 0.8.||1.13|0.87|0.9009
82467372|NCT00744497|164630951|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.935|||||TWO_SIDED|95.0|0.688|1.271||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for experimental to control group.||1.271|0.688|
82467373|NCT00744497|164630952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.64|1.02||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.02|0.64|
82467374|NCT00744497|164630953|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.93|1.763||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for experimental to control group.||1.763|0.930|
82467375|NCT00744497|164630954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.82|1.05||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.05|0.82|
82467376|NCT00744497|164630955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.79|1.01||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The hazard ratio is presented for experimental to control group.||1.01|0.79|
82467377|NCT00744497|164630956|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.791|||||TWO_SIDED|95.0|0.594|1.052||||||Since superiority of the dasatinib treatment group was not demonstrated for Overall Survival, secondary endpoints were not tested. The odds ratio is presented for of experimental to control group.||1.052|0.594|
82467378|NCT03027609|164630965|SUPERIORITY|comparison between the treatment and placebo|Risk Difference (RD)|-5.54||||0.6154|TWO_SIDED|95.0|-21.9|10.8||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||||10.8|-21.9|0.6154
82467379|NCT03027609|164630966|SUPERIORITY||Risk Difference (RD)|4.01||||0.8426|TWO_SIDED|95.0|-18.5|10.5||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||Comparison between the treatment and placebo||10.5|-18.5|0.8426
82579386|NCT00095498|164869099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.98||||0.003||95.0|0.67|3.29|||Repeated Measures Model|||||3.29|0.67|0.003
82467380|NCT03027609|164630967|SUPERIORITY|comparison between the treatment and placebo|P value CMH|3.6||||0.3562|TWO_SIDED|95.0|-13.1|20.3||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||Comparison between the treatment and placebo||20.3|-13.1|0.3562
82467381|NCT03027609|164630968|SUPERIORITY|Comparison between the treatment and placebo|P value CMH|-2.81||||0.8472|TWO_SIDED|95.0|-18.9|13.2||P-value was obtained with the stratified CMH test adjusted for baseline randomization strata|Cochran-Mantel-Haenszel|||||13.2|-18.9|0.8472
82467382|NCT03027609|164630969|SUPERIORITY||Mean Difference (Final Values)|22.3||||0.4616|TWO_SIDED|95.0|-16.2|60.6||Marginally statistically significant only if p\<0.1|Chi-squared|||Data for Day 14||60.6|-16.2|0.4616
82467383|NCT03027609|164630969|SUPERIORITY||Mean Difference (Final Values)|22.3||||0.4053|TWO_SIDED|95.0|-13.3|57.8||Data for Day 21|Chi-squared|||Data for Day 21||57.8|-13.3|0.4053
82467384|NCT03027609|164630970|SUPERIORITY||Mean Difference (Final Values)|38.1||||0.0833|TWO_SIDED|90.0|-14.8|90.9||Marginally statistically significant only if p\<0.1|Chi-squared|||Data for Day 14||90.9|-14.8|0.0833
82467385|NCT03027609|164630970|SUPERIORITY||Mean Difference (Net)|23.8||||0.5151|TWO_SIDED|90.0|-30.5|78.1||Data for Day 21|Chi-squared|Marginally statistically significant only if p\<0.1 Day 21||Data for Day 21||78.1|-30.5|0.5151
82467386|NCT03182374|164630980|SUPERIORITY||||||<|0.0001||||||ITT Population|t-test, 2 sided|||||||<0.0001
82467387|NCT03182374|164630981|SUPERIORITY||||||<|0.0001||||||PP Population|t-test, 2 sided|||||||<0.0001
82467388|NCT03182374|164630982|SUPERIORITY|||||||0.6655||||||PP Population|t-test, 2 sided|||||||0.6655
82467389|NCT03182374|164630983|SUPERIORITY||||||<|0.0001||||||PP Population|t-test, 2 sided|||||||<0.0001
82467390|NCT03182374|164630984|SUPERIORITY||||||<|0.05||||||PP population|t-test, 2 sided|||||||<0.05
82467391|NCT03182374|164630985|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82467392|NCT03651479|164630996|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82467393|NCT02399163|164631014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.76|||<|0.0001|TWO_SIDED|95.0|11.061|22.454||From ANOVA: participant (random), treatment (fixed), period (fixed)|ANCOVA||Difference is Placebo dentifrice/Fluoride rinse minus Placebo dentifrice/No rinse such that a positive difference implies a larger response value for the Placebo dentifrice/Fluoride rinse.|||22.454|11.061|<0.0001
82579387|NCT00095498|164869100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.938||95.0|-0.58|0.63|||Repeated Measures Model|||||0.63|-0.58|0.938
82579388|NCT00095498|164869100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08||||0.787||95.0|-0.53|0.69|||Repeated Measures Model|||||0.69|-0.53|0.787
82467394|NCT01391546|164631053|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was achieved if the lower bound of the 2-sided 95% confidence interval (CI) for the GMT ratio was greater than 2/3|GMT Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.93|1.18|||longitudinal regression model|Model adjusted for pre-vaccination titres and age at vaccination in years|GMT ratio = GMT IM route divided by GMT SC route|||1.18|0.93|<0.001
82467395|NCT01391546|164631054|SUPERIORITY_OR_OTHER||GMFR|2.7|||||TWO_SIDED|95.0|2.4|3.0|||||GMFR = GMT Post-vaccination/GMT Pre-vaccination|Acceptability was demonstrated if the lower bound of the two-sided 95% CI was \>1.4||3.0|2.4|
82467396|NCT04225897|164631104|OTHER||Difference|-8.02|||||TWO_SIDED|95.0|-31.78|15.74||||||60 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||15.74|-31.78|
82467397|NCT04225897|164631104|OTHER||Difference|-15.22|||||TWO_SIDED|95.0|-40.15|9.7|||Mixed effects analysis of covariance|||156 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||9.70|-40.15|
82467398|NCT04225897|164631105|OTHER||Difference|14.82|||||TWO_SIDED|95.0|-91.68|121.33||||||60 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||121.33|-91.68|
82467399|NCT04225897|164631105|OTHER||Difference|-31.19|||||TWO_SIDED|95.0|-143.96|81.57||||||156 hours. Analysis was performed using mixed effects analysis of covariance model on change from baseline in viral load, including a random effect for participant and fixed effects for treatment group, baseline human rhinovirus/enterovirus status (present or absent), visit, vist by treatment group interaction, and baseline viral load as a covariate.||81.57|-143.96|
82467400|NCT05172128|164631150|OTHER||||||>|0.05|||||||t-test, 2 sided||||Paired t-test comparing baseline value to endpoint value revealed a p-value of 0.80.|||>0.05
82467401|NCT05172128|164631151|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82467402|NCT05172128|164631152|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82467403|NCT05172128|164631153|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82467404|NCT05172128|164631156|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82467405|NCT00837434|164631164|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|TWO_SIDED||||||ANCOVA|P-value for testing treatment effect uses week 12 CD27+ switched memory as the outcome variable and adjusts for baseline CD27+ switched memory||Null Hypothesis: Mean percentage of CD27+ switched memory cells in the peripheral blood at Week 12 does not differ between individuals treated with etanercept and those treated with adalimumab after adjusting for baseline CD27+ switched memory cells. Alt. hypothesis: Mean percentage of CD27+ switched memory cells in the peripheral blood at Week 12 in individuals treated with etanercept is lower than in those treated with adalimumab after adjusting for baseline CD27+ switched memory cells.||||0.3
82467406|NCT01921205|164631171|SUPERIORITY||Percent reduction over Placebo|31.72|||=|0.0003|TWO_SIDED|95.0|16.342|44.277|||ANCOVA|Seizure frequency (log transformed) is analyzed using analysis of covariance with terms for treatment, pooled center and Baseline seizure frequency.|Percent reduction over placebo is estimated as 100 x (1-exp\[LSMLacosamide-LSMPlacebo\]). Where LSM is Least Square Mean.|||44.277|16.342|=0.0003
82467407|NCT03367793|164631199|OTHER||f statistic|1.1||||0.341|TWO_SIDED|||||The threshold for statistical significance was 0.05.|Mixed Models Analysis|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.341
82467408|NCT03367793|164631199|OTHER||least square means|0.31|||||TWO_SIDED|95.0|0.26|0.36|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for PFST.|||0.36|0.26|
82467409|NCT03367793|164631199|OTHER||least square means|0.33|||||TWO_SIDED|95.0|0.27|0.38|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for VSX.|||0.38|0.27|
82579389|NCT00095498|164869101|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.004||95.0|0.33|1.67|||Repeated Measures Model|||||1.67|0.33|0.004
82467410|NCT03367793|164631199|OTHER||least square means|0.34|||||TWO_SIDED|95.0|0.28|0.39|||||Additional model based estimates for 2-month estimated least square means in binocular visual acuity (logMAR) for Clinical Refraction.|||0.39|0.28|
82467411|NCT03367793|164631200|OTHER||f statistic|0.93||||0.41|TWO_SIDED|||||The threshold for statistical significance was 0.05.|f test|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.410
82467412|NCT03367793|164631200|OTHER||least square means|0.35|||||TWO_SIDED|95.0|0.28|0.41|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for PFST.|||0.41|0.28|
82467413|NCT03367793|164631200|OTHER||least square means|0.33|||||TWO_SIDED|95.0|0.26|0.39|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for VSX.|||0.39|0.26|
82467414|NCT03367793|164631200|OTHER||least square means|0.34|||||TWO_SIDED|95.0|0.28|0.41|||||Additional model based estimates for initial visit estimated least square means in binocular visual acuity (logMAR) for Clinical Refraction.|||0.41|0.28|
82579390|NCT00095498|164869101|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18|||<|0.001||95.0|0.51|1.85|||Repeated Measures Model|||||1.85|0.51|<0.001
82579391|NCT00095498|164869102|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.94|||<|0.001||95.0|1.02|2.85|||Repeated Measures Model|||||2.85|1.02|<0.001
82579392|NCT00095498|164869102|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.04|||<|0.001||95.0|1.13|2.96|||Repeated Measures Model|||||2.96|1.13|<0.001
82579393|NCT00095498|164869103|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467415|NCT03367793|164631201|OTHER||f statistic|1.09||||0.351|TWO_SIDED|||||The threshold for statistical significance was alpha=0.05.|f test|||It was calculated that 29 participants randomized in a 3x3 within-subject crossover design (repeated measures) achieves at least 89% power to detect an effect size of 0.25. Sample size was determined by a 2-sided f-test (alpha = 0.05) of the overall treatment effect based on a statistical simulation, simulating the repeated measures design. Assumptions included ICC of 0.3.||||0.351
82467416|NCT03367793|164631201|OTHER||least square means|11.0|||||TWO_SIDED|95.0|9.3|12.7|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for PFST.|||12.7|9.3|
82467417|NCT03367793|164631201|OTHER||least square means|10.9|||||TWO_SIDED|95.0|9.2|12.6|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for VSX.|||12.6|9.2|
82467418|NCT03367793|164631201|OTHER||least square means|11.2|||||TWO_SIDED|95.0|9.5|12.9|||||Additional model based estimates for two-month wear time estimated least square means in spectacle wear-time (Hours) for Clinical Refraction.|||12.9|9.5|
82467419|NCT03367793|164631202|OTHER||f statistic|0.58||||0.562|TWO_SIDED||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||0.562
82467420|NCT03367793|164631202|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for PFST.|||||
82467421|NCT03367793|164631202|OTHER||proportion|0.933|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for VSX.|||||
82467422|NCT03367793|164631202|OTHER||proportion|0.897|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 1 for Clinical Refraction.|||||
82561921|NCT02699099|164833015|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seroconversion rate of the anti-measles antibody, being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|2.05|||||TWO_SIDED|95.0|-1.29|5.89|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||Difference in seroconversion rates against measles antibodies: To demonstrate the non-inferiority of the antibody response to the measles vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered with SB257049 versus administration without SB257049.||5.89|-1.29|
82579394|NCT00095498|164869103|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467423|NCT03367793|164631203|OTHER||||||>|0.99|||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||>0.99
82467424|NCT03367793|164631203|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for PFST.|||||
82467425|NCT03367793|164631203|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for VSX.|||||
82467426|NCT03367793|164631203|OTHER||proportion|0.966|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 2 for Clinical Refraction.|||||
82467427|NCT03367793|164631204|OTHER||||||>|0.99|||||||Mixed Models Analysis|||It was calculated that a sample size of n=28 yields 82% power to detect a difference of 0.4 in proportion of satisfaction (binary outcome of scores of '4' or '5' versus '1 to 3') in comparing two metrics using a two sided McNemar's test (alpha = 0.025 to account for pairwise testing).||||>0.99
82467428|NCT03367793|164631204|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for PFST.|||||
82467429|NCT03367793|164631204|OTHER||proportion|0.967|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for VSX.|||||
82467430|NCT03367793|164631204|OTHER||proportion|0.966|||||TWO_SIDED||||||||Additional estimates of proportion of 2-month satisfactory responses (binary) for Spectacle Assessment Survey Item 3 for Clinical Refraction.|||||
82467431|NCT02224560|164631221|SUPERIORITY||Median Difference (Final Values)|-21.57||||0.0047|TWO_SIDED|95.0|-34.79|-6.67|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-6.67|-34.79|0.0047
82467432|NCT02224560|164631221|SUPERIORITY||Median Difference (Final Values)|-19.19||||0.0016|TWO_SIDED|95.0|-31.24|-7.69|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-7.69|-31.24|0.0016
82467433|NCT02224560|164631222|SUPERIORITY||Odds Ratio (OR)|3.85||||0.0006|TWO_SIDED|95.0|1.75|8.47||Calculated using a Cochran-Mantel-Haenszel (CMH) test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)|Cochran-Mantel-Haenszel|||||8.47|1.75|0.0006
82467434|NCT02224560|164631222|SUPERIORITY||Odds Ratio (OR)|3.27||||0.003|TWO_SIDED|95.0|1.47|7.26||Calculated using a CMH test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)|Cochran-Mantel-Haenszel|||||7.26|1.47|0.0030
82467435|NCT02224560|164631223|SUPERIORITY||Median Difference (Final Values)|-18.76||||0.0091|TWO_SIDED|95.0|-31.8|-4.43|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-4.43|-31.80|0.0091
82467436|NCT02224560|164631223|SUPERIORITY||Median Difference (Final Values)|-19.47||||0.0015|TWO_SIDED|95.0|-30.37|-7.47|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-7.47|-30.37|0.0015
82467437|NCT02224560|164631224|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0439|TWO_SIDED|95.0|1.02|3.3|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor|Odds of participant recording a lower score (improvement) on a continuous scale|||3.30|1.02|0.0439
82467438|NCT02224560|164631224|SUPERIORITY||Odds Ratio (OR)|2.57||||0.002|TWO_SIDED|95.0|1.41|4.66|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor|Odds of participant recording a lower score (improvement) on a continuous scale|||4.66|1.41|0.0020
82579395|NCT00095498|164869104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579396|NCT00095498|164869104|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579397|NCT00095498|164869105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467439|NCT00929695|164631253|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
82467440|NCT00929695|164631253|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.4
82467441|NCT00929695|164631261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.14|1.33||||||||1.33|0.14|
82546187|NCT04992390|164791934|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.15|||<=|0.001|TWO_SIDED|95.0|-3.22|-1.08||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did your intrusive memories affect your work functioning?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.08|-3.22|<= 0.001
82546188|NCT04992390|164791934|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.59|||<=|0.001|TWO_SIDED|95.0|-3.67|-1.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intrusive memory ratings, 'How much did your intrusive memories affect your functioning in other areas of your life?' (treatment effects for between-arm comparisons) at week 4. For full information on statistical analysis see Iyadurai et al 2023, https://doi.org/10.1038/s41398-023-02578-0|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.51|-3.67|<= 0.001
82546189|NCT04992390|164791937|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.8|||<=|0.001|TWO_SIDED|95.0|-1.08|-0.53||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Total Score (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.53|-1.08|<= 0.001
82546190|NCT04992390|164791937|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.95|||<=|0.001|TWO_SIDED|95.0|-1.27|-0.62||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Intrusion Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.62|-1.27|<= 0.001
82579398|NCT00095498|164869105|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579399|NCT00095498|164869106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579400|NCT00095498|164869106|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579401|NCT00095498|164869107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579402|NCT00095498|164869107|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82579403|NCT00095498|164869108|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|||||||van Elteren Stratified Rank Test|||||||0.016
82579404|NCT00095498|164869108|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467442|NCT00929695|164631262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||0.009|TWO_SIDED|95.0|0.12|0.74|||Regression, Cox|||||0.74|0.12|0.009
82467443|NCT00929695|164631264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.95|TWO_SIDED|95.0|0.6|1.74|||Regression, Cox|||||1.74|0.6|0.95
82467444|NCT04218240|164631319|SUPERIORITY|||||||0.05|||||||Chi-squared|1 degree of freedom||A nonparametric (Kruskal-Wallis) comparison of the two groups (p=0.049)||||.05
82467445|NCT04218240|164631320|OTHER|Chi-square analysis||||||0.27|||||||Chi-squared|||hypothesis: more people in active PGB/LFX will complete withdrawal CI = 95% P = 0.5||||0.27
82467446|NCT05966142|164631324|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.5913|TWO_SIDED|95.0|-0.42|0.74|||t-test, 2 sided|||||0.74|-0.42|0.5913
82467447|NCT05966142|164631325|SUPERIORITY|||||||0.6803|||||||t-test, 2 sided|||||||0.6803
82467448|NCT05966142|164631326|SUPERIORITY|||||||0.1228|||||||Chi-squared|||||||0.1228
82467449|NCT05966142|164631327|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.5252|TWO_SIDED|95.0|-1.7|0.9|||t-test, 2 sided|||||0.9|-1.7|0.5252
82467450|NCT05966142|164631328|SUPERIORITY|||||||0.9657|||||||Chi-squared|||||||0.9657
82467451|NCT00979940|164631332|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Chi-squared|||||||0.97
82467452|NCT01409707|164631334|SUPERIORITY_OR_OTHER||||||=|0.068||95.0||||The a priori threshold for statistical significance was set at p = .05.|Mixed Models Analysis|||Multilevel mixed modeling was employed. The null hypothesis was that there'd be no differences between groups at posttreatment on posttraumatic stress disorder measures or alcohol use measures.||||=.068
82546191|NCT04992390|164791937|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.75|||<=|0.001|TWO_SIDED|95.0|-1.09|-0.42||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Avoidance Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.42|-1.09|<= 0.001
82546192|NCT04992390|164791937|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.7|||<=|0.001|TWO_SIDED|95.0|-0.97|-0.44||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Impact of Event Scale-Revised Hyperarousal Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.44|-0.97|<= 0.001
82546193|NCT04992390|164791938|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-2.29|||<=|0.001|TWO_SIDED|95.0|-3.52|-1.07||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for PTSD Checklist for DSM-5 (PCL-5) 4-item version (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons.(Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-1.07|-3.52|<= 0.001
82546194|NCT04992390|164791939|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|5.38|||<=|0.001|TWO_SIDED|95.0|2.56|8.2||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Sleep Condition Indicator (SCI) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|8.20|2.56|<= 0.001
82467453|NCT01409707|164631335|SUPERIORITY_OR_OTHER||||||=|0.39||95.0||||The a priori threshold for statistical significance was set at p=.05.|Mixed Models Analysis|||Multilevel mixed modeling was employed. The null hypothesis was that there would be no differences in alcohol use at posttreatment.||||= 0.39
82467454|NCT04408989|164631494|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.943|||||TWO_SIDED|90.0|0.899|0.989|||||For the comparison, MB02 SP represents the numerator and MB02 DM represents the denominator.|||0.989|0.899|
82467455|NCT04408989|164631494|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.0|||||TWO_SIDED|90.0|0.956|1.05|||||For the comparison, MB02 SP represents the numerator and US Avastin represents the denominator.|||1.05|0.956|
82467456|NCT04408989|164631494|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of AUC(0-∞) were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter AUC(0-∞) was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.07|||||TWO_SIDED|90.0|1.01|1.12|||||For the comparison, MB02 DM represents the numerator and US Avastin represents the denominator.|||1.12|1.01|
82467457|NCT04408989|164631495|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.937|||||TWO_SIDED|90.0|0.887|0.989|||||For the comparison, MB02 SP represents the numerator and MB02 DM represents the denominator.|||0.989|0.887|
82467458|NCT04408989|164631495|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.983|||||TWO_SIDED|90.0|0.925|1.05|||||For the comparison, MB02 SP represents the numerator and US Avastin represents the denominator.|||1.05|0.925|
82376857|NCT01044264|164460462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|BE of the test to reference in the per protocol population|Wilcoxon Rank Sum Test|100.0|||||TWO_SIDED|90.0|92.47|113.54|||Wilcoxon Rank Sum Test|||||113.54|92.47|
82467459|NCT04408989|164631495|EQUIVALENCE|"PK similarity was achieved if the 90% CIs for the biosimilar-to-reference ratios of Cmax were within the predefined 0.80-1.25 acceptance similarity criteria.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.05|||||TWO_SIDED|90.0|0.991|1.11|||||For the comparison, MB02 DM represents the numerator and US Avastin represents the denominator.|||1.11|0.991|
82467460|NCT04363320|164631530|SUPERIORITY||Slope|0.538|STANDARD_DEVIATION|0.169||0.002|TWO_SIDED|||||a prior threshold 0.05|Mixed Models Analysis||Slope is per month|Change in new patient counts (Combined MOUD) for Intervention Phase (from baseline to 12 months)||||0.002
82467461|NCT04363320|164631530|SUPERIORITY||Slope|0.38|STANDARD_DEVIATION|0.113||0.0008|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Buprenorphine) for Intervention Phase (from baseline to 12 months)||||0.0008
82467462|NCT04363320|164631530|SUPERIORITY||Slope|0.207|STANDARD_DEVIATION|0.129||0.111|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Methadone) for Intervention Phase (from baseline to 12 months)||||0.111
82467463|NCT04363320|164631530|SUPERIORITY||Slope|0.017|STANDARD_DEVIATION|0.014||0.235|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Naltrexone) for Intervention Phase (from baseline to 12 months)||||0.235
82467464|NCT04363320|164631531|SUPERIORITY||Slope|0.153|STANDARD_DEVIATION|0.218||0.485|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month|Change in new patient counts (Combined MOUD) for Sustainability Phase (from 13 to 24 months)||||0.485
82467465|NCT04363320|164631531|SUPERIORITY||Slope|0.642|STANDARD_DEVIATION|0.19||0.0008|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new Justice Involved Person counts (Buprenorphine) for Sustainability Phase (from 13 to 24 months)||||0.0008
82467466|NCT04363320|164631531|SUPERIORITY||Slope|-0.377|STANDARD_DEVIATION|0.154||0.015|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Methadone) for Sustainability Phase (from 13 to 24 months)||||0.015
82467467|NCT04363320|164631531|SUPERIORITY||Slope|-0.02|STANDARD_DEVIATION|0.017||0.241|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in new patient counts (Naltrexone) for Sustainability Phase (from 13 to 24 months)||||0.241
82467468|NCT04363320|164631532|SUPERIORITY||Slope|1.912|STANDARD_DEVIATION|0.438||2e-05|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Combined MOUD) for Intervention Phase (from baseline to 12 months)||||0.00002
82546195|NCT04992390|164791940|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.93|||<=|0.05|TWO_SIDED|95.0|-1.68|-0.17||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Generalised Anxiety Disorder 2-item scale (GAD-2) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.17|-1.68|<=0.05
82467469|NCT04363320|164631532|SUPERIORITY||Slope|0.855|STANDARD_DEVIATION|0.206||4e-05|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Buprenorphine) for Intervention Phase (from baseline to 12 months)||||0.00004
82467470|NCT04363320|164631532|SUPERIORITY||Slope|0.322|STANDARD_DEVIATION|0.206||0.118|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Methadone) for Intervention Phase (from baseline to 12 months)||||0.118
82467471|NCT04363320|164631532|SUPERIORITY||Slope|0.073|STANDARD_DEVIATION|0.031||0.02|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Naltrexone) for Intervention Phase (from baseline to 12 months)||||0.020
82467472|NCT04363320|164631533|SUPERIORITY||Slope|0.617|STANDARD_DEVIATION|0.307||0.045|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Combined MOUD) for Sustainability Phase (from 13 to 24 months)||||0.045
82467473|NCT04363320|164631533|SUPERIORITY||Slope|1.103|STANDARD_DEVIATION|0.229||2e-06|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Buprenorphine) for Sustainability Phase (from 13 to 24 months)||||0.000002
82467474|NCT04363320|164631533|SUPERIORITY||Slope|-0.387|STANDARD_DEVIATION|0.218||0.076|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month|Change in census patient counts (Methadone) for Sustainability Phase (13 to 24 months)||||0.076
82467475|NCT04363320|164631533|SUPERIORITY||Slope|0.086|STANDARD_DEVIATION|0.036||0.019|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis||Slope is per month.|Change in census patient counts (Naltrexone) for Sustainability Phase (from 13 to 24 months)||||0.019
82579405|NCT00095498|164869109|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467476|NCT02260934|164631542|SUPERIORITY|||||||0.58||||||Two-sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 24||||0.58
82467477|NCT02260934|164631542|SUPERIORITY|||||||0.25||||||Two-sided test.|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 48||||0.25
82467478|NCT02260934|164631542|SUPERIORITY|||||||0.15||||||Two-sided test.|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 0 to Week 96.||||0.15
82467479|NCT02260934|164631544|SUPERIORITY|P-value could not be produced because of zero count in at least one of the treatment arms.|||||||||||||Regression, Logistic|Two sided test. P-value could not be produced because of zero count in at least one of the treatment arms.||Week 0 to Week 24|Treatment group was the independent variable in the logistic regression.|||
82467480|NCT02260934|164631544|SUPERIORITY||||||||||||||Regression, Logistic|P-value could not be produced because of zero count in at least one of the treatment arms.||Week 0 to Week 48|P-value could not be produced because of zero count in at least one of the treatment arms.|||
82579406|NCT00095498|164869109|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren Stratified Rank Test|||||||<0.001
82467481|NCT02260934|164631544|SUPERIORITY|P-value could not be produced because of zero count in at least one of the treatment arms|||||||||||||Regression, Logistic|P-value could not be produced because of zero count in at least one of the treatment arms||Week 0 to Week 96 The modified intent to treat population includes all randomized participants who received 1 dose of Solumedrol, 1 dose of rituximab, 1 dose of cyclophosphamide, and, if in the Rituximab/Cyclophosphamide/Belimumab (RCB) arm, 1 dose of belimumab.|P-value could not be produced because of zero count in at least one of the treatment arms|||
82650541|NCT01335464|165016248|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|2.52|5.48|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||5.48|2.52|<0.0001
82650542|NCT01335464|165016251|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.914||||0.0007|TWO_SIDED|95.0|1.32|2.79|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||2.79|1.32|0.0007
82467482|NCT02260934|164631545|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.66||||||Treatment group was the independent variable in the logistic regression.|Regression, Logistic|2 sided test||Week 24||||0.66
82467483|NCT02260934|164631545|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.65||||||Treatment group was the independent variable in the logistic regression.|Regression, Logistic|2 sided test||Week 48|Treatment group was the independent variable in the logistic regression.|||0.65
82546196|NCT04992390|164791941|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.52|||>|0.05|TWO_SIDED|95.0|-1.23|0.19||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Patient Health Questionnaire 2-item version (PHQ-2) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons.(Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.19|-1.23|> .05
82546197|NCT04992390|164791942|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-6.49|||<=|0.001|TWO_SIDED|95.0|-8.48|-4.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Psychological Outcome Profiles (PSYCHLOPS) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-4.51|-8.48|<= 0.001
82546198|NCT04992390|164791943|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-9.78|||<=|0.001|TWO_SIDED|95.0|-15.06|-4.5||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for World Health Organization Disability Assessment Schedule 12-item version (WHODAS 2.0) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-4.50|-15.06|<= 0.001
82546199|NCT04992390|164791944|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|12.32|||<=|0.01|TWO_SIDED|95.0|4.61|20.04||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for 5-level European Quality of Life 5 Dimension (EQ-5D-5L) (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 for EQ-5D-5L subscale comparisons and Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|20.04|4.61|<= 0.01
82561922|NCT02699099|164833018|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seroconversion rates of the anti-rubella antibody, being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|0.5|||||TWO_SIDED|95.0|-1.29|2.78|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||"Difference in seroconversion rates against Rubella antibodies: To demonstrate the non-inferiority of the antibody response to the rubella vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered.~with SB257049 versus administration without SB257049."||2.78|-1.29|
82579407|NCT00095498|164869110|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|||||||van Elteren Stratified Rank Test|||||||0.673
82650543|NCT01335464|165016252|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.847||||0.001|TWO_SIDED|95.0|1.28|2.66|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||2.66|1.28|0.0010
82467484|NCT02260934|164631546|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.64||||||2 sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 24 Treatment group was the independent variable in the logistic regression.||||0.64
82467485|NCT02260934|164631546|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.37||||||2 sided test|Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 48||||0.37
82467486|NCT02260934|164631546|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.32|||||||Regression, Logistic|Treatment group was the independent variable in the logistic regression.||Week 96||||0.32
82467487|NCT02260934|164631547|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.91||||||2 sided test|Regression, Logistic|2 sided test||Week 96||||0.91
82467488|NCT02260934|164631548|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.73||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 24||||.73
82467489|NCT02260934|164631548|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.26||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 48||||0.26
82467490|NCT02260934|164631548|SUPERIORITY|Treatment group was the independent variable in the logistic regression.||||||0.29||||||2 sided test|Regression, Logistic|2 sided test||Week 0 to Week 96||||0.29
82467491|NCT02260934|164631549|SUPERIORITY|2 sided test|||||>|0.99||||||2 sided test|Fisher Exact|2 sided test||Week 0 to Week 24||||>0.99
82467492|NCT02260934|164631550|SUPERIORITY|2 sided test||||||0.49||||||2 sided test|Fisher Exact|2 sided test||Week 0 to Week 48||||0.49
82467493|NCT02260934|164631552|SUPERIORITY|2 sided test||||||0.89||||||2 sided test|Regression, Logistic|||Treatment group was the independent variable in the logistic regression.||||0.89
82467494|NCT02260934|164631552|SUPERIORITY|Week 48||||||0.47||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.47
82467495|NCT02260934|164631552|SUPERIORITY|Week 96||||||0.94||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.94
82467496|NCT02260934|164631553|SUPERIORITY|Week 24||||||0.08||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.08
82467497|NCT02260934|164631553|SUPERIORITY|Week 48||||||0.11||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.11
82467498|NCT02260934|164631553|SUPERIORITY|Week 96||||||0.05||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.05
82467499|NCT02260934|164631554|SUPERIORITY|Week 24||||||0.2||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||.20
82467500|NCT02260934|164631554|SUPERIORITY|Week 48|||||>|0.99||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||>0.99
82467501|NCT02260934|164631554|SUPERIORITY|Week 96||||||0.63||||||2 sided test|Regression, Logistic|2 sided test||Treatment group was the independent variable in the logistic regression.||||0.63
82467502|NCT01436526|164631557|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|108.35||||0.0438||90.0|101.59|115.57|||ANOVA|||||115.57|101.59|0.0438
82467503|NCT01436526|164631558|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|108.19||||0.0514||90.0|101.31|115.54|||ANOVA|||||115.54|101.31|0.0514
82467504|NCT01436526|164631559|NON_INFERIORITY_OR_EQUIVALENCE|Using an estimated intra-subject coefficient of variation of less than 20% for AUC and Cmax, and a level of significance of 5%, a sample size of 25 completers was considered sufficient to conclude bioequivalence between 2\*5 mg and 1\*10 mg rivaroxaban with 90% power, if the 2 treatment means differed by 5%.|LS-Mean Ratio, Percent|111.64||||0.0685||90.0|101.14|123.23|||ANOVA|||||123.23|101.14|0.0685
82467505|NCT03605667|164631565|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.93||0.9809|TWO_SIDED|95.0|-1.8|1.8|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, mini-mental state examination (MMSE) randomization stratification, apolipoprotein E (APoE) status (carrier/non carrier), as covariates, and repeated measures for visit within participant.||1.8|-1.8|0.9809
82467506|NCT03605667|164631566|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4474|TWO_SIDED|95.0|-0.8|0.3|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APoE status (carrier/non carrier), as covariates, and repeated measures for visit within participant.||0.3|-0.8|0.4474
82467507|NCT03605667|164631567|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.867|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Model based summary statistics were from an analysis of covariance (ANCOVA) with baseline MMSE total score as covariate.||0.5|-0.6|0.8670
82467508|NCT03605667|164631568|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|1.6|STANDARD_ERROR_OF_MEAN|1.21||0.195|TWO_SIDED|95.0|-0.8|3.9|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||3.9|-0.8|0.1950
82579408|NCT00095498|164869110|SUPERIORITY_OR_OTHER_LEGACY|||||||0.589|||||||van Elteren Stratified Rank Test|||||||0.589
82579409|NCT00095498|164869111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||van Elteren Stratified Rank Test|||||||0.175
82650544|NCT01335464|165016253|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.4298|TWO_SIDED|95.0|0.55|1.29|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, baseline SGRQ total score||1.29|0.55|0.4298
82650545|NCT01335464|165016254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|1.744||0.1832|TWO_SIDED|95.0|-5.74|1.1|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Symptoms component, baseline SGRQ Symptoms component-by-visit and random effect for patient.||1.10|-5.74|0.1832
82467509|NCT03605667|164631569|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|1.5|STANDARD_ERROR_OF_MEAN|1.31||0.2583|TWO_SIDED|95.0|-1.1|4.1|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||4.1|-1.1|0.2583
82467510|NCT03605667|164631570|SUPERIORITY|Unstructure covariance structure.|Least square mean difference|0.4|STANDARD_ERROR_OF_MEAN|0.48||0.4191|TWO_SIDED|95.0|-0.6|1.3|||Mixed model with repeated measures|||Model based summary statistics are from a mixed model with repeated measures, including fixed effects for pooled site ID, treatment, visit, treatment-by-visit interaction, baseline, baseline-by-visit interaction, MMSE randomization stratification, APOE status (carrier/non-carrier), as covariates, and repeated measures for visit within participant.||1.3|-0.6|0.4191
82467511|NCT03605667|164631572|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.224|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||Model based summary statistics are from an ANCOVA with baseline MMSE total score as covariate.||0.3|-1.2|0.2240
82467512|NCT03605667|164631573|SUPERIORITY|||||||0.0161|||||||Fisher Exact|||||||0.0161
82467513|NCT05178173|164631685|SUPERIORITY|||||||0.59||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.59
82467514|NCT05178173|164631685|SUPERIORITY|||||||0.18||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N1||||0.18
82467515|NCT05178173|164631685|SUPERIORITY|||||||0.78||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.78
82467516|NCT05178173|164631685|SUPERIORITY|||||||0.08||||||The a priori threshold for statistical significance is \<0.05.|Mixed Models Analysis|||SARS CoV-2 N2||||0.08
82561923|NCT02699099|164833021|NON_INFERIORITY|Non-inferiority was defined as the upper limit of the 95% confidence interval (CI) for the difference in seropositivity rates of the anti-yellow fever antibody , being below 10% for the two groups (Control Group minus Coad Group).|Difference in percentage|0.55|||||TWO_SIDED|95.0|-2.3|3.65|||Miettinen and Nurminen method|Miettinen and Nurminen method was used to construct 95%CI for difference between groups||Difference in seropositivity rates against Yellow Fever antibodies: To demonstrate the non-inferiority of the antibody response to the YF vaccine antigen when YF vaccine and a combined measles and rubella vaccine are coadministered with SB257049 versus administration without SB257049.||3.65|-2.30|
82376858|NCT04856930|164460567|SUPERIORITY||Least Square (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.25||0.7841|TWO_SIDED|90.0|-2.42|1.73||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|Linear repeated measures model (LRMM)|||||1.73|-2.42|0.7841
82467517|NCT00400179|164631694|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3952||95.0|||||Fisher Exact|||||||0.3952
82467518|NCT00400179|164631695|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0808|TWO_SIDED|95.0|0.57|1.03|||Log Rank|||||1.03|0.57|0.0808
82467519|NCT00400179|164631696|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.99||||0.9158|TWO_SIDED|95.0|0.86|1.14|||Log Rank|||||1.14|0.86|0.9158
82467520|NCT00400179|164631697|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.032|TWO_SIDED|95.0|0.77|0.99|||Log Rank|||||0.99|0.77|0.0320
82467521|NCT00400179|164631698|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.1983|TWO_SIDED|95.0|0.8|1.05|||Log Rank|||||1.05|0.80|0.1983
82467522|NCT04780061|164631699|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||An area under the curve approach was used to analyze the primary outcome, whereby participants' scores for each assessment were summed over the 21-day period. For missing values, we imputed the mean of the most recent and first subsequent measurement or carried the last observation forward if there was no subsequent measurement.||||0.53
82467523|NCT04780061|164631701|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82467524|NCT04780061|164631702|SUPERIORITY|||||||0.81|||||||Log Rank|||||||0.81
82467525|NCT00626106|164631714|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.542|TWO_SIDED|95.0|-0.11|0.07|||ANCOVA|||||0.07|-0.11|0.542
82467526|NCT00091949|164631769|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.0067|TWO_SIDED|95.0|0.62|0.93||P-value adjusted for interim looks.|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for interim looks.|||0.93|0.62|.0067
82579410|NCT00095498|164869111|SUPERIORITY_OR_OTHER_LEGACY|||||||0.133|||||||van Elteren Stratified Rank Test|||||||0.133
82467527|NCT00091949|164631770|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.19|TWO_SIDED|95.0|0.61|1.1||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; conference interval (CI) adjusted for multiplicity (5 secondary outcomes).|||1.1|0.61|0.19
82467528|NCT00091949|164631771|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.11|TWO_SIDED|95.0|0.52|1.07||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.07|0.52|0.11
82467529|NCT00091949|164631773|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.52|TWO_SIDED|95.0|0.73|1.17||p-value adjusted for multiplicity (5 secondary outcomes)|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.17|0.73|0.52
82650546|NCT01335464|165016255|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.446||0.551|TWO_SIDED|95.0|-1.97|3.7|||Mixed Models Analysis||"Within-patient error are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ impact component, baseline SGRQ Impact component-by-visit and random effect for patient||3.70|-1.97|0.5510
82467530|NCT00091949|164631774|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.023||||0.88|TWO_SIDED|95.0|-0.326|0.28|||Mixed Models Analysis||Pioglitazone arm compared to placebo.|Changes in modified mini-mental examination (3MS) score from baseline (to annual scores) were analyzed using a longitudinal repeated measures mixed effects model.||0.280|-0.326|0.88
82467531|NCT00091949|164631775|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.11|TWO_SIDED|95.0|0.65|1.05||P-value adjusted for multiplicity (5 secondary outcomes).|Regression, Cox||Pioglitazone arm compared to placebo; CI adjusted for multiplicity (5 secondary outcomes).|||1.05|0.65|0.11
82467532|NCT05366738|164631776|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|103.36|||||TWO_SIDED|90.0|97.64|109.41||||||||109.41|97.64|
82467533|NCT05366738|164631776|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|97.83|||||TWO_SIDED|90.0|92.42|103.56||||||||103.56|92.42|
82467534|NCT05366738|164631777|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|102.56|||||TWO_SIDED|90.0|97.25|108.15||||||||108.15|97.25|
82467535|NCT05366738|164631777|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|97.61|||||TWO_SIDED|90.0|92.55|102.93||||||||102.93|92.55|
82467536|NCT05366738|164631778|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|103.96|||||TWO_SIDED|90.0|96.49|112.0||||||||112.00|96.49|
82467537|NCT05366738|164631778|EQUIVALENCE|Bioequivalence was concluded if the 90% confidence interval for the geometric mean ratio between the test treatments (20 mg sprinkle capsule, either sprinkled on pudding or on applesauce) and the reference treatment (20 mg tablet) were wholly contained within 80.00% and 125.00% for the vonoprazan PK parameters.|Ratio of Geometric Least Square Means|100.6|||||TWO_SIDED|90.0|93.38|108.39||||||||108.39|93.38|
82467538|NCT01347112|164631818|SUPERIORITY_OR_OTHER|||||||0.034||||||1 tailed fisher's exact test|Fisher Exact|1 tailed||||||0.034
82467539|NCT01347112|164631819|SUPERIORITY_OR_OTHER|||||||0.044||||||1 tailed fisher's exact|Fisher Exact|1 tailed||||||0.044
82467540|NCT01347112|164631820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|90.0|-4.7|2.1|||||data were analyzed using analysis of covariance with treatment as the independent variable and the baseline value included as the co-variate|||2.1|-4.7|
82579411|NCT00128102|164869247|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.858|TWO_SIDED|95.0|0.83|1.17|||Log Rank|||||1.17|0.83|0.858
82467541|NCT01074814|164631867|OTHER||||||||||||||||||Results for the primary objective - evaluation of GMI - were presented with descriptive statistics as the ration of PFS on current therapy over the PFS on latest therapy. The percentage of patients with GMI greater than 1.3 was displayed along with its corresponding 95% exact confidence interval.|||
82467542|NCT03591406|164631868|NON_INFERIORITY|Pre-defined non-inferiority margin of -15%|Difference in proportions|1.12|||||TWO_SIDED|95.0|-2.15|4.71|||||2-sided 95% Confidence Interval (CI) was computed using the Wilson score method with continuity correction described by Newcombe.|||4.71|-2.15|
82467543|NCT00321620|164631882|NON_INFERIORITY_OR_EQUIVALENCE|A synthesis method was used for the non-inferiority test for the hypothesis that denosumab preserves as least 50% of the effect of zoledronic acid vs. placebo.|Hazard Ratio (HR)|0.82||||0.0002||95.0|0.71|0.95|||Regression, Cox||Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy)|||0.95|0.71|0.0002
82546200|NCT04992390|164791945|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|0.46|||<=|0.001|TWO_SIDED|95.0|0.2|0.71||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Scale of Work Engagement and Burnout (SWEBO) - Work Engagement Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.71|0.20|<= 0.001
82579412|NCT00128102|164869251|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.63|0.88|||Likelihood Based Score Test|||||0.88|0.63|<0.001
82467544|NCT00321620|164631883|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0085||95.0|0.71|0.95|||Regression, Cox|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy).|||0.95|0.71|0.0085
82467545|NCT00321620|164631884|SUPERIORITY_OR_OTHER||Rate ratio|0.82||||0.0085||95.0|0.71|0.94|||Anderson-Gill model|P-value was adjusted for multiplicity according to a hierarchical testing strategy and Hochberg procedure.|Stratified by the randomization stratification factors (previous skeletal-related event, prostate-specific antigen level, and current chemotherapy).|||0.94|0.71|0.0085
82467546|NCT01887327|164631885|OTHER||LS Mean Difference vs Placebo|-31.64|||=|2.1e-06|TWO_SIDED|95.0|-44.0|-19.283|||LS Mean Difference vs Placebo|||||-19.283|-44.000|=0.0000021
82467547|NCT01887327|164631885|OTHER||LS Mean Difference vs Placebo|-27.4|||=|2.6e-05|TWO_SIDED|95.0|-39.657|-15.142|||LS Mean Difference vs Placebo|||||-15.142|-39.657|=0.0000260
82467548|NCT01462370|164631889|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The noninferiority margin is -3.7 units.|Difference in LS Means|0.89||||0.043|TWO_SIDED|95.0|0.03|1.76||A priori threshold for statistical significance = \<0.025 (one-sided).|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||With at least 128 participants, the study had a 92% power to establish that etoricoxib is noninferior to ibuprofen (null hypothesis). The power and sample size were based on the following assumptions: 1) an approximately 15% protocol violation rate, 2) a noninferiority margin of -3.7 units (etoricoxib minus ibuprofen), and 3) an intrapatient standard deviation of 8 units.||1.76|0.03|0.043
82467549|NCT01462370|164631890|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.2||||0.768|TWO_SIDED|95.0|-1.16|1.57||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||1.57|-1.16|0.768
82467550|NCT01462370|164631891|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.26||||0.007|TWO_SIDED|95.0|0.07|0.45||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.45|0.07|0.007
82467551|NCT01462370|164631892|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.36|||<|0.001|TWO_SIDED|95.0|0.17|0.54||A nominal threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.54|0.17|<0.001
82467552|NCT01462370|164631893|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.371|TWO_SIDED|95.0|0.7|1.14||A priori threshold for statistical significance = \<0.05.|Regression, Cox|Adjusted for treatment, period, and baseline pain intensity.||||1.14|0.70|0.371
82467553|NCT01462370|164631894|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.1||||0.051|TWO_SIDED|95.0|0.0|0.2||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.20|-0.00|0.051
82467554|NCT01462370|164631895|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference in LS Means|0.17||||0.019|TWO_SIDED|95.0|0.03|0.32||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.32|0.03|0.019
82467555|NCT01462370|164631897|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.31||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.31|0.10|<0.001
82467556|NCT01462370|164631898|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.28||||0.002|TWO_SIDED|95.0|0.1|0.45||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.45|0.10|0.002
82467557|NCT01462370|164631899|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.11||||0.011|TWO_SIDED|95.0|0.03|0.2||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.20|0.03|0.011
82467558|NCT01462370|164631900|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.26||||0.004|TWO_SIDED|95.0|0.08|0.44||A priori threshold for statistical significance = \<0.05.|ANOVA|Adjusted for treatment, period, sequence, patient (sequence), and baseline pain intensity (moderate or severe).||||0.44|0.08|0.004
82467559|NCT01462370|164631901|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.112|TWO_SIDED|95.0|0.9|2.87||A priori threshold for statistical significance = \<0.05.|Regression, Logistic|Adjusted for treatment, period, and baseline pain intensity.||||2.87|0.90|0.112
82546201|NCT04992390|164791945|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.61|||<=|0.001|TWO_SIDED|95.0|-0.87|-0.34||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Scale of Work Engagement and Burnout (SWEBO) - Work Burnout Subscale (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|-0.34|-0.87|<= 0.001
82561924|NCT02699099|164833047|NON_INFERIORITY|Non-inferiority (1 month post-Dose 3 of SB257049) was defined as the upper limit (UL) of the 2-sided 95% confidence interval (CI) of the geometric mean concentration (GMC) ratio (RTS,S group/Coad group) for anti-CS, being below a limit of 2.|Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07|||ANOVA|||Adjusted GMC ratios for anti-CS antibody: To demonstrate the non-inferiority of the antibody response to the CS antigen when SB257049 is co-administered with YF vaccine and a combined measles and rubella vaccine versus SB257049 administered alone.||1.07|0.81|
82467560|NCT01462370|164631902|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.97||||0.019|TWO_SIDED|95.0|1.12|3.45||A priori threshold for statistical significance = \<0.05.|Regression, Logistic|Adjusted for treatment, period, and baseline pain intensity.||||3.45|1.12|0.019
82467561|NCT02584686|164631919|SUPERIORITY_OR_OTHER|||||||0.0049|||||||t-test, 1 sided|||Comparing the mean PSV before \& after treatment in the study group using the t-test.||||0.0049
82467562|NCT02584686|164631919|SUPERIORITY_OR_OTHER|||||||0.68|||||||t-test, 1 sided|||Comparing the mean PSV before \& after treatment in the control group using the t-test.||||0.68
82467563|NCT02584686|164631921|SUPERIORITY_OR_OTHER|||||||0.01086956|||||||Wilcoxon (Mann-Whitney)|||Comparing the Erection hardness score before \& after treatment in the study group.||||0.01086956
82467564|NCT02584686|164631921|SUPERIORITY_OR_OTHER|||||||0.6618176|||||||Wilcoxon (Mann-Whitney)|||Comparing the Erection hardness score before \& after treatment in the control group.||||0.6618176
82467565|NCT02584686|164631923|SUPERIORITY_OR_OTHER|||||||0.00751288|||||||Wilcoxon (Mann-Whitney)|||SHIM Score in the study group before \& after treatment.||||0.00751288
82467566|NCT02584686|164631923|SUPERIORITY_OR_OTHER|||||||0.6618176|||||||Wilcoxon (Mann-Whitney)|||SHIM Score in the control group before \& after treatment.||||0.6618176
82467567|NCT02584686|164631924|SUPERIORITY_OR_OTHER|||||||0.027191||||||"Due to the small sample size Fisher exact test was chosen. 7 out of 12 in the treatment group answered yes, while 1 out of 12 in the control group answered yes."|Fisher Exact|||||||0.027191
82467568|NCT02584686|164631926|SUPERIORITY_OR_OTHER|||||||0.109091|||||||Fisher Exact|||"Fisher Exact Test was used to compare the change in the number of in patients who answered Yes in Secondary Outcome 8 (SEP-Q2 Question Before Treatment) to patients who answered Yes in Secondary Outcome 9 (SEP-Q2 Question after Treatment), for both (BTXA) and Saline groups."||||0.109091
82467569|NCT02584686|164631928|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||"Fisher Exact Test was used to compare the change in patients who answered Yes in Secondary Outcome 10 (SEP-Q3 Question Before Treatment) to patients who answered Yes in Secondary Outcome 11 (SEP-Q3 Question after Treatment)."||||1
82467570|NCT01122238|164631929|SUPERIORITY_OR_OTHER|||||||0.665|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.665
82467571|NCT01122238|164631929|SUPERIORITY_OR_OTHER|||||||0.562|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.562
82467572|NCT01122238|164631929|SUPERIORITY_OR_OTHER|||||||0.536|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.536
82467573|NCT01122238|164631929|SUPERIORITY_OR_OTHER|||||||0.206|TWO_SIDED||||||ANCOVA|The mean values tested and reported consist of residualized change scores from the ANCOVA.||The ANCOVA model included intervention main effects and intervention interactions plus baseline cigarettes per day, education, race, and time to first daily cigarette as covariates. Intervention main effects included Nicotine Patch vs. No Nicotine Patch; Nicotine Gum vs. No Nicotine Gum; Smoking Reduction vs. No Smoking Reduction; and Motivational Interviewing vs. No Motivational Interviewing.||||.206
82467574|NCT01122238|164631930|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|0.0||||0.98|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.98
82467575|NCT01122238|164631930|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|-0.04||||0.4|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.40
82467576|NCT01122238|164631930|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|0.0||||0.99|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.99
82467577|NCT01122238|164631930|SUPERIORITY_OR_OTHER||Standardized Regression Coefficient|-0.04||||0.33|TWO_SIDED||||||Regression, Linear|||The linear regression model effects consisted of four treatment main effects, six two-way treatment interactions, four three-way treatment interactions, and one four-way interaction. Only the results for the treatment main effects are being reported in ClinicalTrials.gov.||||.33
82467578|NCT02121158|164631942|EQUIVALENCE|Unadjusted|Hazard Ratio (HR)|0.915||||0.7457|TWO_SIDED|95.0|0.534|1.568|||Cox Proportional Hazards|||||1.568|0.534|0.7457
82467579|NCT02703597|164631943|SUPERIORITY||Odds Ratio (OR)|1.15||||0.8|TWO_SIDED|95.0|0.32|4.2|||Mixed Models Analysis|||"Hypothesis: Participants in the GSA-ASPIRE-Network Group will be more likely to decrease in susceptibility to vaping than participants in the ASPIRE group.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||4.20|0.32|0.80
82467580|NCT02703597|164631943|SUPERIORITY||Odds Ratio (OR)|0.17|||<|0.01|TWO_SIDED|95.0|0.06|0.43|||Mixed Models Analysis|||"Hypothesis: Participants in both arms will decrease in susceptibility to vaping over time.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||0.43|0.06|<0.01
82467581|NCT02703597|164631944|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7|TWO_SIDED|95.0|0.16|3.49|||Mixed Models Analysis|||"Hypothesis: Adolescents who participated in the GSA-ASPIRE-Network group will be more likely to decrease in susceptibility to using conventional tobacco than adolescents who participated in the ASPIRE group.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||3.49|0.16|0.70
82467582|NCT02703597|164631944|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.01|TWO_SIDED|95.0|0.04|0.4|||Mixed Models Analysis|||"Hypothesis: Participants in both arms will decrease in susceptibility of using conventional tobacco over time.~The statistical analysis was conducted for 10 out of the 15 participating sites, to avoid bias with respect to the sites that participated in different conditions (i.e., 1 site in a school classroom during class time and 4 sites in the summer camp during summer time)."||0.40|0.04|<0.01
82467583|NCT01523366|164631950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-167.2|STANDARD_ERROR_OF_MEAN|14.6|<|0.001|TWO_SIDED|95.0|-197.0|-137.4|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|||-137.4|-197.0|<.001
82561925|NCT01513447|164833060|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Fisher Exact|||||||0.67
82579413|NCT00128102|164869252|SUPERIORITY||Difference in Percentage|0.3||||0.621|TWO_SIDED|95.0|-1.18|1.97|||Fisher Exact|||||1.97|-1.18|0.621
82467584|NCT01523366|164631951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-135.2|STANDARD_ERROR_OF_MEAN|18.23|<|0.001|TWO_SIDED|95.0|-172.3|-98.0|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 0.5 hours after the loading dose||-98.0|-172.3|<.001
82467585|NCT01523366|164631951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-168.9|STANDARD_ERROR_OF_MEAN|17.28|<|0.001|TWO_SIDED|95.0|-204.0|-133.7|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 8 hours after the loading dose||-133.7|-204.0|<.001
82467586|NCT01523366|164631952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-150.5|STANDARD_ERROR_OF_MEAN|12.97|<|0.001|TWO_SIDED|95.0|-176.9|-124.1|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus Clopidogrel|Analysis at 2 hours on Day 7 after multiple doses||-124.1|-176.9|<.001
82467587|NCT01523366|164631952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-140.2|STANDARD_ERROR_OF_MEAN|13.84|<|0.001|TWO_SIDED|95.0|-168.4|-111.9|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel.|Analysis at 8 hours on Day 7 after multiple doses||-111.9|-168.4|<.001
82467588|NCT01523366|164631952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-130.6|STANDARD_ERROR_OF_MEAN|13.41|<|0.001|TWO_SIDED|95.0|-158.0|-103.2|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel.|Analysis at end of dosing interval on Day 8||-103.2|-158.0|<.001
82467589|NCT00449696|164631966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.91||||0.122||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.122
82467590|NCT00449696|164631967|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.42||||0.071||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.071
82467591|NCT00449696|164631968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.64||||0.058||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.058
82467592|NCT00449696|164631969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.022||95.0||||P-value for strict OMERACT-OARSI response.|Generalized Estimating Equation Model|||||||0.022
82467593|NCT00449696|164631969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.242||95.0||||P-value for OMERACT-OARSI response.|Generalized Estimating Equation Model|||||||0.242
82467594|NCT00449696|164631970|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||P-value for physical component scores, physical function subscale, role physical subscale, and bodily pain subscale.|Wilcoxon (Mann-Whitney)|||||||>0.05
82561926|NCT01513447|164833061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|102.0||||0.29|TWO_SIDED|95.0|-230.0|171.0|||Wilcoxon (Mann-Whitney)|||||171|-230|0.29
82467595|NCT00449696|164631971|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.39||||0.037||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.037
82561927|NCT01241448|164833066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.29||||0.094|TWO_SIDED|90.0|-0.58|-0.01||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.01|-0.58|0.094
82579414|NCT00128102|164869253|SUPERIORITY||Difference in Percent Change|-52.4||||0.259|TWO_SIDED|95.0|-143.5|38.6|||Longitudinal Model|||||38.6|-143.5|0.259
82467596|NCT00449696|164631972|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.92||||0.746||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.746
82467597|NCT00449696|164631973|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.56||||0.166||95.0|||||Quadratic Spline Model||Tested superiority of Gel-200 using quadratic spline model for difference between Gel-200 and PBS placebo. Only difference between groups was presented by the pre-specified model as primary endpoint.|||||0.166
82467598|NCT00449696|164631974|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.041
82467599|NCT02105740|164631976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|STANDARD_DEVIATION|1.178||0.034|TWO_SIDED|95.0|0.224|5.11|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) for both arms with a statistical power of 95%, significance level of 5%. Statistical analysis first compared the difference of means between hypnosis and control groups during three weeks.||5.110|0.224|0.034
82467600|NCT02105740|164631976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.66|STANDARD_DEVIATION|0.856||0.004|TWO_SIDED|95.0|1.253|6.08|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) with a statistical power of 95%, significance level of 5%. Statistical analysis compared the difference in pain average between the first and the second week in the hypnosis group.||6.080|1.253|0.004
82467601|NCT02105740|164631976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.25|STANDARD_DEVIATION|0.827||0|TWO_SIDED|95.0|2.918|7.582|||ANOVA|||The clinical significance was considered with a difference of 3 points on the Visual Analogue Scale (VAS) with a statistical power of 95%, significance level of 5%. Statistical analysis compared the difference in pain average between the first and the third week in the hypnosis group.||7.582|2.918|0.000
82467602|NCT02105740|164631977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||||TWO_SIDED|||||||||Statistical analysis evaluated if the difference of averages of anxiety at the hypnosis and control groups in the third week.||||
82579415|NCT00128102|164869254|SUPERIORITY||Difference in Percentage|-1.3||||0.736|TWO_SIDED|95.0|-7.2|4.53|||Fisher Exact|||||4.53|-7.20|0.736
82467603|NCT02105740|164631977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|||||||||Statistical analysis evaluated if the difference of averages of depression at the hypnosis and control groups in the third week.||||
82467604|NCT03431259|164631978|SUPERIORITY|||||||0.0574|||||||Chi-squared|||||||.0574
82467605|NCT03431259|164631978|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.570
82467606|NCT00551642|164631980|OTHER||Odds Ratio (OR)|1.05||||0.734|TWO_SIDED||||||Wald Chi-square|||||||0.7340
82546202|NCT04992390|164791946|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|1.5|||>|0.05|TWO_SIDED|95.0|0.64|3.51||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for Sickness absence (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|3.51|0.64|> .05
82546203|NCT04992390|164791947|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Mean Difference (Final Values)|-0.86|||>|0.05|TWO_SIDED|95.0|-2.2|0.49||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Linear|||ITT analysis for Intention to leave job (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Tables for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|0.49|-2.20|> .05
82546204|NCT04992390|164791948|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|0.8|||>|0.05|TWO_SIDED|95.0|0.6|1.07||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for number of days worked (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|1.07|0.60|>.05
82561928|NCT01241448|164833066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.62|||<|0.001|TWO_SIDED|90.0|-0.9|-0.34||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.34|-0.90|<0.001
82376859|NCT04856930|164460567|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.25||0.2885|TWO_SIDED|90.0|-0.74|3.4||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||3.40|-0.74|0.2885
82579416|NCT00128102|164869255|SUPERIORITY||Difference in Percent Change|-0.06||||0.979|TWO_SIDED|95.0|-4.61|4.49|||Longitudinal Model|||||4.49|-4.61|0.979
82579417|NCT00128102|164869256|SUPERIORITY||Difference in Percentage|3.1||||0.488|TWO_SIDED|95.0|-4.97|11.17|||Fisher Exact|||||11.17|-4.97|0.488
82467607|NCT01353898|164632020|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.62|||||||||||||Geometric mean ratio of HIV-1/Healthy. Analyzed using a linear mixed model with fixed factors: dose, health-status and the interaction between dose and health-status.|Compared to historical data for AUC0-24hrs measured on Day 7 for healthy participants treated with 200 mg MK-1972 once daily||||
82467608|NCT01353898|164632020|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.84|||||||||||||Geometric mean ratio of HIV-1/Healthy. Analyzed using a linear mixed model with fixed factors: dose, health-status and the interaction between dose and health-status.|Compared to historical data for AUC0-24hrs measured on Day 7 for healthy participants treated with 800 mg MK-1972 once daily||||
82467609|NCT01353898|164632021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||||||||||||||||
82467610|NCT01353898|164632021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||||||||||||||||
82467611|NCT01353898|164632021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||||||||||||||||
82467612|NCT01353898|164632021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||||||||||||||||
82467613|NCT01353898|164632021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.83||||||||||||||||||
82467614|NCT01903460|164632023|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-40.707||||0.574|TWO_SIDED|95.0|-191.679|110.265|||ANCOVA|||Analysis of LUM001 140ug/kg/day||110.265|-191.679|0.5740
82467615|NCT01903460|164632023|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-7.231||||0.9147|TWO_SIDED|95.0|-148.726|134.264|||ANCOVA|||Analysis of LUM001 280ug/kg/day||134.264|-148.726|0.9147
82467616|NCT01903460|164632023|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-23.969||||0.6954|TWO_SIDED|95.0|-151.969|104.031|||ANCOVA|||Analysis of all doses of LUM001||104.031|-151.969|0.6954
82467617|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|56.7||||0.0783|TWO_SIDED|95.0|-7.2|120.6|||ANCOVA|||Analysis of LUM001 140ug/kg/day for ALT||120.6|-7.2|0.0783
82467618|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|7.8||||0.7827|TWO_SIDED|95.0|-51.4|67.0|||ANCOVA|||Analysis of LUM001 280ug/kg/day for ALT||67.0|-51.4|0.7827
82467619|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|32.2||||0.2235|TWO_SIDED|95.0|-21.9|86.3|||ANCOVA|||Analysis of all doses of LUM001 for ALT||86.3|-21.9|0.2235
82467620|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|24.0||||0.2372|TWO_SIDED|95.0|-17.5|65.5|||ANCOVA|||Analysis of LUM001 140ug/kg/day for AST||65.5|-17.5|0.2372
82467621|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-15.8||||0.3914|TWO_SIDED|95.0|-54.1|22.4|||ANCOVA|||Analysis of LUM001 280ug/kg/day for AST||22.4|-54.1|0.3914
82467622|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|4.1||||0.8081|TWO_SIDED|95.0|-31.0|39.1|||ANCOVA|||Analysis of all doses of LUM001 for AST||39.1|-31.0|0.8081
82467623|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|51.7||||0.5748|TWO_SIDED|95.0|-140.3|243.7|||ANCOVA|||Analysis of LUM001 140ug/kg/day for ALP||243.7|-140.3|0.5748
82467624|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|11.9||||0.8835|TWO_SIDED|95.0|-158.4|182.2|||ANCOVA|||Analysis of LUM001 280ug/kg/day for ALP||182.2|-158.4|0.8835
82467625|NCT01903460|164632024|SUPERIORITY_OR_OTHER||LS mean difference from placebo|31.8||||0.6917|TWO_SIDED|95.0|-135.8|199.4|||ANCOVA|||Analysis of all doses of LUM001 for ALP||199.4|-135.8|0.6917
82467626|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.348||||0.6907|TWO_SIDED|95.0|-2.468|1.772|||ANCOVA|||Analysis of LUM001 140ug/kg/day for Patient ItchRO||1.772|-2.468|0.6907
82467627|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|0.202||||0.7897|TWO_SIDED|95.0|-1.647|2.052|||ANCOVA|||Analysis of LUM001 280ug/kg/day for Patient ItchRO||2.052|-1.647|0.7897
82467628|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.073||||0.9203|TWO_SIDED|95.0|-1.85|1.705|||ANCOVA|||Analysis of all doses of LUM001 for Patient ItchRO||1.705|-1.850|0.9203
82467629|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.21||||0.5966|TWO_SIDED|95.0|-1.038|0.618|||ANCOVA|||Analysis of LUM001 140ug/kg/day for Observer ItchRO||0.618|-1.038|0.5966
82467630|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|0.173||||0.632|TWO_SIDED|95.0|-0.58|0.926|||ANCOVA|||Analysis of LUM001 280ug/kg/day for Observer ItchRO||0.926|-0.580|0.6320
82467631|NCT01903460|164632025|SUPERIORITY_OR_OTHER||LS mean difference from placebo|-0.019||||0.9547|TWO_SIDED|95.0|-0.71|0.673|||ANCOVA|||Analysis of all doses of LUM001 for Observer ItchRO||0.673|-0.710|0.9547
82546205|NCT04992390|164791949|SUPERIORITY|Multilevel modelling (MLM) was performed with baseline measure, binary arm status, follow-up time and arm-by-time interaction included as fixed-effect covariates. Individual participant was also included as a level-two analytical unit, to quantify: (a) between-group treatment effect estimates and (b) within-group changes between each follow-up time for secondary outcome measures.|Incidence Rate Ratio|1.09|||<|0.05|TWO_SIDED|95.0|0.57|2.09||No multiplicity adjustments were applied as there was only one primary outcome, and secondary outcomes aimed to support the primary analyses. The a priori threshold for statistical significance was 0.05.|Regression, Multilevel Poisson|||ITT analysis for number of nights worked (treatment effects for between-arm comparisons) at week 4.|Please see Iyadurai et al., 2023 Supplementary Materials for within-subjects comparisons. (Iyadurai, et al. Transl Psychiatry 13, 290 (2023). https://doi.org/10.1038/s41398-023-02578-0)|2.09|0.57|<.05
82467632|NCT05720897|164632098|SUPERIORITY|||||||0.399||||||The calculations are based on a Mann Whitney calculation.|Wilcoxon (Mann-Whitney)|||The study has an 80% power to detect changes in patient's self-reported anxiety as measured by their responses to the psychometrically validated STAI-S \& T instrument of 3.6 within each group (with an effect size of 0.55) and differences of a 5.0 between groups (with an effect size of 0.77).||||.399
82467633|NCT02086175|164632104|SUPERIORITY||percent|48.0||||0.044|TWO_SIDED|90.0|31.0|66.0|||Fisher Exact|||"Patients will be accrued in a single stage design, with a goal accrual of 25 patients.~Assuming a 30% response rate with rituximab alone, if the true but unknown rate of CR or PR is 50% with the addition of Imprime PGG, the probability of observing 11 or more patients with a response is 0.79 with 0.098 one-sided type-I error.~Therefore a study with 25 patients, in which an observed response rate of 11/25 (44%) would be considered worthy of further consideration."||66|31|0.044
82467634|NCT05565742|164632117|SUPERIORITY||LS Mean difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|8.82|<|0.001|TWO_SIDED|95.0|-55.8|-20.6|||Mixed Models Analysis|||||-20.6|-55.8|<0.001
82467635|NCT05565742|164632117|SUPERIORITY||LS Mean difference (Final Values)|-75.2|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-80.4|-68.5|||Mixed Models Analysis|||||-68.5|-80.4|<0.001
82467636|NCT05565742|164632117|SUPERIORITY||LS Mean difference (Final Values)|-93.9|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-95.1|-92.5|||Mixed Models Analysis|||||-92.5|-95.1|<0.001
82467637|NCT05565742|164632118|SUPERIORITY||LS Mean difference (Final Values)|-38.9|STANDARD_ERROR_OF_MEAN|9.43||0.002|TWO_SIDED|95.0|-54.9|-17.2|||Mixed Models Analysis|||||-17.2|-54.9|0.002
82467638|NCT05565742|164632118|SUPERIORITY||LS Mean difference (Final Values)|-77.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-82.4|-71.1|||Mixed Models Analysis|||||-71.1|-82.4|<0.001
82546206|NCT05028582|164791956|SUPERIORITY||Odds Ratio, log|5.19|||<|0.0001|TWO_SIDED|97.5|2.9|9.31|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|S-IGA Success at Week 8||9.31|2.90|<0.0001
82467639|NCT05565742|164632118|SUPERIORITY||LS Mean difference (Final Values)|-95.0|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-96.1|-93.6|||Mixed Models Analysis|||||-93.6|-96.1|<0.001
82467640|NCT05565742|164632118|SUPERIORITY||LS Mean difference (Final Values)|-76.8|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-81.9|-70.2|||Mixed Models Analysis|||||-70.2|-81.9|<0.001
82467641|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|112.03||||0.001|TWO_SIDED|95.0|6.35|1975.13|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||1975.13|6.35|0.001
82467642|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|2762.52|||<|0.001|TWO_SIDED|95.0|142.74|53463.34|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||53463.34|142.74|<0.001
82467643|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|50904.09|||<|0.001|TWO_SIDED|95.0|1700.95|1523398.1|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 60||1523398.10|1700.95|<0.001
82467644|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|27.94||||0.026|TWO_SIDED|95.0|1.48|527.74|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||527.74|1.48|0.026
82467645|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|309.36|||<|0.001|TWO_SIDED|95.0|17.99|5320.81|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||5320.81|17.99|<0.001
82467646|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|3060.16|||<|0.001|TWO_SIDED|95.0|166.84|56127.55|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 180||56127.55|166.84|<0.001
82467647|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|32.91||||0.021|TWO_SIDED|95.0|1.7|635.94|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||635.94|1.70|0.021
82467648|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|579.62|||<|0.001|TWO_SIDED|95.0|31.48|10673.41|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||10673.41|31.48|<0.001
82467649|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|14659.81|||<|0.001|TWO_SIDED|95.0|646.35|332498.98|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 60||332498.98|646.35|<0.001
82467650|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|15.94||||0.071|TWO_SIDED|95.0|0.79|321.21|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||321.21|0.79|0.071
82467651|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|86.32||||0.002|TWO_SIDED|95.0|5.07|1468.36|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||1468.36|5.07|0.002
82467652|NCT05565742|164632119|SUPERIORITY||Odds Ratio (OR)|956.84|||<|0.001|TWO_SIDED|95.0|55.75|16422.76|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 180||16422.76|55.75|<0.001
82467653|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|32.05|||<|0.001|TWO_SIDED|95.0|5.36|191.58|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||191.58|5.36|<0.001
82467654|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|602.39|||<|0.001|TWO_SIDED|95.0|95.36|3805.22|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||3805.22|95.36|<0.001
82467655|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|6953.37|||<|0.001|TWO_SIDED|95.0|527.56|91646.24|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||91646.24|527.56|<0.001
82467656|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|347.76|||<|0.001|TWO_SIDED|95.0|57.46|2104.62|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 240||2104.62|57.46|<0.001
82467657|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|54.99||||0.007|TWO_SIDED|95.0|2.98|1015.84|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||1015.84|2.98|0.007
82467658|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|363.15|||<|0.001|TWO_SIDED|95.0|20.83|6332.68|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||6332.68|20.83|<0.001
82546207|NCT05028582|164791957|SUPERIORITY||Odds Ratio (OR)|3.17|||<|0.0001|TWO_SIDED|97.5|1.75|5.73|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|B-IGA Success at Week 8||5.73|1.75|<0.0001
82546208|NCT05028582|164791958|OTHER|SI-NRS Success at Week 4|Odds Ratio (OR)|4.67||||0.0005|TWO_SIDED|97.5|1.6|13.62|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|||13.62|1.60|0.0005
82467659|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|2953.53|||<|0.001|TWO_SIDED|95.0|150.95|57790.71|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||57790.71|150.95|<0.001
82467660|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|375.16|||<|0.001|TWO_SIDED|95.0|21.46|6571.66|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 360||6571.66|21.46|<0.001
82467661|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|16.43||||0.068|TWO_SIDED|95.0|0.81|331.69|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||331.69|0.81|0.068
82467662|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|84.97||||0.002|TWO_SIDED|95.0|4.99|1447.48|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||1447.48|4.99|0.002
82467663|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|594.66|||<|0.001|TWO_SIDED|95.0|33.99|10405.09|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||10405.09|33.99|<0.001
82467664|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|110.17||||0.001|TWO_SIDED|95.0|6.47|1875.77|||Regression, Logistic|||Lp(a) \<125 nmol/L: Day 540||1875.77|6.47|0.001
82546209|NCT05028582|164791959|SUPERIORITY||Odds Ratio (OR)|4.39|||<|0.0001|TWO_SIDED|97.5|2.01|9.55|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|SI-NRS Success at Week 4||9.55|2.01|<0.0001
82467665|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|11.61||||0.01|TWO_SIDED|95.0|1.81|74.29|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||74.29|1.81|0.010
82467666|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|233.25|||<|0.001|TWO_SIDED|95.0|39.92|1362.79|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||1362.79|39.92|<0.001
82467667|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|3087.58|||<|0.001|TWO_SIDED|95.0|331.26|28778.1|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||28778.10|331.26|<0.001
82467668|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|144.58|||<|0.001|TWO_SIDED|95.0|25.2|829.42|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 240||829.42|25.20|<0.001
82467669|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|11.16||||0.125|TWO_SIDED|95.0|0.51|243.85|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||243.85|0.51|0.125
82467670|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|148.3|||<|0.001|TWO_SIDED|95.0|8.64|2546.89|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||2546.89|8.64|<0.001
82467671|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|1431.38|||<|0.001|TWO_SIDED|95.0|77.76|26349.86|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||26349.86|77.76|<0.001
82579418|NCT00503139|164869299|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sample|A two-sided t-test was performed to test the hypothesis.||The null hypothesis was that mHAQ scores at 6 months, 1 year, 1.5 years, and 2 years were equal to the baseline score.||||<0.001
82467672|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|147.78|||<|0.001|TWO_SIDED|95.0|8.6|2538.95|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 360||2538.95|8.60|<0.001
82467673|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|1.99||||0.733|TWO_SIDED|95.0|0.04|104.02|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||104.02|0.04|0.733
82467674|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|34.28||||0.015|TWO_SIDED|95.0|1.98|594.46|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||594.46|1.98|0.015
82467675|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|159.77|||<|0.001|TWO_SIDED|95.0|9.4|2716.42|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||2716.42|9.40|<0.001
82467676|NCT05565742|164632120|SUPERIORITY||Odds Ratio (OR)|37.98||||0.013|TWO_SIDED|95.0|2.19|659.75|||Regression, Logistic|||Lp(a) \<75 nmol/L: Day 540||659.75|2.19|0.013
82467677|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-47.4|STANDARD_ERROR_OF_MEAN|7.29|<|0.001|TWO_SIDED|95.0|-59.9|-30.9|||Mixed Models Analysis|||Baseline to Day 60||-30.9|-59.9|<0.001
82467678|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-80.9|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-84.7|-76.1|||Mixed Models Analysis|||Baseline to Day 60||-76.1|-84.7|<0.001
82467679|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-95.5|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-96.3|-94.5|||Mixed Models Analysis|||Baseline to Day 60||-94.5|-96.3|<0.001
82467680|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-95.5|STANDARD_ERROR_OF_MEAN|0.45|<|0.001|TWO_SIDED|95.0|-96.3|-94.5|||Mixed Models Analysis|||Baseline to Day 60||-94.5|-96.3|<0.001
82467681|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-31.9|STANDARD_ERROR_OF_MEAN|11.1||0.019|TWO_SIDED|95.0|-50.6|-6.2|||Mixed Models Analysis|||Baseline to Day 180||-6.2|-50.6|0.019
82467682|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-66.0|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|95.0|-73.8|-55.9|||Mixed Models Analysis|||Baseline to Day 180||-55.9|-73.8|<0.001
82467683|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-90.7|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|-92.6|-88.3|||Mixed Models Analysis|||Baseline to Day 180||-88.3|-92.6|<0.001
82467684|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-90.7|STANDARD_ERROR_OF_MEAN|1.09|<|0.001|TWO_SIDED|95.0|-92.6|-88.3|||Mixed Models Analysis|||Baseline to Day 180||-88.3|-92.6|<0.001
82467685|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-47.3|STANDARD_ERROR_OF_MEAN|8.25|<|0.001|TWO_SIDED|95.0|-61.3|-28.3|||Mixed Models Analysis|||Baseline to Day 240||-28.3|-61.3|<0.001
82467686|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-84.7|STANDARD_ERROR_OF_MEAN|1.95|<|0.001|TWO_SIDED|95.0|-88.1|-80.3|||Mixed Models Analysis|||Baseline to Day 240||-80.3|-88.1|<0.001
82467687|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-96.8|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-97.4|-95.9|||Mixed Models Analysis|||Baseline to Day 240||-95.9|-97.4|<0.001
82467688|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-84.7|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-87.9|-80.8|||Mixed Models Analysis|||Baseline to Day 240||-80.8|-87.9|<0.001
82467689|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-30.2|STANDARD_ERROR_OF_MEAN|11.45||0.029|TWO_SIDED|95.0|-49.4|-3.6|||Mixed Models Analysis|||Baseline to Day 360||-3.6|-49.4|0.029
82546210|NCT05028582|164791960|OTHER|SI-NRS Success at Week 8|Odds Ratio (OR)|5.41|||<|0.0001|TWO_SIDED|97.5|2.49|11.78|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B-IGA with multiple imputation to handle missing data|||11.78|2.49|<0.0001
82546211|NCT05028582|164791961|SUPERIORITY|SI-NRS Change from Baseline Day 1|LS Mean Difference|-0.35||||0.0164|TWO_SIDED|97.5|-0.68|-0.02|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.02|-0.68|0.0164
82546212|NCT05028582|164791962|SUPERIORITY|SI-NRS Change from Baseline Day 1|LS Mean Difference|-0.76|||<|0.0001|TWO_SIDED|97.5|-1.12|-0.39|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.39|-1.12|<0.0001
82467690|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-67.4|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-74.9|-57.6|||Mixed Models Analysis|||Baseline to Day 360||-57.6|-74.9|<0.001
82467691|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-91.0|STANDARD_ERROR_OF_MEAN|1.11|<|0.001|TWO_SIDED|95.0|-92.9|-88.5|||Mixed Models Analysis|||Baseline to Day 360||-88.5|-92.9|<0.001
82467692|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-67.8|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-74.8|-59.0|||Mixed Models Analysis|||Baseline to Day 360||-59.0|-74.8|<0.001
82467693|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-19.7|STANDARD_ERROR_OF_MEAN|10.45||0.093|TWO_SIDED|95.0|-37.8|3.7|||Mixed Models Analysis|||Baseline to Day 540||3.7|-37.8|0.093
82546213|NCT05028582|164791963|SUPERIORITY|Change from Baseline in Weekly SI-NRS at Week 1|LS Mean Difference|-0.55||||0.0002|TWO_SIDED|97.5|-0.87|-0.22|||ANCOVA|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|ANCOVA terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline SI-NRS score|||-0.22|-0.87|0.0002
82546214|NCT05028582|164791964|OTHER|WI-NRS Success at Week 8|Odds Ratio (OR)|4.14|||<|0.0001|TWO_SIDED|97.5|2.01|8.52|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|||8.52|2.01|<0.0001
82467694|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-45.8|STANDARD_ERROR_OF_MEAN|5.76|<|0.001|TWO_SIDED|95.0|-56.0|-33.2|||Mixed Models Analysis|||Baseline to Day 540||-33.2|-56.0|<0.001
82467695|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-74.2|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-78.8|-68.5|||Mixed Models Analysis|||Baseline to Day 540||-68.5|-78.8|<0.001
82467696|NCT05565742|164632121|SUPERIORITY||LS Mean difference (Final Values)|-53.4|STANDARD_ERROR_OF_MEAN|4.67|<|0.001|TWO_SIDED|95.0|-61.7|-43.3|||Mixed Models Analysis|||Baseline to Day 540||-43.3|-61.7|<0.001
82467697|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|3.74||0.01|TWO_SIDED|95.0|-17.5|-2.6|||Mixed Models Analysis|||Baseline to Day 60||-2.6|-17.5|0.010
82467698|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-11.9|STANDARD_ERROR_OF_MEAN|3.02|<|0.001|TWO_SIDED|95.0|-17.7|-5.8|||Mixed Models Analysis|||Baseline to Day 60||-5.8|-17.7|<0.001
82467699|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-19.0|-8.8|||Mixed Models Analysis|||Baseline to Day 60||-8.8|-19.0|<0.001
82467700|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-19.0|-8.8|||Mixed Models Analysis|||Baseline to Day 60||-8.8|-19.0|<0.001
82467701|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-8.2|STANDARD_ERROR_OF_MEAN|4.27||0.068|TWO_SIDED|95.0|-16.2|0.6|||Mixed Models Analysis|||Baseline to Day 180||0.6|-16.2|0.068
82467702|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-10.7|STANDARD_ERROR_OF_MEAN|3.4||0.003|TWO_SIDED|95.0|-17.1|-3.8|||Mixed Models Analysis|||Baseline to Day 180||-3.8|-17.1|0.003
82546215|NCT05028582|164791965|SUPERIORITY|PASI-75 at Week 8|Odds Ratio (OR)|5.42|||<|0.0001|TWO_SIDED|97.5|2.73|10.75|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||10.75|2.73|<0.0001
82546216|NCT05028582|164791966|SUPERIORITY|PSD Aggregate Score Change at Week 8|LS Mean Difference|-5.12|||<|0.0001|TWO_SIDED|97.5|-6.64|-3.6|||ANCOVA|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA and baseline PSD aggregate score \& multiple imputation of missing data|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA and baseline PSD aggregate score \& multiple imputation of missing data|||-3.60|-6.64|<0.0001
82546217|NCT05028582|164791967|SUPERIORITY|PSD Itching Week 8|Odds Ratio (OR)|4.59|||<|0.0001|TWO_SIDED|97.5|2.1|10.04|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||10.04|2.10|<0.0001
82579419|NCT00503139|164869300|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sample|A two-sided t-test was performed to test the hypothesis.||The null hypothesis was that VAS Fatigue scores at 6 months, 1 year, 1.5 years, and 2 years were equal to the baseline score.||||<0.001
82467703|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-19.3|-7.9|||Mixed Models Analysis|||Baseline to Day 180||-7.9|-19.3|<0.001
82467704|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-13.7|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-19.3|-7.9|||Mixed Models Analysis|||Baseline to Day 180||-7.9|-19.3|<0.001
82467705|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|3.93||0.026|TWO_SIDED|95.0|-16.7|-1.2|||Mixed Models Analysis|||Baseline to Day 240||-1.2|-16.7|0.026
82467706|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-15.4|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-21.1|-9.3|||Mixed Models Analysis|||Baseline to Day 240||-9.3|-21.1|<0.001
82546218|NCT05028582|164791968|SUPERIORITY|PSD Pain Week 8|Odds Ratio (OR)|3.23|||<|0.0001|TWO_SIDED|97.5|1.83|5.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||5.68|1.83|<0.0001
82546219|NCT05028582|164791969|SUPERIORITY|PSD Scaling Week 8|Odds Ratio (OR)|4.56|||<|0.0001|TWO_SIDED|97.5|2.28|9.08|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||9.08|2.28|<0.0001
82579420|NCT00833833|164869305|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.73|||||TWO_SIDED|95.0|0.54|0.99||||||With a 12-month accrual period and 12-month follow-up after the study closed to accrual, assuming a 10% drop out rate, 96 participants in each treatment arm would have had 85% power to detect a hazard rate ratio of 1.67 using a one-sided log rank test with an overall significance level of 0.025 adjusted for one interim analysis) and a significance level of 0.0245 for the final analysis.||0.99|0.54|
82467707|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-15.5|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-21.0|-9.6|||Mixed Models Analysis|||Baseline to Day 240||-9.6|-21.0|<0.001
82467708|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-16.3|-4.4|||Mixed Models Analysis|||Baseline to Day 240||-4.4|-16.3|<0.001
82467709|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|4.21||0.111|TWO_SIDED|95.0|-14.9|1.7|||Mixed Models Analysis|||Baseline to Day 360||1.7|-14.9|0.111
82546220|NCT05028582|164791970|OTHER|PSD Total Score 0 at Week 8|Odds Ratio (OR)|3.27||||0.0012|TWO_SIDED|97.5|1.39|7.68|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA|||7.68|1.39|0.0012
82467710|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-12.0|STANDARD_ERROR_OF_MEAN|3.25|<|0.001|TWO_SIDED|95.0|-18.1|-5.3|||Mixed Models Analysis|||Baseline to Day 360||-5.3|-18.1|<0.001
82467711|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-20.0|-7.8|||Mixed Models Analysis|||Baseline to Day 360||-7.8|-20.0|<0.001
82546221|NCT05028582|164791971|SUPERIORITY|PSSI-75 at Week 8|Odds Ratio (OR)|5.4|||<|0.0001|TWO_SIDED|97.5|2.98|9.77|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S IGA, and baseline B IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S IGA, and baseline B IGA with multiple imputation to handle missing data|||9.77|2.98|<0.0001
82546222|NCT05028582|164791972|SUPERIORITY|S-IGA Clear at Week 8|Odds Ratio (OR)|6.77|||<|0.0001|TWO_SIDED|97.5|3.04|15.05|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||15.05|3.04|<0.0001
82579421|NCT00833833|164869310|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|6.25|||||TWO_SIDED|95.0|0.84|46.66||||||||46.66|0.84|
82579422|NCT00833833|164869311|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.070
82579423|NCT00833833|164869312|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.85|||||TWO_SIDED|95.0|0.57|1.29||||||||1.29|0.57|
82467712|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-8.6|STANDARD_ERROR_OF_MEAN|3.3||0.013|TWO_SIDED|95.0|-14.9|-1.9|||Mixed Models Analysis|||400 mg LY3819469, Placebo||-1.9|-14.9|0.013
82467713|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-2.8|STANDARD_ERROR_OF_MEAN|4.2||0.51|TWO_SIDED|95.0|-10.7|5.8|||Mixed Models Analysis|||Baseline to Day 540||5.8|-10.7|0.510
82467714|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-4.7|STANDARD_ERROR_OF_MEAN|3.35||0.173|TWO_SIDED|95.0|-11.1|2.1|||Mixed Models Analysis|||Baseline to Day 540||2.1|-11.1|0.173
82467715|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-18.6|-6.8|||Mixed Models Analysis|||Baseline to Day 540||-6.8|-18.6|<0.001
82467716|NCT05565742|164632122|SUPERIORITY||LS Mean difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|3.27||0.139|TWO_SIDED|95.0|-11.2|1.7|||Mixed Models Analysis|||Baseline to Day 540||1.7|-11.2|0.139
82467717|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-17.1|STANDARD_ERROR_OF_MEAN|16.71||0.353|TWO_SIDED|95.0|-44.3|23.3|||Mixed Models Analysis|||Baseline to Day 60||23.3|-44.3|0.353
82467718|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|15.84||0.902|TWO_SIDED|95.0|-28.7|34.7|||Mixed Models Analysis|||Baseline to Day 60||34.7|-28.7|0.902
82467719|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|13.65||0.779|TWO_SIDED|95.0|-27.4|27.1|||Mixed Models Analysis|||Baseline to Day 60||27.1|-27.4|0.779
82467720|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|13.65||0.779|TWO_SIDED|95.0|-27.4|27.1|||Mixed Models Analysis|||Baseline to Day 60||27.1|-27.4|0.779
82467721|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|20.41||0.987|TWO_SIDED|95.0|-32.8|49.7|||Mixed Models Analysis|||Baseline to Day 180||49.7|-32.8|0.987
82467722|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-15.2|STANDARD_ERROR_OF_MEAN|13.96||0.316|TWO_SIDED|95.0|-38.7|17.2|||Mixed Models Analysis|||Baseline to Day 180||17.2|-38.7|0.316
82467723|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|15.37||0.72|TWO_SIDED|95.0|-20.9|40.4|||Mixed Models Analysis|||Baseline to Day 180||40.4|-20.9|0.720
82467724|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|5.4|STANDARD_ERROR_OF_MEAN|15.37||0.72|TWO_SIDED|95.0|-20.9|40.4|||Mixed Models Analysis|||Baseline to Day 180||40.4|-20.9|0.720
82467725|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|14.66||0.461|TWO_SIDED|95.0|-36.1|22.6|||Mixed Models Analysis|||Baseline to Day 240||22.6|-36.1|0.461
82467726|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|11.29||0.194|TWO_SIDED|95.0|-35.6|9.4|||Mixed Models Analysis|||Baseline to Day 240||9.4|-35.6|0.194
82467727|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|12.87||0.898|TWO_SIDED|95.0|-24.0|27.2|||Mixed Models Analysis|||Baseline to Day 240||27.2|-24.0|0.898
82467728|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|11.81||0.448|TWO_SIDED|95.0|-29.9|17.0|||Mixed Models Analysis|||Baseline to Day 240||17.0|-29.9|0.448
82467729|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|29.6|STANDARD_ERROR_OF_MEAN|28.05||0.233|TWO_SIDED|95.0|-15.4|98.4|||Mixed Models Analysis|||Baseline to Day 360||98.4|-15.4|0.233
82467730|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|18.04||0.891|TWO_SIDED|95.0|-27.6|44.9|||Mixed Models Analysis|||Baseline to Day 360||44.9|-27.6|0.891
82467731|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|17.18||0.984|TWO_SIDED|95.0|-29.0|39.9|||Mixed Models Analysis|||Baseline to Day 360||39.9|-29.0|0.984
82467732|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|19.4|STANDARD_ERROR_OF_MEAN|20.52||0.302|TWO_SIDED|95.0|-14.8|67.5|||Mixed Models Analysis|||Baseline to Day 360||67.5|-14.8|0.302
82467733|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|18.49||0.684|TWO_SIDED|95.0|-37.9|36.8|||Mixed Models Analysis|||Baseline to Day 540||36.8|-37.9|0.684
82467734|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|16.19||0.933|TWO_SIDED|95.0|-28.6|36.3|||Mixed Models Analysis|||Baseline to Day 540||36.3|-28.6|0.933
82467735|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|16.33||0.962|TWO_SIDED|95.0|-26.7|38.6|||Mixed Models Analysis|||Baseline to Day 540||38.6|-26.7|0.962
82467736|NCT05565742|164632123|SUPERIORITY||LS Mean difference (Final Values)|13.9|STANDARD_ERROR_OF_MEAN|18.52||0.422|TWO_SIDED|95.0|-17.2|56.9|||Mixed Models Analysis|||Baseline to Day 540||56.9|-17.2|0.422
82467737|NCT04272242|164632139|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.92|||||TWO_SIDED|90.0|0.91|0.93|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for Cmax, comparing Day 28 to Day 0.||0.93|0.91|
82467738|NCT04272242|164632140|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.96|||||TWO_SIDED|90.0|0.96|0.96|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for AUC0-24, comparing Day 28 to Day 0.||0.96|0.96|
82546223|NCT05028582|164791973|SUPERIORITY|S-IGA Success Week 2|Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|97.5|1.84|9.13|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||9.13|1.84|<0.0001
82467739|NCT04272242|164632141|EQUIVALENCE|GMRs and associated 90% confidence intervals were calculated to assess the overall effect of 1HP on DTG PK.|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.97|1.0|||||The numerator represents Day 28 and the denominator represents Entry.|Statistical analysis for Cmin, comparing Day 28 to Day 0.||1.00|0.97|
82467740|NCT01181349|164632177|SUPERIORITY_OR_OTHER||||||=|0.169|||||||Chi-square test or Fisher's Exact Test|||Cross tables were performed between TOF ratio and medications administered. Statistical significance was evaluated using Chi-square test or Fisher's Exact Test. All tests were performed at a significance level of 0.05.||||=0.169
82467741|NCT01181349|164632179|SUPERIORITY_OR_OTHER||||||=|0.01|||||||Chi-square test or Fisher's Exact Test|||Cross tables were performed between TOF ratio and medications administered. Statistical significance was evaluated using Chi-square test or Fisher's Exact Test. All tests were performed at a significance level of 0.05.||||=0.01
82467742|NCT00129402|164632193|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
82467743|NCT00129402|164632194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
82467744|NCT00129402|164632195|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
82467745|NCT00129402|164632196|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0|||||non-parametric model|||||||.48
82579424|NCT00921687|164869338|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.04|TWO_SIDED|95.0|1.01|2.3|||Generalized Estimating Equation||Intervention clinic (vs control clinic)|||2.30|1.01|0.04
82467746|NCT00129402|164632197|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||ANOVA|||||||<0.01
82467747|NCT00129402|164632198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0|||||ANOVA|||||||.95
82467748|NCT01352715|164632210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Confidence interval estimation was stratified by randomization stratification factors using Greenwood's variance with the inverse of this variance used for the stratum weights. The pre-specified upper confidence bound for non-inferiority was 10 percentage points.|Cumulative probability difference|-3.4|||||TWO_SIDED|95.0|-8.4|1.5||||||Treatment comparison was made using the difference (arm A - arm B) in the stratified Kaplan-Meier estimate for the week 48 cumulative probability of virologic failure with 95% confidence interval.||1.5|-8.4|
82467749|NCT01710345|164632320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47|STANDARD_ERROR_OF_MEAN|4.45||0.742|ONE_SIDED|95.0|||||ANCOVA|||||||0.742
82467750|NCT01710345|164632320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.66|STANDARD_ERROR_OF_MEAN|4.47||0.003|ONE_SIDED|95.0|||||ANCOVA|||||||0.003
82467751|NCT02668653|164632324|OTHER||Hazard Ratio (HR)|0.776||||0.0324|TWO_SIDED|95.0|0.615|0.979|||Log Rank|Stratification factors include region, age, and WBC count at the time of diagnosis of AML.||||0.979|0.615|0.0324
82467752|NCT01294553|164632336|SUPERIORITY_OR_OTHER||Percentage of participants|15.4|||||TWO_SIDED|95.0|12.8|18.1|||||The estimated value represents the percentage of participants with an adverse event.|||18.1|12.8|
82467753|NCT04973449|164632379|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.19|||||TWO_SIDED|95.0|1.08|1.32||||||The analyses were derived using analysis of covariance (ANCOVA).||1.32|1.08|
82546224|NCT05028582|164791974|SUPERIORITY|S-IGA Success at Week 4|Odds Ratio (OR)|4.82|||<|0.0001|TWO_SIDED|97.5|2.62|8.84|||Cochran-Mantel-Haenszel|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|Stratified by pooled study site, baseline S-IGA, and baseline B-IGA with multiple imputation to handle missing data|||8.84|2.62|<0.0001
82546225|NCT05028582|164791975|SUPERIORITY|Change from Baseline in PASI Week 2|LS Mean Difference|-1.28|||<|0.0001|TWO_SIDED|97.5|-1.71|-0.85|||ANCOVA|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline PASI score \& multiple imputation to handle missing data|Covariate terms of treatment, pooled study site, baseline S-IGA, baseline B-IGA, and baseline PASI score \& multiple imputation to handle missing data|||-0.85|-1.71|<0.0001
82546226|NCT02576509|164791990|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0752|TWO_SIDED|95.0|0.71|1.02||A priori threshold for statistical significance is 0.0419|Log Rank|Log-rank Test stratified by the stratification factors as entered into the IVRS|Nivolumab over Sorafenib; Stratified Cox proportional hazard model||95.81% CI ADJUSTED FOR MULTIPLICITY: (0.72 to 1.02)|1.02|0.71|0.0752
82546227|NCT02576509|164791991|OTHER|no test was performed due to OS p-value result above the prior threshold|Difference of ORRs|8.3|||||TWO_SIDED|95.0|3.9|12.7|||||Estimate of (Nivolumab - Sorafenib) is based on CMH method of weighting, stratified by stratification factors|||12.7|3.9|
82546228|NCT02576509|164791991|OTHER|no test was performed due to OS p-value result above the prior threshold|Odds Ratio (OR)|2.41|||||TWO_SIDED|95.0|1.48|3.92|||||Nivolumab over Sorafenib; Mantel-Haenszel estimator|||3.92|1.48|
82546229|NCT02576509|164791992|OTHER|no test was performed due to OS p-value result above the prior threshold|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.1|||||Nivolumab over Sorafenib; Stratified Cox proportional hazard model|||1.10|0.79|
82467754|NCT04973449|164632380|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|1.02|||||TWO_SIDED|95.0|0.9|1.14||||||The analyses were derived using ANCOVA.||1.14|0.90|
82467755|NCT04973449|164632381|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|1.68|||||TWO_SIDED|95.0|-3.11|6.49||||||The analyses were derived using ANCOVA.||6.49|-3.11|
82467756|NCT04973449|164632382|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|3.47|||||TWO_SIDED|95.0|3.09|3.89||||||The analyses were derived using ANCOVA.||3.89|3.09|
82546230|NCT02576509|164791993|OTHER|PD-L1 \>= 1%, OS; no test was performed|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.19|||||Nivolumab over Sorafenib|||1.19|0.54|
82546231|NCT02576509|164791993|OTHER|PD-L1 \>=1%, PFS; no test was performed|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.48|1.03|||||Nivolumab over Sorafenib|||1.03|0.48|
82467757|NCT04973449|164632385|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|3.21|||||TWO_SIDED|95.0|3.06|3.36||||||The analyses were derived using ANCOVA.||3.36|3.06|
82467758|NCT04973449|164632386|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.5|||||TWO_SIDED|95.0|0.45|0.56||||||The analyses were derived using ANCOVA.||0.56|0.45|
82467759|NCT04973449|164632387|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.31|||||TWO_SIDED|95.0|0.27|0.35||||||The analyses were derived using ANCOVA.||0.35|0.27|
82467760|NCT04973449|164632388|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.41|||||TWO_SIDED|95.0|1.25|1.58||||||The analyses were derived using ANCOVA.||1.58|1.25|
82467761|NCT04973449|164632389|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.84|||||TWO_SIDED|95.0|1.63|2.08||||||The analyses were derived using ANCOVA.||2.08|1.63|
82467762|NCT04973449|164632390|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.88|||||TWO_SIDED|95.0|0.78|0.99||||||The analyses were derived using ANCOVA.||0.99|0.78|
82467763|NCT04973449|164632391|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.87|||||TWO_SIDED|95.0|0.78|0.97||||||The analyses were derived using ANCOVA.||0.97|0.78|
82546232|NCT02576509|164791993|OTHER|PD-L1 \<1%, OS; no test was performed|Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.69|1.02|||||Nivolumab over Sorafenib|||1.02|0.69|
82546233|NCT02576509|164791993|OTHER|PD-L1 \<1%, PFS; no test was performed|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.81|1.17|||||Nivolumab over Sorafenib|||1.17|0.81|
82546234|NCT02576509|164791993|OTHER|without PD-L1 quantifiable, OS; no test was performed|Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.34|4.74|||||Nivolumab over Sorafenib|||4.74|0.34|
82546235|NCT02576509|164791993|OTHER|without PD-L1 quantifiable, PFS; no test was performed|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.27|3.52|||||Nivolumab over Sorafenib|||3.52|0.27|
82546236|NCT02576509|164791994|OTHER|PD-L1 \>=1%, ORR; no test was performed|Odds Ratio (OR)|3.79|||||TWO_SIDED|95.0|1.41|10.17|||||Odds ratio (Nivolumab over Sorafenib) and associated unstratified 95% exact CI.|||10.17|1.41|
82546237|NCT02576509|164791994|OTHER|PD-L1 \<1%, ORR; no test was performed|Odds Ratio (OR)|1.95|||||TWO_SIDED|95.0|1.1|3.45|||||Odds ratio (Nivolumab over Sorafenib) and associated unstratified 95% exact CI|||3.45|1.10|
82546238|NCT06546657|164792009|OTHER||Mean Difference (Final Values)|1.74||||0.14|TWO_SIDED|95.0|-0.6|4.0||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||Medium GI vs low GI breakfast meals||4.0|-0.6|0.14
82467764|NCT04973449|164632392|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.95|||||TWO_SIDED|95.0|0.83|1.08||||||The analyses were derived using ANCOVA.||1.08|0.83|
82546239|NCT06546657|164792009|OTHER||Mean Difference (Final Values)|4.4||||0.01|TWO_SIDED|95.0|1.2|7.5|||Linear Mixed Model|||Medium vs high GI breakfast meals||7.5|1.2|0.01
82579425|NCT00921687|164869339|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.44||95.0|0.84|1.49|||Generalized Estimating Equation||Intervention clinic (vs control clinic)|||1.49|0.84|0.44
82579426|NCT00297427|164869360|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
82467765|NCT04973449|164632393|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|6.56|||||TWO_SIDED|95.0|5.82|7.4||||||The analyses were derived using ANCOVA.||7.40|5.82|
82579427|NCT00297427|164869361|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||t-test, 2 sided|||||||0.32
82467766|NCT04973449|164632394|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.22|||||TWO_SIDED|95.0|1.99|2.47||||||The analyses were derived using ANCOVA.||2.47|1.99|
82467767|NCT04973449|164632395|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group is \> 0.67.|GMT ratio|4.35|||||TWO_SIDED|95.0|3.86|4.9||||||The analyses were derived using ANCOVA.||4.90|3.86|
82467768|NCT04973449|164632396|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.25|||||TWO_SIDED|95.0|1.13|1.39||||||The analyses were derived using ANCOVA.||1.39|1.13|
82467769|NCT04973449|164632397|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|4.42|||||TWO_SIDED|95.0|3.85|5.08||||||The analyses were derived using ANCOVA.||5.08|3.85|
82546240|NCT06546657|164792009|OTHER||Mean Difference (Final Values)|-2.63||||0.12|TWO_SIDED|95.0|-6.0|0.7||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||High GI vs low GI breakfast meals||0.7|-6.0|0.12
82546241|NCT06546657|164792010|OTHER||Mean Difference (Final Values)|0.1815||||0.65|TWO_SIDED||||||Linear Mixed Model|||High GI breakfast meals vs low and medium GI breakfast meals||||0.65
82546242|NCT06546657|164792011|OTHER||Mean Difference (Final Values)|0.431||||0.25|TWO_SIDED|95.0|-0.3|1.2|||Linear Mixed Model|||High glycaemic load breakfast meals vs low and medium glycaemic load meals||1.2|-0.3|0.25
82546243|NCT06546657|164792012|OTHER||Mean Difference (Final Values)|22.0||||0.04|TWO_SIDED|95.0|0.6|44.0|||Linear Mixed Model|||High glycaemic load breakfast meals vs low and medium glycaemic load meals||44|0.6|0.04
82546244|NCT06546657|164792013|OTHER||Mean Difference (Final Values)|1.3||||0.01|TWO_SIDED|95.0|0.4|2.1|||Linear Mixed Model|||Breakfast cereals meals vs added protein meals||2.1|0.4|0.01
82546245|NCT06546657|164792015|OTHER|Comparison of diurnal and nocturnal glucose variability (CV%)|Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82546246|NCT03398148|164792032|SUPERIORITY||Adjusted Risk Difference|9.6||||0.0324|TWO_SIDED|90.0|2.2|17.0||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo)|||17.0|2.2|0.0324
82546247|NCT03398148|164792032|SUPERIORITY||Adjusted Risk Difference|8.4||||0.046|TWO_SIDED|90.0|1.5|15.3||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo)|||15.3|1.5|0.0460
82546248|NCT03398148|164792032|SUPERIORITY||Adjusted Risk Difference|8.7||||0.0397|TWO_SIDED|90.0|1.7|15.6||P-value ≤ 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel-Haenszel (CMH) test stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (≤ 7, \> 7).|Risk difference = (risankizumab - Placebo).|||15.6|1.7|0.0397
82546249|NCT03398148|164792033|SUPERIORITY||Adjusted Risk Difference|14.0|||<|0.0001|TWO_SIDED|95.0|10.0|18.0||Type I error rate control.|Cochran-Mantel-Haenszel|Stratified by Advanced Therapy-IR status (yes vs no), Baseline steroid use (yes vs. no) and Baseline Adapted Mayo Score (≤ 7, \> 7).||||18.0|10.0|<0.0001
82546250|NCT03398148|164792034|SUPERIORITY||Adjusted Risk Difference|18.7||||0.0028|TWO_SIDED|90.0|8.4|29.0||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||29.0|8.4|0.0028
82546251|NCT03398148|164792034|SUPERIORITY||Adjusted Risk Difference|8.4||||0.0968|TWO_SIDED|90.0|0.1|16.7||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||16.7|0.1|0.0968
82579428|NCT00297427|164869362|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.16
82579429|NCT00297427|164869363|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.18
82579430|NCT00297427|164869365|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82579431|NCT00297427|164869366|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.38
82467770|NCT04973449|164632398|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-1.24|||||TWO_SIDED|95.0|-6.62|3.84||||||The analyses were derived using ANCOVA.||3.84|-6.62|
82467771|NCT04973449|164632399|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|16.86|||||TWO_SIDED|95.0|10.18|23.32||||||The analyses were derived using ANCOVA.||23.32|10.18|
82467772|NCT04973449|164632400|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.12|||||TWO_SIDED|95.0|-24.22|-12.07||||||The analyses were derived using ANCOVA.||-12.07|-24.22|
82467773|NCT04973449|164632401|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-0.02|||||TWO_SIDED|95.0|-7.28|7.23||||||The analyses were derived using ANCOVA.||7.23|-7.28|
82467774|NCT04973449|164632402|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|31.36|||||TWO_SIDED|95.0|24.44|37.82||||||The analyses were derived using ANCOVA.||37.82|24.44|
82546252|NCT03398148|164792034|SUPERIORITY||Adjusted Risk Difference|10.5||||0.0512|TWO_SIDED|90.0|1.6|19.3||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||19.3|1.6|0.0512
82546253|NCT03398148|164792036|SUPERIORITY||Adjusted Risk Difference|23.9||||0.0022|TWO_SIDED|90.0|11.0|36.7||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||36.7|11.0|0.0022
82579432|NCT00297427|164869367|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.43
82546254|NCT03398148|164792036|SUPERIORITY||Adjusted Risk Difference|28.4||||0.0002|TWO_SIDED|90.0|15.7|41.1||P-value ≤ 0.001|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||41.1|15.7|0.0002
82546255|NCT03398148|164792036|SUPERIORITY||Adjusted Risk Difference|33.8|||<|0.0001|TWO_SIDED|90.0|20.7|46.9||P-value ≤ 0.001|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||46.9|20.7|<0.0001
82467775|NCT04973449|164632403|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-3.55|||||TWO_SIDED|95.0|-9.4|1.9||||||The analyses were derived using ANCOVA.||1.90|-9.40|
82467776|NCT04973449|164632404|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|23.01|||||TWO_SIDED|95.0|15.41|30.23||||||The analyses were derived using ANCOVA.||30.23|15.41|
82467777|NCT04973449|164632405|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-34.24|||||TWO_SIDED|95.0|-40.77|-27.45||||||The analyses were derived using ANCOVA.||-27.45|-40.77|
82467778|NCT04973449|164632406|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|6.96|||||TWO_SIDED|95.0|-1.31|15.1||||||The analyses were derived using ANCOVA.||15.10|-1.31|
82467779|NCT04973449|164632407|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|29.05|||||TWO_SIDED|95.0|21.76|35.81||||||The analyses were derived using ANCOVA.||35.81|21.76|
82467780|NCT04973449|164632409|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.3|1.42||||||The analyses were derived using ANCOVA.||1.42|1.30|
82546256|NCT03398148|164792037|SUPERIORITY||Adjusted Risk Difference|10.2||||0.1842|TWO_SIDED|90.0|-2.4|22.9|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||22.9|-2.4|0.1842
82579433|NCT00297427|164869369|SUPERIORITY_OR_OTHER|||||||0.04|||||||Repeated measures using GEE|||||||0.04
82579434|NCT00297427|164869370|SUPERIORITY_OR_OTHER|||||||0.01|||||||Repeated measures using GEE|||||||0.01
82579435|NCT00297427|164869371|SUPERIORITY_OR_OTHER|||||||0.41|||||||Repeated measures using GEE|||||||0.41
82579436|NCT00297427|164869372|SUPERIORITY_OR_OTHER|||||||0.04||||||Bivariate (unadjusted) analysis|t-test, 2 sided|||||||0.04
82467781|NCT04973449|164632410|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.76|||||TWO_SIDED|95.0|0.7|0.81||||||The analyses were derived using ANCOVA.||0.81|0.70|
82467782|NCT04973449|164632411|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|3.87|||||TWO_SIDED|95.0|3.4|4.39||||||The analyses were derived using ANCOVA.||4.39|3.40|
82467783|NCT04973449|164632412|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.67|||||TWO_SIDED|95.0|0.64|0.7||||||The analyses were derived using ANCOVA.||0.70|0.64|
82467784|NCT04973449|164632413|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.58|||||TWO_SIDED|95.0|-0.61|2.09||||||The analyses were derived using ANCOVA.||2.09|-0.61|
82467785|NCT04973449|164632414|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-35.18|||||TWO_SIDED|95.0|-41.46|-28.44||||||The analyses were derived using ANCOVA.||-28.44|-41.46|
82467786|NCT04973449|164632415|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-24.93|||||TWO_SIDED|95.0|-31.06|-18.56||||||The analyses were derived using ANCOVA.||-18.56|-31.06|
82467787|NCT04973449|164632416|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-0.02|||||TWO_SIDED|95.0|-1.63|1.56||||||The analyses were derived using ANCOVA.||1.56|-1.63|
82467788|NCT04973449|164632417|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-19.18|||||TWO_SIDED|95.0|-23.8|-14.98||||||The analyses were derived using ANCOVA.||-14.98|-23.80|
82467789|NCT04973449|164632418|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|39.18|||||TWO_SIDED|95.0|32.68|45.21||||||The analyses were derived using ANCOVA.||45.21|32.68|
82467790|NCT04973449|164632419|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.0|||||TWO_SIDED|95.0|-1.62|1.62||||||The analyses were derived using ANCOVA.||1.62|-1.62|
82467791|NCT04973449|164632420|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.52|||||TWO_SIDED|95.0|0.45|0.59||||||The analyses were derived using ANCOVA.||0.59|0.45|
82467792|NCT04973449|164632421|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.76|||||TWO_SIDED|95.0|0.68|0.86||||||The analyses were derived using ANCOVA.||0.86|0.68|
82467793|NCT04973449|164632422|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.6|||||TWO_SIDED|95.0|1.43|1.79||||||The analyses were derived using ANCOVA.||1.79|1.43|
82467794|NCT04973449|164632423|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.75|||||TWO_SIDED|95.0|0.67|0.85||||||The analyses were derived using ANCOVA.||0.85|0.67|
82467795|NCT04973449|164632424|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.1|||||TWO_SIDED|95.0|-24.13|-12.1||||||The analyses were derived using ANCOVA.||-12.10|-24.13|
82467796|NCT04973449|164632425|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|14.5|||||TWO_SIDED|95.0|7.07|21.71||||||The analyses were derived using ANCOVA.||21.71|7.07|
82467797|NCT04973449|164632426|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-18.1|||||TWO_SIDED|95.0|-24.13|-12.1||||||The analyses were derived using ANCOVA.||-12.10|-24.13|
82467798|NCT04973449|164632427|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|16.87|||||TWO_SIDED|95.0|10.15|23.4||||||The analyses were derived using ANCOVA.||23.40|10.15|
82467799|NCT04973449|164632428|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|0.0|||||TWO_SIDED|95.0|-7.21|7.21||||||The analyses were derived using ANCOVA.||7.21|-7.21|
82467800|NCT04973449|164632429|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.0|||||TWO_SIDED|95.0|1.75|2.28||||||The analyses were derived using ANCOVA.||2.28|1.75|
82467801|NCT04973449|164632430|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|2.96|||||TWO_SIDED|95.0|2.64|3.32||||||The analyses were derived using ANCOVA.||3.32|2.64|
82467802|NCT04973449|164632431|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.51|||||TWO_SIDED|95.0|1.35|1.69||||||The analyses were derived using ANCOVA.||1.69|1.35|
82467803|NCT04973449|164632432|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.85|||||TWO_SIDED|95.0|0.78|0.94||||||The analyses were derived using ANCOVA.||0.94|0.78|
82467804|NCT04973449|164632433|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-41.2|||||TWO_SIDED|95.0|-47.57|-34.41||||||The analyses were derived using ANCOVA.||-34.41|-47.57|
82467805|NCT04973449|164632434|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|6.05|||||TWO_SIDED|95.0|-1.81|13.77||||||The analyses were derived using ANCOVA.||13.77|-1.81|
82467806|NCT04973449|164632435|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|-26.56|||||TWO_SIDED|95.0|-33.1|-19.94||||||The analyses were derived using ANCOVA.||-19.94|-33.10|
82467807|NCT04973449|164632436|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|30.69|||||TWO_SIDED|95.0|22.94|37.9||||||The analyses were derived using ANCOVA.||37.90|22.94|
82467808|NCT04973449|164632437|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI rate difference in seroresponse between the comparator group and reference group was \> or =-10%.|Seroresponse difference|14.64|||||TWO_SIDED|95.0|6.36|22.64||||||The analyses were derived using ANCOVA.||22.64|6.36|
82650547|NCT01335464|165016256|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|1.427||0.4049|TWO_SIDED|95.0|-3.99|1.61|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Activities component, baseline SGRQ Activities component-by-visit and random effect for patient||1.61|-3.99|0.4049
82467809|NCT04973449|164632438|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||The analyses were derived using analysis of covariance (ANCOVA).||0.96|0.74|
82467810|NCT04973449|164632439|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|1.71|||||TWO_SIDED|95.0|1.62|1.8||||||The analyses were derived using ANCOVA.||1.80|1.62|
82467811|NCT04973449|164632440|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.5|||||TWO_SIDED|95.0|0.44|0.56||||||The analyses were derived using ANCOVA.||0.56|0.44|
82467812|NCT04973449|164632441|NON_INFERIORITY|Noninferiority was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio of the comparator group and reference group was \> 0.67.|GMT ratio|0.38|||||TWO_SIDED|95.0|0.32|0.44||||||The analyses were derived using ANCOVA.||0.44|0.32|
82467813|NCT00829426|164632447|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence is established when 90% Confidence Interval falls withi 80-125.|Geometric Test/Ref Ratio x 100|102.56|||||TWO_SIDED|90.0|98.74|106.52|||||Bioequivalence is established when 90% Confidence Interval falls withi 80-125.|||106.52|98.74|
82467814|NCT00829426|164632448|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|92.88||||||90.0|90.34|95.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||95.48|90.34|
82467815|NCT00829426|164632449|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|93.92||||||90.0|91.47|96.44|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||96.44|91.47|
82467816|NCT00107653|164632473|SUPERIORITY_OR_OTHER||SVR for Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08||P-values are calculated based on the difference in proportion between Latino and Non-Latino White group|Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with SVR. The 95% Confidence Interval is based on normal approximation to the binomial.|SVR for Latino Versus (VS) Non-Latino White||-0.08|-0.24|<0.0001
82467817|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.031||0.0454|TWO_SIDED|95.0|-0.12|0.0|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 4||-0.00|-0.12|0.0454
82467818|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003|TWO_SIDED|95.0|-0.23|-0.07|||Normal approximation to the binomial.||The estimated value is the Difference in proportion of participants (Latino minus Non-Latino White) with virologic response. the 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 12||-0.07|-0.23|0.0003
82467819|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.039||0.0004|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 24||-0.06|-0.22|0.0004
82467820|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.09|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 48||-0.09|-0.24|<0.0001
82467821|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.25|-0.09|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 60||-0.09|-0.25|<0.0001
82467822|NCT00107653|164632474|SUPERIORITY_OR_OTHER||Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 72||-0.08|-0.24|<0.0001
82467823|NCT00107653|164632475|SUPERIORITY_OR_OTHER||Study Group Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.036||0.0353|TWO_SIDED|95.0|-0.15|-0.01|||Normal approximation to the binomial.||The estimated value is the Difference in proportion of participants (Latino minus Non-Latino White) with virologic response. the 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 4||-0.01|-0.15|0.0353
82467824|NCT00107653|164632476|SUPERIORITY_OR_OTHER||Study Group Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.033||0.0014|TWO_SIDED|95.0|-0.17|-0.04|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with virologic response. The 95% Confidence Interval is based on normal approximation to the binomial.|Virologic Response for Latino VS Non-Latino White at Week 12||-0.04|-0.17|0.0014
82467825|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.042||0.0006|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 4||-0.06|-0.22|0.0006
82467826|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.08|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 12||-0.08|-0.24|<0.0001
82467827|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.041||0.0003|TWO_SIDED|95.0|-0.23|-0.07|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 24||-0.07|-0.23|0.0003
82467828|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.042||0.0008|TWO_SIDED|95.0|-0.22|-0.06|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 48||-0.06|-0.22|0.0008
82467829|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.26|-0.1|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 60||-0.10|-0.26|<0.0001
82467830|NCT00107653|164632478|SUPERIORITY_OR_OTHER||Study Group Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.27|-0.11|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with biochemical response. The 95% Confidence Interval is based on normal approximation to the binomial.|Normal Serum ALT level for Latino VS Non-Latino White at Week 72||-0.11|-0.27|<0.0001
82467831|NCT00107653|164632479|SUPERIORITY_OR_OTHER||Study Group Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0285|TWO_SIDED|95.0|-0.2|0.0|||Normal approximation to the binomial.||The estimated value is the difference in proportion of participants (Latino minus Non-Latino White) with ISHAK HAI response. The 95% Confidence Interval is based on normal approximation to the binomial.|ISHAK HAI Response For Latino VS Non-Latino White||-0.0|-0.2|0.0285
82467832|NCT00107653|164632480|SUPERIORITY_OR_OTHER||Study Group Difference|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.5|1.3|||Normal approximation to the binomial.||The estimated value is the difference in change from baseline of ISHAK HAI activity (necroinflammatory) scores between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|ISHAK HAI activity For Latino VS Non-Latino White||1.3|0.5|<0.0001
82467833|NCT00107653|164632489|SUPERIORITY_OR_OTHER||Study Group Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.162|<|0.0001|TWO_SIDED|95.0|-0.96|-0.33|||ANCOVA||The estimated value is the difference of change from baseline in FSS scores at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS Score of Latino VS Non-Latino White at week 48||-0.33|-0.96|<0.0001
82467834|NCT00107653|164632489|SUPERIORITY_OR_OTHER||Study Group Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.156||0.0921|TWO_SIDED|95.0|-0.57|0.04|||ANCOVA||The estimated value is the difference of change from baseline in FSS scores at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS Score of Latino VS Non-Latino White at week 72||0.04|-0.57|0.0921
82650548|NCT01335464|165016257|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|STANDARD_ERROR_OF_MEAN|1.289||0.5446|TWO_SIDED|95.0|-3.31|1.75|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ-I Total score, baseline SGRQ-I Total score-by-visit and random effect for patient.||1.75|-3.31|0.5446
82467835|NCT00107653|164632489|SUPERIORITY_OR_OTHER||Study Group Difference|-8.72|STANDARD_ERROR_OF_MEAN|2.725||0.0015|TWO_SIDED|95.0|-14.07|-3.36|||ANCOVA||The estimated value is the difference of change from baseline in FSS VAS scores at week 48 between Latino and Non-Latino White participants The 95% Confidence Interval is based on normal approximation to the binomial.|FSS VAS Score of Latino VS Non-Latino White at week 48||-3.36|-14.07|0.0015
82467836|NCT00107653|164632489|SUPERIORITY_OR_OTHER||Study Group Difference|4.83|STANDARD_ERROR_OF_MEAN|2.37||0.0421|TWO_SIDED|95.0|0.18|9.49|||ANCOVA||The estimated value is the difference of change from baseline in FSS VAS scores at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|FSS VAS Score of Latino VS Non-Latino White at week 72||9.49|0.18|0.0421
82467837|NCT00107653|164632490|SUPERIORITY_OR_OTHER||Study Group Difference|3.49|STANDARD_ERROR_OF_MEAN|0.864|<|0.0001|TWO_SIDED|95.0|1.79|5.18|||ANCOVA||The estimated value is the difference of change from baseline in standardized physical component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Physical Component of Latino VS Non-Latino White at week 48||5.18|1.79|<0.0001
82467838|NCT00107653|164632490|SUPERIORITY_OR_OTHER||Study Group Difference|0.1|STANDARD_ERROR_OF_MEAN|0.808||0.9047|TWO_SIDED|95.0|-1.49|1.68|||ANCOVA||The estimated value is the difference of change from baseline in standardized physical component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Physical Component of Latino VS Non-Latino White at week 72||1.68|-1.49|0.9047
82467839|NCT00107653|164632490|SUPERIORITY_OR_OTHER||Study Group Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.914||0.9286|TWO_SIDED|95.0|-1.88|1.71|||ANCOVA||The estimated value is the difference of change from baseline in standardized mental component score at week 48 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Mental Component of Latino VS Non-Latino White at week 48||1.71|-1.88|0.9286
82546257|NCT03398148|164792037|SUPERIORITY||Adjusted Risk Difference|23.2||||0.0041|TWO_SIDED|90.0|9.9|36.4||P-value ≤ 0.01|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||36.4|9.9|0.0041
82467840|NCT00107653|164632490|SUPERIORITY_OR_OTHER||Study Group Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.888||0.1653|TWO_SIDED|95.0|-2.98|0.51|||ANCOVA||The estimated value is the difference of change from baseline in standardized mental component score at week 72 between Latino and Non-Latino White participants. The 95% Confidence Interval is based on normal approximation to the binomial.|Standardized Mental Component of Latino VS Non-Latino White at week 72||0.51|-2.98|0.1653
82467841|NCT02867436|164632509|SUPERIORITY||Mean Difference (Final Values)|205.0|||<|0.05|TWO_SIDED|95.0|-223.0|633.0|||Regression, Linear|||||633|-223|<0.05
82467842|NCT02867436|164632510|SUPERIORITY||Mean Difference (Final Values)|-7.8|||<|0.05|TWO_SIDED|95.0|-14.1|-1.6|||Regression, Linear|||||-1.6|-14.1|<0.05
82467843|NCT02867436|164632511|SUPERIORITY||Mean Difference (Final Values)|-0.15|||<|0.05|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||||0.01|-0.31|<0.05
82467844|NCT02867436|164632512|SUPERIORITY||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82467845|NCT02867436|164632513|SUPERIORITY||||||<|0.05||||||After Benjamini-Hochberg correction for multiple comparisons|ANOVA|||||||<0.05
82467846|NCT04050553|164632538|SUPERIORITY||Least Square (LS) Mean Difference|-0.49||||0.7556|TWO_SIDED|95.0|-3.64|2.67|||Mixed Models Analysis|||||2.67|-3.64|0.7556
82467847|NCT04050553|164632539|SUPERIORITY||LS Mean Difference|-174.77||||0.0043|TWO_SIDED|95.0|-290.34|-59.21|||Mixed Models Analysis|||||-59.21|-290.34|0.0043
82546258|NCT03398148|164792037|SUPERIORITY||Adjusted Risk Difference|13.1||||0.1117|TWO_SIDED|90.0|-0.4|26.6|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||26.6|-0.4|0.1117
82467848|NCT04050553|164632540|SUPERIORITY||LS Mean Difference|-488.31|||<|0.0001|TWO_SIDED|95.0|-621.25|-355.36|||Mixed Models Analysis|||||-355.36|-621.25|<0.0001
82467849|NCT04050553|164632541|SUPERIORITY||LS Mean Difference|4.39||||0.0023|TWO_SIDED|95.0|1.69|7.08|||Mixed Models Analysis|||||7.08|1.69|0.0023
82467850|NCT04050553|164632542|SUPERIORITY||LS Mean Difference|-0.06||||0.0505|TWO_SIDED|95.0|-0.13|0.0|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 100 mg/dL.||0.00|-0.13|0.0505
82467851|NCT04050553|164632542|SUPERIORITY||LS Mean Difference|-0.18||||0.0104|TWO_SIDED|95.0|-0.31|-0.05|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 63 mg/dL.||-0.05|-0.31|0.0104
82467852|NCT04050553|164632542|SUPERIORITY||LS Mean Difference|-0.19||||0.0068|TWO_SIDED|95.0|-0.32|-0.06|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 45 mg/dL.||-0.06|-0.32|0.0068
82467853|NCT04050553|164632542|SUPERIORITY||LS Mean Difference|-0.11||||0.2302|TWO_SIDED|95.0|-0.3|0.08|||Mixed Models Analysis|||For Overall Hypoglycemia Symptom Score at concentration of 72 mg/dL.||0.08|-0.30|0.2302
82546259|NCT03398148|164792038|SUPERIORITY||Adjusted Risk Difference|8.3||||0.0192|TWO_SIDED|90.0|2.5|14.1||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||14.1|2.5|0.0192
82546260|NCT03398148|164792038|SUPERIORITY||Adjusted Risk Difference|4.8||||0.0706|TWO_SIDED|90.0|0.4|9.1||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||9.1|0.4|0.0706
82546261|NCT03398148|164792038|SUPERIORITY||Adjusted Risk Difference|8.7||||0.017|TWO_SIDED|90.0|2.7|14.6||P-value ≤ 0.05|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||14.6|2.7|0.0170
82467854|NCT04050553|164632543|SUPERIORITY||LS Mean Difference|-0.51||||0.8298|TWO_SIDED|95.0|-5.28|4.27|||Mixed Models Analysis|||For systolic blood pressure.||4.27|-5.28|0.8298
82467855|NCT04050553|164632543|SUPERIORITY||LS Mean Difference|1.96||||0.1516|TWO_SIDED|95.0|-0.76|4.67|||Mixed Models Analysis|||For diastolic blood pressure.||4.67|-0.76|0.1516
82467856|NCT04050553|164632544|SUPERIORITY||LS Mean Difference|-0.89||||0.5776|TWO_SIDED|95.0|-4.1|2.33|||Mixed Models Analysis|||||2.33|-4.10|0.5776
82467857|NCT04314284|164632551|SUPERIORITY|||||||0.15|||||||Kruskal-Wallis|||||||0.15
82467858|NCT04314284|164632552|SUPERIORITY|||||||0.35|||||||Kruskal-Wallis|||||||0.35
82467859|NCT04314284|164632553|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
82467860|NCT04314284|164632557|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
82467861|NCT04314284|164632558|SUPERIORITY|||||||0.52|||||||Kruskal-Wallis|||||||0.52
82467862|NCT04314284|164632559|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82467863|NCT04314284|164632562|OTHER|2-sided||||||0.71|||||||t-test, 2 sided|||||||0.71
82467864|NCT04314284|164632563|OTHER|2-sided||||||0.12|||||||t-test, 2 sided|||||||0.12
82467865|NCT04314284|164632565|SUPERIORITY|||||||0.66|||||||Kruskal-Wallis|||||||0.66
82467866|NCT03589859|164632614|OTHER|This was a physiology study, not a treatment trial. The test was for a change in VOR gain.|||||<|0.001|||||||Mixed Models Analysis|||A linear mixed effects model was used to compare pre- and post-training VOR gains||||<0.001
82467867|NCT02201953|164632622|NON_INFERIORITY_OR_EQUIVALENCE|Primary analyses consisted of non-inferiority test of Group 1 (SOF/VEL 12 weeks) versus Group 2 (SOF+RBV 24 weeks) at the 0.05 significance level. Non-inferiority was assessed using the conventional confidence interval approach and a non-inferiority margin of 10% was applied. The two-sided 95% confidence intervals was constructed using stratum-adjusted Mantel-Haenszel proportions, stratified by the randomization stratification factors (i.e cirrhosis status and prior treatment experience)|Difference in proportions|14.4|||||TWO_SIDED|95.0|9.2|19.6|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||19.6|9.2|
82467868|NCT02201953|164632622|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value was from the Cochran-Mantel-Haenszel test stratified by cirrhosis status and prior HCV treatment experience.|Cochran-Mantel-Haenszel|||If the lower bound of 95% CI on the difference was \> -10%, the p-value tested for the superiority of SOF/VEL for 12 weeks over SOF+RBV for 24 weeks. Superiority was demonstrated if the two-sided p-value is less than 0.05.||||<0.001
82467869|NCT02435992|164632645|SUPERIORITY||Odds Ratio (OR)|3.586||||0.0001|TWO_SIDED|95.0|1.938|6.636|||Cochran-Mantel-Haenszel|||||6.636|1.938|0.0001
82467870|NCT02435992|164632646|SUPERIORITY||Odds Ratio (OR)|2.755||||0.0001|TWO_SIDED|95.0|1.767|4.294|||Cochran-Mantel-Haenszel|||||4.294|1.767|0.0001
82467871|NCT03873116|164632658|SUPERIORITY||negative binomial regression model|-24.6||||0.181|TWO_SIDED|95.0|-50.1|14.0|||negative binomial regression model|||||14.0|-50.1|0.181
82467872|NCT03873116|164632658|SUPERIORITY||negative binomial regression model|-49.1||||0.003|TWO_SIDED|95.0|-67.5|-20.4|||negative binomial regression model|||||-20.4|-67.5|0.003
82467873|NCT03873116|164632661|SUPERIORITY||Difference in Least Square Means|0.018||||0.814|TWO_SIDED|95.0|-0.143|0.179|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms.||0.179|-0.143|0.814
82467874|NCT03873116|164632661|SUPERIORITY||Difference in Least Square Means|-0.122||||0.12|TWO_SIDED|95.0|-0.28|0.036|||ANCOVA|||Numerical differences from the placebo treatment in the LSM proportion of the 169 days of treatment with angioedema symptoms.||0.036|-0.280|0.120
82467875|NCT03873116|164632662|SUPERIORITY||mixed-model repeated measures analysis|24.5||||0.188|TWO_SIDED|95.0|-14.7|50.3|||mixed-model repeated measures analysis|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of rate of expert-confirmed angioedema events during dosing in the effective treatment period for statistical significance would not be completed. Therefore, P-values reported are nominal.||50.3|-14.7|0.188
82650549|NCT01335464|165016258|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|1.77||0.6203|TWO_SIDED|95.0|-4.35|2.6|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SOBQ score, baseline SOBQ score-by-visit and random effect for patient.||2.60|-4.35|0.6203
82467876|NCT03873116|164632662|SUPERIORITY||mixed-model repeated measures analysis|47.6||||0.005|TWO_SIDED|95.0|17.7|66.6|||mixed-model repeated measures analysis|||In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the second secondary endpoint of rate of expert-confirmed angioedema events during dosing in the effective treatment period for statistical significance would not be completed. Therefore, P-values reported are nominal.||66.6|17.7|0.005
82467877|NCT03873116|164632663|SUPERIORITY||mixed-model repeated measures analysis|-12.65||||0.213|TWO_SIDED|95.0|-33.33|8.03|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of change from baseline in AE-QoL total score at Week 24 for statistical significance would not be completed. P-values that are reported are nominal.||8.03|-33.33|0.213
82467878|NCT03873116|164632663|SUPERIORITY||mixed-model repeated measures analysis|-19.0||||0.061|TWO_SIDED|95.0|-39.0|0.99|||mixed-model repeated measures analysis|||Numerical difference in change from baseline of AE-QoL total score between treatment groups. In the event that the first secondary endpoint did not meet statistical significance in the hierarchical testing scheme, testing of the third secondary endpoint of change from baseline in AE-QoL total score at Week 24 for statistical significance would not be completed. P-values that are reported are nominal.||0.99|-39.00|0.061
82467879|NCT00538902|164632809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.026||95.0|1.09|4.39||Each comparison was tested at the 2-sided alpha level of 0.05. Subjects with missing data were imputed to be non-responders. The overall type I error rate was preserved by a hierarchical stepwise closed testing procedure.|Cochran-Mantel-Haenszel|||A sample size of 42 subjects in the placebo group and 84 subjects in each of the adalimumab groups was needed to achieve 98% power to detect that the ACR20 response rate in the 80 mg adalimumab group was different from placebo and to achieve 84% power to detect that the 40 mg adalimumab group was different from placebo.||4.39|1.09|0.026
82546262|NCT03398148|164792039|SUPERIORITY|||||||0.7737|||||||Chi-squared|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7737
82546263|NCT03398148|164792039|SUPERIORITY|||||||0.7432|||||||Fisher Exact|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7432
82546264|NCT03398148|164792039|SUPERIORITY|||||||0.7172|||||||Fisher Exact|P value for comparisons between treatment groups and placebo group using chi-square test or Fisher's exact test.||||||0.7172
82546265|NCT03398148|164792040|SUPERIORITY||Adjusted Risk Difference|4.7||||0.0722|TWO_SIDED|90.0|0.4|9.0||P-value ≤ 0.1|Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||9.0|0.4|0.0722
82546266|NCT03398148|164792040|SUPERIORITY||Adjusted Risk Difference|3.1||||0.148|TWO_SIDED|90.0|-0.4|6.6|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||6.6|-0.4|0.1480
82546267|NCT03398148|164792040|SUPERIORITY||Adjusted Risk Difference|1.7||||0.3042|TWO_SIDED|90.0|-1.0|4.5|||Cochran-Mantel-Haenszel|Stratified by baseline corticosteroid use (yes, no) and baseline adapted mayo score (\<= 7, \> 7).|Risk difference = (risankizumab - Placebo).|||4.5|-1.0|0.3042
82546268|NCT03398148|164792041|SUPERIORITY||Least Squares (LS) Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|2.13||0.003|TWO_SIDED|90.0|-9.94|-2.89||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||-2.89|-9.94|0.0030
82546269|NCT03398148|164792041|SUPERIORITY||Least Squares (LS) Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|2.11||0.0001|TWO_SIDED|90.0|-11.67|-4.71||P-value ≤ 0.001|Mixed-effect model repeated measurement|||||-4.71|-11.67|0.0001
82546270|NCT03398148|164792041|SUPERIORITY||Least Squares (LS) Mean Difference|-7.7|STANDARD_ERROR_OF_MEAN|2.14||0.0004|TWO_SIDED|90.0|-11.27|-4.19||P-value ≤ 0.001|Mixed-effect model repeated measurement|||||-4.19|-11.27|0.0004
82546271|NCT03398148|164792042|SUPERIORITY||Least Squares (LS) Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|6.47||0.0081|TWO_SIDED|90.0|6.61|28.0||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||28|6.61|0.0081
82546272|NCT03398148|164792042|SUPERIORITY||Least Squares (LS) Mean Difference|20.3|STANDARD_ERROR_OF_MEAN|6.37||0.0017|TWO_SIDED|90.0|9.74|30.79||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||30.79|9.74|0.0017
82546273|NCT03398148|164792042|SUPERIORITY||Least Squares (LS) Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|6.49||0.0024|TWO_SIDED|90.0|9.22|30.67||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||30.67|9.22|0.0024
82546274|NCT03398148|164792043|SUPERIORITY||Least Squares (LS) Mean Difference|1.208||||0.3315|TWO_SIDED|90.0|-0.8429|3.2596|||Mixed-effect model repeated measurement|||||3.2596|-0.8429|0.3315
82546275|NCT03398148|164792043|SUPERIORITY||LS Mean of Difference|2.447||||0.0451|TWO_SIDED|90.0|0.4415|4.4519||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||4.4519|0.4415|0.0451
82546276|NCT03398148|164792043|SUPERIORITY||LS Mean of Difference|2.392||||0.0543|TWO_SIDED|90.0|0.3498|4.4352||P-value ≤ 0.1|Mixed-effect model repeated measurement|||||4.4352|0.3498|0.0543
82467880|NCT00538902|164632809|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.68||||0.004||95.0|1.35|5.3||Each comparison was tested at the 2-sided alpha level of 0.05. Subjects with missing data were imputed to be non-responders. The overall type I error rate was preserved by a hierarchical stepwise closed testing procedure.|Cochran-Mantel-Haenszel|||A sample size of 42 subjects in the placebo group and 84 subjects in each of the adalimumab groups was needed to achieve 98% power to detect that the ACR20 response rate in the 80 mg adalimumab group was different from placebo and to achieve 84% power to detect that the 40 mg adalimumab group was different from placebo.||5.30|1.35|0.004
82467881|NCT00538902|164632810|SUPERIORITY_OR_OTHER|||||||0.009||||||The between-treatment comparison between each adalimumab group vs. placebo was performed at the 2-sided alpha = 0.05 significance level, without using a stepwise testing procedure or alpha adjustment.|Cochran-Mantel-Haenszel|Percentage ACR responders at Week 12 were compared between adalimumab and placebo groups, where missing ACR responses were imputed as non-responder.||||||0.009
82467882|NCT00538902|164632810|SUPERIORITY_OR_OTHER|||||||0.121|||||||Cochran-Mantel-Haenszel|||||||0.121
82467883|NCT04109547|164632854|SUPERIORITY||Treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-1.3|-1.8|<0.0001
82467884|NCT04109547|164632854|SUPERIORITY||Treatment difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-1.2|-1.6|<0.0001
82467885|NCT04109547|164632854|SUPERIORITY||Treatment difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||Unadjusted two-sided p-value for test of no difference from 0.|MMRM|||||-0.8|-1.2|<0.0001
82467886|NCT00871975|164632908|SUPERIORITY_OR_OTHER||Sensitivity (percent)|80.6|||||TWO_SIDED||||||||We found an 80.6% sensitivity for detection of detrusor overactivity on Tetra-NIRS as compared to urodynamics.|A contingency table was used to compare presence or absence of an event (eg. detrusor overactivity) on the urodynamic tracing with interpretation of events on the Tetra-NIRS tracings.||||
82467887|NCT00871975|164632908|SUPERIORITY_OR_OTHER||Specificity (percent)|28.1|||||TWO_SIDED||||||||We found a 28.1% specificity for detection of detrusor overactivity on Tetra-NIRS as compared to urodynamics.|A contingency table was used to compare presence or absence of an event (eg. detrusor overactivity) on the urodynamic tracing with interpretation of events on the Tetra-NIRS tracings.||||
82467888|NCT03773978|164632914|SUPERIORITY||Hazard Ratio (HR)|0.241|||<|0.001|TWO_SIDED|95.0|0.128|0.453|||Log Rank|||||0.453|0.128|<0.001
82467889|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|2.72||||0.052|TWO_SIDED|95.0|0.99|7.46|||Regression, Logistic|||at week 16||7.46|0.99|0.052
82467890|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.64||||0.002|TWO_SIDED|95.0|1.6|8.28|||Regression, Logistic|||at week 20||8.28|1.60|0.002
82467891|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|4.34|||<|0.001|TWO_SIDED|95.0|2.0|9.41|||Regression, Logistic|||at week 24||9.41|2.00|<0.001
82546277|NCT03398148|164792044|SUPERIORITY||LS Mean of Difference|3.662||||0.0367|TWO_SIDED|90.0|0.7841|6.5402||P-value \<= 0.1|Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||6.5402|0.7841|0.0367
82546278|NCT03398148|164792044|SUPERIORITY||LS Mean of Difference|4.19||||0.0151|TWO_SIDED|90.0|1.3656|7.0144||P-value \<= 0.05|Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||7.0144|1.3656|0.0151
82546279|NCT03398148|164792044|SUPERIORITY||LS Mean of Difference|2.348||||0.1795|TWO_SIDED|90.0|-0.5322|5.2281|||Mixed-effect model repeated measurement||P-value for test of difference between each Risankizumab dose group and placebo for mean change from baseline using the mixed-effect repeated measure model The unstructured covariance structure was used to estimate within subject errors.|||5.2281|-0.5322|0.1795
82546280|NCT03398148|164792045|SUPERIORITY||Least Squares (LS) Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.91||0.0422|TWO_SIDED|90.0|0.75|7.06||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||7.06|0.75|0.0422
82546281|NCT03398148|164792045|SUPERIORITY||Least Squares (LS) Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|1.87||0.0049|TWO_SIDED|90.0|2.23|8.42||P-value ≤ 0.01|Mixed-effect model repeated measurement|||||8.42|2.23|0.0049
82546282|NCT03398148|164792045|SUPERIORITY||Least Squares (LS) Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.91||0.0156|TWO_SIDED|90.0|1.5|7.8||P-value ≤ 0.05|Mixed-effect model repeated measurement|||||7.80|1.50|0.0156
82467892|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.37||||0.001|TWO_SIDED|95.0|1.62|7.01|||Regression, Logistic|||at week 28||7.01|1.62|0.001
82467893|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.0||||0.002|TWO_SIDED|95.0|1.48|6.07|||Regression, Logistic|||at week 32||6.07|1.48|0.002
82467894|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.25|||<|0.001|TWO_SIDED|95.0|1.62|6.52|||Regression, Logistic|||at week 36||6.52|1.62|<0.001
82467895|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.7|||<|0.001|TWO_SIDED|95.0|1.85|7.41|||Regression, Logistic|||at week 40||7.41|1.85|<0.001
82467896|NCT03773978|164632915|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|1.65|6.5|||Regression, Logistic|||at week 44||6.50|1.65|<0.001
82467897|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|1.25||||0.568|TWO_SIDED|95.0|0.59|2.65|||Regression, Logistic|||at week 16||2.65|0.59|0.568
82546283|NCT03398148|164792046|SUPERIORITY|||||||1||||||P-Value for comparisons between treatment groups and placebo group using Fisher's exact test.|Fisher Exact|||Note: ITT1A includes all randomized subjects who received at least one dose of study drug during Induction Period 1 from Sub-Study 1.||||1
82546284|NCT03398148|164792047|SUPERIORITY||Adjusted Risk Difference|28.6|||<|0.0001|TWO_SIDED|95.0|22.3|34.8||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference.|||34.8|22.3|<0.0001
82467898|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|2.92||||0.004|TWO_SIDED|95.0|1.4|6.09|||Regression, Logistic|||at week 20||6.09|1.40|0.004
82467899|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|4.38|||<|0.001|TWO_SIDED|95.0|2.1|9.15|||Regression, Logistic|||at week 24||9.15|2.10|<0.001
82467900|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|3.09||||0.002|TWO_SIDED|95.0|1.51|6.32|||Regression, Logistic|||at week 28||6.32|1.51|0.002
82467901|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|2.99||||0.003|TWO_SIDED|95.0|1.47|6.11|||Regression, Logistic|||at week 32||6.11|1.47|0.003
82467902|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|2.84||||0.003|TWO_SIDED|95.0|1.44|5.6|||Regression, Logistic|||at week 36||5.60|1.44|0.003
82467903|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|1.74|6.97|||Regression, Logistic|||at week 40||6.97|1.74|<0.001
82467904|NCT03773978|164632916|SUPERIORITY||Odds Ratio (OR)|2.87||||0.002|TWO_SIDED|95.0|1.46|5.66|||Regression, Logistic|||at week 44||5.66|1.46|0.002
82467905|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|0.99||||0.972|TWO_SIDED|95.0|0.52|1.87|||Regression, Logistic|||at week 16||1.87|0.52|0.972
82467906|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|2.47||||0.008|TWO_SIDED|95.0|1.27|4.81|||Regression, Logistic|||at week 20||4.81|1.27|0.008
82467907|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|2.57||||0.005|TWO_SIDED|95.0|1.33|4.97|||Regression, Logistic|||at week 24||4.97|1.33|0.005
82546285|NCT03398148|164792048|SUPERIORITY||Adjusted Risk Difference|24.3|||<|0.0001|TWO_SIDED|95.0|19.3|29.4||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||29.4|19.3|<0.0001
82546286|NCT03398148|164792049|SUPERIORITY||Adjusted Risk Difference|16.6|||<|0.0001|TWO_SIDED|95.0|12.3|21.0||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||21.0|12.3|<0.0001
82579437|NCT00297427|164869372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.208||||0.014|TWO_SIDED|95.0|1.039|1.405|||Regression, Logistic||These are the adjusted results of a multivariate logistic regression.|||1.405|1.039|0.014
82467908|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|3.06|||<|0.001|TWO_SIDED|95.0|1.57|5.94|||Regression, Logistic|||at week 28||5.94|1.57|<0.001
82467909|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|2.42||||0.009|TWO_SIDED|95.0|1.25|4.71|||Regression, Logistic|||at week 32||4.71|1.25|0.009
82467910|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|2.8||||0.003|TWO_SIDED|95.0|1.43|5.47|||Regression, Logistic|||at week 36||5.47|1.43|0.003
82467911|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|2.93||||0.002|TWO_SIDED|95.0|1.47|5.83|||Regression, Logistic|||at week 40||5.83|1.47|0.002
82467912|NCT03773978|164632917|SUPERIORITY||Odds Ratio (OR)|1.93||||0.052|TWO_SIDED|95.0|0.99|3.74|||Regression, Logistic|||at week 44||3.74|0.99|0.052
82467913|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|1.35||||0.409|TWO_SIDED|95.0|0.66|2.75|||Regression, Logistic|||at week 16||2.75|0.66|0.409
82467914|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.13||||0.03|TWO_SIDED|95.0|1.07|4.23|||Regression, Logistic|||at week 20||4.23|1.07|0.030
82467915|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.36||||0.022|TWO_SIDED|95.0|1.13|4.92|||Regression, Logistic|||at week 24||4.92|1.13|0.022
82467916|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.05||||0.04|TWO_SIDED|95.0|1.03|4.08|||Regression, Logistic|||at week 28||4.08|1.03|0.040
82467917|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.13||||0.032|TWO_SIDED|95.0|1.07|4.24|||Regression, Logistic|||at week 32||4.24|1.07|0.032
82467918|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|1.71||||0.132|TWO_SIDED|95.0|0.85|3.42|||Regression, Logistic|||at week 36||3.42|0.85|0.132
82467919|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.02||||0.05|TWO_SIDED|95.0|1.0|4.1|||Regression, Logistic|||at week 40||4.10|1.00|0.050
82467920|NCT03773978|164632918|SUPERIORITY||Odds Ratio (OR)|2.32||||0.019|TWO_SIDED|95.0|1.15|4.71|||Regression, Logistic|||at week 44||4.71|1.15|0.019
82467921|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|0.8||||0.62|TWO_SIDED|95.0|0.33|1.92|||Regression, Logistic|||at week 16||1.92|0.33|0.620
82467922|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.3||||0.492|TWO_SIDED|95.0|0.61|2.78|||Regression, Logistic|||at week 20||2.78|0.61|0.492
82467923|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.17||||0.715|TWO_SIDED|95.0|0.5|2.75|||Regression, Logistic|||at week 24||2.75|0.50|0.715
82467924|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.4||||0.384|TWO_SIDED|95.0|0.66|2.99|||Regression, Logistic|||at week 28||2.99|0.66|0.384
82467925|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.47||||0.311|TWO_SIDED|95.0|0.7|3.1|||Regression, Logistic|||at week 32||3.10|0.70|0.311
82467926|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.58||||0.231|TWO_SIDED|95.0|0.75|3.34|||Regression, Logistic|||at week 36||3.34|0.75|0.231
82467927|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|1.82||||0.129|TWO_SIDED|95.0|0.84|3.95|||Regression, Logistic|||at week 40||3.95|0.84|0.129
82467928|NCT03773978|164632919|SUPERIORITY||Odds Ratio (OR)|2.23||||0.043|TWO_SIDED|95.0|1.02|4.84|||Regression, Logistic|||at week 44||4.84|1.02|0.043
82467929|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.1||||0.853|TWO_SIDED|95.0|0.4|2.98|||Regression, Logistic|||at week 16||2.98|0.40|0.853
82467930|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|0.7||||0.432|TWO_SIDED|95.0|0.29|1.71|||Regression, Logistic|||at week 20||1.71|0.29|0.432
82467931|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.41|2.31|||Regression, Logistic|||at week 24||2.31|0.41|0.960
82467932|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.71||||0.215|TWO_SIDED|95.0|0.73|4.01|||Regression, Logistic|||at week 28||4.01|0.73|0.215
82467933|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.8||||0.173|TWO_SIDED|95.0|0.77|4.22|||Regression, Logistic|||at week 32||4.22|0.77|0.173
82467934|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.46||||0.367|TWO_SIDED|95.0|0.64|3.33|||Regression, Logistic|||at week 36||3.33|0.64|0.367
82467935|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.9||||0.162|TWO_SIDED|95.0|0.77|4.67|||Regression, Logistic|||at week 40||4.67|0.77|0.162
82467936|NCT03773978|164632920|SUPERIORITY||Odds Ratio (OR)|1.96||||0.113|TWO_SIDED|95.0|0.85|4.5|||Regression, Logistic|||at week 44||4.50|0.85|0.113
82467937|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|0.8||||0.511|TWO_SIDED|95.0|0.42|1.55|||Regression, Logistic|||at week 16||1.55|0.42|0.511
82467938|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.64||||0.145|TWO_SIDED|95.0|0.84|3.2|||Regression, Logistic|||at week 20||3.20|0.84|0.145
82467939|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.38||||0.349|TWO_SIDED|95.0|0.7|2.72|||Regression, Logistic|||at week 24||2.72|0.70|0.349
82467940|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.63||||0.167|TWO_SIDED|95.0|0.82|3.25|||Regression, Logistic|||at week 28||3.25|0.82|0.167
82467941|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.55||||0.212|TWO_SIDED|95.0|0.78|3.07|||Regression, Logistic|||at week 32||3.07|0.78|0.212
82467942|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.21||||0.577|TWO_SIDED|95.0|0.62|2.39|||Regression, Logistic|||at week 36||2.39|0.62|0.577
82467943|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.51||||0.225|TWO_SIDED|95.0|0.78|2.95|||Regression, Logistic|||at week 40||2.95|0.78|0.225
82467944|NCT03773978|164632921|SUPERIORITY||Odds Ratio (OR)|1.96||||0.055|TWO_SIDED|95.0|0.98|3.9|||Regression, Logistic|||at week 44||3.90|0.98|0.055
82467945|NCT03773978|164632923|SUPERIORITY||LS Mean difference|-4.33|STANDARD_ERROR_OF_MEAN|1.328||0.001|TWO_SIDED|95.0|-6.95|-1.7|||ANCOVA|||||-1.70|-6.95|0.001
82467946|NCT03773978|164632924|SUPERIORITY||LS Mean difference|-12.97|STANDARD_ERROR_OF_MEAN|4.262||0.003|TWO_SIDED|95.0|-21.39|-4.55|||ANCOVA|||||-4.55|-21.39|0.003
82467947|NCT03773978|164632925|SUPERIORITY||LS Mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.526||0.574|TWO_SIDED|95.0|-2.62|1.91|||ANCOVA|||||1.91|-2.62|0.574
82467948|NCT03773978|164632926|SUPERIORITY||LS Mean difference|0.45|STANDARD_ERROR_OF_MEAN|0.348||0.208|TWO_SIDED|95.0|-0.26|1.15|||ANCOVA|||||1.15|-0.26|0.208
82546287|NCT03398148|164792050|SUPERIORITY||Adjusted Risk Difference|7.2|||<|0.0001|TWO_SIDED|95.0|4.2|10.2||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||10.2|4.2|<0.0001
82579438|NCT00297427|164869373|SUPERIORITY_OR_OTHER|||||||0.023||||||This is the result from the bivariate (unadjusted) analysis.|t-test, 2 sided|||||||0.023
82650550|NCT01335464|165016259|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|1.803||0.8942|TWO_SIDED|95.0|-3.78|3.3|||Mixed Models Analysis||"Within- patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough symptoms score, baseline CASA-Q Cough symptoms score-by-visit and random effect for patient.||3.30|-3.78|0.8942
82467949|NCT03773978|164632927|SUPERIORITY||LS Mean difference|-1.08|STANDARD_ERROR_OF_MEAN|0.438||0.019|TWO_SIDED|95.0|-1.98|-0.19|||ANCOVA|||||-0.19|-1.98|0.019
82467950|NCT03755934|164632950|SUPERIORITY||LS mean estimate|-1.96|STANDARD_ERROR_OF_MEAN|0.961||0.0437|TWO_SIDED|95.0|-3.87|-0.06||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||-0.06|-3.87|0.0437
82467951|NCT03755934|164632950|SUPERIORITY||LS mean estimate|0.72|STANDARD_ERROR_OF_MEAN|0.541||0.1878|TWO_SIDED|95.0|-0.36|1.79||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||1.79|-0.36|0.1878
82467952|NCT03755934|164632950|SUPERIORITY||LS mean estimate|-1.39|STANDARD_ERROR_OF_MEAN|0.407||0.0009|TWO_SIDED|95.0|-2.19|-0.58||ANCOVA by dose using NRS baseline value and co-medication as covariates, with CFB to Week 12 (LOCF) as dependent variable was used to derive p-value.|ANCOVA|||||-0.58|-2.19|0.0009
82467953|NCT00817843|164632976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.295||0.766||95.0|||||ANOVA|||"Between treatment difference in the change in FMD from the fasting to the post-fat load state.~Null hypothesis was that combination therapy (simvastatin/ezetimibe) would protect the FMD in the post-fat load phase and would therefore be associated with a smaller drop in FMD~Power calculation was based on the results from a pilot study. To detect a 1.0% difference between treatments with a SD of 2.7% and a power of 90% (alfa 0.05, two tailed) 80 evaluable patients were needed."||||0.766
82467954|NCT00198822|164632990|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65||||0.05|ONE_SIDED|95.0||0.99||We set an a priori level of statistical significance of p equal to 0.05.|generalized estimating equations|RR with 95% CIs were estimated by GEE binomial regression, with a log link function and exchangeable correlation appropriate for binary data.|The vitamin A group and the Beta-carotene group were compared to the placebo group.|Sample size was based on an expected placebo group MR of 600/100,000 pregnancies, requiring 18,000 pregnancies to detect a 35% reduction in all-cause mortality, with a 5% type I error, 80% power, 1.21 design effect, 15% early pregnancy loss and 10% loss to follow-up. A mid-study DSMB analysis suggested a lower MR, leading the SS to be increased to 67,740. However, with no mortality difference evident at a DSMB meeting in Dec 2006, the trial was halted leaving 59,721 in the trial cohort.||0.99||0.05
82467955|NCT00737672|164633025|SUPERIORITY_OR_OTHER|||||||0.53|||||||Log Rank|||||||0.530
82467956|NCT00737672|164633028|SUPERIORITY_OR_OTHER|||||||0.475|||||||Log Rank|||||||0.475
82467957|NCT00737672|164633031|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value was calculated using Kaplan-Meier methodology with 24-month follow-up data.|Log Rank|||||||0.008
82467958|NCT00737672|164633032|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test of non-inferior proportions with delta = 0.15.|||||<|0.001|||||||Z-test|One-sided.||||||<0.001
82467959|NCT00737672|164633033|SUPERIORITY_OR_OTHER|||||||0.035|||||||Log Rank|||||||0.035
82467960|NCT00737672|164633036|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|Two-tailed.||||||1.000
82467961|NCT00737672|164633037|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|Two-tailed.||||||<0.001
82467962|NCT00737672|164633038|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|Two-tailed.||||||<0.001
82467963|NCT02735863|164633052|SUPERIORITY|||||||0.5352|||||||Log Rank|||||||0.5352
82467964|NCT03955146|164633053|OTHER||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.062||0.2926|TWO_SIDED|95.0|-0.06|0.19|||Mixed Models Analysis|||||0.19|-0.06|0.2926
82467965|NCT00311766|164633062|SUPERIORITY_OR_OTHER||ANCOVA|0.8|||>|0.05|TWO_SIDED|95.0|||||Fisher Exact|||The primary population was the Full Analysis(FA)population. The FA population included all patients who were randomized and received at least one dose of study medication and who had at least one baseline efficacy parameter recorded||||>0.05
82467966|NCT02628873|164633071|EQUIVALENCE|Degree of agreement between the 2 Assessors|Degree of agreement / Kappa|0.48|||<|0.01|TWO_SIDED||||||Kappa|||||||< 0.01
82467967|NCT02628873|164633072|SUPERIORITY|T-test to determine whether one method had greater reported pain|Mean Difference (Final Values)|-0.925|STANDARD_DEVIATION|2.71|<|0.3|TWO_SIDED|95.0|-2.69|1.0|||t-test, 2 sided|||||1.00|-2.69|< 0.30
82467968|NCT02628873|164633073|SUPERIORITY||Mean Difference (Final Values)|-0.431|STANDARD_DEVIATION|2.76|<|0.67|TWO_SIDED|95.0|-2.4|1.56|||t-test, 2 sided|Paired t-test (pre-procedure versus post-procedure)||||1.56|-2.40|< 0.67
82467969|NCT04672239|164633074|SUPERIORITY||Mean Difference (Final Values)|7.3341||||0.0219|TWO_SIDED|95.0|1.0734|13.5948||We used hierarchical linear mixed models with maximum likelihood estimation of all available longitudinal data to handle missing data, then used a planned, pairwise comparison to test for end-of-treatment group differences.|Mixed Models Analysis||Model-estimated difference for the pairwise group difference at week 6 post-quit (end-of-treatment).|This proof-of-concept RCT was powered to detect an effect size of d=0.50 between SiS3 and either of the two control groups. Using SAS PROC POWER, it was determined that a sample size of n=64 per group would be needed to detect this effect in a 2-sided t-test with p=.05. Assuming a retention rate of 85%, it was determined that one needed to enroll n=75 per group in order to retain n=64 by end of treatment.||13.5948|1.0734|0.0219
82467970|NCT04672239|164633074|SUPERIORITY||Mean Difference (Final Values)|8.7775||||0.0072|TWO_SIDED|95.0|2.407|15.148||We used hierarchical linear mixed models with maximum likelihood estimation of all available longitudinal data to handle missing data, then used a planned, pairwise comparison to test for end-of-treatment group differences.|Mixed Models Analysis||Model-estimated difference for the pairwise group difference at week 6 post-quit (end-of-treatment).|This proof-of-concept RCT was powered to detect an effect size of d=0.50 between SiS3 and either of the two control groups. Using SAS PROC POWER, it was determined that a sample size of n=64 per group would be needed to detect this effect in a 2-sided t-test with p=.05. Assuming a retention rate of 85%, it was determined that one needed to enroll n=75 per group in order to retain n=64 by end of treatment.||15.1480|2.4070|0.0072
82467971|NCT04672239|164633075|SUPERIORITY||Odds Ratio (OR)|1.5072||||0.2259|TWO_SIDED|95.0|0.7759|2.9281|||Generalized Linear Model|We used a Generalized Linear Model with binomial distribution (abstinent vs. smoking) and logit link with repeated measures over time.|The odds ratio compares the SiS app treatment to the QG app treatment at week 6 post-quit (end-of-treatment).|This was an exploratory aim, so no power analysis was conducted. We hypothesized, that the 30-day point prevalence smoking cessation prevalence would be higher in the SiS app treatment compared to the QuitGuide app treatment. Participants with missing data were assumed to be smoking. We modeled all available data over time and present the cross-sectional group difference test at week 6 post quit (i.e., end-of-treatment).||2.9281|0.7759|0.2259
82467972|NCT04672239|164633075|SUPERIORITY||Odds Ratio (OR)|1.963||||0.0579|TWO_SIDED|95.0|0.9776|3.9415|||Generalized Linear Model|We used a Generalized Linear Model with binomial distribution (abstinent vs. smoking) and logit link with repeated measures over time.|The odds ratio compares the SiS app treatment to the CtA pamphlet at week 6 post-quit (end-of-treatment).|This was an exploratory aim, so no power analysis was conducted. We hypothesized, that the 30-day point prevalence smoking cessation prevalence would be higher in the SiS app treatment compared to the Clearing the Air pamphlet treatment. Participants with missing data were assumed to be smoking. We modeled all available data over time and present the cross-sectional group difference test at week 6 post quit (i.e., post-treatment).||3.9415|0.9776|0.0579
82467973|NCT04672239|164633076|SUPERIORITY||Wilcoxon Z|0.401||||0.9152|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|SiS app treatment vs. QuitGuide app treatment at week 6 post-quit (end-of-treatment)|||||0.9152
82467974|NCT04672239|164633076|SUPERIORITY||Wilcoxon Z|1.372||||0.3557|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|Pairwise comparison, SiS app treatment vs. CTA pamphlet at week 6 post-quit (end-of-treatment)|||||0.3557
82467975|NCT04672239|164633077|SUPERIORITY||Mean Difference (Final Values)|0.2936||||0.7469|TWO_SIDED|95.0|-1.4983|2.0856||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided||Comparison of SiS app treatment to the QuitGuide treatment as control (Contrast coding SiS 1, QG -1)|||2.0856|-1.4983|0.7469
82467976|NCT04672239|164633077|SUPERIORITY||Mean Difference (Final Values)|1.2569||||0.1747|TWO_SIDED|95.0|-0.5628|3.0766||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided||Comparison of SiS app treatment to the Clearing the Air pamphlet treatment as control (Contrast coding SiS 1, CtA -1)|||3.0766|-0.5628|0.1747
82467977|NCT04672239|164633078|SUPERIORITY||Wilcoxon Z|1.9255||||0.1315|TWO_SIDED|||||p-values were not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method||||||0.1315
82467978|NCT04672239|164633078|SUPERIORITY||Wilcoxon Z|1.401||||0.3403|TWO_SIDED|||||the p-value was not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|Pairwise Two-Sided Multiple Comparison Analysis Dwass, Steel, Critchlow-Fligner Method|SiS app vs. Clearing the Air pamphlet|||||0.3403
82467979|NCT04672239|164633079|SUPERIORITY||Mean Difference (Final Values)|0.2289||||0.0429|TWO_SIDED|95.0|0.007364|0.4505||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QuitGuide app|0.4505|0.007364|0.0429
82467980|NCT04672239|164633079|SUPERIORITY||Mean Difference (Final Values)|0.1609||||0.16|TWO_SIDED|95.0|-0.06415|0.386||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet|0.3860|-0.06415|0.1600
82467981|NCT04672239|164633080|SUPERIORITY||Mean Difference (Final Values)|0.152||||0.1996|TWO_SIDED|95.0|-0.08092|0.3848||p-value is not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QG app|0.3848|-0.08092|0.1996
82467982|NCT04672239|164633080|SUPERIORITY||Mean Difference (Final Values)|0.292||||0.0154|TWO_SIDED|95.0|0.05636|0.5276||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet (control)|0.5276|0.05636|0.0154
82561929|NCT01241448|164833066|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.77|||<|0.01|TWO_SIDED|90.0|-1.05|-0.48||No multiplicity adjustments were used to calculate the p-value.|Mixed Models Analysis|||Sixty-five randomized patients (45 completers) per arm were expected to provide at least 90% power to detect 0.8% HbA1c difference with placebo assuming a SD for change in HbA1c of 1.2% (0.05 1-sided type I error).||-0.48|-1.05|<0.01
82467983|NCT04672239|164633081|SUPERIORITY||Mean Difference (Final Values)|2.6255||||0.2988|TWO_SIDED|95.0|-2.3458|7.5968||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. QuitGuide app (control)|7.5968|-2.3458|0.2988
82467984|NCT04672239|164633081|SUPERIORITY||Mean Difference (Final Values)|3.9277||||0.1251|TWO_SIDED|95.0|-1.1015|8.9569||p-value was not adjusted for multiple comparisons|t-test, 2 sided||||SiS app vs. CtA pamphlet (control)|8.9569|-1.1015|0.1251
82467985|NCT04672239|164633082|SUPERIORITY||Wilcoxon Z|-0.8096||||0.4182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.4182
82467986|NCT04672239|164633083|SUPERIORITY||Wilcoxon Z|1.909||||0.0563|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0563
82467987|NCT04672239|164633084|SUPERIORITY||Mean Difference (Final Values)|0.1106||||0.5018|TWO_SIDED|95.0|-0.2143|0.4354|||t-test, 2 sided|||||0.4354|-0.2143|0.5018
82467988|NCT04672239|164633085|SUPERIORITY||Mean Difference (Final Values)|0.1406||||0.4246|TWO_SIDED|95.0|-0.2068|0.488|||t-test, 2 sided|||||0.4880|-0.2068|0.4246
82467989|NCT04672239|164633086|SUPERIORITY||Mean Difference (Final Values)|2.4296||||0.4078|TWO_SIDED|95.0|-3.3597|8.2188|||t-test, 2 sided||SiS app vs. QG (control)|||8.2188|-3.3597|0.4078
82467990|NCT00541658|164633087|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.233|||||TWO_SIDED|95.0|-0.812|0.345|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.345|-0.812|
82467991|NCT00541658|164633087|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.296|||||TWO_SIDED|95.0|-0.869|0.277|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.277|-0.869|
82546288|NCT03398148|164792051|SUPERIORITY||Adjusted Risk Difference|21.8|||<|0.0001|TWO_SIDED|95.0|15.6|28.1||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||28.1|15.6|<0.0001
82546289|NCT03398148|164792052|SUPERIORITY||Adjusted Risk Difference|16.3|||<|0.0001|TWO_SIDED|95.0|10.3|22.4||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||22.4|10.3|<0.0001
82546290|NCT03398148|164792053|SUPERIORITY||Adjusted Risk Difference|9.3||||0.0021|TWO_SIDED|95.0|3.4|15.3||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||15.3|3.4|0.0021
82376860|NCT04856930|164460568|SUPERIORITY||LS Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|8.97||0.5939|TWO_SIDED|90.0|-19.66|10.07||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||10.07|-19.66|0.5939
82467992|NCT00541658|164633088|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265||||0.2955|TWO_SIDED|95.0|-0.763|0.232|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant used.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.232|-0.763|0.2955
82467993|NCT00541658|164633089|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.131|||||TWO_SIDED|95.0|-0.674|0.412|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.412|-0.674|
82467994|NCT00541658|164633089|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|0.156|||||TWO_SIDED|95.0|-0.382|0.695|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.695|-0.382|
82467995|NCT00541658|164633090|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.258|||||TWO_SIDED|95.0|-0.836|0.321|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.321|-0.836|
82467996|NCT00541658|164633090|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.322|||||TWO_SIDED|95.0|-0.9|0.256|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.256|-0.900|
82467997|NCT00541658|164633091|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.154|||||TWO_SIDED|95.0|-1.903|-0.405|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.405|-1.903|
82467998|NCT00541658|164633091|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.044|||||TWO_SIDED|95.0|-1.789|-0.299|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.299|-1.789|
82467999|NCT00541658|164633092|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.059|||||TWO_SIDED|95.0|-1.762|-0.355|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.355|-1.762|
82468000|NCT00541658|164633092|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.922|||||TWO_SIDED|95.0|-1.62|-0.223|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.223|-1.620|
82468001|NCT00541658|164633093|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0524|TWO_SIDED|95.0|1.0|1.16|||Fisher Exact|||||1.16|1.00|0.0524
82468002|NCT00541658|164633093|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.07||||0.1207|TWO_SIDED|95.0|0.99|1.15|||Fisher Exact|||||1.15|0.99|0.1207
82468003|NCT00541658|164633094|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.07||||0.0729|TWO_SIDED|95.0|1.0|1.15|||Fisher Exact|||||1.15|1.00|0.0729
82468004|NCT00541658|164633094|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.06||||0.1639|TWO_SIDED|95.0|0.98|1.14|||Fisher Exact|||||1.14|0.98|0.1639
82468005|NCT00541658|164633095|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0476|TWO_SIDED|95.0|1.0|1.16|||Fisher Exact|||||1.16|1.00|0.0476
82546291|NCT03398148|164792054|SUPERIORITY||Adjusted Risk Difference|5.6|||<|0.0001|TWO_SIDED|95.0|3.5|7.7||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||7.7|3.5|<0.0001
82546292|NCT03398148|164792055|SUPERIORITY||Least Squares (LS) Mean Difference|4.5|||<|0.0001|TWO_SIDED|95.0|3.13|5.97||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|ANCOVA||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||5.97|3.13|<0.0001
82546293|NCT03398148|164792056|SUPERIORITY||Least Squares (LS) Mean Difference|18.3|||<|0.0001|TWO_SIDED|95.0|13.38|23.25||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|ANCOVA||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||23.25|13.38|<0.0001
82546294|NCT03398148|164792057|SUPERIORITY||Risk Difference (RD)|-4.8|||<|0.0001|TWO_SIDED|95.0|-7.3|-2.2||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Chi-squared||95% CI for treatment differences is based on normal approximation of the binomial proportions.|||-2.2|-7.3|<0.0001
82546295|NCT03398148|164792058|SUPERIORITY||Adjusted Risk Difference|24.2|||<|0.0001|TWO_SIDED|95.0|17.9|30.5||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference. (Greenland and Robins (1985)).|||30.5|17.9|<0.0001
82546296|NCT03398148|164792059|SUPERIORITY||Adjusted Risk Difference|18.6|||<|0.0001|TWO_SIDED|95.0|12.4|24.8||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Cochran-Mantel-Haenszel||Between-group diff. and 95% CI calculated using Mantel-Haenszel common rate difference.|||24.8|12.4|<0.0001
82546297|NCT03398148|164792060|SUPERIORITY||Least Squares (LS) Mean Difference|-1.627|||<|0.0001|TWO_SIDED|95.0|-2.3846|-0.8689||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Mixed-Effect Model Repeated Measures||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||-0.8689|-2.3846|<0.0001
82546298|NCT03398148|164792061|SUPERIORITY||Least Squares (LS) Mean Difference|-0.981|||<|0.0001|TWO_SIDED|95.0|-1.3285|-0.6326||Statistical significance is determined via the graphical multiple testing procedure controlling the overall type I error rate of primary and key secondary endpoints at the 0.05 level.|Mixed-Effect Model Repeated Measures||Between-group diff. and 95% CI calculated using ANCOVA/MMRM with RTB-MI for continuous endpoints.|||-0.6326|-1.3285|<0.0001
82650551|NCT01335464|165016260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|1.596||0.3042|TWO_SIDED|95.0|-1.49|4.77|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix~Nintedanib 150 mg versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough impact score, baseline CASA-Q Cough impact score-by-visit and random effect for patient.||4.77|-1.49|0.3042
82468006|NCT00541658|164633095|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.12||||0.0014|TWO_SIDED|95.0|1.04|1.2|||ANOVA|||||1.20|1.04|0.0014
82468007|NCT00541658|164633096|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.08||||0.0547|TWO_SIDED|95.0|1.0|1.16|||ANOVA|||||1.16|1.00|0.0547
82468008|NCT00541658|164633096|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.1||||0.0066|TWO_SIDED|95.0|1.03|1.18|||ANOVA|||||1.18|1.03|0.0066
82546299|NCT04201834|164792062|SUPERIORITY|||||||0.27|||||||Paired T-Test|||||||0.27
82546300|NCT04201834|164792063|SUPERIORITY|||||||0.92|||||||Paired T-Test|||||||0.92
82546301|NCT04201834|164792064|SUPERIORITY|||||||0.36|||||||Paired T-Test|||||||0.36
82546302|NCT04201834|164792065|SUPERIORITY|||||||0.62|||||||Paired T-Test|||||||0.62
82546303|NCT04201834|164792068|SUPERIORITY|||||||0.11|||||||Paired T-Test|||||||0.11
82546304|NCT04201834|164792069|SUPERIORITY|||||||0.02|||||||Paired T-Test|||||||0.02
82546305|NCT04201834|164792071|SUPERIORITY|||||||0.86|||||||Paired T-Test|||||||0.86
82546306|NCT04201834|164792072|SUPERIORITY|||||||0.27|||||||Paired T-Test|||||||0.27
82546307|NCT04201834|164792073|SUPERIORITY|||||||0.61|||||||Paired T-Test|||||||0.61
82546308|NCT04201834|164792074|SUPERIORITY|||||||0.37|||||||Paired T-Test|||||||0.37
82546309|NCT04201834|164792075|SUPERIORITY|||||||0.3|||||||Paired T-Test|||||||0.30
82546310|NCT04201834|164792076|SUPERIORITY|||||||0.82|||||||Paired t-test|||||||0.82
82546311|NCT05769595|164792090|OTHER||Geometric Mean Ratio|2.51|||||TWO_SIDED|90.0|2.24|2.82|||||Geometric mean ratio is MK-2060/placebo|||2.82|2.24|
82546312|NCT03661359|164792093|OTHER|||||||0.727||||||correlation is significant at the 0.05 level (2 tailed)|pearson correlation|||Correlation between patient satisfaction and domains at risk.||||.727
82546313|NCT03661359|164792095|OTHER|||||||0.002||||||correlation is significant at the 0.01 level 2 tailed|pearson correlation|||correlation between physical quality of life and mental of life||||0.002
82546314|NCT03661359|164792097|OTHER|||||||0.727|TWO_SIDED|0.05|||||pearson correlation|||||||0.727
82546315|NCT03012841|164792101|SUPERIORITY|The formal alternative hypothesis test for the primary effectiveness objective was that the Kaplan-Meier estimator of treatment success at 12 months (365 days) was greater than 40%, against the null hypothesis that it was less than or equal to 40%.|Kaplan-Meier (product-limit) estimator|54.8|||<|0.001|TWO_SIDED|95.0|46.7|62.1|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||62.1|46.7|<0.001
82468009|NCT00541658|164633097|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.135|||||TWO_SIDED|95.0|-0.504|0.234|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.234|-0.504|
82650552|NCT01335464|165016261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.276||||0.1818|TWO_SIDED|95.0|0.89|1.83|||Regression, Logistic||Nintedanib 150mg versus placebo|Logistic regression with term treatment||1.83|0.89|0.1818
82468010|NCT00541658|164633097|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.072|||||TWO_SIDED|95.0|-0.437|0.294|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.294|-0.437|
82468011|NCT00541658|164633098|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.321|||||TWO_SIDED|95.0|-0.724|0.082|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.082|-0.724|
82468012|NCT00541658|164633098|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.29|||||TWO_SIDED|95.0|-0.692|0.112|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.112|-0.692|
82468013|NCT00541658|164633099|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.288|||||TWO_SIDED|95.0|-0.682|0.106|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.106|-0.682|
82468014|NCT00541658|164633099|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.29|||||TWO_SIDED|95.0|-0.681|0.101|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.101|-0.681|
82468015|NCT00541658|164633100|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.644|||||TWO_SIDED|95.0|-1.179|-0.11|||ANOVA|||||-0.110|-1.179|
82546316|NCT03012841|164792102|SUPERIORITY|The formal alternative hypothesis tested for the primary safety objective was that the Kaplan-Meier estimator of the proportion of subjects with primary safety events at 12 months (365 days) was less than 13%, against the null hypothesis that it was greater than or equal to 13%.|Kaplan-Meier (product-limit) estimator|0.6||||0.002|TWO_SIDED|95.0|0.1|4.4|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||4.4|0.1|0.002
82546317|NCT03012841|164792103|SUPERIORITY||Mean Difference (Net)|25.8|||<|0.001|TWO_SIDED|95.0|22.1|29.5||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in AFEQT composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||29.5|22.1|<0.001
82579439|NCT00297427|164869373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.936||||0.03|TWO_SIDED|95.0|0.881|0.994|||Regression, Logistic||These are the adjusted results from a multivariate logistic regression analysis.|||0.994|0.881|0.030
82579440|NCT00297427|164869374|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||||||0.64
82650553|NCT01335464|165016263|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.6793|TWO_SIDED|95.0|0.56|2.46|||Normal distribution|Risk ratio was calculated as the ratio of risk of exacerbation in both treatment groups.|Nintedanib 150mg bid versus placebo|The log of the risk ratio was assumed to follow a normal distribution with mean 0 and variance equal to the sum of the reciprocals of the number of patients with at least one exacerbation in each treatment arm.||2.46|0.56|0.6793
82650554|NCT01335464|165016264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63||||0.288|TWO_SIDED|95.0|0.29|1.36|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||1.36|0.29|0.2880
82650555|NCT01335464|165016265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.3515|TWO_SIDED|95.0|0.25|1.47|||Log Rank||Nintedanib 150mg versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.47|0.25|0.3515
82468016|NCT00541658|164633100|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.587|||||TWO_SIDED|95.0|-1.116|-0.059|||ANOVA|||||-0.059|-1.116|
82546318|NCT03012841|164792104|SUPERIORITY||Mean Difference (Net)|5.0|||<|0.001|TWO_SIDED|95.0|3.5|6.5||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in SF-12 physical composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||6.5|3.5|<0.001
82546319|NCT03012841|164792105|SUPERIORITY||Mean Difference (Net)|4.9|||<|0.001|TWO_SIDED|95.0|3.2|6.6||A Hommel multiple testing procedure was utilized to maintain overall alpha of 0.025 for the 3 hypotheses tested for the secondary objective.|t-test, 1 sided|||The formal alternative hypothesis tested was that the mean 12-month change in SF-12 mental composite scores was greater than 0, against the null the hypothesis that it was equal to 0.||6.6|3.2|<0.001
82546320|NCT04038957|164792117|SUPERIORITY|||||||0.0072||||||A p-value of p\<0.05 will be considered as significant.|Repeated Measures ANOVA|||To examine the primary outcome, the effects of SEP-363856 on the striatum, a repeated measures ANOVA model will be build using the baseline and on-treatment kicer values of each striatal subregion.||||0.0072
82546321|NCT04065048|164792118|OTHER|||||||0.469|||||||t-test, 2 sided|||||||0.469
82546322|NCT04065048|164792119|OTHER|||||||0.0093|||||||ANOVA|||||||0.0093
82546323|NCT04065048|164792121|OTHER|||||||0.2487|||||||Fisher Exact|||||||0.2487
82468017|NCT00541658|164633101|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.522|||||TWO_SIDED|95.0|-1.03|-0.014|||ANOVA|||||-0.014|-1.030|
82468018|NCT00541658|164633101|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.468|||||TWO_SIDED|95.0|-0.973|0.037|||ANOVA|||||0.037|-0.973|
82468019|NCT00541658|164633102|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265|||||TWO_SIDED|95.0|-0.731|0.201|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.201|-0.731|
82546324|NCT03397108|164792122|SUPERIORITY|||||||0.89||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk TNF levels at EARLY LACTATION PERIOD were compared between non-IBD control and women with IBD. Our hypothesis was that women with IBD have higher TNF in milk due to the underlying inflammatory condition (IBD).||||0.89
82546325|NCT03397108|164792122|SUPERIORITY|||||||0.024|||||||Kruskal-Wallis|||"Milk TNF at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.024
82546326|NCT03397108|164792122|SUPERIORITY|||||||0.7||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MCP1 levels (TNF dependent chemokine) at the EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.70
82650556|NCT01335464|165016266|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.4869|TWO_SIDED|95.0|0.26|1.82|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height||1.82|0.26|0.4869
82546327|NCT03397108|164792122|SUPERIORITY|||||||0.93||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk levels of MIP-1 beta (TNF dependent chemokine) at the EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.93
82546328|NCT03397108|164792122|SUPERIORITY|||||||0.12||||||The a priori threshold of significance was set at 0.05. Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk IP10 levels (one of the TNF dependent chemokines) at EARLY LACTATION PERIOD were compared between non-IBD control and IBD group to see if there is a difference.||||0.12
82546329|NCT03397108|164792122|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||Milk levels of TNF-dependent chemokine, MCP1, at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control and the 2 IBD subgroups. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including MCP1. Nonparametric comparison of the 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test.||||0.12
82546330|NCT03397108|164792122|SUPERIORITY|||||||0.051|||||||Kruskal-Wallis|||"Milk MIP-1beta at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including MIP-1beta. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.051
82650557|NCT01335464|165016267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.443|TWO_SIDED|95.0|0.36|1.51|||Log Rank||Nintedanib 150mg versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.51|0.36|0.4430
82468020|NCT00541658|164633102|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.126|||||TWO_SIDED|95.0|-0.588|0.336|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.336|-0.588|
82468021|NCT00541658|164633103|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.328|||||TWO_SIDED|95.0|-0.811|0.156|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.156|-0.811|
82468022|NCT00541658|164633103|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.563|||||TWO_SIDED|95.0|-1.045|-0.08|||ANOVA|Fixed effects for treatment, pooled center, anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.080|-1.045|
82468023|NCT00541658|164633104|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.327|||||TWO_SIDED|95.0|-0.793|0.138|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.138|-0.793|
82468024|NCT00541658|164633104|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.537|||||TWO_SIDED|95.0|-1.0|-0.074|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.074|-1.000|
82468025|NCT00541658|164633105|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.578|||||TWO_SIDED|95.0|-1.189|0.032|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.032|-1.189|
82468026|NCT00541658|164633105|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.799|||||TWO_SIDED|95.0|-1.403|-0.194|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.194|-1.403|
82468027|NCT00541658|164633106|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.555|||||TWO_SIDED|95.0|-1.128|0.018|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.018|-1.128|
82546331|NCT03397108|164792122|SUPERIORITY|||||||0.0046|||||||Kruskal-Wallis|||"Milk IP10 at the EARLY LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. We hypothesized that the use of TNFmAb decreases milk TNF and TNF-dependent chemokine including IP10. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.0046
82546332|NCT03397108|164792122|SUPERIORITY|||||||0.35||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Comparison of milk TNF level at the MID LACTATION POINT between non-IBD control and IBD group. The same analytical framework as the early lactation, but this is based on data at the mid-lactation point (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.35
82546333|NCT03397108|164792122|SUPERIORITY|||||||0.11|||||||Kruskal-Wallis|||"Milk TNF at MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. Hypothesis is the same as for the early lactation point. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.11
82546334|NCT03397108|164792122|SUPERIORITY|||||||0.26||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MCP1 level comparison between non-IBD control and IBD group at the MID LACTATION POINT(13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.26
82579441|NCT00297427|164869375|SUPERIORITY_OR_OTHER|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82546335|NCT03397108|164792122|SUPERIORITY|||||||0.15||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk MIP-1beta level comparison between non-IBD control and IBD group at the MID LACTATION POINT (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.15
82546336|NCT03397108|164792122|SUPERIORITY|||||||0.31||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||Milk IP10 level comparison between non-IBD control and IBD group at the MID LACTATION POINT (13-14 postpartum weeks). Our hypothesis is the same as for the early-lactation point.||||0.31
82579442|NCT00297427|164869377|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<.001
82579443|NCT00297427|164869378|SUPERIORITY_OR_OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
82650558|NCT01335464|165016268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.3558|TWO_SIDED|95.0|0.52|1.25|||Log Rank||Nintedanib 150mg bid versus placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height||1.25|0.52|0.3558
82546337|NCT03397108|164792122|SUPERIORITY|||||||0.21|||||||Kruskal-Wallis|||"Milk MCP-1 at the MID LACTATION PERIOD was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The hypothesis is the same as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.21
82546338|NCT03397108|164792122|SUPERIORITY|||||||0.12|||||||Kruskal-Wallis|||"Milk MIP-1beta at the MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The hypothesis is the same as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.12
82546339|NCT03397108|164792122|SUPERIORITY|||||||0.29|||||||Kruskal-Wallis|||"Milk IP10 at the MID LACTATION POINT was compared among the 3 groups: non-IBD control, IBD subgroup On TNFmAb and IBD subgroup Off TNFmAb. The same hypothesis as that for the early-lactation period. Nonparametric comparison of 3 groups was done with one-way ANOVA on ranks (Kruskal-Wallis test), followed by multiplicity-adjusted pairwise comparisons with Dunn's test."||||0.29
82546340|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.7232|||<|0.0001|TWO_SIDED|95.0|0.5647|0.8303||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine MCP1 to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine MCP1.||0.8303|0.5647|<0.0001
82650559|NCT01335464|165016269|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.181||0.1138|TWO_SIDED|95.0|-0.07|0.64|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg bid versus placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline SpO2, baseline SpO2-by-visit and random effect for patient.||0.64|-0.07|0.1138
82546341|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.6835|||<|0.0001|TWO_SIDED|95.0|0.5088|0.8042||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine MIP-1beta to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine MIP-1beta.||0.8042|0.5088|<0.0001
82546342|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.6316|||<|0.0001|TWO_SIDED|95.0|0.4377|0.7693||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the EARLY LACTATION, we analyzed correlation between milk TNF and chemokine IP10 to see if they are positively correlated. This is to show supportive evidence for TNF dependency of chemokine IP10.||0.7693|0.4377|<0.0001
82546343|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.572|||<|0.0001|TWO_SIDED|95.0|0.3445|0.736||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and MCP1 to see of they are positively correlated.||0.7360|0.3445|<0.0001
82546344|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.7564|||<|0.0001|TWO_SIDED|95.0|0.6022|0.8562||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and MIP-1beta to see of they are positively correlated.||0.8562|0.6022|<0.0001
82546345|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.32||||0.0227|TWO_SIDED|95.0|0.03869|0.552||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants at the MID LACTATION POINT, we analyzed correlation between milk TNF and IP10 to see of they are positively correlated.||0.5520|0.03869|0.0227
82546346|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.52||||0.0001|TWO_SIDED|95.0|0.2727|0.6975||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk TNF between early and mid-lactation points.||0.6975|0.2727|0.0001
82579444|NCT00297427|164869379|SUPERIORITY_OR_OTHER|||||||0.86|||||||t-test, 2 sided|||||||0.86
82579445|NCT01262677|164869402|SUPERIORITY||Mean Difference|-0.99||||0.9076|TWO_SIDED|95.0|-16.28|17.11||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). 88 participants in each group (264 total) should have provided approximately 90% power.||17.11|-16.28|0.9076
82579446|NCT01262677|164869402|SUPERIORITY||Mean Difference|-13.05||||0.0907|TWO_SIDED|95.0|-26.07|2.25||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). 88 participants in each group (264 total) should have provided approximately 90% power.||2.25|-26.07|0.0907
82468028|NCT00541658|164633106|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.616|||||TWO_SIDED|95.0|-1.185|-0.046|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.046|-1.185|
82468029|NCT00541658|164633107|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.249|||||TWO_SIDED|95.0|-0.86|0.363|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.363|-0.860|
82468030|NCT00541658|164633107|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.265|||||TWO_SIDED|95.0|-0.871|0.342|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.342|-0.871|
82468031|NCT00541658|164633108|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.557|||||TWO_SIDED|95.0|-1.185|0.071|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.071|-1.185|
82468032|NCT00541658|164633108|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.522|||||TWO_SIDED|95.0|-1.149|0.105|||ANOVA||LS Mean Difference is 5 mg daily minus weekly treatment.|||0.105|-1.149|
82468033|NCT00541658|164633109|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.546|||||TWO_SIDED|95.0|-1.17|0.078|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.078|-1.170|
82468034|NCT00541658|164633109|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|-0.579|||||TWO_SIDED|95.0|-1.199|0.042|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||0.042|-1.199|
82468035|NCT00541658|164633110|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.095|||||TWO_SIDED|95.0|-1.861|-0.329|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.329|-1.861|
82468036|NCT00541658|164633110|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.19|||||TWO_SIDED|95.0|-1.948|-0.432|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.432|-1.948|
82546347|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.4722||||0.0005|TWO_SIDED|95.0|0.2181|0.6664||Not adjusted for multiple comparison.|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk MCP1 between early and mid-lactation points.||0.6664|0.2181|0.0005
82546348|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.36||||0.01|TWO_SIDED|95.0|0.0802|0.5803||Not adjusted for multiple comparison|Spearman rank correlation|||Using the pooled data of all participants, we assessed temporal tracking of milk MIP-1beta between early and mid-lactation points.||0.5803|0.0802|0.01
82546349|NCT03397108|164792122|OTHER|Correlation analysis|Spearman rank correlation|0.66|||<|0.0001|TWO_SIDED|95.0|0.467|0.7964||Not adjusted for multiple comparison|Spearman rank correlation|Spearman r = 0.66 (95%CI: 0.4670 - 0.7964). Number of XY pairs: 51||Using the pooled data of all participants, we assessed temporal tracking of milk IP10 between early and mid-lactation points.||0.7964|0.4670|<0.0001
82468037|NCT00541658|164633111|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-0.919|||||TWO_SIDED|95.0|-1.655|-0.184|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.184|-1.655|
82468038|NCT00541658|164633111|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|-1.056|||||TWO_SIDED|95.0|-1.787|-0.326|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||-0.326|-1.787|
82468039|NCT00541658|164633112|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|3.771|||||TWO_SIDED|95.0|-0.885|8.427|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.427|-0.885|
82546350|NCT03397108|164792123|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Cognitive development at 12 months of age. Animal data suggested that pups receiving milk with lower TNF and TNF-dependent chemokines showed enhanced cognitive development. Because there was no guiding information in humans regarding milk TNF level differences between women with and without IBD, our main goal was to measure milk TNF levels. The infant cognitive/language assessment, therefore, had to be designed as a pilot and exploratory in nature.||||0.12
82546351|NCT03397108|164792123|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Language development at 12 months of age.||||0.56
82546352|NCT03397108|164792123|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Cognitive development at 18 months of age.||||0.16
82650560|NCT01335464|165016270|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.0896||0.865|TWO_SIDED|95.0|-0.191|0.161|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150mg bid versus placebo"|Mixed Model for Repeated Measures with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline DLCO (HGB Corrected) \[mmol/min/kPa\], baseline DLCO (HGB Corrected) \[mmol/min/kPa\]-by-visit and random effect for patient.||0.161|-0.191|0.8650
82650561|NCT00252187|165016273|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||Change in end systolic LV volume index compared between two groups||||0.004
82650562|NCT00252187|165016273|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||Change in LV end diastolic volume was compared between two groups||||0.001
82650563|NCT00252187|165016274|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
82650564|NCT00252187|165016276|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
82546353|NCT03397108|164792123|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Language development at 18 months of age||||0.75
82546354|NCT03397108|164792123|OTHER|Correlation analysis|Spearman rank correlation|0.2655||||0.0853|TWO_SIDED|95.0|-0.047|0.5307|||Spearman rank correlation|||Using pooled data of all participants at the early-lactation sample point, correlation between milk TNF levels and 12 month cognitive development was examined to investigate if they were inversely correlated.||0.5307|-0.047|0.0853
82546355|NCT03397108|164792123|OTHER|Correlation analysis|Spearman rank correlation|0.3705||||0.09|TWO_SIDED|95.0|-0.07385|0.6921|||Spearman rank correlation|||Using the pooled data of all participants, correlation analysis between milk TNF at early lactation and 12 month language score was done to see if they were inversely correlated.||0.6921|-0.07385|0.090
82546356|NCT03397108|164792125|SUPERIORITY|||||||0.97||||||Not adjusted for multiple comparison.|Wilcoxon (Mann-Whitney)|||This is to confirm that the 2 groups are not different for their sampling time points in the early lactation period.||||0.97
82650565|NCT00252187|165016277|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Chi-squared|||||||0.006
82650566|NCT00769015|165016301|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.54||||0.067|TWO_SIDED|95.0|0.27|1.06||Mantel-Haenszel chi-square test. The p-value refers to the overall test of between group differences in rates of depression.|Mantel Haenszel|||||1.06|.27|.067
82650567|NCT00769015|165016302|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.81||||0.75|TWO_SIDED|95.0|-5.92|4.3|||Linear Mixed effects model|||||4.30|-5.92|.75
82546357|NCT03397108|164792125|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||||||0.96
82650568|NCT00769015|165016303|SUPERIORITY_OR_OTHER||Change in least squares mean|3.47||||0.68|TWO_SIDED|95.0|-12.22|5.29|||Mixed Models Analysis|||||5.29|-12.22|.68
82650569|NCT00769015|165016304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.42||||0.34|TWO_SIDED|95.0|-2.58|7.41|||Least squares mean|||||7.41|-2.58|.34
82650570|NCT00769015|165016305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.68|TWO_SIDED|95.0|-9.8|5.76|||Least squares mean|||||5.76|-9.80|.68
82650571|NCT00769015|165016306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.68|TWO_SIDED|95.0|-4.04|6.82|||Least squares mean|||||6.82|-4.04|.68
82650572|NCT00769015|165016307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62||||0.68|TWO_SIDED|95.0|-5.94|9.17|||Least squares mean|||||9.17|-5.94|.68
82468040|NCT00541658|164633112|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.826|||||TWO_SIDED|95.0|-1.819|7.471|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||7.471|-1.819|
82468041|NCT00541658|164633113|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.63|||||TWO_SIDED|95.0|-2.171|7.431|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||7.431|-2.171|
82468042|NCT00541658|164633113|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.617|||||TWO_SIDED|95.0|-0.152|9.386|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.386|-0.152|
82468043|NCT00541658|164633114|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.04|||||TWO_SIDED|95.0|0.091|9.989|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.989|0.091|
82468044|NCT00541658|164633114|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.64|||||TWO_SIDED|95.0|-0.293|9.574|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.574|-0.293|
82468045|NCT00541658|164633115|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|6.372|||||TWO_SIDED|95.0|1.329|11.414|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||11.414|1.329|
82468046|NCT00541658|164633115|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.403|||||TWO_SIDED|95.0|-0.619|9.425|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.425|-0.619|
82468047|NCT00541658|164633116|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|4.739|||||TWO_SIDED|95.0|-0.793|10.271|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.271|-0.793|
82500020|NCT02730455|164690673|SUPERIORITY||Odds Ratio (OR)|0.64||||0.086|TWO_SIDED|95.0|0.38|1.07|||Regression, Logistic|||Composite Measure: The global odds ratio was based on a linear logistic regression model with baseline National Institute of Health Stroke Scale (NIHSS) category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tissue plasminogen activator (tPA) use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, United States of America \[USA\]) as covariates and unstructured working correlation structure||1.07|0.38|0.086
82500021|NCT02730455|164690673|SUPERIORITY||Odds Ratio (OR)|0.57||||0.031|TWO_SIDED|95.0|0.34|0.95|||Regression, Logistic|||Composite Measure: The global odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||0.95|0.34|0.031
82546358|NCT03397108|164792126|SUPERIORITY|||||||0.56||||||No adjustment for multiple comparison.|Wilcoxon (Mann-Whitney)|||This is to confirm that there is no difference in the second sampling time points in the mid-lactation period between the groups.||||0.56
82468048|NCT00541658|164633116|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.999|||||TWO_SIDED|95.0|-1.518|9.515|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.515|-1.518|
82468049|NCT00541658|164633117|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|4.817|||||TWO_SIDED|95.0|-0.693|10.327|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.327|-0.693|
82468050|NCT00541658|164633117|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.192|||||TWO_SIDED|95.0|-2.295|8.68|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.680|-2.295|
82468051|NCT00541658|164633118|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.45|||||TWO_SIDED|95.0|-0.26|9.16|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.160|-0.260|
82468052|NCT00541658|164633118|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|3.723|||||TWO_SIDED|95.0|-0.975|8.421|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||8.421|-0.975|
82468053|NCT00541658|164633119|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.798|||||TWO_SIDED|95.0|-0.195|9.79|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.790|-0.195|
82468054|NCT00541658|164633119|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.972|||||TWO_SIDED|95.0|0.02|9.924|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||9.924|0.020|
82468055|NCT00541658|164633120|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|4.775|||||TWO_SIDED|95.0|-0.514|10.065|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.065|-0.514|
82468056|NCT00541658|164633120|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.638||||||95.0|0.356|10.92|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.920|0.356|
82468057|NCT00541658|164633121|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|6.552|||||TWO_SIDED|95.0|1.162|11.942|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||11.942|1.162|
82468058|NCT00541658|164633121|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|5.531|||||TWO_SIDED|95.0|0.164|10.897|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||10.897|0.164|
82468059|NCT00541658|164633122|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.83|||||TWO_SIDED|95.0|1.175|14.485|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||14.485|1.175|
82468060|NCT00541658|164633122|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|8.383|||||TWO_SIDED|95.0|1.757|15.01|||ANOVA|Fixed effects for treatment, pooled centers and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||15.010|1.757|
82468061|NCT00541658|164633123|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.802|||||TWO_SIDED|95.0|1.385|14.22|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||14.220|1.385|
82468062|NCT00541658|164633123|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|7.301|||||TWO_SIDED|95.0|0.911|13.69|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||13.690|0.911|
82500022|NCT02730455|164690674|SUPERIORITY||Odds Ratio (OR)|0.67||||0.222|TWO_SIDED|95.0|0.35|1.28|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||1.28|0.35|0.222
82500023|NCT02730455|164690674|SUPERIORITY||Odds Ratio (OR)|0.54||||0.073|TWO_SIDED|95.0|0.28|1.06|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure||1.06|0.28|0.073
82500024|NCT02730455|164690675|SUPERIORITY||Odds Ratio (OR)|0.56||||0.085|TWO_SIDED|95.0|0.29|1.08|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure.||1.08|0.29|0.085
82546359|NCT03397108|164792126|SUPERIORITY|||||||0.51|||||||Kruskal-Wallis|||||||0.51
82546360|NCT02652260|164792169|OTHER|The Immediate Switch group will be considered statistically significantly smaller than the Delayed Switch group if the upper bound of the 95% confidence interval for the treatment difference is less than 0.|Estimated Difference|4.65||||0.331|TWO_SIDED|95.0|-15.92|24.85|||Miettinen and Nurminen|||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% confidence interval (CI) was calculated by the method of Miettinen and Nurminen.|24.85|-15.92|0.331
82546361|NCT02652260|164792170|OTHER|The Immediate Switch group will be considered statistically significantly smaller than the Delayed Switch group if the upper bound of the 95% confidence interval for the treatment difference is less than 0.|Estimated Difference|-18.61|||||TWO_SIDED|95.0|-38.14|2.51||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was calculated by the method of Miettinen and Nurminen.|2.51|-38.14|
82579447|NCT01262677|164869403|SUPERIORITY|||||||0.752||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) was used to calculate the p-value. No adjustments for multiplicity were taken.||||0.752
82579448|NCT01262677|164869403|SUPERIORITY|||||||0.125||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) was used to calculate the p-value. No adjustments for multiplicity were taken.||||0.125
82500025|NCT02730455|164690675|SUPERIORITY||Odds Ratio (OR)|0.54||||0.067|TWO_SIDED|95.0|0.28|1.04|||Regression, Logistic|||The odds ratio was based on a linear logistic regression model with baseline NIHSS category (score 5-15, 16-23), age (\<60, 60-69, 70-80), tPA use (yes/no), treatment window (\<=9, \>9 and \<=24hours), thrombectomy (yes/no) and region (Spain, UK/Germany, USA) as covariates and unstructured working correlation structure.||1.04|0.28|0.067
82468063|NCT00541658|164633124|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.755|||||TWO_SIDED|95.0|-1.145|4.655|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.655|-1.145|
82468064|NCT00541658|164633124|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.805|||||TWO_SIDED|95.0|-1.087|4.698|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.698|-1.087|
82468065|NCT00541658|164633125|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|2.407|||||TWO_SIDED|95.0|-0.502|5.316|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.316|-0.502|
82468066|NCT00541658|164633125|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.309|||||TWO_SIDED|95.0|-1.576|4.194|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.194|-1.576|
82468067|NCT00541658|164633126|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.555|||||TWO_SIDED|95.0|-1.617|4.727|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.727|-1.617|
82468068|NCT00541658|164633126|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.612|||||TWO_SIDED|95.0|-1.556|4.779|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.779|-1.556|
82468069|NCT00541658|164633127|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.434|||||TWO_SIDED|95.0|-1.652|4.521|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.521|-1.652|
82468070|NCT00541658|164633127|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Least Squares Mean Difference|1.462|||||TWO_SIDED|95.0|-1.611|4.535|||ANOVA|Fixed effect for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||4.535|-1.611|
82468071|NCT00541658|164633128|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.749|||||TWO_SIDED|95.0|-0.938|6.436|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||6.436|-0.938|
82546362|NCT02652260|164792171|OTHER||Estimated Difference|-2.0|||||TWO_SIDED|95.0|-10.5|6.5||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was based on a t-distribution.|6.5|-10.5|
82546363|NCT02652260|164792172|OTHER||Estimated Difference|3.6|||||TWO_SIDED|95.0|-4.1|11.3||||||Treatment Difference: Immediate Switch minus Delayed Switch|The 95% CI was calculated by the method of Miettinen and Nurminen.|11.3|-4.1|
82468072|NCT00541658|164633128|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|3.416|||||TWO_SIDED|95.0|-0.255|7.087|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus daily treatment.|||7.087|-0.255|
82468073|NCT00541658|164633129|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.197|||||TWO_SIDED|95.0|-1.318|5.711|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.711|-1.318|
82468074|NCT00541658|164633129|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|LS Mean Difference|2.251|||||TWO_SIDED|95.0|-1.248|5.751|||ANOVA|Fixed effects for treatment, pooled center and anticoagulant use.|LS Mean Difference is 5 mg daily minus weekly treatment.|||5.751|-1.248|
82468075|NCT00541658|164633130|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.0||||1|TWO_SIDED|95.0|0.14|7.05|||Fisher Exact|||||7.05|0.14|1.0000
82468076|NCT00541658|164633130|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.5||||1|TWO_SIDED|95.0|0.25|8.9|||Fisher Exact|||||8.90|0.25|1.0000
82468077|NCT00541658|164633131|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.03||||1|TWO_SIDED|95.0|0.15|7.29|||Fisher Exact|||||7.29|0.15|1.0000
82468078|NCT00541658|164633131|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.49||||1|TWO_SIDED|95.0|0.25|8.87|||Fisher Exact|||||8.87|0.25|1.0000
82546364|NCT02652260|164792173|OTHER|The 95% CI was calculated by the method of Miettinen and Nurminen.|Difference in Percentage|-38.4|||||TWO_SIDED|95.0|-51.2|-23.8||||||Change from time of switch to 24 weeks post-switch: Treatment difference in percent response|Week 24 Post-switch minus Time of switch|-23.8|-51.2|
82546365|NCT02652260|164792174|OTHER|The 95% CI was based on a t-distribution.|Mean Difference (Final Values)|-13.4|||||TWO_SIDED|95.0|-16.8|-10.1||||||Change from time of switch to 24 weeks post-switch: Treatment difference in score|Week 24 Post-switch minus Time of switch|-10.1|-16.8|
82468079|NCT00541658|164633132|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.42||||0.4505|TWO_SIDED|95.0|0.08|2.14|||Fisher Exact|||||2.14|0.08|0.4505
82546366|NCT02652260|164792175|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-9.02|||||TWO_SIDED|95.0|-15.69|-2.35||||||Difference Estimate: LDL Cholesterol|ISG minus DSG|-2.35|-15.69|
82468080|NCT00541658|164633132|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.82||||1|TWO_SIDED|95.0|0.22|3.03|||Fisher Exact|||||3.03|0.22|1.0000
82546367|NCT02652260|164792175|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-13.57|||||TWO_SIDED|95.0|-20.79|-6.35||||||Difference Estimate: Non-HDL Cholesterol|ISG minus DSG|-6.35|-20.79|
82546368|NCT02652260|164792175|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-21.42|||||TWO_SIDED|95.0|-29.63|-13.21||||||Difference Estimate: Cholesterol|ISG minus DSG|-13.21|-29.63|
82546369|NCT02652260|164792175|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-8.18|||||TWO_SIDED|95.0|-11.76|-4.6||||||Difference Estimate: HDL Cholesterol|ISG minus DSG|-4.60|-11.76|
82468081|NCT00541658|164633133|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.41||||0.4505|TWO_SIDED|95.0|0.08|2.11|||Fisher Exact|||||2.11|0.08|0.4505
82468082|NCT00541658|164633133|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.2||||0.7719|TWO_SIDED|95.0|0.37|3.9|||Fisher Exact|||||3.90|0.37|0.7719
82468083|NCT00541658|164633134|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.0||||1|TWO_SIDED|95.0|0.14|7.05|||Fisher Exact|||||7.05|0.14|1.0000
82468084|NCT00541658|164633134|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.5||||1|TWO_SIDED|95.0|0.25|8.9|||Fisher Exact|||||8.90|0.25|1.0000
82468085|NCT00541658|164633135|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.03||||1|TWO_SIDED|95.0|0.15|7.29|||Fisher Exact|||||7.29|0.15|1.0000
82468086|NCT00541658|164633135|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.49||||1|TWO_SIDED|95.0|0.25|8.87|||Fisher Exact|||||8.87|0.25|1.0000
82468087|NCT00541658|164633136|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.42||||0.4505|TWO_SIDED|95.0|0.08|2.14|||Fisher Exact|||||2.14|0.08|0.4505
82546370|NCT02652260|164792175|OTHER|The 95% CI for treatment difference was calculated from an ANCOVA model with terms for baseline lipid level, use of lipid lowering therapy at study Day 1 and treatment|Difference Estimate|-22.18|||||TWO_SIDED|95.0|-38.52|-5.84||||||Difference Estimate: Triglyceride|ISG minus DSG|-5.84|-38.52|
82579449|NCT01262677|164869404|SUPERIORITY||LS Mean Difference|-9.3||||0.5404|TWO_SIDED|95.0|-39.16|20.56||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model was used to calculate the p-value.||20.56|-39.16|0.5404
82468088|NCT00541658|164633136|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.82||||1|TWO_SIDED|95.0|0.22|3.03|||Fisher Exact|||||3.03|0.22|1.0000
82579450|NCT01262677|164869404|SUPERIORITY||LS Mean Difference|-25.84||||0.0786|TWO_SIDED|95.0|-54.64|2.97||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model was used to calculate the p-value.||2.97|-54.64|0.0786
82579451|NCT01262677|164869405|SUPERIORITY||LS Mean Difference|-0.11||||0.6073|TWO_SIDED|95.0|-0.53|0.31||Statistical testing was done at alpha = 0.05 level, two-sided.|Generalized linear model (GLM)|||A generalized linear model accounting for treatment and geographical region as fixed effects and baseline seizure frequency as a covariate was used to calculate the p-value. This generalized linear model assumed that the SGTC seizure frequency was from a Poisson distribution with a canonical log link function.||0.31|-0.53|0.6073
82468089|NCT00541658|164633137|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|0.41||||0.4505|TWO_SIDED|95.0|0.08|2.11|||Fisher Exact|||||2.11|0.08|0.4505
82468090|NCT00541658|164633137|NON_INFERIORITY_OR_EQUIVALENCE|To establish the non-inferiority at one-sided α of 2.5% with 90% power, 651 patients (217 per treatment group) was required to complete at least 52 weeks of the study. Adjusting for 20% dropouts, 272 patients per group were required for randomization. This calculation was based on a non-inferiority margin of 1.5%, a true mean difference (μIR - μDR) of 0.25%, and a common standard deviation of the percent change from baseline in lumbar spine BMD at Week 52 of 4.0%.|Relative Risk|1.2||||0.7719|TWO_SIDED|95.0|0.37|3.9|||Fisher Exact|||||3.90|0.37|0.7719
82468091|NCT03373240|164633153|OTHER|Examining stop signal reaction time changed across the 4-week training period|Mean Difference (Net)|-8.62|STANDARD_ERROR_OF_MEAN|2.79||0.003|TWO_SIDED|95.0|-14.17|-3.06|||Mixed Models Analysis|||||-3.06|-14.17|.003
82468092|NCT03373240|164633154|SUPERIORITY||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.127||0.049|TWO_SIDED|95.0|-0.333|0.184|||ANOVA|||||.184|-.333|.049
82468093|NCT03373240|164633155|SUPERIORITY||Mean Difference (Net)|-1.914|STANDARD_ERROR_OF_MEAN|1.011||0.236|TWO_SIDED|95.0|-3.965|0.136|||ANOVA|||||.136|-3.965|.236
82468094|NCT03373240|164633156|OTHER|Examining whether percentage of risky choices decreased across the 4-wwek training period.|Mean Difference (Net)|-1.62|STANDARD_ERROR_OF_MEAN|0.77||0.039|TWO_SIDED|95.0|-3.15|-0.08|||Mixed Models Analysis|||||-.08|-3.15|.039
82468095|NCT03373240|164633157|OTHER||Mean Difference (Net)|-1.77|STANDARD_ERROR_OF_MEAN|0.82||0.035|TWO_SIDED|95.0|-3.4|-0.13|||Mixed Models Analysis|||||-.13|-3.40|.035
82468096|NCT03373240|164633158|OTHER||Mean Difference (Net)|4.26|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|TWO_SIDED|95.0|3.12|5.39|||Mixed Models Analysis|||||5.39|3.12|<.001
82546371|NCT05687903|164792207|SUPERIORITY||Estimate of LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|2.983|=|0.001|TWO_SIDED|95.0|7.74|19.57||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.|LS in LS Mean Difference denotes least squares.|||19.57|7.74|=0.001
82546372|NCT05687903|164792207|SUPERIORITY||Estimate of LS Mean Difference|24.67|STANDARD_ERROR_OF_MEAN|2.921|<|0.001|TWO_SIDED|95.0|18.87|30.46||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||30.46|18.87|<0.001
82546373|NCT05687903|164792207|SUPERIORITY||Estimate of LS Mean Difference|26.58|STANDARD_ERROR_OF_MEAN|2.91|<|0.001|TWO_SIDED|95.0|20.81|32.35||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||32.35|20.81|<0.001
82468097|NCT03373240|164633159|SUPERIORITY||Mean Difference (Net)|0.933|STANDARD_ERROR_OF_MEAN|0.403||0.008|TWO_SIDED|95.0|0.111|1.755|||ANOVA|||||1.755|.111|.008
82468098|NCT03373240|164633160|SUPERIORITY||Mean Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.096||0.077|TWO_SIDED|97.0|-0.177|0.214|||ANOVA|||||.214|-.177|.077
82468099|NCT03373240|164633161|SUPERIORITY||Mean Difference (Net)|-0.964|STANDARD_ERROR_OF_MEAN|1.902||0.547|TWO_SIDED|95.0|-4.822|2.895|||ANOVA|||||2.895|-4.822|.547
82468100|NCT03373240|164633162|SUPERIORITY||Mean Difference (Net)|-0.532|STANDARD_ERROR_OF_MEAN|0.628||0.436|TWO_SIDED|95.0|-1.805|0.742|||ANOVA|||||.742|-1.805|.436
82468101|NCT02344108|164633254|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468102|NCT02344108|164633255|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468103|NCT02344108|164633256|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82468104|NCT02344108|164633257|SUPERIORITY|||||||0.083|||||||t-test, 2 sided|||||||0.083
82468105|NCT02344108|164633258|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
82468106|NCT02344108|164633259|SUPERIORITY|||||||0.764|||||||t-test, 2 sided|||||||0.764
82468107|NCT02344108|164633260|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468108|NCT02344108|164633261|SUPERIORITY|||||||0.467|||||||t-test, 2 sided|||||||0.467
82468109|NCT02344108|164633262|SUPERIORITY|||||||0.745|||||||t-test, 2 sided|||||||0.745
82468110|NCT02344108|164633263|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||||||0.106
82468111|NCT02344108|164633264|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468112|NCT02344108|164633265|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468113|NCT02344108|164633266|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82468114|NCT00664443|164633279|OTHER||Sensitivity|65.9|||||TWO_SIDED|95.0|63.5|68.2||||||||68.2|63.5|
82468115|NCT00664443|164633280|OTHER||Specificity|32.3|||||TWO_SIDED|95.0|29.0|35.9||||||||35.9|29.0|
82468116|NCT05523089|164633281|SUPERIORITY||Hodges-Lehmann estimator|-1.2||||0.039|TWO_SIDED|95.0|-5.7|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.0|-5.7|0.0390
82468117|NCT05523089|164633283|SUPERIORITY||Mean Difference (Net)|-1.4||||0.0185|TWO_SIDED|95.0|-2.9|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||-0.0|-2.9|0.0185
82468118|NCT05523089|164633285|SUPERIORITY|||||||0.0613||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.0613
82468119|NCT05523089|164633286|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.1587|TWO_SIDED|95.0|-2.4|0.0||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.0|-2.4|0.1587
82468120|NCT05523089|164633288|SUPERIORITY||Mean Difference (Net)|-1.1||||0.0236|TWO_SIDED|95.0|-2.0|-0.1||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||-0.1|-2.0|0.0236
82468121|NCT05523089|164633290|SUPERIORITY|||||||0.1282||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.1282
82468122|NCT05523089|164633291|SUPERIORITY||Mean Difference (Net)|-5.4||||0.2877|TWO_SIDED|95.0|-11.2|0.3||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.3|-11.2|0.2877
82468123|NCT05523089|164633293|SUPERIORITY||Mean Difference (Net)|-1.8||||0.2517|TWO_SIDED|95.0|-4.1|0.6||alpha = 0.025 one-sided|Wilcoxon (Mann-Whitney)|||||0.6|-4.1|0.2517
82468124|NCT05523089|164633297|SUPERIORITY|||||||0.9024||||||alpha = 0.025 one-sided|Gehan-Wilcoxon|||||||0.9024
82468125|NCT05523089|164633298|SUPERIORITY|||||||0.0248||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.0248
82468126|NCT05523089|164633300|SUPERIORITY|||||||0.1224||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1224
82468127|NCT05523089|164633302|SUPERIORITY|||||||0.1023||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1023
82468128|NCT05523089|164633304|SUPERIORITY|||||||0.1477||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1477
82468129|NCT05523089|164633306|SUPERIORITY|||||||0.1645||||||alpha = 0.025 one-sided|Fisher Exact|||||||0.1645
82468130|NCT02153632|164633330|SUPERIORITY||Mean Difference (Final Values)|-5.5|STANDARD_ERROR_OF_MEAN|1.75||0.031|TWO_SIDED|95.0|-10.5|-0.5|||ANCOVA|||||-0.5|-10.5|0.031
82468131|NCT02153632|164633330|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|1.71||0.011|TWO_SIDED|95.0|-11.5|-1.5|||ANCOVA|||||-1.5|-11.5|0.011
82468132|NCT00071890|164633349|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Chi-squared|||||||0.025
82468133|NCT00071890|164633350|SUPERIORITY_OR_OTHER|||||||0.069||95.0||||Biphasic decline of CD4 after week 24 : first slope before W32 and weaker decline until W168.Slopes significantly different (all p values ≤0.0001) between the 2 groups, more pronounced in the IL-2 groups|Wilcoxon (Mann-Whitney)|||||||0.069
82468134|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||MI at 0-6 Months||||>0.999
82546374|NCT05687903|164792207|SUPERIORITY||Estimate of LS Mean Difference|16.13|STANDARD_ERROR_OF_MEAN|2.842|<|0.001|TWO_SIDED|95.0|10.49|21.76||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||21.76|10.49|<0.001
82546375|NCT05687903|164792208|SUPERIORITY||Estimate of LS Mean Difference|-6.42|STANDARD_ERROR_OF_MEAN|1.564|=|0.004|TWO_SIDED|95.0|-9.53|-3.32||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-3.32|-9.53|=0.004
82468135|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.4889|||||||Fisher Exact|||MI at 0-12 Months||||0.4889
82468136|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.4889|||||||Fisher Exact|||MI at 0-18 Months||||0.4889
82468137|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-6 Months||||>0.999
82468138|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-12 Months||||>0.999
82468139|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Stroke at 0-18 Months||||>0.999
82468140|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.7381|||||||Fisher Exact|||Major amputation at 0-6 Months||||0.7381
82468141|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Major amputation at 0-12 Months||||>0.999
82468142|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Major amputation at 0-18 Months||||>0.999
82468143|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||Revascularization at 0-6 Months||||>0.999
82468144|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.4591|||||||Fisher Exact|||Revascularization at 0-12 Months||||0.4591
82468145|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.4591|||||||Fisher Exact|||Revascularization at 0-18 Months||||0.4591
82468146|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-6 Months||||>0.999
82468147|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-12 Months||||>0.999
82468148|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||All-cause death at 0-18 Months||||>0.999
82468149|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.5136|||||||Fisher Exact|||0-6 Months (Major Amputation or Death)||||0.5136
82468150|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.7575|||||||Fisher Exact|||0-12 Months (Major Amputation or Death)||||0.7575
82468151|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-18 Months (Major Amputation or Death)||||>0.999
82468152|NCT02144610|164633352|SUPERIORITY_OR_OTHER|||||||0.7575|||||||Fisher Exact|||0-6 Months (Major Amputation or Revascularization)||||0.7575
82468153|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-12 Months (Major Amputation or Revascularization)||||>0.999
82468154|NCT02144610|164633352|SUPERIORITY_OR_OTHER||||||>|0.999|||||||Fisher Exact|||0-18 Months (Major Amputation or Revascularization)||||>0.999
82468155|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.514|||||||ANCOVA|||Change from Baseline at Month 3||||0.514
82468156|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.445|||||||ANCOVA|||Change from Baseline at Month 6||||0.445
82468157|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.863|||||||ANCOVA|||Change from Baseline at Month 9||||0.863
82468158|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.111|||||||ANCOVA|||Change from Baseline at Month 12||||0.111
82468159|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.153|||||||ANCOVA|||Change from Baseline at Month 15||||0.153
82468160|NCT02144610|164633353|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||Change from Baseline at last observation carried forward (LOCF)||||0.002
82468161|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.733|||||||ANCOVA|||Change from baseline at Month 3 (right brachial)||||0.733
82468162|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.808|||||||ANCOVA|||Change from baseline at Month 6 (right brachial)||||0.808
82468163|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.487|||||||ANCOVA|||Change from baseline at Month 9 (right brachial)||||0.487
82468164|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.216|||||||ANCOVA|||Change from baseline at Month 12 (right brachial)||||0.216
82468165|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.896|||||||ANCOVA|||Change from baseline at Month 15 (right brachial)||||0.896
82468166|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.167|||||||ANCOVA|||Change from baseline at last observation carried forward (LOCF) (right brachial)||||0.167
82468167|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.378|||||||ANCOVA|||Change from baseline at Month 3 (left brachial)||||0.378
82546376|NCT05687903|164792208|SUPERIORITY||Estimate of LS Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|1.581|<|0.001|TWO_SIDED|95.0|-14.44|-8.16||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-8.16|-14.44|<0.001
82546377|NCT05687903|164792208|SUPERIORITY||Estimate of LS Mean Difference|-10.31|STANDARD_ERROR_OF_MEAN|1.53|<|0.001|TWO_SIDED|95.0|-13.35|-7.27||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-7.27|-13.35|<0.001
82468168|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.39|||||||ANCOVA|||Change from baseline at Month 6 (left brachial)||||0.390
82468169|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.521|||||||ANCOVA|||Change from baseline at Month 9 (left brachial)||||0.521
82468170|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANCOVA|||Change from baseline at Month 12 (left brachial)||||0.044
82468171|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.423|||||||ANCOVA|||Change from baseline at Month 15 (left brachial)||||0.423
82468172|NCT02144610|164633356|SUPERIORITY_OR_OTHER|||||||0.989|||||||ANCOVA|||Change from baseline at LOCF (left brachial)||||0.989
82468173|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.803|||||||ANCOVA|||Change from Baseline at Month 3 (Dorsalis Pedis)||||0.803
82468174|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.668|||||||ANCOVA|||Change from Baseline at Month 6 (Dorsalis Pedis)||||0.668
82468175|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.789|||||||ANCOVA|||Change from Baseline at Month 9 (Dorsalis Pedis)||||0.789
82468176|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANCOVA|||Change from Baseline at Month 12 (Dorsalis Pedis)||||0.280
82468177|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.324|||||||ANCOVA|||Change from Baseline at LOCF (Dorsalis Pedis)||||0.324
82468178|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.759|||||||ANCOVA|||Change from Baseline at Month 3 (Posterior Tibial)||||0.759
82468179|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.414|||||||ANCOVA|||Change from Baseline at Month 6 (Posterior Tibial)||||0.414
82468180|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.886|||||||ANCOVA|||Change from Baseline at Month 9 (Posterior Tibial)||||0.886
82468181|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.114|||||||ANCOVA|||Change from Baseline at Month 12 (Posterior Tibial)||||0.114
82468182|NCT02144610|164633357|SUPERIORITY_OR_OTHER|||||||0.051|||||||ANCOVA|||Change from Baseline at LOCF (Posterior Tibial)||||0.051
82546378|NCT05687903|164792208|SUPERIORITY||Estimate of LS Mean Difference|-8.79|STANDARD_ERROR_OF_MEAN|1.535|<|0.001|TWO_SIDED|95.0|-11.84|-5.75||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||-5.75|-11.84|<0.001
82468183|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.211|||||||ANCOVA|||Change from Baseline at Month 3||||0.211
82468184|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.036|||||||ANCOVA|||Change from Baseline at Month 6||||0.036
82468185|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.725|||||||ANCOVA|||Change from Baseline at Month 9||||0.725
82468186|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.468|||||||ANCOVA|||Change from Baseline at Month 12||||0.468
82468187|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.854|||||||ANCOVA|||Change from Baseline at Month 15||||0.854
82468188|NCT02144610|164633358|SUPERIORITY_OR_OTHER|||||||0.233|||||||ANCOVA|||Change from Baseline at LOCF||||0.233
82468189|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.268|||||||ANCOVA|||Change from Baseline at Month 3||||0.268
82468190|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.32|||||||ANCOVA|||Change from Baseline at Month 6||||0.320
82468191|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.315|||||||ANCOVA|||Change from Baseline at Month 9||||0.315
82468192|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.327|||||||ANCOVA|||Change from Baseline at Month 12||||0.327
82468193|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.643|||||||ANCOVA|||Change from Baseline at Month 15||||0.643
82468194|NCT02144610|164633359|SUPERIORITY_OR_OTHER|||||||0.74|||||||ANCOVA|||Change from Baseline at LOCF||||0.740
82468195|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.147|||||||ANCOVA|||Change from Baseline at Month 3||||0.147
82468196|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.032|||||||ANCOVA|||Change from Baseline at Month 6||||0.032
82468197|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.709|||||||ANCOVA|||Change from Baseline at Month 9||||0.709
82468198|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.771|||||||ANCOVA|||Change from Baseline at Month 12||||0.771
82468199|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.83|||||||ANCOVA|||Change from Baseline at Month 15||||0.830
82468200|NCT02144610|164633360|SUPERIORITY_OR_OTHER|||||||0.033|||||||ANCOVA|||Change from Baseline at LOCF||||0.033
82468201|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.105|||||||ANCOVA|||Pain (LOCF)||||0.105
82468202|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.557|||||||ANCOVA|||Symptom (LOCF)||||0.557
82468203|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|||Activities (LOCF)||||0.940
82468204|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.905|||||||ANCOVA|||Social (LOCF)||||0.905
82468205|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.782|||||||ANCOVA|||Emotional Functioning (LOCF)||||0.782
82468206|NCT02144610|164633361|SUPERIORITY_OR_OTHER|||||||0.802|||||||ANCOVA|||Composite Overall (LOCF)||||0.802
82468207|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.941|||||||ANCOVA|||Change from Baseline at Month 3||||0.941
82468208|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.584|||||||ANCOVA|||Change from Baseline at Month 6||||0.584
82468209|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.1|||||||ANCOVA|||Change from Baseline at Month 9||||0.100
82546379|NCT05687903|164792209|SUPERIORITY||IRR|0.48|||=|0.25|TWO_SIDED|95.0|0.25|0.93||GEE model featuring a negative binomial distribution was used for analysis where incidence rate was exponentiated LS mean \& incidence rate ratio (IRR) was exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.93|0.25|=0.250
82546380|NCT05687903|164792209|SUPERIORITY||IRR|0.36|||=|0.034|TWO_SIDED|95.0|0.16|0.79||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.79|0.16|=0.034
82546381|NCT05687903|164792209|SUPERIORITY||IRR|0.28|||=|0.003|TWO_SIDED|95.0|0.13|0.6||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||0.60|0.13|=0.003
82546382|NCT05687903|164792209|SUPERIORITY||IRR|0.67|||=|0.25|TWO_SIDED|95.0|0.35|1.29||The GEE model featuring a negative binomial distribution was used for analysis where the incidence rate was the exponentiated LS mean and the IRR was the exponentiated LS mean difference from placebo. Reported p-value is adjusted for multiplicity.|GEE|||The GEE model was used for analysis with fixed effects for visit, treatment, treatment-by-visit interaction, Baseline WCR, age, and prior use of narcolepsy medications.||1.29|0.35|=0.250
82546383|NCT02015520|164792269|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||||||0.38
82546384|NCT02015520|164792269|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82468210|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.916|||||||ANCOVA|||Change from Baseline at Month 12||||0.916
82468211|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.486|||||||ANCOVA|||Change from Baseline at Month 15||||0.486
82468212|NCT02144610|164633362|SUPERIORITY_OR_OTHER|||||||0.835|||||||ANCOVA|||Change from Baseline at LOCF||||0.835
82468213|NCT01432730|164633367|SUPERIORITY||Log mean difference (Active - Placebo)|-0.6027||||0.0003|TWO_SIDED|95.0|-0.9049|-0.3005|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||-0.3005|-0.9049|0.0003
82468214|NCT01432730|164633368|SUPERIORITY||Mean Difference (Final Values)|-25.57||||0.003|TWO_SIDED|95.0|-41.53|-9.62|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-9.62|-41.53|0.003
82468215|NCT01432730|164633369|SUPERIORITY||Log mean difference (Active - Placebo)|-0.4212||||0.057|TWO_SIDED|95.0|-0.8568|0.01438|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||0.01438|-0.8568|0.057
82468216|NCT01432730|164633370|SUPERIORITY||Mean Difference (Final Values)|-8.53||||0.172|TWO_SIDED|95.0|-20.93|3.87|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||3.87|-20.93|0.172
82468217|NCT01432730|164633371|SUPERIORITY||Log mean difference (Active - Placebo)|-0.582||||0.001|TWO_SIDED|95.0|-0.8934|-0.2707|||Mixed Models Analysis|Mixed model included terms for treatment sequence, participant within sequence, treatment \& period. Average \& period baseline covariates included.||||-0.2707|-0.8934|0.001
82468218|NCT01432730|164633372|SUPERIORITY||Mean Difference (Final Values)|-2.538||||0.033|TWO_SIDED|95.0|-4.849|-0.227|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-0.227|-4.849|0.033
82468219|NCT01432730|164633373|SUPERIORITY||Median Difference (Final Values)|-2.267||||0.049|TWO_SIDED|95.0|-4.523|-0.01|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-0.010|-4.523|0.049
82468220|NCT01432730|164633374|SUPERIORITY||Mean Difference (Final Values)|-9.237||||0.018|TWO_SIDED|95.0|-16.759|-1.716|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-1.716|-16.759|0.018
82468221|NCT01432730|164633375|SUPERIORITY||Mean Difference (Final Values)|-21.25||||0.035|TWO_SIDED|95.0|-40.96|-1.54|||Mixed Models Analysis|Mixed effect model fitting terms for treatment sequence, participant within sequence, treatment, and period.||||-1.54|-40.96|0.035
82468222|NCT03881852|164633383|SUPERIORITY||||||<|0.001||||||P-value calculated from LSMean|Mixed Models Analysis|||||||<0.001
82468223|NCT03038100|164633408|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2785|TWO_SIDED|95.0|0.79|1.07|||Log Rank|||||1.07|0.79|0.2785
82468224|NCT03038100|164633409|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.8||||0.0376|TWO_SIDED|95.0|0.65|0.99|||Log Rank|||||0.99|0.65|0.0376
82468225|NCT03038100|164633410|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3432|TWO_SIDED|95.0|0.78|1.09|||Log Rank|||Stratified by: stage and/or surgical status (Stage III vs. Stage IV), ECOG performance status (0 vs. 1 or 2), tumor PD-L1 status (IC0 vs. IC1/2/3), and treatment strategy (adjuvant vs. neoadjuvant).||1.09|0.78|0.3432
82468226|NCT03038100|164633411|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.83||||0.1316|TWO_SIDED|95.0|0.66|1.06|||Log Rank|||Stratified by: stage and/or surgical status (Stage III vs. Stage IV), ECOG performance status (0 vs. 1 or 2) and treatment strategy (adjuvant vs. neoadjuvant).||1.06|0.66|0.1316
82546385|NCT02015520|164792269|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82546386|NCT01619410|164792343|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82546387|NCT02740231|164792376|SUPERIORITY||Adjusted mean difference|-9.49|STANDARD_DEVIATION|6.38||0.141|TWO_SIDED|95.0|-22.21|3.23||The threshold for statistical significance was p=0.05|ANCOVA||Difference between groups JTA-004 100 (2mL) minus Reference - adjusted mean change|The primary endpoint is the WOMAC® VA3.1 Pain Subscale (subscale A): the individual changes in WOMAC® VA3.1 Pain Subscale Score between Baseline and Month 6 were calculated and compared by analysis of covariance (ANCOVA), adjusted for baseline value, to the Reference group.||3.23|-22.21|0.141
82546388|NCT02740231|164792377|SUPERIORITY||Adjusted mean difference|-11.63|STANDARD_DEVIATION|5.5||0.038|TWO_SIDED|95.0|-22.6|-0.66||The threshold for statistical significance was p=0.05|ANCOVA||Difference between groups JTA-004 100 (2mL) minus Reference|||-0.66|-22.60|0.038
82468227|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.9096|TWO_SIDED|95.0|0.58|1.62|||Cochran-Mantel-Haenszel|||Emotional Functioning, Presurgical/Surgery||1.62|0.58|0.9096
82468228|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.21||||0.4662|TWO_SIDED|95.0|0.73|2.01|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 4 Day 1||2.01|0.73|0.4662
82468229|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.5237|TWO_SIDED|95.0|0.51|1.4|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 6 Day 1||1.40|0.51|0.5237
82468230|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.25||||0.3826|TWO_SIDED|95.0|0.76|2.07|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||2.07|0.76|0.3826
82468231|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9893|TWO_SIDED|95.0|0.56|1.76|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 12 Day 1||1.76|0.56|0.9893
82468232|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.89||||0.6892|TWO_SIDED|95.0|0.49|1.61|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 16 Day 1||1.61|0.49|0.6892
82468233|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.59||||0.1324|TWO_SIDED|95.0|0.3|1.17|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 20 Day 1||1.17|0.30|0.1324
82468234|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.03||||0.9176|TWO_SIDED|95.0|0.62|1.7|||Cochran-Mantel-Haenszel|||Emotional Functioning, Completion of Treatment/Early Termination Visit||1.70|0.62|0.9176
82468235|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.7861|TWO_SIDED|95.0|0.5|1.68|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 3 Months||1.68|0.50|0.7861
82468236|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.31||||0.4539|TWO_SIDED|95.0|0.65|2.65|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 6 Months||2.65|0.65|0.4539
82468237|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.71||||0.4849|TWO_SIDED|95.0|0.27|1.86|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 9 Months||1.86|0.27|0.4849
82468238|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.747|TWO_SIDED|95.0|0.19|3.34|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 12 Months||3.34|0.19|0.7470
82468239|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33||||0.0896|TWO_SIDED|95.0|-44.86|100.0|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 18 Months||100.00|-44.86|0.0896
82468240|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Emotional Functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
82468241|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.7347|TWO_SIDED|95.0|0.56|1.5|||Cochran-Mantel-Haenszel|||Physical Functioning, Presurgical/Surgery||1.50|0.56|0.7347
82468242|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.56||||0.0479|TWO_SIDED|95.0|0.32|1.0|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 4 Day 1||1.00|0.32|0.0479
82468243|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.61||||0.0712|TWO_SIDED|95.0|0.36|1.05|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 6 Day 1||1.05|0.36|0.0712
82468244|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.8168|TWO_SIDED|95.0|0.56|1.58|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 8 Day 1||1.58|0.56|0.8168
82468245|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.6417|TWO_SIDED|95.0|0.5|1.52|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 12 Day 1||1.52|0.50|0.6417
82468246|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8821|TWO_SIDED|95.0|0.53|1.72|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 16 Day 1||1.72|0.53|0.8821
82468247|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.2158|TWO_SIDED|95.0|0.32|1.3|||Cochran-Mantel-Haenszel|||Physical Functioning, Cycle 20 Day 1||1.30|0.32|0.2158
82468248|NCT03038100|164633417|SUPERIORITY||Odds Ratio (OR)|0.84||||0.4762|TWO_SIDED|95.0|0.51|1.37|||Cochran-Mantel-Haenszel|||Physical Functioning, Completion of Treatment/Early Termination Visit||1.37|0.51|0.4762
82468249|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.7585|TWO_SIDED|95.0|0.61|1.96|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 3 Months||1.96|0.61|0.7585
82546389|NCT02740231|164792378|SUPERIORITY||Adjusted mean difference|-1.48|STANDARD_DEVIATION|4.35||0.997|TWO_SIDED|95.0|-12.7|9.74||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||9.74|-12.70|0.997
82468250|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9985|TWO_SIDED|95.0|0.52|1.93|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 6 Months||1.93|0.52|0.9985
82468251|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.07||||0.1067|TWO_SIDED|95.0|0.85|5.06|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 9 Months||5.06|0.85|0.1067
82468252|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.42||||0.6171|TWO_SIDED|95.0|0.36|5.61|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 12 Months||5.61|0.36|0.6171
82468253|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.8084|TWO_SIDED|95.0|0.08|23.57|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 18 Months||23.57|0.08|0.8084
82468254|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-50.0||||0.3173|TWO_SIDED|95.0|-100.0|94.3|||Cochran-Mantel-Haenszel|||Physical Functioning, Post-Treatment Follow Up 24 Months||94.30|-100.00|0.3173
82468255|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.6802|TWO_SIDED|95.0|0.69|1.77|||Cochran-Mantel-Haenszel|||Global health status/QoL, Presurgical/Surgery||1.77|0.69|0.6802
82468256|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.347|TWO_SIDED|95.0|0.48|1.29|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 4 Day 1||1.29|0.48|0.3470
82468257|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.5564|TWO_SIDED|95.0|0.53|1.41|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 6 Day 1||1.41|0.53|0.5564
82546390|NCT02740231|164792379|SUPERIORITY||Adjusted mean difference|-2.94|STANDARD_DEVIATION|5.3||0.972|TWO_SIDED|95.0|-16.52|10.65||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||10.65|-16.52|0.972
82468258|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.19||||0.5|TWO_SIDED|95.0|0.72|1.99|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 8 Day 1||1.99|0.72|0.5000
82468259|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9778|TWO_SIDED|95.0|0.57|1.78|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.78|0.57|0.9778
82468260|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.6005|TWO_SIDED|95.0|0.65|2.12|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||2.12|0.65|0.6005
82468261|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.99|TWO_SIDED|95.0|0.5|2.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||2.00|0.50|0.9900
82468262|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.32||||0.2634|TWO_SIDED|95.0|0.81|2.15|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/Early Termination Visit||2.15|0.81|0.2634
82468263|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.964|TWO_SIDED|95.0|0.56|1.74|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.74|0.56|0.9640
82468264|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.76||||0.4117|TWO_SIDED|95.0|0.4|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.46|0.40|0.4117
82468265|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.51||||0.3505|TWO_SIDED|95.0|0.63|3.62|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 9 Months||3.62|0.63|0.3505
82468266|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.28||||0.2439|TWO_SIDED|95.0|0.55|9.45|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||9.45|0.55|0.2439
82468267|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33||||0.1573|TWO_SIDED|95.0|-44.86|100.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||100.00|-44.86|0.1573
82468268|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Global health status/QoL, Post-Treatment Follow Up 24 Months||100.00|-94.30|
82468269|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.72||||0.182|TWO_SIDED|95.0|0.45|1.16|||Cochran-Mantel-Haenszel|||Role Functioning, Presurgical/Surgery||1.16|0.45|0.1820
82468270|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.47||||0.0046|TWO_SIDED|95.0|0.28|0.8|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 4 Day 1||0.80|0.28|0.0046
82468271|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.59||||0.0361|TWO_SIDED|95.0|0.36|0.97|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 6 Day 1||0.97|0.36|0.0361
82468272|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.0848|TWO_SIDED|95.0|0.39|1.06|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.06|0.39|0.0848
82468273|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.1224|TWO_SIDED|95.0|0.37|1.13|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.13|0.37|0.1224
82468274|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.3127|TWO_SIDED|95.0|0.41|1.33|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.33|0.41|0.3127
82468275|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.6065|TWO_SIDED|95.0|0.42|1.65|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.65|0.42|0.6065
82468276|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.2173|TWO_SIDED|95.0|0.45|1.2|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.20|0.45|0.2173
82468277|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.64||||0.1316|TWO_SIDED|95.0|0.35|1.15|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.15|0.35|0.1316
82468278|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.9||||0.7678|TWO_SIDED|95.0|0.46|1.76|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||1.76|0.46|0.7678
82468279|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.7331|TWO_SIDED|95.0|0.34|2.14|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||2.14|0.34|0.7331
82468280|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.83||||0.1235|TWO_SIDED|95.0|0.73|10.92|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||10.92|0.73|0.1235
82468281|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|0.0|||||TWO_SIDED|95.0|-84.09|84.09||||||Role functioning, Post-Treatment Follow Up 18 Months||84.09|-84.09|
82468282|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Role functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
82468283|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.7869|TWO_SIDED|95.0|0.65|1.78|||Cochran-Mantel-Haenszel|||Social functioning, Presurgical/Surgery||1.78|0.65|0.7869
82468284|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.2502|TWO_SIDED|95.0|0.43|1.25|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 4 Day 1||1.25|0.43|0.2502
82468285|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.5066|TWO_SIDED|95.0|0.5|1.41|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 6 Day 1||1.41|0.50|0.5066
82468286|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.8124|TWO_SIDED|95.0|0.56|1.59|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.59|0.56|0.8124
82468287|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.23||||0.4656|TWO_SIDED|95.0|0.7|2.17|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||2.17|0.70|0.4656
82468288|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.6725|TWO_SIDED|95.0|0.62|2.12|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||2.12|0.62|0.6725
82468289|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.82||||0.578|TWO_SIDED|95.0|0.41|1.64|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.64|0.41|0.5780
82468290|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.7611|TWO_SIDED|95.0|0.66|1.76|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/Early Termination Visit||1.76|0.66|0.7611
82468291|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.7588|TWO_SIDED|95.0|0.62|1.94|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.94|0.62|0.7588
82468292|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.6||||0.1428|TWO_SIDED|95.0|0.3|1.19|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||1.19|0.30|0.1428
82468293|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9802|TWO_SIDED|95.0|0.41|2.39|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||2.39|0.41|0.9802
82468294|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.34||||0.1967|TWO_SIDED|95.0|0.63|8.7|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||8.70|0.63|0.1967
82468295|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Respnders|8.33||||0.4795|TWO_SIDED|95.0|-69.28|85.94|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||85.94|-69.28|0.4795
82468296|NCT03038100|164633417|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0|||||TWO_SIDED|95.0|-94.3|100.0||||||Social functioning, Post-Treatment Follow Up 24 Months||100.00|-94.30|
82468297|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6651|TWO_SIDED|95.0|0.7|1.25|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 3 Day 1||1.25|0.70|0.6651
82468298|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9927|TWO_SIDED|95.0|0.75|1.34|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 5 Day 1||1.34|0.75|0.9927
82468299|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.03||||0.8209|TWO_SIDED|95.0|0.77|1.39|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||1.39|0.77|0.8209
82468300|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.6507|TWO_SIDED|95.0|0.79|1.45|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 12 Day 1||1.45|0.79|0.6507
82468301|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.21||||0.2596|TWO_SIDED|95.0|0.87|1.67|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 16 Day 1||1.67|0.87|0.2596
82468302|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.6532|TWO_SIDED|95.0|0.75|1.58|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 20 Day 1||1.58|0.75|0.6532
82468303|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7592|TWO_SIDED|95.0|0.76|1.45|||Cochran-Mantel-Haenszel|||Emotional functioning, Completion Of Treatment/ Early Termination Visit||1.45|0.76|0.7592
82468304|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.7424|TWO_SIDED|95.0|0.62|1.4|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 3 Months||1.40|0.62|0.7424
82468305|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.37||||0.1912|TWO_SIDED|95.0|0.85|2.19|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 6 Months||2.19|0.85|0.1912
82468306|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.5526|TWO_SIDED|95.0|0.45|1.53|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 9 Months||1.53|0.45|0.5526
82468307|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.69||||0.3609|TWO_SIDED|95.0|0.32|1.52|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 12 Months||1.52|0.32|0.3609
82468308|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.7527|TWO_SIDED|95.0|0.2|3.23|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 18 Months||3.23|0.20|0.7527
82468309|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-33.33|||||TWO_SIDED|95.0|-100.0|75.44||||||Emotional functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|
82468310|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.3177|TWO_SIDED|95.0|0.62|1.17|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.17|0.62|0.3177
82468311|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4184|TWO_SIDED|95.0|0.63|1.21|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.21|0.63|0.4184
82468312|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.571|TWO_SIDED|95.0|0.67|1.24|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.24|0.67|0.5710
82468313|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.3973|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.19|0.65|0.3973
82468314|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.5163|TWO_SIDED|95.0|0.8|1.55|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.55|0.80|0.5163
82468315|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.6897|TWO_SIDED|95.0|0.64|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.35|0.64|0.6897
82468316|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.5735|TWO_SIDED|95.0|0.67|1.25|||Cochran-Mantel-Haenszel|||Physical functioning, Completion Of Treatment/ Early Termination Visit||1.25|0.67|0.5735
82468317|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.75||||0.1414|TWO_SIDED|95.0|0.5|1.1|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.10|0.50|0.1414
82468318|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8655|TWO_SIDED|95.0|0.59|1.55|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.55|0.59|0.8655
82468319|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.72||||0.3017|TWO_SIDED|95.0|0.38|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||1.35|0.38|0.3017
82468320|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.6||||0.2325|TWO_SIDED|95.0|0.26|1.39|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||1.39|0.26|0.2325
82468321|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.33||||0.1717|TWO_SIDED|95.0|0.06|1.69|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||1.69|0.06|0.1717
82468322|NCT03038100|164633418|SUPERIORITY|Stratified Analsyis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-46.49|79.82||||||Physical functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|
82468323|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.4745|TWO_SIDED|95.0|0.84|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 3 Day 1||1.46|0.84|0.4745
82468324|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.5499|TWO_SIDED|95.0|0.69|1.22|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 5 Day 1||1.22|0.69|0.5499
82468325|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8436|TWO_SIDED|95.0|0.73|1.29|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 8 Day 1||1.29|0.73|0.8436
82468326|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.5798|TWO_SIDED|95.0|0.81|1.46|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.46|0.81|0.5798
82468327|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.9094|TWO_SIDED|95.0|0.74|1.39|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||1.39|0.74|0.9094
82468328|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.4006|TWO_SIDED|95.0|0.81|1.67|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||1.67|0.81|0.4006
82468329|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4024|TWO_SIDED|95.0|0.65|1.19|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/ Early Termination Visit||1.19|0.65|0.4024
82546391|NCT02740231|164792380|SUPERIORITY||Adjusted mean difference|-7.17|STANDARD_DEVIATION|5.96||0.599|TWO_SIDED|95.0|-22.28|7.94||The threshold for statistical significance was p=0.05|Mixed Models Analysis|||||7.94|-22.28|0.599
82468330|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8796|TWO_SIDED|95.0|0.67|1.41|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.41|0.67|0.8796
82468331|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.435|TWO_SIDED|95.0|0.53|1.32|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.32|0.53|0.4350
82468332|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.6225|TWO_SIDED|95.0|0.47|1.56|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 9 Months||1.56|0.47|0.6225
82546392|NCT02740231|164792381|SUPERIORITY||Adjusted mean difference|-6.62|STANDARD_DEVIATION|4.3||0.126|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.126
82468333|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.5775|TWO_SIDED|95.0|0.36|1.77|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||1.77|0.36|0.5775
82546393|NCT02740231|164792382|SUPERIORITY||Adjusted mean difference|-8.88|STANDARD_DEVIATION|4.76||0.064|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.064
82468334|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.37||||0.2343|TWO_SIDED|95.0|0.07|1.94|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||1.94|0.07|0.2343
82468335|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-66.67||||0.0833|TWO_SIDED|95.0|-100.0|4.39|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 24 Months||4.39|-100.00|0.0833
82468336|NCT03038100|164633418|SUPERIORITY|Superiority|Odds Ratio (OR)|0.93||||0.6012|TWO_SIDED|95.0|0.71|1.21|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.21|0.71|0.6012
82468337|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.2291|TWO_SIDED|95.0|0.65|1.11|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.11|0.65|0.2291
82468338|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6574|TWO_SIDED|95.0|0.71|1.24|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.24|0.71|0.6574
82468339|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9217|TWO_SIDED|95.0|0.76|1.35|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.35|0.76|0.9217
82468340|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7693|TWO_SIDED|95.0|0.7|1.3|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.30|0.70|0.7693
82468341|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.647|TWO_SIDED|95.0|0.64|1.31|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.31|0.64|0.6470
82468342|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.6391|TWO_SIDED|95.0|0.7|1.25|||Cochran-Mantel-Haenszel|||Role functioning, Completion Of Treatment/ Early Termination Visit||1.25|0.70|0.6391
82468343|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.0892|TWO_SIDED|95.0|0.51|1.05|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.05|0.51|0.0892
82468344|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.65||||0.055|TWO_SIDED|95.0|0.41|1.01|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||1.01|0.41|0.0550
82468345|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.49||||0.0168|TWO_SIDED|95.0|0.27|0.88|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||0.88|0.27|0.0168
82468346|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.29||||0.0021|TWO_SIDED|95.0|0.13|0.65|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||0.65|0.13|0.0021
82468347|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.7817|TWO_SIDED|95.0|0.17|3.8|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||3.80|0.17|0.7817
82546394|NCT02740231|164792383|SUPERIORITY||Adjusted mean difference|-10.79|STANDARD_DEVIATION|4.35||0.014|TWO_SIDED|95.0|||||ANCOVA|||||||0.014
82546395|NCT02740231|164792384|SUPERIORITY||Adjusted mean difference|-10.57|STANDARD_DEVIATION|4.81||0.03|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|ANCOVA|||||||0.030
82546396|NCT01381406|164792423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.772||||0.007|TWO_SIDED|95.0|0.641|0.93||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Any COPD Exacerbation|Regression, Logistic|||||0.930|0.641|0.007
82546397|NCT01381406|164792423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.622||||0.146|TWO_SIDED|95.0|0.328|1.18||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Severe COPD Exacerbations|Regression, Logistic|||||1.180|0.328|0.146
82546398|NCT01381406|164792423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.763||||0.013|TWO_SIDED|95.0|0.646|0.949||COPD-Related Adjusted Multivariate Outcomes in the Follow-Up Period by Cohort (reference cohort = TIO) for Moderate COPD Exacerbations|Regression, Logistic|||||0.949|0.646|0.013
82468348|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|-33.33|||||TWO_SIDED|95.0|-100.0|75.44||||||Role functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|
82468349|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.6646|TWO_SIDED|95.0|0.8|1.41|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 3 Day 1||1.41|0.80|0.6646
82468350|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8677|TWO_SIDED|95.0|0.73|1.3|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 5 Day 1||1.30|0.73|0.8677
82468351|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.767|TWO_SIDED|95.0|0.79|1.38|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.38|0.79|0.7670
82468352|NCT03038100|164633418|SUPERIORITY||Odds Ratio (OR)|0.95||||0.7487|TWO_SIDED|95.0|0.71|1.28|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||1.28|0.71|0.7487
82468353|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.23||||0.1882|TWO_SIDED|95.0|0.9|1.68|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||1.68|0.90|0.1882
82468354|NCT03038100|164633418|SUPERIORITY||Odds Ratio (OR)|1.21||||0.3015|TWO_SIDED|95.0|0.84|1.72|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.72|0.84|0.3015
82468355|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.9059|TWO_SIDED|95.0|0.73|1.32|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/ Early Termination Visit||1.32|0.73|0.9059
82546399|NCT01066026|164792426|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|pilot study.|descritive variables|50.0|||<|0.0001|TWO_SIDED|95.0|5.0|95.0|||McNemar||50 was the percentage of hematomas expected for standard needle group.|||95|5|<0.0001
82468356|NCT03038100|164633418|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7125|TWO_SIDED|95.0|0.65|1.35|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.35|0.65|0.7125
82468357|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.68||||0.0947|TWO_SIDED|95.0|0.43|1.07|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||1.07|0.43|0.0947
82468358|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.58||||0.0686|TWO_SIDED|95.0|0.32|1.05|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||1.05|0.32|0.0686
82468359|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.39||||0.0175|TWO_SIDED|95.0|0.17|0.86|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||0.86|0.17|0.0175
82468360|NCT03038100|164633418|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.46||||0.3376|TWO_SIDED|95.0|0.09|2.3|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||2.30|0.09|0.3376
82468361|NCT03038100|164633418|SUPERIORITY||Difference in Proportion of Responders|-50.0||||0.5637|TWO_SIDED|95.0|-100.0|23.34|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 24 Months||23.34|-100.00|0.5637
82468362|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.977|TWO_SIDED|95.0|0.76|1.3|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 3 Day 1||1.30|0.76|0.9770
82468363|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7317|TWO_SIDED|95.0|0.8|1.37|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 5 Day 1||1.37|0.80|0.7317
82468364|NCT03038100|164633419|SUPERIORITY||Odds Ratio (OR)|1.06||||0.6937|TWO_SIDED|95.0|0.8|1.39|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 8 Day 1||1.39|0.80|0.6937
82468365|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.3916|TWO_SIDED|95.0|0.66|1.18|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 12 Day 1||1.18|0.66|0.3916
82468366|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.3363|TWO_SIDED|95.0|0.63|1.17|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 16 Day 1||1.17|0.63|0.3363
82468367|NCT03038100|164633419|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6761|TWO_SIDED|95.0|0.75|1.55|||Cochran-Mantel-Haenszel|||Emotional Functioning, Cycle 20 Day 1||1.55|0.75|0.6761
82468368|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6997|TWO_SIDED|95.0|0.71|1.26|||Cochran-Mantel-Haenszel|||Emotional Functioning, Completion of Treatment/ Early Termination Visit||1.26|0.71|0.6997
82468369|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.19||||0.3592|TWO_SIDED|95.0|0.82|1.72|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 3 Months||1.72|0.82|0.3592
82468370|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8798|TWO_SIDED|95.0|0.62|1.51|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 6 Months||1.51|0.62|0.8798
82468371|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.77||||0.3857|TWO_SIDED|95.0|0.43|1.39|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 9 Months||1.39|0.43|0.3857
82468372|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.85||||0.6854|TWO_SIDED|95.0|0.39|1.85|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 12 Months||1.85|0.39|0.6854
82546400|NCT01172418|164792437|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
82546401|NCT01172418|164792438|SUPERIORITY|||||||0.37|||||||Log Rank|||||||0.37
82546402|NCT01172418|164792439|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
82546403|NCT01172418|164792440|SUPERIORITY|||||||0.25|||||||Log Rank|||||||0.25
82468373|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.54||||0.4533|TWO_SIDED|95.0|0.11|2.7|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 18 Months||2.70|0.11|0.4533
82468374|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|-33.33||||0.3173|TWO_SIDED|95.0|-100.0|75.44|||Cochran-Mantel-Haenszel|||Emotional Functioning, Post-Treatment Follow Up 24 Months||75.44|-100.00|0.3173
82468375|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.13||||0.3658|TWO_SIDED|95.0|0.87|1.47|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.47|0.87|0.3658
82468376|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.7619|TWO_SIDED|95.0|0.8|1.36|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.36|0.80|0.7619
82468377|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.658|TWO_SIDED|95.0|0.81|1.4|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.40|0.81|0.6580
82468378|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.18||||0.2726|TWO_SIDED|95.0|0.88|1.57|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.57|0.88|0.2726
82546404|NCT02538341|164792441|OTHER|||||||0.0023||||||p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.|a generalized linear model|p value,from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.||Study protocol defined measure for immunogenicity samples. Participants must have at least 1 post vaccine immunogenicity measure to determine the GMFR (a priori analysis)||||0.0023
82546405|NCT02538341|164792442|OTHER|||||||0.31||||||p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.|a generalized linear model|p values, from a generalized linear model on the rank order of the week 6 - baseline change using normal distribution and reciprocal link.||Study protocol defined measure for immunogenicity samples. Participants must have at least 1 post vaccine immunogenicity measure to determine the GMFR (a priori analysis)||||0.31
82546406|NCT00393484|164792470|NON_INFERIORITY_OR_EQUIVALENCE|The difference in proportion along with its standard error and 90% confidence interval was computed. If the lower limit of the confidence interval (CI) was great than -10%, noninferiority was established. Provided that noninferiority was established, a test for superiority was planned to check that the lower limit of the 90% CI was greater than zero.|Difference in proportion|25.67||||0.0006|TWO_SIDED|90.0|14.48|36.86||There was no adjustment for the prior test of noninferiority because the test for superiority could succeed only if noninferiority was first established.|Chi-squared|||A sample size of 60 per group provides 80% power for testing superiority of entecavir compared to lamivudine, assuming a response rate of 62% for lamivudine and 83% for entecavir.||36.86|14.48|0.0006
82468379|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.6973|TWO_SIDED|95.0|0.69|1.29|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.29|0.69|0.6973
82468380|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.15||||0.447|TWO_SIDED|95.0|0.8|1.64|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.64|0.80|0.4470
82376861|NCT04856930|164460568|SUPERIORITY||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.95||0.7002|TWO_SIDED|90.0|-11.38|18.29||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates; baseline AN count as continuous covariate.|LRMM|||||18.29|-11.38|0.7002
82468381|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.515|TWO_SIDED|95.0|0.68|1.21|||Cochran-Mantel-Haenszel|||Physical functioning, Completion of Treatment/ Early Termination Visit||1.21|0.68|0.5150
82468382|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.26||||0.2103|TWO_SIDED|95.0|0.88|1.82|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.82|0.88|0.2103
82468383|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.7969|TWO_SIDED|95.0|0.68|1.66|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.66|0.68|0.7969
82468384|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.83|TWO_SIDED|95.0|0.6|1.91|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||1.91|0.60|0.8300
82468385|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.6987|TWO_SIDED|95.0|0.53|2.55|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||2.55|0.53|0.6987
82468386|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|3.32||||0.1441|TWO_SIDED|95.0|0.62|17.77|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||17.77|0.62|0.1441
82468387|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Difference in proportion of Responders|-66.67||||0.3173|TWO_SIDED|95.0|-100.0|4.39|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 24 Months||4.39|-100.00|0.3173
82468388|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.7591|TWO_SIDED|95.0|0.74|1.25|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 3 Day 1||1.25|0.74|0.7591
82468389|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.09||||0.5403|TWO_SIDED|95.0|0.83|1.42|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 5 Day 1||1.42|0.83|0.5403
82468390|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.2654|TWO_SIDED|95.0|0.89|1.55|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 8 Day 1||1.55|0.89|0.2654
82468391|NCT03038100|164633419|SUPERIORITY||Odds Ratio (OR)|1.1||||0.5138|TWO_SIDED|95.0|0.82|1.48|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 12 Day 1||1.48|0.82|0.5138
82468392|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.22||||0.2138|TWO_SIDED|95.0|0.89|1.67|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 16 Day 1||1.67|0.89|0.2138
82468393|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.26||||0.2114|TWO_SIDED|95.0|0.88|1.82|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Cycle 20 Day 1||1.82|0.88|0.2114
82468394|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.3938|TWO_SIDED|95.0|0.85|1.53|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Completion of Treatment/ Early Termination Visit||1.53|0.85|0.3938
82468395|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7793|TWO_SIDED|95.0|0.65|1.38|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 3 Months||1.38|0.65|0.7793
82468396|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.737|TWO_SIDED|95.0|0.69|1.39|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 6 Months||1.39|0.69|0.7370
82468397|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9658|TWO_SIDED|95.0|0.55|1.79|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 9 Months||1.79|0.55|0.9658
82468398|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.66||||0.3015|TWO_SIDED|95.0|0.29|1.46|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 12 Months||1.46|0.29|0.3015
82468399|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.77||||0.7534|TWO_SIDED|95.0|0.15|3.94|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 18 Months||3.94|0.15|0.7534
82468400|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67||||0.5637|TWO_SIDED|95.0|-46.49|79.82|||Cochran-Mantel-Haenszel|||Global health status/ QoL, Post-Treatment Follow Up 24 Months||79.82|-46.49|0.5637
82468401|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.8||||0.1177|TWO_SIDED|95.0|0.61|1.06|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.06|0.61|0.1177
82468402|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.17||||0.273|TWO_SIDED|95.0|0.88|1.56|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.56|0.88|0.2730
82468403|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9306|TWO_SIDED|95.0|0.73|1.33|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.33|0.73|0.9306
82468404|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.97||||0.8631|TWO_SIDED|95.0|0.72|1.32|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.32|0.72|0.8631
82468405|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.33||||0.0977|TWO_SIDED|95.0|0.95|1.86|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.86|0.95|0.0977
82468406|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.43||||0.0726|TWO_SIDED|95.0|0.97|2.1|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||2.10|0.97|0.0726
82468407|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9974|TWO_SIDED|95.0|0.73|1.38|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.38|0.73|0.9974
82546407|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|24.55||||0.0003|TWO_SIDED|90.0|14.45|34.66||Treatment comparisons were assessed using the same method used in the primary endpoint.|Chi-squared|||HBV DNA \<10\^3 copies/mL at 24 Weeks||34.66|14.45|0.0003
82468408|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.7069|TWO_SIDED|95.0|0.72|1.63|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||1.63|0.72|0.7069
82468409|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.3||||0.3068|TWO_SIDED|95.0|0.78|2.16|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||2.16|0.78|0.3068
82468410|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.64||||0.1375|TWO_SIDED|95.0|0.85|3.16|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||3.16|0.85|0.1375
82468411|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.954|TWO_SIDED|95.0|0.46|2.29|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||2.29|0.46|0.9540
82468412|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.53||||0.4283|TWO_SIDED|95.0|0.1|2.64|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||2.64|0.10|0.4283
82468413|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-95.56|100.0||||||Role functioning, Post-Treatment Follow Up 24 Months||100.00|-95.56|
82468414|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.2153|TWO_SIDED|95.0|0.64|1.1|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 3 Day 1||1.10|0.64|0.2153
82468415|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.7878|TWO_SIDED|95.0|0.73|1.27|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 5 Day 1||1.27|0.73|0.7878
82468416|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.81||||0.1544|TWO_SIDED|95.0|0.61|1.08|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 8 Day 1||1.08|0.61|0.1544
82468417|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.8017|TWO_SIDED|95.0|0.77|1.4|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 12 Day 1||1.40|0.77|0.8017
82468418|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.88||||0.4295|TWO_SIDED|95.0|0.63|1.21|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 16 Day 1||1.21|0.63|0.4295
82468419|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio, log|0.99||||0.954|TWO_SIDED|95.0|0.68|1.44|||Cochran-Mantel-Haenszel|||Social Functioning, Cycle 20 Day 1||1.44|0.68|0.9540
82468420|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.95||||0.7494|TWO_SIDED|95.0|0.69|1.3|||Cochran-Mantel-Haenszel|||Social Functioning, Completion of Treatment/ Early Termination Visit||1.30|0.69|0.7494
82468421|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.6412|TWO_SIDED|95.0|0.74|1.62|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 3 Months||1.62|0.74|0.6412
82468422|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.8652|TWO_SIDED|95.0|0.65|1.67|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 6 Months||1.67|0.65|0.8652
82468423|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.14||||0.6912|TWO_SIDED|95.0|0.6|2.18|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 9 Months||2.18|0.60|0.6912
82468424|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.79||||0.5834|TWO_SIDED|95.0|0.33|1.86|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 12 Months||1.86|0.33|0.5834
82468425|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.93||||0.9578|TWO_SIDED|95.0|0.05|16.05|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 18 Months||16.05|0.05|0.9578
82546408|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|13.62||||0.0167|TWO_SIDED|90.0|4.85|22.38||Treatment comparisons were assessed using the same method as the primary endpoint.|Chi-squared|||HBV DNA \<10\^4 copies/mL at 24 Weeks||22.38|4.85|0.0167
82546409|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.24||||0.4467|TWO_SIDED|90.0|-2.62|11.1|||Chi-squared|||HBV DNA \<10\^5 at 24 Weeks||11.10|-2.62|0.4467
82468426|NCT03038100|164633419|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67||||0.5637|TWO_SIDED|95.0|-46.49|79.82|||Cochran-Mantel-Haenszel|||Social Functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|0.5637
82468427|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.6063|TWO_SIDED|95.0|0.75|1.63|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 3 Day 1||1.63|0.75|0.6063
82468428|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.9||||0.5739|TWO_SIDED|95.0|0.63|1.29|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 5 Day 1||1.29|0.63|0.5739
82468429|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.84||||0.3792|TWO_SIDED|95.0|0.56|1.25|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 8 Day 1||1.25|0.56|0.3792
82468430|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.6022|TWO_SIDED|95.0|0.73|1.73|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 12 Day 1||1.73|0.73|0.6022
82468431|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.7893|TWO_SIDED|95.0|0.59|1.49|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 16 Day 1||1.49|0.59|0.7893
82468432|NCT03038100|164633420|SUPERIORITY||Odds Ratio (OR)|0.71||||0.2125|TWO_SIDED|95.0|0.42|1.22|||Cochran-Mantel-Haenszel|||Emotional functioning, Cycle 20 Day 1||1.22|0.42|0.2125
82468433|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9661|TWO_SIDED|95.0|0.7|1.46|||Cochran-Mantel-Haenszel|||Emotional functioning, Completion of Treatment/ Early Termination Visit||1.46|0.70|0.9661
82468434|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.83||||0.4299|TWO_SIDED|95.0|0.52|1.32|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 3 Months||1.32|0.52|0.4299
82468435|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.65||||0.1542|TWO_SIDED|95.0|0.36|1.18|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 6 Months||1.18|0.36|0.1542
82546410|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|26.12||||0.0002|TWO_SIDED|90.0|15.87|36.36|||Chi-squared|||HBV DNA \<10\^3 copies/mL at 48 Weeks||36.36|15.87|0.0002
82546411|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|20.09||||0.0009|TWO_SIDED|90.0|11.1|29.07|||Chi-squared|||HBV DNA \<10\^4 copies/mL at 48 Weeks||29.07|11.10|0.0009
82468436|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.65||||0.0363|TWO_SIDED|95.0|1.04|6.76|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 9 Months||6.76|1.04|0.0363
82468437|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.75||||0.0814|TWO_SIDED|95.0|0.85|8.93|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 12 Months||8.93|0.85|0.0814
82468438|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|4.03||||0.1915|TWO_SIDED|95.0|0.43|38.0|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 18 Months||38.00|0.43|0.1915
82468439|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|66.67||||0.3173|TWO_SIDED|95.0|-4.39|100.0|||Cochran-Mantel-Haenszel|||Emotional functioning, Post-Treatment Follow Up 24 Months||100.00|-4.39|0.3173
82468440|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9818|TWO_SIDED|95.0|0.73|1.35|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 3 Day 1||1.35|0.73|0.9818
82468441|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.08||||0.6263|TWO_SIDED|95.0|0.8|1.45|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 5 Day 1||1.45|0.80|0.6263
82468442|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9407|TWO_SIDED|95.0|0.73|1.4|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 8 Day 1||1.40|0.73|0.9407
82468443|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.94||||0.77|TWO_SIDED|95.0|0.64|1.39|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 12 Day 1||1.39|0.64|0.7700
82468444|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8458|TWO_SIDED|95.0|0.63|1.45|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 16 Day 1||1.45|0.63|0.8458
82468445|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.91||||0.7028|TWO_SIDED|95.0|0.57|1.46|||Cochran-Mantel-Haenszel|||Physical functioning, Cycle 20 Day 1||1.46|0.57|0.7028
82468446|NCT03038100|164633420|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1391|TWO_SIDED|95.0|0.92|1.83|||Cochran-Mantel-Haenszel|||Physical functioning, Completion of Treatment/ Early Termination Visit||1.83|0.92|0.1391
82468447|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.06||||0.8002|TWO_SIDED|95.0|0.69|1.62|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 3 Months||1.62|0.69|0.8002
82468448|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.01||||0.9751|TWO_SIDED|95.0|0.6|1.68|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 6 Months||1.68|0.60|0.9751
82468449|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.37||||0.3811|TWO_SIDED|95.0|0.68|2.78|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 9 Months||2.78|0.68|0.3811
82468450|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.51||||0.395|TWO_SIDED|95.0|0.58|3.9|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 12 Months||3.90|0.58|0.3950
82546412|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|16.96||||0.0029|TWO_SIDED|90.0|8.43|25.5|||Chi-squared|||HBV DNA \<10\^5 at 48 Weeks||25.50|8.43|0.0029
82546413|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|35.27|||<|0.0001|TWO_SIDED|90.0|24.02|46.51|||Chi-squared|||HBV DNA \<10\^3 copies/mL at 96 Weeks||46.51|24.02|<0.0001
82546414|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|29.02|||<|0.0001|TWO_SIDED|90.0|18.07|39.97|||Chi-squared|||HBV DNA \<10\^4 copies/mL at 96 Weeks||39.97|18.07|<0.0001
82546415|NCT00393484|164792471|SUPERIORITY_OR_OTHER||Difference|24.33||||0.0006|TWO_SIDED|90.0|13.71|34.95|||Chi-squared|||HBV DNA \<10\^5 copies/mL at 96 Weeks||34.95|13.71|0.0006
82468451|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.89||||0.8993|TWO_SIDED|95.0|0.16|5.12|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 18 Months||5.12|0.16|0.8993
82468452|NCT03038100|164633420|SUPERIORITY|Stratified|Difference in Proportion of Responders|50.0||||0.3173|TWO_SIDED|95.0|-23.34|100.0|||Cochran-Mantel-Haenszel|||Physical functioning, Post-Treatment Follow Up 24 Months||100.00|-23.34|0.3173
82468453|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.92||||0.5988|TWO_SIDED|95.0|0.68|1.25|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 3 Day 1||1.25|0.68|0.5988
82468454|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8859|TWO_SIDED|95.0|0.72|1.34|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 5 Day 1||1.34|0.72|0.8859
82468455|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.82||||0.2531|TWO_SIDED|95.0|0.58|1.16|||Cochran-Mantel-Haenszel|Stratified Analysis||Global health status/QoL, Cycle 8 Day 1||1.16|0.58|0.2531
82468456|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.69||||0.0785|TWO_SIDED|95.0|0.46|1.04|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 12 Day 1||1.04|0.46|0.0785
82468457|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.67||||0.0641|TWO_SIDED|95.0|0.43|1.03|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 16 Day 1||1.03|0.43|0.0641
82468458|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.48||||0.0046|TWO_SIDED|95.0|0.29|0.8|||Cochran-Mantel-Haenszel|||Global health status/QoL, Cycle 20 Day 1||0.80|0.29|0.0046
82468459|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.98||||0.8928|TWO_SIDED|95.0|0.7|1.37|||Cochran-Mantel-Haenszel|||Global health status/QoL, Completion of Treatment/ Early Termination Visit||1.37|0.70|0.8928
82468460|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.12||||0.6106|TWO_SIDED|95.0|0.72|1.74|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 3 Months||1.74|0.72|0.6106
82468461|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.15||||0.6159|TWO_SIDED|95.0|0.67|1.95|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 6 Months||1.95|0.67|0.6159
82468462|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.24||||0.5372|TWO_SIDED|95.0|0.62|2.49|||Cochran-Mantel-Haenszel|Stratified Analysis||Global health status/QoL, Post-Treatment Follow Up 9 Months||2.49|0.62|0.5372
82546416|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariates of treatment and baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from baseline were based on patients with measurements at both Baseline and Week 24.||||<0.0001
82650573|NCT00291330|165016374|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 2.75 for the HR analysis|Hazard Ratio (HR)|1.05|||<|0.0001||95.0|0.65|1.7||Non-inferiority P-Value. Two Statistical analyses performed on primary endpoint. Both non inferiority for the risk difference and for the hazard ratio analyses to be reached in order to conclude positively on the primary endpoint.|Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.70|0.65|<0.0001
82468463|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.22||||0.0845|TWO_SIDED|95.0|0.89|5.58|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 12 Months||5.58|0.89|0.0845
82468464|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|3.67||||0.1344|TWO_SIDED|95.0|0.62|21.56|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 18 Months||21.56|0.62|0.1344
82468465|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|50.0||||0.3173|TWO_SIDED|95.0|-23.34|100.0|||Cochran-Mantel-Haenszel|||Global health status/QoL, Post-Treatment Follow Up 24 Months||100.00|-23.34|0.3173
82468466|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.41||||0.026|TWO_SIDED|95.0|1.04|1.92|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 3 Day 1||1.92|1.04|0.0260
82468467|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.02||||0.9179|TWO_SIDED|95.0|0.75|1.37|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 5 Day 1||1.37|0.75|0.9179
82468468|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.1||||0.582|TWO_SIDED|95.0|0.79|1.53|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 8 Day 1||1.53|0.79|0.5820
82468469|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.99||||0.9772|TWO_SIDED|95.0|0.67|1.47|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 12 Day 1||1.47|0.67|0.9772
82468470|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.73||||0.13|TWO_SIDED|95.0|0.49|1.1|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 16 Day 1||1.10|0.49|0.1300
82468471|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.66||||0.099|TWO_SIDED|95.0|0.4|1.08|||Cochran-Mantel-Haenszel|||Role functioning, Cycle 20 Day 1||1.08|0.40|0.0990
82468472|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.07||||0.7133|TWO_SIDED|95.0|0.76|1.5|||Cochran-Mantel-Haenszel|||Role functioning, Completion of Treatment/ Early Termination Visit||1.50|0.76|0.7133
82468473|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.38||||0.1384|TWO_SIDED|95.0|0.9|2.11|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 3 Months||2.11|0.90|0.1384
82468474|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.33||||0.2895|TWO_SIDED|95.0|0.78|2.26|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 6 Months||2.26|0.78|0.2895
82468475|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.55||||0.2221|TWO_SIDED|95.0|0.77|3.14|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 9 Months||3.14|0.77|0.2221
82468476|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|7.37||||0.0005|TWO_SIDED|95.0|2.08|26.1|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 12 Months||26.10|2.08|0.0005
82468477|NCT03038100|164633420|SUPERIORITY||Odds Ratio (OR)|3.72||||0.2171|TWO_SIDED|95.0|0.4|34.56|||Cochran-Mantel-Haenszel|||Role functioning, Post-Treatment Follow Up 18 Months||34.56|0.40|0.2171
82468478|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|16.67|||||TWO_SIDED|95.0|-46.49|79.82||||||Role functioning, Post-Treatment Follow Up 24 Months||79.82|-46.49|
82468479|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.11||||0.4647|TWO_SIDED|95.0|0.84|1.48|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 3 Day 1||1.48|0.84|0.4647
82468480|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.04||||0.7676|TWO_SIDED|95.0|0.78|1.4|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 5 Day 1||1.40|0.78|0.7676
82468481|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.24||||0.1983|TWO_SIDED|95.0|0.89|1.71|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 8 Day 1||1.71|0.89|0.1983
82468482|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.0||||0.9874|TWO_SIDED|95.0|0.69|1.44|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 12 Day 1||1.44|0.69|0.9874
82468483|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.86||||0.4716|TWO_SIDED|95.0|0.58|1.29|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 16 Day 1||1.29|0.58|0.4716
82468484|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.74||||0.2041|TWO_SIDED|95.0|0.46|1.18|||Cochran-Mantel-Haenszel|||Social functioning, Cycle 20 Day 1||1.18|0.46|0.2041
82468485|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.05||||0.7771|TWO_SIDED|95.0|0.76|1.45|||Cochran-Mantel-Haenszel|||Social functioning, Completion of Treatment/ Early Termination Visit||1.45|0.76|0.7771
82468486|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|0.96||||0.8542|TWO_SIDED|95.0|0.64|1.45|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 3 Months||1.45|0.64|0.8542
82468487|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.5||||0.123|TWO_SIDED|95.0|0.9|2.5|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 6 Months||2.50|0.90|0.1230
82468488|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|1.72||||0.1089|TWO_SIDED|95.0|0.88|3.34|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 9 Months||3.34|0.88|0.1089
82468489|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|5.82||||0.0011|TWO_SIDED|95.0|1.85|18.3|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 12 Months||18.30|1.85|0.0011
82468490|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Odds Ratio (OR)|2.51||||0.295|TWO_SIDED|95.0|0.43|14.74|||Cochran-Mantel-Haenszel|||Social functioning, Post-Treatment Follow Up 18 Months||14.74|0.43|0.2950
82468491|NCT03038100|164633420|SUPERIORITY|Stratified Analysis|Difference in Proportion of Responders|33.33|||||TWO_SIDED|95.0|-37.72|100.0||||||Social functioning, Post-Treatment Follow Up 24 Months||100.00|-37.72|
82468492|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.954||||0.312|TWO_SIDED|95.0|0.871|1.045|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.045|.871|.312
82468493|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.664|TWO_SIDED|95.0|0.894|1.074|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.074|.894|.664
82468494|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.989||||0.814|TWO_SIDED|95.0|0.903|1.084|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.084|.903|.814
82468495|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.925||||0.093|TWO_SIDED|95.0|0.844|1.013|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.013|.844|.093
82468496|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.983||||0.716|TWO_SIDED|95.0|0.898|1.077|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.077|.898|.716
82468497|NCT01116986|164633425|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.031||||0.511|TWO_SIDED|95.0|0.941|1.13|||Regression, Cox|||The Cox regression model effects consisted of six treatment effects, 15 two-way treatment interactions, and three covariates : gender and two items from the Fagerstrom Test of Nicotine Dependence (Item 1: time to first cigarette; Item 4: cigarettes per day).||1.130|.941|.511
82468498|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.087||||0.341|TWO_SIDED|95.0|0.916|1.29|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Pre-Quit Nicotine Patch vs. Pre-Quit Nicotine Patch) would result in significantly higher abstinence at 16 weeks post-quit.||1.290|.916|.341
82468499|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.117||||0.207|TWO_SIDED|95.0|0.941|1.325|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Pre-Quit Nicotine Gum vs. Pre-Quit Nicotine Gum) would result in significantly higher abstinence at 16 weeks post-quit.||1.325|.941|.207
82468500|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.196||||0.041|TWO_SIDED|95.0|1.008|1.42|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., No Counseling Before the Quit Attempt vs. Counseling Before the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.420|1.008|.041
82468501|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.056||||0.536|TWO_SIDED|95.0|0.889|1.254|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Minimal In-person Counseling During the Quit Attempt vs. Intensive In-person Counseling During the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.254|.889|.536
82468502|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.049||||0.587|TWO_SIDED|95.0|0.883|1.246|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Minimal Phone Counseling During the Quit Attempt vs. Intensive Phone Counseling During the Quit Attempt) would result in significantly higher abstinence at 16 weeks post-quit.||1.246|.883|.587
82468503|NCT01116986|164633426|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078||||0.389|TWO_SIDED|95.0|0.909|1.278|||Regression, Logistic|||The logistic regression model effects consisted of six treatment main effects and 15 two-way treatment interactions. The main effects provide direct tests of the primary aim of the study, i.e., determining whether or not more intensive treatments (compared to less intensive treatments; e.g., Short Term (8 Weeks) Postquit Nicotine Patch + Nicotine Gum vs. Long Term (26 Weeks) Postquit Nicotine Patch + Nicotine Gum) would result in significantly higher abstinence at 16 weeks post-quit.||1.278|.909|.389
82468504|NCT02392624|164633440|SUPERIORITY||Clinical Worsening Rate Difference|-39.4|||<|0.0001|TWO_SIDED|95.0|-54.5|-22.5|||Chi-squared|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||-22.5|-54.5|<0.0001
82468505|NCT02392624|164633441|SUPERIORITY||||||<|0.0001|||||||Log Rank|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||||<0.0001
82650574|NCT00291330|165016374|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority margin was set up to 3.6% for the risk difference based on KM estimates|Risk Difference (Percentage)|0.4|||<|0.0001||95.0|-0.8|1.5||Non-inferiority P-Value. Two Statistical analyses performed on primary endpoint. Both non inferiority for the risk difference and for the hazard ratio analyses to be reached in order to conclude positively on the primary endpoint.|Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with VTE or death related to VTE at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.50|-0.80|<0.0001
82468506|NCT02392624|164633442|SUPERIORITY||Clinical Worsening Rate Difference|-32.1||||0.0004|TWO_SIDED|95.0|-47.9|-14.9|||Chi-squared|||For participants who transitioned to open-label omalizumab, data prior to the date of transitioning was used for analysis.||-14.9|-47.9|0.0004
82468507|NCT02392624|164633443|OTHER||||||<|0.0001|||||||One-sample t-test, 1 sided|The p-value from this test was used to determine the importance of continued treatment in this study. P-value is one-sided with alpha = 0.05.||The null hypothesis for this test was that the mean change from Week 24 to Week 48 in UAS7 score was \>/=5 and the alternative hypothesis was that the mean change from Week 24 to Week 48 in UAS7 score was \<5.||||<0.0001
82468508|NCT02392624|164633444|OTHER||||||<|0.0001|||||||One-sample t-test, 2 sided|The p-value from this test was used to evaluate the importance of retreatment after experiencing clinical worsening.||The null hypothesis for this test was that the mean change from the time of retreatment to 12 weeks after retreatment in UAS7 was zero and the alternative hypothesis was that this change was non-zero.||||<0.0001
82468509|NCT03841604|164633446|SUPERIORITY||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1695|TWO_SIDED|95.0|-1.75|0.32|||Mixed Model Repeated Measures|||||0.32|-1.75|0.1695
82468510|NCT03841604|164633447|OTHER||Least square mean difference|-1.0|STANDARD_ERROR_OF_MEAN|0.55||0.0784|TWO_SIDED|95.0|-2.1|0.12|||Mixed Model Repeated Measures|||||0.12|-2.1|0.0784
82468511|NCT03841604|164633448|OTHER||Risk Difference (RD)|-0.23||||0.0744|TWO_SIDED|95.0|-0.45|-0.01|||Cochran-Mantel-Haenszel|||||-0.01|-0.45|0.0744
82468512|NCT03841604|164633449|OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7247|TWO_SIDED|95.0|-0.7|0.49|||Mixed Model Repeated Measures|||||0.49|-0.70|0.7247
82468513|NCT03841604|164633450|OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.9052|TWO_SIDED|95.0|-0.43|0.38|||Mixed Model Repeated Measures|||||0.38|-0.43|0.9052
82468514|NCT03841604|164633451|OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.7115|TWO_SIDED|95.0|-0.61|0.88|||Mixed Model Repeated Measures|||||0.88|-0.61|0.7115
82468515|NCT03841604|164633452|SUPERIORITY||Risk Difference (RD)|0.04||||0.1967|TWO_SIDED|95.0|-0.04|0.12|||Cochran-Mantel-Haenszel|||||0.12|-0.04|0.1967
82468516|NCT03841604|164633453|SUPERIORITY||Risk Difference (RD)|0.06||||0.5122|TWO_SIDED|95.0|-0.13|0.26|||Cochran-Mantel-Haenszel|||||0.26|-0.13|0.5122
82468517|NCT03841604|164633455|OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|1.29||0.7376|TWO_SIDED|95.0|-3.03|2.16|||ANCOVA|||||2.16|-3.03|0.7376
82468518|NCT03841604|164633456|OTHER||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|3.92||0.5349|TWO_SIDED|95.0|-10.33|5.43|||Mixed Model Repeated Measures|||||5.43|-10.33|0.5349
82468519|NCT02492763|164633457|SUPERIORITY||Difference in Least Squares Means|-0.39||||0.126|TWO_SIDED|95.0|-0.88|0.11|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.11|-0.88|0.126
82468520|NCT02492763|164633457|SUPERIORITY||Difference in Least Squares Means|0.6||||0.017|TWO_SIDED|95.0|0.11|1.08|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.08|0.11|0.017
82468521|NCT02492763|164633457|SUPERIORITY||Difference in Least Squares Means|-0.61||||0.018|TWO_SIDED|95.0|-1.12|-0.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-0.10|-1.12|0.018
82468522|NCT02492763|164633457|SUPERIORITY||Difference in Least Squares Means|0.37||||0.146|TWO_SIDED|95.0|-0.13|0.87|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.87|-0.13|0.146
82468523|NCT02492763|164633457|SUPERIORITY||Difference in the Least Squares Means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.49|-0.48||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-0.48|-1.49|<0.001
82468524|NCT02492763|164633460|SUPERIORITY||Difference in % vs Placebo|-2.3||||0.301|TWO_SIDED|95.0|-12.1|5.6|||Miettinen & Nurminen method|||||5.6|-12.1|0.301
82468525|NCT02492763|164633460|SUPERIORITY||Difference in % vs Placebo|2.2||||0.573|TWO_SIDED|95.0|-8.1|13.2|||Miettinen & Nurminen method|||||13.2|-8.1|0.573
82468526|NCT02492763|164633460|SUPERIORITY||Difference in % vs Liraglutide|-2.4||||0.295|TWO_SIDED|95.0|-12.4|5.5|||Miettinen & Nurminen method|||||5.5|-12.4|0.295
82468527|NCT02492763|164633460|SUPERIORITY||Difference in % vs Liraglutide|2.2||||0.587|TWO_SIDED|95.0|-8.4|13.2|||Miettinen & Nurminen method|||||13.2|-8.4|0.587
82468528|NCT02492763|164633461|SUPERIORITY||Difference in the LS Means vs. Placebo|6.9|||||TWO_SIDED|95.0|3.42|10.37|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|10.37|3.42|
82468529|NCT02492763|164633461|SUPERIORITY||Difference in LS Means vs. Liraglutide|3.84|||||TWO_SIDED|95.0|0.35|7.33|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|7.33|0.35|
82468530|NCT02492763|164633461|SUPERIORITY||Difference in LS Means vs. Placebo|7.7|||||TWO_SIDED|95.0|4.17|11.23|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|11.23|4.17|
82468531|NCT02492763|164633461|SUPERIORITY||Difference in LS Means vs. Liraglutide|4.65|||||TWO_SIDED|95.0|1.11|8.19|||||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||Longitudinal data analysis|8.19|1.11|
82468532|NCT02492763|164633462|SUPERIORITY||Difference in Least Squares Means|-0.7||||0.285|TWO_SIDED|95.0|-2.0|0.6|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||0.6|-2.0|0.285
82546417|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 48.||||<0.0001
82468533|NCT02492763|164633462|SUPERIORITY||Difference in Least Squares Means|0.9||||0.183|TWO_SIDED|95.0|-0.4|2.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||2.2|-0.4|0.183
82468534|NCT02492763|164633462|SUPERIORITY||Difference in Least Squares Means|-1.8||||0.01|TWO_SIDED|95.0|-3.1|-0.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-0.4|-3.1|0.010
82468535|NCT02492763|164633462|SUPERIORITY||Difference in Least Squares Means|-0.2||||0.811|TWO_SIDED|95.0|-1.5|1.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.2|-1.5|0.811
82468536|NCT02492763|164633462|SUPERIORITY||Difference in the Least Squares Means|-1.6||||0.018|TWO_SIDED|95.0|-2.9|-0.3||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-0.3|-2.9|0.018
82468537|NCT02492763|164633463|SUPERIORITY||Difference in Least Squares Means|-8.6||||0.385|TWO_SIDED|95.0|-28.2|10.9|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||10.9|-28.2|0.385
82468538|NCT02492763|164633463|SUPERIORITY||Difference in Least Squares Means|29.1||||0.004|TWO_SIDED|95.0|9.7|48.6|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||48.6|9.7|0.004
82468539|NCT02492763|164633463|SUPERIORITY||Difference in Least Squares Means|-29.5||||0.004|TWO_SIDED|95.0|-49.6|-9.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||-9.4|-49.6|0.004
82468540|NCT02492763|164633463|SUPERIORITY||Difference in Least Squares Means|8.3||||0.416|TWO_SIDED|95.0|-11.7|28.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||28.2|-11.7|0.416
82468541|NCT02492763|164633463|SUPERIORITY||Difference in the Least Squares Means|-37.8|||<|0.001|TWO_SIDED|95.0|-57.5|-18.0||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||-18.0|-57.5|<0.001
82468542|NCT02492763|164633467|SUPERIORITY||Difference in Least Squares Means|-3.7||||0.151|TWO_SIDED|95.0|-8.8|1.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||1.4|-8.8|0.151
82468543|NCT02492763|164633467|SUPERIORITY||Difference in Least Squares Means|-1.1||||0.682|TWO_SIDED|95.0|-6.2|4.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.1|-6.2|0.682
82468544|NCT02492763|164633467|SUPERIORITY||Difference in Least Squares Means|-2.5||||0.344|TWO_SIDED|95.0|-7.7|2.7|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||2.7|-7.7|0.344
82468545|NCT02492763|164633467|SUPERIORITY||Difference in Least Squares Means|0.2||||0.948|TWO_SIDED|95.0|-5.0|5.4|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||5.4|-5.0|0.948
82468546|NCT02492763|164633467|SUPERIORITY||Difference in the Least Squares Means|-2.7||||0.306|TWO_SIDED|95.0|-7.8|2.5||Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment|Longitudinal data analysis|||||2.5|-7.8|0.306
82468547|NCT02492763|164633468|SUPERIORITY||Difference in Least Squares Means|1.5||||0.347|TWO_SIDED|95.0|-1.7|4.8|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.8|-1.7|0.347
82468548|NCT02492763|164633468|SUPERIORITY||Difference in Least Squares Means|-0.1||||0.963|TWO_SIDED|95.0|-3.3|3.2|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||3.2|-3.3|0.963
82468549|NCT02492763|164633468|SUPERIORITY||Difference in Least Squares Means|1.4||||0.394|TWO_SIDED|95.0|-1.9|4.7|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.7|-1.9|0.394
82468550|NCT02492763|164633468|SUPERIORITY||Difference in Least Squares Means|-0.2||||0.905|TWO_SIDED|95.0|-3.5|3.1|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||3.1|-3.5|0.905
82468551|NCT02492763|164633468|SUPERIORITY||Difference in the Least Squares Means|1.6||||0.325|TWO_SIDED|95.0|-1.6|4.9|||Longitudinal data analysis|Terms for treatment, time, A1C (\<8.5%, ≥8.5%), BMI (\<30 kg/m\^2, ≥30 kg/m\^2) and AHA washout status (Yes, No), and the interaction of time by treatment||||4.9|-1.6|0.325
82468552|NCT01337960|164633498|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Fisher Exact|||||||< 0.01
82468553|NCT01337960|164633499|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||Fisher Exact|||||||<.02
82468554|NCT01337960|164633500|SUPERIORITY_OR_OTHER||||||=|0.17|TWO_SIDED||||||Fisher Exact|||||||=0.17
82468555|NCT01337960|164633501|SUPERIORITY_OR_OTHER||||||=|0.35|TWO_SIDED||||||Fisher Exact|||||||=0.35
82468556|NCT02085161|164633504|SUPERIORITY_OR_OTHER||Treatment ratio|1.458|STANDARD_ERROR_OF_MEAN|0.147||0.0002|TWO_SIDED|95.0|1.196|1.777||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM).|This treatment comparison is the first one in the alpha-protected hierarchical testing chain.||1.777|1.196|0.0002
82650575|NCT00291330|165016374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||||95.0|0.65|1.84|||Regression, Cox|Patients without events are censored at day 180||Hazard ratio vs. Warfarin (events occurring between randomisation and the day 180). The time to first occurrence of the primary endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.84|0.65|
82468557|NCT02085161|164633504|SUPERIORITY_OR_OTHER||Treatment ratio|1.292|STANDARD_ERROR_OF_MEAN|0.129||0.0109|TWO_SIDED|95.0|1.061|1.573||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM).|This treatment comparison is the second one in the alpha-protected hierarchical testing chain.||1.573|1.061|0.0109
82468558|NCT02085161|164633504|SUPERIORITY_OR_OTHER||Treatment ratio|1.041|STANDARD_ERROR_OF_MEAN|0.106||0.6895|TWO_SIDED|95.0|0.853|1.272||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM).|This treatment comparison is the third one in the alpha-protected hierarchical testing chain. Since the p-value for this treatment comparison is \>0.05, the hierarchical testing chain is broken and all of the following hypothesis tests in this hierarchical chain are considered as descriptive only.||1.272|0.853|0.6895
82468559|NCT02085161|164633504|SUPERIORITY_OR_OTHER||Treatment ratio|1.128|STANDARD_ERROR_OF_MEAN|0.11||0.2188|TWO_SIDED|95.0|0.931|1.368||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM.|||1.368|0.931|0.2188
82468560|NCT02085161|164633504|SUPERIORITY_OR_OTHER||Treatment ratio|1.241|STANDARD_ERROR_OF_MEAN|0.123||0.0303|TWO_SIDED|95.0|1.021|1.507||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM.|||1.507|1.021|0.0303
82468561|NCT02085161|164633505|SUPERIORITY_OR_OTHER||LSMean Difference|-331.975|STANDARD_ERROR_OF_MEAN|296.375||0.2639|TWO_SIDED|95.0|-916.015|252.064||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||252.064|-916.015|0.2639
82468562|NCT02085161|164633505|SUPERIORITY_OR_OTHER||LSMean Difference|161.072|STANDARD_ERROR_OF_MEAN|293.506||0.5837|TWO_SIDED|95.0|-417.314|739.459||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||739.459|-417.314|0.5837
82546418|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at 96 Weeks.||||<0.0001
82546419|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 144.||||<0.0001
82546420|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 192.||||<0.0001
82546421|NCT00393484|164792472|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparisons were based on 2-sided t-test for treatment difference (entecavir: lamivudine) estimated from the linear regression model with covariants of treatment and Baseline hepatitis B DNA by PCR.|unpaired t-test|||Changes from Baseline were based on patients with measurements at both Baseline and at Week 240.||||<0.0001
82546422|NCT00393484|164792474|SUPERIORITY_OR_OTHER||Difference|18.97||||0.0278|TWO_SIDED|90.0|5.22|32.73|||Chi-squared||At 24 Weeks|||32.73|5.22|0.0278
82546423|NCT00393484|164792474|SUPERIORITY_OR_OTHER||Difference|26.34||||0.0014|TWO_SIDED|90.0|13.65|39.03|||Chi-squared||At 48 Weeks|||39.03|13.65|0.0014
82546424|NCT00393484|164792474|SUPERIORITY_OR_OTHER||Difference|35.94|||<|0.0001|TWO_SIDED|90.0|23.35|48.52|||Chi-squared||At 96 Weeks|||48.52|23.35|<0.0001
82546425|NCT00393484|164792480|SUPERIORITY_OR_OTHER||Difference|33.71|||<|0.0001|TWO_SIDED|90.0|22.52|44.89|||Chi-squared||At 48 Weeks|||44.89|22.52|<0.0001
82546426|NCT00393484|164792480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.21|||<|0.0001|TWO_SIDED|90.0|34.8|57.61|||Chi-squared||At 96 Weeks|||57.61|34.80|<0.0001
82546427|NCT00393484|164792480|SUPERIORITY_OR_OTHER||Difference|33.48||||0.0003|TWO_SIDED|90.0|19.31|47.65|||Chi-squared||At 144 Weeks|||47.65|19.31|0.0003
82546428|NCT00393484|164792480|SUPERIORITY_OR_OTHER||Difference|44.64|||<|0.0001|TWO_SIDED|90.0|31.17|58.11|||Chi-squared||At 192 Weeks|||58.11|31.17|<0.0001
82546429|NCT00393484|164792480|SUPERIORITY_OR_OTHER||Difference|52.23|||<|0.0001|TWO_SIDED|90.0|39.54|64.93|||Chi-squared||At 240 Weeks|||64.93|39.54|<0.0001
82546430|NCT00393484|164792481|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||Viral rebound at 96 weeks||||<0.0001
82546431|NCT00879060|164792486|OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable PINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||1.0
82546432|NCT00879060|164792486|OTHER||Mean Difference (Final Values)|0.2||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable PIIINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||0.8
82546433|NCT00879060|164792486|OTHER||Mean Difference (Final Values)|0.3||||0.3|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.aseline.|t-test, 2 sided|||A two-sample T-test was used to compare continuous variable ICTP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups at baseline.||||0.3
82546434|NCT00879060|164792486|OTHER||Absolute difference|0.0||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable PINP (serum marker of collagen formation/degradation) between spironolactone treated and placebo groups.||||1.0
82376862|NCT04856930|164460569|SUPERIORITY||Risk Difference (RD)|5.3|||||TWO_SIDED|90.0|-13.3|23.4|||||Estimate parameter and 90% CI was based on Unadjusted Risk Difference and exact unconditional confidence intervals (CI).|||23.4|-13.3|
82546435|NCT00879060|164792487|OTHER||Absolute difference|1.2||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable peak oxygen consumption with exercise (peak VO2) between spironolactone treated and placebo groups.||||0.7
82546436|NCT00879060|164792488|OTHER||Absolute difference|0.0||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable New York Heart Association (NYHA) Functional Class between spironolactone treated and placebo groups.||||0.8
82546437|NCT00879060|164792489|OTHER||Absolute difference|1.4||||1|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable Septal E/e' between spironolactone treated and placebo groups.||||1.0
82546438|NCT00879060|164792490|OTHER||Absolute difference|0.2||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable percentage of left ventricular mass (%LV) between spironolactone treated and placebo groups.||||0.7
82546439|NCT00879060|164792491|OTHER||Absolute difference|0.9||||0.4|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable maximum left ventricular wall thickness (Max LV) between spironolactone treated and placebo groups.||||0.4
82546440|NCT00879060|164792492|OTHER||Absolute difference|5.7||||0.7|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable left ventricular end-diastolic (LVED) cavity size between spironolactone treated and placebo groups.||||0.7
82468563|NCT02085161|164633505|SUPERIORITY_OR_OTHER||LSMean Difference|-524.926|STANDARD_ERROR_OF_MEAN|296.802||0.0783|TWO_SIDED|95.0|-1109.806|59.954||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||59.954|-1109.806|0.0783
82468564|NCT02085161|164633505|SUPERIORITY_OR_OTHER||LSMean Difference|-493.048|STANDARD_ERROR_OF_MEAN|289.566||0.09|TWO_SIDED|95.0|-1063.67|77.575||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||77.575|-1063.670|0.0900
82468565|NCT02085161|164633505|SUPERIORITY_OR_OTHER||LSMean Difference|685.998|STANDARD_ERROR_OF_MEAN|289.435||0.0186|TWO_SIDED|95.0|115.635|1256.362||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||1256.362|115.635|0.0186
82468566|NCT02085161|164633506|SUPERIORITY_OR_OTHER||LSMean Difference|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.5186|TWO_SIDED|95.0|-0.01|0.005||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.005|-0.010|0.5186
82468567|NCT02085161|164633506|SUPERIORITY_OR_OTHER||LSMean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.004||0.6436|TWO_SIDED|95.0|-0.006|0.009||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.009|-0.006|0.6436
82468568|NCT02085161|164633506|SUPERIORITY_OR_OTHER||LSMean Difference|-0.006|STANDARD_ERROR_OF_MEAN|0.004||0.1081|TWO_SIDED|95.0|-0.014|0.001||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.001|-0.014|0.1081
82468569|NCT02085161|164633506|SUPERIORITY_OR_OTHER||LSMean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.004||0.2612|TWO_SIDED|95.0|-0.011|0.003||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.003|-0.011|0.2612
82468570|NCT02085161|164633506|SUPERIORITY_OR_OTHER||LSMean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.004||0.0361|TWO_SIDED|95.0|0.001|0.015||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.015|0.001|0.0361
82468571|NCT02085161|164633507|SUPERIORITY_OR_OTHER||LSMean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.056||0.1727|TWO_SIDED|95.0|-0.034|0.187||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.187|-0.034|0.1727
82468572|NCT02085161|164633507|SUPERIORITY_OR_OTHER||LSMean Difference|0.143|STANDARD_ERROR_OF_MEAN|0.055||0.0097|TWO_SIDED|95.0|0.035|0.252||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.252|0.035|0.0097
82468573|NCT02085161|164633507|SUPERIORITY_OR_OTHER||LSMean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.056||0.7815|TWO_SIDED|95.0|-0.095|0.126||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.126|-0.095|0.7815
82468574|NCT02085161|164633507|SUPERIORITY_OR_OTHER||LSMean Difference|-0.067|STANDARD_ERROR_OF_MEAN|0.054||0.2183|TWO_SIDED|95.0|-0.174|0.04||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.040|-0.174|0.2183
82468575|NCT02085161|164633507|SUPERIORITY_OR_OTHER||LSMean Difference|0.128|STANDARD_ERROR_OF_MEAN|0.055||0.0203|TWO_SIDED|95.0|0.02|0.236||An ANCOVA model with categorical effects of treatment and baseline as covariate.|ANCOVA||The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.236|0.020|0.0203
82468576|NCT02085161|164633508|SUPERIORITY_OR_OTHER||Treatment ratio|1.333|STANDARD_ERROR_OF_MEAN|0.142||0.0077|TWO_SIDED|95.0|1.08|1.645||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM).|||1.645|1.080|0.0077
82468577|NCT02085161|164633508|SUPERIORITY_OR_OTHER||Treatment ratio|1.244|STANDARD_ERROR_OF_MEAN|0.131||0.039|TWO_SIDED|95.0|1.011|1.53||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM).|||1.530|1.011|0.0390
82468578|NCT02085161|164633508|SUPERIORITY_OR_OTHER||Treatment ratio|1.051|STANDARD_ERROR_OF_MEAN|0.113||0.6452|TWO_SIDED|95.0|0.85|1.299||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM).|||1.299|0.850|0.6452
82546441|NCT00879060|164792493|OTHER||Absolute difference|0.1||||0.8|TWO_SIDED|||||An a priori threshold for statistical significance was determined at an alpha level of 0.05.|t-test, 2 sided|||A two-sample T-test was used to compare the absolute differences in change from baseline to 12 months in continuous variable left atrial dimension between spironolactone treated and placebo groups.||||0.8
82376863|NCT04856930|164460569|SUPERIORITY||Risk Difference (RD)|3.3|||||TWO_SIDED|90.0|-14.6|21.0|||||Estimate parameter and 90% C was based on Unadjusted Risk Difference and exact unconditional CIs.|||21.0|-14.6|
82546442|NCT00780234|164792494|OTHER||Regression model parameter (α1)|-0.4|STANDARD_ERROR_OF_MEAN|0.63||0.53|TWO_SIDED|95.0|-1.68|0.89|||Regression, Linear|The estimates of treatment effect were adjusted for baseline histology values.||"The hypotheses tested were:~H0: α1 = 0 vs H1: α1 \~= 0"|The hypothesis test was a 2-sided t-test of the effect of group (i.e. the difference between the pioglitazone and placebo groups). The general form of the model is Y = α0 + α1GROUP + α2BASELINE. Y represents the 6-month value of the dependent variable (summary of the histology), GROUP represents a classification variable for the treatment group (1=pioglitazone, 2=placebo), BASELINE represents the value of the outcome measure at baseline, and α0, α1 and α2 represent the parameter estimates from the general linear model. The test of the difference between groups will be the formal test of significance of the α1 parameter.|0.89|-1.68|0.53
82468579|NCT02085161|164633508|SUPERIORITY_OR_OTHER||Treatment ratio|1.071|STANDARD_ERROR_OF_MEAN|0.111||0.5048|TWO_SIDED|95.0|0.874|1.313||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM.|||1.313|0.874|0.5048
82546443|NCT00212134|164792505|SUPERIORITY|||||||0.19|||||||Wilcoxon (Mann-Whitney)|||||||0.19
82468580|NCT02085161|164633508|SUPERIORITY_OR_OTHER||Treatment ratio|1.184|STANDARD_ERROR_OF_MEAN|0.123||0.1066|TWO_SIDED|95.0|0.964|1.453||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|Mean and 95% confidence limits were transformed from log10 back to the original scale. SE was back transformed using the delta method.|Ratio of means calculated as back transformation of difference on log 10 scale between Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM.|||1.453|0.964|0.1066
82468581|NCT02085161|164633509|SUPERIORITY_OR_OTHER||LSMean Difference|0.329|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.255|0.403||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.403|0.255|<0.0001
82468582|NCT02085161|164633509|SUPERIORITY_OR_OTHER||LSMean Difference|0.356|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.282|0.429||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.429|0.282|<0.0001
82468583|NCT02085161|164633509|SUPERIORITY_OR_OTHER||LSMean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.099|0.249||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.249|0.099|<0.0001
82500026|NCT02730455|164690676|SUPERIORITY||Adjusted Mean Difference|-7.7||||0.106|TWO_SIDED|95.0|-16.97|1.64|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.64|-16.97|0.106
82546444|NCT00212134|164792506|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82546445|NCT00212134|164792507|OTHER|||||||0.82|||||||Chi-squared|||||||0.82
82546446|NCT00212134|164792508|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
82546447|NCT00212134|164792509|SUPERIORITY|||||||0.008|||||||Fisher Exact|||||||0.008
82546448|NCT00212134|164792510|SUPERIORITY||Mean Difference (Final Values)|15.7|||<|0.05|TWO_SIDED||||||t-test, 2 sided|||ITT analyses comparing parents of children randomized to receive an IOL to those left aphakic.||||<0.05
82546449|NCT00212134|164792512|SUPERIORITY||Mean Difference (Final Values)|7.295|||>|0.05|TWO_SIDED||||||t-test, 2 sided|||ITT comparison of mean PSI scores||||>0.05
82500027|NCT02730455|164690676|SUPERIORITY||Adjusted Mean Difference|-6.1||||0.202|TWO_SIDED|95.0|-15.43|3.27|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||3.27|-15.43|0.202
82500028|NCT02730455|164690677|SUPERIORITY||Adjusted Mean Difference|-0.3||||0.78|TWO_SIDED|95.0|-2.64|1.99|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.99|-2.64|0.780
82500029|NCT02730455|164690677|SUPERIORITY||Adjusted Mean Difference|-0.6||||0.622|TWO_SIDED|95.0|-2.89|1.73|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.73|-2.89|0.622
82500030|NCT02730455|164690678|SUPERIORITY||Adjusted Mean Difference|1.2||||0.315|TWO_SIDED|95.0|-1.1|3.4|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||3.40|-1.10|0.315
82468584|NCT02085161|164633509|SUPERIORITY_OR_OTHER||LSMean Difference|-0.027|STANDARD_ERROR_OF_MEAN|0.037||0.4677|TWO_SIDED|95.0|-0.099|0.045||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.045|-0.099|0.4677
82468585|NCT02085161|164633509|SUPERIORITY_OR_OTHER||LSMean Difference|0.182|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.109|0.255||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.255|0.109|<0.0001
82468586|NCT02085161|164633510|SUPERIORITY_OR_OTHER||LSMean Difference|0.478|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|0.35|0.606||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.606|0.350|<0.0001
82468587|NCT02085161|164633510|SUPERIORITY_OR_OTHER||LSMean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|0.403|0.657||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.657|0.403|<0.0001
82468588|NCT02085161|164633510|SUPERIORITY_OR_OTHER||LSMean Difference|0.286|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.157|0.415||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.415|0.157|<0.0001
82468589|NCT02085161|164633510|SUPERIORITY_OR_OTHER||LSMean Difference|-0.052|STANDARD_ERROR_OF_MEAN|0.063||0.4107|TWO_SIDED|95.0|-0.176|0.072||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.072|-0.176|0.4107
82468590|NCT02085161|164633510|SUPERIORITY_OR_OTHER||LSMean Difference|0.244|STANDARD_ERROR_OF_MEAN|0.064||0.0002|TWO_SIDED|95.0|0.119|0.37||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.370|0.119|0.0002
82468591|NCT02085161|164633511|SUPERIORITY_OR_OTHER||LSMean Difference|0.318|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|0.179|0.457||Mixed effect Model Repeat Measurement (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Placebo with behavioural modification (BM)|||0.457|0.179|<0.0001
82468592|NCT02085161|164633511|SUPERIORITY_OR_OTHER||LSMean Difference|0.302|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|0.165|0.439||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Placebo with behavioural modification (BM)|||0.439|0.165|<0.0001
82468593|NCT02085161|164633511|SUPERIORITY_OR_OTHER||LSMean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.071||0.0145|TWO_SIDED|95.0|0.035|0.314||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium (Tio) 5 micro-grams (μg) with BM minus Placebo with behavioural modification (BM)|||0.314|0.035|0.0145
82468594|NCT02085161|164633511|SUPERIORITY_OR_OTHER||LSMean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.068||0.815|TWO_SIDED|95.0|-0.118|0.151||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tio+Olo (5/5 μg) FDC with exercise training (ET) and BM minus Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM|||0.151|-0.118|0.8150
82546450|NCT01976312|164792517|SUPERIORITY_OR_OTHER||||||<|0.001|ONE_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82546451|NCT03010631|164792526|SUPERIORITY||Ratio of Geometric LS Means|1.441|||||TWO_SIDED|90.0|1.166|1.782||||||||1.782|1.166|
82546452|NCT03010631|164792527|SUPERIORITY||Ratio of Geometric LS Means|2.045|||||TWO_SIDED|90.0|1.615|2.589||||||||2.589|1.615|
82546453|NCT03010631|164792528|OTHER||Ratio of Geometric LS Means|0.888|||||TWO_SIDED|90.0|0.675|1.168||||||||1.168|0.675|
82468595|NCT02085161|164633511|SUPERIORITY_OR_OTHER||LSMean Difference|0.128|STANDARD_ERROR_OF_MEAN|0.069||0.0642|TWO_SIDED|95.0|-0.008|0.263||MMRM model including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect|Mixed Models Analysis|Compound symmetry covariance structure for within-patient variation and Kenward-Roger approximation of denominator degrees of freedom|The LSMean Difference is calculated as Tiotropium + olodaterol (Olo) (5/5 μg) FDC with BM minus Tiotropium (Tio) 5 micro-grams (μg) with BM|||0.263|-0.008|0.0642
82468596|NCT03537404|164633518|OTHER||Geometric Mean Ratio|0.02|||||TWO_SIDED|90.0|-0.103|0.142|||||Cmax parameters were logarithmically transformed|||0.142|-0.103|
82468597|NCT03537404|164633518|OTHER||Geometric Mean Ratio|-0.022|||||TWO_SIDED|90.0|-0.22|0.175|||||Cmax parameters were logarithmically transformed|||0.175|-0.220|
82468598|NCT03537404|164633519|OTHER||Geometric Mean Ratio|0.041|||||TWO_SIDED|90.0|-0.075|0.157|||||AUCtau parameters were logarithmically transformed.|||0.157|-0.075|
82468599|NCT03537404|164633519|OTHER||Geometric Mean Ratio|-0.069|||||TWO_SIDED|90.0|-0.201|0.064|||||AUCtau parameters were logarithmically transformed|||0.064|-0.201|
82468600|NCT03537404|164633520|OTHER||Geometric Mean Ratio|0.271|||||TWO_SIDED|90.0|0.159|0.383|||||Cmax parameters were logarithmically transformed|||0.383|0.159|
82468601|NCT03537404|164633521|OTHER||Geometric Mean Ratio|0.074|||||TWO_SIDED|90.0|0.016|0.132|||||AUCtau parameters were logarithmically transformed|||0.132|0.016|
82468602|NCT03537404|164633522|OTHER||Geometric Mean Ratio|-0.148|||||TWO_SIDED|90.0|-0.45|0.153|||||Cmax parameters were logarithmically transformed|||0.153|-0.450|
82468603|NCT03537404|164633523|OTHER||Geometric Mean Ratio|-0.093|||||TWO_SIDED|90.0|-0.354|0.168|||||AUCtau parameters were logarithmically transformed|||0.168|-0.354|
82468604|NCT02930824|164633543|SUPERIORITY|We will test the hypothesis that CYP2C19 rapid metabolizers or ultra rapid metabolizers (1 or 2 gain-of-function alleles) in the genotype-supported arm have better gastroesophageal reflux disease and symptom control than CYP2C19 rapid metabolizers or ultra rapid metabolizers in the conventional treatment group because they will have their dose increased based on their genotype.||||||0.78||||||Analysis was done of adult patients enrolled that have a CYP2C19 Rapid or Ultra-rapid metabolizer result.|t-test, 2 sided|||We will test the hypothesis that CYP2C19 rapid metabolizers or ultra rapid metabolizers (1 or 2 gain-of-function alleles) in the genotype-supported arm have better gastroesophageal reflux disease and symptom control than CYP2C19 rapid metabolizers or ultra rapid metabolizers in the conventional treatment group because they will have their dose increased based on their genotype.||||0.78
82468605|NCT02930824|164633544|SUPERIORITY|||||||0.031||||||Adjusted for baseline score, race, baseline proton pump inhibitor use, baseline histamine receptor antagonist use. A sensitivity analysis of participants only on omeprazole revealed similar findings.|Wilcoxon (Mann-Whitney)|Adjusted these end points for covariates, including the baseline score, race, and baseline medications using logistic regression||||||0.031
82468606|NCT02930824|164633545|SUPERIORITY||Hazard Ratio (HR)|2.42||||0.07|TWO_SIDED|95.0|0.9|6.3||unadjusted|Log Rank|||||6.3|0.9|0.07
82468607|NCT02930824|164633546|SUPERIORITY|||||||0.97||||||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.|Wilcoxon (Mann-Whitney)|||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.||||0.97
82468608|NCT02930824|164633547|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||If a participant did not complete a follow-up questionnaire during their third to fifth week of proton pump inhibitor therapy, their questionnaire results were excluded from the analyses.||||0.83
82468609|NCT02494323|164633569|SUPERIORITY_OR_OTHER||||||<|0.01||||||P value is adjusted for the comparison of subjects who benefited, were satisfied and willing to continue using the Segmented Electrodes versus subjects who didn't benefit, wern't satisfied ans were not willing to continue using the Segmented Eletrode|t-test, 1 sided|||||||<0.01
82468610|NCT01744977|164633597|NON_INFERIORITY_OR_EQUIVALENCE|With an assumed adherence proportion in the Control arm of 0.50, there is 80% power to detect a difference between Control and the intervention arms of 17% or more with 125 patients in each arm.||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.300
82468611|NCT01744977|164633598|NON_INFERIORITY_OR_EQUIVALENCE|With an assumed adherence proportion in the Control arm of 0.50, there is 80% power to detect a difference between Control and the intervention arms of 17% or more with 125 patients in each arm.|Mean Difference (Final Values)|-0.7||||0.839|TWO_SIDED|95.0|-8.0|6.5||As measured at 12m|Mixed Models Analysis||This value summarizes the full 12 month period so Mean Difference (Final Values) is appropriate.|||6.5|-8.0|0.839
82468612|NCT00912808|164633610|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||t-test, 2 sided|||Means and standard deviations were calculated to describe the subject baseline characteristics. Paired t-tests evaluated the difference between baseline and end of treatment frequency of falls. Changes post-treatment from baseline in secondary measures were also compared between the donepezil and placebo phases with paired t-tests or Wilcoxon signed rank tests when data was nonparametric. SPSS was used for the analysis.||||0.049
82468613|NCT00912808|164633611|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||t-test, 2 sided|||Means and standard deviations were calculated to describe the subject baseline characteristics. Paired t-tests evaluated the difference between baseline and end of treatment frequency of falls. Changes post-treatment from baseline in secondary measures were also compared between the donepezil and placebo phases with paired t-tests or Wilcoxon signed rank tests when data was nonparametric. SPSS was used for the analysis.||||0.27
82468614|NCT00728689|164633633|SUPERIORITY_OR_OTHER|||||||0.4591|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. A parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms.||||0.4591
82546454|NCT03010631|164792529|OTHER||Ratio of Geometric LS Means|0.413|||||TWO_SIDED|90.0|0.339|0.502||||||||0.502|0.339|
82546455|NCT00774852|164792535|SUPERIORITY_OR_OTHER|||||||0.85|||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.85
82546456|NCT00774852|164792536|SUPERIORITY_OR_OTHER|||||||0.99|||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.99
82546457|NCT00774852|164792537|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.54
82546458|NCT00774852|164792537|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.72
82468615|NCT00728689|164633634|SUPERIORITY_OR_OTHER|||||||0.0048|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, AUC0-τ was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0048
82468616|NCT00728689|164633635|SUPERIORITY_OR_OTHER|||||||0.0997|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, AUC0-∞ was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0997
82468617|NCT00728689|164633636|SUPERIORITY_OR_OTHER|||||||0.0422|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. Firstly, a parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms. Secondly, Cmax was analyzed on a log scale, to assess bioequivalence between Form I and Form V.||||0.0422
82468618|NCT00728689|164633637|SUPERIORITY_OR_OTHER|||||||0.8581|||||||ANOVA|||A sample size of 12 subjects was chosen to provide a statistical power of 80% to detect a 25% difference of the Form V mean between the Form I and Form V doses at the 0.05 level (2-sided) for this crossover design. A parametric (normal theory) general linear model was applied and an ANOVA for a 2-way crossover design was employed to examine the differences among the 2 forms.||||0.8581
82468619|NCT01055197|164633649|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.2103|TWO_SIDED|95.0|0.82|2.53|||Log Rank|||The null hypothesis (H0) was that PCI + RT is not effective versus the alternative hypothesis (H1) that PCI + RT is effective. Assumptions were that PCI alone would have hazard rate λc of 1.204 and PCI + RT a hazard rate λc of 0.799 (hazard ratio λt/λc = 0.663). At each planned analysis, the p-value from the log-rank test statistic assessing overall survival was compared to the nominal significance level. The final targeted accrual was 154.||2.53|0.82|0.2103
82468620|NCT01055197|164633650|SUPERIORITY|||||||0.24|||||||Fisher Exact|2-sided significance level of 0.05||||||0.24
82468621|NCT01055197|164633652|SUPERIORITY|||||||0.0102|||||||Log Rank|2-sided significance level of 0.05||||||0.0102
82468622|NCT05567783|164633668|SUPERIORITY||Relative risk reduction (RRR, %)|15.85||||0.5552|TWO_SIDED|95.0|-49.27|52.56||two-sided, alpha=0.05|Poisson regression|Estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model|RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group was the only factor in the model|||52.56|-49.27|0.5552
82468623|NCT05567783|164633668|SUPERIORITY||Relative risk reduction (RRR, %)|3.78|||||TWO_SIDED|95.0|-67.23|44.63|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||44.63|-67.23|
82468624|NCT05567783|164633676|SUPERIORITY||Relative risk reduction (RRR, %)|57.23|||||TWO_SIDED|95.0|-2.51|82.15|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95%CI are nominal and not adjusted for multiple comparisons.|||82.15|-2.51|
82468625|NCT05567783|164633676|SUPERIORITY||Relative risk reduction (RRR, %)|11.45|||||TWO_SIDED|95.0|-76.25|55.51|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||55.51|-76.25|
82468626|NCT05567783|164633677|SUPERIORITY||Relative risk reduction (RRR, %)|44.13|||||TWO_SIDED|95.0|-50.49|79.26|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95%CI are nominal and not adjusted for multiple comparisons.|||79.26|-50.49|
82468627|NCT05567783|164633677|SUPERIORITY||Relative risk reduction (RRR, %)|-9.8|||||TWO_SIDED|95.0|-147.41|51.27|||||RRR and 95% CI estimated using Poisson regression of multiple imputed data with treatment group the only factor in the model; 95% CI are nominal and not adjusted for multiple comparisons.|||51.27|-147.41|
82468628|NCT00001959|164633686|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||H0: GFR Decrease during baseline period and treatment period are same||||<0.01
82468629|NCT00001959|164633687|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Kruskal-Wallis|||H0: Proteinuria during baseline and treatment periods are same||||0.16
82468630|NCT03592186|164633714|SUPERIORITY|In zero-inflated distributions, two outcomes can be specified: 1) probability of being an excess zero (falling outside expected negative binomial distribution), and 2) count value, if not an excess zero. Our focal effect of interest was Time\*Condition in the count distribution, i.e. effect of condition over time on predicting the percent of days used greater than zero.|Risk Ratio (RR)|1.15|STANDARD_ERROR_OF_MEAN|2.57||0.12|TWO_SIDED|95.0|0.97|1.36|||Mixed Models Analysis|||Mixed models with zero-inflated distributions evaluated whether there was a Time\*Condition interaction, using data from the baseline, 12-week, and 24-week assessments. Full maximum likelihood estimation was used. We tested the primary outcome (percent of days of use over the past 90 days, adjusted for time in a controlled environment) for overall number of days of use.||1.36|.97|.12
82468631|NCT03592186|164633715|SUPERIORITY||Risk Ratio (RR)|-0.1|STANDARD_ERROR_OF_MEAN|0.34||0.19|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|||Mixed models using a linear distribution evaluated whether change in substance-related problems differed by condition. The focal effect was a Time\*Condition interaction, using data from the baseline, 12-week, and 24-week assessments. Full maximum likelihood estimation was used.||.07|-.34|.19
82468632|NCT03592186|164633716|SUPERIORITY||Chi-square value|0.01||||0.92|TWO_SIDED||||||Chi-squared|||Comparison of the count of positive urine screens by condition at 12 weeks||||.92
82468633|NCT00307801|164633723|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||inverting 2 one-sided tests|||||||< 0.0001
82468634|NCT04266717|164633777|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82468635|NCT00632229|164633801|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||To evaluate between-group continuous outcomes of the pilot controlled trial, ANCOVAs were performed, where 8-week outcome scores were predicted by treatment condition while covarying for baseline scores.||||<0.05
82546459|NCT00774852|164792538|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-square test||||||0.54
82468636|NCT00632229|164633802|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|||To evaluate between-group continuous outcomes of the pilot controlled trial, ANCOVAs were performed, where 8-week outcome scores were predicted by treatment condition while covarying for baseline scores.||||<0.05
82468637|NCT05452486|164633818|EQUIVALENCE|The purpose of this study was to evaluate whether the mean performance on auditory processing assessments differed depending on whether the tests were administered in Spanish or English.|Slope|-3.89|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Dichotic digits comparison||||<0.01
82468638|NCT05452486|164633818|EQUIVALENCE|The purpose of this study was to evaluate whether the mean performance on auditory processing assessments differed depending on whether the tests were administered in Spanish or English.|Slope|5.18||||0.69|TWO_SIDED||||||Mixed Models Analysis|||Dichotic words comparison||||0.69
82468639|NCT04825678|164633819|OTHER||Least squares mean (LSM)|40.72|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|36.05|45.39||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline monthly migraine days (MMD), and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||45.39|36.05|< 0.001
82468640|NCT04825678|164633819|OTHER||LSM|30.84|STANDARD_ERROR_OF_MEAN|14.53||0.058|TWO_SIDED|95.0|-1.3|62.98||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||62.98|-1.30|0.058
82468641|NCT04825678|164633820|OTHER||LSM|37.87|STANDARD_ERROR_OF_MEAN|4.62|<|0.001|TWO_SIDED|95.0|28.62|47.12||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||47.12|28.62|< 0.001
82468642|NCT04825678|164633820|OTHER||LSM|43.25|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|38.06|48.44||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes Baseline TSQM overall satisfaction scale score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.||48.44|38.06|< 0.001
82468643|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.9|STANDARD_ERROR_OF_MEAN|2.28|<|0.001|TWO_SIDED|95.0|-49.39|-40.41||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Physical Function Domain||-40.41|-49.39|< 0.001
82468644|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-54.15|STANDARD_ERROR_OF_MEAN|8.43|<|0.001|TWO_SIDED|95.0|-73.43|-34.86||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Physical Function Domain||-34.86|-73.43|< 0.001
82468645|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed baseline MMD, and selected baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.35|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-48.26|-40.44||P-value is nominal to compare the mean change from baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Usual Activities Domain||-40.44|-48.26|< 0.001
82468646|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-43.8|STANDARD_ERROR_OF_MEAN|4.47|<|0.001|TWO_SIDED|95.0|-53.51|-34.08||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Usual Activities Domain||-34.08|-53.51|< 0.001
82468647|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-44.39|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-48.65|-40.14||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Social Function Domain||-40.14|-48.65|< 0.001
82468648|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-45.03|STANDARD_ERROR_OF_MEAN|6.97|<|0.001|TWO_SIDED|95.0|-60.28|-29.79||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Social Function Domain||-29.79|-60.28|< 0.001
82500031|NCT02730455|164690678|SUPERIORITY||Adjusted Mean Difference|-0.7||||0.542|TWO_SIDED|95.0|-2.96|1.56|||Mixed-effects model for repeated measure|||Treatment and treatment by visit interaction were included in the model as explanatory variables. Baseline NIHSS category (score 5-15, 16-23), tPA use (yes/no), age (\<60, 60-69, 70-80), thrombectomy (yes/no), region (Spain, UK/Germany, USA) and treatment window were considered as covariates. An unstructured variance-covariance matrix was used in the model.||1.56|-2.96|0.542
82468649|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-45.5|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-50.29|-40.7||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Continued SoC: Emotional Function Domain||-40.70|-50.29|< 0.001
82579452|NCT01262677|164869405|SUPERIORITY||LS Mean Difference|-0.16||||0.4109|TWO_SIDED|95.0|-0.53|0.22||Statistical testing was done at alpha = 0.05 level, two-sided.|GLM|||A generalized linear model accounting for treatment and geographical region as fixed effects and baseline seizure frequency as a covariate was used to calculate the p-value. This generalized linear model assumed that the SGTC seizure frequency was from a Poisson distribution with a canonical log link function.||0.22|-0.53|0.4109
82579453|NCT01262677|164869406|SUPERIORITY||LS Mean Difference|-1.38||||0.8268|TWO_SIDED|95.0|-12.97|11.75||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||11.75|-12.97|0.8268
82579454|NCT01262677|164869406|SUPERIORITY||LS Mean Difference|0.75||||0.9024|TWO_SIDED|95.0|-10.69|13.66||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||13.66|-10.69|0.9024
82579455|NCT01262677|164869407|SUPERIORITY|||||||0.67||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) wtih percentage of responders summarized by treatment group was used to calculate the p-value.||||0.670
82579456|NCT01262677|164869407|SUPERIORITY|||||||0.927||||||Statistical testing was done at alpha = 0.05 level, two-sided.|Cochran-Mantel-Haenszel|||A 2-sided Cochran-Mantel-Haenszel test stratified by geographical region (U.S., Europe, Asia, or Rest of the World) wtih percentage of responders summarized by treatment group was used to calculate the p-value.||||0.927
82468650|NCT04825678|164633829|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-60.06|STANDARD_ERROR_OF_MEAN|10.98|<|0.001|TWO_SIDED|95.0|-85.16|-34.96||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||Discontinued SoC: Emotional Function Domain||-34.96|-85.16|< 0.001
82500032|NCT02730455|164690681|SUPERIORITY|||||||0.028|||||||Cochran-Armitage trend test|||"mRS: The Cochran-Armitage trend test of a monotonically increasing dose response in proportion of excellent outcome.~Dose levels are log transformed."||||0.028
82500033|NCT02730455|164690681|SUPERIORITY|||||||0.049|||||||Cochran-Armitage trend test|||BI: The Cochran-Armitage trend test of a monotonically increasing dose response in proportion of excellent outcome. Dose levels are log transformed.||||0.049
82500034|NCT02480439|164690682|SUPERIORITY_OR_OTHER||Point Estimate|0.966|||||TWO_SIDED|90.0|0.8747|1.0668|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0668|0.8747|
82500035|NCT02480439|164690682|SUPERIORITY_OR_OTHER||Point Estimate|0.9223|||||TWO_SIDED|90.0|0.8352|1.0185|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0185|0.8352|
82500036|NCT02480439|164690683|SUPERIORITY_OR_OTHER||Point Estimate|0.9998|||||TWO_SIDED|90.0|0.954|1.0477|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0477|0.9540|
82500037|NCT02480439|164690683|SUPERIORITY_OR_OTHER||Point Estimate|1.0149|||||TWO_SIDED|90.0|0.9685|1.0636|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0636|0.9685|
82500038|NCT02480439|164690684|SUPERIORITY_OR_OTHER||Point Estimate|0.9992|||||TWO_SIDED|90.0|0.9541|1.0464|||||Relative Bioavailability A/B. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0464|0.9541|
82500039|NCT02480439|164690684|SUPERIORITY_OR_OTHER||Point Estimate|1.0134|||||TWO_SIDED|90.0|0.9676|1.0612|||||Relative Bioavailability B/C. The point estimates and 90% CIs were obtained from the exponentiated results of the analysis of the natural logarithm-transformed data.|||1.0612|0.9676|
82500040|NCT00748033|164690688|OTHER|||||||0.065|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.0650
82500041|NCT00748033|164690689|OTHER|||||||0.2487|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.2487
82500042|NCT00748033|164690690|OTHER|||||||0.7288|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.7288
82500043|NCT00748033|164690691|OTHER|||||||0.0045|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test, two-sided. Testing the hypothesis that the perception is same.||||0.0045
82500044|NCT00748033|164690692|OTHER|||||||0.4561|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||Testing the hypothesis that 5s and 24 h are equal at insertion.||||0.4561
82500045|NCT00748033|164690693|OTHER|||||||0.1797|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||Testing the hypothesis that 5s and 24 h are equal at withdrawal.||||0.1797
82500046|NCT00748033|164690694|OTHER|||||||0.5171|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test if the difference between 5s and 24h is equal to 0.||The mean perception of the 5s and the 24h catheter is calculated for each patient. The patients are then divided in two groups depending on the order the patients received the two catheters and the hypotheses that the mean of the 5s and the 24h catheter is equal in the two groups are tested. If the test results in a significant p-value it can be concluded that a carry-over effect is present.||||0.5171
82468651|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-34.38|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-41.72|-27.03||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Physical Function Domain||-27.03|-41.72|< 0.001
82468652|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-49.56|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|95.0|-54.44|-44.69||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Physical Function Domain||-44.69|-54.44|< 0.001
82468653|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed baseline MMD, and selected baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-35.76|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-41.47|-30.06||P-value is nominal to compare the mean change from baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Usual Activities Domain||-30.06|-41.47|< 0.001
82468654|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-46.7|STANDARD_ERROR_OF_MEAN|2.23|<|0.001|TWO_SIDED|95.0|-51.1|-42.29||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Usual Activities Domain||-42.29|-51.10|< 0.001
82468655|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-36.42|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-42.89|-29.96||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Social Function Domain||-29.96|-42.89|< 0.001
82468656|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-46.73|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-51.49|-41.98||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Social Function Domain||-41.98|-51.49|< 0.001
82468657|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-41.44|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-49.47|-33.4||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||EM: Emotional Function Domain||-33.40|-49.47|< 0.001
82468658|NCT04825678|164633830|OTHER|Adjusted analysis utilizes a generalized linear mixed model which includes Baseline function domain score, visit, the prevailing erenumab dose from Week 12 onwards, observed Baseline MMD, and selected Baseline characteristics as covariates and assumes a first-order auto regression covariance structure.|LSM|-47.67|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-52.95|-42.39||P-value is nominal to compare the mean change from Baseline at Week 24 to zero.|Mixed Models Analysis|||CM: Emotional Function Domain||-42.39|-52.95|< 0.001
82468659|NCT00911170|164633831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.014|TWO_SIDED|95.0|0.19|0.86|||Cochran-Mantel-Haenszel|The p-value is adjusted for the randomization stratification factors (chemotherapy regimen, geographic region, disease stage).|Odds ratio adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|The primary hypothesis was that the percentage of participants treated with study chemotherapy and bevacizumab who experience grade 3/4 febrile neutropenia (FN) would be lower in participants randomized to the pegfilgrastim arm compared to placebo arm. The study was designed to have at least 90% power at the 2-sided 0.05 significance level to detect a 6% difference in incidence of grade 3/4 FN from 9% to 3%, which is approximately a 66.7% relative reduction.||0.86|0.19|0.014
82468660|NCT00911170|164633832|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.704|TWO_SIDED|95.0|0.81|1.36|||Log Rank|P-values based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.36|0.81|0.704
82468661|NCT00911170|164633833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.552|TWO_SIDED|95.0|0.88|1.26|||Log Rank|P-values are based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.26|0.88|0.552
82468662|NCT00911170|164633834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.502|TWO_SIDED|95.0|0.88|1.29|||Log Rank|P-values are based on the log-rank test statistic from the Kaplan-Meier survival analysis stratified by the 3 randomization factors.|Based on Cox proportional Hazard model stratified by chemotherapy regimen, region and disease status. A HR\< 1.0 indicates a lower average event rate and a longer survival time for the pegfilgrastim arm relative to the placebo arm.|||1.29|0.88|0.502
82546460|NCT00774852|164792543|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-squared test||Comparison of Participants across groups who had negative anti-dsDNA at Week 104. Baseline is defined as the last measurement taken on or prior to the first day of dosing. Analysis is performed on participants with available data.||||>0.99
82546461|NCT00774852|164792544|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Two-sided Pearson's chi-squared test||Comparison of Participants across groups who had negative anti-dsDNA at Week 104. Baseline is defined as the last measurement taken on or prior to the first day of dosing. Analysis is performed on participants with available data.||||>0.99
82546462|NCT00774852|164792546|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with renal flare||||0.23
82546463|NCT00774852|164792546|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with renal flare||||0.61
82546464|NCT00774852|164792546|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with at least one non-renal flare||||>0.99
82546465|NCT00774852|164792546|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups with at least one non-renal flare||||>0.99
82546466|NCT00774852|164792551|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|||||P-value compares actual values between experimental and control groups at Week 52 and is derived from two-sided t-test from and ANCOVA model that adjusts for baseline values.|ANCOVA|||||||0.79
82546467|NCT00774852|164792551|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||P-value compares actual values between experimental and control groups at Week 52 and is derived from two-sided t-test from and ANCOVA model that adjusts for baseline values.|ANCOVA|||||||0.74
82546468|NCT00774852|164792552|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups for Pneumococcal vaccines||||0.43
82546469|NCT00774852|164792552|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Chi-squared|Pearson's||Comparison of groups for Tetanus Toxoid vaccines||||0.99
82546470|NCT02807779|164792553|SUPERIORITY|||||||0.22||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||"Power calculations were performed based on an expected reproducibility variance of 8% and an effect size of 7% was assumed based on data from pilot studies. It was estimated that 22 subjects/treatment assignment were needed to detect a 7% difference in PWV at a power level of 80%. Assigning a 20% attrition rate due to loss to follow up or index lesion revascularization, the goal enrollment was 27 subjects per arm.~No subjects in the plain balloon angioplasty group had MRI data for analysis."||||0.22
82546471|NCT02807779|164792554|SUPERIORITY|||||||0.64||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||0.64
82579457|NCT01262677|164869408|SUPERIORITY||LS Mean Difference|2.28||||0.8034|TWO_SIDED|95.0|-14.37|22.15||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||22.15|-14.37|0.8034
82546472|NCT02807779|164792555|SUPERIORITY|||||||0.95||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had complete MCP-1 data for analysis.||||0.95
82546473|NCT02807779|164792556|SUPERIORITY|||||||0.88||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had complete CRP data for analysis.||||0.88
82546474|NCT02807779|164792558|SUPERIORITY|||||||0.055||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||.055
82546475|NCT02807779|164792559|SUPERIORITY|||||||0.22||||||Threshold for statistical significance was p=0.05.|t-test, 2 sided|||No subjects in the plain balloon angioplasty group had MRI data for analysis.||||.22
82546476|NCT02807779|164792560|SUPERIORITY|||||||0.81||||||Threshold for statistical significance was p=0.05.|Fisher Exact|||||||0.81
82546477|NCT04310735|164792580|OTHER|Independent-samples t-tests were conducted to compare the mean contrast of parameter estimate (COPE) values, derived from the contrast of smoking-related versus neutral cue activation, between the Expect-Yes and Expect-No groups in the ventromedial prefrontal cortex region of interest.||||||0.13||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||0.13
82546478|NCT04310735|164792580|OTHER|Independent-samples t-tests were conducted to compare the mean contrast of parameter estimate (COPE) values, derived from the contrast of smoking-related versus neutral cue activation, between the Expect-Yes and Expect-No groups in the dorsal anterior cingulate cortex region of interest.||||||0.25||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||.25
82546479|NCT04310735|164792581|OTHER|Independent-samples t-tests were conducted to compare mean valence values during smoking-related cues between the Expect-Yes and Expect-No groups.||||||0.8|||||||t-test, 2 sided|Statistical significance was defined a priori as p\<0.05.||The null hypothesis was that there is no difference in the population means of the two groups.||||.80
82546480|NCT04310735|164792581|OTHER|Independent-samples t-tests were conducted to compare mean valence values during neutral cues between the Expect-Yes and Expect-No groups.||||||0.87||||||Statistical significance was defined a priori as p\<0.05.|t-test, 2 sided|||The null hypothesis was that there is no difference in the population means of the two groups.||||.87
82546481|NCT03398200|164792589|SUPERIORITY|||||||0.89|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.89
82546482|NCT03398200|164792590|SUPERIORITY|||||||0.03|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.03
82546483|NCT03398200|164792591|SUPERIORITY|||||||0.35|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.35
82546484|NCT03398200|164792592|SUPERIORITY|||||||0.77|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.77
82546485|NCT03398200|164792593|SUPERIORITY|||||||0.5|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.50
82546486|NCT03398200|164792594|SUPERIORITY|||||||0.76|||||||Regression, Cox|1- degree of freedom (1-df) likelihood ratio test (LRT) in a cell dose stratified Cox model||||||0.76
82650576|NCT00291330|165016375|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.622||95.0|-1.0|1.7|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with VTE or death at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.70|-1.00|0.6220
82650577|NCT00291330|165016375|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9844||95.0|0.69|1.46|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.46|0.69|0.9844
82650578|NCT00291330|165016376|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.2||||0.6466||95.0|-1.1|0.7|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with symptomatic DVT at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.70|-1.10|0.6466
82650579|NCT00291330|165016376|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.385||95.0|0.4|1.42|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.42|0.40|0.3850
82650580|NCT00291330|165016377|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|0.3||||0.2981||95.0|-0.3|1.0|||Kaplan Meier weighted estimates|||Risk difference vs. Warfarin for Proportion of patients with symptomatic non-fatal PE at 6 months. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||1.00|-0.30|0.2981
82650581|NCT00291330|165016377|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.0||||0.1092||95.0|0.86|4.68|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||4.68|0.86|0.1092
82650582|NCT00291330|165016378|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.3||||0.5327||95.0|-1.2|0.6|||Kaplan Meier weighted estimates|||Risk difference at 6 months vs. Warfarin for Proportion of patients who died due to VTE . Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.60|-1.20|0.5327
82650583|NCT00291330|165016378|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33||||0.3332||95.0|0.03|3.15|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||3.15|0.03|0.3332
82650584|NCT00291330|165016379|SUPERIORITY_OR_OTHER||Risk Difference (Percentage)|-0.1||||0.8018||95.0|-1.0|0.8|||Kaplan Meier weighted estimates|||Risk difference at 6 months vs. Warfarin for Proportion of patients who died from any cause. Point estimate and 95% CI for the overall risk difference obtained based on the Kaplan Meier (KM) estimates at 6 months (180 days) after adjusting for the stratification factors active cancer at baseline and symptomatic PE at baseline.||0.80|-1.00|0.8018
82579458|NCT01262677|164869408|SUPERIORITY||LS Mean Difference|-10.78||||0.1905|TWO_SIDED|95.0|-24.81|5.87||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA||Value is percent reduction in seizures relative to placebo.|ANCOVA model with the following fixed terms was used to calculate the p-value: loge (baseline 28-day seizure rate + 1) as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.87|-24.81|0.1905
82650585|NCT00291330|165016379|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8203||95.0|0.54|1.63|||Regression, Cox|Patients without events are censored at the end of post treatment period (day 224)||Hazard ratio vs. Warfarin (events occurring between randomisation and end of post treatment period). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.63|0.54|0.8203
82650586|NCT00291330|165016380|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.5063||95.0|0.45|1.48|||Regression, Cox|||Hazard ratio vs. Warfarin for the category major bleeding events (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||1.48|0.45|0.5063
82650587|NCT00291330|165016380|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.0002|TWO_SIDED|95.0|0.59|0.85|||Regression, Cox|||Hazard ratio vs. Warfarin for the category of any bleeding events (events occurring between 1st intake of study drug and last intake of study drug + 6 days). The time to first occurrence of the endpoint was compared between treatment groups using the Cox proportional hazards (PH) model, including the factors treatment, active cancer at baseline, symptomatic PE at baseline, and the interaction between active cancer and symptomatic PE.||0.85|0.59|0.0002
82468663|NCT00911170|164633835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.683|TWO_SIDED|95.0|0.81|1.39|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \> 1.0 indicates a higher event rate for the pegfilgrastim arm relative to the placebo arm.|||1.39|0.81|0.683
82468664|NCT00911170|164633836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.312||95.0|0.29|1.49|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||1.49|0.29|0.312
82468665|NCT00911170|164633837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.18|||<|0.001||95.0|0.1|0.32|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||0.32|0.10|<.001
82468666|NCT00911170|164633838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27|||<|0.001|TWO_SIDED|95.0|0.13|0.56|||Cochran-Mantel-Haenszel|The p-value is from the Cochran Mantel Haenszel (CMH) test adjusting for the randomization stratification factors.|Odds ratio (OR) adjusted for the randomization stratification factors. An OR \< 1.0 indicates a lower event rate for the pegfilgrastim arm relative to the placebo arm.|||0.56|0.13|<.001
82468667|NCT02066181|164633957|SUPERIORITY||Hazard Ratio (HR)|11.3|||<|0.001|ONE_SIDED|95.0|5.7||||Log Rank||||||5.7|<0.001
82468668|NCT05764785|164633976|SUPERIORITY|||||||0.182||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.182
82468669|NCT05764785|164633977|SUPERIORITY|||||||0.461||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.461
82468670|NCT05764785|164633978|SUPERIORITY|||||||0.228||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.228
82546487|NCT04605198|164792603|SUPERIORITY|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.|Mean Difference (Net)|-0.58||||0.846|TWO_SIDED|95.0|-6.46|5.29|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|||5.29|-6.46|.846
82468671|NCT05764785|164633979|SUPERIORITY|||||||0.295||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.295
82468672|NCT05764785|164633980|SUPERIORITY|||||||0.915||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.915
82468673|NCT05764785|164633981|SUPERIORITY|||||||0.226||||||Assumption of Sphericity was violated and Greenhouse-Geisser was above .75, thus Huynh-Feldt correction was used.|Mixed ANOVA|||||||.226
82468674|NCT02141295|164633982|OTHER||Hazard Ratio (HR)|0.91|||=|0.6753|TWO_SIDED|95.0|0.6|1.39||log-rank|Regression, Cox|||Kaplan-Meier methods were used to estimate median PFS for each treatment arm and the 95% CIs for median PFS were computed using the Brookmeyer and Crowley method. The stratified Cox proportional hazard was used to estimate the hazard ratio (i.e., the magnitude of the treatment effect) and the corresponding 95% confidence interval. The stratification factors are number of metastatic sites (1 vs. \>1) and country/region (USA vs rest of the world).||1.39|0.60|= 0.6753
82468675|NCT02141295|164633985|OTHER||Hazard Ratio (HR)|0.85|||=|0.574|TWO_SIDED|95.0|0.49|1.49|||Log Rank|||Kaplan-Meier methods were used to estimate median OS for each treatment arm and the 95% CIs for median OS were computed using the Brookmeyer and Crowley method. The stratified Cox proportional hazard was used to estimate the hazard ratio (i.e., the magnitude of the treatment effect) and the corresponding 95% confidence interval. The stratification factors are number of metastatic sites (1 vs. \>1) and country/region (USA vs rest of the world).||1.49|0.49|= 0.5740
82468676|NCT01389596|164634000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.092||0.2577|TWO_SIDED|95.0|-0.29|0.08|||ANCOVA|||Linear Model With Log transformed baseline seizure rate as continuous covariate and geographic regions, treatment groups and weight as fixed effects.||0.08|-0.29|0.2577
82468677|NCT01389596|164634000|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.094||0.0185|TWO_SIDED|95.0|-0.41|-0.04|||ANCOVA|||Linear Model With Log transformed baseline seizure rate as continuous covariate and geographic regions, treatment groups and weight as fixed effects.||-0.04|-0.41|0.0185
82468678|NCT01389596|164634001|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.036||||0.8024|TWO_SIDED|95.0|0.528|2.03|||Regression, Logistic|||P-values were from a Logistic Regression Model including fixed effects for treatment, weight group, and geographical region.||2.030|0.528|0.8024
82468679|NCT01389596|164634001|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.636||||0.0092|TWO_SIDED|95.0|0.851|3.147|||Regression, Logistic|||P-values were from a Logistic Regression Model including fixed effects for treatment, weight group, and geographical region.||3.147|0.851|0.0092
82468680|NCT03819114|164634070|EQUIVALENCE|Confidence Interval (CI) on Geometric Mean Ratio compared to reference interval (0.7, 1.43).|Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.81|1.2|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.20|0.81|
82468681|NCT03819114|164634070|EQUIVALENCE|Confidence Interval on Geometric Mean Ratio compared to reference interval (0.7, 1.43).|Geometric Mean Ratio|1.34|||||TWO_SIDED|90.0|1.12|1.6|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.60|1.12|
82468682|NCT03819114|164634070|SUPERIORITY|Confidence Interval on Geometric Mean Ratio excluding 1.|Geometric Mean Ratio|1.66|||||TWO_SIDED|90.0|1.27|2.18|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.18|1.27|
82468683|NCT03819114|164634070|SUPERIORITY|Confidence Interval on Geometric Mean Ratio excluding 1.|Geometric Mean Ratio|0.59|||||TWO_SIDED|90.0|0.45|0.78|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.78|0.45|
82468684|NCT03819114|164634071|SUPERIORITY|||||||1||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Fisher Exact|||||||1.00
82468685|NCT03819114|164634072|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.17|||||TWO_SIDED|90.0|0.96|1.41|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.41|0.96|
82468686|NCT03819114|164634072|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.43|||||TWO_SIDED|90.0|1.21|1.69|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.69|1.21|
82468687|NCT03819114|164634072|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.51|||||TWO_SIDED|90.0|1.17|1.96|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.96|1.17|
82468688|NCT03819114|164634072|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.77|||||TWO_SIDED|90.0|0.6|1.0|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.00|0.60|
82468689|NCT03819114|164634073|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.37|||||TWO_SIDED|90.0|0.22|0.61|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.61|0.22|
82468690|NCT03819114|164634073|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.25|||||TWO_SIDED|90.0|0.15|0.44|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.44|0.15|
82468691|NCT03819114|164634073|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.11|||||TWO_SIDED|90.0|1.2|3.7|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||3.70|1.20|
82468692|NCT03819114|164634073|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.17|||||TWO_SIDED|90.0|0.09|0.32|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.32|0.09|
82468693|NCT03819114|164634074|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|4.03|||||TWO_SIDED|90.0|3.17|5.12|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||5.12|3.17|
82579459|NCT01262677|164869409|SUPERIORITY||LS Mean Difference|-0.3||||0.465|TWO_SIDED|95.0|-1.1|0.5||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-A baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.5|-1.1|0.4650
82579460|NCT01262677|164869409|SUPERIORITY||LS Mean Difference|0.0||||0.9692|TWO_SIDED|95.0|-0.8|0.8||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-A baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.8|-0.8|0.9692
82468694|NCT03819114|164634074|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.92|||||TWO_SIDED|90.0|2.33|3.65|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||3.65|2.33|
82468695|NCT03819114|164634074|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.82|1.52|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.52|0.82|
82468696|NCT03819114|164634074|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|3.62|||||TWO_SIDED|90.0|2.65|4.93|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||4.93|2.65|
82468697|NCT03819114|164634075|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|2.1|||||TWO_SIDED|90.0|1.66|2.65|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.65|1.66|
82468698|NCT03819114|164634075|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.11|||||TWO_SIDED|90.0|0.89|1.39|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.39|0.89|
82468699|NCT03819114|164634075|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.2|||||TWO_SIDED|90.0|0.87|1.66|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.66|0.87|
82468700|NCT03819114|164634075|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.75|||||TWO_SIDED|90.0|1.24|2.45|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.45|1.24|
82468701|NCT03819114|164634076|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.52|||||TWO_SIDED|90.0|0.46|0.59|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.59|0.46|
82468702|NCT03819114|164634076|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.38|||||TWO_SIDED|90.0|0.34|0.43|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.43|0.34|
82468703|NCT03819114|164634076|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.25|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.25|0.93|
82468704|NCT03819114|164634076|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.48|||||TWO_SIDED|90.0|0.41|0.56|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.56|0.41|
82468705|NCT03819114|164634078|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.75|||||TWO_SIDED|90.0|0.6|0.93|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.93|0.60|
82468706|NCT03819114|164634078|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.1|||||TWO_SIDED|90.0|0.9|1.36|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.36|0.90|
82468707|NCT03819114|164634078|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.74|||||TWO_SIDED|90.0|1.29|2.33|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.33|1.29|
82468708|NCT03819114|164634078|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.43|||||TWO_SIDED|90.0|0.32|0.58|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.58|0.32|
82546488|NCT04605198|164792604|SUPERIORITY||Mean Difference (Net)|-1.88||||0.139|TWO_SIDED|95.0|-4.36|0.6|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||0.60|-4.36|.139
82546489|NCT04605198|164792605|SUPERIORITY||Mean Difference (Net)|-0.12||||0.222|TWO_SIDED|95.0|-1.21|0.97|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||0.97|-1.21|.222
82546490|NCT04605198|164792606|SUPERIORITY||Odds Ratio, log|-1.76||||0.166|TWO_SIDED|95.0|-4.26|0.73|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed using a logit distribution. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was included as a fixed-effect. An independent covariance pattern was specified. Final models were random-intercept only.||0.73|-4.26|0.166
82468709|NCT03819114|164634079|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.62|||||TWO_SIDED|90.0|0.49|0.78|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.78|0.49|
82546491|NCT04605198|164792607|SUPERIORITY||Mean Difference (Net)|-0.52||||0.737|TWO_SIDED|95.0|-3.57|2.53|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||2.53|-3.57|.737
82468710|NCT03819114|164634079|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.71|1.1|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||1.10|0.71|
82468711|NCT03819114|164634079|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.77|||||TWO_SIDED|90.0|1.31|2.4|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.40|1.31|
82468712|NCT03819114|164634079|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.35|||||TWO_SIDED|90.0|0.26|0.47|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.47|0.26|
82468713|NCT03819114|164634080|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.5|||||TWO_SIDED|90.0|0.39|0.63|||||The ratios of the geometric means (group B / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.63|0.39|
82468714|NCT03819114|164634080|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.69|||||TWO_SIDED|90.0|0.55|0.86|||||The ratios of the geometric means (group D / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.86|0.55|
82650588|NCT02629965|165016391|SUPERIORITY||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.019|<|0.001|TWO_SIDED|95.0|0.077|0.153|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.153|0.077|<0.001
82650589|NCT02629965|165016392|SUPERIORITY||Mean Difference (Final Values)|4.168|STANDARD_ERROR_OF_MEAN|5.26||0.4291|TWO_SIDED|95.0|-6.211|14.548|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|14.548|-6.211|0.4291
82650590|NCT02629965|165016393|SUPERIORITY||Mean Difference (Final Values)|9.501|STANDARD_ERROR_OF_MEAN|83.704||0.9098|TWO_SIDED|95.0|-155.692|174.694|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|174.694|-155.692|0.9098
82650591|NCT02629965|165016394|SUPERIORITY||Mean Difference (Final Values)|-0.292|STANDARD_ERROR_OF_MEAN|0.469||0.5338|TWO_SIDED|95.0|-1.217|0.633|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.633|-1.217|0.5338
82650592|NCT02629965|165016395|SUPERIORITY||Mean Difference (Final Values)|0.939|STANDARD_ERROR_OF_MEAN|1.007||0.3524|TWO_SIDED|95.0|-1.048|2.926|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|2.926|-1.048|0.3524
82650593|NCT02629965|165016396|SUPERIORITY||Mean Difference (Final Values)|2.257|STANDARD_ERROR_OF_MEAN|2.647||0.3949|TWO_SIDED|95.0|-2.966|7.481|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|7.481|-2.966|0.3949
82650594|NCT02629965|165016397|SUPERIORITY||Mean Difference (Final Values)|2.42|STANDARD_ERROR_OF_MEAN|3.543||0.4955|TWO_SIDED|95.0|-4.572|9.411|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|9.411|-4.572|0.4955
82650595|NCT02629965|165016398|SUPERIORITY||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.091|0.176|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.176|0.091|<0.0001
82650596|NCT02629965|165016399|SUPERIORITY||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.009|<|0.0001|TWO_SIDED|95.0|0.088|0.123|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.123|0.088|<0.0001
82650597|NCT02629965|165016400|SUPERIORITY||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.13|0.197|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.197|0.130|<0.0001
82650598|NCT02629965|165016401|SUPERIORITY||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.103|0.162|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.162|0.103|<0.0001
82650599|NCT02629965|165016402|SUPERIORITY||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.1|0.156|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.156|0.100|<0.0001
82468715|NCT03819114|164634080|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|1.8|||||TWO_SIDED|90.0|1.32|2.45|||||The ratios of the geometric means (group B / group A) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||2.45|1.32|
82468716|NCT03819114|164634080|OTHER|No hypothesis testing was performed.|Geometric Mean Ratio|0.28|||||TWO_SIDED|90.0|0.2|0.38|||||The ratios of the geometric means (group A / group C) and its 90% CI were obtained by exponentiating the least squares mean difference and its 90% CI of the natural log-transformed data.|||0.38|0.20|
82468717|NCT03038880|164634109|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-2.1|||||TWO_SIDED|80.0|-6.8|2.6|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|||2.6|-6.8|
82468718|NCT03038880|164634109|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.1|||||TWO_SIDED|80.0|-3.4|5.5|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|||5.5|-3.4|
82468719|NCT03038880|164634110|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-2.09|||||TWO_SIDED|80.0|-6.75|2.56|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||2.56|-6.75|
82468720|NCT03038880|164634110|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.05|||||TWO_SIDED|80.0|-3.4|5.49|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||5.49|-3.40|
82468721|NCT03038880|164634110|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|0.49|||||TWO_SIDED|80.0|-4.26|5.25|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||5.25|-4.26|
82468722|NCT03038880|164634110|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.83|||||TWO_SIDED|80.0|-2.71|6.37|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||6.37|-2.71|
82468723|NCT03038880|164634112|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|4.76|||||TWO_SIDED|80.0|-15.92|25.44|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||25.44|-15.92|
82468724|NCT03038880|164634112|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|5.95|||||TWO_SIDED|80.0|-13.62|25.53|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||25.53|-13.62|
82468725|NCT03038880|164634112|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-4.17|||||TWO_SIDED|80.0|-24.52|16.19|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||16.19|-24.52|
82468726|NCT03038880|164634112|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|8.93|||||TWO_SIDED|80.0|-10.73|28.59|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||28.59|-10.73|
82468727|NCT03038880|164634114|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-4.76|||||TWO_SIDED|80.0|-10.72|1.19|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||1.19|-10.72|
82468728|NCT03038880|164634114|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-3.57|||||TWO_SIDED|80.0|-8.07|0.92|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||0.92|-8.07|
82468729|NCT03038880|164634114|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|0.0|||||||||||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||||
82468730|NCT03038880|164634114|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|-3.57|||||TWO_SIDED|80.0|-8.07|0.92|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||0.92|-8.07|
82468731|NCT03038880|164634115|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|21.9|||||TWO_SIDED|80.0|0.76|43.05|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||43.05|0.76|
82468732|NCT03038880|164634115|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|38.57|||||TWO_SIDED|80.0|19.56|57.59|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||57.59|19.56|
82468733|NCT03038880|164634115|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|19.64|||||TWO_SIDED|80.0|-1.14|40.43|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||40.43|-1.14|
82468734|NCT03038880|164634115|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|33.93|||||TWO_SIDED|80.0|14.95|52.91|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||52.91|14.95|
82468735|NCT03038880|164634116|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|0.0|||||||||||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||||
82468736|NCT03038880|164634116|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|3.57|||||TWO_SIDED|80.0|-0.92|8.07|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||8.07|-0.92|
82468737|NCT03038880|164634116|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|4.76|||||TWO_SIDED|80.0|-1.19|10.72|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||10.72|-1.19|
82468738|NCT03038880|164634116|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Difference in Percentage of Participants|3.57|||||TWO_SIDED|80.0|-0.92|8.07|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||8.07|-0.92|
82468739|NCT03038880|164634117|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|0.45|||||TWO_SIDED|80.0|-29.81|30.71|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||30.71|-29.81|
82468740|NCT03038880|164634117|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|14.68|||||TWO_SIDED|80.0|-14.29|43.65|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||43.65|-14.29|
82468741|NCT03038880|164634117|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-4.85|||||TWO_SIDED|80.0|-30.57|20.87|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||20.87|-30.57|
82468742|NCT03038880|164634117|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|1.12|||||TWO_SIDED|80.0|-23.57|25.8|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||25.80|-23.57|
82468743|NCT03038880|164634118|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-12.23|||||TWO_SIDED|80.0|-36.6|12.15|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q12W vs. Ranibizumab Q4W||12.15|-36.60|
82468744|NCT03038880|164634118|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|4.98|||||TWO_SIDED|80.0|-18.5|28.45|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 40: Faricimab Q16W vs. Ranibizumab Q4W||28.45|-18.50|
82468745|NCT03038880|164634118|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|-8.64|||||TWO_SIDED|80.0|-30.42|13.14|||||The difference was calculated as Faricimab Q12W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q12W vs. Ranibizumab Q4W||13.14|-30.42|
82468746|NCT03038880|164634118|OTHER|The focus of this trial was estimation rather than hypothesis testing.|Mean Difference (Net)|7.36|||||TWO_SIDED|80.0|-13.65|28.37|||||The difference was calculated as Faricimab Q16W arm minus Ranibizumab Q4W arm.|Week 52: Faricimab Q16W vs. Ranibizumab Q4W||28.37|-13.65|
82468747|NCT02633306|164634164|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82650600|NCT02629965|165016403|SUPERIORITY||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.056|0.108|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.108|0.056|<0.0001
82468748|NCT02633306|164634165|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468749|NCT02633306|164634166|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468750|NCT02633306|164634167|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468751|NCT02633306|164634168|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468752|NCT02633306|164634169|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468753|NCT02633306|164634170|OTHER|||||||||||||||||In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|In an exploratory trial with such a small number of participants no statistical analysis beyond descriptive statistics of the findings is appropriate. The descriptive statistics are reported.|||
82468754|NCT01746901|164634225|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|30.5|||<|0.0001|TWO_SIDED|95.0|24.4|36.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.6|24.4|<0.0001
82468755|NCT01746901|164634225|SUPERIORITY_OR_OTHER||LS Mean Difference|7.7||||0.0132|TWO_SIDED|95.0|1.6|13.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.7|1.6|0.0132
82468756|NCT01746901|164634225|SUPERIORITY_OR_OTHER||LS Mean Difference|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.4|9.3|<0.0001
82468757|NCT01746901|164634225|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9|||<|0.0001|TWO_SIDED|95.0|16.8|28.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.9|16.8|<0.0001
82546492|NCT04605198|164792608|SUPERIORITY||Mean Difference (Net)|-2391.98||||0.024|TWO_SIDED|95.0|-4471.46|-312.49|||Mixed Models Analysis||The estimate represents the interaction term for group by time interaction for the immediate follow-up, with the control group coded 0 and the intervention group coded as 1.|A multilevel model was constructed. Participants were entered as random effects to nest observations within participants. Group assignment (i.e., MBSR vs. Health Promotion Control), time (i.e., Time 1 \[baseline\], Time 2 \[immediate post-intervention, primary endpoint\], and Time 3 \[6-month follow-up\]), and group-by-time interactions were entered as fixed effects. Site was also included as a fixed-effect. An independent covariance pattern was specified as final models were random-intercept only.||-312.49|-4471.46|.024
82546493|NCT05656911|164792617|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-5.0|||||TWO_SIDED|95.0|-29.0|18.0|||||Posterior probability is 34.0%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||18.0|-29.0|
82546494|NCT05656911|164792618|OTHER||Mean Difference (Final Values)|11.31||||0.257|TWO_SIDED|95.0|-8.26|30.87||two-sided. No adjustment for multiple comparisons.|ANCOVA||LS mean (%)|The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||30.87|-8.26|0.257
82546495|NCT05656911|164792619|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-27.0|22.1|||||Posterior probability is 41.7%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||22.1|-27.0|
82546496|NCT05656911|164792620|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-4.6|||||TWO_SIDED|95.0|-25.6|13.4|||||Posterior probability is 31.5%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||13.4|-25.6|
82546497|NCT05656911|164792621|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-12.5|||||TWO_SIDED|95.0|-34.1|7.0|||||Posterior probability is 10.8%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||7.0|-34.1|
82546498|NCT05656911|164792622|OTHER||Mean Difference (Final Values)|7.06||||0.166|TWO_SIDED|95.0|-2.92|17.03||two-sided. No adjustment for multiple comparisons.|ANCOVA|||The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||17.03|-2.92|0.166
82546499|NCT05656911|164792623|OTHER|Bayesian analysis according to estimand|Mean Difference (Final Values)|-8.4|||||TWO_SIDED|95.0|-30.4|11.0|||||Posterior probability is 20.5%|Median of posterior distribution of difference between Zabedosertib and Placebo including credible interval. Posterior probability is presented that the responder rate after treatment with zabedosertib is higher than after placebo given the data observed in the study.||11.0|-30.4|
82546500|NCT05656911|164792625|OTHER||Mean Difference (Final Values)|6.68||||0.396|TWO_SIDED|95.0|-8.75|22.11||two-sided. No adjustment for multiple comparisons.|ANCOVA|||The analysis of covariance (ANCOVA) model includes treatment group as fixed effect and the EASI baseline value as covariate.||22.11|-8.75|0.396
82546501|NCT03547908|164792627|NON_INFERIORITY|A sample size of 240 participants randomized in a 1:1 ratio to 2 treatment groups, achieved 90% power to detect a non-inferiority margin of 12% between the 2 treatment groups. For the sample size and power computation, it is assumed that both treatment groups have a response rate of 91% (based on Gilead Studies GS-US-380-1489 and GS-US-380-1490), that the non-inferiority margin is 12%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|4.1|||||TWO_SIDED|95.001|-2.5|10.8|||||The difference in percentages of participants between groups and their 95.001% confidence intervals (CI)s were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||10.8|-2.5|
82546502|NCT03547908|164792627|SUPERIORITY|||||||0.2113|||||||Cochran-Mantel-Haenszel|The p-value was calculated from Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).||||||0.2113
82546503|NCT03547908|164792628|NON_INFERIORITY|A sample size of 240 participants provided 81% power to detect a non-inferiority margin of 12% between the 2 treatment groups. This assumed that both treatment groups have a response rate of 88% (based on Gilead Studies GS-US-320-0108 and GS-US-320-0110), that the non-inferiority margin is 12%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|16.6|||||TWO_SIDED|95.001|5.9|27.3|||||||The difference in percentages of participants with HBV DNA \< 29 IU/mL between treatment groups and its 95.001% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|27.3|5.9|
82546504|NCT03547908|164792628|SUPERIORITY|||||||0.0023|||||||Cochran-Mantel-Haenszel|The p-value was from CMH test stratified by baseline HBeAg status (positive vs negative) and HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).||||||0.0023
82546505|NCT03547908|164792629|SUPERIORITY||Difference in Percentages|-0.3||||0.9427|TWO_SIDED|95.0|-8.9|8.3||P-value for the superiority test comparing the percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups was from the CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|Cochran-Mantel-Haenszel||The difference in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs \> 100,000 copies/mL).|||8.3|-8.9|0.9427
82579461|NCT01262677|164869410|SUPERIORITY||LS Mean Difference|-0.5||||0.2693|TWO_SIDED|95.0|-1.3|0.4||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-D baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.4|-1.3|0.2693
82468758|NCT01746901|164634225|SUPERIORITY_OR_OTHER||LS Mean Difference|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.4|9.3|<0.0001
82468759|NCT01746901|164634225|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||18.5|TWO_SIDED|95.0|12.5|24.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.6|12.5|18.5
82468760|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|49.3|||<|0.0001|TWO_SIDED|95.0|39.2|59.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.5|39.2|<0.0001
82468761|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9994|TWO_SIDED|95.0|-10.1|10.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.1|-10.1|0.9994
82468762|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|22.2|||<|0.0001|TWO_SIDED|95.0|12.1|32.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.4|12.1|<0.0001
82468763|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.0|37.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.3|17.0|<0.0001
82468764|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|23.0|||<|0.0001|TWO_SIDED|95.0|12.8|33.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||33.1|12.8|<0.0001
82468765|NCT01746901|164634226|SUPERIORITY_OR_OTHER||LS Mean Difference|18.2||||0.0005|TWO_SIDED|95.0|8.1|28.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.4|8.1|0.0005
82468766|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|63.2|||<|0.0001|TWO_SIDED|95.0|51.5|74.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||74.9|51.5|<0.0001
82468767|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.0402|TWO_SIDED|95.0|0.6|24.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.1|0.6|0.0402
82468768|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|21.1|44.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||44.7|21.1|<0.0001
82468769|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|42.6|||<|0.0001|TWO_SIDED|95.0|30.9|54.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||54.4|30.9|<0.0001
82468770|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|32.1|||<|0.0001|TWO_SIDED|95.0|20.3|43.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.9|20.3|<0.0001
82468771|NCT01746901|164634227|SUPERIORITY_OR_OTHER||LS Mean Difference|36.3|||<|0.0001|TWO_SIDED|95.0|24.6|48.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.1|24.6|<0.0001
82468772|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|108.0|||<|0.0001|TWO_SIDED|95.0|91.6|124.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||124.5|91.6|<0.0001
82468773|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.4125|TWO_SIDED|95.0|-9.6|23.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.3|-9.6|0.4125
82468774|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|46.1|||<|0.0001|TWO_SIDED|95.0|29.6|62.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||62.5|29.6|<0.0001
82468775|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|68.8|||<|0.0001|TWO_SIDED|95.0|52.4|85.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||85.2|52.4|<0.0001
82468776|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|56.7|||<|0.0001|TWO_SIDED|95.0|40.3|73.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.2|40.3|<0.0001
82468777|NCT01746901|164634228|SUPERIORITY_OR_OTHER||LS Mean Difference|52.6|||<|0.0001|TWO_SIDED|95.0|36.2|69.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||69.0|36.2|<0.0001
82468778|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|32.8|||<|0.0001|TWO_SIDED|95.0|21.8|43.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||43.7|21.8|<0.0001
82468779|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.6434|TWO_SIDED|95.0|-8.4|13.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.5|-8.4|0.6434
82468780|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|9.0||||0.1072|TWO_SIDED|95.0|-2.0|20.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.0|-2.0|0.1072
82468781|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|26.3|||<|0.0001|TWO_SIDED|95.0|15.4|37.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.3|15.4|<0.0001
82468782|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|25.7|||<|0.0001|TWO_SIDED|95.0|14.7|36.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.6|14.7|<0.0001
82468783|NCT01746901|164634229|SUPERIORITY_OR_OTHER||LS Mean Difference|11.9||||0.0335|TWO_SIDED|95.0|0.9|22.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.9|0.9|0.0335
82468784|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|35.0|||<|0.0001|TWO_SIDED|95.0|24.0|46.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.0|24.0|<0.0001
82468785|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.9811|TWO_SIDED|95.0|-11.1|10.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.8|-11.1|0.9811
82468786|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|9.0||||0.1083|TWO_SIDED|95.0|-2.0|19.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.9|-2.0|0.1083
82468787|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|25.9|||<|0.0001|TWO_SIDED|95.0|14.9|36.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.9|14.9|<0.0001
82468788|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2|||<|0.0001|TWO_SIDED|95.0|12.3|34.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.2|12.3|<0.0001
82468789|NCT01746901|164634230|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0408|TWO_SIDED|95.0|0.5|22.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.4|0.5|0.0408
82468790|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|36.9|||<|0.0001|TWO_SIDED|95.0|25.2|48.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.7|25.2|<0.0001
82468791|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2||||0.5968|TWO_SIDED|95.0|-14.9|8.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.6|-14.9|0.5968
82546506|NCT03547908|164792630|OTHER||Difference in least squares mean (LSM)|24.0||||0.1701|TWO_SIDED|95.0|-10.0|58.0|||ANOVA|The p-value was calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|The difference in least squares means and its 95% CI were calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||58|-10|0.1701
82546507|NCT03547908|164792631|OTHER||Difference in Least Squares Means|30.0||||0.1853|TWO_SIDED|95.0|-14.0|74.0||P-value was from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|ANOVA||Difference in least squares means (Diff in LSM), and its 95% CI were from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|||74|-14|0.1853
82546508|NCT03547908|164792632|OTHER||Difference in least squares mean (LSM)|0.59||||0.2839|TWO_SIDED|95.0|-0.49|1.67|||ANOVA|The p-value was calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|The difference in least squares means and its 95% CI were calculated using ANOVA model adjusted by the baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL).|||1.67|-0.49|0.2839
82546509|NCT03547908|164792633|OTHER||Difference in LSM|0.13||||0.8456|TWO_SIDED|95.0|-1.2|1.46||P-value was from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|ANOVA||Difference in LSM and its 95% CI were from ANOVA model adjusted by the baseline HIV-1 RNA stratum (\<= 100,000 vs. \> 100,000 copies/mL).|||1.46|-1.20|0.8456
82468792|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.1471|TWO_SIDED|95.0|-3.1|20.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.4|-3.1|0.1471
82468793|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5||||0.1136|TWO_SIDED|95.0|-2.3|21.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.3|-2.3|0.1136
82468794|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|22.4||||0.0002|TWO_SIDED|95.0|10.6|34.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.2|10.6|0.0002
82468795|NCT01746901|164634231|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5||||0.1136|TWO_SIDED|95.0|-2.3|21.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.3|-2.3|0.1136
82468796|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|28.5|||<|0.0001|TWO_SIDED|95.0|19.6|37.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.4|19.6|<0.0001
82468797|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.6209|TWO_SIDED|95.0|-6.7|11.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.1|-6.7|0.6209
82468798|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|7.5||||0.0997|TWO_SIDED|95.0|-1.4|16.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.3|-1.4|0.0997
82546510|NCT03547908|164792634|SUPERIORITY|P-value for the superiority test comparing the percentages of participants with HBV DNA \< 29 IU/mL between treatment groups was from the CMH test stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|Difference in Percentages|2.6||||0.6367|TWO_SIDED|95.0|-8.3|13.4|||Cochran-Mantel-Haenszel|||The difference in percentages of participants with HBV DNA \< 29 IU/mL between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA category (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).||13.4|-8.3|0.6367
82579462|NCT01262677|164869410|SUPERIORITY||LS Mean Difference|-0.5||||0.1893|TWO_SIDED|95.0|-1.4|0.3||Statistical testing was done at 95% confidence intervals, two-sided, least square means and their standard errors.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: HADS-D baseline score as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR). No adjustments for multiplicity were taken.||0.3|-1.4|0.1893
82650601|NCT02629965|165016404|SUPERIORITY||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.058|0.114|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.114|0.058|<0.0001
82546511|NCT03547908|164792635|OTHER||Difference in Percentages|17.1||||0.0655|TWO_SIDED|95.0|-1.5|35.7|||Cochran-Mantel-Haenszel|P-value was calculated from CMH tests stratified by baseline HBeAg status (positive vs negative) and HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|The difference in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||35.7|-1.5|0.0655
82546512|NCT03547908|164792636|OTHER||Difference in Percentages|14.1||||0.1253|TWO_SIDED|95.0|-4.3|32.6|||Cochran-Mantel-Haenszel|P-value was from the CMH tests stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs \>= 8 log10 IU/mL).|Difference in the proportion between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs \>= 8 log10 IU/mL).|||32.6|-4.3|0.1253
82546513|NCT03547908|164792637|OTHER||Difference in Percentages|7.1||||0.0591|TWO_SIDED|95.0|-0.8|15.0|||Cochran-Mantel-Haenszel|P-value was from the CMH tests stratified by baseline HBeAg status (positive vs negative)and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|Difference in the percentages between treatment groups and its 95% CI were calculated based on the MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||15.0|-0.8|0.0591
82546514|NCT03547908|164792638|OTHER||Difference in Percentages|9.3||||0.0655|TWO_SIDED|95.0|-0.7|19.2||P value was from the CMH test stratified by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL). Statistically significant values are shown in bold.|Cochran-Mantel-Haenszel||Differences in percentages between treatment groups and their 95% CI were calculated based on MH proportions adjusted by baseline HBeAg status (positive vs negative) and baseline HBV DNA (\< 8 log10 IU/mL vs ≥ 8 log10 IU/mL).|||19.2|-0.7|0.0655
82546515|NCT05075408|164792660|SUPERIORITY|Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.|Strata adjusted percentage difference|7.0||||0.3696|TWO_SIDED|97.5|-10.6|24.6||Threshold of significance at 0.025.|Cochran-Mantel-Haenszel|||Nemolizumab 30 mg versus Placebo||24.6|-10.6|0.3696
82546516|NCT05075408|164792660|SUPERIORITY|Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.|Strata adjusted percentage difference|14.5||||0.0686|TWO_SIDED|97.5|-3.1|32.2||Threshold of significance at 0.025.|Cochran-Mantel-Haenszel|||Nemolizumab 60 mg versus Placebo||32.2|-3.1|0.0686
82546517|NCT05075408|164792661|SUPERIORITY||Strata adjusted percentage difference|4.3||||0.5909|TWO_SIDED|97.5|-13.8|22.3|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||22.3|-13.8|0.5909
82546518|NCT05075408|164792661|SUPERIORITY||Strata adjusted percentage difference|12.9||||0.1112|TWO_SIDED|97.5|-5.5|31.4|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||31.4|-5.5|0.1112
82546519|NCT05075408|164792662|SUPERIORITY||Strata adjusted percentage difference|17.3||||0.0034|TWO_SIDED|97.5|4.3|30.4|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||30.4|4.3|0.0034
82546520|NCT05075408|164792662|SUPERIORITY||Strata adjusted percentage difference|17.1||||0.0025|TWO_SIDED|97.5|4.5|29.8|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||29.8|4.5|0.0025
82546521|NCT05075408|164792663|SUPERIORITY||Strata adjusted percentage difference|3.7||||0.5788|TWO_SIDED|97.5|-12.5|19.8|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||19.8|-12.5|0.5788
82546522|NCT05075408|164792663|SUPERIORITY||Strata adjusted percentage difference|16.5||||0.0303|TWO_SIDED|97.5|-0.8|33.9|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||33.9|-0.8|0.0303
82468799|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2|||<|0.0001|TWO_SIDED|95.0|14.4|32.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.1|14.4|<0.0001
82546523|NCT05075408|164792664|SUPERIORITY||Strata adjusted percentage difference|24.2||||0.0006|TWO_SIDED|97.5|8.8|39.6|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||39.6|8.8|0.0006
82546524|NCT05075408|164792664|SUPERIORITY||Strata adjusted percentage difference|20.8||||0.0021|TWO_SIDED|97.5|6.0|35.7|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||35.7|6.0|0.0021
82546525|NCT05075408|164792665|SUPERIORITY||Strata adjusted percentage difference|14.0||||0.0028|TWO_SIDED|97.5|3.8|24.1|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||24.1|3.8|0.0028
82546526|NCT05075408|164792665|SUPERIORITY||Strata adjusted percentage difference|19.0||||0.0003|TWO_SIDED|97.5|7.6|30.5|||Cochran-Mantel-Haenszel|||Analysis was performed using hierarchical testing procedure. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.025.||30.5|7.6|0.0003
82546527|NCT02488863|164792671|OTHER|ANOVA||||||0.0561|||||||ANOVA|||H0: mean(SPPB\_older\_pain) = mean(SPPB\_older\_no pain) = mean(SPPB\_younger)||||0.0561
82546528|NCT01704079|164792690|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82546529|NCT01704079|164792691|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82546530|NCT01704079|164792692|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82546531|NCT01704079|164792693|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82546532|NCT06459401|164792735|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.131|TWO_SIDED|95.0|-0.01|0.07||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.525|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.07|-0.01|0.131
82546533|NCT06459401|164792736|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|0.35||0.001|TWO_SIDED|95.0|0.99|2.56||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.623|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.56|0.99|0.001
82546534|NCT06459401|164792737|OTHER|Single group test of difference.|Mean Difference (Final Values)|3.32|STANDARD_ERROR_OF_MEAN|1.14||0.017|TWO_SIDED|95.0|0.75|5.89||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.923|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||5.89|0.75|0.017
82546535|NCT06459401|164792738|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.016||0.874|TWO_SIDED|95.0|-0.034|0.039||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.052|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.039|-0.034|0.874
82546536|NCT06459401|164792739|OTHER|Single group test of difference.|Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.36||0.345|TWO_SIDED|95.0|-1.18|0.46||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.315|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.46|-1.18|0.345
82546537|NCT06459401|164792740|OTHER|Single group test of difference.|Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|0.78||0.024|TWO_SIDED|95.0|-3.9|-0.36||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.859|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||-0.36|-3.90|0.024
82546538|NCT06459401|164792741|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.044|TWO_SIDED|95.0|0.0|0.06||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.739|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.06|0.00|0.044
82546539|NCT06459401|164792742|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|0.48||0.017|TWO_SIDED|95.0|0.32|2.5||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.928|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.50|0.32|0.017
82546540|NCT06459401|164792743|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|1.26||0.372|TWO_SIDED|95.0|-1.67|4.04||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.297|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||4.04|-1.67|0.372
82546541|NCT06459401|164792744|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.03||0.001|TWO_SIDED|95.0|0.07|0.2||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.508|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.20|0.07|0.001
82579463|NCT01262677|164869411|SUPERIORITY||LS Mean Difference|-0.8||||0.7347|TWO_SIDED|95.0|-5.2|3.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep disturbance score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.6|-5.2|0.7347
82468800|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|16.6||||0.0003|TWO_SIDED|95.0|7.7|25.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.5|7.7|0.0003
82468801|NCT01746901|164634233|SUPERIORITY_OR_OTHER||LS Mean Difference|13.3||||0.0036|TWO_SIDED|95.0|4.4|22.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.2|4.4|0.0036
82579464|NCT01262677|164869411|SUPERIORITY||LS Mean Difference|0.3||||0.8971|TWO_SIDED|95.0|-4.0|4.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep disturbance score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.6|-4.0|0.8971
82579465|NCT01262677|164869412|SUPERIORITY||LS Mean Difference|-2.7||||0.3972|TWO_SIDED|95.0|-9.1|3.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: snoring score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.6|-9.1|0.3972
82579466|NCT01262677|164869412|SUPERIORITY||LS Mean Difference|6.7||||0.0319|TWO_SIDED|95.0|0.6|12.9||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: snoring score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||12.9|0.6|0.0319
82579467|NCT01262677|164869413|SUPERIORITY||LS Mean Difference|0.8||||0.7708|TWO_SIDED|95.0|-4.4|5.9||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: awaken short of breath or with headache score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.9|-4.4|0.7708
82579468|NCT01262677|164869413|SUPERIORITY||LS Mean Difference|2.4||||0.356|TWO_SIDED|95.0|-2.7|7.4||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: awaken short of breath or with headache score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||7.4|-2.7|0.3560
82579469|NCT01262677|164869414|SUPERIORITY||LS Mean Difference|0.2||||0.1129|TWO_SIDED|95.0|-0.1|0.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: quantity of sleep at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||0.5|-0.1|0.1129
82468802|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|29.9|||<|0.0001|TWO_SIDED|95.0|21.1|38.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.8|21.1|<0.0001
82468803|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4||||0.5951|TWO_SIDED|95.0|-11.2|6.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.4|-11.2|0.5951
82468804|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.0841|TWO_SIDED|95.0|-1.1|16.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.6|-1.1|0.0841
82468805|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|19.8|||<|0.0001|TWO_SIDED|95.0|11.0|28.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.6|11.0|<0.0001
82546542|NCT06459401|164792745|OTHER|Single group test of difference.|Mean Difference (Final Values)|2.24|STANDARD_ERROR_OF_MEAN|0.95||0.043|TWO_SIDED|95.0|0.09|4.39||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.746|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||4.39|0.09|0.043
82546543|NCT06459401|164792746|OTHER|Single group test of difference.|Mean Difference (Final Values)|4.53|STANDARD_ERROR_OF_MEAN|1.9||0.041|TWO_SIDED|95.0|0.22|8.83||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.752|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||8.83|0.22|0.041
82468806|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|14.5||||0.0014|TWO_SIDED|95.0|5.7|23.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.4|5.7|0.0014
82468807|NCT01746901|164634234|SUPERIORITY_OR_OTHER||LS Mean Difference|10.8||||0.0172|TWO_SIDED|95.0|1.9|19.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.6|1.9|0.0172
82468808|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|30.4|||<|0.0001|TWO_SIDED|95.0|21.0|39.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.9|21.0|<0.0001
82468809|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.9||||0.2166|TWO_SIDED|95.0|-15.4|3.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.5|-15.4|0.2166
82468810|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5||||0.0777|TWO_SIDED|95.0|-1.0|18.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-1.0|0.0777
82468811|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|16.0||||0.0011|TWO_SIDED|95.0|6.5|25.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.4|6.5|0.0011
82468812|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|12.7||||0.0086|TWO_SIDED|95.0|3.3|22.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.2|3.3|0.0086
82468813|NCT01746901|164634235|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5||||0.0775|TWO_SIDED|95.0|-0.9|18.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-0.9|0.0775
82468814|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|61.2|||<|0.0001|TWO_SIDED|95.0|48.8|73.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.6|48.8|<0.0001
82468815|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|18.8||||0.0032|TWO_SIDED|95.0|6.4|31.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.2|6.4|0.0032
82468816|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|20.5|45.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|20.5|<0.0001
82468817|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|47.2|||<|0.0001|TWO_SIDED|95.0|34.8|59.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.6|34.8|<0.0001
82468818|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|73.6|||<|0.0001|TWO_SIDED|95.0|61.1|86.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||86.0|61.1|<0.0001
82468819|NCT01746901|164634237|SUPERIORITY_OR_OTHER||LS Mean Difference|38.4|||<|0.0001|TWO_SIDED|95.0|26.0|50.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||50.8|26.0|<0.0001
82468820|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9|||<|0.0001|TWO_SIDED|95.0|36.0|51.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.8|36.0|<0.0001
82468821|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.4154|TWO_SIDED|95.0|-4.6|11.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.2|-4.6|0.4154
82468822|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8|||<|0.0001|TWO_SIDED|95.0|13.9|29.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.7|13.9|<0.0001
82468823|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|25.4|||<|0.0001|TWO_SIDED|95.0|17.5|33.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||33.3|17.5|<0.0001
82468824|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|20.2|||<|0.0001|TWO_SIDED|95.0|12.3|28.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.1|12.3|<0.0001
82468825|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|18.9|||<|0.0001|TWO_SIDED|95.0|11.0|26.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||26.8|11.0|<0.0001
82546544|NCT06459401|164792747|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.04||0.013|TWO_SIDED|95.0|0.03|0.21||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.983|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.21|0.03|0.013
82546545|NCT06459401|164792748|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.61|STANDARD_ERROR_OF_MEAN|0.52||0.012|TWO_SIDED|95.0|0.44|2.78||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.985|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||2.78|0.44|0.012
82468826|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|114.2|||<|0.0001|TWO_SIDED|95.0|97.1|131.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||131.3|97.1|<0.0001
82468827|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.3985|TWO_SIDED|95.0|-9.8|24.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.4|-9.8|0.3985
82468828|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|55.6|||<|0.0001|TWO_SIDED|95.0|38.5|72.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.8|38.5|<0.0001
82468829|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|65.9|||<|0.0001|TWO_SIDED|95.0|48.8|83.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.0|48.8|<0.0001
82468830|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|55.6|||<|0.0001|TWO_SIDED|95.0|38.5|72.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.7|38.5|<0.0001
82468831|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|54.1|||<|0.0001|TWO_SIDED|95.0|37.0|71.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.2|37.0|<0.0001
82468832|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|302.8|||<|0.0001|TWO_SIDED|95.0|248.8|356.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||356.8|248.8|<0.0001
82468833|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|47.8||||0.0824|TWO_SIDED|95.0|-6.2|101.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||101.7|-6.2|0.0824
82468834|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|188.5|||<|0.0001|TWO_SIDED|95.0|134.6|242.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||242.5|134.6|<0.0001
82468835|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|162.0|||<|0.0001|TWO_SIDED|95.0|108.0|216.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||216.0|108.0|<0.0001
82468836|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|141.9|||<|0.0001|TWO_SIDED|95.0|87.9|195.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||195.8|87.9|<0.0001
82468837|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|135.7|||<|0.0001|TWO_SIDED|95.0|81.7|189.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||189.6|81.7|<0.0001
82468838|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|287.6|||<|0.0001|TWO_SIDED|95.0|219.1|356.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||356.1|219.1|<0.0001
82468839|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|101.4||||0.004|TWO_SIDED|95.0|32.9|169.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||169.8|32.9|0.0040
82468840|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|218.5|||<|0.0001|TWO_SIDED|95.0|150.0|287.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||287.0|150.0|<0.0001
82468841|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|170.5|||<|0.0001|TWO_SIDED|95.0|102.0|239.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||239.0|102.0|<0.0001
82468842|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|158.6|||<|0.0001|TWO_SIDED|95.0|90.1|227.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.1|90.1|<0.0001
82468843|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|152.2|||<|0.0001|TWO_SIDED|95.0|83.7|220.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||220.7|83.7|<0.0001
82468844|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|185.9||||0.0002|TWO_SIDED|95.0|90.1|281.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||281.8|90.1|0.0002
82546546|NCT06459401|164792749|OTHER|Single group test of difference.|Mean Difference (Final Values)|4.75|STANDARD_ERROR_OF_MEAN|1.93||0.036|TWO_SIDED|95.0|0.39|9.11||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.779|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||9.11|0.39|0.036
82468845|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|205.0|||<|0.0001|TWO_SIDED|95.0|109.2|300.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||300.8|109.2|<0.0001
82468846|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|221.0|||<|0.0001|TWO_SIDED|95.0|125.2|316.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||316.7|125.2|<0.0001
82468847|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|170.0||||0.0006|TWO_SIDED|95.0|74.1|265.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||265.8|74.1|0.0006
82468848|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|185.7||||0.0002|TWO_SIDED|95.0|89.9|281.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||281.5|89.9|0.0002
82468849|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|144.9||||0.0033|TWO_SIDED|95.0|49.1|240.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||240.8|49.1|0.0033
82468850|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|170.0||||0.0017|TWO_SIDED|95.0|65.2|274.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||274.9|65.2|0.0017
82468851|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|211.4||||0.0001|TWO_SIDED|95.0|106.6|316.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||316.2|106.6|0.0001
82546547|NCT06459401|164792754|OTHER|Single group test of difference.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.54||0.962|TWO_SIDED|95.0|-1.24|1.19||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.015|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||1.19|-1.24|0.962
82546548|NCT06459401|164792755|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.09||0.146|TWO_SIDED|95.0|-0.06|0.35||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.504|Difference = Preferred Timing - Non-Preferred Timing|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.35|-0.06|0.146
82546549|NCT06459401|164792756|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.48|STANDARD_ERROR_OF_MEAN|0.95||0.152|TWO_SIDED|95.0|-0.66|3.63||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.495|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||3.63|-0.66|0.152
82546550|NCT06459401|164792757|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.08||0.153|TWO_SIDED|95.0|-0.06|0.31||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.494|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.31|-0.06|0.153
82546551|NCT06459401|164792758|OTHER|Single group test of difference.|Mean Difference (Final Values)|1.46|STANDARD_ERROR_OF_MEAN|0.94||0.155|TWO_SIDED|95.0|-0.67|3.58||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.491|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||3.58|-0.67|0.155
82546552|NCT06459401|164792759|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|0.11|0.43||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 1.199|Difference = Assisted - Unassisted|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.43|0.11|0.004
82546553|NCT06459401|164792760|OTHER|Single group test of difference.|Mean Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|0.72||0.014|TWO_SIDED|95.0|-3.82|-0.56||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.962|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||-0.56|-3.82|0.014
82546554|NCT06459401|164792761|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.35|TWO_SIDED|95.0|-0.26|0.66||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.312|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.66|-0.26|0.350
82579470|NCT01262677|164869414|SUPERIORITY||LS Mean Difference|0.0||||0.9388|TWO_SIDED|95.0|-0.3|0.3||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: quantity of sleep at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||0.3|-0.3|0.9388
82468852|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|219.2|||<|0.0001|TWO_SIDED|95.0|114.5|324.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||324.0|114.5|<0.0001
82468853|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|162.2||||0.0027|TWO_SIDED|95.0|57.3|267.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||267.0|57.3|0.0027
82546555|NCT06459401|164792762|OTHER|Single group test of difference.|Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.81||0.052|TWO_SIDED|95.0|-3.63|0.02||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = -0.706|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.02|-3.63|0.052
82579471|NCT01262677|164869415|SUPERIORITY||LS Mean Difference|-0.4||||0.9053|TWO_SIDED|95.0|-7.5|6.6||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep adequacy score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||6.6|-7.5|0.9053
82468854|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|185.9||||0.0006|TWO_SIDED|95.0|81.1|290.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||290.7|81.1|0.0006
82468855|NCT01746901|164634238|SUPERIORITY_OR_OTHER||LS Mean Difference|135.5||||0.0116|TWO_SIDED|95.0|30.7|240.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||240.4|30.7|0.0116
82546556|NCT06459401|164792763|OTHER|Single group test of difference.|Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.11||0.221|TWO_SIDED|95.0|-0.1|0.39||alpha = 0.05|t-test, 2 sided|Effect Size (Cohen's D) = 0.416|Difference = Post-Session - Pre-Session|An a priori power analysis (G\*Power 3.1.9.7) determined that a sample size of 10 participants could detect an effect size (Cohen's D) of 1.0 with 80% power and alpha = 0.05.||0.39|-0.10|0.221
82468856|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.3|-1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.5|-4.3|<0.0001
82546557|NCT04110054|164792789|EQUIVALENCE|Placebo (N = 102) vs S-600918 50 mg, 150 mg, 300 mg||||||0.9334||||||P-value was evaluated at the 2-sided alpha level of 0.05.|ANCOVA|||The null hypotheses of equality between the treatment and placebo effects were tested using a mixed model, containing treatment group, week, and interaction between treatment groups and week as fixed effects; participant as random effect; and region and the common logarithm of the frequency of coughs per hour at baseline as covariates. Covariance structure was given as unstructured.||||0.9334
82546558|NCT01000480|164792801|SUPERIORITY_OR_OTHER|||||||0.0645||95.0||||P-value for H0 which compared the investigational regimen to historical data.|maximum likelihood estimate|||Null hypothesis (H0): 1-year PFS ≤45% and the alternative hypothesis (H1): 1-year PFS ≥60%, at a 2-sided alpha level of 5%, assuming that PFS time followed an exponential distribution.||||0.0645
82468857|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8||||0.0001|TWO_SIDED|95.0|1.4|4.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.2|1.4|0.0001
82546559|NCT00632203|164792827|SUPERIORITY_OR_OTHER|||||||0.6995|||||||2-sided Exact Pearson Chi-square Test|||||||0.6995
82546560|NCT02641912|164792834|SUPERIORITY_OR_OTHER||Least sqaure (LS) mean difference|0.63||||0.0084|TWO_SIDED|95.0|0.17|1.1|||ANOVA|From ANOVA model with factors for treatment and confirmed Sjögren's syndrome status stratification using Observed Margins option.|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|||1.10|0.17|0.0084
82546561|NCT04452318|164792866|SUPERIORITY||Odds Ratio (OR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.09|0.332|||Regression, Logistic|||||0.332|0.090|< 0.0001
82546562|NCT04452318|164792867|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.038|TWO_SIDED|95.0|0.298|0.966|||Regression, Logistic|||||0.966|0.298|= 0.0380
82546563|NCT04452318|164792869|SUPERIORITY||Odds Ratio (OR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.069|0.236|||Regression, Logistic|||||0.236|0.069|< 0.0001
82546564|NCT04452318|164792869|SUPERIORITY||Odds Ratio (OR)|0.41|||=|0.0024|TWO_SIDED|95.0|0.228|0.728|||Regression, Logistic|||||0.728|0.228|= 0.0024
82546565|NCT04452318|164792870|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546566|NCT04452318|164792871|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546567|NCT04452318|164792871|SUPERIORITY||||||=|0.001|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0010
82579472|NCT01262677|164869415|SUPERIORITY||LS Mean Difference|-1.6||||0.6371|TWO_SIDED|95.0|-8.5|5.2||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep adequacy score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||5.2|-8.5|0.6371
82579473|NCT01262677|164869416|SUPERIORITY||LS Mean Difference|-6.4||||0.0119|TWO_SIDED|95.0|-11.4|-1.4||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep somnolence score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||-1.4|-11.4|0.0119
82546568|NCT04452318|164792872|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546569|NCT04452318|164792873|SUPERIORITY||Odds Ratio (OR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.208|0.456|||Multiple Imputation, Logistic Regression|||||0.456|0.208|< 0.0001
82546570|NCT04452318|164792875|SUPERIORITY||Odds Ratio (OR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.051|0.286|||Regression, Logistic|||||0.286|0.051|< 0.0001
82546571|NCT04452318|164792876|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546572|NCT04452318|164792877|SUPERIORITY||Odds Ratio (OR)|0.09|||=|0.001|TWO_SIDED|95.0|0.02|0.37|||Regression, Logistic|||||0.370|0.020|= 0.0010
82546573|NCT04452318|164792878|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546574|NCT04452318|164792881|SUPERIORITY||Difference of LS Means|-2.123|STANDARD_ERROR_OF_MEAN|0.295|<|0.0001|TWO_SIDED|95.0|-2.707|-1.539|||ANOVA|||||-1.539|-2.707|< 0.0001
82546575|NCT04452318|164792882|SUPERIORITY||Difference of LS Means|-2.483|STANDARD_ERROR_OF_MEAN|0.342|<|0.0001|TWO_SIDED|95.0|-3.161|-1.806|||ANOVA|||||-1.806|-3.161|< 0.0001
82546576|NCT04452318|164792883|SUPERIORITY||Difference of LS Mean|-2.428|STANDARD_ERROR_OF_MEAN|0.389|<|0.0001|TWO_SIDED|95.0|-3.196|-1.659|||ANOVA|||||-1.659|-3.196|< 0.0001
82546577|NCT04452318|164792884|SUPERIORITY||Difference of LS Mean|-2.441|STANDARD_ERROR_OF_MEAN|0.381|<|0.0001|TWO_SIDED|95.0|-3.194|-1.688|||ANOVA|||||-1.688|-3.194|< 0.0001
82546578|NCT04452318|164792887|OTHER||||||=|0.0621|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.0621
82546579|NCT04452318|164792888|OTHER||||||=|0.0038|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received'||||= 0.0038
82546580|NCT04452318|164792891|SUPERIORITY||||||<|0.0001|||||||Stratified Wilcoxon Rank Sum Test|||||||< 0.0001
82546581|NCT04452318|164792899|SUPERIORITY||||||=|0.0273|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0273
82546582|NCT04452318|164792900|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.046|TWO_SIDED|95.0|0.299|0.989|||Regression, Logistic|||||0.989|0.299|= 0.0460
82546583|NCT04452318|164792901|SUPERIORITY||Odds Ratio (OR)|0.47|||=|0.0721|TWO_SIDED|95.0|0.207|1.07|||Regression, Logistic|||||1.070|0.207|= 0.0721
82546584|NCT04452318|164792902|SUPERIORITY||||||=|0.026|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0260
82546585|NCT04452318|164792903|SUPERIORITY||||||=|0.0614|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0614
82546586|NCT04452318|164792904|SUPERIORITY||LS mean difference|-1.461|STANDARD_ERROR_OF_MEAN|0.337|<|0.0001|TWO_SIDED|95.0|-2.127|-0.795|||ANCOVA|||||-0.795|-2.127|< 0.0001
82546587|NCT04452318|164792905|SUPERIORITY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.279|=|0.0026|TWO_SIDED|95.0|-1.4|-0.3|||ANCOVA|||||-0.300|-1.400|= 0.0026
82546588|NCT04452318|164792906|SUPERIORITY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|-1.321|-0.559|||ANCOVA|||||-0.559|-1.321|< 0.0001
82546589|NCT04452318|164792907|SUPERIORITY||Difference of LS Mean|-26.045|STANDARD_ERROR_OF_MEAN|6.041|<|0.0001|TWO_SIDED|95.0|-37.973|-14.117|||ANCOVA|||||-14.117|-37.973|< 0.0001
82546590|NCT04452318|164792908|SUPERIORITY||Difference of LS Mean|-1.395|STANDARD_ERROR_OF_MEAN|0.338|<|0.0001|TWO_SIDED|95.0|-2.063|-0.727|||ANCOVA|||||-0.727|-2.063|< 0.0001
82546591|NCT04452318|164792909|SUPERIORITY||||||=|0.0138|||||||Stratified Wilcoxon Rank Sum Test|||||||= 0.0138
82468858|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7005|TWO_SIDED|95.0|-1.7|1.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.1|-1.7|0.7005
82468859|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.844|TWO_SIDED|95.0|-1.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-1.3|0.8440
82468860|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.7295|TWO_SIDED|95.0|-1.6|1.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.1|-1.6|0.7295
82468861|NCT01746901|164634239|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.8757|TWO_SIDED|95.0|-1.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-1.3|0.8757
82468862|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|60.1|||<|0.0001|TWO_SIDED|95.0|47.4|72.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||72.9|47.4|<0.0001
82468863|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|12.6||||0.0514|TWO_SIDED|95.0|-0.1|25.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.4|-0.1|0.0514
82468864|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|29.7|||<|0.0001|TWO_SIDED|95.0|17.0|42.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||42.4|17.0|<0.0001
82468865|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|43.0|||<|0.0001|TWO_SIDED|95.0|30.3|55.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||55.8|30.3|<0.0001
82468866|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|33.7|||<|0.0001|TWO_SIDED|95.0|21.0|46.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.4|21.0|<0.0001
82468867|NCT01746901|164634240|SUPERIORITY_OR_OTHER||LS Mean Difference|36.4|||<|0.0001|TWO_SIDED|95.0|23.7|49.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.1|23.7|<0.0001
82468868|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|39.5|||<|0.0001|TWO_SIDED|95.0|31.8|47.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||47.2|31.8|<0.0001
82546592|NCT04452318|164792910|OTHER||||||=|0.0292|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.0292
82468869|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.2739|TWO_SIDED|95.0|-3.4|12.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.0|-3.4|0.2739
82468870|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|16.4|||<|0.0001|TWO_SIDED|95.0|8.7|24.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.1|8.7|<0.0001
82468871|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|27.4|||<|0.0001|TWO_SIDED|95.0|19.7|35.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.0|19.7|<0.0001
82468872|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|20.5|||<|0.0001|TWO_SIDED|95.0|12.8|28.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.2|12.8|<0.0001
82468873|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7|||<|0.0001|TWO_SIDED|95.0|12.0|27.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.4|12.0|<0.0001
82468874|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|104.7|||<|0.0001|TWO_SIDED|95.0|87.7|121.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||121.8|87.7|<0.0001
82468875|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.4003|TWO_SIDED|95.0|-9.8|24.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.3|-9.8|0.4003
82546593|NCT04452318|164792911|OTHER||||||=|0.2466|||||||Fisher Exact|||Testing if there is an association between the observed results and treatment received||||= 0.2466
82546594|NCT04452318|164792912|SUPERIORITY||||||=|0.7861|||||||Stratified Wilcoxon Rank Sum test|||||||= 0.7861
82546595|NCT04452318|164792913|SUPERIORITY||||||=|0.0842|||||||Stratified Wilcoxon Rank Sum test|||||||= 0.0842
82546596|NCT02554786|164792922|SUPERIORITY||Least Square mean (LS Mean)|0.132|STANDARD_ERROR_OF_MEAN|0.0223|<|0.001|TWO_SIDED|95.0|0.088|0.176|||Mixed Model for Repeated Measures (MMRM)|||||0.176|0.088|<0.001
82546597|NCT02554786|164792922|SUPERIORITY||LS Mean|0.211|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.167|0.255|||MMRM|||||0.255|0.167|<0.001
82546598|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.172|STANDARD_ERROR_OF_MEAN|0.0415|<|0.001|TWO_SIDED|95.0|-0.254|-0.091|||MMRM|||Week 4||-0.091|-0.254|<0.001
82546599|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.196|STANDARD_ERROR_OF_MEAN|0.0416|<|0.001|TWO_SIDED|95.0|-0.278|-0.115|||MMRM|||Week 4||-0.115|-0.278|<0.001
82468876|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|43.6|||<|0.0001|TWO_SIDED|95.0|26.6|60.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||60.7|26.6|<0.0001
82468877|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|68.4|||<|0.0001|TWO_SIDED|95.0|51.3|85.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||85.4|51.3|<0.0001
82468878|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|54.3|||<|0.0001|TWO_SIDED|95.0|37.3|71.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.4|37.3|<0.0001
82468879|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|53.0|||<|0.0001|TWO_SIDED|95.0|36.0|70.1|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||70.1|36.0|<0.0001
82468880|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|292.5|||<|0.0001|TWO_SIDED|95.0|240.0|345.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||345.1|240.0|<0.0001
82468881|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|32.2||||0.2277|TWO_SIDED|95.0|-20.3|84.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||84.7|-20.3|0.2277
82468882|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|173.1|||<|0.0001|TWO_SIDED|95.0|120.5|225.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||225.6|120.5|<0.0001
82468883|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|151.7|||<|0.0001|TWO_SIDED|95.0|99.1|204.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||204.2|99.1|<0.0001
82468884|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|129.8|||<|0.0001|TWO_SIDED|95.0|77.2|182.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||182.3|77.2|<0.0001
82468885|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|122.6|||<|0.0001|TWO_SIDED|95.0|70.0|175.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||175.1|70.0|<0.0001
82468886|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|295.3|||<|0.0001|TWO_SIDED|95.0|228.3|362.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||362.2|228.3|<0.0001
82468887|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|69.6||||0.0416|TWO_SIDED|95.0|2.7|136.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||136.5|2.7|0.0416
82468888|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|204.4|||<|0.0001|TWO_SIDED|95.0|137.5|271.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||271.3|137.5|<0.0001
82468889|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|160.5|||<|0.0001|TWO_SIDED|95.0|93.5|227.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.4|93.5|<0.0001
82468890|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|133.0||||0.0001|TWO_SIDED|95.0|66.1|199.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.9|66.1|0.0001
82546600|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.055|STANDARD_ERROR_OF_MEAN|0.0414||0.186|TWO_SIDED|95.0|-0.136|0.026|||MMRM|||Week 4||0.026|-0.136|0.186
82546601|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.184|STANDARD_ERROR_OF_MEAN|0.0294|<|0.001|TWO_SIDED|95.0|-0.242|-0.127|||MMRM|||Week 4: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.127|-0.242|<0.001
82468891|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|140.1|||<|0.0001|TWO_SIDED|95.0|73.1|207.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||207.0|73.1|<0.0001
82468892|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|219.5|||<|0.0001|TWO_SIDED|95.0|127.6|311.3|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||311.3|127.6|<0.0001
82468893|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|145.0||||0.0022|TWO_SIDED|95.0|53.2|236.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||236.8|53.2|0.0022
82468894|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|200.2|||<|0.0001|TWO_SIDED|95.0|108.4|292.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||292.0|108.4|<0.0001
82546602|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.129|STANDARD_ERROR_OF_MEAN|0.0431||0.003|TWO_SIDED|95.0|-0.214|-0.044|||MMRM|||Week 12||-0.044|-0.214|0.003
82546603|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.248|STANDARD_ERROR_OF_MEAN|0.0435|<|0.001|TWO_SIDED|95.0|-0.333|-0.162|||MMRM|||Week 12||-0.162|-0.333|<0.001
82546604|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.052|STANDARD_ERROR_OF_MEAN|0.0431||0.232|TWO_SIDED|95.0|-0.136|0.033|||MMRM|||Week 12||0.033|-0.136|0.232
82579474|NCT01262677|164869416|SUPERIORITY||LS Mean Difference|0.0||||0.9909|TWO_SIDED|95.0|-4.9|4.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep somnolence score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.8|-4.9|0.9909
82468895|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|164.3||||0.0005|TWO_SIDED|95.0|72.4|256.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||256.1|72.4|0.0005
82468896|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|146.6||||0.0019|TWO_SIDED|95.0|54.8|238.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||238.4|54.8|0.0019
82468897|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|132.7||||0.0049|TWO_SIDED|95.0|40.8|224.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||224.5|40.8|0.0049
82468898|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|209.3|||<|0.0001|TWO_SIDED|95.0|108.3|310.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||310.3|108.3|<0.0001
82468899|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|145.7||||0.005|TWO_SIDED|95.0|44.7|246.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.6|44.7|0.0050
82468900|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|200.7||||0.0001|TWO_SIDED|95.0|99.7|301.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||301.6|99.7|0.0001
82468901|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|154.3||||0.003|TWO_SIDED|95.0|53.3|255.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||255.3|53.3|0.0030
82468902|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|146.8||||0.0046|TWO_SIDED|95.0|45.9|247.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||247.8|45.9|0.0046
82468903|NCT01746901|164634241|SUPERIORITY_OR_OTHER||LS Mean Difference|123.3||||0.0171|TWO_SIDED|95.0|22.3|224.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||224.3|22.3|0.0171
82468904|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3||||0.0016|TWO_SIDED|95.0|-3.7|-0.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.9|-3.7|0.0016
82468905|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.0105|TWO_SIDED|95.0|0.4|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|0.4|0.0105
82579475|NCT01262677|164869417|SUPERIORITY||LS Mean Difference|-1.1||||0.5903|TWO_SIDED|95.0|-5.0|2.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index I score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||2.8|-5.0|0.5903
82468906|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7259|TWO_SIDED|95.0|-1.7|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.7|0.7259
82468907|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.7813|TWO_SIDED|95.0|-1.6|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.6|0.7813
82468908|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.5235|TWO_SIDED|95.0|-1.9|1.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.0|-1.9|0.5235
82468909|NCT01746901|164634242|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8512|TWO_SIDED|95.0|-1.6|1.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.3|-1.6|0.8512
82468910|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.0883|TWO_SIDED|95.0|-1.7|23.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.9|-1.7|0.0883
82468911|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0241|TWO_SIDED|95.0|2.0|27.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.6|2.0|0.0241
82468912|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0235|TWO_SIDED|95.0|2.0|27.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.6|2.0|0.0235
82468913|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.0901|TWO_SIDED|95.0|-1.7|23.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.9|-1.7|0.0901
82468914|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|9.8||||0.1313|TWO_SIDED|95.0|-3.0|22.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.6|-3.0|0.1313
82468915|NCT01746901|164634243|SUPERIORITY_OR_OTHER||LS Mean Difference|10.8||||0.0982|TWO_SIDED|95.0|-2.0|23.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.6|-2.0|0.0982
82468916|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0351|TWO_SIDED|95.0|0.2|6.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.3|0.2|0.0351
82546605|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.188|STANDARD_ERROR_OF_MEAN|0.0307|<|0.001|TWO_SIDED|95.0|-0.248|-0.128|||MMRM|||Week 12: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.128|-0.248|<0.001
82546606|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.171|STANDARD_ERROR_OF_MEAN|0.0437|<|0.001|TWO_SIDED|95.0|-0.257|-0.086|||MMRM|||Week 26||-0.086|-0.257|<0.001
82546607|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.248|STANDARD_ERROR_OF_MEAN|0.0439|<|0.001|TWO_SIDED|95.0|-0.334|-0.162|||MMRM|||Week 26||-0.162|-0.334|<0.001
82546608|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.054|STANDARD_ERROR_OF_MEAN|0.0437||0.214|TWO_SIDED|95.0|-0.14|0.031|||MMRM|||Week 26||0.031|-0.140|0.214
82546609|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.209|STANDARD_ERROR_OF_MEAN|0.031|<|0.001|TWO_SIDED|95.0|-0.27|-0.149|||MMRM|||Week 26: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.149|-0.270|<0.001
82546610|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.141|STANDARD_ERROR_OF_MEAN|0.0449||0.002|TWO_SIDED|95.0|-0.229|-0.053|||MMRM|||Week 52||-0.053|-0.229|0.002
82546611|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.266|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|95.0|-0.354|-0.177|||MMRM|||Week 52||-0.177|-0.354|<0.001
82468917|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8751|TWO_SIDED|95.0|-3.3|2.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.8|-3.3|0.8751
82546612|NCT02554786|164792923|SUPERIORITY||LS Mean|0.01|STANDARD_ERROR_OF_MEAN|0.0447||0.824|TWO_SIDED|95.0|-0.078|0.098|||MMRM|||Week 52||0.098|-0.078|0.824
82546613|NCT02554786|164792923|SUPERIORITY||LS Mean|-0.203|STANDARD_ERROR_OF_MEAN|0.0318|<|0.001|TWO_SIDED|95.0|-0.266|-0.141|||MMRM|||Week 52: The comparison of QMF149 vs. MF was based on combined effects of QMF149 150/160 \& 150/320 μg and MF 400 \& 800 μg derived by weighting treatment groups equally.||-0.141|-0.266|<0.001
82546614|NCT02554786|164792924|SUPERIORITY||LS Mean|0.136|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.09|0.183|||MMRM|||||0.183|0.090|<0.001
82546615|NCT02554786|164792924|SUPERIORITY||LS Mean|0.209|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.163|0.255|||MMRM|||||0.255|0.163|<0.001
82546616|NCT02554786|164792924|SUPERIORITY||LS Mean|0.048|STANDARD_ERROR_OF_MEAN|0.0234||0.04|TWO_SIDED|95.0|0.002|0.094|||MMRM|||||0.094|0.002|0.04
82546617|NCT02554786|164792925|SUPERIORITY||LS Mean|0.132|STANDARD_ERROR_OF_MEAN|0.0193|<|0.001|TWO_SIDED|95.0|0.094|0.17|||MMRM|||Day 30||0.170|0.094|<0.001
82546618|NCT02554786|164792925|SUPERIORITY||LS Mean|0.196|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.158|0.234|||MMRM|||Day 30||0.234|0.158|<0.001
82546619|NCT02554786|164792925|SUPERIORITY||LS Mean|0.035|STANDARD_ERROR_OF_MEAN|0.0192||0.064|TWO_SIDED|95.0|-0.002|0.073|||MMRM|||Day 30||0.073|-0.002|0.064
82546620|NCT02554786|164792925|SUPERIORITY||LS Mean|0.122|STANDARD_ERROR_OF_MEAN|0.0201|<|0.001|TWO_SIDED|95.0|0.083|0.162|||MMRM|||Day 86||0.162|0.083|<0.001
82546621|NCT02554786|164792925|SUPERIORITY||LS Mean|0.184|STANDARD_ERROR_OF_MEAN|0.0202|<|0.001|TWO_SIDED|95.0|0.144|0.224|||MMRM|||Day 86||0.224|0.144|<0.001
82546622|NCT02554786|164792925|SUPERIORITY||LS Mean|0.037|STANDARD_ERROR_OF_MEAN|0.02||0.063|TWO_SIDED|95.0|-0.002|0.076|||MMRM|||Day 86||0.076|-0.002|0.063
82546623|NCT02554786|164792926|SUPERIORITY||LS Mean|0.142|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.119|0.164|||MMRM|||Day 1: 5 minutes||0.164|0.119|<0.001
82546624|NCT02554786|164792926|SUPERIORITY||LS Mean|0.152|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.129|0.175|||MMRM|||Day 1: 5 minutes||0.175|0.129|<0.001
82546625|NCT02554786|164792926|SUPERIORITY||LS Mean|0.055|STANDARD_ERROR_OF_MEAN|0.0116|<|0.001|TWO_SIDED|95.0|0.032|0.078|||MMRM|||Day 1: 5 minutes||0.078|0.032|<0.001
82546626|NCT02554786|164792926|SUPERIORITY||LS Mean|0.162|STANDARD_ERROR_OF_MEAN|0.0122|<|0.001|TWO_SIDED|95.0|0.138|0.186|||MMRM|||Day 1: 15 minutes||0.186|0.138|<0.001
82546627|NCT02554786|164792926|SUPERIORITY||LS mean|0.174|STANDARD_ERROR_OF_MEAN|0.0123|<|0.001|TWO_SIDED|95.0|0.15|0.198|||MMRM|||Day 1: 15 minutes||0.198|0.150|<.001
82546628|NCT02554786|164792926|SUPERIORITY||LS Mean|0.044|STANDARD_ERROR_OF_MEAN|0.0122|<|0.001|TWO_SIDED|95.0|0.02|0.068|||MMRM|||Day1: 15 minutes||0.068|0.02|<0.001
82546629|NCT02554786|164792926|SUPERIORITY||LS Mean|0.175|STANDARD_ERROR_OF_MEAN|0.0132|<|0.001|TWO_SIDED|95.0|0.149|0.201|||MMRM|||Day 1: 30 minutes||0.201|0.149|<0.001
82546630|NCT02554786|164792926|SUPERIORITY||LS Mean|0.185|STANDARD_ERROR_OF_MEAN|0.0132|<|0.001|TWO_SIDED|95.0|0.159|0.211|||MMRM|||Day 1: 30 minutes||0.211|0.159|<0.001
82546631|NCT02554786|164792926|SUPERIORITY||LS Mean|0.027|STANDARD_ERROR_OF_MEAN|0.0132||0.038|TWO_SIDED|95.0|0.001|0.053|||MMRM|||Day 1: 30 minutes||0.053|0.001|0.038
82546632|NCT02554786|164792926|SUPERIORITY||LS Mean|0.178|STANDARD_ERROR_OF_MEAN|0.0139|<|0.001|TWO_SIDED|95.0|0.15|0.205|||MMRM|||Day 1: 1 hour||0.205|0.150|<0.001
82546633|NCT02554786|164792926|SUPERIORITY||LS Mean|0.205|STANDARD_ERROR_OF_MEAN|0.0139|<|0.001|TWO_SIDED|95.0|0.177|0.232|||MMRM|||Day 1: 1hour||0.232|0.177|<0.001
82546634|NCT02554786|164792926|SUPERIORITY||LS Mean|0.007|STANDARD_ERROR_OF_MEAN|0.0139||0.632|TWO_SIDED|95.0|-0.021|0.034|||MMRM|||Day 1: 1hour||0.034|-0.021|0.632
82546635|NCT02554786|164792926|SUPERIORITY||LS Mean|0.189|STANDARD_ERROR_OF_MEAN|0.0192|<|0.001|TWO_SIDED|95.0|0.151|0.226|||MMRM|||Day 30: 5 minutes||0.226|0.151|<0.001
82546636|NCT02554786|164792926|SUPERIORITY||LS Mean|0.232|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.194|0.27|||MMRM|||Day 30: 5 minutes||0.270|0.194|<0.001
82546637|NCT02554786|164792926|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0191||0.005|TWO_SIDED|95.0|0.016|0.091|||MMRM|||Day 30: 5 minutes||0.091|0.016|0.005
82546638|NCT02554786|164792926|SUPERIORITY||LS Mean|0.194|STANDARD_ERROR_OF_MEAN|0.0194|<|0.001|TWO_SIDED|95.0|0.156|0.232|||MMRM|||Day 30: 30 minutes||0.232|0.156|<0.001
82546639|NCT02554786|164792926|SUPERIORITY||LS Mean|0.253|STANDARD_ERROR_OF_MEAN|0.0196|<|0.001|TWO_SIDED|95.0|0.214|0.291|||MMRM|||Day 30: 30 minutes||0.291|0.214|<0.001
82546640|NCT02554786|164792926|SUPERIORITY||LS Mean|0.043|STANDARD_ERROR_OF_MEAN|0.0192||0.026|TWO_SIDED|95.0|0.005|0.08|||MMRM|||Day 30: 30 minutes||0.08|0.005|0.026
82546641|NCT02554786|164792926|SUPERIORITY||LS Mean|0.19|STANDARD_ERROR_OF_MEAN|0.0196|<|0.001|TWO_SIDED|95.0|0.152|0.229|||MMRM|||Day 30: 1 hour||0.229|0.152|<0.001
82546642|NCT02554786|164792926|SUPERIORITY||LS Mean|0.258|STANDARD_ERROR_OF_MEAN|0.0198|<|0.001|TWO_SIDED|95.0|0.219|0.296|||MMRM|||Day 30: 1 hour||0.296|0.219|<0.001
82546643|NCT02554786|164792926|SUPERIORITY||LS Mean|0.037|STANDARD_ERROR_OF_MEAN|0.0194||0.059|TWO_SIDED|95.0|-0.001|0.075|||MMRM|||Day 30: 1 hour||0.075|-0.001|0.059
82546644|NCT02554786|164792926|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0204|<|0.001|TWO_SIDED|95.0|0.123|0.203|||MMRM|||Day 86: 5 minutes||0.203|0.123|<0.001
82546645|NCT02554786|164792926|SUPERIORITY||LS Mean|0.231|STANDARD_ERROR_OF_MEAN|0.0206|<|0.001|TWO_SIDED|95.0|0.191|0.271|||MMRM|||Day 86: 5 minutes||0.271|0.191|<0.001
82546646|NCT02554786|164792926|SUPERIORITY||LS Mean|0.055|STANDARD_ERROR_OF_MEAN|0.0203||0.007|TWO_SIDED|95.0|0.015|0.095|||MMRM|||Day 86: 5minutes||0.095|0.015|0.007
82468918|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0795|TWO_SIDED|95.0|-0.3|5.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-0.3|0.0795
82468919|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.8382|TWO_SIDED|95.0|-2.7|3.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.4|-2.7|0.8382
82468920|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.0289|TWO_SIDED|95.0|0.4|6.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.4|0.4|0.0289
82468921|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7878|TWO_SIDED|95.0|-2.6|3.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.5|-2.6|0.7878
82546647|NCT02554786|164792926|SUPERIORITY||LS Mean|0.18|STANDARD_ERROR_OF_MEAN|0.0203|<|0.001|TWO_SIDED|95.0|0.14|0.219|||MMRM|||Day 86: 30 minutes||0.219|0.140|<0.001
82546648|NCT02554786|164792926|SUPERIORITY||LS Mean|0.252|STANDARD_ERROR_OF_MEAN|0.0205|<|0.001|TWO_SIDED|95.0|0.211|0.292|||MMRM|||Day 86: 30 minutes||0.292|0.211|<0.001
82546649|NCT02554786|164792926|SUPERIORITY||LS Mean|0.038|STANDARD_ERROR_OF_MEAN|0.0202||0.057|TWO_SIDED|95.0|-0.001|0.078|||MMRM|||Day 86: 30 minutes||0.078|-0.001|0.057
82546650|NCT02554786|164792926|SUPERIORITY||LS Mean|0.187|STANDARD_ERROR_OF_MEAN|0.0205|<|0.001|TWO_SIDED|95.0|0.147|0.227|||MMRM|||Day 86: 1 hour||0.227|0.147|<0.001
82468922|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|14.8||||0.0019|TWO_SIDED|95.0|5.6|24.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.0|5.6|0.0019
82546651|NCT02554786|164792926|SUPERIORITY||LS Mean|0.249|STANDARD_ERROR_OF_MEAN|0.0208|<|0.001|TWO_SIDED|95.0|0.208|0.289|||MMRM|||Day 86: 1 hour||0.289|0.208|<0.001
82468923|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.821|TWO_SIDED|95.0|-8.1|10.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.3|-8.1|0.821
82468924|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.0094|TWO_SIDED|95.0|3.1|21.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.5|3.1|0.0094
82468925|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.4454|TWO_SIDED|95.0|-5.6|12.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.8|-5.6|0.4454
82468926|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9||||0.0934|TWO_SIDED|95.0|-1.3|17.1|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.1|-1.3|0.0934
82546652|NCT02554786|164792926|SUPERIORITY||LS Mean|0.043|STANDARD_ERROR_OF_MEAN|0.0205||0.037|TWO_SIDED|95.0|0.003|0.083|||MMRM|||Day 86: 1hour||0.083|0.003|0.037
82546653|NCT02554786|164792926|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|95.0|0.121|0.206|||MMRM|||Day 183: 5 minutes||0.206|0.121|<0.001
82546654|NCT02554786|164792926|SUPERIORITY||LS Mean|0.243|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.2|0.286|||MMRM|||Day 183: 5 minutes||0.286|0.200|<0.001
82546655|NCT02554786|164792926|SUPERIORITY||LS Mean|0.044|STANDARD_ERROR_OF_MEAN|0.0216||0.041|TWO_SIDED|95.0|0.002|0.087|||MMRM|||Day 183: 5 minutes||0.087|0.002|0.041
82546656|NCT02554786|164792926|SUPERIORITY||LS Mean|0.176|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.133|0.22|||MMRM|||Day 183: 30 minutes||0.220|0.133|<0.001
82546657|NCT02554786|164792926|SUPERIORITY||LS Mean|0.259|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.215|0.303|||MMRM|||Day 183: 30 minutes||0.303|0.215|<0.001
82546658|NCT02554786|164792926|SUPERIORITY||LS Mean|0.04|STANDARD_ERROR_OF_MEAN|0.0221||0.071|TWO_SIDED|95.0|-0.003|0.083|||MMRM|||Day 183: 30 minutes||0.083|-0.003|0.071
82546659|NCT02554786|164792926|SUPERIORITY||LS Mean|0.18|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.137|0.223|||MMRM|||Day 183: 1 hour||0.223|0.137|<0.001
82546660|NCT02554786|164792926|SUPERIORITY||LS Mean|0.259|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.215|0.302|||MMRM|||Day 183: 1 hour||0.302|0.215|<0.001
82546661|NCT02554786|164792926|SUPERIORITY||LS Mean|0.039|STANDARD_ERROR_OF_MEAN|0.0218||0.071|TWO_SIDED|95.0|-0.003|0.082|||MMRM|||Day 183: 1 hour||0.082|-0.003|0.071
82546662|NCT02554786|164792926|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0229|<|0.001|TWO_SIDED|95.0|0.094|0.184|||MMRM|||Day 364: 5 minutes||0.184|0.094|<0.001
82546663|NCT02554786|164792926|SUPERIORITY||LS Mean|0.249|STANDARD_ERROR_OF_MEAN|0.0228|<|0.001|TWO_SIDED|95.0|0.205|0.294|||MMRM|||Day 364: 5 minutes||0.294|0.205|<0.001
82546664|NCT02554786|164792926|SUPERIORITY||LS Mean|0.026|STANDARD_ERROR_OF_MEAN|0.0227||0.244|TWO_SIDED|95.0|-0.018|0.071|||MMRM|||Day 364: 5 minutes||0.071|-0.018|0.244
82546665|NCT02554786|164792926|SUPERIORITY||LS Mean|0.155|STANDARD_ERROR_OF_MEAN|0.0228|<|0.001|TWO_SIDED|95.0|0.11|0.2|||MMRM|||Day 364: 30 minutes||0.200|0.110|<0.001
82546666|NCT02554786|164792926|SUPERIORITY||LS Mean|0.264|STANDARD_ERROR_OF_MEAN|0.0227|<|0.001|TWO_SIDED|95.0|0.219|0.308|||MMRM|||Day 364: 30 minutes||0.308|0.219|<0.001
82546667|NCT02554786|164792926|SUPERIORITY||LS Mean|0.032|STANDARD_ERROR_OF_MEAN|0.0226||0.162|TWO_SIDED|95.0|-0.013|0.076|||MMRM|||Day 364: 30 minutes||0.076|-0.013|0.162
82546668|NCT02554786|164792926|SUPERIORITY||LS Mean|0.163|STANDARD_ERROR_OF_MEAN|0.0234|<|0.001|TWO_SIDED|95.0|0.117|0.209|||MMRM|||Day 364: 1 hour||0.209|0.117|<0.001
82468927|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0||||0.1358|TWO_SIDED|95.0|-2.2|16.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.2|-2.2|0.1358
82468928|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|59.8||||0.0004|TWO_SIDED|95.0|27.0|92.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||92.7|27.0|0.0004
82468929|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7||||0.2365|TWO_SIDED|95.0|-13.1|52.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||52.6|-13.1|0.2365
82468930|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9||||0.0091|TWO_SIDED|95.0|11.1|76.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||76.7|11.1|0.0091
82468931|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|35.7||||0.0335|TWO_SIDED|95.0|2.8|68.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||68.5|2.8|0.0335
82468932|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|30.8||||0.0661|TWO_SIDED|95.0|-2.1|63.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||63.6|-2.1|0.0661
82468933|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.1074|TWO_SIDED|95.0|-5.9|59.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.8|-5.9|0.1074
82468934|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|55.3||||0.0064|TWO_SIDED|95.0|15.8|94.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||94.9|15.8|0.0064
82468935|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|38.8||||0.0543|TWO_SIDED|95.0|-0.7|78.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||78.3|-0.7|0.0543
82468936|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|50.2||||0.0131|TWO_SIDED|95.0|10.7|89.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||89.7|10.7|0.0131
82468937|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|43.9||||0.0297|TWO_SIDED|95.0|4.4|83.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.5|4.4|0.0297
82468938|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|41.3||||0.0407|TWO_SIDED|95.0|1.8|80.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.8|1.8|0.0407
82468939|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|27.5||||0.171|TWO_SIDED|95.0|-12.0|67.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.1|-12.0|0.1710
82468940|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0||||0.3362|TWO_SIDED|95.0|-106.7|36.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.7|-106.7|0.3362
82468941|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|126.9||||0.0006|TWO_SIDED|95.0|55.2|198.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||198.5|55.2|0.0006
82468942|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|53.2||||0.1449|TWO_SIDED|95.0|-18.5|124.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||124.8|-18.5|0.1449
82468943|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|38.7||||0.2882|TWO_SIDED|95.0|-33.0|110.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||110.4|-33.0|0.2882
82468944|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|55.0||||0.1314|TWO_SIDED|95.0|-16.6|126.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||126.7|-16.6|0.1314
82468945|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|20.1||||0.5808|TWO_SIDED|95.0|-51.6|91.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||91.8|-51.6|0.5808
82468946|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.2||||0.1415|TWO_SIDED|95.0|-154.6|22.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.3|-154.6|0.1415
82468947|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|149.1||||0.0011|TWO_SIDED|95.0|60.7|237.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||237.5|60.7|0.0011
82468948|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|52.5||||0.2423|TWO_SIDED|95.0|-35.9|140.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||140.9|-35.9|0.2423
82468949|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|30.4||||0.498|TWO_SIDED|95.0|-58.0|118.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||118.8|-58.0|0.4980
82468950|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|54.5||||0.2253|TWO_SIDED|95.0|-33.9|142.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||142.9|-33.9|0.2253
82468951|NCT01746901|164634244|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7||||0.7945|TWO_SIDED|95.0|-76.8|100.1|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||100.1|-76.8|0.7945
82468952|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8||||0.0129|TWO_SIDED|95.0|-5.1|-0.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.6|-5.1|0.0129
82468953|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.0003|TWO_SIDED|95.0|2.0|6.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.5|2.0|0.0003
82468954|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.5483|TWO_SIDED|95.0|-1.6|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-1.6|0.5483
82468955|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.5284|TWO_SIDED|95.0|-1.5|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-1.5|0.5284
82468956|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.1331|TWO_SIDED|95.0|-0.5|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|-0.5|0.1331
82468957|NCT01746901|164634245|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.8732|TWO_SIDED|95.0|-2.1|2.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.4|-2.1|0.8732
82468958|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.4555|TWO_SIDED|95.0|-5.9|13.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.2|-5.9|0.4555
82468959|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.1495|TWO_SIDED|95.0|-2.5|16.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|-2.5|0.1495
82468960|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|11.4||||0.02|TWO_SIDED|95.0|1.8|20.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.9|1.8|0.0200
82468961|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.8668|TWO_SIDED|95.0|-10.3|8.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.7|-10.3|0.8668
82546669|NCT02554786|164792926|SUPERIORITY||LS Mean|0.262|STANDARD_ERROR_OF_MEAN|0.0232|<|0.001|TWO_SIDED|95.0|0.216|0.308|||MMRM|||Day 364: 1 hour||0.308|0.216|<0.001
82468962|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|4.1||||0.3904|TWO_SIDED|95.0|-5.3|13.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.6|-5.3|0.3904
82468963|NCT01746901|164634246|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.6524|TWO_SIDED|95.0|-7.3|11.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.6|-7.3|0.6524
82546670|NCT02554786|164792926|SUPERIORITY||LS Mean|0.031|STANDARD_ERROR_OF_MEAN|0.0231||0.182|TWO_SIDED|95.0|-0.014|0.076|||MMRM|||Day 364: 1 hour||0.076|-0.014|0.182
82468964|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.1771|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.1|-0.4|0.1771
82468965|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.3944|TWO_SIDED|95.0|-1.7|0.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-1.7|0.3944
82468966|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8||||0.1778|TWO_SIDED|95.0|-0.4|2.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.1|-0.4|0.1778
82468967|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.396|TWO_SIDED|95.0|-1.7|0.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-1.7|0.3960
82468968|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.6125|TWO_SIDED|95.0|-0.9|1.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-0.9|0.6125
82468969|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.9059|TWO_SIDED|95.0|-1.1|1.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.3|-1.1|0.9059
82468970|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.4585|TWO_SIDED|95.0|-2.9|6.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.3|-2.9|0.4585
82546671|NCT02554786|164792927|SUPERIORITY||LS Mean|0.086|STANDARD_ERROR_OF_MEAN|0.0237|<|0.001|TWO_SIDED|95.0|0.04|0.133|||MMRM|||Day 2||0.133|0.040|<0.001
82546672|NCT02554786|164792927|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0235|<|0.001|TWO_SIDED|95.0|0.093|0.185|||MMRM|||Day 2||0.185|0.093|<0.001
82546673|NCT02554786|164792927|SUPERIORITY||LS Mean|-0.002|STANDARD_ERROR_OF_MEAN|0.0237||0.927|TWO_SIDED|95.0|-0.049|0.044|||MMRM|||Day 2||0.044|-0.049|0.927
82546674|NCT02554786|164792927|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0246||0.044|TWO_SIDED|95.0|0.001|0.098|||MMRM|||Day 184||0.098|0.001|0.044
82468971|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.8986|TWO_SIDED|95.0|-4.2|4.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.8|-4.2|0.8986
82468972|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.3641|TWO_SIDED|95.0|-2.5|6.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.7|-2.5|0.3641
82468973|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.9674|TWO_SIDED|95.0|-4.6|4.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.4|-4.6|0.9674
82468974|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.5744|TWO_SIDED|95.0|-3.2|5.8|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-3.2|0.5744
82468975|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.3457|TWO_SIDED|95.0|-2.4|6.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.7|-2.4|0.3457
82468976|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7||||0.6664|TWO_SIDED|95.0|-13.3|20.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.8|-13.3|0.6664
82468977|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.1949|TWO_SIDED|95.0|-5.8|28.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.0|-5.8|0.1949
82468978|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|11.1||||0.2009|TWO_SIDED|95.0|-6.0|28.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.1|-6.0|0.2009
82468979|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8||||0.6595|TWO_SIDED|95.0|-13.1|20.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.7|-13.1|0.6595
82468980|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6||||0.3176|TWO_SIDED|95.0|-8.3|25.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.5|-8.3|0.3176
82468981|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0||||0.6423|TWO_SIDED|95.0|-12.9|20.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.9|-12.9|0.6423
82468982|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.4358|TWO_SIDED|95.0|-10.5|24.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.2|-10.5|0.4358
82546675|NCT02554786|164792927|SUPERIORITY||LS Mean|0.141|STANDARD_ERROR_OF_MEAN|0.0246|<|0.001|TWO_SIDED|95.0|0.093|0.19|||MMRM|||Day 184||0.190|0.093|<0.001
82468983|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7||||0.1789|TWO_SIDED|95.0|-5.4|28.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.9|-5.4|0.1789
82468984|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|14.0||||0.1131|TWO_SIDED|95.0|-3.3|31.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.3|-3.3|0.1131
82468985|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6||||0.5965|TWO_SIDED|95.0|-12.6|21.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.8|-12.6|0.5965
82468986|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.3175|TWO_SIDED|95.0|-8.5|25.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.9|-8.5|0.3175
82468987|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9||||0.6551|TWO_SIDED|95.0|-13.3|21.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||21.0|-13.3|0.6551
82468988|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.3||||0.0354|TWO_SIDED|95.0|-87.5|-3.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.1|-87.5|0.0354
82468989|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|55.2||||0.01|TWO_SIDED|95.0|13.4|97.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||97.0|13.4|0.0100
82468990|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2||||0.5379|TWO_SIDED|95.0|-29.0|55.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||55.4|-29.0|0.5379
82468991|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.3||||0.8768|TWO_SIDED|95.0|-45.1|38.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.5|-45.1|0.8768
82546676|NCT02554786|164792927|SUPERIORITY||LS Mean|0.017|STANDARD_ERROR_OF_MEAN|0.0244||0.49|TWO_SIDED|95.0|-0.031|0.065|||MMRM|||Day 184||0.065|-0.031|0.490
82546677|NCT02554786|164792927|SUPERIORITY||LS Mean|0.076|STANDARD_ERROR_OF_MEAN|0.0249||0.002|TWO_SIDED|95.0|0.027|0.125|||MMRM|||Day 365||0.125|0.027|0.002
82546678|NCT02554786|164792927|SUPERIORITY||LS Mean|0.146|STANDARD_ERROR_OF_MEAN|0.0248|<|0.001|TWO_SIDED|95.0|0.098|0.195|||MMRM|||Day 365||0.195|0.098|<0.001
82546679|NCT02554786|164792927|SUPERIORITY||LS Mean|0.036|STANDARD_ERROR_OF_MEAN|0.0248||0.143|TWO_SIDED|95.0|-0.012|0.085|||MMRM|||Day 365||0.085|-0.012|0.143
82468992|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1||||0.7031|TWO_SIDED|95.0|-33.8|49.9|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.9|-33.8|0.7031
82468993|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0||||0.8507|TWO_SIDED|95.0|-45.8|37.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.8|-45.8|0.8507
82468994|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.3||||0.0381|TWO_SIDED|95.0|-121.2|-3.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.5|-121.2|0.0381
82468995|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|64.0||||0.0318|TWO_SIDED|95.0|5.7|122.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||122.3|5.7|0.0318
82468996|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|15.2||||0.6095|TWO_SIDED|95.0|-43.6|74.1|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||74.1|-43.6|0.6095
82468997|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.6||||0.647|TWO_SIDED|95.0|-71.9|44.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||44.8|-71.9|0.6470
82468998|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0||||0.8136|TWO_SIDED|95.0|-51.4|65.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||65.4|-51.4|0.8136
82468999|NCT01746901|164634247|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.6||||0.6699|TWO_SIDED|95.0|-71.0|45.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.7|-71.0|0.6699
82469000|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.1728|TWO_SIDED|95.0|-3.9|0.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.7|-3.9|0.1728
82469001|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.2616|TWO_SIDED|95.0|-1.0|3.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.6|-1.0|0.2616
82469002|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7307|TWO_SIDED|95.0|-1.9|2.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.7|-1.9|0.7307
82469003|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.5473|TWO_SIDED|95.0|-3.0|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-3.0|0.5473
82546680|NCT02554786|164792928|SUPERIORITY||LS Mean|0.189|STANDARD_ERROR_OF_MEAN|0.0253|<|0.001|TWO_SIDED|95.0|0.139|0.238|||MMRM|||Day 2||0.238|0.139|<0.001
82546681|NCT02554786|164792928|SUPERIORITY||LS Mean|0.21|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|0.161|0.259|||MMRM|||Day 2||0.259|0.161|<0.001
82469004|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.4999|TWO_SIDED|95.0|-3.1|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-3.1|0.4999
82469005|NCT01746901|164634248|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.5592|TWO_SIDED|95.0|-3.0|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-3.0|0.5592
82469006|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|13.3||||0.0217|TWO_SIDED|95.0|2.0|24.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.6|2.0|0.0217
82469007|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.5513|TWO_SIDED|95.0|-7.8|14.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.6|-7.8|0.5513
82469008|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|11.5||||0.0469|TWO_SIDED|95.0|0.2|22.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.8|0.2|0.0469
82469009|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.3604|TWO_SIDED|95.0|-6.0|16.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|-6.0|0.3604
82469010|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|6.2||||0.2725|TWO_SIDED|95.0|-5.0|17.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.4|-5.0|0.2725
82469011|NCT01746901|164634249|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4||||0.3461|TWO_SIDED|95.0|-5.8|16.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.6|-5.8|0.3461
82546682|NCT02554786|164792928|SUPERIORITY||LS Mean|-0.018|STANDARD_ERROR_OF_MEAN|0.0252||0.475|TWO_SIDED|95.0|-0.067|0.031|||MMRM|||Day 2||0.031|-0.067|0.475
82546683|NCT02554786|164792928|SUPERIORITY||LS Mean|0.228|STANDARD_ERROR_OF_MEAN|0.0345|<|0.001|TWO_SIDED|95.0|0.161|0.296|||MMRM|||Day 184||0.296|0.161|<0.001
82546684|NCT02554786|164792928|SUPERIORITY||LS Mean|0.265|STANDARD_ERROR_OF_MEAN|0.0346|<|0.001|TWO_SIDED|95.0|0.197|0.333|||MMRM|||Day 184||0.333|0.197|<0.001
82546685|NCT02554786|164792928|SUPERIORITY||LS Mean|0.083|STANDARD_ERROR_OF_MEAN|0.0343||0.015|TWO_SIDED|95.0|0.016|0.151|||MMRM|||Day 184||0.151|0.016|0.015
82546686|NCT02554786|164792928|SUPERIORITY||LS Mean|0.215|STANDARD_ERROR_OF_MEAN|0.0358|<|0.001|TWO_SIDED|95.0|0.145|0.285|||MMRM|||Day 365||0.285|0.145|<0.001
82469012|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4||||0.1828|TWO_SIDED|95.0|-1.1|5.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.8|-1.1|0.1828
82469013|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5||||0.3908|TWO_SIDED|95.0|-5.0|1.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.9|-5.0|0.3908
82469014|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.2513|TWO_SIDED|95.0|-1.5|5.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.5|-1.5|0.2513
82469015|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2||||0.5035|TWO_SIDED|95.0|-4.6|2.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-4.6|0.5035
82469016|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.1452|TWO_SIDED|95.0|-0.9|6.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.0|-0.9|0.1452
82469017|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.9303|TWO_SIDED|95.0|-3.6|3.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|-3.6|0.9303
82469018|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|8.8||||0.0283|TWO_SIDED|95.0|0.9|16.7|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.7|0.9|0.0283
82469019|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7||||0.4861|TWO_SIDED|95.0|-10.5|5.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.0|-10.5|0.4861
82469020|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|5.3||||0.1809|TWO_SIDED|95.0|-2.5|13.2|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.2|-2.5|0.1809
82469021|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.856|TWO_SIDED|95.0|-7.1|8.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.5|-7.1|0.8560
82469022|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7||||0.2385|TWO_SIDED|95.0|-3.1|12.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.4|-3.1|0.2385
82469023|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7||||0.3479|TWO_SIDED|95.0|-4.1|11.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.5|-4.1|0.3479
82469024|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|27.7||||0.0185|TWO_SIDED|95.0|4.7|50.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||50.6|4.7|0.0185
82469025|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.5471|TWO_SIDED|95.0|-15.8|29.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||29.7|-15.8|0.5471
82469026|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5||||0.0367|TWO_SIDED|95.0|1.5|47.4|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||47.4|1.5|0.0367
82469027|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|10.1||||0.3797|TWO_SIDED|95.0|-12.6|32.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.9|-12.6|0.3797
82469028|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|16.4||||0.1557|TWO_SIDED|95.0|-6.3|39.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.1|-6.3|0.1557
82469029|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|12.2||||0.2904|TWO_SIDED|95.0|-10.5|34.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.9|-10.5|0.2904
82469030|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|26.0||||0.0467|TWO_SIDED|95.0|0.4|51.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.6|0.4|0.0467
82469031|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|10.7||||0.4056|TWO_SIDED|95.0|-14.6|36.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||36.0|-14.6|0.4056
82469032|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|23.3||||0.0738|TWO_SIDED|95.0|-2.3|48.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.9|-2.3|0.0738
82469033|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|13.4||||0.2987|TWO_SIDED|95.0|-12.0|38.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.7|-12.0|0.2987
82546687|NCT02554786|164792928|SUPERIORITY||LS Mean|0.246|STANDARD_ERROR_OF_MEAN|0.0357|<|0.001|TWO_SIDED|95.0|0.176|0.316|||MMRM|||Day 365||0.316|0.176|<0.001
82546688|NCT02554786|164792928|SUPERIORITY||LS Mean|0.053|STANDARD_ERROR_OF_MEAN|0.0356||0.139|TWO_SIDED|95.0|-0.017|0.122|||MMRM|||Day 365||0.122|-0.017|0.139
82546689|NCT02554786|164792929|SUPERIORITY||LS Mean|29.6|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|23.8|35.4|||Linear Mixed Model (LMM)|||Week 26: Mean morning PEF||35.4|23.8|<0.001
82469034|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.0763|TWO_SIDED|95.0|-2.4|48.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.2|-2.4|0.0763
82469035|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|12.3||||0.3396|TWO_SIDED|95.0|-13.1|37.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||37.6|-13.1|0.3396
82469036|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.2||||0.2425|TWO_SIDED|95.0|-89.1|22.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||22.7|-89.1|0.2425
82469037|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|62.1||||0.0281|TWO_SIDED|95.0|6.8|117.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||117.5|6.8|0.0281
82469038|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.4189|TWO_SIDED|95.0|-33.0|78.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||78.8|-33.0|0.4189
82469039|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|6.0||||0.831|TWO_SIDED|95.0|-49.4|61.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||61.4|-49.4|0.8310
82469040|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|34.8||||0.2161|TWO_SIDED|95.0|-20.6|90.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.1|-20.6|0.2161
82469041|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9||||0.8905|TWO_SIDED|95.0|-51.5|59.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.2|-51.5|0.8905
82469042|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.8||||0.1597|TWO_SIDED|95.0|-124.2|20.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||20.6|-124.2|0.1597
82469043|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|70.9||||0.0525|TWO_SIDED|95.0|-0.8|142.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||142.6|-0.8|0.0525
82546690|NCT02554786|164792929|SUPERIORITY||LS Mean|32.2|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|26.4|38.1|||LMM|||Week 26: Mean morning PEF||38.1|26.4|<0.001
82546691|NCT02554786|164792929|SUPERIORITY||LS Mean|13.3|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|7.5|19.1|||LMM|||Week 26: Mean morning PEF||19.1|7.5|<0.001
82579476|NCT01262677|164869417|SUPERIORITY||LS Mean Difference|0.7||||0.7126|TWO_SIDED|95.0|-3.1|4.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index I score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||4.5|-3.1|0.7126
82579477|NCT01262677|164869418|SUPERIORITY||LS Mean Difference|-2.1||||0.2431|TWO_SIDED|95.0|-5.8|1.5||Statistical testing was done at alpha = 0.05 level, two-sided.|ANOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index II score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||1.5|-5.8|0.2431
82469044|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|23.1||||0.5294|TWO_SIDED|95.0|-49.3|95.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||95.4|-49.3|0.5294
82469045|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0||||0.9126|TWO_SIDED|95.0|-75.7|67.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.7|-75.7|0.9126
82469046|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|34.6||||0.3418|TWO_SIDED|95.0|-37.1|106.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||106.3|-37.1|0.3418
82469047|NCT01746901|164634250|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3||||0.8833|TWO_SIDED|95.0|-77.0|66.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||66.4|-77.0|0.8833
82546692|NCT02554786|164792929|SUPERIORITY||LS Mean|24.8|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|19.3|30.3|||LMM|||Week 26: Mean evening PEF||30.3|19.3|<0.001
82546693|NCT02554786|164792929|SUPERIORITY||LS Mean|30.4|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|24.8|35.9|||LMM|||Week 26: Mean evening PEF||35.9|24.8|<0.001
82546694|NCT02554786|164792929|SUPERIORITY||LS Mean|8.6|STANDARD_ERROR_OF_MEAN|2.83||0.002|TWO_SIDED|95.0|3.1|14.2|||LMM|||Week 26: Mean evening PEF||14.2|3.1|0.002
82546695|NCT02554786|164792929|SUPERIORITY||LS Mean|28.7|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|22.7|34.8|||LMM|||Week 52: Mean morning PEF||34.8|22.7|<0.001
82546696|NCT02554786|164792929|SUPERIORITY||LS Mean|30.2|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|24.2|36.3|||LMM|||Week 52: Mean morning PEF||36.3|24.2|<0.001
82546697|NCT02554786|164792929|SUPERIORITY||LS Mean|13.8|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|7.7|19.8|||LMM|||Week 52: Mean morning PEF||19.8|7.7|<0.001
82546698|NCT02554786|164792929|SUPERIORITY||LS Mean|23.7|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|18.0|29.5|||LMM|||Week 52: Mean evening PEF||29.5|18.0|<0.001
82546699|NCT02554786|164792929|SUPERIORITY||LS Mean|29.1|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|23.3|34.8|||LMM|||Week 52: Mean evening PEF||34.8|23.3|<0.001
82546700|NCT02554786|164792929|SUPERIORITY||LS Mean|9.1|STANDARD_ERROR_OF_MEAN|2.95||0.002|TWO_SIDED|95.0|3.3|14.9|||LMM|||Week 52: Mean evening PEF||14.9|3.3|0.002
82546701|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|1.31||||0.094|TWO_SIDED|95.0|0.95|1.81|||Logistic regression model|||Day 183||1.81|0.95|0.094
82546702|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|1.73|||<|0.001|TWO_SIDED|95.0|1.26|2.37|||Logistic regression model|||Day 183||2.37|1.26|<0.001
82546703|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|1.06||||0.746|TWO_SIDED|95.0|0.76|1.46|||Logistic regression model|||Day 183||1.46|0.76|0.746
82546704|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|1.34||||0.088|TWO_SIDED|95.0|0.96|1.87|||Logistic regression model|||Day 364||1.87|0.96|0.088
82546705|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|2.24|||<|0.001|TWO_SIDED|95.0|1.58|3.17|||Logistic regression model|||Day 364||3.17|1.58|<0.001
82546706|NCT02554786|164792930|SUPERIORITY||Odds Ratio (OR)|1.05||||0.771|TWO_SIDED|95.0|0.75|1.49|||Logistic regression model|||Day 364||1.49|0.75|0.771
82546707|NCT02554786|164792931|SUPERIORITY||LS Mean|5.8|STANDARD_ERROR_OF_MEAN|2.29||0.012|TWO_SIDED|95.0|1.3|10.2|||Linear Mixed Model (LMM)|||||10.2|1.3|0.012
82579478|NCT01262677|164869418|SUPERIORITY||LS Mean Difference|0.3||||0.8654|TWO_SIDED|95.0|-3.2|3.8||Statistical testing was done at alpha = 0.05 level, two-sided.|ANCOVA|||ANCOVA model with the following fixed terms was used to calculate the p-value: sleep problems index II score at baseline as a coninuous covariate, sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg CR, pregabalin 330 mg CR).||3.8|-3.2|0.8654
82546708|NCT02554786|164792931|SUPERIORITY||LS Mean|9.1|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|4.6|13.6|||LMM|||||13.6|4.6|<0.001
82546709|NCT02554786|164792931|SUPERIORITY||LS Mean|3.4|STANDARD_ERROR_OF_MEAN|2.29||0.135|TWO_SIDED|95.0|-1.1|7.9|||LMM|||||7.9|-1.1|0.135
82546710|NCT02554786|164792932|SUPERIORITY||LS Mean|5.0|STANDARD_ERROR_OF_MEAN|2.25||0.026|TWO_SIDED|95.0|0.6|9.4|||LMM|||||9.4|0.6|0.026
82546711|NCT02554786|164792932|SUPERIORITY||LS Mean|8.1|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|3.7|12.5|||LMM|||||12.5|3.7|<0.001
82546712|NCT02554786|164792932|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|2.25||0.151|TWO_SIDED|95.0|-1.2|7.7|||LMM|||||7.7|-1.2|0.151
82546713|NCT02554786|164792933|SUPERIORITY||LS Mean|2.8|STANDARD_ERROR_OF_MEAN|1.72||0.104|TWO_SIDED|95.0|-0.6|6.2|||LMM|||||6.2|-0.6|0.104
82546714|NCT02554786|164792933|SUPERIORITY||LS Mean|3.9|STANDARD_ERROR_OF_MEAN|1.72||0.024|TWO_SIDED|95.0|0.5|7.3|||LMM|||||7.3|0.5|0.024
82546715|NCT02554786|164792933|SUPERIORITY||LS Mean|0.9|STANDARD_ERROR_OF_MEAN|1.73||0.588|TWO_SIDED|95.0|-2.5|4.3|||LMM|||||4.3|-2.5|0.588
82546716|NCT02554786|164792934|SUPERIORITY||LS Mean|6.4|STANDARD_ERROR_OF_MEAN|2.19||0.003|TWO_SIDED|95.0|2.1|10.7|||LMM|||||10.7|2.1|0.003
82546717|NCT02554786|164792934|SUPERIORITY||LS Mean|8.9|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|4.6|13.2|||LMM|||||13.2|4.6|<0.001
82546718|NCT02554786|164792934|SUPERIORITY||LS Mean|4.8|STANDARD_ERROR_OF_MEAN|2.2||0.029|TWO_SIDED|95.0|0.5|9.1|||LMM|||||9.1|0.5|0.029
82546719|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.13|STANDARD_ERROR_OF_MEAN|0.039||0.001|TWO_SIDED|95.0|-0.2|-0.05|||LMM|||Week1-26 Mean night-time number of puffs||-0.05|-0.2|0.001
82546720|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.08|STANDARD_ERROR_OF_MEAN|0.039||0.035|TWO_SIDED|95.0|-0.16|-0.01|||LMM|||Week 1-26 Mean night-time number of puffs||-0.01|-0.16|0.035
82546721|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.039||0.261|TWO_SIDED|95.0|-0.12|0.03|||LMM|||Week 1-26 Mean night-time number of puffs||0.03|-0.12|0.261
82546722|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.047|<|0.001|TWO_SIDED|95.0|-0.28|-0.09|||LMM|||Week 1-26 Mean daytime number of puffs||-0.09|-0.28|<0.001
82546723|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.12|STANDARD_ERROR_OF_MEAN|0.047||0.011|TWO_SIDED|95.0|-0.21|-0.03|||LMM|||Week 1-26 Mean daytime number of puffs||-0.03|-0.21|0.011
82546724|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.04|STANDARD_DEVIATION|0.047||0.425|TWO_SIDED|95.0|-0.13|0.06|||LMM|||Week 1-26 Mean daytime number of puffs||0.06|-0.13|0.425
82546725|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.31|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|-0.46|-0.15|||LMM|||Week 1-26 Mean daily number of puffs||-0.15|-0.46|<0.001
82546726|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.19|STANDARD_ERROR_OF_MEAN|0.081||0.017|TWO_SIDED|95.0|-0.35|-0.03|||LMM|||Week 1-26 Mean daily number of puffs||-0.03|-0.35|0.017
82546727|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.081||0.29|TWO_SIDED|95.0|-0.24|-0.07|||LMM|||Week 1-26 Mean daily number of puffs||-0.07|-0.24|0.29
82546728|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.11|STANDARD_ERROR_OF_MEAN|0.039||0.004|TWO_SIDED|95.0|-0.19|-0.04|||LMM|||Week 1-52 Mean night-time number of puffs||-0.04|-0.19|0.004
82546729|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.039||0.019|TWO_SIDED|95.0|-0.17|-0.02|||LMM|||Week 1-52 Mean night-time number of puffs||-0.02|-0.17|0.019
82546730|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.039||0.226|TWO_SIDED|95.0|-0.12|0.03|||LMM|||Week 1-52 Mean night-time number of puffs||0.03|-0.12|0.226
82546731|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.17|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|95.0|-0.26|-0.07|||LMM|||Week 1-52 Mean daytime number of puffs||-0.07|-0.26|<0.001
82546732|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.15|STANDARD_ERROR_OF_MEAN|0.048||0.002|TWO_SIDED|95.0|-0.24|-0.05|||LMM|||Week 1-52 Mean daytime number of puffs||-0.05|-0.24|0.002
82546733|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.048||0.384|TWO_SIDED|95.0|-0.14|0.05|||LMM|||Week 1-52 Mean daytime number of puffs||0.05|-0.14|0.384
82546734|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.28|STANDARD_ERROR_OF_MEAN|0.081|<|0.001|TWO_SIDED|95.0|-0.44|-0.12|||LMM|||Week 1-52 Mean daily number of puffs||-0.12|-0.44|< 0.001
82546735|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.23|STANDARD_ERROR_OF_MEAN|0.081||0.004|TWO_SIDED|95.0|-0.39|-0.07|||LMM|||Week 1-52 Mean daily number of puffs||-0.07|-0.39|0.004
82469048|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.6||||0.0041|TWO_SIDED|95.0|-6.1|-1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.2|-6.1|0.0041
82469049|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.0006|TWO_SIDED|95.0|1.9|6.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.8|1.9|0.0006
82469050|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8765|TWO_SIDED|95.0|-2.7|2.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-2.7|0.8765
82469051|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.4746|TWO_SIDED|95.0|-1.6|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|-1.6|0.4746
82469052|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.4607|TWO_SIDED|95.0|-3.3|1.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.5|-3.3|0.4607
82469053|NCT01746901|164634251|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.2316|TWO_SIDED|95.0|-1.0|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|-1.0|0.2316
82469054|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|38.8|||<|0.0001|TWO_SIDED|95.0|26.4|51.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||51.3|26.4|<0.0001
82469055|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.0136|TWO_SIDED|95.0|3.3|28.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.3|3.3|0.0136
82469056|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||0.0039|TWO_SIDED|95.0|6.1|31.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||31.0|6.1|0.0039
82546736|NCT02554786|164792935|SUPERIORITY||LS Mean|-0.09|STANDARD_ERROR_OF_MEAN|0.081||0.245|TWO_SIDED|95.0|-0.25|0.06|||LMM|||Week 1-52 Mean daily number of puffs||0.06|-0.25|0.245
82546737|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.39|0.72|||Regression, Cox|||Moderate or severe asthma exacerbation||0.72|0.39|<0.001
82546738|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6|||Regression, Cox|||Moderate or severe asthma exacerbation||0.6|0.34|<0.001
82546739|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.209|TWO_SIDED|95.0|0.59|1.12|||Regression, Cox|||Moderate or severe asthma exacerbation||1.12|0.59|0.209
82546740|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.003|TWO_SIDED|95.0|0.36|0.81|||Regression, Cox|||Severe asthma exacerbation||0.81|0.36|0.003
82546741|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.3|0.63|||Regression, Cox|||Severe asthma exacerbation||0.63|0.3|<0.001
82469057|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1|||<|0.0001|TWO_SIDED|95.0|23.6|48.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||48.5|23.6|<0.0001
82469058|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|15.4||||0.0157|TWO_SIDED|95.0|2.9|27.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.8|2.9|0.0157
82469059|NCT01746901|164634252|SUPERIORITY_OR_OTHER||LS Mean Difference|32.9|||<|0.0001|TWO_SIDED|95.0|20.5|45.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|20.5|<0.0001
82469060|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|12.5|||<|0.0001|TWO_SIDED|95.0|6.4|18.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.6|6.4|<0.0001
82469061|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5||||0.255|TWO_SIDED|95.0|-2.6|9.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||9.6|-2.6|0.2550
82546742|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.115|TWO_SIDED|95.0|0.47|1.09|||Regression, Cox|||Severe asthma exacerbation||1.09|0.47|0.115
82546743|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.51|0.82|||Regression, Cox|||All asthma exacerbation||0.82|0.51|<0.001
82546744|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|0.001|TWO_SIDED|95.0|0.38|0.6|||Regression, Cox|||All asthma exacerbation||0.6|0.38|<0.001
82546745|NCT02554786|164792936|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.185|TWO_SIDED|95.0|0.66|1.08|||Regression, Cox|||All asthma exacerbation||1.08|0.66|0.185
82546746|NCT02554786|164792937|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.337|TWO_SIDED|95.0|0.13|2.03|||Regression, Cox|||||2.03|0.13|0.337
82546747|NCT02554786|164792937|SUPERIORITY||Hazard Ratio (HR)|0.14||||0.063|TWO_SIDED|95.0|0.02|1.11|||Regression, Cox|||||1.11|0.02|0.063
82546748|NCT02554786|164792937|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.599|TWO_SIDED|95.0|0.27|9.7|||Regression, Cox|||||9.7|0.27|0.599
82546749|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.65||||0.008|TWO_SIDED|95.0|0.48|0.89|||Generalized linear model|||Moderate or severe asthma exacerbation||0.89|0.48|0.008
82546750|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.35|0.64|||Generalized linear model|||Moderate or severe asthma exacerbation||0.64|0.35|<0.001
82546751|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.93||||0.669|TWO_SIDED|95.0|0.67|1.29|||Generalized linear model|||Moderate or severe asthma exacerbation||1.29|0.67|0.669
82546752|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.71||||0.108|TWO_SIDED|95.0|0.47|1.08|||Generalized linear model|||Severe asthma exacerbation||1.08|0.47|0.108
82546753|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.31|0.67|||Generalized linear model|||Severe asthma exacerbation||0.67|0.31|<0.001
82546754|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.89||||0.597|TWO_SIDED|95.0|0.58|1.37|||Generalized linear model|||Severe asthma exacerbation||1.37|0.58|0.597
82546755|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.67||||0.002|TWO_SIDED|95.0|0.52|0.87|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.87|0.52|0.002
82546756|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.36|0.59|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.59|0.36|<0.001
82546757|NCT02554786|164792938|SUPERIORITY||Rate Ratio|0.95||||0.681|TWO_SIDED|95.0|0.72|1.23|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||1.23|0.72|0.681
82546758|NCT02554786|164792939|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
82546759|NCT02554786|164792939|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
82546760|NCT02554786|164792939|SUPERIORITY|||||||0.059|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.059
82546761|NCT02554786|164792939|SUPERIORITY|||||||0.004|||||||Van Elteren Test|||Severe Asthma Exacerbation||||0.004
82546762|NCT02554786|164792939|SUPERIORITY||||||<|0.001|||||||Van Elteren Test|||Severe Asthma Exacerbation||||<0.001
82546763|NCT02554786|164792939|SUPERIORITY|||||||0.025|||||||van Elteren test|||Severe asthma exacerbation||||0.025
82546764|NCT02554786|164792939|SUPERIORITY|||||||0.002|||||||Van Elteren Test|||All(mild, moderate, severe) Asthma Exacerbation||||0.002
82546765|NCT02554786|164792939|SUPERIORITY||||||<|0.001|||||||Van Elteren Test|||All (mild, moderate, severe) Asthma Exacerbation||||<0.001
82546766|NCT02554786|164792939|SUPERIORITY|||||||0.074|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.074
82546767|NCT02554786|164792941|SUPERIORITY||Hazard Ratio (HR)|0.26||||0.222|TWO_SIDED|95.0|0.03|2.29|||Regression, Cox|||||2.29|0.03|0.222
82650602|NCT02629965|165016405|SUPERIORITY||Mean Difference (Final Values)|0.083|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.059|0.108|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.108|0.059|<0.0001
82546768|NCT02554786|164792941|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.992|TWO_SIDED|95.0|0.0||The upper limit of CI could not be calculated due to low number of participants with asthma exacerbation.||Regression, Cox||||||0|0.992
82546769|NCT02554786|164792941|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.618|TWO_SIDED|95.0|0.05|6.01|||Regression, Cox|||||6.01|0.05|0.618
82546770|NCT02554786|164792944|SUPERIORITY||LS Mean|10.1|STANDARD_ERROR_OF_MEAN|2.02|<|0.001|TWO_SIDED|95.0|6.2|14.1|||LMM|||Weeks 1-26||14.1|6.2|< 0.001
82546771|NCT02554786|164792944|SUPERIORITY||LS Mean|8.3|STANDARD_ERROR_OF_MEAN|2.02|<|0.001|TWO_SIDED|95.0|4.3|12.3|||LMM|||Weeks 1-26||12.3|4.3|<0.001
82546772|NCT02554786|164792944|SUPERIORITY||LS Mean|4.1|STANDARD_ERROR_OF_MEAN|2.02||0.045|TWO_SIDED|95.0|0.1|8.0|||LMM|||Weeks 1-26||8|0.1|0.045
82546773|NCT02554786|164792944|SUPERIORITY||LS Mean|9.6|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|5.7|13.6|||LMM|||Weeks 1-52||13.6|5.7|<0.001
82546774|NCT02554786|164792944|SUPERIORITY||LS Mean|8.6|STANDARD_ERROR_OF_MEAN|2.03|<|0.001|TWO_SIDED|95.0|4.7|12.6|||LMM|||Weeks 1-52||12.6|4.7|<0.001
82546775|NCT02554786|164792944|SUPERIORITY||LS Mean|4.3|STANDARD_ERROR_OF_MEAN|2.04||0.034|TWO_SIDED|95.0|0.3|8.3|||LMM|||Weeks 1-52||8.3|0.3|0.034
82546776|NCT02554786|164792945|SUPERIORITY||LS Mean|0.147|STANDARD_ERROR_OF_MEAN|0.0462||0.002|TWO_SIDED|95.0|0.056|0.237|||MMRM|||Day 30||0.237|0.056|0.002
82546777|NCT02554786|164792945|SUPERIORITY||LS Mean|0.123|STANDARD_ERROR_OF_MEAN|0.0464||0.008|TWO_SIDED|95.0|0.032|0.214|||MMRM|||Day 30||0.214|0.032|0.008
82546778|NCT02554786|164792945|SUPERIORITY||LS Mean|0.045|STANDARD_ERROR_OF_MEAN|0.046||0.33|TWO_SIDED|95.0|-0.045|0.135|||MMRM|||Day 30||0.135|-0.045|0.33
82546779|NCT02554786|164792945|SUPERIORITY||LS Mean|0.054|STANDARD_ERROR_OF_MEAN|0.0503||0.28|TWO_SIDED|95.0|-0.044|0.153|||MMRM|||Day 86||0.153|-0.044|0.28
82546780|NCT02554786|164792945|SUPERIORITY||LS Mean|0.118|STANDARD_ERROR_OF_MEAN|0.0507||0.02|TWO_SIDED|95.0|0.019|0.217|||MMRM|||Day 86||0.217|0.019|0.02
82546781|NCT02554786|164792945|SUPERIORITY||LS Mean|0.026|STANDARD_ERROR_OF_MEAN|0.0501||0.598|TWO_SIDED|95.0|-0.072|0.125|||MMRM|||Day 86||0.125|-0.072|0.598
82546782|NCT02554786|164792945|SUPERIORITY||LS Mean|0.127|STANDARD_ERROR_OF_MEAN|0.0526||0.016|TWO_SIDED|95.0|0.023|0.23|||MMRM|||Day 183||0.23|0.023|0.016
82546783|NCT02554786|164792945|SUPERIORITY||LS Mean|0.156|STANDARD_ERROR_OF_MEAN|0.0529||0.003|TWO_SIDED|95.0|0.053|0.26|||MMRM|||Day 183||0.26|0.053|0.003
82546784|NCT02554786|164792945|SUPERIORITY||LS Mean|0.085|STANDARD_ERROR_OF_MEAN|0.0525||0.103|TWO_SIDED|95.0|-0.017|0.188|||MMRM|||Day 183||0.188|-0.017|0.103
82546785|NCT02554786|164792945|SUPERIORITY||LS Mean|0.071|STANDARD_ERROR_OF_MEAN|0.0542||0.188|TWO_SIDED|95.0|-0.035|0.178|||MMRM|||Day 254||0.178|-0.035|0.188
82546786|NCT02554786|164792945|SUPERIORITY||LS Mean|0.168|STANDARD_ERROR_OF_MEAN|0.0543||0.002|TWO_SIDED|95.0|0.061|0.274|||MMRM|||Day 254||0.274|0.061|0.002
82546787|NCT02554786|164792945|SUPERIORITY||LS Mean|0.061|STANDARD_ERROR_OF_MEAN|0.0538||0.258|TWO_SIDED|95.0|-0.045|0.166|||MMRM|||Day 254||0.166|-0.045|0.258
82546788|NCT02554786|164792945|SUPERIORITY||LS Mean|0.079|STANDARD_ERROR_OF_MEAN|0.0552||0.154|TWO_SIDED|95.0|-0.03|0.187|||MMRM|||Day 364||0.187|-0.030|0.154
82546789|NCT02554786|164792945|SUPERIORITY||LS Mean|0.191|STANDARD_ERROR_OF_MEAN|0.0553|<|0.001|TWO_SIDED|95.0|0.082|0.299|||MMRM|||Day 364||0.299|0.082|<0.001
82546790|NCT02554786|164792945|SUPERIORITY||LS Mean|0.041|STANDARD_ERROR_OF_MEAN|0.0548||0.455|TWO_SIDED|95.0|-0.067|0.148|||MMRM|||Day 364||0.148|-0.067|0.455
82469062|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|10.4||||0.001|TWO_SIDED|95.0|4.3|16.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||16.4|4.3|0.0010
82469063|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|5.7||||0.0667|TWO_SIDED|95.0|-0.4|11.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.8|-0.4|0.0667
82469064|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|8.3||||0.0075|TWO_SIDED|95.0|2.3|14.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.4|2.3|0.0075
82469065|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|4.6||||0.1354|TWO_SIDED|95.0|-1.5|10.7|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.7|-1.5|0.1354
82469066|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|50.9|||<|0.0001|TWO_SIDED|95.0|34.2|67.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||67.5|34.2|<0.0001
82469067|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.3905|TWO_SIDED|95.0|-9.4|24.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||24.0|-9.4|0.3905
82469068|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|28.6||||0.0009|TWO_SIDED|95.0|11.9|45.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.3|11.9|0.0009
82469069|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|29.6||||0.0006|TWO_SIDED|95.0|12.9|46.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||46.3|12.9|0.0006
82469070|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|22.9||||0.0072|TWO_SIDED|95.0|6.3|39.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.5|6.3|0.0072
82469071|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0||||0.0035|TWO_SIDED|95.0|8.4|41.6|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||41.6|8.4|0.0035
82469072|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|248.4|||<|0.0001|TWO_SIDED|95.0|188.6|308.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||308.3|188.6|<0.0001
82469073|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|68.2||||0.0263|TWO_SIDED|95.0|8.2|128.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||128.2|8.2|0.0263
82469074|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|151.2|||<|0.0001|TWO_SIDED|95.0|91.3|211.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||211.1|91.3|<0.0001
82469075|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|165.4|||<|0.0001|TWO_SIDED|95.0|105.6|225.3|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||225.3|105.6|<0.0001
82469076|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|97.9||||0.0015|TWO_SIDED|95.0|38.3|157.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||157.6|38.3|0.0015
82469077|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|138.4|||<|0.0001|TWO_SIDED|95.0|78.7|198.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||198.2|78.7|<0.0001
82469078|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|241.3|||<|0.0001|TWO_SIDED|95.0|162.8|319.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||319.9|162.8|<0.0001
82650603|NCT02629965|165016406|SUPERIORITY||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.114|0.189|||Mixed Models Analysis|Mixed Effect Model Repeated Measures includes treatment and period as fixed effects, study baseline as a covariate and patient as a random effect.|Adjusted mean of differences between treatments and standard error||Mixed effect repeated measurement was used to calculate adjusted mean values as well as treatment contrasts together with the 95% confidence intervals (CIs) and p-values.|0.189|0.114|<0.0001
82469079|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|121.1||||0.0028|TWO_SIDED|95.0|42.4|199.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.9|42.4|0.0028
82469080|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|164.4|||<|0.0001|TWO_SIDED|95.0|85.8|243.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||243.1|85.8|<0.0001
82469081|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|198.0|||<|0.0001|TWO_SIDED|95.0|119.4|276.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||276.6|119.4|<0.0001
82469082|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|111.1||||0.0057|TWO_SIDED|95.0|32.8|189.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||189.4|32.8|0.0057
82469083|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|168.1|||<|0.0001|TWO_SIDED|95.0|89.7|246.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.6|89.7|<0.0001
82469084|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|128.4||||0.036|TWO_SIDED|95.0|8.5|248.3|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||248.3|8.5|0.0360
82469085|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|221.5||||0.0004|TWO_SIDED|95.0|101.2|341.7|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||341.7|101.2|0.0004
82469086|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|126.7||||0.0388|TWO_SIDED|95.0|6.6|246.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||246.8|6.6|0.0388
82469087|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|223.2||||0.0003|TWO_SIDED|95.0|103.2|343.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||343.2|103.2|0.0003
82469088|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|107.2||||0.0787|TWO_SIDED|95.0|-12.4|226.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||226.8|-12.4|0.0787
82469089|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|181.3||||0.0033|TWO_SIDED|95.0|61.5|301.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||301.0|61.5|0.0033
82469090|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|96.1||||0.1688|TWO_SIDED|95.0|-41.2|233.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||233.3|-41.2|0.1688
82469091|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|220.3||||0.0019|TWO_SIDED|95.0|82.6|358.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||358.0|82.6|0.0019
82546791|NCT02554786|164792946|NON_INFERIORITY|QMF 150/320 was considered non-inferior to S/F 50/500 if the lower bound of the 95% CI was above the non-inferiority margin of -90 mL and was considered superior if the lower bound of the 95% CI was \> 0. The p-value is for null-hypothesis testing.|LS Mean|0.036|STANDARD_ERROR_OF_MEAN|0.0222||0.101|TWO_SIDED|95.0|-0.007|0.08|||MMRM|||||0.080|-0.007|0.101
82546792|NCT02395978|164793043|SUPERIORITY|||||||0.393|||||||Kruskal-Wallis|||||||0.393
82546793|NCT03351699|164793061|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.53|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 78%.|||||
82546794|NCT03351699|164793061|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.73|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 95%.|||||
82469092|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|106.0||||0.1298|TWO_SIDED|95.0|-31.5|243.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||243.5|-31.5|0.1298
82469093|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|210.4||||0.0029|TWO_SIDED|95.0|73.0|347.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||347.8|73.0|0.0029
82469094|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|108.7||||0.1189|TWO_SIDED|95.0|-28.3|245.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||245.7|-28.3|0.1189
82469095|NCT01746901|164634253|SUPERIORITY_OR_OTHER||LS Mean Difference|153.6||||0.0284|TWO_SIDED|95.0|16.4|290.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||290.8|16.4|0.0284
82469096|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0327|TWO_SIDED|95.0|-3.4|-0.1|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.1|-3.4|0.0327
82469097|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.0019|TWO_SIDED|95.0|1.0|4.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.2|1.0|0.0019
82469098|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.7508|TWO_SIDED|95.0|-1.9|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.9|0.7508
82469099|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.1868|TWO_SIDED|95.0|-0.5|2.7|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.7|-0.5|0.1868
82469100|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9944|TWO_SIDED|95.0|-1.6|1.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.6|-1.6|0.9944
82469101|NCT01746901|164634254|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.2322|TWO_SIDED|95.0|-0.6|2.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.6|-0.6|0.2322
82546795|NCT03351699|164793061|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.52|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 75%.|||||
82469102|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|28.2|||<|0.0001|TWO_SIDED|95.0|16.8|39.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||39.6|16.8|<0.0001
82469103|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4||||0.1421|TWO_SIDED|95.0|-2.8|19.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||19.6|-2.8|0.1421
82469104|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|20.9||||0.0004|TWO_SIDED|95.0|9.5|32.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||32.2|9.5|0.0004
82469105|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.0064|TWO_SIDED|95.0|4.5|27.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||27.0|4.5|0.0064
82469106|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|7.4||||0.1974|TWO_SIDED|95.0|-3.9|18.6|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.6|-3.9|0.1974
82469107|NCT01746901|164634255|SUPERIORITY_OR_OTHER||LS Mean Difference|19.5||||0.0008|TWO_SIDED|95.0|8.3|30.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.8|8.3|0.0008
82469108|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|12.2|||<|0.0001|TWO_SIDED|95.0|7.1|17.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||17.4|7.1|<0.0001
82546796|NCT03351699|164793061|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants. LS mean (95% confidence interval) for change from baseline at 168 hours post dose of pooled historical placebo was -0.03 log10 copies/mL (-0.14, 0.09).|Posterior Mean Difference|-1.75|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-4250 and placebo at least 1.4 log10 copies/mL was 96%.|||||
82546797|NCT00539734|164793107|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Comparing pre-operative data with postoperative data in terms of changes in amplitude height and implicit time.||||<0.05
82469109|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.6868|TWO_SIDED|95.0|-4.1|6.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||6.2|-4.1|0.6868
82546798|NCT03201562|164793120|SUPERIORITY||Odds Ratio (OR)|38.436||||0.0009|TWO_SIDED|90.0|6.262|235.936|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect.||||235.936|6.262|0.0009
82546799|NCT03201562|164793120|SUPERIORITY||Odds Ratio (OR)|36.893||||0.0012|TWO_SIDED|90.0|5.936|229.31|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect.||||229.310|5.936|0.0012
82469110|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|7.3||||0.0058|TWO_SIDED|95.0|2.2|12.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.5|2.2|0.0058
82469111|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9||||0.0229|TWO_SIDED|95.0|0.8|11.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.1|0.8|0.0229
82469112|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2||||0.2168|TWO_SIDED|95.0|-1.9|8.3|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||8.3|-1.9|0.2168
82469113|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8||||0.0096|TWO_SIDED|95.0|1.7|11.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.9|1.7|0.0096
82469114|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|33.0|||<|0.0001|TWO_SIDED|95.0|20.0|45.9|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||45.9|20.0|<0.0001
82469115|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.8009|TWO_SIDED|95.0|-11.2|14.4|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||14.4|-11.2|0.8009
82469116|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|17.4||||0.0086|TWO_SIDED|95.0|4.5|30.3|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.3|4.5|0.0086
82469117|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|17.2||||0.0089|TWO_SIDED|95.0|4.4|30.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||30.0|4.4|0.0089
82650604|NCT03443869|165016407|NON_INFERIORITY|LET was concluded non-inferior to VGCV if the upper bound of the two-sided 95% CI for difference in percentage of participants with adjudicated CMV disease (LET - VGCV) was no higher than 10%|Stratum-adjusted Treatment Difference|-1.4|||||TWO_SIDED|95.0|-6.5|3.8|||||Difference = LET minus VGCV|The Observed failure (OF) approach was used to handle missing values, that is participants who had discontinued prematurely from the study for any reason were not considered failures||3.8|-6.5|
82650605|NCT03443869|165016408|OTHER||Stratum-adjusted Treatment Difference|-1.7|||||TWO_SIDED|95.0|-3.4|0.1|||||Difference = LET minus VGCV|The Observed failure (OF) approach was used to handle missing values, that is participants who had discontinued prematurely from the study for any reason were not considered failures||0.1|-3.4|
82469118|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.4224|TWO_SIDED|95.0|-7.6|18.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||18.0|-7.6|0.4224
82469119|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|22.6||||0.0006|TWO_SIDED|95.0|9.8|35.5|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||35.5|9.8|0.0006
82469120|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|96.1|||<|0.0001|TWO_SIDED|95.0|57.9|134.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||134.2|57.9|<0.0001
82469121|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|21.9||||0.253|TWO_SIDED|95.0|-15.8|59.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||59.7|-15.8|0.2530
82469122|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|78.6|||<|0.0001|TWO_SIDED|95.0|40.5|116.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||116.8|40.5|<0.0001
82469123|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|39.3||||0.0414|TWO_SIDED|95.0|1.6|77.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||77.1|1.6|0.0414
82469124|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|28.9||||0.1329|TWO_SIDED|95.0|-8.9|66.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||66.6|-8.9|0.1329
82546800|NCT03201562|164793120|SUPERIORITY||Odds Ratio (OR)|1.042||||0.9298|TWO_SIDED|90.0|0.485|2.239|||Generalized Estimating Equation (GEE)|GEE model includes 3-line improvement as response variable with sequence, period, treatment as fixed effect, subject within sequence as random effect||||2.239|0.485|0.9298
82546801|NCT02382744|164793154|SUPERIORITY_OR_OTHER||Difference between proportions (%)|10.0||||0.25|TWO_SIDED|95.0|-11.9|31.9||One-sided P-value based on the lack of plausibility that additional nerve stimulation would worsen sensory blockade rates.|Fisher Exact|||We sought to detect an increase in the rate of complete absence of sensation to pinprick 30 min following ultrasound-guided subsartorial saphenous nerve blockade to 90% from an assumed baseline of 64% as extrapolated from our previous study (cf. Head SJ et al. 2015) at β = 0.2. The required minimum sample size at α = 0.05 (one-sided) was 30 patients in each group. To be conservative, we aimed to enroll a total of 80 patients.||31.9|-11.9|0.25
82546802|NCT02382744|164793155|SUPERIORITY_OR_OTHER|||||||0.62||||||Two-sided P-value|Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two groups, Ultrasound Guidance and Ultrasound Guidance and Nerve Stimulation, as far as the two categorical outcomes are concerned, block failure at 30 minutes post nerve block versus no block failure at 30 minutes post nerve block."||||0.62
82546803|NCT02382744|164793156|SUPERIORITY_OR_OTHER|||||||0.62|||||||Fisher Exact|||||||0.62
82650606|NCT03443869|165016410|OTHER||Difference in Percentages|-0.1|||||TWO_SIDED|95.0|-4.4|4.2|||||Difference = LET minus VGCV|||4.2|-4.4|
82650607|NCT03443869|165016411|OTHER||Difference in Percentages|-3.7|||||TWO_SIDED|95.0|-7.0|-0.9|||||Difference = LET minus VGCV|||-0.9|-7.0|
82469125|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|45.5||||0.0187|TWO_SIDED|95.0|7.7|83.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.2|7.7|0.0187
82469126|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|76.9||||0.0009|TWO_SIDED|95.0|31.9|121.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||121.9|31.9|0.0009
82469127|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|45.4||||0.0456|TWO_SIDED|95.0|0.9|89.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||89.9|0.9|0.0456
82469128|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|82.8||||0.0004|TWO_SIDED|95.0|37.8|127.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||127.7|37.8|0.0004
82469129|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|39.6||||0.0812|TWO_SIDED|95.0|-5.0|84.1|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||84.1|-5.0|0.0812
82469130|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|35.5||||0.1174|TWO_SIDED|95.0|-9.0|80.0|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.0|-9.0|0.1174
82469131|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|46.1||||0.0427|TWO_SIDED|95.0|1.5|90.6|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||90.6|1.5|0.0427
82546804|NCT02382744|164793157|SUPERIORITY_OR_OTHER|||||||0.26||||||Two-sided P-value|Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two groups, Ultrasound Guidance and Ultrasound Guidance and Nerve Stimulation, as far as the two categorical outcomes are concerned, incomplete block at 30 minutes post nerve block versus no incomplete block at 30 minutes post nerve block."||||0.26
82469132|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0||||0.9318|TWO_SIDED|95.0|-66.9|73.0|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||73.0|-66.9|0.9318
82469133|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|110.4||||0.002|TWO_SIDED|95.0|41.2|179.6|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||179.6|41.2|0.0020
82469134|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|81.5||||0.0226|TWO_SIDED|95.0|11.6|151.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||151.4|11.6|0.0226
82546805|NCT02382744|164793158|SUPERIORITY_OR_OTHER||"Median survival ratio"|0.7||||0.12|TWO_SIDED|95.0|0.38|1.31|||Log Rank||"Numerator, group Ultrasound Guidance; denominator, group, Ultrasound Guidance + Nerve Stimulation"|"To assess speed of onset, sensation to pinprick in the distribution of the saphenous nerve was assessed for each patient every 5 min until complete sensory loss was noted, or until 30 min had elapsed. To compare the two groups in speed of onset on the basis of these data, we constructed Kaplan-Meyer survival curves for the times to onset of sensory blockade and compared the underlying time-to-event data with the log-rank test."||1.31|0.38|0.12
82546806|NCT02382744|164793162|SUPERIORITY_OR_OTHER||Difference between means (s)|107.0|||<|0.0001|TWO_SIDED|95.0|61.0|153.0|||t-test, 2 sided|||||153|61|<0.0001
82546807|NCT02382744|164793165|SUPERIORITY_OR_OTHER||"Median survival ratio"|0.58||||0.02|TWO_SIDED|95.0|0.37|0.93|||Log Rank||"Numerator, group Ultrasound Guidance; denominator, group, Ultrasound Guidance + Nerve Stimulation"|||0.93|0.37|0.02
82546808|NCT02382744|164793168|SUPERIORITY_OR_OTHER|||||||0.0057|||||||Fisher Exact|||"This contingency-table type analysis (Fisher Exact test) compares the two arms, Patients with response to nerve stimulation and Patients with lack response to nerve stimulation, as far as the two categorical outcomes are concerned, block failure at 30 minutes post nerve block versus no block failure at 30 minutes post nerve block."||||0.0057
82546809|NCT02539225|164793173|SUPERIORITY|||||||0.698|||||||Stratified Log Rank|||||||0.698
82579479|NCT01262677|164869419|SUPERIORITY||Odds Ratio (OR)|1.36||||0.3241|TWO_SIDED|95.0|0.74|2.5||Statistical testing was done at alpha = 0.05 level, two-sided.|Regression, Logistic|||Logistic regression model was used to calculate the p-value, with the fixed effects for sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR), average hours per night of sleep at baseline as a coninuous covariate, and optimal sleep at Week 14 as dependent variable. No adjustments for multiplicity were taken.||2.50|0.74|0.3241
82546810|NCT02539225|164793174|SUPERIORITY|||||||0.549|||||||Log Rank Stratified|||||||0.549
82546811|NCT02539225|164793175|SUPERIORITY|||||||0.548|||||||Log Rank Stratified|||||||0.548
82579480|NCT01262677|164869419|SUPERIORITY||Odds Ratio (OR)|0.96||||0.8932|TWO_SIDED|95.0|0.54|1.71||Statistical testing was done at alpha = 0.05 level, two-sided.|Regression, Logistic|||Logistic regression model was used to calculate the p-value, with the fixed effects for sites pooled by geographic region (ie, U.S., Europe, Asia, rest of the world), and treatment group (placebo, pregabalin 165 mg controlled-release (CR), pregabalin 330 mg CR), average hours per night of sleep at baseline as a coninuous covariate, and optimal sleep at Week 14 as dependent variable. No adjustments for multiplicity were taken.||1.71|0.54|0.8932
82579481|NCT02055781|164869456|SUPERIORITY|||||||0.0011|||||||Fisher Exact|||BAT arm compared to pooled pacritinib arms (QD + BID - ITT Efficacy)||||0.0011
82579482|NCT02055781|164869456|SUPERIORITY|||||||0.0173|||||||Fisher Exact|||||||0.0173
82546812|NCT02539225|164793176|SUPERIORITY||Odds Ratio (OR)|1.374||||0.402|TWO_SIDED|80.0|0.844|2.236|||Cochran-Mantel-Haenszel|||||2.236|0.844|0.402
82546813|NCT02539225|164793177|SUPERIORITY||Odds Ratio (OR)|1.527||||0.501|TWO_SIDED|80.0|0.68|3.433|||Cochran-Mantel-Haenszel|||||3.433|0.680|0.501
82546814|NCT01553058|164793188|OTHER|Difference of Differences||||||0.795|||||||Regression, Linear|||||||0.795
82546815|NCT01553058|164793188|OTHER|Difference of differences||||||0.647|||||||Regression, Linear|||||||0.647
82579483|NCT02055781|164869456|SUPERIORITY|||||||0.0007|||||||Fisher Exact|||||||0.0007
82579484|NCT02055781|164869457|SUPERIORITY|||||||0.0791|||||||Fisher Exact|||BAT arm compared to pooled pacritinib arms (QD + BID - ITT Efficacy)||||0.0791
82579485|NCT02055781|164869457|SUPERIORITY|||||||0.6524|||||||Fisher Exact|||||||0.6524
82546816|NCT01553058|164793189|OTHER|Difference of differences||||||0.386|||||||Regression, Linear|||||||0.386
82546817|NCT01553058|164793189|OTHER|Difference of Differences||||||0.28|||||||Regression, Linear|||||||0.280
82546818|NCT01553058|164793196|OTHER|Difference of Differences||||||0.357|||||||Regression, Linear|||||||0.357
82546819|NCT01553058|164793196|OTHER|Difference of Differences||||||0.496|||||||Regression, Linear|||||||0.496
82546820|NCT01553058|164793197|OTHER|Difference of Differences||||||0.897|||||||Regression, Linear|||||||0.897
82469135|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|32.0||||0.3629|TWO_SIDED|95.0|-37.3|101.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||101.2|-37.3|0.3629
82469136|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|35.9||||0.3077|TWO_SIDED|95.0|-33.4|105.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||105.1|-33.4|0.3077
82469137|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|39.1||||0.2662|TWO_SIDED|95.0|-30.1|108.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||108.4|-30.1|0.2662
82546821|NCT01553058|164793197|OTHER|Difference of differences||||||0.467|||||||Regression, Linear|||||||0.467
82546822|NCT01553058|164793198|OTHER|Difference of differences||||||0.089|||||||Regression, Linear|||||||0.089
82546823|NCT01553058|164793198|OTHER|Difference of differences||||||0.03|||||||Regression, Linear|||||||0.030
82546824|NCT01553058|164793199|OTHER|Difference of differences||||||0.934|||||||Regression, Linear|||||||0.934
82546825|NCT01553058|164793199|OTHER|Difference of differences||||||0.679|||||||Regression, Linear|||||||0.679
82546826|NCT01553058|164793200|OTHER|Difference of differences||||||0.672|||||||Regression, Linear|||||||0.672
82546827|NCT01553058|164793200|OTHER|Difference of differences||||||0.655|||||||Regression, Linear|||||||0.655
82546828|NCT01553058|164793201|OTHER|Difference of differences||||||0.504|||||||Regression, Linear|||||||0.504
82546829|NCT01553058|164793201|OTHER|Difference of differences||||||0.695|||||||Regression, Linear|||||||0.695
82546830|NCT01553058|164793202|OTHER|Difference of differences||||||0.002|||||||Regression, Linear|||||||0.002
82469138|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.4||||0.7875|TWO_SIDED|95.0|-94.7|71.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||71.9|-94.7|0.7875
82469139|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|115.0||||0.0066|TWO_SIDED|95.0|32.6|197.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||197.4|32.6|0.0066
82469140|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|81.7||||0.054|TWO_SIDED|95.0|-1.4|164.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||164.9|-1.4|0.0540
82546831|NCT01553058|164793202|OTHER|Difference of differences||||||0.009|||||||Regression, Linear|||||||0.009
82546832|NCT01553058|164793203|OTHER|Difference of Differences|||||<|0.001|||||||Regression, Linear|||||||<0.001
82579486|NCT02055781|164869457|SUPERIORITY|||||||0.0106|||||||Fisher Exact|||||||0.0106
82579487|NCT03829475|164869467|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82579488|NCT00996476|164869468|SUPERIORITY_OR_OTHER||LS means difference|-2.4|||||TWO_SIDED|95.0|-2.83|-1.97|||ANCOVA||TMC435 50 mg minus PR48 control|Difference in least square (LS) mean change from baseline from the PR48 control group||-1.97|-2.83|
82469141|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8||||0.6014|TWO_SIDED|95.0|-60.6|104.3|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||104.3|-60.6|0.6014
82469142|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|36.1||||0.3885|TWO_SIDED|95.0|-46.3|118.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||118.5|-46.3|0.3885
82469143|NCT01746901|164634256|SUPERIORITY_OR_OTHER||LS Mean Difference|29.5||||0.4801|TWO_SIDED|95.0|-52.9|112.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||112.0|-52.9|0.4801
82546833|NCT01553058|164793203|OTHER|Difference of differences||||||0.065|||||||Regression, Linear|||||||0.065
82546834|NCT01553058|164793204|OTHER|Difference of differences||||||0.007|||||||Regression, Linear|||||||0.007
82546835|NCT01553058|164793204|OTHER|Difference of differences||||||0.019|||||||Regression, Linear|||||||0.019
82546836|NCT01553058|164793205|OTHER|Difference of differences||||||0.006|||||||Regression, Linear|||||||0.006
82546837|NCT01553058|164793205|OTHER|Difference of differences||||||0.628|||||||Regression, Linear|||||||0.628
82546838|NCT01037985|164793227|SUPERIORITY||Mean Difference (Final Values)|-4.3||||0.168|TWO_SIDED|95.0|-10.4|1.9|||t-test, 2 sided|||Within participant treatment difference was assessed between the treatment regimens each participant received (EXC 001 minus placebo).||1.9|-10.4|0.168
82546839|NCT01037985|164793228|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.858|TWO_SIDED|95.0|-3.5|4.2|||t-test, 2 sided|||Within participant treatment difference was assessed between the treatment regimens each participant received (EXC 001 minus placebo).||4.2|-3.5|0.858
82546840|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.003|TWO_SIDED|95.0|-1.6|-0.4|||t-test, 2 sided|||Week 12, Vascularity: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.6|0.003
82546841|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.067|TWO_SIDED|95.0|-1.1|0.0|||t-test, 2 sided|||Week 12, Pigmentation: Comparison within the participant between EXC 001 and placebo.||0.0|-1.1|0.067
82546842|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.001|TWO_SIDED|95.0|-2.1|-0.7|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||-0.7|-2.1|<0.001
82546843|NCT01037985|164793229|SUPERIORITY||Median Difference (Final Values)|-0.9||||0.002|TWO_SIDED|95.0|-1.4|-0.4|||t-test, 2 sided|||Week 12, Relief: Comparison within the participant between EXC 001 and placebo.||-0.4|-1.4|0.002
82546844|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.007|TWO_SIDED|95.0|-1.3|-0.2|||t-test, 2 sided|||Week 12, Pliability: Comparison within the participant between EXC 001 and placebo.||-0.2|-1.3|0.007
82546845|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.214|TWO_SIDED|95.0|-1.1|0.3|||t-test, 2 sided|||Week 12, Surface Area: Comparison within the participant between EXC 001 and placebo.||0.3|-1.1|0.214
82546846|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.003|TWO_SIDED|95.0|-1.5|-0.3|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.3|-1.5|0.003
82546847|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-7.8|-2.2|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||-2.2|-7.8|<0.001
82546848|NCT01037985|164793229|SUPERIORITY||Mean Difference (Net)|0.1||||0.673|TWO_SIDED|95.0|-0.5|0.7|||t-test, 2 sided|||Week 24, Vascularity: Comparison within the participant between EXC 001 and placebo.||0.7|-0.5|0.673
82579489|NCT00996476|164869468|SUPERIORITY_OR_OTHER||LS Means difference|-2.41|||||TWO_SIDED|95.0|-2.85|-1.98|||ANCOVA||TMC435 100 mg minus PR48 control|Difference in least square (LS) mean change from baseline from the PR48 control group||-1.98|-2.85|
82579490|NCT00996476|164869473|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-24.6|||||TWO_SIDED|95.0|-58.3|11.8|||||PR48 control minus TMC12/PR24|The difference in the percentage of participants between The TMC12/PR24 50 mg treatment group and the PR48 control group||11.8|-58.3|
82469144|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.5494|TWO_SIDED|95.0|-2.5|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-2.5|0.5494
82469145|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.0626|TWO_SIDED|95.0|-0.1|3.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.8|-0.1|0.0626
82469146|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.7216|TWO_SIDED|95.0|-1.6|2.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.3|-1.6|0.7216
82469147|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.3647|TWO_SIDED|95.0|-1.0|2.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.8|-1.0|0.3647
82469148|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7||||0.4456|TWO_SIDED|95.0|-2.7|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-2.7|0.4456
82469149|NCT01746901|164634257|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.05|TWO_SIDED|95.0|0.0|3.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.9|0.0|0.0500
82469150|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.34|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.34|-0.69|<0.0001
82469151|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-1.86|-1.52|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.52|-1.86|<0.0001
82469152|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.63|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.63|-0.97|<0.0001
82469153|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.58|-1.23|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.23|-1.58|<0.0001
82469154|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.74|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.56|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.56|-0.91|<0.0001
82469155|NCT01746901|164634258|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.46|-1.11|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.11|-1.46|<0.0001
82469156|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.75|-1.42|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.42|-1.75|<0.0001
82469157|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.3309|TWO_SIDED|95.0|-0.24|0.08|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.08|-0.24|0.3309
82546849|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.276|TWO_SIDED|95.0|-0.3|1.1|||t-test, 2 sided|||Week 24, Pigmentation: Comparison within the participant between EXC 001 and placebo.||1.1|-0.3|0.276
82469158|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.42|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.42|-0.74|<0.0001
82546850|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||0.5|-0.7|0.670
82469159|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.92|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.92|-1.25|<0.0001
82469160|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.59|-0.26|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.26|-0.59|<0.0001
82469161|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.88|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.88|-1.21|<0.0001
82469162|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.03|||<|0.0001|TWO_SIDED|95.0|-4.37|-3.69|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-3.69|-4.37|<0.0001
82469163|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.2475|TWO_SIDED|95.0|-0.54|0.14|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.14|-0.54|0.2475
82546851|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.5|0.5|||t-test, 2 sided|||Week 24, Relief: Comparison within the participant between EXC 001 and placebo.||0.5|-0.5|1.000
82546852|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.909|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||Week 24, Pliability: Comparison within the participant between EXC 001 and placebo.||0.6|-0.5|0.909
82469164|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|||<|0.0001|TWO_SIDED|95.0|-1.96|-1.27|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.27|-1.96|<0.0001
82469165|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.62|||<|0.0001|TWO_SIDED|95.0|-2.96|-2.27|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.27|-2.96|<0.0001
82469166|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.68|-1.0|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.00|-1.68|<0.0001
82469167|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.42|||<|0.0001|TWO_SIDED|95.0|-2.76|-2.08|||Mixed Models Analysis|||AUE (0-2): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.08|-2.76|<0.0001
82469168|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.91|||<|0.0001|TWO_SIDED|95.0|-13.21|-10.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-10.60|-13.21|<0.0001
82469169|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.23|||<|0.0001|TWO_SIDED|95.0|-8.54|-5.93|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-5.93|-8.54|<0.0001
82469170|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9|||<|0.0001|TWO_SIDED|95.0|-9.2|-6.59|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-6.59|-9.20|<0.0001
82469171|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.24|||<|0.0001|TWO_SIDED|95.0|-12.55|-9.94|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.94|-12.55|<0.0001
82469172|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.35|||<|0.0001|TWO_SIDED|95.0|-7.65|-5.05|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-5.05|-7.65|<0.0001
82469173|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.36|||<|0.0001|TWO_SIDED|95.0|-11.67|-9.05|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.05|-11.67|<0.0001
82469174|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.37|||<|0.0001|TWO_SIDED|95.0|-13.16|-9.58|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.58|-13.16|<0.0001
82469175|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.07|||<|0.0001|TWO_SIDED|95.0|-17.86|-14.28|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-14.28|-17.86|<0.0001
82546853|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.852|TWO_SIDED|95.0|-0.6|0.8|||t-test, 2 sided|||Week 24, Surface Area: Comparison within the participant between EXC 001 and placebo.||0.8|-0.6|0.852
82546854|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.906|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||0.6|-0.5|0.906
82469176|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.73|||<|0.0001|TWO_SIDED|95.0|-13.53|-9.93|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.93|-13.53|<0.0001
82469177|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.71|||<|0.0001|TWO_SIDED|95.0|-17.51|-13.91|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-13.91|-17.51|<0.0001
82469178|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.88|||<|0.0001|TWO_SIDED|95.0|-10.67|-7.09|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-7.09|-10.67|<0.0001
82546855|NCT01037985|164793229|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.768|TWO_SIDED|95.0|-2.8|3.8|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||3.8|-2.8|0.768
82469179|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.19|||<|0.0001|TWO_SIDED|95.0|-15.99|-12.39|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-12.39|-15.99|<0.0001
82469180|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.26||||0.8784|TWO_SIDED|95.0|-3.63|3.11|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.11|-3.63|0.8784
82546856|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.773|TWO_SIDED|95.0|-0.4|0.5|||t-test, 2 sided|||Week 12 Pain: Comparison within the participant between EXC 001 and placebo.||0.5|-0.4|0.773
82546857|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|||Week 12, Itching: Comparison within the participant between EXC 001 and placebo.||0.4|-0.4|1.000
82546858|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.072|TWO_SIDED|95.0|-1.4|0.1|||t-test, 2 sided|||Week 12, Color: Comparison within the participant between EXC 001 and placebo.||0.1|-1.4|0.072
82469181|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.66|||<|0.0001|TWO_SIDED|95.0|-45.02|-38.29|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-38.29|-45.02|<0.0001
82469182|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.63|||<|0.0001|TWO_SIDED|95.0|-23.01|-16.25|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-16.25|-23.01|<0.0001
82469183|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.28|||<|0.0001|TWO_SIDED|95.0|-25.67|-18.9|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-18.90|-25.67|<0.0001
82469184|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.5|||<|0.0001|TWO_SIDED|95.0|-15.86|-9.14|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-9.14|-15.86|<0.0001
82469185|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.59|||<|0.0001|TWO_SIDED|95.0|-23.98|-17.21|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-17.21|-23.98|<0.0001
82469186|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|10.64|||<|0.0001|TWO_SIDED|95.0|5.75|15.54|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.54|5.75|<0.0001
82469187|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.74|||<|0.0001|TWO_SIDED|95.0|-62.63|-52.85|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-52.85|-62.63|<0.0001
82469188|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.18|||<|0.0001|TWO_SIDED|95.0|-27.09|-17.27|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-17.27|-27.09|<0.0001
82469189|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.91|||<|0.0001|TWO_SIDED|95.0|-29.83|-20.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-20.00|-29.83|<0.0001
82469190|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.53|||<|0.0001|TWO_SIDED|95.0|-18.41|-8.64|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-8.64|-18.41|<0.0001
82546859|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.851|TWO_SIDED|95.0|-0.7|0.6|||t-test, 2 sided|||Week 12, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.6|-0.7|0.851
82469191|NCT01746901|164634259|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.7|||<|0.0001|TWO_SIDED|95.0|-28.62|-18.78|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-18.78|-28.62|<0.0001
82469192|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.73|||<|0.0001|TWO_SIDED|95.0|-11.9|-7.57|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-7.57|-11.90|<0.0001
82579491|NCT00996476|164869473|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-27.5|||||TWO_SIDED|95.0|-61.1|9.8|||||PR48 control minus TMC12/PR24|The difference in the percentage of participants between The TMC12/PR24 100 mg treatment group and the PR48 control group||9.8|-61.1|
82469193|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|5.16|||<|0.0001|TWO_SIDED|95.0|2.99|7.32|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||7.32|2.99|<0.0001
82469194|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03||||0.9766|TWO_SIDED|95.0|-2.13|2.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.20|-2.13|0.9766
82469195|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.61|||<|0.0001|TWO_SIDED|95.0|-6.78|-2.44|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.44|-6.78|<0.0001
82469196|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39||||0.7242|TWO_SIDED|95.0|-2.55|1.78|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.78|-2.55|0.7242
82546860|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.184|TWO_SIDED|95.0|-1.2|0.2|||t-test, 2 sided|||Week 12, Thickness: Comparison within the participant between EXC 001 and placebo.||0.2|-1.2|0.184
82469197|NCT01746901|164634260|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.45|||<|0.0001|TWO_SIDED|95.0|-6.62|-2.28|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-2.28|-6.62|<0.0001
82469198|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|19.0|||<|0.0001|TWO_SIDED|95.0|14.6|23.5|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||23.5|14.6|<0.0001
82469199|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6||||0.8048|TWO_SIDED|95.0|-3.9|5.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||5.0|-3.9|0.8048
82546861|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.059|TWO_SIDED|95.0|-1.3|0.0|||t-test, 2 sided|||Week 12, Irregular: Comparison within the participant between EXC 001 and placebo.||0.0|-1.3|0.059
82579492|NCT00996476|164869473|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-23.3|||||TWO_SIDED|95.0|-59.9|19.4|||||PR48 control minus TMC24/PR24|The difference in the percentage of participants between The TMC24/PR24 50 mg treatment group and the PR48 control group||19.4|-59.9|
82469200|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6||||0.0002|TWO_SIDED|95.0|4.2|13.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||13.1|4.2|0.0002
82469201|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|11.0|||<|0.0001|TWO_SIDED|95.0|6.5|15.4|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||15.4|6.5|<0.0001
82469202|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1||||0.0019|TWO_SIDED|95.0|2.7|11.6|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||11.6|2.7|0.0019
82469203|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6||||0.001|TWO_SIDED|95.0|3.2|12.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||12.1|3.2|0.0010
82469204|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|127.4|||<|0.0001|TWO_SIDED|95.0|93.6|161.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||161.2|93.6|<0.0001
82469205|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|4.7||||0.7837|TWO_SIDED|95.0|-29.1|38.5|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||38.5|-29.1|0.7837
82469206|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|65.8||||0.0002|TWO_SIDED|95.0|32.0|99.6|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||99.6|32.0|0.0002
82469207|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|66.3||||0.0002|TWO_SIDED|95.0|32.5|100.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||100.1|32.5|0.0002
82469208|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|60.3||||0.0006|TWO_SIDED|95.0|26.5|94.1|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||94.1|26.5|0.0006
82469209|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|31.9||||0.064|TWO_SIDED|95.0|-1.9|65.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||65.7|-1.9|0.0640
82469210|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|142.6|||<|0.0001|TWO_SIDED|95.0|94.5|190.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||190.7|94.5|<0.0001
82469211|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|15.8||||0.5169|TWO_SIDED|95.0|-32.3|63.9|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||63.9|-32.3|0.5169
82469212|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|81.3||||0.0011|TWO_SIDED|95.0|33.2|129.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||129.3|33.2|0.0011
82469213|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|77.1||||0.0018|TWO_SIDED|95.0|29.1|125.2|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||125.2|29.1|0.0018
82469214|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|63.6||||0.0098|TWO_SIDED|95.0|15.6|111.7|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||111.7|15.6|0.0098
82469215|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|39.4||||0.1078|TWO_SIDED|95.0|-8.7|87.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||87.4|-8.7|0.1078
82469216|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|196.0|||<|0.0001|TWO_SIDED|95.0|116.9|275.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||275.1|116.9|<0.0001
82469217|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.9726|TWO_SIDED|95.0|-77.7|80.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||80.5|-77.7|0.9726
82469218|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|114.1||||0.005|TWO_SIDED|95.0|35.0|193.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||193.2|35.0|0.0050
82546862|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.04|TWO_SIDED|95.0|-1.5|0.0|||t-test, 2 sided|||Week 12, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||-0.0|-1.5|0.040
82469219|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|83.3||||0.0392|TWO_SIDED|95.0|4.2|162.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||162.4|4.2|0.0392
82469220|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|68.7||||0.0883|TWO_SIDED|95.0|-10.4|147.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||147.8|-10.4|0.0883
82469221|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|64.4||||0.11|TWO_SIDED|95.0|-14.7|143.5|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||143.5|-14.7|0.1100
82546863|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.12|TWO_SIDED|95.0|-4.1|0.5|||t-test, 2 sided|||Week 12, Composite Score: Comparison within the participant between EXC 001 and placebo.||0.5|-4.1|0.120
82546864|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.094|TWO_SIDED|95.0|-4.0|0.3|||t-test, 2 sided|||Week 12, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||0.3|-4.0|0.094
82546865|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.243|TWO_SIDED|95.0|-0.2|0.6|||t-test, 1 sided|||Week 24, Pain: Comparison within the participant between EXC 001 and placebo.||0.6|-0.2|0.243
82469222|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|242.9|||<|0.0001|TWO_SIDED|95.0|138.6|347.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||347.2|138.6|<0.0001
82469223|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.0||||0.6906|TWO_SIDED|95.0|-125.3|83.2|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||83.2|-125.3|0.6906
82469224|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|118.7||||0.0259|TWO_SIDED|95.0|14.5|223.0|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||223.0|14.5|0.0259
82469225|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|103.2||||0.0525|TWO_SIDED|95.0|-1.1|207.5|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||207.5|-1.1|0.0525
82469226|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|60.2||||0.2558|TWO_SIDED|95.0|-44.1|164.4|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||164.4|-44.1|0.2558
82469227|NCT01746901|164634261|SUPERIORITY_OR_OTHER||LS Mean Difference|88.6||||0.0952|TWO_SIDED|95.0|-15.7|192.9|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||192.9|-15.7|0.0952
82469228|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0298|TWO_SIDED|95.0|-3.3|-0.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-0.2|-3.3|0.0298
82469229|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0008|TWO_SIDED|95.0|1.1|4.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.3|1.1|0.0008
82469230|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.645|TWO_SIDED|95.0|-2.0|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-2.0|0.6450
82579493|NCT00996476|164869473|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-32.3|||||TWO_SIDED|95.0|-66.6|8.3|||||PR48 control minus TMC24/PR24|The difference in the percentage of participants between The TMC24/PR24 100 mg treatment group and the PR48 control group||8.3|-66.6|
82469231|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.0962|TWO_SIDED|95.0|-0.2|2.9|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||2.9|-0.2|0.0962
82469232|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.193|TWO_SIDED|95.0|-2.6|0.5|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||0.5|-2.6|0.1930
82579494|NCT01470001|164869482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.7||||0.1135|TWO_SIDED|95.0|-4.3|39.7|||Mixed Models Analysis|mixed model with repeated measurements||A planned sample size of 56 subjects per group provided 80% power to detect a difference of 0.25 between post void dribbling response rates (assumed to be 0.35 under the null hypothesis and 0.60 under the alternative hypothesis) at a one-sided 0.05 significance level.||39.7|-4.3|.1135
82469233|NCT01746901|164634262|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.031|TWO_SIDED|95.0|0.2|3.3|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||3.3|0.2|0.0310
82469234|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|41.5|||<|0.0001|TWO_SIDED|95.0|33.9|49.0|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||49.0|33.9|<0.0001
82546866|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.339|TWO_SIDED|95.0|-0.2|0.6|||t-test, 2 sided|||Week 24, Itching: Comparison within the participant between EXC 001 and placebo.||0.6|-0.2|0.339
82546867|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.25|TWO_SIDED|95.0|-0.3|1.2|||t-test, 2 sided|||Week 24, Color: Comparison within the participant between EXC 001 and placebo.||1.2|-0.3|0.250
82469235|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4||||0.3763|TWO_SIDED|95.0|-4.2|10.9|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||10.9|-4.2|0.3763
82546868|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.164|TWO_SIDED|95.0|-1.3|0.2|||t-test, 2 sided|||Week 24, Stiffness: Comparison within the participant between EXC 001 and placebo.||0.2|-1.3|0.164
82546869|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-0.8|0.8|||t-test, 2 sided|||Week 24, Thickness: Comparison within the participant between EXC 001 and placebo.||0.8|-0.8|1.000
82546870|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.928|TWO_SIDED|95.0|-0.8|0.7|||t-test, 2 sided|||Week 24, Irregular: Comparison within the participant between EXC 001 and placebo.||0.7|-0.8|0.928
82546871|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.865|TWO_SIDED|95.0|-0.8|0.7|||t-test, 2 sided|||Week 24, Overall Opinion: Comparison within the participant between EXC 001 and placebo.||0.7|-0.8|0.865
82469236|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|18.3|||<|0.0001|TWO_SIDED|95.0|10.7|25.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||25.8|10.7|<0.0001
82469237|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|26.6|||<|0.0001|TWO_SIDED|95.0|19.1|34.1|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||34.1|19.1|<0.0001
82469238|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|20.7|||<|0.0001|TWO_SIDED|95.0|13.1|28.2|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||28.2|13.1|<0.0001
82469239|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|||<|0.0001|TWO_SIDED|95.0|11.8|26.8|||Mixed Models Analysis|||AUE (0-1): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||26.8|11.8|<0.0001
82469240|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|284.3|||<|0.0001|TWO_SIDED|95.0|232.9|335.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||335.8|232.9|<0.0001
82469241|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|31.2||||0.2336|TWO_SIDED|95.0|-20.4|82.8|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||82.8|-20.4|0.2336
82469242|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|167.3|||<|0.0001|TWO_SIDED|95.0|115.7|218.9|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||218.9|115.7|<0.0001
82469243|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|148.3|||<|0.0001|TWO_SIDED|95.0|96.8|199.7|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||199.7|96.8|<0.0001
82469244|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|135.6|||<|0.0001|TWO_SIDED|95.0|84.0|187.2|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||187.2|84.0|<0.0001
82469245|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|113.6|||<|0.0001|TWO_SIDED|95.0|62.1|165.0|||Mixed Models Analysis|||AUE (0-8): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||165.0|62.1|<0.0001
82469246|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|278.3|||<|0.0001|TWO_SIDED|95.0|213.2|343.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||343.3|213.2|<0.0001
82469247|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|71.3||||0.0322|TWO_SIDED|95.0|6.1|136.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||136.5|6.1|0.0322
82469248|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|195.4|||<|0.0001|TWO_SIDED|95.0|130.2|260.5|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||260.5|130.2|<0.0001
82579495|NCT01470001|164869483|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.3||||0.0919|TWO_SIDED|95.0|-2.3|30.8|||Regression, Logistic|logistic regression with repeated measurements||||30.8|-2.3|.0919
82469249|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|154.3|||<|0.0001|TWO_SIDED|95.0|89.2|219.3|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||219.3|89.2|<0.0001
82469250|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|143.2|||<|0.0001|TWO_SIDED|95.0|78.0|208.4|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||208.4|78.0|<0.0001
82469251|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|126.7||||0.0002|TWO_SIDED|95.0|61.7|191.8|||Mixed Models Analysis|||AUE (0-12): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||191.8|61.7|0.0002
82469252|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|202.4|||<|0.0001|TWO_SIDED|95.0|118.4|286.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||286.4|118.4|<0.0001
82469253|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|137.6||||0.0015|TWO_SIDED|95.0|53.3|221.8|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||221.8|53.3|0.0015
82469254|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|192.9|||<|0.0001|TWO_SIDED|95.0|108.7|277.2|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||277.2|108.7|<0.0001
82469255|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|147.0||||0.0007|TWO_SIDED|95.0|63.0|231.1|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||231.1|63.0|0.0007
82469256|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|148.1||||0.0007|TWO_SIDED|95.0|63.9|232.4|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||232.4|63.9|0.0007
82469257|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|109.6||||0.011|TWO_SIDED|95.0|25.5|193.6|||Mixed Models Analysis|||AUE (0-24): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||193.6|25.5|0.0110
82546872|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.804|TWO_SIDED|95.0|-2.3|3.0|||t-test, 2 sided|||Week 24, Composite Score: Comparison within the participant between EXC 001 and placebo.||3.0|-2.3|0.804
82469258|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|196.0|||<|0.0001|TWO_SIDED|95.0|107.4|284.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||284.6|107.4|<0.0001
82469259|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|133.9||||0.0034|TWO_SIDED|95.0|45.0|222.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||222.8|45.0|0.0034
82469260|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|190.9|||<|0.0001|TWO_SIDED|95.0|102.1|279.8|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||279.8|102.1|<0.0001
82469261|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|138.9||||0.0023|TWO_SIDED|95.0|50.3|227.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||227.6|50.3|0.0023
82469262|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|147.8||||0.0013|TWO_SIDED|95.0|59.0|236.7|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||236.7|59.0|0.0013
82469263|NCT01746901|164634263|SUPERIORITY_OR_OTHER||LS Mean Difference|100.0||||0.0273|TWO_SIDED|95.0|11.3|188.6|||Mixed Models Analysis|||AUE (0-36): Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||188.6|11.3|0.0273
82469264|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|||<|0.0001|TWO_SIDED|95.0|-5.0|-1.8|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||-1.8|-5.0|<0.0001
82469265|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0004|TWO_SIDED|95.0|1.3|4.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||4.4|1.3|0.0004
82469266|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.8478|TWO_SIDED|95.0|-1.7|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.7|0.8478
82469267|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.6192|TWO_SIDED|95.0|-1.9|1.2|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.2|-1.9|0.6192
82469268|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8857|TWO_SIDED|95.0|-1.7|1.4|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.4|-1.7|0.8857
82469269|NCT01746901|164634264|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.5092|TWO_SIDED|95.0|-2.1|1.0|||Mixed Models Analysis|||Mixed-effect model with treatment, period, and sequence as fixed effects, and participants nested within the sequence as a random effect.||1.0|-2.1|0.5092
82546873|NCT01037985|164793230|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.937|TWO_SIDED|95.0|-2.6|2.4|||t-test, 2 sided|||Week 24, Scar Appearance Composite Score: Comparison within the participant between EXC 001 and placebo.||2.4|-2.6|0.937
82546874|NCT03725722|164793275|SUPERIORITY||||||<|0.0001||||||"P-values were adjusted for multiple comparisons. Models with adjusted p-value of \<0.025 were stat. sign. diff. from a flat dose-response model.~Model selected: Sigmoid Emax model"|Multiple contrast test|||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 8 in EASI score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.||||<0.0001
82546875|NCT03725722|164793275|SUPERIORITY||Mean Difference (Net)|-3.1|||<|0.01|TWO_SIDED|95.0|-5.0|-1.3||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-1.3|-5.0|<0.01
82546876|NCT03725722|164793275|SUPERIORITY||Mean Difference (Net)|-3.0|||<|0.05|TWO_SIDED|95.0|-4.8|-1.2||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-1.2|-4.8|<0.05
82579496|NCT01470001|164869484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.44|TWO_SIDED|95.0|-17.5|6.2||p value was adjusted for age.|ANCOVA||we calculated the estimated difference in change between the placebo and treatment groups.|the difference in change between the groups was measured||6.2|-17.5|0.44
82469270|NCT02683577|164634277|SUPERIORITY_OR_OTHER||Geometric least square (LS) mean ratio|1.695|||||TWO_SIDED|90.0|0.904|3.176|||||A repeated-measures analysis of variance (ANOVA) was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for Cmax values for telotristat ethyl.||3.176|0.904|
82650608|NCT01360632|165016427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.0925|TWO_SIDED|95.0|-2.58|0.2|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a Mixed Model Repeated Measures (MMRM) analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||0.2|-2.58|0.0925
82469271|NCT02683577|164634277|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.462|||||TWO_SIDED|90.0|1.579|3.837|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) for Cmax values for telotristat ethyl.||3.837|1.579|
82469272|NCT02683577|164634278|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|1|TWO_SIDED|90.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median difference between the mild HI group (Test) versus healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||0.000|0.000|=1.0000
82469273|NCT02683577|164634278|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|1|TWO_SIDED|90.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median difference between the moderate HI group (Test) versus healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||0.000|0.000|=1.0000
82469274|NCT02683577|164634279|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.294|||||TWO_SIDED|90.0|1.144|4.598|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for AUC(0-tlast) values for telotristat ethyl.||4.598|1.144|
82469275|NCT02683577|164634279|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.168|||||TWO_SIDED|90.0|1.715|5.852|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for telotristat ethyl.||5.852|1.715|
82469276|NCT02683577|164634281|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|1.72|||||TWO_SIDED|90.0|1.11|2.65|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) for Cmax values for LP-778902.||2.65|1.11|
82469277|NCT02683577|164634281|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.0|||||TWO_SIDED|90.0|1.51|2.66|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on Cmax values for LP-778902.||2.66|1.51|
82469278|NCT02683577|164634282|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|0.316|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median differences between the hepatic impaired group (Test) versus the healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||1.000|0.000|=0.3160
82469279|NCT02683577|164634282|SUPERIORITY_OR_OTHER||Median difference|0.0|||=|0.4671|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||The Tmax was analysed using a non-parametric analysis (Walsh averages and appropriate quantile of the Wilcoxon signed rank test statistic). The median differences between the hepatic impaired group (Test) versus the healthy control group (Reference) and the corresponding 90% CIs were calculated by Hodges-Lehmann estimation.||1.000|0.000|=0.4671
82469280|NCT02683577|164634283|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.39|||||TWO_SIDED|90.0|1.45|3.94|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for LP-778902.||3.94|1.45|
82469281|NCT02683577|164634283|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.52|||||TWO_SIDED|90.0|2.45|5.03|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-tlast) values for LP-778902.||5.03|2.45|
82469282|NCT02683577|164634284|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|2.26|||||TWO_SIDED|90.0|1.33|3.82|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of mild HI group (Test) versus healthy control group (Reference) on ln transformed AUC(0-inf) values for LP-778902.||3.82|1.33|
82579497|NCT00734591|164869505|SUPERIORITY_OR_OTHER||Exact method|2.81|||||TWO_SIDED|95.0|0.5|28.46|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||28.46|0.50|
82469283|NCT02683577|164634284|SUPERIORITY_OR_OTHER||Geometric LS mean ratio|3.32|||||TWO_SIDED|90.0|2.3|4.8|||||A repeated-measures ANOVA was performed using a linear mixed effects model, with hepatic function group as a fixed term. Geometric LS mean ratios were derived for each HI group (Test) versus healthy control group (Reference).|Comparison of moderate HI group (Test) versus healthy control group (Reference) on AUC(0-inf) values for LP-778902.||4.80|2.30|
82469284|NCT03594110|164634287|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0017 required at interim analysis."|Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|99.83|0.59|0.89|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression or CV death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||0.89|0.59|<0.0001
82469285|NCT03594110|164634288|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0145 required at interim analysis."|Hazard Ratio (HR)|0.84||||0.1363|TWO_SIDED|98.55|0.63|1.12|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first hospitalization for heart failure or cardiovascular death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||1.12|0.63|0.1363
82469286|NCT03594110|164634289|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin. Two-sided significance level of \<0.0097 required at interim analysis.|Hazard Ratio (HR)|0.86||||0.0022|TWO_SIDED|99.03|0.76|0.98|||Joint frailty model||Comparison vs. Placebo|Hazard ratio (HR) of the time to occurrences of all-cause hospitalizations (first and recurrent combined). HR based on an analysis of recurrent events accounting for terminal events using a joint frailty model with terms for age, log(local screening UACR), local screening Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), treatment, sex, screening diabetes status, region.||0.98|0.76|0.0022
82469287|NCT03594110|164634290|SUPERIORITY|"Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.~Two-sided significance level of \<0.0290 required at interim analysis."|Hazard Ratio (HR)|0.87||||0.2122|TWO_SIDED|97.1|0.68|1.11|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to death from any cause. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||1.11|0.68|0.2122
82469288|NCT03594110|164634291|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.81|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.81|0.62|<0.0001
82469289|NCT03594110|164634292|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.83||||0.2932|TWO_SIDED|95.0|0.59|1.17|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to cardiovascular death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||1.17|0.59|0.2932
82469290|NCT03594110|164634293|SUPERIORITY|Null hypothesis: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.72||||0.0017|TWO_SIDED|95.0|0.59|0.89|||Regression, Cox||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence cardiovascular death or end stage kidney disease (ESKD). HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.89|0.59|0.0017
82469291|NCT03594110|164634294|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression or CV death. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening Urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.72|
82469292|NCT03594110|164634295|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.72|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of kidney disease progression. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.72|
82650609|NCT01360632|165016427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.0327|TWO_SIDED|95.0|-2.92|-0.13|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a MMRM analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||-0.13|-2.92|0.0327
82650610|NCT01360632|165016428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0737|TWO_SIDED|95.0|-2.73|0.13|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.13|-2.73|0.0737
82469293|NCT03594110|164634296|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.72|0.9|||||Comparison vs. Placebo|Hazard ratio (HR) of the time to first occurrence of death from any cause or ESKD. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.90|0.72|
82469294|NCT03594110|164634297|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.64|0.87|||||Comparison vs. Placebo|Hazard ratio (HR) of ESKD. HR is based on a Cox regression model with terms for age, sex, screening diabetes status, local screening estimated glomerular filtration rate Chronic Kidney Disease Epidemiology Collaboration (eGFR (CKD-EPI)), local screening urine albumin-to-creatinine ratio (UACR), region and treatment.||0.87|0.64|
82469295|NCT03594110|164634298|OTHER||Mean Difference (Net)|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.11|||Mixed Models Analysis||\[Comparator\] - \[Placebo\]|A mixed model of repeated measures (MMRM) with terms for baseline, age, sex, screening diabetes status, local screening eGFR, local screening UACR, treatment, treatment-by-time interaction and baseline-by-time interaction.||-0.11|-0.38|< 0.001
82469296|NCT03594110|164634299|OTHER||Mean Difference (Net)|-12.0||||0.41|TWO_SIDED|95.0|-42.0|17.0|||Regression, Linear||\[Comparator\]-\[Placebo\]|Differences in MRI measurements between treatment groups were assessed using a linear regression with terms for age, sex, screening diabetes status, local screening eGFR, local screening UACR was used in the analysis.||17|-42|0.41
82469297|NCT00089752|164634313|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was designed to achieve at least 80% power, using n 1⁄4 123 per group with an effect size of at least 0.36|Adjusted difference in mean change|-1.76||||0.09|TWO_SIDED|95.0|-3.8|0.3||a priori threshold was p\<0.05|ANCOVA|||Intent to Treat analysis with Last Observation Carried Forward.||0.3|-3.8|0.09
82469298|NCT03879772|164634324|SUPERIORITY|||||||0.95|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way analysis of variance (ANOVA).||||0.95
82469299|NCT03879772|164634324|SUPERIORITY|||||||0.78|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.78
82469300|NCT03879772|164634324|SUPERIORITY|||||||0.98|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.98
82469301|NCT03879772|164634324|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469302|NCT03879772|164634324|SUPERIORITY|||||||0.82|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.82
82469303|NCT03879772|164634324|SUPERIORITY|||||||0.98|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.98
82650611|NCT01360632|165016428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95||||0.0079|TWO_SIDED|95.0|-3.39|-0.51|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.51|-3.39|0.0079
82469304|NCT03879772|164634324|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469305|NCT03879772|164634324|SUPERIORITY|||||||0.8|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.8
82469306|NCT03879772|164634324|SUPERIORITY|||||||0.02|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.02
82469307|NCT03879772|164634324|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469308|NCT03879772|164634325|SUPERIORITY|||||||0.56|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.56
82469309|NCT03879772|164634325|SUPERIORITY|||||||0.74|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.74
82469310|NCT03879772|164634325|SUPERIORITY|||||||0.68|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.68
82469311|NCT03879772|164634325|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469312|NCT03879772|164634325|SUPERIORITY|||||||0.81|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.81
82469313|NCT03879772|164634325|SUPERIORITY|||||||0.33|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.33
82469314|NCT03879772|164634325|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469315|NCT03879772|164634325|SUPERIORITY|||||||0.46|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.46
82469316|NCT03879772|164634325|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469317|NCT03879772|164634325|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469318|NCT03879772|164634326|SUPERIORITY|||||||0.8|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.8
82469319|NCT03879772|164634326|SUPERIORITY|||||||0.45|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.45
82469320|NCT03879772|164634326|SUPERIORITY|||||||0.12|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.12
82469321|NCT03879772|164634326|SUPERIORITY|||||||0.36|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.36
82469322|NCT03879772|164634326|SUPERIORITY|||||||0.6|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.6
82469323|NCT03879772|164634326|SUPERIORITY|||||||0.17|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.17
82469324|NCT03879772|164634326|SUPERIORITY|||||||0.23|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.23
82469325|NCT03879772|164634326|SUPERIORITY|||||||0.42|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.42
82650612|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.0096|TWO_SIDED|95.0|-1.86|-0.26|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.26|-1.86|0.0096
82469326|NCT03879772|164634326|SUPERIORITY|||||||0.09|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.09
82469327|NCT03879772|164634326|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469328|NCT03879772|164634327|SUPERIORITY|||||||0.03|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.03
82469329|NCT03879772|164634327|SUPERIORITY|||||||0.04|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.04
82469330|NCT03879772|164634327|SUPERIORITY|||||||0.08|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.08
82469331|NCT03879772|164634327|SUPERIORITY|||||||0.49|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.49
82469332|NCT03879772|164634327|SUPERIORITY|||||||0.93|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.93
82469333|NCT03879772|164634327|SUPERIORITY|||||||0.75|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.75
82469334|NCT03879772|164634327|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469335|NCT03879772|164634327|SUPERIORITY|||||||0.71|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.71
82469336|NCT03879772|164634327|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469337|NCT03879772|164634327|SUPERIORITY|||||||0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.01
82469338|NCT03879772|164634328|SUPERIORITY|||||||0.16|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.16
82579498|NCT00734591|164869506|SUPERIORITY_OR_OTHER||Exact method|2.29|||||TWO_SIDED|95.0|0.37|24.01|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||24.01|0.37|
82469339|NCT03879772|164634328|SUPERIORITY|||||||0.22|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.22
82469340|NCT03879772|164634328|SUPERIORITY|||||||0.14|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.14
82469341|NCT03879772|164634328|SUPERIORITY|||||||0.14|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.14
82469342|NCT03879772|164634328|SUPERIORITY|||||||0.85|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.85
82469343|NCT03879772|164634328|SUPERIORITY|||||||0.96|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.96
82469344|NCT03879772|164634328|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469345|NCT03879772|164634328|SUPERIORITY|||||||0.81|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.81
82469346|NCT03879772|164634328|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469347|NCT03879772|164634328|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469348|NCT03879772|164634329|SUPERIORITY|||||||0.05|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.05
82469349|NCT03879772|164634329|SUPERIORITY|||||||0.07|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.07
82469350|NCT03879772|164634329|SUPERIORITY|||||||0.11|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.11
82469351|NCT03879772|164634329|SUPERIORITY|||||||0.31|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.31
82469352|NCT03879772|164634329|SUPERIORITY|||||||0.94|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.94
82469353|NCT03879772|164634329|SUPERIORITY|||||||0.73|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.73
82469354|NCT03879772|164634329|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469355|NCT03879772|164634329|SUPERIORITY|||||||0.79|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||0.79
82469356|NCT03879772|164634329|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469357|NCT03879772|164634329|SUPERIORITY||||||<|0.01|||||||ANOVA|||Pairwise comparisons were performed using least square means from two-way ANOVA.||||<0.01
82469358|NCT01598532|164634332|SUPERIORITY_OR_OTHER||||||<|0.004|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effect of LED treatments||||<0.004
82469359|NCT01598532|164634333|SUPERIORITY_OR_OTHER||||||<|0.003|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effect of LED treatments||||<0.003
82469360|NCT01598532|164634334|SUPERIORITY_OR_OTHER||||||<|0.003|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for effect of LED treatments||||<0.003
82469361|NCT01598532|164634335|SUPERIORITY_OR_OTHER||||||<|0.006|||||||ANOVA|Univariate, one-way, repeated measure ANOVA with trend analysis||linear trend over time for the effects of LED treatments||||<0.006
82579499|NCT00734591|164869507|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.81|||||TWO_SIDED|95.0|0.6|1.1||||||||1.10|0.60|
82469362|NCT01967940|164634369|SUPERIORITY|Enrollment into this study was stopped early due to the challenge of recruiting a sufficient number of participants who met the eligibility criteria. The actual number of enrolled is 55, among them 43 enrolled in the Randomized Cohort. Based on the actual enrollment numbers, the power to detect a 35% difference drops to 51%, under the same assumptions in the original sample size calculations.|Difference in proportions|60.7|||<|0.001|TWO_SIDED|95.0|42.6|78.8|||Fisher Exact||The 95% confidence interval was estimated based on unconditional exact method using 2 inverted 1-sided tests with the standardized statistic.|A sample size of 90 participants, randomized in a 2:1 ratio, achieves 89% power to detect a 35% difference in the proportion of participants with HIV-1 RNA decreases from baseline exceeding 0.5 log10 between the TAF and placebo arms at Day 10. Sample size and power computation was based on the assumption that 50% of participants in the TAF arm and 15% of participants in the placebo arm achieved a reduction exceeding 0.5 log10 HIV-1 RNA.||78.8|42.6|<0.001
82469363|NCT00940771|164634389|OTHER|Friedman's Test|Chi Square|12.3||||0.006|TWO_SIDED||||||Friedman's Test|3 degrees of freedom.||||||.006
82650613|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.4137|TWO_SIDED|95.0|-1.14|0.47|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.47|-1.14|0.4137
82650614|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.0065|TWO_SIDED|95.0|-2.47|-0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate||Statistical analysis at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.4|-2.47|0.0065
82650615|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.0914|TWO_SIDED|95.0|-1.93|0.14|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.14|-1.93|0.0914
82469364|NCT00940771|164634389|OTHER|Post Hoc testing Post hoc Wilcoxon Signed Rank tests||||||0.007|||||||Wilcoxon Signed Rank|Z=-2.701||Nul lHypothesis that there is no difference between specific time points.||||.007
82469365|NCT00940771|164634390|OTHER|Friedman's test with 3 df||||||0.356|||||||Friedman's Test|3 degrees of freedom||||||.356
82469366|NCT00940771|164634391|OTHER||Chi-square|1.0||||0.801|TWO_SIDED||||||Friedman's test|3 degrees of freedom|1.0 is the actual calculated Chi-X value, not the p value.|The null hypothesis was that there was a difference. We were looking for no difference between before and after switch.||||.801
82469367|NCT00940771|164634392|OTHER|Friedman's test||||||0.075||||||a priori threshold for statistical significance 0.05|Friedman's test|3 degrees of freedom||||||.075
82469368|NCT02593006|164634399|SUPERIORITY||Risk Difference (RD)|10.3|||>|0.05|TWO_SIDED|95.0|-3.2|23.8|||Propensity weighted regression model|||||23.8|-3.2|>0.05
82469369|NCT02593006|164634400|SUPERIORITY|||||||0.04||||||Global test of interaction between time and treatment group.|Mixed Models Analysis|||||||0.04
82650616|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.0139|TWO_SIDED|95.0|-2.5|-0.28|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.28|-2.5|0.0139
82469370|NCT02072668|164634403|SUPERIORITY|||||||0.6281|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.6281
82469371|NCT02072668|164634404|SUPERIORITY|||||||0.7973|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.7973
82469372|NCT02072668|164634405|SUPERIORITY|||||||0.4442|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4442
82469373|NCT02072668|164634406|SUPERIORITY|||||||0.2545|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.2545
82469374|NCT02072668|164634412|SUPERIORITY|||||||0.4374|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4374
82469375|NCT02072668|164634413|SUPERIORITY|||||||0.347|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.3470
82469376|NCT02072668|164634414|SUPERIORITY|||||||0.0755|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0755
82579500|NCT00734591|164869508|SUPERIORITY_OR_OTHER||Exact method|3.75|||||TWO_SIDED|95.0|1.01|20.68|||||Incidence density ratio confidence interval derived from exact methods utilizing exact binomial limits and ratio of exposures.|||20.68|1.01|
82469377|NCT02072668|164634416|SUPERIORITY|||||||0.0708|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0708
82469378|NCT02072668|164634417|SUPERIORITY|||||||0.4501|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.4501
82469379|NCT02072668|164634418|SUPERIORITY|||||||0.0767|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.0767
82469380|NCT02072668|164634419|SUPERIORITY|||||||0.725|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.7250
82469381|NCT01929317|164634446|SUPERIORITY_OR_OTHER||Mean change from Baseline|-4.8|||<|0.001|TWO_SIDED|95.0|-6.3|-3.2|||t-test, 1 sided|||||-3.2|-6.3|<0.001
82469382|NCT01929317|164634447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.4|2.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 2.|||2.0|-2.4|
82469383|NCT01929317|164634447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.9|3.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 4.|||3.1|-1.9|
82469384|NCT01929317|164634447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-2.3|3.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 6.|||3.0|-2.3|
82469385|NCT01929317|164634447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-3.4|2.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 8.|||2.0|-3.4|
82469386|NCT01929317|164634447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-2.0|3.9|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part III total score for Week 12.|||3.9|-2.0|
82469387|NCT01929317|164634449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 2.|||0.3|-0.2|
82469388|NCT01929317|164634449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 4.|||0.4|-0.2|
82469389|NCT01929317|164634449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.4|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 6.|||0.3|-0.4|
82469390|NCT01929317|164634449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 8.|||0.3|-0.3|
82546877|NCT03725722|164793275|SUPERIORITY||Mean Difference (Net)|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.8|-2.1||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-2.1|-5.8|<0.0001
82469391|NCT01929317|164634449|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 1 total score for Week 12.|||0.6|-0.2|
82469392|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.8|0.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 2, On status.|||0.1|-1.8|
82469393|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-2.4|0.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 4, On status.|||0.1|-2.4|
82469394|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-2.6|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 6, On status.|||0.3|-2.6|
82469395|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-2.8|0.3|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 8, On status.|||0.3|-2.8|
82469396|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-2.7|0.7|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 12, On status.|||0.7|-2.7|
82469397|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.8|0.5|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 2, Off status.|||0.5|-1.8|
82469398|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.6|0.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 4, Off status.|||0.8|-2.6|
82469399|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.8|1.0|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 6, Off status.|||1.0|-2.8|
82469400|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.1|1.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 8, Off status.|||1.8|-2.1|
82469401|NCT01929317|164634450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.2|2.1|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 2 total score for Week 12, Off status.|||2.1|-2.2|
82469402|NCT01929317|164634451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.7|0.4|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 2.|||0.4|-0.7|
82469403|NCT01929317|164634451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.7|0.6|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 4.|||0.6|-0.7|
82469404|NCT01929317|164634451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.7|0.8|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 6.|||0.8|-0.7|
82469405|NCT01929317|164634451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.7|0.7|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 8.|||0.7|-0.7|
82469406|NCT01929317|164634451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.9|0.5|||||Estimated value and CI are presented for the change from Baseline in Japanese UPDRS Part 4 total score for Week 12.|||0.5|-0.9|
82469407|NCT01929317|164634464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.65|1.04|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 2."|||1.04|-1.65|
82469408|NCT01929317|164634464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-1.34|1.45|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 4."|||1.45|-1.34|
82469409|NCT01929317|164634464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|||||TWO_SIDED|95.0|-1.95|1.24|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 6."|||1.24|-1.95|
82469410|NCT01929317|164634464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-2.44|0.75|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 8."|||0.75|-2.44|
82469411|NCT01929317|164634464|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07|||||TWO_SIDED|95.0|-2.73|0.58|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent Off for Week 12."|||0.58|-2.73|
82469412|NCT01929317|164634465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|||||TWO_SIDED|95.0|-8.77|6.71|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 2."|||6.71|-8.77|
82469413|NCT01929317|164634465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-7.94|8.22|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 4."|||8.22|-7.94|
82469414|NCT01929317|164634465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.78|||||TWO_SIDED|95.0|-12.06|6.49|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 6."|||6.49|-12.06|
82469415|NCT01929317|164634465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46|||||TWO_SIDED|95.0|-14.06|5.14|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 8."|||5.14|-14.06|
82579501|NCT02236988|164869512|OTHER||Ratio of Adjusted Geometric Means|65.3|||||TWO_SIDED|90.0|55.0|77.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an analysis of variance (ANOVA) was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||77.6|55.0|
82579502|NCT02236988|164869512|OTHER||Ratio of Adjusted Geometric Means|80.4|||||TWO_SIDED|90.0|67.8|95.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||95.5|67.8|
82469416|NCT01929317|164634465|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98|||||TWO_SIDED|95.0|-15.92|3.96|||||"Estimated value and CI are presented for the change from Baseline in the proportion of awake time spent Off for Week 12."|||3.96|-15.92|
82469417|NCT01929317|164634466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-1.07|1.21|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 2."|||1.21|-1.07|
82469418|NCT01929317|164634466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||||TWO_SIDED|95.0|-0.75|1.7|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 4."|||1.70|-0.75|
82469419|NCT01929317|164634466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.65|1.86|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 6."|||1.86|-0.65|
82469420|NCT01929317|164634466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||||TWO_SIDED|95.0|-0.52|2.22|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 8."|||2.22|-0.52|
82469421|NCT01929317|164634466|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|||||TWO_SIDED|95.0|-0.55|2.26|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On for Week 12."|||2.26|-0.55|
82469422|NCT01929317|164634467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-0.98|1.36|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 2."|||1.36|-0.98|
82469423|NCT01929317|164634467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|||||TWO_SIDED|95.0|-0.64|1.78|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 4."|||1.78|-0.64|
82469424|NCT01929317|164634467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|||||TWO_SIDED|95.0|-0.71|1.84|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 6."|||1.84|-0.71|
82469425|NCT01929317|164634467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||||TWO_SIDED|95.0|-0.47|2.39|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 8."|||2.39|-0.47|
82469426|NCT01929317|164634467|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||||TWO_SIDED|95.0|-0.63|2.33|||||"Estimated value and CI are presented for the change from Baseline in actual hours of awake time spent On without troublesome dyskinesias for Week 12."|||2.33|-0.63|
82469427|NCT02667119|164634477|SUPERIORITY||F|4.75||||0.041|TWO_SIDED||||||ANCOVA|Controlled for baseline scores on the National Stressful Events PTSD Scale||Compared the two groups at 3 months post-baseline||||.041
82469428|NCT02667119|164634478|SUPERIORITY||F|6.89||||0.016|TWO_SIDED||||||ANCOVA|Controlled for baseline score on the National Stressful Events PTSD Scale||||||.016
82469429|NCT02667119|164634479|SUPERIORITY||t|-2.19||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||.04
82469430|NCT02667119|164634480|SUPERIORITY||F|2.25||||0.148|TWO_SIDED|||||Controlling for baseline score on the Center for Epidemiological Studies-Depressed Mood scale|ANCOVA|||||||.148
82469431|NCT02667119|164634481|SUPERIORITY||F|4.64||||0.043|TWO_SIDED||||||ANCOVA|Controlling for baseline score on the Center for Epidemiological Studies-Depressed Mood scale||||||.043
82469432|NCT02667119|164634482|SUPERIORITY||F|1.4||||0.25|TWO_SIDED|||||Controlling for baseline score on the Quality of Life Scale|ANCOVA|||||||.250
82469433|NCT02667119|164634483|SUPERIORITY||F|0.45||||0.508|TWO_SIDED||||||ANCOVA|Controlling for baseline score on the Quality of Life Scale||||||.508
82469434|NCT02059278|164634490|EQUIVALENCE|Analysis at 8 am on Day 15|Mean Difference (Final Values)|0.781||||0.0091|TWO_SIDED|95.0|0.195|1.366|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.366|0.195|0.0091
82469435|NCT02059278|164634490|EQUIVALENCE|Analysis at 10 am on Day 15|Mean Difference (Final Values)|0.664||||0.0098|TWO_SIDED|95.0|0.161|1.167|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.167|0.161|0.0098
82469436|NCT02059278|164634490|EQUIVALENCE|Analysis at 4 pm on Day 15|Mean Difference (Final Values)|0.542||||0.0398|TWO_SIDED|95.0|0.025|1.058|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 15|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.058|0.025|0.0398
82579503|NCT02236988|164869512|OTHER||Ratio of Adjusted Geometric Means|84.2|||||TWO_SIDED|90.0|70.9|99.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||99.9|70.9|
82579504|NCT02236988|164869514|OTHER||Ratio of Adjusted Geometric Means|61.8|||||TWO_SIDED|90.0|51.7|73.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||73.9|51.7|
82469437|NCT02059278|164634490|EQUIVALENCE|Analysis at 8 am on Day 42|Mean Difference (Final Values)|0.478||||0.1008|TWO_SIDED|95.0|-0.093|1.05|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.050|-0.093|0.1008
82469438|NCT02059278|164634490|EQUIVALENCE|Analysis at 10 am on Day 42|Mean Difference (Final Values)|0.505||||0.0558|TWO_SIDED|95.0|-0.013|1.024|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.024|-0.013|0.0558
82469439|NCT02059278|164634490|EQUIVALENCE|Analysis at 4 pm on Day 42|Mean Difference (Final Values)|0.538||||0.0491|TWO_SIDED|95.0|0.002|1.074|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 42|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.074|0.002|0.0491
82469440|NCT02059278|164634490|EQUIVALENCE|Analysis at 8 am on Day 84|Mean Difference (Final Values)|0.808||||0.0025|TWO_SIDED|95.0|0.286|1.329|||ANCOVA||ANCOVA on change from baseline at 8 am on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.329|0.286|0.0025
82469441|NCT02059278|164634490|EQUIVALENCE|Analysis at 10 am on Day 84|Mean Difference (Final Values)|0.627||||0.0113|TWO_SIDED|95.0|0.143|1.111|||ANCOVA||ANCOVA on change from baseline at 10 am on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||1.111|0.143|0.0113
82469442|NCT02059278|164634490|EQUIVALENCE|Analysis at 4 pm on Day 84|Mean Difference (Final Values)|0.456||||0.0649|TWO_SIDED|95.0|-0.063|0.975|||ANCOVA||ANCOVA on change from baseline at 4 pm on Day 84|The primary endpoint was measured at 9 separate assessment times (3 time points over a 12 hour period on 3 separate days. The primary analysis was based on a comparison of the IOP change from baseline between the two arms at each assessment.The equivalence margin was tested using an analysis of covariance on change from baseline with pooled site and baseline as a factor. Equivalence was considered to be met if the 95% confidence intervals were within 1.5 mmHg at each of the 9 assessment points.||0.975|-0.063|0.0649
82469443|NCT04467905|164634513|SUPERIORITY||Mean Difference (Final Values)|-29.9|||<|0.0001|TWO_SIDED|95.0|-40.3|-19.3|||ANCOVA||The mean difference is the difference in adjusted means for the change between baseline value and nadir in the placebo group and the change between baseline and nadir in the etripamil group.|||-19.3|-40.3|<0.0001
82469444|NCT04684836|164634519|SUPERIORITY|The analysis leveraged a difference-in-differences research design in an intent-to-treat framework, comparing outcomes for patients receiving care at high-telehealth practices with patients at comparable low-telehealth practices, before relative to after the onset of the pandemic (when telehealth use increased significantly).|Mean Difference (Net)|-0.0255||||0.0793|TWO_SIDED||||||Regression, Linear|All models included practice and year-quarter fixed effects, and clustered standard errors at the practice level.|This is the Unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|||||0.0793
82469445|NCT04684836|164634519|SUPERIORITY|Difference-in-differences model|Mean Difference (Net)|-0.0786||||0.5739|TWO_SIDED|||||This is the fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||||||0.5739
82469446|NCT04684836|164634520|SUPERIORITY||Mean Difference (Net)|-0.0014||||0.3261|TWO_SIDED|||||This is an adjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|Regression, Linear|||Difference-in-differences model||||0.3261
82469447|NCT04684836|164634520|SUPERIORITY||Mean Difference (Net)|0.0806|||<|0.01|TWO_SIDED|||||This is a fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences model||||<0.01
82469448|NCT04684836|164634521|SUPERIORITY||Mean Difference (Net)|-0.0217||||0.1101|TWO_SIDED|||||This is an adjusted unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction.|Regression, Linear|||Difference-in-differences||||0.1101
82469449|NCT04684836|164634521|SUPERIORITY||Mean Difference (Net)|0.5551||||0.4618|TWO_SIDED|||||This is a fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences||||0.4618
82579505|NCT02236988|164869514|OTHER||Ratio of Adjusted Geometric Means|71.2|||||TWO_SIDED|90.0|59.6|85.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.1|59.6|
82469450|NCT04684836|164634523|SUPERIORITY||Mean Difference (Net)|-0.0012||||0.8577|TWO_SIDED|||||This is an unadjusted model, which included only an indicator for high telemedicine practice, post-period, and its two-way interaction|Regression, Linear|||Difference-in-differences||||0.8577
82469451|NCT04684836|164634523|SUPERIORITY||Mean Difference (Net)|0.2014||||0.5954|TWO_SIDED|||||This is the fully adjusted regression model, which controlled for patient age group, gender, dual status, race, average percent of 65+ patients, risk score category, rural vs urban, and zip-code level characteristics.|Regression, Linear|||Difference-in-differences||||0.5954
82469452|NCT04145349|164634559|SUPERIORITY||Posterior Mean Hazard Ratio|0.69|||||TWO_SIDED|98.0|0.25|1.69|||Bayesian hierarchical model|||The Bayesian analyses below include posterior mean of Hazard ratio, and credible intervals instead of confidence intervals.|The posterior probability treatment difference is 0.864|1.69|0.25|
82469453|NCT01148979|164634578|OTHER|A Paired sample t-test was used to test the null hypothesis of no difference in MDAR score change after 4 weeks of treatment with Vyvanse versus placebo.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The statistical analysis represents a within-subject comparison of change under treatment with Vyvanse versus change under treatment with placebo, using paired t-tests with each subject as their own control. All tests reported are two-tailed.||||<0.05
82469454|NCT00554216|164634585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.36|STANDARD_ERROR_OF_MEAN|0.476|<|0.0001|TWO_SIDED|95.0|8.43|10.3||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||10.30|8.43|<0.0001
82469455|NCT00554216|164634585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54|STANDARD_ERROR_OF_MEAN|0.596|<|0.0001|TWO_SIDED|95.0|2.38|4.71||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||4.71|2.38|<0.0001
82469456|NCT00554216|164634585|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.82|STANDARD_ERROR_OF_MEAN|0.596|<|0.0001|TWO_SIDED|95.0|4.65|6.99||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||6.99|4.65|<0.0001
82650617|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.2097|TWO_SIDED|95.0|-1.82|0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.4|-1.82|0.2097
82469457|NCT00554216|164634586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.61|STANDARD_ERROR_OF_MEAN|1.463|<|0.0001|TWO_SIDED|95.0|7.13|12.95||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||12.95|7.13|<0.0001
82469458|NCT00554216|164634586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97|STANDARD_ERROR_OF_MEAN|0.706|<|0.0001|TWO_SIDED|95.0|2.8|5.63||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||5.63|2.80|<0.0001
82469459|NCT00554216|164634586|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|STANDARD_ERROR_OF_MEAN|0.394|<|0.0001|TWO_SIDED|95.0|1.76|3.33||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 250 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||3.33|1.76|<0.0001
82469460|NCT05462756|164634594|NON_INFERIORITY|The sample size provided \>99% statistical power to show noninferiority assuming a 0.4% noninferiority margin (NIM), in insulin efsitora doses compared to insulin glargine, in a 1:1 randomization, a standard deviation (SD) of 1.1%, and a dropout rate of 15%.|LS Mean Difference|-0.012|||||TWO_SIDED|95.0|-0.14|0.116||||||Least Squares (LS) Mean was determined using ANCOVA model with Baseline + Country + Personal Use of CGM or FGM at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed.||0.116|-0.140|
82469461|NCT05462756|164634595|SUPERIORITY||LS Mean Difference|-0.012||||0.855|TWO_SIDED|95.0|-0.14|0.116|||ANCOVA|||Least Squares (LS) Mean was determined using ANCOVA model with Baseline + Country + Personal Use of CGM or FGM at Randomization + Treatment (Type III sum of squares) as variables. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed.||0.116|-0.140|0.855
82469462|NCT05462756|164634596|SUPERIORITY||Odds Ratio (OR)|1.11||||0.504|TWO_SIDED|95.0|0.81|1.52|||Chi-squared|||||1.52|0.81|0.504
82469463|NCT05462756|164634597|SUPERIORITY||Relative rate|0.67||||0.058|TWO_SIDED|95.0|0.44|1.01|||Negative binomial model||Relative rate is the ratio of the group means (Insulin Efsitora vs Insulin Glargine).|Group mean is determined by Negative Binomial Model using Number of episodes = Baseline hypoglycemia rate + Hemoglobin A1c at Baseline (%) + Treatment, with log (exposure in days/365.25) as an offset variable.||1.01|0.44|0.058
82469464|NCT05462756|164634598|SUPERIORITY||LS Mean Difference|-4.29||||0.104|TWO_SIDED|95.0|-9.461|0.886|||ANCOVA|||LS Mean was determined using ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||0.886|-9.461|0.104
82650618|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.0099|TWO_SIDED|95.0|-2.75|-0.38|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.38|-2.75|0.0099
82469465|NCT05462756|164634599|SUPERIORITY||LS Mean Difference|1.35||||0.337|TWO_SIDED|95.0|-1.404|4.101|||ANCOVA|||LS Mean was determined using ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||4.101|-1.404|0.337
82469466|NCT05462756|164634600|SUPERIORITY||LS Mean Difference|1.59||||0.104|TWO_SIDED|95.0|-0.327|3.508|||ANCOVA|||LS Mean was determined by ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables. Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||3.508|-0.327|0.104
82650619|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.034|TWO_SIDED|95.0|-2.48|-0.1|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.1|-2.48|0.034
82500047|NCT00748033|164690695|OTHER|||||||0.7105|||||||Wilcoxon (Mann-Whitney)|||The mean perception of the 5s and the 24h catheter is calculated for each patient. The patients are then divided in two groups depending on the order the patients received the two catheters and the hypotheses that the mean of the 5s and the 24h catheter is equal in the two groups are tested. If the test results in a significant p-value it can be concluded that a carry-over effect is present.||||0.7105
82500048|NCT00748033|164690696|OTHER|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||||||0.0003
82500049|NCT00748033|164690697|OTHER|||||||0.0346|||||||Wilcoxon (Mann-Whitney)|||||||0.0346
82500050|NCT00748033|164690698|OTHER|||||||0.0016|||||||Wilcoxon (Mann-Whitney)|||||||0.0016
82500051|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.67|||||TWO_SIDED|95.0|1.34|2.08|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 12|||2.08|1.34|
82500052|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.65|||||TWO_SIDED|95.0|1.29|2.13|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 28|||2.13|1.29|
82469467|NCT05462756|164634601|SUPERIORITY||LS Mean Difference|-1.5||||0.304|TWO_SIDED|95.0|-4.358|1.36|||ANCOVA|||LS Mean was determined by ANCOVA model using Baseline + Country + Personal Use of CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares). Missing data at Baseline were imputed with multiple imputation with assumption of missing at random. Missing data at Week 22-Week 26 were imputed by return-to-baseline multiple imputations approach. A total of 100 datasets were imputed with one for each of the 100 datasets imputed at Baseline.||1.360|-4.358|0.304
82469468|NCT05462756|164634602|SUPERIORITY||LS Mean Difference|0.23||||0.523|TWO_SIDED|95.0|-0.48|0.95|||Mixed Models Analysis|||LS Mean was determined by MMRM model with BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Unstructured variance-covariance structure was used.||0.95|-0.48|0.523
82469469|NCT05462756|164634603|SUPERIORITY||LS Mean Difference|-35.04|||<|0.001|TWO_SIDED|95.0|-55.57|-14.5|||Mixed Models Analysis|||LS Mean was determined by Mixed Model Repeated Measures (MMRM) model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-14.50|-55.57|<0.001
82469470|NCT05462756|164634604|SUPERIORITY||LS Mean Difference|-7.55|||<|0.001|TWO_SIDED|95.0|-10.79|-4.3|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-4.30|-10.79|<0.001
82469471|NCT05462756|164634605|SUPERIORITY||LS Mean Difference|-73.5|||<|0.001|TWO_SIDED|95.0|-107.81|-39.2|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||-39.20|-107.81|<0.001
82546878|NCT03725722|164793275|SUPERIORITY||Median Difference (Net)|-5.7|||<|0.0001|TWO_SIDED|95.0|-7.5|-3.9||The stat. test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. were excluded from the analysis. Likewise for missing data due to COVID-19 pandemic.|Mixed Models Analysis|||"Least square (LS) means were calculated using a mixed model response model (MMRM) on post-baseline responses up to Week 8 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom and the mean modelled as follows:~Change from baseline in EASI = treatment x visit + baseline EASI x visit + region + baseline vIGA-AD.~The primary comparison between each active delgocitinib dose and delgocitinib cream vehicle was at Week 8."||-3.9|-7.5|<0.0001
82546879|NCT03725722|164793276|SUPERIORITY||||||<|0.0001||||||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Multiple contrast test|"P-values adj. for multiple comparisons. Models with adj. p-value \<0.025 were stat. sign. diff. from a flat dose-response model.~Model: Linear model"||This endpoint was evaluated by determining if there was a dose-response relationship between the vIGA-AD response rate at Week 8 and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response.||||<0.0001
82469472|NCT05462756|164634606|SUPERIORITY||LS Mean Difference|3.53|||<|0.001|TWO_SIDED|95.0|1.49|5.58|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Hemoglobin A1c Stratum at Baseline + Country + Personal Use CGM or FGM at Randomization + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables. Variance-covariance structure was set as compound symmetry.||5.58|1.49|<0.001
82469473|NCT05462756|164634607|SUPERIORITY||Mean Difference (Net)|1.11||||0.442|TWO_SIDED|95.0|0.85|1.44|||Negative binomial model|||Group mean was reported and determined by Negative binomial method using Baseline hypoglycemia rate + Hemoglobin A1c at Baseline (%) + Treatment, with log (exposure in days/365.25) as variables.||1.44|0.85|0.442
82469474|NCT05462756|164634608|SUPERIORITY||LS Mean Difference|0.14||||0.543|TWO_SIDED|95.0|-0.32|0.6|||Mixed Models Analysis|||LS Mean was determined by MMRM model using BASELINE + Treatment + Time + Treatment\*Time (Type III sum of squares) as variables.||0.60|-0.32|0.543
82469475|NCT05462756|164634609|SUPERIORITY||LS Mean Difference|1.8||||0.099|TWO_SIDED|95.0|-0.3|4.0|||ANCOVA|||LS Mean was determined by ANCOVA model using Country + Personal Use CGM or FGM at Randomization + Hemoglobin A1c Stratum at Baseline + Treatment (Type III sum of squares) as variables.||4.0|-0.3|0.099
82469476|NCT04040933|164634619|OTHER|Change from Baseline in TEWL measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each baseline score within each treatment using paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.86|TWO_SIDED||||||ANCOVA|||||||0.860
82469477|NCT04040933|164634619|OTHER|Change from Baseline in TEWL measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each baseline score within each treatment using paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.051|||||||ANCOVA|||||||0.051
82469478|NCT04040933|164634620|OTHER|Change from Baseline in Erythema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.259|TWO_SIDED||||||ANCOVA|||||||0.259
82469479|NCT04040933|164634620|OTHER|Change from Baseline in Erythema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.451|||||||ANCOVA|||||||0.451
82469480|NCT04040933|164634621|OTHER|Change from Baseline in Edema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.|||||>|0.999|TWO_SIDED||||||ANCOVA|||||||>0.999
82650620|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0177|TWO_SIDED|95.0|-2.8|-0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.27|-2.8|0.0177
82469481|NCT04040933|164634621|OTHER|Change from Baseline in Edema measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.739|||||||ANCOVA|||||||0.739
82469482|NCT04040933|164634622|OTHER|Change from Baseline in Composite Scar Score Measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.|||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82469483|NCT04040933|164634622|OTHER|Change from Baseline in Composite Scar Score Measurements was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.053|||||||ANCOVA|||||||0.053
82469484|NCT04040933|164634623|OTHER|Change in Baseline in Painful Score with Arm Resting by Side was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.666|TWO_SIDED||||||ANCOVA|||||||0.666
82650621|NCT01360632|165016429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.0085|TWO_SIDED|95.0|-2.98|-0.44|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.44|-2.98|0.0085
82469485|NCT04040933|164634623|OTHER|Change in Baseline in Painful Score with Arm Resting by Side was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.473|||||||ANCOVA|||||||0.473
82469486|NCT04040933|164634624|OTHER|Change from Baseline In Painful Score with Arm in Normal Motion was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.761|TWO_SIDED||||||ANCOVA|||||||0.761
82469487|NCT04040933|164634624|OTHER|Change from Baseline In Painful Score with Arm in Normal Motion was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.456|||||||ANCOVA|||||||0.456
82469488|NCT04040933|164634625|OTHER|Change from Baseline In Itchy Score was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.019|TWO_SIDED||||||ANCOVA|||||||0.019
82469489|NCT04040933|164634625|OTHER|Change from Baseline In Itchy Score was analyzed within-treatment and between-treatment. The within-treatment comparison was performed at each post-baseline time point by comparing the post-baseline scores with the baseline score within each treatment using the paired t-test. The between-treatment comparison was performed by comparing the change from baseline between treatments using a mixed effect analysis of covariance (ANCOVA) model.||||||0.325|||||||ANCOVA|||||||0.325
82500053|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.05|||||TWO_SIDED|95.0|0.83|1.33|||||Ratio of FF/VI 100/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 52|||1.33|0.83|
82500054|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.52|||||TWO_SIDED|95.0|1.22|1.89|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 12|||1.89|1.22|
82500055|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.43|||||TWO_SIDED|95.0|1.11|1.84|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 28|||1.84|1.11|
82500056|NCT01018186|164690711|SUPERIORITY_OR_OTHER||Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.38|||||Ratio of FF/VI 200/25 OD versus FP 500 BD to Baseline of 24-Hour Urinary Cortisol Excretion at Week 52|||1.38|0.87|
82500057|NCT01018186|164690712|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.67|||<|0.001|TWO_SIDED|95.0|1.34|2.08|||ANCOVA|||||2.08|1.34|<0.001
82500058|NCT01018186|164690712|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.52|||<|0.001|TWO_SIDED|95.0|1.22|1.89|||ANCOVA|||||1.89|1.22|<0.001
82469490|NCT04040933|164634626|OTHER|Time to complete healing was analyzed using a survival analysis method. The survival function (cumulative percentage of wounds healed at each time point) was estimated by the Kaplan-Meier method for each treatment separately. The median time to complete healing was derived from the estimated survival functions and be compared using the bootstrap re-sampling method.|||||<|0.001|TWO_SIDED|||||no adjustments|Boot-strap sampling method|||All hypothesis tests was conducted at 0.05 level without adjustment of multiple comparisons||||<0.001
82469491|NCT04040933|164634626|OTHER|Time to complete healing was analyzed using a survival analysis method. The survival function (cumulative percentage of wounds healed at each time point) was estimated by the Kaplan-Meier method for each treatment separately. The median time to complete healing was derived from the estimated survival functions and be compared using the bootstrap re-sampling method.|||||<|0.001||||||no adjustments|Boot-strap sampling method|||||||<0.001
82469492|NCT01421719|164634683|SUPERIORITY_OR_OTHER|||||||0.0087||95.0|||||t-test, 2 sided|||Paired t test comparison of baseline number of urinary leaks per day versus number of leaks per day at 6 month evaluation after treatment.||||0.0087
82469493|NCT00565084|164634685|SUPERIORITY_OR_OTHER||Difference in LS Means|0.06||||0.743||90.0|-0.23|0.35|||ANOVA|||Primary efficacy endpoint was assessed by an ANOVA model with terms for treatment, period, sequence, and patients within sequence. Efficacy advantage over placebo was assessed via the treatment difference in the least-squares (LS) means (ibuprofen vs. average of the 2 placebo treatments) from the ANOVA model and the 90% confidence interval (CI; one-sided alpha=0.05) of the LS mean difference will be assessed.||0.35|-0.23|0.743
82469494|NCT01357850|164634709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0119||||0.7873|TWO_SIDED|95.0|-0.0768|0.1005|||ANOVA|||||0.1005|-0.0768|0.7873
82469495|NCT01357850|164634709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0678||||0.0499|TWO_SIDED|95.0|0.0|0.1356|||ANOVA|||||0.1356|0.0000|0.0499
82469496|NCT01357850|164634709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0467||||0.1666|TWO_SIDED|95.0|-0.0204|0.1137|||ANOVA|||||0.1137|-0.0204|0.1666
82469497|NCT01357850|164634710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|134.89||||0.9343|TWO_SIDED|95.0|-3172.05|3441.83|||ANOVA|||||3441.83|-3172.05|0.9343
82469498|NCT01357850|164634710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1278.77||||0.3375|TWO_SIDED|95.0|-1398.13|3955.68|||ANOVA|||||3955.68|-1398.13|0.3375
82469499|NCT01357850|164634710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|772.7||||0.5582|TWO_SIDED|95.0|-1887.77|3433.17|||ANOVA|||||3433.17|-1887.77|0.5582
82469500|NCT01357850|164634711|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.06||||0.2256|TWO_SIDED|95.0|-5.43|1.3|||ANOVA|||||1.30|-5.43|0.2256
82469501|NCT01357850|164634711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.5647|TWO_SIDED|95.0|-4.22|2.32|||ANOVA|||||2.32|-4.22|0.5647
82469502|NCT01357850|164634711|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.8942|TWO_SIDED|95.0|-2.44|2.79|||ANOVA|||||2.79|-2.44|0.8942
82469503|NCT01774721|164634756|SUPERIORITY||Hazard Ratio (HR)|0.589|||<|0.0001|TWO_SIDED|95.0|0.469|0.739|||1-sided stratified log-rank test||Based on stratified Cox regression model|||0.739|0.469|<0.0001
82469504|NCT01774721|164634757|SUPERIORITY||Hazard Ratio (HR)|0.748||||0.0077|TWO_SIDED|95.0|0.591|0.947|||1-sided stratified log-rank test||Based on stratified Cox Regression model|||0.947|0.591|0.0077
82469505|NCT01774721|164634759|SUPERIORITY||Hazard Ratio (HR)|0.622|||<|0.0001|TWO_SIDED|95.0|0.497|0.779|||1-sided stratified log-rank test||Based on stratified Cox regression model|||0.779|0.497|<0.0001
82469506|NCT01774721|164634762|SUPERIORITY||Hazard Ratio (HR)|0.403|||<|0.0001|TWO_SIDED|95.0|0.307|0.529|||1-sided stratified log-rank test||Based on stratified Cox regression model|Comparison of dacomitinib vs gefitinib based on IRC review||0.529|0.307|<0.0001
82469507|NCT01774721|164634762|SUPERIORITY||Hazard Ratio (HR)|0.545|||<|0.0001|TWO_SIDED|95.0|0.418|0.711|||1-sided stratified log-rank test||Based on stratified Cox regression model|Comparison of dacomitinib vs gefitinib based on Investigator assessment||0.711|0.418|<0.0001
82469508|NCT01774721|164634763|SUPERIORITY|||||||0.1942|||||||Cochran-Mantel-Haenszel|||||||0.1942
82469509|NCT01774721|164634764|SUPERIORITY|||||||0.0924|||||||Cochran-Mantel-Haenszel|||||||0.0924
82469510|NCT01774721|164634771|SUPERIORITY||Cox Proportional Hazard|1.173||||0.1641|TWO_SIDED|95.0|0.928|1.483|||Unstratified Log-rank Test|||||1.483|0.928|0.1641
82469511|NCT02453321|164634788|SUPERIORITY|||||||0.355|||||||Kruskal-Wallis|||||||0.355
82469512|NCT02453321|164634789|SUPERIORITY|||||||0.065|||||||Kruskal-Wallis|||||||0.065
82469513|NCT02054104|164634797|OTHER|||||||0.36|||||||Mann-Whitney U test|||||||0.36
82469514|NCT04916587|164634823|SUPERIORITY||Risk Difference (RD)|11.6|||||TWO_SIDED|95.0|10.6|12.6||||||||12.6|10.6|
82469515|NCT04916587|164634824|SUPERIORITY||Risk Difference (RD)|7.5|||||TWO_SIDED|95.0|6.6|8.3||||||||8.3|6.6|
82469516|NCT04916587|164634825|SUPERIORITY||Odds Ratio (OR)|0.36||||0.03|TWO_SIDED|90.0|0.14|0.89|||Mixed Models Analysis|||||0.89|0.14|0.03
82469517|NCT02420821|164634835|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0205|TWO_SIDED|95.0|0.57|0.95|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.95|0.57|0.0205
82469518|NCT02420821|164634837|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2675|TWO_SIDED|95.0|0.76|1.08|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.08|0.76|0.2675
82469519|NCT02420821|164634839|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.263|TWO_SIDED|95.0|0.64|1.13|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.13|0.64|0.263
82469520|NCT02420821|164634841|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1218|TWO_SIDED|95.0|0.74|1.04|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.04|0.74|0.1218
82500059|NCT01018186|164690713|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.65|||<|0.001|TWO_SIDED|95.0|1.29|2.13|||ANCOVA|||||2.13|1.29|<0.001
82469521|NCT02420821|164634843|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6138|TWO_SIDED|95.0|0.72|1.21|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.21|0.72|0.6138
82469522|NCT02420821|164634844|SUPERIORITY||Difference in Response Rates|3.3||||0.2733|TWO_SIDED|95.0|-3.09|9.7|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||9.70|-3.09|0.2733
82469523|NCT02420821|164634846|SUPERIORITY||Difference in Response Rates|1.96||||0.5121|TWO_SIDED|95.0|-4.32|8.24|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||8.24|-4.32|0.5121
82469524|NCT02420821|164634849|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.0606|TWO_SIDED|95.0|0.71|1.01|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.01|0.71|0.0606
82469525|NCT02420821|164634850|SUPERIORITY||Difference in Response Rates|5.09||||0.1011|TWO_SIDED|95.0|-1.4|11.58|||Cochran-Mantel-Haenszel||95% CI for difference in response rates was constructed using Wald method.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||11.58|-1.40|0.1011
82469526|NCT02420821|164634853|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0254|TWO_SIDED|95.0|0.7|0.98|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.98|0.70|0.0254
82469527|NCT02420821|164634855|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.002|TWO_SIDED|95.0|0.34|0.79|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||0.79|0.34|0.0020
82469528|NCT02420821|164634857|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0497|TWO_SIDED|95.0|0.43|1.0|||Log Rank||Hazard ratio was estimated by Cox regression.|Stratified Analysis: Strata were presence of liver metastases, Motzer score, PD-L1 level per interactive voice/web response system (IxRS).||1.00|0.43|0.0497
82469529|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.74|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.43|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 1 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.43|-1.06|<0.0001
82469530|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.2||||0.2085|TWO_SIDED|95.0|-0.51|0.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.11|-0.51|0.2085
82469531|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.71|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.71|-1.33|<0.0001
82469532|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.51||||0.0013|TWO_SIDED|95.0|-0.82|-0.2|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.20|-0.82|0.0013
82469533|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.7|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.70|-1.34|<0.0001
82469534|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.43||||0.0098|TWO_SIDED|95.0|-0.76|-0.1|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.10|-0.76|0.0098
82500060|NCT01018186|164690713|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.43||||0.006|TWO_SIDED|95.0|1.11|1.84|||ANCOVA|||||1.84|1.11|0.006
82500061|NCT01018186|164690714|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.05||||0.674|TWO_SIDED|95.0|0.83|1.33|||ANCOVA|||||1.33|0.83|0.674
82500062|NCT01018186|164690714|SUPERIORITY_OR_OTHER||Ratio of LSGM to Baseline|1.09||||0.444|TWO_SIDED|95.0|0.87|1.38|||ANCOVA|||||1.38|0.87|0.444
82579506|NCT02236988|164869514|OTHER||Ratio of Adjusted Geometric Means|73.8|||||TWO_SIDED|90.0|61.7|88.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.2|61.7|
82469535|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.65|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.65|-1.32|<0.0001
82469536|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.46||||0.008|TWO_SIDED|95.0|-0.8|-0.12|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.12|-0.80|0.0080
82469537|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.44|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.44|-1.13|<0.0001
82469538|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.21||||0.2512|TWO_SIDED|95.0|-0.56|0.15|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.15|-0.56|0.2512
82469539|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.65||||0.0005|TWO_SIDED|95.0|-1.01|-0.28|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.28|-1.01|0.0005
82469540|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.43||||0.0247|TWO_SIDED|95.0|-0.8|-0.05|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.05|-0.80|0.0247
82469541|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.39|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.39|-1.15|<0.0001
82469542|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.29||||0.1411|TWO_SIDED|95.0|-0.68|0.1|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.10|-0.68|0.1411
82469543|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.65||||0.0014|TWO_SIDED|95.0|-1.05|-0.25|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.25|-1.05|0.0014
82469544|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.37||||0.0728|TWO_SIDED|95.0|-0.78|0.03|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.03|-0.78|0.0728
82469545|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.32|-0.49|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.49|-1.32|<0.0001
82500063|NCT03235154|164690735|OTHER|There was no comparator arm in this small single arm study||||||||||||No confidence intervals around point estimates provided given very small number of participants||||This was a single arm intervention study with a very small number of participants. Therefore, only descriptive statistics are provided.|No confidence intervals around point estimates provided given very small number of participants|||
82579507|NCT02236988|164869515|OTHER||Ratio of Adjusted Geometric Means|62.3|||||TWO_SIDED|90.0|52.1|74.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 1 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.4|52.1|
82469546|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.62||||0.0041|TWO_SIDED|95.0|-1.05|-0.2|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.20|-1.05|0.0041
82469547|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.55|-1.46|<0.0001
82469548|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.5||||0.0353|TWO_SIDED|95.0|-0.96|-0.03|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.03|-0.96|0.0353
82469549|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.85||||0.0011|TWO_SIDED|95.0|-1.35|-0.34|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.34|-1.35|0.0011
82469550|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.5||||0.0582|TWO_SIDED|95.0|-1.01|0.02|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.02|-1.01|0.0582
82469551|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.76||||0.0089|TWO_SIDED|95.0|-1.32|-0.19|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||-0.19|-1.32|0.0089
82469552|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.02||||0.9575|TWO_SIDED|95.0|-0.57|0.61|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.61|-0.57|0.9575
82469553|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.36||||0.2745|TWO_SIDED|95.0|-1.01|0.29|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.29|-1.01|0.2745
82579508|NCT02236988|164869515|OTHER||Ratio of Adjusted Geometric Means|71.3|||||TWO_SIDED|90.0|59.7|85.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 2 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.2|59.7|
82500064|NCT01683383|164690736|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Adjusted Wald estimation|||||||<0.001
82500065|NCT01683383|164690737|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82500066|NCT01683383|164690739|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82500067|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided confidence intervals (CIs) were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.06|||||TWO_SIDED|95.0|2.55|6.46|||||Ratio of GMTs at Day 22|||6.46|2.55|
82500068|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|2.25|||||TWO_SIDED|95.0|1.42|3.56|||||Ratio of GMTs at Day 22|||3.56|1.42|
82500069|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.49|||||TWO_SIDED|95.0|2.8|7.19|||||Ratio of GMTs at Day 22|||7.19|2.8|
82500070|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|2.49|||||TWO_SIDED|95.0|1.56|3.96|||||Ratio of GMTs at Day 22|||3.96|1.56|
82469554|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.13||||0.7088|TWO_SIDED|95.0|-0.81|0.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.55|-0.81|0.7088
82469555|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.39||||0.3077|TWO_SIDED|95.0|-1.13|0.36|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.36|-1.13|0.3077
82469556|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.15||||0.7112|TWO_SIDED|95.0|-0.93|0.63|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.63|-0.93|0.7112
82469557|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|-0.79||||0.0837|TWO_SIDED|95.0|-1.69|0.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.11|-1.69|0.0837
82469558|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.08||||0.8655|TWO_SIDED|95.0|-0.88|1.04|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.04|-0.88|0.8655
82469559|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.02||||0.9725|TWO_SIDED|95.0|-1.07|1.11|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.11|-1.07|0.9725
82469560|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.38||||0.5285|TWO_SIDED|95.0|-0.8|1.55|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.55|-0.80|0.5285
82546880|NCT03725722|164793276|SUPERIORITY||Risk Difference (RD)|8.2|||>|0.05|TWO_SIDED|95.0|-5.6|21.9||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference.||21.9|-5.6|>0.05
82579509|NCT02236988|164869515|OTHER||Ratio of Adjusted Geometric Means|74.0|||||TWO_SIDED|90.0|62.0|88.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 3 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.4|62.0|
82650622|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.0286|TWO_SIDED|95.0|-1.74|-0.1|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.1|-1.74|0.0286
82650623|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.3173|TWO_SIDED|95.0|-1.24|0.4|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.4|-1.24|0.3173
82469561|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.03||||0.9663|TWO_SIDED|95.0|-1.34|1.4|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.40|-1.34|0.9663
82469562|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.01||||0.9914|TWO_SIDED|95.0|-1.61|1.63|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.63|-1.61|0.9914
82650624|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0313|TWO_SIDED|95.0|-2.23|-0.11|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.11|-2.23|0.0313
82469563|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.22||||0.8345|TWO_SIDED|95.0|-1.85|2.3|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||2.30|-1.85|0.8345
82469564|NCT02420821|164634858|SUPERIORITY||LS Mean Difference|0.5||||0.7725|TWO_SIDED|95.0|-2.9|3.91|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 19 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||3.91|-2.90|0.7725
82469565|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.49||||0.001|TWO_SIDED|95.0|-0.77|-0.2|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Pain: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.20|-0.77|0.0010
82469566|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.91|-0.34|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Fatigue: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.34|-0.91|<0.0001
82469567|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.91|||<|0.0001|TWO_SIDED|95.0|-1.13|-0.69|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Nausea: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.69|-1.13|<0.0001
82469568|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.52||||0.0002|TWO_SIDED|95.0|-0.79|-0.25|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Disturbed sleep: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.25|-0.79|0.0002
82469569|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.84|-0.29|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Feelings of being distressed: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.29|-0.84|<0.0001
82469570|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.81|-0.32|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Shortness of breath: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.32|-0.81|<0.0001
82469571|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.33||||0.0036|TWO_SIDED|95.0|-0.56|-0.11|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Remembering things: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.11|-0.56|0.0036
82579510|NCT02236988|164869516|OTHER||Median Difference|1.0||||0.009|TWO_SIDED|90.0|0.5|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 1 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.5|0.0090
82650625|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.0732|TWO_SIDED|95.0|-2.04|0.09|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.09|-2.04|0.0732
82469572|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-1.19|||<|0.0001|TWO_SIDED|95.0|-1.46|-0.91|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Lack of appetite: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.91|-1.46|<0.0001
82469573|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.54||||0.0001|TWO_SIDED|95.0|-0.81|-0.27|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Drowsy: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.27|-0.81|0.0001
82469574|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.71|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Dry mouth: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.71|-1.28|<0.0001
82469575|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.87|-0.33|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Feeling sad: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.33|-0.87|<0.0001
82469576|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.41|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Vomiting: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.41|-0.75|<0.0001
82469577|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.34||||0.0051|TWO_SIDED|95.0|-0.58|-0.1|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Numbness or tingling: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.10|-0.58|0.0051
82469578|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-1.08|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.83|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Rash/Skin Changes: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.83|-1.33|<0.0001
82469579|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-0.05||||0.6541|TWO_SIDED|95.0|-0.26|0.16|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Headache: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||0.16|-0.26|0.6541
82469580|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.76|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Mouth/Throat Sores: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.76|-1.28|<0.0001
82469581|NCT02420821|164634859|SUPERIORITY||LS Mean Difference|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.88|||Mixed Models Analysis||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Diarrhea: Mixed-effects model, assuming unstructured covariance matrix, with a term for treatment group, a term for visit time as a continuous variable, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model. The random effects are intercept and slope of visit time.||-0.88|-1.27|<0.0001
82500071|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|8.01|||||TWO_SIDED|95.0|5.52|12.0|||||Ratio of GMTs at Day 43|||12|5.52|
82500072|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|4.25|||||TWO_SIDED|95.0|2.94|6.15|||||Ratio of GMTs at Day 43|||6.15|2.94|
82500073|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratio of GMTs|7.81|||||TWO_SIDED|95.0|5.36|11.0|||||Ratio of GMTs at Day 43|||11|5.36|
82546881|NCT03725722|164793276|SUPERIORITY||Risk Difference (RD)|19.3|||<|0.05|TWO_SIDED|95.0|3.9|34.6||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference.||34.6|3.9|<0.05
82546882|NCT03725722|164793276|SUPERIORITY||Risk Difference (RD)|20.3|||<|0.05|TWO_SIDED|95.0|5.4|35.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||35.2|5.4|<0.05
82546883|NCT03725722|164793276|SUPERIORITY||Risk Difference (RD)|38.3|||<|0.0001|TWO_SIDED|95.0|22.3|54.3||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||54.3|22.3|<0.0001
82546884|NCT03725722|164793277|SUPERIORITY||||||<|0.0001||||||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Multiple contrast test|"P-values were adj. for multiple comparisons. Models with adj. p-value \<0.025 were stat. sign. diff. from a flat dose-response model.~Model:Emax model"||This endpoint was evaluated by determining if there was a dose-response relationship between EASI75 at Week 8 and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response||||<0.0001
82546885|NCT03725722|164793277|SUPERIORITY||Risk Difference (RD)|19.7|||<|0.05|TWO_SIDED|95.0|1.8|37.6||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||37.6|1.8|<0.05
82546886|NCT03725722|164793277|SUPERIORITY||Risk Difference (RD)|23.5|||<|0.05|TWO_SIDED|95.0|5.8|41.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||41.2|5.8|<0.05
82546887|NCT03725722|164793277|SUPERIORITY||Risk Difference (RD)|35.3|||<|0.0005|TWO_SIDED|95.0|17.5|53.2||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||53.2|17.5|<0.0005
82546888|NCT03725722|164793277|SUPERIORITY||Risk Difference (RD)|45.4|||<|0.0001|TWO_SIDED|95.0|28.1|62.8||Data collected after premature discont. of IMP due to COVID-19 were set to missing Week 8. Data collected after premature discont. of IMP due to reasons unrelated to COVID-19 or due to initiation of rescue med. were imputed as non-responders.|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline vIGA-AD score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative test that there is a difference||62.8|28.1|<0.0001
82650626|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0206|TWO_SIDED|95.0|-2.51|-0.21|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.21|-2.51|0.0206
82650627|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.1233|TWO_SIDED|95.0|-2.06|0.25|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.25|-2.06|0.1233
82469582|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.73|||<|0.0001|TWO_SIDED|95.0|0.58|0.87|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 1 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.87|0.58|<0.0001
82469583|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.57|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.57|0.28|<0.0001
82469584|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.55|0.84|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 2 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.84|0.55|<0.0001
82469585|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.73|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.73|0.44|<0.0001
82469586|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.77|||<|0.0001|TWO_SIDED|95.0|0.62|0.92|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 3 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.92|0.62|<0.0001
82469587|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.62|||<|0.0001|TWO_SIDED|95.0|0.46|0.78|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.78|0.46|<0.0001
82469588|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.82|||<|0.0001|TWO_SIDED|95.0|0.66|0.97|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 4 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.97|0.66|<0.0001
82469589|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.81|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.81|0.49|<0.0001
82469590|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.83|||<|0.0001|TWO_SIDED|95.0|0.66|0.99|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 5 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.99|0.66|<0.0001
82469591|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.63|||<|0.0001|TWO_SIDED|95.0|0.46|0.8|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.80|0.46|<0.0001
82579511|NCT02236988|164869516|OTHER||Median Difference|1.26||||0.0073|TWO_SIDED|90.0|0.5|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 2 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|0.50|0.0073
82376864|NCT04856930|164460570|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.54||0.7282|TWO_SIDED|90.0|-1.08|0.7||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||0.70|-1.08|0.7282
82469592|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.72|||<|0.0001|TWO_SIDED|95.0|0.54|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 6 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|0.54|<0.0001
82469593|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.3|0.65|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.65|0.30|<0.0001
82469594|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.68|||<|0.0001|TWO_SIDED|95.0|0.49|0.86|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 7 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.86|0.49|<0.0001
82469595|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.29|0.66|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.66|0.29|<0.0001
82650628|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.0097|TWO_SIDED|95.0|-2.84|-0.39|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.39|-2.84|0.0097
82469596|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.41|0.79|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 8 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.79|0.41|<0.0001
82469597|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.29|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|0.29|<0.0001
82469598|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.52|0.91|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 9 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.91|0.52|<0.0001
82469599|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.53|||<|0.0001|TWO_SIDED|95.0|0.33|0.73|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.73|0.33|<0.0001
82469600|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.74|||<|0.0001|TWO_SIDED|95.0|0.51|0.96|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 10 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.96|0.51|<0.0001
82469601|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.64|||<|0.0001|TWO_SIDED|95.0|0.41|0.86|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.86|0.41|<0.0001
82469602|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.74|||<|0.0001|TWO_SIDED|95.0|0.49|0.99|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 11 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.99|0.49|<0.0001
82579512|NCT02236988|164869516|OTHER||Median Difference|2.0|||<|0.0001|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 3 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|<0.0001
82650629|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0092|TWO_SIDED|95.0|-2.86|-0.41|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.41|-2.86|0.0092
82469603|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.42||||0.001|TWO_SIDED|95.0|0.17|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|0.17|0.0010
82469604|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.6|||<|0.0001|TWO_SIDED|95.0|0.32|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 12 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|0.32|<0.0001
82469605|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.52||||0.0005|TWO_SIDED|95.0|0.23|0.82|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.82|0.23|0.0005
82469606|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.56||||0.0008|TWO_SIDED|95.0|0.23|0.88|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 13 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.88|0.23|0.0008
82469607|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.33||||0.0591|TWO_SIDED|95.0|-0.01|0.67|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.67|-0.01|0.0591
82469608|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.67||||0.0005|TWO_SIDED|95.0|0.29|1.05|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 14 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.05|0.29|0.0005
82469609|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.3||||0.1378|TWO_SIDED|95.0|-0.09|0.68|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.68|-0.09|0.1378
82469610|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.43||||0.065|TWO_SIDED|95.0|-0.03|0.89|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 15 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.89|-0.03|0.0650
82469611|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.48||||0.0531|TWO_SIDED|95.0|-0.01|0.96|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||0.96|-0.01|0.0531
82469612|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.93||||0.0011|TWO_SIDED|95.0|0.37|1.49|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 16 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.49|0.37|0.0011
82650630|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0139|TWO_SIDED|95.0|-2.94|-0.33|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.33|-2.94|0.0139
82500074|NCT00996307|164690742|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided CIs were calculated and assessed for non-inferiority first against the margin of 0.5 (exploratory margin) and in case of success against the margin of 0.667 (based on CBER guidance against the licensed comparator).|Ratios of GMTs|4.15|||||TWO_SIDED|95.0|2.86|6.02|||||Ratio of GMTs at Day 43|||6.02|2.86|
82469613|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.55||||0.0708|TWO_SIDED|95.0|-0.05|1.14|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.14|-0.05|0.0708
82469614|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.58||||0.1078|TWO_SIDED|95.0|-0.13|1.29|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 17 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.29|-0.13|0.1078
82469615|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.62||||0.1487|TWO_SIDED|95.0|-0.22|1.47|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.47|-0.22|0.1487
82469616|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.33||||0.5537|TWO_SIDED|95.0|-0.77|1.43|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 18 Day 22: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||1.43|-0.77|0.5537
82469617|NCT02420821|164634862|SUPERIORITY||LS Mean Difference|0.52||||0.5743|TWO_SIDED|95.0|-1.29|2.33|||Repeated measures model||Difference in LS mean score change between arms (Atezolizumab + Bevacizumab minus Sunitinib) was reported.|Cycle 19 Day 1: Repeated measures model, assuming 1st order autoregressive covariance structure, with a term for visit as a categorical variable, a term for treatment group, a term for treatment-by-visit interaction, baseline score and stratification factors (presence of liver metastasis, PD-L1 status, and Motzer score) included as covariates in the model.||2.33|-1.29|0.5743
82469618|NCT00926237|164634910|SUPERIORITY||Mean Difference (Final Values)|-5.74||||0.04|ONE_SIDED|||||t value = -1.40|Mixed Models Analysis||1Hz active rTMS - Sham rTMS|||||.04
82469619|NCT00926237|164634910|SUPERIORITY||Mean Difference (Final Values)|-6.77||||0.02|ONE_SIDED|||||t value = -2.03|Mixed Models Analysis||10 Hz active rTMS - Sham rTMS|||||.02
82469620|NCT00926237|164634910|SUPERIORITY||Mean Difference (Final Values)|-4.73||||0.2|ONE_SIDED|||||t value = -1..28|Mixed Models Analysis||10 Hz washout - sham washout period|||||.20
82579513|NCT02236988|164869522|OTHER||Ratio of Adjusted Geometric Means|90.9|||||TWO_SIDED|90.0|81.8|101.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||101.1|81.8|
82579514|NCT02236988|164869522|OTHER||Ratio of Adjusted Geometric Means|73.7|||||TWO_SIDED|90.0|66.3|82.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||82.0|66.3|
82579515|NCT02236988|164869522|OTHER||Ratio of Adjusted Geometric Means|80.2|||||TWO_SIDED|90.0|72.2|89.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||89.2|72.2|
82579516|NCT02236988|164869523|OTHER||Ratio of Adjusted Geometric Means|84.9|||||TWO_SIDED|90.0|77.5|93.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||93.0|77.5|
82469621|NCT00926237|164634910|SUPERIORITY||Mean Difference (Final Values)|-5.19||||0.19|ONE_SIDED|||||t value = -1.29|Mixed Models Analysis||1Hz washout - sham washout|||||.19
82469622|NCT04322526|164634917|OTHER|||||||0.01|||||||t-test, 2 sided|||Changes in BOLD signal in the rACC during the processing of contextual cues (pleasant \> unpleasant).||||0.01
82469623|NCT04322526|164634918|OTHER|Mechanistic hypothesis: naltrexone will block contextual processing.||||||0.0002|||||||t-test, 2 sided|||Changes in BOLD fMRI signal from the Placebo vs. the Naltrexone session.||||0.0002
82469624|NCT03994081|164634924|SUPERIORITY|||||||0.332|||||||t-test, 2 sided|||||||0.332
82469625|NCT03994081|164634925|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.790
82469626|NCT03994081|164634926|SUPERIORITY|||||||0.464|||||||Pearson's correlation|||||||0.464
82469627|NCT03994081|164634926|SUPERIORITY|||||||0.765|||||||Pearson's correlation|||||||0.765
82469628|NCT03994081|164634927|SUPERIORITY|||||||0.072|||||||Pearson's correlation|||||||0.072
82469629|NCT03994081|164634927|SUPERIORITY|||||||0.811|||||||Pearson's correlation|||||||0.811
82469630|NCT03818256|164634975|SUPERIORITY||Least Squares Mean Difference|0.11||||0.8511|TWO_SIDED|95.0|-1.03|1.24|||Mixed Models Analysis|||||1.24|-1.03|0.8511
82469631|NCT03818256|164634979|SUPERIORITY||Odds Ratio (OR)|0.82||||0.8169|TWO_SIDED|95.0|0.15|4.474|||Regression, Logistic|||||4.474|0.150|0.8169
82469632|NCT03818256|164634980|SUPERIORITY||Location shift|0.175||||0.9285|TWO_SIDED|95.0|-2.86|2.78|||Wilcoxon rank-sum test|||||2.780|-2.860|0.9285
82469633|NCT03818256|164634981|SUPERIORITY||Least squares mean difference|0.007||||0.5669|TWO_SIDED|95.0|-0.018|0.033|||Mixed Models Analysis|||||0.033|-0.018|0.5669
82469634|NCT01342211|164634982|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-5.63|STANDARD_ERROR_OF_MEAN|9.759||0.5661|TWO_SIDED|95.0|-25.09|13.83|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||13.83|-25.09|0.5661
82469635|NCT01342211|164634982|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|9.422||0.808|TWO_SIDED|95.0|-21.08|16.49|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||16.49|-21.08|0.8080
82469636|NCT01342211|164634982|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.72|STANDARD_ERROR_OF_MEAN|9.404||0.0001|TWO_SIDED|95.0|-56.47|-18.97|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||-18.97|-56.47|0.0001
82469637|NCT01342211|164634982|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.11|STANDARD_ERROR_OF_MEAN|9.514|<|0.0001|TWO_SIDED|95.0|-68.08|-30.14|||ANCOVA|||Analysis was performed using ANCOVA model with fixed effects for treatment, background statin, treatment by background statin interaction, and baseline.||-30.14|-68.08|<0.0001
82469638|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.172||||0.8998|TWO_SIDED|95.0|0.1|13.92|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||13.92|0.10|0.8998
82469639|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.063||||0.5273|TWO_SIDED|95.0|0.22|19.48|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||19.48|0.22|0.5273
82469640|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.924||||0.0004|TWO_SIDED|95.0|5.93|490.67|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||490.67|5.93|0.0004
82469641|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|280.366|||<|0.0001|TWO_SIDED|95.0|18.65|4214.35|||Regression, Logistic|||Day 29, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||4214.35|18.65|<0.0001
82469642|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.262||||0.086|TWO_SIDED|95.0|0.06|1.21|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||1.21|0.06|0.0860
82650631|NCT01360632|165016430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.0015|TWO_SIDED|95.0|-3.42|-0.81|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.81|-3.42|0.0015
82469643|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.4308|TWO_SIDED|95.0|0.15|2.25|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||2.25|0.15|0.4308
82469644|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.272||||0.0127|TWO_SIDED|95.0|1.57|43.56|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||43.56|1.57|0.0127
82469645|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.528||||0.0096|TWO_SIDED|95.0|1.89|97.0|||Regression, Logistic|||Day 29, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||97.00|1.89|0.0096
82469646|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.131||||0.9519|TWO_SIDED|95.0|0.02|61.54|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||61.54|0.02|0.9519
82469647|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.069||||0.974|TWO_SIDED|95.0|0.02|58.0|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||58.00|0.02|0.9740
82469648|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.286||||0.0273|TWO_SIDED|95.0|1.46|549.78|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||549.78|1.46|0.0273
82469649|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|114.508||||0.0022|TWO_SIDED|95.0|5.5|2384.03|||Regression, Logistic|||Day 57, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||2384.03|5.50|0.0022
82469650|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.216||||0.0684|TWO_SIDED|95.0|0.04|1.12|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||1.12|0.04|0.0684
82469651|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.081||||0.9068|TWO_SIDED|95.0|0.29|3.99|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||3.99|0.29|0.9068
82469652|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.251||||0.2235|TWO_SIDED|95.0|0.61|8.31|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||8.31|0.61|0.2235
82469653|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.25||||0.012|TWO_SIDED|95.0|1.59|42.82|||Regression, Logistic|||Day 57, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||42.82|1.59|0.0120
82469654|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.359||||0.5449|TWO_SIDED|95.0|0.01|9.92|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||9.92|0.01|0.5449
82469655|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.914||||0.5585|TWO_SIDED|95.0|0.22|16.85|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||16.85|0.22|0.5585
82469656|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.059||||0.0022|TWO_SIDED|95.0|3.0|147.65|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||147.65|3.00|0.0022
82469657|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|22.851||||0.002|TWO_SIDED|95.0|3.15|165.99|||Regression, Logistic|||Day 85, \<70 mg/dL: The standard logistic regression model was used to assess treatment effect.||165.99|3.15|0.0020
82650632|NCT01360632|165016431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0008|TWO_SIDED|95.0|-0.87|-0.23||MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.23|-0.87|0.0008
82469658|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.375|TWO_SIDED|95.0|0.48|7.12|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||7.12|0.48|0.3750
82469659|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.078||||0.914|TWO_SIDED|95.0|0.28|4.23|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||4.23|0.28|0.9140
82469660|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.548||||0.0036|TWO_SIDED|95.0|2.09|43.57|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||43.57|2.09|0.0036
82469661|NCT01342211|164634983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.093||||0.0149|TWO_SIDED|95.0|1.42|26.1|||Regression, Logistic|||Day 85, \<100 mg/dL: The standard logistic regression model was used to assess treatment effect.||26.10|1.42|0.0149
82469662|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.674||||0.5436|TWO_SIDED|95.0|0.32|8.83|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||8.83|0.32|0.5436
82469663|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.734||||0.742|TWO_SIDED|95.0|0.12|4.63|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||4.63|0.12|0.7420
82469664|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|28.151||||0.0002|TWO_SIDED|95.0|4.73|167.62|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||167.62|4.73|0.0002
82469665|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.214||||0.0001|TWO_SIDED|95.0|7.88|643.42|||Regression, Logistic|||Day 29: The standard logistic regression model was used to assess treatment effect.||643.42|7.88|0.0001
82469666|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.203||||0.321|TWO_SIDED|95.0|0.01|4.74|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||4.74|0.01|0.3210
82469667|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.175||||0.3786|TWO_SIDED|95.0|0.39|12.27|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||12.27|0.39|0.3786
82469668|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.576||||0.0144|TWO_SIDED|95.0|1.5|38.38|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||38.38|1.50|0.0144
82650633|NCT01360632|165016431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.5792|TWO_SIDED|95.0|-0.41|0.23||MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B||0.23|-0.41|0.5792
82469669|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.465||||0.0007|TWO_SIDED|95.0|3.59|116.6|||Regression, Logistic|||Day 57: The standard logistic regression model was used to assess treatment effect.||116.60|3.59|0.0007
82469670|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.161||||0.8626|TWO_SIDED|95.0|0.21|6.3|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||6.30|0.21|0.8626
82469671|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.497||||0.6237|TWO_SIDED|95.0|0.3|7.51|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||7.51|0.30|0.6237
82469672|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.029||||0.0072|TWO_SIDED|95.0|1.76|36.65|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||36.65|1.76|0.0072
82469673|NCT01342211|164634984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.557||||0.0005|TWO_SIDED|95.0|3.73|113.2|||Regression, Logistic|||Day 85: The standard logistic regression model was used to assess treatment effect.||113.20|3.73|0.0005
82469674|NCT04701762|164635032|SUPERIORITY||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|99.32|0.14|0.29|||GLM cumulative logit GEE model|||||0.29|0.14|<0.001
82469675|NCT04701762|164635033|SUPERIORITY||Risk Ratio (RR)|0.06|||<|0.001|TWO_SIDED|99.32|0.03|0.14|||Wilcoxon (Mann-Whitney)|||||0.14|0.03|<0.001
82469676|NCT04701762|164635034|SUPERIORITY||Risk Ratio (RR)|0.87||||0.53|TWO_SIDED|99.32|0.48|1.58|||GLM log-binomial model (log link)|||||1.58|0.48|0.53
82469677|NCT04701762|164635035|SUPERIORITY||Mean Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|95.0|0.92|3.1|||Mixed Models Analysis|||||3.1|0.92|<0.001
82469678|NCT04701762|164635036|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.27|TWO_SIDED|95.0|-0.34|1.2|||Mixed Models Analysis|||||1.2|-0.34|0.27
82469679|NCT05786651|164635042|EQUIVALENCE|Comparison of conditions|||||<|0.05|||||||ANOVA|||||||<.05
82469680|NCT05786651|164635043|EQUIVALENCE|Comparisons of mean values of conditions|||||<|0.05|||||||ANOVA|||||||<.05
82469681|NCT02855125|164635044|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.2744|TWO_SIDED|95.0|0.71|1.88|||Log Rank|1-sided stratified log-rank test.|Based on stratified Cox regression model .|||1.88|0.71|0.2744
82469682|NCT02855125|164635045|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.1431|TWO_SIDED|95.0|0.8|2.14|||Log Rank|1-sided stratified log-rank test.|Based on stratified Cox regression model.|||2.14|0.80|0.1431
82469683|NCT04586205|164635061|OTHER|||||||0.024|||||||ANOVA|||The baseline measurement for this analysis is the Sternberg Sorting Task (SST) at Baseline. This task is designed to assess how individuals store and retrieve random information from short-term memory. This task was administered to all participants before they were randomized into one of two groups (active TMS first then sham TMS or sham TMS first then active TMS).||||0.024
82469684|NCT04586205|164635062|OTHER||Mean Difference (Final Values)|0.02||||0.18|TWO_SIDED||||||t-test, 2 sided||The difference in means between High-Load IAPS (.69) and Low-Load IAPS (.67) in the group that received active then sham TMS.|The baseline measurement for this analysis is the International Affective Picture System (IAPS) at baseline. This is an emotional task using IAPS picture that will also compare low load and high load conditions. The number of images will vary by condition load, but for both the high-load \& low-load conditions, participants will look at IAPS pictures and answer questions about the images. We compare mean High-Load IAPS and Low-Load IAPS scores in the group that received active then sham TMS.||||0.18
82469685|NCT04586205|164635063|OTHER|||||||0.19|||||||Chi-squared|||The outcome measure for this analysis was the International Affective Picture System (IAPS).||||0.19
82650634|NCT01360632|165016431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0091|TWO_SIDED|95.0|-0.87|-0.12|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.12|-0.87|0.0091
82469686|NCT04586205|164635064|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||||||0.67
82469687|NCT01646125|164635077|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76|||||TWO_SIDED|90.0|0.35|1.63||||||||1.63|0.35|
82469688|NCT02230995|164635086|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|98.22|STANDARD_DEVIATION|5.0|<|1e-05|TWO_SIDED|90.0|96.11|100.39|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||100.39|96.11|<0.00001
82469689|NCT02230995|164635087|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|102.14|STANDARD_DEVIATION|7.9|<|1e-05|TWO_SIDED|90.0|98.65|105.76|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||105.76|98.65|<0.00001
82469690|NCT02230995|164635088|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|98.7|STANDARD_DEVIATION|12.3|<|1e-05|TWO_SIDED|90.0|93.51|104.17|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||104.17|93.51|<0.00001
82469691|NCT02230995|164635089|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based on 2-sided 90% confidence intervals (CIs) for the ratios (test to reference treatment) of the adjusted geometric means (gMeans) of the primary endpoints, using an acceptance range of 80.00 to 125.00%.|Adjusted gMean ratio|105.69|STANDARD_DEVIATION|10.9|<|1e-05|TWO_SIDED|90.0|100.78|110.84|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted gMean of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||110.84|100.78|<0.00001
82469692|NCT02230995|164635090|SUPERIORITY_OR_OTHER||Adjusted gMean ratio|98.32|STANDARD_DEVIATION|5.1|||TWO_SIDED|90.0|96.16|100.53|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of empagliflozin was estimated by ratios of adjusted geometric means (gMean) of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||100.53|96.16|
82469693|NCT02230995|164635091|SUPERIORITY_OR_OTHER||Adjusted gMean ratio|104.66|STANDARD_DEVIATION|7.3|||TWO_SIDED|90.0|101.36|108.07|||ANOVA|ANOVA model on the logarithmic scale including random effects for 'subjects within sequences' \& fixed effect for 'sequence', 'period' \& 'treatment'.|Relative bioavailability of metformin was estimated by the ratios of the adjusted geometric means (gMean) of Fed 25mg+1000mg FDC divided by Fed 25mg+1000mg Single. Standard deviation is actually Intra individual geometric coefficient variation (gCV).|||108.07|101.36|
82469694|NCT01298648|164635115|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|Paired t-test using observed cases at Baseline and Week 4.||||||<0.0001
82469695|NCT01298648|164635117|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|Paired t-test using observed values at Baseline and Week 8.||||||<0.0001
82469696|NCT01298648|164635118|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|Paired t-test using observed values at Baseline and Week 24.||||||<0.0001
82469697|NCT03077412|164635129|SUPERIORITY||Risk Difference in Percentages|22.1|||||TWO_SIDED|90.0|-9.9|50.0|||||The 90% exact confidence interval (CI) was calculated based on binomial distribution (Clopper-Pearson method).|||50.0|-9.9|
82469698|NCT03077412|164635129|SUPERIORITY||Risk Difference in Percentages|4.2|||||TWO_SIDED|90.0|-26.5|34.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||34.3|-26.5|
82469699|NCT03077412|164635130|SUPERIORITY||Risk Difference in Percentages|30.4|||||TWO_SIDED|90.0|-1.3|57.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||57.3|-1.3|
82469700|NCT03077412|164635130|SUPERIORITY||Risk Difference in Percentages|8.3|||||TWO_SIDED|90.0|-22.5|38.1|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||38.1|-22.5|
82650635|NCT01360632|165016431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0474|TWO_SIDED|95.0|-0.73|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.73|0.0474
82469701|NCT03077412|164635131|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|90.0|0.64|2.49|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||2.49|0.64|
82469702|NCT03077412|164635131|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|90.0|0.47|1.75|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||1.75|0.47|
82469703|NCT03077412|164635132|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|90.0|0.87|4.01|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||4.01|0.87|
82579517|NCT02236988|164869523|OTHER||Ratio of Adjusted Geometric Means|72.0|||||TWO_SIDED|90.0|65.8|78.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||78.9|65.8|
82579518|NCT02236988|164869523|OTHER||Ratio of Adjusted Geometric Means|78.0|||||TWO_SIDED|90.0|71.2|85.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.5|71.2|
82579519|NCT02236988|164869524|OTHER||Ratio of Adjusted Geometric Means|85.5|||||TWO_SIDED|90.0|78.1|93.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 4 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||93.6|78.1|
82579520|NCT02236988|164869524|OTHER||Ratio of Adjusted Geometric Means|72.6|||||TWO_SIDED|90.0|66.3|79.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 5 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||79.5|66.3|
82579521|NCT02236988|164869524|OTHER||Ratio of Adjusted Geometric Means|78.9|||||TWO_SIDED|90.0|72.0|86.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 6 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||86.4|72.0|
82579522|NCT02236988|164869525|OTHER||Median Difference|2.0||||0.0002|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 4 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|0.0002
82579523|NCT02236988|164869525|OTHER||Median Difference|1.02||||0.0049|TWO_SIDED|90.0|0.5|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 5 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.50|0.0049
82579524|NCT02236988|164869525|OTHER||Median Difference|1.5||||0.001|TWO_SIDED|90.0|1.0|2.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 6 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|1.00|0.0010
82579525|NCT02236988|164869531|OTHER||Ratio of Adjusted Geometric Means|91.0|||||TWO_SIDED|90.0|80.4|103.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||103.0|80.4|
82579526|NCT02236988|164869531|OTHER||Ratio of Adjusted Geometric Means|88.4|||||TWO_SIDED|90.0|78.1|100.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||100.0|78.1|
82650636|NCT01360632|165016432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.0015|TWO_SIDED|95.0|-0.94|-0.22||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.22|-0.94|0.0015
82469704|NCT03077412|164635132|SUPERIORITY||Hazard Ratio (HR)|1.37|||||TWO_SIDED|90.0|0.65|2.92|||||Hazard ratio was derived from Cox Proportional-Hazards model.|||2.92|0.65|
82469705|NCT03077412|164635133|SUPERIORITY||Risk Difference in Percentages|-18.6|||||TWO_SIDED|90.0|-55.6|21.3|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||21.3|-55.6|
82469706|NCT03077412|164635133|SUPERIORITY||Risk Difference in Percentages|-13.2|||||TWO_SIDED|90.0|-51.0|24.1|||||The 90% exact CI was calculated based on binomial distribution (Clopper-Pearson method).|||24.1|-51.0|
82469707|NCT02266888|164635136|SUPERIORITY||Hazard Ratio (HR)|0.673||||0.514|TWO_SIDED|90.0|0.248|1.826|||Regression, Cox||Hazard ratio estimated for Rituximab vs. Placebo|||1.826|0.248|0.514
82469708|NCT02266888|164635140|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82469709|NCT02266888|164635141|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82650637|NCT01360632|165016432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.2627|TWO_SIDED|95.0|-0.56|0.15||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate|Mixed Models Analysis|||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.15|-0.56|0.2627
82650638|NCT01360632|165016432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0158|TWO_SIDED|95.0|-0.89|-0.09|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3||-0.09|-0.89|0.0158
82650639|NCT01360632|165016432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0191|TWO_SIDED|95.0|-0.88|-0.08|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.08|-0.88|0.0191
82469710|NCT02266888|164635142|SUPERIORITY|||||||0.188|||||||Fisher Exact|||||||0.188
82469711|NCT02266888|164635145|SUPERIORITY||Mean Difference (Net)|-1.62||||0.015|TWO_SIDED|90.0|-2.64|-0.6|||Paired t-Test|||This is not a comparison between treatment groups, but rather a comparison between timepoints.The Rituximab and Placebo groups were combined for purposes of testing the hypothesis that there would be no change in SD between pre-enrollment and 180 days post-enrollment into the TVI.||-0.60|-2.64|0.015
82469712|NCT02266888|164635147|SUPERIORITY|||||||0.502|||||||Cochran-Mantel-Haenszel|||||||0.502
82469713|NCT02266888|164635148|SUPERIORITY|||||||0.448|||||||Fisher Exact|||||||0.448
82469714|NCT03762993|164635180|OTHER|Changes in phonation threshold pressure were analyzed using a linear mixed effect model. Fixed factors included in the statistical model included time, group, and restoration strategy (controlled phonation or vocal rest). In addition, appropriate interactions were included and participant was added as a random factor in order to control for individual variation.|||||<|0.001||||||P-value is for the effect of time. A priori significance level set at .05|Mixed Models Analysis|||||||<0.001
82469715|NCT03762993|164635181|OTHER|Changes in lung volumes were analyzed using a linear mixed effect model. Fixed factors included in the statistical model included time, group, and restoration strategy (controlled phonation or vocal rest). In addition, appropriate interactions were included and participant was added as a random factor in order to control for individual variation.|||||<|0.01||||||P-value represents effect of group. A priori threshold for significance set at .05|Mixed Models Analysis|||||||<0.01
82469716|NCT00918255|164635185|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.022
82469717|NCT00918255|164635185|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.025
82469718|NCT00918255|164635185|SUPERIORITY_OR_OTHER|||||||0.252||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.252
82469719|NCT00918255|164635186|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|ANCOVA|||||||0.062
82469720|NCT00918255|164635186|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANCOVA|Analyzed using ANCOVA adjusting for Baseline Hurley Stage (I/II vs III).||||||0.019
82579527|NCT02236988|164869532|OTHER||Ratio of Adjusted Geometric Means|80.6|||||TWO_SIDED|90.0|73.8|88.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.0|73.8|
82650640|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0377|TWO_SIDED|95.0|-0.88|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 11||-0.03|-0.88|0.0377
82650641|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.0741|TWO_SIDED|95.0|-0.91|0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis||-0.43|For Item: Work/School: Week 14||0.04|-0.91|0.0741
82650642|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.0966|TWO_SIDED|95.0|-0.07|0.81||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||For Item: Work/School: Week 11||0.81|-0.07|0.0966
82469721|NCT00918255|164635186|SUPERIORITY_OR_OTHER|||||||0.286||95.0|||||ANCOVA|Analyzed using ANCOVA adjusting for Baseline Hurley Stage (I/II vs III).||||||0.286
82469722|NCT00918255|164635187|SUPERIORITY_OR_OTHER|||||||1||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||1.000
82469723|NCT00918255|164635187|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||1.000
82469724|NCT00918255|164635187|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.097
82469725|NCT00918255|164635188|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.044
82469726|NCT00918255|164635188|SUPERIORITY_OR_OTHER|||||||0.051||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.051
82469727|NCT00918255|164635188|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.320
82469728|NCT00918255|164635189|SUPERIORITY_OR_OTHER|||||||1||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||1.000
82469729|NCT00918255|164635189|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||1.000
82469730|NCT00918255|164635189|SUPERIORITY_OR_OTHER|||||||0.673||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.673
82469731|NCT00918255|164635190|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Cochran-Mantel-Haenszel|||||||0.012
82469732|NCT00918255|164635190|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.020
82469733|NCT00918255|164635190|SUPERIORITY_OR_OTHER|||||||0.721||95.0|||||Cochran-Mantel-Haenszel|Analyzed using CMH test stratified by Hurley Stage.||||||0.721
82469734|NCT00918255|164635191|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||When this initial overall comparison of the 3 treatment groups was significant, pairwise comparisons of each adalimumab dose group versus placebo were performed.|Van Elteren test|||||||0.045
82469735|NCT00918255|164635191|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Van Elteren test|Analyzed using Van Elteren test stratified by Hurley Stage.||||||0.014
82469736|NCT00918255|164635191|SUPERIORITY_OR_OTHER|||||||0.169||95.0|||||Van Elteren test|Analyzed using Van Elteren test stratified by Hurley Stage.||||||0.169
82469737|NCT00753506|164635202|SUPERIORITY_OR_OTHER||F|1.59|||>|0.1|TWO_SIDED|95.0|||||ANOVA|||Repeated measures analaysis of variance||||>0.10
82469738|NCT04226742|164635205|SUPERIORITY||Mean Difference (Net)|0.58||||0.79|TWO_SIDED|95.0|-3.71|4.88||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||4.88|-3.71|0.79
82579528|NCT02236988|164869532|OTHER||Ratio of Adjusted Geometric Means|78.5|||||TWO_SIDED|90.0|71.9|85.7|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||85.7|71.9|
82579529|NCT02236988|164869533|OTHER||Ratio of Adjusted Geometric Means|81.1|||||TWO_SIDED|90.0|74.3|88.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 8 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.6|74.3|
82469739|NCT04226742|164635206|SUPERIORITY||Mean Difference (Net)|0.9||||0.61|TWO_SIDED|95.0|-2.52|4.32||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||4.32|-2.52|.61
82469740|NCT04226742|164635207|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.088|TWO_SIDED|95.0|-0.05|0.68||Significance threshold of alpha = 0.05|Mixed Models Analysis|||||0.68|-0.05|0.088
82650643|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.4774|TWO_SIDED|95.0|-0.66|0.31|||Mixed Models Analysis|||For Item: Work/School: Week 14||0.31|-0.66|0.4774
82469741|NCT04226742|164635208|SUPERIORITY||Mean Difference (Final Values)|13.68||||0.142|TWO_SIDED|95.0|-4.62|31.99||Threshold for statistical significance of alpha = 0.05|Mixed Models Analysis|||||31.99|-4.62|0.142
82469742|NCT04226742|164635209|SUPERIORITY||Mean Difference (Final Values)|-6.87||||0.109|TWO_SIDED|95.0|-15.28|1.54||Threshold for statistical significance of alpha = .05|Mixed Models Analysis|||||1.54|-15.28|0.109
82469743|NCT04226742|164635210|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.736|TWO_SIDED|95.0|-6.92|4.89|||Mixed Models Analysis|||||4.89|-6.92|0.736
82469744|NCT01193244|164635216|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.707|||<|1e-05||95.0|0.626|0.799|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio less than (\<) 1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at Baseline.||0.799|0.626|<0.00001
82469745|NCT01193244|164635217|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.963||||0.59755||95.0|0.838|1.107|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio \<1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at baseline.||1.107|0.838|0.59755
82469746|NCT01193244|164635218|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.166|||<|0.001||95.0|1.724|2.721|||Regression, Logistic|||Logistic regression model with prognostic factors: region; radiographic disease progression at baseline; age; race; baseline Eastern Cooperative Oncology Group (ECOG) score; Gleason score at initial diagnosis; baseline PSA, natural log scale; presence of visceral disease; alkaline phosphatase; lactate dehydrogenase; and hemoglobin. Odds ratio greater than (\>)1 favored orteronel. P-values tested for odds ratio equal to 1.||2.721|1.724|<0.001
82469747|NCT01193244|164635219|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.712||||0.001||95.0|1.235|2.373|||Regression, Logistic|||Logistic regression model with prognostic factors: region; radiographic disease progression at baseline; age; race; baseline ECOG score; Gleason score at initial diagnosis; baseline PSA, natural log scale; presence of visceral disease; alkaline phosphatase; lactate dehydrogenase; and hemoglobin. Odds ratio \> 1 favored orteronel. P-values tested for odds ratio equal to 1.||2.373|1.235|0.001
82469748|NCT01193244|164635220|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.885||||0.33906||95.0|0.688|1.138|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors of region and radiographic disease progression at baseline with treatment as a factor in the model. A hazard ratio less than (\<) 1 indicated better prevention of death in the orteronel group compared to the placebo group. From log-rank test stratified by region and radiographic disease progression at baseline.||1.138|0.688|0.33906
82469749|NCT03763877|164635262|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|7.926||0.9883|TWO_SIDED|95.0|-15.42|15.66|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||15.66|-15.42|0.9883
82469750|NCT03763877|164635262|SUPERIORITY||Mean Difference (Final Values)|-13.14|STANDARD_ERROR_OF_MEAN|7.609||0.0842|TWO_SIDED|95.0|-28.06|1.78|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.78|-28.06|0.0842
82469751|NCT03763877|164635262|SUPERIORITY||Mean Difference (Final Values)|-13.54|STANDARD_ERROR_OF_MEAN|7.636||0.0763|TWO_SIDED|95.0|-28.51|1.43|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.43|-28.51|0.0763
82650644|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0263|TWO_SIDED|95.0|-0.76|-0.05||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||-0.05|-0.76|0.0263
82469752|NCT03763877|164635263|SUPERIORITY||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|7.265||0.8283|TWO_SIDED|95.0|-16.01|12.85|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||12.85|-16.01|0.8283
82469753|NCT03763877|164635263|SUPERIORITY||Mean Difference (Final Values)|-13.25|STANDARD_ERROR_OF_MEAN|7.221||0.0698|TWO_SIDED|95.0|-27.6|1.1|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||1.10|-27.60|0.0698
82469754|NCT03763877|164635263|SUPERIORITY||Mean Difference (Final Values)|-17.31|STANDARD_ERROR_OF_MEAN|7.207||0.0184|TWO_SIDED|95.0|-31.63|-2.99|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||-2.99|-31.63|0.0184
82469755|NCT03763877|164635264|SUPERIORITY||Location Shift|-4.22||||0.5537|TWO_SIDED|95.0|-15.64|8.65|||Wilcoxon (Mann-Whitney)|||||8.65|-15.64|0.5537
82469756|NCT03763877|164635264|SUPERIORITY||Location Shift|-13.64||||0.1005|TWO_SIDED|95.0|-26.19|1.88|||Wilcoxon (Mann-Whitney)|||||1.88|-26.19|0.1005
82469757|NCT03763877|164635264|SUPERIORITY||Location Shift|-18.72||||0.0387|TWO_SIDED|95.0|-31.95|-1.58|||Wilcoxon (Mann-Whitney)|||||-1.58|-31.95|0.0387
82469758|NCT03763877|164635265|SUPERIORITY||Mean Difference (Final Values)|7.25|STANDARD_ERROR_OF_MEAN|0.5733||0.5733|TWO_SIDED|95.0|-18.0|32.51|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||32.51|-18.00|0.5733
82469759|NCT03763877|164635265|SUPERIORITY||Mean Difference (Final Values)|-10.61|STANDARD_ERROR_OF_MEAN|12.236||0.3861|TWO_SIDED|95.0|-34.6|13.38|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||13.38|-34.60|0.3861
82469760|NCT03763877|164635265|SUPERIORITY||Mean Difference (Final Values)|-21.13|STANDARD_ERROR_OF_MEAN|12.916||0.1019|TWO_SIDED|95.0|-46.46|4.19|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||4.19|-46.46|0.1019
82469761|NCT03763877|164635266|SUPERIORITY||Mean Difference (Final Values)|-0.242|STANDARD_ERROR_OF_MEAN|1.3873||0.8617|TWO_SIDED|95.0|-2.961|2.478|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||2.478|-2.961|0.8617
82469762|NCT03763877|164635266|SUPERIORITY||Mean Difference (Final Values)|-2.571|STANDARD_ERROR_OF_MEAN|1.3712||0.0609|TWO_SIDED|95.0|-5.26|0.117|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method|||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|0.117|-5.260|0.0609
82650645|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0214|TWO_SIDED|95.0|-0.89|-0.07|||Mixed Models Analysis|||Social life: Week 14||-0.07|-0.89|0.0214
82650646|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8281|TWO_SIDED|95.0|-0.4|0.32||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||0.32|-0.40|0.8281
82469763|NCT03763877|164635266|SUPERIORITY||Mean Difference (Final Values)|-2.414|STANDARD_ERROR_OF_MEAN|1.3633||0.0766|TWO_SIDED|95.0|-5.087|0.258|||ANCOVA|ANCOVA using a multiple imputation procedure based on the fully conditional specification method|Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.258|-5.087|0.0766
82469764|NCT03763877|164635267|SUPERIORITY||Odds Ratio (OR)|1.744||||0.5592|TWO_SIDED|95.0|0.27|11.267|||Regression, Logistic|Logistic regression with multiple imputation||||11.267|0.270|0.5592
82469765|NCT03763877|164635267|SUPERIORITY||Odds Ratio (OR)|2.287||||0.3747|TWO_SIDED|95.0|0.368|14.208|||Regression, Logistic|Logistic regression with multiple imputation||||14.208|0.368|0.3747
82469766|NCT03763877|164635267|SUPERIORITY||Odds Ratio (OR)|5.669||||0.0501|TWO_SIDED|95.0|1.0|32.149|||Regression, Logistic|Logistic regression with multiple imputation||||32.149|1.000|0.0501
82469767|NCT03763877|164635268|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|3.71||0.8013|TWO_SIDED|95.0|-8.3|6.4|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||6.4|-8.3|0.8013
82469768|NCT03763877|164635268|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|3.81||0.8694|TWO_SIDED|95.0|-8.2|7.0|||Mixed Models Analysis|Mixed Model Repeated Measures|||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|7.0|-8.2|0.8694
82469769|NCT03763877|164635268|SUPERIORITY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|3.8||0.0581|TWO_SIDED|95.0|-14.9|0.3|||Mixed Models Analysis|Mixed Model Repeated Measures|||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|0.3|-14.9|0.0581
82469770|NCT03763877|164635269|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|2.44||0.6681|TWO_SIDED|95.0|-3.8|5.9|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.9|-3.8|0.6681
82469771|NCT03763877|164635269|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|2.51||0.8224|TWO_SIDED|95.0|-4.4|5.5|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.5|-4.4|0.8224
82500075|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|3.66|||||TWO_SIDED|95.0|2.37|5.65||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22||5.65|2.37|
82469772|NCT03763877|164635269|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|2.5||0.0924|TWO_SIDED|95.0|-9.2|0.7|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7|-9.2|0.0924
82469773|NCT03763877|164635270|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.256||0.5148|TWO_SIDED|95.0|-0.68|0.34|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.34|-0.68|0.5148
82469774|NCT03763877|164635270|SUPERIORITY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.261||0.0434|TWO_SIDED|95.0|-1.05|-0.02|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.02|-1.05|0.0434
82469775|NCT03763877|164635270|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.261||0.0494|TWO_SIDED|95.0|-1.04|0.0|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.00|-1.04|0.0494
82469776|NCT03763877|164635271|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.111||0.2449|TWO_SIDED|95.0|-0.35|0.09|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.09|-0.35|0.2449
82469777|NCT03763877|164635271|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.115||0.0502|TWO_SIDED|95.0|-0.46|0.0|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.00|-0.46|0.0502
82469778|NCT03763877|164635271|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.113||0.0123|TWO_SIDED|95.0|-0.51|-0.06|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||-0.06|-0.51|0.0123
82469779|NCT03763877|164635272|SUPERIORITY||Mean Difference (Final Values)|-0.251|STANDARD_ERROR_OF_MEAN|0.2172||0.251|TWO_SIDED|95.0|-0.682|0.18|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.180|-0.682|0.2510
82469780|NCT03763877|164635272|SUPERIORITY||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.2202||0.8246|TWO_SIDED|95.0|-0.486|0.388|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.388|-0.486|0.8246
82469781|NCT03763877|164635272|SUPERIORITY||Mean Difference (Final Values)|-0.026|STANDARD_ERROR_OF_MEAN|0.2216||0.9067|TWO_SIDED|95.0|-0.466|0.414|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.414|-0.466|0.9067
82469782|NCT03763877|164635273|SUPERIORITY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.0468||0.6951|TWO_SIDED|95.0|-0.111|0.075|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.075|-0.111|0.6951
82650647|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.054|TWO_SIDED|95.0|-0.8|0.01|||Mixed Models Analysis|||Social life: Week 14||0.01|-0.80|0.0540
82650648|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.0008|TWO_SIDED|95.0|-0.99|-0.26||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||-0.26|-0.99|0.0008
82579530|NCT02236988|164869533|OTHER||Ratio of Adjusted Geometric Means|79.0|||||TWO_SIDED|90.0|72.3|86.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 9 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||86.3|72.3|
82579531|NCT02236988|164869534|OTHER||Median Difference|0.98||||0.0374|TWO_SIDED|90.0|0.02|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 8 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.02|0.0374
82579532|NCT02236988|164869534|OTHER||Median Difference|0.51||||0.1907|TWO_SIDED|90.0|0.0|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 9 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.00|0.1907
82579533|NCT02236988|164869540|OTHER||Ratio of Adjusted Geometric Means|109.4|||||TWO_SIDED|90.0|98.6|121.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||121.3|98.6|
82650649|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0093|TWO_SIDED|95.0|-0.97|-0.14|||Mixed Models Analysis|||Family life: Week 14||-0.14|-0.97|0.0093
82650650|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.2182|TWO_SIDED|95.0|-0.59|0.14|||Mixed Models Analysis|||Family life: Week 11||0.14|-0.59|0.2182
82650651|NCT01360632|165016433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0256|TWO_SIDED|95.0|-0.9|-0.06||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 14||-0.06|-0.90|0.0256
82469783|NCT03763877|164635273|SUPERIORITY||Mean Difference (Final Values)|-0.078|STANDARD_ERROR_OF_MEAN|0.0472||0.103|TWO_SIDED|95.0|-0.171|0.016|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.016|-0.171|0.1030
82469784|NCT03763877|164635273|SUPERIORITY||Mean Difference (Final Values)|0.008|STANDARD_ERROR_OF_MEAN|0.0471||0.8583|TWO_SIDED|95.0|-0.085|0.102|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.102|-0.085|0.8583
82469785|NCT03763877|164635274|SUPERIORITY||Mean Difference (Final Values)|-0.105|STANDARD_ERROR_OF_MEAN|0.1777||0.5576|TWO_SIDED|95.0|-0.457|0.248|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.248|-0.457|0.5576
82650652|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.0341|TWO_SIDED|95.0|-1.01|-0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 11||-0.04|-1.01|0.0341
82650653|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0816|TWO_SIDED|95.0|-0.99|0.06||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||School/work: Week 14||0.06|-0.99|0.0816
82469786|NCT03763877|164635274|SUPERIORITY||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.1799||0.4261|TWO_SIDED|95.0|-0.213|0.501|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.501|-0.213|0.4261
82469787|NCT03763877|164635274|SUPERIORITY||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.1822||0.6571|TWO_SIDED|95.0|-0.281|0.443|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.443|-0.281|0.6571
82469788|NCT03763877|164635275|SUPERIORITY||Mean Difference (Final Values)|-0.161|STANDARD_ERROR_OF_MEAN|0.2851||0.5732|TWO_SIDED|95.0|-0.727|0.405|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.405|-0.727|0.5732
82469789|NCT03763877|164635275|SUPERIORITY||Mean Difference (Final Values)|-0.139|STANDARD_ERROR_OF_MEAN|0.2884||0.6312|TWO_SIDED|95.0|-0.712|0.434|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.434|-0.712|0.6312
82469790|NCT03763877|164635275|SUPERIORITY||Mean Difference (Final Values)|-0.201|STANDARD_ERROR_OF_MEAN|0.2865||0.4857|TWO_SIDED|95.0|-0.769|0.368|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.368|-0.769|0.4857
82469791|NCT03763877|164635276|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.074||0.5737|TWO_SIDED|95.0|-0.11|0.19|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.19|-0.11|0.5737
82469792|NCT03763877|164635276|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.074||0.7563|TWO_SIDED|95.0|-0.12|0.17|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.17|-0.12|0.7563
82469793|NCT03763877|164635276|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.075||0.5695|TWO_SIDED|95.0|-0.19|0.11|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANCOVA model.|||0.11|-0.19|0.5695
82469794|NCT03763877|164635277|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.659||0.9552|TWO_SIDED|95.0|-1.34|1.27|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.27|-1.34|0.9552
82469795|NCT03763877|164635277|SUPERIORITY||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.674||0.2633|TWO_SIDED|95.0|-2.1|0.58|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.58|-2.10|0.2633
82469796|NCT03763877|164635277|SUPERIORITY||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.673||0.1962|TWO_SIDED|95.0|-2.21|0.46|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.46|-2.21|0.1962
82469797|NCT03763877|164635278|SUPERIORITY||Odds Ratio (OR)|1.353||||0.8245|TWO_SIDED|95.0|0.094|19.554|||Regression, Logistic|||||19.554|0.094|0.8245
82469798|NCT03763877|164635278|SUPERIORITY||Odds Ratio (OR)|2.791||||0.414|TWO_SIDED|95.0|0.238|32.752|||Regression, Logistic|||||32.752|0.238|0.4140
82469799|NCT03763877|164635278|SUPERIORITY||Odds Ratio (OR)|14.872||||0.0341|TWO_SIDED|95.0|1.226|180.452|||Regression, Logistic|||||180.452|1.226|0.0341
82469800|NCT03763877|164635279|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|5.84||0.4626|TWO_SIDED|95.0|-16.1|7.5|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.5|-16.1|0.4626
82469801|NCT03763877|164635279|SUPERIORITY||Mean Difference (Final Values)|-6.0|STANDARD_ERROR_OF_MEAN|5.88||0.316|TWO_SIDED|95.0|-17.9|5.9|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.9|-17.9|0.3160
82469802|NCT03763877|164635279|SUPERIORITY||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|6.19||0.0204|TWO_SIDED|95.0|-27.4|-2.4|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-2.4|-27.4|0.0204
82469803|NCT03763877|164635280|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|3.91||0.4601|TWO_SIDED|95.0|-10.8|5.0|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||5.0|-10.8|0.4601
82469804|NCT03763877|164635280|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|3.95||0.9782|TWO_SIDED|95.0|-8.1|7.9|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.9|-8.1|0.9782
82650654|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.2561|TWO_SIDED|95.0|-0.21|0.78||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 11||0.78|-0.21|0.2561
82469805|NCT03763877|164635280|SUPERIORITY||Mean Difference (Final Values)|-9.9|STANDARD_ERROR_OF_MEAN|4.13||0.0205|TWO_SIDED|95.0|-18.3|-1.6|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-1.6|-18.3|0.0205
82469806|NCT03763877|164635281|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.538||0.9529|TWO_SIDED|95.0|-1.12|1.05|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.05|-1.12|0.9529
82469807|NCT03763877|164635281|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.532||0.1285|TWO_SIDED|95.0|-1.9|0.25|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.25|-1.90|0.1285
82469808|NCT03763877|164635281|SUPERIORITY||Mean Difference (Final Values)|-1.19|STANDARD_ERROR_OF_MEAN|0.565||0.0417|TWO_SIDED|95.0|-2.32|-0.05|||Mixed Models Analysis||Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.05|-2.32|0.0417
82469809|NCT03763877|164635282|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3141|TWO_SIDED|95.0|-0.69|0.23|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.23|-0.69|0.3141
82469810|NCT03763877|164635282|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.226||0.0656|TWO_SIDED|95.0|-0.88|0.03|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||0.03|-0.88|0.0656
82469811|NCT03763877|164635282|SUPERIORITY||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.237||0.0101|TWO_SIDED|95.0|-1.12|-0.16|||ANCOVA||Mean difference (final values) is the difference in LS Means estimated in the ANOVA model.|||-0.16|-1.12|0.0101
82469812|NCT00068692|164635300|SUPERIORITY|||||||0.35||||||One-sided p value was reported|Log Rank|stratified on ECOG performance status, clinical stage, timing of chemoradiotherapy, and regimen administration||||||0.35
82469813|NCT00068692|164635300|SUPERIORITY|||||||0.69||||||one-sided p value was reported|Log Rank|stratified on ECOG performance status, clinical stage, timing of chemoradiaotherapy, regimen administration||||||0.69
82469814|NCT00248040|164635319|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-0.275||||0.9076|TWO_SIDED|95.0|-5.0|4.45|||Other|||This analysis refers to the 1-3 hours time point||4.45|-5.00|0.9076
82469815|NCT00248040|164635319|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|2.444||||0.3084|TWO_SIDED|95.0|-2.32|7.21|||Other|||This analysis refers to the 1-3 hours timepoint.||7.21|-2.32|0.3084
82469816|NCT00248040|164635319|OTHER||Difference between means|-2.719||||0.2565|TWO_SIDED|95.0|-7.47|2.03|||Other|||||2.03|-7.47|0.2565
82469817|NCT00248040|164635319|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-0.063||||0.9855|TWO_SIDED|95.0|-6.91|6.79|||Other|||This analysis refers to the 10-12 hours time point.||6.79|-6.91|0.9855
82469818|NCT00248040|164635319|SUPERIORITY|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|4.519||||0.1934|TWO_SIDED|95.0|-2.36|11.39|||Other|||This analysis refers to the 10-12 hours timepoint.||11.39|-2.36|0.1934
82469819|NCT00248040|164635319|OTHER|The model included fixed effect terms for center, time point, and treatment. Time point was specified as a repeated measurement.|Difference between means|-4.582||||0.1797|TWO_SIDED|95.0|-11.3|2.17|||Other|||This analysis refers to the 10-12 hours time point.||2.17|-11.3|0.1797
82469820|NCT02540629|164635349|EQUIVALENCE|Chi-squared test||||||0.01|||||||Chi-squared|||||||0.01
82469821|NCT03847896|164635399|SUPERIORITY||Mean Difference (Final Values)|60.5||||0.025|TWO_SIDED|95.0|7.7|113.4|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||113.4|7.7|0.025
82469822|NCT03847896|164635399|SUPERIORITY||Mean Difference (Final Values)|161.9|||<|0.001|TWO_SIDED|95.0|109.4|214.5|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||214.5|109.4|<0.001
82469823|NCT03847896|164635399|SUPERIORITY||Mean Difference (Final Values)|80.7||||0.003|TWO_SIDED|95.0|28.4|132.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||132.9|28.4|0.003
82469824|NCT03847896|164635400|SUPERIORITY||Mean Difference (Final Values)|73.3||||0.037|TWO_SIDED|95.0|4.4|142.2|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||142.2|4.4|0.037
82469825|NCT03847896|164635400|SUPERIORITY||Mean Difference (Final Values)|99.9||||0.005|TWO_SIDED|95.0|30.9|168.8|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||168.8|30.9|0.005
82469826|NCT03847896|164635400|SUPERIORITY||Mean Difference (Final Values)|132.8|||<|0.001|TWO_SIDED|95.0|63.6|201.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||201.9|63.6|<0.001
82469827|NCT03847896|164635400|SUPERIORITY||Mean Difference (Final Values)|87.9||||0.013|TWO_SIDED|95.0|18.8|156.9|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||156.9|18.8|0.013
82500076|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|2.21|||||TWO_SIDED|95.0|1.43|3.4||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||3.4|1.43|
82650655|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.2952|TWO_SIDED|95.0|-0.82|0.25||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Work/school: Week 14||0.25|-0.82|0.2952
82650656|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.0331|TWO_SIDED|95.0|-0.82|-0.03||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||-0.03|-0.82|0.0331
82469828|NCT03847896|164635400|SUPERIORITY||Mean Difference (Final Values)|120.8|||<|0.001|TWO_SIDED|95.0|51.5|190.1|||ANCOVA|||Only includes data from date of first dose up to date of last dose of randomized treatment. A sequential testing strategy is used such that the primary hypothesis tests are listed in ascending order of sequence. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected. Tests are each conducted at the 5% level of significance.||190.1|51.5|<0.001
82650657|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.0352|TWO_SIDED|95.0|-0.9|-0.03|||Mixed Models Analysis|||Social life: Week 14||-0.03|-0.90|0.0352
82469829|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-6.0|1.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||1|-6|
82469830|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|3.0|||||TWO_SIDED|95.0|-3.0|9.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||9|-3|
82469831|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-9.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-9|
82469832|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-4.5|||||TWO_SIDED|95.0|-9.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-9|
82469833|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-3|
82469834|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-2.0|0.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||0|-2|
82469835|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-6.5|||||TWO_SIDED|95.0|-11.0|-2.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||-2|-11|
82469836|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|-6.5|||||TWO_SIDED|95.0|-11.0|-2.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||-2|-11|
82469837|NCT03847896|164635401|SUPERIORITY||Median Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-1.0|1.0||||||Not type-I error controlled. The estimated median difference and 95% CIs are calculated using the Hodges-Lehmann method.||1|-1|
82469838|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|0.699||||0.118|TWO_SIDED|95.0|0.445|1.096|||Regression, Logistic|||Comparison is not type-I error controlled.||1.096|0.445|0.118
82469839|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.386||||0.161|TWO_SIDED|95.0|0.878|2.187|||Regression, Logistic|||Comparison is not type-I error controlled.||2.187|0.878|0.161
82469840|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.605||||0.044|TWO_SIDED|95.0|1.013|2.541|||Regression, Logistic|||Comparison is not type-I error controlled.||2.541|1.013|0.044
82469841|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.626||||0.039|TWO_SIDED|95.0|1.024|2.584|||Regression, Logistic|||Comparison is not type-I error controlled.||2.584|1.024|0.039
82469842|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|2.297|||<|0.001|TWO_SIDED|95.0|1.456|3.626|||Regression, Logistic|||Comparison is not type-I error controlled.||3.626|1.456|<0.001
82469843|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|2.328|||<|0.001|TWO_SIDED|95.0|1.471|3.687|||Regression, Logistic|||Comparison is not type-I error controlled.||3.687|1.471|<0.001
82469844|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.158||||0.532|TWO_SIDED|95.0|0.731|1.835|||Regression, Logistic|||Comparison is not type-I error controlled.||1.835|0.731|0.532
82650658|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.486|TWO_SIDED|95.0|-0.54|0.25||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 11||0.25|-0.54|0.4860
82469845|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.174||||0.499|TWO_SIDED|95.0|0.737|1.868|||Regression, Logistic|||Comparison is not type-I error controlled.||1.868|0.737|0.499
82469846|NCT03847896|164635403|SUPERIORITY||Odds Ratio (OR)|1.014||||0.955|TWO_SIDED|95.0|0.635|1.618|||Regression, Logistic|||Comparison is not type-I error controlled.||1.618|0.635|0.955
82469847|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|-42.1||||0.169|TWO_SIDED|95.0|-101.9|17.8|||ANCOVA|||Comparison is not type-I error controlled.||17.8|-101.9|0.169
82469848|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|52.1||||0.086|TWO_SIDED|95.0|-7.4|111.5|||ANCOVA|||Comparison is not type-I error controlled.||111.5|-7.4|0.086
82469849|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|30.7||||0.31|TWO_SIDED|95.0|-28.6|90.1|||ANCOVA|||Comparison is not type-I error controlled.||90.1|-28.6|0.31
82469850|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|65.9||||0.03|TWO_SIDED|95.0|6.3|125.4|||ANCOVA|||Comparison is not type-I error controlled.||125.4|6.3|0.03
82469851|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|72.8||||0.017|TWO_SIDED|95.0|13.1|132.5|||ANCOVA|||Comparison is not type-I error controlled.||132.5|13.1|0.017
82469852|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|107.9|||<|0.001|TWO_SIDED|95.0|48.1|167.8|||ANCOVA|||Comparison is not type-I error controlled.||167.8|48.1|<0.001
82469853|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|-21.3||||0.48|TWO_SIDED|95.0|-80.5|37.9|||ANCOVA|||Comparison is not type-I error controlled.||37.9|-80.5|0.48
82469854|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|13.8||||0.648|TWO_SIDED|95.0|-45.6|73.2|||ANCOVA|||Comparison is not type-I error controlled.||73.2|-45.6|0.648
82469855|NCT03847896|164635404|SUPERIORITY||Mean Difference (Final Values)|35.1||||0.246|TWO_SIDED|95.0|-24.2|94.5|||ANCOVA|||Comparison is not type-I error controlled.||94.5|-24.2|0.246
82469856|NCT00118417|164635412|SUPERIORITY_OR_OTHER|||||||0||95.0||||Paired t-test between endpoint and baseline PDSS|t-test, 2 sided|Degrees of Freedom = 38||||||0.0000
82469857|NCT00118417|164635413|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||T-test of PDSS change score|t-test, 2 sided|Degrees of Freedom = 22||||||0.97
82469858|NCT00118417|164635414|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||T-test of PDSS change between baseline and endpoint of Phase 3|t-test, 2 sided|Degrees of Freedom = 17||||||0.061
82500077|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.42|||||TWO_SIDED|95.0|2.85|6.86||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||6.86|2.85|
82469859|NCT02978781|164635416|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.227||0.9143|TWO_SIDED|95.0|-0.44|0.49|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14 (predose)|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.49|-0.44|0.9143
82469860|NCT02978781|164635417|OTHER||Least Squares Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.815||0.0529|TWO_SIDED|95.0|-3.5|0.03|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.03|-3.50|0.0529
82469861|NCT02978781|164635423|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|1.326||0.7795|TWO_SIDED|95.0|-3.47|2.7|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|2.70|-3.47|0.7795
82469862|NCT02978781|164635424|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.473||0.4846|TWO_SIDED|95.0|-0.65|1.33|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization in Forward outstretched postural tremor (FOPT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.33|-0.65|0.4846
82469863|NCT02978781|164635424|SUPERIORITY||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.845||0.4567|TWO_SIDED|95.0|-2.7|1.36|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|"Change from Randomization in Lateral wing beating postural tremor (LWBPT) at Day 14"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.36|-2.70|0.4567
82469864|NCT02978781|164635425|SUPERIORITY||Least Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.85||0.3771|TWO_SIDED|95.0|-2.48|0.96|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.96|-2.48|0.3771
82469865|NCT02978781|164635426|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.415||0.7302|TWO_SIDED|95.0|-0.97|0.69|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization in Forward outstretched postural tremor (FOPT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.69|-0.97|0.7302
82469866|NCT02978781|164635426|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.467||0.7916|TWO_SIDED|95.0|-1.1|0.85|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|"Change from Randomization in Lateral wing beating postural tremor (LWBPT) at Day 14"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.85|-1.10|0.7916
82469867|NCT02978781|164635427|SUPERIORITY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.34||0.1807|TWO_SIDED|95.0|-1.17|0.23|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Randomization (SAGE-217 - placebo)|Change from Randomization at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.23|-1.17|0.1807
82469868|NCT02978781|164635428|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.72||0.8709|TWO_SIDED|95.0|-1.7|1.9|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline(SAGE-217 - placebo)|Change from Baseline in Archimedes Spirals (AS) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.9|-1.7|0.8709
82469869|NCT02978781|164635428|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.7843|TWO_SIDED|95.0|-1.8|1.4|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217 - placebo)|Change from Baseline in Handwriting at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|1.4|-1.8|0.7843
82469870|NCT02978781|164635428|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.984||0.7604|TWO_SIDED|95.0|-2.72|2.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217 - placebo|Change from Baseline in Dot approximation task (DAT) at Day 14|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|2.10|-2.72|0.7604
82469871|NCT02978781|164635429|OTHER||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.301||0.1333|TWO_SIDED|95.0|-1.13|0.17|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Forward outstretched postural tremor (FOPT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.17|-1.13|0.1333
82546889|NCT03725722|164793278|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner.||||>0.05
82546890|NCT03725722|164793278|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||"vIGA-AD was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner.||||>0.05
82546891|NCT03725722|164793278|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD.|||||>|0.05||||||The statistical test was not controlled for multiplicity|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner||||>0.05
82546892|NCT03725722|164793278|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline vIGA-AD score. An event was defined as the first time achieving vIGA-AD|||||<|0.001||||||The statistical test was not controlled for multiplicity|Log Rank|||Time to vIGA-AD TS was def. as time from date of first IMP applic. to first assess. of vIGA-AD TS. Subjects without baseline observation were censored at date of first IMP applic. Subjects with baseline observation not achieving vIGA-AD TS during treatment period were censored at date of last visit with a valid post-baseline assess. on or prior to date of discont. of IMP or initiation of rescue med, whichever occurred first. Subjects affected by COVID-19 pandemic were handled in the same manner||||<0.001
82546893|NCT03481660|164793280|NON_INFERIORITY|(4-letter margin) (1-sided)|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.94|<|0.001|TWO_SIDED|95.0|-0.6|3.1|||ANOVA|||BCVA at Week 52||3.1|-0.6|<0.001
82546894|NCT03481660|164793281|NON_INFERIORITY|(4-letter margin) (1-sided)|LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|0.88|<|0.001|TWO_SIDED|95.0|-0.9|2.6|||ANOVA|||BCVA over period Week 40 through Week 52||2.6|-0.9|<0.001
82546895|NCT03481660|164793281|SUPERIORITY|||||||0.164|||||||ANOVA|||BCVA over period Week 40 through Week 52||||0.164
82546896|NCT03481660|164793288|OTHER|Treatment Difference|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-0.6|3.1||||||BCVA at Week 52||3.1|-0.6|
82469872|NCT02978781|164635429|OTHER||Least Squares Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.389||0.0572|TWO_SIDED|95.0|-1.64|0.03|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|"Change from Baseline in Lateral wing beating postural tremor (LWBPT) at Day 15"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.03|-1.64|0.0572
82546897|NCT03481660|164793288|OTHER|Treatment Difference|LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.21|||TWO_SIDED|95.0|0.2|4.9||||||BCVA at Week 100||4.9|0.2|
82650659|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0282|TWO_SIDED|95.0|-0.93|-0.05||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Social life: Week 14||-0.05|-0.93|0.0282
82469873|NCT02978781|164635429|OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.255||0.0707|TWO_SIDED|95.0|-1.05|0.05|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Kinetic tremor (KT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.05|-1.05|0.0707
82546898|NCT03481660|164793289|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.7|||TWO_SIDED|95.0|-0.6|2.1||||||BCVA over period Week 4 through Week 52||2.1|-0.6|
82546899|NCT03481660|164793289|OTHER|Treatment difference|LS mean difference|1.1|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-0.4|2.6||||||BCVA over period Week 4 through Week 100||2.6|-0.4|
82546900|NCT03481660|164793290|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-0.9|2.4||||||BCVA over period Week 20 through Week 52||2.4|-0.9|
82546901|NCT03481660|164793290|OTHER|Treatment difference|LS mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-0.9|2.5||||||BCVA over period Week 28 through Week 52||2.5|-0.9|
82650660|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0016|TWO_SIDED|95.0|-1.01|-0.24||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||-0.24|-1.01|0.0016
82546902|NCT03481660|164793290|OTHER|Treatment difference|LS mean difference|1.2|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-0.5|2.9||||||BCVA over period Week 20 through Week 100||2.9|-0.5|
82546903|NCT03481660|164793290|OTHER|Treatment difference|LS mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|95.0|-0.5|3.0||||||BCVA over period Week 28 through Week 100||3.0|-0.5|
82546904|NCT03481660|164793291|OTHER|Treatment difference|LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-0.1|4.3||||||BCVA over period Week 88 through Week 100||4.3|-0.1|
82546905|NCT03481660|164793292|OTHER|Treatment difference|Clopper-Pearson exact method|0.4|||||TWO_SIDED|95.0|-7.6|8.9||||||Gain of \>= 5 letters in BCVA at Week 52||8.9|-7.6|
82546906|NCT03481660|164793292|OTHER|Treatment difference|Clopper-Pearson exact method|5.4|||||TWO_SIDED|95.0|-3.9|14.5||||||Gain of \>= 5 letters in BCVA at Week 100||14.5|-3.9|
82546907|NCT03481660|164793293|OTHER|Treatment difference|Clopper-Pearson exact method|5.4|||||TWO_SIDED|95.0|-3.9|14.7||||||Gain of \>= 10 letters in BCVA at Week 52||14.7|-3.9|
82546908|NCT03481660|164793293|OTHER|Treatment difference|Clopper-Pearson exact method|9.9|||||TWO_SIDED|95.0|-0.4|19.4||||||Gain of \>= 10 letters in BCVA at Week 100||19.4|-0.4|
82546909|NCT03481660|164793294|OTHER|Treatment difference|Clopper-Pearson exact method|9.6|||||TWO_SIDED|95.0|-0.4|20.2||||||Gain of \>= 15 letters in BCVA at Week 52||20.2|-0.4|
82546910|NCT03481660|164793294|OTHER|Treatment difference|Clopper-Pearson exact method|13.6|||||TWO_SIDED|95.0|3.3|23.5||||||Gain of \>= 15 letters in BCVA at Week 100||23.5|3.3|
82546911|NCT03481660|164793295|OTHER|Treatment difference|Clopper-Pearson exact method|-0.4|||||TWO_SIDED|95.0|-4.2|2.9||||||Loss of \>= 5 letters in BCVA at Week 52||2.9|-4.2|
82546912|NCT03481660|164793295|OTHER|Treatment difference|Clopper-Pearson exact method|-6.0|||||TWO_SIDED|95.0|-10.8|-1.7||||||Loss of \>= 5 letters in BCVA at Week 100||-1.7|-10.8|
82546913|NCT03481660|164793296|OTHER|Treatment difference|Clopper-Pearson exact method|-0.2|||||TWO_SIDED|95.0|-3.2|2.4||||||Loss of \>= 10 letters in BCVA at Week 52||2.4|-3.2|
82546914|NCT03481660|164793296|OTHER|Treatment difference|Clopper-Pearson exact method|-4.1|||||TWO_SIDED|95.0|-8.4|-0.1||||||Loss of \>= 10 letters in BCVA at Week 100||-0.1|-8.4|
82469874|NCT02978781|164635430|OTHER||Least Squares Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.628||0.0278|TWO_SIDED|95.0|-2.87|-0.19|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.19|-2.87|0.0278
82469875|NCT02978781|164635431|OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.258||0.9579|TWO_SIDED|95.0|-0.57|0.54|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Forward outstretched postural tremor (FOPT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.54|-0.57|0.9579
82546915|NCT03481660|164793297|OTHER|Treatment difference|Clopper-Pearson exact method|-0.7|||||TWO_SIDED|95.0|-3.2|1.6||||||Loss of \>= 15 letters in BCVA at Week 52||1.6|-3.2|
82546916|NCT03481660|164793297|OTHER|Treatment difference|Clopper-Pearson exact method|-1.3|||||TWO_SIDED|95.0|-4.8|2.0||||||Loss of \>= 15 letters in BCVA at Week 100||2.0|-4.8|
82546917|NCT03481660|164793298|OTHER|Treatment difference|Clopper-Pearson exact method|3.5|||||TWO_SIDED|95.0|-4.9|12.0||||||Absolute BCVA \>= 73 letters at Week 52||12.0|-4.9|
82650661|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.0186|TWO_SIDED|95.0|-0.94|-0.09|||Mixed Models Analysis|||Family life: Week 14||-0.09|-0.94|0.0186
82469876|NCT02978781|164635431|OTHER||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.234||0.0039|TWO_SIDED|95.0|-1.31|-0.3|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|"Change from Baseline in Lateral wing beating postural tremor (LWBPT) at Day 15"|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.30|-1.31|0.0039
82469877|NCT02978781|164635431|OTHER||Least Squares Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.223||0.0099|TWO_SIDED|95.0|-1.14|-0.19|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Kinetic tremor (KT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.19|-1.14|0.0099
82546918|NCT03481660|164793298|OTHER|Treatment difference|Clopper-Pearson exact method|3.6|||||TWO_SIDED|95.0|-5.4|12.6||||||Absolute BCVA \>= 73 letters at Week 100||12.6|-5.4|
82546919|NCT03481660|164793300|OTHER|Treatment difference|LS mean difference|-29.4|STANDARD_ERROR_OF_MEAN|9.76|<|0.003|TWO_SIDED|95.0|-48.6|-10.2|||ANOVA|||CSFT over period Week 40 through Week 52||-10.2|-48.6|<0.003
82546920|NCT03481660|164793300|SUPERIORITY|||||||0.001|||||||ANOVA|||CSFT over period Week 40 through Week 52||||0.001
82546921|NCT03481660|164793300|OTHER|Treatment difference|LS mean difference|-23.2|STANDARD_ERROR_OF_MEAN|10.28|||TWO_SIDED|95.0|-43.5|-3.0||||||CSFT over period Week 88 through Week 100||-3.0|-43.5|
82579534|NCT02236988|164869540|OTHER||Ratio of Adjusted Geometric Means|107.2|||||TWO_SIDED|90.0|96.4|119.2|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||119.2|96.4|
82546922|NCT03481660|164793301|OTHER|Treatment difference|LS mean difference|-27.4|STANDARD_ERROR_OF_MEAN|9.35|||TWO_SIDED|95.0|-45.8|-9.0||||||CSFT over period Week 4 through Week 52||-9.0|-45.8|
82546923|NCT03481660|164793301|OTHER|Treatment difference|LS mean difference|-25.8|STANDARD_ERROR_OF_MEAN|9.29|||TWO_SIDED|95.0|-44.0|-7.5||||||CSFT over period Week 4 through Week 100||-7.5|-44.0|
82546924|NCT03481660|164793302|OTHER|Treatment difference|Clopper-Pearson exact method|16.3|||||TWO_SIDED|95.0|5.7|25.9||||||CSFT thickness (\<280 micrometers) at Week 52||25.9|5.7|
82546925|NCT03481660|164793302|OTHER|Treatment difference|Clopper-Pearson exact method|14.7|||||TWO_SIDED|95.0|4.2|24.9||||||CSFT thickness (\<280 micrometers) at Week 100||24.9|4.2|
82546926|NCT03481660|164793303|OTHER||Clopper-Pearson exact method|-1.2|||||TWO_SIDED|95.0|-4.5|2.1||||||Subretinal Fluid (SRF) at Week 52||2.1|-4.5|
82546927|NCT03481660|164793303|OTHER|Treatment Difference|Clopper-Pearson exact method|-0.2|||||TWO_SIDED|95.0|-3.4|3.4||||||Subretinal Fluid (SRF) at Week 100||3.4|-3.4|
82546928|NCT03481660|164793304|OTHER|Treatment Difference|Clopper-Pearson exact method|-19.1|||||TWO_SIDED|95.0|-28.9|-9.2||||||Intraretinal Fluid (IRF) at Week 52||-9.2|-28.9|
82546929|NCT03481660|164793304|OTHER|Treatment Difference|Clopper-Pearson exact method|-16.1|||||TWO_SIDED|95.0|-26.3|-5.7||||||Intraretinal Fluid (IRF) at Week 100||-5.7|-26.3|
82546930|NCT03481660|164793305|OTHER|Treatment Difference|Clopper-Pearson exact method|-18.4|||||TWO_SIDED|95.0|-28.5|-8.3||||||Subretinal Fluid (SRF) and/or Intraretinal Fluid (IRF) at Week 52||-8.3|-28.5|
82546931|NCT03481660|164793305|OTHER|Treatment difference|Clopper-Pearson exact method|-16.2|||||TWO_SIDED|95.0|-26.4|-5.9||||||Subretinal Fluid (SRF) and/or Intraretinal Fluid (IRF) at Week 100||-5.9|-26.4|
82546932|NCT03481660|164793306|OTHER|Treatment difference|Clopper-Pearson exact method|-25.4|||||TWO_SIDED|95.0|-34.4|-16.3||||||Fluorescein Angiography (FA) at Week 52||-16.3|-34.4|
82546933|NCT03481660|164793306|OTHER|Treatment difference|Clopper-Pearson exact method|-19.1|||||TWO_SIDED|95.0|-29.1|-8.2||||||Fluorescein Angiography (FA) at Week 100||-8.2|-29.1|
82546934|NCT03481660|164793307|OTHER|Treatment difference|Clopper-Pearson exact method|1.1|||||TWO_SIDED|95.0|-5.6|7.8||||||\>=2-step improvement in ETDRS-DRSS at Week 52||7.8|-5.6|
82650662|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0824|TWO_SIDED|95.0|-0.73|0.04||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 11||0.04|-0.73|0.0824
82650663|NCT01360632|165016434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||0.0077|TWO_SIDED|95.0|-1.02|-0.16||MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.|Mixed Models Analysis|||Family life: Week 14||-0.16|-1.02|0.0077
82469878|NCT02978781|164635432|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.41||0.1595|TWO_SIDED|95.0|-1.5|0.3|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Archimedes spirals (AS) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.3|-1.5|0.1595
82469879|NCT02978781|164635432|OTHER||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.19||0.0126|TWO_SIDED|95.0|-0.9|-0.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Handwriting at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|-0.1|-0.9|0.0126
82469880|NCT02978781|164635432|OTHER||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.151||0.1536|TWO_SIDED|95.0|-0.55|0.1|||Mixed Model for Repeated Measures (MMRM)||Least squares mean difference from Baseline (SAGE-217)|Change from Baseline in Dot approximation task (DAT) at Day 15|MMRM model was used for analysis with change from randomization of the Kinesia kinetic tremor combined scores as the dependent variable, treatment group by study visit/time point interaction as fixed effects, and randomization value as a covariate.|0.10|-0.55|0.1536
82469881|NCT00785785|164635441|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.466||||0.0081|TWO_SIDED|95.0|1.104|1.945|||Hazard Ratio|||||1.945|1.104|0.0081
82469882|NCT01244893|164635442|NON_INFERIORITY_OR_EQUIVALENCE|This study uses -0.05 LogMAR as the non-inferiority margin.|Mean Difference (Final Values)|0.005|STANDARD_ERROR_OF_MEAN|0.003|||TWO_SIDED|95.0|-0.00092|0.01045|||Mixed Models Analysis||The mean difference is calculated as the test lens - control lens.|"Ho: after time period (6-8 days of lens wear), the test lens - control lens will be greater than or equal to the non-inferiority margin specified .~Ha: after time period, test-control will be less than the margin specified concluding that the test lens will be inferior to control lens in terms of LogMAR scale"||0.01045|-0.00092|
82500078|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|2.67|||||TWO_SIDED|95.0|1.72|4.13||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 22.||4.13|1.72|
82500079|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|7.82|||||TWO_SIDED|95.0|5.54|11.0||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||11|5.54|
82500080|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.55|||||TWO_SIDED|95.0|3.23|6.42||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines||6.42|3.23|
82500081|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|7.52|||||TWO_SIDED|95.0|5.3|11.0||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||11|5.3|
82500082|NCT00996307|164690742|SUPERIORITY_OR_OTHER||Ratio of GMTs|4.37|||||TWO_SIDED|95.0|3.09|6.19||||||Superiority of the adjuvanted vaccines against the non-adjuvanted vaccines was to be tested against the margin of 1 on day 43.||6.19|3.09|
82500083|NCT02326025|164690750|SUPERIORITY||Ratio of Geometric LS Means|1.04|||||TWO_SIDED|90.0|0.964|1.13|||||Log(PK) is participant and treatment and random error, where participant is fitted as a random effect.|||1.13|0.964|
82500084|NCT02326025|164690750|SUPERIORITY||Ratio of LS Means|1.03|||||TWO_SIDED|90.0|0.957|1.11||||||||1.11|0.957|
82500085|NCT02326025|164690751|SUPERIORITY||Ratio of LS Means|0.944|||||TWO_SIDED|90.0|0.77|1.16||||||||1.16|0.770|
82500086|NCT02326025|164690751|SUPERIORITY||Ratio of LS Means|1.03|||||TWO_SIDED|90.0|0.801|1.33||||||||1.33|0.801|
82500087|NCT00001723|164690758|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|||||||0.007
82500088|NCT00536198|164690763|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Group comparison||||0.21
82500089|NCT00536198|164690763|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500090|NCT00536198|164690763|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||ANOVA|||Group by time: comparison of rates of change||||0.06
82500091|NCT00536198|164690763|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.88|STANDARD_ERROR_OF_MEAN|0.95||0.049|TWO_SIDED|95.0|0.01|3.75|||Mixed Models Analysis|||Estimated mean difference from baseline to endpoint between active vs. placebo||3.75|0.01|0.049
82500092|NCT00536198|164690764|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||ANOVA|||Group comparison||||0.54
82500093|NCT00536198|164690764|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500094|NCT00536198|164690764|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||Group by time: comparison of rates of change||||0.02
82500095|NCT00536198|164690764|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.14|STANDARD_ERROR_OF_MEAN|1.62||0.0015|TWO_SIDED|95.0|1.97|8.31|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||8.31|1.97|0.0015
82500096|NCT00536198|164690765|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||ANOVA|||Group comparison||||0.46
82500097|NCT00536198|164690765|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.0001
82650664|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.0436|TWO_SIDED|95.0|-0.18|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.18|0.0436
82469883|NCT00357552|164635446|NON_INFERIORITY_OR_EQUIVALENCE|Success of the strategy is assessed according to whether the lower bound of the exact 90% confidence interval of this proportion is greater than 65%.|proportion|87.0|||||TWO_SIDED|90.0|81.0|92.0|||confidence interval|Success was determined by whether the lower bound of the 90% exact confidence interval was greater than 65%.|exact confidence interval|The null hypothesis was that LPV/r monotherapy provides at least a 65% short-term virologic response. The target sample size was 120 subjects. Assuming an underlying true 24 week success rate of 76%, this sample size was chosen in order to provide at least 90% power to show that the true 24 week virologic success rate of LPV/r monotherapy in this population is greater than 65%.||92|81|
82469884|NCT03089281|164635463|SUPERIORITY|||||||0.17|||||||Chi-squared|||||||0.17
82469885|NCT03089281|164635464|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
82469886|NCT03089281|164635465|SUPERIORITY|||||||0.029|||||||t-test, 2 sided|||||||0.029
82469887|NCT03089281|164635467|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.050
82469888|NCT03089281|164635468|SUPERIORITY|||||||0.49|||||||Cochran-Armitage Trend Test|||||||0.49
82469889|NCT03089281|164635469|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||||||0.36
82469890|NCT03089281|164635470|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||||||0.21
82469891|NCT03089281|164635471|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||||||0.34
82469892|NCT03089281|164635472|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82469893|NCT03089281|164635473|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
82469894|NCT03089281|164635474|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
82469895|NCT03089281|164635475|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||||||0.59
82469896|NCT02282605|164635528|SUPERIORITY_OR_OTHER|||||||0.792|||||||Fisher Exact|||||||0.792
82469897|NCT02282605|164635528|SUPERIORITY_OR_OTHER|||||||0.887|||||||Fisher Exact|||||||0.887
82469898|NCT02282605|164635529|SUPERIORITY_OR_OTHER|||||||0.0058||||||For timepoint Day 3 (12 hours after last dose)|Fisher Exact|||||||0.0058
82469899|NCT02282605|164635531|SUPERIORITY_OR_OTHER|||||||0.028||||||The adjusted means were compared for the two-day treatment period.|ANCOVA|||||||0.028
82469900|NCT02282605|164635531|SUPERIORITY_OR_OTHER||||||<|0.001||||||The adjusted means were compared for the two-day treatment period to discharge.|ANCOVA|||||||<0.001
82469901|NCT02282605|164635531|SUPERIORITY_OR_OTHER|||||||0.005||||||The adjusted means were compared for the two-day treatment period through to discharge|ANCOVA|||||||0.005
82469902|NCT03584789|164635544|SUPERIORITY||Odds Ratio (OR)|1.29||||0.08|TWO_SIDED|97.5|0.93|1.8|||Mixed Models Analysis|||||1.80|.93|.08
82469903|NCT03584789|164635544|SUPERIORITY||Odds Ratio (OR)|1.24||||0.18|TWO_SIDED|97.5|0.86|1.79|||Mixed Models Analysis|||||1.79|.86|.18
82469904|NCT03584789|164635545|SUPERIORITY||Odds Ratio (OR)|1.37||||0.71|TWO_SIDED|97.5|0.2|9.44|||Mixed Models Analysis|||||9.44|.20|.71
82469905|NCT03584789|164635545|SUPERIORITY||Odds Ratio (OR)|1.53||||0.62|TWO_SIDED|97.5|0.21|11.0|||Mixed Models Analysis|||||11.00|.21|.62
82469906|NCT03584789|164635546|SUPERIORITY||Median Difference (Net)|-0.07||||0.38|TWO_SIDED|95.0|-0.26|0.12|||Mixed Models Analysis|||||.12|-0.26|.38
82469907|NCT03584789|164635546|SUPERIORITY||Median Difference (Net)|-0.03||||0.7|TWO_SIDED|95.0|-0.24|0.17|||Mixed Models Analysis|||||.17|-0.24|.70
82469908|NCT03584789|164635547|SUPERIORITY||Mean Difference (Net)|-0.14||||0.65|TWO_SIDED|95.0|-0.79|0.5|||Mixed Models Analysis|||||.50|-0.79|.65
82469909|NCT03584789|164635547|SUPERIORITY||Mean Difference (Net)|-0.29||||0.41|TWO_SIDED|95.0|-0.99|0.41|||Mixed Models Analysis|||||.41|-0.99|.41
82469910|NCT00084136|164635612|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51|||<|0.01|TWO_SIDED|95.0|1.12|2.04||Not adjusted for multiple interim analyses. Peto-Haybittle spending function was used as a basis for calculating the repeated confidence intervals used in interim monitoring.|Log Rank|Log-rank test was stratified by country and screening RNA (\< 100,000 c/mL vs \>= 100,000 copies/mL).|The HR is for ddI+FTC+ATV vs. ZDV/3TC+EFV.|||2.04|1.12|<0.01
82469911|NCT00084136|164635613|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.72|1.27|||Other||The HR is for TDF/FTC+EFV vs. ZDV/3TC+EFV.|While original study design specified a non-inferiority test, study follow-up stopped early, not due to treatment effect size or futility, but due to slowing accumulation of primary outcome events. Therefore, 2-sided, 95% confidence intervals about the estimated treatment effect (relative effect estimated by a hazard ratio) are provided.||1.27|0.72|
82500098|NCT00536198|164690765|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.69
82500099|NCT00536198|164690765|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.02||||0.84|TWO_SIDED|95.0|0.83|1.26|||Mixed Models Analysis|||Estimated mean difference from Cycle 1 to end point between active vs. placebo||1.26|0.83|0.84
82500100|NCT00536198|164690766|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Group comparison||||0.01
82500101|NCT00536198|164690766|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Change over time in both groups||||<0.001
82500102|NCT00536198|164690766|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Chi-squared|||Group by time: comparison rates of change||||0.28
82500103|NCT00536198|164690766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.59||||0.056|TWO_SIDED|95.0|0.3|1.19|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.19|0.30|0.056
82500104|NCT00536198|164690768|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||Group comparison||||0.30
82500105|NCT00536198|164690768|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.01
82546935|NCT03481660|164793307|OTHER|Treatment difference|Clopper-Pearson exact method|4.5|||||TWO_SIDED|95.0|-1.7|10.8||||||\>=2-step improvement in ETDRS-DRSS at Week 100||10.8|-1.7|
82546936|NCT03481660|164793308|OTHER|Treatment difference|Clopper-Pearson exact method|-0.6|||||TWO_SIDED|95.0|-7.1|5.7||||||\>=3-step improvement in ETDRS-DRSS at Week 52||5.7|-7.1|
82546937|NCT03481660|164793308|OTHER|Treatment difference|Clopper-Pearson exact method|3.9|||||TWO_SIDED|95.0|-2.3|10.0||||||\>=3-step improvement in ETDRS-DRSS at Week 100||10.0|-2.3|
82546938|NCT03481660|164793309|OTHER|Treatment difference|Clopper-Pearson exact method|1.1|||||TWO_SIDED|95.0|-1.0|3.6||||||\>=2-step worsening in ETDRS-DRSS at Week 52||3.6|-1.0|
82546939|NCT03481660|164793309|OTHER|Treatment difference|Clopper-Pearson exact method|2.9|||||TWO_SIDED|95.0|-0.5|6.9||||||\>=2-step worsening in ETDRS-DRSS at Week 100||6.9|-0.5|
82546940|NCT03481660|164793310|OTHER|Treatment difference|Clopper-Pearson exact method|0.6|||||TWO_SIDED|95.0|0.5|2.1||||||\>=3-step worsening in ETDRS-DRSS at Week 52||2.1|0.5|
82579535|NCT02236988|164869540|OTHER||Ratio of Adjusted Geometric Means|72.7|||||TWO_SIDED|90.0|65.5|80.8|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||80.8|65.5|
82469912|NCT00905164|164635634|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS mean (test/ref x 100)|99.5|||||TWO_SIDED|90.0|94.27|105.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125|||105.03|94.27|
82469913|NCT00905164|164635635|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS mean (test/ref x 100)|100.13||||||90.0|97.6|102.72|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.72|97.60|
82469914|NCT00905164|164635636|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (test/ref x 100)|101.53||||||90.0|99.01|104.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.12|99.01|
82469915|NCT00904033|164635637|OTHER|||||||0.86|||||||ANCOVA|Main Effects Results only for No Exercise vs Exercise||||||0.86
82546941|NCT03481660|164793310|OTHER|Treatment difference|Clopper-Pearson exact method|-0.6|||||TWO_SIDED|95.0|-2.6|1.3||||||\>=3-step worsening in ETDRS-DRSS at Week 100||1.3|-2.6|
82546942|NCT03481660|164793311|OTHER|Treatment difference|Clopper-Pearson exact method|0.0|||||TWO_SIDED|95.0|-2.1|1.9||||||Proliferative diabetic retinopathy (PDR) of at least 61 by Week 100||1.9|-2.1|
82546943|NCT01259401|164793331|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED||||||ANCOVA|||||||.04
82579536|NCT02236988|164869540|OTHER||Ratio of Adjusted Geometric Means|103.5|||||TWO_SIDED|90.0|93.1|114.9|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed Cmax value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||114.9|93.1|
82579537|NCT02236988|164869541|OTHER||Ratio of Adjusted Geometric Means|81.5|||||TWO_SIDED|90.0|75.2|88.3|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.3|75.2|
82546944|NCT01259401|164793332|SUPERIORITY_OR_OTHER_LEGACY|||||||0.061|TWO_SIDED||||||ANCOVA|||||||.061
82546945|NCT03683069|164793338|SUPERIORITY|||||||0.823|||||||Regression, Linear|||adjusted to medication dose, sex, age, race||||0.823
82546946|NCT03683069|164793338|SUPERIORITY|||||||0.839|||||||Regression, Linear|||diastolic bp adjusted for medication dose sex,age, race||||.8390
82546947|NCT03683069|164793339|SUPERIORITY|||||||0.0101|||||||Wilcoxon (Mann-Whitney)|||||||.0101
82546948|NCT03683069|164793340|SUPERIORITY|||||||0.59|||||||ANOVA|||||||0.59
82546949|NCT03683069|164793341|SUPERIORITY||Hazard Ratio, log|0.7022||||0.09|TWO_SIDED||||||Kaplan-Meier using Gehan-Breslow-Wilcoxo|||||||.09
82546950|NCT05768373|164793351|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-3.4|4.0|||||The difference is 3M Clinpro minus 3M Vanish.|||4.0|-3.4|
82546951|NCT05768373|164793352|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.6|5.3|||||The difference is 3M Clinpro minus 3M Vanish.|||5.3|-2.6|
82469916|NCT00904033|164635638|OTHER|||||||0.19|||||||ANCOVA|||||||0.19
82469917|NCT00904033|164635639|OTHER|||||||0.49|||||||ANCOVA|||||||0.49
82546952|NCT05768373|164793353|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-3.2|6.7|||||The difference is 3M Clinpro minus 3M Vanish.|||6.7|-3.2|
82546953|NCT05768373|164793354|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-3.0|7.4|||||The difference is 3M Clinpro minus 3M Vanish.|||7.4|-3.0|
82546954|NCT05768373|164793355|NON_INFERIORITY|This study used a non-inferiority margin of 15 mm.|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-4.4|8.2|||||The difference is 3M Clinpro minus 3M Vanish.|||8.2|-4.4|
82546955|NCT05478525|164793357|SUPERIORITY||Least Squares (LS) Mean Difference|-35.05||||0.0007|TWO_SIDED|95.0|-54.35|-15.75|||ANCOVA|||Analysis at Week 2||-15.75|-54.35|0.0007
82546956|NCT05478525|164793357|SUPERIORITY||LS Mean Difference|-23.14||||0.0193|TWO_SIDED|95.0|-42.32|-3.97|||ANCOVA|||Analysis at Week 2||-3.97|-42.32|0.0193
82546957|NCT05478525|164793357|SUPERIORITY||LS Mean Difference|-21.64||||0.0243|TWO_SIDED|95.0|-40.33|-2.96|||ANCOVA|||Analysis at Week 2||-2.96|-40.33|0.0243
82579538|NCT02236988|164869541|OTHER||Ratio of Adjusted Geometric Means|82.4|||||TWO_SIDED|90.0|75.9|89.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||89.5|75.9|
82469918|NCT00904033|164635640|OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82469919|NCT00904033|164635641|OTHER|||||||0.16|||||||t-test, 2 sided|||||||0.16
82469920|NCT00904033|164635642|OTHER|||||||0.84|||||||t-test, 2 sided|||||||0.84
82469921|NCT00904033|164635643|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
82469922|NCT00904033|164635644|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
82469923|NCT00865566|164635645|OTHER|Score test|Hazard Ratio (HR)|0.73|||<|0.001|TWO_SIDED|95.0|0.63|0.84|||Regression, Cox||HR is vaccine / placebo|Cox proportional hazards model to assess the association between treatment assignment and dropout||0.84|0.63|<0.001
82469924|NCT00865566|164635646|OTHER||Hazard Ratio (HR)|0.77||||0.05|TWO_SIDED|95.0|0.59|1.0||Score test|Regression, Cox||HR is vaccine / placebo|Cox PH model to assess the association between treatment assignment and dropout||1|0.59|0.05
82469925|NCT00865566|164635647|OTHER||Cox Proportional Hazard|0.71|||<|0.001|TWO_SIDED|95.0|0.6|0.84||Score test|Regression, Cox||HR is vaccine / placebo|Assess the association between treatment assignment and dropout||0.84|0.60|<0.001
82469926|NCT00865566|164635648|OTHER||Hazard Ratio (HR)|1.02||||0.903|TWO_SIDED|95.0|0.73|1.42||Score test|Regression, Cox|Adjusted for age, behavioral risk score, square of behavioral risk score, race, and BMI|HR is vaccine / placebo|||1.42|0.73|0.903
82469927|NCT00865566|164635649|OTHER||Hazard Ratio (HR)|1.06||||0.783|TWO_SIDED|95.0|0.71|1.58||Adjusted for ave, behavioral risk score, square of behavioral risk score, and BMI|Regression, Cox|Score test|HR is vaccine / placebo|||1.58|0.71|0.783
82500106|NCT00536198|164690768|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.73
82500107|NCT00536198|164690768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.12||||0.06|TWO_SIDED|95.0|0.92|1.35|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.35|0.92|0.06
82500108|NCT00536198|164690769|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||ANOVA|||Group comparison||||0.80
82500109|NCT00536198|164690769|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500110|NCT00536198|164690769|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.43
82500111|NCT00536198|164690769|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.11||||0.61|TWO_SIDED|95.0|0.85|1.45|||Mixed Models Analysis|||Estimated mean difference from baseline to endpoint between active vs. placebo||1.45|0.85|0.61
82500112|NCT00536198|164690770|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||ANOVA|||Group comparison||||0.83
82500113|NCT00536198|164690770|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500114|NCT00536198|164690770|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.02
82500115|NCT00536198|164690770|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.169|TWO_SIDED|95.0|0.96|1.25|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.25|0.96|0.169
82500116|NCT00536198|164690771|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||ANOVA|||Group comparison||||0.37
82500117|NCT00536198|164690771|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500118|NCT00536198|164690771|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.73
82500119|NCT00536198|164690771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.08||||0.13|TWO_SIDED|95.0|0.91|1.28|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.28|0.91|0.13
82500120|NCT00536198|164690772|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||ANOVA|||Group comparison||||0.31
82500121|NCT00536198|164690772|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500122|NCT00536198|164690772|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||0.46
82500123|NCT00536198|164690772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.94|TWO_SIDED|95.0|0.96|1.23|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.23|0.96|0.94
82500124|NCT00536198|164690773|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Group comparison||||<0.001
82500125|NCT00536198|164690773|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||Change over time in both groups||||<0.001
82500126|NCT00536198|164690773|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Group by time: comparison rates of change||||<0.01
82500127|NCT00536198|164690773|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.22||||0.027|TWO_SIDED|95.0|1.05|1.41|||Mixed Models Analysis|||Estimated mean difference from baseline to end point between active vs. placebo||1.41|1.05|0.027
82500128|NCT00536198|164690774|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||Group comparison||||0.01
82500129|NCT00536198|164690774|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Group by time: comparison rates of change||||<0.001
82500130|NCT00536198|164690774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.056|TWO_SIDED|95.0|0.3|1.02|||Mixed Models Analysis|||Estimated mean difference between active and placebo groups at end-point only||1.02|0.30|0.056
82500131|NCT02643082|164690775|SUPERIORITY||LS Mean ratio between treatments|1.75|||<|0.0001|TWO_SIDED|95.0|1.65|1.86|||Mixed Models Analysis|||||1.86|1.65|<0.0001
82500132|NCT02643082|164690776|SUPERIORITY||LS Mean ratio between treatments|0.29|||<|0.0001|TWO_SIDED|95.0|0.26|0.33|||Mixed Models Analysis|||||0.33|0.26|<0.0001
82500133|NCT02643082|164690777|SUPERIORITY||LS Mean ratio between treatments|0.29|||<|0.0001|TWO_SIDED|95.0|0.25|0.33|||Mixed Models Analysis|||||0.33|0.25|<0.0001
82500134|NCT02643082|164690778|SUPERIORITY||LS Mean ratio between treatments|1.79|||<|0.0001|TWO_SIDED|95.0|1.67|1.92|||Mixed Models Analysis|||||1.92|1.67|<0.0001
82469928|NCT01383356|164635665|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|Geometric mean ratio (GMR) in percent|118.0|||||TWO_SIDED|90.0|111.0|125.0|||||Lina/Met 2.5mg/500mg versus (vs.) Lina 2.5mg plus Met 500mg.|The two formulations are shown to be bioequivalent if the geometric mean ratio is contained within the 80 to 125 percent range both on measured data (statistical analysis 1) and on potency corrected data (percent potency of label claim) (statistical analysis 2). ANOVA was applied to log-transformed Cmax and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||125|111|
82469929|NCT01383356|164635665|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|GMR, potency corrected (percent)|122.0|||||TWO_SIDED|90.0|114.0|130.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed Cmax and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of drug potency (DP) of Met in single tablet and DP of Met in combination tablet).||130|114|
82469930|NCT01383356|164635666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|Geometric mean ratio (percent)|105.0||||||90.0|101.0|108.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|The two formulations are shown to be bioequivalent if the 90 percent confidence interval of geometric mean ratio is entirely contained within the 80 to125 percent range both on measured data (statistical analysis 1) and potency corrected data (percent potency of label claim) (statistical analysis 2). ANOVA was applied to log-transformed AUC0-t and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||108|101|
82469931|NCT01383356|164635666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|GMR, potency corrected (percent)|108.0||||||90.0|105.0|112.0|||||Lina/Met 2.5mg/500mg vs.Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-t and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of DP of Met in single tablet and DP of Met in combination tablet).||112|105|
82469932|NCT01383356|164635667|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence (BE), AUC0-inf was no BE criteria|Geometric mean ratio (percent)|105.0||||||90.0|101.0|108.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-inf and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction.||108|101|
82469933|NCT01383356|164635667|NON_INFERIORITY_OR_EQUIVALENCE|BE, AUC0-inf was no BE criteria|GMR, potency corrected (percent)|108.0||||||90.0|105.0|112.0|||||Lina/Met 2.5mg/500mg vs. Lina 2.5mg plus Met 500mg.|ANOVA was applied to log-transformed AUC0-inf and included study, subject-within-study, period-within-study, treatment and study-by-treatment interaction. Results were potency corrected (GMR multiplied by the quotient of DP of Met in single tablet and DP of Met in combination tablet).||112|105|
82469934|NCT00602472|164635668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|-0.73|-0.5|||ANCOVA|||Linagliptin vs. Placebo||-0.50|-0.73|<0.0001
82469935|NCT00602472|164635669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|-0.56|-0.41|||ANCOVA|||Linagliptin vs. Placebo||-0.41|-0.56|<0.0001
82469936|NCT00602472|164635670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.78|-0.58|||ANCOVA|||Linagliptin vs. Placebo||-0.58|-0.78|<0.0001
82469937|NCT00602472|164635671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|-0.8|-0.59|||ANCOVA|||Linagliptin vs. Placebo||-0.59|-0.80|<0.0001
82469938|NCT00602472|164635672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.7|STANDARD_ERROR_OF_MEAN|2.8|<|0.0001||95.0|-18.1|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-18.1|<0.0001
82469939|NCT00602472|164635673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001||95.0|-22.4|-13.2|||ANCOVA|||Linagliptin vs. Placebo||-13.2|-22.4|<0.0001
82469940|NCT00602472|164635674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.7|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001||95.0|-20.3|-11.1|||ANCOVA|||Linagliptin vs. Placebo||-11.1|-20.3|<0.0001
82469941|NCT00602472|164635675|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.1|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001||95.0|-17.2|-7.1|||ANCOVA|||Linagliptin vs. Placebo||-7.1|-17.2|<0.0001
82469942|NCT00602472|164635676|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.51|||<|0.0001||95.0|3.332|9.111|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||9.111|3.332|<0.0001
82469943|NCT00602472|164635678|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.818|||<|0.0001||95.0|1.989|7.327|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||7.327|1.989|<0.0001
82469944|NCT00602472|164635680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36|||<|0.0001||95.0|2.474|4.562|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||4.562|2.474|<0.0001
82469945|NCT03926611|164635695|SUPERIORITY|LOU064 10 mg q.d.|LS Mean|-13.66|STANDARD_ERROR_OF_MEAN|2.334|<|0.0001|TWO_SIDED|90.0|-17.51|-9.81|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-9.81|-17.51|<0.0001
82469946|NCT03926611|164635695|SUPERIORITY|LOU064 35 mg q.d.|LS Mean|-13.64|STANDARD_ERROR_OF_MEAN|2.336|<|0.0001|TWO_SIDED|90.0|-17.49|-9.78|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-9.78|-17.49|<0.0001
82469947|NCT03926611|164635695|SUPERIORITY|LOU064 100 mg q.d.|LS Mean|-9.21|STANDARD_ERROR_OF_MEAN|2.277|<|0.0001|TWO_SIDED|90.0|-12.97|-5.45|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.45|-12.97|<0.0001
82469948|NCT03926611|164635695|SUPERIORITY|LOU064 10 mg b.i.d.|LS Mean|-10.55|STANDARD_ERROR_OF_MEAN|2.319|<|0.0001|TWO_SIDED|90.0|-14.38|-6.72|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-6.72|-14.38|<0.0001
82469949|NCT03926611|164635695|SUPERIORITY|LOU064 25 mg b.i.d.|LS Mean|-14.58|STANDARD_ERROR_OF_MEAN|2.334|<|0.0001|TWO_SIDED|90.0|-18.43|-10.73|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-10.73|-18.43|<0.0001
82469950|NCT03926611|164635695|SUPERIORITY|LOU064 100 mg b.i.d.|LS Mean|-12.62|STANDARD_ERROR_OF_MEAN|2.327|<|0.0001|TWO_SIDED|90.0|-16.45|-8.78|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-8.78|-16.45|<0.0001
82469951|NCT03926611|164635696|SUPERIORITY|LOU064 10 mg q.d.|LS Mean|-10.24|STANDARD_ERROR_OF_MEAN|2.71|<|0.0001|TWO_SIDED|90.0|-14.72|-5.77|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.77|-14.72|<0.0001
82650665|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||-0.06|TWO_SIDED|95.0|-0.15|0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.03|-0.15|-0.06
82650666|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0012|TWO_SIDED|95.0|-0.34|-0.08|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.08|-0.34|0.0012
82650667|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0266|TWO_SIDED|95.0|-0.27|-0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.02|-0.27|0.0266
82469952|NCT03926611|164635696|SUPERIORITY|LOU064 35 mg q.d.|LS Mean|-10.11|STANDARD_ERROR_OF_MEAN|2.711||0.0001|TWO_SIDED|90.0|-14.58|-5.63|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.63|-14.58|0.0001
82469953|NCT03926611|164635696|SUPERIORITY|LOU064 100 mg q.d.|LS Mean|-7.4|STANDARD_ERROR_OF_MEAN|2.635||0.0027|TWO_SIDED|90.0|-11.75|-3.05|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-3.05|-11.75|0.0027
82469954|NCT03926611|164635696|SUPERIORITY|LOU064 10 mg b.i.d.|LS Mean|-9.8|STANDARD_ERROR_OF_MEAN|2.696||0.0002|TWO_SIDED|90.0|-14.25|-5.35|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.35|-14.25|0.0002
82469955|NCT03926611|164635696|SUPERIORITY|LOU064 25 mg b.i.d.|LS Mean|-12.35|STANDARD_ERROR_OF_MEAN|2.714|<|0.0001|TWO_SIDED|90.0|-16.82|-7.87|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-7.87|-16.82|<0.0001
82469956|NCT03926611|164635696|SUPERIORITY|LOU064 100 mg b.i.d.|LS Mean|-9.52|STANDARD_ERROR_OF_MEAN|2.733||0.0003|TWO_SIDED|90.0|-14.03|-5.01|||Mixed Models Analysis|Treatment contrast in LS mean (Change)||||-5.01|-14.03|0.0003
82469957|NCT02230670|164635705|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.0817||0.091|TWO_SIDED|95.0|-0.302|0.023|||ANCOVA|||Analysis was conducted using an ANCOVA model adjusting for baseline value.||0.023|-0.302|0.091
82469958|NCT02230670|164635705|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.041|TWO_SIDED|95.0|-0.41|0.01|||ANCOVA|||The analysis was conducted using an ANCOVA model adjusting for baseline value, baseline MELD score, and etiology. The significance was assessed using Type II Sums of Squares from this ANCOVA model.||0.01|-0.41|0.041
82469959|NCT02230670|164635706|SUPERIORITY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.333||0.466|TWO_SIDED|95.0|-0.91|0.42|||ANCOVA|||Analysis was conducted using an ANCOVA model adjusting for baseline value.||0.42|-0.91|0.466
82546958|NCT05478525|164793359|SUPERIORITY||LS Mean Difference|-155.68||||0.0298|TWO_SIDED|95.0|-295.35|-16.01|||ANCOVA|||Analysis at Day 14||-16.01|-295.35|0.0298
82650668|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0034|TWO_SIDED|95.0|-0.33|-0.07|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.07|-0.33|0.0034
82650669|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.3053|TWO_SIDED|95.0|-0.2|0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.06|-0.2|0.3053
82650670|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0541|TWO_SIDED|95.0|-0.29|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0|-0.29|0.0541
82650671|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0912|TWO_SIDED|95.0|-0.28|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.02|-0.28|0.0912
82469960|NCT02230670|164635706|SUPERIORITY||Median Difference (Final Values)|-2.19|STANDARD_ERROR_OF_MEAN|1.42||0.003|TWO_SIDED|95.0|-3.61|-0.77|||ANCOVA|calculated from the estimated least square means for the treatment by BL MELD category interaction term.||BL MELD \>= 15 subgroup results (N=19), as analyzed from the adjusted analysis ANCOVA model adjusting for baseline value, baseline MELD score, and etiology.||-0.77|-3.61|0.003
82469961|NCT02230670|164635706|SUPERIORITY||Median Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.46||0.029|TWO_SIDED|95.0|-3.09|-0.17|||ANCOVA|calculated from the estimated least square means for the treatment by etiology interaction term.||NASH Etiology subgroup results (N=20), as analyzed from the adjusted analysis ANCOVA model adjusting for baseline value, baseline MELD score, and etiology.||-0.17|-3.09|0.029
82469962|NCT01524796|164635707|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||paired Wilcoxon signed-rank test|||||||<0.001
82546959|NCT05478525|164793359|SUPERIORITY||LS Mean Difference|-143.74||||0.0433|TWO_SIDED|95.0|-282.92|-4.55|||ANCOVA|||Analysis at Day 14||-4.55|-282.92|0.0433
82650672|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.1553|TWO_SIDED|95.0|-0.28|0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.04|-0.28|0.1553
82469963|NCT01524796|164635708|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
82469964|NCT01524796|164635709|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon signed-rank test|||||||<0.001
82469965|NCT00836693|164635727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|0.85|<|0.001|TWO_SIDED|95.0|2.2|5.5||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||5.5|2.2|<0.001
82469966|NCT00836693|164635728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|5.1|18.3||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||18.3|5.1|<0.001
82469967|NCT00836693|164635729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.0|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|8.9|27.0||p-value is for Week 12 Change. The null hypothesis concerning tadalafil versus placebo was to be rejected if, and only if, the three primary hypotheses (H01, H02, and H03) were all rejected therefore no adjustments for multiple comparisons were made.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||27.0|8.9|<0.001
82469968|NCT00836693|164635733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.2|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|9.5|22.8||P-value is for Week 12 change. For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The change from baseline to endpoint in morning erection percentages was analyzed with an ANCOVA model including terms for baseline value, treatment group, country, age and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||22.8|9.5|<0.001
82469969|NCT00836693|164635734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|STANDARD_ERROR_OF_MEAN|3.11|>|0.001|TWO_SIDED|95.0|13.9|26.1||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANOVA|||The models included terms for baseline value of the efficacy variable,treatment group,country, and the baseline-by-treatment-group interaction.In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||26.1|13.9|>0.001
82469970|NCT00836693|164635735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|5.5|18.0||p-value is for Total (Change). For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||18.0|5.5|<0.001
82469971|NCT00836693|164635735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|6.6|19.8||p-value is for Sexual Relationship Domain(Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||19.8|6.6|<0.001
82500135|NCT02643082|164690779|SUPERIORITY||LS Mean Difference Between Treatments|0.443|||<|0.0001|TWO_SIDED|95.0|0.318|0.569|||Mixed Models Analysis|||||0.569|0.318|<0.0001
82500136|NCT02643082|164690780|SUPERIORITY||LS Mean ratio between treatments|0.87|||<|0.0001|TWO_SIDED|95.0|0.82|0.92|||Mixed Models Analysis|||||0.92|0.82|<0.0001
82500137|NCT01324999|164690786|OTHER|||||||0.68|||||||t-test, 2 sided|||Comparing baseline to week 24.||||0.68
82500138|NCT01324999|164690787|OTHER|||||||0.34|||||||t-test, 2 sided|||||||0.34
82500139|NCT01324999|164690788|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
82650673|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1855|TWO_SIDED|95.0|-0.27|0.05|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.05|-0.27|0.1855
82469972|NCT00836693|164635735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|STANDARD_ERROR_OF_MEAN|3.34||0.0034|TWO_SIDED|95.0|3.3|16.5||p-value is for Confidence Domain (Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||16.5|3.3|0.0034
82469973|NCT00836693|164635735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|3.52||0.002|TWO_SIDED|95.0|4.1|17.9||p-value is for Self-Esteem Domain (Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||17.9|4.1|0.0020
82469974|NCT00836693|164635735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|STANDARD_ERROR_OF_MEAN|4.07||0.0653|TWO_SIDED|95.0|-0.5|15.6||p-value is for Overall Relationship Domain(Change).For secondary endpoints, all tests of hypotheses (null hypothesis versus the alternative hypothesis) were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (at p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||15.6|-0.5|0.0653
82469975|NCT00836693|164635736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|0.7|1.9||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.9|0.7|<0.001
82469976|NCT00836693|164635737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.25||0.0089|TWO_SIDED|95.0|0.2|1.1||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.1|0.2|0.0089
82469977|NCT00836693|164635738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|0.37||0.0461|TWO_SIDED|95.0|0.0|1.5||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.5|0.0|0.0461
82469978|NCT00836693|164635739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|0.7|1.9||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Change = Endpoint - Baseline.||Model included terms for baseline value of efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model,if the interaction was not significant (if p≥0.10), then the interaction term was removed and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on type 3 sums of squares.||1.9|0.7|<0.001
82546960|NCT05478525|164793359|SUPERIORITY||LS Mean Difference|-178.33||||0.0201|TWO_SIDED|95.0|-327.16|-29.5|||ANCOVA|||Analysis at Day 14||-29.50|-327.16|0.0201
82500140|NCT01324999|164690789|OTHER|||||||0.19|||||||t-test, 2 sided|||comparing baseline to week 24||||0.19
82500141|NCT01324999|164690790|OTHER|||||||0.68|||||||t-test, 2 sided|||Comparing Baseline to week 24.||||0.68
82500142|NCT01324999|164690791|OTHER|||||||0.92|||||||t-test, 2 sided|||comparing baseline to week 24||||0.92
82500143|NCT01324999|164690792|OTHER|||||||0.44|||||||t-test, 2 sided|||comparison of baseline to week 24||||0.44
82500144|NCT00060008|164690798|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82500145|NCT00560859|164690815|SUPERIORITY_OR_OTHER||difference of change from baseline|2.0||||0.16|||||||ANCOVA|||||||0.16
82546961|NCT05478525|164793360|SUPERIORITY||LS Mean Difference|-47.07||||0.1992|TWO_SIDED|95.0|-119.94|25.81|||ANCOVA|||Analysis at Day 14||25.81|-119.94|0.1992
82469979|NCT00836693|164635740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|2.22||0.0047|TWO_SIDED|95.0|2.0|10.7||p-value is for Week 12 Change. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||10.7|2.0|0.0047
82469980|NCT00836693|164635741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.5|STANDARD_ERROR_OF_MEAN|4.99|<|0.001|TWO_SIDED|95.0|14.6|34.3||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||34.3|14.6|<0.001
82469981|NCT00836693|164635742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.5|STANDARD_ERROR_OF_MEAN|4.96|<|0.001|TWO_SIDED|95.0|13.7|33.2||p-value is for Week 12 Change.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|ANCOVA|Baseline = Visit 2; Endpoint = the last non-missing post-baseline value until Visit 5; Change = Endpoint - Baseline.||The model included terms for baseline value of the efficacy variable, treatment group, country, and the baseline-by-treatment-group interaction. In any model, if the interaction was not significant (that is, if p≥0.10), then the interaction term was removed from the model and the main effects model was used to calculate the between-treatment-group p-value. All tests were based on the type 3 sums of squares.||33.2|13.7|<0.001
82469982|NCT00836693|164635743|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Global Assessment Questions GAQ1. For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|Wilcoxon (Mann-Whitney)|||Wilcoxon's rank sum test was used to compare responses to GAQs between treatment groups.||||<0.0001
82469983|NCT00836693|164635744|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value is for Global Assessment Question GAQ2.For secondary endpoints, all tests of hypotheses were performed as two-sided tests at the 0.05 significance level (α=0.05) unless otherwise stated.|Wilcoxon (Mann-Whitney)|||Wilcoxon's rank sum test was used to compare responses to GAQs between treatment groups.||||<0.0001
82469984|NCT01002339|164635750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Chi-squared|||||||0.02
82469985|NCT01002339|164635751|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Chi-squared|||||||0.06
82469986|NCT01002339|164635752|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Chi-squared|||||||0.9
82469987|NCT01002339|164635753|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|||||||Chi-squared|||||||0.07
82546962|NCT05478525|164793360|SUPERIORITY||LS Mean Difference|-70.32||||0.0617|TWO_SIDED|95.0|-144.26|3.61|||ANCOVA|||Analysis at Day 14||3.61|-144.26|0.0617
82546963|NCT05478525|164793360|SUPERIORITY||LS Mean Difference|-39.84||||0.2981|TWO_SIDED|95.0|-116.22|36.53|||ANCOVA|||Analysis at Day 14||36.53|-116.22|0.2981
82546964|NCT05644002|164793366|OTHER||Mean Difference (Final Values)|2.06||||0.71|TWO_SIDED|95.0|-9.09|13.21||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction Omax between the PTBT and Control conditions.||13.21|-9.09|.71
82469988|NCT01002339|164635754|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|||||||ANOVA|||||||0.2
82546965|NCT05644002|164793366|OTHER||t-statistic|0.369|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction Omax between the PTBT and Control conditions.||||
82469989|NCT01002339|164635755|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|||||||ANOVA|||||||0.4
82469990|NCT01002339|164635756|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||ANOVA|||||||0.8
82469991|NCT01002339|164635757|SUPERIORITY_OR_OTHER_LEGACY|||||||0.56|||||||ANOVA|||||||0.56
82469992|NCT01002339|164635758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8|||||||Kruskal-Wallis|||||||0.8
82469993|NCT01002339|164635759|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||ANOVA|||||||0.66
82469994|NCT01002339|164635760|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|||||||ANOVA|||||||0.37
82469995|NCT01002339|164635761|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||ANOVA|||||||0.45
82469996|NCT01002339|164635762|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||ANOVA|||||||0.50
82469997|NCT01002339|164635763|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|||||||Chi-squared|||||||0.17
82469998|NCT01002339|164635764|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||ANOVA|||||||0.5
82469999|NCT01002339|164635765|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9|||||||Chi-squared|||||||0.9
82470000|NCT01907854|164635766|SUPERIORITY_OR_OTHER||Treatment difference|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.4|||Mixed Models Analysis|Superiority of liraglutide over sitagliptin was concluded if the 95% Confidence Interval for the treatment difference was entirely below 0%.||Changes in HbA1c from baseline to the 26 weeks measurements were analysed using MMRM, with treatment, baseline HbA1c level (≤8.5% and \>8.5%), metformin dose (\<1500 mg/day and ≥1500 mg/day), the interaction between baseline HbA1c level and metformin dose, and country as factors and the HbA1c value at baseline as a covariate, all variables nested within week as a factor.||-0.40|-0.82|<0.0001
82546966|NCT05644002|164793366|OTHER||Hedge's g|0.09|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction Omax between the PTBT and Control conditions.||||
82546967|NCT05644002|164793367|OTHER||Mean Difference (Final Values)|0.251||||0.53|TWO_SIDED|95.0|-0.543|1.046||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||1.046|-.543|.530
82546968|NCT05644002|164793367|OTHER||t-statistic|0.631|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 73||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||||
82546969|NCT05644002|164793367|OTHER||Hedge's g|0.14|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ cigarette satisfaction between the PTBT and Control conditions.||||
82546970|NCT05644002|164793368|OTHER||Mean Difference (Final Values)|0.889||||0.66|TWO_SIDED|95.0|-3.149|4.927||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress intensity between the PTBT and Control conditions.||4.927|-3.149|.66
82546971|NCT05644002|164793368|OTHER||t-statistic|0.439|||||TWO_SIDED||||||t-test, 2 sided|degrees of freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction intensity between the PTBT and Control conditions.||||
82546972|NCT05644002|164793368|OTHER||Hedge's g|-0.11|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction intensity between the PTBT and Control conditions.||||
82546973|NCT05644002|164793369|OTHER||Mean Difference (Final Values)|-0.698||||0.77|TWO_SIDED|95.0|-5.443|4.046||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction Pmax between the PTBT and Control conditions.||4.046|-5.443|.77
82546974|NCT05644002|164793369|OTHER||t-statistic|-0.294|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction Pmax between the PTBT and Control conditions.||||
82546975|NCT05644002|164793369|OTHER||Hedge's g|-0.071|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction Pmax between the PTBT and Control conditions.||||
82579539|NCT02236988|164869541|OTHER||Ratio of Adjusted Geometric Means|68.2|||||TWO_SIDED|90.0|62.9|74.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.0|62.9|
82546976|NCT05644002|164793370|OTHER||Mean Difference (Final Values)|-0.354||||0.9|TWO_SIDED|95.0|-6.009|5.3||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress-induction breakpoint between the PTBT and Control conditions.||5.300|-6.009|.90
82546977|NCT05644002|164793370|OTHER||t-statistic|-0.125|||||TWO_SIDED||||||t-test, 2 sided|degrees of freedom = 66||An independent-samples t-test was conducted to examine differences in post-stress induction breakpoint between the PTBT and Control conditions.||||
82546978|NCT05644002|164793370|OTHER||Hedge's g|-0.03|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction breakpoint between the PTBT and Control conditions.||||
82546979|NCT05644002|164793371|OTHER||Mean Difference (Final Values)|-0.748||||0.09|TWO_SIDED|95.0|-1.601|0.105||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ craving reduction between the PTBT and Control conditions.||.105|-1.601|.09
82546980|NCT05644002|164793371|OTHER||t-statistic|-1.75|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 65.261||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ craving reduction between the PTBT and Control conditions.||||
82546981|NCT05644002|164793371|OTHER||Hedge's g|-0.405|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ craving reduction between the PTBT and Control conditions.||||
82546982|NCT05644002|164793372|OTHER||Mean Difference (Final Values)|0.184||||0.666|TWO_SIDED|95.0|-0.663|1.031||The threshold for statistical significance was p\<.05|t-test, 2 sided|Levene's test for equal variances was used. If significance is \<.05, equal variances are not assumed and reported results are adjusted accordingly.||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ psychological reward between the PTBT and Control conditions.||1.031|-.663|.666
82546983|NCT05644002|164793372|OTHER||t-statistic|0.184|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 73||An independent-samples t-test was conducted to examine differences in post-stress induction mCEQ psychological reward between the PTBT and Control conditions.||||
82546984|NCT05644002|164793372|OTHER||Hedge's g|0.099|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction mCEQ psychological reward between the PTBT and Control conditions.||||
82546985|NCT05644002|164793373|OTHER||β|0.026||||0.73|TWO_SIDED|95.0|-0.358|0.507||The threshold for statistical significance was p\<.05.|Regression, Linear|Coding: Control=0, PTBT=1.||A multiple linear regression test was conducted to examine whether the PTBT intervention (versus control) significantly predicted post-stress-induction respiratory sinus arrhythmia during smoking, while controlling for average baseline respiratory sinus arrhythmia at step 1 of the model.||.507|-.358|.73
82470001|NCT01907854|164635767|SUPERIORITY_OR_OTHER||Treatment difference|-1.67|||<|0.0001|TWO_SIDED|95.0|-2.34|-0.99|||Mixed Models Analysis|Superiority of liraglutide over sitagliptin was concluded if the 95% Confidence Interval for the treatment difference was entirely below 0%.||Change in body weight from baseline to the 26 weeks measurements was analysed using MMRM, with treatment, baseline HbA1c level (≤8.5% and \>8.5%), metformin dose (\<1500 mg/day and ≥1500 mg/day), the interaction between baseline HbA1c level and metformin dose, and country as factors and the body weight at baseline as a covariate and all variables nested within week as a factor.||-0.99|-2.34|<0.0001
82470002|NCT02215252|164635773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|0.355|||TWO_SIDED|90.0|-1.0|0.17||||||Statistical analysis is only for week 4. Mixed Models Repeated Measures analysis including all data up to Week 4 ,incorporating Bayesian priors separately on the placebo response and pregabalin effect.||0.17|-1.00|
82470003|NCT02215252|164635773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_DEVIATION|0.23|||TWO_SIDED|90.0|-0.91|-0.2||||||Statistical analysis is only for week 4. Mixed Models Repeated Measures analysis including all data up to Week 4 ,incorporating Bayesian priors separately on the placebo response and pregabalin effect.||-0.20|-0.91|
82470004|NCT02215252|164635774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91|||||TWO_SIDED|90.0|0.78|4.69||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||4.69|0.78|
82470005|NCT02215252|164635774|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||||TWO_SIDED|90.0|1.06|6.56||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||6.56|1.06|
82470006|NCT02215252|164635775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|90.0|0.33|4.74||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||4.74|0.33|
82470007|NCT02215252|164635775|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.75|||||TWO_SIDED|90.0|1.43|15.81||||||Statistical analysis is only for Week 4. Logistic Regression using all data up to Week 4.||15.81|1.43|
82470008|NCT02215252|164635776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.43|||TWO_SIDED|90.0|-1.75|-0.32||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.32|-1.75|
82470009|NCT02215252|164635776|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.44|||TWO_SIDED|90.0|-1.43|0.04||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.04|-1.43|
82470010|NCT02215252|164635777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.39|||TWO_SIDED|90.0|-0.86|0.43||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.43|-0.86|
82470011|NCT02215252|164635777|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|90.0|-1.33|0.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4||0.00|-1.33|
82470012|NCT02215252|164635778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.46|||TWO_SIDED|90.0|-0.87|0.67||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.67|-0.87|
82470013|NCT02215252|164635778|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.47|||TWO_SIDED|90.0|-1.36|0.2||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.20|-1.36|
82470014|NCT02215252|164635779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|90.0|-0.49|0.67||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.67|-0.49|
82470015|NCT02215252|164635779|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.36|||TWO_SIDED|90.0|-1.05|0.13||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.13|-1.05|
82470016|NCT02215252|164635780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.09|0.39||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.39|-1.09|
82470017|NCT02215252|164635780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.0|0.51||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||0.51|-1.00|
82546986|NCT05644002|164793373|OTHER||t-statistic|0.345|||||TWO_SIDED||||||Regression, Linear|degrees freedom = (2, 73)|Condition (0=control; 1=PTBT)|A multiple linear regression test was conducted to examine whether the PTBT intervention (versus control) significantly predicted post-stress induction respiratory sinus arrhythmia during smoking, while controlling for average baseline respiratory sinus arrythmia at step 1 of the model.||||
82470018|NCT02215252|164635781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|2.92|||TWO_SIDED|90.0|-5.12|4.57||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||4.57|-5.12|
82470019|NCT02215252|164635781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.61|STANDARD_ERROR_OF_MEAN|2.99|||TWO_SIDED|90.0|-10.57|-0.66||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.66|-10.57|
82470020|NCT02215252|164635782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|90.0|0.34|1.45||||||Statistical analysis is only for Week 4. Proportional Odds Logistic Regression including all data up to week 4.||1.45|0.34|
82470021|NCT02215252|164635782|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|90.0|0.24|1.07||||||Statistical analysis is only for Week 4. Proportional Odds Logistic Regression including all data up to week 4.||1.07|0.24|
82470022|NCT02215252|164635783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.16|-0.02||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.02|-1.16|
82470023|NCT02215252|164635783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-1.57|-0.43||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||-0.43|-1.57|
82470024|NCT02215252|164635784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|192.0|STANDARD_ERROR_OF_MEAN|816.0|||TWO_SIDED|90.0|-1161.0|1544.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||1544|-1161|
82470025|NCT02215252|164635784|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|611.0|STANDARD_ERROR_OF_MEAN|812.0|||TWO_SIDED|90.0|-735.0|1956.0||||||Statistical analysis is only for Week 4. Mixed Models Repeated Measures analysis including all data up to Week 4.||1956|-735|
82470026|NCT02215252|164635788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|STANDARD_ERROR_OF_MEAN|3.03|||TWO_SIDED|90.0|2.98|13.01||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||13.01|2.98|
82470027|NCT02215252|164635788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|STANDARD_ERROR_OF_MEAN|3.14|||TWO_SIDED|90.0|-4.46|5.95||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||5.95|-4.46|
82470028|NCT02215252|164635789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.55|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|90.0|2.94|20.17||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||20.17|2.94|
82470029|NCT02215252|164635789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|90.0|-11.38|6.54||||||Statistical analysis is only for Week 4. Mixed Model Repeated Measures analysis including all data up to Week 4.||6.54|-11.38|
82470030|NCT00956007|164635806|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0747|TWO_SIDED|95.0|0.6|1.08||One-sided significance level = 0.0183|Log Rank|Stratified by EGFR and site/p16 status|Stratified by EGFR and site/p16 status. Reference level = IMRT.|This trial was designed to detect a hazard ratio (HR) of 0.74 with 80% statistical power and overall one-sided alpha of 0.025 (372 deaths) using a stratified log-rank test, assuming a control arm 3-year survival rate of 60.1%. The amended protocol based on ≥ 5 years potential follow-up projected 169 events, providing 55%, 66%, and 79% power to detect HRs of 0.71, 0.68, and 0.64, respectively, using the original one-sided alpha of 0.0183 the final analysis.||1.08|0.60|0.0747
82470031|NCT00956007|164635807|SUPERIORITY|||||||0.0075|||||||Fisher Exact|||Dysphagia||||0.0075
82470032|NCT00956007|164635807|SUPERIORITY|||||||0.2955|||||||Fisher Exact|||Dry mouth||||0.2955
82470033|NCT00956007|164635807|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||Dermatitis radiation||||0.0001
82470034|NCT00956007|164635807|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Rach acneiform||||<0.0001
82470035|NCT00956007|164635808|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82470036|NCT00956007|164635809|SUPERIORITY|||||||0.1641|||||||Fisher Exact|||Dysphagia||||0.1641
82470037|NCT00956007|164635809|SUPERIORITY|||||||0.2623|||||||Fisher Exact|||Dry mouth||||0.2623
82470038|NCT00956007|164635809|SUPERIORITY|||||||0.5378|||||||Fisher Exact|||Dermatitis radiation||||0.5378
82470039|NCT00956007|164635809|SUPERIORITY|||||||0.057|||||||Fisher Exact|||Rash acneiform||||0.0570
82470040|NCT00956007|164635810|SUPERIORITY|||||||0.1575|||||||Fisher Exact|||||||0.1575
82470041|NCT00956007|164635811|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0168|TWO_SIDED|95.0|0.57|0.98||One-sided|Log Rank|Stratified by EGFR and site/p16 status|Stratified by EGFR and site/p16 status. Reference level = IMRT.|||0.98|0.57|0.0168
82546987|NCT05644002|164793374|OTHER||Mean Difference (Final Values)|-0.543||||0.001|TWO_SIDED|95.0|-0.772|-0.314||The threshold for statistical significance was p\<.05.|t-test, 2 sided|Levene's test for equal variances was used. If significance is \< .05, equal variances are not assumed and reported results are adjusted accordingly.||An independent samples t-test was conducted to examine differences in post-stress-induction average puff duration between PTBT and Control conditions.||-.314|-.772|.001
82546988|NCT05644002|164793374|OTHER||t-statistic|-4.739|||||TWO_SIDED||||||t-test, 2 sided|degrees freedom = 66.03||An independent samples t-test was conducted to examine differences in post-stress-induction average puff duration between PTBT and Control conditions.||||
82546989|NCT05644002|164793374|OTHER||Hedge's g|-1.05|||||TWO_SIDED||||||t-test, 2 sided|||An independent-samples t-test was conducted to examine differences in post-stress-induction average puff duration between the PTBT and Control conditions.||||
82470042|NCT01750229|164635817|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|Variables included in the Mixed Model were: baseline VAS back pain score, treatment group, and period.||||||0.002
82470043|NCT05571605|164635824|OTHER|||||||0.05|||||||ANOVA|||||||0.05
82470044|NCT01285323|164635826|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.4063|||<|0.0001|TWO_SIDED|95.0|0.2819|0.5855||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.5855|0.2819|<0.0001
82470045|NCT01285323|164635827|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.0397||0.0109|TWO_SIDED|95.0|0.023|0.179||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.179|0.023|0.0109
82470046|NCT01285323|164635828|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.0317||0.0037|TWO_SIDED|95.0|0.03|0.155||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active-placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.155|0.030|0.0037
82470047|NCT01285323|164635829|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.937||0.0259|TWO_SIDED|95.0|0.025|0.393||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.393|0.025|0.0259
82470048|NCT01285323|164635830|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.196|STANDARD_ERROR_OF_MEAN|0.0664||0.0032|TWO_SIDED|95.0|-0.327|-0.066||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||-0.066|-0.327|0.0032
82470049|NCT01285323|164635831|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.486|||<|0.0001|TWO_SIDED|95.0|0.353|0.67|||Regression, Cox|Stratified by baseline usage of oral corticosteroid (yes or no) and geographical region (US or other).|Reslizumab vs placebo|Kaplan-Meier estimate of probability (5) of not experiencing a CAE by week 52. The first CAEs for each patient occurring after randomization and up to 2 weeks after the end of treatment period were analyzed. Patients without a CAE within this time frame were censored at two weeks after the treatment completion date or study discontinuation, whichever came first.||0.670|0.353|<0.0001
82470050|NCT01285323|164635832|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.012||0.0037|TWO_SIDED|95.0|0.011|0.059||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.059|0.011|0.0037
82470051|NCT01285323|164635833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.1775||0.7263|TWO_SIDED|95.0|-0.411|0.287||Statistical significance at \<=0.05.|Mixed model repeated measures (MMRM)|Fixed Factors: treatment, visit, trt by visit interaction, region, OCS at enrollment, sex. Random: covariates for height, baseline value and patient|active - placebo|A pre-specified fixed sequence multiple testing procedure was implemented to test the secondary endpoints while controlling the overall Type I error rate at 0.05. At the point where p\>0.05, no further comparisons were interpreted inferentially.||0.287|-0.411|0.7263
82470052|NCT01285323|164635836|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio (reslizumab vs placebo)|0.3893|||<|0.0001|TWO_SIDED|95.0|0.2621|0.5782||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Requiring Systemic Corticosteroids The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||0.5782|0.2621|<0.0001
82470053|NCT01285323|164635836|SUPERIORITY_OR_OTHER_LEGACY||CAE rate ratio|0.6686||||0.402|TWO_SIDED|95.0|0.2878|1.6479||The treatment effect was tested using the likelihood based Chi-square test at the 0.05 significance level.|Chi-squared|||CAE Due to Hospitalization or ER visit The frequency of CAEs was analyzed using the generalized linear model (GLM) for data from the negative binomial distributions that is commonly referred to as the negative binomial (NB) regression model. The primary NB model included the treatment group and randomization stratification factors as model factors and the logarithm of follow up time excluding the summed duration of exacerbations in the treatment period as an offset variable.||1.6479|0.2878|0.4020
82470054|NCT02606643|164635840|SUPERIORITY_OR_OTHER|||||||0.814|||||||Chi-squared|||an alpha level of .05, and a level of power of 80%. These parameters required a sample size of 63 patients per group||||0.814
82470055|NCT02900378|164635863|OTHER||Differences of least square means|5.68|STANDARD_ERROR_OF_MEAN|4.89||0.2464|TWO_SIDED|95.0|-3.93|15.29||The comparison of treatment groups were out using an analysis of covariance (ANCOVA) model adjusting for treatment and baseline NYHA class (NYHA II vs. III/IV) and the 6MWT baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS)||15.29|-3.93|0.2464
82546990|NCT02605837|164793444|SUPERIORITY||Difference in proportion of responders|0.52|||<|0.001||95.0|0.433|0.591|||Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) adjusted difference in proportion with corresponding Newcombe confidence interval (CI) and odds ratio with corresponding CI were based on CMH test stratified by age group and diet restriction.||0.591|0.433|<0.001
82546991|NCT02605837|164793445|SUPERIORITY||Difference in proportion of responders|0.13||||0.024||95.0|0.016|0.243|||Cochran-Mantel-Haenszel|||The CMH adjusted difference in proportion with corresponding Newcombe confidence interval (CI) and odds ratio with corresponding CI were based on CMH test stratified by age group and diet restriction.||0.243|0.016|0.024
82546992|NCT02605837|164793446|SUPERIORITY||Difference in Least square mean|-3.92||||0.015||95.0|-7.073|-0.774|||ANCOVA|||This analysis was from analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ combined score as a continuous covariate.||-0.774|-7.073|0.015
82546993|NCT02605837|164793447|SUPERIORITY||Difference in Least square mean|-1.8|||<|0.001||95.0|-2.6|-1.1|||ANCOVA|||This analysis was from analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline. Total EREFS (endoscopy score) as a continuous covariate.||-1.1|-2.6|<0.001
82546994|NCT02605837|164793448|SUPERIORITY||Odds Ratio (OR)|169.74|||<|0.001||95.0|23.235|1239.979|||Regression, Logistic|||Peak eosinophil count (\<15/HPF) was performed based on logistic regression model adjusted for age group and diet restriction.||1239.979|23.235|<0.001
82546995|NCT02605837|164793448|SUPERIORITY||Odds Ratio (OR)|100.69||||0.001|TWO_SIDED|95.0|6.294|1610.749|||Firth logistic regression|||Peak eosinophil count (\<=1/HPF) was performed based on firth logistic regression model adjusted for age group and diet restriction.||1610.749|6.294|0.001
82470056|NCT02900378|164635863|OTHER||Differences of least square means|8.98|STANDARD_ERROR_OF_MEAN|4.58||0.0503|TWO_SIDED|97.5|-1.31|19.27||The comparison of treatment groups were out using an analysis of covariance (ANCOVA) model adjusting for treatment and baseline NYHA class (NYHA II vs. III/IV) and the 6MWT baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS without AE/SAE)||19.27|-1.31|0.0503
82470057|NCT02900378|164635864|OTHER||Differences of least square means|-6.14|STANDARD_ERROR_OF_MEAN|8.61||0.4769|TWO_SIDED|97.5|-25.7|13.41||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS with MI)||13.41|-25.70|0.4769
82470058|NCT02900378|164635864|OTHER||Differences of least square means|-5.67|STANDARD_ERROR_OF_MEAN|6.01||0.3463|TWO_SIDED|95.0|-17.48|6.14||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS with LOCF)||6.14|-17.48|0.3463
82470059|NCT02900378|164635864|OTHER||Differences of least square means|-6.24|STANDARD_ERROR_OF_MEAN|6.69||0.3513|TWO_SIDED|95.0|-19.39|6.91||The comparison of treatment groups were carried out using an ANCOVA model adjusting for treatment, baseline NYHA class (NYHA II vs. III/IV) and the daily non-sedentary daytime activity baseline value as covariates.|ANCOVA|||Change from BL at Week 12 (FAS without MI/LOCF)||6.91|-19.39|0.3513
82470060|NCT02900378|164635865|OTHER||Odds Ratio (OR)|1.228|||||TWO_SIDED|95.0|0.882|1.708||||||FAS population||1.708|0.882|
82470061|NCT02900378|164635866|OTHER||Odds Ratio (OR)|1.251|||||TWO_SIDED|95.0|0.895|1.748||||||FAS subset without AE/SAE||1.748|0.895|
82470062|NCT02900378|164635867|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.634|2.464||||||FAS population||2.464|0.634|
82470063|NCT02900378|164635868|OTHER||Odds Ratio (OR)|1.28|||||TWO_SIDED|95.0|0.644|2.544||||||FAS subset without AE/SAE||2.544|0.644|
82546996|NCT02605837|164793449|SUPERIORITY||Difference in Least square mean|-28.4|||<|0.001||95.0|-35.0|-21.8|||ANCOVA|||This analysis of proximal eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-21.8|-35.0|<0.001
82546997|NCT02605837|164793449|SUPERIORITY||Difference in Least square mean|-30.4|||<|0.001||95.0|-38.1|-22.7|||ANCOVA|||This analysis of mid eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-22.7|-38.1|<0.001
82546998|NCT02605837|164793449|SUPERIORITY||Difference in Least square mean|-33.1|||<|0.001||95.0|-40.7|-25.5|||ANCOVA|||This analysis of distal eosinophil count was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate||-25.5|-40.7|<0.001
82546999|NCT02605837|164793449|SUPERIORITY||Difference in LS Mean|-47.6|||<|0.001|TWO_SIDED|95.0|-56.4|-38.8|||ANCOVA|||This analysis of maximum eosinophil count was from the ANCOVA model with treatment group and age group as factors and the baseline Peak eosinophil count as a continuous covariate.||-38.8|-56.4|<0.001
82547000|NCT02605837|164793450|SUPERIORITY||Difference in Least square mean|-0.19|||<|0.001||95.0|-0.22|-0.16|||ANCOVA|||This analysis of histopathologic epithelial features combined grade TSR was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-0.16|-0.22|<0.001
82547001|NCT02605837|164793450|SUPERIORITY||Difference in Least square mean|-0.2|||<|0.001||95.0|-0.2|-0.2|||ANCOVA|||This analysis of histopathologic epithelial features combined stage TSR was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline Peak Eosinophil Count as a continuous covariate.||-0.2|-0.2|<0.001
82547002|NCT02605837|164793451|SUPERIORITY||Odds Ratio (OR)|1.42||||0.164|TWO_SIDED|95.0|0.866|2.333|||Regression, Logistic|||Dysphagia symptom response (binary response) at the final treatment period was performed based on logistic regression model adjusted for age group and diet restriction.||2.333|0.866|0.164
82470064|NCT02900378|164635869|OTHER||Odds Ratio (OR)|1.25|||||TWO_SIDED|95.0|0.863|1.811||||||FAS population||1.811|0.863|
82470065|NCT02900378|164635870|OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.865|1.834||||||FAS subset without AE/SAE||1.834|0.865|
82470066|NCT02900378|164635871|OTHER|||||||0.1814|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4 (FAS)||||0.1814
82470067|NCT02900378|164635871|OTHER|||||||0.3315|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4 (FAS without AE/SAE)||||0.3315
82470068|NCT02900378|164635871|OTHER|||||||0.2414|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8 (FAS)||||0.2414
82470069|NCT02900378|164635871|OTHER|||||||0.1793|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8 (FAS without AE/SAE)||||0.1793
82470070|NCT02900378|164635872|OTHER||Odds Ratio (OR)|0.821|||||TWO_SIDED|95.0|0.462|1.457||||||Increased levels (\>= 10% increase) of non sedentary daytime physical activity at Week 12||1.457|0.462|
82470071|NCT02900378|164635873|OTHER|||||||0.0516|||||||Chi-squared|||Week 4||||0.0516
82470072|NCT02900378|164635873|OTHER|||||||0.9025|||||||Chi-squared|||Week 8||||0.9025
82470073|NCT02900378|164635873|OTHER|||||||0.6713|||||||Chi-squared|||Week 12||||0.6713
82470074|NCT02900378|164635874|OTHER|||||||0.0029|||||||Chi-squared|||Week 4||||0.0029
82470075|NCT02900378|164635874|OTHER|||||||0.7754|||||||Chi-squared|||Week 8||||0.7754
82470076|NCT02900378|164635874|OTHER|||||||0.2172|||||||Chi-squared|||Week 12||||0.2172
82470077|NCT02900378|164635875|OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0008
82470078|NCT02900378|164635875|OTHER|||||||0.0008|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0008
82470079|NCT02900378|164635875|OTHER|||||||0.0297|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0297
82470080|NCT02900378|164635875|OTHER|||||||0.0069|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0069
82470081|NCT02900378|164635875|OTHER|||||||0.2275|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.2275
82470082|NCT02900378|164635875|OTHER|||||||0.3486|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.3486
82650674|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.2015|TWO_SIDED|95.0|-0.28|0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.06|-0.28|0.2015
82650675|NCT01360632|165016435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0852|TWO_SIDED|95.0|-0.32|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.02|-0.32|0.0852
82650676|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.08||||0.0817|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.01|-0.17|0.0817
82650677|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.1406|TWO_SIDED|95.0|-0.16|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.02|-0.16|0.1406
82470083|NCT02900378|164635875|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.6800
82470084|NCT02900378|164635875|OTHER|||||||0.7184|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.7184
82470085|NCT02900378|164635875|OTHER|||||||0.5301|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5301
82470086|NCT02900378|164635875|OTHER|||||||0.6019|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.6019
82470087|NCT02900378|164635875|OTHER|||||||0.8229|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.8229
82470088|NCT02900378|164635875|OTHER|||||||0.8229|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.8229
82470089|NCT02900378|164635876|OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0001
82470090|NCT02900378|164635876|OTHER|||||||0.0123|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0123
82470091|NCT02900378|164635876|OTHER|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.2560
82470092|NCT02900378|164635876|OTHER|||||||0.5865|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.5865
82470093|NCT02900378|164635876|OTHER|||||||0.5463|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.5463
82470094|NCT02900378|164635876|OTHER|||||||0.3212|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.3212
82470095|NCT02900378|164635877|OTHER|||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0004
82470096|NCT02900378|164635877|OTHER|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0009
82470097|NCT02900378|164635877|OTHER|||||||0.0094|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0094
82470098|NCT02900378|164635877|OTHER|||||||0.0301|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0301
82470099|NCT02900378|164635877|OTHER|||||||0.1557|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.1557
82470100|NCT02900378|164635877|OTHER|||||||0.6461|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.6461
82470101|NCT02900378|164635877|OTHER|||||||0.9759|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.9759
82470102|NCT02900378|164635877|OTHER|||||||0.3941|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3941
82470103|NCT02900378|164635877|OTHER|||||||0.7209|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.7209
82470104|NCT02900378|164635877|OTHER|||||||0.4444|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4444
82470105|NCT02900378|164635877|OTHER|||||||0.7247|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.7247
82470106|NCT02900378|164635877|OTHER|||||||0.2933|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.2933
82470107|NCT02900378|164635878|OTHER|||||||0.0854|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0854
82470108|NCT02900378|164635878|OTHER|||||||0.0528|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0528
82470109|NCT02900378|164635878|OTHER|||||||0.4137|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.4137
82470110|NCT02900378|164635878|OTHER|||||||0.0082|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0082
82470111|NCT02900378|164635878|OTHER|||||||0.7908|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.7908
82470112|NCT02900378|164635878|OTHER|||||||0.6499|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.6499
82470113|NCT02900378|164635878|OTHER|||||||0.5547|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.5547
82470114|NCT02900378|164635878|OTHER|||||||0.6961|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.6961
82470115|NCT02900378|164635878|OTHER|||||||0.5946|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5946
82470116|NCT02900378|164635878|OTHER|||||||0.8957|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.8957
82470117|NCT02900378|164635878|OTHER|||||||0.8468|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.8468
82470118|NCT02900378|164635878|OTHER|||||||0.1711|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1711
82470119|NCT02900378|164635879|OTHER|||||||0.0065|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0065
82470120|NCT02900378|164635879|OTHER|||||||0.0316|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0316
82470121|NCT02900378|164635879|OTHER|||||||0.1342|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.1342
82470122|NCT02900378|164635879|OTHER|||||||0.0252|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0252
82470123|NCT02900378|164635879|OTHER|||||||0.9024|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.9024
82470124|NCT02900378|164635879|OTHER|||||||0.9052|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.9052
82470125|NCT02900378|164635879|OTHER|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.2870
82470126|NCT02900378|164635879|OTHER|||||||0.3174|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3174
82470127|NCT02900378|164635879|OTHER|||||||0.502|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5020
82470128|NCT02900378|164635879|OTHER|||||||0.4037|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4037
82470129|NCT02900378|164635879|OTHER|||||||0.4823|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.4823
82470130|NCT02900378|164635879|OTHER|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1090
82470131|NCT02900378|164635880|OTHER|||||||0.0061|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.0061
82470132|NCT02900378|164635880|OTHER|||||||0.0143|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.0143
82470133|NCT02900378|164635880|OTHER|||||||0.0708|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.0708
82470134|NCT02900378|164635880|OTHER|||||||0.075|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0750
82470135|NCT02900378|164635880|OTHER|||||||0.8017|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.8017
82470136|NCT02900378|164635880|OTHER|||||||0.7956|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.7956
82470137|NCT02900378|164635880|OTHER|||||||0.3499|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.3499
82470138|NCT02900378|164635880|OTHER|||||||0.1192|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.1192
82470139|NCT02900378|164635880|OTHER|||||||0.5237|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5237
82470140|NCT02900378|164635880|OTHER|||||||0.3902|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.3902
82470141|NCT02900378|164635880|OTHER|||||||0.4228|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.4228
82470142|NCT02900378|164635880|OTHER|||||||0.1571|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.1571
82470143|NCT02900378|164635881|OTHER|||||||0.3231|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 1||||0.3231
82470144|NCT02900378|164635881|OTHER|||||||0.3519|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.3519
82470145|NCT02900378|164635881|OTHER|||||||0.8335|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 3||||0.8335
82470146|NCT02900378|164635881|OTHER|||||||0.0465|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0465
82470147|NCT02900378|164635881|OTHER|||||||0.5016|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 5||||0.5016
82470148|NCT02900378|164635881|OTHER|||||||0.5941|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.5941
82470149|NCT02900378|164635881|OTHER|||||||0.2019|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 7||||0.2019
82470150|NCT02900378|164635881|OTHER|||||||0.4125|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.4125
82470151|NCT02900378|164635881|OTHER|||||||0.5702|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 9||||0.5702
82470152|NCT02900378|164635881|OTHER|||||||0.4752|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 10||||0.4752
82470153|NCT02900378|164635881|OTHER|||||||0.5343|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 11||||0.5343
82470154|NCT02900378|164635881|OTHER|||||||0.0985|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.0985
82470155|NCT02900378|164635882|OTHER|||||||0.4525|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 2||||0.4525
82470156|NCT02900378|164635882|OTHER|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 4||||0.0445
82470157|NCT02900378|164635882|OTHER|||||||0.1158|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 6||||0.1158
82470158|NCT02900378|164635882|OTHER|||||||0.3901|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 8||||0.3901
82470159|NCT02900378|164635882|OTHER|||||||0.7725|||||||Wilcoxon (Mann-Whitney)|||Change from BL at Week 12||||0.7725
82470160|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.1974||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.1974
82470161|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
82470162|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
82470163|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.8263||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.8263
82470164|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.7418||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Injection Rate at 28 Weeks is presented||||0.7418
82470165|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.2429||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.2429
82470166|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
82470167|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
82470168|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.97||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.9700
82470169|NCT01134055|164635885|SUPERIORITY_OR_OTHER|||||||0.7673||||||Adjusted p-Value has been presented.|ANOVA|||Statistics for Overall Injection Rate at 52 weeks is presented||||0.7673
82470170|NCT05038982|164635902|SUPERIORITY||Mean Difference (Net)|78.26|STANDARD_ERROR_OF_MEAN|16.15|<|0.001|TWO_SIDED|95.0|38.09|118.48||Threshold of significance at 0.05.|ANOVA||Percent PP-NRS reduction comparing subject's values at Week 0 to values at Week 12|||118.48|38.09|<0.001
82470171|NCT05038982|164635902|SUPERIORITY||Mean Difference (Net)|53.66|STANDARD_ERROR_OF_MEAN|18.12||0.0142|TWO_SIDED|95.0|8.55|98.76||Threshold of significance at 0.05.|ANOVA||Percent PP-NRS reduction comparing subject's values at Week 0 to values at Week 12|||98.76|8.55|0.0142
82470172|NCT05038982|164635904|SUPERIORITY||Mean Difference (Net)|9.4|STANDARD_ERROR_OF_MEAN|1.37||0.002|TWO_SIDED|95.0|6.3|12.5||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||12.5|6.3|0.002
82547003|NCT02605837|164793452|SUPERIORITY||Odds Ratio (OR)|91.86||||0.001|TWO_SIDED|95.0|5.687|1483.68|||Firth logistic regression|||Overall binary response I at the final treatment period was performed based on firth logistic regression model adjusted for age group and diet restriction.||1483.680|5.687|0.001
82547004|NCT02605837|164793453|SUPERIORITY||Odds Ratio (OR)|61.68||||0.004|TWO_SIDED|95.0|3.836|991.858|||Firth logistic regression|||Overall binary response II at the final treatment period was perfomed based on based on firth logistic regression model adjusted for age group and diet restriction.||991.858|3.836|0.004
82470173|NCT05038982|164635904|SUPERIORITY||Mean Difference (Net)|6.1|STANDARD_ERROR_OF_MEAN|1.99||0.0215|TWO_SIDED|95.0|1.6|10.6||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||10.6|1.6|0.0215
82470174|NCT05038982|164635905|SUPERIORITY||Mean Difference (Net)|10.1|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|5.9|14.3||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||14.3|5.9|0.002
82470175|NCT05038982|164635905|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|1.74||0.02|TWO_SIDED|95.0|0.77|8.6||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||8.6|0.77|0.02
82470176|NCT05038982|164635906|SUPERIORITY||Mean Difference (Net)|5.44|STANDARD_ERROR_OF_MEAN|1.21||0.0078|TWO_SIDED|95.0|2.7|8.18||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||8.18|2.70|0.0078
82470177|NCT05038982|164635907|SUPERIORITY||Mean Difference (Net)|12.73|STANDARD_ERROR_OF_MEAN|3.16||0.0098|TWO_SIDED|95.0|5.57|19.89||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||19.89|5.57|0.0098
82470178|NCT05038982|164635907|SUPERIORITY||Mean Difference (Net)|9.88|STANDARD_ERROR_OF_MEAN|3.0||0.0117|TWO_SIDED|95.0|3.1|16.66||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||16.66|3.10|0.0117
82470179|NCT05038982|164635908|SUPERIORITY||Mean Difference (Net)|10.2|STANDARD_ERROR_OF_MEAN|2.54||0.002|TWO_SIDED|95.0|4.46|15.94||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||15.94|4.46|0.002
82470180|NCT05038982|164635909|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.23||0.0078|TWO_SIDED|95.0|0.57|1.63||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||1.63|0.57|0.0078
82470181|NCT05038982|164635910|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.055||0.0391|TWO_SIDED|95.0|0.025|0.27||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||0.27|0.025|0.0391
82470182|NCT05038982|164635910|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.086||0.28|TWO_SIDED|95.0|-0.08|0.31||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||0.31|-.080|0.28
82470183|NCT05038982|164635911|SUPERIORITY||Mean Difference (Net)|3.6|STANDARD_ERROR_OF_MEAN|1.607||0.0684|TWO_SIDED|95.0|0.035|7.235||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||7.235|0.035|0.0684
82470184|NCT05038982|164635911|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.13||0.375|TWO_SIDED|95.0|-3.656|1.456||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||||1.456|-3.656|0.375
82470185|NCT05038982|164635912|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|1.212||0.207|TWO_SIDED|95.0|-3.44|2.04||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||2.04|-3.44|0.207
82470186|NCT05038982|164635912|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.498||0.8125|TWO_SIDED|95.0|-3.389|3.389||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||3.389|-3.389|0.8125
82470187|NCT05038982|164635913|SUPERIORITY||Mean Difference (Net)|4.8|STANDARD_ERROR_OF_MEAN|1.009||0.0039|TWO_SIDED|95.0|2.52|7.08||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||7.08|2.52|0.0039
82470188|NCT05038982|164635913|SUPERIORITY||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|1.033||0.0547|TWO_SIDED|95.0|-0.0376|4.638||Threshold of significance at 0.05.|Wilcoxon matched pairs signed rank test|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||4.638|-0.0376|0.0547
82547005|NCT02605837|164793454|SUPERIORITY||Difference in Least square mean|-6.41||||0.004||95.0|-10.757|-2.063|||ANCOVA|||This analysis was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ + Pain score as a continuous covariate.||-2.063|-10.757|0.004
82470189|NCT05038982|164635914|SUPERIORITY||Mean Difference (Net)|9.0||||0.0003|TWO_SIDED|95.0|6.93|11.07||Threshold of significance at 0.05.|t-test, 2 sided|||We are comparing baseline scores at Week 0 to scores taken at the end of the treatment period in Week 12.||11.07|6.93|0.0003
82470190|NCT05038982|164635915|SUPERIORITY||Mean Difference (Net)|6.429|||<|0.0001|TWO_SIDED|95.0|4.011|8.846||Threshold of significance at 0.05.|t-test, 2 sided|||||8.846|4.011|<0.0001
82547006|NCT02605837|164793455|SUPERIORITY||Difference in Least square mean|-2.46||||0.002||95.0|-4.018|-0.909|||ANCOVA|||This analysis was from the analysis of covariance (ANCOVA) model with treatment group and age group as factors and the baseline DSQ Pain score as a continuous covariate.||-0.909|-4.018|0.002
82650678|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.011|TWO_SIDED|95.0|-0.29|-0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.04|-0.29|0.011
82650679|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0287|TWO_SIDED|95.0|-0.27|-0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.02|-0.27|0.0287
82650680|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0071|TWO_SIDED|95.0|-0.32|-0.05|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.05|-0.32|0.0071
82650681|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.2503|TWO_SIDED|95.0|-0.22|-0.06|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.06|-0.22|0.2503
82650682|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0539|TWO_SIDED|95.0|-0.3|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0|-0.3|0.0539
82650683|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0398|TWO_SIDED|95.0|-0.31|-0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.01|-0.31|0.0398
82650684|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.1168|TWO_SIDED|95.0|-0.3|0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.03|-0.3|0.1168
82470191|NCT05038982|164635917|SUPERIORITY||Median Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.83|-0.33||Threshold of significance set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNA sequencing (RNASeq) performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.33|-0.83|<0.0001
82470192|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.091||0.0003|TWO_SIDED|95.0|-0.56|-0.18||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.18|-0.56|0.0003
82470193|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.12||0.0952|TWO_SIDED|95.0|-0.47|0.039||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||0.039|-0.47|0.0952
82650685|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0621|TWO_SIDED|95.0|-0.32|0.01|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.01|-0.32|0.0621
82650686|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.089|TWO_SIDED|95.0|-0.32|0.02|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.02|-0.32|0.089
82650687|NCT01360632|165016436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0213|TWO_SIDED|95.0|-0.38|-0.03|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.03|-0.38|0.0213
82650688|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0228|TWO_SIDED|95.0|-2.37|-0.18|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.18|-2.37|0.0228
82547007|NCT05107401|164793527|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.083|TWO_SIDED|95.0|-4.9|0.3|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.30|-4.90|0.083
82547008|NCT05107401|164793528|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.032|TWO_SIDED|95.0|-1.16|-0.18|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, age, sex at birth, and sexual orientation.||-0.18|-1.16|0.032
82547009|NCT05107401|164793529|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.48|TWO_SIDED|95.0|-0.72|0.29|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.29|-0.72|0.48
82547010|NCT05107401|164793530|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.48|TWO_SIDED|95.0|-1.49|0.29|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.29|-1.49|0.48
82547011|NCT05107401|164793531|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.37|TWO_SIDED|95.0|-2.6|0.51|||Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference between study arms from baseline to the three-month follow-up.|Separate multilevel linear mixed models were calculated for the overall stigma score and then for each of the stigma subscale scores. The multilevel linear mixed models incorporated random fixed effects for time (categorical), study arm, and their interaction and included intercept as a random effect. Models were also adjusted for pre-intervention stigma levels, whether the participant had submitted content to the study contest, prior HIV testing, age, sex at birth, and sexual orientation.||0.51|-2.60|0.37
82547012|NCT05107401|164793532|SUPERIORITY||Risk Ratio (RR)|1.13||||0.099|TWO_SIDED|95.0|0.98|1.32|||Regression, Logistic||The statistical values presented are the relative risk between study arms at the three-month follow-up.|We used a generalized linear model using a binomial distribution to examine whether the intervention was associated with increased HIV self-testing uptake in the follow-up period. The model was adjusted for history of HIV testing (pre-intervention testing and testing prior to the study), whether the participant had submitted content to the JasSpark contest, and if the participant had a main intimate partner (e.g., girlfriend/boyfriend, spouse).||1.32|0.98|0.099
82547013|NCT05107401|164793533|SUPERIORITY||Mean Difference (Final Values)|-5.09||||0.012|TWO_SIDED|95.0|-8.59|-1.58||To account for multiple comparisons arising from analyses of moderating effects, the false discovery rate (FDR) was controlled using Benjamini-Hochberg procedures in a tiered approach.|Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference in females between study arms from baseline to the three-month follow-up.|Sex was marginally significant in the initial multilevel mixed models, therefore, we examined potential moderation effects of sex on stigma changes. Fixed effects corresponding to the two-way interactions involving sex, time, and/or arm, as well as the three-way interaction of sex, time, and arm, were added to the models.||-1.58|-8.59|0.012
82650689|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.5081|TWO_SIDED|95.0|-1.47|0.73|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.73|-1.47|0.5081
82650690|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.0064|TWO_SIDED|95.0|-3.2|-0.53|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.53|-3.2|0.0064
82650691|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89||||0.1898|TWO_SIDED|95.0|-2.23|0.44|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.44|-2.23|0.1898
82650692|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.09||||0.0074|TWO_SIDED|95.0|-3.62|-0.56|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.56|-3.62|0.0074
82650693|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.5935|TWO_SIDED|95.0|-1.95|1.11|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||1.11|-1.95|0.5935
82650694|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0211|TWO_SIDED|95.0|-3.52|-0.29|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||-0.29|-3.52|0.0211
82650695|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.1031|TWO_SIDED|95.0|-2.96|0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.27|-2.96|0.1031
82470194|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.12||0.004|TWO_SIDED|95.0|-0.64|-0.13||Threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for CPUO patient skin at Week 0 versus Week 12 (end of treatment) The CPUO patients only had one biopsy collected at the timepoints because there are no visible lesions. CPUO patients only had one biopsy taken which will be referred to as Lesional sites. CPUO will compare Lesional biopsies at week 0 to Lesional biopsies at week 12.||-0.13|-0.64|0.004
82470195|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0277|TWO_SIDED|95.0|-0.81|-0.053||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at week 0.||-0.053|-0.81|0.0277
82470196|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.077|TWO_SIDED|95.0|-0.85|0.049||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th1 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at week 12.||0.049|-0.85|0.077
82470197|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.0363|TWO_SIDED|95.0|-0.64|-0.024||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.024|-0.64|0.0363
82470198|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.1|TWO_SIDED|95.0|-0.63|0.062||The threshold of significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th2 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.062|-0.63|0.10
82470199|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|0.15||0.0009|TWO_SIDED|95.0|-0.89|-0.27||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.27|-0.89|0.0009
82470200|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.23||0.2326|TWO_SIDED|95.0|-0.77|0.2||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th17 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.20|-0.77|0.2326
82470201|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0047|TWO_SIDED|95.0|-0.85|-0.18||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 0 versus non lesional PN patient skin at Week 0.||-0.18|-0.85|0.0047
82470202|NCT05038982|164635917|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.0539|TWO_SIDED|95.0|-0.83|0.0076||The threshold for significance is set at 0.05|t-test, 2 sided|||This is a comparison of Th22 GSVA from RNASeq performed on skin biopsies. The comparison is for lesional PN patient skin at Week 12 versus non lesional PN patient skin at Week 12.||0.0076|-0.83|0.0539
82470203|NCT03739203|164635927|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.88||0.6798|TWO_SIDED|95.0|-2.1|1.37||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG),ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||1.37|-2.10|0.6798
82470204|NCT03739203|164635927|SUPERIORITY||Least Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.89||0.1245|TWO_SIDED|95.0|-3.11|0.38||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG), ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.38|-3.11|0.1245
82470205|NCT03739203|164635928|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.5152|TWO_SIDED|95.0|-0.29|0.15||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG),ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.15|-0.29|0.5152
82579540|NCT02236988|164869541|OTHER||Ratio of Adjusted Geometric Means|77.4|||||TWO_SIDED|90.0|71.3|84.0|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-t value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||84.0|71.3|
82579541|NCT02236988|164869542|OTHER||Ratio of Adjusted Geometric Means|81.9|||||TWO_SIDED|90.0|75.6|88.6|||||Ratio of adjusted geometric means (Apremilast Modified Release 11 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||88.6|75.6|
82470206|NCT03739203|164635928|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0573|TWO_SIDED|95.0|-0.43|0.01||p-value estimated by Mixed-effects Model for Repeated Measure from test of no difference between cariprazine dose group and placebo at Week 6.|MMRM|MMRM=Fixed effects:treatment group(TG), ADT failure category,visit,TG-by-visit;Covariates:Baseline(BL)value\& BL by-visit interaction.||||0.01|-0.43|0.0573
82470207|NCT01782378|164635929|SUPERIORITY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.33|<|0.01|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.01
82470208|NCT01782378|164635930|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.88||0.88|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||0.88
82470209|NCT01782378|164635931|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.59||0.81|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||0.81
82470210|NCT01782378|164635932|SUPERIORITY||Mean Difference (Final Values)|3.52|STANDARD_ERROR_OF_MEAN|2.88||0.23|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||0.23
82470211|NCT01782378|164635933|SUPERIORITY||Mean Difference (Final Values)|11.39|STANDARD_ERROR_OF_MEAN|7.08|<|0.12|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.12
82470212|NCT01782378|164635934|SUPERIORITY||Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.93|<|0.52|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.52
82470213|NCT01782378|164635935|SUPERIORITY||Mean Difference (Final Values)|3.92|STANDARD_ERROR_OF_MEAN|3.51|<|0.27|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.27
82470214|NCT01782378|164635936|SUPERIORITY||Mean Difference (Final Values)|-2.06|STANDARD_ERROR_OF_MEAN|2.26|<|0.37|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.37
82470215|NCT01782378|164635937|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.78|<|0.36|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.36
82470216|NCT01782378|164635938|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.68|<|0.46|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.46
82470217|NCT01782378|164635939|SUPERIORITY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.83|<|0.84|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.84
82470218|NCT01782378|164635940|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.75|<|0.93|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.93
82470219|NCT01782378|164635941|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_ERROR_OF_MEAN|3.02|<|0.85|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.85
82579542|NCT02236988|164869542|OTHER||Ratio of Adjusted Geometric Means|83.0|||||TWO_SIDED|90.0|76.5|90.1|||||Ratio of adjusted geometric means (Apremilast Modified Release 12 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||90.1|76.5|
82579543|NCT02236988|164869542|OTHER||Ratio of Adjusted Geometric Means|68.8|||||TWO_SIDED|90.0|63.4|74.5|||||Ratio of adjusted geometric means (Apremilast Modified Release 13 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||74.5|63.4|
82579544|NCT02236988|164869542|OTHER||Ratio of Adjusted Geometric Means|77.8|||||TWO_SIDED|90.0|71.8|84.4|||||Ratio of adjusted geometric means (Apremilast Modified Release 14 / Apremilast Immediate Release) expressed as a percentage.|To compare each test formulation with the reference formulation in each group, an ANOVA was performed on the natural log-transformed AUC0-∞ value. The ANOVA model included treatment, sequence, and period as fixed effects and subject nested within sequence as a random effect.||84.4|71.8|
82579545|NCT02236988|164869543|OTHER||Median Difference|0.98||||0.0523|TWO_SIDED|90.0|0.03|1.5|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 11 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.50|0.03|0.0523
82579546|NCT02236988|164869543|OTHER||Median Difference|0.5||||0.2598|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 12 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.00|0.00|0.2598
82579547|NCT02236988|164869543|OTHER||Median Difference|1.5||||0.0053|TWO_SIDED|90.0|1.0|3.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 13 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||3.00|1.00|0.0053
82579548|NCT02236988|164869543|OTHER||Median Difference|0.5||||0.1093|TWO_SIDED|90.0|0.0|1.0|||Wilcoxon signed-rank test||Median difference (Apremilast Modified Release 14 - Apremilast Immediate Release) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.00|0.00|0.1093
82547014|NCT05107401|164793533|SUPERIORITY||Mean Difference (Final Values)|1.58||||0.56|TWO_SIDED|95.0|-2.26|5.42||To account for multiple comparisons arising from analyses of moderating effects, the false discovery rate (FDR) was controlled using Benjamini-Hochberg procedures in a tiered approach.|Mixed Models Analysis||The statistical values presented are the Estimated Value of Mean Difference in males between study arms from baseline to the three-month follow-up.|Sex was marginally significant in the initial multilevel mixed models, therefore, we examined potential moderation effects of sex on stigma changes. Fixed effects corresponding to the two-way interactions involving sex, time, and/or arm, as well as the three-way interaction of sex, time, and arm, were added to the models.||5.42|-2.26|0.56
82547015|NCT04337372|164793535|SUPERIORITY||||||=|0.002||||||F(2, 58) = 7.19|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The main effect of age is reported here.||||=.002
82579549|NCT06612255|164869561|OTHER|Ratio (%) of adjusted geometric means with comparison presented as test (powder)/reference (tablet).|Fixed Effect Analysis|51.68|||||TWO_SIDED|90.0|45.71|58.43||||||Results obtained from mixed effects model of natural log transformed pharmacokinetic parameters including terms for regimen, period and sequence fitted as fixed effects and subject nested within sequence fitted as a random effect.||58.43|45.71|
82579550|NCT03921723|164869568|EQUIVALENCE|Bioequivalence is established when the 90 percent (%) confidence interval of the ratio for AUC (0 to t) between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|0.97|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
82579551|NCT03921723|164869568|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to t) between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.12|||||TWO_SIDED|90.0|1.05|1.2||||||||1.20|1.05|
82470220|NCT01782378|164635942|SUPERIORITY|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.|Mean Difference (Final Values)|-14.43|STANDARD_ERROR_OF_MEAN|12.54|<|0.26|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results that were considered credible.||||||<0.26
82470221|NCT01782378|164635943|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.7|<|0.45|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.45
82579552|NCT03921723|164869587|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to inf) between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|0.96|||||TWO_SIDED|90.0|0.91|1.03||||||||1.03|0.91|
82579553|NCT03921723|164869587|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for AUC (0 to inf) between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.13||||||90.0|1.06|1.2||||||||1.20|1.06|
82579554|NCT03921723|164869588|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for Cmax between treatment formulations (Prototype A versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.09|||||TWO_SIDED|90.0|1.01|1.19||||||||1.19|1.01|
82579555|NCT03921723|164869588|EQUIVALENCE|Bioequivalence is established when the 90% confidence interval of the ratio for Cmax between treatment formulations (Prototype B versus DTG Reference Treatment) are within the range of 0.80 to 1.25|Ratio|1.22|||||TWO_SIDED|90.0|1.13|1.33||||||||1.33|1.13|
82650696|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1366||||0.1366|TWO_SIDED|95.0|-3.02|0.41|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.41|-3.02|0.1366
82650697|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.2709|TWO_SIDED|95.0|-2.68|0.75|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.75|-2.68|0.2709
82650698|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.0812|TWO_SIDED|95.0|-3.4|0.2|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.2|-3.4|0.0812
82650699|NCT01360632|165016437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.1001|TWO_SIDED|95.0|-3.33|0.29|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B.||0.29|-3.33|0.1001
82650700|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.0496|TWO_SIDED|95.0|-2.24|0.0|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0|-2.24|0.0496
82650701|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.387|TWO_SIDED|95.0|-1.61|0.63|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.63|-1.61|0.387
82650702|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.0125|TWO_SIDED|95.0|-3.13|-0.38|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.38|-3.13|0.0125
82470222|NCT01782378|164635944|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|1.18|<|0.46|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.46
82470223|NCT01782378|164635945|SUPERIORITY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.44|<|0.64|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.64
82470224|NCT01782378|164635946|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.63|<|0.82|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.82
82470225|NCT01782378|164635947|SUPERIORITY||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|2.53|<|0.43|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.43
82470226|NCT01782378|164635948|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.62|<|0.15|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.15
82650703|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.0898|TWO_SIDED|95.0|-2.57|0.19|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.19|-2.57|0.0898
82650704|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.004|TWO_SIDED|95.0|-3.88|-0.74|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.74|-3.88|0.004
82650705|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.301|TWO_SIDED|95.0|-2.4|0.74|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.74|-2.4|0.301
82547016|NCT04337372|164793535|SUPERIORITY||||||=|0.09||||||F(1.78, 103.37) = 2.48|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The main effect of condition is reported here.||||=.09
82547017|NCT04337372|164793535|SUPERIORITY||||||<|0.05||||||F(3.56, 103.37) = 2.55|MANOVA|||To examine the impact of infant age and label condition on the proportion of infant's attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and infant's proportion of attention to the book was the dependent variable. The interaction between age and condition is reported here.||||<.05
82579556|NCT00338962|164869605|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED|||||Bonferonni adjustments were applied. Mixed effects models were used to assess changes in PTSD symptoms over time.|Mixed Models Analysis|F=49.633||||||0.00
82579557|NCT00338962|164869607|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANOVA|||Gastrointestinal symptoms compared||||0.007
82579558|NCT03733314|164869608|SUPERIORITY||Difference|10.3|||||TWO_SIDED|95.0|-24.9|45.4|||||The difference of percentage was calculated as E6011 minus placebo.|||45.4|-24.9|
82579559|NCT03733314|164869613|SUPERIORITY||Difference|-7.1|||||TWO_SIDED|95.0|-32.1|18.0|||||The difference of percentage was calculated as E6011 minus placebo.|||18.0|-32.1|
82579560|NCT03733314|164869614|SUPERIORITY||Difference|8.3|||||TWO_SIDED|95.0|-7.3|24.0|||||The difference of percentage was calculated as E6011 minus placebo.|||24.0|-7.3|
82579561|NCT04155047|164869641|SUPERIORITY||Least Squares Mean Difference|-0.323|STANDARD_ERROR_OF_MEAN|0.1861||0.0987|TWO_SIDED|95.0|-0.711|0.066|||Mixed Models Analysis|||||0.066|-0.711|0.0987
82579562|NCT04514510|164869642|SUPERIORITY|||||||0.64|||||||ANCOVA with Multiple Imputation|||||||0.64
82579563|NCT04514510|164869648|SUPERIORITY|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||||||0.149
82579564|NCT00821587|164869652|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||We hypothesize that subjects on CsA are more likely to achieve undetectable viral level in patients receiving antiviral therapy for recurrent HCV after Liver Transplant|Chi-squared|||We hypothesize that subjects on CsA are more likely to achieve undetectable viral levels after liver transplant. Comparisons between the two groups (Undetectable viral level vs. Detectable viral level) were performed with Pearson Chi-square tests or Fisher's exact test for categorical variables, and Mann-Whitney U test for continuous variables.||||<0.05
82470227|NCT01782378|164635949|SUPERIORITY||Mean Difference (Final Values)|3.36|STANDARD_ERROR_OF_MEAN|1.86||0.08|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||.08
82470228|NCT01782378|164635950|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.83|<|0.7|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.7
82470229|NCT01782378|164635951|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.5|<|0.48|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.48
82470230|NCT01782378|164635952|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.16|<|0.02|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.02
82470231|NCT01782378|164635953|SUPERIORITY||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.19|<|0.36|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.36
82579565|NCT02045875|164869658|SUPERIORITY|||||||0.046||||||Effect of interaction of time and treatment group|ANOVA|||||||0.046
82579566|NCT02045875|164869659|OTHER||correlation coefficient|-0.508|||||TWO_SIDED||||||||correlation of asthma control and adherence|||||
82579567|NCT01276379|164869661|SUPERIORITY||Hazard Ratio (HR)|2.01||||0.004|TWO_SIDED|95.0|1.23|3.29|||Log Rank|||||3.29|1.23|0.004
82579568|NCT01276379|164869662|SUPERIORITY||Hazard Ratio (HR)|2.29|||<|0.0001|TWO_SIDED|95.0|1.33|3.96|||Log Rank|||||3.96|1.33|<0.0001
82579569|NCT00864253|164869667|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.792||||0.044|TWO_SIDED|95.1|0.631|0.992||An interim safety review was performed by DMC. An alpha spending function was utilized to preserve the overall Type 1 error at 0.050. The spending function allocated alpha of 0.001 and 0.049 to the interim and final analyses of PFS, respectively.|Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||Two hundred fifty-seven (257) patients were to be randomized to each treatment group for a total of 514 patients. This sample size was chosen to provide at least 80% power for the final analysis (with a two-sided type I error of 0.049) to reject the null hypothesis that the ABI 007/dacarbazine hazard ratio (HR) for PFS is equal to 1.0. This sample size calculation was based on estimates of HR = 0.750. Proportional hazards were assumed.||0.992|0.631|0.044
82579570|NCT00864253|164869668|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.831||||0.094|TWO_SIDED|99.9|0.578|1.196||At the time of the final PFS analysis, an interim analysis of survival was reported. The spending function allocated an alpha of 0.001 and 0.049 for the interim and final analysis, respectively, to preserve the overall Type I error at 0.050.|Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||For the participant survival, at the time at least 417 events are recorded, this sample size provides at least 80% power with a two-sided Type 1 error of 0.049 to reject the null hypothesis that the ABI-007/dacarbazine hazard ratio is equal to 1.0. This was based on a HR = 0.760. Proportional hazards were assumed.||1.196|0.578|0.094
82650706|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.0118|TWO_SIDED|95.0|-3.82|-0.48|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.48|-3.82|0.0118
82650707|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.0287|TWO_SIDED|95.0|-3.54|-0.19|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.19|-3.54|0.0287
82650708|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63||||0.0686|TWO_SIDED|95.0|-3.39|0.12|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.12|-3.39|0.0686
82650709|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.056|TWO_SIDED|95.0|-3.47|0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||0.04|-3.47|0.056
82650710|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.0448|TWO_SIDED|95.0|-3.75|-0.04|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.04|-3.75|0.0448
82650711|NCT01360632|165016438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.0251|TWO_SIDED|95.0|-3.98|-0.27|||Mixed Models Analysis|MMRM method was used with trial site, treatment group, visit, treatment group-by-visit and Baseline-by-visit interaction as an unstructured covariate.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3.||-0.27|-3.98|0.0251
82650712|NCT01360632|165016439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.1732|TWO_SIDED|95.0|-1.63|0.29|||ANCOVA|||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The last observation carried forward (LOCF) method was used to impute missing data.||0.29|-1.63|0.1732
82650713|NCT01360632|165016439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0066|TWO_SIDED|95.0|-2.31|-0.37|||ANCOVA|||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The last observation carried forward (LOCF) method was used to impute missing data.||-0.37|-2.31|0.0066
82650714|NCT01360632|165016440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.1226|TWO_SIDED|95.0|-1.78|0.21|||ANCOVA|||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.21|-1.78|0.1226
82650715|NCT01360632|165016440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69||||0.001|TWO_SIDED|95.0|-2.69|-0.68|||ANCOVA|||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.68|-2.69|0.001
82650716|NCT01360632|165016441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8164|TWO_SIDED|95.0|-0.93|0.73|||ANCOVA|||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.73|-0.93|0.8164
82650717|NCT01360632|165016441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.1939|TWO_SIDED|95.0|-1.39|0.28|||ANCOVA|||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.28|-1.39|0.1939
82650718|NCT01360632|165016442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.5192|TWO_SIDED|95.0|-1.14|0.57|||ANCOVA|||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.57|-1.14|0.5192
82650719|NCT01360632|165016442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.0443|TWO_SIDED|95.0|-1.75|-0.02|||ANCOVA|||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.02|-1.75|0.0443
82650720|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0248|TWO_SIDED|95.0|-0.26|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from Cochran-Mantel-Haenszel (CMH) row mean score differ test controlling for study center.||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.02|-0.26|0.0248
82376865|NCT04856930|164460570|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.54||0.5019|TWO_SIDED|90.0|-1.25|0.53||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||0.53|-1.25|0.5019
82650721|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.1334|TWO_SIDED|95.0|-0.22|0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean scores statistics controlling for study center.||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.03|-0.22|0.1334
82650722|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0009|TWO_SIDED|95.0|-0.42|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.11|-0.42|0.0009
82650723|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0019|TWO_SIDED|95.0|-0.38|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean scores statistics controlling for study center||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.09|-0.38|0.0019
82650724|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0009|TWO_SIDED|95.0|-0.42|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.11|-0.42|0.0009
82650725|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.0254|TWO_SIDED|95.0|-0.34|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.02|-0.34|0.0254
82650726|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0035|TWO_SIDED|95.0|-0.41|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.08|-0.41|0.0035
82650727|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0152|TWO_SIDED|95.0|-0.39|-0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.04|-0.39|0.0152
82470232|NCT01782378|164635954|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.88|<|0.82|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.82
82470233|NCT01782378|164635955|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|0.84|<|0.2|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.2
82547018|NCT04337372|164793536|SUPERIORITY||||||=|0.557||||||F(2,47) = .592|MANOVA|||EEG power, as measured by the signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each of the conditions. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The main effect of age is reported here.||||=.557
82547019|NCT04337372|164793536|SUPERIORITY||||||=|0.47||||||F(2,47) = .767|MANOVA|||EEG power, as measured by the signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each of the conditions. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The main effect of condition is reported here.||||=.470
82547020|NCT04337372|164793536|SUPERIORITY||||||=|0.046||||||F(4,94) = 2.524|MANOVA|||EEG power, as measured by signal-to-noise ratio (SNR) was modulated by label condition across age, data were extracted from a mid-occipital cluster of Oz and its 6 nearest neighbors (channels 70, 71, 74, 75, 76, 82, 83) for each condition. SNR data were then submitted to a two-factor MANOVA with Label (Individual, Category, Control/No Label) as a within-subjects factor and Age (6 months, 9 months, 12 months) as a between-subjects factor. The interaction of age and condition is reported here.||||=.046
82547021|NCT04337372|164793537|SUPERIORITY||||||=|0.664||||||F(2,45) = .413|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The main effect of age is reported here.||||=.664
82579571|NCT00864253|164869669|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.845||||0.086|TWO_SIDED|95.0|0.696|1.025|||Log Rank|The treatment difference was tested using the stratified log-rank test, stratified by metastatic stage, region, and baseline LDH.||||1.025|0.696|0.086
82547022|NCT04337372|164793537|SUPERIORITY||||||=|0.768||||||F(2,45) = .266|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The main effect of condition is reported here.||||=.768
82547023|NCT04337372|164793537|SUPERIORITY||||||=|0.2||||||F(4,90) = 1.531|MANOVA|||EEG Data were extracted from a mid-occipital cluster for each conditions for parents \& infants. Data were entered into a 2-factor MANOVA with Label (Individual, Category, No Label) as a within-subjects factor and Age (6 mo, 9 mo, 12 mo) as a between-subjects factor. The phase-locking index measures the extent to which the parent \& infant oscillatory response is in the same phase across time (bounded between 0 and 1, 1 being perfect synchrony. The interaction of age and condition is reported.||||=.200
82547024|NCT04337372|164793538|SUPERIORITY||||||=|0.022||||||F(2, 57) = 4.11|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The main effect of age is reported here.||||=.022
82547025|NCT04337372|164793538|SUPERIORITY||||||=|0.004||||||F(2, 114) = 5.69|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The main effect of condition is reported here.||||=.004
82547026|NCT04337372|164793538|SUPERIORITY||||||=|0.168||||||F(4, 114) = 1.64|MANOVA|||To examine the impact of infant age and label condition on the proportion of joint attention to the book, a 3 (infant age: 6, 9, or 12 months) x 3 (label condition: individual, categorical, or no label) MANOVA was run. Age was measured between subjects, label condition was within subjects, and the proportion of joint attention to the book was the dependent variable. The interaction of age and condition is reported here.||||=.168
82547027|NCT03494504|164793563|SUPERIORITY||Odds Ratio (OR)|2.36|||||TWO_SIDED|95.0|1.46|3.84||||||||3.84|1.46|
82547028|NCT03494504|164793563|SUPERIORITY||Odds Ratio (OR)|1.81|||||TWO_SIDED|95.0|1.11|2.94||||||||2.94|1.11|
82547029|NCT04869982|164793576|OTHER|VE was defined as 1 minus the relative risk (RR). RR was defined as the ratio of the incidence rates of the RZV Group over the Placebo Group. The VE of RZV against HZ was to be demonstrated if the lower limit (LL) of the two-sided 95% CI of VE was above 25%.|VE (1-RR)|100.0|||<|0.0001|TWO_SIDED|95.0|89.82|100.0||All p-values reported were related to the null hypothesis test VE = 0.|Poisson|The CI for VE is derived from the exact CI from RR.||To demonstrate the vaccine efficacy (VE) of RZV against HZ, the analysis considered the exact inference on the relative risk adjusted for age strata conditionally to the total number of confirmed HZ cases observed and time at risk. This method computed an exact confidence interval (CI) around the rate ratio (ratio of the event rates in the RZV Group versus Placebo Group) and accounted for the sum of the time at risk of the participants within each group.||100|89.82|<0.0001
82547030|NCT03857620|164793599|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.53|TWO_SIDED|95.0|-0.85|0.45|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||Combined Arm II (OPTI-Surg) \& Arm III (OPTI-Surg plus Coach) vs. Arm I (Usual Care)||0.45|-0.85|0.53
82547031|NCT03857620|164793599|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.84|TWO_SIDED|95.0|-0.67|0.81|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||0.81|-0.67|0.84
82547032|NCT03857620|164793599|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.19|TWO_SIDED|95.0|-1.21|0.26|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||0.26|-1.21|0.19
82547033|NCT03857620|164793599|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.14|TWO_SIDED|95.0|-0.19|1.29|||Mixed Models Analysis|Generalized linear mixed effects model (w/ Gaussian link) w/ random practice effect to account for clustering by site \& bsl CHAMPS score as covariate||||1.29|-0.19|0.14
82547034|NCT03857620|164793600|SUPERIORITY||Odds Ratio (OR)|0.7||||0.5|TWO_SIDED|95.0|0.23|2.09|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||Combined Arm II (OPTI-Surg) \& Arm III (OPTI-Surg plus Coach) vs. Arm I (Usual Care)||2.09|0.23|0.50
82547035|NCT03857620|164793600|SUPERIORITY||Odds Ratio (OR)|0.46||||0.21|TWO_SIDED|95.0|0.13|1.62|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||1.62|0.13|0.21
82547036|NCT03857620|164793600|SUPERIORITY||Odds Ratio (OR)|1.03||||0.96|TWO_SIDED|95.0|0.3|3.54|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||3.54|0.30|0.96
82547037|NCT03857620|164793600|SUPERIORITY||Odds Ratio (OR)|0.45||||0.19|TWO_SIDED|95.0|0.13|1.54|||Mixed Models Analysis|Generalized linear mixed effects model (with logit link function) with a random practice effect to account for clustering within practice||||1.54|0.13|0.19
82547038|NCT05215847|164793666|OTHER|Adverse event subject incidence and event frequency.|||||||||||||||||Adverse event subject incidence and event frequency.|||
82547039|NCT03433339|164793704|SUPERIORITY||||||=|0.04||||||p-value threshold for statistical significance \<0.05|ANOVA|Mixed ANOVA model considering all available data.||||||=0.040
82547040|NCT05952076|164793721|OTHER||Adjusted mean difference|0.11||||0.6863|TWO_SIDED|95.0|-0.44|0.67|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline WAZ and baseline age (days). A random intercept for participant was included.|||0.67|-0.44|0.6863
82547041|NCT05952076|164793722|OTHER||Adjusted mean difference|109.3||||0.5567|TWO_SIDED|95.0|-259.76|478.36|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline weight (grams) and baseline age (days). A random intercept for participant was included.|||478.36|-259.76|0.5567
82650728|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.004|TWO_SIDED|95.0|-0.42|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.08|-0.42|0.004
82650729|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.013|TWO_SIDED|95.0|-0.42|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||-0.05|-0.42|0.013
82470234|NCT01782378|164635956|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.86|<|0.71|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results||||||<0.71
82470235|NCT01782378|164635957|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.73|<|0.85|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.85
82547042|NCT05952076|164793723|OTHER||Adjusted mean difference|0.1||||0.7275|TWO_SIDED|95.0|-0.46|0.66|||Mixed Models Analysis|See Estimation Comments|The mixed model included treatment and visit as factors, including the interaction term, and was adjusted by baseline WAZ, baseline age (days) and study intervention compliance. A random intercept for participant was included.|||0.66|-0.46|0.7275
82470236|NCT01782378|164635958|SUPERIORITY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.94|<|0.44|TWO_SIDED|||||without adjustment for multiple comparisons Mixed effects model with the assumption that 'subject factor' was a random effect. p-value threshold of p\<.10|ANOVA|Adjusted for baseline scores; co-variate adjustments did not affect any of the results.||||||<0.44
82470237|NCT02233517|164635959|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.84|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.84
82470238|NCT02233517|164635959|SUPERIORITY||Slope|0.23|STANDARD_ERROR_OF_MEAN|0.52|<|0.44|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||<0.44
82547043|NCT05332340|164793740|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.683|TWO_SIDED||||||Kruskal-Wallis|||||||0.683
82547044|NCT04761302|164793744|SUPERIORITY|||||||0.215||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.215
82547045|NCT04761302|164793744|SUPERIORITY|||||||0.445||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.445
82547046|NCT04761302|164793745|SUPERIORITY|||||||0.041||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.041
82470239|NCT02233517|164635959|SUPERIORITY||Slope|0.5|STANDARD_ERROR_OF_MEAN|0.51||0.33|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.33
82470240|NCT02233517|164635960|SUPERIORITY|Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in anger over time in PCT).|Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.1||0.26|TWO_SIDED||||||Mixed Models Analysis|||Multilevel model of therapy type (1=CBT, 2=PCT), gender, and time on DAR scores, using data from baseline, 12 sessions, post-treatment, 3-month and 6-month follow up.||||0.26
82470241|NCT02233517|164635961|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|1.16||0.9|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.90
82547047|NCT04761302|164793745|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.300
82547048|NCT04761302|164793746|SUPERIORITY|||||||0.12||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.12
82547049|NCT04761302|164793746|SUPERIORITY|||||||0.359||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.359
82547050|NCT04761302|164793747|SUPERIORITY|||||||0.083||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.083
82547051|NCT04761302|164793747|SUPERIORITY|||||||0.152||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.152
82547052|NCT04761302|164793748|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.002
82579572|NCT00864253|164869670|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.305||||0.239|TWO_SIDED|95.0|0.837|2.035|||Chi-squared|||||2.035|0.837|0.239
82547053|NCT04761302|164793748|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
82547054|NCT04761302|164793749|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.002
82547055|NCT04761302|164793749|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
82579573|NCT00864253|164869671|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.442||||0.004|TWO_SIDED|95.0|1.123|1.582|||Chi-squared|||||1.582|1.123|0.004
82579574|NCT00864253|164869672|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.201||||0.057|TWO_SIDED|95.0|0.959|5.053|||Log Rank|||||5.053|0.959|0.057
82579575|NCT01743989|164869699|SUPERIORITY|||||||0.383|||||||Chi-squared|||||||0.383
82579576|NCT05384938|164869752|OTHER|Single group|Median time to response|100.0|||||TWO_SIDED|95.0|65.0|160.0|||||Estimate for Time to Response using Kaplan-Meier method|Estimate for Time to Response (Days)||160.0|65.00|
82470242|NCT02233517|164635961|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|1.16||0.85|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.85
82470243|NCT02233517|164635961|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|1.16||0.79|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.79
82470244|NCT02233517|164635962|SUPERIORITY||Mean Difference (Net)|-2.3|STANDARD_DEVIATION|3.2||0.05|TWO_SIDED|95.0|-4.5|-0.002|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Extent of Participation scale.||-.002|-4.5|0.05
82470245|NCT02233517|164635962|SUPERIORITY||Mean Difference (Net)|-0.47|STANDARD_DEVIATION|2.09||0.53|TWO_SIDED|95.0|-2.03|1.08|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Perceived Limitations scale.||1.08|-2.03|0.53
82470246|NCT02233517|164635962|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_DEVIATION|2.42||0.5|TWO_SIDED|95.0|-2.3|1.14|||t-test, 2 sided|||This is the comparison of change in means for cognitive-behavioral vs. present-centered therapy from baseline to post-treatment for the Satisfaction scale.||1.14|-2.30|0.50
82470247|NCT02233517|164635963|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED||||||Mixed Models Analysis||The estimation parameter of 0.28 indicates that at each of the 16 time points, participants in the CBT arm had 0.28 point less of a decrease in disability than those in PCT arm.|Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in anger over time in PCT).||||<0.0001
82470248|NCT02233517|164635964|SUPERIORITY||Mean Difference (Net)|1.45|STANDARD_ERROR_OF_MEAN|2.71||0.59|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.59
82470249|NCT02233517|164635964|SUPERIORITY||Mean Difference (Net)|1.37|STANDARD_ERROR_OF_MEAN|2.71||0.61|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.61
82470250|NCT02233517|164635964|SUPERIORITY||Mean Difference (Net)|-0.89|STANDARD_ERROR_OF_MEAN|2.71||0.74|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.74
82470251|NCT02233517|164635965|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.25|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.25
82470252|NCT02233517|164635965|SUPERIORITY||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.16||0.97|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.97
82470253|NCT02233517|164635965|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.17||0.69|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.69
82470254|NCT02233517|164635966|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.66||0.29|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.29
82470255|NCT02233517|164635966|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.66||0.44|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.44
82470256|NCT02233517|164635966|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|0.66||0.11|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.11
82470257|NCT02233517|164635967|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.12||0.16|TWO_SIDED||||||Mixed Models Analysis||Estimation parameter is interaction of session by therapy, or estimate of difference in mean between CBT and PCT per time point. Positive value is less decrease over time in CBT arm (greater decrease in PTSD in PCT).|Multilevel model of therapy type (1=CBT, 2=PCT), gender, and time on PCL Total scores, using data from baseline, 12 sessions, post-treatment, 3-month and 6-month follow up.||||0.16
82470258|NCT02233517|164635968|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.37||0.45|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment. The reference condition is the present centered therapy arm.|||||0.45
82470259|NCT02233517|164635968|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.37||0.55|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.55
82470260|NCT02233517|164635968|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.37||0.87|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.87
82470261|NCT02233517|164635969|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|1.04||0.49|TWO_SIDED||||||Mixed Models Analysis||Baseline to post-treatment.|||||0.49
82470262|NCT02233517|164635969|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_ERROR_OF_MEAN|1.04||0.7|TWO_SIDED||||||Mixed Models Analysis||Baseline to 3 months post-treatment. The reference condition is the present centered therapy arm.|||||0.70
82470263|NCT02233517|164635969|SUPERIORITY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|1.04||0.45|TWO_SIDED||||||Mixed Models Analysis||Baseline to 6 months post-treatment. The reference condition is the present centered therapy arm.|||||0.45
82470264|NCT01656408|164635977|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|3.8||0.978|TWO_SIDED|90.0|-6.4|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||6.6|-6.4|0.978
82470265|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|3.2||0.005|TWO_SIDED|90.0|-15.4|-4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-4.5|-15.4|0.005
82470266|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.1|STANDARD_ERROR_OF_MEAN|3.3||0|TWO_SIDED|90.0|-19.8|-8.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-8.4|-19.8|0.000
82470267|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.4|STANDARD_ERROR_OF_MEAN|3.2||0.03|TWO_SIDED|90.0|-13.0|-1.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-1.9|-13.0|0.030
82470268|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|4.9||0.484|TWO_SIDED|90.0|-4.9|11.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||11.9|-4.9|0.484
82579577|NCT05384938|164869756|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 4 (Visit 2)||||<0.0001
82579578|NCT05384938|164869756|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 16 (Visit 4)||||<0.0001
82579579|NCT05384938|164869756|OTHER|Parametric Test|||||<|0.0001|||||||paired t-test|||Week 24 (Visit 5)||||<0.0001
82579580|NCT01732822|164869757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.65|TWO_SIDED|95.0|0.92|1.13||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.13|0.92|0.650
82579581|NCT01732822|164869758|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.738|TWO_SIDED|95.0|0.92|1.12||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.12|0.92|0.738
82579582|NCT01732822|164869759|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.4|TWO_SIDED|95.0|0.92|1.23||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.23|0.92|0.400
82650730|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0755|TWO_SIDED|95.0|-0.33|0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.02|-0.33|0.0755
82579583|NCT01732822|164869760|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.482|TWO_SIDED|95.0|0.91|1.23||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.23|0.91|0.482
82579584|NCT01732822|164869761|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.913|TWO_SIDED|95.0|0.89|1.11||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.11|0.89|0.913
82579585|NCT01732822|164869762|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.724|TWO_SIDED|95.0|0.92|1.13||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.13|0.92|0.724
82579586|NCT01732822|164869763|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.846|TWO_SIDED|95.0|0.79|1.33||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.33|0.79|0.846
82470269|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.0||0.169|TWO_SIDED|90.0|-9.3|0.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||0.9|-9.3|0.169
82470270|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|3.6||0.023|TWO_SIDED|90.0|-14.9|-2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-2.6|-14.9|0.023
82470271|NCT01656408|164635977|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|4.6||0.605|TWO_SIDED|90.0|-10.4|5.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||5.5|-10.4|0.605
82470272|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.9||0.635|TWO_SIDED|90.0|-4.9|8.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||8.7|-4.9|0.635
82470273|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|2.8||0.077|TWO_SIDED|90.0|-10.1|-0.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.4|-10.1|0.077
82470274|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.4|STANDARD_ERROR_OF_MEAN|2.7||0.001|TWO_SIDED|90.0|-15.0|-5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-5.7|-15.0|0.001
82470275|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|3.5||0.556|TWO_SIDED|90.0|-8.0|3.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.9|-8.0|0.556
82470276|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.3||0.527|TWO_SIDED|90.0|-5.5|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||2.5|-5.5|0.527
82470277|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|2.8||0.234|TWO_SIDED|90.0|-8.1|1.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||1.4|-8.1|0.234
82470278|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|2.5||0.002|TWO_SIDED|90.0|-12.7|-4.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-4.1|-12.7|0.002
82470279|NCT01656408|164635978|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|3.1||0.726|TWO_SIDED|90.0|-4.2|6.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||6.5|-4.2|0.726
82470280|NCT01656408|164635979|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|4.5||0.855|TWO_SIDED|90.0|-9.0|7.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||7.3|-9.0|0.855
82470281|NCT01656408|164635979|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|8.1||0.658|TWO_SIDED|90.0|-10.8|18.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||18.1|-10.8|0.658
82470282|NCT01656408|164635979|SUPERIORITY_OR_OTHER||LS Mean Difference|6.3|STANDARD_ERROR_OF_MEAN|7.1||0.392|TWO_SIDED|90.0|-6.3|18.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||18.9|-6.3|0.392
82470283|NCT01656408|164635980|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.5||0.563|TWO_SIDED|90.0|-6.0|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.0|-6.0|0.563
82470284|NCT01656408|164635980|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.9||0.381|TWO_SIDED|90.0|-0.8|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||2.5|-0.8|0.381
82470285|NCT01656408|164635980|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.0||0.387|TWO_SIDED|90.0|-1.7|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||5.2|-1.7|0.387
82470286|NCT01656408|164635981|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5|STANDARD_ERROR_OF_MEAN|4.7||0.357|TWO_SIDED|90.0|-3.9|12.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||12.8|-3.9|0.357
82470287|NCT01656408|164635981|SUPERIORITY_OR_OTHER||LS Mean Difference|7.4|STANDARD_ERROR_OF_MEAN|4.8||0.15|TWO_SIDED|90.0|-1.2|15.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||15.9|-1.2|0.150
82547056|NCT04761302|164793750|SUPERIORITY|||||||0.004||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.004
82547057|NCT04761302|164793750|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
82547058|NCT04761302|164793751|SUPERIORITY|||||||0.006||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.006
82547059|NCT04761302|164793751|SUPERIORITY||||||<|0.001||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||<0.001
82547060|NCT04761302|164793752|SUPERIORITY|||||||0.354||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.354
82547061|NCT04761302|164793752|SUPERIORITY|||||||0.455||||||A priori threshold for statistical significance: \<0.05|t-test, 2 sided|||||||0.455
82547062|NCT06023082|164793753|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82470288|NCT01656408|164635981|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|5.2||0.578|TWO_SIDED|90.0|-6.3|12.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||12.3|-6.3|0.578
82547063|NCT06023082|164793754|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82547064|NCT06023082|164793755|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547065|NCT06023082|164793756|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547066|NCT06023082|164793757|OTHER|||||||0.4907||||||Baseline to Week 12 comparison.|ANOVA|||||||0.4907
82470289|NCT01656408|164635982|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|3.0||0.942|TWO_SIDED|90.0|-5.1|5.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||5.5|-5.1|0.942
82470290|NCT01656408|164635982|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|3.7||0.627|TWO_SIDED|90.0|-4.8|8.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||8.5|-4.8|0.627
82470291|NCT01656408|164635982|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|1.9||0.046|TWO_SIDED|90.0|0.9|7.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.6|0.9|0.046
82470292|NCT01656408|164635983|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|3.8||0.025|TWO_SIDED|90.0|-18.0|-3.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-3.6|-18.0|0.025
82470293|NCT01656408|164635983|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.6||0.055|TWO_SIDED|90.0|-11.0|-1.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-1.1|-11.0|0.055
82470294|NCT01656408|164635984|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.6||0.999|TWO_SIDED|90.0|-4.4|4.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.4|-4.4|0.999
82470295|NCT01656408|164635984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|3.2||0.934|TWO_SIDED|90.0|-5.7|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||5.2|-5.7|0.934
82547067|NCT06023082|164793758|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547068|NCT06023082|164793759|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547069|NCT06023082|164793760|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547070|NCT06023082|164793761|OTHER|||||||0.0016||||||Baseline to Week 12 comparison.|ANOVA|||||||0.0016
82547071|NCT06023082|164793762|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547072|NCT06023082|164793763|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547073|NCT06023082|164793764|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547074|NCT06023082|164793765|OTHER|||||||0.0002||||||Baseline to Week 12 comparison.|ANOVA|||||||0.0002
82547075|NCT06023082|164793766|OTHER|||||||0.001||||||Baseline to Week 12 comparison.|ANOVA|||||||0.001
82547076|NCT06023082|164793767|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547077|NCT06023082|164793768|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547078|NCT06023082|164793769|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547079|NCT06023082|164793770|OTHER||||||<|0.0001|||||||ANOVA|||Baseline to Week 12 comparison.||||<0.0001
82547080|NCT06023082|164793771|OTHER||||||<|0.0001||||||Baseline to Week 10 comparison.|ANOVA|||||||<0.0001
82547081|NCT06023082|164793772|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547082|NCT06023082|164793773|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547083|NCT06023082|164793774|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547084|NCT06023082|164793775|OTHER||||||<|0.0001||||||Baseline to Week 12 comparison.|ANOVA|||||||<0.0001
82547085|NCT05136404|164793777|OTHER||Ratio of Geometric Least Squares Mean|1.0|||||TWO_SIDED|90.0|0.937|1.08|||Mixed Models Analysis|||||1.08|0.937|
82547086|NCT05136404|164793777|OTHER||Ratio of Geometric Least Squares Mean|1.04|||||TWO_SIDED|90.0|0.968|1.11|||Mixed Models Analysis|||||1.11|0.968|
82547087|NCT05136404|164793778|OTHER||Ratio of Geometric Least Squares Mean|0.989|||||TWO_SIDED|90.0|0.953|1.03|||Mixed Models Analysis|||||1.03|0.953|
82547088|NCT05136404|164793778|OTHER||Ratio of Geometric Least Squares Mean|1.02|||||TWO_SIDED|90.0|0.982|1.06|||Mixed Models Analysis|||||1.06|0.982|
82547089|NCT05136404|164793779|OTHER||Ratio of Geometric Least Squares Mean|1.01|||||TWO_SIDED|90.0|0.972|1.06|||Mixed Models Analysis|||||1.06|0.972|
82547090|NCT05136404|164793779|OTHER||Ratio of Geometric Least Squares Mean|1.03|||||TWO_SIDED|90.0|0.992|1.08|||Mixed Models Analysis|||||1.08|0.992|
82547091|NCT05136404|164793780|SUPERIORITY||Median Difference (Final Values)|0.0||||0.4728|TWO_SIDED|90.0|-0.5|0.0|||Sign test|||||0.00|-0.50|0.4728
82547092|NCT05136404|164793780|SUPERIORITY||Median Difference (Final Values)|0.0||||0.0142|TWO_SIDED|90.0|-0.5|0.0|||Sign test|||||0.00|-0.50|0.0142
82547093|NCT05986565|164793818|SUPERIORITY|||||||0.587|||||||RMANOVA|1||||||0.587
82547094|NCT05986565|164793819|SUPERIORITY|||||||0.874|||||||RMANOVA|1||||||0.874
82547095|NCT05986565|164793820|SUPERIORITY|||||||0.946|||||||RMANOVA|1||||||0.946
82547096|NCT05986565|164793821|SUPERIORITY|||||||0.267|||||||t-test, 2 sided|24||||||0.267
82547097|NCT05986565|164793822|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|df=25||||||0.187
82547098|NCT05986565|164793823|SUPERIORITY|||||||0.765|||||||t-test, 2 sided|df=24||||||0.765
82579587|NCT01732822|164869764|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.298|TWO_SIDED|95.0|0.87|1.05||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.05|0.87|0.298
82579588|NCT01732822|164869765|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.462|TWO_SIDED|95.0|0.9|1.05||The hypothesis will be tested at the 4.94% two-sided significance level to account for the planned interim analysis with the overall type I error preserved at 5%. A hierarchical test sequence will be used to address the issue of multiple testing|Regression, Cox|||||1.05|0.90|0.462
82470296|NCT01656408|164635984|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|3.4||0.547|TWO_SIDED|90.0|-3.7|7.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.9|-3.7|0.547
82547099|NCT05986565|164793824|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|df=25||||||0.060
82547100|NCT05986565|164793825|SUPERIORITY|||||||0.608|||||||t-test, 2 sided|df=24||||||0.608
82547101|NCT05986565|164793826|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|df=25||||||0.638
82547102|NCT04500301|164793831|OTHER|No statistical test was performed.|Proportion|0.136|||||TWO_SIDED|95.0|0.054|0.219|||||The Wald 95% confidence interval for the binomial proportion was estimated.|No hypothesis was tested with regard to the primary outcome. The study planned to enroll 80 eligible subjects such that at least 65 would be evaluable for the primary outcome and the width of the 95% Clopper-Pearson confidence interval for the proportion would be less than or equal to .25.||0.219|0.054|
82547103|NCT04402294|164793902|OTHER|Parametric inferential statistical test|Group mean difference|0.71||||0.5|TWO_SIDED|||||The threshold for statistical significance was set to p = 0.05|ANOVA|||ANOVA (Optimal vs Suboptimal vs No Stimulation)||||0.50
82547104|NCT04402294|164793903|OTHER|Parametric inferential statistical test|Group mean difference|0.03||||0.975|TWO_SIDED|||||The threshold for statistical significance was set to p = 0.05|ANOVA|||ANOVA (Optimal vs Suboptimal vs No Stimulation)||||0.975
82547105|NCT04402294|164793904|OTHER|Parametric inferential statistical test|Group mean difference|2.05||||0.097|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), stimulation days (1 to 3), and delay (0, 4, or 12 seconds) as within-subject variables.||||0.097
82547106|NCT04402294|164793905|OTHER|Parametric Inferential Statistical Test|Group mean difference|0.63||||0.644|TWO_SIDED|||||The threshold for statistical significance was 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), stimulation days (1 to 3), and delay (0, 4, or 12 seconds) as within-subject variables.||||0.644
82579589|NCT01732822|164869766|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.793|TWO_SIDED|95.0|0.92|1.12|||Regression, Cox|||||1.12|0.92|0.793
82579590|NCT01732822|164869767|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.92|1.09|||Regression, Cox|||||1.09|0.92|1.000
82579591|NCT01732822|164869768|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.829|TWO_SIDED|95.0|0.91|1.08|||Regression, Cox|||||1.08|0.91|0.829
82547107|NCT04402294|164793906|OTHER|Parametric inferential statistical test|Group mean difference|0.84||||0.439|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||ANOVA, with neuromodulation stimulation type (optimal vs. suboptimal), and stimulation days (1 to 3) as within-subject variables.||||0.439
82547108|NCT04402294|164793907|OTHER|Parametric inferential statistical test|Group mean difference|0.59||||0.563|TWO_SIDED|||||The threshold for statistical significance was p = 0.05|ANOVA|||Optimal Neuromodulation Day-1, Optimal Neuromodulation Day-2, Optimal Neuromodulation Day-3, Suboptimal Neuromodulation Day-1, Suboptimal Neuromodulation Day-2, Suboptimal Neuromodulation Day-3||||0.563
82547109|NCT05307978|164793924|SUPERIORITY||Ratio (%)|68.729|||||TWO_SIDED|95.0|52.74|89.56|||Mixed Models Analysis|A mixed effect model was performed to the ln-transformed PK parameter and the independent variables.||||89.56|52.74|
82547110|NCT05307978|164793925|SUPERIORITY||Ratio (%)|120.043|||||TWO_SIDED|95.0|67.2|214.43|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||214.43|67.20|
82547111|NCT05307978|164793926|SUPERIORITY||Ratio (%)|118.142|||||TWO_SIDED|95.0|73.93|188.8|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||188.80|73.93|
82547112|NCT05307978|164793927|SUPERIORITY||Ratio (%)|93.891|||||TWO_SIDED|95.0|63.17|139.56|||Mixed Models Analysis|A mixed effect model was performed with ethnicity as fixed effect and participant as random effect.||||139.56|63.17|
82547113|NCT00567398|164793937|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
82547114|NCT00567398|164793937|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
82547115|NCT00567398|164793938|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
82547116|NCT00567398|164793938|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
82547117|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
82547118|NCT00567398|164793940|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
82547119|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
82547120|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
82470297|NCT01656408|164635984|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|2.9||0.906|TWO_SIDED|90.0|-5.2|4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||4.5|-5.2|0.906
82470298|NCT01656408|164635984|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.1||0.682|TWO_SIDED|90.0|-4.0|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||6.6|-4.0|0.682
82470299|NCT01656408|164635985|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|2.8||0.099|TWO_SIDED|90.0|-11.1|0.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||0.0|-11.1|0.099
82470300|NCT01656408|164635985|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.1||0.034|TWO_SIDED|90.0|-10.1|-1.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-1.7|-10.1|0.034
82470301|NCT01656408|164635986|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.0||0.281|TWO_SIDED|90.0|-6.5|1.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||1.6|-6.5|0.281
82470302|NCT01656408|164635986|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.3||0.333|TWO_SIDED|90.0|-1.2|4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||4.0|-1.2|0.333
82470303|NCT01656408|164635987|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|3.4||0.279|TWO_SIDED|90.0|-9.7|2.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||2.1|-9.7|0.279
82470304|NCT01656408|164635987|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|3.4||0.817|TWO_SIDED|90.0|-6.9|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||5.2|-6.9|0.817
82470305|NCT01656408|164635988|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.756|TWO_SIDED|90.0|-3.2|4.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.7|-3.2|0.756
82470306|NCT01656408|164635988|SUPERIORITY_OR_OTHER||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|2.8||0.158|TWO_SIDED|90.0|-0.7|8.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||8.6|-0.7|0.158
82470307|NCT01656408|164635988|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|2.8||0.404|TWO_SIDED|90.0|-2.4|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.1|-2.4|0.404
82470308|NCT01656408|164635988|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|2.4||0.214|TWO_SIDED|90.0|-1.0|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||7.1|-1.0|0.214
82579592|NCT01732822|164869769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.949|TWO_SIDED|95.0|0.92|1.08|||Regression, Cox|||||1.08|0.92|0.949
82650731|NCT01360632|165016443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0527|TWO_SIDED|95.0|-0.39|0.0|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0|-0.39|0.0527
82376866|NCT04856930|164460571|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.49||0.7698|TWO_SIDED|90.0|-0.96|0.67||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||0.67|-0.96|0.7698
82470309|NCT01656408|164635988|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|2.9||0.086|TWO_SIDED|90.0|0.2|10.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||10.0|0.2|0.086
82470310|NCT01656408|164635989|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|3.1||0.003|TWO_SIDED|90.0|-16.8|-5.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-5.9|-16.8|0.003
82470311|NCT01656408|164635989|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|3.5||0.105|TWO_SIDED|90.0|-12.3|0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||0.1|-12.3|0.105
82470312|NCT01656408|164635990|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|3.6||0.691|TWO_SIDED|90.0|-7.5|4.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.6|-7.5|0.691
82470313|NCT01656408|164635990|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|3.9||0.57|TWO_SIDED|90.0|-4.3|8.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 8||8.8|-4.3|0.570
82470314|NCT01656408|164635990|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|3.4||0.666|TWO_SIDED|90.0|-4.2|7.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||7.1|-4.2|0.666
82470315|NCT01656408|164635990|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|4.7||0.534|TWO_SIDED|90.0|-10.9|4.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 22||4.9|-10.9|0.534
82470316|NCT01656408|164635990|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|4.0||0.528|TWO_SIDED|90.0|-4.1|9.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||9.2|-4.1|0.528
82470317|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.0||0.848|TWO_SIDED|90.0|-3.8|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.0|-3.8|0.848
82470318|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|90.0|-8.0|-4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-4.0|-8.0|<0.0001
82470319|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|3.5||0.025|TWO_SIDED|90.0|-14.4|-2.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-2.4|-14.4|0.025
82470320|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.8||0.044|TWO_SIDED|90.0|-7.0|-0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.8|-7.0|0.044
82470321|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|2.0||0.139|TWO_SIDED|90.0|-0.4|6.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||6.6|-0.4|0.139
82470322|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|2.5||0.088|TWO_SIDED|90.0|-8.9|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-0.2|-8.9|0.088
82579593|NCT01732822|164869770|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.377|TWO_SIDED|95.0|0.78|1.1|||Regression, Cox|||||1.10|0.78|0.377
82470323|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|2.2||0.023|TWO_SIDED|90.0|-9.3|-1.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-1.6|-9.3|0.023
82470324|NCT01656408|164636015|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.4||0.878|TWO_SIDED|90.0|-4.5|3.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||3.8|-4.5|0.878
82470325|NCT01656408|164636016|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|3.2||0.512|TWO_SIDED|90.0|-3.4|7.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.7|-3.4|0.512
82470326|NCT01656408|164636016|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|3.0||0.429|TWO_SIDED|90.0|-7.5|2.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.7|-7.5|0.429
82470327|NCT01656408|164636016|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|2.9||0.166|TWO_SIDED|90.0|-9.3|0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.8|-9.3|0.166
82547121|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
82547122|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
82547123|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
82470328|NCT01656408|164636016|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|3.8||0.591|TWO_SIDED|90.0|-8.6|4.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.5|-8.6|0.591
82470329|NCT01656408|164636017|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|4.7||0.248|TWO_SIDED|90.0|-2.5|13.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||13.5|-2.5|0.248
82470330|NCT01656408|164636017|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|2.9||0.836|TWO_SIDED|90.0|-5.6|4.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.4|-5.6|0.836
82470331|NCT01656408|164636017|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|3.2||0.109|TWO_SIDED|90.0|-10.7|0.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||0.1|-10.7|0.109
82470332|NCT01656408|164636017|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|3.7||0.785|TWO_SIDED|90.0|-5.4|7.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.5|-5.4|0.785
82470333|NCT01656408|164636018|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.2||0.365|TWO_SIDED|90.0|-2.5|8.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||8.3|-2.5|0.365
82470334|NCT01656408|164636018|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.9||0.424|TWO_SIDED|90.0|-7.4|2.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.6|-7.4|0.424
82470335|NCT01656408|164636018|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|3.2||0.025|TWO_SIDED|90.0|-13.3|-2.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-2.2|-13.3|0.025
82470336|NCT01656408|164636018|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|3.1||0.475|TWO_SIDED|90.0|-7.5|3.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.0|-7.5|0.475
82470337|NCT01656408|164636019|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|3.4||0.715|TWO_SIDED|90.0|-7.4|4.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||4.8|-7.4|0.715
82470338|NCT01656408|164636019|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|4.3||0.338|TWO_SIDED|90.0|-11.9|3.4|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||3.4|-11.9|0.338
82470339|NCT01656408|164636019|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.4||0.281|TWO_SIDED|90.0|-10.0|2.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||2.3|-10.0|0.281
82470340|NCT01656408|164636020|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|2.8||0.317|TWO_SIDED|90.0|-2.1|7.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.9|-2.1|0.317
82470341|NCT01656408|164636021|SUPERIORITY_OR_OTHER||LS Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|3.6||0.09|TWO_SIDED|90.0|0.2|13.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||13.2|0.2|0.090
82470342|NCT01656408|164636022|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|2.0||0.128|TWO_SIDED|90.0|-0.3|6.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.8|-0.3|0.128
82470343|NCT01656408|164636023|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|3.1||0.477|TWO_SIDED|90.0|-7.9|3.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||3.3|-7.9|0.477
82470344|NCT01656408|164636023|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|3.0||0.09|TWO_SIDED|90.0|-11.0|-0.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 6||-0.2|-11.0|0.090
82470345|NCT01656408|164636023|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|3.0||0.028|TWO_SIDED|90.0|-13.0|-2.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 15||-2.2|-13.0|0.028
82470346|NCT01656408|164636024|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.5||0.877|TWO_SIDED|90.0|-4.9|4.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.1|-4.9|0.877
82470347|NCT01656408|164636025|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|4.6||0.827|TWO_SIDED|90.0|-9.3|7.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||7.2|-9.3|0.827
82470348|NCT01656408|164636026|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|3.5||0.161|TWO_SIDED|90.0|-11.4|1.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.0|-11.4|0.161
82547124|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
82547125|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
82547126|NCT00567398|164793940|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
82470349|NCT01656408|164636027|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|4.4||0.046|TWO_SIDED|90.0|-18.8|-2.3|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-2.3|-18.8|0.046
82470350|NCT01656408|164636027|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.9|STANDARD_ERROR_OF_MEAN|2.3||0.001|TWO_SIDED|90.0|-17.2|-8.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-8.6|-17.2|0.001
82470351|NCT01656408|164636028|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|2.6||0.91|TWO_SIDED|90.0|-4.6|5.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.2|-4.6|0.910
82470352|NCT01656408|164636029|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|3.6||0.906|TWO_SIDED|90.0|-6.6|5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||5.7|-6.6|0.906
82547127|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
82547128|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
82547129|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
82579594|NCT01732822|164869774|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.164|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox|||||1.06|0.71|0.164
82579595|NCT01732822|164869775|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.306|TWO_SIDED|95.0|0.67|1.14|||Regression, Cox|||||1.14|0.67|0.306
82579596|NCT01732822|164869776|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.887|TWO_SIDED|95.0|0.93|1.09|||Regression, Cox|||||1.09|0.93|0.887
82650732|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0275|TWO_SIDED|95.0|-0.26|-0.01|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.01|-0.26|0.0275
82470353|NCT01656408|164636030|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.4||0.87|TWO_SIDED|90.0|-4.4|3.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||3.7|-4.4|0.870
82470354|NCT01656408|164636031|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|90.0|-5.0|-3.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-3.7|-5.0|<0.0001
82470355|NCT01656408|164636031|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.2|STANDARD_ERROR_OF_MEAN|1.2||0.001|TWO_SIDED|90.0|-10.7|-5.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 10||-5.7|-10.7|0.001
82470356|NCT01656408|164636032|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.0||0.038|TWO_SIDED|90.0|-4.9|-0.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.8|-4.9|0.038
82470357|NCT01656408|164636033|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.8||0.238|TWO_SIDED|90.0|-6.0|1.2|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.2|-6.0|0.238
82470358|NCT01656408|164636034|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|1.0||0.048|TWO_SIDED|90.0|-4.7|-0.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||-0.6|-4.7|0.048
82470359|NCT01656408|164636035|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.83|TWO_SIDED|90.0|-3.2|2.5|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||2.5|-3.2|0.830
82470360|NCT01656408|164636035|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|2.9||0.063|TWO_SIDED|90.0|-10.8|-0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||-0.7|-10.8|0.063
82470361|NCT01656408|164636036|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|3.7||0.892|TWO_SIDED|90.0|-7.1|6.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.1|-7.1|0.892
82470362|NCT01656408|164636037|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|3.1||0.571|TWO_SIDED|90.0|-3.4|6.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||6.9|-3.4|0.571
82470363|NCT01656408|164636038|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|2.8||0.816|TWO_SIDED|90.0|-5.4|4.0|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||4.0|-5.4|0.816
82470364|NCT01656408|164636039|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|2.2||0.061|TWO_SIDED|90.0|-8.4|-0.6|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 1||-0.6|-8.4|0.061
82470365|NCT01656408|164636039|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|2.6||0.161|TWO_SIDED|90.0|-8.3|0.7|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|Day 28||0.7|-8.3|0.161
82470366|NCT01656408|164636040|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.0||0.786|TWO_SIDED|90.0|-4.0|2.9|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.9|-4.0|0.786
82470367|NCT01656408|164636041|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|3.3||0.263|TWO_SIDED|90.0|-9.3|1.8|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||1.8|-9.3|0.263
82470368|NCT01656408|164636042|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.0||0.565|TWO_SIDED|90.0|-4.4|2.1|||Mixed Models Analysis||Difference is MK-8150 dose - placebo|||2.1|-4.4|0.565
82547130|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
82547131|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
82547132|NCT00567398|164793941|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
82547133|NCT00567398|164793942|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
82579597|NCT01732822|164869777|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.489|TWO_SIDED|95.0|0.84|1.43|||Regression, Cox|||||1.43|0.84|0.489
82470369|NCT05465317|164636063|OTHER||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.65|0.86|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.86|0.65|<0.001
82470370|NCT05465317|164636063|OTHER||Hazard Ratio (HR)|0.67||||0.001|TWO_SIDED|95.0|0.52|0.86|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.86|0.52|0.001
82470371|NCT05465317|164636063|OTHER||Hazard Ratio (HR)|0.79||||0.008|TWO_SIDED|95.0|0.67|0.94|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.94|0.67|0.008
82470372|NCT05465317|164636064|OTHER||Hazard Ratio (HR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.91|0.60|0.005
82470373|NCT05465317|164636064|OTHER||Hazard Ratio (HR)|0.61||||0.02|TWO_SIDED|95.0|0.41|0.91|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.91|0.41|0.02
82470374|NCT05465317|164636064|OTHER||Hazard Ratio (HR)|0.8||||0.08|TWO_SIDED|95.0|0.63|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.63|0.08
82470375|NCT05465317|164636065|OTHER||Hazard Ratio (HR)|0.68||||0.05|TWO_SIDED|95.0|0.46|1.0|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.00|0.46|0.05
82547134|NCT00567398|164793942|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
82547135|NCT00567398|164793942|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
82579598|NCT01732822|164869778|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.138|TWO_SIDED|95.0|0.95|1.43|||Regression, Cox|||||1.43|0.95|0.138
82470376|NCT05465317|164636065|OTHER||Hazard Ratio (HR)|0.61||||0.09|TWO_SIDED|95.0|0.35|1.09|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.09|0.35|0.09
82470377|NCT05465317|164636065|OTHER||Hazard Ratio (HR)|0.75||||0.3|TWO_SIDED|95.0|0.43|1.29|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.29|0.43|0.30
82547136|NCT00567398|164793942|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
82579599|NCT01732822|164869779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.139|TWO_SIDED|95.0|0.95|1.41|||Regression, Cox|||||1.41|0.95|0.139
82579600|NCT01732822|164869780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58|||<|0.001|TWO_SIDED|95.0|1.24|2.0|||Regression, Cox|||||2.00|1.24|<0.001
82376867|NCT04856930|164460571|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.7468|TWO_SIDED|90.0|-0.97|0.65||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||0.65|-0.97|0.7468
82470378|NCT05465317|164636066|OTHER||Hazard Ratio (HR)|0.73||||0.11|TWO_SIDED|95.0|0.49|1.08|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.08|0.49|0.11
82547137|NCT00567398|164793943|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
82547138|NCT00567398|164793943|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
82547139|NCT00567398|164793944|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
82579601|NCT00316602|164869784|NON_INFERIORITY|The non-inferiority margin to show that Group 2 (Atopic Dermatitis Participants) is non-inferior to Group 1 (Healthy Participants) in terms of seroconversion rate at Week 6 was predefined as -5% for the difference in seroconversion rates.|Difference in seroconversion rates (%)|-1.2|||||ONE_SIDED|97.5|-4.3||||||||||-4.3|
82579602|NCT00626990|164869799|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.76|TWO_SIDED|99.1|0.73|1.28|||Regression, Cox|||||1.28|0.73|0.76
82579603|NCT00626990|164869799|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.79|||Regression, Cox|||||0.79|0.52|<0.0001
82470379|NCT05465317|164636066|OTHER||Hazard Ratio (HR)|0.63||||0.12|TWO_SIDED|95.0|0.35|1.12|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.12|0.35|0.12
82470380|NCT05465317|164636066|OTHER||Hazard Ratio (HR)|0.84||||0.52|TWO_SIDED|95.0|0.5|1.42|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.42|0.50|0.52
82470381|NCT05465317|164636068|OTHER||Hazard Ratio (HR)|0.84||||0.02|TWO_SIDED|95.0|0.72|0.97|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.97|0.72|0.02
82470382|NCT05465317|164636068|OTHER||Hazard Ratio (HR)|0.82||||0.12|TWO_SIDED|95.0|0.65|1.05|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.05|0.65|0.12
82470383|NCT05465317|164636068|OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.7|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.70|0.10
82470384|NCT05465317|164636069|OTHER||Hazard Ratio (HR)|0.9||||0.32|TWO_SIDED|95.0|0.72|1.11|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.11|0.72|0.32
82470385|NCT05465317|164636069|OTHER||Hazard Ratio (HR)|0.9||||0.5|TWO_SIDED|95.0|0.65|1.24|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.24|0.65|0.50
82547140|NCT00567398|164793945|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
82547141|NCT00567398|164793945|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
82547142|NCT00567398|164793945|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
82470386|NCT05465317|164636069|OTHER||Hazard Ratio (HR)|0.91||||0.5|TWO_SIDED|95.0|0.68|1.2|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.20|0.68|0.50
82470387|NCT05465317|164636070|OTHER||Hazard Ratio (HR)|0.75||||0.005|TWO_SIDED|95.0|0.62|0.92|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.92|0.62|0.005
82547143|NCT00567398|164793945|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
82470388|NCT05465317|164636070|OTHER||Hazard Ratio (HR)|0.69||||0.03|TWO_SIDED|95.0|0.49|0.96|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.96|0.49|0.03
82547144|NCT00567398|164793946|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
82547145|NCT00567398|164793946|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
82547146|NCT00567398|164793946|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
82547147|NCT00567398|164793946|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
82547148|NCT00567398|164793947|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
82547149|NCT00567398|164793947|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
82547150|NCT00567398|164793948|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
82547151|NCT00567398|164793948|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
82547152|NCT00567398|164793949|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
82470389|NCT05465317|164636070|OTHER||Hazard Ratio (HR)|0.8||||0.074|TWO_SIDED|95.0|0.63|1.02|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.02|0.63|0.074
82470390|NCT05465317|164636071|OTHER||Hazard Ratio (HR)|1.03||||0.46|TWO_SIDED|95.0|0.95|1.12|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.12|0.95|0.46
82470391|NCT05465317|164636071|OTHER||Hazard Ratio (HR)|1.04||||0.63|TWO_SIDED|95.0|0.9|1.2|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.20|0.90|0.63
82470392|NCT05465317|164636071|OTHER||Hazard Ratio (HR)|1.03||||0.52|TWO_SIDED|95.0|0.94|1.14|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.14|0.94|0.52
82470393|NCT05465317|164636072|OTHER||Hazard Ratio (HR)|0.81||||0.007|TWO_SIDED|95.0|0.7|0.94|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.94|0.70|0.007
82470394|NCT05465317|164636072|OTHER||Hazard Ratio (HR)|0.74||||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||0.97|0.57|0.03
82470395|NCT05465317|164636072|OTHER||Hazard Ratio (HR)|0.85||||0.1|TWO_SIDED|95.0|0.71|1.03|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.03|0.71|0.10
82470396|NCT05465317|164636073|OTHER||Hazard Ratio (HR)|1.37||||0.15|TWO_SIDED|95.0|0.89|2.1|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.10|0.89|0.15
82470397|NCT05465317|164636073|OTHER||Hazard Ratio (HR)|1.05||||0.93|TWO_SIDED|95.0|0.4|2.72|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.72|0.40|0.93
82470398|NCT05465317|164636073|OTHER||Hazard Ratio (HR)|1.47||||0.113|TWO_SIDED|95.0|0.91|2.38|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.38|0.91|0.113
82470399|NCT05465317|164636074|OTHER||Hazard Ratio (HR)|0.9||||0.43|TWO_SIDED|95.0|0.71|1.16|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.16|0.71|0.43
82470400|NCT05465317|164636074|OTHER||Hazard Ratio (HR)|0.8||||0.32|TWO_SIDED|95.0|0.51|1.24|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.24|0.51|0.32
82547153|NCT00567398|164793949|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
82547154|NCT00567398|164793950|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
82579604|NCT00626990|164869800|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.11|TWO_SIDED|95.0|0.72|1.03|||Regression, Cox|||||1.03|0.72|0.11
82547155|NCT00567398|164793951|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
82547156|NCT00567398|164793951|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
82547157|NCT00567398|164793951|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
82547158|NCT00567398|164793951|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
82547159|NCT00567398|164793952|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
82579605|NCT00626990|164869800|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.49|0.7|||Regression, Cox|||||0.70|0.49|<0.0001
82470401|NCT05465317|164636074|OTHER||Hazard Ratio (HR)|0.96||||0.81|TWO_SIDED|95.0|0.71|1.3|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.30|0.71|0.81
82470402|NCT05465317|164636075|OTHER||Hazard Ratio (HR)|0.93||||0.69|TWO_SIDED|95.0|0.65|1.33|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.33|0.65|0.69
82547160|NCT00567398|164793952|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
82547161|NCT00567398|164793953|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
82547162|NCT00567398|164793953|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
82470403|NCT05465317|164636075|OTHER||Hazard Ratio (HR)|0.93||||0.82|TWO_SIDED|95.0|0.51|1.7|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.70|0.51|0.82
82547163|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
82579606|NCT00574873|164869830|SUPERIORITY_OR_OTHER|||||||0.667||||||p-value was based on a Cochran Mantel Haenszel test for general association between treatment and responder stratification by Sokal risk group (low, intermediate, high) and region (1 to 3) as determined at time of randomization.|Stratified Cochran-Mantel-Haenszel|||||||0.667
82579607|NCT00574873|164869831|SUPERIORITY_OR_OTHER|||||||0.002||||||p-value was based on a Cochran Mantel Haenszel test for general association between treatment and responder stratification by Sokal risk group (low, intermediate, high) and region (1 to 3) as determined at time of randomization.|Stratified Cochran-Mantel-Haenszel|||||||0.002
82579608|NCT00574873|164869832|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.31|1.31|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||1.31|0.31|
82579609|NCT00574873|164869833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.32|1.08|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||1.08|0.32|
82579610|NCT00574873|164869834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.25|||||TWO_SIDED|95.0|0.9|11.72|||||Hazard ratio (95% confidence interval) based on the treatment effect (bosutinib compared with imatinib) in a stratified (by Sokal risk group and region at randomization) Cox model for the hazard of the respective event.|||11.72|0.90|
82547164|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
82547165|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
82547166|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
82547167|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
82547168|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
82547169|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
82579611|NCT00574873|164869835|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.13|1.29|||||The hazard ratio (95% confidence interval) is obtained from a Cox model for cause-specific hazard as a function of the covariate treatment (bosutinib compared with imatinib) with stratification by region and Sokal risk group at randomization.|||1.29|0.13|
82579612|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|7.5||0.999|TWO_SIDED|95.0|-14.7|14.7||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 8.||14.7|-14.7|0.999
82579613|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|7.5||0.795|TWO_SIDED|95.0|-12.8|16.7||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 10.||16.7|-12.8|0.795
82547170|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
82547171|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
82547172|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
82470404|NCT05465317|164636075|OTHER||Hazard Ratio (HR)|0.93||||0.76|TWO_SIDED|95.0|0.6|1.45|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.45|0.60|0.76
82470405|NCT05465317|164636076|OTHER||Hazard Ratio (HR)|0.68||||0.39|TWO_SIDED|95.0|0.29|1.62|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.62|0.29|0.39
82470406|NCT05465317|164636076|OTHER||Hazard Ratio (HR)|0.46||||0.34|TWO_SIDED|95.0|0.09|2.27|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.27|0.09|0.34
82470407|NCT05465317|164636076|OTHER||Hazard Ratio (HR)|0.82||||0.72|TWO_SIDED|95.0|0.29|2.33|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.33|0.29|0.72
82547173|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
82547174|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
82547175|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
82547176|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
82547177|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
82547178|NCT00567398|164793954|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
82547179|NCT00567398|164793955|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
82470408|NCT05465317|164636077|OTHER||Hazard Ratio (HR)|0.84||||0.62|TWO_SIDED|95.0|0.43|1.66|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.66|0.43|0.62
82470409|NCT05465317|164636077|OTHER||Hazard Ratio (HR)|0.59||||0.31|TWO_SIDED|95.0|0.21|1.64|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.64|0.21|0.31
82547180|NCT00567398|164793955|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
82547181|NCT00567398|164793956|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
82547182|NCT00567398|164793956|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
82547183|NCT00567398|164793957|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
82547184|NCT00567398|164793957|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
82547185|NCT00567398|164793958|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
82547186|NCT03517553|164793959|SUPERIORITY|||||||0.999||||||Threshold for statistical significance is P\<0.05|Kruskal-Wallis|||||||0.999
82547187|NCT03517553|164793959|SUPERIORITY|||||||0.768|||||||Kruskal-Wallis|||||||0.768
82547188|NCT03517553|164793960|SUPERIORITY|||||||0.869|||||||Kruskal-Wallis|||||||0.869
82547189|NCT03517553|164793960|SUPERIORITY|||||||0.813|||||||Kruskal-Wallis|||||||0.813
82547190|NCT03517553|164793960|SUPERIORITY|||||||0.978|||||||Kruskal-Wallis|||||||0.978
82547191|NCT03517553|164793960|SUPERIORITY|||||||0.731|||||||Kruskal-Wallis|||||||0.731
82547192|NCT03517553|164793960|SUPERIORITY|||||||0.703|||||||Kruskal-Wallis|||||||0.703
82547193|NCT03517553|164793960|SUPERIORITY|||||||0.909|||||||Kruskal-Wallis|||||||0.909
82547194|NCT02201108|164793983|SUPERIORITY||Hazard Ratio (HR)|0.657||||0.2949|TWO_SIDED|95.0|0.388|1.113||Threshold for significance was \< 0.05.|Stratified Log-Rank test|P-value derived from log-rank test with stratification of region and pubertal status.|Hazard ratio was estimated using a Cox proportional-hazards model with factors for treatment group, region, pubertal status, age, and number of relapses in the year prior to randomization as covariates and with robust variance estimation.|||1.113|0.388|0.2949
82547195|NCT02201108|164793985|OTHER||Relative risk ratio|0.511|||||TWO_SIDED|95.0|0.343|0.762||||||||0.762|0.343|
82547196|NCT02201108|164793986|OTHER||Relative risk ratio|0.57|||||TWO_SIDED|95.0|0.331|0.983||||||||0.983|0.331|
82547197|NCT02201108|164793989|OTHER||Relative risk ratio|0.498|||||TWO_SIDED|95.0|0.296|0.836||||||||0.836|0.296|
82470410|NCT05465317|164636077|OTHER||Hazard Ratio (HR)|1.16||||0.76|TWO_SIDED|95.0|0.46|2.92|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.92|0.46|0.76
82470411|NCT05465317|164636078|OTHER||Hazard Ratio (HR)|1.72|||<|0.001|TWO_SIDED|95.0|1.58|1.88|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.88|1.58|<0.001
82470412|NCT05465317|164636078|OTHER||Hazard Ratio (HR)|1.84|||<|0.001|TWO_SIDED|95.0|1.48|2.3|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||2.30|1.48|<0.001
82470413|NCT05465317|164636078|OTHER||Hazard Ratio (HR)|1.7|||<|0.001|TWO_SIDED|95.0|1.54|1.87|||Regression, Cox||Ratio calculated as Empagliflozin/DPP4i|Outcomes were assessed using Cox proportional hazards (PH) models in a 2-arm comparison. The analysis included all patients with a valid overlap weight and was performed using the reweighted population. The main analysis assessed outcomes while patients remain on initial treatment.||1.87|1.54|<0.001
82470414|NCT00999102|164636079|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.67|TWO_SIDED|95.0|-1.86|2.86|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Global Fatigue Score for Nebivolol 5 mg minus Mean Global Fatigue Score for Metoprolol 50 mg.|The null hypothesis is that there is no difference in the Global Fatigue Score after 4 weeks of Nebivolol 5 mg (lower dose) vs. 4 weeks of Metoprolol 50 mg (lower dose).||2.86|-1.86|0.67
82470415|NCT00999102|164636079|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.72|TWO_SIDED|95.0|-3.17|4.55|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Global Fatigue Score for Nebivolol 10 mg minus Mean Global Fatigue Score for Metoprolol 100 mg.|The null hypothesis is that there is no difference in the Global Fatigue Score after 4 weeks of Nebivolol 10 mg (higher dose) vs. 4 weeks of Metoprolol 100 mg (higher dose).||4.55|-3.17|0.72
82470416|NCT00999102|164636080|SUPERIORITY||Mean Difference (Final Values)|-7.03||||0.89|TWO_SIDED|95.0|-108.99|94.92|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Treadmill Exercise Time for Nebivolol 5 mg minus Mean Treadmill Exercise Time for Metoprolol 50 mg.|The null hypothesis is that there is no difference in Treadmill Exercise Time after 4 weeks of Nebivolol 5 mg (lower dose) vs. 4 weeks of Metoprolol 50 mg (lower dose).||94.92|-108.99|0.89
82470417|NCT00999102|164636080|SUPERIORITY||Mean Difference (Final Values)|-25.9||||0.43|TWO_SIDED|95.0|-91.55|39.75|||t-test, 2 sided|Paired t-test was performed since each participant received both interventions in a crossover design.|Direction of Comparison: Mean Treadmill Exercise Time for Nebivolol 10 mg minus Mean Treadmill Exercise Time for Metoprolol 100 mg.|The null hypothesis is that there is no difference in Treadmill Exercise Time after 4 weeks of Nebivolol 10 mg (higher dose) vs. 4 weeks of Metoprolol 100 mg (higher dose).||39.75|-91.55|0.43
82470418|NCT00888940|164636086|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
82470419|NCT02205736|164636120|SUPERIORITY|||||||0.8084||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 1 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.8084
82470420|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 2 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470421|NCT02205736|164636120|SUPERIORITY|||||||0.0036||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 3 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0036
82547198|NCT02201108|164794003|OTHER||Hazard Ratio (HR)|0.693|||||TWO_SIDED|95.0|0.37|1.296|||||Hazard ratio estimated using a Cox proportional-hazards model using treatment group, region, pubertal status, age, and number of relapses in the year prior to randomisation as covariates and with robust variance estimation.|||1.296|0.37|
82547199|NCT03830177|164794006|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82547200|NCT03830177|164794007|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82547201|NCT03830177|164794008|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82547202|NCT03830177|164794009|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82547203|NCT03830177|164794011|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82579614|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|7.6||0.758|TWO_SIDED|95.0|-12.5|17.1||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 12.||17.1|-12.5|0.758
82547204|NCT04143061|164794013|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|6.55|||||TWO_SIDED|95.0|2.03|11.08||||||Statistical analysis for Serogroup A||11.08|2.03|
82547205|NCT04143061|164794013|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|21.67|||||TWO_SIDED|95.0|17.82|25.8||||||Statistical analysis for Serogroup C||25.80|17.82|
82547206|NCT04143061|164794013|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|11.08|||||TWO_SIDED|95.0|7.43|14.89||||||Statistical analysis for Serogroup Y||14.89|7.43|
82547207|NCT04143061|164794013|NON_INFERIORITY|The overall non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups. 95% CI of the difference was calculated from the Wilson Score method without continuity correction.|Difference in percentage of participants|11.01|||||TWO_SIDED|95.0|7.86|14.47||||||Statistical analysis for Serogroup W||14.47|7.86|
82547208|NCT04970407|164794023|SUPERIORITY||Treatment difference|-1.16||||0.8769|TWO_SIDED|95.0|-16.25|13.93|||MMRM model|||The adjusted mean, standard error (SE) and 95% confidence interval (CI) of the adjusted mean as well as difference in % relative to baseline and p-value were obtained from a MMRM with Fisher scoring with treatment, time (corresponding to all study visits when CMAP was measured), treatment by time interaction and baseline CMAP amplitude as factors and an unstructured variance covariance matrix.||13.93|-16.25|0.8769
82547209|NCT04970407|164794023|SUPERIORITY||Treatment difference|-10.61||||0.162|TWO_SIDED|95.0|-25.69|4.47|||MMRM model|||The adjusted mean, SE and 95% CI of the adjusted mean as well as difference in % relative to baseline and p-value were obtained from a MMRM with Fisher scoring with treatment, time (corresponding to all study visits when CMAP was measured), treatment by time interaction and baseline CMAP amplitude as factors and an unstructured variance covariance matrix.||4.47|-25.69|0.1620
82547210|NCT03289039|164794061|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.98|TWO_SIDED|95.0|0.27|4.12|||Log Rank|||||4.12|0.27|0.98
82579615|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|7.6||0.381|TWO_SIDED|95.0|-8.3|21.6||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 16.||21.6|-8.3|0.381
82470422|NCT02205736|164636120|SUPERIORITY|||||||0.0033||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 4 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0033
82470423|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 5 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470424|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 6 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82547211|NCT03289039|164794062|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.89|TWO_SIDED|95.0|0.24|2.81|||Log Rank|||||2.81|0.24|0.89
82547212|NCT04732494|164794066|SUPERIORITY|The primary endpoint ORR was tested at a 2-sided alpha of 0.05.|Risk Difference (RD)|9.9||||0.2114|TWO_SIDED|95.0|-5.4|25.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|||25.3|-5.4|0.2114
82547213|NCT04732494|164794067|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.58|1.45|||||Hazard ratio and 95% confidence intervals (CIs) were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.45|0.58|
82579616|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|7.8||0.041|TWO_SIDED|95.0|0.8|31.4||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis at randomization to Week 20.||31.4|0.8|0.041
82579617|NCT00581555|164869838|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.5|STANDARD_ERROR_OF_MEAN|8.0|<|0.001|TWO_SIDED|95.0|14.8|46.3||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was covariate.||Analysis at randomization to Week 24.||46.3|14.8|<0.001
82470425|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 7 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470426|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 8 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470427|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 9 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470428|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 10 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470429|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 11 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470430|NCT02205736|164636120|SUPERIORITY|||||||0.0124||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 12 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0124
82470431|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 13 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82547214|NCT04732494|164794068|OTHER||Risk Difference (RD)|6.6|||||TWO_SIDED|95.0|-9.2|22.5|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|||22.5|-9.2|
82547215|NCT04732494|164794069|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.64|1.59|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.59|0.64|
82547216|NCT04732494|164794070|OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.71|1.61|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors (ECOG PS score \[0 vs 1\] and the number of organs with metastases \[≤ 1 vs ≥ 2\]).|||1.61|0.71|
82547217|NCT04732494|164794073|OTHER||Risk Difference (RD)|2.7|||||TWO_SIDED|95.0|-14.4|19.9|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Disease Control Rate Assessed by the Investigator||19.9|-14.4|
82547218|NCT04732494|164794073|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-11.7|21.8|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Disease Control Rate Assessed by the Independent Review Committee||21.8|-11.7|
82547219|NCT04732494|164794074|OTHER||Risk Difference (RD)|3.9|||||TWO_SIDED|95.0|-12.7|20.4|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Clinical Benefit Rate Assessed by the Investigator||20.4|-12.7|
82547220|NCT04732494|164794074|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-11.0|21.0|||||Mantel-Haenszel common risk difference stratified by the stratification factors (ECOG PS score \[0 vs 1\] and number of organs with metastases \[≤ 1 vs ≥ 2\]).|Analysis of Clinical Benefit Rate Assessed by the Independent Review Committee||21.0|-11.0|
82650733|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.1583|TWO_SIDED|95.0|-0.22|0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.04|-0.22|0.1583
82470432|NCT02205736|164636120|SUPERIORITY|||||||0.0588||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 14 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0588
82470433|NCT02205736|164636120|SUPERIORITY|||||||0.0143||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 15 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0143
82470434|NCT02205736|164636120|SUPERIORITY|||||||0.1025||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 16 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.1025
82470435|NCT02205736|164636120|SUPERIORITY|||||||0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 17 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0001
82470436|NCT02205736|164636120|SUPERIORITY|||||||0.1138||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 18 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.1138
82470437|NCT02205736|164636120|SUPERIORITY|||||||0.0011||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 19 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0011
82470438|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 20 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||<.0001
82470439|NCT02205736|164636120|SUPERIORITY|||||||0.0522||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 21 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0522
82470440|NCT02205736|164636120|SUPERIORITY|||||||0.8185||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 22 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.8185
82547221|NCT04732494|164794075|OTHER||Least Squares (LS) Mean Difference|1.8|||||TWO_SIDED|95.0|-8.4|11.9||||||Analysis of Change from Baseline in Global Health Status/QoL at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.9|-8.4|
82547222|NCT04732494|164794075|OTHER||LS Mean Difference|3.1|||||TWO_SIDED|95.0|-5.0|11.2||||||Analysis of Change from Baseline in Global Health Status/QoL at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.2|-5.0|
82547223|NCT04732494|164794075|SUPERIORITY||LS Mean Difference|-1.7|||||TWO_SIDED|95.0|-7.1|3.7||||||Analysis of Change from Baseline in Physical Functioning at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||3.7|-7.1|
82547224|NCT04732494|164794075|OTHER||LS Mean Difference|-0.5|||||TWO_SIDED|95.0|-10.3|9.3||||||Analysis of Change from Baseline in Physical Functioning at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||9.3|-10.3|
82547225|NCT04732494|164794076|OTHER||LS Mean Difference|-9.9|||||TWO_SIDED|95.0|-21.5|1.6||||||Analysis of Change from Baseline in Dysphagia at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||1.6|-21.5|
82547226|NCT04732494|164794076|OTHER||LS Mean Difference|-10.8|||||TWO_SIDED|95.0|-27.8|6.3||||||Analysis of Change from Baseline in Dysphagia at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||6.3|-27.8|
82547227|NCT04732494|164794076|OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-7.3|6.6||||||Analysis of Change from Baseline in Eating at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||6.6|-7.3|
82547228|NCT04732494|164794076|OTHER||LS Mean Difference|-9.4|||||TWO_SIDED|95.0|-18.5|-0.3||||||Analysis of Change from Baseline in Eating at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||-0.3|-18.5|
82547229|NCT04732494|164794076|OTHER||LS Mean Difference|2.3|||||TWO_SIDED|95.0|-6.7|11.2||||||Analysis of Change from Baseline in Reflux at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||11.2|-6.7|
82547230|NCT04732494|164794076|OTHER||LS Mean Difference|-1.4|||||TWO_SIDED|95.0|-11.8|9.0||||||Analysis of Change from Baseline in Reflux at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||9.0|-11.8|
82547231|NCT04732494|164794076|OTHER||LS Mean Difference|0.7|||||TWO_SIDED|95.0|-7.0|8.5||||||Analysis of Change from Baseline in Pain at Cycle 5. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||8.5|-7.0|
82547232|NCT04732494|164794076|OTHER||LS Mean Difference|-5.3|||||TWO_SIDED|95.0|-12.3|1.7||||||Analysis of Change from Baseline in Pain at Cycle 7. The mixed effect model analysis included the questionnaire score as dependent variable; baseline score, stratification factors, treatment arm, visit, and treatment arm by visit interaction as fixed effects; and visit as a repeated measure, with an unstructured covariance structure.||1.7|-12.3|
82547233|NCT02728557|164794092|OTHER|MLM models||||||0.016|||||||MLM|MLM||A model with two three-way interactions of time by treatment condition by attachment orientation (Time Å\~ Treatment condition Å\~ Attachment anxiety, Time Å\~ Treatment condition Å\~ Attachment avoidance) along the lower-level effects to predict differences in the slope of change in outcome. The threshold for statistical significance was p\>0.05.||||.016
82547234|NCT03416010|164794098|OTHER||||||<|0.001|||||||two-way ANOVA|||Null Hypothesis: There was no significant difference in Health Beliefs across those 4 time points.||||<0.001
82547235|NCT03416010|164794098|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the full intervention group, COPE-P, and the attention-control group, Preg+, in Health Beliefs, as measured by the Healthy Lifestyle Beliefs measure, at T0 baseline, as well as at time points 1, immediately following the intervention, 2, 6 weeks after the infants' birth, and 3, 6 months after the infants' birth||||<0.001
82547236|NCT03416010|164794098|OTHER|||||||0.009|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||0.009
82547237|NCT03416010|164794099|OTHER||||||<|0.001||||||Threshold for significance: p \<0.01|two-way ANOVA|||Null hypothesis: there was no significant difference in anxiety across the 4 time points.||||<0.001
82547238|NCT03416010|164794099|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in anxiety at T0 baseline, as well as at timepoint 1(immediately following the intervention), timepoint 2 (6 weeks after the infants' birth), and timepoint 3 (6 months after the infants' birth).||||<0.001
82547239|NCT03416010|164794099|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
82547240|NCT03416010|164794100|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in health behaviors across those 4 time points.||||<0.001
82547241|NCT03416010|164794100|OTHER||||||<|0.001|||||||two-way ANOVA|||||||<0.001
82547242|NCT03416010|164794100|OTHER||||||<|0.001|||||||two-way ANOVA|||Null Hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
82547243|NCT03416010|164794101|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in depressive symptoms across those 4 timepoints.||||<0.001
82470441|NCT02205736|164636120|SUPERIORITY|||||||0.0005||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 24 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the Post-Intervention questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the Post-Intervention questionnaire.||||0.0005
82470442|NCT02205736|164636120|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-primary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Subjects recorded True/False answers to Q25 at Baseline and Post-Intervention; the True/False responses were mapped to being correct or incorrect. The contingency table of 329 responses to Q25 displayed the following: N=260 Correct at Baseline and Correct at Post-Intervention (79.0%), N=7 Correct at Baseline and Incorrect at Post-Intervention (2.1%), N=49 Incorrect at Baseline and Correct at Post-Intervention (14.9%), N=13 Incorrect at Baseline and Incorrect at Post-Intervention (4.0%).||||<.0001
82470443|NCT02205736|164636121|SUPERIORITY|||||||0.2482||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 1 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.2482
82470444|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 2 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82470445|NCT02205736|164636121|SUPERIORITY|||||||0.005||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 3 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0050
82470446|NCT02205736|164636121|SUPERIORITY|||||||0.0423||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 4 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0423
82470447|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 5 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82470448|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 6 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82470449|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 7 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82547244|NCT03416010|164794101|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in depressive symptoms at T0 baseline, as well as at time points 1, immediately following the intervention, 2, 6 weeks after the infants' birth, and 3, 6 months after the infants' birth.||||<0.001
82547245|NCT03416010|164794101|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
82547246|NCT03416010|164794102|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference in stress across those 4 time points.||||<0.001
82547247|NCT03416010|164794102|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no significant difference between the two groups in stress, as measured by the GAD-7, at T0 baseline, as well as at timepoint 1 (immediately following the intervention), timepoint 2 (6 weeks after the infants' birth) and timepoint 3 (6 months after the infants' birth).||||<0.001
82470450|NCT02205736|164636121|SUPERIORITY|||||||0.0002||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 8 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0002
82470451|NCT02205736|164636121|SUPERIORITY|||||||0.7456||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 9 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.7456
82470452|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 10 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82470453|NCT02205736|164636121|SUPERIORITY|||||||0.0028||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 11 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0028
82470454|NCT02205736|164636121|SUPERIORITY|||||||0.0707||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 12 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0707
82470455|NCT02205736|164636121|SUPERIORITY|||||||0.0026||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 13 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0026
82470456|NCT02205736|164636121|SUPERIORITY|||||||0.1797||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 14 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.1797
82547248|NCT03416010|164794102|OTHER||||||<|0.001|||||||two-way ANOVA|||Null hypothesis: There was no statistically significant interaction between the intervention group and time.||||<0.001
82547249|NCT03732820|164794146|SUPERIORITY||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.81||A multiple testing procedure is employed across primary (rPFS) and key secondary endpoints (OS) to strongly control overall type 1 error at 2.5% one-sided.|Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.81|0.54|<0.0001
82547250|NCT03732820|164794147|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0544|TWO_SIDED|95.0|0.67|1.0||A multiple testing procedure is employed across primary (rPFS) and key secondary endpoints (OS) to strongly control overall type 1 error at 2.5% one-sided. Alpha spend for OS will not exceed 0.02135.|Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.00|0.67|0.0544
82547251|NCT03732820|164794148|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0025|TWO_SIDED|95.0|0.64|0.9|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.90|0.64|0.0025
82547252|NCT03732820|164794149|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7456|TWO_SIDED|95.0|0.75|1.5|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.50|0.75|0.7456
82470457|NCT02205736|164636121|SUPERIORITY|||||||0.6547||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 15 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.6547
82470458|NCT02205736|164636121|SUPERIORITY|||||||0.1797||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 16 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.1797
82470459|NCT02205736|164636121|SUPERIORITY|||||||0.285||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 17 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.2850
82470460|NCT02205736|164636121|SUPERIORITY|||||||0.0606||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 18 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0606
82470461|NCT02205736|164636121|SUPERIORITY|||||||0.0045||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 19 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0045
82470462|NCT02205736|164636121|SUPERIORITY|||||||0.9068||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 20 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.9068
82470463|NCT02205736|164636121|SUPERIORITY|||||||0.4142||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 21 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.4142
82470464|NCT02205736|164636121|SUPERIORITY|||||||0.5637||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 22 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.5637
82470465|NCT02205736|164636121|SUPERIORITY|||||||0.0002||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 23 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0002
82470466|NCT02205736|164636121|SUPERIORITY|||||||0.0196||||||Each of the 25 co-secondary objectives were tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5%.|McNemar|||Patients gave True/False responses to Question 24 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||0.0196
82470467|NCT02205736|164636121|SUPERIORITY||||||<|0.0001||||||This outcome measure for Q25 was tested at the 2-sided, Bonferroni-corrected alpha=0.002 significance level to preserve an overall type I error rate of 5% in the analyses of 25 questions.|McNemar|||Patients gave True/False responses to Question 25 at Baseline and 3-Month Contact; the True/False responses were mapped to being correct or incorrect. The null hypothesis was that the intervention had no effect on breast health, or that the probability of answering incorrectly on the Baseline questionnaire and correctly on the 3-Month Contact questionnaire was equal to the probability of answering correctly on the Baseline questionnaire and incorrectly on the 3-Month Contact questionnaire.||||<.0001
82470468|NCT03326713|164636122|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.0001|TWO_SIDED|95.0|2.5|15.2|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (TP vs TCN)||15.2|2.5|<.0001
82470469|NCT03326713|164636122|SUPERIORITY||Odds Ratio (OR)|7.4|||<|0.0001|TWO_SIDED|95.0|2.8|19.4|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (UC vs TCN)||19.4|2.8|<.0001
82547253|NCT03732820|164794150|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.3099|TWO_SIDED|95.0|0.82|1.79|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.79|0.82|0.3099
82547254|NCT03732820|164794151|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3212|TWO_SIDED|95.0|0.55|1.22|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.22|0.55|0.3212
82547255|NCT03732820|164794152|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0534|TWO_SIDED|95.0|0.59|0.99|||Log Rank|Log rank test stratified by Metastases and Docetaxel at metastatic hormone-sensitive prostate cancer stage using a pre-specified pooling strategy.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||0.99|0.59|0.0534
82547256|NCT04238247|164794155|SUPERIORITY||Odds Ratio (OR)|1.876119||||0.006|TWO_SIDED|95.0|1.193531|2.949084||The threshold for statistical significance was p = 0.05.|Regression, Logistic|We conducted logistic regression adjusted for randomization strata (recommended CRS and reason for eligibility).||We hypothesized the intervention group would have greater child passenger safety guideline adherence at 6 months compared with enhanced usual care group. In planning the trial, we assumed 75% of TCBD caregivers would be re-randomized. Baseline randomization was stratified by recommended CRS (rear-facing seat, forward-facing seat, booster seat) and reason for eligibility (not using the recommended CRS at baseline or planning a premature transition in the next 6 months).||2.949084|1.193531|0.006
82547257|NCT04238247|164794156|SUPERIORITY||Odds Ratio (OR)|0.8686678||||0.671|TWO_SIDED|95.0|0.4535589|1.663695||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||This analysis is limited to the Phase 2 participants who were re-randomized at 6 months to test the hypothesis that the enhanced intervention (with booster MI session) would have greater guideline adherent child passenger safety behaviors at 12 month follow-up than the group that continued in the basic intervention (mHealth components).||1.663695|0.4535589|0.671
82547258|NCT04238247|164794156|SUPERIORITY||Odds Ratio (OR)|6.859599|||<|0.001|TWO_SIDED|95.0|3.173121|14.82896|||Regression, Logistic|||||14.82896|3.173121|<0.001
82547259|NCT04238247|164794159|SUPERIORITY||Odds Ratio (OR)|1.74029||||0.032|TWO_SIDED|95.0|1.049169|2.886676||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||2.886676|1.049169|0.032
82547260|NCT04238247|164794160|SUPERIORITY||Odds Ratio (OR)|1.112874||||0.752|TWO_SIDED|95.0|0.5735782|2.159233||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||2.159233|0.5735782|0.752
82547261|NCT04238247|164794160|SUPERIORITY||Odds Ratio (OR)|7.959981|||<|0.001|TWO_SIDED|95.0|3.321933|19.07362|||Regression, Logistic|||||19.07362|3.321933|<0.001
82547262|NCT02252172|164794177|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.43|0.73|||Log Rank|||||0.73|0.43|<0.0001
82547263|NCT02252172|164794178|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.0001|TWO_SIDED|95.0|1.8|3.3|||Cochran-Mantel-Haenszel|||||3.30|1.80|<0.0001
82547264|NCT02252172|164794179|SUPERIORITY||Odds Ratio (OR)|3.4|||<|0.0001|TWO_SIDED|95.0|2.42|4.77|||Cochran-Mantel-Haenszel|||||4.77|2.42|<0.0001
82547265|NCT02252172|164794180|SUPERIORITY||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.55|5.59|||Fisher Exact|||||5.59|2.55|<0.0001
82547266|NCT02252172|164794181|SUPERIORITY||Odds Ratio (OR)|2.98|||<|0.0001|TWO_SIDED|95.0|2.09|4.24|||Cochran-Mantel-Haenszel|||||4.24|2.09|<0.0001
82547267|NCT02252172|164794182|SUPERIORITY||Odds Ratio (OR)|3.0|||<|0.0001|TWO_SIDED|95.0|1.85|4.86|||Cochran-Mantel-Haenszel|||||4.86|1.85|<0.0001
82547268|NCT02252172|164794183|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.0001|TWO_SIDED|95.0|0.55|0.82|||Log Rank|||||0.82|0.55|<0.0001
82547269|NCT02252172|164794184|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.0001|TWO_SIDED|95.0|0.39|0.62|||Log Rank|||||0.62|0.39|<0.0001
82547270|NCT02252172|164794187|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.63|||Log Rank|||||0.63|0.41|<0.0001
82547271|NCT02252172|164794188|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.49|0.76|||Log Rank|||||0.76|0.49|<0.0001
82547272|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|2.4|||=|0.0986|TWO_SIDED|95.0|-0.4|5.2|||Mixed Models Analysis|||For Cycle 3 Day 1||5.2|-0.4|=0.0986
82547273|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.5|||=|0.3042|TWO_SIDED|95.0|-1.4|4.4|||Mixed Models Analysis|||Cycle 6 Day 1||4.4|-1.4|=0.3042
82547274|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.8|||=|0.2339|TWO_SIDED|95.0|-1.2|4.9|||Mixed Models Analysis|||Cycle 9 Day 1||4.9|-1.2|=0.2339
82547275|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|3.3|||=|0.0365|TWO_SIDED|95.0|0.2|6.3|||Mixed Models Analysis|||Cycle 12 Day 1||6.3|0.2|=0.0365
82547276|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.7|||=|0.3093|TWO_SIDED|95.0|-1.6|4.9||Cycle 24 Day 1|Mixed Models Analysis|||Cycle 18 Day 1||4.9|-1.6|=0.3093
82547277|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.6|||=|0.3481|TWO_SIDED|95.0|-1.8|5.0|||Mixed Models Analysis|||Cycle 24 Day 1||5|-1.8|=0.3481
82650734|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0021|TWO_SIDED|95.0|-0.41|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.41|0.0021
82650735|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0018|TWO_SIDED|95.0|-0.4|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.4|0.0018
82547278|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.0|||=|0.5825|TWO_SIDED|95.0|-2.6|4.6|||Mixed Models Analysis|||Cycle 30 Day 1||4.6|-2.6|=0.5825
82547279|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|2.7|||=|0.1566|TWO_SIDED|95.0|-1.0|6.4|||Mixed Models Analysis|||Cycle 36 Day 1||6.4|-1|=0.1566
82650736|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0011|TWO_SIDED|95.0|-0.43|-0.11|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.11|-0.43|0.0011
82547280|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|1.8|||=|0.3858|TWO_SIDED|95.0|-2.2|5.7|||Mixed Models Analysis|||Cycle 42 Day 1||5.7|-2.2|=0.3858
82547281|NCT02252172|164794189|SUPERIORITY||Least Square Mean|0.8|||=|0.7296|TWO_SIDED|95.0|-3.5|5.0|||Least Square Mean Difference|||Cycle 48 Day 1||5|-3.5|=0.7296
82547282|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|-1.3|||=|0.5793|TWO_SIDED|95.0|-6.0|3.3|||Mixed Models Analysis|||Cycle 54 Day 1||3.3|-6|=0.5793
82547283|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|-0.8|||=|0.7756|TWO_SIDED|95.0|-6.1|4.5|||Mixed Models Analysis|||Cycle 60 Day 1||4.5|-6.1|=0.7756
82547284|NCT02252172|164794189|SUPERIORITY||Least Square Mean Difference|0.7|||=|0.8458|TWO_SIDED|95.0|-6.0|7.4|||Mixed Models Analysis|||Cycle 66 Day 1||7.4|-6|=0.8458
82547285|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.0|||=|0.1176|TWO_SIDED|95.0|-0.5|4.5|||Mixed Models Analysis|||Cycle 3 Day 1||4.5|-0.5|=0.1176
82547286|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.8|||=|0.0336|TWO_SIDED|95.0|0.2|5.4|||Mixed Models Analysis|||Cycle 6 Day 1||5.4|0.2|=0.0336
82547287|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.6|||=|0.0653|TWO_SIDED|95.0|-0.2|5.3|||Mixed Models Analysis|||Cycle 9 Day 1||5.3|-0.2|=0.0653
82547288|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|5.8|||=|0|TWO_SIDED|95.0|3.0|8.5|||Mixed Models Analysis|||Cycle 12 Day 1||8.5|3|=0.0000
82547289|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.0|||=|0.1805|TWO_SIDED|95.0|-0.9|4.8|||Mixed Models Analysis|||Cycle 18 Day 1||4.8|-0.9|=0.1805
82547290|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.7|||=|0.0783|TWO_SIDED|95.0|-0.3|5.7|||Mixed Models Analysis|||Cycle 24 Day 1||5.7|-0.3|=0.0783
82547291|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.4|||=|0.1422|TWO_SIDED|95.0|-0.8|5.5|||Mixed Models Analysis|||Cycle 30 Day 1||5.5|-0.8|=0.1422
82547292|NCT02252172|164794190|SUPERIORITY||Least Square Mean|3.2|||=|0.0575|TWO_SIDED|95.0|-0.1|6.5|||Least Square Mean Difference|||Cycle 36 Day 1||6.5|-0.1|=0.0575
82547293|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|1.1|||=|0.5339|TWO_SIDED|95.0|-2.4|4.5|||Mixed Models Analysis|||Cycle 42 Day 1||4.5|-2.4|=0.5339
82547294|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|1.3|||=|0.5015|TWO_SIDED|95.0|-2.4|5.0|||Mixed Models Analysis|||Cycle 48 Day 1||5|-2.4|=0.5015
82547295|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|2.3|||=|0.2512|TWO_SIDED|95.0|-1.7|6.3|||Mixed Models Analysis|||Cycle 54 Day 1||6.3|-1.7|=0.2512
82547296|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|-0.5|||=|0.8246|TWO_SIDED|95.0|-5.1|4.1|||Mixed Models Analysis|||Cycle 60 Day 1||4.1|-5.1|=0.8246
82547297|NCT02252172|164794190|SUPERIORITY||Least Square Mean Difference|-1.3|||=|0.664|TWO_SIDED|95.0|-7.0|4.5|||Mixed Models Analysis|||Cycle 66 Day 1||4.5|-7|=0.6640
82547298|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.016|||=|0.3069|TWO_SIDED|95.0|-0.015|0.046|||Mixed Models Analysis|||Cycle 3 Day 1||0.046|-0.015|=0.3069
82650737|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0235|TWO_SIDED|95.0|-0.36|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.03|-0.36|0.0235
82470470|NCT03326713|164636122|SUPERIORITY||Odds Ratio (OR)|1.2||||1.2|TWO_SIDED|95.0|0.4|4.0|||Regression, Logistic|||Logistic Regression Model Results for Intervention Effects on CGRA Within 6 Months (UC vs TP)||4.0|0.4|1.2
82547299|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.019|||=|0.2472|TWO_SIDED|95.0|-0.013|0.05|||Mixed Models Analysis|||Cycle 6 Day 1||0.05|-0.013|=0.2472
82547300|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.4972|TWO_SIDED|95.0|-0.021|0.044|||Mixed Models Analysis|||Cycle 9 Day 1||0.044|-0.021|=0.4972
82547301|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.029|||=|0.0841|TWO_SIDED|95.0|-0.004|0.062|||Mixed Models Analysis|||Cycle 12 Day 1||0.062|-0.004|=0.0841
82547302|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.027|||=|0.1296|TWO_SIDED|95.0|-0.008|0.062|||Mixed Models Analysis|||Cycle 18 Day 1||0.062|-0.008|=0.1296
82547303|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.033|||=|0.0762|TWO_SIDED|95.0|-0.003|0.07|||Mixed Models Analysis|||Cycle 24 Day 1||0.07|-0.003|=0.0762
82547304|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.014|||=|0.4859|TWO_SIDED|95.0|-0.025|0.052|||Mixed Models Analysis|||Cycle 30 Day 1||0.052|-0.025|=0.4859
82547305|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.6031|TWO_SIDED|95.0|-0.029|0.051|||Mixed Models Analysis|||Cycle 36 Day 1||0.051|-0.029|=0.6031
82470471|NCT00935584|164636184|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||>0.05
82470472|NCT00935584|164636184|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||>0.05
82470473|NCT00935584|164636185|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||>0.05
82470474|NCT00935584|164636185|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wicoxon signed rank test|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||>0.05
82470475|NCT00935584|164636186|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in patient engagement from pre to post visit.||||>0.05
82470476|NCT00935584|164636186|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no significant change in patient engagement from pre to post visit.||||>0.05
82470477|NCT00935584|164636187|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
82470478|NCT00935584|164636187|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
82470479|NCT00935584|164636188|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||<0.05
82470480|NCT00935584|164636188|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis is that there is no significant change in outcome from pre to post visit.||||<0.05
82470481|NCT00935584|164636189|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
82470482|NCT00935584|164636189|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon signed rank test|||The null hypothesis states that there is no significant change in outcome from pre-intervention clinical visit (baseline) to post-intervention clinic visit.||||<0.05
82470483|NCT01198977|164636235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.013||||||Baseline and 3-month follow-up for arm 1 and arm 2.|ANOVA|||||||.013
82470484|NCT01198977|164636235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.005||||||Comparing baseline to 6-month follow-up.|ANOVA|||||||0.005
82470485|NCT01198977|164636235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.01||||||The interaction effect between the two conditions across time. Baseline, 3-month, 6-month.|ANOVA|||||||0.010
82470486|NCT01198977|164636236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.009||||||Comparing depression scores for the telephone counseling and education counseling groups at 6 months.|ANOVA|||||||0.009
82470487|NCT01198977|164636236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group X Time interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.032||||||Interaction effects between the telephone counseling and education counseling groups over time (baseline, 3 months, 6 months).|ANOVA|||||||.032
82470488|NCT01198977|164636237|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.049||||||Physical Activity Interaction effect between the Telephone Counseling and Education Counseling Group over time (baseline, 3 months, 6 months).|ANOVA|||||||0.049
82470489|NCT01198977|164636237|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analyses were conducted with GPower 3 evaluating the a priori sample size required to detect a medium-sized effect (f= .25, Cohen, 1988) for Group XTime interaction on primary DV. Assuming two-tailed alpha=.05 and autocorrelations between repeated measures of r=.50, adequate power (.80) to detect medium sized. Group Time effect (f=.25) would be achieved with a total sample size of 28. Given the sample size of 64, observed power more than adequate (.99).||||||0.014||||||Comparing physical activity scores for the telephone counseling and education counseling groups at 6 months.|ANOVA|||||||.014
82470490|NCT01285557|164636238|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9312|TWO_SIDED|95.0|0.76|1.28|||Unstratified Log-rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the unstratified log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.28|0.76|0.9312
82547306|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.051|||=|0.0178|TWO_SIDED|95.0|0.009|0.093|||Mixed Models Analysis|||Cycle 42 Day 1||0.093|0.009|=0.0178
82547307|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.007|||=|0.746|TWO_SIDED|95.0|-0.038|0.053|||Mixed Models Analysis|||Cycle 48 Day 1||0.053|-0.038|=0.7460
82547308|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.037|||=|0.1394|TWO_SIDED|95.0|-0.012|0.086|||Mixed Models Analysis|||Cycle 54 Day 1||0.086|-0.012|=0.1394
82547309|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.011|||=|0.6982|TWO_SIDED|95.0|-0.045|0.068|||Mixed Models Analysis|||Cycle 60 Day 1||0.068|-0.045|=0.6982
82547310|NCT02252172|164794191|SUPERIORITY||Least Square Mean Difference|0.069|||=|0.0543|TWO_SIDED|95.0|-0.001|0.14|||Mixed Models Analysis|||Cycle 66 Day 1||0.14|-0.001|=0.0543
82547311|NCT00522951|164794241|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|-0.58||||||95.0|-0.87|-0.29|||||Averaged blinded reader (primary analysis)|H01: μG1 - μPr ≤ -1||-0.29|-0.87|
82547312|NCT00522951|164794241|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|0.06||||||95.0|-0.23|0.36|||||Averaged blinded reader (primary analysis)|H02: μG2 - μPr ≤ -1||0.36|-0.23|
82547313|NCT00522951|164794241|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|-0.3||||||95.0|-0.5|-0.1|||||Investigator (secondary analysis)|H01: μG1 - μPr ≤ -1||-0.1|-0.5|
82547314|NCT00522951|164794241|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority margin = -1|Mean Difference (Final Values)|0.21||||||95.0|0.02|0.41|||||Investigator (secondary analysis)|H02: μG2 - μPr ≤ -1||0.41|0.02|
82547315|NCT02713126|164794257|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.770
82547316|NCT02713126|164794258|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
82547317|NCT02713126|164794259|SUPERIORITY|||||||0.538|||||||t-test, 2 sided|||||||0.538
82547318|NCT02713126|164794260|SUPERIORITY|||||||0.708|||||||t-test, 2 sided|||||||0.708
82547319|NCT02713126|164794261|SUPERIORITY|||||||0.496|||||||t-test, 2 sided|||||||0.496
82547320|NCT00100698|164794262|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.0|STANDARD_ERROR_OF_MEAN|6.0||0.049|TWO_SIDED|95.0|-38.0|-0.5|||repeated measures mixed effects ANCOVA|||||-0.5|-38|0.049
82579618|NCT00581555|164869839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.3||0.049|TWO_SIDED|95.0|0.0|1.2||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||1.2|0.0|0.049
82547321|NCT02376790|164794287|SUPERIORITY||Treatment Difference|13.9||||0.005|TWO_SIDED|95.0|5.8|22.0||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The primary hypothesis of this study is that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with psoriatic arthritis achieving ACR 20 response at week 24.||22.0|5.8|0.005
82547322|NCT02376790|164794287|SUPERIORITY||Treatment Difference|9.2||||0.029|TWO_SIDED|95.0|1.0|17.3||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The primary hypothesis of this study is that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with psoriatic arthritis achieving ACR 20 response at week 24.||17.3|1.0|0.029
82547323|NCT02376790|164794288|SUPERIORITY||Treatment Difference|12.2||||0.005|TWO_SIDED|95.0|4.9|19.6||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The secondary hypothesis of this study was that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with PsA achieving MDA response at week 24.||19.6|4.9|0.005
82579619|NCT00581555|164869840|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|Pearson chi-square|Treatment groups and visits were fixed factors with a logit link, a binomial distribution and an auto-regressive correlation structure.||Analysis from randomization to Week 24.||||0.002
82579620|NCT00581555|164869841|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Log Rank|Time to first relapse was estimated using the Kaplan-Meier's, and comparisons between groups was performed using log rank tests.||||||0.0003
82470491|NCT01285557|164636239|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3039|TWO_SIDED|95.0|0.65|1.14|||Log Rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.14|0.65|0.3039
82470492|NCT01285557|164636240|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1683|TWO_SIDED|95.0|0.66|1.08|||Log Rank|||S-1+Cisplatin and 5FU+Cisplatin were compared using the log-rank test. The hazard ratio was estimated using a Cox's regression approach and survival was summarized using Kaplan Meier estimates along with 2-sided 95% confidence intervals (CI) for the estimates.||1.08|0.66|0.1683
82470493|NCT06482125|164636251|SUPERIORITY||Odds Ratio (OR)|40.955||||0.001|TWO_SIDED|95.0|14.098|118.972|||Chi-squared, Corrected|||||118.972|14.098|0.001
82547324|NCT02376790|164794288|SUPERIORITY||Treatment Difference|11.6||||0.005|TWO_SIDED|95.0|4.2|18.9||Adjusted p-value was obtained by applying a Bonferroni-based testing procedure for multiplicity adjustment to control the family-wise, two-sided type one error rate at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|The secondary hypothesis of this study was that etanercept plus methotrexate therapy and etanercept monotherapy are more efficacious than methotrexate monotherapy as measured by the percentage of participants with PsA achieving MDA response at week 24.||18.9|4.2|0.005
82650738|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.0021|TWO_SIDED|95.0|-0.44|-0.1|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.10|-0.44|0.0021
82547325|NCT02376790|164794290|SUPERIORITY||Treatment Difference|14.7|||<|0.001|TWO_SIDED|95.0|6.4|23.0||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR50 response at week 24.||23.0|6.4|<0.001
82547326|NCT02376790|164794290|SUPERIORITY||Treatment Difference|11.8||||0.006|TWO_SIDED|95.0|3.4|20.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR50 response at week 24.||20.2|3.4|0.006
82547327|NCT02376790|164794291|SUPERIORITY||Treatment Difference|13.4|||<|0.001|TWO_SIDED|95.0|6.5|20.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR70 response at week 24.||20.4|6.5|<0.001
82547328|NCT02376790|164794291|SUPERIORITY||Treatment Difference|13.7|||<|0.001|TWO_SIDED|95.0|6.7|20.7||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of the percentage of participants with an ACR70 response at week 24.||20.7|6.7|<0.001
82547329|NCT02376790|164794300|SUPERIORITY||LS Mean Treatment Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.91|-0.34||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in PASDAS at week 24||-0.34|-0.91|<0.001
82547330|NCT02376790|164794300|SUPERIORITY||LS Mean Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.92|-0.34||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in PASDAS at week 24||-0.34|-0.92|<0.001
82547331|NCT02376790|164794301|SUPERIORITY||LS Mean Treatment Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.18||0.59|TWO_SIDED|95.0|-2.93|1.68||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in CDAI at week 24||1.68|-2.93|0.59
82547332|NCT02376790|164794301|SUPERIORITY||LS Mean Treatment Difference|-1.32|STANDARD_ERROR_OF_MEAN|1.18||0.26|TWO_SIDED|95.0|-3.63|0.99||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in CDAI at week 24||0.99|-3.63|0.26
82547333|NCT02376790|164794302|SUPERIORITY||LS Mean Treatment Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.2||0.41|TWO_SIDED|95.0|-3.35|1.38||P-value is unadjusted and considered descriptive|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in SDAI at week 24||1.38|-3.35|0.41
82650739|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0111|TWO_SIDED|95.0|-0.42|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.05|-0.42|0.0111
82470494|NCT06482125|164636252|EQUIVALENCE|The threshold for statistical significance is p \< 0.05||||||0.345|||||||Wilcoxon (Mann-Whitney)|||||||0.345
82470495|NCT06482125|164636253|EQUIVALENCE|The threshold for statistical significance is p \< 0.05||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||0.450
82470496|NCT06482125|164636254|EQUIVALENCE|Reject H0 = the means are equivalent|Median Difference (Net)|1.0||||0.356|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.356
82470497|NCT06482125|164636255|EQUIVALENCE|Reject H0 = the means are equivalent|Mean Difference (Final Values)|8.202||||0.07|TWO_SIDED|95.0|2.31|14.095|||t-test, 2 sided|||||14.095|2.310|0.07
82470498|NCT00790842|164636320|OTHER|Recommended Phase 2 dose for Group A|Dose in milligrams per day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were noted, the recommended phase 2 dose for patients with creatinine clearance of 30 to 60 mL/min is 25 mg/day|Recommended Phase 2 dose for Group A||||
82470499|NCT00790842|164636320|OTHER|Recommended phase 2 dose for patients in Group B|Dose in milligrams/day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were noted, the recommended phase 2 dose of lenalidomide is 25 mg/day for patients with creatinine clearance \< 30 mL/minute who are not on dialysis|Recommended phase 2 dose for patients in Group B||||
82470500|NCT00790842|164636320|OTHER|Recommended phase 2 dose for Group C|Lenalidomide dose in mg/day|25.0|||||TWO_SIDED||||||||Because no dose limiting toxicities were observed, the recommended phase 2 dose of lenalidomide is 25 mg/day for patients with creatinine clearance \< 30 mL/min who are receiving dialysis|Recommended phase 2 dose for Group C||||
82470501|NCT02158546|164636366|SUPERIORITY||Least square means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.782|TWO_SIDED|95.0|-2.1|1.6|||Mixed Models Analysis|||||1.6|-2.1|0.782
82470502|NCT03408392|164636392|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|105.38|||||TWO_SIDED|90.0|96.11|115.54||||||||115.54|96.11|
82470503|NCT03408392|164636393|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|101.14|||||TWO_SIDED|90.0|93.37|109.55||||||||109.55|93.37|
82470504|NCT03408392|164636394|EQUIVALENCE|Bio-equivalence analysis comparing cefixime test and reference product has been presented.|Percentage ratio|105.14|||||TWO_SIDED|90.0|96.31|114.78||||||||114.78|96.31|
82470505|NCT00885170|164636416|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.67|||<|0.001|TWO_SIDED|95.0|1.17|4.17|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|The primary hypothesis of the study was met if; in postmenopausal women previously treated with alendronate with low BMD, two years of treatment with odanacatib 50 mg significantly increased BMD at the femoral neck site compared to placebo (p-value \< 0.001).||4.17|1.17|<0.001
82470506|NCT00885170|164636417|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-5.5|||||TWO_SIDED|95.0|-16.9|6.0|||||Based on Miettinen \& Nurminen method.|||6.0|-16.9|
82470507|NCT00885170|164636418|SUPERIORITY_OR_OTHER||Difference in the Percentage vs. Placebo|5.7|||||TWO_SIDED|95.0|-0.4|12.6|||||Based on Miettinen \& Nurminen method.|||12.6|-0.4|
82470508|NCT00885170|164636419|SUPERIORITY_OR_OTHER||Difference in the least Squares Means|0.88||||0.166|TWO_SIDED|95.0|-0.37|2.14|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||2.14|-0.37|0.166
82470509|NCT00885170|164636420|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|3.18||||0.002|TWO_SIDED|95.0|1.19|5.17|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||5.17|1.19|0.002
82470510|NCT00885170|164636421|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.0||||0.142|TWO_SIDED|95.0|-0.34|2.35|||Constrained longitudinal data analysis||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||2.35|-0.34|0.142
82470511|NCT00885170|164636422|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.7|||<|0.001|TWO_SIDED|95.0|1.41|4.0|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||4.00|1.41|<0.001
82470512|NCT00885170|164636423|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.06||||0.023|TWO_SIDED|95.0|0.15|1.98|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.98|0.15|0.023
82470513|NCT00885170|164636424|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|2.57|||<|0.001|TWO_SIDED|95.0|1.26|3.89|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||3.89|1.26|<0.001
82470514|NCT00885170|164636425|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.8||||0.103|TWO_SIDED|95.0|-0.16|1.77|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.77|-0.16|0.103
82470515|NCT00885170|164636426|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.22||||0.763|TWO_SIDED|95.0|-1.23|1.67|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.67|-1.23|0.763
82470516|NCT00885170|164636427|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.38||||0.578|TWO_SIDED|95.0|-0.96|1.72|||cLDA||Baseline measurement and post-baseline percent changes from baseline, with fixed effects for treatment, time, duration of prior alendronate use (3-5 years, \>5 years), geographic region, machine type (Lunar/Hologic) and treatment-by-time interaction|||1.72|-0.96|0.578
82470517|NCT00885170|164636428|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|10.16||||0.5|TWO_SIDED|95.0|-19.39|39.72|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||39.72|-19.39|0.500
82470518|NCT00885170|164636429|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.82||||0.709|TWO_SIDED|95.0|-36.29|24.65|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||24.65|-36.29|0.709
82470519|NCT00885170|164636430|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-47.04|||<|0.001|TWO_SIDED|95.0|-62.4|-31.67|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||-31.67|-62.40|<0.001
82470520|NCT00885170|164636431|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-46.29|||<|0.001|TWO_SIDED|95.0|-61.43|-31.15|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||-31.15|-61.43|<0.001
82470521|NCT00885170|164636432|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|10.96||||0.186|TWO_SIDED|95.0|-5.29|27.22|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||27.22|-5.29|0.186
82470522|NCT00885170|164636433|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|12.82||||0.015|TWO_SIDED|95.0|2.54|23.1|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||23.10|2.54|0.015
82470523|NCT00885170|164636434|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|31.17||||0.011|TWO_SIDED|95.0|7.13|55.21|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||55.21|7.13|0.011
82470524|NCT00885170|164636435|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|24.01||||0.059|TWO_SIDED|95.0|-0.93|48.94|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||48.94|-0.93|0.059
82470525|NCT00885170|164636436|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|0.11||||0.846|TWO_SIDED|95.0|-0.95|1.16|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||1.16|-0.95|0.846
82470526|NCT00885170|164636437|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.38||||0.413|TWO_SIDED|95.0|-1.91|4.67|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||4.67|-1.91|0.413
82470527|NCT00885170|164636438|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-5.91||||0.326|TWO_SIDED|95.0|-17.66|5.85|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||5.85|-17.66|0.326
82547334|NCT02376790|164794302|SUPERIORITY||LS Mean Treatment Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.21||0.15|TWO_SIDED|95.0|-4.09|0.65||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in SDAI at week 24||0.65|-4.09|0.15
82470528|NCT00885170|164636439|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|1.47||||0.835|TWO_SIDED|95.0|-12.37|15.32|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||15.32|-12.37|0.835
82470529|NCT00885170|164636440|SUPERIORITY_OR_OTHER||Difference in the Least Squares Means|-3.13||||0.376|TWO_SIDED|95.0|-10.04|3.78|||cLDA||Log-transformed baseline and post-baseline measurements up to Month 24, with fixed effects for treatment, time, duration of prior alendronate use, geographical region, the interaction of time-by-treatment and the time-by-factor interactions.|||3.78|-10.04|0.376
82470530|NCT03771664|164636441|SUPERIORITY||Least Square (LS) Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|2.23||0.1537|TWO_SIDED|95.0|-1.2|7.7||Average change from baseline in SE was analyzed by analysis of covariance (ANCOVA) with explanatory (treatment, baseline antidepressant use, baseline SE) and response variables \[change from baseline in sleep efficiency at Day 14 (EODBT)\].|ANCOVA|||||7.7|-1.2|0.1537
82470531|NCT03771664|164636442|SUPERIORITY||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|8.07||0.1126|TWO_SIDED|95.0|-29.0|3.1||Change from BL in overall WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from baseline (BL) in overall WASO||3.1|-29.0|0.1126
82470532|NCT03771664|164636442|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.63||0.9819|TWO_SIDED|95.0|-3.3|3.2||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 1||3.2|-3.3|0.9819
82470533|NCT03771664|164636442|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|3.19||0.1838|TWO_SIDED|95.0|-10.6|2.1||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 2||2.1|-10.6|0.1838
82470534|NCT03771664|164636442|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|3.97||0.0797|TWO_SIDED|95.0|-15.0|0.9||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, baseline PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 3||0.9|-15.0|0.0797
82547335|NCT02376790|164794303|SUPERIORITY||LS Mean Treatment Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.11||0.01|TWO_SIDED|95.0|-0.52|-0.07||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in DAS28 at week 24||-0.07|-0.52|0.010
82470535|NCT03771664|164636442|SUPERIORITY||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|4.24||0.1559|TWO_SIDED|95.0|-14.5|2.4||Change from BL in WASO was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, baseline PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in WASO in quarter 4||2.4|-14.5|0.1559
82470536|NCT03771664|164636443|SUPERIORITY||LS Mean Difference|15.8|STANDARD_ERROR_OF_MEAN|10.67||0.1441|TWO_SIDED|95.0|-5.5|37.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in overall TST||37.0|-5.5|0.1441
82470537|NCT03771664|164636443|SUPERIORITY||LS Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|5.47||0.3951|TWO_SIDED|95.0|-6.2|15.6||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 1||15.6|-6.2|0.3951
82470538|NCT03771664|164636443|SUPERIORITY||LS Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|4.16||0.3705|TWO_SIDED|95.0|-4.5|12.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BLPSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 2||12.0|-4.5|0.3705
82470539|NCT03771664|164636443|SUPERIORITY||LS Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|4.04||0.1412|TWO_SIDED|95.0|-2.0|14.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 3||14.0|-2.0|0.1412
82470540|NCT03771664|164636443|SUPERIORITY||LS Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|4.24||0.1298|TWO_SIDED|95.0|-2.0|15.0||Change from BL in TST was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in TST in quarter 4||15.0|-2.0|0.1298
82470541|NCT03771664|164636444|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|7.87||0.7526|TWO_SIDED|95.0|-18.2|13.2||Change from BL in LPS was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||||13.2|-18.2|0.7526
82470542|NCT03771664|164636445|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.6769|TWO_SIDED|95.0|-2.0|1.3||Change from BL in NAW was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||||1.3|-2.0|0.6769
82376868|NCT04856930|164460572|SUPERIORITY||LS Mean Difference|-25.7|STANDARD_ERROR_OF_MEAN|23.46||0.275|TWO_SIDED|90.0|-64.57|13.14||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||13.14|-64.57|0.2750
82470543|NCT03771664|164636446|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.7||0.0824|TWO_SIDED|95.0|-6.4|0.4||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in mean duration of awakenings (MDA) in total||0.4|-6.4|0.0824
82470544|NCT03771664|164636446|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.07||0.4269|TWO_SIDED|95.0|-3.0|1.3||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 1||1.3|-3.0|0.4269
82470545|NCT03771664|164636446|SUPERIORITY|Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|3.02||0.2482|TWO_SIDED|95.0|-9.5|2.5|||ANCOVA|||Change from BL in MDA in quarter 2||2.5|-9.5|0.2482
82470546|NCT03771664|164636446|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|3.34||0.3076|TWO_SIDED|95.0|-10.1|3.2||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 3||3.2|-10.1|0.3076
82470547|NCT03771664|164636446|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.68||0.4491|TWO_SIDED|95.0|-1.9|0.8||Change from BL in MDA was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in MDA in quarter 4||0.8|-1.9|0.4491
82470548|NCT03771664|164636447|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|2.47||0.8724|TWO_SIDED|95.0|-4.5|5.3||Change from BL in DS N1 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in duration of stage (DS) N1 sleep||5.3|-4.5|0.8724
82470549|NCT03771664|164636447|SUPERIORITY||LS Mean Difference|18.6|STANDARD_ERROR_OF_MEAN|8.08||0.0238|TWO_SIDED|95.0|2.5|34.7||Change from BL in DS N2 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in DS N2 sleep||34.7|2.5|0.0238
82470550|NCT03771664|164636447|SUPERIORITY||LS Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|5.62||0.3863|TWO_SIDED|95.0|-6.3|16.1||Change from BL in DS N3 sleep was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in DS N3 sleep||16.1|-6.3|0.3863
82470551|NCT03771664|164636447|SUPERIORITY||LS Mean Difference|-10.2|STANDARD_ERROR_OF_MEAN|4.69||0.032|TWO_SIDED|95.0|-19.6|-0.9||Change from BL in REM sleep duration was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14(EODBT)\].|ANCOVA|||Change from BL in duration of REM sleep||-0.9|-19.6|0.0320
82470552|NCT03771664|164636448|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9524|TWO_SIDED|95.0|-1.7|1.6||Change from BL in PS N1 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score;Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in percentage of stage (PS) N1 sleep time||1.6|-1.7|0.9524
82470553|NCT03771664|164636448|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.55||0.093|TWO_SIDED|95.0|-0.5|5.7||Change from BL in PS N2 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in PS N2 sleep time||5.7|-0.5|0.0930
82470554|NCT03771664|164636448|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.52||0.4427|TWO_SIDED|95.0|-1.9|4.2||Change from BL in PS N3 sleep time was analyzed by ANCOVA with explanatory variables: Treatment, BL antidepressant use, BL PSG-derived sleep variables score; Response variable: Change from BL in PSG-derived sleep variables at Day 14 (EODBT).|ANCOVA|||Change from BL in PS N3 sleep time||4.2|-1.9|0.4427
82470555|NCT03771664|164636448|SUPERIORITY||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.06||0.0006|TWO_SIDED|95.0|-5.9|-1.7||Change from BL in % of REM sleep duration was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in percentage (%) of REM sleep time||-1.7|-5.9|0.0006
82470556|NCT03771664|164636449|SUPERIORITY||LS Mean Difference|33.7|STANDARD_ERROR_OF_MEAN|12.42||0.0083|TWO_SIDED|95.0|8.9|58.4||Change from BL in latency to first REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the first REM period||58.4|8.9|0.0083
82470557|NCT03771664|164636449|SUPERIORITY||LS Mean Difference|43.2|STANDARD_ERROR_OF_MEAN|10.95||0.0002|TWO_SIDED|95.0|21.3|65.0||Change from BL in latency to second REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the second REM period||65.0|21.3|0.0002
82470558|NCT03771664|164636449|SUPERIORITY||LS Mean Difference|38.2|STANDARD_ERROR_OF_MEAN|10.99||0.0009|TWO_SIDED|95.0|16.2|60.2||Change from BL in latency to third REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the third REM period||60.2|16.2|0.0009
82470559|NCT03771664|164636449|SUPERIORITY||LS Mean Difference|26.0|STANDARD_ERROR_OF_MEAN|14.84||0.0899|TWO_SIDED|95.0|-4.3|56.3||Change from BL in latency to fourth REM period was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||Change from BL in latency to the fourth REM period||56.3|-4.3|0.0899
82470560|NCT03771664|164636450|SUPERIORITY||LS Mean Difference|-171.1|STANDARD_ERROR_OF_MEAN|46.06||0.0004|TWO_SIDED|95.0|-262.9|-79.4||Change from BL in REM density was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, BL PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||||-79.4|-262.9|0.0004
82470561|NCT03771664|164636451|SUPERIORITY||LS Mean Difference|-288.0|STANDARD_ERROR_OF_MEAN|68.81|<|0.0001|TWO_SIDED|95.0|-425.1|-151.0||Change from BL in REMA was analyzed by ANCOVA with explanatory (Treatment, BL antidepressant use, baseline PSG-derived sleep variables score) and response variables \[Change from BL in PSG-derived sleep variables at Day 14 (EODBT)\].|ANCOVA|||||-151.0|-425.1|<0.0001
82470562|NCT03771664|164636453|SUPERIORITY||LS Mean Difference|10.4|STANDARD_ERROR_OF_MEAN|14.65||0.4814|TWO_SIDED|95.0|-18.8|39.5||Change from BL in sTST was analyzed by Mixed Model Repeated Measures (MMRM) with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sTST||39.5|-18.8|0.4814
82470563|NCT03771664|164636453|SUPERIORITY||LS Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|6.45||0.0964|TWO_SIDED|95.0|-23.7|2.0||Change from BL in sWASO was analyzed by MMRM with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sWASO||2.0|-23.7|0.0964
82470564|NCT03771664|164636453|SUPERIORITY||LS Mean Difference|6.6|STANDARD_ERROR_OF_MEAN|7.32||0.3672|TWO_SIDED|95.0|-7.9|21.2||Change from BL in sSL was analyzed by MMRM with treatment baseline antidepressant use, baseline CSD-C value, assessment time point, and time point-by-treatment interaction as fixed effects.|MMRM|||Change from BL in sSL||21.2|-7.9|0.3672
82470565|NCT03418714|164636466|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||T test on the change in network activity across all networks, from before to after salvinorin A administration.||||.006
82470566|NCT03418714|164636467|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||T test on the change in within- and between-network connectivity across all values, from before to after salvinorin A administration.||||.001
82470567|NCT01208207|164636468|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The etoricoxib dose (90 mg) will be considered non-inferior to naproxen 1000 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in the least squares (LS) mean (etoricoxib minus naproxen 1000 mg) is no larger than 8 mm VAS (non-inferiority margin).|Difference in Least Squares Mean|-0.64|||||TWO_SIDED|95.0|-5.47|4.19|||ANCOVA|||||4.19|-5.47|
82470568|NCT01208207|164636469|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The etoricoxib dose (60 mg) will be considered non-inferior to naproxen 1000 mg if the upper bound of the two-sided 95% confidence interval of the between-treatment difference in the LS mean (etoricoxib minus naproxen 1000 mg) is no larger than 8 mm VAS (non-inferiority margin).|Difference in Least Squares Mean|1.59|||||TWO_SIDED|95.0|-2.19|5.37|||ANCOVA|||||5.37|-2.19|
82470569|NCT01208207|164636470|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-1.58||||0.396|TWO_SIDED|80.0|-3.96|0.81|||ANCOVA|||||0.81|-3.96|0.396
82470570|NCT01208207|164636471|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-2.7||||0.112||80.0|-4.88|-0.52|||ANCOVA|||||-0.52|-4.88|0.112
82470571|NCT03060096|164636505|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.29
82470572|NCT03060096|164636506|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82470573|NCT03060096|164636507|OTHER||Rate|0.764|||||ONE_SIDED|95.0|0.6783||||||||||0.6783|
82470574|NCT00847210|164636539|SUPERIORITY_OR_OTHER|||||||0.095||95.0||||There was no statistical significant difference (p-value \>0.05) in Tmax between the 30 mg and 60 mg dose group. Both age group and site did not have statistically significant effects on Tmax.|ANOVA|||This study was not powered for any hypothesis testing. For Tmax, an analysis of variance (ANOVA) model was fitted that included fixed effect of age group, regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||||0.095
82470575|NCT00847210|164636540|SUPERIORITY_OR_OTHER||ratio of the central values for Cmax|1.21||||0.289|TWO_SIDED|90.0|0.897|1.63|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole pharmacokinetics between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For natural logarithm of dose-normalized Cmax, an ANOVA model was fitted that included fixed effect of age group, regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. Site effect was tested in the model, and was not included in the final model if not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.630|0.897|0.289
82470576|NCT00847210|164636541|SUPERIORITY_OR_OTHER||Ratio of the dose-normalized AUC(0-tlqc)|1.158||||0.402|TWO_SIDED|90.0|0.864|1.551|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole AUC(0-tlqc) between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For Tmax, an ANOVA model was fitted that included fixed effect of age group (12-14 years and 15 17 years), regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.551|0.864|0.402
82470577|NCT00847210|164636542|SUPERIORITY_OR_OTHER||Ratio of the central values for dose-nor|1.168||||0.388|TWO_SIDED|90.0|0.864|1.579|||ANOVA||Ninety percent confidence intervals for assessing the dose proportionality of dexlansoprazole AUC(0-24) between regimens were computed based on the frame work of ANOVA.|This study was not powered for any hypothesis testing. For Tmax, an ANOVA model was fitted that included fixed effect of age group (12-14 years and 15 17 years), regimen and interaction of age group and regimen. If the interaction term was not statistically significant, it was not included in the final model. The site effect was also tested in the model, and was not included in the final model if it was not statistically significant (P\>0.05). Pairwise comparisons between regimens were conducted.||1.579|0.864|0.388
82470578|NCT00472576|164636547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.291|STANDARD_ERROR_OF_MEAN|0.693||0.001|TWO_SIDED|95.0|0.911|3.671|||Mixed Models Analysis||Mean differences reflect groups differences at end point.|A linear mixed model with restricted maximum likelihood estimation was used to examine the effects of treatment (MK-0657 and placebo) over time (treatment day) with the baseline of each phase as a covariate. A main effect for phase of study was also included. Schwarz's Bayesian criteria was used to determine the best fitting variance-covariance structure which was an autoregressive moving average model. Bonferroni adjusted simple effects tests were used to evaluate significant effects.||3.671|0.911|.001
82470579|NCT00472576|164636548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|2.479||0.272|TWO_SIDED|95.0|-6.981|2.901||This test is a comparison of the MK-0657 condition to the placebo condition.|Mixed Models Analysis||The primary outcome of interest is whether the groups differ at the end of the study, so the means represent values at that point in time.|A linear mixed model with restricted maximum likelihood estimation was used to examine the effects of treatment (MK-0657 and placebo) over time (treatment day) with the baseline of each phase as a covariate. A main effect for phase of study was also included. Schwarz's Bayesian criteria was used to determine the best fitting variance-covariance structure which was an autoregressive moving average model. Bonferroni adjusted simple effects tests were used to evaluate significant effects.||2.901|-6.981|.272
82547336|NCT02376790|164794303|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.62|-0.17||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in DAS28 at week 24||-0.17|-0.62|<0.001
82547337|NCT02376790|164794304|SUPERIORITY||LS Mean Treatment Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.05||0.34|TWO_SIDED|95.0|-0.15|0.05||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.05|-0.15|0.34
82547338|NCT02376790|164794304|SUPERIORITY||LS Mean Treatment Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.67|TWO_SIDED|95.0|-0.12|0.08||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.08|-0.12|0.67
82547339|NCT02376790|164794305|SUPERIORITY||LS Mean Treatment Difference|1.94|STANDARD_ERROR_OF_MEAN|0.8||0.015|TWO_SIDED|95.0|0.37|3.51||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Physical Component Summary at week 24||3.51|0.37|0.015
82547340|NCT02376790|164794305|SUPERIORITY||LS Mean Treatment Difference|1.71|STANDARD_ERROR_OF_MEAN|0.8||0.033|TWO_SIDED|95.0|0.13|3.28||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Physical Component Summary at week 24||3.28|0.13|0.033
82470580|NCT02148874|164636560|SUPERIORITY||Odds Ratio (OR)|1.05||||0.84|TWO_SIDED|95.0|0.64|1.73|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1.||1.73|0.64|0.84
82470581|NCT02148874|164636560|SUPERIORITY||Odds Ratio (OR)|1.07||||0.79|TWO_SIDED|95.0|0.65|1.75|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.75|0.65|0.79
82470582|NCT02148874|164636560|SUPERIORITY||Odds Ratio (OR)|1.26||||0.43|TWO_SIDED|95.0|0.71|2.24|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/ N).|Statistical analysis for influenza strain B/Massachusetts||2.24|0.71|0.43
82470583|NCT02148874|164636560|SUPERIORITY||Odds Ratio (OR)|1.08||||0.77|TWO_SIDED|95.0|0.63|1.87|||Regression, Logistic||Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/ N).|Statistical analysis for influenza strain B/Brisbane||1.87|0.63|0.77
82470584|NCT02148874|164636561|SUPERIORITY||Odds Ratio (OR)|1.39||||0.2|TWO_SIDED|95.0|0.84|2.32|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1||2.32|0.84|0.20
82470585|NCT02148874|164636561|SUPERIORITY||Odds Ratio (OR)|1.09||||0.74|TWO_SIDED|95.0|0.66|1.8|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.80|0.66|0.74
82470586|NCT02148874|164636561|SUPERIORITY||Odds Ratio (OR)|1.89||||0.04|TWO_SIDED|95.0|1.04|3.44|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Massachusetts||3.44|1.04|0.04
82470587|NCT02148874|164636561|SUPERIORITY||Odds Ratio (OR)|1.63||||0.13|TWO_SIDED|95.0|0.87|3.04|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Brisbane||3.04|0.87|0.13
82470588|NCT02148874|164636562|SUPERIORITY||Odds Ratio (OR)|0.89||||0.64|TWO_SIDED|95.0|0.53|1.48|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H1N1||1.48|0.53|0.64
82470589|NCT02148874|164636562|SUPERIORITY||Odds Ratio (OR)|0.89||||0.67|TWO_SIDED|95.0|0.53|1.5|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain A/H3N2||1.50|0.53|0.67
82579621|NCT00581555|164869842|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|2.1|7.3||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||7.3|2.1|<0.001
82470590|NCT02148874|164636562|SUPERIORITY||Odds Ratio (OR)|1.47||||0.14|TWO_SIDED|95.0|0.88|2.46|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Massachusetts||2.46|0.88|0.14
82470591|NCT02148874|164636562|SUPERIORITY||Odds Ratio (OR)|0.74||||0.25|TWO_SIDED|95.0|0.44|1.24|||Regression, Logistic|Cumulative logistic regression model|Cumulative logistic regression model, OR for obese vs. non-obese. Model adjusted for mother's age, parity, gestational age at vaccination, vaccination season, and prior year vaccination (Y/N).|Statistical analysis for influenza strain B/Brisbane||1.24|0.44|0.25
82470592|NCT02592798|164636566|SUPERIORITY||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-46.8|33.3|||||Abatacept - Placebo for Double-Blind Period Day 113|||33.3|-46.8|
82470593|NCT02592798|164636566|SUPERIORITY||Mean Difference (Final Values)|-20.8|||||TWO_SIDED|95.0|-63.3|24.3|||||Abatacept - Placebo for Open Label Period Day 113|||24.3|-63.3|
82470594|NCT02592798|164636567|SUPERIORITY||Mean Difference (Final Values)|0.37|||||TWO_SIDED|95.0|-1.6495|2.3855|||||Abatacept - Placebo for Double-Blind Period Day 113|||2.3855|-1.6495|
82470595|NCT02592798|164636567|SUPERIORITY||Mean Difference (Final Values)|1.95|||||TWO_SIDED|95.0|-1.7933|5.6954|||||Abatacept - Placebo for Open Label Period Day 113|||5.6954|-1.7933|
82470596|NCT02592798|164636568|SUPERIORITY||Mean Difference (Final Values)|0.13|||||TWO_SIDED|95.0|-0.1483|0.4119|||||Abatacept - Placebo for Double-Blind Period Day 113|||0.4119|-0.1483|
82470597|NCT02592798|164636568|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.5107|0.7551|||||Abatacept - Placebo for Open Label Period Day 113|||0.7551|-0.5107|
82579622|NCT00581555|164869843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|135.2|STANDARD_ERROR_OF_MEAN|42.3||0.001|TWO_SIDED|95.0|52.3|218.1||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||218.1|52.3|0.001
82470598|NCT02592798|164636569|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-44.7|44.7|||||Abatacept - Placebo for Open Label Period Day 113|||44.7|-44.7|
82470599|NCT02592798|164636570|SUPERIORITY||Mean Difference (Final Values)|-0.69|||||TWO_SIDED|95.0|-8.1395|6.7645|||||Abatacept - Placebo for Fatigue|||6.7645|-8.1395|
82470600|NCT02592798|164636570|SUPERIORITY||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-13.9402|6.5402|||||Abatacept - Placebo for Pain interference|||6.5402|-13.9402|
82470601|NCT02592798|164636570|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-6.5736|4.5736|||||Abatacept - Placebo for Physical function|||4.5736|-6.5736|
82470602|NCT02592798|164636571|SUPERIORITY||Mean Difference (Final Values)|12.45|||||TWO_SIDED|95.0|-4.595|29.485|||||Abatacept - Placebo for Fatigue|||29.4850|-4.5950|
82470603|NCT02592798|164636571|SUPERIORITY||Mean Difference (Final Values)|7.14|||||TWO_SIDED|95.0|-2.5917|16.8717|||||Abatacept - Placebo for Pain interference|||16.8717|-2.5917|
82470604|NCT02592798|164636571|SUPERIORITY||Mean Difference (Final Values)|-0.88|||||TWO_SIDED|95.0|-12.1068|10.3468|||||Abatacept - Placebo for Mobility|||10.3468|-12.1068|
82470605|NCT00942604|164636580|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82470606|NCT00942604|164636581|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82470607|NCT03486834|164636601|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% confidence interval (CI).|Incidence Rate Estimate|2.9|||||TWO_SIDED|95.0|1.6|4.9||||||||4.9|1.6|
82470608|NCT03486834|164636601|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|5.1|||||TWO_SIDED|95.0|3.3|7.6||||||||7.6|3.3|
82470609|NCT03486834|164636601|OTHER|The statistical criterion for success requires the lower limit of the 95% CI of vaccine efficacy (VE) to be greater than 0%.|Vaccine Efficacy|42.4|||||TWO_SIDED|95.0|-13.5|71.1||||||||71.1|-13.5|
82470610|NCT03486834|164636602|OTHER||Difference in Percent|59.8|||||TWO_SIDED|95.0|55.8|63.5||||||||63.5|55.8|
82547341|NCT02376790|164794305|SUPERIORITY||LS Mean Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.84||0.97|TWO_SIDED|95.0|-1.69|1.63||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Mental Component Summary at week 24||1.63|-1.69|0.97
82547342|NCT02376790|164794305|SUPERIORITY||LS Mean Treatment Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.85||0.56|TWO_SIDED|95.0|-2.16|1.16||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of change from baseline in Mental Component Summary at week 24||1.16|-2.16|0.56
82547343|NCT02376790|164794306|SUPERIORITY||LS Mean Treatment Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.24||0.02|TWO_SIDED|95.0|-1.03|-0.09||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||-0.09|-1.03|0.020
82470611|NCT03486834|164636602|OTHER||Difference in Percent|57.6|||||TWO_SIDED|95.0|53.5|61.5||||||||61.5|53.5|
82547344|NCT02376790|164794306|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.24||0.1|TWO_SIDED|95.0|-0.88|0.08||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.08|-0.88|0.10
82470612|NCT03486834|164636603|OTHER||Difference in Percent|15.9|||||TWO_SIDED|95.0|11.7|20.1||||||||20.1|11.7|
82470613|NCT03486834|164636603|OTHER||Difference in Percent|17.4|||||TWO_SIDED|95.0|13.3|21.6||||||||21.6|13.3|
82470614|NCT03486834|164636604|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
82470615|NCT03486834|164636604|OTHER||Difference in Percent|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||||0.5|-0.5|
82547345|NCT02376790|164794308|SUPERIORITY||LS Mean Treatment Difference|13.92|STANDARD_ERROR_OF_MEAN|33.23||0.68|TWO_SIDED|95.0|-51.52|79.36||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||79.36|-51.52|0.68
82470616|NCT03486834|164636605|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|6.7|||||TWO_SIDED|95.0|4.6|9.5||||||||9.5|4.6|
82470617|NCT03486834|164636605|OTHER|The incidence rate per 100 person years (100 x number of CMVi cases/total person-years to CMVi or end of follow-up) is presented along with 95% CI.|Incidence Rate Estimate|5.1|||||TWO_SIDED|95.0|3.3|7.6||||||||7.6|3.3|
82470618|NCT03486834|164636605|OTHER|The statistical criterion for success requires the lower limit of the 95% CI of vaccine efficacy (VE) to be greater than 0%.|Vaccine Efficacy|-32.0|||||TWO_SIDED|95.0|-135.0|25.0||||||||25.0|-135.0|
82470619|NCT04922216|164636696|SUPERIORITY||Mean Difference (Net)|0.3||||0.52|TWO_SIDED|95.0|-0.61|1.2|||Mixed Models Analysis|Degrees of freedom (2,622)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of standard dietary monitoring to simplified dietary monitoring on weight change over time (from baseline to 6 months).||1.20|-0.61|0.52
82470620|NCT04922216|164636696|SUPERIORITY||Mean Difference (Net)|-0.28||||0.54|TWO_SIDED|95.0|-1.19|0.63|||Mixed Models Analysis|Degrees of freedom (2,622)|Weekly adaptive goals coded as 0 (reference) and daily adaptive goals coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 2 (adaptive activity goals) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 6 months).||0.63|-1.19|0.54
82470621|NCT04922216|164636696|SUPERIORITY||Mean Difference (Net)|0.4||||0.39|TWO_SIDED|95.0|-0.5|1.31|||Mixed Models Analysis|Degrees of freedom (2,622)|Fixed message decision points coded as 0 (reference) and adaptive message decision points coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 3 (message decision points) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 6 months).||1.31|-0.50|0.39
82470622|NCT04922216|164636696|SUPERIORITY||Mean Difference (Net)|0.39||||0.7|TWO_SIDED|95.0|-0.52|1.3|||Mixed Models Analysis|Degrees of freedom (2,622)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 4 (message decision rules) using linear mixed models comparing the effect of standard decision rules to adaptive decision rules on weight change over time (from baseline to 6 months).||1.30|-0.52|0.70
82470623|NCT04922216|164636696|SUPERIORITY||Mean Difference (Net)|-0.55||||0.47|TWO_SIDED|95.0|-1.45|0.36|||Mixed Models Analysis|Degrees of freedom (2,622)|No choice points coded as 0 (reference) and Choice coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 5 (participant choice) using linear mixed models comparing the effect of no participant message choice versus participant message choice on weight change over time (from baseline to 6 months).||0.36|-1.45|0.47
82470624|NCT04922216|164636697|SUPERIORITY||Mean Difference (Net)|0.24||||0.43|TWO_SIDED|95.0|-0.36|0.84|||Mixed Models Analysis|DF (2,622)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 1 (dietary self-monitoring) using linear mixed models comparing the effect of standard dietary monitoring to simplified dietary monitoring on weight change over time (from baseline to 3 months).||0.84|-0.36|0.43
82470625|NCT04922216|164636697|SUPERIORITY||Mean Difference (Net)|-0.42||||0.17|TWO_SIDED|95.0|-1.01|0.18|||Mixed Models Analysis|DF (2,622)|Weekly adaptive goals coded as 0 (reference) and daily adaptive goals coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 2 (adaptive activity goals) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 3 months).||0.18|-1.01|0.17
82470626|NCT04922216|164636697|SUPERIORITY||Mean Difference (Net)|0.53||||0.08|TWO_SIDED|95.0|-0.06|1.13|||Mixed Models Analysis|DF (2,622)|Fixed message decision points coded as 0 (reference) and adaptive message decision points coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 3 (message decision points) using linear mixed models comparing the effect of weekly adaptive activity goals versus daily adaptive activity goals on weight change over time (from baseline to 3 months).||1.13|-0.06|0.08
82470627|NCT04922216|164636697|SUPERIORITY||Mean Difference (Net)|0.32||||0.58|TWO_SIDED|95.0|-0.28|0.91|||Mixed Models Analysis|DF (2,622)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 4 (message decision rules) using linear mixed models comparing the effect of standard decision rules to adaptive decision rules on weight change over time (from baseline to 3 months).||0.91|-0.28|0.58
82470628|NCT04922216|164636697|SUPERIORITY||Mean Difference (Net)|-0.32||||0.55|TWO_SIDED|95.0|-0.91|0.28|||Mixed Models Analysis|DF (2,622)|No choice points coded as 0 (reference) and Choice coded as 1; a positive estimation parameter indicates that the reference group had greater (more negative) weight loss.|ITT analysis for factor 5 (participant choice) using linear mixed models comparing the effect of no participant message choice versus participant message choice on weight change over time (from baseline to 3 months).||0.28|-0.91|0.55
82470629|NCT04922216|164636698|SUPERIORITY||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.7|1.39|||Chi-squared|DF (1)|Standard dietary monitoring coded as 0 (reference) and simplified dietary monitoring coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between standard dietary monitoring and simplified dietary monitoring (factor 1).||1.39|0.70|0.95
82470630|NCT04922216|164636698|SUPERIORITY||Odds Ratio (OR)|1.46||||0.03|TWO_SIDED|95.0|1.03|2.05|||Chi-squared|DF (1)|Weekly adaptive activity goals coded as 0 (reference) and daily adaptive activity goals coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between weekly adaptive activity goals and daily adaptive activity goals (factor 2).||2.05|1.03|0.03
82470631|NCT04922216|164636698|SUPERIORITY||Odds Ratio (OR)|0.85||||0.36|TWO_SIDED|95.0|0.6|1.2|||Chi-squared|DF (1)|Fixed decision points coded as 0 (reference) and adaptive decision points coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between fixed message decision points and adaptive message decision points (factor 3).||1.20|0.60|0.36
82470632|NCT04922216|164636698|SUPERIORITY||Odds Ratio (OR)|1.01||||0.95|TWO_SIDED|95.0|0.72|1.42|||Chi-squared|DF (1)|Standard decision rules coded as 0 (reference) and adaptive decision rules coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between standard message decision rules and adaptive message decision rules (factor 4).||1.42|0.72|0.95
82470633|NCT04922216|164636698|SUPERIORITY||Odds Ratio (OR)|1.2||||0.29|TWO_SIDED|95.0|0.85|1.69|||Chi-squared|DF (1)|No message choice coded as 0 (reference) and message choice coded as 1; an odds ratio \> 1 indicates that the odds of achieving 5% weight loss are higher in the group coded as 1.|Chi-square test of the difference in proportion reaching 5% weight loss from baseline to 6 months between no message choice and message choice (factor 5).||1.69|0.85|0.29
82470634|NCT02864394|164636739|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1276|TWO_SIDED|95.0|0.61|1.14|||Log Rank|||Treatment comparison (Hazard Ratio, HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate. One-sided p-value was based on log-rank test.||1.14|0.61|0.1276
82376869|NCT04856930|164460572|SUPERIORITY||LS Mean Difference|-21.2|STANDARD_ERROR_OF_MEAN|23.81||0.3757|TWO_SIDED|90.0|-60.6|18.28||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline worst HS Pain NRS as a continuous covariate.|LRMM|||||18.28|-60.60|0.3757
82470635|NCT02864394|164636740|OTHER||Hazard Ratio (HR)|0.75||||0.0076|TWO_SIDED|95.0|0.6|0.95|||Log Rank|||OS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%). A nominal one-sided p-value for testing was based on log-rank test stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%).||0.95|0.60|0.0076
82470636|NCT02864394|164636741|OTHER||Hazard Ratio (HR)|0.76||||0.0534|TWO_SIDED|95.0|0.54|1.07|||Log Rank|||PFS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate. A nominal one-sided p-value for testing was based on log-rank test.||1.07|0.54|0.0534
82470637|NCT02864394|164636742|OTHER||Hazard Ratio (HR)|0.84||||0.0847|TWO_SIDED|95.0|0.66|1.08|||Log Rank|||PFS was not formally tested. Treatment comparison (HR) based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%). A nominal one-sided p-value for testing was based on log-rank test stratified by PD-L1 expression status (TPS ≥50% vs. TPS 1-49%).||1.08|0.66|0.0847
82470638|NCT02864394|164636743|OTHER||Difference in Percentage|21.0|||<|0.0001|TWO_SIDED|95.0|11.5|30.7|||Miettinen & Nurminen Method|||ORR was not formally tested. Treatment comparison was based on the Miettinen \& Nurminen method. A nominal one-sided p-value for testing was calculated.||30.7|11.5|<0.0001
82470639|NCT02864394|164636744|OTHER||Difference in Percentage|15.0|||<|0.0001|TWO_SIDED|95.0|8.8|21.6|||Miettinen & Nurminen Method|||ORR was not formally tested. Treatment comparison was based on Miettinen \& Nurminen method stratified by PD-L1 expression status (TPS\>=50% vs. TPS 1-49%). If no participants were in one of the treatment arms involved in a comparison for a particular stratum, then that stratum was excluded from the treatment comparison. A nominal one-sided p-value for testing was calculated.||21.6|8.8|<0.0001
82470640|NCT00561925|164636818|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -10%|Cochran's statistic|4.9|||<|0.0001||95.0|-0.1|10.0|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||10.0|-0.1|<0.0001
82470641|NCT00561925|164636820|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of nevirapine XR to nevirapine IR was established if the lower bound of the confidence interval was greater than -2%|Cochran's statistic|4.84|||<|0.0001||95.0|-1.11|10.79|||Cochran's statistic||Weighted treatment difference and corresponding variance were calculated based on Cochran's statistic.|||10.79|-1.11|<0.0001
82470642|NCT00561925|164636822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.7719||95.0|-0.08|0.06|||ANCOVA|Means adjusted for baseline HIV-1 viral load stratum||||0.06|-0.08|0.7719
82470643|NCT00561925|164636823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.87||||0.0078||95.0|8.67|57.06|||ANCOVA|Means adjusted for baseline HIV-1 viral load stratum||||57.06|8.67|0.0078
82470644|NCT00561925|164636831|NON_INFERIORITY_OR_EQUIVALENCE|equivalence test with 80% -125% boundaries|adjusted gMean|79.58|STANDARD_ERROR_OF_MEAN|1.04||0.5542||90.0|74.62|84.86||p-value for ratio outside the interval 80%-125%|ANOVA||Inter-individual gCV = 49.9|adjusted geometric mean ratio NVP XR : NVP IR||84.86|74.62|0.5542
82470645|NCT00684021|164636835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|2.0||0.959|TWO_SIDED|95.0|-4.1|3.9|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||3.9|-4.1|0.959
82470646|NCT00684021|164636836|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.93|TWO_SIDED|95.0|0.42|2.23|||Fisher Exact|||Clinical and Safety Outcomes including death, reinfarction, repeat revascularization, hospitalization for heart failure and ICD placement. The relative incidences of events are compared between the active and placebo groups.However the paucity of events precluded a reliable time to event analysis.||2.23|0.42|0.93
82470647|NCT00684021|164636837|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|4.8||0.585|TWO_SIDED|95.0|-12.2|6.9|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||6.9|-12.2|0.585
82470648|NCT00684021|164636838|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|3.7||0.831|TWO_SIDED|95.0|-6.6|8.2|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||8.2|-6.6|0.831
82470649|NCT00684021|164636839|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|3.7||0.817|TWO_SIDED|95.0|-5.5|7.0|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||7.0|-5.5|0.817
82470650|NCT00684021|164636840|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|STANDARD_ERROR_OF_MEAN|4.27||0.272|TWO_SIDED|95.0|-13.7|3.67|||Regression, Linear|||Day 3 Stem Cell Arm and Day 7 Stem Cell Arm were combined and compared to the combination of Day 3 Placebo and Day 7 Placebo arms.||3.67|-13.7|0.272
82470651|NCT00684021|164636841|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.1||0.409|TWO_SIDED|95.0|-3.0|1.2|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||1.2|-3.0|0.409
82470652|NCT00684021|164636841|SUPERIORITY_OR_OTHER||Mean Difference (Net)|100.0|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|15.0|1000.0|||Regression, Linear|||||1000|15|0.02
82470653|NCT00684021|164636842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.7||0.777|TWO_SIDED|95.0|-3.9|2.9|||t-test, 2 sided|Stem cell treatment arm combined (Day 3 and Day7); placebo group also combined.||||2.9|-3.9|0.777
82547346|NCT02376790|164794308|SUPERIORITY||LS Mean Treatment Difference|6.34|STANDARD_ERROR_OF_MEAN|33.05||0.85|TWO_SIDED|95.0|-58.75|71.42||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||71.42|-58.75|0.85
82547347|NCT02376790|164794309|SUPERIORITY||Treatment Difference|12.9||||0.057|TWO_SIDED|95.0|-0.4|26.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||26.2|-0.4|0.057
82470654|NCT02177032|164636862|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at day 50 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-1.0|||||TWO_SIDED|95.0|-2.4|0.0|||Fisher Exact|||||0|-2.4|
82470655|NCT02177032|164636863|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667."|Vaccine Group Ratios|0.46|||||TWO_SIDED|95.0|0.37|0.58|||ANOVA|||||0.58|0.37|
82470656|NCT02177032|164636864|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 8)"|Vaccine Group Ratios|1.04|||||TWO_SIDED|95.0|0.84|1.29|||ANOVA|||||1.29|0.84|
82470657|NCT02177032|164636864|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 15)"|Vaccine Group Ratios|1.68|||||TWO_SIDED|95.0|1.35|2.1|||ANOVA|||||2.1|1.35|
82470658|NCT02177032|164636864|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 91)."|Vaccine Group Ratios|0.68|||||TWO_SIDED|95.0|0.54|0.85|||ANOVA|||||0.85|0.54|
82470659|NCT02177032|164636864|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 181)"|Vaccine Group Ratios|1.22|||||TWO_SIDED|95.0|0.94|1.59|||ANOVA|||||1.59|0.94|
82470660|NCT02177032|164636864|NON_INFERIORITY_OR_EQUIVALENCE|"The investigational regimen 4-sites, 1-week ID PEP will be declared as non-inferior to currently recommended 2-sites TRC ID PEP regimen if the lower bound of the two sided 95% confidence interval around of the observed GMC ratio is greater than 0.667 (Day 366)"|Vaccine Group Ratios|1.67|||||TWO_SIDED|95.0|1.27|2.19|||ANOVA|||||2.19|1.27|
82470661|NCT02177032|164636865|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 8 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|9.0|||||TWO_SIDED|95.0|3.8|13.9|||Fisher Exact|||||13.9|3.8|
82650740|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.003|TWO_SIDED|95.0|-0.44|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.44|0.0030
82650741|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.0046|TWO_SIDED|95.0|-0.47|-0.09|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.09|-0.47|0.0046
82650742|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0237|TWO_SIDED|95.0|-0.39|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.03|-0.39|0.0237
82470662|NCT02177032|164636865|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 15 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|0.0|||||TWO_SIDED|95.0|-1.0|1.6|||Fisher Exact|||||1.6|-1|
82470663|NCT02177032|164636865|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 91 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-3.0|||||TWO_SIDED|95.0|-6.0|-1.4|||Fisher Exact|||||-1.4|-6|
82470664|NCT02177032|164636865|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 181 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-1.0|||||TWO_SIDED|95.0|-4.5|3.2|||Fisher Exact|||||3.2|-4.5|
82470665|NCT02177032|164636865|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen compared to the currently recommended 2-sites TRC (2-2-2-0-2) ID PEP regimen, with or without HRIG, will be established If the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 366 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|6.0|||||TWO_SIDED|95.0|1.3|11.5|||Fisher Exact|||||11.5|1.3|
82470666|NCT02177032|164636866|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 8 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-11.0|||||TWO_SIDED|95.0|-19.6|-1.0|||Fisher Exact|||||-1|-19.6|
82470667|NCT02177032|164636866|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 15 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|0.0|||||TWO_SIDED|95.0|-5.6|2.6|||Fisher Exact|||||2.6|-5.6|
82470668|NCT02177032|164636866|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 91 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-15.0|||||TWO_SIDED|95.0|-26.0|-7.1|||Fisher Exact|||||-7.1|-26|
82470669|NCT02177032|164636866|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 181 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-17.0|||||TWO_SIDED|95.0|-29.0|-7.1|||Fisher Exact|||||-7.1|-29|
82470670|NCT02177032|164636866|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority in immune response of the 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, with HRIG administration, compared to that of the new 4-sites, 1-week (4-4-4-0-0) ID PEP regimen of the PCEC vaccine, without HRIG administration, in adult subjects will be established if the lower bound of the two sided 95% confidence interval around the differences of the percentage of subject with RVNA titer ≥ 0.5 IU/ml at Day 366 is \> -0.05 (non-inferiority margin)."|Protection Rate Differences|-25.0|||||TWO_SIDED|95.0|-37.8|-13.2|||Fisher Exact|||||-13.2|-37.8|
82470671|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Tofacitinib LI minus CsA. Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
82470672|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|10.71|STANDARD_ERROR_OF_MEAN|6.26||0.0873|TWO_SIDED|60.0|5.44|15.98|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||15.98|5.44|0.0873
82470673|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|3.93|STANDARD_ERROR_OF_MEAN|5.71||0.4912|TWO_SIDED|60.0|-0.87|8.74|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||8.74|-0.87|0.4912
82470674|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|11.06|STANDARD_ERROR_OF_MEAN|6.61||0.0942|TWO_SIDED|60.0|5.5|16.62|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||16.62|5.50|0.0942
82470675|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|7.31|STANDARD_ERROR_OF_MEAN|6.36||0.2499|TWO_SIDED|60.0|1.96|12.66|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||12.66|1.96|0.2499
82470676|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|13.47|STANDARD_ERROR_OF_MEAN|7.1||0.058|TWO_SIDED|60.0|7.49|19.45|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||19.45|7.49|0.0580
82470677|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|12.62|STANDARD_ERROR_OF_MEAN|7.09||0.075|TWO_SIDED|60.0|6.66|18.59|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||18.59|6.66|0.0750
82470678|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|16.66|STANDARD_ERROR_OF_MEAN|7.75||0.0316|TWO_SIDED|60.0|10.14|23.19|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||23.19|10.14|0.0316
82470679|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|13.21|STANDARD_ERROR_OF_MEAN|7.5||0.0783|TWO_SIDED|60.0|6.9|19.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||19.53|6.90|0.0783
82470680|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|20.27|STANDARD_ERROR_OF_MEAN|9.14||0.0266|TWO_SIDED|60.0|12.58|27.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||27.96|12.58|0.0266
82470681|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|13.21|STANDARD_ERROR_OF_MEAN|7.5||0.0783|TWO_SIDED|60.0|6.9|19.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||19.53|6.90|0.0783
82470682|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|20.27|STANDARD_ERROR_OF_MEAN|9.14||0.0266|TWO_SIDED|60.0|12.58|27.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||27.96|12.58|0.0266
82470683|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|11.02|STANDARD_ERROR_OF_MEAN|7.74||0.1545|TWO_SIDED|60.0|4.51|17.54|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||17.54|4.51|0.1545
82470684|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|18.08|STANDARD_ERROR_OF_MEAN|9.34||0.0528|TWO_SIDED|60.0|10.22|25.94|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||25.94|10.22|0.0528
82470685|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|14.03|STANDARD_ERROR_OF_MEAN|8.45||0.0968|TWO_SIDED|60.0|6.92|21.14|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||21.14|6.92|0.0968
82470686|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||23.85|7.81|0.0966
82470687|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|17.07|STANDARD_ERROR_OF_MEAN|8.74||0.0507|TWO_SIDED|60.0|9.72|24.42|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||24.42|9.72|0.0507
82470688|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||23.85|7.81|0.0966
82470689|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|17.07|STANDARD_ERROR_OF_MEAN|8.74||0.0507|TWO_SIDED|60.0|9.72|24.42|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||24.42|9.72|0.0507
82470690|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|15.83|STANDARD_ERROR_OF_MEAN|9.53||0.0966|TWO_SIDED|60.0|7.81|23.85|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||23.85|7.81|0.0966
82547348|NCT02376790|164794309|SUPERIORITY||Treatment Difference|10.9||||0.12|TWO_SIDED|95.0|-2.5|24.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||24.4|-2.5|0.12
82547349|NCT02376790|164794310|SUPERIORITY||LS Mean Treatment Difference|0.16|STANDARD_ERROR_OF_MEAN|0.42||0.7|TWO_SIDED|95.0|-0.66|0.98||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.98|-0.66|0.70
82547350|NCT02376790|164794310|SUPERIORITY||LS Mean Treatment Difference|0.04|STANDARD_ERROR_OF_MEAN|0.42||0.93|TWO_SIDED|95.0|-0.79|0.86||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||0.86|-0.79|0.93
82547351|NCT02376790|164794311|SUPERIORITY||Treatment Difference|3.2||||0.55|TWO_SIDED|95.0|-7.3|13.7||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||13.7|-7.3|0.55
82547352|NCT02376790|164794311|SUPERIORITY||Treatment Difference|8.8||||0.11|TWO_SIDED|95.0|-1.9|19.4||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||19.4|-1.9|0.11
82579623|NCT00581555|164869844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.6||0.139||95.0|-0.8|5.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from randomization to Week 24.||5.5|-0.8|0.139
82470691|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|18.17|STANDARD_ERROR_OF_MEAN|9.56||0.0574|TWO_SIDED|60.0|10.12|26.22|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||26.22|10.12|0.0574
82470692|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|21.08|STANDARD_ERROR_OF_MEAN|11.84||0.0749|TWO_SIDED|60.0|11.12|31.04|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||31.04|11.12|0.0749
82470693|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|3.65|STANDARD_ERROR_OF_MEAN|4.44||0.4116|TWO_SIDED|60.0|-0.09|7.38|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||7.38|-0.09|0.4116
82470694|NCT00658359|164636882|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.98|STANDARD_ERROR_OF_MEAN|3.69||0.7895|TWO_SIDED|60.0|-4.09|2.12|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.12|-4.09|0.7895
82470695|NCT00658359|164636883|SUPERIORITY_OR_OTHER||Estimated rate difference|2.4|STANDARD_ERROR_OF_MEAN|5.9||0.683|TWO_SIDED|95.0|-9.1|13.9|||Chi-squared||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|||13.9|-9.1|0.683
82470696|NCT00658359|164636883|SUPERIORITY_OR_OTHER||Estimated rate difference|3.9|STANDARD_ERROR_OF_MEAN|6.2||0.529|TWO_SIDED|95.0|-8.3|16.1|||Chi-squared||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|||16.1|-8.3|0.529
82470697|NCT00658359|164636884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.23|STANDARD_ERROR_OF_MEAN|5.04||0.0699|TWO_SIDED|60.0|4.97|13.49|||Mixed Models Analysis||Tofacitinib LI minus CsA|||13.49|4.97|0.0699
82470698|NCT00658359|164636884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.23|STANDARD_ERROR_OF_MEAN|6.32||0.1958|TWO_SIDED|60.0|2.89|13.58|||Mixed Models Analysis||Tofacitinib MI minus CsA|||13.58|2.89|0.1958
82470699|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
82470700|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.41|STANDARD_ERROR_OF_MEAN|4.89||0.934|TWO_SIDED|60.0|-4.52|3.71|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||3.71|-4.52|0.9340
82470701|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||5.08|-3.88|0.9106
82470702|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.30|-6.29|0.6960
82547353|NCT02376790|164794312|SUPERIORITY||LS Mean Treatment Difference|9.36|STANDARD_ERROR_OF_MEAN|4.33||0.031|TWO_SIDED|95.0|0.85|17.87||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \>30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||17.87|0.85|0.031
82547354|NCT02376790|164794312|SUPERIORITY||LS Mean Treatment Difference|3.02|STANDARD_ERROR_OF_MEAN|4.33||0.49|TWO_SIDED|95.0|-5.49|11.54||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|||11.54|-5.49|0.49
82579624|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|1.2||0.956|TWO_SIDED|95.0|-2.3|2.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 2.||2.5|-2.3|0.956
82470703|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||5.08|-3.88|0.9106
82470704|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||2.30|-6.29|0.6960
82470705|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|0.6|STANDARD_ERROR_OF_MEAN|5.32||0.9106|TWO_SIDED|60.0|-3.88|5.08|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||5.08|-3.88|0.9106
82470706|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.99|STANDARD_ERROR_OF_MEAN|5.1||0.696|TWO_SIDED|60.0|-6.29|2.3|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.30|-6.29|0.6960
82470707|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.18|STANDARD_ERROR_OF_MEAN|5.56||0.8322|TWO_SIDED|60.0|-5.86|3.5|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||3.50|-5.86|0.8322
82470708|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.77|STANDARD_ERROR_OF_MEAN|5.35||0.4809|TWO_SIDED|60.0|-8.27|0.73|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||0.73|-8.27|0.4809
82470709|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||1.62|-8.31|0.5704
82470710|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-1.14|-10.73|0.2972
82470711|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||1.62|-8.31|0.5704
82470712|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-1.14|-10.73|0.2972
82470713|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.62|-8.31|0.5704
82470714|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-1.14|-10.73|0.2972
82470715|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.62|-8.31|0.5704
82470716|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-1.14|-10.73|0.2972
82547355|NCT02376790|164794313|SUPERIORITY||LS Mean Treatment Difference|15.95|STANDARD_ERROR_OF_MEAN|4.55|<|0.001|TWO_SIDED|95.0|6.99|24.9||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of percent improvement from baseline in the percentage of BSA involved in psoriasis in the subgroup of participants with ≥ 10% BSA involvement at baseline.||24.90|6.99|<0.001
82547356|NCT02376790|164794313|SUPERIORITY||LS Mean Treatment Difference|6.97|STANDARD_ERROR_OF_MEAN|4.5||0.12|TWO_SIDED|95.0|-1.89|15.83||P-value is unadjusted and considered descriptive.|ANCOVA|ANCOVA model adjusted for baseline BMI status (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD use.|Methotrexate Monotherapy is the reference|Analysis of percent improvement from baseline in the percentage of BSA involved in psoriasis in the subgroup of participants with ≥ 10% BSA involvement at baseline.||15.83|-1.89|0.12
82470717|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.62|-8.31|0.5704
82579625|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|1.3||0.41|TWO_SIDED|95.0|-3.6|1.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 4.||1.5|-3.6|0.41
82579626|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.2||0.844|TWO_SIDED|95.0|-4.8|3.9||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 6.||3.9|-4.8|0.844
82579627|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.9||0.968|TWO_SIDED|95.0|-1.8|1.8||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 8.||1.8|-1.8|0.968
82579628|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.9||0.441|TWO_SIDED|95.0|-1.1|2.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 10.||2.5|-1.1|0.441
82579629|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.9||0.3|TWO_SIDED|95.0|-0.9|2.8||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 12.||2.8|-0.9|0.3
82470718|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-1.14|-10.73|0.2972
82470719|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.34|STANDARD_ERROR_OF_MEAN|5.89||0.5704|TWO_SIDED|60.0|-8.31|1.62|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||1.62|-8.31|0.5704
82579630|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|STANDARD_ERROR_OF_MEAN|1.0||0.008|TWO_SIDED|95.0|0.7|4.5||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 16.||4.5|0.7|0.008
82579631|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|1.0||0.005|TWO_SIDED|95.0|0.9|5.0||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 20.||5.0|0.9|0.005
82579632|NCT00581555|164869845|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.1||0.031|TWO_SIDED|95.0|0.2|4.6||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|mixed model of ANCOVA|Treatment groups and visits were fixed factors, participant was a random factor and baseline was a covariate.||Analysis from baseline to Week 24.||4.6|0.2|0.031
82650743|NCT01360632|165016444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0171|TWO_SIDED|95.0|-0.45|-0.04|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||-0.04|-0.45|0.0171
82470720|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.94|STANDARD_ERROR_OF_MEAN|5.7||0.2972|TWO_SIDED|60.0|-10.73|-1.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-1.14|-10.73|0.2972
82470721|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|3.75|STANDARD_ERROR_OF_MEAN|4.91||0.4455|TWO_SIDED|60.0|-0.39|7.89|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||7.89|-0.39|0.4455
82470722|NCT00658359|164636886|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.69|STANDARD_ERROR_OF_MEAN|4.34||0.873|TWO_SIDED|60.0|-4.35|2.96|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.96|-4.35|0.8730
82470723|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-10.52|STANDARD_ERROR_OF_MEAN|5.71||0.0654|TWO_SIDED|60.0|-15.33|-5.71|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-5.71|-15.33|0.0654
82470724|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.08|STANDARD_ERROR_OF_MEAN|6.37||0.3398|TWO_SIDED|60.0|-11.43|-0.72|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-0.72|-11.43|0.3398
82470725|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.75|STANDARD_ERROR_OF_MEAN|6.23||0.1601|TWO_SIDED|60.0|-13.99|-3.51|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-3.51|-13.99|0.1601
82470726|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.64|STANDARD_ERROR_OF_MEAN|6.49||0.239|TWO_SIDED|60.0|-13.1|-2.18|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-2.18|-13.10|0.2390
82470727|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.08|STANDARD_ERROR_OF_MEAN|6.4||0.2685|TWO_SIDED|60.0|-12.47|-1.7|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-1.70|-12.47|0.2685
82470728|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.64|STANDARD_ERROR_OF_MEAN|6.49||0.239|TWO_SIDED|60.0|-13.1|-2.18|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-2.18|-13.10|0.2390
82470729|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.81|STANDARD_ERROR_OF_MEAN|6.55||0.1785|TWO_SIDED|60.0|-14.32|-3.3|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-3.30|-14.32|0.1785
82470730|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-9.37|STANDARD_ERROR_OF_MEAN|6.63||0.158|TWO_SIDED|60.0|-14.95|-3.78|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-3.78|-14.95|0.1580
82470731|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.27|STANDARD_ERROR_OF_MEAN|6.81||0.0718|TWO_SIDED|60.0|-18.0|-6.53|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-6.53|-18.00|0.0718
82470732|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.83|STANDARD_ERROR_OF_MEAN|6.9||0.0629|TWO_SIDED|60.0|-18.63|-7.02|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-7.02|-18.63|0.0629
82470733|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate differences|-15.89|STANDARD_ERROR_OF_MEAN|7.07||0.0246|TWO_SIDED|60.0|-21.84|-9.94|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-9.94|-21.84|0.0246
82470734|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-16.45|STANDARD_ERROR_OF_MEAN|7.15||0.0214|TWO_SIDED|60.0|-22.46|-10.43|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-10.43|-22.46|0.0214
82470735|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-15.89|STANDARD_ERROR_OF_MEAN|7.07||0.0246|TWO_SIDED|60.0|-21.84|-9.94|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-9.94|-21.84|0.0246
82470736|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-16.45|STANDARD_ERROR_OF_MEAN|7.15||0.0214|TWO_SIDED|60.0|-22.46|-10.43|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-10.43|-22.46|0.0214
82470737|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-11.93|-24.12|0.0128
82470738|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-12.42|-24.74|0.0111
82470739|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-11.93|-24.12|0.0128
82470740|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-12.42|-24.74|0.0111
82470741|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-11.93|-24.12|0.0128
82470742|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-12.42|-24.74|0.0111
82470743|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.02|STANDARD_ERROR_OF_MEAN|7.24||0.0128|TWO_SIDED|60.0|-24.12|-11.93|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-11.93|-24.12|0.0128
82470744|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-18.58|STANDARD_ERROR_OF_MEAN|7.32||0.0111|TWO_SIDED|60.0|-24.74|-12.42|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-12.42|-24.74|0.0111
82470745|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.4|STANDARD_ERROR_OF_MEAN|5.41||0.1715|TWO_SIDED|60.0|-11.95|-2.84|||Wald Test||Tofacitinib LI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||-2.84|-11.95|0.1715
82470746|NCT00658359|164636887|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.8|STANDARD_ERROR_OF_MEAN|5.87||0.4131|TWO_SIDED|60.0|-9.74|0.14|||Wald Test||Tofacitinib MI minus CsA Standard error of the mean refers to standard error of the estimated rate difference|Month 12||0.14|-9.74|0.4131
82470747|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|2.19|STANDARD_ERROR_OF_MEAN|5.12||0.6694|TWO_SIDED|60.0|-2.12|6.5|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||6.50|-2.12|0.6694
82470748|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|1.45|STANDARD_ERROR_OF_MEAN|5.18||0.7799|TWO_SIDED|60.0|-2.91|5.8|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||5.80|-2.91|0.7799
82470749|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.99|STANDARD_ERROR_OF_MEAN|5.51||0.8572|TWO_SIDED|60.0|-5.63|3.65|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||3.65|-5.63|0.8572
82470750|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.73|STANDARD_ERROR_OF_MEAN|5.56||0.7555|TWO_SIDED|60.0|-6.41|2.95|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.95|-6.41|0.7555
82470751|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.99|STANDARD_ERROR_OF_MEAN|5.51||0.8572|TWO_SIDED|60.0|-5.63|3.65|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||3.65|-5.63|0.8572
82470752|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|3.82|STANDARD_ERROR_OF_MEAN|6.22||0.539|TWO_SIDED|60.0|-1.41|9.06|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||9.06|-1.41|0.5390
82470753|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.64|STANDARD_ERROR_OF_MEAN|5.7||0.6432|TWO_SIDED|60.0|-7.44|2.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.16|-7.44|0.6432
82470754|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|2.18|STANDARD_ERROR_OF_MEAN|6.39||0.7336|TWO_SIDED|60.0|-3.2|7.55|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||7.55|-3.20|0.7336
82470755|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.74|STANDARD_ERROR_OF_MEAN|6.57||0.9099|TWO_SIDED|60.0|-6.28|4.79|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||4.79|-6.28|0.9099
82650744|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.5279|TWO_SIDED|95.0|0.51|3.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.68|0.51|0.5279
82650745|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|0.13||||0.0141|TWO_SIDED|95.0|0.02|0.94|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.94|0.02|0.0141
82470756|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|0.77|STANDARD_ERROR_OF_MEAN|6.87||0.9106|TWO_SIDED|60.0|-5.01|6.56|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||6.56|-5.01|0.9106
82470757|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|6.91||0.5244|TWO_SIDED|60.0|-10.22|1.42|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||1.42|-10.22|0.5244
82470758|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.9|STANDARD_ERROR_OF_MEAN|7.38||0.9029|TWO_SIDED|60.0|-7.11|5.31|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.31|-7.11|0.9029
82470759|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.58|STANDARD_ERROR_OF_MEAN|7.38||0.7267|TWO_SIDED|60.0|-8.78|3.63|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||3.63|-8.78|0.7267
82470760|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.73|STANDARD_ERROR_OF_MEAN|7.52||0.7168|TWO_SIDED|60.0|-9.06|3.6|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||3.60|-9.06|0.7168
82470761|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.91|-10.72|0.5574
82470762|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.56|STANDARD_ERROR_OF_MEAN|7.65||0.5515|TWO_SIDED|60.0|-10.99|1.88|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.88|-10.99|0.5515
82547357|NCT02376790|164794318|SUPERIORITY||Treatment Difference|11.4||||0.019|TWO_SIDED|95.0|2.0|20.8||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||20.8|2.0|0.019
82376870|NCT04856930|164460573|SUPERIORITY||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|13.04||0.6146|TWO_SIDED|90.0|-28.22|15.05||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||15.05|-28.22|0.6146
82470763|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.91|-10.72|0.5574
82470764|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||4.33|-8.92|0.7704
82470765|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.4|STANDARD_ERROR_OF_MEAN|7.51||0.5574|TWO_SIDED|60.0|-10.72|1.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.91|-10.72|0.5574
82470766|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||4.33|-8.92|0.7704
82470767|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.44|STANDARD_ERROR_OF_MEAN|7.83||0.9551|TWO_SIDED|60.0|-7.03|6.15|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||6.15|-7.03|0.9551
82470768|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.3|STANDARD_ERROR_OF_MEAN|7.87||0.7704|TWO_SIDED|60.0|-8.92|4.33|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||4.33|-8.92|0.7704
82470769|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|4.91||0.4455|TWO_SIDED|60.0|-0.39|7.89|||Wald Test|||Month 12||7.89|-0.39|0.4455
82547358|NCT02376790|164794318|SUPERIORITY||Treatment Difference|4.2||||0.4|TWO_SIDED|95.0|-5.6|14.0||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|||14.0|-5.6|0.40
82547359|NCT02376790|164794319|SUPERIORITY||Treatment Difference|20.1||||0.004|TWO_SIDED|95.0|6.8|33.3||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of percentage of participants with an sPGA of 0 or 1 at Week 24 in participants with baseline BSA involvement with psoriasis ≥ 10%.||33.3|6.8|0.004
82547360|NCT02376790|164794319|SUPERIORITY||Treatment Difference|17.1||||0.012|TWO_SIDED|95.0|4.0|30.2||P-value is unadjusted and considered descriptive.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with baseline body mass index (≤ 30 kg/m² or \> 30 kg/m²) and prior non-biologic DMARD treatment as stratification factors|The risk difference was estimated using the Mantel-Haenszel estimate of common risk difference using the stratification factors described above.|Analysis of percentage of participants with an sPGA of 0 or 1 at Week 24 in participants with baseline BSA involvement with psoriasis ≥ 10%.||30.2|4.0|0.012
82470770|NCT00658359|164636888|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.69|STANDARD_ERROR_OF_MEAN|4.34||0.873|TWO_SIDED|60.0|-4.35|2.96|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||2.96|-4.35|0.8730
82470771|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.98|STANDARD_ERROR_OF_MEAN|6.67||0.2957|TWO_SIDED|60.0|-12.6|-1.36|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-1.36|-12.60|0.2957
82470772|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.65|STANDARD_ERROR_OF_MEAN|7.14||0.6097|TWO_SIDED|60.0|-9.66|2.37|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||2.37|-9.66|0.6097
82470773|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|6.79||0.2064|TWO_SIDED|60.0|-14.28|-2.86|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||-2.86|-14.28|0.2064
82470774|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.24|STANDARD_ERROR_OF_MEAN|7.25||0.4696|TWO_SIDED|60.0|-11.34|0.86|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||0.86|-11.34|0.4696
82470775|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|7.04||0.2238|TWO_SIDED|60.0|-14.5|-2.64|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-2.64|-14.50|0.2238
82547361|NCT05450458|164794325|OTHER|This study assessed longitudinal effects within a single patient group. Statistical power was calculated using a significance level of 0.05, 80% power, and 60 patients, accounting for KOOS score variability over time. The Friedman test was applied with post hoc analyses (Conover and Bonferroni). Since treatments were not compared, no non-inferiority or equivalence margin was defined|Median Change Baseline to month 6|0.22|||<|0.001|TWO_SIDED|95.0|0.15|0.23||P-values were adjusted for multiple comparisons using the Bonferroni method, and the a priori threshold for statistical significance was set at 0.05.|Friedman Test|Post hoc pairwise comparisons were adjusted using the Bonferroni method, and the a priori significance level was set at 0.05|The value represents the intra-individual median KOOS improvement from baseline to month 6 after treatment. Changes were evaluated across time points within a single cohort.|The statistical analysis will use the Friedman test, as the Shapiro-Wilk test confirmed a non-normal distribution. Conover's post hoc test with Bonferroni correction will adjust for multiple comparisons. The null hypothesis states that hyaluronic acid injections with sorbitol do not significantly improve KOOS function and pain scores over time. A power analysis was performed to ensure an adequate sample size for detecting clinically meaningful differences.||0.23|0.15|<0.001
82547362|NCT05450458|164794326|OTHER|This study assessed longitudinal effects within a single patient group. Statistical power was calculated using a significance level of 0.05, 80% power, and 60 patients, accounting for IKDC score variability over time. The Friedman test was applied with post hoc analyses (Conover and Bonferroni). Since treatments were not compared, no non-inferiority or equivalence margin was defined|Median Baseline to Month 6|0.18||||0.01|TWO_SIDED|95.0|0.12|0.24||P-values were adjusted for multiple comparisons using the Bonferroni method, and the a priori threshold for statistical significance was set at 0.05.|Friedman Test|The overall p-value is unadjusted. The a priori significance level was set at 0.05 to robustly control the Type I error|This value represents the intra-individual median IKDC improvement from baseline to 6 months after treatment. The analysis was conducted within a single cohort without comparator arms.|The statistical analysis will use the Friedman test, as the Shapiro-Wilk test confirmed a non-normal distribution. Conover's post hoc test with Bonferroni correction will adjust for multiple comparisons. The null hypothesis states that hyaluronic acid injections with sorbitol do not significantly improve IKDC function and pain scores over time. A power analysis was performed to ensure an adequate sample size for detecting clinically meaningful differences.||0.24|0.12|0.01
82561930|NCT03331978|164833087|SUPERIORITY||Mean Difference (Net)|6.89|STANDARD_ERROR_OF_MEAN|3.91||0.08|TWO_SIDED|95.0|-0.82|14.61|||Regression, Linear|Model is adjusted for participant sex, which was found to be significantly associated with adherence in a similar repeated measures model.|Values entered are for regression coefficient for intervention indicator (versus control) and represents the adjusted difference across all follow-up time points.|Tested with repeated measures linear regression where all 6 past-month post-intervention measurements of adherence were stacked together such that each participant could contribute up to 6 records. Standard errors were adjusted for clustering on participant, and weights for presence of data were used. Fixed effects were an intervention indicator and continuous adherence measured at baseline. Model included all participants with adherence data (a) at baseline and (b) at least one follow-up month.||14.61|-0.82|.08
82579633|NCT00581555|164869846|SUPERIORITY_OR_OTHER|||||||0.1196||95.0||||P-values were not adjusted for multiplicity and the priori threshold for statistical significance was 0.05.|Pearson chi-square or Fisher exact test|Treatment groups and visits were fixed factors with a logit link, a binomial distribution and an auto-regressive correlation structure.||Analysis from baseline to Week 24.||||0.1196
82470776|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.96|STANDARD_ERROR_OF_MEAN|7.52||0.5093|TWO_SIDED|60.0|-11.29|1.37|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||1.37|-11.29|0.5093
82376871|NCT04856930|164460573|SUPERIORITY||LS Mean Difference|-8.9|STANDARD_ERROR_OF_MEAN|12.95||0.4951|TWO_SIDED|90.0|-30.35|12.62||LS Mean, Standard error, 90% CI, p-value based on LRMM which included: treatment, visit, treatment by visit interaction, and Hurley Stage at baseline (II vs. III) as categorical covariates and baseline average HS Pain NRS as a continuous covariate.|LRMM|||||12.62|-30.35|0.4951
82470777|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-8.57|STANDARD_ERROR_OF_MEAN|7.04||0.2238|TWO_SIDED|60.0|-14.5|-2.64|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-2.64|-14.50|0.2238
82470778|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.16|STANDARD_ERROR_OF_MEAN|7.89||0.7846|TWO_SIDED|60.0|-8.8|4.48|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||4.48|-8.80|0.7846
82470779|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-10.3|STANDARD_ERROR_OF_MEAN|7.16||0.1501|TWO_SIDED|60.0|-16.33|-4.28|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-4.28|-16.33|0.1501
82470780|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.89|STANDARD_ERROR_OF_MEAN|8.0||0.6263|TWO_SIDED|60.0|-10.62|2.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||2.84|-10.62|0.6263
82470781|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-6.25|-18.62|0.0905
82470782|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||0.84|-12.90|0.4604
82470783|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-6.25|-18.62|0.0905
82470784|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||0.84|-12.90|0.4604
82470785|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||-6.25|-18.62|0.0905
82470786|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||0.84|-12.90|0.4604
82470787|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||-6.25|-18.62|0.0905
82470788|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||0.84|-12.90|0.4604
82470789|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||-6.25|-18.62|0.0905
82470790|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||0.84|-12.90|0.4604
82470791|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-12.44|STANDARD_ERROR_OF_MEAN|7.35||0.0905|TWO_SIDED|60.0|-18.62|-6.25|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||-6.25|-18.62|0.0905
82470792|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-6.03|STANDARD_ERROR_OF_MEAN|8.16||0.4604|TWO_SIDED|60.0|-12.9|0.84|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||0.84|-12.90|0.4604
82470793|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-2.29|STANDARD_ERROR_OF_MEAN|6.31||0.7166|TWO_SIDED|60.0|-7.61|3.02|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||3.02|-7.61|0.7166
82470794|NCT00658359|164636889|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.51|STANDARD_ERROR_OF_MEAN|6.24||0.4692|TWO_SIDED|60.0|-9.76|0.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 12||0.73|-9.76|0.4692
82470795|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|1.69|STANDARD_ERROR_OF_MEAN|1.68||0.3132|TWO_SIDED|60.0|0.28|3.11|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||3.11|0.28|0.3132
82470796|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|1.69|STANDARD_ERROR_OF_MEAN|1.68||0.3132|TWO_SIDED|60.0|0.28|3.11|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||3.11|0.28|0.3132
82470797|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||5.57|1.46|0.1503
82470798|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||5.57|1.46|0.1503
82470799|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.57|1.46|0.1503
82470800|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.57|1.46|0.1503
82547363|NCT05450458|164794328|SUPERIORITY|This is a superiority analysis. Data normality was first assessed with the Shapiro-Wilk test, and due to non-normal distributions, a Wilcoxon Signed-Rank Test was applied to compare paired baseline and six-month IKDC score|Baseline to month 6|0.18||||0.001|TWO_SIDED|95.0|0.14|0.21||P-values from pairwise comparisons were adjusted using the Bonferroni method to control for multiple testing. The global p-value from the Friedman test was not adjusted. An a priori threshold for statistical significance was set at p \< 0.05|Wilcoxon Signed-Rank Test|Friedman test conducted with 3 degrees of freedom. Bonferroni correction applied in pairwise Wilcoxon post hoc comparisons.|Median IKDC improvement from baseline to 6 months in 22 athletes with elevated BMI (≥25). No comparator group was used. Confidence interval calculated via bootstrap (resampling with 1,000 iterations).|The analysis was conducted under the null hypothesis of no change in knee function across time. Data normality was assessed using the Shapiro-Wilk test. Changes across the four time points (baseline, 15 days, 3 months, and 6 months) were evaluated using the Friedman test. Pairwise comparisons were performed post hoc using the Wilcoxon Signed-Rank Test with Bonferroni correction at a 5% significance threshold.||0.21|0.14|0.001
82547364|NCT05450458|164794328|SUPERIORITY|This is a superiority analysis. Data normality was first assessed with the Shapiro-Wilk test, and due to non-normal distributions, a Wilcoxon Signed-Rank Test was applied to compare paired baseline and six-month KOOS score|Baseline to Month 6|18.5|||<|0.001|TWO_SIDED|95.0|13.0|22.0||The p-values reported were not adjusted for multiple comparisons, and the a priori threshold for statistical significance was set at p \< 0.05|Wilcoxon Signed-Rank Test|Friedman test conducted with 3 degrees of freedom. Bonferroni correction applied in pairwise Wilcoxon post hoc comparisons.|Median KOOS improvement from baseline to 6 months in 22 athletes with elevated BMI. CI calculated via bootstrap resampling (1,000 iterations). No comparator group was involved.|The analysis was conducted under the null hypothesis of no change in knee function between baseline and six months. The study was designed with sufficient power to detect clinically meaningful improvements, with significance determined at a conventional level||22|13|<0.001
82547365|NCT00041938|164794361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.4|TWO_SIDED|95.0|0.79|1.1||The primary null hypotheses was tested at two-tailed alpha=0.05. A Haybittle-Peto interim monitoring procedure was performed with stopping boundaries for the interim analyses corresponding to a nominal two-tailed P value of 0.001.|Regression, Cox|Cox models stratified by site, New York Heart Association class (I vs. II-IV), and status w/ respect to recent stroke or Transient Ischemic Attack.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|The primary null hypothesis: time to first event in the composite primary endpoint does not differ significantly between warfarin and aspirin. The original target sample size was 2860, providing 89% power for a log-rank test with two-sided alpha .05, assuming a hazard rate reduction of 17.82% in either group compared with the other, after adjustment for use of beta-blockers and allowance for discontinuation of therapy, dropout, and crossover. The final sample of 2305 patients yielded 69% power.||1.10|0.79|0.40
82547366|NCT00041938|164794362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.33|TWO_SIDED|95.0|0.93|1.23||Secondary null hypothesis was tested at two-tailed alpha = 0.05.|Regression, Cox|Cox models stratified by site, New York Heart Association class (I vs. II-IV), and status w/ respect to recent stroke or Transient Ischemic Attack.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Secondary null hypothesis: time to first event in the composite secondary endpoint does not differ significantly between warfarin and aspirin. This was tested at prespecified alpha = 0.05 level, two-tailed.||1.23|0.93|0.33
82547367|NCT00041938|164794363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.005|TWO_SIDED|95.0|0.33|0.82|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to ischemic stroke, adjusting for competing risks of death and intracerebral hemorrhage.||0.82|0.33|0.005
82650746|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.92||||0.0484|TWO_SIDED|95.0|0.99|3.72|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.72|0.99|0.0484
82470801|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.57|1.46|0.1503
82470802|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.57|1.46|0.1503
82470803|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||5.57|1.46|0.1503
82650747|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.23||||0.5813|TWO_SIDED|95.0|0.6|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.50|0.60|0.5813
82470804|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||5.57|1.46|0.1503
82470805|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||5.57|1.46|0.1503
82470806|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||5.57|1.46|0.1503
82650748|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.1236|TWO_SIDED|95.0|0.9|2.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.54|0.90|0.1236
82650749|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.21||||0.4998|TWO_SIDED|95.0|0.7|2.1|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.10|0.70|0.4998
82470807|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||5.57|1.46|0.1503
82470808|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||5.57|1.46|0.1503
82470809|NCT00658359|164636890|SUPERIORITY_OR_OTHER||Estimated rate difference|3.52|STANDARD_ERROR_OF_MEAN|2.44||0.1503|TWO_SIDED|60.0|1.46|5.57|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||5.57|1.46|0.1503
82470810|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-1.85|STANDARD_ERROR_OF_MEAN|1.83||0.3128|TWO_SIDED|60.0|-3.4|-0.31|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 15||-0.31|-3.40|0.3128
82470811|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||2.91|0.26|0.3134
82470812|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-0.26|STANDARD_ERROR_OF_MEAN|2.42||0.9129|TWO_SIDED|60.0|-2.3|1.77|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 18||1.77|-2.30|0.9129
82547368|NCT00041938|164794364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.22||||0.35||95.0|0.43|11.66|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to intracerebral hemorrhage, adjusting for competing risks of death and ischemic stroke.||11.66|0.43|0.35
82650750|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.64||||0.0365|TWO_SIDED|95.0|1.03|2.61|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.61|1.03|0.0365
82650751|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.52||||0.0822|TWO_SIDED|95.0|0.95|2.43|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.43|0.95|0.0822
82470813|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||2.91|0.26|0.3134
82470814|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.19|STANDARD_ERROR_OF_MEAN|3.61||0.2447|TWO_SIDED|60.0|-7.23|-1.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 24||-1.16|-7.23|0.2447
82470815|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||2.91|0.26|0.3134
82470816|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-4.19|STANDARD_ERROR_OF_MEAN|3.61||0.2447|TWO_SIDED|60.0|-7.23|-1.16|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 30||-1.16|-7.23|0.2447
82470817|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|1.59|STANDARD_ERROR_OF_MEAN|1.57||0.3134|TWO_SIDED|60.0|0.26|2.91|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||2.91|0.26|0.3134
82470818|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-7.44|STANDARD_ERROR_OF_MEAN|4.74||0.1164|TWO_SIDED|60.0|-11.43|-3.45|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 36||-3.45|-11.43|0.1164
82470819|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|3.73|STANDARD_ERROR_OF_MEAN|2.62||0.1545|TWO_SIDED|60.0|1.52|5.93|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||5.93|1.52|0.1545
82470820|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.3|STANDARD_ERROR_OF_MEAN|5.18||0.3061|TWO_SIDED|60.0|-9.66|-0.94|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 42||-0.94|-9.66|0.3061
82470821|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|3.73|STANDARD_ERROR_OF_MEAN|2.62||0.1545|TWO_SIDED|60.0|1.52|5.93|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||5.93|1.52|0.1545
82470822|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-5.3|STANDARD_ERROR_OF_MEAN|5.18||0.3061|TWO_SIDED|60.0|-9.66|-0.94|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 48||-0.94|-9.66|0.3061
82470823|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||8.73|3.10|0.0774
82470824|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 54||1.59|-7.82|0.5772
82470825|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||8.73|3.10|0.0774
82470826|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 60||1.59|-7.82|0.5772
82470827|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||8.73|3.10|0.0774
82470828|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 66||1.59|-7.82|0.5772
82470829|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|5.91|STANDARD_ERROR_OF_MEAN|3.35||0.0774|TWO_SIDED|60.0|3.1|8.73|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||8.73|3.10|0.0774
82470830|NCT00658359|164636891|SUPERIORITY_OR_OTHER||Estimated rate difference|-3.12|STANDARD_ERROR_OF_MEAN|5.59||0.5772|TWO_SIDED|60.0|-7.82|1.59|||Wald Test||Standard error of the mean refers to standard error of the estimated rate difference|Month 72||1.59|-7.82|0.5772
82470831|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.35|STANDARD_ERROR_OF_MEAN|8.15||0.0786|TWO_SIDED|60.0|7.49|21.22|||Mixed Models Analysis|||Month 15||21.22|7.49|0.0786
82470832|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87|STANDARD_ERROR_OF_MEAN|8.5||0.736|TWO_SIDED|60.0|-10.03|4.29|||Mixed Models Analysis|||Month 15||4.29|-10.03|0.7360
82470833|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.16|STANDARD_ERROR_OF_MEAN|8.19||0.1377|TWO_SIDED|60.0|5.27|19.05|||Mixed Models Analysis|||Month 18||19.05|5.27|0.1377
82376872|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.1089|STANDARD_ERROR_OF_MEAN|0.212||0.6102|TWO_SIDED|90.0|-0.4656|0.2477|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2477|-0.4656|0.6102
82470834|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.01|STANDARD_ERROR_OF_MEAN|8.56||0.4131|TWO_SIDED|60.0|-14.21|0.2|||Mixed Models Analysis|||Month 18||0.20|-14.21|0.4131
82470835|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.52|STANDARD_ERROR_OF_MEAN|8.35||0.1057|TWO_SIDED|60.0|6.49|20.55|||Mixed Models Analysis|||Month 24||20.55|6.49|0.1057
82470836|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.21|STANDARD_ERROR_OF_MEAN|8.95||0.1402|TWO_SIDED|60.0|-20.75|-5.68|||Mixed Models Analysis|||Month 24||-5.68|-20.75|0.1402
82470837|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6|STANDARD_ERROR_OF_MEAN|9.13||0.0542|TWO_SIDED|60.0|9.91|25.29|||Mixed Models Analysis|||Month 30||25.29|9.91|0.0542
82470838|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.74|STANDARD_ERROR_OF_MEAN|10.09||0.3866|TWO_SIDED|60.0|0.24|17.24|||Mixed Models Analysis|||Month 30||17.24|0.24|0.3866
82470839|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.52|STANDARD_ERROR_OF_MEAN|9.72||0.1981|TWO_SIDED|60.0|4.33|20.71|||Mixed Models Analysis|||Month 36||20.71|4.33|0.1981
82470840|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.65|STANDARD_ERROR_OF_MEAN|12.07||0.6397|TWO_SIDED|60.0|-15.81|4.51|||Mixed Models Analysis|||Month 36||4.51|-15.81|0.6397
82470841|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.93|STANDARD_ERROR_OF_MEAN|10.19||0.0508|TWO_SIDED|60.0|11.35|28.51|||Mixed Models Analysis|||Month 42||28.51|11.35|0.0508
82470842|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.42|STANDARD_ERROR_OF_MEAN|12.9||0.5143|TWO_SIDED|60.0|-2.45|19.28|||Mixed Models Analysis|||Month 42||19.28|-2.45|0.5143
82470843|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.26|STANDARD_ERROR_OF_MEAN|10.45||0.0021|TWO_SIDED|60.0|23.46|41.06|||Mixed Models Analysis|||Month 48||41.06|23.46|0.0021
82470844|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.73|STANDARD_ERROR_OF_MEAN|13.47||0.5661|TWO_SIDED|60.0|-19.07|3.61|||Mixed Models Analysis|||Month 48||3.61|-19.07|0.5661
82470845|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.2|STANDARD_ERROR_OF_MEAN|10.54||0.0057|TWO_SIDED|60.0|20.33|38.08|||Mixed Models Analysis|||Month 54||38.08|20.33|0.0057
82470846|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.49|STANDARD_ERROR_OF_MEAN|13.89||0.4504|TWO_SIDED|60.0|-22.18|1.21|||Mixed Models Analysis|||Month 54||1.21|-22.18|0.4504
82470847|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.37|STANDARD_ERROR_OF_MEAN|11.39||0.0078|TWO_SIDED|60.0|20.78|39.96|||Mixed Models Analysis|||Month 60||39.96|20.78|0.0078
82470848|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.95|STANDARD_ERROR_OF_MEAN|14.44||0.6802|TWO_SIDED|60.0|-18.11|6.2|||Mixed Models Analysis|||Month 60||6.20|-18.11|0.6802
82470849|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.78|STANDARD_ERROR_OF_MEAN|12.08||0.0216|TWO_SIDED|60.0|17.61|37.95|||Mixed Models Analysis|||Month 66||37.95|17.61|0.0216
82470850|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|15.12||0.9026|TWO_SIDED|60.0|-14.58|10.88|||Mixed Models Analysis|||Month 66||10.88|-14.58|0.9026
82470851|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.38|STANDARD_ERROR_OF_MEAN|12.91||0.1146|TWO_SIDED|60.0|9.51|31.24|||Mixed Models Analysis|||Month 72||31.24|9.51|0.1146
82470852|NCT00658359|164636893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.14|STANDARD_ERROR_OF_MEAN|15.48||0.6918|TWO_SIDED|60.0|-19.18|6.9|||Mixed Models Analysis|||Month 72||6.90|-19.18|0.6918
82470853|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.62|STANDARD_ERROR_OF_MEAN|6.57||0.3139|TWO_SIDED|60.0|1.09|12.14|||Mixed Models Analysis|||Month 15||12.14|1.09|0.3139
82470854|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.37|STANDARD_ERROR_OF_MEAN|6.75||0.5176|TWO_SIDED|60.0|-10.06|1.31|||Mixed Models Analysis|||Month 15||1.31|-10.06|0.5176
82470855|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.54|STANDARD_ERROR_OF_MEAN|6.56||0.3191|TWO_SIDED|60.0|1.02|12.06|||Mixed Models Analysis|||Month 18||12.06|1.02|0.3191
82547369|NCT00041938|164794365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.91|TWO_SIDED|95.0|0.85|1.2|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|||1.20|0.85|0.91
82547370|NCT00041938|164794366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.93|TWO_SIDED|95.0|0.58|1.64|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to myocardial infarction, adjusting for competing risks of heart failure hospitalization, ischemic stroke, intracerebral hemorrhage, and death.||1.64|0.58|0.93
82547371|NCT00041938|164794367|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.053|TWO_SIDED|95.0|0.998|1.47|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to heart failure hospitalization, adjusting for competing risks of myocardial infarction, ischemic stroke, intracerebral hemorrhage, and death.||1.47|0.998|0.053
82547372|NCT00041938|164794368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.03|TWO_SIDED|95.0|0.32|0.96|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||Null hypothesis: there is no difference between warfarin and aspirin in time to ischemic stroke, adjusting for competing risks of myocardial infarction, heart failure hospitalization, death and intracerebral hemorrhage.||0.96|0.32|0.03
82547373|NCT00041938|164794369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.77||||0.51|TWO_SIDED|95.0|0.32|9.88|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.|Hazard ratio is for comparison of warfarin vs. aspirin. Warfarin represents the numerator and aspirin represents the denominator of the hazard ratio.|Null hypothesis: there is no difference between warfarin and aspirin in time to intracerebral hemorrhage, adjusting for competing risks of myocardial infarction, heart failure hospitalization, ischemic stroke, and death.||9.88|0.32|0.51
82547374|NCT00041938|164794370|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.83||95.0|0.81|1.3|||Regression, Cox|Cause-specific Cox model, stratified by site, NYHA class (I vs. II, III, or IV), and prior stroke or TIA status.||||1.30|0.81|0.83
82547375|NCT00041938|164794371|SUPERIORITY_OR_OTHER||Rate ratio|2.05|||<|0.001|TWO_SIDED|95.0|1.36|3.12|||Regression, Poisson||The warfarin arm represents the numerator and the aspirin arm represents the denominator of the rate ratio.|||3.12|1.36|<0.001
82547376|NCT00041938|164794372|SUPERIORITY_OR_OTHER||Rate ratio|1.56|||<|0.001||95.0|1.34|1.81|||Regression, Poisson||Warfarin group represents the numerator and aspirin group represents denominator of rate ratio.|||1.81|1.34|<0.001
82579634|NCT00201643|164869847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45|STANDARD_ERROR_OF_MEAN|0.1162||0.002|TWO_SIDED|95.0|0.27|0.75||Analysis were also conducted in all randomized women with a known outcome \& in randomized treatment group(modified intent to treat). Analysis of the primary outcome used a repeated measures approach where each baby was considered a repeated measure|Fisher Exact|||Our Hypothesis was that administration of a rescue ACS would show a 40% reduction in incidence of composite neonatal morbity in patients delivering \< 34 weeks. Sample size estimates based on composite morbidity of 28%. Each arm required 217 subjects to have 80% power to detect a 40% reduction to 16.8%(2-tailed,alpha =0.05)using comparison for proportions/groups(Fisher exact test) OR,95% CI \& P values were determined using a repeated measure model where each twin is considered a repeat measure.||0.75|0.27|0.002
82579635|NCT03446781|164869856|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.002
82547377|NCT00262301|164794373|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|||||||0.003
82470856|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.95|STANDARD_ERROR_OF_MEAN|6.73||0.6608|TWO_SIDED|60.0|-8.62|2.71|||Mixed Models Analysis|||Month 18||2.71|-8.62|0.6608
82470857|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.02|STANDARD_ERROR_OF_MEAN|6.7||0.2319|TWO_SIDED|60.0|2.37|13.66|||Mixed Models Analysis|||Month 24||13.66|2.37|0.2319
82470858|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|7.04||0.3554|TWO_SIDED|60.0|-12.43|-0.58|||Mixed Models Analysis|||Month 24||-0.58|-12.43|0.3554
82470859|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.45|STANDARD_ERROR_OF_MEAN|7.27||0.0113|TWO_SIDED|60.0|12.33|24.57|||Mixed Models Analysis|||Month 30||24.57|12.33|0.0113
82470860|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.66|STANDARD_ERROR_OF_MEAN|7.99||0.479|TWO_SIDED|60.0|-1.07|12.39|||Mixed Models Analysis|||Month 30||12.39|-1.07|0.4790
82547378|NCT00262301|164794374|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Log Rank|||||||0.005
82547379|NCT01017146|164794383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for ILs|ANCOVA|||||||<0.001
82547380|NCT01017146|164794383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for NILs|ANCOVA|||||||<0.001
82547381|NCT01017146|164794383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value indicates treatment differences between tazarotene foam and vehicle foam for TLs|ANCOVA|||||||<0.001
82547382|NCT01017146|164794384|SUPERIORITY_OR_OTHER||Percentage of participants|35.6|||<|0.001|TWO_SIDED|95.0|30.7|40.5|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||40.5|30.7|<0.001
82547383|NCT01017146|164794384|SUPERIORITY_OR_OTHER||Percentage of participants|23.9|||||TWO_SIDED|95.0|19.6|28.3|||||The estimated value represents the percentage of participants receiving vehicle foam with a minimum 2 G improvement in the ISGA score from Baseline at Week 12.|||28.3|19.6|
82547384|NCT01017146|164794385|SUPERIORITY_OR_OTHER||Percentage of participants|28.8|||<|0.001|TWO_SIDED|95.0|24.2|33.5|||Cochran-Mantel-Haenszel||The estimated value represents the percentage of participants receiving tazarotene foam with an ISGA score of 0 or 1 at Week 12.|||33.5|24.2|<0.001
82579636|NCT03446781|164869857|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82579637|NCT03446781|164869858|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82470861|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.46|STANDARD_ERROR_OF_MEAN|7.75||0.1776|TWO_SIDED|60.0|3.93|16.99|||Mixed Models Analysis|||Month 36||16.99|3.93|0.1776
82470862|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27|STANDARD_ERROR_OF_MEAN|9.5||0.7307|TWO_SIDED|60.0|-11.27|4.73|||Mixed Models Analysis|||Month 36||4.73|-11.27|0.7307
82470863|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.53|STANDARD_ERROR_OF_MEAN|8.25||0.1625|TWO_SIDED|60.0|4.59|18.48|||Mixed Models Analysis|||Month 42||18.48|4.59|0.1625
82470864|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.77|STANDARD_ERROR_OF_MEAN|10.12||0.2876|TWO_SIDED|60.0|2.25|19.29|||Mixed Models Analysis|||Month 42||19.29|2.25|0.2876
82470865|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.62|STANDARD_ERROR_OF_MEAN|8.41||0.027|TWO_SIDED|60.0|11.54|25.7|||Mixed Models Analysis|||Month 48||25.70|11.54|0.0270
82470866|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|10.54||0.7444|TWO_SIDED|60.0|-12.31|5.44|||Mixed Models Analysis|||Month 48||5.44|-12.31|0.7444
82376873|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.1266|STANDARD_ERROR_OF_MEAN|0.2076||0.5452|TWO_SIDED|90.0|-0.4758|0.2225|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2225|-0.4758|0.5452
82470867|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.18|STANDARD_ERROR_OF_MEAN|8.44||0.0122|TWO_SIDED|60.0|14.08|28.29|||Mixed Models Analysis|||Month 54||28.29|14.08|0.0122
82470868|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.61|STANDARD_ERROR_OF_MEAN|10.86||0.3288|TWO_SIDED|60.0|-19.75|-1.47|||Mixed Models Analysis|||Month 54||-1.47|-19.75|0.3288
82470869|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.34|STANDARD_ERROR_OF_MEAN|9.15||0.0453|TWO_SIDED|60.0|10.63|26.05|||Mixed Models Analysis|||Month 60||26.05|10.63|0.0453
82470870|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59|STANDARD_ERROR_OF_MEAN|11.28||0.5016|TWO_SIDED|60.0|-17.09|1.91|||Mixed Models Analysis|||Month 60||1.91|-17.09|0.5016
82470871|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.43|STANDARD_ERROR_OF_MEAN|9.69||0.0453|TWO_SIDED|60.0|11.27|27.59|||Mixed Models Analysis|||Month 66||27.59|11.27|0.0453
82470872|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87|STANDARD_ERROR_OF_MEAN|11.84||0.8747|TWO_SIDED|60.0|-11.83|8.1|||Mixed Models Analysis|||Month 66||8.10|-11.83|0.8747
82470873|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.98|STANDARD_ERROR_OF_MEAN|10.34||0.4997|TWO_SIDED|60.0|-1.72|15.69|||Mixed Models Analysis|||Month 72||15.69|-1.72|0.4997
82470874|NCT00658359|164636894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.07|STANDARD_ERROR_OF_MEAN|12.1||0.2804|TWO_SIDED|60.0|-23.26|-2.88|||Mixed Models Analysis|||Month 72||-2.88|-23.26|0.2804
82470875|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.79|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|60.0|7.68|11.9|||Mixed Models Analysis|||Month 15||11.90|7.68|<0.0001
82470876|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.32|STANDARD_ERROR_OF_MEAN|2.61||0.0418|TWO_SIDED|60.0|3.12|7.52|||Mixed Models Analysis|||Month 15||7.52|3.12|0.0418
82470877|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|STANDARD_ERROR_OF_MEAN|2.51||0.0002|TWO_SIDED|60.0|7.28|11.51|||Mixed Models Analysis|||Month 18||11.51|7.28|0.0002
82470878|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|2.63||0.0437|TWO_SIDED|60.0|3.09|7.51|||Mixed Models Analysis|||Month 18||7.51|3.09|0.0437
82470879|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.37|STANDARD_ERROR_OF_MEAN|2.56||0.0011|TWO_SIDED|60.0|6.21|10.53|||Mixed Models Analysis|||Month 24||10.53|6.21|0.0011
82470880|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|STANDARD_ERROR_OF_MEAN|2.75||0.4565|TWO_SIDED|60.0|-0.27|4.36|||Mixed Models Analysis|||Month 24||4.36|-0.27|0.4565
82470881|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.9|STANDARD_ERROR_OF_MEAN|2.8||0.0001|TWO_SIDED|60.0|8.54|13.26|||Mixed Models Analysis|||Month 30||13.26|8.54|0.0001
82470882|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.29|STANDARD_ERROR_OF_MEAN|3.09||0.1654|TWO_SIDED|60.0|1.69|6.89|||Mixed Models Analysis|||Month 30||6.89|1.69|0.1654
82470883|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45|STANDARD_ERROR_OF_MEAN|2.98||0.0015|TWO_SIDED|60.0|6.95|11.96|||Mixed Models Analysis|||Month 36||11.96|6.95|0.0015
82470884|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.13|STANDARD_ERROR_OF_MEAN|3.69||0.2636|TWO_SIDED|60.0|1.02|7.23|||Mixed Models Analysis|||Month 36||7.23|1.02|0.2636
82470885|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08|STANDARD_ERROR_OF_MEAN|3.12||0.052|TWO_SIDED|60.0|3.45|8.71|||Mixed Models Analysis|||Month 42||8.71|3.45|0.0520
82470886|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.35|STANDARD_ERROR_OF_MEAN|3.95||0.176|TWO_SIDED|60.0|2.02|8.67|||Mixed Models Analysis|||Month 42||8.67|2.02|0.1760
82470887|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.08|STANDARD_ERROR_OF_MEAN|3.2||0.0274|TWO_SIDED|60.0|4.38|9.77|||Mixed Models Analysis|||Month 48||9.77|4.38|0.0274
82470888|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|4.13||0.8018|TWO_SIDED|60.0|-4.51|2.44|||Mixed Models Analysis|||Month 48||2.44|-4.51|0.8018
82579638|NCT03446781|164869859|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82579639|NCT03446781|164869860|SUPERIORITY|||||||0.033|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.033
82579640|NCT03446781|164869861|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82579641|NCT03446781|164869862|SUPERIORITY||||||<|0.001|||||||ANCOVA|With factors of treatment group and analysis center adjusted for baseline values in the model||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82470889|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.63|STANDARD_ERROR_OF_MEAN|3.23||0.0819|TWO_SIDED|60.0|2.91|8.35|||Mixed Models Analysis|||Month 54||8.35|2.91|0.0819
82470890|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|4.26||0.6103|TWO_SIDED|60.0|-5.75|1.41|||Mixed Models Analysis|||Month 54||1.41|-5.75|0.6103
82470891|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.48|STANDARD_ERROR_OF_MEAN|3.49||0.1168|TWO_SIDED|60.0|2.54|8.41|||Mixed Models Analysis|||Month 60||8.41|2.54|0.1168
82470892|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|4.43||0.3357|TWO_SIDED|60.0|0.54|7.99|||Mixed Models Analysis|||Month 60||7.99|0.54|0.3357
82470893|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.42|STANDARD_ERROR_OF_MEAN|3.7||0.0448|TWO_SIDED|60.0|4.31|10.54|||Mixed Models Analysis|||Month 66||10.54|4.31|0.0448
82547385|NCT01017146|164794385|SUPERIORITY_OR_OTHER||Percentage of participants|16.1|||||TWO_SIDED|95.0|12.4|19.9|||||The estimated value represents the percentage of participants receiving vehicle foam with an ISGA score of 0 or 1 at Week 12.|||19.9|12.4|
82547386|NCT00976495|164794411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.07|STANDARD_ERROR_OF_MEAN|2.7177|||TWO_SIDED|95.0|-13.34|-2.49|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||-2.49|-13.34|
82547387|NCT00976495|164794411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.62|STANDARD_ERROR_OF_MEAN|2.7068|||TWO_SIDED|95.0|-12.87|-2.06|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||-2.06|-12.87|
82470894|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|4.64||0.7642|TWO_SIDED|60.0|-2.51|5.29|||Mixed Models Analysis|||Month 66||5.29|-2.51|0.7642
82470895|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|STANDARD_ERROR_OF_MEAN|3.95||0.1295|TWO_SIDED|60.0|2.67|9.32|||Mixed Models Analysis|||Month 72||9.32|2.67|0.1295
82470896|NCT00658359|164636895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|STANDARD_ERROR_OF_MEAN|4.75||0.654|TWO_SIDED|60.0|-1.87|6.13|||Mixed Models Analysis|||Month 72||6.13|-1.87|0.6540
82470897|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.11|STANDARD_ERROR_OF_MEAN|19.53||0.7543|TWO_SIDED|60.0|-22.55|10.33|||Mixed Models Analysis|||Month 15||10.33|-22.55|0.7543
82470898|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.95|STANDARD_ERROR_OF_MEAN|20.33||0.6249|TWO_SIDED|60.0|-27.07|7.17|||Mixed Models Analysis|||Month 15||7.17|-27.07|0.6249
82470899|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.66|STANDARD_ERROR_OF_MEAN|19.61||0.3415|TWO_SIDED|60.0|-35.17|-2.15|||Mixed Models Analysis|||Month 18||-2.15|-35.17|0.3415
82470900|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.86|STANDARD_ERROR_OF_MEAN|20.47||0.072|TWO_SIDED|60.0|-54.1|-19.63|||Mixed Models Analysis|||Month 18||-19.63|-54.10|0.0720
82470901|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|19.99||0.2937|TWO_SIDED|60.0|-37.83|-4.17|||Mixed Models Analysis|||Month 24||-4.17|-37.83|0.2937
82470902|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.72|STANDARD_ERROR_OF_MEAN|21.38||0.0512|TWO_SIDED|60.0|-59.72|-23.73|||Mixed Models Analysis|||Month 24||-23.73|-59.72|0.0512
82470903|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.43|STANDARD_ERROR_OF_MEAN|21.76||0.037|TWO_SIDED|60.0|-63.75|-27.11|||Mixed Models Analysis|||Month 30||-27.11|-63.75|0.0370
82547388|NCT00976495|164794412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.3613|||TWO_SIDED|95.0|-7.11|2.31|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||2.31|-7.11|
82547389|NCT00976495|164794412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|2.4112|||TWO_SIDED|95.0|-1.55|8.08|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||8.08|-1.55|
82547390|NCT00976495|164794413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|2.5072|||TWO_SIDED|95.0|-9.38|0.63|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||0.63|-9.38|
82547391|NCT00976495|164794413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|2.5474|||TWO_SIDED|95.0|-4.18|5.99|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||5.99|-4.18|
82547392|NCT00976495|164794414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|2.7812|||TWO_SIDED|95.0|-5.39|5.71|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||5.71|-5.39|
82547393|NCT00976495|164794414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.31|STANDARD_ERROR_OF_MEAN|2.8135|||TWO_SIDED|95.0|1.7|12.93|||||ANCOVA was applied. Given that this was a pilot study designed for exploratory analysis, formal statistical hypothesis testing was not performed.|||12.93|1.70|
82547394|NCT02272816|164794415|OTHER||Percentage|95.6|||||ONE_SIDED|95.0||98.6||||||||98.6||
82579642|NCT03446781|164869863|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82579643|NCT03446781|164869864|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82547395|NCT02272816|164794416|OTHER||Percentage|45.0|||||TWO_SIDED|95.0|30.2|59.9||||||||59.9|30.2|
82547396|NCT02272816|164794417|OTHER||Percentage|100.0|||||TWO_SIDED|95.0|92.6|100.0||||||||100|92.6|
82547397|NCT04154384|164794435|SUPERIORITY|A comparison of the proportion of participants in each arm reporting an improvement in average pain score on the Numeric Rating Scale from baseline to 3 months follow-up.||||||0.035||||||A comparison of the proportion of participants in each arm reporting an improvement in average pain score on the Numeric Rating Scale from baseline to 12 weeks follow-up.|Chi-squared|||||||0.035
82470904|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|24.0||0.8701|TWO_SIDED|60.0|-24.13|16.28|||Mixed Models Analysis|||Month 30||16.28|-24.13|0.8701
82470905|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.75|STANDARD_ERROR_OF_MEAN|23.15||0.2146|TWO_SIDED|60.0|-48.24|-9.25|||Mixed Models Analysis|||Month 36||-9.25|-48.24|0.2146
82470906|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.03|STANDARD_ERROR_OF_MEAN|28.58||0.462|TWO_SIDED|60.0|-45.09|3.03|||Mixed Models Analysis|||Month 36||3.03|-45.09|0.4620
82470907|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.16|STANDARD_ERROR_OF_MEAN|24.28||0.8639|TWO_SIDED|60.0|-16.28|24.6|||Mixed Models Analysis|||Month 42||24.60|-16.28|0.8639
82470908|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.3|STANDARD_ERROR_OF_MEAN|30.65||0.323|TWO_SIDED|60.0|-56.11|-4.5|||Mixed Models Analysis|||Month 42||-4.50|-56.11|0.3230
82470909|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.49|STANDARD_ERROR_OF_MEAN|24.92||0.2214|TWO_SIDED|60.0|9.51|51.47|||Mixed Models Analysis|||Month 48||51.47|9.51|0.2214
82470910|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.25|STANDARD_ERROR_OF_MEAN|32.08||0.7492|TWO_SIDED|60.0|-37.26|16.75|||Mixed Models Analysis|||Month 48||16.75|-37.26|0.7492
82470911|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.61|STANDARD_ERROR_OF_MEAN|25.15||0.8236|TWO_SIDED|60.0|-15.57|26.79|||Mixed Models Analysis|||Month 54||26.79|-15.57|0.8236
82470912|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.67|STANDARD_ERROR_OF_MEAN|33.1||0.6578|TWO_SIDED|60.0|-13.2|42.54|||Mixed Models Analysis|||Month 54||42.54|-13.20|0.6578
82470913|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.93|STANDARD_ERROR_OF_MEAN|27.12||0.5326|TWO_SIDED|60.0|-5.9|39.76|||Mixed Models Analysis|||Month 60||39.76|-5.90|0.5326
82547398|NCT05321069|164794448|SUPERIORITY||Mean Difference (Net)|44.89||||0.0222|TWO_SIDED|95.0|6.44|83.33|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nera 9 mg bid group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of baseline forced vital capacity (FVC) in milliliters at each visit. Patients were treated as a random effect. Visit was treated as the repeated measure, and an unstructured covariance structure was used to model the within-patient measurements.||83.33|6.44|0.0222
82470914|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|34.44||0.6845|TWO_SIDED|60.0|-42.99|15.0|||Mixed Models Analysis|||Month 60||15.00|-42.99|0.6845
82470915|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.35|STANDARD_ERROR_OF_MEAN|28.73||0.7713|TWO_SIDED|60.0|-15.83|32.54|||Mixed Models Analysis|||Month 66||32.54|-15.83|0.7713
82470916|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.11|STANDARD_ERROR_OF_MEAN|36.06||0.8438|TWO_SIDED|60.0|-37.47|23.26|||Mixed Models Analysis|||Month 66||23.26|-37.47|0.8438
82650752|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.19||||0.4049|TWO_SIDED|95.0|0.79|1.78|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.78|0.79|0.4049
82470917|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.06|STANDARD_ERROR_OF_MEAN|30.7||0.4724|TWO_SIDED|60.0|-3.78|47.91|||Mixed Models Analysis|||Month 72||47.91|-3.78|0.4724
82470918|NCT00658359|164636896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.25|STANDARD_ERROR_OF_MEAN|36.98||0.6218|TWO_SIDED|60.0|-12.89|49.38|||Mixed Models Analysis|||Month 72||49.38|-12.89|0.6218
82470919|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|7.93||0.7693|TWO_SIDED|60.0|-9.01|4.35|||Mixed Models Analysis|||Month 15||4.35|-9.01|0.7693
82470920|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.75|STANDARD_ERROR_OF_MEAN|8.28||0.7396|TWO_SIDED|60.0|-4.22|9.73|||Mixed Models Analysis|||Month 15||9.73|-4.22|0.7396
82470921|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.84|STANDARD_ERROR_OF_MEAN|7.92||0.3881|TWO_SIDED|60.0|-13.51|-0.17|||Mixed Models Analysis|||Month 18||-0.17|-13.51|0.3881
82470922|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|STANDARD_ERROR_OF_MEAN|8.28||0.5114|TWO_SIDED|60.0|-12.42|1.53|||Mixed Models Analysis|||Month 18||1.53|-12.42|0.5114
82470923|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.43|STANDARD_ERROR_OF_MEAN|8.06||0.5829|TWO_SIDED|60.0|-11.21|2.36|||Mixed Models Analysis|||Month 24||2.36|-11.21|0.5829
82470924|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.76|STANDARD_ERROR_OF_MEAN|8.58||0.2559|TWO_SIDED|60.0|-16.99|-2.53|||Mixed Models Analysis|||Month 24||-2.53|-16.99|0.2559
82470925|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74|STANDARD_ERROR_OF_MEAN|8.78||0.7548|TWO_SIDED|60.0|-4.65|10.14|||Mixed Models Analysis|||Month 30||10.14|-4.65|0.7548
82470926|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.43|STANDARD_ERROR_OF_MEAN|9.57||0.7998|TWO_SIDED|60.0|-5.63|10.49|||Mixed Models Analysis|||Match 30||10.49|-5.63|0.7998
82470927|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.39|STANDARD_ERROR_OF_MEAN|9.08||0.2531|TWO_SIDED|60.0|2.74|18.03|||Mixed Models Analysis|||Month 36||18.03|2.74|0.2531
82470928|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.14|STANDARD_ERROR_OF_MEAN|11.2||0.365|TWO_SIDED|60.0|0.72|19.57|||Mixed Models Analysis|||Month 36||19.57|0.72|0.3650
82470929|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.33|STANDARD_ERROR_OF_MEAN|9.34||0.4328|TWO_SIDED|60.0|-0.53|15.19|||Mixed Models Analysis|||Month 42||15.19|-0.53|0.4328
82470930|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.94|STANDARD_ERROR_OF_MEAN|11.35||0.2547|TWO_SIDED|60.0|-22.5|-3.38|||Mixed Models Analysis|||Month 42||-3.38|-22.50|0.2547
82470931|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.72|STANDARD_ERROR_OF_MEAN|9.46||0.3572|TWO_SIDED|60.0|0.75|16.69|||Mixed Models Analysis|||Month 48||16.69|0.75|0.3572
82470932|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.94|STANDARD_ERROR_OF_MEAN|11.64||0.8009|TWO_SIDED|60.0|-6.86|12.74|||Mixed Models Analysis|||Month 48||12.74|-6.86|0.8009
82470933|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|9.44||0.6814|TWO_SIDED|60.0|-11.82|4.07|||Mixed Models Analysis|||Month 54||4.07|-11.82|0.6814
82470934|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.88|STANDARD_ERROR_OF_MEAN|11.93||0.2803|TWO_SIDED|60.0|2.84|22.93|||Mixed Models Analysis|||Month 54||22.93|2.84|0.2803
82547399|NCT05321069|164794448|SUPERIORITY||Mean Difference (Net)|68.83||||0.0005|TWO_SIDED|95.0|30.26|107.39|||Mixed Models Analysis|The Kenward-Roger method estimated denominator degrees of freedom and adjusted standard errors; tests used two-sided α per multiple testing strategy.|Adjusted mean difference in FVC change from baseline at Week 52 between the Nera 18 mg bid group and the Placebo group.|Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of baseline forced vital capacity (FVC) in milliliters at each visit. Patients were treated as a random effect. Visit was treated as the repeated measure, and an unstructured covariance structure was used to model the within-patient measurements.||107.39|30.26|0.0005
82547400|NCT05321069|164794449|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.5443|TWO_SIDED|95.0|0.69|1.22|||Regression, Cox|||The hazard ratio (HR) was estimated using a Cox proportional hazards model with treatment group, baseline antifibrotic therapy use, age (continuous), baseline FVC % predicted, and baseline DLCO % predicted (hemoglobin-corrected) as covariates. Breslow's method was applied for tied event times. A two-sided p-value from the Wald test assessed the treatment effect. P-values were not adjusted for multiplicity.||1.22|0.69|0.5443
82547401|NCT05321069|164794449|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9512|TWO_SIDED|95.0|0.75|1.31|||Regression, Cox|||Based on Cox proportional hazards model including treatment, baseline antifibrotic therapy, age, baseline Forced Vital Capacity (FVC) percent predicted, and baseline Diffusing Capacity of the Lungs for Carbon Monoxide (DLCO) percent predicted (corrected for haemoglobin) as covariates. p-values not adjusted for multiplicity.||1.31|0.75|0.9512
82547402|NCT05321069|164794450|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5583|TWO_SIDED|95.0|0.76|1.67|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.67|0.76|0.5583
82547403|NCT05321069|164794450|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.5896|TWO_SIDED|95.0|0.75|1.65|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.65|0.75|0.5896
82579644|NCT03568318|164869925|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|43.8|57.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.4|43.8|<0.001
82650753|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.23||||0.2951|TWO_SIDED|95.0|0.84|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.80|0.84|0.2951
82470935|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.11|STANDARD_ERROR_OF_MEAN|10.23||0.7613|TWO_SIDED|60.0|-11.72|5.5|||Mixed Models Analysis|||Month 60||5.50|-11.72|0.7613
82579645|NCT03568318|164869925|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|30.8|45.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.4|30.8|<0.001
82470936|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.25|STANDARD_ERROR_OF_MEAN|12.35||0.8554|TWO_SIDED|60.0|-12.65|8.15|||Mixed Models Analysis|||Month 60||8.15|-12.65|0.8554
82470937|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|10.7||0.9132|TWO_SIDED|60.0|-10.18|7.84|||Mixed Models Analysis|||Month 66||7.84|-10.18|0.9132
82470938|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.14|STANDARD_ERROR_OF_MEAN|12.79||0.7465|TWO_SIDED|60.0|-6.63|14.9|||Mixed Models Analysis|||Month 66||14.90|-6.63|0.7465
82470939|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|11.34||0.8747|TWO_SIDED|60.0|-11.34|7.76|||Mixed Models Analysis|||Month 72||7.76|-11.34|0.8747
82470940|NCT00658359|164636900|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.19|STANDARD_ERROR_OF_MEAN|12.96||0.5793|TWO_SIDED|60.0|-18.1|3.72|||Mixed Models Analysis|||Month 72||3.72|-18.10|0.5793
82470941|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.76|STANDARD_ERROR_OF_MEAN|2.79|<|0.0001|TWO_SIDED|60.0|10.4|15.11|||Mixed Models Analysis|||Month 15||15.11|10.40|<0.0001
82470942|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.39|STANDARD_ERROR_OF_MEAN|2.88|<|0.0001|TWO_SIDED|60.0|10.96|15.82|||Mixed Models Analysis|||Month 15||15.82|10.96|<0.0001
82470943|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.48|STANDARD_ERROR_OF_MEAN|3.0||0.0002|TWO_SIDED|60.0|8.95|14.0|||Mixed Models Analysis|||Month 18||14.00|8.95|0.0002
82470944|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.98|STANDARD_ERROR_OF_MEAN|3.09||0.0002|TWO_SIDED|60.0|9.37|14.59|||Mixed Models Analysis|||Month 18||14.59|9.37|0.0002
82470945|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.86|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|60.0|10.32|15.39|||Mixed Models Analysis|||Month 24||15.39|10.32|<0.0001
82470946|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.71|STANDARD_ERROR_OF_MEAN|3.12|<|0.0001|TWO_SIDED|60.0|11.08|16.35|||Mixed Models Analysis|||Month 24||16.35|11.08|<0.0001
82470947|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.86|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|60.0|13.03|18.69|||Mixed Models Analysis|||Month 30||18.69|13.03|<0.0001
82470948|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.61|STANDARD_ERROR_OF_MEAN|3.56||0.0002|TWO_SIDED|60.0|10.61|16.61|||Mixed Models Analysis|||Month 30||16.61|10.61|0.0002
82470949|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.17|STANDARD_ERROR_OF_MEAN|3.61||0.001|TWO_SIDED|60.0|9.12|15.21|||Mixed Models Analysis|||Month 36||15.21|9.12|0.0010
82470950|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.56|STANDARD_ERROR_OF_MEAN|3.98||0.0019|TWO_SIDED|60.0|9.2|15.92|||Mixed Models Analysis|||Month 36||15.92|9.20|0.0019
82470951|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.42|STANDARD_ERROR_OF_MEAN|3.38||0.0004|TWO_SIDED|60.0|9.56|15.27|||Mixed Models Analysis|||Month 42||15.27|9.56|0.0004
82470952|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.99|STANDARD_ERROR_OF_MEAN|3.76||0.0182|TWO_SIDED|60.0|5.81|12.16|||Mixed Models Analysis|||Month 42||12.16|5.81|0.0182
82470953|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.4|STANDARD_ERROR_OF_MEAN|3.77||0.0013|TWO_SIDED|60.0|9.22|15.58|||Mixed Models Analysis|||Month 48||15.58|9.22|0.0013
82470954|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.6|STANDARD_ERROR_OF_MEAN|4.29||0.0782|TWO_SIDED|60.0|3.99|11.22|||Mixed Models Analysis|||Month 48||11.22|3.99|0.0782
82376874|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.1682|STANDARD_ERROR_OF_MEAN|0.2055||0.4178|TWO_SIDED|90.0|-0.5139|0.1775|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.1775|-0.5139|0.4178
82470955|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.04|STANDARD_ERROR_OF_MEAN|4.02||0.0007|TWO_SIDED|60.0|10.64|17.43|||Mixed Models Analysis|||Month 54||17.43|10.64|0.0007
82470956|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.23|STANDARD_ERROR_OF_MEAN|4.72||0.0322|TWO_SIDED|60.0|6.24|14.22|||Mixed Models Analysis|||Month 54||14.22|6.24|0.0322
82470957|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.72|STANDARD_ERROR_OF_MEAN|3.7||0.0399|TWO_SIDED|60.0|4.59|10.86|||Mixed Models Analysis|||Month 60||10.86|4.59|0.0399
82470958|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.11|STANDARD_ERROR_OF_MEAN|4.28||0.3391|TWO_SIDED|60.0|0.49|7.73|||Mixed Models Analysis|||Month 60||7.73|0.49|0.3391
82470959|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.75|STANDARD_ERROR_OF_MEAN|4.23||0.0702|TWO_SIDED|60.0|4.17|11.33|||Mixed Models Analysis|||Month 66||11.33|4.17|0.0702
82470960|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.02|STANDARD_ERROR_OF_MEAN|4.89||0.221|TWO_SIDED|60.0|1.89|10.15|||Mixed Models Analysis|||Month 66||10.15|1.89|0.2210
82470961|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.03|STANDARD_ERROR_OF_MEAN|5.25||0.015|TWO_SIDED|60.0|8.59|17.46|||Mixed Models Analysis|||Month 72||17.46|8.59|0.0150
82470962|NCT00658359|164636902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.27|STANDARD_ERROR_OF_MEAN|6.13||0.4875|TWO_SIDED|60.0|-0.91|9.45|||Mixed Models Analysis|||Month 72||9.45|-0.91|0.4875
82470963|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.48|STANDARD_ERROR_OF_MEAN|4.33||0.001|TWO_SIDED|60.0|10.83|18.13|||Mixed Models Analysis|||Month 15||18.13|10.83|0.0010
82470964|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|4.47||0.001|TWO_SIDED|60.0|11.16|18.7|||Mixed Models Analysis|||Month 15||18.70|11.16|0.0010
82470965|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.96|STANDARD_ERROR_OF_MEAN|4.5||0.0023|TWO_SIDED|60.0|10.16|17.76|||Mixed Models Analysis|||Month 18||17.76|10.16|0.0023
82470966|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.57|STANDARD_ERROR_OF_MEAN|4.64||0.0039|TWO_SIDED|60.0|9.65|17.48|||Mixed Models Analysis|||Month 18||17.48|9.65|0.0039
82470967|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.02|STANDARD_ERROR_OF_MEAN|4.72||0.0017|TWO_SIDED|60.0|11.04|19.0|||Mixed Models Analysis|||Month 24||19.00|11.04|0.0017
82470968|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|4.88||0.0026|TWO_SIDED|60.0|10.81|19.04|||Mixed Models Analysis|||Month 24||19.04|10.81|0.0026
82470969|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.54|STANDARD_ERROR_OF_MEAN|5.06||0.0003|TWO_SIDED|60.0|14.27|22.81|||Mixed Models Analysis|||Month 30||22.81|14.27|0.0003
82470970|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.45|STANDARD_ERROR_OF_MEAN|5.29||0.0022|TWO_SIDED|60.0|11.99|20.91|||Mixed Models Analysis|||Month 30||20.91|11.99|0.0022
82470971|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.19|STANDARD_ERROR_OF_MEAN|5.51||0.0065|TWO_SIDED|60.0|10.55|19.84|||Mixed Models Analysis|||Month 36||19.84|10.55|0.0065
82470972|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.93|STANDARD_ERROR_OF_MEAN|6.0||0.0137|TWO_SIDED|60.0|9.87|19.99|||Mixed Models Analysis|||Month 36||19.99|9.87|0.0137
82470973|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.32|STANDARD_ERROR_OF_MEAN|5.12||0.0018|TWO_SIDED|60.0|11.99|20.64|||Mixed Models Analysis|||Month 42||20.64|11.99|0.0018
82470974|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.24|STANDARD_ERROR_OF_MEAN|5.65||0.0316|TWO_SIDED|60.0|7.47|17.01|||Mixed Models Analysis|||Month 42||17.01|7.47|0.0316
82470975|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.33|STANDARD_ERROR_OF_MEAN|5.64||0.0043|TWO_SIDED|60.0|11.57|21.09|||Mixed Models Analysis|||Month 48||21.09|11.57|0.0043
82470976|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.8|STANDARD_ERROR_OF_MEAN|6.31||0.1226|TWO_SIDED|60.0|4.47|15.12|||Mixed Models Analysis|||Month 48||15.12|4.47|0.1226
82470977|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.97|STANDARD_ERROR_OF_MEAN|5.7||0.0034|TWO_SIDED|60.0|12.17|21.78|||Mixed Models Analysis|||Month 54||21.78|12.17|0.0034
82470978|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.79|STANDARD_ERROR_OF_MEAN|6.52||0.0724|TWO_SIDED|60.0|6.29|17.29|||Mixed Models Analysis|||Month 54||17.29|6.29|0.0724
82650754|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.53||||0.0248|TWO_SIDED|95.0|1.06|2.2|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.20|1.06|0.0248
82470979|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.03|STANDARD_ERROR_OF_MEAN|5.92||0.1782|TWO_SIDED|60.0|3.02|13.03|||Mixed Models Analysis|||Month 60||13.03|3.02|0.1782
82470980|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|6.86||0.5947|TWO_SIDED|60.0|-2.14|9.46|||Mixed Models Analysis|||Month 66||9.46|-2.14|0.5947
82470981|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.99|STANDARD_ERROR_OF_MEAN|5.68||0.081|TWO_SIDED|60.0|5.2|14.79|||Mixed Models Analysis|||Month 66||14.79|5.20|0.0810
82470982|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.42|STANDARD_ERROR_OF_MEAN|6.38||0.3965|TWO_SIDED|60.0|0.04|10.81|||Mixed Models Analysis|||Month 66||10.81|0.04|0.3965
82650755|NCT01360632|165016445|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.0326|TWO_SIDED|95.0|1.03|2.21|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.21|1.03|0.0326
82470983|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.16|STANDARD_ERROR_OF_MEAN|6.77||0.0128|TWO_SIDED|60.0|11.44|22.88|||Mixed Models Analysis|||Month 72||22.88|11.44|0.0128
82470984|NCT00658359|164636903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|7.83||0.5487|TWO_SIDED|60.0|-1.91|11.33|||Mixed Models Analysis|||Month 72||11.33|-1.91|0.5487
82470985|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.87|STANDARD_ERROR_OF_MEAN|2.86|<|0.0001|TWO_SIDED|60.0|13.46|18.29|||Mixed Models Analysis|||Month 15||18.29|13.46|<0.0001
82470986|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.97|STANDARD_ERROR_OF_MEAN|2.95|<|0.0001|TWO_SIDED|60.0|11.49|16.46|||Mixed Models Analysis|||Month 15||16.46|11.49|<0.0001
82470987|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.53|STANDARD_ERROR_OF_MEAN|3.33|<|0.0001|TWO_SIDED|60.0|10.71|16.34|||Mixed Models Analysis|||Month 18||16.34|10.71|<0.0001
82470988|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.56|STANDARD_ERROR_OF_MEAN|3.43||0.0009|TWO_SIDED|60.0|8.67|14.45|||Mixed Models Analysis|||Month 18||14.45|8.67|0.0009
82470989|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.63|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|60.0|12.72|18.53|||Mixed Models Analysis|||Month 24||18.53|12.72|<0.0001
82470990|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.89|STANDARD_ERROR_OF_MEAN|3.54||0.001|TWO_SIDED|60.0|8.91|14.88|||Mixed Models Analysis|||Month 24||14.88|8.91|0.0010
82470991|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.29|STANDARD_ERROR_OF_MEAN|3.86|<|0.0001|TWO_SIDED|60.0|16.03|22.55|||Mixed Models Analysis|||Month 30||22.55|16.03|<0.0001
82470992|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.63|STANDARD_ERROR_OF_MEAN|3.97||0.0082|TWO_SIDED|60.0|7.27|13.98|||Mixed Models Analysis|||Month 30||13.98|7.27|0.0082
82470993|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.72|STANDARD_ERROR_OF_MEAN|4.31||0.0008|TWO_SIDED|60.0|11.09|18.36|||Mixed Models Analysis|||Month 36||18.36|11.09|0.0008
82470994|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|4.43||0.0462|TWO_SIDED|60.0|5.16|12.64|||Mixed Models Analysis|||Month 36||12.64|5.16|0.0462
82470995|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.7|STANDARD_ERROR_OF_MEAN|4.25||0.0007|TWO_SIDED|60.0|11.11|18.28|||Mixed Models Analysis|||Month 42||18.28|11.11|0.0007
82470996|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.55|STANDARD_ERROR_OF_MEAN|4.37||0.0519|TWO_SIDED|60.0|4.87|12.24|||Mixed Models Analysis|||Month 42||12.24|4.87|0.0519
82470997|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.58|STANDARD_ERROR_OF_MEAN|4.65||0.0039|TWO_SIDED|60.0|9.66|17.5|||Mixed Models Analysis|||Month 48||17.50|9.66|0.0039
82470998|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.12|STANDARD_ERROR_OF_MEAN|4.78||0.058|TWO_SIDED|60.0|5.09|13.15|||Mixed Models Analysis|||Month 48||13.15|5.09|0.0580
82470999|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.61|STANDARD_ERROR_OF_MEAN|4.74||0.0006|TWO_SIDED|60.0|12.62|20.61|||Mixed Models Analysis|||Month 54||20.61|12.62|0.0006
82471000|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.15|STANDARD_ERROR_OF_MEAN|4.87||0.0136|TWO_SIDED|60.0|8.04|16.26|||Mixed Models Analysis|||Month 54||16.26|8.04|0.0136
82471001|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.39|STANDARD_ERROR_OF_MEAN|4.74||0.0053|TWO_SIDED|60.0|9.39|17.39|||Mixed Models Analysis|||Month 60||17.39|9.39|0.0053
82471002|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.77|STANDARD_ERROR_OF_MEAN|4.87||0.0736|TWO_SIDED|60.0|4.66|12.88|||Mixed Models Analysis|||Month 60||12.88|4.66|0.0736
82471003|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.63|STANDARD_ERROR_OF_MEAN|4.8||0.005|TWO_SIDED|60.0|9.58|17.67|||Mixed Models Analysis|||Month 66||17.67|9.58|0.0050
82471004|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.77|STANDARD_ERROR_OF_MEAN|4.93||0.0491|TWO_SIDED|60.0|5.61|13.93|||Mixed Models Analysis|||Month 66||13.93|5.61|0.0491
82579646|NCT03568318|164869926|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.6|||<|0.001|TWO_SIDED|95.0|41.1|54.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||54.0|41.1|<0.001
82579647|NCT03568318|164869926|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|28.5|||<|0.001|TWO_SIDED|95.0|22.1|34.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response rate difference = Upadacitinib - Placebo|||34.9|22.1|<0.001
82579648|NCT03568318|164869927|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|48.8|||<|0.001|TWO_SIDED|95.0|41.9|55.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||55.7|41.9|<0.001
82579649|NCT03568318|164869927|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|36.8|||<|0.001|TWO_SIDED|95.0|29.7|43.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.8|29.7|<0.001
82471005|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.66|STANDARD_ERROR_OF_MEAN|5.04||0.0041|TWO_SIDED|60.0|10.4|18.91|||Mixed Models Analysis|||Month 72||18.91|10.40|0.0041
82471006|NCT00658359|164636904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.59|STANDARD_ERROR_OF_MEAN|5.19||0.066|TWO_SIDED|60.0|5.22|13.97|||Mixed Models Analysis|||Month 72||13.97|5.22|0.0660
82471007|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|1.73||0.2393|TWO_SIDED|95.0|-5.45|1.36|||Mixed Models Analysis|||Month 24: Physical Functioning||1.36|-5.45|0.2393
82471008|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57|STANDARD_ERROR_OF_MEAN|1.89||0.0595|TWO_SIDED|95.0|-7.29|0.14|||Mixed Models Analysis|||Month 24: Physical Functioning||0.14|-7.29|0.0595
82471009|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|2.1||0.5182|TWO_SIDED|95.0|-2.77|5.49|||Mixed Models Analysis|||Month 24: Role Physical||5.49|-2.77|0.5182
82471010|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96|STANDARD_ERROR_OF_MEAN|2.3||0.3938|TWO_SIDED|95.0|-6.49|2.56|||Mixed Models Analysis|||Month 24: Role Physical||2.56|-6.49|0.3938
82471011|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|2.12||0.8932|TWO_SIDED|95.0|-3.89|4.46|||Mixed Models Analysis|||Month 24: Bodily Pain||4.46|-3.89|0.8932
82471012|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|2.33||0.9673|TWO_SIDED|95.0|-4.48|4.67|||Mixed Models Analysis|||Month 24: Bodily Pain||4.67|-4.48|0.9673
82471013|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.74|STANDARD_ERROR_OF_MEAN|1.78||0.329|TWO_SIDED|95.0|-1.76|5.23|||Mixed Models Analysis|||Month 24: General Health||5.23|-1.76|0.3290
82471014|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_ERROR_OF_MEAN|1.95||0.578|TWO_SIDED|95.0|-2.75|4.92|||Mixed Models Analysis|||Month 24: General Health||4.92|-2.75|0.5780
82471015|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|1.87||0.9799|TWO_SIDED|95.0|-3.72|3.62|||Mixed Models Analysis|||Month 24: Vitality||3.62|-3.72|0.9799
82471016|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.76|STANDARD_ERROR_OF_MEAN|2.07||0.396|TWO_SIDED|95.0|-2.31|5.83|||Mixed Models Analysis|||Month 24: Vitality||5.83|-2.31|0.3960
82471017|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|1.98||0.94|TWO_SIDED|95.0|-4.05|3.75|||Mixed Models Analysis|||Month 24: Social Functioning||3.75|-4.05|0.9400
82471018|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|2.2||0.8583|TWO_SIDED|95.0|-3.94|4.72|||Mixed Models Analysis|||Month 24: Social Functioning||4.72|-3.94|0.8583
82471019|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.82|STANDARD_ERROR_OF_MEAN|2.31||0.0997|TWO_SIDED|95.0|-0.73|8.37|||Mixed Models Analysis|||Month 24: Role Emotional||8.37|-0.73|0.0997
82471020|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|2.54||0.852|TWO_SIDED|95.0|-5.47|4.52|||Mixed Models Analysis|||Month 24: Role Emotional||4.52|-5.47|0.8520
82471021|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|2.01||0.4023|TWO_SIDED|95.0|-5.64|2.27|||Mixed Models Analysis|||Month 24: Mental Health||2.27|-5.64|0.4023
82471022|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|2.22||0.1092|TWO_SIDED|95.0|-0.8|7.92|||Mixed Models Analysis|||Month 24: Mental Health||7.92|-0.80|0.1092
82471023|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.16||0.1754|TWO_SIDED|95.0|-0.1|0.52|||Mixed Models Analysis|||Month 24: TR Scale Score||0.52|-0.10|0.1754
82471024|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.1802|TWO_SIDED|95.0|-0.11|0.57|||Mixed Models Analysis|||Month 24: TR Scale Score||0.57|-0.11|0.1802
82471025|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|1.68||0.9966|TWO_SIDED|95.0|-3.31|3.29|||Mixed Models Analysis|||Month 24: Physical Component Summary||3.29|-3.31|0.9966
82471026|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42|STANDARD_ERROR_OF_MEAN|1.84||0.188|TWO_SIDED|95.0|-6.04|1.19|||Mixed Models Analysis|||Month 24: Physical Component Summary||1.19|-6.04|0.1880
82376875|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.4885|STANDARD_ERROR_OF_MEAN|0.2075||0.0233|TWO_SIDED|90.0|-0.8375|-0.1395|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.1395|-0.8375|0.0233
82471027|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.92||0.6154|TWO_SIDED|95.0|-2.81|4.73|||Mixed Models Analysis|||Month 24: Mental Component Summary||4.73|-2.81|0.6154
82471028|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|STANDARD_ERROR_OF_MEAN|2.12||0.1248|TWO_SIDED|95.0|-0.91|7.43|||Mixed Models Analysis|||Month 24: Mental Component Summary||7.43|-0.91|0.1248
82471029|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|2.03||0.4174|TWO_SIDED|95.0|-5.63|2.34|||Mixed Models Analysis|||Month 36: Physical Functioning||2.34|-5.63|0.4174
82471030|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44|STANDARD_ERROR_OF_MEAN|2.6||0.3486|TWO_SIDED|95.0|-7.54|2.66|||Mixed Models Analysis|||Month 36: Physical Functioning||2.66|-7.54|0.3486
82471031|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|2.47||0.8335|TWO_SIDED|95.0|-4.33|5.37|||Mixed Models Analysis|||Month 36: Role Physical||5.37|-4.33|0.8335
82471032|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|3.18||0.5291|TWO_SIDED|95.0|-8.24|4.24|||Mixed Models Analysis|||Month 36: Role Physical||4.24|-8.24|0.5291
82471033|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|STANDARD_ERROR_OF_MEAN|2.5||0.4033|TWO_SIDED|95.0|-2.82|7.0|||Mixed Models Analysis|||Month 36: Bodily Pain||7.00|-2.82|0.4033
82471034|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|3.24||0.9078|TWO_SIDED|95.0|-6.74|5.99|||Mixed Models Analysis|||Month 36: Bodily Pain||5.99|-6.74|0.9078
82471035|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|2.08||0.3947|TWO_SIDED|95.0|-2.31|5.86|||Mixed Models Analysis|||Month 36: General Health||5.86|-2.31|0.3947
82471036|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.66||0.7165|TWO_SIDED|95.0|-4.26|6.2|||Mixed Models Analysis|||Month 36: General Health||6.20|-4.26|0.7165
82579650|NCT03568318|164869928|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|49.9|||<|0.001|TWO_SIDED|95.0|43.3|56.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.4|43.3|<0.001
82471037|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|STANDARD_ERROR_OF_MEAN|2.19||0.5112|TWO_SIDED|95.0|-2.87|5.75|||Mixed Models Analysis|||Month 36: Vitality||5.75|-2.87|0.5112
82471038|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.43|STANDARD_ERROR_OF_MEAN|2.86||0.1218|TWO_SIDED|95.0|-1.18|10.04|||Mixed Models Analysis|||Month 36: Vitality||10.04|-1.18|0.1218
82471039|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47|STANDARD_ERROR_OF_MEAN|2.33||0.2895|TWO_SIDED|95.0|-2.11|7.05|||Mixed Models Analysis|||Month 36: Social Functioning||7.05|-2.11|0.2895
82471040|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|3.03||0.8349|TWO_SIDED|95.0|-6.58|5.32|||Mixed Models Analysis|||Month 36: Social Functioning||5.32|-6.58|0.8349
82471041|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.62|STANDARD_ERROR_OF_MEAN|2.72||0.0393|TWO_SIDED|95.0|0.28|10.97|||Mixed Models Analysis|||Month 36: Role Emotional||10.97|0.28|0.0393
82471042|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|STANDARD_ERROR_OF_MEAN|3.52||0.7266|TWO_SIDED|95.0|-5.69|8.16|||Mixed Models Analysis|||Month 36: Role Emotional||8.16|-5.69|0.7266
82471043|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|STANDARD_ERROR_OF_MEAN|2.36||0.4916|TWO_SIDED|95.0|-3.02|6.27|||Mixed Models Analysis|||Month 36: Mental Health||6.27|-3.02|0.4916
82471044|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|3.05||0.9008|TWO_SIDED|95.0|-5.62|6.38|||Mixed Models Analysis|||Month 36: Mental Health||6.38|-5.62|0.9008
82471045|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2965|TWO_SIDED|95.0|-0.17|0.55|||Mixed Models Analysis|||Month 36: TR Scale Score||0.55|-0.17|0.2965
82471046|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.24||0.1147|TWO_SIDED|95.0|-0.09|0.84|||Mixed Models Analysis|||Month 36: TR Scale Score||0.84|-0.09|0.1147
82471047|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|1.97||0.7786|TWO_SIDED|95.0|-4.42|3.31|||Mixed Models Analysis|||Month 36: Physical Component Summary||3.31|-4.42|0.7786
82471048|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|2.53||0.5582|TWO_SIDED|95.0|-6.45|3.49|||Mixed Models Analysis|||Month 36: Physical Component Summary||3.49|-6.45|0.5582
82471049|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.05|STANDARD_ERROR_OF_MEAN|2.25||0.0727|TWO_SIDED|95.0|-0.37|8.47|||Mixed Models Analysis|||Month 36: Mental Component Summary||8.47|-0.37|0.0727
82471050|NCT00658359|164636905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.86|STANDARD_ERROR_OF_MEAN|2.91||0.3264|TWO_SIDED|95.0|-2.86|8.59|||Mixed Models Analysis|||Month 36: Mental Component Summary||8.59|-2.86|0.3264
82471051|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.11||0.3093|TWO_SIDED|95.0|-0.1|0.33|||Mixed Models Analysis|||Month 24 Limited Physical Capacity||0.33|-0.10|0.3093
82471052|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.12||0.3223|TWO_SIDED|95.0|-0.12|0.36|||Mixed Models Analysis|||Month 24 Limited Physical Capacity||0.36|-0.12|0.3223
82471053|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.11||0.4858|TWO_SIDED|95.0|-0.14|0.3|||Mixed Models Analysis|||Month 24 Limited Cognitive Capacity||0.30|-0.14|0.4858
82471054|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.13||0.3679|TWO_SIDED|95.0|-0.13|0.36|||Mixed Models Analysis|||Month 24 Limited Cognitive Capacity||0.36|-0.13|0.3679
82471055|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.6416|TWO_SIDED|95.0|-0.27|0.17|||Mixed Models Analysis|||Month 24 Cardiac and Renal Dysfunction||0.17|-0.27|0.6416
82471056|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.4241|TWO_SIDED|95.0|-0.34|0.14|||Mixed Models Analysis|||Month 24 Cardiac and Renal Dysfunction||0.14|-0.34|0.4241
82471057|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.12||0.2133|TWO_SIDED|95.0|-0.09|0.39|||Mixed Models Analysis|||Month 24 Side Effects of Corticosteroids||0.39|-0.09|0.2133
82471058|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.13||0.1918|TWO_SIDED|95.0|-0.09|0.44|||Mixed Models Analysis|||Month 24 Side Effects of Corticosteroids||0.44|-0.09|0.1918
82471059|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.55|-0.14|||Mixed Models Analysis|||Month 24 Increased Growth of Gum and Hair||-0.14|-0.55|0.0010
82471060|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.59|-0.13|||Mixed Models Analysis|||Month 24 Increased Growth of Gum and Hair||-0.13|-0.59|0.0020
82471061|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.12||0.2012|TWO_SIDED|95.0|-0.08|0.4|||Mixed Models Analysis|||Month 24 Transplantation-Associated Psychological Distress||0.40|-0.08|0.2012
82471062|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.14||0.8986|TWO_SIDED|95.0|-0.25|0.29|||Mixed Models Analysis|||Month 24 Transplantation-Associated Psychological Distress||0.29|-0.25|0.8986
82471063|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.08||0.6724|TWO_SIDED|95.0|-0.13|0.2|||Mixed Models Analysis|||Month 24 Global Score||0.20|-0.13|0.6724
82471064|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.09||0.9297|TWO_SIDED|95.0|-0.18|0.19|||Mixed Models Analysis|||Month 24 Global Score||0.19|-0.18|0.9297
82471065|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.8682|TWO_SIDED|95.0|-0.28|0.23|||Mixed Models Analysis|||Month 36 Limited Physical Capacity||0.23|-0.28|0.8682
82471066|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.18||0.3392|TWO_SIDED|95.0|-0.18|0.53|||Mixed Models Analysis|||Month 36 Limited Physical Capacity||0.53|-0.18|0.3392
82650756|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|0.87||||0.7993|TWO_SIDED|95.0|0.3|2.55|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.55|0.30|0.7993
82471067|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.6545|TWO_SIDED|95.0|-0.2|0.32|||Mixed Models Analysis|||Month 36 Limited Cognitive Capacity||0.32|-0.20|0.6545
82471068|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.19||0.3253|TWO_SIDED|95.0|-0.18|0.55|||Mixed Models Analysis|||Month 36 Limited Cognitive Capacity||0.55|-0.18|0.3253
82471069|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.13||0.9698|TWO_SIDED|95.0|-0.26|0.25|||Mixed Models Analysis|||Month 36 Cardiac and Renal Dysfunction||0.25|-0.26|0.9698
82471070|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.18||0.3065|TWO_SIDED|95.0|-0.17|0.54|||Mixed Models Analysis|||Month 36 Cardiac and Renal Dysfunction||0.54|-0.17|0.3065
82471071|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7147|TWO_SIDED|95.0|-0.33|0.23|||Mixed Models Analysis|||Month 36 Side Effects of Corticosteroids||0.23|-0.33|0.7147
82471072|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.2||0.4852|TWO_SIDED|95.0|-0.25|0.53|||Mixed Models Analysis|||Month 36 Side Effects of Corticosteroids||0.53|-0.25|0.4852
82471073|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.13||0.0888|TWO_SIDED|95.0|-0.46|0.03|||Mixed Models Analysis|||Month 36 Increased Growth of Gum and Hair||0.03|-0.46|0.0888
82471074|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.0719|TWO_SIDED|95.0|-0.65|0.03|||Mixed Models Analysis|||Month 36 Increased Growth of Gum and Hair||0.03|-0.65|0.0719
82471075|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7531|TWO_SIDED|95.0|-0.24|0.33|||Mixed Models Analysis|||Month 36 Transplantation-Associated Psychological Distress||0.33|-0.24|0.7531
82471076|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.6412|TWO_SIDED|95.0|-0.49|0.3|||Mixed Models Analysis|||Month 36 Transplantation-Associated Psychological Distress||0.30|-0.49|0.6412
82471077|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1||0.9186|TWO_SIDED|95.0|-0.2|0.18|||Mixed Models Analysis|||Month 36 Global Score||0.18|-0.20|0.9186
82471078|NCT00658359|164636906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6629|TWO_SIDED|95.0|-0.21|0.33|||Mixed Models Analysis|||Month 36 Global Score||0.33|-0.21|0.6629
82471079|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|1.72||0.2826|TWO_SIDED|95.0|-5.22|1.53|||Mixed Models Analysis|||Month 24 Pain Intensity Total Converted Score||1.53|-5.22|0.2826
82471080|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.22|STANDARD_ERROR_OF_MEAN|1.97||0.5371|TWO_SIDED|95.0|-2.65|5.09|||Mixed Models Analysis|||Month 24 Pain Intensity Total Converted Score||5.09|-2.65|0.5371
82471081|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.7503|TWO_SIDED|95.0|-1.41|1.02|||Mixed Models Analysis|||Month 24 Non-Pain Symptoms Converted Score||1.02|-1.41|0.7503
82471082|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|STANDARD_ERROR_OF_MEAN|0.72||0.261|TWO_SIDED|95.0|-0.6|2.21|||Mixed Models Analysis|||Month 24 Non-Pain Symptoms Converted Score||2.21|-0.60|0.2610
82471083|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_ERROR_OF_MEAN|0.98||0.3656|TWO_SIDED|95.0|-1.04|2.82|||Mixed Models Analysis|||Month 24 Satisfaction Converted Score||2.82|-1.04|0.3656
82471084|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|1.15||0.4405|TWO_SIDED|95.0|-3.16|1.37|||Mixed Models Analysis|||Month 24 Satisfaction Converted Score||1.37|-3.16|0.4405
82471085|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.96||0.4135|TWO_SIDED|95.0|-5.45|2.25|||Mixed Models Analysis|||Month 36 Pain Intensity Total Converted Score||2.25|-5.45|0.4135
82471086|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|2.75||0.7272|TWO_SIDED|95.0|-4.45|6.37|||Mixed Models Analysis|||Month 36 Pain Intensity Total Converted Score||6.37|-4.45|0.7272
82471087|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.71||0.8111|TWO_SIDED|95.0|-1.56|1.22|||Mixed Models Analysis|||Month 36 Non-Pain symptoms Converted Score||1.22|-1.56|0.8111
82471088|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.02||0.2636|TWO_SIDED|95.0|-0.86|3.13|||Mixed Models Analysis|||Month 36 Non-Pain Symptoms Converted Score||3.13|-0.86|0.2636
82471089|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.13||0.689|TWO_SIDED|95.0|-1.77|2.67|||Mixed Models Analysis|||Month 36 Satisfaction Converted Score||2.67|-1.77|0.6890
82471090|NCT00658359|164636907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|1.62||0.4853|TWO_SIDED|95.0|-4.31|2.05|||Mixed Models Analysis|||Month 36 Satisfaction Converted Score||2.05|-4.31|0.4853
82471091|NCT02504151|164636925|SUPERIORITY||Mean Difference (Net)|-0.284|STANDARD_ERROR_OF_MEAN|1.01||0.08|TWO_SIDED|95.0|-2.28|1.71|||Mixed Models Analysis|Linear mixed models was used with treatment, time and time\*treatment interaction in the model.|This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||1.71|-2.28|0.08
82471092|NCT02504151|164636926|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.05||0.48|TWO_SIDED|95.0|-0.12|0.07|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||0.07|-0.12|0.48
82471093|NCT02504151|164636927|SUPERIORITY||Mean Difference (Net)|-4.97|STANDARD_ERROR_OF_MEAN|2.47||0.485|TWO_SIDED|95.0|-9.87|-0.06|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||-0.06|-9.87|0.485
82471094|NCT02504151|164636928|SUPERIORITY||Mean Difference (Net)|4.13|STANDARD_ERROR_OF_MEAN|2.05||0.994|TWO_SIDED|95.0|0.07|8.19|||Mixed Models Analysis||This is the estimated difference between treatment groups (cbd - placebo).|The p value is based on the interaction of treatment and time.||8.19|0.07|0.994
82471095|NCT00705016|164636929|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.885|TWO_SIDED|95.0|0.67|1.59||The Type I error was not taken into account, since the sample size calculation is based on selection theory.|Cox proportional hazards model|Stratification factor: Karnofsky performance status (KPS) \<80/\>=80||Sample size of 177 subjects was estimated such that the treatment group with the best PFS result had a 90% probability of emerging as the one with the smaller observed log Hazard ratio (HR), if there was an underlying difference of 2.2 months between the arms in the median PFS (7.8 months in the best group and 5.6 months in the other 2 groups). It was assumed that the accrual and follow-up time would take 1 year each, and that the drop-out rate was 8%.||1.59|0.67|0.885
82471096|NCT00705016|164636929|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.55||||0.054|TWO_SIDED|95.0|0.99|2.43||The Type I error was not taken into account, since the sample size calculation is based on selection theory.|Cox proportional hazards model|Stratification factor: Karnofsky performance status (KPS) \<80/\>=80||Sample size of 177 subjects was estimated such that the treatment group with the best PFS result had a 90% probability of emerging as the one with the smaller observed log HR, if there was an underlying difference of 2.2 months between the arms in the median PFS (7.8 months in the best group and 5.6 months in the other 2 groups). It was assumed that the accrual and follow-up time would take 1 year each, and that the drop-out rate was 8%.||2.43|0.99|0.054
82471097|NCT00705016|164636930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.8|TWO_SIDED|95.0|0.61|1.47||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||1.47|0.61|0.800
82471098|NCT00705016|164636930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.878|TWO_SIDED|95.0|0.66|1.63|||Cox proportional hazards model|||||1.63|0.66|0.878
82471099|NCT00705016|164636931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.595||||0.205|TWO_SIDED|95.0|0.776|3.276||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||3.276|0.776|0.205
82471100|NCT00705016|164636931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.671||||0.317|TWO_SIDED|95.0|0.307|1.465||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||1.465|0.307|0.317
82471101|NCT00705016|164636932|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.396||||0.476|TWO_SIDED|95.0|0.551|3.539||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||3.539|0.551|0.476
82471102|NCT00705016|164636932|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.668||||0.347|TWO_SIDED|95.0|0.287|1.555||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cochran-Mantel-Haenszel|||||1.555|0.287|0.347
82471103|NCT00705016|164636933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.294|TWO_SIDED|95.0|0.84|1.81||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||1.81|0.84|0.294
82650757|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|0.11||||0.0118|TWO_SIDED|95.0|0.01|0.93|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.93|0.01|0.0118
82471104|NCT00705016|164636933|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.73||||0.007|TWO_SIDED|95.0|1.16|2.57||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||2.57|1.16|0.007
82471105|NCT00705016|164636934|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.391|TWO_SIDED|95.0|0.71|2.39||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||2.39|0.71|0.391
82471106|NCT00705016|164636934|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.6||||0.007|TWO_SIDED|95.0|1.3|5.21||Secondary analyses of efficacy were performed to support the results of the primary analysis and considered as purely exploratory and no adjustment for multiplicity has been done.|Cox proportional hazards model|||||5.21|1.30|0.007
82471107|NCT02379091|164636988|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.351||0.086|TWO_SIDED|95.0|-1.31|0.09||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and participant as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||0.09|-1.31|0.086
82471108|NCT02379091|164636988|SUPERIORITY_OR_OTHER||LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.366||0.107|TWO_SIDED|95.0|-1.32|0.13||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and subject as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||0.13|-1.32|0.107
82471109|NCT02379091|164636988|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.347||0.01|TWO_SIDED|95.0|-1.61|-0.23||MMRM model with main effects for study site, treatment, visit, and previously failed medication with interactions between visit and treatment, visit and previously failed medication, and visit and baseline value.|ANOVA|Baseline values were used as a covariate and subject as a random effect with an unstructured covariance structure.|Namilumab - Placebo|||-0.23|-1.61|0.010
82471110|NCT02129699|164637003|SUPERIORITY|Pre-specified analysis|Hazard Ratio (HR)|0.96||||0.355|TWO_SIDED|95.0|0.78|1.19|||Regression, Cox|Cox regression model for treatment effect, analysis adjusted for stratification factors||||1.19|0.78|0.355
82471111|NCT02129699|164637004|SUPERIORITY|Pre-specified analysis|Hazard Ratio (HR)|0.99||||0.459|TWO_SIDED|95.0|0.82|1.19|||Regression, Cox|||||1.19|0.82|0.459
82471112|NCT03863080|164637044|SUPERIORITY||Least square mean difference|-56.33|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of Total IgG levels has been presented.|||||<0.0001
82471113|NCT03863080|164637044|SUPERIORITY||Least square mean difference|-74.49|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of Total IgG levels has been presented.|||||<0.0001
82471114|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-62.7|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 1 subclass has been presented.|||||<0.001
82471115|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-73.0|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 1 subclass has been presented.|||||<0.001
82471116|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-52.5|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 2 subclass has been presented.|||||<0.001
82471117|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-61.4|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 2 subclass has been presented.|||||<0.001
82471118|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-66.1|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 3 subclass has been presented.|||||<0.001
82471119|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-80.8|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 3 subclass has been presented.|||||<0.001
82471120|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-44.9|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of IgG 4 subclass has been presented.|||||<0.001
82471121|NCT03863080|164637045|SUPERIORITY||Least square mean difference|-61.6|||<|0.001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of IgG 4 subclass has been presented.|||||<0.001
82471122|NCT03863080|164637046|SUPERIORITY||Least square mean difference|-62.58||||0.0009|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 340 mg/week of Anti-AChR-IgG has been presented.|||||0.0009
82471123|NCT03863080|164637046|SUPERIORITY||Least square mean difference|-101.2|||<|0.0001|TWO_SIDED||||||ANCOVA||Treatment comparison between Placebo and RVT-1401 680 mg/week of Anti-AChR-IgG has been presented.|||||<0.0001
82471124|NCT02000115|164637102|NON_INFERIORITY|8.0% non-inferiority margin|Difference in percentages between groups|1.5||||0.006|ONE_SIDED|95.0||5.7||p for non-inferiority|Kaplan-Meier estimates|Kaplan-Meier was used as the method for calculating the endpoint rate|Non-inferiority of the Portico valve to commercially available valves was shown if the upper bound of the 95% confidence interval (1-sided) for the difference in event rates between groups was less than the non-inferiority margin (8·0%)|We analysed the primary effectiveness endpoint in the intention-to- treat (ITT) population using the Kaplan-Meier method to estimate event rates, the Greenwood method to calculate the standard error of the Kaplan-Meier estimates, and assuming an asymptotic normal distribution for event rate estimates.||5.7||0.006
82471125|NCT02000115|164637103|NON_INFERIORITY|8.5% non-inferiority margin|Difference in percentages between groups|4.2||||0.03|ONE_SIDED|95.0||8.1||p for non-inferiority|Kaplan-Meier estimates|Kaplan-Meier was used as the method for calculating the endpoint rate|Non-inferiority of the Portico valve to commercially available valves was shown if the upper bound of the 95% confidence interval (1-sided) for the difference in event rates between groups was less than the non-inferiority margin (8·5%)|We analysed the primary safety endpoint in the intention-to-treat (ITT) population using the Kaplan-Meier method to estimate event rates, the Greenwood method to calculate the standard error of the Kaplan-Meier estimates, and assuming an asymptotic normal distribution for event rate estimates.||8.1||0.03
82471126|NCT02000115|164637105|NON_INFERIORITY|non-inferiority margin of 4%|Difference in percentages between groups|0.4||||0.001|ONE_SIDED|95.0||2.3||p for non-inferiority|Farrington-Manning test|The test statistic is based on the Farrington-Manning method of testing non-inferiority of proportions.|If the upper limit of the 95% confidence interval (1-sided) for the difference of proportions (Portico - CAV) is \< 4%, then non inferiority is demonstrated.|||2.3||0.001
82471127|NCT02000115|164637106|NON_INFERIORITY|non-inferiority margin of 10 points|Mean Difference (Final Values)|-0.5|||<|0.0001|ONE_SIDED|95.0|-3.5|||p for non-inferiority|two-sample t-test|The test statistic is based on two sample t-test|If the lower limit of the 95% confidence interval (1-sided) for the difference of (Portico - CAV) is \> -10, then non inferiority is demonstrated.||||-3.5|<0.0001
82471128|NCT02000115|164637107|NON_INFERIORITY|non-inferiority margin of 6%|Difference in percentages between groups|5.6||||0.4|ONE_SIDED|95.0||8.5||p for non-inferiority|Farrington-Manning test|The test statistic is based on the Farrington-Manning method of testing non-inferiority of proportions|If the upper limit of the 95% confidence interval (1-sided) for the difference of proportions (Portico - CAV) is \< 6%, then non inferiority is demonstrated.|||8.5||0.40
82471129|NCT02000115|164637108|NON_INFERIORITY|non-inferiority margin on -36 meters|Mean Difference (Final Values)|3.5||||0.0003|ONE_SIDED|95.0|-15.4|||p for non-inferiority|two sample t-test|The test statistic is based on a two-sample t-test|If the lower limit of the 95% confidence interval (1-sided) for the difference of (Portico - CAV) is \> -36, then non inferiority is demonstrated.||||-15.4|0.0003
82471130|NCT05006573|164637113|SUPERIORITY||Risk Ratio (RR)|1.14||||0.5911|TWO_SIDED|95.0|0.71|1.82|||negative binomial model|marginal standardization method|The rate ratio (Benralizumab/Placebo) and its 95% CI are estimated using a negative binomial model. The covariates include treatment arm, baseline blood eosinophil category, and number of exacerbations from previous year.|||1.82|0.71|0.5911
82471131|NCT05006573|164637114|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.6677|TWO_SIDED|95.0|0.67|1.91|||Regression, Cox||The analysis is performed using cox proportional hazards model with covariates of treatment group, number of exacerbations in previous year and baseline eosinophil category.|||1.91|0.67|0.6677
82471132|NCT04953728|164637165|SUPERIORITY|||||||0.77306724|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during ST36 100Hz when compared to baseline||||0.77306724
82471133|NCT04953728|164637165|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during ST36 25Hz when compared to baseline||||0.24
82471134|NCT04953728|164637165|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during PC6 100Hz when compared to baseline||||0.45
82471135|NCT04953728|164637165|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during PC6 25Hz when compared to baseline||||0.13
82650758|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.5||||0.2825|TWO_SIDED|95.0|0.71|3.16|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.16|0.71|0.2825
82471136|NCT04953728|164637165|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change in maximum tolerance in mmHg of the rectum during Sham when compared to baseline||||0.14
82471137|NCT04953728|164637166|SUPERIORITY|||||||0.81019363|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to ST36 25Hz||||0.81019363
82471138|NCT04953728|164637166|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to PC6 100Hz||||0.18
82471139|NCT04953728|164637166|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to PC6 25Hz||||0.21
82471140|NCT04953728|164637166|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 100Hz when compared to Sham||||0.58
82471141|NCT04953728|164637166|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to PC6 100Hz||||0.18
82471142|NCT04953728|164637166|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to PC6 25Hz||||0.18
82471143|NCT04953728|164637166|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||Change in average maximum tolerance of ST36 25Hz when compared to sham||||0.78
82471144|NCT04953728|164637166|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 100Hz when compared to PC6 25Hz||||0.89
82471145|NCT04953728|164637166|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 100Hz when compared to sham||||0.05
82471146|NCT04953728|164637166|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Change in average maximum tolerance of PC6 25Hz when compared to sham||||0.07
82471147|NCT04953728|164637167|SUPERIORITY|||||||0.00046998|||||||t-test, 2 sided|||ST36 100Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.00046998
82471148|NCT04953728|164637167|SUPERIORITY|||||||0.74369428|||||||t-test, 2 sided|||ST36 25Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.74369428
82471149|NCT04953728|164637167|SUPERIORITY|||||||0.09854383|||||||t-test, 2 sided|||PC6 100Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.09854383
82471150|NCT04953728|164637167|SUPERIORITY|||||||0.24872746|||||||t-test, 2 sided|||PC6 25Hz: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.24872746
82471151|NCT04953728|164637167|SUPERIORITY|||||||0.04828889|||||||t-test, 2 sided|||Sham: Difference of VAS sums between 15 and 50 mmHg between pre and post stimulation||||0.04828889
82471152|NCT04953728|164637168|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||ST36 100Hz compared to ST36 25Hz||||0.02
82547404|NCT05321069|164794451|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9038|TWO_SIDED|95.0|0.7|1.36|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.36|0.70|0.9038
82547405|NCT05321069|164794451|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.4687|TWO_SIDED|95.0|0.82|1.56|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.56|0.82|0.4687
82547406|NCT05321069|164794452|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7695|TWO_SIDED|95.0|0.74|1.25|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.25|0.74|0.7695
82547407|NCT05321069|164794452|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.2068|TWO_SIDED|95.0|0.64|1.1|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.10|0.64|0.2068
82547408|NCT05321069|164794453|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9251|TWO_SIDED|95.0|0.69|1.41|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.41|0.69|0.9251
82547409|NCT05321069|164794453|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4988|TWO_SIDED|95.0|0.62|1.26|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.26|0.62|0.4988
82547410|NCT05321069|164794454|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9084|TWO_SIDED|95.0|0.6|1.76|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.76|0.60|0.9084
82579651|NCT03568318|164869928|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|29.5|||<|0.001|TWO_SIDED|95.0|22.8|36.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||36.3|22.8|<0.001
82579652|NCT03568318|164869929|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|43.8|57.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.3|43.8|<0.001
82579653|NCT03568318|164869929|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.4|||<|0.001|TWO_SIDED|95.0|30.4|44.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.3|30.4|<0.001
82579654|NCT03568318|164869930|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.6|||<|0.001|TWO_SIDED|95.0|51.2|63.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||63.9|51.2|<0.001
82650759|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.2||||0.6375|TWO_SIDED|95.0|0.58|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|0.58|0.6375
82650760|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.0923|TWO_SIDED|95.0|0.92|2.82|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.82|0.92|0.0923
82650761|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.29||||0.3812|TWO_SIDED|95.0|0.73|2.3|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.30|0.73|0.3812
82471153|NCT04953728|164637168|SUPERIORITY|||||||0.11|||||||t-test, 1 sided|||ST36 100Hz compared to PC6 100Hz||||0.11
82650762|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.63||||0.0464|TWO_SIDED|95.0|1.0|2.65|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.65|1.00|0.0464
82471154|NCT04953728|164637168|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||ST36 100Hz compared to PC6 25Hz||||0.01
82471155|NCT04953728|164637168|SUPERIORITY|||||||0.04|||||||t-test, 1 sided|||ST36 100Hz compared to Sham||||0.04
82471156|NCT04953728|164637168|SUPERIORITY|||||||0.11|||||||t-test, 1 sided|||ST36 25Hz compared to PC6 100Hz||||0.11
82471157|NCT04953728|164637168|SUPERIORITY|||||||0.23|||||||t-test, 1 sided|||ST36 25Hz compared to PC6 25Hz||||0.23
82471158|NCT04953728|164637168|SUPERIORITY|||||||0.17|||||||t-test, 1 sided|||ST36 25Hz compared to Sham||||0.17
82471159|NCT04953728|164637168|SUPERIORITY|||||||0.15|||||||t-test, 1 sided|||PC6 100Hz compared to PC6 25Hz||||0.15
82471160|NCT04953728|164637168|SUPERIORITY|||||||0.43|||||||t-test, 1 sided|||PC6 100Hz compared to Sham||||0.43
82471161|NCT04953728|164637168|SUPERIORITY|||||||0.19|||||||t-test, 1 sided|||PC6 25Hz compared to Sham||||0.19
82471162|NCT04953728|164637169|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during ST36 100Hz when compared to baseline||||0.87
82471163|NCT04953728|164637169|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during ST36 25Hz when compared to baseline||||0.13
82579655|NCT03568318|164869930|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|43.8|||<|0.001|TWO_SIDED|95.0|37.0|50.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.5|37.0|<0.001
82376876|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.0177|STANDARD_ERROR_OF_MEAN|0.2043||0.9314|TWO_SIDED|90.0|-0.3613|0.3259|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.3259|-0.3613|0.9314
82471164|NCT04953728|164637169|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during PC6 100Hz when compared to baseline||||0.17
82471165|NCT04953728|164637169|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during PC6 25Hz when compared to baseline||||0.88
82471166|NCT04953728|164637169|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||Change in maximum volume in mL of the rectum during sham when compared to baseline||||0.14
82471167|NCT04953728|164637170|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during ST36 100Hz when compared to baseline||||0.007
82471168|NCT04953728|164637170|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during ST36 25Hz when compared to baseline||||0.83
82471169|NCT04953728|164637170|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during PC6 100Hz when compared to baseline||||0.87
82471170|NCT04953728|164637170|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during PC6 25Hz when compared to baseline||||0.004
82471171|NCT04953728|164637170|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||Change in first sensation in mmHg of the rectum during sham when compared to baseline||||0.056
82471172|NCT00990704|164637188|SUPERIORITY_OR_OTHER||Difference between arms in percentage|13.6||||0.518|TWO_SIDED|95.0|-22.36|49.63|||Fisher Exact|||||49.63|-22.36|0.518
82471173|NCT01399372|164637196|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.015|TWO_SIDED|95.0|0.27|0.95||One-sided significance level = 0.15|Log Rank||Reference arm = Chemotherapy|Sample size of 89 provided 80% power to detect a hazard ratio of 0.63 at a one-sided alpha level of 0.15.||0.95|0.27|0.015
82471174|NCT01399372|164637197|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.48|TWO_SIDED|95.0|0.38|1.58||Two-sided significance level = 0.05|Log Rank||Reference arm = Chemotherapy|||1.58|0.38|0.48
82471175|NCT01399372|164637199|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||A mixed effects model of EORTC QLQ-C30 GHS was run with independent variables treatment arm, time, baseline Memorial Sloan-Kettering Cancer Center (MSKCC) recursive partitioning analysis (RPA) class, and baseline neurologic symptoms (none/minor vs. moderate/severe), including the interaction of treatment and time, representing difference in the longitudinal trajectory of the scores between the treatment arms. Prospectively, the interaction effect was of most interest and is reported here,||||0.005
82471176|NCT01399372|164637200|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.18|TWO_SIDED|95.0|0.21|1.31|||Gray's test||Reference arm = Chemotherapy arm|||1.31|0.21|0.18
82471177|NCT01732718|164637215|SUPERIORITY|||||||0.51|||||||Student t-test followed by ANOVA|Student t-test subsequently followed by crossover ANOVA model testing carry-over effect and treatment effect||||||0.51
82471178|NCT01732718|164637216|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82471179|NCT01732718|164637218|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82471180|NCT01732718|164637220|SUPERIORITY|||||||0.57|||||||see comments for explanation|albuminuria examined as continuous variable (linear mixed model to analyze effect) and categorical generalized variable (estimating equation approach)||||||0.57
82471181|NCT01732718|164637224|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82471182|NCT01732718|164637225|SUPERIORITY|||||||0.1469|||||||t-test, 1 sided|||Comparison of the change in AMC||||0.1469
82471183|NCT01732718|164637225|SUPERIORITY|||||||0.2382|||||||t-test, 1 sided|||Comparison of the change in ALC||||0.2382
82471184|NCT01732718|164637225|SUPERIORITY|||||||0.5833|||||||t-test, 1 sided|||Comparison of the change in ANC||||0.5833
82471185|NCT01732718|164637228|SUPERIORITY|||||||0.5184|||||||Wilcoxon (Mann-Whitney)|||||||0.5184
82471186|NCT02653417|164637229|SUPERIORITY||Mean Difference (Final Values)|-0.18|||||TWO_SIDED|||||||||Regimen 1 = 5 mg vs Regimen 4 = placebo||||
82471187|NCT02653417|164637229|SUPERIORITY||Mean Difference (Final Values)|0.08|||||TWO_SIDED|||||||||Regimen 2 = 10 mg vs Regimen 4 = placebo||||
82471188|NCT02653417|164637229|SUPERIORITY||Mean Difference (Final Values)|0.46|||||TWO_SIDED|||||||||Regimen 3 = 20 mg vs Regimen 4 = placebo||||
82471189|NCT02904954|164637242|SUPERIORITY||Risk Difference (RD)|46.6||||0.0001|TWO_SIDED|95.0|26.7|66.6||Testing at alpha = 0.05.|Fisher Exact|||Fisher's exact test performed to compare the MPR proportion between the two treatment arms. Null hypothesis is that there is no difference in the MPR proportion between the two arms.||66.6|26.7|0.0001
82471190|NCT02904954|164637243|SUPERIORITY|||||||0.89|||||||Log Rank|||Kaplan-Meier survival analysis comparing the two arms.||||0.89
82471191|NCT02904954|164637244|SUPERIORITY||Risk Difference (RD)|43.4||||0.0001|TWO_SIDED|95.0|24.4|62.3||Testing at alpha = 0.05.|Fisher Exact|||Fisher's exact test performed to compare the objective clinical response proportion between the two treatment arms. Null hypothesis is that there is no difference in the objective clinical response proportion between the two arms. Objective clinical response proportion is defined as the proportion of patients in each arm who have complete response or partial response.||62.3|24.4|0.0001
82471192|NCT01039376|164637260|SUPERIORITY||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.43|0.7|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.70|0.43|<0.0001
82471193|NCT01039376|164637261|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.42|0.68|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.68|0.42|<0.0001
82471194|NCT01039376|164637262|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6046|TWO_SIDED|95.0|0.69|1.25|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.25|0.69|0.6046
82471195|NCT01039376|164637264|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0178|TWO_SIDED|95.0|0.62|0.96|||Stratified log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||0.96|0.62|0.0178
82471196|NCT01039376|164637265|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.3136|TWO_SIDED|95.0|0.42|1.32|||log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.32|0.42|0.3136
82471197|NCT01039376|164637266|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.1603|TWO_SIDED|95.0|0.29|1.19|||log rank test||Hazard ratios were obtained using the Pike estimator. A hazard ratio of \<1 indicated a lower risk with ofatumumab maintenance compared with no further treatment.|||1.19|0.29|0.1603
82471198|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|-2.19||||0.0199|TWO_SIDED|95.0|-4.04|-0.35||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Disease Effects Scale|||-0.35|-4.04|0.0199
82547411|NCT05321069|164794454|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.4682|TWO_SIDED|95.0|0.46|1.43|||Regression, Cox|||Analysis was performed using a Cox proportional hazards regression model that included baseline use of antifibrotic therapy (antifibrotic group vs non-antifibrotic group), age, baseline forced vital capacity (FVC) percentage predicted, baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted (corrected for hemoglobin levels), and treatment group as covariates.||1.43|0.46|0.4682
82547412|NCT05321069|164794455|SUPERIORITY||Mean Difference (Net)|-1.0||||0.3697|TWO_SIDED|95.0|-3.2|1.19|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nera 9mg BID group and the Placebo group at Week 52.|The analysis used a Mixed Model for Repeated Measures (MMRM) with fixed categorical effects for treatment group and baseline antifibrotic therapy at each visit, and fixed continuous effects of baseline Living with Pulmonary Fibrosis (L-PF) Dyspnea domain score. An unstructured covariance structure accounted for within-patient correlations. Baseline antifibrotic use, as recorded in the concomitant medication case report form (CRF), was included as a covariate.||1.19|-3.20|0.3697
82547413|NCT05321069|164794455|SUPERIORITY||Mean Difference (Net)|-0.63||||0.5734|TWO_SIDED|95.0|-2.83|1.57|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Dyspnea score) between the Nera 18mg BID group and the Placebo group at Week 52.|The analysis used a Mixed Model for Repeated Measures (MMRM) with fixed categorical effects for treatment group and baseline antifibrotic therapy at each visit, and fixed continuous effects of baseline Living with Pulmonary Fibrosis (L-PF) Dyspnea domain score. An unstructured covariance structure accounted for within-patient correlations. Baseline antifibrotic use, as recorded in the concomitant medication case report form (CRF), was included as a covariate.||1.57|-2.83|0.5734
82547414|NCT05321069|164794456|SUPERIORITY||Mean Difference (Net)|-0.1||||0.9442|TWO_SIDED|95.0|-2.98|2.77|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nera 9 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Cough domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.77|-2.98|0.9442
82585977|NCT02640157|164883882|NON_INFERIORITY|Noninferiority: a) the lower bound (LB) of the 95%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was \>92%; or b) the LB of the 95%CI for the difference was below the non-inferiority margin of -6% and the LB of the 97.5%CI for the SVR12 rate within Arm C was \>92%; or c) the LB of the 97.5%CI for the difference was above the non-inferiority margin of -6% and the LB of the 95%CI for the SVR12 rate within Arm C was below 92%.|Difference in percentage of participants|-0.4|||||TWO_SIDED|97.5|-5.4|4.6||||||||4.6|-5.4|
82471199|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|-3.79||||0.0085|TWO_SIDED|95.0|-6.61|-0.97||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Fatigue Scale|||-0.97|-6.61|0.0085
82547415|NCT05321069|164794456|SUPERIORITY||Mean Difference (Net)|-0.59||||0.6862|TWO_SIDED|95.0|-3.47|2.28|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Cough score) between the Nera 18 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Cough domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.28|-3.47|0.6862
82471200|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|-3.58||||0.0642|TWO_SIDED|95.0|-7.37|0.21||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Future Health Scale|||0.21|-7.37|0.0642
82471201|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.6398|TWO_SIDED|95.0|-1.67|2.72||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Infection Scale|||2.72|-1.67|0.6398
82471202|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|-4.32||||0.0055|TWO_SIDED|95.0|-7.37|-1.28||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Social Problems Scale|||-1.28|-7.37|0.0055
82471203|NCT01039376|164637267|SUPERIORITY||Mean Difference (Final Values)|-2.49||||0.0063|TWO_SIDED|95.0|-4.27|-0.71||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Side Effects Scale|||-0.71|-4.27|0.0063
82471204|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.1816|TWO_SIDED|95.0|-3.64|0.69||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Appetite Loss|||0.69|-3.64|0.1816
82471205|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.2863|TWO_SIDED|95.0|-1.18|3.97||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Cognitive Functioning|||3.97|-1.18|0.2863
82471206|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-1.97||||0.0932|TWO_SIDED|95.0|-4.28|0.33||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Constipation|||0.33|-4.28|0.0932
82471207|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.6533|TWO_SIDED|95.0|-1.67|2.66||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Diarrhoea|||2.66|-1.67|0.6533
82471208|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-2.32||||0.0963|TWO_SIDED|95.0|-5.06|0.42||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Dyspnoea|||0.42|-5.06|0.0963
82471209|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|3.89||||0.0037|TWO_SIDED|95.0|1.27|6.51||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Emotional Functioning|||6.51|1.27|0.0037
82471210|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-4.63||||0.0013|TWO_SIDED|95.0|-7.45|-1.82||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Fatigue|||-1.82|-7.45|0.0013
82471211|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.2902|TWO_SIDED|95.0|-5.02|1.51||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Financial Difficulties|||1.51|-5.02|0.2902
82471212|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-1.22||||0.0606|TWO_SIDED|95.0|-2.49|0.05||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Nausea and Vomiting|||0.05|-2.49|0.0606
82547416|NCT05321069|164794457|SUPERIORITY||Mean Difference (Net)|0.19||||0.8759|TWO_SIDED|95.0|-2.25|2.63|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nera 9 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Fatigue domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.63|-2.25|0.8759
82585978|NCT00710021|164883886|SUPERIORITY_OR_OTHER|||||||0.53||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.53
82585979|NCT00710021|164883887|SUPERIORITY_OR_OTHER|||||||0.038||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.038
82471213|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-3.04||||0.0393|TWO_SIDED|95.0|-5.93|-0.15||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Pain|||-0.15|-5.93|0.0393
82471214|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|1.81||||0.0968|TWO_SIDED|95.0|-0.33|3.96||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Physical Functioning|||3.96|-0.33|0.0968
82471215|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.1449|TWO_SIDED|95.0|-0.61|4.17||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Global Health Status/QOL|||4.17|-0.61|0.1449
82471216|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|3.56||||0.0259|TWO_SIDED|95.0|0.43|6.7||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Role Functioning|||6.70|0.43|0.0259
82471217|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.0175|TWO_SIDED|95.0|0.64|6.65||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Social Functioning|||6.65|0.64|0.0175
82471218|NCT01039376|164637268|SUPERIORITY||Mean Difference (Final Values)|-1.79||||0.3209|TWO_SIDED|95.0|-5.33|1.75||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Insomnia|||1.75|-5.33|0.3209
82471219|NCT01039376|164637269|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.011|TWO_SIDED|95.0|0.01|0.06||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Utility Score|||0.06|0.01|0.0110
82471220|NCT01039376|164637269|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.1999|TWO_SIDED|95.0|-0.73|3.49||The analysis is adjusted for BL score, actual strata, age group, BL ECOG performance status and Binet stage at Screening using mixed-model (Proc Mixed) repeated with intercept, BL score by time and treatment by time interaction.|Repeated measures analysis of covariance||Thermometer Score|||3.49|-0.73|0.1999
82471221|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|1.547|||||TWO_SIDED|95.0|1.051|2.276|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 6q-, or +12q or 13q-/no abberation|||2.276|1.051|
82471222|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|9.303|||||TWO_SIDED|95.0|4.934|17.54|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 17p-/no abberation|||17.540|4.934|
82471223|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|4.219|||||TWO_SIDED|95.0|2.468|7.21|||||HR estimated for Cytogenetics Group (based on \>=20% cut-off) with 11q-/no abberation|||7.210|2.468|
82471224|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|1.832|||||TWO_SIDED|95.0|1.434|2.339|||||HR estimated for B2 Microglobulin Group 2 with 3500 as cut off: \>3500 ug/L/\<=3500 ug/L|||2.339|1.434|
82471225|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|0.573|||||TWO_SIDED|95.0|0.432|0.76|||||HR estimated for IgVH Mutational Status 1 Mutated/Unmutated|||0.760|0.432|
82471226|NCT01039376|164637281|SUPERIORITY||Hazard Ratio (HR)|1.301|||||TWO_SIDED|95.0|0.692|2.448|||||HR estimated for VH3-21 Usage Flag Yes/No.|||2.448|0.692|
82471227|NCT00123422|164637287|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||Statistical tests were 2-sided and a p value of \< 0.05 was the criterion for statistical significance.|ANCOVA|The baseline value was the co-variate in this analysis.||||||0.015
82471228|NCT00123422|164637288|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|The baseline value was the co-variate in this analysis.||||||<0.05
82471229|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Results presented were Bonferonni-corrected for a mid-point safety analysis||Comparisons of concentrations in D3 dosing groups at study end were made by ANOVA. Adherence of 80% was pre-specified for inclusion in analyses. .||||<.0001
82471230|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||=|0.56|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||=.56
82471231|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.0009|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0009
82471232|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
82471233|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.006
82471234|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
82471235|NCT01554241|164637289|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
82471236|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||analyses were corrected for multiple comparisons (Bonferroni)|ANOVA|||||||<.0001
82471237|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||=0.47
82547417|NCT05321069|164794457|SUPERIORITY||Mean Difference (Net)|0.43||||0.732|TWO_SIDED|95.0|-2.02|2.87|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in symptom change (L-PF Fatigue score) between the Nera 18 mg BID group and the Placebo group at Week 52.|The analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed categorical effects for treatment group at each visit, baseline use of antifibrotic therapy at each visit, and fixed continuous effects of the baseline Living with Pulmonary Fibrosis (L-PF) Fatigue domain score at each visit. An unstructured covariance structure modeled repeated measures. Baseline antifibrotic use, recorded in the concomitant medication case report form (CRF), was included as a covariate.||2.87|-2.02|0.7320
82585980|NCT00710021|164883888|SUPERIORITY_OR_OTHER|||||||0.047||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.047
82585981|NCT00710021|164883889|SUPERIORITY_OR_OTHER|||||||0.12||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.12
82471238|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.002|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.002
82471239|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
82471240|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.02
82471241|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0001
82471242|NCT01554241|164637290|SUPERIORITY_OR_OTHER||||||<|0.0003|TWO_SIDED||||||ANOVA|Bonferroni/Dunn adjustment||||||<.0003
82471243|NCT01532986|164637310|SUPERIORITY||Mean Difference (Final Values)|0.189|||>|0.05|TWO_SIDED|95.0|0.157|0.222|||t-test, 2 sided|||||0.222|0.157|>0.05
82471244|NCT01532986|164637311|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED|95.0|-0.04|0.08|||t-test, 2 sided|||||0.08|-0.04|>0.05
82471245|NCT01532986|164637312|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED|95.0|-0.52|0.57|||t-test, 2 sided|||||0.57|-0.52|>0.05
82471246|NCT01532986|164637313|SUPERIORITY||Mean Difference (Final Values)|-0.12|||>|0.05|TWO_SIDED|95.0|-0.34|0.1|||t-test, 2 sided|||||0.10|-0.34|>0.05
82471247|NCT01532986|164637314|SUPERIORITY||Mean Difference (Final Values)|-0.88|||>|0.05|TWO_SIDED|95.0|-2.04|0.29|||t-test, 2 sided|||||0.29|-2.04|>0.05
82471248|NCT01532986|164637315|SUPERIORITY||Mean Difference (Final Values)|1.22|||>|0.05|TWO_SIDED|95.0|-8.02|10.46|||t-test, 2 sided|||||10.46|-8.02|>0.05
82471249|NCT01532986|164637316|SUPERIORITY||Mean Difference (Final Values)|0.17|||>|0.05|TWO_SIDED|95.0|0.0|0.34|||t-test, 2 sided|||||0.34|0.00|>0.05
82579656|NCT03568318|164869931|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.2|||<|0.001|TWO_SIDED|95.0|31.0|43.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.3|31.0|<0.001
82579657|NCT03568318|164869931|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|24.0|||<|0.001|TWO_SIDED|95.0|18.1|29.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||29.9|18.1|<0.001
82376877|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.0592|STANDARD_ERROR_OF_MEAN|0.2045||0.7734|TWO_SIDED|90.0|-0.4032|0.2847|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2847|-0.4032|0.7734
82471250|NCT01532986|164637317|SUPERIORITY||Mean Difference (Final Values)|-0.06|||>|0.05|TWO_SIDED|95.0|-1.45|1.33|||t-test, 2 sided|||||1.33|-1.45|>0.05
82471251|NCT01532986|164637318|SUPERIORITY||Mean Difference (Final Values)|-11.52|||<|0.05|TWO_SIDED|95.0|-20.42|-2.62|||t-test, 2 sided|||||-2.62|-20.42|<0.05
82471252|NCT01532986|164637319|SUPERIORITY||Mean Difference (Final Values)|-1.98|||>|0.05|TWO_SIDED|95.0|-4.2|0.24|||t-test, 2 sided|||||0.24|-4.20|>0.05
82471253|NCT02120898|164637320|EQUIVALENCE|90% CI interval was -0.20 to +0.20 for therapeutic equivalence.|Percentage difference|-1.16||||0.0702|TWO_SIDED|90.0|-7.93|5.62|||Fisher Exact|||Analysis was performed using 90% Wald's confidence interval (CI) with a continuity correction or the difference (generic imiquimod - Zyclara) in complete clearance rates.||5.62|-7.93|0.0702
82471254|NCT02120898|164637321|SUPERIORITY||Percentage difference|0.14||||0.0318|TWO_SIDED|90.0|-6.08|6.35||Threshold for significance at 0.05 level.|Fisher Exact|||Analysis was performed using 90% Wald's CI with a continuity correction or the difference (generic imiquimod - Zyclara) in complete clearance rates.||6.35|-6.08|0.0318
82471255|NCT05021978|164637339|OTHER|||||||0.1048||||||Change from baseline to Day 7 in TETRAS Upper Limb Score|Mixed Models Analysis|Includes timepoint as fixed effect and baseline TETRAS score as a covariate. Within subject variability modeled using unstructured covariance pattern.||Sample size is a convenience sample determined according to feasibility to provide sufficient and safety data to inform the development of future controlled studies with PRAX-944. In the open-label phase of the trial (Part A ), at least 10 participants would provide an 80% probability of observing at least 1 AE with an underlying incidence of 15% or greater and provide approximately 80% power to detect an effect size of 1.0 on the primary endpoint change from baseline in TETRAS Upper Limb score.||||0.1048
82471256|NCT05021978|164637339|OTHER|||||||0.0028||||||Change from baseline to Day 14 in TETRAS UL score|Mixed Models Analysis|||||||0.0028
82471257|NCT05021978|164637343|OTHER|||||||0.4025|||||||Mixed Models Analysis|Change from baseline to Day 7||||||0.4025
82585982|NCT00710021|164883890|SUPERIORITY_OR_OTHER|||||||0.31||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifit1 expression.||||||0.31
82471258|NCT05021978|164637343|OTHER|||||||0.0766||||||Change from baseline to Day 14|Mixed Models Analysis|||||||0.0766
82471259|NCT05021978|164637344|OTHER|||||||0.2501||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.2501
82471260|NCT05021978|164637344|OTHER|||||||0.1874||||||Chnage from baseline to Day 14|Mixed Models Analysis|||||||0.1874
82471261|NCT05021978|164637345|OTHER|||||||0.4722||||||Item 6 Archimedes Spiral (right) change from baseline to Day 7|Mixed Models Analysis|||||||0.4722
82471262|NCT05021978|164637345|OTHER|||||||0.6215||||||Item 6 Archimedes Spiral (left) change from baseline to Day 7|Mixed Models Analysis|||||||0.6215
82471263|NCT05021978|164637345|OTHER|||||||0.9648||||||Item 7 Handwriting change from baseline to Day 7|Mixed Models Analysis|||||||0.9648
82471264|NCT05021978|164637345|OTHER|||||||0.2855||||||Item 7 Handwriting change from baseline to Day 14|Mixed Models Analysis|||||||0.2855
82471265|NCT05021978|164637345|OTHER|||||||0.205||||||Item 6 Archimedes Spiral (right) change from baseline to Day 14|Mixed Models Analysis|||||||0.2050
82471266|NCT05021978|164637345|OTHER|||||||0.2364||||||Item 6 Archimedes Spiral (left) change from baseline to Day 14|Mixed Models Analysis|||||||0.2364
82471267|NCT05021978|164637349|OTHER|||||||0.0216|||||||Mixed Models Analysis|||||||0.0216
82471268|NCT05021978|164637350|OTHER|||||||0.1042||||||Change from baseline Day 7|Mixed Models Analysis|||||||0.1042
82471269|NCT05021978|164637350|OTHER|||||||0.0257||||||Change from baseline Day 21|Mixed Models Analysis|||||||0.0257
82471270|NCT05021978|164637351|OTHER|||||||0.2971||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.2971
82471271|NCT05021978|164637351|OTHER|||||||0.2034||||||Change from baseline Day 21|Mixed Models Analysis|||||||0.2034
82471272|NCT05021978|164637351|OTHER|||||||0.1105||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.1105
82471273|NCT05021978|164637352|OTHER|||||||0.005||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.0050
82471274|NCT05021978|164637352|OTHER|||||||0.0018||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0018
82471275|NCT05021978|164637352|OTHER|||||||0.0061||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0061
82471276|NCT05021978|164637353|OTHER|||||||0.9776||||||Item 6 Archimedes Spiral (right) change from baseline to Day 7|Mixed Models Analysis|||||||0.9776
82471277|NCT05021978|164637353|OTHER|||||||0.1962||||||Item 6 Archimedes Spiral (left) change from baseline to Day 7|Mixed Models Analysis|||||||0.1962
82471278|NCT05021978|164637353|OTHER|||||||0.9419||||||Item 7 Handwriting change from baseline to Day 7|Mixed Models Analysis|||||||0.9419
82471279|NCT05021978|164637353|OTHER|||||||0.0668||||||Item 6 Archimedes Spiral (right) change from baseline to Day 21|Mixed Models Analysis|||||||0.0668
82471280|NCT05021978|164637353|OTHER|||||||0.9191||||||Item 6 Archimedes Spiral (left) change from baseline to Day 21|Mixed Models Analysis|||||||0.9191
82471281|NCT05021978|164637353|OTHER|||||||0.6075||||||Item 7 Handwriting change from baseline to Day 21|Mixed Models Analysis|||||||0.6075
82547418|NCT05321069|164794458|SUPERIORITY||Mean Difference (Net)|1.17||||0.028|TWO_SIDED|95.0|0.13|2.22|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted Forced Vital Capacity between the Nera 9 mg BID group and the placebo group at Week 52.|"Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline forced vital capacity (FVC) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form (CRF) page, was included as a covariate."||2.22|0.13|0.0280
82471282|NCT05021978|164637353|OTHER|||||||0.246||||||Item 6 Archimedes Spiral (right) change from baseline to Day 42|Mixed Models Analysis|||||||0.2460
82471283|NCT05021978|164637353|OTHER|||||||0.6736||||||Item 6 Archimedes Spiral (left) change from baseline to Day 42|Mixed Models Analysis|||||||0.6736
82471284|NCT05021978|164637353|OTHER|||||||0.8511||||||Item 7 Handwriting change from baseline to Day 42|Mixed Models Analysis|||||||0.8511
82471285|NCT05021978|164637354|OTHER|||||||0.1505||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.1505
82547419|NCT05321069|164794458|SUPERIORITY||Mean Difference (Net)|1.73||||0.0013|TWO_SIDED|95.0|0.68|2.78|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted Forced Vital Capacity between the Nera 18 mg BID group and the placebo group at Week 52.|"Analysis was based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline forced vital capacity (FVC) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication case report form (CRF) page, was included as a covariate."||2.78|0.68|0.0013
82579658|NCT03568318|164869932|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|38.8|||<|0.001|TWO_SIDED|95.0|32.8|44.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.8|32.8|<0.001
82471286|NCT05021978|164637354|OTHER|||||||0.0543||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0543
82471287|NCT05021978|164637354|OTHER|||||||0.0015||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0015
82471288|NCT05021978|164637355|OTHER|||||||0.8638||||||Change from baseline to Day 7|Mixed Models Analysis|||||||0.8638
82471289|NCT05021978|164637355|OTHER|||||||0.0605||||||Change from baseline to Day 21|Mixed Models Analysis|||||||0.0605
82471290|NCT05021978|164637355|OTHER|||||||0.0871||||||Change from baseline to Day 42|Mixed Models Analysis|||||||0.0871
82471291|NCT00043979|164637367|SUPERIORITY_OR_OTHER|||||||0.0003||||||7 participants who did not receive a transplant compared with 21 participants transplanted.|Kaplan-Meier|||||||.0003
82471292|NCT01411891|164637383|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.3|8.4||||||||8.4|0.3|
82471293|NCT01411891|164637384|SUPERIORITY||Risk Ratio (RR)|0.8||||0.65|TWO_SIDED|95.0|0.4|1.6|||Regression, Logistic|||||1.6|0.4|0.65
82471294|NCT02004093|164637386|SUPERIORITY_OR_OTHER|||||||0.3967|||||||Log Rank|||||||0.3967
82471295|NCT02004093|164637386|SUPERIORITY_OR_OTHER|||||||0.4552|||||||Wilcoxon (Mann-Whitney)|||||||0.4552
82471296|NCT02004093|164637386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.3972|TWO_SIDED|80.0|0.92|1.49||p-value resulting from Wald test of null hypothesis that the hazard ratio equals (=) 1|Wald test|||||1.49|0.92|0.3972
82471297|NCT02004093|164637387|SUPERIORITY_OR_OTHER||Difference in Response Rates|6.32||||0.3943|TWO_SIDED|80.0|-3.9|16.6|||Chi-squared|||||16.6|-3.9|0.3943
82471298|NCT02004093|164637387|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36|||||TWO_SIDED|80.0|0.86|2.17|||||approximate 80% confidence interval (CI) for difference of two rates using Hauck-Anderson method|||2.17|0.86|
82471299|NCT02004093|164637388|SUPERIORITY_OR_OTHER|||||||0.3655|||||||Log Rank|||||||0.3655
82471300|NCT02004093|164637388|SUPERIORITY_OR_OTHER|||||||0.1319|||||||Wilcoxon (Mann-Whitney)|||||||0.1319
82471301|NCT02004093|164637388|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.3679|TWO_SIDED|80.0|0.92|1.61|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.61|0.92|0.3679
82471302|NCT02004093|164637391|SUPERIORITY_OR_OTHER|||||||0.8129|||||||Log Rank|||||||0.8129
82471303|NCT02004093|164637391|SUPERIORITY_OR_OTHER|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||||||0.6920
82650763|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.049|TWO_SIDED|95.0|1.0|2.64|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.64|1.00|0.0490
82650764|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.32||||0.2124|TWO_SIDED|95.0|0.85|2.06|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.06|0.85|0.2124
82650765|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.1078|TWO_SIDED|95.0|0.93|2.14|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.14|0.93|0.1078
82650766|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.69||||0.0094|TWO_SIDED|95.0|1.14|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|1.14|0.0094
82650767|NCT01360632|165016446|SUPERIORITY_OR_OTHER||Ratio of response rate|1.65||||0.0162|TWO_SIDED|95.0|1.09|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.50|1.09|0.0162
82471304|NCT02004093|164637391|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8137|TWO_SIDED|80.0|0.82|1.32|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.32|0.82|0.8137
82471305|NCT02004093|164637394|SUPERIORITY_OR_OTHER|||||||0.5726|||||||Log Rank|||||||0.5726
82471306|NCT02004093|164637394|SUPERIORITY_OR_OTHER|||||||0.3903|||||||Wilcoxon (Mann-Whitney)|||||||0.3903
82471307|NCT02004093|164637394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.587|TWO_SIDED|80.0|0.87|1.43|||Wald test|p-value resulting from Wald test of null hypothesis that the hazard ratio=1||||1.43|0.87|0.5870
82471308|NCT02004093|164637396|SUPERIORITY_OR_OTHER|||||||0.9261|||||||Log Rank|||||||0.9261
82471309|NCT02004093|164637396|SUPERIORITY_OR_OTHER|||||||0.8591|||||||Wilcoxon (Mann-Whitney)|||||||0.8591
82471310|NCT02004093|164637396|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9262|TWO_SIDED|80.0|0.74|1.41||p-value resulting from Wald test of null hypothesis that the hazard ratio=1|Wald test|||||1.41|0.74|0.9262
82471311|NCT00414596|164637461|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Mixed Models Analysis|The primary pain end-point was assessed by a mixed effect model with time (visit) and as fixed effects and subject as random effect.||"Hypothesis: Patients with chronic low back pain who undergo spinal decompression with a standardized 6-week regimen consisting of 20 treatments with the spinal decompression system would experience \>50% reduction in their verbal score of pain intensity.~Power Analysis: Mean pain scores at time of enrollment were assumed to equal 6 with potential reduction in pain of 50%. To obtain 80% power at an alpha level of 0.05, sample size was estimated as 20 patients."||||.0001
82471312|NCT04614974|164637473|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82471313|NCT04614974|164637474|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82471314|NCT04614974|164637475|OTHER|||||||0.5|||||||McNemar|||Noisy breathing pre/post||||0.5
82471315|NCT04614974|164637475|OTHER|||||||0.01|||||||McNemar|||Noisy breathing pre/post||||0.01
82471316|NCT04614974|164637475|OTHER|||||||0.2|||||||McNemar|||Stridor pre/post||||0.2
82471317|NCT04614974|164637475|SUPERIORITY|||||||0.02|||||||McNemar|||Stridor pre/post||||0.02
82471318|NCT04614974|164637475|OTHER|||||||0.5|||||||McNemar|||Chest wall retractions pre/post||||0.5
82471319|NCT04614974|164637475|OTHER|||||||1|||||||McNemar|||Chest wall retractions pre/post||||1.0
82471320|NCT04614974|164637475|OTHER|||||||1|||||||McNemar|||Apnea pre/post||||1.0
82471321|NCT04614974|164637476|OTHER|||||||0.5|||||||McNemar|||Emesis pre/post||||0.5
82471322|NCT04614974|164637476|OTHER|||||||0.07|||||||McNemar|||Emesis pre/post||||0.07
82471323|NCT04614974|164637476|SUPERIORITY|||||||0.06|||||||McNemar|||Choking pre/post||||0.06
82471324|NCT04614974|164637476|OTHER|||||||1|||||||McNemar|||Choking pre/post||||1.0
82471325|NCT04614974|164637476|OTHER|||||||0.02|||||||McNemar|||Coughing pre/post||||0.02
82471326|NCT04614974|164637476|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Coughing pre/post||||1.0
82471327|NCT04614974|164637476|OTHER|||||||1|||||||McNemar|||Gagging pre/post||||1.0
82471328|NCT04614974|164637477|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82471329|NCT04614974|164637478|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82471330|NCT02558296|164637483|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-0.48|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.39||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the primary endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.39|-0.56|<0.0001
82585983|NCT00710021|164883891|SUPERIORITY_OR_OTHER|||||||0.019||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifit1 expression.||||||0.019
82650768|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of remission rate|1.03||||0.9498|TWO_SIDED|95.0|0.37|2.9|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.90|0.37|0.9498
82471331|NCT02558296|164637484|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.4||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories, history of heart failure, treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.40|-0.65|<0.0001
82471332|NCT02558296|164637485|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in body weight from baseline to Week 48 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-2.65|||<|0.0001|TWO_SIDED|95.0|-3.07|-2.24||P-value is presented based on one-sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline HbA1c and eGFR, history of heart failure, insulin use (Y/N), treatment, visit and baseline body weight as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in body weight from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-2.24|-3.07|<0.0001
82471333|NCT02558296|164637486|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in systolic blood pressure from baseline to Week 24 was less than the mean change in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Net)|-2.96||||0.0112|TWO_SIDED|95.0|-5.51|-0.42||P-value is presented based on one-sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline HbA1c, GFR categories, BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline SBP as fixed effect covariate.||The null hypothesis for the secondary endpoint was that the mean change in systolic blood pressure from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.42|-5.51|0.0112
82547420|NCT05321069|164794459|SUPERIORITY||Mean Difference (Net)|2.49||||0.0042|TWO_SIDED|95.0|0.79|4.19|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted DLCO between the Nera 9 mg BID group and the placebo group at Week 52.|"Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication CRF page, was included as a covariate."||4.19|0.79|0.0042
82547421|NCT05321069|164794459|SUPERIORITY||Mean Difference (Net)|1.67||||0.053|TWO_SIDED|95.0|-0.02|3.37|||Mixed Models Analysis||The adjusted mean difference represents the model-estimated difference in percent predicted DLCO between the Nera 18 mg BID group and the placebo group at Week 52.|"Based on a Mixed Model for Repeated Measures (MMRM), which included fixed, categorical effects of treatment, baseline use of antifibrotic therapy, and the fixed continuous effects of baseline diffusing capacity of the lungs for carbon monoxide (DLCO) percentage predicted at each visit. An unstructured covariance structure was used to model repeated measures within patients.~Baseline use of antifibrotic therapy, as recorded in the concomitant medication CRF page, was included as a covariate."||3.37|-0.02|0.0530
82547422|NCT02412748|164794462|SUPERIORITY|||||||0.962|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.962
82547423|NCT02412748|164794463|SUPERIORITY|||||||0.982|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.982
82547424|NCT02412748|164794464|SUPERIORITY|||||||0.534|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.534
82547425|NCT02412748|164794465|SUPERIORITY|||||||0.73|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.730
82547426|NCT02412748|164794466|SUPERIORITY|||||||0.927|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.927
82547427|NCT02412748|164794467|SUPERIORITY|||||||0.841|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.841
82547428|NCT02412748|164794468|SUPERIORITY|||||||0.722|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.722
82471334|NCT02558296|164637487|SUPERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 6 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.5|-0.39||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 6 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.39|-0.50|<0.0001
82471335|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 12 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.56|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.49||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 12 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.49|-0.63|<0.0001
82471336|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 24 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.38|-0.56|<0.0001
82471337|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 36 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 36 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.38|-0.56|<0.0001
82471338|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 48 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.37||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.37|-0.56|<0.0001
82471339|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 72 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.31||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 72 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.31|-0.54|<0.0001
82471340|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 96 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.39|||<|0.0001|TWO_SIDED|95.0|-0.51|-0.27||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 96 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.27|-0.51|<0.0001
82547429|NCT02412748|164794469|SUPERIORITY|||||||0.715|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.715
82547430|NCT02412748|164794470|SUPERIORITY|||||||0.9|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.900
82547431|NCT02412748|164794471|SUPERIORITY|||||||0.271|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.271
82585984|NCT00710021|164883892|SUPERIORITY_OR_OTHER|||||||0.28||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifi44 expression.||||||0.28
82547432|NCT02412748|164794472|SUPERIORITY|||||||0.987|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.987
82579659|NCT03568318|164869932|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|23.3|||<|0.001|TWO_SIDED|95.0|17.7|28.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||28.9|17.7|<0.001
82579660|NCT03568318|164869933|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|21.2|||<|0.001|TWO_SIDED|95.0|16.3|26.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||26.1|16.3|<0.001
82579661|NCT03568318|164869934|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|16.2|||<|0.001|TWO_SIDED|95.0|11.3|21.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||21.1|11.3|<0.001
82579662|NCT03568318|164869934|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|9.2|||<|0.001|TWO_SIDED|95.0|4.9|13.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||13.4|4.9|<0.001
82579663|NCT03568318|164869935|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-41.79|STANDARD_ERROR_OF_MEAN|4.417|<|0.001|TWO_SIDED|95.0|-50.46|-33.11|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.11|-50.46|<0.001
82579664|NCT03568318|164869935|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|LS Mean Difference|-33.08|STANDARD_ERROR_OF_MEAN|4.403|<|0.001|TWO_SIDED|95.0|-41.72|-24.44|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-24.44|-41.72|<0.001
82650769|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|0.13||||0.0141|TWO_SIDED|95.0|0.02|0.94|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||0.94|0.02|0.0141
82547433|NCT02412748|164794473|SUPERIORITY|||||||0.967|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.967
82650770|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|0.93||||0.8609|TWO_SIDED|95.0|0.4|2.17|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.17|0.40|0.8609
82547434|NCT02412748|164794474|SUPERIORITY|||||||0.693|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.693
82547435|NCT02412748|164794475|SUPERIORITY|||||||0.557|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.557
82547436|NCT02412748|164794476|SUPERIORITY|||||||0.681|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.681
82547437|NCT02412748|164794477|SUPERIORITY|||||||0.389|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.389
82547438|NCT02412748|164794478|SUPERIORITY|||||||0.846|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.846
82547439|NCT02412748|164794479|SUPERIORITY|||||||0.871|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.871
82547440|NCT02412748|164794480|SUPERIORITY|||||||0.986|||||||ANCOVA|||Data were analyzed using a 3 × 2 repeated measures analysis of covariance (RM-ANCOVA) with 3 assessments crossed with two treatment conditions (BBTF and FLP). Five variables were included as covariates: father's age, father's highest level of education, number of members in father's social network, number of adults in the household, and sex of the target child. The effect of interest was the condition x time interaction.||||.986
82579665|NCT03568318|164869936|SUPERIORITY||LS Mean Difference|-41.45|STANDARD_ERROR_OF_MEAN|2.662|<|0.001|TWO_SIDED|95.0|-46.68|-36.22|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 30 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.||-36.22|-46.68|<0.001
82579666|NCT03568318|164869936|SUPERIORITY|The overall type I error rate of the coprimary and all key secondary endpoints for upadacitinib 15 mg was controlled at the 0.05 level using a graphical multiple testing procedure following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-32.13|STANDARD_ERROR_OF_MEAN|2.659|<|0.001|TWO_SIDED|95.0|-37.35|-26.91|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-26.91|-37.35|<0.001
82579667|NCT03568318|164869937|SUPERIORITY||Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|38.8|67.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.4|38.8|<0.001
82579668|NCT03568318|164869937|SUPERIORITY||Adjusted Response Rate Difference|32.7|||<|0.001|TWO_SIDED|95.0|16.3|49.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||49.0|16.3|<0.001
82650771|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|0.59||||0.2846|TWO_SIDED|95.0|0.22|1.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.54|0.22|0.2846
82650772|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.5||||0.248|TWO_SIDED|95.0|0.75|2.99|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.99|0.75|0.2480
82650773|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.13||||0.7513|TWO_SIDED|95.0|0.54|2.37|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.37|0.54|0.7513
82547441|NCT02412748|164794481|SUPERIORITY|||||||0.791|||||||ANCOVA|||||||.791
82547442|NCT02412748|164794482|SUPERIORITY|||||||0.583|||||||ANCOVA|||||||.583
82547443|NCT02412748|164794483|SUPERIORITY|||||||0.851|||||||ANCOVA|||||||.851
82547444|NCT04048382|164794565|SUPERIORITY||Odds Ratio (OR)|1.1||||0.88|TWO_SIDED||||||Regression, Logistic|||||||.88
82547445|NCT04048382|164794566|SUPERIORITY||Odds Ratio (OR)|1.7||||0.49|TWO_SIDED||||||Regression, Logistic|||||||.49
82547446|NCT04048382|164794567|SUPERIORITY||Odds Ratio (OR)|1.1||||0.91|TWO_SIDED||||||Regression, Logistic|||||||.91
82547447|NCT04048382|164794568|SUPERIORITY||Odds Ratio (OR)|1.4||||0.65|TWO_SIDED||||||Regression, Logistic|||||||.65
82547448|NCT04048382|164794569|SUPERIORITY||Odds Ratio (OR)|0.29||||0.17|TWO_SIDED||||||Regression, Logistic|||||||.17
82547449|NCT04048382|164794570|SUPERIORITY||Odds Ratio (OR)|0.29||||0.19|TWO_SIDED||||||Regression, Logistic|||||||.19
82547450|NCT01227265|164794572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.2||||0.4933|TWO_SIDED|95.0|-0.72|0.35|||cLDA|||||0.35|-0.72|0.4933
82471341|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 120 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.43|||<|0.0001|TWO_SIDED|95.0|-0.56|-0.3||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 120 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.30|-0.56|<0.0001
82471342|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 144 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.38|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.23||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 144 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.23|-0.54|<0.0001
82471343|NCT02558296|164637487|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline HbA1c from baseline to Week 168 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.27||||0.0045|TWO_SIDED|95.0|-0.47|-0.07||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories and BMI, history of heart failure, insulin use (Y/N), treatment, visit and baseline HbA1c as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in HbA1c from baseline to Week 168 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.07|-0.47|0.0045
82471344|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 6 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1.55|-1.15||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 6 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.15|-1.55|<0.0001
82471345|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 12 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.39|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.18||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 12 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.18|-1.61|<0.0001
82471346|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 24 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.39|||<|0.0001|TWO_SIDED|95.0|-1.61|-1.16||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 24 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-1.16|-1.61|<0.0001
82579669|NCT03568318|164869938|SUPERIORITY||Adjusted Response Rate Difference|55.4|||<|0.001|TWO_SIDED|95.0|41.4|69.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||69.5|41.4|<0.001
82579670|NCT03568318|164869938|SUPERIORITY||Adjusted Response Rate Difference|26.3|||<|0.001|TWO_SIDED|95.0|12.1|40.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.4|12.1|<0.001
82471347|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 36 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.41|-0.89||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 36 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.89|-1.41|<0.0001
82471348|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 48 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.23|||<|0.0001|TWO_SIDED|95.0|-1.48|-0.98||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 48 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.98|-1.48|<0.0001
82579671|NCT03568318|164869939|SUPERIORITY||Adjusted Response Rate Difference|30.5|||<|0.001|TWO_SIDED|95.0|14.1|46.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||46.8|14.1|<0.001
82579672|NCT03568318|164869939|SUPERIORITY||Adjusted Response Rate Difference|24.5||||0.003|TWO_SIDED|95.0|8.2|40.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.8|8.2|0.003
82579673|NCT03568318|164869940|SUPERIORITY||Adjusted Response Rate Difference|52.0|||<|0.001|TWO_SIDED|95.0|37.3|66.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.7|37.3|<0.001
82579674|NCT03568318|164869940|SUPERIORITY||Adjusted Response Rate Difference|27.1||||0.001|TWO_SIDED|95.0|11.1|43.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.1|11.1|0.001
82579675|NCT03568318|164869941|SUPERIORITY||Adjusted Response Rate Difference|23.5||||0.006|TWO_SIDED|95.0|6.9|40.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||40.1|6.9|0.006
82471349|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 72 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.72||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 72 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.72|-1.27|<0.0001
82471350|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 96 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 96 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.90|-1.50|<0.0001
82471351|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 120 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.49|-0.82||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 120 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.82|-1.49|<0.0001
82471352|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 144 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.63||||0.0008|TWO_SIDED|95.0|-1.01|-0.24||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 144 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||-0.24|-1.01|0.0008
82579676|NCT03568318|164869941|SUPERIORITY||Adjusted Response Rate Difference|22.7||||0.007|TWO_SIDED|95.0|6.2|39.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||39.2|6.2|0.007
82579677|NCT03568318|164869942|SUPERIORITY||Adjusted Response Rate Difference|49.3|||<|0.001|TWO_SIDED|95.0|34.1|64.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||64.6|34.1|<0.001
82579678|NCT03568318|164869942|SUPERIORITY||Adjusted Response Rate Difference|26.2||||0.002|TWO_SIDED|95.0|9.4|43.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||43.1|9.4|0.002
82579679|NCT03568318|164869943|SUPERIORITY||Adjusted Response Rate Difference|41.5|||<|0.001|TWO_SIDED|95.0|27.8|55.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||55.1|27.8|<0.001
82579680|NCT03568318|164869943|SUPERIORITY||Adjusted Response Rate Difference|24.4||||0.001|TWO_SIDED|95.0|10.3|38.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||38.4|10.3|0.001
82579681|NCT03568318|164869944|SUPERIORITY||Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|20.6|49.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||49.3|20.6|<0.001
82471353|NCT02558296|164637488|NON_INFERIORITY|Rejection of the null hypothesis would imply that the mean change in baseline FPG from baseline to Week 168 was less than that in the placebo arm by a value that could not be attributed to chance alone.|Mean Difference (Final Values)|-0.5||||0.0462|TWO_SIDED|95.0|-1.09|0.08||P-value is based on one sided statistical tests using a 0.025 level of significance.|Mixed-effects repeated measures|Region, baseline eGFR categories \& BMI, history of HF, insulin use, treatment, visit, hypoglycemic use and baseline FPG as fixed effect covariate.||The null hypothesis for the exploratory endpoint was that the mean change in FPG from baseline to Week 168 in the bexagliflozin arm would be equal to or greater than the mean change in the placebo arm.||0.08|-1.09|0.0462
82471354|NCT02558296|164637489|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.41||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||0.41|0.22|<0.0001
82471355|NCT02558296|164637490|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.35|0.49||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for time to first event in the bexagliflozin arm vs. placebo arm during entire study.|||0.49|0.35|<0.0001
82471356|NCT02558296|164637491|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0005|TWO_SIDED|95.0|1.33|3.11||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the ratio of bexagliflozin over placebo.|||3.11|1.33|0.0005
82471357|NCT02558296|164637492|SUPERIORITY||Hazard Ratio (HR)|1.82|||<|0.0001|TWO_SIDED|95.0|1.4|2.38||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for time to first event in the bexagliflozin arm vs. placebo arm during the entire study.|||2.38|1.40|<0.0001
82471358|NCT02558296|164637493|SUPERIORITY||Odds Ratio (OR)|0.63||||0.0803|TWO_SIDED|95.0|0.33|1.2||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||1.20|0.33|0.0803
82471359|NCT02558296|164637493|SUPERIORITY||Odds Ratio (OR)|0.47||||0.0272|TWO_SIDED|95.0|0.22|1.01||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Logistic|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Odds ratio is calculated as the odds ratio of bexagliflozin over placebo.|||1.01|0.22|0.0272
82471360|NCT02558296|164637493|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0757|TWO_SIDED|95.0|0.34|1.18||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for treatment comparison vs. placebo.|||1.18|0.34|0.0757
82471361|NCT02558296|164637493|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0273|TWO_SIDED|95.0|0.23|1.01||P-value is based on one sided statistical tests using a 0.025 level of significance.|Regression, Cox|Region, baseline eGFR categories \& BMI, history of heart failure, insulin use (Y/N), treatment and baseline HbA1c as fixed effect covariate.|Hazard ratio and p-value were estimated using Cox regression model for treatment comparison vs. placebo.|||1.01|0.23|0.0273
82471362|NCT02754440|164637494|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 5.0 × 10\^6 for the single platelet product group. The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
82471363|NCT02754440|164637494|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 8.0 × 10\^6 for the double platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
82547451|NCT01227265|164794572|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.3||||0.2364|TWO_SIDED|95.0|-0.86|0.21|||cLDA|||||0.21|-0.86|0.2364
82547452|NCT01227265|164794573|SUPERIORITY_OR_OTHER||Estimated Difference in Percentage|7.0||||0.244|TWO_SIDED|95.0|-4.17|18.05||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline average OFF time (hours/day) as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|Mixed Models Analysis|||||18.05|-4.17|0.244
82547453|NCT01227265|164794573|SUPERIORITY_OR_OTHER||Estimated Difference in Percentage|6.5||||0.262|TWO_SIDED|95.0|-4.63|17.61||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline average OFF time (hours/day) as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|Mixed Models Analysis|||||17.61|-4.63|0.262
82547454|NCT01227265|164794574|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.776|TWO_SIDED|95.0|-0.47|0.63|||cLDA|||||0.63|-0.47|0.776
82547455|NCT01227265|164794574|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.683|TWO_SIDED|95.0|-0.44|0.67|||cLDA|||||0.67|-0.44|0.683
82547456|NCT01227265|164794578|SUPERIORITY_OR_OTHER||Difference in Estimated Means|-0.2||||0.6968|TWO_SIDED|95.0|-0.92|0.61|||cLDA|||||0.61|-0.92|0.6968
82547457|NCT01227265|164794578|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.2||||0.6142|TWO_SIDED|95.0|-0.57|0.97|||cLDA|||||0.97|-0.57|0.6142
82547458|NCT02269475|164794592|SUPERIORITY_OR_OTHER||Vaccine efficacy (%)|100.0|||||TWO_SIDED|95.0|-1875.3|100.0||"No statistical tests were used, instead the confidence interval was used for showing superiority.~If lower bound of the 95% CI is greater than 0%, the efficacy of MEDI3250 is demonstrated."|Exact conditional method|Estimated by an exact conditional method in total number of cases which follows a Poisson assumption.|Vaccine efficacy (%) = (1-RR)\*100 where RR = Risk Reduction.|||100.0|-1875.3|
82579682|NCT03568318|164869944|SUPERIORITY||Adjusted Response Rate Difference|24.5||||0.001|TWO_SIDED|95.0|10.4|38.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||38.7|10.4|0.001
82471364|NCT02754440|164637494|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 12.0 × 10\^6 for the triple platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
82547459|NCT02269475|164794593|SUPERIORITY_OR_OTHER||Vaccine efficacy (%)|27.5|||||TWO_SIDED|95.0|7.4|43.0||"No statistical tests were used, instead the confidence interval was used for showing superiority.~If lower bound of the 95% CI is greater than 0%, the efficacy of MEDI3250 is demonstrated."|Exact conditional method|Estimated by an exact conditional method in total number of cases which follows a Poisson assumption.|Vaccine efficacy (%) = (1-RR)\*100 where RR = Risk Reduction.|||43.0|7.4|
82547460|NCT05368558|164794610|SUPERIORITY||Mean Difference (Final Values)|9.6|||||TWO_SIDED|95.0|-4.0|23.1||||||||23.1|-4.0|
82547461|NCT05368558|164794610|SUPERIORITY||Mean Difference (Final Values)|-15.0|||||TWO_SIDED|95.0|-28.7|-1.4||||||||-1.4|-28.7|
82547462|NCT05368558|164794611|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.7|1.2||||||||1.2|-0.7|
82547463|NCT05368558|164794611|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.7|0.3||||||||0.3|-1.7|
82547464|NCT05368558|164794612|SUPERIORITY||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|-2.5|7.5||||||||7.5|-2.5|
82547465|NCT05368558|164794612|SUPERIORITY||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-8.0|0.0||||||||0.0|-8.0|
82547466|NCT05368558|164794613|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-8.9|9.7||||||||9.7|-8.9|
82547467|NCT05368558|164794613|SUPERIORITY||Mean Difference (Final Values)|-11.3|||||TWO_SIDED|95.0|-18.5|-4.1||||||||-4.1|-18.5|
82579683|NCT03568318|164869945|SUPERIORITY||Adjusted Response Rate Difference|19.8||||0.001|TWO_SIDED|95.0|7.8|31.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||31.8|7.8|0.001
82471365|NCT02754440|164637495|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 3.0 × 10\^11 for the single platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|0.957|STANDARD_ERROR_OF_MEAN|0.021|||ONE_SIDED|95.0|0.904|||||||Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.904|
82547468|NCT05368558|164794614|SUPERIORITY||Mean Difference (Final Values)|3.3|||||TWO_SIDED|95.0|-1.0|7.5||||||||7.5|-1.0|
82547469|NCT05368558|164794614|SUPERIORITY||Mean Difference (Final Values)|-4.6|||||TWO_SIDED|95.0|-8.9|-0.4||||||||-0.4|-8.9|
82547470|NCT05368558|164794615|SUPERIORITY||Mean Difference (Final Values)|3.4|||||TWO_SIDED|95.0|-0.9|7.7||||||||7.7|-0.9|
82547471|NCT05368558|164794615|SUPERIORITY||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-10.2|-0.3||||||||-0.3|-10.2|
82547472|NCT04994509|164794623|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.042||p-value for rate ratio vs bHIV is from likelihood ratio test.|Likelihood ratio test||Confidence Interval (CI) for rate ratio vs bHIV is from a likelihood-based method.|Null Hypothesis 01: LEN/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than bHIV.||0.042|0.000|<0.0001
82547473|NCT04994509|164794623|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.042||p-value for rate ratio vs bHIV is from likelihood ratio test.|Likelihood ratio test||CI for rate ratio vs bHIV is based on a likelihood-based method.|Null Hypothesis 02: LEN/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly and at least 20% lower than bHIV.||0.042|0.000|<0.0001
82547474|NCT04994509|164794623|SUPERIORITY||Rate Ratio|0.839||||0.20697|TWO_SIDED|95.0|0.55|1.279||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 03: F/TAF/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in F/TAF was significantly lower than bHIV.||1.279|0.550|0.20697
82547475|NCT04994509|164794623|SUPERIORITY||Rate Ratio|0.839||||0.58674|TWO_SIDED|95.0|0.55|1.279||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 04: F/TAF/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in F/TAF was significantly and at least 20% lower than bHIV.||1.279|0.550|0.58674
82547476|NCT04994509|164794624|SUPERIORITY||Rate Ratio|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.101||p-value for rate ratio vs F/TDF is from an exact conditional Poisson model.|Poisson model||CI is from an exact conditional Poisson model.|||0.101|0.000|< 0.0001
82547477|NCT04994509|164794624|SUPERIORITY||Rate Ratio|1.198||||0.7282|TWO_SIDED|95.0|0.669|2.143||p-value for rate ratio vs F/TDF is from a Poisson model.|Poisson model||CI is from a Poisson model.|||2.143|0.669|0.72820
82547478|NCT04994509|164794624|OTHER|Comparability to F/TDF is defined as the HIV-1 incidence in the LEN group at most 0.8/100 PY higher than in the F/TDF group.|Rate Difference|-1.685|||<|0.0001|TWO_SIDED|95.0|-2.737|-0.939||p-value for rate difference vs F/TDF is based on a hybrid approach.|Hybrid approach||Exact CI is based on a hybrid approach.|||-0.939|-2.737|<0.0001
82547479|NCT04994509|164794624|OTHER|Comparability to F/TDF is defined as the HIV-1 incidence in the F/TAF group at most 0.8/100 PY higher than in the F/TDF group.|Rate Difference|0.333||||0.209|TWO_SIDED|95.0|-0.869|1.367||p-value for rate difference vs F/TDF is based on a hybrid approach.|Hybrid approach||Exact CI is based on a hybrid approach.|||1.367|-0.869|0.20900
82547480|NCT04994509|164794626|SUPERIORITY||Exact Odds Ratio|9.0||||0.0006|TWO_SIDED|95.0|2.06|83.36||p-value is from exact conditional logistic regression model.|ExactConditionalLogisticRegressionModel||Exact odds ratio and and CI are from exact conditional logistic regression model.|||83.36|2.06|0.0006
82579684|NCT03568318|164869946|SUPERIORITY||Adjusted Response Rate Difference|6.2||||0.306|TWO_SIDED|95.0|-5.7|18.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||18.2|-5.7|0.306
82471366|NCT02754440|164637495|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 6.2 × 10\^11 for the double platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
82471367|NCT02754440|164637495|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 9.3 × 10\^11 for the triple platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 450 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
82650774|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.82||||0.0554|TWO_SIDED|95.0|0.99|3.35|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||3.35|0.99|0.0554
82471368|NCT02919995|164637516|OTHER||Contrast ratio|1.038||||0.0196|TWO_SIDED|95.0|1.007|1.07|||ANCOVA|||||1.07|1.007|0.0196
82471369|NCT02919995|164637516|OTHER||Contrast ratio|1.024||||0.0802|TWO_SIDED|95.0|0.997|1.052|||ANCOVA|||||1.052|0.997|0.0802
82471370|NCT02919995|164637516|OTHER||Contrast ratio|0.986||||0.3487|TWO_SIDED|95.0|0.957|1.017|||ANCOVA|||||1.017|0.957|0.3487
82471371|NCT02919995|164637517|OTHER||Contrast ratio|1.072||||0.0043|TWO_SIDED|95.0|1.026|1.12|||ANCOVA|||||1.12|1.026|0.0043
82471372|NCT02919995|164637517|OTHER||Contrast ratio|1.055||||0.0109|TWO_SIDED|95.0|1.014|1.096|||ANCOVA|||||1.096|1.014|0.0109
82471373|NCT02919995|164637517|OTHER||Contrast ratio|0.984||||0.4306|TWO_SIDED|95.0|0.942|1.027|||ANCOVA|||||1.027|0.942|0.4306
82471374|NCT02919995|164637518|OTHER||Contrast ratio|1.065||||0.0064|TWO_SIDED|95.0|1.021|1.11|||ANCOVA|||||1.11|1.021|0.0064
82471375|NCT02919995|164637518|OTHER||Contrast ratio|1.049||||0.0149|TWO_SIDED|95.0|1.011|1.089|||ANCOVA|||||1.089|1.011|0.0149
82471376|NCT02919995|164637518|OTHER||Contrast ratio|0.945||||0.466|TWO_SIDED|95.0|0.945|1.027|||ANCOVA|||||1.027|0.945|0.466
82471377|NCT02919995|164637519|OTHER||Contrast ratio|1.061||||0.0093|TWO_SIDED|95.0|1.017|1.107|||ANCOVA|||||1.107|1.017|0.0093
82471378|NCT02919995|164637519|OTHER||Contrast ratio|1.042||||0.0333|TWO_SIDED|95.0|1.004|1.082|||ANCOVA|||||1.082|1.004|0.0333
82471379|NCT02919995|164637519|OTHER||Contrast ratio|0.982||||0.3693|TWO_SIDED|95.0|0.941|1.024|||ANCOVA|||||1.024|0.941|0.3693
82471380|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|2.27|||||TWO_SIDED|95.0|-3.96|8.49||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||8.49|-3.96|
82471381|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|0.198|||||TWO_SIDED|95.0|-3.19|3.59||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.59|-3.19|
82471382|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|1.55|||||TWO_SIDED|95.0|-2.25|5.35||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.35|-2.25|
82471383|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|20.0|||||TWO_SIDED|95.0|13.7|26.2||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||26.2|13.7|
82471384|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|6.19|||||TWO_SIDED|95.0|2.8|9.58||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.58|2.80|
82471385|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|11.7|||||TWO_SIDED|95.0|7.87|15.5||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||15.5|7.87|
82471386|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-13.9|||||TWO_SIDED|95.0|-18.9|-8.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-8.80|-18.9|
82471387|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-4.62|||||TWO_SIDED|95.0|-7.67|-1.56||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-1.56|-7.67|
82471388|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-8.43|||||TWO_SIDED|95.0|-11.5|-5.33||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.33|-11.5|
82471389|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|7.8|||||TWO_SIDED|95.0|2.72|12.9||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||12.9|2.72|
82471390|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|4.38|||||TWO_SIDED|95.0|1.3|7.46||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||7.46|1.30|
82471391|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|5.06|||||TWO_SIDED|95.0|1.93|8.18||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.18|1.93|
82471392|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|0.905|||||TWO_SIDED|95.0|-5.49|7.3||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||7.30|-5.49|
82471393|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-2.71|||||TWO_SIDED|95.0|-6.96|1.54||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.54|-6.96|
82471394|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|1.66|||||TWO_SIDED|95.0|-2.85|6.16||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.16|-2.85|
82471395|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|17.5|||||TWO_SIDED|95.0|11.2|23.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||23.8|11.2|
82471396|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|6.51|||||TWO_SIDED|95.0|2.32|10.7||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||10.7|2.32|
82471397|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|14.2|||||TWO_SIDED|95.0|9.75|18.7||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||18.7|9.75|
82471398|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-9.98|||||TWO_SIDED|95.0|-14.6|-5.34||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.34|-14.6|
82471399|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-3.46|||||TWO_SIDED|95.0|-7.22|0.297||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.297|-7.22|
82471400|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-8.16|||||TWO_SIDED|95.0|-11.6|-4.71||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-4.71|-11.6|
82471401|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|12.1|||||TWO_SIDED|95.0|7.39|16.8||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||16.8|7.39|
82650775|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.48||||0.2409|TWO_SIDED|95.0|0.76|2.87|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.87|0.76|0.2409
82471402|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|6.7|||||TWO_SIDED|95.0|2.91|10.5||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.5|2.91|
82471403|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|10.3|||||TWO_SIDED|95.0|6.88|13.8||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.8|6.88|
82471404|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-1.06|||||TWO_SIDED|95.0|-7.41|5.3||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.30|-7.41|
82471405|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|2.2|||||TWO_SIDED|95.0|-2.15|6.56||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.56|-2.15|
82471406|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|1.12|||||TWO_SIDED|95.0|-3.23|5.47||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.47|-3.23|
82471407|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|19.4|||||TWO_SIDED|95.0|13.2|25.6||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||25.6|13.2|
82471408|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|9.04|||||TWO_SIDED|95.0|4.78|13.3||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5 where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||13.3|4.78|
82471409|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|14.7|||||TWO_SIDED|95.0|10.4|18.9||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||18.9|10.4|
82561931|NCT03331978|164833088|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0257|TWO_SIDED|95.0|1.09|3.6||Per above, p-value is from repeated measures logistic regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where all 6 past-month post-intervention measurements of adherence were stacked together such that each participant could contribute up to 6 records. Standard errors were adjusted for clustering on participant, and weights for presence of data were used. Fixed effects were an intervention indicator and baseline dichotomous adherence. Model included all participants with adherence data (a) at baseline and (b) at least one follow-up month.||3.60|1.09|.0257
82471410|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-10.6|||||TWO_SIDED|95.0|-15.6|-5.52||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-5.52|-15.6|
82471411|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-4.25|||||TWO_SIDED|95.0|-9.26|0.764||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.764|-9.26|
82579685|NCT03568318|164869946|SUPERIORITY||Adjusted Response Rate Difference|-1.0||||0.855|TWO_SIDED|95.0|-11.2|9.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||9.3|-11.2|0.855
82471412|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|-8.76|||||TWO_SIDED|95.0|-12.6|-4.87||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-4.87|-12.6|
82471413|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|12.3|||||TWO_SIDED|95.0|7.17|17.4||||||Difference of LS means (test minus reference) for the maximum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||17.4|7.17|
82471414|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|5.95|||||TWO_SIDED|95.0|0.917|11.0||||||Difference of LS means (test minus reference) for the minimum changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||11.0|0.917|
82471415|NCT01263197|164637545|SUPERIORITY_OR_OTHER||LS mean difference|9.9|||||TWO_SIDED|95.0|5.98|13.8||||||Difference of LS means (test minus reference) for the average changes in heart rate on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.8|5.98|
82471416|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|1.62|||||TWO_SIDED|95.0|-1.81|5.06||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.06|-1.81|
82471417|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|2.73|||||TWO_SIDED|95.0|-1.38|6.85||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||6.85|-1.38|
82471418|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|2.67|||||TWO_SIDED|95.0|-0.209|5.56||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.56|-0.209|
82471419|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|0.541|||||TWO_SIDED|95.0|-2.94|4.02||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.02|-2.94|
82471420|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|5.26|||||TWO_SIDED|95.0|1.09|9.43||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.43|1.09|
82650776|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.18||||0.5538|TWO_SIDED|95.0|0.69|2.02|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.02|0.69|0.5538
82471421|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|2.6|||||TWO_SIDED|95.0|-0.322|5.52||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.52|-0.322|
82471422|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-6.46|||||TWO_SIDED|95.0|-11.5|-1.41||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-1.41|-11.5|
82471423|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|0.171|||||TWO_SIDED|95.0|-5.21|5.56||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.56|-5.21|
82471424|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-3.09|||||TWO_SIDED|95.0|-6.73|0.557||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.557|-6.73|
82471425|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|1.46|||||TWO_SIDED|95.0|-3.61|6.53||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||6.53|-3.61|
82471426|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|11.4|||||TWO_SIDED|95.0|5.99|16.8||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||16.8|5.99|
82471427|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|7.15|||||TWO_SIDED|95.0|3.49|10.8||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.8|3.49|
82471428|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|0.0309|||||TWO_SIDED|95.0|-5.28|5.34||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.34|-5.28|
82471429|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-1.17|||||TWO_SIDED|95.0|-5.93|3.59||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.59|-5.93|
82650777|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.44||||0.1743|TWO_SIDED|95.0|0.85|2.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.41|0.85|0.1743
82471430|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-0.333|||||TWO_SIDED|95.0|-4.35|3.68||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.68|-4.35|
82471431|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-2.11|||||TWO_SIDED|95.0|-7.42|3.2||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||3.20|-7.42|
82471432|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|4.36|||||TWO_SIDED|95.0|-0.404|9.12||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||9.12|-0.404|
82471433|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-0.119|||||TWO_SIDED|95.0|-4.14|3.9||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||3.90|-4.14|
82471434|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-4.16|||||TWO_SIDED|95.0|-9.69|1.37||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.37|-9.69|
82471435|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-4.76|||||TWO_SIDED|95.0|-10.2|0.718||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.718|-10.2|
82471436|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-4.2|||||TWO_SIDED|95.0|-8.71|0.32||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.320|-8.71|
82471437|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|3.2|||||TWO_SIDED|95.0|-2.34|8.74||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.74|-2.34|
82471438|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|3.95|||||TWO_SIDED|95.0|-1.54|9.43||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.43|-1.54|
82471439|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|4.84|||||TWO_SIDED|95.0|0.319|9.37||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.37|0.319|
82471440|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|2.34|||||TWO_SIDED|95.0|-3.44|8.12||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||8.12|-3.44|
82471441|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|1.89|||||TWO_SIDED|95.0|-3.22|7.0||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||7.00|-3.22|
82471442|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|1.83|||||TWO_SIDED|95.0|-1.85|5.52||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||5.52|-1.85|
82471443|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|0.327|||||TWO_SIDED|95.0|-5.45|6.1||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.10|-5.45|
82471444|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|3.18|||||TWO_SIDED|95.0|-1.93|8.29||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||8.29|-1.93|
82471445|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|2.12|||||TWO_SIDED|95.0|-1.56|5.81||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.81|-1.56|
82471446|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-1.6|||||TWO_SIDED|95.0|-6.79|3.59||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.59|-6.79|
82471447|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-0.163|||||TWO_SIDED|95.0|-5.0|4.68||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||4.68|-5.00|
82471448|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|-0.829|||||TWO_SIDED|95.0|-5.2|3.54||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.54|-5.20|
82471449|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|1.95|||||TWO_SIDED|95.0|-3.27|7.17||||||Difference of LS means (test minus reference) for the maximum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||7.17|-3.27|
82471450|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|3.71|||||TWO_SIDED|95.0|-1.17|8.59||||||Difference of LS means (test minus reference) for the minimum changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.59|-1.17|
82471451|NCT01263197|164637546|SUPERIORITY_OR_OTHER||LS mean difference|4.28|||||TWO_SIDED|95.0|-0.103|8.67||||||Difference of LS means (test minus reference) for the average changes in systolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.67|-0.103|
82547481|NCT03821844|164794651|SUPERIORITY||marginal interaction effect|1.33|STANDARD_ERROR_OF_MEAN|1.38|<|0.05|TWO_SIDED|95.0|-1.37|4.03|||Differences-in-Differences regression||||"Fixed effects: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, antidepressant use, antianxietal use, antipsychotic use, corporation, time from Minimum Data Set (MDS) collection to Cohen-Mansfield Agitation Inventory (CMAI) score (exclusive to CMAI model), baseline Agitation and Reactive Behavior Scale (ARBS) (exclusive to CMAI model), baseline CMAI (exclusive to ARBS and ARBS-CMAI model), indicator of baseline/follow-up score, treatment group, interaction of baseline/follow-up measure, and treatment group.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, random intercept for data collector (exclusive to CMAI model), and random intercept for individual."|4.03|-1.37|< 0.05
82547482|NCT03821844|164794652|SUPERIORITY||marginal interaction effect|0.06|||<|0.05|TWO_SIDED|95.0|0.03|0.09|||Differences-in-Differences regression||Reported estimation details pertain to the None category.||"The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models. All models adjust for resident baseline covariates, an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. The reference category for the multinomial model for each outcome is None. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction."|0.09|0.03|< 0.05
82547483|NCT03821844|164794653|SUPERIORITY||Marginal Interaction Effect|-0.11|STANDARD_ERROR_OF_MEAN|0.1|<|0.05|TWO_SIDED|95.0|-0.3|0.08|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, antidepressant use, antianxietal use, antipsychotic use, nursing home corporation, time from Minimum Data Set (MDS) collection to Cohen-Mansfield Agitation Inventory (CMAI) score (exclusive to CMAI model), baseline Agitation and Reactive Behavior Score (ARBS) (exclusive to CMAI model), baseline CMAI (exclusive to ARBS and ARBS-CMAI model), indicator of baseline/follow-up score, treatment group, interaction of baseline/follow-up measure, and treatment group.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, random intercept for data collector (exclusive to CMAI model), and random intercept for individual."|0.08|-0.30|< 0.05
82547484|NCT03821844|164794654|SUPERIORITY||average marginal effect|-3.61|STANDARD_ERROR_OF_MEAN|1.85|<|0.05|TWO_SIDED|95.0|-7.22|0.0|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|0.00|-7.22|< 0.05
82547485|NCT03821844|164794655|SUPERIORITY||average marginal effect|-3.47|STANDARD_ERROR_OF_MEAN|2.08|<|0.05|TWO_SIDED|95.0|-7.55|0.06|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|0.06|-7.55|< 0.05
82547486|NCT03821844|164794656|SUPERIORITY||average marginal effect|-1.26|STANDARD_ERROR_OF_MEAN|2.05|<|0.05|TWO_SIDED|95.0|-5.28|2.76|||Differences-in-Differences regression||||Variables included in the model: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, agitation and reactive behavior (ARBS) score, date of assessment, treatment group, and facility-level random effect.|2.76|-5.28|< 0.05
82547487|NCT03821844|164794658|SUPERIORITY||average marginal effect|-0.22|||<|0.05|TWO_SIDED|95.0|-1.14|0.7|||Differences-in-Differences regression||||Multilevel regression with covariates' adjustments was used to estimate the impact of the resident being in a treatment versus control nursing home on depressive symptoms.|0.70|-1.14|< 0.05
82547488|NCT03821844|164794659|SUPERIORITY||marginal interaction effect|0.0|||<|0.05|TWO_SIDED|95.0|-0.03|0.02|||Differences-in-Differences regression||Reported estimation details pertain to the None category.||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the behaviors of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction.|0.02|-0.03|< 0.05
82547489|NCT03821844|164794660|SUPERIORITY||marginal interaction effect|0.05|||<|0.05|TWO_SIDED|95.0|0.02|0.07|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.07|0.02|< 0.05
82547490|NCT03821844|164794661|SUPERIORITY||marginal interaction effect|-0.01|||<|0.05|TWO_SIDED|95.0|-0.03|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.01|-0.03|< 0.05
82471452|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-1.23|||||TWO_SIDED|95.0|-3.9|1.44||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.44|-3.90|
82471453|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|1.05|||||TWO_SIDED|95.0|-1.91|4.02||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||4.02|-1.91|
82471454|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-0.199|||||TWO_SIDED|95.0|-2.58|2.18||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.18|-2.58|
82471455|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|1.37|||||TWO_SIDED|95.0|-1.34|4.07||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.07|-1.34|
82471456|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|3.68|||||TWO_SIDED|95.0|0.674|6.69||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.69|0.674|
82471457|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|2.4|||||TWO_SIDED|95.0|-0.0178|4.81||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.81|-0.0178|
82471458|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-4.22|||||TWO_SIDED|95.0|-7.83|-0.619||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||-0.619|-7.83|
82471459|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|0.335|||||TWO_SIDED|95.0|-4.45|5.12||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.12|-4.45|
82471460|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-1.92|||||TWO_SIDED|95.0|-4.81|0.969||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||0.969|-4.81|
82471461|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|2.47|||||TWO_SIDED|95.0|-1.15|6.1||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||6.10|-1.15|
82471462|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|9.12|||||TWO_SIDED|95.0|4.3|13.9||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||13.9|4.30|
82471463|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|6.03|||||TWO_SIDED|95.0|3.12|8.94||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 1, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||8.94|3.12|
82471464|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-0.913|||||TWO_SIDED|95.0|-4.65|2.82||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.82|-4.65|
82471465|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-0.444|||||TWO_SIDED|95.0|-4.33|3.44||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||3.44|-4.33|
82471466|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|0.378|||||TWO_SIDED|95.0|-2.2|2.95||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.95|-2.20|
82471467|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|0.878|||||TWO_SIDED|95.0|-2.86|4.62||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||4.62|-2.86|
82471468|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|2.92|||||TWO_SIDED|95.0|-0.966|6.8||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||6.80|-0.966|
82471469|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|2.94|||||TWO_SIDED|95.0|0.366|5.52||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.52|0.366|
82471470|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-2.88|||||TWO_SIDED|95.0|-6.84|1.07||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.07|-6.84|
82579686|NCT03568318|164869947|SUPERIORITY||LS Mean Difference|-16.05|STANDARD_ERROR_OF_MEAN|11.956||0.18|TWO_SIDED|95.0|-39.59|7.48|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||7.48|-39.59|0.180
82471471|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-0.975|||||TWO_SIDED|95.0|-5.39|3.44||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||3.44|-5.39|
82471472|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-1.82|||||TWO_SIDED|95.0|-5.3|1.66||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||1.66|-5.30|
82471473|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|5.6|||||TWO_SIDED|95.0|1.63|9.56||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.56|1.63|
82471474|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|7.82|||||TWO_SIDED|95.0|3.39|12.3||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||12.3|3.39|
82471475|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|6.6|||||TWO_SIDED|95.0|3.11|10.1||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 3, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.1|3.11|
82471476|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|0.847|||||TWO_SIDED|95.0|-3.23|4.92||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||4.92|-3.23|
82471477|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-3.48|||||TWO_SIDED|95.0|-8.17|1.21||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||1.21|-8.17|
82471478|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-0.372|||||TWO_SIDED|95.0|-2.88|2.14||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the LY2216684 (Group 1) treatment arm.||2.14|-2.88|
82471479|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|1.9|||||TWO_SIDED|95.0|-2.17|5.98||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.98|-2.17|
82471480|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|1.07|||||TWO_SIDED|95.0|-3.62|5.76||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.76|-3.62|
82471481|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|3.03|||||TWO_SIDED|95.0|0.522|5.55||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+albuterol treatment arm and reference is the albuterol treatment arm.||5.55|0.522|
82471482|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|0.737|||||TWO_SIDED|95.0|-3.9|5.38||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||5.38|-3.90|
82471483|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-1.95|||||TWO_SIDED|95.0|-6.36|2.47||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||2.47|-6.36|
82471484|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|-1.17|||||TWO_SIDED|95.0|-4.79|2.45||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the LY2216684 (Group 2) treatment arm.||2.45|-4.79|
82471485|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|7.25|||||TWO_SIDED|95.0|2.59|11.9||||||Difference of LS means (test minus reference) for the maximum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||11.9|2.59|
82471486|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|5.58|||||TWO_SIDED|95.0|1.13|10.0||||||Difference of LS means (test minus reference) for the minimum changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||10.0|1.13|
82471487|NCT01263197|164637547|SUPERIORITY_OR_OTHER||LS mean difference|5.53|||||TWO_SIDED|95.0|1.89|9.16||||||Difference of LS means (test minus reference) for the average changes in diastolic blood pressure on Day 5, where test is the LY2216684+propranolol treatment arm and reference is the propranolol treatment arm.||9.16|1.89|
82471488|NCT01821118|164637580|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.984|STANDARD_ERROR_OF_MEAN|0.112|||TWO_SIDED|90.0|0.82|1.184|||||SE of mean is presented in log e scale.|ROI1: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.184|0.820|
82471489|NCT01821118|164637580|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.934|STANDARD_ERROR_OF_MEAN|0.075|||TWO_SIDED|90.0|0.825|1.056|||||SE of mean is presented in log e scale.|ROI2: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.056|0.825|
82471490|NCT01821118|164637581|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.852|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|90.0|0.735|0.989|||||SE of mean is presented on log e scale.|ROI1: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||0.989|0.735|
82471491|NCT01821118|164637581|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.902|STANDARD_ERROR_OF_MEAN|0.082|||TWO_SIDED|90.0|0.788|1.031|||||SE of mean presented on log e scale.|ROI2: Analysis of the change from baseline in log(slope) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(slope) at baseline was included as a covariate.||1.031|0.788|
82471492|NCT01821118|164637582|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.005|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|90.0|0.933|1.086|||||SE of mean presented on log e scale.|ROI1, Day 2: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.086|0.933|
82471493|NCT01821118|164637582|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.049|STANDARD_ERROR_OF_MEAN|0.036|||TWO_SIDED|90.0|0.99|1.114|||||SE of mean presented on log e scale.|ROI1, Day 90: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.114|0.990|
82471494|NCT01821118|164637582|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.998|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|90.0|0.947|1.052|||||SE of mean presented on log e scale.|ROI2, Day 2: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.052|0.947|
82471495|NCT01821118|164637582|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|STANDARD_ERROR_OF_MEAN|0.031|||TWO_SIDED|90.0|0.96|1.063|||||SE of mean presented on log e scale.|ROI2, Day 90: Analysis of the change from baseline in log(time to peak) was carried out using a Bayesian linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to peak) at baseline was included as a covariate.||1.063|0.960|
82471496|NCT01821118|164637583|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0602|STANDARD_ERROR_OF_MEAN|0.1281|||TWO_SIDED|90.0|-0.1576|0.2781||||||ROI1, Day 2: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.2781|-0.1576|
82471497|NCT01821118|164637583|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0859|STANDARD_ERROR_OF_MEAN|0.1165|||TWO_SIDED|90.0|-0.2843|0.1124||||||ROI1, Day 90: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.1124|-0.2843|
82471498|NCT01821118|164637583|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0488|STANDARD_ERROR_OF_MEAN|0.0902|||TWO_SIDED|90.0|-0.2018|0.1042||||||ROI2, Day 2: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.1042|-0.2018|
82471499|NCT01821118|164637583|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|-0.0888|STANDARD_ERROR_OF_MEAN|0.1061|||TWO_SIDED|90.0|-0.2689|0.0914||||||ROI2, Day 90: Analysis of the change from baseline in log(amplitude) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(amplitude) at baseline was included as a covariate.||0.0914|-0.2689|
82471500|NCT01821118|164637584|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0464|STANDARD_ERROR_OF_MEAN|0.0395|||TWO_SIDED|90.0|-0.0207|0.1136||||||ROI1, Day 2: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.1136|-0.0207|
82471501|NCT01821118|164637584|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0737|STANDARD_ERROR_OF_MEAN|0.0383|||TWO_SIDED|90.0|0.0084|0.139||||||ROI1, Day 90: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.1390|0.0084|
82471502|NCT01821118|164637584|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0219|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|90.0|-0.0352|0.079||||||ROI2, Day 2: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.0790|-0.0352|
82471503|NCT01821118|164637584|SUPERIORITY_OR_OTHER||Estimated Treatment Difference (log e)|0.0117|STANDARD_ERROR_OF_MEAN|0.034|||TWO_SIDED|90.0|-0.046|0.0694||||||ROI2, Day 90: Analysis of the change from baseline in log(time to return to baseline) was carried out using a linear model (ANCOVA). Treatment was a fixed effect within the model and the log(time to return to baseline) at baseline was included as a covariate.||0.0694|-0.0460|
82579687|NCT03568318|164869947|SUPERIORITY||LS Mean Difference|-26.38|STANDARD_ERROR_OF_MEAN|11.986||0.029|TWO_SIDED|95.0|-49.97|-2.79|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-2.79|-49.97|0.029
82471504|NCT00346697|164637631|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82471505|NCT00346697|164637632|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||.80
82471506|NCT00346697|164637633|SUPERIORITY_OR_OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82471507|NCT00346697|164637634|SUPERIORITY_OR_OTHER|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82471508|NCT00346697|164637635|SUPERIORITY_OR_OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82471509|NCT00346697|164637636|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
82471510|NCT00346697|164637637|SUPERIORITY_OR_OTHER|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
82471511|NCT00346697|164637638|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82471512|NCT00346697|164637639|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82471513|NCT00346697|164637640|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82471514|NCT00346697|164637641|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82471515|NCT00346697|164637642|SUPERIORITY_OR_OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82471516|NCT00346697|164637643|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82471517|NCT00346697|164637644|SUPERIORITY_OR_OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82471518|NCT00346697|164637645|SUPERIORITY_OR_OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
82471519|NCT02557139|164637697|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||Cmax null hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 48.00%|125.00|80.00|< 0.001
82471520|NCT02557139|164637697|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Geometric Means (%)|100.0||||0.23|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||Cmax null hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 48.00%|125.00|80.00|0.23
82585985|NCT00710021|164883893|SUPERIORITY_OR_OTHER|||||||0.05||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Ifi44 expression.||||||0.050
82471521|NCT02557139|164637698|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-inf) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability: 34.25%|125.00|80.00|<0.001
82471522|NCT02557139|164637698|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Adjusted Geometric Means (%)|100.0||||0.16|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-inf) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability;|125.00|80.00|0.16
82471523|NCT02557139|164637698|EQUIVALENCE|If the 90% confidence interval for the comparison of fed vs. fasted is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect of food on belumosudil tablets.|Ratio of Adjusted Geometric Means (%)|100.0|||<|0.001|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided|||AUC(0-last) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability = 38.16%|125.00|80.00|< 0.001
82471524|NCT02557139|164637698|EQUIVALENCE|If the 90% confidence interval for the comparison of belumosudil tablet (test drug) vs. the belumosudil capsule (reference drug) is within the acceptance range 80.00% to 125.00%, then it is concluded that there is no effect on the use of belumosudi tablet compared to belumosudil capsule.|Ratio of Adjusted Geometric Means (%)|100.0||||0.18|TWO_SIDED|90.0|80.0|125.0|||t-test, 2 sided||Intra-subject variability = 38.16%|AUC(0-last) Null Hypothesis: Ratio of Adjusted Geometric Means = 100%|Intra-subject variability = 38.16%|125.00|80.00|0.18
82471525|NCT00363480|164637718|SUPERIORITY_OR_OTHER||Percentage diffrence|-30.6|||<|0.0001|TWO_SIDED|95.0|-37.89|-23.29|||McNemar|||Comparison between GOAL and ACT response||-23.29|-37.89|<0.0001
82471526|NCT00363480|164637719|SUPERIORITY_OR_OTHER||t-Distribution|50.2|||||TWO_SIDED|95.0|43.15|57.32||||||||57.32|43.15|
82471527|NCT04634253|164637746|SUPERIORITY||LS Mean|-0.88|STANDARD_ERROR_OF_MEAN|0.361||0.017|TWO_SIDED|95.0|-1.6|-0.16|||Mixed Models Analysis|||||-0.16|-1.60|0.017
82471528|NCT04634253|164637746|SUPERIORITY||LS Mean|-1.09|STANDARD_ERROR_OF_MEAN|0.32|<|0.001|TWO_SIDED|95.0|-1.73|-0.46|||Mixed Models Analysis|||||-0.46|-1.73|<0.001
82547491|NCT03821844|164794662|SUPERIORITY||average marginal effect|-0.01|||<|0.05|TWO_SIDED|95.0|-0.04|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.01|-0.04|< 0.05
82650778|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.3||||0.2843|TWO_SIDED|95.0|0.81|2.07|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.07|0.81|0.2843
82471529|NCT04634253|164637747|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.29|3.44|||Regression, Logistic|||||3.44|0.29|0.997
82471530|NCT04634253|164637747|SUPERIORITY||Odds Ratio (OR)|3.4||||0.032|TWO_SIDED|95.0|1.11|10.4|||Regression, Logistic|||||10.40|1.11|0.032
82471531|NCT04634253|164637748|SUPERIORITY||Odds Ratio (OR)|0.29||||0.235|TWO_SIDED|95.0|0.04|2.25|||Regression, Logistic|||||2.25|0.04|0.235
82471532|NCT04634253|164637748|SUPERIORITY||Odds Ratio (OR)|1.37||||0.661|TWO_SIDED|95.0|0.33|5.61|||Regression, Logistic|||||5.61|0.33|0.661
82471533|NCT04634253|164637749|SUPERIORITY||Odds Ratio (OR)|0.97||||0.965|TWO_SIDED|95.0|0.22|4.28|||Regression, Logistic|||||4.28|0.22|0.965
82471534|NCT04634253|164637749|SUPERIORITY||Odds Ratio (OR)|2.91||||0.098|TWO_SIDED|95.0|0.82|10.33|||Regression, Logistic|||||10.33|0.82|0.098
82579688|NCT03568318|164869948|SUPERIORITY||LS Mean Difference|-35.69|STANDARD_ERROR_OF_MEAN|5.354|<|0.001|TWO_SIDED|95.0|-46.28|-25.11|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-25.11|-46.28|<0.001
82471535|NCT04634253|164637750|SUPERIORITY||LS Mean Difference|-11.26|STANDARD_ERROR_OF_MEAN|3.71||0.003|TWO_SIDED|95.0|-18.65|-3.87|||Mixed Models Analysis|||||-3.87|-18.65|0.003
82471536|NCT04634253|164637750|SUPERIORITY||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|3.265|<|0.001|TWO_SIDED|95.0|-19.61|-6.6|||Mixed Models Analysis|||||-6.60|-19.61|<0.001
82471537|NCT04634253|164637751|SUPERIORITY||LS Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|3.782||0.008|TWO_SIDED|95.0|-17.83|-2.77|||Mixed Models Analysis|||||-2.77|-17.83|0.008
82471538|NCT04634253|164637751|SUPERIORITY||LS Mean Difference|-11.76|STANDARD_ERROR_OF_MEAN|3.282|<|0.001|TWO_SIDED|95.0|-18.29|-5.22|||Mixed Models Analysis|||||-5.22|-18.29|<0.001
82471539|NCT04634253|164637752|SUPERIORITY||LS Mean Difference|-2.93|STANDARD_ERROR_OF_MEAN|2.365||0.218|TWO_SIDED|95.0|-7.63|1.77|||ANCOVA|||Mental Component Score (MCS)||1.77|-7.63|0.218
82471540|NCT04634253|164637752|SUPERIORITY||LS Mean Difference|1.15|STANDARD_ERROR_OF_MEAN|2.065||0.578|TWO_SIDED|95.0|-2.95|5.26|||ANCOVA|||Mental Component Score (MCS)||5.26|-2.95|0.578
82471541|NCT04634253|164637752|SUPERIORITY||LS Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|2.368||0.396|TWO_SIDED|95.0|-2.69|6.73|||ANCOVA|||Physical Component Score (PCS)||6.73|-2.69|0.396
82471542|NCT04634253|164637752|SUPERIORITY||LS Mean Difference|1.42|STANDARD_ERROR_OF_MEAN|2.057||0.493|TWO_SIDED|95.0|-2.67|5.5|||ANCOVA|||Physical Component Score (PCS)||5.50|-2.67|0.493
82471543|NCT01499355|164637757|SUPERIORITY_OR_OTHER|||||||0.367||||||P-Value from Cox proportional hazard model, including the variable for treatment, adjusted for the covariates including region (Latin America, Asia, rest of world \[ROW\]) and renal response at Run-in Week 12 (partial and non-response).|Cox proportional hazard|||||||0.367
82547492|NCT03821844|164794663|SUPERIORITY||marginal interaction effect|0.01|||<|0.05|TWO_SIDED|95.0|-0.02|0.03|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment versus control nursing home had on the moods of nursing home residents. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. We report the marginal time by intervention interaction.|0.03|-0.02|< 0.05
82547493|NCT03821844|164794664|SUPERIORITY||marginal interaction effect|-0.02|||<|0.05|TWO_SIDED|95.0|-0.05|0.01|||Differences-in-Differences regression||||The intention-to-treat (ITT) analysis used Bayesian multi-level multinomial logit models to analyze the effect that being in a treatment vs. control NH had on the behaviors and moods of NH residents. The models were implemented separately for each mood. All models adjust for resident baseline covariates and the activity status of a resident during an observation. In addition, they include an individual-level effect to account for multiple observations for the same resident, and a facility level effect to account for variability in the outcomes for individuals residing in the same nursing homes. To address baseline differences in the proportion of individuals at each level of the ordinal outcomes between treatment and control groups, we report the marginal time by intervention interaction. We will refer to this estimand as the marginal interaction effect (MIE), which is sometimes known as the Difference in Differences estimand.|0.01|-0.05|< 0.05
82547494|NCT03913195|164794666|EQUIVALENCE|The equivalence limits for the 90% confidence interval are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|Risk Ratio (RR)|1.0||||1|TWO_SIDED|90.0|0.8299|1.2049||H0: P1 is not different from P2.|Fisher Exact|||The proportion of subjects with an average Ctrough ≥ 300 ng/mL is compared between the 30-second IV push and the 15-minute IV infusion.||1.2049|0.8299|1.0
82650779|NCT01360632|165016447|SUPERIORITY_OR_OTHER||Ratio of response rate|1.19||||0.464|TWO_SIDED|95.0|0.74|1.92|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.92|0.74|0.4640
82471544|NCT01499355|164637757|SUPERIORITY_OR_OTHER|||||||0.283||||||P-Value from Cox proportional hazard model, including the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cox proportional hazard|||||||0.283
82471545|NCT01499355|164637758|SUPERIORITY_OR_OTHER|||||||0.0486||||||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cochran-Mantel-Haenszel|||||||0.0486
82471546|NCT01499355|164637758|SUPERIORITY_OR_OTHER|||||||0.0668||||||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Cochran-Mantel-Haenszel|||||||0.0668
82471547|NCT01499355|164637759|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0628||||0.0456|TWO_SIDED|90.0|0.0081|0.4843||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Regression, Logistic|||||0.4843|0.0081|0.0456
82471548|NCT01499355|164637759|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4344||||0.5455|TWO_SIDED|90.0|0.0996|1.8941||Model includes the variable for treatment, adjusted for the covariates including region (Latin America, Asia, ROW) and renal response at Run-in Week 12 (partial and non-response).|Regression, Logistic|||||1.8941|0.0996|0.5455
82471549|NCT01499355|164637759|SUPERIORITY_OR_OTHER|||||||0.0252|||||||Cochran-Mantel-Haenszel|||||||0.0252
82471550|NCT01499355|164637759|SUPERIORITY_OR_OTHER|||||||0.2876|||||||Cochran-Mantel-Haenszel|||||||0.2876
82471551|NCT01499355|164637762|SUPERIORITY_OR_OTHER|||||||0.863|||||||Regression, Cox|||||||0.863
82471552|NCT01499355|164637762|SUPERIORITY_OR_OTHER|||||||0.769|||||||Regression, Cox|||||||0.769
82471553|NCT01499355|164637762|SUPERIORITY_OR_OTHER|||||||0.907|||||||ANCOVA|||||||0.907
82579689|NCT03568318|164869948|SUPERIORITY||LS Mean Difference|-24.37|STANDARD_ERROR_OF_MEAN|5.423|<|0.001|TWO_SIDED|95.0|-35.1|-13.65|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-13.65|-35.10|<0.001
82471554|NCT01499355|164637762|SUPERIORITY_OR_OTHER|||||||0.996|||||||ANCOVA|||||||0.996
82471555|NCT02048670|164637763|SUPERIORITY|||||||0.005|||||||Kruskal-Wallis|||Condition 1 - eyes open, visual surround locked, platform locked||||0.005
82471556|NCT02048670|164637763|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||Condition 2 - eyes closed, visual surround locked, platform locked||||0.006
82471557|NCT02048670|164637763|SUPERIORITY|||||||0.051|||||||Kruskal-Wallis|||Condition 3 - eyes open, visual surround unlocked, platform locked||||0.051
82471558|NCT02048670|164637763|SUPERIORITY|||||||0.173|||||||Kruskal-Wallis|||Condition 4 - eyes open, visual surround locked, platform unlocked||||0.173
82471559|NCT02048670|164637763|SUPERIORITY|||||||0.985|||||||Kruskal-Wallis|||Condition 5 - eyes closed, visual surround locked, platform unlocked||||0.985
82471560|NCT02048670|164637763|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|||Condition 6 - eyes open, visual surround unlocked, platform unlocked||||0.003
82471561|NCT02141204|164637769|NON_INFERIORITY|Lower limit (LL) of the two-sided 95% confidence interval (CI) for the ratio of anti-RV IgA antibody GMCs between HRV Liq Group over the HRV Lyo Group should be greater than or equal to (≥) 0.5.|GMC ratio|0.93|||||TWO_SIDED|95.0|0.65|1.34|||ANCOVA|95% CI for the adjusted GMC ratio and the logarithm of baseline concentration were used as fixed effects in this ANCOVA model.||Anti-RV IgA GMCs (non-inferiority): Non-inferiority comparison between GSK Biologicals' HRV liquid vaccine (HRV Liq Group) and GSK Biologicals' HRV lyophilized vaccine (HRV Lyo Group) in terms of geometric mean concentrations (GMCs) for anti-RV antibodies, one month after the administration of the second dose of study vaccine.||1.34|0.65|
82471562|NCT04555616|164637804|OTHER|||||||0.12|||||||Fisher Exact|||Primary outcome analyzed via success rates among groups.||||0.12
82579690|NCT02898077|164869949|SUPERIORITY||Hazard Ratio (HR)|0.765||||0.0184|TWO_SIDED|95.0|0.613|0.955|||Log Rank|||||0.955|0.613|0.0184
82579691|NCT02898077|164869950|SUPERIORITY||Hazard Ratio (HR)|0.963|||||TWO_SIDED|95.0|0.771|1.203||||||||1.203|0.771|
82579692|NCT02898077|164869951|SUPERIORITY||Hazard Ratio (HR)|0.761|||||TWO_SIDED|95.0|0.598|0.968||||||||0.968|0.598|
82579693|NCT02898077|164869952|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.5|1.2||||||||1.2|0.5|
82579694|NCT02898077|164869953|SUPERIORITY||Hazard Ratio (HR)|0.905|||||TWO_SIDED|95.0|0.577|1.421||||||||1.421|0.577|
82579695|NCT04410523|164869958|SUPERIORITY||Least Squares mean|0.122|STANDARD_ERROR_OF_MEAN|0.0541||0.025|TWO_SIDED|95.0|0.016|0.229|||MMRM||Treatment difference (CSJ117-placebo)|||0.229|0.016|0.025
82579696|NCT04410523|164869958|SUPERIORITY||Least Squares mean|0.058|STANDARD_ERROR_OF_MEAN|0.0542||0.286|TWO_SIDED|95.0|-0.049|0.165|||MMRM||Treatment difference (CCSJ117-placebo)|||0.165|-0.049|0.286
82471563|NCT02446899|164637807|SUPERIORITY|The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).|Mean Difference (Final Values)|16.3||||0.0013|TWO_SIDED|95.0|6.3|26.3||Nominal p-value.|Cochran-Mantel-Haenszel|||||26.3|6.3|0.0013
82471564|NCT02446899|164637808|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.0022|TWO_SIDED|95.0|6.5|28.2||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||28.2|6.5|0.0022
82471565|NCT02446899|164637809|SUPERIORITY||Mean Difference (Final Values)|21.2||||0.0135|TWO_SIDED|95.0|6.8|35.7||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||35.7|6.8|0.0135
82471566|NCT02446899|164637810|SUPERIORITY||Mean Difference (Final Values)|24.0||||0.0392|TWO_SIDED|95.0|4.3|43.6||Adjusted p-value.|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||43.6|4.3|0.0392
82471567|NCT02446899|164637811|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.5469|TWO_SIDED|95.0|-10.6|20.0||Adjusted p-value|Cochran-Mantel-Haenszel|||The difference in estimates and associated 95% CI are weighted and are calculated using a stratified Cochran-Mantel-Haenszel (CMH) approach, with stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>= 10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]).||20.0|-10.6|0.5469
82579697|NCT04410523|164869958|SUPERIORITY||Least Squares mean|0.065|STANDARD_ERROR_OF_MEAN|0.0521||0.212|TWO_SIDED|95.0|-0.037|0.168|||MMRM||Treatment difference (CCSJ117-placebo)|||0.168|-0.037|0.212
82471568|NCT02446899|164637812|SUPERIORITY||Rate Ratio|0.67||||0.0809|TWO_SIDED|95.0|0.48|0.94||Adjusted p-value.|Negative binomial regression|||Analysed using a negative binomial regression model. The response variable in the model is the number of flares over the 52-week treatment period. The model includes covariates of treatment group, and the stratification factors (SLEDAI-2K score at screening \[\<10 points vs \>=10 points\], Week 0 OCS dose \[\<10 mg/day vs \>=10 mg/day prednisone or equivalent\] and type I IFN gene signature test result at screening \[high vs low\]). The logarithm of the follow-up time is used as an offset variable.||0.94|0.48|0.0809
82579698|NCT04410523|164869958|SUPERIORITY||Least Squares mean|0.009|STANDARD_ERROR_OF_MEAN|0.043||0.831|TWO_SIDED|95.0|-0.076|0.094|||MMRM||Treatment difference (CCSJ117-placebo)|||0.094|-0.076|0.831
82579699|NCT04410523|164869958|SUPERIORITY||Least Squares mean|-0.008|STANDARD_ERROR_OF_MEAN|0.0434||0.852|TWO_SIDED|95.0|-0.094|0.077|||MMRM||Treatment difference (CCSJ117-placebo)|||0.077|-0.094|0.852
82579700|NCT04410523|164869959|SUPERIORITY||Least Squares mean|-1.568|STANDARD_ERROR_OF_MEAN|2.363||0.508|TWO_SIDED|95.0|-6.219|3.083|||MMRM||Treatment difference (CSJ117-placebo)|||3.083|-6.219|0.508
82579701|NCT04410523|164869959|SUPERIORITY||Least Squares mean|-3.998|STANDARD_ERROR_OF_MEAN|2.384||0.095|TWO_SIDED|95.0|-8.691|0.695|||MMRM||Treatment difference (CCSJ117-placebo)|||0.695|-8.691|0.095
82579702|NCT04410523|164869959|SUPERIORITY||Least Squares mean|-2.889|STANDARD_ERROR_OF_MEAN|2.2943||0.209|TWO_SIDED|95.0|-7.405|1.627|||MMRM||Treatment difference (CCSJ117-placebo)|||1.627|-7.405|0.209
82579703|NCT04410523|164869959|SUPERIORITY||Least Squares mean|-0.287|STANDARD_ERROR_OF_MEAN|1.8718||0.878|TWO_SIDED|95.0|-3.971|3.398|||MMRM||Treatment difference (CCSJ117-placebo)|||3.398|-3.971|0.878
82579704|NCT04410523|164869959|SUPERIORITY||Least Squares mean|1.093|STANDARD_ERROR_OF_MEAN|1.8652||0.558|TWO_SIDED|95.0|-2.578|4.765|||MMRM||Treatment difference (CCSJ117-placebo)|||4.765|-2.578|0.558
82579705|NCT04410523|164869962|SUPERIORITY||Least Squares mean|-0.042|STANDARD_ERROR_OF_MEAN|0.1493||0.78|TWO_SIDED|95.0|-0.336|0.252|||MMRM||Treatment difference (CSJ117-placebo)|||0.252|-0.336|0.780
82579706|NCT04410523|164869962|SUPERIORITY||Least Squares mean|-0.42|STANDARD_ERROR_OF_MEAN|0.1489||0.005|TWO_SIDED|95.0|-0.713|-0.127|||MMRM||Treatment difference (CCSJ117-placebo)|||-0.127|-0.713|0.005
82579707|NCT04410523|164869962|SUPERIORITY||Least Squares mean|-0.289|STANDARD_ERROR_OF_MEAN|0.1446||0.047|TWO_SIDED|95.0|-0.573|0.004|||MMRM||Treatment difference (CCSJ117-placebo)|||0.004|-0.573|0.047
82579708|NCT04410523|164869962|SUPERIORITY||Least Squares mean|-0.017|STANDARD_ERROR_OF_MEAN|0.1182||0.887|TWO_SIDED|95.0|-0.249|0.216|||MMRM||Treatment difference (CCSJ117-placebo)|||0.216|-0.249|0.887
82579709|NCT04410523|164869962|SUPERIORITY||Least Squares mean|-0.115|STANDARD_ERROR_OF_MEAN|0.1184||0.333|TWO_SIDED|95.0|-0.348|0.118|||MMRM||Treatment difference (CCSJ117-placebo)|||0.118|-0.348|0.333
82579710|NCT04410523|164869963|SUPERIORITY||Least Squares mean|-0.097|STANDARD_ERROR_OF_MEAN|0.1485||0.515|TWO_SIDED|95.0|-0.389|0.195|||MMRM||Treatment difference (CSJ117-placebo)|||0.195|-0.389|0.515
82579711|NCT04410523|164869963|SUPERIORITY||Least Squares mean|0.218|STANDARD_ERROR_OF_MEAN|0.1484||0.143|TWO_SIDED|95.0|-0.074|0.51|||MMRM||Treatment difference (CCSJ117-placebo)|||0.510|-0.074|0.143
82471569|NCT01106690|164637823|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.095|<|0.001|TWO_SIDED|95.0|-0.811|-0.437|||ANCOVA|||||-0.437|-0.811|<0.001
82471570|NCT01106690|164637823|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.096|<|0.001|TWO_SIDED|95.0|-0.951|-0.575|||ANCOVA|||||-0.575|-0.951|<0.001
82471571|NCT01106690|164637824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4||||0.007||95.0|1.26|4.57|||Regression, Logistic|||||4.57|1.26|0.007
82471572|NCT01106690|164637824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.38|||<|0.001|TWO_SIDED|95.0|2.73|10.6|||Regression, Logistic|||||10.60|2.73|<0.001
82471573|NCT01106690|164637825|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-29.4|STANDARD_ERROR_OF_MEAN|3.857|<|0.001|TWO_SIDED|95.0|-36.96|-21.78|||ANCOVA|||||-21.78|-36.96|<0.001
82471574|NCT01106690|164637825|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-35.7|STANDARD_ERROR_OF_MEAN|3.861|<|0.001|TWO_SIDED|95.0|-43.3|-28.11|||ANCOVA|||||-28.11|-43.30|<0.001
82471575|NCT01106690|164637826|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|14.28|STANDARD_ERROR_OF_MEAN|2.521|<|0.001|TWO_SIDED|95.0|9.315|19.236|||ANCOVA|||||19.236|9.315|<0.001
82471576|NCT01106690|164637826|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|17.23|STANDARD_ERROR_OF_MEAN|2.509|<|0.001|TWO_SIDED|95.0|12.293|22.166|||ANCOVA|||||22.166|12.293|<0.001
82471577|NCT01106690|164637827|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.6|-1.8|||ANCOVA|||||-1.8|-3.6|<0.001
82471578|NCT01106690|164637827|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-4.6|-2.8|||ANCOVA|||||-2.8|-4.6|<0.001
82471579|NCT01106690|164637828|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-4.07|STANDARD_ERROR_OF_MEAN|1.43||0.005|TWO_SIDED|95.0|-6.879|-1.251|||ANCOVA|||||-1.251|-6.879|0.005
82471580|NCT01106690|164637828|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.46|STANDARD_ERROR_OF_MEAN|1.433||0.016|TWO_SIDED|95.0|-6.281|-0.643|||ANCOVA|||||-0.643|-6.281|0.016
82471581|NCT01106690|164637829|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|5.7||0.034|TWO_SIDED|95.0|-12.1|-0.9|||ANCOVA|||||-0.9|-12.1|0.034
82471582|NCT01106690|164637829|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|5.7||0.003|TWO_SIDED|95.0|-28.1|-5.8|||ANCOVA|||||-5.8|-28.1|0.003
82471583|NCT01106690|164637830|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|1.9||0.01|TWO_SIDED|95.0|1.2|8.5|||ANCOVA|||||8.5|1.2|0.010
82471584|NCT01106690|164637830|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|6.5|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|2.8|10.2|||ANCOVA|||||10.2|2.8|<0.001
82471585|NCT01544335|164637848|OTHER||||||<|0.001|||||||Correlation coefficient|The correlation between RVC and ΔL-Dex values was plotted, and the correlation strength was assessed using the Pearson correlation coefficient, r.||||||<0.001
82471586|NCT03219528|164637853|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||Baseline||||0.78
82471587|NCT03219528|164637853|SUPERIORITY|||||||0.88|||||||Mixed Models Analysis|||Week 5||||0.88
82471588|NCT03219528|164637862|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Baseline||||0.77
82471589|NCT03219528|164637862|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis|||Week 5||||0.58
82471590|NCT00241839|164637864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.27|STANDARD_ERROR_OF_MEAN|2.24||0.059|TWO_SIDED|95.0|-0.17|8.7|||t-test, 2 sided|Satterthwaite correction for possibly unequal variance was made|A positive value of the estimated value would favor the allopurinol arm. The analysis is limited to those with both baseline and 8-10 week data on this variable.|We compared the drop in baseline of diastolic BP for the two treatment groups Allopurinol vs. Placebo by a Satterthwaite corrected t-test.||8.7|-0.17|0.059
82471591|NCT00241839|164637865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|STANDARD_ERROR_OF_MEAN|1.59||0.47|TWO_SIDED|95.0|-2.0|4.3||Positive numbers indicate a drop. We compared baseline minus value at treatment end for the two treatments.|t-test, 2 sided|Satterthwaite correction was used for potentially unequal variances.|The analysis is limited to those with both baseline and 8-10 week data on this variable.|||4.3|-2.0|0.47
82471592|NCT00241839|164637866|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.76|STANDARD_ERROR_OF_MEAN|2.11||0.002|TWO_SIDED|95.0|-11.0|-2.6|||t-test, 2 sided|Sattherthwaite correction was used|The analysis is limited to those with both baseline and 8-10 week data on this variable. The 24 hour was in the opposite direction of the cuff.|||-2.6|-11.0|0.0020
82471593|NCT00241839|164637867|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.15|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|1.72|2.59|||t-test, 2 sided|Satterthwaite correction was used.|Allopurinol was associated with a significant decrease in uric acid over the treatment period as compared to placebo. The analysis is limited to those with both baseline and 8-10 week data on this variable.|We expected allopurinol to be associated with a decrease in uric acid.||2.59|1.72|<0.001
82471594|NCT03096288|164637883|SUPERIORITY||Mean Difference (Final Values)|22.0||||0.169|TWO_SIDED|95.0|-9.0|52.0|||t-test, 2 sided|||||52|-9|0.169
82471595|NCT03096288|164637883|SUPERIORITY||Median Difference (Final Values)|17.0||||0.236|TWO_SIDED|95.0|-11.0|45.0|||t-test, 2 sided|||||45|-11|0.236
82471596|NCT00297258|164637925|SUPERIORITY_OR_OTHER||percentage of participants|46.0||||0.653||90.0|11.0|47.6|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||47.6|11.0|0.653
82471597|NCT00297258|164637925|SUPERIORITY_OR_OTHER||percentage of participants|41.0||||0.003||90.0|28.4|55.5|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||55.5|28.4|0.003
82471598|NCT00297258|164637925|SUPERIORITY_OR_OTHER||percentage of participants|49.0|||<|0.001||90.0|34.3|63.2|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||63.2|34.3|<0.001
82471599|NCT00297258|164637925|SUPERIORITY_OR_OTHER||percentage of participants|41.0||||0.003||90.0|28.4|55.5|||binomial exact method||The estimated value represents the percentage of participants with a CR, a PR, or SD.|||55.5|28.4|0.003
82471600|NCT01216189|164637968|SUPERIORITY||Mean change|-0.138||||0.004|TWO_SIDED|95.0|-0.232|-0.044||The threshold for statistical significance was p = 0.05.|Regression, Linear|Model adjusted for menopausal status.||The change in serum testosterone levels between baseline and 1 year was assessed using longitudinal regression analysis (GEE).||-0.044|-0.232|0.004
82579712|NCT04410523|164869963|SUPERIORITY||Least Squares mean|0.078|STANDARD_ERROR_OF_MEAN|0.145||0.59|TWO_SIDED|95.0|-0.207|0.364|||MMRM||Treatment difference (CCSJ117-placebo)|||0.364|-0.207|0.590
82471601|NCT01216189|164637968|SUPERIORITY||Mean change|-0.011||||0.805|TWO_SIDED|95.0|-0.097|0.075||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for menopausal status.||The change in serum testosterone levels between baseline and 1 year was assessed using longitudinal regression analysis (GEE).||0.075|-0.097|0.805
82547495|NCT03913195|164794667|EQUIVALENCE|The equivalence limits for the 90% confidence interval (CI) are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|mean geometric ratio|1.0315||||0.5389|TWO_SIDED|90.0|0.9478|1.1226|||SAS PROC MIXED|||The log transform of the ratio of the geometric means of the Area Under the Curve (AUC) for 30 second IV Push and 15 minute IV infusion is compared.||1.1226|0.9478|0.5389
82547496|NCT03913195|164794669|EQUIVALENCE|The equivalence limits for the 90% confidence interval are 0.80 to 1.25. If the 90% CIs were within the equivalence limits (0.8, 1.25), it demonstrated a PK bridge between the two routes of administration.|Risk Ratio (RR)|0.89||||0.34|TWO_SIDED|90.0|0.69|1.08|||Fisher Exact|||The proportion of subjects with an average Ctrough ≥ 300 ng/mL is compared between IM and IV infusion.||1.08|0.69|0.34
82547497|NCT02380612|164794676|OTHER||Geometric Mean Ratio|1.4575|||||TWO_SIDED|||||||||||||
82547498|NCT02721381|164794680|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||<.001
82547499|NCT02721381|164794681|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||<.001
82579713|NCT04410523|164869963|SUPERIORITY||Least Squares mean|0.033|STANDARD_ERROR_OF_MEAN|0.118||0.778|TWO_SIDED|95.0|-0.199|0.265|||MMRM||Treatment difference (CCSJ117-placebo)|||0.265|-0.199|0.778
82579714|NCT04410523|164869963|SUPERIORITY||Least Squares mean|0.073|STANDARD_ERROR_OF_MEAN|0.118||0.539|TWO_SIDED|95.0|-0.16|0.305|||MMRM||Treatment difference (CCSJ117-placebo)|||0.305|-0.160|0.539
82650780|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|0.6||||0.3867|TWO_SIDED|95.0|0.18|1.97|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.97|0.18|0.3867
82650781|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|0.11||||0.0118|TWO_SIDED|95.0|0.01|0.93|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||0.93|0.01|0.0118
82471602|NCT01216189|164637969|SUPERIORITY||Mean change in FSFI scores|-9.33||||0.013|TWO_SIDED|95.0|-16.66|-1.99||The threshold for statistical significance was p=0.05.|Regression, Linear|Model adjusted for Age, Psychological General Well-being total score and relationship with partner.||"The association between mean change in total FSFI score and preoperative RT was assessed using longitudinal regression analysis (GEE), using no preoperative radiotherapy as the reference group."||-1.99|-16.66|0.013
82471603|NCT00541385|164637970|OTHER|"Analysis of the PCR-corrected ACPR response rate on Day 28 for the PA group. Null hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is ≤90%.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is \>90%."|||||<|0.0001||||||The threshold for significance was ≤0.025.|Exact binomial test|||||||<0.0001
82547500|NCT02721381|164794682|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.85
82547501|NCT02721381|164794683|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.85
82547502|NCT02721381|164794684|SUPERIORITY|||||||0.98|||||||ANCOVA|||||||.98
82547503|NCT02721381|164794685|SUPERIORITY|||||||0.69|||||||ANCOVA|||||||.69
82650782|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|0.59||||0.32|TWO_SIDED|95.0|0.21|1.66|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.66|0.21|0.3200
82547504|NCT02721381|164794686|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.038
82547505|NCT02721381|164794687|SUPERIORITY|||||||0.45|||||||Mixed Models Analysis|||The effect of group assignment was examined using MLM, with a significant time X group interaction indicative of an effect of group assignment. Data from T1, T2, and T3 were both used in same analysis.||||.45
82547506|NCT02721381|164794688|SUPERIORITY|||||||0.92|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.92
82547507|NCT02721381|164794689|SUPERIORITY|||||||0.42|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.42
82547508|NCT02721381|164794690|SUPERIORITY|||||||0.65|||||||ANCOVA|||ANCOVA controlling for T1 measure||||.65
82547509|NCT02721381|164794691|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Independent samples t-test||||.001
82547510|NCT03611153|164794692|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.040
82547511|NCT03611153|164794694|SUPERIORITY|||||||0.777|||||||t-test, 2 sided|||||||0.777
82547512|NCT03611153|164794695|SUPERIORITY|||||||0.805|||||||t-test, 2 sided|||Right atrial pressure||||0.805
82547513|NCT03611153|164794695|SUPERIORITY|||||||0.148|||||||t-test, 2 sided|||pulmonary artery systolic pressure||||0.148
82579715|NCT01638429|164869972|SUPERIORITY_OR_OTHER|||||||0.16|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.16
82579716|NCT01638429|164869974|SUPERIORITY_OR_OTHER|||||||0.028|||||||t-test, 2 sided|||P-value is comparing change in methane eradiacators before and after treatment to change in methane non-eradiacators before and after treatment||||0.028
82471604|NCT00541385|164637970|NON_INFERIORITY|The secondary efficacy analysis tested the non-inferiority of PA compared to the AL group with regard to the PCR-corrected ACPR response rate on Day 28 using a 2-sided 95% confidence interval (Newcombe Wilson score method without continuity correction) and a 10% non-inferiority margin for the EE population. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval for the difference in 28-day PCR-corrected ACPR was not lower than 10%.|ACPR percent difference|-1.2||||0.3728|TWO_SIDED|95.0|-3.6|2.1||If non-inferiority of PA was demonstrated, the p-value associated with a superiority test was calculated based on a 2-sided Chi-Square test. If the calculated p-value was \<0.05, then the superiority of PA over AL was statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate for the AL group.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate on Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate for the AL group."||2.1|-3.6|0.3728
82471605|NCT01721044|164637995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
82471606|NCT01721044|164637996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82471607|NCT01721044|164637997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82471608|NCT01721044|164637998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.140
82471609|NCT01721044|164637999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
82471610|NCT01721044|164638000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82471611|NCT01721044|164638001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82471612|NCT01721044|164638002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.723|||||||Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.723
82471613|NCT01721044|164638003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided \<=0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
82471614|NCT01721044|164638003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided \<=0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.001
82471615|NCT01721044|164638004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.001
82471616|NCT01721044|164638004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.002
82471617|NCT01721044|164638004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
82471618|NCT01721044|164638004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.015
82471619|NCT01721044|164638005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.002
82471620|NCT01721044|164638005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 12||||0.001
82471621|NCT01721044|164638005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
82471622|NCT01721044|164638005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||Week 24||||0.001
82471623|NCT01721044|164638006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471624|NCT01721044|164638006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471625|NCT01721044|164638007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471626|NCT01721044|164638007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.009
82471627|NCT01721044|164638008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471628|NCT01721044|164638008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.003
82471629|NCT01721044|164638009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.012
82471630|NCT01721044|164638009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Regression, Logistic|If logistic regression sample size requirements are not met, the p-value from Fisher's exact test is used instead.||||||0.104
82471631|NCT01721044|164638010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Wilcoxon (Mann-Whitney)|||||||0.002
82471632|NCT01721044|164638010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|Wilcoxon (Mann-Whitney)|||||||0.004
82471633|NCT01721044|164638011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471634|NCT01721044|164638011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.018
82471635|NCT01721044|164638012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471636|NCT01721044|164638012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||||||0.001
82471637|NCT01721044|164638013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12||||0.005
82471638|NCT01721044|164638013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12||||0.004
82471639|NCT01721044|164638013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24||||0.002
82471640|NCT01721044|164638013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24||||0.026
82547514|NCT03611153|164794695|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Mean pulmonary artery pressure||||0.090
82650783|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|0.6||||0.3266|TWO_SIDED|95.0|0.23|1.62|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.62|0.23|0.3266
82650784|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.47||||0.3027|TWO_SIDED|95.0|0.7|3.1|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.10|0.70|0.3027
82471641|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.448|TWO_SIDED||||||ANCOVA|||MCS Week 12||||0.448
82471642|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED||||||ANCOVA|||MCS Week 12||||0.058
82547515|NCT03611153|164794696|SUPERIORITY|||||||0.786|||||||t-test, 2 sided|||Right atrial pressure||||0.786
82579717|NCT01638429|164869975|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||P-value is comparing change in methane eradiacators before and after treatment to change in methane non-eradiacators before and after treatment||||0.01
82579718|NCT01638429|164869976|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.97
82471643|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.446|TWO_SIDED||||||ANCOVA|||MCS Week 24||||0.446
82471644|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.401|TWO_SIDED||||||ANCOVA|||MCS Week 24||||0.401
82471645|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 12||||0.001
82471646|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 12||||0.001
82471647|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 24||||0.001
82471648|NCT01721044|164638014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||PCS Week 24||||0.001
82471649|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, US Algorithm||||0.001
82471650|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, US Algorithm||||0.001
82471651|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, US Algorithm||||0.001
82471652|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, US Algorithm||||0.003
82471653|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, UK Algorithm||||0.001
82471654|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 12, UK Algorithm||||0.001
82471655|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, UK Algorithm||||0.001
82471656|NCT01721044|164638015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||a priori p-value significance threshold: 2-sided ≤0.05|ANCOVA|||Week 24, UK Algorithm||||0.002
82471657|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362|TWO_SIDED||||||ANCOVA|||Absenteeism Week 12||||0.362
82471658|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED||||||ANCOVA|||Absenteeism Week 12||||0.170
82471659|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753|TWO_SIDED||||||ANCOVA|||Absenteeism Week 24||||0.753
82471660|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.715|TWO_SIDED||||||ANCOVA|||Absenteeism Week 24||||0.715
82471661|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077|TWO_SIDED||||||ANCOVA|||Presenteeism Week 12||||0.077
82471662|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058|TWO_SIDED||||||ANCOVA|||Presenteeism Week 12||||0.058
82471663|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.232|TWO_SIDED||||||ANCOVA|||Presenteeism Week 24||||0.232
82471664|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.534|TWO_SIDED||||||ANCOVA|||Presenteeism Week 24||||0.534
82471665|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.079|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 12||||0.079
82547516|NCT03611153|164794696|SUPERIORITY|||||||0.796|||||||t-test, 2 sided|||Pulmonary artery systolic pressure||||0.796
82547517|NCT03611153|164794696|SUPERIORITY|||||||0.703|||||||t-test, 2 sided|||Mean pulmonary artery pressure||||0.703
82547518|NCT03611153|164794697|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||||||0.418
82547519|NCT03611153|164794698|SUPERIORITY|||||||0.669|||||||t-test, 2 sided|||||||0.669
82471666|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 12||||0.070
82471667|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 24||||0.327
82471668|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.479|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Week 24||||0.479
82471669|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 12||||0.001
82471670|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 12||||0.005
82471671|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 24||||0.001
82471672|NCT01721044|164638016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|TWO_SIDED||||||ANCOVA|||Activity Impairment Week 24||||0.030
82471673|NCT01526733|164638023|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.15|||<|0.0001|TWO_SIDED|90.0|1.71|2.71||Comparison of Day 1 Insulin (Aspart or Lispro)-rHuPH20 versus Day 1 Insulin-sham.|Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||||2.71|1.71|<0.0001
82471674|NCT01526733|164638023|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|2.62|||<|0.0001|TWO_SIDED|90.0|2.08|3.29||Comparison of Day 4 Insulin (Aspart or Lispro)-rHuPH20 versus Day 1 Insulin-sham.|Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||||3.29|2.08|<0.0001
82471675|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
82471676|NCT04032093|164638038|OTHER||Geometric Mean Ratio|20.0|||||TWO_SIDED|95.0|16.1|24.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||24.7|16.1|
82471677|NCT04032093|164638038|OTHER||Geometric Mean Ratio|15.6|||||TWO_SIDED|95.0|11.9|20.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||20.4|11.9|
82471678|NCT04032093|164638038|OTHER||Geometric Mean Ratio|11.2|||||TWO_SIDED|95.0|8.7|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||14.5|8.7|
82471679|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.9|
82471680|NCT04032093|164638038|OTHER||Geometric Mean Ratio|24.2|||||TWO_SIDED|95.0|18.5|31.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||31.7|18.5|
82547520|NCT04840199|164794787|SUPERIORITY||Mean Difference (Net)|-0.031||||0.2|TWO_SIDED|95.0|-0.08|0.018||No adjustment for multiple comparisons|Regression, Linear||Treatment effect was estimated as the difference in mean change in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a linear regression model (0 reflects no difference between arms).|||0.018|-0.080|0.20
82547521|NCT04840199|164794788|SUPERIORITY||Risk Difference (RD)|0.172||||0.19|TWO_SIDED|95.0|-0.073|0.438||No adjustment for multiple comparisons|Chan/Zhang exact test diff. proportions||An exact 95% confidence interval around the observed difference in proportions (and the associated p-value) was constructed based on the standardized statistic and inverting two 1-sided tests (Chan-Zhang method).|||0.438|-0.073|0.19
82471681|NCT04032093|164638038|OTHER||Geometric Mean Ratio|20.4|||||TWO_SIDED|95.0|15.7|26.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||26.6|15.7|
82471682|NCT04032093|164638038|OTHER||Geometric Mean Ratio|13.6|||||TWO_SIDED|95.0|10.1|18.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||18.4|10.1|
82471683|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
82471684|NCT04032093|164638038|OTHER||Geometric Mean Ratio|19.8|||||TWO_SIDED|95.0|15.3|25.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||25.7|15.3|
82471685|NCT04032093|164638038|OTHER||Geometric Mean Ratio|20.0|||||TWO_SIDED|95.0|15.9|25.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||25.1|15.9|
82471686|NCT04032093|164638038|OTHER||Geometric Mean Ratio|15.0|||||TWO_SIDED|95.0|11.9|18.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||18.9|11.9|
82471687|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.8|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.8|
82471688|NCT04032093|164638038|OTHER||Geometric Mean Ratio|22.5|||||TWO_SIDED|95.0|16.9|30.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||30.1|16.9|
82579719|NCT01638429|164869976|SUPERIORITY_OR_OTHER|||||||0.85|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.85
82471689|NCT04032093|164638038|OTHER||Geometric Mean Ratio|22.5|||||TWO_SIDED|95.0|17.6|28.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||28.7|17.6|
82650785|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.17||||0.696|TWO_SIDED|95.0|0.54|2.52|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.52|0.54|0.6960
82471690|NCT04032093|164638038|OTHER||Geometric Mean Ratio|16.8|||||TWO_SIDED|95.0|12.7|22.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||22.3|12.7|
82471691|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.2|0.8|
82471692|NCT04032093|164638038|OTHER||Geometric Mean Ratio|21.0|||||TWO_SIDED|95.0|16.6|26.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||26.5|16.6|
82471693|NCT04032093|164638038|OTHER||Geometric Mean Ratio|15.3|||||TWO_SIDED|95.0|11.6|20.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||20.1|11.6|
82471694|NCT04032093|164638038|OTHER||Geometric Mean Ratio|10.6|||||TWO_SIDED|95.0|8.1|14.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||14.0|8.1|
82471695|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.3|0.8|
82547522|NCT04840199|164794790|SUPERIORITY||Odds Ratio (OR)|0.91||||0.12|TWO_SIDED|95.0|0.8|1.03||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Early treatment phase comparison||1.03|0.80|0.12
82547523|NCT04840199|164794790|SUPERIORITY||Odds Ratio (OR)|0.92||||0.009|TWO_SIDED|95.0|0.87|0.98||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Late treatment phase comparison||0.98|0.87|0.009
82471696|NCT04032093|164638038|OTHER||Geometric Mean Ratio|26.6|||||TWO_SIDED|95.0|20.5|34.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||34.6|20.5|
82471697|NCT04032093|164638038|OTHER||Geometric Mean Ratio|18.0|||||TWO_SIDED|95.0|13.5|24.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||24.1|13.5|
82471698|NCT04032093|164638038|OTHER||Geometric Mean Ratio|13.5|||||TWO_SIDED|95.0|10.1|18.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||18.0|10.1|
82579720|NCT01638429|164869977|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.61
82579721|NCT01638429|164869977|SUPERIORITY_OR_OTHER|||||||0.45|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.45
82579722|NCT01638429|164869978|SUPERIORITY_OR_OTHER|||||||0.018|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.018
82579723|NCT01638429|164869978|SUPERIORITY_OR_OTHER|||||||0.14|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.14
82471699|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: Before vaccination||1.3|0.9|
82471700|NCT04032093|164638038|OTHER||Geometric Mean Ratio|25.0|||||TWO_SIDED|95.0|19.9|31.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Weeks after vaccination||31.3|19.9|
82471701|NCT04032093|164638038|OTHER||Geometric Mean Ratio|18.1|||||TWO_SIDED|95.0|14.5|22.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after vaccination||22.8|14.5|
82471702|NCT04032093|164638038|OTHER||Geometric Mean Ratio|13.8|||||TWO_SIDED|95.0|10.8|17.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At delivery||17.5|10.8|
82471703|NCT04032093|164638038|OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: Before vaccination||1.4|0.9|
82471704|NCT04032093|164638038|OTHER||Geometric Mean Ratio|34.7|||||TWO_SIDED|95.0|27.0|44.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Weeks after vaccination||44.4|27.0|
82471705|NCT04032093|164638038|OTHER||Geometric Mean Ratio|23.2|||||TWO_SIDED|95.0|18.2|29.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after vaccination||29.6|18.2|
82471706|NCT04032093|164638038|OTHER||Geometric Mean Ratio|16.2|||||TWO_SIDED|95.0|12.0|21.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At delivery||21.7|12.0|
82471707|NCT04032093|164638040|OTHER||Geometric Mean Ratio|10.7|||||TWO_SIDED|95.0|8.1|14.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.1|8.1|
82471708|NCT04032093|164638040|OTHER||Geometric Mean Ratio|8.9|||||TWO_SIDED|95.0|5.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.5|5.5|
82471709|NCT04032093|164638040|OTHER||Geometric Mean Ratio|15.8|||||TWO_SIDED|95.0|10.7|23.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||23.4|10.7|
82471710|NCT04032093|164638040|OTHER||Geometric Mean Ratio|5.6|||||TWO_SIDED|95.0|3.5|9.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||9.0|3.5|
82471711|NCT04032093|164638040|OTHER||Geometric Mean Ratio|6.6|||||TWO_SIDED|95.0|4.5|9.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||9.6|4.5|
82471712|NCT04032093|164638040|OTHER||Geometric Mean Ratio|14.9|||||TWO_SIDED|95.0|11.1|19.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||19.9|11.1|
82471713|NCT04032093|164638040|OTHER||Geometric Mean Ratio|11.0|||||TWO_SIDED|95.0|6.5|18.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||18.6|6.5|
82471714|NCT04032093|164638040|OTHER||Geometric Mean Ratio|19.2|||||TWO_SIDED|95.0|13.1|28.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||28.0|13.1|
82471715|NCT04032093|164638040|OTHER||Geometric Mean Ratio|6.9|||||TWO_SIDED|95.0|4.2|11.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||11.4|4.2|
82471716|NCT04032093|164638040|OTHER||Geometric Mean Ratio|7.3|||||TWO_SIDED|95.0|4.5|11.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||11.8|4.5|
82471717|NCT04032093|164638040|OTHER||Geometric Mean Ratio|10.8|||||TWO_SIDED|95.0|8.3|14.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.2|8.3|
82579724|NCT01638429|164869979|SUPERIORITY_OR_OTHER|||||||0.43|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.43
82579725|NCT01638429|164869979|SUPERIORITY_OR_OTHER|||||||0.44|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.44
82579726|NCT01638429|164869980|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.13
82579727|NCT01638429|164869980|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.25
82471718|NCT04032093|164638040|OTHER||Geometric Mean Ratio|9.7|||||TWO_SIDED|95.0|6.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.5|6.5|
82471719|NCT04032093|164638040|OTHER||Geometric Mean Ratio|10.6|||||TWO_SIDED|95.0|7.1|15.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||15.9|7.1|
82471720|NCT04032093|164638040|OTHER||Geometric Mean Ratio|8.2|||||TWO_SIDED|95.0|5.2|12.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||12.9|5.2|
82471721|NCT04032093|164638040|OTHER||Geometric Mean Ratio|4.8|||||TWO_SIDED|95.0|3.1|7.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||7.5|3.1|
82471722|NCT04032093|164638040|OTHER||Geometric Mean Ratio|14.0|||||TWO_SIDED|95.0|10.5|18.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||18.7|10.5|
82547524|NCT04840199|164794790|SUPERIORITY||Odds Ratio (OR)|1.17||||0.24|TWO_SIDED|95.0|0.9|1.53||No adjustment for multiple comparisons|GEE model for repeated binary outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the odds ratio of weekly rate of change (slope) in odds of CMV DNA detection with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Post treatment phase comparison||1.53|0.90|0.24
82579728|NCT01638429|164869981|SUPERIORITY_OR_OTHER|||||||0.29|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.29
82471723|NCT04032093|164638040|OTHER||Geometric Mean Ratio|11.8|||||TWO_SIDED|95.0|7.4|18.7|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||18.7|7.4|
82471724|NCT04032093|164638040|OTHER||Geometric Mean Ratio|11.9|||||TWO_SIDED|95.0|7.7|18.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||18.3|7.7|
82471725|NCT04032093|164638040|OTHER||Geometric Mean Ratio|8.9|||||TWO_SIDED|95.0|5.5|14.5|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||14.5|5.5|
82471726|NCT04032093|164638040|OTHER||Geometric Mean Ratio|5.4|||||TWO_SIDED|95.0|3.3|8.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||8.8|3.3|
82471727|NCT04032093|164638040|OTHER||Geometric Mean Ratio|9.5|||||TWO_SIDED|95.0|7.4|12.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||12.3|7.4|
82471728|NCT04032093|164638040|OTHER||Geometric Mean Ratio|8.4|||||TWO_SIDED|95.0|5.7|12.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||12.4|5.7|
82471729|NCT04032093|164638040|OTHER||Geometric Mean Ratio|9.9|||||TWO_SIDED|95.0|6.4|15.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||15.4|6.4|
82471730|NCT04032093|164638040|OTHER||Geometric Mean Ratio|4.5|||||TWO_SIDED|95.0|2.9|6.8|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||6.8|2.9|
82471731|NCT04032093|164638040|OTHER||Geometric Mean Ratio|4.0|||||TWO_SIDED|95.0|2.5|6.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||6.3|2.5|
82471732|NCT04032093|164638040|OTHER||Geometric Mean Ratio|12.4|||||TWO_SIDED|95.0|9.2|16.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||16.6|9.2|
82471733|NCT04032093|164638040|OTHER||Geometric Mean Ratio|11.3|||||TWO_SIDED|95.0|7.1|17.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||17.9|7.1|
82579729|NCT01638429|164869981|SUPERIORITY_OR_OTHER|||||||0.27|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.27
82471734|NCT04032093|164638040|OTHER||Geometric Mean Ratio|10.4|||||TWO_SIDED|95.0|7.0|15.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||15.2|7.0|
82471735|NCT04032093|164638040|OTHER||Geometric Mean Ratio|5.7|||||TWO_SIDED|95.0|3.7|9.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||9.0|3.7|
82471736|NCT04032093|164638040|OTHER||Geometric Mean Ratio|4.3|||||TWO_SIDED|95.0|2.7|7.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||7.0|2.7|
82471737|NCT04032093|164638040|OTHER||Geometric Mean Ratio|11.3|||||TWO_SIDED|95.0|8.6|14.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: At birth||14.9|8.6|
82471738|NCT04032093|164638040|OTHER||Geometric Mean Ratio|10.2|||||TWO_SIDED|95.0|7.4|14.0|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 1 Month after birth||14.0|7.4|
82471739|NCT04032093|164638040|OTHER||Geometric Mean Ratio|15.0|||||TWO_SIDED|95.0|10.2|22.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 2 Months after birth||22.1|10.2|
82579730|NCT01638429|164869982|SUPERIORITY_OR_OTHER|||||||0.22|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.22
82579731|NCT01638429|164869982|SUPERIORITY_OR_OTHER|||||||0.059|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.059
82579732|NCT01638429|164869983|SUPERIORITY_OR_OTHER|||||||0.33|||||||t-test, 2 sided|||Values compared in total study population pre- and post-treatment||||0.33
82579733|NCT01638429|164869983|SUPERIORITY_OR_OTHER|||||||0.075|||||||t-test, 2 sided|||Values compared in methane eradicators only pre- and post-treatment||||0.075
82471740|NCT04032093|164638040|OTHER||Geometric Mean Ratio|6.1|||||TWO_SIDED|95.0|3.9|9.6|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 4 Months after birth||9.6|3.9|
82471741|NCT04032093|164638040|OTHER||Geometric Mean Ratio|4.5|||||TWO_SIDED|95.0|2.9|6.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|A 50%: 6 Months after birth||6.9|2.9|
82471742|NCT04032093|164638040|OTHER||Geometric Mean Ratio|16.2|||||TWO_SIDED|95.0|12.5|21.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: At birth||21.2|12.5|
82547525|NCT04840199|164794793|SUPERIORITY||Mean Difference (Net)|0.0002||||0.95|TWO_SIDED|95.0|-0.0062|0.0066||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Early treatment phase comparison||0.0066|-0.0062|0.95
82547526|NCT04840199|164794793|SUPERIORITY||Mean Difference (Net)|-0.0007||||0.28|TWO_SIDED|95.0|-0.0019|0.0005||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Late treatment phase comparison||0.0005|-0.0019|0.28
82547527|NCT04840199|164794793|SUPERIORITY||Mean Difference (Net)|0.0056||||0.077|TWO_SIDED|95.0|-0.0006|0.0118||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sCD163 with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between treatment groups).|Post treatment phase comparison||0.0118|-0.0006|0.077
82547528|NCT04840199|164794794|SUPERIORITY||Mean Difference (Net)|0.0009||||0.72|TWO_SIDED|95.0|-0.004|0.0058||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the early treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Early treatment phase comparison||0.0058|-0.0040|0.72
82547529|NCT04840199|164794794|SUPERIORITY||Mean Difference (Net)|-0.0009||||0.13|TWO_SIDED|95.0|-0.0022|0.0003||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the late treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Late treatment phase comparison||0.0003|-0.0022|0.13
82547530|NCT04840199|164794794|SUPERIORITY||Mean Difference (Net)|0.0023||||0.17|TWO_SIDED|95.0|-0.001|0.0055||No adjustment for multiple comparisons|GEE model for repeated outcomes|P-value is from the time and treatment group interaction in the post treatment phase.|Treatment effect was estimated as the difference in weekly rate of change (slope) in log10 sTNFRII with randomized letermovir compared to no anti-CMV treatment from a GEE model with linear splines (1 reflects no difference between arms).|Post treatment phase comparison||0.0055|-0.0010|0.17
82547531|NCT04424927|164794826|OTHER||Least square (LS) mean difference|0.04||||0.8543|TWO_SIDED|95.0|-0.43|0.52|||MMRM|||Estimates/p-value are from a mixed model for repeated measures (MMRM) with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.52|-0.43|0.8543
82547532|NCT04424927|164794826|OTHER||LS mean difference|0.11||||0.6552|TWO_SIDED|95.0|-0.37|0.59|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.59|-0.37|0.6552
82547533|NCT04424927|164794826|OTHER||LS mean difference|0.04||||0.8705|TWO_SIDED|95.0|-0.45|0.53|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.53|-0.45|0.8705
82547534|NCT04424927|164794827|OTHER||LS mean difference|0.11||||0.6757|TWO_SIDED|95.0|-0.42|0.65|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.65|-0.42|0.6757
82585986|NCT00710021|164883894|SUPERIORITY_OR_OTHER|||||||0.29||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Mx1 expression.||||||0.29
82471743|NCT04032093|164638040|OTHER||Geometric Mean Ratio|12.8|||||TWO_SIDED|95.0|8.6|19.1|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 1 Month after birth||19.1|8.6|
82471744|NCT04032093|164638040|OTHER||Geometric Mean Ratio|17.7|||||TWO_SIDED|95.0|11.9|26.2|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 2 Months after birth||26.2|11.9|
82471745|NCT04032093|164638040|OTHER||Geometric Mean Ratio|9.0|||||TWO_SIDED|95.0|5.7|14.4|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 4 Months after birth||14.4|5.7|
82471746|NCT04032093|164638040|OTHER||Geometric Mean Ratio|6.2|||||TWO_SIDED|95.0|3.9|9.9|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences in the logarithms of the titers (RSV group - placebo group) and the corresponding CIs (CIs based on the Student t distribution).|B 50%: 6 Months after birth||9.9|3.9|
82376878|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.3796|STANDARD_ERROR_OF_MEAN|0.2043||0.0702|TWO_SIDED|90.0|-0.7232|-0.036|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.0360|-0.7232|0.0702
82471747|NCT01356277|164638071|SUPERIORITY||Odds Ratio (OR)|1.66||||0.006|TWO_SIDED|95.0|1.15|2.39|||Regression, Logistic|Unadjusted, ordinal logistic regression|An odds ratio greater than 1.0 indicates higher adherence in Intervention participants compared with controls.|We estimated a sample size of 75 participants per group to have 85% power to detect a 20% difference in taking adherence between groups, using 2-sided tests and setting alpha at 0.05, assuming a common standard deviation of 40%. Targeted enrollment of 176 participants accounted for 15% drop-out. Only participants with electronic pillbox data could be included. For participants who withdrew or stopped using the pillbox, all available pillbox data were included.||2.39|1.15|0.006
82471748|NCT01356277|164638072|SUPERIORITY||Odds Ratio (OR)|1.74||||0.003|TWO_SIDED|95.0|1.21|2.5|||Regression, Logistic|Unadjusted ordinal logistic regression|An odds ratio greater than 1.0 indicates higher adherence in Intervention participants compared with controls.|||2.50|1.21|0.003
82471749|NCT01356277|164638073|SUPERIORITY|||||||0.49|||||||Wilcoxon ranksum|||Null hypothesis was that there was no difference in the SD of tacrolimus trough levels between intervention and control.||||0.49
82471750|NCT01356277|164638074|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82471751|NCT01356277|164638075|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||||||0.15
82471752|NCT01356277|164638076|SUPERIORITY|||||||0.26|||||||Chi-squared|||Rates were compared between intervention and control groups using Chi square||||0.26
82471753|NCT01356277|164638077|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||.45
82471754|NCT02839200|164638131|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Model|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose-response across placebo and all ACT-541468 doses. The null hypothesis of no dose-response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cranrprojects.org/web/packages/DoseFinding.)"||||<0.001
82471755|NCT02839200|164638131|OTHER||LS mean difference|-7.0|STANDARD_ERROR_OF_MEAN|5.95||0.241|TWO_SIDED|95.0|-18.7|4.7|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||4.7|-18.7|0.241
82471756|NCT02839200|164638131|OTHER||LS Mean difference|-10.8|STANDARD_ERROR_OF_MEAN|6.0||0.072|TWO_SIDED|95.0|-22.6|1.0|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||1|-22.6|0.072
82471757|NCT02839200|164638131|OTHER||LS Mean difference|-16.2|STANDARD_ERROR_OF_MEAN|5.95||0.007|TWO_SIDED|95.0|-27.9|-4.5|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||-4.5|-27.9|0.007
82471758|NCT02839200|164638131|OTHER||LS Mean difference|-25.6|STANDARD_ERROR_OF_MEAN|5.92|<|0.001|TWO_SIDED|95.0|-37.3|-13.9|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||-13.9|-37.3|< 0.001
82471759|NCT02839200|164638131|OTHER||LS Mean difference|-8.5|STANDARD_ERROR_OF_MEAN|5.97||0.155|TWO_SIDED|95.0|-20.4|3.3|||ANCOVA||Parameter Dispersion Type and Dispersion Value: Standard error of the LS mean|||3.3|-20.4|0.155
82471760|NCT02952820|164638135|SUPERIORITY||least squares geometric mean (LSGM)ratio|0.732|||<|0.0001|TWO_SIDED|95.0|0.636|0.843|||Mixed Models Analysis|||Analysis was based on mixed effect model repeated measurement analysis (MMRM) model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (missing not at random/complete case missing value \[MNAR/CCMV\]).||0.843|0.636|<.0001
82471761|NCT02952820|164638135|SUPERIORITY||LSGM ratio|0.701|||<|0.0001|TWO_SIDED|95.0|0.607|0.81|||Mixed Models Analysis|||Analysis was based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.810|0.607|<.0001
82471762|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.781|||<|0.0001|TWO_SIDED|95.0|0.725|0.842|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 1): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.842|0.725|<.0001
82471763|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.752|||<|0.0001|TWO_SIDED|95.0|0.698|0.811|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 2): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.811|0.698|<.0001
82471764|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.81|||<|0.0001|TWO_SIDED|95.0|0.735|0.893|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.893|0.735|<.0001
82471765|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.77|||<|0.0001|TWO_SIDED|95.0|0.698|0.848|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.848|0.698|<.0001
82471766|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.778|||<|0.0001|TWO_SIDED|95.0|0.69|0.878|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.878|0.690|<.0001
82471767|NCT02952820|164638136|SUPERIORITY||LSGM ratio|0.77|||<|0.0001|TWO_SIDED|95.0|0.681|0.869|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with log transformation of sSOL and factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and the study baseline sSOL as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||0.869|0.681|<.0001
82471768|NCT02952820|164638137|SUPERIORITY||LSM Difference|4.299|STANDARD_ERROR_OF_MEAN|0.848|<|0.0001|TWO_SIDED|95.0|2.638|5.961|||Mixed Models Analysis|||First 7 nights (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||5.961|2.638|<.0001
82547535|NCT04424927|164794827|OTHER||LS mean difference|-0.25||||0.3645|TWO_SIDED|95.0|-0.78|0.29|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.29|-0.78|0.3645
82547536|NCT04424927|164794827|OTHER||LS mean difference|-0.3||||0.2791|TWO_SIDED|95.0|-0.84|0.24|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.24|-0.84|0.2791
82471769|NCT02952820|164638137|SUPERIORITY||LSM Difference|5.793|STANDARD_ERROR_OF_MEAN|0.846|<|0.0001|TWO_SIDED|95.0|4.133|7.452|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||7.452|4.133|<.0001
82547537|NCT04424927|164794828|OTHER||LS mean difference|0.05||||0.7829|TWO_SIDED|95.0|-0.32|0.42|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.42|-0.32|0.7829
82547538|NCT04424927|164794828|OTHER||LS mean difference|0.01||||0.9503|TWO_SIDED|95.0|-0.36|0.38|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.38|-0.36|0.9503
82547539|NCT04424927|164794828|OTHER||LS mean difference|-0.16||||0.4107|TWO_SIDED|95.0|-0.54|0.22|||MMRM|||Estimates/p-value are from a MMRM with treatment, week, and treatment by week as fixed effects; continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio as covariates, and participant as a random effect.||0.22|-0.54|0.4107
82547540|NCT04424927|164794829|OTHER||LS mean difference|1.94||||0.4397|TWO_SIDED|95.0|-3.0|6.87|||ANCOVA|||Estimates/p-value are from an analysis of covariance (ANCOVA) model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||6.87|-3.00|0.4397
82547541|NCT04424927|164794829|OTHER||LS mean difference|-3.72||||0.1337|TWO_SIDED|95.0|-8.58|1.15|||ANCOVA|||Estimates/p-value are from an ANCOVA model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||1.15|-8.58|0.1337
82547542|NCT04424927|164794829|OTHER||LS mean difference|-4.14||||0.1021|TWO_SIDED|95.0|-9.11|0.83|||ANCOVA|||Estimates/p-value are from an ANCOVA model with treatment as a fixed effect. Continuous baseline CeD PRO Abdominal Symptoms domain score and baseline VH:CD ratio are included as covariates.||0.83|-9.11|0.1021
82547543|NCT00792636|164794868|SUPERIORITY_OR_OTHER||Least-squares mean|-1.7|||||TWO_SIDED|95.0|-3.2|-0.3|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.3|-3.2|
82547544|NCT00792636|164794868|SUPERIORITY_OR_OTHER||Least-squares mean|-0.9|||||TWO_SIDED|95.0|-2.2|0.3|||||Diastolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||0.3|-2.2|
82547545|NCT00792636|164794868|SUPERIORITY_OR_OTHER||Least-squares mean|-1.9|||||TWO_SIDED|95.0|-3.4|-0.4|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.4|-3.4|
82547546|NCT00792636|164794868|SUPERIORITY_OR_OTHER||Least-squares mean|-0.7|||||TWO_SIDED|95.0|-2.0|0.6|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||0.6|-2.0|
82579734|NCT02040584|164869990|SUPERIORITY_OR_OTHER|||||||0.9423|||||||Fisher Exact|Week 52||"Null hypothesis (H0): there were no differences in kidney function between the two groups, in contrast with the alternative hypothesis (H1), in which there were differences:~HO: CBS = CBC versus H1: CBS ≠ CBC, where CBS and CBC were percentages of patients who showed clinical benefit at Week 52 for the study group and control group, respectively."||||0.9423
82547547|NCT00792636|164794869|SUPERIORITY_OR_OTHER||Least-squares mean|-2.1|||||TWO_SIDED|95.0|-3.4|-0.8|||||Systolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.8|-3.4|
82547548|NCT00792636|164794869|SUPERIORITY_OR_OTHER||Least-squares mean|-1.5|||||TWO_SIDED|95.0|-2.6|-0.3|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||-0.3|-2.6|
82547549|NCT00792636|164794870|SUPERIORITY_OR_OTHER||Least-squares mean|0.4|||||TWO_SIDED|95.0|-1.6|2.4|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.4|-1.6|
82547550|NCT00792636|164794870|SUPERIORITY_OR_OTHER||Least-squares mean|0.5|||||TWO_SIDED|95.0|-1.2|2.2|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.2|-1.2|
82547551|NCT00792636|164794871|SUPERIORITY_OR_OTHER||Least-squares mean|0.3|||||TWO_SIDED|95.0|-1.7|2.2|||||Systolic Blood Pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.2|-1.7|
82547552|NCT00792636|164794871|SUPERIORITY_OR_OTHER||Least-squares mean|0.8|||||TWO_SIDED|95.0|-0.9|2.5|||||Diastolic blood pressure. The following covariates were used in this analysis: Age, Gender, Baseline migraines per month, Baseline blood pressure|||2.5|-0.9|
82471770|NCT02952820|164638137|SUPERIORITY||LSM Difference|2.227|STANDARD_ERROR_OF_MEAN|0.979||0.023|TWO_SIDED|95.0|0.307|4.146|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||4.146|0.307|0.0230
82471771|NCT02952820|164638137|SUPERIORITY||LSM Difference|3.615|STANDARD_ERROR_OF_MEAN|1.01||0.0003|TWO_SIDED|95.0|1.635|5.595|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||5.595|1.635|0.0003
82471772|NCT02952820|164638137|SUPERIORITY||LSM Difference|4.222|STANDARD_ERROR_OF_MEAN|1.099||0.0001|TWO_SIDED|95.0|2.068|6.377|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.377|2.068|0.0001
82471773|NCT02952820|164638137|SUPERIORITY||LSM Difference|4.361|STANDARD_ERROR_OF_MEAN|1.092|<|0.0001|TWO_SIDED|95.0|2.22|6.501|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.501|2.220|<.0001
82471774|NCT02952820|164638137|SUPERIORITY||LSM Difference|4.549|STANDARD_ERROR_OF_MEAN|1.179||0.0001|TWO_SIDED|95.0|2.236|6.861|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.861|2.236|0.0001
82471775|NCT02952820|164638137|SUPERIORITY||LSM Difference|4.667|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|2.373|6.96|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sSE as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||6.960|2.373|<.0001
82471776|NCT02952820|164638138|SUPERIORITY||Least square mean (LSM) Difference|-14.328|STANDARD_ERROR_OF_MEAN|3.614|<|0.0001|TWO_SIDED|95.0|-21.411|-7.245|||Mixed Models Analysis|||First 7 nights (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-7.245|-21.411|<.0001
82471777|NCT02952820|164638138|SUPERIORITY||LSM Difference|-16.72|STANDARD_ERROR_OF_MEAN|3.619|<|0.0001|TWO_SIDED|95.0|-23.813|-9.626|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-9.626|-23.813|<.0001
82471778|NCT02952820|164638138|SUPERIORITY||LSM Difference|-5.514|STANDARD_ERROR_OF_MEAN|4.109||0.1796|TWO_SIDED|95.0|-13.568|2.54|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||2.540|-13.568|0.1796
82471779|NCT02952820|164638138|SUPERIORITY||LSM Difference|-7.005|STANDARD_ERROR_OF_MEAN|4.129||0.0898|TWO_SIDED|95.0|-15.098|1.088|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||1.088|-15.098|0.0898
82471780|NCT02952820|164638138|SUPERIORITY||LSM Difference|-13.424|STANDARD_ERROR_OF_MEAN|4.486||0.0028|TWO_SIDED|95.0|-22.218|-4.631|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-4.631|-22.218|0.0028
82471781|NCT02952820|164638138|SUPERIORITY||LSM Difference|-10.079|STANDARD_ERROR_OF_MEAN|4.578||0.0277|TWO_SIDED|95.0|-19.053|-1.104|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-1.104|-19.053|0.0277
82471782|NCT02952820|164638138|SUPERIORITY||LSM Difference|-17.474|STANDARD_ERROR_OF_MEAN|5.014||0.0005|TWO_SIDED|95.0|-27.306|-7.643|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-7.643|-27.306|0.0005
82471783|NCT02952820|164638138|SUPERIORITY||LSM Difference|-12.671|STANDARD_ERROR_OF_MEAN|4.951||0.0105|TWO_SIDED|95.0|-22.378|-2.964|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sWASO as a covariate. Missing values are imputed using multiple imputation and assumed to be missing not at random (MNAR/CCMV).||-2.964|-22.378|0.0105
82547553|NCT00792636|164794876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.9|2.6||||||||2.6|0.9|
82547554|NCT00792636|164794876|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|0.9|2.6||||||||2.6|0.9|
82547555|NCT00792636|164794877|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||||1.7|0.6|
82547556|NCT00792636|164794877|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.7|2.2||||||||2.2|0.7|
82471784|NCT02952820|164638139|SUPERIORITY||LSM Difference|22.034|STANDARD_ERROR_OF_MEAN|4.354|<|0.0001|TWO_SIDED|95.0|13.488|30.579|||Mixed Models Analysis|||First 7 Nights After the First Dose (Statistical analysis 1): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||30.579|13.488|<.0001
82471785|NCT02952820|164638139|SUPERIORITY||LSM Difference|31.796|STANDARD_ERROR_OF_MEAN|4.35|<|0.0001|TWO_SIDED|95.0|23.258|40.334|||Mixed Models Analysis|||First 7 nights after the first dose (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||40.334|23.258|<.0001
82471786|NCT02952820|164638139|SUPERIORITY||LSM Difference|11.76|STANDARD_ERROR_OF_MEAN|5.269||0.0259|TWO_SIDED|95.0|1.418|22.102|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||22.102|1.418|0.0259
82471787|NCT02952820|164638139|SUPERIORITY||LSM Difference|22.131|STANDARD_ERROR_OF_MEAN|5.286|<|0.0001|TWO_SIDED|95.0|11.757|32.505|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||32.505|11.757|<.0001
82471788|NCT02952820|164638139|SUPERIORITY||LSM Difference|17.374|STANDARD_ERROR_OF_MEAN|5.906||0.0034|TWO_SIDED|95.0|5.781|28.968|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||28.968|5.781|0.0034
82471789|NCT02952820|164638139|SUPERIORITY||LSM Difference|21.686|STANDARD_ERROR_OF_MEAN|5.946||0.0003|TWO_SIDED|95.0|10.014|33.359|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||33.359|10.014|0.0003
82471790|NCT02952820|164638139|SUPERIORITY||LSM Difference|18.555|STANDARD_ERROR_OF_MEAN|6.324||0.0034|TWO_SIDED|95.0|6.14|30.969|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be missing at random (MAR).||30.969|6.140|0.0034
82471791|NCT02952820|164638139|SUPERIORITY||LSM Difference|22.686|STANDARD_ERROR_OF_MEAN|6.392||0.0004|TWO_SIDED|95.0|10.137|35.234|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline sTST as a covariate. Missing values are not imputed and assumed to be MAR.||35.234|10.137|0.0004
82471792|NCT02952820|164638140|SUPERIORITY||Difference of percentage|13.67||||0.0004|TWO_SIDED|95.0|6.24|21.1|||Cochran-Mantel-Haenszel|||Sleep onset responders: Statistical analysis 1||21.10|6.24|0.0004
82471793|NCT02952820|164638140|SUPERIORITY||Difference of percentage|12.53||||0.0009|TWO_SIDED|95.0|5.2|19.86|||Cochran-Mantel-Haenszel|||Sleep Onset Responders: Statistical analysis 2||19.86|5.20|0.0009
82650786|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.62||||0.1368|TWO_SIDED|95.0|0.86|3.07||CMH general association test controlling for trial site|Cochran-Mantel-Haenszel|||Statistical analysis 1 at Week 12 All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||3.07|0.86|0.1368
82471794|NCT02952820|164638140|SUPERIORITY||Difference of percentage|14.65||||0.0002|TWO_SIDED|95.0|6.97|22.33|||Cochran-Mantel-Haenszel|||Sleep Maintenance Responders: Statistical analysis 3||22.33|6.97|0.0002
82650787|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.48||||0.2387|TWO_SIDED|95.0|0.76|2.89|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.89|0.76|0.2387
82471795|NCT02952820|164638140|SUPERIORITY||Difference of percentage|9.82||||0.011|TWO_SIDED|95.0|2.29|17.35|||Cochran-Mantel-Haenszel|||Sleep Maintenance Responders: Statistical analysis 4||17.35|2.29|0.0110
82471796|NCT02952820|164638142|SUPERIORITY||LSM Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.287||0.0137|TWO_SIDED|95.0|-1.27|-0.15|||Mixed Models Analysis|||Month 1 (Statistical analysis 1): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.15|-1.27|0.0137
82471797|NCT02952820|164638142|SUPERIORITY||LSM Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.289||0.0011|TWO_SIDED|95.0|-1.51|-0.38|||Mixed Models Analysis|||Month 1 (Statistical analysis 2): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.38|-1.51|0.0011
82471798|NCT02952820|164638142|SUPERIORITY||LSM Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.302||0.0001|TWO_SIDED|95.0|-1.75|-0.57|||Mixed Models Analysis|||Month 3 (Statistical analysis 3): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.57|-1.75|0.0001
82471799|NCT02952820|164638142|SUPERIORITY||LSM Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.305|<|0.0001|TWO_SIDED|95.0|-1.96|-0.76|||Mixed Models Analysis|||Month 3 (Statistical analysis 4): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.76|-1.96|<.0001
82547557|NCT00792636|164794878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.1|13.6||||||||13.6|0.1|
82547558|NCT00792636|164794878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|0.3|25.6||||||||25.6|0.3|
82547559|NCT00792636|164794879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.5|3.7||||||||3.7|0.5|
82471800|NCT02952820|164638142|SUPERIORITY||LSM Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.302|<|0.0001|TWO_SIDED|95.0|-1.9|-0.71|||Mixed Models Analysis|||Month 6 (Statistical analysis 5): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.71|-1.90|<.0001
82471801|NCT02952820|164638142|SUPERIORITY||LSM Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.307|<|0.0001|TWO_SIDED|95.0|-1.92|-0.71|||Mixed Models Analysis|||Month 6 (Statistical analysis 6): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline ISI score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.71|-1.92|<.0001
82471802|NCT02952820|164638143|SUPERIORITY||LSM Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.905||0.067|TWO_SIDED|95.0|-3.44|0.12|||Mixed Models Analysis|||Month 1 (Statistical analysis 1): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||0.12|-3.44|0.0670
82471803|NCT02952820|164638143|SUPERIORITY||LSM Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.913||0.0257|TWO_SIDED|95.0|-3.83|-0.25|||Mixed Models Analysis|||Month 1 (Statistical analysis 2): Based on MMRM model with factors for age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.25|-3.83|0.0257
82471804|NCT02952820|164638143|SUPERIORITY||LSM Difference|-2.18|STANDARD_ERROR_OF_MEAN|0.939||0.0206|TWO_SIDED|95.0|-4.02|-0.34|||Mixed Models Analysis|||Month 3 (Statistical analysis 3): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.34|-4.02|0.0206
82471805|NCT02952820|164638143|SUPERIORITY||LSM Difference|-3.04|STANDARD_ERROR_OF_MEAN|0.95||0.0014|TWO_SIDED|95.0|-4.91|-1.18|||Mixed Models Analysis|||Month 3 (Statistical analysis 4): Based on MMRM model with factors for age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-1.18|-4.91|0.0014
82471806|NCT02952820|164638143|SUPERIORITY||LSM Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.112||0.0134|TWO_SIDED|95.0|-4.48|-0.52|||Mixed Models Analysis|||Month 6 (Statistical analysis 5): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.52|-4.48|0.0134
82471807|NCT02952820|164638143|SUPERIORITY||LSM Difference|-2.56|STANDARD_ERROR_OF_MEAN|1.026||0.0128|TWO_SIDED|95.0|-4.57|-0.54|||Mixed Models Analysis|||Month 6 (Statistical analysis 6): Based on MMRM model with factors for age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effects, and study baseline FSS score as a covariate. Missing values are not imputed and assumed to be MAR.||-0.54|-4.57|0.0128
82471808|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.205|STANDARD_ERROR_OF_MEAN|0.076||0.0067|TWO_SIDED|95.0|0.057|0.353|||Mixed Models Analysis|||First 7 nights (Statistical analysis): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.353|0.057|0.0067
82547560|NCT00792636|164794879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.6|4.2||||||||4.2|0.6|
82547561|NCT00792636|164794880|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.84|1.54||||||||1.54|0.84|
82579735|NCT00943852|164870077|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||1-sided, alpha = 0.05|ANOVA|Fixed effects model with terms for subject, treatment and period||||||<0.001
82471809|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.171|STANDARD_ERROR_OF_MEAN|0.076||0.0237|TWO_SIDED|95.0|0.023|0.32|||Mixed Models Analysis|||First 7 nights (Statistical analysis 2): Based on MMRM model with factors of age group, region, treatment, visit (First 7 nights), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.320|0.023|0.0237
82471810|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.077|STANDARD_ERROR_OF_MEAN|0.094||0.412|TWO_SIDED|95.0|-0.107|0.261|||Mixed Models Analysis|||Month 1 (Statistical analysis 3): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.261|-0.107|0.4120
82471811|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.073|STANDARD_ERROR_OF_MEAN|0.094||0.4347|TWO_SIDED|95.0|-0.111|0.258|||Mixed Models Analysis|||Month 1 (Statistical analysis 4): Based on MMRM model with factors of age group, region, treatment, visit (Month 1), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.258|-0.111|0.4347
82471812|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.074|STANDARD_ERROR_OF_MEAN|0.109||0.4992|TWO_SIDED|95.0|-0.141|0.289|||Mixed Models Analysis|||Month 3 (Statistical analysis 5): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.289|-0.141|0.4992
82579736|NCT00943852|164870078|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||1-sided, alpha = 0.05|ANOVA|Fixed effects model with terms for subject, treatment and period||||||<0.001
82579737|NCT00127205|164870127|OTHER|||||||0.49|||||||Log Rank|||||||0.49
82547562|NCT00792636|164794880|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|1.01|1.83||||||||1.83|1.01|
82547563|NCT00792636|164794881|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.65|1.21||||||||1.21|0.65|
82547564|NCT00792636|164794881|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.88|1.6||||||||1.60|0.88|
82547565|NCT01046136|164794883|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0096|||||||Regression, Logistic|p-value is from a logistic regression model with terms for treatment group and center||Investigator's End-of-Study Assessment NOTE: All assessments of efficacy were considered exploratory and were given equal consideration, and were carried out on both the MITT and PP populations. LOCF method was applied to missing post baseline measurements in analyses of the MITT population.||||0.0096
82471813|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.255|STANDARD_ERROR_OF_MEAN|0.11||0.0208|TWO_SIDED|95.0|0.039|0.471|||Mixed Models Analysis|||Month 3 (Statistical analysis 6): Based on MMRM model with factors of age group, region, treatment, visit (Month 3), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.471|0.039|0.0208
82471814|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.144|STANDARD_ERROR_OF_MEAN|0.119||0.2248|TWO_SIDED|95.0|-0.089|0.378|||Mixed Models Analysis|||Month 6 (Statistical analysis 7): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.378|-0.089|0.2248
82471815|NCT02952820|164638144|SUPERIORITY||LSM Difference|0.261|STANDARD_ERROR_OF_MEAN|0.12||0.0298|TWO_SIDED|95.0|0.026|0.497|||Mixed Models Analysis|||Month 6 (Statistical analysis 8): Based on MMRM model with factors of age group, region, treatment, visit (Month 6), and treatment-by-visit interaction as fixed effect, and the study baseline Mean Rating on Morning Sleepiness as a covariate. Missing values are not imputed and assumed to be MAR.||0.497|0.026|0.0298
82471816|NCT01094119|164638187|SUPERIORITY|||||||0.0069|||||||Regression, Logistic|||||||0.0069
82471817|NCT03397966|164638211|SUPERIORITY|||||||0.063||||||The investigators tested the effect of treatment (BNP vs. control) on the primary endpoint using mixed effects modeling, adjusting for treatment sequence, to assess the effect of treatment on each endpoint.|Mixed Models Analysis|||The primary endpoint is change in resting energy expenditure, calculated as final resting energy expenditure adjusted for baseline level, using linear regression. The null hypothesis is that there will be no significant effect of treatment on each endpoint. The investigators adhered to intention-to-treat principles. The test was performed with a significance level of 0.05.||||0.063
82471818|NCT03397966|164638212|SUPERIORITY|||||||0.07||||||Paired t-test.|t-test, 2 sided|||The null hypothesis is that there will be no significant effect of BNP on adipose gene expression of UCP1 compared with placebo. The alternative hypothesis is that UCP1 expression would be significantly higher after BNP treatment compared with placebo.||||0.07
82471819|NCT05232682|164638227|OTHER||F-test|2.41||||0.1183|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.1183
82547566|NCT01046136|164794885|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0293|||||||Wilcoxon (Mann-Whitney)|P-value is from a Wilcoxon rank sum test comparing the two treatment groups.||||||0.0293
82547567|NCT02058108|164794894|OTHER|Missing assessment imputed using the closest available assessment|Mean Difference (Net)|-0.3||||1|TWO_SIDED|95.0|-37.03|36.75|||Fisher Exact|||HBV DNA level of \<300 copies/mL (51 IU/mL) at Week 24|Exact confidence interval for the difference in percentage|36.75|-37.03|1.0000
82547568|NCT02058108|164794896|OTHER||Mean Difference (Net)|32.43||||0.2984|TWO_SIDED|95.0|-14.62|74.6|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|ALT levels at Week 24||74.60|-14.62|0.2984
82579738|NCT00127205|164870127|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.24|TWO_SIDED|95.0|0.94|1.26|||Regression, Cox|||||1.26|0.94|0.24
82650788|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.26||||0.4498|TWO_SIDED|95.0|0.69|2.28|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.28|0.69|0.4498
82471820|NCT05232682|164638228|OTHER||F-test|0.07||||0.9308|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.9308
82547569|NCT02058108|164794897|OTHER||Mean Difference (Net)|2.7||||1|TWO_SIDED|95.0|-53.7|60.2|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBeAg loss at Week 24||60.20|-53.70|1.0000
82547570|NCT02058108|164794897|OTHER||Mean Difference (Net)|2.7||||1|TWO_SIDED|95.0|-53.7|60.2|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBeAg seroconversion at Week 24||60.20|-53.70|1.0000
82547571|NCT02058108|164794898|OTHER||Mean Difference (Net)|2.44||||1|TWO_SIDED|95.0|-37.54|42.17|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|HBsAg loss at Week 24||42.17|-37.54|1.0000
82579739|NCT00127205|164870127|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.5|TWO_SIDED|95.0|0.9|1.24|||Regression, Cox|||||1.24|0.90|0.50
82579740|NCT00127205|164870128|OTHER|||||||0.5|||||||Log Rank|||||||0.50
82579741|NCT00127205|164870129|OTHER|||||||0.93|||||||Log Rank|||Statistical analysis for recurrence to bone||||0.93
82376879|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.0415|STANDARD_ERROR_OF_MEAN|0.1993||0.8359|TWO_SIDED|90.0|-0.3768|0.2937|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.2937|-0.3768|0.8359
82471821|NCT05232682|164638229|OTHER||F-test|2.1||||0.1517|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.1517
82471822|NCT05232682|164638230|OTHER||F-test|0.14||||0.8747|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.8747
82471823|NCT05232682|164638231|OTHER||F-test|1.19||||0.3269|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.3269
82547572|NCT02058108|164794901|OTHER||Mean Difference (Net)|2.5||||1|TWO_SIDED|95.0|-37.05|41.83|||Fisher Exact||Exact confidence interval for the difference in percentage. P-value from Fishers exact test comparing proportions in Initial LdT and Initial Placebo groups.|Treatment emergent genotypic resistance at Week 24||41.83|-37.05|1.0000
82547573|NCT05623345|164794941|SUPERIORITY||Risk Difference (RD)|36.22|STANDARD_ERROR_OF_MEAN|17.43||0.0377|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0377
82547574|NCT05623345|164794941|SUPERIORITY||Risk Difference (RD)|27.69|STANDARD_ERROR_OF_MEAN|5.68|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547575|NCT05623345|164794941|SUPERIORITY||Risk Difference (RD)|24.44|STANDARD_ERROR_OF_MEAN|5.65|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547576|NCT05623345|164794942|SUPERIORITY||Risk Difference (RD)|43.71|STANDARD_ERROR_OF_MEAN|22.14||0.0483|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0483
82471824|NCT05232682|164638232|OTHER||F-test|1.14||||0.3411|TWO_SIDED|||||Alpha value for significance set at p \< .05.|Mixed Models Analysis|||||||0.3411
82471825|NCT01136980|164638251|SUPERIORITY||||||<|0.028|||||||Chi-squared|||||||<0.028
82547577|NCT05623345|164794942|SUPERIORITY||Risk Difference (RD)|46.15|STANDARD_ERROR_OF_MEAN|7.62|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547578|NCT05623345|164794942|SUPERIORITY||Risk Difference (RD)|52.8|STANDARD_ERROR_OF_MEAN|7.56|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547579|NCT05623345|164794943|SUPERIORITY||Risk Difference (RD)|32.26|STANDARD_ERROR_OF_MEAN|18.93||0.0883|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0883
82547580|NCT05623345|164794943|SUPERIORITY||Risk Difference (RD)|9.19|STANDARD_ERROR_OF_MEAN|8.35||0.2713|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.2713
82547581|NCT05623345|164794943|SUPERIORITY||Risk Difference (RD)|-1.2|STANDARD_ERROR_OF_MEAN|8.44||0.8872|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.8872
82547582|NCT05623345|164794944|SUPERIORITY||Risk Difference (RD)|23.45|STANDARD_ERROR_OF_MEAN|16.9||0.1654|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.1654
82579742|NCT05032872|164870131|SUPERIORITY|||||||0.49||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time by condition interaction||||.49
82579743|NCT05032872|164870132|SUPERIORITY|||||||0.48||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.48
82579744|NCT05032872|164870133|SUPERIORITY|||||||0.04||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting satisfaction with contact quality||||.04
82579745|NCT05032872|164870133|SUPERIORITY|||||||0.44||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting dissatisfaction with contact quantity||||.44
82471826|NCT03751657|164638260|OTHER||Treatment difference|-0.18||||0.0818|TWO_SIDED|95.0|-0.38|0.02|||Mixed Models Analysis|||The response and change from baseline in response after 26 weeks are analysed using a linear mixed model for repeated measures (MMRM) with an unstructured covariance matrix and treatment, region, use of DPP-4 inhibitor and visit as fixed factors, and baseline response as covariate. Furthermore, the model includes the interaction between visit and all explanatory variables.||0.02|-0.38|0.0818
82471827|NCT03751657|164638274|OTHER||Treatment difference|-1.97||||0.0818|TWO_SIDED|95.0|-4.19|0.25|||Mixed Models Analysis|||The response and change from baseline in response after 26 weeks are analysed using a linear MMRM with an unstructured covariance matrix and treatment, region, use of DPP-4 inhibitor and visit as fixed factors, and baseline response as covariate.Furthermore, the model includes the interaction between visit and all explanatory variables.||0.25|-4.19|0.0818
82547583|NCT05623345|164794944|SUPERIORITY||Risk Difference (RD)|26.58|STANDARD_ERROR_OF_MEAN|5.53|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547584|NCT05623345|164794944|SUPERIORITY||Risk Difference (RD)|25.84|STANDARD_ERROR_OF_MEAN|5.55|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547585|NCT05623345|164794945|SUPERIORITY||Risk Difference (RD)|43.09|STANDARD_ERROR_OF_MEAN|16.85||0.0106|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0106
82547586|NCT05623345|164794945|SUPERIORITY||Risk Difference (RD)|28.46|STANDARD_ERROR_OF_MEAN|6.22|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547587|NCT05623345|164794945|SUPERIORITY||Risk Difference (RD)|23.7|STANDARD_ERROR_OF_MEAN|6.4||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0002
82547588|NCT05623345|164794946|SUPERIORITY||Risk Difference (RD)|30.15|STANDARD_ERROR_OF_MEAN|19.11||0.1147|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.1147
82547589|NCT05623345|164794946|SUPERIORITY||Risk Difference (RD)|29.04|STANDARD_ERROR_OF_MEAN|5.92|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547590|NCT05623345|164794946|SUPERIORITY||Risk Difference (RD)|24.99|STANDARD_ERROR_OF_MEAN|5.81|<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<.0001
82547591|NCT05623345|164794947|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.166||0.514|TWO_SIDED|95.0|-0.22|0.44|||Mixed model repeated measures analysis|||||0.44|-0.22|0.514
82579746|NCT05032872|164870133|SUPERIORITY|||||||0.99||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting satisfaction with contact quantity||||.99
82547592|NCT05623345|164794947|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.061||0.01|TWO_SIDED|95.0|-0.28|-0.04|||Mixed model repeated measures analysis|||||-0.04|-0.28|0.010
82547593|NCT05623345|164794947|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.061||0.006|TWO_SIDED|95.0|-0.29|-0.05|||Mixed model repeated measures analysis|||||-0.05|-0.29|0.006
82547594|NCT05384730|164794955|SUPERIORITY|||||||0.1|||||||ANOVA|||Light physical activity compared overtime||||0.10
82547595|NCT05384730|164794955|SUPERIORITY|||||||0.3|||||||ANOVA|||Moderate-vigorous physical activity compared overtime||||0.30
82579747|NCT05032872|164870133|SUPERIORITY|||||||0.87||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting knowing others' experience||||.87
82579748|NCT05032872|164870133|SUPERIORITY|||||||0.98||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting shared understanding||||.98
82547596|NCT05384730|164794955|SUPERIORITY|||||||0.18|||||||ANOVA|||Inactive/sedentary time compared overtime||||0.18
82547597|NCT05384730|164794956|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
82547598|NCT05384730|164794957|SUPERIORITY|||||||0.01|||||||ANOVA|||||||0.01
82547599|NCT05384730|164794958|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.50
82547600|NCT05384730|164794959|SUPERIORITY|||||||0.03|||||||Chi-squared|||Comparing depression scores overtime||||0.03
82547601|NCT05384730|164794959|SUPERIORITY|||||||0.96|||||||Chi-squared|||Comparing anxiety scores overtime||||0.96
82547602|NCT05384730|164794960|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82547603|NCT05384730|164794961|SUPERIORITY|||||||0.13|||||||ANOVA|||||||0.13
82547604|NCT05384730|164794962|SUPERIORITY|||||||0.01|||||||ANOVA|||PASE analysis over time||||0.01
82547605|NCT02885636|164794964|SUPERIORITY|||||||0.003|||||||ANCOVA|||||||0.003
82547606|NCT02885636|164794965|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
82547607|NCT02885636|164794966|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82471828|NCT04730271|164638303|NON_INFERIORITY|Test of non-inferiority: Absolute value deviation from plan with ROBOTIC is less than it is with manual instruments (not using ROBOTIC) under a non-inferiority margin of 1.5 degrees|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82471829|NCT04730271|164638304|SUPERIORITY|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
82471830|NCT04730271|164638305|SUPERIORITY|||||||0.0282|||||||t-test, 2 sided|||||||0.0282
82471831|NCT04730271|164638306|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||||||0.0004
82471832|NCT04730271|164638307|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82471833|NCT04730271|164638308|SUPERIORITY|||||||0.633|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local adverse event within 1 year of the procedure.||||0.6330
82471834|NCT04730271|164638308|SUPERIORITY|||||||0.04|||||||Fisher Exact|||Comparison between the proportion of Robotic and Manual subjects who had a serious local adverse event within 1 year of the procedure.||||0.0400
82471835|NCT04730271|164638308|SUPERIORITY|||||||0.4079|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local adverse event within 90 days of the procedure.||||0.4079
82471836|NCT04730271|164638308|SUPERIORITY|||||||0.1262|||||||Chi-squared|||Comparison between the proportion of Robotic and Manual subjects who had a local serious adverse event within 90 days of the procedure.||||0.1262
82471837|NCT04730271|164638310|SUPERIORITY|||||||0.6662|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.6662
82471838|NCT04730271|164638310|SUPERIORITY|||||||0.8154|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.8154
82471839|NCT04730271|164638311|SUPERIORITY|||||||0.0165|||||||t-test, 2 sided|||Comparison of FJS at 12 weeks||||0.0165
82471840|NCT04730271|164638311|SUPERIORITY|||||||0.1331|||||||t-test, 2 sided|||Comparison of FJS at 1 year||||0.1331
82471841|NCT04730271|164638312|SUPERIORITY|||||||0.1596|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.1596
82471842|NCT04730271|164638312|SUPERIORITY|||||||0.6834|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.6834
82471843|NCT04730271|164638313|SUPERIORITY|||||||0.5675|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.5675
82471844|NCT04730271|164638313|SUPERIORITY|||||||0.924|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.9240
82471845|NCT04730271|164638314|SUPERIORITY|||||||0.4586|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.4586
82471846|NCT04730271|164638314|SUPERIORITY|||||||0.6951|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.6951
82471847|NCT04730271|164638315|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.8000
82471848|NCT04730271|164638315|SUPERIORITY|||||||0.973|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.9730
82471849|NCT04730271|164638316|SUPERIORITY|||||||0.4636|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 1 year||||0.4636
82547608|NCT02885636|164794967|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.9
82471850|NCT04730271|164638316|SUPERIORITY|||||||0.8088|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL at 12 weeks||||0.8088
82471851|NCT04730271|164638317|SUPERIORITY|||||||0.4851|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL at 12 weeks||||0.4851
82471852|NCT04730271|164638317|SUPERIORITY|||||||0.6486|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL at 1 year||||0.6486
82471853|NCT04730271|164638318|SUPERIORITY|||||||0.8887|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline for Pain at rest between ROBOTIC and MANUAL at 1 year||||0.8887
82471854|NCT04730271|164638318|SUPERIORITY|||||||0.4007|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline for pain at rest between ROBOTIC and MANUAL at 12 weeks||||0.4007
82471855|NCT04730271|164638318|SUPERIORITY|||||||0.0074|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for pain at rest at 12 weeks||||0.0074
82471856|NCT04730271|164638318|SUPERIORITY|||||||0.0663|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain at rest at 1 year||||0.0663
82471857|NCT04730271|164638318|SUPERIORITY|||||||0.7096|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL for Pain with Activity at 1 year||||0.7096
82471858|NCT04730271|164638318|SUPERIORITY|||||||0.5321|||||||t-test, 2 sided|||T-test P-value for difference in change from baseline between ROBOTIC and MANUAL for pain with activity at 12 weeks||||0.5321
82471859|NCT04730271|164638318|SUPERIORITY|||||||0.0709|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain with activity at 12 weeks||||0.0709
82471860|NCT04730271|164638318|SUPERIORITY|||||||0.1274|||||||t-test, 2 sided|||T-Test P-value tests the significance of the difference between ROBOTIC and MANUAL for Pain with activity at 1 year||||0.1274
82471861|NCT04730271|164638319|SUPERIORITY|||||||0.6745|||||||t-test, 2 sided|||Comparison between the accuracy achieved in the first 10 cases compared to the subsequent cases||||0.6745
82471862|NCT02350296|164638320|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|108.12||||0.1455|TWO_SIDED|94.12|97.57|119.81||"treatment P value reported"|ANOVA||Estimated value and limits are expressed in %|||119.81|97.57|0.1455
82547609|NCT02885636|164794968|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82547610|NCT02885636|164794969|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
82547611|NCT02885636|164794970|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82547612|NCT02885636|164794971|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82547613|NCT02885636|164794972|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||||||0.0007
82547614|NCT02885636|164794973|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82471863|NCT02350296|164638321|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|110.62||||0.0023|TWO_SIDED|94.12|104.26|117.38||"Treatment P value is reported"|ANOVA||Estimated value and limits are expressed in %|||117.38|104.26|0.0023
82471864|NCT02350296|164638322|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.|geometric means ratio|110.69||||0.0021|TWO_SIDED|94.12|104.35|117.41||"treatment P value is reported"|ANOVA||Estimated value and limits are expressed in %|||117.41|104.35|0.0021
82471865|NCT02350296|164638323|EQUIVALENCE|Acceptance criterion for bioequivalence was a 94.12% confidence interval for the test/reference ratio of the geometric means within the 80.00-125.00% range, according to the current guidelines for bioequivalence studies.||||||0.0201|||||||Friedman|||||||0.0201
82471866|NCT02223858|164638334|SUPERIORITY|A sample size of 360 patients (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscales, and a 80% power.||||||0.791|||||||Mixed Models Analysis|All models adjusted for site.||||||0.791
82471867|NCT02223858|164638335|SUPERIORITY|A sample size of 360 (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscales, and a 80% power.||||||0.88|||||||Mixed Models Analysis|All models adjusted for site.||||||0.880
82471868|NCT02223858|164638336|SUPERIORITY|A sample size of 360 (180 non-Hispanic white and 180 non-Hispanic African American) was chosen based on a priori power calculations to detect a 3-way interaction between treatment group, race, and time, assuming a 20% change in baseline, the WOMAC pain subscale, and a 80% power.||||||0.901|||||||Mixed Models Analysis|All models adjusted for site.||||||0.901
82471869|NCT02106390|164638347|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|0.89|||||TWO_SIDED|95.0|0.71|1.1|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||"H44/76- The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the H44/76 serogroup B indicator strain,at one month after the fourth vaccination."||1.10|0.71|
82471870|NCT02106390|164638347|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.74|1.45|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||5/99-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the 5/99 serogroup B indicator strain,at one month after the fourth vaccination.||1.45|0.74|
82471871|NCT02106390|164638347|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.01|||||TWO_SIDED|95.0|0.82|1.25|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||NZ98/254-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the NZ98/254 serogroup B indicator strain,at one month after the fourth vaccination.||1.25|0.82|
82471872|NCT02106390|164638347|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ is \> 0.5 for all serogroup B indicator strains.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.77|1.4|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||M10713-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + MenACWY versus rMenB+OMV NZ) was performed for the M10713 serogroup B indicator strain,at one month after the fourth vaccination.||1.40|0.77|
82471873|NCT02106390|164638348|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|2.48|||||TWO_SIDED|95.0|1.97|3.11|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup A-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for serogroup A at one month after the fourth vaccination.||3.11|1.97|
82547615|NCT02885636|164794974|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82547616|NCT02885636|164794975|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82547617|NCT02885636|164794976|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82547618|NCT02885636|164794977|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82547619|NCT01340066|164794999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.92|ONE_SIDED|80.0|||||Chi-squared|||||||.92
82547620|NCT04349072|164795004|SUPERIORITY||Proportion Difference|58.93|||<|0.0001|TWO_SIDED|95.0|43.989|73.868|||Cochran-Mantel-Haenszel|||||73.868|43.989|<0.0001
82547621|NCT04349072|164795005|SUPERIORITY||Proportion Difference|41.07|||<|0.0001|TWO_SIDED|95.0|24.481|57.662|||Cochran-Mantel-Haenszel|||||57.662|24.481|<0.0001
82547622|NCT04349072|164795006|SUPERIORITY||Leat Square Mean of Treatment Difference|9.45|||<|0.0001|TWO_SIDED|95.0|4.868|14.041|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||14.041|4.868|<0.0001
82547623|NCT04349072|164795007|SUPERIORITY||Mean Ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.266|0.421|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||0.421|0.266|<0.0001
82547624|NCT04349072|164795008|SUPERIORITY||Mean Ratio|0.53|||<|0.0001|TWO_SIDED|95.0|0.406|0.7|||Mixed Models Analysis|Mixed model with repeated measure (MMRM)||||0.700|0.406|<0.0001
82579749|NCT05032872|164870133|SUPERIORITY|||||||0.76||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting relationship salience||||.76
82471874|NCT02106390|164638348|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.07|||||TWO_SIDED|95.0|0.83|1.38|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup C-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup C at one month after the fourth vaccination.||1.38|0.83|
82471875|NCT02106390|164638348|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.04|1.74|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup W-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup W-135 at one month after the fourth vaccination.||1.74|1.04|
82471876|NCT02106390|164638348|NON_INFERIORITY|Non-inferiority was to be concluded if, at one month following the fourth vaccination, the lower limits of the two-sided 95% confidence interval for the between-group ratios of GMTs (rMenB+OMVNZ + MenACWY versus MenACWY) was \> 0.5 for all serogroups A, C, W-135 and Y.|GMT ratio|1.05|||||TWO_SIDED|95.0|0.82|1.35|||ANOVA|The 2-sided 95% CI for each between groups ratio of GMTs was constructed from an analysis of ANOVA with vaccine group \& center as factors in the model||Serogroup Y-The comparison of adjusted GMTs ratio (rMenB+OMV NZ + Men ACWY versus MenACWY) was performed for the serogroup Y at one month after the fourth vaccination.||1.35|0.82|
82471877|NCT00473382|164638380|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|20.8|||<|0.0001|TWO_SIDED|95.0|11.4|30.2||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||30.2|11.4|<0.0001
82471878|NCT00473382|164638380|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|33.3|||<|0.0001|TWO_SIDED|95.0|23.8|42.8||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||42.8|23.8|<0.0001
82471879|NCT00473382|164638381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|||<|0.0001|TWO_SIDED|95.0|5.4|11.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||11.5|5.4|<0.0001
82471880|NCT00473382|164638381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.9|||<|0.0001|TWO_SIDED|95.0|6.4|13.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.3|6.4|<0.0001
82499104|NCT05355805|164689213|SUPERIORITY||Risk Difference (RD)|13.67|STANDARD_ERROR_OF_MEAN|7.019||0.0514|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR100."||||0.0514
82579750|NCT05032872|164870134|SUPERIORITY|||||||0.29||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.29
82579751|NCT05032872|164870135|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition predicting positive affect||||.51
82579752|NCT05032872|164870135|SUPERIORITY|||||||0.83||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition predicting negative affect||||.83
82579753|NCT05032872|164870136|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.51
82579754|NCT05032872|164870137|SUPERIORITY|||||||0.65||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.65
82579755|NCT05032872|164870138|SUPERIORITY|||||||0.01||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of distress||||.01
82471881|NCT00473382|164638382|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|21.4||||0.0002|TWO_SIDED|95.0|10.8|31.9||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||31.9|10.8|0.0002
82376880|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.3619|STANDARD_ERROR_OF_MEAN|0.1988||0.0759|TWO_SIDED|90.0|-0.6962|-0.0275|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||-0.0275|-0.6962|0.0759
82471882|NCT00473382|164638382|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|27.1|||<|0.0001|TWO_SIDED|95.0|16.4|37.9||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||37.9|16.4|<0.0001
82471883|NCT00473382|164638383|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|7.1||||0.0119|TWO_SIDED|95.0|1.7|12.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||12.6|1.7|0.0119
82471884|NCT00473382|164638383|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|4.5||||0.1384|TWO_SIDED|95.0|-1.2|10.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||10.1|-1.2|0.1384
82471885|NCT00473382|164638384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.3||||0.0102|TWO_SIDED|95.0|2.0|14.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||14.6|2.0|0.0102
82471886|NCT00473382|164638384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.2||||0.0005|TWO_SIDED|95.0|5.1|17.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||17.3|5.1|0.0005
82471887|NCT00473382|164638385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-111.8|||<|0.0001|TWO_SIDED|95.0|-151.6|-72.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-72.0|-151.6|<0.0001
82579756|NCT05032872|164870138|SUPERIORITY|||||||0.75||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||time x condition interaction predicting caregiver overload||||.75
82376881|NCT01009814|164460577|OTHER||Mean Difference (Net)|-0.3203|STANDARD_ERROR_OF_MEAN|0.1993||0.1155|TWO_SIDED|90.0|-0.6555|0.0149|||ANCOVA|||Null hypothesis was that there was 0 difference in mean log10 decrease in HIV RNA at Day 9 between two groups.||0.0149|-0.6555|0.1155
82471888|NCT00473382|164638385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-132.2|||<|0.0001|TWO_SIDED|95.0|-169.7|-94.8||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-94.8|-169.7|<0.0001
82471889|NCT00473382|164638386|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-4.3||||0.0853|TWO_SIDED|95.0|-9.3|0.8||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||0.8|-9.3|0.0853
82471890|NCT00473382|164638386|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-5.8||||0.0073|TWO_SIDED|95.0|-9.8|-1.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-1.7|-9.8|0.0073
82471891|NCT00473382|164638387|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|14.0||||0.0002|TWO_SIDED|95.0|6.8|21.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||21.1|6.8|0.0002
82471892|NCT00473382|164638387|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|28.3|||<|0.0001|TWO_SIDED|95.0|20.2|36.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||36.4|20.2|<0.0001
82471893|NCT00473382|164638388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.5|-1.3|<0.0001
82471894|NCT00473382|164638388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-1.0|-1.6|<0.0001
82471895|NCT01189032|164638393|SUPERIORITY_OR_OTHER|||||||0.004||||||It's the p-value of linear trend. It's adjusted for multiplicity.|maximum contrast method|To confirm dose-response relation, two contrasts were provided; linear trend (-1, 0, 1), and saturated at 1% DE-089 ophthalmic solution (-2, 1, 1).||||||0.004
82471896|NCT01189032|164638393|SUPERIORITY_OR_OTHER|||||||0.006||||||It's the p-value of Saturated at 1% DE-089. It's adjusted for multiplicity.|maximum contrast method|To confirm dose-response relation, two contrasts were provided; linear trend (-1, 0, 1), and saturated at 1% DE-089 ophthalmic solution (-2, 1, 1).||||||0.006
82471897|NCT01166282|164638394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-51.17|||=|0.039|TWO_SIDED|95.0|-99.69|-2.66|||ANCOVA|||||-2.66|-99.69|=0.039
82471898|NCT01166282|164638395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.62|||=|0.382|TWO_SIDED|95.0|-5.32|2.08|||1-way ANOVA|||||2.08|-5.32|=0.382
82471899|NCT01166282|164638396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.4|||=|0.209|TWO_SIDED|95.0|-8.78|1.97|||1-way ANOVA|||||1.97|-8.78|=0.209
82471900|NCT01166282|164638397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.12|||=|0.509|TWO_SIDED|95.0|-4.49|2.26|||1-way ANOVA|||||2.26|-4.49|=0.509
82471901|NCT01166282|164638398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.0|||=|0.514|TWO_SIDED|95.0|-18.5|40.5|||Fisher Exact|||||40.5|-18.5|=0.514
82471902|NCT01166282|164638399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|27.7|||=|0.111|TWO_SIDED|95.0|-2.0|57.5|||Fisher Exact|||||57.5|-2.0|=0.111
82471903|NCT01166282|164638400|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.8|||=|0.031|TWO_SIDED|95.0|8.1|61.6|||Fisher Exact|||||61.6|8.1|=0.031
82471904|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.51||||0.0651|TWO_SIDED|95.0|-0.03|1.06|||ANCOVA|Baseline value and treatment as covariates.||||1.06|-0.03|0.0651
82471905|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.13||||0.649|TWO_SIDED|95.0|-0.44|0.7|||ANCOVA|Baseline value and treatment as covariates.||||0.70|-0.44|0.6490
82471906|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.43||||0.1059|TWO_SIDED|95.0|-0.09|0.94|||ANCOVA|Baseline value and treatment as covariates.||||0.94|-0.09|0.1059
82471907|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.01||||0.9818|TWO_SIDED|95.0||0.55|||ANCOVA|Baseline value and treatment as covariates.||||0.55|-0. 54|0. 9818
82471908|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.38||||0.1071|TWO_SIDED|95.0|-0.08|0.85|||ANCOVA|Baseline value and treatment as covariates.||||0.85|-0.08|0. 1071
82471909|NCT01995838|164638406|SUPERIORITY||LS Mean Difference|0.68||||0.0063|TWO_SIDED|95.0|0.19|1.17|||ANCOVA|Baseline value and treatment as covariates.||||1.17|0.19|0.0063
82471910|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|4.57||||0.0083|TWO_SIDED|95.0|1.19|7.94|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||7.94|1.19|0.0083
82471911|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|4.44||||0.0151|TWO_SIDED|95.0|0.86|8.01|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||8.01|0.86|0.0151
82471912|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|5.74||||0.0005|TWO_SIDED|95.0|2.54|8.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||8.93|2.54|0.0005
82471913|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|8.09|||<|0.0001|TWO_SIDED|95.0|4.73|11.45|||ANCOVA|||Days 1-2||11.45|4.73|<0.0001
82471914|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|10.06|||<|0.0001|TWO_SIDED|95.0|7.2|12.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||12.93|7.20|<0.0001
82471915|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|10.13|||<|0.0001|TWO_SIDED|95.0|7.18|13.08|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||13.08|7.18|<0.0001
82471916|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|0.34||||0.8505|TWO_SIDED|95.0|-3.22|3.9|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||3.90|-3.22|0.8505
82471917|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|3.94||||0.038|TWO_SIDED|95.0|0.22|7.66|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||7.66|0.22|0.0380
82471918|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|5.76||||0.0008|TWO_SIDED|95.0|2.4|9.12|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||9.12|2.40|0.0008
82471919|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|7.78|||<|0.0001|TWO_SIDED|95.0|4.24|11.32|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||11.32|4.24|<0.0001
82471920|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|7.89|||<|0.0001|TWO_SIDED|95.0|4.86|10.92|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||10.92|4.86|<0.0001
82547625|NCT04349072|164795009|SUPERIORITY||Leat Square Mean of Treatment Difference|-37.2|||<|0.0001|TWO_SIDED|95.0|-48.08|-26.24|||ANCOVA|||||-26.24|-48.08|<0.0001
82547626|NCT03338816|164795028|SUPERIORITY||Rate ratio|0.26|||<|0.0001|TWO_SIDED|95.0|0.16|0.41||P=6.040E-09|Negative binomial regression model|||Negative binomial regression model with treatment group and stratification factors (prior hemin prophylaxis status and historical attack rates) as fixed effects and the logarithm of the follow-up time as an offset variable.||0.41|0.16|<0.0001
82547627|NCT04315181|164795062|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=6.89, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
82547628|NCT04315181|164795063|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=5.51, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
82547629|NCT04315181|164795064|SUPERIORITY|||||||0.138||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=1.61, df=8, 72||Trough scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||0.138
82579757|NCT05032872|164870138|SUPERIORITY|||||||0.59||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting relational deprivation||||.59
82471921|NCT01995838|164638407|SUPERIORITY||LS Mean Difference|8.87|||<|0.0001|TWO_SIDED|95.0|5.72|12.02|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||12.02|5.72|<0.0001
82471922|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.77||||0.1407|TWO_SIDED|95.0|0.54|1.09|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||1.09|0.54|0.1407
82471923|NCT01995838|164638408|SUPERIORITY|Days 1-2|Geometric Mean Ratio|0.55||||0.0018|TWO_SIDED|95.0|0.38|0.8|||ANCOVA|Baseline value and treatment as covariates.||||0.80|0.38|0.0018
82471924|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.6||||0.0025|TWO_SIDED|95.0|0.43|0.83|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.83|0.43|0.0025
82471925|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.54||||0.0006|TWO_SIDED|95.0|0.38|0.76|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.76|0.38|0.0006
82471926|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.52|||<|0.0001|TWO_SIDED|95.0|0.38|0.7|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||0.70|0.38|<0.0001
82471927|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.39|||<|0.0001|TWO_SIDED|95.0|0.29|0.54|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2:||0.54|0.29|<0.0001
82471928|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.73||||0.1158|TWO_SIDED|95.0|0.49|1.08|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||1.08|0.49|0.1158
82471929|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.49||||0.001|TWO_SIDED|95.0|0.33|0.75|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.75|0.33|0.0010
82471930|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.47|||<|0.0001|TWO_SIDED|95.0|0.32|0.69|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.69|0.32|<0.0001
82471931|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.47|0.21|<0.0001
82471932|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.41|||<|0.0001|TWO_SIDED|95.0|0.29|0.57|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.57|0.29|<0.0001
82471933|NCT01995838|164638408|SUPERIORITY||Geometric Mean Ratio|0.34|||<|0.0001|TWO_SIDED|95.0|0.24|0.48|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.48|0.24|<0.0001
82471934|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-11.08||||0.105|TWO_SIDED|95.0|-24.48|2.33|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||2.33|-24.48|0.1050
82471935|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-2.29||||0.7501|TWO_SIDED|95.0|-16.46|11.87|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||11.87|-16.46|0.7501
82471936|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-11.26||||0.0818|TWO_SIDED|95.0|-23.94|1.43|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||1.43|-23.94|0.0818
82471937|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-19.81||||0.0038|TWO_SIDED|95.0|-33.18|-6.43|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||-6.43|-33.18|0.0038
82471938|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-29.34|||<|0.0001|TWO_SIDED|95.0|-40.75|17.93|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||17.93|-40.75|<0.0001
82471939|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-25.84|||<|0.0001|TWO_SIDED|95.0|-37.59|-14.09|||ANCOVA|Baseline value and treatment as covariates.||Days 1-2||-14.09|-37.59|<0.0001
82650789|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.6||||0.1009|TWO_SIDED|95.0|0.91|2.82|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.82|0.91|0.1009
82471940|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|0.4642||||0.4642|TWO_SIDED|95.0|-9.6|20.98|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||20.98|-9.60|0.4642
82471941|NCT01995838|164638409|SUPERIORITY|Baseline value and treatment as covariates.|LS Mean Difference|-2.31||||0.7754|TWO_SIDED|95.0|-18.27|13.64|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||13.64|-18.27|0.7754
82471942|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-10.69||||0.1461|TWO_SIDED|95.0|-25.14|3.75|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||3.75|-25.14|0.1461
82471943|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-14.73||||0.0581|TWO_SIDED|95.0|-29.97|0.51|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||0.51|-29.97|0.0581
82471944|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-20.8||||0.0019|TWO_SIDED|95.0|-33.86|-7.74|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||-7.74|-33.86|0.0019
82471945|NCT01995838|164638409|SUPERIORITY||LS Mean Difference|-21.52||||0.002|TWO_SIDED|95.0|-35.12|-7.91|||ANCOVA|Baseline value and treatment as covariates.||Days 14-15||-7.91|-35.12|0.0020
82471946|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|-3.05||||0.1483|TWO_SIDED|95.0|-7.2|1.09|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||1.09|-7.20|0.1483
82471947|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|-0.64||||0.772|TWO_SIDED|95.0|-4.96|3.69|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||3.69|-4.96|0.7720
82471948|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|1.5||||0.4548|TWO_SIDED|95.0|-2.44|5.44|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||5.44|-2.44|0.4548
82471949|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|-2.39||||0.253|TWO_SIDED|95.0|-6.51|1.72|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||1.72|-6.51|0.2530
82471950|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|2.41||||0.1794|TWO_SIDED|95.0|-1.11|5.93|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||5.93|-1.11|0.1794
82471951|NCT01995838|164638413|SUPERIORITY||LS Mean Difference|0.94||||0.6148|TWO_SIDED|95.0|-2.74|4.63|||ANCOVA|Baseline value and treatment as covariates.||Days 16-17||4.63|-2.74|0.6148
82471952|NCT00643162|164638477|OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|6.15||0.68|TWO_SIDED||||||t-test, 2 sided|||||||.68
82471953|NCT02691507|164638480|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471954|NCT02691507|164638480|SUPERIORITY_OR_OTHER|||||||0.002||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.002
82471955|NCT02691507|164638480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.795||0.616|TWO_SIDED|95.0|-1.196|1.998||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.998|-1.196|0.616
82471956|NCT02691507|164638481|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82579758|NCT05032872|164870138|SUPERIORITY|||||||0.51||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting job caregiving conflict||||.51
82471957|NCT02691507|164638481|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471958|NCT02691507|164638481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_ERROR_OF_MEAN|0.803||0.297|TWO_SIDED|95.0|-0.767|2.46||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.460|-0.767|0.297
82471959|NCT02691507|164638482|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471960|NCT02691507|164638482|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471961|NCT02691507|164638482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_ERROR_OF_MEAN|0.846||0.394|TWO_SIDED|95.0|-0.973|2.426||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||2.426|-0.973|0.394
82471962|NCT02691507|164638483|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471963|NCT02691507|164638483|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471964|NCT02691507|164638483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.708||0.69|TWO_SIDED|95.0|-1.14|1.709||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.709|-1.140|0.690
82471965|NCT02691507|164638484|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471966|NCT02691507|164638484|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471967|NCT02691507|164638484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.735||0.914|TWO_SIDED|95.0|-1.556|1.397||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.397|-1.556|0.914
82471968|NCT02691507|164638485|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471969|NCT02691507|164638485|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471970|NCT02691507|164638485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.774||0.757|TWO_SIDED|95.0|-1.796|1.314||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.314|-1.796|0.757
82471971|NCT02691507|164638486|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82650790|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.45||||0.1499|TWO_SIDED|95.0|0.87|2.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.41|0.87|0.1499
82471972|NCT02691507|164638486|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82547630|NCT04315181|164795065|SUPERIORITY||||||<|0.0001||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=8.15, df=8, 72||Peak scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||<0.0001
82650791|NCT01360632|165016448|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.3012|TWO_SIDED|95.0|0.78|2.18|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.18|0.78|0.3012
82579759|NCT05032872|164870138|SUPERIORITY|||||||0.25||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting role captivity||||.25
82579760|NCT05032872|164870138|SUPERIORITY|||||||0.34||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting sense of self||||.34
82579761|NCT05032872|164870138|SUPERIORITY|||||||0.75||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting personal gain||||.75
82579762|NCT05032872|164870138|SUPERIORITY|||||||0.99||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting caregiving competence||||.99
82579763|NCT05032872|164870138|SUPERIORITY|||||||0.61||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of situition||||.61
82471973|NCT02691507|164638486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.798||0.556|TWO_SIDED|95.0|-2.075|1.129||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||1.129|-2.075|0.556
82471974|NCT02691507|164638487|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471975|NCT02691507|164638487|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82579764|NCT05032872|164870138|SUPERIORITY|||||||0.92||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting management of meaning||||.92
82579765|NCT05032872|164870138|SUPERIORITY|||||||0.96||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction predicting expressive support||||.96
82579766|NCT05032872|164870139|SUPERIORITY|||||||0.37||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.37
82471976|NCT02691507|164638487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.772||0.106|TWO_SIDED|95.0|-2.824|0.278||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||0.278|-2.824|0.106
82471977|NCT02691507|164638488|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82579767|NCT05032872|164870140|SUPERIORITY|||||||0.89||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.89
82579768|NCT05032872|164870141|SUPERIORITY|||||||0.3||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.30
82579769|NCT05032872|164870142|SUPERIORITY|||||||0.52||||||Controlled for age, sex, education, and self-reported functional health|Mixed Models Analysis|||Time x condition interaction||||.52
82579770|NCT05032872|164870143|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Independent sample T-test comparing the treatment and control group||||.45
82579771|NCT00406692|164870152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.5|<|0.0003|TWO_SIDED|95.0||||Null Hypothesis: No difference in the mean daily standard drinks consumed for the baseline period and the zonisamide treatment weeks|Mixed Models Analysis|||Null Hypothesis: No difference in the mean daily standard drinks consumed between the baseline period and the zonisamide treatment weeks.||||<0.0003
82579772|NCT00406692|164870153|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.7|STANDARD_ERROR_OF_MEAN|3.9|<|0.22|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No significant change in the mean number of words produced during phonetic portion of the Controlled Word Association Test between the baseline period and the treatment weeks.||||<0.22
82579773|NCT00406692|164870154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|4.0|<|0.55|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No significant difference for mean scores obtained for baseline, week 4 and week 12.||||< 0.55
82579774|NCT03547739|164870165|SUPERIORITY||Risk Ratio (RR)|4.22|||<|0.001|TWO_SIDED|95.0|2.88|6.18|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and couple age disparity.|Home visits as compared to Standard Care||6.18|2.88|<0.001
82579775|NCT03547739|164870165|SUPERIORITY||Risk Ratio (RR)|3.69|||<|0.001|TWO_SIDED|95.0|2.5|5.45|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and couple age disparity.|HIV Self-testing as compared to Standard Care||5.45|2.50|<0.001
82579776|NCT03547739|164870166|SUPERIORITY||Risk Ratio (RR)|1.21||||0.001|TWO_SIDED|95.0|1.12|1.31|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and and couple age disparity.|Comparison of the Home Visit arm with Standard Care||1.31|1.12|.001
82579777|NCT03547739|164870166|SUPERIORITY||Risk Ratio (RR)|1.26||||0.001|TWO_SIDED|95.0|1.17|1.36|||Chi-squared||Generalized Estimating Equation model with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth index, length of couple relationship, previous couple testing at baseline, and and couple age disparity.|Comparison of HIVST arm with Standard Care arm||1.36|1.17|.001
82585987|NCT00710021|164883895|SUPERIORITY_OR_OTHER|||||||0.014||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline Mx1 expression.||||||0.014
82471978|NCT02691507|164638488|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471979|NCT02691507|164638488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.83|STANDARD_ERROR_OF_MEAN|6.681|<|0.001|TWO_SIDED|95.0|13.407|40.247||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||40.247|13.407|<0.001
82471980|NCT02691507|164638489|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471981|NCT02691507|164638489|SUPERIORITY_OR_OTHER|||||||0.004||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.004
82471982|NCT02691507|164638489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.33|STANDARD_ERROR_OF_MEAN|3.996|<|0.001|TWO_SIDED|95.0|11.301|27.352||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||27.352|11.301|<0.001
82471983|NCT02691507|164638490|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471984|NCT02691507|164638490|SUPERIORITY_OR_OTHER|||||||0.009||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.009
82471985|NCT02691507|164638490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.01|STANDARD_ERROR_OF_MEAN|4.072|<|0.001|TWO_SIDED|95.0|7.829|24.187||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||24.187|7.829|<0.001
82471986|NCT02691507|164638491|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471987|NCT02691507|164638491|SUPERIORITY_OR_OTHER|||||||0.003||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.003
82471988|NCT02691507|164638491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.25|STANDARD_ERROR_OF_MEAN|3.764|<|0.001|TWO_SIDED|95.0|5.684|20.82||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||20.820|5.684|<0.001
82471989|NCT02691507|164638492|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471990|NCT02691507|164638492|SUPERIORITY_OR_OTHER|||||||0.049||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.049
82471991|NCT02691507|164638492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.08|STANDARD_ERROR_OF_MEAN|4.138||0.001|TWO_SIDED|95.0|5.766|22.387||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||22.387|5.766|0.001
82471992|NCT02691507|164638493|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471993|NCT02691507|164638493|SUPERIORITY_OR_OTHER|||||||0.024||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.024
82471994|NCT02691507|164638493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.26|STANDARD_ERROR_OF_MEAN|4.679||0.004|TWO_SIDED|95.0|4.862|23.66||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||23.660|4.862|0.004
82471995|NCT02691507|164638494|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471996|NCT02691507|164638494|SUPERIORITY_OR_OTHER|||||||0.015||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.015
82471997|NCT02691507|164638494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.77|STANDARD_ERROR_OF_MEAN|4.222||0.004|TWO_SIDED|95.0|4.291|21.252||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||21.252|4.291|0.004
82585988|NCT00710021|164883896|SUPERIORITY_OR_OTHER|||||||0.96||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C3 level.||||||0.96
82650792|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.2873|TWO_SIDED|95.0|0.75|2.65|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.65|0.75|0.2873
82471998|NCT02691507|164638495|SUPERIORITY_OR_OTHER||||||<|0.001||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||<0.001
82471999|NCT02691507|164638495|SUPERIORITY_OR_OTHER|||||||0.034||||||The significance level threshold level was 0.05.|Paired t-test|||The null hypothesis was no difference between the baseline score and the post-baseline score. The alternative hypothesis was a difference between the baseline score and the post-baseline score.||||0.034
82472000|NCT02691507|164638495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.71|STANDARD_ERROR_OF_MEAN|5.925||0.037|TWO_SIDED|95.0|0.805|24.621||The significance level threshold level was 0.05.|ANCOVA|Change from baseline as response, baseline score as covariate and treatment as factor.||The null hypothesis was no difference between groups. The alternative hypothesis was a difference between groups.||24.621|0.805|0.037
82472001|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.0135||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline Hgb \<10.80 versus modeled Hgb change from baseline in participants with Baseline Hgb \>= 10.80||||0.0135
82472002|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.5082||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline weight \<= 80.5 Kg versus modeled Hgb change from baseline in participants with Baseline weight \> 80.5||||0.5082
82472003|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.977||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with ethnicity non-Hispanic or Latino versus modeled Hgb change from baseline in participants with ethnicity non-Hispanic or Latino||||0.9770
82472004|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.0618||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline geographic ancestry as African American versus modeled Hgb change from baseline in participants with no geographic ancestry as African American||||0.0618
82472005|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.7495||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline gender as male versus modeled Hgb change from baseline in participants with Baseline gender female||||0.7495
82472006|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.7865||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline age \<65 years versus modeled Hgb change from baseline in participants with Baseline age \>=65 years||||0.7865
82472007|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.0622||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline co-ad with food versus modeled Hgb change from baseline in participants with Baseline co-ad without food||||0.0622
82472008|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.2044||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline diabetes presence versus modeled Hgb change from baseline in participants with no Baseline diabetes||||0.2044
82472009|NCT01587924|164638550|SUPERIORITY_OR_OTHER|||||||0.8537||95.0||||The p-value is showing the interaction of each subgroup by treatment and by day|Regression, Linear|||Modeled Hgb change from baseline in participants with Baseline region as the US and Canada versus modeled Hgb change from baseline in participants with Baseline region as not the US and Canada||||0.8537
82472010|NCT00606593|164638579|SUPERIORITY_OR_OTHER||Least square means treatment effect|-10.4||||0.0018|TWO_SIDED|95.0|-17.0|-3.9|||Linear model|||||-3.9|-17.0|0.0018
82472011|NCT00606593|164638579|SUPERIORITY_OR_OTHER||Least square means treatment effect|-19.2|||<|0.0001|TWO_SIDED|95.0|-25.7|-12.6|||Linear model|||||-12.6|-25.7|<0.0001
82547631|NCT04315181|164795066|SUPERIORITY|||||||0.0002||||||Statistical significance is 2-sided and accepted at a P value of ≤ 0.05.|Mixed Models Analysis|F=4.58, df=8, 72||Trough scores were calculated for individual participants within each dose condition and analyzed in a one-factor model (drug condition) with a compound symmetry covariance structure.||||0.0002
82547632|NCT03833167|164795067|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.07243|TWO_SIDED|95.0|0.53|1.1||One-sided p-value based on log-rank test stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|||1.10|0.53|0.07243
82547633|NCT03833167|164795068|SUPERIORITY||Hazard Ratio (HR)|1.47|||||TWO_SIDED|95.0|0.87|2.48|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline Extracapsular extension (yes versus no) and Cortical bone invasion (yes versus no) with small strata collapsed.|||2.48|0.87|
82547634|NCT03833167|164795069|SUPERIORITY||Mean Difference (Final Values)|-3.41||||0.2227|TWO_SIDED|95.0|-8.91|2.09||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|Log Rank||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|||2.09|-8.91|0.2227
82472012|NCT00606593|164638579|SUPERIORITY_OR_OTHER||Least square means treatment effect|-31.4|||<|0.0001|TWO_SIDED|95.0|-38.0|-24.9|||Linear model|||||-24.9|-38.0|<0.0001
82472013|NCT00606593|164638579|SUPERIORITY_OR_OTHER||Least square means treatment effect|-46.5|||<|0.0001|TWO_SIDED|95.0|-53.3|-39.9|||Linear model|||||-39.9|-53.3|<0.0001
82472014|NCT00606593|164638580|SUPERIORITY_OR_OTHER||Least square means treatment effect|14.3|||<|0.0001|TWO_SIDED|95.0|7.4|21.2|||Linear model|||||21.2|7.4|<0.0001
82472015|NCT00606593|164638580|SUPERIORITY_OR_OTHER||Least square means treatment effect|21.5|||<|0.0001|TWO_SIDED|95.0|14.6|28.4|||Linear model|||||28.4|14.6|<0.0001
82472016|NCT00606593|164638580|SUPERIORITY_OR_OTHER||Least square means treatment effect|34.7|||<|0.0001|TWO_SIDED|95.0|27.8|41.6|||Linear model|||||41.6|27.8|<0.0001
82472017|NCT00606593|164638580|SUPERIORITY_OR_OTHER||Least square means treatment effect|55.1|||<|0.0001|TWO_SIDED|95.0|48.2|62.0|||Linear model|||||62.0|48.2|<0.0001
82472018|NCT00298558|164638603|SUPERIORITY_OR_OTHER||Effect Size|0.06||||0.43|TWO_SIDED|99.0|-0.14|0.27|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.27|-0.14|0.43
82472019|NCT00298558|164638603|SUPERIORITY_OR_OTHER||Effect Size|-0.11||||0.17|TWO_SIDED|99.0|-0.31|0.1|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.10|-0.31|0.17
82472020|NCT00298558|164638603|SUPERIORITY_OR_OTHER||Effect Size|-0.05||||0.52|TWO_SIDED|99.0|-0.25|0.15|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.15|-0.25|0.52
82472021|NCT00298558|164638606|SUPERIORITY_OR_OTHER||Effect Size|-0.02||||0.69|TWO_SIDED|99.0|-0.17|0.12|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.12|-0.17|0.69
82472022|NCT00298558|164638606|SUPERIORITY_OR_OTHER||Effect Size|0.23|||<|0.01|TWO_SIDED|99.0|0.09|0.38|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.38|0.09|<0.01
82472023|NCT00298558|164638606|SUPERIORITY_OR_OTHER||Effect Size|-0.06||||0.27|TWO_SIDED|99.0|-0.2|0.08|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.08|-0.20|0.27
82472024|NCT00298558|164638608|SUPERIORITY_OR_OTHER||Effect Size|-0.07||||0.45|TWO_SIDED|99.0|-0.29|0.16|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.16|-0.29|0.45
82472025|NCT00298558|164638608|SUPERIORITY_OR_OTHER||Effect Size|0.005||||0.95|TWO_SIDED|99.0|-0.22|0.23|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.23|-0.22|0.95
82585989|NCT00710021|164883897|SUPERIORITY_OR_OTHER|||||||0.67||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C3 level.||||||0.67
82579778|NCT03547739|164870180|SUPERIORITY||Risk Ratio (RR)|1.08||||0.011|TWO_SIDED|95.0|1.03|1.12|||Chi-squared||Generalized Estimating Equation model (binomial family and log link) with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth, length of couple relationship, and couple age disparity.|Comparison of the Home Visit arm with Standard Care||1.12|1.03|.011
82579779|NCT03547739|164870180|SUPERIORITY||Risk Ratio (RR)|1.02||||0.011|TWO_SIDED|95.0|0.97|1.08|||Chi-squared||Generalized Estimating Equation model (binomial family and log link) with robust standard errors used. Risk Ratios reported were adjusted for baseline education level, wealth, length of couple relationship, and couple age disparity.|Comparison of the HIVST arm with Standard Care||1.08|0.97|0.011
82650793|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.2677|TWO_SIDED|95.0|0.79|2.36|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.36|0.79|0.2677
82472026|NCT00298558|164638608|SUPERIORITY_OR_OTHER||Effect Size|0.66|||<|0.01|TWO_SIDED|99.0|0.43|0.88|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.88|0.43|<0.01
82472027|NCT00298558|164638609|SUPERIORITY_OR_OTHER||Effect Size|0.48|||<|0.01|TWO_SIDED|99.0|0.12|0.84|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.84|0.12|<0.01
82472028|NCT00298558|164638609|SUPERIORITY_OR_OTHER||Effect Size|0.38|||<|0.01|TWO_SIDED|99.0|0.02|0.74|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.74|0.02|<0.01
82472029|NCT00298558|164638609|SUPERIORITY_OR_OTHER||Effect Size|0.36|||<|0.01|TWO_SIDED|99.0|0.01|0.72|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.72|0.01|<0.01
82579780|NCT03547739|164870181|OTHER||Kaplan Meier estimates|0.92||||0.087|TWO_SIDED|95.0|0.86|0.95|||Log Rank|||||0.95|0.86|0.087
82579781|NCT03547739|164870181|OTHER||Kaplan Meier estimates|0.96||||0.087|TWO_SIDED|95.0|0.91|0.98|||Log Rank|||||0.98|0.91|0.087
82579782|NCT03547739|164870181|OTHER||Kaplan Meier estimates|0.98||||0.087|TWO_SIDED|95.0|0.93|0.99|||Log Rank|||||0.99|0.93|0.087
82579783|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|7.11|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579784|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 50 lux is reported."|Slope|5.98|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82585990|NCT00710021|164883898|SUPERIORITY_OR_OTHER|||||||0.59||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C4 level.||||||0.59
82376882|NCT03104400|164460612|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|34.5|||<|0.0001|TWO_SIDED|95.0|28.2|40.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||40.7|28.2|<0.0001
82579785|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 50 lux is reported."|Slope|7.17||||0.0006|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0006
82579786|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 50 lux is reported."|Slope|4.75|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82585991|NCT00710021|164883899|SUPERIORITY_OR_OTHER|||||||0.65||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline serum C4 level.||||||0.65
82585992|NCT00710021|164883900|SUPERIORITY_OR_OTHER|||||||0.86||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||0.86
82472030|NCT00298558|164638610|SUPERIORITY_OR_OTHER||Effect Size|0.004||||0.97|TWO_SIDED|99.0|-0.23|0.24|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.24|-0.23|0.97
82472031|NCT00298558|164638610|SUPERIORITY_OR_OTHER||Effect Size|-0.02||||0.86|TWO_SIDED|99.0|-0.25|0.22|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.22|-0.25|0.86
82472032|NCT00298558|164638610|SUPERIORITY_OR_OTHER||Effect Size|0.008||||0.93|TWO_SIDED|99.0|-0.23|0.24|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.24|-0.23|0.93
82472033|NCT00298558|164638611|SUPERIORITY_OR_OTHER||Effect Size|0.02||||0.78|TWO_SIDED|99.0|-0.19|0.23|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.23|-0.19|0.78
82472034|NCT00298558|164638611|SUPERIORITY_OR_OTHER||Effect Size|-0.004||||0.96|TWO_SIDED|99.0|-0.21|0.21|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.21|-0.21|0.96
82472035|NCT00298558|164638611|SUPERIORITY_OR_OTHER||Effect Size|-0.05||||0.56|TWO_SIDED|99.0|-0.26|0.16|||Mixed Models Analysis|The blom transformation was used to reduce skewness in the measures. The design factors and baseline covariates were controlled in the model.|Blom transformed outcome was used and the design factors and baseline covariates were controlled in the model to get the adjusted means. After that, the effect size (defined in the Additional details) was calculated using the adjusted means and SD.|Effect size was defined as training improvement from baseline to year 10 minus control improvement from baseline to year 10 divided by the intrasubject standard deviation (SD) of the composite score. Positive effect sizes indicate improvement.||0.16|-0.26|0.56
82472036|NCT02581410|164638612|NON_INFERIORITY|Non-inferiority will be demonstrated if the upper limit of the two-sided 95% confidence interval of the adjusted geometric mean concentration (GMC) ratio (No prev- Zvax over Prev-Zvax) 1 month post-dose 2 is below 1.5 in terms of anti-gE antibodies.|Adjusted GMC ratio|1.04|||||TWO_SIDED|95.0|0.92|1.17|||ANCOVA|||To compare humoral immune responses at 1 month after dose 2 of GSK1437173A (Month 3) in subjects ≥ 65 years of age who received Zostavax ≥ 5 years earlier (Prev-Zvax) as compared to subjects who have never received Zostavax (No prev-Zvax).||1.17|0.92|
82472037|NCT02908672|164638630|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0224|TWO_SIDED|95.0|0.64|0.97|||Log Rank||Stratified Hazard Ratio|||0.97|0.64|0.0224
82650794|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.8||||0.0031|TWO_SIDED|95.0|1.21|2.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.68|1.21|0.0031
82472038|NCT02908672|164638631|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1607|TWO_SIDED|95.0|0.67|1.07|||Log Rank||Stratified Hazard Ratio|||1.07|0.67|0.1607
82472039|NCT02908672|164638632|SUPERIORITY||Difference in response rate|1.63||||0.6997|TWO_SIDED|95.0|-6.9|10.15|||Cochran-Mantel-Haenszel|||||10.15|-6.90|0.6997
82472040|NCT02908672|164638634|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1191|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.1191
82472041|NCT02908672|164638635|SUPERIORITY||Difference in Event Free Rate|8.2||||0.0693|TWO_SIDED|95.0|-0.65|17.04|||Z-test|||||17.04|-0.65|0.0693
82472042|NCT01424072|164638644|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|||The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0.023
82472043|NCT01424072|164638645|SUPERIORITY_OR_OTHER||||||,|0||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|This result was only to the domain Social Support.||It was carried out the analysis of variance (ANOVA) among the groups in the 3rd assessment (after 60 days) and at the follow up (after 75 days). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0,022
82472044|NCT01424072|164638646|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|||It was carried out the analysis of variance (ANOVA) among the groups at the follow up (after 75 days). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||||0.039
82472045|NCT01424072|164638646|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||ANOVA|It was carried out the analysis of variance (ANOVA) among the groups at the follow up and then it was used the post hoc test.||Coping Strategy: Confrontation domain||||0.029
82472046|NCT02876601|164638662|SUPERIORITY|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||||||0.408
82472047|NCT02876601|164638663|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||||||0.148
82472048|NCT02876601|164638664|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82472049|NCT02876601|164638665|SUPERIORITY|||||||0.642|||||||Wilcoxon (Mann-Whitney)|||||||0.642
82472050|NCT02876601|164638666|SUPERIORITY|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
82472051|NCT02876601|164638667|SUPERIORITY|||||||0.326|||||||Wilcoxon (Mann-Whitney)|||||||0.326
82472052|NCT02876601|164638668|SUPERIORITY|||||||0.796|||||||Wilcoxon (Mann-Whitney)|||||||0.796
82472053|NCT02876601|164638669|SUPERIORITY|||||||0.918|||||||Wilcoxon (Mann-Whitney)|||||||0.918
82472054|NCT02876601|164638670|SUPERIORITY|||||||0.877|||||||Wilcoxon (Mann-Whitney)|||||||0.877
82472055|NCT02876601|164638671|SUPERIORITY|||||||0.423|||||||Wilcoxon (Mann-Whitney)|||||||0.423
82472056|NCT02876601|164638672|SUPERIORITY|||||||0.938|||||||Wilcoxon (Mann-Whitney)|||||||0.938
82472057|NCT01322945|164638677|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
82472058|NCT05307692|164638704|SUPERIORITY||Difference of Least Square (LS) Means|-1.5|STANDARD_ERROR_OF_MEAN|1.47||0.308|TWO_SIDED|80.0|-3.41|0.39|||Mixed model repeated measures|||||0.39|-3.41|0.308
82472059|NCT05307692|164638705|SUPERIORITY||Difference of Least Square (LS) Means|-1.5|STANDARD_ERROR_OF_MEAN|1.42||0.282|TWO_SIDED|80.0|-3.33|0.29|||Mixed model repeated measures|||||0.29|-3.33|0.282
82472060|NCT02605122|164638738|OTHER||Proportion experiencing TEAE or TESAE|34.3|||||TWO_SIDED|95.0|23.0|47.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||47|23|
82472061|NCT02605122|164638739|OTHER||Achievement of ECR|62.1|||||TWO_SIDED|95.0|49.0|74.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||74|49|
82472062|NCT02605122|164638740|OTHER||Achievement of Clinical Improvement|68.7|||||TWO_SIDED|95.0|58.0|78.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson analysis was used to determine confidence intervals.|Clopper-Pearson|||||78|58|
82472063|NCT02605122|164638741|OTHER||Achievement of Clinical Cure|62.0|||||TWO_SIDED|95.0|50.0|73.0||No p-value was performed. Study prematurely discontinued. Clopper-Pearson was used to determine confidence intervals.|Clopper-Pearson|||||73|50|
82472064|NCT04603027|164638742|SUPERIORITY||Posterior Mean difference|-5.99|||||TWO_SIDED|95.0|-20.28|7.12||||||||7.12|-20.28|
82472065|NCT04603027|164638742|SUPERIORITY||Posterior Mean difference|-8.35|||||TWO_SIDED|95.0|-22.07|5.04||||||||5.04|-22.07|
82472066|NCT04603027|164638742|SUPERIORITY||Posterior Mean difference|-9.1|||||TWO_SIDED|95.0|-23.22|4.65||||||||4.65|-23.22|
82472067|NCT04603027|164638743|SUPERIORITY||Posterior Mean difference|-2.6|||||TWO_SIDED|95.0|-13.91|9.9||||||||9.90|-13.91|
82472068|NCT04603027|164638743|SUPERIORITY||Posterior Mean difference|-3.33|||||TWO_SIDED|95.0|-15.21|8.52||||||||8.52|-15.21|
82472069|NCT04603027|164638743|SUPERIORITY||Posterior Mean difference|0.11|||||TWO_SIDED|95.0|-12.33|11.53||||||||11.53|-12.33|
82472070|NCT04603027|164638744|SUPERIORITY||Posterior Mean difference|-0.69|||||TWO_SIDED|95.0|-1.88|0.46||||||||0.46|-1.88|
82472071|NCT04603027|164638744|SUPERIORITY||Posterior Mean difference|-0.73|||||TWO_SIDED|95.0|-1.82|0.45||||||||0.45|-1.82|
82472072|NCT04603027|164638744|SUPERIORITY||Posterior Mean difference|-0.81|||||TWO_SIDED|95.0|-2.05|0.33||||||||0.33|-2.05|
82472073|NCT04603027|164638745|SUPERIORITY||Odds Ratio (OR)|2.64|||||TWO_SIDED|95.0|1.01|6.94||||||||6.94|1.01|
82472074|NCT04603027|164638745|SUPERIORITY||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|1.17|7.37||||||||7.37|1.17|
82472075|NCT04603027|164638745|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|0.63|4.7||||||||4.70|0.63|
82650795|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.7||||0.0066|TWO_SIDED|95.0|1.15|2.5|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||2.50|1.15|0.0066
82472076|NCT04603027|164638746|SUPERIORITY|||||||0.1|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.100
82472077|NCT04603027|164638746|SUPERIORITY|||||||0.034|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.034
82472078|NCT04603027|164638746|SUPERIORITY|||||||0.094|||||||nonparametric survival analysis|Method used was a nonparametric survival analysis for interval censored data||||||0.094
82472079|NCT04603027|164638750|SUPERIORITY||Posterior Mean Odds Ratio|2.14|||||TWO_SIDED|95.0|0.45|10.96||||||||10.96|0.45|
82472080|NCT04603027|164638750|SUPERIORITY||Posterior Mean Odds Ratio|2.02|||||TWO_SIDED|95.0|0.42|8.78||||||||8.78|0.42|
82472081|NCT04603027|164638750|SUPERIORITY||Posterior Mean Odds Ratio|2.12|||||TWO_SIDED|95.0|0.46|9.51||||||||9.51|0.46|
82472082|NCT04603027|164638751|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
82472083|NCT04603027|164638751|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
82472084|NCT04603027|164638751|SUPERIORITY||||||||||||||||||There were not enough responders to model using GLMM or a Bayesian logistic model, and no treatment difference analysis was conducted.|||
82472085|NCT04603027|164638752|SUPERIORITY||Posterior Mean difference|-9.08|||||TWO_SIDED|95.0|-30.22|12.4||||||||12.40|-30.22|
82472086|NCT04603027|164638752|SUPERIORITY||Posterior Mean difference|2.99|||||TWO_SIDED|95.0|-23.41|18.15||||||||18.15|-23.41|
82472087|NCT04603027|164638752|SUPERIORITY||Posterior Mean difference|-17.1|||||TWO_SIDED|95.0|-38.29|3.25||||||||3.25|-38.29|
82472088|NCT04603027|164638753|SUPERIORITY||Posterior Mean difference|-2.66|||||TWO_SIDED|95.0|-6.79|1.52||||||||1.52|-6.79|
82472089|NCT04603027|164638753|SUPERIORITY||Posterior Mean difference|-0.83|||||TWO_SIDED|95.0|-4.7|3.16||||||||3.16|-4.70|
82472090|NCT04603027|164638753|SUPERIORITY||Posterior Mean difference|-3.53|||||TWO_SIDED|95.0|-7.49|0.63||||||||0.63|-7.49|
82472091|NCT04603027|164638754|SUPERIORITY||Posterior Mean difference|-9.08|||||TWO_SIDED|95.0|-30.22|12.4||||||||12.40|-30.22|
82472092|NCT04603027|164638754|SUPERIORITY||Posterior Mean difference|-2.99|||||TWO_SIDED|95.0|-23.41|18.15||||||||18.15|-23.41|
82472093|NCT04603027|164638754|SUPERIORITY||Posterior Mean difference|-17.1|||||TWO_SIDED|95.0|-38.29|3.25||||||||3.25|-38.29|
82472094|NCT04603027|164638755|SUPERIORITY||Posterior Mean difference|-2.66|||||TWO_SIDED|95.0|-6.79|1.52||||||||1.52|-6.79|
82472095|NCT04603027|164638755|SUPERIORITY||Posterior Mean difference|-0.83|||||TWO_SIDED|95.0|-4.7|3.16||||||||3.16|-4.70|
82472096|NCT04603027|164638755|SUPERIORITY||Posterior Mean difference|-3.53|||||TWO_SIDED|95.0|-7.49|0.63||||||||0.63|-7.49|
82472097|NCT04603027|164638756|SUPERIORITY||Posterior Mean difference|2.99|||||TWO_SIDED|95.0|-19.99|28.84||||||||28.84|-19.99|
82472098|NCT04603027|164638756|SUPERIORITY||Posterior Mean difference|-2.49|||||TWO_SIDED|95.0|-26.47|21.55||||||||21.55|-26.47|
82472099|NCT04603027|164638756|SUPERIORITY||Posterior Mean difference|13.36|||||TWO_SIDED|95.0|-12.03|36.92||||||||36.92|-12.03|
82472100|NCT04603027|164638757|SUPERIORITY||Posterior Mean difference|0.62|||||TWO_SIDED|95.0|-1.1|2.3||||||||2.30|-1.10|
82472101|NCT04603027|164638757|SUPERIORITY||Posterior Mean difference|-0.21|||||TWO_SIDED|95.0|-1.96|1.37||||||||1.37|-1.96|
82472102|NCT04603027|164638757|SUPERIORITY||Posterior Mean difference|-0.08|||||TWO_SIDED|95.0|-1.73|1.75||||||||1.75|-1.73|
82472103|NCT04603027|164638758|SUPERIORITY||Posterior Mean difference|13.71|||||TWO_SIDED|95.0|-50.62|73.35||||||||73.35|-50.62|
82472104|NCT04603027|164638758|SUPERIORITY||Posterior Mean difference|73.69|||||TWO_SIDED|95.0|21.69|126.92||||||||126.92|21.69|
82472105|NCT04603027|164638758|SUPERIORITY||Posterior Mean difference|8.41|||||TWO_SIDED|95.0|-44.58|56.81||||||||56.81|-44.58|
82472106|NCT04603027|164638759|SUPERIORITY||Posterior Mean difference|0.62|||||TWO_SIDED|95.0|-1.1|2.3||||||||2.30|-1.10|
82472107|NCT04603027|164638759|SUPERIORITY||Posterior Mean difference|-0.21|||||TWO_SIDED|95.0|-1.96|1.37||||||||1.37|-1.96|
82472108|NCT04603027|164638759|SUPERIORITY||Posterior Mean difference|-0.08|||||TWO_SIDED|95.0|-1.73|1.75||||||||1.75|-1.73|
82472109|NCT03894813|164638763|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
82472110|NCT03894813|164638764|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
82472111|NCT03894813|164638765|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
82472112|NCT03894813|164638766|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
82585993|NCT00710021|164883901|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82547635|NCT03833167|164795070|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.1874|TWO_SIDED|95.0|-7.19|1.42||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|Log Rank||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Extracapsular extension, Cortical bone invasion, and Prior systemic therapy.|||1.42|-7.19|0.1874
82547636|NCT03811535|164795082|NON_INFERIORITY|The pre-specified non-inferiority margin was -1.8 cm/year.|Treatment difference|-0.5|||||TWO_SIDED|95.0|-1.1|0.2|||ANCOVA|||Height velocity at week 52 was analyzed using an analysis of covariance model with treatment, gender, age group, region, growth hormone (GH) peak group and gender by age group by region interaction term as factors, and baseline height as covariate.||0.2|-1.1|
82547637|NCT03811535|164795083|NON_INFERIORITY|The pre-specified non-inferiority margin was -1.8 cm/year.|Treatment difference|-0.5|||||TWO_SIDED|95.0|-1.1|0.2|||Mixed Models Analysis|||Height velocity at 52 weeks was analyzed using a mixed model for repeated measurements, with treatment, gender, age group, region, GH peak group and gender by age group by region interaction terms as factors and baseline height as a covariate, all nested within week as a factor.||0.2|-1.1|
82547639|NCT05480943|164795122|OTHER|chi-square tested correlation between CRP and thiamine deficiency.||||||0.6097||||||P\<=0.05 considered significant|Chi-squared|||For the subset of 123 participants with both C-reactive protein level and plasma thiamine levels (125 had C-reactive protein results but 2 were missing plasma thiamine levels), we used Chi-Square to test for association between those who were thiamine deficient and had elevated C-reactive protein (CRP) levels. A priori hypothesis was that inflammation would cause thiamine deficiency due to increased metabolic demands.||||0.6097
82547640|NCT00976937|164795124|SUPERIORITY_OR_OTHER||Response rate difference|4.6|STANDARD_ERROR_OF_MEAN|3.28||0.1696|TWO_SIDED|95.0|-1.84|11.0||Cochran-Mantel-Haenszel (CMH) test stratified by randomization strata of screening HbA1c (\<8.0 or \>=8.0%) and randomization strata of screening BMI (\<35 or \>=35 kg/m\^2) was used.|Cochran-Mantel-Haenszel|||To demonstrate the superiority of lixisenatide over sitagliptin, 150 patients in each arm would provide a power of 90% with a 2-sided test at the 5% significance level, assuming the percentage of patients defined as responders on HbA1c (\<7%) and weight (at least 5% loss) is 25% with lixisenatide and 10% with sitagliptin.||11.00|-1.84|0.1696
82547641|NCT03069313|164795142|OTHER|Paired t-test|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82547642|NCT03069313|164795143|OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82547643|NCT03069313|164795144|OTHER|This analysis is comparing SWB before and after treatment.||||||0.133|||||||t-test, 2 sided|||||||0.133
82547644|NCT03069313|164795144|OTHER|||||||0.056|||||||t-test, 2 sided|||This analysis is comparing EWB before and after treatment.||||0.056
82547645|NCT03069313|164795144|OTHER||||||<|0.0001|||||||t-test, 2 sided|||This analysis is comparing PWB before and after treatment.||||<0.0001
82547646|NCT03069313|164795144|OTHER|||||||0.09|||||||t-test, 2 sided|||This analysis is comparing FWB before and after treatment.||||0.09
82547647|NCT03069313|164795144|OTHER||||||<|0.0001|||||||t-test, 2 sided|||This analysis is comparing ESS before and after treatment.||||<0.0001
82547648|NCT04218266|164795146|OTHER||Crude incidence ratio|0.42|||||TWO_SIDED|90.0|0.26|0.67||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in all bleeding||0.67|0.26|
82547649|NCT04218266|164795148|OTHER||Crude incidence ratio|0.33|||||TWO_SIDED|90.0|0.09|0.97||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH CRNM bleeding||0.97|0.09|
82547650|NCT04218266|164795149|OTHER||Crude incidence ratio|0.47|||||TWO_SIDED|90.0|0.28|0.83||||||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH minor bleeding||0.83|0.28|
82547651|NCT04218266|164795150|OTHER||Crude incidence ratio|0.33|||||TWO_SIDED|90.0|0.09|0.97|||Other|||Comparison of the Asundexian pooled group (Asundexian 20 mg group and Asundexian 50 mg group) versus Apixaban group in ISTH major bleeding or CRNM bleeding||0.97|0.09|
82547652|NCT02119650|164795162|OTHER||Hazard Ratio (HR)|0.877||||0.7562|TWO_SIDED|80.0|0.509|1.51|||Log Rank|The 2-sided p-value was calculated based on the log-rank test and stratified by modified Glasgow Prognostic Score (mGPS).||||1.51|0.509|0.7562
82547653|NCT02730871|164795167|SUPERIORITY||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.342|<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||ANCOVA|||||-1.5|-2.8|<0.001
82547654|NCT02730871|164795168|OTHER||Mean Difference (Final Values)|-2.15|STANDARD_ERROR_OF_MEAN|0.342|<|0.001|TWO_SIDED|95.0|-2.8|-1.5|||ANCOVA|||||-1.5|-2.8|<0.001
82547655|NCT02730871|164795169|OTHER||Mean Difference (Final Values)|-9.98|STANDARD_ERROR_OF_MEAN|1.572|<|0.001|TWO_SIDED|95.0|-13.1|-6.9|||ANCOVA|||||-6.9|-13.1|<0.001
82547656|NCT02730871|164795170|OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.576||0.022|TWO_SIDED|95.0|-2.5|-0.2|||Repeated measures model|||Change from Baseline in IOP at 9:00||-0.2|-2.5|0.022
82547657|NCT02730871|164795170|OTHER||Mean Difference (Final Values)|-2.85|STANDARD_ERROR_OF_MEAN|0.506|<|0.001|TWO_SIDED|95.0|-3.9|-1.9|||Repeated measures model|||Change from Baseline in IOP at 11:00||-1.9|-3.9|<0.001
82547658|NCT02730871|164795171|OTHER||Mean Difference (Final Values)|-6.15|STANDARD_ERROR_OF_MEAN|2.567||0.018|TWO_SIDED|95.0|-11.2|-1.1|||Repeated measures model|||Percentage Change from Baseline in IOP at 09:00||-1.1|-11.2|0.018
82547659|NCT02730871|164795171|OTHER||Mean Difference (Final Values)|-13.21|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|-17.8|-8.6|||Repeated measures model|||Percentage Change from Baseline in IOP at 11:00||-8.6|-17.8|<0.001
82547660|NCT04623775|164795172|SUPERIORITY||Risk Difference (RD)|-6.5|||||TWO_SIDED|95.0|-16.0|3.0||||||||3.0|-16.0|
82547661|NCT04623775|164795173|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|90.0|0.94|2.05|||Cochran-Mantel-Haenszel|||||2.05|0.94|
82547662|NCT04505774|164795228|SUPERIORITY|||||||0.6778|||||||t-test, 2 sided|||||||.6778
82547663|NCT04505774|164795228|SUPERIORITY|||||||0.6292|||||||t-test, 2 sided|||||||.6292
82547664|NCT04505774|164795228|SUPERIORITY|||||||0.6858|||||||t-test, 2 sided|||||||.6858
82547665|NCT04505774|164795228|SUPERIORITY|||||||0.1351|||||||t-test, 2 sided|||||||.1351
82547666|NCT04505774|164795229|SUPERIORITY|||||||0.1959|||||||Chi-squared|||||||.1959
82547667|NCT04505774|164795229|SUPERIORITY|||||||0.9496|||||||Chi-squared|||||||0.9496
82472113|NCT03894813|164638767|NON_INFERIORITY|The relevant parameters were determined as follows: test level α=0.05, test power 1-β=0.80, Pt=0.90, Pc=0.75, Nt:Nc=1:1, boundary value Δ= -0.0.068 (excellent), and Fisher's exact test. As a result, the sample size of each group was calculated as 50 patients, 100 patients in total. Considering a loss to follow-up rate of 20%, a sample size of 120 patients was finally determined, with 60 patients in each group.|||||<|0.01|||||||Chi-squared|||||||<0.01
82472114|NCT04954833|164638771|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR. A value of 0.05 logMAR is approximately 2.5 letters on the ETDRS chart.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.006|||TWO_SIDED|95.0|-0.01|0.02|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||0.02|-0.01|
82472115|NCT04954833|164638772|NON_INFERIORITY|A non-inferiority margin of 10% was used. A 10% of difference in the rate of lens fit acceptance is considered clinically significant.|Posterior mean difference of proportions|0.0|STANDARD_DEVIATION|0.0048|||TWO_SIDED|95.0|-0.009|0.01|||Bayesian hierarchical model|A 95% credible interval for the posterior mean difference between the Test and Control (Test - Control) was used to evaluate non-inferiority.|Interval presented is a 95% Credible interval|||0.010|-0.009|
82472116|NCT02863419|164638790|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand). A value of 0.4% (the non-inferiority margin) was added to imputed values at week 26 for the oral semaglutide treatment arm only.|Mean treatment difference|-0.1|||<|0.0001|TWO_SIDED|95.0|-0.3|0.0||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin. The non-inferiority margin was 0.4%|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an analysis of covariance (ANCOVA) model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.0|-0.3|<0.0001
82472117|NCT02863419|164638790|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-0.1||||0.0645|TWO_SIDED|95.0|-0.3|0.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||0.0|-0.3|0.0645
82472118|NCT02863419|164638790|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.9||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline HbA1c value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.9|-1.2|<0.0001
82472119|NCT02863419|164638790|NON_INFERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.2|||<|0.0001|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority). The non-inferiority margin was 0.4%.|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-0.3|<0.0001
82472120|NCT02863419|164638790|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-0.2||||0.0056|TWO_SIDED|95.0|-0.3|-0.1||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.1|-0.3|0.0056
82376883|NCT03104400|164460612|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|42.3|||<|0.0001|TWO_SIDED|95.0|36.3|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||48.3|36.3|<0.0001
82547668|NCT04505774|164795229|SUPERIORITY|||||||0.9902|||||||Chi-squared|||||||.9902
82547669|NCT04505774|164795229|SUPERIORITY|||||||0.0814|||||||Chi-squared|||||||.0814
82547670|NCT04505774|164795230|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82547671|NCT04505774|164795230|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82547672|NCT04505774|164795230|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82547673|NCT04505774|164795231|SUPERIORITY|||||||0.0577|||||||Chi-squared|||||||.0577
82547674|NCT04505774|164795231|SUPERIORITY|||||||0.5015|||||||Chi-squared|||||||.5015
82547675|NCT04505774|164795231|SUPERIORITY|||||||0.5892|||||||Chi-squared|||||||.5892
82547676|NCT04505774|164795231|SUPERIORITY|||||||0.1714|||||||Chi-squared|||||||.1714
82547677|NCT04505774|164795232|SUPERIORITY|||||||0.0732|||||||Chi-squared|||||||.0732
82547678|NCT04505774|164795232|SUPERIORITY|||||||0.9018|||||||Chi-squared|||||||.9018
82547679|NCT04505774|164795232|SUPERIORITY|||||||0.5075|||||||Chi-squared|||||||.5075
82547680|NCT04505774|164795232|SUPERIORITY|||||||0.145|||||||Chi-squared|||||||.1450
82547681|NCT04505774|164795233|SUPERIORITY|||||||0.8837|||||||Chi-squared|||||||.8837
82547682|NCT04505774|164795233|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82547683|NCT04505774|164795233|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82585994|NCT00710021|164883902|SUPERIORITY_OR_OTHER|||||||0.62||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|F-tests derived from the GLM|The test was for the comparison of pooled Vitamin D versus Placebo after adjustment for baseline SELENA-SLEDAI score.||||||0.62
82585995|NCT00710021|164883903|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82547684|NCT04505774|164795233|SUPERIORITY|||||||0.5343|||||||Chi-squared|||||||.5343
82547685|NCT04505774|164795234|SUPERIORITY|||||||0.6636|||||||t-test, 2 sided|||||||.6636
82547686|NCT04505774|164795234|SUPERIORITY|||||||0.5878|||||||t-test, 2 sided|||||||.5878
82547687|NCT04505774|164795234|SUPERIORITY|||||||0.7148|||||||t-test, 2 sided|||||||.7148
82547688|NCT04505774|164795234|SUPERIORITY|||||||0.1117|||||||t-test, 2 sided|||||||.1117
82547689|NCT04505774|164795235|SUPERIORITY|||||||0.678|||||||t-test, 2 sided|||||||.6780
82547690|NCT04505774|164795235|SUPERIORITY|||||||0.6638|||||||t-test, 2 sided|||||||.6638
82547691|NCT04505774|164795235|SUPERIORITY|||||||0.7645|||||||t-test, 2 sided|||||||.7645
82547692|NCT04505774|164795235|SUPERIORITY|||||||0.0987|||||||t-test, 2 sided|||||||0.0987
82547693|NCT04505774|164795236|SUPERIORITY|||||||0.4016|||||||t-test, 2 sided|||||||.4016
82547694|NCT04505774|164795236|SUPERIORITY|||||||0.5815|||||||t-test, 2 sided|||||||.5815
82547695|NCT04505774|164795236|SUPERIORITY|||||||0.9085|||||||t-test, 2 sided|||||||.9085
82547696|NCT04505774|164795236|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||.0820
82547697|NCT04505774|164795237|SUPERIORITY|||||||0.3135|||||||Chi-squared|||||||.3135
82547698|NCT04505774|164795237|SUPERIORITY|||||||0.9581|||||||Chi-squared|||||||.9581
82547699|NCT04505774|164795237|SUPERIORITY|||||||0.9661|||||||Chi-squared|||||||.9661
82547700|NCT04505774|164795237|SUPERIORITY|||||||0.1073|||||||Chi-squared|||||||.1073
82547701|NCT04505774|164795238|SUPERIORITY|||||||0.3575|||||||Chi-squared|||||||.3575
82547702|NCT04505774|164795238|SUPERIORITY|||||||0.591|||||||Chi-squared|||||||.5910
82547703|NCT04505774|164795238|SUPERIORITY|||||||0.867|||||||Chi-squared|||||||.8670
82547704|NCT04505774|164795238|SUPERIORITY|||||||0.0645|||||||Chi-squared|||||||.0645
82547705|NCT05145257|164795239|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547706|NCT05145257|164795240|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547707|NCT05145257|164795241|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547708|NCT05145257|164795242|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547709|NCT05145257|164795243|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547710|NCT05145257|164795244|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547711|NCT05145257|164795245|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547712|NCT05145257|164795246|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547713|NCT05145257|164795247|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547714|NCT05145257|164795248|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547715|NCT05145257|164795249|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547716|NCT05145257|164795250|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547717|NCT05145257|164795251|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547718|NCT05145257|164795252|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547719|NCT05145257|164795253|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547720|NCT05145257|164795254|OTHER||||||<|0.001||||||Baseline versus endline comparison.|ANOVA|||||||<0.001
82547721|NCT05568004|164795288|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.|||Statistical analysis was conducted by a researcher using the Statistical Package for Social Sciences (SPSS) version 26.0. The Shapiro-Wilk test and histograms evaluated the data for normal distribution, and the Levene test confirmed homogeneous variances between groups (p \> 0.05). Continuous data following a normal distribution are presented as mean ± standard deviation (SD). The independent samples t test or Mann-Whitney U test was used to compare independent continuous data between groups, while the chi-square or Fisher's exact test was used to compare categorical data. Friedman two-way ANOVA was used to analyze dependent variables, while the two-way mixed ANOVA was used to examine the changes between groups over time. Before the two-way mixed ANOVA, boxplot evaluation confirmed no outliers. Mauchly's sphericity test showed that the assumption of sphericity for two-way interaction was met. Tukey's correction was used for pairwise subgroup comparisons.|||0.001
82585996|NCT00710021|164883904|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82472121|NCT02863419|164638790|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.2||||0.0001|TWO_SIDED|95.0|-1.4|-1.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Placebo|The analysis was based on a mixed model for repeated measurements (MMRM) that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline HbA1c value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-1.0|-1.4|0.0001
82472122|NCT02863419|164638791|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-1.2||||0.0003|TWO_SIDED|95.0|-1.9|-0.6||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-0.6|-1.9|0.0003
82472123|NCT02863419|164638791|SUPERIORITY|This hypothesis was controlled for multiplicity. Results are based on the data from the in-trial observation period. The estimated treatment effect includes the effect of any rescue medication and any effect after premature trial product discontinuation (treatment policy estimand).|Mean treatment difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.7|-3.0||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|Pattern mixture model||Oral semaglutide 14 mg - Placebo|The analysis was based on a pattern mixture model using multiple imputation to handle missing week 26 data, assuming that data were missing at random within the groups used for imputation. The imputed data sets were analysed using an ANCOVA model with treatment, strata, and region as categorical fixed effects and baseline body weight value as covariate for each of the 1000 imputed complete data sets, and pooled by Rubin's rule to draw inference.||-3.0|-4.7|<0.0001
82472124|NCT02863419|164638791|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.9||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral semaglutide 14 mg - Liraglutide 1.8 mg|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-0.9|-2.2|<0.0001
82472125|NCT02863419|164638791|SUPERIORITY|This hypothesis was not controlled for multiplicity. Results are based on the data from the on-treatment without rescue medication observation period. The estimated treatment effect excludes the effect of any rescue medication and any effect after premature trial product discontinuation (hypothetical estimand).|Mean treatment difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-4.8|-3.2||Unadjusted two-sided p-value for test of no difference from 0 (superiority).|MMRM||Oral sema 14 mg - Placebo|The analysis was based on a MMRM that assumed data to be missing at random. As dependent variables, the MMRM model included all post-baseline values collected at scheduled visits up to and including week 26. The independent effects were treatment, strata and region as categorical fixed effects and the baseline body weight value as a covariate, all nested within visit, and an unstructured residual covariance matrix.||-3.2|-4.8|<0.0001
82472126|NCT02863419|164638812|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.17||||0.4915|TWO_SIDED|95.0|0.75|1.8||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 1.8 mg|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||1.80|0.75|0.4915
82472127|NCT02863419|164638812|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.21|0.48||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of additional anti-diabetic medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Withdrawal for any reason or lost to follow-up contributed to the analysis as events (initiation of additional anti-diabetic medication). Censoring time was one day before planned end of treatment.||0.48|0.21|<0.0001
82547722|NCT05568004|164795288|SUPERIORITY|||||||0.001|||||||ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.||||0.001
82547723|NCT05568004|164795288|SUPERIORITY|||||||0.166||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.166
82585997|NCT00710021|164883905|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82585998|NCT00710021|164883906|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82585999|NCT00710021|164883907|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82586000|NCT00710021|164883908|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82472128|NCT02863419|164638813|SUPERIORITY|This hypothesis was not controlled for multiplicity|Hazard Ratio (HR)|1.17||||0.6252|TWO_SIDED|95.0|0.62|2.22||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Liraglutide 1.8 mg|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||2.22|0.62|0.6252
82472129|NCT02863419|164638813|SUPERIORITY|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.26||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox||Oral semaglutide 14 mg / Placebo|Time to initiation of rescue medication was analysed using a Cox proportional hazards model with treatment, strata, and region as categorical fixed effects and baseline HbA1c as covariate. Censoring time was one day before last day on trial product.||0.26|0.09|<0.0001
82472130|NCT02362282|164638830|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||||||0.54
82472131|NCT02284243|164638836|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANCOVA|||||||0.0180
82472132|NCT02284243|164638837|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to SPID 0-6, SPID 0-12, and SPID 0-24|ANCOVA|||||||<0.05
82472133|NCT02284243|164638838|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to perceptible and meaningful pain relief|Log Rank|||||||<0.05
82472134|NCT02284243|164638839|SUPERIORITY_OR_OTHER||||||<|0.05||||||Applies to ≥30% and ≥50% reduction in pain|Cochran-Mantel-Haenszel|Test for general association stratified by site||||||<0.05
82472135|NCT02284243|164638841|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Log Rank|||||||0.0009
82472136|NCT02284243|164638842|SUPERIORITY_OR_OTHER|||||||0.7718|||||||Cochran-Mantel-Haenszel|||||||0.7718
82579787|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|5.95||||0.0002|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0002
82586001|NCT00710021|164883909|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82472137|NCT00638014|164638869|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||||||0.41
82586002|NCT00710021|164883910|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82472138|NCT01869764|164638885|OTHER|||||||0.93|||||||ANOVA|||||||0.93
82472139|NCT01869764|164638886|OTHER|||||||0.29|||||||ANOVA|||||||0.29
82472140|NCT00357903|164638929|SUPERIORITY_OR_OTHER||Standardized incidence rate|0.0||||||95.0|0.0|53.87||||||||53.87|0.00|
82472141|NCT00357903|164638929|SUPERIORITY_OR_OTHER||Standardized incidence rate|1.3||||||95.0|0.97|1.71||||||||1.71|0.97|
82472142|NCT01600170|164638931|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.39
82472143|NCT01600170|164638932|SUPERIORITY||||||<|0.45||||||Threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||<0.45
82472144|NCT01600170|164638933|SUPERIORITY|||||||0.8||||||The threshold for statistical significance was p = 0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.80
82472145|NCT01600170|164638934|SUPERIORITY|||||||0.04||||||The threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.04
82472146|NCT01600170|164638935|SUPERIORITY|||||||0.15||||||The threshold of statistical significance was p=0.01|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Primary outcomes were pre-specified to use p\<0.01 for statistical significance. All other analyses used p\<0.05 after adjustment for multiple comparisons.||||0.15
82472147|NCT01600170|164638936|SUPERIORITY|||||||0.63||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.63
82472148|NCT01600170|164638937|SUPERIORITY|||||||0.035||||||Threshold for statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.035
82472149|NCT01600170|164638938|SUPERIORITY|||||||0.62||||||The threshold of statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.62
82472150|NCT01600170|164638939|SUPERIORITY|||||||0.99||||||The threshold of statistical significance was p = 0.05|Mixed Models Analysis|||Analysis focused on a comparison of change in response over 12 wks for each treatment under a 2x2 crossover design. Mixed effects model was used to estimate within subject treatment differences, trends over time \& at each wk(0,2,6,12). Log-transformations were applied to meet normality assumption \& models adjusted for period \& sequence effects. Secondary outcome analyses used p\<0.05 for statistical significance after adjustment for multiple comparisons.||||0.99
82472151|NCT04717336|164638948|SUPERIORITY||Mean of Paired Differences|0.002||||0.98|TWO_SIDED|95.0|-0.22|0.23|||Paired T-Test|A paired t-test was applied across both periods because this is a cross-over study where each participant serves at their own control.||The aim of this analysis is to test whether there is a statistically significant difference in Pulse Wave Velocity when participants are on sodium chloride vs. placebo, regardless of period.||0.23|-0.22|0.98
82472152|NCT02039843|164638953|SUPERIORITY|||||||0.052||||||Two-sided a priori alpha level was 0.05.|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in WHO-DAS score adjusted for gender, site, baseline score, time \& timeXgroup interaction||||||0.052
82472153|NCT02039843|164638954|SUPERIORITY|||||||0.421||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PCS score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.421
82472154|NCT02039843|164638955|SUPERIORITY|||||||0.606||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in MCS score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.606
82547724|NCT05568004|164795289|SUPERIORITY|||||||0.074||||||A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.074
82547725|NCT05568004|164795289|SUPERIORITY|A p-value of \< 0.05 was considered statistically significant for all analyses.Two-tailed testing was used in nature of hypothesis testing.||||||0.074|||||||ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.074
82547726|NCT05568004|164795289|SUPERIORITY|||||||0.311||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p value for change over time within the group, Friedman 2-way ANOVA test was applied.||||||0.311
82579788|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D2m at 500 lux is reported."|Slope|6.92||||0.0285|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0285
82472155|NCT02039843|164638956|SUPERIORITY|||||||0.21||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PSQI score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.210
82472156|NCT02039843|164638957|SUPERIORITY|||||||0.036||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PCL-5 score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.036
82472157|NCT02039843|164638958|SUPERIORITY|||||||0.079||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in PHQ-9 score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.079
82472158|NCT02039843|164638959|SUPERIORITY|||||||0.155||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Linear mixed repeated measures analysis on group difference in DAR score adjusted for gender, site, baseline score, time, and timeXgroup||||||0.155
82472159|NCT02039843|164638960|SUPERIORITY|||||||0.157||||||2-sided a priori alpha level was 0.05|Mixed Models Analysis|Generalized linear mixed repeated measures analysis on group difference in SBI adjusted for gender, site, baseline SBI, time, and timeXgroup||||||0.157
82472160|NCT02039843|164638961|SUPERIORITY|||||||0.43||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.430
82472161|NCT02039843|164638962|SUPERIORITY|||||||0.358||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.358
82472162|NCT02039843|164638963|SUPERIORITY|||||||0.39||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.39
82472163|NCT02039843|164638973|SUPERIORITY|||||||0.383||||||p-value from random effects regression controlling for month and baseline outcome|Regression, Linear|||||||0.383
82472164|NCT02039843|164638974|SUPERIORITY|||||||0.932|||||||Regression, Linear|||||||0.932
82472165|NCT01958164|164638976|SUPERIORITY_OR_OTHER||Mean Difference (Net)|73.3|||||TWO_SIDED|95.0|23.3|89.3|||||Difference calculated as actilyse minus saline solution|||89.3|23.3|
82547727|NCT05568004|164795290|SUPERIORITY|||||||0.018||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.018
82547728|NCT05568004|164795290|SUPERIORITY|||||||0.152||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.152
82547729|NCT05568004|164795290|SUPERIORITY|||||||0.438||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.438
82547730|NCT05568004|164795291|SUPERIORITY|||||||0.135||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.135
82547731|NCT05568004|164795291|SUPERIORITY|||||||0.203||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.203
82547732|NCT05568004|164795291|SUPERIORITY|||||||0.593||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied||||||0.593
82547733|NCT05568004|164795292|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.001
82547734|NCT05568004|164795292|SUPERIORITY|||||||0.021||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.021
82547735|NCT05568004|164795292|SUPERIORITY|||||||0.081||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.081
82579789|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 500 lux is reported."|Slope|6.99|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82586003|NCT00710021|164883911|SUPERIORITY_OR_OTHER|||||||1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Fisher Exact|||||||1.0
82586004|NCT00710021|164883912|SUPERIORITY_OR_OTHER|||||||0.1||||||The p-value compares the Placebo with the pooled Vitamin D treatment group.|Cochran-Mantel-Haenszel|Note that none of the Grade 3 or above events were considered by the investigators to be related to study treatment.||||||0.10
82586005|NCT04677179|164883918|SUPERIORITY||Odds Ratio (OR)|0.57||||0.75|TWO_SIDED|95.0|0.03|11.32|||Cochran-Mantel-Haenszel|||||11.32|0.03|0.750
82586006|NCT04677179|164883918|SUPERIORITY||Odds Ratio (OR)|0.8||||0.838|TWO_SIDED|95.0|0.1|6.21|||Cochran-Mantel-Haenszel|||||6.21|0.10|0.838
82472166|NCT01958164|164638977|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.7|||||TWO_SIDED|95.0|20.7|90.3|||||Difference calculated as actilyse minus saline solution|||90.3|20.7|
82472167|NCT04546672|164638981|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.58|TWO_SIDED|95.0|-31.1|55.4|||t-test, 2 sided|||||55.4|-31.1|0.58
82547736|NCT05568004|164795293|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||<0.001
82547737|NCT05568004|164795293|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||<0.001
82547738|NCT05568004|164795293|SUPERIORITY|||||||0.747||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.747
82547739|NCT05568004|164795294|SUPERIORITY|||||||0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|\*p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||Statistical Package for Social Sciences (SPSS) 26.0 package program was used to analyze the data. The suitability of normal distribution of the data was evaluated with Shapiro Wilk and histograms. Numerical data complying with normal distribution are presented as mean±standard deviation (SD). . Friedman 2-way ANOVA was used to analyze dependent variables. Two-way mixed ANOVA test was used to examine the changes between groups over time||||0.001
82547740|NCT05568004|164795294|SUPERIORITY||||||<|0.001||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||<0.001
82472168|NCT04546672|164638982|SUPERIORITY||Mean Difference (Final Values)|12.3|||<|0.001|TWO_SIDED|95.0|9.2|15.4|||t-test, 2 sided|||||15.4|9.2|<0.001
82472169|NCT04546672|164638983|SUPERIORITY||Odds Ratio (OR)|2.3||||0.087|TWO_SIDED|95.0|0.9|6.2|||Fisher Exact|||||6.2|0.9|0.087
82472170|NCT04546672|164638984|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.48|TWO_SIDED|95.0|-26.4|12.6|||t-test, 2 sided|||||12.6|-26.4|0.48
82472171|NCT04546672|164638985|SUPERIORITY||Mean Difference (Final Values)|16.7||||0.02|TWO_SIDED|95.0|2.3|31.1|||t-test, 2 sided|||||31.1|2.3|0.02
82472172|NCT04546672|164638986|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.27|TWO_SIDED|95.0|-2.2|8.3|||t-test, 2 sided|||||8.3|-2.2|0.27
82472173|NCT01724346|164638989|SUPERIORITY||Hazard Ratio (HR)|0.155|||<|0.0001|TWO_SIDED|95.0|0.11|0.22||P-value is from stratified log-rank test.|Log Rank|||||0.220|0.110|< 0.0001
82472174|NCT01724346|164638992|SUPERIORITY||Hazard Ratio (HR)|0.087|||<|0.0001|TWO_SIDED|95.0|0.054|0.141||P value is from stratified log-rank test.|Log Rank|||||0.141|0.054|< 0.0001
82547741|NCT05568004|164795294|SUPERIORITY|||||||0.05||||||A p-value of \< 0.05 was considered statistically significant for all analyses.|ANOVA|p-value for changes over time within the group; Friedman's two-way ANOVA test was applied.||||||0.05
82547742|NCT03144518|164795343|SUPERIORITY||Partial Eta Squared|0.079||||0.005|TWO_SIDED|90.0|0.014|0.173||ANCOVA, controlling for pre-intervention levels|ANCOVA|ANCOVA, controlling for pre-intervention levels||VAS-Valence Scores||.173|.014|.005
82586007|NCT04677179|164883919|SUPERIORITY||Odds Ratio (OR)|0.57||||0.563|TWO_SIDED|95.0|0.1|3.3|||Cochran-Mantel-Haenszel|||||3.30|0.10|0.563
82586008|NCT04677179|164883919|SUPERIORITY||Odds Ratio (OR)|0.78||||0.759|TWO_SIDED|95.0|0.17|3.64|||Cochran-Mantel-Haenszel|||||3.64|0.17|0.759
82472175|NCT01724346|164638993|SUPERIORITY||Rate ratio|2.496|||<|0.0001|TWO_SIDED|95.0|1.99|3.131||Rate ratio and p-value are based on Cochran-Mantel-Haenszel chi-square test stratified by Eastern Cooperative Oncology Group (ECOG; 0-1 vs 2) and Rai stage (0/I/II vs III/IV) at baseline.|Cochran-Mantel-Haenszel|||||3.131|1.990|< 0.0001
82472176|NCT00525161|164639001|SUPERIORITY_OR_OTHER||Clinical Response Rate at 3 months|0.0|||||TWO_SIDED||||||||Defined as complete response/partial response after 3 months of adding sorafenib to endocrine therapy|Based on known historical response rate to sorafenib of no better than 5-10%, the study was designed to test the null hypothesis that the clinical response rate is no better than 10% versus the alternative hypothesis that it is at least 25% when sorafenib is added to endocrine therapy. In the first stage, 18 patients were planned for enrollment, and if two or fewer responses were observed, the trial would be terminated. The study stopped after 11 due to slow accrual and withdrawal of funding.||||
82472177|NCT00525161|164639002|SUPERIORITY_OR_OTHER||Median Progression Free Survival|6.1|||||TWO_SIDED|95.0|2.6|11.3||||||||11.3|2.6|
82472178|NCT03848728|164639005|SUPERIORITY||Risk Ratio (RR)|1.1||||0.0019|TWO_SIDED|95.0|1.03|1.16|||TMLE|||||1.16|1.03|0.0019
82472179|NCT02819011|164639075|SUPERIORITY|||||||0.04||||||priori threshold for statistical significance= 0.05|Mixed Models Analysis|||Repeated measures to compare changes in two groups from baseline to 6 months||||0.040
82472180|NCT02819011|164639076|SUPERIORITY|||||||0.005||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes in both groups from baseline to 6 months||||0.005
82472181|NCT02819011|164639077|SUPERIORITY|||||||0.019||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes in both groups from baseline to 6 months||||0.019
82472182|NCT02819011|164639079|SUPERIORITY|||||||0.572||||||priori threshold for statistical significance = 0.05|Generalized Estimating Equations|||Repeated measures to compare the changes of both groups from pre-intervention to post-intervention year.||||0.572
82472183|NCT02819011|164639080|SUPERIORITY|||||||0.65||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.650
82472184|NCT02819011|164639081|SUPERIORITY|||||||0.756||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.756
82472185|NCT02819011|164639084|SUPERIORITY|||||||0.769||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.769
82472186|NCT02819011|164639085|SUPERIORITY|||||||0.857||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.857
82472187|NCT02819011|164639086|SUPERIORITY|||||||0.829||||||a priori threshold for statistical significance = 0.05|Mixed Models Analysis|||Repeated measures to compare the changes between groups from baseline to 6 months||||0.829
82472188|NCT02223702|164639108|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Friedman Test|All rows were compared to eachother||||||<0.01
82472189|NCT02223702|164639109|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANOVA|All rows were compared to eachother||||||<0.01
82472190|NCT02873702|164639112|NON_INFERIORITY|Non-inferiority to lansoprazole if the lower bound of confidence interval (CI) for the treatment difference is greater than -10%.|Difference in Percentage|-2.65|||||TWO_SIDED|95.0|-26.59|21.3||||||Healing Period: Dexlansoprazole 60 mg versus Healing Period: Lansoprazole 30 mg||21.30|-26.59|
82472191|NCT03249116|164639114|SUPERIORITY||F statistic|0.33||||0.723|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: self-reported anxiety between-subjects factors: condition, social anxiety within-subjects factor: time||||||.723
82472192|NCT03249116|164639115|SUPERIORITY||F statistic|1.34||||0.271|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: electrodermal activity between-subjects factors: condition, social anxiety within-subjects factor: time||||||.271
82547743|NCT03144518|164795343|SUPERIORITY||Partial Eta-Squared|0.04||||0.047|TWO_SIDED|90.0|0.0|0.12|||ANCOVA|Controlling for pre-intervention scores||VAS-Arousal Scores||.120|.000|.047
82547744|NCT03144518|164795343|SUPERIORITY||Partial Eta Squared|0.096||||0.002|TWO_SIDED|90.0|0.022|0.196|||ANCOVA|Controlling for pre-intervention levels||Pictorial Scale||.196|.022|.002
82547745|NCT03144518|164795343|SUPERIORITY||Partial Eta Squared|0.002||||0.697|TWO_SIDED|90.0|0.0|0.036|||ANCOVA|Controlling for baseline levels||PANAS Positive Affect Scores||.036|.000|.697
82547746|NCT03144518|164795343|SUPERIORITY||Partial Eta Squared|0.005||||0.462|TWO_SIDED|90.0|0.0|0.053|||ANCOVA|||PANAS Negative Affect Scores||.053|.000|.462
82586009|NCT04677179|164883920|SUPERIORITY||Odds Ratio (OR)|0.18||||0.163|TWO_SIDED|95.0|0.02|1.93|||Cochran-Mantel-Haenszel|||||1.93|0.02|0.163
82472193|NCT03249116|164639116|SUPERIORITY||F statistic|0.45||||0.638|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: heart rate between-subjects factors: condition, social anxiety within-subjects factor: time||||||.638
82472194|NCT03249116|164639117|SUPERIORITY||F statistic|0.14||||0.868|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: number of errors between-subjects factors: condition, social anxiety||||||.868
82472195|NCT03249116|164639118|SUPERIORITY||F statistic|0.21||||0.809|TWO_SIDED|||||The threshold for statistical significance was p\<.05|ANOVA|dependent variable: lowest number reached/highest number of correct responses between-subjects factors: condition, social anxiety||||||.809
82472196|NCT00221117|164639125|OTHER|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||.015
82472197|NCT00221117|164639126|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Regression, Linear|||The subject's impairment and demographic characteristics were analyzed using descriptive statistics for parametric and nonparametric data. The baseline outcome data of the intervention and control groups were compared using Fisher exact test (for categorical variables) and Mann-Whitney U test (for continuous variables). Comparisons between the intervention and control groups were carried out using linear regression analysis adjusted for the baseline degree of disability (baseline AIS).||||0.05
82472198|NCT01255436|164639136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.06|TWO_SIDED|95.0|-9.4|1.0||p-value\<0.05 is considered significant|t-test, 1 sided|||||1.0|-9.4|0.06
82472199|NCT01255436|164639137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.14|TWO_SIDED|95.0|-4.1|1.3||p-value \< 0.05 considered significant|t-test, 1 sided|||||1.3|-4.1|0.14
82472200|NCT01255436|164639138|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.045|TWO_SIDED|95.0|1.0|1.6|||Fisher Exact||Numerator is Treatment Group (SMS reminders) and Denominator is Control Group (No SMS reminders)|||1.6|1.0|0.045
82579790|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|6.8|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82586010|NCT04677179|164883920|SUPERIORITY||Odds Ratio (OR)|0.54||||0.439|TWO_SIDED|95.0|0.11|2.77|||Cochran-Mantel-Haenszel|||||2.77|0.11|0.439
82586011|NCT04677179|164883921|SUPERIORITY||Odds Ratio (OR)|1.29||||0.821|TWO_SIDED|95.0|0.17|9.88|||Cochran-Mantel-Haenszel|||||9.88|0.17|0.821
82472201|NCT01255436|164639139|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.014|TWO_SIDED|95.0|1.04|1.53|||Fisher Exact|||||1.53|1.04|0.014
82472202|NCT04816669|164639140|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR is greater than 0.67.|Geometric mean ratio|0.68|||||TWO_SIDED|95.0|0.6|0.77|||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the concentrations BNT162b2 lyophilized SDV - BNT162b2 frozen-liquid MDV and the corresponding CI (based on the Student t distribution).|||0.77|0.60|
82472203|NCT04816669|164639148|NON_INFERIORITY|Noninferiority was declared if the lower bound of the 2-sided 95% CI for the GMR is greater than 0.67|Geometric mean ratio|1.14|||||TWO_SIDED|95.0|0.77|1.68|||||GMRs and 2-sided 95% CIs were calculated by exponentiating the mean difference of the logarithms of the concentrations BNT162b2 frozen-liquid LNP - BNT162b2 frozen-liquid RTU and the corresponding CI (based on the Student t distribution).|||1.68|0.77|
82472204|NCT01229267|164639156|SUPERIORITY||Vaccine Efficacy|0.638|||||TWO_SIDED|95.0|0.484|0.746|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% confidence interval (CI) is \>0.25.||0.746|0.484|
82472205|NCT01229267|164639157|OTHER||Vaccine Efficacy|0.695|||||TWO_SIDED|95.0|0.49|0.818|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.818|0.490|
82472206|NCT01229267|164639158|OTHER||Vaccine Efficacy|0.735|||||TWO_SIDED|95.0|0.498|0.86|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.860|0.498|
82472207|NCT01229267|164639159|OTHER||Vaccine Efficacy|0.837|||||TWO_SIDED|95.0|0.446|0.952|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age), and intended duration of antiviral prophylaxis (≤3 versus 3 to 6 months after auto-HCT).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 consistency lot group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI is \>0.25.||0.952|0.446|
82472208|NCT01229267|164639160|OTHER||Risk Difference (RD)|0.2||||0.942|TWO_SIDED|95.0|-5.1|5.5|||Normal approximation||Miettinen \& Nurminen|||5.5|-5.1|0.942
82472209|NCT00826462|164639183|OTHER||||||<|0.01|||||||linear generalized estimating equations||||A linear GEE regression model adjusted for the significant covariates at p \< 0.05 from the univariate GEE logistic regression models calculated for success|||<0.01
82472210|NCT00826462|164639183|OTHER||||||<|0.01|||||||linear generalized estimating equations|||||||<0.01
82472211|NCT00826462|164639187|OTHER||||||||||||||||||linear generalized estimating equations (GEE) regression model adjusted for significant covariates; between groups estimated odds ratio (OR) for no pain on two isometric movements using logistic GEE regression model adjusted for significant covariates; 99 % confidence intervals|||
82472212|NCT04050202|164639199|OTHER||Mean Difference (Net)|8.45|||<|0.01|TWO_SIDED||||||t-test, 2 sided||The post-intervention score is subtracted from the baseline score.|||||<0.01
82472213|NCT04050202|164639200|OTHER||Mean Difference (Net)|13.97|||<|0.01|TWO_SIDED||||||t-test, 2 sided||The post-intervention score is subtracted from the baseline score|||||<0.01
82472214|NCT01499277|164639207|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measures (clinical cure rates) between ceftaroline group and vancomycin plus aztreonam group were calculated in both MITT and CE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in both MITT and CE Populations.|Risk Difference (RD)|-0.95|||||TWO_SIDED|95.0|-6.9|5.41||||RD is the difference in clinical cure rates (Ceftaroline minus Vancomycin/Aztreonam). CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared vancomycin plus azreonam group at TOC in both MITT and CE populations.||5.41|-6.9|
82472215|NCT01499277|164639208|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measures (clinical cure rates) between ceftaroline group and vancomycin plus aztreonam group were calculated in both MITT and CE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in both MITT and CE Populations. If non-inferioirity was achieved then a test of superioirty was conducted if lower limit of 95% CI for the difference was \>0%.|Risk Difference (RD)|1.27|||||TWO_SIDED|95.0|-4.32|7.48||||RD is the difference in clinical cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared vancomycin plus azreonam group at TOC in both MITT and CE populations.||7.48|-4.32|
82472216|NCT01499277|164639209|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.71|||||TWO_SIDED|95.0|-6.21|10.39||||RD is the difference in favorable rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||10.39|-6.21|
82472217|NCT01499277|164639210|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.77|||||TWO_SIDED|95.0|-2.11|12.86||||RD is the difference in favorable rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||12.86|-2.11|
82472218|NCT01499277|164639211|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.25|||||TWO_SIDED|95.0|-4.05|7.06||||RD is the difference in cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||7.06|-4.05|
82472219|NCT01499277|164639212|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.92|||||TWO_SIDED|95.0|-2.19|8.73||||RD is the difference in cure rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||8.73|-2.19|
82472220|NCT01499277|164639213|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.79|||||TWO_SIDED|95.0|-3.98|1.18||||RD is the difference in relapse rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||1.18|-3.98|
82472221|NCT01499277|164639214|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.86|||||TWO_SIDED|95.0|-6.34|3.15||||RD is the difference in success rates (Ceftaroline minus Vancomycin/Aztreonam).CI was calculated by unstratified Miettinen and Nurminen CI.|CI for risk difference was estimated by 95% using unstratified Miettinen and Nurminen CI.|||3.15|-6.34|
82472222|NCT02974543|164639224|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82472223|NCT02974543|164639225|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82472224|NCT00220636|164639233|SUPERIORITY_OR_OTHER||t statistic|4.7|||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the HDRS score pre- to post- treatment with aripiprazole.||||<.001
82472225|NCT00220636|164639235|SUPERIORITY_OR_OTHER||t statistic|-3.1||||0.009|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the GAFS score pre- to post- treatment with aripiprazole.||||.009
82472226|NCT00220636|164639236|SUPERIORITY_OR_OTHER||t statistic|3.1||||0.008|TWO_SIDED|95.0|||||t-test, 2 sided|df=13||Null hypothesis would be no change in the BDI score pre- to post- treatment with aripiprazole.||||.008
82472227|NCT00539942|164639237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||<|0.05|||||||Chi-squared|||Unable to analyze data||||<.05
82472228|NCT00880919|164639255|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANOVA|||Mean changes were calculated using each groups linear and quadratic effects||||.015
82472229|NCT02015637|164639267|NON_INFERIORITY|Two-sided 95% confidence intervals (CIs) using the Wald test was constructed for comparisons between delafloxacin and ceftriaxone. A hierarchical approach was implemented for the primary and secondary analyses to control for the overall type 1 error rate of 0.05 due to multiple comparisons.|Difference in cure rate|-5.9|||||TWO_SIDED|95.0|-13.18|1.36||||||||1.36|-13.18|
82472230|NCT02015637|164639268|NON_INFERIORITY|Two-sided 95% confidence intervals (CIs) using the Wald test was constructed for comparisons between delafloxacin and ceftriaxone. A hierarchical approach was implemented for the primary and secondary analyses to control for the overall type 1 error rate of 0.05 due to multiple comparisons.|Difference in cure rates|-9.9|||||TWO_SIDED|95.0|-16.03|-3.87||||||||-3.87|-16.03|
82547747|NCT03144518|164795346|SUPERIORITY||Partial Eta Squared|0.001||||0.806|TWO_SIDED|90.0|0.0|0.031|||ANCOVA|Controlling for pre-intervention levels||||.031|.000|.806
82547748|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.006||||0.438|TWO_SIDED|90.0|0.0|0.055|||ANCOVA|Controlling for Pre-Vaccination levels||4 Weeks A/Hong-Kong||.055|.000|.438
82547749|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.004||||0.516|TWO_SIDED|90.0|0.0|0.051|||ANCOVA|controlling for pre-vaccination levels||A/Hong-Kong 16 Weeks Post-Vaccination||.051|.000|.516
82547750|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.002||||0.671|TWO_SIDED|90.0|0.0|0.038|||ANCOVA|controlling for pre-vaccination levels||A/Michigan 4 weeks post-vaccination||.038|.000|.671
82472231|NCT03198507|164639271|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0||||Statistical testing was 2 sided and performed using a significance (alpha) level of 0.05.|t-test, 2 sided|||||||0.0001
82472232|NCT03198507|164639274|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82472233|NCT02304367|164639292|OTHER|||||||0.0428|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in osteoid thickness is zero was tested using a t-test.||||0.0428
82472234|NCT02304367|164639293|OTHER|||||||0.977|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in OS/BS is zero was tested using a t-test.||||0.9770
82472235|NCT02304367|164639294|OTHER|||||||0.0858|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in OV/BV is zero was tested using a t-test.||||0.0858
82472236|NCT02304367|164639295|OTHER|||||||0.4077|||||||t-test|||The null hypothesis that the mean change from Baseline to Week 48 in Mlt is zero was tested using a t-test.||||0.4077
82472237|NCT02304367|164639302|OTHER|||||||0.016|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 24||||0.016
82472238|NCT02304367|164639302|OTHER|||||||0.03|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 48||||0.030
82472239|NCT02304367|164639302|OTHER|||||||0.259|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 96||||0.259
82472240|NCT02304367|164639302|OTHER|||||||0.346|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 144||||0.346
82586012|NCT04677179|164883921|SUPERIORITY||Odds Ratio (OR)|1.43||||0.572|TWO_SIDED|95.0|0.37|5.49|||Cochran-Mantel-Haenszel|||||5.49|0.37|0.572
82472241|NCT02304367|164639302|OTHER|||||||0.213|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 168||||0.213
82472242|NCT02304367|164639302|OTHER|||||||0.873|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 192||||0.873
82472243|NCT02304367|164639302|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 216||||0.001
82472244|NCT02304367|164639302|OTHER|||||||0.04|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 1,25(OH)2D.||Week 240||||0.040
82472245|NCT02304367|164639303|OTHER||||||<|0.0001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 24||||<0.0001
82472246|NCT02304367|164639303|OTHER||||||<|0.0001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 48||||<0.0001
82472247|NCT02304367|164639303|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 96||||0.001
82472248|NCT02304367|164639303|OTHER|||||||0.007|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 144||||0.007
82472249|NCT02304367|164639303|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 168||||0.005
82472250|NCT02304367|164639303|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 192||||0.004
82472251|NCT02304367|164639303|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 216||||0.002
82472252|NCT02304367|164639303|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline total FGF23.||Week 240||||0.006
82472253|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 24||||< 0.001
82472254|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 48||||< 0.001
82472255|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 96||||<0.001
82472256|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 144||||< 0.001
82472257|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 168||||< 0.001
82547751|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.0||||0.98|TWO_SIDED|90.0|0.0|0.0|||ANCOVA|Controlling for pre-vaccination levels||A/Michigan 16 weeks post-vaccination||.000|.000|.980
82586013|NCT04677179|164883922|SUPERIORITY||Odds Ratio (OR)|1.18||||0.886|TWO_SIDED|95.0|0.14|10.16|||Cochran-Mantel-Haenszel|||||10.16|0.14|0.886
82472258|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 192||||< 0.001
82472259|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 216||||< 0.001
82472260|NCT02304367|164639304|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline free FGF23.||Week 240||||< 0.001
82472261|NCT02304367|164639305|OTHER|||||||0.659|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 24||||0.659
82547752|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.007||||0.409|TWO_SIDED|90.0|0.0|0.057|||ANCOVA|Controlling for pre-vaccination levels||B/Brisbane 4 weeks post-vaccination||.057|.000|.409
82586014|NCT04677179|164883922|SUPERIORITY||Odds Ratio (OR)|0.78||||0.784|TWO_SIDED|95.0|0.14|4.18|||Cochran-Mantel-Haenszel|||||4.18|0.14|0.784
82472262|NCT02304367|164639305|OTHER|||||||0.752|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 48||||0.752
82472263|NCT02304367|164639305|OTHER|||||||0.594|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 96||||0.594
82472264|NCT02304367|164639305|OTHER|||||||0.614|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 144||||0.614
82472265|NCT02304367|164639305|OTHER|||||||0.542|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 168||||0.542
82472266|NCT02304367|164639305|OTHER|||||||0.067|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 192||||0.067
82472267|NCT02304367|164639305|OTHER|||||||0.33|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 216||||0.330
82472268|NCT02304367|164639305|SUPERIORITY|||||||0.161|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline 24-hour urinary phosphorus.||Week 240||||0.161
82472269|NCT02304367|164639306|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 24||||< 0.001
82472270|NCT02304367|164639306|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 48||||< 0.001
82547753|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.008||||0.377|TWO_SIDED|90.0|0.0|0.062|||ANCOVA|Controlling for pre-vaccination levels||B/Brisbane 16 weeks post-vaccination||.062|.000|.377
82472271|NCT02304367|164639306|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 96||||0.001
82472272|NCT02304367|164639306|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 144||||< 0.001
82472273|NCT02304367|164639306|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 168||||< 0.001
82472274|NCT02304367|164639306|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 192||||< 0.001
82472275|NCT02304367|164639306|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 216||||< 0.001
82472276|NCT02304367|164639306|SUPERIORITY||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TRP.||Week 240||||< 0.001
82472277|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 24||||< 0.001
82472278|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 48||||< 0.001
82586015|NCT04677179|164883923|SUPERIORITY||Odds Ratio (OR)|0.37||||0.331|TWO_SIDED|95.0|0.06|2.43|||Cochran-Mantel-Haenszel|||||2.43|0.06|0.331
82472279|NCT02304367|164639307|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 96||||0.002
82472280|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR||Week 144||||< 0.001
82472281|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 168||||< 0.001
82472282|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 192||||< 0.001
82472283|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 216||||< 0.001
82472284|NCT02304367|164639307|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline TmP/GFR.||Week 240||||< 0.001
82472285|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 24||||< 0.001
82472286|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 48||||< 0.001
82472287|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 96||||< 0.001
82472288|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 144||||< 0.001
82472289|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 168||||< 0.001
82472290|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 192||||< 0.001
82472291|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 216||||< 0.001
82472292|NCT02304367|164639308|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline FEP.||Week 240||||< 0.001
82547754|NCT03144518|164795347|SUPERIORITY||Partial Eta Squared|0.0||||0.892|TWO_SIDED|90.0|0.0|0.008|||ANCOVA|Controlling for pre-vaccination levels||B/Phuket 4 weeks post-vaccination||.008|.000|.892
82547755|NCT03144518|164795347|SUPERIORITY|Note: The study was not powered a priori to detect significant differences in these outcomes.|Partial Eta Squared|0.007||||0.426|TWO_SIDED|90.0|0.0|0.058|||ANCOVA|Controlling for pre-vaccination levels||||.058|.000|.426
82472293|NCT02304367|164639309|OTHER|||||||0.878|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 24||||0.878
82472294|NCT02304367|164639309|OTHER|||||||0.081|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 48||||0.081
82472295|NCT02304367|164639309|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 96||||0.001
82472296|NCT02304367|164639309|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 144||||< 0.001
82472297|NCT02304367|164639309|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 168||||< 0.001
82472298|NCT02304367|164639309|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 192||||< 0.001
82472299|NCT02304367|164639309|OTHER|||||||0.055|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 216||||0.055
82472300|NCT02304367|164639309|OTHER|||||||0.041|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline ALP.||Week 240||||0.041
82472301|NCT02304367|164639310|OTHER|||||||0.817|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 24||||0.817
82472302|NCT02304367|164639310|OTHER|||||||0.042|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 48||||0.042
82472303|NCT02304367|164639310|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 96||||< 0.001
82472304|NCT02304367|164639310|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 144||||< 0.001
82472305|NCT02304367|164639310|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 168||||< 0.001
82472306|NCT02304367|164639310|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 192||||< 0.001
82472307|NCT02304367|164639310|OTHER|||||||0.174|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 216||||0.174
82586016|NCT04677179|164883923|SUPERIORITY||Odds Ratio (OR)|0.51||||0.407|TWO_SIDED|95.0|0.1|2.52|||Cochran-Mantel-Haenszel|||||2.52|0.10|0.407
82472308|NCT02304367|164639310|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 240||||< 0.001
82472309|NCT02304367|164639311|OTHER|||||||0.694|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 24||||0.694
82472310|NCT02304367|164639311|OTHER|||||||0.047|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 48||||0.047
82472311|NCT02304367|164639311|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 96||||< 0.001
82586017|NCT04677179|164883924|SUPERIORITY||Risk Ratio (RR)|1.5||||0.564|TWO_SIDED|95.0|0.38|6.0|||Cochran-Mantel-Haenszel|||||6.00|0.38|0.564
82472312|NCT02304367|164639311|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 144||||< 0.001
82472313|NCT02304367|164639311|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 168||||< 0.001
82472314|NCT02304367|164639311|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 192||||< 0.001
82472315|NCT02304367|164639311|OTHER|||||||0.17|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 216||||0.170
82472316|NCT02304367|164639311|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline BALP.||Week 240||||< 0.001
82472317|NCT02304367|164639312|OTHER|||||||0.09|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 24||||0.090
82472318|NCT02304367|164639312|OTHER|||||||0.226|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 48||||0.226
82472319|NCT02304367|164639312|OTHER|||||||0.918|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 96||||0.918
82472320|NCT02304367|164639312|OTHER|||||||0.616|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 144||||0.616
82472321|NCT02304367|164639312|OTHER|||||||0.041|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 168||||0.041
82472322|NCT02304367|164639312|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 192||||0.002
82586018|NCT04677179|164883924|SUPERIORITY||Risk Ratio (RR)|1.51||||0.681|TWO_SIDED|95.0|0.21|10.97|||Cochran-Mantel-Haenszel|||||10.97|0.21|0.681
82586019|NCT04677179|164883925|SUPERIORITY||Risk Difference (RD)|3.6||||0.317|TWO_SIDED|95.0|-3.3|10.4|||Cochran-Mantel-Haenszel|||||10.4|-3.3|0.317
82472323|NCT02304367|164639312|OTHER|||||||0.137|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 216||||0.137
82472324|NCT02304367|164639312|OTHER|||||||0.368|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 240||||0.368
82472325|NCT02304367|164639313|OTHER|||||||0.018|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 24||||0.018
82586020|NCT04677179|164883925|SUPERIORITY||Risk Difference (RD)|6.9||||0.238|TWO_SIDED|95.0|-2.3|16.1|||Cochran-Mantel-Haenszel|||||16.1|-2.3|0.238
82472326|NCT02304367|164639313|OTHER|||||||0.133|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 48||||0.133
82472327|NCT02304367|164639313|OTHER|||||||0.321|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 96||||0.321
82472328|NCT02304367|164639313|OTHER|||||||0.218|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 144||||0.218
82472329|NCT02304367|164639313|OTHER|||||||0.788|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 168||||0.788
82472330|NCT02304367|164639313|OTHER|||||||0.156|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 192||||0.156
82472331|NCT02304367|164639313|OTHER|||||||0.155|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 216||||0.155
82472332|NCT02304367|164639313|OTHER|||||||0.58|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline CTx.||Week 240||||0.580
82472333|NCT02304367|164639314|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 24||||0.002
82472334|NCT02304367|164639314|OTHER|||||||0.273|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 48||||0.273
82472335|NCT02304367|164639314|OTHER|||||||0.469|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 96||||0.469
82472336|NCT02304367|164639314|OTHER|||||||0.828|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 144||||0.828
82472337|NCT02304367|164639314|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 168||||< 0.001
82472338|NCT02304367|164639314|OTHER|||||||0.141|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 192||||0.141
82472339|NCT02304367|164639314|OTHER|||||||0.606|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 216||||0.606
82472340|NCT02304367|164639314|OTHER|||||||0.907|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 240||||0.907
82472341|NCT02304367|164639315|OTHER|||||||0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 24||||0.001
82472342|NCT02304367|164639315|OTHER|||||||0.149|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 48||||0.149
82472343|NCT02304367|164639315|OTHER|||||||0.372|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 96||||0.372
82472344|NCT02304367|164639315|OTHER|||||||0.116|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 144||||0.116
82472345|NCT02304367|164639315|OTHER|||||||0.013|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 168||||0.013
82547756|NCT01989455|164795355|SUPERIORITY_OR_OTHER||Percent ratio|73.19|||||TWO_SIDED|90.0|68.83|77.56||||||||77.56|68.83|
82547757|NCT00999167|164795358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0354|TWO_SIDED|95.0|||||Poisson regression adjusting for country|||||||0.0354
82547758|NCT00999167|164795359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0214||95.0|||||Cochran-Mantel-Haenszel|||||||0.0214
82547759|NCT00999167|164795360|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.56||||0.047||95.0|||||Regression, Cox|||||||0.047
82547760|NCT00999167|164795361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0713|TWO_SIDED|95.0|||||ANCOVA|||Changes in the Total Index Score from Baseline and Day 56.||||0.0713
82547761|NCT00999167|164795361|SUPERIORITY_OR_OTHER_LEGACY|||||||0.252|TWO_SIDED|95.0|||||ANCOVA|||Changes in the Total Index Score from Baseline and the Final Visit.||||0.2520
82547762|NCT00448669|164795362|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Regression, Cox|||Safety analyses were performed in the intention-to-treat cohort. Primary safety end points included the frequency of adverse clinical or laboratory events.||||0.003
82547763|NCT00448669|164795363|SUPERIORITY_OR_OTHER_LEGACY||Efficacy|62.2||||0.03|TWO_SIDED|95.0|21.5|83.4|||Regression, Cox|||The primary efficacy end point was the difference in the rates of HIV infection between participants assigned to receive TDF-FTC and those assigned to receive placebo. The primary hypothesis was that TDF-FTC, as compared with placebo, would reduce the rate of HIV infection by at least 65%, with a predefined lower boundary for the 95% confidence interval of 10%.||83.4|21.5|0.03
82547764|NCT00448669|164795364|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.16||||0.004|TWO_SIDED|95.0|1.05|1.28|||Regression, Logistic|In this univariate model with the analysis of number of condomless sex acts, our model estimates the odds of reporting no condomless sex acts.||"A logistic regression was used to estimate the odds of reporting zero condomless sex acts. The longitudinal dependent variable (number of condomless sex acts) was defined as:~Number of condomless vaginal sexual acts with both casual and main partners among those who reported having had at least one sexual partner in the previous 30 days."||1.28|1.05|0.004
82547765|NCT00448669|164795365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||Fisher Exact|||Fisher's Exact Test was performed to test for differences between the treatment groups in terms of adherence based on pill count.||||0.79
82547766|NCT02638337|164795417|SUPERIORITY||LS Mean Difference|-21.8|||<|0.0001|TWO_SIDED|95.0|-25.7|-18.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||For the percentage of parabasal cells a mixed-effects model for repeated measures (MMRM) approach was used, with repeated measurements of the change from baseline as the response variable; treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||-18.0|-25.7|<0.0001
82579791|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 500 lux is reported."|Slope|5.94||||0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0001
82547767|NCT02638337|164795418|SUPERIORITY||LS Mean Difference|7.2|||<|0.0001|TWO_SIDED|95.0|5.2|9.1|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||||9.1|5.2|<0.0001
82547768|NCT02638337|164795419|SUPERIORITY||LS Mean Difference|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.84|-0.59|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||||-0.59|-0.84|<0.0001
82547769|NCT02638337|164795420|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.62|3.06|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|For the MBS of vaginal dryness a generalized estimating equations (GEE) model was used to fit a marginal proportional odds model to the longitudinal ordered categorical data, with repeated measurements of the change from baseline as the response variable; treatment, week, treatment by week interaction, and study center as fixed effects; and baseline severity of dryness modeled as a covariate.||3.06|1.62|<0.0001
82547770|NCT02638337|164795422|SUPERIORITY||LS Mean Difference|-21.6|||<|0.0001|TWO_SIDED|95.0|-25.2|-18.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||-18.0|-25.2|<0.0001
82547771|NCT02638337|164795422|SUPERIORITY||LS Mean Difference|-21.8|||<|0.0001|TWO_SIDED|95.0|-25.4|-18.1|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||-18.1|-25.4|<0.0001
82547772|NCT02638337|164795423|SUPERIORITY||LS Mean Difference|5.8|||<|0.0001|TWO_SIDED|95.0|4.2|7.3|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||7.3|4.2|<0.0001
82547773|NCT02638337|164795423|SUPERIORITY||LS Mean Difference|7.2|||<|0.0001|TWO_SIDED|95.0|5.5|9.0|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||9.0|5.5|<0.0001
82547774|NCT02638337|164795424|SUPERIORITY||LS Mean Difference|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.69|-0.46|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 4||-0.46|-0.69|<0.0001
82579792|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 500 lux is reported."|Slope|5.85||||0.012|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.012
82579793|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NYmass at 500 lux is reported."|Slope|-9.62||||0.0174|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0174
82586021|NCT04677179|164883926|SUPERIORITY||LS Mean Difference|9.71|STANDARD_ERROR_OF_MEAN|10.935||0.378|TWO_SIDED|95.0|-12.17|31.6|||ANCOVA|||||31.60|-12.17|0.378
82547775|NCT02638337|164795424|SUPERIORITY||LS Mean Difference|-0.63|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.51|||Mixed-effects model repeated measures|MMRM model with treatment, week, treatment by week interaction, and study center as fixed effects; and baseline value modeled as a covariate.||Week 8||-0.51|-0.75|<0.0001
82547776|NCT02638337|164795425|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0005|TWO_SIDED|95.0|1.27|2.36|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.36|1.27|0.0005
82547777|NCT02638337|164795425|SUPERIORITY||Odds Ratio (OR)|2.01|||<|0.0001|TWO_SIDED|95.0|1.47|2.74|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.74|1.47|<0.0001
82547778|NCT02638337|164795426|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6263|TWO_SIDED|95.0|0.55|1.43|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||1.43|0.55|0.6263
82547779|NCT02638337|164795426|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7869|TWO_SIDED|95.0|0.66|1.75|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||1.75|0.66|0.7869
82547780|NCT02638337|164795426|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8894|TWO_SIDED|95.0|0.65|1.64|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||1.64|0.65|0.8894
82579794|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D1m at 500 lux is reported."|Slope|-9.15||||0.013|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.013
82547781|NCT02638337|164795427|SUPERIORITY||Odds Ratio (OR)|0.92||||0.8369|TWO_SIDED|95.0|0.4|2.1|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.10|0.40|0.8369
82547782|NCT02638337|164795427|SUPERIORITY||Odds Ratio (OR)|1.51||||0.397|TWO_SIDED|95.0|0.58|3.95|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||3.95|0.58|0.3970
82547783|NCT02638337|164795427|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5391|TWO_SIDED|95.0|0.54|3.26|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||3.26|0.54|0.5391
82547784|NCT02638337|164795428|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0095|TWO_SIDED|95.0|1.13|2.4|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||2.40|1.13|0.0095
82547785|NCT02638337|164795428|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0542|TWO_SIDED|95.0|0.99|2.11|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.11|0.99|0.0542
82547786|NCT02638337|164795428|SUPERIORITY||Odds Ratio (OR)|1.97||||0.0004|TWO_SIDED|95.0|1.35|2.88|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||2.88|1.35|0.0004
82547787|NCT02638337|164795429|SUPERIORITY||Odds Ratio (OR)|0.71||||0.4336|TWO_SIDED|95.0|0.3|1.67|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 4||1.67|0.30|0.4336
82586022|NCT04677179|164883926|SUPERIORITY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|10.406||0.928|TWO_SIDED|95.0|-21.78|19.88|||ANCOVA|||||19.88|-21.78|0.928
82472346|NCT02304367|164639315|OTHER|||||||0.962|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 192||||0.962
82472347|NCT02304367|164639315|OTHER|||||||0.664|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 216||||0.664
82472348|NCT02304367|164639315|OTHER|||||||0.79|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline P1NP.||Week 240||||0.790
82547788|NCT02638337|164795429|SUPERIORITY||Odds Ratio (OR)|0.88||||0.7672|TWO_SIDED|95.0|0.37|2.08|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 8||2.08|0.37|0.7672
82472349|NCT02304367|164639316|OTHER|||||||0.05|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 24||||0.050
82472350|NCT02304367|164639316|OTHER|||||||0.526|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 48||||0.526
82472351|NCT02304367|164639316|OTHER|||||||0.845|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 96||||0.845
82472352|NCT02304367|164639316|OTHER|||||||0.782|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 144||||0.782
82472353|NCT02304367|164639316|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 168||||0.020
82547789|NCT02638337|164795429|SUPERIORITY||Odds Ratio (OR)|0.86||||0.7101|TWO_SIDED|95.0|0.39|1.89|||Generalized estimating equations model|GEE model with treatment, week, treatment by week interaction, and study center as fixed effects and baseline severity of dryness as a covariate.|Odds ratio is the exponential of the mean of cumulative log odds ratio.|Week 12||1.89|0.39|0.7101
82547790|NCT02638337|164795430|SUPERIORITY||LS Mean Difference|13.98|||<|0.0001|TWO_SIDED|95.0|11.85|16.12|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||16.12|11.85|<0.0001
82547791|NCT02638337|164795430|SUPERIORITY||LS Mean Difference|14.73|||<|0.0001|TWO_SIDED|95.0|12.5|16.96|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||16.96|12.50|<0.0001
82547792|NCT02638337|164795430|SUPERIORITY||LS Mean Difference|14.91|||<|0.0001|TWO_SIDED|95.0|12.55|17.28|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||17.28|12.55|<0.0001
82547793|NCT02638337|164795431|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 4||||<0.0001
82547794|NCT02638337|164795431|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 8||||<0.0001
82472354|NCT02304367|164639316|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 192||||0.005
82472355|NCT02304367|164639316|OTHER|||||||0.136|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 216||||0.136
82472356|NCT02304367|164639316|OTHER|||||||0.101|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 240||||0.101
82472357|NCT02304367|164639317|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 24||||< 0.001
82472358|NCT02304367|164639317|OTHER|||||||0.238|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 48||||0.238
82472359|NCT02304367|164639317|OTHER|||||||0.286|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 96||||0.286
82547795|NCT02638337|164795431|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Week 12||||<0.0001
82547796|NCT02638337|164795432|SUPERIORITY||LS Mean Difference|2.5|||<|0.0001|TWO_SIDED|95.0|2.0|3.0|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||3.0|2.0|<0.0001
82547797|NCT02638337|164795432|SUPERIORITY||LS Mean Difference|2.9|||<|0.0001|TWO_SIDED|95.0|2.4|3.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||3.4|2.4|<0.0001
82579795|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 50 lux is reported."|Slope|-4.06|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82472360|NCT02304367|164639317|OTHER|||||||0.093|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 144||||0.093
82547798|NCT02638337|164795432|SUPERIORITY||LS Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|2.2|3.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||3.4|2.2|<0.0001
82472361|NCT02304367|164639317|OTHER|||||||0.89|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 168||||0.890
82472362|NCT02304367|164639317|OTHER|||||||0.059|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 192||||0.059
82472363|NCT02304367|164639317|SUPERIORITY|||||||0.623||||||Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.|GEE model|||Week 216||||0.623
82472364|NCT02304367|164639317|OTHER|||||||0.411|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline osteocalcin.||Week 240||||0.411
82472365|NCT02304367|164639318|OTHER|||||||0.8209|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.8209
82472366|NCT02304367|164639318|OTHER|||||||0.2851|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.2851
82472367|NCT02304367|164639318|OTHER|||||||0.6689|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.6689
82472368|NCT02304367|164639318|OTHER|||||||0.1612|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1612
82472369|NCT02304367|164639319|OTHER|||||||0.4093|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.4093
82472370|NCT02304367|164639319|OTHER|||||||0.572|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.5720
82472371|NCT02304367|164639319|OTHER|||||||0.3501|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.3501
82472372|NCT02304367|164639319|OTHER|||||||0.5172|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.5172
82472373|NCT02304367|164639320|OTHER|||||||0.0046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline STS measurement.||Week 24||||0.0046
82547799|NCT02638337|164795433|SUPERIORITY||LS Mean Difference|-0.8||||0.0002|TWO_SIDED|95.0|-1.3|-0.4|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||-0.4|-1.3|0.0002
82547800|NCT02638337|164795433|SUPERIORITY||LS Mean Difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||-0.6|-1.5|<0.0001
82547801|NCT02638337|164795433|SUPERIORITY||LS Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||-0.7|-1.6|<0.0001
82547802|NCT02638337|164795434|SUPERIORITY||LS Mean Difference|-1.0||||0.0118|TWO_SIDED|95.0|-1.8|-0.2|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.2|-1.8|0.0118
82547803|NCT02638337|164795435|SUPERIORITY||LS Mean Difference|0.02||||0.9748|TWO_SIDED|95.0|-1.17|1.2|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||1.20|-1.17|0.9748
82547804|NCT02638337|164795435|SUPERIORITY||LS Mean Difference|0.19||||0.7865|TWO_SIDED|95.0|-1.18|1.56|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||1.56|-1.18|0.7865
82547805|NCT02638337|164795435|SUPERIORITY||LS Mean Difference|1.59||||0.0392|TWO_SIDED|95.0|0.08|3.09|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||3.09|0.08|0.0392
82547806|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.16||||0.0752|TWO_SIDED|95.0|-0.02|0.34|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Desire||0.34|-0.02|0.0752
82547807|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.2||||0.1867|TWO_SIDED|95.0|-0.1|0.49|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Arousal||0.49|-0.10|0.1867
82547808|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.4||||0.0161|TWO_SIDED|95.0|0.07|0.73|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Lubrication||0.73|0.07|0.0161
82547809|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.16||||0.34|TWO_SIDED|95.0|-0.16|0.48|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Orgasm||0.48|-0.16|0.3400
82547810|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.16||||0.2195|TWO_SIDED|95.0|-0.1|0.41|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Satisfaction||0.41|-0.10|0.2195
82547811|NCT02638337|164795436|SUPERIORITY||LS Mean Difference|0.45||||0.0103|TWO_SIDED|95.0|0.11|0.8|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Pain||0.80|0.11|0.0103
82547812|NCT02638337|164795437|SUPERIORITY||LS Mean Difference|0.1||||0.723|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 4||0.6|-0.4|0.7230
82547813|NCT02638337|164795437|SUPERIORITY||LS Mean Difference|0.4||||0.1104|TWO_SIDED|95.0|-0.1|0.9|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 8||0.9|-0.1|0.1104
82547814|NCT02638337|164795437|SUPERIORITY||LS Mean Difference|0.3||||0.2448|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||Week 12||0.9|-0.2|0.2448
82547815|NCT02638337|164795438|SUPERIORITY||LS Mean Difference|-4388.3||||0.4263|TWO_SIDED|95.0|-15214.8|6438.3|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||6438.3|-15214.8|0.4263
82547816|NCT02638337|164795439|SUPERIORITY||LS Mean Difference|-0.049|||<|0.0001|TWO_SIDED|95.0|-0.071|-0.027|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.027|-0.071|<0.0001
82547817|NCT02638337|164795440|SUPERIORITY||LS Mean Difference|-0.14||||0.5159|TWO_SIDED|95.0|-0.58|0.29|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||0.29|-0.58|0.5159
82547818|NCT02638337|164795441|SUPERIORITY||LS Mean Difference|-0.75||||0.0227|TWO_SIDED|95.0|-1.39|-0.1|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.10|-1.39|0.0227
82376884|NCT03104400|164460613|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Least Squares (LS) Mean Difference|-0.28|||<|0.0001|TWO_SIDED|95.0|-0.35|-0.22|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.22|-0.35|<0.0001
82547819|NCT02638337|164795442|SUPERIORITY||LS Mean Difference|-0.22||||0.0003|TWO_SIDED|95.0|-0.34|-0.1|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.10|-0.34|0.0003
82547820|NCT02638337|164795443|SUPERIORITY||LS Mean Difference|-6.2|||<|0.0001|TWO_SIDED|95.0|-8.1|-4.3|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-4.3|-8.1|<0.0001
82547821|NCT02638337|164795444|SUPERIORITY||LS Mean Difference|-1.35||||0.0084|TWO_SIDED|95.0|-2.35|-0.35|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-0.35|-2.35|0.0084
82547822|NCT02638337|164795445|SUPERIORITY||LS Mean Difference|-2.06|||<|0.0001|TWO_SIDED|95.0|-2.92|-1.19|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-1.19|-2.92|<0.0001
82547823|NCT02638337|164795446|SUPERIORITY||LS Mean Difference|-5.26|||<|0.0001|TWO_SIDED|95.0|-7.64|-2.89|||ANCOVA|The ANCOVA model included treatment group as a fixed effect and baseline value as a covariate.||||-2.89|-7.64|<0.0001
82547824|NCT02638337|164795447|SUPERIORITY|||||||0.9575|||||||Welch's t-test|||||||0.9575
82547825|NCT02638337|164795448|SUPERIORITY|||||||0.8772|||||||Welch's t-test|||||||0.8772
82547826|NCT02638337|164795449|SUPERIORITY|||||||0.0007|||||||Wilcoxon rank-sum test|||||||0.0007
82547827|NCT00274469|164795456|NON_INFERIORITY|Study is powered basing on 20% deficiency in benefit rate for Fulvestrant compared to Anastrozole.|Odds Ratio (OR)|1.302||||0.386|TWO_SIDED|95.0|0.717|2.38||Null hypothesis: Fulvestrant has no difference with Anastrozole|Regression, Logistic||OR\>1 favours Fulvestrant|||2.380|0.717|0.386
82547828|NCT00274469|164795457|SUPERIORITY||Odds Ratio (OR)|1.021||||0.947|TWO_SIDED|95.0|0.556|1.874|||Regression, Logistic||OR\>1 favours Fulvestrant|||1.874|0.556|0.947
82547829|NCT00274469|164795458|SUPERIORITY||Hazard Ratio (HR)|0.6266||||0.0496|TWO_SIDED|95.0|0.3929|0.9991|||Log Rank||HR\<1 favours Fulvestrant|||0.9991|0.3929|0.0496
82547830|NCT00274469|164795459|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.05|TWO_SIDED|95.0|0.54|1.0|||Log Rank||HR\<1 favours Fulvestrant|||1.00|0.54|0.05
82547831|NCT00274469|164795459|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.04|TWO_SIDED|95.0|0.52|0.98|||Regression, Cox|Cox regression analysis of TTTF controlling for baseline covariates.|HR\<1 favours Fulvestrant|||0.98|0.52|0.04
82547832|NCT00274469|164795460|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.01|TWO_SIDED|95.0|0.47|0.92|||Log Rank||HR\<1 favours Fulvestrant|||0.92|0.47|0.01
82547833|NCT00274469|164795460|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.01|TWO_SIDED|95.0|0.46|0.9|||Regression, Cox|Cox regression analysis of TTP (investigator assessed) controlling for baseline covariates.|HR\<1 favours Fulvestrant|||0.90|0.46|0.01
82547834|NCT00274469|164795461|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.041|TWO_SIDED|95.0|0.5|0.98|||Log Rank|||||0.98|0.50|0.041
82547835|NCT00274469|164795461|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.126|TWO_SIDED|95.0|0.54|1.08|||Regression, Cox|Cox regression analysis of OS controlling for baseline covariates|HR\<1 favours Fulvestrant|||1.08|0.54|0.126
82547836|NCT04950127|164795468|SUPERIORITY||Mean Difference (Net)|-0.72||||0.001|TWO_SIDED|95.0|-1.15|-0.28|||Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Monthly Itch score (MIS), Visit\*Baseline MIS interaction, Baseline Concomitant Itch Medication.||-0.28|-1.15|0.001
82547837|NCT04950127|164795469|SUPERIORITY||Mean Difference (Net)|-0.71|||<|0.001|TWO_SIDED|95.0|-1.07|-0.34||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Week, Week\*Treatment Group interaction, Baseline Weekly Itch score (WIS), Visit\*Baseline WIS interaction, Baseline Concomitant Itch Medication.||-0.34|-1.07|<0.001
82547838|NCT04950127|164795470|SUPERIORITY||Mean Difference (Net)|-0.53||||0.024|TWO_SIDED|95.0|-0.98|-0.07||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Monthly sleep score (MSS), Visit\*Baseline MSS interaction, Baseline Concomitant Itch Medication.||-0.07|-0.98|0.024
82547839|NCT04950127|164795471|SUPERIORITY||Percentage difference|4.0||||0.539||95.0|-9.0|17.0||Adjusted for multiplicity as per Statistical Analysis Plan (SAP)|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and less than \[\<\]7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains Bile Acid Binding Resin \[BABR\], Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||17.0|-9.0|0.539
82547840|NCT04950127|164795472|SUPERIORITY||Percentage Difference|13.0||||0.043|TWO_SIDED|95.0|0.0|27.0||Adjusted for multiplicity; two-sided p-values \<0.05 were considered to be nominally significant as per SAP.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and \<7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains BABR, Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||27.0|0.0|0.043
82547841|NCT04950127|164795473|SUPERIORITY||Percentage Difference|12.0||||0.058|TWO_SIDED|95.0|0.0|24.0||Adjusted for multiplicity; two-sided p-values \<0.05 were considered to be nominally significant as per SAP.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) stratified analysis adjusted for baseline factors: Baseline Itch Severity (Moderate: \>=4 and \<7, Severe: \>=7); Concomitant cholestatic pruritus treatment regimen (Regimen contains BABR, Regimen does not contain BABR, No defined treatment). Multiple imputation of missing Monthly itch scores was done before deriving responder definitions. Imputed datasets were analyzed using the CMH method and combined.||24.0|-0.0|0.058
82547842|NCT04950127|164795474|SUPERIORITY|Cognitive|Mean Difference (Net)|0.76||||0.176|TWO_SIDED|95.0|-0.34|1.86||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.86|-0.34|0.176
82579796|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|0.99||||0.0068|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0068
82579797|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|1.12||||0.0485|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0485
82472374|NCT02304367|164639320|OTHER|||||||0.0012|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline STS measurement.||Week 48||||0.0012
82547843|NCT04950127|164795474|SUPERIORITY|Emotional|Mean Difference (Net)|0.27||||0.403|TWO_SIDED|95.0|-0.36|0.89||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||0.89|-0.36|0.403
82579798|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 50 lux is reported."|Slope|2.08||||0.0031|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0031
82472375|NCT02304367|164639321|OTHER|||||||0.6475|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.6475
82472376|NCT02304367|164639321|OTHER|||||||0.5319|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.5319
82547844|NCT04950127|164795474|SUPERIORITY|Fatigue|Mean Difference (Net)|1.59||||0.132|TWO_SIDED|95.0|-0.48|3.67||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||3.67|-0.48|0.132
82547845|NCT04950127|164795474|SUPERIORITY|Itch|Mean Difference (Net)|-0.58||||0.132|TWO_SIDED|95.0|-1.34|0.18||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||0.18|-1.34|0.132
82547846|NCT04950127|164795474|SUPERIORITY|Social|Mean Difference (Net)|-0.15||||0.836|TWO_SIDED|95.0|-1.57|1.27||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.27|-1.57|0.836
82547847|NCT04950127|164795474|SUPERIORITY|Symptoms|Mean Difference (Net)|0.45||||0.318|TWO_SIDED|95.0|-0.44|1.34||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PBC-40 domain scores, Visit\*Baseline PBC-40 domain scores interaction, Baseline Concomitant Itch Medication.||1.34|-0.44|0.318
82547848|NCT04950127|164795475|SUPERIORITY||Mean Difference (Net)|-0.37|||<|0.001|TWO_SIDED|95.0|-0.55|-0.2||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline PGI-S score, Visit\*Baseline PGI-S score interaction, Baseline Concomitant Itch Medication.||-0.20|-0.55|<0.001
82547849|NCT04950127|164795476|SUPERIORITY||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.76|-0.21||Not adjusted for multiplicity; two-sided p- values \<0.05 were considered to be nominally significant as per SAP.|Mixed Models Analysis|Mixed Model Repeated Measures Analysis||The mixed model repeated measures analysis includes Treatment Group, Visit, Visit\*Treatment Group interaction, Baseline Concomitant Itch Medication.||-0.21|-0.76|<0.001
82547850|NCT04970654|164795555|NON_INFERIORITY|Non-inferiority was considered confirmed if the lower bound of the 95% confidence interval was higher than the margin of -2.0 cm/year.|Treatment difference|0.6|||||TWO_SIDED|95.0|-0.2|1.3||||||Hypothetical strategy estimand. Height velocity at 52 weeks was analyzed using a mixed model for repeated measurements, with treatment, gender, age group, growth hormone (GH) peak group and gender by age group interaction term as factors and baseline height as a covariate, all nested within week as a factor.||1.3|-0.2|
82547851|NCT02794480|164795580|SUPERIORITY||||||<|0.001||||||ELLIPTA versus GSK MDI|Mainland-Gart test||||Mainland-Gart test is favorable over the McNemar test for matched pairs as the latter is only valid in case of no period effects.|||<0.001
82547852|NCT02794480|164795580|SUPERIORITY|||||||0.007||||||ELLIPTA versus AZ MDI|Mainland-Gart test||||Mainland-Gart test is favorable over the McNemar test for matched pairs as the latter is only valid in case of no period effects.|||0.007
82579799|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|1.18||||0.0036|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0036
82472377|NCT02304367|164639321|OTHER|||||||0.9206|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.9206
82547853|NCT02794480|164795585|SUPERIORITY||Odds Ratio (OR)|5.94|||<|0.001|TWO_SIDED|95.0|2.42||The upper limit is infinity.|Exact odds ratio calculated using exact conditional logistic regression adjusted for treatment and treatment period.|Conditional Logistic Regression||ELLIPTA versus GSK MDI||||2.42|<0.001
82547854|NCT02794480|164795585|SUPERIORITY||Odds Ratio (OR)|4.16||||0.011|TWO_SIDED|95.0|1.59||The upper limit is infinity.|Exact odds ratio calculated using exact conditional logistic regression adjusted for treatment and treatment period.|Conditional Logistic Regression||ELLIPTA versus AZ MDI||||1.59|0.011
82650796|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.34||||0.0665|TWO_SIDED|95.0|0.98|1.83|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.83|0.98|0.0665
82650797|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.025|TWO_SIDED|95.0|1.05|1.91|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.91|1.05|0.0250
82472378|NCT02304367|164639321|OTHER|||||||0.153|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1530
82472379|NCT02304367|164639322|OTHER|||||||0.2125|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.2125
82472380|NCT02304367|164639322|OTHER|||||||0.1241|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.1241
82472381|NCT02304367|164639323|OTHER|||||||0.41|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.410
82472382|NCT02304367|164639323|OTHER|||||||0.21|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.210
82547855|NCT00715884|164795594|NON_INFERIORITY_OR_EQUIVALENCE|The null inferiority hypothesis was that the upper limit of the 95% confidence interval is equal or greater than the non-inferiority margin 5%. The alternative non-inferiority hypothesis for this study assumed that the upper limit of the 95% confidence interval would be less than the non-inferiority margin 5%.|Difference between TLF rates|2.58|||||ONE_SIDED|95.0||5.55||In the CYPHER® ELITE™ arm the TLF rate was 5.36% (23/429) compared with 2.78% (6/216) in the CYPHER® Bx VELOCITY® arm, a difference in rates of 2.58%, upper limit of 95% two sided confidence interval of 5.55%.||||Sample sizes of 1,061 from the ELITE™ group and 531 from the CYPHER® group were planned to achieve 90 percent power at a 2.5 percent significance level using an one-sided equivalence test, assuming a 10 percent TLF rate in each group and the maximum allowable rate difference between the groups being 5 percent. The total sample size was increased to 1,770 patients to account for an approximately 90 percent compliance to clinical follow-up.||5.55||
82547856|NCT00715884|164795595|SUPERIORITY_OR_OTHER||Difference between event rates|-0.4||||0.549|TWO_SIDED|95.0|-1.3|1.0|||Fisher Exact|||||1.0|-1.3|0.549
82547857|NCT00715884|164795596|SUPERIORITY_OR_OTHER||Difference between event rates|13.8|||<|0.001|TWO_SIDED|95.0|9.2|18.9|||Fisher Exact|||||18.9|9.2|<.001
82547858|NCT00715884|164795597|SUPERIORITY_OR_OTHER||Difference between event rates|0.7||||0.724|TWO_SIDED|95.0|-2.2|4.2|||Fisher Exact|||||4.2|-2.2|0.724
82547859|NCT00715884|164795598|SUPERIORITY_OR_OTHER||Difference between event rates|-1.3||||0.407|TWO_SIDED|95.0|-3.5|1.4|||Fisher Exact|||||1.4|-3.5|0.407
82547860|NCT00715884|164795599|SUPERIORITY_OR_OTHER||Difference between event rates|2.11||||0.203|TWO_SIDED|95.0|-0.84|4.48|||Fisher Exact|||||4.48|-0.84|0.203
82547861|NCT00715884|164795600|SUPERIORITY_OR_OTHER||Difference between event rates|2.35||||0.22|TWO_SIDED|95.0|-1.24|5.28|||Fisher Exact|||||5.28|-1.24|0.22
82547862|NCT00715884|164795601|SUPERIORITY_OR_OTHER||Difference between event rates|2.83||||0.166|TWO_SIDED|95.0|-1.28|6.26|||Fisher Exact|||||6.26|-1.28|0.166
82547863|NCT00715884|164795602|SUPERIORITY_OR_OTHER||Difference between event rates|2.59||||0.2|TWO_SIDED|95.0|-1.35|5.85|||Fisher Exact|||||5.85|-1.35|0.200
82547864|NCT00715884|164795603|SUPERIORITY_OR_OTHER||Difference between event rates|11.56||||0.14|TWO_SIDED|95.0|-3.73|24.64|||Fisher Exact|||||24.64|-3.73|0.140
82547865|NCT00715884|164795604|SUPERIORITY_OR_OTHER||Difference between event rates|5.17||||0.17|TWO_SIDED|95.0|-2.03|10.83|||Fisher Exact|||||10.83|-2.03|0.170
82547866|NCT00715884|164795605|SUPERIORITY_OR_OTHER||Difference between event rates|0.24||||1|TWO_SIDED|95.0|-5.61|5.43|||Fisher Exact|||||5.43|-5.61|1.0
82547867|NCT00715884|164795606|SUPERIORITY_OR_OTHER||Difference between event rates|0.24||||1|TWO_SIDED|95.0|-1.92|1.63|||Fisher Exact|||||1.63|-1.92|1.0
82472383|NCT02304367|164639323|OTHER|||||||0.06|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.060
82547868|NCT00715884|164795607|SUPERIORITY_OR_OTHER||Difference between event rates|0.49||||0.801|TWO_SIDED|95.0|-2.73|2.91|||Fisher Exact|||||2.91|-2.73|0.801
82547869|NCT00715884|164795608|SUPERIORITY_OR_OTHER||Difference between event rates|-0.92||||0.341|TWO_SIDED|95.0|-3.56|0.6|||Fisher Exact|||||0.60|-3.56|0.341
82547870|NCT00715884|164795609|SUPERIORITY_OR_OTHER||Difference between event rates|0.0||||1|TWO_SIDED|95.0|-2.14|1.28|||Fisher Exact|||||1.28|-2.14|1.00
82547871|NCT00715884|164795610|SUPERIORITY_OR_OTHER||Difference between event rates|0.47||||0.668|TWO_SIDED|95.0|-1.72|1.96|||Fisher Exact|||||1.96|-1.72|0.668
82547872|NCT01424670|164795769|SUPERIORITY|||||||0.0562||||||For testing the null hypothesis, the distribution of the time to SCC within the 6-month Intensive Period were compared between the 2 treatment groups using the stratified modified Peto-Peto modification of Gehan's Wilcoxon rank sum test.|Modified Peto-Peto test|||Comparison of distributions of time to SCC using the MGIT culture system during the 6-month (26-week) Intensive Period.||||0.0562
82472384|NCT02304367|164639323|OTHER|||||||0.076|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.076
82472385|NCT02304367|164639323|OTHER|||||||0.171|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.171
82472386|NCT02304367|164639323|OTHER|||||||0.141|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.141
82472387|NCT02304367|164639323|OTHER|||||||0.263|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.263
82472388|NCT02304367|164639323|OTHER|||||||0.32|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.320
82547873|NCT01424670|164795770|SUPERIORITY|For testing the homogeneity of proportions, 2 samples were compared using the stratified Cochran-Mantel-Haenszel test.|Ratio of Probability|1.096||||0.3818|TWO_SIDED|95.0|0.889|1.352|||Cochran-Mantel-Haenszel||The stratified Cochran-Mantel-Haenszel test statistics were used for estimation.|Statistical comparison of proportion of participants with SCC at 2 months.||1.352|0.889|0.3818
82547874|NCT01424670|164795770|SUPERIORITY|For testing the homogeneity of proportions, 2 samples were compared using the stratified Cochran-Mantel-Haenszel test.|Ratio of Probability|1.017||||0.7131|TWO_SIDED|95.0|0.927|1.115|||Cochran-Mantel-Haenszel||The stratified Cochran-Mantel-Haenszel test statistics were used for estimation.|Statistical comparison of proportion of participants with SCC at 6 months.||1.115|0.927|0.7131
82547875|NCT01424670|164795771|SUPERIORITY||Relative Ratio of Probability|0.969||||0.5945|TWO_SIDED|95.0|0.866|1.084|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 18.||1.084|0.866|0.5945
82547876|NCT01424670|164795771|SUPERIORITY||Relative Ratio of Probability|0.97||||0.6164|TWO_SIDED|95.0|0.864|1.089|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 24.||1.089|0.864|0.6164
82547877|NCT01424670|164795771|SUPERIORITY||Relative Ratio of Probability|0.991||||0.8951|TWO_SIDED|95.0|0.872|1.127|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with sustained SCC at Month 30.||1.127|0.872|0.8951
82547878|NCT01424670|164795772|SUPERIORITY||Relative Ratio of Probability|0.965||||0.5269|TWO_SIDED|95.0|0.869|1.073|||Cochran-Mantel-Haenszel|||Statistical comparison of proportions with favorable treatment outcomes assessed by the Principal Investigator.||1.073|0.869|0.5269
82547879|NCT01424670|164795774|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.6986|TWO_SIDED|95.0|-1.9|1.3|||ANCOVA|||Statistical comparison of mean AUC of change from Baseline.||1.3|-1.9|0.6986
82547880|NCT01424670|164795775|SUPERIORITY|||||||0.6825|||||||ANCOVA|||Statistical analysis for Week 1.||||0.6825
82547881|NCT01424670|164795775|SUPERIORITY|||||||0.807|||||||ANCOVA|||Statistical analysis for Week 2.||||0.807
82547882|NCT01424670|164795775|SUPERIORITY|||||||0.269|||||||ANCOVA|||Statistical analysis for Week 3.||||0.269
82547883|NCT01424670|164795775|SUPERIORITY|||||||0.2333|||||||ANCOVA|||Statistical analysis for Week 24.||||0.2333
82472389|NCT02304367|164639324|OTHER|||||||0.407|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.407
82472390|NCT02304367|164639324|OTHER|||||||0.192|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.192
82472391|NCT02304367|164639324|OTHER|||||||0.106|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.106
82472392|NCT02304367|164639324|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.020
82547884|NCT01424670|164795775|SUPERIORITY|||||||0.9397|||||||ANCOVA|||Statistical analysis for Month 6.||||0.9397
82547885|NCT01424670|164795776|SUPERIORITY||Relative Ratio of Probability|0.991||||0.8951|TWO_SIDED|95.0|0.872|1.127|||Cochran-Mantel-Haenszel|||Statistical comparison of proportion with treatment success at Month 30.||1.127|0.872|0.8951
82547886|NCT02891915|164795820|SUPERIORITY|DOOR is a composite endpoint created using clinical outcomes from the first 5 days and at Outcome Assessment Visit #1 (OAV #1). It is based on adequate clinical response at OAV #1, solicited symptoms from first 5 days and number of days of antibiotics use for worsening pneumonia from the first 5 days of the study.|Pr (Higher DOOR in Short-Course)|0.69|||<|0.001|TWO_SIDED|95.0|0.63|0.75||Missing DOOR values at OAV #1 were first imputed using linear regression using baseline covariates and available DOOR components as covariates.|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value||Null: the sum of the probability that a subject assigned to the 5-day arm will have a higher DOOR (higher DOOR is a lower value and is superior) than if assigned to the 10-day arm plus one-half the probability of equal DOORs is 50% (i.e., no difference in DOOR).||0.75|0.63|<0.001
82547887|NCT02891915|164795821|SUPERIORITY|Testing whether Short course is superior to Standard course based on DOOR at OAV #2|Pr (Higher DOOR in Short-Course)|0.63|||<|0.001|TWO_SIDED|95.0|0.57|0.69||Missing DOOR values at OAV #2 were first imputed using linear regression using baseline covariates and available DOOR components as covariates|Wilcoxon (Mann-Whitney)|The Mann-Whitney test was run on the multiple imputed datasets to generate estimates of DOOR probability and p-value.||Null: the sum of the probability that a subject assigned to the 5-day arm will have a higher DOOR (higher DOOR is a lower numerical value and is superior) than if assigned to the 10-day arm plus one-half the probability of equal DOORs is 50% (i.e., no difference in DOOR).||0.69|0.57|<0.001
82547888|NCT00709098|164795861|SUPERIORITY_OR_OTHER||Mean group difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.0|-3.1|||t-test, 2 sided|||||-3.1|-7.0|<0.0001
82472393|NCT02304367|164639324|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.002
82472394|NCT02304367|164639324|OTHER|||||||0.22|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.220
82547889|NCT01303445|164795882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|92.03||||||90.0|86.95|97.4||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||97.40|86.95|
82586023|NCT03581825|164883932|SUPERIORITY|Statistically superiority was concluded if the lower limit of the confidence intervals of the Test lens are greater than 40 points.|Least-Square Mean|56.3|STANDARD_ERROR_OF_MEAN|2.55|||TWO_SIDED|95.0|51.2|61.4|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||||61.4|51.2|
82472395|NCT02304367|164639324|OTHER|||||||0.23|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.230
82472396|NCT02304367|164639324|OTHER|||||||0.232|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.232
82472397|NCT02304367|164639325|OTHER|||||||0.082|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.082
82472398|NCT02304367|164639325|OTHER|||||||0.176|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.176
82472399|NCT02304367|164639325|OTHER|||||||0.047|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.047
82472400|NCT02304367|164639325|OTHER|||||||0.017|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.017
82472401|NCT02304367|164639325|OTHER|||||||0|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.000
82547890|NCT01303445|164795882|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|92.3||||||90.0|87.76|97.08||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||97.08|87.76|
82472402|NCT02304367|164639325|OTHER|||||||0.057|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.057
82472403|NCT02304367|164639325|OTHER|||||||0.071|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.071
82472404|NCT02304367|164639325|OTHER|||||||0.07|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.070
82472405|NCT02304367|164639326|OTHER|||||||0.014|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.014
82472406|NCT02304367|164639326|OTHER|||||||0.309|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.309
82472407|NCT02304367|164639326|OTHER|||||||0.036|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.036
82472408|NCT02304367|164639326|OTHER|||||||0.096|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.096
82547891|NCT01303445|164795883|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|96.38||||||90.0|90.96|102.13||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||102.13|90.96|
82547892|NCT01303445|164795883|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|97.03||||||95.0|93.26|100.95||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||100.95|93.26|
82547893|NCT01303445|164795884|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.02||||||90.0|98.32|99.72||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||99.72|98.32|
82547894|NCT01303445|164795884|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|98.42||||||90.0|97.66|99.18||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||99.18|97.66|
82547895|NCT01303445|164795885|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|105.55||||||90.0|97.09|114.74||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||114.74|97.09|
82547896|NCT01303445|164795885|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|106.09||||||90.0|98.64|114.09||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||114.09|98.64|
82547897|NCT01303445|164795886|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.38||||||90.0|98.8|99.95||||||Comparison of Aggrenox + Omeprazole following Omeprazole versus Aggrenox alone||99.95|98.80|
82472409|NCT02304367|164639326|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.005
82472410|NCT02304367|164639326|OTHER|||||||0.022|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.022
82472411|NCT02304367|164639326|OTHER|||||||0.022|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.022
82472412|NCT02304367|164639326|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.004
82472413|NCT02304367|164639327|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.005
82547898|NCT01303445|164795886|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established if the 90% confidence interval of the mean ratio fell within the 80 to 125% target range.|Percent Mean Ratio|99.02||||||90.0|98.46|99.59||||||Comparison of Aggrenox + Omeprazole following Aggrenox versus Aggrenox alone||99.59|98.46|
82547899|NCT03690206|164795888|SUPERIORITY||Difference to Placebo|-2.28||||0.0039|TWO_SIDED|95.0|-3.83|-0.73|||Mixed Models Analysis|||||-0.73|-3.83|0.0039
82547900|NCT03690206|164795888|SUPERIORITY||Difference to Placebo|-0.91||||0.27|TWO_SIDED|95.0|-2.52|0.71|||Mixed Models Analysis|||||0.71|-2.52|0.2700
82547901|NCT03690206|164795889|SUPERIORITY||Difference to Placebo|26.6||||0.0243|TWO_SIDED|95.0|4.3|48.9|||Cochran-Mantel-Haenszel|||||48.9|4.3|0.0243
82547902|NCT03690206|164795889|SUPERIORITY||Difference to Placebo|5.5||||0.6255|TWO_SIDED|95.0|-16.2|27.1|||Cochran-Mantel-Haenszel|||||27.1|-16.2|0.6255
82547903|NCT03690206|164795890|SUPERIORITY||Difference to Placebo|31.7||||0.0043|TWO_SIDED|95.0|11.4|51.9|||Cochran-Mantel-Haenszel|||||51.9|11.4|0.0043
82547904|NCT03690206|164795890|SUPERIORITY||Difference to Placebo|13.3||||0.1675|TWO_SIDED|95.0|-5.4|32.0|||Cochran-Mantel-Haenszel|||||32.0|-5.4|0.1675
82547905|NCT03690206|164795892|SUPERIORITY||Difference to Placebo|14.1||||0.016|TWO_SIDED|95.0|2.5|25.6|||Cochran-Mantel-Haenszel|||||25.6|2.5|0.0160
82547906|NCT03690206|164795892|SUPERIORITY||Difference to Placebo|11.2||||0.0424|TWO_SIDED|95.0|0.7|21.6|||Cochran-Mantel-Haenszel|||||21.6|0.7|0.0424
82547907|NCT04924062|164795927|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.51|1.08|||||HR=Arm A/Arm B|||1.08|0.51|
82472414|NCT02304367|164639327|OTHER|||||||0.019|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.019
82472415|NCT02304367|164639327|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
82472416|NCT02304367|164639327|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.006
82547908|NCT04924062|164795928|OTHER||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.58|1.19|||||HR=Arm A/Arm B|||1.19|0.58|
82547909|NCT04924062|164795929|OTHER||Difference in Percentages|7.1|||||TWO_SIDED|95.0|-7.5|21.6|||||Difference=Arm A minus Arm B|||21.6|-7.5|
82472417|NCT02304367|164639327|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
82472418|NCT02304367|164639327|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||< 0.001
82472419|NCT02304367|164639327|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.002
82472420|NCT02304367|164639327|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.002
82472421|NCT02304367|164639328|OTHER|||||||0.016|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.016
82472422|NCT02304367|164639328|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.004
82547910|NCT03899961|164795933|SUPERIORITY|Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval|Median Difference (Net)|0.0||||0.05|TWO_SIDED|95.0|-1.09|1.09||Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval|Median regression model for the change f|||Median regression model for the change from baseline, model was adjusted for treatment, bootstrap was used for the confidence interval||1.09|-1.09|0.05
82547911|NCT04491968|164795937|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.02|TWO_SIDED|95.0|0.37|0.9|||proportional hazard regression|||||.90|.37|.02
82547912|NCT04491968|164795938|SUPERIORITY||Hazard Ratio (HR)|0.41||||0.04|TWO_SIDED|95.0|0.18|0.96|||proportional hazard regression|||||.96|.18|.04
82547913|NCT02396199|164795971|SUPERIORITY||Proportion of participants|0.917||||0.006|ONE_SIDED|95.0|0.827|||One-sided test|Fisher Exact||Exact test, One-sided 95%, with lower limit (0.827)||||0.827|0.006
82547914|NCT05343390|164796016|SUPERIORITY||Mean Difference (Final Values)|20.6|||<|0.001|TWO_SIDED|95.0|16.1|25.1|||Regression, Linear|A linear model fit using generalized estimating equations to account for correlated observations within clusters.||||25.1|16.1|<0.001
82547915|NCT05343390|164796017|SUPERIORITY||Mean Difference (Final Values)|11.1|||<|0.001|TWO_SIDED|95.0|5.9|16.4|||Regression, Linear|A linear model fit using generalized estimating equations to account for correlated observations within clusters.||||16.4|5.9|<0.001
82472423|NCT02304367|164639328|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
82472424|NCT02304367|164639328|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
82472425|NCT02304367|164639328|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
82547916|NCT05343390|164796018|SUPERIORITY||Rate Ratio|1.22||||0.14|TWO_SIDED|95.0|0.93|1.6|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.60|0.93|0.14
82472426|NCT02304367|164639328|OTHER|||||||0.036|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.036
82472427|NCT02304367|164639328|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.008
82472428|NCT02304367|164639328|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.008
82472429|NCT02304367|164639329|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.006
82472430|NCT02304367|164639329|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.003
82472431|NCT02304367|164639329|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||<0.001
82472432|NCT02304367|164639329|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
82472433|NCT02304367|164639329|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||< 0.001
82472434|NCT02304367|164639329|SUPERIORITY|||||||0.007|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.007
82472435|NCT02304367|164639329|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.005
82472436|NCT02304367|164639329|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.006
82472437|NCT02304367|164639330|OTHER|||||||0.009|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.009
82472438|NCT02304367|164639330|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.020
82547917|NCT05343390|164796019|SUPERIORITY||Rate Ratio|1.37||||0.006|TWO_SIDED|95.0|1.1|1.71|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.71|1.10|0.006
82547918|NCT05343390|164796020|SUPERIORITY||Rate Ratio|2.29||||0.013|TWO_SIDED|95.0|1.19|4.4|||Mixed Models Analysis|Negative binomial mixed-effect model||||4.40|1.19|0.013
82547919|NCT05343390|164796021|SUPERIORITY||Rate Ratio|1.45||||0.01|TWO_SIDED|95.0|1.1|1.92|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.92|1.10|0.01
82547920|NCT05343390|164796022|SUPERIORITY||Rate Ratio|1.28||||0.12|TWO_SIDED|95.0|0.94|1.76|||Mixed Models Analysis|Negative binomial mixed-effect model||||1.76|0.94|0.12
82547921|NCT03467542|164796058|OTHER||||||||||||||||||The total number evaluated, the percent, and the Clopper-Pearson two-sided 95% confidence limits on the percent.|||
82472439|NCT02304367|164639330|OTHER|||||||0.044|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.044
82472440|NCT02304367|164639330|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
82472441|NCT02304367|164639330|OTHER|||||||0.015|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.015
82472442|NCT02304367|164639330|OTHER|||||||0.125|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.125
82472443|NCT02304367|164639330|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.004
82472444|NCT02304367|164639330|OTHER|||||||0.018|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.018
82472445|NCT02304367|164639331|OTHER|||||||0.148|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.148
82472446|NCT02304367|164639331|OTHER|||||||0.295|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.295
82472447|NCT02304367|164639331|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.005
82472448|NCT02304367|164639331|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||< 0.001
82472449|NCT02304367|164639331|OTHER|||||||0.014|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.014
82472450|NCT02304367|164639331|OTHER|||||||0.14|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.140
82472451|NCT02304367|164639331|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||< 0.001
82472452|NCT02304367|164639331|OTHER|||||||0.142|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.142
82472453|NCT02304367|164639332|OTHER|||||||0.005|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.005
82472454|NCT02304367|164639332|OTHER|||||||0.077|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.077
82586024|NCT03581825|164883933|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control was concluded if the lower confidence limit of LSM difference was above the non-inferiority margin -5.|Least-Square Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|95.0|-0.5|7.4|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean Difference was calculated as Test minus Control|||7.4|-0.5|
82472455|NCT02304367|164639332|OTHER|||||||0.046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.046
82472456|NCT02304367|164639332|OTHER|||||||0.049|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.049
82472457|NCT02304367|164639332|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.003
82472458|NCT02304367|164639332|OTHER|||||||0.073|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.073
82472459|NCT02304367|164639332|OTHER|||||||0.109|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.109
82472460|NCT02304367|164639332|OTHER|||||||0.006|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.006
82472461|NCT02304367|164639333|OTHER|||||||0.328|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.328
82472462|NCT02304367|164639333|OTHER|||||||0.015|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.015
82472463|NCT02304367|164639333|OTHER|||||||0.02|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.020
82472464|NCT02304367|164639333|OTHER|||||||0.004|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.004
82472465|NCT02304367|164639333|OTHER|||||||0.021|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.021
82472466|NCT02304367|164639333|OTHER|||||||0.08|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.080
82472467|NCT02304367|164639333|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||< 0.001
82472468|NCT02304367|164639333|OTHER|||||||0.003|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.003
82472469|NCT02304367|164639334|OTHER|||||||0.207|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.207
82472470|NCT02304367|164639334|OTHER|||||||0.008|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.008
82472471|NCT02304367|164639334|OTHER|||||||0.598|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.598
82472472|NCT02304367|164639334|OTHER|||||||0.237|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.237
82650798|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.18||||0.2224|TWO_SIDED|95.0|0.9|1.54|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.54|0.90|0.2224
82650799|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.0369|TWO_SIDED|95.0|1.01|1.68|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.68|1.01|0.0369
82472473|NCT02304367|164639334|OTHER|||||||0.899|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.899
82472474|NCT02304367|164639334|OTHER|||||||0.585|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.585
82472475|NCT02304367|164639334|OTHER|||||||0.461|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.461
82472476|NCT02304367|164639334|OTHER|||||||0.583|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.583
82472477|NCT02304367|164639335|OTHER|||||||0.654|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.654
82472478|NCT02304367|164639335|OTHER|||||||0.579|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.579
82547922|NCT01820260|164796084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|TWO_SIDED|||||To account for multiple testing, the 4 pairwise tests with corresponding vehicle group were performed using Bonferroni method testing at a 1.25% significance level, securing that the overall significance level did not exceed 5%|Fisher Exact|||Complete clearance of AKs at Week 8 was to be analysed by log binomial regression with factors treatment group, anatomical location (face/chest or scalp) and analysis site. Due to the low numbers of subjects obtaining complete clearance in the vehicle groups,the proposed model did not converge and Fisher's exact test was used instead to compare active treatments with the respective vehicle arm.||||0.0002
82547923|NCT01820260|164796084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0037|TWO_SIDED|||||see comments in analysis 1|Fisher Exact|||See comment in analysis 1||||0.0037
82547924|NCT01820260|164796084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0171|TWO_SIDED|||||See comments in analysis 1|Fisher Exact|||See comments in analysis 1||||0.0171
82472479|NCT02304367|164639335|OTHER|||||||0.123|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.123
82472480|NCT02304367|164639335|OTHER|||||||0.712|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.712
82472481|NCT02304367|164639335|OTHER|||||||0.258|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.258
82472482|NCT02304367|164639335|OTHER|||||||0.851|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.851
82472483|NCT02304367|164639335|OTHER|||||||0.849|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.849
82472484|NCT02304367|164639335|OTHER|||||||0.153|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.153
82472485|NCT02304367|164639336|OTHER|||||||0.002|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.002
82472486|NCT02304367|164639336|OTHER|||||||0.03|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.030
82472487|NCT02304367|164639336|OTHER|||||||0.011|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.011
82472488|NCT02304367|164639336|OTHER|||||||0.186|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.186
82472489|NCT02304367|164639336|OTHER|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.027
82472490|NCT02304367|164639336|OTHER|||||||0.33|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.330
82472491|NCT02304367|164639336|OTHER|||||||0.072|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.072
82586025|NCT03261700|164883934|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Comparison of groups on Empowerment via the Personal Progress Scale Revised||||<.05
82547925|NCT01820260|164796084|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Fisher Exact|||||||0.0001
82650800|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.36||||0.0179|TWO_SIDED|95.0|1.05|1.75|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.75|1.05|0.0179
82472492|NCT02304367|164639336|OTHER|||||||0.045|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.045
82472493|NCT02304367|164639337|OTHER|||||||0.369|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.369
82472494|NCT02304367|164639337|OTHER|||||||0.026|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.026
82472495|NCT02304367|164639337|OTHER||||||<|0.001|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||< 0.001
82472496|NCT02304367|164639337|OTHER|||||||0.235|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.235
82472497|NCT02304367|164639337|OTHER|||||||0.009|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.009
82472498|NCT02304367|164639337|OTHER|||||||0.278|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.278
82472499|NCT02304367|164639337|OTHER|||||||0.046|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.046
82472500|NCT02304367|164639337|OTHER|||||||0.035|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.035
82472501|NCT02304367|164639338|OTHER|||||||0.442|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.442
82472502|NCT02304367|164639338|OTHER|||||||0.677|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.677
82472503|NCT02304367|164639338|OTHER|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.027
82472504|NCT02304367|164639338|OTHER|||||||0.42|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.420
82579800|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|1.05||||0.0089|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0089
82586026|NCT03261700|164883935|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Comparison of groups on self-efficacy via the General Self-Efficacy Scale||||<.05
82472505|NCT02304367|164639338|SUPERIORITY|||||||0.027|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.027
82472506|NCT02304367|164639338|OTHER|||||||0.312|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.312
82472507|NCT02304367|164639338|OTHER|||||||0.249|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.249
82472508|NCT02304367|164639338|OTHER|||||||0.102|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.102
82472509|NCT02304367|164639339|OTHER|||||||0.856|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 24||||0.856
82472510|NCT02304367|164639339|OTHER|||||||0.898|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 48||||0.898
82472511|NCT02304367|164639339|OTHER|||||||0.785|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 96||||0.785
82472512|NCT02304367|164639339|OTHER|||||||0.932|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 144||||0.932
82472513|NCT02304367|164639339|OTHER|||||||0.545|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 168||||0.545
82472514|NCT02304367|164639339|OTHER|||||||0.58|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 192||||0.580
82472515|NCT02304367|164639339|OTHER|||||||0.462|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 216||||0.462
82472516|NCT02304367|164639339|OTHER|||||||0.26|||||||GEE model|Generalized estimation equation (GEE) model includes time as the categorical variable and adjusted for Baseline measurement.||Week 240||||0.260
82472517|NCT03511937|164639342|SUPERIORITY||Mean Difference (Final Values)|-31.4||||0.02|TWO_SIDED|95.0|-57.9|-5.0||The a priori threshold for statistical significance was \< 0.05.|Two-part regression model with robust SE|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||-5.0|-57.9|0.02
82472518|NCT03511937|164639343|SUPERIORITY||Mean Difference (Final Values)|-69.4||||0.55|TWO_SIDED|95.0|-295.5|156.6||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||156.6|-295.5|0.55
82472519|NCT03511937|164639344|SUPERIORITY||Mean Difference (Final Values)|-13.0||||0.006|TWO_SIDED|95.0|-23.0|-4.0||The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|Analyses controlled for overweight/obesity status and Hispanic ethnicity, which were unbalanced between treatment arms.|Analyses used logistic regression to calculate mean difference in predicted probability of purchasing a sugar-sweetened beverage.|||-4|-23|0.006
82472520|NCT03511937|164639345|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.01|TWO_SIDED|95.0|-0.4|-0.1||The a priori threshold for statistical significance was \< 0.05.|Negative binomial regression|Analyses controlled for overweight/obesity status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||-0.1|-0.4|0.010
82472521|NCT03511937|164639346|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.403|TWO_SIDED|95.0|-0.2|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for obesity status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust standard errors.||||0.5|-0.2|0.403
82472522|NCT03511937|164639347|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.005|TWO_SIDED|95.0|0.1|0.8||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.8|0.1|0.005
82472523|NCT03511937|164639348|SUPERIORITY||Mean Difference (Final Values)|37.0|||<|0.001|TWO_SIDED|95.0|32.0|43.0||The a priori threshold for statistical significance was \< 0.05.|Regression, Logistic|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between treatment arms.|Analyses used logistic regression to calculate mean difference in predicted probability of purchasing a sugar-sweetened beverage.|||43|32|<0.001
82472524|NCT03511937|164639349|SUPERIORITY||Mean Difference (Final Values)|1.7|||<|0.001|TWO_SIDED|95.0|1.4|1.9||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.9|1.4|<0.001
82472525|NCT03511937|164639350|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.5|0.3|<0.001
82472526|NCT03511937|164639351|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.9|1.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.3|0.9|<0.001
82472527|NCT03511937|164639352|SUPERIORITY||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.7|1.1||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||1.1|0.7|<0.001
82472528|NCT03511937|164639353|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.055|TWO_SIDED|95.0|-0.001|0.13||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.13|-0.001|0.055
82472529|NCT03511937|164639354|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.258|TWO_SIDED|95.0|-0.27|0.07||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.07|-0.27|0.258
82472530|NCT03511937|164639355|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.416|TWO_SIDED|95.0|-0.3|0.13||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.13|-0.30|0.416
82472531|NCT03511937|164639356|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.609|TWO_SIDED|95.0|-0.14|0.24||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.24|-0.14|0.609
82579801|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 500 lux is reported."|Slope|-4.04|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82472532|NCT03511937|164639357|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.002|TWO_SIDED|95.0|0.1|0.5||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.5|0.1|0.002
82472533|NCT03511937|164639358|SUPERIORITY||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.8|2.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||2.3|1.8|<0.001
82472534|NCT03511937|164639359|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.311|TWO_SIDED|95.0|-0.23|0.07||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.07|-0.23|0.311
82472535|NCT03511937|164639360|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.253|TWO_SIDED|95.0|-0.3|0.08||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.08|-0.30|0.253
82472536|NCT03511937|164639361|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.658|TWO_SIDED|95.0|-0.22|0.14||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||0.14|-0.22|0.658
82472537|NCT03511937|164639362|SUPERIORITY||Mean Difference (Final Values)|-49.5||||0.661|TWO_SIDED|95.0|-271.3|172.3||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||172.3|-271.3|0.661
82472538|NCT03511937|164639363|SUPERIORITY||Mean Difference (Final Values)|12.5||||0.082|TWO_SIDED|95.0|-1.6|26.6||The a priori threshold for statistical significance was \< 0.05.|Two-part regression model with robust SE|Analyses controlled for overweight/obese status and Hispanic ethnicity, which were unbalanced between arms, and estimated Huber-White robust SEs.||||26.6|-1.6|0.082
82472539|NCT01931566|164639389|OTHER|||||||0.023|||||||Regression, Cox|||||||0.023
82472540|NCT01931566|164639390|SUPERIORITY|||||||0.307|||||||Regression, Cox|||||||0.307
82472541|NCT02395081|164639443|SUPERIORITY|||||||0.7||||||SBP wk 16-20|ANOVA|||||||0.70
82472542|NCT02395081|164639445|SUPERIORITY|||||||0.49|||||||Chi-squared|||||||0.49
82472543|NCT02395081|164639446|SUPERIORITY|||||||0.79|||||||Chi-squared|||||||0.79
82472544|NCT02395081|164639448|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
82472545|NCT02395081|164639449|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82472546|NCT02395081|164639450|SUPERIORITY|||||||0.24|||||||ANOVA|||||||0.24
82472547|NCT02395081|164639451|SUPERIORITY|||||||0.39|||||||Chi-squared|||||||0.39
82472548|NCT02395081|164639452|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
82472549|NCT02395081|164639453|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82472550|NCT04625101|164639455|SUPERIORITY|||||||0.4326|||||||ANCOVA|||||||0.4326
82547926|NCT01820260|164796085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||To account for multiple testing among the secondary endpoints, a hierarchical order of testing was determined, where the following evaluation was done separately for each of the four active groups: Provided the primary endpoint was significant at a 1.25% level, the comparison to vehicle in terms of reduction in AK count from baseline to week 8 was tested at a 1.25% level. Provided this test was significant, the second secondary endpoint,partial clearance, was tested(vs. vehicle) at a 1.25% level||||< 0.001
82472551|NCT02721966|164639466|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.0001|TWO_SIDED|95.0|2.72|7.01|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||7.01|2.72|<.0001
82472552|NCT02721966|164639466|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.0001|TWO_SIDED|95.0|2.41|6.1|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||6.10|2.41|<.0001
82472553|NCT02721966|164639467|SUPERIORITY||Odds Ratio (OR)|4.37|||<|0.0001|TWO_SIDED|95.0|2.72|7.01|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"||7.01|2.72|<.0001
82472554|NCT02721966|164639468|SUPERIORITY||Odds Ratio (OR)|4.71|||<|0.0001|TWO_SIDED|95.0|2.67|8.33|||Regression, Logistic|95% confidence interval for odds ratio|||Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|8.33|2.67|<.0001
82472555|NCT02721966|164639468|SUPERIORITY||Odds Ratio (OR)|5.61|||<|0.0001|TWO_SIDED|95.0|3.2|9.84|||Regression, Logistic|95% confidence interval for odds ratio|||Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|9.84|3.20|<.0001
82472556|NCT02721966|164639469|SUPERIORITY||Odds Ratio (OR)|4.5|||<|0.0001|TWO_SIDED|95.0|2.43|8.33|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|8.33|2.43|<.0001
82472557|NCT02721966|164639469|SUPERIORITY||Odds Ratio (OR)|5.57|||<|0.0001|TWO_SIDED|95.0|3.04|10.21|||Regression, Logistic|95% confidence interval for odds ratio||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables|10.21|3.04|<.0001
82472558|NCT02721966|164639470|SUPERIORITY||LS Mean of Treatment Difference|-14.9|STANDARD_ERROR_OF_MEAN|2.62|<|0.0001|TWO_SIDED|95.0|-20.0|-9.7|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.7|-20.0|<.0001
82472559|NCT02721966|164639470|SUPERIORITY||LS Mean of Treatment Difference|-12.9|STANDARD_ERROR_OF_MEAN|2.59|<|0.0001|TWO_SIDED|95.0|-18.0|-7.8|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-7.8|-18.0|<.0001
82472560|NCT02721966|164639471|SUPERIORITY||LS Mean of Treatment Difference|-15.1|STANDARD_ERROR_OF_MEAN|2.71|<|0.0001|TWO_SIDED|95.0|-20.4|-9.7|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.7|-20.4|<.0001
82472561|NCT02721966|164639471|SUPERIORITY||LS Mean of Treatment Difference|-15.0|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-20.3|-9.8|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-9.8|-20.3|<.0001
82547927|NCT01820260|164796085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||See comment in analysis 1||||< 0.001
82547928|NCT01820260|164796085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||z-test|||See comment analysis 1||||< 0.001
82547929|NCT01820260|164796085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||z-test|||See comment in analysis 1||||< 0.001
82547930|NCT01820260|164796086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||Analysis of partial clearance of AK's at Week 8 was done in the same way as for the primary outcome (endpoint)||||<0.001
82472562|NCT02721966|164639472|SUPERIORITY||LS Mean of Treatment Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0971|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline SPARCC index as continuous covariate.|0.1|-1.1|0.0971
82472563|NCT02721966|164639472|SUPERIORITY||LS Mean of Treatment Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0207|TWO_SIDED|95.0|-1.3|-0.1|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline measurement in VAS as continuous covariate|-0.1|-1.3|0.0207
82472564|NCT02721966|164639473|SUPERIORITY||LS Mean of Treatment Difference|-0.175|STANDARD_ERROR_OF_MEAN|0.0502||0.0005|TWO_SIDED|95.0|-0.273|-0.076|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline HAQ-DI index as continuous covariate|-0.076|-0.273|0.0005
82472565|NCT02721966|164639473|SUPERIORITY||LS Mean of Treatment Difference|-0.234|STANDARD_ERROR_OF_MEAN|0.0497|<|0.0001|TWO_SIDED|95.0|-0.331|-0.136|||ANCOVA||||Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline HAQ-DI index as continuous covariate|-0.136|-0.331|<.0001
82472566|NCT02721966|164639474|SUPERIORITY||LS Mean of Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|1.01||0.0002|TWO_SIDED|95.0|1.8|5.7|||ANCOVA|||week 12|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline FACIT Fatigue© score as continuous covariate|5.7|1.8|0.0002
82472567|NCT02721966|164639474|SUPERIORITY||LS Mean of Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|0.99||0.0007|TWO_SIDED|95.0|1.4|5.3|||ANCOVA|||week 12|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group, visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline FACIT Fatigue© score as continuous covariate|5.3|1.4|0.0007
82472568|NCT02721966|164639475|SUPERIORITY||LS Mean of Treatment Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.41|<|0.0001|TWO_SIDED|95.0|-2.5|-0.9|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group,visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline ASAS health index as continuous covariate.|-0.9|-2.5|<.0001
82472569|NCT02721966|164639475|SUPERIORITY||LS Mean of Treatment Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.4|-0.9|||ANCOVA|||"Up to week 12, all participants in the group placebo AIN457 took placebo only"|Least squares (LS) mean, LS mean treatment difference, 95% confidence interval (CI) for treatment difference, and p-value are from MMRM (mixed model for repeated measures) with treatment group,visit, treatment\*visit, baseline\*visit and concomitant MTX intake status, as factors and baseline ASAS health index as continuous covariate.|-0.9|-2.4|<.0001
82472570|NCT02721966|164639476|SUPERIORITY||Odds Ratio (OR)|5.74|||<|0.0001|TWO_SIDED|95.0|3.31|9.95|||Regression, Logistic|95% confidence interval for odds ratio|||"Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables.~Missing ACR20 response variables were imputed by multiple imputation approach"|9.95|3.31|<.0001
82472571|NCT02721966|164639476|SUPERIORITY||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|2.83|8.16|||Regression, Logistic|95% confidence interval for odds ratio|||"Odds ratio, 95% CI for odds ratio, and p-value are from a logistic regression model with treatment (3 treatment groups), methotrexate usage status (yes, no) as explanatory variables.~Missing ACR20 response variables were imputed by multiple imputation approach"|8.16|2.83|<.0001
82472572|NCT03070964|164639478|SUPERIORITY||Exact binomial estimator|16.7|||||TWO_SIDED|95.0|2.1|48.4||||||||48.4|2.1|
82472573|NCT01209325|164639485|SUPERIORITY|||||||0.112||||||Two-sided p-value|Exact poisson test|||||||0.112
82472574|NCT01209325|164639485|SUPERIORITY|||||||0.447||||||One-sided test|Exact Poisson calculation|||This study's Naive to HPV 6 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 6 (NCT00090285), 0.0 events per 100 person years (PY) versus 3.4 events per 100 PY, respectively.||||0.447
82472575|NCT01209325|164639486|SUPERIORITY|||||||0.224||||||Two-sided p-value.|Exact poisson test|||||||0.224
82472576|NCT01209325|164639486|SUPERIORITY|One-sided p-value.||||||0.361|||||||Exact Poisson calculation|||This study's Naive to HPV 11 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 11 (NCT00090285), 0.0 events per 100 person years (PY) versus 2.0 events per 100 PY, respectively.||||0.361
82472577|NCT01209325|164639487|SUPERIORITY|||||||0.079||||||Two-sided p-value.|Exact poisson test|||||||0.079
82472578|NCT01209325|164639487|SUPERIORITY|||||||0.35||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 16 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 16 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.8 events per 100 PY, respectively.||||0.350
82472579|NCT01209325|164639488|SUPERIORITY|||||||0.162|||||||Exact poisson test|||||||0.162
82472580|NCT01209325|164639488|SUPERIORITY|||||||0.49||||||One-sided p-value|Exact Poisson calculation|||This study's Naive to HPV 18 group was compared to the Merck 020 per-protocol historical placebo group naive to HPV 18 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.0 events per 100 PY, respectively.||||0.490
82472581|NCT01209325|164639489|SUPERIORITY|||||||0.671||||||Two-sided p-value is comparing naive and prior exposure groups for HPV 6.|Exact Poisson calculation|||||||0.671
82472582|NCT01209325|164639489|SUPERIORITY|||||||0.312||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 6 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 6 (NCT00090285), 1.8 events per 100 person years (PY) versus 4.5 events per 100 PY, respectively.||||0.312
82472583|NCT01209325|164639490|SUPERIORITY||||||>|0.999||||||Two-sided p-value.|Exact Poisson calculation|||||||>0.999
82472584|NCT01209325|164639490|SUPERIORITY|||||||0.209||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 11 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 11 (NCT00090285), 0.0 events per 100 person years (PY) versus 1.7 events per 100 PY, respectively.||||0.209
82472585|NCT01209325|164639491|SUPERIORITY|||||||0.386||||||Two-sided p-value.|Exact Poisson calculation|||||||0.386
82472586|NCT01209325|164639491|SUPERIORITY|||||||0.305||||||One-sided test|Exact Poisson calculation|||This study's Naive to HPV 16 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 16 (NCT00090285), 2.9 events per 100 person years (PY) versus 4.9 events per 100 PY, respectively.||||0.305
82472587|NCT01209325|164639492|SUPERIORITY|||||||0.622||||||Two-sided p-value.|Exact Poisson calculation|||||||0.622
82472588|NCT01209325|164639492|SUPERIORITY|||||||0.15||||||One-sided p-value.|Exact Poisson calculation|||This study's Naive to HPV 18 group was compared to the per-protocol Merck 020 historical placebo group naive to HPV 18 (NCT00090285), 0.7 events per 100 person years (PY) versus 2.7 events per 100 PY, respectively.||||0.150
82472589|NCT01209325|164639493|SUPERIORITY|||||||0.064||||||Two-sided p-value.|Exact Poisson calculation|||||||0.064
82472590|NCT01209325|164639494|SUPERIORITY|||||||0.745||||||Two-sided test.|Exact Poisson calculation|||||||0.745
82472591|NCT01209325|164639495|SUPERIORITY|||||||0.014|||||||Exact Poisson calculation|||||||0.014
82472592|NCT01209325|164639496|SUPERIORITY|||||||0.166||||||Two-sided p-value.|Exact Poisson calculation|||||||0.166
82472593|NCT01209325|164639497|SUPERIORITY|||||||0.789||||||Two-sided p-value.|Exact Poisson calculation|||||||0.789
82472594|NCT01209325|164639498|SUPERIORITY|||||||0.809||||||Two-sided p-value.|0.809|||||||0.809
82472595|NCT01209325|164639499|SUPERIORITY|||||||0.422||||||Two-sided p-value.|Exact Poisson calculation|||||||0.422
82472596|NCT01209325|164639500|SUPERIORITY|||||||0.423||||||Two-sided p-value.|Exact Poisson calculation|||||||0.423
82586027|NCT00585195|164883974|SUPERIORITY||Ratio of adjusted geometric means|131.72|||||TWO_SIDED|90.0|96.59|179.63||||||||179.63|96.59|
82472597|NCT00607373|164639510|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p≤0.05|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With 15 patients in the control group and 30 patients in the mipomersen-treated group, this study would have at least 80% power to detect a 20 percentage point difference between the 2 treatment groups. Fifty-one patients were enrolled to allow for patient withdrawals and potential exclusions from analysis sets.||||<0.001
82472598|NCT00607373|164639511|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82472599|NCT00607373|164639513|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in Apo B at PET).|t-test, 2 sided|||||||<0.001
82472600|NCT00607373|164639516|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inferential conclusions about this parameter require statistical significance of the previous secondary outcome measure (i.e., percent change from baseline in total cholesterol at PET).|t-test, 2 sided|||||||<0.001
82472601|NCT00607373|164639518|SUPERIORITY_OR_OTHER|||||||0.013||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.013
82472602|NCT00607373|164639520|SUPERIORITY_OR_OTHER|||||||0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.001
82472603|NCT00607373|164639522|SUPERIORITY_OR_OTHER|||||||0.009||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.009
82472604|NCT00607373|164639524|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||<0.001
82586028|NCT00585195|164883974|SUPERIORITY||Ratio of adjusted geometric means|239.03|||||TWO_SIDED|90.0|172.14|331.93||||||||331.93|172.14|
82472605|NCT00607373|164639526|SUPERIORITY_OR_OTHER|||||||0.328||||||Statistical significance was concluded if p ≤0.05|t-test, 2 sided|||||||0.328
82472606|NCT00607373|164639528|SUPERIORITY_OR_OTHER|||||||0.035||||||Statistical significance was concluded if p ≤0.05|Wilcoxon rank sum test|||||||0.035
82472607|NCT01397968|164639567|SUPERIORITY||||||<|0.0001|||||||Wilcoxon rank sum|||||||<0.0001
82472608|NCT01397968|164639568|SUPERIORITY||||||<|0.0001|||||||Regression, Logistic|||||||<0.0001
82472609|NCT02970162|164639569|SUPERIORITY|||||||0.0004||||||LS means|Least square means|Fixed effects treatment and QMG at Baseline. Between-treatment difference in LS means (95% CI) -6.54 (-9.78, -3.29).||||||0.0004
82472610|NCT02970162|164639570|SUPERIORITY||LS means|2.95||||0.0003|TWO_SIDED|95.0|1.53|4.38||CFB for SGI score was modeled as the response, with fixed effects terms for treatment and SGI at Baseline|Fixed effects linear model|This statistical test applies to the change from baseline SGI scores to Day 4 values row.||||4.38|1.53|0.0003
82472611|NCT02970162|164639571|SUPERIORITY|||||||0.002|||||||Wilcoxon Rank Sum Test|||||||0.0020
82472612|NCT02970162|164639572|SUPERIORITY|||||||0.0112|||||||Fisher Exact|||||||0.0112
82472613|NCT00750438|164639573|SUPERIORITY|||||||0.972|||||||Regression, Linear|||||||0.972
82472614|NCT00750438|164639574|SUPERIORITY|||||||0.559|||||||t-test, 2 sided|||Baseline and 24 weeks||||0.559
82472615|NCT00750438|164639574|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.062
82472616|NCT00750438|164639574|SUPERIORITY|||||||0.099|||||||Regression, Linear|||||||0.099
82472617|NCT00750438|164639575|SUPERIORITY|||||||0.036|||||||Regression, Linear|||||||0.036
82472618|NCT00750438|164639576|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.001
82472619|NCT00750438|164639576|SUPERIORITY|||||||0.723|||||||t-test, 2 sided|||Baseline to 24 weeks||||0.723
82472620|NCT00750438|164639576|SUPERIORITY|||||||0.027|||||||Regression, Linear|||||||0.027
82472621|NCT00750438|164639577|SUPERIORITY|||||||0.372|||||||t-test, 2 sided|||||||0.372
82472622|NCT00750438|164639577|SUPERIORITY|||||||0.644|||||||t-test, 2 sided|||||||0.644
82472623|NCT00750438|164639577|SUPERIORITY|||||||0.549|||||||Regression, Linear|||||||0.549
82586029|NCT00585195|164883974|SUPERIORITY||Ratio of adjusted geometric means|201.56|||||TWO_SIDED|90.0|139.33|291.58||||||||291.58|139.33|
82472624|NCT00256997|164639596|SUPERIORITY_OR_OTHER|||||||0.5498||||||P-value was calculated by Cox proportional hazard model stratified for positive and negative symptom scale.|Cox proportional hazard model|||||||0.5498
82472625|NCT00354432|164639614|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3455|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|A mixed effects repeated measures analysis of variance was used with the baseline means constrained to be equal in the four groups.||The null hypothesis was that there was no difference in the hot flash severity score at 12 weeks.||||.3455
82472626|NCT00354432|164639615|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2081|TWO_SIDED|||||This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance was 0.05.|ANCOVA|||Null hypothesis was that there was no difference in quality of life between the four groups at 12 weeks.||||0.2081
82472627|NCT02656693|164639636|SUPERIORITY|||||||0.00017|||||||Mixed Models Analysis|||||||0.00017
82472628|NCT02656693|164639638|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82472629|NCT02656693|164639640|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82472630|NCT02656693|164639641|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82472631|NCT02656693|164639643|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82472632|NCT02656693|164639644|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82472633|NCT02656693|164639645|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||||||0.0001
82472634|NCT02656693|164639646|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
82472635|NCT02656693|164639647|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis|||||||0.35
82472636|NCT02656693|164639648|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82472637|NCT02656693|164639649|SUPERIORITY|||||||0.33|||||||Mixed Models Analysis|||||||0.33
82472638|NCT02656693|164639650|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||||||0.43
82586030|NCT00585195|164883975|SUPERIORITY||Ratio of adjusted geometric means|216.19|||||TWO_SIDED|90.0|161.41|289.56||||||||289.56|161.41|
82472639|NCT02656693|164639651|SUPERIORITY|||||||0.4|||||||Mixed Models Analysis|||||||0.40
82472640|NCT02656693|164639652|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||0.16
82472641|NCT02656693|164639653|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
82472642|NCT02656693|164639654|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||||||0.61
82472643|NCT02656693|164639655|SUPERIORITY|||||||0.46|||||||Mixed Models Analysis|||||||0.46
82472644|NCT02656693|164639656|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|||||||0.68
82472645|NCT02656693|164639657|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
82472646|NCT02656693|164639658|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82472647|NCT02656693|164639659|SUPERIORITY|||||||0.42|||||||Mixed Models Analysis|||||||0.42
82472648|NCT02656693|164639660|SUPERIORITY|||||||0.23|||||||Mixed Models Analysis|||||||0.23
82472649|NCT02656693|164639661|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.20
82472650|NCT03284307|164639703|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.043||0.012|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Dexmedetomidine, Unconsciousness vs Disconnected Consciousness||||0.012
82472651|NCT03284307|164639703|SUPERIORITY||Slope|-0.238|STANDARD_ERROR_OF_MEAN|0.199||0.236|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Ketamine, Unconsciousness vs Disconnected Consciousness||||0.236
82472652|NCT03284307|164639703|SUPERIORITY||Slope|0.166|STANDARD_ERROR_OF_MEAN|0.12||0.174|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Propofol, Unconsciousness vs Disconnected Consciousness||||0.174
82472653|NCT03284307|164639703|SUPERIORITY||Slope|0.052|STANDARD_ERROR_OF_MEAN|0.111||0.64|TWO_SIDED|||||Statistical significance defined by p \< 0.05.|Mixed Models Analysis||Estimate is a slope from a linear mixed effects model representing the difference in occipital delta power between unconsciousness and disconnected consciousness after adjusting for within-subject effects.|Sleep, Unconsciousness vs Disconnected Consciousness||||0.640
82472654|NCT03284307|164639705|SUPERIORITY|||||||0.134||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|3 degrees of freedom||NIH Toolbox Card Sorting Score||||0.134
82472655|NCT03284307|164639705|SUPERIORITY|||||||0.012||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|6 degrees of freedom||NIH Toolbox Card Sorting Score||||0.012
82472656|NCT03284307|164639705|SUPERIORITY|||||||0.487||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|1 degree of freedom||NIH Toolbox Card Sorting Score||||0.487
82472657|NCT03284307|164639705|SUPERIORITY|||||||0.046||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|3 degrees of freedom||NIH Toolbox Flanker Score||||0.046
82472658|NCT03284307|164639705|SUPERIORITY|||||||0.01||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|6 degrees of freedom||NIH Toolbox Flanker Score||||0.010
82472659|NCT03284307|164639705|SUPERIORITY|||||||0.356||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|||NIH Toolbox Flanker Score||||0.356
82472660|NCT03284307|164639706|SUPERIORITY||||||<|0.001||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|17 degrees of freedom||Predictive Coding Task Accuracy||||<0.001
82472661|NCT03284307|164639706|SUPERIORITY||||||<|0.001||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|14 degrees of freedom||Predictive Coding Task Accuracy||||<0.001
82472662|NCT03284307|164639706|SUPERIORITY|||||||0.067||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|4 degrees of freedom||Predictive Coding Task Accuracy||||0.067
82472663|NCT03284307|164639707|SUPERIORITY|||||||0.5||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|17 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.5
82586031|NCT00585195|164883975|SUPERIORITY||Ratio of adjusted geometric means|350.0|||||TWO_SIDED|90.0|141.09|868.23||||||||868.23|141.09|
82586032|NCT00585195|164883975|SUPERIORITY||Ratio of adjusted geometric means|365.43|||||TWO_SIDED|90.0|263.22|507.31||||||||507.31|263.22|
82472664|NCT03284307|164639707|SUPERIORITY|||||||0.37||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|11 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.37
82472665|NCT03284307|164639707|SUPERIORITY|||||||0.12||||||Statistical significance defined by p \< 0.05.|t-test, 2 sided|4 degrees of freedom||Null hypothesis is a 50% recall rate.||||0.12
82472666|NCT03085797|164639752|SUPERIORITY||Difference in Medians|-0.73|||<|0.001|TWO_SIDED|95.0|-1.11|-0.34||p-Value was based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment,region,Baseline score,Baseline eosinophilcount(BEC). Par. with nasal surgery prior to Wk52/withdrew early with no nasal surgery assigned their worst observed score prior to nasal surgery/study withdrawal|||-0.34|-1.11|<0.001
82472667|NCT03085797|164639753|SUPERIORITY||Difference in Medians|-3.14|||<|0.001|TWO_SIDED|95.0|-4.09|-2.18||p-Value was based on Wilcoxon rank-sum test.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-2.18|-4.09|<0.001
82472668|NCT03085797|164639754|SUPERIORITY||Hazard Ratio (Mepolizumab/Placebo)|0.43||||0.003|TWO_SIDED|95.0|0.25|0.76||p-Value was based on Cox Proportional Hazards Model.|Cox Proportional Hazards Model||Analysis using a Cox Proportional Hazards Model with covariates of treatment, geographic region, Baseline total endoscopic score (centrally read), Baseline nasal obstruction VAS, Baseline BEC, number of previous surgeries (1, 2, \>2 as ordinal).|||0.76|0.25|0.003
82472669|NCT03085797|164639755|OTHER||Difference in Medians|-3.18||||0.003|TWO_SIDED|95.0|-4.1|-2.26||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-2.26|-4.10|0.003
82472670|NCT03085797|164639756|OTHER||Difference in Medians|-16.49||||0.003|TWO_SIDED|95.0|-23.57|-9.42||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wk 52/withdrew early with no nasal surgery assigned their worst observed score prior to nasal surgery/study withdrawal.|||-9.42|-23.57|0.003
82472671|NCT03085797|164639757|OTHER||Odds Ratio (OR)|0.58||||0.02|TWO_SIDED|95.0|0.36|0.92||p-Value was based on logistic regression model and is adjusted for multiplicity.|Regression, Logistic||Covariates: treatment group, geographic region, number of oral corticosteroids courses for NP in last 12 months(0,1,\>1 as ordinal), Baseline total endoscopic score(centrally read),Baseline nasal obstruction VAS score,log(e) Baseline eosinophil count.|||0.92|0.36|0.020
82472672|NCT03085797|164639758|OTHER||Difference in Medians|-2.68||||0.02|TWO_SIDED|95.0|-3.44|-1.91||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-1.91|-3.44|0.020
82472673|NCT03085797|164639759|OTHER||Difference in Medians|-0.37||||0.02|TWO_SIDED|95.0|-0.65|-0.08||p-Value was based on Wilcoxon rank-sum test and is adjusted for multiplicity.|Wilcoxon rank-sum test||Quantile regression with covariates: treatment, region, Baseline score, Baseline BEC. Par. with nasal surgery prior to Wks 49-52/withdrew early with no nasal surgery assigned their worst observed 4-wk mean prior to nasal surgery/study withdrawal.|||-0.08|-0.65|0.020
82472674|NCT06170242|164639773|SUPERIORITY|P-values are from analysis of covariance (ANCOVA) with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in least square (LS) means|-540.56|||<|0.0001|TWO_SIDED|95.0|-680.8|-400.33|||ANCOVA|||High Dose versus (vs) Placebo||-400.33|-680.80|<0.0001
82472675|NCT06170242|164639773|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-523.12|||<|0.0001|TWO_SIDED|95.0|-674.46|-371.78|||ANCOVA|||Low Dose vs Placebo||-371.78|-674.46|<0.0001
82472676|NCT06170242|164639773|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS means|-536.3|||<|0.0001|TWO_SIDED|95.0|-641.71|-430.89|||ANCOVA|||Pooled EDP-323 vs Placebo||-430.89|-641.71|<0.0001
82472677|NCT06170242|164639774|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.85|-2.81|||ANCOVA|||High Dose vs Placebo||-2.81|-4.85|<0.0001
82472678|NCT06170242|164639774|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-4.16|||<|0.0001|TWO_SIDED|95.0|-5.44|-2.89|||ANCOVA|||Low Dose vs Placebo||-2.89|-5.44|<0.0001
82472679|NCT06170242|164639775|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-0.29||||0.633|TWO_SIDED|95.0|-1.5|0.92|||ANCOVA|||High Dose vs Placebo||0.92|-1.50|0.6330
82472680|NCT06170242|164639775|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-0.14||||0.8309|TWO_SIDED|95.0|-1.46|1.17|||ANCOVA|||Lose Dose vs Placebo||1.17|-1.46|0.8309
82547931|NCT01820260|164796086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82547932|NCT01820260|164796086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82547933|NCT01820260|164796086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82547934|NCT02991534|164796163|SUPERIORITY||Odds Ratio (OR)|1.09||||0.003|TWO_SIDED|95.0|1.03|1.152|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.152|1.030|.003
82547935|NCT02991534|164796164|SUPERIORITY||Odds Ratio (OR)|1.0||||0.91|TWO_SIDED|95.0|0.976|1.022|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.022|0.976|0.91
82472681|NCT06170242|164639777|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-1.57||||0.0021|TWO_SIDED|95.0|-2.53|-0.61|||ANCOVA|||High Dose vs Placebo.||-0.61|-2.53|0.0021
82472682|NCT06170242|164639777|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the qRT-PCR viral load value at the time of first dose of IMP.|Difference in LS mean|-1.09||||0.0905|TWO_SIDED|95.0|-2.35|0.18|||ANCOVA|||Lose Dose vs Placebo||0.18|-2.35|0.0905
82472683|NCT06170242|164639780|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-203.63|||<|0.0001|TWO_SIDED|95.0|-272.18|-135.07|||ANCOVA|||High Dose vs Placebo||-135.07|-272.18|<0.0001
82472684|NCT06170242|164639780|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-215.03|||<|0.0001|TWO_SIDED|95.0|-288.84|-141.22|||ANCOVA|||Low Dose vs Placebo||-141.22|-288.84|<0.0001
82472685|NCT06170242|164639781|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-3.22|||<|0.0001|TWO_SIDED|95.0|-4.05|-2.4|||ANCOVA|||High Dose vs Placebo||-2.40|-4.05|<0.0001
82472686|NCT06170242|164639781|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-3.23|||<|0.0001|TWO_SIDED|95.0|-4.11|-2.34|||ANCOVA|||Low Dose vs Placebo||-2.34|-4.11|<0.0001
82472687|NCT06170242|164639782|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|1.44||||0.0238|TWO_SIDED|95.0|0.2|2.68|||ANCOVA|||High Dose vs Placebo||2.68|0.20|0.0238
82472688|NCT06170242|164639782|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|1.68||||0.0134|TWO_SIDED|95.0|0.36|2.99|||ANCOVA|||Low Dose vs Placebo||2.99|0.36|0.0134
82472689|NCT06170242|164639784|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-2.18||||0.0389|TWO_SIDED|95.0|-4.23|-0.12|||ANCOVA|||High Dose vs Placebo||-0.12|-4.23|0.0389
82472690|NCT06170242|164639784|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the cell culture viral load value at the time of first dose of IMP.|Difference in LS mean|-1.31||||0.2713|TWO_SIDED|95.0|-3.73|1.1|||ANCOVA|||Low Dose vs Placebo||1.10|-3.73|0.2713
82472691|NCT06170242|164639786|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-280.61|||<|0.0001|TWO_SIDED|95.0|-404.44|-156.77|||ANCOVA|||High Dose vs Placebo||-156.77|-404.44|<0.0001
82547936|NCT02991534|164796165|SUPERIORITY||Odds Ratio (OR)|1.06||||0.265|TWO_SIDED|95.0|0.959|1.165|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.165|.959|.265
82547937|NCT02991534|164796166|SUPERIORITY||Odds Ratio (OR)|1.01||||0.015|TWO_SIDED|95.0|1.002|1.022|||Non-linear model with Logit|Non-linear model with Logit Link Function with Robust Standard Errors||||1.022|1.002|0.015
82547938|NCT00894543|164796180|SUPERIORITY_OR_OTHER||||||<|0.001||||||P values from comparison of Escitalopram vs placebo in a linear model of the outcome as a function of intervention group and adjusted for race, clinical center, baseline outcome, and visit (week 4 or week 8).|Regression, Linear|Natural log transformations applied to hot flash frequencies for modeling assumptions.||Based on data from the Herbal Alternatives for Menopause (HALT) study, MsFLASH estimated that 90 women in each treatment group provide 90% power to detect a difference between drug and placebo with a 2-sided alpha of 0.025 to account for two primary outcomes of hot flash frequency and severity.||||<0.001
82586033|NCT00585195|164883978|SUPERIORITY||Ratio of adjusted geometric mean|15.57|||||TWO_SIDED|90.0|10.89|22.26||||||||22.26|10.89|
82472692|NCT06170242|164639786|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-301.15|||<|0.0001|TWO_SIDED|95.0|-428.53|-173.76|||ANCOVA|||Low Dose vs Placebo||-173.76|-428.53|<0.0001
82472693|NCT06170242|164639787|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-3.64|||<|0.0001|TWO_SIDED|95.0|-5.26|-2.02|||ANCOVA|||High Dose vs Placebo||-2.02|-5.26|<0.0001
82472694|NCT06170242|164639787|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-3.7|||<|0.0001|TWO_SIDED|95.0|-5.35|-2.05|||ANCOVA|||Low Dose vs Placebo||-2.05|-5.35|<0.0001
82472695|NCT06170242|164639788|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-1.08||||0.0552|TWO_SIDED|95.0|-2.19|0.03|||ANCOVA|||High Dose vs Placebo||0.03|-2.19|0.0552
82472696|NCT06170242|164639788|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-0.38||||0.5599|TWO_SIDED|95.0|-1.69|0.92|||ANCOVA|||Low Dose vs Placebo||0.92|-1.69|0.5599
82472697|NCT06170242|164639789|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-1.04||||0.0307|TWO_SIDED|95.0|-1.97|-0.1|||ANCOVA|||High Dose vs Placebo||-0.10|-1.97|0.0307
82586034|NCT00585195|164883979|SUPERIORITY||Ratio of adjusted geometric mean|20.64|||||TWO_SIDED|90.0|14.59|29.18||||||||29.18|14.59|
82472698|NCT06170242|164639789|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the TSS value at the time of first dose of IMP.|Difference in LS mean|-0.53||||0.4119|TWO_SIDED|95.0|-1.81|0.76|||ANCOVA|||||0.76|-1.81|0.4119
82472699|NCT06170242|164639790|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-13.37||||0.0042|TWO_SIDED|95.0|-22.34|-4.4|||ANCOVA|||High Dose vs Placebo||-4.40|-22.34|0.0042
82472700|NCT06170242|164639790|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-13.19||||0.0058|TWO_SIDED|95.0|-22.38|-4.0|||ANCOVA|||Low Dose vs Placebo||-4.00|-22.38|0.0058
82472701|NCT06170242|164639791|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-18.72||||0.0026|TWO_SIDED|95.0|-30.61|-6.84|||ANCOVA|||High Dose vs Placebo||-6.84|-30.61|0.0026
82472702|NCT06170242|164639791|SUPERIORITY|P-values are from ANCOVA with treatment group as main effect and the baseline value as a covariate. The baseline value is defined as the biospecimen value at the time of first dose of IMP.|Difference in LS mean|-19.28||||0.0022|TWO_SIDED|95.0|-31.3|-7.26|||ANCOVA|||||-7.26|-31.30|0.0022
82472703|NCT03682770|164639817|SUPERIORITY||Difference in percentage|20.23||||0.042|TWO_SIDED|95.0|1.266|39.189||The p-value was derived by Cochran-Mantel-Haenszel (CMH) test stratified by screening peanut-specific IgE level and baseline body weight.|Cochran-Mantel-Haenszel||Difference in percentage derived by Mantel-Haenszel (MH) method|||39.189|1.266|0.0420
82472704|NCT03682770|164639818|SUPERIORITY||Least Square Mean Difference|0.67||||0.04|TWO_SIDED|95.0|0.031|1.305||P-value is based on treatment difference (dupilumab + AR101 vs placebo + AR101) of the LS mean change using analysis of covariance (ANCOVA) model.|ANCOVA|||||1.305|0.031|0.0400
82472705|NCT03682770|164639819|SUPERIORITY||Difference in percentage|11.91||||0.0806|TWO_SIDED|95.0|-3.612|27.44||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kilo allergy unit per liter \[kUA/L\] vs \>100 kUA/L) and body weight (\<30 kg, \>=30 and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||27.440|-3.612|0.0806
82472706|NCT03682770|164639821|SUPERIORITY||Difference in percentage|10.4||||0.353|TWO_SIDED|95.0|-11.668|32.474||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kUA/L vs \>100 kUA/L) and baseline body weight (\<30 kg, \>=30 kg and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||32.474|-11.668|0.3530
82472707|NCT03682770|164639822|SUPERIORITY||Least Square Mean Difference|0.37||||0.2628|TWO_SIDED|95.0|-0.281|1.029||P-value is based on treatment difference of the LS mean change using ANCOVA model with baseline tolerated cumulative amount of peanut protein DBPCFC (log transformed) as covariate and the treatment screening peanut-specific IgE level and baseline.|ANCOVA|||||1.029|-0.281|0.2628
82472708|NCT03682770|164639823|SUPERIORITY||Difference in percentage|-2.36||||0.814|TWO_SIDED|95.0|-25.004|20.282||P-values were derived by CMH test stratified by screening peanut-specific IgE level (\<=100 kUA/L vs \>100 kUA/L) and baseline body weight (\<30 kg, \>=30 kg and \<60 kg, or \>=60 kg).|Cochran-Mantel-Haenszel||Difference in percentage derived by MH method|||20.282|-25.004|0.8140
82472709|NCT03682770|164639824|SUPERIORITY||Least Square Mean Difference|-0.05||||0.8805|TWO_SIDED|95.0|-0.699|0.599||P-value is based on treatment difference of the LS mean change using ANCOVA model with baseline tolerated cumulative amount of peanut protein DBPCFC (log transformed) as covariate and the treatment screening peanut-specific IgE level and baseline.|ANCOVA|||||0.599|-0.699|0.8805
82472710|NCT03682770|164639826|SUPERIORITY||Difference percentage|-85.55|||<|0.0001|TWO_SIDED|95.0|-99.47|-73.91||P-value was based on treatment difference (vs. Continuously on Placebo + AR101) in percent change from baseline using rank-based ANCOVA model with baseline measurement as covariate,- and stratification factors and the treatment as fixed factors.|ANCOVA||Median difference and its 95% CIs were estimated with the Hodges-Lehmann method.|||-73.91|-99.47|<0.0001
82472711|NCT03682770|164639827|SUPERIORITY||Difference in percentage|-68.78|||<|0.0001|TWO_SIDED|95.0|-86.71|-56.4||P-value was based on treatment difference (vs. Continuously on Placebo + AR101) in percent change from baseline using rank-based ANCOVA model with baseline measurement as covariate, and stratification factors and the treatment as fixed factors.|ANCOVA||Median difference and its 95% CIs were estimated with the Hodges-Lehmann method.|||-56.40|-86.71|<0.0001
82472712|NCT01317277|164639835|SUPERIORITY|||||||0.68||||||In between-group analyses, overall MEMS adherence was defined as % of doses taken.|Wilcoxon (Mann-Whitney)|Non-parametric methods.||Randomization strategy for target 75 participants of 2:1 \[iTAB(n=50):CTRL(n=25)\], resulting in 80% power to detect effect size of .71 for difference of adherence rates between groups (Wilcoxon-Mann-Whitney critical t=1.99, df=69.6). Final # analyzed: iTAB (n=43) \& CTRL (n=23).||||0.68
82472713|NCT01317277|164639836|SUPERIORITY|||||||0.95||||||MEMS adherence based on dose timing was examined for between-group differences.|Wilcoxon (Mann-Whitney)|Non-parametric methods||Randomization strategy for target 75 participants of 2:1 \[iTAB(n=50):CTRL(n=25)\], resulting in 80% power to detect effect size of .71 for difference of adherence rates between groups (Wilcoxon-Mann-Whitney critical t=1.99, df=69.6). Final # analyzed: iTAB (n=43) \& CTRL (n=23).||||0.95
82472714|NCT01317277|164639837|SUPERIORITY|||||||0.05||||||Z = -1.97|Wilcoxon (Mann-Whitney)|Non-parametric methods; P-Value is calculated.||Text-reported METH use days||||0.05
82472715|NCT02688777|164639845|SUPERIORITY||Hazard Ratio, log|0.6|||||TWO_SIDED|||||||||||||
82472716|NCT02688777|164639846|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.37|TWO_SIDED|||||A priori threshold for significance is p \< 0.05.|t-test, 2 sided|||||||0.37
82472717|NCT02688777|164639847|SUPERIORITY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.02||0.13|TWO_SIDED|||||A priori threshold set for p \< 0.05|t-test, 2 sided|||||||0.13
82472718|NCT02688777|164639848|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.0||0.4|TWO_SIDED|||||A priori threshold p \< 0.05 for statistical significance.|t-test, 2 sided|||||||0.40
82472719|NCT02688777|164639849|SUPERIORITY||Mean Difference (Final Values)|5.7|STANDARD_ERROR_OF_MEAN|3.4||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
82586035|NCT00585195|164883981|SUPERIORITY||Ratio of adjusted geometric means|157.4|||||TWO_SIDED|90.0|136.89|180.97||||||||180.97|136.89|
82472720|NCT02688777|164639850|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|1.1||0.43|TWO_SIDED|||||A priori threshold set at p \< 0.05 for statistical significance.|t-test, 2 sided|||||||0.43
82472721|NCT02688777|164639851|SUPERIORITY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.8||0.02|TWO_SIDED|||||A prior threshold for significance set at p \< 0.05|t-test, 2 sided|||||||0.02
82650801|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.49||||0.0011|TWO_SIDED|95.0|1.17|1.89|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.89|1.17|0.0011
82472722|NCT02688777|164639852|SUPERIORITY||Mean Difference (Final Values)|13.95|STANDARD_ERROR_OF_MEAN|8.9||0.28|TWO_SIDED||||||t-test, 2 sided|||||||0.28
82472723|NCT02688777|164639853|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
82472724|NCT02688777|164639854|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
82472725|NCT02688777|164639855|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82472726|NCT02688777|164639856|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82472727|NCT02688777|164639857|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
82472728|NCT02549365|164639858|OTHER||Odds Ratio (OR)|2.89|||||TWO_SIDED|95.0|0.6|13.9|||||Incidence of laboratory confirmed influenza is compared between those vaccinated and household controls. VE will be calculated as 1 - RR with 95% confidence intervals using Poisson regression.|||13.9|0.6|
82472729|NCT00912795|164639861|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.62|6.3||||||||6.3|0.62|
82472730|NCT00912795|164639862|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3|||||TWO_SIDED|95.0|0.5|3.2||||||||3.2|0.50|
82472731|NCT00912795|164639863|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.5|||||TWO_SIDED|95.0|0.81|7.5||||||||7.5|0.81|
82472732|NCT00912795|164639864|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.62|6.3||||||||6.3|.62|
82472733|NCT01075685|164639906|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||Type 3 tests of fixed effects|||||||0.0279
82472734|NCT01075685|164639907|SUPERIORITY_OR_OTHER|||||||0.0189||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0189
82472735|NCT01075685|164639908|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Chi-squared|||||||0.009
82472736|NCT01075685|164639909|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||Chi-squared|||||||0.082
82586036|NCT00585195|164883982|SUPERIORITY||Ratio of adjusted geometric means|132.81|||||TWO_SIDED|90.0|119.1|148.1||||||||148.10|119.10|
82472737|NCT00531661|164639910|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Negative Binomial Regression|||||||0.0002
82472738|NCT00531661|164639911|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implantation cases free from DSRC to OPC of 0.80.||"Analysis of DSRC was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from DSRC rate for all implantation cases was at least 80%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 80%~Alternative: (Freedom from device / system-related complications) \> 80%"||||<0.0001
82472739|NCT00531661|164639912|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from pressure sensor failure to OPC of 0.90.||"Analysis of sensor failures was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from pressure sensor failure rate for all patients implanted was at least 90%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 90%~Alternative: (Freedom from device / system-related complications) \> 90%"||||<0.0001
82472740|NCT00531661|164639913|SUPERIORITY_OR_OTHER|||||||0.0077||95.0|||||ANCOVA|||||||0.0077
82472741|NCT00531661|164639914|SUPERIORITY_OR_OTHER|||||||0.0292||95.0|||||Fisher Exact|||||||0.0292
82472742|NCT00531661|164639915|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0280
82472743|NCT00531661|164639916|SUPERIORITY_OR_OTHER|||||||0.0236||95.0|||||t-test, 2 sided|||||||0.0236
82472744|NCT00531661|164639917|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Negative Binomial Regression|||||||<0.0001
82472745|NCT00531661|164639918|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from DSRC to OPC of 0.80.||"Analysis of DSRC was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from DSRC rate for all implanted patients was at least 80%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 80%~Alternative: (Freedom from device / system-related complications) \> 80%"||||<0.0001
82472746|NCT00531661|164639919|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||exact test of binomial proportions|P-value from exact test of binomial proportions compared proportion of all implanted patients free from pressure sensor failure to OPC of 0.90.||"Analysis of sensor failures was based on the following pre-specified objective performance criteria: the lower limit of the two-sided 95.2% confidence interval on the freedom from pressure sensor failure rate for all implanted patients was at least 90%. The statistical hypotheses were:~Null: (Freedom from device / system-related complications) ≤ 90%~Alternative: (Freedom from device / system-related complications) \> 90%"||||<0.0001
82472747|NCT02858362|164639926|OTHER|Difference in least square means. All 23 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|0.023|||||TWO_SIDED|95.0|-0.002|0.048||||||Week 24 Change from Baseline||0.048|-0.002|
82472748|NCT02858362|164639926|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|0.006|||||TWO_SIDED|95.0|-0.03|0.042||||||Week 48 Change from Baseline||0.042|-0.03|
82650802|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.12||||0.3249|TWO_SIDED|95.0|0.89|1.41|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.41|0.89|0.3249
82472749|NCT02858362|164639927|OTHER|Difference in least square means. All 24 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|-2.611|||||TWO_SIDED|95.0|-4.324|-0.898||||||Week 24 Change from Baseline||-0.898|-4.324|
82472750|NCT02858362|164639927|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|1.166|||||TWO_SIDED|95.0|-1.103|3.435||||||Week 48 Change from Baseline||3.435|-1.103|
82472751|NCT02858362|164639928|OTHER|Difference in least square means. All 24 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|-1.837|||||TWO_SIDED|95.0|-3.989|0.315||||||Week 24 Change from Baseline||0.315|-3.989|
82472752|NCT02858362|164639928|OTHER|Difference in least square means. All 16 participants in the population were included in the statistical analysis.|Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|0.096|4.324||||||Week 48 Change from Baseline||4.324|0.096|
82472753|NCT00439517|164639971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.0048|TWO_SIDED|95.0|0.515|0.889|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||0.889|0.515|0.0048
82472754|NCT00439517|164639972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.756||||0.016|TWO_SIDED|95.0|1.11|2.777|||Cochran-Mantel-Haenszel|Stratified odds ratio and Cochran-Mantel- Haenszel (CMH) statistics were calculated considering the randomization strata.||||2.777|1.110|0.016
82472755|NCT00439517|164639973|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.855||||0.3797|TWO_SIDED|95.0|0.603|1.213|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.213|0.603|0.3797
82472756|NCT00439517|164639974|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.977||||0.8575|TWO_SIDED|95.0|0.755|1.263|||Stratified log rank||Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.|||1.263|0.755|0.8575
82472757|NCT03599089|164639983|SUPERIORITY|||||||0.005|||||||ANOVA|||||||0.005
82547939|NCT00894543|164796184|SUPERIORITY_OR_OTHER||||||<|0.001||||||P values from comparison of Escitalopram vs placebo in a linear model of the outcome as a function of intervention group and adjusted for race, clinical center, baseline outcome, and visit (week 4 or week 8).|Regression, Linear|Natural log transformations applied to hot flash frequencies for modeling assumptions.||Based on data from the Herbal Alternatives for Menopause (HALT) study, MsFLASH estimated that 90 women in each treatment group provide 90% power to detect a difference between drug and placebo with a 2-sided alpha of 0.025 to account for two primary outcomes of hot flash frequency and severity.||||<0.001
82547940|NCT00894543|164796185|SUPERIORITY_OR_OTHER|||||||0.001|||||||Regression, Linear|||||||0.001
82547941|NCT05198310|164796271|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.281||0.047|TWO_SIDED|95.0|-1.13|-0.01||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||-0.01|-1.13|0.0470
82547942|NCT05198310|164796271|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.282||0.2124|TWO_SIDED|95.0|-0.92|0.21||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||0.21|-0.92|0.2124
82547943|NCT05198310|164796271|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.352||0.1091|TWO_SIDED|95.0|-1.28|0.13||Analyzed using ANCOVA model with baseline value and stratification factor (≤1 vs. ≥2 classes of advanced targeted therapies) as covariates.|ANCOVA|||||0.13|-1.28|0.1091
82650803|NCT01360632|165016449|SUPERIORITY_OR_OTHER||Ratio of response rate|1.33||||0.0122|TWO_SIDED|95.0|1.06|1.66|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. The Efficacy Sample Set included all participants who had received at least one dose of study treatment and had both an end of Phase A (Week 8) value and at least 1 post randomization efficacy evaluation for MADRS Total Score in Phase B. The LOCF method was used to impute missing data.||1.66|1.06|0.0122
82472758|NCT03599089|164639984|SUPERIORITY|||||||0.0245|||||||Regression, Logistic|||||||0.0245
82472759|NCT03599089|164639985|SUPERIORITY|||||||0.0019|||||||ANOVA|||||||0.0019
82472760|NCT00976560|164640018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.99|||TWO_SIDED|95.0|-2.54|1.35|||BMMRM|Bayesian Mixed Effects Model Repeated Measures (BMMRM)|Prior distribution of N(-4.1, 6.4009) incorporated into the posterior for the treatment difference at Week 6. The presented Confidence Interval is Highest Probability Density (HPD).||Posterior probability of the treatment difference being greater than 1.6 points in favor of GW856553 7.5mg BID as compared to placebo at Week 6 is 15.46 and for 0 is 72.98 and for 2 is 7.87.|1.35|-2.54|
82472761|NCT05340478|164640051|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82472762|NCT00092443|164640058|SUPERIORITY_OR_OTHER||Efficacy = 1-Relative Risk|72.5|||<|0.001||95.0|50.6|85.6|||Exact Binomial Test||Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group.|||85.6|50.6|<0.001
82547944|NCT05198310|164796272|SUPERIORITY|||||||0.0312|||||||t-test|||||||0.0312
82547945|NCT05198310|164796272|SUPERIORITY|||||||0.0338|||||||t-test|||||||0.0338
82547946|NCT05198310|164796276|SUPERIORITY|||||||0.0333|||||||Fisher exact test|||||||0.0333
82472763|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|56.7||||||95.0|44.0|66.8||||||||66.8|44.0|
82472764|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|2.7||||||95.0|0.3|9.5||||||||9.5|0.3|
82472765|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|14.5||||||95.0|6.9|25.8||||||||25.8|6.9|
82472766|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|0.0||||||95.0|0.0|5.1||||||||5.1|0.0|
82472767|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|9.0||||||95.0|3.4|18.5||||||||18.5|3.4|
82472768|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|0.0||||||95.0|0.0|4.8||||||||4.8|0.0|
82472769|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|39.7||||||95.0|27.6|52.8||||||||52.8|27.6|
82472770|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|1.4||||||95.0|0.0|7.7||||||||7.7|0.0|
82472771|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|24.6||||||95.0|14.5|37.3||||||||37.3|14.5|
82472772|NCT00092443|164640059|SUPERIORITY_OR_OTHER||Percent of Participants|2.9||||||95.0|0.4|10.1||||||||10.1|0.4|
82547947|NCT05198310|164796276|SUPERIORITY|||||||0.1905|||||||Fisher exact test|||||||0.1905
82472773|NCT02963506|164640061|OTHER||Correlation statistic|17.9|||<|0.001|||||||Cochran-Mantel-Haenszel|||Statistic and p-value were calculated using a Cochran-Mantel-Haenszel test (test for non-zero correlation statistic) based on modified ridit scores and including geographic region and prior Tumor Necrosis Factor (TNF) inhibitor exposure as stratification factors.||||<0.001
82472774|NCT02963506|164640061|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|2.6|||=|0.04|TWO_SIDED|95.0|1.04|6.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior tumor necrosis factor (TNF) inhibitor exposure.||6.48|1.04|=0.040
82472775|NCT02963506|164640061|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|4.5|||=|0.001|TWO_SIDED|95.0|1.83|10.86||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||10.86|1.83|=0.001
82472776|NCT02963506|164640061|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|5.5|||<|0.001|TWO_SIDED|95.0|2.27|13.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||13.48|2.27|<0.001
82472777|NCT02963506|164640061|OTHER|The pairwise testing of each bimekizumab dose versus placebo accounted for multiplicity by using a fixed sequence testing procedure with each bimekizumab dose being tested sequentially from the highest dose to the lowest dose. If the sequential testing failed to reach significance at a significance level of alpha=0.05, then the pairwise testing continued and the comparison was seen as non-significant.|Odds Ratio (OR)|5.3|||<|0.001|TWO_SIDED|95.0|2.19|12.92||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||12.92|2.19|<0.001
82472778|NCT02963506|164640062|OTHER||LS Mean Difference vs placebo|-0.5|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-0.86|-0.24|||ANCOVA|||Least squares (LS) Mean, standard error, confidence interval and p-value were derived using the analysis of covariance (ANCOVA) model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.24|-0.86|<0.001
82472779|NCT02963506|164640062|OTHER||LS Mean Difference vs placebo|-1.2|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.47|-0.83|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.83|-1.47|<0.001
82472780|NCT02963506|164640062|OTHER||LS Mean Difference vs placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.35|-0.72|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.72|-1.35|<0.001
82472781|NCT02963506|164640062|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.45|-0.82|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.82|-1.45|<0.001
82472782|NCT02963506|164640063|OTHER||Odds Ratio (OR)|1.7|||=|0.163|TWO_SIDED|95.0|0.8|3.67||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||3.67|0.80|=0.163
82472783|NCT02963506|164640063|OTHER||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|1.84|8.48||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||8.48|1.84|<0.001
82472784|NCT02963506|164640063|OTHER||Odds Ratio (OR)|3.5|||=|0.001|TWO_SIDED|95.0|1.66|7.61||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||7.61|1.66|=0.001
82472785|NCT02963506|164640063|OTHER||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|2.92|14.28||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||14.28|2.92|<0.001
82472786|NCT02963506|164640064|OTHER||Odds Ratio (OR)|5.3|||=|0.003|TWO_SIDED|95.0|1.74|15.96||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||15.96|1.74|=0.003
82547948|NCT05198310|164796276|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0716|TWO_SIDED|95.0|0.9|9.65|||Cochran-Mantel-Haenszel|||||9.65|0.90|0.0716
82547949|NCT05198310|164796276|SUPERIORITY||Odds Ratio (OR)|1.52||||0.471|TWO_SIDED|95.0|0.5|4.67|||Cochran-Mantel-Haenszel|||||4.67|0.50|0.4710
82547950|NCT05198310|164796276|SUPERIORITY||Odds Ratio (OR)|6.09||||0.0057|TWO_SIDED|95.0|1.62|22.88|||Cochran-Mantel-Haenszel|||||22.88|1.62|0.0057
82547951|NCT05198310|164796277|SUPERIORITY|||||||0.0762|||||||Fisher exact test|||||||0.0762
82579802|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 500 lux is reported."|Slope|1.62||||0.0239|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0239
82579803|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|0.93||||0.0435|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0435
82579804|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Ctime at 500 lux is reported."|Slope|1.26||||0.0126|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0126
82579805|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 50 lux is reported."|Slope|-0.73||||0.0294|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0294
82579806|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D1m at 50 lux is reported."|Slope|0.96||||0.0204|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0204
82472787|NCT02963506|164640064|OTHER||Odds Ratio (OR)|11.9|||<|0.001|TWO_SIDED|95.0|4.03|35.38||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||35.38|4.03|<0.001
82472788|NCT02963506|164640064|OTHER||Odds Ratio (OR)|14.3|||<|0.001|TWO_SIDED|95.0|4.81|42.46||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||42.46|4.81|<0.001
82547952|NCT05198310|164796277|SUPERIORITY|||||||1|||||||Fisher exact test|||||||1.000
82547953|NCT05198310|164796277|SUPERIORITY||Odds Ratio (OR)|1.67||||0.4172|TWO_SIDED|95.0|0.49|5.62|||Cochran-Mantel-Haenszel|||||5.62|0.49|0.4172
82547954|NCT05198310|164796277|SUPERIORITY||Odds Ratio (OR)|1.89||||0.3144|TWO_SIDED|95.0|0.55|6.45|||Cochran-Mantel-Haenszel|||||6.45|0.55|0.3144
82650804|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.22||||0.5836|TWO_SIDED|95.0|0.6|2.49|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.49|0.60|0.5836
82376885|NCT03104400|164460613|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.34|||<|0.0001|TWO_SIDED|95.0|-0.4|-0.27|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.27|-0.40|<0.0001
82547955|NCT05198310|164796277|SUPERIORITY||Odds Ratio (OR)|0.97||||0.956|TWO_SIDED|95.0|0.28|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.28|0.9560
82547956|NCT05198310|164796278|SUPERIORITY|||||||0.4667|||||||Fisher exact test|||||||0.4667
82547957|NCT05198310|164796278|SUPERIORITY|||||||1|||||||Fisher exact test|||||||1.0000
82547958|NCT05198310|164796278|SUPERIORITY||Odds Ratio (OR)|1.95||||0.5789|TWO_SIDED|95.0|0.17|22.3|||Cochran-Mantel-Haenszel|||||22.30|0.17|0.5789
82547959|NCT05198310|164796278|SUPERIORITY||Odds Ratio (OR)|6.12||||0.0799|TWO_SIDED|95.0|0.62|60.1|||Cochran-Mantel-Haenszel|||||60.10|0.62|0.0799
82547960|NCT05198310|164796278|SUPERIORITY||Odds Ratio (OR)|0.28||||0.1034|TWO_SIDED|95.0|0.06|1.35|||Cochran-Mantel-Haenszel|||||1.35|0.06|0.1034
82650805|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.31||||0.3792|TWO_SIDED|95.0|0.73|2.37|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 9. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.37|0.73|0.3792
82650806|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.77||||0.0101|TWO_SIDED|95.0|1.14|2.74|||Ratio of response rate|CMH general association test controlling for trial site||Statistical analysis 1 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.74|1.14|0.0101
82472789|NCT02963506|164640064|OTHER||Odds Ratio (OR)|14.9|||<|0.001|TWO_SIDED|95.0|5.02|44.27||The p-values were displayed as nominal p-values.|Regression, Logistic|||For differences in relation to placebo: Odds Ratio, confidence interval and p-value were derived from a logistic regression model including fixed effects for treatment, geographic region and prior TNF inhibitor exposure.||44.27|5.02|<0.001
82472790|NCT02963506|164640065|OTHER||LS Mean Difference vs placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.36|=|0.094|TWO_SIDED|95.0|-1.31|0.1|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||0.10|-1.31|=0.094
82472791|NCT02963506|164640065|OTHER||LS Mean Difference vs placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.34|-0.91|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.91|-2.34|<0.001
82472792|NCT02963506|164640065|OTHER||LS Mean Difference vs placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.35|-0.91|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.91|-2.35|<0.001
82472793|NCT02963506|164640065|OTHER||LS Mean Difference vs placebo|-1.9|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.6|-1.18|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-1.18|-2.60|<0.001
82472794|NCT02963506|164640066|OTHER||LS Mean Difference vs placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.36|=|0.075|TWO_SIDED|95.0|-1.35|0.07|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||0.07|-1.35|=0.075
82472795|NCT02963506|164640066|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.36|=|0.003|TWO_SIDED|95.0|-1.79|-0.37|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.37|-1.79|=0.003
82472796|NCT02963506|164640066|OTHER||LS Mean Difference vs placebo|-1.1|STANDARD_ERROR_OF_MEAN|0.36|=|0.002|TWO_SIDED|95.0|-1.84|-0.42|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.42|-1.84|=0.002
82472797|NCT02963506|164640066|OTHER||LS Mean Difference vs placebo|-1.5|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.22|-0.81|||ANCOVA|||LS Mean, standard error, confidence interval and p-value were derived using the ANCOVA model with treatment, geographic region and prior TNF inhibitor exposure as fixed effects and the Baseline value as covariate.||-0.81|-2.22|<0.001
82472798|NCT00630838|164640091|SUPERIORITY_OR_OTHER||||||=|0.897|TWO_SIDED||||||t-test, 2 sided|||||||=0.897
82472799|NCT03843541|164640119|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_DEVIATION|0.763|<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||<0.001
82472800|NCT03843541|164640120|SUPERIORITY||Mean Difference (Net)|-0.29|STANDARD_DEVIATION|0.783||0.002|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||0.002
82472801|NCT03843541|164640121|SUPERIORITY|||||||0.239|||||||Stratified Mann-Whitney U Statistic|||||||0.239
82472802|NCT03843541|164640122|SUPERIORITY|||||||0.037|||||||Stratified Mann-Whitney U Statistic|||For the superiority comparisons of NAC vs. placebo, the Bonferroni correction was used.||||0.037
82472803|NCT03843541|164640123|SUPERIORITY|||||||0.093|||||||Stratified Mann Whitney U Statistic|||||||0.093
82472804|NCT03843541|164640123|SUPERIORITY|||||||0.118|||||||Stratified Mann Whitney U Statistic|||||||0.118
82472805|NCT03843541|164640124|SUPERIORITY|||||||0.022|||||||Stratified Mann Whitney U Statistic|||||||0.022
82472806|NCT03843541|164640124|SUPERIORITY|||||||0.11|||||||Stratified Mann Whitney U Statistic|||||||0.110
82472807|NCT03843541|164640125|SUPERIORITY|||||||0.022|||||||Stratified Mann Whitney U Statistic|||||||0.022
82472808|NCT03843541|164640125|SUPERIORITY|||||||0.402|||||||Stratified Mann Whitney U Statistic|||||||0.402
82472809|NCT03843541|164640126|NON_INFERIORITY|Non-inferiority was declared if the one-sided confidence interval was within the interval.|Probability scale treatment difference|0.5||||0.002|TWO_SIDED|97.5|0.43|1.0|||Modified Mann-Whitney U Statistic||The point estimates of treatment differences in probability scale together with associated one-side confidence interval (97.5% or 98.75%) were computed according to Hochberg if both superiority contrasts were found statistically significant.|||1.00|0.43|0.002
82650807|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.75||||0.0065|TWO_SIDED|95.0|1.17|2.63|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 10. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.63|1.17|0.0065
82650808|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.41||||0.0526|TWO_SIDED|95.0|1.0|1.99|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.99|1.00|0.0526
82547961|NCT04281485|164796279|SUPERIORITY||Least Square Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.78|=|0.9116|TWO_SIDED|95.0|-1.46|1.64|||Mixed Models Analysis||||The Mixed Model Repeated Measures (MMRM) model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|1.64|-1.46|=0.9116
82547962|NCT04281485|164796280|SUPERIORITY||Least Square Mean Difference|85.75|STANDARD_ERROR_OF_MEAN|17.17|=|0.0002|TWO_SIDED|95.0|49.15|122.35|||ANCOVA|The ANCOVA model contained treatment group (categorical variable) and screening age (continuous variable).||||122.35|49.15|=0.0002
82547963|NCT04281485|164796281|SUPERIORITY||Least Square Mean Difference|51.46|STANDARD_ERROR_OF_MEAN|9.49|<|0.0001|TWO_SIDED|95.0|31.43|71.49|||ANCOVA|The ANCOVA model contained treatment group (categorical variable) and screening age (continuous variable).||||71.49|31.43|<0.0001
82547964|NCT04281485|164796282|SUPERIORITY||Geometric Ratio of LS Means|0.64|||=|0.0002|TWO_SIDED|95.0|0.5|0.81|||Mixed Models Analysis||||MMRM approach for log transformed data including visits through Week 52 where serum CK concentration was assessed with fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction, and with additional fixed effects for natural log of baseline (continuous variable), screening age covariate (continuous variable), natural log of baseline by visit interaction, and screening age covariate by visit interaction with an unstructured variance-covariance matrix.|0.81|0.50|=0.0002
82547965|NCT04281485|164796283|SUPERIORITY||Odds Ratio (OR)|1.73|||=|0.2784|TWO_SIDED|95.0|0.64|4.62|||Binomial regression||||The generalized mixed linear model assumed a binomial distribution with logit link \& contains fixed effects for treatment group (categorical variable) \& screening age (continuous variable).|4.62|0.64|=0.2784
82547966|NCT04281485|164796284|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.5437|TWO_SIDED|95.0|0.63|1.28|||Binomial Regression||||The generalized mixed linear model assumed a binomial distribution with a logit link and contained fixed effects for treatment group (categorical variable) and screening age (continuous variable).|1.28|0.63|=0.5437
82547967|NCT04281485|164796285|SUPERIORITY||Least Square Mean Difference|-0.079|STANDARD_ERROR_OF_MEAN|0.082|=|0.3343|TWO_SIDED|95.0|-0.242|0.083|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|0.083|-0.242|=0.3343
82547968|NCT04281485|164796286|SUPERIORITY||Least Square Mean Difference|-0.004|STANDARD_ERROR_OF_MEAN|0.024|=|0.8826|TWO_SIDED|95.0|-0.052|0.045|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|0.045|-0.052|=0.8826
82547969|NCT04281485|164796287|SUPERIORITY||Least Square Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.63|=|0.219|TWO_SIDED|95.0|-1.22|5.24|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|5.24|-1.22|=0.2190
82547970|NCT04281485|164796288|SUPERIORITY||Least Square Mean Difference|1.11|STANDARD_ERROR_OF_MEAN|2.96|=|0.7096||95.0|-4.79|7.0|||Mixed Models Analysis||||The MMRM model contained fixed effects for treatment group (categorical variable), visit (ordered categorical variable), and treatment group by visit interaction with additional fixed effects for baseline value (continuous variable), screening age (continuous variable), baseline value by visit interaction, and screening age by visit interaction with an unstructured variance-covariance matrix.|7.00|-4.79|=0.7096
82650809|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.51||||0.0156|TWO_SIDED|95.0|1.08|2.11|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 11. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.11|1.08|0.0156
82547971|NCT01095796|164796331|NON_INFERIORITY_OR_EQUIVALENCE|A total of 700 HIV-1 infected participants, randomized in a 1:1 ratio to 2 groups would achieve at least 95% power to establish noninferiority in Week 48 response (HIV-1 RNA \< 50 copies/mL per the FDA-defined snapshot analysis) rate difference between the 2 groups. For sample size and power computation, it was assumed that both treatment groups have a response rate of 0.795, a noninferiority margin of 0.12, and that the significance level of the test is at a one-sided, 0.025 level.|Difference in response rates|3.6|||||TWO_SIDED|95.2|-1.6|8.8|||||To preserve the overall alpha level: 0.05, accounting for 2 interim analyses for Independent Data Monitoring Committee meetings, the 95.2% CI was computed using normal approximation stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL).|The null hypothesis was that the percentage of participants achieving HIV-1 RNA \< 50 copies/mL (as defined by the snapshot analysis algorithm) at Week 48 in the Stribild group is at least 12% worse than the response rate in the Atripla group; the alternative hypothesis was that the response rate in the Stribild group is less than 12% worse than that in the Atripla Group.||8.8|-1.6|
82547972|NCT01091168|164796426|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.673|TWO_SIDED|95.0|0.86|1.25|||Cochran-Mantel-Haenszel|||Kaplan-Meier curves and life tables by treatment arm were provided. Confidence intervals on the median were calculated using the Brookmeyer and Crowley method. Hazard ratio and 95% confidence intervals were reported. A stratified Cox proportional model was performed to compare the two treatment arms taking into account the stratification factors (except centre) used at the time of randomisation.||1.25|0.86|0.673
82650810|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.22||||0.1689|TWO_SIDED|95.0|0.92|1.63|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.63|0.92|0.1689
82547973|NCT01091168|164796427|SUPERIORITY|||||||0.0424|||||||Log Rank|||The disease control rate (DCR) were compared in the ITT population and in the population evaluable for response between the 2 arms with a cochran Mantel Haenszel, stratified on WHO performance status at baseline, number of prior chemotherapy lines for the treatment of disease and disease measurability at Baseline.||||0.0424
82547974|NCT01091168|164796428|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4927|TWO_SIDED|95.0|0.8|1.12|||Log Rank|||PFS was compared between the 2 treatment arms by the log-rank test procedure with the 5 % significant level, stratified on the stratification factors (except study site) as specified at the time of randomisation. Os was analysed using Kaplan-Meir method and summarized with median and 95% CI of the median||1.12|0.8|0.4927
82547975|NCT04995484|164796502|OTHER||Geometric Mean Ratio|1.52|||||TWO_SIDED|90.0|0.95|2.43|||||Moderate Hepatic Impairment/Healthy|||2.43|0.95|
82547976|NCT04995484|164796503|OTHER||Geometric Mean Ratio|1.09|||||TWO_SIDED|90.0|0.84|1.42|||||Moderate Hepatic Impairment/Healthy|||1.42|0.84|
82547977|NCT04995484|164796504|OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.76|1.26|||||Moderate Hepatic Impairment/Healthy|||1.26|0.76|
82547978|NCT04899115|164796519|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82547979|NCT04899115|164796520|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|Wilcoxon was used because data was not normal.||||||0.48
82547980|NCT05485922|164796548|SUPERIORITY|Number of flow-stop episodes will be analysed, in a generalized linier mixed model, with subject included as a random component. Evidence of superior effect will be concluded, if the lower 95% confidence limit of the risk ratio between comparator and investigational device, is more than 1.|Risk Ratio (RR)|0.16|||<|0.05|TWO_SIDED|95.0|0.05|0.44|||Mixed Models Analysis|||||0.44|0.05|<0.05
82547981|NCT05485922|164796549|SUPERIORITY||Mean Difference (Final Values)|34.3||||0.05|TWO_SIDED|95.0|14.69|53.91||The pass criteria were based on results analysing the 2 primary endpoints in a hierarchical fashion: rejecting the H0 on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||53.91|14.69|0.05
82547982|NCT05485922|164796550|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.16||||0.05|TWO_SIDED|95.0|0.05|0.44|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.44|0.05|0.05
82547983|NCT05485922|164796551|SUPERIORITY||Mean Difference (Final Values)|-95.69||||0.05|TWO_SIDED|95.0|-137.69|-53.7|||Mixed Models Analysis|||The intra-catheter pressure at flow stop was analysed in a general linear mixed model with subject included as a random component.||-53.70|-137.69|0.05
82547984|NCT05485922|164796552|OTHER||Mean Difference (Final Values)|1.21||||0.05|TWO_SIDED|95.0|-11.1|13.51|||Mixed Models Analysis|||||13.51|-11.10|0.05
82547985|NCT05485922|164796553|SUPERIORITY||Odds Ratio (OR)|0.26||||0.05|TWO_SIDED|95.0|0.07|0.96|||Mixed Models Analysis|||Analyzed using a generalized linear mixed model, modelling the probability of a positive outcome. Evidence of effect in favour of the MHZC was concluded if the upper 95% confidence limit (CL) of the odds ratio, O.R. was less than 1.||0.96|0.07|0.05
82650811|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.37||||0.0231|TWO_SIDED|95.0|1.04|1.8|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 12. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.80|1.04|0.0231
82547990|NCT02697136|164796635|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study. Using an assumed standard deviation of 4.5% and a 2:1 randomization scheme to maximize exposure to active drug, 16 completing patients in the CER-001 group and 8 in the placebo group (24 total completers for mITT) would yield 90% power to detect a difference from baseline versus placebo of 6.7%, using two-tailed testing with α=0.05.|Difference in LS Means|-0.08||||0.185|TWO_SIDED|95.0|-1.9|0.4|||Mixed Models Analysis|||||0.4|-1.9|0.185
82547991|NCT02697136|164796636|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study.|Difference in LS Means|0.7||||0.217|TWO_SIDED|95.0|-0.4|1.8|||Mixed Models Analysis|||||1.8|-0.4|0.217
82547992|NCT02697136|164796637|OTHER|Linear mixed model to test for superiority and non-inferiority. Equivalence was defined as a difference of less than 6.7% in MVWA, based on a pilot study.|Difference in LS Means|-0.2||||0.832|TWO_SIDED|95.0|-1.6|1.3|||Mixed Models Analysis|||||1.3|-1.6|0.832
82547993|NCT02140645|164796693|SUPERIORITY_OR_OTHER||C-statistics|0.624|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82547994|NCT02140645|164796694|SUPERIORITY_OR_OTHER||C-statistcs|0.597|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82547995|NCT02140645|164796695|SUPERIORITY_OR_OTHER||R-squared|0.0858|||||||||||||The R-squared can be between 0 and 1 and a value of 0 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82472810|NCT03843541|164640127|NON_INFERIORITY|Non-inferiority was declared if the one-sided confidence interval was within the interval.|Probability scale treatment difference|0.5|||<|0.001|TWO_SIDED|98.75|0.45|1.0|||Modified Mann-Whitney U Statistic||"The point estimates of treatment differences in probability scale together with associated one-side confidence interval (97.5% or 98.75%) were computed according to Hochberg if both superiority contrasts were found statistically significant.~."|||1.00|0.45|<0.001
82472811|NCT03843541|164640128|SUPERIORITY|||||||0.356|||||||Modified Mann-Whitney U Statistic|||||||0.356
82472812|NCT03843541|164640128|SUPERIORITY|||||||0.007|||||||Modified Mann-Whitney U Statistic|||||||0.007
82472813|NCT03843541|164640129|SUPERIORITY|||||||0.38|||||||Modified Mann-Whitney U Statistic|||||||0.380
82472814|NCT03843541|164640129|SUPERIORITY|||||||0.018|||||||Modified Mann-Whitney U Statistic|||||||0.018
82472815|NCT03843541|164640130|SUPERIORITY|||||||0.366|||||||Modified Mann-Whitney U Statistic|||||||0.366
82472816|NCT03843541|164640130|SUPERIORITY|||||||0.027|||||||Modified Mann-Whitney U Statistic|||||||0.027
82472817|NCT03843541|164640131|SUPERIORITY|||||||0.052|||||||Modified Mann-Whitney U Statistic|||||||0.052
82472818|NCT03843541|164640131|SUPERIORITY|||||||0.058|||||||Modified Mann-Whitney U Statistic|||||||0.058
82472819|NCT03843541|164640132|SUPERIORITY|||||||0.309|||||||Modified Mann-Whitney U Statistic|||||||0.309
82472820|NCT03843541|164640132|SUPERIORITY|||||||0.006|||||||Modified Mann-Whitney U Statistic|||||||0.006
82472821|NCT04301193|164640143|OTHER||Correlation - R value|0.93|||<|0.05|TWO_SIDED||||||Regression, Linear|||Using standard techniques for estimating sample size, a Delong's test indicated that a total of 61 samples would be sufcient to detect a 0.2 increase in the AUROC from the null hypothesis 0.5, assuming an alpha level of 5% and 90% power \[12\]. The manuscript was referenced against the STROBE checklist for cohort studies. Descriptive statistics were used to present.||||<0.05
82472822|NCT04301193|164640143|OTHER||Correlation - R value|0.77|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
82472823|NCT02930018|164640145|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS (Acute Ischemic Stroke) patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.146||||0.335|TWO_SIDED|95.0|0.869|1.511||2 sided 0.05 significance level.|Regression, Logistic|||The primary hypothesis was that administration of nerinetide (NA-1) would result in an increase in the proportion of responders. The primary analysis was a Wald test for treatment group difference in the primary outcome from a logistic regression adjusted for the 2 stratification variables (alteplase use, first declared thrombectomy device), and the 6 covariates used in the minimization. The trial was designed to have 80% power to detect an 8.7% absolute difference between groups.||1.511|0.869|0.335
82472824|NCT02930018|164640146|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.024||||0.866|TWO_SIDED|95.0|0.781|1.342||2 sided 0.05 significance level.|Regression, Logistic|||||1.342|0.781|0.866
82472825|NCT02930018|164640147|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.776||||0.199|TWO_SIDED|95.0|0.527|1.143||2 sided 0.05 significance level.|Regression, Logistic|||||1.143|0.527|0.199
82472826|NCT02930018|164640148|SUPERIORITY||Odds Ratio (OR)|1.657||||0.028|TWO_SIDED|95.0|1.055|2.603|||Regression, Logistic|||||2.603|1.055|0.028
82472827|NCT02930018|164640148|SUPERIORITY||Absolute Risk Difference (%)|9.6|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472828|NCT02930018|164640148|SUPERIORITY||Relative Risk Difference (%)|19.3|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472829|NCT02930018|164640149|SUPERIORITY||Odds Ratio (OR)|1.482||||0.088|TWO_SIDED|95.0|0.943|2.329|||Regression, Logistic|||||2.329|0.943|0.088
82472830|NCT02930018|164640149|SUPERIORITY||Absolute Risk Difference (%)|9.1|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472831|NCT02930018|164640149|SUPERIORITY||Relative Risk Difference (%)|18.3|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472832|NCT02930018|164640150|SUPERIORITY||Odds Ratio (OR)|0.572||||0.055|TWO_SIDED|95.0|0.323|1.013|||Regression, Logistic|||||1.013|0.323|0.055
82472833|NCT02930018|164640150|SUPERIORITY||Absolute Risk Difference (%)|7.5|||||TWO_SIDED||||||||The unadjusted absolute risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472834|NCT02930018|164640150|SUPERIORITY||Relative Risk Difference (%)|39.7|||||TWO_SIDED||||||||The unadjusted relative risk difference in % between nerinetide and placebo in the no-alteplase subgroup.|||||
82472835|NCT02930018|164640151|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.887||||0.529|TWO_SIDED|95.0|0.612|1.286|||Regression, Logistic|||||1.286|0.612|0.529
82472836|NCT02930018|164640152|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|0.782||||0.181|TWO_SIDED|95.0|0.545|1.121|||Regression, Logistic|||||1.121|0.545|0.181
82472837|NCT02930018|164640153|SUPERIORITY|It is hypothesized that the cleavage of nerinetide by plasmin which is activated by tissue plasminogen activators, such as alteplase results in a treatment modification of nerinetide in AIS patients with prior administration of alteplase as part of standard-of-care.|Odds Ratio (OR)|1.05||||0.869|TWO_SIDED|95.0|0.588|1.874|||Regression, Logistic|||||1.874|0.588|0.869
82472838|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|0.1||||0.1524|TWO_SIDED|95.0|-0.04|0.23|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.23|-0.04|0.1524
82472839|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|0.03||||0.7086|TWO_SIDED|95.0|-0.11|0.16|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.16|-0.11|0.7086
82472840|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|-0.13||||0.0651|TWO_SIDED|95.0|-0.26|0.01|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.01|-0.26|0.0651
82472841|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|0.02||||0.7937|TWO_SIDED|95.0|-0.12|0.15|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.15|-0.12|0.7937
82472842|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|-0.04||||0.5587|TWO_SIDED|95.0|-0.18|0.1|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.10|-0.18|0.5587
82472843|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|-0.02||||0.7285|TWO_SIDED|95.0|-0.13|0.09|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.09|-0.13|0.7285
82472844|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|0.03||||0.5802|TWO_SIDED|95.0|-0.09|0.15|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|||0.15|-0.09|0.5802
82472845|NCT02255435|164640154|SUPERIORITY||LS Mean difference (Net)|0.0||||0.9698|TWO_SIDED|95.0|-0.08|0.08|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo|Comparison of Omaveloxolone capsules pooled with Placebo capsules||0.08|-0.08|0.9698
82472846|NCT02255435|164640155|SUPERIORITY||LS Mean difference (Net)|-2.4|STANDARD_ERROR_OF_MEAN|0.956||0.0141|TWO_SIDED|95.0|-4.31|-0.5|||Mixed Models Analysis|Fixed factors: treatment group, time, interaction between treatment and time, interaction between baseline and time; covariates: site, baseline mFARS|Difference is omaveloxolone - placebo.|||-0.50|-4.31|0.0141
82547996|NCT02140645|164796696|SUPERIORITY_OR_OTHER||C-statistics|0.623|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82547997|NCT02140645|164796697|SUPERIORITY_OR_OTHER||R-squared|0.1753|||||||||||||The R-squared can be between 0 and 1 and a value of 0 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82547998|NCT02140645|164796698|SUPERIORITY_OR_OTHER||C-statistics|0.699|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82547999|NCT02140645|164796699|SUPERIORITY_OR_OTHER||C-statistics|0.683|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548000|NCT02140645|164796700|SUPERIORITY_OR_OTHER||C-statistics|0.757|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548001|NCT02140645|164796701|SUPERIORITY_OR_OTHER||C-statistics|0.618|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548002|NCT02140645|164796702|SUPERIORITY_OR_OTHER||C-statistics|0.618|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548003|NCT02140645|164796703|SUPERIORITY_OR_OTHER||C-statistics|0.733|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548004|NCT02140645|164796704|SUPERIORITY_OR_OTHER||C-statistics|0.827|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82548005|NCT02140645|164796705|SUPERIORITY_OR_OTHER||C-statistics|0.801|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82472847|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-1.81||||0.231|TWO_SIDED|95.0|-4.8|1.18|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||1.18|-4.80|0.2310
82472848|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-0.52||||0.7298|TWO_SIDED|95.0|-3.51|2.47|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.47|-3.51|0.7298
82472849|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-0.99||||0.5102|TWO_SIDED|95.0|-3.99|2.0|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.00|-3.99|0.5102
82472850|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-0.95||||0.5281|TWO_SIDED|95.0|-3.94|2.04|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||2.04|-3.94|0.5281
82472851|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-1.42||||0.3458|TWO_SIDED|95.0|-4.42|1.57|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||1.57|-4.42|0.3458
82472852|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-2.3||||0.0587|TWO_SIDED|95.0|-4.68|0.09|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||0.09|-4.68|0.0587
82472853|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|0.58||||0.648|TWO_SIDED|95.0|-1.94|3.1|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|||3.10|-1.94|0.6480
82472854|NCT02255435|164640156|SUPERIORITY||LS Mean difference (Net)|-1.1||||0.2174|TWO_SIDED|95.0|-2.87|0.66|||Mixed Models Analysis|Treatment group, time, and the interaction between treatment and time were used as fixed factors.|Difference is omaveloxolone - placebo.|Comparison of Omaveloxolone capsules pooled with Placebo capsules||0.66|-2.87|0.2174
82472855|NCT02948634|164640222|SUPERIORITY|||||||0.43|||||||ANOVA|||||||0.43
82472856|NCT02948634|164640223|SUPERIORITY|||||||0.32|||||||ANOVA|||||||0.32
82472857|NCT02948634|164640224|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82472858|NCT00499616|164640236|OTHER||Log Rank Test Statistic|0.9841||||0.3212|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients between 12-18 months of age with Stage 4 neuroblastoma and favorable biological features on ANBL0531 and patients less than 12 months of age with Stage 4 neuroblastoma on A3961 were compared using the log-rank test.||||.3212
82472859|NCT00499616|164640240|OTHER||Log-Rank Test Statistic|5.0049||||0.0253|TWO_SIDED|95.0|||||Log Rank|||The event-free survival distributions of patients with complete surgical resection and patients without complete surgical resection were compared using the log-rank test.||||.0253
82472860|NCT00499616|164640241|OTHER|The overall survival distributions of patients with complete surgical resection and patients without complete surgical resection were compared using the log-rank test.|Log Rank Test Statistic|2.6709||||0.1022|TWO_SIDED|95.0|||||Log Rank|||||||.1022
82472861|NCT00499616|164640242|OTHER||Chi-Square Test Statistic|9.9111||||0.0016|TWO_SIDED|95.0|||||Chi-squared|||The association between extent of surgical resection with occurrence of complications was determined using the chi-square test.||||.0016
82472862|NCT01864603|164640250|OTHER||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.77|1.17||||||Comparison of Phase 1 arms||1.17|0.77|
82472863|NCT01864603|164640251|OTHER||Rate ratio|0.26|||||TWO_SIDED|95.0|0.09|0.75||||||||0.75|0.09|
82548006|NCT02140645|164796706|SUPERIORITY_OR_OTHER||C-statistics|0.836|||||||||||||The C-statistics can be between 0.5 and 1 and a value of 0.5 indicates that the model is no better than chance at making a prediction and a value of 1.0 indicates that the model perfectly identifies those within a group and those not.|||||
82650812|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.4||||0.0175|TWO_SIDED|95.0|1.06|1.84|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.84|1.06|0.0175
82472864|NCT00337675|164640292|SUPERIORITY_OR_OTHER_LEGACY||Rate reduction|5.3|STANDARD_ERROR_OF_MEAN|7.3||0.51||95.0|-11.4|19.6||Multiplicity adjustment across regimens was addressed through step-down testing. Daily montelukast versus placebo was tested first; if this comparison was significant, intermittent montelukast versus placebo was tested. The significance level was 5%.|Regression, Poisson|A Poisson regression model containing factors for treatment, age group, and geographic region, and an offset for number of days in study was used.|Rate reduction = (1 - montelukast-adjusted annual rate/placebo-adjusted annual rate) x 100%|The primary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in a decrease in the number of asthma episodes culminating in asthma attack in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year. A sample size of 450 evaluable patients per arm allowed the detection of a difference in rate of 23% with 90% power.||19.6|-11.4|0.510
82472865|NCT00337675|164640292|SUPERIORITY_OR_OTHER_LEGACY||Rate reduction|-1.2|STANDARD_ERROR_OF_MEAN|7.8||0.884||95.0|-19.2|14.0||Multiplicity adjustment across regimens was addressed through step-down testing. Daily montelukast versus placebo was tested first; if this comparison was significant, intermittent montelukast versus placebo was tested. The significance level was 5%.|Regression, Poisson|A Poisson regression model containing factors for treatment, age group, and geographic region, and an offset for number of days in study was used.|Rate reduction = (1 - montelukast-adjusted annual rate/placebo-adjusted annual rate) x 100%|The primary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in a decrease in the number of asthma episodes culminating in asthma attack in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year. A sample size of 450 evaluable patients per arm allowed the detection of a difference in rate of 23% with 90% power.||14.0|-19.2|0.884
82472866|NCT00337675|164640293|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.176||95.0|-0.46|0.09||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the 2 endpoints assessing severity, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.09|-0.46|0.176
82472867|NCT00337675|164640293|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.202||95.0|-0.44|0.09||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the 2 endpoints assessing severity, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.09|-0.44|0.202
82548007|NCT01101451|164796707|SUPERIORITY||Hazard Ratio (HR)|0.6976||||0.0927|TWO_SIDED|95.0|0.408|1.192||the pre\_specified nominal significance level was 0.0451 (one sided).|Log Rank||The RFS hazard ratio estimate is for reporting group 2 vs reporting group 1.|||1.192|0.408|0.0927
82548008|NCT01101451|164796708|SUPERIORITY||Hazard Ratio (HR)|0.586|||||TWO_SIDED|95.0|0.286|1.199|||||The OS hazard ratio estimate is for reporting group 2 vs reporting group 1.|||1.199|0.286|
82472868|NCT00337675|164640294|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.06||0.045||95.0|-0.24|0.0||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the family of secondary endpoints, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.00|-0.24|0.045
82472869|NCT00337675|164640294|SUPERIORITY_OR_OTHER_LEGACY||Least-Squares Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.061||95.0|-0.23|0.0||Multiplicity adjustment across regimens and across primary and secondary endpoints was addressed through step-down testing. Within the family of secondary endpoints, adjustment for multiplicity was performed using Hochberg's method.|ANOVA|An ANOVA model containing factors for treatment, age group, and geographical region was used.||The secondary hypothesis stated that montelukast (daily regimen, or \[intermittent and daily regimens\]), compared with placebo, results in improvement of respiratory symptoms assessed over 3 days prior to asthma attacks, or assessed over the 12-day treatment period of asthma episodes in pediatric patients aged 6 months to 5 years with episodic asthma and treated over 1 year.||0.00|-0.23|0.061
82472870|NCT05814367|164640299|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used.|Least-square Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.025|0.014|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control|The sample size of 38 was calculated to provide at least 90% statistical power to test Non-inferiority of the Test lens compared to the Control lens using a paired t-test with a two-sided type I error rate of 5%.||0.014|-0.025|
82472871|NCT00408200|164640325|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Fisher Exact|||||||<0.05
82472872|NCT02910986|164640343|SUPERIORITY||||||>|0.05|||||||Chi-squared|||The percentage with improved knowledge (defined as having an incorrect response at T0 and a correct response at T1) was compared between study groups with chi-square tests.||||> 0.05
82472873|NCT02910986|164640344|SUPERIORITY|||||||0.56||||||The priori threshold for statistical significance was 0.05|Chi-squared|||||||0.56
82472874|NCT02910986|164640345|SUPERIORITY||||||>|0.05||||||The priori threshold for statistical significance was 0.05.|Chi-squared|||||||> 0.05
82472875|NCT02910986|164640345|OTHER||difference between EC and UC|2.6|||||TWO_SIDED|98.3|-6.0|11.2||||||||11.2|-6.0|
82472876|NCT02910986|164640345|OTHER||difference between INT and UC|5.0|||||TWO_SIDED|98.3|-4.3|14.3||||||||14.3|-4.3|
82472877|NCT02910986|164640345|OTHER||difference between INT and ENH|2.4|||||TWO_SIDED|98.3|-7.0|11.9||||||||11.9|-7.0|
82472878|NCT01262989|164640381|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|102.95||||||90.0|97.17|109.07|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||109.07|97.17|
82472879|NCT01262989|164640382|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|102.79||||||90.0|96.99|108.93|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||108.93|96.99|
82472880|NCT01262989|164640383|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study performed to support the register of tamsulosin hydrochloride, produced by Synthon BV, as a branded generic, to be marketed by GlaxoSmithKline Brasil Ltda., according to the requirements of the Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio T formulation/R formulation|94.47||||||90.0|87.59|101.9|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||101.90|87.59|
82472881|NCT02983552|164640413|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.71|TWO_SIDED|95.0|-2.2|1.7||a priori threshold for statistical significance: 2-sided type I error rate of 5%|ANOVA|Adjusted for baseline amblyopic-eye visual acuity.|A 2-sided 95% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 4 week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the effectiveness of two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. The primary outcome measure was change in amblyopic-eye VA from baseline to 4 weeks. A 2-sided 95% confidence interval (CI) was computed on the adjusted treatment group difference at 4 weeks. There was no imputation for missing data.||1.7|-2.2|0.71
82472882|NCT02983552|164640415|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|98.3|-2.4|2.1|||||A 2-sided 98.3% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 8-week visit.|||2.1|-2.4|
82472883|NCT02983552|164640421|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|98.3|-13.0|9.0||||||Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 4-week visit, adjusted for visual acuity at randomization.||9|-13|
82472884|NCT02983552|164640422|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|98.3|-15.0|12.0||||||Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 8-week visit, adjusted for visual acuity at randomization.|For secondary visual acuity outcomes, which included the 8-week treatment group comparison, a Bonferroni adjustment was used to control for multiple testing (3 outcomes tested) to preserve the overall type I error rate at 5% (2-sided alpha=0.017 per test).|12|-15|
82548009|NCT06647238|164796721|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82548010|NCT02814838|164796727|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.3303|TWO_SIDED|95.0|-0.14|0.42|||Student's t test for unpaired samples|||Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.||0.42|-0.14|0.3303
82472885|NCT02983552|164640424|SUPERIORITY|||||||0.38||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 4-week visit by treatment group.|Wilcoxon (Mann-Whitney)|||||||0.38
82472886|NCT02983552|164640426|SUPERIORITY|||||||0.53||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 8-week visit by treatment group.|Wilcoxon (Mann-Whitney)|||||||0.53
82472887|NCT02983552|164640428|SUPERIORITY|||||||0.19||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 4-week visit by treatment group for participants without strabismus.|Wilcoxon (Mann-Whitney)|||||||0.19
82472888|NCT02983552|164640430|SUPERIORITY|||||||0.74||||||The exact Wilcoxon rank-sum test was used to compare the change in stereoacuity levels from baseline to the 8-week visit by treatment group for participants without strabismus.|Wilcoxon (Mann-Whitney)|||||||0.74
82548011|NCT02814838|164796728|SUPERIORITY|The comparisons between groups on 2-hour AUC C-peptide efficacy endpoint was carried-out using a mixed linear model where the log(x+1) transformed 2-hour AUC C-peptide was the dependent variable, while treatment group, visit, treatment by visit interaction were the fixed factors of the model and patient will be the random effect. An unstructured covariance matrix for each patient is considered and the Kenward-Roger adjustment is used for the degrees of freedom.|adjusted mean difference|0.0984||||0.517|TWO_SIDED|95.0|-0.2028|0.3995|||Mixed Models Analysis|||at FUP week 26||0.3995|-0.2028|0.517
82548012|NCT02814838|164796728|SUPERIORITY|The comparisons between groups on 2-hour AUC C-peptide efficacy endpoint was carried-out using a mixed linear model where the log(x+1) transformed 2-hour AUC C-peptide was the dependent variable, while treatment group, visit, treatment by visit interaction were the fixed factors of the model and patient will be the random effect. An unstructured covariance matrix for each patient is considered and the Kenward-Roger adjustment is used for the degrees of freedom.|adjusted mean difference|-0.0486||||0.7999|TWO_SIDED|95.0|-0.4294|0.3322|||Mixed Models Analysis|||At FUP week 52||0.3322|-0.4294|0.7999
82548013|NCT02814838|164796729|SUPERIORITY||adjusted mean difference|12.0411||||0.2224|TWO_SIDED|95.0|-7.3823|31.4644|||Mixed Models Analysis|||at week 13||31.4644|-7.3823|0.2224
82548014|NCT02814838|164796729|SUPERIORITY||adjusted mean difference|8.4803||||0.3931|TWO_SIDED|95.0|-11.0935|28.0541|||Mixed Models Analysis|||At week 26||28.0541|-11.0935|0.3931
82548015|NCT02814838|164796729|SUPERIORITY||adjusted mean difference|-2.9502||||0.7664|TWO_SIDED|95.0|-22.5476|16.6473|||Mixed Models Analysis|||At week 52||16.6473|-22.5476|0.7664
82548016|NCT02814838|164796730|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.048||||0.2225|TWO_SIDED|95.0|-0.1257|0.0298|||Mixed Models Analysis|||at week 13||0.0298|-0.1257|0.2225
82548017|NCT02814838|164796730|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.0369||||0.551|TWO_SIDED|95.0|-0.1596|0.0858|||Mixed Models Analysis|||at week 26||0.0858|-0.1596|0.551
82548018|NCT02814838|164796730|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Daily Insulin Requirement (IU/kg/day) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.063||||0.2501|TWO_SIDED|95.0|-0.1712|0.0453|||Mixed Models Analysis|||at week 52||0.0453|-0.1712|0.2501
82548019|NCT02814838|164796731|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.1494||||0.6252|TWO_SIDED|95.0|-0.7514|0.4526|||Mixed Models Analysis|||at FU week 13||0.4526|-0.7514|0.6252
82472889|NCT02983552|164640435|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|99.0|-2.5|0.4|||||Statistical significance of the treatment group comparison was based on a 2-sided alpha=0.01.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 4 weeks, adjusting for fellow-eye visual acuity at randomization. A 2-sided 99% confidence interval was computed on the adjusted treatment group difference.||0.4|-2.5|
82472890|NCT02983552|164640436|SUPERIORITY||Mean Difference (Final Values)|-1.0|||||TWO_SIDED|99.0|-2.3|0.3|||||Statistical significance of the treatment group comparison was based on a 2-sided alpha=0.01.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 8 weeks, adjusting for fellow-eye visual acuity at randomization. A 2-sided 99% confidence interval was computed on the adjusted treatment group difference.||0.3|-2.3|
82472891|NCT02983552|164640437|SUPERIORITY|||||||0.37|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 4-week visit.||||0.37
82472892|NCT02983552|164640438|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 8-week visit.||||0.99
82472893|NCT02983552|164640439|SUPERIORITY|||||||0.2|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.20
82548020|NCT02814838|164796731|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.2804||||0.366|TWO_SIDED|95.0|-0.8904|0.3297|||Mixed Models Analysis|||At FU week 26||0.3297|-0.8904|0.366
82548021|NCT02814838|164796731|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with HbA1c (%) as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|-0.2063||||0.5026|TWO_SIDED|95.0|-0.3992|0.8118|||Mixed Models Analysis|||At FU week 52||0.8118|-0.3992|0.5026
82548022|NCT02814838|164796732|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|0.0242||||0.2527|TWO_SIDED|95.0|-0.0174|0.0658|||Mixed Models Analysis|||at week 13||0.0658|-0.0174|0.2527
82472894|NCT02983552|164640440|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
82472895|NCT02983552|164640441|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 4-week visit by treatment group.||||0.44
82472896|NCT02983552|164640442|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 8-week visit by treatment group.||||>0.99
82472897|NCT02983552|164640443|SUPERIORITY|||||||0.12|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.12
82472898|NCT02983552|164640444|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
82472899|NCT02983552|164640445|SUPERIORITY|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 4-week visit by treatment group.||||0.12
82472900|NCT02983552|164640446|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||The exact Wilcoxon rank-sum test was used to compare the change in diplopia frequency levels from baseline to the 8-week visit by treatment group.||||>0.99
82472901|NCT02983552|164640449|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||For each Symptom Survey item, the exact Wilcoxon rank-sum test was used to compare the change in symptom frequency level from baseline to the 4-week visit by treatment group.||||0.07
82472902|NCT02983552|164640450|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||For each Symptom Survey item, the exact Wilcoxon rank-sum test was used to compare the change in symptom frequency level from baseline to the 8-week visit by treatment group. This was utilized for each item in the survey.||||0.06
82472903|NCT02983552|164640453|SUPERIORITY||||||>|0.01||||||Statistical significance of the interaction term was based on a 2-sided alpha=0.01.|ANCOVA|||An analysis of covariance (ANCOVA) was performed to test the 2-way interaction between treatment group with each factor (baseline age and visual acuity were treated as continuous factors), adjusting for baseline amblyopic-eye visual acuity and the nested terms from the interaction term. Formal subgroup analyses were only performed if there was a minimum of 20 participants in every subgroup category across both treatment groups for factors treated as categorical variables in the model.||||>0.01
82472904|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.93|0.99||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||0.99|0.93|
82472905|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.99|||||TWO_SIDED|90.0|0.96|1.01||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.01|0.96|
82472906|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.94|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.00|0.94|
82472907|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.95|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.00|0.95|
82472908|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.96|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.06|0.96|
82548023|NCT02814838|164796732|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|0.0236||||0.2743|TWO_SIDED|95.0|-0.0188|0.066|||Mixed Models Analysis|||at week 26||0.066|-0.0188|0.2743
82472909|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.0|||||TWO_SIDED|90.0|0.93|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.07|0.93|
82472910|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.05|||||TWO_SIDED|90.0|0.99|1.11||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.11|0.99|
82472911|NCT02637037|164640470|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.03|||||TWO_SIDED|90.0|0.96|1.1||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.10|0.96|
82650813|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.59||||0.0004|TWO_SIDED|95.0|1.22|2.07|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 13. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||2.07|1.22|0.0004
82472912|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.94|0.99||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||0.99|0.94|
82472913|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.99|||||TWO_SIDED|90.0|0.97|1.02||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.02|0.97|
82472914|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.96|||||TWO_SIDED|90.0|0.93|0.98||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||0.98|0.93|
82472915|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.95|1.0||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.00|0.95|
82472916|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.02|||||TWO_SIDED|90.0|0.97|1.08||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.08|0.97|
82472917|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.95|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.06|0.95|
82472918|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of geometric means|1.03|||||TWO_SIDED|90.0|0.97|1.09||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.09|0.97|
82472919|NCT02637037|164640471|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.95|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.07|0.95|
82472920|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.93|1.03||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.03|0.93|
82472921|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.9|1.06||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.06|0.90|
82548024|NCT02814838|164796732|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with C-peptide (nmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.0059||||0.7856|TWO_SIDED|95.0|-0.0485|0.0367|||Mixed Models Analysis|||at week 52||0.0367|-0.0485|0.7856
82548025|NCT02814838|164796733|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.0253||||0.9307|TWO_SIDED|95.0|-0.5986|0.548|||Mixed Models Analysis|||at week 13||0.548|-0.5986|0.9307
82548026|NCT02814838|164796733|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.7236||||0.0139|TWO_SIDED|95.0|-1.2989|-0.1483|||Mixed Models Analysis|||At week 26||-0.1483|-1.2989|0.0139
82548027|NCT02814838|164796733|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with Glucose (mmol/L) actual value as dependent variable, treatment, visit, time, treatment by visit interaction, time by visit interaction, treatment by visit by time interaction as fixed effects and time by visit interaction is specified in repeated statement.|adjusted mean difference|-0.5979||||0.0432|TWO_SIDED|95.0|-1.1775|-0.0184|||Mixed Models Analysis|||at week 52||-0.0184|-1.1775|0.0432
82472922|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.97|||||TWO_SIDED|90.0|0.89|1.05||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.05|0.89|
82472923|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.95|||||TWO_SIDED|90.0|0.87|1.03||||||Dapagliflozin: Statistical Assessment of Bioequivalence for Dapagliflozin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.03|0.87|
82472924|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.01|||||TWO_SIDED|90.0|0.96|1.07||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment A and B.||1.07|0.96|
82472925|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|0.98|||||TWO_SIDED|90.0|0.92|1.04||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 5/500 mg for Treatment C and D.||1.04|0.92|
82472926|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of geometric means|1.0|||||TWO_SIDED|90.0|0.95|1.06||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment E and F.||1.06|0.95|
82472927|NCT02637037|164640472|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CIs for both dapagliflozin and metformin geometric mean ratio of AUC is entirely contained within an 80.00% to 125.00% interval, it will be concluded the 2 manufacturing sites are bioequivalent.|Ratios of Geometric means|1.02|||||TWO_SIDED|90.0|0.94|1.1||||||Metformin: Statistical Assessment of Bioequivalence for Metformin following administration Dapagliflozin/Metformin XR 10/1000 mg for Treatment G and H.||1.10|0.94|
82472928|NCT02023697|164640486|OTHER||Hazard Ratio (HR)|1.057||||0.7047|TWO_SIDED|80.0|0.878|1.272|||Log Rank||Arm B / Arm (A+C)|||1.272|0.878|0.7047
82472929|NCT02023697|164640488|OTHER||Hazard Ratio (HR)|1.26||||0.3134|TWO_SIDED|80.0|0.939|1.69|||Log Rank||Arm C /Arm A|||1.690|0.939|0.3134
82472930|NCT02023697|164640492|OTHER||Hazard Ratio (HR)|1.075||||0.6205|TWO_SIDED|80.0|0.892|1.297|||Log Rank||Arm B/Arm (A+C)|||1.297|0.892|0.6205
82548028|NCT02814838|164796735|SUPERIORITY|||||||0.1171|||||||Fisher Exact|||at week 13||||0.1171
82548029|NCT02814838|164796735|SUPERIORITY|||||||0.6586|||||||Fisher Exact|||At week 26||||0.6586
82650814|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.21||||0.1396|TWO_SIDED|95.0|0.94|1.55|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 1 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.55|0.94|0.1396
82472931|NCT02023697|164640494|OTHER||Hazard Ratio (HR)|0.999||||0.9958|TWO_SIDED|80.0|0.744|1.341|||Log Rank||Arm C/Arm A|||1.341|0.744|0.9958
82472932|NCT02023697|164640498|OTHER||Hazard Ratio (HR)|1.068||||0.7461|TWO_SIDED|80.0|0.823|1.385|||Log Rank||Arm B/Arm (A+C)|||1.385|0.823|0.7461
82472933|NCT02023697|164640500|OTHER||Hazard Ratio (HR)|1.549||||0.155|TWO_SIDED|80.0|1.041|2.306|||Log Rank||Arm C/Arm A|||2.306|1.041|0.1550
82472934|NCT02023697|164640504|OTHER||Hazard Ratio (HR)|0.969||||0.8284|TWO_SIDED|80.0|0.805|1.167|||Log Rank||Arm B/Arm (A+C)|||1.167|0.805|0.8284
82472935|NCT02023697|164640506|OTHER||Hazard Ratio (HR)|1.059||||0.7896|TWO_SIDED|80.0|0.804|1.396|||Log Rank||Arm C/Arm A|||1.396|0.804|0.7896
82472936|NCT02023697|164640510|OTHER||Hazard Ratio (HR)|0.986||||0.9274|TWO_SIDED|80.0|0.803|1.21|||Log Rank||Arm B/Arm (A+C)|||1.210|0.803|0.9274
82472937|NCT02023697|164640512|OTHER||Hazard Ratio (HR)|1.134||||0.5754|TWO_SIDED|80.0|0.85|1.514|||Log Rank||Arm C/Arm A|||1.514|0.850|0.5754
82472938|NCT02023697|164640518|OTHER||Hazard Ratio (HR)|0.898||||0.6214|TWO_SIDED|80.0|0.678|1.188|||Log Rank||Arm B/Arm (A+C)|||1.188|0.678|0.6214
82472939|NCT02023697|164640520|OTHER||Hazard Ratio (HR)|0.863||||0.7214|TWO_SIDED|80.0|0.505|1.475|||Log Rank||Arm C/Arm A|||1.475|0.505|0.7214
82472940|NCT01469377|164640530|SUPERIORITY||Least squares mean difference|-0.9||||0.2404|TWO_SIDED|95.0|-2.4|0.6||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.6|-2.4|0.2404
82548030|NCT02814838|164796735|SUPERIORITY|||||||0.5056|||||||Fisher Exact|||At week 52||||0.5056
82548031|NCT02814838|164796736|SUPERIORITY|||||||0.0779|||||||Fisher Exact|||at week 13||||0.0779
82548032|NCT02814838|164796736|SUPERIORITY|||||||0.0248|||||||Fisher Exact|||At week 26||||0.0248
82548033|NCT02814838|164796736|SUPERIORITY|||||||0.4504|||||||Fisher Exact|||At week 52||||0.4504
82548034|NCT02814838|164796737|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.1402||||0.4163|TWO_SIDED|95.0|-0.2015|0.4819|||Mixed Models Analysis|||At week 13||0.4819|-0.2015|0.4163
82548035|NCT02814838|164796737|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.177||||0.3575|TWO_SIDED|95.0|-0.2039|0.558|||Mixed Models Analysis|||At week 26||0.558|-0.2039|0.3575
82472941|NCT01469377|164640530|SUPERIORITY||Least squares mean difference|-2.2||||0.0114|TWO_SIDED|95.0|-3.7|-0.6||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||-0.6|-3.7|0.0114
82472942|NCT01469377|164640531|SUPERIORITY||Least squares mean difference|-1.1||||0.2404|TWO_SIDED|95.0|-2.5|0.3||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.3|-2.5|0.2404
82472943|NCT01469377|164640531|SUPERIORITY||Least squares mean difference|-1.4||||0.114|TWO_SIDED|95.0|-2.8|0.0||p-values were from an mixed-effects model for repeated measures with treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Mixed-effect model for repeated measures|p-values were adjusted for multiple comparisons using the matched parallel gate-keeping procedure.||||0.0|-2.8|0.1140
82472944|NCT00611026|164640548|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||"Treatment difference fesoterodine versus (vs) placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the fifth (5th) and ninety-fifth (95th) percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||<0.0001
82472945|NCT00611026|164640548|SUPERIORITY_OR_OTHER|||||||0.0228|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0228
82472946|NCT00611026|164640548|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED|||||Comparison fesoterodine vs tolterodine ER performed only if statistical significance favoring fesoterodine achieved for fesoterodine vs placebo to preserve overall alpha level at 5%; pairwise comparison also performed for tolterodine ER vs placebo.|Van Elteren's test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0072
82472947|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||"Treatment difference fesoterodine vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0020
82472948|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.0519|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0519
82472949|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.1503|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.1503
82472950|NCT00611026|164640549|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82472951|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0002
82579807|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for D2m at 50 lux is reported."|Slope|1.41||||0.0004|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0004
82650815|NCT01360632|165016450|SUPERIORITY_OR_OTHER||Ratio of response rate|1.46||||0.0016|TWO_SIDED|95.0|1.15|1.86|||Cochran-Mantel-Haenszel|CMH general association test controlling for trial site||Statistical analysis 2 at Week 14. All participants in the Efficacy Sample who met the revised randomization criteria for incomplete response as defined in Protocol Amendment 3. The LOCF method was used to impute missing data.||1.86|1.15|0.0016
82472952|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Van Elteren's|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0130
82472953|NCT00611026|164640549|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82472954|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0021
82472955|NCT00611026|164640549|SUPERIORITY_OR_OTHER|||||||0.0525|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of voided volume.||Treatment difference fesoterodine vs tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0525
82472956|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0161|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 1.||-0.1|-0.5|0.0161
82472957|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0944|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 1.||0.0|-0.4|0.0944
82472958|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.3613|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 1.||0.1|-0.3|0.3613
82548036|NCT02814838|164796737|SUPERIORITY|Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction as fixed effects and patient as random effect.|adjusted mean difference|0.0451||||0.8386|TWO_SIDED|95.0|-0.3948|0.4851|||Mixed Models Analysis|||At week 52||0.4851|-0.3948|0.8386
82548037|NCT02814838|164796738|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.354|||=|0.1114|TWO_SIDED|95.0|-0.09|0.75|||t-test, 2 sided|||At week 13||0.75|-0.09|= 0.1114
82548038|NCT02814838|164796738|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.502|||=|0.0411|TWO_SIDED|95.0|0.02|0.98|||t-test, 2 sided|||At week 26||0.98|0.02|= 0.0411
82548039|NCT02814838|164796738|SUPERIORITY|Transformed AUC was analyzed with Student t-test for unpaired data using PROC TTEST within SAS® to compare Ladarixin and placebo groups. The estimated treatment difference between Ladarixin and placebo was also presented together with the corresponding 95% confidence interval.|Mean Difference (Final Values)|0.223|||=|0.4506|TWO_SIDED|95.0|-0.37|0.82|||t-test, 2 sided|||At week 52||0.82|-0.37|= 0.4506
82548040|NCT02814838|164796739|SUPERIORITY||Adjusted mean difference|0.3631||||0.1847|TWO_SIDED|95.0|-0.1817|0.908|||Mixed Models Analysis|||Week 13 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||0.908|-0.1817|0.1847
82650816|NCT04128696|165016453|SUPERIORITY||Hazard Ratio (HR)|1.51||||0.973|TWO_SIDED|95.0|0.99|2.29||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.29|0.99|0.973
82472959|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 4.||-0.4|-0.9|<0.0001
82548041|NCT02814838|164796739|SUPERIORITY||Adjusted mean difference|0.6304||||0.031|TWO_SIDED|95.0|0.0609|1.1998|||Mixed Models Analysis|||Week 26 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||1.1998|0.0609|0.031
82548042|NCT02814838|164796739|SUPERIORITY||Adjusted mean difference|0.1639||||0.6299|TWO_SIDED|95.0|-0.5202|0.8479|||Mixed Models Analysis|||Week 52 Analysis is based on a linear mixed model for repeated measures with log(AUC(15-120 minutes)+1) of C-peptide above fasting value as dependent variable, treatment, visit and treatment by visit interaction||0.8479|-0.5202|0.6299
82548043|NCT02814838|164796740|SUPERIORITY|||||||0.163|||||||Fisher Exact|||Week 13||||0.163
82548044|NCT02814838|164796740|SUPERIORITY|||||||0.0074|||||||Fisher Exact|||Week 26||||0.0074
82548045|NCT02814838|164796740|SUPERIORITY|||||||0.4437|||||||Fisher Exact|||Week 52||||0.4437
82472960|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0043|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.1|-0.6|0.0043
82472961|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0186|TWO_SIDED|95.0|-0.5|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 4.||-0.0|-0.5|0.0186
82472962|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 12.||-0.4|-0.9|<0.0001
82472963|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0407|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 12.||-0.0|-0.6|0.0407
82472964|NCT00611026|164640550|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0016|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 12.||-0.1|-0.6|0.0016
82472965|NCT00611026|164640551|SUPERIORITY_OR_OTHER|||||||0.0217|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0217
82472966|NCT00611026|164640551|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
82472967|NCT00611026|164640551|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0020
82472968|NCT00611026|164640551|SUPERIORITY_OR_OTHER|||||||0.0217|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs Tolterodine ER at Week 4.||||0.0217
82472969|NCT00611026|164640551|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
82472970|NCT00611026|164640551|SUPERIORITY_OR_OTHER|||||||0.0421|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0421
82472971|NCT00611026|164640551|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with country and treatment as factors, and ranked baseline value as a covariate.||Treatment difference fesoterodine vs Tolterodine ER at Week 12.||||0.0023
82472972|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.3823|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 1.||0.1|-0.1|0.3823
82472973|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.4802|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 1.||0.1|-0.1|0.4802
82548046|NCT00593489|164796741|SUPERIORITY||Risk Ratio (RR)|0.99||||0.96|TWO_SIDED|95.0|0.8|1.24|||Poisson Regression|||The IPR was analyzed using Poisson regression with the intervention group as a class effect and the mean HbA1c at baseline as a covariate||1.24|0.8|0.96
82548047|NCT05048186|164796790|OTHER||Mean Difference (Final Values)|0.06||||0.503|TWO_SIDED|95.0|-0.116|0.236|||t-test, 2 sided|||we tested to see whether SDM Process scores were different between patients who received the Decision Aid Arm vs the control arm||0.236|-0.116|0.503
82472974|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.0||0.8355|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 1.||0.1|-0.1|0.8355
82472975|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.0286|TWO_SIDED|95.0|-0.12|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 4.||-0.0|-0.12|0.0286
82472976|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.0794|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 4.||0.0|-0.2|0.0794
82472977|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.0||0.5906|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 4.||0.1|-0.1|0.5906
82472978|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.1||0.0134|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs placebo at Week 12.||-0.0|-0.3|0.0134
82472979|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.1||0.1759|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference Tolterodine ER vs placebo at Week 12.||0.0|-0.2|0.1759
82472980|NCT00611026|164640552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.0||0.1661|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|"Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type:~standard error of the mean."|Treatment difference fesoterodine vs Tolterodine ER at Week 12.||0.0|-0.2|0.1661
82472981|NCT00611026|164640553|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||0.0021
82472982|NCT00611026|164640553|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||0.0200
82548048|NCT02742519|164796816|SUPERIORITY|||||||0.2121|||||||t-test, 2 sided|||||||0.2121
82548049|NCT01872078|164796822|SUPERIORITY_OR_OTHER||Ratio (%)|87.04|||||TWO_SIDED|95.0|58.52|129.47||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||129.47|58.52|
82548050|NCT01872078|164796822|SUPERIORITY_OR_OTHER||Ratio (%)|78.76|||||TWO_SIDED|95.0|53.41|116.16||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||116.16|53.41|
82548051|NCT01872078|164796822|SUPERIORITY_OR_OTHER||Ratio (%)|47.99|||||TWO_SIDED|95.0|32.73|70.36||||||The null hypothesis is that the ratio of Active to Control in LH AUC(0-8) ratio to baseline at day 7= 100%||70.36|32.73|
82548052|NCT03580369|164796823|SUPERIORITY||LS Mean|-8.002|STANDARD_ERROR_OF_MEAN|1.313|<|0.0001|TWO_SIDED|95.0|-10.576|-5.428|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||-5.428|-10.576|<.0001
82548053|NCT03580369|164796823|SUPERIORITY||LS mean|0.672|STANDARD_ERROR_OF_MEAN|0.939||0.7628|TWO_SIDED|95.0|-1.169|2.513|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||2.513|-1.169|0.7628
82548054|NCT03580369|164796823|SUPERIORITY||LS Mean|-7.964|STANDARD_ERROR_OF_MEAN|1.305|<|0.0001|TWO_SIDED|95.0|-10.522|-5.047|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||-5.047|-10.522|<.0001
82548055|NCT03580369|164796823|SUPERIORITY||LS mean|0.71|STANDARD_ERROR_OF_MEAN|0.933||0.7768|TWO_SIDED|95.0|-1.118|2.538|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults||2.538|-1.118|0.7768
82548056|NCT03580369|164796825|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|5.68|||<|0.0001|TWO_SIDED|95.0|2.667|12.095|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||12.095|2.667|<.0001
82548057|NCT03580369|164796825|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.84||||0.843|TWO_SIDED|95.0|0.598|1.18|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.180|0.598|0.8430
82548058|NCT03580369|164796825|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|5.734|||<|0.0001|TWO_SIDED|95.0|2.694|12.207|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||12.207|2.694|<.0001
82548059|NCT03580369|164796825|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio, log|0.848||||0.8312|TWO_SIDED|95.0|0.605|1.188|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.188|0.605|0.8312
82548060|NCT03580369|164796826|SUPERIORITY||LS Mean|-3.1|STANDARD_ERROR_OF_MEAN|0.597|<|0.0001|TWO_SIDED|95.0|-4.271|-1.929|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||-1.929|-4.271|<.0001
82472983|NCT00611026|164640554|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||"Treatment difference fesoterodine vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0006
82472984|NCT00611026|164640554|SUPERIORITY_OR_OTHER|||||||0.0202|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference Tolterodine ER vs placebo at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0202
82472985|NCT00611026|164640554|SUPERIORITY_OR_OTHER|||||||0.2126|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs Tolterodine ER at Week 1. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.2126
82548061|NCT03580369|164796826|SUPERIORITY||LS Mean|0.419|STANDARD_ERROR_OF_MEAN|0.428||0.8366|TWO_SIDED|95.0|-0.419|1.258|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||1.258|-0.419|0.8366
82548062|NCT03580369|164796826|SUPERIORITY|Adults|LS Mean|-3.13|STANDARD_ERROR_OF_MEAN|0.594|<|0.0001|TWO_SIDED|95.0|-4.295|-1.966|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||||-1.966|-4.295|<.0001
82548063|NCT03580369|164796826|SUPERIORITY||LS Mean|0.389|STANDARD_ERROR_OF_MEAN|0.425||0.8201|TWO_SIDED|95.0|-0.444|1.222|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults||1.222|-0.444|0.8201
82548064|NCT03580369|164796828|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|2.747|||<|0.0001|TWO_SIDED|95.0|1.621|4.656|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||4.656|1.621|<.0001
82548065|NCT03580369|164796828|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.836||||0.8586|TWO_SIDED|95.0|0.603|1.159|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.159|0.603|0.8586
82548066|NCT03580369|164796828|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|3.261|||<|0.0001|TWO_SIDED|95.0|1.929|5.513|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||5.513|1.929|<.0001
82548067|NCT03580369|164796828|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.992||||0.519|TWO_SIDED|95.0|0.717|1.373|||Regression, Logistic|95% confidence interval for the odds ratio||Adults||1.373|0.717|0.5190
82548068|NCT03580369|164796829|SUPERIORITY||Risk Ratio (RR)|1.323|||<|0.0001|TWO_SIDED|95.0|1.183|1.48|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.480|1.183|<.0001
82548069|NCT03580369|164796829|SUPERIORITY||Risk Ratio (RR)|0.975||||0.7469|TWO_SIDED|95.0|0.904|1.051|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.051|0.904|0.7469
82548070|NCT03580369|164796829|SUPERIORITY||Risk Ratio (RR)|1.376|||<|0.0001|TWO_SIDED|95.0|1.23|1.54|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.540|1.230|<.0001
82548071|NCT03580369|164796829|SUPERIORITY||Risk Ratio (RR)|1.014||||0.3586|TWO_SIDED|95.0|0.941|1.092|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults||1.092|0.941|0.3586
82548072|NCT02349412|164796881|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.104|TWO_SIDED|95.0|-0.67|7.13|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline FACT-G score||||7.13|-0.67|0.104
82650817|NCT04128696|165016454|SUPERIORITY||Hazard Ratio (HR)|4.44|||>|0.999|TWO_SIDED|95.0|2.01|9.82||Nominal p-value was calculated based on the one-sided log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||9.82|2.01|>0.999
82472986|NCT00611026|164640554|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||<0.0001
82548073|NCT02349412|164796882|SUPERIORITY||Mean Difference (Final Values)|3.12||||0.188|TWO_SIDED|95.0|-1.54|7.77|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline FACT-G score||||7.77|-1.54|0.188
82548074|NCT02349412|164796883|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.884|TWO_SIDED|95.0|-0.94|2.09|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline HADS-Depression score||||2.09|-0.94|0.884
82548075|NCT02349412|164796884|SUPERIORITY||Mean Difference (Final Values)|-0.81||||0.033|TWO_SIDED|95.0|-1.54|-0.07|||ANCOVA|Statistical Method: Available Case ANCOVA Model adjusting for baseline HADS-Anxiety score||||-0.07|-1.54|0.033
82548076|NCT02349412|164796885|SUPERIORITY|||||||0.006|||||||Chi-squared|||||||0.006
82548077|NCT03897686|164796896|SUPERIORITY|\[Not specified\]|LS-means difference|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0003|TWO_SIDED|95.0|-274.96|-83.65||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||"It was determined that 144 participants randomized into 2 groups (1:1) would have at least 80% power to detect an effect size of 0.25. Sample size was calculated based on analysis of covariance adjusted for baseline value with fixed factors of group assuming α = 0.05 and 10% discontinuation rate.~The null hypothesis states that there is no difference between treatment groups in mean change from baseline to Week 25 in the total WOMAC score."||-83.65|-274.96|0.00030
82548078|NCT03897686|164796896|SUPERIORITY|\[Not specified\]|LS-means difference|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0017|TWO_SIDED|95.0|-305.11|-53.5||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~1\) Group A (NOLTREX™) OA grade II versus Group B (Placebo) ОА grade II"||-53.50|-305.11|0.0017
82650818|NCT04128696|165016455|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.989|TWO_SIDED|95.0|1.05|1.86||Nominal p-value was calculated based on the log-rank test, stratified by stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.86|1.05|0.989
82472987|NCT00611026|164640554|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference Tolterodine ER vs placebo at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0019
82472988|NCT00611026|164640554|SUPERIORITY_OR_OTHER|||||||0.0148|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline UUI quartile.||Treatment difference fesoterodine vs Tolterodine ER at Week 4. Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95th percentile, respectively).||||0.0148
82472989|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0012
82472990|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0205|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0205
82472991|NCT00611026|164640555|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
82472992|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0038|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0038
82472993|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0219|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0219
82472994|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||0.0001
82472995|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0805|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0805
82472996|NCT00611026|164640555|SUPERIORITY_OR_OTHER|||||||0.0093|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0093
82472997|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0374|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||-0.0|-0.7|0.0374
82472998|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3161|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.2|-0.5|0.3161
82472999|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1817|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.1|-0.5|0.1817
82473000|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.6|-0.8|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-0.8|-1.6|<0.0001
82473001|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0054|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.2|-1.0|0.0054
82650819|NCT04128696|165016456|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.996|TWO_SIDED|95.0|1.1|1.99||Nominal p-value was calculated based on the log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx)||1.99|1.10|0.996
82473002|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.2||0.0005|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.3|-0.9|0.0005
82473003|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.5|-0.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-0.6|-1.5|<0.0001
82548079|NCT03897686|164796896|SUPERIORITY||LS-means difference|-37.01|STANDARD_ERROR_OF_MEAN|61.85||0.9324|TWO_SIDED|95.0|-197.83|123.82||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~2\) Group A (NOLTREX™) OA grade II versus Group A (NOLTREX™) ОА grade III"||123.82|-197.83|0.9324
82548080|NCT03897686|164796896|SUPERIORITY||LS-means difference|-216.31|STANDARD_ERROR_OF_MEAN|75.01||0.0233|TWO_SIDED|95.0|-411.37|-21.25||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~3\) Group A (NOLTREX™) OA grade II versus Group B (Placebo) ОА grade III"||-21.25|-411.37|0.0233
82548081|NCT03897686|164796896|SUPERIORITY||LS-means difference|142.3|STANDARD_ERROR_OF_MEAN|81.89||0.3082|TWO_SIDED|95.0|-70.63|355.22||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~4\) Group A (NOLTREX™) OA grade III versus Group B (Placebo) ОА grade II"||355.22|-70.63|0.3082
82548082|NCT03897686|164796896|SUPERIORITY||LS-means difference|-37.01|STANDARD_ERROR_OF_MEAN|61.85||0.9324|TWO_SIDED|95.0|-197.83|123.82||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~5\) versus Group B (Placebo) OA grade II versus Group B (Placebo) ОА grade III"||123.82|-197.83|0.9324
82548083|NCT03897686|164796896|SUPERIORITY||Slope|-179.3|STANDARD_ERROR_OF_MEAN|48.38||0.0017|TWO_SIDED|95.0|-305.11|-53.5||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||"After the analysis of covariance were performed pairwise comparisons of NOLTREX and placebo groups for each stage of OA:~6\) Group A (NOLTREX™) OA grade III versus Group B (Placebo) ОА grade III"||-53.50|-305.11|0.0017
82548084|NCT03897686|164796897|SUPERIORITY|\[Not specified\]|S-means difference|-143.39|STANDARD_ERROR_OF_MEAN|46.88||0.00267|TWO_SIDED|95.0|-236.09|-50.69||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||It was determined that 144 participants randomized into 2 groups (1:1) would have at least 80% power to detect an effect size of 0.25. Sample size was calculated based on analysis of covariance adjusted for baseline value with fixed factors of group assuming α = 0.05 and 10% discontinuation rate.||-50.69|-236.09|0.00267
82548085|NCT03897686|164796898|SUPERIORITY||LS-means difference|-13.23|STANDARD_ERROR_OF_MEAN|9.995||0.16786|TWO_SIDED|95.0|-32.096|5.638||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 3 (week 6)||5.638|-32.096|0.16786
82548086|NCT03897686|164796898|SUPERIORITY||LS-means difference|-26.695|STANDARD_ERROR_OF_MEAN|9.995||0.00847|TWO_SIDED|95.0|-46.46|-6.93||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 4 (week 13)||-6.93|-46.46|0.00847
82548087|NCT03897686|164796898|SUPERIORITY||LS-means difference|-33.96|STANDARD_ERROR_OF_MEAN|10.29||0.00123|TWO_SIDED|95.0|-54.31|-13.62||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 5 (week 25)||-13.62|-54.31|0.00123
82548088|NCT03897686|164796899|SUPERIORITY||LS-means difference|-0.146|STANDARD_ERROR_OF_MEAN|5.121||0.97733|TWO_SIDED|95.0|-10.271|9.98||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in stiffness WOMAC score, visit 3||9.980|-10.271|0.97733
82548089|NCT03897686|164796899|SUPERIORITY||LS-means difference|-14.5|STANDARD_ERROR_OF_MEAN|5.29||0.00693|TWO_SIDED|95.0|-24.95|-4.04||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in stiffness WOMAC score, visit 4||-4.04|-24.95|0.00693
82473004|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1467|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.1|-0.7|0.1467
82473005|NCT00611026|164640556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-0.4|-1.1|<0.0001
82473006|NCT00611026|164640557|SUPERIORITY_OR_OTHER|||||||0.0828|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0828
82473007|NCT00611026|164640557|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
82473008|NCT00611026|164640557|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0008
82473009|NCT00611026|164640557|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0022
82473010|NCT00611026|164640557|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
82473011|NCT00611026|164640557|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0008
82473012|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.0576|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||"Treatment difference fesoterodine vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).~If normality assumptions were severely violated (proportion of non normal observations \> 5%) a non-parametric analysis was to be conducted using Van Elteren's test stratified by baseline quartile of the diary variable analyzed."||||0.0576
82473013|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.223|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.2230
82548090|NCT03897686|164796899|SUPERIORITY||LS-means difference|-16.18|STANDARD_ERROR_OF_MEAN|4.68||0.00073|TWO_SIDED|95.0|-25.44|-6.92||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in pain WOMAC score at visit 5 (week 25)||-6.92|-25.44|0.00073
82548091|NCT03897686|164796899|SUPERIORITY||LS-means difference|-57.14|STANDARD_ERROR_OF_MEAN|32.1||0.07725|TWO_SIDED|95.0|-120.62|6.33||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 3||6.33|-120.62|0.07725
82473014|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.3555|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 1. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.3555
82473015|NCT00611026|164640558|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||<0.0001
82548092|NCT03897686|164796899|SUPERIORITY||LS-means difference|-103.27|STANDARD_ERROR_OF_MEAN|33.92||0.00279|TWO_SIDED|95.0|-170.35|-36.2||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 4||-36.20|-170.35|0.00279
82473016|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0009
82579808|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|-0.95||||0.0013|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0013
82650820|NCT04128696|165016457|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.98|2.43|||Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx)||2.43|0.98|
82473017|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.0071|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 4. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0071
82473018|NCT00611026|164640558|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||<0.0001
82473019|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.1764|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference Tolterodine ER vs placebo at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.1764
82473020|NCT00611026|164640558|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Van Elteren's Test|P-value based on Van Elteren's Test (a stratified Wilcoxon-Mann Whitney test) adjusted by baseline quartile of severe urgency episodes.||Treatment difference fesoterodine vs Tolterodine ER at Week 12. Treatment effects estimated by Winsorized means (5% of the tails were censored, ie, replaced with the value at the 5th and 95 percentile, respectively).||||0.0001
82473021|NCT00611026|164640559|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
82473022|NCT00611026|164640559|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0003
82473023|NCT00611026|164640559|SUPERIORITY_OR_OTHER|||||||0.0302|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0302
82473024|NCT00611026|164640559|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
82473025|NCT00611026|164640559|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Inferential testing: percent change from baseline only carried out for given end/time point if corresponding numeric change result statistically significant (to preserve alpha level at 5% within each type of diary endpoint for a given comparison).|ANCOVA|Based on a ranked analysis of covariance model with terms for country and treatment and ranked baseline value as a covariate.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0007
82473026|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0701|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||0.0|-0.1|0.0701
82473027|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.4823|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.0|-0.1|0.4823
82650821|NCT04128696|165016458|SUPERIORITY||Hazard Ratio (HR)|1.59|||||TWO_SIDED|95.0|1.0|2.53|||Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.53|1.00|
82473028|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.1702|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.0|-0.1|0.1702
82473029|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-0.1|-0.3|<0.0001
82473030|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0059|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.0|-0.2|0.0059
82473031|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0014|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.0|-0.2|0.0014
82473032|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.0|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-0.1|-0.3|<0.0001
82473033|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.311|TWO_SIDED|95.0|-0.1|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.0|-0.1|0.3110
82473034|NCT00611026|164640560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.0004|TWO_SIDED|95.0|-0.2|-0.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-0.1|-0.2|0.0004
82473035|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|0.6||0.0136|TWO_SIDED|95.0|-2.7|-0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 1.||-0.3|-2.7|0.0136
82473036|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.6||0.1918|TWO_SIDED|95.0|-2.0|0.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 1.||0.4|-2.0|0.1918
82473037|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.1505|TWO_SIDED|95.0|-1.7|0.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||0.3|-1.7|0.1505
82473038|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.2|-2.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 4.||-2.6|-5.2|<0.0001
82548093|NCT03897686|164796899|SUPERIORITY||LS-means difference|-133.29|STANDARD_ERROR_OF_MEAN|35.26||0.00023|TWO_SIDED|95.0|-203.03|-63.55||The threshold for statistical significance was p \<0.05.|ANCOVA|"Analysis of covariance (ANCOVA) adjusted for the baseline value with fixed factors of treatment group and radiological stage"||Contrasts for changes in functionality WOMAC score, visit 5||-63.55|-203.03|0.00023
82473039|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.7||0.0034|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 4.||-0.7|-3.3|0.0034
82473040|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|0.5||0.0006|TWO_SIDED|95.0|-3.0|-0.8|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||-0.8|-3.0|0.0006
82548094|NCT03897686|164796900|SUPERIORITY||||||<|0.005||||||The level of significance was set to p \<0.05.|Chi-squared|P-value generated by Chi-squared test was ≤0.005 for each time point.||The Chi-Square test was used to determine whether there was a statistically significant difference in disposition of results between two groups.||||<0.005
82548095|NCT03897686|164796901|SUPERIORITY||||||<|0.005||||||The level of significance was set to p \<0.05.|Chi-squared|P-value generated by Chi-squared test was ≤0.005 for each time point.||The Chi-Square test was used to determine whether there was a statistically significant difference in disposition of results between two groups.||||<0.005
82473041|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.0|-2.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-2.3|-5.0|<0.0001
82473042|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.7||0.0859|TWO_SIDED|95.0|-2.5|0.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||0.2|-2.5|0.0859
82473043|NCT00611026|164640561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-3.6|-1.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-1.4|-3.6|<0.0001
82473044|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 1.||||0.0008
82473045|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 1.||||0.0024
82473046|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.6514|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 1.||||0.6514
82473047|NCT00611026|164640562|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 4.||||<0.0001
82548096|NCT03897686|164796903|SUPERIORITY|||||||0.05||||||The threshold for statistical significance was p \<0.05.|ANCOVA|||The mean number of paracetamol tablets was calculated taking into account only patients who had received paracetamol. ANCOVA was used to detect a difference in means of 2 groups at visit 3 (week 6).||||0.050
82548097|NCT03897686|164796903|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p \<0.05.|ANCOVA|||The mean number of paracetamol tablets was calculated taking into account only patients who had received paracetamol. ANCOVA was used to detect a difference in means of 2 groups at visit 4 (week 13).||||0.004
82548098|NCT03743636|164796906|SUPERIORITY||Mean Difference (Final Values)|17.57||||0.0775|ONE_SIDED|90.0|1.77||||Mixed Models Analysis||||||1.77|0.0775
82548099|NCT03743636|164796907|SUPERIORITY||Mean Difference (Final Values)|3.65||||0.3762|ONE_SIDED|90.0|-11.24||||Mixed Models Analysis||||||-11.24|0.3762
82548100|NCT03743636|164796908|SUPERIORITY||Mean Difference (Final Values)|22.42||||0.0294|ONE_SIDED|90.0|7.31||||Mixed Models Analysis||||||7.31|0.0294
82548101|NCT03743636|164796909|SUPERIORITY||Mean Difference (Final Values)|20.63||||0.0336|ONE_SIDED|90.0|6.26||||Mixed Models Analysis||||||6.26|0.0336
82579809|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|-0.77||||0.0003|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0003
82548102|NCT03743636|164796910|SUPERIORITY||Mean Difference (Final Values)|-1.78||||0.562|ONE_SIDED|90.0|-16.51||||Mixed Models Analysis||||||-16.51|0.5620
82548103|NCT03743636|164796911|SUPERIORITY||Mean Difference (Final Values)|-13.93||||0.8797|ONE_SIDED|90.0|-29.15||||Mixed Models Analysis||||||-29.15|0.8797
82548104|NCT03743636|164796912|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0752|ONE_SIDED|90.0|0.24||||ANCOVA||||||0.24|0.0752
82548105|NCT03743636|164796913|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.8703|ONE_SIDED|90.0|-15.19||||ANCOVA||||||-15.19|0.8703
82548106|NCT03743636|164796914|SUPERIORITY||Mean Difference (Final Values)|10995.0||||0.1402|ONE_SIDED|90.0|-2078.0||||ANCOVA||||||-2078|0.1402
82548107|NCT03743636|164796915|SUPERIORITY||Mean Difference (Final Values)|1.74||||0.1249|ONE_SIDED|90.0|-0.21||||ANCOVA||||||-0.21|0.1249
82473048|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 4.||||0.0063
82548108|NCT03743636|164796916|SUPERIORITY||Mean Difference (Final Values)|-5.05||||0.8039|ONE_SIDED|90.0|-12.62||||ANCOVA||||||-12.62|0.8039
82548109|NCT03743636|164796917|SUPERIORITY||Mean Difference (Final Values)|-842.0||||0.5352|ONE_SIDED|90.0|-13125.0||||ANCOVA||||||-13125|0.5352
82473049|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0494|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 4.||||0.0494
82473050|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs placebo at Week 12.||||0.0003
82473051|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0991|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for Tolterodine ER vs placebo at Week 12.||||0.0991
82548110|NCT03743636|164796918|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.5777|ONE_SIDED|90.0|-2.46||||ANCOVA||||||-2.46|0.5777
82548111|NCT03743636|164796919|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.3662|ONE_SIDED|90.0|-5.69||||ANCOVA||||||-5.69|0.3662
82548112|NCT03743636|164796920|SUPERIORITY||Mean Difference (Final Values)|-11837.0||||0.8866|ONE_SIDED|90.0|-24396.0||||ANCOVA||||||-24396|0.8866
82473052|NCT00611026|164640562|SUPERIORITY_OR_OTHER|||||||0.0169|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel test stratified by baseline UUI quartile.||Treatment difference in continent rate for fesoterodine vs Tolterodine ER at Week 12.||||0.0169
82473053|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0009
82473054|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0279|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0279
82548113|NCT03743636|164796921|SUPERIORITY|Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|Mean Difference (Final Values)|25.25||||0.0153|ONE_SIDED|90.0|10.43|||The a priori statistical analysis plan defined a one-sided P value of \< 0.10 to define statistical significance.|Mixed Models Analysis|||Mixed models for repeated measures were used to compare 3-month change in 6MW distance between the NR/resveratrol vs placebo groups and between the NR alone vs placebo groups using baseline, 3-month, and 6-month values, adjusted for age, sex, race, and baseline 6MW.|||10.43|0.0153
82548114|NCT03743636|164796922|SUPERIORITY|Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|Mean Difference (Final Values)|14.05||||0.1195|ONE_SIDED|90.0|-1.25||||Mixed Models Analysis|||Mixed models for repeated measures were used to compare 6-month change in 6MW distance between the NR/resveratrol vs placebo groups and between the NR alone vs placebo groups using baseline, 3-month, and 6-month values, adjusted for age, sex, race, and baseline 6MW.|||-1.25|0.1195
82548115|NCT03743636|164796923|SUPERIORITY||Mean Difference (Final Values)|2.06||||0.0752|ONE_SIDED|90.0|0.24|||The a priori statistical analysis plan defined a one-sided P value of \< 0.10 to define statistical significance.|ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||0.24|0.0752
82548116|NCT03743636|164796924|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.8703|ONE_SIDED|90.0|-15.19||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-15.19|0.8703
82548117|NCT03743636|164796925|SUPERIORITY||Mean Difference (Final Values)|10995.0||||0.1402|ONE_SIDED|90.0|-2078.0||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-2078|0.1402
82548118|NCT03743636|164796926|SUPERIORITY||Mean Difference (Final Values)|-35.13||||0.8401|ONE_SIDED|90.0|-81.2||||ANCOVA||||||-81.20|0.8401
82548119|NCT03743636|164796927|SUPERIORITY||Mean Difference (Final Values)|11.14||||0.0602|ONE_SIDED|90.0|2.16||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||2.16|0.0602
82548120|NCT03743636|164796928|SUPERIORITY||Mean Difference (Final Values)|5.21||||0.2378|ONE_SIDED|90.0|-4.47||||ANCOVA||||||-4.47|0.2378
82579810|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|-0.94|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82473055|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.2817|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 1.||||0.2817
82473056|NCT00611026|164640563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 4.||||<0.0001
82473057|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.0001
82473058|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0177|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 4.||||0.0177
82473059|NCT00611026|164640563|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
82473060|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0107|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0107
82473061|NCT00611026|164640563|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||||0.0005
82473062|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.0011|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 1.||||0.0011
82579811|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Redness at 50 lux is reported."|Slope|0.81|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579812|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for NCdiff at 500 lux is reported."|Slope|-0.87||||0.0096|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0096
82473063|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.0072|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 1.||||0.0072
82473064|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.3713|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 1.||||0.3713
82473065|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 4.||||0.0002
82473066|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.1485|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 4.||||0.1485
82473067|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 4.||||0.0040
82473068|NCT00611026|164640564|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs placebo at Week 12.||||<0.0001
82473069|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference Tolterodine ER vs placebo at Week 12.||||0.0060
82473070|NCT00611026|164640564|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value was obtained from a Cochran-Mantel-Haenszel test (CMH) with modified ridit scoring and stratified by country.||Treatment difference fesoterodine vs Tolterodine ER at Week 12.||||0.0016
82473071|NCT00611026|164640565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-9.5|-4.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference fesoterodine vs placebo at Week 12.||-4.7|-9.5|<0.0001
82579813|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Redness at 500 lux is reported."|Slope|0.36||||0.0003|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0003
82473072|NCT00611026|164640565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.2||0.0458|TWO_SIDED|95.0|-4.8|0.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs placebo at Week 12.||-0.0|-4.8|0.0458
82473073|NCT00611026|164640565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-6.6|-2.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment difference Tolterodine ER vs Fesoterodine at Week 12.||-2.7|-6.6|<0.0001
82473074|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|3.4|7.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL scale score total.||7.9|3.4|<0.0001
82473075|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.1||0.0429|TWO_SIDED|95.0|0.1|4.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Placebo: HRQL scale score total.||4.6|0.1|0.0429
82579814|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM10 at 50 lux is reported."|Slope|2.13||||0.0063|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0063
82579815|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 50 lux is reported."|Slope|2.3||||0.0018|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0018
82579816|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Pa at 50 lux is reported."|Slope|3.22||||0.0134|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0134
82579817|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dbase at 50 lux is reported."|Slope|-1.48|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82650822|NCT04128696|165016463|OTHER||Difference in Percentage|-5.3|||||TWO_SIDED|95.0|-14.6|4.0||||||The comparison between the treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||4.0|-14.6|
82473076|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|0.9||0.0003|TWO_SIDED|95.0|1.5|5.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL scale score total.||5.2|1.5|0.0003
82473077|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|1.3|<|0.0001|TWO_SIDED|95.0|4.0|9.2|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.||Treatment Difference Fesoterodine vs placebo: HRQL concern domain.||9.2|4.0|<0.0001
82473078|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.3||0.0795|TWO_SIDED|95.0|-0.3|4.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Placebo vs Tolterodine ER: HRQL concern domain.||4.9|-0.3|0.0795
82473079|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|2.1|6.3|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL concern domain.||6.3|2.1|<0.0001
82473080|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|1.4|<|0.0001|TWO_SIDED|95.0|4.3|9.6|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL coping domain.||9.6|4.3|<0.0001
82473081|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|1.3||0.0229|TWO_SIDED|95.0|0.4|5.7|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL coping domain.||5.7|0.4|0.0229
82473082|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|1.1||0.0004|TWO_SIDED|95.0|1.7|6.0|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs Tolterodine ER: HRQL coping domain.||6.0|1.7|0.0004
82473083|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_ERROR_OF_MEAN|1.2||0.0003|TWO_SIDED|95.0|2.0|6.9|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL sleep domain.||6.9|2.0|0.0003
82473084|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|1.2||0.0923|TWO_SIDED|95.0|-0.3|4.5|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL sleep domain.||4.5|-0.3|0.0923
82473085|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.0||0.018|TWO_SIDED|95.0|0.4|4.4|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Fesoterodine: HRQL sleep domain.||4.4|0.4|0.0180
82473086|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|1.0||0.0011|TWO_SIDED|95.0|1.3|5.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Fesoterodine vs placebo: HRQL social interaction domain.||5.1|1.3|0.0011
82473087|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.0||0.2208|TWO_SIDED|95.0|-0.7|3.1|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs placebo: HRQL social interaction domain.||3.1|-0.7|0.2208
82473088|NCT00611026|164640566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.8||0.0117|TWO_SIDED|95.0|0.4|3.5|||ANCOVA|Based on an analysis of covariance model with terms for country and treatment and with baseline value as a covariate.|Treatment difference LSMean difference (SE), SE is recorded as parameter dispersion type: standard error of the mean.|Treatment Difference Tolterodine ER vs Fesoterodine: HRQL social interaction domain.||3.5|0.4|0.0117
82473089|NCT04674761|164640606|SUPERIORITY||LS mean difference|-0.88|STANDARD_ERROR_OF_MEAN|0.277||0.0012|TWO_SIDED|95.0|-1.44|-0.33|||Mixed Models Analysis|||The analysis is based on a mixed model for repeated measures (MMRM) using a restricted maximum likelihood (REML) with baseline score as a covariate, and baseline age stratification, baseline direct bilirubin, treatment group, time (in months), and treatment-by-time interaction as fixed effects. One-sided p-value was reported.||-0.33|-1.44|0.0012
82473090|NCT04674761|164640607|SUPERIORITY||LS mean difference|-112.74|STANDARD_ERROR_OF_MEAN|32.864||0.0006|TWO_SIDED|95.0|-178.78|-46.69|||Mixed Models Analysis|||The analysis is based on a mixed model for repeated measures (MMRM) using a restricted maximum likelihood (REML) with baseline serum bile acid (sBA) concentration data as a covariate, and baseline age stratification, treatment group, visits (Weeks 4, 8, 12, 16, 20, 24), and treatment-by-visit interaction as fixed effects. The comparison of treatment difference in change from baseline to the average of Week 20 and Week 24 is estimated and tested using contrast. One-sided p-value was reported.||-46.69|-178.78|0.0006
82473091|NCT04845568|164640612|SUPERIORITY||Mean Difference (Net)|1.13|STANDARD_ERROR_OF_MEAN|2.08||0.592|TWO_SIDED|95.0|-3.16|5.43||A priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Self-Efficacy for Physical Activity. It is an independent samples t test. It is testing the null hypothesis that the mean change in self-efficacy for physical activity does not differ between conditions.||5.43|-3.16|0.592
82473092|NCT04845568|164640612|SUPERIORITY||Mean Difference (Net)|-1.19|STANDARD_ERROR_OF_MEAN|1.56||0.453|TWO_SIDED|95.0|-4.39|2.02||A priori threshold for statistical significance was set at p\<0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Self-Efficacy for Healthy Eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in self-efficacy for healthy eating does not differ between conditions.||2.02|-4.39|0.453
82473093|NCT04845568|164640613|SUPERIORITY||Mean Difference (Net)|0.275|STANDARD_ERROR_OF_MEAN|0.3||0.368|TWO_SIDED|95.0|-0.342|0.892||A priori threshold for statistical significance set at p\< 0.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Caregiver Readiness to Change Child's Eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in readiness for healthy eating does not differ between conditions.||.892|-.342|.368
82473094|NCT04845568|164640613|SUPERIORITY||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.34||0.714|TWO_SIDED|95.0|-0.575|0.827||A priori threshold for statistical significance set at p\< .05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in Caregiver Readiness for Physical Activity. It is an independent samples t test. It is testing the null hypothesis that the mean change in caregiver intentions to help child improve physical activity from baseline to two-week follow up does not differ between conditions.||.827|-.575|.714
82473095|NCT04845568|164640614|SUPERIORITY||Mean Difference (Net)|-0.522|STANDARD_ERROR_OF_MEAN|1.88||0.783|TWO_SIDED|95.0|-4.39|3.34||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child attitudes toward healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in child attitudes toward healthy eating from baseline to post-intervention does not differ between conditions.||3.34|-4.39|.783
82473096|NCT04845568|164640614|SUPERIORITY||Mean Difference (Net)|-1.99|STANDARD_ERROR_OF_MEAN|1.97||0.323|TWO_SIDED|95.0|-6.05|2.07||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intentions toward healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in child intentions toward healthy eating from baseline to post-intervention does not differ between conditions.||2.07|-6.05|.323
82548121|NCT03743636|164796929|SUPERIORITY||Mean Difference (Final Values)|6.05||||0.1589|ONE_SIDED|90.0|-1.86||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-1.86|0.1589
82473097|NCT04845568|164640614|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|1.89||0.276|TWO_SIDED|95.0|-1.79|6.01||A priori threshold for statistical significance is set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in caregiver intentions toward helping their child engage in healthy eating. It is an independent samples t test. It is testing the null hypothesis that the mean change in caregiver intentions from baseline to post-intervention does not differ between conditions.||6.01|-1.79|.276
82473098|NCT04845568|164640615|SUPERIORITY||Mean Difference (Net)|0.247|STANDARD_ERROR_OF_MEAN|0.4||0.547|TWO_SIDED|95.0|-0.59|1.08||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of fruits. It is an independent samples t test. It is testing the null hypothesis that the mean change in child fruit servings per week from baseline to two-week follow up does not differ between conditions.||1.08|-.59|.547
82473099|NCT04845568|164640615|SUPERIORITY||Mean Difference (Net)|-0.005|STANDARD_ERROR_OF_MEAN|0.42||0.99|TWO_SIDED|95.0|-0.87|0.86||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of vegetables. It is an independent samples t test. It is testing the null hypothesis that the mean change in child vegetable servings per week from baseline to two-week follow up does not differ between conditions.||.86|-.87|.990
82473100|NCT04845568|164640615|SUPERIORITY||Mean Difference (Net)|-0.203|STANDARD_ERROR_OF_MEAN|0.32||0.527|TWO_SIDED|95.0|-0.86|0.45||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of fast food. It is an independent samples t test. It is testing the null hypothesis that the mean change in child fast food servings per week from baseline to two-week follow up does not differ between conditions.||.45|-.86|.527
82473101|NCT04845568|164640616|SUPERIORITY||Mean Difference (Net)|-0.159|STANDARD_ERROR_OF_MEAN|0.55||0.777|TWO_SIDED|95.0|-1.33|1.01||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child weekly intake of breakfast. It is an independent samples t test. It is testing the null hypothesis that the mean change in child breakfast meals per week from baseline to two-week follow up does not differ between conditions.||1.01|-1.33|.777
82473102|NCT04845568|164640616|SUPERIORITY||Mean Difference (Net)|-0.736|STANDARD_ERROR_OF_MEAN|0.74||0.329|TWO_SIDED|95.0|-2.26|0.79||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child intake of family dinners. It is an independent samples t test. It is testing the null hypothesis that the mean change in child family dinners per week from baseline to two-week follow up does not differ between conditions.||.79|-2.26|.329
82473103|NCT04845568|164640617|SUPERIORITY||Mean Difference (Net)|0.46|STANDARD_ERROR_OF_MEAN|0.26||0.086|TWO_SIDED|95.0|-0.07|0.99||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child screentime. It is an independent samples t test. It is testing the null hypothesis that the mean change in child screentime per week from baseline to two-week follow up does not differ between conditions.||.99|-0.07|.086
82473104|NCT04845568|164640617|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.25||0.64|TWO_SIDED|95.0|-0.64|0.4||A priori threshold for statistical significance set at p\<.05.|t-test, 2 sided|Degrees of freedom = 25||This analysis is for the outcome: Change in child active hours. It is an independent samples t test. It is testing the null hypothesis that the mean change in child active hours per week from baseline to two-week follow up does not differ between conditions.||.40|-.64|.64
82473105|NCT04193189|164640662|NON_INFERIORITY|Pre-specified non-inferiority margin (2-CpG minus 3-alum): -10%.|Common proportion difference|12.5|||||TWO_SIDED|97.5|4.1|20.9|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Primary objective of Group A||20.9|4.1|
82473106|NCT04193189|164640662|SUPERIORITY||Common proportion difference|18.4|||||TWO_SIDED|97.5|10.4|26.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe repeated confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Primary objective of Group A||26.2|10.4|
82473107|NCT04193189|164640662|SUPERIORITY||Common proportion difference|6.0|||||TWO_SIDED|97.5|-0.2|11.8|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Secondary objective of Group A||11.8|-0.2|
82473108|NCT04193189|164640664|SUPERIORITY||Common proportion difference|9.0|||||TWO_SIDED|97.5|0.1|18.1|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 4 weeks post last scheduled vaccination (Week 8 in 2-CpG, Week 28 in 3-alum)||18.1|0.1|
82473109|NCT04193189|164640664|SUPERIORITY||Common proportion difference|19.0|||||TWO_SIDED|97.5|10.0|27.9|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 8 weeks post last scheduled vaccination (Week 12 in 2-CpG, Week 32 in 3-alum)||27.9|10.0|
82473110|NCT04193189|164640664|SUPERIORITY||Common proportion difference|27.8|||||TWO_SIDED|97.5|17.7|37.2|||||Common SP proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 24 weeks post last scheduled vaccination (Week 28 in 2-CpG, Week 48 in 3-alum)||37.2|17.7|
82473111|NCT04193189|164640664|SUPERIORITY||Common proportion difference|32.3|||||TWO_SIDED|97.5|21.3|42.3|||||Common SPR proportion (expressed as percentage of participants) difference (2-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 2-CpG and 3-alum at 48 weeks post last scheduled vaccination (Week 52 in 2-CpG, Week 72 in 3-alum)||42.3|21.3|
82579818|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 50 lux is reported."|Slope|-2.48|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579819|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 50 lux is reported."|Slope|-1.264|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579820|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 50 lux is reported."|Slope|-1.47|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579821|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 50 lux is reported."|Slope|-1.64|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579822|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 50 lux is reported."|Slope|-1.63|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579823|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for PESC at 50 lux is reported."|Slope|1.43||||0.0313|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0313
82650823|NCT04128696|165016464|OTHER||Difference in Percentage|-13.3|||||TWO_SIDED|95.0|-27.8|1.5||||||The comparison between the treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||1.5|-27.8|
82473112|NCT04193189|164640664|SUPERIORITY||Common proportion difference|23.8|||||TWO_SIDED|97.5|15.5|32.3|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 8 weeks post last scheduled vaccination (Week 32)||32.3|15.5|
82650824|NCT04128696|165016465|OTHER||Difference in Percentage|-11.8|||||TWO_SIDED|95.0|-22.4|-1.1||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||-1.1|-22.4|
82650825|NCT04128696|165016466|OTHER||Difference in Percentage|-18.0|||||TWO_SIDED|95.0|-33.7|-1.4||||||The comparison between treatment groups was based on the stratified Miettinen \& Nurminen method with strata weighting by sample size and a single treatment covariate. Stratification factors included HPV status (positive vs. negative). Participants with oropharynx HPV negative/unknown and non-oropharyngeal tumors were combined as the HPV negative group.||-1.4|-33.7|
82473113|NCT04193189|164640664|SUPERIORITY||Common proportion difference|32.3|||||TWO_SIDED|97.5|23.2|41.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 24 weeks post last scheduled vaccination (Week 48)||41.2|23.2|
82473114|NCT04193189|164640664|SUPERIORITY||Common proportion difference|38.8|||||TWO_SIDED|97.5|28.9|48.1|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 3-alum) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 3-alum at 48 weeks post last scheduled vaccination (Week 72)||48.1|28.9|
82473115|NCT04193189|164640664|SUPERIORITY||Common proportion difference|10.0|||||TWO_SIDED|97.5|3.1|16.4|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 4 weeks post last scheduled vaccination (Week 28 in 3-CpG, Week 8 in 2-CpG)||16.4|3.1|
82473116|NCT04193189|164640664|SUPERIORITY||Common proportion difference|4.8|||||TWO_SIDED|97.5|-0.8|10.5|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 8 weeks post last scheduled vaccination (Week 32 in 3-CpG, Week 12 in 2-CpG)||10.5|-0.8|
82473117|NCT04193189|164640664|SUPERIORITY||Common proportion difference|4.9|||||TWO_SIDED|97.5|-0.8|11.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 24 weeks post last scheduled vaccination (Week 48 in 3-CpG, Week 28 in 2-CpG)||11.2|-0.8|
82473118|NCT04193189|164640664|SUPERIORITY||Common proportion difference|7.2|||||TWO_SIDED|97.5|0.7|14.2|||||Common SPR proportion (expressed as percentage of participants) difference (3-CpG minus 2-CpG) with two-sided 97.5% Newcombe confidence interval stratified by sex at birth and diabetes status; Mantel-Haenszel weights were used.|Comparison of Group A 3-CpG and 2-CpG at 48 weeks post last scheduled vaccination (Week 72 in 3-CpG, Week 52 in 2-CpG)||14.2|0.7|
82473119|NCT01077050|164640669|SUPERIORITY_OR_OTHER||Sensitivity to Melanoma|96.6|||||ONE_SIDED|95.0|94.2|||The point estimate of the observed sensitivity that is based on generalized linear mixed model is equal to that calculated in the usual manner.|Clopper-Pearson 1-sided||||||94.2|
82473120|NCT01077050|164640669|SUPERIORITY_OR_OTHER||Sensitivity to Basal Cell Carcinoma|100.0|||||TWO_SIDED|95.0|92.6|100.0|||Clopper-Pearson 2-sided|Point estimate of the observed sensitivity for Basal Cell Carcinoma||||100|92.6|
82473121|NCT01077050|164640669|SUPERIORITY_OR_OTHER||Observed sensitivity for squamous cell c|93.3|||||TWO_SIDED|95.0|68.1|99.8|||Clopper-Pearson 2-sided|Point estimate of the observed sensitivity for squamous cell carcinoma||||99.8|68.1|
82473122|NCT01077050|164640669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.0|||<|0.0001|TWO_SIDED|95.0|6.6|25.5|||Mixed Models Analysis|Note that calculating odds ratio adjusting for subjects having multiple lesions, yields similar result.||||25.5|6.6|<0.0001
82473123|NCT05475483|164640671|OTHER||Mean Difference (Final Values)|-1.27|||=|0.045|TWO_SIDED|95.0|-2.51|-0.03|||Mixed Models Analysis|||||-0.03|-2.51|= 0.045
82473124|NCT05475483|164640672|OTHER||Odds Ratio (OR)|2.22|||=|0.078|TWO_SIDED|95.0|0.91|5.37|||Regression, Logistic|||||5.37|0.91|= 0.078
82473125|NCT05475483|164640673|OTHER||Odds Ratio (OR)|1.95||||0.143|TWO_SIDED|95.0|0.8|4.76|||Regression, Logistic|||||4.76|0.80|0.143
82473126|NCT05475483|164640674|OTHER||Mean Difference (Final Values)|-1.78|||=|0.032|TWO_SIDED|95.0|-3.4|-0.16|||Mixed Models Analysis|||||-0.16|-3.40|= 0.032
82650826|NCT04128696|165016475|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.783|TWO_SIDED|95.0|0.78|1.77||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.77|0.78|0.783
82473127|NCT00684060|164640681|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0|STANDARD_ERROR_OF_MEAN|8.6|<|0.05|TWO_SIDED|95.0|-7.05|0.95||Threshold 0.05|t-test, 2 sided|No adjustment for multiple comparisons||Comparison of change in global LVEF in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||.95|-7.05|<0.05
82473128|NCT00684060|164640682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.3|||<|0.05||95.0|0.08|1.17|||Fisher Exact|||comparison of the proportion of events in patients in the active group to those in patients in the control group||1.17|0.08|<0.05
82473129|NCT00684060|164640683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|17.2|<|0.05|TWO_SIDED|95.0|-9.3|6.8|||t-test, 2 sided|||Comparison of change in the active group minus change in global LVEF in the control group.||6.8|-9.3|<0.05
82473130|NCT00684060|164640684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|21.8|<|0.05|TWO_SIDED|95.0|-9.5|10.9|||t-test, 2 sided|||Comparison of change in the active group minus change in global LVEF in the control group.||10.9|-9.5|<0.05
82473131|NCT00684060|164640685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|14.2|<|0.05|TWO_SIDED|95.0|-4.1|9.2|||t-test, 2 sided|||Comparison of change in the active group minus change in the control group.||9.2|-4.1|<0.05
82473132|NCT00684060|164640686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|17.7|<|0.05||95.0|-9.9|6.9|||t-test, 2 sided|||Comparison of change in the active group minus change in the control group.||6.9|-9.9|<0.05
82473133|NCT00684060|164640687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|4.4|<|0.05|TWO_SIDED|95.0|-2.8|1.3||Unadjusted|t-test, 2 sided|||Comparison of change in infarct zone wall motion in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||1.3|-2.8|<0.05
82473134|NCT00684060|164640688|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|6.9|<|0.05||95.0|-6.0|0.8|||t-test, 2 sided|||Comparison of change in border zone wall motion in the active group minus change in global LVEF in the control group. 80 percent power based on BOOST results||0.8|-6.0|<0.05
82473135|NCT00702715|164640689|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the estimated median treatment difference in recovery time must have fallen entirely within the pre-specified interval between -60 sec to +60 sec in order to claim equivalence|Median Difference (Final Values)|78.0|||||TWO_SIDED|95.0|36.0|143.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||143.0|36.0|
82473136|NCT00702715|164640690|NON_INFERIORITY_OR_EQUIVALENCE|For the secondary endpoint no equivalence margin was specified (i.e., no formal null-hypothesis was specified); the median difference and associated 95% CI were to further characterize the efficacy of severe renal impaired subjects and controls.|Median Difference (Final Values)|68.0|||||TWO_SIDED|95.0|36.0|120.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||120.0|36.0|
82473137|NCT00702715|164640691|NON_INFERIORITY_OR_EQUIVALENCE|For the secondary endpoint no equivalence margin was specified (i.e., no formal null-hypothesis was specified); the median difference and associated 95% CI were to further characterize the efficacy of severe renal impaired subjects and controls.|Median Difference (Final Values)|60.0|||||TWO_SIDED|95.0|31.0|103.0|||Hodges-Lehmann and Moses||Estimated median treatment difference (severe renal impairment minus normal renal function) in recovery time (seconds)|||103.0|31.0|
82473138|NCT02923921|164640717|SUPERIORITY||Hazard Ratio (HR)|1.045||||0.6565|TWO_SIDED|95.0|0.863|1.265|||Log Rank|||The primary test to compare overall survival between treatment arms was the two-sided log-rank test, stratified by region and prior therapy. The estimate of the hazard ration (HR) - (Pegilodecakin + FOLFOX Arm / FOLFOX Arm) and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in interactive voice response system (IVRS).||1.265|0.863|0.6565
82473139|NCT02923921|164640718|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.8144|TWO_SIDED|95.0|0.808|1.19|||Log Rank|||The estimate of hazard ratio (HR) was stratified by region and prior therapy.||1.190|0.808|0.8144
82473140|NCT02923921|164640719|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7044|TWO_SIDED|95.0|0.4|1.7||P-value is calculated by Exact Cochran-Mantel-Haenszel test stratified by the randomization strata Prior Therapy - interactive voice response system (IVRS), Geographic Region - IVRS.|Cochran-Mantel-Haenszel|||||1.7|0.4|0.7044
82548122|NCT03743636|164796929|SUPERIORITY||Mean Difference (Final Values)|11.14||||0.0602|ONE_SIDED|90.0|2.16||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||2.16|0.0602
82548123|NCT03743636|164796930|SUPERIORITY||Mean Difference (Final Values)|10.25||||0.3724|ONE_SIDED|90.0|-31.79||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-31.79|0.3724
82548124|NCT03743636|164796930|SUPERIORITY||Mean Difference (Final Values)|-35.13||||0.8401|ONE_SIDED|90.0|-81.2||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-81.20|0.8401
82473141|NCT02923921|164640720|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1463|TWO_SIDED|95.0|0.9|1.8||P-value is calculated by Exact Cochran-Mantel-Haenszel test stratified by the randomization strata Prior Therapy - interactive voice response system (IVRS), Geographic Region - IVRS.|Cochran-Mantel-Haenszel|||||1.8|0.9|0.1463
82473142|NCT02923921|164640721|SUPERIORITY||Hazard Ratio (HR)|1.008||||0.9952|TWO_SIDED|95.0|0.37|2.741|||Log Rank|||The estimate of hazard ratio (HR) was stratified by region and prior therapy.||2.741|0.370|0.9952
82473143|NCT02923921|164640722|SUPERIORITY||Mean Difference (Final Values)|-4.4||||0.2298|TWO_SIDED|95.0|-11.6|2.8|||Log Rank|||||2.8|-11.6|0.2298
82548125|NCT03743636|164796931|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.5558|ONE_SIDED|90.0|-9.52||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-9.52|0.5558
82473144|NCT02563067|164640768|SUPERIORITY||Rate Ratio|0.69||||0.059|TWO_SIDED|95.0|0.5|0.96|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.96|0.50|0.059
82473145|NCT02563067|164640768|SUPERIORITY||Rate Ratio|0.72||||0.114|TWO_SIDED|95.0|0.52|1.01|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.01|0.52|0.114
82473146|NCT02563067|164640769|SUPERIORITY||Mean Difference (Net)|0.15||||0.369|TWO_SIDED|95.0|-0.02|0.32|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.32|-0.02|0.369
82473147|NCT02563067|164640769|SUPERIORITY||Mean Difference (Net)|0.13||||0.824|TWO_SIDED|95.0|-0.04|0.3|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.30|-0.04|0.824
82473148|NCT02563067|164640770|SUPERIORITY||Mean Difference (Net)|-0.17||||0.369|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.01|-0.36|0.369
82473149|NCT02563067|164640770|SUPERIORITY||Mean Difference (Net)|-0.09||||0.824|TWO_SIDED|95.0|-0.28|0.1|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.10|-0.28|0.824
82473150|NCT02563067|164640771|SUPERIORITY||Mean Difference (Net)|0.068||||0.369|TWO_SIDED|95.0|-0.018|0.154|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.154|-0.018|0.369
82473151|NCT02563067|164640771|SUPERIORITY||Mean Difference (Net)|0.038||||0.824|TWO_SIDED|95.0|-0.048|0.124|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.124|-0.048|0.824
82548126|NCT03743636|164796931|SUPERIORITY||Mean Difference (Final Values)|5.21||||0.2378|ONE_SIDED|90.0|-4.47||||ANCOVA|||Mixed model for repeated measures is applied to 3 groups comparisons. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-4.47|0.2378
82548127|NCT03743636|164796932|SUPERIORITY||Mean Difference (Final Values)|-2.71||||0.7112|ONE_SIDED|90.0|-8.97||||ANCOVA||||||-8.97|0.7112
82579824|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM5 at 500 lux is reported."|Slope|1.92||||0.0481|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0481
82579825|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM10 at 500 lux is reported."|Slope|2.57||||0.0171|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0171
82579826|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MM30 at 500 lux is reported."|Slope|3.84||||0.0007|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||0.0007
82579827|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for dbase at 500 lux is reported."|Slope|-2.15|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579828|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCV at 500 lux is reported."|Slope|-2.2|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579829|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dcon at 500 lux is reported."|Slope|-2.44|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82650827|NCT04128696|165016476|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5|TWO_SIDED|95.0|0.5|2.0||Nominal p-value was calculated based on the log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.00|0.50|0.500
82548128|NCT03743636|164796933|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.9449|ONE_SIDED|90.0|-13.31||||ANCOVA||||||-13.31|0.9449
82548129|NCT03743636|164796934|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.5409|ONE_SIDED|90.0|-6.57||||ANCOVA||||||-6.57|0.5409
82548130|NCT03743636|164796935|SUPERIORITY||Mean Difference (Final Values)|-3.35||||0.7814|ONE_SIDED|90.0|-8.89||||ANCOVA||||||-8.89|0.7814
82548131|NCT03743636|164796936|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.5884|ONE_SIDED|90.0|-7.07||||ANCOVA||||||-7.07|0.5884
82548132|NCT03743636|164796937|SUPERIORITY||Mean Difference (Final Values)|4.05||||0.1787|ONE_SIDED|90.0|-1.6||||ANCOVA||||||-1.60|0.1787
82548133|NCT03743636|164796938|SUPERIORITY||Mean Difference (Final Values)|-2.71||||0.7112|ONE_SIDED|90.0|-8.97||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-8.97|0.7112
82548134|NCT03743636|164796939|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.9449|ONE_SIDED|90.0|-13.31||||ANCOVA|||Mixed model for repeated measures is applied to Placebo vs. 2 NR groups combined. The reported results of within group change and between group difference are Least Squares Mean (Standard Error) from the model adjusted for baseline six-minute walk + age + sex + race + resveratrol usage.|||-13.31|0.9449
82548135|NCT00739648|164796967|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7282|TWO_SIDED|90.0|0.86|1.39|||Regression, Linear|negative binomial regression model||||1.39|0.86|0.7282
82473152|NCT02563067|164640772|SUPERIORITY||Rate Ratio|0.82||||0.369|TWO_SIDED|95.0|0.62|1.07|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.07|0.62|0.369
82473153|NCT02563067|164640772|SUPERIORITY||Rate Ratio|0.76||||0.348|TWO_SIDED|95.0|0.58|1.0|||negative binomial regression model|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||1.00|0.58|0.348
82473154|NCT02563067|164640773|SUPERIORITY||Mean Difference (Net)|0.07||||0.824|TWO_SIDED|95.0|-0.07|0.21|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.21|-0.07|0.824
82473155|NCT02563067|164640773|SUPERIORITY||Mean Difference (Net)|0.12||||0.824|TWO_SIDED|95.0|-0.02|0.26|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.26|-0.02|0.824
82473156|NCT02563067|164640774|SUPERIORITY||Mean Difference (Net)|-0.12||||0.824|TWO_SIDED|95.0|-0.28|0.03|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.03|-0.28|0.824
82473157|NCT02563067|164640774|SUPERIORITY||Mean Difference (Net)|-0.07||||0.824|TWO_SIDED|95.0|-0.23|0.08|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.08|-0.23|0.824
82473158|NCT02563067|164640775|SUPERIORITY||Mean Difference (Net)|0.05||||0.369|TWO_SIDED|95.0|-0.019|0.119|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.119|-0.019|0.369
82473159|NCT02563067|164640775|SUPERIORITY||Mean Difference (Net)|0.061||||0.595|TWO_SIDED|95.0|-0.008|0.13|||ANCOVA|adjusted p-value, closed testing procedure across the primary and key secondary null hypotheses. Overall type I error rate controlled at two-sided 5%.||||0.130|-0.008|0.595
82473160|NCT00243269|164640804|SUPERIORITY_OR_OTHER|||||||0.932||95.0|||||ANOVA|||The primary analyses consisted of calculating means and standard deviations on nausea for the four study arms to generate an effect size estimate for a later R01. We also planned to use a 2 x 2 (i.e., two levels of expectancy CDs and two levels of expectancy handouts) full factorial analysis of variance (ANOVA) to examine the efficacy of these two methods of expectancy enhancement in reducing Average Nausea as well as any interaction effects.||||0.932
82473161|NCT00243269|164640805|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANOVA|||ANOVA to compare means of the four groups was used.||||0.84
82548136|NCT00739648|164796969|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-15.2||||0.9768|TWO_SIDED|90.0|-27.8|-2.66|||Mixed Models Analysis|||||-2.66|-27.8|0.9768
82548137|NCT00739648|164796970|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.3||||0.9464|TWO_SIDED|90.0|-24.9|0.26|||Mixed Models Analysis|||||0.26|-24.9|0.9464
82548138|NCT04850807|164797002|SUPERIORITY||average marginal effect|-0.4|STANDARD_ERROR_OF_MEAN|3.3|<|0.05|TWO_SIDED|95.0|-6.9|6.0|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI model), baseline CMAI (exclusive to ARBS model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|6.0|-6.9|<0.05
82548139|NCT04850807|164797003|SUPERIORITY||Average Marginal Effect|0.1|STANDARD_ERROR_OF_MEAN|0.08|<|0.05|TWO_SIDED|95.0|-0.06|0.26|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI model), baseline CMAI (exclusive to ARBS model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|0.26|-0.06|<0.05
82473162|NCT01837823|164640809|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.231||||0.054|TWO_SIDED||||||Regression, Linear|||||||0.054
82473163|NCT01837823|164640810|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.074||||0.5|TWO_SIDED||||||Pearson correlation coefficient|||for minimum lumen area site||||0.50
82473164|NCT00573144|164640885|SUPERIORITY_OR_OTHER|||||||0.97|||||||t-test, 2 sided|||||||0.97
82473165|NCT00573144|164640886|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
82473166|NCT00573144|164640887|SUPERIORITY_OR_OTHER|||||||0.26|||||||t-test, 2 sided|||||||0.26
82473167|NCT00125164|164640888|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.79|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|1.19|2.39||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||2.39|1.19|<0.0001
82473168|NCT00125164|164640888|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001||95.0|1.99|3.16||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||3.16|1.99|< 0.0001
82473169|NCT00125164|164640888|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.79|STANDARD_ERROR_OF_MEAN|0.26||0.0032||95.0|0.27|1.31|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||1.31|0.27|0.0032
82473170|NCT00125164|164640889|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|0.24|0.5||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.50|0.24|< 0.0001
82473171|NCT00125164|164640889|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.47|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.34|0.6||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.60|0.34|< 0.0001
82473172|NCT00125164|164640889|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0495||95.0|0.0|0.22|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.22|0.00|0.0495
82473173|NCT00125164|164640897|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001||95.0|1.26|2.4||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||2.40|1.26|<0.0001
82548140|NCT04850807|164797004|SUPERIORITY||average marginal effect|4.0|STANDARD_ERROR_OF_MEAN|3.2|<|0.05|TWO_SIDED|95.0|-2.3|10.2|||Differences-in-Differences regression||||"Fixed effect covariates: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~Random effects: random intercept for nursing home Imputed Outcomes: 37 Control Follow-Up , 35 Treatment Follow-Up"|10.2|-2.3|<0.05
82548141|NCT04850807|164797005|SUPERIORITY||average marginal effect|-1.4|STANDARD_ERROR_OF_MEAN|3.6|<|0.05|TWO_SIDED|95.0|-8.5|5.6|||Differences-in-Differences regression||||"Results are adjusted for baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~The model includes a random intercept for nursing home."|5.6|-8.5|<0.05
82548142|NCT04850807|164797006|SUPERIORITY||average marginal effect|-4.8|STANDARD_ERROR_OF_MEAN|2.5|<|0.05|TWO_SIDED|95.0|-9.8|0.1|||Differences-in-Differences regression||||"Fixed effect covariates: baseline medication use, age, sex, race, activities of daily living score, cognitive function score, psychotic diagnosis, depression, anxiety, dementia, asthma, ARBS score, treatment group.~Random effects: random intercept for nursing home Imputed Outcomes: 37 Control Follow-Up , 35 Treatment Follow-Up"|0.1|-9.8|<0.05
82548143|NCT04850807|164797008|SUPERIORITY||average marginal effect|-0.31|||<|0.05|TWO_SIDED|95.0|-1.03|0.41|||Differences-in-Differences regression||||"Fixed effect covariates: age, sex, race, activities of daily living score, cognitive function score, psychotic disorder, bipolar disease, depression, anxiety, dementia, alzheimer's diagnosis, antidepressant use, antianxietal use, antipsychotic use, history of heart failure, baseline ARBS (exclusive to CMAI/PHQ-9 model), baseline CMAI (exclusive to ARBS/PHQ-9 model), indicator of baseline/follow-up score, treatment group, interaction of treatment group and baseline/follow-up score.~Random effects: random intercept for nursing home, random intercept for the interaction of baseline/follow-up measure and nursing home, and random intercept for individual.~Imputed Outcomes: 37 Control Follow-Up (Both CMAI and ARBS), 37 Treatment Follow-Up (ABRS), 35 Treatment Follow-Up (CMAI)"|0.41|-1.03|<0.05
82548144|NCT02278562|164797009|SUPERIORITY|||||||0.37||||||0.05 is the a priori threshold for statistical significance|Wilcoxon Rank-Sum|||Prior data indicate that LDR is normally distributed with standard deviation ranging from 0.16 to 0.23 in hemodialysis and control patients, respectively. If the true difference in the experimental and control means is 0.21, we will be able to reject the null hypothesis that the population means of the experimental and control groups are equal with probability (power) 0.933. The Type I error probability associated with this test of this null hypothesis is 0.05.||||0.37
82548145|NCT02278562|164797009|SUPERIORITY|||||||0.955||||||0.05 is the a priori threshold for statistical significance|Wilcoxon Rank-Sum|||Prior data indicate that LDR is normally distributed with standard deviation ranging from 0.16 to 0.23 in hemodialysis and control patients, respectively. If the true difference in the experimental and control means is 0.21, we will be able to reject the null hypothesis that the population means of the experimental and control groups are equal with probability (power) 0.933.||||0.955
82548146|NCT05387447|164797012|OTHER|||||||0.05|||||||Z score|||||||.05
82548147|NCT05387447|164797013|OTHER|||||||0.05|||||||Z score|||||||.05
82548148|NCT05387447|164797015|OTHER|||||||0.05|||||||Z score|||||||.05
82548149|NCT05387447|164797016|OTHER|||||||0.05|||||||Z score|||||||.05
82548150|NCT03655132|164797024|OTHER|Regression of baseline score on intrinsic motivation to use VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.12||||0.62|TWO_SIDED||||||Regression, Linear|||||||.62
82548151|NCT03655132|164797024|OTHER|Regression of baseline score on perceived ease of use of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.19||||0.45|TWO_SIDED||||||Regression, Linear|||||||.45
82548152|NCT03655132|164797024|OTHER|Regression of baseline score on perceived usefulness of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.02||||0.93|TWO_SIDED||||||Regression, Linear|||||||.93
82548153|NCT03655132|164797024|OTHER|Regression of post-intervention score of intrinsic motivation to use VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.51||||0.04|TWO_SIDED||||||Regression, Linear|||||||.04
82548154|NCT03655132|164797024|OTHER|Regression of post-intervention score of perceived ease of use of the VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.54||||0.03|TWO_SIDED||||||Regression, Linear|||||||.03
82473174|NCT00125164|164640897|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|2.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001||95.0|2.26|3.39||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||3.39|2.26|<0.0001
82473175|NCT00125164|164640897|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.01|STANDARD_ERROR_OF_MEAN|0.25||0.0002||95.0|0.5|1.51|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||1.51|0.50|0.0002
82473176|NCT00125164|164640898|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.25|0.5||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.50|0.25|<0.0001
82473177|NCT00125164|164640898|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.52|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|0.39|0.64||The two-sided p-values for the comparisons are adjusted for multiple comparisons using Dunnett's method.|ANCOVA|||The analysis compares each of the 80 and 120 µg/kg BID groups with the untreated control group using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.64|0.39|<0.0001
82473178|NCT00125164|164640898|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.06||0.0071||95.0|0.04|0.26|||ANCOVA|||The analysis compares the 80 and 120 µg/kg BID groups using analysis of covariance (ANCOVA), where the covariates are the baseline height SD score stratum used in the randomization, the pretreatment height velocity, the baseline bone age, the baseline chronological age, and sex.||0.26|0.04|0.0071
82548155|NCT03655132|164797024|OTHER|Regression of post-intervention score of perceived usefulness of VACT-CP online program on actual VACT-CP use (i.e., number of modules completed.)|Pearson's correlation coefficient|0.58||||0.01|TWO_SIDED||||||Regression, Linear|||||||.01
82548156|NCT03655132|164797025|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8) for waitlist control group participants only (n=22).|Median Difference (Net)|-5.0||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.54
82548157|NCT03655132|164797025|OTHER||Median Difference (Net)|-1.5||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8) for VACT-CP group.||||.59
82548158|NCT03655132|164797026|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|2.0||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.78
82548159|NCT03655132|164797026|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|14.0|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.001
82548160|NCT03655132|164797027|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.5||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.13
82548161|NCT03655132|164797027|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|3.0||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.07
82548162|NCT03655132|164797028|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.0||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.64
82548163|NCT03655132|164797028|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|-0.3||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.30
82548164|NCT03655132|164797029|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|0.5||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.75
82548165|NCT03655132|164797029|OTHER|Wilcoxon Signed Ranks Test comparing baseline score to post-score (approximately Week 8).|Median Difference (Net)|-0.5||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.60
82548166|NCT05919082|164797040|OTHER||Odds Ratio (OR)|1.4||||0.0438|TWO_SIDED|95.0|1.01|1.99|||Regression, Logistic||The odds ratio and p-value are obtained by logistic regression model, adjusted for baseline PGA. Wald CI was presented.|||1.99|1.01|0.0438
82548167|NCT05919082|164797041|OTHER||Odds Ratio (OR)|1.5||||0.0108|TWO_SIDED|95.0|1.1|2.12|||Regression, Logistic||The odds ratio and p-value were obtained by logistic regression model, adjusted for baseline PGA and baseline mPASI score. Wald CI was presented.|||2.12|1.10|0.0108
82548168|NCT05919082|164797042|OTHER||Odds Ratio (OR)|1.5||||0.0199|TWO_SIDED|95.0|1.07|2.19|||Regression, Logistic||The odds ratio and p-value were obtained by logistic regression model, adjusted for baseline PGA and baseline mPASI score. Wald CI was presented.|||2.19|1.07|0.0199
82548169|NCT04204278|164797058|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82548170|NCT04204278|164797059|OTHER||||||<|0.0001|||||||t-test, 1 sided|P-Value was calculated||||||<0.0001
82548171|NCT04204278|164797060|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82548172|NCT04838262|164797103|OTHER|||||||0.57|||||||Regression, Linear|||||||0.57
82548173|NCT04838262|164797103|OTHER|||||||0.85|||||||Regression, Linear|||||||0.85
82548174|NCT05767437|164797127|EQUIVALENCE|effect size of 0.02, α \< 0.05, power = 0.02|Mean Difference (Net)|1.63||||0.98|TWO_SIDED|95.0|-55.79|59.05|||Mixed Models Analysis|||||59.05|-55.79|0.98
82548175|NCT05767437|164797128|EQUIVALENCE|an effect size of 0.00, α \< 0.05, power = 0.00|Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-1.25|1.24|||Mixed Models Analysis|||||1.24|-1.25|0.99
82548176|NCT05767437|164797129|EQUIVALENCE|an effect size of 0.56 , α \< 0.05, power = 32.5|Mean Difference (Net)|6.71||||0.68|TWO_SIDED|95.0|-24.12|10.71|||Mixed Models Analysis|||||10.71|-24.12|0.68
82473179|NCT04939415|164640912|SUPERIORITY||ratio of frequencies|0.0||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
82473180|NCT04939415|164640913|SUPERIORITY||ratio of frequencies|1.023||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
82473181|NCT04939415|164640915|SUPERIORITY||ratio of frequencies|1.073||||0.488|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.488
82473182|NCT04939415|164640916|SUPERIORITY||ratio of frequencies|2.1||||0.488|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.488
82473183|NCT04939415|164640918|SUPERIORITY||ratio of frequencies|3.243||||0.231|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.231
82473184|NCT04939415|164640919|SUPERIORITY||ratio of frequencies|0.034||||1|TWO_SIDED||||||Chi-squared, Corrected|The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.||||||1.000
82473185|NCT04939415|164640920|OTHER||ratio of frequencies|0.083||||1|TWO_SIDED||||||Chi-squared, Corrected|The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.||||||1.000
82473186|NCT04939415|164640922|SUPERIORITY||ratio of frequencies|1.213||||0.462|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||0.462
82579830|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for Dend at 500 lux is reported."|Slope|-3.01|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579831|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for MCA at 500 lux is reported."|Slope|-1.82|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579832|NCT05731999|164870187|OTHER|"The hypothesis was that k = 0. If the hypothesis could be rejected (p\<0.05), then the pupillometric variable was considered correlated with plasma concentration for the particular key feature, medicinal product and ambient light condition.~Here the p-value for RMCA at 500 lux is reported."|Slope|-1.83|||<|0.0001|TWO_SIDED||||||Regression, Linear|||The correlation between pupillometric variables and concentration in plasma over time for designated medicinal product and ambient light condition was evaluated by collecting all pairs of (key feature value) and (plasma concentration). For each key feature, medicinal product, and ambient light condition, a linear regression was conducted producing an estimate of k and m in the following equation (key feature value) = k \* (plasma concentration) + m||||<0.0001
82579833|NCT05731999|164870189|OTHER||probability|0.000244|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The smallest odds ratio from the group false positives and false negative is reported.||||<0.05
82473187|NCT04939415|164640923|SUPERIORITY||ratio of frequencies|0.153||||1|TWO_SIDED||||||Chi-squared, Corrected||The Chi-square metric represents the difference between the expected and observed frequencies of an event, therefore it is the ratio of frequencies.|||||1.000
82473188|NCT04939415|164640924|SUPERIORITY||F value|0.185||||0.668|TWO_SIDED||||||Mixed Models Analysis|Group by Day interaction||||||0.668
82579834|NCT05731999|164870189|OTHER||probability|0.00586|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
82473189|NCT04939415|164640925|SUPERIORITY||F value|0.032||||0.86|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||0.860
82473190|NCT04939415|164640926|SUPERIORITY||F value|0.035||||0.853|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||0.853
82473191|NCT04939415|164640927|SUPERIORITY||F value|0.0||||0.995|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.995
82473192|NCT04939415|164640928|SUPERIORITY||F value|1.27||||0.266|TWO_SIDED||||||Mixed Models Analysis|||||||0.266
82473193|NCT04939415|164640929|SUPERIORITY||F value|4.533||||0.039|TWO_SIDED||||||Mixed Models Analysis||group by day interaction is reported.|||||0.039
82473194|NCT04939415|164640929|SUPERIORITY||F Ratio|13.897|||<|0.001|TWO_SIDED||||||ANOVA|Degrees of freedom: 1,23||day 0 to day 14 for the mQFPD group were examined.||||<0.001
82473195|NCT04939415|164640929|SUPERIORITY||F ratio|0.41||||0.529|TWO_SIDED||||||ANOVA|degrees of freedom: 1,20||day 0 to day 14 for the Placebo Group were examined.||||0.529
82473196|NCT04939415|164640930|SUPERIORITY||ratio of frequencies|0.14||||0.71|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.710
82473197|NCT04939415|164640931|SUPERIORITY||F value|2.855||||0.099|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.099
82473198|NCT04939415|164640932|SUPERIORITY||F value|1.497||||0.228|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.228
82548177|NCT05767437|164797130|EQUIVALENCE|Analysis population description: patients were randomly assigned to either Group A or Group B|Mean Difference (Net)|0.2||||0.56|TWO_SIDED|95.0|-0.48|0.87|||Mixed Models Analysis|||an effect size of 0.24, α \< 0.05, power = 24.5||0.87|-0.48|0.56
82548178|NCT05767437|164797131|EQUIVALENCE|an effect size of 0.56, α \< 0.05, power = 57.9|Mean Difference (Net)|-250.35||||0.42|TWO_SIDED|95.0|-614.88|114.18||Interaction of Assessment and Group|Mixed Models Analysis|||||114.18|-614.88|0.42
82579835|NCT05731999|164870189|OTHER||probability|0.0193|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
82473199|NCT04939415|164640933|SUPERIORITY||F value|2.537||||0.119|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.119
82473200|NCT04939415|164640934|SUPERIORITY||F value|0.219||||0.643|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.643
82473201|NCT04939415|164640935|SUPERIORITY||F value|0.054||||0.817|TWO_SIDED||||||Mixed Models Analysis|||||||0.817
82473202|NCT04939415|164640936|SUPERIORITY||F value|0.315||||0.578|TWO_SIDED||||||Mixed Models Analysis||group by day interaction|||||0.578
82473203|NCT04939415|164640937|SUPERIORITY||F value|0.215||||0.643|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||.643
82473204|NCT04939415|164640938|SUPERIORITY||F value|1.987||||0.159|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||.159
82473205|NCT04308291|164640939|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|paired t-test||||||<0.0001
82473206|NCT01354314|164640962|SUPERIORITY|||||||0.893|||||||Regression, Linear|||||||0.893
82473207|NCT01354314|164640962|SUPERIORITY|||||||0.594|||||||Regression, Linear|||||||0.594
82473208|NCT01354314|164640962|SUPERIORITY|||||||0.712|||||||Regression, Linear|||||||0.712
82473209|NCT01354314|164640963|SUPERIORITY|||||||0.673|||||||Regression, Linear|||||||0.673
82473210|NCT01354314|164640963|SUPERIORITY|||||||0.153|||||||Regression, Linear|||||||0.153
82548179|NCT05767437|164797132|EQUIVALENCE|an effect size of 0.29, α \< 0.05, power = 88.9|Mean Difference (Net)|12.25||||0.45|TWO_SIDED|95.0|-18.67|43.17|||Mixed Models Analysis|||||43.17|-18.67|0.45
82579836|NCT05731999|164870189|OTHER||probability|0.000488|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
82579837|NCT05731999|164870189|OTHER||probability|0.1133|||<|0.05|TWO_SIDED||||||Regression, Logistic|||The null hypothesis is that the logistic regression classifier is unable to correctly classify subjects into sober or under the influence of D1-D4. The greatest p value from the group false positives and false negative is reported.||||<0.05
82473211|NCT01354314|164640963|SUPERIORITY|||||||0.282|||||||Regression, Linear|||||||0.282
82473212|NCT01354314|164640964|SUPERIORITY|||||||0.327|||||||Regression, Linear|||||||0.327
82473213|NCT01354314|164640964|SUPERIORITY|||||||0.178|||||||Regression, Linear|||||||0.178
82473214|NCT01354314|164640964|SUPERIORITY|||||||0.48|||||||Regression, Linear|||||||0.480
82473215|NCT01354314|164640965|SUPERIORITY|||||||0.267|||||||Regression, Linear|||||||0.267
82473216|NCT01354314|164640965|SUPERIORITY|||||||0.368|||||||Regression, Linear|||||||0.368
82473217|NCT01354314|164640965|SUPERIORITY|||||||0.672|||||||Regression, Linear|||||||0.672
82473218|NCT00478023|164640994|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|18.1|||<|0.0001||95.0|10.9|25.3||Adjusted. The Hochberg procedure used for multiplicity comparisons|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||25.3|10.9|<0.0001
82473219|NCT00478023|164640994|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|20.8|||<|0.0001||95.0|13.7|28.0||Adjusted. The Hochberg procedure used for multiplicity comparisons|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||28.0|13.7|<0.0001
82473220|NCT00478023|164640994|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|23.3|||<|0.0001||95.0|16.3|30.4||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 24 hours (SPID24). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID24.||30.4|16.3|<0.0001
82473221|NCT00478023|164640994|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|20.6|||<|0.0001||95.0|13.4|27.8||No multiplicity adjustment used.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|Null hypothesis of no treatment difference.||27.8|13.4|<0.0001
82548180|NCT05767437|164797133|EQUIVALENCE|an effect size of 0.18, α \< 0.05, power =6.5|mean rank (Z)|0.18||||0.67|TWO_SIDED|95.0|-0.61|0.96||MAS of Biceps|Wilcoxon (Mann-Whitney)|||||0.96|-0.61|0.67
82548181|NCT05767437|164797134|EQUIVALENCE|an effect size of 0.39, α \< 0.05, power = 16.2|Mean Difference (Net)|-6.63||||0.38|TWO_SIDED|95.0|-19.38|6.12|||t-test, 2 sided|||||6.12|-19.38|0.38
82548182|NCT00446225|164797137|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0001|TWO_SIDED|95.0|0.27|0.64|||Log Rank|||||0.64|0.27|0.0001
82548183|NCT00446225|164797139|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.043|TWO_SIDED|95.0|0.36|0.99|||Log Rank|||||0.99|0.36|0.043
82548184|NCT03526874|164797187|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
82548185|NCT03526874|164797188|SUPERIORITY|||||||0.031|||||||t-test, 2 sided|||||||0.031
82473222|NCT00478023|164640995|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|37.1|||<|0.0001||95.0|21.6|52.6||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||52.6|21.6|<0.0001
82473223|NCT00478023|164640995|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|44.0|||<|0.0001||95.0|28.6|59.5||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as covariates.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||59.5|28.6|<0.0001
82473224|NCT00478023|164640995|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|51.4|||<|0.0001||95.0|36.1|66.7||Adjusted. The Hochberg procedure used for multiplicity comparisons.|ANCOVA||Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|The null hypothesis is that all CG5503 IR dose groups are equal to the placebo group based on the mean sum of pain intensity difference at 48 hours (SPID48). The alternative hypothesis is that at least one CG5503 IR dose group is different from the placebo group based on the mean SPID48.||66.7|36.1|<0.0001
82473225|NCT00478023|164640995|SUPERIORITY_OR_OTHER_LEGACY||Least square mean difference|46.9|||<|0.0001||95.0|31.4|62.4||No multiplicity adjustment.|ANCOVA|ANCOVA with treatment and centre as fixed effects and baseline pain as a covariate.|Only pain intensity assessments collected prior to the first dose of any additional analgesic medication considered. Afterwards LOCF used.|Null hypothesis of no treatment difference.||62.4|31.4|<0.0001
82473226|NCT05019521|164640998|SUPERIORITY||Least square (LS) mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.0413||0.9205|TWO_SIDED|90.0|-0.01|0.126|||Mixed Models Analysis|||||0.126|-0.010|0.9205
82473227|NCT05019521|164640998|SUPERIORITY||LS mean difference|-0.016|STANDARD_ERROR_OF_MEAN|0.0425||0.9205|TWO_SIDED|90.0|-0.086|0.055|||Mixed Models Analysis|||||0.055|-0.086|0.9205
82473228|NCT05019521|164640998|SUPERIORITY||LS mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.0422||0.9205|TWO_SIDED|90.0|-0.033|0.106|||Mixed Models Analysis|||||0.106|-0.033|0.9205
82473229|NCT02453711|164641027|OTHER||Treatment difference (%-points)|-3.7|STANDARD_ERROR_OF_MEAN|1.13|=|0.0055|TWO_SIDED|95.0|-6.55|-0.85|||ANCOVA||Semaglutide 0.05 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-0.85|-6.55|=0.0055
82473230|NCT02453711|164641027|OTHER||Treatment difference (%-points)|-6.32|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-9.16|-3.49|||ANCOVA||Semaglutide 0.1 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-3.49|-9.16|<0.0001
82473231|NCT02453711|164641027|OTHER||Treatment difference (%-points)|-9.31|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-12.15|-6.46|||ANCOVA||Semaglutide 0.2 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-6.46|-12.15|<0.0001
82473232|NCT02453711|164641027|OTHER||Treatment difference (%-points)|-8.88|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-11.72|-6.03|||ANCOVA||Semaglutide 0.3 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-6.03|-11.72|<0.0001
82473233|NCT02453711|164641027|OTHER||Treatment difference (%-points)|-11.55|STANDARD_ERROR_OF_MEAN|1.12|<|0.0001|TWO_SIDED|95.0|-14.38|-8.72|||ANCOVA||Semaglutide 0.4 mg - placebo pool|J2R-MI: Analysis of in-trial data with missing observations imputed from the pooled placebo arms based on a jump to reference multiple (x1000) imputation (J2R-MI) approach. Week 52 responses were analysed using an analysis of covariance model with treatment, region and sex as factors and baseline body weight as covariate. Dunnett's method was used to adjust for multiple comparisons.||-8.72|-14.38|<0.0001
82473234|NCT02469870|164641087|SUPERIORITY|||||||0.598|||||||ANCOVA|||To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.598
82473235|NCT02469870|164641088|SUPERIORITY|||||||0.81|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.81
82473236|NCT02469870|164641089|SUPERIORITY|||||||0.404|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.404
82579838|NCT05731999|164870189|OTHER||probability|0.0107|||<|0.05|TWO_SIDED||||||Regression, Logistic|||||||<0.05
82473237|NCT02469870|164641090|SUPERIORITY|||||||0.246|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.246
82473238|NCT02469870|164641091|SUPERIORITY|||||||0.007|||||||ANCOVA|||. To address hypotheses predicting differential change in outcome measures between condition over time we used analysis of covariance (ANCOVA) models that allow for examination of cross-sectional effects and mean adjusted outcomes. The ANCOVA models (adjusted for baseline scores) were used for analyses of change in the outcome measures at posttest.||||.007
82473239|NCT02469870|164641092|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Two-sample t-test||||.045
82473240|NCT03523988|164641112|SUPERIORITY|||||||0.04||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.04
82473241|NCT03523988|164641112|SUPERIORITY|||||||0.63||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.63
82473242|NCT03523988|164641112|SUPERIORITY|||||||0.41||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.41
82473243|NCT03523988|164641113|SUPERIORITY|||||||0.65||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.65
82473244|NCT03523988|164641113|SUPERIORITY|||||||0.82||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.82
82473245|NCT03523988|164641113|SUPERIORITY|||||||0.69||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.69
82473246|NCT03523988|164641114|SUPERIORITY|||||||0.53||||||P-value for pain scores among the three comparison groups with jaw at rest.|ANOVA|||||||0.53
82473247|NCT03523988|164641114|SUPERIORITY|||||||0.31||||||P-value for pain scores among the three comparison groups while lightly biting.|ANOVA|||||||0.31
82473248|NCT03523988|164641114|SUPERIORITY|||||||0.37||||||P-value for pain scores among the three comparison groups while chewing paraffin wax.|ANOVA|||||||0.37
82473249|NCT04672655|164641128|OTHER|||||||0.8875||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.8875
82548186|NCT03526874|164797189|SUPERIORITY|||||||0.0162|||||||ANOVA|Two-way Anova to test sex interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0162
82548187|NCT03526874|164797190|SUPERIORITY|||||||0.04||||||Two-way Anova to test sex interaction with treatment effect. The study was not powered for subgroup analyses.|ANOVA|||||||0.04
82473250|NCT04672655|164641129|OTHER|||||||0.4811||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.4811
82548188|NCT03526874|164797191|SUPERIORITY|||||||0.0098|||||||ANOVA|Two-way Anova to test ethnicity interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0098
82579839|NCT02369068|164870277|OTHER|||||||0.072|||||||Kruskal-Wallis|This test was selected since the distribution of the change in pain was not normal nor approximately symmetric.||The null hypothesis assumed there were no differences in the pain score change between groups. Significance level was set at 0.05.||||0.072
82473251|NCT04672655|164641130|OTHER|||||||0.754||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.754
82473252|NCT04672655|164641131|OTHER|||||||0.0406||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.0406
82473253|NCT04672655|164641132|OTHER|||||||0.9032||||||The a priori threshold for statistical significance was \< 0.05.|linear mixed effects models|||A linear mixed effects model (LMM) was used to examine outcomes measured at 3, 6, and 12 months. An unstructured covariance matrix was specified to model within-subject correlations across repeated measurements. To address missing data, the LMM utilized a likelihood-based approach under the missing-at-random (MAR) assumption, which incorporates all available data, thereby minimizing bias from incomplete follow-up measurements.||||0.9032
82473254|NCT02641561|164641152|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
82473255|NCT01027806|164641153|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82473256|NCT02082119|164641154|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<0.05
82548189|NCT03526874|164797192|SUPERIORITY|||||||0.02|||||||ANOVA|Two-way Anova to test ethnicity interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.02
82548190|NCT03526874|164797193|SUPERIORITY|||||||0.01|||||||ANOVA|Two-way Anova to test race interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.01
82548191|NCT03526874|164797194|SUPERIORITY|||||||0.0329|||||||ANOVA|Two-way Anova to test race interaction with treatment effect. The study was not powered for subgroup analyses.||||||0.0329
82548192|NCT03526874|164797195|SUPERIORITY|||||||0.294|||||||t-test, 2 sided|||||||0.294
82548193|NCT03526874|164797196|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
82548194|NCT03526874|164797197|SUPERIORITY|||||||0.182|||||||t-test, 2 sided|||||||0.182
82548195|NCT03526874|164797198|SUPERIORITY|||||||0.423|||||||Fisher Exact|||||||0.423
82548196|NCT03526874|164797199|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.030
82548197|NCT03526874|164797200|SUPERIORITY|||||||0.112|||||||Fisher Exact|||||||0.112
82548198|NCT03526874|164797201|SUPERIORITY|||||||0.052|||||||Fisher Exact|||||||0.052
82548199|NCT03526874|164797202|SUPERIORITY|||||||0.027|||||||Chi-squared|||||||0.027
82548200|NCT04093752|164797242|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% noninferiority (NI) boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common standard deviation (SD) of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.49|||||TWO_SIDED|95.0|-1.69|-1.29||||||||-1.29|-1.69|
82548201|NCT04093752|164797242|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% NI boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common SD of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.54|||||TWO_SIDED|95.0|-1.74|-1.34||||||||-1.34|-1.74|
82548202|NCT04093752|164797243|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.4% NI boundary, 0.45% greater mean reduction in tirzepatide doses compared to insulin glargine, 1:1:1:1 randomization, a common SD of 1.2%, one-sided significance level of 0.0125 and a dropout rate of 25%.|LS Mean Difference|-1.29|||||TWO_SIDED|95.0|-1.49|-1.09||||||||-1.09|-1.49|
82548203|NCT04093752|164797244|SUPERIORITY||LS Mean Difference|-6.5|||<|0.001|TWO_SIDED|95.0|-7.4|-5.6|||Mixed Models Analysis|||||-5.6|-7.4|<0.001
82548204|NCT04093752|164797244|SUPERIORITY||LS Mean Difference|-8.5|||<|0.001|TWO_SIDED|95.0|-9.5|-7.6|||Mixed Models Analysis|||||-7.6|-9.5|<0.001
82548205|NCT04093752|164797244|SUPERIORITY||LS Mean Difference|-8.7|||<|0.001|TWO_SIDED|95.0|-9.6|-7.7|||Mixed Models Analysis|||||-7.7|-9.6|<0.001
82548206|NCT04093752|164797245|SUPERIORITY||Odds Ratio (OR)|14.54|||<|0.001|TWO_SIDED|95.0|8.94|23.64|||Regression, Logistic|||||23.64|8.94|<0.001
82579840|NCT02369068|164870278|OTHER|||||||0.624|||||||Kruskal-Wallis|||The null hypothesis assumed there were no differences in the median change pain severity between the groups. Significance level was set at 0.05||||0.624
82548207|NCT04093752|164797245|SUPERIORITY||Odds Ratio (OR)|28.76|||<|0.001|TWO_SIDED|95.0|16.72|49.49|||Regression, Logistic|||||49.49|16.72|<0.001
82548208|NCT04093752|164797245|SUPERIORITY||Odds Ratio (OR)|25.27|||<|0.001|TWO_SIDED|95.0|14.88|42.95|||Regression, Logistic|||||42.95|14.88|<0.001
82548209|NCT04093752|164797246|SUPERIORITY||Odds Ratio (OR)|82.54||||0.002|TWO_SIDED|95.0|5.13|1327.81|||Regression, Logistic|||||1327.81|5.13|0.002
82548210|NCT04093752|164797246|SUPERIORITY||Odds Ratio (OR)|124.76|||<|0.001|TWO_SIDED|95.0|7.79|1997.01|||Regression, Logistic|||||1997.01|7.79|<0.001
82548211|NCT04093752|164797246|SUPERIORITY||Odds Ratio (OR)|184.9|||<|0.001|TWO_SIDED|95.0|11.59|2950.73|||Regression, Logistic|||||2950.73|11.59|<0.001
82548212|NCT04093752|164797247|SUPERIORITY||LS Mean Difference|-12.3|||<|0.001|TWO_SIDED|95.0|-18.3|-6.3|||Mixed Models Analysis|||||-6.3|-18.3|<0.001
82548213|NCT04093752|164797247|SUPERIORITY||LS Mean Difference|-20.0|||<|0.001|TWO_SIDED|95.0|-26.1|-13.9|||Mixed Models Analysis|||||-13.9|-26.1|<0.001
82548214|NCT04093752|164797247|SUPERIORITY||LS Mean Difference|-18.6|||<|0.001|TWO_SIDED|95.0|-24.6|-12.5|||Mixed Models Analysis|||||-12.5|-24.6|<0.001
82548215|NCT04093752|164797248|SUPERIORITY||LS Mean Difference|-34.2|||<|0.001|TWO_SIDED|95.0|-40.1|-28.3|||Mixed Models Analysis|||||-28.3|-40.1|<0.001
82548216|NCT04093752|164797248|SUPERIORITY||LS Mean Difference|-40.6|||<|0.001|TWO_SIDED|95.0|-46.7|-34.6|||Mixed Models Analysis|||||-34.6|-46.7|<0.001
82548217|NCT04093752|164797248|SUPERIORITY||LS Mean Difference|-41.8|||<|0.001|TWO_SIDED|95.0|-47.9|-35.8|||Mixed Models Analysis|||||-35.8|-47.9|<0.001
82548218|NCT04093752|164797249|SUPERIORITY||Odds Ratio (OR)|21.89|||<|0.001|TWO_SIDED|95.0|11.63|41.2|||Regression, Logistic|||||41.20|11.63|<0.001
82548219|NCT04093752|164797249|SUPERIORITY||Odds Ratio (OR)|43.79|||<|0.001|TWO_SIDED|95.0|22.96|83.5|||Regression, Logistic|||||83.50|22.96|<0.001
82548220|NCT04093752|164797249|SUPERIORITY||Odds Ratio (OR)|48.41|||<|0.001|TWO_SIDED|95.0|25.34|92.49|||Regression, Logistic|||||92.49|25.34|<0.001
82548221|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.47||||0.007|TWO_SIDED|95.0|-0.81|-0.13|||ANCOVA|||Hyperglycemia||-0.13|-0.81|0.007
82548222|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.11|-0.43|||ANCOVA|||Hyperglycemia||-0.43|-1.11|<0.001
82548223|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-1.05|-0.36|||ANCOVA|||Hyperglycemia||-0.36|-1.05|<0.001
82548224|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.14||||0.384|TWO_SIDED|95.0|-0.46|0.18|||ANCOVA|||Hypoglycemia||0.18|-0.46|0.384
82548225|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.17||||0.307|TWO_SIDED|95.0|-0.49|0.16|||ANCOVA|||Hypoglycemia||0.16|-0.49|0.307
82548226|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|-0.22||||0.184|TWO_SIDED|95.0|-0.55|0.11|||ANCOVA|||Hypoglycemia||0.11|-0.55|0.184
82548227|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|1.81|||<|0.001|TWO_SIDED|95.0|1.03|2.59|||ANCOVA|||Treatment Satisfaction Score||2.59|1.03|<0.001
82548228|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|1.63|||<|0.001|TWO_SIDED|95.0|0.84|2.41|||ANCOVA|||Treatment Satisfaction Score||2.41|0.84|<0.001
82548229|NCT04093752|164797250|SUPERIORITY||LS Mean Difference|1.68|||<|0.001|TWO_SIDED|95.0|0.89|2.47|||ANCOVA|||Treatment Satisfaction Score||2.47|0.89|<0.001
82548230|NCT02910713|164797266|SUPERIORITY||Least Squares Mean Difference|-13.36|STANDARD_ERROR_OF_MEAN|1.999|<|0.0001|TWO_SIDED|95.0|-17.31|-9.4||One-sided p-value for the difference between Intranasal and Extranasal.|ANOVA|||||-9.40|-17.31|<0.0001
82548231|NCT02910713|164797267|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||One-sided p-value for the difference between Intranasal and Extranasal.|ANOVA|||||-0.40|-0.80|<0.0001
82548232|NCT04052516|164797311|OTHER|Cochran-Mantel-Haenszal test|Odds Ratio (OR)|1.7||||0.2991|TWO_SIDED|95.0|0.62|4.63|||Cochran-Mantel-Haenszel|||||4.63|0.62|0.2991
82548233|NCT04052516|164797311|OTHER|Cochran-Mantel-Haenszel Test|Odds Ratio (OR)|2.01||||0.1386|TWO_SIDED|95.0|0.8|5.08|||Cochran-Mantel-Haenszel|||||5.08|0.80|0.1386
82548234|NCT05386355|164797340|SUPERIORITY||Risk Ratio (RR)|1.79|||||TWO_SIDED|95.0|0.59|5.35|||||The General Health App is the reference group.|A mixed-effect Poisson regression with robust variance estimation was used report the adjusted RR with 95% CI accounting for the clinic-specific random intercepts. Given the small number of COVID-19 vaccination completion, we were unable to account for children nested with parent/caregiver or adjusting for covariates.||5.35|0.59|
82548235|NCT05386355|164797341|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.42|1.65|||||The General Health App is the reference group.|A mixed-effect Poisson regression with robust variance estimation was used report the adjusted RR with 95% CI accounting for the clinic-specific random intercepts. Given the small number of COVID-19 vaccination completion, we were unable to account for children nested with parent/caregiver or adjusting for covariates.||1.65|0.42|
82548236|NCT05386355|164797342|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.638|TWO_SIDED|95.0|-1.19|0.73|||Mixed Models Analysis|The analytical method was based on a linear mixed model adjusting for baseline SAGE vaccine hesitancy composite scores and random clinic effect.||||0.73|-1.19|0.638
82548237|NCT04788537|164797343|SUPERIORITY|Linear mixed model regression|Slope|-1.58||||0.006|TWO_SIDED||||||Mixed Models Analysis||Slope reported is for Time x Group Interaction|||||.006
82548238|NCT00837369|164797345|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0||||Compare the differences in sensitivity between myocardial perfusion and wall motion for detecting stenosis.|Chi-squared|||||||<0.001
82548239|NCT00837369|164797345|SUPERIORITY||||||<|0.001||||||Compare the sensitivity of myocardial perfusion in detecting stenosis within the first 4 minutes after regadenoson bolus injection to that of wall motion|Chi-squared|||||||<0.001
82548240|NCT04521478|164797346|OTHER||Mean Difference (Net)|0.7|STANDARD_ERROR_OF_MEAN|2.2||0.7636|TWO_SIDED|90.0|-3.0|4.3|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.3|-3.0|0.7636
82548241|NCT04521478|164797346|OTHER||Mean Difference (Net)|2.3|STANDARD_ERROR_OF_MEAN|2.2||0.304|TWO_SIDED|90.0|-1.4|5.9|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.9|-1.4|0.3040
82548242|NCT04521478|164797346|OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|2.2||0.309|TWO_SIDED|90.0|-1.4|5.7|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.7|-1.4|0.3090
82548243|NCT04521478|164797346|OTHER||Mean Difference (Net)|1.5|STANDARD_ERROR_OF_MEAN|1.7||0.3694|TWO_SIDED|90.0|-1.3|4.4|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline MADRS total score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.4|-1.3|0.3694
82548244|NCT04521478|164797346|OTHER|||||||0.9158|||||||MCPMod Linear model|No parameter assumptions required. Corresponding dose response is linear||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9158
82548245|NCT04521478|164797346|OTHER|||||||0.8676|||||||MCPMod Exponential model|Assumption: 5% of the maximum effect is achieved at 25 mg; corresponding to a drug effect achieved mainly at higher doses||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.8676
82548246|NCT04521478|164797346|OTHER|||||||0.9552|||||||MCPMod Emax1 model|Assumption: 50% of the maximum effect is achieved at 25 mg; corresponding to the assumed true median effective dose (ED50) = 25 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9552
82548247|NCT04521478|164797346|OTHER|||||||0.9619|||||||MCPMod Emax2 model|Assumption: 70% of the maximum effect is achieved at 5 mg; corresponding to a drug effect achieved mainly with low doses, ED50 = 2.14 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9619
82579841|NCT02369068|164870279|OTHER|||||||0.571|||||||Kruskal-Wallis|||The null hypothesis assumed that there is no difference in the change in pain interference between the groups. Statistical significance was set at 0.05||||0.571
82579842|NCT02369068|164870280|OTHER|||||||0.285|||||||Kruskal-Wallis|||The null hypothesis assumed that there was no difference in the distribution between the groups. Significance level was set at 0.05||||0.285
82579843|NCT00799981|164870295|OTHER|||||||0.8762|||||||Wilcoxon (Mann-Whitney)|||The hypothesis that a 10 cm catheter provides equal emptying of the bladder as a 7 cm catheter was tested.||||0.8762
82579844|NCT00799981|164870296|OTHER|||||||0.7905|||||||McNemar|||||||0.7905
82548248|NCT04521478|164797346|OTHER|||||||0.9507|||||||MCPMod Sigmoid Emax model|Assumption: 50% of the maximum effect is achieved at 25 mg, 90% 75 mg; corresponding to a more flexible model of the assumed true ED50 = 25 mg||The Multiple Comparison Procedures and Modeling (MCPMod) procedure used the estimated values from an MMRM model as input and allowed for simultaneous evaluation of different potential dose response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax), while protecting the overall false positive rate (probability of Type I error) using a one-sided, nominal α level of 10 %.||||0.9507
82548249|NCT04521478|164797347|OTHER||Odds Ratio (OR)|0.9427||||0.8889|TWO_SIDED|90.0|0.4709|1.8873|||Regression, Logistic||5 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.8873|0.4709|0.8889
82548250|NCT04521478|164797347|OTHER||Odds Ratio (OR)|0.6581||||0.3284|TWO_SIDED|90.0|0.3255|1.3307|||Regression, Logistic||25 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.3307|0.3255|0.3284
82548251|NCT04521478|164797347|OTHER||Odds Ratio (OR)|1.1026||||0.8048|TWO_SIDED|90.0|0.5757|2.1114|||Regression, Logistic||75 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||2.1114|0.5757|0.8048
82548252|NCT04521478|164797347|OTHER||Odds Ratio (OR)|1.0072||||0.982|TWO_SIDED|90.0|0.5968|1.6999|||Regression, Logistic||125 mg BI 1358894 vs Placebo|Logistic regression model, including the fixed categorical effects of treatment and baseline MDD severity.||1.6999|0.5968|0.9820
82548253|NCT04521478|164797348|OTHER||Mean Difference (Net)|4.3|STANDARD_ERROR_OF_MEAN|2.6||0.1013|TWO_SIDED|90.0|0.0|8.6|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.6|0.0|0.1013
82548254|NCT04521478|164797348|OTHER||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|2.6||0.3596|TWO_SIDED|90.0|-1.9|6.6|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.6|-1.9|0.3596
82548255|NCT04521478|164797348|OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|2.5||0.6745|TWO_SIDED|90.0|-5.2|3.1|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||3.1|-5.2|0.6745
82548256|NCT04521478|164797348|OTHER||Mean Difference (Net)|2.7|STANDARD_ERROR_OF_MEAN|2.0||0.187|TWO_SIDED|90.0|-0.7|6.0|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (S-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.0|-0.7|0.1870
82548257|NCT04521478|164797348|OTHER||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|2.4||0.0921|TWO_SIDED|90.0|0.1|8.1|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.1|0.1|0.0921
82579845|NCT00799981|164870297|OTHER|||||||1|||||||McNemar|||||||1.00
82579846|NCT00799981|164870300|OTHER|||||||0.0273|||||||Wilcoxon (Mann-Whitney)|||In the table 0=No and 1=Yes.||||0.0273
82579847|NCT01404429|164870303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.6|TWO_SIDED|95.0|-0.26|0.54|||t-test, 2 sided|||||0.54|-0.26|0.6
82579848|NCT02229851|164870314|SUPERIORITY||Treatment difference|-1.53|||=|0.009|TWO_SIDED|95.0|-2.68|-0.38|||ANCOVA||Somapacitan-Placebo|Changes in truncal fat percentage from baseline to the 34 week's measurements was analysed using an analysis of covariance model with treatment, growth hormone deficiency (GHD) onset type, sex, region, diabetes mellitus (DM) and sex by region by DM interaction as factors and baseline as a covariate. The analysis was conducted using a multiple imputation technique where trajectory after a withdrawn subjects last observation was imputed based on data from the placebo arm.||-0.38|-2.68|=0.0090
82579849|NCT05745701|164870444|OTHER||test/reference ratios|195.9|||||TWO_SIDED|90.0|162.13|236.71||||||Natural loge transformed Cmax of PF-07081532 administered without cyclosporine (Reference) or coadministered with cyclosporine (Test) were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test/Reference) and corresponding 90% CIs was obtained from the models. The ratios (and 90% CIs) were expressed as percentages.||236.71|162.13|
82579850|NCT05745701|164870444|OTHER||test/reference ratios|282.13|||||TWO_SIDED|90.0|258.81|307.55||||||Natural loge transformed Cmax of PF-07081532 administered without itraconazole (Reference) or coadministered with itraconazole (Test) were analyzed using a mixed effect model with treatment as a fixed effect and participant as a random effect. Estimates of the adjusted mean differences (Test/Reference) and corresponding 90% CIs was obtained from the models. The ratios (and 90% CIs) were expressed as percentages.||307.55|258.81|
82579851|NCT01607476|164870457|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579852|NCT01607476|164870457|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579853|NCT01607476|164870457|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579854|NCT01607476|164870458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82548258|NCT04521478|164797348|OTHER||Mean Difference (Net)|0.8|STANDARD_ERROR_OF_MEAN|2.4||0.7395|TWO_SIDED|90.0|-3.2|4.8|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||4.8|-3.2|0.7395
82548259|NCT04521478|164797348|OTHER||Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|2.4||0.6296|TWO_SIDED|90.0|-2.7|5.0|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.0|-2.7|0.6296
82548260|NCT04521478|164797348|OTHER||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|1.9||0.0429|TWO_SIDED|90.0|0.7|6.9|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of baseline score (T-Anxiety scale). Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.9|0.7|0.0429
82548261|NCT04521478|164797349|OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6211|TWO_SIDED|90.0|-0.3|0.5|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.5|-0.3|0.6211
82548262|NCT04521478|164797349|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.5158|TWO_SIDED|90.0|-0.2|0.6|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.2|0.5158
82548263|NCT04521478|164797349|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4518|TWO_SIDED|90.0|-0.2|0.6|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.2|0.4518
82548264|NCT04521478|164797349|OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.2||0.2347|TWO_SIDED|90.0|-0.1|0.6|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||0.6|-0.1|0.2347
82548265|NCT04521478|164797350|OTHER||Mean Difference (Net)|3.4|STANDARD_ERROR_OF_MEAN|2.5||0.1723|TWO_SIDED|90.0|-0.7|7.6|||Mixed Models Analysis||Difference = (adjusted mean 5 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||7.6|-0.7|0.1723
82548266|NCT04521478|164797350|OTHER||Mean Difference (Net)|4.4|STANDARD_ERROR_OF_MEAN|2.5||0.0757|TWO_SIDED|90.0|0.3|8.5|||Mixed Models Analysis||Difference = (adjusted mean 25 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||8.5|0.3|0.0757
82579855|NCT01607476|164870458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579856|NCT01607476|164870458|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579857|NCT00293059|164870468|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||inverting 2 one-sided tests|||||||< 0.0001
82579858|NCT02001064|164870522|SUPERIORITY||Odds Ratio (OR)|2.3||||0.32|TWO_SIDED||||||t-test, 1 sided|||||||0.32
82579859|NCT02001064|164870523|SUPERIORITY|||||||0.073||||||Cohen's d (ranks) = -.049|Wilcoxon (Mann-Whitney)|||||||0.073
82579860|NCT02001064|164870524|SUPERIORITY|||||||0.24||||||Cohen's d=0.31|Wilcoxon (Mann-Whitney)|||||||0.24
82579861|NCT02731690|164870600|SUPERIORITY|||||||0.5303||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.5303
82579862|NCT02731690|164870600|SUPERIORITY|||||||0.1646||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.1646
82579863|NCT02731690|164870600|SUPERIORITY|||||||0.1189||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.1189
82548267|NCT04521478|164797350|OTHER||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|2.4||0.6864|TWO_SIDED|90.0|-3.0|5.0|||Mixed Models Analysis||Difference = (adjusted mean 75 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||5.0|-3.0|0.6864
82548268|NCT04521478|164797350|OTHER||Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|1.9||0.1585|TWO_SIDED|90.0|-0.5|6.0|||Mixed Models Analysis||Difference = (adjusted mean 125 mg BI 1358894) - (adjusted mean Placebo)|Adjusted means and confidence intervals were estimated using REML-based MMRM including the fixed categorical effects of treatment, concomitant psychotherapy use (yes vs. no), and the fixed continuous effect of the baseline score. Visit was treated as a repeated measure with an unstructured covariance matrix. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom and adjust standard errors.||6.0|-0.5|0.1585
82548269|NCT05161715|164797383|OTHER|||||||0.425||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.425
82548270|NCT05161715|164797384|OTHER|||||||0.0002||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.0002
82548271|NCT05161715|164797385|OTHER|||||||0.0424||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.0424
82548272|NCT05161715|164797386|OTHER|||||||0.001||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.001
82548273|NCT05161715|164797391|OTHER|||||||0.556||||||No multiple testing correction was performed|Wilcoxon (Mann-Whitney)|||||||0.556
82548274|NCT03775109|164797395|SUPERIORITY||Mean Difference (Net)|16.7||||0.248|TWO_SIDED|95.0|-11.2|44.5||The threshold for statistical significance was p = 0.05|Chi-squared||Difference = Canakinumab - Placebo|It is estimated that improvement of histological alcoholic steatohepatitis will occur in 40% of patients treated with placebo and 80% of patients treated with Canakinumab. A trial with 80% power to detect a difference at the P \< 0.05 threshold would require 23 patients in each arm, 46 in total. Assuming a drop-out rate of 10%, we will recruit 52 patients in total (26 patients per group).||44.5|-11.2|0.248
82548275|NCT03775109|164797396|SUPERIORITY||Mean Difference (Net)|0.043|||||TWO_SIDED|95.0|-0.235|0.322|||||Difference = Canakinumab - Placebo|||0.322|-0.235|
82579864|NCT02731690|164870600|SUPERIORITY|||||||0.0706||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0706
82548276|NCT03775109|164797397|SUPERIORITY||Odds Ratio (OR)|3.133|||||TWO_SIDED|95.0|0.121|81.004||||||||81.004|0.121|
82650828|NCT04128696|165016477|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.329|TWO_SIDED|95.0|0.62|1.34||Nominal p-value was calculated based on the one-sided log-rank test, stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by PD-L1 expression (CPS ≥20 vs. 1≤ CPS \<20) and HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||1.34|0.62|0.329
82548277|NCT03775109|164797398|SUPERIORITY||Odds Ratio (OR)|1.887|||||TWO_SIDED|95.0|0.357|9.965||||||||9.965|0.357|
82548278|NCT03775109|164797401|SUPERIORITY|||||||0.27|||||||ANCOVA|Change in log-transformed serum bilirubin from baseline to day 28. 49 participants were included in this analysis.||||||0.270
82548279|NCT03775109|164797402|SUPERIORITY|||||||0.0349|||||||ANCOVA|ANCOVA model: MELD score at Day 28 = intercept + treatment group indicator + baseline MELD score. 49 patients have data at Day 28 and baseline.||||||0.03490
82548280|NCT03775109|164797403|SUPERIORITY||Odds Ratio (OR)|5.088|||||TWO_SIDED|95.0|1.558|16.624|||||Ordinal logistic regression (proportional odds) model. GAHS at day 28 = intercept + treatment group indicator + baseline GAHS measurement. 48 participants have GAHS data at baseline and day 28.|||16.624|1.558|
82548281|NCT03775109|164797404|SUPERIORITY|||||||0.343|||||||ANCOVA|ANCOVA model: mDF score at day 28 = intercept + treatment group indicator + baseline mDF score.||Natural log transformation used for both baseline and day 28 measurements. 49 participants have mDF measurements at baseline and day 28.||||0.343
82548282|NCT03775109|164797405|SUPERIORITY||Mean Difference (Net)|0.083|||||TWO_SIDED|95.0|-0.529|0.696|||||difference = canakinumab - placebo. natural log transformation used.|||0.696|-0.529|
82548283|NCT03775109|164797406|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82548284|NCT03775109|164797407|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82548285|NCT03775109|164797408|SUPERIORITY||Cox Proportional Hazard|1.046|||||TWO_SIDED|95.0|0.147|7.424||||||||7.424|0.147|
82548286|NCT03775109|164797416|SUPERIORITY||Mean Difference (Net)|0.043|||||TWO_SIDED|95.0|-0.235|0.322|||||Difference = Canakinumab - Placebo|||0.322|-0.235|
82548287|NCT03775109|164797417|SUPERIORITY||Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.388|0.127|||||Difference = Canakinumab - Placebo|||0.127|-0.388|
82548288|NCT03775109|164797418|SUPERIORITY||Odds Ratio (OR)|4.012|||||TWO_SIDED|95.0|0.693|23.219||||||||23.219|0.693|
82548289|NCT03775109|164797419|SUPERIORITY||Odds Ratio (OR)|4.543|||||TWO_SIDED|95.0|0.543|38.043||||||||38.043|0.543|
82548290|NCT03775109|164797420|SUPERIORITY||Odds Ratio (OR)|1.745|||||TWO_SIDED|95.0|0.456|6.558||||||||6.558|0.456|
82548291|NCT03775109|164797421|SUPERIORITY||Odds Ratio (OR)|0.977|||||TWO_SIDED|95.0|0.281|3.397||||||||3.397|0.281|
82548292|NCT03775109|164797422|SUPERIORITY||Odds Ratio (OR)|0.768|||||TWO_SIDED|95.0|0.238|2.479||||||||2.479|0.238|
82548293|NCT05141903|164797484|SUPERIORITY||||||<|0.0001||||||(Dose group \* Time)|Mixed Models Analysis|Dfn, Dfd = 11, 369 F Value = 24.31||Dose Group 2 B. infantis levels compared to control group (antibiotic only) with changes over time||||<0.0001
82548294|NCT05141903|164797484|SUPERIORITY||||||<|0.0001||||||Dose group \* Time|Mixed Models Analysis|Dfn, Dfd = 11, 370 F value = 14.87||Dose Group 3 B. infantis levels compared to control group (antibiotic only) with changes over time||||<0.0001
82579865|NCT02731690|164870601|SUPERIORITY|||||||0.0715||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0715
82473257|NCT02840799|164641159|SUPERIORITY||Mean Difference (Final Values)|-0.1309108|STANDARD_ERROR_OF_MEAN|0.2619326||0.6191|TWO_SIDED|95.0|-0.6552259|0.3934043||A two-sided α=0.05 was determined by the power calculation.|t-test, 2 sided|t = -0.49979, df = 58. N=59 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossovered.|Only participants that successfully crossed over were included in the t-test (N=59).|We considered an increase in peak VO2 of \~0.6 ml/kg/min to be the minimum clinically significant change. Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints with a two-sided α=0.05. PASS11157 was used to perform power calculations.||0.3934043|-0.6552259|0.6191
82548295|NCT05141903|164797484|SUPERIORITY||||||<|0.0001||||||Dose Group \* Time|Mixed Models Analysis|Dfn, Dfd = 11, 351 F value = 8.606||Dose Group 2 (with HMO) B. infantis levels compared to dose Group 3 (without HMO) with changes over time||||<0.0001
82548296|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MontgomeryÅsberg Depression Rating Scale (MADRS) ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.0105|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||-0.03|-0.14|0.0105
82548297|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.0134|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||-0.03|-0.14|0.0134
82548298|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3495|TWO_SIDED|90.0|-0.08|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.08|0.3495
82548299|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.7008|TWO_SIDED|90.0|-0.07|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex right||0.04|-0.07|0.7008
82548300|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6635|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.05|-0.08|0.6635
82548301|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8792|TWO_SIDED|90.0|-0.09|0.07|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.07|-0.09|0.8792
82548302|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.04||0.0419|TWO_SIDED|90.0|-0.15|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||-0.02|-0.15|0.0419
82548303|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1658|TWO_SIDED|90.0|-0.12|0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.01|-0.12|0.1658
82473258|NCT02840799|164641159|SUPERIORITY||Slope|0.1||||0.711|TWO_SIDED|95.0|-0.043|0.62||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.62|-.043|0.711
82473259|NCT02840799|164641160|SUPERIORITY||Mean Difference (Final Values)|2.217657|STANDARD_ERROR_OF_MEAN|2.065196||0.2871|TWO_SIDED|95.0|-1.910612|6.3459261|||t-test, 2 sided|t = 1.0738, df = 62, p-value = 0.2871, N=63 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossovered.||A two-sided α=0.05 was determined by the power calculation.||6.3459261|-1.910612|0.2871
82548304|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6673|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD Signal % change/ Amygdala Left||0.05|-0.08|0.6673
82548305|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.04||0.0778|TWO_SIDED|90.0|-0.14|-0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD Signal % Change/ Amygdala Right||-0.01|-0.14|0.0778
82579866|NCT02731690|164870601|SUPERIORITY|||||||0.1697||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.1697
82548306|NCT03854578|164797506|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3258|TWO_SIDED|90.0|-0.08|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.08|0.3258
82548307|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.5954|TWO_SIDED|90.0|-0.07|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||0.04|-0.07|0.5954
82548308|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5911|TWO_SIDED|90.0|-0.08|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.04|-0.08|0.5911
82548309|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8283|TWO_SIDED|90.0|-0.11|0.08|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.08|-0.11|0.8283
82548310|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1797|TWO_SIDED|90.0|-0.12|0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||0.01|-0.12|0.1797
82548311|NCT03854578|164797506|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5772|TWO_SIDED|90.0|-0.08|0.04|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.04|-0.08|0.5772
82548312|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0147|TWO_SIDED|90.0|-0.14|-0.03|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||-0.03|-0.14|0.0147
82548313|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.048|TWO_SIDED|90.0|-0.13|-0.01|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||-0.01|-0.13|0.0480
82548314|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.0294|TWO_SIDED|90.0|-0.12|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||-0.02|-0.12|0.0294
82548315|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.07|STANDARD_ERROR_OF_MEAN|0.03||0.0359|TWO_SIDED|90.0|-0.13|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||-0.02|-0.13|0.0359
82548316|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.13|STANDARD_ERROR_OF_MEAN|0.04||0.0022|TWO_SIDED|90.0|-0.19|-0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||-0.06|-0.19|0.0022
82548317|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.104|TWO_SIDED|90.0|-0.15|0.0|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.00|-0.15|0.1040
82500205|NCT03510884|164691096|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-13.5|STANDARD_ERROR_OF_MEAN|8.6|=|0.1148|TWO_SIDED|97.5|-32.7|5.7||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q4W versus Placebo Q4W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||5.7|-32.7|=0.1148
82548318|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.12|STANDARD_ERROR_OF_MEAN|0.04||0.0022|TWO_SIDED|90.0|-0.18|-0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||-0.06|-0.18|0.0022
82473260|NCT02840799|164641160|SUPERIORITY||Slope|-2.12||||0.2935|TWO_SIDED|95.0|-6.12|1.88||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect. Randomization sequence was not included in the final model due to lack of evidence for a carry over effect. Phase 1 data for participants that did not crossover due to IDS were considered for the model (N=74).||1.88|-6.12|0.2935
82473261|NCT02840799|164641161|SUPERIORITY||Mean Difference (Final Values)|2.1859922|STANDARD_ERROR_OF_MEAN|1.578944||0.171|TWO_SIDED|95.0|-0.9674467|5.3392901||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=1.3844, df=65, p=0.171. N=66 due to analyzing participants with complete data for Phase 1 and Phase 2 that crossover correctly.||||5.3392901|-0.9674467|0.171
82473262|NCT02840799|164641161|SUPERIORITY||Slope|-2.51||||0.113|TWO_SIDED|95.0|-5.62|0.61||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.61|-5.62|0.113
82473263|NCT02840799|164641162|SUPERIORITY||Mean Difference (Final Values)|2.776572|STANDARD_ERROR_OF_MEAN|3.99464||0.4905|TWO_SIDED|95.0|-5.264221|10.817366||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t = 0.69507, df=46, p=.4905. N=47 due to only analyzed participants that correctly crossovered.||||10.817366|-5.264221|0.4905
82473264|NCT02840799|164641162|SUPERIORITY||Slope|1.088||||0.796|TWO_SIDED|95.0|-7.3|9.48||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||9.48|-7.30|0.796
82473265|NCT02840799|164641163|SUPERIORITY||Mean Difference (Final Values)|-38.11189|STANDARD_ERROR_OF_MEAN|43.84245||0.4017|TWO_SIDED|95.0|-133.63637|57.41259|||t-test, 2 sided|t=-0.86929,, df=12, p=0.4017||||57.41259|-133.63637|0.4017
82473266|NCT02840799|164641163|SUPERIORITY||Slope|61.77||||0.183|TWO_SIDED|95.0|-34.15|157.69||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||157.69|-34.15|0.183
82473267|NCT02840799|164641164|SUPERIORITY||Mean Difference (Final Values)|0.202782|STANDARD_ERROR_OF_MEAN|0.202782||0.5636|TWO_SIDED|95.0|-0.4959279|0.9014918||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=0.58074, df=59, p=0.5636||||0.9014918|-0.4959279|0.5636
82473268|NCT02840799|164641164|SUPERIORITY||Slope|-0.3118||||0.361|TWO_SIDED|95.0|-0.99|0.37||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||0.37|-0.99|0.361
82548319|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.08|STANDARD_ERROR_OF_MEAN|0.04||0.0331|TWO_SIDED|90.0|-0.14|-0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||-0.02|-0.14|0.0331
82548320|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.2149|TWO_SIDED|90.0|-0.11|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Left||0.02|-0.11|0.2149
82548321|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.6896|TWO_SIDED|90.0|-0.08|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Amygdala Right||0.05|-0.08|0.6896
82376886|NCT03104400|164460614|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|31.1|||<|0.0001|TWO_SIDED|95.0|24.7|37.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||37.5|24.7|<0.0001
82473269|NCT02840799|164641165|SUPERIORITY||Mean Difference (Final Values)|-0.1532142|STANDARD_ERROR_OF_MEAN|-0.1532142||0.7707|TWO_SIDED|95.0|-1.1998786|0.8934502||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t= -0.29271, df=61, p=0.7707||||0.8934502|-1.1998786|0.7707
82548322|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4769|TWO_SIDED|90.0|-0.06|0.02|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Left||0.02|-0.06|0.4769
82548323|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.768|TWO_SIDED|90.0|-0.07|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Anterior Cingulate Cortex Right||0.05|-0.07|0.7680
82548324|NCT03854578|164797507|OTHER|ANOVA model with treatment (BI 1358894 versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7997|TWO_SIDED|90.0|-0.08|0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Left||0.06|-0.08|0.7997
82548325|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.8334|TWO_SIDED|90.0|-0.08|0.06|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Dorsolateral Prefrontal Cortex Right||0.06|-0.08|0.8334
82548326|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7402|TWO_SIDED|90.0|-0.07|0.05|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Left||0.05|-0.07|0.7402
82548327|NCT03854578|164797507|OTHER|ANOVA model with treatment (Citalopram versus placebo) and severity of depression (MADRS ≥20 versus \<20) as fixed effects. The Citalopram treatment arm was used as a positive control group. It was not planned to compare pharmacodynamic effects between Citalopram and BI 1358894.|Mean change|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.812|TWO_SIDED|90.0|-0.06|0.08|||ANOVA||Mean change calculated as: BI - Placebo.|Mean BOLD signal % change/ Insula Right||0.08|-0.06|0.8120
82548328|NCT04549168|164797521|SUPERIORITY||LS geometric mean ratio|0.795||||0.0585|TWO_SIDED|95.0|0.627|1.008||Data was analyzed using mixed effect model repeated measurement analysis (MMRM), and the missing values were imputed using multiple imputation and assumed to be missing not at random (MNAR).|MMRM|||||1.008|0.627|0.0585
82548329|NCT04549168|164797522|SUPERIORITY||LSM difference|7.1|||<|0.0001|TWO_SIDED|95.0|4.39|9.81||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||9.81|4.39|<0.0001
82548330|NCT04549168|164797523|SUPERIORITY||LSM difference|-17.84||||0.0002|TWO_SIDED|95.0|-27.16|-8.51||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||-8.51|-27.16|0.0002
82579867|NCT02731690|164870601|SUPERIORITY|||||||0.3428||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.3428
82579868|NCT02731690|164870601|SUPERIORITY|||||||0.0642||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0642
82579869|NCT02731690|164870602|SUPERIORITY|||||||0.0568||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0568
82548331|NCT04549168|164797524|SUPERIORITY||LS geometric mean ratio|0.776||||0.0063|TWO_SIDED|95.0|0.647|0.93||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||0.930|0.647|0.0063
82548332|NCT04549168|164797525|SUPERIORITY||LSM difference|4.49||||0.0242|TWO_SIDED|95.0|0.59|8.39||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||8.39|0.59|0.0242
82548333|NCT04549168|164797526|SUPERIORITY||LSM difference|-10.36||||0.1625|TWO_SIDED|95.0|-24.95|4.22||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||4.22|-24.95|0.1625
82548334|NCT04549168|164797527|SUPERIORITY||LS geometric mean ratio|0.815||||0.0515|TWO_SIDED|95.0|0.663|1.001||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||1.001|0.663|0.0515
82548335|NCT04549168|164797528|SUPERIORITY||LSM difference|7.74|||<|0.0001|TWO_SIDED|95.0|5.61|9.86||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||9.86|5.61|<0.0001
82548336|NCT04549168|164797529|SUPERIORITY||LSM difference|-21.25|||<|0.0001|TWO_SIDED|95.0|-28.15|-14.35||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM|||||-14.35|-28.15|<0.0001
82548337|NCT04549168|164797531|SUPERIORITY||LSM difference|-2.85|STANDARD_ERROR_OF_MEAN|0.811||0.0006|TWO_SIDED|95.0|-4.45|-1.25||Based on Analysis of Covariance (ANCOVA) model with factors of age group, site, treatment, and the baseline ISI as a covariate.|ANCOVA|||||-1.25|-4.45|0.0006
82579870|NCT02731690|164870602|SUPERIORITY|||||||0.0533||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0533
82579871|NCT02731690|164870602|SUPERIORITY|||||||0.0459||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0459
82579872|NCT02731690|164870602|SUPERIORITY|||||||0.5678||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.5678
82579873|NCT02731690|164870603|SUPERIORITY|||||||0.581||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.5810
82473270|NCT02840799|164641165|SUPERIORITY||Slope|0.18872||||0.724|TWO_SIDED|95.0|-0.88|1.25||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||The mixed model analysis provided an assessment of the treatment effect on each continuous outcome of interest while controlling for effects of other covariates such as period, sequence, and a random subject effect.||1.25|-0.88|0.724
82473271|NCT02840799|164641166|SUPERIORITY||Mean Difference (Final Values)|0.3262821|STANDARD_ERROR_OF_MEAN|0.2333465||0.1680825|TWO_SIDED|95.0|-0.1421806|0.7947447||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|t=1.3983, df=51, p=0.1681||||0.7947447|-0.1421806|0.1680825
82473272|NCT02840799|164641166|SUPERIORITY||Slope|-0.4082||||0.093|TWO_SIDED|95.0|-0.88|0.07||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||0.07|-0.88|0.0930
82473273|NCT02840799|164641167|SUPERIORITY||Mean Difference (Final Values)|-2.116437|STANDARD_ERROR_OF_MEAN|1.176768||0.07984|TWO_SIDED|95.0|-4.4966754|0.2638017||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided||t = -1.7985, df=39, p=0.07984|||0.2638017|-4.4966754|0.07984
82473274|NCT02840799|164641167|SUPERIORITY||Slope|1.68||||0.135|TWO_SIDED|95.0|-0.54|3.9||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||3.90|-0.54|0.135
82473275|NCT02840799|164641168|SUPERIORITY||Mean Difference (Final Values)|-0.0192733|STANDARD_ERROR_OF_MEAN|0.01295984||0.145|TWO_SIDED|95.0|-0.0454871|0.0069404||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|||||0.00694040|-0.0454871|0.1450
82473276|NCT02840799|164641168|SUPERIORITY||Slope|0.01324||||0.3047|TWO_SIDED|95.0|-0.01|0.04||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||0.04|-0.01|0.3047
82473277|NCT02840799|164641169|SUPERIORITY||Mean Difference (Final Values)|-3.506681|STANDARD_ERROR_OF_MEAN|4.494971||0.44|TWO_SIDED|95.0|-12.598617|5.585256||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|t-test, 2 sided|||||5.585256|-12.598617|0.44
82473278|NCT02840799|164641169|SUPERIORITY||Slope|3.39106||||0.39911|TWO_SIDED|95.0|-4.66|11.44||Assuming a 90% retention rate, enrolling 84 subjects in this cross-over trial will have 80% power to detect such an effect size in the intervention induced change of our study endpoints, with a two-sided α=0.05.|Mixed Models Analysis|||||11.44|-4.66|0.39911
82473279|NCT02642315|164641175|OTHER||Median Difference (Net)|36.0||||0.0131|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0131
82473280|NCT02642315|164641176|OTHER||Median Difference (Net)|36.0||||0.0131|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0131
82473281|NCT00552188|164641190|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|95.0|||||ANCOVA|||ANCOVA model adjusted for baseline value||||0.34
82473282|NCT00552188|164641191|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED|95.0|||||ANCOVA|||ANCOVA model adjusted for baseline||||0.15
82548338|NCT04549168|164797532|SUPERIORITY||LSM difference|-1.74|STANDARD_ERROR_OF_MEAN|0.488||0.0005|TWO_SIDED|95.0|-2.7|-0.78||Based on ANCOVA model with factors of age group, site, treatment, and the baseline ISI as a covariate.|ANCOVA|||||-0.78|-2.70|0.0005
82548339|NCT04549168|164797534|SUPERIORITY||LSM difference|0.34||||0.0312|TWO_SIDED|95.0|0.03|0.65||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||First 7 mornings of treatment period|||0.65|0.03|0.0312
82579874|NCT02731690|164870603|SUPERIORITY|||||||0.0465||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0465
82473283|NCT01193257|164641204|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.875||||0.12085|TWO_SIDED|95.0|0.739|1.036|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors region (North America, Europe and Rest of World) and brief pain inventory-short form (BPI-SF) worst pain score at screening (\[less than or equal to\] \<=4, greater than \[\>\] 4) with treatment as a factor in the model. A hazard ratio less than 1 for the treatment indicates better prevention of the death in the Orteronel arm as compared to placebo arm.||1.036|0.739|0.12085
82473284|NCT01193257|164641205|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.00038|TWO_SIDED|95.0|0.653|0.885|||Log Rank|||Hazard ratio is based on a stratified Cox's proportional hazard regression model with stratification factors region (North America, Europe and Rest of World) and brief pain inventory-short form (BPI-SF) worst pain score at screening (\<=4, \>4) with treatment as a factor in the model. A hazard ratio less than 1 for the treatment indicates better prevention of the death in the Orteronel arm as compared to placebo arm.||0.885|0.653|0.00038
82473285|NCT01193257|164641206|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Regression, Logistic|||P-values test for odds ratio equal to 1.||||< 0.0001
82548340|NCT04549168|164797534|SUPERIORITY||LSM difference|0.32||||0.146|TWO_SIDED|95.0|-0.11|0.76||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||Last 7 mornings of treatment period|||0.76|-0.11|0.1460
82548341|NCT04549168|164797534|SUPERIORITY||LSM difference|0.29||||0.1613|TWO_SIDED|95.0|-0.12|0.7||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||First 7 mornings of follow-up period|||0.70|-0.12|0.1613
82548342|NCT04549168|164797534|SUPERIORITY||LSM difference|0.23||||0.2852|TWO_SIDED|95.0|-0.19|0.65||Data was analyzed using MMRM, and the missing values were imputed using multiple imputation and assumed to be MNAR.|MMRM||Last 7 mornings of follow-up period|||0.65|-0.19|0.2852
82579875|NCT02731690|164870603|SUPERIORITY|||||||0.1047||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.1047
82579876|NCT02731690|164870603|SUPERIORITY|||||||0.0661||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0661
82579877|NCT02731690|164870604|SUPERIORITY|||||||0.1615||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.1615
82579878|NCT02731690|164870604|SUPERIORITY|||||||0.6201||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.6201
82473286|NCT01193257|164641207|SUPERIORITY_OR_OTHER|||||||0.12778|||||||Regression, Logistic|||P-values test for odds ratio equal to 1.||||0.12778
82473287|NCT02136069|164641270|SUPERIORITY||Adjusted Difference in Remission Rates|-0.9||||0.8114||95.0|-8.7|6.83|||Cochran-Mantel-Haenszel|||||6.83|-8.70|0.8114
82473288|NCT02136069|164641271|NON_INFERIORITY|with margin -12.5%|Adjusted Difference in Remission Rates|-12.0||||0.1293|TWO_SIDED|95.0|-20.5|-3.26||p-values are not multiplicity adjusted|Cochran-Mantel-Haenszel|A Farrington-Manning non-inferiority test was used to determine the nominal p-value.||||-3.26|-20.50|0.1293
82473289|NCT02136069|164641272|SUPERIORITY||Adjusted Difference in Remission Rates|-3.4||||0.4056|TWO_SIDED|95.0|-11.53|4.74||p-values are not multiplicity adjusted|Cochran-Mantel-Haenszel|||||4.74|-11.53|0.4056
82473290|NCT02136069|164641273|SUPERIORITY||Adjusted Difference in Remission Rates|-2.4||||0.4591|TWO_SIDED|95.0|-8.88|4.14||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||4.14|-8.88|0.4591
82473291|NCT02136069|164641274|SUPERIORITY||Adjusted Difference in Remission Rates|5.3||||0.4196|TWO_SIDED|95.0|-7.54|18.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||18.13|-7.54|0.4196
82473292|NCT02136069|164641275|SUPERIORITY||Adjusted Difference in Response Rates|-12.4||||0.0118|TWO_SIDED|95.0|-21.84|-2.66||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-2.66|-21.84|0.0118
82473293|NCT02136069|164641276|SUPERIORITY||Adjusted Difference in Response Rates|-4.9||||0.2845|TWO_SIDED|95.0|-13.76|4.12||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||4.12|-13.76|0.2845
82473294|NCT02136069|164641277|SUPERIORITY||Adjusted Difference in Response Rates|-6.3||||0.1234|TWO_SIDED|95.0|-14.3|1.84||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||1.84|-14.30|0.1234
82579879|NCT02731690|164870604|SUPERIORITY|||||||0.9229||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.9229
82579880|NCT02731690|164870604|SUPERIORITY|||||||0.6307||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.6307
82473295|NCT02136069|164641278|SUPERIORITY||Adjusted Difference in Remission Rates|-5.0||||0.2168|TWO_SIDED|95.0|-12.84|2.94||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||2.94|-12.84|0.2168
82473296|NCT02136069|164641279|SUPERIORITY||Adjusted Difference in Response Rates|-9.5||||0.0564|TWO_SIDED|95.0|-19.06|0.29||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||0.29|-19.06|0.0564
82473297|NCT02136069|164641280|SUPERIORITY||Adjusted Difference in Response Rates|-6.0||||0.1729|TWO_SIDED|95.0|-14.51|2.7||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||2.70|-14.51|0.1729
82473298|NCT02136069|164641281|SUPERIORITY||Adjusted Difference in Remission Rates|-0.8||||0.8941|TWO_SIDED|95.0|-12.01|10.68||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||10.68|-12.01|0.8941
82473299|NCT02136069|164641290|SUPERIORITY|Week 10|Difference in Adjusted Means|-3.1||||0.4106|TWO_SIDED|95.0|-10.6|4.3||p-value has not been adjusted for multiplicity|ANCOVA|||||4.3|-10.6|0.4106
82473300|NCT02136069|164641290|SUPERIORITY|Week 30|Difference in Adjusted Means|-5.7||||0.1434|TWO_SIDED|95.0|-13.3|1.9||p-value has not been adjusted for multiplicity|ANCOVA|||||1.9|-13.3|0.1434
82473301|NCT02136069|164641290|SUPERIORITY|Week 54|Difference in Adjusted Means|-6.1||||0.1103|TWO_SIDED|95.0|-13.6|1.4||p-value has not been adjusted for multiplicity|ANCOVA|||||1.4|-13.6|0.1103
82473302|NCT04693234|164641292|SUPERIORITY|||||||0.0054|||||||Binomial Exact Test|The p-value was calculated from the binomial exact test of tislelizumab combined with ociperlimab versus historical rate of 0.15.||||||0.0054
82473303|NCT04693234|164641293|SUPERIORITY|||||||0.0127|||||||Binomial Exact Test|The p-value was calculated from the binomial exact test of tislelizumab combined with ociperlimab versus historical rate of 0.15.||||||0.0127
82473304|NCT03051178|164641324|SUPERIORITY||||||<|0.01||||||All post-hoc comparisons were Bonferroni corrected.|ANOVA|||TRS scores measured across different stimulation conditions were assessed using a mixed model ANOVA with the participant as a random effect. All post-hoc comparisons were Bonferroni corrected.||||<0.01
82579881|NCT02731690|164870605|SUPERIORITY|||||||0.0088||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0088
82579882|NCT02731690|164870605|SUPERIORITY|||||||0.2213||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.2213
82579883|NCT02731690|164870605|SUPERIORITY|||||||0.018||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0180
82579884|NCT02731690|164870605|SUPERIORITY|||||||0.197||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.1970
82473305|NCT01388335|164641343|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.81|||||TWO_SIDED|90.0|0.691|0.95|||||Ratio of Geometric LS mean is for S-warfarin.|||0.950|0.691|
82473306|NCT01388335|164641343|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.912|||||TWO_SIDED|90.0|0.815|1.02|||||Ratio of Geometric LS mean is for R-warfarin.|||1.02|0.815|
82473307|NCT01388335|164641344|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.98|||||TWO_SIDED|90.0|0.76|3.5|||||Median Difference (Final Values) is for S-warfarin.|||3.50|0.76|
82473308|NCT01388335|164641344|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.5|||||TWO_SIDED|90.0|-1.0|6.84|||||Median Difference (Final Values) is for R-warfarin.|||6.84|-1.00|
82473309|NCT01388335|164641345|SUPERIORITY_OR_OTHER_LEGACY||Ratio|1.28|||||TWO_SIDED|90.0|1.14|1.44|||||Ratio of Geometric LS mean is for S-warfarin.|||1.44|1.14|
82473310|NCT01388335|164641345|SUPERIORITY_OR_OTHER_LEGACY||Ratio|1.26|||||TWO_SIDED|90.0|1.08|1.47|||||Ratio of Geometric LS mean is for R-warfarin.|||1.47|1.08|
82473311|NCT01388335|164641350|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.92|||||TWO_SIDED|90.0|0.86|1.0|||||Ratio of Geometric LS mean.|||1.00|0.86|
82473312|NCT01388335|164641351|SUPERIORITY_OR_OTHER_LEGACY||Ratio|0.98|||||TWO_SIDED|90.0|0.95|1.02|||||Ratio of Geometric LS mean.|||1.02|0.95|
82473313|NCT01388335|164641354|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric LS Mean|1.03||||||90.0|0.99|1.08|||||Ratio of Geometric LS mean for Period 2, Day 14, 0 hours.|||1.08|0.99|
82473314|NCT01388335|164641354|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric LS Means|1.02|||||TWO_SIDED|90.0|0.98|1.06|||||Ratio of Geometric LS mean for Period 2, Day 14, 4 hours.|||1.06|0.98|
82473315|NCT01243580|164641366|EQUIVALENCE|Comparing Ortho-Cyclen to Ag200-15|||||<|0.0001|||||||ANOVA|||||||<0.0001
82473316|NCT01243580|164641367|EQUIVALENCE|Comparison of AG200-15 and Ortho-Cyclen|||||<|0.0001|||||||ANOVA|||||||<0.0001
82473317|NCT01243580|164641368|EQUIVALENCE|Comparison of AG200-15 and Ortho-Cyclen||||||0.0001|||||||ANOVA|||||||0.0001
82473318|NCT01243580|164641369|EQUIVALENCE|Comparison of Ortho-Cylen and AG200-15||||||0.0532|||||||ANOVA|||||||0.0532
82473319|NCT01243580|164641370|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0009|||||||ANOVA|||||||0.0009
82548343|NCT05374837|164797545|SUPERIORITY||Odds Ratio (OR)|0.9585||||0.145|TWO_SIDED|95.0|0.4276|2.1485||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic||Odds of consuming a minimum acceptable diet in control group at endline.|||2.1485|0.4276|0.145
82473320|NCT01243580|164641371|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0167|||||||ANOVA|||||||0.0167
82473321|NCT01243580|164641372|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0007|||||||ANOVA|||||||0.0007
82473322|NCT01243580|164641373|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0175|||||||ANOVA|||||||0.0175
82473323|NCT01243580|164641374|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0001|||||||ANOVA|||||||0.0001
82473324|NCT01243580|164641375|EQUIVALENCE|Comparison of Ortho-Cyclen and AG200-15||||||0.0532|||||||ANOVA|||||||0.0532
82473325|NCT01032889|164641381|SUPERIORITY_OR_OTHER||Difference from placebo|-0.3||||0.052|TWO_SIDED|95.0|-0.61|0.0|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||0.00|-0.61|0.052
82473326|NCT01032889|164641381|SUPERIORITY_OR_OTHER||Difference from placebo|-0.5||||0.003|TWO_SIDED|95.0|-0.77|-0.16|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.16|-0.77|0.003
82473327|NCT01032889|164641382|SUPERIORITY_OR_OTHER||Difference from placebo|-0.2||||0.117|TWO_SIDED|95.0|-0.55|0.06|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||0.06|-0.55|0.117
82473328|NCT01032889|164641382|SUPERIORITY_OR_OTHER||Difference from placebo|-0.6|||<|0.001|TWO_SIDED|95.0|-0.91|-0.3|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.30|-0.91|<0.001
82473329|NCT01032889|164641383|SUPERIORITY_OR_OTHER||Difference from placebo|-1.4||||0.005|TWO_SIDED|95.0|-2.44|-0.46|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-0.46|-2.44|0.005
82473330|NCT01032889|164641383|SUPERIORITY_OR_OTHER||Difference from placebo|-2.5|||<|0.001|TWO_SIDED|95.0|-3.48|-1.48|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||There was no formal hypothesis testing and no adjustments for multiple comparisons.||-1.48|-3.48|<0.001
82473331|NCT01032889|164641384|SUPERIORITY_OR_OTHER||Difference from placebo|-606.0||||0.166|TWO_SIDED|95.0|-1482.0|269.3|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||269.3|-1482|0.166
82473332|NCT01032889|164641384|SUPERIORITY_OR_OTHER||Difference from placebo|-110.0||||0.803|TWO_SIDED|95.0|-1013.0|792.6|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||792.6|-1013|0.803
82473333|NCT01032889|164641385|SUPERIORITY_OR_OTHER||Difference from placebo|-1.5|||<|0.001|TWO_SIDED|95.0|-2.32|-0.69|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||-0.69|-2.32|<0.001
82473334|NCT01032889|164641385|SUPERIORITY_OR_OTHER||Difference from placebo|-1.7|||<|0.001|TWO_SIDED|95.0|-2.46|-0.85|||ANCOVA|The ANCOVA model included terms for treatment group and the baseline covariate.||||-0.85|-2.46|<0.001
82473335|NCT01500720|164641387|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.169|||<|0.0001|TWO_SIDED|95.0|1.563|3.01||P-value was calculated from stratified two-sided log-rank test, stratifying for brain metastases and lactate dehydrogenase (LDH) level at the time of randomization.|Stratified Two-Sided Log-Rank Test||Hazard ratio was estimated using a COX Proportional Hazards regression model, stratifying for brain metastases and LDH level at the time of randomization.|||3.01|1.563|<0.0001
82473336|NCT00740857|164641391|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82548344|NCT05374837|164797545|SUPERIORITY||Odds Ratio (OR)|0.9669||||0.145|TWO_SIDED|95.0|0.43|2.1742||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic||Odds of consuming a minimum acceptable diet in intervention group at endline.|||2.1742|0.43|0.145
82548345|NCT05374837|164797546|SUPERIORITY||Odds Ratio (OR)|0.3084||||0.179|TWO_SIDED|95.0|0.1977|0.481||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic|||||0.481|0.1977|0.179
82473337|NCT00740857|164641391|SUPERIORITY_OR_OTHER|||||||0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||0.001
82548346|NCT05374837|164797546|SUPERIORITY||Odds Ratio (OR)|0.438||||0.179|TWO_SIDED|95.0|0.2983|0.6431||The a priori threshold for statistical significance is \<0.05. The p-value is for the intervention by time interaction.|Regression, Logistic|||||0.6431|0.2983|0.179
82548347|NCT05374837|164797552|SUPERIORITY|||||||0.054||||||A priori threshold for statistical significance \<0.05.|Chi-squared|||||||0.054
82579885|NCT02731690|164870606|SUPERIORITY|||||||0.0752||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0752
82579886|NCT02731690|164870606|SUPERIORITY|Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.||||||0.6403||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.6403
82579887|NCT02731690|164870606|SUPERIORITY|Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.||||||0.2316||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.2316
82579888|NCT02731690|164870606|SUPERIORITY|||||||0.7635||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.7635
82579889|NCT02731690|164870607|SUPERIORITY|||||||0.0872||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 12||||0.0872
82548348|NCT05374837|164797553|SUPERIORITY|||||||0.65||||||A priori threshold for statistical significance \<0.05|Chi-squared|||||||0.65
82579890|NCT02731690|164870607|SUPERIORITY|||||||0.0073||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 24||||0.0073
82579891|NCT02731690|164870607|SUPERIORITY|||||||0.0086||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 36||||0.0086
82579892|NCT02731690|164870607|SUPERIORITY|||||||0.0489||||||Analyzed using a repeated measure GEE model, which includes the change from baseline as the dependent variable, visit as a fixed factor, and the baseline value as a covariate. Compound symmetry is used as the covariance structure.|GEE model|||Week 48||||0.0489
82579893|NCT01744392|164870671|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2||||0.73|TWO_SIDED||||||t-test, 2 sided|||Difference between percentages. Increases in value indicate improvement in adherence.||||.73
82579894|NCT02946853|164870688|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.14|7.21|||Regression, Logistic|||||7.21|0.14|1.00
82579895|NCT02946853|164870689|SUPERIORITY||Mean Difference (Net)|-1.0||||0.974|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.974
82579896|NCT02946853|164870690|SUPERIORITY||Mean Difference (Net)|0.5||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Some patients did not undergo 6 month echocardiogram due to restrictions related to COVID-19.||||1.00
82579897|NCT02946853|164870691|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.1|84.4|||Fisher Exact|||||84.4|0.1|1.00
82579898|NCT02946853|164870692|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED||||||Fisher Exact|||||||1.00
82579899|NCT02946853|164870693|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|42.0|||Fisher Exact|||||42.00|0.00|1.00
82579900|NCT02946853|164870694|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.005
82579901|NCT02946853|164870695|SUPERIORITY||Median Difference (Final Values)|23.7||||0.565|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.565
82579902|NCT02946853|164870696|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|42.0|||Fisher Exact|||||42.0|0.0|1.00
82473338|NCT00740857|164641391|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82473339|NCT00740857|164641392|SUPERIORITY_OR_OTHER|||||||0.118|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.118
82473340|NCT00740857|164641392|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60....||||<0.001
82548349|NCT00676715|164797559|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||<0.0001
82548350|NCT00676715|164797559|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||<0.0001
82548351|NCT00676715|164797559|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7496|||||||Van Elteren Test (stratified)|||Van Elteren test is stratified by region and presence of baseline gadolinium-enhancing lesions (absent or present).||||0.7496
82548352|NCT00676715|164797560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.0019
82548353|NCT00676715|164797560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0136|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.0136
82548354|NCT00676715|164797560|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1814|||||||Poisson model|||Poisson model was fitted for adjusting for geographic region only.||||0.1814
82473341|NCT00740857|164641393|SUPERIORITY_OR_OTHER|||||||0.041|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.041
82473342|NCT00740857|164641393|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60, 90, 120, 180, 240, 300 and 360 minute individual time points all have the same P-value score.||||<0.001
82473343|NCT00740857|164641394|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|With treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82473344|NCT00740857|164641395|SUPERIORITY_OR_OTHER|||||||0.056|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||15 minutes||||0.056
82473345|NCT00740857|164641395|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||The 30, 45, 60, 90, 120, 180, 240, 300 and 360 minute individual time points all have the same P-value score.||||<0.001
82473346|NCT00740857|164641396|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82473347|NCT00740857|164641397|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82473348|NCT00740857|164641398|SUPERIORITY_OR_OTHER||||||<|0.001|||||||proportional hazards model|Adjusted with treatment, baseline Pain Severity Rating (PSR), and gender terms.||||||<0.001
82473349|NCT03532451|164641403|SUPERIORITY|||||||0.08|||||||Wilcoxon Signed-Rank Test|||Null hypothesis is the change in CD8+ cell density is not significantly different from zero.||||0.08
82548355|NCT00676715|164797561|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.6||||0.1978|TWO_SIDED|95.0|0.27|1.34|||Cochran-Mantel-Haenszel chi-square test|Cochran-Mantel-Haenszel (CMH) chi-square test stratified by geographical region only.||||1.34|0.27|0.1978
82548356|NCT00676715|164797561|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.53||||0.131|TWO_SIDED|95.0|0.23|1.22|||CMH chi-square test|CMH chi-square test stratified by geographical region only.||||1.22|0.23|0.1310
82579903|NCT00403767|164870703|NON_INFERIORITY_OR_EQUIVALENCE|Alternative hypothesis of non-inferiority (NI) by a NI margin of 1.46 in hazard ratio (HR) based on on-treatment data from the per protocol population. The required number of primary efficacy endpoint events was determined based on the following assumptions: NI margin of 1.46, 1-sided alpha of 0.025, power of \>95% when true HR is 1, and exponential distributions. The margin was selected based on clinical appropriateness and quantitative analysis of relevant studies in Hart et al.|Hazard Ratio (HR)|0.79|||<|0.001|TWO_SIDED|95.0|0.66|0.96||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.025 (1-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||||0.96|0.66|<0.001
82473350|NCT03532451|164641403|SUPERIORITY|||||||0.002|||||||Wilcoxon Signed-Rank Test|||||||0.002
82473351|NCT03532451|164641404|SUPERIORITY|||||||0.88|||||||Wilcoxon rank sum test|||||||0.88
82473352|NCT01287741|164641477|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4753|TWO_SIDED|95.0|0.78|1.12|||Log Rank|Stratified by International Prognostic Index (IPI) score (low/low-intermediate (excluding participants having an IPI score 0 without bulky disease).||||1.12|0.78|0.4753
82473353|NCT01287741|164641478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2736|TWO_SIDED|95.0|0.72|1.1|||Log Rank|Stratified by International Prognostic Index (IPI) score (low/low-intermediate (excluding participants having an IPI score 0 without bulky disease).||||1.10|0.72|0.2736
82473354|NCT04421027|164641493|SUPERIORITY||Odds Ratio (OR)|0.85||||0.18|TWO_SIDED|95.0|0.67|1.08|||Regression, Logistic|||||1.08|0.67|0.1800
82473355|NCT04421027|164641494|SUPERIORITY||Odds Ratio (OR)|1.12||||0.728|TWO_SIDED|95.0|0.58|2.16|||Regression, Logistic|||||2.16|0.58|0.7280
82473356|NCT04421027|164641495|SUPERIORITY||Odds Ratio (OR)|1.07||||0.5444|TWO_SIDED|95.0|0.86|1.34|||Regression, Logistic|||||1.34|0.86|0.5444
82473357|NCT04421027|164641496|SUPERIORITY||LS Mean difference (net)|0.75|STANDARD_ERROR_OF_MEAN|0.399||0.0586|TWO_SIDED|95.0|0.0|1.5|||ANOVA|||||1.5|-0.0|0.0586
82473358|NCT04421027|164641497|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.1453|TWO_SIDED|95.0|0.99|1.24|||Log Rank|||||1.24|0.99|0.1453
82473359|NCT04421027|164641498|SUPERIORITY||Odds Ratio (OR)|1.21||||0.0464|TWO_SIDED|95.0|1.0|1.47|||Proportional Odds Model|||Day 4||1.47|1.00|0.0464
82473360|NCT04421027|164641499|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0172|TWO_SIDED|95.0|1.04|1.49|||Proportional Odds Model|||||1.49|1.04|0.0172
82473361|NCT04421027|164641500|SUPERIORITY||Odds Ratio (OR)|1.17||||0.0921|TWO_SIDED|95.0|0.97|1.41|||Proportional Odds Model|||||1.41|0.97|0.0921
82473362|NCT04421027|164641501|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0168|TWO_SIDED|95.0|1.05|1.56|||Proportional Odds Model|||||1.56|1.05|0.0168
82473363|NCT04421027|164641502|SUPERIORITY||LS Mean Difference (Net)|-0.76|STANDARD_ERROR_OF_MEAN|0.408||0.0626|TWO_SIDED|95.0|-1.6|0.0|||ANOVA|||||0.0|-1.6|0.0626
82473364|NCT04421027|164641503|SUPERIORITY||Odds Ratio (OR)|1.15||||0.429|TWO_SIDED|95.0|0.81|1.63|||Regression, Logistic|||||1.63|0.81|0.4290
82473365|NCT04421027|164641504|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0018|TWO_SIDED|95.0|0.41|0.78|||Log Rank|||||0.78|0.41|0.0018
82473366|NCT04421027|164641505|SUPERIORITY||LS Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.323||0.9526|TWO_SIDED|95.0|-0.62|0.65|||ANOVA|||||0.65|-0.62|0.9526
82473367|NCT04421027|164641506|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.1831|TWO_SIDED|95.0|0.741|1.061|||Log Rank|||||1.061|0.741|0.1831
82473368|NCT04421027|164641507|SUPERIORITY||Hazard Ratio (HR)|1.202||||0.0243|TWO_SIDED|95.0|1.017|1.421|||Log Rank|||||1.421|1.017|0.0243
82548357|NCT00676715|164797561|SUPERIORITY_OR_OTHER_LEGACY||Relative risk (RR)|0.92||||0.8206|TWO_SIDED|95.0|0.46|1.84|||CMH chi-square tes|CMH chi-square test stratified by geographical region only.||||1.84|0.46|0.8206
82548358|NCT00676715|164797562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1391|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.1391
82548359|NCT00676715|164797562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1596|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.1596
82548360|NCT00676715|164797562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.4740
82473369|NCT04421027|164641508|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.128||0.191|TWO_SIDED|95.0|-0.42|0.08|||Mixed Models Analysis|||Day 4||0.08|-0.42|0.191
82473370|NCT04421027|164641508|SUPERIORITY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.161||0.278|TWO_SIDED|95.0|-0.49|0.14|||Mixed Models Analysis|||Day 7||0.14|-0.49|0.278
82473371|NCT04421027|164641508|SUPERIORITY||LS Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.187||0.496|TWO_SIDED|95.0|-0.49|0.24|||Mixed Models Analysis|||Day 10||0.24|-0.49|0.496
82473372|NCT04421027|164641508|SUPERIORITY||LS Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.226||0.263|TWO_SIDED|95.0|-0.7|0.19|||Mixed Models Analysis|||Day 14||0.19|-0.70|0.263
82473373|NCT04421027|164641510|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6436|TWO_SIDED||||||Log Rank|||||||0.6436
82473374|NCT04421027|164641511|SUPERIORITY||Hazard Ratio (HR)|1.124||||0.127|TWO_SIDED||||||Log Rank|||||||0.1270
82473375|NCT04421027|164641512|SUPERIORITY||LS Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.228||0.3058|TWO_SIDED|95.0|-0.68|0.21|||ANOVA|||||0.21|-0.68|0.3058
82473376|NCT04421027|164641513|SUPERIORITY||LS Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.306||0.7073|TWO_SIDED|95.0|-0.49|0.72|||ANOVA|||||0.72|-0.49|0.7073
82473377|NCT05407064|164641514|SUPERIORITY|Mean change from baseline and mean difference between MM120 dose groups and placebo were estimated using model averaging method (of 3 models). The minimally efficacious dose was defined as a placebo-adjusted improvement of 2.5 points on the HAM-A, with a statistical significance set at an alpha level of 0.05.||||||||||||||||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 4 in total HAM-A score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed, and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.|A test statistic was derived from the data using an ANCOVA model with change from Baseline to Week 4 for the HAM-A Total Score as a response variable, treatment arm and Baseline value of HAM-A Total Score as covariates. The ANCOVA model was repeated for each imputed dataset, which resulted in a set of LS mean estimates for all dose groups and the related covariance matrices. Rubin's rule was used to combine the multiple sets of LS mean estimates and the related covariance matrices to a single set of LS mean estimates of change from Baseline to Week 4 for HAM-A Total Score for all dose groups and the related covariance matrix. The SAS procedure PROC MIANALYZE was used to combine the results from imputed datasets.|||
82473378|NCT05407064|164641515|SUPERIORITY|Mean change from baseline and mean difference between MM120 dose groups and placebo were estimated using model averaging method (of 3 models). The minimally efficacious dose was defined as a placebo-adjusted improvement of 2.5 points on the HAM-A, with a statistical significance set at an alpha level of 0.05.||||||||||||||||The primary endpoint was evaluated by determining if there was a dose-response relationship between the change from baseline to Week 8 in total HAM-A score and the dose administered using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed, and multiple comparison techniques were used to choose the model(s) likely to present the true underlying dose-response curve.|A test statistic was derived from the data using an ANCOVA model with change from Baseline to Week 8 for the HAM-A Total Score as a response variable, treatment arm and Baseline value of HAM-A Total Score as covariates. The ANCOVA model was repeated for each imputed dataset, which resulted in a set of LS mean estimates for all dose groups and the related covariance matrices. Rubin's rule was used to combine the multiple sets of LS mean estimates and the related covariance matrices to a single set of LS mean estimates of change from Baseline to Week 8 for HAM-A Total Score for all dose groups and the related covariance matrix. The SAS procedure PROC MIANALYZE was used to combine the results from imputed datasets.|||
82473379|NCT05407064|164641516|SUPERIORITY|||||||0.1157|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.1157
82473380|NCT05407064|164641516|SUPERIORITY|||||||0.663|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.6630
82473381|NCT05407064|164641516|SUPERIORITY|||||||0.0004|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0004
82473382|NCT05407064|164641516|SUPERIORITY|||||||0.01|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0100
82473383|NCT05407064|164641517|SUPERIORITY|||||||0.2309|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.2309
82473384|NCT05407064|164641517|SUPERIORITY|||||||0.7218|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.7218
82473385|NCT05407064|164641517|SUPERIORITY|||||||0.0637|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0637
82473386|NCT05407064|164641517|SUPERIORITY|||||||0.0216|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0216
82473387|NCT05407064|164641518|SUPERIORITY|||||||0.1006|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.1006
82473388|NCT05407064|164641518|SUPERIORITY|||||||0.2225|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.2225
82473389|NCT05407064|164641518|SUPERIORITY|||||||0.0025|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0025
82473390|NCT05407064|164641518|SUPERIORITY|||||||0.0042|||||||ANCOVA|||Change from Baseline: ANCOVA determination of Least Squares (LS) Mean and difference in LS Mean from placebo||||0.0042
82473391|NCT05407064|164641519|SUPERIORITY|||||||0.6258|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.6258
82473392|NCT05407064|164641519|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.95
82473393|NCT05407064|164641519|SUPERIORITY|||||||0.0174|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0174
82473394|NCT05407064|164641519|SUPERIORITY|||||||0.0206|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0206
82473395|NCT05407064|164641520|SUPERIORITY|||||||0.5538|||||||t-test, 2 sided|||Assessment of change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.5538
82473396|NCT05407064|164641520|SUPERIORITY|||||||0.665|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.6650
82473397|NCT05407064|164641520|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0190
82473398|NCT05407064|164641520|SUPERIORITY|||||||0.0034|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0034
82473399|NCT05407064|164641521|SUPERIORITY|||||||0.7236|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.7236
82473400|NCT05407064|164641521|SUPERIORITY|||||||0.9738|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.9738
82473401|NCT05407064|164641521|SUPERIORITY|||||||0.0338|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0338
82548361|NCT00676715|164797563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
82548362|NCT00676715|164797563|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
82548363|NCT00676715|164797563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4985|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.4985
82548364|NCT00676715|164797564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.0004
82548365|NCT00676715|164797564|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||<0.0001
82473402|NCT05407064|164641521|SUPERIORITY|||||||0.0282|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test)||||0.0282
82473403|NCT05407064|164641522|SUPERIORITY|||||||0.9302|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.9302
82473404|NCT05407064|164641522|SUPERIORITY|||||||0.6763|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.6763
82473405|NCT05407064|164641522|SUPERIORITY|||||||0.0816|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0816
82473406|NCT05407064|164641522|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0190
82473407|NCT05407064|164641523|SUPERIORITY|||||||0.5647|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.5647
82548366|NCT00676715|164797564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2725|||||||Van Elteren Test (stratified)|Van Elteren test is stratified by region only.||||||0.2725
82548367|NCT05249439|164797565|OTHER|Paired t-test|Mean Difference (Final Values)|-12.99|||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||I-SatPro starting weight Vs 52 week weight (kg)||||<0.0001
82548368|NCT01351805|164797581|OTHER|Test of change from baseline as above.|Percent change in geometric means|8.19||||0.02|TWO_SIDED|95.0|1.52|15.31||IL-6 from baseline to one year: overall % change= 8.19% (95%CI 1.52-15.31).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||15.31|1.52|0.02
82548369|NCT01351805|164797581|OTHER|Test of change from baseline as above.|Percent change in geometric means|-0.73||||0.97|TWO_SIDED|95.0|-6.87|5.81||4\. IL-6 from baseline to one year: overall % change= -0.73% (95%CI -6.87 to 5.81).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||5.81|-6.87|0.97
82548370|NCT01351805|164797581|SUPERIORITY|Multiplicative interaction between strata based on linear models of ln biomarker from baseline to year 1,p for interaction between strata.||||||0.12||||||Test of multiplicative interaction between the effects of the two supplements|p for interaction|||Test for interaction between effect of vitamin D and effect of omega-3 fatty acids on IL-6 change from baseline to 1 year||||0.12
82548371|NCT01351805|164797582|OTHER|Test of change from baseline as above.|Percent change in geometric means|7.12||||0.16|TWO_SIDED|95.0|-1.81|16.87||3\. HsCRP from baseline to one year: overall % change= 7.12% (95%CI -1.81-16.78).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||16.87|-1.81|0.16
82548372|NCT01351805|164797582|OTHER|Test of change from baseline as above.|Percent change in geometric means|-3.89||||0.44|TWO_SIDED|95.0|-11.92|4.86||6\. HsCRP from baseline to one year: overall % change= -3.89% (95%CI -11.92-4.86).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||4.86|-11.92|0.44
82473408|NCT05407064|164641523|SUPERIORITY|||||||0.3497|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3497
82473409|NCT05407064|164641523|SUPERIORITY|||||||0.0229|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0229
82473410|NCT05407064|164641523|SUPERIORITY|||||||0.0073|||||||t-test, 2 sided|||Change from baseline in total MADRS scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0073
82473411|NCT05407064|164641524|SUPERIORITY|||||||0.0158|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0158
82473412|NCT05407064|164641524|SUPERIORITY|||||||0.0429|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0429
82473413|NCT05407064|164641524|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0001
82473414|NCT05407064|164641524|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
82473415|NCT05407064|164641525|SUPERIORITY|||||||0.0804|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0804
82473416|NCT05407064|164641525|SUPERIORITY|||||||0.0532|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0532
82473417|NCT05407064|164641525|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0001
82473418|NCT05407064|164641525|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
82473419|NCT05407064|164641526|SUPERIORITY|||||||0.2152|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.2152
82473420|NCT05407064|164641526|SUPERIORITY|||||||0.3369|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3369
82548373|NCT01351805|164797582|SUPERIORITY|||||||0.38|||||||P for interaction|||Test for multiplicative interaction between effect of vitamin D and effect of omega-3. based on linear models of ln biomarker from baseline to year 1.||||0.38
82473421|NCT05407064|164641526|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0010
82473422|NCT05407064|164641526|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Assessment of change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0046
82473423|NCT05407064|164641527|SUPERIORITY|||||||0.4489|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.4489
82473424|NCT05407064|164641527|SUPERIORITY|||||||0.7326|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.7326
82473425|NCT05407064|164641527|SUPERIORITY|||||||0.0492|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0492
82473426|NCT05407064|164641527|SUPERIORITY|||||||0.0131|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0131
82473427|NCT05407064|164641528|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.3330
82473428|NCT05407064|164641528|SUPERIORITY|||||||0.1193|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.1193
82473429|NCT05407064|164641528|SUPERIORITY|||||||0.0032|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0032
82548374|NCT01351805|164797583|OTHER|Test of change from baseline as above.|Percent change in geometric means|0.63||||0.57|TWO_SIDED|95.0|-1.03|2.31||2\. TNFR2 from baseline to one year: overall % change= 0.63% (95%CI -1.03 to 2.31).|as above|p above adjusted for age, sex, race and n-3 fatty acid randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||2.31|-1.03|0.57
82548375|NCT01351805|164797583|OTHER|Test of change from baseline as above.|Percent change in geometric means|-1.27||||0.13|TWO_SIDED|95.0|-2.89|0.39||5\. TNFR2 from baseline to one year: overall % change= -1.27% (95%CI -2.89 to 0.39).|as above|p above adjusted for age, sex, race and vitamin D randomized treatment group.||Geometric means of biomarker concentrations with 95% CIs were calculated for baseline and 1 year biomarkers (IL-6, TNFR2 and CRP) by treatment group (active vs. placebo vitamin D). Linear repeated measures models calculated the % change in means for each biomarker from baseline to year one and the overall effects of randomized treatments with 95% CIs.||0.39|-2.89|0.13
82473430|NCT05407064|164641528|SUPERIORITY|||||||0.0127|||||||t-test, 2 sided|||Change from baseline in total CGI-S scores determined by the difference in means and difference between treatment and placebo (p-value determined from two-sample t-test).||||0.0127
82548376|NCT01351805|164797583|SUPERIORITY|Multiplicative interaction between strata based on linear models of ln biomarker from baseline to year 1 with p for interaction between strata.||||||0.74|||||||P for interaction|||Test for multiplicative interaction between effect of vitamin D and effect of omega-3. based on linear models of ln biomarker from baseline to year 1.||||0.74
82548377|NCT01351805|164797584|OTHER||Cox Proportional Hazard|0.78||||0.05|TWO_SIDED|95.0|0.61|0.99|||Regression, Cox|||||0.99|0.61|0.05
82548378|NCT01351805|164797584|SUPERIORITY||Cox Proportional Hazard|0.85||||0.19|TWO_SIDED|95.0|0.67|1.08|||Regression, Cox|||||1.08|0.67|0.19
82548379|NCT01351805|164797584|SUPERIORITY|||||||0.2|||||||P for interaction|p multiplicative interaction between effects of vitamin D and n-3 fa supplements||Test for multiplicative interaction between the effects of randomized treatment groups, vitamin D and n-3 fa on incidence of autoimmune disease.||||0.20
82548380|NCT01351805|164797585|OTHER|We assessed the main effects of the treatment arms comparing all those randomized to omega-3 fatty acids or omega-3 fatty acid placebo, regardless of vitamin D randomization status.||||||0.77||||||Repeated measures model with unstructured variance to assess effect of treatment on WOMAC Pain adjusting for age, sex, and other treatment. Linear time by treatment interaction term assessed change in WOMAC Pain over time in treatment vs placebo.|Mixed Models Analysis|Repeated measures model with censoring for total knee replacement.||Intention to treat analysis using a repeated measures model with unstructured variance to assess the effect of treatment arm on WOMAC Pain adjusting for age, sex, and the other treatment arm. The linear time by treatment interaction term assessed change in WOMAC Pain over time between participants randomized to treatment versus placebo.||||0.77
82548381|NCT01351805|164797585|OTHER|We assessed the main effects of the treatment arms comparing all those randomized to vitamin D or vitamin D placebo, regardless of omega-3 fatty acid randomization status.||||||0.41||||||Repeated measures model with unstructured variance to assess effect of treatment on WOMAC Pain adjusting for age, sex, and other treatment. Linear time by treatment interaction term assessed change in WOMAC Pain over time in treatment vs placebo.|Mixed Models Analysis|Linear time by treatment interaction (comparing change in WOMAC pain over time in two randomized groups)||Intention to treat analysis using a repeated measures model with unstructured variance to assess the effect of treatment arm on WOMAC Pain adjusting for age, sex, and the other treatment arm. The linear time by treatment interaction term assessed change in WOMAC Pain over time between participants randomized to treatment versus placebo.|We assessed for effect modification between vitamin D and N-3 FA and tested for other pre-specified interactions. We again used a repeated measures model with censoring for TKR. We adjusted for age, sex and N-3 FA treatment arm (in analyses in which N-3 FA treatment arm was not investigated as a potential modifier).|||0.41
82579904|NCT00403767|164870704|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.015|TWO_SIDED|95.0|0.65|0.95||The p-value Is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.95|0.65|0.015
82473431|NCT05407064|164641529|SUPERIORITY|||||||0.0046|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0046
82473432|NCT05407064|164641529|SUPERIORITY|||||||0.0052|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0052
82473433|NCT05407064|164641529|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
82473434|NCT05407064|164641529|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
82473435|NCT05407064|164641530|SUPERIORITY|||||||0.0567|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0567
82473436|NCT05407064|164641530|SUPERIORITY|||||||0.0235|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0235
82473437|NCT05407064|164641530|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
82548382|NCT01351805|164797585|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Differences in WOMAC pain scores in stratified groups.|Mean Difference (Net)|-1.5|STANDARD_ERROR_OF_MEAN|1.9||0.42|TWO_SIDED||||||Regression, Linear|||Active n3fa vs placebo n3fa among those on placebo vitamin D.||||0.42
82548383|NCT01351805|164797585|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Differences in WOMAC pain scores in stratified groups.|Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|1.8||0.18|TWO_SIDED||||||Regression, Linear|||Vitamin D vs. vitamin D placebo among those on placebo omega-3 fatty acids- stratified analyses.||||0.18
82548384|NCT01351805|164797585|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Report only in final year. Differences in WOMAC pain scores in cross-classified groups.|Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|1.89||0.84|TWO_SIDED||||||Regression, Linear|||Omega-3 fatty acids vs. omega-3 fatty acids placebo among those on active vitamin D.||||0.84
82548385|NCT01351805|164797585|OTHER|Linear regression - WOMAC pain over time mean (Standard error - SE). Report only in final year. Differences in WOMAC pain scores in cross-classified groups.|Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|1.8||0.76|TWO_SIDED||||||Regression, Linear|||Omega-3 fatty acids vs. omega-3 fatty acids placebo among those on placebo vitamin D.||||0.76
82473438|NCT05407064|164641530|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
82473439|NCT05407064|164641531|SUPERIORITY|||||||0.2632|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.2632
82473440|NCT05407064|164641531|SUPERIORITY|||||||0.2962|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.2962
82473441|NCT05407064|164641531|SUPERIORITY|||||||0.0013|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0013
82473442|NCT05407064|164641531|SUPERIORITY|||||||0.0547|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0547
82473443|NCT05407064|164641532|SUPERIORITY|||||||0.0937|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0937
82473444|NCT05407064|164641532|SUPERIORITY|||||||0.823|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.8230
82473445|NCT05407064|164641532|SUPERIORITY|||||||0.0032|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0032
82473446|NCT05407064|164641532|SUPERIORITY|||||||0.0129|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0129
82473447|NCT05407064|164641533|SUPERIORITY|||||||0.1889|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1889
82473448|NCT05407064|164641533|SUPERIORITY|||||||0.1589|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1589
82473449|NCT05407064|164641533|SUPERIORITY|||||||0.0008|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0008
82473450|NCT05407064|164641533|SUPERIORITY|||||||0.0194|||||||t-test, 2 sided|||Difference in mean CGI-I total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0194
82473451|NCT05407064|164641534|SUPERIORITY|||||||0.0057|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0057
82473452|NCT05407064|164641534|SUPERIORITY|||||||0.0168|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0168
82473453|NCT05407064|164641534|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||0.0000
82473454|NCT05407064|164641534|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0000
82473455|NCT05407064|164641535|SUPERIORITY|||||||0.0958|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0958
82473456|NCT05407064|164641535|SUPERIORITY|||||||0.0544|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0544
82473457|NCT05407064|164641535|SUPERIORITY|||||||0.0029|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0029
82473458|NCT05407064|164641535|SUPERIORITY|||||||0.0006|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0006
82473459|NCT05407064|164641536|SUPERIORITY|||||||0.2038|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.2038
82473460|NCT05407064|164641536|SUPERIORITY|||||||0.1977|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.1977
82473461|NCT05407064|164641536|SUPERIORITY|||||||0.0357|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.0357
82473462|NCT05407064|164641536|SUPERIORITY|||||||0.0302|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test)||||0.0302
82473463|NCT05407064|164641537|SUPERIORITY|||||||0.2165|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2165
82473464|NCT05407064|164641537|SUPERIORITY|||||||0.6868|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.6868
82473465|NCT05407064|164641537|SUPERIORITY|||||||0.135|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.1350
82473466|NCT05407064|164641537|SUPERIORITY|||||||0.0273|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.0273
82473467|NCT05407064|164641538|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2450
82473468|NCT05407064|164641538|SUPERIORITY|||||||0.3461|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.3461
82473469|NCT05407064|164641538|SUPERIORITY|||||||0.111|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.1110
82473470|NCT05407064|164641538|SUPERIORITY|||||||0.2386|||||||t-test, 2 sided|||Change from baseline in total PGI-S scores and the difference in means between treatment and placebo (p-value determined from two-sample t-test).||||0.2386
82473471|NCT05407064|164641539|SUPERIORITY|||||||0.1475|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1475
82473472|NCT05407064|164641539|SUPERIORITY|||||||0.0308|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0308
82579905|NCT00403767|164870705|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.442|TWO_SIDED|95.0|0.96|1.11||The p-value is not adjusted for mulitple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternate hypothesis of superiority based on on-treatment data from the safety population.||1.11|0.96|0.442
82473473|NCT05407064|164641539|SUPERIORITY|||||||0|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0000
82548386|NCT02549339|164797587|SUPERIORITY||Ratio of clearance rates|7.57||||0.001|TWO_SIDED|95.0|2.26|25.31|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|||25.31|2.26|0.001
82548387|NCT02549339|164797588|SUPERIORITY||Ratio of clearance rates|5.9|||<|0.001|TWO_SIDED|95.0|3.3|10.54|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.54|3.30|<0.001
82548388|NCT02549339|164797589|SUPERIORITY||Ratio of clearance rates|5.75|||<|0.001|TWO_SIDED|95.0|3.24|10.2|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.20|3.24|<0.001
82548389|NCT02549339|164797590|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.35||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.018% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.35|0.25|<0.001
82548390|NCT02384317|164797602|SUPERIORITY||Slope|-2.4|STANDARD_DEVIATION|141.77||0.965|TWO_SIDED|95.0|-133.6|128.7|||Random coefficients regression|||||128.7|-133.6|0.965
82548391|NCT03526861|164797612|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|13.8||||0.002|TWO_SIDED|95.0|5.3|22.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with IGA score of 0 (clear) or 1 (almost clear) at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||22.3|5.3|0.002
82548392|NCT03526861|164797612|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|17.5|||<|0.001|TWO_SIDED|95.0|8.4|26.6||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with IGA score of 0 (clear) or 1 (almost clear) at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||26.6|8.4|<0.001
82548393|NCT03526861|164797613|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|22.0|||<|0.001|TWO_SIDED|95.0|12.0|32.0||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects who achieved at least 75% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.0|12.0|<0.001
82473474|NCT05407064|164641539|SUPERIORITY|||||||0.0004|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0004
82473475|NCT05407064|164641540|SUPERIORITY|||||||0.0873|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0873
82473476|NCT05407064|164641540|SUPERIORITY|||||||0.1702|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1702
82473477|NCT05407064|164641540|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0007
82473478|NCT05407064|164641540|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0001
82473479|NCT05407064|164641541|SUPERIORITY|||||||0.4193|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.4193
82473480|NCT05407064|164641541|SUPERIORITY|||||||0.1663|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1663
82579906|NCT00403767|164870706|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.034|TWO_SIDED|95.0|0.74|0.99||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.99|0.74|0.034
82579907|NCT00403767|164870707|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.01|TWO_SIDED|95.0|0.74|0.96||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.96|0.74|0.010
82473481|NCT05407064|164641541|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0002
82473482|NCT05407064|164641541|SUPERIORITY|||||||0.0306|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0306
82473483|NCT05407064|164641542|SUPERIORITY|||||||0.0534|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.0534
82473484|NCT05407064|164641542|SUPERIORITY|||||||0.6551|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.6551
82473485|NCT05407064|164641542|SUPERIORITY|||||||0.0079|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.0079
82473486|NCT05407064|164641542|SUPERIORITY|||||||0.1133|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test||||0.1133
82473487|NCT05407064|164641543|SUPERIORITY|||||||0.1248|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1248
82473488|NCT05407064|164641543|SUPERIORITY|||||||0.1788|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.1788
82473489|NCT05407064|164641543|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0030
82473490|NCT05407064|164641543|SUPERIORITY|||||||0.0534|||||||t-test, 2 sided|||Difference in mean PGI-C total scores (MM120-placebo); p-value determined from two-sample t-test.||||0.0534
82473491|NCT05767749|164641611|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.93|TWO_SIDED|95.0|-12.8|14.0|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Ropivacaine) minus (Lidocaine + epinephrine vs Bupivacaine)|||14.0|-12.8|0.93
82473492|NCT05767749|164641611|SUPERIORITY||Mean Difference (Final Values)|3.73||||0.54|TWO_SIDED|95.0|-8.3|15.8|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Ropivacaine) minus (Ropivacaine vs Bupivacaine)|||15.8|-8.3|0.54
82473493|NCT05767749|164641611|SUPERIORITY||Mean Difference (Final Values)|3.12||||0.6|TWO_SIDED|95.0|-8.7|15.0|||t-test, 2 sided||Direction = (Lidocaine + epinephrine vs Bupivacaine) minus (Ropivacaine vs Bupivacaine)|||15.0|-8.7|0.60
82473494|NCT00479687|164641688|SUPERIORITY|||||||0.038||||||There was a single primary variable and the a-prior threshold for statistical significance was 0.05.|Mixed Models Analysis|mixed effects repeated measure model with baseline VAS, treatment, and week as fixed effects and subject nested within site as a random effect.||||||0.0380
82473495|NCT01474239|164641697|SUPERIORITY_OR_OTHER|||||||0.4291|TWO_SIDED|||||Statistical significance was assessed with a one-sided alpha error of 10 percent (%).|Exact Binomial Test|||The 6-month OS rate (OS-6) for bevacizumab was compared to the expected proportion of 0.60 under null hypothesis (ineffective treatment) with the application of the exact binomial test. The one-tailed statistical hypotheses was p0 less than or equal to (≤) 0.60 (null hypothesis) versus pA greater than or equal to (≥) 0.77 (alternative hypothesis), where p is the estimated probability of survival at 6 months.||||0.4291
82473496|NCT02260180|164641718|SUPERIORITY|2-tail alpha was set to 0.05 with no adjustment for multiple comparisons.|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82579908|NCT00403767|164870708|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.092|TWO_SIDED|95.0|0.7|1.03||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.03|0.70|0.092
82473497|NCT02260180|164641718|SUPERIORITY||||||<|0.0001|||||||Chi-squared|2-tail alpha was set to 0.05 with no adjustment for multiple comparisons.||||||<0.0001
82473498|NCT02260180|164641719|SUPERIORITY||||||<|0.0001||||||No adjustment for multiple comparisons were made.|ANCOVA|Baseline PLA was the covariate. Comparisons were performed within the model using least-squares means and the common error term.||||||<0.0001
82473499|NCT02260180|164641719|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons were conducted.|ANCOVA|Baseline PLA was the covariate. Comparisons were performed within the model using least-squares means and the common error term.||The primary efficacy analysis of mean change from baseline to Visit 8 PLA was performed using analysis of covariance (ANCOVA) with baseline PLA as the covariate. Comparisons between vehicle and each A-101 group were performed within the model using least-squares means and the common error term.||||<0.0001
82473500|NCT00689260|164641726|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||Wilcoxon (Mann-Whitney)|||P-Value based on two-sided Wilcoxon rank-sum test for difference in medians between log aware and log unaware||||0.908
82473501|NCT00839319|164641749|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|Correlations between serum hormone levels and IT hormones, and between IT hormones were performed on 23 subjects in 4 groups using Spearmen technique.||||||<0.05
82473502|NCT04881942|164641773|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|89.44||||0.0184|TWO_SIDED|95.0|15.77|163.11|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham)|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||163.11|15.77|0.0184
82473503|NCT04881942|164641773|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|195.7|||<|0.0001|TWO_SIDED|95.0|122.01|269.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||269.38|122.01|<.0001
82473504|NCT04881942|164641773|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|168.83|||<|0.0001|TWO_SIDED|95.0|95.17|242.5|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||242.50|95.17|<.0001
82473505|NCT04881942|164641773|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|182.65|||<|0.0001|TWO_SIDED|95.0|108.63|256.67|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||256.67|108.63|<.0001
82473506|NCT04881942|164641776|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|5972.3|||<|0.0001|TWO_SIDED|95.0|4191.1|7753.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7753.6|4191.1|<.0001
82473507|NCT04881942|164641776|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|6099.5|||<|0.0001|TWO_SIDED|95.0|4317.8|7881.2|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7881.2|4317.8|<.0001
82473508|NCT04881942|164641776|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|6484.7|||<|0.0001|TWO_SIDED|95.0|4701.7|8267.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||8267.6|4701.7|<.0001
82473509|NCT04881942|164641776|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|5366.8|||<|0.0001|TWO_SIDED|95.0|3575.9|7157.7|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||7157.7|3575.9|<.0001
82473510|NCT04881942|164641779|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.17||||0.915|TWO_SIDED|95.0|-2.92|3.25|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3.25|-2.92|0.9150
82473511|NCT04881942|164641779|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.35||||0.8217|TWO_SIDED|95.0|-2.7|3.4|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3.40|-2.70|0.8217
82579909|NCT00403767|164870709|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.23||||0.003|TWO_SIDED|95.0|0.09|0.61||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||0.61|0.09|0.003
82548394|NCT03526861|164797613|SUPERIORITY|Primary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|12.4|32.6||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects who achieved at least 75% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.6|12.4|<0.001
82548395|NCT03526861|164797614|SUPERIORITY|Secondary endpoint tested sequentially at a 2.5% significance level|Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|12.3|31.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with at least 4-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||31.1|12.3|<0.001
82548396|NCT03526861|164797614|SUPERIORITY|Secondary endpoint tested sequentially at a 5% significance level|Risk Difference (RD)|19.9|||<|0.001|TWO_SIDED|95.0|10.6|29.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Subjects with at least 4-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||29.2|10.6|<0.001
82548397|NCT03526861|164797615|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 2.5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-19.7|||<|0.001|TWO_SIDED|95.0|-27.1|-12.2||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-12.2|-27.1|<0.001
82548398|NCT03526861|164797615|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-18.0|||<|0.001|TWO_SIDED|95.0|-25.6|-10.4||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-10.4|-25.6|<0.001
82473512|NCT04881942|164641779|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|21.11|||<|0.0001|TWO_SIDED|95.0|18.06|24.16|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||24.16|18.06|<.0001
82473513|NCT04881942|164641779|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|31.01|||<|0.0001|TWO_SIDED|95.0|27.91|34.12|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||34.12|27.91|<.0001
82473514|NCT04881942|164641782|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|1678.4||||0.0031|TWO_SIDED|95.0|592.14|2764.6|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||2764.6|592.14|.0031
82376887|NCT03104400|164460614|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|43.1|||<|0.0001|TWO_SIDED|95.0|36.7|49.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.6|36.7|<0.0001
82473515|NCT04881942|164641782|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|1199.7||||0.031|TWO_SIDED|95.0|113.74|2285.7|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||2285.7|113.74|.0310
82473516|NCT04881942|164641782|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|3354.5|||<|0.0001|TWO_SIDED|95.0|2266.6|4442.3|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||4442.3|2266.6|<.0001
82473517|NCT04881942|164641782|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|2511.0|||<|0.0001|TWO_SIDED|95.0|1416.1|3605.9|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||3605.9|1416.1|<.0001
82473518|NCT04881942|164641785|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.25||||0.0002|TWO_SIDED|95.0|0.12|0.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0.|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.38|0.12|.0002
82473519|NCT04881942|164641785|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.25||||0.0003|TWO_SIDED|95.0|0.12|0.38|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.38|0.12|0.0003
82473520|NCT04881942|164641785|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.34|||<|0.0001|TWO_SIDED|95.0|0.21|0.47|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.47|0.21|<.0001
82473521|NCT04881942|164641785|EQUIVALENCE|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."|Mean Difference (Net)|0.3|||<|0.0001|TWO_SIDED|95.0|0.17|0.43|||ANCOVA||Mean value is sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham).|"Null Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is equal to 0.~Alternate Hypothesis: Mean sham-corrected (amount of analyte in test-product exhale minus analyte concentration in exhaled sham) analyte amount is not equal to 0."||0.43|0.17|<.0001
82473522|NCT04881942|164641792|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Final Values)|0.035|||<|0.0001|TWO_SIDED|95.0|0.031|0.039|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.039|0.031|<.0001
82473523|NCT04881942|164641792|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.034|||<|0.0001|TWO_SIDED|95.0|0.03|0.038|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.038|0.030|<.0001
82579910|NCT00403767|164870710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.121|TWO_SIDED|95.0|0.63|1.06||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.06|0.63|0.121
82473524|NCT04881942|164641792|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.04|||<|0.0001|TWO_SIDED|95.0|0.036|0.044|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.044|0.036|<.0001
82579911|NCT00403767|164870711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.289|TWO_SIDED|95.0|0.73|1.1||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as a covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.10|0.73|0.289
82473525|NCT04881942|164641792|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.037|||<|0.0001|TWO_SIDED|95.0|0.033|0.041|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.041|0.033|<.0001
82473526|NCT04881942|164641793|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.036|||<|0.0001|TWO_SIDED|95.0|0.031|0.04|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.040|0.031|<.0001
82473527|NCT04881942|164641793|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.036|||<|0.0001|TWO_SIDED|95.0|0.032|0.041|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.041|0.032|<.0001
82473528|NCT04881942|164641793|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.041|||<|0.0001|TWO_SIDED|95.0|0.037|0.046|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.046|0.037|<.0001
82473529|NCT04881942|164641793|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.038|||<|0.0001|TWO_SIDED|95.0|0.033|0.042|||ANOVA|||Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.042|0.033|<.0001
82473530|NCT04881942|164641794|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.536|||<|0.0001|TWO_SIDED|95.0|0.407|0.665|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.665|0.407|<.0001
82473531|NCT04881942|164641794|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.408|||<|0.0001|TWO_SIDED|95.0|0.28|0.537|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.537|0.280|<.0001
82473532|NCT04881942|164641794|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.468|||<|0.0001|TWO_SIDED|95.0|0.339|0.596|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.596|0.339|<.0001
82473533|NCT04881942|164641794|EQUIVALENCE|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.|Mean Difference (Net)|0.43|||<|0.0001|TWO_SIDED|95.0|0.301|0.559|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean cartridge weight change is equal to 0. Alternate Hypothesis: Mean cartridge weight change is not equal to 0.||0.559|0.301|<.0001
82473534|NCT04881942|164641796|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|277.79|||<|0.0001|TWO_SIDED|95.0|213.62|341.96|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||341.96|213.62|<.0001
82473535|NCT04881942|164641796|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|241.32|||<|0.0001|TWO_SIDED|95.0|176.99|305.64|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||305.64|176.99|<.0001
82473536|NCT04881942|164641796|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|248.22|||<|0.0001|TWO_SIDED|95.0|184.01|312.43|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||312.43|184.01|<.0001
82548399|NCT03526861|164797616|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 2.5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-2.6||||0.007|TWO_SIDED|95.0|-4.5|-0.7||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.7|-4.5|0.007
82579912|NCT00403767|164870712|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.073|TWO_SIDED|95.0|0.7|1.02||The p-value is not adjusted for multiple comparisons. The alpha threshold for statistical significance is 0.05 (2-sided).|Cox Proportional Hazards model|(non-stratified) Cox Proportional Hazards model with treatment as covariate||Alternative hypothesis of superiority based on on-treatment data from the safety population.||1.02|0.70|0.073
82473537|NCT04881942|164641796|EQUIVALENCE|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0|Mean Difference (Final Values)|257.92|||<|0.0001|TWO_SIDED|95.0|193.58|322.26|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Puff Count is equal to 0 Alternative Hypothesis: Mean Puff Count is not equal to 0||322.26|193.58|<.0001
82473538|NCT04881942|164641797|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.223|||<|0.0001|TWO_SIDED|95.0|1.915|2.58|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.580|1.915|<.0001
82473539|NCT04881942|164641797|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.203|||<|0.0001|TWO_SIDED|95.0|1.897|2.557|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.557|1.897|<.0001
82548400|NCT03526861|164797616|SUPERIORITY|This secondary endpoint was tested sequentially using the Holm-Bonferroni method for multiplicity adjustment at a 5% significance level after the sequential testing of the primary endpoints and first secondary endpoint, if these showed statistical significance.|Difference of least square means|-2.0||||0.04|TWO_SIDED|95.0|-3.9|-0.1||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.1|-3.9|0.040
82548401|NCT03526861|164797619|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|38.5|||<|0.001|TWO_SIDED|95.0|26.8|50.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||50.2|26.8|<0.001
82548402|NCT03526861|164797619|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|32.4|||<|0.001|TWO_SIDED|95.0|20.6|44.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||44.1|20.6|<0.001
82548403|NCT03526861|164797620|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|13.7||||0.002|TWO_SIDED|95.0|5.2|22.2||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 90% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||22.2|5.2|0.002
82548404|NCT03526861|164797620|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|15.3|||<|0.001|TWO_SIDED|95.0|6.5|24.1||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 90% reduction in EASI at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||24.1|6.5|<0.001
82548405|NCT03526861|164797621|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-9.4|||<|0.001|TWO_SIDED|95.0|-13.5|-5.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-5.3|-13.5|<0.001
82579913|NCT03192475|164870713|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82579914|NCT03192475|164870714|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
82579915|NCT03192475|164870715|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82579916|NCT03192475|164870716|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82579917|NCT03192475|164870717|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82579918|NCT03192475|164870718|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|||||||0.53
82579919|NCT03192475|164870719|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
82579920|NCT03192475|164870720|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||||||0.60
82579921|NCT03192475|164870721|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|||||||0.15
82579922|NCT03192475|164870722|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
82579923|NCT03192475|164870723|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
82579924|NCT03192475|164870724|SUPERIORITY|||||||0.0009|||||||Mantel Haenszel|||||||0.0009
82579925|NCT03192475|164870725|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|||||||0.18
82473540|NCT04881942|164641797|EQUIVALENCE|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0|Mean Difference (Final Values)|2.101|||<|0.0001|TWO_SIDED|95.0|1.81|2.439|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.439|1.810|<.0001
82473541|NCT04881942|164641797|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|2.052|||<|0.0001|TWO_SIDED|95.0|1.767|2.382|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Average Puff Duration is equal to 0 Alternative Hypothesis: Mean Average Puff Duration is not equal to 0||2.382|1.767|<.0001
82473542|NCT04881942|164641798|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|709.86|||<|0.0001|TWO_SIDED|95.0|549.19|870.54|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||870.54|549.19|<.0001
82473543|NCT04881942|164641798|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|568.35|||<|0.0001|TWO_SIDED|95.0|407.18|729.51|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||729.51|407.18|<.0001
82473544|NCT04881942|164641798|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|562.0|||<|0.0001|TWO_SIDED|95.0|401.34|722.67|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||722.67|401.34|<.0001
82473545|NCT04881942|164641798|EQUIVALENCE|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0|Mean Difference (Final Values)|517.23|||<|0.0001|TWO_SIDED|95.0|356.11|678.34|||ANCOVA||LSM calculated from mixed models. Each model includes fixed effect terms for product, period and sequence.|Null Hypothesis: Mean Total Puff Duration is equal to 0 Alternative Hypothesis: Mean Total Puff Duration is not equal to 0||678.34|356.11|<.0001
82473546|NCT00838513|164641852|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|80.0|||||TWO_SIDED|95.0|56.0|94.0||||||"With a total of 20 patients enrolled between both protocols and, assuming that the true expected probability of TMA Event-Free for eculizumab-treated patients is 40%, then the study had 93.5% power to detect a statistically significant difference. Up to approximately 30 patients were to be enrolled.~All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS."||94|56|
82473547|NCT00838513|164641853|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
82473548|NCT00838513|164641854|SUPERIORITY_OR_OTHER||Percent of complete TMA response|25.0|||||TWO_SIDED|95.0|9.0|49.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||49|9|
82473549|NCT00838513|164641855|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
82473550|NCT00838513|164641856|SUPERIORITY_OR_OTHER||LS mean change from baseline|6.75||||0.5423|TWO_SIDED|95.0|-15.73|29.23|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||29.23|-15.73|0.5423
82473551|NCT00838513|164641857|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
82473552|NCT00838513|164641858|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|95.0|||||TWO_SIDED|95.0|75.0|100.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||100|75|
82473553|NCT00838513|164641859|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
82473554|NCT00838513|164641860|SUPERIORITY_OR_OTHER||Percent of complete TMA response|55.0|||||TWO_SIDED|95.0|32.0|77.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||77|32|
82473555|NCT00838513|164641861|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
82473556|NCT00838513|164641862|SUPERIORITY_OR_OTHER||LS mean change from baseline|-3.68||||0.7307|TWO_SIDED|95.0|-25.15|17.79|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||17.79|-25.15|0.7307
82473557|NCT00838513|164641863|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
82473558|NCT00670306|164641923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.6|STANDARD_DEVIATION|7.1|<|0.001|||||||t-test, 2 sided|||||||<0.001
82579926|NCT03192475|164870726|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||||||0.34
82473559|NCT01009619|164641930|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared, Corrected|||The frequency or rate of specific events (i.e. acute rejection, cytomegalovirus (CMV) and non-CMV infections) was calculated by determining the number of events per year of study time for each subject, correcting for CMV-mismatch status.||||<0.05
82473560|NCT01009619|164641931|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared, Corrected|||The frequency or rate of specific events (i.e. acute rejection, cytomegalovirus (CMV) and non-CMV infections) was calculated by determining the number of events per year of study time for each subject, correcting for CMV-mismatch status.||||<0.05
82473561|NCT02817464|164641971|OTHER||Geometric Mean Ratio|1.84|||||TWO_SIDED|90.0|1.44|2.36||||||||2.36|1.44|
82473562|NCT02817464|164641972|OTHER||Geometric Mean Ratio|0.66|||||TWO_SIDED|90.0|0.33|1.33||||||||1.33|0.33|
82473563|NCT02817464|164641974|OTHER||Geometric Mean Ratio|1.67|||||TWO_SIDED|90.0|1.33|2.09||||||||2.09|1.33|
82473564|NCT02817464|164641975|OTHER||Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.3|2.01||||||||2.01|1.30|
82473565|NCT02817464|164641976|OTHER||Geometric Mean Ratio|1.21|||||TWO_SIDED|90.0|1.04|1.4||||||||1.40|1.04|
82473566|NCT02817464|164641977|OTHER||Geometric Mean Ratio|0.51|||||TWO_SIDED|90.0|0.23|1.13||||||||1.13|0.23|
82473567|NCT02817464|164641979|OTHER|||||||0.0073|||||||Log Rank|||||||0.0073
82473568|NCT04292899|164642014|SUPERIORITY||Odds Ratio (OR)|0.75||||0.1563|TWO_SIDED|95.0|0.507|1.115||P-value was calculated using a proportional odds model with treatment as the independent variable and baseline clinical status as a continuous covariate.|Proportional odds model|||||1.115|0.507|0.1563
82473569|NCT04292899|164642014|SUPERIORITY||Odds Ratio (OR)|0.67||||0.0368|TWO_SIDED|95.0|0.458|0.976||P-value was calculated using a proportional odds model with treatment as the independent variable.|Proportional odds model|||||0.976|0.458|0.0368
82473570|NCT04292899|164642015|SUPERIORITY||Difference in Percentages|1.3||||0.7678|TWO_SIDED|95.0|-7.4|10.0||P-value for comparison of the percentages between the two groups was calculated using the Cochran-Mantel-Haenszel test stratified on baseline clinical status.|Cochran-Mantel-Haenszel|||||10.0|-7.4|0.7678
82473571|NCT02840461|164642081|EQUIVALENCE|Therapeutic equivalence of the Test product to the Reference product based on the primary endpoint was evaluated in the PP population. If the confidence interval is within 80-125% for the primary endpoint, then the Test and Reference treatments are considered therapeutically equivalent.|Mean Difference (Net)|103.51|||||TWO_SIDED|90.0|97.95|110.0||||||||110.00|97.95|
82473572|NCT02840461|164642081|SUPERIORITY||Mean Difference (Net)|-9.83||||0.0027|TWO_SIDED|95.0|-16.24|-3.42|||ANOVA|||||-3.42|-16.24|0.0027
82473573|NCT02840461|164642081|SUPERIORITY||Mean Difference (Net)|-9.83||||0.0028|TWO_SIDED|95.0|-16.25|-3.4|||ANOVA|||||-3.40|-16.25|0.0028
82473574|NCT02840461|164642082|EQUIVALENCE|If the 90% confidence interval (with Yates correction) for the difference between the proportion of patients in the Test and Reference groups considered to be a clinical success was contained within the pre-defined equivalence limits \[-20%, +20%\], the therapeutic equivalence of the Test to Reference product was considered supported.|Mean Difference (Net)|5.8|||||TWO_SIDED|90.0|-2.7|14.2||||||||14.2|-2.7|
82473575|NCT03801044|164642100|OTHER|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82473576|NCT02003924|164642118|SUPERIORITY||Hazard Ratio (HR)|0.292|||<|0.0001|TWO_SIDED|95.0|0.241|0.352||P-value was based on stratified log-rank test by prostate-specific antigen (PSA) doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no). Threshold for significance at 0.05 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||0.352|0.241|<0.0001
82473577|NCT02003924|164642119|SUPERIORITY||Hazard Ratio (HR)|0.066|||<|0.0001|TWO_SIDED|95.0|0.054|0.081||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS. Threshold for significance at 0.02 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain the family-wise 2-sided type I error rate at 0.05, a parallel testing strategy between OS (with allocated type I error rate 0.03) and remaining key secondary endpoints (time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02) was performed. Testing was performed only if the primary endpoint was statistically significant.||0.081|0.054|<0.0001
82473578|NCT02003924|164642120|SUPERIORITY||Hazard Ratio (HR)|0.208|||<|0.0001|TWO_SIDED|95.0|0.168|0.258||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS. Threshold for significance at 0.02 level.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain the family-wise 2-sided type I error rate at 0.05, a parallel testing strategy between OS (with allocated type I error rate 0.03) and remaining key secondary endpoints (time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02) was performed. Testing was performed only if the previous endpoint was statistically significant.||0.258|0.168|<0.0001
82473579|NCT02003924|164642121|SUPERIORITY||Hazard Ratio (HR)|0.734||||0.0011|TWO_SIDED|95.0|0.608|0.885||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per interactive voice/web recognition system (IXRS).|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|To maintain family-wise 2-sided type I error rate at 0.05,parallel testing strategy between OS(with allocated type I error rate 0.03)and remaining key secondary endpoints(time to PSA progression and time to first use of new antineoplastic therapy with allocated type I error rate 0.02)was performed.OS tested at error rate 0.05 when both time to PSA progression and time to first use of new antineoplastic therapy were significant. When either failed to show significance.OS was tested at error 0.03.||0.885|0.608|0.0011
82473580|NCT02003924|164642122|SUPERIORITY||Hazard Ratio (HR)|0.959||||0.6534|TWO_SIDED|95.0|0.801|1.149||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||1.149|0.801|0.6534
82579927|NCT03192475|164870727|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||0.82
82473581|NCT02003924|164642123|SUPERIORITY||Hazard Ratio (HR)|0.378|||<|0.0001|TWO_SIDED|95.0|0.282|0.507||P-value was based on a stratified log-rank test by PSA doubling time (\< 6 months, \>= 6 months) and prior or concurrent use of a bone targeting agent (yes, no) as per IXRS.|Log Rank||HR was based on a Cox regression model (with treatment as the only covariate) stratified by factors defined above, and was relative to placebo with \< 1 favoring Enzalutamide.|||0.507|0.282|<0.0001
82473582|NCT02003924|164642126|SUPERIORITY||Difference in Response Rate|73.96|||<|0.0001|TWO_SIDED|95.0|70.91|77.02||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS.|Cochran-Mantel-Haenszel|||Decrease from Baseline \>= 50%||77.02|70.91|<0.0001
82473583|NCT02003924|164642126|SUPERIORITY||Difference in Response Rate|55.52|||<|0.0001|TWO_SIDED|95.0|52.28|58.76||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS|Cochran-Mantel-Haenszel|||Decrease from Baseline \>= 90%||58.76|52.28|<0.0001
82473584|NCT02003924|164642126|SUPERIORITY||Difference in Response Rate|9.65|||<|0.0001|TWO_SIDED|95.0|7.75|11.54||P-value was based on a Cochran-Mantel-Haenszel mean score test stratified by PSA doubling time (\<6 months, \>= 6 months) and prior concurrent use of a bone targeting agent (yes, no) as per IXRS.|Cochran-Mantel-Haenszel|||Decrease to Undetectable Level||11.54|7.75|<0.0001
82473585|NCT00124306|164642171|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.5|-0.5||||||IC Symptom Index - change from baseline to 12 weeks||-0.5|-2.5|
82473586|NCT00124306|164642171|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-2.3|-0.2||||||IC Problem Index - change from baseline to 12 weeks||-0.2|-2.3|
82473587|NCT00124306|164642171|SUPERIORITY||Mean Difference (Net)|-3.8|||||TWO_SIDED|95.0|-6.3|-1.3||||||Wisconsin Symptom Survey - change from baseline to 12 weeks||-1.3|-6.3|
82473588|NCT02685267|164642184|OTHER|The study was terminated after only 9 patients enrolled, 5 to the standard of care docetaxel/prednisone arm and 4 to experimental docetaxel/prednisone/enzalutamide arm.|log-rank test|0.6761||||0.6761|TWO_SIDED|95.0|||||Chi-squared|||The study was terminated after only 9 patients enrolled, 5 to the standard of care docetaxel/prednisone arm and 4 to experimental docetaxel/prednisone/enzalutamide arm.||||0.6761
82548406|NCT03526861|164797621|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-9.4|||<|0.001|TWO_SIDED|95.0|-13.6|-5.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-5.3|-13.6|<0.001
82579928|NCT00573859|164870766|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||ANOVA|||A 2 (ADHD medication versus Placebo) repeated measure ANOVA||||<0.05
82473589|NCT00943072|164642211|SUPERIORITY_OR_OTHER||Risk Difference (RD)|44.8|||<|0.0001|TWO_SIDED|95.0|33.0|56.6||P-value for the primary endpoint was calculated using 2-sided Cochran-Mantel-Haenszel test adjusted by regions (North America vs. Rest of World) and baseline BCVA (BCVA \> 20/200 and BCVA ≤ 20/200)|Cochran-Mantel-Haenszel|CMH adjusted difference|The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||56.6|33.0|< 0.0001
82473590|NCT00943072|164642212|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.7|||<|0.0001|TWO_SIDED|95.0|17.36|26.04|||ANCOVA||RD is the IAI group minus sham group. 95% confidence interval is for the RD.|||26.04|17.36|< 0.0001
82473591|NCT00943072|164642212|SUPERIORITY_OR_OTHER||Least Square Mean|16.36|||||||||||ANCOVA||LS Mean indicates is the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
82473592|NCT00943072|164642213|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-311.9|||<|0.0001|TWO_SIDED|95.0|-389.4|-234.4|||ANCOVA||The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||-234.4|-389.4|< 0.0001
82579929|NCT00573859|164870767|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||Four-way repeated measure ANOVA||||<0.05
82473593|NCT00943072|164642213|SUPERIORITY_OR_OTHER||Least Square Mean|-487.1|||||||||||ANCOVA||The Least Square Mean indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
82473594|NCT00943072|164642214|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.6||||0.0059|TWO_SIDED|95.0|-12.2|-1.1|||Cochran-Mantel-Haenszel|CMH adjusted difference|The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||-1.1|-12.2|0.0059
82473595|NCT00943072|164642215|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.26||||0.0009|TWO_SIDED|95.0|2.61|9.91|||ANCOVA||The Risk Difference (RD) indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group. 95% confidence interval is for the RD.|||9.91|2.61|0.0009
82548407|NCT03526861|164797622|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|11.5||||0.002|TWO_SIDED|95.0|4.5|18.4||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 75% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||18.4|4.5|0.002
82579930|NCT00573859|164870768|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||Friedman's two analysis of ranks|||Friedman's two-way analysis of variance by ranks.||||<0.05
82579931|NCT05319912|164870769|OTHER||Geometric Mean Ratio (%)|75.81|||||TWO_SIDED|90.0|52.23|110.02||||||Analysis was performed using analysis of variance (ANOVA).||110.02|52.23|
82579932|NCT05319912|164870769|OTHER||Geometric Mean Ratio (%)|25.2|||||TWO_SIDED|90.0|17.21|36.89||||||Analysis was performed using ANOVA.||36.89|17.21|
82579933|NCT05319912|164870770|OTHER||Geometric Mean Ratio (%)|82.65|||||TWO_SIDED|90.0|63.91|106.9||||||Analysis was performed using ANOVA.||106.90|63.91|
82579934|NCT05319912|164870770|OTHER||Geometric Mean Ratio (%)|40.49|||||TWO_SIDED|90.0|31.12|52.68||||||Analysis was performed using ANOVA.||52.68|31.12|
82473596|NCT00943072|164642215|SUPERIORITY_OR_OTHER||Least Square Mean|8.8|||||||||||ANCOVA||Least Square Mean indicates the difference between the IAI (EYLEA, VEGF Trap-Eye) Treatment group minus the Sham Treatment group.|||||
82473597|NCT00662675|164642217|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|The p-value is from ANCOVA model with treatment as a factor and baseline percent COA-fat as a covariate.||The power calculation was based on the assumption that the true mean difference between the active and the placebo group was 31.2% with a common standard deviation of 22.6% using a 2-sided, 2-sample, t-test with a 5% significance level.||||<0.001
82473598|NCT00662675|164642218|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value is from ANCOVA model with treatment as a factor and baseline percent COA-protein(nitrogen) as a covariate.|ANCOVA|||||||<0.001
82473599|NCT03860818|164642228|SUPERIORITY||||||<|0.001|||||||Chi-squared|||Rate of inpatient hospitalization during study||||<.001
82473600|NCT03860818|164642228|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
82473601|NCT03860818|164642229|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Statistical analysis applies to all rows.||||||<0.001
82473602|NCT03860818|164642230|SUPERIORITY|||||||0.9064|||||||Chi-squared|||||||0.9064
82473603|NCT03860818|164642231|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82473604|NCT00505778|164642265|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|1.3||||0.5016|TWO_SIDED|95.0|-2.3|4.9|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||4.9|-2.3|0.5016
82473605|NCT00505778|164642266|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|0.8||||0.5426|TWO_SIDED|95.0|-1.8|3.5|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||3.5|-1.8|0.5426
82473606|NCT00505778|164642267|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|BID-QD Difference in Remission Rates|0.0||||0.977|TWO_SIDED|95.0|-4.6|4.7|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||4.7|-4.6|0.9770
82473607|NCT00505778|164642268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.4726|TWO_SIDED|95.0|0.762|1.796|||Log Rank|Stratified by prior Asacol dose Category||||1.796|0.762|0.4726
82473608|NCT00505778|164642269|SUPERIORITY_OR_OTHER||Difference BID-QD in Least Square Mean|-0.45||||0.1753|TWO_SIDED|95.0|-1.09|0.2|||ANOVA|ANOVA with prior Asacol dose category as factor.||||0.20|-1.09|0.1753
82473609|NCT00505778|164642270|NON_INFERIORITY_OR_EQUIVALENCE|To establish non-inferiority for primary efficacy variable at 2-sided upper confidence bound of 95% with 90% power, 442 patients per treatment group were required to be analyzable for primary efficacy analysis. Assuming 10% enrolled would not be analyzable, 1000 patients would be enrolled. If the 95% confidence interval's upper bound interval for the difference between the Asacol BID and Asacol QD group is \<10%, then non-inferiority of Asacol QD is claimed.|Difference BID-QD Remission Rates|3.6||||0.1557|TWO_SIDED|95.0|-1.3|8.5|||Cochran-Mantel-Haenszel|Stratified by prior Asacol dose Category||Assumed true remission rate is 70% with no difference in remission rates between QD and BID dosing.The non-inferiority margin used in hypothesis testing was set to 10%.||8.5|-1.3|0.1557
82473610|NCT04857320|164642272|SUPERIORITY|||||||1.6e-05|||||||ANOVA|Degrees of Freedom = 5||Glucose was monitored by means of a wearable Continuous Glucose Monitor for several days prior to, during and post dosing. Measurements were gathered for each subject and averaged within-subject data. Our null hypothesis was that post prandial serum glucose would not vary significantly from their baseline values.||||0.000016
82473611|NCT04857320|164642273|SUPERIORITY|||||||0|||||||t-test, 1 sided|Degrees of Freedom = 3||Subject received doses applied to the skin of 0.075, 0.10 and 0.15 IUs / Kilogram on successive days. The Subject's average Serum Glucose for these 3 days were compared against the Subject's baseline unmedicated Serum Glucose on non-dosed days.||||0
82473612|NCT04857320|164642273|SUPERIORITY|||||||3e-06|||||||t-test, 1 sided|||Subject received doses applied to the skin of 0.075, 0.10 and 0.15 IUs / Kilogram on successive days. The Subject's average Serum Glucose for these 3 days were compared against the Subject's baseline unmedicated Serum Glucose on non-dosed days.||||0.000003
82473613|NCT04857320|164642273|SUPERIORITY|||||||2e-06|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000002
82473614|NCT04857320|164642273|SUPERIORITY|||||||3.5e-05|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000035
82579935|NCT02310100|164870789|OTHER|This is a one-group comparison to a performance goal.|binomial proportion|0.673||||0.0008|ONE_SIDED|95.0|0.608||||Exact binomial|||H0: PE ≤ 54.9% Ha: PE \> 54.9% Where PE is the primary effectiveness endpoint rate.|||0.608|0.0008
82473615|NCT04857320|164642273|SUPERIORITY|||||||4e-06|||||||t-test, 1 sided|Degrees of Freedom = 3||||||0.000004
82473616|NCT04857320|164642274|SUPERIORITY|||||||0|||||||ANOVA|||||||0
82473617|NCT02914301|164642287|OTHER|We compared outcomes between study arms using t-tests for continuous outcomes.|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82579936|NCT02310100|164870790|OTHER|One group comparison to a performance goal.|binomial proportion|0.081||||0.0013|ONE_SIDED|95.0||0.124|||Exact binomial|||H0: PS ≥ 16.2% Ha: PS \< 16.2% where PS is the primary safety endpoint rate||0.124||0.0013
82548408|NCT03526861|164797622|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|7.8|23.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 75% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||23.3|7.8|<0.001
82548409|NCT03526861|164797623|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|26.2|||<|0.001|TWO_SIDED|95.0|16.1|36.3||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||36.3|16.1|<0.001
82548410|NCT03526861|164797623|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|25.5|||<|0.001|TWO_SIDED|95.0|15.3|35.7||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects who achieved at least 50% reduction in SCORAD at Week 16 were considered responders. Subjects with missing data or subjects who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||35.7|15.3|<0.001
82548411|NCT03526861|164797624|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-1.5|||<|0.001|TWO_SIDED|95.0|-2.4|-0.6||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.6|-2.4|<0.001
82548412|NCT03526861|164797624|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-1.2||||0.007|TWO_SIDED|95.0|-2.1|-0.3||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-0.3|-2.1|0.007
82548413|NCT03526861|164797625|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|20.3|||<|0.001|TWO_SIDED|95.0|9.7|31.0||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects with at least 3-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 300 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||31.0|9.7|<0.001
82548414|NCT03526861|164797625|SUPERIORITY|The statistical test was not controlled for multiplicity.|Risk Difference (RD)|21.8|||<|0.001|TWO_SIDED|95.0|10.9|32.7||Based on the primary analysis of the primary estimand 'composite'.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|Subjects with at least 3-point reduction in Adolescent Worst Pruritus NRS were considered responders. Subjects with missing data or who received rescue medication from Week 2 to Week 16 were considered non-responders. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rate between tralokinumab 150 mg Q2W and placebo was tested against the 2-sided alternative that there is a difference.||32.7|10.9|<0.001
82548415|NCT03526861|164797626|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-6.0|||<|0.001|TWO_SIDED|95.0|-8.4|-3.6||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-3.6|-8.4|<0.001
82548416|NCT03526861|164797626|SUPERIORITY|The statistical test was not controlled for multiplicity.|Difference of least square means|-5.4|||<|0.001|TWO_SIDED|95.0|-7.9|-3.0||Based on the primary analysis of the primary estimand 'hypothetical'.|Repeated measurements model|||Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0. Data collected after permanent discontinuation of IMP or after use of rescue treatment from Week 2 to Week 16 were not included in the analysis.||-3.0|-7.9|<0.001
82548417|NCT04391894|164797674|SUPERIORITY||Least Squares Mean (LS Mean)|-1.1|STANDARD_ERROR_OF_MEAN|2.01||0.585|TWO_SIDED|95.0|-5.0|2.8|||Mixed Models Analysis|||||2.8|-5.0|0.585
82548418|NCT04391894|164797674|SUPERIORITY||Least Squares Mean (LS Mean)|-3.2|STANDARD_ERROR_OF_MEAN|2.0||0.107|TWO_SIDED|95.0|-7.01|0.7|||Mixed Models Analysis|||||0.7|-7.01|0.107
82548419|NCT04391894|164797674|SUPERIORITY||Least Squares Mean (LS Mean)|4.3|STANDARD_ERROR_OF_MEAN|2.02||0.033|TWO_SIDED|95.0|0.3|8.3|||Mixed Models Analysis|||||8.3|0.3|0.033
82548420|NCT04391894|164797675|SUPERIORITY||Least Squares Mean (LS Mean)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.605|TWO_SIDED|95.0|-0.8|0.4|||Mixed Models Analysis|||||0.4|-0.8|0.605
82548421|NCT04391894|164797675|SUPERIORITY||Least Squares Mean (LS Mean)|-0.1|STANDARD_ERROR_OF_MEAN|0.31||0.646|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||||0.5|-0.7|0.646
82579937|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 4||3.3|-6.8|
82579938|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 6B||4.3|-4.6|
82579939|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 9V||3.3|-6.8|
82473618|NCT00373113|164642321|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.002|TWO_SIDED|95.0|1.156|1.869||2-sided log-rank test with the same set of stratification factors. The set of stratification factors included those used in the randomization except study sites.|Log Rank||Hazard ratio was calculated by the stratified Cox proportional hazards model.|Null hypothesis is that PFS (median=4.2 months) for sunitinib arm equals PFS for capecitabine arm. The study was designed to have 90% power to detect statistical difference in PFS between two treatment groups assuming the hazard ratio (sunitinib/capecitabine) is 0.75 and both arms follow exponential distribution.||1.869|1.156|0.002
82473619|NCT00373113|164642322|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.516|||<|0.001|TWO_SIDED|95.0|1.188|1.933||2-sided log-rank test with the same set of stratification factors that was used in the randomization except study sites.|Log Rank||Hazard ratio was calculated by the stratified Cox proportional hazards model.|||1.933|1.188|<0.001
82473620|NCT00373113|164642323|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|11.3|||||TWO_SIDED|95.0|7.6|16.1||||||||16.1|7.6|
82473621|NCT00373113|164642323|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|16.4|||||TWO_SIDED|95.0|12.0|21.6||||||||21.6|12.0|
82473622|NCT00373113|164642323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.049||||0.109|TWO_SIDED|95.0|-11.2|1.1|||Pearson Chi-Square Test|||||1.1|-11.2|0.109
82473623|NCT00373113|164642324|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.788||||0.037|TWO_SIDED|95.0|1.042|7.459|||Log Rank|||||7.459|1.042|0.037
82473624|NCT00373113|164642326|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.219|TWO_SIDED|95.0|0.896|1.611||2-sided log-rank test with the same set of stratification factors that were used in the randomization except study sites.|Log Rank|||||1.611|0.896|0.219
82473625|NCT04661579|164642357|OTHER||Vaccine Efficacy|35.9||||0.009|TWO_SIDED|95.0|10.3|54.2|||Wald test||Vaccine efficacy (VE) is defined as the percent reduction in the hazard, i.e. one minus the hazard ratio (HR, RTS,S/AS01E Vaccine vs. Rabies vaccine).|Vaccine efficacy against the first PCR-positive P. falciparum infection among adults who were P. falciparum positive at baseline was assessed using Cox proportional hazards regression model with a covariate for group assignment to compare Groups 1 and 4. HIV status, Age (tertiles), and sleep under a bednet were included as covariates.||54.2|10.3|0.009
82473626|NCT04661579|164642358|OTHER||Vaccine Efficacy|-24.0||||0.369|TWO_SIDED|95.0|-97.0|22.2|||Wald test||Vaccine efficacy (VE) is defined as the percent reduction in the hazard, i.e. one minus the hazard ratio (HR, RTS,S/AS01E Vaccine vs. Rabies vaccine).|Vaccine efficacy against the first PCR-positive P. falciparum infection among adults who were P. falciparum positive at baseline was assessed using Cox proportional hazards regression model with a covariate for group assignment to compare Groups 2 and 5. HIV status, Age (tertiles), and sleep under a bednet were included as covariates.||22.2|-97|0.369
82473627|NCT01396447|164642365|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.1292|TWO_SIDED|95.0|-4.3|0.5||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 0.75 mg vs Placebo|||0.5|-4.3|0.1292
82473628|NCT01396447|164642365|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.001|TWO_SIDED|95.0|-6.3|-1.6||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 1.5 mg vs Placebo|||-1.6|-6.3|0.0010
82473629|NCT01396447|164642365|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0374|TWO_SIDED|95.0|-4.9|-0.1||The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.|Repeated measures mixed-effects model||Cariprazine 3.0 mg vs Placebo|||-0.1|-4.9|0.0374
82473630|NCT01396447|164642366|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.3025|TWO_SIDED|95.0|-0.4|0.1|||Repeated measures mixed-effects model||Cariprazine 0.75 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||0.1|-0.4|0.3025
82473631|NCT01396447|164642366|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.0044|TWO_SIDED|95.0|-0.6|-0.2|||Repeated measures mixed-effects model||Cariprazine 1.5 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||-0.2|-0.6|0.0044
82473632|NCT01396447|164642366|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.0489|TWO_SIDED|95.0|-0.5|0.0|||Repeated measures mixed-effects model||Cariprazine 3.0 mg vs Placebo|The analysis included treatment group, pooled study center, visit, and treatment-group-by-visit interaction as fixed effects and the baseline value and baseline value-by-visit interaction as covariates.||-0.0|-0.5|0.0489
82473633|NCT02867384|164642421|SUPERIORITY|||||||0.0008|||||||Fisher Exact|||||||0.0008
82579940|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 14||4.3|-4.6|
82579941|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.3|||Chan and Zhang|||Common serotypes - serotype 18C||4.3|-4.6|
82473634|NCT01727024|164642446|SUPERIORITY_OR_OTHER|||||||0.451|||||||Generalized Estimating Equation (GEE)|||||||0.451
82548422|NCT04391894|164797675|SUPERIORITY||Least Squares Mean (LS Mean)|0.1|STANDARD_ERROR_OF_MEAN|0.31||0.847|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||||0.7|-0.5|0.847
82376888|NCT03104400|164460615|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|41.3|||<|0.0001|TWO_SIDED|95.0|32.8|49.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.8|32.8|<0.0001
82473635|NCT01485172|164642451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.864|TWO_SIDED|95.0|-3.41|4.05||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.05|-3.41|0.864
82473636|NCT01485172|164642451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.539|TWO_SIDED|95.0|-3.61|1.9||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.90|-3.61|0.539
82473637|NCT01485172|164642451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.091|TWO_SIDED|95.0|-5.21|0.39||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.39|-5.21|0.091
82473638|NCT01485172|164642451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16||||0.124|TWO_SIDED|95.0|-4.93|0.6||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.60|-4.93|0.124
82473639|NCT01485172|164642451|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.658|TWO_SIDED|95.0|-5.04|3.19||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||3.19|-5.04|0.658
82473640|NCT01485172|164642451|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.439
82473641|NCT01485172|164642451|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.177
82473642|NCT01485172|164642451|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.060
82473643|NCT01485172|164642451|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.047
82473644|NCT01485172|164642451|SUPERIORITY_OR_OTHER|||||||0.407||95.0||||P-values are from nonparametric rank ANCOVA without stratifications.|ANCOVA|||||||0.407
82473645|NCT01485172|164642452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.003||||0.397|TWO_SIDED|95.0|0.4|9.98|||Generalized Estimating Equations model|||||9.98|0.40|0.397
82548423|NCT04391894|164797676|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82548424|NCT04391894|164797676|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.3|0.1||||||||0.1|-0.3|
82473646|NCT01485172|164642452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.242||||0.131|TWO_SIDED|95.0|0.79|6.4|||Generalized Estimating Equations model|||||6.40|0.79|0.131
82473647|NCT01485172|164642452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.515||||0.018|TWO_SIDED|95.0|1.25|9.92|||Generalized Estimating Equations model|||||9.92|1.25|0.018
82473648|NCT01485172|164642452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.607||||0.02||95.0|1.22|10.64|||Generalized Estimating Equations model|||||10.64|1.22|0.020
82473649|NCT01485172|164642452|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.679||||0.202|TWO_SIDED|95.0|0.59|12.16|||Generalized Estimating Equations model|||||12.16|0.59|0.202
82473650|NCT01485172|164642453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.544||||0.662||95.0|0.22|10.84|||Generalized Estimating Equations model|||||10.84|0.22|0.662
82473651|NCT01485172|164642453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.485||||0.557|TWO_SIDED|95.0|0.4|5.55|||Generalized Estimating Equations model|||||5.55|0.40|0.557
82473652|NCT01485172|164642453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.855||||0.347|TWO_SIDED|95.0|0.51|6.72|||Generalized Estimating Equations model|||||6.72|0.51|0.347
82548425|NCT04391894|164797676|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82473653|NCT01485172|164642453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.776||||0.379|TWO_SIDED|95.0|0.49|6.38|||Generalized Estimating Equations model|||||6.38|0.49|0.379
82473654|NCT01485172|164642453|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.194||||0.851|TWO_SIDED|95.0|0.19|7.63|||Generalized Estimating Equations model|||||7.63|0.19|0.851
82548426|NCT04391894|164797677|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.2|0.2||||||||0.2|-0.2|
82548427|NCT04391894|164797677|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-0.3|0.1||||||||0.1|-0.3|
82548428|NCT04391894|164797677|SUPERIORITY||Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.1|0.6||||||||0.6|0.1|
82548429|NCT01889199|164797679|OTHER||Mean Difference (Final Values)|1.12||||0.004|TWO_SIDED|||||a priori threshold p\<0.05|t-test, 2 sided|||Only PCOS women were randomized to flutamide versus placebo; controls were not randomized A sample size of 11 per group (PCOS women versus controls) provided adequate power (approximately 80%) to detect effect sizes as small as 1.25 using a two-sample t-test (alpha=0.05, 2 tailed). A sample size of 5 per group (flutamide-treated versus placebo-treated PCOS women) also gave adequate power (approximately 80%) to detect effect sizes as small as 2 using a two-sample t-test (alpha=0.05, 2 tailed).||||0.004
82473655|NCT01485172|164642455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.591||||0.54|TWO_SIDED|95.0|0.36|7.03|||Generalized Estimating Equations model|||||7.03|0.36|0.540
82473656|NCT01485172|164642455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.473||||0.494|TWO_SIDED|95.0|0.49|4.47|||Generalized Estimating Equations model|||||4.47|0.49|0.494
82473657|NCT01485172|164642455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.391||||0.115|TWO_SIDED|95.0|0.81|7.06|||Generalized Estimating Equations model|||||7.06|0.81|0.115
82473658|NCT01485172|164642455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.96||||0.045|TWO_SIDED|95.0|1.02|8.55|||Generalized Estimating Equations model|||||8.55|1.02|0.045
82473659|NCT01485172|164642455|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.506||||0.221|TWO_SIDED|95.0|0.58|10.9|||Generalized Estimating Equations model|||||10.90|0.58|0.221
82548430|NCT01889199|164797680|OTHER||Mean Difference (Net)|0.024|||||TWO_SIDED|||||||||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||
82548431|NCT01889199|164797682|OTHER||Mean Difference (Net)|0.04||||0.04|TWO_SIDED||||||t-test, 2 sided|||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||0.040
82548432|NCT01889199|164797683|OTHER|||||||0.034|||||||t-test, 2 sided|||6-month changes from baseline were compared between placebo- and flutamide-treated PCOS women using an unpaired Student's t-test to determine whether one group changed more than the other over this time interval.||||0.034
82548433|NCT02323321|164797686|OTHER|The primary hypothesis for this study is that the true (success) proportion of transplanted patients meeting the primary effectiveness endpoint, patient survival at day 30 post-transplantation and absence of severe PGD (left or right ventricle) in the first 24 hours post-transplantation, is greater than the Performance Goal value of 0.65.|Proportion|88.0|||<|0.0001|TWO_SIDED|95.0|78.4|94.4|||one-sided exact binomial test|||||94.4|78.4|<0.0001
82548434|NCT00220740|164797687|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||The primary efficacy endpoint was the comparison of the Responder rates in the ITT population. Treatment group differences were tested by a Chi-square test. Subjects who did not complete the 24 week Efficacy Period and entered Rescue treatment with the alternative treatment were counted as Nonresponders.||||<0.001
82548435|NCT00220740|164797688|SUPERIORITY_OR_OTHER|||||||0.542|TWO_SIDED||||||ANCOVA|||||||0.542
82548436|NCT00220740|164797689|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Dominant hand||||<0.001
82548437|NCT00220740|164797689|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||Non-dominant hand||||0.005
82548438|NCT05338086|164797707|EQUIVALENCE|The estimated mean difference in %CfB lumbar spine BMD at Month 12 was presented with 95% CI and equivalence was concluded if this fell within the predefined equivalence margin of \[-1.45%, 1.45%\].|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.51|0.91||Mixed-model for repeated measures (MMRM)|Mixed Models Analysis|MMRM included treatment, with stratification variables as classification factors and baseline BMD as a continuous covariate.||||0.91|-0.51|
82548439|NCT05338086|164797708|EQUIVALENCE|The estimated mean difference in %CfB lumbar spine BMD at Month 12 was presented with 95% CI and equivalence was concluded if this fell within the predefined equivalence margin of \[-1.45%, 1.45%\].|Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.69|0.74|||ANCOVA|ANCOVA included terms for treatment, with stratification variables as classification factors and baseline BMD included as a continuous covariate.|The estimated mean difference in %CfB lumbar spine BMD results was pooled using Rubin's methods and presented with 95% CI.|||0.74|-0.69|
82548440|NCT05338086|164797711|EQUIVALENCE|Equivalence criteria (analysis set mFAS): 95% CI for ratio of geometric LS mean ratios contained in acceptance limits (80.00%, 125.00%).|Ratio of Geometric means|99.91|||||TWO_SIDED|95.0|91.99|108.52|||ANCOVA|ANCOVA model including log-transformed baseline sCTX as a continuous covariate with treatment and stratification variables as fixed effects.||||108.52|91.99|
82548441|NCT05338086|164797712|EQUIVALENCE|Biosimilarity with respect to PD was concluded if the 95% CI for the test (MB09) to reference (EU-Prolia) ratios of the geometric LS means was contained within the \[80.00%, 125.00%\] interval.|Ratio of Geometric means|99.13|||||TWO_SIDED|95.0|96.31|102.02|||ANCOVA|||||102.02|96.31|
82548442|NCT05338086|164797713|EQUIVALENCE|Equivalence criteria (on Pharmacokinetic Parameter Analysis Set): the 95% CIs around the geometric LS mean contained in the acceptance limits (80.00%, 125.00%)|LS Geometric Mean Ratio|104.13|||||TWO_SIDED|95.0|98.83|109.71|||ANCOVA|Cmax was analysed on the log scale by ANCOVA. The model included treatment and stratification variables as fixed effects.||||109.71|98.83|
82548443|NCT05338086|164797714|EQUIVALENCE|Equivalence criteria (on Pharmacokinetic Parameter Analysis Set): the 95% CIs around the geometric LS mean contained in the acceptance limits (80.00%, 125.00%)|LS Geometric Mean Ratio|106.06|||||TWO_SIDED|95.0|99.84|112.66|||ANCOVA|AUC0-6 months was analysed on the log scale by ANCOVA. The model included treatment and stratification variables as fixed effects.||||112.66|99.84|
82548444|NCT04455035|164797765|OTHER|ttest||||||0.0088|||||||t-test, 2 sided|||||||0.0088
82579942|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.2|||||TWO_SIDED|95.0|-6.8|3.3|||Chan and Zhang|||Common serotypes - serotype 19F||3.3|-6.8|
82548445|NCT04455035|164797766|OTHER|ttest||||||1e-05|||||||t-test, 2 sided|||||||0.00001
82548446|NCT04690673|164797815|EQUIVALENCE|Based on previous reports on the pharmacokinetics of oral paracetamol, the standard deviation of the within-subject difference in the Cmax for paracetamol was estimated to be 35% of the mean Cmax. Using this standard deviation, 10 participants were estimated to be sufficient, with a power of at least 80% (at 5% significance level). We recruited 12 volunteers to account for potential protocol violations or dropouts.|Geometric mean ratio|1.03||||0.05|TWO_SIDED|90.0|0.94|1.13||Not adjusted for multiple comparisons as the analysis was exploratory|t-test, 2 sided||Adhering|Highest paracetamol concentrations (Cmax) measured from capillary with the electrochemical method compared with measurements with mass-spectrometry.||1.13|0.94|0.05
82548447|NCT04173663|164797829|SUPERIORITY||Slope|-3.27||||0.092|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the parental empowerment scale.||||||.092
82548448|NCT04173663|164797830|SUPERIORITY||Slope|-1.62||||1.54e-05|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.0000154
82548449|NCT04173663|164797831|SUPERIORITY||Slope|-0.19||||0.014|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.014
82548450|NCT04173663|164797832|SUPERIORITY||Slope|-0.13||||0.883|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||0.883
82548451|NCT04173663|164797833|SUPERIORITY||Slope|-0.11||||0.308|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of services family applied for (6 month post intervention)||||.308
82579943|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-5.0|||||TWO_SIDED|95.0|-12.3|-0.3|||Chan and Zhang|||Common serotypes - serotype 23F||-0.3|-12.3|
82548452|NCT04173663|164797833|SUPERIORITY||Slope|-0.11||||0.355|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of services family applied for (12 month post intervention)||||.355
82548453|NCT04173663|164797834|SUPERIORITY||Slope|-0.06||||0.699|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of government services family is receiving (6 month post intervention)||||.699
82548454|NCT04173663|164797834|SUPERIORITY||Slope|-0.1||||0.573|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of government services the family is receiving (12 month post intervention)||||.573
82548455|NCT04173663|164797834|SUPERIORITY||Slope|-0.23||||0.43|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of direct services the family is receiving (6 month post intervention)||||.430
82548456|NCT04173663|164797834|SUPERIORITY||Slope|0.27||||0.391|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of direct services the family is receiving (12 month post intervention)||||.391
82548457|NCT04173663|164797835|SUPERIORITY||Slope|-0.44||||0.51|TWO_SIDED||||||Regression, Logistic|Logistic regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Whether participants were engaged or not engaged in vocational/educational activities (6 month post intervention)||||.510
82548458|NCT04173663|164797835|SUPERIORITY||Slope|0.64||||0.296|TWO_SIDED||||||Regression, Logistic|Logistic regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Whether participants were engaged or not engaged in vocational/educational activities (12 month post intervention)||||.296
82548459|NCT04173663|164797836|SUPERIORITY||Slope|-0.66||||0.361|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||||||.361
82548460|NCT04173663|164797837|SUPERIORITY||Slope|-0.08||||0.81|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of unmet service needs (6 month post intervention)||||.810
82548461|NCT04173663|164797837|SUPERIORITY||Slope|-0.13||||0.678|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site, cohort, and baseline value of the measure.||Outcome Variable: Number of unmet service needs (12 month post intervention)||||.678
82548462|NCT04173663|164797838|SUPERIORITY||Slope|0.03||||0.924|TWO_SIDED||||||Regression, Linear|Linear regression controlled for study site and cohort,||||||.924
82579944|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|96.3|||||TWO_SIDED|95.0|89.4|99.2|||Chan and Zhang|||Additional serotypes - serotype 1||99.2|89.4|
82548463|NCT04402489|164797840|SUPERIORITY||Least Square Mean Difference vs Placebo|9.8|STANDARD_ERROR_OF_MEAN|14.35||0.496|TWO_SIDED|95.0|-18.52|38.12|||Mixed-effect model for repeated measures|||Change from BL at Week 26 (DBT EOT) - lower dose||38.12|-18.52|0.496
82548464|NCT04402489|164797840|SUPERIORITY||Least Square Mean Difference vs Placebo|22.7|STANDARD_ERROR_OF_MEAN|14.38||0.116|TWO_SIDED|95.0|-5.68|51.09|||Mixed-effect model for repeated measures|||Change from BL at Week 26 (DBT EOT) - higher dose||51.09|-5.68|0.116
82579945|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|95.1|||||TWO_SIDED|95.0|87.7|98.6|||Chan and Zhang|||Additional serotypes - serotype 3||98.6|87.7|
82548465|NCT04402489|164797841|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.84|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.23|-0.44|||Mixed-effect model for repeated measures|||||-0.44|-1.23|< 0.001
82548466|NCT04402489|164797841|SUPERIORITY||Least Square Mean Difference vs Placebo|-1.43|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.83|-1.03|||Mixed-effect model for repeated measures|||||-1.03|-1.83|< 0.001
82548467|NCT04402489|164797842|SUPERIORITY|Negative binomial regression model with log link was used.|Incident rate ratio|0.76||||0.199|TWO_SIDED|95.0|0.49|1.16|||Refer to comments below:|Negative binomial regression model with log link was used for other method.||||1.16|0.49|0.199
82548468|NCT04402489|164797842|SUPERIORITY|Negative binomial regression model with log link was used.|Incident rate ratio|0.55||||0.006|TWO_SIDED|95.0|0.36|0.84|||Refer to comments below:|Negative binomial regression model with log link was used for other method.||||0.84|0.36|0.006
82548469|NCT04402489|164797843|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.15|STANDARD_ERROR_OF_MEAN|0.24||0.55|TWO_SIDED|95.0|-0.62|0.33|||mixed-effect model for repeated measures|||||0.33|-0.62|0.55
82548470|NCT04402489|164797843|SUPERIORITY||Least Square Mean Difference vs Placebo|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.343|TWO_SIDED|95.0|-0.72|0.25|||mixed-effect model for repeated measures|||||0.25|-0.72|0.343
82548471|NCT04402489|164797844|SUPERIORITY||Odds Ratio (OR)|0.805||||0.642|TWO_SIDED|95.0|0.323|2.007|||Regression, Logistic|||||2.007|0.323|0.642
82548472|NCT04402489|164797844|SUPERIORITY||Odds Ratio (OR)|1.412||||0.431|TWO_SIDED|95.0|0.598|3.336|||Regression, Logistic|||||3.336|0.598|0.431
82548473|NCT04402489|164797845|SUPERIORITY||Least Square Mean Difference vs Placebo|0.87|STANDARD_ERROR_OF_MEAN|0.48||0.072|TWO_SIDED|95.0|-0.08|1.82|||mixed-effect model for repeated measures|||||1.82|-0.08|0.072
82548474|NCT04402489|164797845|SUPERIORITY||Least Square Mean Difference vs Placebo|0.56|STANDARD_ERROR_OF_MEAN|0.48||0.252|TWO_SIDED|95.0|-0.4|1.51|||mixed-effect model for repeated measures|||||1.51|-0.4|0.252
82579946|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|37.2|||||TWO_SIDED|95.0|26.2|48.9|||Chan and Zhang|||Additional serotypes - serotype 5||48.9|26.2|
82579947|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|22.9|||||TWO_SIDED|95.0|14.4|33.4|||Chan and Zhang|||Additional serotypes - serotype 6A||33.4|14.4|
82548475|NCT03328702|164797846|SUPERIORITY|Repeated measures ANOVA|Mean Difference (Net)|0.01|||<|0.05|TWO_SIDED|||||Repeated measures ANOVA, N=4|ANOVA|Repeated measures ANOVA||The null hypothesis is that there is no difference in total pharyngeal transit time with the use of CPAP||||<0.05
82548476|NCT02662062|164797903|OTHER|This is a single arm study looking at a binary value with the hypothesis suggesting it falls within a certain range.||||||||||||||||The null hypothesis is that the addition of pembrolizumab to chemoradiation is not unsafe (percentage of the population experiencing unacceptable toxicity is not \>50%)|A Clopper-Pearson method was used to determine the unacceptable toxicity rate and a 95% confidence interval for this binary outcome measure.|||
82548477|NCT02662062|164797904|OTHER|Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||||||||||||||||Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||
82548478|NCT02662062|164797905|OTHER|Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||||||||||||||||Single arm study with no comparator arm and assessment of a binary variable. Clopper-Pearson method used to calculate the 95% confidence interval relating to this proportion.|||
82548479|NCT02662062|164797906|OTHER|Non comparative trial with a single arm|Kaplan Meier Estimate|39.0|||||TWO_SIDED|95.0|17.0||missing upper limit of 95% confidence interval on the survival estimate from Kaplan-Meier estimator due to small number events||||||||17|
82548480|NCT02662062|164797907|OTHER|Kaplan Meier Estimate performed for a 12 month timepoint in a single arm non comparative study|Kaplan Meier Estimate|92.0|||||TWO_SIDED|95.0|72.0|98.0||||||||98|72|
82548481|NCT02662062|164797908|OTHER|Kaplan Meier Estimate of single arm non comparative study|Kaplan Meier Estimate|85.0|||||TWO_SIDED|95.0|64.0|94.0||||||||94|64|
82548482|NCT02662062|164797909|OTHER|Kaplan Meier estimate at a 12 month timepoint for a single arm non comparative study|Kaplan Meier Estimate|88.0|||||TWO_SIDED|95.0|68.0|98.0||||||||98|68|
82548483|NCT05406921|164797914|SUPERIORITY||Mean Difference (Net)|0.32|||<|0.05|TWO_SIDED||||||ANOVA|||This was a feasibility study and not powered to detect significant differences pre-/post-intervention.||||<0.05
82548484|NCT05059262|164797926|SUPERIORITY||Difference in ORR|39.0|||<|0.0001|TWO_SIDED|95.0|28.4|49.6||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on Interactive Response Technology (IRT).|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT|||49.6|28.4|<0.0001
82548485|NCT05059262|164797927|SUPERIORITY||Difference in ORR|67.2|||<|0.0001|TWO_SIDED|95.0|57.0|77.3||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on IRT.|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT.|||77.3|57.0|<0.0001
82548486|NCT05059262|164797928|SUPERIORITY||LS Mean Difference|14.6||||0.0077|TWO_SIDED|95.0|4.0|25.3||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.)+joint type (knee, ankle, or other)+the most impaired ROM baseline value.|Mixed model repeated measures|||||25.3|4.0|0.0077
82548487|NCT05059262|164797929|SUPERIORITY||LS Mean Difference|3.3||||0.0007|TWO_SIDED|95.0|1.4|5.2||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+PROMIS-PF baseline value.|Mixed model repeated measures|||||5.2|1.4|0.0007
82548488|NCT05059262|164797930|SUPERIORITY||LS Mean Difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.1||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+Worst Stiffness NRS baseline value.|Mixed model repeated measures|||||-1.1|-2.5|<0.0001
82548489|NCT05059262|164797931|SUPERIORITY||LS Mean Difference|7.4||||0.0155|TWO_SIDED|95.0|1.4|13.4||Model included treatment+visit+treatment by visit interaction+stratification factor for region (U.S. versus non-U.S.) and tumor location (lower limb/all other) based on IRT+VAS baseline value.|Mixed model repeated measures|||||13.4|1.4|0.0155
82473660|NCT01485172|164642456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07||||0.662|TWO_SIDED|95.0|-3.78|5.93||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||5.93|-3.78|0.662
82548490|NCT05059262|164797932|SUPERIORITY||Difference in responder rate|26.2||||0.0056|TWO_SIDED|95.0|9.5|42.8||Stratified by tumor location (lower limb/all other) and region (U.S./non-U.S.) based on IRT.|Cochran-Mantel-Haenszel||Stratified Mantel-Haenszel with stratification factors based on IRT.|||42.8|9.5|0.0056
82548491|NCT04382898|164797995|SUPERIORITY|||||||0.1041|||||||Fisher Exact|||||||0.1041
82548492|NCT04382898|164798001|SUPERIORITY|||||||0.0541|||||||Binomial test|||||||0.0541
82548493|NCT05229120|164798002|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.124|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||A single-sided paired-samples t-test comparing k-values at baseline to k-values at follow-up (approximately 4 weeks after baseline assessment) was examined. Given that k-values are typically skewed (and to be consistent with the existing literature) we used a log-k as our outcome variable.||||.124
82548494|NCT05229120|164798003|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.219|TWO_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 14.||Changes in consideration of future consequences (parenting) was evaluated using one-sided paired samples t-tests.||||.219
82548495|NCT05229120|164798004|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.5|TWO_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 5||Performed a one-sided paired samples t-test examining changes in both positive parenting.||||.50
82548496|NCT05229120|164798004|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.187|TWO_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in negative parenting.||||.187
82548497|NCT05229120|164798005|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.498|TWO_SIDED||||||t-test, 1 sided|||Examined changes in parental involvement using a paired-samples t-test.||||.498
82548498|NCT05229120|164798005|SUPERIORITY||Mean Difference (Final Values)|1.301||||0.108|TWO_SIDED||||||t-test, 1 sided|||Examined changes in positive parenting using paired samples t-tests||||.108
82548499|NCT05229120|164798005|SUPERIORITY||Mean Difference (Final Values)|-1.01||||0.145|TWO_SIDED||||||t-test, 1 sided|||Examined changes in parental monitoring using a paired samples t-test||||.145
82548500|NCT05229120|164798005|SUPERIORITY||Mean Difference (Final Values)|-0.688||||0.252|TWO_SIDED||||||t-test, 1 sided|||Examined changes in inconsistent parenting using a paired samples one-sided t-test||||.252
82548501|NCT05229120|164798005|SUPERIORITY||Mean Difference (Final Values)|0.306||||0.382|TWO_SIDED||||||t-test, 1 sided|||Examined changes in corporal punishment using a paired samples one-tailed t-test||||.382
82548502|NCT03932682|164798006|OTHER|The primary objective would be achieved if efficacy was demonstrated for at least one of the two primary efficacy endpoints, that is, if the interim analysis-adjusted lower limit of the two-sided confidence interval (CI) for absolute vaccine efficacy (aVE) of QIVc versus the comparator vaccine was greater than 0%.|Cox Proportional Hazard|41.26|||||TWO_SIDED|97.98|21.55|56.02||||||||56.02|21.55|
82548503|NCT03932682|164798007|OTHER|The primary objective would be achieved if efficacy was demonstrated for at least one of the two primary efficacy endpoints, that is, if the interim analysis-adjusted lower limit of the two-sided CI for aVE of QIVc versus the comparator vaccine was greater than 0%.|Cox Proportional Hazard|46.9|||||TWO_SIDED|97.5|19.19|65.11||||||||65.11|19.19|
82548504|NCT03932682|164798008|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|54.49|||||TWO_SIDED|95.0|22.55|73.26||||||||73.26|22.55|
82548505|NCT03932682|164798009|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|50.67|||||TWO_SIDED|95.0|32.83|63.77||||||||63.77|32.83|
82548506|NCT03932682|164798010|OTHER|The secondary efficacy objectives were not associated with any hypothesis testing|Cox Proportional Hazard|100.0|||||TWO_SIDED|95.0|||||||"The 2-sided 95% confidence interval was calculated with a lower limit of not estimable and an upper limit of 100."|||||
82548507|NCT05956002|164798031|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.66|||||TWO_SIDED|90.0|91.33|98.12|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2mg mini tablets in applesauce vs etrasimod 2mg clinical IR tablet mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.12|91.33|
82548508|NCT05956002|164798031|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.96|||||TWO_SIDED|90.0|91.69|98.34|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.34|91.69|
82548509|NCT05956002|164798031|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|85.86|||||TWO_SIDED|90.0|82.9|88.92|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||88.92|82.90|
82548510|NCT05956002|164798031|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUClast for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|93.24|||||TWO_SIDED|90.0|89.76|96.84|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||96.84|89.76|
82548511|NCT05956002|164798032|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.36|||||TWO_SIDED|90.0|90.97|97.89|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in applesauce vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.89|90.97|
82548512|NCT05956002|164798032|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.75|||||TWO_SIDED|90.0|91.41|98.2|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||98.20|91.41|
82548513|NCT05956002|164798032|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|85.44|||||TWO_SIDED|90.0|82.43|88.55|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||88.55|82.43|
82548514|NCT05956002|164798032|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of AUCinf for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|93.28|||||TWO_SIDED|90.0|89.61|97.1|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.10|89.61|
82579948|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|97.6|||||TWO_SIDED|95.0|91.6|99.7|||Chan and Zhang|||Additional serotypes - serotype 7F||99.7|91.6|
82473661|NCT01485172|164642456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.621|TWO_SIDED|95.0|-4.63|2.77||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.77|-4.63|0.621
82548515|NCT05956002|164798033|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with applesauce (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|94.7|||||TWO_SIDED|90.0|90.38|99.22|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in applesauce vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||99.22|90.38|
82548516|NCT05956002|164798033|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with chocolate pudding (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|92.72|||||TWO_SIDED|90.0|88.59|97.04|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in chocolate pudding vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.04|88.59|
82548517|NCT05956002|164798033|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with water (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|87.24|||||TWO_SIDED|90.0|83.35|91.31|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in water vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||91.31|83.35|
82548518|NCT05956002|164798033|EQUIVALENCE|For bioequivalence, the 90% CIs of the adjusted geometric mean ratio of Cmax for etrasimod 2 mg mini tablets mixed with yogurt (tests) compared with etrasimod 2 mg clinical IR tablet (reference) were required to be within the 80 to 125% range.|Ratio of adjusted geometric means|92.59|||||TWO_SIDED|90.0|88.24|97.17|||||The ratio and 90% CIs are expressed as percentages.|Analysis was performed for etrasimod 2 mg mini tablets in yogurt vs etrasimod 2 mg clinical IR tablet using mixed effect model with sequence, period and treatment as fixed effects and participant within the sequence as a random effect.||97.17|88.24|
82548519|NCT04936035|164798048|SUPERIORITY||Difference in LS Mean|-16.7|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-21.2|-12.3||MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|The adjusted 95% CI and p-value are based on Dunnett's test.|LS Mean Difference between zilebesiran 300 mg Q6M and placebo, 95% CI was calculated using Dunnett's procedure.|||-12.3|-21.2|<0.0001
82548520|NCT04936035|164798048|SUPERIORITY||Difference in LS Mean|-15.7|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-20.8|-10.6||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|The adjusted 95% CI and p-value are based on Dunnett's test.|LS Mean Difference between zilebesiran 600 mg Q6M and placebo, 95% CI was calculated using Dunnett's procedure.|||-10.6|-20.8|<0.0001
82548521|NCT04936035|164798049|SUPERIORITY||Difference in LS Mean|-12.0|STANDARD_ERROR_OF_MEAN|1.89|<|0.0001|TWO_SIDED|95.0|-15.7|-8.3||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-8.3|-15.7|<0.0001
82548522|NCT04936035|164798049|SUPERIORITY||Difference in LS Mean|-9.1|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|-13.4|-4.8||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-4.8|-13.4|<0.0001
82548523|NCT04936035|164798050|SUPERIORITY||Difference in LS Mean|-14.1|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001|TWO_SIDED|95.0|-18.9|-9.4||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-9.4|-18.9|<0.0001
82548524|NCT04936035|164798050|SUPERIORITY||Difference in LS Mean|-14.2|STANDARD_ERROR_OF_MEAN|2.38|<|0.0001|TWO_SIDED|95.0|-18.9|-9.5||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-9.5|-18.9|<0.0001
82548525|NCT04936035|164798051|SUPERIORITY||Difference in LS Mean|-12.1|STANDARD_ERROR_OF_MEAN|2.55|<|0.0001|TWO_SIDED|95.0|-17.2|-7.1||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-7.1|-17.2|<0.0001
82548526|NCT04936035|164798051|SUPERIORITY||Difference in LS Mean|-10.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-15.1|-5.3||The MMRM model included treatment, visit, treatment-by-visit interaction, and race (categorized as Black and all other races) as fixed factors, with office SBP as a covariate.|MMRM|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||-5.3|-15.1|<0.0001
82579949|NCT00688870|164870791|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.5|||Chan and Zhang|||Additional serotypes - serotype 19A||4.5|-4.6|
82579950|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 4||3.1|-6.9|
82473662|NCT01485172|164642456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.75||||0.15|TWO_SIDED|95.0|-6.5|1.01||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.01|-6.50|0.150
82473663|NCT01485172|164642456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74||||0.048|TWO_SIDED|95.0|-7.43|-0.04||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||-0.04|-7.43|0.048
82473664|NCT01485172|164642456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.715|TWO_SIDED|95.0|-6.32|4.35||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.35|-6.32|0.715
82473665|NCT01485172|164642457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17||||0.158|TWO_SIDED|95.0|-0.46|2.81||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.81|-0.46|0.158
82473666|NCT01485172|164642457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.446|TWO_SIDED|95.0|-1.71|0.76||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.76|-1.71|0.446
82579951|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 6B||4.4|-4.6|
82579952|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 9V||3.1|-6.9|
82579953|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 14||4.4|-4.6|
82579954|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 18C||4.4|-4.6|
82579955|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|-1.3|||||TWO_SIDED|95.0|-6.9|3.1|||Chan and Zhang|||Common serotypes - serotype 19F||3.1|-6.9|
82579956|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Common serotypes - serotype 23F||4.4|-4.6|
82473667|NCT01485172|164642457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.163|TWO_SIDED|95.0|-2.1|0.36||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.36|-2.10|0.163
82473668|NCT01485172|164642457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.117|TWO_SIDED|95.0|-2.27|0.25||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.25|-2.27|0.117
82579957|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|95.0|||||TWO_SIDED|95.0|87.7|98.6|||Chan and Zhang|||Additional serotypes - serotype 1||98.6|87.7|
82579958|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|82.5|||||TWO_SIDED|95.0|72.0|90.1|||Chan and Zhang|||Additional serotypes - serotype 3||90.1|72.0|
82579959|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|9.6|||||TWO_SIDED|95.0|3.8|18.1|||Chan and Zhang|||Additional serotypes - serotype 5||18.1|3.8|
82579960|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|0.0|||||TWO_SIDED|95.0|-4.6|4.4|||Chan and Zhang|||Additional serotypes - serotype 6A||4.4|-4.6|
82579961|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|93.8|||||TWO_SIDED|95.0|86.0|97.9|||Chan and Zhang|||Additional serotypes - serotype 7F||97.9|86.0|
82579962|NCT00688870|164870792|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Exact, unconditional, 2-sided 95% CI for the difference in proportions were computed using the noninferiority procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.|Difference|1.2|||||TWO_SIDED|95.0|-3.4|6.5|||Chan and Zhang|||Additional serotypes - serotype 19A||6.5|-3.4|
82579963|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.62|||||TWO_SIDED|95.0|0.5|0.78|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 4||0.78|0.50|
82579964|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.91|||||TWO_SIDED|95.0|0.7|1.17|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 6B||1.17|0.70|
82473669|NCT01485172|164642457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.456|TWO_SIDED|95.0|-2.67|1.2||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||1.20|-2.67|0.456
82473670|NCT01485172|164642458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.823|TWO_SIDED|95.0|-4.38|5.5||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||5.50|-4.38|0.823
82473671|NCT01485172|164642458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.568|TWO_SIDED|95.0|-4.86|2.68||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||2.68|-4.86|0.568
82473672|NCT01485172|164642458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.19||||0.101|TWO_SIDED|95.0|-7.01|0.63||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.63|-7.01|0.101
82473673|NCT01485172|164642458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.94||||0.04|TWO_SIDED|95.0|-7.7|-0.18||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||-0.18|-7.70|0.040
82473674|NCT01485172|164642458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.811|TWO_SIDED|95.0|-6.08|4.77||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||4.77|-6.08|0.811
82473675|NCT01485172|164642459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.102|TWO_SIDED|95.0|-0.86|0.08||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.08|-0.86|0.102
82473676|NCT01485172|164642459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.723|TWO_SIDED|95.0|-0.41|0.29||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.29|-0.41|0.723
82473677|NCT01485172|164642459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.084|TWO_SIDED|95.0|-0.66|0.04||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.04|-0.66|0.084
82548527|NCT04936035|164798052|SUPERIORITY||Odds Ratio (OR)|10.73|||<|0.0001|TWO_SIDED|95.0|3.76|30.64||Logistic regression model included treatment and race (black; all other races) as factors and baseline 24-hour mean SBP as a covariate|Regression, Logistic|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||30.64|3.76|<0.0001
82548528|NCT04936035|164798052|SUPERIORITY||Odds Ratio (OR)|17.93|||<|0.0001|TWO_SIDED|95.0|6.24|51.52||Logistic regression model included treatment and race (black; all other races) as factors and baseline 24-hour mean SBP as a covariate|Regression, Logistic|Tested in hierarchical order with success criterion of nominal p-value \<0.05.||||51.52|6.24|<0.0001
82548529|NCT04401800|164798062|SUPERIORITY|||||||0.0002|||||||Binomial exact test|||||||0.0002
82579965|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.67|||||TWO_SIDED|95.0|0.55|0.82|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 9V||0.82|0.55|
82579966|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.67|1.06|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 14||1.06|0.67|
82473678|NCT01485172|164642459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.697|TWO_SIDED|95.0|-0.42|0.28||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.28|-0.42|0.697
82473679|NCT01485172|164642459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.086|TWO_SIDED|95.0|-0.06|0.97||P-values are from a Mixed Model Repeated Measures analysis.|Mixed Models Analysis|||||0.97|-0.06|0.086
82473680|NCT01485172|164642460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.769||||0.733|TWO_SIDED|95.0|0.17|3.49|||Generalized Estimating Equations model|||||3.49|0.17|0.733
82473681|NCT01485172|164642460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.411||||0.519|TWO_SIDED|95.0|0.5|4.02|||Generalized Estimating Equations model|||||4.02|0.50|0.519
82473682|NCT01485172|164642460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.204||||0.008|TWO_SIDED|95.0|1.46|12.07|||Generalized Estimating Equations model|||||12.07|1.46|0.008
82473683|NCT01485172|164642460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.456||||0.001|TWO_SIDED|95.0|1.93|15.46|||Generalized Estimating Equations model|||||15.46|1.93|0.001
82473684|NCT01485172|164642460|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.281||||0.752|TWO_SIDED|95.0|0.27|5.98|||Generalized Estimating Equations model|||||5.98|0.27|0.752
82473685|NCT02028208|164642462|OTHER|Concordance between 0.40 mg/cm2 mercury and 1.0% ammoniated mercury in petrolatum|Kappa statistic|0.38|||||TWO_SIDED|95.0|0.08|0.67||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.67|0.08|
82473686|NCT02028208|164642462|OTHER|Concordance between 0.40 mercury and 0.5% elemental mercury in petrolatum|Kappa statistic|0.67|||||TWO_SIDED|95.0|0.35|0.99||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.99|0.35|
82473687|NCT02028208|164642462|OTHER|Concordance between 0.36 mg/cm2 mercury and 1.0% ammoniated mercury in petrolatum|Kappa statistic|0.46|||||TWO_SIDED|95.0|0.15|0.76||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.76|0.15|
82473688|NCT02028208|164642462|OTHER|Concordance between 0.36 mg/cm2 mercury and 0.5% elemental mercury in petrolatum|Kappa statistic|0.57|||||TWO_SIDED|95.0|0.21|0.93||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.93|0.21|
82473689|NCT02028208|164642462|OTHER|Concordance between 0.10 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum|Kappa statistic|0.48|||||TWO_SIDED|95.0|0.05|0.9||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.90|0.05|
82473690|NCT02028208|164642462|OTHER|Concordance between 0.10 mg/cm2 palladium and 1.0% palladium chloride in petrolatum|Kappa statistic|0.39|||||TWO_SIDED|95.0|0.1|0.68||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.68|0.10|
82473691|NCT02028208|164642462|OTHER||Kappa statistic|0.83|||||TWO_SIDED|95.0|0.5|1.0||||||Concordance between 0.30 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum||1.00|0.50|
82548530|NCT04401800|164798064|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||||||< 0.0001
82548531|NCT04401800|164798065|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by the Investigator||||< 0.0001
82548532|NCT04401800|164798065|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by Central Site Imaging Facility||||< 0.0001
82548533|NCT04401800|164798066|SUPERIORITY||||||<|0.0001|||||||Binomial exact test|||ORR as Assessed by the Investigator||||< 0.0001
82548534|NCT04401800|164798066|SUPERIORITY|||||||0.0002|||||||Binomial exact test|||ORR as Assessed by Central Site Imaging Facility||||0.0002
82548535|NCT05873751|164798089|OTHER||Calibrated VE|2.74|||||TWO_SIDED|95.0|-10.35|15.59|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||15.59|-10.35|
82473692|NCT02028208|164642462|OTHER|Concordance between 0.30 mg/cm2 palladium and 1.0% palladium chloride in petrolatum|Kappa statistic|0.19|||||TWO_SIDED|95.0|-0.02|0.39||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.39|-0.02|
82473693|NCT02028208|164642462|OTHER|Concordance between 0.60 mg/cm2 palladium and 3.0% sodium tetrachloropalladate in petrolatum|Kappa statistic|0.83|||||TWO_SIDED|95.0|0.5|1.0||||||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||1.00|0.50|
82473694|NCT02028208|164642462|OTHER||Kappa statistic|0.06|||||TWO_SIDED|95.0|-0.05|0.17||||Concordance between 0.60 mg/cm2 palladium and 1.0 palladium chloride in petrolatum||Concordance between Investigational and Reference Allergen presented for allergen doses which met the minimum criteria of 70% with positive reactions.||0.17|-0.05|
82473695|NCT01056016|164642464|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.4|||=|0.003|TWO_SIDED||||||t-test, 2 sided|||The percentage of patients with whom pediatrician in each group utilized each practice behavior at baseline and 6-months was computed. The reported statistical analysis did not account potential clustering due to the small number of practices in this study.||||=.003
82473696|NCT02289157|164642465|OTHER||Risk Ratio (RR)|0.9||||0.54|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|Ho: There is no difference between number of patients with wound complications between the study (icNPT) and comparison groups.||||1.4|0.5|0.54
82473697|NCT02289157|164642466|OTHER|||||||0.31|||||||Chi-squared|Pearson Chi-squared, df (3)||Ho: There is no difference between the types wound morbidity in the study (icNPT) and comparison groups.||||0.31
82473698|NCT02289157|164642467|OTHER|||||||0.54||||||Ho: There is no difference between initial length of stay between the study (icNPT) and comparison groups.|Wilcoxon (Mann-Whitney)|||||||0.54
82473699|NCT02289157|164642468|OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in length of stay after readmission for wound morbidity between the study (icNPT) and comparison groups.||||0.41
82473700|NCT02289157|164642469|OTHER|||||||0.38|||||||Chi-squared|||Ho: There is no difference between the number of ER visits made per person between the study (icNPT) and comparison groups.||||0.38
82473701|NCT02289157|164642470|OTHER|||||||0.48||||||Ho: There is no difference between the number of visits made to the clinic for wound morbidity per patient between the study (icNPT) and comparison groups.|Chi-squared|||||||0.48
82473702|NCT02289157|164642471|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference between number of readmissions between the study (icNPT) and comparison groups.||||0.52
82473703|NCT02289157|164642471|OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in the use of post operative antimicrobials between the the study (icNPT) and comparison groups.||||0.45
82473704|NCT02289157|164642471|OTHER|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||Ho: There is no difference in the number of patients with Incision and Drainage and/or Extirpation between the study (icNPT) and comparison groups.||||0.44
82473705|NCT02289157|164642472|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: scheduled vs unscheduled cesarean section and icNPT vs Standard dressing||||||0.68||||||Ho: There is no difference between patients with wound morbidity that is significantly affected by the use of icNPT and whether or not the cesarean is scheduled or unscheduled.|Cochran-Mantel-Haenszel|||||||0.68
82473706|NCT02289157|164642473|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: pfannenstiel vs midline abdominal incision and icNPT vs Standard dressing||||||0.27|||||||Cochran-Mantel-Haenszel|||||||0.27
82473707|NCT02289157|164642474|OTHER|Cochran-Mantel-Haenzel test for interactions between different risk factors: ruptured vs unruptured membranes and icNPT vs Standard dressing||||||0.55|||||||Cochran-Mantel-Haenszel|||||||0.55
82473708|NCT02289157|164642475|OTHER|Cochran-Mantel-Haenzel test for interactions between labor vs no labor stratified by icNPT vs Standard dressing||||||0.49|||||||Cochran-Mantel-Haenszel|||||||0.49
82473709|NCT02289157|164642476|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction between patients with hypertension versus no hypertension stratified by icNPT versus standard dressing in wound morbidity||||||0.92|||||||Cochran-Mantel-Haenszel|||||||0.92
82473710|NCT02289157|164642477|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction in icNPT and Standard wound dressings stratified by women with insulin requiring diabetes and no insulin requiring Diabetes.||||||0.22|||||||Cochran-Mantel-Haenszel|||||||0.22
82473711|NCT02289157|164642478|OTHER|Cochran-Mantel-Haenzel measure used to estimate interaction between chorioamnionitis and no chorioamnionitis stratified by icNPT and standard dressing, for wound morbidity||||||0.74|||||||Cochran-Mantel-Haenszel|||||||0.74
82473712|NCT01301027|164642479|SUPERIORITY_OR_OTHER|||||||0.047|||||||t-test, 2 sided|||||||0.047
82473713|NCT01301027|164642480|SUPERIORITY_OR_OTHER|||||||0.059|||||||t-test, 2 sided|||||||0.059
82473714|NCT01301027|164642481|SUPERIORITY_OR_OTHER|||||||0.508|||||||t-test, 2 sided|||||||0.508
82473715|NCT01301027|164642482|SUPERIORITY_OR_OTHER|||||||0.984|||||||t-test, 2 sided|||||||0.984
82473716|NCT00948441|164642531|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||t-test, 2 sided|||matched pairs T test to compare infection rates during the two study periods||||0.012
82500286|NCT01285310|164691299|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-7.4||||0.3134|TWO_SIDED|95.0|-27.1|7.0|||Chi-squared||2-sided 95% CI of the proportion difference is based on a normal approximation to the binomial distribution|Significance testing was done using the following closed procedure; if the overall test among treatments is statistically significant at the 0.05 level, pair-wise comparisons (30 mg versus PBO, and 20 mg versus PBO, using a 0.05 two-sided significance level) will be performed||7.0|-27.1|0.3134
82500287|NCT01285310|164691299|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.2||||0.8721|TWO_SIDED|95.0|-16.2|13.8|||Chi-squared||2-sided 95% CI is based on a normal approximation to the binomial distribution|||13.8|-16.2|0.8721
82500288|NCT01285310|164691300|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.004|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500289|NCT01285310|164691300|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.091|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500290|NCT01285310|164691301|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-4.5||||||||||||||||||
82500291|NCT01285310|164691301|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.6||||||||||||||||||
82473717|NCT00104520|164642536|SUPERIORITY_OR_OTHER|||||||0.007||0.0||||Analysis based on 2-sided test with 0.05 a priori threshold for statistical significance. No adjustments were made for multiple comparisons.|Log Rank|||H0: no difference between AZLI and placebo (pooled treatment groups) in time to need for inhaled or IV antibiotics. Assuming 2-sided significance level of 0.05, \~210 subjects (70 in each AZLI group, 35 in each placebo group) provided \>90% power to reject null hypothesis based on Lakatos normal approximation method with weights being one. Therefore, 250 subjects were to be randomized at Visit 2 (Day -28) to ensure at least 210 participants entered double-blind treatment period at Day 0.||||0.0070
82473718|NCT00104520|164642537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.01||||0.0196|TWO_SIDED|95.0|0.81|9.21||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment and baseline value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in change from baseline in CFQ-R RSS scores.||9.21|0.81|0.0196
82473719|NCT00104520|164642538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.28||||0.0012|TWO_SIDED|95.0|2.5|10.06||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included terms for treatment and baseline value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in percent change from baseline in FEV1 (L).||10.060|2.500|0.0012
82473720|NCT00104520|164642540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.659||||0.0059|TWO_SIDED|95.0|-1.125|-0.193|||ANCOVA|ANCOVA model included terms for treatment and baseline highest MIC of aztreonam for PA (\<=2, 4-8, 16-128 or \>=256 μg/mL) value.||Null hypothesis was there is no difference between 75 mg AZLI and placebo (pooled treatment groups) in mean change from baseline in log10 PA CFUs in sputum.||-0.193|-1.125|0.0059
82473721|NCT01640834|164642558|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.84||||0.0542|TWO_SIDED|95.0|-11.82|0.14|||t-test, 1 sided|||The mean change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 100-mg LY2409021 dose group using a 1 sample t-test.||0.14|-11.82|0.0542
82473722|NCT01640834|164642558|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.89||||0.0826|TWO_SIDED|95.0|-14.95|1.16|||t-test, 1 sided|||The mean change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 300-mg LY2409021 dose group.||1.16|-14.95|0.0826
82473723|NCT01640834|164642559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.0||||0.046|TWO_SIDED|95.0|-33.7|-0.4|||t-test, 1 sided|||Analysis was performed using the percent change in insulin dose, which takes into account absolute differences in individual insulin doses. The mean percent change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's percent change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 100-mg LY2409021 dose group using a 1 sample t-test.||-0.4|-33.7|0.0460
82473724|NCT01640834|164642559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.6||||0.0192|TWO_SIDED|95.0|-35.0|-4.3|||t-test, 1 sided|||Analysis was performed using the percent change in insulin dose, which takes into account absolute differences in individual insulin doses. The mean percent change on Day 2 from Day 1 in the 24-hour insulin dose for the placebo group was subtracted from each participant's percent change on Day 2 from Day 1 in the 24-hour insulin dose. This placebo adjusted 24-hour insulin dose was compared within the 300-mg LY2409021 dose group using a 1 sample t-test.||-4.3|-35.0|0.0192
82473725|NCT01640834|164642564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.0||||0.0187|TWO_SIDED|95.0|-82.0|-9.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on peak glucose concentration after an intramuscular injection of glucagon (1 milligram).||-9|-82|0.0187
82473726|NCT01640834|164642564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-59.0||||0.0048|TWO_SIDED|95.0|-96.0|-23.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on peak glucose concentration after an intramuscular injection of glucagon (1 milligram).||-23|-96|0.0048
82473727|NCT01640834|164642565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4423.0||||0.0278|TWO_SIDED|95.0|-8256.0|-590.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on area under the glucose concentration curve from time 0 to 2 hours postdose following an intramuscular injection of glucagon (1 milligram).||-590|-8256|0.0278
82473728|NCT01640834|164642565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5187.0||||0.0046|TWO_SIDED|95.0|-8371.0|-2004.0|||t-test, 2 sided|||Statistical analysis of the effect of LY2409021 treatment on area under the glucose concentration curve from time 0 to 2 hours postdose following an intramuscular injection of glucagon (1 milligram).||-2004|-8371|0.0046
82473729|NCT00806819|164642619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0435|TWO_SIDED|95.0|0.7|0.99|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||0.99|0.70|0.0435
82473730|NCT00806819|164642620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.894|TWO_SIDED|95.0|0.85|1.21|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.21|0.85|0.8940
82473731|NCT00806819|164642621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0506|TWO_SIDED|95.0|0.7|1.0|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.00|0.70|0.0506
82473732|NCT00806819|164642622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0865|TWO_SIDED|95.0|0.73|1.02|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.02|0.73|0.0865
82473733|NCT00806819|164642623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7279|TWO_SIDED|95.0|0.65|1.85||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||1.85|0.65|0.7279
82548536|NCT05873751|164798090|OTHER||Calibrated VE|-2.2|||||TWO_SIDED|95.0|-23.5|13.85|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||13.85|-23.50|
82579967|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.78|||||TWO_SIDED|95.0|0.63|0.97|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 18C||0.97|0.63|
82473734|NCT00806819|164642623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.518|TWO_SIDED|95.0|0.75|1.76||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the investigator's assessment||1.76|0.75|0.5180
82473735|NCT00806819|164642626|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.0387|TWO_SIDED|95.0|1.02|1.85||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on the central independent review||1.85|1.02|0.0387
82473736|NCT00806819|164642626|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.1071|TWO_SIDED|95.0|0.95|1.75||Odds ratio and p-value are obtained from logistic regression model adjusted for baseline ECOG PS (0 vs 1)|Regression, Logistic||An odds ratio \>1 indicates a benefit to nintedanib|Analysis based on investigator's assessment||1.75|0.95|0.1071
82473737|NCT00806819|164642628|SUPERIORITY_OR_OTHER|||||||0.1558|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the central independent review||||0.1558
82473738|NCT00806819|164642628|SUPERIORITY_OR_OTHER|||||||0.0565|TWO_SIDED|||||P-value generated from ANOVA model adjusted for baseline ECOG PS (0 vs. 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)|ANOVA|||Analysis based on the investigator's assessment||||0.0565
82473739|NCT00806819|164642629|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5068|TWO_SIDED|95.0|0.74|1.16|||Regression, Cox||HR below 1 favors nintedanib|HR, CI and p-value obtained from the proportional hazards model stratified by baseline ECOG PS (0 vs 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.16|0.74|0.5068
82473740|NCT00806819|164642630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1181|TWO_SIDED|95.0|0.66|1.05|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of cough. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no)||1.05|0.66|0.1181
82473741|NCT00806819|164642630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.4264|TWO_SIDED|95.0|0.77|1.12|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of dyspnoea. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>=1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.12|0.77|0.4264
82473742|NCT00806819|164642630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.8929|TWO_SIDED|95.0|0.84|1.23|||Regression, Cox||HR below 1 favors nintedanib|Analysis evaluating the time to deterioration of pain. HR, CI and p-value obtained from the prop. hazards model stratified by baseline ECOG PS (0 vs \>= 1), tumour histology (adenocarcinoma vs. non-adenocarcinoma), brain metastases at baseline (yes vs no) and prior treatment with bevacizumab (yes vs no).||1.23|0.84|0.8929
82473743|NCT00912197|164642667|SUPERIORITY|||||||0.135|||||||ANCOVA|||||||0.135
82473744|NCT00912197|164642668|SUPERIORITY|||||||0.688|||||||ANCOVA|||||||0.688
82473745|NCT00912197|164642669|SUPERIORITY|||||||0.715|||||||t-test, 2 sided|||after treatment, 56 days||||0.715
82473746|NCT00912197|164642670|SUPERIORITY|||||||0.578|||||||ANCOVA|||||||0.578
82548537|NCT05873751|164798091|OTHER||Calibrated VE|2.74|||||TWO_SIDED|95.0|-10.35|15.59|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||15.59|-10.35|
82548538|NCT05873751|164798092|OTHER||Calibrated VE|-2.2|||||TWO_SIDED|95.0|-23.5|13.85|||||VE = 1 - HR\*100. The HRs were estimated by exponentiating the coefficient for the vaccine variable in the model. VE was adjusted for the covariates age, gender, and US census region.|||13.85|-23.50|
82548539|NCT01772472|164798093|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001||95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<0.0001
82579968|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.6|0.94|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 19F||0.94|0.60|
82473747|NCT00912197|164642670|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||baseline to after treatment, at 56 days||||0.007
82473748|NCT00912197|164642670|SUPERIORITY|||||||0.05||||||calculated|t-test, 2 sided|||baseline to after treatment, at 56 days||||0.05
82473749|NCT00912197|164642674|SUPERIORITY|||||||0.024|||||||ANCOVA|||Acetate||||0.024
82473750|NCT00756613|164642680|EQUIVALENCE|We considered a 20% reduction in primary events to be a reasonable goal of intensive glycemic control over the anticipated 15-year study time period. This effect size was chosen by taking into consideration both the probability of observing an effect of that size given the level of achieved A1c separation, and the perceived value to the patient of this level of benefit relative to the risk and burden of intensive glycemic control.|Cox Proportional Hazard|0.91||||0.24|TWO_SIDED|95.0|0.78|1.06|||Regression, Cox|||To determine the long term effects of intensive glycemic control in type 2 diabetes on major cardiovascular events.||1.06|0.78|0.24
82473751|NCT00756613|164642681|EQUIVALENCE|The equivalence margin is expected 20% reduction for the intensive treatment group compared to the standard treatment group.|Cox Proportional Hazard|1.02||||0.81|TWO_SIDED|95.0|0.88|1.18|||Regression, Cox|||||1.18|0.88|0.81
82473752|NCT00756613|164642682|EQUIVALENCE|The equivalence margin is 20% reduction of intensive treatment group versus standard treatment group.|Cox Proportional Hazard|0.9||||0.48|TWO_SIDED|95.0|0.67|1.2|||Regression, Cox|||||1.20|0.67|0.48
82548540|NCT01772472|164798094|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001||95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<0.0001
82473753|NCT00756613|164642684|EQUIVALENCE|T-test comparing between the two groups of treatment using the average score of last two surveys.|Mean Difference (Final Values)|1.61||||0.172|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.172
82473754|NCT04901715|164642685|OTHER|||||||0.002|||||||ANOVA|||||||0.002
82473755|NCT04901715|164642685|OTHER|||||||0.054|||||||ANOVA|||||||0.054
82473756|NCT04901715|164642685|OTHER|||||||0.27|||||||ANOVA|||||||0.27
82473757|NCT04901715|164642686|OTHER|||||||0.014|||||||ANOVA|||||||0.014
82473758|NCT04901715|164642686|OTHER|||||||0.066|||||||ANOVA|||||||0.066
82473759|NCT04901715|164642686|OTHER|||||||0.58|||||||ANOVA|||||||0.58
82473760|NCT01326104|164642688|SUPERIORITY||comparing two curves|0.286||||0.927|TWO_SIDED|90.0|0.107|0.764||This is the p-value comparing Group A with historical control.|Log Rank|One sample log rank.||Based on published literature, PFS-12 for patients with recurrent disease after initiating treatment with HDC + PBSCT or standard salvage therapy was 33% (95% confidence interval of 10%, 59%). The study was designed to differentiate between a PFS-12 rate of 33% (null hypothesis) and 55% (alternative hypothesis). If 35 patients enrolled, this assessment has 90% power assuming a type I error rate of 0.10. We assume that PFS of historical controls follows exponential distribution.||0.764|0.107|0.927
82473761|NCT01326104|164642688|SUPERIORITY||compare two curves|0.0|||<|0.001|TWO_SIDED|||||This is the p-value comparing Group B with historical control.|Log Rank|||Based on published literature, PFS-12 for patients with recurrent disease after initiating treatment with HDC + PBSCT or standard salvage therapy was 33% (95% confidence interval of 10%, 59%). The study was designed to differentiate between a PFS-12 rate of 33% (null hypothesis) and 55% (alternative hypothesis). If 35 patients enrolled, this assessment has 90% power assuming a type I error rate of 0.10. We assume that PFS of historical controls follows exponential distribution.||||<0.001
82376889|NCT03104400|164460615|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|41.1|||<|0.0001|TWO_SIDED|95.0|32.5|49.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||49.6|32.5|<0.0001
82473762|NCT01326104|164642688|SUPERIORITY||Comparing two curves|0.091|||<|0.001|TWO_SIDED|90.0|0.03|0.276||This is the p-value comparing Groups A and B combined with historical control.|Log Rank|||||0.276|0.03|<0.001
82473763|NCT00494676|164642695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2|||=|0.001|TWO_SIDED|95.0|1.8|21.0|||McNemar||The marginal odds ratio based on discordant pairs was computed.|The analysis used a McNemar test for data combined across both periods of the crossover. We estimated that 70% and 35% of participants would say yes to the real and sham prisms, respectively. For a 2-tailed test, the minimum sample size to detect a 35% difference in yes responses to real and sham prisms was 57 participants, assuming 30% overlap (30% said yes to both pairs of glasses), power of 90% and α of 1%. Assuming an attrition rate of 20%, we planned to enroll 68 participants.||21.0|1.8|= 0.001
82473764|NCT00494676|164642696|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|2.6|=|0.09|TWO_SIDED|95.0|-0.1|1.3|||t-test, 2 sided|||Mobility improvement scores were normally distributed. A paired t-test was used to conduct a within-subjects comparison of the crossover differences in mobility scores between real and sham prism glasses. An alpha level of 5% was used to indicate statistical significance for secondary analyses||1.3|-0.1|= 0.09
82473765|NCT00494676|164642697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|2.7|=|0.002|TWO_SIDED|95.0|0.7|3.0|||t-test, 2 sided|||||3.0|0.7|= 0.002
82473766|NCT00494676|164642698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|2.1|=|0.21|TWO_SIDED|95.0|-1.2|0.3|||t-test, 2 sided|||||0.3|-1.2|= 0.21
82473767|NCT02100696|164642728|SUPERIORITY||Adjusted difference in response rates|12.2||||0.0033|TWO_SIDED|95.0|3.95|17.67|||Cochran-Mantel-Haenszel|||||17.67|3.95|0.0033
82473768|NCT02100696|164642729|SUPERIORITY||Treatment Difference|3.8||||0.4956|TWO_SIDED|95.0|-7.13|14.56|||Cochran-Mantel-Haenszel|||||14.56|-7.13|0.4956
82473769|NCT02100696|164642730|SUPERIORITY||Adjusted Difference in Remission Rates|12.5||||0.0028|TWO_SIDED|95.0|4.19|17.94||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||17.94|4.19|0.0028
82473770|NCT02100696|164642731|SUPERIORITY||Adjusted Difference in Response Rates|14.3||||0.0241|TWO_SIDED|95.0|3.21|24.14||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||24.14|3.21|0.0241
82473771|NCT02100696|164642732|SUPERIORITY||Adjusted Difference in Response Rates|8.1||||0.1605|TWO_SIDED|95.0|-2.54|17.22||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||17.22|-2.54|0.1605
82473772|NCT02100696|164642733|SUPERIORITY||Adjusted Difference in Remission Rates|7.6||||0.3881|TWO_SIDED|95.0|-1.22|13.66||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||13.66|-1.22|0.3881
82473773|NCT02100696|164642734|SUPERIORITY||Adjusted Difference in Remission Rates|4.9||||0.5879|TWO_SIDED|95.0|-6.78|14.69||Multiplicity P-value reported (adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||14.69|-6.78|0.5879
82473774|NCT02100696|164642735|SUPERIORITY||Difference in Unadjusted Means|-0.2||||0.0351|TWO_SIDED|95.0|-0.5|0.0||Multiplicity P-value reported (adjusted for multiplicity)|ANCOVA|||||-0.0|-0.5|0.0351
82473775|NCT02100696|164642736|SUPERIORITY||Difference in Unadjusted Means|-0.2||||0.2698|TWO_SIDED|95.0|-0.4|0.1||Multiplicity P-value reported (adjusted for multiplicity)|ANCOVA|||||0.1|-0.4|0.2698
82473776|NCT02100696|164642737|SUPERIORITY||Difference in Least Square Means|-1.6||||0.2698|TWO_SIDED|95.0|-2.9|-0.3||Multiplicity P-value reported (adjusted for multiplicity)|Mixed Models Analysis|||||-0.3|-2.9|0.2698
82473777|NCT02100696|164642738|SUPERIORITY||Difference in Least Square Means|-0.5||||0.3881|TWO_SIDED|95.0|-1.0|0.0||Multiplicity P-value reported (adjusted for multiplicity)|Mixed Models Analysis|||||0.0|-1.0|0.3881
82548541|NCT01772472|164798095|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.44|0.66|||Log Rank|||||0.66|0.44|<.0001
82548542|NCT01772472|164798096|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<.0001
82548543|NCT01772472|164798097|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001||95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<0.0001
82548544|NCT01772472|164798098|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|95.0|0.46|0.69|||Log Rank|||||0.69|0.46|<.0001
82548545|NCT01772472|164798099|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<0.0001
82548546|NCT01772472|164798100|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001||95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<0.0001
82548547|NCT01772472|164798101|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.48|0.7|||Log Rank|||||0.70|0.48|<.0001
82548548|NCT01772472|164798102|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082|TWO_SIDED|95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
82548549|NCT01772472|164798103|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082||95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
82548550|NCT01772472|164798104|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0082|TWO_SIDED|95.0|0.53|0.91|||Log Rank|||||0.91|0.53|0.0082
82548551|NCT01772472|164798105|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001||95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.0001
82548552|NCT01772472|164798106|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001||95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.0001
82548553|NCT01772472|164798107|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<.0001
82548554|NCT04757610|164798143|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.023||0.284421|TWO_SIDED|95.0|-3.1|0.91|||MMRM|||||0.91|-3.10|0.284421
82548555|NCT04757610|164798143|SUPERIORITY||Least Squares Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|1.025||0.066678|TWO_SIDED|95.0|-3.9|0.13|||MMRM|||||0.13|-3.90|0.066678
82548556|NCT03811366|164798154|OTHER||||||<|0.001||||||significance when p\<0;05|generalized estimated equation|generalized estimated equation with normal distribution and logarithmic link function||||||<0.001
82548557|NCT03811366|164798157|OTHER|||||||0.054||||||significance when p\<0.05|Fisher Exact|||Recurrence or worsening of cells in anterior chamber in ERG-stable and ERG worsening group.||||0.054
82548558|NCT03811366|164798158|OTHER|||||||0.478||||||17 eyes presented dark dots fluctuation during follow up in stable ERG group when compared to 5 eyes in worsening ERG group.|generalized estimated equation|Generalized estimated equation with Poisson distribution and identity link function supposing an interchangeable correlation matrix between the eyes||||||0.478
82548559|NCT03811366|164798160|OTHER|9 (52.9%) eyes in ERG stable group x 4 (57.1%)eyes presented change in perivascular leakage during follow up (p=0.936).||||||0.936|||||||Generalized estimated equation|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes;||Change in perivascular leakage in ERG-stable and ERG- worsening groups.||||0.936
82548560|NCT03811366|164798161|OTHER|||||||0.853||||||significance when p\<0.05|Generalized estimated equation|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes;||||||0.853
82473778|NCT02100696|164642739|SUPERIORITY||Difference in Adjusted Means|9.1||||0.0445|TWO_SIDED|95.0|0.2|17.9||Nominal P-value reported (not adjusted for multiplicity)|ANCOVA|||||17.9|0.2|0.0445
82548561|NCT03811366|164798162|OTHER|||||||0.272||||||significance when p\<0.05|Fisher Exact|||||||0.272
82548562|NCT03811366|164798163|OTHER|||||||0.983||||||significance when p\<0.05|Generalized estimated equation with bino|Generalized estimated equation with binomial distribution and logit link function, supposing an interchangeable correlation matrix between the eyes||||||0.983
82548563|NCT06143670|164798169|SUPERIORITY||||||<|0.0001|||||||Mixed Model with Repeated Measures|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
82548564|NCT06143670|164798170|SUPERIORITY||Adjusted Mean Difference|-16.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.0001|TWO_SIDED|95.0|-19.6|-14.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-14.1|-19.6|<0.0001
82548565|NCT06143670|164798171|SUPERIORITY||Adjusted Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-18.9|-13.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-13.1|-18.9|<0.0001
82548566|NCT06143670|164798171|SUPERIORITY||Adjusted Mean Difference|-17.6|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-19.9|-15.3|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-15.3|-19.9|<0.0001
82548567|NCT06143670|164798172|SUPERIORITY||Adjusted Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|-0.35|-0.2|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.20|-0.35|<0.0001
82548568|NCT06143670|164798172|SUPERIORITY||Adjusted Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|-0.26|-0.13|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.13|-0.26|<0.0001
82548569|NCT06143670|164798172|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.36|-0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.22|-0.36|<0.0001
82548570|NCT06143670|164798173|SUPERIORITY||Adjusted Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.28|-0.16|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.16|-0.28|<0.0001
82548571|NCT06143670|164798173|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|-0.21|-0.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.10|-0.21|<0.0001
82548572|NCT06143670|164798173|SUPERIORITY||Adjusted Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.3|-0.18|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.18|-0.30|<0.0001
82548573|NCT06143670|164798174|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.15|-0.1|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.10|-0.15|<0.0001
82548574|NCT06143670|164798174|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|-0.17|-0.13|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.13|-0.17|<0.0001
82548575|NCT06143670|164798174|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.16|-0.11|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.11|-0.16|<0.0001
82548576|NCT06143670|164798175|SUPERIORITY||Adjusted Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|-0.74|-0.53|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.53|-0.74|<0.0001
82548577|NCT06143670|164798175|SUPERIORITY||Adjusted Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|-0.74|-0.56|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.56|-0.74|<0.0001
82548578|NCT06143670|164798175|SUPERIORITY||Adjusted Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.77|-0.58|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.58|-0.77|<0.0001
82548579|NCT02815813|164798180|SUPERIORITY||||||<|0.01|||||||GLMM|||||||<0.01
82548580|NCT02815813|164798181|SUPERIORITY||||||<|0.01|||||||GLMM|||||||<0.01
82548581|NCT05902793|164798209|NON_INFERIORITY|the non-inferiority margin is 20%|least square means difference|0.89|||||TWO_SIDED|95.0|-14.3|16.07|||||To establish non-inferiority the lower limit of the least square mean difference had to be \> -20%.|||16.07|-14.30|
82548582|NCT05902793|164798211|SUPERIORITY|||||||0.24|||||||ANCOVA|ANCOVA model had fixed effects of treatment arm, center and wound size||||||0.24
82548583|NCT02379156|164798253|SUPERIORITY||||||<|0.001|||||||ANOVA|||Between-group differences in the change in core body temperature (Tcore) from baseline (BL) values to after cold exposure (Cold) were analyzed using a Mixed Model ANOVA. We hypothesized that participants with tetraplegia would have a greater decrease in Tcore when exposed to cool ambient temperature than control participants exposed to the same cool ambient temperature.||||<0.001
82548584|NCT02379156|164798253|SUPERIORITY|||||||0.006|||||||ANOVA|||Within-group differences in the change in (Tcore) in the participants with tetraplegia from BL values to Cold, with and without a dose of 10 mg of midodrine (two separate visits), were analyzed using a Repeated Measures ANOVA .||||0.006
82548585|NCT02379156|164798254|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||Between-group differences in the percent change in total WAIS IV scores from BL to after cold ambient exposure were analyzed using an independent samples T-test. We hypothesized that participants with tetraplegia would have a greater percent change in total WAIS IV scores due to impaired cognitive function post cool ambient exposure.||||.042
82548586|NCT02379156|164798254|SUPERIORITY|||||||0.149|||||||t-test, 2 sided|||"Within-group differences in the percent change in total WAIS IV scores from BL to after cold ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a greater percent change in total WAIS IV scores than the same participants in the With drug condition."||||0.149
82548587|NCT02379156|164798255|SUPERIORITY||||||<|0.001|||||||ANOVA|||Between-group differences in the change in distal skin temperature temperature (Tsk) from baseline (BL) values to after ambient cold exposure (Cold) were analyzed using a mixed-model ANOVA for the AB vs Tetra comparison. We hypothesized that participants with tetraplegia would have a smaller change in Tsk due to being in a constant state of vasodilation.||||<0.001
82548588|NCT02379156|164798255|SUPERIORITY||||||<|0.001|||||||ANOVA|||Within-group differences in the change in distal skin temperature temperature (Tsk) from baseline (BL) values to after ambient cold exposure (Cold) were analyzed using a repeated measures ANOVA for the within-group comparison of drug vs no drug in the tetraplegia group. We hypothesized that participants with tetraplegia with drug would have a larger decrease in Tsk due to enhanced peripheral vasoconstriction due to the drug's effects.||||<.001
82548589|NCT02379156|164798256|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Between-group differences in the percent change in microvascular perfusion from baseline to after cool ambient exposure were analyzed using independent samples T-test. We hypothesized that participants with tetraplegia would have a smaller percent change in microvascular perfusion due impaired vasomotor control which causes a constant state of vasodilation.||||<0.001
82548590|NCT02379156|164798256|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||"Within-group differences in the percent change in microvascular perfusion from baseline to after cool ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a smaller percent change in microvascular perfusion due impaired vasomotor control which causes a constant state of vasodilation."||||0.066
82548591|NCT02379156|164798257|SUPERIORITY|||||||0.127|||||||t-test, 2 sided|||Between-group differences in the percent change in VO2 from baseline to after cool ambient exposure were analyzed using independent samples t-test. We hypothesized that participants with tetraplegia would have a smaller percent change in VO2 consumption.||||0.127
82548592|NCT02379156|164798257|SUPERIORITY|||||||0.964|||||||t-test, 2 sided|||"Within-group differences in the percent change in VO2 consumption from baseline to after cool ambient exposure were analyzed using a paired samples t-test. We hypothesized that participants with tetraplegia in the No Drug condition would have a greater percent change in VO2 consumption due to impaired vasoconstriction and greater heat loss compared to the With Drug condition, in response to cool ambient exposure."||||0.964
82548593|NCT04172441|164798269|SUPERIORITY||Difference in LS means|-5.21||||0.0037|TWO_SIDED|95.0|-8.29|-2.13|||Mixed Models Analysis|A mixed model was used, with treatment and period as fixed effects and patient as random effect.|The comparison was in the direction of dasiglucagon minus placebo.|Null hypothesis: weighted mean IV GIR in the last 12 hours of treatment with dasiglucagon = weighted mean IV GIR in the last 12 hours of treatment with placebo||-2.13|-8.29|0.0037
82548594|NCT04172441|164798270|SUPERIORITY||Difference in LS means|-30.93||||0.0238|TWO_SIDED|95.0|-56.8|-5.05|||Mixed Models Analysis|A mixed model was used, with treatment and period as fixed effects and patient as random effect.|The comparison was in the direction of dasiglucagon minus placebo.|Null hypothesis: Total amount of carbohydrates administered (regardless of route) per day in patients treated with dasiglucagon = total amount of carbohydrates administered (regardless of route) per day in patients treated with placebo||-5.05|-56.80|0.0238
82548595|NCT01180634|164798368|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.0715|TWO_SIDED|95.0|0.96|1.84||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||1.84|0.96|0.0715
82473779|NCT02100696|164642740|SUPERIORITY||Adjusted Difference in Remission Rates|0.1||||0.9959|TWO_SIDED|95.0|-19.67|19.88||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||19.88|-19.67|0.9959
82473780|NCT02100696|164642741|SUPERIORITY||Adjusted Difference in Remission Rates|3.8||||0.5014|TWO_SIDED|95.0|-7.26|14.7||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||14.70|-7.26|0.5014
82473781|NCT02100696|164642742|SUPERIORITY||Adjusted Difference in Remission Rates|0.6||||0.9538|TWO_SIDED|95.0|-19.08|20.35||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||20.35|-19.08|0.9538
82473782|NCT02100696|164642743|SUPERIORITY||Adjusted Difference in Response Rates|14.5||||0.0153|TWO_SIDED|95.0|2.66|25.78||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||25.78|2.66|0.0153
82473783|NCT02100696|164642744|SUPERIORITY||Adjusted Difference in Remission Rates|16.8||||0.0073|TWO_SIDED|95.0|4.44|28.41||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||28.41|4.44|0.0073
82473784|NCT02100696|164642745|SUPERIORITY||Adjusted Difference in Remission Rates|11.9||||0.0174|TWO_SIDED|95.0|1.87|21.71||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.71|1.87|0.0174
82473785|NCT02100696|164642746|SUPERIORITY||Adjusted Difference in Remission Rates|7.3||||0.3015|TWO_SIDED|95.0|-6.83|21.6||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.60|-6.83|0.3015
82473786|NCT02100696|164642747|SUPERIORITY||Adjusted Difference in Remission Rates|7.4||||0.2787|TWO_SIDED|95.0|-6.23|21.17||Nominal P-value reported (not adjusted for multiplicity)|Cochran-Mantel-Haenszel|||||21.17|-6.23|0.2787
82473787|NCT02100696|164642748|SUPERIORITY||Difference in Least Square Means|-1.5||||0.0763|TWO_SIDED|95.0|-3.1|0.2||Nominal P-value reported (not adjusted for multiplicity)|Mixed Models Analysis|||||0.2|-3.1|0.0763
82473788|NCT02100696|164642749|SUPERIORITY||Difference in Least Square Means|-0.2||||0.5329|TWO_SIDED|95.0|-1.0|0.5||Nominal P-value reported (not adjusted for multiplicity)|Mixed Models Analysis|||||0.5|-1.0|0.5329
82473789|NCT02100696|164642750|SUPERIORITY||Difference in Adjusted Means|-4.9||||0.2228|TWO_SIDED|95.0|-12.7|3.0||Nominal P-value reported (not adjusted for multiplicity)|ANCOVA|||||3.0|-12.7|0.2228
82579969|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.59|||||TWO_SIDED|95.0|0.46|0.77|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 23F||0.77|0.46|
82473790|NCT00078897|164642764|OTHER|Negative binomial regression|Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.91|1.16|||Negative binomial regression|||||1.16|0.91|0.68
82473791|NCT03776812|164642790|OTHER||Hazard Ratio (HR)|0.83||||0.3293|TWO_SIDED|95.0|0.56|1.22|||Cox proportional hazards model|||||1.22|0.56|0.3293
82473792|NCT03776812|164642790|OTHER||Hazard Ratio (HR)|0.66||||0.0384|TWO_SIDED|95.0|0.44|0.98|||Cox proportional hazards model|||||0.98|0.44|0.0384
82473793|NCT04758637|164642869|SUPERIORITY||Mean Difference (Final Values)|7.62||||0|TWO_SIDED|95.0|2.4|13.59||The calculated p-value is 7.62E-10.|Zero-inflated Poisson mixed regression|Model estimates were used to derive estimated difference in difference value. Confidence intervals were bootstrapped using 1000 repetitions.||Null hypothesis is the difference in difference in estimated mean pill counts from the last week of baseline (week 26) to the last week of the intervention period (week 53) between control and non-fatal is 0.||13.59|2.4|0
82473794|NCT04758637|164642869|SUPERIORITY||Mean Difference (Final Values)|-14.65||||0|TWO_SIDED|95.0|-25.14|-6.97||The calculated p-value is 2E-16.|Zero-inflated Poisson mixed regression|Model estimates were used to derive estimated difference in difference value. Confidence intervals were bootstrapped using 1000 repetitions.||Null hypothesis is the difference in difference in estimated means from the study start (week 0) to the study end (week 23) between control and fatal is 0.||-6.97|-25.14|0
82473795|NCT04758637|164642870|SUPERIORITY||Slope|0.72||||0.219|TWO_SIDED|95.0|-0.43|1.86|||Regression, Logistic|||||1.86|-0.43|0.219
82473796|NCT04758637|164642870|SUPERIORITY||Slope|-0.72||||0.229|TWO_SIDED|95.0|-1.9|0.46|||Regression, Logistic|||||0.46|-1.9|0.229
82500292|NCT01285310|164691302|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.007||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
82500293|NCT01285310|164691302|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.15|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, treatment group as a factor and the baseline value as a covariate.|||||
82500294|NCT01285310|164691303|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate|||||
82500295|NCT01285310|164691303|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.77|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate.|||||
82500296|NCT01285310|164691304|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.21||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16; treatment group as a factor and the baseline value as a covariate.||||||
82500297|NCT01285310|164691304|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
82500298|NCT01285310|164691305|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.5||||||||||||||||||
82500299|NCT01285310|164691305|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-7.2||||||||||||||||||
82500300|NCT01285310|164691306|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, treatment group as a factor and the baseline value as a covariate.||||||
82500301|NCT01285310|164691306|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.02|||||TWO_SIDED|||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
82500302|NCT01285310|164691307|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.15|||||||||||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
82548596|NCT01180634|164798369|SUPERIORITY||LSMean difference|1.41||||0.0213|TWO_SIDED|95.0|0.21|2.6|||Repeared Measures Model||Estimates are determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||2.60|0.21|0.0213
82548597|NCT01180634|164798370|SUPERIORITY||LSMean difference|-0.63||||0.0002|TWO_SIDED|95.0|-0.95|-0.3|||Repeated Measures Model||Estimates are determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12-18 years, \>18 years), baseline FEV1 (\<55%, \>=55%), and baseline organism log density.|||-0.30|-0.95|0.0002
82548598|NCT01180634|164798371|SUPERIORITY||LSMean difference|0.28||||0.8335|TWO_SIDED|95.0|-2.3|2.85|||Repeated Measures Model||Estimates were determined from a repeated measures model with terms for treatment, visit, treatment\*visit, region (US, non-US), age (12 to 18 years, \> 18 years), Baseline FEV1 (\<55%, ≥ 55%), and Baseline value.|||2.85|-2.30|0.8335
82548599|NCT01180634|164798372|SUPERIORITY||LSMean difference|2.42||||0.0122|TWO_SIDED|95.0|0.53|4.31|||Repeated Measures Model|||||4.31|0.53|0.0122
82548600|NCT01180634|164798373|SUPERIORITY||Cox Proportional Hazard|0.82||||0.3|TWO_SIDED|95.0|0.6|1.12||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||1.12|0.60|0.3000
82548601|NCT01180634|164798374|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.867|TWO_SIDED|95.0|0.47|2.04||P-value is determined using a log-rank test stratified by region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|Log Rank||Hazard ratio is obtained from a Cox proportional hazards regression model adjusting for region (US, non-US), age (12-18 years, \>18 years), and baseline FEV1 (\<55%, \>=55%).|||2.04|0.47|0.8670
82548602|NCT04419168|164798383|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.57|TWO_SIDED|95.0|-1.3|2.37|||Mixed Models Analysis|||||2.37|-1.30|.57
82548603|NCT04419168|164798384|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.79|TWO_SIDED|95.0|-0.46|0.61|||Mixed Models Analysis|||||0.61|-0.46|0.79
82548604|NCT04419168|164798385|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.75|TWO_SIDED|95.0|-1.55|1.12|||Mixed Models Analysis|||||1.12|-1.55|0.75
82548605|NCT04419168|164798386|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.31|TWO_SIDED|95.0|-0.6|1.87|||Mixed Models Analysis|||||1.87|-0.60|0.31
82548606|NCT04419168|164798387|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.91|TWO_SIDED|95.0|-1.77|1.99|||Mixed Models Analysis|||These results correspond to ASCQ-Me Social Functioning Impact only.||1.99|-1.77|0.91
82548607|NCT04419168|164798387|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.05|TWO_SIDED|95.0|-0.03|3.46|||Mixed Models Analysis|||These results correspond to ASCQ-Me Emotional Impact only.||3.46|-0.03|0.05
82548608|NCT04419168|164798388|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.12|TWO_SIDED|95.0|-0.31|2.56|||Mixed Models Analysis|||||2.56|-0.31|0.12
82548609|NCT04419168|164798389|SUPERIORITY||Mean Difference (Final Values)|-0.0024||||0.91|TWO_SIDED|95.0|-0.0443|0.0395|||Mixed Models Analysis|||||0.0395|-0.0443|0.91
82548610|NCT04419168|164798390|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.68|TWO_SIDED|95.0|-1.61|2.48|||Mixed Models Analysis|||||2.48|-1.61|0.68
82548611|NCT04419168|164798391|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.75|TWO_SIDED|95.0|-0.46|0.63|||Mixed Models Analysis|||||0.63|-0.46|0.75
82548612|NCT04419168|164798392|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.14|TWO_SIDED|95.0|-2.56|0.35|||Mixed Models Analysis|||||0.35|-2.56|0.14
82548613|NCT04419168|164798393|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.75|TWO_SIDED|95.0|-1.69|1.21|||Mixed Models Analysis|||||1.21|-1.69|0.75
82548614|NCT04419168|164798394|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.49|TWO_SIDED|95.0|-1.3|2.71|||Mixed Models Analysis|||These results correspond to ASCQ-Me Social Functioning Impact only.||2.71|-1.30|0.49
82548615|NCT04419168|164798394|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.037|TWO_SIDED|95.0|0.12|3.88|||Mixed Models Analysis|||These results correspond to ASCQ-Me Emotional Impact only.||3.88|0.12|0.037
82548616|NCT04419168|164798395|SUPERIORITY||Mean Difference (Final Values)|2.13||||0.008|TWO_SIDED|95.0|0.56|3.71|||Mixed Models Analysis|||||3.71|0.56|0.008
82548617|NCT04419168|164798396|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.56|TWO_SIDED|95.0|-1.51|0.82|||Mixed Models Analysis|||||0.82|-1.51|0.56
82548618|NCT04419168|164798397|SUPERIORITY||Mean Difference (Final Values)|-0.0013||||0.95|TWO_SIDED|95.0|-0.0464|0.0437|||Mixed Models Analysis|||||0.0437|-0.0464|0.95
82548619|NCT04419168|164798398|SUPERIORITY||Incidence Rate Ratio|1.11||||0.49|TWO_SIDED|95.0|0.83|1.48|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||1.48|0.83|0.49
82548620|NCT04419168|164798399|SUPERIORITY||Incidence Rate Ratio|1.43||||0.1|TWO_SIDED|95.0|0.93|2.18|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||2.18|0.93|0.10
82548621|NCT04419168|164798400|SUPERIORITY||Incidence Rate Ratio|1.31||||0.22|TWO_SIDED|95.0|0.85|2.03|||Negative Binomial Regression|Adjustments were made for clinic site, baseline depression (high vs low), and corresponding health care use in the 12 months prior to study entry.||||2.03|0.85|0.22
82548622|NCT04640961|164798401|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82548623|NCT04640961|164798402|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82548624|NCT04640961|164798403|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82548625|NCT05009251|164798426|SUPERIORITY|||||||0.054|||||||Regression, Linear|||This analysis compared groups that were informed they were high risk (High Risk Only, High Risk Based on Medical Records, High Risk Based on Algorithm) to Reminder Control patients who were sent messages that did not disclose their risk status. Null hypothesis: messages that inform patients they are high risk do not increase flu vaccination rate vs. messages that do not disclose risk status; Alternative hypothesis: messages that inform patients they are high risk increase flu vaccination rate.||||.054
82579970|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|202.58|||||TWO_SIDED|95.0|157.04|261.32|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 1||261.32|157.04|
82473797|NCT00048074|164642892|NON_INFERIORITY_OR_EQUIVALENCE|The IV dosing regimen (2mg q 2 mo IV) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.257|||<|0.001|TWO_SIDED|95.0|0.701|1.814|||ANOVA||Treatment effect is the difference in the mean values of the IV regimen (2mg q 2 mo IV) and the active-control.|The primary hypothesis was that the difference in the effects of daily oral ibandronate and IV ibandronate (2mg q 2 mo IV) on the relative change in lumbar spine BMD (L2 - L4) was small, no more than 1%, the margin of clinical equivalence.||1.814|0.701|<0.001
82548626|NCT05009251|164798426|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||This analysis compared groups that were informed they were high risk (High Risk Only, High Risk Based on Medical Records, High Risk Based on Algorithm) to No-Contact Control patients who were not sent messages. Null hypothesis: messages that inform patients they are high risk do not increase flu vaccination rate relative to no messages; Alternative hypothesis: messages that inform patients they are high risk increase flu vaccination rate.||||<.001
82548627|NCT05009251|164798426|SUPERIORITY|||||||0.24|||||||Regression, Linear|||This analysis compared groups who received messages including risk reasons (High Risk Based on Medical Records, High Risk Based on Algorithm) to messages that mentioned patients' risk status but do not include reasons (High Risk Only). Null hypothesis: messages that include risk reasons do not increase flu vaccination rate relative to high-risk messages that do not include risk reasons; Alternative hypothesis: messages including risk reasons are more effective at increasing vaccination rates.||||.240
82548628|NCT05009251|164798426|SUPERIORITY|||||||0.047|||||||Regression, Linear|||Null hypothesis: flu-shot messages that do not mention high-risk status do not increase vaccination relative to no messages; Alternative hypothesis: flu shot messages that do not mention high-risk status increase flu shots relative to no messages.||||.047
82548629|NCT05009251|164798426|SUPERIORITY|||||||0.781||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Only and High Risk Based on Medical Records messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Only and High Risk Based on Medical Records.||||.781
82548630|NCT05009251|164798426|SUPERIORITY|||||||0.361||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Only and High Risk Based on Algorithm messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Only and High Risk Based on Algorithm.||||.361
82548631|NCT05009251|164798426|SUPERIORITY|||||||0.77||||||Pairwise comparisons between high-risk messages (Analyses 5, 6 and 7) were analyzed in the same regression. Reported p-values were adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: High Risk Based on Medical Records and High Risk Based on Algorithm messages are equally effective at promoting flu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High Risk Based on Medical Records and High Risk Based on Algorithm.||||.770
82548632|NCT06311084|164798454|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548633|NCT06311084|164798455|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548634|NCT06311084|164798456|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548635|NCT06311084|164798457|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548636|NCT06311084|164798458|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548637|NCT06311084|164798459|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548638|NCT06311084|164798460|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548639|NCT06311084|164798461|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548640|NCT06311084|164798462|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548641|NCT06311084|164798463|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548642|NCT06311084|164798464|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548643|NCT06311084|164798465|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548644|NCT06311084|164798466|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548645|NCT06311084|164798467|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548646|NCT06311084|164798468|OTHER|We used Wilcoxon Signed-Rank Test for our non-normally distributed data to compare scores before and after the Imaginator intervention.||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82548647|NCT03988634|164798469|SUPERIORITY||Geometric Mean Ratio|0.8546||||0.0492|TWO_SIDED|95.0|0.7307|0.9994|||ANCOVA||Geometric Mean Ratio: sac/val vs valsartan|||0.9994|0.7307|0.0492
82548648|NCT03988634|164798470|SUPERIORITY||Win Ratio|1.193||||0.1578|TWO_SIDED|95.0|0.934|1.524|||unmatched pairwise win-ratio||A win ratio greater than 1 was in favor of sacubitril/valsartan arm|||1.524|0.934|0.1578
82473798|NCT00048074|164642892|NON_INFERIORITY_OR_EQUIVALENCE|The IV dosing regimen (3mg q 3 mo IV) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.025|||<|0.001|TWO_SIDED|95.0|0.471|1.578|||ANOVA||Treatment effect is the difference in the mean values of the IV regimen (3mg q 3 mo IV) and the active-control.|The primary hypothesis was that the difference in the effects of daily oral ibandronate and IV ibandronate (3mg q 3 mo IV) on the relative change in lumbar spine BMD (L2 - L4) was small, no more than 1%, the margin of clinical equivalence.||1.578|0.471|<0.001
82473799|NCT00356304|164642943|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANCOVA|||||||<.05
82473800|NCT03237286|164642947|SUPERIORITY|||||||0.0004|||||||Regression, Linear|||||||.0004
82473801|NCT00826202|164643020|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|cohen's d= 0.67||||||0.07
82473802|NCT00826202|164643021|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED||||||t-test, 2 sided|cohen's d=0.84||||||.056
82473803|NCT00826202|164643022|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Mixed Models Analysis|Cohen's d=0.68||||||0.03
82473804|NCT00826202|164643023|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Mixed Models Analysis|cohen's d=0.93||||||0.12
82473805|NCT04073225|164643050|SUPERIORITY||Mean Difference (Net)|-33.8||||0.323|TWO_SIDED|95.0|-100.9|33.2|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||33.2|-100.9|.323
82473806|NCT04073225|164643051|SUPERIORITY||Mean Difference (Net)|-81.3||||0.057|TWO_SIDED|95.0|-165.2|2.5|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||2.5|-165.2|.057
82473807|NCT04073225|164643052|SUPERIORITY||Mean Difference (Net)|3.1||||0.047|TWO_SIDED|95.0|0.03|6.08|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||6.08|0.03|.047
82473808|NCT04073225|164643053|SUPERIORITY||Mean Difference (Net)|0.59||||0.565|TWO_SIDED|95.0|-1.4|2.6|||Mixed Models Analysis|||Mixed effects models were fit including fixed effects for intervention arm, visit (baseline, 12 week) and intervention by visit interaction; and random intercepts and slopes for each participant.||2.6|-1.4|.565
82473809|NCT04073225|164643054|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|0.825||0.147|TWO_SIDED|95.0|-0.5|3.03|||t-test, 2 sided|||||3.03|-0.50|0.147
82473810|NCT04073225|164643055|SUPERIORITY||Mean Difference (Net)|99.4||||0.605|TWO_SIDED|95.0|-334.3|533.0|||t-test, 2 sided|||We conducted t-tests of differences in volumetric change comparing intervention to control arms.||533.0|-334.3|.605
82473811|NCT04073225|164643056|SUPERIORITY||Mean Difference (Net)|130.8||||0.59|TWO_SIDED|95.0|-259.7|248.6|||t-test, 2 sided|||We conducted t-tests of differences in volumetric change comparing intervention to control arms.||248.6|-259.7|.590
82548649|NCT03988634|164798471|SUPERIORITY||rate ratio|0.8346||||0.3563|TWO_SIDED|95.0|0.5684|1.2255|||LWYY model||A rate ratio \< 1 indicates an effect in favor of LCZ696|||1.2255|0.5684|0.3563
82548650|NCT03988634|164798472|SUPERIORITY||Rate ratio|0.6249||||0.3155|TWO_SIDED|95.0|0.2496|1.5649|||negative binomial regression model|||||1.5649|0.2496|0.3155
82473812|NCT04073225|164643057|SUPERIORITY||Mean Difference (Net)|-24.72|STANDARD_ERROR_OF_MEAN|73.85||0.743|TWO_SIDED|95.0|-183.11|133.68|||t-test, 2 sided|||||133.68|-183.11|.743
82473813|NCT04073225|164643058|SUPERIORITY||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|3.13||0.731|TWO_SIDED|95.0|-7.91|5.71|||t-test, 2 sided|||||5.71|-7.91|0.731
82473814|NCT03983317|164643137|OTHER|We tested if the average drinks consumed was statistically different in Week 2 of the Treatment Phase vs. the Baseline Phase. This was evaluated via a paired t-test.||||||0.026|||||||t-test, 2 sided|Paired t-test||||||0.026
82473815|NCT03983317|164643139|OTHER|We tested if the average craving intensity was statistically different in Week 2 of the Treatment Phase vs. the Baseline Phase. This was evaluated via a paired t-test.||||||0.001|||||||t-test, 2 sided|Paired t-test||||||0.001
82473816|NCT04335136|164643171|OTHER|||||||0.5207||||||The level of significance was 5% (2-sided).|Chi-squared|||"Hypothesis tested: H0: pAPN01 = pPlacebo; H1: pAPN01 ≠ pPlacebo (with p=proportion of patients with event).~A total of 186 patients (93 per group) was estimated to yield 80% power to detect a 20% absolute risk reduction in the primary, from 50% in the placebo group to 30% in the APN01 group, at a 2-sided alpha of 0.05. To consider patients who would be randomized but not treated, a total of 200 patients (100 per group) were planned to be enrolled."||||0.5207
82473817|NCT04335136|164643171|OTHER||Odds Ratio (OR)|0.63||||0.3588|TWO_SIDED|95.0|0.23|1.7|||Regression, Logistic|Degree of freedom: 1||||1.70|0.23|0.3588
82473818|NCT01305577|164643190|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.73|||<|0.001|TWO_SIDED|95.0|2.7|8.28|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||8.28|2.70|<0.001
82473819|NCT01305577|164643190|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.21|||<|0.001|TWO_SIDED|95.0|3.52|10.94|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|The odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo. An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme.||10.94|3.52|<0.001
82473820|NCT01305577|164643191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58||||0.028|TWO_SIDED|95.0|1.2|25.87|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||25.87|1.20|0.028
82548651|NCT03988634|164798473|SUPERIORITY||ratio of the change|0.9316||||0.4766|TWO_SIDED|95.0|0.7661|1.1329|||ANCOVA|||||1.1329|0.7661|0.4766
82548652|NCT03988634|164798474|SUPERIORITY||ratio of the change|0.8268|||<|0.0001|TWO_SIDED|95.0|0.76|0.91|||ANCOVA|||Week 4||0.91|0.76|<.0001
82548653|NCT03988634|164798474|SUPERIORITY||ratio of the change|0.8103|||<|0.0001|TWO_SIDED|95.0|0.74|0.89|||ANCOVA|||Week 8||0.89|0.74|<.0001
82548654|NCT04299009|164798484|OTHER|multilevel linear models with Epworth sleepiness score scores as the dependent variable; treatment block (BLT vs sBLT) as a fixed effect; treatment sequence as a covariate; and participant intercept as a random effect.|regression coefficient|2.45|||<|0.05|TWO_SIDED|95.0|-0.3|5.19|||Mixed Models Analysis|||||5.19|-0.30|<0.05
82548655|NCT05671029|164798608|NON_INFERIORITY|Null hypothesis: difference to placebo of change from baseline QTcF ≥ 10 ms.|Prediction @ mean max concentration|0.8|||<|0.05|TWO_SIDED|90.0|-1.3|2.9|||Mixed Models Analysis|||||2.9|-1.3|<0.05
82548656|NCT02596126|164798701|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI). If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.76|||<|0.025|TWO_SIDED|95.0|0.6|0.96|||Regression, Cox|||||0.96|0.6|< 0.025
82548657|NCT02596126|164798701|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82548658|NCT02596126|164798702|EQUIVALENCE|Treatment adherence is measured at visit 1 (6 months) and visit 3 (24 months) using the Morisky-Medication Adherence Scale (8 item) Questionnaire (MMAS-8). The number and percentage of patients with low (0-5), medium (6-7) and high (8) adherence will be reported by treatment group. The distributions of the MMAS-8 score at 6 months and 24 months will be compared between treatment groups using an ordinal logistic regression model.|Risk Ratio (RR)|1.13|||<|0.005|TWO_SIDED|95.0|1.06|1.2|||Chi-squared|||Statistical analysis title - Treatment adherence at 6 months||1.2|1.06|< 0.005
82548659|NCT02596126|164798703|SUPERIORITY|Time to first event will be investigated using Cox proportional hazards regression. Hazard ratios and 95% confidence intervals will be obtained from the Cox proportional hazards model. P-values will be obtained using the log-rank test.|Hazard Ratio (HR)|0.97|||<|0.05|TWO_SIDED|95.0|0.75|1.25|||Log Rank|||Statistical analysis title - All-cause death||1.25|0.75|< 0.05
82548660|NCT02596126|164798704|EQUIVALENCE|Treatment adherence is measured at visit 1 (6 months) and visit 3 (24 months) using the Morisky- Medication Adherence Scale (8 item) Questionnaire (MMAS-8). The number and percentage of patients with low (0-5), medium (6-7) and high(8) adherence will be reported by treatment group. The distributions of the MMAS-8 score at 6 months and 24 months will be compared between treatment groups using an ordinal logistic regression model.|Hazard Ratio (HR)|1.17|||<|0.005|TWO_SIDED|95.0|1.1|1.25|||Chi-squared|||Statistical analysis title - Treatment adherence at 24 months||1.25|1.1|< 0.005
82548661|NCT02596126|164798705|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.3|||<|0.05|TWO_SIDED|95.0|-1.8|1.2||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 6 months||1.2|-1.8|< 0.05
82548662|NCT02596126|164798706|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|1.4|||<|0.05|TWO_SIDED|95.0|-0.1|3.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 12 months||3|-0.1|< 0.05
82548663|NCT02596126|164798707|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-1.7|1.4||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - SBP - 24 months||1.4|-1.7|< 0.05
82376890|NCT03104400|164460616|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.29||||0.0002|TWO_SIDED|95.0|-0.44|-0.14|||ANCOVA|ANCOVA model including treatment and the stratification factor current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.14|-0.44|0.0002
82561932|NCT03331978|164833089|SUPERIORITY||Odds Ratio (OR)|1.82||||0.26|TWO_SIDED|95.0|0.64|5.18||As mentioned above, p-value comes from repeated measures regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where both post-intervention measurements were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for presence of viral suppression data were used. Fixed effects were an intervention indicator and baseline viral suppression. Model included all viral suppression data (a) at baseline and (b) close to either of the two follow-up surveys.||5.18|0.64|.26
82579971|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|24.11|||||TWO_SIDED|95.0|18.46|31.49|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 3||31.49|18.46|
82473821|NCT01305577|164643191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.05|||<|0.001|TWO_SIDED|95.0|2.75|52.9|||Regression, Logistic|Logistic regression analysis with treatment and Baseline CR-SMFRS value in the model.|Odds ratio was based on a logistic regression model adjusted for the Baseline score. Odds ratios \>1 indicate a positive treatment effect.|||52.90|2.75|<0.001
82548664|NCT02596126|164798708|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.2|||<|0.05|TWO_SIDED|95.0|-0.7|1.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 6 months||1|-0.7|< 0.05
82473822|NCT01305577|164643192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.99|||<|0.001|TWO_SIDED|95.0|1.74|5.14|||Regression, Logistic|Logistic regression analysis with treatment and Baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 1 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||5.14|1.74|<0.001
82473823|NCT01305577|164643192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.22|||<|0.001|TWO_SIDED|95.0|2.99|9.11|||Regression, Logistic|Logistic regression analysis with treatment and baseline SSRS value in the model|Odds ratio was based on a logistic regression model adjusted for Baseline score. Odds ratios \>1 indicate a positive treatment effect.|"The null hypothesis was there was no difference between deoxycholic acid 2 mg/cm² and placebo.~An adjustment for multiplicity was performed for the two co-primary endpoints. This was accounted for by using the larger of the two P-values in the Bonferroni-Holm scheme."||9.11|2.99|<0.001
82473824|NCT01305577|164643193|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.35|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.35|-0.68|<0.001
82473825|NCT01305577|164643193|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5|||Mixed Models Repeated Measures|The model included the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline CR-SMFRS values as covariate.||||-0.50|-0.84|<0.001
82473826|NCT01305577|164643194|SUPERIORITY_OR_OTHER||LS Mean Difference|1.04|||<|0.001|TWO_SIDED|95.0|0.61|1.47|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.47|0.61|<0.001
82473827|NCT01305577|164643194|SUPERIORITY_OR_OTHER||LS Mean Difference|1.41|||<|0.001|TWO_SIDED|95.0|0.99|1.84|||ANCOVA|The model includes the fixed effect factor treatment and the Baseline values as covariate.||||1.84|0.99|<0.001
82548665|NCT02596126|164798709|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.8|||<|0.05|TWO_SIDED|95.0|-0.1|1.6||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 12 months||1.6|-0.1|< 0.05
82579972|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|5.69|||||TWO_SIDED|95.0|4.37|7.41|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 5||7.41|4.37|
82473828|NCT01305577|164643195|SUPERIORITY_OR_OTHER||LS mean Difference|-1.68|||<|0.001|TWO_SIDED|95.0|-2.5|-0.87|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the Baseline values as covariate.||||-0.87|-2.50|<0.001
82473829|NCT01305577|164643195|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.97|||<|0.001|TWO_SIDED|95.0|-2.79|-1.15|||Mixed Models Repeated Measures|The model includes the fixed effect factors visit and treatment, the visit\*treatment interaction, and the baseline values as covariate.||||-1.15|-2.79|<0.001
82473830|NCT01305577|164643196|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Pearson's chi-square test|||||||<0.001
82473831|NCT01305577|164643196|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Pearson's chi-square test|||||||<0.001
82473832|NCT01147627|164643231|NON_INFERIORITY_OR_EQUIVALENCE|108 patients in each group was needed to provide 90% power to detect non-inferiority of exenatide, shown by a mean difference of 0.4% in HbA1c change from baseline.|||||<|0.05||95.0|||||ANCOVA|||||||<0.05
82473833|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.66|1.03||||||||1.03|0.66|
82473834|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.65|1.1||||||||1.10|0.65|
82473835|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.49|0.86||||||||0.86|0.49|
82473836|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.83|1.1||||||||1.10|0.83|
82473837|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.85|1.19||||||||1.19|0.85|
82473838|NCT02197078|164643237|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.66|0.96||||||||0.96|0.66|
82473839|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.66|1.23||||||||1.23|0.66|
82473840|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.57|1.16||||||||1.16|0.57|
82473841|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.01||||||||1.01|0.48|
82473842|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.85|1.28||||||||1.28|0.85|
82473843|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.79|1.28||||||||1.28|0.79|
82473844|NCT02197078|164643238|OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.62|1.06||||||||1.06|0.62|
82548666|NCT02596126|164798710|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|0.0|||<|0.05|TWO_SIDED|95.0|-0.9|1.0||The difference in mean change from baseline between groups will be compared using ANCOVA (adjusting for baseline levels) at 6 months, 12 months and 24 months. The difference in mean change adjusting for baseline and 95% CI will be reported.|ANCOVA|||Statistical analysis title - DBP - 24 months||1|-0.9|< 0.05
82548667|NCT02596126|164798711|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|2.1|||<|0.05|TWO_SIDED|95.0|-0.2|4.4|||ANCOVA|||Statistical analysis title - LDL cholesterol - 12 months||4.4|-0.2|< 0.05
82548668|NCT02596126|164798712|EQUIVALENCE|The following three CV risk factors, systolic blood pressure(SBP), diastolic blood pressure (DBP) and low-density lipoprotein (LDL) cholesterol levels are measured at baseline, visit 1 (6 months), visit 2 (12 months) and visit 3 (24 months).For each of the three risk factors the frequency, mean and standard deviation at each visit will be reported by treatment group. The difference in mean change from baseline between groups will be compared using ANCOVA.|Mean Difference (Final Values)|-0.1|||<|0.05|TWO_SIDED|95.0|-2.5|2.4|||ANCOVA|||Statistical analysis title - LDL cholesterol - 24 months||2.4|-2.5|< 0.05
82548669|NCT02596126|164798713|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.7|||<|0.025|TWO_SIDED|95.0|0.54|0.9|||Regression, Cox|||||0.90|0.54|< 0.025
82548670|NCT02596126|164798713|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82548671|NCT02596126|164798714|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.67|||<|0.025|TWO_SIDED|95.0|0.47|0.97|||Regression, Cox|||||0.97|0.47|< 0.025
82548672|NCT02596126|164798714|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82548673|NCT02596126|164798715|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.71|||<|0.025|TWO_SIDED|95.0|0.48|1.05|||Regression, Cox|||||1.05|0.48|< 0.025
82548674|NCT02596126|164798715|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82473845|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.51|0.94||||||||0.94|0.51|
82473846|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.44|0.9||||||||0.90|0.44|
82473847|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.41|0.88||||||||0.88|0.41|
82548675|NCT02596126|164798716|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.7|||<|0.025|TWO_SIDED|95.0|0.39|1.26|||Regression, Cox|||||1.26|0.39|< 0.025
82548676|NCT02596126|164798716|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82548677|NCT02596126|164798717|NON_INFERIORITY|"Non-inferiority hypothesis will be tested using a univariable Cox PH regression model including treatment group as the only covariate and stratified by country.~One-sided non-inferiority test on the primary endpoint where the alpha level will be set to 2.5%.~All statistical analyses will use 95% confidence intervals (CI).If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a log-rank test."|Hazard Ratio (HR)|0.96|||<|0.025|TWO_SIDED|95.0|0.57|1.63|||Regression, Cox|||||1.63|0.57|< 0.025
82548678|NCT02596126|164798717|SUPERIORITY|If the non-inferiority hypothesis is confirmed, it will be followed with a test of superiority using a logrank test.|||||<|0.05|||||||Log Rank|||||||< 0.05
82579973|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|5.82|||||TWO_SIDED|95.0|4.42|7.67|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 6A||7.67|4.42|
82473848|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|0.81|
82473849|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.77|1.19||||||||1.19|0.77|
82473850|NCT02197078|164643239|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||||0.97|0.60|
82579974|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|96.1|||||TWO_SIDED|95.0|75.6|122.17|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 7F||122.17|75.60|
82579975|NCT00688870|164870793|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.5|||||TWO_SIDED|95.0|1.23|1.83|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 19A||1.83|1.23|
82579976|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMC|0.64|||||TWO_SIDED|95.0|0.49|0.84|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 4||0.84|0.49|
82579977|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.03|||||TWO_SIDED|95.0|0.77|1.36|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 6B||1.36|0.77|
82579978|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.64|1.05|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 9V||1.05|0.64|
82579979|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.68|||||TWO_SIDED|95.0|0.51|0.91|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 14||0.91|0.51|
82579980|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.75|||||TWO_SIDED|95.0|0.57|0.99|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 18C||0.99|0.57|
82473851|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.58|1.38||||||||1.38|0.58|
82579981|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|1.09|||||TWO_SIDED|95.0|0.83|1.43|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 19F||1.43|0.83|
82473852|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.6|1.64||||||||1.64|0.60|
82473853|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.24|0.78||||||||0.78|0.24|
82579982|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Common serotypes - serotype 23F||0.92|0.52|
82579983|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|303.73|||||TWO_SIDED|95.0|213.63|431.83|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 1||431.83|213.63|
82579984|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|10.65|||||TWO_SIDED|95.0|7.77|14.62|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 3||14.62|7.77|
82579985|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|4.79|||||TWO_SIDED|95.0|3.78|6.08|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 5||6.08|3.78|
82579986|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|3.05|||||TWO_SIDED|95.0|2.28|4.08|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 6A||4.08|2.28|
82473854|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.73|1.25||||||||1.25|0.73|
82473855|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.78|1.52||||||||1.52|0.78|
82473856|NCT02197078|164643240|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.52|1.05||||||||1.05|0.52|
82473857|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|1.1|2.18||||||||2.18|1.10|
82473858|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|1.19|3.03||||||||3.03|1.19|
82579987|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|105.0|||||TWO_SIDED|95.0|75.6|145.84|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 7F||145.84|75.60|
82579988|NCT00688870|164870794|SUPERIORITY_OR_OTHER_LEGACY||ratio of GMCs|4.45|||||TWO_SIDED|95.0|3.54|5.6|||||Confidence intervals for the ratio are back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC-7vPnC reference).|Additional serotypes - serotype 19A||5.60|3.54|
82473859|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.73|1.68||||||||1.68|0.73|
82473860|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.76|1.29||||||||1.29|0.76|
82473861|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.77|1.56||||||||1.56|0.77|
82473862|NCT02197078|164643241|OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.54|1.14||||||||1.14|0.54|
82473863|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.97|2.0||||||||2.00|0.97|
82473864|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.71|||||TWO_SIDED|95.0|1.07|2.72||||||||2.72|1.07|
82473865|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.75|1.79||||||||1.79|0.75|
82473866|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|1.01|1.76||||||||1.76|1.01|
82473867|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|1.02|2.27||||||||2.27|1.02|
82473868|NCT02197078|164643242|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.81|1.71||||||||1.71|0.81|
82473869|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|1.04|1.47||||||||1.47|1.04|
82473870|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|1.31|||||TWO_SIDED|95.0|1.06|1.61||||||||1.61|1.06|
82473871|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
82473872|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
82473873|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.9|1.27||||||||1.27|0.90|
82473874|NCT02197078|164643243|OTHER||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.75|1.09||||||||1.09|0.75|
82473875|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|1.62|||||TWO_SIDED|95.0|0.64|4.06||||||||4.06|0.64|
82473876|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|1.67|||||TWO_SIDED|95.0|0.61|4.58||||||||4.58|0.61|
82473877|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|1.84|||||TWO_SIDED|95.0|0.62|5.48||||||||5.48|0.62|
82473878|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.57|2.4||||||||2.40|0.57|
82473879|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.38|2.43||||||||2.43|0.38|
82473880|NCT02197078|164643244|OTHER||Hazard Ratio (HR)|1.65|||||TWO_SIDED|95.0|0.64|4.27||||||||4.27|0.64|
82473881|NCT00622440|164643245|OTHER||Wilcoxon Rank Sum Effect Size|0.275||||0.042|TWO_SIDED|95.0|||||Wilcoxon rank sum||The wilcoxon rank sum effect size ranges in strength of effect from small (0.10 - \< 0.30), to medium (0.30 - \< 0.50), to large (\>=0.50) with a total range of 0 to 1|Estimated Effect Size for Phase 3 Trial||||.042
82473882|NCT03328208|164643253|SUPERIORITY||Mean Difference (Final Values)|0.724|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82473883|NCT03328208|164643254|SUPERIORITY||Mean Difference (Final Values)|0.038|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82473884|NCT04380519|164643312|SUPERIORITY||Risk Ratio (RR)|1.012||||0.434|ONE_SIDED|97.5|0.88|||Hochberg adjustment was applied for p-values|Maximal Likelihood Estimator (MLE) model||||||0.880|0.434
82473885|NCT04380519|164643312|SUPERIORITY||Risk Ratio (RR)|1.125||||0.073|ONE_SIDED|97.5|0.989|||Hochberg adjustment was applied for p-values|Maximal Likelihood Estimator (MLE) model||||||0.989|0.073
82473886|NCT04380519|164643314|SUPERIORITY||Risk Ratio (RR)|1.019||||0.393|ONE_SIDED|97.5|0.892|||unadjusted|Maximal Likelihood Estimator (MLE) model||||||0.892|0.393
82473887|NCT04380519|164643314|SUPERIORITY||Risk Ratio (RR)|1.098||||0.061|ONE_SIDED|97.5|0.975|||unadjusted|Maximal Likelihood Estimator (MLE) model||||||0.975|0.061
82473888|NCT04380519|164643315|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.31|1.44||||||||1.44|0.31|
82473889|NCT04380519|164643315|SUPERIORITY||Risk Ratio (RR)|0.33|||||TWO_SIDED|95.0|0.12|0.89||||||||0.89|0.12|
82473890|NCT04380519|164643315|SUPERIORITY||Odds Ratio (OR)|0.64|||||TWO_SIDED|95.0|0.28|1.49||||||||1.49|0.28|
82473891|NCT04380519|164643315|SUPERIORITY||Odds Ratio (OR)|0.31|||||TWO_SIDED|95.0|0.11|0.87||||||||0.87|0.11|
82473892|NCT04380519|164643316|SUPERIORITY||Risk Ratio (RR)|2.35|||||TWO_SIDED|95.0|0.93|5.92||||||||5.92|0.93|
82473893|NCT04380519|164643316|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.55|4.09||||||||4.09|0.55|
82473894|NCT04380519|164643316|SUPERIORITY||Odds Ratio (OR)|2.53|||||TWO_SIDED|95.0|0.94|6.81||||||||6.81|0.94|
82473895|NCT04380519|164643316|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.53|4.46||||||||4.46|0.53|
82473896|NCT03656380|164643317|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
82473897|NCT03656380|164643318|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82473898|NCT03656380|164643319|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.20
82473899|NCT03656380|164643320|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82473900|NCT03656380|164643321|SUPERIORITY||||||<|0.001|||||||Chi-squared|||\<15 eos/hpf||||<0.001
82473901|NCT03656380|164643321|SUPERIORITY|||||||0.02|||||||Chi-squared|||≤6 eos/hpf||||0.02
82473902|NCT03656380|164643321|SUPERIORITY|||||||0.27|||||||Chi-squared|||≤1 eos/hpf||||0.27
82473903|NCT03656380|164643322|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
82473904|NCT03656380|164643323|SUPERIORITY|||||||0.44|||||||ANCOVA|||||||0.44
82473905|NCT05300763|164643334|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval is above 1.|Odds Ratio (OR)|2.01|||||TWO_SIDED|95.0|1.25|3.22|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.22|1.25|
82473906|NCT05300763|164643335|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided adjusted (96.25%) confidence interval is above 1.|Odds Ratio (OR)|2.0|||||TWO_SIDED|96.25|1.18|3.41|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.41|1.18|
82473907|NCT05300763|164643336|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided adjusted (97.5 %) confidence interval is above 1.|Odds Ratio (OR)|2.17|||||TWO_SIDED|97.5|1.3|3.64|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.64|1.30|
82473908|NCT05300763|164643337|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval is above 1.|Odds Ratio (OR)|1.77|||||TWO_SIDED|95.0|1.04|3.02|||Linear Mixed Model||Odds Ratio was calculated as Test over Control.|||3.02|1.04|
82473909|NCT02283762|164643338|SUPERIORITY||Difference of LS means|-2.34||||0.0815|TWO_SIDED|95.0|-4.99|0.3|||MMRM (Method 1)|||||0.30|-4.99|0.0815
82473910|NCT02283762|164643339|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|%|0.2||||0.977|TWO_SIDED|95.0|-13.68|14.09|||Mantel Haenszel|||||14.09|-13.68|0.9770
82473911|NCT02283762|164643340|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|-0.07||||0.3529|TWO_SIDED|95.0|-0.23|0.08|||MMRM (Method 1)|||change from baseline||0.08|-0.23|0.3529
82473912|NCT02283762|164643341|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|0.79||||0.0887|TWO_SIDED|95.0|-0.12|1.69|||MMRM (Method 1)|||Change from baseline||1.69|-0.12|0.0887
82473913|NCT02283762|164643342|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|0.83||||0.0241|TWO_SIDED|95.0|0.11|1.54|||MMRM (Method 1)|||Change from baseline||1.54|0.11|0.0241
82473914|NCT02283762|164643343|SUPERIORITY|The pre-specified test was for superiority but ONLY if the primary endpoint and secondary endpoints were meeting statistical significance (hierarchical testing).|Difference in LS means|-0.2||||0.901|TWO_SIDED|95.0|-3.4|3.0|||MMRM (Method 1)|||change from baseline||3.00|-3.40|0.9010
82473915|NCT02268175|164643366|SUPERIORITY|||||||0.151||||||1-sided|Fisher Exact|||The hypothesis was that treatment with ARM 1 will have a pCR/MRD rate of 35% compared with Arm 2 rate of 10%. Given 75 men randomized in 2:1 ratio to Arm 1 (N=50) or Arm 2 (N=25), there was 84% power to detect this difference, using Fisher's exact test with one-sided type I error of 0.1.||||0.151
82473916|NCT02504216|164643393|SUPERIORITY||Hazard Ratio (HR)|0.85|||=|0.0043|TWO_SIDED|95.0|0.76|0.96|||Log Rank|P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.||IxRS: Interactive web/voice response system||0.96|0.76|=0.0043
82473917|NCT02504216|164643394|OTHER||Hazard Ratio (HR)|1.43|||=|0.0695|TWO_SIDED|95.0|0.97|2.1|||Log Rank|P-value (2-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.||||2.10|0.97|=0.0695
82473918|NCT02504216|164643395|SUPERIORITY||Hazard Ratio (HR)|0.8|||=|0.0004|TWO_SIDED|95.0|0.71|0.91||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.91|0.71|=0.0004
82473919|NCT02504216|164643396|SUPERIORITY||Hazard Ratio (HR)|0.88|||=|0.014|TWO_SIDED|95.0|0.79|0.99||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.99|0.79|=0.0140
82500303|NCT01285310|164691307|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|||||||||||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
82500304|NCT01285310|164691308|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.58|||||TWO_SIDED||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500305|NCT01285310|164691308|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.26||||||||||||||||||
82500306|NCT01285310|164691309|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-35.54|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500307|NCT01285310|164691309|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-38.37|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500308|NCT01285310|164691310|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-14.35|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500309|NCT01285310|164691310|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.34|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500310|NCT01285310|164691311|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.59|||||TWO_SIDED||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500311|NCT01285310|164691311|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-3.84|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500312|NCT01285310|164691312|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.93|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500313|NCT01285310|164691312|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.77|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
82500314|NCT01285310|164691313|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|4.7|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500315|NCT01285310|164691313|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|58.05||||||||||||||||||
82500316|NCT01285310|164691314|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|7.18|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500317|NCT01285310|164691314|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-16.19|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500318|NCT01285310|164691315|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate.|||||
82500319|NCT01285310|164691315|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.1|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||||
82500320|NCT01285310|164691316|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.9||||||||||||||||||
82500321|NCT01285310|164691316|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|13.4||||||||||||||||||
82500322|NCT01285310|164691317|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-3.9||||||||||||||||||
82500323|NCT01285310|164691317|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.9||||||||||||||||||
82500324|NCT01285310|164691318|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.4||||||||||||||||||
82500325|NCT01285310|164691318|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.1||||||||||||||||||
82500326|NCT01285310|164691319|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-6.5||||||||||||||||||
82500327|NCT01285310|164691319|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.2||||||||||||||||||
82500328|NCT01285310|164691320|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.3||||||||||||||||||
82500329|NCT01285310|164691320|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.5||||||||||||||||||
82500330|NCT01285310|164691321|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.5||||||||||||||||||
82500331|NCT01285310|164691321|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.5||||||||||||||||||
82500332|NCT01285310|164691322|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.4|||||TWO_SIDED|||||||||||||
82500333|NCT01285310|164691322|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|1.5|||||TWO_SIDED|||||||||||||
82500334|NCT01285310|164691323|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
82473920|NCT02504216|164643397|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.62|0.85||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.85|0.62|<0.0001
82473921|NCT02504216|164643398|SUPERIORITY||Hazard Ratio (HR)|0.89|||=|0.0145|TWO_SIDED|95.0|0.79|0.99||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.99|0.79|=0.0145
82473922|NCT02504216|164643399|SUPERIORITY||Hazard Ratio (HR)|0.86|||=|0.0051|TWO_SIDED|95.0|0.76|0.96||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||0.96|0.76|=0.0051
82473923|NCT02504216|164643400|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.8322|TWO_SIDED|95.0|0.92|1.27||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||1.27|0.92|=0.8322
82473924|NCT02504216|164643401|SUPERIORITY||Hazard Ratio (HR)|0.61|||=|0.0235|TWO_SIDED|95.0|0.37|1.0||P-value (1-sided) is based on the log rank test stratified by type of procedure and clopidogrel use per IxRS assignment with treatment as a factor.|Log Rank|||||1.00|0.37|=0.0235
82473925|NCT02504216|164643402|OTHER||Hazard Ratio (HR)|1.42|||=|0.0068|TWO_SIDED|95.0|1.1|1.84|||Log Rank|||||1.84|1.10|=0.0068
82376891|NCT03104400|164460616|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.21||||0.0069|TWO_SIDED|95.0|-0.36|-0.06|||ANCOVA|ANCOVA model including treatment and the stratification factor current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-0.06|-0.36|0.0069
82473926|NCT02504216|164643403|OTHER||Hazard Ratio (HR)|1.29|||=|0.0979|TWO_SIDED|95.0|0.95|1.76|||Log Rank|||||1.76|0.95|=0.0979
82473927|NCT00947882|164643432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0911||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0911
82473928|NCT00947882|164643432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.44||||0.0865|TWO_SIDED|||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0865
82473929|NCT00947882|164643432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||0.2342||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 3. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|Analysis of Covariance (ANCOVA) of the change from baseline in IPSS at Month 3 in the FAS population using the Last Observation Carried Forward (LOCF) method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.2342
82500335|NCT01285310|164691323|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.98|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
82500336|NCT01285310|164691324|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.94||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
82500337|NCT01285310|164691324|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.24||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.||||||
82500338|NCT01285310|164691325|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|-4.3||||||||||||||||||
82500339|NCT01285310|164691325|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|4.6||||||||||||||||||
82500340|NCT01285310|164691326|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
82500341|NCT01285310|164691326|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24 with treatment group as a factor and the baseline value as a covariate.|||||
82500342|NCT01285310|164691327|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500343|NCT01285310|164691327|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.01|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24; treatment group as a factor and the baseline value as a covariate.|||||
82500344|NCT01285310|164691328|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.86|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82500345|NCT01285310|164691328|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-7.02|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82500346|NCT01285310|164691329|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-34.82|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82650829|NCT04128696|165016478|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.608|TWO_SIDED|95.0|0.6|2.0||Nominal p-value was calculated based on the one-sided log-rank test, stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).|Stratified Cox proportional hazard model|||The hazard ratio and 2-sided 95% CI was calculated from the Cox regression model with Efron's method of tie handling, a treatment covariate and stratified by HPV status (oropharynx HPV positive vs oropharynx HPV negative/unknown and non-oropharynx).||2.00|0.60|0.608
82650830|NCT02173301|165016479|SUPERIORITY|||||||0.066|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||0.066
82650831|NCT02173301|165016479|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||0.001
82650832|NCT02173301|165016479|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Restricted Maximum Likelihood (REML) - an REML-based mixed model for repeated measures (MMRM) with and with baseline PASI score as covariate||||||<0.001
82650833|NCT02173301|165016480|SUPERIORITY|||||||0.501|||||||Regression, Logistic|||Week 12 comparison||||0.501
82650834|NCT02173301|165016480|SUPERIORITY|||||||0.34|||||||Regression, Logistic|||Week 12 comparison||||0.340
82650835|NCT02173301|165016480|SUPERIORITY|||||||0.075|||||||Regression, Logistic|||Week 12 comparison||||0.075
82500347|NCT01285310|164691329|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-37.82|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82650836|NCT02173301|165016481|SUPERIORITY|||||||0.229|||||||Regression, Logistic|||Week 12 comparison||||0.229
82650837|NCT02173301|165016481|SUPERIORITY|||||||0.604|||||||Regression, Logistic|||Week 12 comparison||||0.604
82650838|NCT02173301|165016481|SUPERIORITY|||||||0.573|||||||Regression, Logistic|||Week 12 comparison||||0.573
82650839|NCT03740100|165016482|OTHER||Percent with objective response|17.0|||||TWO_SIDED|95.0|1.0|58.0||||||The primary endpoint was to determine the objective response rate of patients with R/M HNSCC harboring NOTCH1 LOF mutations to oral bimiralisib using RECIST v1.1. We used a Simon's optimal two-stage design. In order to have 80% power to detect a response rate of 30%, (one-sided α=0.05 and β=0.20), we planned to enroll up to 10 patients in the first stage. If ≥ 2 patients had an objective response, then the study would enroll an additional 19 patients in the second stage.||58|1|
82650840|NCT01710306|165016494|SUPERIORITY|||||||0.1996|||||||Chi-squared|||||||0.1996
82650841|NCT02917447|165016519|SUPERIORITY|||||||0.15||||||Omnibus test for difference in change from baseline in PCL by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||0.15
82650842|NCT02917447|165016520|SUPERIORITY|||||||0.049||||||Omnibus test for difference in change from baseline in outcome by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||.049
82650843|NCT02917447|165016521|SUPERIORITY|||||||0.92||||||Omnibus test for difference in change from baseline in outcome by treatment group across the three post-treatment assessments, adjusted for rural/urban status and MST.|Mixed Models Analysis|Fixed effects were study assessment, group, the assessment by group interaction, and covariates. Participant was modeled as a random effect.||||||0.92
82650844|NCT01806597|165016522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|19.3||||0.0002|TWO_SIDED|95.0|2.4|154.6|||Cochran-Mantel-Haenszel|||Data at Week 16 was analyzed using the stratified Cochran-Mantel-Haenszel-test. The test was stratified by body-weight category (\<90 kg or ≥90 kg).||154.6|2.4|0.0002
82650845|NCT01806597|165016522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|29.4|||<|0.0001|TWO_SIDED|95.0|4.1|211.9|||Cochran-Mantel-Haenszel|||Data at Week 16 was analyzed using the stratified Cochran-Mantel-Haenszel-test. The test was stratified by body-weight category (\<90 kg or ≥90 kg).||211.9|4.1|<0.0001
82650846|NCT01144663|165016530|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|0.01|||||TWO_SIDED|95.0|-1.17|1.2||||||To demonstrate the non-inferiority of the Nimenrix 3 Group compared to the Menjugate Group, two-sided standardized asymptotic 95% CI (confidence interval) for the groups difference \[Nimenrix 3 Group minus Menjugate Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||1.2|-1.17|
82500348|NCT01285310|164691330|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-14.34|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500349|NCT01285310|164691330|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-12.5|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500350|NCT01285310|164691331|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|5.85|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500351|NCT01285310|164691331|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.8|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500352|NCT01285310|164691332|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.57|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500353|NCT01285310|164691332|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-5.72|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82548679|NCT02596126|164798718|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|3.09|||<|0.05|TWO_SIDED|95.0|1.38|4.79|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||4.79|1.38|< 0.05
82548680|NCT02596126|164798719|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|-5.19|||<|0.05|TWO_SIDED|95.0|-12.73|2.35|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||2.35|-12.73|< 0.05
82548681|NCT02596126|164798720|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|7.09|||<|0.05|TWO_SIDED|95.0|5.57|8.62|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.62|5.57|< 0.05
82548682|NCT02596126|164798721|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|3.79|||<|0.05|TWO_SIDED|95.0|2.04|5.55|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||5.55|2.04|< 0.05
82548683|NCT02596126|164798722|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|5.26|||<|0.05|TWO_SIDED|95.0|3.59|6.94|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||6.94|3.59|< 0.05
82548684|NCT02596126|164798723|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|4.55|||<|0.05|TWO_SIDED|95.0|-4.35|13.46|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||13.46|-4.35|< 0.05
82548685|NCT02596126|164798724|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|7.11|||<|0.05|TWO_SIDED|95.0|5.55|8.67|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.67|5.55|< 0.05
82548686|NCT02596126|164798725|EQUIVALENCE|Mean and standard devation for each score will be reported by treatment group at 6 months and 2 years. Comparison of mean scores between treatment groups at 6 months and 2 years will be made using a two-sample t-test. The difference in mean score and 95% CI will be reported.|Mean Difference (Final Values)|6.6|||<|0.05|TWO_SIDED|95.0|4.93|8.27|||t-test, 2 sided|||Patient satisfaction is measured at visit 1 (6 months) and visit 3 (2 years) using the Treatment Satisfaction Questionnaire for Medication (TSQM) version 1.4 a 14-item psychometric instrument comprising of four domains: effectiveness (questions 1 to 3), side effects (questions 4 to 8), convenience (questions 9 to 11) and global satisfaction (questions 12 to 14).||8.27|4.93|< 0.05
82548687|NCT02596126|164798726|SUPERIORITY|Time to first event will be investigated using Cox proportional hazards regression. Hazard ratios and 95% confidence intervals will be obtained from the Cox proportional hazards model. P-values will be obtained using the log-rank test.|Hazard Ratio (HR)|1.42|||<|0.05|TWO_SIDED|95.0|0.97|2.07|||Log Rank|||Statistical analysis title - Non-cardiovascular death||2.07|0.97|< 0.05
82548688|NCT02520063|164798746|OTHER||||||||||||||||||The primary analysis was of safety and included all patients who received at least one dose of the investigational regimen. The rate of adverse events was be estimated at the end of the study along with two-sided 95% exact CIs (Clopper-Pearson intervals).|||
82650847|NCT01144663|165016530|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percenttage|-0.43|||||TWO_SIDED|95.0|-1.57|0.4||||||To demonstrate the non-inferiority of the Nimenrix 3 Group compared to the NeisVac-C Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 3 Group minus NeisVac-C Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||0.4|-1.57|
82650848|NCT01144663|165016530|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|-0.88|||||TWO_SIDED|95.0|-2.45|0.43||||||To demonstrate the non-inferiority of the Nimenrix 2 Group compared to Menjugate Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 2 Group minus Menjugate Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||0.43|-2.45|
82650849|NCT01144663|165016530|NON_INFERIORITY|Indication of non-inferiority of Nimenrix 3 Group compared to Menjugate Group is a lower limit of the 95% CI of the group difference greater than or equal to the predefined clinical limits of -5%.|Difference in percentage|-1.32|||||TWO_SIDED|95.0|-2.84|-0.48||||||To demonstrate the non-inferiority of the Nimenrix 2 Group compared to NeisVac-C Group, two-sided standardized asymptotic 95% CI for the groups difference \[Nimenrix 2 Group minus NeisVac-C Group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||-0.48|-2.84|
82650850|NCT03081767|165016578|OTHER||||||<|1e-07||||||Actual P-Value = 3.89597E-42. A P-value of \<0.05 was considered significant.|t-test, 2 sided|||||||<0.0000001
82650851|NCT01267266|165016581|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Log Rank|||||||0.20
82650852|NCT01335477|165016588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|93.73|STANDARD_ERROR_OF_MEAN|24.907||0.0002||95.0|44.78|142.68||The objective of this trial was to assess the superiority of nintedanib 150 mg bid compared to placebo on the annual rate of decline in FVC.|Random coefficient regression|The Roger-Kenward approximation was used to estimate denominators degrees of freedom.|"Within-patient errors are modelled by an Unstructured variance-covariance matrix.~Inter-individual variability is modelled by a Variance-components variance-covariance matrix.~Nintedanib 150 mg bid versus Placebo."|"Random coefficient regression with fixed effects for treatment, gender, age, height and random effect of patient specific intercept and time.~A hierarchical procedure was used in order to demonstrate the superiority of nintedanib over placebo for one primary and two key secondary endpoints.~The consecutive steps of the hierarchy were only considered if the previous step was significant at the one-sided 2.5% level and the results were in favour of nintedanib."||142.68|44.78|0.0002
82650853|NCT01335477|165016589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|1.151||0.0197||95.0|-4.95|-0.43|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Total score, baseline SGRQ Total score-by-visit and random effect for patient.||-0.43|-4.95|0.0197
82650854|NCT01335477|165016590|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.005||95.0|0.19|0.77|||Log Rank||Nintedanib 150 mg bid versus Placebo.|Hazard Ratio is based on a Cox's regression model with terms for treatment, gender, age and height.||0.77|0.19|0.0050
82548689|NCT05691452|164798768|SUPERIORITY||Mean Difference (Net)|20.05||||0.578|TWO_SIDED|95.0|-50.68|90.78||Generalized linear models generated estimated mean differences in the post-intervention values controlling for the baseline assessments.|Regression, Linear|||||90.78|-50.68|0.578
82548690|NCT05691452|164798769|SUPERIORITY||Mean Difference (Net)|-21.2||||0.61|TWO_SIDED|95.0|-101.9|59.5|||Regression, Linear|||||59.5|-101.9|0.61
82548691|NCT05691452|164798770|SUPERIORITY||Mean Difference (Net)|1.55||||0.674|TWO_SIDED|95.0|-5.68|8.78|||Regression, Linear|||||8.78|-5.68|0.674
82650855|NCT01335477|165016591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|109.77|STANDARD_ERROR_OF_MEAN|19.808|<|0.0001||95.0|70.92|148.62|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||148.62|70.92|<0.0001
82650856|NCT01335477|165016592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.24|STANDARD_ERROR_OF_MEAN|0.742|<|0.0001||95.0|2.78|5.69|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC, baseline FVC-by-visit and random effect for patient.||5.69|2.78|<0.0001
82650857|NCT01335477|165016593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.06|STANDARD_ERROR_OF_MEAN|0.607|<|0.0001||95.0|1.87|4.25|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||4.25|1.87|<0.0001
82548692|NCT05691452|164798771|SUPERIORITY||Mean Difference (Net)|-21.6||||0.013|TWO_SIDED|95.0|-38.5|-4.59|||Regression, Linear|||||-4.59|-38.5|.013
82548693|NCT05691452|164798772|SUPERIORITY||Mean Difference (Net)|0.387||||0.29|TWO_SIDED|95.0|-0.335|1.109|||Regression, Linear|||||1.109|-0.335|0.29
82548694|NCT05691452|164798773|SUPERIORITY||Mean Difference (Net)|-0.203||||0.701|TWO_SIDED|95.0|-1.24|0.833|||Regression, Linear|||||0.833|-1.24|0.701
82548695|NCT05691452|164798774|SUPERIORITY||Mean Difference (Net)|-21.45||||0.376|TWO_SIDED|95.0|-68.99|26.08|||Regression, Linear|||||26.08|-68.99|0.376
82548696|NCT04674358|164798800|SUPERIORITY||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|1.67|4.14||||||||4.14|1.67|
82548697|NCT03648840|164798801|OTHER||||||<|0.2|||||||t-test, 2 sided|||2-tailed, unpaired T-test||||<0.2
82548698|NCT05418296|164798803|SUPERIORITY||||||<|0.46|||||||t-test, 1 sided|||||||<0.46
82548699|NCT05418296|164798804|SUPERIORITY||||||<|0.00314|||||||t-test, 1 sided|||||||<0.00314
82548700|NCT05418296|164798805|SUPERIORITY||||||<|0.066|||||||t-test, 1 sided|||||||<0.066
82548701|NCT05418296|164798806|SUPERIORITY||||||<|0.085|||||||t-test, 1 sided|||||||<0.0850
82548702|NCT05418296|164798807|SUPERIORITY||||||<|0.0716|||||||t-test, 1 sided|||||||<0.0716
82548703|NCT03703700|164798811|OTHER||Risk Ratio (RR)|1.23||||0.042|TWO_SIDED|95.0|1.01|1.5|||Chi-squared|||||1.50|1.01|0.042
82548704|NCT03703700|164798812|OTHER|||||||0.781|||||||Wilcoxon (Mann-Whitney)|||||||0.781
82650858|NCT01335477|165016594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.21|STANDARD_ERROR_OF_MEAN|0.743|<|0.0001||95.0|2.76|5.67|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Based on Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline FVC \[%predicted\], baseline FVC \[%predicted\]-by-visit and random effect for patient.||5.67|2.76|<0.0001
82500354|NCT01285310|164691333|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|8.29|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82548705|NCT03703700|164798813|OTHER|||||||0.609|||||||Wilcoxon (Mann-Whitney)|||||||0.609
82548706|NCT03703700|164798814|OTHER|||||||0.528|||||||Wilcoxon (Mann-Whitney)|||||||0.528
82548707|NCT03703700|164798815|OTHER|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.880
82548708|NCT03703700|164798816|OTHER|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||||||0.289
82548709|NCT03703700|164798817|OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.860
82650859|NCT01335477|165016597|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.286||||0.1833||95.0|0.89|1.86|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted||1.86|0.89|0.1833
82500355|NCT01285310|164691333|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|67.09|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500356|NCT01285310|164691334|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|12.05|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500357|NCT01285310|164691334|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-6.54|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||||
82500358|NCT01285310|164691335|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82500359|NCT01285310|164691335|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7|||||||||||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||||
82500360|NCT01285310|164691336|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.4||||||||||||||||||
82500361|NCT01285310|164691336|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.6||||||||||||||||||
82500362|NCT01285310|164691337|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-11.9||||||||||||||||||
82500363|NCT01285310|164691337|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.3||||||||||||||||||
82500364|NCT01285310|164691338|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-11.2||||||||||||||||||
82500365|NCT01285310|164691338|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.0||||||||||||||||||
82500366|NCT00514540|164691372|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005|ONE_SIDED|95.0||||"Stoppage of trial early if 1) probability of response with the frontline treatment DC in the 1st 2 courses is unacceptably low compared to a target of 30% Pr(p1\*p2 \> .30\|data) \< 0.005, or 2) risk of a SAE is unacceptably high Pr(m \> m\* \|data) \< 0.001"|Bayesian probability model|Operating Characteristics of futility monitoring rule 1 \& safety monitoring rule 2 applied simultaneously for frontline treatment DC in courses 1 \& 2.||Disease status evaluated at the end of course 1 \& the end of course 2. Primary outcomes are response, defined as the absence of disease progression, and the time to a serious adverse event (SAE), defined as grade 3 or 4 neurotoxicity or death. Bayesian probability model \& decision rules used to monitor patient outcomes.||||< 0.005
82500367|NCT03530098|164691377|SUPERIORITY||Odds Ratio (OR)|-0.59||||0.04|TWO_SIDED|95.0|-1.14|-0.04|||t-test, 2 sided|||||-0.04|-1.14|0.04
82500368|NCT03530098|164691378|OTHER|||||||0.001|||||||Wilcoxon rank-sum test|||||||0.001
82500369|NCT00533845|164691457|SUPERIORITY_OR_OTHER|||||||0.0022|TWO_SIDED||||||t-test, 2 sided|||||||.0022
82500370|NCT00345254|164691461|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82500371|NCT01911689|164691487|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||The independent T test was used to determine the differences for the T2\* value between the Control group and AP group.||||<0.01
82500372|NCT01911689|164691488|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The independent T test was used to determine the differences for the T2\* value between the edematous AP and necrotizing AP||||0.05
82500373|NCT01911689|164691489|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||ANOVA|||Analysis of variance (ANOVA) was used to assess the differences in the T2\* value between the mild, moderate, and severe AP groups according to the MRSI score.||||<0.01
82500374|NCT01911689|164691489|SUPERIORITY_OR_OTHER|||||||0.0111|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value in the mild and moderate AP according to MRSI||||0.0111
82500375|NCT01911689|164691489|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value between the mild and severe AP||||0.002
82500376|NCT01911689|164691489|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED|95.0|||||t-test, 2 sided|||compare the T2\* value between the moderate and severe AP according to MRSI||||0.071
82500377|NCT01911689|164691490|SUPERIORITY_OR_OTHER|||||||0.629|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.629
82500378|NCT01867021|164691515|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain A/H1N1 considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.85|||||TWO_SIDED|95.0|1.66|2.06|||ANCOVA|Not applicable(NA)||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain A/H1N1 at day 22||2.06|1.66|
82500379|NCT01867021|164691515|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain A/H3N2 considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.5|||||TWO_SIDED|95.0|1.38|1.64|||ANCOVA|||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain A/H3N2 at day 22||1.64|1.38|
82500380|NCT01867021|164691515|NON_INFERIORITY_OR_EQUIVALENCE|The HI GMTs of TIV vaccine for strain B considered non-inferior to HI GMTs of TIVf vaccine if the upper limit of the two-sided 95% CI on the ratio of GMTs (GMT TIVf / GMT TIV) was ≤1.5|Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.93|1.08|||ANCOVA|||Non-inferiority of HI GMTs of TIV vaccine over HI GMTs of TIVf vaccine for the strain B at day 22||1.08|0.93|
82473930|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.62||||0.0367||||||P-values based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Months 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0367
82500381|NCT01867021|164691516|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain A/H1N1 considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|9.0|||||TWO_SIDED|95.0|5.6|11.5|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain A/H1N1 at day 22||11.5|5.6|
82650860|NCT01335477|165016598|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.794||||0.0011||95.0|1.26|2.55|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, age, gender, height and baseline FVC % predicted.||2.55|1.26|0.0011
82500382|NCT01867021|164691516|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain A/H3N2 considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|13.0|||||TWO_SIDED|95.0|10.1|16.1|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain A/H3N2 at day 22||16.1|10.1|
82500383|NCT01867021|164691516|NON_INFERIORITY_OR_EQUIVALENCE|Percentage of subjects with HI seroconversion of TIV vaccine for strain B considered non-inferior to percentage of subjects with HI seroconversion of TIVf vaccine if the upper limit of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion TIVf - Seroconversion TIV) was ≤10%.|Difference in seroconversion rates|-1.0|||||TWO_SIDED|95.0|-5.0|2.3|||Miettinen and Nurminen|||Non-inferiority of percentage of subjects with HI seroconversion of TIV vaccine over TIVf vaccine for the strain B at day 22||2.3|-5|
82500384|NCT03178903|164691540|SUPERIORITY||Mean Difference (Final Values)|0.678||||0.87|TWO_SIDED|||||p\<.05 was the a priori threshold for statistical significance.|ANCOVA|Covarying for baseline depressive symptoms and MVPA.||||||.87
82500385|NCT01958008|164691542|SUPERIORITY_OR_OTHER||Slope|1.2674|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|95.0|1.0636|1.4713|||Regression, Linear|Power model that describes the functional relationship between the dose and pharmacokinetic endpoint Cmax,ss||Dose proportionality was analysed over the dose range 10 to 50 mg for plasma PK parameters based on a power model||1.4713|1.0636|
82500386|NCT01958008|164691543|SUPERIORITY_OR_OTHER||Slope|1.2139|STANDARD_ERROR_OF_MEAN|0.081|||TWO_SIDED|95.0|1.0519|1.3759|||Regression, Linear|Power model that describes the functional relationship between the dose and pharmacokinetic endpoint AUC tau,ss||Dose proportionality was analysed over the dose range 10 to 50 mg for plasma PK parameters based on a power model||1.3759|1.0519|
82500387|NCT03789318|164691548|SUPERIORITY|||||||0.2912|||||||ANOVA|||||||0.2912
82500388|NCT03789318|164691549|SUPERIORITY|||||||0.498|||||||ANOVA|||||||0.4980
82500389|NCT03789318|164691550|SUPERIORITY|||||||0.1958|||||||Log Rank|||||||0.1958
82500390|NCT03789318|164691551|SUPERIORITY|||||||0.9546|||||||Regression, Logistic|||||||0.9546
82500391|NCT03789318|164691552|SUPERIORITY|||||||0.4434|||||||ANOVA|||||||0.4434
82500392|NCT02423577|164691591|SUPERIORITY||Risk Ratio (RR)|1.14||||0.1436|TWO_SIDED|90.0|0.98|1.31|||Chi-squared|||||1.31|0.98|0.1436
82500393|NCT02345850|164691592|SUPERIORITY||Hazard Ratio (HR)|0.805||||0.2368|TWO_SIDED|95.0|0.562|1.154||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between CD34 select graft vs. Tac/MTX Control. The data in primary outcome table provides point estimates at specific time points (1 year and 2 years post randomization). The statistics in this session provides comparisons between different arms for the entire period of the study.||1.154|0.562|0.2368
82500394|NCT02345850|164691592|SUPERIORITY||Hazard Ratio (HR)|0.864||||0.4134|TWO_SIDED|95.0|0.609|1.228||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between Post-Transplant Cyclophosphamide vs. Tac/MTX Control. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||1.228|0.609|0.4134
82500395|NCT02345850|164691592|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.7166|TWO_SIDED|95.0|0.643|1.355||The primary pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The primary null hypothesis of the study is that there is no difference of the CRFS hazard ratio between CD34 select graft vs. Post-Transplant Cyclophosphamide. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||1.355|0.643|0.7166
82500396|NCT02345850|164691592|SUPERIORITY|||||||0.386||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the CRFS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk. The data in primary outcome table provides point estimates. The statistics in this session provides comparisons between different arms for the entire period of the study.||||0.386
82500397|NCT02345850|164691592|SUPERIORITY|||||||0.461||||||A Bonferroni adjusted significance level of 0.05/3=0.0167 is used for each of three interaction tests to account for multiple testing.|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and disease risk (Low/Intermediate vs. High) for CRFS.||||0.461
82473931|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.0231||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Month 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.0231
82473932|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.1638||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 4. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 4."|ANCOVA of the change from baseline in IPSS at Month 4 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1638
82473933|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.1941||||||P-values based on Williams' extended trend test of comparisons vs. placebo at Month 5. No adjustment for multiple comparison was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1941
82473934|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.1083||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 5. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1083
82473935|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95||||0.2782||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 5. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 5."|ANCOVA of the change from baseline in IPSS at Month 5 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.2782
82473936|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.1562||||||P-values based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1562
82473937|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.1736||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.1736
82500398|NCT02345850|164691592|SUPERIORITY|||||||0.115||||||Cox proportional hazards regression|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and Age (\<=50 vs. \>50) for CRFS.||||0.115
82548710|NCT03703700|164798818|OTHER|||||||0.163|||||||Wilcoxon (Mann-Whitney)|||||||0.163
82500399|NCT02345850|164691592|SUPERIORITY|||||||0.227||||||A Bonferroni adjusted significance level of 0.05/3=0.0167 is used for each of three interaction tests to account for multiple testing.|Cox proportional hazards regression|||Subgroup analyses are conducted for CRFS according to disease, disease risk and age. Interaction tests between treatment group and subgroup are conducted within a Cox proportional hazards regression model with treatment, subgroup, and a treatment\*subgroup interaction term. The null hypothesis is that there is no Interaction between treatment group and Disease (AML vs. ALL vs. MDS) for CRFS.||||0.227
82500400|NCT02345850|164691593|SUPERIORITY||Hazard Ratio (HR)|1.744||||0.0197|TWO_SIDED|95.0|1.086|2.8||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between CD34 select graft vs. Tac/MTX Control.||2.800|1.086|0.0197
82500401|NCT02345850|164691593|SUPERIORITY||Hazard Ratio (HR)|1.016||||0.9525|TWO_SIDED|95.0|0.599|1.724||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between Post-Transplant Cyclophosphamide vs. Tac/MTX Control.||1.724|0.599|0.9525
82548711|NCT03703700|164798819|OTHER|||||||0.197|||||||Wilcoxon (Mann-Whitney)|||||||0.197
82473938|NCT00947882|164643433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.3132||||||P-value based on Williams' extended trend test of comparison vs. placebo at Month 6. No adjustment for multiple comparisons was made.|Step-down, Williams' extended trend test|Step-down procedure (starting with 30 mg vs. placebo) to identify the minimum effective dose. The step-down testing protects the type I error rate.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|ANCOVA of the change from baseline in IPSS at Month 6 in the FAS population using the LOCF method, including the baseline IPSS as adjusting covariate and treatment group, prostate volume stratum (\<30 mL and ≥30 mL), and region (North America and Europe) as factors.||||0.3132
82473939|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.2034|TWO_SIDED|95.0|0.814|2.628||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 3."|||2.628|0.814|0.2034
82473940|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.1748|TWO_SIDED|95.0|0.834|2.71||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 3."|||2.710|0.834|0.1748
82473941|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75||||0.0658|TWO_SIDED|95.0|0.964|3.195||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 3."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 3."|||3.195|0.964|0.0658
82473942|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0587|TWO_SIDED|95.0|0.979|3.184||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 4."|||3.184|0.979|0.0587
82473943|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.049|TWO_SIDED|95.0|1.003|3.283||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 4."|||3.283|1.003|0.0490
82473944|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.2742|TWO_SIDED|95.0|0.774|2.464||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 4."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 4."|||2.464|0.774|0.2742
82473945|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.4206|TWO_SIDED|95.0|0.706|2.304||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 5."|||2.304|0.706|0.4206
82473946|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.5494|TWO_SIDED|95.0|0.664|2.16||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 5."|||2.160|0.664|0.5494
82473947|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.7586|TWO_SIDED|95.0|0.609|1.975||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 5."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 5."|||1.975|0.609|0.7586
82473948|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1946|TWO_SIDED|95.0|0.816|2.717||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 30 mg and Placebo at Month 6."|||2.717|0.816|0.1946
82473949|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.538|TWO_SIDED|95.0|0.667|2.174||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 20 mg and Placebo at Month 6."|||2.174|0.667|0.5380
82473950|NCT00947882|164643434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.4263|TWO_SIDED|95.0|0.702|2.308||"Adjustments were made for treatment group, baseline IPSS, graphical region (North America and Europe) and baseline prostate size (\<30 mL and ≥30 mL).~Unadjusted p-value of comparison vs. placebo at Month 6."|Regression, Logistic|No adjustment for multiple comparisons was made. LOCF.|"Odds ratio of treatment response between Degarelix 10 mg and Placebo at Month 6."|||2.308|0.702|0.4263
82500402|NCT02345850|164691593|SUPERIORITY||Hazard Ratio (HR)|1.774||||0.0185|TWO_SIDED|95.0|1.093|2.877||The OS pairwise comparisons are tested at a Bonferroni adjusted significance level of 0.05/3.|Log Rank|||The null hypothesis is that there is no difference of the OS hazard ratio between CD34 select graft vs. Post-Transplant Cyclophosphamide.||2.877|1.093|0.0185
82650861|NCT01335477|165016599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.664||||0.0218||95.0|1.08|2.57|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with terms treatment, baseline SGRQ total score||2.57|1.08|0.0218
82579989|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||0.735
82650862|NCT01335477|165016600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.675||0.4019||95.0|-4.69|1.88|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Symptoms component, baseline SGRQ Symptoms component-by-visit and random effect for patient.||1.88|-4.69|0.4019
82473951|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76||||0.4607|TWO_SIDED|95.0|-10.113|4.59||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|||4.590|-10.113|0.4607
82473952|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.24||||0.3876|TWO_SIDED|95.0|-10.614|4.128||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|||4.128|-10.614|0.3876
82473953|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28||||0.2548|TWO_SIDED|95.0|-11.65|3.096||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|||3.096|-11.650|0.2548
82473954|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2||||0.5652|TWO_SIDED|95.0|-9.729|5.322||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|||5.322|-9.729|0.5652
82548712|NCT03703700|164798820|OTHER|||||||0.178|||||||Wilcoxon (Mann-Whitney)|||||||0.178
82548713|NCT03703700|164798821|OTHER|||||||0.549|||||||Wilcoxon (Mann-Whitney)|||||||0.549
82548714|NCT03703700|164798822|OTHER||Risk Ratio (RR)|1.19||||0.035|TWO_SIDED|95.0|1.01|1.4|||Chi-squared|||||1.40|1.01|0.035
82548715|NCT03703700|164798823|OTHER||Risk Ratio (RR)|1.18||||0.034|TWO_SIDED|95.0|1.01|1.37|||Chi-squared|||||1.37|1.01|0.034
82548716|NCT03703700|164798824|OTHER||Risk Ratio (RR)|1.22||||0.022|TWO_SIDED|95.0|1.03|1.45|||Chi-squared|||||1.45|1.03|0.022
82548717|NCT03703700|164798825|OTHER||Risk Ratio (RR)|0.94||||0.707|TWO_SIDED|95.0|0.68|1.3|||Chi-squared|||||1.30|0.68|0.707
82473955|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.22||||0.7502|TWO_SIDED|95.0|-8.768|6.322||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|||6.322|-8.768|0.7502
82473956|NCT00947882|164643435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97||||0.6089|TWO_SIDED|95.0|-9.513|5.581||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline TPV as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors. LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|||5.581|-9.513|0.6089
82473957|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.8511|TWO_SIDED|95.0|-1.068|1.294||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 3."|||1.294|-1.068|0.8511
82548718|NCT03703700|164798826|OTHER||Risk Ratio (RR)|0.97||||0.878|TWO_SIDED|95.0|0.66|1.42|||Chi-squared|||||1.42|0.66|0.878
82548719|NCT03703700|164798827|OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Singleton||||0.564
82548720|NCT03703700|164798827|OTHER|||||||0.417|||||||Wilcoxon (Mann-Whitney)|||Twin||||0.417
82548721|NCT03703700|164798828|OTHER|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||Singleton||||0.985
82548722|NCT03703700|164798828|OTHER|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Twin||||0.157
82548723|NCT03703700|164798829|OTHER||Risk Ratio (RR)|1.07||||0.789|TWO_SIDED|95.0|0.65|1.78|||Chi-squared|||||1.78|0.65|0.789
82548724|NCT03703700|164798830|OTHER||Risk Ratio (RR)|1.09||||0.769|TWO_SIDED|95.0|0.61|1.94|||Chi-squared|||||1.94|0.61|0.769
82548725|NCT03703700|164798831|OTHER||Risk Ratio (RR)|0.41||||0.59|TWO_SIDED|95.0|0.04|4.45|||Fisher Exact|||||4.45|0.04|0.590
82548726|NCT03703700|164798832|OTHER||Risk Ratio (RR)|2.04||||0.465|TWO_SIDED|95.0|0.4|10.39|||Fisher Exact|||||10.39|0.40|0.465
82579990|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||0.533
82579991|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.039
82579992|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.059||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.059
82579993|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||>0.99
82579994|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||>0.99
82579995|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
82473958|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.6331|TWO_SIDED|95.0|-0.9|1.477||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 3."|||1.477|-0.900|0.6331
82473959|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.909|TWO_SIDED|95.0|-1.113|1.25||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 3.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 3."|||1.250|-1.113|0.9090
82473960|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.5469|TWO_SIDED|95.0|-0.956|1.802||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 30 mg and Placebo at Month 6."|||1.802|-0.956|0.5469
82473961|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.7906|TWO_SIDED|95.0|-1.576|1.2||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 20 mg and Placebo at Month 6."|||1.200|-1.576|0.7906
82473962|NCT00947882|164643436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.5757|TWO_SIDED|95.0|-1.773|0.987||No adjustment for multiple comparisons was made. Unadjusted p-value of comparison vs. placebo at Month 6.|ANCOVA|ANCOVA with baseline Qmax as covariate and treatment group, region (North America,Europe) and prostate volume stratum (\<30 mL,≥30 mL) as factors.LOCF.|"Treatment difference between Degarelix 10 mg and Placebo at Month 6."|||0.987|-1.773|0.5757
82473963|NCT05188053|164643460|OTHER|"Sample size calculations were performed to estimate the number of subjects needed to detect a 30% difference in NRS pain AUC scores between the study groups.~30% reduction in pain was considered the minimal clinically important difference in pain control based off previous pain research.~A 30% reduction in pain would correspond with a difference of approximately 136 in area under the curve of mean pain over time."||||||0.17||||||a priori threshold p \<0.05|t-test, 2 sided|assuming unequal variance||Two-sample t-test with unequal variance. The null hypothesis is that there was no statistically significant difference between the two treatment groups based on a standard alpha value of 0.05.||||0.170
82473964|NCT01120964|164643479|OTHER|Analyses presented herein are for re-intubation time included.|Mean Difference (Final Values)|32.0||||0.0222|TWO_SIDED|95.0|-9.5|73.4||The threshold for statistical significance was p\<0.05|Wilcoxon (Mann-Whitney)|||"Total duration of postoperative invasive mechanical ventilation was analyzed by treatment group using summary statistics, and was compared between citrulline and placebo groups using an ANOVA.~Kaplan-Meier analyses were performed for: 1) zero durations censored, 2) zero durations uncensored, 3) patients with zero duration excluded. The same analyses were performed with re-intubation time removed."||73.4|-9.5|0.0222
82473965|NCT01120964|164643480|OTHER||Mean Difference (Final Values)|32.0||||0.0222|TWO_SIDED|95.0|-9.5|73.4||Re-intubation time included. Threshold for significance was p\<0.05|t-test, 2 sided|||Analyses presented herein are for re-intubation time included.||73.4|-9.5|0.0222
82473966|NCT01120964|164643481|OTHER||Mean Difference (Final Values)|50.7||||0.0418|TWO_SIDED|95.0|5.4|96.0||The threshold for significance was P\<0.05|Wilcoxon (Mann-Whitney)|||||96.0|5.4|0.0418
82473967|NCT01120964|164643482|OTHER||Mean Difference (Final Values)|12.7||||0.0727|TWO_SIDED|95.0|-2.6|28.1||The threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||28.1|-2.6|0.0727
82473968|NCT01120964|164643483|OTHER||Mean Difference (Final Values)|559.8||||0.1271|TWO_SIDED|95.0|-193.5|1313.2|||Wilcoxon (Mann-Whitney)|||||1313.2|-193.5|0.1271
82473969|NCT01120964|164643484|OTHER||Mean Difference (Final Values)|3.5||||0.972|TWO_SIDED|95.0|-7.0|14.1|||Wilcoxon (Mann-Whitney)|||||14.1|-7.0|0.9720
82473970|NCT01120964|164643485|OTHER||Mean Difference (Final Values)|5.2||||0.8884|TWO_SIDED|95.0|-7.7|18.0|||Wilcoxon (Mann-Whitney)|||||18.0|-7.7|0.8884
82473971|NCT01120964|164643486|OTHER|Total number of postoperative hours spent in PICU|Mean Difference (Final Values)|69.14||||0.1891|TWO_SIDED|95.0|-49.39|187.67||The threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||187.67|-49.39|0.1891
82548727|NCT05063994|164798833|NON_INFERIORITY|Non-inferiority of Chronocort to Cortef was declared if the 95% CI for the difference in biochemical response rates between the 2 treatment arms (Chronocort minus Cortef) was wholly above minus 15 percentage points.|Treatment Difference|25.7|STANDARD_ERROR_OF_MEAN|11.82||0.0003|TWO_SIDED|95.0|2.5|48.9||One-sided non-inferiority. The Ge et al (2011) method was used to calculate the estimate, standard error, confidence interval and P-value for the treatment difference from the results of a logistic regression analysis.|Regression, Logistic|||||48.9|2.5|0.0003
82579996|NCT00688870|164870795|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.275
82579997|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||>0.99
82473972|NCT01120964|164643487|OTHER||Mean Difference (Final Values)|30.2||||0.0479|TWO_SIDED|95.0|-10.8|71.1||Duration including re-intubation time. Threshold for significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||71.1|-10.8|0.0479
82473973|NCT01120964|164643488|OTHER||Mean Difference (Final Values)|3.7||||0.2637|TWO_SIDED|95.0|-2.2|9.7|||Wilcoxon (Mann-Whitney)|||||9.7|-2.2|0.2637
82473974|NCT01120964|164643490|OTHER||Mean Difference (Final Values)|7.5||||0.6431|TWO_SIDED|95.0|-25.9|41.0|||t-test, 2 sided|||||41.0|-25.9|0.6431
82473975|NCT01120964|164643491|OTHER||Mean Difference (Final Values)|39.5||||0.6408|TWO_SIDED|95.0|-134.2|213.1|||ANOVA|||||213.1|-134.2|0.6408
82579998|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||0.617
82548728|NCT05063994|164798834|SUPERIORITY|Superiority of Chronocort to Cortef with respect to the dose response after 28 weeks of randomized treatment was declared if the two-sided 95% CI for the difference in response rates between the 2 treatment arms (Chronocort minus Cortef) was wholly above zero, provided that non-inferiority of Chronocort to Cortef with respect to the biochemical response had been declared under the primary efficacy objective.|Treatment Difference|25.3|STANDARD_ERROR_OF_MEAN|11.24||0.012|TWO_SIDED|95.0|3.3|47.3||One-sided superiority. The Ge et al (2011) method was used to calculate the estimate, standard error, confidence interval and P-value for the treatment difference from the results of a logistic regression analysis.|Regression, Logistic|||||47.3|3.3|0.012
82548729|NCT05063994|164798835|SUPERIORITY|Superiority of Chronocort to Cortef (with respect to the total daily dose after 28 weeks of randomized treatment) was declared if the two-sided 95% CI for the difference in means between the 2 treatment arms (Chronocort minus Cortef) was wholly below zero, provided that non-inferiority of Chronocort to Cortef in terms of biochemical response had been declared under the primary efficacy objective, and superiority of Chronocort to Cortef in terms of dose response has been declared.|Treatment Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.66||0.0005|TWO_SIDED|95.0|-9.2|-2.5||One-sided superiority.|MMRM|||||-2.5|-9.2|0.0005
82548730|NCT00616967|164798866|SUPERIORITY_OR_OTHER_LEGACY||Pathological complete response rate|0.274|||||TWO_SIDED|95.0|0.169|0.402|||||The Estimation Parameter provided above is for overall pCR for both arms combined. We estimated pCR for each arm separately as well.|Patients were stratified by hormone receptor status and randomly assigned to either arm 1 or 2. This study was designed using Simon's two-stage design for each arm in parallel. Interim analysis of early stopping for futility was conducted for the first 32 patients (16 patients per arm) and the study proceeded as more than 2 patients achieved a pCR in each arm (31 patients per arm). This design had 80% power to detect a 25% pCR rate versus a null rate of 10% with a type I error rate of 0.10.||0.402|0.169|
82548731|NCT00616967|164798866|SUPERIORITY_OR_OTHER_LEGACY||pCR in placebo arm (arm 1)|0.29|||||TWO_SIDED|95.0|0.142|0.48||||||||0.48|0.142|
82548732|NCT00616967|164798866|SUPERIORITY_OR_OTHER_LEGACY||pCR in vorinostat arm (arm 2)|0.258|||||TWO_SIDED|95.0|0.119|0.446||||||||0.446|0.119|
82548733|NCT00616967|164798869|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.1||||0.023|TWO_SIDED|95.0|1.3|22.7|||Regression, Logistic|||The estimates provided are based upon a multivariate analysis using a logistic regression adjusting for hormone receptor status. Patients with ≥50% reduction in SULmax were more likely to achieve a pCR.||22.7|1.3|0.023
82548734|NCT02910583|164798878|SUPERIORITY||Difference in Rates|4.7||||0.1475|TWO_SIDED|95.0|-1.6|10.9||P-value is from Z test for the difference of two proportions based on Kaplan-Meier estimates with standard error of each arm computed using Greenwood's formula.|Z test||comparison: ibrutininb vs. placebo|||10.9|-1.6|0.1475
82548735|NCT02910583|164798879|SUPERIORITY||||||<|0.0001||||||One-sided P-value from asymptotic test for the binomial proportion (CRR \<= 37% vs CRR \> 37%).|asymptotic test for binomial proportion|||||||< 0.0001
82548736|NCT03958955|164798909|SUPERIORITY||Attributable risk|-0.14||||0.4531|TWO_SIDED|95.0|-0.37|0.09||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib compared to vehicle. Exact p-value of McNemar's test. Success is defined as having an IGA score of 0 (clear) or 1 (almost clear) at Week 6.|||0.09|-0.37|0.4531
82548737|NCT03958955|164798912|SUPERIORITY||Attributable risk|0.07||||0.5|TWO_SIDED|95.0|-0.02|0.17||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success (i.e. no lesion-specific treatment-related AEs) of delgocitinib compared to vehicle. Exact p-value of McNemar's test.|||0.17|-0.02|0.5000
82548738|NCT03958955|164798913|SUPERIORITY||Attributable risk|-0.14||||0.4531|TWO_SIDED|95.0|-0.37|0.09||Exact p-value of McNemar's test.|McNemar||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib vs vehicle. Exact p-value of McNemar's test. Success is defined as having at least a 2-point reduction in IGA score from baseline to Week 6.|||0.09|-0.37|0.4531
82548739|NCT03958955|164798914|SUPERIORITY||Attributable risk|0.0||||1|TWO_SIDED|95.0|-0.22|0.22||Exact p-value of McNemar's test.|McNemar||||Attributable risk is defined as the difference in estimated probability of treatment success of delgocitinib compared to vehicle. Exact p-value of McNemar's test. Success is defined as having at least a 2-point reduction in IGA score from baseline to Week 6.|0.22|-0.22|1.0000
82548740|NCT03958955|164798915|SUPERIORITY|||||||0.5797||||||P-value of the Wilcoxon signed rank test.|Wilcoxon signed rank test|Erythema is scored as 0=absent, 1=pink, faint, 2=red, 3=dark red, purple/violaceous/crusted/haemorrhagic. P-value of the Wilcoxon signed rank test.||||||0.5797
82548741|NCT03958955|164798916|SUPERIORITY|||||||0.7862||||||P-value of the Wilcoxon signed rank test.|Wilcoxon signed rank test|P-value of the Wilcoxon signed rank test.||Total skin disease activity score is the sum of the scores for erythema, scaling/hyperkeratosis, and oedema/infiltration. Total skin disease activity score ranges from 0 to 7 with lower score indicating better state.||||0.7862
82548742|NCT04638829|164798923|OTHER|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82548743|NCT04638829|164798924|OTHER|||||||0.0093|||||||t-test, 2 sided|||||||0.0093
82548744|NCT04638829|164798925|OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82548745|NCT04638829|164798926|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82548746|NCT04088630|164798935|SUPERIORITY|||||||0.0427||||||p\<0.05 considered significant. Between group pairwise comparisons performed with Bonferroni correction.|Fisher Exact|||Difference in proportion of subjects with cardiac events up to 30 days post-ictus tested between three groups.||||0.0427
82548747|NCT04088630|164798936|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Difference in proportion of subjects with nosocomial infections up to 90 days post-ictus tested between three groups. No pairwise comparisons performed.||||0.19
82473976|NCT00147069|164643549|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|||||||0.1
82548748|NCT04088630|164798937|SUPERIORITY|||||||0.3|||||||Fisher Exact|||Difference in proportion of subjects with neurologic decline up to 30 days post-ictus tested between three groups. No pairwise comparisons performed.||||0.30
82548749|NCT03381261|164798957|OTHER|While descriptive statistics were presented in the original mRNA units using median and interquartile range (25th, 75th), statistical group comparison and effect sizes were reported as the ratio of the geometric means.|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82579999|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.810
82580000|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.810
82473977|NCT00147069|164643550|SUPERIORITY|||||||0.05||||||The reported p value was calculated|Kruskal-Wallis|||||||0.05
82473978|NCT00147069|164643551|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
82473979|NCT00147069|164643552|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|||||||0.05
82473980|NCT00459732|164643556|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED|95.0|||||ANOVA|||||||0.13
82473981|NCT00459732|164643557|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|TWO_SIDED|95.0|||||ANOVA|Repeated measures||||||0.44
82473982|NCT00459732|164643558|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED|95.0|||||ANCOVA|Repeated measures analysis of variance adjusted for baseline osteocalcin level.||||||0.16
82473983|NCT01243242|164643565|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using the median test for independent samples|Median|||For the primary endpoint (CAARS change), median test was applied as the primary analysis due to outlier numbers observed ; secondary analysis of the primary endpoint utilized ANCOVA with adjustment to age, gender and site (which is usually expected to influence the endpoint) as well as baseline values. Additional parametric T-test was applied, but was found less effective due to outlier values.||||0.0093
82473984|NCT01243242|164643566|SUPERIORITY_OR_OTHER|||||||0.0195||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using ANCOVA, adjusted for baseline score, gender, site and age|ANCOVA|||Analysis of Covariance (ANCOVA) was applied for comparing the differences in changes from screening/baseline (Visit 1) to termination (Visit 6) and to Visits 3 through 5 in the primary endpoint, CAARS, and secondary endpoint scales, CGI-S, TOVA and AAQoL between the study groups with adjustment to confounders (baseline score, site, age, gender, dose and past exposure to any other ADHD drug).||||0.0195
82473985|NCT01243242|164643567|SUPERIORITY_OR_OTHER|||||||0.0093||95.0||||p value for the difference between groups in change from Screening to Termination was calculated using ANCOVA, adjusted for baseline score, gender, site and age.|ANCOVA|||Analysis of covariance (ANCOVA) was applied for comparing the differences in changes from screening/baseline (Visit 1) to termination (Visit 6) between the study groups with adjustment to confounders (baseline score, site, age, gender, dose and past exposure to any other ADHD drug).||||0.0093
82473986|NCT02160899|164643597|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82473987|NCT02160899|164643597|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82473988|NCT02160899|164643597|SUPERIORITY|||||||0.044|||||||Exact Wilcoxon Rank Sum Test|||||||0.044
82473989|NCT01256294|164643599|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.02|||||TWO_SIDED|95.0|0.96|1.09||||||||1.09|0.96|
82473990|NCT01256294|164643599|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.02||||0.486|TWO_SIDED|90.0|0.97|1.08||ANOVA model for the dose-normalized log transformed values with treatment, period and sequence as fixed factors and subjects nested within sequences as a random factor.|ANOVA|||To compare the bioavailability of generic tacrolimus to branded tacrolimus, the 90% confidence intervals of the ratios of geometric means of AUC0-12h were assessed relative to the interval \[80%, 125%\].||1.08|0.97|0.486
82473991|NCT01256294|164643604|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.09|||||TWO_SIDED|95.0|1.0|1.2|||||Ratio of geometric means: Generic tacrolimus/Branded tacrolimus|||1.20|1.00|
82473992|NCT01256294|164643604|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.09||||0.057|TWO_SIDED|90.0|1.01|1.18||ANOVA model for the dose-normalized log transformed values with treatment, period and sequence as fixed factors and subjects nested within sequences as a random factor.|ANOVA|||To compare the bioavailability of generic tacrolimus to branded tacrolimus, the 90% confidence intervals of the ratios of geometric means of Cmax were assessed relative to the interval \[80%, 125%\].||1.18|1.01|0.057
82473993|NCT00724711|164643610|NON_INFERIORITY_OR_EQUIVALENCE|"This study was designed to show noninferiority (change of \< 12%) in regard of proportions of responders (TLOVR) at Week 48.~With 170 subjects in each group, the lower limit of observed one-sided 97.5% confidence interval was expected to be greater than -0.120 with 80% power when the proportion of responders in both treatment groups is 0.820 (82%) at Week 48.~312 subjects were enrolled, representing 8% less than planned (n = 340). As a result, power to claim non-inferiority decreased to 78%."|Difference in percentages between groups|3.0|||||TWO_SIDED|95.0|-5.1|11.2|||Inverted two one-sided tests|Inverted two one-sided tests with the standardized statistic||"Null hypothesis: The TVD group is at least 12% worse than the ABC/3TC group with respect to the percentage of subjects maintaining HIV-1 RNA \< 200 copies/mL through Week 48 (responder rate, as defined by the TLOVR algorithm)~Alternative hypothesis: The TVD group is less than 12% worse than the ABC/3TC group with respect to the percentage of subjects maintaining HIV-1 RNA \< 200 copies/mL through Week 48 (responder rate, as defined by the TLOVR algorithm)"||11.2|-5.1|
82473994|NCT01621802|164643642|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: Lower limit (LL) of the 2-sided 97.5% confidence interval (CI) for group difference (Inv\_MMR\_CO Group minus pooled Com\_MMR\_CO Group) in seroresponse rates to measles, mumps and rubella viruses is ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.72|1.98|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-measles antibody concentration ≥ 200 mIU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.98|-0.72|
82500403|NCT02345850|164691593|SUPERIORITY|||||||0.026||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the OS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.026
82500404|NCT02345850|164691594|SUPERIORITY|||||||0.029||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference of Relapse-Free Survival between the treatment groups.||||0.029
82500405|NCT02345850|164691594|SUPERIORITY|||||||0.145||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the RFS hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.145
82548750|NCT04321031|164798968|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.02|0.2|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the statistical analysis plan (SAP).||0.20|-0.02|
82548751|NCT04321031|164798968|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|90.0|-0.03|0.24|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.24|-0.03|
82473995|NCT01621802|164643642|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in Seroresponse rate (%)|0.71|||||TWO_SIDED|97.5|0.02|2.97|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-Measles antibody concentration ≥ 200 mIU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||2.97|0.02|
82473996|NCT01621802|164643643|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_CO Group minus pooled Com\_MMR\_CO Group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.72|1.97|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-mumps antibody concentration ≥ 10 EU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.97|-0.72|
82473997|NCT01621802|164643643|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in Seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.68|1.75|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-mumps antibody concentration ≥ 10 EU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||1.75|-0.68|
82473998|NCT01621802|164643644|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_CO group minus pooled Com\_MMR\_CO group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|-0.14|||||TWO_SIDED|97.5|-0.98|1.84|||||Difference in percentage (Inv\_MMR\_CO Group minus Com\_MMR\_CO Group) in percentage of subjects with an anti-rubella antibody concentration ≥ 10 IU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 1 should be at least 94.04% (=100%- the sum of type II errors associated to cohort 1."||1.84|-0.98|
82473999|NCT01621802|164643644|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for group difference (Inv\_MMR\_I group minus pooled Com\_MMR\_I group) in seroresponse rates to measles, mumps and rubella viruses was ≥ -5%.|Difference in seroresponse rate (%)|0.0|||||TWO_SIDED|97.5|-0.68|1.75|||||Difference in percentage (Inv\_MMR\_I Group minus Com\_MMR\_I Group) in percentage of subjects with an anti-rubella antibody concentration ≥ 10 IU/mL.|"Power obtained using PASS 2005 (Likelihood Score \[Miettienen and Nurminen approach\]), one-sided non-inferiority test for the difference of two independent proportions, under the alternative associated to the reference value \& alpha=1.25%.~The global power to reach all non-inferiority objectives of Priorix vs. M-M-R II in sub-cohort 2 should be at least 98.88% (=100%- the sum of type II error associated to cohort 2."||1.75|-0.68|
82474000|NCT01621802|164643645|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.99|||||TWO_SIDED|97.5|0.92|1.06|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.06|0.92|
82474001|NCT01621802|164643645|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.03|||||TWO_SIDED|97.5|0.96|1.1|||ANCOVA|Ancova model: adjustment for baseline concentration country - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.10|0.96|
82474002|NCT01621802|164643646|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.91|||||TWO_SIDED|97.5|0.83|1.0|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.00|0.83|
82474003|NCT01621802|164643646|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|0.96|||||TWO_SIDED|97.5|0.87|1.06|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.06|0.87|
82548752|NCT04321031|164798968|SUPERIORITY||Risk Difference (RD)|0.12|||||TWO_SIDED|90.0|-0.03|0.26|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.26|-0.03|
82548753|NCT04321031|164798968|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|90.0|-0.04|0.28|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.28|-0.04|
82548754|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.04|0.32||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.32|-0.04|
82548755|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.11|0.27||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.27|-0.11|
82548756|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.12|||||TWO_SIDED|90.0|-0.07|0.3||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.30|-0.07|
82548757|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.07|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|0.07|
82548758|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.07|||||TWO_SIDED|90.0|-0.12|0.27||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.27|-0.12|
82548759|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.25|||||TWO_SIDED|90.0|0.04|0.42||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.42|0.04|
82548760|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|50.0|0.08|0.23||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|0.08|
82548761|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|90.0|-0.03|0.31||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.31|-0.03|
82548762|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|50.0|0.09|0.26||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.26|0.09|
82650863|NCT01335477|165016601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.08|STANDARD_ERROR_OF_MEAN|1.342||0.022||95.0|-5.71|-0.45|||Mixed Models Analysis||"Within-patient error are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ impact component, baseline SGRQ impact component-by-visit and random effect for patient||-0.45|-5.71|0.0220
82548763|NCT04321031|164798969|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|90.0|-0.03|0.35||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.35|-0.03|
82548764|NCT04321031|164798970|SUPERIORITY||Least Square (LS) Mean|-25.98|||||TWO_SIDED|90.0|-58.42|-2.57||||||||-2.57|-58.42|
82548765|NCT04321031|164798970|SUPERIORITY||LS Mean|-35.41|||||TWO_SIDED|90.0|-69.41|-5.42||||||||-5.42|-69.41|
82548766|NCT04321031|164798970|SUPERIORITY||LS Mean|-40.54|||||TWO_SIDED|90.0|-75.55|-7.32||||||||-7.32|-75.55|
82548767|NCT04321031|164798970|SUPERIORITY||LS Mean|-44.74|||||TWO_SIDED|90.0|-81.72|-8.42||||||||-8.42|-81.72|
82548768|NCT04321031|164798971|SUPERIORITY||LS Mean|-41.82|||||TWO_SIDED|90.0|-62.57|-9.57||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-9.57|-62.57|
82548769|NCT04321031|164798971|SUPERIORITY||LS Mean|-43.33|||||TWO_SIDED|90.0|-62.37|-14.64||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-14.64|-62.37|
82548770|NCT04321031|164798971|SUPERIORITY||LS Mean|-59.35|||||TWO_SIDED|90.0|-73.95|-36.55||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-36.55|-73.95|
82548771|NCT04321031|164798971|SUPERIORITY||LS Mean|-68.21|||||TWO_SIDED|90.0|-79.72|-50.15||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-50.15|-79.72|
82548772|NCT04321031|164798971|SUPERIORITY||LS Mean|-50.46|||||TWO_SIDED|90.0|-69.53|-19.44||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-19.44|-69.53|
82548773|NCT04321031|164798971|SUPERIORITY||LS Mean|-69.27|||||TWO_SIDED|90.0|-81.08|-50.07||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-50.07|-81.08|
82548774|NCT04321031|164798971|SUPERIORITY||LS Mean|-21.8|||||TWO_SIDED|50.0|-34.02|-7.32||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-7.32|-34.02|
82548775|NCT04321031|164798971|SUPERIORITY||LS Mean|-21.8|||||TWO_SIDED|90.0|-48.51|18.76||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||18.76|-48.51|
82548776|NCT04321031|164798971|SUPERIORITY||LS Mean|-37.97|||||TWO_SIDED|50.0|-49.4|-23.95||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||-23.95|-49.40|
82548777|NCT04321031|164798971|SUPERIORITY||LS Mean|-37.97|||||TWO_SIDED|90.0|-62.41|2.37||||||Log-transformed relative changes from baseline are modelled using an ANCOVA model with treatment and baseline fibrosis stage (F2/F3) as factors, and log-transformed baseline liver fat as a covariate.||2.37|-62.41|
82500406|NCT02345850|164691595|SUPERIORITY|||||||0.02||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Transplant-Related Mortality between the treatment groups.||||0.020
82500407|NCT02345850|164691595|SUPERIORITY|||||||0.04||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the TRM hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.040
82500408|NCT02345850|164691596|SUPERIORITY|||||||0.2389||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||The null hypothesis is that there is no difference of immunosuppression-free survival at 1-year post-transplant between the treatment groups.||||0.2389
82500409|NCT02345850|164691596|SUPERIORITY||||||<|0.0001|||||||Cohen's Kappa|||The null hypothesis is that there is no agreement between CRFS and immunosuppression-free survival at 1-year post-transplant.||||<0.0001
82500410|NCT02345850|164691597|SUPERIORITY|||||||0.076||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Disease Relapse between the treatment groups.||||0.076
82500411|NCT02345850|164691597|SUPERIORITY|||||||0.106||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the Disease Relapse hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.106
82500412|NCT02345850|164691598|SUPERIORITY|||||||0.0764||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Neutrophil Engraftment post-transplantation between the treatment groups.||||0.0764
82500413|NCT02345850|164691599|SUPERIORITY|||||||0.0001||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Platelet recovery post-transplantation between the treatment groups.||||0.0001
82500414|NCT02345850|164691601|SUPERIORITY|||||||0.1478|||||||Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Secondary graft failure post-transplantation between the treatment groups.||||0.1478
82500415|NCT02345850|164691602|SUPERIORITY|||||||0.0026||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade II-IV acute GVHD post-transplantation between the treatment groups.||||0.0026
82500416|NCT02345850|164691602|SUPERIORITY|||||||0.0369||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade III-IV acute GVHD post-transplantation between the treatment groups.||||0.0369
82500417|NCT02345850|164691602|SUPERIORITY|||||||0.002||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the grade II-IV acute GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.002
82500418|NCT02345850|164691602|SUPERIORITY|||||||0.046||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the grade III-IV acute GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.046
82500419|NCT02345850|164691604|SUPERIORITY|||||||0.0024||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of chronic GVHD post-transplantation between the treatment groups.||||0.0024
82500420|NCT02345850|164691604|SUPERIORITY|||||||0.005||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Regression, Cox|||The null hypothesis is that there is no difference of the chronic GVHD hazard ratio between treatment groups after adjustment for age, donor type, performance status, primary disease, and disease risk.||||0.005
82500421|NCT02345850|164691605|SUPERIORITY|||||||0.229||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Log Rank|||The null hypothesis is that there is no difference of Chronic GVHD-free Survival post-transplantation between the treatment groups.||||0.229
82500422|NCT02345850|164691607|SUPERIORITY|||||||0.0006||||||Superiority - Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grades II-III infection post-transplantation between the treatment groups.||||0.0006
82500423|NCT02345850|164691607|SUPERIORITY|||||||0.0145||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Grades III infection post-transplantation between the treatment groups.||||0.0145
82500424|NCT02392247|164691613|SUPERIORITY_OR_OTHER||Slope|0.34|||<|0.001|TWO_SIDED|95.0|0.26|0.44||This study was not designed to determine which method is 'superior'.Statistical significance refers to deviation of slope for perfect agreement (=1) between paired measurements to quantify strength of association .|Deming Regression||Slope measured deviation from 1:1 concordance between SEER and TEG with TEG measurement as denominator. Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|A cohort of 50 patients was estimated to capture at least 7 'bleeding' patients with a likelihood of 95%, assuming a 25% incidence of bleeding, and standard deviation of 20%, to determine maximum clot stiffness within +/- 10% of the mean. This was a descriptive and method-comparison study. Method comparisons were performed according to Clinical Laboratory Science Institute (CLSI) guidelines (Deming regression on paired measurements)||0.44|0.26|<0.001
82548778|NCT04321031|164798972|SUPERIORITY||Risk Difference (RD)|0.21|||||TWO_SIDED|90.0|0.09|0.32|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.32|0.09|
82548779|NCT04321031|164798972|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.15|0.37|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.37|0.15|
82548780|NCT04321031|164798972|SUPERIORITY||Risk Difference (RD)|0.29|||||TWO_SIDED|90.0|0.18|0.39|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.39|0.18|
82548781|NCT04321031|164798972|SUPERIORITY||Risk Difference (RD)|0.31|||||TWO_SIDED|90.0|0.19|0.42|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.42|0.19|
82548782|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.23|||||TWO_SIDED|90.0|0.04|0.51||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.51|0.04|
82548783|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.37|||||TWO_SIDED|90.0|0.13|0.63||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.63|0.13|
82548784|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|90.0|0.04|0.49||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.49|0.04|
82548785|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.54|||||TWO_SIDED|90.0|0.26|0.75||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.75|0.26|
82548786|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.34|||||TWO_SIDED|90.0|0.1|0.61||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.61|0.10|
82548787|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.48|||||TWO_SIDED|90.0|0.2|0.72||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.72|0.20|
82548788|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.32|||||TWO_SIDED|50.0|0.24|0.39||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.39|0.24|
82548789|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.32|||||TWO_SIDED|90.0|0.12|0.48||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.48|0.12|
82548790|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|50.0|0.06|0.23||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|0.06|
82548791|NCT04321031|164798973|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.06|0.33||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.33|-0.06|
82548792|NCT04321031|164798974|SUPERIORITY||Risk Difference (RD)|-0.05|||||TWO_SIDED|90.0|-0.16|0.02|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.02|-0.16|
82548793|NCT04321031|164798974|SUPERIORITY||Risk Difference (RD)|-0.07|||||TWO_SIDED|90.0|-0.2|0.03|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.03|-0.20|
82548794|NCT04321031|164798974|SUPERIORITY||Risk Difference (RD)|-0.09|||||TWO_SIDED|90.0|-0.23|0.04|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.04|-0.23|
82548795|NCT04321031|164798974|SUPERIORITY||Risk Difference (RD)|-0.1|||||TWO_SIDED|90.0|-0.26|0.05|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.05|-0.26|
82548796|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|-0.07|||||TWO_SIDED|90.0|-0.21|0.13||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.13|-0.21|
82548797|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|-0.14|||||TWO_SIDED|90.0|-0.25|0.02||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.02|-0.25|
82548798|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|-0.02|||||TWO_SIDED|90.0|-0.17|0.17||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.17|-0.17|
82548799|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.02|||||TWO_SIDED|90.0|-0.15|0.22||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.22|-0.15|
82580001|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.674||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.674
82548800|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|-0.22|||||TWO_SIDED|90.0|-0.3|-0.05||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||-0.05|-0.30|
82548801|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.13|0.26||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.26|-0.13|
82548802|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|50.0|-0.03|0.12||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.12|-0.03|
82548803|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.12|0.23||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.23|-0.12|
82548804|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|50.0|0.17|0.38||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.38|0.17|
82548805|NCT04321031|164798975|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.06|0.53||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.53|0.06|
82548806|NCT04321031|164798976|SUPERIORITY||Risk Difference (RD)|0.03|||||TWO_SIDED|90.0|-0.01|0.08|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.08|-0.01|
82548807|NCT04321031|164798976|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.02|0.09|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.09|-0.02|
82548808|NCT04321031|164798976|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.02|0.11|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.11|-0.02|
82548809|NCT04321031|164798976|SUPERIORITY||Risk Difference (RD)|0.05|||||TWO_SIDED|90.0|-0.02|0.12|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.12|-0.02|
82548810|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.09|||||TWO_SIDED|90.0|-0.01|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|-0.01|
82548811|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.03|||||TWO_SIDED|90.0|-0.02|0.29||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.29|-0.02|
82548812|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.09|||||TWO_SIDED|90.0|-0.01|0.43||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.43|-0.01|
82548813|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.17|||||TWO_SIDED|90.0|0.01|0.57||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.57|0.01|
82548814|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.04|||||TWO_SIDED|90.0|-0.02|0.33||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.33|-0.02|
82548815|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.17|||||TWO_SIDED|90.0|0.01|0.58||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.58|0.01|
82548816|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|50.0|0.02|0.16||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.16|0.02|
82548817|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.08|||||TWO_SIDED|90.0|-0.04|0.3||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.30|-0.04|
82548818|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|50.0|0.06|0.24||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.24|0.06|
82548819|NCT04321031|164798977|SUPERIORITY||Risk Difference (RD)|0.13|||||TWO_SIDED|90.0|-0.01|0.44||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.44|-0.01|
82548820|NCT04321031|164798978|SUPERIORITY||Risk Difference (RD)|0.18|||||TWO_SIDED|90.0|0.05|0.31|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.31|0.05|
82548821|NCT04321031|164798978|SUPERIORITY||Risk Difference (RD)|0.23|||||TWO_SIDED|90.0|0.09|0.36|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.36|0.09|
82580002|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
82548822|NCT04321031|164798978|SUPERIORITY||Risk Difference (RD)|0.25|||||TWO_SIDED|90.0|0.1|0.38|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.38|0.10|
82548823|NCT04321031|164798978|SUPERIORITY||Risk Difference (RD)|0.27|||||TWO_SIDED|90.0|0.11|0.4|||||Reported values reflect a 90% Credible Interval rather than a 90% Confidence Interval.|The model was applied to the raw number of responders and non-responders utilizing a Bayesian methodology approach with non-informative priors as described in the SAP.||0.40|0.11|
82548824|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.14|||||TWO_SIDED|90.0|-0.04|0.36||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.36|-0.04|
82548825|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.35|||||TWO_SIDED|90.0|0.15|0.53||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.53|0.15|
82548826|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.26|||||TWO_SIDED|90.0|0.06|0.46||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.46|0.06|
82548827|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.48|||||TWO_SIDED|90.0|0.27|0.63||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.63|0.27|
82548828|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.16|||||TWO_SIDED|90.0|-0.03|0.38||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.38|-0.03|
82548829|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|90.0|0.18|0.58||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.58|0.18|
82548830|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|50.0|0.15|0.28||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.28|0.15|
82548831|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.22|||||TWO_SIDED|90.0|0.03|0.35||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.35|0.03|
82548832|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.24|||||TWO_SIDED|50.0|0.16|0.32||||||Risk difference and 2-sided 50% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.32|0.16|
82650864|NCT01335477|165016602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31|STANDARD_ERROR_OF_MEAN|1.36||0.0152||95.0|-5.97|-0.64|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ Activities component, baseline SGRQ Activities component-by-visit and random effect for patient||-0.64|-5.97|0.0152
82650865|NCT01335477|165016603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|1.192||0.0089||95.0|-5.46|-0.79|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SGRQ-I Total score, baseline SGRQ-I Total score-by-visit and random effect for patient.||-0.79|-5.46|0.0089
82650866|NCT01335477|165016604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|1.685||0.1587||95.0|-5.68|0.93|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline SOBQ score, baseline SOBQ score-by-visit and random effect for patient.||0.93|-5.68|0.1587
82548833|NCT04321031|164798979|SUPERIORITY||Risk Difference (RD)|0.24|||||TWO_SIDED|90.0|0.03|0.42||||||Risk difference and 2-sided 90% confidence interval for risk difference were calculated by using the observed placebo/corresponding BID rate and estimated odds ratio from the logistic regression model.||0.42|0.03|
82548834|NCT03661840|164799010|SUPERIORITY||Mean Difference (Final Values)|3.9|STANDARD_ERROR_OF_MEAN|17.0||0.82|TWO_SIDED|95.0|-31.0|39.0||Unadjusted model comparing the mean difference (change from 12 weeks - baseline) in outcome by intervention group.|Regression, Linear|||Sample size was estimated using d= 0.61, with power at 0.80 and α = .05, two-tailed. It is assumed that the correlation between pre and post-test measures will be high at .5. With these parameters and using repeated measures ANOVA to evaluate treatment difference, sample size is powered for clinical outcomes at 92 participants; with an estimated 30% attrition and conservatively including the possibility of screening failures, a maximum sample of 140 participants will be targeted for enrollment.||39|-31|0.82
82548835|NCT03661840|164799011|SUPERIORITY||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|6.4||0.06|TWO_SIDED|95.0|-0.7|25.0||Unadjusted model comparing the change in outcome by intervention group|Regression, Linear|||||25|-0.7|0.06
82548836|NCT03661840|164799011|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.05|TWO_SIDED||||||ANOVA|||Sample size was estimated using d= 0.61, with power at 0.80 and α = .05, two-tailed. It is assumed that the correlation between pre and post-test measures will be high at .5. With these parameters and using repeated measures ANOVA to evaluate treatment difference, sample size is powered for clinical outcomes at 92 participants; with an estimated 30% attrition and conservatively including the possibility of screening failures, a maximum sample of 140 participants will be targeted for enrollment.||||0.05
82548837|NCT03665597|164799028|OTHER|Geometric Least-Square Mean Ratio (GMR) = GM of Pembrolizumab 130 mg/mL SC/GM of Pembrolizumab 200 mg IV|GMR|0.73|||||TWO_SIDED|90.0|0.68|0.78||||||||0.78|0.68|
82548838|NCT03665597|164799028|OTHER|GMR = GM of Pembrolizumab 165 mg/mL SC/GM of Pembrolizumab 200 mg IV|GMR|0.69|||||TWO_SIDED|90.0|0.64|0.74||||||||0.74|0.64|
82548839|NCT03665597|164799029|OTHER|GMR = GM of Pembrolizumab 130 mg/mL SC/GM of Pembrolizumab 200 mg IV|Geometric Least-Square Mean Ratio|0.4|||||TWO_SIDED|90.0|0.36|0.44||||||||0.44|0.36|
82548840|NCT03665597|164799029|OTHER|GMR = GM of Pembrolizumab 165 mg/mL SC/GM of Pembrolizumab 200 mg IV|Geometric Least-Square Mean Ratio|0.38|||||TWO_SIDED|90.0|0.34|0.41||||||||0.41|0.34|
82548841|NCT04831216|164799051|OTHER|||||||0.0107||||||The p-value reflects results of analysis of change in HbA1c from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0107
82548842|NCT04831216|164799052|OTHER|||||||0.7927||||||The p-value reflects results of analysis of change in skin carotenoid levels from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.7927
82548843|NCT04831216|164799053|OTHER|||||||0.4651||||||The p-value reflects results of analysis of change in HEI score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.4651
82548844|NCT04831216|164799054|OTHER|||||||0.2439||||||The p-value reflects results of analysis of change in BMI from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.2439
82548845|NCT04831216|164799056|OTHER|||||||0.6794||||||The p-value reflects results of analysis of change in DMSES scale score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.6794
82548846|NCT04831216|164799057|OTHER|||||||0.1043||||||The p-value reflects results of analysis of change in oral health behavior from baseline to post-intervention.|Mixed Models Analysis|Cumulative logit mixed effects model included time, age, household size, gender, race, education, and employment.||Cumulative logit mixed effects model (using PROC GLIMMIX) for repeated measures used all available participant data. This model is specifically designed for ordinal outcomes. Analyses do not include imputed missing values.||||0.1043
82548847|NCT04831216|164799058|OTHER||||||<|0.0001||||||The p-value reflects results of analysis of change in PAID-5 scale score from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||<0.0001
82548848|NCT04831216|164799060|OTHER|||||||0.5332||||||The p-value reflects results of analysis of change in number of visits to food pantries in the past 30 days from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.5332
82548849|NCT04831216|164799061|OTHER|||||||0.0468||||||The p-value reflects results of analysis of change in ARMS-D scale scores from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0468
82548850|NCT04831216|164799064|OTHER||||||<|0.0001||||||The p-value reflects results of analysis of change in days per week following general healthful diet from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||<0.0001
82548851|NCT04831216|164799065|OTHER|||||||0.0649||||||The p-value reflects results of analysis of change in days per week following specific diet recommendations from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0649
82548852|NCT04831216|164799066|OTHER|||||||0.0049||||||The p-value reflects results of analysis of change in days per week engaging in exercise from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0049
82548853|NCT04831216|164799067|OTHER|||||||0.0086||||||The p-value reflects results of analysis of change in days per week conducted blood glucose testing from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0086
82548854|NCT04831216|164799068|OTHER|||||||0.0243||||||The p-value reflects results of analysis of change in days per week conducting food checks from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.0243
82650867|NCT01335477|165016605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|STANDARD_ERROR_OF_MEAN|1.713||0.2326||95.0|-1.31|5.41|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough symptoms score, baseline CASA-Q Cough symptoms score-by-visit and random effect for patient.||5.41|-1.31|0.2326
82474004|NCT01621802|164643647|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 1: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_CO group divided by pooled Com\_MMR\_CO group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.03|||||TWO_SIDED|97.5|0.97|1.09|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|Adjusted geometric mean concentration (GMC) ratio (Inv\_MMR\_CO group divided by Com\_MMR\_CO group) for antibodies to rubella virus.||1.09|0.97|
82650868|NCT01335477|165016606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|STANDARD_ERROR_OF_MEAN|1.564||0.2475||95.0|-1.26|4.88|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo"|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, treatment-by-visit, baseline CASA-Q Cough impact score, baseline CASA-Q Cough impact score-by-visit and random effect for patient.||4.88|-1.26|0.2475
82474005|NCT01621802|164643647|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority criterion for sub cohort 2: The LL of the 2-sided 97.5% CI for the adjusted GMC ratio (Inv\_MMR\_I group divided by pooled Com\_MMR\_I group) was ≥ 0.67 for antibodies to measles, mumps and rubella viruses.|Adjusted GMC ratio|1.01|||||TWO_SIDED|97.5|0.95|1.07|||ANCOVA|Ancova model: adjustment for baseline concentration - pooled variance.|The GMCs were used to calculate the Adjusted GMCs, which in turn were used to calculate the Adjusted GMC ratio with 97.5% confidence interval.|||1.07|0.95|
82474006|NCT01149148|164643668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3333|STANDARD_DEVIATION|1.626||0.678|TWO_SIDED|95.0|-1.36|2.02||A prior threshold for statistical significance is p \< 0.05|t-test, 2 sided||The difference between baseline and three months is (baseline - 3 month). The difference in control and intervention is (intervention - control), which in this case is (unblinded - blinded).|The goal was to determine whether cerebral oximetry monitoring during surgery affected cognitive outcomes. Cerebral Oximetry Monitoring unblinded (intervention), and Cerebral Oxymetry Monitoring blinded (control) were given Mini Mental State Exam prior to surgery and three months after surgery. The differences between baseline and 3 month were calculated and compared between the intervention and control groups using t-test.||2.02|-1.36|0.678
82474007|NCT03436082|164643670|OTHER|We used Stata version 14.2 (StataCorp LP) to perform chi-square tests to compare syncing of the Fitbit device and response rate for the postprocedure recovery PROMs and disease-specific PROMs between patients in the bariatric surgery and atrial fibrillation ablation groups, using a p value \< 0.05 to denote statistical significance.||||||0.04|||||||Chi-squared|||||||0.04
82474008|NCT03436082|164643672|OTHER|We used Stata version 14.2 (StataCorp LP) to perform chi-square tests to compare syncing of the Fitbit device and response rate for the postprocedure recovery PROMs and disease-specific PROMs between patients in the bariatric surgery and atrial fibrillation ablation groups, using a p value \< 0.05 to denote statistical significance.||||||0.85|||||||Chi-squared|||||||0.85
82474009|NCT00950859|164643674|SUPERIORITY_OR_OTHER||percentage of participants|78.0|||||TWO_SIDED|95.0|58.0|91.0|||||The estimated value represents the percentage of participants with HIV-1 RNA \<400 c/mL or at least 0.7 log10 c/mL below their Baseline value at Day 11.|||91|58|
82474010|NCT00950859|164643674|SUPERIORITY_OR_OTHER||percentage of participants|96.0||||||95.0|79.0|100.0|||||The estimated value represents the percentage of participants with HIV-1 RNA \<400 c/mL or at least 0.7 log10 c/mL below their Baseline value at Day 11.|||100|79|
82474011|NCT02917642|164643700|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the irrigation protocol used after the chemo-mechanical preparation does not influence the reduction of bacteria within the root canal system.||||0.04
82474012|NCT02917642|164643701|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that the irrigation protocol used after the chemo-mechanical preparation does not influence the reduction of endotoxin within the root canal system.||||0.94
82474013|NCT02249832|164643702|EQUIVALENCE|A 3x3 repeated measures ANOVA was performed with group (mean gait speed in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).|||||<|0.001||||||A significance level of 0.05 was used (two-sided).|ANOVA|||||||<0.001
82474014|NCT02249832|164643703|EQUIVALENCE|A significance level of 0.05 was used (two-sided).|||||<|0.001|||||||ANOVA|||A 3x3 repeated measures ANOVA was performed with group (mean gait speed in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).||||<0.001
82474015|NCT02249832|164643704|EQUIVALENCE|A 3x3 repeated measures ANOVA was performed with group (mean distance walked in the low, moderate, and high groups) and time (admission, discharge (week 6), and follow-up (overall week 18) in each condition) as factors. Null hypothesis was that there was no difference in mean gait speed over time across the three groups. A significance level of 0.05 was used (two-sided).||||||0.001||||||A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.001
82474016|NCT02223377|164643808|SUPERIORITY||Odds Ratio (OR)|1.0||||0.997|TWO_SIDED|95.0|0.56|1.78|||Regression, Logistic|||||1.78|0.56|0.997
82474017|NCT02223377|164643813|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.04|TWO_SIDED|95.0|-1.43|-0.03|||ANOVA|||||-0.03|-1.43|0.040
82474018|NCT02105961|164643833|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.8||||0.068|TWO_SIDED|95.0|0.65|0.98||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.65|0.068
82580003|NCT00688870|164870796|SUPERIORITY_OR_OTHER_LEGACY|||||||0.497||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.497
82580004|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||>0.99
82650869|NCT01335477|165016607|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.379||||0.069||95.0|0.98|1.95|||Regression, Logistic||Nintedanib 150 mg bid versus Placebo|Logistic regression with term treatment||1.95|0.98|0.0690
82548855|NCT04831216|164799069|OTHER|||||||0.2861||||||The p-value reflects results of analysis of change in smoking status (yes/no) from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.2861
82548856|NCT04831216|164799070|OTHER|||||||0.9933||||||The p-value reflects results of analysis of change in days per week adhering to prescribed medications from baseline to post-intervention.|Mixed Models Analysis|Linear mixed effects regression model included time, age, household size, gender, race, education, and employment.||Linear mixed effects regression model for repeated measures used all available participant data. Analyses do not include imputed missing values.||||0.9933
82548857|NCT04410042|164799085|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.4|||||||Wilcoxon rank sum test|||||||0.4000
82548858|NCT04410042|164799086|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.4286|||||||Wilcoxon rank sum test|||||||0.4286
82474019|NCT02105961|164643833|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.8||||0.034|TWO_SIDED|95.0|0.65|0.98||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.65|0.034
82474020|NCT02105961|164643833|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.86||||0.14|TWO_SIDED|95.0|0.7|1.05||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period|||1.05|0.70|0.140
82474021|NCT02105961|164643833|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.86||||0.14|TWO_SIDED|95.0|0.7|1.05||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.05|0.70|0.140
82474022|NCT02105961|164643834|SUPERIORITY||Hazard Ratio(Mepolizumab 100/Placebo)|0.82||||0.14|TWO_SIDED|95.0|0.64|1.04||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.04|0.64|0.140
82474023|NCT02105961|164643834|SUPERIORITY||Hazard Ratio (Mepolizumab/Placebo)|0.82||||0.103|TWO_SIDED|95.0|0.64|1.04||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||1.04|0.64|0.103
82474024|NCT02105961|164643834|SUPERIORITY||Hazard Ratio (Mepolizumab 300/Placebo)|0.77||||0.14|TWO_SIDED|95.0|0.6|0.97||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.97|0.60|0.140
82474025|NCT02105961|164643834|SUPERIORITY||Hazard Ratio (Mepolizumab 300/Placebo)|0.77||||0.03|TWO_SIDED|95.0|0.6|0.97||Unadjusted p-value|Cox Proportional Hazards Model||Analysis performed using a Cox Proportional Hazards Model with covariates of treatment, geographic region, number of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1 and smoking status|||0.97|0.60|0.030
82474026|NCT02105961|164643835|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.59||||0.14|TWO_SIDED|95.0|0.35|0.98||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.35|0.140
82474027|NCT02105961|164643835|SUPERIORITY||Rate ratio (Mepolizumab 100/Placebo)|0.59||||0.042|TWO_SIDED|95.0|0.35|0.98||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||0.98|0.35|0.042
82548859|NCT04410042|164799087|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.9307|||||||Wilcoxon rank sum test|||||||0.9307
82548860|NCT04410042|164799088|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.0714|||||||Wilcoxon rank sum test|||||||0.0714
82548861|NCT04410042|164799089|EQUIVALENCE|Two-sided test at 0.05 level.||||||0.9004|||||||Wilcoxon rank sum test|||||||0.9004
82548862|NCT03930342|164799139|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.83|1.07|||Regression, Logistic|Used marginal standardization to estimate relative risk from logistic regression||Results here reflect analysis of the relative risk for AEP that is a combination of risk from baseline to the 3 month timepoint and risk between the 3 month timepoint and 6 month timepoint. This reflects changes in AEP risk across the course of exposure to the intervention (baseline to 3 month) and enduring change post-exposure (3 months to 6 months)||1.07|0.83|
82548863|NCT03964350|164799148|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<.05
82548864|NCT05529966|164799158|OTHER|||||||0.45490734||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.45490734
82548865|NCT05529966|164799159|OTHER|||||||0.9237611||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.92376110
82548866|NCT05529966|164799160|OTHER|||||||0.94342221||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.94342221
82548867|NCT05529966|164799161|OTHER|||||||0.38902793||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||||||0.38902793
82548868|NCT05529966|164799162|OTHER|||||||0.0042494||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of comfort score||||0.00424940
82548869|NCT05529966|164799162|OTHER|||||||0.00223547||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Visibility score||||.00223547
82580005|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Tenderness - Significant, Fisher exact test was used to calculate p-value.||||>0.99
82580006|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.044
82580007|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||0.076
82580008|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.496||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||0.496
82580009|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.361
82474028|NCT02105961|164643835|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.83||||0.447|TWO_SIDED|95.0|0.51|1.34||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.34|0.51|0.447
82548870|NCT05529966|164799162|OTHER|||||||1.858e-05||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Image Quality score||||.00001858
82548871|NCT05529966|164799162|OTHER|||||||0.03003194||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Focus score||||.03003194
82548872|NCT05529966|164799162|OTHER|||||||2.8e-07||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Depth Perception score||||.00000028
82548873|NCT05529966|164799162|OTHER|||||||0.00112148||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Staff Engagement score||||.00112148
82548874|NCT05529966|164799162|OTHER|||||||951||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Teaching score||||00000951
82548875|NCT05529966|164799162|OTHER|||||||0.03493564||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of En Face Confidence score||||.03493564
82580010|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.635||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||0.635
82548876|NCT05529966|164799162|OTHER|||||||0.12895248||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Hydrus Placement Confidence score||||.12895248
82548877|NCT05529966|164799162|OTHER|||||||0.00279611||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Scope Preference score||||.00279611
82548878|NCT05529966|164799163|OTHER|||||||0.959638658||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Comfort score||||.959638658
82580011|NCT00688870|164870797|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.244
82580012|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076||95.0|||||Fisher Exact|||For Tenderness - Any, Fisher exact test was used to calculate p-value.||||0.076
82580013|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||Fisher Exact|||For Swelling - Any, Fisher exact test was used to calculate p-value.||||0.735
82580014|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Swelling - Mild, Fisher exact test was used to calculate p-value.||||>0.99
82580015|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477||95.0|||||Fisher Exact|||For Swelling - Moderate, Fisher exact test was used to calculate p-value.||||0.477
82580016|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.805||95.0|||||Fisher Exact|||For Redness - Any, Fisher exact test was used to calculate p-value.||||0.805
82580017|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Redness - Mild, Fisher exact test was used to calculate p-value.||||>0.99
82580018|NCT00688870|164870798|SUPERIORITY_OR_OTHER_LEGACY|||||||0.477||95.0|||||Fisher Exact|||For Redness - Moderate, Fisher exact test was used to calculate p-value.||||0.477
82580019|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.633||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.633
82580020|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
82580021|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.527||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.527
82580022|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.613||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.613
82580023|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.753||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.753
82580024|NCT00688870|164870799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.748||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.748
82580025|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.327||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.327
82580026|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
82580027|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.522||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.522
82580028|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.872||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.872
82580029|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.868||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.868
82474029|NCT02105961|164643835|SUPERIORITY||Rate ratio (Mepolizumab 300/Placebo)|0.83||||0.447|TWO_SIDED|95.0|0.51|1.34||Unadjusted p-value|Negative binomial model||Analysis using a negative binomial model with covariates of treatment, geographic region, no. of moderate/severe exacerbations in previous year, Baseline percent predicted FEV1, smoking status and offset of log (time in on- and off- treatment period)|||1.34|0.51|0.447
82474030|NCT02105961|164643836|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.8||||0.447|TWO_SIDED|95.0|-4.5|0.8||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-4.5|0.447
82474031|NCT02105961|164643836|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.8||||0.18|TWO_SIDED|95.0|-4.5|0.8||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-4.5|0.180
82474032|NCT02105961|164643836|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.1||||0.926|TWO_SIDED|95.0|-2.8|2.6||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.6|-2.8|0.926
82474033|NCT02105961|164643836|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.1||||0.926|TWO_SIDED|95.0|-2.8|2.6||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline SGRQ total score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||2.6|-2.8|0.926
82474034|NCT02105961|164643837|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.1||||0.926|TWO_SIDED|95.0|-2.3|0.0||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.0|-2.3|0.926
82474035|NCT02105961|164643837|SUPERIORITY||Mean difference(Mepolizumab 100-Placebo)|-1.1||||0.055|TWO_SIDED|95.0|-2.3|0.0||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.0|-2.3|0.055
82474036|NCT02105961|164643837|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.4||||0.926|TWO_SIDED|95.0|-1.5|0.8||Adjusted p-value; Family wise type I error controlled within each endpoint using a Hochberg testing procedure|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-1.5|0.926
82474037|NCT02105961|164643837|SUPERIORITY||Mean difference(Mepolizumab 300-Placebo)|-0.4||||0.547|TWO_SIDED|95.0|-1.5|0.8||Unadjusted p-value|Mixed Model Repeated Measures Analysis||Analysis performed using mixed model repeated measures with covariates of Baseline CAT score, geographic region, smoking status, treatment and visit, plus interaction terms for visit by Baseline and visit by treatment group.|||0.8|-1.5|0.547
82474038|NCT03860259|164643838|SUPERIORITY|||||||0.1771||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.1771
82474039|NCT03860259|164643838|SUPERIORITY|||||||0.2833||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.2833
82474040|NCT03860259|164643838|SUPERIORITY|||||||0.0909||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.0909
82474041|NCT03860259|164643838|SUPERIORITY|||||||0.231||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.2310
82474042|NCT03860259|164643838|SUPERIORITY|||||||0.0801|||||||t-test, 1 sided|||120 hrs||||0.0801
82474043|NCT03860259|164643838|SUPERIORITY|||||||0.0307||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Total||||0.0307
82548879|NCT05529966|164799163|OTHER|||||||0.213464715||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Visibility score||||.213464715
82548880|NCT05529966|164799163|OTHER|||||||0.213464715||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Image Quality score||||.213464715
82548881|NCT05529966|164799163|OTHER|||||||0.155899777||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Focus score||||.155899777
82580030|NCT00688870|164870800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.237
82474044|NCT03860259|164643839|SUPERIORITY|||||||0.1956||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.1956
82474045|NCT03860259|164643839|SUPERIORITY|||||||0.2274||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.2274
82474046|NCT03860259|164643839|SUPERIORITY|||||||0.109||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.1090
82474047|NCT03860259|164643839|SUPERIORITY|||||||0.1618||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.1618
82474048|NCT03860259|164643839|SUPERIORITY|||||||0.1264||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.1264
82474049|NCT03860259|164643839|SUPERIORITY|||||||0.0394||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14||||0.0394
82474050|NCT03860259|164643839|SUPERIORITY|||||||0.3968||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.3968
82474051|NCT03860259|164643839|SUPERIORITY|||||||0.3407||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60||||0.3407
82548882|NCT05529966|164799163|OTHER|||||||0.055960023||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Depth Perception score||||.055960023
82474052|NCT03860259|164643839|SUPERIORITY|||||||0.4033||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.4033
82474053|NCT03860259|164643840|SUPERIORITY|||||||0.1707||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Time of discharge||||0.1707
82474054|NCT03860259|164643840|SUPERIORITY|||||||0.3446||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.3446
82474055|NCT03860259|164643840|SUPERIORITY|||||||0.431|||||||t-test, 1 sided|||48 hrs||||0.4310
82474056|NCT03860259|164643840|SUPERIORITY|||||||0.3143||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.3143
82548883|NCT05529966|164799163|OTHER|||||||0.000685499||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Staff Engagement score||||.000685499
82548884|NCT05529966|164799163|OTHER|||||||0.004526118||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Teaching score||||.004526118
82548885|NCT05529966|164799163|OTHER|||||||0.299921137||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of En Face Confidence score||||.299921137
82548886|NCT05529966|164799163|OTHER|||||||0.368082084||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Hydrus Placement Confidence score||||.368082084
82548887|NCT05529966|164799163|OTHER|||||||0.015036417||||||The a priori threshold for statistical significance after Bonferroni correction is \< 0.002083333|t-test, 2 sided|||Analysis of Scope Preference score||||.015036417
82548888|NCT02187003|164799169|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7944|TWO_SIDED|95.0|0.77|1.22|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95 percent (%) confidence interval (CI). A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P value.||1.22|0.77|0.7944
82548889|NCT02187003|164799170|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7156|TWO_SIDED|95.0|0.77|1.19|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95% CI. A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P- value.||1.19|0.77|0.7156
82548890|NCT02187003|164799171|SUPERIORITY||Mean Difference (Net)|-0.06||||0.852|TWO_SIDED|95.0|-1.27|0.88|||ANCOVA|||The difference in medians (Rivipansel- Placebo) was estimated by the difference of treatment medians from summary statistics. The corresponding 95% CI was estimated by a bootstrap method with stratification for age and genotype groups. P-value was from analysis of covariance (ANCOVA) model based on rank-transformed values using age group and genotype group as the stratification covariates.||0.88|-1.27|0.8520
82548891|NCT02187003|164799172|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8593|TWO_SIDED|95.0|0.82|1.26|||Log Rank|||A Cox proportional hazards regression model with age group and genotype group as stratification covariates was used to estimate the hazard ratio (Placebo/Rivipansel) and the corresponding 95% CI. A stratified log-rank test with age group and genotype group as stratification variables was performed to evaluate P- value.||1.26|0.82|0.8593
82548892|NCT02187003|164799173|SUPERIORITY||Median Difference (Final Values)|-0.02||||0.9332|TWO_SIDED|95.0|-0.13|0.16|||ANCOVA|||The difference in medians (Rivipansel- Placebo) was estimated by the difference of treatment medians from summary statistics. The corresponding 95% CI was estimated by a bootstrap method with stratification for age and genotype groups. P value was from ANCOVA model based on rank-transformed values using age group and genotype group as the stratification covariates.||0.16|-0.13|0.9332
82548893|NCT02187003|164799174|SUPERIORITY||Difference in percentage of participants|-1.17||||0.5349|TWO_SIDED|95.0|-5.19|2.46|||Chan and Zhang|||P values and 95% CI for the difference in percentages were based on the exact method by Chan and Zhang.||2.46|-5.19|0.5349
82548894|NCT02187003|164799181|SUPERIORITY||Risk Difference (RD)|-3.336||||0.302|TWO_SIDED|95.0|-10.024|2.968|||Chan and Zhang|||||2.968|-10.024|0.3020
82580031|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.329
82548895|NCT02187003|164799182|SUPERIORITY||Risk Difference (RD)|1.203||||0.5429|TWO_SIDED|95.0|-2.379|5.104|||Chan and Zhang|||||5.104|-2.379|0.5429
82474057|NCT03860259|164643840|SUPERIORITY|||||||0.4749||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.4749
82548896|NCT04833777|164799210|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548897|NCT04833777|164799211|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548898|NCT04833777|164799212|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548899|NCT04833777|164799213|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548900|NCT04833777|164799214|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82474058|NCT03860259|164643840|SUPERIORITY|||||||0.3728||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.3728
82474059|NCT03860259|164643840|SUPERIORITY|||||||0.1628|||||||t-test, 1 sided|||Day 14||||0.1628
82474060|NCT03860259|164643840|SUPERIORITY|||||||0.0731||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.0731
82474061|NCT03860259|164643840|SUPERIORITY|||||||0.4909||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60||||0.4909
82474062|NCT03860259|164643840|SUPERIORITY|||||||0.4411||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.4411
82474063|NCT03860259|164643841|SUPERIORITY|||||||0.1786||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Acetaminophen||||0.1786
82474064|NCT03860259|164643841|SUPERIORITY|||||||0.1876||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Ibuprofen||||0.1876
82548901|NCT04833777|164799215|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548902|NCT04833777|164799216|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548903|NCT04833777|164799217|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82548904|NCT04833777|164799218|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548905|NCT04833777|164799219|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548906|NCT04833777|164799220|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548907|NCT04833777|164799221|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548908|NCT04833777|164799222|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548909|NCT04833777|164799223|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82580032|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||0.492
82580033|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.496||95.0|||||Fisher Exact|||For Fever \>40 degrees C, Fisher exact test was used to calculate p-value.||||0.496
82548910|NCT04833777|164799225|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548911|NCT04833777|164799226|OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82548912|NCT04490915|164799239|SUPERIORITY||LS Mean Difference|-17.022|STANDARD_ERROR_OF_MEAN|3.433|<|0.0001|TWO_SIDED|95.0|-23.802|-10.243|||ANCOVA||LS Mean Difference of Crinecerfont - Placebo|||-10.243|-23.802|<0.0001
82548913|NCT04725240|164799251|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
82548914|NCT04725240|164799252|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
82548915|NCT04725240|164799253|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
82548916|NCT04725240|164799254|OTHER||||||<|0.0001||||||Threshold for significance at 0.001 level.|One-sided exact binomial test|||||||<0.0001
82548917|NCT03149315|164799261|SUPERIORITY|Values for grouped data were reported as mean ± SD and were calculated using Graphpad Prism 7 software (La Jolla, CA), which was also used for generating figures and for statistical analyses. Changes in skin test area (wheal and flare) were analyzed at each time point (after 2 doses, 4 doses, etc) using Friedman tests for grouped analysis and Wilcoxon signed rank tests between pairs.|||||<|0.0001||||||The above p value reflects the statistical analysis of skin test area between baseline and 2 doses of ibrutinib.|Wilcoxon (Mann-Whitney)|Changes in skin test area at each time point were analyzed using Friedman tests for grouped analysis and Wilcoxon signed rank tests between pairs.||||||<0.0001
82548918|NCT03149315|164799262|SUPERIORITY|Changes in BAT were analyzed at each time point (after 2 doses, 4 doses, etc) using repeated measures ANOVA for grouped analysis and paired Students t tests between pairs. A p value \< 0.05 was considered significant.|||||<|0.001||||||The above p value reflects the statistical analysis of BAT between baseline and 2 doses of ibrutinib.|ANOVA|Changes in BAT were analyzed at each time point using repeated measures ANOVA for grouped analysis and paired Students t tests between pairs.||||||<0.001
82548919|NCT03205800|164799294|SUPERIORITY||||||<|0.05|||||||Wilcoxon signed rank test|||||||<0.05
82580034|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.322
82580035|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||0.610
82580036|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.726||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||0.726
82548920|NCT04501861|164799305|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure.|Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.043|0.022|||Mixed Models Analysis|||||0.022|-0.043|0.53
82548921|NCT04501861|164799305|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who with preop PH received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure. The number of patients in norepinephrine group is 52 and in vasopressin group is 40. The significance level was 0.05 for all analyses. All tests were 2-sided. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-0.022||||0.26|TWO_SIDED|95.0|-0.061|0.016|||Mixed Models Analysis|||mPAP-to-MAP ratio was compared between patients with pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension.||0.016|-0.061|0.26
82548922|NCT04501861|164799305|EQUIVALENCE|Compare mPAP-to-MAP ratio between patients who without preop PH received norepinephrine versus vasopressin intraoperatively. Post intervention measurements will be recorded after protamine administration until end of chest closure. The number of patients in norepinephrine group is 31 and in vasopressin group is 29. The significance level was 0.05 for all analyses. All tests were 2-sided. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-0.0035||||0.88|TWO_SIDED|95.0|-0.05|0.043|||Mixed Models Analysis|||mPAP-to-MAP ratio was compared between patients without pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension.||0.043|-0.05|0.88
82580037|NCT00688870|164870801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.855||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.855
82580038|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.326||95.0|||||Fisher Exact|||For Fever \>=38 but \<=39 degrees C, Fisher exact test was used to calculate p-value.||||0.326
82580039|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Fever \>39 but \<=40 degrees C, Fisher exact test was used to calculate p-value.||||>0.99
82580040|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.714||95.0|||||Fisher Exact|||For Decreased appetite, Fisher exact test was used to calculate p-value.||||0.714
82580041|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Irritability, Fisher exact test was used to calculate p-value.||||>0.99
82580042|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99||95.0|||||Fisher Exact|||For Increased sleep, Fisher exact test was used to calculate p-value.||||>0.99
82474065|NCT03860259|164643842|SUPERIORITY|||||||0.3638||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Baseline PCS||||0.3638
82474066|NCT03860259|164643842|SUPERIORITY|||||||0.0856||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14 PCS||||0.0856
82474067|NCT03860259|164643842|SUPERIORITY|||||||0.4428||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30 PCS||||0.4428
82548923|NCT04501861|164799306|EQUIVALENCE|Imbalanced confounders such as female, coronary artery disease, preoperative ejection fraction, surgery type, primary or repeat surgery, and bypass time were additionally adjusted. A different inverse probability of treatment weighting was fit for secondary analysis and a linear mixed regression model with random intercept to account for intra-week correlation to estimate the effect of norepinephrine on right ventricular free wall strain using the new obtained stabilized weights|Mean Difference (Final Values)|-1.8||||0.37|TWO_SIDED|95.0|-6.0|2.3|||Mixed Models Analysis|||||2.3|-6.0|0.37
82548924|NCT04501861|164799306|EQUIVALENCE|We examined the effect of norepinephrine versus vasopressin on right ventricular free wall strain by considering patients who have preoperative pulmonary hypertension. The number of patients in norepinephrine group is 34 and in vasopressin group is 28. The significance level was 0.05 for all analyses. All tests were 2-sided. The significance levels of subgroup analyses were not corrected for multiple comparisons. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-2.1||||0.39|TWO_SIDED|95.0|-7.1|2.8|||Mixed Models Analysis|||RV free wall strain compare between patients with pre-existing pulmonary hypertension of use of vasopressin and norepinephrine. Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension;||2.8|-7.1|0.39
82548925|NCT04501861|164799306|EQUIVALENCE|We're going to explore the interaction between preoperative pulmonary arterial hypertension status and treatment group by equivalence analysis. The number of patients in norepinephrine group is 22 and in vasopressin group is 18.The significance level was 0.05 for all analyses. All tests were 2-sided. The significance levels of subgroup analyses were not corrected for multiple comparisons. Interactions were considered significant when the interaction P was \< 0.10.|Mean Difference (Final Values)|-1.5||||0.63|TWO_SIDED|95.0|-7.6|4.6|||Mixed Models Analysis|||"We examined the effect of norepinephrine versus vasopressin on right ventricular free wall strain by separately considering patients who did not have preoperative pulmonary hypertension.~Preoperative pulmonary arterial hypertension was defined by using the cut-off value of 25 mmHg for the time-weighted average mPAP, i.e., time weighted average mPAP \< 25 mmHg indicated absence of preoperative pulmonary arterial hypertension; otherwise, presence of preoperative pulmonary hypertension."||4.6|-7.6|0.63
82548926|NCT01007591|164799343|SUPERIORITY||Mean Difference (Final Values)|-6.02||||0.75|TWO_SIDED|95.0|-43.7|31.7|||ANOVA|Treatment comparison using an ANOVA model with age group and treatment as design variables.||||31.7|-43.7|0.75
82548927|NCT04083235|164799348|OTHER||Hazard Ratio (HR)|0.83||||0.04|TWO_SIDED|95.0|0.7|0.99|||Stratified log-rank test||The HR and 95% confidence interval (CI) was based on a stratified Cox proportional hazards regression model, stratified by baseline Eastern Cooperative Oncology Group (ECOG) performance status, region and liver metastases as per IWRS.|||0.99|0.70|0.04
82580043|NCT00688870|164870802|SUPERIORITY_OR_OTHER_LEGACY|||||||0.525||95.0|||||Fisher Exact|||For Decreased sleep, Fisher exact test was used to calculate p-value.||||0.525
82474068|NCT03860259|164643842|SUPERIORITY|||||||0.3378||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60 PCS||||0.3378
82548928|NCT04083235|164799349|OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.83|||Stratified log-rank test||The HR and 95% CI was based on a stratified Cox proportional hazards regression model, stratified by baseline ECOG performance status, region and liver metastases as per IWRS.|||0.83|0.58|<0.0001
82548929|NCT04083235|164799350|OTHER||Odds Ratio (OR)|1.26||||0.11|TWO_SIDED|95.0|0.95|1.69|||Cochran-Mantel-Haenszel||OR, 95% CI and p-value were obtained from the Cochran-Mantel-Haenszel test adjusting by baseline ECOG performance status, region and liver metastases as per IWRS.|||1.69|0.95|0.11
82548930|NCT02724878|164799379|SUPERIORITY||Response Rate|33.0|||||TWO_SIDED|80.0|25.0|42.0||||||A sample size of 60 would provide 95% power to distinguish the ORR rate of 25% from 10% (historical control) with 1-sided alpha of 0.07. The treatment would be considered effective if 10 or more responses are observed out of 60 patients.||42|25|
82548931|NCT03779204|164799400|OTHER||Mean Difference (Final Values)|-2.0||||0.18|TWO_SIDED|95.0|-5.0|1.0|||ANCOVA|||||1.0|-5.0|0.18
82548932|NCT03779204|164799401|OTHER||Mean Difference (Final Values)|-1.4||||0.44|TWO_SIDED|95.0|-5.0|2.3|||ANCOVA|||||2.3|-5.0|0.44
82548933|NCT03779204|164799402|OTHER||Mean Difference (Final Values)|7.3||||0.38|TWO_SIDED|95.0|-9.7|24.4|||ANCOVA|||||24.4|-9.7|.38
82548934|NCT03779204|164799403|OTHER||Mean Difference (Final Values)|0.6||||0.76|TWO_SIDED|95.0|-3.3|4.4|||ANCOVA|||||4.4|-3.3|0.76
82580044|NCT01821352|164870810|SUPERIORITY_OR_OTHER||||||<|5e-05|TWO_SIDED||||||Fisher Exact|||||||<0.00005
82580045|NCT01821352|164870811|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82580046|NCT01821352|164870812|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82580047|NCT01253018|164870813|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||"Sample size and power calculations were performed based on the difference in the FM score between the two groups with an assumed within group SD of 15.9, the correlation of 0.5 among repeated measures. 30 subjects enrolled in each arm of the study would give 80% power for detecting a difference of 8 points on the FM.~Two sample t-tests were conducted to compare changes in FM between the two interventions groups at final training (12 week)."||||<0.05
82474069|NCT03860259|164643842|SUPERIORITY|||||||0.3942||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90 PCS||||0.3942
82474070|NCT03860259|164643842|SUPERIORITY|||||||0.219||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Baseline MCS||||0.2190
82474071|NCT03860259|164643842|SUPERIORITY|||||||0.1112||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14 MCS||||0.1112
82474072|NCT03860259|164643842|SUPERIORITY|||||||0.1737||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30 MCS||||0.1737
82474073|NCT03860259|164643842|SUPERIORITY|||||||0.2408||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 60 MCS||||0.2408
82474074|NCT03860259|164643842|SUPERIORITY|||||||0.038||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90 MCS||||0.0380
82474075|NCT03860259|164643843|SUPERIORITY|||||||0.222||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||||||0.2220
82474076|NCT03860259|164643844|SUPERIORITY|||||||0.2856||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||||||0.2856
82474077|NCT03860259|164643847|SUPERIORITY|||||||0.2241|||||||t-test, 1 sided|||||||0.2241
82474078|NCT03860259|164643848|SUPERIORITY|||||||0.2714||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Time of discharge||||0.2714
82474079|NCT03860259|164643848|SUPERIORITY|||||||0.3749||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||24 hrs||||0.3749
82474080|NCT03860259|164643848|SUPERIORITY|||||||0.3862||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||48 hrs||||0.3862
82474081|NCT03860259|164643848|SUPERIORITY|||||||0.1735||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||72 hrs||||0.1735
82474082|NCT03860259|164643848|SUPERIORITY|||||||0.4304||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||96 hrs||||0.4304
82474083|NCT03860259|164643848|SUPERIORITY|||||||0.4902||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||120 hrs||||0.4902
82474084|NCT03860259|164643848|SUPERIORITY|||||||0.4371||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 14||||0.4371
82548935|NCT03779204|164799404|OTHER|||||||0.68|||||||ANCOVA|||||||0.68
82548936|NCT03779204|164799405|OTHER||Mean Difference (Final Values)|-7.2||||0.12|TWO_SIDED|95.0|-16.4|2.0|||ANCOVA|||||2.0|-16.4|0.12
82548937|NCT03779204|164799406|OTHER||Mean Difference (Final Values)|-4.4||||0.34|TWO_SIDED|95.0|-13.7|5.0|||ANCOVA|||||5.0|-13.7|0.34
82580048|NCT01253018|164870813|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in FM between the two interventions groups at retention (24 weeks).||||<0.05
82474085|NCT03860259|164643848|SUPERIORITY|||||||0.195||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 30||||0.1950
82474086|NCT03860259|164643848|SUPERIORITY|||||||0.4124|||||||t-test, 1 sided|||Day 60||||0.4124
82474087|NCT03860259|164643848|SUPERIORITY|||||||0.0268||||||P value less than 0.1 will be considered significant|t-test, 1 sided|||Day 90||||0.0268
82474088|NCT04154189|164643852|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.0396|TWO_SIDED|95.0|0.27|1.08||One-sided P value|Log Rank||Hazard ratio was based on Cox Proportional Hazard Model including treatment group as a factor and stratified by Age (less than \[\<\]18 years, more than or equal to \[\>=\]18 years) in interactive response technology (IRT). Efron method was used for ties.|||1.08|0.27|0.0396
82474089|NCT04154189|164643853|OTHER|Difference in PFS rates, and 2-sided 95% confidence intervals (CIs): CI and p-value constructed using the difference of the 2 Kaplan-Meier PFS rates (4 months) and the 2 corresponding Greenwood standard errors.|Difference in Percentage|10.2||||0.1683|TWO_SIDED|95.0|-10.6|31.1||One-sided P value|Kaplan-Meier Method|||||31.1|-10.6|0.1683
82474090|NCT04154189|164643855|OTHER||Hazard Ratio (HR)|0.93||||0.3924|TWO_SIDED|95.0|0.53|1.62||Nominal p-value from stratified log-rank test adjusted for the randomization stratification factor, that is, age.|Stratified Log-rank One-sided Test||Hazard ratio was based on a Cox Proportional Hazard Model including treatment group as a factor and stratified by Age (\<18 years, \>=18 years) in IRT. Efron method was used for ties.|||1.62|0.53|0.3924
82474091|NCT04154189|164643856|OTHER|Difference and 95% CI: difference of 2 Kaplan-Meier OS-1y rates and corresponding Greenwood standard errors.|Difference in Percentage|-22.9||||0.0352|TWO_SIDED|95.0|-47.6|1.9||One-sided P value|Kaplan Meier Method|||||1.9|-47.6|0.0352
82474092|NCT04154189|164643857|OTHER|Difference calculated as Treatment Arm A: Lenvatinib + Ifosfamide + Etoposide minus Treatment Arm B: Ifosfamide + Etoposide. 2-sided 95% CI: Miettinen-Nurminen (Score) confidence limits, stratified by randomization stratification factor age (\<18 and \>=18 years).|Difference in Percentage|7.7|||||TWO_SIDED|95.0|-6.4|22.3||||||||22.3|-6.4|
82474093|NCT04154189|164643858|OTHER|Difference calculated as Treatment Arm A: Lenvatinib + Ifosfamide + Etoposide minus Treatment Arm B: Ifosfamide + Etoposide. 2-sided 95% CI: Miettinen-Nurminen (Score) confidence limits, stratified by randomization stratification factor age (\<18 and \>=18 years).|Difference in Percentage|5.2|||||TWO_SIDED|95.0|-10.3|20.0||||||||20.0|-10.3|
82474094|NCT02280408|164643872|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474095|NCT02280408|164643872|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474096|NCT02280408|164643872|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474097|NCT02280408|164643872|OTHER|||||||0.01|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.010
82474098|NCT02280408|164643872|OTHER|||||||0.011|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.011
82474099|NCT02280408|164643872|OTHER|||||||0.969|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||0.969
82474100|NCT02280408|164643873|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
82474101|NCT02280408|164643873|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
82474102|NCT02280408|164643873|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
82474103|NCT02280408|164643873|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
82474104|NCT02280408|164643873|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||<0.001
82474105|NCT02280408|164643873|OTHER|||||||0.733|||||||ANOVA|Adjustments for multiple comparisons were not performed||||||0.733
82474106|NCT02280408|164643874|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474107|NCT02280408|164643874|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474108|NCT02280408|164643874|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82548938|NCT03779204|164799408|OTHER||Mean Difference (Final Values)|-1.3||||0.62|TWO_SIDED|95.0|-6.6|4.0|||ANCOVA|||||4.0|-6.6|0.62
82548939|NCT04258709|164799422|SUPERIORITY|||||||0.12|||||||Chi-squared|||||||.1200
82548940|NCT04258709|164799422|SUPERIORITY||Odds Ratio (OR)|0.593||||0.0474|TWO_SIDED|95.0|0.352|0.9907|||Regression, Logistic||Adjusted for race, Iowa Infant Feeding Attitudes Score at baseline, infant gestational age, NICU admission, maternal age at enrollment, WIC enrollment at baseline, maternal pre-pregnancy BMI. This is an adjusted odds ratio.|||.9907|.352|.0474
82548941|NCT04258709|164799423|SUPERIORITY|||||||0.5201|||||||t-test, 1 sided|||||||.5201
82580049|NCT01253018|164870815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in WMFT between the two interventions groups at final training 12 week.||||<0.05
82474109|NCT02280408|164643874|OTHER|||||||0.132|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.132
82474110|NCT02280408|164643874|OTHER|||||||0.07|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.070
82474111|NCT02280408|164643874|OTHER|||||||0.743|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.743
82474112|NCT02280408|164643875|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474113|NCT02280408|164643875|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82548942|NCT04258709|164799423|SUPERIORITY||Slope|0.1399||||0.9178|TWO_SIDED|95.0|-2.5299|2.8098|||Regression, Linear|||||2.8098|-2.5299|.9178
82548943|NCT04258709|164799424|SUPERIORITY|||||||0.8614|||||||t-test, 1 sided|||||||.8614
82548944|NCT04258709|164799424|SUPERIORITY||Odds Ratio (OR)|1.0763||||0.7836|TWO_SIDED|95.0|0.6364|1.8216|||Regression, Logistic|||||1.8216|.6364|.7836
82548945|NCT04258709|164799425|SUPERIORITY|||||||0.9788|||||||Chi-squared|||||||.9788
82548946|NCT04258709|164799425|SUPERIORITY||Odds Ratio (OR)|1.0307||||0.9119|TWO_SIDED|95.0|0.603|1.7067|||Regression, Logistic|||||1.7067|.603|.9119
82548947|NCT04258709|164799426|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.2173|TWO_SIDED|95.0|0.4192|1.216|||Regression, Logistic|||||1.216|.4192|.2173
82548948|NCT04258709|164799427|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.5209|TWO_SIDED|95.0|0.4192|1.216|||Regression, Logistic|||||1.216|.4192|.5209
82548949|NCT04258709|164799430|SUPERIORITY|||||||0.4258|||||||Chi-squared|||||||.4258
82580050|NCT01253018|164870815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in WMFT between the two interventions groups at retention 24 weeks.||||<0.05
82580051|NCT01253018|164870816|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in SIS Hand between the two interventions groups at final training week 12.||||<0.05
82580052|NCT01253018|164870816|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Two sample t-tests were conducted to compare changes in SIS Hand between the two interventions groups at retention week 24.||||<0.05
82580053|NCT05260021|164870921|SUPERIORITY||LS Mean difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|-2.35|-1.25|||ANCOVA|||||-1.25|-2.35|<0.001
82474114|NCT02280408|164643875|OTHER||||||<|0.001|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||<0.001
82474115|NCT02280408|164643875|OTHER|||||||0.014|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.014
82474116|NCT02280408|164643875|OTHER|||||||0.011|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.011
82474117|NCT02280408|164643875|OTHER|||||||0.923|||||||ANOVA|Adjustments for multiple comparisons were not performed.||||||0.923
82474118|NCT04173494|164643882|SUPERIORITY||Stratified Cochran-Mantel-Haenszel|15.67||||0.0095|TWO_SIDED|95.0|5.54|25.81|||Cochran-Mantel-Haenszel|||||25.81|5.54|0.0095
82474119|NCT04173494|164643883|NON_INFERIORITY|If the lower bound of the confidence interval (CI) is greater than 0, MMB was to be declared non-inferior to DAN.|Non-inferiority difference|13.58||||0.0116|TWO_SIDED|95.0|1.86|25.3|||Cochran-Mantel-Haenszel||Non-inferiority difference, defined as p(MMB) - (0.8) \*p(DAN) where p(MMB) is percentage of participants with TI status in MMB arm and p(DAN) is percentage of participants with TI status in DAN arm.|||25.30|1.86|0.0116
82474120|NCT04173494|164643884|OTHER||Stratified Cochran-Mantel-Haenszel|33.05|||<|0.0001|TWO_SIDED|95.0|22.59|43.51|||Cochran-Mantel-Haenszel|||||43.51|22.59|< 0.0001
82474121|NCT04173494|164643885|OTHER||Least Squares Mean Difference|-6.22||||0.0014|TWO_SIDED|95.0|-10.0|-2.43|||mixed model for repeated measures (MMRM)|||||-2.43|-10.0|0.0014
82474122|NCT04173494|164643886|OTHER||Stratified Cochran-Mantel-Haenszel|18.18||||0.0011|TWO_SIDED|95.0|9.77|26.59|||Cochran-Mantel-Haenszel|||||26.59|9.77|0.0011
82474123|NCT04173494|164643887|OTHER||Stratified Cochran-Mantel-Haenszel|17.2||||0.0012|TWO_SIDED|95.0|7.99|26.4|||Cochran-Mantel-Haenszel|||||26.40|7.99|0.0012
82474124|NCT04173494|164643888|OTHER||Stratified Cochran-Mantel-Haenszel|10.62||||0.1133|TWO_SIDED|95.0|-2.4|23.64|||Cochran-Mantel-Haenszel|||||23.64|-2.40|0.1133
82474125|NCT04173494|164643891|OTHER||Hazard Ratio (HR)|0.556||||0.0006|TWO_SIDED|95.0|0.397|0.778|||Anderson & Gill proportional means model|||||0.778|0.397|0.0006
82474126|NCT04173494|164643892|OTHER||Stratified CMH|-8.26||||0.1602|TWO_SIDED|95.0|-20.18|3.66|||Cochran-Mantel-Haenszel|||||3.66|-20.18|0.1602
82474127|NCT04173494|164643893|OTHER||Stratified CMH|19.0||||0.0124|TWO_SIDED|95.0|4.68|33.32|||Cochran-Mantel-Haenszel||\>=1g/dL Increase in Hemoglobin response|||33.32|4.68|0.0124
82474128|NCT04173494|164643893|OTHER||Stratified CMH|15.68||||0.0282|TWO_SIDED|95.0|2.47|28.9|||Cochran-Mantel-Haenszel||\>=1.5g/dL Increase in Hemoglobin response|||28.90|2.47|0.0282
82474129|NCT04173494|164643893|OTHER||Stratified CMH|6.97||||0.2844|TWO_SIDED|95.0|-5.41|19.35|||Cochran-Mantel-Haenszel||\>=2g/dL Increase in Hemoglobin response|||19.35|-5.41|0.2844
82474130|NCT04173494|164643898|OTHER||Hazard Ratio (HR)|0.89||||0.6879|TWO_SIDED|95.0|0.504|1.572|||Log Rank|||||1.572|0.504|0.6879
82548950|NCT04258709|164799430|SUPERIORITY||Odds Ratio (OR)|0.8882||||0.6246|TWO_SIDED|95.0|0.5523|1.4283|||Regression, Logistic|||||1.4283|.5523|.6246
82548951|NCT04258709|164799431|SUPERIORITY|||||||0.5613|||||||Chi-squared|||||||.5613
82548952|NCT04258709|164799431|SUPERIORITY||Odds Ratio (OR)|0.7157||||0.2173|TWO_SIDED|95.0|0.4206|1.2178|||Regression, Logistic|||||1.2178|.4206|.2173
82548953|NCT04258709|164799432|SUPERIORITY|||||||0.6291|||||||Chi-squared|||||||.6291
82548954|NCT04258709|164799432|SUPERIORITY||Odds Ratio (OR)|1.1955||||0.5426|TWO_SIDED|95.0|0.8745|1.3931|||Regression, Logistic|||||1.3931|.8745|.5426
82548955|NCT04258709|164799433|SUPERIORITY|||||||0.9071|||||||Chi-squared|||||||.9071
82548956|NCT04258709|164799433|SUPERIORITY||Odds Ratio (OR)|1.0233||||0.9328|TWO_SIDED|95.0|0.7751|1.2084|||Regression, Logistic|||||1.2084|.7751|.9328
82474131|NCT04173494|164643899|OTHER||Hazard Ratio (HR)|0.804||||0.432|TWO_SIDED|95.0|0.466|1.386|||Log Rank|||||1.386|0.466|0.4320
82474132|NCT04173494|164643900|OTHER||Least Squares Mean Difference|-0.71||||0.0513|TWO_SIDED|95.0|-1.42|0.0|||MMRM|||||0.00|-1.42|0.0513
82474133|NCT04173494|164643901|OTHER||Least Squares Mean Difference|-10.82||||0.0113|TWO_SIDED|95.0|-19.15|-2.48|||MMRM|||||-2.48|-19.15|0.0113
82474134|NCT04173494|164643902|OTHER||Least Squares Mean Difference|1.31||||0.357|TWO_SIDED|95.0|-1.49|4.11|||MMRM|||||4.11|-1.49|0.3570
82548957|NCT04258709|164799434|SUPERIORITY||Slope|0.8213||||0.5548|TWO_SIDED|95.0|-1.9161|3.5588|||Regression, Linear|||||3.5588|-1.9161|.5548
82548958|NCT04258709|164799435|SUPERIORITY||Slope|1.2412||||0.3861|TWO_SIDED|95.0|-1.5771|4.0594|||Regression, Linear|||||4.0594|-1.5771|.3861
82548959|NCT04258709|164799436|SUPERIORITY|||||||0.4779|||||||t-test, 1 sided|||||||.4779
82548960|NCT04258709|164799437|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82580054|NCT05260021|164870922|SUPERIORITY||LS Mean difference (Final Values)|-1.67|||<|0.001|TWO_SIDED|95.0|-2.31|-1.02|||ANCOVA|||||-1.02|-2.31|<0.001
82474135|NCT02474069|164643903|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.087|TWO_SIDED|95.0|0.39|1.07|||ANCOVA|||Logistic regression model: Logit (proportion) = treatment + PASI Score at baseline + PASI score at randomization + error||1.07|0.39|0.087
82474136|NCT02474069|164643904|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.281|TWO_SIDED|95.0|0.43|1.28|||ANCOVA|||Logistic regression model: Logit (proportion) = treatment + PASI Score at baseline + PASI score at randomization + error||1.28|0.43|0.281
82548961|NCT04258709|164799437|SUPERIORITY||Odds Ratio (OR)|0.9508||||0.9163|TWO_SIDED|95.0|0.3669|2.4621|||Regression, Logistic|||||2.4621|.3669|.9163
82548962|NCT04258709|164799438|SUPERIORITY||Odds Ratio (OR)|1.1084||||0.8031|TWO_SIDED|95.0|0.4937|2.4882|||Regression, Logistic|||||2.4882|.4937|.8031
82548963|NCT04258709|164799439|SUPERIORITY||Odds Ratio (OR)|1.1346||||0.8175|TWO_SIDED|95.0|0.3882|3.3161|||Regression, Logistic|||||3.3161|.3882|.8175
82548964|NCT04258709|164799440|SUPERIORITY||Odds Ratio (OR)|0.6964||||0.434|TWO_SIDED|95.0|0.2813|1.7241|||Regression, Logistic|||||1.7241|.2813|.434
82548965|NCT04258709|164799441|SUPERIORITY||Odds Ratio (OR)|1.2533||||0.4968|TWO_SIDED|95.0|0.6534|2.4041|||Regression, Logistic|||||2.4041|.6534|.4968
82580055|NCT05260021|164870922|SUPERIORITY||LS Mean difference (Final Values)|-1.93|||<|0.001|TWO_SIDED|95.0|-2.57|-1.29|||ANCOVA|||||-1.29|-2.57|<0.001
82580056|NCT05260021|164870923|SUPERIORITY||Risk Difference (RD)|40.1|||<|0.001|TWO_SIDED|95.0|18.6|61.7|||Regression, Logistic|||||61.7|18.6|<0.001
82474137|NCT03023813|164643930|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.50
82580057|NCT05260021|164870923|SUPERIORITY||Risk Difference (RD)|51.6|||<|0.001|TWO_SIDED|95.0|31.1|72.2|||Regression, Logistic|||||72.2|31.1|<0.001
82580058|NCT05260021|164870923|SUPERIORITY||Risk Difference (RD)|45.8|||<|0.001|TWO_SIDED|95.0|27.5|64.1|||Regression, Logistic|||||64.1|27.5|<0.001
82580059|NCT05260021|164870924|SUPERIORITY||LS Mean difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.55|-0.16|||ANCOVA|||||-0.16|-0.55|< 0.001
82580060|NCT05260021|164870924|SUPERIORITY||LS Mean difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.86|-0.47|||ANCOVA|||||-0.47|-0.86|<0.001
82474138|NCT03023813|164643931|OTHER|||||||0.25|||||||t-test, 2 sided|||||||.25
82474139|NCT03023813|164643932|OTHER|||||||0.39|||||||t-test, 2 sided|||||||.39
82474140|NCT03023813|164643933|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
82474141|NCT03023813|164643934|OTHER|||||||0.53|||||||t-test, 2 sided|||||||0.53
82474142|NCT03023813|164643935|OTHER|||||||0.91|||||||t-test, 2 sided|||||||0.91
82474143|NCT03023813|164643936|OTHER|Percent change in weight (lbs.) since the baseline encounter|Mean Difference (Net)|-2.96||||0.27|TWO_SIDED|95.0|-8.18|2.26|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included weight loss||2.26|-8.18|0.27
82474144|NCT03023813|164643936|OTHER|Change in systolic blood pressure since the baseline encounter (mmHg)|Mean Difference (Net)|-6.42||||0.19|TWO_SIDED|95.0|-16.12|3.27|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included blood pressure control||3.27|-16.12|0.19
82474145|NCT03023813|164643936|OTHER|Percentage point change in HbA1c (%) since the baseline encounter|Mean Difference (Net)|-0.68||||0.24|TWO_SIDED|95.0|-1.82|0.45|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included glycemic control||0.45|-1.82|0.24
82474146|NCT03023813|164643936|OTHER|Percentage point change in 10-year atherosclerotic cardiovascular disease risk (%), as estimated by the American College of Cardiology Pooled Cohort Equations, since the baseline encounter|Mean Difference (Net)|-1.2||||0.34|TWO_SIDED|95.0|-3.65|1.26|||Generalized linear mixed regression||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included lipids control||1.26|-3.65|0.34
82548966|NCT04258709|164799442|SUPERIORITY||Odds Ratio (OR)|1.0288||||0.9005|TWO_SIDED|95.0|0.659|1.6062|||Regression, Logistic|||||1.6062|.659|.9005
82548967|NCT04258709|164799443|SUPERIORITY||Slope|-1.4018||||0.127|TWO_SIDED|95.0|-3.2052|0.4015|||Regression, Linear|||||.4015|-3.2052|.127
82548968|NCT04258709|164799444|SUPERIORITY||Slope|-1.8958||||0.07|TWO_SIDED|95.0|-3.9475|0.1559|||Regression, Linear|||||.1559|-3.9475|.07
82548969|NCT04258709|164799445|SUPERIORITY||Slope|-0.506||||0.6299|TWO_SIDED|95.0|-2.574|1.562|||Regression, Linear|||||1.562|-2.574|.6299
82548970|NCT04258709|164799446|SUPERIORITY||Odds Ratio (OR)|0.7573||||0.3835|TWO_SIDED|95.0|0.4029|1.4138|||Regression, Logistic|||||1.4138|.4029|.3835
82548971|NCT04258709|164799447|SUPERIORITY||Odds Ratio (OR)|0.784||||0.459|TWO_SIDED|95.0|0.409|1.4912|||Regression, Logistic|||||1.4912|.409|.459
82548972|NCT04258709|164799448|SUPERIORITY||Odds Ratio (OR)|0.9338||||0.8499|TWO_SIDED|95.0|0.458|1.9039|||Regression, Logistic|||||1.9039|.458|.8499
82548973|NCT02807636|164799483|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0073|TWO_SIDED|95.0|0.7|0.96||inverse normal combination|Log Rank|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||0.96|0.70|0.0073
82548974|NCT02807636|164799484|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.023|TWO_SIDED|95.0|0.73|1.0||one-sided, inverse normal combination|Regression, Cox|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.0|0.73|0.0230
82474147|NCT03023813|164643936|OTHER|Change in low-density lipoprotein (LDL) cholesterol (mg/dL) since the baseline encounter|Mean Difference (Net)|-8.46||||0.36|TWO_SIDED|95.0|-26.63|9.7|||Mixed Models Analysis||Result for intervention arm minus control arm|Among participants whose individualized preventive care recommendations included lipids control||9.70|-26.63|0.36
82474148|NCT03023813|164643936|OTHER|Change in smoking intensity (defined as a change in smoking status from Current Every Day to either Current Some Days or Quit; or from Current Some Days to Quit) since the baseline encounter.|Odds Ratio (OR)|1.2||||0.92|TWO_SIDED|95.0|0.03|45.56|||Mixed Models Analysis|Generalized linear mixed regression with logit link|Result for intervention arm relative to control arm. OR \<1 indicates reduction in smoking intensity; OR \>1 indicates increase in smoking intensity.|Among participants whose individualized preventive care recommendations included tobacco cessation||45.56|0.03|0.92
82474149|NCT03023813|164643936|OTHER|Receipt of colorectal cancer screening since the baseline encounter|Odds Ratio (OR)|2.52||||0.99|TWO_SIDED|95.0|0.001|1000.0|||Mixed Models Analysis|Generalized linear mixed regression with logit link|Result for intervention arm relative to control arm. Lower limit estimate was \<0.001 and upper limit estimate was \>1000 (ClinicalTrials.gov does not allow \< or \> to be entered into the confidence interval lower limit or upper limit fields).|Among participants whose individualized preventive care recommendations included colorectal cancer screening||1000|0.001|0.99
82474150|NCT00202878|164643937|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.936||||0.016|TWO_SIDED|95.0|0.887|0.988|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.988|0.887|0.016
82474151|NCT00202878|164643938|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.948||||0.035|TWO_SIDED|95.0|0.903|0.996|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.996|0.903|0.035
82474152|NCT00202878|164643939|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.912||||0.016|TWO_SIDED|95.0|0.847|0.983|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment.|Model includes events from randomization to last study visit.|||0.983|0.847|0.016
82474153|NCT00202878|164643940|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.945||||0.035|TWO_SIDED|95.0|0.897|0.996|||Cox proportional hazard model|Covariates of the stratification factors (EARLY ACS trial, chronic prescription lipid-lowering experience, and high-risk ACS diagnosis) and treatment|Model includes events from randomization to last study visit.|||0.996|0.897|0.035
82474154|NCT02433080|164643947|OTHER||Mean Difference (Net)|6.4||||0.05|TWO_SIDED|95.0|-3.6|16.5|||ANCOVA|||This statistical analysis applies for the outcomes 2-8.||16.5|-3.6|0.05
82548975|NCT02807636|164799485|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.3968|TWO_SIDED|95.0|0.82|1.16|||Log Rank|one-sided||Stratification factors: PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.16|0.82|0.3968
82548976|NCT02807636|164799490|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0373|TWO_SIDED|95.0|0.73|1.01||inverse normal combination|Regression, Cox|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||1.01|0.73|0.0373
82474155|NCT03601117|164643998|OTHER|This is to test for the antidepressant effect of LDLPFC stimulation. Test is change in score from baseline to approximately 48 hours after the final session.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<.001
82474156|NCT02762370|164644028|SUPERIORITY|||||||0.0452|||||||t-test, 2 sided|||||||0.0452
82474157|NCT02654769|164644035|EQUIVALENCE|Difference (Generic- Picato)|90% Wald's confidence interval|-1.87|||<|0.0001|TWO_SIDED|90.0|-12.37|8.63|||Fisher Exact|||||8.63|-12.37|<0.0001
82474158|NCT02654769|164644036|EQUIVALENCE|Difference (Generic - Picato)|90% Wald's confidence interval|-2.64|||<|0.0001|TWO_SIDED|90.0|-13.14|7.86|||Fisher Exact|||Partial Clearance at Week 8||7.86|-13.14|<0.0001
82474159|NCT03036215|164644081|OTHER||Mean Difference (Net)|-7.0|||||TWO_SIDED|||||||||Pilot study, no power analysis applicable; no statistical test||||
82474160|NCT03036215|164644082|OTHER|pilot study; no statistical test performed|Mean Difference (Net)|1.0|||||TWO_SIDED|||||||||Pilot study; no statistical test run||||
82548977|NCT02807636|164799491|SUPERIORITY||Difference in Event Free Rate|5.0||||0.1509|TWO_SIDED|95.0|-1.82|11.81|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||11.81|-1.82|0.1509
82548978|NCT02807636|164799492|SUPERIORITY||Difference in Event Free Rate|3.36||||0.3761|TWO_SIDED|95.0|-4.08|10.79|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||10.79|-4.08|0.3761
82474161|NCT03036215|164644083|OTHER||Mean Difference (Net)|-5.2|||||TWO_SIDED|||||||||Pilot study; no statistical test for significance run||||
82474162|NCT00130247|164644106|NON_INFERIORITY_OR_EQUIVALENCE|This two-sided equivalence trial compared the efficacy of 4 and 6 months of treatment. We assumed that the risk of relapse for patients in the 6 month arm was 3.5% and that an absolute difference of 5% (i.e. relapse rate of 8.5%) was clinically meaningful. For a level of significance of 0.05 and 80% power (two sided), we estimated that 284 evaluable subjects per arm were required.|Risk Difference (RD)|0.051||||||95.0|0.01|0.09|||Regression, Cox||Confidence interval for difference of binomial proportions adjusted with Hauck Anderson continuity correction.|Comparison of binomial proportion of relapse: Intention-to-treat||0.09|0.01|
82474163|NCT00130247|164644109|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.43||||||95.0|0.94|12.5|||Regression, Linear|||Rate of relapse at 1 year. All patients adherent with treatment and remaining in follow-up at 1 year were included in the calculation of the relapse incidence rate.||12.5|0.94|
82474164|NCT00130247|164644109|SUPERIORITY_OR_OTHER||Incident rate ratio|4.52||||||95.0|1.29|15.9|||Regression, Linear|||Rate of relapse at 2 years. All patients adherent with treatment and remaining in follow-up at 2 years were included in the calculation of the relapse incidence rate.||15.9|1.29|
82580061|NCT05260021|164870924|SUPERIORITY||LS Mean difference (Final Values)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.68|-0.34|||ANCOVA|||||-0.34|-0.68|< 0.001
82580062|NCT05260021|164870925|SUPERIORITY||LS Mean difference (Final Values)|-28.9||||0.007|TWO_SIDED|95.0|-49.7|-8.0|||ANCOVA|||||-8.0|-49.7|0.007
82580063|NCT05260021|164870925|SUPERIORITY||LS Mean difference (Final Values)|-44.0|||<|0.001|TWO_SIDED|95.0|-64.3|-23.6|||ANCOVA|||||-23.6|-64.3|< 0.001
82474165|NCT00130247|164644115|NON_INFERIORITY_OR_EQUIVALENCE|This two-sided equivalence trial compared the efficacy of 4 and 6 months of treatment. We assumed that the risk of relapse for patients in the 6 month arm was 3.5% and that an absolute difference of 5% (i.e. relapse rate of 8.5%) was clinically meaningful. For a level of significance of 0.05 and 80% power (two sided), we estimated that 284 evaluable subjects per arm were required.|Risk Difference (RD)|0.054||||||95.0|0.01|0.1|||Regression, Cox||Confidence interval for difference of binomial proportions adjusted with Hauck Anderson continuity correction.|||0.10|0.01|
82548979|NCT02807636|164799493|SUPERIORITY||Difference in Event Free Rate|-8.29||||0.0083|TWO_SIDED|95.0|-14.45|-2.13|||Z-test|||Stratification factors: Enrollment stage, PD-L1 status, Bajorin risk score/presence of liver metastases, and investigator choice of chemotherapy.||-2.13|-14.45|0.0083
82474166|NCT00843284|164644125|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.16|STANDARD_DEVIATION|2.52|<|0.0001||95.0|-4.35|-3.97|||t-test, 2 sided|One sample t-test||Change from Baseline; observational study||-3.97|-4.35|<0.0001
82474167|NCT00843284|164644126|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4.02|STANDARD_DEVIATION|2.9|<|0.0001||95.0|-4.24|-3.8|||t-test, 2 sided|One sample t-test.||Change from baseline||-3.80|-4.24|<0.0001
82474168|NCT00122980|164644129|NON_INFERIORITY_OR_EQUIVALENCE|"Based on pilot data, the efficacy of hydroxyurea to reduce secondary stroke rate was not predicted to be equivalent to transfusions. Therefore, an increased stroke rate (non-inferiority margin = 0.20) was allowed by study design. This acceptable stroke margin was predicted to be offset by the likelihood of significantly greater improvement in the management of iron overload through elimination of transfusions along with serial phlebotomy in the Hydroxyurea/Phlebotomy arm."||||||0.214||95.0|||||Log Rank|||Concluding that Hydroxyurea/Phlebotomy group is better than the Transfusion/Chelation group required rejecting the STROKE null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy recurrent stroke rate is less than Transfusion/Chelation rate plus 0.20, the non-inferiority margin, AND rejecting the IRON null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy baseline-adjusted mean LIC is less than for Transfusion/Chelation (see next primary endpoint analysis).||||0.214
82474169|NCT00122980|164644130|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||The a priori defined LOCF approach was deemed to be biased due to the study's early termination, and was replaced by this mixed models analysis.|Mixed Models Analysis|Including main effects of age at consent, baseline iron, and treatment group, on observed change from baseline Log10 transformed values only.||Concluding that Hydroxyurea/Phlebotomy group is better than the Transfusion/Chelation group required rejecting the STROKE null hypothesis (see previous primary endpoint analysis) in favor of the alternative: Hydroxyurea/Phlebotomy recurrent stroke rate is less than Transfusion/Chelation rate plus 0.20 AND rejecting the IRON null hypothesis in favor of the alternative: Hydroxyurea/Phlebotomy baseline-adjusted mean log10 transformed LIC is less than for Transfusion/Chelation.||||0.144
82548980|NCT02807636|164799494|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0542|TWO_SIDED|95.0|0.64|1.0|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.00|0.64|0.0542
82474170|NCT00122980|164644131|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|The change-from-baseline scores for each scale were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||>0.05
82474171|NCT00122980|164644132|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|The change-from-baseline scores for each scale were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||||>0.05
82474172|NCT00122980|164644133|SUPERIORITY_OR_OTHER|||||||0.841||95.0|||||ANOVA|||The change-from-baseline to endpoint scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum.||||0.841
82474173|NCT00122980|164644134|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||>0.05
82474174|NCT00122980|164644135|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANOVA|||The change-from-baseline scores were analyzed with an analysis of variance model (ANOVA) with treatment as stratum, testing the hypothesis that the average change from baseline scores do not differ between the treatment groups.||||0.039
82474175|NCT00122980|164644136|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||ANCOVA|Analysis controlling for baseline value and time on study.||||||0.033
82474176|NCT00122980|164644137|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Controlling for baseline value and time on study||||||<0.01
82580064|NCT05260021|164870925|SUPERIORITY||LS Mean difference (Final Values)|-36.4|||<|0.001|TWO_SIDED|95.0|-54.2|-18.6|||ANCOVA|||||-18.6|-54.2|< 0.001
82580065|NCT05260021|164870926|SUPERIORITY||LS Mean difference (Final Values)|-6.18|||<|0.001|TWO_SIDED|95.0|-9.31|-3.05|||ANCOVA|||||-3.05|-9.31|< 0.001
82474177|NCT03844945|164644138|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82474178|NCT04248491|164644188|SUPERIORITY|||||||0.342|||||||t-test, 2 sided|||||||0.342
82474179|NCT04248491|164644189|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82474180|NCT04248491|164644191|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
82474181|NCT04248491|164644193|SUPERIORITY|||||||0.192|||||||t-test, 2 sided|||||||0.192
82474182|NCT04248491|164644194|SUPERIORITY|||||||0.157|||||||t-test, 2 sided|||||||0.157
82474183|NCT04248491|164644195|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.00
82474184|NCT04248491|164644196|SUPERIORITY|||||||0.463|||||||t-test, 2 sided|||||||0.463
82474185|NCT04248491|164644197|SUPERIORITY|||||||0.799|||||||t-test, 2 sided|||||||0.799
82474186|NCT04248491|164644198|SUPERIORITY|||||||0.757|||||||t-test, 2 sided|||||||0.757
82548981|NCT02807636|164799495|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6139|TWO_SIDED|95.0|0.74|1.19|||Log Rank|||Strata are: PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.19|0.74|0.6139
82548982|NCT02807636|164799496|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.554|TWO_SIDED|95.0|0.86|1.32|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.32|0.86|0.5540
82548983|NCT02807636|164799497|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.0241|TWO_SIDED|95.0|1.03|1.62|||Log Rank|||Strata are: Enrollment Stage, PD-L1 Status, BAJORIN Risk Factor Score and Stratum 4 for all participants.||1.62|1.03|0.0241
82650870|NCT01335477|165016609|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.007||95.0|0.19|0.77|||Normal distribution|Risk ratio was calculated as the ratio of risk of exacerbation in both treatment groups.|Nintedanib 150 mg bid versus Placebo|The log of the risk ratio was assumed to follow a normal distribution with mean 0 and variance equal to the sum of the reciprocals of the number of patients with at least one exacerbation in each treatment arm.||0.77|0.19|0.0070
82474187|NCT04248491|164644199|SUPERIORITY|||||||0.472|||||||t-test, 2 sided|||||||0.472
82474188|NCT04248491|164644201|SUPERIORITY|||||||0.342|||||||t-test, 2 sided|||||||0.342
82474189|NCT01068964|164644203|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 1.5 mmHg was used. That is, if the upper limit of the 95% confidence interval for the difference in the mean diurnal IOP change between the two groups (Group 1 minus Group 2) is less than 1.5 mm Hg, then the null hypothesis will be rejected. The study had an 85% power.|Mean Difference (Final Values)|-0.556|||||TWO_SIDED|95.0|-1.68|0.57||||||A non-inferiority test was performed for comparing the change from baseline in mean diurnal IOP at Week 4 between treatment groups. The null hypothesis was that the mean diurnal IOP change at Week 4 for Group 1 was at least 1.5 mmHg greater than that for Group 2. The hypothesis was tested using a confidence interval approach based on a 2-way analysis of variance (ANOVA) model including factors for treatment and investigator.||0.57|-1.68|
82474190|NCT02834793|164644216|SUPERIORITY||Median Difference (Net)|-19.3|||=|0.107|TWO_SIDED|95.0|-49.2|4.8||The p-value was based on a rank analysis of covariance (ANCOVA) with treatment, region, and age-group as factors, and prerandomization drop seizure frequency as a covariate.|ANCOVA||The median difference to placebo and the 95 percent (%) confidence interval (CI) were based on the Hodges-Lehmann method.|||4.8|-49.2|= 0.107
82474191|NCT04643158|164644270|SUPERIORITY||Least Square Mean Difference|0.0236||||0.828|TWO_SIDED|95.0|-0.1934|0.2406|||Mixed Models Analysis|||||0.2406|-0.1934|0.828
82474192|NCT04643158|164644270|SUPERIORITY||Least Square Mean Difference|0.196||||0.035|TWO_SIDED|95.0|0.0143|0.3778|||Mixed Models Analysis|||||0.3778|0.0143|0.035
82474193|NCT04643158|164644290|SUPERIORITY||Geometric Least Square Mean Ratio|-38.31||||0.202|TWO_SIDED|95.0|-71.11|31.72|||Mixed Models Analysis||Analyses were done on the natural log scale and the results were back-transformed to linear scale.|||31.72|-71.11|0.202
82548984|NCT02807636|164799501|SUPERIORITY||Hazard Ratio (HR)|1.42||||1|TWO_SIDED|95.0|1.19|1.69|||Log Rank|||Stratification factors: PD-L1 status and Bajorin risk score/presence of liver metastases and investigator choice of chemotherapy.||1.69|1.19|1.0000
82548985|NCT03175029|164799507|SUPERIORITY||Mean Difference (Final Values)|10.552|||<|0.001|TWO_SIDED|95.0|5.514|15.59|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BCI in the TAC-302 group||15.590|5.514|<0.001
82548986|NCT03175029|164799507|SUPERIORITY||Mean Difference (Final Values)|-0.826||||0.819|TWO_SIDED|95.0|-8.676|7.023|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BCI in the Placebo group||7.023|-8.676|0.819
82376892|NCT03104400|164460617|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|24.3|||<|0.0001|TWO_SIDED|95.0|18.8|29.8||Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Cochran-Mantel-Haenszel||Response Rate Difference = Upadacitinib - Placebo|||29.8|18.8|<0.0001
82474194|NCT04643158|164644290|SUPERIORITY||Geometric Least Square Mean Ratio|-15.43||||0.596|TWO_SIDED|95.0|-55.57|60.96|||Mixed Models Analysis||Analyses were done on the natural log scale and the results were back-transformed to linear scale.|||60.96|-55.57|0.596
82474195|NCT01474018|164644297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||ANOVA|||||||0.004
82474196|NCT01474018|164644298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82474197|NCT01474018|164644298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
82474198|NCT03563183|164644302|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine Group compared to Placebo Group.|Vaccine Efficacy rate|95.81|||<|0.0001|TWO_SIDED|95.0|91.58|98.22|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Non-Frail-HZ/su vs Non-Frail-Placebo groups.||98.22|91.58|<0.0001
82474199|NCT03563183|164644302|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|90.4|||<|0.0001|TWO_SIDED|95.0|84.41|94.43|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Pre-Frail-HZ/su vs Pre-Frail-Placebo groups.||94.43|84.41|<0.0001
82474200|NCT03563183|164644302|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|90.17|||<|0.0001|TWO_SIDED|95.0|75.36|96.65|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Frail-HZ/su vs Frail-Placebo groups.||96.65|75.36|<0.0001
82548987|NCT03175029|164799507|SUPERIORITY||Mean Difference (Final Values)|11.378|STANDARD_ERROR_OF_MEAN|4.454||0.015|TWO_SIDED|95.0|2.345|20.411|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BCI from baseline to Week 12||20.411|2.345|0.015
82548988|NCT03175029|164799508|SUPERIORITY||Mean Difference (Final Values)|10.604|STANDARD_DEVIATION|8.76|<|0.001|TWO_SIDED|95.0|5.753|15.455|||t-test, 2 sided|||Baseline vs. Week 12 for the mean PIP1 in the TAC-302 group||15.455|5.753|<0.001
82548989|NCT03175029|164799508|SUPERIORITY||Mean Difference (Final Values)|4.926|STANDARD_DEVIATION|7.62||0.138|TWO_SIDED|95.0|-2.121|11.973|||t-test, 2 sided|||Baseline vs. Week 12 for the mean PIP1 in the Placebo group||11.973|-2.121|0.138
82548990|NCT03175029|164799508|SUPERIORITY||Mean Difference (Final Values)|5.678|STANDARD_ERROR_OF_MEAN|3.861||0.157|TWO_SIDED|95.0|-2.375|13.731|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean PIP1 from baseline to Week 12||13.731|-2.375|0.157
82548991|NCT03175029|164799509|SUPERIORITY||Mean Difference (Final Values)|10.91|STANDARD_DEVIATION|26.48||0.006|TWO_SIDED|95.0|3.22|18.59|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||18.59|3.22|0.006
82548992|NCT03175029|164799509|SUPERIORITY||Mean Difference (Final Values)|2.42|STANDARD_DEVIATION|20.09||0.57|TWO_SIDED|95.0|-6.27|11.1|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||11.10|-6.27|0.570
82474201|NCT03563183|164644302|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the confimed herpes zoster for Herpes Zoster subunit vaccine group compared to placebo people.|Vaccine Efficacy rate|100.0||||0.069|TWO_SIDED|95.0|14.61|100.0|||Poisson exact test|||Efficacy analysis aimed at comparing the confimed herpes zoster for Herpes Zoster incidence rate between Unknown-HZ/su vs Unknown-Placebo groups.||100|14.61|0.069
82474202|NCT03563183|164644303|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|98.6|||||TWO_SIDED|95.0|97.1|100.0||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||100|97.1|
82474203|NCT03563183|164644303|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|92.6|||||TWO_SIDED|95.0|86.6|98.7||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||98.7|86.6|
82474204|NCT03563183|164644303|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|85.2|||||TWO_SIDED|95.0|62.6|100.0||||||VE against confirmed HZ BOI and 95% confidence intervals (CIs) are presented by frailty status in the mTVC.||100|62.6|
82474205|NCT03563183|164644303|OTHER|VE against the BOI due to HZ (VE BOI ) was defined as the relative reduction in the BOI score in the vaccine group as compared with that in the placebo group and calculated as 1 - relative risk (i.e., 1- the HZ BOI score in the vaccine group divided by the HZ BOI score in the placebo group).|Vaccine Efficacy rate|100.0||||||||||||||VE against the BOI due to confirmed HZ. The 95% Confidence Interval was not calculated as there were no subjects reported with a confirmed Zoster episode in the Unknown-HZ/su Group.||||
82474206|NCT01594528|164644313|OTHER|||||||0.992||||||comparison between groups for body indicators|Wilcoxon (Mann-Whitney)|||||||0.992
82474207|NCT01594528|164644313|OTHER|||||||0.8||||||comparison between groups facial indicators|Wilcoxon (Mann-Whitney)|||||||0.8
82474208|NCT01594528|164644313|OTHER|||||||0.586||||||comparison between groups for vocal indicators|Wilcoxon (Mann-Whitney)|||||||0.586
82474209|NCT00486291|164644314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||It is anticipated that the pooled standard deviation (SD) of the change from baseline in HbA1c will be between 1.0 and 1.5. With 90 subjects per treatment group the study will have 90% power (two-sided alpha=0.05) to detect a mean difference between groups of 0.486 for SD=1.0, and a mean difference between groups of 0.729 for SD=1.5.||-0.2|-0.9|0.0007
82376893|NCT03104400|164460617|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|33.1|||<|0.0001|TWO_SIDED|95.0|27.4|38.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||38.8|27.4|<0.0001
82474210|NCT00486291|164644315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-8.1|-4.9|||ANCOVA|||||-4.9|-8.1|<0.0001
82474211|NCT03462511|164644322|SUPERIORITY||Mean Difference (Net)|2.4||||0.067|TWO_SIDED|||||Independent variables: study month, study group, their interactions and a person-level random intercept to incorporate clustering.|Regression, Linear|||Based on estimated effect size from our prior feasibility trial, the target enrollment was 87 dyads plus additional 20% to account for attrition before Month 6 or blood transfusions or acute illness rendering HbF levels inaccurate.||||0.067
82474212|NCT03462511|164644323|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||We compared the difference in proportion of days covered by hydroxyurea at two timepoints: (1) from the year prior to study entry to 6 months (the end of the active intervention phase of the trial) and (2) from 6 months to 12 months (the sustainability phase of the trial).||||0.60
82474213|NCT03462511|164644324|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||We hypothesized that, compared to the control group, generic quality of life (QOL) for youth in the intervention group would improve from baseline to 9 months.||||<0.001
82548993|NCT03175029|164799509|SUPERIORITY||Mean Difference (Final Values)|8.49|STANDARD_ERROR_OF_MEAN|6.24||0.178|TWO_SIDED|95.0|-3.96|20.95|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||20.95|-3.96|0.178
82548994|NCT03175029|164799510|SUPERIORITY||Mean Difference (Final Values)|18.41|STANDARD_DEVIATION|24.39|<|0.001|TWO_SIDED|95.0|9.13|27.69|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||27.69|9.13|<0.001
82548995|NCT03175029|164799510|SUPERIORITY||Mean Difference (Final Values)|2.88|STANDARD_DEVIATION|15.7||0.489|TWO_SIDED|95.0|-5.81|11.58|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||11.58|-5.81|0.489
82548996|NCT03175029|164799510|SUPERIORITY||Mean Difference (Final Values)|15.53|STANDARD_ERROR_OF_MEAN|6.96||0.031|TWO_SIDED|95.0|1.48|29.58|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||29.58|1.48|0.031
82548997|NCT03175029|164799511|SUPERIORITY||Mean Difference (Final Values)|23.57|STANDARD_DEVIATION|25.54|<|0.001|TWO_SIDED|95.0|11.26|35.88|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the TAC-302 group||35.88|11.26|<0.001
82548998|NCT03175029|164799511|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_DEVIATION|17.18||0.708|TWO_SIDED|95.0|-10.19|14.4|||t-test, 2 sided|||Baseline vs. Week 12 for the mean BVE in the Placebo group||14.40|-10.19|0.708
82548999|NCT03175029|164799511|SUPERIORITY||Mean Difference (Final Values)|21.47|STANDARD_ERROR_OF_MEAN|9.02||0.025|TWO_SIDED|95.0|2.96|39.98|||t-test, 2 sided|||TAC-302 group vs. Placebo group for changes in the mean BVE from baseline to Week 12||39.98|2.96|0.025
82549000|NCT05862870|164799604|OTHER|Frequency count|exact count|20.0|STANDARD_DEVIATION|0.0||0.05|TWO_SIDED|0.0|20.0|20.0|||count|||Frequency count of patients retained in treatment.|Threshold for frequency count|20|20|.05
82549001|NCT03143153|164799607|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.001|TWO_SIDED|98.6|0.46|0.9||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model.|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy.||0.90|0.46|0.0010
82549002|NCT03143153|164799607|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.001|TWO_SIDED|95.0|0.49|0.84||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy.||0.84|0.49|0.0010
82549003|NCT03143153|164799607|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|99.5|0.37|0.8||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.80|0.37|<0.0001
82549004|NCT03143153|164799607|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.71||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.71|0.41|<0.0001
82549005|NCT03143153|164799608|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8958|TWO_SIDED|98.5|0.73|1.43||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.43|0.73|0.8958
82549006|NCT03143153|164799608|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.8958|TWO_SIDED|95.0|0.78|1.34||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.34|0.78|0.8958
82549007|NCT03143153|164799608|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0023|TWO_SIDED|98.5|0.46|0.92||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.92|0.46|0.0023
82549008|NCT03143153|164799608|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0023|TWO_SIDED|95.0|0.49|0.86||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.86|0.49|0.0023
82549009|NCT03143153|164799609|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.011||95.0|0.65|0.95||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||0.95|0.65|0.0110
82580066|NCT05260021|164870926|SUPERIORITY||LS Mean difference (Final Values)|-10.52|||<|0.001|TWO_SIDED|95.0|-13.67|-7.38|||ANCOVA|||||-7.38|-13.67|< 0.001
82580067|NCT05260021|164870926|SUPERIORITY||LS Mean difference (Final Values)|-8.35|||<|0.001|TWO_SIDED|95.0|-11.05|-5.66|||ANCOVA|||||-5.66|-11.05|< 0.001
82580068|NCT05260021|164870927|SUPERIORITY||Risk Difference (RD)|29.5||||0.006|TWO_SIDED|95.0|8.6|50.3|||Regression, Logistic|||||50.3|8.6|0.006
82549010|NCT03143153|164799609|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.011||98.2|0.62|0.98||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT.|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||0.98|0.62|0.0110
82549011|NCT03143153|164799609|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0021||99.1|0.58|0.96||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.96|0.58|0.0021
82549012|NCT03143153|164799609|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0021|TWO_SIDED|95.0|0.61|0.9||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.90|0.61|0.0021
82549013|NCT03143153|164799610|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|1.04|1.52|||||Stratified Cox proportional hazard model|Hazard Ratio is Arm A: Nivolumab + Ipilimumab over Arm C: Chemotherapy||1.52|1.04|
82549014|NCT03143153|164799610|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0355|TWO_SIDED|95.0|0.67|0.99||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||0.99|0.67|0.0355
82549015|NCT03143153|164799610|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0355|TWO_SIDED|98.5|0.64|1.04||Log-rank test stratified by ECOG Performance Status (0 vs 1), number of organs with metastases (\<= 1 vs. \>= 2), PD-L1 status (\>= 1% vs. \< 1% or indeterminate) as recorded in IRT|Log Rank||Stratified Cox proportional hazard model|Hazard Ratio is Arm B: Nivolumab + Chemotherapy over Arm C: Chemotherapy||1.04|0.64|0.0355
82580069|NCT05260021|164870927|SUPERIORITY||Risk Difference (RD)|39.5|||<|0.001|TWO_SIDED|95.0|18.8|60.2|||Regression, Logistic|||||60.2|18.8|< 0.001
82580070|NCT05260021|164870927|SUPERIORITY||Risk Difference (RD)|34.6|||<|0.001|TWO_SIDED|95.0|17.0|52.1|||Regression, Logistic|||||52.1|17|< 0.001
82580071|NCT05260021|164870928|SUPERIORITY||Risk Difference (RD)|43.4|||<|0.001|TWO_SIDED|95.0|22.3|64.4|||Regression, Logistic|||||64.4|22.3|< 0.001
82580072|NCT05260021|164870928|SUPERIORITY||Risk Difference (RD)|47.1|||<|0.001|TWO_SIDED|95.0|26.4|67.7|||Regression, Logistic|||||67.7|26.4|< 0.001
82580073|NCT05260021|164870928|SUPERIORITY||Risk Difference (RD)|45.2|||<|0.001|TWO_SIDED|95.0|26.3|64.1|||Regression, Logistic|||||64.1|26.3|< 0.001
82580074|NCT05260021|164870930|SUPERIORITY||LS Mean difference (Final Values)|0.014||||0.708|TWO_SIDED|95.0|-0.061|0.089|||Mixed Models Analysis|||||0.089|-0.061|0.708
82580075|NCT05260021|164870930|SUPERIORITY||LS Mean difference (Final Values)|-0.001||||0.976|TWO_SIDED|95.0|-0.076|0.074|||Mixed Models Analysis|||||0.074|-0.076|0.976
82580076|NCT05260021|164870930|SUPERIORITY||LS Mean difference (Final Values)|0.007||||0.841|TWO_SIDED|95.0|-0.058|0.071|||Mixed Models Analysis|||||0.071|-0.058|0.841
82580077|NCT05260021|164870931|SUPERIORITY||LS Mean difference (Final Values)|-0.29|||<|0.001|TWO_SIDED|95.0|-0.45|-0.12|||Mixed Models Analysis|||||-0.12|-0.45|< 0.001
82580078|NCT05260021|164870931|SUPERIORITY||LS Mean difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.57|-0.24|||Mixed Models Analysis|||||-0.24|-0.57|< 0.001
82650871|NCT01335477|165016610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.2995||95.0|0.4|1.35|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height.||1.35|0.40|0.2995
82549016|NCT04556656|164799661|SUPERIORITY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.162||0.167|TWO_SIDED|95.0|-0.54|0.09|||Mixed Models Analysis|||In the mixed model for repeated measures (MMRM), change from baseline in TFC score was the dependent variable, and independent variables included treatment arm, baseline TFC, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level.||0.09|-0.54|0.1670
82549017|NCT04556656|164799662|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.162||0.1598|TWO_SIDED|95.0|-0.55|0.09|||Mixed Models Analysis|||In the mixed model for repeated measures (MMRM), change from baseline in TFC score was the dependent variable, and independent variables included treatment arm, baseline TFC, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level.||0.09|-0.55|0.1598
82549018|NCT04556656|164799663|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.148||0.4544|TWO_SIDED|95.0|-0.4|0.18|||Mixed Models Analysis|||In the MMRM, change in cUHDRS score from baseline was the dependent variable, while independent variables included treatment arm, baseline cUHDRS, region, neuroleptic use or no use, baseline HD stage (HD1 and HD2), categorical week, and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. The unstructured covariance matrix was used for repeated measurements at patient level. No imputation was performed on missing data.||0.18|-0.4|0.4544
82549019|NCT04556656|164799664|SUPERIORITY||Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.156||0.0038|TWO_SIDED|95.0|0.15|0.76|||Mixed Models Analysis|||"From baseline to Week 26.~In the MMRM model, change in cUHDRS score from baseline was the dependent variable and independent variables included treatment group, baseline cUHDRS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data."||0.76|0.15|0.0038
82549020|NCT04556656|164799664|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.179||0.0135|TWO_SIDED|95.0|0.09|0.8|||Mixed Models Analysis|||From baseline to Week 39||0.80|0.09|0.0135
82549021|NCT04556656|164799664|SUPERIORITY||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.193||0.0351|TWO_SIDED|95.0|0.03|0.79|||Mixed Models Analysis|||From baseline to Week 52||0.79|0.03|0.0351
82549022|NCT04556656|164799664|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.197||0.1683|TWO_SIDED|95.0|-0.12|0.66|||Mixed Models Analysis|||From baseline to Week 65.||0.66|-0.12|0.1683
82580079|NCT05260021|164870931|SUPERIORITY||LS Mean difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.49|-0.2|||Mixed Models Analysis|||||-0.2|-0.49|< 0.001
82580080|NCT02626455|164870939|SUPERIORITY|Comparison of PFS|Hazard Ratio (HR)|1.125|||=|0.827974|TWO_SIDED|95.0|0.881|1.437||Significance level is 0.025.|Log Rank|PFS was evaluated with a one-sided stratified log- rank test. HR and 95% CI are based on the stratified Cox regression model.||||1.437|0.881|= 0.827974
82580081|NCT02626455|164870942|SUPERIORITY|ORR of Copa+R-B/R-CHOP minus ORR of Pbo+R-B/R-CHOP|Difference|-1.25|||=|0.658652|TWO_SIDED|95.0|-7.25|4.75||Significance level is 0.025. P-values are descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||4.75|-7.25|= 0.658652
82549023|NCT04556656|164799664|SUPERIORITY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.223||0.5315|TWO_SIDED|95.0|-0.3|0.58|||Mixed Models Analysis|||From baseline to Week 78||0.58|-0.30|0.5315
82580082|NCT02626455|164870943|SUPERIORITY|ORR of Copa+R-B/R-CHOP minus ORR of Pbo+R-B/R-CHOP|Difference|-0.8|||=|0.605183|TWO_SIDED|95.0|-6.64|5.05||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||5.05|-6.64|=0.605183
82580083|NCT02626455|164870944|SUPERIORITY|Comparison of DOR|Hazard Ratio (HR)|1.145|||=|0.846204|TWO_SIDED|95.0|0.883|1.484||Significance level is 0.025, P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|DOR was evaluated with a one-sided stratified log-rank test. HR and its 95% CI were based on the stratified Cox regression model.||||1.484|0.883|= 0.846204
82580084|NCT02626455|164870945|SUPERIORITY|Comparison of DOR|Hazard Ratio (HR)|1.117|||=|0.801735|TWO_SIDED|95.0|0.865|1.443||Significance level is 0.025, P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|DOR was evaluated with a one-sided stratified log-rank test. HR and its 95% CI were based on the stratified Cox regression model.||||1.443|0.865|= 0.801735
82580085|NCT02626455|164870946|SUPERIORITY|CRR of Copa+R-B/R-CHOP minus CRR of Pbo+R-B/R-CHOP|Difference|-2.74|||=|0.741153|TWO_SIDED|95.0|-11.06|5.57||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||5.57|-11.06|= 0.741153
82650872|NCT01335477|165016611|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.6654||95.0|0.39|1.9|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.90|0.39|0.6654
82650873|NCT01335477|165016612|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.2209||95.0|0.34|1.35|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on a Cox´s regression model with terms for treatment, gender, age and height.||1.35|0.34|0.2209
82650874|NCT01335477|165016613|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.1664||95.0|0.37|1.21|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.21|0.37|0.1664
82474214|NCT03462511|164644324|NON_INFERIORITY|30% of the standard deviation was used as the non-inferiority margin. For this test generic quality of life (QOL) scores for months 4-9 (efficacy period) were compared to months \>9 (sustainability period).||||||0.04|||||||Regression, Linear|||We hypothesized that the improvement in quality of life experienced by the intervention group would be sustained from month 9 to month 12.||||0.04
82549024|NCT04556656|164799665|SUPERIORITY||Mean Difference (Final Values)|-21.15|STANDARD_ERROR_OF_MEAN|9.406||0.0253|TWO_SIDED|95.0|-39.66|-2.64|||Mixed Models Analysis||Negative change = improvement.|From baseline to Week 26. In the MMRM model, change in Q-Motor Finger Tapping IOI Mean from baseline was the dependent variable and independent variables included treatment group, baseline Finger Tapping IOI Mean, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed.||-2.64|-39.66|0.0253
82474215|NCT03462511|164644325|SUPERIORITY|||||||0.47|||||||Regression, Linear|||We hypothesized that, compared to the control group, sickle cell disease specific quality of life (SC-QOL) for youth in the intervention group would improve from baseline to 9 months.||||0.47
82549025|NCT04556656|164799665|SUPERIORITY||Mean Difference (Final Values)|-14.31|STANDARD_ERROR_OF_MEAN|9.853||0.1474|TWO_SIDED|95.0|-33.71|5.08|||Mixed Models Analysis|||From baseline to Week 52.||5.08|-33.71|0.1474
82474216|NCT03462511|164644325|NON_INFERIORITY|30% of the standard deviation was used as the non-inferiority margin. For this test sickle cell disease specific quality of life (SC-QOL) scores for months 4-9 (efficacy period) were compared to months \>9 (sustainability period).||||||0.045|||||||Regression, Linear|||We hypothesized that the improvement in sickle cell disease specific quality of life (SC-QOL) experienced by the intervention group would be sustained from month 9 to month 12.||||0.045
82474217|NCT03462511|164644326|SUPERIORITY|||||||0.002|||||||Regression, Linear|||We hypothesized that, compared to the control group, responsibility for self-management concordance for youth-caregiver dyads in the intervention group would improve from baseline to 6 months.||||0.002
82474218|NCT03462511|164644326|NON_INFERIORITY|50% of the standard deviation was used as the non-inferiority margin. For this test youth caregiver concordance for self-management responsibility scores for months 0-6 (efficacy period) were compared to months 6-12 (sustainability period).||||||0.23|||||||Regression, Linear|||We hypothesized that the improvement in concordance between youth and caregivers for self-management responsibility experienced by the intervention group would be sustained from month 6 to month 12.||||0.23
82474219|NCT03001817|164644349|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474220|NCT03001817|164644350|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474221|NCT03001817|164644351|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann Method|||||||<0.0001
82474222|NCT03001817|164644352|SUPERIORITY|||||||0.5443|||||||Hodges-Lehmann method|||||||0.5443
82474223|NCT03001817|164644353|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann Method|||||||<0.0001
82474224|NCT03001817|164644354|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474225|NCT03001817|164644355|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474226|NCT03001817|164644356|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474227|NCT03001817|164644357|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474228|NCT03001817|164644358|SUPERIORITY|||||||0.4939|||||||Hodges-Lehmann method|||||||0.4939
82474229|NCT03001817|164644359|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474230|NCT03001817|164644360|SUPERIORITY|||||||0.8371|||||||Hodges-Lehmann method|||||||0.8371
82474231|NCT03001817|164644361|SUPERIORITY|||||||0.3415|||||||Hodges-Lehmann method|||||||0.3415
82474232|NCT03001817|164644362|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474233|NCT03001817|164644363|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474234|NCT03001817|164644364|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474235|NCT03001817|164644365|SUPERIORITY|||||||0.7442|||||||Hodges-Lehmann method|||||||0.7442
82474236|NCT03001817|164644366|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474237|NCT03001817|164644367|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474238|NCT03001817|164644368|SUPERIORITY|||||||0.0374|||||||Hodges-Lehmann method|||||||0.0374
82474239|NCT03001817|164644369|SUPERIORITY|||||||0.7429|||||||Hodges-Lehmann method|||||||0.7429
82474240|NCT03001817|164644370|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474241|NCT03001817|164644371|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474242|NCT03001817|164644372|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474243|NCT03001817|164644373|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474244|NCT03001817|164644374|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474245|NCT03001817|164644375|SUPERIORITY|||||||0.3669|||||||Hodges-Lehmann method|||||||0.3669
82474246|NCT03001817|164644376|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474247|NCT03001817|164644377|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474248|NCT03001817|164644378|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474249|NCT03001817|164644379|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474250|NCT03001817|164644380|SUPERIORITY|||||||0.0509|||||||Hodges-Lehmann method|||||||0.0509
82474251|NCT03001817|164644381|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474252|NCT03001817|164644382|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474253|NCT03001817|164644383|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474254|NCT03001817|164644384|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474255|NCT03001817|164644385|SUPERIORITY|||||||0.0647|||||||Hodges-Lehmann method|||||||0.0647
82474256|NCT03001817|164644386|SUPERIORITY|||||||0.0007|||||||Hodges-Lehmann method|||||||0.0007
82474257|NCT03001817|164644387|SUPERIORITY|||||||0.1399|||||||Hodges-Lehmann method|||||||0.1399
82549026|NCT04556656|164799665|SUPERIORITY||Mean Difference (Final Values)|-24.71|STANDARD_ERROR_OF_MEAN|10.185||0.0159|TWO_SIDED|95.0|-44.76|-4.67|||Mixed Models Analysis|||From baseline to Week 65.||-4.67|-44.76|0.0159
82580086|NCT02626455|164870947|SUPERIORITY|CRR of Copa+R-B/R-CHOP minus CRR of Pbo+R-B/R-CHOP|Difference|-2.21|||=|0.696482|TWO_SIDED|95.0|-10.62|6.2||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference.||||6.20|-10.62|= 0.696482
82580087|NCT02626455|164870948|SUPERIORITY|DCR of Copa+R-B/R-CHOP minus DCR of Pbo+R-B/R-CHOP|Difference|-3.95|||=|0.936009|TWO_SIDED|95.0|-9.04|1.14||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference||||1.14|-9.04|= 0.936009
82580088|NCT02626455|164870949|SUPERIORITY|DCR of Copa+R-B/R-CHOP minus DCR of Pbo+R-B/R-CHOP|Difference|-3.89|||=|0.944242|TWO_SIDED|95.0|-8.68|0.9||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Cochran-Mantel-Haenszel|Point estimate and 95% CI are based on Mantel-Haenszel weighted treatment difference||||0.90|-8.68|= 0.944242
82474258|NCT03001817|164644388|SUPERIORITY|||||||0.0122|||||||Hodges-Lehmann method|||||||0.0122
82474259|NCT03001817|164644389|SUPERIORITY|||||||0.0994|||||||Hodges-Lehmann method|||||||0.0994
82474260|NCT03001817|164644390|SUPERIORITY|||||||0.0904|||||||Hodges-Lehmann method|||||||0.0904
82474261|NCT03001817|164644391|SUPERIORITY|||||||0.4346|||||||non-parametric Hodges-Lehmann method|||||||0.4346
82474262|NCT03001817|164644392|SUPERIORITY|||||||0.1474|||||||non-parametric Hodges-Lehmann method|||||||0.1474
82474263|NCT03001817|164644393|SUPERIORITY|||||||0.0054|||||||non-parametric Hodges-Lehmann method|||||||0.0054
82474264|NCT03001817|164644394|SUPERIORITY|||||||0.0002|||||||Hodges-Lehmann method|||||||0.0002
82474265|NCT03001817|164644395|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474266|NCT03001817|164644396|SUPERIORITY|||||||0.0118|||||||Hodges-Lehmann method|||||||0.0118
82474267|NCT03001817|164644397|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474268|NCT03001817|164644398|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82474269|NCT03001817|164644399|SUPERIORITY|||||||0.2049|||||||Hodges-Lehmann method|||||||0.2049
82474270|NCT03001817|164644400|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474271|NCT03001817|164644401|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474272|NCT03001817|164644402|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82580089|NCT02626455|164870950|SUPERIORITY|Comparison of TTP|Hazard Ratio (HR)|1.006|||=|0.517849|TWO_SIDED|95.0|0.777|1.303||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTP was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.303|0.777|= 0.517849
82580090|NCT02626455|164870951|SUPERIORITY|Comparison of TTP|Hazard Ratio (HR)|0.971|||=|0.411398|TWO_SIDED|95.0|0.75|1.257||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTP was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.257|0.750|= 0.411398
82580091|NCT02626455|164870952|SUPERIORITY|Comparison of TTNT|Hazard Ratio (HR)|1.289|||=|0.955865|TWO_SIDED|95.0|0.962|1.728||Significance level IS 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|TTNT was evaluated with a one-sided stratified log-rank test. HR and its 95% CI are based on the stratified Cox regression model.||||1.728|0.962|= 0.955865
82580092|NCT02626455|164870953|SUPERIORITY|Comparison of OS|Hazard Ratio (HR)|1.132|||=|0.758563|TWO_SIDED|95.0|0.8|1.603||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|OS was evaluated with a one-sided stratified log-rank test. HR and 95% CI are based on the stratified Cox regression model.||||1.603|0.800|= 0.758563
82474273|NCT03001817|164644403|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474274|NCT03001817|164644404|SUPERIORITY|||||||0.9117|||||||Hodges-Lehmann method|||||||0.9117
82474275|NCT03001817|164644405|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82474276|NCT00035932|164644464|NON_INFERIORITY_OR_EQUIVALENCE|The time-averaged difference (TAD) in the reduction of log10 HIV RNA levels from baseline through Week 24 was compared pairwise for each atazanavir regimen to the lopinavir/RTV regimen, and assessed using a two-sided 97.5% confidence interval. The primary efficacy analysis was to declare two treatment regimens similar if the upper limit of this 97.5% confidence interval for the difference (atazanavir-lopinavir/RTV) was less than 0.5 log10.|Time-Averaged Difference|0.14|||||TWO_SIDED|97.5|-0.09|0.37||||||||0.37|-0.09|
82474277|NCT00035932|164644464|NON_INFERIORITY_OR_EQUIVALENCE|The time-averaged difference (TAD) in the reduction of log10 HIV RNA levels from baseline through Week 24 was compared pairwise for each atazanavir regimen to the lopinavir/RTV regimen, and assessed using a two-sided 97.5% confidence interval. The primary efficacy analysis was to declare two treatment regimens similar if the upper limit of this 97.5% confidence interval for the difference (atazanavir-lopinavir/RTV) was less than 0.5 log10.|Time-Averaged Difference|0.31|||||TWO_SIDED|97.5|0.07|0.55||||||||0.55|0.07|
82474278|NCT00035932|164644465|SUPERIORITY_OR_OTHER||Treatment Difference|0.13|||||TWO_SIDED|95.0|-0.04|0.3||||||||0.30|-0.04|
82474279|NCT00035932|164644465|SUPERIORITY_OR_OTHER||Treatment Difference|0.17|||||TWO_SIDED|95.0|-0.01|0.35||||||||0.35|-0.01|
82474280|NCT00035932|164644468|SUPERIORITY_OR_OTHER||Time-Averaged Difference|0.13|||||TWO_SIDED|97.5|-0.12|0.39||||||||0.39|-0.12|
82474281|NCT00035932|164644468|SUPERIORITY_OR_OTHER||Time-Averaged Distance|0.33|||||TWO_SIDED|97.5|0.07|0.6||||||||0.60|0.07|
82474282|NCT00035932|164644469|SUPERIORITY_OR_OTHER||Difference estimate|-0.5|||||TWO_SIDED|95.0|-13.3|12.3|||||ATV 300/RTV - LPV/RTV|Randomized participants||12.3|-13.3|
82474283|NCT00035932|164644470|SUPERIORITY_OR_OTHER||Difference Estimate|3.6|||||TWO_SIDED|95.0|-7.0|14.1||||||||14.1|-7.0|
82474284|NCT00035932|164644470|SUPERIORITY_OR_OTHER||Difference Estimate|-11.3|||||TWO_SIDED|95.0|-22.9|0.4||||||||0.4|-22.9|
82474285|NCT00035932|164644472|SUPERIORITY_OR_OTHER||Difference Estimate|-5.0|||||TWO_SIDED|95.0|-16.9|7.0||||||||7.0|-16.9|
82474286|NCT00035932|164644472|SUPERIORITY_OR_OTHER||Difference Estimate|-16.1|||||TWO_SIDED|95.0|-28.5|-3.7||||||||-3.7|-28.5|
82474287|NCT00035932|164644474|SUPERIORITY_OR_OTHER||Difference Estimate|0.4|||||TWO_SIDED|95.0|-12.5|13.2|||||ATV 300/RTV - LPV/RTV|||13.2|-12.5|
82474288|NCT00035932|164644475|SUPERIORITY_OR_OTHER||Difference Estimate|3.2|||||TWO_SIDED|95.0|-9.1|15.4||||||||15.4|-9.1|
82474289|NCT00035932|164644475|SUPERIORITY_OR_OTHER||Difference Estimate|-16.7|||||TWO_SIDED|95.0|-29.4|-4.0||||||||-4.0|-29.4|
82549027|NCT04556656|164799665|SUPERIORITY||Mean Difference (Final Values)|-22.9|STANDARD_ERROR_OF_MEAN|10.38||0.0283|TWO_SIDED|95.0|-43.34|-2.45|||Mixed Models Analysis|||From baseline to Week 78.||-2.45|-43.34|0.0283
82580093|NCT02626455|164870954|SUPERIORITY|Comparison of time to deterioration in DRS-P|Hazard Ratio (HR)|1.394|||=|0.999695|TWO_SIDED|95.0|1.149|1.691||Significance level IS 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|Time to deterioration in DRS-P was evaluated with one-sided stratified log-rank test.HR and its 95% CI are based on stratified Cox regression model.||||1.691|1.149|= 0.999695
82580094|NCT02626455|164870955|SUPERIORITY|Comparison of time to improvement in DRS-P|Hazard Ratio (HR)|0.81|||=|0.965639|TWO_SIDED|95.0|0.642|1.02||Significance level is 0.025. P-value is descriptive (nominal) due to multiplicity testing.|Log Rank|Time to improvement in DRS-P was evaluated with one-sided stratified log-rank test.HR and its 95% CI are based on the stratified Cox regression model.||||1.020|0.642|= 0.965639
82549028|NCT04556656|164799666|SUPERIORITY||Mean Difference (Final Values)|-38.06|STANDARD_ERROR_OF_MEAN|10.999||0.0007|TWO_SIDED|95.0|-59.74|-16.37|||Mixed Models Analysis|||From baseline to Week 26. In MMRM model, change in Q-Motor Pronation/Supination ITI Mean from baseline was the dependent variable and independent variables included treatment group, baseline Q-Motor Pronation/Supination ITI Mean, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||-16.37|-59.74|0.0007
82549029|NCT04556656|164799666|SUPERIORITY||Mean Difference (Final Values)|-20.21|STANDARD_ERROR_OF_MEAN|12.547||0.1087|TWO_SIDED|95.0|-44.95|4.53|||Mixed Models Analysis|||From baseline to Week 52.||4.53|-44.95|0.1087
82549030|NCT04556656|164799666|SUPERIORITY||Mean Difference (Final Values)|-23.92|STANDARD_ERROR_OF_MEAN|11.541||0.0395|TWO_SIDED|95.0|-46.68|-1.16|||Mixed Models Analysis|||From baseline to Week 65.||-1.16|-46.68|0.0395
82549031|NCT04556656|164799666|SUPERIORITY||Mean Difference (Final Values)|-22.23|STANDARD_ERROR_OF_MEAN|13.587||0.1038|TWO_SIDED|95.0|-49.08|4.61|||Mixed Models Analysis|||From baseline to Week 78.||4.61|-49.08|0.1038
82580095|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.324|TWO_SIDED|||||P-value is for Week 8.|Mixed Effect Model Repeat Measurement|||||||0.324
82650875|NCT01335477|165016614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.2123||95.0|0.55|1.16|||Log Rank||Nintedanib 150 mg bid versus Placebo|Hazard ratio is based on Cox´s regression model with terms for treatment, gender, age and height.||1.16|0.55|0.2123
82474290|NCT00035932|164644476|SUPERIORITY_OR_OTHER||Difference Estimate|-1.1|||||TWO_SIDED|95.0|-13.7|11.4||||||||11.4|-13.7|
82474291|NCT00035932|164644476|SUPERIORITY_OR_OTHER||Difference Estimate|-17.9|||||TWO_SIDED|95.0|-30.6|-5.3||||||||-5.3|-30.6|
82474292|NCT00035932|164644477|SUPERIORITY_OR_OTHER||Difference Estimate|-2.4|||||TWO_SIDED|95.0|-15.0|10.3|||Chi-squared, Corrected||ATV 300/RTV - LPV/RTV|||10.3|-15.0|
82549032|NCT04556656|164799667|SUPERIORITY||Mean Difference (Final Values)|-30.38|STANDARD_ERROR_OF_MEAN|12.902||0.0193|TWO_SIDED|95.0|-55.78|-4.98|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in Pronation/Supination IOI Mean from BL was the dependent variable and independent variables included treatment group, BL Pronation/Supination IOI Mean, region, categorical week, baseline HD stage (HD1 and HD2), treatment by categorical week interaction, conc. use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||-4.98|-55.78|0.0193
82549033|NCT04556656|164799667|SUPERIORITY||Mean Difference (Final Values)|-16.84|STANDARD_ERROR_OF_MEAN|15.17||0.268|TWO_SIDED|95.0|-46.69|13.02|||Mixed Models Analysis|||From baseline to Week 52.||13.02|-46.69|0.2680
82580096|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||P-value is for Week 16.|Mixed Effect Model Repeat Measurement|||||||0.031
82580097|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||P-value is for Week 24.|Mixed Effect Model Repeat Measurement|||||||0.076
82580098|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for Week 36.|Mixed Effect Model Repeat Measurement|||||||0.013
82580099|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.553|TWO_SIDED|||||P-value is for Week 52.|Mixed Effect Model Repeat Measurement|||||||0.553
82580100|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED|||||P-value is for Week 64.|Mixed Effect Model Repeat Measurement|||||||0.132
82580101|NCT01200290|164870977|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||P-value is for Week 76.|Mixed Effect Model Repeat Measurement|||||||0.230
82580102|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.335|TWO_SIDED|||||P-value is for Week 8.|Mixed Effect Model Repeat Measurement|||||||0.335
82580103|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED|||||P-value is for Week 16.|Mixed Effect Model Repeat Measurement|||||||0.043
82549034|NCT04556656|164799667|SUPERIORITY||Mean Difference (Final Values)|-22.79|STANDARD_ERROR_OF_MEAN|14.829||0.1255|TWO_SIDED|95.0|-51.97|6.4|||Mixed Models Analysis|||From baseline to Week 65.||6.4|-51.97|0.1255
82549035|NCT04556656|164799667|SUPERIORITY||Mean Difference (Final Values)|-22.72|STANDARD_ERROR_OF_MEAN|17.777||0.2024|TWO_SIDED|95.0|-57.72|12.28|||Mixed Models Analysis|||From baseline to Week 78.||12.28|-57.72|0.2024
82580104|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||P-value is for Week 24.|Mixed Effect Model Repeat Measurement|||||||0.073
82580105|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||P-value is for Week 36.|Mixed Effect Model Repeat Measurement|||||||0.004
82580106|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.699|TWO_SIDED|||||P-value is for Week 52.|Mixed Effect Model Repeat Measurement|||||||0.699
82650876|NCT01335477|165016615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.213||0.2032||95.0|-0.15|0.69|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures (MMRM), with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline SpO2, baseline SpO2-by-visit and random effect for patient.||0.69|-0.15|0.2032
82474293|NCT00035932|164644478|SUPERIORITY_OR_OTHER||Difference Estimate|-2.3|||||TWO_SIDED|95.0|-14.6|10.0||||||||10.0|-14.6|
82474294|NCT00035932|164644478|SUPERIORITY_OR_OTHER||Difference Estimate|-18.9|||||TWO_SIDED|95.0|-30.7|-7.1||||||||-7.1|-30.7|
82474295|NCT00035932|164644479|SUPERIORITY_OR_OTHER||Difference Estimate|-6.4|||||TWO_SIDED|95.0|-18.7|5.8||||||||5.8|-18.7|
82474296|NCT00035932|164644479|SUPERIORITY_OR_OTHER||Difference Estimate|-17.9|||||TWO_SIDED|95.0|-29.9|-5.9||||||||-5.9|-29.9|
82474297|NCT00035932|164644481|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-18.4|||||TWO_SIDED|97.5|-44.3|7.5||||||||7.5|-44.3|
82474298|NCT00035932|164644481|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-44.9|||||TWO_SIDED|97.5|-74.5|-15.3||||||||-15.3|-74.5|
82549036|NCT04556656|164799668|SUPERIORITY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.179||0.2088|TWO_SIDED|95.0|-0.13|0.58|||Mixed Models Analysis|||"From baseline to Week 26.~In the MMRM model, change in UHDRS-TFC score from baseline was the dependent variable and independent variables included treatment group, Baseline UHDRS-TFC, region, categorical week, Baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data."||0.58|-0.13|0.2088
82474299|NCT00035932|164644482|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-17.5|||||TWO_SIDED|97.5|-45.6|10.6||||||||10.6|-45.6|
82474300|NCT00035932|164644482|SUPERIORITY_OR_OTHER||Time-Averaged Difference|-47.6|||||TWO_SIDED|97.5|-79.2|-16.1||||||||-16.1|-79.2|
82474301|NCT00035932|164644484|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between IQ (\<10; \>=10) of ATV 300 mg / RTV and HIV RNA||||<0.05
82474302|NCT00035932|164644484|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between number of PI Mutations at baseline (\<4; \>=4) of ATV 400 mg / SQV and HIV RNA||||<0.05
82474303|NCT00035932|164644486|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between ATV Cmin of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
82474304|NCT00035932|164644486|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between IQ (\<10; \>=10) of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
82474305|NCT00035932|164644486|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||P-value was based on a t-distribution.|t-test, 1 sided|||Correlation between # of PI Mutations at baseline (\<4; \>=4) of ATV 300 mg / RTV and CD4 Cell Count||||<0.05
82474306|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-10.9|||||TWO_SIDED|95.0|-15.5|-6.0||||||Total Cholesterol||-6.0|-15.5|
82549037|NCT04556656|164799668|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.188||0.2991|TWO_SIDED|95.0|-0.17|0.57|||Mixed Models Analysis|||From baseline to Week 39.||0.57|-0.17|0.2991
82549038|NCT04556656|164799668|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.205||0.2116|TWO_SIDED|95.0|-0.15|0.66|||Mixed Models Analysis|||From baseline to Week 52.||0.66|-0.15|0.2116
82549039|NCT04556656|164799668|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.215||0.8242|TWO_SIDED|95.0|-0.38|0.47|||Mixed Models Analysis|||From baseline to Week 65.||0.47|-0.38|0.8242
82549040|NCT04556656|164799668|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.231||0.5918|TWO_SIDED|95.0|-0.33|0.58|||Mixed Models Analysis|||From baseline to Week 78.||0.58|-0.33|0.5918
82549041|NCT04556656|164799669|SUPERIORITY||Mean Difference (Final Values)|3.16|STANDARD_ERROR_OF_MEAN|1.326||0.0178|TWO_SIDED|95.0|0.55|5.77|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in SWR score from baseline was the dependent variable and independent variables included treatment group, baseline SWR, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, concomitant use of select medications and Treatment x Concomitant use of select medications, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||5.77|0.55|0.0178
82549042|NCT04556656|164799669|SUPERIORITY||Mean Difference (Final Values)|2.89|STANDARD_ERROR_OF_MEAN|1.518||0.0576|TWO_SIDED|95.0|-0.09|5.88|||Mixed Models Analysis|||From baseline to Week 39.||5.88|-0.09|0.0576
82474307|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-12.4|||||TWO_SIDED|95.0|-16.9|-7.6||||||Total Cholesterol||-7.6|-16.9|
82474308|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-6.7|||||TWO_SIDED|95.0|-13.6|0.7||||||HDL cholesterol||0.7|-13.6|
82474309|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-1.0|||||TWO_SIDED|95.0|-9.3|8.1||||||HDL Cholesterol||8.1|-9.3|
82474310|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-6.8|||||TWO_SIDED|95.0|-15.6|3.0||||||Fasting LDL Cholesterol||3.0|-15.6|
82549043|NCT04556656|164799669|SUPERIORITY||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|1.493||0.0418|TWO_SIDED|95.0|0.11|5.99|||Mixed Models Analysis|||From baseline to Week 52.||5.99|0.11|0.0418
82549044|NCT04556656|164799669|SUPERIORITY||Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|1.719||0.1775|TWO_SIDED|95.0|-1.06|5.71|||Mixed Models Analysis|||From baseline to Week 65.||5.71|-1.06|0.1775
82474311|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-7.3|||||TWO_SIDED|95.0|-15.5|1.8||||||Fasting LDL Cholesterol||1.8|-15.5|
82474312|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-24.9|||||TWO_SIDED|95.0|-35.0|-13.2||||||Fasting Triglycerides||-13.2|-35.0|
82474313|NCT00035932|164644488|SUPERIORITY_OR_OTHER||Difference Estimate|-34.2|||||TWO_SIDED|95.0|-43.4|-23.4||||||Fasting Triglycerides||-23.4|-43.4|
82474314|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-12.1|||||TWO_SIDED|95.0|-17.0|-7.2||||||Total Cholesterol||-7.2|-17.0|
82474315|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-12.0|||||TWO_SIDED|95.0|-17.4|-6.5||||||Total Cholesterol||-6.5|-17.4|
82474316|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-4.4|||||TWO_SIDED|95.0|-12.4|3.5||||||HDL Cholesterol||3.5|-12.4|
82474317|NCT00035932|164644489|SUPERIORITY_OR_OTHER||DIfference Estimate|-0.8|||||TWO_SIDED|95.0|-11.0|9.3||||||HDL Cholesterol||9.3|-11.0|
82474318|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-8.9|||||TWO_SIDED|95.0|-19.0|1.2||||||Fasting LDL CHolesterol||1.2|-19.0|
82474319|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-7.4|||||TWO_SIDED|95.0|-17.7|3.0||||||Fasting LDL Cholesterol||3.0|-17.7|
82474320|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-29.6|||||TWO_SIDED|95.0|-41.6|-17.7||||||Fasting Triglycerides||-17.7|-41.6|
82474321|NCT00035932|164644489|SUPERIORITY_OR_OTHER||Difference Estimate|-38.4|||||TWO_SIDED|95.0|-49.7|-27.1||||||Fasting Triglycerides||-27.1|-49.7|
82474322|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-14.4|||||TWO_SIDED|95.0|-20.1|-8.3|||||ATV 300/RTV - LPV/RTV|Observed values, Total Cholesterol||-8.3|-20.1|
82474323|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-9.0|||||TWO_SIDED|95.0|-16.1|-1.3|||||ATV 400/SQV - LPV/RTV|observed values, total cholesterol||-1.3|-16.1|
82474324|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-11.0|||||TWO_SIDED|95.0|-19.9|-1.2|||||ATV 300/RTV - LPV/RTV|observed values, HDL cholesterol||-1.2|-19.9|
82474325|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-4.1|||||TWO_SIDED|95.0|-14.0|7.0|||||ATV 400/SQV - LPV/RTV|Observed values, HDL cholesterol||7.0|-14.0|
82474326|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-12.7|||||TWO_SIDED|95.0|-22.3|-1.8|||||ATV 300/RTV - LPV/RTV|observed cases, fasting LDL||-1.8|-22.3|
82474327|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-7.9|||||TWO_SIDED|95.0|-19.0|4.8|||||ATV 400/SQV - LPV/RTV|Observed Cases, Fasting LDL cholesterol||4.8|-19.0|
82474328|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-24.8|||||TWO_SIDED|95.0|-38.6|-8.0|||||ATV 300/RTV - LPV/RTV|observed cases, fasting triglycerides||-8.0|-38.6|
82474329|NCT00035932|164644490|SUPERIORITY_OR_OTHER||Difference Estimate|-19.8|||||TWO_SIDED|95.0|-36.5|1.3|||||ATV 400/SQV - LPV/RTV|observed cases, fasting triglycerides||1.3|-36.5|
82474330|NCT00035932|164644501|SUPERIORITY_OR_OTHER||time-averaged difference|0.14|||||TWO_SIDED|97.5|-0.13|0.41|||||ATV 300/RTV - LPV/RTV|overall||0.41|-0.13|
82474331|NCT00035932|164644501|SUPERIORITY_OR_OTHER||time-averaged difference|0.11|||||TWO_SIDED|97.5|-0.16|0.38|||||ATV 300/RTV - LPV/RTV|last observation carried forward||0.38|-0.16|
82474332|NCT04413617|164644518|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.163||0.0158|TWO_SIDED|90.0|-0.62|-0.08|||Mixed Model Repeated Measures|||The primary clinical hypothesis is that mean decrease at Week 12 in DAS28-CRP score in one or both combo arms exceeds the mean decrease in the reference (tofacitinib) treatment arm, regardless of occurrence of intercurrent events. The null hypothesis is that the mean decrease in DAS28-CRP score at Week 12 is identical in the control (tofacitinib arm) and combination arms.||-0.08|-0.62|0.0158
82474333|NCT04413617|164644518|SUPERIORITY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.164||0.3933|TWO_SIDED|90.0|-0.32|0.23|||Mixed Model Repeated Measures|||The primary clinical hypothesis is that mean decrease at Week 12 in DAS28-CRP score in one or both combo arms exceeds the mean decrease in the reference (tofacitinib) treatment arm, regardless of occurrence of intercurrent events. The null hypothesis is that the mean decrease in DAS28-CRP score at Week 12 is identical in the control (tofacitinib arm) and combination arms.||0.23|-0.32|0.3933
82474334|NCT00312195|164644528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79|STANDARD_ERROR_OF_MEAN|0.2544||0.0217|TWO_SIDED|95.0|1.09|2.95||P value is from a logistic regression analysis with terms for treatment effect, country and pain site (hip, knee, back and other).|Regression, Logistic||Primary variable was defined as: ratio of the probability of having ineffective treatment divided by the probability of having effective treatment.|H0: the odds of ineffective treatment is the same for subjects receiving placebo as for those receiving BTDS versus the alternative H1: the odds of ineffective treatment is different for subjects receiving placebo from those receiving BTDS.||2.95|1.09|.0217
82549045|NCT04556656|164799669|SUPERIORITY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|1.772||0.2627|TWO_SIDED|95.0|-1.5|5.48|||Mixed Models Analysis|||From baseline to Week 78.||5.48|-1.50|0.2627
82549046|NCT04556656|164799670|SUPERIORITY||Mean Difference (Final Values)|1.01|STANDARD_ERROR_OF_MEAN|0.712||0.1586|TWO_SIDED|95.0|-0.4|2.41|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.41|-0.4|0.1586
82549047|NCT04556656|164799670|SUPERIORITY||Mean Difference (Final Values)|0.87|STANDARD_ERROR_OF_MEAN|0.701||0.2144|TWO_SIDED|95.0|-0.51|2.25|||Mixed Models Analysis|||From baseline to Week 39. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.25|-0.51|0.2144
82474335|NCT02511106|164644541|SUPERIORITY||Hazard Ratio (HR)|0.23|||<|0.0001|TWO_SIDED|95.0|0.18|0.3|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.30|0.18|<0.0001
82474336|NCT02511106|164644542|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.21|0.34|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.34|0.21|<0.0001
82474337|NCT02511106|164644545|SUPERIORITY||Hazard Ratio (HR)|0.4913||||0.0004|TWO_SIDED|95.03|0.3307|0.7299|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.7299|0.3307|0.0004
82474338|NCT02511106|164644546|SUPERIORITY||Hazard Ratio (HR)|0.4912|||<|0.0001|TWO_SIDED|95.03|0.3439|0.7017|||Log Rank|Determined using a log rank test stratified by stage, race and mutation type.|A hazard ratio \<1 favours AZD9291.|||0.7017|0.3439|<0.0001
82474339|NCT01015638|164644553|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
82474340|NCT01015638|164644554|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Dunn's Multiple Comparisons Test|||||||>0.05
82474341|NCT01015638|164644555|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Kruskal-Wallis|||||||>0.05
82474342|NCT01015638|164644556|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Tukey-Kramer Multiple Comparisons Test|||||||> 0.05
82474343|NCT05487196|164644591|NON_INFERIORITY|The noninferiority margin δ was set as the median of fentanyl group + 30 representing a 1-point pain numeric rating scale difference per unit time across the 30-minute initiation period. A conventional 1-sided 95% confidence interval (CI) was constructed using normal distribution assumptions. Analysis was by intent to treat. Comparisons of PI-AUC30 between the three agents were made by one-way ANOVA.||||||0.226|||||||ANOVA|||||||0.226
82474344|NCT05487196|164644592|SUPERIORITY|||||||0.16|||||||ANOVA|||||||0.16
82474345|NCT05487196|164644593|SUPERIORITY|||||||0.03|||||||ANOVA|||||||0.03
82474346|NCT05487196|164644594|SUPERIORITY|||||||0.07|||||||ANOVA|||||||0.07
82474347|NCT05487196|164644595|SUPERIORITY|||||||0.22|||||||ANOVA|||||||0.22
82474348|NCT05487196|164644596|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.28
82580107|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.095|TWO_SIDED|||||P-value is for Week 64.|Mixed Effect Model Repeat Measurement|||||||0.095
82549048|NCT04556656|164799670|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.793||0.9119|TWO_SIDED|95.0|-1.65|1.48|||Mixed Models Analysis|||From baseline to Week 52. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.48|-1.65|0.9119
82549049|NCT04556656|164799670|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.844||0.7339|TWO_SIDED|95.0|-1.38|1.95|||Mixed Models Analysis|||From baseline to Week 65. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.95|-1.38|0.7339
82549050|NCT04556656|164799670|SUPERIORITY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.859||0.6213|TWO_SIDED|95.0|-1.27|2.12|||Mixed Models Analysis|||From baseline to Week 78. In the MMRM model, change in SDMT score from baseline was the dependent variable and independent variables included treatment group, baseline SDMT, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||2.12|-1.27|0.6213
82549051|NCT04556656|164799671|SUPERIORITY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.777||0.8205|TWO_SIDED|95.0|-1.71|1.36|||Mixed Models Analysis|||From baseline to Week 26. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.36|-1.71|0.8205
82549052|NCT04556656|164799671|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|1.067||0.4028|TWO_SIDED|95.0|-3.0|1.21|||Mixed Models Analysis|||From baseline to Week 39. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.21|-3.0|0.4028
82549053|NCT04556656|164799671|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.051||0.7577|TWO_SIDED|95.0|-2.4|1.75|||Mixed Models Analysis|||From baseline to Week 52. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.75|-2.4|0.7577
82549054|NCT04556656|164799671|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|1.158||0.7605|TWO_SIDED|95.0|-2.64|1.93|||Mixed Models Analysis|||From baseline to Week 65. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||1.93|-2.64|0.7605
82549055|NCT04556656|164799671|SUPERIORITY||Mean Difference (Final Values)|0.57|STANDARD_ERROR_OF_MEAN|1.323||0.6694|TWO_SIDED|95.0|-2.05|3.18|||Mixed Models Analysis|||From baseline to Week 78. In the MMRM model, change in TMS score from baseline was the dependent variable and independent variables included treatment group, baseline TMS, region, categorical week, baseline HD stage (HD1 and HD2), and treatment by categorical week interaction, with Kenward-Roger approximation for degrees of freedom. No imputation was performed on missing data.||3.18|-2.05|0.6694
82580108|NCT01200290|164870978|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED|||||P-value is for Week 76.|Mixed Effect Model Repeat Measurement|||||||0.082
82650877|NCT01335477|165016616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.1005||0.26||95.0|-0.084|0.31|||Mixed Models Analysis||"Within-patient errors are modelled by compound symmetry covariance matrix.~Nintedanib 150 mg bid versus Placebo."|Mixed Model for Repeated Measures with fixed effects for treatment, visit, gender, age, height, treatment-by-visit, baseline DLCO (HGB Corrected) \[mmol/min/kPa\], baseline DLCO (HGB Corrected) \[mmol/min/kPa\]-by-visit and random effect for patient.||0.310|-0.084|0.2600
82474349|NCT05487196|164644597|SUPERIORITY|||||||0.83|||||||Fisher Exact|||||||0.83
82549056|NCT05722704|164799672|SUPERIORITY||Median Difference (Net)|0.118|STANDARD_DEVIATION|0.05||0.986|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.986
82549057|NCT05722704|164799673|SUPERIORITY||Median Difference (Net)|0.016|STANDARD_DEVIATION|0.05|<|0.118|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||<0.118
82549058|NCT05722704|164799674|SUPERIORITY||Median Difference (Net)|95.0|STANDARD_DEVIATION|0.05||0.225|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.225
82549059|NCT05722704|164799675|SUPERIORITY||Median Difference (Net)|95.0|STANDARD_DEVIATION|0.05||0.424|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.424
82580109|NCT01133418|164871024|SUPERIORITY_OR_OTHER|||||||0.36||||||a priori threshold for statistical significance was .05|General Linear Model|||||||.36
82580110|NCT01133418|164871025|SUPERIORITY_OR_OTHER|||||||0.86|||||||General Linear Model|||||||.86
82580111|NCT01133418|164871026|SUPERIORITY_OR_OTHER|||||||0.79|||||||General Linear Model|||||||.79
82474350|NCT05487196|164644598|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
82474351|NCT05487196|164644599|SUPERIORITY|||||||0.36|||||||Fisher Exact|||||||0.36
82474352|NCT05487196|164644600|SUPERIORITY|||||||0.36|||||||Fisher Exact|||||||0.36
82474353|NCT05487196|164644601|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
82474354|NCT05487196|164644602|SUPERIORITY|||||||0.58|||||||Kruskal-Wallis|||||||0.58
82474355|NCT05487196|164644603|SUPERIORITY|||||||0.98|||||||Kruskal-Wallis|||||||0.98
82580112|NCT01133418|164871027|SUPERIORITY_OR_OTHER|||||||0.77|||||||General Linear Model|||||||.77
82580113|NCT04150068|164871028|SUPERIORITY|The difference in percentage between 2 treatment groups was compared using an unconditional exact method using 2 invert 1-sided tests with an alpha level at 0.05 to evaluate superiority.|Percentage Difference|70.8|||<|0.0001|TWO_SIDED|95.0|34.9|90.0||The P value and 95% confidence interval (CI) for the point estimate of treatment difference in proportions was estimated and constructed using the Chan and Zhang method.|Chan & Zhang method|||||90.0|34.9|< 0.0001
82549060|NCT03498651|164799681|SUPERIORITY||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|1.04|1.16|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||1.16|1.04|
82549061|NCT03498651|164799681|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.43|0.2|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.20|-0.43|
82549062|NCT03498651|164799682|SUPERIORITY||Mean Difference (Net)|-0.63|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.69|-0.57|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.57|-0.69|
82650878|NCT01034137|165016627|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.996|||<|0.001|TWO_SIDED|95.0|1.589|2.506|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the Cochran-Mantel-Haenszel (CMH) test taking into account the stratification factors used for randomization.||2.506|1.589|< 0.001
82474356|NCT03530124|164644612|SUPERIORITY|The number of infants with ≥1 apneic event for each group and compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group (\< 28 weeks versus ≥ 28 weeks) to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea.|Odds Ratio (OR)|2.7||||0.0104|TWO_SIDED|95.0|1.27|5.73|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the primary objective.|||5.73|1.27|0.0104
82549063|NCT03498651|164799682|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_DEVIATION|0.17|||TWO_SIDED|95.0|-0.26|0.39|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.39|-0.26|
82549064|NCT03498651|164799683|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|0.42|0.54|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.||"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|0.54|0.42|
82549065|NCT03498651|164799683|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.23|0.39|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.39|-0.23|
82650879|NCT01034137|165016627|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.855|||<|0.001|TWO_SIDED|95.0|1.481|2.323|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the CMH test taking into account the stratification factors used for randomization.||2.323|1.481|< 0.001
82650880|NCT01034137|165016627|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.616|TWO_SIDED|95.0|0.915|1.16|||Cochran-Mantel-Haenszel|||The SRR was compared between the treatment groups by means of the CMH test taking into account the stratification factors used for randomization.||1.160|0.915|0.616
82650881|NCT01828255|165016680|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82474357|NCT03530124|164644613|OTHER|The number of apnea events were compared using a linear regression model (assuming a Poisson distribution) with study site and gestational age group covariates to control for the randomization blocks.||||||0.11|||||||Regression, Linear|No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.||||||0.11
82474358|NCT03530124|164644614|OTHER|Average duration of apnea episodes between groups were compared using a mixed effects model with a random intercept for each infant with one or more events and study site and gestational age group as covariates to control for the randomization blocks.||||||0.36|||||||Mixed Effects Model|No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.||||||0.36
82474359|NCT03530124|164644615|SUPERIORITY|The proportion of infants requiring an increase in respiratory support for each group were compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea.|Odds Ratio (OR)|2.07||||0.3555|TWO_SIDED|95.0|0.59|7.23|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|||7.23|0.59|0.3555
82474360|NCT03530124|164644616|SUPERIORITY|The proportion of infants with ≥1 cardiorespiratory event using a Mantel-Haenszel statistic in at the two-sided alpha 0.05 level and corresponding 95% confidence interval.|Odds Ratio (OR)|0.89||||1|TWO_SIDED|95.0|0.29|2.77|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|Only Duke University had viable monitoring data to analyze this compound outcome objective.||2.77|0.29|1.0000
82474361|NCT03530124|164644617|SUPERIORITY||Odds Ratio (OR)|1.93||||1|TWO_SIDED|95.0|0.17|21.63|||Mantel Haenszel||No adjustments were made to the alpha level (two-sided alpha=0.05) for the secondary objectives.|The proportion of infants requiring positive pressure ventilation for each group were compared using a Mantel-Haenszel statistic in a stratified analysis by study site and gestational age group to control for the randomization blocks at the two-sided alpha 0.05 level and corresponding 95% confidence interval for the occurrence of apnea during the 48-hour monitoring period.||21.63|0.17|1.0000
82474362|NCT01309282|164644649|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0078
82474363|NCT01309282|164644650|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0078
82474364|NCT01309282|164644651|SUPERIORITY_OR_OTHER|||||||0.01403|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.01403
82474365|NCT01309282|164644652|SUPERIORITY_OR_OTHER|||||||0.0355|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0355
82474366|NCT01309282|164644653|SUPERIORITY_OR_OTHER|||||||0.5469|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.5469
82549066|NCT03498651|164799684|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_DEVIATION|0.02|||TWO_SIDED|95.0|-0.6|-0.51|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.51|-0.60|
82549067|NCT03498651|164799684|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_DEVIATION|0.13|||TWO_SIDED|95.0|-0.23|0.27|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.27|-0.23|
82561933|NCT03331978|164833090|SUPERIORITY||Odds Ratio (OR)|0.57||||0.05|TWO_SIDED|95.0|0.32|1.0||As mentioned above, p-value is from repeated measures regression with standard errors adjusted for clustering on participant.|Regression, Logistic||Odds ratio is for intervention indicator (versus controls).|Tested with repeated measures logistic regression where both post-intervention responses were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for follow-up response were used. Fixed effects were an intervention indicator and baseline stigma. Model included all participants with responses (a) at baseline and (b) at least one of the two follow-up surveys.||1.00|0.32|.05
82474367|NCT01309282|164644654|SUPERIORITY_OR_OTHER|||||||0.0225|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0225
82474368|NCT01309282|164644655|SUPERIORITY_OR_OTHER|||||||0.0225|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0225
82474369|NCT01309282|164644656|SUPERIORITY_OR_OTHER|||||||0.0904|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.0904
82474370|NCT01309282|164644657|SUPERIORITY_OR_OTHER|||||||0.2969|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.2969
82474371|NCT02445794|164644671|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||.008
82474372|NCT01136785|164644672|SUPERIORITY_OR_OTHER|||||||0.01|||||||t-test, 2 sided|||two-sided t test for the change from baseline between the treated and untreated groups.||||0.01
82474373|NCT01136785|164644673|SUPERIORITY_OR_OTHER|||||||0.011|||||||2-sided Paired t-test|||comparing pre and post Interstitial Glucose levels in the active CPAP group||||0.011
82474374|NCT01136785|164644674|SUPERIORITY_OR_OTHER|||||||0.071|||||||t-test, 2 sided|||||||0.071
82474375|NCT01136785|164644675|SUPERIORITY_OR_OTHER|||||||0.754|||||||two-sided paired t-test|||Plasma cortisol pre and post 1-week of active CPAP||||0.754
82474376|NCT01136785|164644676|SUPERIORITY_OR_OTHER|||||||0.308|||||||two-sided paired t-test|||comparing pre and post levels in the active CPAP group||||0.308
82474377|NCT01136785|164644677|SUPERIORITY_OR_OTHER|||||||0.036|||||||two-sided paired t-test|||comparing pre and post levels in the active CPAP group||||0.036
82474378|NCT00233064|164644678|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.0||||||95.0|0.0|1.9|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||1.9|0.0|
82474379|NCT00233064|164644678|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.5||||||95.0|0.0|2.9|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||2.9|0.0|
82474380|NCT00233064|164644678|SUPERIORITY_OR_OTHER||Overall percentage of immune reactivity|0.3||||||95.0|0.0|1.5|||||The number and percentage of subjects with immune reactivity at Study Day 240-300 were constructed using the Clopper-Pearson Method.|The subject number of 200 per treatment group was derived to demonstrate a percentage of immune reactivity in either the liquid or lyophilized formulations of palivizumab of \<2-3% based on 95% confidence intervals \[(0%; 0.00, 1.83), (0.5%; 0.01, 2.75), (1%; 0.12, 3.57)\].||1.5|0.0|
82474381|NCT04976192|164644696|OTHER||LS Mean Difference|-0.31|||||TWO_SIDED|95.0|-1.56|0.94||||||||0.94|-1.56|
82474382|NCT04976192|164644697|OTHER||LS Mean Difference|-0.39|||||TWO_SIDED|90.0|-1.37|0.58||||||||0.58|-1.37|
82474383|NCT04976192|164644697|OTHER||Relative Potency|0.89|||||||||||||Relative potency of TEV-45779 and XOLAIR is a co-primary efficacy endpoint for FDA submission.|The relative potency of the test drug to the reference drug was defined as the dose of the test drug that produced the same biological response as 1 unit of the dose of the reference drug. Relative potency was demonstrated if the 90% confidence interval (CI) for relative potency fell entirely within the equivalence margins.||||
82474384|NCT04838977|164644724|SUPERIORITY||Between group difference|-4.2|||||TWO_SIDED|95.0|-7.6|-0.8||||||The null hypothesis is there is no difference in mean CPSS at 10 weeks in the intervention group versus the control group.||-0.8|-7.6|
82474385|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1334||||0.1695|TWO_SIDED|95.0|-0.0583|0.3251|||Mixed model for repeated measures|||For Grey matter||0.3251|-0.0583|0.1695
82474386|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.175||||0.1057|TWO_SIDED|95.0|-0.038|0.388|||Mixed model for repeated measures|||For posterior cingulate Gyrus||0.3880|-0.0380|0.1057
82474387|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1426||||0.1833|TWO_SIDED|95.0|-0.0691|0.3543|||Mixed model for repeated measures|||For Frontal lobe||0.3543|-0.0691|0.1833
82580114|NCT05316701|164871037|SUPERIORITY||Hazard Ratio (HR)|0.26|||<|1e-05|TWO_SIDED|95.0|0.14|0.47|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||0.47|0.14|<0.00001
82650882|NCT01381900|165016697|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.644|-0.367|||ANCOVA|||||-0.367|-0.644|<0.001
82474388|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1366||||0.1644|TWO_SIDED|95.0|-0.0574|0.3307|||Mixed model for repeated measures|||For parietal lobe||0.3307|-0.0574|0.1644
82474389|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1259||||0.1509|TWO_SIDED|95.0|-0.0471|0.2989|||Mixed model for repeated measures|||For Posterior temporal lobe||0.2989|-0.0471|0.1509
82474390|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1339||||0.2041|TWO_SIDED|95.0|-0.0747|0.3424|||Mixed model for repeated measures|||For cerebellum||0.3424|-0.0747|0.2041
82474391|NCT00265148|164644734|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1094||||0.1445|TWO_SIDED|95.0|-0.0385|0.2572|||Mixed model for repeated measures|||For medial temporal lobe||0.2572|-0.0385|0.1445
82474392|NCT00265148|164644735|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1211||||0.2251|TWO_SIDED|95.0|-0.0763|0.3185|||Mixed model for repeated measures|||At Month 1||0.3185|-0.0763|0.2251
82474393|NCT00265148|164644735|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0893||||0.2497|TWO_SIDED|95.0|-0.0643|0.243|||Mixed model for repeated measures|||For Month 6||0.2430|-0.0643|0.2497
82474394|NCT00265148|164644736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.11||||0.7618|TWO_SIDED|95.0|-0.59|0.8|||Repeated measure mixed model|||For BSR test , Month 1||0.80|-0.59|0.7618
82474395|NCT00265148|164644736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.06||||0.835|TWO_SIDED|95.0|-0.53|0.66|||Repeated measure mixed model|||For BSR test, Month 6||0.66|-0.53|0.8350
82580115|NCT05316701|164871038|SUPERIORITY||Hazard Ratio (HR)|0.19||||2e-05|TWO_SIDED|95.0|0.08|0.43|||Gray's test|||Gray's test was stratified by randomization stratification factors.||0.43|0.08|0.00002
82650883|NCT01381900|165016697|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.731|-0.453|||ANCOVA|||||-0.453|-0.731|<0.001
82650884|NCT01381900|165016698|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.173|<|0.001|TWO_SIDED|95.0|-1.375|-0.694|||ANCOVA|||||-0.694|-1.375|<0.001
82474396|NCT00265148|164644736|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.14||||0.6735|TWO_SIDED|95.0|-0.78|0.51|||Repeated measure mixed model|||For BSR test, Month 12||0.51|-0.78|0.6735
82474397|NCT00265148|164644737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07||||0.7045|TWO_SIDED|95.0|-0.44|0.3|||Repetaed measure mixed model|||For Month 1||0.30|-0.44|0.7045
82474398|NCT00265148|164644737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.04||||0.8181|TWO_SIDED|95.0|-0.4|0.32|||Repeated measure mixed model|||For Month 6||0.32|-0.40|0.8181
82474399|NCT00265148|164644737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.09||||0.7688|TWO_SIDED|95.0|-0.71|0.53|||Repeated measure mixed model|||AT Month 12||0.53|-0.71|0.7688
82474400|NCT00265148|164644737|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.07||||0.681|TWO_SIDED|95.0|-0.4|0.26|||Repeated measure mixed model|||Overall||0.26|-0.40|0.6810
82474401|NCT00265148|164644741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.8593|TWO_SIDED|95.0|-2.38|1.99|||Repeated measure mixed model|||At Month 1||1.99|-2.38|0.8593
82474402|NCT00265148|164644741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.44||||0.3201|TWO_SIDED|95.0|-1.43|4.32|||Repeated measure mixed model|||At Month 6||4.32|-1.43|0.3201
82474403|NCT00265148|164644741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.18||||0.2627|TWO_SIDED|95.0|-1.68|6.04|||Repeated measure mixed model|||At Month 12||6.04|-1.68|0.2627
82580116|NCT05316701|164871039|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.11823|TWO_SIDED|95.0|0.2|1.22|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||1.22|0.20|0.11823
82474404|NCT00265148|164644741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.14||||0.3633|TWO_SIDED|95.0|-1.35|3.64|||Repeated measure mixed model|||For overall period||3.64|-1.35|0.3633
82474405|NCT00265148|164644742|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.11||||0.5647|TWO_SIDED|95.0|-0.48|0.26|||Repetaed measure mixed model|||For overall period||0.26|-0.48|0.5647
82549068|NCT03498651|164799685|SUPERIORITY||Mean Difference (Net)|-0.41|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.46|-0.37|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.37|-0.46|
82549069|NCT03498651|164799685|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.14|||TWO_SIDED|95.0|-0.23|0.32|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.32|-0.23|
82549070|NCT03498651|164799686|SUPERIORITY||Mean Difference (Net)|-0.33|STANDARD_DEVIATION|0.03|||TWO_SIDED|95.0|-0.39|-0.27|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% bootstrap confidence interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Intent-to-treat (ITT) analysis of Stage 1 randomization to CBM-I vs. psychoeducation. To correct for sampling bias (i.e., CBM-I, high attrition, coach received coaching, whereas psychoeducation did not receive coaching), CBM-I, high attrition, coach participants were excluded and replaced with an equal number of CBM-I, high attrition, no coach participants (using bootstrap resampling). The corrected ITT analysis sample included 1,234 participants (980 in CBM-I, 254 in psychoeducation)."||-0.27|-0.39|
82549071|NCT03498651|164799686|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_DEVIATION|0.16|||TWO_SIDED|95.0|-0.14|0.48|||Mixed Models Analysis|We compared the two groups in a piecewise linear multilevel model (one slope during treatment, one during follow-up), controlling for income and age.|From the model (run in Bayesian with non-informative priors), we report the between-group SMD (with empirical SD \& 95% HPD credible interval) at Session 5 (at mean income \& age), adjusted for baseline differences \& using pooled baseline SD.|"Analysis of Stage 2 randomization of CBM-I participants classified as high risk for attrition to supplemental coaching vs. no coaching. The analysis sample included 544 participants (263 in CBM-I, high attrition, no coach; 281 in CBM-I, high attrition, coach)."||0.48|-0.14|
82549072|NCT05563246|164799698|SUPERIORITY||LS Mean Difference (Final Values)|-47.61|||<|0.001|TWO_SIDED|95.0|-57.68|-35.14|||Mixed Models Analysis|||||-35.14|-57.68|<.001
82549073|NCT05563246|164799698|SUPERIORITY||LS Mean Difference (Final Values)|-81.66|||<|0.001|TWO_SIDED|95.0|-84.62|-78.13|||Mixed Models Analysis|||||-78.13|-84.62|<.001
82549074|NCT05563246|164799698|SUPERIORITY||LS Mean Difference (Final Values)|-85.77|||<|0.001|TWO_SIDED|95.0|-88.03|-83.09|||Mixed Models Analysis|||||-83.09|-88.03|<.001
82549075|NCT05563246|164799699|SUPERIORITY||LS Mean Difference (Final Values)|-40.38|||<|0.001|TWO_SIDED|95.0|-50.45|-28.27|||Mixed Models Analysis|||||-28.27|-50.45|<.001
82549076|NCT05563246|164799699|SUPERIORITY||LS Mean Difference (Final Values)|-69.95|||<|0.001|TWO_SIDED|95.0|-74.23|-64.96|||Mixed Models Analysis|||||-64.96|-74.23|<.001
82549077|NCT05563246|164799699|SUPERIORITY||LS Mean Difference (Final Values)|-68.9|||<|0.001|TWO_SIDED|95.0|-73.27|-63.81|||Mixed Models Analysis|||||-63.81|-73.27|<.001
82549078|NCT05563246|164799700|SUPERIORITY||Risk Difference (RD)|58.15|||<|0.001|TWO_SIDED|95.0|40.3|75.99|||Regression, Logistic|||||75.99|40.30|<.001
82549079|NCT05563246|164799700|SUPERIORITY||Risk Difference (RD)|89.87|||<|0.001|TWO_SIDED|95.0|81.54|98.2|||Regression, Logistic|||||98.20|81.54|<.001
82580117|NCT05316701|164871040|SUPERIORITY||Hazard Ratio (HR)|0.37||||3e-05|TWO_SIDED|95.0|0.23|0.6|||Log Rank|||Log-rank test was stratified by randomization stratification factors.||0.60|0.23|0.00003
82549080|NCT05563246|164799700|SUPERIORITY||Risk Difference (RD)|90.71|||<|0.001|TWO_SIDED|95.0|82.8|98.62|||Regression, Logistic|||||98.62|82.80|<.001
82549081|NCT05563246|164799701|SUPERIORITY||Risk Difference (RD)|35.18|||<|0.001|TWO_SIDED|95.0|18.9|51.46|||Regression, Logistic|||||51.46|18.90|<.001
82549082|NCT05563246|164799701|SUPERIORITY||Risk Difference (RD)|78.18|||<|0.001|TWO_SIDED|95.0|67.7|88.65|||Regression, Logistic|||||88.65|67.70|<.001
82549083|NCT05563246|164799701|SUPERIORITY||Risk Difference (RD)|73.62|||<|0.001|TWO_SIDED|95.0|63.65|83.58|||Regression, Logistic|||||83.58|63.65|<.001
82549084|NCT05563246|164799702|SUPERIORITY||LS Mean Difference (Final Values)|-8.94||||0.11|TWO_SIDED|95.0|-18.84|2.17|||Mixed Models Analysis|||||2.17|-18.84|0.110
82549085|NCT05563246|164799702|SUPERIORITY||LS Mean Difference (Final Values)|-13.05||||0.004|TWO_SIDED|95.0|-20.92|-4.4|||Mixed Models Analysis|||||-4.40|-20.92|0.004
82580118|NCT04679935|164871041|OTHER|Analysis was purely descriptive.|Difference|-3.74|STANDARD_ERROR_OF_MEAN|1.84|||TWO_SIDED|95.0|-7.47|-0.01|||MMRM model|||Week 40||-0.01|-7.47|
82650885|NCT01381900|165016698|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|0.173|<|0.001|TWO_SIDED|95.0|-1.769|-1.089|||ANCOVA|||||-1.089|-1.769|<0.001
82549086|NCT05563246|164799702|SUPERIORITY||LS Mean Difference (Final Values)|-16.13|||<|0.001|TWO_SIDED|95.0|-23.69|-7.84|||Mixed Models Analysis|||||-7.84|-23.69|<.001
82580119|NCT04679935|164871041|OTHER|Analysis was purely descriptive.|Difference|-4.15|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-8.78|-0.48|||MMRM model|||Week 44||-0.48|-8.78|
82580120|NCT04679935|164871041|OTHER|Analysis was purely descriptive.|Difference|-5.35|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-10.13|-0.58|||MMRM model|||Week 48||-0.58|-10.13|
82580121|NCT04679935|164871041|OTHER|Analysis was purely descriptive.|Difference|-4.19|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-8.77|0.39|||MMRM model|||Week 52||0.39|-8.77|
82474406|NCT00265148|164644742|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0||||0.9935|TWO_SIDED|95.0|-0.46|0.46|||Repeated measure mixed model|||For Month 1||0.46|-0.46|0.9935
82474407|NCT00265148|164644742|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.22||||0.3794|TWO_SIDED|95.0|-0.72|0.28|||Repeated measure mixed model|||At Month 6||0.28|-0.72|0.3794
82474408|NCT00265148|164644742|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.7357|TWO_SIDED|95.0|-0.7|0.49|||Repeated measure mixed model|||At Month 12||0.49|-0.70|0.7357
82474409|NCT00265148|164644745|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-4971.6||||0.6299|TWO_SIDED|95.0|-255515.6|15572.4|||Repeated measure mixed model|Arithmetic means have been presented; however, statistical analysis is based upon the least square (LS) means||At Month 6||15572.4|-255515.6|0.6299
82549087|NCT05563246|164799703|SUPERIORITY||LS Mean Difference (Final Values)|35.27||||0.131|TWO_SIDED|95.0|-8.63|100.27|||Mixed Models Analysis|||||100.27|-8.63|0.131
82549088|NCT05563246|164799703|SUPERIORITY||LS Mean Difference (Final Values)|8.32||||0.627|TWO_SIDED|95.0|-21.62|49.7|||Mixed Models Analysis|||||49.70|-21.62|0.627
82549089|NCT05563246|164799703|SUPERIORITY||LS Mean Difference (Final Values)|-6.08||||0.701|TWO_SIDED|95.0|-31.89|29.51|||Mixed Models Analysis|||||29.51|-31.89|0.701
82549090|NCT01566695|164799705|SUPERIORITY||Rate Difference|18.9||||0.0005|TWO_SIDED|95.0|8.3|29.6||2 sided|Stratified Mantel-Haenszel Chi-squared|Stratified by average baseline (BL) RBC tfx needs: ≤4 vs \>4 units of RBC per 28 days; BL platelet tfx status: dependent or ind. \&ECOG PS: 0 to 1 vs 2||||29.6|8.3|0.0005
82549091|NCT01566695|164799709|SUPERIORITY||Rate Difference|21.6|||<|0.0001|TWO_SIDED|95.0|11.9|31.3||2 sided|Stratified Mantel-Haenszel; Chi-squared|Stratified by average baseline (BL) RBC tfx needs: ≤4 vs \>4 units of RBC per 28 days; BL platelet tfx status: dependent or ind. \&ECOG PS: 0 to 1 vs 2||||31.3|11.9|<0.0001
82549092|NCT01566695|164799710|SUPERIORITY|||||||0.4347|||||||Two-Sided Unstratified Log Rank Test|||||||0.4347
82549093|NCT01566695|164799712|SUPERIORITY|HI-E|Rate Difference|10.9||||0.1467|TWO_SIDED|95.0|-2.0|23.7|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||23.7|-2.0|0.1467
82549094|NCT01566695|164799712|SUPERIORITY|≥ 1.5 g/dL Hemoglobin Increase|Rate Diffrence|17.9||||0.0002|TWO_SIDED|95.0|8.8|26.9|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||26.9|8.8|0.0002
82580122|NCT04679935|164871041|OTHER|Analysis was purely descriptive.|Difference|-4.36|STANDARD_ERROR_OF_MEAN|2.09|||TWO_SIDED|95.0|-8.56|-0.16|||MMRM model|||Mean of Week 40 to Week 52||-0.16|-8.56|
82474410|NCT00265148|164644745|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|12223.0||||0.2184|TWO_SIDED|95.0|-7450.6|31896.5|||Repeated measure mixed model|||At Month 12||31896.5|-7450.6|0.2184
82474411|NCT00265148|164644746|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.0129|TWO_SIDED|95.0|-1.0|-0.1|||Repeated measure mixed model|||For Month 6||-0.1|-1.0|0.0129
82549095|NCT01566695|164799712|SUPERIORITY|RBC Transfusion Reduction|Rate Difference|10.9||||0.1431|TWO_SIDED|95.0|-1.9|23.6|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||23.6|-1.9|0.1431
82549096|NCT01566695|164799713|SUPERIORITY||Rate Difference|17.0||||0.0007|TWO_SIDED|95.0|7.5|26.4|||Stratified Mantel-Haenszel. Chi-squared|Stratified by average BL RBC tfx needs: ≤4 units versus \>4 units; BL platelet tfx status: dependent or independent and ECOG PS: 0 to 1 vs 2||||26.4|7.5|0.0007
82549097|NCT01566695|164799716|OTHER||Hazard Ratio (HR)|1.08||||0.6257|TWO_SIDED|95.0|0.79|1.49|||Log Rank||||Cox proportional hazards model with stratifies factors|1.49|0.79|0.6257
82549098|NCT01566695|164799722|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.214
82549099|NCT01566695|164799723|SUPERIORITY|||||||0.446|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.446
82549100|NCT01566695|164799724|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.248
82549101|NCT01566695|164799725|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.058
82549102|NCT01566695|164799726|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.130
82549103|NCT01566695|164799727|SUPERIORITY|||||||0.123|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.123
82549104|NCT01566695|164799728|SUPERIORITY|||||||0.069|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.069
82549105|NCT01566695|164799729|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.078
82549106|NCT01566695|164799730|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|The p-value was calculated based on a pooled 2-sample, 2-sided t-test for the difference in mean change from baseline between treatment groups.||||||0.073
82549107|NCT01566695|164799731|SUPERIORITY||Common Odds Raatio|0.77||||0.56|TWO_SIDED|95.0|0.54|1.3|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|1.30|0.54|0.560
82580123|NCT04679935|164871049|OTHER|Analysis was purely descriptive.|Difference|-4.19|STANDARD_ERROR_OF_MEAN|2.28|||TWO_SIDED|95.0|-8.77|-0.39|||MMRM model|||Week 52||-0.39|-8.77|
82580124|NCT04362189|164871064|SUPERIORITY||Slope|-1.93|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82474412|NCT00265148|164644746|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.5607|TWO_SIDED|95.0|-1.0|0.6|||Repeated measure mixed model|||For Month 12||0.6|-1.0|0.5607
82474413|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1154||||0.28|TWO_SIDED|95.0|-0.0967|0.3275|||Repeated measure mixed model|||For Grey matter, APOE Epsilon-4 status positive||0.3275|-0.0967|0.2800
82474414|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1337||||0.4159||95.0|-0.1931|0.4605|||Repeated measure mixed model|||For Grey matter, APOE Epsilon-4 status negative||0.4605|-0.1931|0.4159
82474415|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1491||||0.2158|TWO_SIDED|95.0|-0.0897|0.3878|||Repeated measure mixed model|||For posterior cingulate gyrus, APOE Epsilon-4 status positive||0.3878|-0.0897|0.2158
82474416|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2346||||0.2087|TWO_SIDED|95.0|-0.135|0.6042|||Repeated measure mixed model|||For posterior cingulate gyrus, APOE Epsilon-4 status negative||0.6042|-0.1350|0.2087
82474417|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1233||||0.3064|TWO_SIDED|95.0|-0.1162|0.3628|||Repeated measure mixed model|||For Frontal lobe, APOE Epsilon-4 status positive||0.3628|-0.1162|0.3064
82474418|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1734||||0.35|TWO_SIDED|95.0|-0.1952|0.542|||Repeated measure mixed model|||For Frontal lobe APOE Epsilon-4 status negative||0.5420|-0.1952|0.3500
82474419|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.13||||0.2487|TWO_SIDED|95.0|-0.0937|0.3538|||Repeated measure mixed model|||For parietal lobe, APOE Epsilon-4 status positive||0.3538|-0.0937|0.2487
82474420|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1038||||0.5521|TWO_SIDED|95.0|-0.244|0.4516|||Repeated measure mixed model|||For parietal lobe, APOE Epsilon-4 status negative||0.4516|-0.2440|0.5521
82474421|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1384||||0.176|TWO_SIDED|95.0|-0.064|0.3409|||Repeated measure mixed model|||For posterior temporal lobe, APOE Epsilon-4 status positive||0.3409|-0.0640|0.1760
82474422|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0837||||0.5952|TWO_SIDED|95.0|-0.2303|0.3978|||Repeated measure mixed model|||For posterior temporal lobe, APOE Epsilon-4 status negative||0.3978|-0.2303|0.5952
82474423|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0847||||0.4025|TWO_SIDED|95.0|-0.1169|0.2863|||Repeated measure mixed model|||For Cerebellum, APOE Epsilon-4 status positive||0.2863|-0.1169|0.4025
82474424|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1536||||0.3081|TWO_SIDED|95.0|-0.1458|0.453|||Repeated measure mixed model95|||For Cerebellum, APOE Epsilon-4 status negative||0.4530|-0.1458|0.3081
82474425|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.0839||||0.2964|TWO_SIDED|95.0|-0.0758|0.2436|||Repeated measure mixed model|||For medial temporal lobe, APOE Epsilon-4 status positive||0.2436|-0.0758|0.2964
82474426|NCT00265148|164644758|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.1536||||0.2101|TWO_SIDED|95.0|-0.0892|0.3963|||Repeated measure mixed model|||For medial temporal lobe, APOE Epsilon-4 status negative||0.3963|-0.0892|0.2101
82474427|NCT03583385|164644769|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric Means|103.42|||||TWO_SIDED|90.0|95.18|112.37||||||||112.37|95.18|
82650886|NCT01381900|165016699|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.7|-1.6|||ANCOVA|||||-1.6|-2.7|<0.001
82474428|NCT03583385|164644770|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|% Ratio of Geometric Means|106.78|||||TWO_SIDED|90.0|98.99|115.19||||||||115.19|98.99|
82474429|NCT00621348|164644806|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis|Risk Ratio (RR)|0.12|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED|95.0|0.016|0.93||p value was adjusted for multiple comparisons.|Fisher Exact||The risk ratio is for Group A compared with Group C.|The incidence of hospital-acquired hyponatremia with current standard intravenous fluid therapy was approximately 30%. Sample of 72 patients would be needed in each group to demonstrate the decrease in incidence of hyponatremia (defined as plasma sodium\< 130 mEq/L) to 10%, with a power of 80 percent and alpha error of 0.05. In view of short study period and feasibility it was planned a priori to enroll at least 50 patients in each treatment limb.||0.93|0.016|<0.05
82474430|NCT01256190|164644864|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82474431|NCT01256190|164644865|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||||||0.31
82474432|NCT01256190|164644866|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Fisher Exact|||intent-to-treat analysis||||.022
82474433|NCT01256190|164644867|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Fisher Exact|||intent-to treat analysis||||0.113
82474434|NCT01256190|164644868|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Fisher Exact|||intent-to-treat analysis||||.025
82474435|NCT01667419|164644906|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.001|TWO_SIDED|95.0|0.37|0.78|||Log Rank|||||0.78|0.37|0.0010
82474436|NCT01667419|164644906|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.2598|TWO_SIDED|95.0|0.54|1.18|||Log Rank|||||1.18|0.54|0.2598
82474437|NCT01667419|164644907|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0133|TWO_SIDED|95.0|0.37|0.9|||Log Rank|||||0.90|0.37|0.0133
82474438|NCT01667419|164644907|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.6815|TWO_SIDED|95.0|0.57|1.44|||Log Rank|||||1.44|0.57|0.6815
82474439|NCT01667419|164644908|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0274|TWO_SIDED|95.0|0.3|0.94|||Log Rank|||||.94|0.30|0.0274
82474440|NCT01667419|164644908|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8597|TWO_SIDED|95.0|0.55|1.66|||Log Rank|||||1.66|0.55|0.8597
82474441|NCT00856518|164644912|SUPERIORITY_OR_OTHER|||||||0.899||||||EMST arm vs. Sham arm baseline MEP value comparison|Wilcoxon (Mann-Whitney)|||||||0.899
82650887|NCT01381900|165016699|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.9|-1.8|||ANCOVA|||||-1.8|-2.9|<0.001
82474442|NCT00856518|164644912|SUPERIORITY_OR_OTHER|||||||0.946|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response||||||0.946
82474443|NCT00856518|164644912|SUPERIORITY_OR_OTHER|||||||0.00042|||||||t-test, 2 sided|EMST arm post vs. pre-MEP comparison||||||0.00042
82474444|NCT00856518|164644912|SUPERIORITY_OR_OTHER|||||||0.0019||||||Sham arm post vs. pre-MEP comparison|t-test, 2 sided|||||||0.0019
82580125|NCT04362189|164871065|SUPERIORITY||Slope|-1.31|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|||||
82474445|NCT00856518|164644914|SUPERIORITY_OR_OTHER||||||>|0.05||||||EMST arm vs. Sham arm baseline total score and subscale score comparison|Wilcoxon (Mann-Whitney)|||||||> 0.05
82474446|NCT00856518|164644914|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response for total score and all subscale scores except for Burden and Pharyngeal domains||||||> 0.05
82474447|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.014|||||||Plum Ordinal Regression Test|EMST arm vs. Sham arm group comparison of treatment response in Burden domain||||||0.014
82549108|NCT01566695|164799732|SUPERIORITY||Common Odds Raatio|0.72||||0.48|TWO_SIDED|95.0|0.29|1.78|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|1.78|0.29|0.480
82549109|NCT01566695|164799733|SUPERIORITY||Common Odds Ratio|1.67||||0.197|TWO_SIDED|95.0|0.76|3.65|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.65|0.76|0.197
82549110|NCT01566695|164799734|SUPERIORITY||Common Odds Ratio|2.14||||0.121|TWO_SIDED|95.0|0.82|5.57|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|5.57|0.82|0.121
82549111|NCT01566695|164799735|SUPERIORITY||Common Odds Ratio|2.0||||0.075|TWO_SIDED|95.0|0.93|4.3|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.30|0.93|0.075
82549112|NCT01566695|164799736|SUPERIORITY||Common Odds Ratio|1.58||||0.222|TWO_SIDED|95.0|0.76|3.29|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.29|0.76|0.222
82549113|NCT01566695|164799737|SUPERIORITY||Common Odds Ratio|1.65||||0.249|TWO_SIDED|95.0|0.71|3.83|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|3.83|0.71|0.249
82580126|NCT04362189|164871066|SUPERIORITY||Slope|1.36|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82650888|NCT01381900|165016700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.26|||||TWO_SIDED|95.0|2.09|5.09|||Regression, Logistic|||||5.09|2.09|
82474448|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.022|||||||Plum Ordinal Regression test|EMST arm vs. Sham arm group comparison of treatment response in Pharyngeal domain||||||0.022
82474449|NCT00856518|164644914|SUPERIORITY_OR_OTHER||||||>|0.05||||||Sham arm post vs. pre-treatment comparison for the total SWAL-QOL score and subscale scores except for the Burden and Mental Health domains.|Wilcoxon Signed Ranks Test|||||||>0.05
82474450|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon Signed Ranks Test|Sham arm post vs. pre-treatment comparison in Burden domain||||||0.038
82474451|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.031|||||||Wilcoxon Signed Ranks Test|Sham arm post vs. pre-treatment comparison in Mental Health domain||||||0.031
82474452|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.027|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Burden domain||||||0.027
82474453|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Mental Health domain||||||0.016
82474454|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Pharyngeal domain||||||0.007
82549114|NCT01566695|164799738|SUPERIORITY||Common Odds Ratio|2.03||||0.082|TWO_SIDED|95.0|0.92|4.48|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.48|0.92|0.082
82549115|NCT01566695|164799739|SUPERIORITY||Common Odds Ratio|1.86||||0.153|TWO_SIDED|95.0|0.79|4.34|||Cochran-Mantel-Haenszel|The p-value was calculated based on the CMH tests for comparing the odds of experiencing CMI between CC-486 versus placebo.|||The common odds ratio and the 95% confidence interval (CI) were calculated using CMH tests, stratified by randomization stratification factors, to compare the odds of experiencing clinically meaningful improvement between CC-486 and placebo.|4.34|0.79|0.153
82549116|NCT01566695|164799740|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82549117|NCT01566695|164799741|SUPERIORITY|||||||0.046|||||||Fisher Exact|||||||0.046
82549118|NCT01566695|164799742|SUPERIORITY|||||||0.134|||||||Fisher Exact|||||||0.134
82549119|NCT01566695|164799743|SUPERIORITY|||||||0.324|||||||Fisher Exact|||||||0.324
82549120|NCT01566695|164799744|SUPERIORITY|||||||0.442|||||||Fisher Exact|||||||0.442
82549121|NCT01566695|164799745|SUPERIORITY|||||||0.063|||||||Fisher Exact|||||||0.063
82549122|NCT01566695|164799746|SUPERIORITY|||||||0.198|||||||Fisher Exact|||||||0.198
82580127|NCT04362189|164871067|SUPERIORITY||Slope|0.23|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82650889|NCT01381900|165016700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.99|||||TWO_SIDED|95.0|2.55|6.27|||Regression, Logistic|||||6.27|2.55|
82474455|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.036|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Saliva domain||||||0.036
82474456|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Fear domain||||||0.004
82474457|NCT00856518|164644914|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|EMST arm post vs. pre-treatment comparison in Total SWAL-QOL score||||||0.016
82474458|NCT03364270|164644915|OTHER||Mean Difference (Final Values)|0.58||||0.001|TWO_SIDED|95.0|0.33|0.84||Threshold p\<0.05|t-test, 2 sided|||Null hypothesis: There is no difference in mean 18F-RGD uptake (expressed as a target to background ratio) in the culprit artery (carotid artery implicated in stroke or transient ischemic attack \[TIA\]) when compared to mean 18F-RGD uptake in the contralateral carotid artery. A paired t-test was used to compare 18F-RGD uptake in culprit plaque to plaque in the contralateral artery.||0.84|0.33|.001
82474459|NCT06026124|164644970|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474460|NCT06026124|164644970|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474461|NCT06026124|164644971|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474462|NCT06026124|164644971|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474463|NCT06026124|164644972|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474464|NCT06026124|164644972|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474465|NCT06026124|164644973|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
82474466|NCT06026124|164644973|SUPERIORITY||||||<|1e-05|||||||LSD test|||||||<0.00001
82474467|NCT06026124|164644974|SUPERIORITY||||||=|0.17|||||||LSD test|||||||=0.17
82474468|NCT06026124|164644974|SUPERIORITY||||||=|1|||||||LSD test|||||||=1.00
82474469|NCT06026124|164644975|SUPERIORITY||||||<|0.0001|||||||LSD test|||||||<0.0001
82474470|NCT06026124|164644976|SUPERIORITY||||||=|0.51|||||||LSD test|||||||=0.51
82474471|NCT00918736|164644977|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Previous report using 5 weekly injections, mean AOS score reduction is 2.6 with the SD of 1.8 in 75 patients. To test whether AOS reduction would be \> 1 using pair t-test after 3 weekly injections, investigators need \> 42 patients to give \> 90% power to reject the null hypothesis-mean AOS score reduction \<1 at 6 months, given that both the mean and standard deviation of AOS score reduction equal to 2. Considering possible dropout of participants, investigators decide to include 50 patients||||<0.05
82474472|NCT00984620|164645042|SUPERIORITY_OR_OTHER||Adjusted percent difference|-1.25||||0.855|TWO_SIDED|95.0|-14.3|11.8|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||11.8|-14.3|0.855
82474473|NCT00984620|164645043|SUPERIORITY_OR_OTHER||Adjusted percent difference|9.02||||0.229|TWO_SIDED|95.0|-5.3|23.3|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||23.3|-5.3|0.229
82474474|NCT00984620|164645044|SUPERIORITY_OR_OTHER||Adjusted percent difference|5.48||||0.417|TWO_SIDED|95.0|-7.3|18.3|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||18.3|-7.3|0.417
82474475|NCT00984620|164645045|SUPERIORITY_OR_OTHER||Adjusted percent difference|2.99||||0.676|TWO_SIDED|95.0|-10.6|16.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||16.6|-10.6|0.676
82474476|NCT00984620|164645046|SUPERIORITY_OR_OTHER||Adjusted percent difference|3.24||||0.588|TWO_SIDED|95.0|-8.1|14.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||14.6|-8.1|0.588
82474477|NCT00984620|164645047|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.78||||0.512|TWO_SIDED|95.0|-9.0|18.6|||Cochran-Mantel-Haenszel|Based on an Cochran-Mantel-Haenszel method adjusted by HCV genotype (1a and 1b only).|p-value presented is 2-sided. The percent differences and p-values are based on a comparison to the Faldaprevir 120mg (12 Weeks).|||18.6|-9.0|0.512
82474478|NCT00984620|164645049|SUPERIORITY_OR_OTHER|||||||0.1397||||||Compare 120 MG Faldaprevir 120mg (24 Weeks) over 120 MG Faldaprevir 120mg (12 Weeks) using log-rank test.|Log Rank|||||||0.1397
82474479|NCT01247272|164645066|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|113.36|||||TWO_SIDED|90.0|108.03|118.96|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||118.96|108.03|
82474480|NCT01247272|164645067|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.78|||||TWO_SIDED|90.0|102.18|113.69|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||113.69|102.18|
82474481|NCT01247272|164645068|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.99|||||TWO_SIDED|90.0|102.09|112.12|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.12|102.09|
82474482|NCT01247272|164645069|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.57|||||TWO_SIDED|90.0|99.54|107.76|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.76|99.54|
82474483|NCT01247272|164645070|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.8|||||TWO_SIDED|90.0|101.66|110.12|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||110.12|101.66|
82474484|NCT01247272|164645071|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.83|||||TWO_SIDED|90.0|101.27|110.61|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||110.61|101.27|
82474485|NCT02791763|164645076|NON_INFERIORITY|Non-inferiority was to be established as the lower limit of the 95% confidence interval (CI) for the treatment difference was greater than the pre-specified non-inferiority margin (-1.0 g/dL).|Median Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.07|0.28||The p value on this table is one-sided and calculated for the non-inferiority assessment.|Mixed model repeated measures (MMRM)||Analysis was performed by a MMRM with covariates of treatment, Baseline Hgb, visit, treatment-by-visit interaction and Baseline-by-visit interaction.|||0.28|-0.07|<.0001
82474486|NCT02791763|164645077|SUPERIORITY||Odds Ratio (OR)|1.01||||0.4941|TWO_SIDED|95.0|0.33|3.04||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment, Baseline Hgb, and Baseline ESA use.|||3.04|0.33|0.4941
82474487|NCT02791763|164645078|SUPERIORITY||Odds Ratio (OR)|1.01||||0.4941|TWO_SIDED|95.0|0.33|3.04||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment, Baseline Hgb, and Baseline ESA use.|||3.04|0.33|0.4941
82474488|NCT01742286|164645198|OTHER||MTD/RDE|510.0||||||||||||||||||
82474489|NCT01742286|164645198|OTHER||MTD/RDE|500.0||||||||||||||||||
82474490|NCT04530136|164645214|SUPERIORITY|||||||0.0346|||||||Wilcoxon rank test|||||||0.0346
82474491|NCT04530136|164645215|SUPERIORITY|||||||0.4441|||||||WHO Ordinal Scale|||||||0.4441
82549123|NCT01566695|164799747|SUPERIORITY|||||||0.972|||||||Fisher Exact|||||||0.972
82549124|NCT01566695|164799748|SUPERIORITY|||||||0.601|||||||Fisher Exact|||||||0.601
82549125|NCT01566695|164799749|SUPERIORITY|||||||0.07|||||||Fisher Exact|||||||0.070
82474492|NCT04530136|164645216|SUPERIORITY|||||||0.1021|||||||WHO Ordinal Scale for Clin Improvement|||||||0.1021
82474493|NCT04530136|164645217|SUPERIORITY|||||||0.1615|||||||WHO Ordinal Scale|||||||0.1615
82474494|NCT01387542|164645218|SUPERIORITY_OR_OTHER|||||||0|||||||Friedman test|||||||0.000
82474495|NCT01387542|164645219|SUPERIORITY_OR_OTHER|||||||0.009|||||||Paired t-test|||||||0.009
82474496|NCT01387542|164645220|SUPERIORITY_OR_OTHER|||||||0.001|||||||Paired t-test|||||||0.001
82474497|NCT01387542|164645221|SUPERIORITY_OR_OTHER|||||||0|||||||Paired t-test|||||||0.000
82474498|NCT02633020|164645248|SUPERIORITY||LS Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|14.7||0.7451|TWO_SIDED|90.0|-30.26|20.56|||ANCOVA|Analysis of covariance (ANCOVA) with baseline % aberrant IELs vs total IELs as a covariate and treatment group as a fixed effect.||||20.56|-30.26|0.7451
82474499|NCT02633020|164645249|SUPERIORITY||LS Mean Difference|-38.22|STANDARD_ERROR_OF_MEAN|27.48||0.1803|TWO_SIDED|95.0|-95.73|19.29|||ANCOVA|ANCOVA model with baseline % aberrant IELs vs intestinal epithelial cells as a covariate and treatment group as a fixed effect.||||19.29|-95.73|0.1803
82474500|NCT02633020|164645250|SUPERIORITY||LS Mean Difference|10.67|STANDARD_ERROR_OF_MEAN|24.0||0.6607|TWO_SIDED|95.0|-38.97|60.31|||ANCOVA|ANCOVA model with baseline VH:CD ratio as a covariate and treatment group as a fixed effect.||||60.31|-38.97|0.6607
82650890|NCT01381900|165016701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.55|||||TWO_SIDED|95.0|1.45|4.48|||Regression, Logistic|||||4.48|1.45|
82474501|NCT02633020|164645251|SUPERIORITY||Odds Ratio (OR)|1.09||||0.9204|TWO_SIDED|95.0|0.2|6.01|||Regression, Logistic|||||6.01|0.20|0.9204
82474502|NCT02633020|164645252|SUPERIORITY||LS Mean Difference|-12.73|STANDARD_ERROR_OF_MEAN|31.34||0.6885|TWO_SIDED|95.0|-77.57|52.12|||ANCOVA|ANCOVA) model with baseline total IEL counts as a covariate and treatment group as a fixed effect.||||52.12|-77.57|0.6885
82549126|NCT01566695|164799750|SUPERIORITY|||||||0.436|||||||Fisher Exact|||||||0.436
82549127|NCT01566695|164799751|SUPERIORITY|||||||0.683|||||||Fisher Exact|||||||0.683
82549128|NCT03940963|164799777|NON_INFERIORITY|The visual analog scale (VAS, 0-100 scale) pain score change from baseline value to 12 months was tested for non-inferiority of neurectomy with Axoguard Nerve Cap to standard neurectomy alone using closed testing procedures.||||||0.011||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.011
82549129|NCT03940963|164799780|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.485||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.485
82549130|NCT03940963|164799781|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.259||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.259
82549131|NCT03940963|164799782|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.14||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.140
82549132|NCT03940963|164799783|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.544||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.544
82650891|NCT01381900|165016701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29|||||TWO_SIDED|95.0|1.88|5.75|||Regression, Logistic|||||5.75|1.88|
82474503|NCT02633020|164645253|SUPERIORITY||Ratio of LS Means|1.17|STANDARD_ERROR_OF_MEAN|0.24||0.4469|TWO_SIDED|95.0|0.77|1.8|||Generalized Linear Mixed Model|Generalized linear mixed model with subject as a random effect and treatment group, time (week) and their interaction as fixed effects.||||1.8|0.77|0.4469
82474504|NCT02633020|164645255|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.19||0.4832|TWO_SIDED|95.0|-0.53|0.26|||Linear mixed effects repeated measures|Linear mixed effects repeated measures model with baseline value, treatment group, time point and time point-by-treatment group as fixed effects.||||0.26|-0.53|0.4832
82474505|NCT02633020|164645256|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.24||0.5561|TWO_SIDED|95.0|-0.64|0.35|||Linear mixed effects repeated measures|Linear mixed effects repeated measures model with baseline value, treatment group, time point and a time point-by-treatment group as fixed effects.||||0.35|-0.64|0.5561
82474506|NCT05661851|164645282|NON_INFERIORITY|Non-inferiority margin of -20 was used.|Least-square Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.79|||TWO_SIDED|95.0|-1.67|13.38|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control.|A sample size of 104 subjects provides at least 90% statistical power to test non-inferiority of the Test eyedrop compared to the Control eyedrop using a two sample t-test with a two-sided type I error rate of 0.05.||13.38|-1.67|
82474507|NCT05661851|164645283|NON_INFERIORITY|Non-inferiority margin of -20 was used.|Mean Population Difference Estimate|5.843|STANDARD_ERROR_OF_MEAN|4.456|||TWO_SIDED|95.0|-2.8904|14.5768|||Bootstrapping methods||Bootstrap Mean Difference was calculated as Test minus Control|A sample size of 104 subjects provides at least 90% statistical power to test non-inferiority of the Test eyedrop compared to the Control eyedrop using a two sample t-test with a two-sided type I error rate of 0.05.||14.5768|-2.8904|
82474508|NCT01014910|164645291|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||Based on a previously-identified mean LOS of 65.3 hours, we estimated we would need to enroll 80 patients in each study arm to provide adequate sample size to detect a difference in mean LOS of 18 hours with 80% power and alpha=0.05.|Wilcoxon (Mann-Whitney)|Sample size calculations were performed using Power and Sample Size Calculator, version 3.0 (by developers William D. Dupont and Walton D. Plummer Jr)||Differences in LOS were compared between study arms using the Mann-Whitney U-test and the Kaplan-Meier method. Statistical analyses were performed using Stata version 13.1 for Windows (StataCorp). All patients enrolled in the study, including those who subsequently had consent for the intervention withdrawn, were included for analysis (intention to treat).||||<0.05
82474509|NCT01014910|164645292|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||Chi-squared, Corrected|||The proportion of patients transferred to the intensive care unit in each study arm was compared between study arms using the Pearson χ2 test. All patients enrolled in the study, including those who subsequently had consent for the intervention withdrawn, were included for analysis (intention to treat).||||0.05
82474510|NCT01057589|164645301|SUPERIORITY_OR_OTHER|||||||0.697||||||P-value is for Change at End of Triplet Combination Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.697
82474511|NCT01057589|164645301|SUPERIORITY_OR_OTHER|||||||0.132||||||P-value is for Change at End of Maintenance Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.132
82474512|NCT01057589|164645302|SUPERIORITY_OR_OTHER|||||||0.223||||||P-value is for Change at End of Triplet Combination Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.223
82549133|NCT03940963|164799785|EQUIVALENCE|A predefined equivalence margin was not considered.||||||0.049||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||0.049
82549134|NCT05592418|164799808|SUPERIORITY||Mean Difference (Final Values)|0.0288||||0.9851|TWO_SIDED|95.0|-3.0397|3.0972|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||3.0972|-3.0397|0.9851
82580128|NCT04362189|164871068|SUPERIORITY||Slope|-0.15|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82474513|NCT01057589|164645302|SUPERIORITY_OR_OTHER|||||||0.788||||||P-value is for Change at End of Maintenance Therapy. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.788
82474514|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.9||||||P-value is for NOD, Triplicate Combination Therapy Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.90
82474515|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.31||||||P-value is for NOD, Triplicate Combination Therapy Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.31
82474516|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.49||||||P-value is for NOD, Triplicate Combination Therapy Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.49
82474517|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.95||||||P-value is for NOD, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.95
82474518|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.89||||||P-value is for NOD, Maintenance Cycle 3. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.89
82474519|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.36||||||P-value is for NOD, Maintenance Cycle 5. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.36
82474520|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.18||||||P-value is for NOD, Maintenance Cycle 7. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.18
82474521|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.47||||||P-value is for EIP, Triplicate Combination Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.47
82474522|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for EIP, Triplicate Combination Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.17
82549135|NCT05592418|164799809|SUPERIORITY||Mean Difference (Final Values)|-1.9076||||0.3095|TWO_SIDED|95.0|-5.6279|1.8128|||ANCOVA|||||1.8128|-5.6279|0.3095
82549136|NCT05592418|164799810|SUPERIORITY||Mean Difference (Final Values)|0.6086||||0.7663|TWO_SIDED|95.0|-3.4656|4.6829|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||4.6829|-3.4656|0.7663
82549137|NCT05592418|164799811|SUPERIORITY||Mean Difference (Final Values)|23.7749||||0.3162|TWO_SIDED|95.0|-23.2463|70.7962|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||70.7962|-23.2463|0.3162
82580129|NCT04362189|164871069|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED||||||||HB-adMSCs represents Numerator and Placebo represents Denominator.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82549138|NCT05592418|164799812|SUPERIORITY|||||||||||||||||P-value is from The Cochran-Mantel-Haenszel test (CMH) stratified by stratification factors|Since all patients analyzed achieved MCID, there are no comparison results|||
82549139|NCT05592418|164799813|SUPERIORITY||Mean Difference (Final Values)|-3.2342||||0.4232|TWO_SIDED|95.0|-11.2586|4.7901|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||4.7901|-11.2586|0.4232
82549140|NCT05592418|164799814|SUPERIORITY||Mean Difference (Final Values)|-0.5161||||0.7823|TWO_SIDED|95.0|-4.2356|3.2035|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|||3.2035|-4.2356|0.7823
82549141|NCT05592418|164799816|SUPERIORITY||Mean Difference (Final Values)|0.2779||||0.5185|TWO_SIDED|95.0|-0.5775|1.1333|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo.|||1.1333|-0.5775|0.5185
82549142|NCT05592418|164799817|OTHER||||||||||||||||||No patients were hospitalized.|||
82549143|NCT05592418|164799819|SUPERIORITY||Mean Difference (Final Values)|169.389||||0.2175|TWO_SIDED|95.0|-105.892|444.6702|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo.|444.6702|-105.892|0.2175
82549144|NCT05592418|164799820|SUPERIORITY||Mean Difference (Final Values)|-56.9984||||0.2086|TWO_SIDED|95.0|-147.021|33.0241|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|33.0241|-147.021|0.2086
82549145|NCT05592418|164799821|SUPERIORITY||Mean Difference (Final Values)|0.1733||||0.0975|TWO_SIDED|95.0|-0.0327|0.3792|||ANCOVA||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo||LS Mean difference = LS Mean of Ampligen® - LS Mean of Placebo|0.3792|-0.0327|0.0975
82549146|NCT05592418|164799823|SUPERIORITY||Mean Difference (Final Values)|20.7131||||0.4545|TWO_SIDED|95.0|-34.4079|75.8341|||ANCOVA||LS Mean Difference - LS Mean of Ampligen® - LS Mean of Placebo|||75.8341|-34.4079|0.4545
82549147|NCT05592418|164799824|SUPERIORITY||Mean Difference (Final Values)|44.1231||||0.0333|TWO_SIDED|95.0|4.6338|83.6123|||ANCOVA||LS Mean Difference - LS Mean of Ampligen® - LS Mean of Placebo|||83.6123|4.6338|0.0333
82549148|NCT03978871|164799840|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p = 0.05.|ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||<0.001
82474523|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.45||||||P-value is for EIP, Triplicate Combination Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.45
82474524|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.29||||||P-value is for EIP, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.29
82474525|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.17||||||P-value is for EIP, Maintenance Cycle 3. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.17
82549149|NCT03978871|164799841|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.023|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||0.023
82549150|NCT03978871|164799841|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.034|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.034
82549151|NCT03978871|164799842|SUPERIORITY|The threshold for statistical significance was p = 0.0.5|||||<|0.001|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||<.001
82549152|NCT03978871|164799842|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.002|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.002
82549153|NCT03978871|164799843|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.227|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education). This is a test of between-subjects effect.||||0.227
82549154|NCT03978871|164799844|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.272|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect for accuracy (Growth Mindset vs. Brain Education). This is a test of between-subjects effect.||||0.272
82549155|NCT03978871|164799845|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.217|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation involuntary dysregulation subscale post psycho-educational lesson. This is a test of between-subjects effect.||||0.217
82549156|NCT03978871|164799845|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.458|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation involuntary dysregulation subscale post psycho-educational lesson. This is a test of between-subjects effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.458
82549157|NCT03978871|164799845|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.037|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation proactive engagement subscale post psycho-educational lesson. This is a test of between-subjects effect.||||0.037
82549158|NCT03978871|164799845|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.107|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation proactive engagement subscale post psycho-educational lesson. This is a test of between-subjects effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.107
82549159|NCT03978871|164799845|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.369|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) for the ERS emotion regulation cognitive avoidance subscale post psycho-educational lesson. This is a test of between-subjects test.||||0.369
82474526|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value is for EIP, Maintenance Cycle 5. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.70
82474527|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.21||||||P-value is for EIP, Maintenance Cycle 7. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.21
82474528|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.85||||||P-value is for UOS, Triplicate Combination Cycle 2. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.85
82474529|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.13||||||P-value is for UOS, Triplicate Combination Cycle 4. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.13
82474530|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for UOS, Triplicate Combination Cycle 6. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.03
82474531|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.71||||||P-value is for UOS, Maintenance Cycle 1. Threshold for statistical significance was 0.05.|t-test, 2 sided|||||||0.71
82474532|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.34||||||P-value is for UOS, Maintenance Cycle 3. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.34
82474533|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.41||||||P-value is for UOS, Maintenance Cycle 5. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.41
82474534|NCT01057589|164645303|SUPERIORITY_OR_OTHER|||||||0.37||||||P-value is for UOS, Maintenance Cycle 7. Threshold for statistical significance was 0.05|t-test, 2 sided|||||||0.37
82474535|NCT02954172|164645308|EQUIVALENCE|the equivalence margin of the ORR ratio was set at (0.75, 1.33).|Odds Ratio (OR)|0.9|||||TWO_SIDED|90.0|0.756|1.077||||||||1.077|0.756|
82474536|NCT02954172|164645309|EQUIVALENCE|||||||0.7066|||||||Log Rank|||||||0.7066
82549160|NCT03978871|164799846|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. An ROI mask was generated from left and right amygdala of the AAL1.V4 atlas. First-level contrast estimates (negative immerse \> neutral immerse) for each voxel within the ROI were averaged with MarsBaR to produce a single value for each person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.265||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = -1.12||||||0.265
82580130|NCT04362189|164871076|SUPERIORITY||Slope|-0.17|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82474537|NCT02954172|164645310|EQUIVALENCE|||||||0.3497|||||||Log Rank|||||||0.3497
82474538|NCT01497366|164645323|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference in SVR12 rates was greater than -15%.|Difference in percentages|0.3|||||TWO_SIDED|95.0|-7.5|8.0|||||The difference in percentages between treatment groups and the 95% CI calculated were based on stratum adjusted Mantel-Haenszel proportions.|||8.0|-7.5|
82474539|NCT03508908|164645336|OTHER||US dollars per DALY averted|3098.0|||||TWO_SIDED||||||||Cost (in US dollars) per DALY averted (Intervention referenced to Observation)|Cost (in US dollars) per DALY averted (Intervention referenced to Observation)||||
82474540|NCT00829504|164645344|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.16||||||90.0|95.5|105.04|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105.04|95.5|
82474541|NCT00829504|164645345|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.76||||||90.0|95.45|108.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.49|95.45|
82474542|NCT00829504|164645346|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.1||||||90.0|95.64|109.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109|95.64|
82474543|NCT04236141|164645355|SUPERIORITY||Difference in Response Rates|10.71|||||TWO_SIDED|95.0|-19.0|40.43||||||||40.43|-19.00|
82474544|NCT04236141|164645356|SUPERIORITY||Difference in Response Rates|7.14|||||TWO_SIDED|95.0|-22.03|36.31||||||||36.31|-22.03|
82474545|NCT04236141|164645357|SUPERIORITY||Difference in Response Rates|14.29|||||TWO_SIDED|95.0|-15.89|44.46||||||||44.46|-15.89|
82474546|NCT04236141|164645358|SUPERIORITY||Difference in Response Rates|21.43|||||TWO_SIDED|95.0|-9.44|52.3||||||||52.30|-9.44|
82474547|NCT04236141|164645359|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-1.69|37.4||||||||37.40|-1.69|
82474548|NCT04236141|164645360|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-1.69|37.4||||||||37.40|-1.69|
82474549|NCT04236141|164645361|SUPERIORITY||Difference in Response Rates|17.86|||||TWO_SIDED|95.0|-12.7|48.42||||||||48.42|-12.70|
82474550|NCT04236141|164645362|SUPERIORITY||Difference in Response Rates|14.29|||||TWO_SIDED|95.0|-15.89|44.46||||||||44.46|-15.89|
82474551|NCT04236141|164645363|SUPERIORITY||Difference in Response Rates|25.0|||||TWO_SIDED|95.0|-10.38|60.38||||||||60.38|-10.38|
82474552|NCT04236141|164645364|SUPERIORITY||Difference in Response Rates|3.57|||||TWO_SIDED|95.0|-33.84|40.98||||||||40.98|-33.84|
82580131|NCT04362189|164871077|SUPERIORITY||Slope|0.55|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82580132|NCT04362189|164871078|SUPERIORITY||Slope|0.26|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82474553|NCT01303224|164645515|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Multiplicity was adjusted by using the Hochberg Procedure.|Mantel Haenszel|||Mantel-Haenszel-Test was used to compare separately each of the 3 active treatment groups with placebo using a two-sided overall significance level of 5%. The proportion of responders was tested with the following hypotheses: H0 (placebo) vs H1(Ibodutant:1mg/3mg/10mg). Approximately 80% power based on the assumptions: rate placebo 40%, expected mean therapeutic gain over placebo 15% for at least one dose of Ibodutant.||||<0.05
82549161|NCT03978871|164799847|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. An ROI mask was generated from left and right amygdala of the AAL1.V4 atlas. First-level contrast estimates (negative \> neutral) for each voxel within the ROI were averaged with MarsBaR to produce a single value for each person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.96||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = -0.53||||||0.96
82549162|NCT03978871|164799848|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative reframe \> negative immerse) were extracted with MarsBaR from 15 ROIs in the FPN of a modified Schaefer atlas and the 30 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.76||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = -.3047||||||0.76
82549163|NCT03978871|164799849|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative \> neutral) were extracted with MarsBaR from 15 ROIs in the FPN of a modified Schaefer atlas and the 30 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.048||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = 1.998, p = .048||||||.048
82549164|NCT03978871|164799850|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.833|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation). This is a test of between by within-subjects interaction effect.||||0.833
82580133|NCT04362189|164871079|SUPERIORITY||Slope|0.81|||||TWO_SIDED||||||||Slope represents beta coefficient for arm \* time interaction.|Analyses relied on Bayesian inference for test of superiority via generalized linear mixed model.||||
82474554|NCT01303224|164645516|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||Multiplicity was adjusted using the Hochberg procedure.|Mantel Haenszel|||||||<0.05
82474555|NCT01888432|164645520|NON_INFERIORITY|HO: πT - πC ≥ 0.12 vs. HA: πT - πC \< 0.12, where πT and πC are the true proportions of composite efficacy failure of tBPAR, GL, or D, (tBPAR/GL/D) at 12 months post-transplant for the respective treatment groups. The proportion of 0.12, or 12%, was pre-determined as the non-inferiority (NI) margin for composite efficacy failure.|Kaplan-Meier|-0.7|||<|0.001|TWO_SIDED|90.0|-5.2|3.7||Z-test p-value for non-inferiority test (non-inferiority margin = 12%) is for one-sided test and should be compared to 0.05 significance level.|Z-test|||non-inferior efficacy failure of the reduced tacrolimus regimen to control by rejecting the null hypothesis.||3.7|-5.2|< 0.001
82474556|NCT01888432|164645521|NON_INFERIORITY|the null hypothesis below was tested at the one-sided α = 0.05 level: H0: μT - μC ≤ -6 mL/min/1.73 m2 vs. HA: μT - μC \> -6 mL/min/1.73 m\^2, where μT and μC are the true means of change in eGFR (MDRD-4) from randomization to Month 12 post-transplant for the reduced tacrolimus group and control group, respectively.|Mean Difference (Net)|4.15|STANDARD_ERROR_OF_MEAN|2.574|<|0.001|TWO_SIDED|90.0|-0.09|8.4|||ANCOVA|||||8.40|-0.09|< 0.001
82580134|NCT05116540|164871139|SUPERIORITY||Mean Difference (Final Values)|22.121|STANDARD_ERROR_OF_MEAN|4.616||0.0002|TWO_SIDED|95.0|12.282|31.959|||ANCOVA|||||31.959|12.282|0.0002
82580135|NCT05116540|164871140|SUPERIORITY||Mean Difference (Final Values)|15.764|STANDARD_ERROR_OF_MEAN|5.844||0.0166|TWO_SIDED|95.0|3.307|28.221|||ANCOVA|||||28.221|3.307|0.0166
82580136|NCT05116540|164871141|SUPERIORITY||Mean Difference (Final Values)|22.137|STANDARD_DEVIATION|4.962||0.9905|TWO_SIDED|95.0|12.361|32.006|||ANCOVA|||||32.006|12.361|0.9905
82474557|NCT01888432|164645522|OTHER||Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|2.699|<|0.001|TWO_SIDED|90.0|-1.21|7.7|||ANCOVA|||||7.70|-1.21|<0.001
82549165|NCT03978871|164799851|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.321|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group effect (Growth Mindset vs. Brain Education) across self-reported affect on the SET task. This is a test of between-subjects effect.||||0.321
82549166|NCT03978871|164799852|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.002|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) for fixed emotion mindset scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.002
82580137|NCT05116540|164871142|SUPERIORITY||Mean Difference (Final Values)|15.747|STANDARD_DEVIATION|6.274||0.8292|TWO_SIDED|95.0|3.329|28.177|||ANCOVA|||||28.177|3.329|0.8292
82580138|NCT05116540|164871143|SUPERIORITY||Mean Difference (Final Values)|-1.554|STANDARD_ERROR_OF_MEAN|0.638||0.0278|TWO_SIDED|95.0|-2.914|-0.195|||ANCOVA|||||-0.195|-2.914|0.0278
82580139|NCT05116540|164871144|SUPERIORITY||Mean Difference (Final Values)|5.453|STANDARD_ERROR_OF_MEAN|2.757||0.0666|TWO_SIDED|95.0|-0.424|11.33|||ANCOVA|||||11.330|-0.424|0.0666
82580140|NCT05116540|164871145|SUPERIORITY||Mean Difference (Final Values)|10.112|STANDARD_ERROR_OF_MEAN|5.508||0.0863|TWO_SIDED|95.0|-1.629|21.853|||ANCOVA|||||21.853|-1.629|0.0863
82580141|NCT05116540|164871146|SUPERIORITY||Mean Difference (Final Values)|0.977|STANDARD_ERROR_OF_MEAN|1.633||0.5588|TWO_SIDED|95.0|-2.504|4.457|||ANCOVA|||||4.457|-2.504|0.5588
82580142|NCT05116540|164871147|SUPERIORITY||Mean Difference (Final Values)|-4.593|STANDARD_ERROR_OF_MEAN|1.023||0.0004|TWO_SIDED|95.0|-6.773|-2.413|||ANCOVA|||||-2.413|-6.773|0.0004
82580143|NCT00969709|164871182|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.23||||0.0186|TWO_SIDED|95.0|-5.92|-0.54|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.54|-5.92|0.0186
82650892|NCT01772368|165016702|OTHER|linearity statistical test|||||<|0.0001||||||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.||A linear in log-dose-trend contrast was constructed to evaluate the dose-response trend, where the logarithm of dose was defined precisely as log (dose+1) to accommodate the case of Fp MDPI 100 mcg, since the dose used in this trend analysis was the salmeterol dose. The study was considered positive if the trend test was positive and the test involving the highest FS MDPI dose (100/50 mcg) compared with Fp MDPI 100 mcg was positive, regardless of the results of the tests for the other doses.||||<0.0001
82650893|NCT01772368|165016702|SUPERIORITY||LSM difference|251.3|||<|0.0001|TWO_SIDED|95.0|215.6|287.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||287.1|215.6|<0.0001
82474558|NCT01888432|164645524|OTHER|Month 12|Kaplan-Meier|-1.4|||||TWO_SIDED|90.0|-4.7|2.0|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||2.0|-4.7|
82474559|NCT01888432|164645524|OTHER|tBPAR - month 24|Kaplan-Meier|-1.2|||||TWO_SIDED|90.0|-5.1|2.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||2.6|-5.1|
82474560|NCT01888432|164645524|OTHER|On-treatment tBPAR - month 24|Kaplan-Meier|-2.1|||||TWO_SIDED|90.0|-5.7|1.4|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||1.4|-5.7|
82474561|NCT01888432|164645525|OTHER|Month 12|Kaplan-Meier|0.9|||||TWO_SIDED|90.0|-3.4|5.1|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||5.1|-3.4|
82474562|NCT01888432|164645525|OTHER|Month 24|Kaplan-Meier|1.0|||||TWO_SIDED|90.0|-3.6|5.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||5.6|-3.6|
82474563|NCT01888432|164645526|OTHER|graft loss at month 24|Kaplan-Meier|-0.8|||||TWO_SIDED|90.0|-2.1|0.5|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||0.5|-2.1|
82549167|NCT03978871|164799852|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.005|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on fixed emotion mindset scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons included as a covariate.||||0.005
82549168|NCT03978871|164799853|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.033|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on fixed emotion mindset scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||.033
82549169|NCT03978871|164799854|SUPERIORITY|Threshold for statistical significance was p = 0.05||||||0.403|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.403
82549170|NCT03978871|164799854|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.19|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.190
82580144|NCT00969709|164871182|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.99||||0.0038|TWO_SIDED|95.0|-6.69|-1.29|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-1.29|-6.69|0.0038
82474564|NCT01888432|164645527|OTHER|Month 12|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.8|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.8|-2.5|
82474565|NCT01888432|164645527|OTHER|Month 24|Kaplan-Meier|2.3|||||TWO_SIDED|90.0|-2.1|6.6|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||6.6|-2.1|
82474566|NCT01888432|164645528|OTHER|Month 12|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.8|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.8|-2.5|
82549171|NCT03978871|164799855|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.784||||||degrees of freedom = 1.|ANOVA|||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.784
82549172|NCT03978871|164799855|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.586|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.586
82549173|NCT03978871|164799856|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.916|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.916
82580145|NCT00969709|164871182|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.86||||0.0005|TWO_SIDED|95.0|-7.59|-2.12|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-2.12|-7.59|0.0005
82474567|NCT01888432|164645528|OTHER|Month 24|Kaplan-Meier|3.0|||||TWO_SIDED|90.0|-1.1|7.2|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||7.2|-1.1|
82474568|NCT01888432|164645528|OTHER|Month 24 (On-treatment death)|Kaplan-Meier|0.7|||||TWO_SIDED|90.0|-2.5|3.9|||||KM rate and 90% CI are obtained using KM probability estimates of composite efficacy failure rates and standard error derived based on Greenwood's formula.|||3.9|-2.5|
82474569|NCT01888432|164645529|OTHER||Risk Difference (RD)|0.7|||||TWO_SIDED|90.0|-3.9|5.3|||||Month 12|||5.3|-3.9|
82474570|NCT01888432|164645529|OTHER||Risk Difference (RD)|2.1|||||TWO_SIDED|90.0|-3.0|7.2|||||Month 24|||7.2|-3.0|
82474571|NCT01888432|164645530|OTHER||Risk Ratio (RR)|-0.7|||||TWO_SIDED|90.0|-4.5|3.1|||||Month 12|||3.1|-4.5|
82474572|NCT01888432|164645530|OTHER||Risk Ratio (RR)|0.0|||||TWO_SIDED|90.0|-4.2|4.2|||||Month 24|||4.2|-4.2|
82549174|NCT03978871|164799856|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.343|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.343
82549175|NCT03978871|164799857|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.048|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.048
82549176|NCT03978871|164799857|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.153|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on emotional self-efficacy vignette scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lesson was included as a covariate.||||0.153
82549177|NCT03978871|164799858|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.566|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD proactive engagement scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.566
82580146|NCT00969709|164871183|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.41||||0.1687|TWO_SIDED|95.0|-3.42|0.6|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||0.60|-3.42|0.1687
82474573|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|5.4|||||TWO_SIDED|95.0|-19.9|30.6|||||Composite endpoint|||30.6|-19.9|
82474574|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|6.7|||||TWO_SIDED|95.0|-6.0|19.3|||||On-treatment composite endpoint|||19.3|-6.0|
82474575|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|2.0|||||TWO_SIDED|95.0|-24.6|28.7|||||Graft loss/death|||28.7|-24.6|
82474576|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|14.4|||||TWO_SIDED|95.0|-4.2|33.1|||||tBPAR|||33.1|-4.2|
82474577|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|11.1|||||TWO_SIDED|95.0|-9.4|31.6|||||Death|||31.6|-9.4|
82474578|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|3.2|||||TWO_SIDED|95.0|-28.9|35.2|||||AR|||35.2|-28.9|
82474579|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|14.4|||||TWO_SIDED|95.0|-4.2|33.1|||||tAR|||33.1|-4.2|
82474580|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|14.9|||||TWO_SIDED|95.0|-22.3|52.1|||||BPR|||52.1|-22.3|
82474581|NCT01888432|164645534|OTHER||Difference in Kaplan-Meier estimate|3.2|||||TWO_SIDED|95.0|-28.9|35.2|||||BPAR|||35.2|-28.9|
82474582|NCT01888432|164645535|OTHER||Mean Difference (Final Values)|-10.01|STANDARD_ERROR_OF_MEAN|22.059|||TWO_SIDED|95.0|-59.91|39.89||||||||39.89|-59.91|
82474583|NCT03054129|164645536|SUPERIORITY|||||||0.866|||||||Wilcoxon (Mann-Whitney)|||||||0.866
82474584|NCT03054129|164645537|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
82474585|NCT03054129|164645538|SUPERIORITY|||||||0.565|||||||Wilcoxon (Mann-Whitney)|||||||0.565
82474586|NCT03054129|164645539|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
82474587|NCT03054129|164645540|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
82474588|NCT03054129|164645541|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
82474589|NCT03054129|164645542|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
82474590|NCT03054129|164645543|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||0.978
82474591|NCT03054129|164645544|SUPERIORITY|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
82474592|NCT03054129|164645545|SUPERIORITY|||||||0.097|||||||Wilcoxon (Mann-Whitney)|||||||0.097
82474593|NCT03054129|164645546|SUPERIORITY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|||||||0.339
82474594|NCT03054129|164645547|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82549178|NCT03978871|164799858|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.048|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.048
82549179|NCT03978871|164799858|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.266|||||||ANCOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.266
82580147|NCT00969709|164871183|SUPERIORITY_OR_OTHER||least squares mean difference|-2.51||||0.0151|TWO_SIDED|95.0|-4.54|-0.49|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.49|-4.54|0.0151
82580148|NCT00969709|164871183|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.57||||0.0141|TWO_SIDED|95.0|-4.62|-0.52|||Mixed Models Analysis|Mixed-effects model for repeated measures.||||-0.52|-4.62|0.0141
82580149|NCT00660543|164871184|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 1 sided|Differences between groups were assessed by using the Student paired t test and were graphed by using Bland-Altman plots.||||||.003
82650894|NCT01772368|165016702|SUPERIORITY||LSM difference|227.56|||<|0.0001|TWO_SIDED|95.0|191.6|263.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||263.5|191.6|<0.0001
82650895|NCT01772368|165016702|SUPERIORITY||LSM difference|196.85|||<|0.0001|TWO_SIDED|95.0|161.2|232.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/512.5 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||232.5|161.2|<0.0001
82650896|NCT01772368|165016702|SUPERIORITY||LSM difference|151.71|||<|0.0001|TWO_SIDED|95.0|115.9|187.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/6.25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||187.5|115.9|<0.0001
82650897|NCT01772368|165016702|SUPERIORITY||LSM difference|193.42|||<|0.0001|TWO_SIDED|95.0|157.4|229.5||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Advair Diskus 100/50 mcg - Fp MDPI 100|The estimated treatment difference from the ANCOVA model between Advair Diskus 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||229.5|157.4|<0.0001
82650898|NCT01772368|165016702|SUPERIORITY||LSM difference|57.88||||0.0017|TWO_SIDED|95.0|22.0|93.7||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/50 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||93.7|22.0|0.0017
82650899|NCT01772368|165016702|SUPERIORITY||LSM difference|34.14||||0.0624|TWO_SIDED|95.0|-1.8|70.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||70.1|-1.8|0.0624
82650900|NCT01772368|165016702|SUPERIORITY||LSM difference|3.42||||0.8503|TWO_SIDED|95.0|-32.3|39.1||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/12.5 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||39.1|-32.3|0.8503
82650901|NCT01772368|165016702|SUPERIORITY||LSM difference|-41.72||||0.0229|TWO_SIDED|95.0|-77.6|-5.8||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between FS MDPI 100/6.25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-5.8|-77.6|0.0229
82650902|NCT01772368|165016702|SUPERIORITY||LSM difference|-193.42|||<|0.0001|TWO_SIDED|95.0|-229.5|-157.4||A fixed-sequence testing procedure was employed to control the overall Type I error rate at the 2 sided 0.05 level.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Fp MDPI 100 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between Fp MDPI 100 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-157.4|-229.5|<0.0001
82650903|NCT01772368|165016703|SUPERIORITY||LSM difference|226.77|||<|0.0001|TWO_SIDED|95.0|172.4|281.1||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||281.1|172.4|<0.0001
82650904|NCT01772368|165016703|SUPERIORITY||LSM difference|198.32|||<|0.0001|TWO_SIDED|95.0|143.7|252.9||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||252.9|143.7|<0.0001
82650905|NCT01772368|165016703|SUPERIORITY||LSM difference|158.99|||<|0.0001|TWO_SIDED|95.0|104.7|213.3||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/12.5 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||213.3|104.7|<0.0001
82650906|NCT01772368|165016703|SUPERIORITY||LSM difference|116.96|||<|0.0001|TWO_SIDED|95.0|62.4|171.6||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/6.25 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||171.6|62.4|<0.0001
82650907|NCT01772368|165016703|SUPERIORITY||LSM difference|159.01|||<|0.0001|TWO_SIDED|95.0|104.3|213.7||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Advair Diskus 100/50 mcg - Fp MDPI 100 mcg|The estimated treatment difference from the ANCOVA model between each Advair Diskus 100/50 mcg dose group and Fp MDPI 100 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||213.7|104.3|<0.0001
82474595|NCT03054129|164645548|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
82474596|NCT03054129|164645549|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
82474597|NCT03054129|164645550|SUPERIORITY|||||||0.673|||||||Wilcoxon (Mann-Whitney)|||||||0.673
82474598|NCT03054129|164645551|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
82474599|NCT03054129|164645552|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.040
82474600|NCT03054129|164645553|SUPERIORITY|||||||0.779|||||||Wilcoxon (Mann-Whitney)|||||||0.779
82474601|NCT03054129|164645554|SUPERIORITY|||||||0.152|||||||Wilcoxon (Mann-Whitney)|||||||0.152
82474602|NCT03054129|164645555|SUPERIORITY|||||||0.129|||||||Wilcoxon (Mann-Whitney)|||||||0.129
82474603|NCT03054129|164645556|SUPERIORITY|||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
82650908|NCT01772368|165016703|SUPERIORITY||LSM difference|67.76||||0.015|TWO_SIDED|95.0|13.3|122.2||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/50 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/50 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||122.2|13.3|0.0150
82650909|NCT01772368|165016703|SUPERIORITY||LSM difference|39.31||||0.1578|TWO_SIDED|95.0|-15.3|94.0||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||94.0|-15.3|0.1578
82474604|NCT03054129|164645557|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||||||0.978
82474605|NCT03054129|164645558|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
82474606|NCT03054129|164645559|SUPERIORITY|||||||0.546|||||||Wilcoxon (Mann-Whitney)|||||||0.546
82474607|NCT03054129|164645560|SUPERIORITY|||||||0.933|||||||Wilcoxon (Mann-Whitney)|||||||0.933
82474608|NCT03054129|164645561|SUPERIORITY|||||||0.684|||||||Wilcoxon (Mann-Whitney)|||||||0.684
82580150|NCT00660543|164871184|SUPERIORITY_OR_OTHER|||||||0.008|||||||t-test, 1 sided|Differences between groups were assessed by using the Student paired t test and were graphed by using Bland-Altman plots.||||||.008
82474609|NCT03054129|164645562|SUPERIORITY|||||||0.112|||||||Wilcoxon (Mann-Whitney)|||||||0.112
82474610|NCT03054129|164645563|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82474611|NCT03054129|164645564|SUPERIORITY|||||||0.633|||||||Wilcoxon (Mann-Whitney)|||||||0.633
82474612|NCT03054129|164645565|SUPERIORITY|||||||0.736|||||||Wilcoxon (Mann-Whitney)|||||||0.736
82474613|NCT03054129|164645566|SUPERIORITY|||||||0.227|||||||Wilcoxon (Mann-Whitney)|||||||0.227
82474614|NCT03054129|164645567|SUPERIORITY|||||||0.109|||||||Wilcoxon (Mann-Whitney)|||||||0.109
82474615|NCT03054129|164645568|SUPERIORITY|||||||0.844|||||||Wilcoxon (Mann-Whitney)|||||||0.844
82474616|NCT03054129|164645569|SUPERIORITY|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||0.122
82474617|NCT03054129|164645570|SUPERIORITY|||||||0.715|||||||Wilcoxon (Mann-Whitney)|||||||0.715
82474618|NCT03054129|164645571|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||0.593
82474619|NCT03054129|164645572|SUPERIORITY|||||||0.508|||||||Wilcoxon (Mann-Whitney)|||||||0.508
82474620|NCT01043939|164645575|SUPERIORITY_OR_OTHER||Difference of least square means|-0.16||||0.25|TWO_SIDED|95.0|-0.42|0.11||24 participants required to achieve 80% power to detect mean difference of 0.3 in RH-PAT index score between juice groups, assuming standard deviation of the difference was 0.25, using a two-sided significance level of 0.05|Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|The a priori threshold for statistical significance was 0.05.|||0.11|-0.42|0.25
82474621|NCT01043939|164645576|SUPERIORITY_OR_OTHER||Difference of least square means|3.09||||0.29|TWO_SIDED|95.0|-2.73|8.91|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.||||8.91|-2.73|0.29
82474622|NCT01043939|164645577|SUPERIORITY_OR_OTHER||Ratio of means|0.92||||0.15|TWO_SIDED|95.0|0.82|1.03|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|MPO was log transformed prior to analyses; the difference of log-transformed least square means (95% CI) were back-transformed to obtain the ratio of the means (95% CI).|||1.03|0.82|0.15
82474623|NCT01043939|164645578|SUPERIORITY_OR_OTHER||Ratio of means|1.34||||0.37|TWO_SIDED|95.0|0.69|2.62|||Mixed Models Analysis|Mixed effects ANCOVA model with baseline included as a covariate, subject as a random effect; juice, period \& group as fixed effects.|hs-CRP was log transformed prior to analyses; the difference of log-transformed least square means (95% CI) were back-transformed to obtain the ratio of the means (95% CI).|||2.62|0.69|0.37
82474624|NCT04473235|164645579|SUPERIORITY||Mean Difference (Final Values)|-0.799|STANDARD_ERROR_OF_MEAN|1.3||0.531|TWO_SIDED||||||t-test, 2 sided|||||||0.531
82474625|NCT04473235|164645580|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.627|TWO_SIDED||||||t-test, 2 sided|||Difference in the connectivity between the left hippocampus and left prefrontal cortex.||||0.627
82474626|NCT04473235|164645580|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.12|TWO_SIDED||||||t-test, 2 sided|||Difference in the connectivity between the right hippocampus and right prefrontal cortex.||||0.120
82474627|NCT00955305|164645602|SUPERIORITY_OR_OTHER|||||||0.33||||||one-sided p-value using stratified logrank test stratified on the randomization stratification factors|Log Rank|Stratified log rank test stratified on the randomization stratification factors||||||0.33
82474628|NCT00955305|164645603|SUPERIORITY_OR_OTHER|||||||0.95||||||two-sided p-value by stratified log rank test stratified on the randomization stratification factors|Log Rank|Stratified log rank test stratified on the randomization stratification factors||||||0.95
82474629|NCT00955305|164645604|SUPERIORITY_OR_OTHER|||||||0.15||||||two sided p-value by Fisher's exact test|Fisher Exact|||||||0.15
82474630|NCT05111301|164645668|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.004
82474631|NCT05111301|164645669|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.004
82474632|NCT05111301|164645670|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.54
82474633|NCT05111301|164645671|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.03
82474634|NCT05111301|164645672|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.001
82474635|NCT05111301|164645673|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.01
82549180|NCT03978871|164799858|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.402|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.402
82549181|NCT03978871|164799859|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.363|||||||ANOVA|degrees of freedom =1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD proactive engagement from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.363
82580151|NCT03828747|164871192|SUPERIORITY||Least Squares Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|0.849||0.0008|TWO_SIDED|95.0|-4.56|-1.21|||Mixed Models Analysis|||Change from Baseline at Week 49||-1.21|-4.56|0.0008
82474636|NCT05111301|164645674|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||For Control-IQ Versus Baseline||||0.80
82474637|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|0.96||||0.454|TWO_SIDED|90.0|-1.15|3.07|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.07|-1.15|0.4540
82474638|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|7.88|||<|0.0001|TWO_SIDED|90.0|5.77|9.99|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||9.99|5.77|< 0.0001
82474639|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|11.33|||<|0.0001|TWO_SIDED|90.0|9.22|13.44|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||13.44|9.22|< 0.0001
82474640|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|8.59|||<|0.0001|TWO_SIDED|90.0|6.48|10.7|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||10.70|6.48|< 0.0001
82474641|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|8.96|||<|0.0001|TWO_SIDED|90.0|6.85|11.07|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||11.07|6.85|< 0.0001
82474642|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|8.07|||<|0.0001|TWO_SIDED|90.0|5.96|10.18|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||10.18|5.96|< 0.0001
82474643|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|5.53|||<|0.0001|TWO_SIDED|90.0|3.42|7.64|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.64|3.42|< 0.0001
82474644|NCT02785770|164645691|SUPERIORITY_OR_OTHER||LS mean difference|3.74||||0.0036|TWO_SIDED|90.0|1.64|5.85|||Repeated Measures Model|||Moxifloxacin 400 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.85|1.64|0.0036
82474645|NCT02785770|164645692|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.29||||0.8195|TWO_SIDED|90.0|-2.38|1.8|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.80|-2.38|0.8195
82549182|NCT03978871|164799859|SUPERIORITY|The threshold for statistical significance was p = 0.05||||||0.363|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.363
82549183|NCT03978871|164799859|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.583|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD involuntary dysregulation scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.583
82580152|NCT03828747|164871192|SUPERIORITY||Least Squares Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|1.287||0.0351|TWO_SIDED|95.0|-5.31|-0.2|||Mixed Models Analysis|||Change from Baseline at Week 61||-0.20|-5.31|0.0351
82580153|NCT03828747|164871193|SUPERIORITY||Least Squares Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.295||0.5207||95.0|-3.39|1.72|||Mixed Models Analysis|||Change from Baseline at Week 49||1.72|-3.39|0.5207
82580154|NCT03828747|164871193|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|1.911||0.3704||95.0|-5.5|2.07|||Mixed Models Analysis|||Change from Baseline at Week 61||2.07|-5.50|0.3704
82580155|NCT03828747|164871194|SUPERIORITY||Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.282||0.3501||95.0|-0.29|0.82|||Mixed Models Analysis|||Change from Baseline at Week 49||0.82|-0.29|0.3501
82474646|NCT02785770|164645692|SUPERIORITY_OR_OTHER||LS Mean Difference|4.54||||0.0004|TWO_SIDED|90.0|2.44|6.64|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||6.64|2.44|0.0004
82474647|NCT02785770|164645693|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.9146|TWO_SIDED|90.0|-1.95|2.22|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.22|-1.95|0.9146
82549184|NCT03978871|164799859|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.379|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.379
82549185|NCT03978871|164799859|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.246|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (pre-manipulation and post-manipulation) on ERD disengagement scores from time 1 to time 3. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.246
82549186|NCT03978871|164799860|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. 12 ROI masks were generated from the CON network of a modified Schaefer atlas. First-level contrast estimates (negative reframe \> negative immerse) for each voxel within each ROI were averaged with MarsBaR to produce 12 values for each person. These were then averaged to produce a single value each.A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control)||||||0.455||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = .75||||||0.455
82549187|NCT03978871|164799861|SUPERIORITY|Data were collected using a Siemens Prisma MRI 3T scanner and preprocessed with fMRIprep. 12 ROI masks were generated from the CON network of a modified Schaefer atlas. First-level contrast estimates (negative \> neutral) for each voxel within each ROI were averaged with MarsBaR to produce 12 values for each person. These were subsequently averaged to produce a single value per person. A two-sample t-test was conducted in R to test for differences across intervention groups (mindset vs control).||||||0.43||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(145) = 0.80||||||0.43
82580156|NCT03828747|164871194|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.525||0.7431|TWO_SIDED|95.0|-0.87|1.22|||Mixed Models Analysis|||Change from Baseline at Week 61||1.22|-0.87|0.7431
82474648|NCT02785770|164645693|SUPERIORITY_OR_OTHER||LS mean difference|5.04|||<|0.0001|TWO_SIDED|90.0|2.95|7.14|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.14|2.95|<0.0001
82580157|NCT03828747|164871195|SUPERIORITY||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.429||0.5366||95.0|-0.58|1.11|||Mixed Models Analysis|||Change from Baseline at Week 49||1.11|-0.58|0.5366
82580158|NCT03828747|164871195|SUPERIORITY||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.618||0.0851||95.0|-0.15|2.3|||Mixed Models Analysis|||Change from Baseline at Week 61||2.30|-0.15|0.0851
82580159|NCT02366468|164871224|NON_INFERIORITY|non-inferiority margin: -4 letters|Median Difference (Final Values)|-0.9||||0.002|TWO_SIDED|95.0|-3.04|1.27|||ANCOVA|including study treatment (DI, PRN) and center as factors and baseline BCVA as continuous covariate.||The primary objective was to demonstrate that the mean visit-averaged change from baseline of BCVA over month 1 to treatment completion for the DI arm was non-inferior to the PRN arm.||1.27|-3.04|0.002
82580160|NCT02366468|164871228|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.62|TWO_SIDED|95.0|-17.1|28.56|||ANCOVA|containing the baseline values of the dependent variables as continuous covariates, and center and treatment as categorical covariates||||28.56|-17.10|0.620
82549188|NCT03978871|164799862|SUPERIORITY|BOLD signals were spatially averaged within ROIs to produce a single time series for each ROI. Timeseries were averaged to produce a single value representing each ROI's mean activity. Values for each ROI were then averaged to produce a single value per person representing mean network activity. These values were then submitted to a two-sample t-test to test for differences across intervention groups (mindset vs control).||||||0.29||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(142) = -1.057||||||0.29
82580161|NCT02366468|164871229|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.925|TWO_SIDED|95.0|-33.66|30.59|||ANCOVA|containing the baseline values of the dependent variables as continuous covariates, and center and treatment as categorical covariates||||30.59|-33.66|0.925
82580162|NCT05540717|164871234|SUPERIORITY||relative difference (%)|-20.25||||0.00048|TWO_SIDED|95.0|-31.0|-9.49|||Mixed Models Analysis|||Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||-9.49|-31.0|0.00048
82580163|NCT05540717|164871235|SUPERIORITY||relative difference (%)|-20.2||||0.00032|TWO_SIDED|95.0|-30.13|-10.27|||Mixed Models Analysis|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect||-10.27|-30.13|0.00032
82580164|NCT05540717|164871236|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-26.54||||0.0008|TWO_SIDED|95.0|-41.15|-11.94|||Mixed Models Analysis|||Comparison of dMS of CSMS on peak GPS||-11.94|-41.15|0.00080
82580165|NCT05540717|164871236|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect.|relative difference (%)|-26.6||||0.00031|TWO_SIDED|95.0|-40.49|-12.72|||Mixed Models Analysis|||Comparison of dMS of CSMS on entire GPS||-12.72|-40.49|0.00031
82474649|NCT02785770|164645694|SUPERIORITY_OR_OTHER||LS mean difference|1.24||||0.3272|TWO_SIDED|90.0|-0.84|3.33|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.33|-0.84|0.3272
82474650|NCT02785770|164645694|SUPERIORITY_OR_OTHER||LS mean difference|4.26||||0.0009|TWO_SIDED|90.0|2.16|6.36|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||6.36|2.16|0.0009
82474651|NCT02785770|164645695|SUPERIORITY_OR_OTHER||LS mean difference|-0.48||||0.7024|TWO_SIDED|90.0|-2.57|1.6|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.60|-2.57|0.7024
82474652|NCT02785770|164645695|SUPERIORITY_OR_OTHER||LS mean difference|2.26||||0.0768|TWO_SIDED|90.0|0.16|4.36|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.36|0.16|0.0768
82474653|NCT02785770|164645696|SUPERIORITY_OR_OTHER||LS mean difference|-1.97||||0.1201|TWO_SIDED|90.0|-4.06|0.12|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.12|-4.06|0.1201
82474654|NCT02785770|164645696|SUPERIORITY_OR_OTHER||LS mean difference|1.21||||0.3424|TWO_SIDED|90.0|-0.89|3.31|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.31|-0.89|0.3424
82474655|NCT02785770|164645697|SUPERIORITY_OR_OTHER||LS mean difference|-1.35||||0.287|TWO_SIDED|90.0|-3.44|0.74|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.74|-3.44|0.2870
82474656|NCT02785770|164645697|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.9334|TWO_SIDED|90.0|-2.21|1.99|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.99|-2.21|0.9334
82474657|NCT02785770|164645698|SUPERIORITY_OR_OTHER||LS mean difference|-2.16||||0.0893|TWO_SIDED|90.0|-4.24|-0.07|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.07|-4.24|0.0893
82474658|NCT02785770|164645698|SUPERIORITY_OR_OTHER||LS mean difference|-2.61||||0.0412|TWO_SIDED|90.0|-4.71|-0.51|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.51|-4.71|0.0412
82549189|NCT03978871|164799863|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative reframe \> negative immerse) were extracted with MarsBaR from 12 ROIs in the CON of a modified Schaefer atlas and the 24 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.88||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(146) = 0.148||||||0.88
82474659|NCT02785770|164645699|SUPERIORITY_OR_OTHER||LS mean difference|-1.34||||0.2892|TWO_SIDED|90.0|-3.43|0.74|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.74|-3.43|0.2892
82474660|NCT02785770|164645699|SUPERIORITY_OR_OTHER||LS mean difference|-2.78||||0.0294|TWO_SIDED|90.0|-4.88|-0.68|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.68|-4.88|0.0294
82474661|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|1.28||||0.16|TWO_SIDED|90.0|-0.22|2.78|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.78|-0.22|0.1600
82474662|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|2.38||||0.0092|TWO_SIDED|90.0|0.88|3.87|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||3.87|0.88|0.0092
82474663|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|0.91||||0.3174|TWO_SIDED|90.0|-0.59|2.41|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.41|-0.59|0.3174
82474664|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-0.31||||0.7344|TWO_SIDED|90.0|-1.81|1.19|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.19|-1.81|0.7344
82474665|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|0.49||||0.5881|TWO_SIDED|90.0|-1.0|1.99|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.99|-1.00|0.5881
82474666|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-0.82||||0.368|TWO_SIDED|90.0|-2.32|0.68|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.68|-2.32|0.3680
82474667|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-0.73||||0.42|TWO_SIDED|90.0|-2.23|0.76|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.76|-2.23|0.4200
82474668|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-3.03||||0.0009|TWO_SIDED|90.0|-4.53|-1.53|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-1.53|-4.53|0.0009
82474669|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|4.46|||<|0.0001|TWO_SIDED|90.0|2.96|5.97|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.97|2.96|< 0.0001
82474670|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|5.83|||<|0.0001|TWO_SIDED|90.0|4.32|7.33|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||7.33|4.32|< 0.0001
82474671|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|4.09|||<|0.0001|TWO_SIDED|90.0|2.58|5.59|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||5.59|2.58|< 0.0001
82474672|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|2.53||||0.0059|TWO_SIDED|90.0|1.02|4.03|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.03|1.02|0.0059
82474673|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|2.5||||0.0063|TWO_SIDED|90.0|1.0|4.01|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||4.01|1.00|0.0063
82474674|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|1.45||||0.1138|TWO_SIDED|90.0|-0.06|2.95|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.95|-0.06|0.1138
82474675|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-0.36||||0.6976|TWO_SIDED|90.0|-1.86|1.15|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.15|-1.86|0.6976
82474676|NCT02785770|164645700|SUPERIORITY_OR_OTHER||LS mean difference|-2.12||||0.0208|TWO_SIDED|90.0|-3.62|-0.61|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.61|-3.62|0.0208
82474677|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-0.64||||0.576|TWO_SIDED|90.0|-2.53|1.25|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.25|-2.53|0.5760
82474678|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-0.94||||0.4126|TWO_SIDED|90.0|-2.83|0.95|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.95|-2.83|0.4126
82474679|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.17||||0.3085|TWO_SIDED|90.0|-3.06|0.72|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.72|-3.06|0.3085
82474680|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-0.99||||0.3889|TWO_SIDED|90.0|-2.88|0.9|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.90|-2.88|0.3889
82474681|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-0.57||||0.6192|TWO_SIDED|90.0|-2.46|1.32|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.32|-2.46|0.6192
82474682|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-2.45||||0.0332|TWO_SIDED|90.0|-4.34|-0.56|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.56|-4.34|0.0332
82474683|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-0.41||||0.7224|TWO_SIDED|90.0|-2.3|1.48|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.48|-2.30|0.7224
82474684|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|0.52||||0.6507|TWO_SIDED|90.0|-1.37|2.41|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.41|-1.37|0.6507
82474685|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.72||||0.1366|TWO_SIDED|90.0|-3.62|0.18|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.18|-3.62|0.1366
82474686|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-2.81||||0.0153|TWO_SIDED|90.0|-4.71|-0.91|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.91|-4.71|0.0153
82474687|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.88||||0.104|TWO_SIDED|90.0|-3.78|0.02|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.02|-3.78|0.1040
82474688|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.51||||0.1924|TWO_SIDED|90.0|-3.41|0.4|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.40|-3.41|0.1924
82474689|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.94||||0.0928|TWO_SIDED|90.0|-3.84|-0.04|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.04|-3.84|0.0928
82474690|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-2.06||||0.0745|TWO_SIDED|90.0|-3.96|-0.16|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.16|-3.96|0.0745
82474691|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-1.01||||0.3836|TWO_SIDED|90.0|-2.91|0.9|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.90|-2.91|0.3836
82474692|NCT02785770|164645701|SUPERIORITY_OR_OTHER||LS mean difference|-2.07||||0.0734|TWO_SIDED|90.0|-3.97|-0.17|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.17|-3.97|0.0734
82580166|NCT05540717|164871237|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-16.35||||0.00223|TWO_SIDED|95.0|-26.27|-6.44|||Mixed Models Analysis|||Comparison of dSS of CSMS on peak GPS||-6.44|-26.27|0.00223
82474693|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|0.8||||0.2588|TWO_SIDED|90.0|-0.36|1.96|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.96|-0.36|0.2588
82474694|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.8465|TWO_SIDED|90.0|-1.03|1.3|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.30|-1.03|0.8465
82474695|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|1.02||||0.1502|TWO_SIDED|90.0|-0.15|2.18|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||2.18|-0.15|0.1502
82474696|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.97|TWO_SIDED|90.0|-1.19|1.14|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.14|-1.19|0.9700
82474697|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-1.18||||0.0947|TWO_SIDED|90.0|-2.34|-0.02|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.02|-2.34|0.0947
82474698|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.7759|TWO_SIDED|90.0|-0.96|1.36|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.36|-0.96|0.7759
82474699|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.9649|TWO_SIDED|90.0|-1.13|1.19|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.19|-1.13|0.9649
82474700|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.9034|TWO_SIDED|90.0|-1.08|1.25|||Repeated Measures Model|||PF-04447943 25 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.25|-1.08|0.9034
82474701|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.68||||0.3391|TWO_SIDED|90.0|-1.85|0.49|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 0.5 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.49|-1.85|0.3391
82474702|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-1.19||||0.0948|TWO_SIDED|90.0|-2.35|-0.02|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 1 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.02|-2.35|0.0948
82580167|NCT05540717|164871237|SUPERIORITY|Linear mixed model using treatment group as fixed effect and pooled geographical region as random effect|relative difference (%)|-16.58||||0.00076|TWO_SIDED|95.0|||||Mixed Models Analysis|||Comparison of dSS of CSMS on entire GPS||||0.00076
82474703|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.74||||0.2959|TWO_SIDED|90.0|-1.91|0.43|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 2 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.43|-1.91|0.2959
82650910|NCT01772368|165016703|SUPERIORITY||LSM difference|-0.02||||0.9993|TWO_SIDED|95.0|-54.4|54.4||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/12.5 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/12.5 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||54.4|-54.4|0.9993
82549190|NCT03978871|164799864|SUPERIORITY|Data were preprocessed in fMRIprep. Separate right/left amygdala seeds were defined with the AAL1 atlas. Interaction regressors were created between seeds and task conditions. Average contrast estimates for interaction terms of relevant trials (negative \> neutral) were extracted with MarsBaR from 12 ROIs in the CON of a modified Schaefer atlas and the 24 values averaged. A two-sample t-test was conducted in R to compare average connectivity between groups (mindset vs control).||||||0.11||||||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|t(145) = 1.631||||||.11
82549191|NCT03978871|164799865|SUPERIORITY|BOLD signals were spatially averaged within ROIs to produce a single time series for each ROI. Pearson correlations were calculated between each mean BOLD signal in the CON and each amygdala ROI to produce 24 connectivity values. These were averaged to produce a single value representing the strength of coupling of the CON network to the amygdala for each participant. These values were then submitted to a two-sample t-test to test for differences across intervention groups (mindset vs control).||||||0.92||||||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided|t(142) = 0.101||A two-sample t-test was conducted to compare average connectivity (between the amygdala and the CON network) during resting state between the mindset and control groups.||||0.92
82549192|NCT03978871|164799866|OTHER|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||2.22e-05||||||Reported result for cluster localized in the Superior/Middle Temporal Gyrus (Right). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000222
82549193|NCT03978871|164799866|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.17e-05||||||Reported result for cluster localized in the Middle Temporal Gyrus (Left). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000117
82549194|NCT03978871|164799866|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||0||||||"Reported result for cluster localized in the Anterior Cingulate/Medial Frontal Gyrus.~FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels."|t-test, 2 sided|||||||.000000000
82549195|NCT03978871|164799866|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.86e-05||||||Reported result for cluster localized in the Middle Frontal Gyrus (Right). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000186
82580168|NCT05540717|164871238|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.00032|TWO_SIDED|95.0|-0.76|-0.23|||Mixed Models Analysis|Linear mixed model using treatment group as fixed effect, Baseline total RQLQ score as covariate and pooled geographical region as random effect||Average Total RQLQ Score During Peak GPS||-0.23|-0.76|0.00032
82580169|NCT05540717|164871239|SUPERIORITY||Mean Difference (Final Values)|3.99|||<|1e-05|TWO_SIDED|95.0|3.28|4.7|||Mixed Models Analysis|||Change from baseline to Visit 7 of serum grass-specific IgG4 \[mg/L\]||4.7|3.28|<0.00001
82650911|NCT01772368|165016703|SUPERIORITY||LSM difference|-42.05||||0.1311|TWO_SIDED|95.0|-96.7|12.6||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|FS MDPI 100/6.25 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each FS MDPI 100/6.25 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||12.6|-96.7|0.1311
82474704|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.9161|TWO_SIDED|90.0|-1.24|1.09|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 3 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||1.09|-1.24|0.9161
82580170|NCT05540717|164871240|SUPERIORITY||Odds Ratio (OR)|1.254||||0.10846|TWO_SIDED|95.0|0.951|1.652|||Regression, Logistic|The probability of a well day was calculated using a generalized estimating equation (GEE) or similar approaches as appropriate.||Probability of Well Days During Peak (truncated) GPS||1.652|0.951|0.10846
82580171|NCT03651622|164871257|SUPERIORITY|||||||0.98|||||||ANOVA|||||||0.98
82580172|NCT03651622|164871258|SUPERIORITY|||||||0.85|||||||ANOVA|||||||0.85
82549196|NCT03978871|164799866|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||0||||||Reported result for cluster localized in the Middle Frontal Gyrus (Left). FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.000000000
82549197|NCT03978871|164799866|SUPERIORITY|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative immerse \> neutral immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005. The WFU PickAtlas via xjview was used to determine anatomical localization for surviving clusters.||||||1.61e-05||||||Reported result for cluster localized in the Posterior Cingulate/Cingulate. FWE-corrected p-value is reported. pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 278 voxels.|t-test, 2 sided|||||||.0000161
82549198|NCT03978871|164799866|OTHER|Data were preprocessed in fMRIprep. A first-level contrast estimate of interest (negative reframe \> negative immerse) was submitted to a second-level t-test for group-level differences across experimental conditions (mindset \> control). Monte Carlo simulations using 3dClustSim in AFNI controlled cluster-level family-wise error rate at p \< 0.001 with a cluster-defining threshold of p \< 0.005.|||||>|0.001||||||pvoxel-level \< .005, pcluster-level \< .001. Cluster extent = 298 voxels.|t-test, 2 sided|||||||>.001
82549199|NCT03978871|164799867|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.56|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on depression levels from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.560
82549200|NCT03978871|164799868|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.327|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on depression levels from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.327
82549201|NCT03978871|164799869|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.439|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 2. This is a test of between by within-subjects interaction effect.||||0.439
82549202|NCT03978871|164799869|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.545|||||||ANCOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 2. This is a test of between by within-subjects interaction effect. Clarity of the psycho-educational lessons was included as a covariate.||||0.545
82549203|NCT03978871|164799870|SUPERIORITY|The threshold for statistical significance was p = 0.05.||||||0.74|||||||ANOVA|degrees of freedom = 1.||We are reporting the p-value for the group (Growth Mindset vs. Brain Education) by time effect (baseline and follow-up) on anxiety levels from time 1 to time 3. This is a test of between by within-subjects interaction effect.||||0.740
82549204|NCT04222660|164799880|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82549205|NCT04222660|164799881|OTHER||||||<|0.0025|||||||t-test, 2 sided|||||||<0.0025
82549206|NCT04222660|164799882|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549207|NCT04222660|164799883|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549208|NCT04222660|164799884|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549209|NCT04222660|164799885|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549210|NCT04222660|164799886|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82549211|NCT04222660|164799887|OTHER||||||<|0.0017|||||||t-test, 2 sided|||||||<0.0017
82549212|NCT04222660|164799888|OTHER||||||<|0.0195|||||||t-test, 2 sided|||||||<0.0195
82549213|NCT01212029|164799909|OTHER|One sample t-tests of standardized regression coefficients of RMSSD predicting O2Hb during baseline||||||0.008||||||t-test was performed 16 times for 16 fNIRS channels. The reported p-value is an uncorrected value for channel 10.|t-test, 2 sided|||Null hypothesis: there is no significant correlation between RMSSD and O2Hb levels during baseline||||0.008
82549214|NCT01212029|164799910|OTHER|||||||0.0105|||||||Tukey method|||||||0.0105
82549215|NCT03131648|164799913|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|8.6||||0.002|TWO_SIDED|95.0|4.1|13.1||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||13.1|4.1|0.002
82549216|NCT03131648|164799914|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|12.1|||<|0.001|TWO_SIDED|95.0|6.5|17.7||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity. The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||17.7|6.5|<0.001
82549217|NCT03131648|164799915|SUPERIORITY||Risk Difference (RD)|9.7||||0.002|TWO_SIDED|95.0|4.4|15.0||Based on the primary analysis of the primary estimand 'Composite', subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.|Cochran-Mantel-Haenszel|Tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Reduction of Worst Daily Pruritus NRS weekly average ≥4 at Week 16 was tested after the sequential testing of IGA 0/1 and EASI75 if these tests showed statistical significance.||15|4.4|0.002
82580173|NCT03651622|164871259|SUPERIORITY|||||||0.4|||||||ANOVA|||||||0.40
82474705|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-2.07||||0.0036|TWO_SIDED|90.0|-3.24|-0.91|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 4 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||-0.91|-3.24|0.0036
82474706|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.73||||0.3063|TWO_SIDED|90.0|-1.89|0.44|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 8 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.44|-1.89|0.3063
82474707|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.49||||0.4918|TWO_SIDED|90.0|-1.65|0.68|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 12 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.68|-1.65|0.4918
82474708|NCT02785770|164645702|SUPERIORITY_OR_OTHER||LS mean difference|-0.61||||0.3862|TWO_SIDED|90.0|-1.78|0.55|||Repeated Measures Model|||PF-04447943 100 mg versus Placebo, 24 Hour: P-value was derived from repeated measures model with sequence, period, time, treatment and time-by-treatment as fixed effects and participant within sequence as a random effect.||0.55|-1.78|0.3862
82549218|NCT03131648|164799916|SUPERIORITY|Multiplicity adjustment using the Holm method.|Difference of least square means|-10.4|||<|0.001|TWO_SIDED|95.0|-14.4|-6.5||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or after initiation of rescue medication were not included in the analysis.||-6.5|-14.4|<0.001
82549219|NCT03131648|164799917|SUPERIORITY|Multiplicity adjustment using Holm method.|Difference of least square means|-2.1||||0.002|TWO_SIDED|95.0|-3.4|-0.8||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-0.8|-3.4|0.002
82549220|NCT03131648|164799918|SUPERIORITY||Risk Difference (RD)|6.0||||0.68|TWO_SIDED|95.0|-21.8|33.7||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.~P value was considered non-significant."|Cochran-Mantel-Haenszel|This test was not statistically significant and hence next maintenance endpoint in the sequential testing procedure was not evaluated.|Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||33.7|-21.8|0.68
82549221|NCT03131648|164799918|SUPERIORITY||Risk Difference (RD)|-9.5||||0.5|TWO_SIDED|95.0|-37.1|18.0||Test not evaluated for significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||18.0|-37.1|0.50
82580174|NCT03651622|164871260|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.02
82580175|NCT03651622|164871261|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
82474709|NCT01904773|164645743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.42|STANDARD_ERROR_OF_MEAN|0.9||0.0087||||||Bonferroni-Holm adjustment, compared with 0.025|ANCOVA|Each subject received each treatment multiple times in a crossover design||Comparison with placebo||||0.0087
82474710|NCT01904773|164645743|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.34|STANDARD_ERROR_OF_MEAN|0.85||0.1198||||||Bonferroni-Holm compared with 0.025|ANCOVA|Each subject received each treatment multiple times in a crossover design||||||0.1198
82474711|NCT04518995|164645747|SUPERIORITY||Risk Difference (RD)|0.28|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.23|0.33||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.33|0.23|<0.0001
82474712|NCT04518995|164645747|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.32|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.46|0.32|<0.0001
82474713|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.17|0.32||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.32|0.17|<0.0001
82549222|NCT03131648|164799919|SUPERIORITY||Risk Difference (RD)|21.2||||0.056|TWO_SIDED|95.0|-0.2|42.6||Test not evaluated for significance. Based on the primary analysis of the primary estimand 'composite'. Subjects who received rescue medication or were transferred to open-label treatment are considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||42.6|-0.2|0.056
82580176|NCT03651622|164871262|SUPERIORITY|||||||0.18|||||||ANOVA|||||||0.18
82580177|NCT03651622|164871263|SUPERIORITY|||||||0.79|||||||ANOVA|||||||0.79
82580178|NCT03651622|164871264|SUPERIORITY|||||||0.39|||||||ANOVA|||The proposed sample size of n=72 was sufficient to ensure 60% power to detect a moderate effect size (Cohen h=0.68) and 80% to detect a large effect size (Cohen h=0.85) at a significance level of 0.10 for comparing difference in change among the 3 diets. By design, our primary goal for this pilot work is to inform the final efficacy design of a fully powered SMART, and the pilot SMART was therefore not designed to be fully powered for all analyses.||||0.39
82580179|NCT03651622|164871265|SUPERIORITY|||||||0.75|||||||ANOVA|||||||0.75
82580180|NCT03651622|164871266|SUPERIORITY|||||||0.66|||||||ANOVA|||||||0.66
82474714|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.26|0.43||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.43|0.26|<0.0001
82474715|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.24|0.38||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.38|0.24|<0.0001
82474716|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.35|0.51||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.51|0.35|<0.0001
82549223|NCT03131648|164799919|SUPERIORITY||Risk Difference (RD)|11.7||||0.27|TWO_SIDED|95.0|-8.7|32.0||Test not evaluated for significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo."||32.0|-8.7|0.27
82549224|NCT03131648|164799922|SUPERIORITY|"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Risk Difference (RD)|20.1|||<|0.001|TWO_SIDED|95.0|13.3|26.8|||Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||26.8|13.3|<0.001
82549225|NCT03131648|164799923|SUPERIORITY||Risk Difference (RD)|10.3|||<|0.001|TWO_SIDED|95.0|6.4|14.1||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||14.1|6.4|<0.001
82549226|NCT03131648|164799924|SUPERIORITY||Difference of least square means|-6.4|||<|0.001|TWO_SIDED|95.0|-8.8|-4.1||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change will be imputed as 0.||-4.1|-8.8|<0.001
82549227|NCT03131648|164799925|SUPERIORITY||Risk Difference (RD)|5.7||||0.007|TWO_SIDED|95.0|2.5|8.9||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered nonresponders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||8.9|2.5|0.007
82549228|NCT03131648|164799926|SUPERIORITY||Risk Difference (RD)|14.1|||<|0.001|TWO_SIDED|95.0|8.6|19.6||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference stratified by region and disease severity.|||19.6|8.6|<0.001
82549229|NCT03131648|164799927|SUPERIORITY||Difference of least square means|-0.9|||<|0.001|TWO_SIDED|95.0|-1.4|-0.4||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 1 change will be imputed as 0.||-0.4|-1.4|<0.001
82474717|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.26|0.39||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.39|0.26|<0.0001
82474718|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.39|0.55||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.55|0.39|<0.0001
82474719|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.31|0.44||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.44|0.31|<0.0001
82549230|NCT03131648|164799928|SUPERIORITY||Risk Difference (RD)|15.2|||<|0.001|TWO_SIDED|95.0|9.2|21.3||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||21.3|9.2|<0.001
82549231|NCT03131648|164799929|SUPERIORITY||Risk Difference (RD)|13.0||||0.001|TWO_SIDED|95.0|5.4|20.5||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||20.5|5.4|0.001
82549232|NCT03400059|164799933|SUPERIORITY||Mean Difference (Final Values)|-2.23||||0.0132|TWO_SIDED|95.0|-4.11|-0.49||"analysis of covariance (ANCOVA) model containing terms for treatment, baseline value and medication overuse.~Group-sequential analysis using updated boundaries from interim analysis"|ANCOVA|||||-0.49|-4.11|0.0132
82549233|NCT03400059|164799934|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0014|TWO_SIDED|95.0|-4.32|-1.04|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse||||-1.04|-4.32|0.0014
82549234|NCT03400059|164799935|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.0048|TWO_SIDED|95.0|-4.06|-0.73|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse||||-0.73|-4.06|0.0048
82549235|NCT03400059|164799936|SUPERIORITY||Mean Difference (Final Values)|-2.87||||0.0008|TWO_SIDED|95.0|-4.54|-1.2|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||-1.20|-4.54|0.0008
82580181|NCT03651622|164871267|SUPERIORITY|||||||0.96|||||||ANOVA|||||||0.96
82474720|NCT04518995|164645748|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.39|0.55||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.55|0.39|<0.0001
82474721|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.01|STANDARD_ERROR_OF_MEAN|0.005||0.0816|TWO_SIDED|95.0|0.0|0.02||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 4||0.02|-0.00|0.0816
82474722|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.0005|TWO_SIDED|95.0|0.01|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|0.01|0.0005
82474723|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.06|STANDARD_ERROR_OF_MEAN|0.016||0.0002|TWO_SIDED|95.0|0.03|0.09||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.09|0.03|0.0002
82474724|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.14|0.06|<0.0001
82474725|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.12|0.22||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.22|0.12|<0.0001
82474726|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.14|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.19||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.19|0.10|<0.0001
82549236|NCT03400059|164799937|SUPERIORITY||Mean Difference (Final Values)|-1.53||||0.0598|TWO_SIDED|95.0|-3.12|0.06|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||0.06|-3.12|0.0598
82549237|NCT03400059|164799938|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.031|TWO_SIDED|95.0|-3.63|-0.17|||ANCOVA|ANCOVA model containing terms for treatment, baseline value and medication overuse.||||-0.17|-3.63|0.0310
82549238|NCT03400059|164799939|SUPERIORITY|||||||0.0102|||||||Chi-squared|||||||0.0102
82580182|NCT03651622|164871268|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.34
82650912|NCT01772368|165016703|SUPERIORITY||LSM difference|-159.01|||<|0.0001|TWO_SIDED|95.0|-213.7|-104.3||significance of 0.05 or alpha of 0.05.|ANCOVA|Fixed effects of sequence, period and treatment; a random effect of subject within sequence; and a covariate of period-specific baseline FEV1.|Fp MDPI 100 mcg - Advair Diskus 100/50 mcg|The estimated treatment difference from the ANCOVA model between each Fp MDPI 100 mcg dose group and Advair Diskus 100/50 mcg group is presented together with the two-sided 95% CI for the difference and the p-value.||-104.3|-213.7|<0.0001
82474727|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.27|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.2|0.33||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.33|0.20|<0.0001
82474728|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.19|0.28||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.28|0.19|<0.0001
82474729|NCT04518995|164645749|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.28|0.41||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.41|0.28|<0.0001
82474730|NCT04518995|164645750|SUPERIORITY||Least Square (LS) Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.13||0.0564|TWO_SIDED|95.0|-4.4|0.1||P-value was calculated by mixed model repeated measures (MMRM) analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||0.1|-4.4|0.0564
82474731|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.23||0.0054|TWO_SIDED|95.0|-5.9|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-1.0|-5.9|0.0054
82549239|NCT03400059|164799940|SUPERIORITY|||||||0.1615|||||||Chi-squared|||||||0.1615
82549240|NCT03400059|164799941|SUPERIORITY|||||||0.0798|||||||Chi-squared|||||||0.0798
82549241|NCT03400059|164799942|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.1300
82549242|NCT03400059|164799943|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.066|TWO_SIDED|||||posthoc|Van-Elteren|||||||0.0660
82549243|NCT03400059|164799944|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.0152|TWO_SIDED|||||posthoc|Van-Elteren|||||||0.0152
82549244|NCT04150718|164799951|OTHER||||||<|0.05||||||a priori threshold for statistical significance set at \<0.05|ANOVA|Repeated measures ANOVA, main effect of time, F(1,35) =4.73||||||<0.05
82549245|NCT04150718|164799952|OTHER||||||<|0.05||||||a priori threshold for statistical significance set at p\<0.05.|ANOVA|Repeated Measures ANOVA, main effect of time, F(1,39) = 4.20||||||<0.05
82549246|NCT04150718|164799953|OTHER||||||<|0.001||||||a priori threshold for statistical significance set at p \<0.05|ANOVA|Repeated measures ANOVA interaction, F(1,48) = 61.849||||||<0.001
82549247|NCT05634226|164799954|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82549248|NCT05634226|164799955|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||||||0.06
82549249|NCT05324124|164799982|OTHER||Ratio of Geometric Least Squares Mean|0.952|||||TWO_SIDED|90.0|0.876|1.03||||||||1.03|0.876|
82549250|NCT05324124|164799983|OTHER||Ratio of Geometric Least Squares Mean|0.949|||||TWO_SIDED|90.0|0.869|1.04||||||||1.04|0.869|
82580183|NCT03651622|164871269|SUPERIORITY|||||||0.58|||||||ANOVA|||||||0.58
82580184|NCT03651622|164871270|SUPERIORITY|||||||0.95|||||||ANOVA|||||||0.95
82580185|NCT03651622|164871271|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
82474732|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-8.5|STANDARD_ERROR_OF_MEAN|2.16|<|0.0001|TWO_SIDED|95.0|-12.7|-4.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-4.3|-12.7|<0.0001
82474733|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-14.9|STANDARD_ERROR_OF_MEAN|2.34|<|0.0001|TWO_SIDED|95.0|-19.5|-10.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-10.3|-19.5|<0.0001
82474734|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-21.7|STANDARD_ERROR_OF_MEAN|2.94|<|0.0001|TWO_SIDED|95.0|-27.5|-16.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-16.0|-27.5|<0.0001
82474735|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-30.0|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-36.3|-23.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-23.8|-36.3|<0.0001
82474736|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|3.38|<|0.0001|TWO_SIDED|95.0|-35.1|-21.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-21.8|-35.1|<0.0001
82474737|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-38.5|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-45.7|-31.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-31.3|-45.7|<0.0001
82474738|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-34.9|STANDARD_ERROR_OF_MEAN|3.66|<|0.0001|TWO_SIDED|95.0|-42.1|-27.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-27.7|-42.1|<0.0001
82549251|NCT05324124|164799984|OTHER||Ratio of Geometric Least Squares Mean|0.829|||||TWO_SIDED|90.0|0.744|0.925||||||||0.925|0.744|
82474739|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-44.6|STANDARD_ERROR_OF_MEAN|3.96|<|0.0001|TWO_SIDED|95.0|-52.3|-36.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-36.8|-52.3|<0.0001
82474740|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-39.3|STANDARD_ERROR_OF_MEAN|3.79|<|0.0001|TWO_SIDED|95.0|-46.7|-31.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-31.8|-46.7|<0.0001
82474741|NCT04518995|164645750|SUPERIORITY||LS Mean Difference|-47.0|STANDARD_ERROR_OF_MEAN|4.1|<|0.0001|TWO_SIDED|95.0|-55.1|-39.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-39.0|-55.1|<0.0001
82474742|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by cochran mantel haenszel (CMH) test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82474743|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82474744|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
82474745|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
82474746|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82474747|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82474748|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
82474749|NCT04518995|164645751|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
82474750|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82474751|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||<0.0001
82474752|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
82474753|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||<0.0001
82549252|NCT05034952|164799994|SUPERIORITY|||||||0.3914|||||||ANCOVA|||||||0.3914
82549253|NCT05034952|164799994|SUPERIORITY|||||||0.1266|||||||ANCOVA|||||||0.1266
82549254|NCT05034952|164799994|SUPERIORITY|||||||0.0097|||||||ANCOVA|||||||0.0097
82549255|NCT05034952|164799995|SUPERIORITY|||||||0.5476|||||||ANCOVA|||||||0.5476
82549256|NCT05034952|164799995|SUPERIORITY|||||||0.0825|||||||ANCOVA|||||||0.0825
82549257|NCT05034952|164799995|SUPERIORITY|||||||0.0036|||||||ANCOVA|||||||0.0036
82549258|NCT05034952|164799996|SUPERIORITY|||||||0.4712|||||||Cochran-Mantel-Haenszel|||||||0.4712
82549259|NCT05034952|164799996|SUPERIORITY|||||||0.1635|||||||Cochran-Mantel-Haenszel|||||||0.1635
82549260|NCT05034952|164799996|SUPERIORITY|||||||0.1158|||||||Cochran-Mantel-Haenszel|||||||0.1158
82549261|NCT05034952|164799997|SUPERIORITY|||||||0.2882|||||||Cochran-Mantel-Haenszel|||||||0.2882
82549262|NCT05034952|164799997|SUPERIORITY|||||||0.2344|||||||Cochran-Mantel-Haenszel|||||||0.2344
82549263|NCT05034952|164799997|SUPERIORITY|||||||0.1724|||||||Cochran-Mantel-Haenszel|||||||0.1724
82549264|NCT05034952|164799998|SUPERIORITY|||||||0.1343|||||||Cochran-Mantel-Haenszel|||||||0.1343
82549265|NCT05034952|164799998|SUPERIORITY|||||||0.4501|||||||Cochran-Mantel-Haenszel|||||||0.4501
82549266|NCT05034952|164799998|SUPERIORITY|||||||0.1009|||||||Cochran-Mantel-Haenszel|||||||0.1009
82549267|NCT02111798|164800030|SUPERIORITY|||||||0.889|||||||Mixed Models Analysis|||Comparisons were conducted as a function of medication condition, collapsed across abstinence initiation and relapse prevention groups, according to a priori-stated statistical analysis.||||0.889
82549268|NCT02111798|164800031|SUPERIORITY|||||||0.605|||||||Mixed Models Analysis|||Comparisons were conducted as a function of medication condition, collapsed across abstinence initiation and relapse prevention groups, according to a priori-stated statistical analysis.||||0.605
82549269|NCT05493787|164800036|SUPERIORITY|||||||0.003||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Active Control message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending an Active Control message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.003
82549270|NCT05493787|164800036|SUPERIORITY||||||<|0.001||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Ease message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending an Ease message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||<.001
82650913|NCT01772368|165016704|SUPERIORITY||geometric mean ratio|1.929|||||TWO_SIDED|90.0|1.69|2.202||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=58||2.202|1.690|
82650914|NCT01772368|165016704|SUPERIORITY||geometric mean ratio|0.8|||||TWO_SIDED|90.0|0.702|0.911||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.911|0.702|
82549271|NCT05493787|164800036|SUPERIORITY||||||<|0.001||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent an Waiting for You message message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Waiting for You message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||<.001
82549272|NCT05493787|164800036|SUPERIORITY|||||||0.003||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent a Protect Yourself - Rare message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Protect Yourself - Rare Message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.003
82549273|NCT05493787|164800036|SUPERIORITY|||||||0.035||||||Comparisons between Passive Control and all other arms (Analyses 1-5) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Flu shot self-scheduling does not differ between those sent a Protect Yourself - Frequent message and those not sent a message (i.e., those in the Passive Control group); Alternative hypothesis: Sending a Protect Yourself - Frequent message increases self-scheduling compared with sending no message. Analysis combines across November and December send dates.||||.035
82549274|NCT05493787|164800036|SUPERIORITY|||||||0.593||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Ease messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Ease messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.593
82549275|NCT05493787|164800036|SUPERIORITY|||||||0.052||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Waiting for You messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.052
82549276|NCT05493787|164800036|SUPERIORITY|||||||0.952||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Protect Yourself - Rare messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Protect Yourself - Rare messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.952
82549277|NCT05493787|164800036|SUPERIORITY|||||||0.386||||||Comparisons between Active Control and all other arms (Analyses 6-9) were analyzed in the same regression. The p-value reported is 2-tailed.|Regression, Linear|||Null hypothesis: Active Control messages and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: Protect Yourself - Frequent messages are more effective at promoting flu shot self-scheduling than Active Control messages. Analysis combines across November and December send dates.||||.386
82549278|NCT05493787|164800036|SUPERIORITY|||||||0.498||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Waiting for You messages. Analysis combines across November and December send dates.||||.498
82650915|NCT01772368|165016704|SUPERIORITY||geometric mean ratio|0.427|||||TWO_SIDED|90.0|0.376|0.485||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=61||0.485|0.376|
82580186|NCT00307684|164871274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.89||||0.2586||95.0|-2.2055|7.9774||No adjustment for multiplicity was performed. threshold for significance: 0.05 (2-sided)|ANCOVA|treatment, sex and country as factors, age and baseline sum of inattention and hyperactivity/impulsivity scores as covariate||Based on preliminary results of a controlled study in adults with MPH, the mean (SD=9) change in CAARS total score from randomization to the 4 week post-randomization endpoint was estimated as +2.5 for PR OROS MPH and +14 for placebo. slightly more conservative, a mean change of 3 in the PR OROS MPH group and a mean increase of 10 in the placebo group were expected. With a two-sided type-I error of 5% and a power of 90%, 37 eligible subjects per group were required.||7.9774|-2.2055|0.2586
82580187|NCT00307684|164871277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3942||||0.2616||95.0|-12.1928|3.4044||No adjustment for multiplicity was performed.|ANCOVA|ANCOVA on the ranks with sex, treatment and country as factors and age and baseline score as a covariate||||3.4044|-12.1928|0.2616
82580188|NCT00307684|164871278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39||||0.5458||95.0|-5.5469|10.3213|||ANCOVA|treatment and country as factors baseline score as covariate||||10.3213|-5.5469|0.5458
82580189|NCT02580305|164871279|SUPERIORITY|||||||0.41||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.41
82549279|NCT05493787|164800036|SUPERIORITY|||||||0.935||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Protect Yourself - Rare messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Protect Yourself - Rare messages. Analysis combines across November and December send dates.||||.935
82549280|NCT05493787|164800036|SUPERIORITY|||||||0.504||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Ease messages and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Ease and Protect Yourself - Frequent message messages. Analysis combines across November and December send dates.||||.504
82580190|NCT02580305|164871279|SUPERIORITY|||||||0.9||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.90
82580191|NCT02580305|164871280|SUPERIORITY|||||||0.46||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.46
82580192|NCT02580305|164871280|SUPERIORITY|||||||0.48||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.48
82580193|NCT02580305|164871281|SUPERIORITY|||||||0.83||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.83
82580194|NCT02580305|164871281|SUPERIORITY|||||||0.24||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.24
82580195|NCT02580305|164871282|SUPERIORITY|||||||0.17||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.17
82580196|NCT02580305|164871282|SUPERIORITY|||||||0.14||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.14
82580197|NCT02580305|164871283|SUPERIORITY|||||||0.79||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.79
82580198|NCT02580305|164871283|SUPERIORITY|||||||0.92||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Statistical Method: Mixed model for repeated measures||||||0.92
82580199|NCT03582943|164871288|SUPERIORITY|A priori power analyses was designed to detect at least a 3 second difference in change in balance scores between groups.|Mean Difference (Net)|0.74||||0.984|TWO_SIDED|||||Test of differences between groups.|Mixed Models Analysis|||||||0.984
82580200|NCT03582943|164871288|SUPERIORITY||Mean Difference (Net)|-0.023||||0.455|TWO_SIDED|||||Test of interaction between age and RLIC vs. sham|Mixed Models Analysis|||||||.455
82580201|NCT03582943|164871288|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.803|TWO_SIDED|||||Test of interaction between sex and RLIC vs. sham conditioning|Mixed Models Analysis|||||||0.803
82580202|NCT03582943|164871288|SUPERIORITY||Mean Difference (Net)|0.25||||0.233|TWO_SIDED|||||Test of interaction between BMI and RLIC vs. sham conditioning|Mixed Models Analysis|||||||0.233
82580203|NCT03582943|164871288|SUPERIORITY|Test of interaction between presence of co-morbidities and RLIC vs. sham conditioning|Mean Difference (Net)|4.12||||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.29
82580204|NCT03527550|164871289|SUPERIORITY|||||||0.95|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in negative urgency at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in negative urgency as a function of condition (interaction of condition X time; reported below).||||0.95
82580205|NCT03527550|164871290|SUPERIORITY|||||||0.64|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in positive urgency at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in positive urgency as a function of condition (interaction of condition X time; reported below).||||0.64
82580206|NCT03527550|164871291|SUPERIORITY|||||||0.91||||||Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).|ANOVA|||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in stop-signal reaction time at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in stop-signal reaction time as a function of condition (interaction of condition X time; reported below).||||0.91
82650916|NCT01772368|165016704|SUPERIORITY||LSM difference|0.172|||||TWO_SIDED|90.0|0.151|0.196||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.196|0.151|
82549281|NCT05493787|164800036|SUPERIORITY|||||||0.19||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Rare and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Rare and Waiting for You messages. Analysis combines across November and December send dates.||||.190
82549282|NCT05493787|164800036|SUPERIORITY|||||||0.027||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Frequent messages and Waiting for You messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Frequent and Waiting for You messages. Analysis combines across November and December send dates.||||.027
82549283|NCT05493787|164800036|SUPERIORITY|||||||0.854||||||Pairwise comparisons between experimental arms (Analyses 10-15) were analyzed in the same regression. Reported p-values were 2-tailed and adjusted using Tukey's HSD test.|Regression, Linear|||Null hypothesis: Protect Yourself - Rare and Protect Yourself - Frequent messages are equally effective at promoting flu shot self-scheduling; Alternative hypothesis: There is a difference in effectiveness between Protect Yourself - Rare and Protect Yourself - Frequent messages. Analysis combines across November and December send dates.||||.854
82549284|NCT05493787|164800036|SUPERIORITY|||||||0.637||||||The reported p-value (2-tailed) is for the interaction term between message send date (November, December) and message (any message arm no message)|Regression, Linear|||"Null Hypothesis: Messages sent in November and December are equally effective at promoting flu-shot self-scheduling. Alternative hypothesis: Messages sent in November and December are differentially effective.~To test the alternative hypothesis, all message arms (Active control, Ease, Waiting for you, Protect yourself - rare, Protect yourself - frequent) were combined and compared with Passive control."||||.637
82549285|NCT03761537|164800047|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.1||||0.018|TWO_SIDED|95.0|2.5|25.7||This endpoint was the first endpoint in the sequential testing hierarchy.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.7|2.5|0.018
82549286|NCT03761537|164800048|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|9.7||||0.106|TWO_SIDED|95.0|-2.0|21.4||This endpoint was the second endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||21.4|-2.0|0.106
82549287|NCT03761537|164800049|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-8.6|||<|0.001|TWO_SIDED|95.0|-13.0|-4.2||This was the third endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Treatment effect at each visit adjusted for baseline SCORAD interacting with each visit, prior CSA, and baseline disease severity (IGA 3 or 4).||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-4.2|-13.0|<0.001
82549288|NCT03761537|164800050|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-1.5||||0.009|TWO_SIDED|95.0|-2.6|-0.4||This was the fourth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Treatment effect at each visit adjusted for baseline DLQI interacting with each visit, prior CSA, and baseline disease severity (IGA 3 or 4).||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-0.4|-2.6|0.009
82561934|NCT03331978|164833091|SUPERIORITY||Mean Difference (Net)|-0.215|STANDARD_ERROR_OF_MEAN|0.091||0.0199|TWO_SIDED|95.0|-0.395|-0.034||As described above, p-value is from repeated measures regression with standard errors adjusted for clustering on participant|Regression, Linear||Estimation parameter is the regression coefficient for intervention indicator (vs. control) and represents the adjusted difference across both follow-up time points.|Tested with repeated measures linear regression where both post-intervention responses were stacked together such that each participant could contribute up to 2 records. Standard errors were adjusted for clustering on participant, and weights for follow-up response were used. Fixed effects were an intervention indicator and baseline stigma. Model included all participants with responses (a) at baseline and (b) at least one of the two follow-up surveys.||-0.034|-0.395|.0199
82650917|NCT01772368|165016705|SUPERIORITY||geometric mean ratio|3.622|||||TWO_SIDED|90.0|3.149|4.168||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=58||4.168|3.149|
82650918|NCT01772368|165016705|SUPERIORITY||geometric mean ratio|1.534|||||TWO_SIDED|90.0|1.335|1.763||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||1.763|1.335|
82474754|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82549289|NCT03761537|164800051|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|15.6||||0.005|TWO_SIDED|95.0|4.8|26.3||This endpoint was the fifth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||26.3|4.8|0.005
82549290|NCT03761537|164800052|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.1||||0.014|TWO_SIDED|95.0|2.9|25.3||This endpoint was the sixth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.3|2.9|0.014
82549291|NCT03761537|164800053|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|7.3||||0.228|TWO_SIDED|95.0|-4.6|19.2||This endpoint was the seventh endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|HaenszMantelel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||19.2|-4.6|0.228
82549292|NCT03761537|164800054|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-8.9|||<|0.001|TWO_SIDED|95.0|-13.2|-4.6||This endpoint was the eighth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Unstructured covariance matrix. Adjusted for baseline SCORAD in interaction with each visit, prior CSA use, and baseline disease severity (IGA 3 or 4)||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-4.6|-13.2|<0.001
82549293|NCT03761537|164800055|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Difference|-1.6||||0.005|TWO_SIDED|95.0|-2.7|-0.5||This endpoint was the ninth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Repeated measurements model|Unstructured covariance matrix. Adjusted for baseline DLQI in interaction with each visit, prior CSA use, and baseline disease severity (IGA 3 or 4)||Data collected after permanent discontinuation of IMP, after initiation of rescue treatment, or after subject-onset of the COVID-19 pandemic will not be included in the analysis.||-0.5|-2.7|0.005
82549294|NCT03761537|164800056|SUPERIORITY|The null hypothesis of no difference between Tralokinumab+TCS and placebo+TCS was tested at a 5% significance level against the 2-sided alternative that there was a difference.|Risk Difference (RD)|14.3||||0.014|TWO_SIDED|95.0|2.9|25.6||This endpoint was the tenth endpoint in the sequential testing hierarchy. Acceptance of this endpoint depends on prior endpoints' acceptance.|Mantel Haenszel|Mantel-Haenszel (MH) test stratified by prior CSA use and baseline disease severity. MH risk differences and standard errors combined by Rubin's rule.||Subjects who received rescue treatment or permanently discontinued IMP, without prior subject-onset of the COVID-19 pandemic (SOC19), were considered non-responders after the relevant event occurred. Any data from subjects who had SOC19 as their first prior intercurrent event (ICE) were multiple imputed (MI) assuming missing at random (MAR) following start of SOC19. Data missing prior to any ICE were handled as non-response, except data missing due to the pandemic, which was MI assuming MAR.||25.6|2.9|0.014
82549295|NCT02437318|164800098|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.00065|TWO_SIDED|95.0|0.5|0.85||(one-sided)|Log Rank|||||0.85|0.50|0.00065
82549296|NCT05493423|164800122|NON_INFERIORITY|The null hypothesis is that the difference between the rates of completed hemodialysis sessions for the test and control groups is less than or equal to the non-inferiority margin (indicating inferior success rate). Rejection of the null hypothesis indicates the data supports the alternative hypothesis that the difference between the rates of successfully completed HD sessions for the test and control groups is at least the non-inferiority margin (indicating non-inferior success rate).||||||0.008|||||||Farrington-Manning|non-inferiority margin = 0.08||||||.008
82549297|NCT05493423|164800122|EQUIVALENCE|non-inferiority margin = 0.08||||||0.002|||||||Equivalence Test with paired data|||||||.002
82474755|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||<0.0001
82549298|NCT05493423|164800123|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
82474756|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
82474757|NCT04518995|164645752|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||<0.0001
82474758|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.7|-1.2|<0.0001
82474759|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.9|-1.5|<0.0001
82474760|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-0.9|-1.4|<0.0001
82474761|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.3|-1.9|<0.0001
82474762|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.2|-1.8|<0.0001
82474763|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.3|-1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.6|-2.3|<0.0001
82549299|NCT05493423|164800124|SUPERIORITY|||||||0.84||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.84
82549300|NCT05493423|164800125|SUPERIORITY|||||||0.132|||||||t-test, 2 sided|||||||0.132
82549301|NCT05493423|164800126|SUPERIORITY|||||||0.84||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.84
82580207|NCT03527550|164871295|SUPERIORITY|||||||0.24|||||||ANOVA|Repeated-measures ANOVA. P-value reflects the significance of the interaction term (condition x time).||A 2 (condition: TAU, TAU + cognitive training) x 2 (time) repeated-measures Analysis of Variance (ANOVA) was used to test change in distress intolerance at time 1 (admission) and time 2 (discharge), and whether participants differ in their average change in distress intolerance as a function of condition (interaction of condition X time; reported below).||||.24
82474764|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.3|-2.0|<0.0001
82474765|NCT04518995|164645753|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.7|-2.5|<0.0001
82474766|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.9|-0.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.3|-0.9|<0.0001
82474767|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.3|-0.6||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-0.6|-1.3|<0.0001
82474768|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.6|-0.9||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-0.9|-1.6|<0.0001
82474769|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.1|-1.4||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.4|-2.1|<0.0001
82474770|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.7|-1.0||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.0|-1.7|<0.0001
82549302|NCT05493423|164800127|SUPERIORITY|||||||0.197||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.197
82549303|NCT05493423|164800128|SUPERIORITY|||||||0.424|||||||t-test, 2 sided|||||||0.424
82549304|NCT05493423|164800129|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
82549305|NCT05493423|164800130|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to as 0 by the statistical software.|t-test, 2 sided|||||||0
82549306|NCT05493423|164800131|SUPERIORITY|||||||0.57||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.57
82549307|NCT05493423|164800132|SUPERIORITY|||||||0||||||The p-value was calculated, but was low enough to be rounded down to 0 by the statistical software.|t-test, 2 sided|||||||0
82549308|NCT05493423|164800133|SUPERIORITY|||||||0.211|||||||t-test, 2 sided|||||||0.211
82549309|NCT05493423|164800134|SUPERIORITY|||||||0.804||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.804
82549310|NCT05493423|164800135|SUPERIORITY|||||||0.307||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.307
82549311|NCT05493423|164800136|SUPERIORITY|||||||0.315||||||P \< 0.05 is considered significant|t-test, 2 sided|||||||0.315
82549312|NCT06074523|164800158|EQUIVALENCE|Comparing three conditions in a basic science experiment in healthy adults.|partial eta squared|0.81|||<|0.001|TWO_SIDED||||||ANOVA|||Comparing Cued Suppression Task; Positive, Negative, and Neutral Cue condtions||||<.001
82549313|NCT06074523|164800159|EQUIVALENCE|P\<.05 criterion|cohen's d|0.24||||0.08|TWO_SIDED||||||t-test, 2 sided|||Comparing performance on target absent and target present trials||||.08
82474771|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.3|-1.5||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.5|-2.3|<0.0001
82474772|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.3|-2.0|<0.0001
82474773|NCT04518995|164645754|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.6|-1.8||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.6|<0.0001
82474774|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.06|0.12||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.12|0.06|<0.0001
82474775|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.17|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.12|0.22||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.22|0.12|<0.0001
82474776|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.28|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.23|0.33||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.33|0.23|<0.0001
82474777|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.32|0.45||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.45|0.32|<0.0001
82474778|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.04|STANDARD_ERROR_OF_MEAN|0.01||0.0006|TWO_SIDED|95.0|0.02|0.06||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.06|0.02|0.0006
82474779|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.14|0.06|<0.0001
82474780|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.19|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.15|0.23||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.23|0.15|<0.0001
82474781|NCT04518995|164645755|SUPERIORITY||Risk Difference (RD)|0.3|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.24|0.37||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.37|0.24|<0.0001
82474782|NCT04518995|164645756|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.22||0.001|TWO_SIDED|95.0|0.3|1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.2|0.3|0.0010
82474783|NCT04518995|164645756|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|0.6|1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.6|0.6|<0.0001
82580208|NCT04032613|164871296|OTHER|Paired sample t-test||||||0.2||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.20
82474784|NCT04518995|164645756|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.2|2.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.2|1.2|<0.0001
82474785|NCT04518995|164645756|SUPERIORITY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.4|2.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.4|1.4|<0.0001
82474786|NCT04518995|164645757|SUPERIORITY||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.5|1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.3|0.5|<0.0001
82474787|NCT04518995|164645757|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|1.0|1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.8|1.0|<0.0001
82474788|NCT04518995|164645757|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.0|2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.0|1.0|<0.0001
82474789|NCT04518995|164645757|SUPERIORITY||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|1.4|2.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.4|1.4|<0.0001
82474790|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.5|-1.0|< 0.0001
82474791|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.8|-1.3|< 0.0001
82580209|NCT04032613|164871297|OTHER|Paired sample t-test||||||0.05||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.05
82580210|NCT04032613|164871298|OTHER|Paired sample t-test||||||0.004||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.004
82474792|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-0.8|-1.2|< 0.0001
82474793|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.1|-1.6|< 0.0001
82474794|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-0.8|-1.3|< 0.0001
82474795|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.2|-1.7|< 0.0001
82474796|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.0|-1.5|< 0.0001
82474797|NCT04518995|164645758|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.3|-1.8|< 0.0001
82474798|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.17|0.34||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.34|0.17|< 0.0001
82580211|NCT04032613|164871299|OTHER|Paired sample t-test||||||0.14||||||Statistically significant p-value is \<0.05|Paired sample t-test|||||||0.14
82474799|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.32|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.23|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.42|0.23|< 0.0001
82474800|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.35|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.27|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.42|0.27|< 0.0001
82474801|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.3|0.48||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.48|0.30|< 0.0001
82474802|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.34|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|0.26|0.42||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.42|0.26|< 0.0001
82474803|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.34|0.51||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.51|0.34|< 0.0001
82474804|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.29|0.44||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.44|0.29|< 0.0001
82474805|NCT04518995|164645759|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.35|0.53||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.53|0.35|< 0.0001
82474806|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.5|-0.9|<0.0001
82474807|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.7|-1.2|<0.0001
82474808|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-0.6|-1.1|<0.0001
82474809|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-1.0|-1.4|<0.0001
82474810|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-0.8|-1.2|<0.0001
82561935|NCT04351243|164833094|SUPERIORITY||Risk Difference (RD)|0.05||||0.1885|TWO_SIDED|95.0|-0.06|0.17||one-sided p value|Mantel Haenszel|||||0.17|-0.06|0.1885
82561936|NCT00666705|164833116|SUPERIORITY_OR_OTHER||Ratio (percent)|85.76||||||90.0|79.89|92.07|||Mixed Models Analysis|Natural log transformed AUCτ was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups. For maraviroc, a sample size of 18 subjects provided 99% power that the 90% confidence interval (CI) for the ratio of Test (raltegravir co-administered with maraviroc) to Reference (maraviroc administered alone) treatment for the area under the plasma concentration-time profile over the dosing interval (AUCτ) would lie within the acceptance region of (80%, 125%).||92.07|79.89|
82474811|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1.1|-1.6|<0.0001
82474812|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-0.8|-1.3|<0.0001
82474813|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.2|-1.7|<0.0001
82474814|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 12||-0.4|-0.8|<0.0001
82474815|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 12||-0.7|-1.1|<0.0001
82474816|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 16||-0.5|-0.9|<0.0001
82474817|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 16||-0.8|-1.3|<0.0001
82474818|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 20||-0.7|-1.1|<0.0001
82474819|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 20||-1.0|-1.5|<0.0001
82474820|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 24||-0.7|-1.2|<0.0001
82474821|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM mixed model repeated measures analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Evenness Hair Coverage: Week 24||-1.0|-1.5|<0.0001
82474822|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 12||-0.5|-0.9|< 0.0001
82474823|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 12||-0.6|-1.1|< 0.0001
82474824|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 16||-0.7|-1.1|< 0.0001
82474825|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 16||-0.9|-1.4|< 0.0001
82474826|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 20||-0.7|-1.1|< 0.0001
82474827|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 20||-0.9|-1.3|< 0.0001
82474828|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 24||-0.8|-1.2|< 0.0001
82474829|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyebrows: Week 24||-0.9|-1.4|< 0.0001
82474830|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.7|-0.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 12||-0.3|-0.7|< 0.0001
82549314|NCT06074523|164800160|OTHER||Slope|-0.37||||0.007|TWO_SIDED|95.0|-0.5803|-0.1135|||correlation|||Relationship between Cued Attention Negative Cue Benefit (Neutral Cue RT- Negative Cue RT) and working memory capacity.||-0.1135|-0.5803|.007
82549315|NCT06074523|164800161|OTHER||Slope|-0.27||||0.046|TWO_SIDED|95.0|-0.5015|-0.002414|||correlation|||Correlation of Inattentive Traits subscale and learned suppression (difference in RT between target absent and target present trials)||-0.002414|-0.5015|.046
82549316|NCT01426425|164800162|SUPERIORITY_OR_OTHER_LEGACY||Chronic effectiveness prob at 6 months|0.926|||<|0.0001|TWO_SIDED|95.0|0.895|0.948|||Kaplan-Meier log-log 95% CI||The chronic effectiveness success probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: PE ≤ 0.83~Ha: PE \> 0.83~Where PE is the probability of a subject achieving chronic effectiveness success at the 6-month follow-up and 0.83 (83%) is the pre-specified performance goal."||0.948|0.895|<0.0001
82474831|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.8|-0.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 12||-0.4|-0.8|< 0.0001
82474832|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 16||-0.5|-0.9|< 0.0001
82474833|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 16||-0.7|-1.1|< 0.0001
82474834|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 20||-0.5|-0.9|< 0.0001
82474835|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.0|-0.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 20||-0.5|-1.0|< 0.0001
82474836|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 24||-0.6|-1.1|< 0.0001
82474837|NCT04518995|164645760|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How Satisfied With Your Eyelashes: Week 24||-0.7|-1.2|< 0.0001
82474838|NCT04518995|164645761|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.2489|TWO_SIDED|95.0|-0.2|0.9||P-value was calculated by analysis of covariance (ANCOVA) analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||0.9|-0.2|0.2489
82474839|NCT04518995|164645761|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.32||0.1235|TWO_SIDED|95.0|-0.1|1.1||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||1.1|-0.1|0.1235
82474840|NCT04518995|164645761|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9765|TWO_SIDED|95.0|-0.5|0.5||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||0.5|-0.5|0.9765
82474841|NCT04518995|164645761|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.3559|TWO_SIDED|95.0|-0.3|0.8||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||0.8|-0.3|0.3559
82474842|NCT04518995|164645762|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.16|0.25||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.25|0.16|<0.0001
82474843|NCT04518995|164645762|SUPERIORITY||Risk Difference (RD)|0.33|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.27|0.39||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.39|0.27|<0.0001
82474844|NCT00669409|164645778|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-17.8|13.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.8|-17.8|
82474845|NCT00669409|164645778|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-34.3|-2.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.8|-34.3|
82474846|NCT00669409|164645778|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-18.5|13.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.1|-18.5|
82474847|NCT00669409|164645778|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-29.4|1.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.8|-29.4|
82474848|NCT00669409|164645778|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-34.5|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-55.2|-13.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-13.7|-55.2|
82549317|NCT01426425|164800163|SUPERIORITY_OR_OTHER_LEGACY||Safety failure probability at 6 months|0.01|||<|0.0001|TWO_SIDED|95.0|0.004|0.027|||Kaplan-Meier log-log 95% CI||The chronic safety failure probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: Ps ≥ 0.07~Ha: Ps \< 0.07~Where Ps is the probability of a subject experiencing at least one safety event through 6 months with a 0.07 pre-specified performance goal."||0.027|0.004|<0.0001
82474849|NCT00669409|164645779|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-19.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-19.4|
82549318|NCT01426425|164800164|SUPERIORITY_OR_OTHER_LEGACY||Chronic effectiveness prob at 6 months|0.973|||<|0.0001|TWO_SIDED|95.0|0.95|0.985|||Kaplan-Meier log-log 95% CI||The chronic effectiveness success probability at 6 months was estimated using the Kaplan-Meier method. The standard error was approximated using Greenwood's formula. A two-sided 95% log-log confidence interval for the probability was constructed.|"The following hypothesis was tested at a one-sided 0.025 significance level.~Ho: PE ≤ 0.80~Ha: PE \> 0.80~Where PE is the probability of a subject achieving chronic effectiveness success at 6-month follow-up, and 0.80 is the pre-specified performance goal. As pre-defined in the study protocol, this hypothesis is tested if the primary effectiveness objective null hypothesis (Ho) is rejected."||0.985|0.950|<0.0001
82474850|NCT00669409|164645779|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.8|0.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.8|-30.8|
82474851|NCT00669409|164645779|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-11.7|19.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.9|-11.7|
82474852|NCT00669409|164645779|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-26.6|4.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.6|-26.6|
82474853|NCT00669409|164645779|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-30.5|10.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-30.5|
82474854|NCT00669409|164645780|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-19.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-19.4|
82474855|NCT00669409|164645780|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-34.3|-2.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.8|-34.3|
82474856|NCT00669409|164645780|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-12.6|19.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.0|-12.6|
82474857|NCT00669409|164645780|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-25.0|6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.2|-25.0|
82474858|NCT00669409|164645780|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-25.4|16.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.1|-25.4|
82474859|NCT00669409|164645781|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-18.1|13.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.5|-18.1|
82474860|NCT00669409|164645781|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-33.6|-2.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.1|-33.6|
82549319|NCT03281291|164800165|OTHER||Vaccine Efficacy|29.7|||||TWO_SIDED|95.0|14.7|42.1|||Regression, Cox||VE = 1 minus the Hazard Ratio (HR). HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy (VE) in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for R012-20 Group vs Control Group.||42.1|14.7|
82474861|NCT00669409|164645781|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-17.2|14.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.4|-17.2|
82474862|NCT00669409|164645781|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.2|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-26.7|4.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.4|-26.7|
82474863|NCT00669409|164645781|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-25.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-46.5|-5.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.0|-46.5|
82474864|NCT00669409|164645782|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-16.6|15.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.0|-16.6|
82474865|NCT00669409|164645782|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.1|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-32.8|-1.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-32.8|
82474866|NCT00669409|164645782|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.0|10.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.6|-21.0|
82474867|NCT00669409|164645782|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-28.3|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-28.3|
82549320|NCT03281291|164800165|OTHER||Vaccine Efficacy|31.2|||||TWO_SIDED|95.0|16.4|43.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for R012-14-mD Group vs Control Group.||43.3|16.4|
82549321|NCT03281291|164800165|OTHER||Vaccine Efficacy|24.6|||||TWO_SIDED|95.0|9.0|37.6|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for Fx012-14-mFxD Group vs Control Group.||37.6|9.0|
82549322|NCT03281291|164800165|OTHER||Vaccine Efficacy|28.8|||||TWO_SIDED|95.0|13.9|41.1|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 20 visit, for Fx017-mFxD Group vs Control Group.||41.1|13.9|
82474868|NCT00669409|164645782|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.9|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-49.6|-8.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-8.2|-49.6|
82474869|NCT00669409|164645783|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-16.8|14.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.8|-16.8|
82474870|NCT00669409|164645783|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-35.0|-3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.5|-35.0|
82549323|NCT03281291|164800166|OTHER||Vaccine Efficacy|42.8|||||TWO_SIDED|95.0|30.7|52.8|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 14, for R012-20 + R012-14-mD Pooled Group vs Control Group.||52.8|30.7|
82580212|NCT02071290|164871308|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||||||0.56
82580213|NCT02071290|164871309|SUPERIORITY|||||||0.287|||||||Mixed Models Analysis|||||||0.287
82474871|NCT00669409|164645783|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.8|9.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.8|-21.8|
82474872|NCT00669409|164645783|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-28.0|3.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.2|-28.0|
82474873|NCT00669409|164645783|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-50.6|-9.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-9.1|-50.6|
82474874|NCT00669409|164645784|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-11.9|19.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.7|-11.9|
82474875|NCT00669409|164645784|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-35.1|-3.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.6|-35.1|
82474876|NCT00669409|164645784|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-21.3|10.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.3|-21.3|
82474877|NCT00669409|164645784|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.2|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-27.8|3.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.4|-27.8|
82474878|NCT00669409|164645784|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-25.0|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-45.8|-4.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.3|-45.8|
82474879|NCT00669409|164645785|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-9.1|22.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||22.5|-9.1|
82474880|NCT00669409|164645785|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-31.7|-0.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.2|-31.7|
82549324|NCT03281291|164800166|OTHER||Vaccine Efficacy|36.7|||||TWO_SIDED|95.0|21.2|49.2|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 14, for Fx012-14-mFxD Group vs Control Group.||49.2|21.2|
82549325|NCT03281291|164800166|OTHER||Vaccine Efficacy|41.4|||||TWO_SIDED|95.0|26.7|53.1|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 7.5 and 19, for Fx017-mFxD Group vs Control Group.||53.1|26.7|
82580214|NCT02071290|164871310|SUPERIORITY|||||||0.597|||||||Mixed Models Analysis|||||||0.597
82580215|NCT02071290|164871311|SUPERIORITY|||||||0.307|||||||Mixed Models Analysis|||||||0.307
82580216|NCT02071290|164871312|SUPERIORITY|||||||0.646|||||||Mixed Models Analysis|||||||0.646
82580217|NCT02071290|164871313|SUPERIORITY|||||||0.757|||||||Mixed Models Analysis|||||||0.757
82580218|NCT02071290|164871314|SUPERIORITY|||||||0.075|||||||Mixed Models Analysis|||||||0.075
82580219|NCT02071290|164871315|SUPERIORITY|||||||0.967|||||||Mixed Models Analysis|||||||0.967
82580220|NCT02071290|164871316|SUPERIORITY|||||||0.637|||||||Mixed Models Analysis|||||||0.637
82580221|NCT02071290|164871317|SUPERIORITY|||||||0.664|||||||Mixed Models Analysis|||||||0.664
82580222|NCT02071290|164871318|SUPERIORITY|||||||0.661|||||||Mixed Models Analysis|||||||0.661
82580223|NCT02071290|164871319|SUPERIORITY|||||||0.916|||||||Mixed Models Analysis|||||||0.916
82580224|NCT02071290|164871320|SUPERIORITY|||||||0.437|||||||Mixed Models Analysis|||||||0.437
82474881|NCT00669409|164645785|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-18.5|13.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.2|-18.5|
82474882|NCT00669409|164645785|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-25.9|5.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.3|-25.9|
82474883|NCT00669409|164645785|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.5|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-44.2|-2.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.7|-44.2|
82474884|NCT00669409|164645786|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.6|27.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.0|-4.6|
82474885|NCT00669409|164645786|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.0|1.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.5|-30.0|
82474886|NCT00669409|164645786|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.3|17.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.3|-14.3|
82474887|NCT00669409|164645786|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-21.9|9.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.3|-21.9|
82474888|NCT00669409|164645786|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-40.5|1.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.0|-40.5|
82474889|NCT00669409|164645787|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|10.8|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-5.0|26.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.6|-5.0|
82580225|NCT02071290|164871321|SUPERIORITY|||||||0.353|||||||Mixed Models Analysis|||||||0.353
82650919|NCT01772368|165016705|SUPERIORITY||geometric mean ratio|0.795|||||TWO_SIDED|90.0|0.694|0.911||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=61||0.911|0.694|
82474890|NCT00669409|164645787|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-30.0|1.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-30.0|
82474891|NCT00669409|164645787|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.6|17.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.0|-14.6|
82474892|NCT00669409|164645787|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-21.0|10.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.2|-21.0|
82474893|NCT00669409|164645787|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.6|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-35.3|6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.2|-35.3|
82474894|NCT00669409|164645788|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|10.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-5.5|26.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.1|-5.5|
82474895|NCT00669409|164645788|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.3|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-27.0|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-27.0|
82474896|NCT00669409|164645788|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-13.3|18.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.3|-13.3|
82474897|NCT00669409|164645788|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-19.2|11.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.9|-19.2|
82474898|NCT00669409|164645788|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-34.4|7.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.0|-34.4|
82474899|NCT00669409|164645789|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|11.0|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.8|26.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||26.8|-4.8|
82474900|NCT00669409|164645789|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-8.1|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-23.9|7.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.6|-23.9|
82474901|NCT00669409|164645789|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|1.8|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-14.0|17.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.6|-14.0|
82580226|NCT02071290|164871322|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|||||||0.99
82580227|NCT02071290|164871323|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||||||0.085
82580228|NCT02071290|164871324|SUPERIORITY|||||||0.371|||||||Mixed Models Analysis|||||||0.371
82580229|NCT02071290|164871325|SUPERIORITY|||||||0.106|||||||Mixed Models Analysis|||||||0.106
82580230|NCT02071290|164871326|SUPERIORITY|||||||0.829|||||||Mixed Models Analysis|||||||0.829
82474902|NCT00669409|164645789|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.88|||TWO_SIDED|95.0|-19.2|12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-19.2|
82474903|NCT00669409|164645789|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-12.8|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-33.5|8.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.0|-33.5|
82549326|NCT03281291|164800167|OTHER||Vaccine Efficacy|29.6|||||TWO_SIDED|95.0|15.4|41.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for R012-20 Group vs Control Group.||41.5|15.4|
82549327|NCT03281291|164800167|OTHER||Vaccine Efficacy|30.6|||||TWO_SIDED|95.0|16.6|42.2|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for R012-14-mD Group vs Control Group.||42.2|16.6|
82549328|NCT03281291|164800167|OTHER||Vaccine Efficacy|27.4|||||TWO_SIDED|95.0|13.1|39.4|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for Fx012-14-mFxD Group vs Control Group.||39.4|13.1|
82549329|NCT03281291|164800167|OTHER||Vaccine Efficacy|26.3|||||TWO_SIDED|95.0|11.9|38.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the TVC against the first new genotypic infection, between enrollment and Month 32 visit, for Fx017-mFxD Group vs Control Group.||38.3|11.9|
82549330|NCT03281291|164800168|OTHER||Vaccine Efficacy|41.8|||||TWO_SIDED|95.0|28.6|52.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for R012-20 Group vs Control Group.||52.5|28.6|
82549331|NCT03281291|164800168|OTHER||Vaccine Efficacy|39.9|||||TWO_SIDED|95.0|26.8|50.6|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for R012-14-mD Group vs Control Group.||50.6|26.8|
82650920|NCT01772368|165016705|SUPERIORITY||geometric mean ratio|0.339|||||TWO_SIDED|90.0|0.295|0.39||||||The analysis is based on ANOVA model of the log transformed data, with fixed effects of sequence, period and treatment, and a random effect for subject within sequence. n=59||0.390|0.295|
82650921|NCT02449291|165016708|SUPERIORITY|||||||0.016|ONE_SIDED|95.0||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.016) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.016
82650922|NCT02449291|165016708|SUPERIORITY|||||||0.016||||||One-sided p-value. After adjustment for multiplicity using Hommel's method. (Note: unadjusted p value = 0.015) A priori threshold for statistical significance = 0.025.|Chi-squared|||The primary efficacy analysis was a comparison of the incidence of the primary efficacy variable between the two groups that received APD421 and the group that received placebo, using Pearson's χ2 test. The threshold for determining statistical significance in the comparison of incidence of success between the active and placebo groups (the primary efficacy analysis) was a p-value of 2.5% one-sided.||||0.016
82474904|NCT00669409|164645790|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|11.4|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-4.4|27.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.2|-4.4|
82474905|NCT00669409|164645790|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-5.4|STANDARD_ERROR_OF_MEAN|7.98|||TWO_SIDED|95.0|-21.2|10.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.3|-21.2|
82549332|NCT03281291|164800168|OTHER||Vaccine Efficacy|33.6|||||TWO_SIDED|95.0|19.3|45.3|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 2.5 and 26, for Fx012-14-mFxD Group vs Control Group.||45.3|19.3|
82549333|NCT03281291|164800168|OTHER||Vaccine Efficacy|40.6|||||TWO_SIDED|95.0|27.2|51.5|||Regression, Cox||VE = 1 minus HR. HR was defined as the ratio of relative risk of infection in the vaccinated group compared to the control group.|Comparison of vaccine efficacy in the ATP cohort against the first new genotypic infection, between months 7.5 and 31, for Fx017-mFxD Group vs Control Group.||51.5|27.2|
82549334|NCT03281291|164800169|OTHER||Additive difference|-1.5|||||TWO_SIDED|95.0|-1.979|-1.022|||Wald Test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for R012-20 Group vs Control Group.||-1.022|-1.979|
82549335|NCT03281291|164800169|OTHER||Additive difference|-1.544|||||TWO_SIDED|95.0|-2.027|-1.061|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for R012-14-mD Group vs Control Group.||-1.061|-2.027|
82580231|NCT02071290|164871327|SUPERIORITY|||||||0.323|||||||Wilcoxon (Mann-Whitney)|||||||0.323
82580232|NCT02071290|164871328|SUPERIORITY|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||||||0.287
82549336|NCT03281291|164800169|OTHER||Additive difference|-1.575|||||TWO_SIDED|95.0|-2.065|-1.085|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for Fx012-14-mFxD Group vs Control Group.||-1.085|-2.065|
82549337|NCT03281291|164800169|OTHER||Additive difference|-1.11|||||TWO_SIDED|95.0|-1.635|-0.586|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 20 visit, for Fx017-mFxD Group vs Control Group.||-0.586|-1.635|
82549338|NCT03281291|164800170|OTHER||Additive difference|-0.769|||||TWO_SIDED|95.0|-1.068|-0.469|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 14, for R012-20 + R012-14-mD Pooled Group vs Control Group.||-0.469|-1.068|
82549339|NCT03281291|164800170|OTHER||Additive difference|-0.786|||||TWO_SIDED|95.0|-1.133|-0.439|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 14, for Fx012-14-mFxD groups vs Control Group.||-0.439|-1.133|
82549340|NCT03281291|164800170|OTHER||Additive difference|-1.275|||||TWO_SIDED|95.0|-1.592|-0.959|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 7.5 to 19, for Fx017-mFxD groups vs Control Group.||-0.959|-1.592|
82549341|NCT03281291|164800171|OTHER||Additive difference|-2.686|||||TWO_SIDED|95.0|-3.448|-1.924|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for R012-20 Group vs Control Group.||-1.924|-3.448|
82549342|NCT03281291|164800171|OTHER||Additive difference|-2.452|||||TWO_SIDED|95.0|-3.217|-1.686|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for R012-14-mD Group vs Control Group.||-1.686|-3.217|
82549343|NCT03281291|164800171|OTHER||Additive difference|-2.585|||||TWO_SIDED|95.0|-3.345|-1.824|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for Fx012-14-mFxD Group vs Control Group.||-1.824|-3.345|
82549344|NCT03281291|164800171|OTHER||Additive difference|-1.897|||||TWO_SIDED|95.0|-2.726|-1.067|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the TVC between enrollment and Month 32 visit, for Fx017-mFxD Group vs Control Group.||-1.067|-2.726|
82650923|NCT02449291|165016709|SUPERIORITY|||||||0.009||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.009
82650924|NCT02449291|165016709|SUPERIORITY|||||||0.002||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.002
82549345|NCT03281291|164800172|OTHER||Additive difference|-1.633|||||TWO_SIDED|95.0|-2.252|-1.015|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for R012-20 group vs Control Group.||-1.015|-2.252|
82549346|NCT03281291|164800172|OTHER||Additive difference|-1.997|||||TWO_SIDED|95.0|-2.601|-1.393|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for R012-14 group vs Control Group.||-1.393|-2.601|
82580233|NCT02071290|164871329|SUPERIORITY|||||||0.151|||||||Wilcoxon (Mann-Whitney)|||||||0.151
82580234|NCT02071290|164871330|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.510
82580235|NCT02071290|164871331|SUPERIORITY|||||||0.348|||||||Chi-squared|||||||0.348
82580236|NCT02071290|164871332|SUPERIORITY|||||||0.911|||||||Chi-squared|||||||0.911
82650925|NCT02449291|165016710|SUPERIORITY|||||||0.17||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.170
82650926|NCT02449291|165016710|SUPERIORITY|||||||0.552||||||One-sided p-value. No adjustment for multiple comparisons. A priori threshold for statistical significance = 0.025.|Chi-squared|||||||0.552
82474906|NCT00669409|164645790|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|4.6|STANDARD_ERROR_OF_MEAN|7.99|||TWO_SIDED|95.0|-11.2|20.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.4|-11.2|
82474907|NCT00669409|164645790|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-20.3|10.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-20.3|
82474908|NCT00669409|164645790|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.1|STANDARD_ERROR_OF_MEAN|10.48|||TWO_SIDED|95.0|-24.9|16.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.6|-24.9|
82474909|NCT00669409|164645791|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-20.7|12.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.3|-20.7|
82474910|NCT00669409|164645791|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-19.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.6|-3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.0|-35.6|
82474911|NCT00669409|164645791|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-20.5|12.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.1|-20.5|
82474912|NCT00669409|164645791|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-15.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-31.9|0.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.3|-31.9|
82474913|NCT00669409|164645791|SUPERIORITY_OR_OTHER_LEGACY||Least Mean Square Difference|-35.1|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-56.4|-13.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-13.8|-56.4|
82474914|NCT00669409|164645792|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.7|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-21.2|11.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.8|-21.2|
82580237|NCT01232738|164871337|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.07|TWO_SIDED|95.0|-0.53|0.02|||Chi-squared|||Difference in slope of decline||0.02|-0.53|0.07
82650927|NCT02449291|165016711|SUPERIORITY|||||||0.003|||||||Regression, Cox|||||||0.003
82474915|NCT00669409|164645792|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-33.0|-0.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.4|-33.0|
82474916|NCT00669409|164645792|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-13.5|19.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.1|-13.5|
82474917|NCT00669409|164645792|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-29.2|3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.0|-29.2|
82474918|NCT00669409|164645792|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-32.8|9.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.7|-32.8|
82474919|NCT00669409|164645793|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-22.9|10.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.1|-22.9|
82474920|NCT00669409|164645793|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.7|-3.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.1|-35.7|
82474921|NCT00669409|164645793|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-15.0|17.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.6|-15.0|
82474922|NCT00669409|164645793|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-27.1|5.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.1|-27.1|
82474923|NCT00669409|164645793|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-26.0|16.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-26.0|
82474924|NCT00669409|164645794|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-21.1|11.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.9|-21.1|
82474925|NCT00669409|164645794|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.6|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.9|-3.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-35.9|
82580238|NCT01232738|164871338|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
82580239|NCT01696955|164871393|SUPERIORITY|||||||0.99|||||||Fisher Exact|||||||0.99
82580240|NCT01696955|164871396|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
82580241|NCT01696955|164871397|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
82580242|NCT01696955|164871398|SUPERIORITY|||||||0.58|||||||Log Rank|||||||0.58
82650928|NCT02449291|165016711|SUPERIORITY||||||<|0.001|||||||Regression, Cox|||||||<0.001
82650929|NCT02449291|165016712|SUPERIORITY|||||||0.209|||||||Chi-squared|||||||0.209
82650930|NCT02449291|165016712|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.440
82650931|NCT02449291|165016713|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
82650932|NCT02449291|165016713|SUPERIORITY|||||||0.009|||||||Chi-squared|||||||0.009
82474926|NCT00669409|164645794|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-20.4|12.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.2|-20.4|
82474927|NCT00669409|164645794|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-30.0|2.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.3|-30.0|
82474928|NCT00669409|164645794|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-48.8|-6.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.2|-48.8|
82474929|NCT00669409|164645795|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-19.6|13.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.4|-19.6|
82474930|NCT00669409|164645795|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-35.8|-3.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.1|-35.8|
82474931|NCT00669409|164645795|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-25.4|7.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.2|-25.4|
82474932|NCT00669409|164645795|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-32.8|-0.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.5|-32.8|
82474933|NCT00669409|164645795|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-32.6|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-53.9|-11.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-11.4|-53.9|
82650933|NCT02449291|165016714|SUPERIORITY|||||||0.115|||||||Chi-squared|||||||0.115
82474934|NCT00669409|164645796|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-20.1|12.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.9|-20.1|
82474935|NCT00669409|164645796|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-37.9|-5.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.2|-37.9|
82474936|NCT00669409|164645796|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-25.7|6.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.9|-25.7|
82474937|NCT00669409|164645796|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-31.5|0.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.7|-31.5|
82474938|NCT00669409|164645796|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-32.5|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-53.7|-11.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-11.2|-53.7|
82474939|NCT00669409|164645797|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-17.0|16.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.0|-17.0|
82474940|NCT00669409|164645797|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-21.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-37.6|-4.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.9|-37.6|
82474941|NCT00669409|164645797|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-24.1|8.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.5|-24.1|
82474942|NCT00669409|164645797|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.1|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-32.2|0.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.0|-32.2|
82474943|NCT00669409|164645797|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-26.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-48.1|-5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-5.5|-48.1|
82474944|NCT00669409|164645798|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-12.8|20.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.2|-12.8|
82474945|NCT00669409|164645798|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-34.8|-2.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.2|-34.8|
82474946|NCT00669409|164645798|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-21.7|11.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.0|-21.7|
82474947|NCT00669409|164645798|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-30.1|2.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.1|-30.1|
82650934|NCT02449291|165016714|SUPERIORITY|||||||0.222|||||||Chi-squared|||||||0.222
82650935|NCT02449291|165016715|SUPERIORITY|||||||0.474|||||||Chi-squared|||||||0.474
82650936|NCT02449291|165016715|SUPERIORITY|||||||0.505|||||||Chi-squared|||||||0.505
82650937|NCT02449291|165016716|SUPERIORITY|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||||||0.103
82650938|NCT02449291|165016716|SUPERIORITY|||||||0.166|||||||Wilcoxon (Mann-Whitney)|||||||0.166
82474948|NCT00669409|164645798|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-46.0|-3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.5|-46.0|
82474949|NCT00669409|164645799|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.5|25.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.5|-7.5|
82474950|NCT00669409|164645799|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-32.0|0.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.6|-32.0|
82474951|NCT00669409|164645799|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-16.7|15.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.9|-16.7|
82474952|NCT00669409|164645799|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-25.5|6.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.7|-25.5|
82474953|NCT00669409|164645799|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-42.0|0.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.5|-42.0|
82474954|NCT00669409|164645800|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|8.1|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-8.4|24.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||24.6|-8.4|
82474955|NCT00669409|164645800|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-32.6|0.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.0|-32.6|
82474956|NCT00669409|164645800|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-17.1|15.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.5|-17.1|
82474957|NCT00669409|164645800|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-24.4|7.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.8|-24.4|
82474958|NCT00669409|164645800|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-38.0|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-38.0|
82474959|NCT00669409|164645801|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|8.8|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.7|25.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.3|-7.7|
82474960|NCT00669409|164645801|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.9|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-29.2|3.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.5|-29.2|
82474961|NCT00669409|164645801|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-15.8|16.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.8|-15.8|
82474962|NCT00669409|164645801|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-23.6|8.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.6|-23.6|
82474963|NCT00669409|164645801|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-37.0|5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.5|-37.0|
82474964|NCT00669409|164645802|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-7.4|25.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||25.5|-7.4|
82650939|NCT02449291|165016717|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82474965|NCT00669409|164645802|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.8|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-27.1|5.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.5|-27.1|
82474966|NCT00669409|164645802|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-16.9|15.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.7|-16.9|
82474967|NCT00669409|164645802|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|8.14|||TWO_SIDED|95.0|-23.9|8.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.4|-23.9|
82474968|NCT00669409|164645802|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.8|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-37.1|5.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-37.1|
82474969|NCT00669409|164645803|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.4|STANDARD_ERROR_OF_MEAN|8.33|||TWO_SIDED|95.0|-5.1|27.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.9|-5.1|
82474970|NCT00669409|164645803|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-24.4|8.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.2|-24.4|
82650940|NCT02449291|165016717|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||||||0.029
82650941|NCT02363010|165016718|SUPERIORITY|||||||0.68||||||A prior threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline weight.||Exploring group differences in 12 month weight losses.||||.68
82549347|NCT03281291|164800172|OTHER||Additive difference|-1.776|||||TWO_SIDED|95.0|-2.399|-1.153|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 2.5 to 26, for Fx012-14-mFxD group vs Control Group.||-1.153|-2.399|
82650942|NCT02363010|165016718|SUPERIORITY|||||||0.11||||||A prior threshold for significance was p\<.05.|ANOVA|Controlling for baseline weight.||Exploring group differences in 18 month weight losses.||||.11
82474971|NCT00669409|164645803|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|8.25|||TWO_SIDED|95.0|-14.2|18.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.4|-14.2|
82474972|NCT00669409|164645803|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|8.16|||TWO_SIDED|95.0|-24.3|8.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.0|-24.3|
82474973|NCT00669409|164645803|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|10.75|||TWO_SIDED|95.0|-27.6|14.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.9|-27.6|
82474974|NCT00669409|164645804|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-21.6|11.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.8|-21.6|
82474975|NCT00669409|164645804|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.1|-2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-36.1|
82474976|NCT00669409|164645804|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-21.8|11.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.4|-21.8|
82474977|NCT00669409|164645804|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.6|1.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.2|-31.6|
82474978|NCT00669409|164645804|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-40.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-62.6|-19.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-19.0|-62.6|
82474979|NCT00669409|164645805|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-20.9|12.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.5|-20.9|
82474980|NCT00669409|164645805|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-32.6|0.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.7|-32.6|
82474981|NCT00669409|164645805|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.2|20.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.1|-13.2|
82474982|NCT00669409|164645805|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-28.4|4.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.5|-28.4|
82474983|NCT00669409|164645805|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-38.8|4.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.8|-38.8|
82474984|NCT00669409|164645806|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-22.2|11.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.2|-22.2|
82474985|NCT00669409|164645806|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.1|-2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-36.1|
82474986|NCT00669409|164645806|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-15.6|17.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.7|-15.6|
82474987|NCT00669409|164645806|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-28.0|4.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.8|-28.0|
82474988|NCT00669409|164645806|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-30.1|13.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.5|-30.1|
82474989|NCT00669409|164645807|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-20.6|12.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.8|-20.6|
82650943|NCT02363010|165016719|SUPERIORITY|||||||0.41||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month moderator to vigorous physical activity (MVPA).||||.41
82650944|NCT02363010|165016719|SUPERIORITY|||||||0.46||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month MVPA.||||.46
82650945|NCT02363010|165016719|SUPERIORITY|||||||0.82||||||A priori threshold for statistical significance was p\< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 12 month MVPA.||||.82
82474990|NCT00669409|164645807|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-35.6|-2.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.3|-35.6|
82474991|NCT00669409|164645807|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-19.6|13.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.7|-19.6|
82474992|NCT00669409|164645807|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-30.9|1.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.9|-30.9|
82474993|NCT00669409|164645807|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.4|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-51.2|-7.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.6|-51.2|
82474994|NCT00669409|164645808|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-16.3|17.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.1|-16.3|
82474995|NCT00669409|164645808|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-35.4|-2.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.2|-35.4|
82474996|NCT00669409|164645808|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-24.1|9.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.1|-24.1|
82474997|NCT00669409|164645808|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.9|0.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.9|-31.9|
82474998|NCT00669409|164645808|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-31.3|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-53.1|-9.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-9.5|-53.1|
82474999|NCT00669409|164645809|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-16.9|16.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-16.9|
82549348|NCT03281291|164800172|OTHER||Additive difference|-1.843|||||TWO_SIDED|95.0|-2.527|-1.158|||Wald test|Wald tests were used to test for additive differences in VE differing from zero and to obtain a 95% confidence interval.|Additive difference was defined as the difference in the mean number of new molecularly confirmed malaria infections between each vaccine arm and the control arm.|To detect a significant difference in the mean number of new molecularly confirmed malaria infections in the ATP cohort between months 7.5 to 31, for Fx017-mFxD group vs Control Group.||-1.158|-2.527|
82650946|NCT02363010|165016719|SUPERIORITY|||||||0.42||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.42
82475000|NCT00669409|164645809|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.7|-3.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.4|-36.7|
82475001|NCT00669409|164645809|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-24.2|9.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-24.2|
82475002|NCT00669409|164645809|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.4|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-29.8|3.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.0|-29.8|
82475003|NCT00669409|164645809|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-33.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-55.6|-12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-12.0|-55.6|
82475004|NCT00669409|164645810|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-12.9|20.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.4|-12.9|
82475005|NCT00669409|164645810|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-36.5|-3.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-36.5|
82475006|NCT00669409|164645810|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-23.3|10.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.0|-23.3|
82475007|NCT00669409|164645810|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-31.2|1.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-31.2|
82475008|NCT00669409|164645810|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.2|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-50.0|-6.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.4|-50.0|
82475009|NCT00669409|164645811|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|7.3|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-9.4|24.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||24.0|-9.4|
82475010|NCT00669409|164645811|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-34.4|-1.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.2|-34.4|
82549349|NCT01809691|164800194|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.08|TWO_SIDED|95.0|0.72|1.02|||Regression, Cox|||||1.02|0.72|.080
82650947|NCT02363010|165016719|SUPERIORITY|||||||0.28||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.28
82475011|NCT00669409|164645811|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-20.0|13.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.2|-20.0|
82475012|NCT00669409|164645811|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-29.9|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-29.9|
82475013|NCT00669409|164645811|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-28.5|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-50.3|-6.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-6.7|-50.3|
82475014|NCT00669409|164645812|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-4.3|29.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.1|-4.3|
82475015|NCT00669409|164645812|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.8|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-31.4|1.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.9|-31.4|
82475016|NCT00669409|164645812|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-14.6|18.6||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.6|-14.6|
82475017|NCT00669409|164645812|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-25.0|7.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.8|-25.0|
82475018|NCT00669409|164645812|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.1|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-44.9|-1.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-44.9|
82475019|NCT00669409|164645813|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.6|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-5.1|28.3||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.3|-5.1|
82475020|NCT00669409|164645813|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-32.1|1.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.1|-32.1|
82475021|NCT00669409|164645813|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.5|19.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||19.7|-13.5|
82475022|NCT00669409|164645813|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.1|9.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.7|-23.1|
82475023|NCT00669409|164645813|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-40.7|2.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.9|-40.7|
82475024|NCT00669409|164645814|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-4.4|29.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.0|-4.4|
82475025|NCT00669409|164645814|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.2|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-27.8|5.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-27.8|
82475026|NCT00669409|164645814|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-13.2|20.1||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.1|-13.2|
82475027|NCT00669409|164645814|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.9|9.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-23.9|
82650948|NCT02363010|165016719|SUPERIORITY|||||||0.82||||||A priori threshold for statistical significance was p \< .05.|Compound Poisson general linear models|Controlling for baseline MVPA.||Exploring group differences in 18 month MVPA.||||.82
82475028|NCT00669409|164645814|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-40.4|3.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.2|-40.4|
82475029|NCT00669409|164645815|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-5.5|27.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||27.9|-5.5|
82475030|NCT00669409|164645815|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-26.3|7.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.0|-26.3|
82549350|NCT01809691|164800195|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.51|0.67|||Regression, Cox|||||0.67|0.51|<0.001
82650949|NCT02363010|165016720|SUPERIORITY|||||||0.06||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline half-mile walk time.||Exploring group differences in 12 month cardiorespiratory fitness, measured by half-mile walk time.||||.06
82650950|NCT02363010|165016720|SUPERIORITY|||||||0.3||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline half-mile walk time.||Exploring group differences in 18 month cardiorespiratory fitness, measured by half-mile walk time.||||.30
82580243|NCT03592745|164871439|EQUIVALENCE|Statistical analysis of the median absolute change in bicep peak sEMG amplitude from baseline to DC immediately following 3 weeks of training was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|32.0||||0.002|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median absolute change in bicep peak sEMG amplitude from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.002
82580244|NCT03592745|164871439|EQUIVALENCE|Statistical analysis of the median absolute change in tricep peak sEMG amplitude from baseline to DC immediately following 3 weeks of training was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|87.0||||0.445|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median absolute change in tricep peak sEMG amplitude from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.445
82580245|NCT03592745|164871439|EQUIVALENCE|Statistical analysis of the median absolute change in bicep peak sEMG amplitude from baseline to week 16 (3 month follow-up after training) was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|95.0||||0.678|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare the median absolute change in bicep peak sEMG from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.678
82650951|NCT02363010|165016721|SUPERIORITY|||||||0.59||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline waist circumference.||Exploring group differences in 12 month waist circumference.||||.59
82650952|NCT02363010|165016721|SUPERIORITY|||||||0.57||||||A priori threshold for statistical significance was p \< .05.|ANOVA|Controlling for baseline waist circumference.||Exploring group differences in 18 month waist circumference.||||.57
82475031|NCT00669409|164645815|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-14.7|18.5||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.5|-14.7|
82475032|NCT00669409|164645815|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-23.6|9.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.2|-23.6|
82475033|NCT00669409|164645815|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-42.2|1.4||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.4|-42.2|
82475034|NCT00669409|164645816|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|13.5|STANDARD_ERROR_OF_MEAN|8.44|||TWO_SIDED|95.0|-3.2|30.2||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||30.2|-3.2|
82475035|NCT00669409|164645816|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-23.3|9.9||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-23.3|
82475036|NCT00669409|164645816|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|8.4|||TWO_SIDED|95.0|-11.5|21.7||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||21.7|-11.5|
82475037|NCT00669409|164645816|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|95.0|-24.1|8.8||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.8|-24.1|
82475038|NCT00669409|164645816|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|11.02|||TWO_SIDED|95.0|-31.6|12.0||||||Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-31.6|
82475039|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-24.7|6.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.4|-24.7|
82475040|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.4|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-36.0|-4.9||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-4.9|-36.0|
82475041|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-19.9|11.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.4|-19.9|
82475042|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-30.9|-0.4||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.4|-30.9|
82650953|NCT02363010|165016722|SUPERIORITY|||||||0.978||||||A priori threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.978
82650954|NCT02363010|165016722|SUPERIORITY|||||||0.998||||||A priori threshold for statistical significance was p \<.05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.998
82475043|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-29.1|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-49.4|-8.9||||||Change at Week 1, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-8.9|-49.4|
82475044|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-16.9|14.3||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.3|-16.9|
82475045|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.9|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-29.5|1.7||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.7|-29.5|
82475046|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-15.4|16.5||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.5|-15.4|
82475047|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-27.3|3.7||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||3.7|-27.3|
82475048|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-43.1|-2.4||||||Change at Week 1, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.4|-43.1|
82475049|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-33.2|-0.3||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.3|-33.2|
82475050|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-43.7|-10.8||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-10.8|-43.7|
82475051|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-23.4|9.9||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-23.4|
82475052|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.4|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-35.6|-3.2||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.2|-35.6|
82475053|NCT00669409|164645817|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-24.4|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-45.8|-2.9||||||Change at Week 1, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-2.9|-45.8|
82549351|NCT02651428|164800216|SUPERIORITY||Hazard Ratio (HR)|0.29||||0.0006|TWO_SIDED|95.0|0.14|0.62||The threshold significance level at the interim and final statistical analyses for the primary efficacy endpoint was 0.0294.|Log Rank||The numerator for the hazard ratio was the estimated hazard for the Neutrolin treatment arm, and the denominator was the estimated hazard for the Heparin treatment arm.|The null hypothesis was that there was no difference in the survival functions for CRBSI between the two treatments. Based on 80% power to detect a 55% reduction in the risk of CRBSI relative to the control treatment, a 1:1 randomization, a 2-sided log-rank test, one interim analysis using the method of Pocock, and an overall alpha of 0.05, it was determined that 56 CRBSIs would be needed. These are the results of the final analysis.||0.62|0.14|0.0006
82549352|NCT02651428|164800217|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.4161|TWO_SIDED|95.0|0.9|1.29||The threshold for statistical significance was p \< 0.05.|Log Rank||The numerator for the hazard ratio was the estimated hazard for the Neutrolin treatment arm, and the denominator was the estimated hazard for the Heparin treatment arm.|The null hypothesis was that there was no difference in the time until catheter removal for any reason between the two treatments.||1.29|0.90|0.4161
82549353|NCT05481216|164800251|OTHER|Unadjusted and adjusted hazard ratios (HR) will be calculated using a proportional Cox regression model. The adjusted variables were body mass index (BMI), dementia, peripheral vascular disease, history of pneumonia, connective tissue disease, liver disease, diabetes, chronic kidney disease, glucocorticoids, hydroxychloroquine, tocilizumab, and anti-IL6 inhibitors.|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.73|2.29||||||||2.29|0.73|
82549354|NCT05481216|164800251|OTHER||Adjusted Hazard Ratio|1.3|||||TWO_SIDED|95.0|0.73|2.29||||||The adjusted variables were body mass index (BMI), dementia, peripheral vascular disease, history of pneumonia, connective tissue disease, liver disease, diabetes, chronic kidney disease, glucocorticoids, hydroxychloroquine, tocilizumab, and anti-IL6 inhibitors.||2.29|0.73|
82475054|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-18.5|12.6||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.6|-18.5|
82549355|NCT05481216|164800255|OTHER|||||||0.009|||||||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19.||||0.009
82549356|NCT05481216|164800276|OTHER||Odds Ratio (OR)|0.85||||0.033|TWO_SIDED|95.0|0.74|0.99|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||0.99|0.74|0.033
82580246|NCT03592745|164871439|EQUIVALENCE|Statistical analysis of the median absolute change in tricep peak sEMG amplitude from baseline to week 16 (3 month follow-up after training) was measured in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median absolute change in bicep peak sEMG amplitude between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|98.0||||0.777|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare the median absolute change in tricep peak sEMG from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.777
82549357|NCT05481216|164800277|OTHER||Odds Ratio (OR)|1.93||||0.012|TWO_SIDED|95.0|1.16|3.22|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||3.22|1.16|0.012
82549358|NCT05481216|164800278|OTHER||Odds Ratio (OR)|0.99||||0.458|TWO_SIDED|95.0|0.95|1.02|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||1.02|0.95|0.458
82549359|NCT05481216|164800279|OTHER||Odds Ratio (OR)|2.71|||<|0.001|TWO_SIDED|95.0|1.61|4.57|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||4.57|1.61|<0.001
82549360|NCT05481216|164800280|OTHER||Odds Ratio (OR)|1.74|||<|0.001|TWO_SIDED|95.0|1.34|2.25|||Regression, Logistic|||Conditional logistic regression models accounting for case-control matching will be used to identify risk factors for advanced immunodeficiency associated with COVID-19. Odds ratio (OR), and the 95% confidence intervals of the OR will be calculated||2.25|1.34|<0.001
82549361|NCT01787383|164800349|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.13
82549362|NCT01787383|164800350|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|TWO_SIDED||||||Regression, Logistic|||||||0.34
82650955|NCT02363010|165016722|SUPERIORITY|||||||0.878||||||A priori threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.878
82650956|NCT02363010|165016722|SUPERIORITY|||||||0.602||||||A priori threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Emotional Overeating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.602
82650957|NCT02363010|165016723|SUPERIORITY|||||||0.487||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.487
82475055|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.7|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-30.3|0.8||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||0.8|-30.3|
82475056|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.4|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-3.2|28.1||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.1|-3.2|
82475057|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-23.1|7.4||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.4|-23.1|
82475058|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-23.3|17.2||||||Change at Week 2, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.2|-23.3|
82475059|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-14.9|16.3||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||16.3|-14.9|
82549363|NCT01787383|164800351|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|TWO_SIDED||||||Regression, Logistic|||||||0.088
82549364|NCT01787383|164800352|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.20
82549365|NCT01787383|164800353|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.38
82549366|NCT01787383|164800354|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.033
82549367|NCT01787383|164800355|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.37
82549368|NCT01787383|164800356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.66
82549369|NCT03562377|164800357|NON_INFERIORITY|The difference in response rates was calculated using the Mantel-Haenszel estimate of the risk difference stratified by baseline disease severity together with the 2-sided 95% CI. Non-inferiority of tralokinumab was demonstrated if the lower limit of the 95% CI was greater than -25%. Power calculation assumed 160 subjects in the per protocol analysis set, providing 98% power to establish non-inferiority, assuming response rates of 80% in both treatment groups and a non-inferiority margin of -25%|Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-11.3|3.1|||Mantel Haenszel|||||3.1|-11.3|
82549370|NCT03562377|164800358|NON_INFERIORITY|The difference in response rates was calculated using the Mantel-Haenszel estimate of the risk difference stratified by baseline disease severity together with the 2-sided 95% CI. Non-inferiority of tralokinumab was demonstrated if the lower limit of the 95% CI was greater than -25%. Power calculation assumed 160 subjects in the per protocol analysis set, providing 98% power to establish non-inferiority, assuming response rates of 80% in both treatment groups and a non-inferiority margin of -25%|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-9.2|12.8|||Mantel Haenszel|||||12.8|-9.2|
82549371|NCT03562377|164800359|SUPERIORITY||Risk Difference (RD)|11.4||||0.049|TWO_SIDED|95.0|0.2|22.6||The p-value was adjusted for multiplicity by a pre-specified testing hierarchy. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.|Cochran-Mantel-Haenszel|The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by baseline disease severity (moderate or severe).||||22.6|0.2|0.049
82475060|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.9|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-25.5|5.7||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.7|-25.5|
82650958|NCT02363010|165016723|SUPERIORITY|||||||0.262||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.262
82475061|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-3.4|28.5||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.5|-3.4|
82475062|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-21.9|9.0||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.0|-21.9|
82475063|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-25.2|15.5||||||Change at Week 2, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||15.5|-25.2|
82549372|NCT03562377|164800360|SUPERIORITY||Risk Difference (RD)|12.7||||0.057|TWO_SIDED|95.0|-0.2|25.7||The p-value was adjusted for multiplicity by a pre-specified testing hierarchy. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.|Cochran-Mantel-Haenszel|The difference in response rates was analysed using the Cochran-Mantel-Haenszel test stratified by baseline disease severity (moderate or severe).||||25.7|-0.2|0.057
82549373|NCT03519581|164800387|OTHER|The primary statistical analysis was an intention-to-treat analysis. The primary outcome was analyzed by Kruskal-Wallis test because the data was non-parametric.||||||0.76|||||||Kruskal-Wallis|||The target sample size for the study was 30 eyes, based on power calculations to achieve 80% power assuming 40% of sham-treated eyes will reach the vision loss threshold within 2 years, while SML treatment will reduce that value to 15%, using a 2:1 ratio for randomization (2 treatment : 1 sham).||||.76
82549374|NCT03519581|164800388|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||.16
82475064|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-21.4|11.5||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.5|-21.4|
82475065|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-13.8|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-30.3|2.7||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.7|-30.3|
82475066|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|16.1|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-0.6|32.7||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||32.7|-0.6|
82475067|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-22.9|9.5||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.5|-22.9|
82475068|NCT00669409|164645818|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-25.5|17.4||||||Change at Week 2, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||17.4|-25.5|
82475069|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-22.9|8.2||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||8.2|-22.9|
82475070|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-34.4|-3.3||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.3|-34.4|
82475071|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.6|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-25.2|6.1||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.1|-25.2|
82475072|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-15.5|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-30.8|-0.2||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-0.2|-30.8|
82549375|NCT03519581|164800389|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
82549376|NCT03519581|164800390|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||.68
82549377|NCT03519581|164800391|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
82549378|NCT03519581|164800392|SUPERIORITY|Two-tailed t-tests and mixed effects regression models||||||0.5|||||||t-test, 2 sided|||||||.50
82549379|NCT01781468|164800399|SUPERIORITY|||||||0.9601|||||||Fisher Exact|||||||0.9601
82549380|NCT01781468|164800400|SUPERIORITY|||||||0.7877|||||||Fisher Exact|||||||0.7877
82549381|NCT01781468|164800401|SUPERIORITY|||||||0.3272|||||||Kruskal-Wallis|||||||0.3272
82549382|NCT01781468|164800402|SUPERIORITY|||||||0.9122|||||||Kruskal-Wallis|||Baseline to Week 4||||0.9122
82549383|NCT01781468|164800402|SUPERIORITY|||||||0.8559|||||||Kruskal-Wallis|||Baseline to Week 8||||0.8559
82549384|NCT04986501|164800434|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
82549385|NCT04986501|164800436|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||||||<0.01
82549386|NCT02312557|164800439|OTHER||Proportion|0.19|||<|0.01|TWO_SIDED|95.0|0.09|0.29|||One-sample binomial test of proportion|||||0.29|0.09|<0.01
82549387|NCT02736409|164800452|SUPERIORITY||Difference in Proportion|-0.19||||0.131|TWO_SIDED|95.0|-0.452|0.082|||Fisher Exact|||||0.082|-0.452|0.131
82580247|NCT03592745|164871440|EQUIVALENCE|Statistical analysis of median change from baseline to DC immediately following 3 weeks of training was assessed with the upper extremity fugl meyer score in the active vs. sham tDCS conditions. Null hypothesis is that there is no difference in median change in upper extremity fugl meyer score between the active and sham tDCS conditions. A significance level of 0.05 was used (two-tailed).|U value|112.0||||1|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median change in Upper Extremity Fugl Meyer score from baseline to 3 weeks (discharge) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||1.000
82475073|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.9|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-48.1|-7.6||||||Change at Week 4, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.6|-48.1|
82475074|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-21.3|9.9||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||9.9|-21.3|
82475075|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-32.6|-1.4||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.4|-32.6|
82475076|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-24.3|7.5||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.5|-24.3|
82475077|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-16.8|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-32.2|-1.3||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.3|-32.2|
82475078|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-27.5|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-47.8|-7.1||||||Change at Week 4, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-7.1|-47.8|
82475079|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-25.5|7.4||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.4|-25.5|
82475080|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-36.1|-3.2||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.2|-36.1|
82475081|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-22.1|11.3||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||11.3|-22.1|
82475082|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-14.7|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-30.9|1.6||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.6|-30.9|
82475083|NCT00669409|164645819|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-44.4|-1.5||||||Change at Week 4, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-1.5|-44.4|
82475084|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-12.2|18.8||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||18.8|-12.2|
82475085|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-27.0|4.1||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||4.1|-27.0|
82475086|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-17.4|13.9||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.9|-17.4|
82549388|NCT05285618|164800504|OTHER|A linear mixed model accounted for repeated measures ('subject\_id' as a random factor). No power calculation was performed, but the sample size (1,485 observations, 6 subjects) supports robust estimation.||||||0.002||||||P-values are unadjusted for multiple comparisons, as the analysis focused on a limited number of predictors. The a priori threshold for statistical significance was set at p\<0.05.|Mixed Models Analysis|||The model tested whether stimulation delay ('abs\_delay'), retinal distance ('dist\_ret'), and their interaction ('abs\_delay:dist\_ret') affect the number of elicited phosphenes ('num\_phosphenes').|We hypothesize that the parameter 'dist\_ret' may influence the number of phosphenes perceived ('num\_phosphenes'), while the roles of 'abs\_delay' and its interaction with 'dist\_ret' may be less pronounced. Further evaluation of these parameters will be conducted in the Results section|||0.002
82549389|NCT02167867|164800526|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||t=+7.76||||<0.0001
82549390|NCT04784559|164800535|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8751|TWO_SIDED|95.0|0.727|1.53||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors,|Plitidepsin 2.5 mg arm versus Control arm||1.53|0.727|0.8751
82475087|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-24.8|5.8||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.8|-24.8|
82549391|NCT04784559|164800535|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.0625|TWO_SIDED|95.0|0.96|1.96||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||1.96|0.960|0.0625
82549392|NCT04784559|164800536|SUPERIORITY||Hazard Ratio (HR)|0.948||||0.5945|TWO_SIDED|95.0|0.655|1.37||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 2.5 mg arm versus Control arm||1.37|0.655|0.5945
82549393|NCT04784559|164800536|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3358|TWO_SIDED|95.0|0.827|1.7||Unadjusted 2-sided p-value, for multiplicity adjustment uses the Hochberg step-up procedure|Log Rank|Stratified log-rank test, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Stratified Cox proportional-hazards regression model, including the fixed effect of the treatment group and levels of the randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||1.70|0.827|0.3358
82549394|NCT04784559|164800537|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7252|TWO_SIDED|95.0|0.604|2.06||2-sided|p-value based on proportional odds model|Proportional odds model with fixed effects of treatment group and randomisation stratification factors|Adjusted Odds Ratio and 95% CI based on a proportional odds model with fixed effects of treatment group and randomisation stratification factors|Plitidepsin 2.5 mg arm versus Control arm||2.06|0.604|0.7252
82549395|NCT04784559|164800537|SUPERIORITY||Odds Ratio (OR)|1.69||||0.091|TWO_SIDED|95.0|0.92|3.11||2-sided|p-value based on proportional odds model|Proportional odds model with fixed effects of treatment group and randomisation stratification factors|Adjusted Odds Ratio and 95% CI based on a proportional odds model with fixed effects of treatment group and randomisation stratification factors|Plitidepsin 1.5 mg arm versus Control arm||3.11|0.920|0.0910
82549396|NCT03138512|164800572|SUPERIORITY||Cox Proportional Hazard|0.95||||0.6676||95.0|0.75|1.2|||Log Rank|||||1.20|0.75|0.6676
82549397|NCT03138512|164800572|SUPERIORITY||Cox Proportional Hazard|0.93||||0.6556||95.0|0.67|1.28|||Log Rank|||||1.28|0.67|0.6556
82549398|NCT03138512|164800573|SUPERIORITY||Cox Proportional Hazard|1.26||||0.2436||95.0|0.85|1.85|||Log Rank|||Treatment Part A||1.85|0.85|0.2436
82376894|NCT03104400|164460618|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|21.3|||<|0.0001|TWO_SIDED|95.0|13.0|29.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.7|13.0|<0.0001
82475088|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-39.2|1.3||||||Change at Week 8, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||1.3|-39.2|
82549399|NCT03138512|164800573|SUPERIORITY||Cox Proportional Hazard|1.36||||0.45||95.0|0.61|3.07|||Log Rank|||Treatment Part B||3.07|0.61|0.4500
82549400|NCT03138512|164800575|SUPERIORITY||Cox Proportional Hazard|1.22|||||TWO_SIDED|95.0|0.89|1.67||||||||1.67|0.89|
82549401|NCT03138512|164800576|SUPERIORITY||Cox Proportional Hazard|0.75||||||95.0|0.33|1.68||||||||1.68|0.33|
82549402|NCT04382404|164800597|OTHER||Geometric mean ratio|0.85|||||TWO_SIDED|90.0|0.63|1.15|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of Velpatasvir in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 449.39 (77.12).||1.15|0.63|
82549403|NCT04382404|164800598|OTHER||Geometric mean ratio|1.19|||||TWO_SIDED|90.0|0.88|1.6|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of Sofosbuvir in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 1226.16 (59.46).||1.60|0.88|
82549404|NCT04382404|164800599|OTHER||Geometric mean ratio|0.57|||||TWO_SIDED|90.0|0.49|0.67|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Maximum concentration of GS-331007 in plasma was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean concentration (percent coefficient of variation) for the non-pregnant cohort was 1312.17 (32.55).||0.67|0.49|
82549405|NCT04382404|164800600|OTHER||Geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.67|1.23|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|Area under the plasma concentration versus time curve tau of Velpatasvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 3570.65 (72.04).||1.23|0.67|
82549406|NCT04382404|164800601|OTHER||Geometric mean ratio|1.39|||||TWO_SIDED|90.0|1.06|1.78||||||Area under the plasma concentration versus time curve tau of Sofosbuvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 1483.83 (66.43).|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|1.78|1.06|
82549407|NCT04382404|164800602|OTHER||Geometric mean ratio|0.62|||||TWO_SIDED|90.0|0.55|0.71||||||Area under the plasma concentration versus time curve tau of Sofosbuvir was compared between the 10 pregnant women in this study to 25 non-pregnant historical control women. The geometric mean (percent coefficient of variation) for the non-pregnant cohort was 15361.31 (22.35).|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|0.71|0.55|
82475089|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-10.6|20.6||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.6|-10.6|
82475090|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-24.0|7.1||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.1|-24.0|
82475091|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-17.1|14.8||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.8|-17.1|
82475092|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.2|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-24.6|6.3||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||6.3|-24.6|
82475093|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-38.2|2.5||||||Change at Week 8, Physical functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||2.5|-38.2|
82549408|NCT04382404|164800603|OTHER||Geometric mean ratio|1.43|||||TWO_SIDED|95.0|0.91|2.25||||||The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.|The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|2.25|0.91|
82549409|NCT04382404|164800604|OTHER||Geometric mean ratio|1.91|||||TWO_SIDED|95.0|1.14|3.19|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.||3.19|1.14|
82549410|NCT04382404|164800605|OTHER||Geometric mean ratio|1.5|||||TWO_SIDED|95.0|0.87|2.6|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in peripheral blood mononuclear cells was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 1474 (488, 4453) fmol /10\^6 cells in the nonpregnant cohort.||2.60|0.87|
82475094|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-18.3|14.6||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||14.6|-18.3|
82475095|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-20.1|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-36.5|-3.6||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||-3.6|-36.5|
82475096|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-19.5|13.9||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||13.9|-19.5|
82475097|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.9|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-27.1|5.4||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.4|-27.1|
82475098|NCT00669409|164645820|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.5|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-32.0|10.9||||||Change at Week 8, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.9|-32.0|
82475099|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|13.0|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-2.5|28.6||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.6|-2.5|
82475100|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.5|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-21.0|10.0||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.0|-21.0|
82475101|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|5.3|STANDARD_ERROR_OF_MEAN|7.92|||TWO_SIDED|95.0|-10.4|20.9||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.9|-10.4|
82475102|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|7.73|||TWO_SIDED|95.0|-23.1|7.5||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.5|-23.1|
82549411|NCT04382404|164800606|OTHER||Geometric mean ratio|0.53|||||TWO_SIDED|95.0|0.5|0.56|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.56|.50|
82549412|NCT04382404|164800607|OTHER||Geometric mean ratio|0.53|||||TWO_SIDED|95.0|0.49|0.58|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.58|.49|
82549413|NCT04382404|164800608|OTHER||Geometric mean ratio|0.55|||||TWO_SIDED|95.0|0.48|0.64|||||The pregnant cohort was the numerator, and the non-pregnant cohort was the denominator.|The geometric mean (95 percent confidence interval) concentration of GS-461203 in dried blood spots was compared between the pregnant cohort and 58 nonpregnant persons. The geometric mean (95 percent confidence interval) concentration of GS-461203 was 647 (571, 723) fmol/punch in the nonpregnant cohort.||.64|.48|
82549414|NCT03420833|164800631|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82549415|NCT03420833|164800631|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||0.009
82549416|NCT03420833|164800634|SUPERIORITY|||||||0.024|||||||t-test, 2 sided|||||||0.024
82549417|NCT03420833|164800636|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82580248|NCT03592745|164871440|EQUIVALENCE|Statistical analysis of median change from baseline to week 16 (3 month follow-up) was assessed with the Upper Extremity Fugl Meyer score in the active vs. sham tVNS conditions. Null hypothesis is that there is no difference in median change in Upper Extremity Fugl Meyer score between the active and sham tVNS conditions. A significance level of 0.05 was used (two-tailed).|U value|110.5||||0.95|TWO_SIDED|||||The Mann-Whitney Wilcoxon test was performed to compare median change in Upper Extremity Fugl Meyer score from baseline to 16 weeks (follow-up) across two separate study conditions (active vs. sham tVNS).|Wilcoxon (Mann-Whitney)|||||||0.950
82580249|NCT02729831|164871442|SUPERIORITY||Mean Difference (Net)|9.0|||<|0.001|TWO_SIDED|95.0|6.0|12.0|||Regression, Linear|||The comparison groups were: Interactive decision versus Video decision aid.||12|6|<0.001
82580250|NCT02729831|164871443|SUPERIORITY||Odds Ratio (OR)|1.03||||0.86|TWO_SIDED|95.0|0.74|1.44|||Regression, Logistic|General Estimating Equations accounted for clustering of patients within surgeons and controlling for baseline EQ-5D, BMI, joint and education.||We tested for interaction effects. Comparison groups were: MD Usual Care vs. MD Provider report.||1.44|0.74|0.86
82580251|NCT02729831|164871443|SUPERIORITY||Odds Ratio (OR)|1.06||||0.75|TWO_SIDED|95.0|0.76|1.47|||Regression, Logistic|General Estimating Equations accounted for clustering of patients within surgeons and controlling for baseline EQ-5D, BMI, joint and education.||We tested for interaction effects. Comparison groups are: Interactive decision versus Video decision aid||1.47|0.76|0.75
82580252|NCT02729831|164871444|SUPERIORITY||Risk Difference (RD)|18.5|||<|0.001|TWO_SIDED|95.0|12.8|24.5|||Chi-squared|Compared patients who reported using all of the DA compared to everyone else.||Comparison groups were: patients who reported using all of the DA versus everyone else.||24.5|12.8|<0.001
82580253|NCT02729831|164871445|SUPERIORITY||Mean Difference (Net)|0.04|||<|0.001|TWO_SIDED|95.0|0.016|0.065|||Regression, Linear|Generalized Estimating Equation accounting for clustering within surgeons. Model included treatment, sex, age, education, site and joint.||We included all 4 study groups, but the comparison group was: informed, patient centered decision yes vs. no.||0.065|0.016|<0.001
82475103|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|10.25|||TWO_SIDED|95.0|-29.7|10.8||||||Change at Week 13, Pain: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.8|-29.7|
82475104|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|14.3|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-1.3|29.8||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||29.8|-1.3|
82475105|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|7.89|||TWO_SIDED|95.0|-19.2|12.0||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-19.2|
82549418|NCT03420833|164800636|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
82549419|NCT05687916|164800645|SUPERIORITY||LS Mean Difference Estimate|-0.24|STANDARD_ERROR_OF_MEAN|3.277|=|0.989|TWO_SIDED|95.0|-6.67|6.18||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||6.18|-6.67|=0.989
82549420|NCT05687916|164800645|SUPERIORITY||LS Mean Difference Estimate|2.4|STANDARD_ERROR_OF_MEAN|3.227|=|0.916|TWO_SIDED|95.0|-3.93|8.72||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||8.72|-3.93|=0.916
82549421|NCT05687916|164800646|SUPERIORITY||LS Mean Difference Estimate|-0.32|STANDARD_ERROR_OF_MEAN|1.656|=|0.989|TWO_SIDED|95.0|-3.57|2.92||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.|LS in LS Mean Difference denotes least squares.|||2.92|-3.57|=0.989
82549422|NCT05687916|164800646|SUPERIORITY||LS Mean Difference Estimate|-3.06|STANDARD_ERROR_OF_MEAN|1.59|=|0.216|TWO_SIDED|95.0|-6.18|0.06||The analysis used a linear MMRM with fixed effects for Baseline, age, prior use of narcolepsy medications, treatment, visit, and treatment-by-visit interaction as covariates. Reported p-value is adjusted for multiplicity.|MMRM|An unstructured variance-covariance structure was used.||||0.06|-6.18|=0.216
82549423|NCT03332017|164800648|SUPERIORITY|||||||0.0017|||||||Cochran-Mantel-Haenszel|P-value was stratified by rituximab-refractory status, number of prior lines of therapy, and geographic region per interactive response technology.||||||0.0017
82549424|NCT03336333|164800703|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.63||One-sided|Log Rank|||||0.63|0.28|<0.0001
82549425|NCT04927065|164800728|OTHER||Geometric Mean Ratio (GMR)|2.5|||||TWO_SIDED|95.0|2.0|3.0|||||Omicron BA.1 Variant (B.1.1.529) nAB: Part A.2 versus Part A.1|||3.0|2.0|
82549426|NCT04927065|164800728|OTHER||GMR|2.0|||||TWO_SIDED|95.0|1.7|2.3|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||2.3|1.7|
82549427|NCT04927065|164800729|OTHER||Geometric Mean Ratio (GMR)|6.3|||||TWO_SIDED|95.0|4.5|8.9|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||8.9|4.5|
82549428|NCT04927065|164800729|OTHER||GMR|2.8|||||TWO_SIDED|95.0|2.1|3.6|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||3.6|2.1|
82475106|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|8.06|||TWO_SIDED|95.0|-9.1|22.8||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||22.8|-9.1|
82549429|NCT04927065|164800730|OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-3.1|5.6|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||5.6|-3.1|
82549430|NCT04927065|164800730|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||||
82549431|NCT04927065|164800731|OTHER||Percentage Difference|-1.3|||||TWO_SIDED|95.0|-6.9|4.3|||||Omicron variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||4.3|-6.9|
82549432|NCT04927065|164800731|OTHER||Percentage Difference|-2.6|||||TWO_SIDED|95.0|-9.6|4.5|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||4.5|-9.6|
82549433|NCT04927065|164800732|OTHER||Percentage Difference|12.9|||||TWO_SIDED|95.0|4.1|21.6|||||Omicron BA.1 variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||21.6|4.1|
82475107|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|7.83|||TWO_SIDED|95.0|-25.8|5.1||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||5.1|-25.8|
82475108|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|10.3|||TWO_SIDED|95.0|-28.8|12.0||||||Change at Week 13, Physical Functions: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||12.0|-28.8|
82475109|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-9.5|23.4||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||23.4|-9.5|
82475110|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|8.34|||TWO_SIDED|95.0|-22.4|10.6||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||10.6|-22.4|
82475111|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|12.2|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-4.5|28.9||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||28.9|-4.5|
82475112|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|8.22|||TWO_SIDED|95.0|-25.2|7.2||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||7.2|-25.2|
82475113|NCT00669409|164645821|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|10.86|||TWO_SIDED|95.0|-22.4|20.5||||||Change at Week 13, Stiffness: Mixed Model for Repeated Measures analyses included fixed effects of treatment, week, treatment by week, part, and baseline values.||20.5|-22.4|
82475114|NCT00813943|164645833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.0328|TWO_SIDED|95.0|0.484|0.972||P-value is not adjusted for multiple testing.|Log Rank|||||0.972|0.484|0.0328
82475115|NCT00813943|164645833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.858||||0.3771|TWO_SIDED|95.0|0.612|1.204||P-value is not adjusted for multiple testing.|Log Rank|||||1.204|0.612|0.3771
82475116|NCT05367492|164645846|SUPERIORITY||Odds Ratio (OR)|6.5|||<|0.001|TWO_SIDED|95.0|3.0|14.1|||Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||14.1|3.0|<0.001
82549434|NCT04927065|164800732|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||||
82549435|NCT04927065|164800733|OTHER||Percentage Difference|2.9|||||TWO_SIDED|95.0|-11.4|17.1|||||Omicron BA.1 variant (B.1.1.529) nAb: Part A.2 versus Part A.1|||17.1|-11.4|
82549436|NCT04927065|164800733|OTHER||Percentage Difference|-7.1|||||TWO_SIDED|95.0|-21.6|7.3|||||SARS-CoV-2 (D614G) nAb: Part A.2 versus Part A.1|||7.3|-21.6|
82549437|NCT04927065|164800734|OTHER||GMR|1.777|||||TWO_SIDED|95.0|1.523|2.073|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.073|1.523|
82549438|NCT04927065|164800735|OTHER||Percentage Difference|0.6|||||TWO_SIDED|95.0|-1.7|3.0|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||3.0|-1.7|
82549439|NCT04927065|164800736|OTHER||Percentage Difference|17.9|||||TWO_SIDED|95.0|9.8|26.0|||||Omicron BA.1 Variant (B.1.1.529) nAb - Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||26.0|9.8|
82549440|NCT04927065|164800737|OTHER||GMR|1.744|||||TWO_SIDED|97.5|1.492|2.04|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.040|1.492|
82549441|NCT04927065|164800737|OTHER||GMR|1.211|||||TWO_SIDED|97.5|1.074|1.366|||||SARS-CoV-2 (D614G) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||1.366|1.074|
82549442|NCT04927065|164800738|OTHER||GMR|1.676|||||TWO_SIDED|97.5|1.396|2.013|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.013|1.396|
82549443|NCT04927065|164800738|OTHER||GMR|1.105|||||TWO_SIDED|97.5|0.97|1.26|||||SARS-CoV-2 (D614G) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||1.260|0.970|
82549444|NCT04927065|164800739|OTHER||Percentage Difference|1.5|||||TWO_SIDED|97.5|-1.1|4.1|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||4.1|-1.1|
82549445|NCT04927065|164800740|OTHER||Percentage Difference|21.5|||||TWO_SIDED|97.5|12.8|30.2|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||30.2|12.8|
82549446|NCT04927065|164800741|OTHER||Percentage Difference|1.8|||||TWO_SIDED|97.5|-1.9|5.6|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||5.6|-1.9|
82549447|NCT04927065|164800742|OTHER||Percentage Difference|20.6|||||TWO_SIDED|97.5|12.4|28.7|||||Omicron BA.1 Variant (B.1.1.529) nAb: Part G: mRNA-1273.214 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||28.7|12.4|
82549448|NCT04927065|164800743|OTHER||GMR|6.412|||||TWO_SIDED|95.0|5.369|7.658|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||7.658|5.369|
82475117|NCT05367492|164645846|SUPERIORITY||||||<|0.001||||||The p-value is adjusted for multiple comparisons using per Benjamini \& Hochberg (1995) across the primary outcome measure. Effects were deemed significant for p\<0.05.|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
82475118|NCT05367492|164645847|SUPERIORITY||Odds Ratio (OR)|6.1|||<|0.001|TWO_SIDED|95.0|3.1|12.3||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||12.3|3.1|<0.001
82475119|NCT05367492|164645847|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
82475120|NCT05367492|164645848|SUPERIORITY||Odds Ratio (OR)|6.0||||0.001|TWO_SIDED|95.0|2.1|16.9||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Model fit to data from varenicline and placebo groups only, adjusted for sex and baseline E-cigarette Dependence Inventory score.|Adjusted odds ratio comparing varenicline (numerator) versus placebo (denominator).|||16.9|2.1|0.001
82475121|NCT05367492|164645848|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of five secondary analysis results (Varenicline vs Placebo comparisons of secondary abstinence outcomes, and omnibus tests of all three abstinence outcomes).|Regression, Logistic|Omnibus tests for any difference in abstinence rates across study groups, based on χ² Wald statistic and adjusted for sex and baseline ECDI score.||||||<0.001
82475122|NCT05367492|164645849|SUPERIORITY||Mean Difference (Net)|-1.88||||0.001|TWO_SIDED|95.0|-2.93|-0.83||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-0.83|-2.93|0.001
82475123|NCT05367492|164645849|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study group.||||||<0.001
82475124|NCT05367492|164645850|SUPERIORITY||Mean Difference (Net)|-6.76|||<|0.001|TWO_SIDED|95.0|-9.08|-4.45||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-4.45|-9.08|<0.001
82475125|NCT05367492|164645850|SUPERIORITY||||||<|0.001||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Omnibus tests of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study groups.||||||<0.001
82475126|NCT05367492|164645851|SUPERIORITY||Mean Difference (Net)|-1.78||||0.008|TWO_SIDED|95.0|-3.08|-0.48||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Varenicline vs Placebo comparisons of secondary inventory outcomes).|Regression, Linear|Models fit to data from varenicline and placebo groups only using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic trend of time.|Adjusted mean difference comparing varenicline versus placebo. Negative indicates larger mean in placebo.|||-0.48|-3.08|0.008
82475127|NCT05367492|164645851|SUPERIORITY|||||||0.02||||||Benjamini-Hochberg multiplicity correction applied to p-values reported across family of three secondary analysis results (Omnibus Wald test of secondary inventory outcomes).|Regression, Linear|Models fit using GEE, adjusted for sex, baseline ECDI and outcome score, and quadratic time. Omnibus Wald test of any difference across study groups.||||||0.02
82475128|NCT05367492|164645852|SUPERIORITY|||||||0.16|||||||Fisher Exact|||||||0.16
82475129|NCT05367492|164645852|SUPERIORITY|||||||0.083|||||||Fisher Exact|||||||0.083
82475130|NCT02891070|164645878|NON_INFERIORITY|To demonstrate non-inferiority (NI) of Tisseel to DuraSeal for the primary endpoint, the lower limit of the 95% CI (based on normal approximation) for the difference in average predicted proportions had to be greater than -10%.|Mean Difference (Net)|-9.29|||||TWO_SIDED|95.0|-21.11|2.54|||Regression, Logistic||Difference in Average Predicted Proportion (Tisseel - Duraseal)|||2.54|-21.11|
82475131|NCT02891070|164645880|OTHER||Mean Difference (Net)|-9.29|||||TWO_SIDED|95.0|-21.11|2.54|||Regression, Logistic||Difference in Average Predicted Proportion (Tisseel - Duraseal)|||2.54|-21.11|
82475132|NCT02891070|164645881|OTHER|||||||0.0241|||||||Wilcoxon (Mann-Whitney)|||||||0.0241
82475133|NCT02891070|164645882|OTHER|||||||0.1015|||||||Wilcoxon (Mann-Whitney)|||||||0.1015
82475134|NCT02891070|164645883|OTHER|||||||0.9943|||||||Wilcoxon (Mann-Whitney)|||||||0.9943
82475135|NCT02891070|164645884|OTHER||Mean Difference (Net)|-5.11|||||TWO_SIDED|95.0|-13.6|3.39|||Regression, Logistic|||||3.39|-13.60|
82475136|NCT04780919|164645887|SUPERIORITY|||||||0.722||||||p-value is adjusted to comparison between the Group A and Group B at 3 weeks follow-up after the last application.|Two-way ANOVA|||The Group A will have significantly decreased Cross Section Area compared to Group B at 3 weeks follow up after last application.||||0.722
82475137|NCT04780919|164645888|SUPERIORITY|||||||0.096||||||p-value is adjusted to comparison between the Group A and Group B in the timeframe of the last application.|Two-way ANOVA|||The maximum pain will decrease significantly more in Group A compared to Group B in the timeframe of the last application compared to baseline.||||0.096
82475138|NCT04780919|164645889|SUPERIORITY|||||||0.035||||||p-value is adjusted to comparison between the Group A and Group B at the 3 weeks follow up compared to baseline.|Two-way ANOVA|||The maximum pain will decrease significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.035
82475139|NCT04780919|164645890|SUPERIORITY|||||||0.171||||||p-value is adjusted to comparison between the Group A and Group B at the 3 weeks follow up compared to baseline.|Two-way ANOVA|||The maximum of ankle dorsiflexion range of motion will increase significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.171
82475140|NCT04780919|164645893|SUPERIORITY|||||||0.104||||||p-value is adjusted to comparison between the Group A and Group B in 3 weeks follow up after the last application.|Two-way ANOVA|||The VISA-A score will increase significantly more in Group A compared to Group B at the 3 weeks follow up compared to baseline.||||0.104
82475141|NCT04491604|164645900|EQUIVALENCE|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data.|responder rate difference|45.8||||0.00192|TWO_SIDED|95.0|23.6|68.0|||McNemar|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. A multiple imputation approach was used for missing data.|The difference is the treatment/discordance difference in percentage of responders (primary wounds with complete healing), which is the same as the difference in the percentage of treatment responders and the percentage of placebo responders.|The null hypothesis of interest was the absence of a treatment effect on wound healing and the alternative hypothesis is the presence of a treatment effect on wound healing. The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. For subjects with missing primary wound healing data, a multiple imputation approach was used.||68.0|23.6|0.00192
82475142|NCT04491604|164645901|EQUIVALENCE|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data.|responder rate difference|51.0||||0.00047|TWO_SIDED|95.0|29.3|72.6||There is no multiplicity adjustment needed since the hypothesis testing are hierarchical.|McNemar|The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. A multiple imputation approach was used for missing data.|The difference is the treatment/discordance difference in percentage of responders (complete wound healing), which is the same as the difference in the percentage of treatment responders and the percentage of placebo responders.|The null hypothesis of interest was the absence of a treatment effect on wound healing and the alternative hypothesis is the presence of a treatment effect on wound healing. The Hypothesis was tested by exact McNemar's test on the paired primary wound healing data. For subjects with missing primary wound healing data, a multiple imputation approach was used.||72.6|29.3|0.00047
82475143|NCT02191865|164645904|SUPERIORITY_OR_OTHER||ratio of the geometric means|215.39|STANDARD_DEVIATION|73.5|||TWO_SIDED|90.0|120.71|384.32|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-inf) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||384.32|120.71|
82475144|NCT02191865|164645904|SUPERIORITY_OR_OTHER||Ratio of geometric means|867.13|STANDARD_DEVIATION|45.9|||TWO_SIDED|90.0|572.93|1312.41|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-inf) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1312.41|572.93|
82475145|NCT02191865|164645905|SUPERIORITY_OR_OTHER||ratio of the geometric means|221.76|STANDARD_DEVIATION|61.4|||TWO_SIDED|90.0|134.73|365.01|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of Cmax was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||365.01|134.73|
82580254|NCT02729831|164871446|SUPERIORITY||Odds Ratio (OR)|25.7|||<|0.001|TWO_SIDED|95.0|16.5|40.1|||Regression, Logistic|General estimating equations were used to account for clustering of patients within surgeons.||We included all 4 study groups, but the comparison group was: informed, patient centered (IPC) decision yes vs. no. We excluded those who did not provide information to calculate the IPC variable.||40.1|16.5|<0.001
82475146|NCT02191865|164645905|SUPERIORITY_OR_OTHER||Ratio of geometric means|761.01|STANDARD_DEVIATION|69.1|||TWO_SIDED|90.0|439.01|1319.18|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of Cmax was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1319.18|439.01|
82475147|NCT02191865|164645906|SUPERIORITY_OR_OTHER||ratio of the geometric means|216.79|STANDARD_DEVIATION|75.0|||TWO_SIDED|90.0|120.37|390.45|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh A (Test): Healthy Child Pugh A (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-tz) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||390.45|120.37|
82475148|NCT02191865|164645906|SUPERIORITY_OR_OTHER||Ratio of geometric means|870.74|STANDARD_DEVIATION|45.7|||TWO_SIDED|90.0|576.36|1315.49|||ANOVA|Fixed effect: 'hepatic status'; indicated whether a subject with hepatic impairment or a healthy subject , Random effect: 'matched pair'.|Ratio of Child Pugh B (Test): Healthy Child Pugh B (Reference). The Standard deviation is the Intra-individual gCV|The statistical model used for the analysis of AUC (0-tz) was an ANOVA (analysis of variance) model on the logarithmic scale. Observations from a subject with hepatic impairment and the matched healthy control subject were analysed as a matched pair.||1315.49|576.36|
82580255|NCT01241604|164871533|EQUIVALENCE|Equivalent non-parametric tests||||||0.753|||||||Wilcoxon signed ranks test|||||||.753
82475149|NCT01523275|164645908|EQUIVALENCE|Analysis of 44 subjects (22 in each arm) would provide 90% power to detect a difference in the time interval to reoperation of 6 months between the two treatment arms, at an alpha level of 0.05. This difference of 6 months is clinically meaningful and is smaller than previous case series studies would suggest. However, due to poor patient accrual, the study was closed prior to reaching the desired study size.||||||0.95|||||||t-test, 2 sided|||||||0.95
82475150|NCT01523275|164645909|EQUIVALENCE|A difference of 6 months to symptom progression is clinically meaningful.||||||0.52|||||||t-test, 2 sided|||||||0.52
82475151|NCT01523275|164645910|EQUIVALENCE|0.5 liters per second is clinically significant.||||||0.64|||||||t-test, 2 sided|||||||0.64
82549449|NCT04927065|164800743|OTHER||GMR|1.967|||||TWO_SIDED|95.0|1.708|2.265|||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||2.265|1.708|
82475152|NCT01767142|164645923|OTHER||sucess proportion|83.9|||||TWO_SIDED|95.0|74.8|90.7||||||||90.7|74.8|
82475153|NCT04975230|164645938|OTHER||Cohen's D|0.17|STANDARD_ERROR_OF_MEAN|0.17||0.0227|TWO_SIDED|95.0|-0.37|0.78|||Mixed Models Analysis|||||0.78|-0.37|0.0227
82475154|NCT00926029|164645946|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82475155|NCT00926029|164645947|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82475156|NCT02471612|164645964|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||||||Comparing the sensitivity of APACHE-II and P-POSSUM|McNemar|||"Area under the curve (AUC) is used to measure the size of the prediction composed by the graphic display between the 'sensitivity' and the '1-specificity' relationship. AUC can range from 0.5 to 1.0 and a result of 1.0 indicates a perfect discriminatory ability. An AUC value \> 0.8 is considered good, a range between 0.60-0.80 is considered as moderate, and an AUC value \< 0.60 is regarded as poor."||||0.665
82475157|NCT00332722|164646017|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired t test|||||||<0.05
82475158|NCT00332722|164646018|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired t test|||||||<0.05
82475159|NCT02657408|164646019|EQUIVALENCE|confirmatory statistical hypothesis tested|Geometric mean ratio (%)|1.27||||0.3043|TWO_SIDED|90.0|0.86|1.87|||ANOVA|||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.87|0.86|0.3043
82475160|NCT02657408|164646020|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.01|||||TWO_SIDED|90.0|0.88|1.16||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.16|0.88|
82475161|NCT02657408|164646021|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.54|||||TWO_SIDED|90.0|0.59|4.03||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||4.03|0.59|
82475162|NCT02657408|164646022|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.17|||||TWO_SIDED|90.0|0.49|2.85||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||2.85|0.49|
82475163|NCT02657408|164646023|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.29|||||TWO_SIDED|90.0|0.91|1.83||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.83|0.91|
82475164|NCT02657408|164646024|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.03|||||TWO_SIDED|90.0|0.9|1.18||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.18|0.90|
82475165|NCT02657408|164646025|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|1.18|||||TWO_SIDED|90.0|0.91|1.53||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.53|0.91|
82475166|NCT02657408|164646026|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.94|||||TWO_SIDED|90.0|0.8|1.09||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.09|0.80|
82475167|NCT02657408|164646027|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.81|||||TWO_SIDED|90.0|0.51|1.28||||||The statistical model used for the primary analysis of primary endpoints was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||1.28|0.51|
82475168|NCT02657408|164646028|EQUIVALENCE|No statistical hypothesis tested|Geometric mean ratio (%)|0.64|||||TWO_SIDED|90.0|0.43|0.97||||||The statistical model used for the analysis was an ANOVA model on the logarithmic scale. This model included the effect 'treatment'.||0.97|0.43|
82475169|NCT02447302|164646044|SUPERIORITY||Difference in least square mean|-0.99|STANDARD_ERROR_OF_MEAN|0.42|=|0.0091|TWO_SIDED|90.0|-1.68|-0.3||The analysis was performed using an analysis of covariance (ANCOVA) model that incorporated treatment, current oral corticosteroid use, prior exposure to tumor necrosis factor alpha (TNFα) antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the adapted MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.30|-1.68|= 0.0091
82500458|NCT01500629|164691707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.291|TWO_SIDED|95.0|-2.12|0.67|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.67|-2.12|0.291
82500459|NCT01500629|164691708|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.899|TWO_SIDED|95.0|-1.21|1.07|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.07|-1.21|0.899
82549450|NCT04927065|164800744|OTHER||Percentage Difference|12.2|||||TWO_SIDED|95.0|6.9|17.4|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||17.4|6.9|
82376895|NCT03104400|164460618|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|25.3|||<|0.0001|TWO_SIDED|95.0|16.9|33.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||33.7|16.9|<0.0001
82376896|NCT03104400|164460619|NON_INFERIORITY|"Non-inferiority of each upadacitinib dose versus adalimumab was assessed using Koch's 3-arm approach; non-inferiority was achieved if upadacitinib preserved at least 50% of the placebo-subtracted adalimumab effect.~The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path."|Percent Adalimumab Effect Preservation|119.381|||<|0.0001|TWO_SIDED|95.0|97.987|147.942|||Koch 3-Arm Test||The percent of adalimumab effect preservation is the point estimate of 3-arm non-inferiority analysis, which is calculated by (Upadacitinib - Placebo) / (Adalimumab - Placebo) \* 100.|||147.942|97.987|<0.0001
82376897|NCT03104400|164460619|NON_INFERIORITY|"Non-inferiority of each upadacitinib dose versus adalimumab was assessed using Koch's 3-arm approach; non-inferiority was achieved if upadacitinib preserved at least 50% of the placebo-subtracted adalimumab effect.~The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path."|Percent Adalimumab Effect Preservation|146.604|||<|0.0001|TWO_SIDED|95.0|122.817|180.398|||Koch 3-Arm Test||The percent of adalimumab effect preservation is the point estimate of 3-arm non-inferiority analysis, which is calculated by (Upadacitinib - Placebo) / (Adalimumab - Placebo) \* 100.|||180.398|122.817|<0.0001
82376898|NCT03104400|164460620|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|4.67|||<|0.0001|TWO_SIDED|95.0|3.67|5.67|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.67|3.67|<0.0001
82376899|NCT03104400|164460620|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|5.72|||<|0.0001|TWO_SIDED|95.0|4.71|6.72|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||6.72|4.71|<0.0001
82376900|NCT03104400|164460621|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|3.5|||<|0.0001|TWO_SIDED|95.0|2.4|4.7|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||4.7|2.4|<0.0001
82376901|NCT03104400|164460621|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|4.3|||<|0.0001|TWO_SIDED|95.0|3.1|5.5|||Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||5.5|3.1|<0.0001
82376902|NCT03104400|164460622|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|5.6||||0.0815|TWO_SIDED|95.0|-0.6|11.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Adalimumab|||11.8|-0.6|0.0815
82376903|NCT03104400|164460622|SUPERIORITY|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|13.5|||<|0.0001|TWO_SIDED|95.0|7.5|19.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Adalimumab|||19.4|7.5|<0.0001
82376904|NCT03104400|164460623|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|36.8|||<|0.0001|TWO_SIDED|95.0|25.7|47.9||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||47.9|25.7|<0.0001
82376905|NCT03104400|164460623|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|Response Rate Difference|39.8|||<|0.0001|TWO_SIDED|95.0|28.8|50.9||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||50.9|28.8|<0.0001
82475170|NCT02447302|164646044|SUPERIORITY||Difference in least square mean|-0.43|STANDARD_ERROR_OF_MEAN|0.41|=|0.1457|TWO_SIDED|90.0|-1.11|0.24||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the adapted MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.24|-1.11|= 0.1457
82475171|NCT02447302|164646045|SUPERIORITY||MH estimate for difference in percentage|24.4|STANDARD_ERROR_OF_MEAN|8.87|=|0.003|TWO_SIDED|90.0|9.8|39.0||Mantel-Haenszel (MH) estimated common risk difference adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||39.0|9.8|= 0.003
82475172|NCT02447302|164646045|SUPERIORITY||MH estimate for difference in percentage|4.1|STANDARD_ERROR_OF_MEAN|7.98|=|0.3059|TWO_SIDED|90.0|-9.1|17.2||MH estimated common risk difference adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||17.2|-9.1|= 0.3059
82549451|NCT04927065|164800744|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||||
82475173|NCT02447302|164646046|SUPERIORITY||Difference in least square mean|-0.84|STANDARD_ERROR_OF_MEAN|0.29|=|0.002|TWO_SIDED|90.0|-1.32|-0.36||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the 2-component MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.36|-1.32|= 0.0020
82475174|NCT02447302|164646046|SUPERIORITY||Difference in least square mean|-0.39|STANDARD_ERROR_OF_MEAN|0.28|=|0.0858|TWO_SIDED|90.0|-0.85|0.08||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the 2-component MCS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.08|-0.85|= 0.0858
82475175|NCT02447302|164646047|SUPERIORITY||Difference in least square mean|-1.27|STANDARD_ERROR_OF_MEAN|0.55|=|0.01|TWO_SIDED|90.0|-2.17|-0.37||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the TMS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 2 mg from placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||-0.37|-2.17|= 0.0100
82475176|NCT02447302|164646047|SUPERIORITY||Difference in least square mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53|=|0.1277|TWO_SIDED|90.0|-1.48|0.27||The analysis was performed using an ANCOVA model that incorporated treatment, current oral corticosteroid use, prior exposure to TNFα antagonists, and baseline value as covariate.|ANCOVA|The analysis compared the TMS change from baseline between treatment groups using a 1-sided test at the 0.05 level of significance.|Estimated least square mean difference in etrasimod 1 mg from placebo|||0.27|-1.48|= 0.1277
82475177|NCT02447302|164646048|SUPERIORITY||Odds Ratio (OR)|2.78|||=|0.0071|TWO_SIDED|90.0|1.4|5.51||The analysis was performed using an ordered logistic regression model with terms for treatment, current oral corticosteroid use, and prior exposure to TNFα antagonists.|ANCOVA|The analysis compared the odds of achieving higher trichotomous composite score between the groups using 1-sided test at 0.05 level of significance.||The primary comparison in the study was between etrasimod 2 mg versus placebo.||5.51|1.40|= 0.0071
82475178|NCT02447302|164646048|SUPERIORITY||Odds Ratio (OR)|1.61|||=|0.1192|TWO_SIDED|90.0|0.83|3.14||The analysis was performed using an ordered logistic regression model with terms for treatment, current oral corticosteroid use, and prior exposure to TNFα antagonists.|ANCOVA|The analysis compared the odds of achieving higher trichotomous composite score between the groups using 1-sided test at 0.05 level of significance.||||3.14|0.83|= 0.1192
82475179|NCT02447302|164646049|SUPERIORITY||MH estimate for difference in percentage|25.8|STANDARD_ERROR_OF_MEAN|7.47|=|0.0003|TWO_SIDED|90.0|13.5|38.1||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||38.1|13.5|= 0.0003
82475180|NCT02447302|164646049|SUPERIORITY||MH estimate for difference in percentage|7.1|STANDARD_ERROR_OF_MEAN|6.46|=|0.136|TWO_SIDED|90.0|-3.5|17.7||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||17.7|-3.5|= 0.1360
82475181|NCT02447302|164646050|SUPERIORITY||MH estimate for difference in percentage|18.9|STANDARD_ERROR_OF_MEAN|9.92|=|0.0282|TWO_SIDED|90.0|2.6|35.3||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 2 mg from Placebo|The primary comparison in the study was between etrasimod 2 mg versus placebo.||35.3|2.6|= 0.0282
82549452|NCT04927065|164800745|OTHER||Percentage Difference|54.7|||||TWO_SIDED|95.0|47.5|61.8|||||Omicron Variant (BA.4/BA.5) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||61.8|47.5|
82549453|NCT04927065|164800745|OTHER||Percentage Difference|37.6|||||TWO_SIDED|95.0|29.3|45.9|||||SARS-CoV-2 (D614G) nAb: Part H mRNA-1273.222 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||45.9|29.3|
82475182|NCT02447302|164646050|SUPERIORITY||MH estimate for difference in percentage|11.4|STANDARD_ERROR_OF_MEAN|10.14|=|0.1309|TWO_SIDED|90.0|-5.3|28.1||The analysis was performed using MH method that was adjusted for current oral corticosteroid therapy at baseline and previous exposure to TNFα antagonists.|Mantel Haenszel|The analysis compared the difference in proportions between treatment groups using a 1-sided test at the 0.05 level of significance.|MH estimated difference in etrasimod 1 mg from Placebo|||28.1|-5.3|= 0.1309
82475183|NCT01901250|164646051|SUPERIORITY_OR_OTHER|||||||0.25|||||||Permutation test|Adjusted for child's gender, caries burden at study entry, surface-years at risk, and study cohort.||||||0.25
82475184|NCT01400880|164646082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|STANDARD_DEVIATION|3.28|||TWO_SIDED|95.0|1.7|4.27||||||All subjects were monitored with the electrode sensor, TOCO and IUPC. Measurements were taken with the electrode sensor vs. IUPC and were also taken with TOCO vs. IUPC and those measurements were compared to each other. These results are for TOCO and IUPC. Agreement between TOCO and IUPC. Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0.||4.27|1.70|
82475185|NCT01400880|164646082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_DEVIATION|2.65|||TWO_SIDED|95.0|2.98|4.92||||||All subjects were monitored with the electrode sensor, TOCO and IUPC. Measurements were taken with the electrode sensor vs. IUPC and were also taken with TOCO vs. IUPC and those measurements were compared to each other. These results are for the electrode sensor and IUPC. Agreement between electrode sensor and IUPC. Null hypothesis: the mean peak difference between TOCO and IUPC is equal to 0. Alternative hypothesis: the mean peak difference is not equal to 0.||4.92|2.98|
82475186|NCT02695420|164646108|SUPERIORITY||Treatment Difference|22.1|STANDARD_ERROR_OF_MEAN|6.3||0.0008|TWO_SIDED|95.0|9.6|34.7|||Repeated Measures Model|||||34.7|9.6|0.0008
82376906|NCT03104400|164460624|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|0.0||||0.897|TWO_SIDED|95.0|-0.3|0.3||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||0.3|-0.3|0.8970
82475187|NCT02695420|164646108|SUPERIORITY||Treatment Difference|29.3|STANDARD_ERROR_OF_MEAN|6.5|<|0.0001|TWO_SIDED|95.0|16.3|42.3|||Repeated measures model|||||42.3|16.3|< 0.0001
82475188|NCT02695420|164646108|SUPERIORITY||Treatment Difference|25.5|STANDARD_ERROR_OF_MEAN|6.5||0.0002|TWO_SIDED|95.0|12.6|38.4|||Repeated measures model|||||38.4|12.6|0.0002
82475189|NCT00916929|164646123|SUPERIORITY_OR_OTHER||rate per patient year of follow up|1.5||||||95.0|||||exact method|95% Upper Confidence Limit of objective performance criteria||"For each patient cohort, the hypothesis is formally expressed as follows:~H0: Expected False Positive Rate ≥1.5 per patient-year of follow-up Ha: Expected False Positive Rate \<1.5 per patient-year of follow-up~The null hypothesis is rejected at the 5% significance level if the 95% upper confidence limit (UCL) for expected FPR is less than 1.5 per patient-year of follow-up."||||
82475190|NCT00916929|164646124|SUPERIORITY_OR_OTHER||sensitivity|50.0|STANDARD_ERROR_OF_MEAN|5.0|||ONE_SIDED|95.0|50.0||||exact method|||"For each patient cohort, the hypothesis is formally expressed as follows:~H0: Sensitivity ≤ 50% Ha: Sensitivity \> 50%~The desired outcome was to reject the null hypothesis at the 5% significance level. The null hypothesis is rejected at the 5% significance level if the 95% lower confidence limit (LCL) for sensitivity is greater than 50%."|||50|
82475191|NCT02428478|164646125|OTHER|||||||0.01||||||P\<0.05 considered statistically significant|Wilcoxon Matched-Pairs Signed-Rank Test|||Tonic analysis||||0.01
82475192|NCT02428478|164646125|OTHER|||||||0.38||||||P\<0.05 considered statistically significant|Wilcoxon Matched-Pairs Signed-Rank Test|||Phasic analysis||||0.38
82475193|NCT02428478|164646126|OTHER||Median Change|-0.6||||0.037|TWO_SIDED||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Passive Pcrit||||0.037
82475194|NCT02428478|164646126|OTHER||||||>|0.5|||||||Wilcoxon Matched-Pairs Signed-Rank Test|||Active Pcrit||||>0.5
82475195|NCT02878798|164646127|OTHER|Non-inferiority and superiority tests were completed|Slope|0.2105|||||ONE_SIDED|95.0|-0.4328||||||||||-0.4328|
82475196|NCT02878798|164646128|OTHER|Non-inferiority and superiority tests were done|Slope|-1.5219|||||ONE_SIDED|95.0||1.1933||||||||1.1933||
82475197|NCT02878798|164646129|SUPERIORITY||Slope|-0.02322|||||TWO_SIDED|95.0|-0.6337|0.5872|||Mixed Models Analysis|||||0.5872|-0.6337|
82475198|NCT02878798|164646130|SUPERIORITY||Slope|-0.168||||0.261|TWO_SIDED|95.0|-0.4612|0.1253|||Mixed Models Analysis|||||0.1253|-0.4612|0.261
82475199|NCT02878798|164646131|SUPERIORITY||Slope|-0.061||||0.9007|TWO_SIDED|95.0|-1.0213|0.8992|||Mixed Models Analysis|||||0.8992|-1.0213|0.9007
82475200|NCT02878798|164646132|SUPERIORITY||Slope|0.0106||||0.8174|TWO_SIDED|95.0|-0.0793|0.1005|||Hurdle model|||||0.1005|-0.0793|0.8174
82475201|NCT02878798|164646133|SUPERIORITY||Slope|-0.7394||||0.0233|TWO_SIDED|95.0|-1.3775|-0.1013|||Mixed Models Analysis|||||-0.1013|-1.3775|0.0233
82475202|NCT02878798|164646134|SUPERIORITY||Slope|-0.1328||||0.7586|TWO_SIDED|95.0|-0.982|0.7164|||Mixed Models Analysis|||||0.7164|-0.982|0.7586
82475203|NCT02878798|164646135|SUPERIORITY||Slope|-0.0021||||0.9604|TWO_SIDED|95.0|-0.084|0.0799|||Mixed Models Analysis|||||0.0799|-0.084|0.9604
82475204|NCT02878798|164646136|SUPERIORITY||Slope|-0.0396||||0.2365|TWO_SIDED|95.0|-0.1053|0.0261|||Mixed Models Analysis|||||0.0261|-0.1053|0.2365
82475205|NCT02878798|164646137|SUPERIORITY||Slope|2.3848||||0.5813|TWO_SIDED|95.0|-6.1336|10.9032|||Mixed Models Analysis|||||10.9032|-6.1336|0.5813
82475206|NCT02878798|164646138|SUPERIORITY||Slope|-1.0547||||0.4092|TWO_SIDED|95.0|-3.5705|1.4611|||Mixed Models Analysis|||||1.4611|-3.5705|0.4092
82549454|NCT04927065|164800754|OTHER||GMR|0.836|||||TWO_SIDED|95.0|0.745|0.938|||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||0.938|0.745|
82549455|NCT04927065|164800755|OTHER||SRR Difference|0.0|||||TWO_SIDED|95.0|||||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg 95% CI could not be calculated due to the SRR difference is 0.|||||
82549456|NCT04927065|164800756|OTHER||SRR Difference|-13.1|||||TWO_SIDED|95.0|-21.2|-5.0|||||SARS-CoV-2 (D614G) nAb: Part F (Cohort 2): mRNA-1273.529 50 μg versus Part F (Cohort 2): mRNA-1273 50 μg|||-5.0|-21.2|
82475207|NCT01708902|164646190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.12||0.0587|TWO_SIDED|95.0|-0.45|0.01|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||0.01|-0.45|0.0587
82475208|NCT01708902|164646190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.23|-0.78|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.78|-1.23|<0.0001
82475209|NCT01708902|164646190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.73|-0.29|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Metformin 500mg BID'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.29|-0.73|<0.0001
82475210|NCT01708902|164646190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.09|-0.64|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|"The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate.~The null and alternative hypotheses were tested in a hierarchical sequence. The next null hypothesis was tested in a confirmatory way only if all prior null-hypotheses were rejected. 'Greater effect' refers to a greater reduction in HbA1c."||-0.64|-1.09|<0.0001
82475211|NCT01708902|164646191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.673|STANDARD_ERROR_OF_MEAN|0.487||0.0771|TWO_SIDED|95.0|0.946|2.961|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.961|0.946|0.0771
82475212|NCT01708902|164646191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.489|STANDARD_ERROR_OF_MEAN|1.543|<|0.0001|TWO_SIDED|95.0|3.164|9.522|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||9.522|3.164|<0.0001
82475213|NCT01708902|164646191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.829|STANDARD_ERROR_OF_MEAN|0.753|<|0.0001|TWO_SIDED|95.0|1.678|4.767|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||4.767|1.678|<0.0001
82475214|NCT01708902|164646191|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.818|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|2.259|6.454|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||6.454|2.259|<0.0001
82475215|NCT01708902|164646192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.169|STANDARD_ERROR_OF_MEAN|1.565||0.0001|TWO_SIDED|95.0|1.997|8.701|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||8.701|1.997|0.0001
82475216|NCT01708902|164646193|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.661|STANDARD_ERROR_OF_MEAN|0.426||0.048|TWO_SIDED|95.0|1.004|2.746|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.746|1.004|0.0480
82475217|NCT01708902|164646193|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.923|STANDARD_ERROR_OF_MEAN|1.632|<|0.0001|TWO_SIDED|95.0|3.452|10.164|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||10.164|3.452|<0.0001
82475218|NCT01708902|164646193|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.574|STANDARD_ERROR_OF_MEAN|0.655||0.0002|TWO_SIDED|95.0|1.563|4.239|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||4.239|1.563|0.0002
82475219|NCT01708902|164646193|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.682|STANDARD_ERROR_OF_MEAN|1.27|<|0.0001|TWO_SIDED|95.0|2.751|7.968|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||7.968|2.751|<0.0001
82475220|NCT01708902|164646194|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.135|STANDARD_ERROR_OF_MEAN|1.31||0.0062|TWO_SIDED|95.0|1.383|7.11|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||7.110|1.383|0.0062
82475221|NCT01708902|164646195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0109|TWO_SIDED|95.0|-0.53|-0.07|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.07|-0.53|0.0109
82475222|NCT01708902|164646195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.27|-0.81|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.81|-1.27|<0.0001
82475223|NCT01708902|164646195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.7|-0.24|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID ' minus 'Main: Metformin 500mg BID' .|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.24|-0.70|<0.0001
82475224|NCT01708902|164646195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.04|-0.58|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|"Sensitivity analysis: Mixed Model for repeated measurements~The model includes baseline HbA1c as a linear covariate; visit, treatment and visit by treatment interaction as fixed classification effects and patient as a random effect with unstructured covariance structure to model within-patients errors."||-0.58|-1.04|<0.0001
82475225|NCT01708902|164646196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.32||0.0001|TWO_SIDED|95.0|-1.87|-0.63|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'APG: Linagliptin 5mg QD'.|"The treatment effect of the 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' was compared with 'APG: Linagliptin 5mg QD'.~The model includes treatment as a fixed effect and baseline HbA1c as a linear covariate."||-0.63|-1.87|0.0001
82475226|NCT01708902|164646197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.986|STANDARD_ERROR_OF_MEAN|0.387||0.9705|TWO_SIDED|95.0|0.456|2.13|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Metformin 1000mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||2.130|0.456|0.9705
82475227|NCT01708902|164646197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.093|STANDARD_ERROR_OF_MEAN|1.029||0.0007|TWO_SIDED|95.0|1.612|5.938|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||5.938|1.612|0.0007
82475228|NCT01708902|164646197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|STANDARD_ERROR_OF_MEAN|1.243||0.0029|TWO_SIDED|95.0|1.486|6.849|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c."||6.849|1.486|0.0029
82475229|NCT01708902|164646197|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.871|STANDARD_ERROR_OF_MEAN|1.846|<|0.0001|TWO_SIDED|95.0|2.318|10.238|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||10.238|2.318|<0.0001
82475230|NCT01708902|164646198|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.865|STANDARD_ERROR_OF_MEAN|1.015||0.2523|TWO_SIDED|95.0|0.642|5.42|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||5.420|0.642|0.2523
82475231|NCT01708902|164646199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.37|STANDARD_ERROR_OF_MEAN|3.23||0.0971|TWO_SIDED|95.0|-11.72|0.98|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Metformin 1000mg BID'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||0.98|-11.72|0.0971
82475232|NCT01708902|164646199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.42|STANDARD_ERROR_OF_MEAN|3.19|<|0.0001|TWO_SIDED|95.0|-38.67|-26.16|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'Main: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-26.16|-38.67|<0.0001
82475233|NCT01708902|164646199|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.47|STANDARD_ERROR_OF_MEAN|3.16||0.0028|TWO_SIDED|95.0|-15.66|-3.27|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Metformin 500mg BID'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-3.27|-15.66|0.0028
82549457|NCT04927065|164800757|OTHER||SRR Difference|0.0|||||TWO_SIDED|97.5|||||||SARS-CoV-2 (D614G) nAb at Day 29: Part G versus Part F (Cohort 2) mRNA-1273 95% CI could not be calculated due to the SRR difference is 0.|||||
82549458|NCT04927065|164800757|OTHER||SRR Difference|0.9|||||TWO_SIDED|97.5|-1.6|3.5|||||SARS-CoV-2 (D614G) nAb at Day 91: Part G versus Part F (Cohort 2) mRNA-1273|||3.5|-1.6|
82549459|NCT04927065|164800757|OTHER||SRR Difference|-0.1|||||TWO_SIDED|95.0|-2.3|2.1|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||2.1|-2.3|
82475234|NCT01708902|164646199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.31|STANDARD_ERROR_OF_MEAN|3.17|<|0.0001|TWO_SIDED|95.0|-30.54|-18.08|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' minus 'Main: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-18.08|-30.54|<0.0001
82549460|NCT04927065|164800757|OTHER||SRR Difference|-1.9|||||TWO_SIDED|95.0|-5.3|1.5|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.5|-5.3|
82549461|NCT04927065|164800758|OTHER||SRR Difference|10.9|||||TWO_SIDED|97.5|1.7|20.1|||||SARS-CoV-2 (D614G) nAb at Day 29: Part G versus Part F (Cohort 2) mRNA-1273|||20.1|1.7|
82549462|NCT04927065|164800758|OTHER||SRR Difference|9.2|||||TWO_SIDED|97.5|1.4|17.0|||||SARS-CoV-2 (D614G) nAb at Day 91: Part G versus Part F (Cohort 2) mRNA-1273|||17.0|1.4|
82549463|NCT04927065|164800758|OTHER||SRR Difference|10.1|||||TWO_SIDED|95.0|3.0|17.2|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||17.2|3.0|
82549464|NCT04927065|164800758|OTHER||SRR Difference|4.3|||||TWO_SIDED|95.0|-5.0|13.6|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||13.6|-5.0|
82549465|NCT04927065|164800760|OTHER||GMR|1.818|||||TWO_SIDED|95.0|1.469|2.249|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||2.249|1.469|
82549466|NCT04927065|164800762|OTHER||SRR Difference|0.0|||||TWO_SIDED|95.0|-2.6|2.5|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||2.5|-2.6|
82549467|NCT04927065|164800764|OTHER||SRR Difference|25.5|||||TWO_SIDED|95.0|16.9|34.1|||||SARS-CoV-2 (D614G) nAb: Part H versus Part F (Cohort 2) mRNA-1273|||34.1|16.9|
82549468|NCT04927065|164800765|OTHER||SRR Difference|5.0|||||TWO_SIDED|95.0|0.3|9.8|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||9.8|0.3|
82549469|NCT04927065|164800765|OTHER||SRR Difference|5.6|||||TWO_SIDED|95.0|-0.3|11.5|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||11.5|-0.3|
82549470|NCT04927065|164800766|OTHER||SRR Difference|14.5|||||TWO_SIDED|95.0|6.7|22.3|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||22.3|6.7|
82549471|NCT04927065|164800766|OTHER||SRR Difference|8.0|||||TWO_SIDED|95.0|-2.1|18.0|||||Omicron BA.1 Variant (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||18.0|-2.1|
82549472|NCT04927065|164800767|OTHER||GMR|1.637|||||TWO_SIDED|95.0|1.243|2.155|||||SARS-CoV-2 (B.1.1.529) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||2.155|1.243|
82549473|NCT04927065|164800767|OTHER||GMR|1.373|||||TWO_SIDED|95.0|0.953|1.976|||||SARS-CoV-2 (B.1.1.529) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.976|0.953|
82549474|NCT04927065|164800767|OTHER||GMR|1.271|||||TWO_SIDED|95.0|1.051|1.537|||||SARS-CoV-2 (D614G) nAb at Day 181: Part G versus Part F (Cohort 2) mRNA-1273|||1.537|1.051|
82549475|NCT04927065|164800767|OTHER||GMR|1.101|||||TWO_SIDED|95.0|0.83|1.461|||||SARS-CoV-2 (D614G) nAb at Day 366: Part G versus Part F (Cohort 2) mRNA-1273|||1.461|0.830|
82549476|NCT03892616|164800780|OTHER||Ratio of adjusted geometric means [%]|97.4|||||TWO_SIDED|90.0|82.3|115.3|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||115.3|82.3|
82650959|NCT02363010|165016723|SUPERIORITY|||||||0.851||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.851
82650960|NCT02363010|165016723|SUPERIORITY|||||||0.978||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Disinhibited Eating would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.978
82549477|NCT03892616|164800780|OTHER||Ratio of adjusted geometric means [%]|183.0|||||TWO_SIDED|90.0|154.0|217.4|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||217.4|154.0|
82549478|NCT03892616|164800780|OTHER||Ratio of adjusted geometric means [%]|114.8|||||TWO_SIDED|90.0|96.5|136.6|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||136.6|96.5|
82549479|NCT03892616|164800780|OTHER||Ratio of adjusted geometric means [%]|66.5|||||TWO_SIDED|90.0|55.5|79.5|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 25.44|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||79.5|55.5|
82549480|NCT03892616|164800781|OTHER||Ratio of adjusted geometric means [%]|60.2|||||TWO_SIDED|90.0|55.3|65.5|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||65.5|55.3|
82549481|NCT03892616|164800781|OTHER||Ratio of adjusted geometric means [%]|71.5|||||TWO_SIDED|90.0|65.6|78.0|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||78.0|65.6|
82549482|NCT03892616|164800781|OTHER||Ratio of adjusted geometric means [%]|177.9|||||TWO_SIDED|90.0|162.8|194.3|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||194.3|162.8|
82549483|NCT03892616|164800781|OTHER||Ratio of adjusted geometric means [%]|152.9|||||TWO_SIDED|90.0|139.5|167.7|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.65|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||167.7|139.5|
82650961|NCT02363010|165016724|SUPERIORITY|||||||0.796||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.796
82549484|NCT03892616|164800782|OTHER||Ratio of adjusted geometric means [%]|60.3|||||TWO_SIDED|90.0|55.4|65.7|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||65.7|55.4|
82549485|NCT03892616|164800782|OTHER||Ratio of adjusted geometric means [%]|71.1|||||TWO_SIDED|90.0|65.2|77.6|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||77.6|65.2|
82549486|NCT03892616|164800782|OTHER||Ratio of adjusted geometric means [%]|175.8|||||TWO_SIDED|90.0|160.8|192.2|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||192.2|160.8|
82549487|NCT03892616|164800782|OTHER||Ratio of adjusted geometric means [%]|150.2|||||TWO_SIDED|90.0|136.9|164.7|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 12.70|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||164.7|136.9|
82549488|NCT03892616|164800783|OTHER||Ratio of adjusted geometric means [%]|56.5|||||TWO_SIDED|90.0|51.8|61.7|||||The ratio was calculated as adjusted geometric mean of TF2a fasted (C) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||61.7|51.8|
82475235|NCT01708902|164646200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.21|STANDARD_ERROR_OF_MEAN|9.23||0.0002|TWO_SIDED|95.0|-53.48|-16.95|||ANCOVA||The adjusted mean difference was calculated as the adjusted mean of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' minus 'APG: Linagliptin 5mg QD'.|The model includes continuous baseline HbA1c, continuous baseline FPG and treatment group.||-16.95|-53.48|0.0002
82549489|NCT03892616|164800783|OTHER||Ratio of adjusted geometric means [%]|70.5|||||TWO_SIDED|90.0|64.4|77.1|||||The ratio was calculated as adjusted geometric mean of TF2b fasted (E) as numerator and adjusted geometric mean of TF1 fed (A) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||77.1|64.4|
82549490|NCT03892616|164800783|OTHER||Ratio of adjusted geometric means [%]|185.3|||||TWO_SIDED|90.0|169.4|202.8|||||The ratio was calculated as adjusted geometric mean of TF2a fed (B) as numerator and adjusted geometric mean of TF2a fasted (C) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||202.8|169.4|
82650962|NCT02363010|165016724|SUPERIORITY|||||||0.481||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.481
82650963|NCT02363010|165016724|SUPERIORITY|||||||0.872||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.872
82549491|NCT03892616|164800783|OTHER||Ratio of adjusted geometric means [%]|158.4|||||TWO_SIDED|90.0|144.3|173.9|||||The ratio was calculated as adjusted geometric mean of TF2b fed (D) as numerator and adjusted geometric mean of TF2b fasted (E) as denominator, \*100. Intra-individual geometric coefficient of variation (gCV \[%\]) = 13.02|Relative bioavailability: ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA). The model on logarithmic scale included random effect of 'subjects within sequences' and fixed effect of 'sequence or block', 'period', 'treatment'.||173.9|144.3|
82549492|NCT02243709|164800784|OTHER||||||>|0.05|||||||Chi-squared|||||||>.05
82549493|NCT04169373|164800803|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|26.4|||<|0.0001|TWO_SIDED|95.0|17.9|34.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|Efficacy analyses and hypothesis testing including multiplicity adjustment were performed independently for Study 1 and Study 2.||34.9|17.9|<0.0001
82650964|NCT02363010|165016724|SUPERIORITY|||||||0.802||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Hedonic Hunger would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.802
82475236|NCT01708902|164646201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.209|STANDARD_ERROR_OF_MEAN|0.148||0.0271|TWO_SIDED|95.0|0.052|0.838|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 1000mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||0.838|0.052|0.0271
82475237|NCT01708902|164646201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.965|STANDARD_ERROR_OF_MEAN|0.916||0.9699|TWO_SIDED|95.0|0.15|6.202|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Metformin 500mg BID'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||6.202|0.150|0.9699
82475238|NCT01708902|164646201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.183|STANDARD_ERROR_OF_MEAN|0.147||0.0343|TWO_SIDED|95.0|0.038|0.882|||Regression, Logistic|||"Comparison of 'Main: Linagliptin 2.5mg / Metformin 500mg BID' / 'Main: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c. The validity of the model is questionable as there is possibly a quasi-complete separation of data points, the results shown are based on the last maximum likelihood iteration."||0.882|0.038|0.0343
82475239|NCT01708902|164646202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.114|STANDARD_ERROR_OF_MEAN|0.125||0.0474|TWO_SIDED|95.0|0.013|0.976|||Regression, Logistic|||"Comparison of 'APG: Linagliptin 2.5mg / Metformin 1000mg BID' / 'APG: Linagliptin 5mg QD'.~The logistic regression includes treatment and continuous baseline HbA1c."||0.976|0.013|0.0474
82475240|NCT01980485|164646206|NON_INFERIORITY_OR_EQUIVALENCE|This study had 87% power to detect a 40% increase in 28-dayabstinence rates (i.e., from 50% to 70%) based on a two-tailed chi-squared test and alpha = 0.05. We selected this effect size as being at the lower end of the effect size continuum that would be clinically meaningful at 28 days and have the potential to still be meaningful in the longer term even with similar relapse rates in both groups over subsequent months.||||||0.65|||||||Chi-squared|||||||.65
82475241|NCT00745849|164646220|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||||||0.45
82475242|NCT01129583|164646221|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
82549494|NCT04169373|164800804|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|22.2|||<|0.0001|TWO_SIDED|95.0|12.1|32.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP status.|Response Rate Difference = Upadacitinib - Placebo|"Efficacy analyses and hypothesis testing including multiplicity adjustment were performed independently for Study 1 and Study 2.~Binary endpoints in Study 2 were analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by the main stratification factor of positivity for MRI inflammation in the sacroiliac joints and screening hsCRP status (MRI-positive and hsCRP \> ULN vs MRI-positive and hsCRP ≤ ULN vs MRI-negative and hsCRP \> ULN)."||32.3|12.1|<0.0001
82475243|NCT01129583|164646222|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
82475244|NCT01129583|164646223|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
82475245|NCT04672954|164646224|OTHER||Ratio|1.29||||0.3941|TWO_SIDED|90.0|0.78|2.13|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.34|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.13|0.78|0.3941
82475246|NCT04672954|164646224|OTHER||Ratio|1.66||||0.1089|TWO_SIDED|90.0|0.99|2.79|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.35|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.79|0.99|0.1089
82475247|NCT04672954|164646224|OTHER||Ratio|1.14||||0.6308|TWO_SIDED|90.0|0.71|1.85|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.32|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||1.85|0.71|0.6308
82475248|NCT04672954|164646224|OTHER||Ratio|1.75||||0.069|TWO_SIDED|90.0|1.06|2.89|||ANCOVA||Ratio = BI / Placebo. Geometric standard error = 1.33|The difference between the expected means for ln(T) - ln(R) was estimated by the difference in the corresponding least square means (point estimate) and two-sided 90% confidence intervals based on the t-distribution were computed. These quantities were back-transformed to the original scale to give the point estimator and interval estimates.||2.89|1.06|0.0690
82475249|NCT00353470|164646236|SUPERIORITY||shared parameters model|-0.56|STANDARD_ERROR_OF_MEAN|0.29|>|0.16|TWO_SIDED||||||Chi-squared|||Power: to detect a between-group effect size of 0.45, for statistical power of 0.80, 56 patients for PFPP or CBT vs. 28 for ART were required. Response rates at termination were calculated by chi-square in the full ITT sample using LOCF.||||>0.16
82475250|NCT00353470|164646236|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<.05
82650965|NCT02363010|165016725|SUPERIORITY|||||||0.926||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that baseline Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.926
82475251|NCT01235598|164646252|SUPERIORITY_OR_OTHER||Median difference within group changes|-1.5||||0.049|TWO_SIDED|95.0|-3.0|0.0||Two-sided p-value is presented, with p \< 0.05 as the threshold for statistical significance.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.0|-3.0|0.049
82475252|NCT01235598|164646253|SUPERIORITY_OR_OTHER||Median Difference within group changes|-1.0||||0.206|TWO_SIDED|95.0|-3.0|1.0||Two-sided p-value is presented, with p \< 0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \< 0.05). Hypothesis testing was stopped if and when a non-significant result was obtained. Testing was stopped in the next step.||1.0|-3.0|0.206
82475253|NCT01235598|164646257|SUPERIORITY_OR_OTHER||Median difference within group changes|-0.0035||||0.164|TWO_SIDED|95.0|-0.012|0.0025||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.0025|-0.0120|0.164
82376943|NCT01297985|164460818|SUPERIORITY||MIXREG Estimate|0.03|STANDARD_ERROR_OF_MEAN|0.01||0.022|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this third model included the general symptom distress as moderator||"We tested 3 moderating variables: BSI depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes general symptom distress as the moderator (high symptom distress X time X study condition)"||||.022
82475254|NCT01235598|164646258|SUPERIORITY_OR_OTHER||Median difference within group changes|-0.069||||0.865|TWO_SIDED|95.0|-0.201|0.138||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||0.1380|-0.2010|0.865
82475255|NCT01235598|164646259|SUPERIORITY_OR_OTHER||Median difference within group changes|-421.5||||0.015|TWO_SIDED|95.0|-1542.5|-47.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance. A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses.|Permutation test with general scores||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|A fixed-sequence stepwise hypothesis testing procedure was followed using a pre-specified set of ordered hypotheses. Hypotheses were ordered and tested in that order, beginning with change from Baseline at Week 16, and continuing to earlier time points (Week 8, 4, 2, 1 in that order) only if the previous null hypothesis of zero difference was rejected (p \<0.05). Hypothesis testing was stopped if and when a non-significant result was obtained.||-47.0|-1542.5|0.015
82475256|NCT01235598|164646271|SUPERIORITY_OR_OTHER|||||||0.394|||||||Spearman rank correlation|||||||0.394
82475257|NCT01235598|164646272|SUPERIORITY_OR_OTHER|||||||0.625|TWO_SIDED||||||Spearman rank correlation|||||||0.625
82475258|NCT01235598|164646273|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||Spearman rank correlation|||||||0.128
82475259|NCT01235598|164646274|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED||||||Spearman rank correlation|||||||0.732
82475260|NCT01235598|164646275|SUPERIORITY_OR_OTHER|||||||0.411|TWO_SIDED||||||Spearman rank correlation|||||||0.411
82475261|NCT01235598|164646276|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED||||||Spearman rank correlation|||||||0.208
82475262|NCT01235598|164646277|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.254|TWO_SIDED|95.0|-1.0|0.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance.|Wilcoxon Rank-Sum Test||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|||0.0|-1.0|0.254
82475263|NCT01235598|164646278|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.472|TWO_SIDED|95.0|-2.0|1.0||Two-sided p-value is presented, with p \<0.05 as the threshold for statistical significance.|Wilcoxon Rank-Sum Test||Hodges-Lehmann estimate of median difference and associated exact 95 % 2-sided confidence interval are provided.|||1.0|-2.0|0.472
82475264|NCT00395343|164646286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|||<|0.001||95.0|-0.7|-0.42|||ANCOVA|Model terms: treatment; baseline; metformin stratum (on vs. not on metformin); insulin stratum (pre-mixed vs. intermediate or long-acting)||||-0.42|-0.70|<0.001
82475265|NCT00395343|164646287|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|||<|0.001||95.0|-23.4|-6.5|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum||||-6.5|-23.4|<0.001
82475266|NCT00395343|164646288|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.1|||<|0.001||95.0|-47.1|-25.1|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum||||-25.1|-47.1|<0.001
82549495|NCT04169373|164800804|OTHER||Odds Ratio (OR)|2.8|||||TWO_SIDED|95.0|1.7|4.5|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.5|1.7|
82549496|NCT04169373|164800805|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Least Squares (LS) Mean Difference|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.85|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.85|-1.20|<0.0001
82549497|NCT04169373|164800806|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.47|-2.33|||ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.33|-5.47|<0.0001
82549498|NCT04169373|164800807|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|26.4|||<|0.0001|TWO_SIDED|95.0|18.0|34.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||34.8|18.0|<0.0001
82549499|NCT04169373|164800808|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|27.1|||<|0.0001|TWO_SIDED|95.0|17.9|36.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||36.3|17.9|<0.0001
82549500|NCT04169373|164800809|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|10.9|||<|0.0001|TWO_SIDED|95.0|6.0|15.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||15.8|6.0|<0.0001
82549501|NCT04169373|164800810|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.96|-1.11|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.11|-1.96|<0.0001
82549502|NCT04169373|164800811|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.69|||<|0.0001|TWO_SIDED|95.0|-2.14|-1.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.24|-2.14|<0.0001
82549503|NCT04169373|164800812|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|34.0|||<|0.0001|TWO_SIDED|95.0|26.2|41.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||41.8|26.2|<0.0001
82376907|NCT03104400|164460624|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.5||||0.0028|TWO_SIDED|95.0|-0.7|-0.2||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.2|-0.7|0.0028
82549504|NCT04169373|164800813|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.17|||<|0.0001|TWO_SIDED|95.0|-1.55|-0.8|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.80|-1.55|<0.0001
82549505|NCT04169373|164800814|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|13.2|||<|0.0001|TWO_SIDED|95.0|7.4|19.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) model adjusted by main stratification factor of screening hsCRP level (\> ULN vs ≤ ULN).|Response Rate Difference = Upadacitinib - Placebo|||19.0|7.4|<0.0001
82549506|NCT04169373|164800815|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.07|||<|0.0001|TWO_SIDED|95.0|-3.9|-2.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.24|-3.90|<0.0001
82549507|NCT04169373|164800816|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.47|-1.24|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.24|-2.47|<0.0001
82549508|NCT04169373|164800817|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.46|-0.18|||ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.18|-0.46|<0.0001
82549509|NCT04169373|164800818|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.5|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.9|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit and treatment-by-visit interaction, screening hsCRP level (\> ULN vs ≤ ULN) and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.9|-2.0|<0.0001
82549510|NCT04169373|164800819|OTHER||LS Mean Difference|-3.31|||<|0.0001|TWO_SIDED|95.0|-4.5|-2.12||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.12|-4.50|<0.0001
82549511|NCT04169373|164800820|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.85|-0.45|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.45|-0.85|<0.0001
82549512|NCT04169373|164800821|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-3.06|||<|0.0001|TWO_SIDED|95.0|-4.08|-2.04|||ANCOVA|ANCOVA model including treatment, main stratification factor, treatment and stratification factor interaction and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.04|-4.08|<0.0001
82549513|NCT04169373|164800822|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|20.1||||0.0001|TWO_SIDED|95.0|10.1|30.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.1|10.1|0.0001
82549514|NCT04169373|164800822|OTHER||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|1.6|4.2|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.2|1.6|
82549515|NCT04169373|164800823|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|8.8||||0.0063|TWO_SIDED|95.0|2.5|15.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||15.2|2.5|0.0063
82549516|NCT04169373|164800823|OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|1.3|7.0|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||7.0|1.3|
82549517|NCT04169373|164800824|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.92||||0.0004|TWO_SIDED|95.0|-1.42|-0.41|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.41|-1.42|0.0004
82549518|NCT04169373|164800825|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.12||||0.0001|TWO_SIDED|95.0|-1.68|-0.55|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.55|-1.68|0.0001
82549519|NCT04169373|164800826|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|23.8|||<|0.0001|TWO_SIDED|95.0|14.2|33.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.4|14.2|<0.0001
82549520|NCT04169373|164800826|OTHER||Odds Ratio (OR)|3.2|||||TWO_SIDED|95.0|1.9|5.4|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||5.4|1.9|
82549521|NCT04169373|164800827|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|10.9||||0.0035|TWO_SIDED|95.0|3.6|18.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||18.3|3.6|0.0035
82549522|NCT04169373|164800827|OTHER||Odds Ratio (OR)|2.7|||||TWO_SIDED|95.0|1.3|5.6|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||5.6|1.3|
82549523|NCT04169373|164800828|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.14|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.68|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.68|-1.60|<0.0001
82549524|NCT04169373|164800829|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-2.23|||<|0.0001|TWO_SIDED|95.0|-3.26|-1.21|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-1.21|-3.26|<0.0001
82549525|NCT04169373|164800830|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-1.78|||<|0.0001|TWO_SIDED|95.0|-2.56|-1.0|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-1.00|-2.56|<0.0001
82549526|NCT04169373|164800831|SUPERIORITY|To preserve the overall type I error rate at α = 0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|Response Rate Difference|22.8|||<|0.0001|TWO_SIDED|95.0|12.2|33.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.4|12.2|<0.0001
82549527|NCT04169373|164800831|OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|1.6|4.0|||||Upadacitinib : Placebo|A post-hoc logistic regression adjusting for the main stratification factor of MRI and screening hsCRP status was conducted for the multiplicity-controlled binary endpoints assessed at Week 14.||4.0|1.6|
82549528|NCT04169373|164800832|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a multiple testing procedure was used to test the primary and multiplicity-controlled secondary endpoints. Testing began with the primary endpoint using two-sided α = 0.05; significance could be claimed for a lower ranked endpoint only if the previous endpoints in the sequence met the requirement of significance.|LS Mean Difference|-0.1||||0.1781|TWO_SIDED|95.0|-0.25|0.05|||ANCOVA|ANCOVA model including treatment and main stratification factor MRI and hsCRP status as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||0.05|-0.25|0.1781
82475267|NCT00395343|164646289|SUPERIORITY_OR_OTHER||Geometric Mean Difference|36.5||||0.01||95.0|8.9|64.7|||ANCOVA|Model terms: treatment; log-scaled baseline value; metformin stratum; insulin stratum||||64.7|8.9|0.01
82549529|NCT04169373|164800833|OTHER||LS Mean Difference|-0.7||||0.0193|TWO_SIDED|95.0|-1.3|-0.1|||Mixed-effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction, main stratification factors MRI and screening hsCRP status, and Baseline value.|Treatment difference = Upadacitinib - Placebo|||-0.1|-1.3|0.0193
82549530|NCT04169373|164800834|SUPERIORITY||Response Rate Difference|20.1||||0.0003|TWO_SIDED|95.0|9.3|30.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.9|9.3|0.0003
82549531|NCT04169373|164800835|OTHER||LS Mean Difference|-1.13||||0.0206|TWO_SIDED|95.0|-2.08|-0.17||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and main stratification factors MRI and hsCRP status as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.17|-2.08|0.0206
82549532|NCT04169373|164800837|SUPERIORITY||Response Rate Difference|17.6||||0.0004|TWO_SIDED|95.0|7.9|27.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||27.3|7.9|0.0004
82475268|NCT00395343|164646290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.6|||<|0.001||95.0|1.89|6.85||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|Logistic Regression|Model terms: treatment; baseline; Metformin stratum; and insulin stratum||||6.85|1.89|<0.001
82475269|NCT00395343|164646291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.584||95.0|0.45|4.18||Based on a test of the odds ratio = 1, comparing the odds of having A1C \<7.0% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|Logistic Regression|Model terms: treatment; baseline; Metformin stratum; and insulin stratum|This parameter estimate and 95% confidence interval correspond to the odds of having A1C \<6.5% at Week 24 in the Sitagliptin 100 mg q.d. group vs. the Placebo group.|||4.18|0.45|0.584
82475270|NCT00395343|164646292|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56|||<|0.001||95.0|-0.72|-0.4|||ANCOVA|Model terms: treatment; baseline; metformin stratum; insulin stratum, treatment by insulin stratum interaction||||-0.40|-0.72|<0.001
82475271|NCT00689117|164646339|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.063
82475272|NCT00689117|164646339|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.003
82475273|NCT00689117|164646339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||<0.001
82475274|NCT00689117|164646339|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.004
82475275|NCT00689117|164646339|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.550
82475276|NCT00689117|164646339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
82549533|NCT04169373|164800838|SUPERIORITY||Response Rate Difference|21.9|||<|0.0001|TWO_SIDED|95.0|13.2|30.6||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||30.6|13.2|<0.0001
82549534|NCT04169373|164800839|SUPERIORITY||Response Rate Difference|23.1|||<|0.0001|TWO_SIDED|95.0|12.4|33.7||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by main stratification factor of MRI and screening hsCRP level status.|Response Rate Difference = Upadacitinib - Placebo|||33.7|12.4|<0.0001
82475277|NCT00689117|164646339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
82475278|NCT00689117|164646339|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||Total lesion count|Ranked ANCOVA|||||||0.016
82475279|NCT00689117|164646339|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
82475280|NCT00689117|164646340|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||0.001
82475281|NCT00689117|164646340|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||<0.001
82475282|NCT00689117|164646340|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Data based on Data on File documenting FDA reanalysis request|Cochran-Mantel-Haenszel|||||||<0.001
82475283|NCT00689117|164646341|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.065
82475284|NCT00689117|164646341|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||0.002
82475285|NCT00689117|164646341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Inflammatory lesion count|Ranked ANCOVA|||||||<0.001
82475286|NCT00689117|164646341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
82475287|NCT00689117|164646341|SUPERIORITY_OR_OTHER|||||||0.284||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||0.284
82475288|NCT00689117|164646341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-inflammatory lesion count|Ranked ANCOVA|||||||<0.001
82475289|NCT00689117|164646341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
82475290|NCT00689117|164646341|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||Total lesion count|Ranked ANCOVA|||||||0.028
82475291|NCT00689117|164646341|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total lesion count|Ranked ANCOVA|||||||<0.001
82475292|NCT00689117|164646342|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||Cochran-Mantel-Haenszel|||||||0.671
82475293|NCT00689117|164646342|SUPERIORITY_OR_OTHER|||||||0.919||95.0|||||Cochran-Mantel-Haenszel|||||||0.919
82475294|NCT00689117|164646342|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
82475295|NCT00689117|164646343|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
82475296|NCT00689117|164646343|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82475297|NCT00689117|164646343|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82549535|NCT04533347|164800840|SUPERIORITY|||||||0.1879|TWO_SIDED|95.0|||||Fisher Exact|||Assuming an 85% clinical recovery rate in the TQ group and a 70% clinical recovery rate in the placebo group, sample sizes of 125 per treatment group were expected to achieve 80% power with a two-sided alpha of 0.05.||||0.1879
82549536|NCT04610892|164800845|SUPERIORITY||Least Square Mean difference|-8.3797||||0.065||90.0|-17.498|0.7387||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||0.7387|-17.4980|0.065
82549537|NCT04610892|164800845|SUPERIORITY||Least Square Mean difference|2.3915||||0.747||90.0|-3.5338|8.3167||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||8.3167|-3.5338|0.747
82549538|NCT04610892|164800845|SUPERIORITY||Least Square Mean difference|0.5766||||0.563||90.0|-5.4389|6.5921||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||6.5921|-5.4389|0.563
82549539|NCT04610892|164800845|SUPERIORITY||Least Square Mean difference|1.5204||||0.685||90.0|-3.6657|6.7064||One-sided p-value|ANCOVA|The treatment as a fixed effects and the baseline value and the geographic region and statin therapy intensity at screening as covariates.||||6.7064|-3.6657|0.685
82549540|NCT04610892|164800846|SUPERIORITY||Geometric LS mean ratio estimate|1.12||||0.854||90.0|0.94|1.33||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.33|0.94|0.854
82549541|NCT04610892|164800846|SUPERIORITY||Geometric LS mean ratio estimate|1.06||||0.79||90.0|0.94|1.18||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.18|0.94|0.790
82549542|NCT04610892|164800846|SUPERIORITY||Geometric LS mean ratio estimate|1.0||||0.498||90.0|0.89|1.12||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.12|0.89|0.498
82549543|NCT04610892|164800846|SUPERIORITY||Geometric LS mean ratio estimate|1.03||||0.678||90.0|0.93|1.13||One sided p-value|Mixed model with repeated measurements|The model was adjusted for the baseline value and the stratification factors (geographic region and statin therapy intensity at screening).||||1.13|0.93|0.678
82376944|NCT01297985|164460819|SUPERIORITY||MIXREG Estimate|0.33|STANDARD_ERROR_OF_MEAN|0.012|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in Hopefulness that would be maintained longitudinally||||<.01
82549544|NCT04610892|164800847|SUPERIORITY||Least Squares mean difference|-1.44||||0.99||90.0|-2.44|-0.43||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.43|-2.44|0.990
82549545|NCT04610892|164800847|SUPERIORITY||Least Squares mean difference|-0.21||||0.697||90.0|-0.87|0.45||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.45|-0.87|0.697
82549546|NCT04610892|164800847|SUPERIORITY||Least Squares mean difference|-0.42||||0.849||90.0|-1.08|0.25||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.25|-1.08|0.849
82549547|NCT04610892|164800847|SUPERIORITY||Least Squares mean difference|-0.31||||0.811||90.0|-0.89|0.27||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.27|-0.89|0.811
82549548|NCT04610892|164800848|SUPERIORITY||Least Squares mean difference|-3.5||||0.972||90.0|-6.49|-0.5||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.50|-6.49|0.972
82549549|NCT04610892|164800848|SUPERIORITY||Least Squares mean difference|-1.1||||0.777||90.0|-3.49|1.3||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.30|-3.49|0.777
82549550|NCT04610892|164800848|SUPERIORITY||Least Squares mean difference|-0.32||||0.596||90.0|-2.54|1.89||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.89|-2.54|0.596
82376945|NCT01297985|164460820|SUPERIORITY||MIXREG Estimate|0.12|STANDARD_ERROR_OF_MEAN|0.04|<|0.01|TWO_SIDED||||||Mixed Effects Random Regression|||This analysis Mixed Effects Random Regression Modeling to test whether self-advocacy scores changed overtime by study condition status. Reported below are findings for the self-advocacy assertiveness sub scale.||||<0.01
82376946|NCT01297985|164460821|SUPERIORITY||MIXREG Estimate|0.042|STANDARD_ERROR_OF_MEAN|0.018||0.017|TWO_SIDED||||||Mixed Effects Random Regression|||||||0.017
82376947|NCT03593395|164460824|OTHER|Estimation only|Least Square Mean Estimate|2.46|||||TWO_SIDED|95.0|1.81|3.34|||||Estimates are from generalized linear mixed model with a negative binomial distribution log link construct and length of follow up offset. Includes fixed effects for site size, baseline acute utilization, and random effect for cluster (site).|||3.34|1.81|
82376948|NCT03593395|164460824|OTHER|Estimation only.|Least Square Mean Estimate|2.96|||||TWO_SIDED|95.0|2.09|4.19|||||Estimates are from generalized linear mixed model with a negative binomial distribution log link construct and length of follow up offset. Includes fixed effects for site size, baseline acute utilization, and random effect for cluster (site).|||4.19|2.09|
82376949|NCT03713632|164460837|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0149|TWO_SIDED|95.0|1.05|2.55||one-sided p-value|Regression, Logistic|||||2.55|1.05|0.0149
82376950|NCT03713632|164460837|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0022|TWO_SIDED|95.0|1.22|2.96||one-sided p-value|Regression, Logistic|||||2.96|1.22|0.0022
82376951|NCT03713632|164460838|SUPERIORITY||Mean Difference (Net)|-16.33||||0.0051|TWO_SIDED|95.0|-28.79|-3.88||one-side p-value|ANCOVA|||||-3.88|-28.79|0.0051
82376952|NCT03713632|164460838|SUPERIORITY||Mean Difference (Net)|-22.94||||0.0001|TWO_SIDED|95.0|-35.24|-10.63||one-side p-value|ANCOVA|||||-10.63|-35.24|0.0001
82376953|NCT03713632|164460839|SUPERIORITY||Odds Ratio (OR)|0.68||||0.0732|TWO_SIDED|95.0|0.41|1.14||one-sided p-value|Regression, Logistic|||||1.14|0.41|0.0732
82549551|NCT04610892|164800848|SUPERIORITY||Least Squares mean difference|-0.63||||0.698||90.0|-2.64|1.38||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||1.38|-2.64|0.698
82549552|NCT04610892|164800849|SUPERIORITY||Least Squares mean difference|-1.29||||0.981||90.0|-2.32|-0.27||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.27|-2.32|0.981
82549553|NCT04610892|164800849|SUPERIORITY||Least Squares mean difference|-0.8||||0.974||90.0|-1.47|-0.12||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.12|-1.47|0.974
82549554|NCT04610892|164800849|SUPERIORITY||Least Squares mean difference|-0.86||||0.983||90.0|-1.53|-0.2||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.20|-1.53|0.983
82549555|NCT04610892|164800849|SUPERIORITY||Least Squares mean difference|-0.83||||0.99||90.0|-1.42|-0.25||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.25|-1.42|0.990
82549556|NCT04610892|164800850|SUPERIORITY||Least Squares mean difference|-2.14||||0.959||90.0|-4.16|-0.12||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.12|-4.16|0.959
82549557|NCT04610892|164800850|SUPERIORITY||Least Squares mean difference|-2.92||||0.998||90.0|-4.53|-1.31||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-1.31|-4.53|0.998
82549558|NCT04610892|164800850|SUPERIORITY||Least Squares mean difference|-1.35||||0.939||90.0|-2.79|0.09||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||0.09|-2.79|0.939
82549559|NCT04610892|164800850|SUPERIORITY||Least Squares mean difference|-1.94||||0.991||90.0|-3.27|-0.62||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||-0.62|-3.27|0.991
82549560|NCT04610892|164800851|SUPERIORITY||Least Squares mean difference|-16.137||||0.077||90.0|-34.7829|2.5089||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.5089|-34.7829|0.077
82549561|NCT04610892|164800851|SUPERIORITY||Least Squares mean difference|-0.5927||||0.468||90.0|-12.7267|11.5413||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||11.5413|-12.7267|0.468
82549562|NCT04610892|164800851|SUPERIORITY||Least Squares mean difference|-0.1767||||0.491||90.0|-12.4678|12.1144||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||12.1144|-12.4678|0.491
82549563|NCT04610892|164800851|SUPERIORITY||Least Squares mean difference|-0.393||||0.476||90.0|-11.0022|10.2162||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||10.2162|-11.0022|0.476
82549564|NCT04610892|164800852|SUPERIORITY||Least Squares mean difference|-4.3435||||0.136||90.0|-10.8637|2.1768||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.1768|-10.8637|0.136
82549565|NCT04610892|164800852|SUPERIORITY||Least Squares mean difference|-1.2369||||0.316||90.0|-5.4796|3.0059||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||3.0059|-5.4796|0.316
82549566|NCT04610892|164800852|SUPERIORITY||Least Squares mean difference|-0.7015||||0.394||90.0|-5.0096|3.6065||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||3.6065|-5.0096|0.394
82549567|NCT04610892|164800852|SUPERIORITY||Least Squares mean difference|-0.9799||||0.332||90.0|-4.6927|2.7329||One sided p-value|ANCOVA|The model was adjusted for the baseline value and stratification factors (geographic region and statin therapy intensity at screening).||||2.7329|-4.6927|0.332
82650966|NCT02363010|165016725|SUPERIORITY|||||||0.82||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that baseline Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.820
82475298|NCT00329797|164646360|SUPERIORITY|||||||0.95|||||||Log Rank|||The study is designed to show a 40% relative reduction in the yearly ABF hazard rate, equivalent to an improvement in a 3-year FABF rate from 88% to 92.6%. A sample size of 1030 analyzable patients with a one-sided log-rank test at α = 0.05, was calculated to provide 80% statistical power, with one interim analysis and a final analysis for efficacy using Haybittle-Peto boundaries.||||0.95
82475299|NCT00329797|164646361|SUPERIORITY||||||<|0.0001||||||significance level = 0.05|t-test, 2 sided|||Lumbar||||<0.0001
82475300|NCT00329797|164646361|SUPERIORITY|||||||0.47||||||significance level = 0.05|t-test, 2 sided|||Hip - right||||0.47
82475301|NCT00329797|164646361|SUPERIORITY|||||||0.0002||||||significance level = 0.05|t-test, 2 sided|||Hip - left||||0.0002
82475302|NCT00329797|164646361|SUPERIORITY|||||||0.076||||||significance level = 0.05|t-test, 2 sided|||Femoral - right||||0.076
82475303|NCT00329797|164646361|SUPERIORITY|||||||0.0007||||||significance level = 0.05|t-test, 2 sided|||Femoral - left||||0.0007
82475304|NCT00329797|164646362|SUPERIORITY|||||||0.33||||||significance level = 0.01|t-test, 2 sided|||Physical subscale||||0.33
82475305|NCT00329797|164646362|SUPERIORITY|||||||0.82||||||significance level = 0.01|t-test, 2 sided|||Social subscale||||0.82
82650967|NCT02363010|165016725|SUPERIORITY|||||||0.127||||||A prior threshold for statistical significance was p \< .05.|Regression, Linear|Controlling for baseline weight.||The null hypothesis was that 6-month Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month weight loss. As a note, multiple imputation for missing weight loss data was not conducted for exploratory moderation analyses.||||.127
82475306|NCT00329797|164646362|SUPERIORITY|||||||0.51||||||significance level = 0.01|t-test, 2 sided|||Emotional subscale||||0.51
82549568|NCT05520190|164800862|SUPERIORITY||Standardized Response Mean|-0.47|||||TWO_SIDED||||||||Baseline Attitude score - 1-month Attitude score / SD of average change|||||
82549569|NCT05520190|164800863|SUPERIORITY||Standardized Response Mean|-0.23|||||TWO_SIDED||||||||Baseline Norm score - 1-month Norm score / SD of average change|||||
82549570|NCT05520190|164800864|SUPERIORITY||Standardized Response Mean|-0.03|||||TWO_SIDED||||||||Baseline Perceived Behavioral Control score - 1-month Perceived Behavioral Control score / SD of average change|||||
82549571|NCT05520190|164800865|SUPERIORITY||Standardized Response Mean|-0.16|||||TWO_SIDED||||||||Baseline Intention score - 1-month Intention score / SD of average change|||||
82549572|NCT05520190|164800866|SUPERIORITY||Standardized Response Mean|0.35|||||TWO_SIDED||||||||Baseline drinks per day - 1-month drinks per day / avg change in drinks per day|||||
82549573|NCT05520190|164800867|SUPERIORITY||Standardized Response Mean|0.35|||||TWO_SIDED||||||||Baseline drinking days - 1-month drinking days / SD of avg change in drinking days|||||
82549574|NCT05520190|164800868|SUPERIORITY||Standardized Response Mean|0.3|||||TWO_SIDED||||||||Baseline binge drinking days - 1-month binge drinking days / avg change in binge drinking days|||||
82549575|NCT05520190|164800869|SUPERIORITY||Standardized Response Mean|1.23|||||TWO_SIDED||||||||Baseline depression - 1-month depression / SD of avg change in depression|||||
82549576|NCT05520190|164800870|SUPERIORITY||Standardized Response Mean|1.06|||||TWO_SIDED||||||||Baseline anxiety - 1-month anxiety / SD avg change in anxiety|||||
82549577|NCT05520190|164800871|SUPERIORITY||Standardized Response Mean|0.9|||||TWO_SIDED||||||||Baseline PTSD - 1-month PTSd / SD avg change in PTSD|||||
82549578|NCT05520190|164800872|SUPERIORITY||Standardized Response Mean|0.6|||||TWO_SIDED||||||||Baseline insomnia - 1-month insomnia / SD avg change in insomnia|||||
82475307|NCT00329797|164646362|SUPERIORITY|||||||0.25||||||significance level = 0.01|t-test, 2 sided|||Functional subscale||||0.25
82549579|NCT05520190|164800873|SUPERIORITY||Standardized Response Mean|0.58|||||TWO_SIDED||||||||Baseline Alcohol Screen - 1-month Alcohol Screen / SD avg change|||||
82549580|NCT05520190|164800874|SUPERIORITY||Standardized Response Mean|-0.39|||||TWO_SIDED||||||||Baseline behavioral beliefs - 1-month behavioral beliefs / avg change in behavioral beliefs|||||
82549581|NCT05520190|164800875|SUPERIORITY||Standardized Response Mean|-0.62|||||TWO_SIDED||||||||Baseline normative beliefs - 1-month normative beliefs / SD avg change in normative beliefs|||||
82549582|NCT05520190|164800876|SUPERIORITY||Standardized Response Mean|-0.83|||||TWO_SIDED||||||||Baseline control beliefs - 1-month control beliefs / SD avg change in control beliefs|||||
82549583|NCT01748448|164800886|SUPERIORITY||Cox Proportional Hazard|1.27|||=|0.324|TWO_SIDED|95.0|0.79|2.03|||Fisher Exact|||||2.03|0.79|= 0.324
82549584|NCT02226276|164800892|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82549585|NCT02226276|164800893|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82549586|NCT03924986|164800894|OTHER||Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.38|0.73|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|The null hypothesis to be tested is that progression-free survival (PFS) in Arm A is less than or equal to PFS in Arm B. This is compared against the alternative hypothesis, which posits that PFS in Arm A is greater than PFS in Arm B.||0.73|0.38|
82549587|NCT03924986|164800895|OTHER||Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.11|3.07|||||||Arm B was the reference group, and the odds ratio between arms was calculated using the Cochran-Mantel-Haenszel chi-square test, stratified by gender and liver metastases status.|3.07|1.11|
82549588|NCT03924986|164800897|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.51|1.05|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|||1.05|0.51|
82549589|NCT03924986|164800898|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.38|0.76|||||Estimated using a Cox proportional hazards model with Efron's method for tied events, with Arm B as the reference group. The analysis was stratified by gender and liver metastases status.|The null hypothesis to be tested is that progression-free survival (PFS) in Arm A is less than or equal to PFS in Arm B. This is compared against the alternative hypothesis, which posits that PFS in Arm A is greater than PFS in Arm B.||0.76|0.38|
82549590|NCT02907099|164800940|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.5
82549591|NCT02907099|164800941|OTHER|||||||0.5|||||||t-test, 2 sided|||||||0.5
82549592|NCT03652688|164800974|SUPERIORITY||F|14.463|||<|0.001|TWO_SIDED||||||ANOVA|||The unit of analyses was the individual, nested within groups.||||<0.001
82549593|NCT03652688|164800975|SUPERIORITY|||||||0.08|||||||Chi-squared, Corrected|||||||.08
82549594|NCT03652688|164800976|SUPERIORITY|||||||0.954|||||||Chi-squared, Corrected|||||||0.954
82549595|NCT03652688|164800977|SUPERIORITY||Chi-Square|4.436||||0.035|TWO_SIDED||||||Chi-squared, Corrected|||||||.035
82475308|NCT00329797|164646362|SUPERIORITY|||||||0.63||||||significance level = 0.01|t-test, 2 sided|||Total||||0.63
82549596|NCT03652688|164800978|SUPERIORITY||Chi-Square|2.615||||0.106|TWO_SIDED||||||Chi-squared, Corrected|||||||.106
82549597|NCT03652688|164800979|SUPERIORITY||Chi-Square|11.636|||<|0.001|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.001
82549598|NCT05089734|164800983|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0534|TWO_SIDED|95.0|0.68|1.04||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||1.04|0.68|0.0534
82549599|NCT05089734|164800984|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1938|TWO_SIDED|95.0|0.77|1.11||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||1.11|0.77|0.1938
82549600|NCT05089734|164800985|SUPERIORITY||Difference in Proportions|-4.3||||0.9255|TWO_SIDED|95.0|-10.1|1.5||The 1-sided p-value is calculated using Cochran Mantel-Haenszel test adjusted for randomization stratification factors of histology, and best response to last prior immune therapy received.|Cochran-Mantel-Haenszel|||||1.5|-10.1|0.9255
82549601|NCT05089734|164800990|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.002|TWO_SIDED|95.0|0.61|0.91||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||0.91|0.61|0.0020
82549602|NCT05089734|164800991|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0125|TWO_SIDED|95.0|0.66|0.97||Stratified log-rank test adjusted for stratification factors: histology and best response to last prior immune therapy received.|Log Rank|||||0.97|0.66|0.0125
82549603|NCT04005716|164801017|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.004|TWO_SIDED|95.0|0.61|0.93|||Log Rank|Stratified log rank test with ECOG performance status, and investigator chosen platinum as stratification factors.|The hazard ratio was estimated using a stratified Cox regression model with Efron's method for ties, stratified by ECOG performance status and investigator-selected platinum agents, with Arm B as the reference group.|The null hypothesis stated that the overall survival in Arm A (Tislelizumab + Chemotherapy) is less than or equal to that in Arm B (the placebo group), while the alternative hypothesis posits that the overall survival in Arm A is greater than that in Arm B.||0.93|0.61|0.0040
82549604|NCT04005716|164801018|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.0001|TWO_SIDED|95.0|0.52|0.78|||Log Rank|One-sided log-rank test p-value, stratified by ECOG performance status (1 vs 0) and type of platinum therapy (carboplatin vs cisplatin).|The hazard ratio was estimated using a stratified Cox regression model with Efron's method for ties, stratified by ECOG performance status and investigator-selected platinum agents, with Arm B as the reference group.|||0.78|0.52|<0.0001
82549605|NCT04005716|164801019|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.9|1.96|||||Odds ratio was calculated using Cochran-Mantel-Haenszel estimates and stratified by ECOG performance (1 vs 0) and platinum (Carboplatin vs Cisplatin)|||1.96|0.90|
82580256|NCT00775463|164871608|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.2|TWO_SIDED|95.0|-1.0|0.0|||Cochran-Mantel-Haenszel|||A Cochran-Mantel Haenszel mean score test was used on the standardized reverse mid-ranks (overall reverse ranks divided by the number of ranks +1, or modified ridit scores; largely negative changes had ranks near 1 and largely positive changes had ranks near 0)of the residuals from an ordinary least squares regression with change in net ulcer burden at Week 20 as a linear function of Baseline PDEI or prostacyclin use (binary variable:Yes/No) and net ulcer burden at Baseline(continuous variable).||0.0|-1.0|0.20
82376954|NCT03713632|164460839|SUPERIORITY||Odds Ratio (OR)|0.49||||0.0049|TWO_SIDED|95.0|0.29|0.84||one-sided p-value|Regression, Logistic|||||0.84|0.29|0.0049
82475309|NCT02093819|164646365|SUPERIORITY_OR_OTHER||Slope|1.1313|STANDARD_ERROR_OF_MEAN|0.0633|||TWO_SIDED|90.0|1.0249|1.2376|||||Evaluation of dose proportionality - all dose groups. Number of subjects included in the analysis=44.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.2376|1.0249|
82549606|NCT04005716|164801026|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.642|1.33|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-C30 Physical Functioning Score||1.330|0.642|
82549607|NCT04005716|164801026|OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.473|1.123|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-LC13 Coughing Score||1.123|0.473|
82376955|NCT03713632|164460840|SUPERIORITY||Odds Ratio (OR)|2.29||||0.0026|TWO_SIDED|95.0|1.28|4.09||one-sided p-value|Regression, Logistic|||||4.09|1.28|0.0026
82376956|NCT03713632|164460840|SUPERIORITY||Odds Ratio (OR)|1.86||||0.0206|TWO_SIDED|95.0|1.03|3.37||one-sided p-value|Regression, Logistic|||||3.37|1.03|0.0206
82376957|NCT02995408|164460852|SUPERIORITY||Mean Difference (Final Values)|-0.99||||0.23|TWO_SIDED|95.0|-2.63|0.65||p-value was calculated|t-test, 2 sided|||||0.65|-2.63|.23
82376958|NCT02995408|164460853|SUPERIORITY||Mean Difference (Final Values)|5.78||||0.024|TWO_SIDED|95.0|0.78|10.78||.05 is the threshold for significance|t-test, 2 sided|||We examined between group (3RP treatment versus wait-list) differences in pre-post change scores of resiliency.||10.78|.78|0.024
82475310|NCT02093819|164646365|SUPERIORITY_OR_OTHER||Slope|0.9568|STANDARD_ERROR_OF_MEAN|0.1019|||TWO_SIDED|90.0|0.783|1.1307|||||Evaluation of dose proportionality - dose groups 50mg to 600mg. Number of subjects included in the analysis=28.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1307|0.7830|
82475311|NCT02093819|164646366|SUPERIORITY_OR_OTHER||Slope|1.0732|STANDARD_ERROR_OF_MEAN|0.0468|||TWO_SIDED|90.0|0.9946|1.1518|||||Evaluation of dose proportionality - all dose groups. Number of subjects included in the analysis=44.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1518|0.9946|
82475312|NCT02093819|164646366|SUPERIORITY_OR_OTHER||Slope|0.9603|STANDARD_ERROR_OF_MEAN|0.0838|||TWO_SIDED|90.0|0.8174|1.1032|||||Evaluation of dose proportionality - dose groups 50 mg to 600 mg. Number of subjects included in the analysis 28.|A power model was used to describe functional relationship between dose and Pk parameters. For the evaluation of dose proportionality,slope parameter (B), a two-sided 90% confidence interval of the slope was calculated. Perfect dose proportionality would correspond to a slope of 1.||1.1032|0.8174|
82475313|NCT02055118|164646382|SUPERIORITY||Least squares mean|3.0|STANDARD_ERROR_OF_MEAN|5.12||0.5669|TWO_SIDED|95.0|-7.3|13.3|||Mixed model repeated measures|||The Mixed model repeated measures included fixed categorical effects for treatment, visit week, treatment by visit week interaction, baseline GCA classification factor (less than or equal to \[\<=\] 70 or \>70), baseline age group (\<6 years or \>=6 years), treatment by baseline GCA classification factor interaction, treatment by baseline age group interaction, interaction between baseline GCA classification factor and baseline age group, genotype, and the baseline GCA score as a continuous covariate.||13.3|-7.3|0.5669
82475314|NCT01215097|164646427|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.7|-0.34|||ANCOVA|||||-0.34|-0.70|<0.0001
82475315|NCT01215097|164646428|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.433|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.555|-0.311|||ANCOVA|||||-0.311|-0.555|<0.0001
82475316|NCT01215097|164646429|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.591|STANDARD_ERROR_OF_MEAN|0.082|<|0.0001||95.0|-0.752|-0.43|||ANCOVA|||||-0.43|-0.752|<0.0001
82376959|NCT02995408|164460854|SUPERIORITY||Mean Difference (Final Values)|7.78||||0.001|TWO_SIDED|95.0|3.45|12.12||p=.05 is the threshold for significance.|t-test, 2 sided|||||12.12|3.45|0.001
82475317|NCT01215097|164646430|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.7|-0.35|||ANCOVA|||||-0.35|-0.70|<0.0001
82475318|NCT01215097|164646431|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.71|-0.32|||ANCOVA|||||-0.32|-0.71|<0.0001
82475319|NCT01215097|164646432|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.6|STANDARD_ERROR_OF_MEAN|4.2||0.0233||95.0|-17.8|-1.3|||ANCOVA|||||-1.3|-17.8|0.0233
82475320|NCT01215097|164646433|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.1|STANDARD_ERROR_OF_MEAN|3.3|<|0.0001||95.0|-28.7|-15.6|||ANCOVA|||||-15.6|-28.7|<0.0001
82475321|NCT01215097|164646434|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.2|STANDARD_ERROR_OF_MEAN|3.6||0.005||95.0|-17.3|-3.1|||ANCOVA|||||-3.1|-17.3|0.0050
82475322|NCT01215097|164646435|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.5|STANDARD_ERROR_OF_MEAN|4.0||0.0044||95.0|-19.5|-3.6|||ANCOVA|||||-3.6|-19.5|0.0044
82475323|NCT01215097|164646437|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.243|||<|0.0001||95.0|2.831|13.769|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>=7.0%||13.769|2.831|<0.0001
82475324|NCT01215097|164646439|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.97||||0.0129||95.0|1.404|17.592|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with a baseline HbA1c \>= 6.5%||17.592|1.404|0.0129
82475325|NCT01215097|164646440|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.054|||<|0.0001||95.0|1.799|5.185|||Regression, Logistic|The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication||Comparison by odds ratio for the patients with HbA1c at least lowering 0.5% from baseline||5.185|1.799|<0.0001
82475326|NCT00329524|164646490|NON_INFERIORITY_OR_EQUIVALENCE|Power analysis based on paired t-test.|||||<|0.05||95.0|||||t-test, 2 sided|||||||<.05
82475327|NCT00329524|164646491|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||test for order effect|||||||.05
82475328|NCT01584440|164646492|SUPERIORITY||Ordinary Least Squares (OLS) Z-statistic|-1.5|||<=|0.001|TWO_SIDED||||||ANCOVA|Sequential Parallel Comparison Design (SPCD): data from the Stages 1 and 2 are analyzed together using the mITT Population||||||<=0.001
82475329|NCT01584440|164646492|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.5|||||TWO_SIDED||||||||Day 36|||||
82475330|NCT01584440|164646492|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.59|||||TWO_SIDED||||||||Day 70|||||
82475331|NCT01584440|164646494|SUPERIORITY||OLS Z-statistic|-2.46||||0.014|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.014
82475332|NCT01584440|164646494|SUPERIORITY||ANCOVA Least Squares Mean Difference|-4.2|||||TWO_SIDED||||||||||Day 36|||
82475333|NCT01584440|164646494|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.78|||||TWO_SIDED||||||||Day 70|||||
82475334|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|0.77||||0.444|TWO_SIDED||||||ANCOVA|Delusions Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.444
82475335|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.27|||||TWO_SIDED||||||||Delusions Domain; Day 36|||||
82475336|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.78|||||TWO_SIDED||||||||Delusions Domain; Day 70|||||
82475337|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-0.18||||0.861|TWO_SIDED||||||ANCOVA|Hallucinations Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.861
82475338|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.29|||||TWO_SIDED||||||||Hallucinations Domain; Day 36|||||
82475339|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.22|||||TWO_SIDED||||||||Hallucinations Domain; Day 70|||||
82475340|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-0.32||||0.749|TWO_SIDED||||||ANCOVA|Depression/Dysphoria Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.749
82475341|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.07|||||TWO_SIDED||||||||Depression/Dysphoria Domain; Day 36|||||
82475342|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.1|||||TWO_SIDED||||||||Depression/Dysphoria Domain; Day 70|||||
82475343|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-0.81||||0.416|TWO_SIDED||||||ANCOVA|Anxiety Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.416
82475344|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.28|||||TWO_SIDED||||||||Anxiety Domain; Day 36|||||
82475345|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.81|||||TWO_SIDED||||||||Anxiety Domain|||||
82475346|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-1.07||||0.287|TWO_SIDED||||||ANCOVA|Euphoria/Elation Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.287
82475347|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.04|||||TWO_SIDED||||||||Euphoria/Elation Domain; Day 36|||||
82475348|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.34|||||TWO_SIDED||||||||Euphoria/Elation Domain; Day 70|||||
82475349|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-1.31||||0.191|TWO_SIDED||||||ANCOVA|Apathy/Indifference Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.191
82475350|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.16|||||TWO_SIDED||||||||Apathy/Indifference Domain; Day 36|||||
82475351|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.77|||||TWO_SIDED||||||||Apathy/Indifference Domain; Day 36|||||
82475352|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-1.1||||0.271|TWO_SIDED||||||ANCOVA|Disinhibition Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.271
82475353|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.22|||||TWO_SIDED||||||||Disinhibition Domain; Day 36|||||
82475354|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.37|||||TWO_SIDED||||||||Disinhibition Domain; Day 70|||||
82475355|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-2.18||||0.029|TWO_SIDED||||||ANCOVA|Irritability/Lability Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.029
82475356|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.7|||||TWO_SIDED||||||||Irritability/Lability Domain; Day 36|||||
82549608|NCT04005716|164801026|OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.485|1.057|||||Hazard ratio was based on unstratified Cox regression model including treatment as covariate.|Analyses of Time to Deterioration of EORTC QLQ-LC13 Chest Pain Score||1.057|0.485|
82549609|NCT05178316|164801045|SUPERIORITY||Least squares mean difference|0.31|STANDARD_ERROR_OF_MEAN|2.175|=|0.8862|TWO_SIDED|95.0|-3.98|4.6|||Mixed Models Analysis|||||4.60|-3.98|=0.8862
82475357|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.93|||||TWO_SIDED||||||||Irritability/Lability Domain; Day 70|||||
82475358|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-2.21||||0.027|TWO_SIDED||||||ANCOVA|Aberrant Motor Behavior Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.027
82475359|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.38|||||TWO_SIDED||||||||Aberrant Motor Behavior Domain; Day 36|||||
82475360|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.22|||||TWO_SIDED||||||||Aberrant Motor Behavior Domain; Day 70|||||
82475361|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-1.09||||0.274|TWO_SIDED||||||ANCOVA|Sleep/Nighttime Behavior Disorders Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.274
82475362|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.57|||||TWO_SIDED||||||||Sleep/Nighttime Behavior disorders Domain; Day 36|||||
82475363|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.08|||||TWO_SIDED||||||||Sleep/Nighttime Behavior disorders Domain; Day 70|||||
82475364|NCT01584440|164646495|SUPERIORITY||OLS Z-statistic|-0.65||||0.513|TWO_SIDED||||||ANCOVA|Appetite/Eating Changes Domain. SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.513
82475365|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.16|||||TWO_SIDED||||||||Appetite/Eating Changes Domain; Day 36|||||
82475366|NCT01584440|164646495|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.24|||||TWO_SIDED||||||||Appetite/Eating Changes Domain; Day 70|||||
82475367|NCT01584440|164646496|SUPERIORITY||OLS Z-statistic|-3.53|||<=|0.001|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||<=0.001
82475368|NCT01584440|164646496|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.01|||||TWO_SIDED||||||||Day 36|||||
82475369|NCT01584440|164646496|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.49|||||TWO_SIDED||||||||Day 70|||||
82475370|NCT01584440|164646497|SUPERIORITY||OLS Z-statistic|-3.34||||0.001|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.001
82475371|NCT01584440|164646497|SUPERIORITY||ANCOVA Least Squares Mean Difference|-2.41|||||TWO_SIDED||||||||Day 36|||||
82475372|NCT01584440|164646497|SUPERIORITY||ANCOVA Least Squares Mean Difference|-3.94|||||TWO_SIDED||||||||Day 70|||||
82475373|NCT01584440|164646498|SUPERIORITY||OLS Z-statistic|-2.46||||0.014|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.014
82475374|NCT01584440|164646498|SUPERIORITY||ANCOVA Least Squares Mean Difference|-2.65|||||TWO_SIDED||||||||Day 36|||||
82475375|NCT01584440|164646498|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.01|||||TWO_SIDED||||||||||Day 70|||
82475376|NCT01584440|164646499|SUPERIORITY||OLS Z-statistic|-2.57||||0.01|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.010
82475377|NCT01584440|164646499|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.68|||||TWO_SIDED||||||||Day 36|||||
82475378|NCT01584440|164646499|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.2|||||TWO_SIDED||||||||Day 70|||||
82475379|NCT01584440|164646500|SUPERIORITY||OLS Z-statistic|-3.08||||0.002|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.002
82475380|NCT01584440|164646500|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.56|||||TWO_SIDED||||||||Day 36|||||
82475381|NCT01584440|164646500|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.9|||||TWO_SIDED||||||||Day 70|||||
82475382|NCT01584440|164646501|SUPERIORITY||OLS Z-statistic|-2.66||||0.008|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.008
82475383|NCT01584440|164646501|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.43|||||TWO_SIDED||||||||Day 36|||||
82475384|NCT01584440|164646501|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.75|||||TWO_SIDED||||||||Day 70|||||
82475385|NCT01584440|164646502|SUPERIORITY||OLS Z-statistic|-1.96||||0.05|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.050
82475386|NCT01584440|164646502|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.62|||||TWO_SIDED||||||||Day 36|||||
82475387|NCT01584440|164646502|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.3|||||TWO_SIDED||||||||Day 70|||||
82475388|NCT01584440|164646503|SUPERIORITY||OLS Z-statistic|-2.33||||0.02|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.020
82475389|NCT01584440|164646503|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.57|||||TWO_SIDED||||||||Day 36|||||
82475390|NCT01584440|164646503|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.18|||||TWO_SIDED||||||||Day 70|||||
82475391|NCT01584440|164646504|SUPERIORITY||OLS Z-statistic|1.94||||0.053|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.053
82475392|NCT01584440|164646504|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.52|||||TWO_SIDED||||||||Day 36|||||
82475393|NCT01584440|164646504|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.84|||||TWO_SIDED||||||||Day 70|||||
82475394|NCT01584440|164646505|SUPERIORITY||OLS Z-statistic|-0.72||||0.469|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population|Caregiver|||||0.469
82549610|NCT05178316|164801045|SUPERIORITY||Least squares mean difference|-0.74|STANDARD_ERROR_OF_MEAN|1.817|=|0.6832|TWO_SIDED|95.0|-4.32|2.84|||Mixed Models Analysis|||||2.84|-4.32|=0.6832
82549611|NCT05178316|164801046|SUPERIORITY||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.204|=|0.4522|TWO_SIDED|95.0|-0.55|0.25|||Mixed Models Analysis|||||0.25|-0.55|=0.4522
82549612|NCT05178316|164801046|SUPERIORITY||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.169|=|0.2032|TWO_SIDED|95.0|-0.55|0.12|||Mixed Models Analysis|||||0.12|-0.55|=0.2032
82549613|NCT05178316|164801047|SUPERIORITY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.165|=|0.717|TWO_SIDED|95.0|-0.38|0.26|||Mixed Models Analysis|||||0.26|-0.38|=0.7170
82580257|NCT00775463|164871609|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-0.4||||0.31|TWO_SIDED|95.0|-1.4|0.4||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||0.40|-1.40|0.31
82475395|NCT01584440|164646505|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.28|||||TWO_SIDED||||||||Caregiver: Day 36|||||
82475396|NCT01584440|164646505|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.06|||||TWO_SIDED||||||||Caregiver: Day 70|||||
82475397|NCT01584440|164646505|SUPERIORITY||OLS Z-statistic|1.41||||0.159|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population|Participant|||||0.159
82549614|NCT05178316|164801047|SUPERIORITY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.137|=|0.2423|TWO_SIDED|95.0|-0.43|0.11|||Mixed Models Analysis|||||0.11|-0.43|=0.2423
82549615|NCT05081583|164801051|OTHER||AUC ratio (geometric mean)|0.88|||||TWO_SIDED|90.0|0.82|0.96||||||The predefined no effect range was 0.80-1.25; that is, if the geometric mean ratio lay outside this range, a pharmacokinetic interaction was evident.||0.96|0.82|
82549616|NCT05081583|164801052|OTHER|The predefined no effect range was 0.80-1.25; that is, if the geometric mean ratio lay outside this range, a pharmacokinetic interaction was evident.|Cmax ratio (geometric mean)|0.93|||||TWO_SIDED|90.0|0.85|1.01||||||||1.01|0.85|
82549617|NCT05081583|164801053|OTHER||Half-life ratio (geometric mean)|1.01|||||TWO_SIDED|90.0|0.93|1.07||||||||1.07|0.93|
82549618|NCT05081583|164801054|OTHER||Renal clearance ratio (geometric mean)|0.97|||||TWO_SIDED|90.0|0.84|1.12||||||||1.12|0.84|
82549619|NCT05081583|164801055|OTHER||AUC ratio (geometric mean)|0.97|||||TWO_SIDED|90.0|0.81|1.15||||||||1.15|0.81|
82549620|NCT03232138|164801106|EQUIVALENCE|2-sided P-value in the analysis|Mean Difference (Final Values)|0.22||||0.452|TWO_SIDED|95.0|0.03|0.41||Hypothesis: sulforaphane treatment slows or reverse the progression of lung histological lesions or lower the dysplasia score.|ANCOVA|ANCOVA model includes baseline average endobronchial histopathological scores,age,sex,cigarettes per day,years of smoking, years since quit smoking.||Derived from ANCOVA model with adjustment for baseline average endobronchial histopathological scores, age, sex, cigarettes per day, years of smoking, and years since quit smoking.||0.41|0.03|0.452
82549621|NCT03232138|164801106|EQUIVALENCE|2-sided P-value in the analysis|Mean Difference (Final Values)|0.12||||0.452|TWO_SIDED|95.0|-0.04|0.28||Hypothesis: sulforaphane treatment slows or reverse the progression of lung histological lesions or lower the dysplasia score.|ANCOVA|ANCOVA model includes baseline average endobronchial histopathological scores,age,sex,cigarettes per day,years of smoking, years since quit smoking||Derived from ANCOVA model with adjustment for baseline average endobronchial histopathological scores, age, sex, cigarettes per day, years of smoking, and years since quit smoking.||0.28|-0.04|0.452
82549622|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.738||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||All positive nuclei. Mean (95%CI) changes in baseline.||||0.738
82549623|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.78||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Weak-intensity positive nuclei. Mean (95%CI) baseline.||||0.780
82549624|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.733||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Moderate intensity positive nuclei. Mean (95%CI) changes in baseline.||||0.733
82580258|NCT00775463|164871610|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-9.3||||0.12|TWO_SIDED|95.0|-21.3|2.7||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The VAS-global assessments were recorded in centimeters, with possible values ranging from 0.0 to 15.0. The recorded value was divided by 15, then multiplied by 100 to convert it to the VAS-Global scale, with values ranging from 0 (no disease activity) to 100 (very severe disease). The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||2.7|-21.3|0.12
82475398|NCT01584440|164646505|SUPERIORITY||ANCOVA Least Squares Mean Difference|1.09|||||TWO_SIDED||||||||Participant: Day 36|||||
82475399|NCT01584440|164646505|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.7|||||TWO_SIDED||||||||Participant: Day 70|||||
82475400|NCT01584440|164646506|SUPERIORITY||OLS Z-statistic|-1.4||||0.163|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.163
82475401|NCT01584440|164646506|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.07|||||TWO_SIDED||||||||Day 36|||||
82475402|NCT01584440|164646506|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.39|||||TWO_SIDED||||||||Day 70|||||
82475403|NCT01584440|164646507|SUPERIORITY||OLS Z-statistic|-1.08||||0.279|TWO_SIDED||||||ANCOVA|SPCD: data from the Stages 1 and 2 are analyzed together using the mITT Population||||||0.279
82475404|NCT01584440|164646507|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.76|||||TWO_SIDED||||||||Day 8|||||
82475405|NCT01584440|164646507|SUPERIORITY||ANCOVA Least Squares Mean Difference|-1.02|||||TWO_SIDED||||||||Day 22|||||
82475406|NCT01584440|164646507|SUPERIORITY||ANCOVA Least Squares Mean Difference|0.74|||||TWO_SIDED||||||||Day 43|||||
82475407|NCT01584440|164646507|SUPERIORITY||ANCOVA Least Squares Mean Difference|-0.05|||||TWO_SIDED||||||||Day 57|||||
82475408|NCT01584440|164646508|SUPERIORITY||Odds Ratio (OR)|2.7||||0.0001|TWO_SIDED|95.0|1.62|4.5|||ANCOVA||Day 36|||4.50|1.62|0.0001
82549625|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.751||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Strong-Intensity positive nuclei. Mean (95%CI) changes in baseline.||||0.751
82549626|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.014||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of Ki-67 positive nuclei||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.014
82549627|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.056|||||||Covariance|Analysis of Covariance adjustment age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Week intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.056
82549628|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.028|||||||Analysis of Covariance|Analysis of Covariance adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Moderate Intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.028
82549629|NCT03232138|164801107|EQUIVALENCE|2-sided P-value in the analysis||||||0.004|||||||Analysis of Covariance|Analysis of Covariance adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking,baseline values of the same cellular biomarker||Strong intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.004
82549630|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline for positive cells. TUNEL positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.377||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies compared with the place|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||All positive nuclei. Mean (95%CI) baseline.||||0.377
82549631|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis||||||0.413||||||Hypothesis: Sulforaphane treatment inhibits or reduces number of Ki-67 positive nuclei in bronchial biopsy as compared with the placebo.|Analysis of Covariance|||Weak-intensity positive nuclei. Mean (95%CI) baseline.||||0.413
82549632|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline Moderate-intensity positive nuclei. TUNEL positive (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.338||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies compared with the place|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Moderate Intensity positive nuclei. Mean (95%CI) at baseline.||||0.338
82549633|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) at baseline for positive cells. TUNEL positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.547||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Strong-intensity positive nuclei. Mean (95%CI) baseline.||||0.547
82549634|NCT03232138|164801108|EQUIVALENCE|used 2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for all positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.291||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.291
82549635|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.552||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Weak-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.552
82549636|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.205||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Moderate-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.205
82549637|NCT03232138|164801108|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. TUNEL all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.295||||||Hypothesis: Sulforaphane treatment has significant impact on number of TUNEL positive nuclei in bronchial biopsies|Analysis of Covariance|Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking, baseline values of positive TUNEL nuclei||Strong-intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.295
82549638|NCT03232138|164801109|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.295||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||All positive nuclei. Mean (95%CI) at baseline.||||0.295
82650968|NCT02363010|165016725|SUPERIORITY|||||||0.814||||||A prior threshold for statistical significance was p \< .05.|Regression, Poison|Controlling for baseline MVPA. Poisson linear regression was used as MVPA data distribution was zero-inflated.||The null hypothesis was that 6-month Appetitive Response to Exercise would not significantly moderate the relationship between the three treatment conditions and 36-month MVPA. As a note, multiple imputation for missing MVPA data was not conducted for exploratory moderation analyses.||||.814
82475409|NCT01584440|164646508|SUPERIORITY||Odds Ratio (OR)|1.61||||0.2184|TWO_SIDED|95.0|0.75|3.43|||ANCOVA||Day 70|||3.43|0.75|0.2184
82475410|NCT01584440|164646509|SUPERIORITY||Odds Ratio (OR)|2.45||||0.0266|TWO_SIDED|95.0|1.11|5.42|||ANCOVA|||||5.42|1.11|0.0266
82475411|NCT01584440|164646510|SUPERIORITY||Odds Ratio (OR)|2.16||||0.002|TWO_SIDED|95.0|1.31|3.55|||ANCOVA||Day 36|||3.55|1.31|0.002
82475412|NCT01584440|164646510|SUPERIORITY||Odds Ratio (OR)|2.32||||0.031|TWO_SIDED|95.0|1.08|5.0|||ANCOVA||Day 70|||5.00|1.08|0.031
82475413|NCT01584440|164646511|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0048|TWO_SIDED|95.0|1.31|4.46|||ANCOVA|||||4.46|1.31|0.0048
82475414|NCT00531427|164646540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.0853|TWO_SIDED|95.0|-0.8|0.05|||Mixed Models Analysis|Statistics are based on a mixed effect general linear model||"\[Week 12 analysis\] The null hypothesis was no group differences. The alternative hypothesis was that BTDS arm was superior to the placebo arm.~Pain scale is 11 points (0 = no pain to 10 = pain as bad as you can imagine)."||0.05|-0.80|0.0853
82475415|NCT00531427|164646541|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037||||0.7098|TWO_SIDED|95.0|-0.233|0.159||To control multiplicity and family-wise error rate, a gate-keeping strategy (stepwise approach) was used to evaluate the statistical significance of the secondary variables. If the primary is negative, the secondary P values are descriptive only.|ANCOVA|with treatment as a factor and screening and pre-randomization mean pain as covariates.||Categorical analysis P value is based on a Fisher's exact test. Mean daily number of tablets for subjects who took \<=1 dose of supplemental analgesia||0.159|-0.233|0.7098
82475416|NCT00531427|164646542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.46||||0.0034|TWO_SIDED|95.0|-7.44|-1.48||To control multiplicity and family-wise error rate, a gate-keeping strategy (stepwise approach) was used to evaluate the statistical significance of the secondary variables. If the primary is negative, the secondary P values are descriptive only.|Mixed Models Analysis|||Weeks 4, 8, 12 analysis The sleep disturbance subscale was analyzed using the mixed effect linear model with fixed effects for treatment (BTDS or placebo) and time (weeks 1, 2, 4, 8, 12) as categorical, screening mean and prerandomization mean value as covariates, and subject as a random effect.||-1.48|-7.44|0.0034
82475417|NCT02872285|164646545|SUPERIORITY||Mean Difference (Final Values)|-12.8||||0.2205|TWO_SIDED|95.0|-33.793|8.199||ANCOVA was used to compare mean percent change in PASI score between baseline and Week 12 between LYC-30937 and placebo treatment groups with treatment as a factor and baseline as a covariate.|ANCOVA|||Subjects included in this analysis had to have both a baseline and Week 12 PASI scores.||8.199|-33.793|0.2205
82475418|NCT02872285|164646546|SUPERIORITY|||||||0.4712|||||||Chi-squared|2-sided p-value.||||||0.4712
82475419|NCT02872285|164646547|SUPERIORITY||Mean Difference (Final Values)|-5.34||||0.6695|TWO_SIDED|95.0|-30.87|20.18|||ANCOVA|||||20.18|-30.87|0.6695
82475420|NCT02872285|164646548|SUPERIORITY|||||||0.4712||||||2-sided p-value|Chi-squared|||||||0.4712
82475421|NCT02872285|164646549|SUPERIORITY|||||||0.4712||||||2-sided p-value|Chi-squared|||||||0.4712
82475422|NCT02660983|164646552|SUPERIORITY||Difference in least square (LS) means|-0.58||||0.3455|TWO_SIDED|95.0|-1.79|0.63|||ANCOVA|||||0.63|-1.79|0.3455
82475423|NCT02660983|164646553|SUPERIORITY||Difference in LS means|-0.12||||0.257|TWO_SIDED|95.0|-0.32|0.09|||ANCOVA||LS mean of Donepezil group - LS mean of Placebo (when the difference of LS mean scores were less than 0, considered as demonstrated hypothesis), analyzed with ANCOVA model with baseline (CIBIS) as covariate and treatment as main effect.|||0.09|-0.32|0.2570
82475424|NCT02660983|164646554|SUPERIORITY||Difference in LS means|0.65||||0.0396|TWO_SIDED|95.0|0.03|1.26|||ANCOVA|||||1.26|0.03|0.0396
82475425|NCT02660983|164646555|SUPERIORITY||Difference in LS means|-7.73||||0.2213|TWO_SIDED|95.0|-20.13|4.68|||ANCOVA|||Part A||4.68|-20.13|0.2213
82475426|NCT02660983|164646555|SUPERIORITY||Difference in LS means|-14.88||||0.0551|TWO_SIDED|95.0|-30.1|0.33|||ANCOVA|||Part B||0.33|-30.10|0.0551
82475427|NCT01253577|164646566|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||McNemar|||||||0.0280
82475428|NCT01253577|164646567|SUPERIORITY_OR_OTHER||||||<|0.0001|ONE_SIDED|95.0|||||Fisher Exact|||||||<0.0001
82475429|NCT01253577|164646568|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|95.0|||||McNemar|||||||0.0023
82475430|NCT05601544|164646572|SUPERIORITY||Least-squares Mean difference|0.22|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.19|0.25||1-sided p-value was calculated using one-sided type 1 error of 0.025|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-squares mean difference was calculated as Test minus Control|It was calculated that 41 (for the Multifocal strata) and 6 (for the Sphere strata) participants in each vision group randomized in a 1:1 fashion between the two sequences would have at least a power of 90% (for the Multifocal strata) and a power of 94% (for the Sphere strata) to detect a statistical superiority with respect to visual range.||0.25|0.19|<.0001
82475431|NCT05601544|164646572|SUPERIORITY||Least-squares Mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|TWO_SIDED|95.0|0.14|0.18||1-sided p-value was calculated using one-sided type 1 error of 0.025|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-squares mean difference was calculated as Test minus Control|It was calculated that 41 (for the Multifocal strata) and 6 (for the Sphere strata) participants in each vision group randomized in a 1:1 fashion between the two sequences would have at least a power of 90% (for the Multifocal strata) and a power of 94% (for the Sphere strata) to detect a statistical superiority with respect to visual range.||0.18|0.14|<.0001
82475432|NCT05601544|164646575|SUPERIORITY||Median Ratio|0.83||||0.0465|TWO_SIDED|98.33|0.64|1.09||1-sided p-value was calculated using one-sided type 1 error of 0.0083.|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Median Ratio was calculated as test over control|It was calculated that 16 participants in each group randomized in a 1:1 fashion between the two sequences would have at least 92% power to detect a statistical superiority with respect to motion detection.||1.09|0.64|0.0465
82549639|NCT03232138|164801109|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.242||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||weak intensity positive nuclei. Mean (95%CI) at baseline.||||0.242
82549640|NCT03232138|164801109|EQUIVALENCE|-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.985||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Moderate intensity positive nuclei. Mean (95%CI) at baseline.||||0.985
82549641|NCT03232138|164801109|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) baseline positive cells. Caspase-3 positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.547||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Strong intensity positive nuclei. Mean (95%CI) at baseline.||||0.547
82475433|NCT05601544|164646576|SUPERIORITY||Least-square Mean Difference|0.14|||<|0.0001|TWO_SIDED|98.33|0.112|0.17||1-sided p-value was calculated using one-sided type 1 error of 0.0083|Mixed Model Analysis|the Kenward and Roger method was used for the calculation of the denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|It was calculated that 29 participants in each group randomized in a 1:1 fashion between the two sequences would have at least 91% power to detect a statistical superiority with respect to motion detection.||0.170|0.112|<.0001
82475434|NCT06457204|164646581|OTHER||Ratio of adjusted geometric means [%]|101.6|||||TWO_SIDED|90.0|98.4|105.0|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 6.9."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.0|98.4|
82475435|NCT06457204|164646582|OTHER||Ratio of adjusted geometric means [%]|98.3|||||TWO_SIDED|90.0|91.6|105.5|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 15.0."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.5|91.6|
82475436|NCT06457204|164646583|OTHER||Ratio of adjusted geometric means [%]|101.6|||||TWO_SIDED|90.0|98.2|105.0|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.1."|Analysis of variance (ANOVA) on the logarithmic scale included effects for sequence, subjects nested within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t-distribution. These quantities were then back-transformed to the original scale to provide the point estimate and 90% CIs.||105.0|98.2|
82475437|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.06||||0.69||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||0.69
82475438|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.14||||0.3||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||0.30
82475439|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.81|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||<0.0001
82475440|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.67||||0.001||95.0||||Values from Groups I, II and III were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||0.001
82475441|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.08||||0.61||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||0.61
82475442|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.31||||0.02||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||0.02
82475443|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.45||||0.002||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||0.002
82475444|NCT00488683|164646599|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.4||||0.08||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||0.08
82475445|NCT00488683|164646599|SUPERIORITY_OR_OTHER||R-square|0.004||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup A||||
82549642|NCT03232138|164801109|EQUIVALENCE|used 2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for all positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker.||||||0.778||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||All positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.778
82549643|NCT03232138|164801109|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker||||||0.685||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Weak intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.685
82650969|NCT02884206|165016751|NON_INFERIORITY|To demonstrate non-inferiority that LCZ696 does not lead to a relevant decrease in cognition compared to valsartan at year 3, the lower bound of 95% CI does not include the pre-specified non-inferiority (NI) boundary (Cohen's D) of -0.3. An effect size of 0.3 in Cohen's D is generally considered as small.|LSM|-0.018||||0.7363|TWO_SIDED|95.0|-0.123|0.087|||ANCOVA|||Repeated measure ANCOVA|Cohen's D: -0.0277, 95% CI: -0.1101 to 0.0778|0.0870|-0.1230|0.7363
82376908|NCT03104400|164460625|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.08||||0.0162|TWO_SIDED|95.0|-0.15|-0.01||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.01|-0.15|0.0162
82475446|NCT00488683|164646599|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup C||||
82475447|NCT00488683|164646599|SUPERIORITY_OR_OTHER||R-square|0.66||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup W-135||||
82475448|NCT00488683|164646599|SUPERIORITY_OR_OTHER||R-square|0.45||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and hSBA titers at 12 months of age for the serogroup Y||||
82475449|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.07||||0.7||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||0.70
82475450|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.13||||0.37||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||0.37
82475451|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.66|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||<0.0001
82475452|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.9|||<|0.0001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||<0.0001
82475453|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.01||||0.94||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||0.94
82475454|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.7||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||0.70
82475455|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.3||||0.04||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||0.04
82475456|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.46||||0.004||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||0.004
82475457|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.005||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup A||||
82475458|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup C||||
82475459|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.43||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup W-135||||
82549644|NCT03232138|164801109|EQUIVALENCE|-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarker||||||0.469||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||Moderate intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.469
82549645|NCT03232138|164801109|EQUIVALENCE|2-sided P-value in the analysis, Mean (95%CI) changes from pre to pos treatment for positive cells. Caspase-3 all positive nuclei (counts/µm2) From Analysis of Covariance with adjustment for age, sex, cigarettes/day, years of smoking, years of quit smoking and baseline values of the same cellular biomarke||||||0.052||||||Hypothesis: Sulforaphane treatment has significant impact on the number of cells with positive Caspase-3 in bronchial biopsies than the placebo.|Analysis of Covariance|Analysis of Covariance adjustment for age,sex,cigarettes/day,years of smoking,years of quit smoking,baseline values of Caspase-3 positive cells||strong intensity positive nuclei. Mean (95%CI) changes from pre to pos treatment.||||0.052
82549646|NCT03232138|164801110|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung cancer. the objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RNA integrity number or RIN.|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.1||0.82|TWO_SIDED|||||Hypothesis: Sulforaphane treatment downregulate these genes whose over-expressions are associated with risk of lung cancer.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after 12-month sulforaphane treatment.|||||0.82
82549647|NCT03232138|164801111|EQUIVALENCE|This analysis was focused on the gene set that were found to be down-regulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated down-regulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.5|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate these genes whose down-expressions are associated with lung cancer risk.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after 12-month sulforaphane treatment.|||||0.50
82549648|NCT03232138|164801112|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung pre-malignant lesions. The objective was to examine if sulforaphane treatment for 12 months would have any significant impact on the expression of these pre-malignant lesions associated upregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.15|STANDARD_ERROR_OF_MEAN|0.15||0.32|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would downregulate these genes whose over-expressions are associated with risk of lung pre-malignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.32
82549649|NCT03232138|164801113|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung pre-malignant lesions. The objective was to examine if sulforaphane treatment for 12 months would have any significant impact on the expression of these pre-malignant lesions associated downregulated genes in bronchial brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate these genes whose down-regulated expressions are associated with risk of lung pre-malignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.5
82549650|NCT03232138|164801114|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|||||Sulforaphane treatment would downregulate the expression of these genes whose upregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung cancer.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.012
82580259|NCT00775463|164871611|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-9.3||||0.04|TWO_SIDED|95.0|-18.0|0.0||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The VAS-global assessments were recorded in centimeters, with possible values ranging from 0.0 to 15.0. The recorded value was divided by 15, then multiplied by 100 to convert it to the VAS-Global scale, with values ranging from 0 (no disease activity) to 100 (very severe disease). The difference between treatment groups for the change from Baseline was tested using the Wilcoxon rank-sum test.||0.0|-18.0|0.04
82580260|NCT00775463|164871612|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-1.0||||0.47|TWO_SIDED|95.0|-4.0|2.0||Analyses of secondary endpoints were descriptive in nature, no adjustments for multiplicity were made. P-values are for the purpose of describing the random imbalance between treatment groups and not to test formal hypotheses.|Wilcoxon (Mann-Whitney)|||The difference between treatment groups for the change from Baseline in CHFS Score were tested using the Wilcoxon rank-sum test.||2.0|-4.0|0.47
82475460|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.82||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and memory B cells at 12 months of age for the serogroup Y||||
82549651|NCT03232138|164801115|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung cancer. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these lung-cancer associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.38|STANDARD_ERROR_OF_MEAN|0.12||0.0045|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate the expression of these genes whose downregulated expressions in nasal epithelial cells have been found to be associated with risk of lung cancer.|Mixed Models Analysis||Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.0045
82549652|NCT03232138|164801116|EQUIVALENCE|This analysis was focused on the gene set that were found to be upregulated in lung premalignant lesions. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these premalignant lesion-associated upregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|0.17|STANDARD_ERROR_OF_MEAN|0.16||0.32|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would downregulate the expression of these genes whose upregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung premalignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.32
82549653|NCT03232138|164801117|EQUIVALENCE|This analysis was focused on the gene set that were found to be downregulated in lung premalignant lesions. The objective was to examine if sulforaphane treatment for 12 months had any significant impact on the expression of these premalignant lesion-associated downregulated genes in nasal brushing samples. A linear mixed model was used to evaluate the effect of sulforaphane treatment over time on GSVA enrichment score with adjustment for age at study entry, sex, and RIN.|Slope|-0.16|STANDARD_ERROR_OF_MEAN|0.14||0.27|TWO_SIDED|||||Hypothesis: Sulforaphane treatment would upregulate the expression of these genes whose downregulated expressions in bronchial epithelial cells have been found to be associated with risk of lung premalignant lesions.|Mixed Models Analysis|The model includes treatment, time, time\*treatment, age at study entry, sex, and RIN.|Changes (beta) of gene expression after the 12-month sulforaphane treatment.|||||0.27
82549654|NCT03232138|164801118|EQUIVALENCE|Total number of adverse events by attrition and severity by treatment group during the study period, The Pittsburgh Clinical Trial of Sulforaphane (SFN) on Risk Markers of Lung Cancer||||||0.59||||||For severity by treatment group.|Fisher Exact|||||||0.590
82549655|NCT03232138|164801118|EQUIVALENCE|Total number of adverse events by attrition and severity by treatment group during the study period, The Pittsburgh Clinical Trial of Sulforaphane (SFN) on Risk Markers of Lung Cancer||||||0.131||||||For attribution by treatment group.|Fisher Exact|||||||0.131
82549656|NCT03001414|164801119|SUPERIORITY||Mean Difference (Final Values)|13.7|STANDARD_ERROR_OF_MEAN|16.69||0.42|TWO_SIDED|95.0|-20.08|47.48|||ANOVA|Global test of difference between the arms analyzed as absolute change from baseline.||Due to sample size restriction, the primary analysis plan was modified to analyze change from baseline to each time point using repeated measures of ANOVA.||47.48|-20.08|0.42
82549657|NCT03001414|164801119|SUPERIORITY||Mean Difference (Final Values)|13.7||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Calculation of raw change from baseline in meters using non-parametric Wilcoxon test.||||0.57
82549658|NCT03001414|164801119|SUPERIORITY||Mean Difference (Final Values)|4.55||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Secondary analysis of primary outcome using non-parametric Wilcoxon test of percent change from baseline.||||||0.53
82549659|NCT03001414|164801120|SUPERIORITY|Change from baseline calculated in meters using non-parametric analysis.|Mean Difference (Final Values)|41.97||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of these arms is in accordance with the statistical analysis plan.||||0.10
82549660|NCT03001414|164801121|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The selected arm for this outcome measure is in accordance with the statistical analysis plan.||||0.50
82549661|NCT03001414|164801122|SUPERIORITY||Mean Difference (Final Values)|22.92||||0.88|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Comparison of change from baseline in meters at 6 and 12 months.||Selection of the arm for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.88
82549662|NCT03001414|164801123|SUPERIORITY||Mean Difference (Final Values)|0.132||||0.81|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.81
82549663|NCT03001414|164801124|SUPERIORITY||Median Difference (Final Values)|2.06||||0.63|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.63
82549664|NCT03001414|164801125|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.25|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.25
82549665|NCT03001414|164801126|SUPERIORITY||Mean Difference (Final Values)|5.6||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|This analysis represents the results for the Physical Component score of the questionnaire.||Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||1.0
82549666|NCT03001414|164801126|SUPERIORITY||Median Difference (Final Values)|0.1||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This analysis represents the difference in score for the mental component of the questionnaire.|Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.64
82549667|NCT03001414|164801127|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This analysis represents the difference in score for the physical component of the questionnaire.|Selection of the arms for analysis of this outcome measure is in accordance with the statistical analysis plan.||||0.40
82549668|NCT03001414|164801127|SUPERIORITY||Mean Difference (Final Values)|15.4||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||This analysis represents the change in score for the mental component of the questionnaire.|||0.23
82549669|NCT05516147|164801146|SUPERIORITY||||||<|0.01||||||A one-sample t-test was used to assess whether the mean was different from a known Constructive Engagement mean of 0.85 for standard programming.|t-test, 2 sided|||A one-sample t-test was used to assess whether the mean was different from a known Constructive Engagement mean of 0.85 for standard programming.||||<.01
82549670|NCT05516147|164801147|SUPERIORITY||||||<|0.01||||||A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.|t-test, 2 sided|A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.||A one-sample t-test was used to assess whether the mean was different from a known Passive Engagement mean of 1.06 for standard programming.||||<.01
82549671|NCT05516147|164801148|SUPERIORITY|||||||0.06||||||A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.|t-test, 2 sided|A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.||A one-sample t-test was used to assess whether the mean was different from a known Other Engagement mean of 0.42 for standard programming.||||0.06
82549672|NCT05516147|164801149|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||A one-sample t-test was used to assess whether the mean was different from a known Non Engagement mean of 0.40 for standard programming.||||<.01
82549673|NCT05516147|164801151|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||baseline score vs. post-treatment, paired sample t-test||||0.81
82549674|NCT05516147|164801152|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.20
82549675|NCT05516147|164801153|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.83
82549676|NCT05516147|164801154|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||baseline vs. post-treatment, paired sample t-test||||0.320
82549677|NCT00450658|164801178|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.5||||0.0018|TWO_SIDED|95.0|3.0|15.9|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) and prior upper gastrointestinal ulcer history (Yes/No) at randomization.||The primary efficacy endpoint was the proportion of subjects developing UGI (gastric and/or duodenal) ulcers throughout 24 weeks of treatment. A summary including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of UGI ulcers at 24 weeks. The cumulative proportion of subjects developing UGI ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||15.9|3.0|0.0018
82549678|NCT00450658|164801179|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|8.2||||0.0051|TWO_SIDED|95.0|1.9|14.4|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin (Yes/No) and prior upper gastrointestinal ulcer history (Yes/No) at randomization.||||14.4|1.9|0.0051
82580261|NCT00775463|164871614|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.68|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||he difference between treatment groups for the change from Baseline and at Week 20 in the mRSS was tested using the Wilcoxon rank-sum test.||1.0|0.0|0.68
82475461|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.05||||0.68||95.0||||Values from Group 1, 2 and 2 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||0.68
82549679|NCT00450658|164801180|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.9||||0.0017|TWO_SIDED|95.0|0.8|7.1|||Cochran-Mantel-Haenszel|CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||The secondary efficacy endpoint was the proportion of subjects developing duodenal ulcers throughout 24 weeks of treatment. A summary including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of duodenal ulcers at 24 weeks. The cumulative proportion of subjects developing duodenal ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history at randomization.||7.1|0.8|0.0017
82549680|NCT03850678|164801250|SUPERIORITY|||||||0.774|||||||ANOVA|||This analysis examined Q10 for those participants who completed the compression speed experiment (instant, fast, slow).||||.774
82549681|NCT03850678|164801250|SUPERIORITY||||||<|0.001|||||||ANOVA|||This analysis examined Q10 for those participants who completed the compression channel conditions (4, 8, 16).||||<.001
82549682|NCT03850678|164801250|SUPERIORITY|||||||0.167|||||||ANOVA|||This analysis compared Q10 for those participants who completed the unaided and aided conditions.||||.167
82549683|NCT03850678|164801251|SUPERIORITY|||||||0.741|||||||ANOVA|||Statistical analysis of number of compression channels (unaided, 4 channel, 16 channels)||||.741
82549684|NCT03850678|164801251|SUPERIORITY|||||||0.062||||||Due to Levene's Test for Equality of Variances, equal variances were not assumed.|t-test, 1 sided|||Spatial Release from Masking, unaided.||||.062
82549685|NCT03850678|164801252|SUPERIORITY|||||||0.805|||||||Regression, Linear|||Linear regression of score for the reading span (independent variable) to Q10 (dependent variable, 16 channel compression condition) for the participants who completed the compression channel experiment.||||.805
82549686|NCT04640298|164801257|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82549687|NCT04640298|164801258|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82549688|NCT04640298|164801259|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82549689|NCT01573442|164801296|SUPERIORITY|||||||0.4952|||||||Wilcoxon (Mann-Whitney)|||||||0.4952
82549690|NCT01573442|164801297|SUPERIORITY|||||||0.2116|||||||Fisher Exact|||||||0.2116
82549691|NCT01573442|164801298|SUPERIORITY|||||||0.676|||||||Wilcoxon (Mann-Whitney)|||||||0.6760
82549692|NCT01573442|164801299|SUPERIORITY|||||||0.029|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 1||||0.029
82549693|NCT01573442|164801299|SUPERIORITY|||||||0.8214|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 2||||0.8214
82549694|NCT01573442|164801299|SUPERIORITY|||||||0.4952|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 3||||0.4952
82549695|NCT01573442|164801299|SUPERIORITY|||||||0.5232|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 4||||0.5232
82549696|NCT01573442|164801299|SUPERIORITY|||||||0.5522|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 5||||0.5522
82549697|NCT01573442|164801299|SUPERIORITY|||||||0.7005|||||||Wilcoxon (Mann-Whitney)|||From baseline to month 6||||0.7005
82549698|NCT01573442|164801303|SUPERIORITY|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.139
82549699|NCT01573442|164801304|SUPERIORITY|||||||0.8761|||||||Wilcoxon (Mann-Whitney)|||||||0.8761
82549700|NCT01573442|164801305|SUPERIORITY|||||||0.0176|||||||Wilcoxon (Mann-Whitney)|||||||0.0176
82549701|NCT01573442|164801306|SUPERIORITY|||||||0.7077|||||||Wilcoxon (Mann-Whitney)|||||||0.7077
82549702|NCT01573442|164801307|SUPERIORITY|||||||0.8748|||||||Wilcoxon (Mann-Whitney)|||||||0.8748
82549703|NCT01573442|164801308|SUPERIORITY|||||||0.4335|||||||Wilcoxon (Mann-Whitney)|||||||0.4335
82549704|NCT01573442|164801309|SUPERIORITY|||||||0.286|||||||Wilcoxon (Mann-Whitney)|||||||0.286
82549705|NCT01573442|164801310|SUPERIORITY|||||||0.7694|||||||Wilcoxon (Mann-Whitney)|||||||0.7694
82549706|NCT01573442|164801311|SUPERIORITY|||||||0.9609|||||||Wilcoxon (Mann-Whitney)|||||||0.9609
82549707|NCT03649659|164801312|SUPERIORITY||Odds Ratio (OR)|4.06|||<|0.0001|TWO_SIDED|99.9|2.54|6.48|||Regression, Logistic|Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.||||6.48|2.54|<0.0001
82549708|NCT03649659|164801313|SUPERIORITY||Odds Ratio (OR)|4.78|||<|0.0001|TWO_SIDED|99.9|2.84|8.05||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||8.05|2.84|<0.0001
82549709|NCT03649659|164801314|SUPERIORITY||Odds Ratio (OR)|5.84|||<|0.0001|TWO_SIDED|99.9|3.59|9.51||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||9.51|3.59|<0.0001
82549710|NCT03649659|164801315|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8942|TWO_SIDED|99.9|0.25|3.54||Multiple imputation (25) of missing data, FCS methods. Group comparisons using GEE logistic model, exchangeable correlation, study site as covariate.|Regression, Logistic|||||3.54|0.25|0.8942
82580262|NCT00775463|164871615|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|-1.0||||0.54|TWO_SIDED|95.0|-3.0|2.0||P value for Total Pain Rating Index Score|Wilcoxon (Mann-Whitney)|||P value for Total Pain Rating Index Score||2.0|-3.0|0.54
82475462|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.08||||0.46||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||0.46
82549712|NCT04166773|164801325|SUPERIORITY||Odds Ratio (OR)|7.45|||<|0.001|TWO_SIDED|95.0|2.27|24.44|||Regression, Logistic||Odds ratio, Confidence Interval (CI), and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||24.44|2.27|<0.001
82549713|NCT04166773|164801325|SUPERIORITY||Odds Ratio (OR)|11.86|||<|0.001|TWO_SIDED|95.0|3.59|39.11|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||39.11|3.59|<0.001
82549714|NCT04166773|164801325|SUPERIORITY||Odds Ratio (OR)|19.63|||<|0.001|TWO_SIDED|95.0|5.73|67.25|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||67.25|5.73|<0.001
82549715|NCT04166773|164801326|SUPERIORITY||Odds Ratio (OR)|3.01||||0.025|TWO_SIDED|95.0|1.15|7.9|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||7.90|1.15|0.025
82549716|NCT04166773|164801326|SUPERIORITY||Odds Ratio (OR)|2.37||||0.074|TWO_SIDED|95.0|0.92|6.13|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors|||6.13|0.92|0.074
82549717|NCT04166773|164801326|SUPERIORITY||Odds Ratio (OR)|2.47||||0.063|TWO_SIDED|95.0|0.95|6.4|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||6.40|0.95|0.063
82549718|NCT04166773|164801327|SUPERIORITY||Odds Ratio (OR)|0.91||||0.893|TWO_SIDED|95.0|0.25|3.4|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||3.40|0.25|0.893
82549719|NCT04166773|164801327|SUPERIORITY||Odds Ratio (OR)|0.73||||0.647|TWO_SIDED|95.0|0.18|2.87|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||2.87|0.18|0.647
82549720|NCT04166773|164801327|SUPERIORITY||Odds Ratio (OR)|0.39||||0.246|TWO_SIDED|95.0|0.08|1.91|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||1.91|0.08|0.246
82549721|NCT04166773|164801328|SUPERIORITY||Odds Ratio (OR)|6.94|||<|0.001|TWO_SIDED|95.0|2.41|20.0|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||20.00|2.41|<0.001
82549722|NCT04166773|164801328|SUPERIORITY||Odds Ratio (OR)|10.46|||<|0.001|TWO_SIDED|95.0|3.36|32.61|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||32.61|3.36|<0.001
82549723|NCT04166773|164801328|SUPERIORITY||Odds Ratio (OR)|12.85|||<|0.001|TWO_SIDED|95.0|3.87|42.65|||Regression, Logistic||Odds ratio, CI, and p-value for endpoint measures are from logistic regression model with baseline diabetes status, region, treatment as factors.|||42.65|3.87|<0.001
82549724|NCT04166773|164801329|SUPERIORITY||LS Mean difference (Final Values)|-8.81|STANDARD_ERROR_OF_MEAN|1.632|<|0.001|TWO_SIDED|95.0|-12.04|-5.58|||Mixed Models Analysis|||||-5.58|-12.04|<0.001
82549725|NCT04166773|164801329|SUPERIORITY||LS Mean difference (Final Values)|-8.83|STANDARD_ERROR_OF_MEAN|1.566|<|0.001|TWO_SIDED|95.0|-11.93|-5.73|||Mixed Models Analysis|||||-5.73|-11.93|<0.001
82549726|NCT04166773|164801329|SUPERIORITY||LS Mean difference (Final Values)|-10.02|STANDARD_ERROR_OF_MEAN|1.591|<|0.001|TWO_SIDED|95.0|-13.17|-6.87|||Mixed Models Analysis|||||-6.87|-13.17|<0.001
82549727|NCT04166773|164801330|SUPERIORITY||LS Mean difference (Final Values)|-10.42|STANDARD_ERROR_OF_MEAN|1.976|<|0.001|TWO_SIDED|95.0|-14.32|-6.52|||Mixed Models Analysis|||||-6.52|-14.32|<0.001
82580263|NCT00775463|164871615|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Ef|-0.6||||0.18|TWO_SIDED|95.0|-1.6|0.3||P value for Pain VAS|Wilcoxon (Mann-Whitney)|||P value for Pain VAS||0.3|-1.6|0.18
82549728|NCT04166773|164801330|SUPERIORITY||LS Mean difference (Final Values)|-13.19|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-17.05|-9.32|||Mixed Models Analysis|||||-9.32|-17.05|<0.001
82475463|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.2||||0.08||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||0.08
82475464|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.45|||<|0.001||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||<0.001
82475465|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.04||||0.75||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||0.75
82475466|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.27||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||0.27
82475467|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.07||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||0.07
82475468|NCT00488683|164646600|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.23||||0.06||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||0.06
82475469|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.0029||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
82475470|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.0059||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
82475471|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.04||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
82549729|NCT04166773|164801330|SUPERIORITY||LS Mean difference (Final Values)|-16.84|STANDARD_ERROR_OF_MEAN|1.957|<|0.001|TWO_SIDED|95.0|-20.71|-12.98|||Mixed Models Analysis|||||-12.98|-20.71|<0.001
82549730|NCT03158714|164801367|SUPERIORITY||Mean Difference (Net)|0.033||||0.005|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.005
82549731|NCT03158714|164801367|SUPERIORITY||Mean Difference (Net)|0.02||||0.101|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.101
82549732|NCT03158714|164801368|SUPERIORITY||Mean Difference (Net)|3.96|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Regression, Linear|Utilized multi-level modeling to account for nested data (individuals within couples), and controlled for baseline levels of outcome in regression.||||||< .001
82549733|NCT03158714|164801368|SUPERIORITY||Mean Difference (Net)|4.09|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Regression, Linear|Utilized multi-level modeling to account for nested data (individuals within couples), and controlled for baseline levels of outcome in regression.||||||< .001
82549734|NCT03158714|164801369|SUPERIORITY||Mean Difference (Net)|0.343||||0.003|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.003
82549735|NCT03158714|164801369|SUPERIORITY||Mean Difference (Net)|0.172||||0.152|TWO_SIDED|||||The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Utilized multi-level modeling to account for nested data (individuals within couples), and accounted for time within individual.||||||.152
82549736|NCT02515773|164801370|SUPERIORITY||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|||||This is a calculated p-value less than 0.001|ANCOVA|||||||<0.001
82475472|NCT00488683|164646600|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0||||Values from Group 1, 2 and 3 were combined for this analysis.|Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccinations and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
82549737|NCT02515773|164801371|SUPERIORITY||Mean Difference (Net)|0.07||||0.044|TWO_SIDED||||||ANCOVA|||||||0.044
82549738|NCT02515773|164801372|SUPERIORITY||Mean Difference (Net)|0.08|||<|0.001|TWO_SIDED|||||This is a calculated p-value less than 0.001|ANCOVA|||||||<0.001
82549739|NCT02515773|164801373|SUPERIORITY||Mean Difference (Net)|0.09||||0.041|TWO_SIDED||||||ANCOVA|||||||0.041
82549740|NCT04072380|164801388|SUPERIORITY|||||||0.024||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.024
82549741|NCT04072380|164801389|SUPERIORITY|||||||0.009||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.009
82549742|NCT04072380|164801390|SUPERIORITY|||||||0.734||||||Threshold for statistical significance was p≤0.05|Mixed Models Analysis|Mixed model for repeated measures (MMRM)||||||0.734
82549743|NCT04072380|164801391|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82549744|NCT04072380|164801392|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82475473|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.26||||0.46||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.46
82549745|NCT03033576|164801400|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.04|TWO_SIDED|90.0|0.41|0.97||Pre-specified one-sided alpha=0.1|Log Rank|||The statistical design assumed exponential PFS with a median of 3.0 months on the ipilimumab group (null hypothesis). The study was powered to detect a change in median PFS to 6.0 months in the combination therapy group (corresponding to an HR of 0.50). A total of 84 participants (63 randomized to combination group and 21 to ipilimumab group) with 78 events (across both groups) would provide 89% power for a one-sided alpha of 10% using a log-rank test.||0.97|0.41|0.04
82549746|NCT03033576|164801403|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.28|TWO_SIDED|90.0|0.5|1.39|||Log Rank|||||1.39|0.50|0.28
82549747|NCT05026320|164801441|EQUIVALENCE|The primary efficacy hypothesis to be tested was the equality of tenderness (algometry) over the initial 72 hours (algometry AUC 0-72).||||||0.0221|||||||ANCOVA|||||||0.0221
82549748|NCT03640312|164801488|SUPERIORITY||Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.18||Adjusting for baseline systolic blood pressure.|Mixed Models Analysis|Difference in Least Squared Means (LSM). Random participant effect, fixed baseline, study arm, and time effects.||||1.18|-10.74|0.114
82549749|NCT03640312|164801489|SUPERIORITY|Adjusted for baseline systolic blood pressure.|Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.18|||Mixed Models Analysis|||||1.18|-10.74|0.114
82549750|NCT03640312|164801490|SUPERIORITY||Mean Difference (Net)|-4.86|STANDARD_ERROR_OF_MEAN|1.87||0.012|TWO_SIDED|95.0|-8.62|-1.11||Adjusted Least Squares Mean.|Mixed Models Analysis|||Adjusted for baseline diastolic blood pressure.||-1.11|-8.62|0.012
82549751|NCT03640312|164801491|SUPERIORITY||Mean Difference (Net)|-4.86|STANDARD_ERROR_OF_MEAN|1.87||0.012|TWO_SIDED|95.0|-8.62|-1.11|||Mixed Models Analysis|||||-1.11|-8.62|0.012
82549752|NCT03640312|164801492|SUPERIORITY||Odds Ratio (OR)|2.4||||0.077|TWO_SIDED|95.0|0.91|6.35|||Mixed Models Analysis|Generalized Linear Mixed Model (binomial distribution assumption with logit link).||||6.35|0.91|0.077
82549753|NCT03640312|164801493|SUPERIORITY||Odds Ratio (OR)|0.13||||0.003|TWO_SIDED|95.0|0.03|0.48|||Regression, Logistic|||Logistic regression model adjusting for baseline systolic and diastolic blood pressure.||0.48|0.03|0.003
82549754|NCT03640312|164801494|SUPERIORITY||Odds Ratio (OR)|0.8||||0.71|TWO_SIDED|95.0|0.24|2.69|||Mixed Models Analysis|||Generalized linear mixed model adjusting for baseline systolic and diastolic blood pressure. Random participant effects. Fixed baseline systolic, diastolic, study arm, and time effects.||2.69|0.24|0.710
82475474|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.14||||0.59||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.59
82549755|NCT03640312|164801495|SUPERIORITY||Odds Ratio (OR)|0.64||||0.437|TWO_SIDED|95.0|0.21|1.98|||Regression, Logistic|||Logistic regression model adjusting for baseline systolic and diastolic blood pressure.||1.98|0.21|0.437
82549756|NCT03640312|164801496|SUPERIORITY||Mean Difference (Net)|-3.45|STANDARD_ERROR_OF_MEAN|2.01||0.09|TWO_SIDED|95.0|-7.49|0.59||Adjusted for baseline T score|ANCOVA|||Statistical test for difference in Physical Health T Score||0.59|-7.49|0.09
82549757|NCT03640312|164801496|SUPERIORITY||Mean Difference (Net)|0.55|STANDARD_ERROR_OF_MEAN|1.88||0.77|TWO_SIDED|95.0|-3.22|4.32||Adjusted for baseline mental health T score|ANCOVA|||Statistical test for difference in Mental Health T Score||4.32|-3.22|0.77
82549758|NCT03640312|164801497|SUPERIORITY||Mean Difference (Net)|-4.78|STANDARD_ERROR_OF_MEAN|2.97||0.114|TWO_SIDED|95.0|-10.74|1.182|||Mixed Models Analysis|||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.||1.182|-10.74|0.114
82549759|NCT03640312|164801498|SUPERIORITY||Risk Difference (RD)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.49|TWO_SIDED|95.0|-0.15|0.02|||Fisher Exact|||||0.02|-0.15|0.49
82549760|NCT03640312|164801499|SUPERIORITY||Risk Difference (RD)|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.21|TWO_SIDED|95.0|-0.33|0.03|||Chi-squared|||||0.03|-0.33|0.21
82549761|NCT03640312|164801500|SUPERIORITY||Risk Difference (RD)|-0.17|STANDARD_ERROR_OF_MEAN|0.12||0.18|TWO_SIDED|95.0|-0.41|0.08|||Chi-squared|||||0.08|-0.41|0.18
82549762|NCT03640312|164801501|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.56|TWO_SIDED|95.0|-0.24|0.13|||Mixed Models Analysis|||||0.13|-0.24|0.56
82549763|NCT03640312|164801502|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.45||0.12|TWO_SIDED|95.0|-1.61|0.19||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis|||||0.19|-1.61|0.12
82549764|NCT03640312|164801503|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.95||0.94|TWO_SIDED|95.0|-1.84|1.99||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis||The model estimated mean differences, adjusted for covariates, will not be equal to the raw mean differences observed.|||1.99|-1.84|0.94
82549765|NCT03640312|164801504|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.55|TWO_SIDED|95.0|-0.07|0.04||Linear mixed model. Random participant effects. Fixed baseline systolic, study arm, and time effects.|Mixed Models Analysis|||||0.04|-0.07|0.55
82549766|NCT02761057|164801523|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.019|TWO_SIDED|95.0|0.37|0.97|||Regression, Cox|||A proportional hazards model was used to compare the Hazard Ratio (HR) for PFS.||0.97|0.37|0.019
82549767|NCT02761057|164801524|SUPERIORITY|||||||0.1|||||||Chi-squared|||The Chi-Square test will be used to compare RR between sunitinib and cabozantinib.||||0.10
82549768|NCT02761057|164801525|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.47|1.51|||Log Rank|||The log-rank test will be used to compare OS.||1.51|0.47|
82549769|NCT05492318|164801534|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric least square mean|105.67|||||TWO_SIDED|90.0|91.72|121.74||||||"Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV.~Cmax"||121.74|91.72|
82580264|NCT00775463|164871615|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann Estimate of Treatment Eff|0.0||||0.1|TWO_SIDED|95.0|-1.0|0.0||P value for Total Pain Rating Index Score|Wilcoxon (Mann-Whitney)|||P value for Total Pain Rating Index Score||0.0|-1.0|0.10
82475475|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.006||||0.98||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.98
82475476|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.24||||0.2||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.20
82549770|NCT05492318|164801534|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric least square mean|91.56|||||TWO_SIDED|90.0|86.16|97.31||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||97.31|86.16|
82475477|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.43||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.08
82475478|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.08||||0.68||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.68
82475479|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.006||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.006
82475480|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.16||||0.48||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.48
82475481|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.26||||0.46||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.46
82475482|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.21||||0.4||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||0.40
82475483|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.12||||0.6||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.60
82475484|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.4||||0.03||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||0.03
82475485|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.72||||0.001||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||0.001
82475486|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.0||||1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||1.00
82549771|NCT05492318|164801534|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|92.13|||||TWO_SIDED|90.0|75.97|111.73||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||111.73|75.97|
82549772|NCT05492318|164801534|OTHER|please note that GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|93.59|||||TWO_SIDED|90.0|83.72|104.63||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - Cmax||104.63|83.72|
82475487|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.24||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.24
82475488|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.22||||0.34||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for the analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||0.34
82475489|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||
82475490|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup A||||
82475491|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||
82475492|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup C||||
82475493|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||
82549773|NCT05492318|164801534|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|124.02|||||TWO_SIDED|90.0|114.38|134.47||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||134.47|114.38|
82549774|NCT05492318|164801534|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|117.47|||||TWO_SIDED|90.0|104.78|131.69||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Max||131.69|104.78|
82549775|NCT05492318|164801534|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of geometric LS means|139.28|||||TWO_SIDED|90.0|128.71|150.67||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||150.67|128.71|
82549776|NCT05492318|164801534|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of geometric LS means|141.61|||||TWO_SIDED|90.0|122.36|163.88||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - Cmax||163.88|122.36|
82549777|NCT05492318|164801535|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|73.68|||||TWO_SIDED|90.0|60.77|89.33||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||89.33|60.77|
82549778|NCT05492318|164801535|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|70.38|||||TWO_SIDED|90.0|57.94|85.5||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||85.50|57.94|
82549779|NCT05492318|164801535|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|65.31|||||TWO_SIDED|90.0|53.33|79.98||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - Cmax||79.98|53.33|
82549780|NCT05492318|164801535|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|62.18|||||TWO_SIDED|90.0|50.86|75.95||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate. Cmax||75.95|50.86|
82475494|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.007||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup W-135||||
82475495|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.59||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||
82475496|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one month after booster vaccination for the serogroup Y||||
82475497|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.0002||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.0002
82549781|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the geometric LS means|107.35|||||TWO_SIDED|90.0|103.35|111.49||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||111.49|103.35|
82549782|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|106.18|||||TWO_SIDED|90.0|100.84|111.8||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||111.80|100.84|
82549783|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|121.77|||||TWO_SIDED|90.0|117.56|126.12||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||126.12|117.56|
82549784|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|122.97|||||TWO_SIDED|90.0|115.08|131.41||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-t||131.41|115.08|
82549785|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|137.42|||||TWO_SIDED|90.0|128.09|147.43||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-t||147.43|128.09|
82475498|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.03||||0.9||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.90
82475499|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.47||||0.02||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.02
82475500|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.29||||0.12||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.12
82475501|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.31||||0.22||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.22
82475502|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.81|||<|0.0001||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||<0.0001
82580265|NCT03377699|164871629|NON_INFERIORITY|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI for mean treatment difference in HbA1c is strictly below 0.4%.|Mean treatment difference|-0.11|||<|0.0001|TWO_SIDED|95.0|-0.31|0.08|||ANCOVA|||Primary Estimand. Imputation of missing data was done within two groups of participants defined by randomised treatment arm based on a multiple imputation approach (x1000). For each of the 1000 imputed datasets last planned HbA1c prior to delivery after GW 16 was analysed using an ANCOVA with treatment, region and the stratification factor as categorical fixed effects and a pregnancy status at randomisation-by-baseline HbA1c interaction.||0.08|-0.31|<0.0001
82580266|NCT03377699|164871629|EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% CI for mean treatment difference in HbA1c is strictly below 0.4%.|Mean treatment difference|-0.08||||0.3881|TWO_SIDED|95.0|-0.27|0.11|||ANCOVA|||Secondary Estimand. Imputation of missing data was done within two groups of participants defined by randomised treatment arm based on a multiple imputation approach (x1000). For each of the 1000 imputed datasets last planned HbA1c prior to delivery after GW 16 was analysed using an ANCOVA with treatment, region and the stratification factor as categorical fixed effects and a pregnancy status at randomisation-by-baseline HbA1c interaction.||0.11|-0.27|0.3881
82580267|NCT00774930|164871654|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|TWO_SIDED||||||ANCOVA|This analysis does not include any imputation for the early roll over subjects||||||0.0165
82580268|NCT00774930|164871655|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2544|||||||ANCOVA|ANCOVA included treatment group and 2 stratification variables at randomisation as factors and average frequency of diarrhoea per day during Screening||||||0.2544
82580269|NCT01177800|164871718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82580270|NCT01177800|164871719|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Non parametric ANOVA by van der Waerden|||Change at Week 10: p-value was calculated by Non parametric ANOVA by van der Waerden method.||||<0.001
82580271|NCT01177800|164871720|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82580272|NCT01177800|164871721|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Non parametric ANOVA by van der Waerden|||Change at Week 26: p-value was calculated by Non parametric ANOVA by van der Waerden method.||||<0.001
82580273|NCT05126563|164871727|SUPERIORITY||LS Means|0.054|STANDARD_ERROR_OF_MEAN|0.738||0.9416|TWO_SIDED|95.0|-1.42|1.53|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Extreme fatigue scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.53|-1.42|0.9416
82580274|NCT05126563|164871728|SUPERIORITY||LS Means|-0.172|STANDARD_ERROR_OF_MEAN|0.685||0.8021|TWO_SIDED|95.0|-1.54|1.2|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Brain fog scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.20|-1.54|0.8021
82580275|NCT05126563|164871729|SUPERIORITY||LS Means|0.399|STANDARD_ERROR_OF_MEAN|0.515||0.4417|TWO_SIDED|95.0|-0.63|1.43|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms. - Headache scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.43|-0.63|0.4417
82580276|NCT05126563|164871730|SUPERIORITY||Slope|0.542|STANDARD_ERROR_OF_MEAN|0.721||0.455|TWO_SIDED|95.0|-0.9|1.98|||ANCOVA|||The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Sleep disturbances scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.98|-0.90|0.4550
82580277|NCT05126563|164871731|SUPERIORITY||LS Means|-0.047|STANDARD_ERROR_OF_MEAN|0.466||0.92|TWO_SIDED|95.0|-0.98|0.89|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of taste scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.89|-0.98|0.9200
82580278|NCT05126563|164871732|SUPERIORITY||LS Means|-0.16|STANDARD_ERROR_OF_MEAN|0.36||0.6589|TWO_SIDED|95.0|-0.88|0.56|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.56|-0.88|0.6589
82475503|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.15||||0.82||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.82
82475504|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.15||||0.66||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.66
82475505|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.51||||0.03||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.03
82580279|NCT05126563|164871733|SUPERIORITY||LS Means|0.162|STANDARD_ERROR_OF_MEAN|0.725||0.824|TWO_SIDED|95.0|-1.29|1.61|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms Extreme Fatigue scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.61|-1.29|0.8240
82475506|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.14||||0.53||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||0.53
82475507|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.35||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.35
82475508|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.47||||0.09||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||0.09
82475509|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.51||||0.04||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.04
82475510|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.35||||0.1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||0.10
82475511|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.35||||0.56||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.56
82475512|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.07||||0.84||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||0.84
82475513|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.59||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||
82475514|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.001||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup A||||
82475515|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.22||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||
82475516|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup C||||
82475517|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||
82475518|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.66||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup W-135||||
82475519|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||
82475520|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one month after booster vaccination for the serogroup Y||||
82475521|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.29||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.08
82475522|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.05||||0.74||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.74
82475523|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.01||||0.94||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.94
82475524|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.09||||0.51||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.51
82475525|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.27||||0.12||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.12
82475526|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.25||||0.09||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.09
82475527|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.05||||0.81||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.81
82650970|NCT02884206|165016752|NON_INFERIORITY|To show that the point estimate of SUVr difference in mean change over 3 years is in favor of LCZ696 and the non-inferiority is demonstrated, with the upper bound of the 95% CI excluding the NI boundary of 0.01.|Least Squares Mean|-0.0292||||0.0579|TWO_SIDED|95.0|-0.0593|0.001|||ANCOVA|||Multiple Imputation ANCOVA in Global cortical composite||0.0010|-0.0593|0.0579
82549786|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|131.21|||||TWO_SIDED|90.0|122.47|140.59||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-t||140.59|122.47|
82549787|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|157.77|||||TWO_SIDED|90.0|147.49|168.76||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam. - AUC0-t||168.76|147.49|
82549788|NCT05492318|164801540|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|158.3|||||TWO_SIDED|90.0|145.23|172.54||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: - AUC0-t||172.54|145.23|
82549789|NCT05492318|164801541|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.9|||||TWO_SIDED|90.0|58.43|83.64||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics - AUC0-t||83.64|58.43|
82549790|NCT05492318|164801541|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|71.43|||||TWO_SIDED|90.0|58.67|86.98||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||86.98|58.67|
82549791|NCT05492318|164801541|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.94|||||TWO_SIDED|90.0|58.82|83.15||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||83.15|58.82|
82549792|NCT05492318|164801541|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|72.3|||||TWO_SIDED|90.0|59.92|87.25||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-t||87.25|59.92|
82549793|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|107.55|||||TWO_SIDED|90.0|103.35|111.49||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV: AUC0-inf||111.49|103.35|
82580280|NCT05126563|164871734|SUPERIORITY||LS Means|-0.009|STANDARD_ERROR_OF_MEAN|0.686||0.9892|TWO_SIDED|95.0|-1.38|1.36|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Brain Fog scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.36|-1.38|0.9892
82580281|NCT05126563|164871735|SUPERIORITY||LS Means|0.439|STANDARD_ERROR_OF_MEAN|0.513||0.3952|TWO_SIDED|95.0|-0.59|1.47|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Headache scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.47|-0.59|0.3952
82580282|NCT05126563|164871736|SUPERIORITY||LS Means|0.535|STANDARD_ERROR_OF_MEAN|0.704||0.4504|TWO_SIDED|95.0|-0.87|1.94|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Sleep Disturbances scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.94|-0.87|0.4504
82580283|NCT05126563|164871737|SUPERIORITY||LS Means|-0.161|STANDARD_ERROR_OF_MEAN|0.469||0.7318|TWO_SIDED|95.0|-1.1|0.78|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of Taste scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.78|-1.10|0.7318
82650971|NCT02884206|165016753|SUPERIORITY||Least Squares Mean|0.0007||||0.9916|TWO_SIDED|95.0|-0.1339|0.1353|||ANCOVA|||Repeated measure ANCOVA for memory domain|Cohen's D: 0.0009; 95% CI: -0.0912 to 0.0922|0.1353|-0.1339|0.9916
82549794|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|112.17|||||TWO_SIDED|90.0|106.21|118.46||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-inf||118.46|106.21|
82549795|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|124.01|||||TWO_SIDED|90.0|119.44|128.76||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV - AUC0-inf||128.76|119.44|
82549796|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Midazolam IV Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Midazolam of IV Alone (Day 1)|ratio of the Geometric LSmeans|134.29|||||TWO_SIDED|90.0|126.15|142.96||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Midazolam IV. AUC0-inf||142.96|126.15|
82475528|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.28||||0.07||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.07
82549797|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 7) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|138.75|||||TWO_SIDED|90.0|129.05|149.18||||||Midazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-inf||149.18|129.05|
82475529|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.36||||0.02||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.02
82475530|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.08||||0.59||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.59
82475531|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.1||||0.51||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.51
82580284|NCT05126563|164871738|SUPERIORITY||LS Means|-0.215|STANDARD_ERROR_OF_MEAN|0.357||0.5485|TWO_SIDED|95.0|-0.93|0.5|||RMA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Neurological Symptoms - Loss of Smell scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.50|-0.93|0.5485
82580285|NCT05126563|164871769|SUPERIORITY||LS Means|-0.377|STANDARD_ERROR_OF_MEAN|0.407||0.3577|TWO_SIDED|95.0|-1.19|0.44|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Dyspnea at rest scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.44|-1.19|0.3577
82580286|NCT05126563|164871770|SUPERIORITY||LS Means|-0.203|STANDARD_ERROR_OF_MEAN|0.563||0.7196|TWO_SIDED|95.0|-1.33|0.92|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Dyspnea during activity scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.92|-1.33|0.7196
82580287|NCT05126563|164871771|SUPERIORITY||LS Means|-0.306|STANDARD_ERROR_OF_MEAN|0.435||0.4847|TWO_SIDED|95.0|-1.18|0.56|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Cough scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||0.56|-1.18|0.4847
82580288|NCT05126563|164871772|SUPERIORITY||LS Means|0.619|STANDARD_ERROR_OF_MEAN|0.661||0.3535|TWO_SIDED|95.0|-0.71|1.94|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Body aches scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.94|-0.71|0.3535
82580289|NCT05126563|164871773|SUPERIORITY||LS Means|0.472|STANDARD_ERROR_OF_MEAN|0.655||0.4746|TWO_SIDED|95.0|-0.84|1.78|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Visual Analog Scale of Non-Neurological Symptoms. - Joint Pain scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||1.78|-0.84|0.4746
82580290|NCT05126563|164871774|SUPERIORITY||LS Means|-1.433|STANDARD_ERROR_OF_MEAN|2.141||0.5059|TWO_SIDED|95.0|-5.72|2.85|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in Subject's energy - Fatigue Assessment form scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||2.85|-5.72|0.5059
82580291|NCT05126563|164871775|SUPERIORITY||LS Means|-6.095|STANDARD_ERROR_OF_MEAN|4.99||0.2269|TWO_SIDED|95.0|-16.08|3.89|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups.|The null hypothesis is that the difference in change from baseline to Weeks 26 in Short Form 36 Health Survey Questionnaire (General Health) between treatment groups (HB-adMSCs - Placebo) is equal to zero.||3.89|-16.08|0.2269
82475532|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.02||||0.9||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.9
82475533|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.02||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.02
82580292|NCT05126563|164871776|SUPERIORITY||LS Means|-0.122|STANDARD_ERROR_OF_MEAN|1.392||0.8735|TWO_SIDED|95.0|-2.91|2.66|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||2.66|-2.91|0.8735
82580293|NCT05126563|164871777|SUPERIORITY||LS Means|-3.424|STANDARD_ERROR_OF_MEAN|4.82||0.4802|TWO_SIDED|95.0|-13.07|6.22|||ANCOVA||The value described represents the difference value of the mean change from baseline between HB-adMSC and Placebo groups|The null hypothesis is that the difference in change from baseline to Weeks 26 in PHQ-9 scale score between treatment groups (HB-adMSCs - Placebo) is equal to zero.||6.22|-13.07|0.4802
82580294|NCT03231800|164871791|SUPERIORITY||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|1.059|<|0.001|TWO_SIDED|95.0|-7.351|-3.137|||ANCOVA|||Least squares means, SEs, 95% CIs, and p-values were generated using an ANCOVA model, with treatment (dasotraline/placebo), mean SKAMP-CS at baseline, and site as fixed effects.||-3.137|-7.351|<0.001
82580295|NCT03231800|164871794|SUPERIORITY||Mean Difference (Final Values)|13.86|STANDARD_ERROR_OF_MEAN|5.612||0.016|TWO_SIDED|95.0|2.694|25.017|||ANCOVA|||||25.017|2.694|0.016
82580296|NCT03231800|164871795|SUPERIORITY||Mean Difference (Final Values)|12.06|STANDARD_ERROR_OF_MEAN|5.508||0.031|TWO_SIDED|95.0|1.105|23.017|||ANCOVA|||||23.017|1.105|0.031
82650972|NCT02884206|165016753|SUPERIORITY||Least Squares Mean|0.0327||||0.6348|TWO_SIDED|95.0|-0.1024|0.1677|||ANCOVA|||Repeated measure ANCOVA for executive function domain|Cohen's D: 0.0391, 95% CI: -0.0727 to 0.1192|0.1677|-0.1024|0.6348
82580297|NCT04075994|164871831|SUPERIORITY|||||||0.22||||||A priori threshold for statistical significance p\<0.05.|t-test, 2 sided|||Proportion of days covered assessed as a continuous measure (range 0-1) at 12 months between study arms adjusted for trial stratification factors (type of anticoagulant treatment). We determined that a sample size of 120 in the intervention group and 120 in the control group enables us to detect a minimum difference in PDC as small as 12.6% with 90% power. Power calculations assume use of 2-sided tests with 0.05 significance level.||||0.22
82549798|NCT05492318|164801542|OTHER||GMR corresponds to the ratio of the Geom|134.18|||||TWO_SIDED|90.0|124.19|144.97||||||1-Hydroxymidazolam: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: AUC0-inf||144.97|124.19|
82549799|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|162.76|||||TWO_SIDED|90.0|151.13|175.28||||||Midazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam: AUC0-inf||175.28|151.13|
82549800|NCT05492318|164801542|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Oral Midazolam Co-Administered with Givinostat (Day 18) and the Geometric LSmeans of Oral Midazolam Alone (Day 2)|ratio of the Geometric LSmeans|161.2|||||TWO_SIDED|90.0|147.8|175.82||||||1-Hydroxymidazolam: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Oral Midazolam - AUC0-inf||175.82|147.80|
82549801|NCT05492318|164801543|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|69.96|||||TWO_SIDED|90.0|58.83|83.2||||||Total Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||83.20|58.83|
82549802|NCT05492318|164801543|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 6) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|71.65|||||TWO_SIDED|90.0|59.08|86.88||||||Free Dabigatran: Potential Inhibitory Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||86.88|59.08|
82549803|NCT05492318|164801543|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric LSmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|70.37|||||TWO_SIDED|90.0|59.64|83.03||||||Total Dabigatran: Potential Inducing Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate - AUC0-inf||83.03|59.64|
82549804|NCT05492318|164801543|OTHER|GMR corresponds to the ratio of the Geometric LSmeans of Dabigatran Etexilate Co-Administered with Givinostat (Day 17) and the Geometric Lsmeans of Dabigatran Etexilate Alone (Day 1)|ratio of the Geometric LSmeans|73.45|||||TWO_SIDED|90.0|60.79|88.75||||||Free Dabigatran: Potential Induction Effect of Givinostat on the Pharmacokinetics of Dabigatran Etexilate. AUC0-inf||88.75|60.79|
82549805|NCT03378570|164801584|OTHER|comparative effectiveness trial||||||0.945|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.945
82549806|NCT03378570|164801585|OTHER|comparative effectiveness trial||||||0.828|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.828
82580298|NCT01247285|164871837|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.81|||||TWO_SIDED|90.0|97.37|119.38|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||119.38|97.37|
82580299|NCT01247285|164871838|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.69|||||TWO_SIDED|90.0|92.9|109.14|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||109.14|92.90|
82549807|NCT03378570|164801586|OTHER|comparative effectiveness trial||||||0.252|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||0.252
82549808|NCT03378570|164801587|OTHER|||||||0.505||||||p value for response rate|Chi-squared|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.505
82549809|NCT03378570|164801587|OTHER|||||||0.888||||||p value for remission rate|Chi-squared|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.888
82549810|NCT03378570|164801588|OTHER|||||||0.994|||||||Chi-squared|p value for response rates||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.994
82549811|NCT03378570|164801588|OTHER|||||||0.911|||||||Chi-squared|p value for remission rates||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.911
82475534|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.19||||0.2||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.20
82475535|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.18||||0.34||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.34
82475536|NCT00488683|164646601|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.33||||0.04||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.04
82475537|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
82475538|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.0027||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
82475539|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.0002||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
82475540|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.0077||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
82475541|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
82475542|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
82475543|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.0023||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
82475544|NCT00488683|164646601|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
82475545|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.25||||0.59||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.59
82475546|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.12||||0.68||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.68
82475547|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.36||||0.12||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.12
82475548|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.22||||0.26||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.26
82475549|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.43||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.08
82475550|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.17||||0.42||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.42
82549812|NCT03378570|164801589|OTHER|||||||0.778|||||||t-test, 2 sided|||"The null hypothesis of this study was that there would be no differences between targets across all measures.~A power analysis revealed that a total sample size of 144 would have 80% power when testing for differences between target groups at alpha = 0.05. Accounting for potential attrition, the study conservatively planned to enroll 200 participants, with a planned interim analysis after 100 participants were randomized."||||0.778
82650973|NCT02884206|165016753|SUPERIORITY||Least Squares Mean|-0.1042||||0.2403|TWO_SIDED|95.0|-0.2783|0.07|||ANCOVA|||Repeated measure ANCOVA for attention domain|Cohen's D: -0.0967, 95% CI: -0.1542 to 0.0387|0.0700|-0.2783|0.2403
82475551|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.77||||0.02||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.02
82549813|NCT03378570|164801590|OTHER|comparative effectiveness trial||||||0.951|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures.||||.951
82549814|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.278|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Positive Affect.||||.278
82650974|NCT02884206|165016754|SUPERIORITY||Least Squares Mean|-0.1105||||0.7081|TWO_SIDED|95.0|-0.6906|0.4696|||ANCOVA|||Repeated measure ANCOVA|Cohen's D: -0.0308, 95% CI: -0.1208 to 0.0820|0.4696|-0.6906|0.7081
82549815|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.024|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, General Life Satisfaction.||||.024
82549816|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.439|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Meaning \& Purpose.||||.439
82549817|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.025|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Emotional Support.||||.025
82549818|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.007|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Instrumental Support.||||.007
82549819|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.014|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Friendship.||||.014
82549820|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.398|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Loneliness.||||.398
82549821|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.064|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Rejection.||||.064
82549822|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.368|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Hostility.||||.368
82549823|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.504|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Self-Efficacy.||||.504
82549824|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.371|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Perceived Stress.||||.371
82549825|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.438|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Fear-Affect.||||.438
82549826|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.096|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Fear-Somatic Arousal.||||.096
82549827|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.132|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Sadness.||||.132
82549828|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.951|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Affect.||||.951
82549829|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.852|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Hostility.||||.852
82549830|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.083|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Anger-Physical Aggression.||||.083
82549831|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.391|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Negative Affect.||||.391
82549832|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.014|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Social Satisfaction.||||.014
82549833|NCT03378570|164801591|OTHER|comparative effectiveness trial||||||0.109|||||||t-test, 2 sided|||The null hypothesis of this study was that there would be no differences between targets across all measures. Results below are for the subscale, Psychological Well Being.||||.109
82549834|NCT03378570|164801592|SUPERIORITY|||||||0.231||||||Week 6 timepoint p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~First Visit p = 0.875 Week 1 p = 0.084 Week 2 p = 0.277 Week 3 p = 0.686 Week 4 p = 0.369 Week 5 p = 0.806"||||||0.231
82549835|NCT03378570|164801593|SUPERIORITY|||||||0.963||||||Week 6-7 Follow-up p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~Evaluation p = 0.570 Week 2-3 Follow-up p = 0.063 Week 4-5 Follow-up p = 0.792"||||||0.963
82549836|NCT03378570|164801594|SUPERIORITY|||||||0.051||||||Week 6 timepoint p-value listed above|Mixed Models Analysis|"Other timepoint p-values below:~First Visit p = 0.772 Week 1 p = 0.194 Week 2 p = 0.127 Week 3 p = 0.196 Week 4 p = 0.079 Week 5 p = 0.187"||||||0.051
82549837|NCT03843151|164801600|OTHER||Ratio|192.67|||||TWO_SIDED|90.0|175.19|211.89|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 14.9."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||211.89|175.19|
82549838|NCT03843151|164801601|OTHER||Ratio|120.72|||||TWO_SIDED|90.0|105.69|137.87|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 21.7."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||137.87|105.69|
82475552|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.12||||0.65||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.65
82475553|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.25||||0.58||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||0.58
82475554|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.19||||-0.51||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||-0.51
82475555|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.24||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.24
82475556|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.36||||0.06||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||0.06
82475557|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.72||||0.001||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.001
82475558|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.32||||0.12||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.12
82475559|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.49||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.18
82475560|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.25||||0.34||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.34
82475561|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||
82475562|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup A||||
82475563|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||
82475564|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup C||||
82475565|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
82580300|NCT01247285|164871839|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|100.77|||||TWO_SIDED|90.0|93.53|108.56|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.56|93.53|
82475566|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
82475567|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.6||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||
82475568|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells rise from pre-booster to one month after booster vaccination for the serogroup Y||||
82475569|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.83||||0.001||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.001
82475570|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.14||||0.57||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.57
82580301|NCT01247285|164871840|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.88|||||TWO_SIDED|90.0|98.53|111.64|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.64|98.53|
82580302|NCT01247285|164871841|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.64|||||TWO_SIDED|90.0|99.97|111.56|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.56|99.97|
82580303|NCT01247285|164871842|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.05|||||TWO_SIDED|90.0|94.76|107.77|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||107.77|94.76|
82475571|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.65||||0.001||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.001
82475572|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.31||||0.11||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.11
82475573|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.02||||0.94||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.94
82475574|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.0003||||1||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||1.00
82475575|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.004||||1||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||1.00
82475576|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.3||||0.37||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.37
82549839|NCT03843151|164801602|OTHER||Ratio|120.72|||||TWO_SIDED|90.0|105.69|137.87|||||"The effect of itraconazole on BI 1358894 is estimated by the ratio of geometric mean (BI 1358894 + itraconazole / BI 1358894).~geometric coefficient of variation (gCV) \[%\] = 13.3."|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for 'subject' and 'treatment'. The 'subject' effect was considered as random, whereas the 'treatment' effect was considered as fixed.||137.87|105.69|
82549840|NCT03443323|164801603|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (OTMP skills \[COSS-P, COSS-T\]).|Mixed Models Analysis|||||||<.001
82549841|NCT03443323|164801604|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (OTMP skills \[COSS-P, COSS-T\]).|Mixed Models Analysis|||||||<.001
82549842|NCT03443323|164801605|SUPERIORITY|||||||0.007||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (homework performance \[HPC, HPQ-T\]).|Mixed Models Analysis|||||||0.007
82549843|NCT03443323|164801606|SUPERIORITY||||||<|0.001||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (homework performance \[HPC, HPQ-T\]).|Mixed Models Analysis|||||||<.001
82580304|NCT01141647|164871843|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.56|||||TWO_SIDED|90.0|1.8|7.07||||||||7.07|1.80|
82580305|NCT01941719|164871865|EQUIVALENCE|This trial aims to show the enhanced education is no better and no worse than the standard education|Mean Difference (Final Values)|-0.1212||||0.077|TWO_SIDED|||||significance level set at 0.05|ANCOVA|At each follow-up point, multivariate ANCOVA models were used to test for significant changes from the baseline||A mixed-effect model with repeated measures is used to compare the difference of group over time.||||0.0770
82580306|NCT01941719|164871866|EQUIVALENCE|This trial aims to show the new treatment is no better and no worse||||||0.6638||||||The threshold of significance level set at 0.05|Mixed Models Analysis|||||||0.6638
82549844|NCT03443323|164801607|SUPERIORITY||||||<|0.06||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (academic performance \[ACES, APS\]).|Mixed Models Analysis|||||||<.06
82475577|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.52||||0.09||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.09
82549845|NCT03443323|164801608|SUPERIORITY||||||>|0.0083||||||Statistical significance was evaluated using a threshold p value of .0083, accounting for the estimation of three contrasts of time-by-treatment differences per outcome and two measures per domain (academic performance \[ACES, APS\]).|Mixed Models Analysis|||||||>.0083
82549846|NCT03443323|164801609|SUPERIORITY||||||>|0.05||||||Statistical significance was evaluated using a threshold p value of .05.|Mixed Models Analysis|||||||>.05
82549847|NCT03443323|164801610|SUPERIORITY||||||>|0.05||||||Statistical significance was evaluated using a threshold p value of .05.|Mixed Models Analysis|||||||>.05
82549848|NCT03683719|164801642|SUPERIORITY||||||<|0.001||||||"P-values were adjusted for multiple comparisons. Models with an adjusted p-value \<0.025 were statistically sign. different from a flat dose-response model. Model: IGA-CHE TS = Treatment + Region + Baseline IGA-CHE.~Model selected: Emax model"|Multiple contrast test|||The primary endpoint was evaluated by determining if there was a dose-response relationship between the IGA-CHE response rate at Week 16 and the dose administered, using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response curve.||||<0.001
82549849|NCT03683719|164801642|SUPERIORITY||Risk Difference (RD)|13.29|||>|0.05|TWO_SIDED|95.0|0.34|26.24||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||26.24|0.34|>0.05
82549850|NCT03683719|164801642|SUPERIORITY||Risk Difference (RD)|-0.03|||>|0.05|TWO_SIDED|95.0|-10.44|10.39||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||10.39|-10.44|>0.05
82549851|NCT03683719|164801642|SUPERIORITY||Risk Difference (RD)|28.22|||<|0.001|TWO_SIDED|95.0|13.8|42.64||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||42.64|13.8|<0.001
82549852|NCT03683719|164801642|SUPERIORITY||Risk Difference (RD)|29.61|||<|0.001|TWO_SIDED|95.0|14.56|44.67||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue medication before Week 16 were considered missing and imputed as non-responders (as were any other missing data).|Cochran-Mantel-Haenszel|||The difference in response rates between the active delgocitinib cream doses and delgocitinib cream vehicle was analysed separately for each of the active dose groups using the Cochran-Mantel-Haenszel test stratified by region and disease severity (baseline IGA-CHE score). The null hypothesis of no difference in response rates between the delgocitinib cream active doses and delgocitinib cream vehicle was tested against the 2-sided alternative that there is a difference.||44.67|14.56|<0.001
82549853|NCT03683719|164801643|SUPERIORITY||||||<|0.0001||||||"P-values were adjusted for multiple comparisons. Models with an adj. p-value \<0.025 were statistically sign. different from a flat dose-response model. Model: Change = Treatment + Baseline + Region + Baseline IGA-CHE.~Model selected: Emax model"|Multiple contrast test|||"The secondary endpoint Change from baseline to Week 16 in HECSI score was evaluated by determining if there was a dose-response relationship between the change from baseline in HECSI score at Week 16 and the dose administered, using the Multiple Comparison Procedure - Modelling (MCP-Mod) methodology. Several candidate parametric models were assumed and multiple comparison techniques were used to choose the model(s) most likely to represent the true underlying dose-response curve."||||<0.0001
82580307|NCT01941719|164871867|EQUIVALENCE|The test will compare the number of complications between the two groups|||||<|0.05|||||||ANOVA|||||||< 0.05
82475578|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.21||||0.4||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||0.40
82580308|NCT01480219|164871869|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.74||||0.042|TWO_SIDED|95.0|1.02|2.96|||Regression, Cox|||Crude hazard ratio (HR) and corresponding 95 percent (%) confidence interval (CI) were calculated using an unadjusted Cox proportional hazards regression model.||2.96|1.02|0.042
82580309|NCT01480219|164871869|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.453|TWO_SIDED|95.0|0.71|2.14|||Regression, Cox|||HR and corresponding 95% CI were calculated using a parsimoniously adjusted Cox proportional hazards regression model.||2.14|0.71|0.453
82580310|NCT01167452|164871904|SUPERIORITY_OR_OTHER||Slope|-0.74|STANDARD_DEVIATION|0.19||0.0004|TWO_SIDED||||||Regression, Linear|Multivariate adaptive regression spline (MARS) analysis||We conducted a linear regression analysis of the log transformed elimination rate constant vs. the log transformed weight for each participant.||||0.0004
82475579|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.2||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.20
82475580|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.03||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||0.03
82475581|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.48||||0.07||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.07
82475582|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.22||||0.3||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||0.30
82475583|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.26||||0.74||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.74
82475584|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.378||||0.25||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||0.25
82475585|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.69||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||
82475586|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup A||||
82475587|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.42||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||
82475588|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup C||||
82475589|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0004||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
82475590|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup W-135||||
82475591|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||
82475592|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.9||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers rise from pre-booster to one month after booster vaccination for the serogroup Y||||
82475593|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.86||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.86
82475594|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.08||||0.7||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.7
82475595|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.11||||0.58||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.58
82475596|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.13||||0.44||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.44
82475597|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.07||||0.75||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.75
82475598|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.84||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.84
82475599|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.11||||0.67||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.67
82475600|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.002||||0.99||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.99
82549854|NCT03683719|164801643|SUPERIORITY||Mean Difference (Net)|-13.41|||<|0.01|TWO_SIDED|95.0|-22.82|-4.01||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-4.01|-22.82|<0.01
82549855|NCT03683719|164801643|SUPERIORITY||Mean Difference (Net)|-9.53|||<|0.05|TWO_SIDED|95.0|-19.04|-0.02||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-0.02|-19.04|<0.05
82549856|NCT03683719|164801643|SUPERIORITY||Mean Difference (Net)|-20.29|||<|0.0001|TWO_SIDED|95.0|-29.56|-11.02||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-11.02|-29.56|<0.0001
82549857|NCT03683719|164801643|SUPERIORITY||Mean Difference (Net)|-15.59|||<|0.01|TWO_SIDED|95.0|-24.82|-6.36||The statistical test was not controlled for multiplicity. Data at visits following premature discont. of IMP or initiation of rescue med. before Week 16 were considered missing and imputed with MMRM predicted values (as were any other missing data).|Mixed Models Analysis|||"Least Square (LS) Means were calculated using a mixed model for repeated measurements on the post-baseline responses up to Week 16 with an unstructured covariance matrix, Kenward-Roger approximation to estimate denominator degrees of freedom, and the mean modelled as follows:~Change from baseline in HECSI~= treatment × visit + baseline HECSI × visit + region + baseline IGA-CHE.~The primary comparison between each active delgocitinib dose and vehicle was at Week 16."||-6.36|-24.82|<0.01
82549858|NCT03683719|164801644|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.05||||||"IGA-CHE TS was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.05
82475601|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.62||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.62
82475602|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.17||||0.36||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||0.36
82475603|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.003||||0.99||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.99
82475604|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.2||||0.24||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||0.24
82475605|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.11||||0.62||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.62
82549859|NCT03683719|164801644|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||>|0.1||||||"IGA-CHE TS was reached in less than 50% of participants, therefore the median time was not estimable.~The statistical test was not controlled for multiplicity."|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||>0.1
82580311|NCT01167452|164871904|SUPERIORITY_OR_OTHER||Slope|-0.56|STANDARD_DEVIATION|0.2|<|0.0001|TWO_SIDED||||||Regression, Linear|Multiple Adaptive Regression Spline (MARS)||We conducted a linear regression analysis of the log transformed elimination rate constant vs. the log transformed body mass index for each participant.||||<0.0001
82650975|NCT01399723|165016765|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority between amoxicillin and benzyl penicillin was defined a priori as a risk difference of treatment failure and associated upper bound of the 95% confidence interval (CI) of \<7%. A sample size of 576 would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-5.0|4.2|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||4.2|-5.0|
82650976|NCT01399723|165016766|NON_INFERIORITY_OR_EQUIVALENCE|The initial sample size estimate of 576 children (288 per group) would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-5.0|5.8|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||5.8|-5.0|
82475606|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.08||||0.69||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for the analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||0.69
82475607|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.13||||0.6||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.60
82475608|NCT00488683|164646602|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.01||||0.95||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||0.95
82475609|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0015||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
82475610|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0057||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup A||||
82475611|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
82475612|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Groups 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup C||||
82475613|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0048||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
82475614|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0018||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup W-135||||
82475615|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
82475616|NCT00488683|164646602|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise from pre-booster levels in serogroup specific IgG concentration one month after booster vaccination for the serogroup Y||||
82549860|NCT03683719|164801644|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.0001||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.0001
82549861|NCT03683719|164801644|OTHER|Treatment groups were compared using a 2-sided log-rank test stratified by region and baseline IGA-CHE score. An event was defined as the first time achieving IGA-CHE TS.|||||<|0.01||||||The statistical test was not controlled for multiplicity.|Log Rank|||Time to IGA-CHE TS was defined as the time from the date of the first IMP application to first assessment of IGA-CHE TS. Subjects without baseline observation were censored at the date of the first IMP application. Subjects with baseline observation not achieving IGA-CHE TS during the treatment period were censored at the date of the last visit with a valid post-baseline assessment on or prior to the date of discontinuation of IMP or initiation of rescue medication, whichever occurred first.||||<0.01
82650977|NCT01399723|165016769|NON_INFERIORITY_OR_EQUIVALENCE|The initial sample size estimate of 576 children (288 per group) would provide 80% power to detect noninferiority of amoxicillin against benzyl penicillin within a margin of 7% at a 1-sided level of significance of 0.025, assuming a prevalence of treatment failure of 10% at 48 hours derived from a preintervention pilot phase of the study|Risk Difference (RD)|-3.3|||||TWO_SIDED|95.0|-10.0|3.0|||||Risk difference comparison is for amoxicillin versus benzyl penicillin|||3.0|-10.0|
82650978|NCT02491788|165016770|SUPERIORITY||Mean Difference (Final Values)|2.16|STANDARD_ERROR_OF_MEAN|0.75|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82475617|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.14||||0.68||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||0.68
82475618|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.44||||0.09||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||0.09
82475619|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.11||||0.69||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||0.69
82475620|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.38||||0.2||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||0.20
82475621|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.88||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||0.88
82475622|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.12||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||0.12
82475623|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.25||||0.37||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||0.37
82475624|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.28||||0.36||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||0.36
82475625|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup A||||
82475626|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.2||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup C||||
82475627|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup W-135||||
82475628|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.15||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific plasma cells one week after booster vaccination for the serogroup Y||||
82475629|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|1.0||||||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
82475630|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|1.0||||||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
82475631|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup C||||
82475632|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup W-135||||
82475633|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and memory B cells one week after booster vaccination for the serogroup Y||||
82475634|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.08||||0.79||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||0.79
82475635|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.35||||0.16||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||0.16
82475636|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.48||||0.1||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||0.10
82475637|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.98||||0.003||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||0.003
82475638|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.03||||0.91||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||0.91
82475639|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.57||||0.01||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||0.01
82475640|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.39||||0.19||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||0.19
82475641|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.89||||0.04||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||0.04
82475642|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup A||||
82475643|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.12||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup C||||
82475644|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.23||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup W-135||||
82475645|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.96||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers one week after booster vaccination for the serogroup Y||||
82475646|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.18||||0.46||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||0.46
82475647|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.9||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||0.90
82475648|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.51||||0.008||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||0.008
82475649|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.42||||0.08||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||0.08
82475650|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.15||||0.52||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||0.52
82580312|NCT01417104|164871957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.16|||<|0.031|TWO_SIDED|95.0|0.85|9.47|||t-test, 2 sided|||||9.47|0.85|<0.031
82475651|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.27||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||0.18
82475652|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.37||||0.07||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||0.07
82475653|NCT00488683|164646603|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.14||||0.55||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||0.55
82475654|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup A||||
82475655|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.0007||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup C||||
82475656|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.27||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup W-135||||
82475657|NCT00488683|164646603|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration one week after booster vaccination for the serogroup Y||||
82475658|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.45||||0.0006||95.0|||||Parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||0.0006
82475659|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.41||||0.0021||95.0|||||Non-parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||0.0021
82475660|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 1, 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells at 12 months of age||||
82475661|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.15||||0.53||95.0|||||Parametric correlation|||Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells 1 month after booster vaccination||||0.53
82475662|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.21||||0.26||95.0|||||Parametric correlation||Values from Groups 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.26
82580313|NCT01417104|164871958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.041|TWO_SIDED|95.0|0.44|4.36|||t-test, 2 sided|||||4.36|0.44|0.041
82580314|NCT01416389|164871960|SUPERIORITY_OR_OTHER_LEGACY|||||||0.344|||||||t-test, 1 sided|||This measure is compared between two treatment arms using a one-sided t-test. This measure followed a normal distribution.||||0.344
82580315|NCT01416389|164871961|SUPERIORITY_OR_OTHER_LEGACY|||||||0.608|||||||Chi-squared|||||||0.608
82580316|NCT01416389|164871963|SUPERIORITY_OR_OTHER_LEGACY|||||||0.365|||||||Chi-squared|||||||0.365
82549862|NCT03056040|164801646|NON_INFERIORITY|A difference in percent change in LDH between the ravulizumab and eculizumab treatment groups at Day 183 along with a 2-sided 95% confidence interval (CI) was calculated. Noninferiority margin (NIM) was based on the upper bound of the 95% CI. NIM was 15%.|Treatment Difference|-9.21|||||TWO_SIDED|95.0|-18.84|0.42|||||Treatment difference was estimated for ravulizumab - eculizumab.|Adjusting for a possible 10% dropout rate, a minimum of 192 participants were estimated to provide 90% power to demonstrate noninferiority of ravulizumab to eculizumab.||0.42|-18.84|
82549863|NCT03056040|164801647|NON_INFERIORITY|NIM was based on the upper bound of the 95% CI. NIM was 20%.|Treatment Difference|-5.1|||||TWO_SIDED|95.0|-18.99|8.89|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants with BTH was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug.||8.89|-18.99|
82475663|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.05||||0.84||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.84
82475664|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman Correlation Coefficient|0.22||||0.26||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||0.26
82549864|NCT03056040|164801648|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM margin was -3.|Treatment Difference|1.47|||||TWO_SIDED|95.0|-0.21|3.15|||||Treatment difference was estimated for ravulizumab - eculizumab.|||3.15|-0.21|
82549865|NCT03056040|164801649|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM was -20%.|Treatment Difference|5.5|||||TWO_SIDED|95.0|-4.27|15.68|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants achieving transfusion avoidance was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug||15.68|-4.27|
82549866|NCT03056040|164801650|NON_INFERIORITY|NIM was based on the lower bound of the 95% CI. NIM was -20%.|Treatment Difference|1.4|||||TWO_SIDED|95.0|-10.41|13.31|||||Treatment difference was estimated for ravulizumab - eculizumab.|A difference in the percentages of participants with stabilized hemoglobin was calculated between the ravulizumab and eculizumab treatment groups, along with a 95% CI for the difference using the stratified Newcombe CI method. The stratification factor observed was transfusion history within 1 year prior to first dose of study drug.||13.31|-10.41|
82475665|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||
82475666|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific memory B cells one month after booster vaccination||||
82475667|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.33|||<|0.001||95.0|||||Parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
82475668|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.46|||<|0.001||95.0|||||Non-parametric correlation||Values from Group 1, 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
82475669|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.11|||<|0.001||95.0|||||Regression, Linear||Values from Group 1, 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration at 12 months of age||||<0.001
82475670|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.24||||0.06||95.0|||||Parametric correlation|||Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.06
82475671|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.5|||<|0.001||95.0|||||Parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Pearson correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||<0.001
82475672|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.31||||0.01||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.01
82475673|NCT00488683|164646604|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.2||||0.1||95.0|||||Non-parametric correlation||Values from Group 2 and 3 were combined for this analysis.|Spearman correlation coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||0.10
82475674|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear|||Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||
82475675|NCT00488683|164646604|SUPERIORITY_OR_OTHER||R-square|0.25||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between CRM197 specific memory B cells one month after primary vaccination and CRM197 specific IgG concentration one month after booster vaccination||||
82475676|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|0.04||||0.7||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||0.70
82549867|NCT04650087|164801655|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.44|1.95||||||||1.95|0.44|
82549868|NCT04650087|164801656|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.83|1.31||||||||1.31|0.83|
82549869|NCT04650087|164801657|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.78|1.24||||||||1.24|0.78|
82549870|NCT04650087|164801658|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.44|1.74||||||||1.74|0.44|
82549871|NCT04650087|164801659|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.58|2.12||||||||2.12|0.58|
82549872|NCT04650087|164801660|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.29|3.42||||||||3.42|0.29|
82475677|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.04||||0.63||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||0.63
82475678|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.74||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||0.74
82475679|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Pearson correlation coefficient|-0.03||||0.74||95.0|||||Parametric correlation|||Pearson correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||0.74
82475680|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.18||||0.05||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||0.05
82475681|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.07||||0.36||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||0.36
82475682|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|-0.11||||0.18||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||0.18
82475683|NCT00488683|164646610|SUPERIORITY_OR_OTHER||Spearman correlation coefficient|0.02||||0.82||95.0|||||Non-parametric correlation|||Spearman correlation coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||0.82
82549873|NCT04650087|164801661|SUPERIORITY||Risk Ratio (RR)|0.33|||||TWO_SIDED|95.0|0.03|3.18||||||||3.18|0.03|
82580317|NCT00858364|164871985|NON_INFERIORITY|Non-inferiority was declared if the upper confidence limit for the hazard ratio (darbepoetin alfa to placebo) was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.83|1.01|||||A hazard ratio \< 1.0 indicates a lower risk of death for darbepoetin alfa relative to placebo.|The primary analysis used the Cox Proportional Hazard Model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin), with treatment group as the only covariate.||1.01|0.83|
82475684|NCT00488683|164646610|SUPERIORITY_OR_OTHER||R-square|0.0013||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup A||||
82549874|NCT04650087|164801662|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.34|2.28||||||||2.28|0.34|
82549875|NCT04274764|164801671|OTHER|||||||0.7399|||||||Chi-squared|||||||0.7399
82549876|NCT01926496|164801674|SUPERIORITY||Risk Ratio (RR)|0.89||||0.03|TWO_SIDED|95.0|0.8|0.99|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||0.99|0.80|0.03
82475685|NCT00488683|164646610|SUPERIORITY_OR_OTHER||R-square|0.0014||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup C||||
82475686|NCT00488683|164646610|SUPERIORITY_OR_OTHER||R-square|0.0008||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup W-135||||
82475687|NCT00488683|164646610|SUPERIORITY_OR_OTHER||R-square|0.0009||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at day 1 in the serum of mother for the serogroup Y||||
82475688|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.34||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
82475689|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.14||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
82549877|NCT01926496|164801675|SUPERIORITY||Risk Ratio (RR)|0.95||||0.18|TWO_SIDED|95.0|0.87|1.03|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||1.03|0.87|0.18
82549878|NCT01926496|164801676|SUPERIORITY||Risk Ratio (RR)|0.66|||<|0.001|TWO_SIDED|95.0|0.52|0.84|||Cochran-Mantel-Haenszel|Stratified by country, anatomical location and history of squamous cell carcinoma.|Cochran-Mantel-Haenszel relative risk (ingenol mebutate / imiquimod), stratified by country, anatomical location and history of squamous cell carcinoma.|||0.84|0.52|<0.001
82549879|NCT03210272|164801678|OTHER||Geometric Mean Ratio T/R (%)|155.6|||||TWO_SIDED|90.0|130.66|185.3|||||intra-individual gCV (%) = 18.1|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||185.30|130.66|
82580318|NCT00858364|164871985|NON_INFERIORITY|Non-inferiority was declared if the upper confidence limit for the hazard ratio (darbepoetin alfa to placebo) was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.83|1.0|||||A hazard ratio \< 1.0 indicates a lower risk of death for darbepoetin alfa relative to placebo.|As a sensitivity analysis, an unstratified Cox Proportional Hazard Model with treatment group as the only covariate was conducted.||1.00|0.83|
82549880|NCT03210272|164801678|OTHER||Ratio T/R (%)|240.12|||||TWO_SIDED|90.0|196.25|293.81|||||intra-individual gCV (%) = 27.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||293.81|196.25|
82549881|NCT03210272|164801679|OTHER||Geometric Mean Ratio T/R (%)|156.37|||||TWO_SIDED|90.0|132.73|184.22|||||intra-individual gCV (%) = 17.0|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||184.22|132.73|
82549882|NCT03210272|164801679|OTHER||Ratio T/R (%)|245.56|||||TWO_SIDED|90.0|200.7|300.44|||||intra-individual gCV (%) = 27.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||300.44|200.70|
82549883|NCT03210272|164801680|OTHER||Geometric Mean Ratio T/R (%)|158.74|||||TWO_SIDED|90.0|114.25|220.56|||||intra-individual gCV (%) = 34.8|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||220.56|114.25|
82549884|NCT03210272|164801680|OTHER||Ratio T/R (%)|246.13|||||TWO_SIDED|90.0|203.37|297.89|||||intra-individual gCV (%) = 26.2|The statistical model to assess relative bioavailability in the FE part was an analysis of variance (ANOVA) on the ln-transformed parameters AUC and Cmax including effects for 'sequence', 'subjects nested within sequences', 'period', and 'treatment'||297.89|203.37|
82549885|NCT01084876|164801711|EQUIVALENCE|The therapeutic equivalence between CT-P6 and Herceptin is concluded if the 95% confidence interval (CI) for the risk difference (CT-P6 - Herceptin) estimate in ORR ITRC review during the Main Study Treatment Period is entirely within the predefined equivalence margin of -0.15 to 0.15.|Risk Difference (RD)|-0.0535|||||TWO_SIDED|95.0|-0.143|0.036||||||||0.036|-0.143|
82549886|NCT05071807|164801776|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-1.17|1.33|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and BMI (kg/m2)||To detect a 1.2 percentage point (standard deviation 2.4; effect size 0.5) between-group difference in the change in FMD with 80% power (α=0.05), it was estimated that a sample size of 128 participants was needed (64 per group)||1.33|-1.17|
82549887|NCT05071807|164801777|SUPERIORITY||Mean Difference (Net)|-7.2|||||TWO_SIDED|95.0|-12.3|-2.1|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-2.1|-12.3|
82549888|NCT05071807|164801778|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-0.8|2.9|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||2.9|-0.8|
82549889|NCT05071807|164801779|SUPERIORITY||Mean Difference (Net)|-16.4|||||TWO_SIDED|95.0|-30.0|-2.9|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-2.9|-30.0|
82549890|NCT05071807|164801780|SUPERIORITY||Mean Difference (Net)|-75.3|||||TWO_SIDED|95.0|-144.0|-6.93|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Total LDL particle mean difference||-6.93|-144|
82475690|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.09||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells at 5 months of age and hSBA titers at 12 months of age after a 2, 4-month course of MenACWY-CRM vaccination for the serogroup C||||
82549891|NCT05071807|164801780|SUPERIORITY||Mean Difference (Net)|-27.9|||||TWO_SIDED|95.0|-69.3|13.4|||Regression, Linear|adjustment for the baseline value, age (years), sex (male or female) and body mass index (BMI) (kg/m2)||For Large LDL particle subclass||13.4|-69.3|
82549892|NCT05071807|164801781|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.56|0.75|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||Results for total HDL particle count||0.75|-0.56|
82475691|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.16||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
82549893|NCT05071807|164801781|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.75|0.8||||Adjusted for baseline value, age, sex, and BMI||Results for Small HDL particles||0.80|-0.75|
82549894|NCT05071807|164801781|SUPERIORITY||Mean Difference (Net)|-0.33|||||TWO_SIDED|95.0|-0.85|0.19|||Regression, Linear|Adjusted for baseline value, age, sex, and BMI||Results for Medium HDL||0.19|-0.85|
82549895|NCT05071807|164801782|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-3.09|3.13|||Regression, Linear|were adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Results from brachial systolic blood pressure are reported below||3.13|-3.09|
82549896|NCT05071807|164801782|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.67|2.07|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for Brachial Diastolic Blood pressure||2.07|-1.67|
82549897|NCT05071807|164801783|SUPERIORITY||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-3.24|2.28|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for central systolic blood pressure||2.28|-3.24|
82549898|NCT05071807|164801783|SUPERIORITY||Median Difference (Net)|0.21|||||TWO_SIDED|95.0|-1.69|2.1|||Regression, Linear|Adjusted for baseline value, age, sex, BMI||Results for central diastolic blood pressure||2.10|-1.69|
82549899|NCT05071807|164801784|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.26|0.24|||Regression, Linear|were adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||0.24|-0.26|
82549900|NCT05071807|164801785|SUPERIORITY||Mean Difference (Net)|-1.65|||||TWO_SIDED|95.0|-4.25|0.95|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||0.95|-4.25|
82549901|NCT05071807|164801786|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|-0.6|3.0|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||3.0|-0.6|
82475692|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.22||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
82475693|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.33||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
82549902|NCT05071807|164801787|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-2.3|1.6|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||1.6|-2.3|
82549903|NCT05071807|164801788|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|0.0|0.1|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||0.1|0.0|
82549904|NCT05071807|164801789|SUPERIORITY||Mean Difference (Net)|9.4|||||TWO_SIDED|95.0|5.0|13.7||When a significant group by time point interaction was detected, post hoc testing was conducted and the Tukey-Kramer method was used to adjust for multiple comparisons.|Mixed Models Analysis|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||13.7|5.0|
82580319|NCT00858364|164871985|SUPERIORITY|If non-inferiority was demonstrated for both OS and PFS and superiority was demonstrated for the transfusion endpoint, superiority was then tested for both OS and PFS using the Hochberg procedure to adjust for multiplicity.||||||0.07|||||||Stratified log-rank test|Stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin)||||||0.070
82580320|NCT00858364|164871985|SUPERIORITY|||||||0.047|||||||Log Rank|Unstratified log rank test||||||0.047
82580321|NCT00858364|164871985|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.84|1.02||||||To evaluate the potential effect of cross-in (participants in the placebo group who began treatment with an erythropoiesis-stimulating agent (ESA) at any point after randomization), a sensitivity analysis was conducted that included ESA use as a time-dependent covariate in a Cox regression model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin).||1.02|0.84|
82580322|NCT00858364|164871986|NON_INFERIORITY|If non-inferiority was declared for OS, non-inferiority would be declared for PFS if the upper confidence limit for the hazard ratio was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.87|1.04|||||A hazard ratio \< 1.0 indicates a lower risk of death or progression for darbepoetin alfa relative to placebo.|The primary analysis of PFS used a Cox Proportional Hazard Model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin), with treatment group as the only covariate.||1.04|0.87|
82549905|NCT05071807|164801790|SUPERIORITY||Median Difference (Net)|-8.1|||||TWO_SIDED|95.0|-14.5|-1.7|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||||-1.7|-14.5|
82549906|NCT05071807|164801791|SUPERIORITY||Mean Difference (Net)|-25.5|||||TWO_SIDED|95.0|-98.6|47.5|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2)||Results for medium subclass; Measure Description: LDL particle size classifications are as follows: 22-25.5 nm is small, 25.6-26.5 nm medium, and 26.6-28.5 nm large. Typically, smaller LDL is associated with increased cardiovascular risk compared to larger.||47.5|-98.6|
82549907|NCT05071807|164801791|SUPERIORITY||Mean Difference (Net)|1.86|||||TWO_SIDED|95.0|-91.8|95.5|||Regression, Linear|adjustment for the baseline value, age (years), sex (male or female) and body mass index (BMI) (kg/m2)||Results for Small LDL particles; Measure Description: LDL particle size classifications are as follows: 22-25.5 nm is small, 25.6-26.5 nm medium, and 26.6-28.5 nm large. Typically, smaller LDL is associated with increased cardiovascular risk compared to larger.||95.5|-91.8|
82650979|NCT00124020|165016771|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 20% was specified based on historical regulatory precedent.|Risk Difference (RD)|0.2||||||95.0|-6.8|7.2||p-values were not calculated in deference to confidence intervals.||||||7.2|-6.8|
82549908|NCT05071807|164801792|SUPERIORITY||Mean Difference (Net)|0.35|||||TWO_SIDED|95.0|0.07|0.63|||Regression, Linear|adjusted for outcome baseline value, age (years), sex (male or female) and baseline BMI (kg/m2).||||0.63|0.07|
82549909|NCT04856163|164801815|SUPERIORITY|||||||0.08|||||||Regression, Logistic|||||||0.08
82549910|NCT04856163|164801816|SUPERIORITY|||||||0.21|||||||discrete-time survival model|||||||0.21
82549911|NCT04856163|164801817|SUPERIORITY|||||||0.28|||||||Regression, Logistic|||||||0.28
82549912|NCT04856163|164801818|SUPERIORITY|||||||0.05|||||||Regression, Linear|||||||0.05
82549913|NCT04359108|164801838|OTHER|||||||0.02|||||||ANOVA|||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||0.02
82549914|NCT04359108|164801838|OTHER|||||||0.22|||||||t-test, 2 sided|||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||0.22
82580323|NCT00858364|164871986|NON_INFERIORITY|If non-inferiority was declared for OS, non-inferiority would be declared for PFS if the upper confidence limit for the hazard ratio was less than 1.15 using a 1-sided significance level of 0.025.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.87|1.04|||||A hazard ratio \< 1.0 indicates a lower risk of death or progression for darbepoetin alfa relative to placebo.|As a sensitivity analysis, an unstratified Cox Proportional Hazard Model with treatment group as the only covariate was conducted.||1.04|0.87|
82580324|NCT00858364|164871986|SUPERIORITY|If non-inferiority was demonstrated for both OS and PFS and superiority was demonstrated for the transfusion endpoint, superiority was then tested for both OS and PFS using the Hochberg procedure to adjust for multiplicity.||||||0.31|||||||Stratified log-rank test|Stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin).||||||0.31
82580325|NCT00858364|164871986|SUPERIORITY|||||||0.27|||||||Log Rank|Unstratified log rank test||||||0.27
82580326|NCT00858364|164871986|OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.88|1.05||||||To evaluate the potential effect of cross-in (participants in the placebo group who began treatment with an erythropoiesis-stimulating agent (ESA) at any point after randomization), a sensitivity analysis was conducted that included ESA use as a time-dependent covariate in a Cox regression model stratified by the randomization stratification factors (geographic region, histology, and screening hemoglobin).||1.05|0.88|
82650980|NCT00268346|165016772|SUPERIORITY_OR_OTHER||percentage response|6.9|||<|0.05|TWO_SIDED|95.0|||||binomial test for a single proportion|||In patients with prior chemotherapy, \>25% response indicates efficacy and \<10% indicates lack of efficacy. In patients with no prior chemotherapy, \>45% response indicates efficacy and \<25% indicates lack of efficacy. Using a 5% significance level, the study was designed to have 80% power to test each hypothesis.||||<0.05
82650981|NCT00981253|165016788|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-18.7|-1.5|||ANCOVA|||||-1.5|-18.7|
82650982|NCT00981253|165016789|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82650983|NCT00981253|165016790|SUPERIORITY||Cox Proportional Hazard|0.47|||||TWO_SIDED|95.0|0.24|0.91|||Log Rank|||||0.91|0.24|
82650984|NCT00981253|165016791|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.95|TWO_SIDED|95.0|-0.14|1.17|||ANCOVA|||||1.17|-0.14|.95
82475694|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.74||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
82549915|NCT04359108|164801838|OTHER|||||||0.017|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.017
82549916|NCT04359108|164801838|OTHER|||||||0.98|||||||t-test, 2 sided|||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.98
82549917|NCT04359108|164801838|OTHER|||||||0.014|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||0.014
82549918|NCT04359108|164801838|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
82549919|NCT04359108|164801838|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549920|NCT04359108|164801838|OTHER|||||||0.156|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.156
82549921|NCT04359108|164801838|OTHER|||||||0.541|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.541
82549922|NCT04359108|164801838|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549923|NCT04359108|164801838|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.10"|||
82475695|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.53||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
82549924|NCT04359108|164801838|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.00"|||
82549925|NCT04359108|164801838|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.88"|||
82549926|NCT04359108|164801838|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.6"|||
82549927|NCT04359108|164801838|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A \*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
82549928|NCT04359108|164801838|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.10"|||
82475696|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.37||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
82549929|NCT04359108|164801838|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.45"|||
82650985|NCT00981253|165016792|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.99|TWO_SIDED|95.0|-0.22|0.46|||ANCOVA|||||0.46|-0.22|0.99
82650986|NCT00981253|165016793|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.99|TWO_SIDED|95.0|-0.78|1.74|||ANCOVA|||||1.74|-0.78|0.99
82650987|NCT00981253|165016794|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.99|TWO_SIDED|95.0|-0.22|0.46|||ANCOVA|||||0.46|-0.22|0.99
82650988|NCT00981253|165016794|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.99|TWO_SIDED|95.0|-0.14|0.39|||ANCOVA|||||0.39|-0.14|0.99
82549930|NCT04359108|164801838|OTHER|||||||||||||||||Navigate to Destination Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.02"|||
82549931|NCT04359108|164801839|OTHER|||||||0.3|||||||ANOVA|||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||0.30
82549932|NCT04359108|164801839|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
82549933|NCT04359108|164801839|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549934|NCT04359108|164801839|OTHER|||||||0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.01
82549935|NCT04359108|164801839|OTHER|||||||0.93|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.93
82549936|NCT04359108|164801839|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549937|NCT04359108|164801839|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.27"|||
82549938|NCT04359108|164801839|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.00"|||
82549939|NCT04359108|164801839|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.75"|||
82549940|NCT04359108|164801839|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.60"|||
82549941|NCT04359108|164801839|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A\*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
82549942|NCT04359108|164801839|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.72"|||
82549943|NCT04359108|164801839|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.47"|||
82650989|NCT00294723|165016795|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.62|||<|0.0001||95.0|-0.83|-0.42||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.42|-0.83|<0.0001
82549944|NCT04359108|164801839|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 3.81"|||
82549945|NCT04359108|164801840|OTHER||||||<|0.001|||||||ANOVA|navigation system mode and test block as factors||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
82475697|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.14||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup A||||
82475698|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
82475699|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup C||||
82549946|NCT04359108|164801840|OTHER||||||<|0.01|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549947|NCT04359108|164801840|OTHER|||||||0.037||||||within-participant, 2 sided t-test|t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.037
82549948|NCT04359108|164801840|OTHER|||||||0.34|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.34
82580327|NCT00858364|164871987|SUPERIORITY|If non-inferiority was declared for OS and PFS, superiority would be declared for the transfusion endpoint if the p-value from a two-sided test of significance using the Cochran-Mantel-Haenszel method was less than 0.05 in favor of the darbepoetin alfa group.|Odds Ratio (OR)|0.704|||<|0.001|TWO_SIDED|95.0|0.573|0.864|||Cochran-Mantel-Haenszel||An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|The primary analysis of the incidence of a transfusion or hemoglobin ≤ 8.0 g/dL from day 29 to EOETP was based on the Cochran-Mantel-Haenszel method to test for treatment group differences while adjusting for the randomization stratification factors (geographic region, histology, and screening hemoglobin).||0.864|0.573|< 0.001
82580328|NCT00858364|164871987|OTHER||Odds Ratio (OR)|0.705|||<|0.001|TWO_SIDED|95.0|0.574|0.866|||Regression, Logistic||An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|As a sensitivity analysis a logistic regression analysis was conducted, stratified by the randomization stratification factors (geographic region, histology, screening hemoglobin).||0.866|0.574|< 0.001
82580329|NCT00858364|164871989|OTHER||Odds Ratio (OR)|1.173||||0.076|TWO_SIDED|95.0|0.983|1.401|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method adjusted for the randomization stratification factors (geographic region, histology, screening hemoglobin).|An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|||1.401|0.983|0.076
82580330|NCT00858364|164871989|OTHER||Odds Ratio (OR)|1.173||||0.078|TWO_SIDED|95.0|0.982|1.401|||Cochran-Mantel-Haenszel|Unstratified analysis||||1.401|0.982|0.078
82549949|NCT04359108|164801840|OTHER|||||||0.1|||||||t-test, 2 sided|within-participant, 2 sided t-test||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||0.10
82549950|NCT04359108|164801840|OTHER||||||<|0.001|||||||ANOVA|||Obstacle Avoidance Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
82549951|NCT04359108|164801840|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549952|NCT04359108|164801840|OTHER|||||||0.67|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.67
82549953|NCT04359108|164801840|OTHER|||||||0.23|||||||t-test, 2 sided|||Obstacle Avoidance Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.23
82475700|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.9||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
82475701|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.78||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup W-135||||
82475702|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.94||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
82549954|NCT04359108|164801840|OTHER||||||<|0.01|||||||t-test, 2 sided|||Obstacle Avoidance Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82580331|NCT00858364|164871991|OTHER||Odds Ratio (OR)|0.741||||0.003|TWO_SIDED|95.0|0.61|0.901|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel method adjusted for the randomization stratification factors (geographic region, histology, screening hemoglobin).|An odds ratio \< 1.0 indicates a lower event rate for darbepoetin alfa relative to placebo.|||0.901|0.610|0.003
82580332|NCT00858364|164871991|OTHER||Odds Ratio (OR)|0.758||||0.003|TWO_SIDED|95.0|0.63|0.913|||Cochran-Mantel-Haenszel|Unstratified analysis||||0.913|0.630|0.003
82580333|NCT03980808|164871993|EQUIVALENCE|A priori significance levels were set to 0.05. As this was a pilot study on a demonstration intervention, power analysis were not performed.|Mean Difference (Net)|1.33|STANDARD_ERROR_OF_MEAN|0.56||0.95|TWO_SIDED||||||ANOVA|Total degrees of freedom (dof) = 17, with between groups dof = 1 and within groups dof = 16.||Composite scores were calculated for the knowledge based tests. Differences in the pre and post test composite scores were compared using ANOVA. We tested the null hypothesis that score changes in the intervention group and control group were the same.||||0.95
82580334|NCT03980808|164871994|EQUIVALENCE|A priori significance levels were set to 0.05. As this was a pilot study on a demonstration intervention, power analysis were not performed.|Mean Difference (Net)|1.03|STANDARD_ERROR_OF_MEAN|0.5376||0.093|TWO_SIDED||||||ANOVA|||Composite scores were calculated for the behavioral self-report tests tests. Differences in the pre and post test composite scores were compared using ANOVA. We tested the null hypothesis that score changes in the intervention group and control group were the same.||||0.093
82549955|NCT04359108|164801840|OTHER|||||||||||||||||Obstacle Avoidance Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.79"|||
82549956|NCT04359108|164801840|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 1.38"|||
82549957|NCT04359108|164801840|OTHER|||||||||||||||||Obstacle Avoidance Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 2.24"|||
82549958|NCT04359108|164801840|OTHER|||||||||||||||||Obstacle Avoidance Test - Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.85"|||
82549959|NCT04359108|164801840|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = N/A\*~\* N/A for Argus Vision test because subject did not successfully reach intended destination for any trial using this mode."|||
82549960|NCT04359108|164801840|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = 0.18"|||
82549961|NCT04359108|164801840|OTHER|||||||||||||||||Navigate to Destination Test - Depth Vision + Haptic/Audio: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -0.97"|||
82549962|NCT04359108|164801840|OTHER|||||||||||||||||Navigate to Destination Test - Argus Vision: test for null hypothesis that the single Argus participant in this arm has performance that lies in-distribution with performance statistics computed for the normally sighted subjects arm of the study.|"Test Method: Z-Score comparison of the performance of the single Argus participant to the performance distribution of normally sighted subjects.~Significance threshold: \|Z\| = 2.8 for p = 0.05, 2-tailed (reject null hypothesis above threshold) Result: Z-Score = -1.23"|||
82549963|NCT04359108|164801841|OTHER||||||<|0.001|||||||ANOVA|Single-factor test on navigation system mode||Navigate to Destination Test - Significance of Navigation Mode: test for null hypothesis of equivalent performance among all navigation system modes||||<0.001
82549964|NCT04359108|164801841|OTHER|||||||0.17|||||||t-test, 2 sided|||Navigate to Destination Test - Argus Vision vs. Depth Vision: test for null hypothesis of equivalent performance||||0.17
82549965|NCT04359108|164801841|OTHER||||||<|0.01|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||<0.01
82549966|NCT04359108|164801841|OTHER|||||||0.33|||||||t-test, 2 sided|||Navigate to Destination Test - Haptic/Audio vs. Depth Vision + Haptic/Audio: test for null hypothesis of equivalent performance||||0.33
82549967|NCT04359108|164801841|OTHER||||||<|0.01|||||||t-test, 2 sided|||Navigate to Destination Test - Depth Vision vs. High Field-of-View Depth Vision: test for null hypothesis of equivalent performance||||<0.01
82549968|NCT04359108|164801842|OTHER|||||||0.023|||||||ANOVA|2X2 within-participant test with factors of resolution and field-of-view||Significance of Resolution: test for null hypothesis of equivalent performance between low and high resolution vision modes||||0.023
82475703|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.85||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and hSBA titers at 12 months of age for the serogroup Y||||
82549969|NCT04359108|164801842|OTHER|||||||0.039|||||||ANOVA|2X2 within-participant test with factors of resolution and field-of-view||Significance of Resolution: test for null hypothesis of equivalent performance between low and high field-of-view vision modes||||0.039
82475704|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.03||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
82549970|NCT04359108|164801842|OTHER|||||||0.801|||||||ANOVA|2x2 within-participant test with factors of resolution and field-of-view||Significance of Interaction between Resolution and Field-of-View: test for null hypothesis of no interaction||||.801
82475705|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
82475706|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.007||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
82475707|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.04||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
82475708|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
82475709|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
82475710|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.13||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
82475711|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.28||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
82475712|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.3||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
82475713|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.1||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup A||||
82475714|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.11||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
82475715|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.06||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup C||||
82475716|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
82475717|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup W-135||||
82475718|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.39||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
82475719|NCT00488683|164646611|SUPERIORITY_OR_OTHER||R-square|0.33||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors memory B cells one month after primary vaccination and serogroup specific IgG concentration at 12 months of age for the serogroup Y||||
82475720|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.24||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
82475721|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
82475722|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.52||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
82475723|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
82475724|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
82475725|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.29||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
82475726|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
82475727|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.05||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
82549971|NCT06393088|164801843|SUPERIORITY|It was calculated that 24 participants randomized 1:1 between 2 arms would have at least an 85% power to detect a difference in pain relief of 30 points as measured using a Visual Analog Device. The actual difference in the mean of the change in pain level, as measured using a Visual Analog Scale, between the two independent groups is 41.67. Results of the post trial calculation was a 95.7% power to detect the difference in pain relief using 29 randomized participants.|Mean Difference (Net)|41.67|||<|0.01|TWO_SIDED|95.0|20.15|61.67||The threshold is P-value \<.0.05 for statistical significance A bootstrap N=20,000 was used for all estimates|t-test, 2 sided|||"Null Hypothesis:~There is not a statistically significant difference in nociceptive musculoskeletal pain when using an IR REHAB device when compared with a sham (placebo) device as a therapy in an approved and standardized clinical protocol."||61.67|20.15|<0.01
82549972|NCT04176965|164801844|NON_INFERIORITY|Non-inferiority based on the observed 95% Upper Confidence Limit of the difference in means between the 2 groups (FINEVISION HP - AcrySof SN60AT). Non-inferiority margin = 0.10 logMAR.|Mean difference|0.045|STANDARD_ERROR_OF_MEAN|0.0084|<|0.0001|TWO_SIDED|90.0|0.0316|0.0592|||t-test, 1 sided|||||0.0592|0.0316|<0.0001
82549973|NCT04176965|164801845|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549974|NCT04176965|164801846|NON_INFERIORITY|Noninferiority of FINEVISION HP compared to control in percentages of first operative eyes with secondary surgical interventions related to the optical properties of the IOL was evaluated using two-sided 90% Farrington method confidence intervals around the difference in percentages between the 2 groups. If the upper limit of the confidence interval is less than 1.4%, the FINEVISION HP IOL will be considered statistically non-inferior to the control IOL.|Difference in percentages|0.3|||||TWO_SIDED|90.0|-0.76|1.36||||||||1.36|-0.76|
82549975|NCT04176965|164801851|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82549976|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Cystoid macular oedema. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549977|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Cystoid macular oedema. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549978|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Hypopyon. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549979|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Hypopyon. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549980|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Endophthalmitis. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549981|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Endophthalmitis. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549982|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Lens dislocated from posterior chamber. The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549983|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Lens dislocated from posterior chamber. The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549984|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Pupillary block.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549985|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Pupillary block.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549986|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Retinal detachment.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82376909|NCT03104400|164460625|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-0.14|||<|0.0001|TWO_SIDED|95.0|-0.2|-0.07||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Adalimumab|||-0.07|-0.20|<0.0001
82549987|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Retinal detachment.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549988|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Secondary surgical intervention.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82475728|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.7||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
82475729|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup A||||
82475730|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.5||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
82475731|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.16||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup C||||
82475732|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|1.0||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
82475733|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.3||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup W-135||||
82475734|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.21||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
82475735|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.12||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in hSBA after booster vaccination age for the serogroup Y||||
82475736|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.0015||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
82475737|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.0057||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
82475738|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
82475739|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.02||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
82475740|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.0048||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
82475741|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.0018||||||95.0|||||Regression, Linear||Values from Groups 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
82475742|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.01||||||95.0|||||Regression, Linear|||Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
82475743|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.0||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
82475744|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.27||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
82475745|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.19||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup A||||
82475746|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
82475747|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.08||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup C||||
82475748|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.45||||0.0436||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||0.0436
82475749|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.17||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup W-135||||
82475750|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.37||||||95.0|||||Regression, Linear|||Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
82475751|NCT00488683|164646612|SUPERIORITY_OR_OTHER||R-square|0.07||||||95.0|||||Regression, Linear||Values from Group 2 and 3 were combined for this analysis.|Linear regression coefficient between demographic factors, memory B cells one month after primary vaccination and rise in serogroup specific IgG concentration after booster vaccination age for the serogroup Y||||
82475752|NCT03818035|164646620|NON_INFERIORITY|One-sided two-group normal approximation Wald Z-test with Mantel-Haenszel stratum weights for 'disease duration' to test for non-inferiority of 100 mg q16w to 100 mg q8w with non-inferiority margin of 10%. Stratified analysis results are reported.|Risk Difference (RD)|-0.6||||0.0013|TWO_SIDED|90.0|-5.7|4.5|||Wald Z-test|||||4.5|-5.7|0.0013
82475753|NCT00982423|164646640|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Comparison between baseline dose of furosemide (3 weeks) versus reduced dose of furosemide (approximately 6 weeks).||||<0.05
82475754|NCT00982423|164646640|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||Comparison between GFR taken at baseline dose Furosemide (3 weeks) versus normal GFR||||<0.05
82549989|NCT04176965|164801852|NON_INFERIORITY|Cumulative: Secondary surgical intervention.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549990|NCT04176965|164801852|NON_INFERIORITY|Persistent: Corneal stroma oedema.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549991|NCT04176965|164801852|NON_INFERIORITY|Persistent: Corneal stroma oedema.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549992|NCT04176965|164801852|NON_INFERIORITY|Persistent: Cystoid macular oedema.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549993|NCT04176965|164801852|NON_INFERIORITY|Persistent: Cystoid macular oedema.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549994|NCT04176965|164801852|NON_INFERIORITY|Persistent: Iritis.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549995|NCT04176965|164801852|NON_INFERIORITY|Persistent: Iritis.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82475755|NCT00982423|164646645|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||t-test, 2 sided|||Comparison between reduced dose Furosemide and baseline dose Furosemide||||0.075
82549996|NCT04176965|164801852|NON_INFERIORITY|Persistent: Raised Intraocular Pressure (IOP) requiring treatment.The observed AE rates in the FINEVISION HP group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82376960|NCT00295061|164460883|NON_INFERIORITY_OR_EQUIVALENCE|A total sample size of 20 subjects could demonstrate comparability of an AUC(0-7days) with 90% power up to a standard deviation of 0.288 of the difference in the log scale, expected mean treatment difference of 0 (= ratio of 1), a lower equivalence limit of -0.223 (= log 0.8), upper limit of 0.223 (= log 1.25) and a one-sided alpha of 0.05 (90% CI).|Geometric least square means ratio|1.03||||||90.0|0.97|1.09||||||To compare AUC 0-7 days between the two treatments (Alpha-1 MP vs. Prolastin),natural log-transformed AUC 0-7 days values were analyzed by analysis of variance (ANOVA).||1.09|0.97|
82475756|NCT02712047|164646659|OTHER||Ratio|0.36|||||TWO_SIDED|95.0|0.31|0.43|||||Ratio of FF/VI 100/25mcg versus (Vs) Placebo for Day 1, AM|||0.43|0.31|
82549997|NCT04176965|164801852|NON_INFERIORITY|Persistent: Raised Intraocular Pressure (IOP) requiring treatment.The observed AE rates in the control group were compared to the SPE rates from ISO 11979-7 Table E.2. A p value of \>0.05 indicates that the rates were statistically not significant when compared to SPE rates.|||||>|0.05|||||||One-sided exact binomial test|||||||>0.05
82549998|NCT01552473|164801868|OTHER|This is a functional Magnetic Resonance Imaging analysis. We aimed to determine whether functional brain network connectivity was equivalent between the two intervention arms prior to the interventions beginning. This was computed in significant numbers of connections between the two groups.|pNBS|0.0001||||0.01|TWO_SIDED|||||This is a p-value that is used in Network Based Statistics analysis for resting-state functional brain network data.|Network Based Statistics analysis|This is a type of statistical analysis used to test for group differences among functional connectivity levels between two or more groups.|This analysis evaluated monotonic changes from time point 1 (pre-intervention) to time points 2 (immediate post-intervention) and 3 (12 weeks post-intervention) that may have occurred between the SMART and BHW groups.|A network-based statistics analysis was carried out to determine brain connectivity differences observed at time points two (initial post-intervention testing phase) and three (the final post-intervention phase) occurring three months post-intervention.||||0.01
82475757|NCT02712047|164646659|OTHER||Ratio|0.33|||||TWO_SIDED|95.0|0.28|0.39|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||0.39|0.28|
82475758|NCT02712047|164646659|OTHER||Ratio|0.38|||||TWO_SIDED|95.0|0.32|0.45|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||0.45|0.32|
82475759|NCT02712047|164646659|OTHER||Ratio|0.37|||||TWO_SIDED|95.0|0.31|0.44|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||0.44|0.31|
82475760|NCT02712047|164646659|OTHER||Ratio|0.46|||||TWO_SIDED|95.0|0.39|0.54|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||0.54|0.39|
82475761|NCT02712047|164646659|OTHER||Ratio|0.47|||||TWO_SIDED|95.0|0.4|0.56|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||0.56|0.40|
82475762|NCT02712047|164646659|OTHER||Ratio|0.56|||||TWO_SIDED|95.0|0.47|0.66|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||0.66|0.47|
82549999|NCT05894577|164801951|SUPERIORITY|Posterior probability of efficacy (P(HR\>1))|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.92|1.12|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|||1.12|0.92|
82550000|NCT05894577|164801952|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.14|7.07|||||Low event rate precluded covariate adjustment.|No hypothesis test or decision rule was evaluated.||7.07|0.14|
82550001|NCT05894577|164801955|SUPERIORITY|Posterior probability of efficacy (P(HR\<1))|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.45|1.84|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.84|0.45|
82550002|NCT05894577|164801956|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|1.31|||||TWO_SIDED|95.0|0.5|2.29|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||2.29|0.50|
82550003|NCT05894577|164801957|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.16|1.49|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||1.49|0.16|
82550004|NCT05894577|164801958|SUPERIORITY|Posterior probability of efficacy (P(OR\<1))|Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.33|2.96|||||The interval is a highest-density credible interval. Adjustment variables: randomization, age, sex, duration of symptoms prior to study drug, calendar time, vaccination status, geographic region, call center indicator, and baseline symptom severity.|No hypothesis test or decision rule was evaluated.||2.96|0.33|
82550005|NCT05894577|164801959|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.71|1.31|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.31|0.71|
82580335|NCT01655693|164871995|SUPERIORITY||Hazard Ratio (HR)|1.0|||>|0.991|TWO_SIDED|95.0||||Treatment comparison of DT pooled with BCS used non-stratified Log-rank test at significance level p=0.05.|Log Rank|Log rank test is used after checking the proportional hazards (PH) assumption is valid. The Wilcoxon test is used when the PH assumption fails.|The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) corresponding to 95% confidence interval (CI) and type II error rate as 15%.|Initial 24 month assessment: the primary aim was to demonstrate the superiority of DT pooled (20 mg/m2 and 30 mg/m2) compared to BSC treatment and not individual DT groups per protocol. OS was estimated using the Kaplan-Meier method. The comparison of treatment groups (pooled DT groups versus BSC group) was performed using a non-stratified log-rank test as the primary analysis. The Cox model and Wilcoxon test was used for sensitivity analysis.||||>0.991
82580336|NCT01655693|164871995|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.796|TWO_SIDED|95.0||||Treatment comparison of DT pooled with BCS used non-stratified Log-rank test at significance level p=0.05.|Log Rank|Log rank test is used after checking the proportional hazards (PH) assumption is valid. The Wilcoxon test is used when the PH assumption fails.|The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) corresponding to 95% confidence interval (CI) and type II error rate as 15%.|Follow-up 45 month assessment: the primary aim was to demonstrate the superiority of DT pooled (20 mg/m2 and 30 mg/m2) compared to BSC treatment and not individual DT groups per protocol. OS was estimated using the Kaplan-Meier method. The comparison of treatment groups (pooled DT groups versus BSC group) was performed using a non-stratified log-rank test as the primary analysis. The Cox model and Wilcoxon test was used for sensitivity analysis.||||0.796
82580337|NCT01655693|164871996|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.7|TWO_SIDED|95.0||||Treatment comparison with BCS using non-stratified Log-rank test at significance level p=0.05.|Log Rank||Hazard ratio for treatment variable was determined by Cox model. The hazard ratio was controlled for the overall type I error rate at 5% (2-sided) and type II error rate as 15%.|PFS was estimated using Kaplan-Meier methods and plotted as curves by treatment group. For comparison between treatment groups (pooled DT 20 mg/m2 and 30 mg/m2 versus BSC) used Log-rank test as primary analysis. Hazard ratio, mean, and mean PFS rate were given with corresponding 95% CI.||||0.7
82550006|NCT05894577|164801959|OTHER||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.75|1.51|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.51|0.75|
82550007|NCT05894577|164801959|OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.84|1.88|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.88|0.84|
82550008|NCT05894577|164801959|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.65|1.6|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.60|0.65|
82550009|NCT05894577|164801959|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.57|1.36|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.36|0.57|
82550010|NCT05894577|164801959|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.69|2.0|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||2.00|0.69|
82550011|NCT05894577|164801960|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.66|1.15|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.15|0.66|
82550012|NCT05894577|164801960|OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.63|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.14|0.63|
82475763|NCT02712047|164646659|OTHER||Ratio|0.58|||||TWO_SIDED|95.0|0.49|0.69|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||0.69|0.49|
82550013|NCT05894577|164801960|OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.56|1.08|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.08|0.56|
82550014|NCT05894577|164801960|OTHER||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.73|1.45|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.45|0.73|
82475764|NCT02712047|164646659|OTHER||Ratio|0.63|||||TWO_SIDED|95.0|0.53|0.75|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||0.75|0.53|
82475765|NCT02712047|164646659|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 5, PM|||0.80|0.57|
82475766|NCT02712047|164646659|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.56|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 6, AM|||0.80|0.56|
82475767|NCT02712047|164646659|OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 6, PM|||0.74|0.52|
82475768|NCT02712047|164646659|OTHER||Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.71|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||0.71|0.51|
82475769|NCT02712047|164646659|OTHER||Ratio|0.62|||||TWO_SIDED|95.0|0.52|0.74|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 7, PM|Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, AM||0.74|0.52|
82475770|NCT02712047|164646659|OTHER||Ratio|0.69|||||TWO_SIDED|95.0|0.58|0.81|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, AM|||0.81|0.58|
82475771|NCT02712047|164646659|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 8, PM|||0.80|0.57|
82475772|NCT02712047|164646659|OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.56|0.78|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 9, AM|||0.78|0.56|
82475773|NCT02712047|164646659|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 9, PM|||0.80|0.57|
82475774|NCT02712047|164646659|OTHER||Ratio|0.66|||||TWO_SIDED|95.0|0.55|0.78|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 10, AM|||0.78|0.55|
82475775|NCT02712047|164646659|OTHER||Ratio|0.68|||||TWO_SIDED|95.0|0.58|0.81|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 10, PM|||0.81|0.58|
82475776|NCT02712047|164646659|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 11, AM|||0.86|0.61|
82475777|NCT02712047|164646659|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 11, PM|||0.86|0.61|
82475778|NCT02712047|164646659|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.85|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 12, AM|||0.85|0.61|
82475779|NCT02712047|164646659|OTHER||Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.84|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 12, PM|||0.84|0.60|
82475780|NCT02712047|164646659|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 13, AM|||0.86|0.61|
82475781|NCT02712047|164646659|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 13, PM|||0.93|0.66|
82475782|NCT02712047|164646659|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 14, AM|||0.93|0.66|
82475783|NCT02712047|164646659|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.56|0.79|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 14, PM|||0.79|0.56|
82475784|NCT02712047|164646659|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 15, AM|||0.93|0.66|
82475785|NCT02712047|164646659|OTHER||Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 15, PM|||0.94|0.66|
82475786|NCT02712047|164646659|OTHER||Ratio|0.74|||||TWO_SIDED|95.0|0.62|0.87|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 16, AM|||0.87|0.62|
82475787|NCT02712047|164646659|OTHER||Ratio|0.73|||||TWO_SIDED|95.0|0.61|0.86|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 16, PM|||0.86|0.61|
82475788|NCT02712047|164646659|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.65|0.91|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 17, AM|||0.91|0.65|
82475789|NCT02712047|164646659|OTHER||Ratio|0.81|||||TWO_SIDED|95.0|0.65|1.01|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 17, PM|||1.01|0.65|
82475790|NCT02712047|164646659|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.61|0.96|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 18, AM|||0.96|0.61|
82475791|NCT02712047|164646659|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.59|1.0|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 18, PM|||1.00|0.59|
82475792|NCT02712047|164646659|OTHER||Ratio|0.81|||||TWO_SIDED|95.0|0.63|1.05|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 19, AM|||1.05|0.63|
82475793|NCT02712047|164646659|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.52|1.0|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 19, PM|||1.00|0.52|
82475794|NCT02712047|164646659|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.56|1.09|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 20, AM|||1.09|0.56|
82475795|NCT02712047|164646659|OTHER||Ratio|0.78|||||TWO_SIDED|95.0|0.53|1.14|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 20, PM|||1.14|0.53|
82475796|NCT02712047|164646659|OTHER||Ratio|0.85|||||TWO_SIDED|95.0|0.59|1.22|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||1.22|0.59|
82475797|NCT02712047|164646659|OTHER||Ratio|0.75|||||TWO_SIDED|95.0|0.5|1.13|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 21, PM|||1.13|0.50|
82475798|NCT02712047|164646659|OTHER||Ratio|0.83|||||TWO_SIDED|95.0|0.55|1.25|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 22, AM|||1.25|0.55|
82475799|NCT02712047|164646659|OTHER||Ratio|0.77|||||TWO_SIDED|95.0|0.51|1.16|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 22, PM|||1.16|0.51|
82475800|NCT02712047|164646659|OTHER||Ratio|0.99|||||TWO_SIDED|95.0|0.66|1.49|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 23, AM|||1.49|0.66|
82475801|NCT02712047|164646659|OTHER||Ratio|0.67|||||TWO_SIDED|95.0|0.29|1.51|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 23, PM|||1.51|0.29|
82475802|NCT02712047|164646659|OTHER||Ratio|0.72|||||TWO_SIDED|95.0|0.32|1.64|||||Ratio of FF/VI 100/25mcg Vs Placebo for Day 24, AM|||1.64|0.32|
82475803|NCT02712047|164646661|OTHER||Mean Difference (Net)|45.86|||||TWO_SIDED|95.0|23.69|68.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, AM|||68.03|23.69|
82550015|NCT05894577|164801960|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.71|1.4|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.40|0.71|
82550016|NCT05894577|164801960|OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.6|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.60|
82550017|NCT05894577|164801961|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.7|1.31|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.31|0.70|
82550018|NCT05894577|164801961|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.72|1.4|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.40|0.72|
82550019|NCT05894577|164801961|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.55|1.2|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.20|0.55|
82550020|NCT05894577|164801961|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.62|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.39|0.62|
82550021|NCT05894577|164801961|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.65|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.46|0.65|
82550022|NCT05894577|164801961|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.48|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.48|
82550023|NCT05894577|164801962|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.62|1.24|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.24|0.62|
82550024|NCT05894577|164801962|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.65|1.38|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.38|0.65|
82550025|NCT05894577|164801962|OTHER||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.49|1.13|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.13|0.49|
82550026|NCT05894577|164801962|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.67|1.55|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.55|0.67|
82550027|NCT05894577|164801962|OTHER||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.51|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.19|0.51|
82550028|NCT05894577|164801962|OTHER||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.49|1.35|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.35|0.49|
82475804|NCT02712047|164646661|OTHER||Mean Difference (Net)|45.37|||||TWO_SIDED|95.0|23.2|67.55|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||67.55|23.20|
82550029|NCT05894577|164801963|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.41|0.77|
82550030|NCT05894577|164801963|OTHER||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.82|1.69|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.69|0.82|
82550031|NCT05894577|164801963|OTHER||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.52|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.14|0.52|
82550032|NCT05894577|164801963|OTHER||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.65|1.43|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.43|0.65|
82550033|NCT05894577|164801963|OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.63|1.41|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.41|0.63|
82550034|NCT05894577|164801963|OTHER||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.44|1.19|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.19|0.44|
82650990|NCT00294723|165016795|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.33||||0.0014||95.0|-0.53|-0.13||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.13|-0.53|0.0014
82650991|NCT00294723|165016795|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.29||||0.0046||95.0|-0.5|-0.09||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.09|-0.50|0.0046
82475805|NCT02712047|164646661|OTHER||Mean Difference (Net)|34.03|||||TWO_SIDED|95.0|11.86|56.21|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||56.21|11.86|
82475806|NCT02712047|164646661|OTHER||Mean Difference (Net)|31.56|||||TWO_SIDED|95.0|9.38|53.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||53.73|9.38|
82475807|NCT02712047|164646661|OTHER||Mean Difference (Net)|22.86|||||TWO_SIDED|95.0|0.68|45.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||45.03|0.68|
82475808|NCT02712047|164646661|OTHER||Mean Difference (Net)|36.94|||||TWO_SIDED|95.0|14.77|59.12|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||59.12|14.77|
82475809|NCT02712047|164646661|OTHER||Mean Difference (Net)|19.33|||||TWO_SIDED|95.0|-3.0|41.66|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||41.66|-3.00|
82475810|NCT02712047|164646661|OTHER||Mean Difference (Net)|20.85|||||TWO_SIDED|95.0|-1.32|43.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||43.03|-1.32|
82475811|NCT02712047|164646661|OTHER||Mean Difference (Net)|16.82|||||TWO_SIDED|95.0|-5.47|39.11|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||39.11|-5.47|
82475812|NCT02712047|164646661|OTHER||Mean Difference (Net)|21.86|||||TWO_SIDED|95.0|-0.41|44.14|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, PM|||44.14|-0.41|
82550035|NCT05894577|164801964|OTHER||Odds Ratio (OR)|1.02|||||TWO_SIDED|95.0|0.75|1.39|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.39|0.75|
82475813|NCT02712047|164646661|OTHER||Mean Difference (Net)|13.05|||||TWO_SIDED|95.0|-9.57|35.67|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 6, AM|||35.67|-9.57|
82475814|NCT02712047|164646661|OTHER||Mean Difference (Net)|28.68|||||TWO_SIDED|95.0|5.38|51.98|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 6, PM|||51.98|5.38|
82475815|NCT02712047|164646661|OTHER||Mean Difference (Net)|17.09|||||TWO_SIDED|95.0|-5.08|39.26|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||39.26|-5.08|
82475816|NCT02712047|164646661|OTHER||Mean Difference (Net)|23.61|||||TWO_SIDED|95.0|0.28|46.94|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, PM|||46.94|0.28|
82475817|NCT02712047|164646661|OTHER||Mean Difference (Net)|12.87|||||TWO_SIDED|95.0|-9.3|35.05|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 8, AM|||35.05|-9.30|
82475818|NCT02712047|164646661|OTHER||Mean Difference (Net)|7.5|||||TWO_SIDED|95.0|-14.67|29.68|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 8, PM|||29.68|-14.67|
82475819|NCT02712047|164646661|OTHER||Mean Difference (Net)|3.32|||||TWO_SIDED|95.0|-19.11|25.74|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 9, AM|||25.74|-19.11|
82475820|NCT02712047|164646661|OTHER||Mean Difference (Net)|3.83|||||TWO_SIDED|95.0|-18.34|26.0|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 9, PM|||26.00|-18.34|
82475821|NCT02712047|164646661|OTHER||Mean Difference (Net)|11.36|||||TWO_SIDED|95.0|-11.11|33.82|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 10, AM|||33.82|-11.11|
82475822|NCT02712047|164646661|OTHER||Mean Difference (Net)|27.73|||||TWO_SIDED|95.0|5.43|50.03|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 10, PM|||50.03|5.43|
82475823|NCT02712047|164646661|OTHER||Mean Difference (Net)|14.71|||||TWO_SIDED|95.0|-7.57|36.98|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 11, AM|||36.98|-7.57|
82475824|NCT02712047|164646661|OTHER||Mean Difference (Net)|-6.62|||||TWO_SIDED|95.0|-28.8|15.55|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 11, PM|||15.55|-28.80|
82475825|NCT02712047|164646661|OTHER||Mean Difference (Net)|4.36|||||TWO_SIDED|95.0|-18.39|27.11|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 12, AM|||27.11|-18.39|
82475826|NCT02712047|164646661|OTHER||Mean Difference (Net)|8.29|||||TWO_SIDED|95.0|-13.99|30.57|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 12, PM|||30.57|-13.99|
82475827|NCT02712047|164646661|OTHER||Mean Difference (Net)|0.64|||||TWO_SIDED|95.0|-21.64|22.92|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 13, AM|||22.92|-21.64|
82475828|NCT02712047|164646661|OTHER||Mean Difference (Net)|-6.88|||||TWO_SIDED|95.0|-29.96|16.19|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 13, PM|||16.19|-29.96|
82475829|NCT02712047|164646661|OTHER||Mean Difference (Net)|28.45|||||TWO_SIDED|95.0|5.76|51.13|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 14, AM|||51.13|5.76|
82475830|NCT02712047|164646661|OTHER||Mean Difference (Net)|12.31|||||TWO_SIDED|95.0|-10.13|34.74|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 14, PM|||34.74|-10.13|
82475831|NCT02712047|164646661|OTHER||Mean Difference (Net)|4.1|||||TWO_SIDED|95.0|-18.16|26.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 15, AM|||26.36|-18.16|
82550036|NCT05894577|164801964|OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.76|1.44|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.44|0.76|
82550037|NCT05894577|164801964|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.84|1.71|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.71|0.84|
82550038|NCT05894577|164801964|OTHER||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.76|1.71|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.71|0.76|
82550039|NCT05894577|164801964|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.67|1.46|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.46|0.67|
82550040|NCT05894577|164801964|OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.62|1.59|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.59|0.62|
82580338|NCT01655693|164871997|SUPERIORITY|||||||1||||||Treatment comparison with BCS using Fisher's exact test at significance level p=0.05.|Fisher Exact|||The comparisons between groups (pooled DT 20 mg/m2 and 30mg/m2 versus BSC) used Fisher's exact test.||||1.0
82475832|NCT02712047|164646661|OTHER||Mean Difference (Net)|18.87|||||TWO_SIDED|95.0|-3.89|41.63|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 15, PM|||41.63|-3.89|
82475833|NCT02712047|164646661|OTHER||Mean Difference (Net)|6.35|||||TWO_SIDED|95.0|-16.17|28.88|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 16, AM|||28.88|-16.17|
82475834|NCT02712047|164646661|OTHER||Mean Difference (Net)|19.07|||||TWO_SIDED|95.0|-3.27|41.41|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 16, PM|||41.41|-3.27|
82475835|NCT02712047|164646661|OTHER||Mean Difference (Net)|29.51|||||TWO_SIDED|95.0|6.87|52.15|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 17, AM|||52.15|6.87|
82475836|NCT02712047|164646661|OTHER||Mean Difference (Net)|9.64|||||TWO_SIDED|95.0|-17.91|37.19|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 17, PM|||37.19|-17.91|
82475837|NCT02712047|164646661|OTHER||Mean Difference (Net)|24.77|||||TWO_SIDED|95.0|-4.2|53.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 18, AM|||53.73|-4.20|
82475838|NCT02712047|164646661|OTHER||Mean Difference (Net)|47.04|||||TWO_SIDED|95.0|14.63|79.45|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 18, PM|||79.45|14.63|
82475839|NCT02712047|164646661|OTHER||Mean Difference (Net)|20.11|||||TWO_SIDED|95.0|-12.3|52.52|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 19, AM|||52.52|-12.30|
82475840|NCT02712047|164646661|OTHER||Mean Difference (Net)|25.13|||||TWO_SIDED|95.0|-15.02|65.27|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 19, PM|||65.27|-15.02|
82475841|NCT02712047|164646661|OTHER||Mean Difference (Net)|-7.89|||||TWO_SIDED|95.0|-48.04|32.25|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 20, AM|||32.25|-48.04|
82475842|NCT02712047|164646661|OTHER||Mean Difference (Net)|8.51|||||TWO_SIDED|95.0|-37.22|54.25|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 20, PM|||54.25|-37.22|
82475843|NCT02712047|164646661|OTHER||Mean Difference (Net)|15.08|||||TWO_SIDED|95.0|-28.5|58.67|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||58.67|-28.50|
82475844|NCT02712047|164646661|OTHER||Mean Difference (Net)|5.19|||||TWO_SIDED|95.0|-45.35|55.73|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, PM|||55.73|-45.35|
82475845|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.36|||||TWO_SIDED|95.0|0.26|0.46|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, AM|||0.46|0.26|
82475846|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.16|0.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 1, PM|||0.36|0.16|
82475847|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.34|||||TWO_SIDED|95.0|0.24|0.44|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, AM|||0.44|0.24|
82475848|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|0.14|0.34|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 2, PM|||0.34|0.14|
82475849|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|0.16|0.36|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, AM|||0.36|0.16|
82475850|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.18|||||TWO_SIDED|95.0|0.08|0.28|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 3, PM|||0.28|0.08|
82475851|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|0.14|0.34|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, AM|||0.34|0.14|
82475852|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|0.07|0.27|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 4, PM|||0.27|0.07|
82475853|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.03|0.17|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 5, AM|||0.17|-0.03|
82475854|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.06|0.14|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 7, AM|||0.14|-0.06|
82550041|NCT05894577|164801965|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.74|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 7||1.14|0.74|
82550042|NCT05894577|164801965|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.79|1.22|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 14||1.22|0.79|
82550043|NCT05894577|164801965|OTHER||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.71|1.08|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 28||1.08|0.71|
82550044|NCT05894577|164801965|OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 90||1.21|0.80|
82580339|NCT01163292|164872045|SUPERIORITY_OR_OTHER|||||||0.144||95.0|||||Wilcoxon Rank Sum|||Week 0||||0.144
82580340|NCT01163292|164872045|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon Rank Sum|||Week 26||||0.004
82580341|NCT01163292|164872045|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Wilcoxon Rank Sum|||Week 52||||0.006
82550045|NCT05894577|164801965|OTHER||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.29|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 120||1.29|0.84|
82550046|NCT05894577|164801965|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.68|1.14|||||Initially estimated on the log relative odds scale, and then transformed to the odds ratio scale. On the log relative odds scale, the estimated parameter value was the posterior mean. Interval estimate is highest density Bayesian credible interval.|Day 180||1.14|0.68|
82550047|NCT05894577|164801966|SUPERIORITY|Posterior probability of efficacy (P(Difference in MTU (Active - Placebo)\<0))|Difference in model estimate time unwell|-0.24|||||TWO_SIDED|95.0|-0.6|0.1|||||The mean time unwell is estimated from receipt of study drug to study day 14. The interval is a highest density credible interval.|No hypothesis test or decision rule was evaluated.||0.1|-0.6|
82550048|NCT05894577|164801967|SUPERIORITY|Posterior probability of efficacy (P(Difference days benefit (Active - Placebo)\>0))|Difference in model estimated means|0.31|||||TWO_SIDED|95.0|-0.13|0.75|||||The interval is a highest density credible interval.|Analysis is exploratory. No hypothesis test or decision rule was evaluated.||0.75|-0.13|
82550049|NCT04541147|164802001|EQUIVALENCE|Test if the number of doses in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Mean Difference (Final Values)|6.9|STANDARD_DEVIATION|10.1||0.16|TWO_SIDED|95.0|-2.9|16.7|||t-test, 2 sided|||||16.7|-2.9|0.16
82550050|NCT04541147|164802002|EQUIVALENCE|Test if the average pain score in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|1.4||0.56|TWO_SIDED|95.0|-1.8|1.0|||t-test, 2 sided|||||1.0|-1.8|0.56
82550051|NCT04541147|164802003|EQUIVALENCE|Test if the Number of participants with post-operative complications in Dexamethasone Plus Analgesics group differs from that in Analgesics Alone group at a significance level of 0.05.|Risk Difference (RD)|0.07|STANDARD_ERROR_OF_MEAN|0.15||1|TWO_SIDED|95.0|-0.22|0.36|||Fisher Exact|||||0.36|-0.22|1.00
82550052|NCT03476460|164802042|NON_INFERIORITY|"We considered a priori a difference of no more than 5% in the incidence of CA-AKI in the oral compared to the intravenous arm (non-inferiority margin) to be acceptable.~The non-inferiority of oral hydration would be shown if the upper limit of the 95% CI of the absolute risk difference between the groups was less than 5% (non-inferiority margin, indicated by the black dashed line)"|Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-4.8|7.0|||||The 95% confidence interval for the difference between the two independent proportions was calculated according to Wilson's method.|Sample size was calculated to assess the non-inferiority of oral compared to intravenous hydration. We expected a primary outcome rate of 7% in the intravenous arm. We considered a priori a difference of no more than 5% in the incidence of CA-AKI in the oral compared to the intravenous arm (non-inferiority margin) to be acceptable. Thus, 266 participants, 133 per arm, were required to ensure at least 80% power at a significance level of α = 2.5% (one-sided).||7.0|-4.8|
82580342|NCT01163292|164872046|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Fisher Exact|||Week 0||||0.290
82650992|NCT00294723|165016796|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.58|||<|0.0001||95.0|-4.28|-2.87||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.87|-4.28|<.0001
82475855|NCT02712047|164646662|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.07|0.13|||||Difference of FF/VI 100/25mcg Vs Placebo for Day 21, AM|||0.13|-0.07|
82550053|NCT03476460|164802043|SUPERIORITY|||||||0.299||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||Comparison between means of both arms at 24h from baseline||||0.299
82550054|NCT03476460|164802044|SUPERIORITY|||||||0.477||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||Comparison between means of both arms at 48h from baseline||||0.477
82550055|NCT03476460|164802045|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.042||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.042
82550056|NCT03476460|164802046|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.121||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.121
82550057|NCT03476460|164802047|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.418||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.418
82550058|NCT03476460|164802048|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.901||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.901
82550059|NCT03476460|164802049|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.72||||||A p-value \<0.05 (two-sided) was considered for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.720
82550060|NCT03476460|164802050|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.688||||||A p-value \<0.05 (two-sided) was considered for statistical significance|Wilcoxon (Mann-Whitney)|||||||0.688
82550061|NCT03476460|164802051|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.535||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.535
82550062|NCT03476460|164802052|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.338||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.338
82580343|NCT01163292|164872046|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Week 26||||1.000
82580344|NCT01163292|164872046|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||Week 52||||0.001
82580345|NCT01163292|164872047|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Wilcoxon Rank Sum|||||||0.335
82580346|NCT01163292|164872048|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Wilcoxon Rank Sum|||Week 0||||0.266
82475856|NCT01954927|164646685|SUPERIORITY|||||||0.227||||||1-sided p-value|z-test Proportion|z-test of proportions without continuity correction||||||0.227
82550063|NCT03476460|164802053|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.764||||||A p-value \<0.05 (two-sided) was considered for statistical significance|t-test, 2 sided|||||||0.764
82550064|NCT03476460|164802054|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.458||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.458
82550065|NCT03476460|164802055|SUPERIORITY|Comparison between means of both arms at 24h from baseline||||||0.893||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.893
82550066|NCT03476460|164802056|SUPERIORITY|Comparison between means of both arms at 48h from baseline||||||0.645||||||A p-value \<0.05 (two-sided) was considered for statistical significance.|t-test, 2 sided|||||||0.645
82550067|NCT00812461|164802079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|STANDARD_ERROR_OF_MEAN|0.68||0.012|TWO_SIDED|95.0|-3.07|-0.38|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 229 participants in the placebo group and 212 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||-0.38|-3.07|0.012
82550068|NCT00812461|164802080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.95|STANDARD_ERROR_OF_MEAN|2.89||0.088|TWO_SIDED|95.0|-10.63|0.73|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 229 participants in the placebo group and 212 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-6); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||0.73|-10.63|0.088
82550069|NCT00812461|164802081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.63|TWO_SIDED|95.0|0.67|1.27|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.27|0.67|0.630
82550070|NCT00812461|164802082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.029|TWO_SIDED|95.0|-0.44|-0.02|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 225 participants in the placebo group and 203 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.02|-0.44|0.029
82550071|NCT00812461|164802083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.11||0.111|TWO_SIDED|95.0|-0.38|0.04|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 225 participants in the placebo group and 203 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||0.04|-0.38|0.111
82550072|NCT00812461|164802084|SUPERIORITY_OR_OTHER||Ratio to placebo|0.96||||0.529|TWO_SIDED|95.0|0.86|1.08|||[Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 224 participants in the placebo group and 207 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Logtransformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||1.08|0.86|0.529
82475857|NCT01954927|164646686|SUPERIORITY|||||||0.897|||||||Wilcoxon (Mann-Whitney)|||||||0.897
82475858|NCT01954927|164646687|SUPERIORITY|||||||0.181|||||||Chi-squared|||||||0.181
82475859|NCT01954927|164646688|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.730
82475860|NCT01954927|164646689|SUPERIORITY|||||||0.713|||||||Chi-squared|||||||0.713
82550073|NCT00812461|164802085|SUPERIORITY_OR_OTHER||Ratio to placebo|0.92||||0.049|TWO_SIDED|95.0|0.84|1.0|||[Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 222 participants in the placebo group and 205 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the log-transformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Logtransformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||1.00|0.84|0.049
82550074|NCT02754882|164802118|EQUIVALENCE|Pre-defined equivalence margin was \[0.737, 1.357\]|Risk Ratio (RR)|1.11|||||TWO_SIDED|90.0|0.975|1.269|||||SB8 vs. Avastin|||1.269|0.975|
82550075|NCT04648033|164802128|OTHER||Probability of DLT at dose level 4|0.116|||||TWO_SIDED|95.0|0.032|0.26||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE-CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.26|0.032|
82550076|NCT02671903|164802145|SUPERIORITY||Fixed Effect for Treatment|0.25||||0.3|TWO_SIDED|95.0|-0.23|0.73|||Mixed Models Analysis|||Change in treatment effect taken from mixed-model output||0.73|-0.23|0.3
82580347|NCT01163292|164872048|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||Wilcoxon Rank Sum|||Week 26||||0.440
82580348|NCT01163292|164872048|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||Wilcoxon Rank Sum|||Week 52||||0.609
82580349|NCT02285153|164872102|SUPERIORITY||Cox Proportional Hazard|0.434|STANDARD_ERROR_OF_MEAN|1.225||0.57|TWO_SIDED|95.0|0.039|4.792||Due to the low number of participants, the results of the statistical tests must be interpreted with caution!|Chi-squared|||||4.792|0.039|0.57
82580350|NCT02285153|164872103|SUPERIORITY|||||||0.057|||||||Chi-squared|||||||0.057
82550077|NCT02995434|164802184|EQUIVALENCE|As reliable estimates of expected effect size were unknown, the study was powered to detect a medium effect (0.5 SD change), considered a reasonable clinically meaningful impact to obtain 80% power based on a repeated measures analysis of variance (RM ANOVA) with 2-tailed alpha of .05 model.|Mean Difference (Net)|-2.08|||||TWO_SIDED|95.0|-3.86|-0.3|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|Null hypothesis: There is no difference between the reported daily pain experiences of participants during, or after exposure to VR immersive environments, overall and within four different VR immersive environments, compared to the equivalent applications experienced on a 2D computer screen.||-0.30|-3.86|
82550078|NCT02995434|164802184|EQUIVALENCE|As reliable estimates of expected effect size were unknown, the study was powered to detect a medium effect (0.5 SD change), considered a reasonable clinically meaningful impact to obtain 80% power based on a repeated measures analysis of variance (RM ANOVA) with 2-tailed alpha of .05 model|Mean Difference (Net)|0.53|||||TWO_SIDED|95.0|-1.24|2.37|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||2.37|-1.24|
82550079|NCT02995434|164802185|EQUIVALENCE|See section for primary outcome.|Mean Difference (Net)|1.08|||||TWO_SIDED|95.0|-1.59|3.95|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||3.95|-1.59|
82550080|NCT02995434|164802185|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|2.16|||||TWO_SIDED|95.0|-0.55|5.08|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.08|-0.55|
82550081|NCT02995434|164802185|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-2.64|3.42|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||3.42|-2.64|
82550082|NCT02995434|164802185|EQUIVALENCE|See section on primary outcome|Mean Difference (Net)|2.56|||||TWO_SIDED|95.0|-0.08|5.48|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.48|-0.08|
82550083|NCT02995434|164802186|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.37|||||TWO_SIDED|95.0|-0.71|1.5|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.5|-0.71|
82550084|NCT02995434|164802186|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.62|||||TWO_SIDED|95.0|-0.49|1.89|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.89|-0.49|
82550085|NCT02995434|164802186|EQUIVALENCE|See comments in primary outcome|Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-1.19|1.09|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.09|-1.19|
82580351|NCT02285153|164872104|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82376961|NCT00101283|164460891|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percent|18.8|||||TWO_SIDED|90.0|5.4|41.7|||||Overall response percent for Pemetrexed/Carboplatin arm (percent of eligible, treated patients with complete or partial response)|The treatment was to be considered promising if a true response rate of 40% or higher was observed, whereas a rate of 15% or less would not be of interest. 3 or more responses were required to expand accrual to a second stage. This expansion did not occur.||41.7|5.4|
82475861|NCT01954927|164646690|SUPERIORITY|||||||0.739|||||||Wilcoxon (Mann-Whitney)|||||||0.739
82475862|NCT01954927|164646691|SUPERIORITY|||||||0.388|||||||Wilcoxon (Mann-Whitney)|||||||0.388
82550086|NCT02995434|164802186|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|0.33|||||TWO_SIDED|95.0|-0.88|1.57|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||1.57|-0.88|
82550087|NCT02995434|164802187|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|2.48|||||TWO_SIDED|95.0|0.02|4.7|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||4.70|0.02|
82550088|NCT02995434|164802187|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|2.04|||||TWO_SIDED|95.0|-0.42|4.39|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||4.39|-0.42|
82550089|NCT02995434|164802187|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|3.79|||||TWO_SIDED|95.0|1.02|6.08|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||6.08|1.02|
82550090|NCT02995434|164802187|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|3.18|||||TWO_SIDED|95.0|0.68|5.69|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||5.69|0.68|
82550091|NCT02995434|164802188|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-2.31|||||TWO_SIDED|95.0|-5.63|0.98|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||0.98|-5.63|
82550092|NCT02995434|164802188|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-7.35|-0.48|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||-0.48|-7.35|
82550093|NCT02995434|164802188|EQUIVALENCE|See comment in primary outcome|Mean Difference (Net)|-0.87|||||TWO_SIDED|95.0|-4.11|2.62|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method|||2.62|-4.11|
82550094|NCT02995434|164802188|EQUIVALENCE|See comments in primary outcome|Median Difference (Net)|-2.95|||||TWO_SIDED|95.0|-6.1|0.41|||||Treatment effect = VR group - Control group; 95% confidence intervals estimated using the bootstrapping method.|||0.41|-6.10|
82561937|NCT00666705|164833117|SUPERIORITY_OR_OTHER||Ratio (percent)|79.48||||||90.0|67.19|94.02|||Mixed Models Analysis|Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups. For maraviroc, a sample size of 18 subjects provided 91% power that the 90% CI for the ratio of Test (raltegravir co-administered with maraviroc) to Reference (maraviroc administered alone) treatment for the maximum concentration (Cmax) would lie within the acceptance region of (80%, 125%).||94.02|67.19|
82561938|NCT00666705|164833118|SUPERIORITY_OR_OTHER||Ratio (percent)|63.25||||||90.0|44.27|90.39|||Mixed Models Analysis|Natural log transformed AUCτ was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|For raltegravir, a sample size of 18 subjects provided 90% CIs for the difference between treatments of raltegravir (±0.205) on the natural log scale for AUCτ, with 90% coverage probability.||90.39|44.27|
82550095|NCT04318548|164802249|NON_INFERIORITY|NI was to be demonstrated if the lower limit (LL) of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against M14459 (fHbp) strain was above (\>) 0.5|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.77|1.06|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority (NI) of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.06|0.77|
82550096|NCT04318548|164802249|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against 96217 (NadA) strain was \>0.5|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.04|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.04|0.75|
82550097|NCT04318548|164802249|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against NZ98/254 (PorA) strain was \>0.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.12|0.76|
82550098|NCT04318548|164802249|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the GMT ratio between the MenB+MenACWY group and MenB group for hSBA titers against M13520 (NHBA) strain was \>0.5|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis serogroup B indicator strains at one month after the second vaccination with rMenB+OMV NZ (at Day 91).||1.06|0.73|
82550099|NCT04318548|164802250|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men A serogroup was \>0.5.|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.78|1.14|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men A, at one month after the vaccination with MenACWY (at Day 31).||1.14|0.78|
82580352|NCT02285153|164872105|SUPERIORITY|||||||0.467|||||||Chi-squared|||||||0.467
82580353|NCT01489891|164872108|NON_INFERIORITY_OR_EQUIVALENCE|Beta 0.1; Alpha 0.05|Median Difference (Final Values)|30.6|STANDARD_DEVIATION|42.1|<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
82650993|NCT00294723|165016796|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.17|||<|0.0001||95.0|-3.87|-2.47||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.47|-3.87|<.0001
82550100|NCT04318548|164802250|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men C serogroup was \>0.5.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.86|1.44|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men C, at one month after the vaccination with MenACWY (at Day 31).||1.44|0.86|
82580354|NCT02576587|164872112|OTHER|Conditional logistic regression was used to assess the relationship of PAF and AHI on matched pairs of case and control.|Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.007||0.054|TWO_SIDED|95.0|0.97|1.0|||Conditional logistic regression|||||1.00|0.97|0.054
82580355|NCT02576587|164872112|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA volume on matched pairs of case and control.|Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.007||0.014|TWO_SIDED|95.0|1.0|1.03|||Conditional logistic regression|N = 270 (135 cases and 135 controls)||||1.03|1.00|0.014
82580356|NCT02576587|164872112|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA volume index on matched pairs of case and control.|Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.015||0.03|TWO_SIDED|95.0|1.0|1.06|||Conditional logistic regression|N=268 (134 cases and 134 controls)||||1.06|1.00|0.030
82580357|NCT02576587|164872112|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA systolic strain apical four-chamber (A4C) on matched pairs of case and control.|Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.013||0.39|TWO_SIDED|95.0|0.96|1.01|||Conditional logistic regression|N=214 (107 cases and 107 controls)||||1.01|0.96|0.39
82550101|NCT04318548|164802250|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men W serogroup was \>0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.21|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men W, at one month after the vaccination with MenACWY (at Day 31).||1.21|0.82|
82550102|NCT04318548|164802250|NON_INFERIORITY|NI was to be demonstrated if LL of the 2-sided 95% CI of the between-group ratio of hSBA GMTs between MenB+MenACWY group and MenACWY group for Men Y serogroup was \>0.5.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.84|1.27|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenACWY) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To demonstrate the non-inferiority of the antibody response to MenACWY given concomitantly with rMenB+OMV NZ compared to MenACWY administered alone, as measured by hSBA GMTs against the N. meningitidis serogroup Men Y, at one month after the vaccination with MenACWY (at Day 31).||1.27|0.84|
82550103|NCT04318548|164802252|OTHER||GMT Ratio|0.76|||||TWO_SIDED|95.0|0.64|0.91|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis M14459 (fHbp) strain at one month after the fisrt vaccination with rMenB+OMV NZ (at Day 31).||0.91|0.64|
82550104|NCT04318548|164802252|OTHER||GMT Ratio|0.62|||||TWO_SIDED|95.0|0.49|0.77|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis 96217 (NadA) strain at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.77|0.49|
82550105|NCT04318548|164802252|OTHER||GMT Ratio|0.73|||||TWO_SIDED|95.0|0.58|0.91|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis NZ98/254 (PorA) strain at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.91|0.58|
82550106|NCT04318548|164802252|OTHER||GMT Ratio|0.76|||||TWO_SIDED|95.0|0.64|0.9|||ANOVA||The ratio of GMTs (MenB+MenACWY/MenB) and the corresponding CI is constructed by exponentiating the mean difference and the confidence limits in log10 (titer), using ANOVA with study centre included as an independent variable.|To assess the immune response to rMenB+OMV NZ given concomitantly with MenACWY compared to rMenB+OMV NZ administered alone, measured by hSBA GMTs against N. meningitidis M13520 (NHBA) at one month after the first vaccination with rMenB+OMV NZ (at Day 31).||0.90|0.64|
82550107|NCT04323137|164802279|SUPERIORITY|||||||0.0035|||||||Regression, Logistic|||"This analysis compared all groups that were informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm) to control patients who were not sent a message.~Null hypothesis: informing patients they are high risk for flu and flu-related complications does not increase flu vaccination rate; Alternative hypothesis: informing patients they are high risk for flu and flu-related complications increases flu vaccination rate"||||0.0035
82550108|NCT04323137|164802279|SUPERIORITY|||||||0.613||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk only and High risk based on medical records messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk only and High risk based on medical records. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||.613
82550109|NCT04323137|164802279|SUPERIORITY|||||||0.889||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk only and High risk based on algorithm messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk only and High risk based on algorithm messages. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||0.889
82550110|NCT04323137|164802279|SUPERIORITY|||||||0.714||||||The p-value reported is uncorrected, but the Holm method was used to determine whether the p-value reached statistical significance.|Regression, Logistic|||Null hypothesis: the High risk based on medical records and High risk based on algorithm messages are equally effective at promoting ﬂu vaccinations; Alternative hypothesis: there is a difference in effectiveness between High risk based on medical records and High risk based on algorithm messages. Separate regressions were run to assess pairwise differences between the high-risk arms (analyses 2, 3, and 4). The Holm method was used to test whether each comparison reached significance.||||.714
82550111|NCT04323137|164802280|SUPERIORITY|||||||0.181||||||This p-value is from the same regression as the top 10% risk vs. top 3% risk contrast (analysis 2).|Regression, Logistic|||"This analysis tested whether vaccination differed in patients with the same risk level who were sent messages with a vague verbal (high risk) vs. specific numeric (top 10%) risk framing.~This analysis was limited to those informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm)."||||.181
82550112|NCT04323137|164802280|SUPERIORITY|||||||0.301||||||This p-value is from the same regression as the high risk vs. top 10% risk contrast (analysis 1).|Regression, Logistic|||"This analysis tested whether vaccination differed in patients with the same numeric risk phrasing are differentially affected due to different specific risk levels (3% vs. 10%).~This analysis was limited to those informed they were high risk (High risk only, High risk based on medical records, High risk based on algorithm)."||||.301
82376910|NCT03104400|164460626|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-17.1|||<|0.0001|TWO_SIDED|95.0|-19.6|-14.6||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-14.6|-19.6|<0.0001
82475863|NCT00109590|164646704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was two-sided P\<0.05.|wilcoxon Signed Rank Test|||The null hypothesis was that there was no difference in within-subject Cpredose LPV/r plasma drug concentrations within 72 hours after delivery versus at 30 days postpartum.||||0.009
82550113|NCT02120456|164802363|SUPERIORITY||Rate ratio|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.58|||Negative binominal regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.58|0.34|<0.001
82550114|NCT02120456|164802363|SUPERIORITY||Rate ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.44|0.73|||Negative binominal regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.73|0.44|<0.001
82550115|NCT02120456|164802363|SUPERIORITY||Rate ratio|1.26||||0.058|TWO_SIDED|95.0|0.99|1.6|||Negative binominal regression|||||1.60|0.99|0.058
82550116|NCT02120456|164802364|SUPERIORITY||Ratio of clearance rates|1.05||||0.94|TWO_SIDED|95.0|0.3|4.73|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||4.73|0.30|0.94
82550117|NCT02120456|164802364|SUPERIORITY||Ratio of clearance rates|1.0||||1|TWO_SIDED|95.0|0.28|4.51|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||4.51|0.28|1.00
82550118|NCT02120456|164802364|SUPERIORITY||Ratio of clearance rates|0.95||||0.93|TWO_SIDED|95.0|0.31|2.89|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||2.89|0.31|0.93
82550119|NCT02120456|164802365|SUPERIORITY||Ratio of clearance rates|2.88||||0.003|TWO_SIDED|95.0|1.36|7.85|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||7.85|1.36|0.003
82550120|NCT02120456|164802365|SUPERIORITY||Ratio of clearance rates|2.84||||0.004|TWO_SIDED|95.0|1.35|7.74|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||7.74|1.35|0.004
82550121|NCT02120456|164802365|SUPERIORITY||Ratio of clearance rates|0.99||||0.95|TWO_SIDED|95.0|0.66|1.47|||Log binomial regression|||Log binomial regression with factors treatment group and baseline AK count as a covariate.||1.47|0.66|0.95
82550122|NCT04229992|164802439|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear mode adjusted for age, sex, BMI and baseline level||"1. GG genotype and magnesium treatment vs GG genotype and placebo;~2. GA/AA genotype and magnesium treatment vs GA/AA genotype and Placebo."||||<0.05
82550123|NCT04229992|164802440|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear mode adjusted for age, sex, BMI and baseline level||"1. GG genotype and magnesium treatment vs GG genotype and placebo;~2. GA/AA genotype and magnesium treatment vs GA/AA genotype and Placebo"||||<0.05
82550124|NCT03770273|164802441|OTHER|||||||0.774|||||||Regression, Linear|||||||0.7740
82550125|NCT03770273|164802443|OTHER|||||||0.1071|||||||Regression, Linear|||||||0.1071
82550126|NCT03770273|164802444|OTHER|||||||0.4904|||||||Regression, Linear|||||||0.4904
82550127|NCT03770273|164802445|OTHER|||||||0.1399|||||||Regression, Linear|||||||0.1399
82550128|NCT01999075|164802447|SUPERIORITY||Mean Difference (Net)|1.9||||0.68|TWO_SIDED|95.0|-6.9|10.7||The a priori threshold for statistical significance was a two-sided p-value of 0.05.|ANCOVA||"The mean difference between the intervention and the control group in the change from baseline to 2 years was estimated.~Estimates presented here are based on multiple imputation of missing values."|||10.7|-6.9|0.68
82550129|NCT01999075|164802451|SUPERIORITY||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-1.92|2.18||||||Difference in change in peak cough flow (L/min) from baseline to 2 years, between conventional treatment and intervention group.||2.18|-1.92|
82550130|NCT01999075|164802452|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
82550131|NCT01999075|164802453|SUPERIORITY|||||||1|||||||Mixed Models Analysis|||||||1.00
82550132|NCT01999075|164802454|SUPERIORITY|||||||0.98|||||||Mixed Models Analysis|||||||0.98
82550133|NCT05521308|164802457|SUPERIORITY||Mean Difference (Final Values)|0.38|||<|0.001|TWO_SIDED|95.0|0.2|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #1, Variation #2 and Same counts.||1.00|0.20|<0.001
82550134|NCT05521308|164802457|SUPERIORITY||Mean Difference (Final Values)|3.23||||0.02|TWO_SIDED|95.0|0.41|6.05|||t-test, 2 sided|||This is to see if there is a difference between Variation #1 and Variation #2 preference counts per participant.||6.05|0.41|0.02
82550135|NCT05521308|164802457|SUPERIORITY||Mean Difference (Final Values)|0.35|||<|0.001|TWO_SIDED|95.0|0.18|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #1, Variation #3 and Same counts.||1.00|0.18|<0.001
82550136|NCT05521308|164802457|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.54|TWO_SIDED|95.0|-1.36|3.55|||t-test, 2 sided|||This is to see if there is a difference between Variation #1 and Variation #3 preference counts per participant.||3.55|-1.36|.54
82550137|NCT05521308|164802457|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.231|TWO_SIDED|95.0|0.0|1.0|||ANOVA|||This is to see if there is a difference in preference count per participant between Variation #2, Variation #3, and Same counts.||1.00|0|.231
82550138|NCT05521308|164802459|SUPERIORITY||Cramer's V|0.14||||0.13|TWO_SIDED||||||Chi-squared|This is to see if there is a difference in preference counts between standard curve, variation #4, and # of times they were rated as the same. -Indoor||||||.13
82550139|NCT05521308|164802459|SUPERIORITY||Cramer's V|0.2||||0.04|TWO_SIDED|||||This is to see if there is a difference in preference counts between standard curve, variation #4, and # of time they were rated as the same. -Outdoor|Chi-squared|||||||0.04
82550140|NCT05521308|164802459|SUPERIORITY||Cramer's V|0.2||||0.04|TWO_SIDED||||||Chi-squared|||The number of participants that showed overall preference toward variation #4 vs. the standard curve vs. no preference. - Outdoors.||||0.04
82550141|NCT05521308|164802460|SUPERIORITY||Effect Size|0.26|||<|0.001|TWO_SIDED|95.0|0.1|1.0|||ANOVA|Initally this is to see if there is a differnce between Unaided, Aided #1 and Aided #2.||Standard Curve vs Variation #4||1.00|0.10|<0.001
82550142|NCT05521308|164802460|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.855|TWO_SIDED|95.0|-2.83|2.35||Post-Hoc Pairwise Comparison|t-test, 2 sided|Standard Curve vs Variation #4||||2.35|-2.83|0.855
82550143|NCT04760678|164802494|OTHER|Fisher's exact test||||||0.107|||||||Fisher Exact|||||||0.107
82550144|NCT03675282|164802533|SUPERIORITY||Mean Difference (Final Values)|19.8||||0.66|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 (Baseline vs. 24 months)||||0.66
82580358|NCT02576587|164872112|OTHER|Conditional logistic regression was used to assess the relationship of PAF and LA systolic strain apical two-chamber (A2C) on matched pairs of case and control.|Odds Ratio (OR)|0.99|STANDARD_ERROR_OF_MEAN|0.013||0.49|TWO_SIDED|95.0|0.97|1.02|||Conditional logistic regression|N=212 (106 cases and 106 controls)||||1.02|0.97|0.49
82580359|NCT02576587|164872113|OTHER||median of change|3.4||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|||Inter-Quartile Range of the change (post minus pre) is (-7.0, 13.7).|||0.16
82580360|NCT02576587|164872114|OTHER||median of change|1.8||||0.088|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-2.0, 6.0).|||||0.088
82580361|NCT02576587|164872115|OTHER||median of change|-3.7||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-8.0, -0.57).|||||0.006
82475864|NCT00109590|164646704|SUPERIORITY_OR_OTHER_LEGACY|||||||0.048||95.0||||The p-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was two-sided P\<0.05.|Wilcoxon Signed Rank Test|||The null hypothesis was that there was no difference in within-subject C4hour LPV/r plasma drug concentrations within 72 hours after delivery versus at 30 days postpartum||||0.048
82550145|NCT03675282|164802533|SUPERIORITY||Mean Difference (Final Values)|-21.3||||0.63|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 (Baseline vs. 24 months)||||0.63
82550146|NCT03675282|164802533|SUPERIORITY||Mean Difference (Final Values)|0.87||||0.99|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder (Baseline vs. 24 months)||||0.99
82550147|NCT03675282|164802533|SUPERIORITY||Mean Difference (Final Values)|11.5||||0.67|TWO_SIDED||||||paired t-test|||Healthy Controls (Baseline vs. 24 months)||||0.67
82550148|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.625||||0.4|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part I (Baseline vs. 24 months)||||0.40
82550149|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-1.453||||0.4|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part II (Baseline vs. 24 months)||||0.40
82550150|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-6.15||||0.04|TWO_SIDED|||||Parkinson Disease - Stage 1 UPDRS Part III (Baseline vs. 24 months)|paired t-test|||||||0.04
82550151|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.056||||0.94|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 UPDRS Part IV (Baseline vs. 24 months)||||0.94
82550152|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.414||||0.53|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part I (Baseline vs. 24 months)||||0.53
82550153|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-1.779||||0.38|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part II (Baseline vs. 24 months)||||0.38
82550154|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-3.59||||0.24|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part III (Baseline vs. 24 months)||||0.24
82550155|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.376||||0.73|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 UPDRS Part IV (Baseline vs. 24 months)||||0.73
82550156|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-1.187||||0.16|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part I (Baseline vs. 24 months)||||0.16
82550157|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.154||||0.75|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part II (Baseline vs. 24 months)||||0.75
82550158|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.829||||0.28|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part III (Baseline vs. 24 months)||||0.28
82550159|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.077||||0.85|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder UPDRS Part IV (Baseline vs. 24 months)||||0.85
82550160|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|0.204||||0.78|TWO_SIDED||||||paired t-test|||Healthy Controls UPDRS Part I (Baseline vs. 24 months)||||0.78
82550161|NCT03675282|164802534|SUPERIORITY||Mean Difference (Final Values)|-0.381||||0.03|TWO_SIDED||||||paired t-test|||Healthy Controls UPDRS Part IV (Baseline vs. 24 months)||||0.03
82550162|NCT03675282|164802535|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.3|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 1 (Baseline vs. 24 months)||||0.30
82550163|NCT03675282|164802535|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.94|TWO_SIDED||||||paired t-test|||Parkinson Disease - Stage 2 (Baseline vs. 24 months)||||0.94
82580362|NCT02576587|164872116|OTHER||median of change|-0.7||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test was used to compare pre- and post- treatment outcomes.|Inter-quartile range of the change (post minus pre) is (-6.2, 10.7).|||||0.59
82580363|NCT02576587|164872117|OTHER||mean of change|0.62|STANDARD_DEVIATION|4.2||0.65|TWO_SIDED||||||t-test, 2 sided|Paired t test was used to compare pre- and post- treatment outcomes.||||||0.65
82580364|NCT02576587|164872118|OTHER||mean of change|-1.7|STANDARD_DEVIATION|12.2||0.65|TWO_SIDED||||||t-test, 2 sided|Paired t test was used to compare pre- and post- treatment outcomes.||||||0.65
82580365|NCT00777088|164872119|NON_INFERIORITY|The cumulative rate of ipsilateral stroke or neurologic death is not ≥ 20% at 180-day clinical follow-up and the cumulative rate of ipsilateral stroke or neurovascular death is not ≥ 25% at 5-year clinical follow-up|||||<|0.001|||||||Bayesian|||||||<.001
82580366|NCT00777088|164872120|NON_INFERIORITY_OR_EQUIVALENCE|The rate of complete IA occlusion without major parent artery stenosis exceeds 50% with a posterior probability \>0.975.|||||<|0.001|||||||Bayesian|||||||<0.001
82475865|NCT01221285|164646716|SUPERIORITY_OR_OTHER||Fold change|1.8||||0.02|TWO_SIDED|95.0|1.1|2.8|||Fold change||Numerator is geometric mean post-baseline IgE. Denominator is baseline IgE.|||2.8|1.1|0.02
82475866|NCT01221285|164646717|SUPERIORITY_OR_OTHER||Fold change|2.5|||<|0.0001|TWO_SIDED|95.0|1.8|3.4|||Fold change||Numerator is geometric mean post-baseline IgG. Denominator is baseline IgG.|||3.4|1.8|<0.0001
82475867|NCT01221285|164646718|SUPERIORITY_OR_OTHER||Fold change|12.9|||<|0.0001|TWO_SIDED|95.0|7.5|22.5|||Fold Change||Numerator is geometric mean post-baseline IgG4. Denominator is baseline IgG4.|||22.5|7.5|<0.0001
82475868|NCT01221285|164646719|SUPERIORITY_OR_OTHER||Change|-42.8|||<|0.0001|TWO_SIDED|95.0|-59.4|-26.2|||Change||Numerator is geometric mean post-baseline FAB. Denominator is baseline FAB.|||-26.2|-59.4|<0.0001
82475869|NCT02123251|164646720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.2139||0.0553|TWO_SIDED|95.0|-0.0092|0.8293|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, race, gender, and baseline hypertension.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||0.8293|-0.0092|0.0553
82550164|NCT03675282|164802535|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.45|TWO_SIDED||||||paired t-test|||REM Sleep Behavior Disorder (Baseline vs. 24 months)||||0.45
82550165|NCT03675282|164802535|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.8|TWO_SIDED||||||paired t-test|||Healthy Controls (Baseline vs. 24 months)||||0.80
82580367|NCT02980731|164872146|SUPERIORITY||||||=|0.004||||||P-value is derived from a paired t-test of H0: mean difference (Week 48 - baseline) ≤ 5 versus H1: mean difference (Week 48 - baseline) \> 5|t-test, 2 sided|||||||=0.004
82580368|NCT02075476|164872179|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.048|||||||Mixed Models Analysis|||||||0.048
82475870|NCT02123251|164646721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2916|STANDARD_ERROR_OF_MEAN|1.9571||0.2416|TWO_SIDED|95.0|-6.1274|1.5442|||Generalized Estimating Equation Model||The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||1.5442|-6.1274|0.2416
82475871|NCT02123251|164646722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0893|STANDARD_ERROR_OF_MEAN|1.2622||0.3881|TWO_SIDED|95.0|-3.5632|1.3846|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||1.3846|-3.5632|0.3881
82475872|NCT02123251|164646723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3432|STANDARD_ERROR_OF_MEAN|7.7086||0.8617|TWO_SIDED|95.0|-16.4517|13.7653|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||13.7653|-16.4517|0.8617
82550166|NCT05177848|164802544|OTHER|||||||0.9793||||||"A linear mixed effects model tested the interaction between group and condition on the rate of substitution~Results:~Condition: X2(6) = 4.30, p = 0.64 Group: X2(1) 0.22, p = 0.64 Condition:Group: X2(6) = 1.15, p = 0.98"|Mixed Models Analysis|||||||0.9793
82550167|NCT05177848|164802545|OTHER|||||||0.29||||||"A linear mixed effects model tested the interaction between group and condition on Q0 (derived intensity).~Results:~Condition: X2(6) = 6.59, p = 0.36 Group: X2(1) = 0.07, p = 0.79 Condition:Group: X2(6) = 7.38, p = 0.29"|Mixed Models Analysis|||||||0.29
82550168|NCT05177848|164802545|OTHER|||||||0.46||||||"A linear mixed effects model tested the interaction between group and condition on Alpha (demand elasticity).~Results:~Condition: X2(6) = 0.0001, p = 1.00 Group: X2(1) = 0.00, p = 0.99 Condition:Group: X2(6) = 5.65, p = 0.46"|Mixed Models Analysis|||||||0.46
82550169|NCT05386758|164802560|OTHER||Gemetric Mean Ratio (GMR)|1.24|||||TWO_SIDED|90.0|0.94|1.64||||||||1.64|0.94|
82550170|NCT05386758|164802561|OTHER||Geometric Mean Ratio (GMR)|1.21|||||TWO_SIDED|90.0|0.9|1.62||||||||1.62|0.90|
82550171|NCT05486078|164802569|OTHER|Repeated measures ANOVA||||||0.001|||||||ANOVA|||Hip abduction strength was analyzed using repeated measures ANOVA. The assumption of sphericity was tested and Bonferroni correction was applied for pairwise comparisons. A p-value \< 0.001 was considered statistically significant.||||0.001
82580369|NCT02075476|164872180|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.001|||||||Mixed Models Analysis|||||||0.001
82580370|NCT02075476|164872181|EQUIVALENCE|Normality in sample distribution was tested using the Kolmororov-Smirnov test and graphic models. For descriptive variables we use Pearson's Chi-square, and for the study of numerical variables over time we use a mixed linear test.||||||0.011|||||||Mixed Models Analysis|||||||0.011
82580371|NCT00091169|164872185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.57|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.57
82580372|NCT00091169|164872186|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.64
82580373|NCT00091169|164872187|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.93
82580374|NCT00091169|164872188|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.61
82580375|NCT00091169|164872189|SUPERIORITY_OR_OTHER_LEGACY|||||||1e-05|TWO_SIDED||||||Fisher Exact|||||||0.00001
82580376|NCT00091169|164872190|SUPERIORITY_OR_OTHER_LEGACY|||||||0.677|TWO_SIDED||||||Fisher Exact|||||||0.677
82500460|NCT01500629|164691709|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.701||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.701
82500461|NCT01500629|164691710|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.108||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.108
82500462|NCT01500629|164691711|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.253||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.253
82500463|NCT01500629|164691712|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.287||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.287
82500464|NCT01500629|164691713|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.409||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.409
82500465|NCT01500629|164691714|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.092||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.092
82500466|NCT01500629|164691715|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.0||||0.042||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.042
82500467|NCT01500629|164691716|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.307||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.307
82500468|NCT01500629|164691717|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.903||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.903
82500469|NCT01500629|164691718|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.121||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.121
82500470|NCT01500629|164691719|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.3||||0.689||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.689
82500471|NCT01500629|164691720|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.314||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.314
82500472|NCT01500629|164691721|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8||||0.034||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.034
82500473|NCT01500629|164691722|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.845||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.845
82475873|NCT02123251|164646724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.787|STANDARD_ERROR_OF_MEAN|28.5519||0.5333|TWO_SIDED|95.0|-73.7478|38.1737|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||38.1737|-73.7478|0.5333
82580377|NCT03809429|164872191|OTHER||Difference|1.31||||0.0185|TWO_SIDED|95.0|0.22|2.4|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||||2.40|0.22|0.0185
82580378|NCT03809429|164872194|OTHER||Difference|1.14||||0.0281|TWO_SIDED|95.0|0.12|2.15|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=10 mm at end of stimulation||2.15|0.12|0.0281
82580379|NCT03809429|164872194|OTHER||Difference|0.99||||0.0258|TWO_SIDED|95.0|0.12|1.86|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=12 mm at end of stimulation||1.86|0.12|0.0258
82580380|NCT03809429|164872194|OTHER||Difference|0.58||||0.0672|TWO_SIDED|95.0|-0.04|1.2|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=15 mm at end of stimulation||1.20|-0.04|0.0672
82475874|NCT02123251|164646725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9097|STANDARD_ERROR_OF_MEAN|5.2351||0.862|TWO_SIDED|95.0|-9.3509|11.1702|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||11.1702|-9.3509|0.8620
82475875|NCT02123251|164646726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7177|STANDARD_ERROR_OF_MEAN|1.0433||0.4915|TWO_SIDED|95.0|-1.3272|2.7626|||Generalized Estimating Equation Model|The analysis adjusted for the effects of age, gender, race, and hypertension at baseline.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|Generalized estimating equation (GEE) modeling was used to examine the pre- and post-intervention changes between groups due to interventions in biometric indicators. The average change in scores over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no differences in the biometric measure from baseline to endpoint between groups.||2.7626|-1.3272|0.4915
82475876|NCT02123251|164646727|SUPERIORITY_OR_OTHER||||||>|0.05|||||||standard diffs-in-diffs model|||A standard diffs-in-diffs model was utilized to estimate the causal effect of the intervention on medical costs per patient/day. The average change in cost over time for the intervention group was compared to that for the control group. The difference-in-differences values was assessed for significance at p = 0.05. Null hypothesis assumed no difference in the cost per patient per day from baseline to endpoint between groups.||||>0.05
82475877|NCT02123251|164646728|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6403|STANDARD_ERROR_OF_MEAN|0.3148||0.042|TWO_SIDED|95.0|0.0233|1.2572|||Generalized Estimating Equation Model||The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|The average change in scores over time for the intervention group was compared to that for the control group. The difference in these average changes is referred to as the difference-in-differences values which was assessed for significance at p = 0.05. Null hypothesis assumed no difference in the General Diet subscale from baseline to endpoint between groups. Generalized estimating equation modeling was used to examine changes in SDSCA between groups at different time points.||1.2572|0.0233|0.0420
82500474|NCT01500629|164691723|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.619||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.619
82500475|NCT01500629|164691724|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.803||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.803
82500476|NCT01500629|164691725|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3||||0.175||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.175
82500477|NCT01500629|164691726|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.206|||||||Wilcoxon (Mann-Whitney)|The rank sum test was based on period difference for comparison between sequence.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.206
82580381|NCT03809429|164872194|OTHER||Difference|0.21||||0.339|TWO_SIDED|95.0|-0.22|0.63|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||\>=17 mm at end of stimulation||0.63|-0.22|0.3390
82580382|NCT03809429|164872196|OTHER||Difference|1.11||||0.0962|TWO_SIDED|95.0|-0.2|2.41|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||||2.41|-0.20|0.0962
82475878|NCT02123251|164646729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1188|STANDARD_ERROR_OF_MEAN|1.031||0.0399|TWO_SIDED|95.0|0.0981|4.1395|||Generalized Estimating Equation Model|The effect of age and gender is adjusted in the GEE model.|The estimates denote the differences between longitudinal changes within the treatment group and longitudinal changes within the control group.|The average change in scores over time for the intervention group was compared to that of the control group. The difference in the average changes is referred to as the difference-in-differences values which was assessed for significance at p=0.05. Null assumed no group difference in the Physical Component Summary measure of SF-36v2 from baseline to midpoint. Generalized estimating equation (GEE) modeling was used to examine changes in health measures between groups at different time points.||4.1395|0.0981|.0399
82475879|NCT00535288|164646745|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.2|||<|0.01|TWO_SIDED|95.0|-2.2|-0.2||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.2|-2.2|<0.01
82475880|NCT00535288|164646745|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.7|||<|0.01|TWO_SIDED|95.0|-2.7|-0.7||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.7|-2.7|<0.01
82475881|NCT00535288|164646745|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.4|||<|0.01|TWO_SIDED|95.0|-2.4|-0.4||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.4|-2.4|<0.01
82550172|NCT05486078|164802570|OTHER|McNemar Exact Test|||||<|0.0001||||||P-value derived from McNemar exact test comparing binary outcome (improved vs. unchanged). Statistical significance threshold set at p \< 0.05.|McNemar|McNemar Exact Test||MRI improvement was assessed using paired evaluation of inflammatory signs (edema) at baseline and Week 24. McNemar exact test was used for within-subject categorical comparison.||||< 0.0001
82550173|NCT05486078|164802571|OTHER|Friedman Test Within-group||||||0.992|||||||Friedman Test Within-group|||Analgesic use (units/week) was analyzed over time using the Friedman test for repeated measures. No significant variation across follow-up visits was found.||||0.992
82580383|NCT03809429|164872198|OTHER||Difference|0.51||||0.1894|TWO_SIDED|95.0|-0.25|1.27|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of embryos||1.27|-0.25|0.1894
82475882|NCT00535288|164646745|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.9|||<|0.01|TWO_SIDED|95.0|-2.9|-0.9||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.9|-2.9|<0.01
82475883|NCT00535288|164646746|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07|||<|0.01|TWO_SIDED|95.0|-0.12|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.12|<0.01
82475884|NCT00535288|164646746|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.06||||0.02|TWO_SIDED|95.0|-0.11|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.11|0.02
82475885|NCT00535288|164646746|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07|||<|0.01|TWO_SIDED|95.0|-0.13|-0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.02|-0.13|<0.01
82475886|NCT00535288|164646746|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.08|||<|0.01|TWO_SIDED|95.0|-0.14|-0.03||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.03|-0.14|<0.01
82475887|NCT00535288|164646747|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.0||||0.08|TWO_SIDED|95.0|-2.1|0.1||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||0.1|-2.1|0.08
82475888|NCT00535288|164646747|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.6|||<|0.01|TWO_SIDED|95.0|-2.7|-0.5||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.5|-2.7|<0.01
82475889|NCT00535288|164646747|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.5|||<|0.01|TWO_SIDED|95.0|-2.7|-0.4||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.4|-2.7|<0.01
82550174|NCT03721952|164802630|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.13|STANDARD_ERROR_OF_MEAN|0.323||0.688|TWO_SIDED|95.0|-0.505|0.764|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average depression score \& negative sign of estimate defined as higher average depression score, over 3 follow-up points for the intervention group vs. the control group.|Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||0.764|-0.505|0.688
82550175|NCT03721952|164802630|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.510
82580384|NCT03809429|164872198|OTHER||Difference|-0.03||||0.9361|TWO_SIDED|95.0|-0.68|0.63|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of Good-quality embryos||0.63|-0.68|0.9361
82580385|NCT03809429|164872199|OTHER||Difference|0.37||||0.2025|TWO_SIDED|95.0|-0.2|0.94|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Total number of blastocysts||0.94|-0.20|0.2025
82550176|NCT03721952|164802631|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.143|STANDARD_ERROR_OF_MEAN|0.323||0.658|TWO_SIDED|95.0|-0.491|0.777|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average anxiety score \& negative sign of estimate defined as higher average anxiety score, over 3 follow-up points for the intervention group vs. the control group.|Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||0.777|-0.491|0.658
82550177|NCT03721952|164802631|SUPERIORITY|||||||0.268|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.268
82550178|NCT03721952|164802632|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.2|STANDARD_ERROR_OF_MEAN|0.077||0.01|TWO_SIDED|95.0|-0.353|-0.048|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average quality-of-relationship score \& negative sign of estimate defined as higher average quality-of-relationship score over 3 follow-up points for intervention vs control groups.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||-0.048|-0.353|0.010
82550179|NCT03721952|164802632|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.175
82550180|NCT03721952|164802633|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.021|STANDARD_ERROR_OF_MEAN|0.092||0.817|TWO_SIDED|95.0|-0.203|0.16|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average quality-of-relationship score \& negative sign of estimate defined as higher average quality-of-relationship score, over 3 follow-up points for intervention vs control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.160|-0.203|0.817
82550181|NCT03721952|164802633|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.949
82580386|NCT03809429|164872199|OTHER||Difference|0.12||||0.5946|TWO_SIDED|95.0|-0.31|0.54|||Negative binomial regression|Negative binomial regression model with treatment, age strata, and AMH group as factors.||Number of good-quality blastocysts||0.54|-0.31|0.5946
82580387|NCT03809429|164872205|OTHER||Difference|16.94|||<|0.0001|TWO_SIDED|95.0|12.13|21.74|||ANOVA|ANOVA model with treatment, age strata, and AMH group as factors.||||21.74|12.13|<0.0001
82580388|NCT03809429|164872206|OTHER||Difference|1.56|||<|0.0001|TWO_SIDED|95.0|1.19|1.92|||ANOVA|ANOVA model with treatment, age strata, and AMH group as factors.||||1.92|1.19|<0.0001
82550182|NCT03721952|164802634|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.45|STANDARD_ERROR_OF_MEAN|0.239||0.06|TWO_SIDED|95.0|-0.919|0.02|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional information: Positive sign of estimate defined as lower average preparation score \& negative sign of estimate defined as higher average preparation score, over 3 follow-up points for intervention vs control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.020|-0.919|0.060
82550183|NCT03721952|164802634|SUPERIORITY|||||||0.701|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.701
82550184|NCT03721952|164802635|SUPERIORITY||Avg. Intervention Effect (CON--INT)|-0.393||||0.053|TWO_SIDED|95.0|-0.791|0.005|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.|Additional estimation information: Positive sign of estimate defined as lower average goal-concordant care \& negative sign of estimate defined as higher average goal-concordant care, over 3 follow-up points for intervention group vs. control group.|Superior outcome for Group 2 (Facilitator-based INTERVENTION: Family)||0.005|-0.791|0.053
82550185|NCT03721952|164802635|SUPERIORITY|||||||0.039|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.039
82550186|NCT03721952|164802636|SUPERIORITY||Avg. Intervention Effect (CON--INT)|0.636||||0.239|TWO_SIDED|95.0|-0.425|1.7|||Mixed Models Analysis|Linear mixed-effects: 1-, 3-, 6-mo outcomes, intervention \& time predictors. Primary analysis: avg control-intervention effect over 3 time points.||Superior outcome for Group2 (Facilitator-based INTERVENTION: Family)||1.700|-0.425|0.239
82550187|NCT03721952|164802636|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|Average Intervention effect with time interaction (control-intervention)||||||0.170
82550188|NCT03721952|164802637|SUPERIORITY||Slope|0.089|STANDARD_ERROR_OF_MEAN|0.041||0.029|TWO_SIDED|95.0|0.009|0.169|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher proportion of readmissions \& negative sign of estimate defined as lower proportion of readmissions, for the intervention group vs. the control group|Superior outcome for Group2 (Patient-Intervention)||0.169|0.009|0.029
82580389|NCT03809429|164872207|OTHER||Difference|6.99||||0.1579|TWO_SIDED|95.0|-2.71|16.7|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||16.70|-2.71|0.1579
82580390|NCT03809429|164872209|OTHER||Difference|7.66||||0.1134|TWO_SIDED|95.0|-1.82|17.14|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||17.14|-1.82|0.1134
82580391|NCT03809429|164872210|OTHER||Difference|8.81||||0.0642|TWO_SIDED|95.0|-0.52|18.14|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||18.14|-0.52|0.0642
82580392|NCT03809429|164872211|OTHER||Difference|7.74||||0.1002|TWO_SIDED|95.0|-1.49|16.97|||Regression, Logistic|Logistic regression model with treatment, age strata, and AMH group as factors.||||16.97|-1.49|0.1002
82580393|NCT02503852|164872231|SUPERIORITY|||||||0.032|||||||ANCOVA|||||||0.032
82580394|NCT02503852|164872231|OTHER|||||||0.0318||||||P value cited is the difference in non-vellus hair count between the low-dose ADRC NW3 group and the no-fat saline control at week 24|ANCOVA|||Non-vellus hair count in the low-dose ADRC group in the NW3 subgroup beginning at Week 6 (mean change from baseline persisting through weeks 12 , 24, and 52.||||0.0318
82580395|NCT02643472|164872246|SUPERIORITY|||||||0.73|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.73
82550189|NCT03721952|164802638|SUPERIORITY||Slope|1.078|STANDARD_ERROR_OF_MEAN|0.808||0.183|TWO_SIDED|95.0|-0.511|2.666|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||2.666|-0.511|0.183
82550190|NCT03721952|164802639|SUPERIORITY||Slope|1.687|STANDARD_ERROR_OF_MEAN|3.157||0.593|TWO_SIDED|95.0|-4.518|7.892|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||7.892|-4.518|0.593
82550191|NCT03721952|164802640|SUPERIORITY||Slope|4.365|STANDARD_ERROR_OF_MEAN|6.987||0.533|TWO_SIDED|95.0|-9.367|18.097|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of hospital free days \& negative sign of estimate defined as lower number of hospital free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||18.097|-9.367|0.533
82550192|NCT03721952|164802641|SUPERIORITY||Slope|1.07|STANDARD_ERROR_OF_MEAN|1.07||0.318|TWO_SIDED|95.0|-1.032|3.173|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||3.173|-1.032|0.318
82550193|NCT03721952|164802642|SUPERIORITY||Slope|4.117|STANDARD_ERROR_OF_MEAN|3.506||0.241|TWO_SIDED|95.0|-2.773|11.007|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||11.007|-2.773|0.241
82550194|NCT03721952|164802643|SUPERIORITY||Slope|8.195|STANDARD_ERROR_OF_MEAN|7.466||0.273|TWO_SIDED|95.0|-6.479|22.868|||Regression, Linear|Linear regression of outcome on group (0=control, 1=interv), adjusted for hospital, w robust standard error estimate using bias correction 1/(1-h)\^2.|Additional estimation information: Positive sign of estimate defined as higher number of ICU free days \& negative sign of estimate defined as lower number of ICU free days, for the intervention group vs. the control group.|Superior outcome for Group2 (Patient-Intervention)||22.868|-6.479|0.273
82580396|NCT02643472|164872247|SUPERIORITY|||||||0.12|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||STAI Y-1 data was used in these statistical analyses.||||0.12
82580397|NCT02643472|164872248|SUPERIORITY|||||||0.03|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.03
82580398|NCT02643472|164872251|SUPERIORITY|||||||0.06|||||||Generalized Estimating Equations|In analyzing predicted means, results of Generalized Estimating Equations (GEE) modeling controlled for time from baseline at each assessment.||||||0.06
82550195|NCT03721952|164802644|SUPERIORITY||Slope|-0.0000009|STANDARD_ERROR_OF_MEAN|0.00000248||0.71|TWO_SIDED|95.0|-0.0000057|0.0000039|||other type of regression|Regression \[gamma family, link function g(u)=u-0.9\], outcome on random group (0=control, 1=intervention), adjusted for hospital, robust SEs.||Superior outcome for Group2 (Patient-Intervention)||0.0000039|-0.0000057|0.710
82550196|NCT03721952|164802645|SUPERIORITY||Slope|0.00000113|STANDARD_ERROR_OF_MEAN|0.00000215||0.599|TWO_SIDED|95.0|-0.000003|0.0000053|||other type of regression|Regression \[inverse Gaussian family, link function g(u)=u-0.9\], outcome on random group (0=control,1=intervention), adjusted for hospital, robust SEs.||Superior outcome for Group2 (Patient-Intervention)||0.0000053|-0.0000030|0.599
82550197|NCT01000961|164802724|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority endpoint of the clinical trial would be achieved if the upper limit of the 95.8% CI of the difference between RP103 and Cystagon® was less than the a-priori 0.3 non-inferiority margin, which would correspond to an observed p-value less than or equal to 0.02104|Mean Difference (Final Values)|0.0785||||0.0001|TWO_SIDED|95.8|0.0107|0.1464|||t-test, 1 sided||95.8% confidence interval was used instead of 95% to take into account a sample size re-estimation calculation that was performed after 20 patients were enrolled.|16-subject study will have 90% power to reject the null hypothesis of non-inferiority at the 0.025 level of significance with a non-inferiority margin of 0.3. Final analysis was performed at a nominal significance level of 0.02104.||0.1464|0.0107|0.0001
82550198|NCT01000961|164802725|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.4|||||TWO_SIDED|95.0|1.17|1.67||||||||1.67|1.17|
82550199|NCT01000961|164802726|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|105.0|||||TWO_SIDED|95.0|90.0|150.0||||||||150|90|
82550200|NCT01000961|164802727|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.03|||||TWO_SIDED|95.0|1.75|2.39||||||||2.39|1.75|
82580399|NCT02643472|164872252|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82580400|NCT02643472|164872253|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82580401|NCT02643472|164872254|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.60
82580402|NCT02643472|164872255|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Cognitive subscale.||||0.92
82580403|NCT02643472|164872255|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Language subscale.||||0.58
82580404|NCT02643472|164872255|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Infant development status was evaluated with Bayley subscales. Motor subscale.||||0.87
82550201|NCT03896789|164802762|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.95|TWO_SIDED|95.0|-3.3|3.5||The primary outcome was analyzed using a multi-level mixed-effects model, which included a random effect for site (to account for potential provider clustering) and fixed effects for covariates.|Mixed Models Analysis|Included covariates were age, gender, head maximum AIS, non-head maximum AIS, nurse: patient ratio and baseline TBI guideline adherence scores.||"Null hypothesis: Assuming no difference between usual care (control) and PEGASUS (intervention).~We used 2011-2012 results from prior pilot work in Argentina (58.6% TBI guideline adherence) to determine a sample size of 432 eligible patients (216 per arm) for the planned parallel cluster RCT, which would have 80% power to detect a 18.7% higher ICU TBI guideline adherence rate with programme implementation, with a two-sided alpha of 5%, and an intraclass coefficient of 0.05."||3.5|-3.3|.95
82550202|NCT03896789|164802768|SUPERIORITY||Mean Difference (Final Values)|7.9||||0.01|TWO_SIDED|95.0|1.9|13.8||The outcome was analyzed using a multi-level mixed-effects model, which included a random effect for site (to account for potential provider clustering) and fixed effects for covariates.|Mixed Models Analysis|Included covariates were age, gender, head maximum AIS, non-head maximum AIS, nurse: patient ratio and baseline TBI guideline adherence scores.||||13.8|1.9|.01
82550203|NCT05851573|164802809|OTHER||||||<|0.05|||||||t-test, 2 sided|df = 9||||||< .05
82550204|NCT05851573|164802810|OTHER||||||=|0.775|||||||t-test, 2 sided|df = 9||||||= .775
82376962|NCT00101283|164460891|SUPERIORITY_OR_OTHER_LEGACY||Overall Response Percent|0.0|||||TWO_SIDED|90.0|0.0|20.6|||||Overall response percent for Pemetrexed/Gemcitabine arm (percent of eligible, treated patients with complete or partial response)|The treatment was to be considered promising if a true response rate of 40% or higher was observed, whereas a rate of 15% or less would not be of interest. 3 or more responses were required to expand accrual to a second stage. This expansion did not occur.||20.6|0.0|
82550205|NCT05851573|164802811|OTHER||||||=|0.444|||||||t-test, 2 sided|df = 10||||||= .444
82550206|NCT05851573|164802812|OTHER|||||||0.959|||||||t-test, 2 sided|df = 9||||||.959
82550207|NCT05851573|164802813|OTHER|||||||0.068|||||||t-test, 2 sided|df = 9||||||.068
82550208|NCT05851573|164802814|OTHER||||||=|0.119|||||||t-test, 2 sided|df = 10||||||= .119
82550209|NCT05851573|164802815|OTHER||||||=|0.258|||||||t-test, 2 sided|df = 10||||||= .258
82550210|NCT05851573|164802816|OTHER||||||=|0.593|||||||t-test, 2 sided|df = 10||||||= .593
82550211|NCT06429319|164802835|SUPERIORITY||F value|5.919||||0.004|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of one and two NOLTREX™ courses was used ANCOVA adjusted for the baseline value with fixed factor of treatment group."||No sample size calculation was performed. Maximum expected number of participants for OLE was 72 patients randomized to the NOLTREX™ group in the parent study (IA/PAAG-SI/OA/2019). A total of 65 patients entered the OLE. The study did not have a formal hypothesis. The between-group comparison of changes from baseline (OLE visit 0) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.004
82550212|NCT06429319|164802835|SUPERIORITY||LS-means difference|-37.64|STANDARD_ERROR_OF_MEAN|56.34||0.783|TWO_SIDED|95.0|-172.98|97.7||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||97.70|-172.98|0.783
82550213|NCT06429319|164802835|SUPERIORITY||LS-means difference|81.94|STANDARD_ERROR_OF_MEAN|60.45||0.37|TWO_SIDED|95.0|-63.28|227.16|||Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||227.16|-63.28|0.370
82550214|NCT06429319|164802835|SUPERIORITY||LS-means difference|119.58|STANDARD_ERROR_OF_MEAN|34.76||0.003|TWO_SIDED|95.0|36.09|203.07||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||203.07|36.09|0.003
82550215|NCT06429319|164802835|SUPERIORITY||F value|2.78||||0.07|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of one and two NOLTREX™ courses was used ANCOVA adjusted for the baseline value with fixed factor of treatment group."||The between-group comparison of changes from baseline (visit 1 study 1) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.070
82550216|NCT06429319|164802839|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"BASELINE (study 1 visit 1)~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.030
82550217|NCT06429319|164802839|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"BASELINE (OLE visit 0)~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.002
82550218|NCT06429319|164802839|SUPERIORITY|||||||0.007||||||The threshold for statistical significance was p \<0.05.|ANOVA|||"visit 3~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||0.007
82550219|NCT06429319|164802839|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||"visit 5~To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution."||||<0.001
82550220|NCT06429319|164802840|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"Fisher's exact test was used to determine whether there is a significant difference between 3 groups.~visit 3"||||<0.001
82550221|NCT06429319|164802840|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||"visit 5~Fisher's exact test was used to determine whether there is a significant difference between 3 groups."||||<0.001
82550222|NCT06429319|164802841|SUPERIORITY|||||||0.018||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"visit 3~Fisher's exact test was used to determine whether there was a significant difference between 3 groups."||||0.018
82376911|NCT03104400|164460626|OTHER|The overall type I error rate of the primary and the 14 ranked secondary endpoints was controlled using a two-part sequential graphical multiple testing procedure starting with the primary endpoint using α/2 for each dose followed by a prespecified α transfer path.|LS Mean Difference|-19.8|||<|0.0001|TWO_SIDED|95.0|-22.3|-17.3||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped at ACR 20 at Week 12 superiority test of upadacitinib 15 mg versus adalimumab 40 mg.|Mixed Effect Model Repeated Measurement|MMRM analysis including treatment, visit, treatment-by-visit interaction, current DMARD use (yes/no) as fixed factors and Baseline value as covariate.|Treatment Difference = Upadacitinib - Placebo|||-17.3|-22.3|<0.0001
82475890|NCT00535288|164646747|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.0|||<|0.01|TWO_SIDED|95.0|-3.1|-0.9||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline frequency||||-0.9|-3.1|<0.01
82475891|NCT00535288|164646750|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.06||||0.07|TWO_SIDED|95.0|-0.12|0.0||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.00|-0.12|0.07
82475892|NCT00535288|164646750|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.05||||0.24|TWO_SIDED|95.0|-0.11|0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.02|-0.11|0.24
82475893|NCT00535288|164646750|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.04||||0.29|TWO_SIDED|95.0|-0.11|0.02||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||0.02|-0.11|0.29
82550223|NCT06429319|164802841|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p \<0.05.|Fisher Exact|||"visit 5~Fisher's exact test was used to determine whether there was a significant difference between 3 groups."||||<0.001
82550224|NCT06429319|164802844|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p \<0.05.|Kruskal-Wallis|||To determine a statistically significant difference between 3 groups the one-way ANOVA (for normally distributed data; aov) or the Kruskal-Wallis test (for non-normally distributed data; kw) was used. The Shapiro-Wilk test was employed to assess the normality of the data distribution.||||0.010
82550225|NCT05603143|164802845|OTHER|||||||0.3161|||||||Log Rank|||||||0.3161
82475894|NCT00535288|164646750|SUPERIORITY_OR_OTHER||Difference between least squares means|-0.07||||0.02|TWO_SIDED|95.0|-0.14|-0.01||Confidence intervals and p-values were adjusted by (2-sided) Dunnett many-to-one comparison at 0.05 overall Type 1 error rate.|ANCOVA|Factors for treatment group and (pooled) center and a covariate for the baseline severity||||-0.01|-0.14|0.02
82475895|NCT02617485|164646771|EQUIVALENCE|Equivalence met if the 90% CI of the Geo LS Means ratio is contained with the pre-specified equivalence margin of 70% - 143%.|Ratio of Geo LS-means|1.0406|||||TWO_SIDED|90.0|0.9565|1.1321||||||Estimated Geo LS-means ratio.||1.1321|0.9565|
82475896|NCT02617485|164646772|EQUIVALENCE|Equivalence met if the 90% CI of the Geo LS Means ratio is contained with the pre-specified equivalence margin of 70% - 143%.|Ratio of Geo LS-means|1.0611|||||TWO_SIDED|90.0|0.9822|1.1464||||||Estimated Geo LS-means ratio.||1.1464|0.9822|
82475897|NCT03861988|164646783|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||||||0.13
82475898|NCT00220779|164646792|SUPERIORITY_OR_OTHER|||||||0.221||||||0.2g/kg IGIV Group versus Placebo|Cochran-Mantel-Haenszel|||The primary efficacy comparison was the comparison of the proportions of relapse free subjects (relapse defined as reported, not necessarily confirmed relapse). The multiple test procedure (hierarchical procedure) was to be stopped as soon as one of the statistical tests resulted in a non-significant P value \> 0.05.||||0.221
82475899|NCT00220779|164646792|SUPERIORITY_OR_OTHER|||||||0.471||||||0.4 g/kg IGIV Group versus Placebo|Cochran-Mantel-Haenszel|||The primary efficacy comparison was the comparison of the proportions of relapse free subjects (relapse defined as reported, not necessarily confirmed relapse). The multiple test procedure (hierarchical procedure) was to be stopped as soon as one of the statistical tests resulted in a non-significant P value \> 0.05.||||0.471
82475900|NCT02248675|164646801|SUPERIORITY_OR_OTHER|||||||0.153|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||.153
82475901|NCT02248675|164646802|SUPERIORITY_OR_OTHER|||||||0.627|||||||Regression, Linear|||||||.627
82475902|NCT02248675|164646803|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||<.001
82550226|NCT05603143|164802849|OTHER|||||||0.3219|||||||Log Rank|||||||0.3219
82550227|NCT05603143|164802850|OTHER||Hazard Ratio (HR)|1.496||||0.6568|TWO_SIDED|95.0|0.25|8.952|||Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression.|||8.952|0.250|0.6568
82550228|NCT05603143|164802851|OTHER||Hazard Ratio (HR)|2.99||||0.319|TWO_SIDED|95.0|0.311|28.74|||Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression.|||28.740|0.311|0.3190
82550229|NCT05603143|164802852|OTHER|||||||0.3161|||||||Log Rank|||||||0.3161
82550230|NCT05603143|164802853|OTHER||Hazard Ratio (HR)|1.425||||0.0859|TWO_SIDED|95.0|0.961|2.112||P-value was based on stratified Log-rank test with randomization stratification factors as the strata.|Log Rank||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factors as covariates.|||2.112|0.961|0.0859
82550231|NCT05603143|164802854|OTHER||Treatment Difference (vs Placebo)|-0.58|||<|0.0001|TWO_SIDED|95.0|-0.83|-0.33|||MMRM||Least-squares mean (SE), 95% CI and P value were from MMRM with baseline viral load and randomization strata as covariates.|||-0.33|-0.83|< 0.0001
82550232|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup A if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||For serogroup A, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||2.0|-1.0|
82550233|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup A if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.8|||||TWO_SIDED|95.0|-0.6|3.7||||||For serogroup A, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||3.7|-0.6|
82550234|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup C if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-0.5|||||TWO_SIDED|95.0|-2.3|1.9||||||For serogroup C, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||1.9|-2.3|
82550235|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup C if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-0.8|||||TWO_SIDED|95.0|-3.3|2.5||||||For serogroup C, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||2.5|-3.3|
82550236|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup W if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-3.0|||||TWO_SIDED|95.0|-6.3|0.8||||||For serogroup W, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||0.8|-6.3|
82550237|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup W if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|0.3|||||TWO_SIDED|95.0|-1.8|3.5||||||For serogroup W, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||3.5|-1.8|
82550238|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup Y if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|-3.0|||||TWO_SIDED|95.0|-5.4|-0.4||||||For serogroup Y, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||-0.4|-5.4|
82550239|NCT05093829|164802876|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup Y if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. Difference in proportions and confidence intervals are reported as percentages (number of infants per 100).|Difference in proportions|1.4|||||TWO_SIDED|95.0|-0.6|4.8||||||For serogroup Y, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||4.8|-0.6|
82561939|NCT00666705|164833119|SUPERIORITY_OR_OTHER||Ratio (percent)|90.33||||||90.0|85.28|95.68|||Mixed Models Analysis|Natural log transformed C12 was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|The alternate hypothesis of bioequivalence is that there is no difference between treatment groups.||95.68|85.28|
82650994|NCT00294723|165016796|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.41||||0.2584||95.0|-1.11|0.3||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.30|-1.11|0.2584
82650995|NCT00294723|165016797|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.65|||<|0.0001||95.0|-4.44|-2.86||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.86|-4.44|<.0001
82650996|NCT00294723|165016797|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.84|||<|0.0001||95.0|-3.63|-2.06||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.06|-3.63|<.0001
82550240|NCT05093829|164802877|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval (CI) for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). The CI is estimated using bootstrap resampling stratified by vaccine arm, and the 95% CI is estimated as the interval between the 2.5th and 97.5th percentiles of the bootstrap empirical distribution. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|2.3|||||TWO_SIDED|95.0|0.3|4.7||||||For the 9-months study age group, the proportion of infants with a seroprotective response to MenACWY-TT in serogroup W is subtracted from the proportion of infants with a seroprotective response to NmCV-5 in serogroup X to determine the difference in proportions.||4.7|0.3|
82650997|NCT00294723|165016797|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.8||||0.0462||95.0|-1.59|-0.01||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.01|-1.59|0.0462
82550241|NCT05093829|164802877|NON_INFERIORITY|NmCV-5 will be deemed non-inferior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval (CI) for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes -0.10 (-10%). The CI is estimated using bootstrap resampling stratified by vaccine arm, and the 95% CI is estimated as the interval between the 2.5th and 97.5th percentiles of the bootstrap empirical distribution. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|1.9|||||TWO_SIDED|95.0|0.004|4.4||||||For the 15-months study age group, the proportion of infants with a seroprotective response to MenACWY-TT in serogroup Y is subtracted from the proportion of infants with a seroprotective response to NmCV-5 in serogroup X to determine the difference in proportions.||4.4|0.004|
82550242|NCT05093829|164802881|SUPERIORITY|NmCV-5 will be deemed superior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes 0.30 (30%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|82.5|||||TWO_SIDED|95.0|76.4|87.2||||||For serogroup X, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||87.2|76.4|
82550243|NCT05093829|164802881|SUPERIORITY|NmCV-5 will be deemed superior to MenACWY-TT for serogroup X if the lower limit of the 95% confidence interval for the difference in proportion (NmCV-5 minus MenACWY-TT) excludes 0.30 (30%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|68.4|||||TWO_SIDED|95.0|61.3|74.7||||||For serogroup X, the proportion of infants with a seroprotective response to MenACWY-TT is subtracted from the proportion of infants with a seroprotective response to NmCV-5 to determine the difference in proportions.||74.7|61.3|
82550244|NCT05093829|164802882|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to measles if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||For this comparison, the proportion of infants with a seropositive response to measles vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to measles vaccine in the NmCV-5 arm to determine the difference in proportions.||2.0|-1.0|
82550245|NCT05093829|164802882|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to measles if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.1||||||For this comparison, the proportion of infants with a seropositive response to measles vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to measles vaccine in the NmCV-5 arm to determine the difference in proportions.||2.1|-1.0|
82376912|NCT03104400|164460627|OTHER||Response Rate Difference|24.3|||<|0.0001|TWO_SIDED|95.0|18.7|29.9||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusted for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||29.9|18.7|<0.0001
82475903|NCT02248675|164646804|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|multiple regression controlling for baseline values of the dependent variable was used to examine between group effects at post-treatment||||||<.001
82550246|NCT05093829|164802883|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to rubella if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|-4.3|||||TWO_SIDED|95.0|-10.5|2.6||||||For this comparison, the proportion of infants with a seropositive response to rubella vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to rubella vaccine in the NmCV-5 arm to determine the difference in proportions.||2.6|-10.5|
82550247|NCT05093829|164802883|NON_INFERIORITY|The NmCV-5 co-administered MR vaccine will be deemed non-inferior to the MenACWY-TT co-administered MR vaccine in eliciting seropositive response to rubella if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.0|2.1||||||For this comparison, the proportion of infants with a seropositive response to rubella vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seropositive response to rubella vaccine in the NmCV-5 arm to determine the difference in proportions.||2.1|-1.0|
82550248|NCT05093829|164802884|NON_INFERIORITY|The NmCV-5 co-administered yellow fever vaccine will be deemed non-inferior to the MenACWY-TT co-administered yellow fever vaccine in eliciting seroprotective response to yellow fever if the lower limit of the 95% confidence interval for the difference in proportions excludes -0.10 (-10%). Confidence Intervals are calculated using the Miettinen-Nurminen method. The difference in proportions and CI are reported as percentages (number of infants per 100).|Difference in proportions|-1.9|||||TWO_SIDED|95.0|-4.2|0.6||||||For this comparison, the proportion of infants with a seroprotective response to yellow fever vaccine in the MenACWY-TT arm is subtracted from the proportion of infants with a seroprotective response to yellow fever vaccine in the NmCV-5 arm to determine the difference in proportions.||0.6|-4.2|
82550249|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup A, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.8|
82550250|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|1.2|||||TWO_SIDED|95.0|1.0|1.6|||||NmCV-5 divided by MenACWY-TT|For serogroup A, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.6|1.0|
82376913|NCT03104400|164460627|OTHER||Response Rate Difference|38.5|||<|0.0001|TWO_SIDED|95.0|32.8|44.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||44.3|32.8|<0.0001
82550251|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||NmCV-5 divided by MenACWY-TT|For serogroup C, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||0.6|0.4|
82550252|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|0.4|||||TWO_SIDED|95.0|0.3|0.5|||||NmCV-5 divided by MenACWY-TT|For serogroup C, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||0.5|0.3|
82550253|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|0.9|||||TWO_SIDED|95.0|0.6|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup W, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.6|
82550254|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|1.6|||||TWO_SIDED|95.0|1.1|2.1|||||NmCV-5 divided by MenACWY-TT|For serogroup W, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||2.1|1.1|
82550255|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|0.7|||||TWO_SIDED|95.0|0.6|1.0|||||NmCV-5 divided by MenACWY-TT|For serogroup Y, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.0|0.6|
82550256|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|1.0|||||TWO_SIDED|95.0|0.8|1.3|||||NmCV-5 divided by MenACWY-TT|For serogroup Y, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1.3|0.8|
82550257|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|1511.1|||||TWO_SIDED|95.0|1169.5|1952.4|||||NmCV-5 divided by MenACWY-TT|For serogroup X, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1952.4|1169.5|
82550258|NCT05093829|164802885|OTHER||Ratio of geometric mean titers|767.3|||||TWO_SIDED|95.0|553.2|1064.4|||||NmCV-5 divided by MenACWY-TT|For serogroup X, the point and interval estimates for the Geometric Mean Titer (GMT) ratio will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMT ratio of rSBA titers at Day 29 is calculated for the NmCV-5 arm relative to the MenACWY-TT arm.||1064.4|553.2|
82550259|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|2756.4|||||TWO_SIDED|95.0|1976.3|3844.5|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3844.5|1976.3|
82550260|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|2506.9|||||TWO_SIDED|95.0|1404.0|4476.1|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||4476.1|1404.0|
82475904|NCT00281658|164646832|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0062|TWO_SIDED|95.0|0.58|0.94||Stratified Log-Rank (one-sided)|Log Rank||The treatment hazard ratio based on the proportional hazard model stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|Primary OS analysis cut-off date = 18-Jun-2010||0.94|0.58|0.0062
82550261|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1179.0|||||TWO_SIDED|95.0|709.8|1958.6|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1958.6|709.8|
82550262|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1096.2|||||TWO_SIDED|95.0|513.4|2340.6|||||Day 29 divided by Day 1|For serogroup A, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2340.6|513.4|
82550263|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|288.7|||||TWO_SIDED|95.0|212.6|392.0|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||392.0|212.6|
82550264|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|654.5|||||TWO_SIDED|95.0|385.5|1111.0|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1111.0|385.5|
82550265|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|287.9|||||TWO_SIDED|95.0|213.9|387.5|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||387.5|213.9|
82550266|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|834.6|||||TWO_SIDED|95.0|496.7|1402.3|||||Day 29 divided by Day 1|For serogroup C, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1402.3|496.7|
82580405|NCT01680640|164872256|SUPERIORITY||Mean Difference (Net)|-3.8|STANDARD_DEVIATION|0.8|=|0.05|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05|Regression, Linear|||A total sample size of 100 participants, with a 14% drop out during the study and 43 participants in each group completing the study provided 85% power to detect a difference of 40% in liver fat (in the treatment arm compared with the placebo), using a power calculation test with a 0.05 two-sided significance level. For change in liver fat percentage (and other secondary outcomes), ANCOVA will also be undertaken to assess effect sizes in the intervention group and placebo.||||=0.05
82376914|NCT03104400|164460628|OTHER||Response Rate Difference|13.3|||<|0.0001|TWO_SIDED|95.0|9.5|17.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||17.0|9.5|<0.0001
82475905|NCT00281658|164646833|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.64|0.98|||||The treatment hazard ratio based on the proportional hazard model stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|Final OS analysis cut-0ff date = 23-Nov-2021||0.98|0.64|
82550267|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1068.4|||||TWO_SIDED|95.0|683.3|1670.6|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1670.6|683.3|
82550268|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1933.1|||||TWO_SIDED|95.0|1224.7|3051.1|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3051.1|1224.7|
82550269|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|3163.1|||||TWO_SIDED|95.0|2247.5|4451.7|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||4451.7|2247.5|
82550270|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1524.1|||||TWO_SIDED|95.0|913.5|2543.0|||||Day 29 divided by Day 1|For serogroup W, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2543.0|913.5|
82550271|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|799.4|||||TWO_SIDED|95.0|532.9|1199.4|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1199.4|532.9|
82550272|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1469.2|||||TWO_SIDED|95.0|995.3|2168.8|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2168.8|995.3|
82550273|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|549.4|||||TWO_SIDED|95.0|371.8|811.8|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||811.8|371.8|
82550274|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|642.6|||||TWO_SIDED|95.0|309.2|1335.9|||||Day 29 divided by Day 1|For serogroup Y, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||1335.9|309.2|
82550275|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|2630.0|||||TWO_SIDED|95.0|2037.6|3394.6|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3394.6|2037.6|
82550276|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|2.0|||||TWO_SIDED|95.0|1.2|3.4|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3.4|1.2|
82550277|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1431.2|||||TWO_SIDED|95.0|905.2|2262.9|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||2262.9|905.2|
82550278|NCT05093829|164802887|OTHER||Ratio of geometric mean titers|1.7|||||TWO_SIDED|95.0|0.9|3.3|||||Day 29 divided by Day 1|For serogroup X, the point and interval estimates for the Geometric Mean Fold Rise (GMFR) will be obtained from a back transformation (exponentiation) of the estimated mean ratio of the log-transformed rSBA titers. The GMFR from baseline to Day 29 of rSBA titers is calculated as Day 29 divided by Day 1.||3.3|0.9|
82550279|NCT00667251|164802907|OTHER||Hazard Ratio (HR)|1.367||||0.001|TWO_SIDED|95.0|1.133|1.648|||Log Rank|||PFS at the time of Primary Analysis (IIT population)||1.648|1.133|0.0010
82550280|NCT00667251|164802907|OTHER||Hazard Ratio (HR)|1.484||||0.0002|TWO_SIDED|95.0|1.204|1.829|||Log Rank|||PFS at the time of Primary Analysis (Central HER2+ population)||1.829|1.204|0.0002
82550281|NCT00667251|164802908|OTHER||Hazard Ratio (HR)|1.3722|||||TWO_SIDED|95.0|1.1466|1.6422|||||Stratified HR for LTax/L versus TTax/T|PFS at the time of Final Analysis (IIT population)||1.6422|1.1466|
82376915|NCT03104400|164460628|OTHER||Response Rate Difference|22.9|||<|0.0001|TWO_SIDED|95.0|18.5|27.3||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||27.3|18.5|<0.0001
82550282|NCT00667251|164802908|OTHER||Hazard Ratio (HR)|1.4968|||||TWO_SIDED|95.0|1.2251|1.8288|||||Stratified HR for LTax/L versus TTax/T|PFS at the time of Final Analysis (Central HER2+ population)||1.8288|1.2251|
82550283|NCT00667251|164802909|OTHER||Hazard Ratio (HR)|1.3786|||||TWO_SIDED|95.0|1.0246|1.8549|||||Stratified HR for LTax/L versus TTax/T|Overall Survival (OS) (IIT population)||1.8549|1.0246|
82550284|NCT00667251|164802910|OTHER||Hazard Ratio (HR)|1.5818|||||TWO_SIDED|95.0|1.1181|2.2379|||||Stratified HR for LTax/L versus TTax/T|Overall Survival (OS) (Central HER2+ population)||2.2379|1.1181|
82550285|NCT00667251|164802913|OTHER||Hazard Ratio (HR)|1.0916|||||TWO_SIDED|95.0|0.7271|1.6389|||||Stratified HR for LTax/L versus TTax/T|Time to Central Nervous System (CNS) metastasis (IIT population)||1.6389|0.7271|
82550286|NCT00667251|164802914|OTHER||Hazard Ratio (HR)|1.0951|||||TWO_SIDED|95.0|0.7144|1.6787|||||Stratified HR for LTax/L versus TTax/T|Time to Central Nervous System (CNS) metastasis (Central HER2+ population)||1.6787|0.7144|
82550287|NCT00667251|164802919|OTHER||Hazard Ratio (HR)|1.0091|||||TWO_SIDED|95.0|0.809|1.2586|||||Stratified HR for LTax/L versus TTax/T|Time to Response (TTR) (IIT population)||1.2586|0.8090|
82550288|NCT00667251|164802920|OTHER||Hazard Ratio (HR)|0.9573|||||TWO_SIDED|95.0|0.7544|1.2148|||||Stratified HR for LTax/L versus TTax/T|Time to Response (TTR) (Central HER2+ population)||1.2148|0.7544|
82550289|NCT00667251|164802921|OTHER||Hazard Ratio (HR)|1.4866|||||TWO_SIDED|95.0|1.1479|1.9251|||||Stratified HR for LTax/L versus TTax/T|Duration of Response (DoR) (IIT population)||1.9251|1.1479|
82550290|NCT00667251|164802922|OTHER||Hazard Ratio (HR)|1.5594|||||TWO_SIDED|95.0|1.1767|2.0666|||||Stratified HR for LTax/L versus TTax/T|Duration of Response (DoR) (Central HER2+ population)||2.0666|1.1767|
82550291|NCT03457142|164802957|OTHER|No formal test, a confidence interval estimate for the grade 3+ treatment related AE rate.|grade 3+ treatment related AE rate|0.33|||||TWO_SIDED|90.0|0.17|0.54||||||||0.54|0.17|
82550292|NCT02921230|164803046|SUPERIORITY|||||||0.0077|||||||Chi-squared|||||||0.0077
82550293|NCT02677298|164803070|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82550294|NCT02677298|164803071|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary Outcome Measure shows a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||<0.001
82550295|NCT02677298|164803072|SUPERIORITY|||||||0.003||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.003
82550296|NCT02677298|164803073|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Investigator's In-clinic Assessment||||<0.001
82550297|NCT02677298|164803073|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Subject's In-clinic Assessment||||<0.001
82550298|NCT02677298|164803074|SUPERIORITY|||||||0.084||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for responders rates at week 20||||0.084
82550299|NCT02677298|164803075|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for the Modified Skindex-16 (GL-QoL) Emotional domain change from baseline at week 4||||<0.001
82550300|NCT02677298|164803075|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||This test was performed for the Modified Skindex-16 (GL-QoL) Functioning domain - Change from baseline at Week 4||||<0.001
82550301|NCT02677298|164803075|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||This test was performed for the Modified Skindex-16 (GL-QoL) Overall score||||<0.001
82550302|NCT02677298|164803075|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test was performed for the FACE-Q Appraisal of Lines Between Eyebrows Scale - Change from Baseline at Week 4||||<0.001
82550303|NCT02677298|164803075|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test was performed for the FACE-Q Age Appraisal VAS score||||<0.001
82550304|NCT05260684|164803136|OTHER||Hazard Ratio (HR)|1.32||||0.02|TWO_SIDED|95.0|1.05|1.65|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Dabrafenib+Trametinib relative to Encorafenib+Binimetinib (reference).||1.65|1.05|0.02
82550305|NCT05260684|164803136|OTHER||Hazard Ratio (HR)|1.17||||0.47|TWO_SIDED|95.0|0.76|1.79|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Vemurafenib + Cobimetinib relative to Encorafenib+Binimetinib (reference).||1.79|0.76|0.47
82376916|NCT03104400|164460629|OTHER||Response Rate Difference|16.1|||<|0.0001|TWO_SIDED|95.0|10.9|21.4||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||21.4|10.9|<0.0001
82550306|NCT05260684|164803137|OTHER||Hazard Ratio (HR)|1.49|||<|0.001|TWO_SIDED|95.0|1.2|1.87|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Dabrafenib+Trametinib relative to Encorafenib+Binimetinib (reference).||1.87|1.20|<0.001
82550307|NCT05260684|164803137|OTHER||Hazard Ratio (HR)|1.2||||0.4|TWO_SIDED|95.0|0.79|1.82|||Wald Chi- Square Statistic||HR was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Vemurafenib + Cobimetinib relative to Encorafenib+Binimetinib (reference).||1.82|0.79|0.40
82550308|NCT03064217|164803138|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82550309|NCT00999804|164803148|SUPERIORITY_OR_OTHER_LEGACY||proportion of pCR|0.25|||||TWO_SIDED||||||||No comparison is required between the 24 weeks arm and 12 weeks arm. The study is designed as the 24 weeks arm ran as a single arm, using an admissible Simon-like two-stage design and required 20 or more responses in the first 55 evaluable patients.|"The study was planned to enroll 136 patients if the original cohort (n=90) was deemed successful. The 24 weeks arm ran as a single arm, using an admissible Simon-like two-stage design. The 12 weeks arm accrued as long as the 24 weeks arm is open.~The analysis of the first cohort indicated that 15 pCR were observed , which did not meet the required 20 or more responses. The accrual was closed early and the study has a total of 128 participants."||||
82550310|NCT00999804|164803149|SUPERIORITY_OR_OTHER_LEGACY||proportion of patients with AE|0.72|||||TWO_SIDED||||||||61 out of 85 patients (72%) in the 24-week arm had at least 1 adverse events.|This outcome is to establish the safety and tolerability of an extended regimen of lapatinib + trastuzumab, with or without endocrine therapy. No comparison between the 2 arms is required.||||
82550311|NCT00999804|164803150|SUPERIORITY_OR_OTHER_LEGACY||proportion of tpCR in 24 weeks arm|0.1|||||TWO_SIDED|||||||||No comparison between the two arms is required.||||
82550312|NCT00999804|164803151|SUPERIORITY_OR_OTHER_LEGACY||proportion of CR+PR in 24 weeks arm|0.69|||||TWO_SIDED|||||||||No comparison between the 2 arm is required for this study.||||
82550313|NCT05229146|164803152|SUPERIORITY|||||||0.191||||||No adjustment for multiple comparisons.|t-test, 1 sided|t-statistic = .913, df = 10||One-sided paired-samples t-test comparing baseline to responses immediately following the intervention (approximately one week after baseline).||||.191
82550314|NCT05229146|164803152|SUPERIORITY|||||||0.043||||||Not adjusted for multiple comparisons.|t-test, 1 sided|t-statistic = 1.92, df = 9||One-sided paired-samples t-test comparing baseline to responses at two week follow-up (approximately four weeks after baseline).||||.043
82550315|NCT05229146|164803153|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.319|TWO_SIDED|||||No adjustments were made. DF = 15.|t-test, 2 sided|||Comparison is between future orientation subscale pre- and post-subscale scores.||||.319
82550316|NCT05229146|164803153|SUPERIORITY||Mean Difference (Final Values)|-0.711||||0.488|TWO_SIDED||||||t-test, 2 sided|No adjustments were made. DF = 15.||Comparison between immediate-orientation subscales.||||.488
82550317|NCT05229146|164803154|SUPERIORITY||Mean Difference (Final Values)|0.438||||0.34|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||Performed a paired-samples one-sided t-test comparing positive parenting before the intervention to after the intervention.||||.34
82550318|NCT05229146|164803154|SUPERIORITY||Mean Difference (Final Values)|-0.363||||0.362|ONE_SIDED||||||t-test, 1 sided|No adjustments were made. DF = 10.||Performed a one-sided paired-samples t-test to compare negative parenting before and after the intervention.||||.362
82550319|NCT05229146|164803155|SUPERIORITY||Mean Difference (Final Values)|-3.77|||<|0.001|ONE_SIDED||||||t-test, 1 sided|No adjustments, DF = 15||Used a one-sided paired samples t-test to examine changes in the parental involvement subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||<.001
82550320|NCT05229146|164803155|SUPERIORITY||Median Difference (Final Values)|-1.14||||0.137|ONE_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in the positive parenting subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.137
82550321|NCT05229146|164803155|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.018|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15.||Used a one-sided paired samples t-test to examine changes in the inconsistent discipline subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.018
82550322|NCT05229146|164803155|SUPERIORITY||Mean Difference (Final Values)|2.39||||0.015|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15.||Used a one-sided paired samples t-test to examine changes in the use of corporal punishment subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.015
82550323|NCT05229146|164803155|SUPERIORITY||Mean Difference (Final Values)|2.23||||0.021|ONE_SIDED||||||t-test, 1 sided|||Used a one-sided paired samples t-test to examine changes in the poor parental monitoring/supervision subscale from pre-intervention to post-intervention (approximately 4 weeks later).||||.021
82550324|NCT05229146|164803156|SUPERIORITY||Mean Difference (Final Values)|0.878||||0.197|ONE_SIDED||||||t-test, 1 sided|No adjustments; DF = 15||Used a one-sided paired-samples t-test to examine changes in emotion regulation subscale from pre-intervention to post-intervention.||||.197
82550325|NCT05229146|164803156|SUPERIORITY||Mean Difference (Final Values)|0.857||||0.203|ONE_SIDED||||||t-test, 1 sided|No adjustments, DF = 15.||Used a one-sided paired-samples t-test to examine changes in lability/negativity subscale from pre-intervention to post-intervention.||||.203
82550326|NCT04749615|164803290|NON_INFERIORITY|Noninferiority Margin = (-Infinity, 1.28)||||||0.11|||||||t-test, 1 sided|||||||0.11
82580406|NCT01680640|164872256|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Median Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED||||||Regression, Linear|||||||<0.001
82580407|NCT01680640|164872257|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end-of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Mean Difference (Final Values)|0.1||||1|TWO_SIDED||||||Regression, Linear|||||||1.00
82550327|NCT04749615|164803291|NON_INFERIORITY|a noninferiority margin of 1.0 and 10% attrition|Mean Difference (Final Values)|0.05||||0.5|TWO_SIDED|95.0||||this is the calculated p-value.|t-test, 2 sided|||||||0.5
82550328|NCT05746494|164803308|OTHER|Omnibus analysis||||||0.023|||||||ANOVA|||||||0.023
82550329|NCT05746494|164803309|OTHER|Omnibus analysis||||||0.042|||||||Multilevel Modeling|||||||0.042
82550330|NCT05746494|164803310|OTHER|Omnibus analysis||||||0.98|||||||t-test, 2 sided|||||||0.980
82550331|NCT05746494|164803311|OTHER|Omnibus analysis||||||0.01|||||||Multilevel Modeling|||||||0.010
82550332|NCT05746494|164803312|OTHER|Omnibus analysis||||||0.064|||||||t-test, 2 sided|||||||0.064
82550333|NCT05746494|164803313|OTHER|Omnibus analysis||||||0.306|||||||t-test, 2 sided|||||||0.306
82550334|NCT05746494|164803314|OTHER|Omnibus analysis||||||0.041|||||||t-test, 2 sided|||||||0.041
82550335|NCT05746494|164803315|OTHER|Omnibus analysis||||||0.019|||||||t-test, 2 sided|||||||0.019
82550336|NCT02962895|164803319|SUPERIORITY||Least Squares Mean Difference|0.75||||0.5161|TWO_SIDED|95.0|-1.52|3.02|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||3.02|-1.52|0.5161
82550337|NCT02962895|164803319|SUPERIORITY||Least Squares Mean Difference|-0.55||||0.6332|TWO_SIDED|95.0|-2.8|1.71|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||1.71|-2.80|0.6332
82550338|NCT02962895|164803319|SUPERIORITY||Least Squares Mean Difference|-1.92||||0.0921|TWO_SIDED|95.0|-4.15|0.32|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||0.32|-4.15|0.0921
82550339|NCT02962895|164803321|SUPERIORITY||Least Squares Mean Difference|0.32||||0.4457|TWO_SIDED|95.0|-0.5|1.13|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||1.13|-0.50|0.4457
82550340|NCT02962895|164803321|SUPERIORITY||Least Square Mean Difference|0.01||||0.301|TWO_SIDED|95.0|-0.79|0.82|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||0.82|-0.79|0.301
82550341|NCT02962895|164803321|SUPERIORITY||Least Square Mean Difference|-0.06||||0.8858|TWO_SIDED|95.0|-0.86|0.74|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||0.74|-0.86|0.8858
82550342|NCT02962895|164803323|SUPERIORITY||Least Squares Mean Difference|-1.93||||0.3424|TWO_SIDED|95.0|-5.93|2.07|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||2.07|-5.93|0.3424
82550343|NCT02962895|164803323|SUPERIORITY||Least Squares Mean Difference|-2.56||||0.2092|TWO_SIDED|95.0|-6.58|1.45|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||1.45|-6.58|0.2092
82550344|NCT02962895|164803323|SUPERIORITY||Least Squares Mean Difference|0.31||||0.874|TWO_SIDED|95.0|-3.58|4.2|||Mixed Models Analysis|Confidence intervals and p-values are derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||4.20|-3.58|0.8740
82550345|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|-1.02||||0.5768|TWO_SIDED|95.0|-4.61|2.57|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo / Mental Component Score||2.57|-4.61|0.5768
82580408|NCT01680640|164872258|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Mean Difference (Final Values)|0.2||||0.8|TWO_SIDED||||||Regression, Linear|||||||0.80
82550346|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|0.68||||0.7113|TWO_SIDED|95.0|-2.93|4.28|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo / Mental Component Score||4.28|-2.93|0.7113
82550347|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|1.0||||0.5722|TWO_SIDED|95.0|-2.49|4.48|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo / Mental Component Score||4.48|-2.49|0.5722
82550348|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|1.84||||0.4138|TWO_SIDED|95.0|-1.59|3.83|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo / Physical Component Score||3.83|-1.59|0.4138
82550349|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.4663|TWO_SIDED|95.0|-3.72|1.71|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo / Physical Component Score||1.71|-3.72|0.4663
82550350|NCT02962895|164803325|SUPERIORITY||Least Squares Mean Difference|1.84||||0.1694|TWO_SIDED|95.0|-0.79|4.47|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo / Physical Component Score||4.47|-0.79|0.1694
82376917|NCT03104400|164460629|OTHER||Response Rate Difference|26.2|||<|0.0001|TWO_SIDED|95.0|20.7|31.8||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for the main stratification factor of current DMARD use (yes/no).|Response Rate Difference = Upadacitinib - Placebo|||31.8|20.7|<0.0001
82550351|NCT02962895|164803327|SUPERIORITY||Least Squares Mean Difference|-4.17||||0.2671|TWO_SIDED|95.0|-11.56|3.22|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||3.22|-11.56|0.2671
82550352|NCT02962895|164803327|SUPERIORITY||Least Squares Mean Difference|-4.49||||0.2248|TWO_SIDED|95.0|-11.78|2.79|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||2.79|-11.78|0.2248
82550353|NCT02962895|164803327|SUPERIORITY||Least Squares Mean Difference|-8.36||||0.0224|TWO_SIDED|95.0|-15.51|-1.2|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||-1.20|-15.51|0.0224
82550354|NCT02962895|164803329|SUPERIORITY||Least Squares Mean Difference|2.27||||0.6457|TWO_SIDED|95.0|-7.46|12.0|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo||12.00|-7.46|0.6457
82550355|NCT02962895|164803329|SUPERIORITY||Least Squares Mean Difference|3.26||||0.5132|TWO_SIDED|95.0|-6.55|13.06|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo||13.06|-6.55|0.5132
82550356|NCT02962895|164803329|SUPERIORITY||Least Squares Mean Difference|-4.77||||95|TWO_SIDED|95.0|-14.21|4.68|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo||4.68|-14.21|95
82550357|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|0.11||||0.271|TWO_SIDED|95.0|-0.08|0.3|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo (Stimulated salivary flow rate)||0.30|-0.08|0.2710
82550358|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|0.13||||0.1618|TWO_SIDED|95.0|-0.05|0.32|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo (Stimulated salivary flow rate)||0.32|-0.05|0.1618
82550359|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|0.2||||0.0374|TWO_SIDED|95.0|0.01|0.38|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo (Stimulated salivary flow rate)||0.38|0.01|0.0374
82550360|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9559|TWO_SIDED|95.0|-0.09|0.09|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 5 mg vs. Placebo (Unstimulated salivary flow rate)||0.09|-0.09|0.9559
82550361|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|0.0||||0.929|TWO_SIDED|95.0|-0.09|0.08|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 50 mg vs. Placebo (Unstimulated salivary flow rate)||0.08|-0.09|0.9290
82550362|NCT02962895|164803330|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.7276|TWO_SIDED|95.0|-0.1|0.07|||Mixed Models Analysis|Confidence intervals and p-values derived from a mixed model for repeated measures (MMRM)||Week 24: VAY736 300 mg vs. Placebo (Unstimulated salivary flow rate)||0.07|-0.10|0.7276
82550363|NCT04026555|164803354|SUPERIORITY||Risk Ratio (RR)|1.43|||<|0.001|TWO_SIDED|95.0|1.16|1.78|||Regression, Poisson|||IPTW Poisson regression was used to model the number of escalations per visit with an offset of the log transformed length of stay normalized per 1000 bed days. Treatment effect is expressed in terms of adjusted incidence rate ratio (IRR) per 1000 patient bed days.||1.78|1.16|< 0.001
82376918|NCT00794339|164460680|EQUIVALENCE|equivalence margin=0||||||0.4883|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups by whether their T/M Ratio fell at or above vs. below the observed median of 7.3 and the the median survival was compared between the 2 groups.||||0.4883
82550364|NCT04026555|164803355|SUPERIORITY||Risk Ratio (RR)|1.74|||<|0.001|TWO_SIDED|95.0|1.39|2.18||Correction for multiple comparisons was performed on all key outcomes within the primary and secondary hypotheses, respectively, using the false discovery rate method (FDR).|Regression, Logistic|||IPTW log-binomial regres- sion models were used to model the secondary and ad hoc outcomes. Treatment effect is expressed as adjusted relative risk (RR).||2.18|1.39|<0.001
82550365|NCT04026555|164803358|SUPERIORITY||Risk Ratio (RR)|0.76||||0.045|TWO_SIDED|95.0|0.58|0.99||Correction for multiple comparisons was performed on all key outcomes within the primary and secondary hypotheses, respectively, using the false discovery rate method (FDR).|Regression, Logistic|||IPTW log-binomial regression models were used to model the secondary and ad hoc outcomes. Treatment effect is expressed as adjusted relative risk (RR).||0.99|0.58|0.045
82550366|NCT04026555|164803363|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.14|TWO_SIDED|95.0|0.98|1.18|||Regression, Cox|||||1.18|0.98|0.14
82550367|NCT01606215|164803370|OTHER|||||||0.84|||||||t-test, 2 sided|||Week 4 data||||0.84
82550368|NCT01606215|164803370|OTHER|||||||0.62|||||||t-test, 2 sided|||Week 12 data||||0.62
82550369|NCT01606215|164803370|OTHER|||||||0.61|||||||t-test, 2 sided|||Week 24 data||||0.61
82550370|NCT01606215|164803373|OTHER|||||||0.77|||||||t-test, 2 sided|||Week 4||||0.77
82550371|NCT01606215|164803373|OTHER|||||||0.68|||||||t-test, 2 sided|||Week 12||||0.68
82550372|NCT01606215|164803373|OTHER|Week 24||||||0.48|||||||t-test, 2 sided|||Week 24||||0.48
82550373|NCT04295798|164803390|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.02|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to gait speed from baseline to immediately post intervention.||||0.02
82550374|NCT04295798|164803391|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.02|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to standing postural sway speed from baseline to immediately post intervention.||||0.02
82550375|NCT04295798|164803392|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.04|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to stride time variability from baseline to immediately post intervention.||||0.04
82550376|NCT04295798|164803393|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.56|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task gait speed from baseline to immediately post intervention.||||0.56
82580409|NCT01680640|164872259|SUPERIORITY|For each primary outcome, a change variable was calculated as the difference between end of study and baseline measurements. Multiple regression analysis was used to assess the effect of synbiotic treatment on each of the change variables of interest.|Median Difference (Final Values)|0.97|||<|0.001|TWO_SIDED||||||Beta-diversity indexes|Beta-diversity indexes were first visualized through a Principal Coordinates Analysis (PCoA)||||||<0.001
82550377|NCT04295798|164803394|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.07|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task gait speed from baseline to immediately post intervention.||||0.07
82550378|NCT04295798|164803395|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.74|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task stride time variability from baseline to immediately post intervention.||||0.74
82376919|NCT00794339|164460681|EQUIVALENCE|no equivalence margin|Slope|-0.1235|STANDARD_ERROR_OF_MEAN|1.6988||0.1924|TWO_SIDED||||||Regression, Logistic|||Logistic Regression Modeling Complete Metabolic Response by T/M Ratio||||0.1924
82376920|NCT00794339|164460682|EQUIVALENCE|equivalence margin = 0||||||0.309|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups: those at or above the median for T/M Ratio (7.3) vs. those below, and the time to primary tumor recurrence was compared between the 2 goups.||||0.3090
82550379|NCT04295798|164803396|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.33|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task stride time variability from baseline to immediately post intervention.||||0.33
82550380|NCT04295798|164803397|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.16|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task cost to standing postural sway area from baseline to immediately post intervention.||||0.16
82550381|NCT04295798|164803398|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.52|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task postural sway speed from baseline to immediately post intervention.||||0.52
82580410|NCT00291642|164872260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.35|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-4.61|-2.09|||ANCOVA|||||-2.09|-4.61|<0.001
82580411|NCT00291642|164872260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.25|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-4.5|-2.0|||ANCOVA|||||-2.00|-4.50|<0.001
82580412|NCT00291642|164872260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-5.38|-2.88|||ANCOVA|||||-2.88|-5.38|<0.001
82550382|NCT04295798|164803399|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.01|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task postural sway speed from baseline to immediately post intervention.||||0.01
82580413|NCT00291642|164872260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|0.637|<|0.001|TWO_SIDED|95.0|-4.99|-2.49|||ANCOVA|||||-2.49|-4.99|<0.001
82580414|NCT00548262|164872279|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Success at EOT||73.6|44.6|
82580415|NCT00548262|164872280|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|EIVT Success||73.6|44.6|
82580416|NCT00548262|164872280|SUPERIORITY_OR_OTHER||percentage of participants with success|47.7|||||TWO_SIDED|95.0|33.0|62.5|||||95% CI based on normal approximation to the binomial.|Week 2 Follow-up Success||62.5|33.0|
82580417|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|52.4|||||TWO_SIDED|95.0|31.0|73.7|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||73.7|31.0|
82580418|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|0.0|100.0|||||95% CI based on normal approximation to the binomial.|Candida famata: Success||100.0|0.0|
82580419|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida glabrata: Success||100.0|13.3|
82580420|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
82580421|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|16.7|||||TWO_SIDED|95.0|0.0|46.5|||||95% CI based on normal approximation to the binomial.|Candida parapsilosis: Success||46.5|0.0|
82580422|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|55.2|100.0|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||100.0|55.2|
82580423|NCT00548262|164872281|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|20.5|93.8|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||93.8|20.5|
82580424|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|52.4|||||TWO_SIDED|95.0|31.0|73.7|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||73.7|31.0|
82580425|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida glabrata: Success||100.0|13.3|
82580426|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
82580427|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|16.7|||||TWO_SIDED|95.0|0.0|46.5|||||95% CI based on normal approximation to the binomial.|Candida parapsilosis: Success||46.5|0.0|
82580428|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|55.2|100.0|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||100.0|55.2|
82580429|NCT00548262|164872282|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|20.5|93.8|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||93.8|20.5|
82580430|NCT00548262|164872283|SUPERIORITY_OR_OTHER||percentage of participants with success|47.6|||||TWO_SIDED|95.0|26.3|69.0|||||95% CI based on normal approximation to the binomial.|Candida albicans: Success||69.0|26.3|
82580431|NCT00548262|164872283|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Candida krusei: Success||100.0|13.3|
82580432|NCT00548262|164872283|SUPERIORITY_OR_OTHER||percentage of participants with success|70.0|||||TWO_SIDED|95.0|41.6|98.4|||||95% CI based on normal approximation to the binomial.|Candida tropicalis: Success||98.4|41.6|
82580433|NCT00548262|164872283|SUPERIORITY_OR_OTHER||percentage of participants with success|28.6|||||TWO_SIDED|95.0|0.0|62.0|||||95% CI based on normal approximation to the binomial.|Unidentifiable: Success||62.0|0.0|
82580434|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|56.3|||||TWO_SIDED|95.0|39.1|73.4|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||73.4|39.1|
82580435|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|40.0|93.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||93.3|40.0|
82580436|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|54.5|||||TWO_SIDED|95.0|37.6|71.5|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||71.5|37.6|
82580437|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
82580438|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|56.4|||||TWO_SIDED|95.0|40.8|72.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||72.0|40.8|
82580439|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|44.9|100.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||100.0|44.9|
82580440|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|55.3|||||TWO_SIDED|95.0|39.5|71.1|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||71.1|39.5|
82580441|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|83.3|||||TWO_SIDED|95.0|53.5|100.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||100.0|53.5|
82580442|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|38.5|||||TWO_SIDED|95.0|12.0|64.9|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||64.9|12.0|
82580443|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|67.7|||||TWO_SIDED|95.0|51.3|84.2|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||84.2|51.3|
82550383|NCT04295798|164803400|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.39|||||||ANOVA|||We hypothesized no significant effect of intervention type on absolute change in single task postural sway area from baseline to immediately post intervention||||0.39
82550384|NCT04295798|164803401|EQUIVALENCE|Model effects included stimulation condition (i.e., gel-tDCS, sponge-tDCS, gel-sham and sponge-sham), time (pre-, post-stimulation), and their interaction. Previous studies showed age, sex, and BMI were associated with one or more metrics of standing or walking and were therefore included as covariates. Tukey's post-hoc testing was used to compare factor means of significant models.||||||0.18|||||||ANOVA|||We hypothesized a significant effect of intervention type on absolute change in dual task postural sway area from baseline to immediately post intervention.||||0.18
82550385|NCT05020249|164803425|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82550386|NCT05020249|164803426|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82550387|NCT05020249|164803427|SUPERIORITY|||||||0.08||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||0.080
82550388|NCT05020249|164803428|SUPERIORITY|||||||0.08||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||0.080
82550389|NCT05020249|164803429|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82580444|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||79.5|6.2|
82580445|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||77.8|46.5|
82580446|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|57.9|||||TWO_SIDED|95.0|35.7|80.1|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||80.1|35.7|
82580447|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|60.0|||||TWO_SIDED|95.0|40.8|79.2|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||79.2|40.8|
82376921|NCT00794339|164460683|EQUIVALENCE|equivalence margin=0||||||0.5291|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake ratio as a Predictor of PELVIC Lymph Node Metastases at Baseline||||0.5291
82550390|NCT05020249|164803430|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82550391|NCT05020249|164803431|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82550392|NCT05020249|164803432|SUPERIORITY||||||<|0.001||||||P-values for the comparison of treatment groups are based on the Fisher's exact test.|Fisher Exact|||||||<0.001
82550393|NCT05020249|164803433|SUPERIORITY||Odds Ratio (OR)|81.25|||<|0.001|TWO_SIDED|95.0|8.216|803.544||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio of scalp IGA response for bimekizumab group compared with placebo group using CMH.||803.544|8.216|<0.001
82550394|NCT05020249|164803434|SUPERIORITY||Odds Ratio (OR)|12.353||||0.007|TWO_SIDED|95.0|1.447|105.443||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio of DLQI total score response for bimekizumab group compared with placebo group using CMH.||105.443|1.447|0.007
82550395|NCT05020249|164803435|SUPERIORITY||LS Mean Difference|-80.444|||<|0.001|TWO_SIDED|95.0|-102.509|-58.379|||ANCOVA|||||-58.379|-102.509|<0.001
82550396|NCT05364671|164803440|SUPERIORITY|||||||0.0088||||||A priori threshold for statistical significance is set to 0.04|Chi-squared|||||||0.0088
82550397|NCT05364671|164803441|SUPERIORITY|||||||0.0025||||||A priori threshold for statistical significance is set to 0.005|Wilcoxon (Mann-Whitney)|||Mean differences (Raphamin vs. Placebo) were compared||||0.0025
82550398|NCT05364671|164803443|SUPERIORITY|||||||0.2607|||||||Wilcoxon (Mann-Whitney)|||Mean differences (Raphamin vs. Placebo) were compared||||0.2607
82550399|NCT05364671|164803444|SUPERIORITY|||||||0.7601|||||||Fisher Exact|||"This analysis applies to Day 6 row."||||0.7601
82550400|NCT05364671|164803444|SUPERIORITY|||||||0.7685|||||||Fisher Exact|||"This analysis applies to Day 10 row."||||0.7685
82550401|NCT05364671|164803445|SUPERIORITY|||||||0.052|||||||Fisher Exact|||||||0.052
82550402|NCT05364671|164803446|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
82550403|NCT05364671|164803447|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.54
82550404|NCT05364671|164803448|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.10
82550405|NCT05364671|164803449|SUPERIORITY|||||||0.92||||||"The p-value associated with treatment\*visit interaction of pulse rate (heart rate) from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.92
82580448|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||73.6|44.6|
82580449|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||79.5|6.2|
82580450|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||77.8|46.5|
82580451|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|58.1|||||TWO_SIDED|95.0|43.4|72.9|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||72.9|43.4|
82580452|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|20.0|||||TWO_SIDED|95.0|0.0|55.1|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||55.1|0.0|
82580453|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|64.1|||||TWO_SIDED|95.0|49.0|79.2|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||79.2|49.0|
82580454|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|21.7|78.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||78.3|21.7|
82580455|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|62.5|||||TWO_SIDED|95.0|45.7|79.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||79.3|45.7|
82580456|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
82580457|NCT00548262|164872284|SUPERIORITY_OR_OTHER||percentage of participants with success|62.1|||||TWO_SIDED|95.0|44.4|79.7|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||79.7|44.4|
82580458|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|56.3|||||TWO_SIDED|95.0|39.1|73.4|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||73.4|39.1|
82475906|NCT00281658|164646834|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.66|||||The Pike estimator of the treatment hazard ratio based on the log rank test stratifying for metastatic disease sites and hormonal status. A hazard ratio \<1 indicates a lower risk with Lapatinib 1500mg + Paclitaxel compared with Placebo + Paclitaxel.|||0.66|0.44|
82475907|NCT00281658|164646835|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.3|||||TWO_SIDED|95.0|1.54|3.47||||||||3.47|1.54|
82475908|NCT00281658|164646836|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.34|||||TWO_SIDED|95.0|1.54|3.58||||||||3.58|1.54|
82475909|NCT00281658|164646841|OTHER||Odds Ratio (OR)|2.78|||||TWO_SIDED|95.0|1.07|7.57||||||Participants with PIK3CA wild-type||7.57|1.07|
82475910|NCT00281658|164646842|OTHER||Odds Ratio (OR)|2.42|||||TWO_SIDED|95.0|1.28|4.63||||||Participants with PTEN low||4.63|1.28|
82475911|NCT00281658|164646842|OTHER||Odds Ratio (OR)|2.21|||||TWO_SIDED|95.0|1.04|4.82||||||Participants without PTEN low||4.82|1.04|
82475912|NCT00281658|164646844|OTHER||Odds Ratio (OR)|3.15|||||TWO_SIDED|95.0|1.58|6.49||||||Participants with PTEN low||6.49|1.58|
82475913|NCT00281658|164646844|OTHER||Odds Ratio (OR)|2.49|||||TWO_SIDED|95.0|1.13|5.66||||||Participants without PTEN low||5.66|1.13|
82475914|NCT00966875|164646998|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||A log transformed dose was used in the model.|Regression, Logistic|||||||0.031
82475915|NCT00966875|164646999|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Fisher Exact|||||||0.033
82475916|NCT00966875|164646999|SUPERIORITY_OR_OTHER|||||||0.047|||||||Fisher Exact|||||||0.047
82475917|NCT00966875|164647003|SUPERIORITY_OR_OTHER|||||||0.013||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.013
82376922|NCT00794339|164460683|EQUIVALENCE|equivalence margin=0||||||0.9684|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake Ratio as a Predictor of COMMON ILIAC Lymph Node Metastases at Baseline||||0.9684
82475918|NCT00966875|164647003|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.004
82475919|NCT00966875|164647003|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475920|NCT00966875|164647003|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475921|NCT00966875|164647003|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475922|NCT00966875|164647003|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475923|NCT00966875|164647003|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475924|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.227|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.227
82475925|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.306
82475926|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.001
82475927|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.070
82475928|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.058
82475929|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.033
82475930|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|||||P-value is for ACR20-NRI at Week 12.|Fisher Exact|||||||0.047
82475931|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.191|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.191
82475932|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.019
82580459|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|40.0|93.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||93.3|40.0|
82580460|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|54.5|||||TWO_SIDED|95.0|37.6|71.5|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||71.5|37.6|
82580461|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
82580462|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|56.4|||||TWO_SIDED|95.0|40.8|72.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||72.0|40.8|
82580463|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|80.0|||||TWO_SIDED|95.0|44.9|100.0|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||100.0|44.9|
82580464|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|55.3|||||TWO_SIDED|95.0|39.5|71.1|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||71.1|39.5|
82580465|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|83.3|||||TWO_SIDED|95.0|53.5|100.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||100.0|53.5|
82580466|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|46.2|||||TWO_SIDED|95.0|19.1|73.3|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||73.3|19.1|
82475933|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.013
82475934|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.017
82550406|NCT05364671|164803450|SUPERIORITY|||||||0.44||||||"The p-value associated with treatment\*visit interaction of respiration rate (breathing rate) from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.44
82550407|NCT05364671|164803451|SUPERIORITY|||||||0.9||||||"The p-value associated with treatment\*visit interaction of SpO2 from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.90
82550408|NCT05364671|164803452|SUPERIORITY|||||||0.3||||||"The p-value associated with treatment\*visit interaction of SBP from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.30
82550409|NCT05364671|164803452|SUPERIORITY|||||||0.94||||||"The p-value associated with treatment\*visit interaction of DBP from Visit 1 to 4 between Raphamin and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|ANOVA|||||||0.94
82550410|NCT05505292|164803454|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82550411|NCT05505292|164803455|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82550412|NCT05505292|164803456|SUPERIORITY|||||||0.23|||||||t-test, 2 sided|||||||0.23
82550413|NCT05505292|164803457|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
82550414|NCT05505292|164803458|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82376923|NCT00794339|164460683|EQUIVALENCE|equivalence margin=0||||||0.7327|||||||Regression, Logistic|||Logistic Regression Evaluating Tissue to Muscle (T/M) uptake Ratio as a Predictor of Para Aortic Lymph Node Metastases at Baseline||||0.7327
82475935|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.026
82475936|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.039
82475937|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED|||||P-value is for ACR50-NRI at Week 12.|Fisher Exact|||||||0.102
82475938|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.388|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.388
82475939|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.033
82550415|NCT05505292|164803459|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||0.14
82550416|NCT05505292|164803460|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||Question 1a Change from baseline to week 8 in lifitegrast vs vehicle||||0.62
82550417|NCT05505292|164803460|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||Question 1b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.53
82550418|NCT05505292|164803460|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Question 2a change from baseline to week 8 in lifitegrast vs vehicle groups||||0.66
82550419|NCT05505292|164803460|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Question 2b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.81
82550420|NCT05505292|164803460|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||Question 3a change from baseline to week 8 in lifitegrast vs vehicle groups||||>0.999
82550421|NCT05505292|164803460|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Question 3b change from baseline to week 8 in lifitegrast vs vehicle groups||||0.47
82550422|NCT05505292|164803460|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||Question 4 change from baseline to week 8 in lifitegrast vs vehicle groups||||0.52
82550423|NCT05505292|164803460|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Question 5 change from baseline to week 8 in lifitegrast vs vehicle groups||||0.69
82550424|NCT03536754|164803461|SUPERIORITY||LSM Ratio|1.23|STANDARD_ERROR_OF_MEAN|1.171||0.1924|TWO_SIDED|90.0|0.95|1.6||≤ 0.1924|Mixed effects model for repeated measure|||||1.6|0.95|0.1924
82550425|NCT03536754|164803461|SUPERIORITY||LSM Ratio|1.35|STANDARD_ERROR_OF_MEAN|1.172||0.0612|TWO_SIDED|90.0|1.04|1.76||≤ 0.0612|Mixed effects model for repeated measure|||||1.76|1.04|0.0612
82475940|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.039
82475941|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.199|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.199
82475942|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.039
82475943|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.696|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.696
82475944|NCT00966875|164647005|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|||||P-value is for ACR70-NRI at Week 12.|Fisher Exact|||||||0.112
82475945|NCT00966875|164647007|SUPERIORITY_OR_OTHER|||||||0.017||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.017
82550426|NCT03536754|164803461|SUPERIORITY||LSM Ratio|1.05|STANDARD_ERROR_OF_MEAN|1.169||0.7653|TWO_SIDED|90.0|0.81|1.36||≤ 0.7653|Mixed effects model for repeated measure|||||1.36|0.81|0.7653
82550427|NCT03536754|164803461|SUPERIORITY||LSM Ratio|1.2|STANDARD_ERROR_OF_MEAN|1.136||0.1537|TWO_SIDED|90.0|0.97|1.48||≤ 0.1537|Mixed effects model for repeated measure|||||1.48|0.97|0.1537
82550428|NCT04709783|164803545|OTHER|One group pre-post test.|Median Difference (Final Values)|-2.67||||0.01|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||.01
82550429|NCT04709783|164803546|OTHER||Median Difference (Final Values)|-2.49||||0.01|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
82550430|NCT04709783|164803547|OTHER||Median Difference (Final Values)|-1.84||||0.07|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.07
82550431|NCT04709783|164803548|OTHER||Median Difference (Final Values)|-2.37||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
82550432|NCT05794243|164803556|OTHER||Ratio of Geometric Least Squares Means|0.13|||||TWO_SIDED|90.0|0.0741|0.228|||Mixed Models Analysis|||AUC (0-∞) was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The least square means (LSMs) and differences in LSMs were back transformed to produce the ratio between geometric least square means (GLSMs).||0.228|0.0741|
82475946|NCT00966875|164647007|SUPERIORITY_OR_OTHER|||||||0.042||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.042
82475947|NCT00966875|164647007|SUPERIORITY_OR_OTHER|||||||0.004||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.004
82550433|NCT05794243|164803556|OTHER||Ratio of Geometric Least Squares Means|0.399|||||TWO_SIDED|90.0|0.237|0.669|||Mixed Models Analysis|||AUC (0-∞) was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.669|0.237|
82550434|NCT05794243|164803558|OTHER||Ratio of Geometric Least Squares Means|0.106|||||TWO_SIDED|90.0|0.062|0.182|||Mixed Models Analysis|||Cmax was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.182|0.0620|
82550435|NCT05794243|164803558|OTHER||Ratio of Geometric Least Squares Means|0.343|||||TWO_SIDED|90.0|0.206|0.569|||Mixed Models Analysis|||Cmax was log-transformed and analyzed via mixed model for repeated measures with fixed effects for treatment, profile day and the treatment-by-day interaction, and a random effect for participant. The LSMs and differences in LSMs were back transformed to produce the ratio between GLSMs.||0.569|0.206|
82376924|NCT00794339|164460693|EQUIVALENCE|equivalence margin=0||||||0.4981|||||||Wilcoxon (Mann-Whitney)|||Participants were divided into two groups by whether their T/M Ratio fell at or above vs. below the observed median of 7.3 and the time to observe new distant metastases was compared between the groups||||.4981
82475948|NCT00966875|164647007|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475949|NCT00966875|164647007|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475950|NCT00966875|164647007|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.008
82475951|NCT00966875|164647007|SUPERIORITY_OR_OTHER|||||||0.007||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.007
82475952|NCT00966875|164647009|SUPERIORITY_OR_OTHER|||||||0.093||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.093
82475953|NCT00966875|164647009|SUPERIORITY_OR_OTHER|||||||0.023||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.023
82561940|NCT00666705|164833120|SUPERIORITY_OR_OTHER||Ratio (percent)|66.77||||||90.0|41.22|108.15|||Mixed Models Analysis|Natural log transformed Cmax was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|For raltegravir, a sample size of 18 subjects provided 90% CIs for the difference between treatments of raltegravir (±0.293) on the natural log scale for Cmax, with 90% coverage probability.||108.15|41.22|
82561941|NCT00666705|164833121|SUPERIORITY_OR_OTHER||ratio (percent)|72.42||||||90.0|57.82|90.71|||Mixed Models Analysis|Natural log transformed C12 was analyzed using a mixed effect model with treatment as a fixed effect and subject as a random effect.|Ratio (percent) (Test/Reference) of Adjusted Geometric Means|||90.71|57.82|
82561942|NCT01029704|164833127|SUPERIORITY||Difference of LS Means|-16.923||||0.0989|TWO_SIDED|95.0|-37.076|3.23||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||3.230|-37.076|0.0989
82475954|NCT00966875|164647009|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.006
82475955|NCT00966875|164647009|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.001
82475956|NCT00966875|164647009|SUPERIORITY_OR_OTHER|||||||0.028||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.028
82475957|NCT00966875|164647009|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82561943|NCT01029704|164833127|SUPERIORITY||Difference of LS Means|-17.834||||0.0964|TWO_SIDED|95.0|-38.909|3.242||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||3.242|-38.909|0.0964
82561944|NCT01029704|164833127|SUPERIORITY||Difference of LS Means|-19.991||||0.0465|TWO_SIDED|95.0|-39.67|-0.312||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.312|-39.670|0.0465
82561945|NCT01029704|164833127|SUPERIORITY||Difference of LS Means|-32.01||||0.0015|TWO_SIDED|95.0|-51.487|-12.533||P-values are from two-sided test at 5% level|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-12.533|-51.487|0.0015
82561946|NCT01029704|164833129|SUPERIORITY||Difference of LS Means|-1.434||||0.0025|TWO_SIDED|95.0|-2.349|-0.52||P-values are from a two-sided test.|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.520|-2.349|0.0025
82561947|NCT01029704|164833129|SUPERIORITY||Difference of LS Means|-1.037||||0.0269|TWO_SIDED|95.0|-1.952|-0.122||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.122|-1.952|0.0269
82561948|NCT01029704|164833129|SUPERIORITY||Difference of LS Means|-2.054|||<|0.0001|TWO_SIDED|95.0|-2.938|-1.17||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-1.170|-2.938|< 0.0001
82561949|NCT01029704|164833129|SUPERIORITY||Difference of LS Means|-1.172||||0.009|TWO_SIDED|95.0|-2.044|-0.301||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.301|-2.044|0.0090
82561950|NCT01029704|164833130|SUPERIORITY||Difference of LS Means|-0.353||||0.0281|TWO_SIDED|95.0|-0.668|-0.039||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.039|-0.668|0.0281
82475958|NCT00966875|164647009|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475959|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.247||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.247
82475960|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.315||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.315
82475961|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.006
82475962|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.042||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.042
82475963|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.055||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.055
82475964|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.365||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.365
82550436|NCT03637660|164803559|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.002|TWO_SIDED|90.0|-0.15|0.03||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|To assess the primary efficacy endpoint, the number and proportion of participants with a serological response by Month 6 and the 95% confidence interval were summarized overall and by treatment. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis for the primary objective was that the difference in proportion of participants with serological responses between the three-dose and one-dose groups was at least 10%||0.03|-0.15|0.002
82550437|NCT03637660|164803567|EQUIVALENCE|The alternative hypothesis was that the two treatment groups were unequal.|||||<|0.001||||||P-value was calculated based on 2-sided Pearson Chi-Square test. Difference in proportion was reported with the Wilson 95% CI|Chi-squared|||The number and proportion of participants who were compliant to the treatment, receiving all assigned doses within the assigned visit windows. The null hypothesis was no difference between two treatment groups.||||< 0.001
82550438|NCT03637660|164803569|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.05||||0.022|TWO_SIDED|90.0|-0.17|0.07||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) in HIV-infected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning|||The number and proportion of participants with serological response by month 6 among participants with HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.07|-0.17|0.022
82580467|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|64.5|||||TWO_SIDED|95.0|47.7|81.4|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||81.4|47.7|
82376925|NCT02952586|164460701|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.9199|TWO_SIDED|95.0|0.928|1.573||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.573|0.928|0.9199
82475965|NCT00966875|164647011|SUPERIORITY_OR_OTHER|||||||0.005||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.005
82475966|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.778||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.778
82475967|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.865||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.865
82475968|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.030
82475969|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.331||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.331
82475970|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.039||||||P-value is for Week 12..|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.039
82475971|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.292||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.292
82475972|NCT00966875|164647013|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.003
82475973|NCT00966875|164647015|SUPERIORITY_OR_OTHER|||||||0.09||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.090
82475974|NCT00966875|164647015|SUPERIORITY_OR_OTHER|||||||0.131||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.131
82475975|NCT00966875|164647015|SUPERIORITY_OR_OTHER|||||||0.008||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.008
82475976|NCT00966875|164647015|SUPERIORITY_OR_OTHER|||||||0.013||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.013
82475977|NCT00966875|164647015|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.010
82475978|NCT00966875|164647015|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475979|NCT00966875|164647015|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475980|NCT00966875|164647017|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475981|NCT00966875|164647017|SUPERIORITY_OR_OTHER|||||||0.012||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.012
82475982|NCT00966875|164647017|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82550439|NCT03637660|164803569|NON_INFERIORITY|The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.037|TWO_SIDED|90.0|-0.22|0.09||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning|||The number and proportion of participants with serological response by month 6 among participants without HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.09|-0.22|0.037
82650998|NCT00294723|165016798|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% confidence interval for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%.|Estimated treatment difference, LS Mean|-0.6|||<|0.0001||95.0|-0.83|-0.38||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.38|-0.83|<.0001
82561951|NCT01029704|164833130|SUPERIORITY||Difference of LS Means|-0.155||||0.3215|TWO_SIDED|95.0|-0.464|0.154||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||0.154|-0.464|0.3215
82561952|NCT01029704|164833130|SUPERIORITY||Difference of LS Means|-0.004||||0.9776|TWO_SIDED|95.0|-0.304|0.295||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||0.295|-0.304|0.9776
82376926|NCT02952586|164460702|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.9372|TWO_SIDED|95.0|0.927|1.849||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.849|0.927|0.9372
82475983|NCT00966875|164647017|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475984|NCT00966875|164647017|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82561953|NCT01029704|164833130|SUPERIORITY||Difference of LS Means|-0.344||||0.0242|TWO_SIDED|95.0|-0.642|-0.046||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||-0.046|-0.642|0.0242
82561954|NCT01029704|164833132|SUPERIORITY||Difference of LS Means|17.688||||0.1613|TWO_SIDED|95.0|-7.21|42.587||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||42.587|-7.210|0.1613
82475985|NCT00966875|164647017|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||<0.001
82475986|NCT00966875|164647017|SUPERIORITY_OR_OTHER|||||||0.001||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.001
82475987|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.013
82561955|NCT01029704|164833132|SUPERIORITY||Difference of LS Means|17.091||||0.2079|TWO_SIDED|95.0|-9.696|43.877||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||43.877|-9.696|0.2079
82561956|NCT01029704|164833132|SUPERIORITY||Difference of LS Means|24.379||||0.041|TWO_SIDED|95.0|1.028|47.731||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||47.731|1.028|0.0410
82561957|NCT01029704|164833132|SUPERIORITY||Difference of LS Means|20.749||||0.0862|TWO_SIDED|95.0|-3.019|44.518||P-values are from a two-sided test|ANCOVA|Analysis is based on ANCOVA with change from baseline as dependent variable and treatment as fixed effect and baseline and center as covariate.||||44.518|-3.019|0.0862
82561958|NCT00687297|164833135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||1||95.0|||||Fisher Exact|||Fisher's exact test with two-sided Type I error of 5% was used to test the null hypothesis of no difference in response rate between arms.||||1.00
82561959|NCT00687297|164833136|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.02|TWO_SIDED|95.0|1.07|2.07||p-value from Wald test|Regression, Cox|The model was adjusted for gender (male vs. female) and stage (Stage IIIB vs. Stage IV/Recurrent)||There was 80% power to detect a 50% improvement in median progression-free survival, using a stratified log-rank test with one-sided Type I error of 10%.||2.07|1.07|0.02
82561960|NCT03845517|164833137|SUPERIORITY||Risk Difference (RD)|-7.5||||0.8076|TWO_SIDED|95.0|-24.5|9.5||One sided p-value.|Cochran-Mantel-Haenszel|||||9.5|-24.5|0.8076
82561961|NCT03845517|164833137|SUPERIORITY||Risk Difference (RD)|5.2||||0.2189|TWO_SIDED|95.0|-7.9|18.3||One sided p-value.|Cochran-Mantel-Haenszel|||||18.3|-7.9|0.2189
82561962|NCT03845517|164833137|SUPERIORITY||Risk Difference (RD)|1.7||||0.401|TWO_SIDED|95.0|-11.8|15.3||One sided p-value.|Cochran-Mantel-Haenszel|||||15.3|-11.8|0.4010
82561963|NCT03845517|164833138|SUPERIORITY||Risk Difference (RD)|-2.1||||0.595|TWO_SIDED|95.0|-19.1|14.9||One sided p-value.|Cochran-Mantel-Haenszel|||||14.9|-19.1|0.5950
82561964|NCT03845517|164833138|SUPERIORITY||Risk Difference (RD)|8.6||||0.1125|TWO_SIDED|95.0|-5.3|22.6||One sided p-value.|Cochran-Mantel-Haenszel|||||22.6|-5.3|0.1125
82561965|NCT03845517|164833138|SUPERIORITY||Risk Difference (RD)|9.6||||0.0891|TWO_SIDED|95.0|-4.4|23.6||One sided p-value.|Cochran-Mantel-Haenszel|||||23.6|-4.4|0.0891
82561966|NCT01109979|164833159|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.04
82550440|NCT03637660|164803570|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.05||||0.002|TWO_SIDED|90.0|-0.14|0.04||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by Month 12 and the 95% confidence interval (CI) were summarized overall and by treatment. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.04|-0.14|0.002
82550441|NCT03637660|164803571|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.06||||0.011|TWO_SIDED|90.0|-0.18|0.05||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) in HIV-infected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) among HIV-infected participants by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by month 12 among participants with HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.05|-0.18|0.011
82376927|NCT02952586|164460704|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.9316|TWO_SIDED|95.0|0.93|1.694||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor (T) stage (\< T4 vs T4), Nodal (N) stage (N0 /N1/N2a/N2b vs N2c/N3), Human papillomavirus (HPV) status (Positive vs Negative).|Log Rank|||||1.694|0.930|0.9316
82475988|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.076|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.076
82475989|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.002
82475990|NCT00966875|164647019|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||<0.001
82475991|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for Week 12.|Fisher Exact|||||||0.002
82475992|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||P-value is for Week 12 LOCF.|Fisher Exact|||||||0.006
82475993|NCT00966875|164647019|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12.|Fisher Exact|||||||0.001
82475994|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.307||||||P-value is for Week 12.|ANCOVA|||||||0.307
82475995|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.104||||||P-value is for Week 12.|ANCOVA|||||||0.104
82475996|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.139||||||P-value is for Week 12.|ANCOVA|||||||0.139
82475997|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.056||||||P-value is for Week 12.|ANCOVA|||||||0.056
82475998|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|||||||0.048
82475999|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.16||||||P-value is for Week 12.|ANCOVA|||||||0.160
82476000|NCT00966875|164647021|SUPERIORITY_OR_OTHER|||||||0.029||||||P-value is for Week 12.|ANCOVA|||||||0.029
82476001|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.272||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.272
82476002|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.962||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.962
82561967|NCT02580799|164833168|SUPERIORITY_OR_OTHER||||||=|0.137|TWO_SIDED||||||Chi-squared|||Site A: Site B variability assessment||||=0.137
82561968|NCT02580799|164833168|SUPERIORITY_OR_OTHER||||||=|0.454|TWO_SIDED||||||Chi-squared|||Site A: Site C variability assessment||||=0.454
82561969|NCT02580799|164833168|SUPERIORITY_OR_OTHER||||||=|0.211|TWO_SIDED||||||Chi-squared|||Site A: Site D variability assessment||||=0.211
82476003|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.236||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.236
82476004|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.316||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.316
82476005|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.138||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.138
82476006|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.975||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.975
82476007|NCT00966875|164647023|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.079
82476008|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.982||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.982
82476009|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.276||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.276
82476010|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.05||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.050
82476011|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.01||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.010
82476012|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.046||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.046
82476013|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.017||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.017
82476014|NCT00966875|164647025|SUPERIORITY_OR_OTHER|||||||0.066||||||P-value is for Week 12.|ANCOVA|ANCOVA adjusted for treatment and baseline value.||||||0.066
82550442|NCT03637660|164803571|NON_INFERIORITY|The alternative hypothesis was that the difference in response rates was less than 10%. The noninferiority margin is defined as 10%. It can be assessed by comparing the margin (10%) to the upper limit of the 2-sided 90% CI for the difference in proportions.|Difference of proportion of participants|-0.03||||0.064|TWO_SIDED|90.0|-0.18|0.11||P-value and 2-sided 90% CI are calculated based on the noninferiority analysis for the proportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|Farrington-Manning||The 2-sided 90% CI are calculated based on the noninferiority analysis for the -sproportion difference (one-dose group is non-inferior to three-dose group) among HIV-uninfected participants by Farrington-Manning method with a 10% margin.|The number and proportion of participants with a serological response by month 12 amont participants without HIV infection and the 95% confidence interval (CI) were summarized overall and by treatment status. The Farrington-Manning test at the 5% one-sided level of significance was used to test the noninferiority hypothesis. The null hypothesis was that the difference in serological response rate between the three-dose and one-dose groups was at least 10%.||0.11|-0.18|0.064
82550443|NCT03097549|164803615|SUPERIORITY||Estimated difference|-3.1||||0.001|TWO_SIDED|95.0|-4.8|-1.3|||Mixed Models Analysis|||Comparison of mean scores using a linear mixed model, incorporating baseline data and accounting for all available data. Sample size calculation: We anticipated ICIQ-UI SF improvements of 2.5 points in the treatment group and 0.9 points in the information group. Detecting this difference with 80% power, a two-sided test, and a significance level of P\<.05 would require a sample size of 49 in each group. With an expected drop-out rate of 20%, we needed approximately 60 participants in each group.||-1.3|-4.8|0.001
82550444|NCT03097549|164803616|SUPERIORITY||Estimated difference|-6.3||||0.004|TWO_SIDED|95.0|-10.5|-2.1|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-2.1|-10.5|0.004
82550445|NCT03097549|164803617|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: There is no difference in the number of urinary leakage episodes between the treatment app users and the information app users at follow-up.~ITT analysis. Missing data: 5 participants in the treatment group and 2 participants in the information group had a missing value at follow-up, and for those, the difference was set to 0 (ie, no change)."||||<0.001
82550446|NCT03097549|164803618|SUPERIORITY||Estimated difference|-1.8|||<|0.001|TWO_SIDED|95.0|-2.8|-0.9|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-0.9|-2.8|<0.001
82550447|NCT03097549|164803619|SUPERIORITY||Estimated difference|-1.6||||0.016|TWO_SIDED|95.0|-2.8|-0.3|||Mixed Models Analysis|||Null hypothesis: There is no difference in score between the treatment group and the information group at follow-up.||-0.3|-2.8|0.016
82550448|NCT03097549|164803620|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: no difference in usage between treatment group and information group at follow-up.||||0.01
82550449|NCT03097549|164803621|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: No difference in improvement between the treatment group and the information group att follow-up.||||<0.001
82550450|NCT06132867|164803627|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90 percent (%) confidence intervals (CIs) were calculated using the exponentiation of the difference between treatment least square means (LSM) from the analyses on the natural log-transformed of Cmax.|Geometric Mean Ratio (GMR) (%)|92.2|||||TWO_SIDED|90.0|86.98|97.74|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||97.74|86.98|
82550451|NCT06132867|164803628|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90% CIs were calculated using the exponentiation of the difference between treatment LSM from the analyses on the natural log-transformed of AUClast.|GMR (%)|96.0|||||TWO_SIDED|90.0|88.48|104.16|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||104.16|88.48|
82550452|NCT06132867|164803629|OTHER|A linear mixed-effects analysis of variance model was used for the analysis. The model included sequence, treatment, and period as fixed effects and participants nested within sequence as a random effect. Geometric mean ratios and 90% CIs were calculated using the exponentiation of the difference between treatment LSM from the analyses on the natural log-transformed of AUCinf.|GMR (%)|95.84|||||TWO_SIDED|90.0|88.81|103.42|||||GMR (%) was calculated as 100\*(Treatment A/Treatment B).|||103.42|88.81|
82550453|NCT05875142|164803669|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0008|||||||t-test, 1 sided|||T compared with TM||||0.0008
82550454|NCT05875142|164803669|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||5.03e-06|||||||t-test, 1 sided|||T compared with TMC.||||0.00000503
82550455|NCT05875142|164803670|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0176|||||||t-test, 1 sided|||T compared with T||||0.0176
82550456|NCT05875142|164803670|NON_INFERIORITY|test of non-inferiority is H0: control\>=treatment vs HA: control\<treatment||||||0.0056|||||||t-test, 1 sided|||Comparing T with TMC.||||0.0056
82550457|NCT05875142|164803671|NON_INFERIORITY|test of non-inferiority is H0: control\<=treatment vs HA: control\>treatment||||||0.4066|||||||t-test, 1 sided|||T compared with TM||||0.4066
82550458|NCT05875142|164803671|NON_INFERIORITY|test of non-inferiority is H0: control\<=treatment vs HA: control\>treatment||||||0.4045|||||||t-test, 1 sided|||T compared with TMC||||0.4045
82550459|NCT03891667|164803733|SUPERIORITY||Odds Ratio (OR)|4.0|||||TWO_SIDED|95.0|0.21|75.66||||||||75.66|.21|
82550460|NCT03891667|164803734|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.05|9.47||||||||9.47|0.05|
82550461|NCT05717907|164803761|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.000
82550462|NCT05908344|164803766|OTHER|Effect size determination|Cohen's d|-0.24|||||TWO_SIDED|||||||||Comparison for NREM1 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design||||
82550463|NCT05908344|164803766|OTHER|Effect size determination|Cohen's d|-0.15|||||TWO_SIDED|||||||||Comparison for NREM2 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550464|NCT05908344|164803766|OTHER|Effect size determination|Cohen's d|0.69|||||TWO_SIDED|||||||||Comparison for NREM3 minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550465|NCT05908344|164803766|OTHER|Effect size determination|Cohen's d|-0.82|||||TWO_SIDED|||||||||Comparison for REM minutes. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550466|NCT05908344|164803767|OTHER|Effect size determination|Cohen's d|-0.04|||||TWO_SIDED|||||||||Comparison for NREM1 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550467|NCT05908344|164803767|OTHER|Effect size determination|Cohen's d|0.24|||||TWO_SIDED|||||||||Comparison for NREM2 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550468|NCT05908344|164803767|OTHER|Effect size determination|Cohen's d|0.8|||||TWO_SIDED|||||||||Comparison for NREM3 percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550469|NCT05908344|164803767|OTHER|Effect size determination|Cohen's d|-0.78|||||TWO_SIDED|||||||||Comparison for REM percentage. Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550470|NCT05908344|164803768|OTHER|Effect size determination|Cohen's d|0.11|||||TWO_SIDED|||||||||Group Selection refers to study device Condition (Active/Sham); repeated-measures design.||||
82550471|NCT04717492|164803779|OTHER||Cox Proportional Hazard|1.01||||0.962|TWO_SIDED|95.0|0.66|1.54||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to death, or first hospitalization or revascularization event was analyzed using cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.54|0.66|0.962
82550472|NCT04717492|164803781|OTHER||Cox Proportional Hazard|1.11||||0.694|TWO_SIDED|95.0|0.65|1.92||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to CVD-related death or hospitalization/revascularization was analyzed using cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.92|0.65|0.694
82550473|NCT04717492|164803783|OTHER||Cox Proportional Hazard|0.75||||0.476|TWO_SIDED|95.0|0.34|1.66||No adjustments for multiplicity were performed.|Regression, Cox|Cox proportional hazard model with inverse probability of treatment weighting as described in primary manuscript.||Time to respiratory/COPD-related death or hospitalization was analyzed using Cox proportional hazards models with inverse probability of treatment weighting (IPTW) to reduce confounding. Missing data were imputed using multivariate imputation by chained equations with predictive mean matching.||1.66|0.34|0.476
82550474|NCT03736720|164803820|OTHER|No statistical test.|Proportion|0.091|||||TWO_SIDED|80.0|0.033|0.301|||||Estimated using Jeffrey's prior method.|||0.301|0.033|
82550475|NCT03736720|164803826|SUPERIORITY|||||||0.289|||||||Sign test|two-sided test.||Comparing the pre-treatment and end of treatment QoL scores.||||0.289
82476015|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.538||||||P-value is for Week 12.|Fisher Exact|||||||0.538
82550476|NCT05409183|164803828|OTHER||LS Mean of Treatment Difference|26.473|STANDARD_ERROR_OF_MEAN|9.216||0.0032|TWO_SIDED|95.0|7.847|45.099|||ANCOVA|||||45.099|7.847|0.0032
82550477|NCT03241459|164803840|NON_INFERIORITY|15.0% is the absolute noninferiority margin (50% of the difference in primary patency rate between IN.PACT Admiral DCB and PTA).|Difference in percentage|-3.7||||0.0029|ONE_SIDED|97.5|-11.7|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 15% and a one-sided significance level of 0.025.|Farrington-Manning test||For subjects missing primary effectiveness endpoint status, a logistic regression model was used for multiple imputation with pre-specified baseline variables as model predictors.|The SurVeil DCB will be declared noninferior to IN.PACT Admiral DCB with respect to efficacy endpoint if the null hypothesis of inferiority is rejected at a one-sided significance level of 0.025.|||-11.7|0.0029
82550478|NCT03241459|164803841|NON_INFERIORITY|10.0% is the absolute noninferiority margin (50% of the difference in primary safety endpoint rate between IN.PACT Admiral DCB and PTA).|Difference in percentage|2.0|||<|0.0001|ONE_SIDED|97.5|-4.1|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 10% and a one-sided significance level of 0.025.|Farrington-Manning test||For subjects missing primary safety endpoint status, a logistic regression model was used for multiple imputation with pre-specified baseline variables as model predictors.|The SurVeil DCB will be declared noninferior to IN.PACT Admiral DCB with respect to safety endpoint if the null hypothesis of inferiority is rejected at a one-sided significance level of 0.025.|||-4.1|<.0001
82561970|NCT02580799|164833168|SUPERIORITY_OR_OTHER||||||=|0.294|TWO_SIDED||||||Chi-squared|||Site A: Site E variability assessment||||=0.294
82561971|NCT02580799|164833170|SUPERIORITY_OR_OTHER||||||=|0.054|TWO_SIDED||||||Chi-squared|||Site B: Site C variability assessment||||=0.054
82561972|NCT02580799|164833170|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Chi-squared|||Site B: Site D variability assessment||||=1.000
82561973|NCT02580799|164833170|SUPERIORITY_OR_OTHER||||||=|0.968|TWO_SIDED||||||Chi-squared|||Site B: Site E variability assessment||||=0.968
82561974|NCT02580799|164833183|SUPERIORITY_OR_OTHER||||||=|0.246|TWO_SIDED||||||Chi-squared|||Site C: Site D variability assessment||||=0.246
82561975|NCT02580799|164833183|SUPERIORITY_OR_OTHER||||||=|0.032|TWO_SIDED||||||Chi-squared|||Site C: Site E variability assessment||||=0.032
82561976|NCT02580799|164833183|SUPERIORITY_OR_OTHER||||||=|0.007|TWO_SIDED||||||Chi-squared|||Site D: Site E variability assessment||||=0.007
82561977|NCT02580799|164833185|SUPERIORITY_OR_OTHER||||||=|0.988|TWO_SIDED||||||Chi-squared|||Abroad: Site A variability assessment||||=0.988
82561978|NCT02580799|164833185|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Chi-squared|||Abroad: Site B variability assessment||||=0.008
82561979|NCT02580799|164833185|SUPERIORITY_OR_OTHER||||||=|0.031|TWO_SIDED||||||Chi-squared|||Abroad: Site C variability assessment||||=0.031
82561980|NCT02580799|164833185|SUPERIORITY_OR_OTHER||||||=|0.554|TWO_SIDED||||||Chi-squared|||Abroad: Site D variability assessment||||=0.554
82561981|NCT02580799|164833185|SUPERIORITY_OR_OTHER||||||=|0.709|TWO_SIDED||||||Chi-squared|||Abroad: Site E variability assessment||||=0.709
82476016|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.515||||||P-value is for Week 12.|Fisher Exact|||||||0.515
82476017|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.03||||||P-value is for Week 12.|Fisher Exact|||||||0.030
82650999|NCT00294723|165016798|NON_INFERIORITY_OR_EQUIVALENCE|The two sided 95% CI for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete confidence interval was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.31||||0.0076||95.0|-0.54|-0.08||"The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity.~2-sided significance level 5%"|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.08|-0.54|0.0076
82476018|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.053||||||P-value is for Week 12.|Fisher Exact|||||||0.053
82476019|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.393||||||P-value is for Week 12.|Fisher Exact|||||||0.393
82476020|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.077||||||P-value is for Week 12.|Fisher Exact|||||||0.077
82476021|NCT00966875|164647027|SUPERIORITY_OR_OTHER|||||||0.105||||||P-value is for Week 12.|Fisher Exact|||||||0.105
82550479|NCT03241459|164803842|SUPERIORITY|||||||0.579|TWO_SIDED|95.0||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||The incidence estimates will be reported along with a p-value from a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||0.579
82550480|NCT03241459|164803843|SUPERIORITY|||||||1||||||Both arms demonstrated 100% success, therefore, Fisher's exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||The incidence estimates will be reported along with a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||1.00
82550481|NCT03241459|164803844|SUPERIORITY|||||||1||||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||The incidence estimates will be reported along with a two-sided Fisher's exact test comparing the SurVeil and the IN.PACT Admiral groups.||||1.000
82550482|NCT03241459|164803845|SUPERIORITY|||||||0.494||||||P-value is derived from two-sided Fisher's exact test.|Fisher Exact|||||||0.494
82550483|NCT03241459|164803846|NON_INFERIORITY|The Farrington and Manning test for noninferiority of proportions at a one-sided significance level of 0.025.|Difference in percentage|-1.9||||0.0059|ONE_SIDED|97.5|-12.1|||P-value is derived from one-sided Farrington-Manning test with noninferiority margin of 15% and a one-sided significance level of 0.025.|Farrington-Manning test|||The objective is to assess whether the primary patency rate of subjects in the SurVeil DCB group is noninferior to that of the IN.PACT Admiral DCB group:|||-12.1|0.0059
82550484|NCT03241459|164803847|SUPERIORITY|Target Vessel Patency for SurVeil DCB vs. Target Vessel Patency for IN.PACT DCB at 12 months.||||||0.699||||||12-Month P-Value|Fisher Exact|||The main analysis of the secondary endpoints will be carried out using the ITT analysis set.||||0.699
82550485|NCT03241459|164803847|SUPERIORITY|Target Vessel Patency for SurVeil DCB vs. Target Vessel Patency for IN.PACT DCB at 24 months.||||||1||||||24-Month P-Value|Fisher Exact|||The main analysis of the secondary endpoints will be carried out using the ITT analysis set.||||1.0
82550486|NCT03241459|164803848|SUPERIORITY|||||||0.699|TWO_SIDED|95.0||||6-Month P-Value|Fisher Exact|||||||0.699
82550487|NCT03241459|164803848|SUPERIORITY|||||||0.447||||||12-Month P-Value|Fisher Exact|||||||0.447
82550488|NCT03241459|164803848|SUPERIORITY|||||||0.589||||||24-Month P-Value|Fisher Exact|||||||0.589
82550489|NCT03241459|164803849|SUPERIORITY|||||||1||||||P-Value at 6-Months|Fisher Exact|||||||1.0
82550490|NCT03241459|164803849|SUPERIORITY|||||||0.823||||||P-Value at 12-Months|Fisher Exact|||||||0.823
82550491|NCT03241459|164803849|SUPERIORITY|||||||0.454||||||P-Value at 24-Months|Fisher Exact|||||||0.454
82550492|NCT03241459|164803850|SUPERIORITY|||||||0.535||||||P-Value at 6-Months|Fisher Exact|||||||0.535
82550493|NCT03241459|164803850|SUPERIORITY|||||||0.86||||||P-Value at 12-Months|Fisher Exact|||||||0.860
82550494|NCT03241459|164803850|SUPERIORITY|||||||0.39||||||P-Value at 24-Months|Fisher Exact|||||||0.390
82550495|NCT03241459|164803851|SUPERIORITY|||||||1||||||Both arms demonstrated 0 amputations at 6 months. Fisher's Exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||||||1.00
82550496|NCT03241459|164803851|SUPERIORITY|||||||1||||||Both arms demonstrated 0 amputations at 12 months. Fisher's Exact test does not provide a p-value, but we populated it with a p-value of 1.00 to indicate no difference between arms.|Fisher Exact|||||||1.00
82550497|NCT03241459|164803851|SUPERIORITY|||||||1||||||P-Value at 24-Months|Fisher Exact|||||||1.0
82550498|NCT03241459|164803852|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82550499|NCT03241459|164803852|SUPERIORITY|||||||0.472||||||P-Value at 24-Months|Fisher Exact|||||||0.472
82550500|NCT03241459|164803853|SUPERIORITY|||||||0.193||||||P-Value for change in Rutherford Classification from BL to 1-Month|Wilcoxon (Mann-Whitney)|||||||0.193
82550501|NCT03241459|164803853|SUPERIORITY|||||||0.14||||||P-Value for change in Rutherford Classification from BL to 6-Months|Wilcoxon (Mann-Whitney)|||||||0.140
82550502|NCT03241459|164803853|SUPERIORITY|||||||0.372||||||P-Value for change in Rutherford Classification from BL to 12-Months|Wilcoxon (Mann-Whitney)|||||||0.372
82550503|NCT03241459|164803853|SUPERIORITY|||||||0.104||||||P-Value for change in Rutherford Classification from BL to 24-Months|Wilcoxon (Mann-Whitney)|||||||0.104
82550504|NCT03241459|164803854|SUPERIORITY|||||||0.32||||||P-Value for change in PARC from BL to 1-Month|Wilcoxon (Mann-Whitney)|||||||0.320
82550505|NCT03241459|164803854|SUPERIORITY|||||||0.132||||||P-Value for change in PARC from BL to 6-Months|Wilcoxon (Mann-Whitney)|||||||0.132
82550506|NCT03241459|164803854|SUPERIORITY|||||||0.248||||||P-Value for change in PARC from BL to 12-Months|Wilcoxon (Mann-Whitney)|||||||0.248
82550507|NCT03241459|164803854|SUPERIORITY|||||||0.194||||||P-Value for change in PARC from BL to 24-Months|Wilcoxon (Mann-Whitney)|||||||0.194
82550508|NCT03241459|164803855|SUPERIORITY|||||||0.789||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 6-Months|Fisher Exact|||||||0.789
82550509|NCT03241459|164803855|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82550510|NCT03241459|164803855|SUPERIORITY|||||||0.041||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 12-Months.|Fisher Exact|||||||0.041
82550511|NCT03241459|164803855|SUPERIORITY|||||||1||||||P-Value for Decrease in Resting Target Limb TBI ≥0.15: BL to 12-Months.|Fisher Exact|||||||1.0
82550512|NCT03241459|164803855|SUPERIORITY|||||||0.401||||||P-Value for Decrease in Resting Target Limb ABI ≥0.15: BL to 24-Months.|Fisher Exact|||||||0.401
82550513|NCT03241459|164803855|SUPERIORITY|||||||1||||||P-Value for Decrease in Resting Target Limb TBI ≥0.15: BL to 24-Months.|Fisher Exact|||||||1.0
82550514|NCT03241459|164803856|OTHER|||||||0.995||||||P-value for change in WIQ from BL to 1-Month: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.995
82550515|NCT03241459|164803856|SUPERIORITY|||||||0.158||||||P-value for change in WIQ from BL to 1-month: Walking distance score|Wilcoxon (Mann-Whitney)|||||||0.158
82550516|NCT03241459|164803856|SUPERIORITY|||||||0.695||||||P-value for change in WIQ from BL to 1-month: Walking speed score|Wilcoxon (Mann-Whitney)|||||||0.695
82550517|NCT03241459|164803856|SUPERIORITY|||||||0.086||||||P-value for change in WIQ from BL to 1-Month: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.086
82550518|NCT03241459|164803856|SUPERIORITY|||||||0.331||||||P-value for change in WIQ from BL to 12-Months: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.331
82550519|NCT03241459|164803856|SUPERIORITY|||||||0.58||||||P-value for change in WIQ from BL to 12-Months: Walking Distance Score|Wilcoxon (Mann-Whitney)|||||||0.580
82550520|NCT03241459|164803856|SUPERIORITY|||||||0.563||||||P-value for change in WIQ from BL to 12-Months: Walking Speed Score|Wilcoxon (Mann-Whitney)|||||||0.563
82550521|NCT03241459|164803856|SUPERIORITY|||||||0.27||||||P-value for change in WIQ from BL to 12-Months: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.270
82550522|NCT03241459|164803856|SUPERIORITY|||||||0.869||||||P-value for change in WIQ from BL to 24-Months: Walking Impairment Score|Wilcoxon (Mann-Whitney)|||||||0.869
82550523|NCT03241459|164803856|SUPERIORITY|||||||0.837||||||P-value for change in WIQ from BL to 24-Months: Walking Distance Score|Wilcoxon (Mann-Whitney)|||||||0.837
82550524|NCT03241459|164803856|SUPERIORITY|||||||0.674||||||P-value for change in WIQ for BL to 24-Months: Walking Speed Score|Wilcoxon (Mann-Whitney)|||||||0.674
82550525|NCT03241459|164803856|SUPERIORITY|||||||0.563||||||P-value for change in WIQ for BL to 24-Months: Stair Climbing Score|Wilcoxon (Mann-Whitney)|||||||0.563
82550526|NCT03241459|164803857|SUPERIORITY|||||||0.237||||||P-value for change in 6MWT from BL to 12-Months|t-test, 2 sided|||||||0.237
82550527|NCT03241459|164803857|SUPERIORITY|||||||0.04||||||P-value for change in 6MWT from BL to 24-Months|t-test, 2 sided|||||||0.040
82550528|NCT03241459|164803858|SUPERIORITY|||||||0.772||||||P-value for change in PAQ from BL to 1-Month: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.772
82550529|NCT03241459|164803858|SUPERIORITY|||||||0.93||||||P-value for change in PAQ from BL to 1-Month: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.930
82550530|NCT03241459|164803858|SUPERIORITY|||||||0.546||||||P-value for change in PAQ from BL to 1-Month: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.546
82550531|NCT03241459|164803858|SUPERIORITY|||||||0.621||||||P-value for change in PAQ from BL to 1-Month: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.621
82550532|NCT03241459|164803858|SUPERIORITY|||||||0.133||||||P-value for change in PAQ from BL to 1-Month: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.133
82550533|NCT03241459|164803858|SUPERIORITY|||||||0.592||||||P-value for change in PAQ from BL to 1-Month: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.592
82580468|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||79.5|6.2|
82550534|NCT03241459|164803858|SUPERIORITY|||||||0.601||||||P-value for change in PAQ from BL to 1-Month: Summary Score|Wilcoxon (Mann-Whitney)|||||||0.601
82550535|NCT03241459|164803858|SUPERIORITY|||||||0.185||||||P-value for change in PAQ from BL to 12-Months: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.185
82550536|NCT03241459|164803858|SUPERIORITY|||||||0.856||||||P-value for change in PAQ from BL to 12-Months: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.856
82550537|NCT03241459|164803858|SUPERIORITY|||||||0.541||||||P-value for change in PAQ from BL to 12-Months: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.541
82550538|NCT03241459|164803858|SUPERIORITY|||||||0.731||||||P-value for change in PAQ from BL to 12-Months: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.731
82550539|NCT03241459|164803858|SUPERIORITY|||||||0.696||||||P-value for change in PAQ from BL to 12-Months: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.696
82550540|NCT03241459|164803858|SUPERIORITY|||||||0.716||||||P-value for change in PAQ from BL to 12-Months: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.716
82550541|NCT03241459|164803858|SUPERIORITY|||||||0.797||||||P-value for change in PAQ from BL to 12-Months: Summary Score|Wilcoxon (Mann-Whitney)|||||||0.797
82550542|NCT03241459|164803858|SUPERIORITY|||||||0.29||||||P-value for change in PAQ from BL to 24-Months: Physical Function Score|Wilcoxon (Mann-Whitney)|||||||0.290
82550543|NCT03241459|164803858|SUPERIORITY|||||||0.473||||||P-value for change in PAQ from BL to 24-Months: Stability Score|Wilcoxon (Mann-Whitney)|||||||0.473
82550544|NCT03241459|164803858|SUPERIORITY|||||||0.278||||||P-value for change in PAQ from BL to 24-Months: Symptom Score|Wilcoxon (Mann-Whitney)|||||||0.278
82550545|NCT03241459|164803858|SUPERIORITY|||||||0.974||||||P-value for change in PAQ from BL to 24-Months: Treatment Satisfaction Score|Wilcoxon (Mann-Whitney)|||||||0.974
82550546|NCT03241459|164803858|SUPERIORITY|||||||0.266||||||P-value for change in PAQ from BL to 24-Months: Quality of Life Score|Wilcoxon (Mann-Whitney)|||||||0.266
82550547|NCT03241459|164803858|SUPERIORITY|||||||0.656||||||P-value for change in PAQ from BL to 24-Months: Social Limitation Score|Wilcoxon (Mann-Whitney)|||||||0.656
82550548|NCT03241459|164803858|SUPERIORITY|||||||0.959||||||P-value for change in PAQ from BL to 12-Months:Summary Score|Wilcoxon (Mann-Whitney)|||||||0.959
82550549|NCT03241459|164803859|SUPERIORITY|||||||1||||||P-Value at 36-Months|Fisher Exact|||||||1.0
82550550|NCT03241459|164803859|SUPERIORITY|||||||0.903||||||P-Value at 48-Months|Fisher Exact|||||||0.903
82550551|NCT03241459|164803859|SUPERIORITY|||||||1||||||P-Value at 60-Months|Fisher Exact|||||||1.0
82550552|NCT03241459|164803860|SUPERIORITY|||||||0.913|||||||Fisher Exact|P-Value at 36-Months||||||0.913
82550553|NCT03241459|164803860|SUPERIORITY|||||||1|||||||Fisher Exact|P-Value at 48-Months||||||1.0
82580469|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||77.8|46.5|
82550554|NCT03241459|164803860|SUPERIORITY|||||||0.839||||||P-Value at 60-Months|Fisher Exact|||||||0.839
82550555|NCT03241459|164803861|SUPERIORITY|||||||1||||||P-Value at 36-Months|Fisher Exact|||||||1.0
82550556|NCT03241459|164803861|SUPERIORITY|||||||0.5|||||||Fisher Exact|P-Value at 48-Months||||||0.5
82550557|NCT03241459|164803861|SUPERIORITY|||||||0.251|||||||Fisher Exact|P-Value at 60-Months||||||0.251
82550558|NCT03241459|164803862|SUPERIORITY|||||||0.478||||||P-Value at 36-Months|Fisher Exact|||||||0.478
82550559|NCT03241459|164803862|SUPERIORITY|||||||0.605||||||P-Value at 48-Months|Fisher Exact|||||||0.605
82550560|NCT03241459|164803862|SUPERIORITY|||||||0.345||||||P-Value at 60-Months|Fisher Exact|||||||0.345
82550561|NCT04114877|164803939|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
82550562|NCT04114877|164803940|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
82376928|NCT02952586|164460705|SUPERIORITY||Odds Ratio (OR)|0.947||||0.6229|TWO_SIDED|95.0|0.663|1.352||The treatment arms were compared using a stratified, 1-sided, Cochran-Mantel-Haenszel Test. The 3 stratification factors were tumor stage (\< T4 vs T4), Nodal stage (N0 /N1/N2a/N2b vs N2c/N3), HPV status (Positive vs Negative).|Cochran-Mantel-Haenszel|||||1.352|0.663|0.6229
82550563|NCT04114877|164803941|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
82550564|NCT04114877|164803942|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|Linear mixed models||||||>0.05
82550565|NCT04114877|164803943|SUPERIORITY|||||||0.455|||||||Fisher Exact|||||||0.455
82550566|NCT06321809|164803969|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses.||total scale score comparison||||0.24
82550567|NCT06321809|164803969|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.001
82550568|NCT06321809|164803969|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.03
82550569|NCT06321809|164803969|SUPERIORITY|||||||0.003|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||total scale score comparison||||0.003
82550570|NCT06321809|164803970|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||Weight comparison||||0.08
82550571|NCT06321809|164803971|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||BMI Comparison||||0.13
82550572|NCT06321809|164803972|SUPERIORITY|||||||0.63|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||Waist Circumference Comparison||||0.63
82550573|NCT06321809|164803973|SUPERIORITY|||||||0.89|||||||Kruskal-Wallis|A significance level of p\<0.05 was used for all analyses||LDL Cholesterol Comparison||||0.89
82550574|NCT01369355|164803984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.040
82550575|NCT01369355|164803984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.005
82550576|NCT01369355|164803985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.033
82550577|NCT01369355|164803985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.018
82550578|NCT01369355|164803986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by ustekinumab induction dose and the induction study.||||||0.189
82550579|NCT01369355|164803986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by ustekinumab induction dose and the induction study.||||||0.007
82550580|NCT01369355|164803987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.035
82550581|NCT01369355|164803987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission at Week 0, ustekinumab induction dose and the induction study.||||||0.004
82550582|NCT01369355|164803988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2 sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission status at Week 0 and ustekinumab induction dose.||||||0.140
82550583|NCT01369355|164803988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2 sided Cochran-Mantel-Haenszel chi-square test, stratified by clinical remission status at Week 0 and ustekinumab induction dose.||||||0.102
82550584|NCT02319759|164803997|SUPERIORITY||Percent difference|39.7|||<|0.001|TWO_SIDED|95.0|25.3|54.1|||Cochran-Mantel-Haenszel|||||54.1|25.3|<0.001
82550585|NCT02319759|164803998|SUPERIORITY||Percentage (%) Difference|66.1|||<|0.001|TWO_SIDED|95.0|53.8|78.4|||Cochran-Mantel-Haenszel|||||78.4|53.8|<0.001
82550586|NCT02319759|164803999|SUPERIORITY||Least Square Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.471|-0.148|||MMRM|MMRM stands for Mixed-effects Model Repeated Measures||||-0.148|-0.471|<0.001
82476022|NCT01589653|164647042|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be considered confirmed if the upper bound of the two-sided 95% CI was below or equal to 0.4% or equivalently when the p-value for the one-sided test of H0: D \> 0.4% against HA: D ≤ 0.4%, was less than or equal to 2.5%, where D is the mean treatment difference (subject-driven titration minus investigator-driven titration).|Treatment difference|-0.23|||<|0.001|TWO_SIDED|95.0|-0.54|0.08|||Regression, Linear|Analyses were adjusted for treatment, strata, country and baseline HbA1c||The null-hypothesis was tested against the alternative hypothesis of non-inferiority as given by: H0: D \> 0.4% against HA: D ≤ 0.4% where D is the mean treatment difference for change in HbA1c (subject-driven titration minus investigator-driven titration).||0.08|-0.54|<0.001
82550587|NCT06424236|164804041|SUPERIORITY||Least square (LS) mean|-0.1166|STANDARD_DEVIATION|0.29505||0.0117|TWO_SIDED|95.0|-0.206|-0.0272|||Mixed Model for Repeated Measures (MMRM)|||Week 52: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.0272|-0.2060|0.0117
82550588|NCT06424236|164804041|OTHER||LS mean|-0.4648|STANDARD_DEVIATION|0.46591|<|0.0001|TWO_SIDED|95.0|-0.5971|-0.3326|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.3326|-0.5971|<0.0001
82550589|NCT06424236|164804041|OTHER||LS mean|-0.7062|STANDARD_DEVIATION|0.43787|<|0.0001|TWO_SIDED|95.0|-0.8821|-0.5303|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline Composite \[11C\] PiB-PET SUVR score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-0.5303|-0.8821|<0.0001
82550590|NCT06424236|164804042|SUPERIORITY|Recurrent progression was defined as any progression which was either the first increase in CDR-SB above baseline or any progression above the highest preceding post-baseline value identified as a progression, where progression above the preceding value must be observed at 2 consecutive measurements unless the progression occurs at the last measurement.|Hazard Ratio (HR)|1.32||||0.4535|TWO_SIDED|95.0|0.64|2.7|||Regression, Cox|||The time to recurrent progression in CDR - sum of boxes. Baseline Asymptomatic Participants: Estimate and confidence interval was based on the Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. The OLE gantenerumab mITT analysis set included all participants in the OLE who met mITT criteria using OLE baseline as the baseline reference point.||2.70|0.64|0.4535
82550591|NCT06424236|164804042|OTHER|Recurrent progression was defined as any progression which was either the first increase in CDR-SB above baseline or any progression above the highest preceding post-baseline value identified as a progression, where progression above the preceding value must be observed at 2 consecutive measurements unless the progression occurs at the last measurement.|Hazard Ratio (HR)|1.18||||0.4848|TWO_SIDED|95.0|0.74|1.86|||Regression, Cox|||The time to recurrent progression in CDR - sum of boxes. Baseline Symptomatic Participants: Estimate and confidence interval was based on the Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. The OLE gantenerumab mITT analysis set included all participants in the OLE who met mITT criteria using OLE baseline as the baseline reference point.||1.86|0.74|0.4848
82550592|NCT06424236|164804043|OTHER||Hazard Ratio (HR)|0.93||||0.8855|TWO_SIDED|95.0|0.33|2.58|||Regression, Cox|||Time to first progression in CDR-Global score. Baseline Asymptomatic Participants: Estimate and confidence interval was based on Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. Time to first progression was defined as time from baseline to first visit where CDR-Global Score was greater than baseline value, where progression must be observed at 2 consecutive measurements unless progression occurs at last measurement.||2.58|0.33|0.8855
82550593|NCT06424236|164804043|OTHER||Hazard Ratio (HR)|0.72||||0.4497|TWO_SIDED|95.0|0.3|1.69|||Regression, Cox|||Time to first progression in CDR-Global score. Baseline Symptomatic Participants: Estimate and confidence interval was based on Cox proportional hazards regression model including treatment and baseline estimated years to symptom onset as fixed effects. Time to first progression was defined as time from baseline to first visit where CDR-Global Score was greater than baseline value, where progression must be observed at 2 consecutive measurements unless progression occurs at last measurement.||1.69|0.30|0.4497
82476023|NCT02386189|164647066|SUPERIORITY||Mean Difference (Net)|-4.65|STANDARD_DEVIATION|7.3||0.02|TWO_SIDED||||||t-test, 2 sided|||The t-test was conducted on change between baseline and 12-month follow-up.||||0.02
82476024|NCT02386189|164647067|SUPERIORITY||Mean Difference (Net)|2.91|STANDARD_DEVIATION|5.5||0.06|TWO_SIDED||||||t-test, 2 sided|||||||0.06
82476025|NCT02386189|164647068|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_DEVIATION|2.7||0.71|TWO_SIDED||||||t-test, 2 sided|||||||0.71
82476026|NCT02386189|164647069|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
82476027|NCT02386189|164647070|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_DEVIATION|0.15||0.75|TWO_SIDED||||||t-test, 2 sided|||||||0.75
82550594|NCT06424236|164804044|SUPERIORITY||LS mean|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.76|TWO_SIDED|95.0|-0.46|0.33|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with compound symmetry covariance matrix.||0.33|-0.46|0.760
82550595|NCT06424236|164804044|OTHER||LS mean|-1.21|STANDARD_ERROR_OF_MEAN|0.715||0.093|TWO_SIDED|95.0|-2.63|0.2|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.20|-2.63|0.093
82580470|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|63.2|||||TWO_SIDED|95.0|41.5|84.8|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||84.8|41.5|
82476028|NCT02386189|164647071|SUPERIORITY||Mean Difference (Final Values)|-3.6|STANDARD_DEVIATION|7.1||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
82476029|NCT02386189|164647072|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|8.9||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
82476030|NCT00606905|164647073|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37|||<|0.05|TWO_SIDED|95.0|0.41|4.61|||Chi-squared|||||4.61|0.41|<0.05
82476031|NCT04657666|164647074|SUPERIORITY||Combined least mean square difference|0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7152|TWO_SIDED|95.0|-0.16|0.23||Based on a combination of 300 linear mixed models for crossover data on the response variable change from baseline in LLMT-6 with period level LLMT-6 baseline covariate, treatment group, period, and sequence as fixed effects.|Mixed Models Analysis|Pattern mixture model (PMM) control-based imputation, mixed model repeated measures (MMRM)||||0.23|-0.16|0.7152
82476032|NCT03120351|164647094|SUPERIORITY||Mean Difference (Net)|-2.5||||0.28|TWO_SIDED|95.0|-7.11|2.06|||Mixed Models Analysis|||||2.06|-7.11|0.28
82476033|NCT04250077|164647108|SUPERIORITY||proportion|0.36923076|STANDARD_ERROR_OF_MEAN|0.16518156||0.02578184|TWO_SIDED|95.0|-0.0021812|0.64531855|||Agresti Caffo proportion comparison|||||0.64531855|-0.0021812|0.02578184
82476034|NCT04250077|164647109|SUPERIORITY||Mean Difference (Net)|20.0454545|STANDARD_ERROR_OF_MEAN|7.62386242||0.00787297|TWO_SIDED|95.0|4.18213496|35.9087741|||t-test, 1 sided|||||35.9087741|4.18213496|0.00787297
82476035|NCT04250077|164647110|SUPERIORITY||Mean Difference (Net)|-39.183333|STANDARD_ERROR_OF_MEAN|15.8274398||0.01387108|TWO_SIDED|95.0|-73.356073|-5.0105927|||t-test, 1 sided|||||-5.0105927|-73.356073|0.01387108
82476036|NCT04250077|164647111|SUPERIORITY||Mean Difference (Net)|8.43728901|STANDARD_ERROR_OF_MEAN|3.28323704||0.00908118|TWO_SIDED|95.0|1.59437702|15.280201|||t-test, 1 sided|||||15.2802010|1.59437702|0.00908118
82476037|NCT04250077|164647112|SUPERIORITY||Mean Difference (Net)|1.47698833|STANDARD_ERROR_OF_MEAN|3.68529034||0.34633293|TWO_SIDED|95.0|-6.1910435|9.14502026|||t-test, 1 sided|||||9.14502026|-6.1910435|0.34633293
82476038|NCT04250077|164647113|SUPERIORITY||Mean Difference (Final Values)|-0.4285714|STANDARD_ERROR_OF_MEAN|2.07315199||0.57872623|TWO_SIDED|95.0|-5.4078121|4.55066924|||t-test, 1 sided|||||4.55066924|-5.4078121|0.57872623
82476039|NCT04250077|164647114|SUPERIORITY||Median Difference (Net)|1.29230769|STANDARD_ERROR_OF_MEAN|0.81588207||0.06283641|TWO_SIDED|95.0|-0.3873203|2.97193574|||t-test, 1 sided|||||2.97193574|-0.3873203|0.06283641
82476040|NCT04250077|164647115|SUPERIORITY||proportion|0.11794871|STANDARD_ERROR_OF_MEAN|0.16796576||0.26422281|TWO_SIDED|95.0|-0.2233244|0.43508919|||Agresti Caffo proportion comparison|||||0.43508919|-0.2233244|0.26422281
82550596|NCT06424236|164804045|OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.989|TWO_SIDED|95.0|-0.43|0.44|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.44|-0.43|0.989
82476041|NCT03255629|164647127|OTHER|||||||0.103|||||||McNemar|||||||0.103
82476042|NCT03255629|164647128|OTHER|||||||0.18|||||||McNemar|||||||0.180
82476043|NCT03255629|164647130|OTHER|||||||0.317|||||||McNemar|||||||0.317
82476044|NCT03255629|164647131|OTHER|||||||0.008|||||||McNemar|||||||0.008
82476045|NCT03255629|164647132|OTHER|||||||0.083|||||||McNemar|||||||0.083
82476046|NCT03255629|164647133|OTHER|||||||0.025|||||||McNemar|||||||0.025
82476047|NCT03255629|164647135|OTHER|||||||0.049|||||||Mixed Models Analysis|Linear mixed effects models to account for correlation within subjects over time||||||0.049
82476048|NCT03255629|164647136|OTHER|||||||0.056|||||||Mixed Models Analysis|Linear mixed effects models to account for correlation within subjects over time||||||0.056
82476049|NCT03255629|164647137|OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82476050|NCT03255629|164647138|OTHER|||||||0.059|||||||Mixed Models Analysis|||||||0.059
82561982|NCT01137682|164833219|SUPERIORITY||Odds Ratio (OR)|16.63||||0.0006|TWO_SIDED|95.0|3.32||infinity||Regression, Logistic|An exact logistic regression model that adjusts for the randomization stratification factors was used to test the null hypothesis.|||||3.32|0.0006
82476051|NCT03255629|164647139|OTHER|||||||0.195|||||||Mixed Models Analysis|||||||0.195
82476052|NCT03255629|164647140|OTHER|||||||0.043|||||||Mixed Models Analysis|||||||0.043
82476053|NCT03255629|164647141|OTHER|||||||0.659|||||||Mixed Models Analysis|||||||0.659
82476054|NCT03255629|164647142|OTHER|||||||0.406|||||||Mixed Models Analysis|||||||0.406
82476055|NCT03255629|164647143|OTHER|||||||0.611|||||||Mixed Models Analysis|||||||0.611
82476056|NCT03255629|164647144|OTHER|||||||0.183|||||||Mixed Models Analysis|||||||0.183
82476057|NCT03255629|164647145|OTHER|||||||0.009|||||||Mixed Models Analysis|||||||0.009
82476058|NCT03255629|164647146|OTHER|||||||0.789|||||||Mixed Models Analysis|||||||0.789
82476059|NCT03255629|164647147|OTHER|||||||0.865|||||||McNemar|||||||0.865
82476060|NCT03255629|164647148|OTHER|||||||0.875|||||||McNemar|||||||0.875
82476061|NCT01086358|164647155|SUPERIORITY||Mean Difference (Final Values)|-1.71||||0.007|TWO_SIDED|95.0|-2.92|-0.49|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||-0.49|-2.92|0.007
82476062|NCT01086358|164647156|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.01|TWO_SIDED|95.0|-1.79|-0.27|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||-0.27|-1.79|0.010
82476063|NCT01086358|164647157|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.059|TWO_SIDED|95.0|-1.39|0.03|||Mixed Models Analysis|As noted above, results are adjusted for study period and treatment order.||Analysis is a superiority comparison based on the use of linear mixed effect model with subject as a random effect, with treatment as the primary fixed effect and including study period and treatment order as other fixed effects.||0.03|-1.39|0.059
82561983|NCT01137682|164833219|SUPERIORITY||Odds Ratio (OR)|23.03|||<|0.0001|TWO_SIDED|95.0|4.72||infinity||Regression, Logistic|An exact logistic regression model that adjusts for the randomization stratification factors was used to test the null hypothesis.|||||4.72|<0.0001
82476064|NCT01086358|164647158|SUPERIORITY||Odds Ratio (OR)|2.89||||0.016|TWO_SIDED|95.0|1.22|6.84|||Regression, Logistic|As noted above, results are adjusted for study period and treatment order.||Logistic regression models with generalized estimating equations were used. In these models, a logit link function was used for a favorable response (yes/no) with treatment as the primary fixed effect and including study period and treatment order as other fixed effects..||6.84|1.22|0.016
82476065|NCT03679754|164647181|OTHER||||||||||||||||||Subjects in the Expansion trial did not have biopsies analyzed for cellular responses.|||
82476066|NCT02259088|164647207|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.8|||<|0.001|TWO_SIDED|95.0|4.1|7.5|||Cochran-Mantel-Haenszel|One-sided p-value for treatment difference is derived from the two-sided stratified Cochran-Mantel-Haenszel test using the row means score statistics.|Estimated from ANOVA (stratified) model. Stratified analysis includes DME type (focal, diffuse, honeycomb and petaloid) and Baseline BCVA(≤ 60 letters and \> 60 letters) as factors.|||7.5|4.1|<0.001
82476067|NCT01818752|164647228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.906||||0.159|TWO_SIDED|95.0|0.746|1.101||The p-value boundary for PFS analysis was 0.02141.|Log Rank|Log-rank p-value (1-sided) stratified by ISS stage, choice of route of bortezomib administration, region and age.|The hazard ratio (Carfilzomib/Bortezomib) was estimated using a Cox proportional hazards model stratified by ISS stage, choice of route of bortezomib administration, region and age.|The inferential test associated with the primary analysis of PFS was assessed against an overall 1-sided significance level of α=0.025.||1.101|0.746|0.1590
82476068|NCT01818752|164647229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.211||||0.8934|TWO_SIDED|95.0|0.896|1.637||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Log Rank|Log-rank p-value (1-sided) stratified by ISS stage, choice of route of bortezomib administration, region and age.|The hazard ratio (Carfilzomib/Bortezomib) was estimated using a Cox proportional hazards model stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.637|0.896|0.8934
82476069|NCT01818752|164647230|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.412||||0.0218|TWO_SIDED|95.0|1.01|1.973||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-square test stratified by ISS stage, choice of route of bortezomib administration, region and age.|Odds ratio (Carfilzomib/Bortezomib) was estimated using the Mantel-Haenszel method stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.973|1.010|0.0218
82476070|NCT01818752|164647231|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.179||||0.1388|TWO_SIDED|95.0|0.875|1.589||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Stratified Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel Chi-square test stratified by ISS stage, choice of route of bortezomib administration, region and age.|Odds ratio (Carfilzomib/Bortezomib) was estimated using the Mantel-Haenszel method stratified by ISS stage, choice of route of bortezomib administration, region and age.|||1.589|0.875|0.1388
82476071|NCT01818752|164647232|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.048|||<|0.0001|TWO_SIDED|95.0|0.026|0.088||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Pearson Chi-Square test||Unstratified odds ratio (Carfilzomib/Bortezomib) was estimated.|||0.088|0.026|< 0.0001
82476072|NCT01818752|164647233|SUPERIORITY_OR_OTHER||Least squares mean difference|4.99|STANDARD_ERROR_OF_MEAN|0.773|<|0.0001|TWO_SIDED|95.0|3.48|6.51||Based on the pre-specified multiplicity adjustment method, secondary endpoints were to be tested only if the results of the primary endpoint were significant. The p-values for all secondary endpoints are descriptive only.|Mixed Effects Model for Repeated Measure|||Treatment groups were compared using a linear mixed model for repeated measures (MMRM). The model included the fixed, categorical effects of treatment (all baseline responses were modeled with a dummy treatment), the randomization stratification factors - ISS stage, choice of route of bortezomib administration, region, age, and random effects of subject intercept and coefficient on time.||6.51|3.48|< 0.0001
82476073|NCT02745080|164647259|SUPERIORITY||Odds Ratio (OR)|1.3||||0.0719|TWO_SIDED|95.0|0.98|1.72|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.72|0.98|0.0719
82476074|NCT02745080|164647260|SUPERIORITY||Odds Ratio (OR)|2.49|||<|0.0001|TWO_SIDED|95.0|1.67|3.71|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||3.71|1.67|<0.0001
82550597|NCT06424236|164804045|OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.533||0.714|TWO_SIDED|95.0|-0.86|1.25|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||1.25|-0.86|0.714
82476075|NCT02745080|164647261|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2251|TWO_SIDED|95.0|0.9|1.55|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.55|0.90|0.2251
82476076|NCT02745080|164647262|SUPERIORITY||least squares (LS) mean change|-0.02|STANDARD_ERROR_OF_MEAN|0.038||0.5465|TWO_SIDED|95.0|-0.1|0.05|||Mixed Models Analysis||Mixed model repeated measures (MMRM) with treatment group, analysis visit as factors, weight/baseline score as covariates, treatment by analysis visit, baseline score by analysis visit as interation terms and unstructured covariance structure|||0.05|-0.10|0.5465
82476077|NCT02745080|164647263|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1498|TWO_SIDED|95.0|0.91|1.87|||Regression, Logistic||Odds ratio, 95% confidence interval, and p-value are from a logistic regression model with treatment as a factor and baseline weight as a covariate|||1.87|0.91|0.1498
82561984|NCT02791308|164833234|EQUIVALENCE|Proportion of Subjects with Treatment Success at Visit 4/Day 15|Other|0.407|||||TWO_SIDED|90.0|-15.57|3.53||||||Percentage of Subjects with Treatment Success at Visit 4/Day 15||3.53|-15.57|
82476078|NCT01001325|164647265|SUPERIORITY_OR_OTHER|||||||0.685||95.0|||||Fisher Exact|||"Null hypothesis: There is no difference in incidence of pandemic strain influenza infection for people given seasonal influenza vaccine compared to those given a placebo.~Power to detect a 2-fold difference if attack rate in non-vaccinated participants is 10%: 86%"||||0.685
82376929|NCT02952586|164460706|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.9061|TWO_SIDED|95.0|0.909|1.624||The treatment arms were compared using a stratified, 1-sided, log rank Test. The three stratification factors were tumor stage (\< T4 vs T4), Nodal stage (N0 /N1/N2a/N2b vs N2c/N3), HPV status (Positive vs Negative).|Log Rank|||||1.624|0.909|0.9061
82476079|NCT02758184|164647266|OTHER||Mean Difference (Final Values)|1031.2|STANDARD_ERROR_OF_MEAN|681.7||0.15|TWO_SIDED||||||ANOVA|||||||0.15
82476080|NCT03745820|164647294|SUPERIORITY||Least Squares (LS) Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.328|=|0.8472|TWO_SIDED|95.0|-2.88|2.37|||MMRM|||Mixed Model Repeated Measures(MMRM)model was used to analyze change from baseline of outcome measure(OM)using fixed effects of treatment group,region,study visit,study visit-by-treatment interaction,baseline value of OM,baseline-by-visit interaction.||2.37|-2.88|=0.8472
82550598|NCT06424236|164804046|OTHER||LS mean|-0.03|STANDARD_ERROR_OF_MEAN|0.077||0.738|TWO_SIDED|95.0|-0.18|0.13|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.13|-0.18|0.738
82550599|NCT06424236|164804046|OTHER||LS mean|0.19|STANDARD_ERROR_OF_MEAN|0.222||0.395|TWO_SIDED|95.0|-0.28|0.66|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.66|-0.28|0.395
82550600|NCT06424236|164804047|OTHER||LS mean|-2.176|STANDARD_DEVIATION|2.89551|<|0.0001|TWO_SIDED|95.0|-2.9469|-1.4051|||MMRM|||Week 56: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-1.4051|-2.9469|<0.0001
82550601|NCT06424236|164804047|OTHER||LS mean|-4.8434|STANDARD_DEVIATION|3.78771|<|0.0001|TWO_SIDED|95.0|-5.8609|-3.826|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-3.8260|-5.8609|<0.0001
82550602|NCT06424236|164804047|OTHER||LS mean|-5.762|STANDARD_DEVIATION|3.31129|<|0.0001|TWO_SIDED|95.0|-6.9679|-4.5561|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF pTau181 as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||-4.5561|-6.9679|<0.0001
82550603|NCT06424236|164804048|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.022||0.055|TWO_SIDED|95.0|0.0|0.09|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with variance components covariance matrix.||0.09|0.00|0.055
82550604|NCT06424236|164804048|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.034||0.188|TWO_SIDED|95.0|-0.02|0.11|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.11|-0.02|0.188
82550605|NCT06424236|164804049|OTHER||LS mean|0.0067|STANDARD_DEVIATION|0.0124||0.0001|TWO_SIDED|95.0|0.0034|0.01|||MMRM|||Week 52: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0100|0.0034|0.0001
82580471|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|56.0|||||TWO_SIDED|95.0|36.5|75.5|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||75.5|36.5|
82376930|NCT01931878|164460730|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||t-test, 2 sided|||comparison of mean RLS Scale scores between 21 incoA and 21 saline injections||||0.031
82376931|NCT01931878|164460731|SUPERIORITY_OR_OTHER|||||||0.0088|TWO_SIDED||||||Fisher Exact|||||||0.0088
82476081|NCT03745820|164647294|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.323|=|0.8053|TWO_SIDED|95.0|-2.94|2.29|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||2.29|-2.94|=0.8053
82550606|NCT06424236|164804049|OTHER||LS mean|0.0251|STANDARD_DEVIATION|0.02262|<|0.0001|TWO_SIDED|95.0|0.0189|0.0312|||MMRM|||Week 104: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0312|0.0189|<0.0001
82580472|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|59.1|||||TWO_SIDED|95.0|44.6|73.6|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||73.6|44.6|
82580473|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|42.9|||||TWO_SIDED|95.0|6.2|79.5|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||79.5|6.2|
82476082|NCT03745820|164647298|SUPERIORITY||LS Mean Difference|3.43|STANDARD_ERROR_OF_MEAN|1.835|=|0.0637|TWO_SIDED|95.0|-0.2|7.06|||ANCOVA|||An analysis of covariance (ANCOVA) model was applied adjusting for treatment group and baseline value of the OM.||7.06|-0.20|=0.0637
82476083|NCT03745820|164647298|SUPERIORITY||LS Mean Difference|3.42|STANDARD_ERROR_OF_MEAN|1.844|=|0.0659|TWO_SIDED|95.0|-0.23|7.06|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||7.06|-0.23|=0.0659
82476084|NCT03745820|164647299|SUPERIORITY||LS Mean Difference|0.208|STANDARD_ERROR_OF_MEAN|0.09|=|0.6653|TWO_SIDED|95.0|-0.32|0.5|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||0.50|-0.32|=0.6653
82476085|NCT03745820|164647299|SUPERIORITY||LS Mean Difference|0.206|STANDARD_ERROR_OF_MEAN|0.1|=|0.614|TWO_SIDED|95.0|-0.3|0.51|||ANCOVA|||An ANCOVA model was applied adjusting for treatment group and baseline value of the OM.||0.51|-0.30|=0.6140
82476086|NCT03745820|164647300|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.033|=|0.2886|TWO_SIDED|95.0|-3.14|0.94|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.94|-3.14|=0.2886
82476087|NCT03745820|164647300|SUPERIORITY||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.032|=|0.6349|TWO_SIDED|95.0|-1.55|2.53|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||2.53|-1.55|=0.6349
82476088|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|1.345|=|0.7372|TWO_SIDED|95.0|-2.21|3.11||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Verbal Learning: Change From Baseline at Week 12||3.11|-2.21|=0.7372
82476089|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|1.346|=|0.6894|TWO_SIDED|95.0|-3.2|2.12||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Verbal Learning: Change From Baseline at Week 12||2.12|-3.20|=0.6894
82476090|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|1.162|=|0.0674|TWO_SIDED|95.0|-4.44|0.16||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Speed of Processing: Change From Baseline at Week 12||0.16|-4.44|=0.0674
82476091|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|1.161|=|0.7132|TWO_SIDED|95.0|-2.72|1.87||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Speed of Processing: Change From Baseline at Week 12||1.87|-2.72|=0.7132
82476092|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|1.203|=|0.9428|TWO_SIDED|95.0|-2.46|2.29||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Attention/Vigilance: Change From Baseline at Week 12||2.29|-2.46|=0.9428
82476093|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|0.93|STANDARD_ERROR_OF_MEAN|1.202|=|0.4425|TWO_SIDED|95.0|-1.45|3.3||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Attention/Vigilance: Change From Baseline at Week 12||3.30|-1.45|=0.4425
82476094|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-1.51|STANDARD_ERROR_OF_MEAN|1.597|=|0.3455|TWO_SIDED|95.0|-4.66|1.64||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Visual Learning: Change From Baseline at Week 12||1.64|-4.66|=0.3455
82476095|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|1.595|=|0.9686|TWO_SIDED|95.0|-3.09|3.21||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Visual Learning: Change From Baseline at Week 12||3.21|-3.09|=0.9686
82476096|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|1.18|STANDARD_ERROR_OF_MEAN|1.351|=|0.3832|TWO_SIDED|95.0|-1.49|3.85||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Social Cognition: Change From Baseline at Week 12||3.85|-1.49|=0.3832
82476097|NCT03745820|164647301|SUPERIORITY||LS Mean DIfference|1.07|STANDARD_ERROR_OF_MEAN|1.357|=|0.4297|TWO_SIDED|95.0|-1.61|3.75||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Social Cognition: Change From Baseline at Week 12||3.75|-1.61|=0.4297
82376932|NCT01931878|164460732|SUPERIORITY_OR_OTHER|||||||0.0855|TWO_SIDED||||||Fisher Exact|||||||0.0855
82476098|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|1.438|=|0.6245|TWO_SIDED|95.0|-3.55|2.14||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Reasoning and Problem Solving: Change From Baseline at Week 12||2.14|-3.55|=0.6245
82476099|NCT03745820|164647301|SUPERIORITY||LS Mean Difference|1.59|STANDARD_ERROR_OF_MEAN|1.436|=|0.2698|TWO_SIDED|95.0|-1.25|4.43||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Reasoning and Problem Solving: Change From Baseline at Week 12||4.43|-1.25|=0.2698
82476100|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.61|=|0.4654|TWO_SIDED|95.0|-1.65|0.76||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Positive Symptoms Subscale: Change From Baseline at Week 12||0.76|-1.65|=0.4654
82476101|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.608|=|0.5886|TWO_SIDED|95.0|-1.53|0.87||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Positive Symptoms Subscale: Change From Baseline at Week 12||0.87|-1.53|=0.5886
82476102|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.655|=|0.9079|TWO_SIDED|95.0|-1.37|1.22||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Negative Symptoms Subscale: Change From Baseline at Week 12||1.22|-1.37|=0.9079
82476103|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.65|=|0.4441|TWO_SIDED|95.0|-1.78|0.79||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Negative Symptoms Subscale: Change From Baseline at Week 12||0.79|-1.78|=0.4441
82476104|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.017|=|0.5537|TWO_SIDED|95.0|-5.18|2.79||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Total Score: Change From Baseline at Week 12||2.79|-5.18|=0.5537
82476105|NCT03745820|164647302|SUPERIORITY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|2.018|=|0.332|TWO_SIDED|95.0|-5.95|2.02||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.|MMRM|||Total Score: Change From Baseline at Week 12||2.02|-5.95|=0.3320
82476106|NCT03745820|164647303|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.128|=|0.8517|TWO_SIDED|95.0|-0.23|0.28|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.28|-0.23|=0.8517
82476107|NCT03745820|164647303|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.128|=|0.9952|TWO_SIDED|95.0|-0.25|0.25|||MMRM|||A MMRM model was used to analyze the change from baseline of the OM of interest, using fixed effects of treatment group, region, study visit, study visit-by-treatment interaction, baseline value of OM, baseline-by-visit interaction.||0.25|-0.25|=0.9952
82476108|NCT04075734|164647349|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.59
82476109|NCT04075734|164647349|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.003
82476110|NCT04075734|164647350|SUPERIORITY|||||||0.03|TWO_SIDED|95.0|||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.03
82476111|NCT04075734|164647351|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.07
82476112|NCT04075734|164647352|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.2
82476113|NCT04075734|164647353|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.006
82476114|NCT04075734|164647354|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.86
82476115|NCT04075734|164647355|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.14
82476116|NCT04075734|164647356|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of intervention over time.||||||0.02
82476117|NCT04075734|164647357|SUPERIORITY|||||||0.29|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.29
82476118|NCT04075734|164647358|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.13
82476119|NCT04075734|164647359|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.14
82476120|NCT04075734|164647360|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|A linear mixed model for repeat measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.03
82476121|NCT04075734|164647361|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.66
82476122|NCT04075734|164647362|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|A linear mixed model for repeated measures was used. The group x time interaction evaluated the effect of the intervention over time.||||||0.15
82476123|NCT01776307|164647384|OTHER|Descriptive analysis for investigational arms; no comparator analysis|||||||||||||||||The exact 95% confidence interval is based on the Clopper-Pearson method.|||
82476124|NCT01776307|164647385|OTHER|Estimates provided for investigational arms; no comparator analysis|||||||||||||||||Estimated from Kaplan Meier Curve|||
82476125|NCT01776307|164647386|OTHER|Estimates provided for investigational arms; no comparator analysis|||||||||||||||||Estimated from Kaplan Meier Curve|||
82476126|NCT01024309|164647400|SUPERIORITY_OR_OTHER|||||||0.04||||||Apriori level of significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum was used||||||.04
82476127|NCT01024309|164647401|SUPERIORITY_OR_OTHER|||||||0.08||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test||||||0.08
82476128|NCT01024309|164647402|SUPERIORITY_OR_OTHER|||||||0.04||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.04
82476129|NCT01024309|164647403|SUPERIORITY_OR_OTHER|||||||0.22||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.22
82476130|NCT01024309|164647404|SUPERIORITY_OR_OTHER|||||||0.0029||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||.0029
82476131|NCT01024309|164647405|SUPERIORITY_OR_OTHER|||||||0.13||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.13
82476132|NCT01024309|164647406|SUPERIORITY_OR_OTHER|||||||0.29||||||a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum||||||0.29
82476133|NCT01024309|164647407|SUPERIORITY_OR_OTHER|||||||0.23||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test was used||||||0.23
82476134|NCT01024309|164647408|SUPERIORITY_OR_OTHER|||||||0.49||||||the a priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|Wilcox Rank Sum Test||||||0.49
82476135|NCT03083990|164647428|EQUIVALENCE|Geometric mean ratio and its 90%CI are obtained after anti-logarithmic transformation.If 90% CI for the geometric mean ratio of AUC 0-t and AUC 0-∞ (trial/control) ranges between 0.8-1.25, then it is considered that IBI305 and Bevacizumab are bioequivalent.|Odds Ratio (OR)|0.9502|||>|0.05|TWO_SIDED|90.0|0.8921|1.012|||ANOVA|||||1.0120|0.8921|>0.05
82476136|NCT03083990|164647429|EQUIVALENCE|Geometric mean ratio and its 90%CI are obtained after anti-logarithmic transformation.If 90% CI for the geometric mean ratio of AUC 0-t and AUC 0-∞ (trial/control) ranges between 0.8-1.25, then it is considered that IBI305 and Bevacizumab are bioequivalent.|Odds Ratio (OR)|0.9483|||>|0.05|TWO_SIDED|90.0|0.8896|1.0108|||ANOVA|||||1.0108|0.8896|>0.05
82476137|NCT03083990|164647430|EQUIVALENCE||Odds Ratio (OR)|0.9749|||>|0.05|TWO_SIDED|90.0|0.9123|1.0418|||ANOVA|||||1.0418|0.9123|>0.05
82476138|NCT05871450|164647457|SUPERIORITY|||||||0.05|||||||Regression, Linear|||||||0.05
82476139|NCT00776919|164647476|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82476140|NCT00776919|164647476|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||Cochran-Mantel-Haenszel|||||||0.016
82476141|NCT00776919|164647476|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82476142|NCT00776919|164647477|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476143|NCT00776919|164647477|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.015
82476144|NCT00776919|164647477|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476145|NCT00776919|164647478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476146|NCT00776919|164647478|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.102
82476147|NCT00776919|164647478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476148|NCT00776919|164647479|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476149|NCT00776919|164647479|SUPERIORITY_OR_OTHER|||||||0.032||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||0.032
82476150|NCT00776919|164647479|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Based on an analysis of covariance (ANCOVA) with factors of treatment, center, and interaction of treatment-center. If the treatment-center interaction was not significant at the 0.1 level, this interaction was excluded from the ANCOVA model.|ANCOVA|||||||<0.001
82476151|NCT03116152|164647490|SUPERIORITY||Hazard Ratio (HR)|0.701||||0.032|TWO_SIDED|95.0|0.504|0.972|||Log Rank|||||0.972|0.504|0.032
82476152|NCT03116152|164647491|SUPERIORITY||Hazard Ratio (HR)|1.002||||0.979|TWO_SIDED|95.0|0.722|1.391|||Log Rank|||||1.391|0.722|0.979
82476153|NCT03116152|164647492|SUPERIORITY||Difference in Percentages|6.3|||||TWO_SIDED|95.0|-2.2|15.4||||||||15.4|-2.2|
82476154|NCT03116152|164647493|SUPERIORITY|||||||0.345|||||||Log Rank|||||||0.345
82476155|NCT00862641|164647495|SUPERIORITY_OR_OTHER|||||||0.1451||95.0|||||Cochran-Mantel-Haenszel|Analysis of treatment effect was based on the Cochran-Mantel Haenszel(CMH) test stratified by investigative site. Sites with \<15 subjects were pooled.||||||0.1451
82476156|NCT00862641|164647495|SUPERIORITY_OR_OTHER|||||||0.579||95.0|||||Cochran-Mantel-Haenszel|Analysis of treatment effect was based on the CMH test stratified by investigative site. Sites with less than 15 subjects were pooled.||||||0.5790
82476157|NCT00862641|164647498|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0029
82476158|NCT00862641|164647498|SUPERIORITY_OR_OTHER|||||||0.6189||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.6189
82580474|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|62.2|||||TWO_SIDED|95.0|46.5|77.8|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||77.8|46.5|
82476159|NCT00862641|164647499|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0015
82476160|NCT00862641|164647499|SUPERIORITY_OR_OTHER|||||||0.4385||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.4385
82476161|NCT00862641|164647500|SUPERIORITY_OR_OTHER|||||||0.0789||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0789
82476162|NCT00862641|164647500|SUPERIORITY_OR_OTHER|||||||0.0258||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0258
82476163|NCT00862641|164647501|SUPERIORITY_OR_OTHER|||||||0.2087||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.2087
82476164|NCT00862641|164647501|SUPERIORITY_OR_OTHER|||||||0.0289||95.0|||||ANCOVA|||P-value applies to 'Change at Hour 2'||||0.0289
82476165|NCT00862641|164647502|SUPERIORITY_OR_OTHER|||||||0.9904||95.0|||||ANCOVA|||"P-value applies to 'Change at Hour 2'~P-value based on ranked analysis of covariance with treatment and investigator site as main effects and baseline value as a covariate in the model."||||0.9904
82476166|NCT00862641|164647502|SUPERIORITY_OR_OTHER|||||||0.8085||95.0|||||ANCOVA|||"P-value applies to 'Change at Hour 2'~P-value based on ranked analysis of covariance with treatment and investigator site as main effects and baseline value as a covariate in the model."||||0.8085
82476167|NCT00711477|164647509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|90.0|0.5|0.9||||||||0.90|0.50|
82476168|NCT00711477|164647510|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.38|TWO_SIDED|95.0|-1.83|0.72|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.72|-1.83|0.380
82476169|NCT00711477|164647511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.744|TWO_SIDED|95.0|-2.87|2.07|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||2.07|-2.87|0.744
82476170|NCT00711477|164647512|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.64||||0.139|TWO_SIDED|95.0|-3.84|0.56|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.56|-3.84|0.139
82476171|NCT00711477|164647513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.094|TWO_SIDED|95.0|-2.96|0.24|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.24|-2.96|0.094
82476172|NCT00711477|164647514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.48||||0.102|TWO_SIDED|95.0|-5.48|0.51|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||0.51|-5.48|0.102
82476173|NCT00711477|164647515|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.4||||0.16||95.0|-22.7|3.89|||ANCOVA|Type III sums of squares from ANCOVA model: Treatment and Baseline||||3.89|-22.7|0.160
82476174|NCT00711477|164647516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|90.0|0.4|0.8||||||||0.80|0.40|
82476175|NCT00711477|164647517|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.75|||||TWO_SIDED|90.0|0.5|1.0||||||||1.00|0.50|
82476176|NCT00711477|164647518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||||TWO_SIDED|90.0|0.74|1.24||||||||1.24|0.74|
82476177|NCT00711477|164647519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||||TWO_SIDED|90.0|0.95|1.65||||||||1.65|0.95|
82476178|NCT00711477|164647520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||||TWO_SIDED|90.0|0.31|0.57||||||||0.57|0.31|
82476179|NCT01798849|164647523|OTHER||Difference in Least-square (LS) Means|-0.5||||0.732|TWO_SIDED|95.0|-3.42|2.43|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.43|-3.42|0.732
82476180|NCT01798849|164647523|OTHER||Difference in LS means|-0.94||||0.531|TWO_SIDED|95.0|-3.94|2.06|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.06|-3.94|0.531
82476181|NCT01798849|164647523|OTHER||Difference in LS Means|-2.88||||0.056|TWO_SIDED|95.0|-5.83|0.08|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.08|-5.83|0.056
82476182|NCT01798849|164647523|OTHER||Difference in LS means|-2.92||||0.063|TWO_SIDED|95.0|-6.0|0.17|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.17|-6.00|0.063
82476183|NCT01798849|164647523|OTHER||Difference in LS means|-4.89||||0.002|TWO_SIDED|95.0|-7.79|-1.99|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.99|-7.79|0.002
82476184|NCT01798849|164647523|OTHER||Difference in LS means|-5.31||||0.001|TWO_SIDED|95.0|-8.32|-2.31|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.31|-8.32|0.001
82476185|NCT01798849|164647523|OTHER||Difference in LS means|-5.61||||0.001|TWO_SIDED|95.0|-8.62|-2.6|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.60|-8.62|0.001
82476186|NCT01798849|164647523|OTHER||Difference in LS means|-7.56|||<|0.0001|TWO_SIDED|95.0|-10.5|-4.63|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.63|-10.50|<0.0001
82476187|NCT01798849|164647526|OTHER||Difference in LS means|-2.34||||0.165|TWO_SIDED|95.0|-5.7|1.02|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||1.02|-5.70|0.165
82580475|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|58.1|||||TWO_SIDED|95.0|43.4|72.9|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||72.9|43.4|
82580476|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||82.9|0.0|
82476188|NCT01798849|164647526|OTHER||Difference in LS means|-3.53||||0.038|TWO_SIDED|95.0|-6.86|-0.21|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.21|-6.86|0.038
82476189|NCT01798849|164647526|OTHER||Difference in LS means|-6.32||||0|TWO_SIDED|95.0|-9.55|-3.1|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.10|-9.55|0.000
82476190|NCT01798849|164647526|OTHER||Difference in LS means|-6.63|||<|0.0001|TWO_SIDED|95.0|-9.35|-3.92|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.92|-9.35|<0.0001
82476191|NCT01798849|164647527|OTHER||Difference in LS means|-2.67||||0.128|TWO_SIDED|95.0|-6.14|0.8|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.80|-6.14|0.128
82476192|NCT01798849|164647527|OTHER||Difference in LS means|-0.76||||0.305|TWO_SIDED|95.0|-2.24|0.72|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.72|-2.24|0.305
82476193|NCT01798849|164647527|OTHER||Difference in LS means|-2.03||||0.07|TWO_SIDED|95.0|-4.23|0.17|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.17|-4.23|0.070
82476194|NCT01798849|164647527|OTHER||Difference in LS means|-2.84||||0.036|TWO_SIDED|95.0|-5.48|-0.19|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.19|-5.48|0.036
82476195|NCT01798849|164647527|OTHER||Difference in LS means|-4.89|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.37|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.37|-6.40|<0.0001
82476196|NCT01798849|164647527|OTHER||Difference in LS means|-5.37|||<|0.0001|TWO_SIDED|95.0|-7.29|-3.46|||Mixed effects model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.46|-7.29|<0.0001
82476197|NCT01798849|164647527|OTHER||Difference in LS means|-5.68|||<|0.0001|TWO_SIDED|95.0|-6.7|-4.65|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.65|-6.70|<0.0001
82476198|NCT01798849|164647527|OTHER||Difference in LS means|-8.22|||<|0.0001|TWO_SIDED|95.0|-11.95|-4.5|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-4.50|-11.95|<0.0001
82476199|NCT01798849|164647528|OTHER||Difference in LS means|-1.77||||0.212|TWO_SIDED|95.0|-4.59|1.05|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||1.05|-4.59|0.212
82476200|NCT01798849|164647528|OTHER||Difference in LS means|3.32||||0.05|TWO_SIDED|95.0|0.0|6.64|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||6.64|0.00|0.050
82476201|NCT01798849|164647528|OTHER||Difference in LS means|2.48||||0.016|TWO_SIDED|95.0|0.49|4.47|||Mixed effect model||Difference in LS means = LS mean MK-8892 minus LS mean placebo|||4.47|0.49|0.016
82476202|NCT01798849|164647528|OTHER||Difference in LS means|5.21||||0.007|TWO_SIDED|95.0|1.51|8.92|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||8.92|1.51|0.007
82476203|NCT01798849|164647528|OTHER||Difference in LS means|7.06||||0.001|TWO_SIDED|95.0|3.03|11.1|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||11.10|3.03|0.001
82476204|NCT01798849|164647528|OTHER||Difference in LS means|6.62||||0.002|TWO_SIDED|95.0|2.54|10.71|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||10.71|2.54|0.002
82476205|NCT01798849|164647528|OTHER||Difference in LS means|8.11|||<|0.0001|TWO_SIDED|95.0|5.45|10.76|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||10.76|5.45|<0.0001
82476206|NCT01798849|164647528|OTHER||Difference in LS means|14.05|||<|0.0001|TWO_SIDED|95.0|10.54|17.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||17.57|10.54|<0.0001
82476207|NCT01798849|164647529|OTHER||Difference in LS means|-1.66||||0.202|TWO_SIDED|95.0|-4.24|0.93|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.93|-4.24|0.202
82476208|NCT01798849|164647529|OTHER||Difference in LS means|-2.23||||0.115|TWO_SIDED|95.0|-5.03|0.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.57|-5.03|0.115
82476209|NCT01798849|164647529|OTHER||Difference in LS means|-2.75||||0.043|TWO_SIDED|95.0|-5.4|-0.09|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.09|-5.40|0.043
82550607|NCT06424236|164804049|OTHER||LS mean|0.0357|STANDARD_DEVIATION|0.02467|<|0.0001|TWO_SIDED|95.0|0.0266|0.0447|||MMRM|||Week 156: Treatment group and visit were treated as categorical fixed effects factors and OLE baseline CSF Amyloid Beta1-42/40 score as continuous. An unstructured correlation pattern was used to estimate the variance-covariance of the within participant repeated measures. The Kenward-Roger method was used to estimate the denominator degrees of freedom.||0.0447|0.0266|<0.0001
82550608|NCT06424236|164804050|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.081||0.644|TWO_SIDED|95.0|-0.12|0.2|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Asymptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.20|-0.12|0.644
82651000|NCT00294723|165016798|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.29||||0.0129||95.0|-0.52|-0.06||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.52|0.0129
82476210|NCT01798849|164647529|OTHER||Difference in LS means|-0.19||||0.901|TWO_SIDED|95.0|-3.22|2.84|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.84|-3.22|0.901
82476211|NCT01798849|164647529|OTHER||Mixed effect model|-4.15||||0.002|TWO_SIDED|95.0|-6.74|-1.57|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|||-1.57|-6.74|0.002
82476212|NCT01798849|164647529|OTHER||Difference in LS means|-3.77||||0.008|TWO_SIDED|95.0|-6.48|-1.06|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.06|-6.48|0.008
82476213|NCT01798849|164647529|OTHER||Difference in LS means|-1.77||||0.201|TWO_SIDED|95.0|-4.51|0.98|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.98|-4.51|0.201
82476214|NCT01798849|164647529|OTHER||Difference in LS means|-4.74||||0.001|TWO_SIDED|95.0|-7.37|-2.11|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-2.11|-7.37|0.001
82476215|NCT01798849|164647530|OTHER||Difference in LS means|-2.53||||0.042|TWO_SIDED|95.0|-4.97|-0.1|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.10|-4.97|0.042
82476216|NCT01798849|164647530|OTHER||Difference in LS means|-3.29||||0.01|TWO_SIDED|95.0|-5.71|-0.88|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-0.88|-5.71|0.010
82476217|NCT01798849|164647530|OTHER||Difference in LS means|-6.42|||<|0.0001|TWO_SIDED|95.0|-8.94|-3.89|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-3.89|-8.94|<0.0001
82550609|NCT06424236|164804050|OTHER||LS mean|0.04|STANDARD_ERROR_OF_MEAN|0.111||0.745|TWO_SIDED|95.0|-0.18|0.26|||Linear Mixed Effects Model||Estimated value is the difference in the rate of change between the treatment group and control group.|Baseline Symptomatic Participants: The statistical model included time since baseline (years), treatment arm, an interaction between treatment and time. Time was considered as continuous. Random intercepts and slopes for each participant was included as random effects with an unstructured covariance matrix.||0.26|-0.18|0.745
82476218|NCT01798849|164647530|OTHER||Difference in LS means|-8.28|||<|0.0001|TWO_SIDED|95.0|-11.32|-5.25|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-5.25|-11.32|<0.0001
82476219|NCT01798849|164647531|OTHER||Difference in LS means|0.54||||0.638|TWO_SIDED|95.0|-1.8|2.87|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.87|-1.80|0.638
82476220|NCT01798849|164647531|OTHER||Difference in LS means|0.72||||0.616|TWO_SIDED|95.0|-2.2|3.63|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||3.63|-2.20|0.616
82476221|NCT01798849|164647531|OTHER||Difference in LS means|2.33||||0.041|TWO_SIDED|95.0|0.11|4.56|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||4.56|0.11|0.041
82476222|NCT01798849|164647531|OTHER||Difference in LS means|9.14|||<|0.0001|TWO_SIDED|95.0|6.98|11.3|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||11.30|6.98|<0.0001
82550610|NCT04213872|164804051|OTHER|||||||0.01|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogPCI 25.4 (14.2) 17.3 (10.5) \*-8.1 (3.7) .01~\*reduction in scores indicate improvement."||||.01
82476223|NCT01798849|164647532|OTHER||Difference in LS means|-0.65||||0.677|TWO_SIDED|95.0|-3.81|2.52|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.52|-3.81|0.677
82476224|NCT01798849|164647532|OTHER||Difference in LS means|-0.92||||0.554|TWO_SIDED|95.0|-4.08|2.24|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||2.24|-4.08|0.554
82476225|NCT01798849|164647532|OTHER||Difference in LS means|-2.29||||0.137|TWO_SIDED|95.0|-5.35|0.78|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||0.78|-5.35|0.137
82476226|NCT01798849|164647532|OTHER||Difference in LS means|-3.78||||0.006|TWO_SIDED|95.0|-6.37|-1.19|||Mixed effect model|Mixed effects model for each cohort containing fixed effects for Day 1 predose and treatment and a random effect for participant.|Difference in LS means = LS mean MK-8892 minus LS mean placebo|||-1.19|-6.37|0.006
82476227|NCT02448641|164647552|SUPERIORITY||Odds Ratio (OR)|1.33||||0.6743|TWO_SIDED|95.0|0.35|5.09||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with FMMS responder as outcome, treatment, visit, treatment-visit interaction, pooled site, Baseline FMMS and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||5.09|0.35|0.6743
82476228|NCT02448641|164647553|SUPERIORITY||Odds Ratio (OR)|0.43||||0.1|TWO_SIDED|95.0|0.15|1.18||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with mRS responder as outcome, treatment, visit, treatment-visit interaction, pooled site and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||1.18|0.15|0.1000
82476229|NCT02448641|164647556|SUPERIORITY||Mean Difference (Net)|-0.36||||0.7788|TWO_SIDED|95.0|-2.9|2.17||Combined SB623 vs. Sham at month 6 MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): -0.36 (1.283)|Statistical analysis: NeuroQOL score for the Upper Extremity Function (Represents Mean Change from Baseline in T-Scores at Month 6)||2.17|-2.90|0.7788
82476230|NCT02448641|164647556|SUPERIORITY||Mean Difference (Net)|0.58||||0.5347|TWO_SIDED|95.0|-1.26|2.43||Combined SB623 vs. Sham at month 6 MMRM: Mixed Model for Repeated Measures|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): 0.58 (0.934)|Statistical Analysis: NeuroQOL score for Lower Extremity Function (Represents Mean Change from Baseline in T-Scores at Month 6)||2.43|-1.26|0.5347
82476231|NCT02448641|164647558|SUPERIORITY||Mean Difference (Net)|1.2||||0.2959|TWO_SIDED|95.0|-1.1|3.6||MMRM: Mixed effect Model Repeat Measurement|Mixed Models Analysis|MMRM included treatment, visit, pooled site, corresponding Baseline sub-domain T-score, Baseline mRS score, and the treatment-by-visit interaction|LSMD (Least square mean difference) (SE): 1.2 (1.18)|"Change from Baseline at Month 6~Between-group Effect size is calculated as the LS mean difference divided by the model estimate of the pooled SD, obtained from the square root of the diagonal element, associated with the analysis visit summarized, from the covariance matrix."||3.6|-1.1|0.2959
82476232|NCT02448641|164647559|SUPERIORITY||Odds Ratio (OR)|1.36||||0.6854|TWO_SIDED|95.0|0.31|5.92||GLMM: Generalized Linear Mixed Model|Mixed Models Analysis|A GLMM with FMMS responder as outcome, treatment, visit, treatment-visit interaction, pooled site, Baseline FMMS and Baseline mRS scores as covariates||Combined SB623 Implant Vs Sham Surgery group at Month 6||5.92|0.31|0.6854
82476233|NCT02663934|164647596|SUPERIORITY||Mean Difference (Net)|0.15||||0.31|TWO_SIDED|95.0|0.05|0.25|||ANOVA|||||.25|.05|0.31
82476234|NCT02663934|164647597|SUPERIORITY||Mean Difference (Net)|1.42||||0.24|TWO_SIDED||||||ANOVA|||Change in Global CBF in EXS vs. SIS||||.24
82476235|NCT02663934|164647597|OTHER||Slope|0.41||||0.02|ONE_SIDED|95.0|||||Regression, Linear|||Change in Strength \& Change in Frontal Brain Volume in EXS||||.02
82476236|NCT02663934|164647597|OTHER||Slope|0.4||||0.02|ONE_SIDED|95.0|||||Regression, Linear|||Changes in Brain Volumes associated with changes Memory Performance in EXS||||0.02
82476237|NCT02663934|164647598|OTHER||Slope|0.47||||0.005|ONE_SIDED|95.0|||||Regression, Linear|||Increases in Time Spent in MVPA and Increased Learning Performance in EXS||||.005
82476238|NCT04556383|164647599|SUPERIORITY||Risk Difference (RD)|-2.6||||0.6694|TWO_SIDED|95.0|-15.2|10.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||10.2|-15.2|0.6694
82476239|NCT04556383|164647599|SUPERIORITY||Risk Difference (RD)|4.6||||0.4719|TWO_SIDED|95.0|-9.0|17.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||17.8|-9.0|0.4719
82476240|NCT04556383|164647601|SUPERIORITY||Risk Difference (RD)|-7.7||||0.3263|TWO_SIDED|95.0|-23.2|8.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||8.3|-23.2|0.3263
82476241|NCT04556383|164647601|SUPERIORITY||Risk Difference (RD)|10.2||||0.2002|TWO_SIDED|95.0|-6.1|25.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||25.8|-6.1|0.2002
82476242|NCT04556383|164647602|SUPERIORITY||Risk Difference (RD)|0.4||||0.9472|TWO_SIDED|95.0|-15.2|15.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||15.9|-15.2|0.9472
82476243|NCT04556383|164647602|SUPERIORITY||Risk Difference (RD)|6.8||||0.3685|TWO_SIDED|95.0|-9.3|22.4|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||22.4|-9.3|0.3685
82476244|NCT04556383|164647603|SUPERIORITY||Risk Difference (RD)|1.3||||0.8484|TWO_SIDED|95.0|-12.7|15.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||15.2|-12.7|0.8484
82476245|NCT04556383|164647603|SUPERIORITY||Risk Difference (RD)|8.2||||0.2392|TWO_SIDED|95.0|-6.4|22.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||22.3|-6.4|0.2392
82476246|NCT04556383|164647604|SUPERIORITY||Risk Difference (RD)|-1.2||||0.8493|TWO_SIDED|95.0|-14.8|12.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||12.5|-14.8|0.8493
82476247|NCT04556383|164647604|SUPERIORITY||Risk Difference (RD)|2.6||||0.6647|TWO_SIDED|95.0|-11.5|16.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||16.5|-11.5|0.6647
82476248|NCT04556383|164647605|SUPERIORITY||Risk Difference (RD)|-6.5||||0.2263|TWO_SIDED|95.0|-19.1|6.0|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||6.0|-19.1|0.2263
82476249|NCT04556383|164647605|SUPERIORITY||Risk Difference (RD)|-1.4||||0.8259|TWO_SIDED|95.0|-14.8|12.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||12.2|-14.8|0.8259
82476250|NCT04556383|164647606|SUPERIORITY||Risk Difference (RD)|2.8||||0.7418|TWO_SIDED|95.0|-12.7|18.1|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||18.1|-12.7|0.7418
82476251|NCT04556383|164647606|SUPERIORITY||Risk Difference (RD)|8.4||||0.2758|TWO_SIDED|95.0|-7.8|24.2|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||24.2|-7.8|0.2758
82476252|NCT04556383|164647607|SUPERIORITY||Risk Difference (RD)|-6.0||||0.3504|TWO_SIDED|95.0|-20.6|8.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||8.9|-20.6|0.3504
82476253|NCT04556383|164647607|SUPERIORITY||Risk Difference (RD)|1.7||||0.8009|TWO_SIDED|95.0|-14.2|17.5|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||17.5|-14.2|0.8009
82476254|NCT04556383|164647608|SUPERIORITY||Risk Difference (RD)|-0.2||||0.9474|TWO_SIDED|95.0|-14.3|13.7|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||13.7|-14.3|0.9474
82476255|NCT04556383|164647608|SUPERIORITY||Risk Difference (RD)|-3.0||||0.6409|TWO_SIDED|95.0|-16.6|10.8|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||10.8|-16.6|0.6409
82476256|NCT04556383|164647609|SUPERIORITY||Risk Difference (RD)|-8.0||||0.1932|TWO_SIDED|95.0|-22.4|6.3|||Cochran-Mantel-Haenszel||PCP GB004 480 mg QD vs Placebo.|||6.3|-22.4|0.1932
82476257|NCT04556383|164647609|SUPERIORITY||Risk Difference (RD)|-2.3||||0.7459|TWO_SIDED|95.0|-17.6|12.9|||Cochran-Mantel-Haenszel||PCP GB004 480 mg BID vs Placebo.|||12.9|-17.6|0.7459
82476258|NCT02692391|164647611|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82476259|NCT02692391|164647612|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82550611|NCT04213872|164804052|OTHER|||||||0.03|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogPCA 16.0 (5.1) 19.2 (5.3) 3.2 (0.2) .03||||.03
82476260|NCT02692391|164647613|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
82476261|NCT02692391|164647614|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82476262|NCT00884741|164647615|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13||||0.11|TWO_SIDED|95.0|0.93|1.37||To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).|Log Rank|||The trial was designed to concurrently provide 80% power for the detection of a 25% relative reduction in mortality hazard (hazard ratio .75) and 30% reduction in progression hazard (hazard ratio .70) for the addition of bevacizumab to temozolomide and radiation. To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).||1.37|0.93|0.11
82476263|NCT00884741|164647616|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.79||||0.004|TWO_SIDED|95.0|0.66|0.94||To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).|Log Rank|||The trial was designed to concurrently provide 80% power for the detection of a 25% relative reduction in mortality hazard (hazard ratio .75) and 30% reduction in progression hazard (hazard ratio .70) for the addition of bevacizumab to temozolomide and radiation. To control for type I error in testing the co-primary endpoints, the significance criterion for OS was 0.023 (one-sided) and for PFS was 0.002 (one-sided).||0.94|0.66|0.004
82476264|NCT00884741|164647617|SUPERIORITY_OR_OTHER|||||||0.42||||||Two-sided|Chi-squared|||||||0.42
82476265|NCT00612807|164647637|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether slope of change over time varied by identified patient status and treatment condition.|Interaction term|-0.56|STANDARD_ERROR_OF_MEAN|0.29||0.056||95.0||||Interaction indicates that slope of change varied by identified patient status and tx condition. Slope of change in depression was significantly negative for everyone but identified patients in the control condition.|Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.056
82550612|NCT04213872|164804053|OTHER|||||||0.04|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogQOL 3.7 (3.8) 1.8 (2.2) \*-1.9 (1.6) .04~\*lower scores signifying better outcomes."||||.04
82476266|NCT00612807|164647638|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether slope of change over time varied by identified patient status and treatment condition.|Interaction term|0.64|STANDARD_ERROR_OF_MEAN|0.65||0.32||95.0|||||Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.32
82476267|NCT00612807|164647638|NON_INFERIORITY_OR_EQUIVALENCE|Testing whether means at each timepoint varied by identified patient status and treatment condition.|Interaction term|-12.97|STANDARD_ERROR_OF_MEAN|4.52||0.005||95.0||||We probed this interaction and discovered that at each assessment, spouses in the couple therapy + medication treatment group reported greater dyadic adjustment than did spouses in the medication alone condition (b = 10.53, z = 2.72, p = 0.006).|Fixed effect in multi-level model|||Utilized a hierarchical linear model with time nested within individual and individual nested within couple. Given the small sample size, we chose to include participants' baseline depression scores as a covariate, and model the trajectory of change in depression scores beginning with the second assessment, which occurred one month into the study. Additional fixed effect predictors included status as identified patient or spouse, treatment condition, time, and all possible interactions.||||0.005
82476268|NCT00800254|164647644|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82550613|NCT04213872|164804054|OTHER|||||||0.04|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value CogOth 1.5 (2.1) 0.2 (0.4) \*-1.3 (1.7) .04~\*lower scores signifying better outcomes."||||.04
82550614|NCT04213872|164804055|OTHER|||||||0.01|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value WAIS-III Letter/Number 10.7 (3.2) 12.7 (2.8) 2.0 (0.4) .01||||.01
82550615|NCT04213872|164804056|OTHER|||||||0.6|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value~WAIS-III Digit Span Forward and Backward 19.2 (4.8) 19.7 (4.4) 0.5 (0.4) .60"||||.60
82476269|NCT00800254|164647646|SUPERIORITY_OR_OTHER||||||<|0.003|TWO_SIDED||||||ANCOVA|||||||<0.003
82476270|NCT00744042|164647657|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Testing whether median change in rickets severity from Baseline to Week 24, measured by RGI-C at Week 24, is from zero.|Wilcoxon signed-rank test|The last post-baseline observation carry forward method is used; patients with no post-baseline assessments were imputed as having no change.||One treatment group||||0.0039
82476271|NCT04303195|164647661|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.479||0.135|TWO_SIDED|95.0|-1.67|0.23||The threshold for statistical significance was p = 0.05.|ANOVA|||||0.23|-1.67|0.1350
82476272|NCT04303195|164647661|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.493||0.0997|TWO_SIDED|95.0|-1.79|0.16||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.16|-1.79|0.0997
82550616|NCT04213872|164804057|OTHER|||||||0.03|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value PSQI 1.5 (0.8) 0.9 (0.7) \*-0.6 (0.1) .03~\*Lower scores mean better outcomes."||||.03
82550617|NCT04213872|164804058|OTHER|||||||0.05|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value POMS Anxiety 9.2 (7.7) 4.2 (3.7) \*-5.0 (4.0) .05~\*Lower scores mean better outcomes."||||.05
82476273|NCT04303195|164647661|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.492||0.2195|TWO_SIDED|95.0|-1.58|0.37||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.37|-1.58|0.2195
82476274|NCT04303195|164647662|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.498||0.7944|TWO_SIDED|95.0|-1.11|0.85||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.85|-1.11|0.7944
82476275|NCT04303195|164647662|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.51||0.4956|TWO_SIDED|95.0|-1.36|0.66||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.66|-1.36|0.4956
82476276|NCT04303195|164647662|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.511||0.626|TWO_SIDED|95.0|-0.76|1.26||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.26|-0.76|0.6260
82476277|NCT04303195|164647663|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.543||0.8866|TWO_SIDED|95.0|-1.15|1.0||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.00|-1.15|0.8866
82476278|NCT04303195|164647663|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.558||0.8699|TWO_SIDED|95.0|-1.19|1.01||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.01|-1.19|0.8699
82476279|NCT04303195|164647663|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.556||0.7297|TWO_SIDED|95.0|-0.91|1.29||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.29|-0.91|0.7297
82476280|NCT04303195|164647664|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.409||0.9034|TWO_SIDED|95.0|-0.76|0.86||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.86|-0.76|0.9034
82476281|NCT04303195|164647664|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.33||0.9742|TWO_SIDED|95.0|-0.68|0.63||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.63|-0.68|0.9742
82476282|NCT04303195|164647664|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.417||0.2235|TWO_SIDED|95.0|-0.31|1.33||The threshold for statistical significance was p = 0.05.|ANCOVA|||||1.33|-0.31|0.2235
82476283|NCT04303195|164647665|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.118||0.3567|TWO_SIDED|95.0|-0.34|0.12||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.12|-0.34|0.3567
82476284|NCT04303195|164647665|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.12||0.1129|TWO_SIDED|95.0|-0.43|0.05||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.05|-0.43|0.1129
82476285|NCT04303195|164647665|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12||0.459|TWO_SIDED|95.0|-0.33|0.15||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.15|-0.33|0.4590
82476286|NCT04303195|164647666|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.485||0.525|TWO_SIDED|95.0|-1.27|0.65||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.65|-1.27|0.5250
82476287|NCT04303195|164647666|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.498||0.3991|TWO_SIDED|95.0|-1.41|0.56||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.56|-1.41|0.3991
82476288|NCT04303195|164647666|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.497||0.9006|TWO_SIDED|95.0|-1.05|0.92||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.92|-1.05|0.9006
82476289|NCT04303195|164647667|SUPERIORITY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.444||0.6009|TWO_SIDED|95.0|-1.11|0.64||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.64|-1.11|0.6009
82476290|NCT04303195|164647667|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.454||0.4654|TWO_SIDED|95.0|-1.23|0.56||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.56|-1.23|0.4654
82476291|NCT04303195|164647667|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.455||0.8842|TWO_SIDED|95.0|-0.83|0.97||The threshold for statistical significance was p = 0.05.|ANCOVA|||||0.97|-0.83|0.8842
82476292|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-2.71||||0.1044|TWO_SIDED|95.0|-5.99|0.057||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||0.057|-5.99|0.1044
82476293|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LSMEANS Difference|-1.38||||0.5292|TWO_SIDED|95.0|-5.71|2.94||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||2.94|-5.71|0.5292
82550618|NCT04213872|164804059|OTHER|||||||0.08|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value POMS Depression 4.1 (4.9) 2.0 (3.0) \*-2.1 (1.9) .08~\*Lower scores mean better outcomes."||||.08
82550619|NCT04213872|164804060|OTHER|||||||0.3|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value BDNF 0.11 (0.9) 0.30 (0.7) 0.19 (0.2) .30~Higher scores mean better outcomes."||||.30
82550620|NCT04213872|164804061|OTHER|||||||0.8|||||||t-test, 2 sided|||"Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value NF-kB1 171.7 (25.4) 173.7 (21.6) 2.0 (3.8) .80~Higher scores mean better outcomes."||||.80
82550621|NCT04213872|164804062|OTHER|||||||0.61|||||||t-test, 2 sided|||Measure Pre-MM mean (sd) Post-MM mean (sd) Pre/Post MM mean (sd) difference P-Value TP53 12.3 (2.7) 13.1 (5.5) 0.8 (2.8) .61||||.61
82476294|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-4.51||||0.0278|TWO_SIDED|95.0|-8.52|-0.5||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||-0.50|-8.52|0.0278
82476295|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|1.8||||0.3821|TWO_SIDED|95.0|-2.25|5.84||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||5.84|-2.25|0.3821
82476296|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|3.13||||0.2084|TWO_SIDED|95.0|-1.76|8.02||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||8.02|-1.76|0.2084
82476297|NCT01065454|164647759|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-1.33||||0.5442|TWO_SIDED|95.0|-5.66|3.0||Baseline value, treatment group and region were used as fixed effects in the ANCOVA model|ANCOVA|||||3.00|-5.66|0.5442
82476298|NCT01065454|164647760|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|1.87|||||TWO_SIDED|95.0|-0.83|4.56||||||||4.56|-0.83|
82476299|NCT01065454|164647760|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.2|||||TWO_SIDED|95.0|-3.12|3.51||||||||3.51|-3.12|
82476300|NCT01065454|164647760|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.23|||||TWO_SIDED|95.0|-3.31|3.77||||||||3.77|-3.31|
82476301|NCT01065454|164647761|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-46.59|||||TWO_SIDED|95.0|-89.4|-3.8||||||||-3.8|-89.4|
82550622|NCT05480124|164804084|SUPERIORITY|||||||0.609|||||||t-test, 2 sided|||||||0.609
82476302|NCT01065454|164647761|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-32.26|||||TWO_SIDED|95.0|-84.9|20.4||||||||20.4|-84.9|
82476303|NCT01065454|164647761|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-26.52|||||TWO_SIDED|95.0|-83.0|30.0||||||||30.0|-83.0|
82476304|NCT01065454|164647762|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-89.17|||||TWO_SIDED|95.0|-172.9|5.5||||||||5.5|-172.9|
82476305|NCT01065454|164647762|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-58.22|||||TWO_SIDED|95.0|-162.1|45.6||||||||45.6|-162.1|
82476306|NCT01065454|164647762|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-43.22|||||TWO_SIDED|95.0|-153.7|67.1||||||||67.1|-153.7|
82476307|NCT01065454|164647763|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-239.31|||||TWO_SIDED|95.0|-363.4|-115.3||||||||-115.3|-363.4|
82476308|NCT01065454|164647763|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-120.89|||||TWO_SIDED|95.0|-274.4|32.6||||||||32.6|-274.4|
82476309|NCT01065454|164647763|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-25.54|||||TWO_SIDED|95.0|-189.3|138.2||||||||138.2|-189.3|
82476310|NCT01065454|164647764|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-446.49|||||TWO_SIDED|95.0|-687.4|-205.6||||||||-205.6|-687.4|
82476311|NCT01065454|164647764|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-231.57|||||TWO_SIDED|95.0|-530.4|67.2||||||||67.2|-530.4|
82476312|NCT01065454|164647764|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-34.97|||||TWO_SIDED|95.0|-353.7|283.7||||||||283.7|-353.7|
82476313|NCT01065454|164647765|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-1.27|||||TWO_SIDED|95.0|-3.1|0.5||||||||0.5|-3.1|
82476314|NCT01065454|164647765|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.88|||||TWO_SIDED|95.0|-3.1|1.3||||||||1.3|-3.1|
82476315|NCT01065454|164647765|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.84|||||TWO_SIDED|95.0|-3.2|1.5||||||||1.5|-3.2|
82476316|NCT01065454|164647766|SUPERIORITY_OR_OTHER_LEGACY||LSS-MEANS Difference|-2.07|||||TWO_SIDED|95.0|-5.0|0.8||||||||0.8|-5.0|
82476317|NCT01065454|164647766|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS|1.39|||||TWO_SIDED|95.0|-2.1|4.9||||||||4.9|-2.1|
82476318|NCT01065454|164647766|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|-1.13|||||TWO_SIDED|95.0|-4.9|2.7||||||||2.7|-4.9|
82476319|NCT01065454|164647767|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.28|||||TWO_SIDED|95.0|-0.58|1.14||||||||1.14|-0.58|
82476320|NCT01065454|164647767|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.82|||||TWO_SIDED|95.0|-0.23|1.87||||||||1.87|-0.23|
82476321|NCT01065454|164647767|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.03|||||TWO_SIDED|95.0|-1.11|1.06||||||||1.06|-1.11|
82476322|NCT01065454|164647768|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-3.84|||||TWO_SIDED|95.0|-8.76|1.09||||||||1.09|-8.76|
82476323|NCT01065454|164647768|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANs Difference|-0.02|||||TWO_SIDED|95.0|-6.05|6.01||||||||6.01|-6.05|
82476324|NCT01065454|164647768|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-2.43|||||TWO_SIDED|95.0|-8.93|4.06||||||||4.06|-8.93|
82476325|NCT01065454|164647769|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.51|||||TWO_SIDED|95.0|-0.21|1.24||||||||1.24|-0.21|
82476326|NCT01065454|164647769|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|0.81|||||TWO_SIDED|95.0|-0.07|1.69||||||||1.69|-0.07|
82476327|NCT01065454|164647769|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.2|||||TWO_SIDED|95.0|-0.74|1.15||||||||1.15|-0.74|
82476328|NCT01065454|164647770|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-5.06|||||TWO_SIDED|95.0|-17.33|7.22||||||||7.22|-17.33|
82476329|NCT01065454|164647770|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.28|||||TWO_SIDED|95.0|-14.55|15.11||||||||15.11|-14.55|
82476330|NCT01065454|164647770|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-5.18|||||TWO_SIDED|95.0|-21.05|10.69||||||||10.69|-21.05|
82476331|NCT01065454|164647771|SUPERIORITY_OR_OTHER_LEGACY||LS_MEANS Difference|-4.27|||||TWO_SIDED|95.0|-21.13|12.6||||||||12.60|-21.13|
82476332|NCT01065454|164647771|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|2.78|||||TWO_SIDED|95.0|-17.59|23.16||||||||23.16|-17.59|
82476333|NCT01065454|164647771|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-4.61|||||TWO_SIDED|95.0|-26.43|17.2||||||||17.20|-26.43|
82476334|NCT01065454|164647772|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|5.29|||||TWO_SIDED|95.0|-7.38|17.95||||||||17.95|-7.38|
82476335|NCT01065454|164647772|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|6.47|||||TWO_SIDED|95.0|-9.79|22.73||||||||22.73|-9.79|
82476336|NCT01065454|164647772|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|10.35|||||TWO_SIDED|95.0|-6.14|26.84||||||||26.84|-6.14|
82476337|NCT01065454|164647773|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.15|||||TWO_SIDED|95.0|-0.55|0.24||||||||0.24|-0.55|
82476338|NCT01065454|164647773|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.17|||||TWO_SIDED|95.0|-0.34|0.67||||||||0.67|-0.34|
82476339|NCT01065454|164647773|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.06|||||TWO_SIDED|95.0|-0.45|0.56||||||||0.56|-0.45|
82550623|NCT05480124|164804086|SUPERIORITY|||||||0.098|||||||t-test, 2 sided|||||||0.098
82550624|NCT05480124|164804087|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||||||0.204
82550625|NCT05480124|164804088|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||||||0.383
82550626|NCT05480124|164804089|SUPERIORITY|||||||0.201|||||||t-test, 2 sided|||||||0.201
82476340|NCT01065454|164647774|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|10.17|||||TWO_SIDED|95.0|-18.48|38.81||||||||38.81|-18.48|
82476341|NCT01065454|164647774|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|7.92|||||TWO_SIDED|95.0|-26.76|42.59||||||||42.59|-26.76|
82476342|NCT01065454|164647774|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.15|||||TWO_SIDED|95.0|-44.08|31.78||||||||31.78|-44.08|
82476343|NCT01065454|164647776|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.62|||||TWO_SIDED|95.0|-13.36|14.61||||||||14.61|-13.36|
82476344|NCT01065454|164647776|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-9.46|||||TWO_SIDED|95.0|-24.32|5.39||||||||5.39|-24.32|
82476345|NCT01065454|164647776|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-6.07|||||TWO_SIDED|95.0|-22.26|10.13||||||||10.13|-22.26|
82476346|NCT01065454|164647778|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.03|||||TWO_SIDED|95.0|-0.04|0.1||||||||0.10|-0.04|
82476347|NCT01065454|164647778|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.01|||||TWO_SIDED|95.0|-0.07|0.09||||||||0.09|-0.07|
82476348|NCT01065454|164647778|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.02|||||TWO_SIDED|95.0|-0.07|0.11||||||||0.11|-0.07|
82476349|NCT01065454|164647779|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.8|||||TWO_SIDED|95.0|-12.81|-0.78||||||||-0.78|-12.81|
82476350|NCT01065454|164647779|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-6.81|||||TWO_SIDED|95.0|-13.96|0.35||||||||0.35|-13.96|
82550627|NCT01987895|164804111|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-1.4|||||TWO_SIDED|95.0|-7.2|4.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|||4.3|-7.2|
82550628|NCT01987895|164804111|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-2.4|||||TWO_SIDED|95.0|-8.1|3.2|||||CI for the difference between two proportions are estimated using the Wilson's score method|Sensitivity analysis with imputation for a single day with missing UBM data between one day before end-of-treatment (EOT) and 2 days after EOT||3.2|-8.1|
82651001|NCT00294723|165016799|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.48|||<|0.0001||95.0|-4.28|-2.68||2-sided significance level was 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.68|-4.28|<0.0001
82476351|NCT01065454|164647779|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-7.5|||||TWO_SIDED|95.0|-15.29|0.28||||||||0.28|-15.29|
82476352|NCT01065454|164647780|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-24.62|||||TWO_SIDED|95.0|-117.58|68.33||||||||68.33|-117.58|
82476353|NCT01065454|164647780|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-53.29|||||TWO_SIDED|95.0|-162.46|55.88||||||||55.88|-162.46|
82476354|NCT01065454|164647780|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-8.36|||||TWO_SIDED|95.0|-135.78|119.06||||||||119.06|-135.78|
82476355|NCT01065454|164647781|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-407.34|||||TWO_SIDED|95.0|-1055.23|240.54||||||||240.54|-1055.23|
82476356|NCT01065454|164647781|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-447.26|||||TWO_SIDED|95.0|-1212.74|318.22||||||||318.22|-1212.74|
82476357|NCT01065454|164647781|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-517.48|||||TWO_SIDED|95.0|-1369.48|334.53||||||||334.53|-1369.48|
82476358|NCT01065454|164647782|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.01|0.01||||||||0.01|-0.01|
82476359|NCT01065454|164647782|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.01|||||TWO_SIDED|95.0|-0.02|0.0||||||||0.00|-0.02|
82476360|NCT01065454|164647782|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.01|||||TWO_SIDED|95.0|-0.02|0.01||||||||0.01|-0.02|
82476361|NCT01065454|164647783|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.04|0.03||||||||0.03|-0.04|
82476362|NCT01065454|164647783|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|0.0|||||TWO_SIDED|95.0|-0.04|0.05||||||||0.05|-0.04|
82476363|NCT01065454|164647783|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-0.02|||||TWO_SIDED|95.0|-0.07|0.03||||||||0.03|-0.07|
82476364|NCT01065454|164647784|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANSA Difference|-14.13|||||TWO_SIDED|95.0|-30.79|2.53||||||||2.53|-30.79|
82476365|NCT01065454|164647784|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-12.73|||||TWO_SIDED|95.0|-32.89|7.43||||||||7.43|-32.89|
82476366|NCT01065454|164647784|SUPERIORITY_OR_OTHER_LEGACY||LS-MEANS Difference|-18.27|||||TWO_SIDED|95.0|-41.53|5.0||||||||5.00|-41.53|
82476367|NCT05688670|164647785|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.001|TWO_SIDED|95.0|-0.59|-0.18|||t-test, 2 sided|||||-0.18|-0.59|0.001
82476368|NCT05688670|164647786|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.41|TWO_SIDED|95.0|-0.2|0.08|||t-test, 2 sided|||12-24 hour postoperative opioid use||0.08|-0.20|0.41
82476369|NCT05688670|164647786|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.14|TWO_SIDED|95.0|-0.37|0.06|||t-test, 2 sided|||24-48 hour postoperative opioid use||0.06|-0.37|0.14
82476370|NCT05688670|164647786|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.16|TWO_SIDED|95.0|-0.52|0.09|||t-test, 2 sided|||12-48 hours hours after surgery||0.09|-0.52|0.16
82476371|NCT05688670|164647787|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.004|TWO_SIDED|95.0|-1.02|-0.22|||t-test, 2 sided|||||-0.22|-1.02|0.004
82476372|NCT05688670|164647788|SUPERIORITY||Mean Difference (Final Values)|-49.5||||0.002|TWO_SIDED|95.0|-78.9|-20.1|||t-test, 2 sided|||||-20.1|-78.9|0.002
82476373|NCT03630770|164647854|OTHER||Rate Ratio|0.98||||0.9|TWO_SIDED|95.0|0.55|1.7||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (before v. during supplementation) for the control group.||1.7|0.55|0.9
82476374|NCT03630770|164647854|OTHER||Rate Ratio|8.1|||<|0.001|TWO_SIDED|95.0|2.6|25.0||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (during v. after supplementation) for the control group.||25|2.6|<0.001
82476375|NCT03630770|164647854|OTHER||Rate Ratio|0.15||||0.02|TWO_SIDED|95.0|0.03|0.75||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (before v. during supplementation) for the MCT group.||0.75|0.03|0.02
82476376|NCT03630770|164647854|OTHER||Rate Ratio|61.0|||<|0.001|TWO_SIDED|95.0|6.9|533.0||p-values underwent generalized estimating equations adjustment for multiple measures per individuals within time.|Negative binomial regression|||Stool fungal counts (cfu/g) were compared between groups using negative binomial regression within time period (before, during, after). Rate ratio was calculated to reflect the direction and magnitude of change in stool colony counts between time periods (during v. after supplementation) for the MCT group.||533|6.9|<0.001
82476377|NCT00796445|164647861|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of disease-free survival (DFS) of recMAGE-A3 + AS15 ASCI compared to placebo in the overall study population of patients with completely resected stage III cutaneous melanoma with macroscopic lymph node involvement.|Hazard Ratio (HR)|1.013||||0.8566|TWO_SIDED|95.0|0.879|1.169|||Regression, Cox|||At Final analysis (Month 30)||1.169|0.879|0.8566
82476378|NCT00796445|164647861|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population presenting the potentially favorable gene expression signature.|Hazard Ratio (HR)|1.111||||0.4821|TWO_SIDED|95.0|0.828|1.491|||Regression, Cox|||At Final analysis (Month 30)||1.491|0.828|0.4821
82476379|NCT00796445|164647861|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population without the potentially favorable gene expression signature|Hazard Ratio (HR)|0.915||||0.5375|TWO_SIDED|95.0|0.691|1.212|||Regression, Cox|||At Final analysis (Month 30)||1.212|0.691|0.5375
82476380|NCT00796445|164647862|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of disease-free survival (DFS) of recMAGE-A3 + AS15 ASCI compared to placebo in the overall study population of patients with completely resected stage III cutaneous melanoma with macroscopic lymph node involvement|Hazard Ratio (HR)|1.023||||0.7534|TWO_SIDED|95.0|0.89|1.175|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.175|0.890|0.7534
82476381|NCT00796445|164647862|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population presenting the potentially favorable gene expression signature.|Hazard Ratio (HR)|1.094||||0.5385|TWO_SIDED|95.0|0.821|1.457|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.457|0.821|0.5385
82476382|NCT00796445|164647862|NON_INFERIORITY|The aim of this analysis was to demonstrate the clinical efficacy in terms of DFS of the recMAGE-A3 + AS15 ASCI compared to placebo in the population without the potentially favorable gene expression signature.|Hazard Ratio (HR)|0.918||||0.5419|TWO_SIDED|95.0|0.698|1.207|||Regression, Cox|||At Follow-up analysis (up to Year 5)||1.207|0.698|0.5419
82476383|NCT02737891|164647874|SUPERIORITY||Mean Difference (Net)|-3.8||||0.004|TWO_SIDED|95.0|-6.36|-1.29||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||-1.29|-6.36|0.004
82476384|NCT02737891|164647875|SUPERIORITY||Mean Difference (Net)|0.1||||0.724|TWO_SIDED|95.0|-0.23|0.33||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||0.33|-0.23|0.724
82476385|NCT02737891|164647876|SUPERIORITY||Mean Difference (Net)|-3.5|||<|0.0001|TWO_SIDED|95.0|-4.65|-2.3||Two-sided p-value for test of no difference from 0.|ANCOVA|||The analysis was based on a parametric model, i.e. compared between treatment arms by means of an analysis of covariance (ANCOVA) model (proc MIXED) using change from baseline to the end of treatment as dependent variable, treatment and study site as fixed effects and the value from baseline as covariate. The residual errors were assumed independent and identically distributed (i.i.d.) and normally distributed.||-2.30|-4.65|<0.0001
82476386|NCT05194579|164647881|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% confidence intervals (CIs) for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays Cmax statistical analysis.|Ratio of Geometric Mean|117.06|||||TWO_SIDED|90.0|103.07|132.93|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||132.93|103.07|
82476387|NCT05194579|164647882|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% CIs for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays AUClast statistical analysis.|Ratio of Geometric Mean|122.12|||||TWO_SIDED|90.0|107.9|138.22|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||138.22|107.90|
82476388|NCT05194579|164647883|EQUIVALENCE|Pharmacokinetic equivalence were assessed by constructing the 90% CIs for the GMR (test/reference) for Cmax, AUClast and AUCinf. This table displays AUCinf statistical analysis.|Ratio of Geometric Mean|123.75|||||TWO_SIDED|90.0|108.75|140.82|||ANOVA|||The null hypothesis was PF-06881894 OBI was not equivalent to PF-06881894 PFS.||140.82|108.75|
82376963|NCT04238650|164460956|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|||||TWO_SIDED|90.0|0.981|1.11||||||||1.11|0.981|
82476389|NCT03232333|164647941|SUPERIORITY||||||=|0.71|||||||t-test, 1 sided|||||||=0.71
82476390|NCT03232333|164647942|SUPERIORITY||||||=|0.63|||||||t-test, 1 sided|||||||=0.63
82476391|NCT03232333|164647943|SUPERIORITY||||||=|0.01|||||||t-test, 1 sided|||||||=.01
82476392|NCT01087736|164647944|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.89||||0.019|TWO_SIDED|95.0|0.89|0.98||We tested our Primary hypothesis with a random-intercept repeated subject negative binomial model, modeling week (baseline - week 12) as a continuous variable. All analyses were intent-to-treat and used all observations from all weeks.|negative binomial regression|||Our primary protocol-defined analysis was to examine the within-group efficacy of topiramate to reduce percent drinking days (%DD).||0.98|0.89|0.019
82476393|NCT01087736|164647944|SUPERIORITY_OR_OTHER|||||||0|||||||Other|||There were no pre hoc hypothesis regarding change within placebo group. We were only tested change within the topiramate condition.||||0.00
82476394|NCT01087736|164647944|SUPERIORITY_OR_OTHER||Incidence Rate Ratio (IRR)|0.38||||0.036|TWO_SIDED|95.0|0.15|0.94|||Negative binomial model|||"A secondary analysis was powered to detect a Signal or statistical trend (p\<0.10) for a difference between the topiramate and placebo condition. We compared percent drinking days per week between groups averaged over the active phase of the trial (weeks 1-12). The negative binomial model included fixed effect for week, treatment group, and the interaction between treatment group and week. We covaried for baseline %DD averages to control for prestudy and study enrollment effects."||0.94|0.15|0.036
82476395|NCT01087736|164647945|SUPERIORITY_OR_OTHER||||||<|0.026|||||||Mixed Models Analysis|||We planned to explore the efficacy of topiramate in reducing PTSD symptom severity. We used random-intercept linear mixed models to explore the efficacy for topiramate related reduction in PTSD symptomatology. We looked for an effect of week within TOP. Baseline scores for PTSD symptoms were used as covariates in group comparisons. All analyses were intent-to-treat and used all observations from all weeks.||||<0.026
82476396|NCT01087736|164647945|SUPERIORITY_OR_OTHER|||||||0|||||||Other|||There was not a pre hoc hypothesis regarding change within placebo group. We only examined within group change in the topiramate condition.||||0.00
82550629|NCT01987895|164804112|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%.|Difference between 2 proportions|-4.1|||||TWO_SIDED|95.0|-9.2|1.0|||||CI for the difference between two proportions are estimated using the Wilson' score method|||1.0|-9.2|
82550630|NCT01987895|164804113|SUPERIORITY|Superiority of cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above zero|Difference between 2 proportions|3.3|||||TWO_SIDED|95.0|-4.3|10.8|||||CI for the difference between two proportions are estimated using the Wilson's score method|||10.8|-4.3|
82476397|NCT03495856|164647966|OTHER|within-group paired t-test|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.37||0.05|TWO_SIDED|95.0|-1.55|0.0||The a priori threshold for statistical significance was p less than or equal to 0.05. That calculated p-value in the statistical hypothesis test was equal to 0.05.|t-test, 2 sided|||||0.00|-1.55|0.05
82476398|NCT03495856|164647967|OTHER|within-group paired t-test|Mean Difference (Final Values)|-3.67|STANDARD_ERROR_OF_MEAN|1.42||0.017|TWO_SIDED|95.0|-6.63|-0.71|||t-test, 2 sided|||||-0.71|-6.63|0.017
82550631|NCT01987895|164804114|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.6016|TWO_SIDED|95.0|0.8|1.14||two-sided p-value (alpha 5%) based on log-rank test stratified by first occurrence / first recurrence and geographical region.|Log Rank|||||1.14|0.80|0.6016
82476399|NCT03495856|164647968|OTHER|Within-group paired t-test|Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.7||0.938|TWO_SIDED|95.0|-1.39|1.5|||t-test, 2 sided|||||1.50|-1.39|0.938
82476400|NCT03495856|164647969|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-3.34|STANDARD_ERROR_OF_MEAN|1.05||0.005|TWO_SIDED|95.0|-5.53|-1.15||The a priori threshold for statistical significance was p less than or equal to 0.05.|t-test, 2 sided|||||-1.15|-5.53|0.005
82476401|NCT03495856|164647970|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-2.21|STANDARD_ERROR_OF_MEAN|1.38||0.124|TWO_SIDED|95.0|-5.09|0.66|||t-test, 2 sided|||||0.66|-5.09|0.124
82476402|NCT03495856|164647971|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-4.69|STANDARD_ERROR_OF_MEAN|1.26||0.001|TWO_SIDED|95.0|-7.3|-2.07|||t-test, 2 sided|||||-2.07|-7.30|0.001
82550632|NCT01987895|164804115|SUPERIORITY||Least Square Mean difference|0.002||||0.9814|TWO_SIDED|95.0|-0.2|0.2||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the diarrhea domain scores||0.20|-0.20|0.9814
82550633|NCT01987895|164804115|SUPERIORITY||Least Square Mean difference|0.087||||0.2879|TWO_SIDED|95.0|-0.07|0.25||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the abdominal symptoms domain scores||0.25|-0.07|0.2879
82550634|NCT01987895|164804115|SUPERIORITY||Least Square Mean difference|0.05||||0.488|TWO_SIDED|95.0|-0.09|0.19||Two-sided 5% alpha level was used|ANOVA|ANOVA for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the systemic / other symptoms domain scores||0.19|-0.09|0.4880
82476403|NCT03495856|164647972|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-1.27|STANDARD_ERROR_OF_MEAN|0.5||0.018|TWO_SIDED|95.0|-2.31|-0.24|||t-test, 2 sided|||||-0.24|-2.31|0.018
82476404|NCT03495856|164647973|OTHER|Within-group paired t-test|Mean Difference (Final Values)|2.79|STANDARD_ERROR_OF_MEAN|1.07||0.016|TWO_SIDED|95.0|0.58|5.01|||t-test, 2 sided|||||5.01|0.58|0.016
82476405|NCT03495856|164647974|OTHER|Within-group paired t-test|Mean Difference (Final Values)|-4.96|STANDARD_ERROR_OF_MEAN|1.41||0.002|TWO_SIDED|95.0|-7.88|-2.03|||t-test, 2 sided|||||-2.03|-7.88|0.002
82476406|NCT03495856|164647975|OTHER|Within-group paired t-test|Mean Difference (Final Values)|13.27|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|8.47|18.07|||t-test, 2 sided|||||18.07|8.47|<0.001
82476407|NCT03495856|164647976|OTHER|Within-group paired t-test|Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|1.96||0.001|TWO_SIDED|95.0|3.92|12.08|||t-test, 2 sided|||||12.08|3.92|0.001
82476408|NCT00435045|164647977|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the non-HDL-C response was assessed by calculating the 2-sided 90% and 95% confidence intervals (CIs)for each difference in response based on comparing the effects of increases in atorvastatin dose on the percent changes from baseline to the end of each atorvastatin period, a repeated-ANOVA model was used.||||||0.0002||95.0|||||ANOVA|||||||0.0002
82476409|NCT00567255|164648002|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.56|||<|0.001||95.0|-5.19|-3.93|||ANCOVA|||||-3.93|-5.19|<0.001
82476410|NCT00567255|164648003|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.16|||<|0.001|TWO_SIDED|95.0|-5.95|-4.38|||ANCOVA|||||-4.38|-5.95|<0.001
82476411|NCT00567255|164648004|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.61|||<|0.001||95.0|4.95|8.84|||Regression, Logistic|||||8.84|4.95|<0.001
82476412|NCT00567255|164648005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.5|||<|0.001|TWO_SIDED|95.0|4.05|7.47|||Regression, Logistic|||||7.47|4.05|<0.001
82476413|NCT00567255|164648006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.36|||<|0.001|TWO_SIDED|95.0|3.6|7.98|||Regression, Logistic|||||7.98|3.60|<0.001
82476414|NCT00567255|164648007|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.43|||<|0.001|TWO_SIDED|95.0|-4.33|-2.53|||ANCOVA|||||-2.53|-4.33|<0.001
82476415|NCT00567255|164648008|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.59|||<|0.001|TWO_SIDED|95.0|1.61|3.57|||ANCOVA|||||3.57|1.61|<0.001
82476416|NCT00567255|164648009|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.96||||0.007|TWO_SIDED||||||ANCOVA|||||||0.007
82476417|NCT00567255|164648010|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.77|||<|0.001|TWO_SIDED|95.0|2.46|5.09|||ANCOVA|||||5.09|2.46|<0.001
82476418|NCT00567255|164648011|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.24||||0.091|TWO_SIDED||||||ANCOVA|||||||0.091
82476419|NCT00567255|164648012|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.64|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82476420|NCT00567255|164648013|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-1.6|0.85||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.85|-1.60|
82476421|NCT00567255|164648014|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.29|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82476422|NCT00567255|164648015|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.23|||||TWO_SIDED|95.0|-9.92|-4.54||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-4.54|-9.92|
82476423|NCT00567255|164648016|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.36|||||TWO_SIDED|95.0|-7.29|-1.44||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-1.44|-7.29|
82476424|NCT00567255|164648017|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.7|1.3||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.30|-0.70|
82651002|NCT00294723|165016799|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.72|||<|0.0001||95.0|-3.52|-1.93||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-1.93|-3.52|<0.0001
82476425|NCT00567255|164648018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.87|||||TWO_SIDED|95.0|0.16|1.58||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.58|0.16|
82476426|NCT00567255|164648019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.49|0.6||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.60|-0.49|
82476427|NCT00567255|164648020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.56|0.52||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.52|-0.56|
82476428|NCT00567255|164648021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-0.98|0.02||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.02|-0.98|
82476429|NCT01743001|164648024|SUPERIORITY||least-square (LS) mean difference|-4.7||||0.612|TWO_SIDED|95.0|-22.8|13.5||To control for multiplicity across the primary and secondary endpoints, all secondary endpoints were analyzed hierarchically according to order and significance as pre-specified in the protocol eliminating further adjustment for multiple comparisons.|ANCOVA|ANCOVA model included treatment group, presence of DS (yes/no), and WHO FC (II vs III/IV) as categorical factors, and baseline 6MWD value as covariate||The null hypothesis was that there was no difference between macitentan and placebo for the mean change from baseline to Week 16 in 6MWD. Null hypothesis was tested by an analysis of covariance (ANCOVA).||13.5|-22.8|0.6120
82500478|NCT01500629|164691727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.072||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||0.072
82476430|NCT01743001|164648025|SUPERIORITY||Odds Ratio (OR)|0.53||||0.145|TWO_SIDED|95.0|0.23|1.24||The secondary efficacy endpoints were analyzed hierarchically as this approach eliminated the requirement for further adjustment for multiple comparisons.|Regression, Logistic|Logistic regression model adjusted for randomized treatment group and location of cardiac defect (pre-tricupsid / post-tricupsid ) as factors.||For this secondary endpoint of WHO functional class, the improvement from baseline to Week 16 in WHO functional class was evaluated. The null hypothesis is the odds of improvement are the same in the placebo and the macitentan group.||1.24|0.23|0.1450
82476431|NCT01743001|164648026|SUPERIORITY||least-square (LS) mean difference|0.08||||0.6818||95.0|-0.29|0.44||The secondary efficacy endpoints were analyzed hierarchically as this approach eliminated the requirement for further adjustment for multiple comparisons.|ANCOVA|Adjusted for randomized treatment group, location of cardiac defect(pre-tricupsid/post-tricupsid) as factors, baseline Borg dyspnea index as covariate||The null hypothesis was that the mean change from baseline to Week 16 in the Borg dyspnea index is the same in the macitentan and in the placebo group.||0.44|-0.29|0.6818
82476432|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.0||||0.6431|TWO_SIDED|95.0|-5.0|3.1|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Physical Functioning.||3.1|-5.0|0.6431
82476433|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.4||||0.5988|TWO_SIDED|95.0|-6.7|3.9|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Physical.||3.9|-6.7|0.5988
82476434|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|0.1||||0.9642|TWO_SIDED|95.0|-5.9|6.2|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Pain Index.||6.2|-5.9|0.9642
82476435|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|3.1||||0.1542|TWO_SIDED|95.0|-1.2|7.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of General Health Perceptions.||7.3|-1.2|0.1542
82476436|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|1.1||||0.602|TWO_SIDED|95.0|-3.1|5.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Vitality.||5.3|-3.1|0.6020
82476437|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.4||||0.634|TWO_SIDED|95.0|-7.2|4.4|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Social Functioning.||4.4|-7.2|0.6340
82476438|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-2.8||||0.3384|TWO_SIDED|95.0|-8.7|3.0|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Emotional.||3.0|-8.7|0.3384
82476439|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-2.3||||0.2704|TWO_SIDED|95.0|-6.4|1.8|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Mental Health Index.||1.8|-6.4|0.2704
82476440|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-0.4||||0.6431|TWO_SIDED|95.0|-2.1|1.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Physical Functioning (norm-based).||1.3|-2.1|0.6431
82476441|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-0.6||||0.5988|TWO_SIDED|95.0|-2.6|1.5|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Physical (norm-based).||1.5|-2.6|0.5988
82476442|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|0.1||||0.9642|TWO_SIDED|95.0|-2.5|2.6|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Pain Index (norm-based).||2.6|-2.5|0.9642
82550635|NCT01987895|164804116|OTHER||Difference between 2 proportions|-1.8|||||TWO_SIDED|95.0|-6.5|2.9|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||2.9|-6.5|
82550636|NCT01987895|164804117|OTHER||Difference between 2 proportions|-1.9|||||TWO_SIDED|95.0|-6.2|2.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||2.3|-6.2|
82550637|NCT01987895|164804118|OTHER||Difference between 2 proportions|3.7|||||TWO_SIDED|95.0|-3.4|10.7|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||10.7|-3.4|
82550638|NCT01987895|164804119|OTHER|Sensitivity analysis|Difference between 2 proportions|1.1|||||TWO_SIDED|95.0|-6.5|8.7|||||CI for the difference between two proportions are estimated using the Wilson's score method|||8.7|-6.5|
82550639|NCT04971681|164804144|SUPERIORITY||||||<|0.27|||||||t-test, 2 sided|||||||<0.27
82550640|NCT04971681|164804145|SUPERIORITY||||||<|0.1|||||||t-test, 2 sided|||||||<0.10
82476443|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|1.5||||0.1542|TWO_SIDED|95.0|-0.6|3.5|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of General Health Perceptions (norm-based).||3.5|-0.6|0.1542
82476444|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|0.6||||0.602|TWO_SIDED|95.0|-1.5|2.6|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Vitality (norm-based).||2.6|-1.5|0.6020
82476445|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-0.6||||0.634|TWO_SIDED|95.0|-3.1|1.9|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Social Functioning (norm-based).||1.9|-3.1|0.6340
82476446|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.3||||0.3384|TWO_SIDED|95.0|-4.1|1.4|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Role-Emotional (norm-based).||1.4|-4.1|0.3384
82476447|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.3||||0.2704|TWO_SIDED|95.0|-3.6|1.0|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the SF-36 domain score of Mental Health Index.||1.0|-3.6|0.2704
82476448|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|0.7||||0.4332|TWO_SIDED|95.0|-1.0|2.3|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the Physical Component Summary Score.||2.3|-1.0|0.4332
82476449|NCT01743001|164648027|SUPERIORITY||least-square (LS) mean difference|-1.1||||0.3416|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|Adjusted for randomized treatment group, location of cardiac defect (pre-tricupsid/post-tricupsid) as factors and baseline scores as covariates.||The null hypothesis is that the mean change from baseline to Week 16 is the same in the macitentan and the placebo group for the Mental Component Summary Score.||1.2|-3.4|0.3416
82476450|NCT03052426|164648030|SUPERIORITY|||||||0.9327||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 0.1394, DF 2 for aches||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for aches/pains at the three month time frame||||0.9327
82476451|NCT03052426|164648030|SUPERIORITY|||||||0.7523||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 0.5693, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for discomfort at the three month time frame||||0.7523
82476452|NCT03052426|164648030|SUPERIORITY|||||||0.9196||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 0.1676, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for interference at the three month time frame.||||0.9196
82476453|NCT03052426|164648031|SUPERIORITY|||||||0.6316||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 0.9190, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSquare Analysis were completed||||0.6316
82476454|NCT03052426|164648031|SUPERIORITY|||||||0.2595||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSqaure 2.6983, DF||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for discomfort at the six month time frame.||||0.2595
82476455|NCT03052426|164648031|SUPERIORITY|||||||0.4495||||||p=0.05 is the threshold for statistical significance|Chi-squared|ChiSquare 1.5991, DF 2||Wilcoxon/Kruskal-Wallis Tests and ChiSqaure analysis were completed for interference at the six month time frame||||0.4495
82476456|NCT03052426|164648032|SUPERIORITY||||||<|0.0001||||||Aches (F-test G-G Epsilon (1.26, 15.18) = 34.70, p \< 0.0001)|MANOVA|||Three and six month results were combined and compared to baseline data for each of the outcome variables. Repeated measures MANOVAs with pairwise comparisons were used to examine the decrease of variables over time from time 1 to times 2 and 3.||||<0.0001
82476457|NCT03052426|164648032|SUPERIORITY||||||=|0.0006||||||Uncomfortable (F-test G-G Epsilon (1.43, 17.15) = 14.39, p = 0.0006), from time 1 to times 2 and 3|MANOVA|||Three and six month results were combined and compared to baseline data for each of the outcome variables. Repeated measures MANOVAs with pairwise comparisons were used to examine the decrease of variables over time from time 1 to times 2 and 3.||||=0.0006
82476458|NCT03052426|164648032|SUPERIORITY||||||<|0.0001||||||Interference (F-test G-G Epsilon (1.55, 18.66) = 34.09, p \< 0.0001), from time 1 to times 2 and 3.|MANOVA|||We used repeated measures MANOVAs with pairwise comparisons to examine the decrease of the variables over time. Significant differences for within subjects by time were found||||<0.0001
82476459|NCT01565343|164648036|SUPERIORITY_OR_OTHER||ICC|0.9893||||||95.0|||||ICC|||Intra-class Correlation Coefficient (ICC) of AD subjects 50-70 min test vs. retest values||||
82476460|NCT01565343|164648036|SUPERIORITY_OR_OTHER||ICC|0.9574||||||95.0|||||ICC|||Intra-class Correlation Coefficient of Control subjects 50-70 min test vs. retest values||||
82476461|NCT01565343|164648036|SUPERIORITY_OR_OTHER||Mean % difference|2.35|STANDARD_DEVIATION|1.413||||95.0||||||||Intra-subject variability (% difference) of AD subjects 50-70 min test vs. retest values||||
82476462|NCT01565343|164648036|SUPERIORITY_OR_OTHER||Mean % difference|1.49|STANDARD_DEVIATION|0.839||||95.0||||||||Intra-subject variability (% difference) of control subjects 50-70 min test vs. retest values||||
82476463|NCT02059291|164648091|SUPERIORITY||||||<|0.0001|||||||Fisher's exact test|||||||<0.0001
82476464|NCT02059291|164648091|SUPERIORITY|||||||0.002|||||||Fisher's exact test|||||||0.0020
82476465|NCT02059291|164648091|SUPERIORITY|||||||0.005|||||||Fisher's exact test|||||||0.0050
82476466|NCT02059291|164648092|SUPERIORITY||Odds Ratio (OR)|16.96|||<|0.0001|TWO_SIDED|95.0|4.15|69.21|||Regression, Logistic|||||69.21|4.15|<0.0001
82580477|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|61.5|||||TWO_SIDED|95.0|46.3|76.8|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||76.8|46.3|
82476467|NCT02059291|164648092|SUPERIORITY||Odds Ratio (OR)|13.63||||0.0006|TWO_SIDED|95.0|2.83|65.59|||Regression, Logistic|||||65.59|2.83|0.0006
82476468|NCT02059291|164648092|SUPERIORITY||Odds Ratio (OR)|23.79||||0.0028|TWO_SIDED|95.0|2.52|224.86|||Regression, Logistic|||||224.86|2.52|0.0028
82476469|NCT02059291|164648093|SUPERIORITY||Odds Ratio (OR)|29.78|||<|0.0001|TWO_SIDED|95.0|5.86|151.31|||Regression, Logistic|||||151.31|5.86|<0.0001
82476470|NCT02059291|164648093|SUPERIORITY||Odds Ratio (OR)|12.71||||0.001|TWO_SIDED|95.0|2.53|63.89|||Regression, Logistic|||||63.89|2.53|0.0010
82476471|NCT02059291|164648093|SUPERIORITY||Odds Ratio (OR)|6.64||||0.0149|TWO_SIDED|95.0|1.2|36.57|||Regression, Logistic|||||36.57|1.20|0.0149
82476472|NCT02059291|164648094|SUPERIORITY||Odds Ratio (OR)|17.46||||0.0286|TWO_SIDED|95.0|0.92|332.92|||Regression, Logistic|||||332.92|0.92|0.0286
82476473|NCT02059291|164648094|SUPERIORITY||Odds Ratio (OR)|5.26||||0.0778|TWO_SIDED|95.0|0.53|51.97|||Regression, Logistic|||||51.97|0.53|0.0778
82580478|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|58.3|||||TWO_SIDED|95.0|30.4|86.2|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||86.2|30.4|
82476474|NCT02059291|164648094|SUPERIORITY||Odds Ratio (OR)|16.69||||0.0235|TWO_SIDED|95.0|1.04|268.5|||Regression, Logistic|||||268.50|1.04|0.0235
82651003|NCT00294723|165016799|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 kg, it was concluded that the liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-0.75||||0.0642||95.0|-1.55|0.05||2-sided significance level 5%|ANCOVA|||Change in body weight from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous anti-diabetic treatment as fixed effects and baseline body weight as covariance.||0.05|-1.55|0.0642
82476475|NCT02059291|164648095|SUPERIORITY||Odds Ratio (OR)|8.17||||0.0513|TWO_SIDED|95.0|0.75|113.44|||Regression, Logistic|||||113.44|0.75|0.0513
82476476|NCT02059291|164648095|SUPERIORITY||Odds Ratio (OR)|6.0||||0.2168|TWO_SIDED|95.0|0.27|366.24|||Regression, Logistic|||||366.24|0.27|0.2168
82476477|NCT02059291|164648095|SUPERIORITY||Odds Ratio (OR)|4.5||||0.3571|TWO_SIDED|95.0|0.15|313.49|||Regression, Logistic|||||313.49|0.15|0.3571
82476478|NCT00470834|164648096|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Log Rank|||||||0.79
82476479|NCT00470834|164648096|SUPERIORITY_OR_OTHER||Relative Risk|0.94|||||TWO_SIDED|95.0|0.61|1.46|||||The hazard ratio is based on the Cox proportional hazards model.|||1.46|0.61|
82476480|NCT00470834|164648096|SUPERIORITY_OR_OTHER||Relative Risk Reduction|5.62|||||TWO_SIDED|95.0|-46.14|39.05|||||Relative Risk Reduction = 100 \* (1 - Relative Risk).|||39.05|-46.14|
82476481|NCT02673541|164648102|OTHER|||||||1|||||||Fisher Exact|||||||1
82580479|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|59.4|||||TWO_SIDED|95.0|42.4|76.4|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||76.4|42.4|
82476482|NCT02693132|164648110|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82476483|NCT02693132|164648111|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82476484|NCT02693132|164648112|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82476485|NCT02693132|164648113|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82476486|NCT02693132|164648114|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82476487|NCT04343235|164648129|SUPERIORITY|||||||0.21|||||||Fisher Exact|||||||0.21
82476488|NCT04343235|164648130|SUPERIORITY|||||||0.7||||||Main effect for Randomization group|ANOVA|||||||0.70
82476489|NCT04343235|164648131|SUPERIORITY|||||||0.77|||||||ANOVA|Main effect for randomization group||||||0.77
82476490|NCT04343235|164648132|SUPERIORITY|||||||0.54|||||||ANOVA|Main effect for randomization group||||||0.54
82476491|NCT04343235|164648133|SUPERIORITY||Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.0||0.47|TWO_SIDED|95.0|-1.5|3.1|||t-test, 2 sided|||||3.1|-1.5|0.47
82476492|NCT04343235|164648134|SUPERIORITY|||||||0.57|||||||Fisher Exact|||||||0.57
82476493|NCT04343235|164648135|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82476494|NCT01763996|164648136|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.756|TWO_SIDED|95.0|-10.1|13.76||0.05 level of significance|ANOVA|Analysis of variance (ANOVA) model that includes sequence, period, and treatment as fixed factors and subjects within sequence as a random factor.||||13.76|-10.10|0.756
82476495|NCT00865280|164648147|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-2.0|||||TWO_SIDED|95.0|-12.4|8.5|||||The 95% confidence interval (CI) was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.5|-12.4|
82476496|NCT00865280|164648148|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-3.6|||||TWO_SIDED|95.0|-15.5|8.3|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.3|-15.5|
82476497|NCT00865280|164648149|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|7.7|||||TWO_SIDED|95.0|-11.2|26.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||26.6|-11.2|
82580480|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
82580481|NCT00548262|164872285|SUPERIORITY_OR_OTHER||percentage of participants with success|62.1|||||TWO_SIDED|95.0|44.4|79.7|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||79.7|44.4|
82580482|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|37.5|||||TWO_SIDED|95.0|20.7|54.3|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (Yes): Success||54.3|20.7|
82580483|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|75.0|||||TWO_SIDED|95.0|50.5|99.5|||||95% CI based on normal approximation to the binomial.|ICU stay ≥ 4 days (No): Success||99.5|50.5|
82580484|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|39.4|||||TWO_SIDED|95.0|22.7|56.1|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (Yes): Success||56.1|22.7|
82580485|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|72.7|||||TWO_SIDED|95.0|46.4|99.0|||||95% CI based on normal approximation to the binomial.|Mechanical ventilation (No): Success||99.0|46.4|
82580486|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|48.7|||||TWO_SIDED|95.0|33.0|64.4|||||95% CI based on normal approximation to the binomial.|Antibiotics (Yes): Success||64.4|33.0|
82580487|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Antibiotics (No): Success||82.9|0.0|
82580488|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|47.4|||||TWO_SIDED|95.0|31.5|63.2|||||95% CI based on normal approximation to the binomial.|CV Catheter (Yes): Success||63.2|31.5|
82580489|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|10.0|90.0|||||95% CI based on normal approximation to the binomial.|CV Catheter (No): Success||90.0|10.0|
82580490|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|38.5|||||TWO_SIDED|95.0|12.0|64.9|||||95% CI based on normal approximation to the binomial.|TPN (Yes): Success||64.9|12.0|
82651004|NCT00294723|165016800|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-20.28|||<|0.0001||95.0|-29.09|-11.46||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-11.46|-29.09|<.0001
82476498|NCT00865280|164648150|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.3|||||TWO_SIDED|95.0|-8.3|7.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||7.6|-8.3|
82476499|NCT00865280|164648151|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|7.7|||||TWO_SIDED|95.0|-11.2|26.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||26.6|-11.2|
82476500|NCT00865280|164648152|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|-0.3|||||TWO_SIDED|95.0|-8.3|7.6|||||The 95% CI was based on a normal approximation to the binomial distribution with continuity correction. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||7.6|-8.3|
82476501|NCT00743106|164648154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.15|TWO_SIDED|95.0|-31.0|9.0|||Wilcoxon (Mann-Whitney)||The mean decrease in GFR was an estimated 11% less for fenoldopam than for placebo (interim-adjusted 95% confidence interval 9% more, 31% less).|||9|-31|0.15
82476502|NCT00743106|164648155|SUPERIORITY||ratio of geometric mean|0.98||||0.78|TWO_SIDED|95.0|0.79|1.19|||Mixed Models Analysis|||We assessed the effect of fenoldopam on creatinine over time (immediately postoperatively and on PODs 1-4). A linear mixed effects model was used to assess the main effect of fenoldopam on the postoperative log-transformed (base 2) serum creatinine, adjusting for baseline serum creatinine.||1.19|0.79|0.78
82580491|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|51.6|||||TWO_SIDED|95.0|34.0|69.2|||||95% CI based on normal approximation to the binomial.|TPN (No): Success||69.2|34.0|
82580492|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|14.3|||||TWO_SIDED|95.0|0.0|40.2|||||95% CI based on normal approximation to the binomial.|Dialysis (Yes): Success||40.2|0.0|
82580493|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|54.1|||||TWO_SIDED|95.0|38.0|70.1|||||95% CI based on normal approximation to the binomial.|Dialysis (No): Success||70.1|38.0|
82580494|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|42.1|||||TWO_SIDED|95.0|19.9|64.3|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (Yes): Success||64.3|19.9|
82580495|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|52.0|||||TWO_SIDED|95.0|32.4|71.6|||||95% CI based on normal approximation to the binomial.|Abdominal surgery (No): Success||71.6|32.4|
82580496|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|47.7|||||TWO_SIDED|95.0|33.0|62.5|||||95% CI based on normal approximation to the binomial.|Solid organ transplant (No): Success||62.5|33.0|
82580497|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|14.3|||||TWO_SIDED|95.0|0.0|40.2|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (Yes): Success||40.2|0.0|
82580498|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|54.1|||||TWO_SIDED|95.0|38.0|70.1|||||95% CI based on normal approximation to the binomial.|Renal insufficiency (No): Success||70.1|38.0|
82580499|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|46.5|||||TWO_SIDED|95.0|31.6|61.4|||||95% CI based on normal approximation to the binomial.|Chemotherapy (No): Success||61.4|31.6|
82580500|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|40.0|||||TWO_SIDED|95.0|0.0|82.9|||||95% CI based on normal approximation to the binomial.|Pancreatitis (Yes): Success||82.9|0.0|
82580501|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|48.7|||||TWO_SIDED|95.0|33.0|64.4|||||95% CI based on normal approximation to the binomial.|Pancreatitis (No): Success||64.4|33.0|
82580502|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|41.7|||||TWO_SIDED|95.0|13.8|69.6|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (Yes): Success||69.6|13.8|
82476503|NCT03060551|164648166|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.256||||||p value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.256
82476504|NCT03060551|164648167|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.682||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.682
82476505|NCT03060551|164648168|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.151||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.151
82376964|NCT04238650|164460957|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.13|||||TWO_SIDED|90.0|1.03|1.24||||||||1.24|1.03|
82476506|NCT03060551|164648169|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.516||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.516
82476507|NCT03060551|164648170|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.|||||>|0.999||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||>0.999
82476508|NCT03060551|164648171|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.034||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.034
82476509|NCT03060551|164648172|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.656||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.656
82476510|NCT03060551|164648173|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.096||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.096
82476511|NCT03060551|164648174|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.019||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.019
82476512|NCT03060551|164648175|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.05||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.050
82476513|NCT03060551|164648176|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.372||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.372
82476514|NCT03060551|164648177|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.024||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.024
82580503|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|50.0|||||TWO_SIDED|95.0|32.7|67.3|||||95% CI based on normal approximation to the binomial.|Systemic steroids/immunos (No): Success||67.3|32.7|
82580504|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|66.7|||||TWO_SIDED|95.0|13.3|100.0|||||95% CI based on normal approximation to the binomial.|Neutropenic: Success||100.0|13.3|
82580505|NCT00548262|164872286|SUPERIORITY_OR_OTHER||percentage of participants with success|51.7|||||TWO_SIDED|95.0|33.5|69.9|||||95% CI based on normal approximation to the binomial.|Non-neutropenic: Success||69.9|33.5|
82476515|NCT03060551|164648178|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.188||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.188
82476516|NCT03060551|164648179|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.372||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.372
82476517|NCT03060551|164648180|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.633||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.633
82476518|NCT03060551|164648181|OTHER|Because most efficacy data consisted of non-parameteric variables, results were shown as median values and interquartile range. The Wilcoxon signed-rank test was performed to analyze differences between baseline and at 2W, 6W, 12W and 24W, respectively, using IBM-SPSS Statistics version 24.0 (SPSS Inc., Chicago, IL, USA). Statistical significance was considered at p \< 0.05. Safety profiles were descriptively analyzed.||||||0.38||||||p-value (24 weeks-baseline)|Wilcoxon (Mann-Whitney)|||||||0.380
82476519|NCT00893815|164648189|OTHER||Odds Ratio (OR)|0.55||||0.09|TWO_SIDED|95.0|0.27|1.1||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|||1.10|0.27|0.09
82476520|NCT00893815|164648190|OTHER||Odds Ratio (OR)|0.75||||0.45|TWO_SIDED|95.0|0.35|1.61||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of verbal fluency impairment between HIV-positive and HIV-negative military beneficiaries||1.61|0.35|0.45
82476521|NCT00893815|164648190|OTHER||Odds Ratio (OR)|0.74||||0.43|TWO_SIDED|95.0|0.35|1.56||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of abstraction executive functioning impairment between HIV-positive and HIV-negative military beneficiaries||1.56|0.35|0.43
82476522|NCT00893815|164648190|OTHER||Odds Ratio (OR)|1.45||||0.56|TWO_SIDED|95.0|0.41|5.17||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of speed of information processing impairment between HIV-positive and HIV-negative military beneficiaries||5.17|0.41|0.56
82476523|NCT00893815|164648190|OTHER||Odds Ratio (OR)|1.32||||0.49|TWO_SIDED|95.0|0.6|2.93||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of attention/working memory impairment between HIV-positive and HIV-negative military beneficiaries||2.93|0.60|0.49
82476524|NCT00893815|164648190|OTHER||Odds Ratio (OR)|0.43||||0.01|TWO_SIDED|95.0|0.22|0.84||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of learning impairment between HIV-positive and HIV-negative military beneficiaries||0.84|0.22|0.01
82476525|NCT00893815|164648190|OTHER||Odds Ratio (OR)|1.39||||0.46|TWO_SIDED|95.0|0.58|3.34||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of recall impairment between HIV-positive and HIV-negative military beneficiaries||3.34|0.58|0.46
82476526|NCT00893815|164648190|OTHER||Odds Ratio (OR)|0.89||||0.76|TWO_SIDED|95.0|0.43|1.85||Threshold for statistical significance: 0.05|Regression, Logistic||HIV-positive / HIV-negative|Comparing prevalence of motor speed \& dexterity impairment between HIV-positive and HIV-negative military beneficiaries||1.85|0.43|0.76
82476527|NCT00635219|164648199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.13||0.1321|TWO_SIDED|95.0|-3.92|0.51||Since p-value \>0.025, hierarchically testing stopped here.|ANCOVA||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||0.51|-3.92|0.1321
82476528|NCT00635219|164648199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.13||0.1847|TWO_SIDED|95.0|-3.73|0.72||Since p-value \>0.025, hierarchically testing stopped here.|ANCOVA||To adjust for multiplicity the two doses of vortioxetine were tested separately versus placebo in the primary and key secondary efficacy analyses at a Bonferroni-corrected significance level of 0.025.|As soon as an endpoint was non-significant at the 0.025 level of significance, the testing procedure was stopped for all subsequent endpoints.||0.72|-3.73|0.1847
82476529|NCT00635219|164648199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.12||0.2187|TWO_SIDED|95.0|-3.59|0.82||This dose was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||0.82|-3.59|0.2187
82476530|NCT00635219|164648199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|1.14||0.0741|TWO_SIDED|95.0|-4.27|0.2||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||0.20|-4.27|0.0741
82476531|NCT00635219|164648200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|1.13||0.112|TWO_SIDED|95.0|-4.01|0.42||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.42|-4.01|0.1120
82476532|NCT00635219|164648200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.63|STANDARD_ERROR_OF_MEAN|1.13||0.1487|TWO_SIDED|95.0|-3.85|0.59||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.59|-3.85|0.1487
82476533|NCT00635219|164648200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|1.12||0.3246|TWO_SIDED|95.0|-3.31|1.1||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.10|-3.31|0.3246
82476534|NCT00635219|164648200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.47|STANDARD_ERROR_OF_MEAN|1.13||0.0298|TWO_SIDED|95.0|-4.7|-0.24||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||-0.24|-4.70|0.0298
82476535|NCT00635219|164648201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.137|TWO_SIDED|95.0|0.9|2.23||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.23|0.90|0.1370
82476536|NCT00635219|164648201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.0664|TWO_SIDED|95.0|0.97|2.43||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.43|0.97|0.0664
82476537|NCT00635219|164648201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.2023|TWO_SIDED|95.0|0.85|2.12||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.12|0.85|0.2023
82476538|NCT00635219|164648201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.0765|TWO_SIDED|95.0|0.96|2.4||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||2.40|0.96|0.0765
82476539|NCT00635219|164648202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1436|TWO_SIDED|95.0|-0.47|0.07||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.07|-0.47|0.1436
82476540|NCT00635219|164648202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2114|TWO_SIDED|95.0|-0.44|0.1||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.10|-0.44|0.2114
82476541|NCT00635219|164648202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1389|TWO_SIDED|95.0|-0.47|0.07||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.07|-0.47|0.1389
82476542|NCT00635219|164648202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.14||0.1271|TWO_SIDED|95.0|-0.48|0.06||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.06|-0.48|0.1271
82476543|NCT00635219|164648203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.49||0.4421|TWO_SIDED|95.0|-4.08|1.79||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.79|-4.08|0.4421
82476544|NCT00635219|164648203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.49||0.4399|TWO_SIDED|95.0|-4.07|1.77||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.77|-4.07|0.4399
82476545|NCT00635219|164648203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|1.54||0.8093|TWO_SIDED|95.0|-2.65|3.4||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||3.40|-2.65|0.8093
82580506|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|68.6|||||TWO_SIDED|95.0|53.2|84.0|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (EIVT): Success||84.0|53.2|
82476546|NCT00635219|164648203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.53||0.0897|TWO_SIDED|95.0|-5.61|0.41||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.41|-5.61|0.0897
82476547|NCT00635219|164648204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.98||0.6748|TWO_SIDED|95.0|-2.35|1.52||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.52|-2.35|0.6748
82476548|NCT00635219|164648204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.99||0.0871|TWO_SIDED|95.0|-3.64|0.25||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.25|-3.64|0.0871
82476549|NCT00635219|164648204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99|STANDARD_ERROR_OF_MEAN|0.99||0.3186|TWO_SIDED|95.0|-2.94|0.96||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.96|-2.94|0.3186
82476550|NCT00635219|164648204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.01||0.0768|TWO_SIDED|95.0|-3.79|0.19||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.19|-3.79|0.0768
82476551|NCT00635219|164648205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13||||0.6258|TWO_SIDED|95.0|0.7|1.81||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.81|0.70|0.6258
82476552|NCT00635219|164648205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7178|TWO_SIDED|95.0|0.68|1.76||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.76|0.68|0.7178
82476553|NCT00635219|164648205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8651|TWO_SIDED|95.0|0.59|1.55||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.55|0.59|0.8651
82476554|NCT00635219|164648205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8563|TWO_SIDED|95.0|0.65|1.69||A nominal p-value is provided.|Adjusting for Baseline||No correction for multiplicity was made.|||1.69|0.65|0.8563
82476555|NCT00635219|164648206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.86||0.1925|TWO_SIDED|95.0|-2.82|0.57||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.57|-2.82|0.1925
82476556|NCT00635219|164648206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|0.87||0.2434|TWO_SIDED|95.0|-2.72|0.69||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.69|-2.72|0.2434
82476557|NCT00635219|164648206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.86||0.7246|TWO_SIDED|95.0|-2.0|1.39||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.39|-2.00|0.7246
82476558|NCT00635219|164648206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.87||0.0981|TWO_SIDED|95.0|-3.16|0.27||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.27|-3.16|0.0981
82476559|NCT00635219|164648207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2285|TWO_SIDED|95.0|-0.46|0.11||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.11|-0.46|0.2285
82476560|NCT00635219|164648207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.1794|TWO_SIDED|95.0|-0.48|0.09||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.09|-0.48|0.1794
82476561|NCT00635219|164648207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1741|TWO_SIDED|95.0|-0.48|0.09||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.09|-0.48|0.1741
82476562|NCT00635219|164648207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2247|TWO_SIDED|95.0|-0.46|0.11||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||0.11|-0.46|0.2247
82580507|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|22.2|||||TWO_SIDED|95.0|0.0|49.4|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (EIVT): Success||49.4|0.0|
82550641|NCT00686335|164804146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_DEVIATION|6.07|||TWO_SIDED|95.0|-13.5|-2.2||As this was an explorative study to collect data for a subsequent controlled study, no hypothesis testing was performed. All analyses were descriptive.|Other|As this was an explorative study, no hypothesis testing was performed. All analyses were descriptive.||As this was an explorative study to collect data for a subsequent controlled study, no hypothesis testing was performed. All analyses were descriptive.||-2.2|-13.5|
82550642|NCT04788511|164804147|SUPERIORITY||Estimated Treatment Difference|7.8|||<|0.0001|TWO_SIDED|95.0|4.8|10.9|||ANCOVA|||The responses at week 52 were analyzed using an analysis of covariance model with randomized treatment and stratification (BMI\<35.0 kg/m\^2, BMI\>=35.0 kg/m\^2) as factors and baseline KCCQ-CSS as covariate. The analysis was based on the in-trial period using the FAS population. Missing observations at week 52 were multiple (x1000) imputed from retrieved participants of the same randomized treatment arm.||10.9|4.8|<0.0001
82550643|NCT04788511|164804148|SUPERIORITY||Estimated Treatment Difference|-10.7|||<|0.0001|TWO_SIDED|95.0|-11.9|-9.4|||ANCOVA|||The responses were analyzed using an analysis of covariance model with randomized treatment and stratification (BMI\<35.0 kg/m\^2, BMI\>=35.0 kg/m\^2) as factors and baseline body weight (kg) as covariate. The analysis was based on the in-trial period using the FAS population. Missing observations at week 52 were multiple (x1000) imputed from retrieved participants of the same randomized treatment arm.||-9.4|-11.9|<0.0001
82550644|NCT03994653|164804194|SUPERIORITY||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|2.07|4.12|||Fisher Exact|||"Fishers exact test, conducted at each month prior to diagnosis comparing total purchases of relevant products (pain and indigestion medication) compared with all purchases in both cases and controls.~Power calculation: we used a power calculation assuming the Fisher Exact Test to calculate the minimum group size to detect a difference in purchase proportions that we hypothesised with 80% statistical power."||4.12|2.07|<0.001
82550645|NCT02143726|164804265|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0918|TWO_SIDED|95.0|0.23|1.33|||Log Rank|Stratified 1-sided log-rank test (stratified by ECOG performance status, prior systemic treatment for hürthle thyroid cancer, and treating site).||||1.33|0.23|0.0918
82550646|NCT02143726|164804267|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.3976|TWO_SIDED|95.0|0.53|4.96|||Log Rank|||||4.96|0.53|0.3976
82550647|NCT05590403|164804339|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-A GMT ratio (OA-RSV Group over Adults-HA-RSV Group) is less than (\<) 1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.83|1.09|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-HA-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||1.09|0.83|
82550648|NCT05590403|164804340|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group minus Adults-HA-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-2.65|||||TWO_SIDED|95.0|-8.54|3.28|||||The comparison is done using the difference of SRR (OA-RSV -Adults-HA-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||3.28|-8.54|
82550649|NCT05590403|164804341|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-B GMT ratio (OA-RSV Group over Adults-HA-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.79|1.02|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-HA-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||1.02|0.79|
82550650|NCT05590403|164804342|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group minus Adults-HA-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-3.95|||||TWO_SIDED|95.0|-10.39|2.53|||||The comparison is done using the difference of SRR (OA-RSV -Adults-HA-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to healthy adults aged 50-59 years of age compared with older adults aged 60 years of age or above.||2.53|-10.39|
82550651|NCT05590403|164804343|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-A GMT ratio (OA-RSV Group over Adults-AIR-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.84|||||TWO_SIDED|95.0|0.73|0.96|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-AIR-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||0.96|0.73|
82550652|NCT05590403|164804344|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group over Adults-AIR-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-6.67|||||TWO_SIDED|95.0|-12.26|-1.12|||||The comparison is done using the difference of SRR (OA-RSV -Adults-AIR-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||-1.12|-12.26|
82376933|NCT00919126|164460783|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.||The dose of propofol adjusted to BSA and maintenance duration was expected to be 4.0 mg/m².min in the control group, 2.8 mg/m².min in one xenon group and 3.0 mg/m².min in the other xenon group. With an expected common standard deviation of 2.0 mg/m².min, a type I error of 0.05 (two-sided) and a power of 0.80, the sample size required to show a statistically significant difference between the three groups was estimated to be 48 patients per group, resulting in a total of 144 randomised patients.||||<0.0001
82580508|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|71.4|||||TWO_SIDED|95.0|56.5|86.4|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (EOT): Success||86.4|56.5|
82476563|NCT00635219|164648208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.86||0.7789|TWO_SIDED|95.0|-1.93|1.45||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.45|-1.93|0.7789
82476564|NCT00635219|164648208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.87||0.8121|TWO_SIDED|95.0|-1.91|1.5||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.50|-1.91|0.8121
82476565|NCT00635219|164648208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.87||0.8918|TWO_SIDED|95.0|-1.82|1.59||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.59|-1.82|0.8918
82476566|NCT00635219|164648208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.87||0.972|TWO_SIDED|95.0|-1.69|1.75||A nominal p-value is provided.|ANCOVA||No correction for multiplicity was made.|||1.75|-1.69|0.9720
82476567|NCT00759564|164648213|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|124.71|||||TWO_SIDED|90.0|106.57|145.94||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||145.94|106.57|
82476568|NCT00759564|164648213|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|163.51|||||TWO_SIDED|90.0|139.72|191.34||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||191.34|139.72|
82476569|NCT00759564|164648213|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|58.4|||||TWO_SIDED|90.0|48.16|70.83||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||70.83|48.16|
82376934|NCT00919126|164460783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0256|||<|0.0001|TWO_SIDED|95.0|2.328|3.724||Pairwise comparison performed using Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 70% in Oxygen minus Medical Air in Oxygen was assessed.|||3.724|2.328|<0.0001
82476570|NCT00759564|164648215|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|167.59|||||TWO_SIDED|90.0|137.27|204.61||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||204.61|137.27|
82476571|NCT00759564|164648215|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|246.76|||||TWO_SIDED|90.0|202.11|301.27||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||301.27|202.11|
82476572|NCT00759564|164648215|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|107.13|||||TWO_SIDED|90.0|88.06|130.32||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||130.32|88.06|
82476573|NCT00759564|164648216|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|168.14|||||TWO_SIDED|90.0|137.4|205.75||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||205.75|137.40|
82476574|NCT00759564|164648216|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|248.38|||||TWO_SIDED|90.0|202.98|303.94||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||303.94|202.98|
82476575|NCT00759564|164648216|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|110.12|||||TWO_SIDED|90.0|89.84|134.98||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||134.98|89.84|
82476576|NCT00759564|164648218|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|134.86|||||TWO_SIDED|90.0|109.88|165.52||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||165.52|109.88|
82476577|NCT00759564|164648218|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|226.28|||||TWO_SIDED|90.0|184.36|277.72||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||277.72|184.36|
82580509|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|11.1|||||TWO_SIDED|95.0|0.0|31.6|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (EOT): Success||31.6|0.0|
82550653|NCT05590403|164804345|NON_INFERIORITY|Non-inferiority is demonstrated if the anti-RSV-B GMT ratio (OA-RSV Group over Adults-AIR-RSV Group) is \<1.5 at 1 month post RSVPreF3 OA vaccine administration.|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.71|0.91|||||The comparison is done using the group ratio of adjusted GMT (OA-RSV/Adults-AIR-RSV) (ANCOVA model applied to the log10- transformed titers). The ANCOVA model included the group as fixed effects and the pre-dose log-10 titer as covariate|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||0.91|0.71|
82550654|NCT05590403|164804346|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (OA-RSV Group over Adults-AIR-RSV Group) in terms of SRR is \<10%, at 1 month post RSVPreF3 OA vaccine administration.|Difference in percentage|-7.31|||||TWO_SIDED|95.0|-13.52|-1.09|||||The comparison is done using the difference of SRR (OA-RSV -Adults-AIR-RSV)|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when administered to adults at increased risk of RSV-LRTD aged 50-59 years of age compared with older adults aged 60 years of age or above.||-1.09|-13.52|
82550655|NCT01160211|164804396|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0063|TWO_SIDED|95.0|0.45|0.88||Pike estimate of the treatment hazard ratio, \<1 indicates a lower risk compared with trastuzumab + AI.|Log Rank|using a two-sided stratified log-rank test (based on stratification factors)||Null hypothesis H0: λ ≥ 1 or to reject it in favor of the alternative hypothesis HA: λ \<1, where λ is the hazard ratio (HR) between Treatment Group A and Treatment Group B for progression-free survival.||0.88|0.45|0.0063
82550656|NCT01160211|164804398|SUPERIORITY||Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.44|0.79||||||||0.79|0.44|
82550657|NCT01160211|164804398|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.66|1.15||||||||1.15|0.66|
82476578|NCT00759564|164648218|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|285.05|||||TWO_SIDED|90.0|221.8|366.33||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed Cmax for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||366.33|221.80|
82476579|NCT00759564|164648220|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|209.31|||||TWO_SIDED|90.0|158.81|275.87||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||275.87|158.81|
82550658|NCT01160211|164804398|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.51|0.92||||||||0.92|0.51|
82550659|NCT01160211|164804404|SUPERIORITY||Least square difference|-1.79|STANDARD_ERROR_OF_MEAN|2.111|||TWO_SIDED|95.0|-5.95|2.36||||||FACT-B total score||2.36|-5.95|
82550660|NCT01160211|164804404|SUPERIORITY||Least square difference|-3.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-8.09|0.29||||||FACT-B total score||0.29|-8.09|
82550661|NCT01160211|164804404|SUPERIORITY||Least square difference|-1.5|STANDARD_ERROR_OF_MEAN|1.739|||TWO_SIDED|95.0|-4.92|1.92||||||FACT-G total score||1.92|-4.92|
82580510|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|57.1|||||TWO_SIDED|95.0|40.7|73.5|||||95% CI based on normal approximation to the binomial.|APACHE \<20 (Week 2 F/U): Success||73.5|40.7|
82476580|NCT00759564|164648220|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|353.0|||||TWO_SIDED|90.0|267.83|465.25||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||465.25|267.83|
82476581|NCT00759564|164648220|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|742.68|||||TWO_SIDED|90.0|529.59|1041.5||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUClast for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||1041.50|529.59|
82550662|NCT01160211|164804404|SUPERIORITY||Least square difference|-3.1|STANDARD_ERROR_OF_MEAN|1.751|||TWO_SIDED|95.0|-6.55|0.34||||||FACT-G total score||0.34|-6.55|
82550663|NCT01160211|164804404|SUPERIORITY||Least square difference|-2.7|STANDARD_ERROR_OF_MEAN|1.502|||TWO_SIDED|95.0|-5.66|0.25||||||FACT-B trial outcome index (TOI)||0.25|-5.66|
82550664|NCT01160211|164804404|SUPERIORITY||Least square difference|-3.61|STANDARD_ERROR_OF_MEAN|1.512|||TWO_SIDED|95.0|-6.59|-0.64||||||FACT-B trial outcome index (TOI)||-0.64|-6.59|
82550665|NCT01160211|164804404|SUPERIORITY||Least square difference|-1.46|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.82|-0.11||||||Physical well-being (PWB)||-0.11|-2.82|
82550666|NCT01160211|164804404|SUPERIORITY||Least square difference|-1.54|STANDARD_ERROR_OF_MEAN|0.693|||TWO_SIDED|95.0|-2.9|-0.18||||||Physical well-being (PWB)||-0.18|-2.90|
82550667|NCT01160211|164804404|SUPERIORITY||Least square difference|0.39|STANDARD_ERROR_OF_MEAN|0.711|||TWO_SIDED|95.0|-1.01|1.79||||||Social family wellbeing (SWB)||1.79|-1.01|
82550668|NCT01160211|164804404|SUPERIORITY||Least square difference|-0.55|STANDARD_ERROR_OF_MEAN|0.715|||TWO_SIDED|95.0|-1.96|0.86||||||Social family wellbeing (SWB)||0.86|-1.96|
82550669|NCT01160211|164804404|SUPERIORITY||Least square difference|0.54|STANDARD_ERROR_OF_MEAN|0.568|||TWO_SIDED|95.0|-0.57|1.66||||||Emotional wellbeing (EWB)||1.66|-0.57|
82550670|NCT01160211|164804404|SUPERIORITY||Least square difference|0.4|STANDARD_ERROR_OF_MEAN|0.571|||TWO_SIDED|95.0|-0.72|1.53||||||Emotional wellbeing (EWB)||1.53|-0.72|
82550671|NCT01160211|164804404|SUPERIORITY||Least square difference|-0.99|STANDARD_ERROR_OF_MEAN|0.646|||TWO_SIDED|95.0|-2.26|0.28||||||Functional wellbeing (FWB)||0.28|-2.26|
82550672|NCT01160211|164804404|SUPERIORITY||Least square difference|-1.32|STANDARD_ERROR_OF_MEAN|0.649|||TWO_SIDED|95.0|-2.6|-0.04||||||Functional wellbeing (FWB)||-0.04|-2.60|
82550673|NCT01160211|164804404|SUPERIORITY||Least square difference|-0.35|STANDARD_ERROR_OF_MEAN|0.665|||TWO_SIDED|95.0|-1.66|0.95||||||Breast cancer subscale (BCS)||0.95|-1.66|
82580511|NCT00548262|164872287|SUPERIORITY_OR_OTHER||percentage of participants with success|11.1|||||TWO_SIDED|95.0|0.0|31.6|||||95% CI based on normal approximation to the binomial.|APACHE ≥20 (Week 2 F/U): Success||31.6|0.0|
82476582|NCT00759564|164648221|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|209.55|||||TWO_SIDED|90.0|158.72|276.66||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for mild renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||276.66|158.72|
82476583|NCT00759564|164648221|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|353.26|||||TWO_SIDED|90.0|267.57|466.39||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for moderate renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||466.39|267.57|
82476584|NCT00759564|164648221|SUPERIORITY_OR_OTHER||Percent Geometric Mean Ratio|735.77|||||TWO_SIDED|90.0|523.56|1034.0||||||A one-way ANOVA model with group as a fixed effect was used to compare the natural log transformed AUCinf for severe renal impairment group (Test) to normal renal function group (Reference). The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||1034.00|523.56|
82550674|NCT01160211|164804404|SUPERIORITY||Least square difference|-0.83|STANDARD_ERROR_OF_MEAN|0.668|||TWO_SIDED|95.0|-2.14|0.48||||||Breast cancer subscale (BCS)||0.48|-2.14|
82550675|NCT03194217|164804428|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.7||0.668|TWO_SIDED|95.0|-1.68|1.08|||ANCOVA|||||1.08|-1.68|0.668
82550676|NCT03194217|164804428|SUPERIORITY||Mean Difference (Final Values)|0.88|STANDARD_ERROR_OF_MEAN|0.7||0.213|TWO_SIDED|95.0|-0.5|2.26|||ANCOVA|||||2.26|-0.50|0.213
82550677|NCT03194217|164804428|SUPERIORITY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.7||0.575|TWO_SIDED|95.0|-1.76|0.98|||ANCOVA|||||0.98|-1.76|0.575
82476585|NCT04145219|164648239|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.0001|TWO_SIDED|95.0|0.5|1.4||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average daily TCRS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.4|0.5|<0.0001
82476586|NCT04145219|164648240|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.0001|TWO_SIDED|95.0|0.2|0.6||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinitis DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.6|0.2|<0.0001
82476587|NCT04145219|164648241|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.0016|TWO_SIDED|95.0|0.2|0.8||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis|||The average rhinitis DMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.8|0.2|0.0016
82550678|NCT04806451|164804429|SUPERIORITY||LS Mean Difference|-267.775|STANDARD_ERROR_OF_MEAN|68.313||0.0002|TWO_SIDED|95.0|-403.427|-132.124|||ANCOVA|||||-132.124|-403.427|0.0002
82550679|NCT05835336|164804436|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|7.45|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82550680|NCT05835336|164804437|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82550681|NCT05835336|164804438|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|3.55||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82550682|NCT05835336|164804439|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|5.16||||0.032|TWO_SIDED||||||t-test, 2 sided|||||||0.032
82550683|NCT05835336|164804441|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|7.58||||0.035|TWO_SIDED||||||t-test, 2 sided|||||||0.035
82476588|NCT04145219|164648242|SUPERIORITY||Mean Difference (Final Values)|1.1|||<|0.0001|TWO_SIDED|95.0|0.6|1.7||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs.12 SQ-HDM|||1.7|0.6|<0.0001
82476589|NCT04145219|164648243|SUPERIORITY||Mean Difference (Final Values)|0.5|||<|0.0001|TWO_SIDED|95.0|0.3|0.7|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.7|0.3|<0.0001
82550684|NCT05835336|164804442|SUPERIORITY|Considering the exploratory nature of the study, a sample size of at least 0.5 (Cohen's D) for a 2-Tailed test, at alpha-0.05 with a power of 80%, was chosen to detect significant within-subject effects.|Mean Difference (Final Values)|-1.13||||0.521|TWO_SIDED||||||t-test, 2 sided|||||||.521
82580512|NCT02327351|164872343|SUPERIORITY||survival distribution function|86.0||||0.95|TWO_SIDED|95.0|79.0|94.0|||Gray test|||||94|79|0.95
82580513|NCT02327351|164872349|SUPERIORITY|||||||0.35|||||||Log Rank|||||||0.35
82550685|NCT04489771|164804443|SUPERIORITY|P-value, difference in percentage and associated 95% CI were calculated using Miettinen \& Nurminen method stratified by IMDC risk categories (favorable vs. intermediate or poor).|Difference in Percentage|-0.5||||0.5312|TWO_SIDED|95.0|-14.0|12.9||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen||Belzutifan 200 mg minus Belzutifan 120 mg|||12.9|-14.0|0.5312
82550686|NCT04489771|164804444|OTHER||Hazard Ratio (HR)|0.94||||0.3861|TWO_SIDED|95.0|0.63|1.4||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Log Rank|One-sided nominal p-value based on log-rank test stratified by IMDC risk group (favorable vs. intermediate or poor).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate or poor).|||1.40|0.63|0.3861
82550687|NCT04489771|164804446|OTHER|One-sided nominal p-value, difference in percentage and associated 95% CIs were based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate or poor).|Miettinen & Nurminen method|-6.3||||0.7832|TWO_SIDED|95.0|-21.7|9.4|||Miettinen & Nurminen method|||||9.4|-21.7|0.7832
82550688|NCT04489771|164804447|OTHER||Hazard Ratio (HR)|1.11||||0.6448|TWO_SIDED|95.0|0.65|1.9||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Log Rank|One-sided nominal p-value based on log-rank test stratified by IMDC risk group (favorable vs. intermediate or poor).|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate or poor).|||1.90|0.65|0.6448
82550689|NCT02132936|164804463|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55|||<|0.001|TWO_SIDED|95.0|1.46|4.46|||Mantel Haenszel|||"Mantel-Haenszel odds of treatment success in LEO 90100 group relative to calcipotriol BDP gel group, adjusted for pooled centre and baseline PGA.~Multiple imputation was used to handle missing PGA values."||4.46|1.46|<0.001
82550690|NCT02132936|164804464|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18|||=|0.001|TWO_SIDED|95.0|1.37|3.47|||Mantel Haenszel|||"Mantel-Haenszel odds of having PASI 75 in LEO 90100 group relative to calcipotriol BDP gel group, adjusted for pooled centre and baseline PGA.~Multiple imputation was used to handle missing data."||3.47|1.37|=0.001
82550691|NCT02132936|164804465|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
82550692|NCT02132936|164804466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||Mean change in itch adjusted for pooled centre, baseline PGA and baseline itch. Multiple imputation used for missing data.||||<0.001
82550693|NCT02132936|164804467|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.33|TWO_SIDED||||||ANCOVA|||Mean change in itch adjusted for pooled centre, baseline PGA and baseline itch. Multiple imputation used for missing data.||||=0.33
82550694|NCT02561585|164804476|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.97|TWO_SIDED|95.0|-12.05|11.65||t-test in a baseline adjusted linear model|t-test, 2 sided|t-test, 2 sided on a 5% level||||11.65|-12.05|0.97
82376935|NCT00919126|164460783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2905|||<|0.0001|TWO_SIDED|95.0|1.57|3.011||Pairwise comparison performed using Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 50% in Oxygen minus Medical Air in Oxygen was assessed.|||3.011|1.570|<0.0001
82550695|NCT03134196|164804490|SUPERIORITY||Hazard Ratio (HR)|0.78|STANDARD_DEVIATION|0.11|||TWO_SIDED|95.0|0.5|1.06||||||||1.06|0.5|
82550696|NCT03134196|164804491|SUPERIORITY||Hazard Ratio (HR)|0.74|STANDARD_DEVIATION|0.04|||TWO_SIDED|95.0|0.56|0.99||||||||0.99|0.56|
82550697|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550698|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82580514|NCT00719329|164872442|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.75|||||TWO_SIDED|95.0|0.7|0.81|||Binomial Regression, Log Link|General Estimating Equations (GEE) to account for clustered allocation|Prevalence Rate Ratio - Comparing Single CHX Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.81|0.70|
82550699|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550700|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550701|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550702|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550703|NCT00875277|164804496|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||0.035
82550704|NCT00875277|164804496|SUPERIORITY|||||||0.082|||||||t-test, 2 sided|||||||0.082
82550705|NCT00875277|164804496|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||0.009
82550706|NCT00875277|164804496|SUPERIORITY|||||||0.012|||||||t-test, 2 sided|||||||0.012
82550707|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550708|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550709|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550710|NCT00875277|164804496|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82550711|NCT00875277|164804496|SUPERIORITY|||||||0.089|||||||t-test, 2 sided|||||||0.089
82550712|NCT04059484|164804555|SUPERIORITY||Hazard Ratio (HR)|1.051||||0.6437|TWO_SIDED|95.0|0.789|1.4||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025 level.|Stratified Log-Rank test|Stratified on presence of visceral metastasis, prior treatment with CDK4/6 inhibitors and ECOG according to IRT.|Amcenestrant versus PCEM|A hierarchical testing procedure was used to ensure a strong control of the overall Type I error. Testing was then performed sequentially in order the outcome measures was reported and continued when previous outcome measure was statistically significant at one-sided 2.5% for the primary and the first secondary outcome.||1.4|0.789|0.6437
82550713|NCT04292223|164804568|OTHER|Comparison of the 16-week value with the baseline value|Mean Difference (Final Values)|14.0|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|8.8|19.3|||Mixed Models Analysis|||||19.3|8.8|<0.0001
82550714|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|-0.37||||0.011|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of G. vaginalis at baseline and during Nuvaring Use (M2-M3)||||0.011
82550715|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|-0.69||||0.008|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of G. vaginalis at baseline and during Nuvaring Use (M3-M6)||||0.008
82550716|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.08||||0.662|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. iners at baseline and during Nuvaring Use (M2-M3)||||0.662
82476590|NCT04145219|164648244|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.0018|TWO_SIDED|95.0|0.2|1.0|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis DMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.0|0.2|0.0018
82476591|NCT04145219|164648245|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.2||This endpoint was controlled for multiplicity using hierarchical testing|Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The overall PRQLQ score was analysed using a linear mixed effect (LME) model. The model includes the overall PRQLQ score as response variable, treatment and cohort as fixed factors, the baseline overall PRQLQ score as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.2|0.1|<0.0001
82476592|NCT04145219|164648246|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.0259|TWO_SIDED|95.0|0.0|0.2|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average asthma DSS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.2|0.0|0.0259
82476593|NCT04145219|164648247|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0527|TWO_SIDED|95.0|1.0|3.3|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a SABA free day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included SABA free day (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average asthma DSS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a day where a subject with asthma did not use SABA, odds ratio is (odds active/odds Placebo).||3.3|1.0|0.0527
82476594|NCT04145219|164648248|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.1256|TWO_SIDED|95.0|-0.1|1.0|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The endpoint was analysed using a linear mixed effect (LME) model. The model includes the endpoint as response variable, treatment and cohort as fixed factors, the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||1.0|-0.1|0.1256
82476595|NCT04145219|164648249|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0008|TWO_SIDED|95.0|1.3|2.5|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a rhinitis mild day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included the endpoint (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average rhinitis TCRS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a day with no or mild rhinitis symptoms, odds ratio is (odds 12 SQ-HDM / odds Placebo).||2.5|1.3|0.0008
82476596|NCT04145219|164648250|SUPERIORITY||Odds Ratio (OR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.4|0.7|||Generalised linear mixed model (GLMM)||Odds ratio is (odds 12 SQ-HDM / odds Placebo)|The odds of having a rhinitis exacerbation day was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included the endpoint (yes/no) as response variable, treatment and cohort as fixed effects, the baseline average rhinitis DSS as a covariate, the combined (country/region) variable within cohort and subject as random effects. Proportion is the estimated probability of having a rhinitis exacerbation day, odds ratio is (odds 12 SQ-HDM / odds Placebo).||0.7|0.4|<0.0001
82476597|NCT04145219|164648251|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.3|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinitis CSMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.3|0.1|<0.0001
82476598|NCT04145219|164648252|SUPERIORITY||Mean Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|95.0|0.1|0.3|||Mixed Models Analysis||Placebo vs. 12 SQ-HDM|The average rhinoconjunctivitis CSMS was analysed using a linear mixed effect (LME) model with square root transformation. The model includes the square root of the endpoint as response variable, treatment and cohort as fixed factors, the square root of the baseline value as a covariate, country/region within cohort as a random effect, and with different residual errors specified for each treatment. No missing data approach was applied.||0.3|0.1|<0.0001
82376936|NCT00919126|164460783|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7351||||0.0365|TWO_SIDED|95.0|0.038|1.432||Pairwise comparison was performed using the Tukey's test.|ANCOVA|The analysis of covariance was adjusted for quantity of propofol (mg) administered during the induction period, gender, type of surgery and centre.|The difference Xenon 70% in Oxygen minus Xenon 50% in Oxygen was assessed|||1.432|0.038|0.0365
82476599|NCT00835211|164648277|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|97.5||||||90.0|87.8|108.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.3|87.8|
82550717|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.48||||0.41|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. iners at baseline and during Nuvaring Use (M3-M6)||||0.41
82476600|NCT00835211|164648278|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|95.6||||||90.0|86.9|105.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.2|86.9|
82476601|NCT00835211|164648279|NON_INFERIORITY_OR_EQUIVALENCE|Analyses of Variance (ANOVA) were performed on the log-transformed AUC0-t, AUCinf and Cmax. These analyses were performed using the SAS® procedure.|Test/Ref Ratio of LS Means x 100|96.5||||||90.0|87.7|106.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.1|87.7|
82476602|NCT02343549|164648281|SUPERIORITY||12-Month Survival Rate|0.333||||0.537|TWO_SIDED|95.0|0.075|0.701||This p-value is only based on partial enrollment of Stage 1. As enrollment was halted early, this p-value is descriptive in nature and cannot determine the success/failure of the trial.|Fisher Exact||Confidence interval estimated using the Clopper Pearson method.|Assuming the true 12-month survival rate is 0.30 under the null hypothesis, then this design will provide 90% power to detect a difference of 0.20 under the alternative hypothesis, assuming a one-sided alpha = 0.10 significance level. A Simon optimal 2-stage design with Stage 1 n=22 and a total of n=46 subjects was determined with the following rejection regions: For n = 22, the rejection region in number of subjects alive at 12 months is 0 - 7, and for n = 46 it is 8 - 17.||0.701|0.075|0.537
82476603|NCT02343549|164648282|OTHER|Estimation Only|Median|9.9|||||TWO_SIDED|95.0|4.8|12.8|||||The Kaplan Meier method was used to estimate median OS(in months). The Greenwood method was used to estimate confidence limits of median overall survival.|||12.8|4.8|
82476604|NCT02343549|164648283|OTHER|Estimation Only|Median|7.9|||||TWO_SIDED|95.0|4.8|10.4|||||The Kaplan Meier method was used to estimate median PFS (in months). The Greenwood method was used to estimate confidence limits of median progression free survival.|||10.4|4.8|
82476605|NCT02343549|164648284|OTHER|Estimation only|Response Rate|0.333|||||TWO_SIDED|95.0|0.075|0.701|||||Confidence interval estimated using the Clopper Pearson method.|||0.701|0.075|
82476606|NCT02343549|164648285|OTHER|Estimation only|Disease Control Rate|1.0|||||TWO_SIDED|95.0|0.664|1.0||||||||1.000|0.664|
82476607|NCT02343549|164648286|OTHER|Estimation only.|Median|8.1|||||TWO_SIDED|95.0|3.7|8.6|||||The Kaplan Meier method was used to estimate median duration of response (in months). The Greenwood method was used to estimate confidence limits of median duration of response.|||8.6|3.7|
82476608|NCT02343549|164648287|OTHER|Estimation Only|Median|7.9|||||TWO_SIDED|95.0|4.8|10.4|||||The Kaplan Meier method was used to estimate median duration of disease control (in months). The Greenwood method was used to estimate confidence limits of median duration of disease control.|||10.4|4.8|
82476609|NCT05498701|164648306|OTHER||Ratios of Adjusted Geometric Means|93.19|||||TWO_SIDED|90.0|87.1|99.7||||||Bioequivalence of the Test treatment (Tafamidis free acid 12.2 mg oral tablet \[Fasted\]) to Reference treatment (Tafamidis meglumine 20 mg oral capsule \[Fasted\]) was concluded if the 90% confidence intervals for the ratios of adjusted geometric means for tafamidis AUCinf fell entirely within the acceptance region of (80%,125%).||99.70|87.10|
82550718|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.23||||0.164|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. crispatus at baseline and during Nuvaring Use (M2-M3)||||0.164
82476610|NCT05498701|164648307|OTHER||Ratio of Adjusted Geometric Means|81.0||||||90.0|76.25|86.04||||||Bioequivalence of the Test treatment (Tafamidis free acid 12.2 mg oral tablet \[Fasted\]) to Reference treatment (Tafamidis meglumine 20 mg oral capsule \[Fasted\]) was concluded if the 90% confidence intervals for the ratios of adjusted geometric means for tafamidis Cmax fell entirely within the acceptance region of (80%,125%).||86.04|76.25|
82476611|NCT01864005|164648308|SUPERIORITY_OR_OTHER|||||||0.0021||||||not adjusted for multiple comparisons. statistical significance level: 0.05|Wilcoxon (Mann-Whitney)|||||||0.0021
82476612|NCT01864005|164648308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.421||||0.0003|TWO_SIDED|95.0|18.559|58.283|||ANOVA|||||58.283|18.559|0.0003
82476613|NCT01864005|164648309|SUPERIORITY_OR_OTHER|||||||0.0828|||||||Wilcoxon (Mann-Whitney)|||||||0.0828
82476614|NCT01864005|164648310|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82476615|NCT01864005|164648311|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82476616|NCT01864005|164648312|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82550719|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.35||||0.183|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|||Mean quantity of L. crispatus at baseline and during Nuvaring Use (M3-M6)||||0.183
82550720|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.12||||0.506|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. jensenii at baseline and during Nuvaring Use (M2-M3)||||0.506
82476617|NCT00763698|164648320|SUPERIORITY_OR_OTHER||Objective Performance Criteria|80.0|||||ONE_SIDED|95.0|5.0||||Kaplan-Meier Survival Analysis|||The objective performance criteria established for freedom from left ventricular lead related complications at 3 months was greater than 80%. At least 80% of the patients were required to be free from left venticular lead related complications at 3 months.|||5|
82476618|NCT00763698|164648321|SUPERIORITY_OR_OTHER||Objective Performance Criteria|80.0|||||ONE_SIDED|97.5|2.5||||Wilson score interval method||||||2.5|
82476619|NCT02184572|164648323|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper limit of the 2-sided standardised asymptotic 95% Confidence Interval (CI) for the group difference (INV\_MMR minus COM\_MMR) in incidence of fever ≥ 39.0°C (≥ 102.2°F) should be equal to or below 5%.|Difference in incidence of fever|1.11|||||TWO_SIDED|95.0|-0.93|2.89||||||Difference between groups (INV\_MMR Group minus COM\_MMR Group) in incidence of fever \> 39.0°C.||2.89|-0.93|
82476620|NCT02184572|164648323|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The upper limit of the 2-sided standardised asymptotic 95% CI for the group difference (INV\_MMR minus COM\_MMR) in incidence of fever ≥ 38.0°C (≥ 100.4°F) should be equal to or below 10%.|Difference in incidence of fever|1.09|||||TWO_SIDED|95.0|-2.89|4.85||||||Difference between groups (INV\_MMR Group minus COM\_MMR Group) in incidence of fever \> 38.0°C.||4.85|-2.89|
82550721|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.38||||0.119|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of L. jensenii at baseline and during Nuvaring Use (M3-M6)||||0.119
82550722|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.1||||0.51|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of Megasphaera at baseline and during Nuvaring Use (M2-M3)||||0.510
82550723|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|-0.3||||0.168|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of Megasphaera at baseline and during Nuvaring Use (M3-M6)||||0.168
82476621|NCT01433289|164648356|SUPERIORITY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||The study hypothesis tested whether Polyphenon E given twice daily for 14 days at the specified doses has an effect on antiviral activity compared with placebo, measured by differences from baseline to day 14 in plasma HIV-1 RNA level (log10 copies/mL). The Wilcoxon signed-rank test was used to test the null hypothesis that there was no change at Day 14 versus baseline.||||>0.05
82476622|NCT01433289|164648356|SUPERIORITY|||||||0.74||||||Analysis was stratified by treatment group. The Kruskal-Wallis test was used to compare the change of log10 HIV-1 RNA copies/ml between treatment groups.|Kruskal-Wallis|||||||0.74
82476623|NCT00244140|164648360|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR1|95.8||||||95.0|93.3|97.6||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 1 (BR1).||97.6|93.3|
82476624|NCT00244140|164648360|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR2|96.3||||||95.0|93.9|98.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 2 (BR2).||98.0|93.9|
82476625|NCT00244140|164648360|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent: BR3|98.4||||||95.0|96.6|99.4||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 3 (BR3).||99.4|96.6|
82476626|NCT00244140|164648361|SUPERIORITY_OR_OTHER||Percent Images Rated Yes|99.7||||||95.0|98.6|100.0||||||||100.0|98.6|
82476627|NCT00244140|164648362|SUPERIORITY_OR_OTHER||Percent Images Rated Good/Excellent|99.5||||||95.0|98.1|99.9||||||||99.9|98.1|
82476628|NCT00244140|164648363|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR1|98.4||||||95.0|96.6|99.4||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 1 (BR1).||99.4|96.6|
82476629|NCT00244140|164648363|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR2|100.0||||||95.0|99.0|100.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 2 (BR2).||100.0|99.0|
82476630|NCT00244140|164648363|SUPERIORITY_OR_OTHER||Percent Images Rated Yes: BR3|99.7||||||95.0|98.6|100.0||||||Study was uncontrolled - No comparison between groups. The 95% Confidence Interval (CI) were calculated for each of the 3 blinded readers separately. This analysis refers to the assessment of blinded reader 3 (BR3).||100.0|98.6|
82476631|NCT05408637|164648364|OTHER|The small sample size did not allow for statistical tests. Therefore, we looked at overall patterns and calculated differences between stimulation (Active vs Sham).|Mean Difference (Final Values)|54.75|||||TWO_SIDED||||||||Difference = Active - Sham|||||
82476632|NCT05408637|164648364|OTHER||Percent Difference|0.85|||||TWO_SIDED||||||||Difference = Active - Sham|The small sample size did not allow for statistical tests. Therefore, we looked at percent difference between stimulation (Active vs Sham).||||
82550724|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|0.07||||0.454|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of BVAB2 at baseline and during Nuvaring Use (M2-M3)||||0.454
82550725|NCT02432404|164804589|OTHER||Mean Difference (Final Values)|-0.1||||0.471|TWO_SIDED|||||p\<0.05 is considered statistically significant.|Random effects mixed model|Random effects mixed model: random effects for subject and time category, with unstructured covariance, and AR(1) residuals; and robust SEs.||Mean quantity of BVAB2 at baseline and during Nuvaring Use (M3-M6)||||0.471
82476633|NCT05408637|164648364|OTHER||Cohen's d|0.07|||||TWO_SIDED|||||||||We evaluated the effect size of the difference between Active and Sham using Cohen's d.||||
82476634|NCT05408637|164648365|OTHER|The small sample size did not allow for statistical tests. Therefore, we looked at overall patterns and calculated differences between active stimulation timepoints (Day 1 vs Day 5).|Mean Difference (Final Values)|224.8392|||||TWO_SIDED||||||||Difference = Day 5 Active - Day 1 Active|||||
82550726|NCT04473222|164804639|SUPERIORITY||Odds Ratio, log|-0.15||||0.026|TWO_SIDED||||||t-test, 2 sided||The logit represents the difference in log odds per 1-week change in time for the intervention group relative to enhanced usual care.|||||.026
82376937|NCT02075515|164460807|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\]|Adjusted GMC Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.09|||ANCOVA|||||1.09|0.86|
82476635|NCT05408637|164648365|OTHER||Percent Difference|4.35|||||TWO_SIDED||||||||Difference = Day 5 Active - Day 1 Active|The small sample size did not allow for statistical tests. Therefore, we calculated percent difference between active stimulation timepoints (Day 1 vs Day 5).||||
82476636|NCT05408637|164648365|OTHER||Cohen's d|0.36|||||TWO_SIDED|||||||||We evaluated the effect size of the difference between active stimulation timepoints (Day 1 vs Day 5) using Cohen's d.||||
82476637|NCT05408637|164648366|OTHER||rank biserial correlation coefficient|0.767||||0.15|TWO_SIDED||||||Wilcoxon signed rank test|||The Wilcoxon signed-rank test was used to evaluate changes in the IGT at Baseline vs Day 5 due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.||||0.15
82550727|NCT04473222|164804640|SUPERIORITY||Odds Ratio, log|-0.2||||0.032|TWO_SIDED||||||t-test, 2 sided||The logit represents the difference in log odds per 1-week change in time for the intervention group relative to enhanced usual care.|||||0.032
82550728|NCT04473222|164804641|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.009||0.01|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||.010
82550729|NCT04473222|164804642|SUPERIORITY||Slope|0.009|STANDARD_ERROR_OF_MEAN|0.009||0.161|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.161
82550730|NCT04473222|164804643|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.01||0.006|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.006
82550731|NCT04473222|164804644|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.04||0.045|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.045
82550732|NCT04473222|164804645|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.685|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.685
82550733|NCT04473222|164804646|SUPERIORITY||Slope|0.42|STANDARD_ERROR_OF_MEAN|1.22||0.734|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.734
82550734|NCT04473222|164804647|SUPERIORITY||Slope|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.019|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.019
82550735|NCT04473222|164804648|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.776|TWO_SIDED||||||t-test, 2 sided||The estimate represents the differential change in slope per week for the intervention group relative to enhanced usual care.|||||0.776
82550736|NCT03959696|164804669|SUPERIORITY||Mean Difference (Net)|0.36||||0.011|TWO_SIDED|95.0|0.08|0.64||A priori threshold for statistical significance is .05|Regression, Linear|We used a linear regression model with Generalized Estimating Equations (GEE) techniques to account for the patients-within-physicians data structure|Mean difference is the Training + Notification arm minus the Notification only arm|The null hypothesis SDMP is equal in the two arms||.64|.08|.011
82550737|NCT03959696|164804670|SUPERIORITY||Mean Difference (Net)|1.77||||0.36|TWO_SIDED|95.0|-2.01|5.55||A priori threshold for statistical significance is .05|Regression, Linear|We used a linear regression model with Generalized Estimating Equations (GEE) techniques to account for the patients-within-physicians data structure||The null hypothesis is that the two arms have the same knowledge score||5.55|-2.01|0.36
82550738|NCT03959696|164804671|SUPERIORITY|We will have 81% power to detect a difference of 14% in rates (e.g. decrease from 61% to 47%).||||||0.47|||||||Regression, Logistic|||We will compare the percentages of patients who received their preferred screening in the 12 months after the visit across the two groups using logistic regression model with the GEE approach to adjust for clustering of patients within clinicians.||||0.47
82550739|NCT03959696|164804672|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
82550740|NCT03959696|164804673|SUPERIORITY||Risk Difference (RD)|9.4||||0.032|TWO_SIDED|95.0|0.9|18.0|||Chi-squared|||Null hypothesis was equal screening rate in both arms||18.0|0.9|0.032
82550741|NCT03959696|164804674|SUPERIORITY||Risk Difference (RD)|1.5||||0.64|TWO_SIDED||||||Chi-squared|||||||0.64
82550742|NCT02301910|164804700|NON_INFERIORITY|The calculation was carried out taking into account the power of 80%||||||0.87|||||||ANOVA|||||||0.87
82580515|NCT00719329|164872442|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.71|||||TWO_SIDED|95.0|0.66|0.77|||Binomial Regression, Log Link|General Estimating Equations (GEE) to account for clustered allocation|Prevalence Rate Ratio - Comparing Multiple CHX Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.77|0.66|
82550743|NCT03524612|164804717|OTHER||||||<|0.0001|||||||Clopper Pearson test|||||||<0.0001
82550744|NCT00613106|164804742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4228||95.0|||||Cochran-Mantel-Haenszel|||||||0.4228
82550745|NCT05329220|164804830|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.89||||0.635|TWO_SIDED|97.5|0.5|1.57||P-value corresponds to Cohort 1 ABNCoV2 comparison to Cohort 1 Comirnaty|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to having at least 400 evaluable subjects with primary endpoint data available at baseline and at 2 weeks after trial vaccination. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||1.57|0.50|0.6350
82550746|NCT05329220|164804830|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.8||||0.0002|TWO_SIDED|97.5|0.7|0.92||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to having at least 400 evaluable subjects with primary endpoint data available at baseline and at 2 weeks after trial vaccination. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.92|0.70|0.0002
82580516|NCT00719329|164872443|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.78|||||TWO_SIDED|95.0|0.74|0.82|||Binomial Regression, Log Link|Generalized Estimating Equations to account for clustered allocation|Prevalence Ratio Ratio - Comparing Single Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.82|0.74|
82376938|NCT02075515|164460807|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\]|Adjustd GMC Ratio|0.96|||||TWO_SIDED|95.0|0.85|1.08|||ANCOVA|||||1.08|0.85|
82550747|NCT05329220|164804831|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.76||||0.0008|TWO_SIDED|97.5|0.64|0.91||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty for Omicron variant BA.4/BA.5|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to meeting the primary endpoint success criterion in Cohort 2. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.91|0.64|0.0008
82550748|NCT05329220|164804831|NON_INFERIORITY|The success criterion for the null hypothesis that ABNCoV2 is inferior to Comirnaty will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.|Geometric Mean Ratio|0.69|||<|0.0001|TWO_SIDED|97.5|0.59|0.81||P-value corresponds to Cohort 2 ABNCoV2 comparison to Cohort 2 Comirnaty for Omicron Variant XBB.1.5.|Mixed Models Analysis|A generalized linear model with age and baseline results included as covariates was used to compare between the vaccination groups.||Formal hypothesis testing was performed due to meeting the primary endpoint success criterion in Cohort 2. The null hypothesis is that ABNCoV2 is inferior to Comirnaty and will be rejected if the ratio of the GMTs for ABNCoV2 versus Comirnaty is within the non-inferiority margin of 0.67; that is, the lower bound of the 2-sided 97.5% CI of the GMT ratio is \>=0.67.||0.81|0.59|<0.0001
82550749|NCT04204265|164804834|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82550750|NCT04204265|164804835|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82550751|NCT04204265|164804836|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82550752|NCT02465268|164804839|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.196|TWO_SIDED|95.0|0.77|2.16|||Log Rank|||||2.16|0.77|0.196
82550753|NCT02465268|164804839|SUPERIORITY||Hazard Ratio (HR)|1.63||||0.196|TWO_SIDED|95.0|0.99|2.7|||Log Rank|||||2.70|0.99|0.196
82550754|NCT02465268|164804840|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.354|TWO_SIDED|95.0|0.6|1.61|||Log Rank|||||1.61|0.60|0.354
82550755|NCT02465268|164804840|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.354|TWO_SIDED|95.0|0.87|2.33|||Log Rank|||||2.33|0.87|0.354
82550756|NCT02465268|164804841|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
82580517|NCT00719329|164872443|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.61|||||TWO_SIDED|95.0|0.57|0.65|||Binomial Regression, Log Link|Generalized Estimating Equations to account for clustered allocation|Prevalence Rate Ratio - Comparing Multiple Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.65|0.57|
82376939|NCT02075515|164460807|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Superiority Criterion: The two-sided 95 % CI of the GMC ratio between all pairs of lots are within \[0.67, 1.5\].|Adjusted GMC ratio|0.99|||||TWO_SIDED|95.0|0.88|1.1|||ANCOVA|||||1.10|0.88|
82476638|NCT05408637|164648366|OTHER|The Friedman test was used to assess overall differences in IGT across Baseline, Day 1, and Day 5.||||||0.038|||||||Friedman test|||||||0.038
82550757|NCT02465268|164804841|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
82550758|NCT02465268|164804841|SUPERIORITY|||||||0.038|||||||Kruskal-Wallis|||||||0.038
82550759|NCT02465268|164804843|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
82550760|NCT02465268|164804843|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
82550761|NCT02465268|164804843|SUPERIORITY|||||||0.2|||||||Kruskal-Wallis|||||||0.2
82550762|NCT02465268|164804844|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||||||0.6
82550763|NCT02465268|164804844|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||||||0.6
82550764|NCT02465268|164804844|OTHER|||||||0.6|||||||Kruskal-Wallis|||||||0.6
82550765|NCT02465268|164804846|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
82550766|NCT02465268|164804846|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
82550767|NCT02465268|164804846|SUPERIORITY|||||||0.13|||||||Kruskal-Wallis|||||||0.13
82550768|NCT02876588|164804847|SUPERIORITY||Odds Ratio (OR)|1.03||||0.6|TWO_SIDED|95.0|0.9|1.2||Random-effects logistic regression models were constructed, using RAR order sessions as the outcome, randomization group as the independent variable, and the clinician as the random intercept to account for nesting of order sessions within clinicians|Regression, Logistic|||||1.20|.90|.60
82550769|NCT02876588|164804848|SUPERIORITY||Odds Ratio (OR)|1.03||||0.68|TWO_SIDED|95.0|0.89|1.19||Random-effects logistic regression models were constructed, using RAR order sessions as the outcome, randomization group as the independent variable, the clinician as the random intercept to account for nesting of order sessions within clinicians|Regression, Logistic|||||1.19|.89|.68
82550770|NCT02876588|164804849|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82550771|NCT02547363|164804850|SUPERIORITY||||||<|0.001|||||||Fisher exact test|||||||<0.001
82550772|NCT02547363|164804851|SUPERIORITY||Ratio of clearance rates|62.59|||<|0.001|TWO_SIDED|95.0|8.68|451.08|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||451.08|8.68|<0.001
82550773|NCT02547363|164804852|SUPERIORITY||Ratio of clearance rates|59.21|||<|0.001|TWO_SIDED|95.0|8.44|415.35|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||415.35|8.44|<0.001
82580518|NCT00719329|164872444|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.92|||||TWO_SIDED|95.0|0.89|0.96|||Binomial Regression, Log Link|General Estimating Equations to adjust for clustered allocation|Prevalence Rate Ratio - Comparing Single Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.96|0.89|
82550774|NCT02547363|164804853|SUPERIORITY||Week 8 AK count ratio|0.27|||<|0.001|TWO_SIDED|95.0|0.23|0.32|||Mantel Haenszel||0.037% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.32|0.23|<0.001
82550775|NCT04873401|164804854|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.49||0.928|TWO_SIDED|95.0|0.39|2.79|||Regression, Logistic|||||2.79|0.39|0.928
82550776|NCT04873401|164804855|SUPERIORITY||Median Difference (Final Values)|-0.173|STANDARD_ERROR_OF_MEAN|0.147||0.24|TWO_SIDED|95.0|-0.24|0.115|||Regression, Linear|||||0.115|-0.24|0.240
82550777|NCT04873401|164804856|SUPERIORITY||Slope|0.1171|STANDARD_ERROR_OF_MEAN|0.062||0.367|TWO_SIDED|95.0|0.05|0.29|||Regression, Linear|||||0.29|0.05|0.367
82550778|NCT04873401|164804857|SUPERIORITY||Slope|0.171|STANDARD_ERROR_OF_MEAN|0.062||0.005|TWO_SIDED|95.0|0.05|0.29|||Regression, Linear|||||0.29|0.05|0.005
82550779|NCT01333969|164804861|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.043|TWO_SIDED|95.0|-1.4|-0.02|||GEE|Regression analysis using the generalized estimating equations (GEE) method to compare the changes over time in VAS scores at rest and with exercise||||-0.02|-1.40|.043
82550780|NCT01333969|164804862|OTHER||Mean Difference (Final Values)|0.043||||0.043|TWO_SIDED||||||t-test, 2 sided|||||||.043
82550781|NCT01333969|164804863|SUPERIORITY||Mean Difference (Final Values)|0.584||||0.584|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.584
82550782|NCT01333969|164804864|SUPERIORITY||Mean Difference (Final Values)|0.763||||0.763|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.763
82550783|NCT01333969|164804865|SUPERIORITY||Mean Difference (Final Values)|0.602||||0.602|TWO_SIDED||||||GEE|Regression analyses based on the generalized estimating equations (GEE) method||||||.602
82550784|NCT01333969|164804866|SUPERIORITY||Mean Difference (Final Values)|0.8656||||0.8656|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.8656
82550785|NCT01333969|164804867|SUPERIORITY||Mean Difference (Final Values)|0.8422||||0.8422|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.8422
82476639|NCT05408637|164648366|OTHER|The Friedman test was used to assess overall differences in IGT across all timepoints (Baseline, Day 1, Day 5, Follow-Up).||||||0.043|||||||Friedman test|||||||0.043
82550786|NCT01333969|164804868|SUPERIORITY||Mean Difference (Final Values)|0.526||||0.526|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.526
82550787|NCT01333969|164804869|SUPERIORITY||Mean Difference (Final Values)|0.526||||0.526|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.526
82550788|NCT03953508|164804877|OTHER|Analysis of covariance test|||||>|0.05||||||Threshold for significance is p\<.05|ANCOVA|||||||>.05
82550789|NCT03953508|164804878|OTHER|T-test comparing differences, the null hypothesis is that the groups are equal|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
82550790|NCT03953508|164804879|OTHER|Analysis of variance test comparing average breakpoint for menthol and non-menthol smokers|||||<|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||<.05
82550791|NCT03953508|164804880|OTHER|T-test|||||<|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||<.05
82550792|NCT03953508|164804881|OTHER|Analysis of variance|||||>|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||>.05
82550793|NCT03953508|164804882|OTHER|Analysis of variance|||||<|0.05||||||Threshold for significance is p\<.05|ANOVA|||||||<.05
82476640|NCT05408637|164648366|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the BIS across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.134||||0.42|TWO_SIDED||||||Wilcoxon signed rank test|BIS across timepoints||||||0.42
82550794|NCT03953508|164804883|OTHER|T-test|||||<|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||<.05
82550795|NCT03953508|164804884|OTHER|Fisher's exact test|||||>|0.05||||||Threshold for significance is p\<.05|Fisher Exact|||||||>.05
82550796|NCT03953508|164804885|OTHER|T-test|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
82550797|NCT03953508|164804886|OTHER|T-test|||||>|0.05||||||Threshold for significance is p\<.05|t-test, 2 sided|||||||>.05
82550798|NCT01963793|164804890|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.58|TWO_SIDED|95.0|-7.12|4.11|||t-test, 2 sided|||||4.11|-7.12|0.58
82550799|NCT05119023|164804914|OTHER|||||||0.39||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language Severity and Characterization of learning: SRT Observational Learning Scores||||0.39
82550800|NCT05119023|164804914|OTHER||||||<|0.01||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language severity and Characterization of learning: AGL Observational Learning Scores||||<0.01
82550801|NCT05119023|164804914|OTHER|||||||0.95||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Language severity and Characterization of learning: AGL Rule-based Learning Scores||||0.95
82550802|NCT05119023|164804915|OTHER|Sample underpowered for regression so correlation examined||||||0.36||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Attention and Characterization of learning: SRT Observational Learning Scores||||0.36
82550803|NCT05119023|164804915|OTHER|||||||0.09|||||||Pearson's correlation|The threshold for statistical significance was p = 0.05||Examination of Attention and Characterization of learning: AGL Observational Learning Scores||||0.09
82550804|NCT05119023|164804915|OTHER|||||||0.32||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Attention and Characterization of learning: AGL Rule Based Learning||||0.32
82550805|NCT05119023|164804916|OTHER|Sample underpowered for regression so correlation examined||||||0.64||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Working Memory and Characterization of learning: SRT Observational Learning Scores||||0.64
82550806|NCT05119023|164804916|OTHER|||||||0.01||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Working Memory and Characterization of learning: AGL Observational Learning Scores||||0.01
82550807|NCT05119023|164804916|OTHER|||||||0.79|||||||Pearson's correlation|||Examination of Working Memory and Characterization of learning: AGL Rule-based Learning Scores||||0.79
82550808|NCT05119023|164804917|OTHER|Sample underpowered for regression so correlation examined||||||0.9||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Executive Function and Characterization of learning: SRT Observational Learning Scores||||0.90
82580519|NCT00719329|164872444|SUPERIORITY_OR_OTHER||Prevalence Rate Ratio|0.57|||||TWO_SIDED|95.0|0.53|0.63|||Binomial Regression, Log Link|General Estimating Equations to account for clustered allocation|Prevalence Ratio Ratio - Comparing Multiple Cleansing to Dry Cord Care|Comparison of colonization prevalence, relative to dry cord care group||0.63|0.53|
82651005|NCT00294723|165016800|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-9.92||||0.027||95.0|-18.7|-1.12||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.12|-18.70|0.0270
82476641|NCT05408637|164648366|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the BRIEF-A across timepoints due to the small sample size and distributional assumptions.||||||0.232|||||||Wilcoxon signed rank test|BRIEF-A across timepoints||||||0.232
82476642|NCT05408637|164648366|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the i7 Impulsivity across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.575||||0.06|TWO_SIDED||||||Wilcoxon signed rank test|i7 Impulsivity||||||0.06
82476643|NCT05408637|164648366|OTHER|The Wilcoxon signed-rank test was used to evaluate changes in the i7 Venturesomeness across timepoints due to the small sample size and distributional assumptions. Effect sizes were calculated using the rank biserial correlation coefficient (r) to estimate the magnitude of change.|rank biserial correlation coefficient|0.275||||0.36|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.36
82476644|NCT05408637|164648367|OTHER|Non-parametric tests were employed to evaluate changes across MOODS-SR Baseline to Day 5 due to the small sample size and distributional assumptions. The Wilcoxon signed-rank tests were applied for pairwise comparisons. Effect sizes were calculated using Cohen's d to estimate the magnitude of change.|Cohen's d|0.12||||0.6|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.6
82476645|NCT05408637|164648367|OTHER|Non-parametric tests were employed to evaluate changes across MOODS-SR Baseline to Follow Up due to the small sample size and distributional assumptions. The Wilcoxon signed-rank tests were applied for pairwise comparisons. Effect sizes were calculated using Cohen's d to estimate the magnitude of change.|Cohen's d|0.24||||0.2|TWO_SIDED||||||Wilcoxon signed rank test|||||||0.2
82476646|NCT01168986|164648381|SUPERIORITY_OR_OTHER|||||||0.1|||||||Mixed Models Analysis|||||||0.10
82550809|NCT05119023|164804917|OTHER|||||||0.09||||||The threshold for statistical significance was p = 0.05|Pearson's correlation|||Examination of Executive Function and Characterization of learning: AGL Observational Learning Scores||||0.09
82550810|NCT05119023|164804917|OTHER|||||||0.24|||||||Pearson's correlation|||Examination of Executive Function and Characterization of learning: AGL Rule-based Learning Scores||||0.24
82550811|NCT04509674|164804933|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.2061|TWO_SIDED|95.0|0.76|1.06||"Null hypothesis: there is no difference regarding the risk of the endpoint in question between empagliflozin and placebo.~p\<=0.05 required for testing of subsequent key secondary endpoint hypotheses"|Regression, Cox||Empagliflozin vs. Placebo|The primary endpoint was analysed using a Cox proportional hazards model with treatment, type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates.||1.06|0.76|0.2061
82550812|NCT04509674|164804934|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.87||||0.2423|TWO_SIDED|95.0|0.68|1.1|||Negative binomial regression||Empagliflozin vs. Placebo|||1.10|0.68|0.2423
82580520|NCT02186600|164872471|OTHER|Hierarchical linear modeling for intent-to-treat analysis to analyze time X group interactions, adjusted for baseline total body lean mass and height.||||||0.7|||||||hierarchical linear modeling|controlled for total lean mass and height||||||0.7
82476647|NCT01168986|164648382|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Mixed Models Analysis|||||||0.18
82476648|NCT01168986|164648383|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Mixed Models Analysis|||||||0.87
82476649|NCT01168986|164648384|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
82580521|NCT02186600|164872472|OTHER|hierarchical linear modeling||||||0.01|||||||hierarchical linear modeling|||||||0.01
82580522|NCT02186600|164872473|OTHER|Hierarchical linear modeling|||||<|0.007|||||||hierarchical linear modeling|||||||<0.007
82476650|NCT02365480|164648399|OTHER||Odds Ratio (OR)|1.91||||0.6|TWO_SIDED|95.0|0.1|36.37|||Fisher Exact|||||36.37|0.10|0.60
82500479|NCT01500629|164691728|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.014||||||The rank sum test was based on period difference for comparison between sequence.|Wilcoxon (Mann-Whitney)|||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||||.0140
82500480|NCT01500629|164691729|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.907|TWO_SIDED|95.0|-0.24|0.22|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.22|-0.24|0.907
82550813|NCT04509674|164804935|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.92||||0.2867|TWO_SIDED|95.0|0.78|1.07|||Negative binomial regression||Empagliflozin vs. Placebo|||1.07|0.78|0.2867
82550814|NCT04509674|164804936|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|0.87||||0.0463|TWO_SIDED|95.0|0.7654|0.9978|||Negative binomial regression||Empagliflozin vs. Placebo|||0.9978|0.7654|0.0463
82550815|NCT04509674|164804937|OTHER|The statistical model used was a negative binomial model, including factors for treatment and type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates. The log(observation time) was used as an offset variable.|Adjusted event rate ratio|1.06||||0.6311|TWO_SIDED|95.0|0.83|1.35|||Negative binomial regression||Empagliflozin vs. Placebo|||1.35|0.83|0.6311
82550816|NCT04509674|164804938|OTHER|The statistical analysis was performed using a Cox proportional hazards model with treatment, type-2 diabetes at baseline, geographical region, age at baseline, estimated glomerular filtration rate at baseline, left ventricular ejection fraction at baseline, persistent or permanent atrial fibrillation at baseline, prior myocardial infarction at baseline, peripheral artery disease at baseline and smoking at baseline as covariates.|Hazard Ratio (HR)|1.03||||0.8124||95.0|0.81|1.31|||Regression, Cox||Empagliflozin vs. Placebo|||1.31|0.81|0.8124
82550817|NCT04064164|164804952|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.004||||||Dear (root word)|Chi-squared|X-squared = 8.4 df=1||||||.004
82550818|NCT04064164|164804952|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App. Significant associations indicated the human and app were accurately identifying true positives (1:1) or true negatives (0:0).|||||<|0.001||||||Sweet (root word)|Chi-squared|X-squared = 20.20 df=1||||||<.001
82550819|NCT04064164|164804952|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.02||||||Girl (root word)|Chi-squared|X-squared = 5.08, df=1||||||.02
82550820|NCT04064164|164804952|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.1||||||Honey (root word)|Chi-squared|X-squared = 2.7, df= 1||||||.10
82550821|NCT04064164|164804952|EQUIVALENCE|Pearson's Chi-square test was completed between the total instances of diminutives either identified by human or the Elderspeak App.||||||0.85||||||Baby (root word)|Chi-squared|X-squared = 12.2, df = 1||||||0.85
82550822|NCT02023866|164804973|OTHER|||||||0.1875|||||||Wilcoxon Signed Rank|||Section I - Current Function Null hypothesis = change from baseline is 0.||||0.1875
82550823|NCT02023866|164804973|OTHER|||||||1|||||||Wilcoxin Signed Rank|||Section II - System Specific Involvement Null hypothesis = change from baseline is 0.||||1.0000
82550824|NCT02023866|164804973|OTHER|||||||0.0781|||||||Wilcoxin Signed Rank|||Section III - Current Clinical Assessment Null hypothesis = change from baseline is 0.||||0.0781
82550825|NCT02023866|164804973|OTHER|||||||0.2941|||||||t-test, 2 sided|One-sample t-test||Section IV - Quality of Life Null hypothesis = change from baseline is 0.||||0.2941
82550826|NCT03839940|164804983|SUPERIORITY||||||<|0.9999|||||||Fisher Exact|||||||< 0.9999
82550827|NCT03839940|164804984|SUPERIORITY|||||||0.3346|||||||Wilcoxon (Mann-Whitney)|||||||0.3346
82500481|NCT01500629|164691730|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.666|TWO_SIDED|95.0|-0.28|0.18|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.18|-0.28|0.666
82550828|NCT03839940|164805000|SUPERIORITY||||||<|0.70361|||||||Fisher Exact|||Female Population.||||< 0.70361
82550829|NCT03839940|164805000|SUPERIORITY||||||<|0.4667|||||||Fisher Exact|||Male population.||||<0.4667
82550830|NCT03839940|164805001|SUPERIORITY||||||<|1|||||||Fisher Exact|||Black or African American population||||<1.0
82550831|NCT03839940|164805001|SUPERIORITY||||||<|1|||||||Fisher Exact|||White population||||<1.0
82500482|NCT01500629|164691731|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.972|TWO_SIDED|95.0|-0.29|0.28|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.28|-0.29|0.972
82550832|NCT03839940|164805002|SUPERIORITY||||||<|1|||||||Fisher Exact|||Not Hispanic or Latino population.||||<1.0
82550833|NCT03839940|164805003|SUPERIORITY||||||<|0.1701|||||||Wilcoxon (Mann-Whitney)|||Female population.||||<0.1701
82550834|NCT03839940|164805003|SUPERIORITY||||||<|0.4811|||||||Wilcoxon (Mann-Whitney)|||Male population.||||<0.4811
82550835|NCT03839940|164805004|SUPERIORITY||||||<|1|||||||Wilcoxon (Mann-Whitney)|||Black or African American Population||||<1.0
82550836|NCT03839940|164805004|SUPERIORITY||||||<|0.5029|||||||Wilcoxon (Mann-Whitney)|||White Population||||<0.5029
82550837|NCT03839940|164805005|SUPERIORITY||||||<|0.295|||||||Wilcoxon (Mann-Whitney)|||Not Hispanic or Latino Population||||<0.2950
82550838|NCT04908722|164805056|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.15|||||TWO_SIDED|97.5|0.926|1.44||||||Group 1 (1 dose) vs Group 3 (1 dose)||1.440|0.926|
82580523|NCT03026075|164872479|SUPERIORITY||||||<|0.01|||||||McNemar|||"The primary objective of the study is to evaluate the effectiveness of MCS in cleansing a poorly prepared colon.~A sample size of 47 patients is required as per a McNemar test to determine that the paired discordant proportions are significantly different under the followings assumptions:~Probability of Type I Error (α) = 0.05, Power (1 - β) = 0.8 Proportion switching from + to - = 0, Proportion switching from - to + = 0.6 Potential of dropout 10% (i.e. 4 cases)"||||<0.01
82550839|NCT04908722|164805056|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.8||||||97.5|0.641|1.0||||||Group 5 (1 dose) vs Group 3 (1 dose)||1.00|0.641|
82550840|NCT04908722|164805056|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.07|||||TWO_SIDED|97.5|0.844|1.356||||||Group 2 (1 dose) vs Group 3 (1 dose)||1.356|0.844|
82550841|NCT04908722|164805056|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.94|||||TWO_SIDED|97.5|0.742|1.193||||||Group 4 (1 dose) vs Group 3 (1 dose)||1.193|0.742|
82550842|NCT04908722|164805056|NON_INFERIORITY|Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.81|||||TWO_SIDED|97.5|0.648|1.007||||||Group 6 (1 dose) vs Group 3 (1 dose)||1.007|0.648|
82550843|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.53|||||TWO_SIDED|97.5|1.992|3.207||||||Group 1 (2 doses) vs Group 3 (1 dose)||3.207|1.992|
82550844|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.41|||||TWO_SIDED|97.5|1.088|1.815||||||Group 1 (2 doses) vs Group 3 (2 doses)||1.815|1.088|
82550845|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.79|||||TWO_SIDED|97.5|1.408|2.265||||||Group 5 (2 doses) vs Group 3 (1 dose)||2.265|1.408|
82550846|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.99|||||TWO_SIDED|97.5|0.769|1.282||||||Group 5 (2 doses) vs Group 3 (2 doses)||1.282|0.769|
82550847|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.37|||||TWO_SIDED|97.5|1.829|3.007||||||Group 2 (2 doses) vs Group 3 (1 dose)||3.007|1.829|
82580524|NCT04927247|164872490|OTHER||Difference in percentage|7.9||||0.6302|TWO_SIDED|95.0|-15.8|31.7|||Exact Cochran-Mantel-Haenszel test|||||31.7|-15.8|0.6302
82550848|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.32|||||TWO_SIDED|97.5|1.0|1.739||||||Group 2 (2 doses) vs Group 3 (2 doses)||1.739|1.000|
82476651|NCT01419197|164648451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528|||<|0.0001|TWO_SIDED|95.0|0.422|0.661||The two-sided stratified log-rank test was used to compare progression-free survival between the two treatment arms at the overall two-sided significance level of 0.5%.|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||0.661|0.422|<0.0001
82550849|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|2.2|||||TWO_SIDED|97.5|1.697|2.841||||||Group 4 (2 doses) vs Group 3 (1 dose)||2.841|1.697|
82550850|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.22|||||TWO_SIDED|97.5|0.928|1.606||||||Group 4 (2 doses) vs Group 3 (2 doses)||1.606|0.928|
82550851|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|1.7|||||TWO_SIDED|97.5|1.348|2.148||||||Group 6 (2 doses) vs Group 3 (1 dose)||2.148|1.348|
82550852|NCT04908722|164805057|NON_INFERIORITY|Testing according to sequential non-inferiority assessment hypothesis. Tested using 97.5% confidence interval approach. The non-inferiority margin was 0.67.|Geometric mean ratio|0.95|||||TWO_SIDED|97.5|0.736|1.217||||||Group 6 (2 doses) vs Group 3 (2 doses)||1.217|0.736|
82550853|NCT01715285|164805067|SUPERIORITY||Hazard Ratio (HR)|0.466|||<|0.0001|TWO_SIDED|95.0|0.394|0.55|||Log Rank|||||0.550|0.394|<0.0001
82550854|NCT01715285|164805068|SUPERIORITY||Hazard Ratio (HR)|0.661|||<|0.0001|TWO_SIDED|95.0|0.564|0.775|||Log Rank|||||0.775|0.564|< 0.0001
82550855|NCT03798093|164805129|SUPERIORITY||least squares|-0.112||||0.08|TWO_SIDED|95.0|-29.3|1.7|||Regression, Linear|||||1.7|-29.3|0.08
82550856|NCT02677805|164805155|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82550857|NCT02677805|164805156|SUPERIORITY|||||||0.087||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary Outcome Measure shows a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.087
82550858|NCT02677805|164805157|SUPERIORITY|||||||0.121||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||||||0.121
82580525|NCT04927247|164872491|OTHER||Hazard Ratio (HR)|0.97||||0.9382|TWO_SIDED|95.0|0.43|2.16|||Stratified log-rank test|||||2.16|0.43|0.9382
82580526|NCT04927247|164872492|OTHER||Difference in percentage|-16.8||||0.1143|TWO_SIDED|95.0|-34.4|0.8|||Exact Cochran-Mantel-Haenszel test|||||0.8|-34.4|0.1143
82580527|NCT04927247|164872493|OTHER||Rate ratio|1.09||||0.7549|TWO_SIDED|95.0|0.63|1.89|||Negative binomial model|||||1.89|0.63|0.7549
82651006|NCT00294723|165016800|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-10.36||||0.0223||95.0|-19.24|-1.48||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.48|-19.24|0.0223
82550859|NCT02677805|164805158|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Investigator's In-clinic Assessment||||<0.001
82550860|NCT02677805|164805158|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for Subject's In-clinic Assessment||||<0.001
82550861|NCT02677805|164805159|SUPERIORITY|||||||0.218||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Cochran-Mantel-Haenszel|||Test performed for responders rates at week 20||||0.218
82550862|NCT02677805|164805160|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Emotional domain - Change from Baseline at Week 4||||<0.001
82550863|NCT02677805|164805160|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Social Functioning domain - Change from Baseline at Week 4||||<0.001
82550864|NCT02677805|164805160|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for Modified Skindex-16 (GL-QoL) Overall score - Change from Baseline at Week 4.||||<0.001
82550865|NCT02677805|164805160|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Appraisal of Lines Between Eyebrows - Change from Baseline at Week 4||||<0.001
82550866|NCT02677805|164805160|SUPERIORITY||||||<|0.001||||||For the testing a hierarchical approach has been applied. The result of this test is considered confirmative if the test of the Primary and all previous Secondary Outcome Measures show a confirmatory result at a one-sided significance level of 0.025.|Wilcoxon (Mann-Whitney)|||Test performed for FACE-Q Age Appraisal VAS score||||<0.001
82550867|NCT04282148|164805294|SUPERIORITY||||||<|0.0001|||||||Z test using Kaplan Meier survival estim|||||||<0.0001
82550868|NCT04938492|164805301|SUPERIORITY||Slope|2.08|||>|0.05|TWO_SIDED||||||Latent growth modeling|||||||>.05
82550869|NCT04938492|164805302|SUPERIORITY||Slope|0.19|||<|0.001|TWO_SIDED||||||Latent growth modeling|||||||<.001
82550870|NCT04938492|164805303|SUPERIORITY||Slope|0.22|||<|0.01|TWO_SIDED||||||Latent growth modeling|||||||<.01
82550871|NCT04938492|164805304|SUPERIORITY||Slope|0.23|||>|0.05|TWO_SIDED||||||Latent growth modeling|||||||>.05
82376965|NCT04238650|164460958|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUClast was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.05|||||TWO_SIDED|90.0|0.997|1.11||||||||1.11|0.997|
82550872|NCT03115476|164805315|OTHER||Hazard Ratio (HR)|1.43||||0.43|TWO_SIDED|95.0|0.61|3.9|||likelihood ratio test|||Relative difference between groups (ingenol disoxate vs vehicle) expressed as hazard ratio||3.9|0.61|0.43
82550873|NCT03115476|164805316|OTHER||Hazard Ratio (HR)|1.99|||<|0.01|TWO_SIDED|95.0|1.17|3.62|||likelihood ratio test|||relative difference between treatment groups (ingenol disoxate gel vs vehicle) expressed as hazard ratio||3.62|1.17|<0.01
82550874|NCT03865498|164805331|SUPERIORITY||Odds Ratio (OR)|7.029|||<|0.0001|TWO_SIDED|95.0|4.919|10.323||McNemar's Chi-squared test (paired) with continuity correction to the test slightly more conservative|McNemar|||Hypothesis: There will be significant pre/post-intervention differences in isolated macro-level network structures for African American dementia caregiver networks.||10.323|4.919|< 0.0001
82550875|NCT03865498|164805331|SUPERIORITY||Odds Ratio (OR)|17.385|||<|0.0001|TWO_SIDED|95.0|9.963|33.157||McNemar's Chi-squared test (paired) with continuity correction to the test slightly more conservative|McNemar|||Hypothesis: There will be significant pre/post-intervention differences in isolated macro-level network structures for Hispanic dementia caregiver networks.||33.157|9.963|<0.0001
82550876|NCT03865498|164805331|SUPERIORITY||Odds Ratio (OR)|1.021||||0.924|TWO_SIDED|95.0|0.787|1.325||Pearson's Chi-squared test with Yates' continuity correction|Chi-squared, Corrected|||There will be no significant differences in isolated macro-level network structure from Tweets between Hispanic and African American dementia caregiver networks.||1.325|0.787|0.924
82550877|NCT03865498|164805332|SUPERIORITY|Pre-post mean difference|Mean Difference (Final Values)|0.628|||<|0.0001|TWO_SIDED|95.0|0.513|0.742|||a paired t-test|||Hypothesis: There will be significant pre/post-intervention differences in emotional valence score detected from Tweets for African American dementia caregiver networks.||0.742|0.513|<0.0001
82476652|NCT01419197|164648452|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.552||||0.0034|TWO_SIDED|95.0|0.369|0.826||The 2-sided stratified log-rank test was used at the overall two-sided significance level of 4.5%. The pre-specified O'Brien-Fleming stopping boundary for this first OS interim analysis was HR\<0.363 (p-value \< 0.0000013).|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||0.826|0.369|0.0034
82476653|NCT01419197|164648453|SUPERIORITY_OR_OTHER||Difference in Response Percentage|22.7|||<|0.0001|TWO_SIDED|95.0|16.2|29.2|||Mantel Haenszel|||The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||29.2|16.2|<0.0001
82476654|NCT01419197|164648455|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|12.6||||0.0011|TWO_SIDED|95.0|5.03|20.09||The p-value for the difference in survival rate was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||6-month survival||20.09|5.03|0.0011
82476655|NCT01419197|164648455|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|11.7||||0.1805|TWO_SIDED|95.0|-5.41|28.75||The p-value for the difference in survival rates was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||1-year survival||28.75|-5.41|0.1805
82476656|NCT01419197|164648456|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.115||||0.4952|TWO_SIDED|95.0|0.819|1.517|||Log Rank|||The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease vs no visceral disease).||1.517|0.819|0.4952
82550878|NCT03865498|164805332|SUPERIORITY|Pre-post mean difference|Mean Difference (Final Values)|1.41|||<|0.0001|TWO_SIDED|95.0|1.189|1.631|||a paired t-test|||Hypothesis: There will be significant pre/post-intervention differences in emotional valence score detected from Tweets for Hispanic dementia caregiver networks.||1.631|1.189|<0.0001
82550879|NCT03865498|164805332|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.6|TWO_SIDED|95.0|-0.186|0.107|||t-test, 2 sided|||There will be no significant differences in emotional valence score detected from Tweets between Hispanic and African American dementia caregiver networks.||0.107|-0.186|0.600
82561985|NCT04421456|164833247|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect. For the PANSS-T score, baseline PANSS-P, baseline PANSS-N, and baseline PANSS-G are included in the model as fixed effects for the associated baseline instead of baseline PANSS-T.|Least square mean difference|-1.75|STANDARD_ERROR_OF_MEAN|2.33||0.4528|TWO_SIDED|95.0|-6.35|2.84|||Mixed-effects repeated measures model|||||2.84|-6.35|0.4528
82376966|NCT03633825|164460965|SUPERIORITY||Risk Ratio (RR)|1.23|||=|0.02|TWO_SIDED|95.0|1.03|1.46|||Chi-squared|||||1.46|1.03|=.02
82561986|NCT04421456|164833247|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect. For the PANSS-T score, baseline PANSS-P, baseline PANSS-N, and baseline PANSS-G are included in the model as fixed effects for the associated baseline instead of baseline PANSS-T.|Least square mean difference|-1.96|STANDARD_ERROR_OF_MEAN|2.44||0.4226|TWO_SIDED|95.0|-6.76|2.85|||Mixed-effects repeated measures model|||||2.85|-6.76|0.4226
82476657|NCT01419197|164648458|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.677||||0.0007|TWO_SIDED|95.0|0.539|0.85||The two-sided stratified log-rank test was used at the overall two-sided significance level of 4.5%. The pre-specified O'Brien-Fleming stopping boundary for this second and final interim analysis was HR\<0.748 (p value \< 0.012).|Log Rank||The hazard ratio was estimated by Cox regression.|The analysis was stratified for 1) World region (United States, Western Europe, or Other); 2) Number of prior regimens, excluding single-agent hormones, for treatment of metastatic or unresectable locally advanced/recurrent disease (≤ 3 or \> 3); and 3) Presence of visceral disease (any visceral disease versus no visceral disease).||0.850|0.539|0.0007
82476658|NCT01419197|164648459|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|12.4||||0.0003|TWO_SIDED|95.0|5.67|19.14||The p-value for the difference in survival rate was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||6-month survival||19.14|5.67|0.0003
82561987|NCT04421456|164833248|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.83||0.4479|TWO_SIDED|95.0|-2.25|1.0|||Mixed-effects repeated measures model|||||1.00|-2.25|0.4479
82561988|NCT04421456|164833248|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.87||0.1616|TWO_SIDED|95.0|-2.92|0.49|||Mixed-effects repeated measures model|||||0.49|-2.92|0.1616
82376967|NCT03633825|164460966|SUPERIORITY||Risk Ratio (RR)|1.2|||=|0.19|TWO_SIDED|95.0|0.91|1.59|||Chi-squared|||||1.59|0.91|=.19
82561989|NCT04421456|164833249|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.76||0.6787|TWO_SIDED|95.0|-1.8|1.18|||Mixed-effects repeated measures model|||||1.18|-1.80|0.6787
82561990|NCT04421456|164833249|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.76|STANDARD_ERROR_OF_MEAN|0.78||0.3351|TWO_SIDED|95.0|-0.79|2.3|||Mixed-effects repeated measures model|||||2.30|-0.79|0.3351
82651007|NCT00294723|165016801|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-17.79||||0.0003||95.0|-27.48|-8.09||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-8.09|-27.48|0.0003
82651008|NCT00294723|165016801|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-11.33||||0.0217||95.0|-20.99|-1.66||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-1.66|-20.99|0.0217
82651009|NCT00294723|165016801|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg|Estimated treatment difference, LS Mean|-6.46||||0.1942||95.0|-16.23|3.3||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||3.30|-16.23|0.1942
82651010|NCT00294723|165016802|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-16.63||||0.0007||95.0|-26.19|-7.06||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-7.06|-26.19|0.0007
82476659|NCT01419197|164648459|SUPERIORITY_OR_OTHER||Difference in Survival Percentage|11.0||||0.0104|TWO_SIDED|95.0|2.58|19.33||The p-value for the difference in survival rates was derived from the z-test using the standard errors computed using Greenwood's method.|z-test|||1-year survival||19.33|2.58|0.0104
82476660|NCT01099449|164648462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.73|||||||Wilcoxon (Mann-Whitney)|||Two-sample t-tests or Wilcoxon rank-sum tests will be used\>\> to compare the AUC of CIPN sensory subscale between each of the two schedules of\>\> Ca/Mg infusions vs placebo arms at the 2.5% significance level. If the CIPN sensory\>\> subscales are observed to be unbalanced, we will adjust for the baseline CIPN sensory\>\> subscale scores from the AUC or incorporate them as a covariate in generalized linear\>\> regression model.||||.73
82476661|NCT01099449|164648462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.29|||||||Wilcoxon (Mann-Whitney)|||Two-sample t-tests or Wilcoxon rank-sum tests will be used\>\> to compare the AUC of CIPN sensory subscale between each of the two schedules of\>\> Ca/Mg infusions vs placebo arms at the 2.5% significance level. If the CIPN sensory\>\> subscales are observed to be unbalanced, we will adjust for the baseline CIPN sensory\>\> subscale scores from the AUC or incorporate them as a covariate in generalized linear\>\> regression model.||||.29
82476662|NCT01099449|164648463|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.054|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.054
82550880|NCT05386030|164805396|NON_INFERIORITY|The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB\> d0 where, pA is the response rate for saypha® VOLUME Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested based on Farrington-Manning-statistics with a one-sided type I error rate level of 0.025.|||||<|0.0001||||||Confirmatory testing will be performed in a hierarchical ordering: First analysis will be performed on the per protocol dataset, and if the corresponding p-value is below 0.025, the analysis will be performed on the full analysis dataset.|Farrington-Manning test|||||||<0.0001
82550881|NCT05386030|164805397|NON_INFERIORITY|The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB\> d0 where, pA is the response rate for saypha® VOLUME Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested based on Farrington-Manning-statistics with a one-sided type I error rate level of 0.025.|||||<|0.0001||||||Confirmatory testing will be performed in a hierarchical ordering: First analysis will be performed on the per protocol dataset, and if the corresponding p-value is below 0.025, the analysis will be performed on the full analysis dataset.|Farrington-Manning test|||||||<0.0001
82550882|NCT03161028|164805414|SUPERIORITY|||||||0.51||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||For the model evaluating the primary outcome (change in T25FW), T25FW was transformed to walking speed by dividing 25 feet by the completion time in seconds (ft/sec). Any participants who were unable to complete the T25FW at any timepoint after baseline were assigned a value of 199 seconds, a statistical technique known as Winsorizing.||||0.51
82550883|NCT03161028|164805415|SUPERIORITY|||||||0.902|||||||Mixed Models Analysis|||||||0.902
82550884|NCT03161028|164805416|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||||||0.90
82476663|NCT01099449|164648463|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.27|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.27
82550885|NCT03161028|164805417|SUPERIORITY|||||||0.084|||||||Mixed Models Analysis|||||||0.084
82550886|NCT03161028|164805418|SUPERIORITY|||||||0.134|||||||Chi-squared|||||||0.134
82550887|NCT01799265|164805425|NON_INFERIORITY|The 95% upper limit of the prediction interval was calculated using the formula (μ ) ̂+t\_(k-2)\^α √((τ\^2 ) ̂+〖(SE) ̂(μ ̂ )〗\^2 ),where (μ ) ̂is the estimate average AHI across all studies, (τ\^2 ) ̂ is the between-study variation, t\_(k-2)\^α is the critical value for a t-distribution, k is the number of studies in the meta-analysis, and k-2 are the degrees of freedom for the t distribution. Meta-analyzed statistics to compute the prediction interval were (μ ) ̂=5.0, SE(μ ̂ )=0.9, and (τ\^2 ) ̂=8.0||||||0.05|||||||t-test, 1 sided|A p-value of .05 was used.||"Hypothesis testing for the primary endpoint was conducted using a one-sided test of non-inferiority with the following null and alternative hypotheses at the 0.05 significance level using the MIXED procedure in SAS, version 9.3:~H\_0:(ϕ\_m ) ̂≥6.9 H\_A:(ϕ\_m ) ̂\<6.9 where (ϕ\_m ) ̂ is the estimated AHI difference between Transcend Auto and REMstar Auto from the model described in 3.5.1."||||.05
82550888|NCT05546749|164805526|SUPERIORITY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|0.93||0.17|TWO_SIDED|95.0|-3.1|0.54|||Mixed Models Analysis|||A mixed effects model was performed to predict pain intensity by arm at weeks 3 and 6, controlling for baseline pain intensity score.||0.54|-3.1|0.17
82550889|NCT05546749|164805527|SUPERIORITY||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|13.6||0.32|TWO_SIDED|95.0|-40.3|13.1|||Mixed Models Analysis|||A mixed effects model was used to predict opioid craving score by arm at weeks 3 and 6, controlling for baseline opioid craving score.||13.1|-40.3|0.32
82550890|NCT05546749|164805536|SUPERIORITY||Mean Difference (Final Values)|-9.7|STANDARD_ERROR_OF_MEAN|6.1||0.137|TWO_SIDED|95.0|-23.1|3.6|||Regression, Linear||RelieVRx was associated with lower stress score.|We performed a mixed effects model to predict stress score at week 6 by arm, controlling for baseline stress score.||3.6|-23.1|0.137
82476664|NCT01099449|164648464|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.29|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.29
82476665|NCT01099449|164648464|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Two-sample t-tests or Wilcoxon rank-sum tests will be used as in\>\> primary analysis.||||||0.25|||||||Wilcoxon (Mann-Whitney)|||We will not adjust p-values (or significance level) for multiple\>\> comparisons among the numerous hypothesis testings of secondary endpoints due to the\>\> exploratory nature of these secondary analyses. The significance results from secondary\>\> analyses will be interpreted cautiously in a hypothesis-generating fashion.||||.25
82476666|NCT01099449|164648467|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Kruskal Wallis Analysis||||||0.89|||||||Kruskal-Wallis|||||||.89
82476667|NCT01099449|164648467|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Kruskal Wallis Analysis||||||0.496|||||||Kruskal-Wallis|||||||.496
82476668|NCT01099449|164648468|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Chi-Squared Analysis||||||0.52|||||||Chi-squared|||||||.52
82476669|NCT01099449|164648468|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Chi-Squared Analysis||||||0.66|||||||Chi-squared|||||||.66
82476670|NCT00146848|164648472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.75||0.86|TWO_SIDED|95.0|-3.14|3.74|||t-test, 2 sided|||The changes in quality of life were compared between groups using two-sided t-tests.||3.74|-3.14|0.86
82476671|NCT00146848|164648472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|STANDARD_ERROR_OF_MEAN|1.87||0.43|TWO_SIDED|95.0|-2.18|5.16|||t-test, 2 sided|||The difference in changes in quality of life between groups were compared using a t-test.||5.16|-2.18|0.43
82476672|NCT00146848|164648473|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Cochran-Armitage test for trend|||One sided test testing for shift towards improvement in either atrial support pacing treatment arm compared to the DDD-40 arm.||||0.55
82476673|NCT00146848|164648473|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Cochran-Armitage test for trend|||||||0.80
82476674|NCT00146848|164648474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.17|STANDARD_ERROR_OF_MEAN|6.35||0.11|TWO_SIDED|95.0|-22.65|2.3|||t-test, 2 sided|||Compare the difference in the changes in physical activity scores between groups using a t-test.||2.30|-22.65|0.11
82476675|NCT00146848|164648474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|STANDARD_ERROR_OF_MEAN|6.55||0.04|TWO_SIDED|95.0|-26.11|-0.37|||t-test, 2 sided|||"Compare the difference in the changes in physical activity scores between groups using a t-test.~To adjust for multiple comparisons, an alpha level of 0.025 should be used to deem significance."||-0.37|-26.11|0.04
82476676|NCT00119678|164648484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.7|1.5|||||Cox proportional-hazards model was used to estimate the hazard ratio of abatacept versus placebo for SLE disease flare. The 95% two-sided confidence interval was provided for the hazard ratio for treatment.|||1.5|0.7|
82476677|NCT00791817|164648522|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3897|||||TWO_SIDED|90.0|1.1998|1.6097||||Confidence Interval is on the Ratio of Fed to Fasted|Confidence Interval is on the Ratio of Fed to Fasted|values are Geometric Means and Confidence Intervals are on the Ratio of Fed to Fasted||1.6097|1.1998|
82476678|NCT01134705|164648530|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.84|||<|0.001|TWO_SIDED|95.0|-1.2|-0.5||A priori threshold for statistical significance is p\<0.05|Repeated measures Analysis of covariance|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.5|-1.2|<0.001
82476679|NCT01134705|164648531|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.78|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4||A priori threshold for statistical significance is p\<0.05|Repeated measures ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, day, treatment, and the treatment by day interaction.||||-0.4|-1.1|<0.001
82476680|NCT01134705|164648532|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.001|TWO_SIDED|95.0|-0.9|-0.2||A priori threshold for statistical significance is p\<0.05|ANCOVA|ANCOVA with treatment, baseline and center in the model.||||-0.2|-0.9|0.001
82550891|NCT02100813|164805542|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.31|||<|0.001|TWO_SIDED|95.0|0.23|0.42|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.42|0.23|<0.001
82476681|NCT00509145|164648533|SUPERIORITY||Risk Ratio (RR)|0.77|STANDARD_ERROR_OF_MEAN|0.066||0.0024|TWO_SIDED|95.0|0.65|0.911|||Over-dispersed Poisson Regression||Laquinimod 0.6 mg vs. placebo|Response variable: number of relapses during 24 months. Offset based on the log of subject's exposure in years was employed to adjust for variability of treatment exposure. In addition to the treatment group, the Poisson regression model included the following covariates: baseline EDSS score, log of prior 2-year number of relapses+1 and Country or Geographical Region (CGR).||0.911|0.650|0.0024
82476682|NCT00101452|164648549|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82476683|NCT01994889|164648550|SUPERIORITY|||||||0.0006|||||||Finkelstein-Schoenfeld Method|||||||0.0006
82476684|NCT01994889|164648551|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.0259|TWO_SIDED|95.0|0.508|0.958|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and New York Heart Association (NYHA) baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.958|0.508|0.0259
82476685|NCT01994889|164648552|SUPERIORITY||Risk Ratio (RR)|0.6761|||<|0.0001|TWO_SIDED|95.0|0.5639|0.8107||Poisson regression analysis with treatment, TTR genotype, NYHA baseline classification, treatment-by-TTR genotype interaction, and treatment-by-NYHA baseline classification interaction terms as factors adjusted for treatment duration.|Poisson regression analysis|||||0.8107|0.5639|<0.0001
82550892|NCT02100813|164805542|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.18|0.33|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||0.33|0.18|<0.001
82550893|NCT02100813|164805542|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.79|||=|0.096|TWO_SIDED|95.0|0.59|1.04|||Negative binomial regression|||Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||1.04|0.59|=0.096
82550894|NCT02100813|164805543|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|7.02|||=|0.007|TWO_SIDED|95.0|1.53|124.0|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||124|1.53|=0.007
82550895|NCT02100813|164805543|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|8.82|||=|0.001|TWO_SIDED|95.0|1.99|154.5|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||154.5|1.99|=0.001
82550896|NCT02100813|164805543|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|1.26|||=|0.43|TWO_SIDED|95.0|0.72|2.31|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.31|0.72|=0.43
82550897|NCT02100813|164805544|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|8.73|||<|0.001|TWO_SIDED|95.0|2.93|51.66|||Log binomial regression|||||51.66|2.93|<0.001
82550898|NCT02100813|164805544|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|9.55|||<|0.001|TWO_SIDED|95.0|3.22|56.4|||Log binomial regression|||||56.4|3.22|<0.001
82550899|NCT02100813|164805544|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|1.09|||=|0.55|TWO_SIDED|95.0|0.81|1.49|||Log binomial regression|||||1.49|0.81|=0.55
82550900|NCT04342494|164805622|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PHQ-9 score via analysis of covariance.||||||0.31|||||||ANCOVA|||||||0.31
82550901|NCT04342494|164805623|EQUIVALENCE|Average mood score obtained from daily measurements analyzed via analysis of variance||||||0.0073|||||||ANOVA|||||||0.0073
82550902|NCT04342494|164805624|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PANSI-PI score via analysis of covariance||||||0.03|||||||ANCOVA|||||||0.03
82550903|NCT04342494|164805625|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline PANSI-NSI score via analysis of covariance||||||0.71|||||||ANCOVA|||||||0.71
82550904|NCT04342494|164805626|EQUIVALENCE|Symptom-level change estimates were adjusted for baseline GAD-7 score via analysis of covariance||||||0.31|||||||ANCOVA|||||||0.31
82550905|NCT00753545|164805636|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||<|1e-05|TWO_SIDED|95.0|0.25|0.49|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.49|0.25|<0.00001
82550906|NCT00753545|164805637|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.55|0.95|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.95|0.55|0.02
82550907|NCT00753545|164805641|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-27.1||||0.03185|TWO_SIDED|95.0|-51.9|-2.4|||ANCOVA|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||LS mean \< 0 favours olaparib||-2.4|-51.9|0.03185
82550908|NCT00753545|164805645|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.35|||<|1e-05|TWO_SIDED|95.0|0.25|0.47|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||0.47|0.25|<0.00001
82476686|NCT01994889|164648553|SUPERIORITY||Least Square Mean Difference|75.68|STANDARD_ERROR_OF_MEAN|9.236|<|0.0001|TWO_SIDED|95.0|57.56|93.8|||Mixed Model Repeated Measures ANCOVA|||L.S. means are from an ANCOVA (MMRM) model with an unstructured covariance matrix; center and participant within center as random effects; treatment, visit, TTR genotype (variant and wild-type), and visit by treatment interaction, as fixed effects and baseline score as covariate.||93.80|57.56|<.0001
82476687|NCT01994889|164648554|SUPERIORITY||LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|2.13|<|0.0001|TWO_SIDED|95.0|9.48|17.83|||Mixed Model Repeated Measures ANCOVA|||Change at Month 30||17.83|9.48|<.0001
82550909|NCT00753545|164805649|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.22|TWO_SIDED|95.0|0.88|1.71|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.71|0.88|0.22
82550910|NCT00753545|164805650|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.67|TWO_SIDED|95.0|0.75|1.56|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.56|0.75|0.67
82476688|NCT01994889|164648555|SUPERIORITY||Hazard Ratio (HR)|0.691||||0.0383|TWO_SIDED|95.0|0.488|0.98|||Cox proportional hazards model||Hazard ratio from a Cox proportional hazards model with treatment, TTR genotype (variant and wild-type) and NYHA baseline classification (NYHA Classes I and II combined and NYHA Class III) in the model.|||0.980|0.488|0.0383
82476689|NCT01994889|164648556|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82476690|NCT02969655|164648557|NON_INFERIORITY|Non-inferiority was established if the lower limit of the 95% CI was greater than -1.0 g/dL. Even if the 95% CI for the difference was completely negative (i.e. lied fully within the range -1.0 to \<0 g/dL) non-inferiority was concluded on condition that the mean Hgb estimated in the daprodustat group was within the target range.|Mean Difference (Final Values)|0.06|||<|0.0001|TWO_SIDED|95.0|-0.11|0.23||The p value on this table is one-sided and calculated for the non-inferiority assessment.|Mixed model repeated measures (MMRM)||Analysis was performed by a MMRM with covariates of treatment, Baseline Hgb, visit, treatment-by-visit interaction, Baseline-by-visit interaction.|||0.23|-0.11|<.0001
82476691|NCT02969655|164648558|SUPERIORITY||Odds Ratio (OR)|0.76||||0.7442|TWO_SIDED|95.0|0.34|1.71||The p value on this table is one-sided and calculated for the superiority assessment.|Regression, Logistic||Analysis was performed by logistic regression with covariates of treatment and Baseline Hgb.|||1.71|0.34|0.7442
82476692|NCT03456882|164648616|SUPERIORITY|||||||0.6346||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.6346
82476693|NCT03456882|164648616|SUPERIORITY||Mean Difference (Net)|2.4|STANDARD_ERROR_OF_MEAN|2.6||0.3585|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.3585
82476694|NCT03456882|164648617|SUPERIORITY|||||||0.4388||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.4388
82476695|NCT03456882|164648617|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|20.2||0.9887|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.9887
82476696|NCT03456882|164648618|SUPERIORITY|||||||0.9622||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.9622
82476697|NCT03456882|164648618|SUPERIORITY||Mean Difference (Net)|6.5|STANDARD_ERROR_OF_MEAN|14.3||0.6533|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.6533
82550911|NCT00753545|164805651|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.16||||0.38|TWO_SIDED|95.0|0.83|1.64|||Regression, Cox|The model includes factors for treatment, ethnic descent, platinum sensitivity and response to final platinum therapy.||HR \< 1 favours olaparib||1.64|0.83|0.38
82476698|NCT03456882|164648619|SUPERIORITY|||||||0.9137||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.9137
82476699|NCT03456882|164648619|SUPERIORITY||Mean Difference (Net)|16.7|STANDARD_ERROR_OF_MEAN|19.7||0.3985|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.3985
82476700|NCT03456882|164648620|SUPERIORITY|||||||0.2543||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.2543
82476701|NCT03456882|164648620|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.22||0.2209|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.2209
82476702|NCT03456882|164648621|SUPERIORITY|||||||0.2738||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.2738
82550912|NCT04636528|164805721|EQUIVALENCE|A minimal detectable difference of 11.2 points was selected based on the psychometric properties of the scale. Considering a power of 80%, a 2-sided 0.05 significance level, and a 10% dropout rate, 82 patients would be necessary to detect an 11.2-point difference between the 2 groups.|Median Difference (Net)|-1.8||||0.75|TWO_SIDED|95.0|-13.5|9.8||The threshold for statistical significance was set at 0.05.|quantile mixed-effects model|a robust method on the medians||||9.8|-13.5|0.75
82550913|NCT04636528|164805721|EQUIVALENCE||Odds Ratio (OR)|0.84||||0.71|TWO_SIDED|95.0|0.32|2.16||The threshold for statistical significance was set at 0.05.|Regression, Logistic|||||2.16|0.32|0.71
82550914|NCT04636528|164805722|EQUIVALENCE||Median Difference (Net)|-0.6||||0.12|TWO_SIDED|95.0|-1.4|-0.2||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||-0.2|-1.4|0.12
82550915|NCT04636528|164805723|EQUIVALENCE||Median Difference (Net)|-2.2||||0.89|TWO_SIDED|95.0|-34.6|30.2||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|||||30.2|-34.6|0.89
82550916|NCT04636528|164805724|EQUIVALENCE||Median Difference (Net)|-0.3||||0.51|TWO_SIDED|95.0|-1.0|0.5|||Quantile mixed-effects model|a robust method on the medians||||0.5|-1.0|0.51
82550917|NCT04636528|164805725|EQUIVALENCE||Median Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|t-test, 2 sided|||||||<0.001
82550918|NCT04636528|164805726|EQUIVALENCE||Median Difference (Net)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.5|0.6||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||0.6|-1.5|<.001
82550919|NCT04636528|164805727|EQUIVALENCE||Median Difference (Net)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|a robust method on the medians||||-0.5|-1.4|<.001
82550920|NCT04636528|164805728|EQUIVALENCE||Median Difference (Net)|-0.5||||0.27|TWO_SIDED|95.0|-1.3|0.4||The threshold for statistical significance was set at 0.05.|Quantile mixed-effects model|A robust method on the medians.||||0.4|-1.3|.27
82550921|NCT04636528|164805729|EQUIVALENCE||Difference in proportions|11.8||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
82550922|NCT04636528|164805730|EQUIVALENCE||Mean Difference (Final Values)|12.7|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82550923|NCT04636528|164805731|EQUIVALENCE||Mean Difference (Final Values)|67.7||||0.36|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||0.36
82550924|NCT04636528|164805732|EQUIVALENCE||Mean Difference (Final Values)|1.62|||<|0.001|TWO_SIDED|||||The threshold for statistical significance was set at 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82550925|NCT03339713|164805734|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.55|1.11|||t-test, 1 sided|||A/Michigan strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.11|0.55|<.001
82550926|NCT03339713|164805734|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.59|1.12|||t-test, 1 sided|||A/Hong Kong strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.12|0.59|<.001
82561991|NCT04421456|164833250|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.45||0.4504|TWO_SIDED|95.0|-3.96|1.76|||Mixed-effects repeated measures model|||||1.76|-3.96|0.4504
82561992|NCT04421456|164833250|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm and visit by treatment arm interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|-1.23|STANDARD_ERROR_OF_MEAN|1.52||0.4195|TWO_SIDED|95.0|-4.22|1.76|||Mixed-effects repeated measures model|||||1.76|-4.22|0.4195
82561993|NCT04421456|164833251|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm, visit by treatment arm interaction and visit by associated baseline interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.16||0.885|TWO_SIDED|95.0|-0.35|0.3|||Mixed-effects repeated measures model|||||0.30|-0.35|0.8850
82561994|NCT04421456|164833251|SUPERIORITY|The repeated measures model includes stratification factors (sex and region), associated baseline, visit, randomised treatment arm, visit by treatment arm interaction and visit by associated baseline interaction as fixed effects and visit repeated within each participant as a repeated effect.|Least square mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.16||0.7808|TWO_SIDED|95.0|-0.36|0.27|||Mixed-effects repeated measures model|||||0.27|-0.36|0.7808
82561995|NCT04421456|164833252|SUPERIORITY||Odds Ratio (OR)|1.412||||0.6707|TWO_SIDED|95.0|0.288|6.924|||Regression, Logistic|||||6.924|0.288|0.6707
82561996|NCT04421456|164833252|SUPERIORITY||Odds Ratio (OR)|0.576||||0.4883|TWO_SIDED|95.0|0.121|2.744|||Regression, Logistic|||||2.744|0.121|0.4883
82561997|NCT02206607|164833267|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|31.27|||||TWO_SIDED|90.0|28.09|34.8||||||||34.80|28.09|
82561998|NCT02206607|164833267|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|25.56|||||TWO_SIDED|90.0|23.11|28.27||||||||28.27|23.11|
82561999|NCT02206607|164833267|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|32.04|||||TWO_SIDED|90.0|28.93|35.49||||||||35.49|28.93|
82562000|NCT02206607|164833268|SUPERIORITY_OR_OTHER||Least Square Mean|15.72|STANDARD_ERROR_OF_MEAN|3.357||1|TWO_SIDED|80.0|11.39|20.06||1-sided p-value|Mixed Models Analysis|Treatment, period, sequence as fixed effects and subjects-within-sequence as random effects.||||20.06|11.39|1.0000
82550927|NCT03339713|164805734|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|1.0|||<|0.001|TWO_SIDED|90.0|0.77|1.34|||t-test, 1 sided|||B/Brisbane strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.34|0.77|<.001
82550928|NCT03339713|164805734|NON_INFERIORITY|Non-inferiority of Group 2 versus Group 1 in terms of the HI antibody titers against all four influenza vaccine strains 28 days after the administration of influenza vaccine, using a non-inferiority margin of 2 for the GMT ratio (Group 2 / Group 1).|Geometric Mean Ratio|1.0|||<|0.001|TWO_SIDED|90.0|0.76|1.36|||t-test, 1 sided|||B/Phuket strain: Based on Welch-Satterthwaite t-interval method. The difference (Group 2 minus Group 1) and CI in log-transformed HI antibody titers were calculated for each of the 4 influenza vaccine strains, and were back-transformed (by exponentiation) to a GMT ratio (Group 2 / Group 1) and the corresponding CI.||1.36|0.76|<.001
82580528|NCT04828837|164872497|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|Mean Difference (Final Values)|0.39|||<|0.05|TWO_SIDED|95.0||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|Wilcoxon (Mann-Whitney)|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
82580529|NCT04828837|164872498|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|||||<|0.05||||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|The generalized estimating equation (GEE|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
82580530|NCT04828837|164872499|SUPERIORITY|The intervention effect was evaluated using the generalized estimating equation (GEE) statistical method. Two-tailed tests were conducted, and p-values less than .05 were considered statistically significant.|||||<|0.05||||||We used Mann-Whitney U test for independent samples, and Fisher's exact tests when more than 20% of cells have expected frequencies \<5 or less than 10 observations to examine the homogeneity between groups based on demographic characteristics.|The generalized estimating equation (GEE|||Descriptive statistics, including count, percentage, mean, and standard deviation, were used to summarize the data.||||<0.05
82580531|NCT04828837|164872500|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82550929|NCT05604508|164805745|OTHER||Odds Ratio (OR)|0.735|||||TWO_SIDED|95.0|0.347|1.553|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline cigarette use intentions|||1.553|0.347|
82550930|NCT05604508|164805745|OTHER||Odds Ratio (OR)|0.471|||||TWO_SIDED|95.0|0.234|0.947|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline cigarette use intentions.|||0.947|0.234|
82550931|NCT05604508|164805746|OTHER||Odds Ratio (OR)|1.503|||||TWO_SIDED|95.0|0.727|3.107|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline vaping intentions|||3.107|0.727|
82651011|NCT00294723|165016802|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-10.02||||0.0395||95.0|-19.56|-0.49||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||-0.49|-19.56|0.0395
82651012|NCT00294723|165016802|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-6.6||||0.1789||95.0|-16.24|3.03||2-sided significance level 5%|ANCOVA|||Change in fasting plasma glucose (FPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline FPG as covariate.||3.03|-16.24|0.1789
82651013|NCT00294723|165016803|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-12.9||||0.0038||95.0|-21.6|-4.2||2-sided significance level 5%|ANCOVA|||Change in mean postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-4.2|-21.6|0.0038
82550932|NCT05604508|164805746|OTHER||Odds Ratio (OR)|0.878|||||TWO_SIDED|95.0|0.398|1.938|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline vaping intentions|||1.938|0.398|
82550933|NCT05604508|164805747|OTHER||Odds Ratio (OR)|0.619|||||TWO_SIDED|95.0|0.295|1.301|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, and baseline smokeless use intentions|||1.301|0.295|
82550934|NCT05604508|164805747|OTHER||Odds Ratio (OR)|0.489|||||TWO_SIDED|95.0|0.237|1.006|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco, baseline smokeless use intentions|||1.006|0.237|
82550935|NCT05604508|164805748|OTHER||Odds Ratio (OR)|1.428|||||TWO_SIDED|95.0|0.72|2.832|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline LCC use intentions|||2.832|0.720|
82550936|NCT05604508|164805748|OTHER||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.681|2.96|||||Adjusted for age, gender, race, socioeconomic status, lifetime tobacco use, baseline LCC use intentions|||2.960|0.681|
82550937|NCT05337306|164805749|SUPERIORITY|ANCOVA controlling for study arm and baseline||||||0.049||||||a priori threshold .05; no adjustment for multiple comparisons|ANCOVA|covariates include arm and baseline level of outcome||Last Observation Carried Forward (LOCF) for those lost to follow up; null hypothesis group 1 follow-up outcome = group 2 follow-up outcome.||||.049
82550938|NCT05337306|164805750|SUPERIORITY|||||||0.04||||||a priori threshold .05; no adjustment for multiple comparisons|ANCOVA|Covariates include trial arm and baseline level of outcome.||LOCF for lost to follow-up||||.040
82550939|NCT05337306|164805751|SUPERIORITY|||||||0.22|||||||ANCOVA|covariates include trial arm and baseline level of outcome.||LOCF for dropout/lost to follow up||||.220
82550940|NCT05235750|164805801|OTHER||Mean Difference (Net)|0.2||||0.83|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for RSES.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for RSES.|We analyzed short- (at 6 weeks post-baseline or T3) and longer-term differences (at 8 weeks post-baseline or T4) for the RSES, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.83
82550941|NCT05235750|164805801|OTHER||Mean Difference (Net)|-0.2||||0.91|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for RSES.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for RSES.|||||.91
82550942|NCT05235750|164805802|OTHER||Mean Difference (Net)|-2.1||||0.45|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACT-G.|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for the FACT-G at scale, factor and item levels expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.45
82550943|NCT05235750|164805802|OTHER||Mean Difference (Net)|-3.3||||0.29|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACT-G.|||||.29
82550944|NCT05235750|164805802|OTHER||Mean Difference (Net)|0.8||||0.46|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|||||.46
82550945|NCT05235750|164805802|OTHER||Mean Difference (Net)|0.2||||0.79|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for physical well-being (PWB) as measured by the FACT-G.|||||.79
82550946|NCT05235750|164805802|OTHER||Mean Difference (Net)|-2.1||||0.05|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|||||.05
82550947|NCT05235750|164805802|OTHER||Mean Difference (Net)|-2.4||||0.03|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for social/family well-being (SWB) as measured by the FACT-G.|||||.03
82550948|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.2||||0.82|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|||||.82
82550949|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.5||||0.58|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for emotional well-being (EWB) as measured by the FACT-G.|||||.58
82550950|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.8||||0.56|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|||||.56
82550951|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.7||||0.58|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for functional well-being (FWB) as measured by the FACT-G.|||||.58
82550952|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.2||||0.58|TWO_SIDED|||||"The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|||||.58
82550953|NCT05235750|164805802|OTHER||Mean Difference (Net)|-0.3||||0.34|TWO_SIDED|||||"The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\] for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for Global QoL (item G7 I am content with the quality of my life right now) as measured by the FACT-G."|||||.34
82550954|NCT05235750|164805802|OTHER||Mean Difference (Net)|0.4||||0.27|TWO_SIDED|||||"The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|||||.27
82550955|NCT05235750|164805802|OTHER||Mean Difference (Net)|0.0||||0.62|TWO_SIDED|||||"The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|Mixed Models Analysis||"The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for item Ge6 I worry that my condition will get worse as measured by the FACT-G."|||||.62
82550956|NCT05235750|164805803|OTHER||Mean Difference (Net)|-0.6||||0.76|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for the FACIT-Sp-12 at scale and factor levels, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.76
82550957|NCT05235750|164805803|OTHER||Mean Difference (Net)|-2.1||||0.19|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12.|||||.19
82651014|NCT00294723|165016803|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-6.3||||0.1616||95.0|-15.0|2.5||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||2.5|-15.0|0.1616
82550958|NCT05235750|164805803|OTHER||Mean Difference (Net)|-1.0||||0.35|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|||||.35
82550959|NCT05235750|164805803|OTHER||Mean Difference (Net)|-1.9||||0.99|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Meaning/Peace factor (M/P) as measured by the FACIT-Sp-12.|||||.99
82550960|NCT05235750|164805803|OTHER||Mean Difference (Net)|0.4||||0.46|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|||||.46
82550961|NCT05235750|164805803|OTHER||Mean Difference (Net)|-0.7||||0.24|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the Faith factor of the FACIT-Sp-12.|||||.24
82550962|NCT05235750|164805803|OTHER||Mean Difference (Net)|-0.4||||0.55|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|||||.55
82550963|NCT05235750|164805803|OTHER||Mean Difference (Net)|-0.9||||0.8|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the revised Faith factor of the FACIT-Sp-12.|||||.80
82651015|NCT00294723|165016803|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-6.6||||0.1319||95.0|-15.3|2.0||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||2.0|-15.3|0.1319
82476703|NCT03456882|164648621|SUPERIORITY||Mean Difference (Net)|-2.9|STANDARD_ERROR_OF_MEAN|3.7||0.4239|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.4239
82476704|NCT03456882|164648622|SUPERIORITY|||||||0.1708||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.1708
82550964|NCT05235750|164805803|OTHER||Mean Difference (Net)|-1.5||||0.34|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|||||.34
82550965|NCT05235750|164805803|OTHER||Mean Difference (Net)|-3.0||||0.91|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for the total FACIT-Sp-12 (revised).|||||.91
82550966|NCT05235750|164805804|OTHER||Mean Difference (Net)|1.1||||0.14|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|We analyzed short- (at 6 weeks post-baseline, T3) and longer-term differences (at 8 weeks post-baseline, T4) for two subscales HADS-A and HADS-D respectively, expecting a larger size of differences at T3. The short-term difference \[(T3-T2)-(T2-T1)\] represents differences between post-intervention change (T3-T2) and pre-intervention change (T2-T1). Longer-term difference \[(T4-T2)-(T2-T1)\] represents differences between 2 weeks post-intervention change (T4-T2) and pre-intervention change (T2-T1).||||.14
82550967|NCT05235750|164805804|OTHER||Mean Difference (Net)|1.2||||0.14|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-anxiety subscale (HADS-A).|||||.14
82550968|NCT05235750|164805804|OTHER||Median Difference (Net)|0.6||||0.32|TWO_SIDED|||||The above p value refers to the difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|Mixed Models Analysis||The above value represents net difference between post-intervention change and pre-intervention change (or \[(T3-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|||||.32
82550969|NCT05235750|164805804|OTHER||Mean Difference (Net)|0.9||||0.2|TWO_SIDED|||||The above p value refers to the difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|Mixed Models Analysis||The above value represents net difference between 2 weeks post-intervention change and pre-intervention change (or \[(T4-T2)-(T2-T1)\]) for HADS-depression subscale (HADS-D).|||||.20
82550970|NCT01814813|164805818|SUPERIORITY|||||||0.16|||||||Log Rank|||||||0.16
82550971|NCT01814813|164805819|SUPERIORITY||||||<|0.01|||||||Log Rank|||||||<0.01
82550972|NCT01814813|164805820|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||0.56
82550973|NCT05089019|164805821|EQUIVALENCE|Equivalence margin 80% to 125%|Ratio of Geometric LS Mean|0.889|||||TWO_SIDED|94.12|0.81|0.976|||Mixed Models Analysis|Ratio of Geometric Least Square (LS) Mean||||0.976|0.810|
82550974|NCT05089019|164805822|EQUIVALENCE|Equivalence margin 80% to 125%.|Ratio of Geometric LS Mean|0.927|||||TWO_SIDED|94.12|0.882|0.975|||Mixed Models Analysis|||||0.975|0.882|
82550975|NCT05089019|164805823|EQUIVALENCE|Equivalence margin 80% to 125%|Ratio of Geometric LS Mean|0.891|||||TWO_SIDED|94.12|0.834|0.951|||Mixed Models Analysis|||||0.951|0.834|
82550976|NCT04770532|164805851|NON_INFERIORITY|Non-inferiority of insulin icodec was considered confirmed if the upper limit of the two-sided 95% confidence interval (CI) for mean treatment difference (insulin icodec minus insulin degludec) was strictly below 0.3%.|Treatment difference|-0.22|||<|0.0001|TWO_SIDED|95.0|-0.37|-0.08|||ANCOVA|||The response and change from baseline in response after 26 weeks were analysed using an analysis of covariance (ANCOVA) model with treatment, region and personal continuous glucose monitoring (CGM) device use as fixed factors, and baseline response as covariate.||-0.08|-0.37|<0.0001
82562001|NCT02206607|164833268|SUPERIORITY_OR_OTHER||Least Square Mean|16.31|STANDARD_ERROR_OF_MEAN|3.399||1|TWO_SIDED|80.0|11.93|20.7||1-sided p-value|Mixed Models Analysis|Treatment, period, sequence as fixed effects and subjects-within-sequence as random effects.||||20.70|11.93|1.000
82562002|NCT02206607|164833268|SUPERIORITY_OR_OTHER||Least Square Mean|20.38|STANDARD_ERROR_OF_MEAN|3.291||1|TWO_SIDED|80.0|16.13|24.62||1-sided p-value|Mixed Models Analysis|||||24.62|16.13|1.0000
82562003|NCT02206607|164833269|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|25.21|||||TWO_SIDED|90.0|23.28|27.31||||||||27.31|23.28|
82562004|NCT02206607|164833269|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|26.38|||||TWO_SIDED|90.0|24.36|28.57||||||||28.57|24.36|
82562005|NCT02206607|164833269|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|36.94|||||TWO_SIDED|90.0|34.09|40.02||||||||40.02|34.09|
82651016|NCT00294723|165016804|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-12.3||||0.0105||95.0|-21.71|-2.89||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-2.89|-21.71|0.0105
82651017|NCT00294723|165016804|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.49||||0.606||95.0|-11.95|6.98||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||6.98|-11.95|0.6060
82550977|NCT05457647|164805862|OTHER|The accuracy and precision of the theranostic imaging biomarkers, including both the riboflavin score and theranostic score, to predict CXL treatment outcome were determined by calculating the proportion of correctly classified eyes and the positive predictive value respectively.|Proportion|91.0|||||TWO_SIDED|95.0|||||||The study set a minimum threshold of 85 for the the combined use of the theranostic imaging biomarkers' accuracy and precision in predicting the propensity of CXL to halt disease progression at 1 year in the study population.|Accuracy and precision of the combined use of theranostic imaging biomarkers generated by the UV-A device to predict the propensity of CXL in flattening the Kmax value at 12-months.||||
82550978|NCT05457647|164805863|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of Kmax value at 12-months follow-up visit.||||<0.05
82550979|NCT05457647|164805864|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of ECD value at 12-months follow-up visit.||||<0.05
82550980|NCT05457647|164805865|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of MSER value at 12-months follow-up visit.||||<0.05
82550981|NCT05457647|164805866|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of CDVA value at 12-months follow-up visit.||||<0.05
82550982|NCT05457647|164805867|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of UDVA value at 12-months follow-up visit.||||<0.05
82550983|NCT05457647|164805868|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||Assessment of change of CCT value at 12-months follow-up visit.||||<0.05
82550984|NCT05457647|164805869|OTHER|Paired Wilcoxon signed-rank test was used to compare the distributions preoperatively and 12-months postoperatively. Bonferroni correction was applied to analysis of exploratory outcome measures of stratification groups.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82550985|NCT02683447|164805870|OTHER|Correlation||||||0.039||||||P \< 0.05 is considered statistically significant.|Pearson correlation|||||||0.039
82550986|NCT02683447|164805871|OTHER|Correlation|||||<|0.01||||||P \< 0.05 is considered statically significant.|Pearson correlation|||ACLS correct score||||<0.01
82550987|NCT02683447|164805871|OTHER|Correlation||||||0.322||||||P \< 0.05 is considered statically significant.|Pearson correlation|||ACLS risk score||||0.322
82550988|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Treatment sequence effect: p=0.28; gender effect: p=0.20; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and gender as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: gender (male, female)."||||0.2
82550989|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.001||||||Treatment sequence effect: p=0.34; age effect: p=0.001; threshold for statistical significance: p\<0.05.|Regression, Logistic|2-factor logistic regression with age and treatment sequence as factors||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: age (18-39 years, 40-59 years, ≥60 years)."||||=0.001
82550990|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29||||||Treatment sequence effect: p=0.34; baseline disease severity effect: p=0.29; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and baseline disease severity as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: Baseline disease severity (mild, moderate, severe)."||||0.29
82550991|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||||||Treatment sequence effect: p=0.33; distribution phenotype (localised, widespread) effect: p=0.55; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and distribution phenotype (localised, widespread) as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: distribution phenotype (localised, widespread)."||||0.55
82562006|NCT02206607|164833275|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR1/IR|31.06|||||TWO_SIDED|90.0|28.28|34.1||||||||34.10|28.28|
82562007|NCT02206607|164833275|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR2/IR|24.96|||||TWO_SIDED|90.0|22.73|27.4||||||||27.40|22.73|
82562008|NCT02206607|164833275|SUPERIORITY_OR_OTHER||Adjusted Geometric Mean Ratio MR3/IR|31.69|||||TWO_SIDED|90.0|28.86|34.81||||||||34.81|28.86|
82651018|NCT00294723|165016804|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-9.81||||0.0392||95.0|-19.14|-0.49||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-0.49|-19.14|0.0392
82476705|NCT03456882|164648622|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.25||0.8133|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.8133
82476706|NCT03456882|164648623|SUPERIORITY|||||||0.5239||||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.||Global test of treatment\*time interaction effect. Null hypothesis: the change over time is not different between groups.||||0.5239
82476707|NCT03456882|164648623|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4401|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 24 - baseline) within treatment groups. Null hypothesis: the change from baseline to week 24 is not different between treatment groups.||||0.4401
82476708|NCT03456882|164648624|SUPERIORITY||difference between mean slopes|0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5725|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction||Contrast of the slopes during the on-treatment period (change per week, from baseline to week 24) between treatment groups. Null hypothesis: the rate of change from baseline to week 24 is not different between groups.||||0.5725
82476709|NCT03456882|164648624|SUPERIORITY||difference between mean slopes|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.5728|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the off-treatment follow-up period (change per week, from week 24 to week 48) between treatment groups. Null hypothesis: the rate of change from week 24 to week 48 is not different between groups.||||0.5728
82476710|NCT03456882|164648625|SUPERIORITY|||||||0.9212||||||Significance level set to 0.05|Log Rank|||Null hypothesis: the survival curves over the on-treatment and the off-treatment follow-up period are not different between groups.||||0.9212
82476711|NCT03456882|164648626|SUPERIORITY||difference between mean slopes|0.41|STANDARD_ERROR_OF_MEAN|0.16||0.0101|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the on-treatment period (change per week, from baseline to week 24) between treatment groups. Null hypothesis: the rate of change from baseline to week 24 is not different between groups.||||0.0101
82550992|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||||||Treatment sequence effect: p=0.32; plaque size (≤3 mm diameter, \>3 mm diameter): p=0.25; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and plaque size as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: plaque size (≤3 mm diameter, \>3 mm diameter)."||||0.25
82550993|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.41||||||Treatment sequence effect: p=0.34; skin thickness phenotype (≤0.75 mm, \>0.75 mm) effect: p=0.41; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and skin thickness phenotype as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: skin thickness phenotype (≤0.75 mm, \>0.75 mm)."||||0.41
82550994|NCT02310646|164805903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||||||Treatment sequence effect: p=0.30; onset phenotype (≤40 years of age, \>40 years of age) effect: p=0.20; threshold for statistical significance: p\<0.05|Regression, Logistic|2-factor logistic regression model with treatment sequence and onset phenotype (≤40 years of age, \>40 years of age) as factors.||"The statistical significance of each of the 7 baseline characteristics was tested in a 2-factor logistic regression model with treatment sequence and each baseline characteristic as factors.~Baseline factor: onset phenotype (≤40 years of age, \>40 years of age)."||||0.20
82476712|NCT03456882|164648626|SUPERIORITY||difference between mean slopes|0.09|STANDARD_ERROR_OF_MEAN|0.18||0.5924|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|Contrast of the slopes during the off-treatment follow-up period (change per week, from week 24 to week 48) between treatment groups. Null hypothesis: the rate of change from week 24 to week 48 is not different between groups.||||0.5924
82476713|NCT03456882|164648627|SUPERIORITY|||||||0.9598||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 4 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 4 weeks is not different between groups||||0.9598
82476714|NCT03456882|164648627|SUPERIORITY|||||||0.939||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 12 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 12 weeks is not different between groups||||0.9390
82651019|NCT00294723|165016805|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-10.98||||0.0227||95.0|-20.42|-1.54||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||-1.54|-20.42|0.0227
82651020|NCT00294723|165016805|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-1.83||||0.7047||95.0|-11.33|7.66||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||7.66|-11.33|0.7047
82476715|NCT03456882|164648627|SUPERIORITY|||||||0.3442||||||Significance level set to 0.05|Fisher Exact|||AE treatment discontinuation 24 weeks. Null hypothesis: the percentage of patients experiencing at least one adverse event leading to treatment discontinuation within 24 weeks is not different between groups||||0.3442
82476716|NCT03456882|164648628|SUPERIORITY||difference between mean slopes|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.1503|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 physical mobility. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.1503
82476717|NCT03456882|164648628|SUPERIORITY||difference between mean slopes|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.1556|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 ADL and independence.Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.1556
82476718|NCT03456882|164648628|SUPERIORITY||difference between mean slopes|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0319|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 eating and drinking. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.0319
82476719|NCT03456882|164648628|SUPERIORITY||difference between mean slopes|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.6419|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 communication. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.6419
82476720|NCT03456882|164648628|SUPERIORITY||difference between mean slopes|0.07|STANDARD_ERROR_OF_MEAN|0.1||0.3951|TWO_SIDED|||||Significance level set to 0.05|Mixed Models Analysis|Linear mixed model with random intercept,slope,unstructured variance covariance matrix.Independent variables:time,treatment,treatment\*time interaction|RNS60 vs. Placebo|ALSAQ-40 emotional reactions. Contrast of the slopes during the on-treatment and off-treatment follow-up period (change per week, from baseline to week 48) between treatment groups. Null hypothesis: the rate of change from baseline to week 48 is not different between groups.||||0.3951
82476721|NCT03456882|164648629|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|3.8||0.9563|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.9563
82476722|NCT03456882|164648630|SUPERIORITY||Mean Difference (Net)|28.5|STANDARD_ERROR_OF_MEAN|23.4||0.2253|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.2253
82476723|NCT03456882|164648631|SUPERIORITY||Mean Difference (Net)|-7.7|STANDARD_ERROR_OF_MEAN|15.7||0.6263|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.6263
82476724|NCT03456882|164648632|SUPERIORITY||Mean Difference (Final Values)|-19.0|STANDARD_ERROR_OF_MEAN|21.0||0.3671|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.3671
82651021|NCT00294723|165016805|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-9.15||||0.0553||95.0|-18.51|0.21||2-sided significance level 5%|ANCOVA|||Change in postprandial glucose (PPG) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline PPG as covariate.||0.21|-18.51|0.0553
82476725|NCT03456882|164648633|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_ERROR_OF_MEAN|0.22||0.845|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.845
82476726|NCT03456882|164648634|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2161|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction.|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.2161
82476727|NCT03456882|164648635|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.15||0.4962|TWO_SIDED|||||Significance level set to 0.05|repeated measures ANOVA|Repeated measures ANOVA with unstructured variance covariance matrix. Independent variables: time, treatment and treatment\*time interaction|RNS60 vs. Placebo|Contrast between treatment groups of the differences (week 48 - week 24) within treatment groups. Null hypothesis: the change from week 24 to week 48 is not different between treatment groups.||||0.4962
82476728|NCT03456882|164648636|SUPERIORITY|||||||0.8738||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 4 weeks. Null hypothesis: the number of adverse events occurred within 4 weeks is not different between groups||||0.8738
82476729|NCT03456882|164648636|SUPERIORITY|||||||0.7556||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 12 weeks. Null hypothesis: the number of adverse events occurred within 12 weeks is not different between groups||||0.7556
82476730|NCT03456882|164648636|SUPERIORITY|||||||0.6477||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 24 weeks. Null hypothesis: the number of adverse events occurred within 24 weeks is not different between groups||||0.6477
82550995|NCT02310646|164805904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||"The total TPUQ score for the gel and the foam (mean score 29.9 vs. mean score 26.8; p=0.007).~Threshold for statistical significance: p\<0.05."|Wilcoxon Rank Sum Test|Wilcoxon rank sum test comparing the period difference (within subject difference between study treatments) between both treatment sequences.||Subjects in the analysis are 212 - full analysis set. All subjects received both study treatments. Total TPUQ score (summary score item 1-25) superiority comparison gel versus foam.||||0.007
82550996|NCT02310646|164805905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon Signed Rank Test|Wilcoxon signed rank test comparing within subject difference to latest topical treatment||Subjects in the analysis are 118. All subjects received both study treatments. Statistical analysis for total TPUQ score (summary score item 1-25): superiority comparison foam versus latest topical treatment.||||<0.001
82550997|NCT02310646|164805905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon Signed Rank Test|Wilcoxon signed rank test comparing within subject difference to latest topical treatment||Subjects in the analysis are 118. All subjects received both study treatments. Statistical analysis for total TPUQ score (summary score item 1-25): superiority comparison gel versus latest topical treatment.||||<0.001
82550998|NCT03313076|164805976|SUPERIORITY||Slope|-0.84||||0.276|TWO_SIDED|95.0|-2.32|0.63||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||||0.63|-2.32|0.276
82550999|NCT03313076|164805976|SUPERIORITY||Slope|0.72||||0.336|TWO_SIDED|95.0|-0.71|2.14||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||||2.14|-0.71|0.336
82551000|NCT03313076|164805976|SUPERIORITY||Slope|-2.33||||0.004|TWO_SIDED|95.0|-3.76|-0.9||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||Sensitivity analysis adjusting for an influential observation (using the dfbeta approach) that could produce spurious results from a small trial dataset||-0.9|-3.76|0.004
82551001|NCT03313076|164805976|SUPERIORITY||Slope|0.92||||0.139|TWO_SIDED|95.0|-0.25|2.09||"The final, adjusted p-value threshold of 0.0492, using the O'Brien-Fleming approach, allows for a statistical penalty to be assessed because of the interim analysis."|Mixed Models Analysis|The model was adjusted for age, sex, race, treatment interaction, initial pain severity, and total body surface area burned.||Sensitivity analysis adjusting for an influential observation (using the dfbeta approach) that could produce spurious results from a small trial dataset||2.09|-0.25|0.139
82476731|NCT03456882|164648636|SUPERIORITY|||||||0.6084||||||Significance level set to 0.05|Wilcoxon (Mann-Whitney)|||Mean AE treatment discontinuation 48 weeks. Null hypothesis: the number of adverse events occurred within 48 weeks is not different between groups||||0.6084
82476732|NCT05477108|164648670|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 42.91. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.1028 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|104.24|||||TWO_SIDED|90.0|95.78|113.44|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||113.44|95.78|
82551002|NCT04137367|164806006|OTHER|||||||0.05|||||||Mixed Models Analysis|||We estimated a priori that a total of 100 participants would be needed to detect a difference between ABM and sham condition, with a two-tailed α of 0.05 and (1-β) of .80. Power calculation was based on the assumption that 50 % of the participants allocated to ABM would report a minimum of 3 points reduction on BDI-II at six months, compared to 20 % in the sham condition. Assuming 15 % lost to follow up, power calculation indicated the need for 50 participants in each condition||||.05
82551003|NCT00324805|164806112|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9|TWO_SIDED|95.0|0.82|1.19|||Regression, Cox||Arm II versus Arm I|||1.19|0.82|0.90
82551004|NCT00324805|164806113|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.86|1.15|||Regression, Cox||Arm II vs. Arm I|||1.15|0.86|0.95
82551005|NCT03931174|164806120|SUPERIORITY|Unit of analysis is the provider level. All 186 providers (95 ATTC, 91 E-ATTC) who enrolled in the study are included in the analysis.|Odds Ratio (OR)|2.41|STANDARD_ERROR_OF_MEAN|0.53||0.097|TWO_SIDED|95.0|0.85|6.81||CM Exposure is reported as the estimated proportion of providers delivering 10 or more CM sessions to at least one patient in a mixed model accounting for nesting.|Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||6.81|0.85|0.097
82551006|NCT03931174|164806121|SUPERIORITY|Unit of analysis is the provider level. All 186 providers (95 ATTC, 91 E-ATTC) who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.31||0.02|TWO_SIDED|95.0|0.11|1.32|||t-test, 2 sided|T-test adjusted for inequality of variances||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||1.32|0.11|0.02
82551007|NCT03931174|164806122|SUPERIORITY|Unit of analysis is the organization-level. Total number of organizations included in the analysis is 28 (14 ATTC, 14 E-ATTC).|Chi-square test statistic value|0.662||||0.43|TWO_SIDED||||||Chi-squared|Pearson Chi-Square||These analyses are unadjusted.||||0.430
82551008|NCT03931174|164806123|SUPERIORITY|Analyses are at the patient-level. All patients who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|-0.695|STANDARD_ERROR_OF_MEAN|0.313||0.034|TWO_SIDED|95.0|-1.3|-0.08|||Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||-0.08|-1.30|.034
82551009|NCT03931174|164806124|SUPERIORITY|Analyses are at the patient-level. All patients who enrolled in the study are included in the analysis.|Mean Difference (Final Values)|-0.202|STANDARD_ERROR_OF_MEAN|0.314||0.27|TWO_SIDED|95.0|-0.82|0.41|||Mixed Models Analysis|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.41|-0.82|0.27
82551010|NCT03931174|164806125|SUPERIORITY|Analyses are at the provider-level. Only those providers who completed the post-implementation survey (at the end of the 9-month implementation phase) were included in the analysis.|Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.191||0.011|TWO_SIDED|95.0|-0.88|0.12||Means were compared between conditions in an independent-samples T-test.|t-test, 2 sided|T-test adjusted for inequality of variances||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.12|-0.88|.011
82551011|NCT03931174|164806126|SUPERIORITY|Analyses are at the provider-level. Only those providers who completed the post-implementation survey (at the end of the 9-month implementation phase) were included in the analysis.|Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.232||0.218|TWO_SIDED|95.0|-0.75|0.17||Means of leadership engagement scores were compared between conditions in an independent-samples T-test.|t-test, 2 sided|||These analyses are unadjusted. The primary outcomes paper will report both unadjusted and adjusted analyses.||0.17|-0.75|.218
82551012|NCT05228457|164806153|SUPERIORITY|13 participants were randomized to receive active TMS, and 13 were randomized to receive sham TMS. 1 participant from each group withdrew, resulting in their exclusion from the analysis. Therefore, 24 participants were randomized to active (n = 12) or sham (n = 12) aiTBS groups. The analysis examined MADRS scores measured at baseline and post-treatment. A priori hypotheses were that active aiTBS would demonstrate measurable differences in MADRS scores compared to the sham group.|Mean Difference (Final Values)|-14.8|||<|0.001|TWO_SIDED|95.0|-19.94|-9.56|||t-test, 2 sided||The primary outcome was the between-group (Active vs Sham) difference in MADRS scores at the end of the treatment period. Results, including mean scores, standard deviations, confidence intervals, and p-value for the between-group comparisons.|||-9.56|-19.94|<0.001
82580532|NCT01397422|164872501|SUPERIORITY||Least Squares Mean Difference|-11.3||||0.0051|TWO_SIDED|95.0|-19.1|-3.5|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||20 subjects per treatment arm provided 80% power using a 2-sided 2-sample test at 5% significance. The null hypothesis for the primary endpoint was that the response of the ADS-5102 340 mg group was equal to that of the placebo group.||-3.5|-19.1|0.0051
82551013|NCT05228457|164806154|SUPERIORITY||Z-transformed Pearson's r values|-0.014||||0.04|TWO_SIDED||||||t-test, 2 sided|||Z-transformed Pearson's r values of average voxel-wise connectivity within the DMN||||0.04
82551014|NCT04382664|164806155|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.845|TWO_SIDED|80.0|0.694|1.309|||Regression, Cox|||||1.309|0.694|0.845
82551015|NCT03492216|164806175|SUPERIORITY||Risk Difference (RD)|7.6||||0.0025|TWO_SIDED|95.0|2.7|12.5|||Regression, Logistic||adjusted risk difference for non-hazardous alcohol use, alcohol incentive groups compared to no alcohol incentive groups. logistic regression model adjusted for INH incentive arm, participant sex, and study site.|||12.5|2.7|0.0025
82551016|NCT03492216|164806176|SUPERIORITY||Risk Difference (RD)|-0.2||||0.9435|TWO_SIDED|95.0|-7.0|6.5|||Regression, Logistic||adjusted risk difference for \>90% INH adherence, INH incentive group compared to no INH incentives. logistic regression model adjusted for alcohol incentive arm, participant sex and study site.|||6.5|-7.0|0.9435
82551017|NCT03492216|164806179|SUPERIORITY||Risk Difference (RD)|-2.5||||0.26|TWO_SIDED|95.0|-6.8|1.9|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 2 (escalating incentives; EtG tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||1.9|-6.8|0.26
82580533|NCT01397422|164872501|SUPERIORITY||Least Squares Mean Difference|-10.0||||0.0131|TWO_SIDED|95.0|-17.8|-2.2|||ANCOVA|||||-2.2|-17.8|0.0131
82551018|NCT03492216|164806179|SUPERIORITY||Risk Difference (RD)|0.7||||0.7|TWO_SIDED|95.0|-2.8|4.1|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 3 (escalating incentives; IsoScreen tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||4.1|-2.8|0.70
82551019|NCT03492216|164806179|SUPERIORITY||Risk Difference (RD)|1.3||||0.42|TWO_SIDED|95.0|-1.9|4.5|||Regression, Logistic||adjusted risk different for HIV viral suppression at 12 months, Arm 4 (escalating incentives; EtG and IsoScreen tests) compared to Arm 1 (control); logistic regression model adjusted for randomization arm, participant sex, and study site.|||4.5|-1.9|0.42
82551020|NCT01098812|164806269|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|43.0|STANDARD_DEVIATION|75.0|<|0.0001|ONE_SIDED|90.0|25.0|||Primary study endpoint; therefore, no adjustment for multiple comparisons. The planned alpha level for testing was 0.025.|t-test, 1 sided|||Toric IOL results for mean percent reduction in cyl compared to control results at 6 months. Null hypothesis = mean reduction for toric eyes is \<= to that of control eyes; alternate hypothesis = mean reduction for toric eyes is \> the control. There is 80% power to detect \>=31% difference in mean percent reduction in cylinder (postoperative refractive cylinder minus preoperative keratometric cylinder)/(target refractive cylinder minus preoperative keratometric cylinder) between IOL groups.|||25|<0.0001
82551021|NCT01098812|164806270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.15||0.0009|ONE_SIDED|90.0||-0.03||P-value compared to alpha level adjusted for multiplicity of 0.0125.|t-test, 1 sided|||Used LogMAR values for visual acuity; The null hypothesis is that the mean UCDVA for toric eyes is worse than or equal to that for control eyes; the alternate hypothesis is that the mean UCDVA for toric eyes is better than that for control eyes. There is 80% power to detect \>=0.06 LogMAR difference in mean UCDVA between IOL groups.||-0.03||0.0009
82551022|NCT03131154|164806271|OTHER||Hazard Ratio (HR)|1.129|||||TWO_SIDED|95.0|0.643|1.982|||||Cox proportional hazards model|||1.982|0.643|
82580534|NCT01397422|164872501|SUPERIORITY||Least Squares Mean Difference|-5.6||||0.1595|TWO_SIDED|95.0|-13.4|2.2|||ANCOVA|||||2.2|-13.4|0.1595
82580535|NCT01397422|164872502|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.4314|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA|||||0.5|-1.1|0.4314
82580536|NCT01397422|164872502|SUPERIORITY||Least Squares Mean Difference|0.3||||0.5223|TWO_SIDED|95.0|-0.5|1.0|||ANCOVA|||||1.0|-0.5|0.5223
82551023|NCT03131154|164806272|OTHER||Hazard Ratio (HR)|2.619|||||TWO_SIDED|95.0|0.989|6.939|||||Cox proportional hazards model|||6.939|0.989|
82551024|NCT05403827|164806273|SUPERIORITY|||||||0.5019|||||||Control-Based Mean Imputation|||||||0.5019
82551025|NCT05403827|164806274|SUPERIORITY|||||||0.2028|||||||Control-Based Mean Imputation|||||||0.2028
82551026|NCT05403827|164806275|SUPERIORITY|||||||0.1914|||||||Control-Based Mean Imputation|||||||0.1914
82551027|NCT05403827|164806276|SUPERIORITY|||||||0.2512|||||||Control-Based Mean Imputation|||||||0.2512
82551028|NCT05403827|164806277|SUPERIORITY|||||||0.7906|||||||Control-Based Mean Imputation|||||||0.7906
82551029|NCT05403827|164806278|SUPERIORITY|||||||0.5343|||||||Control-Based Mean Imputation|||||||0.5343
82551030|NCT05403827|164806279|SUPERIORITY|||||||0.3757|||||||Control-Based Mean Imputation|||||||0.3757
82551031|NCT01743807|164806381|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82551032|NCT03808818|164806467|EQUIVALENCE|the smallest detectable difference will be 22%|Odds Ratio (OR)|2.3||||0.0046|TWO_SIDED|95.0|1.28|4.13||No correction for multiple comparisons|Chi-squared|||"For self-reported 7-day point prevalence abstinence at 6-months, with a sample size of 140 in each arm then smallest detectable difference will be 22% with 80% power. Subsequent analyses will use a Bonferroni corrected alpha of 0.002 using with an estimated control rate of 31%.~The primary analysis will be performed from an intent-to-treat perspective. Chi-square tests will be used to compare the outcomes between treatment groups."||4.13|1.28|0.0046
82551033|NCT03808818|164806468|EQUIVALENCE|the smallest detectable difference will be 22% with 80% power and a Bonferroni corrected alpha of 0.002 using and an estimated control rate of 28%.|Odds Ratio (OR)|1.86||||0.035|TWO_SIDED|95.0|1.04|3.33|||Chi-squared|||7-day point prevalence abstinence at 3-months, with a sample size of 140 in each arm then smallest detectable difference will be 18% with 80% power and a Bonferroni corrected alpha of 0.002 using and an estimated control rate of 20%||3.33|1.04|0.035
82551034|NCT03808818|164806469|EQUIVALENCE|the smallest detectable difference will be 21% with 80% power and a Bonferroni corrected alpha of 0.002 and an estimated control rate of 20%.||||||0.016|||||||Chi-squared|||power calculations assumed a sample size of 140 in each arm and a Bonferroni corrected alpha of 0.002 and an estimated control rate of 20%||||0.016
82551035|NCT03808818|164806471|EQUIVALENCE|no margin||||||0.069|||||||Chi-squared|||||||0.069
82551036|NCT03808818|164806472|EQUIVALENCE|no margin||||||0.86|||||||Chi-squared|||||||0.86
82551037|NCT03808818|164806484|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
82551038|NCT03808818|164806485|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
82580537|NCT01397422|164872502|SUPERIORITY||Least Squares Mean Difference|0.2||||0.6298|TWO_SIDED|95.0|-0.6|1.0|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, baseline value is a covariate||||1.0|-0.6|0.6298
82580538|NCT01397422|164872503|SUPERIORITY||Least Squares Mean Difference|-5.2||||0.0038|TWO_SIDED|95.0|-8.7|-1.7|||ANCOVA|||||-1.7|-8.7|0.0038
82580539|NCT01397422|164872503|SUPERIORITY||Least Squares Mean Difference|-6.4||||0.0004|TWO_SIDED|95.0|-9.8|-2.9|||ANCOVA|||||-2.9|-9.8|0.0004
82580540|NCT01397422|164872503|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.1469|TWO_SIDED|95.0|-6.0|0.9|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate.||||0.9|-6.0|0.1469
82580541|NCT01397422|164872504|SUPERIORITY||Least Squares Mean Difference|3.0||||0.0078|TWO_SIDED|95.0|0.8|5.2|||ANCOVA|||||5.2|0.8|0.0078
82580542|NCT01397422|164872504|SUPERIORITY||Least Squares Mean Difference|2.7||||0.0179|TWO_SIDED|95.0|0.5|5.0|||ANCOVA|||||5.0|0.5|0.0179
82551039|NCT03808818|164806486|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
82551040|NCT03808818|164806488|EQUIVALENCE|No equivalence margin|||||<|0.0001||||||Alpha level 0.01|Fisher Exact|||Fisher's exact tests were performed to assess the differences between the VST and EUC arms on the 6-month questionnaire.||||<.0001
82551041|NCT05415722|164806489|SUPERIORITY||Mean Difference (Final Values)|-11.39|STANDARD_ERROR_OF_MEAN|7.48||0.1303|TWO_SIDED|95.0|-26.178|3.406|||ANCOVA|||Arm 1 compared to Placebo||3.406|-26.178|0.1303
82551042|NCT05415722|164806489|SUPERIORITY||Mean Difference (Final Values)|-23.47|STANDARD_ERROR_OF_MEAN|7.924||0.0036|TWO_SIDED|95.0|-39.14|-7.799|||ANCOVA|||Arm 2 compared to Placebo||-7.799|-39.140|0.0036
82551043|NCT05415722|164806489|SUPERIORITY||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|7.96|<|0.0001|TWO_SIDED|95.0|-56.545|-25.064|||ANCOVA|||Arm 3 compared to Placebo||-25.064|-56.545|<0.0001
82551044|NCT05415722|164806490|SUPERIORITY||Mean Difference (Final Values)|-31.9|STANDARD_ERROR_OF_MEAN|20.87||0.1289|TWO_SIDED|95.0|-73.17|9.39|||ANCOVA|||Arm 1 compared to Placebo||9.39|-73.17|0.1289
82580543|NCT01397422|164872504|SUPERIORITY||Least Squares Mean Difference|3.3||||0.004|TWO_SIDED|95.0|1.1|5.5|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate||||5.5|1.1|0.0040
82551045|NCT05415722|164806490|SUPERIORITY||Mean Difference (Final Values)|-29.3|STANDARD_ERROR_OF_MEAN|21.65||0.179|TWO_SIDED|95.0|-72.08|13.58|||ANCOVA|||Arm 2 compared to Placebo||13.58|-72.08|0.1790
82551046|NCT05415722|164806490|SUPERIORITY||Mean Difference (Final Values)|-75.7|STANDARD_ERROR_OF_MEAN|21.96||0.0008|TWO_SIDED|95.0|-119.08|-32.23|||ANCOVA|||Arm 3 compared to Placebo||-32.23|-119.08|0.0008
82551047|NCT05415722|164806491|SUPERIORITY||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|7.895||0.0358|TWO_SIDED|95.0|-32.352|-1.128|||ANCOVA|||Arm 4 compared to Placebo||-1.128|-32.352|0.0358
82551048|NCT05415722|164806491|SUPERIORITY||Mean Difference (Final Values)|-43.73|STANDARD_ERROR_OF_MEAN|7.647|<|0.0001|TWO_SIDED|95.0|-58.858|-28.612|||ANCOVA|||Arm 5 compared to Placebo||-28.612|-58.858|<0.0001
82551049|NCT05415722|164806492|SUPERIORITY||Mean Difference (Final Values)|-62.6|STANDARD_ERROR_OF_MEAN|22.09||0.0053|TWO_SIDED|95.0|-106.33|-18.96|||ANCOVA|||Arm 4 compared to Placebo||-18.96|-106.33|0.0053
82551050|NCT05415722|164806492|SUPERIORITY||Mean Difference (Final Values)|-69.2|STANDARD_ERROR_OF_MEAN|21.13||0.0014|TWO_SIDED|95.0|-110.97|-27.39|||ANCOVA|||Arm 5 compared to Placebo||-27.39|-110.97|0.0014
82551051|NCT03031470|164806524|SUPERIORITY|||||||0.688|||||||Fisher Exact|Analysis is based on exact Fisher test to compare treatments.||||||0.688
82551052|NCT03031470|164806525|SUPERIORITY|||||||0.7|||||||Fisher Exact|Analysis is based on exact Fisher test to compare treatments.||||||0.700
82551053|NCT03031470|164806526|SUPERIORITY||||||>|0.999|||||||Fisher Exact|Treatment groups were compared for frequency of allograft nonfunction using Fisher exact test||||||>0.999
82551054|NCT03031470|164806527|SUPERIORITY|||||||0.308|||||||Fisher Exact|||||||0.308
82551055|NCT03031470|164806528|SUPERIORITY|||||||0.601|||||||Fisher Exact|||||||0.601
82551056|NCT03031470|164806530|SUPERIORITY|||||||0.574|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for degree of allograft steatosis using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.574
82551057|NCT03031470|164806531|SUPERIORITY|||||||0.843|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for duration of cold ischemia using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.843
82551058|NCT03031470|164806532|SUPERIORITY|||||||0.701|||||||Cochran-Mantel-Haenszel|Reparixin and Control groups will be compared for duration of earm ischemia using Cochran-Mantel-Hensel (CMH) test with control EAD.||||||0.701
82551059|NCT03031470|164806542|SUPERIORITY|"General survival and graft survival (graft loss will be qualified as an event for graft survival) within 1 year were presented with Kaplan-Mayer curves and survival time median with 95% CI. Treatment groups will be compared using logrank test."||||||0.416|||||||Log Rank|||||||0.416
82551060|NCT03848065|164806550|OTHER||Difference in Percentages|17.8||||0.004|TWO_SIDED|95.0|9.0|31.4|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Erythema (Redness)||31.4|9.0|0.004
82551061|NCT03848065|164806550|OTHER||Difference in Percentages|4.7||||0.15|TWO_SIDED|95.0|-3.7|15.5|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Erythema (Redness)||15.5|-3.7|0.150
82551062|NCT03848065|164806550|OTHER||Difference in Percentages|-13.1||||0.054|TWO_SIDED|95.0|-27.6|0.2|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Erythema (Redness)||0.2|-27.6|0.054
82551063|NCT03848065|164806550|OTHER||Difference in Percentages|13.1||||0.091|TWO_SIDED|95.0|-2.3|28.8|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Induration (Hard Lump)||28.8|-2.3|0.091
82551064|NCT03848065|164806550|OTHER||Difference in Percentages|-9.1||||0.044|TWO_SIDED|95.0|-21.2|-0.4|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Induration (Hard Lump)||-0.4|-21.2|0.044
82551065|NCT03848065|164806550|OTHER||Difference in Percentages|-22.2||||0.001|TWO_SIDED|95.0|-36.4|-12.5|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Induration (Hard Lump)||-12.5|-36.4|0.001
82551066|NCT03848065|164806550|OTHER||Difference in Percentages|9.7||||0.333|TWO_SIDED|95.0|-10.0|28.9|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Pain||28.9|-10.0|0.333
82551067|NCT03848065|164806550|OTHER||Difference in Percentages|-3.2||||0.76|TWO_SIDED|95.0|-23.4|17.2|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Pain||17.2|-23.4|0.760
82580544|NCT01397422|164872505|SUPERIORITY||Least Squares Mean Difference|-2.2||||0.6355|TWO_SIDED|95.0|-11.2|6.9|||ANCOVA|||||6.9|-11.2|0.6355
82551068|NCT03848065|164806550|OTHER||Difference in Percentages|-13.0||||0.205|TWO_SIDED|95.0|-32.2|7.1|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Pain||7.1|-32.2|0.205
82551069|NCT03848065|164806550|OTHER||Difference in Percentages|13.0||||0.128|TWO_SIDED|95.0|-3.9|29.7|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Injection Site Swelling||29.7|-3.9|0.128
82551070|NCT03848065|164806550|OTHER||Difference in Percentages|-2.0||||0.779|TWO_SIDED|95.0|-17.0|13.0|||Miettinen & Nurminen method||Difference = % V114-SC minus % PCV13-SC|Injection Site Swelling||13.0|-17.0|0.779
82551071|NCT03848065|164806550|OTHER||Difference in Parentages|-15.0||||0.076|TWO_SIDED|95.0|-31.5|1.7|||Miettinen & Nurminen method||Difference = % V114-IM minus % PCV13-SC|Injection Site Swelling||1.7|-31.5|0.076
82551072|NCT03848065|164806551|OTHER||Difference in Percentages|-10.6||||0.282|TWO_SIDED|95.0|-29.1|8.7|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Decreased Appetite (Appetite Loss)||8.7|-29.1|0.282
82580545|NCT01397422|164872505|SUPERIORITY||Least Squares Mean Difference|1.7||||0.7053|TWO_SIDED|95.0|-7.2|10.6|||ANCOVA|||||10.6|-7.2|0.7053
82476733|NCT05477108|164648670|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 40.85. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0831 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|93.45|||||TWO_SIDED|90.0|84.31|103.58|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||103.58|84.31|
82476734|NCT05477108|164648670|EQUIVALENCE|For Cmax, the intra-participant CV% in Treatment B (reference arm) was 40.66. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0971 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|100.14|||||TWO_SIDED|90.0|91.9|109.11|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||109.11|91.90|
82551073|NCT03848065|164806551|OTHER||Difference in Percentages|-9.9||||0.317|TWO_SIDED|95.0|-28.7|9.5|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Decreased Appetite (Appetite Loss)||9.5|-28.7|0.317
82551074|NCT03848065|164806551|OTHER||Difference in Percentages|0.7||||0.948|TWO_SIDED|95.0|-19.2|20.4|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Decreased Appetite (Appetite Loss)||20.4|-19.2|0.948
82551075|NCT03848065|164806551|OTHER||Difference in Percentages|10.5||||0.303|TWO_SIDED|95.0|-9.4|29.6|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Somnolence (Drowsiness)||29.6|-9.4|0.303
82551076|NCT03848065|164806551|OTHER||Difference in Percentages|-4.0||||0.681|TWO_SIDED|95.0|-22.6|15.0|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Somnolence (Drowsiness)||15.0|-22.6|0.681
82551077|NCT03848065|164806551|OTHER||Difference in Percentages|-14.4||||0.153|TWO_SIDED|95.0|-33.2|5.4|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Somnolence (Drowsiness)||5.4|-33.2|0.153
82551078|NCT03848065|164806551|OTHER||Difference in Percentages|10.7||||0.237|TWO_SIDED|95.0|-7.2|28.2|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Irritability||28.2|-7.2|0.237
82551079|NCT03848065|164806551|OTHER||Difference in Percentages|7.4||||0.406|TWO_SIDED|95.0|-10.3|25.0|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Irritability||25.0|-10.3|0.406
82551080|NCT03848065|164806551|OTHER||Difference in Percentages|-3.3||||0.729|TWO_SIDED|95.0|-21.8|15.5|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Irritability||15.5|-21.8|0.729
82551081|NCT03848065|164806551|OTHER||Difference in Percentages|4.6||||0.385|TWO_SIDED|95.0|-7.1|17.5|||Miettinen & Nurminen method||Difference = % V114-SC minus % V114-IM|Urticaria (Hives/Welts)||17.5|-7.1|0.385
82551082|NCT03848065|164806551|OTHER||Difference in Percentages|2.1||||0.719|TWO_SIDED|95.0|-11.0|15.4|||Miettinen & Nurminen method||Difference= % V114-SC minus % PCV13-SC|Urticaria (Hives/Welts)||15.4|-11.0|0.719
82551083|NCT03848065|164806551|OTHER||Difference in Percentages|-2.5||||0.61|TWO_SIDED|95.0|-14.9|8.9|||Miettinen & Nurminen method||Difference= % V114-IM minus % PCV13-SC|Urticaria (Hives/Welts)||8.9|-14.9|0.610
82551084|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||8.5|-8.1|
82551085|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||8.5|-7.9|
82551086|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 1||7.9|-8.1|
82551087|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114- SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||8.5|-8.1|
82551088|NCT03848065|164806553|OTHER||Difference in Percentages|-2.2|||||TWO_SIDED|95.0|-11.7|6.3|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||6.3|-11.7|
82551089|NCT03848065|164806553|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-6.0|11.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 3||11.6|-6.0|
82551090|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||8.5|-8.1|
82551091|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||8.5|-7.9|
82551092|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 4||7.9|-8.1|
82551093|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||8.5|-8.1|
82580546|NCT01397422|164872505|SUPERIORITY||Least Squares Mean Difference|1.2||||0.7862|TWO_SIDED|95.0|-7.7|10.1|||ANCOVA|Change from baseline is a dependent variable, treatment group is a factor, and the baseline value is a covariate||||10.1|-7.7|0.7862
82580547|NCT01397422|164872506|SUPERIORITY|||||||0.0036|||||||Cochran-Mantel-Haenszel|||||||0.0036
82551094|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||8.5|-7.9|
82551095|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 5||7.9|-8.1|
82551096|NCT03848065|164806553|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|6.3|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||6.3|-11.9|
82551097|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||8.5|-7.9|
82551098|NCT03848065|164806553|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 6A||5.8|-11.9|
82551099|NCT03848065|164806553|OTHER||Difference in Percentages|-9.1|||||TWO_SIDED|95.0|-21.2|-0.2|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||-0.2|-21.2|
82580548|NCT01397422|164872506|SUPERIORITY|||||||0.2158|||||||Cochran-Mantel-Haenszel|||||||0.2158
82551100|NCT03848065|164806553|OTHER||Difference in Percentages|-6.7|||||TWO_SIDED|95.0|-17.9|2.1|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||2.1|-17.9|
82551101|NCT03848065|164806553|OTHER||Difference in Percentages|-2.4|||||TWO_SIDED|95.0|-15.6|10.2|||||Difference=% V114 SC minus % V114 IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 6B||10.2|-15.6|
82551102|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114 SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||8.5|-8.1|
82551103|NCT03848065|164806553|OTHER||Difference in Percentages|-2.2|||||TWO_SIDED|95.0|-11.7|6.3|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||6.3|-11.7|
82551104|NCT03848065|164806553|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-6.0|11.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 7F||11.6|-6.0|
82551105|NCT03848065|164806553|OTHER||Differences in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||8.5|-8.1|
82551106|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||8.5|-7.9|
82551107|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 9V||7.9|-8.1|
82551108|NCT03848065|164806553|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|6.3|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||6.3|-11.9|
82551109|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||8.5|-7.9|
82551110|NCT03848065|164806553|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 14||5.8|-11.9|
82551111|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||8.5|-8.1|
82551112|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||8.5|-7.9|
82551113|NCT03848065|164806553|OTHER||Differences in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 18C||7.9|-8.1|
82551114|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||8.5|-8.1|
82551115|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||8.5|-7.9|
82551116|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 19A||7.9|-8.1|
82551117|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||8.5|-8.1|
82551118|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||8.5|-7.9|
82551119|NCT03848065|164806553|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 19F||7.9|-8.1|
82551120|NCT03848065|164806553|OTHER||Difference in Percentages|0.1|||||TWO_SIDED|95.0|-9.8|10.4|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||10.4|-9.8|
82551121|NCT03848065|164806553|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.7|12.4|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||12.4|-5.7|
82551122|NCT03848065|164806553|OTHER||Difference in Percentages|-2.3|||||TWO_SIDED|95.0|-11.9|5.8|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 23F||5.8|-11.9|
82551123|NCT03848065|164806553|OTHER||Difference in Percentages|90.7|||||TWO_SIDED|95.0|77.2|96.4|||||Difference=% V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||96.4|77.2|
82580549|NCT01397422|164872506|SUPERIORITY|||||||0.1042|||||||Cochran-Mantel-Haenszel|Equally spaced scores||||||0.1042
82580550|NCT03691909|164872525|OTHER|||||||0.743|||||||Wilcoxon-signed rank test|Effect Size: 0.09||||||0.743
82580551|NCT03691909|164872526|OTHER|||||||0.714|||||||Wilcoxon-signed rank test|Effect Size: 0.10||||||0.714
82551124|NCT03848065|164806553|OTHER||Difference in Percentages|95.2|||||TWO_SIDED|95.0|84.1|98.7|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||98.7|84.1|
82551125|NCT03848065|164806553|OTHER||Difference in Percentages|-4.5|||||TWO_SIDED|95.0|-15.2|3.6|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 22F||3.6|-15.2|
82551126|NCT03848065|164806553|OTHER||Difference in Percentages|81.8|||||TWO_SIDED|95.0|67.9|90.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||90.5|67.9|
82551127|NCT03848065|164806553|OTHER||Difference in Percentages|88.9|||||TWO_SIDED|95.0|76.4|95.2|||||Difference=% V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||95.2|76.4|
82551128|NCT03848065|164806553|OTHER||Difference in Percentages|-7.1|||||TWO_SIDED|95.0|-22.7|8.2|||||Difference=% V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|ST 33F||8.2|-22.7|
82551129|NCT03848065|164806554|OTHER||Geometric Mean Concentration (GMC) Ratio|0.76|||||TWO_SIDED|95.0|0.58|1.0|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an analysis of variance (ANOVA) model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 1||1.00|0.58|
82551130|NCT03848065|164806554|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.13|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|||1.13|0.65|
82551131|NCT03848065|164806554|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.68|1.16|||||GMC Ratio=GMC V114-SC/GMC V114-IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|||1.16|0.68|
82551132|NCT03848065|164806554|OTHER||GMC Ratio|1.3|||||TWO_SIDED|95.0|0.96|1.76|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||1.76|0.96|
82551133|NCT03848065|164806554|OTHER||GMC Ratio|1.49|||||TWO_SIDED|95.0|1.1|2.01|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||2.01|1.10|
82551134|NCT03848065|164806554|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.65|1.18|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 3||1.18|0.65|
82551135|NCT03848065|164806554|OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.58|0.9|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||0.90|0.58|
82551136|NCT03848065|164806554|OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.65|1.0|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||1.00|0.65|
82551137|NCT03848065|164806554|OTHER||GMC Ratio|0.9|||||TWO_SIDED|95.0|0.72|1.11|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 4||1.11|0.72|
82551138|NCT03848065|164806554|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.6|1.16|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.16|0.60|
82551139|NCT03848065|164806554|OTHER||GMC Ratio|0.95|||||TWO_SIDED|95.0|0.69|1.31|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.31|0.69|
82551140|NCT03848065|164806554|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.64|1.21|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 5||1.21|0.64|
82551141|NCT03848065|164806554|OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.47|0.84|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||0.84|0.47|
82551142|NCT03848065|164806554|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.52|0.93|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||0.93|0.52|
82551143|NCT03848065|164806554|OTHER||GMC Ratio|0.91|||||TWO_SIDED|95.0|0.68|1.21|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6A||1.21|0.68|
82551144|NCT03848065|164806554|OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.36|0.79|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||0.79|0.36|
82551145|NCT03848065|164806554|OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.41|0.9|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||0.90|0.41|
82551146|NCT03848065|164806554|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.59|1.3|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 6B||1.30|0.59|
82551147|NCT03848065|164806554|OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.46|0.81|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||0.81|0.46|
82551148|NCT03848065|164806554|OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.52|0.9|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||0.90|0.52|
82551149|NCT03848065|164806554|OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.67|1.17|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 7F||1.17|0.67|
82551150|NCT03848065|164806554|OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.57|0.99|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||0.99|0.57|
82551151|NCT03848065|164806554|OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.65|1.13|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||1.13|0.65|
82551152|NCT03848065|164806554|OTHER||GMC Ratio|0.88|||||TWO_SIDED|95.0|0.67|1.15|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 9V||1.15|0.67|
82551153|NCT03848065|164806554|OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.6|1.19|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.19|0.60|
82551154|NCT03848065|164806554|OTHER||GMC Ratio|1.02|||||TWO_SIDED|95.0|0.72|1.43|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.43|0.72|
82551155|NCT03848065|164806554|OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.59|1.16|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 14||1.16|0.59|
82551156|NCT03848065|164806554|OTHER||GMC Ratio|0.69|||||TWO_SIDED|95.0|0.53|0.9|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||0.90|0.53|
82551157|NCT03848065|164806554|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.54|0.92|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||0.92|0.54|
82551158|NCT03848065|164806554|OTHER||GMC Ratio|0.98|||||TWO_SIDED|95.0|0.76|1.27|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 18C||1.27|0.76|
82580552|NCT03691909|164872527|OTHER|||||||0.183|||||||Wilcoxon-signed rank test|Effect Size: 0.37||||||0.183
82580553|NCT03691909|164872528|OTHER|||||||0.775|||||||Wilcoxon-signed rank test|Effect Size: 0.05||||||0.775
82580554|NCT03691909|164872529|OTHER|||||||0.0008|||||||Wilcoxon-signed rank test|Effect Size: 0.93||Tender Joint Count||||0.0008
82580555|NCT03691909|164872529|OTHER|||||||0.003|||||||Wilcoxon-signed rank test|Effect Size: 0.83||Swollen Joint Count||||0.003
82580556|NCT02489968|164872536|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.97|-0.67|||REML based MMRM|Model including baseline HbA1c, treatment, baseline renal function, prior use of antidiabetic drug, visit, and visit by treatment interaction.|Adjusted mean difference: Change in HbA1c in (empagliflozin 10 mg + linagliptin 5 mg) - change in HbA1c in (empagliflozin 10 mg + placebo)|||-0.67|-0.97|<0.0001
82551159|NCT03848065|164806554|OTHER||GMC Ratio|0.87|||||TWO_SIDED|95.0|0.66|1.15|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||1.15|0.66|
82551160|NCT03848065|164806554|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.55|0.96|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||0.96|0.55|
82551161|NCT03848065|164806554|OTHER||GMC Ratio|1.19|||||TWO_SIDED|95.0|0.9|1.57|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19A||1.57|0.90|
82551162|NCT03848065|164806554|OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.57|0.89|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||0.89|0.57|
82551163|NCT03848065|164806554|OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.62|0.95|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||0.95|0.62|
82551164|NCT03848065|164806554|OTHER||GMC Ratio|0.93|||||TWO_SIDED|95.0|0.75|1.15|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 19F||1.15|0.75|
82551165|NCT03848065|164806554|OTHER||GMC Ratio|0.79|||||TWO_SIDED|95.0|0.57|1.09|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.09|0.57|
82551166|NCT03848065|164806554|OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.58|1.09|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.09|0.58|
82551167|NCT03848065|164806554|OTHER||GMC Ratio|0.99|||||TWO_SIDED|95.0|0.73|1.36|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 23F||1.36|0.73|
82551168|NCT03848065|164806554|OTHER||GMC Ratio|134.88|||||TWO_SIDED|95.0|88.91|204.62|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||204.62|88.91|
82580557|NCT02489968|164872536|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.73|-0.45|||REML based MMRM|Model including baseline HbA1c, treatment, baseline renal function, prior use of antidiabetic drug, visit, and visit by treatment interaction.|Adjusted mean difference: Change in HbA1c in (empagliflozin 25 mg + linagliptin 5 mg) - change in HbA1c in (empagliflozin 25 mg + placebo)|||-0.45|-0.73|<0.0001
82580558|NCT01982448|164872553|SUPERIORITY||Odds Ratio (OR)|2.22|||||TWO_SIDED|95.0|0.39|23.68|||||Association between HRD status and pathologic response was measured by the odds ratio (OR).|In the Cisplatin treated patients, the relationship between HRD status and pathologic response was conducted by arm using a univariate logistic regression model and a likelihood ratio test with a one-sided type I error of alpha 0.05. Assuming 12.5% unevaluable, prevalence of HR deficiency 60%, 70 evaluable patients per in a given arm, there is \~80% power to detect a response rate of 52% in HR-deficient patients vs a 16% in HR non-deficient patients, corresponding to the Odds Ratio 5.7.||23.68|0.39|
82476735|NCT05477108|164648670|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 42.66. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 73.29% to 136.44% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|103.12|||||TWO_SIDED|90.0|94.44|112.6|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (EU approach)||112.60|94.44|
82476736|NCT05477108|164648670|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 40.75. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 74.24% to 134.70% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|93.39|||||TWO_SIDED|90.0|85.29|102.26|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (EU approach)||102.26|85.29|
82476737|NCT05477108|164648670|EQUIVALENCE|For Cmax, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. The intra-participant CV% in Treatment B (reference arm) was 40.81. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were within the expanded equivalence limits of 74.21% to 134.75% and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|99.7|||||TWO_SIDED|90.0|91.44|108.71|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (EU approach)||108.71|91.44|
82476738|NCT05477108|164648671|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 34.29. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0593 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|107.76|||||TWO_SIDED|90.0|100.35|115.72|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||115.72|100.35|
82476739|NCT05477108|164648671|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 86.08. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2925 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Ratio Mean (%)|112.22|||||TWO_SIDED|90.0|92.27|136.49|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||136.49|92.27|
82476740|NCT05477108|164648671|EQUIVALENCE|For AUCinf, the intra-participant CV% in Treatment B (reference arm) was 47.07. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.1250 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|101.45|||||TWO_SIDED|90.0|91.76|112.15|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||112.15|91.76|
82476741|NCT05477108|164648672|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 35.68. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.0668 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|106.87|||||TWO_SIDED|90.0|99.3|115.01|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (US approach)||115.01|99.30|
82476742|NCT05477108|164648672|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 74.17. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2735 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|102.02|||||TWO_SIDED|90.0|89.12|116.79|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (US approach)||116.79|89.12|
82476743|NCT05477108|164648672|EQUIVALENCE|For AUClast, the intra-participant CV% in Treatment B (reference arm) was 66.88. An analysis was conducted based on the RSABE method for a partial-replicate 3-way cross-over design. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since criteria bound was -0.2210 (\<0) and point estimate for geometric mean ratio was within 80% and 125%.|Geometric Mean Ratio (%)|107.76|||||TWO_SIDED|90.0|94.91|122.36|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (US approach)||122.36|94.91|
82551169|NCT03848065|164806554|OTHER||GMC Ratio|204.6|||||TWO_SIDED|95.0|135.18|309.69|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||309.69|135.18|
82551170|NCT03848065|164806554|OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.44|0.99|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 22F||0.99|0.44|
82551171|NCT03848065|164806554|OTHER||GMC Ratio|25.11|||||TWO_SIDED|95.0|15.34|41.13|||||GMC Ratio=GMC V114-SC/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||41.13|15.34|
82551172|NCT03848065|164806554|OTHER||GMC Ratio|34.18|||||TWO_SIDED|95.0|20.93|55.83|||||GMC Ratio=GMC V114-IM/GMC PCV13-SC. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||55.83|20.93|
82551173|NCT03848065|164806554|OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.45|1.19|||||GMC Ratio=GMC V114-SC/GMC V114 IM. Based on an ANOVA model with natural log-transformed antibody responses as response variable and vaccination group as a single factor.|ST 33F||1.19|0.45|
82551174|NCT03848065|164806555|OTHER||Difference in Percentages|2.5|||||TWO_SIDED|95.0|-7.7|13.9|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||13.9|-7.7|
82551175|NCT03848065|164806555|OTHER||Difference in Percentages|0.3|||||TWO_SIDED|95.0|-10.8|12.0|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||12.0|-10.8|
82551176|NCT03848065|164806555|OTHER||Difference in Percentages|2.2|||||TWO_SIDED|95.0|-8.0|13.0|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Diphtheria Toxin||13.0|-8.0|
82551177|NCT03848065|164806555|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.8|12.4|||||Difference = % V114 SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||12.4|-5.8|
82551178|NCT03848065|164806555|OTHER||Difference in Percentages|2.4|||||TWO_SIDED|95.0|-5.7|12.4|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||12.4|-5.7|
82551179|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Tetanus Toxin||7.9|-8.1|
82551180|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||8.5|-8.1|
82551181|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||8.5|-7.9|
82551182|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114 SC minus % V114 IM. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis Toxin||7.9|-8.1|
82551183|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||8.5|-8.1|
82551184|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||8.5|-7.9|
82551185|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Pertussis FHA||7.9|-8.1|
82551186|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||8.5|-8.1|
82551187|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||8.5|-7.9|
82551188|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 1||7.9|-8.1|
82551189|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||8.5|-8.1|
82551190|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||Difference = % V114-IM minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||8.5|-7.9|
82551191|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 2||7.9|-8.1|
82551192|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|8.5|||||Difference = % V114-SC minus % PCV13-SC. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 3||8.5|-8.1|
82551193|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-7.9|8.5|||||"Difference = % V114-IM minus % PCV13~-SC. The 95% CI is based on the Miettinen and Nurminen method."|Poliovirus Type 3||8.5|-7.9|
82551194|NCT03848065|164806555|OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-8.1|7.9|||||Difference = % V114-SC minus % V114-IM. The 95% CI is based on the Miettinen and Nurminen method.|Poliovirus Type 3||7.9|-8.1|
82551195|NCT05530603|164806556|OTHER|||||||0.009||||||The threshold for statistical significance was p=0.05.|Chi-squared|||||||.009
82551196|NCT05530603|164806557|OTHER||Mean Difference (Net)|1.12|STANDARD_DEVIATION|0.8||0.73|TWO_SIDED|||||The threshold for statistical significance was p=0.05.|ANOVA|||||||0.730
82551197|NCT05530603|164806558|OTHER|||||||0.033||||||The threshold for statistical significance was p=0.05.|ANOVA|||||||.033
82551198|NCT05530603|164806559|OTHER|||||||0.068|||||||ANOVA|The threshold for statistical significance was p=0.05.||||||.068
82551199|NCT05530603|164806560|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|Fisher Exact|||||||.001
82551200|NCT05530603|164806561|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||.001
82551201|NCT05530603|164806562|OTHER|||||||0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||.001
82551202|NCT04564742|164806572|SUPERIORITY||Win Ratio (WR)|1.34|||<|0.001|TWO_SIDED|95.0|1.2|1.5||A closed testing procedure including a pre-specified hierarchical ordering of the primary and secondary endpoints was utilised. No multiplicity control was placed on the exploratory endpoints.|Win Ratio Analysis|||The primary objective of the study was to determine if the clinical benefit of dapagliflozin was superior as compared with placebo, utilizing a hierarchical composite endpoint and win-ratio (WR) method. With a presumed WR of 1.20, 4000 patients were provide an 80% statistical power for the primary endpoint, maintaining a 1:1 allocation between treatments. The primary analysis was based on the intention-to-treat principle using the Full Analysis Set.||1.50|1.20|<0.001
82551203|NCT00764751|164806584|SUPERIORITY||Mean Difference (Final Values)|15.4|||=|0.003|TWO_SIDED|95.0|5.6|25.0|||Paired t-test|||||25|5.6|=0.003
82551204|NCT00764751|164806584|SUPERIORITY||Mean Difference (Final Values)|-17.1||||0.07|TWO_SIDED|95.0|-36.0|1.9|||Paired t-test|||||1.9|-36.0|0.07
82551205|NCT00986856|164806660|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|13.2|||<|0.01||95.0|1.4|120.4||Test for the hypothesis of odds ratio equal to 1.|Cochran-Mantel-Haenszel|||||120.4|1.4|<0.01
82551206|NCT00986856|164806661|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.7||||0.023||95.0|1.1|28.6|||Cochran-Mantel-Haenszel|||||28.6|1.1|0.023
82551207|NCT00986856|164806662|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.7||||0.54|TWO_SIDED|95.0|0.3|8.1|||Cochran-Mantel-Haenszel|||||8.1|0.3|0.54
82551208|NCT00986856|164806663|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.7||||0.1|TWO_SIDED|95.0|0.8|8.8|||Cochran-Mantel-Haenszel|||||8.8|0.8|0.1
82551209|NCT00986856|164806664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Cochran-Mantel-Haenszel|||||||0.1
82551210|NCT00986856|164806665|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.5||||0.043||95.0|0.9|83.5|||Cochran-Mantel-Haenszel|||||83.5|0.9|0.043
82551211|NCT00986856|164806666|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|12.8||||0.007||95.0|1.5|109.6|||Cochran-Mantel-Haenszel|||||109.6|1.5|0.007
82551212|NCT00986856|164806667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8|STANDARD_DEVIATION|2.0||0.008||95.0|-4.8|-0.8|||Regression, Linear|||||-0.8|-4.8|0.008
82551213|NCT03852472|164806672|OTHER||% Difference (Avacopan - Placebo)|-8.4||||0.1321|TWO_SIDED|95.0|-18.7|2.4||P-values are obtained from a CMH test stratified by stratification factors Hurley Stage (Stage II vs III), and anti-TNF drug use (Treatment naive vs Previous treatment).|Cochran-Mantel-Haenszel|||||2.4|-18.7|0.1321
82551214|NCT03852472|164806672|OTHER||% Difference (Avacopan - Placebo)|4.3||||0.4503|TWO_SIDED|95.0|-6.9|15.5||P-values are obtained from a CMH test stratified by stratification factors Hurley Stage (Stage II vs III), and anti-TNF drug use (Treatment naive vs Previous treatment)|Cochran-Mantel-Haenszel|||||15.5|-6.9|0.4503
82551215|NCT03852472|164806673|OTHER||Least Squares Mean|0.6|STANDARD_ERROR_OF_MEAN|1.17||0.5784|TWO_SIDED|95.0|-1.7|2.9|||Mixed model for repeated measures|||||2.9|-1.7|0.5784
82551216|NCT03852472|164806673|OTHER||Least Squares Mean|-1.4|STANDARD_ERROR_OF_MEAN|1.17||0.2253|TWO_SIDED|95.0|-3.7|0.9|||Mixed effects model for repeated measure|||||0.9|-3.7|0.2253
82476744|NCT05477108|164648672|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean ratio (%)|106.1|||||TWO_SIDED|90.0|98.39|114.41|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Budesonide Pharmacokinetic Parameters (EU approach)||114.41|98.39|
82476745|NCT05477108|164648672|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean Ratio (%)|97.02|||||TWO_SIDED|90.0|84.18|111.82|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Glycopyrronium Pharmacokinetic Parameters (EU approach)||111.82|84.18|
82551217|NCT05977530|164806685|SUPERIORITY||comparison of ranks in Wilcoxon|0.0|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.01
82551218|NCT05692960|164806689|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|FSFI Total, HRI Cohen's d|1.37|||||TWO_SIDED|95.0|0.62|2.1||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-tests for FSFI total, FSFI lubrication, FSFI pain, and FSFI desire subscales. Means and 95% confidence intervals were also calculated.||2.10|.62|
82551219|NCT05692960|164806689|SUPERIORITY||FSFI Total, VVA Cohen's d|1.63|||||TWO_SIDED|95.0|0.86|2.37||||||||2.37|.86|
82551220|NCT05692960|164806689|SUPERIORITY||FSFI Lubrication, HRI Cohen's d|1.2|||||TWO_SIDED|95.0|0.49|1.87||||||||1.87|.49|
82551221|NCT05692960|164806689|SUPERIORITY||FSFI Lubrication, VVA Cohen's d|1.85|||||TWO_SIDED|95.0|1.02|2.66||||||||2.66|1.02|
82551222|NCT05692960|164806689|SUPERIORITY||FSFI Pain, HRI Cohen's d|0.77|||||TWO_SIDED|95.0|0.16|1.36||||||||1.36|.16|
82551223|NCT05692960|164806689|SUPERIORITY||FSFI Pain, VVA Cohen's d|0.82|||||TWO_SIDED|95.0|0.24|1.38||||||||1.38|.24|
82551224|NCT05692960|164806689|SUPERIORITY||FSFI Desire, HRI Cohen's d|1.15|||||TWO_SIDED|95.0|0.46|1.82||||||||1.82|.46|
82551225|NCT05692960|164806689|SUPERIORITY||FSFI Desire, VVA Cohen's d|1.21|||||TWO_SIDED|95.0|0.55|1.86||||||||1.86|.55|
82580559|NCT01982448|164872553|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.19|4.95||||||In the Paclitaxel treated patients, the relationship between HRD status and pathologic response was conducted by arm using a univariate logistic regression model and a likelihood ratio test with a one-sided type I error of alpha 0.05. Assuming 12.5% unevaluable, prevalence of HR deficiency 60%, 70 evaluable patients per in a given arm, there is \~80% power to detect a response rate of 37% in HR-deficient patients vs a 16% in HR non-deficient patients, corresponding to the Odds Ratio 0.62.||4.95|0.19|
82551226|NCT05692960|164806690|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|BITS, HRI Cohen's d|1.0|||||TWO_SIDED|95.0|0.34|1.63||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-tests for the BITS. Means and 95% confidence intervals were also calculated.||1.63|.34|
82551227|NCT05692960|164806690|SUPERIORITY||BITS, VVA Cohen's d|0.5|||||TWO_SIDED|95.0|0.03|1.01||||||||1.01|.03|
82551228|NCT05692960|164806691|SUPERIORITY|For this feasibility study, a sample of approximately 15 participants per arm will allow for estimates that can be used in the development of a larger study.|PROMIS Interest, HRI Cohen's d|1.1|||||TWO_SIDED|95.0|0.41|1.75||||||Effect sizes, Cohen's d, were calculated for both study arms using paired t-test for PROMIS interest, lubrication and satisfaction subscales. Means and 95% confidence intervals were also calculated.||1.75|.41|
82551229|NCT05692960|164806691|SUPERIORITY||PROMIS Interest, VVA Cohen's d|0.64|||||TWO_SIDED|95.0|0.09|1.18||||||||1.18|.09|
82551230|NCT05692960|164806691|SUPERIORITY||PROMIS Satisfaction, HRI Cohen's d|1.19|||||TWO_SIDED|95.0|0.45|1.89||||||||1.89|.45|
82551231|NCT05692960|164806691|SUPERIORITY||PROMIS Satisfaction, VVA Cohen's d|0.8|||||TWO_SIDED|95.0|0.13|1.44||||||||1.44|.13|
82551232|NCT05692960|164806691|SUPERIORITY||PROMIS Lubrication, HRI Cohen's d|1.79|||||TWO_SIDED|95.0|0.88|2.67||||||||2.67|.88|
82551233|NCT05692960|164806691|SUPERIORITY||PROMIS Lubrication, VVA Cohen's d|1.63|||||TWO_SIDED|95.0|0.74|2.5||||||||2.50|.74|
82551234|NCT04719832|164806692|SUPERIORITY|Analysis performed using a negative binomial model with covariates of treatment, exacerbation history (2, 3, 4+), baseline inhaled CS dose (medium, high), geographical region, baseline percent predicted Forced Expiratory Volume in one second (FEV1), and offset of log (total time in the study in years).|Rate Ratio|0.42|||<|0.001|TWO_SIDED|95.0|0.3|0.59|||Negative binomial distribution|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by the annualized rate of clinically significant exacerbations measured over the study intervention period of 52 weeks.||0.59|0.30|< 0.001
82580560|NCT01982448|164872554|SUPERIORITY||Odds Ratio (OR)|2.32|||||TWO_SIDED|95.0|0.23|118.07||||||||118.07|0.23|
82580561|NCT01982448|164872554|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.09|4.14||||||||4.14|0.09|
82476746|NCT05477108|164648672|EQUIVALENCE|For AUClast, the analysis was conducted using an analysis of variance including fixed effects for treatment, sequence, period and subject within sequence. The PK parameter was log-transformed prior to analysis. Bioequivalence was concluded since the 90% CI for the geometric mean ratio were fully contained within the predefined equivalence limits of 80% to 125%.|Geometric Mean Ratio (%)|105.74|||||TWO_SIDED|90.0|92.59|120.75|||||Geometric mean ratio is calculated as A/B.|Statistical Comparison of Key Formoterol Pharmacokinetic Parameters (EU approach)||120.75|92.59|
82551235|NCT04719832|164806693|SUPERIORITY||Difference in Least Square Means|-3.36|||=|0.08|TWO_SIDED|95.0|-7.11|0.39|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline SGRQ total score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline SGRQ total score and visit by treatment group||0.39|-7.11|= 0.080
82551236|NCT04719832|164806694|SUPERIORITY||Difference in Least Square Means|-0.04|||=|0.69|TWO_SIDED|95.0|-0.27|0.18|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ACQ-5 score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ACQ-5 score and visit by treatment group.||0.18|-0.27|= 0.690
82551237|NCT04719832|164806695|SUPERIORITY||Difference in Least Square Means|-0.001|||=|0.991|TWO_SIDED|95.0|-0.089|0.088|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline pre-bronchodilator FEV1, visit, visit by baseline pre-bronchodilator FEV1 and visit by treatment group.||0.088|-0.089|= 0.991
82551238|NCT04719832|164806696|SUPERIORITY||Difference in Least Square Means|-0.09|||=|0.65|TWO_SIDED|95.0|-0.5|0.31|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ANSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ANSD weekly mean score and visit by treatment group.||0.31|-0.50|= 0.650
82551239|NCT04719832|164806697|SUPERIORITY||Difference in Least Square Means|-0.08|||=|0.647|TWO_SIDED|95.0|-0.42|0.26|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ADSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ADSD weekly mean score and visit by treatment group.||0.26|-0.42|= 0.647
82551240|NCT01152450|164806699|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.102|0.196|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.196|0.102|<0.0001
82580562|NCT00872989|164872558|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.49|TWO_SIDED|80.0|0.79|1.26|||Regression, Cox|||||1.26|0.79|0.49
82551241|NCT01152450|164806699|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.111|0.205|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.205|0.111|<0.0001
82551242|NCT01152450|164806699|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.009|STANDARD_ERROR_OF_MEAN|0.024||||95.0|-0.038|0.056|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.056|-0.038|
82551243|NCT01152450|164806700|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.328|STANDARD_ERROR_OF_MEAN|5.19|<|0.0001||95.0|11.084|31.573|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||31.573|11.084|<0.0001
82551244|NCT01152450|164806700|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.357|STANDARD_ERROR_OF_MEAN|5.225|<|0.0001||95.0|12.044|32.67|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||32.670|12.044|<0.0001
82551245|NCT01152450|164806700|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.029|STANDARD_ERROR_OF_MEAN|5.242||||95.0|-9.318|11.376|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||11.376|-9.318|
82551246|NCT01152450|164806701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.92|STANDARD_ERROR_OF_MEAN|5.026|<|0.0001||95.0|20.001|39.839|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||39.839|20.001|<0.0001
82551247|NCT01152450|164806701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.657|STANDARD_ERROR_OF_MEAN|5.042|<|0.0001||95.0|18.707|38.606|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||38.606|18.707|<0.0001
82551248|NCT01152450|164806701|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.264|STANDARD_ERROR_OF_MEAN|5.056||||95.0|-11.243|8.716|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||8.716|-11.243|
82551249|NCT01152450|164806702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.12|0.218|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.218|0.120|<0.0001
82580563|NCT00872989|164872560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.83|TWO_SIDED|80.0|0.93|1.68|||Regression, Cox|||||1.68|0.93|0.83
82580564|NCT00923260|164872594|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||t-test, 2 sided|||||||0.79
82580565|NCT00923260|164872595|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.49
82580566|NCT00923260|164872596|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
82476747|NCT03376295|164648702|OTHER||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.9|1.2|||Cox proportional hazards model||The hazard ratio (HR) is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|The Cox proportional hazard regression model was used to perform for moderate/severe exacerbation that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.20|0.90|
82476748|NCT03376295|164648702|OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.65|1.36|||Cox proportional hazards model||HR presented is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|The Cox proportional hazard regression model was used to perform for severe exacerbation that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.36|0.65|
82476749|NCT03376295|164648703|OTHER||Rate ratio (RR)|1.07|||||TWO_SIDED|95.0|0.92|1.25|||Negative binomial model||The rate ratio (RR) (LABA-TIO combination versus the LABA-ICS combination) is adjusted RR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|Moderate/severe exacerbation||1.25|0.92|
82476750|NCT03376295|164648703|OTHER||Rate ratio (RR)|0.85|||||TWO_SIDED|95.0|0.55|1.33|||Negative binomial model||The RR (LABA-TIO combination versus the LABA-ICS combination) is adjusted RR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score.|Severe exacerbation||1.33|0.55|
82476751|NCT03376295|164648704|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.42|1.05|||Cox proportional hazards model||The HR is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score|The cox proportional hazard regression model was used to perform an as-treated analysis that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||1.05|0.42|
82476752|NCT03376295|164648704|OTHER||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.48|0.92|||Cox proportional hazards model||The HR is adjusted HR after matching on high-dimensional propensity scores, sex and calendar time, adjusted further for the deciles of propensity score|The Cox proportional hazard regression model was used to perform an on-treatment analysis that assesses the effect of current use of LABA-TIO combination versus the LABA-ICS combination on the risk of a first COPD exacerbation.||0.92|0.48|
82476753|NCT01808092|164648900|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test of NI for the primary efficacy analysis will be performed at the 2.5% 1 sided significance level. This test will be based on the lower limit of a 2-sided 95% confidence interval (CI). Consistent with the protocol, NI will be concluded if the lower limit of the 95% CI is greater than -12.5%.|percentage: units for RD are %|-4.2||||0.007|TWO_SIDED|95.0|-10.76|2.46||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff \<= -12.5%.|% Risk Difference (RD)|RD is CAZ-AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.||Statistical analysis for the proportion of patients with clinical cure at TOC in cMITT analysis set||2.46|-10.76|0.007
82500483|NCT01500629|164691732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||0.521|TWO_SIDED|95.0|-0.31|0.59|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.59|-0.31|0.521
82500484|NCT01500629|164691733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.376|TWO_SIDED|95.0|-0.15|0.39|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.39|-0.15|0.376
82580567|NCT00923260|164872597|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||||||.86
82580568|NCT00923260|164872598|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
82500485|NCT01500629|164691734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.35|TWO_SIDED|95.0|-0.11|0.3|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.30|-0.11|0.350
82500486|NCT01500629|164691735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.947|TWO_SIDED|95.0|-0.36|0.34|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.34|-0.36|0.947
82500487|NCT01500629|164691736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.651|TWO_SIDED|95.0|-0.3|0.19|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.19|-0.30|0.651
82500488|NCT01500629|164691741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.261|TWO_SIDED|95.0|-1.3|0.38|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.38|-1.30|0.261
82500489|NCT01500629|164691742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.481|TWO_SIDED|95.0|-0.51|1.04|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.04|-0.51|0.481
82476754|NCT01808092|164648901|NON_INFERIORITY_OR_EQUIVALENCE|The statistical test of NI for the primary efficacy analysis will be performed at the 2.5% 1 sided significance level. This test will be based on the lower limit of a 2-sided 95% confidence interval (CI). Consistent with the protocol, NI will be concluded if the lower limit of the 95% CI is greater than -12.5%.|percentage: units for RD are %|-0.7|||<|0.001|TWO_SIDED|95.0|-7.86|6.39||P-value for 1-sided test at test of cure (TOC) with a -12.5% non-inferiority margin, i.e. H0: diff \<= -12.5%.|% Risk Difference (RD)|RD is CAZ-AVI clinical cure rate minus Meropenem clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.||Statistical analysis for the proportion of patients with clinical cure at TOC in CE at TOC analysis set||6.39|-7.86|<0.001
82580569|NCT00923260|164872599|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|||||||0.76
82551250|NCT01152450|164806702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.185|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001||95.0|0.136|0.234|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.234|0.136|<0.0001
82551251|NCT01152450|164806702|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.025||||95.0|-0.033|0.065|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.065|-0.033|
82551252|NCT01152450|164806703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.077|0.181|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.181|0.077|<0.0001
82551253|NCT01152450|164806703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.079|0.183|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.183|0.079|<0.0001
82551254|NCT01152450|164806703|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.05|0.054|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.054|-0.050|
82551255|NCT01152450|164806704|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.179|0.084|<0.0001
82551256|NCT01152450|164806704|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.084|0.179|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.179|0.084|<0.0001
82551257|NCT01152450|164806704|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.024||||95.0|-0.048|0.047|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.047|-0.048|
82551258|NCT01152450|164806705|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.03||0.0002||95.0|0.053|0.17|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.170|0.053|0.0002
82551259|NCT01152450|164806705|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.133|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001||95.0|0.074|0.191|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.191|0.074|<0.0001
82551260|NCT01152450|164806705|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.03||||95.0|-0.037|0.08|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.080|-0.037|
82551261|NCT01152450|164806706|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.035||0.0515||95.0|0.0|0.136|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.136|0.000|0.0515
82551262|NCT01152450|164806706|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.035||0.1058||95.0|-0.012|0.124|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.124|-0.012|0.1058
82551263|NCT01152450|164806706|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.012|STANDARD_ERROR_OF_MEAN|0.035||||95.0|-0.08|0.057|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.057|-0.080|
82580570|NCT00923260|164872600|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||||||0.45
82476755|NCT04219085|164648949|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.0
82476756|NCT04219085|164648950|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82551264|NCT01152450|164806707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001||95.0|0.073|0.177|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.177|0.073|<0.0001
82551265|NCT01152450|164806707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.026||0.0002||95.0|0.048|0.152|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.152|0.048|0.0002
82551266|NCT01152450|164806707|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.025|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.077|0.027|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.027|-0.077|
82551267|NCT01152450|164806708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.027||0.0051||95.0|0.023|0.129|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.129|0.023|0.0051
82551268|NCT01152450|164806708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.027||0.0123||95.0|0.015|0.12|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.120|0.015|0.0123
82580571|NCT00923260|164872601|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||||||0.81
82580572|NCT00923260|164872602|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||t-test, 2 sided|||||||0.92
82476757|NCT04219085|164648951|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||||||0.85
82476758|NCT01909011|164648952|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82580573|NCT00923260|164872603|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
82580574|NCT00923260|164872604|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|||||||0.15
82580575|NCT00923260|164872605|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||t-test, 2 sided|||||||0.20
82580576|NCT00923260|164872606|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
82476759|NCT01909011|164648953|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||t-test, 2 sided|||||||0.066
82580577|NCT00923260|164872607|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||t-test, 2 sided|||||||0.92
82580578|NCT00923260|164872608|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82580579|NCT00923260|164872609|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||||||0.21
82580580|NCT00923260|164872610|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|||||||0.65
82580581|NCT00923260|164872611|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||t-test, 2 sided|||||||0.33
82580582|NCT00923260|164872612|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||t-test, 2 sided|||||||0.39
82580583|NCT00923260|164872613|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||||||0.47
82580584|NCT00923260|164872614|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||t-test, 2 sided|||||||0.75
82580585|NCT00923260|164872615|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||||||0.94
82476760|NCT01909011|164648954|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||t-test, 2 sided|||||||0.016
82476761|NCT03425253|164648956|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Both Sides of Face, Last Treatment||||<0.001
82476762|NCT03425253|164648956|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Right Side of Face, Last Treatment||||<0.001
82476763|NCT03425253|164648956|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Investigator: Left Side of Face, Last Treatment||||<0.001
82580586|NCT00923260|164872616|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||||||0.74
82580587|NCT00923260|164872617|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
82476764|NCT03425253|164648956|OTHER|||||||0.018||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Both Sides of Face, Last Treatment||||0.018
82476765|NCT03425253|164648956|OTHER|||||||0.301||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Right Side of Face, Last Treatment||||0.301
82476766|NCT03425253|164648956|OTHER|||||||0.011||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Independent Reviewer: Left Side of Face, Last Treatment||||0.011
82476767|NCT03425253|164648957|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
82476768|NCT03425253|164648958|OTHER|||||||0.597||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||0.597
82476769|NCT03425253|164648959|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
82476770|NCT03425253|164648960|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
82476771|NCT03425253|164648961|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||<0.001
82580588|NCT00923260|164872618|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||t-test, 2 sided|||||||0.67
82580589|NCT00923260|164872619|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
82580590|NCT00923260|164872620|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||||||0.038
82580591|NCT00923260|164872621|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||||||0.14
82580592|NCT00923260|164872622|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||||||0.21
82580593|NCT00923260|164872623|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||||||0.42
82580594|NCT00923260|164872624|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||t-test, 2 sided|||||||0.18
82580595|NCT00923260|164872625|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||t-test, 2 sided|||||||0.10
82580596|NCT00923260|164872626|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
82580597|NCT00923260|164872627|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||t-test, 2 sided|||||||0.18
82580598|NCT00923260|164872628|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||t-test, 2 sided|||||||0.40
82580599|NCT00923260|164872629|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
82580600|NCT00923260|164872630|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||t-test, 2 sided|||||||0.035
82580601|NCT00923260|164872631|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
82580602|NCT00923260|164872632|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||t-test, 2 sided|||||||0.99
82580603|NCT00923260|164872633|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||t-test, 2 sided|||||||0.96
82580604|NCT00923260|164872634|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||||||0.44
82580605|NCT00923260|164872635|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||t-test, 2 sided|||||||0.97
82580606|NCT00923260|164872636|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||||||0.85
82580607|NCT00923260|164872637|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||||||0.61
82580608|NCT00923260|164872638|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||||||0.55
82580609|NCT00923260|164872639|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||t-test, 2 sided|||||||0.65
82580610|NCT00923260|164872640|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||||||0.74
82580611|NCT00923260|164872641|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||||||0.57
82580612|NCT00923260|164872642|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||t-test, 2 sided|||||||0.87
82580613|NCT00923260|164872643|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||t-test, 2 sided|||||||0.28
82580614|NCT00923260|164872644|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
82580615|NCT00923260|164872645|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||t-test, 2 sided|||||||0.42
82580616|NCT00923260|164872646|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
82580617|NCT00923260|164872647|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||||||0.68
82476772|NCT03425253|164648962|OTHER|||||||0.003||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||||||0.003
82476773|NCT03425253|164648963|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Both Side of the Face, End of Study||||<0.001
82476774|NCT03425253|164648963|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Right Side of the Face, End of study||||<0.001
82476775|NCT03425253|164648963|OTHER||||||<|0.001||||||P-value was based on paired t-test for the mean difference.|Paired t-test|||Left Side of the Face, End of Study||||<0.001
82476776|NCT01248104|164648984|SUPERIORITY_OR_OTHER_LEGACY|Continuous variables were compared by multivariate linear regression analysis to adjust for possible covariates of intraoperative fluids, age, bypass time, and procedure time. Tukey-Kramer test was then used to compare for specific differences between groups for each variable. Categorical data were compared using Fisher's exact test. All comparisons were made at a significance level of 0.05, and analysis was performed with Minitab version 17).||||||0.35||||||The primary outcome measure showed that there was no difference in PRBC transfusion frequency or amounts in the operating room or the in ICU up to POD 2|ANOVA|||A power analysis based on the comparison of a 15% difference in total transfusion amounts up to POD 2 between the treatment groups indicated a total sample size of 80 with a power of 0.8, confidence interval 0.9, and p= 0.05.||||0.35
82476777|NCT01410357|164648985|SUPERIORITY|||||||0.785||||||Bonferroni corrections were conducted to adjust for multiple comparisons.|Mixed Models Analysis|||||||.785
82476778|NCT01410357|164648986|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.016
82476779|NCT01410357|164648987|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||<0.001
82476780|NCT01410357|164648988|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.003
82476781|NCT01410357|164648989|SUPERIORITY|||||||0.086|||||||Mixed Models Analysis|||||||.086
82476782|NCT01410357|164648990|SUPERIORITY|||||||0.872|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.872
82476783|NCT01410357|164648991|SUPERIORITY|||||||0.662|||||||Mixed Models Analysis|||||||.662
82476784|NCT01410357|164648992|SUPERIORITY|||||||0.633|||||||Mixed Models Analysis|||||||.633
82476785|NCT01410357|164648993|SUPERIORITY|||||||0.175|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.175
82476786|NCT01410357|164648994|SUPERIORITY|||||||0.68|||||||Mixed Models Analysis|A Bonferroni correction was conducted to adjust for multiple comparisons.||||||.680
82476787|NCT01410357|164648995|SUPERIORITY|||||||0.407|||||||Mixed Models Analysis|||||||.407
82476788|NCT01410357|164648996|SUPERIORITY|||||||0.87|||||||Mixed Models Analysis|||||||.870
82551269|NCT01152450|164806708|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.008|STANDARD_ERROR_OF_MEAN|0.027||||95.0|-0.061|0.045|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.045|-0.061|
82551270|NCT01152450|164806709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.027||0.0042||95.0|0.025|0.13|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.130|0.025|0.0042
82476789|NCT01410357|164648997|SUPERIORITY|||||||0.707|||||||Mixed Models Analysis|||||||.707
82476790|NCT01410357|164648998|SUPERIORITY|||||||0.838|||||||Mixed Models Analysis|||||||.838
82476791|NCT01410357|164648999|SUPERIORITY|||||||0.853|||||||Mixed Models Analysis|||||||.853
82551271|NCT01152450|164806709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.027||0.0747||95.0|-0.005|0.1|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.100|-0.005|0.0747
82476792|NCT01410357|164649000|SUPERIORITY|||||||0.853|||||||Mixed Models Analysis|||||||.853
82476793|NCT01410357|164649001|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||||||.510
82476794|NCT01410357|164649002|SUPERIORITY|||||||0.573|||||||Mixed Models Analysis|||||||.573
82476795|NCT01410357|164649003|SUPERIORITY|||||||0.758|||||||Mixed Models Analysis|||||||.758
82476796|NCT01410357|164649004|SUPERIORITY|||||||0.156|||||||Mixed Models Analysis|||||||.156
82476797|NCT01410357|164649005|SUPERIORITY|||||||0.156|||||||Mixed Models Analysis|||||||.156
82476798|NCT01410357|164649006|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82476799|NCT01410357|164649007|SUPERIORITY|||||||0.878|||||||Mixed Models Analysis|||||||.878
82476800|NCT01410357|164649008|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||.014
82476801|NCT01410357|164649009|SUPERIORITY|||||||0.227|||||||Mixed Models Analysis|||||||.227
82476802|NCT03467152|164649021|SUPERIORITY|||||||0.6909||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.6909
82476803|NCT03467152|164649022|SUPERIORITY||Odds Ratio (OR)|1.018||||0.8251|TWO_SIDED|95.0|0.695|1.492||Generalized Linear Mixed Models Analysis (GLMM)|GLMM|||||1.492|0.695|0.8251
82476804|NCT03467152|164649023|SUPERIORITY||Odds Ratio (OR)|0.853||||0.3003|TWO_SIDED|95.0|0.584|1.247||Generalized Linear Mixed Models Analysis (GLMM)|GLMM|||||1.247|0.584|0.3003
82476805|NCT03467152|164649024|SUPERIORITY|||||||0.9198||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.9198
82476806|NCT03467152|164649025|SUPERIORITY|||||||0.2909|||||||ANCOVA|||||||0.2909
82476807|NCT03467152|164649026|SUPERIORITY|||||||0.6127||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.6127
82476808|NCT03467152|164649027|SUPERIORITY|||||||0.878||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.8780
82476809|NCT03467152|164649028|SUPERIORITY|||||||0.409||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.4090
82476810|NCT03467152|164649029|SUPERIORITY|||||||0.8736||||||Mixed Models for Repeated Measures Analysis (MMRM)|MMRM|||||||0.8736
82551272|NCT01152450|164806709|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.029|STANDARD_ERROR_OF_MEAN|0.027||||95.0|-0.082|0.023|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.023|-0.082|
82580618|NCT00923260|164872648|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
82580619|NCT00923260|164872649|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||t-test, 2 sided|||||||0.71
82551273|NCT01152450|164806713|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.055|0.147|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.147|0.055|<0.0001
82551274|NCT01152450|164806713|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.023||0.0004||95.0|0.038|0.13|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.130|0.038|0.0004
82551275|NCT01152450|164806713|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.023||||95.0|-0.063|0.03|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.030|-0.063|
82551276|NCT01152450|164806714|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.242|STANDARD_ERROR_OF_MEAN|4.091|<|0.0001||95.0|22.167|38.317|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||38.317|22.167|<0.0001
82551277|NCT01152450|164806714|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.31|STANDARD_ERROR_OF_MEAN|4.089|<|0.0001||95.0|26.24|42.38|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||42.380|26.240|<0.0001
82551278|NCT01152450|164806714|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.068|STANDARD_ERROR_OF_MEAN|4.094||||95.0|-4.012|12.148|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||12.148|-4.012|
82580620|NCT00923260|164872650|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||t-test, 2 sided|||||||0.32
82580621|NCT00923260|164872651|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||t-test, 2 sided|||||||0.64
82580622|NCT00923260|164872652|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||t-test, 2 sided|||||||0.52
82551279|NCT01152450|164806715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.769||0.6747||95.0|-1.195|1.841|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||1.841|-1.195|0.6747
82551280|NCT01152450|164806715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.389|STANDARD_ERROR_OF_MEAN|0.774||0.6159||95.0|-1.138|1.916|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||1.916|-1.138|0.6159
82580623|NCT00923260|164872653|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||t-test, 2 sided|||||||0.59
82476811|NCT00561977|164649155|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Mixed Models Analysis|time measurement, treatment group, interaction between time and group term as fixed effect, subject as random effect.||Mean dietary quality score by visit and study group was estimated using SAS PROC MIXED. All analyses were performed using SAS 9.13 (SAS Institute, Cary, NC, USA).||||0.14
82551281|NCT01152450|164806715|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.777||||95.0|-1.468|1.599|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||1.599|-1.468|
82551282|NCT01152450|164806716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.077|STANDARD_ERROR_OF_MEAN|0.142||0.5906||95.0|-0.358|0.204|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.204|-0.358|0.5906
82551283|NCT01152450|164806716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.143||0.2208||95.0|-0.458|0.106|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.106|-0.458|0.2208
82551284|NCT01152450|164806716|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.099|STANDARD_ERROR_OF_MEAN|0.143||||95.0|-0.382|0.184|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.184|-0.382|
82551285|NCT01152450|164806717|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.082||0.9797||95.0|-0.163|0.159|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.159|-0.163|0.9797
82551286|NCT01152450|164806717|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.082||0.4518||95.0|-0.223|0.1|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.100|-0.223|0.4518
82551287|NCT01152450|164806717|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.082||||95.0|-0.222|0.102|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.102|-0.222|
82551288|NCT01152450|164806718|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.074||0.4089||95.0|-0.207|0.085|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.085|-0.207|0.4089
82551289|NCT01152450|164806718|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.074|STANDARD_ERROR_OF_MEAN|0.074||0.3185||95.0|-0.221|0.072|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.072|-0.221|0.3185
82551290|NCT01152450|164806718|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.074||||95.0|-0.16|0.134|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.134|-0.160|
82580624|NCT00923260|164872654|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||t-test, 2 sided|||||||0.57
82580625|NCT00923260|164872655|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
82580626|NCT00923260|164872656|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||t-test, 2 sided|||||||0.72
82580627|NCT00923260|164872657|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||t-test, 2 sided|||||||0.56
82580628|NCT00591721|164872663|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.53|STANDARD_DEVIATION|6.47|<|0.05|TWO_SIDED|95.0|-15.47|10.41|||t-test, 2 sided|Each baseline subscale score was subtracted from 7 week subscale score; t-tests assessed mean individual differences between groups.||Hypothesis: Individuals who participate in the program will report significantly reduced fatigue impact immediately post-intervention compared to individuals allocated to the wait-list control group.||10.41|-15.47|<0.05
82580629|NCT02704754|164872669|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82580630|NCT02716818|164872698|SUPERIORITY||Mean Difference (Final Values)|-0.069|||=|0.5521|TWO_SIDED|95.0|-0.299|0.161|||ANCOVA|||The primary efficacy variable was the natural logarithm of the mean of the 24-hour SDS profile for the natural logarithm of 17-OHP. The SDS profile was calculated as the SDS of log transformed 17-OHP concentration unsigned. The mean of the 24-hour SDS profile for each visit was the arithmetic mean of all the SDSs, with the first and last (13th) weighted one half relative to the intermediate SDSs.||0.161|-0.299|=0.5521
82476812|NCT04975438|164649161|OTHER||Posterior Median Difference|-33.21|||||TWO_SIDED|95.0|-50.96|-14.84|||||The posterior median of the difference (GSK1070806 - placebo) and 95% credible interval in PCFB in the EASI is presented. Analysis was performed using Bayesian analysis under the hypothetical strategy using an informative prior (robust MAP prior).|||-14.84|-50.96|
82476813|NCT04975438|164649162|OTHER||Posterior Median Difference|-9.68|||||TWO_SIDED|95.0|-15.7|-3.6|||||The posterior median of the difference (GSK1070806 - placebo) and 95% credible interval in PCFB in the EASI is presented. Analysis was performed using Bayesian analysis with vague priors and adjusting for baseline EASI.|||-3.60|-15.70|
82476814|NCT00977080|164649175|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0||||No adjustments were made for multiple comparisons between treatment groups since the study was designed to evaluate the primary outcome measure by testing a single hypothesis within each stratum independently.|Fisher Exact|||With a sample size of 49 participants in each treatment group in the IV stratum, a Fisher's exact test with a 0.050 2-sided significance level will have 81% power to detect a 30% difference in the percentage of participants who achieve iPTH between 150 and 300 pg/mL, assuming the cinacalcet percentage is 36% and the paricalcitol percentage is 66%.||||0.016
82476815|NCT00977080|164649175|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|95.0||||No adjustments were made for multiple comparisons between treatment groups since the study was designed to evaluate the primary outcome measure by testing a single hypothesis within each stratum independently.|Fisher Exact|||With a sample size of 49 participants in each treatment group in the oral stratum, a Fisher's exact test with a 0.050 2-sided significance level will have 81% power to detect a 30% difference in the percentage of participants who achieve iPTH between 150 and 300 pg/mL, assuming the cinacalcet percentage is 36% and the paricalcitol percentage is 66%.||||0.260
82476816|NCT00977080|164649176|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82476817|NCT00977080|164649176|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||Fisher Exact|||||||0.239
82476818|NCT00977080|164649177|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82476819|NCT00977080|164649177|SUPERIORITY_OR_OTHER|||||||0.704||95.0|||||Fisher Exact|||||||0.704
82476820|NCT00977080|164649178|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|||||||0.010
82476821|NCT00977080|164649179|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82551291|NCT01152450|164806719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.031||0.9626||95.0|-0.059|0.062|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R2.5 bid - Placebo|||0.062|-0.059|0.9626
82476822|NCT00977080|164649179|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82476823|NCT00977080|164649180|SUPERIORITY_OR_OTHER|||||||0.118||95.0|||||Fisher Exact|||||||0.118
82476824|NCT00977080|164649180|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82476825|NCT00275340|164649247|NON_INFERIORITY_OR_EQUIVALENCE|Study was not powered to determine significant group differences; thus trends are reported for p\<0.20.|||||p<|0||95.0|||||t-test, 2 sided|||Mean change scores were computed on domain and summary scores. Mean differences in change scores between groups were computed and t-tests used to detect significant differences.||||p<0.20
82476826|NCT00612105|164649272|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.43||||0.2537|TWO_SIDED|95.0|-1.171|0.312|||ANCOVA|||||0.312|-1.171|0.2537
82476827|NCT00475982|164649335|SUPERIORITY||Mean Difference (Final Values)|0.965||||0.965|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.965
82476828|NCT00475982|164649336|SUPERIORITY||Mean Difference (Final Values)|0.884||||0.884|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.884
82551292|NCT01152450|164806719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.031||0.9102||95.0|-0.058|0.065|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Placebo|||0.065|-0.058|0.9102
82476829|NCT00475982|164649337|SUPERIORITY|||||||0.294|||||||paired t-test|||intra-analysis within the weight loss arm||||0.294
82476830|NCT00475982|164649337|SUPERIORITY|||||||0.44|||||||paired t-test|||intra-analysis within the control arm||||0.440
82476831|NCT00475982|164649337|SUPERIORITY||Mean Difference (Net)|8.49||||0.186|TWO_SIDED|95.0|-4.31|21.3|||paired t-test|||analysis between the weight loss and control arms||21.3|-4.31|0.186
82476832|NCT00475982|164649338|SUPERIORITY|||||||0.162|||||||paired t-test|||intra-analysis within the weight loss arm||||0.162
82476833|NCT00475982|164649338|SUPERIORITY|||||||0.986|||||||paired t-test|||intra-analysis within the control arm||||0.986
82476834|NCT00475982|164649338|SUPERIORITY||Mean Difference (Net)|2.22||||0.353|TWO_SIDED|95.0|-2.58|7.02|||paired t-test|||analysis between the weight loss and control arms||7.02|-2.58|0.353
82476835|NCT00475982|164649339|SUPERIORITY|||||||0.283|||||||paired t-test|||intra-analysis within the weight loss arm||||0.283
82476836|NCT00475982|164649339|SUPERIORITY|||||||0.701|||||||paired t-test|||intra-analysis within the control arm||||0.701
82476837|NCT00475982|164649339|SUPERIORITY||Mean Difference (Net)|0.77||||0.835|TWO_SIDED|95.0|-6.7|8.24|||paired t-test|||analysis between the intervention and control arms||8.24|-6.70|0.835
82476838|NCT00475982|164649340|SUPERIORITY|||||||0|||||||paired t-test|||intra-analysis within the weight loss arm||||0.00
82476839|NCT00475982|164649340|SUPERIORITY|||||||0.009|||||||paired t-test|||intra-analysis within the control arm||||0.009
82476840|NCT00475982|164649340|SUPERIORITY||Mean Difference (Net)|2.11||||0.007|TWO_SIDED|95.0|0.64|3.59|||paired t-test|||analysis between the two arms||3.59|0.64|0.007
82476841|NCT00475982|164649341|SUPERIORITY|||||||0.073|||||||paired t-test|||intra-analysis within the weight loss arm||||0.073
82476842|NCT00475982|164649341|SUPERIORITY|||||||0.207|||||||paired t-test|||intra-analysis within the control arm||||0.207
82476843|NCT00475982|164649341|SUPERIORITY||Mean Difference (Net)|1.34||||0.063|TWO_SIDED|95.0|-0.08|2.75|||paired t-test|||analysis between the two arms||2.75|-0.08|0.063
82476844|NCT00783198|164649353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.76||||0.0039|TWO_SIDED|95.0|-2.95|-0.57|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.57|-2.95|0.0039
82476845|NCT00783198|164649353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.24||||0.0002|TWO_SIDED|95.0|-3.41|-1.07|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-1.07|-3.41|0.0002
82476846|NCT00783198|164649354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.032|TWO_SIDED|95.0|-2.08|-0.09|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.09|-2.08|0.0320
82476847|NCT00783198|164649354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.0003|TWO_SIDED|95.0|-2.78|-0.82|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.82|-2.78|0.0003
82476848|NCT00783198|164649355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.0472|TWO_SIDED|95.0|-1.54|-0.01|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.01|-1.54|0.0472
82476849|NCT00783198|164649355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0144|TWO_SIDED|95.0|-1.7|-0.19|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.19|-1.70|0.0144
82476850|NCT00783198|164649356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.1686|TWO_SIDED|95.0|-1.11|0.19|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.19|-1.11|0.1686
82476851|NCT00783198|164649356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0125|TWO_SIDED|95.0|-1.46|-0.18|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.18|-1.46|0.0125
82476852|NCT00783198|164649357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.0039|TWO_SIDED|95.0|-1.65|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.65|0.0039
82476853|NCT00783198|164649357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.0001|TWO_SIDED|95.0|-1.95|-0.64|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.64|-1.95|0.0001
82476854|NCT01510769|164649358|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1||||0.1298|TWO_SIDED|95.0|-0.03|0.23|||Cochran-Mantel-Haenszel|||||0.23|-0.03|0.1298
82476855|NCT01510769|164649358|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.29|||<|0.0001|TWO_SIDED|95.0|0.17|0.42|||Cochran-Mantel-Haenszel|||||0.42|0.17|<0.0001
82476856|NCT01510769|164649359|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.04||||0.4453|TWO_SIDED|95.0|-0.07|0.16|||Cochran-Mantel-Haenszel|||||0.16|-0.07|0.4453
82476857|NCT01510769|164649359|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09||||0.1149|TWO_SIDED|95.0|-0.02|0.21|||Cochran-Mantel-Haenszel|||||0.21|-0.02|0.1149
82476858|NCT01510769|164649360|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.03||||0.645|TWO_SIDED|95.0|-0.1|0.17|||Cochran-Mantel-Haenszel|||||0.17|-0.10|0.6450
82476859|NCT01510769|164649360|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.06||||0.4118|TWO_SIDED|95.0|-0.08|0.19|||Cochran-Mantel-Haenszel|||||0.19|-0.08|0.4118
82476860|NCT01510769|164649361|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.3034|TWO_SIDED|95.0|-0.24|0.07|||Cochran-Mantel-Haenszel|||||0.07|-0.24|0.3034
82476861|NCT01510769|164649361|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.19||||0.021|TWO_SIDED|95.0|-0.34|-0.04|||Cochran-Mantel-Haenszel|||||-0.04|-0.34|0.0210
82476862|NCT02874144|164649368|SUPERIORITY|intention-to-treat with participants analyzed according to a randomly assigned treatment group irrespective of compliance.|Slope|0.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED|||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|Regression, Linear|||We used baseline scores to track change to follow-up scores and used a difference-in-differences (D-I-D) statistical approach to compare the change over time compare relative rate of change over time between scores within the treatment group (AZD1981 plus INCS) and within the to scores within the placebo group (INCS treatment only)..|For inflammatory mediator analyses, data were reported as mean (SEM) with statistical significance determined by Kruskal-Wallis test.|||<0.05
82476863|NCT02874144|164649368|SUPERIORITY|This was a superiority trial. We used repeated-measures linear regression using the mixed procedure to calculate means for each outcome by visits and treatment status. We used baseline scores to track change to follow-up scores and used a difference-in-differences (D-I-D) statistical approach to compare the change over time between scores within the treatment group (AZD1981 plus INCS) to scores within the placebo group (INCS treatment only).|Mean Difference (Final Values)|-20.0|||<|0.05|TWO_SIDED|||||No, the p-value was not adjusted for multiple comparisons.|repeated-measures linear regression|We used repeated-measures linear regression using the MIXED procedure to calculate means (SEMS) for each outcome by visits and treatment status.|Our study did not include at relative risk.|The trial design is a continuous outcome superiority trial with primary efficacy outcome measures of change in Total Polyp Score (TPS) comparing AZD to placebo arm from V1 to V5. Total polyp score is a standardized method for assessing nasal polyp size by endoscopy, based on a scale of 1-4 per side. Inclusion criterion for this study is a TPS of ≥4 with a maximum of 8 and a standard deviation ± 2. A clinically meaningful effect is considered to be a decrease in total polyp score of 1.5.||||<0.05
82551293|NCT01152450|164806719|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.031||||95.0|-0.059|0.063|||Mixed Models Analysis|MMRM adjusted for treatment, period, patient and study baseline.|Tio R5 qd - Tio R2.5 bid|||0.063|-0.059|
82551294|NCT03084536|164806728|SUPERIORITY|||||||0.68|||||||Kruskal-Wallis|||||||0.68
82476864|NCT02975557|164649373|OTHER|||||||1|||||||Fisher Exact|The type I error was adjusted by using the alpha spending function approach with O'Brien-Fleming type boundaries.||We evaluated if the categorical type of tolerability measure is different between control (Artificial Tears) and intervention (Brimonidine, including both 0.15% high and 0.075% low doses groups).||||1
82476865|NCT01578850|164649374|SUPERIORITY_OR_OTHER||Difference in Proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.78|35.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).|Participants who took rescue therapy had the final value taken before rescue used for analysis at all ensuing time points.|||35.81|16.78|<0.001
82476866|NCT01578850|164649375|SUPERIORITY_OR_OTHER||Difference in proportions|23.7||||0.019|TWO_SIDED|95.0|6.83|40.61|||Cochran-Mantel-Haenszel|The p-value from CMH test of general association was stratified by geographic region.||||40.61|6.83|0.019
82476867|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|-0.6||||0.371|TWO_SIDED|95.0|-1.76|0.57|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Baseline||0.57|-1.76|0.371
82551295|NCT03084536|164806729|SUPERIORITY|||||||0.67|||||||Kruskal-Wallis|||||||0.67
82551296|NCT03084536|164806730|SUPERIORITY|||||||0.53|||||||Kruskal-Wallis|||||||0.53
82476868|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Baseline||1.81|-0.59|0.358
82476869|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|2.6||||0.667|TWO_SIDED|95.0|-4.76|9.98|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 24||9.98|-4.76|0.667
82476870|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|21.5||||0.001|TWO_SIDED|95.0|10.99|32.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||32.02|10.99|0.001
82476871|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|19.0||||0.004|TWO_SIDED|95.0|8.81|29.1|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||29.10|8.81|0.004
82476872|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|30.8|||<|0.001|TWO_SIDED|95.0|20.79|40.83|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||40.83|20.79|<0.001
82476873|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.89|37.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||37.54|16.89|<0.001
82551297|NCT03084536|164806731|SUPERIORITY|||||||0.44|||||||Kruskal-Wallis|||||||0.44
82551298|NCT03084536|164806732|SUPERIORITY|||||||0.88|||||||Kruskal-Wallis|||||||0.88
82551299|NCT04285515|164806733|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-7.6|-3.84|||Mixed Effects Model for Repeated Measure|||||-3.84|-7.60|<0.0001
82551300|NCT04285515|164806734|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|1.33|<|0.0001|TWO_SIDED|95.0|-8.29|-3.05|||Mixed Effects Model for Repeated Measure|||||-3.05|-8.29|<0.0001
82551301|NCT04285515|164806735|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|1.35|<|0.0001|TWO_SIDED|95.0|-8.61|-3.29|||Mixed Effects Model for Repeated Measure|||||-3.29|-8.61|<0.0001
82551302|NCT04285515|164806736|SUPERIORITY||Least Squares Mean Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-7.25|-3.88|||Mixed Effects Model for Repeated Measure|||||-3.88|-7.25|<0.0001
82580631|NCT02716818|164872699|SUPERIORITY||Mean Difference (Final Values)|0.047|||=|0.7405|TWO_SIDED|95.0|-0.234|0.329|||ANCOVA|||Change from Baseline to 24 Weeks in A4 Using an ANCOVA Model - The analysis conducted for the primary endpoint variable analysis of 17-OHP was repeated for A4.||0.329|-0.234|=0.7405
82580632|NCT02716818|164872700|SUPERIORITY||Mean Difference (Final Values)|-0.037|||=|0.8186|TWO_SIDED|95.0|-0.354|0.281|||ANCOVA|||||0.281|-0.354|=0.8186
82580633|NCT02716818|164872700|SUPERIORITY||Mean Difference (Final Values)|-0.135|||=|0.4655|TWO_SIDED|95.0|-0.508|0.237|||ANCOVA|||||0.237|-0.508|=0.4655
82476874|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|31.3|||<|0.001|TWO_SIDED|95.0|21.51|41.08|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||41.08|21.51|<0.001
82476875|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|30.2|||<|0.001|TWO_SIDED|95.0|19.95|40.47|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||40.47|19.95|<0.001
82476876|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.78|35.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||35.81|16.78|<0.001
82476877|NCT01578850|164649377|SUPERIORITY_OR_OTHER||Difference in proportions|27.1|||<|0.001|TWO_SIDED|95.0|16.67|37.47|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||37.47|16.67|<0.001
82476878|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|1.3||||0.774|TWO_SIDED|95.0|-9.03|11.68|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 24||11.68|-9.03|0.774
82476879|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|12.3||||0.034|TWO_SIDED|95.0|2.86|21.69|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||21.69|2.86|0.034
82476880|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|16.9||||0.02|TWO_SIDED|95.0|6.33|27.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||27.54|6.33|0.020
82476881|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|14.6||||0.007|TWO_SIDED|95.0|5.48|23.8|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||23.80|5.48|0.007
82476882|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|24.9|||<|0.001|TWO_SIDED|95.0|14.72|34.98|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||34.98|14.72|<0.001
82476883|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|18.8|||<|0.001|TWO_SIDED|95.0|10.16|27.38|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||27.38|10.16|<0.001
82476884|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|30.9|||<|0.001|TWO_SIDED|95.0|21.03|40.76|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||40.76|21.03|<0.001
82476885|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|20.6|||<|0.001|TWO_SIDED|95.0|11.78|29.52|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||29.52|11.78|<0.001
82476886|NCT01578850|164649379|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|17.38|36.93|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||36.93|17.38|<0.001
82476887|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.73|-0.2|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 28||-0.20|-0.73|<0.001
82476888|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.006|TWO_SIDED|95.0|-0.61|-0.11|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 28||-0.11|-0.61|0.006
82476889|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-0.96|-0.39|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 36||-0.39|-0.96|<0.001
82476890|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.82|-0.28|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 36||-0.28|-0.82|<0.001
82476891|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|||<|0.001|TWO_SIDED|95.0|-1.03|-0.46|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 44||-0.46|-1.03|<0.001
82551303|NCT04285515|164806737|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.81|-0.39|||Mixed Effects Model of Repeated Measure|||||-0.39|-0.81|<0.0001
82551304|NCT04285515|164806738|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.91|-0.31|||Mixed Effects Model for Repeated Measure|||||-0.31|-0.91|<0.0001
82551305|NCT04285515|164806739|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.89|-0.27|||Mixed Effects Model for Repeated Measure|||||-0.27|-0.89|0.0003
82551306|NCT04285515|164806740|SUPERIORITY||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.82|-0.44|||Mixed Effects Model for Repeated Measure|||||-0.44|-0.82|<0.0001
82551307|NCT02618577|164806741|SUPERIORITY||adjusted cause-specific hazard ratio|0.81||||0.15|TWO_SIDED|95.0|0.6|1.08|||Cause-spec. Cox Proport. Hazard model|||||1.08|0.6|0.15
82476892|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|||<|0.001|TWO_SIDED|95.0|-0.92|-0.37|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 44||-0.37|-0.92|<0.001
82476893|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.98|-0.4|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-ESR Week 52||-0.40|-0.98|<0.001
82476894|NCT01578850|164649381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.91|-0.36|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||DAS28-CRP Week 52||-0.36|-0.91|<0.001
82476895|NCT01578850|164649382|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Log Rank|||||||<0.001
82476896|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|1.4||||0.961|TWO_SIDED|95.0|-6.13|8.9|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 24||8.90|-6.13|0.961
82476897|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|21.5||||0.001|TWO_SIDED|95.0|10.99|32.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 28||32.02|10.99|0.001
82476898|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|18.3||||0.007|TWO_SIDED|95.0|8.08|28.53|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 28||28.53|8.08|0.007
82476899|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|31.4|||<|0.001|TWO_SIDED|95.0|21.42|41.39|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 36||41.39|21.42|<0.001
82476900|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.83|37.54|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 36||37.54|16.83|<0.001
82476901|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|31.3|||<|0.001|TWO_SIDED|95.0|21.53|41.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 44||41.02|21.53|<0.001
82551308|NCT02618577|164806742|SUPERIORITY||adjusted cause-specific hazard ratio|0.79|||||TWO_SIDED|95.0|0.45|1.39||||||||1.39|0.45|
82551309|NCT02618577|164806743|SUPERIORITY||adjusted cause-specific hazard ratio|0.89|||||TWO_SIDED|95.0|0.67|1.18||||||||1.18|0.67|
82551310|NCT02618577|164806744|SUPERIORITY||adjusted cause-specific hazard ratio|1.16||||0.28|TWO_SIDED|95.0|0.88|1.53|||Cause-spec. Cox Proport. Hazard model|||||1.53|0.88|0.28
82551311|NCT02618577|164806745|SUPERIORITY||adjusted cause-specific hazard ratio|2.1||||0.002|TWO_SIDED|95.0|1.3|3.38|||Cause-spec. Cox Proport. Hazard model|||||3.38|1.3|0.002
82580634|NCT02716818|164872700|SUPERIORITY||Mean Difference (Final Values)|0.065|||=|0.9081|TWO_SIDED|95.0|-1.32|1.451|||ANCOVA|||||1.451|-1.32|=0.9081
82476902|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|30.8|||<|0.001|TWO_SIDED|95.0|20.54|41.05|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 44||41.05|20.54|<0.001
82476903|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|26.3|||<|0.001|TWO_SIDED|95.0|16.82|35.74|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 52||35.74|16.82|<0.001
82476904|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|27.0|||<|0.001|TWO_SIDED|95.0|16.63|37.44|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-CRP Week 52||37.44|16.63|<0.001
82476905|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in Proportions|0.0||||0.766|TWO_SIDED|95.0|-1.69|1.65|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Good Response: DAS28-ESR Week 24||1.65|-1.69|0.766
82476906|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in Proportions|8.2||||0.091|TWO_SIDED|95.0|2.32|14.1|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 28||14.10|2.32|0.091
82476907|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|6.5||||0.227|TWO_SIDED|95.0|1.28|11.75|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 28||11.75|1.28|0.227
82476908|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|9.9||||0.072|TWO_SIDED|95.0|3.27|16.6|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 36||16.60|3.27|0.072
82476909|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|8.8||||0.108|TWO_SIDED|95.0|2.43|15.2|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 36||15.20|2.43|0.108
82476910|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|11.7||||0.035|TWO_SIDED|95.0|4.69|18.72|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 44||18.72|4.69|0.035
82476911|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|10.6||||0.03|TWO_SIDED|95.0|4.2|17.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 44||17.06|4.20|0.030
82476912|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|11.1||||0.048|TWO_SIDED|95.0|4.15|18.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-ESR Week 52||18.06|4.15|0.048
82551312|NCT02618577|164806746|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.02|0.01|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|EQ-5D-5L UK Index||0.01|-0.02|
82551313|NCT02618577|164806746|SUPERIORITY||Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-1.46|1.38|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|EQ-5D-5L VAS, FU 24months||1.38|-1.46|
82551314|NCT02618577|164806746|SUPERIORITY||Mean Difference (Final Values)|0.27|||||TWO_SIDED|95.0|-0.56|1.09|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|Karnofsky score||1.09|-0.56|
82551315|NCT02618577|164806747|SUPERIORITY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-1.12|0.87|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|PACT-Q convenience||0.87|-1.12|
82476913|NCT01578850|164649384|SUPERIORITY_OR_OTHER||Difference in proportions|11.2||||0.016|TWO_SIDED|95.0|4.92|17.58|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Moderate Response: DAS28-CRP Week 52||17.58|4.92|0.016
82476914|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA Baseline||1.81|-0.59|0.358
82476915|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|3.4||||0.341|TWO_SIDED|95.0|-2.38|9.16|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 24||9.16|-2.38|0.341
82476916|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|18.3||||0.004|TWO_SIDED|95.0|8.4|28.27|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 28||28.27|8.40|0.004
82476917|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|24.1|||<|0.001|TWO_SIDED|95.0|13.88|34.4|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 36||34.40|13.88|<0.001
82551316|NCT02618577|164806747|SUPERIORITY||Mean Difference (Final Values)|-1.04|||||TWO_SIDED|95.0|-2.6|0.52|||||Estimation Parameter: baseline adjusted trial-group specific effect estimates (mean difference)|PACT-Q satisfaction||0.52|-2.60|
82580635|NCT02716818|164872700|SUPERIORITY||Median Difference (Final Values)|0.092|||=|0.6729|TWO_SIDED|95.0|-0.343|0.527|||ANCOVA|||||0.527|-0.343|=0.6729
82580636|NCT02716818|164872700|SUPERIORITY||Mean Difference (Final Values)|0.116|||=|0.5322|TWO_SIDED|95.0|-0.257|0.489|||ANCOVA|||||0.489|-0.257|=0.5322
82551317|NCT02618577|164806750|SUPERIORITY||adjusted cause-specific hazard ratio|0.51|||||TWO_SIDED|95.0|0.27|0.96||||||||0.96|0.27|
82551318|NCT02618577|164806751|SUPERIORITY||adjusted cause-specific hazard ratio|0.9|||||TWO_SIDED|95.0|0.62|1.31||||||||1.31|0.62|
82476918|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|27.1|||<|0.001|TWO_SIDED|95.0|16.85|37.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 44||37.35|16.85|<0.001
82551319|NCT05192109|164806752|OTHER||||||<|0.01||||||This is the p-value for the simple effect of condition.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
82551320|NCT05192109|164806752|OTHER|||||||0.93||||||This is the p-value for the simple effect of diagnostic group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||0.93
82551321|NCT05192109|164806752|OTHER||||||<|0.01||||||This is the p-value for the interaction between condition and group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
82551322|NCT05192109|164806753|OTHER||||||<|0.01||||||This is the p-value for the simple effect of condition.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
82551323|NCT05192109|164806753|OTHER|||||||0.22||||||This is the p-value for the simple effect of group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||0.22
82551324|NCT05192109|164806753|OTHER||||||<|0.01||||||This is the p-value for the interaction between condition and group.|Regression, Linear|||The primary statistical analysis involves asking whether children's preference to look at the target is significantly greater in one condition and/or group than the other. Mixed-effects regression analyses are used with the proportion-empirical-logit transformed-of target looking as the dependent measure, participant as random effect, and condition and group and their interaction as fixed effects.||||<0.01
82551325|NCT04164888|164806775|SUPERIORITY||Least Square Mean|-84.56|STANDARD_ERROR_OF_MEAN|7.137|<|0.0001|TWO_SIDED|95.0|-98.95|-70.18|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-70.18|-98.95|<0.0001
82551326|NCT04164888|164806775|SUPERIORITY||Least Square Mean|-80.43|STANDARD_ERROR_OF_MEAN|7.018|<|0.0001|TWO_SIDED|95.0|-94.58|-66.29|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-66.29|-94.58|<0.0001
82551327|NCT04164888|164806775|SUPERIORITY||Least Square Mean|-84.87|STANDARD_ERROR_OF_MEAN|7.009|<|0.0001|TWO_SIDED|95.0|-99.0|-70.75|||ANCOVA|ANCOVA with LOCF||Applying the LOCF method (Last Observation Carried Forward) did not result in any changes at Day 29 or Day 57 due to the lack of missing values and resulted in similar results at Day 85.||-70.75|-99.00|<0.0001
82551328|NCT04164888|164806776|SUPERIORITY||Least Square Mean|-48.03|STANDARD_ERROR_OF_MEAN|7.46|<|0.0001|TWO_SIDED|95.0|-63.06|-32.99|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||-32.99|-63.06|<0.0001
82551329|NCT04164888|164806776|SUPERIORITY||Least Square Mean|-49.59|STANDARD_ERROR_OF_MEAN|7.396|<|0.0001|TWO_SIDED|95.0|-64.5|34.69|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||34.69|-64.50|<0.0001
82551330|NCT04164888|164806776|SUPERIORITY||Least Square Mean|-51.99|STANDARD_ERROR_OF_MEAN|7.616|<|0.0001|TWO_SIDED|95.0|-67.34|-36.64|||ANCOVA|ANCOVA with LOCF||Similar changes from baseline were observed for Day 29, Day 57, and Day 85 compared to Day 29, Day 57, and Day 85 LOCF.||-36.64|-67.34|<0.0001
82551331|NCT04828005|164806781|NON_INFERIORITY|Alternative hypothesis: Nalmefene reversal not less than 80% naloxone reversal|||||<|0.0009|||||||Mixed Models Analysis|||||||<0.0009
82551332|NCT02696707|164806790|NON_INFERIORITY|The non-inferiority margin between groups was set as 4%|Difference|-0.6|||||TWO_SIDED|95.0|-2.5|1.2||||||||1.2|-2.5|
82551333|NCT05210608|164806854|SUPERIORITY||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|0.55||0.29|TWO_SIDED|95.0|-0.85|2.18||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||We analyzed whether significant changes occurred between baseline and the post-treatment assessment.||2.18|-.85|.29
82476919|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|24.0|||<|0.001|TWO_SIDED|95.0|13.61|34.42|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: LDA: Week 52||34.42|13.61|<0.001
82551334|NCT05210608|164806854|SUPERIORITY||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.45||0.48|TWO_SIDED|95.0|-3.45|5.79||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||We analyzed whether significant changes occurred between baseline and the 1 month follow up||5.79|-3.45|.48
82551335|NCT05210608|164806855|SUPERIORITY||Mean Difference (Final Values)|37.7|STANDARD_ERROR_OF_MEAN|14.8|=|0.015|TWO_SIDED|95.0|19.9|102.1||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||We analyzed whether there were significant differences in number of total cigarettes smoked per week from baseline to Post-treatment.||102.10|19.90|=0.015
82551336|NCT05210608|164806855|SUPERIORITY||Mean Difference (Final Values)|17.03|STANDARD_ERROR_OF_MEAN|24.69||0.08|TWO_SIDED|95.0|-14.57|142.57|||t-test, 2 sided|||We analyzed whether there were significant differences in number of total cigarettes smoked per week from baseline to 1 month follow-up.||142.57|-14.57|.08
82551337|NCT05210608|164806856|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|3.64||0.9|TWO_SIDED|95.0|-9.86|8.86|||t-test, 2 sided|||We analyzed whether there were significant differences in carbon monoxide ppm from baseline to Post-treatment.||8.86|-9.86|.90
82551338|NCT05210608|164806856|SUPERIORITY||Mean Difference (Final Values)|-12.3|STANDARD_ERROR_OF_MEAN|11.29||0.32|TWO_SIDED|95.0|-49.42|22.42|||t-test, 2 sided|||We analyzed whether there were significant difference in carbon monoxide ppm from baseline to the 1 month follow-up.||22.42|-49.42|.32
82551339|NCT05210608|164806857|SUPERIORITY||Mean Difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|4.36||0.18|TWO_SIDED|95.0|-5.1|19.1|||t-test, 2 sided|||We analyzed whether there were significant differences in working memory scores from baseline to post-treatment.||19.10|-5.10|.18
82551340|NCT05210608|164806857|SUPERIORITY||Mean Difference (Final Values)|-12.64|STANDARD_ERROR_OF_MEAN|5.14||0.18|TWO_SIDED|95.0|-25.38|7.38|||t-test, 2 sided|||We analyzed whether there were significant differences in working memory scores from baseline to the 1 month follow up.||7.38|-25.38|.18
82551341|NCT04963270|164806858|SUPERIORITY||Difference in Adjusted Mean|-1.02|STANDARD_DEVIATION|0.44||0.0196|TWO_SIDED|95.0|-1.88|-0.16|||ANCOVA and Conditional Mean Imputation|||||-0.16|-1.88|0.0196
82551342|NCT04963270|164806859|SUPERIORITY||Difference in Adjusted Mean|-1.02|STANDARD_ERROR_OF_MEAN|0.41||0.0123|TWO_SIDED|95.0|-1.82|-0.22|||ANCOVA and Conditional Mean Imputation|||||-0.22|-1.82|0.0123
82551343|NCT04963270|164806860|SUPERIORITY||Difference in Response Rate|-12.7||||0.088|TWO_SIDED|95.0|-27.3|1.9|||Cochran-Mantel-Haenszel|||Stratified Analysis||1.9|-27.3|0.088
82580637|NCT02716818|164872700|SUPERIORITY||Mean Difference (Final Values)|-0.568|||=|0.2885|TWO_SIDED|95.0|-1.799|0.662|||ANCOVA|||||0.662|-1.799|=0.2885
82580638|NCT02716818|164872701|SUPERIORITY||Odds Ratio (OR)|0.99|||=|0.9877|TWO_SIDED|95.0|0.45|2.19|||Regression, Logistic|||||2.19|0.45|=0.9877
82580639|NCT02716818|164872701|SUPERIORITY||Odds Ratio (OR)|0.93|||=|0.8498|TWO_SIDED|95.0|0.43|2.02|||Regression, Logistic|||||2.02|0.43|=0.8498
82580640|NCT02716818|164872702|SUPERIORITY||Mean Difference (Final Values)|-0.96|||=|0.156|TWO_SIDED|95.0|-2.294|0.374|||ANCOVA|||German subjects have been excluded from this analysis group as DEXA scans are not performed at German sites.||0.374|-2.294|=0.156
82551344|NCT04963270|164806861|SUPERIORITY||Difference in Response Rate|-10.5||||0.137|TWO_SIDED|95.0|-24.2|3.3|||Cochran-Mantel-Haenszel|||Stratified Analysis||3.3|-24.2|0.137
82551345|NCT04963270|164806862|SUPERIORITY||Difference in Adjusted Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.6||0.0062|TWO_SIDED|95.0|-2.8|-0.46|||ANCOVA and Conditional Mean Imputation|||||-0.46|-2.80|0.0062
82551346|NCT04963270|164806863|SUPERIORITY||Difference in adjusted Mean|-1.68|STANDARD_ERROR_OF_MEAN|0.57||0.0034|TWO_SIDED|95.0|-2.8|-0.56|||ANCOVA and Conditional Mean Imputation|||||-0.56|-2.80|0.0034
82551347|NCT04963270|164806864|SUPERIORITY||Difference in Adjusted Mean|-1.51|STANDARD_ERROR_OF_MEAN|0.94||0.1094|TWO_SIDED|95.0|-3.36|0.34|||ANCOVA and Conditional Mean Imputation|||||0.34|-3.36|0.1094
82580641|NCT02716818|164872702|SUPERIORITY||Median Difference (Final Values)|0.425|||=|0.3392|TWO_SIDED|95.0|-0.455|1.305|||ANCOVA|||German subjects have been excluded from this analysis group as DEXA scans are not performed at German sites.||1.305|-0.455|=0.3392
82580642|NCT02716818|164872703|SUPERIORITY||Median Difference (Final Values)|0.009|||=|0.2614|TWO_SIDED|95.0|-0.007|0.025|||ANCOVA|||||0.025|-0.007|=0.2614
82551348|NCT04963270|164806865|SUPERIORITY||Difference in Adjusted Mean|-1.39|STANDARD_ERROR_OF_MEAN|0.85||0.0999|TWO_SIDED|95.0|-3.05|0.27|||ANCOVA and Conditional Mean Imputation|||||0.27|-3.05|0.0999
82551349|NCT04963270|164806866|SUPERIORITY||Difference in Adjusted Mean|-2.2|STANDARD_ERROR_OF_MEAN|1.1||0.0456|TWO_SIDED|95.0|-4.36|-0.04|||ANCOVA and Conditional Mean Imputation|||||-0.04|-4.36|0.0456
82551350|NCT04963270|164806867|SUPERIORITY||Difference in Adjusted Mean|-2.11|STANDARD_ERROR_OF_MEAN|1.02||0.0382|TWO_SIDED|95.0|-4.1|-0.11|||ANCOVA and Conditional Mean Imputation|||||-0.11|-4.10|0.0382
82551351|NCT04963270|164806868|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-18.7||||0.013|TWO_SIDED|95.0|-33.5|-3.9|||Cochran-Mantel-Haenszel|||||-3.9|-33.5|0.013
82551352|NCT04963270|164806869|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-22.0||||0.002|TWO_SIDED|95.0|-36.2|-7.9|||Cochran-Mantel-Haenszel|||||-7.9|-36.2|0.002
82551353|NCT04963270|164806870|SUPERIORITY||Difference in Adjusted Mean|-2.99|STANDARD_ERROR_OF_MEAN|0.81||0.0002|TWO_SIDED|95.0|-4.57|-1.41|||ANCOVA and Conditional Mean Imputation|||||-1.41|-4.57|0.0002
82551354|NCT04963270|164806871|SUPERIORITY||Difference in Adjusted Mean|-3.0|STANDARD_ERROR_OF_MEAN|0.75|<|0.0001|TWO_SIDED|95.0|-4.47|-1.53|||ANCOVA and Conditional Mean Imputation|||||-1.53|-4.47|<0.0001
82551355|NCT04963270|164806872|SUPERIORITY||Difference in Response Rate|-21.0||||0.004|TWO_SIDED|95.0|-35.4|-6.6|||Cochran-Mantel-Haenszel|||||-6.6|-35.4|0.004
82551356|NCT04963270|164806873|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-19.4||||0.005|TWO_SIDED|95.0|-32.8|-5.9|||Cochran-Mantel-Haenszel|||||-5.9|-32.8|0.005
82551357|NCT04963270|164806874|SUPERIORITY||Difference in Response Rate|-1.7||||0.847|TWO_SIDED|95.0|-19.4|15.9|||Cochran-Mantel-Haenszel|||||15.9|-19.4|0.847
82551358|NCT04963270|164806875|SUPERIORITY|Stratified Analysis|Difference in Response Rate|-4.3||||0.441|TWO_SIDED|95.0|-15.4|6.7|||Cochran-Mantel-Haenszel|||||6.7|-15.4|0.441
82551359|NCT04963270|164806876|SUPERIORITY||Difference in Response Rate|8.5||||0.115|TWO_SIDED|95.0|-2.1|19.0|||Cochran-Mantel-Haenszel|||||19|-2.1|0.115
82551360|NCT04963270|164806877|SUPERIORITY|Stratified Analysis|Difference in Response Rate|8.8||||0.077|TWO_SIDED|95.0|-1.0|18.6|||Cochran-Mantel-Haenszel|||||18.6|-1|0.077
82551361|NCT04963270|164806878|SUPERIORITY||Risk Difference|-6.77||||0.1314|TWO_SIDED|95.0|-17.25|3.7|||Cochran-Mantel-Haenszel|||||3.70|-17.25|0.1314
82551362|NCT04963270|164806879|SUPERIORITY|Stratified Analysis|Risk Difference|-5.07||||0.2264|TWO_SIDED|95.0|-14.74|4.61|||Cochran-Mantel-Haenszel|||||4.61|-14.74|0.2264
82551363|NCT04963270|164806880|SUPERIORITY||Difference in Adjusted Mean|3.44|STANDARD_ERROR_OF_MEAN|1.45||0.0179|TWO_SIDED|95.0|0.59|6.29|||ANCOVA and Conditional Mean Imputation|||||6.29|0.59|0.0179
82551364|NCT04963270|164806881|SUPERIORITY|Stratified Analysis|Difference in Adjusted Mean|3.73|STANDARD_ERROR_OF_MEAN|1.37||0.0066|TWO_SIDED|95.0|1.04|6.42|||ANCOVA and Conditional Mean Imputation|||||6.42|1.04|0.0066
82551365|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.998|TWO_SIDED|95.0|-17.81|17.86|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||17.86|-17.81|0.998
82580643|NCT04187989|164872709|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.006|STANDARD_ERROR_OF_MEAN|0.239||0.98|TWO_SIDED|95.0|-0.478|0.466|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.466|-.478|.980
82580644|NCT04187989|164872710|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.265|STANDARD_ERROR_OF_MEAN|0.18||0.14|TWO_SIDED|95.0|-0.092|0.621||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.621|-.092|.140
82580645|NCT04187989|164872712|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.064|STANDARD_ERROR_OF_MEAN|0.181||0.724|TWO_SIDED|95.0|-0.294|0.421||Two-sided test of the null hypothesis of no difference between groups|t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.421|-.294|.724
82551366|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.445|TWO_SIDED|95.0|-24.73|10.93||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||10.93|-24.73|0.445
82551367|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|2.51||||0.781|TWO_SIDED|95.0|-15.33|20.36||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||20.36|-15.33|0.781
82551368|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-3.09||||0.732|TWO_SIDED|95.0|-20.93|14.75||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||14.75|-20.93|0.732
82551369|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.212|TWO_SIDED|95.0|-6.53|29.14||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 15 minutes post injection||29.14|-6.53|0.212
82551370|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-6.44||||0.476|TWO_SIDED|95.0|-24.27|11.39|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||11.39|-24.27|0.476
82551371|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.962|TWO_SIDED|95.0|-17.4|18.26|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 15 minutes post injection||18.26|-17.40|0.962
82551372|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.211|TWO_SIDED|95.0|-6.96|31.16|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||31.16|-6.96|0.211
82551373|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|2.67||||0.782|TWO_SIDED|95.0|-16.4|21.73|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||21.73|-16.40|0.782
82551374|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|14.72||||0.129|TWO_SIDED|95.0|-4.34|33.78|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||33.78|-4.34|0.129
82476920|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|2.3||||0.774|TWO_SIDED|95.0|-5.5|10.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 24||10.06|-5.50|0.774
82476921|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|0.4||||0.645|TWO_SIDED|95.0|-7.15|8.03|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 28||8.03|-7.15|0.645
82476922|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|8.4||||0.08|TWO_SIDED|95.0|0.36|16.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 36||16.35|0.36|0.080
82476923|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|9.6||||0.025|TWO_SIDED|95.0|1.49|17.68|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 44||17.68|1.49|0.025
82476924|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|9.0||||0.088|TWO_SIDED|95.0|1.02|16.88|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Remission: Week 52||16.88|1.02|0.088
82476925|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|0.6||||0.358|TWO_SIDED|95.0|-0.59|1.81|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Baseline||1.81|-0.59|0.358
82476926|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|3.3||||0.258|TWO_SIDED|95.0|-3.57|10.13|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 24||10.13|-3.57|0.258
82476927|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|17.7||||0.005|TWO_SIDED|95.0|7.49|27.92|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 28||27.92|7.49|0.005
82476928|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|27.2|||<|0.001|TWO_SIDED|95.0|16.93|37.55|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 36||37.55|16.93|<0.001
82551375|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|13.27||||0.171|TWO_SIDED|95.0|-5.8|32.35|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||32.35|-5.80|0.171
82476929|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|32.0|||<|0.001|TWO_SIDED|95.0|21.83|42.23|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 44||42.23|21.83|<0.001
82476930|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|28.3|||<|0.001|TWO_SIDED|95.0|18.0|38.69|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: LDA: Week 52||38.69|18.00|<0.001
82476931|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|3.0||||0.672|TWO_SIDED|95.0|-5.51|11.51|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 24||11.51|-5.51|0.672
82476932|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|0.0||||0.556|TWO_SIDED|95.0|-8.03|8.0|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 28||8.00|-8.03|0.556
82476933|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|10.3||||0.022|TWO_SIDED|95.0|2.07|18.45|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 36||18.45|2.07|0.022
82476934|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|9.0||||0.047|TWO_SIDED|95.0|0.85|17.25|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 44||17.25|0.85|0.047
82476935|NCT01578850|164649386|SUPERIORITY_OR_OTHER||Difference in proportions|12.1||||0.031|TWO_SIDED|95.0|3.7|20.57|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Remission: Week 52||20.57|3.70|0.031
82476936|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.049|TWO_SIDED|95.0|-4.19|-0.01|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 28||-0.01|-4.19|0.049
82476937|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.38||||0.005|TWO_SIDED|95.0|-5.72|-1.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 36||-1.05|-5.72|0.005
82551376|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|15.56||||0.108|TWO_SIDED|95.0|-3.49|34.62|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||34.62|-3.49|0.108
82551377|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|4.24||||0.661|TWO_SIDED|95.0|-14.83|23.3|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||23.30|-14.83|0.661
82551378|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|14.21||||0.142|TWO_SIDED|95.0|-4.85|33.27|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 30 minutes post injection||33.27|-4.85|0.142
82551379|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|11.98||||0.216|TWO_SIDED|95.0|-7.08|31.04|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||31.04|-7.08|0.216
82551380|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|7.38||||0.445|TWO_SIDED|95.0|-11.71|26.48|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||26.48|-11.71|0.445
82551381|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|16.13||||0.096|TWO_SIDED|95.0|-2.92|35.19|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||35.19|-2.92|0.096
82551382|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|11.89||||0.22|TWO_SIDED|95.0|-7.19|30.96|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||30.96|-7.19|0.220
82551383|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|12.71||||0.189|TWO_SIDED|95.0|-6.35|31.78|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||31.78|-6.35|0.189
82551384|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-2.67||||0.782|TWO_SIDED|95.0|-21.75|16.41|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||16.41|-21.75|0.782
82580646|NCT04187989|164872713|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.078|STANDARD_ERROR_OF_MEAN|0.175||0.656|TWO_SIDED|95.0|-0.425|0.269|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.269|-.425|.656
82580647|NCT04187989|164872714|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.339|STANDARD_ERROR_OF_MEAN|0.205||0.158|TWO_SIDED|95.0|-0.746|0.067||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|||0.067|-.746|.158
82551385|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|6.1||||0.528|TWO_SIDED|95.0|-12.98|25.18|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 60 minutes post injection||25.18|-12.98|0.528
82551386|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|2.34||||0.795|TWO_SIDED|95.0|-15.45|20.12|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||20.12|-15.45|0.795
82551387|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-6.13||||0.497|TWO_SIDED|95.0|-23.96|11.69|||mean difference|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||11.69|-23.96|0.497
82551388|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|7.44||||0.409|TWO_SIDED|95.0|-10.34|25.21|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.21|-10.34|0.409
82551389|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|7.89||||0.382|TWO_SIDED|95.0|-9.92|25.7|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.70|-9.92|0.382
82551390|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|7.74||||0.39|TWO_SIDED|95.0|-10.05|25.54|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||25.54|-10.05|0.390
82551391|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-3.72||||0.68|TWO_SIDED|95.0|-21.54|14.1|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||14.10|-21.54|0.680
82551392|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.927|TWO_SIDED|95.0|-16.99|18.65|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 90 minutes post injection||18.65|-16.99|0.927
82551393|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|6.02||||0.508|TWO_SIDED|95.0|-11.95|23.98||The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.|Mixed Model Repeated Measures.|||Outcome Measure at 120 minutes post injection||23.98|-11.95|0.508
82551394|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-3.65||||0.688|TWO_SIDED|95.0|-21.66|14.35|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||14.35|-21.66|0.688
82580648|NCT04187989|164872715|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.143|STANDARD_ERROR_OF_MEAN|0.178||0.422|TWO_SIDED|95.0|-0.21|0.495|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.495|-.210|.422
82551395|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|16.08||||0.079|TWO_SIDED|95.0|-1.88|34.03|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||34.03|-1.88|0.079
82551396|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.323|TWO_SIDED|95.0|-8.96|26.96|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||26.96|-8.96|0.323
82551397|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|11.23||||0.183|TWO_SIDED|95.0|-5.39|27.85|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||27.85|-5.39|0.183
82551398|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|-2.61||||0.756|TWO_SIDED|95.0|-19.24|14.02|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||14.02|-19.24|0.756
82551399|NCT04802967|164806895|SUPERIORITY||Mean Difference (Final Values)|3.96||||0.638|TWO_SIDED|95.0|-12.68|20.59|||Mixed Model Repeated Measures.|The p value was determined using MMRM model, based on treatment, timepoint, baseline value as covariable and subject as a random effect.||Outcome Measure at 120 minutes post injection||20.59|-12.68|0.638
82580649|NCT04187989|164872716|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.027|STANDARD_ERROR_OF_MEAN|0.179||0.882|TWO_SIDED|95.0|-0.328|0.381|||t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs||.381|-.328|.882
82551400|NCT01389856|164806986|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
82551401|NCT01389856|164806987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3407|TWO_SIDED||||||Log Rank|||||||0.3407
82551402|NCT01389856|164806988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2399|TWO_SIDED||||||Log Rank|||||||0.2399
82551403|NCT01389856|164806990|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82551404|NCT01389856|164806991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2235|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.2235
82551405|NCT01389856|164806992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1468|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1468
82551406|NCT01389856|164806993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0789|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0789
82551407|NCT01389856|164806994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3723|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3723
82551408|NCT01389856|164806995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0569|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0569
82551409|NCT01389856|164806996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1015|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1015
82551410|NCT01389856|164806997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0824|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.0824
82551411|NCT01389856|164806998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3863|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3863
82551412|NCT01389856|164806999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3936|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.3936
82551413|NCT01389856|164807000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2436|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.2436
82551414|NCT01389856|164807001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1756|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1756
82551415|NCT01389856|164807002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1155|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1155
82551416|NCT01389856|164807003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14|TWO_SIDED||||||Non-parametric ANCOVA|||||||0.1400
82551417|NCT02547233|164807034|SUPERIORITY||Ratio of clearance rates|30.55|||<|0.001|TWO_SIDED|95.0|4.28|218.0|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|||218.0|4.28|<0.001
82551418|NCT02547233|164807035|SUPERIORITY||Ratio of clearance rates|12.26|||<|0.001|TWO_SIDED|95.0|4.73|31.78|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||31.78|4.73|<0.001
82551419|NCT02547233|164807036|SUPERIORITY||Ratio of clearance rates|10.31|||<|0.001|TWO_SIDED|95.0|4.43|23.97|||Mantel Haenszel||Mantel-Haenszel estimate (0.018% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||23.97|4.43|<0.001
82551420|NCT02547233|164807037|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.37||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.018% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.37|0.25|<0.001
82551421|NCT06019559|164807038|SUPERIORITY|||||||0.0756||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|MMRM model with gender, treatment, visit and treatment-by-visit interaction as fixed effect, and baseline body weight as a covariate.||||||0.0756
82551422|NCT06019559|164807038|SUPERIORITY|||||||0.0008||||||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|(MMRM) model with gender, treatment, visit and treatment-by-visit interaction as fixed effect, and baseline body weight as a covariate.||For the primary endpoint of percentage change from baseline in body weight, a sample size of 150 participants (stratified by gender and randomized 1:1:1 into three treatment arms) provided \>95% power to detect a treatment difference of 4% weight reduction after 13 weeks of treatment with a 2-sided alpha of 0.05, assuming a standard deviation of 4% and 20% drop out.||||0.0008
82580650|NCT04187989|164872717|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.197|STANDARD_ERROR_OF_MEAN|0.268||0.497|TWO_SIDED|95.0|-0.728|0.334||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.334|-.728|.497
82580651|NCT04187989|164872718|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.042|STANDARD_ERROR_OF_MEAN|0.18||0.813|TWO_SIDED|95.0|-0.398|0.313||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.313|-.398|.813
82580652|NCT04187989|164872719|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.034|STANDARD_ERROR_OF_MEAN|0.176||0.849|TWO_SIDED|95.0|-0.381|0.314||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.314|-.381|.849
82586037|NCT00529958|164884012|EQUIVALENCE|The sample size calculation was based on 88 ACL-deficient patients with surgical intervention and an ACL-QOL score of 74.5 (SD=20.1) at a mean 39-month follow-up, a minimal clinically important difference of 10 points, power=0.80 and p=0.05.|||||<|0.05||||||A Bonferroni adjustment for multiple comparisons was used in the sample size calculation, resulting in 90 patients per group. With a 20% lost-to-follow-up rate, the final sample size was 108 patients per group for a total of 324 patients.|Mixed Models Analysis|||"All patients were analyzed on an intention-to-treat basis using a 5% significance level for all analyses. The ACL-QOL scores for each study group were analyzed using adjusted Bonferroni comparisons and repeated-measures analyses, using a mixed-model analysis of variance for treatment group over time of assessment."||||<0.05
82551423|NCT06019559|164807039|SUPERIORITY|||||||0.8366||||||The threshold for significance was p = 0.05.|Regression, Logistic|||||||0.8366
82551424|NCT06019559|164807039|SUPERIORITY|||||||0.1848||||||The threshold for significance was p = 0.05.|Regression, Logistic|||||||0.1848
82551425|NCT06019559|164807040|SUPERIORITY|||||||0.0616||||||The threshold for significance was p = 0.05.|Mixed Models Analysis|||||||0.0616
82551426|NCT06019559|164807040|SUPERIORITY|||||||0.0004||||||The threshold for significance was p = 0.05.|Mixed Models Analysis|||||||0.0004
82551427|NCT03344094|164807090|OTHER|changes in subsets paired and unpaired t-tests, ANOVA||||||0.05|||||||ANOVA|||||||0.05
82551428|NCT03435614|164807134|OTHER||||||||||||||||||We selected the individual signs and symptoms associated with the presence of OIWS based on a difference of greater than 15 % in the assessments between the group with OIWS and the group not displaying OIWS. This 15 % difference was judged to be of clinical significance. The signs and symptoms which did not meet this difference were not considered (data not available).|||
82476938|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|||<|0.001|TWO_SIDED|95.0|-6.37|-1.67|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 44||-1.67|-6.37|<0.001
82476939|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|||<|0.001|TWO_SIDED|95.0|-6.36|-1.68|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CDAI: Week 52||-1.68|-6.36|<0.001
82551429|NCT04568603|164807136|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the 90% CI for the geometric mean ratio (GMR) of methadone+ ISL to methadone alone is contained within the interval (0.70, 1.43).|GMR|1.03|||||TWO_SIDED|90.0|1.0|1.07||||||||1.07|1.00|
82551430|NCT04568603|164807137|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.03|||||TWO_SIDED|90.0|0.99|1.07||||||||1.07|0.99|
82551431|NCT04568603|164807138|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to the methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 1.43.|GMR|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||||1.09|0.96|
82551432|NCT04568603|164807139|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.06|||||TWO_SIDED|90.0|1.03|1.1||||||||1.10|1.03|
82551433|NCT04568603|164807141|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.01|||||TWO_SIDED|90.0|0.94|1.09||||||||1.09|0.94|
82551434|NCT04568603|164807142|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.08|||||TWO_SIDED|90.0|1.04|1.13||||||||1.13|1.04|
82551435|NCT04568603|164807144|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.03|||||TWO_SIDED|90.0|0.99|1.07||||||||1.07|0.99|
82551436|NCT04568603|164807145|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.01|||||TWO_SIDED|90.0|0.95|1.08||||||||1.08|0.95|
82586038|NCT04947527|164884032|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.279|TWO_SIDED|95.0|-4.2|1.2|||t-test, 2 sided|||||1.2|-4.2|0.279
82586039|NCT04947527|164884033|SUPERIORITY||Difference in percentages/proportions|-14.4||||0.023|TWO_SIDED|95.0|-26.7|-2.1|||Chi-squared|||||-2.1|-26.7|0.023
82476940|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.22||||0.047|TWO_SIDED|95.0|-4.4|-0.03|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 28||-0.03|-4.40|0.047
82551437|NCT04568603|164807146|EQUIVALENCE|The hypothesis that administration of methadone + ISL is similar to methadone alone will be supported if the upper bound of the 90% CI for the GMR of methadone+ ISL to methadone alone is below 2.0.|GMR|1.07|||||TWO_SIDED|90.0|1.03|1.11||||||||1.11|1.03|
82551438|NCT05448105|164807171|SUPERIORITY|||||||0.02|||||||Wilcoxon signed rank test|"Wilcoxon signed rank test comparing the participants' SUS scores to the threshold value of 71 indicative of good usability."||||||0.02
82551439|NCT05448105|164807174|OTHER|||||||0.04|||||||paired Wilcoxon signed-rank sum test|||||||0.04
82551440|NCT05448105|164807175|OTHER||||||<|0.01||||||This is calculated p-value. The threshold for significance was less than 0.05.|paired Wilcoxon signed-rank sum test|||||||<0.01
82551441|NCT05448105|164807176|OTHER|||||||0.16|||||||paired Wilcoxon signed-rank sum test|||||||0.16
82551442|NCT05448105|164807177|OTHER|||||||0.69|||||||paired Wilcoxon signed-rank sum test|||||||0.69
82551443|NCT05448105|164807178|OTHER|||||||0.9|||||||paired Wilcoxon signed-rank sum test|||||||0.90
82551444|NCT05448105|164807179|OTHER|||||||0.11|||||||paired Wilcoxon signed-rank sum test|||||||0.11
82551445|NCT05448105|164807180|OTHER|||||||0.22|||||||paired Wilcoxon signed-rank sum test|||||||0.22
82551446|NCT05448105|164807181|OTHER|||||||1||||||This is the calculated p-value.|McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||1.00
82551447|NCT05448105|164807181|OTHER|||||||0.55|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||0.55
82551448|NCT05448105|164807181|OTHER|||||||0.11|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.11
82551449|NCT05448105|164807181|OTHER|||||||0.63|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.63
82551450|NCT05448105|164807181|OTHER|||||||0.12|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.12
82551451|NCT05448105|164807181|OTHER|||||||0.33|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.33
82551452|NCT05448105|164807181|OTHER|||||||0.23|||||||McNemar|||Analysis of pre-post change in knowledge of definition of urine microalbumin||||0.23
82551453|NCT05448105|164807181|OTHER|||||||0.58|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for urine microalbumin||||0.58
82551454|NCT05448105|164807181|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of body mass index (BMI)||||1.00
82551455|NCT05448105|164807181|OTHER|||||||0.27|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for body mass index (BMI)||||0.27
82551456|NCT05270408|164807183|SUPERIORITY||Cohen's d|0.93||||0.25|TWO_SIDED||||||ANCOVA|||RAVLT Total Learning||||0.25
82551457|NCT05270408|164807183|SUPERIORITY||Cohen's d|0.69||||0.18|TWO_SIDED||||||ANCOVA|||RAVLT Total Learning||||0.18
82551458|NCT05270408|164807183|SUPERIORITY||Cohen's d|0.74||||0.48|TWO_SIDED||||||ANCOVA|||RAVLT Delayed||||0.48
82586040|NCT04947527|164884034|SUPERIORITY||Risk Difference (RD)|-0.09||||0.133|TWO_SIDED||||||Fisher Exact|||||||0.133
82476941|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54||||0.004|TWO_SIDED|95.0|-5.97|-1.12|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 36||-1.12|-5.97|0.004
82476942|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.33|||<|0.001|TWO_SIDED|95.0|-6.78|-1.88|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 44||-1.88|-6.78|<0.001
82476943|NCT01578850|164649388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.27|||<|0.001|TWO_SIDED|95.0|-6.7|-1.84|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||SDAI: Week 52||-1.84|-6.70|<0.001
82476944|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|-0.2||||0.742|TWO_SIDED|95.0|-4.21|3.9|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 24||3.90|-4.21|0.742
82476945|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|9.8||||0.143|TWO_SIDED|95.0|2.45|17.06|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 28||17.06|2.45|0.143
82476946|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|11.4||||0.111|TWO_SIDED|95.0|3.31|19.51|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 36||19.51|3.31|0.111
82476947|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|10.1||||0.175|TWO_SIDED|95.0|1.8|18.49|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 44||18.49|1.80|0.175
82476948|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|10.8||||0.088|TWO_SIDED|95.0|2.49|19.05|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 20: Week 52||19.05|2.49|0.088
82551459|NCT05270408|164807183|SUPERIORITY||Cohen's d|0.19||||0.64|TWO_SIDED||||||ANCOVA|||RAVLT Delayed||||0.64
82476949|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|2.5||||0.584|TWO_SIDED|95.0|-4.78|9.75|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 24||9.75|-4.78|0.584
82476950|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|11.5||||0.226|TWO_SIDED|95.0|1.59|21.34|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 28||21.34|1.59|0.226
82476951|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|17.2||||0.012|TWO_SIDED|95.0|6.76|27.56|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 36||27.56|6.76|0.012
82476952|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|19.0||||0.006|TWO_SIDED|95.0|8.59|29.35|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 44||29.35|8.59|0.006
82476953|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in Proportions|17.7||||0.014|TWO_SIDED|95.0|7.3|28.16|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 50: Week 52||28.16|7.30|0.014
82476954|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in Proportions|-2.7||||0.702|TWO_SIDED|95.0|-13.49|8.11|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 24||8.11|-13.49|0.702
82476955|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|7.1||||0.378|TWO_SIDED|95.0|-3.37|17.5|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 28||17.50|-3.37|0.378
82476956|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|17.3||||0.004|TWO_SIDED|95.0|7.12|27.56|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 36||27.56|7.12|0.004
82476957|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|18.5||||0.001|TWO_SIDED|95.0|8.4|28.55|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 44||28.55|8.40|0.001
82476958|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|16.0||||0.005|TWO_SIDED|95.0|5.96|26.02|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 70: Week 52||26.02|5.96|0.005
82476959|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|-0.3||||0.921|TWO_SIDED|95.0|-6.19|5.67|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 24||5.67|-6.19|0.921
82551460|NCT05270408|164807184|SUPERIORITY||Cohen's d|0.03||||0.98|TWO_SIDED||||||ANCOVA|||BVMT total learning||||0.98
82551461|NCT05270408|164807184|SUPERIORITY||Cohen's d|0.86||||0.22|TWO_SIDED||||||ANCOVA|||BVMT total learning||||0.22
82551462|NCT05270408|164807184|SUPERIORITY||Cohen's d|0.04||||0.97|TWO_SIDED||||||ANCOVA|||BVMT delayed||||0.97
82551463|NCT05270408|164807184|SUPERIORITY||Cohen's d|0.69||||0.23|TWO_SIDED||||||ANCOVA|||BVMT delayed||||0.23
82551464|NCT05270408|164807185|SUPERIORITY||Cohen's d|0.04||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
82551465|NCT05270408|164807185|SUPERIORITY||Cohen's d|0.42||||0.47|TWO_SIDED||||||ANCOVA|||||||0.47
82551466|NCT05270408|164807186|SUPERIORITY||Cohen's d|1.49||||0.06|TWO_SIDED||||||ANCOVA|||||||0.06
82551467|NCT05270408|164807186|SUPERIORITY||Cohen's d|1.08||||0.07|TWO_SIDED||||||ANCOVA|||||||0.07
82551468|NCT05270408|164807187|SUPERIORITY||Cohen's d|0.19||||0.61|TWO_SIDED||||||ANCOVA|||||||0.61
82551469|NCT05270408|164807187|SUPERIORITY||Cohen's d|0.68||||0.38|TWO_SIDED||||||ANCOVA|||||||0.38
82551470|NCT05270408|164807189|SUPERIORITY||Cohen's d|0.96||||0.11|TWO_SIDED||||||ANCOVA|||||||0.11
82551471|NCT05270408|164807189|SUPERIORITY|||||||0.68|||||||ANCOVA||||Eta2 effect sizes produced from the pairwise comparisons were transformed to Cohen's d for examination of effect sizes. A small/weak effect size was demonstrated (Cohen's d = 0.10), when adjusting for baseline performance.|||0.68
82551472|NCT03468868|164807263|NON_INFERIORITY|We chose a non-inferiority margin of 10% (or 0.10 feet per second) for this population.|Mean Difference (Final Values)|0.15|STANDARD_DEVIATION|1.1|<|0.01|TWO_SIDED|95.0|-0.14|0.44|||t-test, 2 sided|||||0.44|-0.14|<0.01
82551473|NCT03468868|164807264|SUPERIORITY||Mean Difference (Final Values)|72.46|STANDARD_DEVIATION|384.1||0.16|TWO_SIDED|95.0|-29.56|174.5|||t-test, 2 sided|||||174.5|-29.56|0.16
82551474|NCT03468868|164807265|SUPERIORITY||Mean Difference (Final Values)|-4.71|STANDARD_DEVIATION|24.96||0.13|TWO_SIDED|95.0|-10.84|1.41|||t-test, 2 sided|||||1.41|-10.84|0.13
82586041|NCT03534284|164884035|SUPERIORITY|||||||0.6761||||||0.05 threshold for significance; no adjustment for multiple comparisons|Mixed Models Analysis|||Null hypothesis: average CBT-I=Trazodone=Placebo at week 7||||0.6761
82586042|NCT03534284|164884036|SUPERIORITY|||||||0.8375|||||||Mixed Models Analysis|||Null hypothesis: average CBT-I=Trazodone=Placebo at week 25||||0.8375
82586043|NCT03316300|164884059|SUPERIORITY||Mean Difference (Final Values)|-0.091|STANDARD_ERROR_OF_MEAN|0.0176|<|0.0001|TWO_SIDED|95.0|-0.13|-0.06|||Mixed Models Analysis|||||-0.06|-0.13|<0.0001
82551475|NCT03468868|164807266|SUPERIORITY||Mean Difference (Final Values)|0.88|STANDARD_DEVIATION|18.22||0.7|TWO_SIDED|95.0|-3.55|5.32|||t-test, 2 sided|||||5.32|-3.55|0.70
82551476|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|6.71||0.43|TWO_SIDED|95.0|-0.97|2.3|||t-test, 2 sided|||NeuroQOL Anxiety Domain||2.30|-0.97|0.43
82551477|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|6.16||0.75|TWO_SIDED|95.0|-1.26|1.74|||t-test, 2 sided|||NeuroQOL Depression Domain||1.74|-1.26|0.75
82551478|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_DEVIATION|7.54||0.35|TWO_SIDED|95.0|-2.71|0.97|||t-test, 2 sided|||NeuroQOL Fatigue Domain||0.97|-2.71|0.35
82551479|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_DEVIATION|3.83||0.91|TWO_SIDED|95.0|-0.88|0.99|||t-test, 2 sided|||NeuroQOL Upper Extremity Function Domain||0.99|-0.88|0.91
82551480|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|1.52|STANDARD_DEVIATION|5.44||0.02|TWO_SIDED|95.0|0.2|2.85|||t-test, 2 sided|||NeuroQOL Lower Extremity Function Domain||2.85|0.20|0.02
82551481|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|-0.89||||0.29|TWO_SIDED|95.0|-2.54|0.76|||t-test, 2 sided|||NeuroQOL Cognitive Function Domain||0.76|-2.54|0.29
82551482|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|1.08||||0.11|TWO_SIDED|95.0|-0.26|2.42|||t-test, 2 sided|||NeuroQOL Emotional and Behavioral Dyscontrol Domain||2.42|-0.26|0.11
82551483|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_DEVIATION|7.13||0.54|TWO_SIDED|95.0|-1.19|2.28|||t-test, 2 sided|||NeuroQOL Positive Affect and Well-Being Domain||2.28|-1.19|0.54
82551484|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_DEVIATION|5.76||0.41|TWO_SIDED|95.0|-2.0|0.81|||t-test, 2 sided|||NeuroQOL Sleep Disturbance Domain||0.81|-2.00|0.41
82551485|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|6.65||0.63|TWO_SIDED|95.0|-1.22|2.02|||t-test, 2 sided|||NeuroQOL Ability to Participate in Social Roles and Activities Domain||2.02|-1.22|0.63
82551486|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|7.44||0.48|TWO_SIDED|95.0|-1.16|2.47|||t-test, 2 sided|||NeuroQOL Satisfaction with Social Roles and Activities Domain||2.47|-1.16|0.48
82551487|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_DEVIATION|5.68||0.92|TWO_SIDED|95.0|-1.32|1.45|||t-test, 2 sided|||NeuroQOL Stigma Domain||1.45|-1.32|0.92
82551488|NCT03468868|164807267|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_DEVIATION|3.45||0.28|TWO_SIDED|95.0|-1.31|0.37|||t-test, 2 sided|||NeuroQOL Communication Domain||0.37|-1.31|0.28
82551489|NCT03468868|164807268|SUPERIORITY||Mean Difference (Final Values)|-2.48|STANDARD_DEVIATION|20.63||0.34|TWO_SIDED|95.0|-7.55|2.6|||t-test, 2 sided|||MSIS Physical||2.60|-7.55|0.34
82551490|NCT03468868|164807268|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_DEVIATION|21.37||0.24|TWO_SIDED|95.0|-6.63|3.88|||t-test, 2 sided|||MSIS Psychological||3.88|-6.63|0.24
82551491|NCT03468868|164807269|SUPERIORITY||Mean Difference (Final Values)|0.37|STANDARD_DEVIATION|8.91||0.74|TWO_SIDED|95.0|-1.83|2.56|||t-test, 2 sided|||MFIS Cognitive||2.56|-1.83|0.74
82551492|NCT03468868|164807269|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|8.03||0.04|TWO_SIDED|95.0|-4.07|-0.12|||t-test, 2 sided|||MFIS Physical||-0.12|-4.07|0.04
82551493|NCT03468868|164807269|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_DEVIATION|2.17||0.59|TWO_SIDED|95.0|-0.68|0.39|||t-test, 2 sided|||MFIS Psychosocial||0.39|-0.68|0.59
82551494|NCT03468868|164807269|SUPERIORITY||Mean Difference (Final Values)|-1.88|STANDARD_DEVIATION|17.0||0.38|TWO_SIDED|95.0|-6.05|2.3|||t-test, 2 sided|||MFIS Total||2.30|-6.05|0.38
82551495|NCT03468868|164807270|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_DEVIATION|1.18||0.87|TWO_SIDED|95.0|-0.34|0.29|||t-test, 2 sided|||||0.29|-0.34|0.87
82551496|NCT03468868|164807271|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_DEVIATION|2.21||0.05|TWO_SIDED|95.0|-1.08|0.0|||t-test, 2 sided|||||0.00|-1.08|0.05
82551497|NCT05399459|164807272|SUPERIORITY||Adjusted percentage difference|19.4|||<|0.0001|TWO_SIDED|95.0|12.0|26.8|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg - placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||26.8|12.0|<0.0001
82476960|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|3.3||||0.41|TWO_SIDED|95.0|-2.19|8.86|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 28||8.86|-2.19|0.410
82476961|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|6.4||||0.073|TWO_SIDED|95.0|0.41|12.48|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 36||12.48|0.41|0.073
82476962|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|4.6||||0.219|TWO_SIDED|95.0|-0.97|10.08|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 44||10.08|-0.97|0.219
82476963|NCT01578850|164649390|SUPERIORITY_OR_OTHER||Difference in proportions|5.9||||0.196|TWO_SIDED|95.0|-0.6|12.4|||Cochran-Mantel-Haenszel|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ACR 90: Week 52||12.40|-0.60|0.196
82476964|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.062|TWO_SIDED|95.0|-1.84|0.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 28||0.05|-1.84|0.062
82476965|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.015|TWO_SIDED|95.0|-2.41|-0.27|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 36||-0.27|-2.41|0.015
82476966|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65||||0.003|TWO_SIDED|95.0|-2.72|-0.57|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 44||-0.57|-2.72|0.003
82476967|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.002|TWO_SIDED|95.0|-2.85|-0.66|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Tender Joint Count: Week 52||-0.66|-2.85|0.002
82476968|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.68|TWO_SIDED|95.0|-0.77|0.5|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 28||0.50|-0.77|0.680
82476969|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.437|TWO_SIDED|95.0|-1.04|0.45|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 36||0.45|-1.04|0.437
82476970|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.131|TWO_SIDED|95.0|-1.31|0.17|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 44||0.17|-1.31|0.131
82476971|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.199|TWO_SIDED|95.0|-1.22|0.25|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||28 Swollen Joint Count: Week 52||0.25|-1.22|0.199
82476972|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.115|TWO_SIDED|95.0|-2.6|0.28|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 28||0.28|-2.60|0.115
82476973|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88||||0.017|TWO_SIDED|95.0|-3.42|-0.35|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 36||-0.35|-3.42|0.017
82476974|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34||||0.004|TWO_SIDED|95.0|-3.91|-0.76|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 44||-0.76|-3.91|0.004
82476975|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.58||||0.002|TWO_SIDED|95.0|-4.19|-0.97|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Tender Joint Count: Week 52||-0.97|-4.19|0.002
82476976|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.368|TWO_SIDED|95.0|-1.13|0.42|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 28||0.42|-1.13|0.368
82476977|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.208|TWO_SIDED|95.0|-1.46|0.32|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 36||0.32|-1.46|0.208
82476978|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84||||0.064|TWO_SIDED|95.0|-1.73|0.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 44||0.05|-1.73|0.064
82551498|NCT05399459|164807273|SUPERIORITY||Adjusted percentage difference|22.7|||<|0.0001|TWO_SIDED|95.0|14.5|30.9|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg - placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||30.9|14.5|<0.0001
82551499|NCT05399459|164807274|SUPERIORITY||Adjusted percentage difference|14.8||||0.0011|TWO_SIDED|95.0|5.9|23.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||23.6|5.9|0.0011
82551500|NCT05399459|164807275|SUPERIORITY||Adjusted percentage difference|18.8|||<|0.0001|TWO_SIDED|95.0|10.1|27.4|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||27.4|10.1|<0.0001
82476979|NCT01578850|164649392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.081|TWO_SIDED|95.0|-1.66|0.1|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||68 Swollen Joint Count: Week 52||0.10|-1.66|0.081
82476980|NCT01578850|164649394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.005|TWO_SIDED|95.0|-0.9|-0.16|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-0.16|-0.90|0.005
82476981|NCT01578850|164649394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.001|TWO_SIDED|95.0|-1.18|-0.38|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-0.38|-1.18|<0.001
82476982|NCT01578850|164649394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94|||<|0.001|TWO_SIDED|95.0|-1.35|-0.54|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-0.54|-1.35|<0.001
82476983|NCT01578850|164649394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.001|TWO_SIDED|95.0|-1.33|-0.53|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-0.53|-1.33|<0.001
82476984|NCT01578850|164649396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.048|TWO_SIDED|95.0|-1.0|-0.01|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-0.01|-1.00|0.048
82551501|NCT05399459|164807276|SUPERIORITY||Adjusted percentage difference|31.7|||<|0.0001|TWO_SIDED|95.0|23.2|40.3|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||40.3|23.2|<0.0001
82551502|NCT05399459|164807277|SUPERIORITY||Adjusted percentage difference|-19.7|||<|0.0001|TWO_SIDED|95.0|-27.8|-11.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||-11.6|-27.8|<0.0001
82586044|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.61|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 1 H0: There is no change in mean force between baseline and day 1 HA: There is change in mean force between baseline and day 1||||0.61
82551503|NCT05399459|164807278|SUPERIORITY||Adjusted percentage difference|33.1|||<|0.0001|TWO_SIDED|95.0|24.7|41.6|||Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||41.6|24.7|<0.0001
82551504|NCT05399459|164807279|SUPERIORITY||Adjusted percentage difference|10.1||||0.0707|TWO_SIDED|95.0|-0.9|21.1||P-value \> 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Mantel Haenszel||Adjusted percentage difference (rimegepant 75 mg- placebo) stratified by randomization stratum with Mantel-Haenszel weighting.|||21.1|-0.9|0.0707
82476985|NCT01578850|164649396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|||<|0.001|TWO_SIDED|95.0|-1.44|-0.43|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-0.43|-1.44|<0.001
82476986|NCT01578850|164649396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.001|TWO_SIDED|95.0|-1.33|-0.33|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-0.33|-1.33|0.001
82476987|NCT01578850|164649396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.002|TWO_SIDED|95.0|-1.33|-0.31|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-0.31|-1.33|0.002
82476988|NCT01578850|164649398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.11||||0.033|TWO_SIDED|95.0|-27.07|-1.16|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 28||-1.16|-27.07|0.033
82476989|NCT01578850|164649398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.04||||0.013|TWO_SIDED|95.0|-30.39|-3.68|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 36||-3.68|-30.39|0.013
82476990|NCT01578850|164649398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.54||||0.019|TWO_SIDED|95.0|-30.35|-2.73|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 44||-2.73|-30.35|0.019
82551505|NCT05201079|164807302|SUPERIORITY||Odds Ratio (OR)|2.395||||0.228|TWO_SIDED|97.79|0.54|10.624||Alpha: 0.0221|Regression, Logistic||Numerator: fidaxomicin; denominator: MBK-01|||10.624|0.540|0.228
82551506|NCT05201079|164807308|SUPERIORITY|||||||||||||||||Alpha value used: 0.0221|Statistical analysis using Odds Ratio cannot be performed because there are zero patients with bad progress in MBK-01 group.|||
82551507|NCT05201079|164807309|SUPERIORITY||Score (logrank) test|1.25||||0.3|TWO_SIDED|||||Alpha: 0.0221|Regression, Cox|Degrees of freedom: 1||||||0.300
82551508|NCT05201079|164807311|SUPERIORITY||Score (logrank) test|0.02||||0.9|TWO_SIDED|||||Alpha: 0.0221|Regression, Cox|Degrees of freedom: 1||||||0.900
82551509|NCT05201079|164807322|SUPERIORITY|||||||0.749||||||Main effect of the Group for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 0.104.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.749
82551510|NCT05201079|164807322|SUPERIORITY|||||||0.62||||||Main effect of the Visit for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 0.249.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.620
82551511|NCT05201079|164807322|SUPERIORITY|||||||0.16||||||Main effect of the Group x Visit interaction for the Physical Function area of the SF-36 questionnaire. F statistic (1,56) = 2.024.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.160
82586045|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.787|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 2 H0: There is no change in mean force between baseline and day 2 HA: There is change in mean force between baseline and day 2||||0.787
82551512|NCT05201079|164807322|SUPERIORITY|||||||0.614||||||Main effect of the Group for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 0.257.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.614
82551513|NCT05201079|164807322|SUPERIORITY|||||||0.007||||||Main effect of the Visit for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 7.705. Effect size = 0.046.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.007
82551514|NCT05201079|164807322|SUPERIORITY|||||||0.718||||||Main effect of the Group x Visit interaction for the Bodily pain area of the SF-36 questionnaire. F statistic (1,56) = 0.132.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.718
82551515|NCT05201079|164807322|SUPERIORITY|||||||0.494||||||Main effect of the Group for the General Health area of the SF-36 questionnaire. F statistic (1,56) = 0.474.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.494
82551516|NCT05201079|164807322|SUPERIORITY|||||||0.339||||||Main effect of the Visit for the General Health area of the SF-36 questionnaire. F statistic (1,56) = 0.932.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.339
82551517|NCT05201079|164807322|SUPERIORITY|||||||0.38||||||Main effect of the Group x Visit interaction for the General health area of the SF-36 questionnaire. F statistic (1,56) = 0.783.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.380
82551518|NCT05201079|164807322|SUPERIORITY|||||||0.79||||||Main effect of the Group for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 0.072|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.790
82551519|NCT05201079|164807322|SUPERIORITY|||||||0.498||||||Main effect of the Visit for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 0.465.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.498
82551520|NCT05201079|164807322|SUPERIORITY|||||||0.023||||||Main effect of the Group x Visit interaction for the Vitality area of the SF-36 questionnaire. F statistic (1,56) = 5.490.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.023
82551521|NCT05201079|164807322|SUPERIORITY|||||||0.553||||||Main effect of the Group for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.356.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.553
82551522|NCT05201079|164807322|SUPERIORITY|||||||0.718||||||Main effect of the Visit for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.132.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.718
82551523|NCT05201079|164807322|SUPERIORITY|||||||0.574||||||Main effect of the Group x Visit interaction for the Social role area of the SF-36 questionnaire. F statistic (1,56) = 0.319.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.574
82551524|NCT05201079|164807322|SUPERIORITY|||||||0.49||||||Main effect of the Group for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 0.482.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.490
82551525|NCT05201079|164807322|SUPERIORITY|||||||0.032||||||Main effect of the Visit for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 4.850|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.032
82551526|NCT05201079|164807322|SUPERIORITY|||||||0.145||||||Main effect of the Group x Visit interaction for the Emotional role area of the SF-36 questionnaire. F statistic (1,56) = 2.181.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.145
82551527|NCT05201079|164807322|SUPERIORITY|||||||0.467||||||Main effect of the Group for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 0.535.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.467
82551528|NCT05201079|164807322|SUPERIORITY|||||||0.1||||||Main effect of the Visit for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 2.795|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.100
82551529|NCT05201079|164807322|SUPERIORITY|||||||0.89||||||Main effect of the Group x Visit interaction for the Mental health area of the SF-36 questionnaire. F statistic (1,56) = 0.019.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.890
82551530|NCT05201079|164807322|SUPERIORITY|||||||0.742||||||Main effect of the Group for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 0.109.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.742
82551531|NCT05201079|164807322|SUPERIORITY||||||<|0.001||||||Main effect of the Visit for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 21.912. Effect size = 0.109.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||<0.001
82586046|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.234|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 4 H0: There is no change in mean force between baseline and day 4 HA: There is change in mean force between baseline and day 4||||0.234
82476991|NCT01578850|164649398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.66||||0.007|TWO_SIDED|95.0|-33.78|-5.54|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Week 52||-5.54|-33.78|0.007
82476992|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.21||||0.078|TWO_SIDED|95.0|-8.91|0.48|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 28||0.48|-8.91|0.078
82476993|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.54||||0.003|TWO_SIDED|95.0|-12.49|-2.59|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 36||-2.59|-12.49|0.003
82476994|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.19||||0.001|TWO_SIDED|95.0|-13.2|-3.18|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 44||-3.18|-13.20|0.001
82476995|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6|||<|0.001|TWO_SIDED|95.0|-13.64|-3.55|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||General Health VAS: Week 52||-3.55|-13.64|<0.001
82476996|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.91||||0.017|TWO_SIDED|95.0|-10.75|-1.06|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 28||-1.06|-10.75|0.017
82476997|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.6||||0.001|TWO_SIDED|95.0|-13.85|-3.34|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 36||-3.34|-13.85|0.001
82476998|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.49|||<|0.001|TWO_SIDED|95.0|-14.72|-4.26|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 44||-4.26|-14.72|<0.001
82551532|NCT05201079|164807322|SUPERIORITY|||||||0.089||||||Main effect of the Group x Visit interaction for the Physical Role area of the SF-36 questionnaire. F statistic (1,56) = 2.986.|ANOVA|||For each area of the SF-36 questionnaire, a mixed ANOVA for the effect of Group, Visit, and interaction effect of Group x Visit was performed. alpha = 0.0221.||||0.089
82551533|NCT04898673|164807361|SUPERIORITY||Mean Difference (Final Values)|-5.23|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-6.08|-4.37|||ANOVA|||||-4.37|-6.08|<0.001
82551534|NCT04898673|164807362|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.39||0.67|TWO_SIDED|95.0|-2.31|3.51|||ANOVA|||||3.51|-2.31|0.670
82476999|NCT01578850|164649400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.29|||<|0.001|TWO_SIDED|95.0|-14.6|-3.99|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||Pain VAS: Week 52||-3.99|-14.60|<0.001
82477000|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.22||||0.014|TWO_SIDED|95.0|-9.39|-1.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 28||-1.05|-9.39|0.014
82477001|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.27||||0.011|TWO_SIDED|95.0|-11.09|-1.46|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 36||-1.46|-11.09|0.011
82477002|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|||<|0.001|TWO_SIDED|95.0|-12.06|-3.44|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 44||-3.44|-12.06|<0.001
82477003|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.16||||0.001|TWO_SIDED|95.0|-11.48|-2.85|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||CRP: Week 52||-2.85|-11.48|0.001
82477004|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.86|||<|0.001|TWO_SIDED|95.0|-9.23|-2.49|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 28||-2.49|-9.23|<0.001
82477005|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.69|||<|0.001|TWO_SIDED|95.0|-12.33|-5.05|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 36||-5.05|-12.33|<0.001
82477006|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.59|||<|0.001|TWO_SIDED|95.0|-11.38|-3.8|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 44||-3.80|-11.38|<0.001
82551535|NCT04898673|164807363|NON_INFERIORITY|Non-inferiority margin=-10% words correct; CP1110 non-inferior to CP1000 if the lower limit of the confidence interval for the difference \> -10% words correct.|Mean Difference (Final Values)|-3.75|STANDARD_ERROR_OF_MEAN|1.55||0.026|TWO_SIDED|95.0|-7.0|-0.5|||ANOVA|||||-0.50|-7.00|0.026
82551536|NCT04898673|164807364|NON_INFERIORITY|Non-inferiority margin=-10% words correct; CP1110 non-inferior to CP1000 if the lower limit of the confidence interval for the difference \> -10% words correct.|Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|1.37||0.411|TWO_SIDED|95.0|-4.02|1.72|||ANOVA|||||1.72|-4.02|0.411
82562009|NCT04604652|164833298|OTHER||||||=|0.077|||||||t-test, 1 sided|||A t-test was performed to test for the percent change from baseline to Week 12. This analysis was based on observed data without imputation. Testing was one sided using a 5% alpha level. No multiplicity adjustment was used, and the p-values reported for the endpoints were descriptive in nature.||||=0.077
82551537|NCT05239455|164807365|OTHER|The FDA requires one-sided 95% lower confidence limit for the population proportion of success is greater than 70% where success of a unit is defined as the RBC in vivo 24-hour percentage recovery ≥ 75%. Allows for low recoveries (\<75%) in 2/20 or 3/24 volunteers.|95% Confidence Interval|88.5|||||ONE_SIDED|95.0|72.81||||||A one-sided confidence interval for the proportion of successes was determined using the Clopper-Pearson exact method for a 95% confidence interval.|The comparison is to the FDA requirements for in vivo 24-hour recovery of LR-RBC.|Proportion of successes greater than 70% where success of a unit is defined as the RBC in vivo 24-hour percentage recovery ≥ 75% was calculated.||72.81|
82551538|NCT05239455|164807366|OTHER|The FDA criteria requires LR-RBC mean 24-hour recovery ≥ 75% with standard deviation (SD) ≤ 9%||||||||||||||||The comparison is to the FDA requirements for in vivo 24-hour recovery of LR-RBC.|Mean and standard deviation were calculated.|||
82551539|NCT03365882|164807390|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.44|TWO_SIDED|95.0|0.43|1.45|||Log Rank|||||1.45|0.43|0.44
82551540|NCT03365882|164807392|SUPERIORITY|||||||0.17|||||||Log Rank|||||||0.17
82551541|NCT05292872|164807414|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.143|0.752||1-sided p-values are proportion of bootstrap replicates exceeding null (defined as a HR of 1) in each direction), and the two-tailed p-value is twice the smaller of one-tailed p-values. A two-tailed p-value was calculated for HR using this method.|Nonparametric bootstrap approach|||||0.752|0.143|<.001
82551542|NCT02561247|164807424|OTHER|||||||0.0008||||||P Value is from a one sample t-test compared against the null hypothesis value|t-test, 1 sided|Null Hypothesis Value = -38; Degrees of Freedom=16; t-value=-4.13||P Value is from a one sample t-test compared against the null hypothesis value. No adjustments were made for multiple comparisons/multiplicity in this study, since there was only one primary endpoint, one arm, and one pre-specified primary null hypothesis.||||0.0008
82551543|NCT00085735|164807448|NON_INFERIORITY|A hazard ratio of 1.6 is used as the non-inferiority margin. For the final analysis of comparing LDCSI vs. SDCSI, a one-sided 80% upper confidence limit of the hazard ratio based on a stratified approach will be estimated (stratified by RT group (IFRT vs. PFRT)). If the upper confidence limit is lower than 1.6, LDCSI would be deemed to be non-inferior. If not, non-inferiority would not be established.|Hazard Ratio (HR)|1.5|||||ONE_SIDED|80.0||1.9||||||The comparison is based on all eligible randomized patients 3-7 years of age without anaplastic histology or excess residual disease or disseminated disease by central review per the protocol document. Using a one-sided log rank test with type I error of 0.20, this study was designed to have power of 0.80 to detect a 10% reduction in cure rate due to the use of LDCSI compared to SDCSI.||1.9||
82551544|NCT00085735|164807448|NON_INFERIORITY|A hazard ratio of 1.6 is used as the non-inferiority margin. For the final analysis comparing IFRT vs. PFRT, a one-sided 94% upper confidence limit of the hazard ratio based on a stratified approach will be estimated (stratified by age group and RT group (LDCSI vs. SDCSI)). If the upper confidence limit is lower than 1.6, IFRT would be deemed to be non-inferior. If not, non-inferiority would not be established.|Hazard Ratio (HR)|1.0|||||ONE_SIDED|94.0||1.3||||||The comparison is based on all eligible randomized patients 3-21 years of age without anaplastic histology or excess residual disease or disseminated disease by central review as per the protocol document. Using a one-sided log rank test with type I error of 0.20, this study was designed with power of 0.94 to detect a 10% reduction in cure rate and power of 0.65 to detect a 5% reduction in cure rate, due to the use of IFRT compared to PFRT.||1.3||
82551545|NCT01824875|164807468|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.46|1.07|||||Hazard ratio of Arm B/Arm A|||1.07|0.46|
82551546|NCT01824875|164807469|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
82551547|NCT01073566|164807525|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Pre-study power calculations determined that 28 completed subjects provided 90% power to detect equivalence for the primary endpoint of MDBG of bolus-patch compared to pen/syringe using a 2-sided alpha level of 0.05, when the margin of equivalence for MDBG is 1.11 mmol/L, the true mean difference is 0.0, and the standard deviation of the differences is 1.72 mmol/L.|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.24||0.098|TWO_SIDED|95.0|-0.97|0.16|||ANOVA||Finesse versus usual injection device.|A two-period, two-treatment crossover ANOVA model was used to compare devices for continuous measures.||0.16|-0.97|0.098
82551548|NCT01073566|164807526|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.8|-0.17|||ANOVA||Finesse versus usual injection device|This was conducted at a 2-sided alpha level of 0.05 and confidence intervals (CI) were calculated at 95%, 2-sided. A two-period, two-treatment crossover ANOVA model was used to compare devices for continuous measures.||-0.17|-0.80|0.004
82551549|NCT01073566|164807527|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||McNemar|||Higher number is better. The answers were scored on a scale of 0-100 to standardize as described in the original papers.||||<0.001
82551550|NCT05260112|164807531|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82551551|NCT05260112|164807532|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82551552|NCT05260112|164807533|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82551553|NCT05260112|164807534|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82551554|NCT05260112|164807535|OTHER|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||0.53
82551555|NCT05260112|164807536|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82551556|NCT03858634|164807552|SUPERIORITY||Least squares (LS) mean difference|-3.3|STANDARD_ERROR_OF_MEAN|3.31||0.398|TWO_SIDED|80.0|-8.68|2.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||2.17|-8.68|0.3980
82551557|NCT03858634|164807552|SUPERIORITY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|1.23||0.6653|TWO_SIDED|80.0|-2.17|1.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||1.09|-2.17|0.6653
82376940|NCT01297985|164460817|SUPERIORITY||MIXREG Estimate|1.55|STANDARD_ERROR_OF_MEAN|0.62||0.013|TWO_SIDED||||||Mixed Effects Random Regression|||"This mixed effects random regression analysis tested whether intervention participants would report larger increases than controls in self-perceived Recovery and that this effect would be maintained overtime; and that intervention participants would report greater increases in hopefulness than controls, also maintained longitudinally~This first model reports on Recovery over time."||||.013
82551558|NCT03858634|164807552|SUPERIORITY||LS mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.14||0.0711|TWO_SIDED|80.0|-11.63|-3.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-3.56|-11.63|0.0711
82551559|NCT03858634|164807552|SUPERIORITY||LS mean difference|-3.1|STANDARD_ERROR_OF_MEAN|1.2||0.0186|TWO_SIDED|80.0|-4.7|-1.51||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-1.51|-4.70|0.0186
82551560|NCT03858634|164807554|SUPERIORITY||LS mean difference|-7.3|STANDARD_ERROR_OF_MEAN|14.76||0.6533|TWO_SIDED|80.0|-31.52|16.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||16.84|-31.52|0.6533
82551561|NCT03858634|164807554|SUPERIORITY||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|10.51||0.9077|TWO_SIDED|80.0|-15.16|12.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||12.69|-15.16|0.9077
82551562|NCT03858634|164807554|SUPERIORITY||LS mean difference|-61.2|STANDARD_ERROR_OF_MEAN|33.18||0.2065|TWO_SIDED|80.0|-123.73|1.39||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||1.39|-123.73|0.2065
82551563|NCT03858634|164807554|SUPERIORITY||LS mean difference|-5.3|STANDARD_ERROR_OF_MEAN|3.19||0.1133|TWO_SIDED|80.0|-9.56|-1.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-1.07|-9.56|0.1133
82551564|NCT03858634|164807554|SUPERIORITY||LS mean difference|-16.7|STANDARD_ERROR_OF_MEAN|21.76||0.4997|TWO_SIDED|80.0|-52.29|18.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||18.98|-52.29|0.4997
82551565|NCT03858634|164807554|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|11.85||0.9919|TWO_SIDED|80.0|-15.83|15.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||15.59|-15.83|0.9919
82551566|NCT03858634|164807554|SUPERIORITY||LS mean difference|-89.2|STANDARD_ERROR_OF_MEAN|28.56||0.0891|TWO_SIDED|80.0|-143.03|-35.31||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-35.31|-143.03|0.0891
82551567|NCT03858634|164807554|SUPERIORITY||LS mean difference|-9.4|STANDARD_ERROR_OF_MEAN|5.47||0.1029|TWO_SIDED|80.0|-16.67|-2.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-2.12|-16.67|0.1029
82551568|NCT03858634|164807554|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|32.93||0.5538|TWO_SIDED|80.0|-75.82|32.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||32.05|-75.82|0.5538
82551569|NCT03858634|164807554|SUPERIORITY||LS mean difference|-11.9|STANDARD_ERROR_OF_MEAN|11.78||0.3252|TWO_SIDED|80.0|-27.51|3.73||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||3.73|-27.51|0.3252
82551570|NCT03858634|164807554|SUPERIORITY||LS mean difference|-93.8|STANDARD_ERROR_OF_MEAN|34.1||0.1106|TWO_SIDED|80.0|-158.11|-29.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-29.52|-158.11|0.1106
82551571|NCT03858634|164807554|SUPERIORITY||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|7.17||0.0123|TWO_SIDED|80.0|-29.48|-10.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-10.40|-29.48|0.0123
82551572|NCT03858634|164807554|SUPERIORITY||LS mean difference|-28.9|STANDARD_ERROR_OF_MEAN|35.86||0.4791|TWO_SIDED|80.0|-87.63|29.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||29.81|-87.63|0.4791
82551573|NCT03858634|164807554|SUPERIORITY||LS mean difference|-5.5|STANDARD_ERROR_OF_MEAN|12.66||0.6684|TWO_SIDED|80.0|-22.28|11.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||11.27|-22.28|0.6684
82551574|NCT03858634|164807554|SUPERIORITY||LS mean difference|-79.7|STANDARD_ERROR_OF_MEAN|26.28||0.0937|TWO_SIDED|80.0|-129.22|-30.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-30.13|-129.22|0.0937
82551575|NCT03858634|164807554|SUPERIORITY||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|9.75||0.012|TWO_SIDED|80.0|-40.21|-14.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-14.27|-40.21|0.0120
82551576|NCT03858634|164807554|SUPERIORITY||LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|41.95||0.4927|TWO_SIDED|80.0|-101.39|36.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||36.02|-101.39|0.4927
82551577|NCT03858634|164807554|SUPERIORITY||LS mean difference|-10.9|STANDARD_ERROR_OF_MEAN|13.9||0.4409|TWO_SIDED|80.0|-29.35|7.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||7.49|-29.35|0.4409
82551578|NCT03858634|164807554|SUPERIORITY||LS mean difference|-90.7|STANDARD_ERROR_OF_MEAN|34.58||0.1197|TWO_SIDED|80.0|-155.96|-25.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-25.54|-155.96|0.1197
82551579|NCT03858634|164807554|SUPERIORITY||LS mean difference|-35.3|STANDARD_ERROR_OF_MEAN|12.31||0.0102|TWO_SIDED|80.0|-51.68|-18.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANOVA|||Change at Week 5||-18.92|-51.68|0.0102
82551580|NCT03858634|164807554|SUPERIORITY||LS mean difference|-33.5|STANDARD_ERROR_OF_MEAN|38.77||0.4515|TWO_SIDED|80.0|-96.97|30.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||30.02|-96.97|0.4515
82551581|NCT03858634|164807554|SUPERIORITY||LS mean difference|-4.5|STANDARD_ERROR_OF_MEAN|14.56||0.7623|TWO_SIDED|80.0|-23.76|14.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||14.83|-23.76|0.7623
82551582|NCT03858634|164807554|SUPERIORITY||LS mean difference|-88.5|STANDARD_ERROR_OF_MEAN|34.57||0.1247|TWO_SIDED|80.0|-153.65|-23.29||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-23.29|-153.65|0.1247
82551583|NCT03858634|164807554|SUPERIORITY||LS mean difference|-37.7|STANDARD_ERROR_OF_MEAN|11.91||0.0053|TWO_SIDED|80.0|-53.59|-21.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-21.90|-53.59|0.0053
82551584|NCT03858634|164807554|SUPERIORITY||LS mean difference|-17.2|STANDARD_ERROR_OF_MEAN|43.23||0.7177|TWO_SIDED|80.0|-87.97|53.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||53.62|-87.97|0.7177
82551585|NCT03858634|164807554|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|14.35||0.6682|TWO_SIDED|80.0|-25.26|12.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||12.78|-25.26|0.6682
82551586|NCT03858634|164807554|SUPERIORITY||LS mean difference|-95.2|STANDARD_ERROR_OF_MEAN|29.16||0.0823|TWO_SIDED|80.0|-150.21|-40.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-40.24|-150.21|0.0823
82551587|NCT03858634|164807554|SUPERIORITY||LS mean difference|-38.1|STANDARD_ERROR_OF_MEAN|12.95||0.0087|TWO_SIDED|80.0|-55.38|-20.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-20.92|-55.38|0.0087
82551588|NCT03858634|164807554|SUPERIORITY||LS mean difference|-31.7|STANDARD_ERROR_OF_MEAN|38.73||0.4734|TWO_SIDED|80.0|-95.11|31.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||31.76|-95.11|0.4734
82551589|NCT03858634|164807554|SUPERIORITY||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|14.91||0.813|TWO_SIDED|80.0|-23.33|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||16.18|-23.33|0.8130
82551590|NCT03858634|164807554|SUPERIORITY||LS mean difference|-92.0|STANDARD_ERROR_OF_MEAN|31.1||0.0979|TWO_SIDED|80.0|-150.6|-33.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-33.32|-150.60|0.0979
82580653|NCT04187989|164872720|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.118|STANDARD_ERROR_OF_MEAN|0.247||0.667|TWO_SIDED|95.0|-0.607|0.371||The p-value is for the coefficient of the treatment/control indicator in the above mixed model|t-test, 2 sided||The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.371|-.607|.667
82586047|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.256|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 14 H0: There is no change in mean force between baseline and day 14 HA: There is change in mean force between baseline and day 14||||0.256
82551591|NCT03858634|164807554|SUPERIORITY||LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|13.48||0.0122|TWO_SIDED|80.0|-55.48|-19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-19.61|-55.48|0.0122
82551592|NCT03858634|164807554|SUPERIORITY||LS mean difference|-32.1|STANDARD_ERROR_OF_MEAN|35.35||0.431|TWO_SIDED|80.0|-89.98|25.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||25.81|-89.98|0.4310
82551593|NCT03858634|164807554|SUPERIORITY||LS mean difference|-7.1|STANDARD_ERROR_OF_MEAN|15.22||0.6452|TWO_SIDED|80.0|-27.38|13.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||13.12|-27.38|0.6452
82551594|NCT03858634|164807554|SUPERIORITY||LS mean difference|-89.2|STANDARD_ERROR_OF_MEAN|37.02||0.1375|TWO_SIDED|80.0|-159.04|-19.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-19.44|-159.04|0.1375
82551595|NCT03858634|164807554|SUPERIORITY||LS mean difference|-39.6|STANDARD_ERROR_OF_MEAN|14.59||0.0143|TWO_SIDED|80.0|-58.97|-20.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-20.15|-58.97|0.0143
82551596|NCT03858634|164807554|SUPERIORITY||LS mean difference|-22.1|STANDARD_ERROR_OF_MEAN|36.4||0.5867|TWO_SIDED|80.0|-81.7|37.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||37.52|-81.70|0.5867
82551597|NCT03858634|164807554|SUPERIORITY||LS mean difference|6.1|STANDARD_ERROR_OF_MEAN|14.38||0.6745|TWO_SIDED|80.0|-12.99|25.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||25.27|-12.99|0.6745
82551598|NCT03858634|164807554|SUPERIORITY||LS mean difference|-85.6|STANDARD_ERROR_OF_MEAN|29.99||0.1039|TWO_SIDED|80.0|-142.18|-29.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-29.09|-142.18|0.1039
82551599|NCT03858634|164807554|SUPERIORITY||LS mean difference|-42.5|STANDARD_ERROR_OF_MEAN|15.12||0.0116|TWO_SIDED|80.0|-62.6|-22.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-22.36|-62.60|0.0116
82551600|NCT03858634|164807554|SUPERIORITY||LS mean difference|-23.1|STANDARD_ERROR_OF_MEAN|37.49||0.5807|TWO_SIDED|80.0|-84.55|38.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||38.26|-84.55|0.5807
82551601|NCT03858634|164807554|SUPERIORITY||LS mean difference|8.6|STANDARD_ERROR_OF_MEAN|15.16||0.5765|TWO_SIDED|80.0|-11.55|28.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||28.80|-11.55|0.5765
82551602|NCT03858634|164807554|SUPERIORITY||LS mean difference|-86.2|STANDARD_ERROR_OF_MEAN|28.36||0.0933|TWO_SIDED|80.0|-139.7|-32.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-32.75|-139.70|0.0933
82551603|NCT03858634|164807554|SUPERIORITY||LS mean difference|-39.3||||0.0173|TWO_SIDED|80.0|-59.29|-19.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-19.37|-59.29|0.0173
82551604|NCT03858634|164807554|SUPERIORITY||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|38.36||0.5293|TWO_SIDED|80.0|-90.04|35.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||35.62|-90.04|0.5293
82551605|NCT03858634|164807554|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|15.12||0.9676|TWO_SIDED|80.0|-20.73|19.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||19.49|-20.73|0.9676
82551606|NCT03858634|164807554|SUPERIORITY||LS mean difference|-86.2|STANDARD_ERROR_OF_MEAN|23.38||0.0663|TWO_SIDED|80.0|-130.27|-42.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-42.11|-130.27|0.0663
82551607|NCT03858634|164807554|SUPERIORITY||LS mean difference|-37.4|STANDARD_ERROR_OF_MEAN|15.33||0.0252|TWO_SIDED|80.0|-57.81|-17.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-17.02|-57.81|0.0252
82551608|NCT03858634|164807554|SUPERIORITY||LS mean difference|-19.6|STANDARD_ERROR_OF_MEAN|40.81||0.6637|TWO_SIDED|80.0|-86.45|47.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||47.22|-86.45|0.6637
82551609|NCT03858634|164807554|SUPERIORITY||LS mean difference|-1.6|STANDARD_DEVIATION|15.35||0.9173|TWO_SIDED|80.0|-22.04|18.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||18.81|-22.04|0.9173
82551610|NCT03858634|164807554|SUPERIORITY||LS mean difference|-96.2|STANDARD_ERROR_OF_MEAN|26.55||0.0685|TWO_SIDED|80.0|-146.23|-46.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-46.10|-146.23|0.0685
82551611|NCT03858634|164807554|SUPERIORITY||LS mean difference|-39.7|STANDARD_ERROR_OF_MEAN|15.96||0.023|TWO_SIDED|80.0|-60.91|-18.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-18.44|-60.91|0.0230
82551612|NCT03858634|164807554|SUPERIORITY||LS mean difference|-19.1|STANDARD_ERROR_OF_MEAN|37.62||0.6471|TWO_SIDED|80.0|-80.69|42.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||42.54|-80.69|0.6471
82551613|NCT03858634|164807554|SUPERIORITY||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|15.52||0.8044|TWO_SIDED|80.0|-24.56|16.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||16.75|-24.56|0.8044
82551614|NCT03858634|164807554|SUPERIORITY||LS mean difference|-99.5|STANDARD_ERROR_OF_MEAN|28.71||0.0741|TWO_SIDED|80.0|-153.63|-45.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-45.37|-153.63|0.0741
82551615|NCT03858634|164807554|SUPERIORITY||LS mean difference|-39.9|STANDARD_ERROR_OF_MEAN|15.89||0.0219|TWO_SIDED|80.0|-61.0|-18.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-18.72|-61.00|0.0219
82551616|NCT03858634|164807554|SUPERIORITY||LS mean difference|-25.4|STANDARD_ERROR_OF_MEAN|37.15||0.5436|TWO_SIDED|80.0|-86.21|35.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||35.46|-86.21|0.5436
82551617|NCT03858634|164807554|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|16.13||0.9149|TWO_SIDED|80.0|-23.2|19.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||19.71|-23.20|0.9149
82551618|NCT03858634|164807554|SUPERIORITY||LS mean difference|-94.8|STANDARD_ERROR_OF_MEAN|25.34||0.0646|TWO_SIDED|80.0|-142.63|-47.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-47.05|-142.63|0.0646
82551619|NCT03858634|164807554|SUPERIORITY||LS mean difference|-34.2|STANDARD_ERROR_OF_MEAN|17.09||0.0611|TWO_SIDED|80.0|-56.89|-11.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-11.41|-56.89|0.0611
82551620|NCT03858634|164807554|SUPERIORITY||LS mean difference|-22.0|STANDARD_ERROR_OF_MEAN|38.28||0.606|TWO_SIDED|80.0|-84.68|40.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||40.71|-84.68|0.6060
82551621|NCT03858634|164807554|SUPERIORITY||LS mean difference|-6.9|STANDARD_ERROR_OF_MEAN|16.61||0.6823|TWO_SIDED|80.0|-29.0|15.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||15.18|-29.00|0.6823
82551622|NCT03858634|164807554|SUPERIORITY||LS mean difference|-99.7|STANDARD_ERROR_OF_MEAN|24.56||0.0556|TWO_SIDED|80.0|-146.02|-53.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-53.41|-146.02|0.0556
82551623|NCT03858634|164807554|SUPERIORITY||LS mean difference|-33.4|STANDARD_ERROR_OF_MEAN|16.99||0.0652|TWO_SIDED|80.0|-55.98|-10.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-10.76|-55.98|0.0652
82551624|NCT03858634|164807554|SUPERIORITY||LS mean difference|-26.3|STANDARD_ERROR_OF_MEAN|41.45||0.5714|TWO_SIDED|80.0|-94.14|41.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||41.62|-94.14|0.5714
82551625|NCT03858634|164807554|OTHER||LS mean difference|-10.5|STANDARD_ERROR_OF_MEAN|16.82||0.5386|TWO_SIDED|80.0|-32.93|11.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||11.83|-32.93|0.5386
82551626|NCT03858634|164807554|SUPERIORITY||LS mean difference|-99.0|STANDARD_ERROR_OF_MEAN|21.41||0.0438|TWO_SIDED|80.0|-139.35|-58.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-58.60|-139.35|0.0438
82551627|NCT03858634|164807554|OTHER||LS mean difference|-27.2|STANDARD_ERROR_OF_MEAN|19.66||0.1829|TWO_SIDED|80.0|-53.38|-1.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-1.08|-53.38|0.1829
82551628|NCT03858634|164807554|SUPERIORITY||LS mean difference|-25.6|STANDARD_ERROR_OF_MEAN|37.59||0.5443|TWO_SIDED|80.0|-87.2|35.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||35.94|-87.20|0.5443
82551629|NCT03858634|164807554|SUPERIORITY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|18.43||0.6748|TWO_SIDED|80.0|-32.39|16.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||16.66|-32.39|0.6748
82551630|NCT03858634|164807554|SUPERIORITY||LS mean difference|-96.2|STANDARD_ERROR_OF_MEAN|16.97||0.0297|TWO_SIDED|80.0|-128.19|-64.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-64.19|-128.19|0.0297
82551631|NCT03858634|164807554|SUPERIORITY||LS mean difference|-27.0|STANDARD_ERROR_OF_MEAN|19.8||0.1899|TWO_SIDED|80.0|-53.33|-0.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-0.63|-53.33|0.1899
82551632|NCT03858634|164807556|SUPERIORITY||LS mean difference|-15.3|STANDARD_ERROR_OF_MEAN|24.47||0.5763|TWO_SIDED|80.0|-55.37|24.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||24.78|-55.37|0.5763
82551633|NCT03858634|164807556|SUPERIORITY||LS mean difference|9.6|STANDARD_ERROR_OF_MEAN|14.66||0.5214|TWO_SIDED|80.0|-9.86|29.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||29.01|-9.86|0.5214
82551634|NCT03858634|164807556|SUPERIORITY||LS mean difference|-167.0|STANDARD_ERROR_OF_MEAN|105.28||0.2536|TWO_SIDED|80.0|-365.51|31.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||31.54|-365.51|0.2536
82551635|NCT03858634|164807556|SUPERIORITY||LS mean difference|-10.8|STANDARD_ERROR_OF_MEAN|5.55||0.067|TWO_SIDED|80.0|-18.2|-3.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-3.44|-18.20|0.0670
82551636|NCT03858634|164807556|SUPERIORITY||LS mean difference|-33.1|STANDARD_ERROR_OF_MEAN|34.98||0.4133|TWO_SIDED|80.0|-90.43|24.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||24.15|-90.43|0.4133
82551637|NCT03858634|164807556|SUPERIORITY||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|15.44||0.9305|TWO_SIDED|80.0|-21.83|19.11|||ANCOVA|||Change at Week 2||19.11|-21.83|0.9305
82551638|NCT03858634|164807556|SUPERIORITY||LS mean difference|-160.9|STANDARD_ERROR_OF_MEAN|132.98||0.3499|TWO_SIDED|80.0|-411.65|89.86||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||89.86|-411.65|0.3499
82551639|NCT03858634|164807556|SUPERIORITY||LS mean difference|-14.0|STANDARD_ERROR_OF_MEAN|9.55||0.1588|TWO_SIDED|80.0|-26.74|-1.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-1.33|-26.74|0.1588
82551640|NCT03858634|164807556|SUPERIORITY||LS mean difference|-40.6|STANDARD_ERROR_OF_MEAN|35.19||0.3319|TWO_SIDED|80.0|-98.26|17.0||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||17.00|-98.26|0.3319
82551641|NCT03858634|164807556|SUPERIORITY||LS mean difference|7.1|STANDARD_ERROR_OF_MEAN|19.39||0.7179|TWO_SIDED|80.0|-18.59|32.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||32.80|-18.59|0.7179
82551642|NCT03858634|164807556|SUPERIORITY||LS mean difference|-193.8|STANDARD_ERROR_OF_MEAN|112.17||0.2261|TWO_SIDED|80.0|-405.34|17.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||17.67|-405.34|0.2261
82551643|NCT03858634|164807556|SUPERIORITY||LS mean difference|-30.3|STANDARD_ERROR_OF_MEAN|10.88||0.0123|TWO_SIDED|80.0|-44.75|-15.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-15.80|-44.75|0.0123
82551644|NCT03858634|164807556|SUPERIORITY||LS mean difference|-54.0|STANDARD_ERROR_OF_MEAN|35.45||0.2253|TWO_SIDED|80.0|-112.02|4.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||4.09|-112.02|0.2253
82551645|NCT03858634|164807556|SUPERIORITY||LS mean difference|6.3|STANDARD_ERROR_OF_MEAN|16.9||0.7149|TWO_SIDED|80.0|-16.14|28.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||28.66|-16.14|0.7149
82551646|NCT03858634|164807556|SUPERIORITY||LS mean difference|-168.4|STANDARD_ERROR_OF_MEAN|109.12||0.2627|TWO_SIDED|80.0|-374.16|37.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||37.36|-374.16|0.2627
82551647|NCT03858634|164807556|SUPERIORITY||LS mean difference|-36.7|STANDARD_ERROR_OF_MEAN|11.38||0.0047|TWO_SIDED|80.0|-51.87|-21.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-21.60|-51.87|0.0047
82551648|NCT03858634|164807556|SUPERIORITY||LS mean difference|-66.1|STANDARD_ERROR_OF_MEAN|38.01||0.1803|TWO_SIDED|80.0|-128.37|-3.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-3.88|-128.37|0.1803
82551649|NCT03858634|164807556|SUPERIORITY||LS mean difference|6.4|STANDARD_ERROR_OF_MEAN|17.34||0.7174|TWO_SIDED|80.0|-16.62|29.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||29.35|-16.62|0.7174
82551650|NCT03858634|164807556|SUPERIORITY||LS mean difference|-163.4|STANDARD_ERROR_OF_MEAN|103.47||0.2551|TWO_SIDED|80.0|-358.51|31.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||31.72|-358.51|0.2551
82551651|NCT03858634|164807556|SUPERIORITY||LS mean difference|-33.5|STANDARD_ERROR_OF_MEAN|11.36||0.0086|TWO_SIDED|80.0|-48.58|-18.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-18.36|-48.58|0.0086
82551652|NCT03858634|164807556|SUPERIORITY||LS mean difference|-56.0|STANDARD_ERROR_OF_MEAN|40.16||0.2576|TWO_SIDED|80.0|-121.78|9.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||9.78|-121.78|0.2576
82551653|NCT03858634|164807556|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|18.09||0.9722|TWO_SIDED|80.0|-24.62|23.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||23.34|-24.62|0.9722
82551654|NCT03858634|164807556|SUPERIORITY||LS mean difference|-177.4|STANDARD_ERROR_OF_MEAN|95.72||0.2051|TWO_SIDED|80.0|-357.85|3.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||3.13|-357.85|0.2051
82551655|NCT03858634|164807556|SUPERIORITY||LS mean difference|-42.0|STANDARD_ERROR_OF_MEAN|11.99||0.0025|TWO_SIDED|80.0|-57.98|-26.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-26.08|-57.98|0.0025
82551656|NCT03858634|164807556|SUPERIORITY||LS mean difference|-65.8|STANDARD_ERROR_OF_MEAN|33.78||0.1465|TWO_SIDED|80.0|-121.14|-10.5||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-10.50|-121.14|0.1465
82551657|NCT03858634|164807556|SUPERIORITY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|17.54||0.7734|TWO_SIDED|80.0|-18.13|28.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||28.37|-18.13|0.7734
82551658|NCT03858634|164807556|SUPERIORITY||LS mean difference|-175.5|STANDARD_ERROR_OF_MEAN|87.45||0.1826|TWO_SIDED|80.0|-340.37|-10.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-10.56|-340.37|0.1826
82477007|NCT01578850|164649402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.32|||<|0.001|TWO_SIDED|95.0|-10.03|-2.6|||ANCOVA|Stratified by geographic region and disease status at randomization (Stratum 1=Remission: DAS28-ESR\<2.6 or Stratum 2=LDA: 2.6\<=DAS28-ESR\<3.2).||ESR: Week 52||-2.60|-10.03|<0.001
82477008|NCT01711216|164649419|SUPERIORITY_OR_OTHER|||||||0.3181|TWO_SIDED|||||Test statistic (d.f.) 1.0157 (1) A Mantel-Haenszel chi-square test was used, exact p-value was computed using Monte Carlo estimation.|Mantel Haenszel|||Test of association between the number of regular menstrual cycles during the follow-up period and the number of dydrogesterone therapy cycles received during the treatment period (Follow-up Analysis Set) Follow-up Analysis Set (N=915)||||0.3181
82551659|NCT03858634|164807556|SUPERIORITY||LS mean difference|-39.2|STANDARD_ERROR_OF_MEAN|13.71||0.0105|TWO_SIDED|80.0|-57.4|-20.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-20.93|-57.40|0.0105
82551660|NCT03858634|164807556|SUPERIORITY||LS mean difference|-53.7|STANDARD_ERROR_OF_MEAN|40.17||0.2737|TWO_SIDED|80.0|-119.49|12.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||12.09|-119.49|0.2737
82551661|NCT03858634|164807556|SUPERIORITY||LS mean difference|3.0|STANDARD_ERROR_OF_MEAN|17.77||0.8692|TWO_SIDED|80.0|-20.59|26.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||26.52|-20.59|0.8692
82551662|NCT03858634|164807556|SUPERIORITY||LS mean difference|-163.0|STANDARD_ERROR_OF_MEAN|89.64||0.2106|TWO_SIDED|80.0|-332.06|5.99||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||5.99|-332.06|0.2106
82551663|NCT03858634|164807556|SUPERIORITY||LS mean difference|-45.7|STANDARD_ERROR_OF_MEAN|14.67||0.006|TWO_SIDED|80.0|-65.19|-26.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-26.14|-65.19|0.0060
82551664|NCT03858634|164807556|SUPERIORITY||LS mean difference|-62.3|STANDARD_ERROR_OF_MEAN|36.12||0.1831|TWO_SIDED|80.0|-121.44|-3.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-3.13|-121.44|0.1831
82551665|NCT03858634|164807556|SUPERIORITY||LS mean difference|21.5|STANDARD_ERROR_OF_MEAN|16.39||0.2061|TWO_SIDED|80.0|-0.31|43.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||43.30|-0.31|0.2061
82551666|NCT03858634|164807556|SUPERIORITY||LS mean difference|-161.4|STANDARD_ERROR_OF_MEAN|87.75||0.2073|TWO_SIDED|80.0|-326.83|4.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||4.12|-326.83|0.2073
82551667|NCT03858634|164807556|SUPERIORITY||LS mean difference|-34.4|STANDARD_ERROR_OF_MEAN|15.19||0.0371|TWO_SIDED|80.0|-54.62|-14.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-14.10|-54.62|0.0371
82551668|NCT03858634|164807556|SUPERIORITY||LS mean difference|-55.2|STANDARD_ERROR_OF_MEAN|37.72||0.2393|TWO_SIDED|80.0|-117.01|6.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||6.54|-117.01|0.2393
82551669|NCT03858634|164807556|SUPERIORITY||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|19.01||0.9019|TWO_SIDED|80.0|-22.91|27.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||27.67|-22.91|0.9019
82551670|NCT03858634|164807556|SUPERIORITY||LS mean difference|-149.2|STANDARD_ERROR_OF_MEAN|81.97||0.2103|TWO_SIDED|80.0|-303.77|5.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||5.35|-303.77|0.2103
82477009|NCT00750152|164649492|SUPERIORITY_OR_OTHER||one-sided p-value from CMH test|0.001||||0.025|ONE_SIDED|95.0|||||Cochran-Mantel-Haenszel|The CMH test after stratification by site compared the proportion of complete cure in NAFT-500 to that of placebo to evaluate its superiority.||"In order to compare complete cure rate in the NAFT-500 group with that in the placebo group, the following one-sided null and alternate hypotheses will be tested:~* H0: p1 \<= p0~* Ha: p1 \> p0 where p0 and p1 denote the proportion of subjects with complete cure in the placebo and NAFT-500 groups, respectively."||||0.025
82551671|NCT03858634|164807556|SUPERIORITY||LS mean difference|-22.1|STANDARD_ERROR_OF_MEAN|15.2||0.1634|TWO_SIDED|80.0|-42.4|-1.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-1.88|-42.40|0.1634
82551672|NCT03858634|164807556|SUPERIORITY||LS mean difference|-48.6|STANDARD_ERROR_OF_MEAN|36.28||0.2727|TWO_SIDED|80.0|-108.04|10.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||10.80|-108.04|0.2727
82551673|NCT03858634|164807556|SUPERIORITY||LS mean difference|-9.6|STANDARD_ERROR_OF_MEAN|17.29||0.5839|TWO_SIDED|80.0|-32.65|13.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||13.36|-32.65|0.5839
82551674|NCT03858634|164807556|SUPERIORITY||LS mean difference|-167.8|STANDARD_ERROR_OF_MEAN|76.58||0.1597|TWO_SIDED|80.0|-312.25|-23.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-23.45|-312.25|0.1597
82551675|NCT03858634|164807556|SUPERIORITY||LS mean difference|-27.1|STANDARD_ERROR_OF_MEAN|16.27||0.1138|TWO_SIDED|80.0|-48.81|-5.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-5.43|-48.81|0.1138
82477010|NCT03698591|164649516|OTHER||F-statistic|6.155||||0.019|TWO_SIDED|||||P-value corresponds to 3 way interaction. A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distancing performance would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.019
82477011|NCT03698591|164649516|OTHER||F-statistic|5.911||||0.021|TWO_SIDED|||||P-value corresponds to two-way interaction. A priori significance threshold of p \< .05.|ANOVA|||This analysis evaluated the two-way interaction of task condition and study period. The null hypothesis was that distancing performance would not differ by study period. Within-subjects factors included task condition and study period.||||.021
82477012|NCT03698591|164649516|OTHER||t-statistic|-1.656||||0.108|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A dependent-samples t-test was used to compare distancing performance between study periods 1 and 2. The null hypothesis was that distancing performance would not differ by study period.||||.108
82551676|NCT03858634|164807556|SUPERIORITY||LS mean difference|-62.0|STANDARD_ERROR_OF_MEAN|24.93||0.0888|TWO_SIDED|80.0|-102.78|-21.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-21.13|-102.78|0.0888
82551677|NCT03858634|164807556|SUPERIORITY||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|18.19||0.9741|TWO_SIDED|80.0|-24.79|23.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||23.60|-24.79|0.9741
82551678|NCT03858634|164807556|SUPERIORITY||LS mean difference|-159.2|STANDARD_ERROR_OF_MEAN|65.42||0.1354|TWO_SIDED|80.0|-282.59|-35.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-35.87|-282.59|0.1354
82551679|NCT03858634|164807556|SUPERIORITY||LS mean difference|-26.5|STANDARD_ERROR_OF_MEAN|17.21||0.1425|TWO_SIDED|80.0|-49.41|-3.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-3.52|-49.41|0.1425
82551680|NCT03858634|164807556|SUPERIORITY||LS mean difference|-54.6|STANDARD_ERROR_OF_MEAN|26.61||0.1326|TWO_SIDED|80.0|-98.18|-11.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-11.01|-98.18|0.1326
82551681|NCT03858634|164807556|OTHER||LS mean difference|-4.2|STANDARD_ERROR_OF_MEAN|20.87||0.8433|TWO_SIDED|80.0|-31.95|23.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||23.58|-31.95|0.8433
82551682|NCT03858634|164807556|SUPERIORITY||LS mean difference|-130.8|STANDARD_ERROR_OF_MEAN|38.5||0.0768|TWO_SIDED|80.0|-203.39|-58.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-58.19|-203.39|0.0768
82551683|NCT03858634|164807556|SUPERIORITY||LS mean difference|-18.6|STANDARD_ERROR_OF_MEAN|18.69||0.3341|TWO_SIDED|80.0|-43.49|6.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||6.34|-43.49|0.3341
82551684|NCT03858634|164807558|SUPERIORITY||LS mean difference|-40.9|STANDARD_ERROR_OF_MEAN|40.82||0.4995|TWO_SIDED|80.0|-166.52|84.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||84.74|-166.52|0.4995
82551685|NCT03858634|164807558|SUPERIORITY||LS mean difference|-3.7|STANDARD_ERROR_OF_MEAN|9.59||0.7071|TWO_SIDED|80.0|-16.37|9.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||9.06|-16.37|0.7071
82551686|NCT03858634|164807558|SUPERIORITY||LS mean difference|-52.5|STANDARD_ERROR_OF_MEAN|9.39||0.0305|TWO_SIDED|80.0|-70.18|-34.77||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||-34.77|-70.18|0.0305
82551687|NCT03858634|164807558|SUPERIORITY||LS mean difference|-6.6|STANDARD_ERROR_OF_MEAN|9.33||0.4884|TWO_SIDED|80.0|-19.01|5.81||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||5.81|-19.01|0.4884
82551688|NCT03858634|164807558|SUPERIORITY||LS mean difference|-45.3|STANDARD_ERROR_OF_MEAN|31.63||0.2885|TWO_SIDED|80.0|-104.93|14.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||14.35|-104.93|0.2885
82551689|NCT03858634|164807558|SUPERIORITY||LS mean difference|5.2|STANDARD_ERROR_OF_MEAN|11.24||0.6505|TWO_SIDED|80.0|-9.73|20.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||20.06|-9.73|0.6505
82551690|NCT03858634|164807558|SUPERIORITY||LS mean difference|-72.1|STANDARD_ERROR_OF_MEAN|5.72||0.0062|TWO_SIDED|80.0|-82.91|-61.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-61.34|-82.91|0.0062
82551691|NCT03858634|164807558|SUPERIORITY||LS mean difference|-19.6|STANDARD_ERROR_OF_MEAN|9.62||0.0571|TWO_SIDED|80.0|-32.34|-6.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.76|-32.34|0.0571
82551692|NCT03858634|164807558|SUPERIORITY||LS mean difference|-50.1|STANDARD_ERROR_OF_MEAN|0.0|||TWO_SIDED|||||||||Change at Week 6||||
82551693|NCT03858634|164807558|SUPERIORITY||LS mean difference|-4.3|STANDARD_ERROR_OF_MEAN|10.65||0.6927|TWO_SIDED|80.0|-18.38|9.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||9.84|-18.38|0.6927
82551694|NCT03858634|164807558|SUPERIORITY||LS mean difference|-65.6|STANDARD_ERROR_OF_MEAN|4.08||0.0038|TWO_SIDED|80.0|-73.33|-57.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-57.94|-73.33|0.0038
82551695|NCT03858634|164807558|SUPERIORITY||LS mean difference|-17.4|STANDARD_ERROR_OF_MEAN|9.82||0.094|TWO_SIDED|80.0|-30.43|-4.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-4.30|-30.43|0.0940
82551696|NCT03858634|164807558|SUPERIORITY||LS mean difference|-72.4|STANDARD_ERROR_OF_MEAN|19.73||0.1694|TWO_SIDED|80.0|-133.1|-11.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-11.65|-133.10|0.1694
82551697|NCT03858634|164807558|SUPERIORITY||LS mean difference|2.8|STANDARD_ERROR_OF_MEAN|10.07||0.7811|TWO_SIDED|80.0|-10.5|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||16.18|-10.50|0.7811
82477013|NCT03698591|164649516|OTHER||F-statistic|0.004||||0.948|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.948
82551698|NCT03858634|164807558|SUPERIORITY||LS mean difference|-68.2|STANDARD_ERROR_OF_MEAN|2.28||0.0011|TWO_SIDED|80.0|-72.51|-63.91||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-63.91|-72.51|0.0011
82551699|NCT03858634|164807558|SUPERIORITY||LS mean difference|-23.4|STANDARD_ERROR_OF_MEAN|9.52||0.0245|TWO_SIDED|80.0|-36.02|-10.7||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-10.70|-36.02|0.0245
82551700|NCT03858634|164807558|SUPERIORITY||LS mean difference|-61.8|STANDARD_ERROR_OF_MEAN|5.87||0.0603|TWO_SIDED|80.0|-79.88|-43.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-43.74|-79.88|0.0603
82551701|NCT03858634|164807558|SUPERIORITY||LS mean difference|7.9|STANDARD_ERROR_OF_MEAN|9.89||0.4365|TWO_SIDED|80.0|-5.29|21.04||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||21.04|-5.29|0.4365
82551702|NCT03858634|164807558|SUPERIORITY||LS mean difference|-68.7|STANDARD_ERROR_OF_MEAN|10.3||0.0218|TWO_SIDED|80.0|-88.11|-49.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-49.26|-88.11|0.0218
82551703|NCT03858634|164807558|SUPERIORITY||LS mean difference|-19.5|STANDARD_ERROR_OF_MEAN|12.07||0.1238|TWO_SIDED|80.0|-35.65|-3.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-3.45|-35.65|0.1238
82551704|NCT03858634|164807558|SUPERIORITY||LS mean difference|-54.8|STANDARD_ERROR_OF_MEAN|23.38||0.1437|TWO_SIDED|80.0|-98.88|-10.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-10.72|-98.88|0.1437
82551705|NCT03858634|164807558|SUPERIORITY||LS mean difference|0.9|STANDARD_ERROR_OF_MEAN|10.14||0.9279|TWO_SIDED|80.0|-12.56|14.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||14.43|-12.56|0.9279
82551706|NCT03858634|164807558|SUPERIORITY||LS mean difference|-59.5|STANDARD_ERROR_OF_MEAN|9.67||0.0254|TWO_SIDED|80.0|-77.69|-41.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-41.24|-77.69|0.0254
82551707|NCT03858634|164807558|SUPERIORITY||LS mean difference|-18.8|STANDARD_ERROR_OF_MEAN|10.8||0.0994|TWO_SIDED|80.0|-33.23|-4.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-4.43|-33.23|0.0994
82580654|NCT04187989|164872721|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.342|STANDARD_ERROR_OF_MEAN|0.175||0.051|TWO_SIDED|95.0|-0.689|0.005|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs||.005|-.689|.051
82477014|NCT03698591|164649517|OTHER||F-statistic|0.031||||0.862|TWO_SIDED|||||P-value corresponds to the two way interaction of task condition and study arm . A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distancing self-reported effort would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.862
82551708|NCT03858634|164807558|SUPERIORITY||LS mean difference|-45.7|STANDARD_ERROR_OF_MEAN|39.36||0.3656|TWO_SIDED|80.0|-119.9|28.54||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||28.54|-119.90|0.3656
82551709|NCT03858634|164807558|SUPERIORITY||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|8.92||0.7465|TWO_SIDED|80.0|-14.79|8.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||8.94|-14.79|0.7465
82551710|NCT03858634|164807558|SUPERIORITY||LS mean difference|-82.3|STANDARD_ERROR_OF_MEAN|10.3||0.0153|TWO_SIDED|80.0|-101.75|-62.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-62.90|-101.75|0.0153
82551711|NCT03858634|164807558|SUPERIORITY||LS mean difference|-16.6|STANDARD_ERROR_OF_MEAN|12.97||0.2184|TWO_SIDED|80.0|-33.88|0.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||0.72|-33.88|0.2184
82551712|NCT03858634|164807558|SUPERIORITY||LS mean difference|-8.1|STANDARD_ERROR_OF_MEAN|25.78||0.7726|TWO_SIDED|80.0|-50.37|34.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||34.07|-50.37|0.7726
82551713|NCT03858634|164807558|SUPERIORITY||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|12.66||0.476|TWO_SIDED|80.0|-26.07|7.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||7.63|-26.07|0.4760
82551714|NCT03858634|164807558|SUPERIORITY||LS mean difference|-82.1|STANDARD_ERROR_OF_MEAN|9.12||0.0121|TWO_SIDED|80.0|-99.26|-64.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-64.87|-99.26|0.0121
82551715|NCT03858634|164807558|SUPERIORITY||LS mean difference|-13.0|STANDARD_ERROR_OF_MEAN|13.06||0.3329|TWO_SIDED|80.0|-30.43|4.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||4.40|-30.43|0.3329
82551716|NCT03858634|164807558|SUPERIORITY||LS mean difference|-1.7|STANDARD_ERROR_OF_MEAN|28.46||0.9564|TWO_SIDED|80.0|-48.31|44.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||44.92|-48.31|0.9564
82551717|NCT03858634|164807558|SUPERIORITY||LS mean difference|-7.9|STANDARD_ERROR_OF_MEAN|13.49||0.5661|TWO_SIDED|80.0|-25.84|10.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||10.06|-25.84|0.5661
82477015|NCT03698591|164649517|OTHER||F-statistic|4.04||||0.054|TWO_SIDED|||||P-value corresponds to the main effect of study period. A priori threshold of p \< .05.|ANOVA|||A follow-up ANOVA was run with within-subjects factors of task condition and study period.||||.054
82477016|NCT03698591|164649517|OTHER||t-statistic|2.694||||0.012|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A follow-up dependent-samples t-test was run to test a potential effect of study period on distancing effort.||||.012
82477017|NCT03698591|164649517|OTHER||F-statistic|3.196||||0.085|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.085
82477018|NCT03698591|164649517|OTHER||F-statistic|7.162||||0.013|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||This analysis examined the effect of study arm specifically on distancing effort. The within-subjects factor was study arm, between-subjects factor was study arm order, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.013
82477019|NCT03698591|164649518|OTHER||F-statistic|6.155||||0.019|TWO_SIDED|||||P-value corresponds to 3 way interaction. A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distraction performance would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.019
82477020|NCT03698591|164649518|OTHER||F-statistic|5.911||||0.021|TWO_SIDED|||||P-value corresponds to two-way interaction. A priori significance threshold of p \< .05.|ANOVA|||This analysis evaluated the two-way interaction of task condition and study period. The null hypothesis was that distraction performance would not differ by study period. Within-subjects factors included task condition and study period.||||.021
82477021|NCT03698591|164649518|OTHER||t-statistic|1.282||||0.21|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A dependent-samples t-test was used to compare distraction performance between study periods 1 and 2. The null hypothesis was that distraction performance would not differ by study period.||||.210
82477022|NCT03698591|164649518|OTHER||F-statistic|0.004||||0.948|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.948
82477023|NCT03698591|164649519|OTHER||F-statistic|0.031||||0.862|TWO_SIDED|||||P-value corresponds to the two way interaction of task condition and study arm . A priori significance threshold of p \< .05.|ANOVA|||The null hypothesis was that distraction self-reported effort would not differ by arm of the study. Within-subjects factors included task condition (distancing vs. distraction) and study arm. Study arm order was used as a between-subjects factor.||||.862
82477024|NCT03698591|164649519|OTHER||F-statistic|4.04||||0.054|TWO_SIDED|||||P-value corresponds to the main effect of study period. A priori threshold of p \< .05.|ANOVA|||A follow-up ANOVA was run with within-subjects factors of task condition and study period.||||.054
82477025|NCT03698591|164649519|OTHER||t-statistic|0.828||||0.415|TWO_SIDED|||||A priori significance threshold of p \< .05.|t-test, 2 sided|||A follow-up dependent-samples t-test was run to test the effect of study period on distraction effort.||||.415
82477026|NCT03698591|164649519|OTHER||F-statistic|3.196||||0.085|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||Post-hoc analyses were used to explore treatment effects using covariates related to the treatment parameters. For this analysis, study arm and task condition were used as within-subjects factors, study arm order was used as a between-subjects factor, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.085
82477027|NCT03698591|164649519|OTHER||F-statistic|0.396||||0.535|TWO_SIDED|||||A priori threshold of p \< .05. This value reflects the test of the main effect of study arm.|ANOVA|||This analysis examined the effect of study arm specifically on distraction performance. The within-subjects factor was study arm, between-subjects factor was study arm order, and TMS stimulator intensity and brain-target-to-scalp distance were used as covariates.||||.535
82477028|NCT01379508|164649539|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-4.0|||||TWO_SIDED|95.0|-10.5|2.5||||||Missing DNA data at Wk 52=failure: To evaluate the primary objective, Mantel-Haenszel weighted estimates approach (stratified by HBV DNA level (\< 7 log10 copies/mL or ≥ 7 log10 copies/mL) and ALT (\< 3×ULN or ≥ 3×ULN) at baseline) was employed to assess the proportion of patients (response rate) who achieve HBV DNA \< 300 copies/mL after 52 weeks treatment in each treatment arm, as well as the difference in proportions (telbivudine - tenofovir arm) and the 95% CI of the difference.||2.5|-10.5|
82477029|NCT01379508|164649539|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference was above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-3.1|||||TWO_SIDED|95.0|-9.4|3.1||||||Imputing +/- 7 days DNA for Wk 52: To evaluate the primary objective, Mantel-Haenszel weighted estimates approach (stratified by HBV DNA level (\< 7 log10 copies/mL or ≥ 7 log10 copies/mL) and ALT (\< 3×ULN or ≥ 3×ULN) at baseline) was employed to assess the proportion of patients (response rate) who achieve HBV DNA \< 300 copies/mL after 52 weeks treatment in each treatment arm, as well as the difference in proportions (telbivudine - tenofovir arm) and the 95% CI of the difference.||3.1|-9.4|
82477030|NCT01379508|164649539|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-3.8|||||TWO_SIDED|95.0|-7.9|0.4||||||Imputing LOCF DNA for wk 52: d/c for non response prior to Wk 52: Treating missing as failure for patients who discontinued prior to Week 52 due to unsatisfactory therapeutic effect and imputing missing with LOCF for other patients||0.4|-7.9|
82551718|NCT03858634|164807558|SUPERIORITY||LS mean difference|-82.1|STANDARD_ERROR_OF_MEAN|9.12||0.0121|TWO_SIDED|80.0|-99.26|-64.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-64.87|-99.26|0.0121
82551719|NCT03858634|164807558|SUPERIORITY||LS mean difference|-11.1|STANDARD_ERROR_OF_MEAN|13.7||0.4275|TWO_SIDED|80.0|-29.4|7.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||7.13|-29.40|0.4275
82551720|NCT03858634|164807563|SUPERIORITY||LS mean difference|-27.9|STANDARD_ERROR_OF_MEAN|40.54||0.5403|TWO_SIDED|80.0|-94.32|38.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||38.46|-94.32|0.5403
82551721|NCT03858634|164807563|SUPERIORITY||LS mean difference|376.1|STANDARD_ERROR_OF_MEAN|631.83||0.5587|TWO_SIDED|80.0|-462.83|1214.97||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||1214.97|-462.83|0.5587
82551722|NCT03858634|164807563|SUPERIORITY||LS mean difference|-67.7|STANDARD_ERROR_OF_MEAN|72.99||0.4516|TWO_SIDED|80.0|-205.33|69.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||69.93|-205.33|0.4516
82551723|NCT03858634|164807563|SUPERIORITY||LS mean difference|-12.5|STANDARD_ERROR_OF_MEAN|9.5||0.2052|TWO_SIDED|80.0|-25.13|0.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||0.15|-25.13|0.2052
82551724|NCT03858634|164807563|SUPERIORITY||LS mean difference|-59.4|STANDARD_ERROR_OF_MEAN|38.89||0.224|TWO_SIDED|80.0|-123.09|4.28||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||4.28|-123.09|0.2240
82551725|NCT03858634|164807563|SUPERIORITY||LS mean difference|39.5|STANDARD_ERROR_OF_MEAN|48.33||0.4242|TWO_SIDED|80.0|-24.7|103.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||103.65|-24.70|0.4242
82551726|NCT03858634|164807563|SUPERIORITY||LS mean difference|-77.2|STANDARD_ERROR_OF_MEAN|78.61||0.4295|TWO_SIDED|80.0|-225.44|71.01||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||71.01|-225.44|0.4295
82551727|NCT03858634|164807563|SUPERIORITY||LS mean difference|-18.7|STANDARD_ERROR_OF_MEAN|14.97||0.2272|TWO_SIDED|80.0|-38.64|1.2||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||1.20|-38.64|0.2272
82551728|NCT03858634|164807563|SUPERIORITY||LS mean difference|-55.1|STANDARD_ERROR_OF_MEAN|48.9||0.3416|TWO_SIDED|80.0|-135.23|24.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||24.95|-135.23|0.3416
82551729|NCT03858634|164807563|SUPERIORITY||LS mean difference|57.6|STANDARD_ERROR_OF_MEAN|69.75||0.4192|TWO_SIDED|80.0|-35.02|150.19||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||150.19|-35.02|0.4192
82551730|NCT03858634|164807563|SUPERIORITY||LS mean difference|-66.8|STANDARD_ERROR_OF_MEAN|87.42||0.5245|TWO_SIDED|80.0|-231.66|98.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||98.02|-231.66|0.5245
82551731|NCT03858634|164807563|SUPERIORITY||LS mean difference|-17.8|STANDARD_ERROR_OF_MEAN|13.31||0.1988|TWO_SIDED|80.0|-35.47|-0.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-0.05|-35.47|0.1988
82551732|NCT03858634|164807563|SUPERIORITY||LS mean difference|-69.2|STANDARD_ERROR_OF_MEAN|56.11||0.3054|TWO_SIDED|80.0|-161.08|22.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||22.72|-161.08|0.3054
82551733|NCT03858634|164807563|SUPERIORITY||LS mean difference|229.4|STANDARD_ERROR_OF_MEAN|377.23||0.5504|TWO_SIDED|80.0|-271.51|730.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||730.22|-271.51|0.5504
82551734|NCT03858634|164807563|SUPERIORITY||LS mean difference|-71.2|STANDARD_ERROR_OF_MEAN|76.27||0.4493|TWO_SIDED|80.0|-214.96|72.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||72.65|-214.96|0.4493
82551735|NCT03858634|164807563|SUPERIORITY||LS mean difference|-40.3|STANDARD_ERROR_OF_MEAN|20.63||0.0665|TWO_SIDED|80.0|-67.74|-12.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-12.85|-67.74|0.0665
82551736|NCT03858634|164807563|SUPERIORITY||LS mean difference|-78.7|STANDARD_ERROR_OF_MEAN|54.04||0.2411|TWO_SIDED|80.0|-167.25|9.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||9.75|-167.25|0.2411
82551737|NCT03858634|164807563|SUPERIORITY||LS mean difference|60.8|STANDARD_ERROR_OF_MEAN|79.3||0.4528|TWO_SIDED|80.0|-44.51|166.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||166.08|-44.51|0.4528
82551738|NCT03858634|164807563|SUPERIORITY||LS mean difference|-41.4|STANDARD_ERROR_OF_MEAN|75.46||0.6381|TWO_SIDED|80.0|-183.72|100.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||100.85|-183.72|0.6381
82551739|NCT03858634|164807563|SUPERIORITY||LS mean difference|-31.5|STANDARD_ERROR_OF_MEAN|17.22||0.0837|TWO_SIDED|80.0|-54.44|-8.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-8.62|-54.44|0.0837
82551740|NCT03858634|164807563|SUPERIORITY||LS mean difference|-74.7|STANDARD_ERROR_OF_MEAN|66.45||0.3428|TWO_SIDED|80.0|-183.53|34.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||34.13|-183.53|0.3428
82551741|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|21.8|STANDARD_ERROR_OF_MEAN|22.93||0.3533|TWO_SIDED|80.0|-8.63|52.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||52.27|-8.63|0.3533
82551742|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-63.9|STANDARD_ERROR_OF_MEAN|56.53||0.3755|TWO_SIDED|80.0|-170.51|42.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||42.66|-170.51|0.3755
82551743|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-37.6|STANDARD_ERROR_OF_MEAN|15.6||0.0268|TWO_SIDED|80.0|-58.39|-16.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-16.87|-58.39|0.0268
82586048|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.292|||||||t-test, 2 sided|||Two sample t-test comparing baseline and day 21 H0: There is no change in mean force between baseline and day 21 HA: There is change in mean force between baseline and day 21||||0.292
82477031|NCT01379508|164649539|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was derived if the lower limit of two-sided 95% CI for the difference lied above the pre-determined non-inferiority margin (-10%).|Difference in percentage|-2.3|||||TWO_SIDED|95.0|-8.3|3.8||||||Imputing within +28d DNA for wk52: d/c for non response \<28 days from Wk 52:Treating missing as failure for patients who discontinued prior to Week 52 due to unsatisfactory therapeutic effect and imputing missing with the earliest available assessment within the 28-day window starting from the scheduled Week 52 date for other patients (if no such assessment is available, treated as failure)||3.8|-8.3|
82477032|NCT00695097|164649560|SUPERIORITY_OR_OTHER|||||||0.25||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (Baseline)compared to post-treatment (follow-up) CD3 cell density||||0.25
82477033|NCT00695097|164649560|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (Baseline) compared to post-treatment (follow-up) CD3 cell density||||0.46
82477034|NCT00695097|164649560|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||pretreatment (baseline) compared to post-treatment (follow-up) biopsy CD20 cell density||||0.054
82477035|NCT00695097|164649560|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P \< 0.05 threshold of significance|t-test, 2 sided|||Pretreatment (baseline) compared to post-treatment (follow-up) CD20 cell density||||0.62
82477036|NCT02937584|164649616|OTHER||Geometric mean ratio to baseline|1.11||||0.0187|TWO_SIDED|95.0|1.02|1.22||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||1.22|1.02|0.0187
82477037|NCT02937584|164649616|OTHER||Geometric mean ratio to baseline|1.23|||<|0.0001|TWO_SIDED|95.0|1.14|1.33||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||1.33|1.14|<0.0001
82477038|NCT02937584|164649617|OTHER||Geometric mean ratio to baseline|0.75||||0.0219|TWO_SIDED|95.0|0.59|0.95||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.95|0.59|0.0219
82477039|NCT02937584|164649617|OTHER||Geometric mean ratio to baseline|0.56|||<|0.0001|TWO_SIDED|95.0|0.44|0.71||Statistical significance assessed using Hochberg's procedure applied across primary endpoints within each treatment|t-test, 2 sided|Within-group comparison to baseline using paired test||||0.71|0.44|<0.0001
82477040|NCT02937584|164649618|OTHER||Geometric mean ratio to baseline|1.12||||0.0283|TWO_SIDED|95.0|1.01|1.24|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.24|1.01|0.0283
82477041|NCT02937584|164649618|OTHER||Geometric mean ratio to baseline|1.21|||<|0.0001|TWO_SIDED|95.0|1.12|1.31|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.31|1.12|<0.0001
82477042|NCT02937584|164649619|OTHER||Geometric mean ratio to baseline|0.76||||0.0304|TWO_SIDED|95.0|0.59|0.97|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.97|0.59|0.0304
82477043|NCT02937584|164649619|OTHER||Geometric mean ratio to baseline|0.55||||0.0003|TWO_SIDED|95.0|0.41|0.72|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.72|0.41|0.0003
82477044|NCT02937584|164649620|OTHER||Mean Change from Baseline|0.065||||0.1582|TWO_SIDED|95.0|-0.028|0.158|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.158|-0.028|0.1582
82477045|NCT02937584|164649620|OTHER||Mean Change from Baseline|0.151||||0.0375|TWO_SIDED|95.0|0.01|0.292|||t-test, 2 sided|Within-group comparison to baseline using paired test||||0.292|0.010|0.0375
82477046|NCT02937584|164649621|OTHER||Geometric mean ratio to baseline|0.978||||0.6176|TWO_SIDED|95.0|0.891|1.073|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.073|0.891|0.6176
82477047|NCT02937584|164649621|OTHER||Geometric mean ratio to baseline|0.938||||0.2699|TWO_SIDED|95.0|0.833|1.056|||t-test, 2 sided|Within-group comparison to baseline using paired test||||1.056|0.833|0.2699
82477048|NCT00505076|164649650|SUPERIORITY_OR_OTHER|||||||0.21|||||||ANCOVA|||An analysis of covariance (ANCOVA), adjusting for baseline scores, was used to compare treatment groups on cognitive and functional measures. The predefined primary cognition outcome measure was the MCCB (MATRICS (Measurement and Treatment Research to Improve Cognition in Schizophrenia Research) Consensus Cognitive Battery) composite T-score, tested at overall two-sided alpha=0.05.||||0.21
82477049|NCT00505076|164649651|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||The sample size was determined using the analysis of covariance power formula, n=2\[za+zβ\]2s2 (1-R2)/d2, with za=2.24, zβ=0.842 (corresponding to power=0.80), R=the correlation between baseline and end of study measures of the outcome, d the difference between groups, and s the standard deviation of the outcome. Actual recruitment was only about 20 participants per group, but the observed R≅0.9, suggesting power to detect an effect size of 0.49.||||0.47
82477050|NCT00505076|164649652|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||ANCOVA|||The sample size was determined using the analysis of covariance power formula, n=2\[za+zβ\]2s2 (1-R2)/d2, with za=2.24, zβ=0.842 (corresponding to power=0.80), R=the correlation between baseline and end of study measures of the outcome, d the difference between groups, and s the standard deviation of the outcome. Actual recruitment was only about 20 participants per group, but the observed R≅0.9, suggesting power to detect an effect size of 0.49.||||0.84
82477051|NCT02250703|164649653|SUPERIORITY_OR_OTHER|||||||0.025||||||Difference in proportions in satisfactory sedation on separation from parents and on induction between M and D groups (Primary Outcome variables)|Chi-squared|||A sample size of at least 33 patients in each group would detect at least 30% difference in proportion of children who achieve satisfactory sedation between the M and D groups at 0.05 level of significance and 80% power||||0.025
82551744|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-79.5|STANDARD_ERROR_OF_MEAN|43.79||0.1672|TWO_SIDED|80.0|-151.2|-7.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-7.75|-151.20|0.1672
82477052|NCT02250703|164649654|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82551745|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|43.7|STANDARD_ERROR_OF_MEAN|45.81||0.3518|TWO_SIDED|80.0|-17.09|104.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||104.55|-17.09|0.3518
82477053|NCT02250703|164649655|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82477054|NCT02250703|164649656|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82376968|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.23||||0.001|TWO_SIDED|95.0|2.04|5.13|||t-test, 2 sided|||Sevoflurane administration in developing postoperative headache||5.13|2.04|0.001
82477055|NCT04093024|164649663|OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.9858|TWO_SIDED|95.0|-0.8|0.8|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||0.8|-0.8|0.9858
82477056|NCT04093024|164649664|OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9769|TWO_SIDED|95.0|-1.7|1.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||1.6|-1.7|0.9769
82477057|NCT04093024|164649666|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.4||0.4442|TWO_SIDED|95.0|-1.8|4.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||4.0|-1.8|0.4442
82477058|NCT04093024|164649669|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.8||0.882|TWO_SIDED|95.0|-1.5|1.8|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||1.8|-1.5|0.8820
82477059|NCT04093024|164649670|OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|1.6||0.9652|TWO_SIDED|95.0|-3.2|3.3|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||3.3|-3.2|0.9652
82477060|NCT04093024|164649671|OTHER||Adjusted mean difference|-2.6|STANDARD_ERROR_OF_MEAN|3.1||0.4084|TWO_SIDED|95.0|-9.3|4.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||4.0|-9.3|0.4084
82477061|NCT04093024|164649672|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9928|TWO_SIDED|95.0|-1.6|1.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||1.6|-1.6|0.9928
82477062|NCT04093024|164649673|OTHER||Adjusted mean difference|0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6366|TWO_SIDED|95.0|-2.3|3.6|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||3.6|-2.3|0.6366
82477063|NCT04093024|164649674|OTHER||Adjusted mean difference|0.4|STANDARD_ERROR_OF_MEAN|2.3||0.8823|TWO_SIDED|95.0|-5.2|5.9|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|No formal hypotheses were tested||5.9|-5.2|0.8823
82477064|NCT04093024|164649675|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.2052|STANDARD_ERROR_OF_MEAN|2.2491||0.5962|TWO_SIDED|95.0|-3.3966|5.807|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.8070|-3.3966|0.5962
82477065|NCT04093024|164649676|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.7733|STANDARD_ERROR_OF_MEAN|3.1424||0.5776|TWO_SIDED|95.0|-4.7015|8.2481|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||8.2481|-4.7015|0.5776
82477066|NCT04093024|164649677|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|-0.134|STANDARD_ERROR_OF_MEAN|4.316||0.9755|TWO_SIDED|95.0|-8.975|8.707|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||8.707|-8.975|0.9755
82477067|NCT04093024|164649678|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|3.453|STANDARD_ERROR_OF_MEAN|5.225||0.514|TWO_SIDED|95.0|-7.25|14.157|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||14.157|-7.250|0.5140
82551746|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-68.7|STANDARD_ERROR_OF_MEAN|49.22||0.2974|TWO_SIDED|80.0|-161.52|24.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||24.09|-161.52|0.2974
82551747|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-38.1|STANDARD_ERROR_OF_MEAN|18.6||0.0555|TWO_SIDED|80.0|-62.83|-13.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.33|-62.83|0.0555
82551748|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-78.3|STANDARD_ERROR_OF_MEAN|56.72||0.2614|TWO_SIDED|80.0|-171.17|14.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||14.62|-171.17|0.2614
82477068|NCT04093024|164649679|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|1.03|STANDARD_ERROR_OF_MEAN|3.358||0.7613|TWO_SIDED|95.0|-5.848|7.908|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||7.908|-5.848|0.7613
82551749|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|31.7|STANDARD_ERROR_OF_MEAN|37.89||0.4134|TWO_SIDED|80.0|-18.62|81.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||81.98|-18.62|0.4134
82477069|NCT04093024|164649680|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|5.049||0.9468|TWO_SIDED|95.0|-10.026|10.707|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||10.707|-10.026|0.9468
82551750|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-69.6|STANDARD_ERROR_OF_MEAN|44.99||0.262|TWO_SIDED|80.0|-154.44|15.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||15.24|-154.44|0.2620
82551751|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|16.7||0.0269|TWO_SIDED|80.0|-62.46|-18.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-18.02|-62.46|0.0269
82551752|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-81.2|STANDARD_ERROR_OF_MEAN|45.32||0.1709|TWO_SIDED|80.0|-155.46|-7.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-7.02|-155.46|0.1709
82551753|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|42.9|STANDARD_ERROR_OF_MEAN|12.98||0.0042|TWO_SIDED|80.0|25.61|60.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||60.22|25.61|0.0042
82551754|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-53.2|STANDARD_ERROR_OF_MEAN|47.22||0.3772|TWO_SIDED|80.0|-142.19|35.88||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||35.88|-142.19|0.3772
82551755|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-28.3|STANDARD_ERROR_OF_MEAN|15.54||0.0857|TWO_SIDED|80.0|-49.06|-7.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-7.63|-49.06|0.0857
82551756|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-77.3|STANDARD_ERROR_OF_MEAN|26.34||0.0607|TWO_SIDED|80.0|-120.48|-34.2||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-34.20|-120.48|0.0607
82551757|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|88.8|STANDARD_ERROR_OF_MEAN|124.79||0.4862|TWO_SIDED|80.0|-77.57|255.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||255.22|-77.57|0.4862
82551758|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-53.2|STANDARD_ERROR_OF_MEAN|49.73||0.3968|TWO_SIDED|80.0|-146.96|40.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||40.58|-146.96|0.3968
82551759|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|16.57||0.1624|TWO_SIDED|80.0|-46.31|-2.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-2.11|-46.31|0.1624
82551760|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-76.8|STANDARD_ERROR_OF_MEAN|37.75||0.1349|TWO_SIDED|80.0|-138.58|-14.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-14.93|-138.58|0.1349
82551761|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|45.5|STANDARD_ERROR_OF_MEAN|21.81||0.0525|TWO_SIDED|80.0|16.38|74.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||74.56|16.38|0.0525
82551762|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-76.6|STANDARD_ERROR_OF_MEAN|50.98||0.2719|TWO_SIDED|80.0|-172.71|19.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||19.55|-172.71|0.2719
82551763|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-30.7|STANDARD_ERROR_OF_MEAN|17.39||0.0957|TWO_SIDED|80.0|-53.86|-7.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-7.49|-53.86|0.0957
82551764|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-79.8|STANDARD_ERROR_OF_MEAN|32.98||0.0942|TWO_SIDED|80.0|-133.83|-25.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-25.78|-133.83|0.0942
82551765|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|34.6|STANDARD_ERROR_OF_MEAN|23.6||0.1606|TWO_SIDED|80.0|3.16|66.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||66.09|3.16|0.1606
82551766|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-77.0|STANDARD_ERROR_OF_MEAN|42.2||0.2096|TWO_SIDED|80.0|-156.58|2.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||2.58|-156.58|0.2096
82551767|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-29.3|STANDARD_ERROR_OF_MEAN|18.32||0.1279|TWO_SIDED|80.0|-53.74|-4.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-4.89|-53.74|0.1279
82551768|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-75.0|STANDARD_ERROR_OF_MEAN|23.17||0.0479|TWO_SIDED|80.0|-112.96|-37.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-37.08|-112.96|0.0479
82551769|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|32.8|STANDARD_ERROR_OF_MEAN|22.91||0.17|TWO_SIDED|80.0|2.28|63.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||63.37|2.28|0.1700
82551770|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-80.1|STANDARD_ERROR_OF_MEAN|29.67||0.1142|TWO_SIDED|80.0|-136.03|-24.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-24.15|-136.03|0.1142
82477070|NCT04093024|164649681|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.33||0.0908|TWO_SIDED|95.0|-0.39|5.02|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.02|-0.39|0.0908
82477071|NCT04093024|164649682|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|2.28|STANDARD_ERROR_OF_MEAN|1.39||0.1222|TWO_SIDED|95.0|-0.69|5.25|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||5.25|-0.69|0.1222
82477072|NCT04093024|164649683|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|7.2|STANDARD_ERROR_OF_MEAN|28.2||0.8012|TWO_SIDED|95.0|-50.7|65.0|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||65.0|-50.7|0.8012
82477073|NCT04093024|164649684|OTHER|No formal hypotheses were tested|Adjusted Mean Difference|-32.9|STANDARD_ERROR_OF_MEAN|33.8||0.3401|TWO_SIDED|95.0|-103.1|37.2|||Mixed Model Repeated Measures (MMRM)|Fixed categorical effects: (Randomised) treatment, age-group; Fixed continuous effects: Baseline at each visit, random effect for participant.|Adjusted mean difference was calculated as 'Randomised Nintedanib - randomised placebo'.|||37.2|-103.1|0.3401
82477074|NCT00647270|164649693|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.074|TWO_SIDED|95.0|-13.3|7.4|||Chi-squared||Treatment difference between adalimumab 80 mg monthly and placebo divided by the difference between adalimumab 40 mg eow and placebo.|Adalimumab 80 mg monthly versus placebo: The null hypothesis associated with this comparison stated that adalimumab 80 mg monthly would be inferior to placebo with respect to ACR20 response percentage; the alternative hypothesis was that adalimumab 80 mg monthly would be superior to placebo with respect to ACR20 response.||7.4|-13.3|0.074
82477075|NCT00647270|164649693|NON_INFERIORITY_OR_EQUIVALENCE|A sensitivity analysis was proposed for the non-inferiority comparison. If the lower confidence limit of θ80 - θ40 was greater than -0.1, then the non-inferiority of adalimumab 80 mg monthly to adalimumab 40 mg eow would be claimed||||||0.74||95.0||||Non - inferiority of adalimumab 80 mg monthly compared with 40 mg eow could not be tested because the null hypothesis of the first comparison was not rejected.|Chi-squared|||The non-inferiority of adalimumab 80 mg monthly to adalimumab 40 mg every other week (eow) was to be claimed if at least 50% of the treatment effect of adalimumab 40 mg eow over placebo was to be achieved by adalimumab 80 mg monthly over placebo.||||0.74
82477076|NCT00647270|164649694|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
82477077|NCT00647270|164649695|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.005
82477078|NCT00647270|164649695|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
82477079|NCT00647270|164649696|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||The ANCOVA Model was adjusted for the Baseline Measure.|ANCOVA|||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.002
82477080|NCT00647270|164649697|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||The ANCOVA Model was adjusted for Baseline Measure.|ANCOVA|The ANCOVA Model was adjusted for Baseline Measure.||Using a fixed-sequence multiple-testing approach at an alpha level of 0.05 to test the secondary endpoints, the testing of the null-hypothesis began with the first endpoint and stopped as soon as failure to reject a hypothesis occurred (i.e., P value \> 0.05). Using this procedure, testing stopped after secondary endpoint number 1, change from Baseline in HAQ at Week 12.||||0.005
82477081|NCT03615040|164649698|SUPERIORITY||Incidence Rate Ratio|0.78|STANDARD_ERROR_OF_MEAN|0.15||0.195|TWO_SIDED|95.0|0.53|1.14|||t-test, 2 sided|||A generalised linear model (assuming neg. binomial distribution) was used. The model includes the number of exacerbations during the 48 week treatment as an outcome with explanatory variables of treatment arm \& number of exacerbations in the 12 months prior to the trial (stratification factor), and log-time on trial (in weeks) as an offset. The offset, allows for different lengths of time in the trial. Only observed exacerbations were used alongside the corresponding time period in the offset.||1.14|0.53|0.195
82580655|NCT04187989|164872722|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.064|STANDARD_ERROR_OF_MEAN|0.176||0.714|TWO_SIDED|95.0|-0.412|0.284|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model||We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|.284|-.412|.714
82586049|NCT00822523|164884095|SUPERIORITY_OR_OTHER|||||||0.589|||||||t-test, 2 sided|||Two sample t-test comparing baseline and month 4 H0: There is no change in mean force between baseline and month 4 HA: There is change in mean force between baseline and month 4||||0.589
82477082|NCT03615040|164649701|SUPERIORITY||Mean Difference (Net)|-3.3||||0.039|TWO_SIDED|95.0|-6.4|-0.2|||Mixed Models Analysis|||Calculated using mixed effect linear model with dependent variable of the outcome at baseline and follow-up time points (Week 4, 12, 24, 36, 48); explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score; an interaction term between treatment and visit as fixed effects; and patient identification as a random effect.||-0.2|-6.4|0.039
82477083|NCT03615040|164649702|SUPERIORITY||Mean Difference (Net)|0.53||||0.469|TWO_SIDED|95.0|-0.91|2.0|||Mixed Models Analysis|||Calculated using mixed effect linear model with dependent variable of the outcome at baseline and follow-up time points (Week 4, 12, 24, 36, 48); explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score; an interaction term between treatment and visit as fixed effects; and patient identification as a random effect.||2.00|-0.91|0.469
82477084|NCT03615040|164649703|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 4||||0.90
82477085|NCT03615040|164649703|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 12||||0.95
82477086|NCT03615040|164649703|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 24||||0.78
82477087|NCT03615040|164649703|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 36||||0.88
82477088|NCT03615040|164649703|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank sum test of mMRC dyspnoea Week 48||||0.78
82477089|NCT03615040|164649704|SUPERIORITY||Mean Difference (Net)|-9.4||||0.236|TWO_SIDED|95.0|-24.9|6.2||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS total||6.2|-24.9|0.236
82477090|NCT03615040|164649704|SUPERIORITY||Mean Difference (Net)|-4.9||||0.083|TWO_SIDED|95.0|-10.6|0.7||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Dyspnoea||0.7|-10.6|0.083
82477091|NCT03615040|164649704|SUPERIORITY||Mean Difference (Net)|-2.1||||0.546|TWO_SIDED|95.0|-8.9|4.7||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Cough||4.7|-8.9|0.546
82477092|NCT03615040|164649704|SUPERIORITY||Mean Difference (Net)|-1.9||||0.527|TWO_SIDED|95.0|-7.8|4.0||Using mixed effect linear model with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and baseline score as fixed effects.|Mixed Models Analysis|||VAS Sputum production||4.0|-7.8|0.527
82586050|NCT00822523|164884096|SUPERIORITY_OR_OTHER|||||||0.636|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing change in the three baseline force measurements H0: There no significant difference in the three baseline force measurements HA: There is a significant difference in the three baseline force measurements||||0.636
82477093|NCT03615040|164649705|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 12||||0.84
82477094|NCT03615040|164649705|SUPERIORITY|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 24||||0.52
82477095|NCT03615040|164649705|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 36||||0.82
82477096|NCT03615040|164649705|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||sputum purulence colour card Week 48||||0.95
82477097|NCT03615040|164649706|SUPERIORITY||Mean Difference (Final Values)|9.06||||0.069|TWO_SIDED|95.0|-0.83|18.97|||ANCOVA|||Pre BD FEV1/FVC ratio: Analysis of covariance (ANCOVA) adjusting for the baseline value||18.97|-0.83|0.069
82477098|NCT03615040|164649707|SUPERIORITY||Mean Difference (Net)|0.04||||0.094|TWO_SIDED|95.0|-0.01|0.09|||Mixed Models Analysis|||mixed effect linear model with explanatory variables of treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), visit time point (as categorical variable), baseline score and patient identification as a random effect to account for repeated measures over time was fitted for each outcome. Adjusted mean difference between treatment arms with 95% confidence interval and p-value were reported. In the modified ITT population.||0.09|-0.01|0.094
82477099|NCT03615040|164649708|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.905|TWO_SIDED|95.0|-0.46|0.52||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Total Lung Capacity||0.52|-0.46|0.905
82477100|NCT03615040|164649708|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.775|TWO_SIDED|95.0|-0.62|0.47||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Residual Volume||0.47|-0.62|0.775
82477101|NCT03615040|164649709|SUPERIORITY||Geometric mean ratio|1.01||||0.736|TWO_SIDED|95.0|0.95|1.07||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||White blood cell count||1.07|0.95|0.736
82477102|NCT03615040|164649709|SUPERIORITY||Geometric mean ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.51|0.69||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||Eosinophil Count||0.69|0.51|<0.001
82477103|NCT03615040|164649709|SUPERIORITY||Geometric mean ratio|1.02||||0.678|TWO_SIDED|95.0|0.93|1.13||"Outcome was log transformed~Explanatory variables:~treatment arm, number of exacerbations in the 12 months prior to the trial (stratification factor), log BL value, visit time point (categorical) and patient identification (random effect)."|Mixed Models Analysis|||Neutrophil Count||1.13|0.93|0.678
82477104|NCT03615040|164649710|SUPERIORITY||Geometric mean ratio|0.25|||<|0.001|TWO_SIDED|95.0|0.19|0.33||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects.|Mixed Models Analysis|||Eosinophil count||0.33|0.19|<0.001
82477105|NCT03615040|164649726|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.362|TWO_SIDED|95.0|-0.14|0.35|||ANCOVA|||Pre BD FVC (litres): Analysis of covariance (ANCOVA) adjusting for the baseline value||0.35|-0.14|0.362
82477106|NCT03615040|164649726|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.713|TWO_SIDED|95.0|-0.61|0.44|||ANCOVA|||Pre BD FVC (litre):Analysis of covariance (ANCOVA) adjusting for the baseline value||0.44|-0.61|0.713
82477107|NCT03615040|164649727|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.711|TWO_SIDED|95.0|-8.63|12.2|||ANCOVA|||Pre FEV1 predicted: Analysis of covariance (ANCOVA) adjusting for the baseline value||12.20|-8.63|0.711
82477108|NCT03615040|164649727|SUPERIORITY||Mean Difference (Final Values)|-10.4||||0.214|TWO_SIDED|95.0|-27.9|7.1|||ANCOVA|||Pre BD FVC predicted (%): Analysis of covariance (ANCOVA) adjusting for the baseline value||7.1|-27.9|0.214
82477109|NCT03615040|164649728|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.201|TWO_SIDED|95.0|-7.53|1.65||To compare change from baseline to 48 weeks (pre and post treatment measurements), analysis of covariance (ANCOVA) model with baseline value as a covariate was fitted. Adjusted mean difference with 95% confidence interval and p-value were reported.|ANCOVA|||Residual Volume/Total Lung Capacity ratio.||1.65|-7.53|0.201
82477110|NCT03615040|164649729|SUPERIORITY||Geometric mean ratio|0.75||||0.114|TWO_SIDED|95.0|0.52|1.07||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects|Mixed Models Analysis|||Macrophage count||1.07|0.52|0.114
82477111|NCT03615040|164649730|SUPERIORITY||Geometric mean ratio|0.79||||0.215|TWO_SIDED|95.0|0.54|1.15||A mixed effect linear model of the log outcome with explanatory variables treatment, number of exacerbations in the 12 months prior to the trial (stratification), visit time point (as categorical variable) and log baseline score as fixed effects.|Mixed Models Analysis|||Epithelium count||1.15|0.54|0.215
82477112|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.216|||||TWO_SIDED|95.0|-1.0|0.57||||||Placebo vs GSK1292263 75 mg: Day 7, pre-breakfast||0.57|-1.00|
82477113|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.29|||||TWO_SIDED|95.0|-0.53|1.11||||||Placebo vs GSK1292263 300 mg: Day 7, pre-breakfast||1.11|-0.53|
82477114|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.748|||||TWO_SIDED|95.0|-0.02|1.52||||||Placebo vs GSK1292263 600 mg: Day 7, pre-breakfast||1.52|-0.02|
82477115|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.207|||||TWO_SIDED|95.0|-2.01|-0.41||||||Placebo vs Sitagliptin 50 mg: Day 7, pre-breakfast||-0.41|-2.01|
82551771|NCT03858634|164807563|SUPERIORITY||LS Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|20.82||0.398|TWO_SIDED|80.0|-45.8|9.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||9.71|-45.80|0.3980
82551772|NCT03858634|164807565|SUPERIORITY||LS mean difference|-13.2|STANDARD_ERROR_OF_MEAN|17.11||0.4979|TWO_SIDED|80.0|-41.17|14.86||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||14.86|-41.17|0.4979
82551773|NCT03858634|164807565|SUPERIORITY||LS mean difference|21.7|STANDARD_ERROR_OF_MEAN|12.88||0.1079|TWO_SIDED|80.0|4.63|38.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||38.83|4.63|0.1079
82477116|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.991|||||TWO_SIDED|95.0|0.18|1.81||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 7 , pre-breakfast||1.81|0.18|
82477117|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.497|||||TWO_SIDED|95.0|0.66|2.34||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||2.34|0.66|
82477118|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.955|||||TWO_SIDED|95.0|1.16|2.75||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||2.75|1.16|
82477119|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.78|||||TWO_SIDED|95.0|-1.74|0.18||||||Placebo vs GSK1292263 75 mg: Day 14, pre-breakfast||0.18|-1.74|
82477120|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.188|||||TWO_SIDED|95.0|-0.81|1.19||||||Placebo vs GSK1292263 300 mg: Day 14, pre-breakfast||1.19|-0.81|
82477121|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.35|1.55||||||Placebo vs GSK1292263 600 mg: Day 14, pre-breakfast||1.55|-0.35|
82477122|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.069|||||TWO_SIDED|95.0|-2.05|-0.08||||||Placebo vs Sitagliptin 50 mg: Day 14, pre-breakfast||-0.08|-2.05|
82477123|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.289|||||TWO_SIDED|95.0|-0.71|1.29||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||1.29|-0.71|
82477124|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.257|||||TWO_SIDED|95.0|0.22|2.29||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||2.29|0.22|
82477125|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.669|||||TWO_SIDED|95.0|0.68|2.65||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||2.65|0.68|
82477126|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.556|||||TWO_SIDED|95.0|-1.65|0.54||||||Placebo vs GSK1292263 75 mg: Day 14, 24 hours||0.54|-1.65|
82477127|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.745|||||TWO_SIDED|95.0|-0.4|1.89||||||Placebo vs GSK1292263 300 mg: Day 14, 24 hours||1.89|-0.40|
82477128|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.711|||||TWO_SIDED|95.0|-0.36|1.78||||||Placebo vs GSK1292263 600 mg: Day 14, 24 hours||1.78|-0.36|
82477129|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-2.15|0.09||||||Placebo vs Sitagliptin 50 mg: Day 14, 24 hours||0.09|-2.15|
82477130|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.474|||||TWO_SIDED|95.0|-0.66|1.61||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, 24 hours||1.61|-0.66|
82477131|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.775|||||TWO_SIDED|95.0|0.6|2.95||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, 24 hours||2.95|0.60|
82477132|NCT01128621|164649794|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.741|||||TWO_SIDED|95.0|0.63|2.86||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, 24 hours||2.86|0.63|
82477133|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.195|||||TWO_SIDED|95.0|-17.17|17.56||||||Placebo vs GSK1292263 75 mg: Day 7, pre-breakfast||17.56|-17.17|
82477134|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.863|||||TWO_SIDED|95.0|-34.7|0.98||||||Placebo vs GSK1292263 300 mg: Day 7, pre-breakfast||0.98|-34.70|
82477135|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.46|||||TWO_SIDED|95.0|-23.04|12.12||||||Placebo vs GSK1292263 600 mg: Day 7, pre-breakfast||12.12|-23.04|
82477136|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.85|||||TWO_SIDED|95.0|-13.89|21.58||||||Placebo vs Sitagliptin 50 mg: Day 7, pre-breakfast||21.58|-13.89|
82477137|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.655|||||TWO_SIDED|95.0|-21.7|14.39||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||14.39|-21.70|
82477138|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.712|||||TWO_SIDED|95.0|-39.25|-2.17||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||-2.17|-39.25|
82477139|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.31|||||TWO_SIDED|95.0|-27.63|9.01||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 7, pre-breakfast||9.01|-27.63|
82477140|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.649|||||TWO_SIDED|95.0|-19.43|12.14||||||Placebo vs GSK1292263 75 mg: Day 14, pre-breakfast||12.14|-19.43|
82477141|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.66|||||TWO_SIDED|95.0|-32.72|-0.6||||||Placebo vs GSK1292263 300 mg: Day 14, pre-breakfast||-0.60|-32.72|
82477142|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.251|||||TWO_SIDED|95.0|-38.34|-6.16||||||Placebo vs GSK1292263 600 mg: Day 14, pre-breakfast||-6.16|-38.34|
82477143|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.59|||||TWO_SIDED|95.0|-20.69|11.51||||||Placebo vs Sitagliptin 50 mg: Day 14, pre-breakfast||11.51|-20.69|
82551774|NCT03858634|164807565|SUPERIORITY||LS mean difference|-35.6|STANDARD_ERROR_OF_MEAN|41.7||0.4837|TWO_SIDED|80.0|-114.19|43.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||43.07|-114.19|0.4837
82551775|NCT03858634|164807565|SUPERIORITY||LS mean difference|-10.5|STANDARD_ERROR_OF_MEAN|4.14||0.0208|TWO_SIDED|80.0|-15.99|-4.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||-4.98|-15.99|0.0208
82551776|NCT03858634|164807565|SUPERIORITY||LS mean difference|-16.2|STANDARD_ERROR_OF_MEAN|23.54||0.5413|TWO_SIDED|80.0|-54.74|22.38||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||22.38|-54.74|0.5413
82477144|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.941|||||TWO_SIDED|95.0|-15.4|17.28||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||17.28|-15.40|
82477145|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.07|||||TWO_SIDED|95.0|-28.82|4.68||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||4.68|-28.82|
82551777|NCT03858634|164807565|SUPERIORITY||LS mean difference|17.5|STANDARD_ERROR_OF_MEAN|12.22||0.1683|TWO_SIDED|80.0|1.28|33.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||33.74|1.28|0.1683
82551778|NCT03858634|164807565|SUPERIORITY||LS mean difference|-58.8|STANDARD_ERROR_OF_MEAN|54.45||0.3933|TWO_SIDED|80.0|-161.43|43.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||43.89|-161.43|0.3933
82477146|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.662|||||TWO_SIDED|95.0|-34.72|-0.6||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, pre-breakfast||-0.60|-34.72|
82551779|NCT03858634|164807565|SUPERIORITY||LS mean difference|-5.7|STANDARD_ERROR_OF_MEAN|6.25||0.3705|TWO_SIDED|80.0|-14.06|2.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||2.58|-14.06|0.3705
82551780|NCT03858634|164807565|SUPERIORITY||LS mean difference|-23.0|STANDARD_ERROR_OF_MEAN|35.63||0.5644|TWO_SIDED|80.0|-81.36|35.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||35.34|-81.36|0.5644
82551781|NCT03858634|164807565|SUPERIORITY||LS mean difference|6.6|STANDARD_ERROR_OF_MEAN|13.82||0.6384|TWO_SIDED|80.0|-11.75|24.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||24.94|-11.75|0.6384
82551782|NCT03858634|164807565|SUPERIORITY||LS mean difference|-58.6|STANDARD_ERROR_OF_MEAN|58.62||0.4229|TWO_SIDED|80.0|-169.13|51.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||51.95|-169.13|0.4229
82551783|NCT03858634|164807565|SUPERIORITY||LS mean difference|-16.3|STANDARD_ERROR_OF_MEAN|11.38||0.1688|TWO_SIDED|80.0|-31.47|-1.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-1.18|-31.47|0.1688
82551784|NCT03858634|164807565|SUPERIORITY||LS mean difference|-59.6|STANDARD_ERROR_OF_MEAN|28.11||0.1243|TWO_SIDED|80.0|-105.59|-13.53||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-13.53|-105.59|0.1243
82477147|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.101|||||TWO_SIDED|95.0|-44.0|5.8||||||Placebo vs GSK1292263 75 mg: Day 14, 24 hours||5.80|-44.00|
82477148|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.976|||||TWO_SIDED|95.0|-53.56|-2.39||||||Placebo vs GSK1292263 300 mg: Day 14, 24 hours||-2.39|-53.56|
82477149|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.609|||||TWO_SIDED|95.0|-48.82|1.6||||||Placebo vs GSK1292263 600 mg: Day 14, 24 hours||1.60|-48.82|
82477150|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.094|||||TWO_SIDED|95.0|-22.34|28.53||||||Placebo vs Sitagliptin 50 mg: Day 14, 24 hours||28.53|-22.34|
82477151|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.194|||||TWO_SIDED|95.0|-48.07|3.69||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Day 14, 24 hours||3.69|-48.07|
82477152|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-31.07|||||TWO_SIDED|95.0|-57.66|-4.48||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Day 14, 24 hours||-4.48|-57.66|
82477153|NCT01128621|164649795|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.703|||||TWO_SIDED|95.0|-52.98|-0.42||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Day 14, 24 hours||-0.42|-52.98|
82477154|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.5|0.5||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 7||0.50|-1.50|
82551785|NCT03858634|164807565|SUPERIORITY||LS mean difference|6.9|STANDARD_ERROR_OF_MEAN|16.79||0.6841|TWO_SIDED|80.0|-15.35|29.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||29.22|-15.35|0.6841
82551786|NCT03858634|164807565|SUPERIORITY||LS mean difference|-53.4|STANDARD_ERROR_OF_MEAN|49.83||0.3963|TWO_SIDED|80.0|-147.31|40.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||40.59|-147.31|0.3963
82551787|NCT03858634|164807565|SUPERIORITY||LS mean difference|-24.1|STANDARD_ERROR_OF_MEAN|11.85||0.0571|TWO_SIDED|80.0|-39.85|-8.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-8.32|-39.85|0.0571
82551788|NCT03858634|164807565|SUPERIORITY||LS mean difference|-35.3|STANDARD_ERROR_OF_MEAN|40.32||0.4457|TWO_SIDED|80.0|-101.32|30.73||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||30.73|-101.32|0.4457
82551789|NCT03858634|164807565|SUPERIORITY||LS mean difference|4.4|STANDARD_ERROR_OF_MEAN|17.99||0.8075|TWO_SIDED|80.0|-19.44|28.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||28.32|-19.44|0.8075
82551790|NCT03858634|164807565|SUPERIORITY||LS mean difference|-57.7|STANDARD_ERROR_OF_MEAN|55.75||0.4093|TWO_SIDED|80.0|-162.84|47.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||47.40|-162.84|0.4093
82551791|NCT03858634|164807565|SUPERIORITY||LS mean difference|-27.6|STANDARD_ERROR_OF_MEAN|13.4||0.0543|TWO_SIDED|80.0|-45.42|-9.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-9.76|-45.42|0.0543
82551792|NCT03858634|164807565|SUPERIORITY||LS mean difference|-31.0|STANDARD_ERROR_OF_MEAN|37.75||0.4711|TWO_SIDED|80.0|-92.88|30.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||30.78|-92.88|0.4711
82580656|NCT04187989|164872723|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.11|STANDARD_ERROR_OF_MEAN|0.212||0.603|TWO_SIDED|95.0|-0.531|0.311|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|: We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.311|-.531|.603
82580657|NCT04187989|164872724|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|0.162|STANDARD_ERROR_OF_MEAN|0.219||0.457|TWO_SIDED|95.0|-0.273|0.597|||Cohen's D|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects)|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.597|-.273|.457
82551793|NCT03858634|164807565|SUPERIORITY||LS mean difference|13.0|STANDARD_ERROR_OF_MEAN|14.89||0.3925|TWO_SIDED|80.0|-6.74|32.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||32.79|-6.74|0.3925
82551794|NCT03858634|164807565|SUPERIORITY||LS mean difference|-48.7|STANDARD_ERROR_OF_MEAN|61.24||0.5095|TWO_SIDED|80.0|-164.22|66.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||66.72|-164.22|0.5095
82376969|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|1.85||||0.006|TWO_SIDED|95.0|1.19|2.84|||t-test, 2 sided|||Smoking as a factor for developing postoperative headache||2.84|1.19|0.006
82551795|NCT03858634|164807565|SUPERIORITY||LS mean difference|-33.8|STANDARD_ERROR_OF_MEAN|13.22||0.0199|TWO_SIDED|80.0|-51.35|-16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-16.18|-51.35|0.0199
82551796|NCT03858634|164807565|SUPERIORITY||LS mean difference|-42.8|STANDARD_ERROR_OF_MEAN|34.48||0.3029|TWO_SIDED|80.0|-99.26|13.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||13.69|-99.26|0.3029
82551797|NCT03858634|164807565|SUPERIORITY||LS mean difference|10.9|STANDARD_ERROR_OF_MEAN|12.97||0.4094|TWO_SIDED|80.0|-6.28|28.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||28.16|-6.28|0.4094
82551798|NCT03858634|164807565|SUPERIORITY||LS mean difference|-49.8|STANDARD_ERROR_OF_MEAN|58.25||0.4828|TWO_SIDED|80.0|-159.63|60.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||60.05|-159.63|0.4828
82551799|NCT03858634|164807565|SUPERIORITY||LS mean difference|-32.8|STANDARD_ERROR_OF_MEAN|14.66||0.0383|TWO_SIDED|80.0|-52.26|-13.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.26|-52.26|0.0383
82551800|NCT03858634|164807565|SUPERIORITY||LS mean difference|-26.1|STANDARD_ERROR_OF_MEAN|37.1||0.5322|TWO_SIDED|80.0|-86.66|34.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||34.65|-86.66|0.5322
82551801|NCT03858634|164807565|SUPERIORITY||LS mean difference|-6.2|STANDARD_ERROR_OF_MEAN|13.71||0.6577|TWO_SIDED|80.0|-24.38|12.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||12.03|-24.38|0.6577
82551802|NCT03858634|164807565|SUPERIORITY||LS mean difference|-38.3|STANDARD_ERROR_OF_MEAN|67.21||0.6259|TWO_SIDED|80.0|-165.08|88.4||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||88.40|-165.08|0.6259
82551803|NCT03858634|164807565|SUPERIORITY||LS mean difference|-35.7|STANDARD_ERROR_OF_MEAN|15.27||0.0312|TWO_SIDED|80.0|-56.01|-15.38||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-15.38|-56.01|0.0312
82551804|NCT03858634|164807565|SUPERIORITY||LS mean difference|-108.3|STANDARD_ERROR_OF_MEAN|18.73||0.0103|TWO_SIDED|80.0|-138.97|-77.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-77.61|-138.97|0.0103
82551805|NCT03858634|164807565|SUPERIORITY||LS mean difference|10.0|STANDARD_ERROR_OF_MEAN|12.43||0.433|TWO_SIDED|80.0|-6.59|26.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||26.56|-6.59|0.4330
82551806|NCT03858634|164807565|SUPERIORITY||LS mean difference|-37.7|STANDARD_ERROR_OF_MEAN|64.23||0.6165|TWO_SIDED|80.0|-158.82|83.39||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||83.39|-158.82|0.6165
82551807|NCT03858634|164807565|SUPERIORITY||LS mean difference|-32.0|STANDARD_ERROR_OF_MEAN|15.13||0.0488|TWO_SIDED|80.0|-52.11|-11.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-11.84|-52.11|0.0488
82551808|NCT03858634|164807565|SUPERIORITY||LS mean difference|-19.2|STANDARD_ERROR_OF_MEAN|39.9||0.6636|TWO_SIDED|80.0|-84.53|46.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||46.16|-84.53|0.6636
82551809|NCT03858634|164807565|SUPERIORITY||LS mean difference|23.9|STANDARD_ERROR_OF_MEAN|11.75||0.0583|TWO_SIDED|80.0|8.18|39.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||39.52|8.18|0.0583
82580658|NCT04187989|164872725|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.265|STANDARD_ERROR_OF_MEAN|0.212||0.209|TWO_SIDED|95.0|-0.686|0.156|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects).|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.156|-.686|.209
82580659|NCT04187989|164872726|OTHER|Two-sided test of the null hypothesis of no difference between groups|Cohen's D|-0.107|STANDARD_ERROR_OF_MEAN|0.219||0.623|TWO_SIDED|95.0|-0.541|0.328|||t-test, 2 sided|The p-value is for the coefficient of the treatment/control indicator in the above mixed model|The effect size used is the adjusted Cohen's D, calculated from the coefficient for treatment group in the mixed model, divided by total pooled SD (the square root of the sum of the residual variance+the variance of the group-level random effects)|We fixed linear mixed effects models adjusted for baseline values, balancing factors (age, sex, recreational cannabis), and included a random intercept for group because this is an individually randomized group treatment trial. We tested for treatment effects with a two-sided test of the coefficient for the treatment/control indicator, and estimated Cohen's D (mean difference between the 2 groups at follow-up divided by the total variation not captured by the fixed effects) along with 95% CIs.||.328|-.541|.623
82580660|NCT03507777|164872791|SUPERIORITY||||||<|0.0001|||||||Linear mixed model|||||||<0.0001
82580661|NCT03507777|164872792|SUPERIORITY|||||||0.2487|||||||A Cox regression model|||||||0.2487
82376970|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|2.11||||0.008|TWO_SIDED|95.0|1.22|3.66|||t-test, 2 sided|||Intraoperative hypotension associated with postoperative headache in total sample||3.66|1.22|0.008
82551810|NCT03858634|164807565|SUPERIORITY||LS mean difference|-45.1|STANDARD_ERROR_OF_MEAN|54.87||0.4975|TWO_SIDED|80.0|-148.55|58.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||58.36|-148.55|0.4975
82551811|NCT03858634|164807565|SUPERIORITY||LS mean difference|-30.5|STANDARD_ERROR_OF_MEAN|15.54||0.0653|TWO_SIDED|80.0|-51.17|-9.82||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-9.82|-51.17|0.0653
82551812|NCT03858634|164807565|SUPERIORITY||LS mean difference|-23.4|STANDARD_ERROR_OF_MEAN|43.98||0.6316|TWO_SIDED|80.0|-95.42|48.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||48.62|-95.42|0.6316
82551813|NCT03858634|164807565|SUPERIORITY||LS mean difference|26.6|STANDARD_ERROR_OF_MEAN|14.68||0.0874|TWO_SIDED|80.0|7.05|46.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||46.18|7.05|0.0874
82551814|NCT03858634|164807565|SUPERIORITY||LS mean difference|-45.0|STANDARD_ERROR_OF_MEAN|50.39||0.4662|TWO_SIDED|80.0|-139.99|50.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||50.03|-139.99|0.4662
82551815|NCT03858634|164807565|SUPERIORITY||LS mean difference|-25.6|STANDARD_ERROR_OF_MEAN|15.12||0.1073|TWO_SIDED|80.0|-45.76|-5.51||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-5.51|-45.76|0.1073
82551816|NCT03858634|164807565|SUPERIORITY||LS mean difference|-23.3|STANDARD_ERROR_OF_MEAN|42.31||0.6197|TWO_SIDED|80.0|-92.62|45.96||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||45.96|-92.62|0.6197
82580662|NCT03507777|164872793|SUPERIORITY|||||||0.2952|||||||A Cox regression model|||||||0.2952
82580663|NCT02245737|164872796|SUPERIORITY||LS Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.77||0.232|TWO_SIDED|95.0|-2.447|0.594|||Mixed Models Analysis|||||0.594|-2.447|0.232
82580664|NCT02245737|164872796|SUPERIORITY||LS Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.78||0.599|TWO_SIDED|95.0|-1.124|1.947|||Mixed Models Analysis|||||1.947|-1.124|0.599
82580665|NCT02245737|164872797|SUPERIORITY||LS Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.83||0.971|TWO_SIDED|95.0|-1.609|1.669|||Mixed Models Analysis|||||1.669|-1.609|0.971
82580666|NCT02245737|164872797|SUPERIORITY||LS Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.85||0.923|TWO_SIDED|95.0|-1.58|1.743|||Mixed Models Analysis|||||1.743|-1.580|0.923
82580667|NCT02245737|164872798|SUPERIORITY||LS Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.53||0.796|TWO_SIDED|95.0|-1.172|0.899|||Mixed Models Analysis|||||0.899|-1.172|0.796
82580668|NCT02245737|164872798|SUPERIORITY||LS Mean Difference (Final Values)|0.61|STANDARD_ERROR_OF_MEAN|0.53||0.252|TWO_SIDED|95.0|-0.437|1.66|||Mixed Models Analysis|||||1.660|-0.437|0.252
82580669|NCT02245737|164872799|SUPERIORITY||LS Mean Difference (Final Values)|1.11|STANDARD_ERROR_OF_MEAN|1.4||0.428|TWO_SIDED|95.0|-1.637|3.852|||Mixed Models Analysis|||||3.852|-1.637|0.428
82580670|NCT02245737|164872799|SUPERIORITY||LS Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.42||0.926|TWO_SIDED|95.0|-2.918|2.655|||Mixed Models Analysis|||||2.655|-2.918|0.926
82580671|NCT02245737|164872800|SUPERIORITY||LS Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.24||0.533|TWO_SIDED|95.0|-0.322|0.622|||Mixed Models Analysis|||||0.622|-0.322|0.533
82580672|NCT02245737|164872800|SUPERIORITY||LS Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.24||0.537|TWO_SIDED|95.0|-0.328|0.63|||Mixed Models Analysis|||||0.630|-0.328|0.537
82580673|NCT02245737|164872802|SUPERIORITY||LS Mean Difference (Final Values)|1.77|STANDARD_ERROR_OF_MEAN|1.13||0.116|TWO_SIDED|95.0|-0.441|3.986|||Mixed Models Analysis|||||3.986|-0.441|0.116
82580674|NCT02245737|164872802|SUPERIORITY||LS Mean Difference (Final Values)|1.45|STANDARD_ERROR_OF_MEAN|1.15||0.208|TWO_SIDED|95.0|-0.808|3.704|||Mixed Models Analysis|||||3.704|-0.808|0.208
82580675|NCT02245737|164872803|SUPERIORITY||LS Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.36||0.379|TWO_SIDED|95.0|-0.391|1.027|||Mixed Models Analysis|||||1.027|-0.391|0.379
82580676|NCT02245737|164872803|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.992|TWO_SIDED|95.0|-0.714|0.721|||Mixed Models Analysis|||||0.721|-0.714|0.992
82580677|NCT02245737|164872804|SUPERIORITY||LS Mean Difference (Final Values)|-51.27|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-56.963|-45.578|||ANCOVA|||||-45.578|-56.963|<0.001
82580678|NCT02245737|164872804|SUPERIORITY||LS Mean Difference (Final Values)|-65.48|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-70.947|-60.022|||ANCOVA|||||-60.022|-70.947|<0.001
82580679|NCT02245737|164872805|SUPERIORITY||LS Mean Difference (Final Values)|-57.99|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-62.865|-53.108|||ANCOVA|||||-53.108|-62.865|<0.001
82580680|NCT02245737|164872805|SUPERIORITY||LS Mean Difference (Final Values)|-73.25|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-77.926|-68.575|||ANCOVA|||||-68.575|-77.926|<0.001
82580681|NCT02245737|164872806|SUPERIORITY||LS Mean Difference (Final Values)|-19.87|STANDARD_ERROR_OF_MEAN|11.33||0.081|TWO_SIDED|95.0|-42.21|2.464|||ANCOVA|||||2.464|-42.210|0.081
82580682|NCT02245737|164872806|SUPERIORITY||LS Mean Difference (Final Values)|-15.31|STANDARD_ERROR_OF_MEAN|10.78||0.157|TWO_SIDED|95.0|-36.555|5.938|||ANCOVA|||||5.938|-36.555|0.157
82580683|NCT02245737|164872807|SUPERIORITY||LS Mean Difference (Final Values)|-2.62|STANDARD_ERROR_OF_MEAN|1.33||0.05|TWO_SIDED|95.0|-5.243|-0.002|||ANCOVA|||||-0.002|-5.243|0.050
82580684|NCT02245737|164872807|SUPERIORITY||LS Mean Difference (Final Values)|-2.12|STANDARD_ERROR_OF_MEAN|1.27||0.095|TWO_SIDED|95.0|-4.618|0.373|||ANCOVA|||||0.373|-4.618|0.095
82580685|NCT02245737|164872808|SUPERIORITY||LS Mean Difference (Final Values)|-13.68|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-18.785|-8.574|||ANCOVA|||||-8.574|-18.785|<0.001
82376971|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|1.85||||0.024|TWO_SIDED|95.0|1.08|3.15|||t-test, 2 sided|||Female gender as a factor for developing postoperative headache||3.15|1.08|0.024
82580686|NCT02245737|164872808|SUPERIORITY||LS Mean Difference (Final Values)|-17.66|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-22.887|-12.428|||ANCOVA|||||-12.428|-22.887|<0.001
82580687|NCT02245737|164872809|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.426|TWO_SIDED|95.0|-0.033|0.014|||ANCOVA|||||0.014|-0.033|0.426
82580688|NCT02245737|164872809|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.66|TWO_SIDED|95.0|-0.029|0.018|||ANCOVA|||||0.018|-0.029|0.660
82580689|NCT02245737|164872810|SUPERIORITY||LS Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.0||0.21|TWO_SIDED|95.0|-0.015|0.003|||ANCOVA|||||0.003|-0.015|0.210
82580690|NCT02245737|164872810|SUPERIORITY||LS Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.568|TWO_SIDED|95.0|-0.013|0.007|||ANCOVA|||||0.007|-0.013|0.568
82580691|NCT02245737|164872811|SUPERIORITY||LS Mean Difference (Final Values)|-2.34|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|-3.258|-1.413|||ANCOVA|||||-1.413|-3.258|<0.001
82580692|NCT02245737|164872811|SUPERIORITY||LS Mean Difference (Final Values)|-3.18|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|-4.118|-2.247|||ANCOVA|||||-2.247|-4.118|<0.001
82580693|NCT00359216|164872817|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9219||95.0|||||ANCOVA|||The p-value is obtained by F-test in ANCOVA to assess the treatment group difference in changes from baseline, adjusted for baseline.||||0.9219
82580694|NCT00700427|164872882|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|||||||0.001
82580695|NCT00700427|164872884|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||||||0.002
82580696|NCT00700427|164872885|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Imputed (Attributed) Index Score.|ANCOVA|||||||<0.001
82580697|NCT00700427|164872885|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for Hyperactivity/Impulsivity Subscale Imputed Score.|ANCOVA|||||||0.002
82580698|NCT00700427|164872885|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for Inattention Subscale Imputed Score.|ANCOVA|||||||0.009
82580699|NCT00700427|164872885|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Total ADHD Symptom Imputed Score.|ANCOVA|||||||0.003
82580700|NCT00700427|164872886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ADHD Imputed (Attributed) Index Score.|ANCOVA|||||||<0.001
82477155|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.513|||||TWO_SIDED|95.0|-0.51|1.54||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 7||1.54|-0.51|
82477156|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.03|||||TWO_SIDED|95.0|0.05|2.01||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 7||2.01|0.05|
82477157|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.955|||||TWO_SIDED|95.0|-1.98|0.07||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||0.07|-1.98|
82477158|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.454|||||TWO_SIDED|95.0|-0.59|1.5||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||1.50|-0.59|
82477159|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.468|||||TWO_SIDED|95.0|0.39|2.55||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||2.55|0.39|
82477160|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.985|||||TWO_SIDED|95.0|0.96|3.01||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||3.01|0.96|
82477161|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.312|||||TWO_SIDED|95.0|-1.38|0.76||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 14||0.76|-1.38|
82477162|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.394|||||TWO_SIDED|95.0|-0.7|1.49||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 14||1.49|-0.70|
82477163|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.875|||||TWO_SIDED|95.0|-0.18|1.93||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 14||1.93|-0.18|
82477164|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.854|||||TWO_SIDED|95.0|-1.95|0.25||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||0.25|-1.95|
82477165|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.542|||||TWO_SIDED|95.0|-0.58|1.66||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||1.66|-0.58|
82551817|NCT03858634|164807565|SUPERIORITY||LS mean difference|20.6|STANDARD_ERROR_OF_MEAN|14.97||0.1868|TWO_SIDED|80.0|0.63|40.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||40.55|0.63|0.1868
82551818|NCT03858634|164807565|SUPERIORITY||LS mean difference|-55.0|STANDARD_ERROR_OF_MEAN|43.32||0.3321|TWO_SIDED|80.0|-136.65|26.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||26.71|-136.65|0.3321
82551819|NCT03858634|164807565|SUPERIORITY||LS mean difference|-24.8|STANDARD_ERROR_OF_MEAN|15.67||0.131|TWO_SIDED|80.0|-45.64|-3.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-3.95|-45.64|0.1310
82580701|NCT00700427|164872886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Hyperactivity/Impulsivity Subscale Imputed Score.|ANCOVA|||||||<0.001
82477166|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.248|||||TWO_SIDED|95.0|0.09|2.4||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||2.40|0.09|
82477167|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.729|||||TWO_SIDED|95.0|0.63|2.83||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||2.83|0.63|
82477168|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.148|||||TWO_SIDED|95.0|-1.21|0.91||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-24), Day 14||0.91|-1.21|
82477169|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.737|||||TWO_SIDED|95.0|-0.34|1.81||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-24), Day 14||1.81|-0.34|
82477170|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.245|||||TWO_SIDED|95.0|0.21|2.28||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-24), Day 14||2.28|0.21|
82477171|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.623|||||TWO_SIDED|95.0|-1.71|0.46||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||0.46|-1.71|
82477172|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.475|||||TWO_SIDED|95.0|-0.62|1.57||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||1.57|-0.62|
82477173|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.36|||||TWO_SIDED|95.0|0.23|2.49||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||2.49|0.23|
82477174|NCT01128621|164649798|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.869|||||TWO_SIDED|95.0|0.79|2.95||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||2.95|0.79|
82477175|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.619|||||TWO_SIDED|95.0|-59.25|2.01||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 7||2.01|-59.25|
82477176|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-47.898|||||TWO_SIDED|95.0|-79.23|-16.56||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 7||-16.56|-79.23|
82477177|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.665|||||TWO_SIDED|95.0|-55.53|6.2||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 7||6.20|-55.53|
82477178|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.438|||||TWO_SIDED|95.0|-36.76|25.89||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||25.89|-36.76|
82477179|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.181|||||TWO_SIDED|95.0|-55.0|8.63||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||8.63|-55.00|
82477180|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-42.46|||||TWO_SIDED|95.0|-75.18|-9.74||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||-9.74|-75.18|
82477181|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.227|||||TWO_SIDED|95.0|-51.83|13.37||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 7||13.37|-51.83|
82477182|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.435|||||TWO_SIDED|95.0|-49.15|12.28||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-12), Day 14||12.28|-49.15|
82477183|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-58.658|||||TWO_SIDED|95.0|-90.08|-27.24||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-12), Day 14||-27.24|-90.08|
82477184|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.006|||||TWO_SIDED|95.0|-67.96|-6.05||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-12), Day 14||-6.05|-67.96|
82477185|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.896|||||TWO_SIDED|95.0|-41.31|21.52||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||21.52|-41.31|
82477186|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.539|||||TWO_SIDED|95.0|-40.44|23.36||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||23.36|-40.44|
82477187|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.762|||||TWO_SIDED|95.0|-81.58|-15.95||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||-15.95|-81.58|
82580702|NCT00700427|164872886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Inattention Subscale Imputed Score.|ANCOVA|||||||<0.001
82551820|NCT03858634|164807565|SUPERIORITY||LS mean difference|-12.0|STANDARD_ERROR_OF_MEAN|46.49||0.8128|TWO_SIDED|80.0|-88.15|64.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||64.13|-88.15|0.8128
82551821|NCT03858634|164807565|SUPERIORITY||LS mean difference|24.7|STANDARD_ERROR_OF_MEAN|14.23||0.1004|TWO_SIDED|80.0|5.75|43.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||43.69|5.75|0.1004
82551822|NCT03858634|164807565|SUPERIORITY||LS mean difference|-62.8|STANDARD_ERROR_OF_MEAN|44.81||0.2962|TWO_SIDED|80.0|-147.28|21.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||21.71|-147.28|0.2962
82551823|NCT03858634|164807565|SUPERIORITY||LS mean difference|-26.5|STANDARD_ERROR_OF_MEAN|16.4||0.1236|TWO_SIDED|80.0|-48.31|-4.67||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-4.67|-48.31|0.1236
82551824|NCT03858634|164807565|SUPERIORITY||LS mean difference|-4.5|STANDARD_ERROR_OF_MEAN|45.55||0.9276|TWO_SIDED|80.0|-79.1|70.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||70.11|-79.10|0.9276
82551825|NCT03858634|164807565|SUPERIORITY||LS mean difference|19.5|STANDARD_ERROR_OF_MEAN|13.46||0.1657|TWO_SIDED|80.0|1.55|37.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||37.45|1.55|0.1657
82551826|NCT03858634|164807565|SUPERIORITY||LS mean difference|-58.4|STANDARD_ERROR_OF_MEAN|47.8||0.3461|TWO_SIDED|80.0|-148.54|31.71||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||31.71|-148.54|0.3461
82551827|NCT03858634|164807565|SUPERIORITY||LS mean difference|-27.6|STANDARD_ERROR_OF_MEAN|16.51||0.1118|TWO_SIDED|80.0|-49.58|-5.64||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-5.64|-49.58|0.1118
82580703|NCT00700427|164872886|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Total ADHD Symptom Imputed Score.|ANCOVA|||||||<0.001
82580704|NCT00700427|164872887|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
82580705|NCT00700427|164872888|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANCOVA|||||||0.006
82551828|NCT03858634|164807565|SUPERIORITY||LS mean difference|-18.9|STANDARD_ERROR_OF_MEAN|43.24||0.6912|TWO_SIDED|80.0|-89.75|51.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||51.89|-89.75|0.6912
82376972|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|4.56||||0.005|TWO_SIDED|95.0|1.58|13.17|||t-test, 2 sided|||Association of female gender and postoperative headache||13.17|1.58|0.005
82551829|NCT03858634|164807565|SUPERIORITY||LS mean difference|22.9|STANDARD_ERROR_OF_MEAN|13.07||0.0973|TWO_SIDED|80.0|5.5|40.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||40.35|5.50|0.0973
82551830|NCT03858634|164807565|SUPERIORITY||LS mean difference|-57.7|STANDARD_ERROR_OF_MEAN|40.33||0.289|TWO_SIDED|80.0|-133.72|18.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||18.37|-133.72|0.2890
82551831|NCT03858634|164807565|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|17.68||0.231|TWO_SIDED|80.0|-45.43|1.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||1.60|-45.43|0.2310
82551832|NCT03858634|164807565|SUPERIORITY||LS mean difference|-12.7|STANDARD_ERROR_OF_MEAN|45.17||0.7967|TWO_SIDED|80.0|-86.69|61.28||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||61.28|-86.69|0.7967
82551833|NCT03858634|164807565|SUPERIORITY||LS mean difference|16.5|STANDARD_ERROR_OF_MEAN|14.98||0.2868|TWO_SIDED|80.0|-3.5|36.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||36.44|-3.50|0.2868
82551834|NCT03858634|164807565|SUPERIORITY||LS mean difference|-64.9|STANDARD_ERROR_OF_MEAN|38.83||0.2369|TWO_SIDED|80.0|-138.08|8.37||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||8.37|-138.08|0.2369
82551835|NCT03858634|164807565|SUPERIORITY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|17.34||0.2228|TWO_SIDED|80.0|-44.97|1.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||1.17|-44.97|0.2228
82580706|NCT00355199|164872890|SUPERIORITY||Hazard Ratio (HR)|0.99|||<|0.05|TWO_SIDED|95.0|0.66|1.48|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.48|0.66|<0.05
82580707|NCT00355199|164872892|SUPERIORITY||Hazard Ratio (HR)|0.6|||<|0.05|TWO_SIDED|95.0|0.29|1.21|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.21|0.29|<0.05
82580708|NCT00355199|164872893|SUPERIORITY||Hazard Ratio (HR)|0.93|||<|0.05|TWO_SIDED|95.0|0.57|1.52|||Regression, Cox||HR refers to R-HDS (R-CHOP is the reference level)|||1.52|0.57|<0.05
82580709|NCT00673400|164872914|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Lifestyle (LS)||||0.1340
82580710|NCT00673400|164872914|SUPERIORITY_OR_OTHER|||||||0.088||95.0||||based on 29 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Coping/behavior (C/B)||||0.088
82580711|NCT00673400|164872914|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||based on 30 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Depression/self-perception (D/S)||||0.0012
82580712|NCT00673400|164872914|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||based on 30 matched pairs|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Embarrassment (E)||||0.0074
82580713|NCT00673400|164872917|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82580714|NCT00673400|164872917|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82551836|NCT03858634|164807565|SUPERIORITY||LS mean difference|-14.9|STANDARD_ERROR_OF_MEAN|47.51||0.774|TWO_SIDED|80.0|-92.74|62.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||62.89|-92.74|0.7740
82477188|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.11|||||TWO_SIDED|95.0|-59.8|5.58||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-12), Day 14||5.58|-59.80|
82551837|NCT03858634|164807565|SUPERIORITY||LS mean difference|15.1|STANDARD_ERROR_OF_MEAN|14.14||0.3|TWO_SIDED|80.0|-3.74|33.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||33.98|-3.74|0.3000
82551838|NCT03858634|164807565|SUPERIORITY||LS mean difference|-72.4|STANDARD_ERROR_OF_MEAN|31.37||0.1472|TWO_SIDED|80.0|-131.59|-13.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-13.30|-131.59|0.1472
82551839|NCT03858634|164807565|SUPERIORITY||LS mean difference|-12.4|STANDARD_ERROR_OF_MEAN|20.56||0.5536|TWO_SIDED|80.0|-39.77|14.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||14.94|-39.77|0.5536
82551840|NCT03858634|164807565|SUPERIORITY||LS mean difference|-17.6|STANDARD_ERROR_OF_MEAN|43.65||0.7131|TWO_SIDED|80.0|-89.13|53.84||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||53.84|-89.13|0.7131
82551841|NCT03858634|164807565|SUPERIORITY||LS mean difference|13.9|STANDARD_ERROR_OF_MEAN|15.27||0.3762|TWO_SIDED|80.0|-6.49|34.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||34.24|-6.49|0.3762
82551842|NCT03858634|164807565|SUPERIORITY||LS mean difference|-74.1|STANDARD_ERROR_OF_MEAN|31.37||0.1419|TWO_SIDED|80.0|-133.26|-14.97||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-14.97|-133.26|0.1419
82551843|NCT03858634|164807565|SUPERIORITY||LS mean difference|-11.6|STANDARD_ERROR_OF_MEAN|20.74||0.5817|TWO_SIDED|80.0|-39.22|15.95||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||15.95|-39.22|0.5817
82551844|NCT03858634|164807567|SUPERIORITY||LS mean difference|27.7|STANDARD_ERROR_OF_MEAN|55.77||0.6532|TWO_SIDED|80.0|-63.6|119.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||119.06|-63.60|0.6532
82551845|NCT03858634|164807567|SUPERIORITY||LS mean difference|23.6|STANDARD_ERROR_OF_MEAN|9.23||0.0187|TWO_SIDED|80.0|11.38|35.85||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||35.85|11.38|0.0187
82551846|NCT03858634|164807567|SUPERIORITY||LS mean difference|-39.3|STANDARD_ERROR_OF_MEAN|44.53||0.4707|TWO_SIDED|80.0|-123.27|44.68||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||44.68|-123.27|0.4707
82551847|NCT03858634|164807567|SUPERIORITY||LS mean difference|-1.8|STANDARD_ERROR_OF_MEAN|4.81||0.7108|TWO_SIDED|80.0|-8.22|4.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 1||4.59|-8.22|0.7108
82551848|NCT03858634|164807567|SUPERIORITY||LS mean difference|22.4|STANDARD_ERROR_OF_MEAN|60.36||0.7355|TWO_SIDED|80.0|-76.47|121.23||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||121.23|-76.47|0.7355
82551849|NCT03858634|164807567|SUPERIORITY||LS mean difference|16.9|STANDARD_ERROR_OF_MEAN|13.27||0.2167|TWO_SIDED|80.0|-0.66|34.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||34.52|-0.66|0.2167
82551850|NCT03858634|164807567|SUPERIORITY||LS mean difference|-63.5|STANDARD_ERROR_OF_MEAN|60.8||0.4058|TWO_SIDED|80.0|-178.16|51.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||51.13|-178.16|0.4058
82551851|NCT03858634|164807567|SUPERIORITY||LS mean difference|-6.4|STANDARD_ERROR_OF_MEAN|6.43||0.3323|TWO_SIDED|80.0|-14.95|2.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 2||2.15|-14.95|0.3323
82551852|NCT03858634|164807567|SUPERIORITY||LS mean difference|34.3|STANDARD_ERROR_OF_MEAN|68.11||0.6496|TWO_SIDED|80.0|-77.29|145.8||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||145.80|-77.29|0.6496
82551853|NCT03858634|164807567|SUPERIORITY||LS mean difference|13.8|STANDARD_ERROR_OF_MEAN|12.76||0.2925|TWO_SIDED|80.0|-3.12|30.7||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||30.70|-3.12|0.2925
82551854|NCT03858634|164807567|SUPERIORITY||LS mean difference|-70.7|STANDARD_ERROR_OF_MEAN|67.98||0.4074|TWO_SIDED|80.0|-198.92|57.46||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||57.46|-198.92|0.4074
82551855|NCT03858634|164807567|OTHER||LS mean difference|-15.5|STANDARD_ERROR_OF_MEAN|10.56||0.1584|TWO_SIDED|80.0|-29.6|-1.49||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 3||-1.49|-29.60|0.1584
82551856|NCT03858634|164807567|SUPERIORITY||LS mean difference|-22.8|STANDARD_ERROR_OF_MEAN|54.04||0.7013|TWO_SIDED|80.0|-111.31|65.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||65.69|-111.31|0.7013
82551857|NCT03858634|164807567|SUPERIORITY||LS mean difference|13.4|STANDARD_ERROR_OF_MEAN|16.35||0.423|TWO_SIDED|80.0|-8.3|35.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||35.05|-8.30|0.4230
82551858|NCT03858634|164807567|SUPERIORITY||LS mean difference|-60.6|STANDARD_ERROR_OF_MEAN|57.96||0.4055|TWO_SIDED|80.0|-169.9|48.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||48.69|-169.90|0.4055
82551859|NCT03858634|164807567|SUPERIORITY||LS mean difference|-22.7|STANDARD_ERROR_OF_MEAN|11.82||0.0709|TWO_SIDED|80.0|-38.41|-6.96||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.96|-38.41|0.0709
82477189|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.359|||||TWO_SIDED|95.0|-48.95|8.23||||||Placebo vs GSK1292263 75 mg: Weighted Mean (0-24), Day 14||8.23|-48.95|
82551860|NCT03858634|164807567|SUPERIORITY||LS mean difference|17.7|STANDARD_ERROR_OF_MEAN|74.17||0.8268|TWO_SIDED|80.0|-103.77|139.17||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||139.17|-103.77|0.8268
82551861|NCT03858634|164807567|SUPERIORITY||LS mean difference|12.4|STANDARD_ERROR_OF_MEAN|14.63||0.4082|TWO_SIDED|80.0|-7.03|31.75||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||31.75|-7.03|0.4082
82551862|NCT03858634|164807567|SUPERIORITY||LS mean difference|-50.4|STANDARD_ERROR_OF_MEAN|58.86||0.4818|TWO_SIDED|80.0|-161.43|60.56||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||60.56|-161.43|0.4818
82551863|NCT03858634|164807567|SUPERIORITY||LS mean difference|-27.1|STANDARD_ERROR_OF_MEAN|13.93||0.0673|TWO_SIDED|80.0|-45.64|-8.58||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 5||-8.58|-45.64|0.0673
82551864|NCT03858634|164807567|SUPERIORITY||LS mean difference|29.6|STANDARD_ERROR_OF_MEAN|82.15||0.7429|TWO_SIDED|80.0|-105.0|164.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||164.10|-105.00|0.7429
82580715|NCT00673400|164872917|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82580716|NCT00673400|164872918|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82580717|NCT00673400|164872918|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82551865|NCT03858634|164807567|SUPERIORITY||LS mean difference|21.8|STANDARD_ERROR_OF_MEAN|13.55||0.1227|TWO_SIDED|80.0|3.88|39.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||39.79|3.88|0.1227
82551866|NCT03858634|164807567|SUPERIORITY||LS mean difference|-47.5|STANDARD_ERROR_OF_MEAN|58.06||0.4996|TWO_SIDED|80.0|-156.95|62.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||62.02|-156.95|0.4996
82551867|NCT03858634|164807567|SUPERIORITY||LS mean difference|-33.6|STANDARD_ERROR_OF_MEAN|13.69||0.0244|TWO_SIDED|80.0|-51.87|-15.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 6||-15.43|-51.87|0.0244
82580718|NCT00673400|164872918|SUPERIORITY_OR_OTHER||||||<|1e-07||95.0|||||Wilcoxon (Mann-Whitney)|two-sided, paired test, exact method||||||<0.0000001
82580719|NCT00673400|164872919|SUPERIORITY_OR_OTHER|||||||0.65||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Physical component summary (PCS)||||0.65
82580720|NCT00673400|164872919|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||based on 28 pairwise matches|Wilcoxon (Mann-Whitney)|matched pair test, two-sided, exact method||Mental component summary (MCS)||||0.010
82477190|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-53.712|||||TWO_SIDED|95.0|-82.92|-24.5||||||Placebo vs GSK1292263 300 mg: Weighted Mean (0-24), Day 14||-24.50|-82.92|
82477191|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-37.552|||||TWO_SIDED|95.0|-66.24|-8.86||||||Placebo vs GSK1292263 600 mg: Weighted Mean (0-24), Day 14||-8.86|-66.24|
82551868|NCT03858634|164807567|SUPERIORITY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|64.24||0.9967|TWO_SIDED|80.0|-105.5|104.92||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||104.92|-105.50|0.9967
82551869|NCT03858634|164807567|SUPERIORITY||LS mean difference|19.1|STANDARD_ERROR_OF_MEAN|13.57||0.1739|TWO_SIDED|80.0|1.15|37.12||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||37.12|1.15|0.1739
82551870|NCT03858634|164807567|SUPERIORITY||LS mean difference|-55.1|STANDARD_ERROR_OF_MEAN|51.61||0.3978|TWO_SIDED|80.0|-152.39|42.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||42.26|-152.39|0.3978
82551871|NCT03858634|164807567|SUPERIORITY||LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|14.73||0.0397|TWO_SIDED|80.0|-52.26|-13.07||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 7||-13.07|-52.26|0.0397
82551872|NCT03858634|164807567|SUPERIORITY||LS mean difference|10.4|STANDARD_ERROR_OF_MEAN|70.66||0.8922|TWO_SIDED|80.0|-105.32|126.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||126.14|-105.32|0.8922
82551873|NCT03858634|164807567|SUPERIORITY||LS mean difference|17.3|STANDARD_ERROR_OF_MEAN|14.43||0.2439|TWO_SIDED|80.0|-1.8|36.45||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||36.45|-1.80|0.2439
82580721|NCT01151410|164872941|NON_INFERIORITY_OR_EQUIVALENCE|Indicates statistical significance at 0.025 level for one sided non-inferiority testing at 4mmHg margin.|Mean Difference (Net)|0.31||||0.004|ONE_SIDED|95.0|-2.4||||ANCOVA||||||-2.40|0.0040
82580722|NCT01472549|164872972|SUPERIORITY||Risk Ratio (RR)|0.55||||0.02|TWO_SIDED|95.0|0.34|0.9|||Chi-squared|||||0.90|0.34|0.02
82580723|NCT01472549|164872973|SUPERIORITY|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82580724|NCT01472549|164872974|SUPERIORITY||Risk Ratio (RR)|0.76||||0.37|TWO_SIDED|95.0|0.43|1.37|||Chi-squared|||||1.37|0.43|0.37
82580725|NCT01472549|164872975|SUPERIORITY||Risk Ratio (RR)|0.73||||0.49|TWO_SIDED|95.0|0.3|1.8|||Chi-squared|||||1.80|0.30|0.49
82580726|NCT01472549|164872976|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
82580727|NCT01472549|164872977|SUPERIORITY||Risk Ratio (RR)|2.02||||0.56|TWO_SIDED|95.0|0.18|22.11|||Fisher Exact|||||22.11|0.18|0.56
82580728|NCT05086276|164872991|SUPERIORITY||Odds Ratio (OR)|1.4||||0.525|TWO_SIDED|95.0|0.51|3.73||P value for statistical significance is \<0.05|Chi-squared|||||3.73|0.51|0.525
82580729|NCT05086276|164872991|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.525|TWO_SIDED|95.0|-7.52|14.71||P value for statistical significance is \<0.05|Chi-squared|||||14.71|-7.52|0.525
82580730|NCT05086276|164872992|SUPERIORITY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.491||0.973|TWO_SIDED|95.0|-0.954|0.987||P value for statistical significance is \<0.05|Mixed Models Analysis|||||0.987|-0.954|0.973
82580731|NCT05086276|164872994|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.16|TWO_SIDED|95.0|-0.06|0.34||P value for statistical significance is \<0.05|ANCOVA|||||0.34|-0.06|0.160
82477192|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.963|||||TWO_SIDED|95.0|-37.2|21.27||||||Placebo vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||21.27|-37.20|
82477193|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.397|||||TWO_SIDED|95.0|-42.1|17.3||||||GSK1292263 75 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||17.30|-42.10|
82477194|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.749|||||TWO_SIDED|95.0|-76.2|-15.3||||||GSK1292263 300 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||-15.30|-76.20|
82477195|NCT01128621|164649799|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.59|||||TWO_SIDED|95.0|-59.82|0.64||||||GSK1292263 600 mg vs Sitagliptin 50 mg: Weighted Mean (0-24), Day 14||0.64|-59.82|
82477196|NCT04074161|164649819|SUPERIORITY|Responses were analysed using an analysis of covariance model with randomized treatment as factor and baseline body weight as covariate.|Treatment difference|-9.38|||<|0.0001|TWO_SIDED|95.0|-11.97|-6.8|||ANCOVA|||||-6.80|-11.97|<0.0001
82477197|NCT00329849|164649855|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup A, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|38.0|||||TWO_SIDED|95.0|29.0|47.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup A one month after vaccination of MenACWY-CRM and MenACWY-PS||47|29|
82477198|NCT00329849|164649855|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup C, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|30.0|||||TWO_SIDED|95.0|19.0|40.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup C one month after vaccination of MenACWY-CRM and MenACWY-PS||40|19|
82477199|NCT00329849|164649855|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup W, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|28.0|||||TWO_SIDED|95.0|17.0|39.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup W one month after vaccination of MenACWY-CRM and MenACWY-PS||39|17|
82477200|NCT00329849|164649855|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that for the serogroup Y, the seroresponse percentage in the MenACWY-CRM group would be at least 10% lower than that in the MenACWY-PS group at one month postvaccination, i.e. the lower limit of the 95% CI of the difference in response rates (MenACWY-CRM minus MenACWY-PS) ≤-10%.|Group difference|18.0|||||TWO_SIDED|95.0|8.0|28.0|||Chi-squared|||Comparison of hSBA seroresponse for the serogroup Y one month after vaccination of MenACWY-CRM and MenACWY-PS||28|8|
82477201|NCT00329849|164649856|NON_INFERIORITY_OR_EQUIVALENCE|Safety of MenACWY-CRM vaccination was considered non-inferior to the safety of MenACWY-PS vaccination if the upper limit of the two-sided 95% CI of the ratio (MenACWY-CRM group divided by MenACWY-PS group) of the percentage of subjects experiencing at least one severe systemic reaction during 1 to 7 days after vaccination was less than 3.|Group Ratio|6.37|||||TWO_SIDED|95.0|0.82|49.2|||Risk ratio(MenACWY-CRM/MenACWY-PS)|||||49.2|0.82|
82580732|NCT05086276|164872995|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.027|TWO_SIDED|95.0|0.03|0.41||P value for statistical significance is \<0.05|ANCOVA|||||0.41|0.03|0.027
82477202|NCT00322621|164649862|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 1.5 point on the BPI 24-hour average pain scale.|Mean Difference (Net)|0.35|||<|0.001||97.5|0.35|0.79||Significance level 0.025|t-test, 1 sided|||Null hypothesis is that duloxetine treatment effect on pain reduction in diabetic peripheral neuropathic pain (DPNP) is not maintained, as indicated by an increase of more than 1.5 point on the BPI 24-hour average pain scale. Null hypothesis is rejected at significance level 0.025 if the upper bound of one-sided 97.5% CI is less than or equal to non-inferiority margin of 1.5 point.||0.79|0.35|<0.001
82477203|NCT00322621|164649865|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||t-test, 2 sided|||||||0.269
82477204|NCT00322621|164649866|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82477205|NCT00322621|164649867|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.160
82477206|NCT00322621|164649868|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
82477207|NCT00322621|164649869|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||t-test, 2 sided|||||||0.075
82477208|NCT00322621|164649870|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82477209|NCT00322621|164649871|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||t-test, 2 sided|||||||0.026
82477210|NCT00322621|164649872|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|||||||0.011
82477211|NCT00322621|164649873|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||t-test, 2 sided|||||||0.406
82477212|NCT00322621|164649874|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||t-test, 2 sided|||||||0.021
82477213|NCT00322621|164649875|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||t-test, 2 sided|||||||0.124
82477214|NCT00322621|164649876|SUPERIORITY_OR_OTHER|||||||0.505||95.0|||||t-test, 2 sided|||||||0.505
82477215|NCT00322621|164649877|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||t-test, 2 sided|||||||0.058
82477216|NCT00322621|164649878|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
82477217|NCT00322621|164649879|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||t-test, 2 sided|||||||0.016
82477218|NCT00322621|164649880|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||t-test, 2 sided|||||||0.022
82477219|NCT00322621|164649881|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||t-test, 2 sided|||||||0.550
82477220|NCT00322621|164649882|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||t-test, 2 sided|||||||0.752
82477221|NCT00322621|164649883|SUPERIORITY_OR_OTHER|||||||0.713||95.0|||||t-test, 2 sided|||||||0.713
82477222|NCT00322621|164649884|SUPERIORITY_OR_OTHER|||||||0.066||95.0|||||t-test, 2 sided|||||||0.066
82477223|NCT00322621|164649885|SUPERIORITY_OR_OTHER|||||||0.711||95.0|||||t-test, 2 sided|||||||0.711
82477224|NCT00322621|164649886|SUPERIORITY_OR_OTHER|||||||0.678||95.0|||||t-test, 2 sided|||||||0.678
82477225|NCT00322621|164649887|SUPERIORITY_OR_OTHER|||||||0.216||95.0|||||t-test, 2 sided|||||||0.216
82477226|NCT00322621|164649888|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||t-test, 2 sided|||||||0.113
82551874|NCT03858634|164807567|SUPERIORITY||LS mean difference|-50.3|STANDARD_ERROR_OF_MEAN|37.1||0.3076|TWO_SIDED|80.0|-120.29|19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||19.61|-120.29|0.3076
82551875|NCT03858634|164807567|SUPERIORITY||LS mean difference|-36.4|STANDARD_ERROR_OF_MEAN|15.7||0.0322|TWO_SIDED|80.0|-57.32|-15.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-15.55|-57.32|0.0322
82551876|NCT03858634|164807567|SUPERIORITY||LS mean difference|-94.7|STANDARD_ERROR_OF_MEAN|27.67||0.0418|TWO_SIDED|80.0|-139.98|-49.36||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-49.36|-139.98|0.0418
82551877|NCT03858634|164807567|SUPERIORITY||LS mean difference|24.4|STANDARD_ERROR_OF_MEAN|13.44||0.0865|TWO_SIDED|80.0|6.49|42.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||42.26|6.49|0.0865
82551878|NCT03858634|164807567|SUPERIORITY||LS mean difference|-48.9|STANDARD_ERROR_OF_MEAN|40.32||0.3489|TWO_SIDED|80.0|-124.96|27.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||27.11|-124.96|0.3489
82551879|NCT03858634|164807567|SUPERIORITY||LS mean difference|-38.1|STANDARD_ERROR_OF_MEAN|15.99||0.0286|TWO_SIDED|80.0|-59.34|-16.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 9||-16.79|-59.34|0.0286
82551880|NCT03858634|164807567|SUPERIORITY||LS mean difference|28.6|STANDARD_ERROR_OF_MEAN|72.63||0.7198|TWO_SIDED|80.0|-90.32|147.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||147.59|-90.32|0.7198
82551881|NCT03858634|164807567|SUPERIORITY||LS mean difference|39.0|STANDARD_ERROR_OF_MEAN|13.27||0.0088|TWO_SIDED|80.0|21.32|56.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||56.63|21.32|0.0088
82551882|NCT03858634|164807567|SUPERIORITY||LS mean difference|-56.5|STANDARD_ERROR_OF_MEAN|33.87||0.2371|TWO_SIDED|80.0|-120.39|7.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||7.34|-120.39|0.2371
82551883|NCT03858634|164807567|SUPERIORITY||LS mean difference|-40.8|STANDARD_ERROR_OF_MEAN|16.14||0.021|TWO_SIDED|80.0|-62.3|-19.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 10||-19.35|-62.30|0.0210
82551884|NCT03858634|164807567|SUPERIORITY||LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|54.07||0.7312|TWO_SIDED|80.0|-68.17|108.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||108.94|-68.17|0.7312
82580733|NCT00738894|164873008|SUPERIORITY|This is the first of two primary outcomes for this study. Assumptions for power calculations: expected event free for medical management 92% at 24 months; expected event free for device closure 96.4% at 24 months (55% risk reduction); 664 subjects randomly assigned 2:1 to device closure or medical management provides 80% power with 15% attrition (over 5 years) and 1-sided alpha = 0.024 to allow for interim analysis (interim analysis later rescinded from plan).|Hazard Ratio (HR)|0.23||||0.001|TWO_SIDED|95.0|0.09|0.62||1-sided p-value was adjusted for multiplicity with 2nd primary outcome using Dubey and Armitage-Parmer (D/AP) procedure.|Log Rank||Hazard ratio (test/control) obtained from Cox proportional hazards model with treatment arm as sole explanatory variable, the exponentiated coefficient of which provided the hazard ratio. Unadjusted for multiplicity.|"Test null hypothesis of equal or lower recurrent stroke-free survivorship for device closure compared to medical management.~H0: Sd(t) ≤ Sm(t) for all t, versus H1: Sd(t) \> Sm(t) for all t, where Sd(t) and Sm(t) are true Kaplan-Meier product-limit survivor functions for the device closure and medical management arms and t is time from randomization to event or censoring.~Event-free subjects were censored at time of last follow-up. Significance threshold (1-sided alpha) = 0.025."||0.62|0.09|0.001
82586051|NCT00822523|164884096|SUPERIORITY_OR_OTHER|||||||0.178|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing change in baseline force by treatment arm. H0: There is no difference in mean baseline force by treatment arm HA: There is a difference in mean baseline force by treatment arm||||0.178
82477227|NCT00322621|164649891|SUPERIORITY_OR_OTHER|||||||0.368||95.0|||||t-test, 2 sided|||||||0.368
82551885|NCT03858634|164807567|SUPERIORITY||LS mean difference|39.4|STANDARD_ERROR_OF_MEAN|14.64||0.015|TWO_SIDED|80.0|19.88|58.83||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||58.83|19.88|0.0150
82551886|NCT03858634|164807567|SUPERIORITY||LS mean difference|-53.3|STANDARD_ERROR_OF_MEAN|33.87||0.2559|TWO_SIDED|80.0|-117.22|10.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||10.52|-117.22|0.2559
82551887|NCT03858634|164807567|SUPERIORITY||LS mean difference|-35.0|STANDARD_ERROR_OF_MEAN|15.97||0.0419|TWO_SIDED|80.0|-56.21|-13.72||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 11||-13.72|-56.21|0.0419
82551888|NCT03858634|164807567|SUPERIORITY||LS mean difference|20.4|STANDARD_ERROR_OF_MEAN|60.66||0.7589|TWO_SIDED|80.0|-78.95|119.74||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||119.74|-78.95|0.7589
82551889|NCT03858634|164807567|SUPERIORITY||LS mean difference|39.1|STANDARD_ERROR_OF_MEAN|17.42||0.0374|TWO_SIDED|80.0|15.97|62.31||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||62.31|15.97|0.0374
82551890|NCT03858634|164807567|SUPERIORITY||LS mean difference|-54.9|STANDARD_ERROR_OF_MEAN|33.87||0.2463|TWO_SIDED|80.0|-118.8|8.93||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||8.93|-118.80|0.2463
82551891|NCT03858634|164807567|SUPERIORITY||LS mean difference|-33.2|STANDARD_ERROR_OF_MEAN|16.78||0.0632|TWO_SIDED|80.0|-55.56|-10.9||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-10.90|-55.56|0.0632
82551892|NCT03858634|164807567|SUPERIORITY||LS mean difference|25.7|STANDARD_ERROR_OF_MEAN|61.73||0.7053|TWO_SIDED|80.0|-75.41|126.78||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||126.78|-75.41|0.7053
82551893|NCT03858634|164807567|SUPERIORITY||LS mean difference|38.7|STANDARD_ERROR_OF_MEAN|16.25||0.0285|TWO_SIDED|80.0|17.09|60.34||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||60.34|17.09|0.0285
82586052|NCT00822523|164884097|SUPERIORITY_OR_OTHER|||||||0.995|||||||Repeated measure ANOVA|||Repeated measure ANOVA assessing percent change (from baseline) in force for contrast of day 14 and day 21 H0: There is no difference in percent change in force between day 14 and day 21 HA: There is a difference in percent change in force between day 14 and day 21||||0.995
82551894|NCT03858634|164807567|SUPERIORITY||LS mean difference|-64.6|STANDARD_ERROR_OF_MEAN|37.1||0.2236|TWO_SIDED|80.0|-134.58|5.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||5.32|-134.58|0.2236
82551895|NCT03858634|164807567|OTHER||LS mean difference|-35.5|STANDARD_ERROR_OF_MEAN|17.38||0.0558|TWO_SIDED|80.0|-58.65|-12.41||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 13||-12.41|-58.65|0.0558
82551896|NCT03858634|164807567|SUPERIORITY||LS mean difference|29.9|STANDARD_ERROR_OF_MEAN|72.86||0.7089|TWO_SIDED|80.0|-89.41|149.24||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||149.24|-89.41|0.7089
82551897|NCT03858634|164807567|SUPERIORITY||LS mean difference|33.7|STANDARD_ERROR_OF_MEAN|14.76||0.0347|TWO_SIDED|80.0|14.08|53.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||53.35|14.08|0.0347
82551898|NCT03858634|164807567|SUPERIORITY||LS mean difference|-60.9|STANDARD_ERROR_OF_MEAN|41.94||0.2835|TWO_SIDED|80.0|-139.99|18.16||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||18.16|-139.99|0.2835
82551899|NCT03858634|164807567|SUPERIORITY||LS mean difference|-35.5|STANDARD_ERROR_OF_MEAN|17.11||0.0525|TWO_SIDED|80.0|-58.31|-12.77||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 14||-12.77|-58.31|0.0525
82551900|NCT03858634|164807567|SUPERIORITY||LS mean difference|24.0|STANDARD_ERROR_OF_MEAN|64.52||0.7347|TWO_SIDED|80.0|-81.68|129.66||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||129.66|-81.68|0.7347
82551901|NCT03858634|164807567|SUPERIORITY||LS mean difference|31.0|STANDARD_ERROR_OF_MEAN|13.94||0.039|TWO_SIDED|80.0|12.5|49.6||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||49.60|12.50|0.0390
82551902|NCT03858634|164807567|SUPERIORITY||LS mean difference|-60.6|STANDARD_ERROR_OF_MEAN|35.48||0.2299|TWO_SIDED|80.0|-127.49|6.33||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||6.33|-127.49|0.2299
82551903|NCT03858634|164807567|SUPERIORITY||LS mean difference|-32.6|STANDARD_ERROR_OF_MEAN|18.11||0.0884|TWO_SIDED|80.0|-56.7|-8.53||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 15||-8.53|-56.70|0.0884
82551904|NCT03858634|164807567|SUPERIORITY||LS mean difference|16.3|STANDARD_ERROR_OF_MEAN|61.44||0.8085|TWO_SIDED|80.0|-84.37|116.87||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||116.87|-84.37|0.8085
82551905|NCT03858634|164807567|SUPERIORITY||LS mean difference|19.9|STANDARD_ERROR_OF_MEAN|15.96||0.2283|TWO_SIDED|80.0|-1.33|41.14||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||41.14|-1.33|0.2283
82586053|NCT00822523|164884097|SUPERIORITY_OR_OTHER|||||||0.2088|||||||Repeated measure ANOVA|||"Repeated measure ANOVA assessing percent change in force from baseline for day 14 and 21 by treatment arm.~H0: There is no significant different in percent change in force by treatment arm HA: There is a significant different in percent change in force by treatment arm"||||0.2088
82586054|NCT00822523|164884099|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82477228|NCT00322621|164649892|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82477229|NCT00322621|164649893|SUPERIORITY_OR_OTHER|||||||0.666||95.0|||||t-test, 2 sided|||||||0.666
82551906|NCT03858634|164807567|SUPERIORITY||LS mean difference|-69.9|STANDARD_ERROR_OF_MEAN|32.26||0.1625|TWO_SIDED|80.0|-130.76|-9.11||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-9.11|-130.76|0.1625
82551907|NCT03858634|164807567|SUPERIORITY||LS mean difference|-34.2|STANDARD_ERROR_OF_MEAN|17.8||0.0707|TWO_SIDED|80.0|-57.87|-10.52||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-10.52|-57.87|0.0707
82551908|NCT03858634|164807567|SUPERIORITY||LS mean difference|0.4|STANDARD_ERROR_OF_MEAN|50.17||0.9944|TWO_SIDED|80.0|-81.79|82.55||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||82.55|-81.79|0.9944
82551909|NCT03858634|164807567|SUPERIORITY||LS mean difference|23.9|STANDARD_ERROR_OF_MEAN|15.16||0.1327|TWO_SIDED|80.0|3.71|44.05||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||44.05|3.71|0.1327
82551910|NCT03858634|164807567|SUPERIORITY||LS mean difference|-69.2|STANDARD_ERROR_OF_MEAN|33.87||0.1777|TWO_SIDED|80.0|-133.09|-5.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||-5.35|-133.09|0.1777
82551911|NCT03858634|164807567|SUPERIORITY||LS mean difference|-23.9|STANDARD_ERROR_OF_MEAN|21.4||0.2796|TWO_SIDED|80.0|-52.34|4.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 17||4.61|-52.34|0.2796
82551912|NCT03858634|164807567|SUPERIORITY||LS mean difference|7.6|STANDARD_ERROR_OF_MEAN|55.4||0.8999|TWO_SIDED|80.0|-83.15|98.3||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||98.30|-83.15|0.8999
82551913|NCT03858634|164807567|SUPERIORITY||LS mean difference|22.0|STANDARD_ERROR_OF_MEAN|15.99||0.1867|TWO_SIDED|80.0|0.68|43.23||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||43.23|0.68|0.1867
82551914|NCT03858634|164807567|SUPERIORITY||LS mean difference|-70.8|STANDARD_ERROR_OF_MEAN|33.87||0.1717|TWO_SIDED|80.0|-134.68|-6.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-6.94|-134.68|0.1717
82477230|NCT00322621|164649894|SUPERIORITY_OR_OTHER|||||||0.138||95.0|||||t-test, 2 sided|||||||0.138
82477231|NCT00322621|164649895|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||t-test, 2 sided|||||||0.145
82477232|NCT00322621|164649896|SUPERIORITY_OR_OTHER|||||||0.512||95.0|||||t-test, 2 sided|||||||0.512
82477233|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|26.5||||0.321|TWO_SIDED|95.0|-25.9|78.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||78.9|-25.9|0.321
82477234|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|13.1||||0.62|TWO_SIDED|95.0|-38.9|65.1||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||65.1|-38.9|0.620
82477235|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.0||||0.665|TWO_SIDED|95.0|-55.5|35.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||35.4|-55.5|0.665
82477236|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.6||||0.865|TWO_SIDED|95.0|-57.6|48.4||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||48.4|-57.6|0.865
82477237|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|31.9||||0.174|TWO_SIDED|95.0|-14.1|77.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||77.9|-14.1|0.174
82477238|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|19.3||||0.472|TWO_SIDED|95.0|-33.4|71.9||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||71.9|-33.4|0.472
82477239|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|42.4||||0.072|TWO_SIDED|95.0|-3.8|88.7||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||88.7|-3.8|0.072
82586055|NCT00822523|164884099|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82586056|NCT00822523|164884099|SUPERIORITY_OR_OTHER||r value|0.8||||0.104|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.104
82477240|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|21.9||||0.234|TWO_SIDED|95.0|-14.2|58.0||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||58.0|-14.2|0.234
82477241|NCT01328444|164649939|SUPERIORITY_OR_OTHER||Least squares mean difference|32.4||||0.08|TWO_SIDED|95.0|-3.9|68.8||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||68.8|-3.9|0.080
82477242|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.087||||0.003|TWO_SIDED|95.0|0.03|0.143||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 62.5 µg minus Placebo.|||0.143|0.030|0.003
82477243|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.14|||<|0.001|TWO_SIDED|95.0|0.084|0.196||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC 125 µg minus Placebo.|||0.196|0.084|<0.001
82477244|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.099|||<|0.001|TWO_SIDED|95.0|0.05|0.148||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=VI 25 µg minus Placebo.|||0.148|0.050|<0.001
82477245|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.067|0.181||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus UMEC 62.5 µg.|||0.181|0.067|<0.001
82477246|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.111|||<|0.001|TWO_SIDED|95.0|0.062|0.161||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus VI 25 µg.|||0.161|0.062|<0.001
82477247|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.32|TWO_SIDED|95.0|-0.028|0.086||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.086|-0.028|0.320
82477248|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.07||||0.007|TWO_SIDED|95.0|0.019|0.12||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus VI 25 µg.|||0.120|0.019|0.007
82477249|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.211|||<|0.001|TWO_SIDED|95.0|0.172|0.249||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.249|0.172|<0.001
82477250|NCT01328444|164649940|SUPERIORITY_OR_OTHER||Least squares mean difference|0.169|||<|0.001|TWO_SIDED|95.0|0.129|0.209||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least square mean change difference=UMEC/VI 125/25 µg minus Placebo.|||0.209|0.129|<0.001
82477251|NCT00600119|164649951|SUPERIORITY_OR_OTHER|||||||0.7781|||||||Wilcoxon (Mann-Whitney)|||||||0.7781
82477252|NCT00600119|164649951|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.0020
82586057|NCT00822523|164884101|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82586058|NCT00822523|164884101|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82586059|NCT00822523|164884101|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
82586060|NCT00822523|164884102|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82586061|NCT00822523|164884102|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82551915|NCT03858634|164807567|SUPERIORITY||LS mean difference|-23.9|STANDARD_ERROR_OF_MEAN|21.46||0.2792|TWO_SIDED|80.0|-52.5|4.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||4.61|-52.50|0.2792
82551916|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|31.41||0.2289|TWO_SIDED|80.0|-98.77|4.1||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||4.10|-98.77|0.2289
82551917|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|19.6|STANDARD_ERROR_OF_MEAN|14.08||0.1788|TWO_SIDED|80.0|0.96|38.27||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||38.27|0.96|0.1788
82551918|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-59.6|STANDARD_ERROR_OF_MEAN|114.35||0.6544|TWO_SIDED|80.0|-275.19|156.06||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||156.06|-275.19|0.6544
82551919|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-72.2|STANDARD_ERROR_OF_MEAN|20.4||0.0023|TWO_SIDED|80.0|-99.39|-45.09||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-45.09|-99.39|0.0023
82551920|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-52.1|STANDARD_ERROR_OF_MEAN|22.96||0.1081|TWO_SIDED|80.0|-89.68|-14.47||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-14.47|-89.68|0.1081
82551921|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|14.9|STANDARD_ERROR_OF_MEAN|21.37||0.4926|TWO_SIDED|80.0|-13.39|43.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||43.26|-13.39|0.4926
82551922|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|53.2|STANDARD_ERROR_OF_MEAN|219.98||0.8315|TWO_SIDED|80.0|-361.63|467.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||467.98|-361.63|0.8315
82551923|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-69.9|STANDARD_ERROR_OF_MEAN|18.56||0.0014|TWO_SIDED|80.0|-94.61|-45.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-45.22|-94.61|0.0014
82580734|NCT00738894|164873009|SUPERIORITY|This is the second of two primary outcomes for this study. Assumptions for power calculations: expected proportion of brain infarct is 3-7 times the clinical stroke rate; expected brain infarct proportion for medical management 14.5% (2.9% clinical stroke x 5); expected brain infarct for device closure 6.5% (55% risk reduction); 597 subjects (10% attrition from 664) provides 73% power with 1-sided alpha = 0.0125 (based conservatively on a Bonferroni adjustment of alpha/2).|Risk Difference (RD)|0.056||||0.024|TWO_SIDED|95.0|0.003|0.108||1-sided p-value was adjusted for multiplicity with 1st primary outcome using Dubey and Armitage-Parmer (D/AP) procedure.|z-test, 1-sided||Unadjusted for multiplicity.|"Test null hypothesis of equal or higher proportion with brain infarct for device closure compared to medical management.~H0: Pm - Pd ≤ 0, versus H1: Pm - Pd \> 0, where Pd and Pm are true proportions of subjects with brain infarct for the device closure and medical management arms.~Significance threshold (1-sided alpha) = 0.025."||0.108|0.003|0.024
82580735|NCT02656329|164873012|NON_INFERIORITY|Non-inferiority of AdreView™ group over SoC group was demonstrated if upper bound of the 95% confidence interval (CI) for the hazard ratio (HR) (AdreView™ group / SoC) was equal to 1.20.|Hazard Ratio (HR)|1.047||||0.8459|TWO_SIDED|95.0|0.295|3.719||Threshold for significance at 0.025 level.|Log Rank||AdreView™ vs. Standard of Care|Analysis was performed using the Cox proportional hazards model stratified by country, with method of treatment guidance (SoC vs AdreView™ group) as the only covariate.||3.719|0.295|0.8459
82580736|NCT01747551|164873031|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.72
82580737|NCT01468181|164873071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77|||<|0.001|TWO_SIDED|95.0|-1.87|-1.67|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HbA1c at 26 Weeks||-1.67|-1.87|<0.001
82586062|NCT00822523|164884102|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.188
82477253|NCT00600119|164649951|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82551924|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-52.1|STANDARD_ERROR_OF_MEAN|22.96||0.1081|TWO_SIDED|80.0|-89.68|-14.47||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-14.47|-89.68|0.1081
82551925|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|21.97||0.7339|TWO_SIDED|80.0|-21.65|36.82||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||36.82|-21.65|0.7339
82551926|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|53.2|STANDARD_ERROR_OF_MEAN|219.98||0.8315|TWO_SIDED|80.0|-361.63|467.98||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||467.98|-361.63|0.8315
82551927|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-67.6|STANDARD_ERROR_OF_MEAN|21.26||0.0055|TWO_SIDED|80.0|-95.92|-39.22||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-39.22|-95.92|0.0055
82551928|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-57.9|STANDARD_ERROR_OF_MEAN|26.73||0.1188|TWO_SIDED|80.0|-101.7|-14.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-14.15|-101.70|0.1188
82551929|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|18.27||0.8697|TWO_SIDED|80.0|-21.26|27.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||27.35|-21.26|0.8697
82551930|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-30.3|STANDARD_ERROR_OF_MEAN|78.64||0.7368|TWO_SIDED|80.0|-178.62|117.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||117.94|-178.62|0.7368
82551931|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|15.02||0.5571|TWO_SIDED|80.0|-29.03|11.03||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||11.03|-29.03|0.5571
82551932|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-49.1|STANDARD_ERROR_OF_MEAN|32.21||0.2251|TWO_SIDED|80.0|-101.8|3.69||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||3.69|-101.80|0.2251
82551933|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|17.3|STANDARD_ERROR_OF_MEAN|18.93||0.3733|TWO_SIDED|80.0|-7.9|42.48||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||42.48|-7.90|0.3733
82551934|NCT03858634|164807569|SUPERIORITY||LS Mean Difference|-22.6|STANDARD_ERROR_OF_MEAN|66.57||0.7662|TWO_SIDED|80.0|-148.16|102.89||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||102.89|-148.16|0.7662
82551935|NCT03858634|164807569|OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|16.87||0.7241|TWO_SIDED|80.0|-28.54|16.44||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||16.44|-28.54|0.7241
82551936|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-21.1|STANDARD_ERROR_OF_MEAN|29.04||0.5195|TWO_SIDED|80.0|-68.69|26.43||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||26.43|-68.69|0.5195
82551937|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|11.3|STANDARD_ERROR_OF_MEAN|8.27||0.1869|TWO_SIDED|80.0|0.34|22.26||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||22.26|0.34|0.1869
82551938|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-87.5|STANDARD_ERROR_OF_MEAN|55.3||0.2545|TWO_SIDED|80.0|-191.75|16.79||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||16.79|-191.75|0.2545
82551939|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|10.26||0.0643|TWO_SIDED|80.0|-33.88|-6.57||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 4||-6.57|-33.88|0.0643
82551940|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-28.6|STANDARD_ERROR_OF_MEAN|20.11||0.2503|TWO_SIDED|80.0|-61.52|4.35||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||4.35|-61.52|0.2503
82551941|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|11.58||0.8468|TWO_SIDED|80.0|-13.08|17.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||17.62|-13.08|0.8468
82551942|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-83.6|STANDARD_ERROR_OF_MEAN|73.93||0.3755|TWO_SIDED|80.0|-222.98|55.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||55.18|-222.98|0.3755
82551943|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-20.9|STANDARD_ERROR_OF_MEAN|11.06||0.0755|TWO_SIDED|80.0|-35.58|-6.15||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 8||-6.15|-35.58|0.0755
82551944|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-28.6|STANDARD_ERROR_OF_MEAN|25.77||0.3486|TWO_SIDED|80.0|-70.76|13.65||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||13.65|-70.76|0.3486
82551945|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|9.69||0.6559|TWO_SIDED|80.0|-17.28|8.5||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||8.50|-17.28|0.6559
82551946|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-70.2|STANDARD_ERROR_OF_MEAN|50.46||0.2987|TWO_SIDED|80.0|-165.35|24.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||24.94|-165.35|0.2987
82551947|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|12.43||0.1966|TWO_SIDED|80.0|-33.29|-0.13||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 12||-0.13|-33.29|0.1966
82551948|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-41.5|STANDARD_ERROR_OF_MEAN|25.7||0.2051|TWO_SIDED|80.0|-83.56|0.62||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||0.62|-83.56|0.2051
82551949|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|10.16||0.7511|TWO_SIDED|80.0|-16.79|10.25||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||10.25|-16.79|0.7511
82477254|NCT00600119|164649952|SUPERIORITY_OR_OTHER|||||||0.5118|||||||Wilcoxon (Mann-Whitney)|||||||0.5118
82551950|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-79.6|STANDARD_DEVIATION|39.27||0.1797|TWO_SIDED|80.0|-153.68|-5.59||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-5.59|-153.68|0.1797
82477255|NCT00600119|164649952|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||||||0.0022
82477256|NCT00600119|164649952|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82551951|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|11.45||0.1715|TWO_SIDED|80.0|-31.61|-1.08||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 16||-1.08|-31.61|0.1715
82551952|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-36.5|STANDARD_ERROR_OF_MEAN|21.32||0.185|TWO_SIDED|80.0|-71.47|-1.63||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-1.63|-71.47|0.1850
82551953|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|12.19||0.6907|TWO_SIDED|80.0|-21.15|11.29||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||11.29|-21.15|0.6907
82551954|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-74.0|STANDARD_ERROR_OF_MEAN|23.85||0.0901|TWO_SIDED|80.0|-118.97|-29.02||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||-29.02|-118.97|0.0901
82551955|NCT03858634|164807571|SUPERIORITY||LS Mean Difference|-7.8|STANDARD_ERROR_OF_MEAN|13.34||0.564|TWO_SIDED|80.0|-25.64|9.94||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||Change at Week 18||9.94|-25.64|0.5640
82551956|NCT03858634|164807572|SUPERIORITY||LS mean difference|-31.7|STANDARD_ERROR_OF_MEAN|38.73||0.4734|TWO_SIDED|80.0|-95.11|31.76||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||31.76|-95.11|0.4734
82551957|NCT03858634|164807572|SUPERIORITY||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|14.91||0.813|TWO_SIDED|80.0|-23.33|16.18||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||16.18|-23.33|0.8130
82551958|NCT03858634|164807572|SUPERIORITY||LS mean difference|-92.0|STANDARD_ERROR_OF_MEAN|31.1||0.0979|TWO_SIDED|80.0|-150.6|-33.32||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-33.32|-150.60|0.0979
82551959|NCT03858634|164807572|SUPERIORITY||LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|13.48||0.0122|TWO_SIDED|80.0|-55.48|-19.61||Calculated from an ANCOVA model including treatment as factor and baseline values as covariate.|ANCOVA|||||-19.61|-55.48|0.0122
82551960|NCT03150173|164807573|SUPERIORITY|||||||0.94|||||||Chi-squared|||||||0.94
82551961|NCT03461276|164807582|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|A 1-sided t-test with a significance level of 0.025 was employed.||"The trial was considered successfully confirmatory regarding efficacy (immunogenicity) of ABvac40 if the average MΔ of anti-Aβ40 antibody signal (OD in ELISA) in the ABvac40 group was significantly greater than the average MΔ of anti-Aβ40 antibody signal in the Placebo group. i.e.~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) ≤ average MΔ anti-Aβ40 (placebo).~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) \> average MΔ anti-Aβ40 (placebo)."||||<0.0001
82551962|NCT03461276|164807582|SUPERIORITY|Additional test|||||<|0.0001||||||1-sided|Wilcoxon (Mann-Whitney)|||||||<0.0001
82551963|NCT03461276|164807582|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|2.96|3.34|||ANCOVA|||The average MΔ of anti-Aβ40 antibody signal between the two treatment groups was compared using an ANCOVA model, using the MΔ anti-Aβ40 antibody signal as the dependent variable, baseline anti-Aβ40 antibody signal (OD in ELISA) as covariate and treatment group and amyloid positivity as fixed effects.||3.34|2.96|<0.0001
82551964|NCT03461276|164807582|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|t-test (sensitivity hypothesis). A 1-sided t-test with a significance level of 0.025 was employed.||"1-sided t-test to compare the ABvac40 and placebo groups.~The primary analysis (t-test) was repeated, using the mITT Analysis Set to test the hypothesis:~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) - average MΔ anti-Aβ40 (placebo) ≤ 1.778~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) - average MΔ anti-Aβ40 (placebo) \> 1.778 The alternative hypothesis was confirmed."||||<0.0001
82551965|NCT03461276|164807582|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||"The change in anti-Aβ40 antibody signal from baseline to each post-baseline efficacy visit was analyzed using a Mixed-Model Repeated Measures (MMRM), using the mITT Analysis Set.~Dependent variable: change from baseline in anti-Aβ40 antibody signal. Fixed effects: treatment, protocol-specified visits, treatment-by-visit interaction, and amyloid positivity. Covariates: baseline anti-Aβ40 antibody signal and baseline age; Repeated measure: measures within-patient at each visit."||||<0.05
82551966|NCT03461276|164807589|OTHER||||||<|0.001|||||||Mixed Models Analysis|||MMRM - Week 50A||||<0.001
82551967|NCT03461276|164807589|OTHER||||||=|0.047|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.047
82551968|NCT03461276|164807590|OTHER||||||=|0.9936|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9936
82551969|NCT03461276|164807590|OTHER||||||=|0.0391||||||MMRM - Week 6A|Mixed Models Analysis|||MMRM - Week 6A||||= 0.0391
82551970|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 10A||||< 0.0001
82551971|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 14A||||< 0.0001
82551972|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 18A||||< 0.0001
82551973|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 24A||||< 0.0001
82551974|NCT03461276|164807590|OTHER||||||=|0.0299|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0299
82551975|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
82551976|NCT03461276|164807590|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
82551977|NCT03461276|164807590|OTHER||||||=|0.1267|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1267
82477257|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.5522||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5522
82551978|NCT03461276|164807590|OTHER|MMRM - Week 104A|||||=|0.2477|||||||Mixed Models Analysis|||||||= 0.2477
82551979|NCT03461276|164807591|OTHER||||||=|0.2151|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.2151
82551980|NCT03461276|164807591|OTHER||||||=|0.0169|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.0169
82551981|NCT03461276|164807591|OTHER||||||=|0.0008|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.0008
82551982|NCT03461276|164807591|OTHER||||||=|0.0002|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0002
82551983|NCT03461276|164807591|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 18A||||< 0.0001
82551984|NCT03461276|164807591|OTHER||||||=|0.0023|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.0023
82551985|NCT03461276|164807591|OTHER||||||=|0.0021|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0021
82551986|NCT03461276|164807591|OTHER||||||=|0.0007|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.0007
82551987|NCT03461276|164807591|OTHER||||||=|0.0012|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.0012
82551988|NCT03461276|164807591|OTHER||||||=|0.0018|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.0018
82551989|NCT03461276|164807591|OTHER||||||=|0.738|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.738
82551990|NCT03461276|164807592|OTHER||||||=|0.7623|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.7623
82551991|NCT03461276|164807592|OTHER||||||=|0.1506|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.1506
82551992|NCT03461276|164807592|OTHER||||||=|0.1071|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.1071
82551993|NCT03461276|164807592|OTHER||||||=|0.0212|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0212
82551994|NCT03461276|164807592|OTHER||||||=|0.0014|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.0014
82551995|NCT03461276|164807592|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 24A||||< 0.0001
82551996|NCT03461276|164807592|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 40A||||< 0.0001
82551997|NCT03461276|164807592|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
82551998|NCT03461276|164807592|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
82551999|NCT03461276|164807592|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 77A||||< 0.0001
82552000|NCT03461276|164807592|OTHER||||||=|0.0251|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0251
82552001|NCT03461276|164807593|OTHER||||||=|0.6515|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.6515
82552002|NCT03461276|164807593|OTHER||||||=|0.7447|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.7447
82552003|NCT03461276|164807593|OTHER||||||=|0.4518|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.4518
82552004|NCT03461276|164807593|OTHER||||||=|0.5416|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.5416
82552005|NCT03461276|164807593|OTHER||||||=|0.3504|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.3504
82552006|NCT03461276|164807593|OTHER||||||=|0.2109|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.2109
82552007|NCT03461276|164807593|OTHER||||||=|0.0049|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0049
82552008|NCT03461276|164807593|OTHER||||||=|0.0498|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.0498
82580738|NCT01468181|164873071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|||<|0.001|TWO_SIDED|95.0|-1.75|-1.55|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HbA1c at 52 Weeks||-1.55|-1.75|<0.001
82580739|NCT01468181|164873073|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-43.9|||<|0.001|TWO_SIDED|95.0|-47.8|-40.0|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||FBG at 26 Weeks||-40.0|-47.8|<0.001
82580740|NCT01468181|164873073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.6|||<|0.001|TWO_SIDED|95.0|-46.4|-38.7|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||FBG at 52 Weeks||-38.7|-46.4|<0.001
82580741|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.42|||<|0.001|TWO_SIDED|95.0|-46.55|-38.29|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-morning meal at 26 Weeks||-38.29|-46.55|<0.001
82580742|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.6|||<|0.001|TWO_SIDED|95.0|-46.44|-38.76|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-morning meal at 52 Weeks||-38.76|-46.44|<0.001
82580743|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-68.48|||<|0.001|TWO_SIDED|95.0|-74.18|-62.79|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-morning meal at 26 Weeks||-62.79|-74.18|<0.001
82552009|NCT03461276|164807593|OTHER||||||=|0.2181|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2181
82552010|NCT03461276|164807593|OTHER||||||=|0.2087|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.2087
82552011|NCT03461276|164807593|OTHER||||||=|0.8599|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8599
82552012|NCT03461276|164807594|OTHER||||||=|0.9469|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9469
82552013|NCT03461276|164807594|OTHER||||||=|0.9063|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.9063
82552014|NCT03461276|164807594|OTHER||||||=|0.3418|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.3418
82552015|NCT03461276|164807594|OTHER||||||=|0.0236|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.0236
82552016|NCT03461276|164807594|OTHER||||||=|0.0012|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.0012
82552017|NCT03461276|164807594|OTHER||||||=|0.0004|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.0004
82552018|NCT03461276|164807594|OTHER||||||=|0.0008|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.0008
82580744|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.08|||<|0.001|TWO_SIDED|95.0|-72.12|-60.04|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-morning meal at 52 Weeks||-60.04|-72.12|<0.001
82552019|NCT03461276|164807594|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 44A||||< 0.0001
82552020|NCT03461276|164807594|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||MMRM - Week 50A||||< 0.0001
82552021|NCT03461276|164807594|OTHER||||||=|0.1255|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1255
82552022|NCT03461276|164807594|OTHER||||||=|0.4232|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.4232
82552023|NCT03461276|164807595|OTHER||||||=|0.9211|||||||Mixed Models Analysis|||MMRM - Week 2A||||= 0.9211
82552024|NCT03461276|164807595|OTHER||||||=|0.2817|||||||Mixed Models Analysis|||MMRM - Week 6A||||= 0.2817
82552025|NCT03461276|164807595|OTHER||||||=|0.2984|||||||Mixed Models Analysis|||MMRM - Week 10A||||= 0.2984
82552026|NCT03461276|164807595|OTHER||||||=|0.8402|||||||Mixed Models Analysis|||MMRM - Week 14A||||= 0.8402
82477258|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.0589||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0589
82552027|NCT03461276|164807595|OTHER||||||=|0.4428|||||||Mixed Models Analysis|||MMRM - Week 18A||||= 0.4428
82552028|NCT03461276|164807595|OTHER||||||=|0.4156|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.4156
82552029|NCT03461276|164807595|OTHER||||||=|0.8706|||||||Mixed Models Analysis|||MMRM - Week 40A||||= 0.8706
82552030|NCT03461276|164807595|OTHER||||||=|0.8691|||||||Mixed Models Analysis|||MMRM - Week 44A||||= 0.8691
82552031|NCT03461276|164807595|OTHER||||||=|0.2188|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2188
82552032|NCT03461276|164807595|OTHER||||||=|0.1448|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.1448
82552033|NCT03461276|164807595|OTHER||||||=|0.5004|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5004
82552034|NCT03461276|164807596|OTHER||||||=|0.1058|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.1058
82552035|NCT03461276|164807596|OTHER||||||=|0.0922|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0922
82552036|NCT03461276|164807597|OTHER||||||=|0.9313|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.9313
82552037|NCT03461276|164807597|OTHER||||||=|0.2243|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2243
82552038|NCT03461276|164807597|OTHER||||||=|0.0952|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.0952
82552039|NCT03461276|164807598|OTHER||||||=|0.3599|||||||Mixed Models Analysis|||MMRM - Week 24A - left||||= 0.3599
82580745|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.21|||<|0.001|TWO_SIDED|95.0|-53.32|-43.09|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-midday meal at 26 Weeks||-43.09|-53.32|<0.001
82580746|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.51|||<|0.001|TWO_SIDED|95.0|-52.77|-42.24|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-midday meal at 52 Weeks||-42.24|-52.77|<0.001
82580747|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-67.06|||<|0.001|TWO_SIDED|95.0|-73.02|-61.11|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-midday meal at 26 Weeks||-61.11|-73.02|<0.001
82580748|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.17|||<|0.001|TWO_SIDED|95.0|-69.16|-57.18|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-midday meal at 52 Weeks||-57.18|-69.16|<0.001
82552040|NCT03461276|164807598|OTHER||||||=|0.8913|||||||Mixed Models Analysis|||MMRM - Week 50A - left||||= 0.8913
82552041|NCT03461276|164807598|OTHER||||||=|0.4736|||||||Mixed Models Analysis|||MMRM - Week 104A - left||||= 0.4736
82552042|NCT03461276|164807598|OTHER||||||=|0.9095|||||||Mixed Models Analysis|||MMRM - Week 24A - right||||= 0.9095
82552043|NCT03461276|164807598|OTHER||||||=|0.8744|||||||Mixed Models Analysis|||MMRM - Week 50A - right||||= 0.8744
82552044|NCT03461276|164807598|OTHER||||||=|0.9307|||||||Mixed Models Analysis|||MMRM - Week 104A - right||||= 0.9307
82552045|NCT03461276|164807599|OTHER||||||=|0.3982|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.3982
82552046|NCT03461276|164807599|OTHER||||||=|0.7035|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7035
82552047|NCT03461276|164807599|OTHER||||||=|0.6334|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6334
82552048|NCT03461276|164807600|OTHER||||||=|0.2193|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2193
82580749|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.0|||<|0.001|TWO_SIDED|95.0|-49.67|-38.34|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-evening meal at 26 Weeks||-38.34|-49.67|<0.001
82552049|NCT03461276|164807600|OTHER||||||=|0.5543|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5543
82552050|NCT03461276|164807601|OTHER||||||=|0.7324|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7324
82552051|NCT03461276|164807601|OTHER||||||=|0.1719|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.1719
82552052|NCT03461276|164807602|OTHER||||||=|0.7977|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7977
82552053|NCT03461276|164807602|OTHER||||||=|0.8828|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8828
82552054|NCT03461276|164807603|OTHER||||||=|0.7954|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.7954
82552055|NCT03461276|164807603|OTHER||||||=|0.5895|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.5895
82552056|NCT03461276|164807604|OTHER||||||=|0.743|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.743
82552057|NCT03461276|164807604|OTHER||||||=|0.832|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.832
82552058|NCT03461276|164807605|OTHER||||||=|0.2283|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2283
82552059|NCT03461276|164807605|OTHER||||||=|0.886|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.886
82552060|NCT03461276|164807606|OTHER||||||=|0.909|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.909
82552061|NCT03461276|164807606|OTHER||||||=|0.8498|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.8498
82552062|NCT03461276|164807607|OTHER||||||=|0.8711|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.8711
82376973|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.79||||0.006|TWO_SIDED|95.0|1.48|9.72|||t-test, 2 sided|||Association of intraoperative hypotension and postoperative headache||9.72|1.48|0.006
82552063|NCT03461276|164807607|OTHER||||||=|0.1098|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.1098
82552064|NCT03461276|164807607|OTHER||||||=|0.6179|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.6179
82552065|NCT03461276|164807607|OTHER||||||=|0.3715|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3715
82552066|NCT03461276|164807608|OTHER||||||=|0.8949|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.8949
82552067|NCT03461276|164807608|OTHER||||||=|0.8712|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.8712
82552068|NCT03461276|164807608|OTHER||||||=|0.8748|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.8748
82552069|NCT03461276|164807608|OTHER||||||=|0.6402|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6402
82552070|NCT03461276|164807609|OTHER||||||=|0.552|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.552
82552071|NCT03461276|164807609|OTHER||||||=|0.9371|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.9371
82552072|NCT03461276|164807609|OTHER||||||=|0.2354|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.2354
82552073|NCT03461276|164807609|OTHER||||||=|0.4608|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.4608
82552074|NCT03461276|164807610|OTHER||||||=|0.3246|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.3246
82552075|NCT03461276|164807610|OTHER||||||=|0.8047|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.8047
82552076|NCT03461276|164807610|OTHER||||||=|0.916|||||||Mixed Models Analysis|||MMRM - Week 77A||||= 0.916
82552077|NCT03461276|164807610|OTHER||||||=|0.9582|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.9582
82552078|NCT03461276|164807611|OTHER||||||=|0.777|||||||Mixed Models Analysis|||MMRM - Week 24A - Trail A||||= 0.777
82552079|NCT03461276|164807611|OTHER||||||=|0.1727|||||||Mixed Models Analysis|||MMRM - Week 50A - Trail A||||= 0.1727
82552080|NCT03461276|164807611|OTHER||||||=|0.0218|||||||Mixed Models Analysis|||MMRM - Week 77A - Trail A||||= 0.0218
82552081|NCT03461276|164807611|OTHER||||||=|0.2789|||||||Mixed Models Analysis|||MMRM - Week 104A - Trail A||||= 0.2789
82552082|NCT03461276|164807611|OTHER||||||=|0.2261|||||||Mixed Models Analysis|||MMRM - Week 24A - Trail B||||= 0.2261
82552083|NCT03461276|164807611|OTHER||||||=|0.9743|||||||Mixed Models Analysis|||MMRM - Week 50A - Trail B||||= 0.9743
82552084|NCT03461276|164807611|OTHER||||||=|0.2556|||||||Mixed Models Analysis|||MMRM - Week 77A - Trail B||||= 0.2556
82552085|NCT03461276|164807611|OTHER||||||=|0.1008|||||||Mixed Models Analysis|||MMRM - Week 104A - Trail B||||= 0.1008
82552086|NCT03461276|164807612|OTHER||||||=|0.6189|||||||Mixed Models Analysis|||MMRM - Week 24A||||= 0.6189
82552087|NCT03461276|164807612|OTHER||||||=|0.6937|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.6937
82552088|NCT03461276|164807612|OTHER||||||=|0.6981|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.6981
82552089|NCT03461276|164807614|OTHER||||||=|0.2863|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.2863
82552090|NCT03461276|164807614|OTHER||||||=|0.3703|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3703
82552091|NCT03461276|164807615|OTHER||||||=|0.9663|||||||Mixed Models Analysis|||MMRM - Week 50A||||= 0.9663
82552092|NCT03461276|164807615|OTHER||||||=|0.3843|||||||Mixed Models Analysis|||MMRM - Week 104A||||= 0.3843
82580750|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.88|||<|0.001|TWO_SIDED|95.0|-49.55|-38.21|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Pre-evening meal at 52 Weeks||-38.21|-49.55|<0.001
82586063|NCT00822523|164884103|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82580751|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-62.91|||<|0.001|TWO_SIDED|95.0|-69.32|-56.5|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-evening meal at 26 Weeks||-56.50|-69.32|<0.001
82580752|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.84|||<|0.001|TWO_SIDED|95.0|-66.95|-54.74|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||2 hours post-evening meal at 52 Weeks||-54.74|-66.95|<0.001
82580753|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.15|||<|0.001|TWO_SIDED|95.0|-66.93|-55.37|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Bedtime meal at 26 Weeks||-55.37|-66.93|<0.001
82477259|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.1691||||||Analysis for change in PAC-QOL Physical Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1691
82477260|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.6293||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.6293
82477261|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.0836||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0836
82477262|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.1155||||||Analysis for change in PAC-QOL Worries/Concerns domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1155
82477263|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.9938||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.9938
82477264|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.2101||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.2101
82477265|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.4597||||||Analysis for change in PAC-QOL Psychosocial Discomfort domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.4597
82477266|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.4822||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.4822
82477267|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.0171||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0171
82477268|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.016||||||Analysis for change in PAC-QOL Satisfaction domain from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0160
82477269|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.6857||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.6857
82477270|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.0253||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0253
82477271|NCT00600119|164649953|SUPERIORITY_OR_OTHER|||||||0.0772||||||Analysis for change in PAC-QOL Total Score from Baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0772
82477272|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.5008||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5008
82477273|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.1823||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1823
82477274|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.7045||||||Analysis for change in PAC-SYM Abdominal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7045
82477275|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.7088||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7088
82477276|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.5828||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.5828
82477277|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.0116||||||Analysis for change in PAC-SYM Rectal Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0116
82477278|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.7848||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.7848
82477279|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.0335||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0335
82477280|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.0591||||||Analysis for change in PAC-SYM Stool Symptoms domain from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0591
82477281|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.9317||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.9317
82477282|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.0675||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.0675
82477283|NCT00600119|164649954|SUPERIORITY_OR_OTHER|||||||0.1745||||||Analysis for change in PAC-SYM Total Score from baseline (Week 1) to end of treatment (Week 4).|Wilcoxon (Mann-Whitney)|||||||0.1745
82477284|NCT01616693|164649955|SUPERIORITY||Difference in seroconversion proportion|4.4|||||TWO_SIDED|97.5|-4.4|13.2||||||||13.2|-4.4|
82477285|NCT01616693|164649955|SUPERIORITY||Difference in seroconversion proportion|7.5|||||TWO_SIDED|95.0|-1.4|16.2||||||||16.2|-1.4|
82580754|NCT01468181|164873074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.16|||<|0.001|TWO_SIDED|95.0|-66.07|-54.25|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Bedtime meal at 52 Weeks||-54.25|-66.07|<0.001
82580755|NCT01468181|164873075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|||<|0.277|TWO_SIDED|95.0|-0.4|0.12|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Body weight at 26 Weeks||0.12|-0.40|<0.277
82580756|NCT01468181|164873075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.382|TWO_SIDED|95.0|-0.42|0.16|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||Body weight at 52 Weeks||0.16|-0.42|0.382
82580757|NCT01468181|164873076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.59|||<|0.001|TWO_SIDED|95.0|26.0|31.18|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-B% at 26 Weeks||31.18|26.00|<0.001
82477286|NCT01616693|164649955|SUPERIORITY||Difference in seroconversion proportion|12.0|||||TWO_SIDED|95.0|0.8|22.8||||||||22.8|.8|
82552093|NCT03461276|164807616|SUPERIORITY||||||<|0.0001||||||A 1-sided t-test with a significance level of 0.025 was employed.|t-test, 1 sided|||"The trial was considered successfully confirmatory regarding efficacy (immunogenicity) of ABvac40 if the average MΔ of anti-Aβ40 antibody signal (OD in ELISA) in the ABvac40 group was significantly greater than the average MΔ of anti-Aβ40 antibody signal in the Placebo group. i.e.~* Null hypothesis: average MΔ anti-Aβ40 (ABvac40) ≤ average MΔ anti-Aβ40 (placebo).~* Alternative hypothesis: average MΔ anti-Aβ40 (ABvac40) \> average MΔ anti-Aβ40 (placebo)"||||< 0.0001
82651022|NCT00294723|165016806|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided 95% confidence interval (CI) for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete CI was below 0%.|Estimated treatment difference, LS Mean|-0.55|||<|0.0001||95.0|-0.77|-0.34||The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity. 2-sided significance level was 5%.|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.34|-0.77|<0.0001
82477287|NCT01616693|164649957|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-4.3|6.6||||||||6.6|-4.3|
82477288|NCT01616693|164649957|SUPERIORITY||Mean Difference (Net)|-3.1|||||TWO_SIDED|95.0|-8.6|2.3||||||||2.3|-8.6|
82477289|NCT01616693|164649957|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-9.8|5.7||||||||5.7|-9.8|
82477290|NCT00993226|164649963|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_DEVIATION|0.29||0.467|TWO_SIDED|95.0|-0.79|0.36|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||0.36|-0.79|0.467
82477291|NCT00993226|164649964|SUPERIORITY||LS Mean Difference|-2.51|STANDARD_DEVIATION|2.57||0.331|TWO_SIDED|95.0|-7.59|2.58|||t-test in ANOVA model|||Exploratory comparison between SABER-Bupivacaine and Bupivacaine HCl not analyzed inferentially||2.58|-7.59|0.331
82477292|NCT04784442|164649974|SUPERIORITY|The overall Type I error rate will be controlled by performing comparison versus the placebo group starting from the highest ETC 1002 dose group by a closed testing procedure at a two-sided significance level of 0.05.|Least squares mean difference|-19.35|STANDARD_ERROR_OF_MEAN|2.768|<|0.001|TWO_SIDED|95.0|-24.81|-13.88|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-13.88|-24.81|<0.001
82477293|NCT04784442|164649974|SUPERIORITY||Least squares mean difference|-19.93|STANDARD_ERROR_OF_MEAN|2.798|<|0.001|TWO_SIDED|95.0|-25.45|-14.41|||ANCOVA||The least squares mean difference was calculated as the value for the ETC-1002 120 mg arm minus the value for the placebo arm.|||-14.41|-25.45|<0.001
82552094|NCT03461276|164807616|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82477294|NCT04784442|164649974|SUPERIORITY||Least squares mean difference|-8.67|STANDARD_ERROR_OF_MEAN|2.813||0.002|TWO_SIDED|95.0|-14.22|-3.12|||ANCOVA||||The least squares mean difference was calculated as the value for the ETC-1002 60 mg arm minus the value for the placebo arm.|-3.12|-14.22|0.002
82477295|NCT03158285|164650017|SUPERIORITY||Difference in percentage|31.2|||<|0.001|TWO_SIDED|95.0|22.9|39.5|||Cochran-Mantel-Haenszel|||||39.5|22.9|< 0.001
82477296|NCT03158285|164650017|SUPERIORITY||Difference in percentage|30.8|||<|0.001|TWO_SIDED|95.0|22.4|39.1|||Cochran-Mantel-Haenszel|||||39.1|22.4|< 0.001
82477297|NCT03158285|164650018|SUPERIORITY||Least Square (LS) Mean difference|-0.2372|||<|0.001|TWO_SIDED|95.0|-0.321|-0.1534|||ANCOVA|||||-0.1534|-0.3210|< 0.001
82477298|NCT03158285|164650018|SUPERIORITY||LS Mean difference|-0.2704|||<|0.001|TWO_SIDED|95.0|-0.3544|-0.1864|||ANCOVA|||||-0.1864|-0.3544|< 0.001
82477299|NCT03158285|164650019|SUPERIORITY||Difference in percentage|17.2|||<|0.001||95.0|10.0|24.4||Nominal|Cochran-Mantel-Haenszel|||||24.4|10.0|< 0.001
82477300|NCT03158285|164650019|SUPERIORITY||Difference in percentage|18.8|||<|0.001|TWO_SIDED|95.0|11.5|26.1||Nominal|Cochran-Mantel-Haenszel|||||26.1|11.5|< 0.001
82477301|NCT03158285|164650020|SUPERIORITY||Difference in percentage|50.9|||<|0.001|TWO_SIDED|95.0|42.2|59.7|||Cochran-Mantel-Haenszel|||||59.7|42.2|<0.001
82477302|NCT03158285|164650020|SUPERIORITY||Difference in percentage|49.8|||<|0.001|TWO_SIDED|95.0|41.2|58.4|||Cochran-Mantel-Haenszel|||||58.4|41.2|< 0.001
82477303|NCT03158285|164650021|SUPERIORITY||Difference in percentage|21.5|||<|0.001|TWO_SIDED|95.0|13.1|30.0||Nominal|Cochran-Mantel-Haenszel|||||30.0|13.1|< 0.001
82477304|NCT03158285|164650021|SUPERIORITY||Difference in percentage|22.2|||<|0.001|TWO_SIDED|95.0|13.7|30.7||Nominal|Cochran-Mantel-Haenszel|||||30.7|13.7|< 0.001
82477305|NCT03158285|164650022|SUPERIORITY||LS Mean difference|-0.43||||0.072|TWO_SIDED|95.0|-0.9|0.03|||ANCOVA|||||0.03|-0.90|0.072
82477306|NCT03158285|164650022|SUPERIORITY||LS Mean difference|-0.66||||0.011|TWO_SIDED|95.0|-1.13|-0.19|||ANCOVA|||||-0.19|-1.13|0.011
82477307|NCT03158285|164650023|SUPERIORITY||Difference in response rates|20.1||||0.03|TWO_SIDED|95.0|11.8|28.5|||Cochran-Mantel-Haenszel|||||28.5|11.8|0.030
82477308|NCT03158285|164650023|SUPERIORITY||Difference in response rates|14.6||||0.03|TWO_SIDED|95.0|6.4|22.7|||Cochran-Mantel-Haenszel|||||22.7|6.4|0.030
82477309|NCT03158285|164650024|SUPERIORITY||Difference in response rates|18.0||||0.03|TWO_SIDED|95.0|7.4|28.6|||Cochran-Mantel-Haenszel|||||28.6|7.4|0.030
82477310|NCT03158285|164650024|SUPERIORITY||Difference in response rates|21.3||||0.011|TWO_SIDED|95.0|10.5|32.0|||Cochran-Mantel-Haenszel|||||32.0|10.5|0.011
82477311|NCT03158285|164650025|SUPERIORITY||LS Mean Difference|-0.5|||<|0.001|TWO_SIDED|95.0|-0.77|-0.23||Nominal|ANCOVA|||||-0.23|-0.77|< 0.001
82477312|NCT03158285|164650025|SUPERIORITY||LS Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.83|-0.31||Nominal|ANCOVA|||||-0.31|-0.83|< 0.001
82477313|NCT03158285|164650026|SUPERIORITY||LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.99|-0.79||Nominal|ANCOVA|||||-0.79|-2.99|< 0.001
82552095|NCT03461276|164807616|SUPERIORITY||Mean Difference (Final Values)|3.21|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|3.02|3.4|||ANCOVA|||||3.4|3.02|< 0.0001
82477314|NCT03158285|164650026|SUPERIORITY||LS Mean Difference|-1.77||||0.002|TWO_SIDED|95.0|-2.87|-0.66||Nominal|ANCOVA|||||-0.66|-2.87|0.002
82477315|NCT03158285|164650027|SUPERIORITY||LS Mean difference|3.97||||0.011|TWO_SIDED|95.0|2.75|5.2|||ANCOVA|||||5.20|2.75|0.011
82477316|NCT03158285|164650027|SUPERIORITY||LS Mean difference|3.62||||0.011|TWO_SIDED|95.0|2.39|4.85|||ANCOVA|||||4.85|2.39|0.011
82477317|NCT03158285|164650028|SUPERIORITY||LS Mean difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.8|-0.43||Nominal|ANCOVA|||||-0.43|-0.80|< 0.001
82477318|NCT03158285|164650028|SUPERIORITY||LS Mean difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.83|-0.47||Nominal|ANCOVA|||||-0.47|-0.83|< 0.001
82477319|NCT03158285|164650029|SUPERIORITY||LS Mean difference|2.02||||0.072|TWO_SIDED|95.0|0.56|3.49|||ANCOVA|||||3.49|0.56|0.072
82477320|NCT03158285|164650029|SUPERIORITY||LS Mean difference|2.07||||0.072|TWO_SIDED|95.0|0.6|3.54|||ANCOVA|||||3.54|0.60|0.072
82477321|NCT03158285|164650030|SUPERIORITY||Difference in percentage|19.3|||<|0.001|TWO_SIDED|95.0|12.6|25.9||Nominal|Cochran-Mantel-Haenszel|||||25.9|12.6|< 0.001
82477322|NCT03158285|164650030|SUPERIORITY||Difference in percentage|11.5|||<|0.001|TWO_SIDED|95.0|5.2|17.7||Nominal|Cochran-Mantel-Haenszel|||||17.7|5.2|< 0.001
82477323|NCT03158285|164650031|SUPERIORITY||Difference in percentage|14.5|||<|0.001|TWO_SIDED|95.0|9.1|19.9||Nominal|Cochran-Mantel-Haenszel|||||19.9|9.1|< 0.001
82477324|NCT03158285|164650031|SUPERIORITY||Difference in percentage|9.0|||<|0.001|TWO_SIDED|95.0|4.1|13.8||Nominal|Cochran-Mantel-Haenszel|||||13.8|4.1|< 0.001
82477325|NCT01008423|164650229|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Regression, Logistic|||The logistic regression test was used to test for a difference in the percentages between the 2 treatment arms after adjusting for analysis center (country).||||<0.0001
82477326|NCT01809639|164650239|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||||||.42
82477327|NCT03512457|164650255|SUPERIORITY|Chi-square||||||0.12||||||P-value of \<0.05 is the threshold for statistical significance. The hypothesis was that more women randomized to the intensive intervention would perform skin self-examination.|Chi-squared|Chi-Squared is equal to 1.58, with a P-Value of 0.12.||change from baseline to 3 months in performance of skin self-examination Parallel: response rate||||0.12
82477328|NCT03512457|164650256|SUPERIORITY|Types of lesions in the following categories: Benign nevus, seborrheic keratosis, lentigo, dermatofibroma, atypical nevus. melanoma|||||<|0.05|||||||Chi-squared|||results of skin clinical examination and biopsy of clinically suspicious moles||||<0.05
82477329|NCT00006289|164650258|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B, without knowing which drug is Neurotropin or Placebo) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
82477330|NCT00006289|164650259|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
82477331|NCT00006289|164650260|SUPERIORITY_OR_OTHER|||||||0.0058|TWO_SIDED||||||t-test, 1 sided|||Data from 16 patients is analyzed using one-sided paired t-test without breaking treatment code (Drug A or B) to determine if (1) the study should be terminated (if 0.0058 ≤ p), (2) the study should be terminated with rejection of the null hypothesis that there are no differences between Drug A and Drug B (p ≥ 0.9), or (3) the study will be continued to obtain the total of 42 patients (0.0058 ≤ p ≤ 0.9).||||0.0058
82477332|NCT05141448|164650264|NON_INFERIORITY|Non-inferiority was declared if the upper limit of the 95% confidence interval of was below 0.05 logMAR|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.011|||TWO_SIDED|95.0|0.02|0.06|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Mean difference was calculated as senofilcon A C3 (EMO-118) minus omafilcon A|||0.06|0.02|
82477333|NCT03137069|164650275|SUPERIORITY||Least Squares Mean Difference|-7.02||||0.0559|TWO_SIDED|90.0|-13.01|-1.03|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-1.03|-13.01|0.0559
82477334|NCT03137069|164650275|SUPERIORITY||Least Squares Mean Difference|-0.51||||0.8892|TWO_SIDED|90.0|-6.6|5.58|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||5.58|-6.60|0.8892
82477335|NCT03137069|164650275|SUPERIORITY||Least Squares Mean Difference|-6.43||||0.0717|TWO_SIDED|90.0|-12.29|-0.57|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-0.57|-12.29|0.0717
82477336|NCT03137069|164650275|SUPERIORITY||Least Squares Mean Difference|-9.53||||0.0097|TWO_SIDED|90.0|-15.5|-3.55|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-3.55|-15.50|0.0097
82477337|NCT03137069|164650276|SUPERIORITY|||||||0.1087|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.1087
82477338|NCT03137069|164650276|SUPERIORITY|||||||0.3418|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.3418
82477339|NCT03137069|164650276|SUPERIORITY|||||||0.0459|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.0459
82477340|NCT03137069|164650276|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|Stratified by region||||||0.0190
82552096|NCT02043678|164807668|SUPERIORITY||Hazard Ratio (HR)|1.122||||0.2636|TWO_SIDED|95.0|0.917|1.374|||Cox Proportional Hazards Model|||||1.374|0.917|0.2636
82552097|NCT02043678|164807669|SUPERIORITY||Hazard Ratio (HR)|1.151||||0.1194|TWO_SIDED|95.0|0.964|1.374|||Cox Proportional Hazards model|||||1.374|0.964|0.1194
82552098|NCT02043678|164807670|SUPERIORITY||Hazard Ratio (HR)|1.152||||0.1283|TWO_SIDED|95.0|0.96|1.383|||Cox Proportional Hazards Model|||||1.383|0.960|0.1283
82552099|NCT02043678|164807671|SUPERIORITY||Hazard Ratio (HR)|1.145||||0.1669|TWO_SIDED|95.0|0.945|1.389|||Cox Proportional Hazards Model|||||1.389|0.945|0.1669
82552100|NCT02043678|164807672|SUPERIORITY||Hazard Ratio (HR)|1.033||||0.7871|TWO_SIDED|95.0|0.816|1.308|||Cox Proportional Hazards Model|||||1.308|0.816|0.7871
82477341|NCT03137069|164650277|SUPERIORITY||Least Squares Mean Difference|-12.88||||0.001|TWO_SIDED|90.0|-18.94|-6.82|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-6.82|-18.94|0.0010
82477342|NCT03137069|164650277|SUPERIORITY||Least Squares Mean Difference|-2.83||||0.4565|TWO_SIDED|90.0|-9.11|3.46|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||3.46|-9.11|0.4565
82477343|NCT03137069|164650277|SUPERIORITY||Least Squares Mean Difference|-5.03||||0.1711|TWO_SIDED|90.0|-11.1|1.03|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||1.03|-11.10|0.1711
82477344|NCT03137069|164650277|SUPERIORITY||Least Squares Mean Difference|-10.76||||0.005|TWO_SIDED|90.0|-16.97|-4.56|||Mixed Models Analysis|Covariates included were region, treatment group, visit, and visit by treatment group interaction||||-4.56|-16.97|0.0050
82477345|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Naïve T cells||||< 0.0001
82477346|NCT02720107|164650283|SUPERIORITY_OR_OTHER|||||||0.0493||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from study Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Central memory T cells||||0.0493
82477347|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD4+ Effector memory T cells||||< 0.0001
82552101|NCT02043678|164807673|SUPERIORITY||Hazard Ratio (HR)|1.126||||0.2467|TWO_SIDED|95.0|0.921|1.378|||Cox Proportional Hazards Model|||||1.378|0.921|0.2467
82552102|NCT03216057|164807683|SUPERIORITY|The sample size was calculated that 130 subjects randomized in a 1:1 fashion between the 2 arms have 85% power to detect a difference of at least 20% in triglyceride percentage changes compared with placebo at week 12, assuming a common standard deviation in percentage change of 35%, a 2-sided α = 0.05, and we add 20% for lost follow-up, finally the number of subjects for each arm was 65.|Mean Difference (Net)|-24.5|||<|0.01|TWO_SIDED|95.0|-32.7|-16.2|||t-test, 2 sided|||||-16.2|-32.7|<0.01
82552103|NCT03216057|164807684|SUPERIORITY||Mean Difference (Net)|-59.9|||<|0.01|TWO_SIDED|95.0|-83.0|-36.8|||t-test, 2 sided|||||-36.8|-83.0|<0.01
82552104|NCT03216057|164807685|SUPERIORITY||Mean Difference (Net)|-9.0||||0.01|TWO_SIDED|95.0|-16.1|-1.9|||t-test, 2 sided|||||-1.9|-16.1|0.01
82552105|NCT03216057|164807686|SUPERIORITY||Mean Difference (Net)|-4.9||||0.3|TWO_SIDED|95.0|-15.8|6.05|||t-test, 2 sided|||||6.05|-15.8|0.3
82552106|NCT03216057|164807687|SUPERIORITY||Mean Difference (Net)|-12.4|||<|0.01|TWO_SIDED|95.0|-21.2|-3.5|||t-test, 2 sided|||||-3.5|-21.2|<0.01
82552107|NCT03216057|164807688|SUPERIORITY||Mean Difference (Net)|-2.2||||0.02|TWO_SIDED|95.0|-4.1|-0.3|||t-test, 2 sided|||||-0.3|-4.1|0.02
82552108|NCT03216057|164807689|SUPERIORITY||Mean Difference (Net)|-1.2||||0.6|TWO_SIDED|95.0|-6.3|3.8|||t-test, 2 sided|||||3.8|-6.3|0.6
82552109|NCT03216057|164807690|SUPERIORITY||Mean Difference (Net)|1.9||||0.1|TWO_SIDED|95.0|-0.9|4.9|||t-test, 2 sided|||||4.9|-0.9|0.1
82552110|NCT03216057|164807691|SUPERIORITY||Mean Difference (Net)|13.4|||<|0.01|TWO_SIDED|95.0|5.8|21.0|||t-test, 2 sided|||||21|5.8|<0.01
82552111|NCT03216057|164807692|SUPERIORITY||Mean Difference (Net)|0.8|||<|0.01|TWO_SIDED|95.0|0.4|1.2|||t-test, 2 sided|||||1.2|0.4|<0.01
82552112|NCT03904147|164807696|SUPERIORITY||Win Ratio|1.44||||0.0311|TWO_SIDED||||||Finkelstein-Schoenfeld Method||The Win Ratio provides an estimation of the treatment effect.|||||0.0311
82552113|NCT03904147|164807697|SUPERIORITY|||||||0.0008|||||||exact test|||||||0.0008
82552114|NCT03904147|164807698|SUPERIORITY||||||<|0.0001|||||||Z test|||||||<0.0001
82552115|NCT03904147|164807699|SUPERIORITY||||||<|0.0001|||||||ANCOVA model|||||||<0.0001
82552116|NCT03904147|164807700|SUPERIORITY||||||<|0.0001|||||||Chi-square test|||||||<0.0001
82552117|NCT03904147|164807701|SUPERIORITY|||||||0.2482|||||||ANCOVA model|||||||0.2482
82552118|NCT03904147|164807702|SUPERIORITY||||||<|0.0001|||||||Exact test|||||||<0.0001
82552119|NCT03904147|164807703|SUPERIORITY||||||<|0.0001|||||||Binomial exact method|||||||<0.0001
82552120|NCT03904147|164807704|SUPERIORITY|||||||0.109|||||||normal approximation|||||||0.1090
82552121|NCT05445427|164807796|SUPERIORITY|Groups were compared using Wilcoxon rank sum test.||||||0.544|||||||Wilcoxon (Mann-Whitney)|||||||0.544
82552122|NCT05445427|164807797|SUPERIORITY|||||||0.292|||||||ANCOVA|ANCOVA was used with the baseline value used as the covariate.||||||0.292
82552123|NCT05825755|164807798|SUPERIORITY|||||||0.252|||||||Wilcoxon (Mann-Whitney)|||||||0.252
82552124|NCT05825755|164807799|SUPERIORITY|||||||1|||||||McNemar|||||||1.0
82552125|NCT05825755|164807800|SUPERIORITY|||||||0.791|||||||Wilcoxon (Mann-Whitney)|||||||0.791
82552126|NCT04103580|164807805|SUPERIORITY||Slope|0.005|STANDARD_ERROR_OF_MEAN|0.005||0.247|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 1.||||0.247
82552127|NCT04103580|164807805|SUPERIORITY||Slope|-0.008|STANDARD_ERROR_OF_MEAN|0.004||0.049|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 2.||||0.049
82552128|NCT04103580|164807806|SUPERIORITY||Slope|0.006|STANDARD_ERROR_OF_MEAN|0.004||0.15|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 1.||||0.150
82477348|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Naïve T cells||||< 0.0001
82477349|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Central memory T cells||||< 0.0001
82477350|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||CD8+ Effector memory T cells||||< 0.0001
82477351|NCT02720107|164650283|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The ANCOVA model included the covariates center, baseline of corresponding cell counts from Core study, sex and duration of disease until start of Core study|ANCOVA|||TH17 central memory cells||||< 0.0001
82477352|NCT02522624|164650287|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||<.001
82477353|NCT02522624|164650287|SUPERIORITY_OR_OTHER|||||||0.16||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.16
82477354|NCT02522624|164650287|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||Controlling for Numeracy.||||<.001
82477355|NCT02522624|164650288|SUPERIORITY_OR_OTHER|||||||0.002||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||0.002
82477356|NCT02522624|164650288|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.30
82477357|NCT02522624|164650288|SUPERIORITY_OR_OTHER|||||||0.82|||||||Regression, Linear|||Controlling for Numeracy.||||0.82
82477358|NCT02522624|164650289|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Linear|||||||<.001
82477359|NCT02522624|164650289|SUPERIORITY_OR_OTHER|||||||0.82|||||||Regression, Linear|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.82
82477360|NCT02522624|164650289|SUPERIORITY_OR_OTHER|||||||0.15|||||||Regression, Linear|||Controlling for Numeracy.||||0.15
82477361|NCT02522624|164650290|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1|TWO_SIDED|95.0|0.92|2.36||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||2.36|0.92|0.10
82477362|NCT02522624|164650290|SUPERIORITY_OR_OTHER|||||||0.26|||||||Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.26
82477363|NCT02522624|164650290|SUPERIORITY_OR_OTHER|||||||0.58|||||||Regression, Linear|||Controlling for Numeracy.||||0.58
82477364|NCT02522624|164650291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.52|||<|0.001|TWO_SIDED|95.0|1.58|4.01||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||4.01|1.58|<.001
82477365|NCT02522624|164650291|SUPERIORITY_OR_OTHER|||||||0.39||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.39
82477366|NCT02522624|164650291|SUPERIORITY_OR_OTHER|||||||0.57|||||||Regression, Linear|||Controlling for Numeracy.||||0.57
82477367|NCT02522624|164650292|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.32|||<|0.001|TWO_SIDED|95.0|5.94|17.95||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||||17.95|5.94|<.001
82477368|NCT02522624|164650292|SUPERIORITY_OR_OTHER|||||||0.001||||||A priori sample size estimates yielded an estimate of 183 per group needed to detect an effect size of 0.34 with 90% power at a 0.05 level of significance and 137 per group with 80% power.|Regression, Logistic|||Examined the relation between group and categorical outcomes, controlling for % Federal Poverty Level (400 or greater, 250-399, 100-249, less than 100).||||0.001
82477369|NCT02522624|164650292|SUPERIORITY_OR_OTHER|||||||0.46|||||||Regression, Linear|||Controlling for numeracy.||||0.46
82477370|NCT02600871|164650334|SUPERIORITY|The significance of variation in proportions with treatment (Provodine®, Control) was assessed with Fisher's Exact tests and variation in the mean with treatment was assessed with T-tests.||||||0.71|||||||Fisher Exact|||||||0.71
82477371|NCT01347580|164650371|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.8214|TWO_SIDED|95.0|0.799|1.327||pvalue at 0.025 , adjusted for multiple comparisons|Regression, Logistic|||||1.327|0.799|0.8214
82477372|NCT01347580|164650372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.074||||0.6322|TWO_SIDED|95.0|0.801|1.441||P value at 0.025 adjusted for multiple comparisons|Regression, Logistic|||||1.441|0.801|0.6322
82477373|NCT01347580|164650373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.027||||0.9056|TWO_SIDED|95.0|0.661|1.595|||Regression, Logistic|||||1.595|0.661|0.9056
82477374|NCT01347580|164650374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.215||||0.4168|TWO_SIDED|95.0|0.76|1.942|||Regression, Logistic|||||1.942|0.760|0.4168
82477375|NCT01347580|164650375|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.189||||0.0307|TWO_SIDED|95.0|0.042|0.856|||Regression, Logistic|||||0.856|0.042|0.0307
82477376|NCT01347580|164650376|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.132||||0.344|TWO_SIDED|95.0|0.876|1.462|||Regression, Logistic|||||1.462|0.876|0.344
82552129|NCT04103580|164807806|SUPERIORITY||Slope|-0.002|STANDARD_ERROR_OF_MEAN|0.004||0.635|TWO_SIDED||||||Mixed Models Analysis|Due to uneven space between time points (days), we estimated a random effects model with varying intercepts and slopes for each phase independently.|We used an interaction between time and study arm to determine whether there was a significant difference over time in the change in outcome. The estimate is the difference in change over time for the intervention group compared to the control group.|The null hypothesis is that there is no difference between control and intervention over time in Phase 2.||||0.635
82552130|NCT04248725|164807827|SUPERIORITY||Mean Difference (Net)|-2.7||||0.004|TWO_SIDED||||||Mixed Models Analysis|Models were adjusted for sex, baseline severity, and disability condition.||||||0.004
82552131|NCT04248725|164807828|SUPERIORITY||Mean Difference (Net)|0.59|||<|0.001|TWO_SIDED|95.0|0.3|0.88|||Mixed Models Analysis|||||0.88|0.30|<0.001
82552132|NCT04248725|164807829|SUPERIORITY||Mean Difference (Net)|-0.32||||0.29|TWO_SIDED|95.0|-0.61|-0.03|||Mixed Models Analysis|||||-0.03|-0.61|0.29
82552133|NCT02675777|164807863|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<.001
82552134|NCT02675777|164807864|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.30
82552135|NCT06182033|164807912|OTHER|||||||0.84|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We conducted a linear regression. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.84
82552136|NCT06182033|164807913|OTHER|||||||0.727|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We conducted a linear regression. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.727
82552137|NCT06182033|164807914|OTHER|||||||0.205|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||These analyses use the assertiveness subscale as the outcome variable. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.205
82552138|NCT06182033|164807914|OTHER|||||||0.034|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||This analysis focused specifically on the behavior control subscale. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.034
82552139|NCT06182033|164807914|OTHER|||||||0.099|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||These analyses use the Task Orientation subscale as the outcome variable. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.099
82477377|NCT01347580|164650377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.225||||0.0547|TWO_SIDED|95.0|0.996|1.506|||Regression, Logistic|||||1.506|0.996|0.0547
82477378|NCT01347580|164650378|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.803||||0.166|TWO_SIDED|95.0|0.588|1.096|||Regression, Logistic|||||1.096|0.588|0.1660
82552140|NCT06182033|164807914|OTHER|||||||0.209|||||||Regression, Linear|||This analysis used peer social skills subscale as the outcome in the model. We conducted a linear regression for each of the measure's subscales. We accounted for baseline, which allowed us to examine residualized gains. We controlled for age.||||.209
82552141|NCT06182033|164807915|OTHER|||||||0.82|||||||Multilevel Model|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.82
82552142|NCT06182033|164807916|OTHER|||||||0.67|||||||Multilevel Model|Kenward-Rogers and Restricted Maximum Likelihood adjustments in light of small sample size to reduce error likelihood.||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.67
82552143|NCT06182033|164807917|OTHER|||||||0.024|||||||Regression, Linear|Kenward-Rogers and Restricted Maximum Likelihood to account for the small sample size.||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.024
82552144|NCT06182033|164807918|OTHER|||||||0.013|||||||Regression, Linear|Kenward Rogers and Restricted Maximum Likelihood adjustment made to reduce error likelihood||We examined the trajectory across timepoints using a multilevel model that controlled for age. The p value is in reference to the difference between the treatment and control children at the final observation.||||.013
82552145|NCT02151981|164807926|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.3|||<|0.001|TWO_SIDED|95.0|0.23|0.41|||Log Rank||A hazard ratio \<1 favours Osimertinib 80mg|||0.41|0.23|<0.001
82552146|NCT02151981|164807927|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.39|||<|0.001|TWO_SIDED|95.0|3.47|8.48|||Regression, Logistic|adjusted for ethnicity (Asian/non-Asian)|odds ratio \>1.0 favours Osimertinib 80 mg|||8.48|3.47|<0.001
82552147|NCT02151981|164807928|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Expected (DoR)|6.22|||<|0.001|TWO_SIDED|95.0|4.04|9.57|||formulae provided in Ellis S et al 2008|Treatments compared by calculating the ratio of the Expected (DoR) using the Log Normal probability distribution for DOR in responding patients||||9.57|4.04|<0.001
82552148|NCT02151981|164807929|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.76|||<|0.001|TWO_SIDED|95.0|2.64|8.84|||Regression, Logistic||odds ratio \>1.0 favours Osimertinib 80 mg|||8.84|2.64|<0.001
82552149|NCT02151981|164807930|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-21.62|||<|0.001|TWO_SIDED|95.0|-27.71|-15.52|||ANCOVA|Covariates for ethnicity (Asian, non-Asian) and the baseline sum of diameters of target lesions|LS Mean: Osimertinib -46.93, Chemo -25.3 A difference in LS means \<0 favours Osimertinib 80mg|||-15.52|-27.71|<0.001
82552150|NCT02151981|164807931|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.277|TWO_SIDED|95.0|0.67|1.13|||Log Rank||A hazard ratio \<1 favours Osimertinib 80 mg|||1.13|0.67|0.277
82552151|NCT02151981|164807932|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.16|0.28|||Log Rank||A hazard ratio \<1 favors Osimertinib 80mg|||0.28|0.16|<0.001
82552152|NCT02151981|164807933|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||<|0.001|TWO_SIDED|95.0|0.69|1.11|||Log Rank||A hazard ratio \<1 favours Osimertinib 80 mg|||1.11|0.69|<0.001
82586064|NCT00822523|164884103|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82477379|NCT00730028|164650383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.7688|TWO_SIDED|95.0|-7.6|5.1||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess at the Test of Cure (TOC) visit.||5.1|-7.6|0.7688
82477380|NCT00730028|164650383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||1|TWO_SIDED|95.0|-5.4|5.1||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||5.1|-5.4|1.0000
82477381|NCT00730028|164650383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-19.2|-5.6||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.6|-19.2|<0.0001
82477382|NCT00730028|164650383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2||||0.0002|TWO_SIDED|95.0|-19.1|-5.4||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.4|-19.1|0.0002
82477383|NCT00730028|164650386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.52|TWO_SIDED|95.0|-10.2|4.9||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess at the Test of Cure (TOC) visit.||4.9|-10.2|0.5200
82477384|NCT00730028|164650386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.7324|TWO_SIDED|95.0|-8.4|5.7||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||5.7|-8.4|0.7324
82477385|NCT00730028|164650386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2||||0.0001|TWO_SIDED|95.0|-22.0|-6.4||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-6.4|-22.0|0.0001
82477386|NCT00730028|164650386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9||||0.0008|TWO_SIDED|95.0|-20.8|-5.0||Adjustments for multiple comparisons were made using a Bonferroni correction.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Primary null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess at the TOC visit.||-5.0|-20.8|0.0008
82477387|NCT00730028|164650387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.7707|TWO_SIDED|95.0|-7.1|5.3||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||5.3|-7.1|0.7707
82477388|NCT00730028|164650387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.2141|TWO_SIDED|95.0|-2.0|8.5||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||8.5|-2.0|0.2141
82477389|NCT00730028|164650387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0||||0.0593|TWO_SIDED|95.0|-12.4|0.5||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||0.5|-12.4|0.0593
82477390|NCT00730028|164650387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2||||0.0017|TWO_SIDED|95.0|-15.3|-3.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-3.1|-15.3|0.0017
82477391|NCT00730028|164650388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.1381|TWO_SIDED|95.0|-13.1|1.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||1.8|-13.1|0.1381
82477392|NCT00730028|164650388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.8302|TWO_SIDED|95.0|-6.4|8.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||8.2|-6.4|0.8302
82477393|NCT00730028|164650388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.0838|TWO_SIDED|95.0|-14.3|1.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||1.1|-14.3|0.0838
82477394|NCT00730028|164650388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.0507|TWO_SIDED|95.0|-15.2|0.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||0.2|-15.2|0.0507
82552153|NCT03257410|164807967|SUPERIORITY||Mean Difference (Final Values)|14.828|||||TWO_SIDED|95.0|10.501|19.156|||||Method=ANCOVA|If the lower bound of the two-sided 95% confidence interval around the difference between Theranova 400 and Elisio-17H is \> 0 then superiority will be demonstrated.||19.156|10.501|
82552154|NCT03257410|164807968|NON_INFERIORITY|If the lower bound of the two-sided 95% confidence interval around the mean estimated treatment difference between Theranova 400 and Elisio 17H is \> -0.1765 g/dL then non-inferiority can be claimed. If the lower bound of the two-sided 95% confidence interval is \> 0, then superiority may be concluded.|Mean Difference (Final Values)|-0.015|||||TWO_SIDED|95.0|-0.098|0.069|||ANCOVA|||||0.069|-0.098|
82552155|NCT03257410|164807969|OTHER||Mean Difference (Final Values)|19.42|STANDARD_ERROR_OF_MEAN|2.103|<|0.0001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||<0.0001
82552156|NCT03257410|164807969|OTHER||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|2.115|<|0.0001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||<0.0001
82552157|NCT03257410|164807970|OTHER||Mean Difference (Final Values)|25.07|STANDARD_ERROR_OF_MEAN|4.3|<|0.0001|TWO_SIDED||||||MMRM|||Week 4||||<0.0001
82552158|NCT03257410|164807970|OTHER||Mean Difference (Final Values)|23.54|STANDARD_ERROR_OF_MEAN|2.0|<|0.0001|TWO_SIDED||||||MMRM|||Week 24||||<0.0001
82552159|NCT03257410|164807971|OTHER||Mean Difference (Final Values)|15.89|STANDARD_ERROR_OF_MEAN|2.73|<|0.0001|TWO_SIDED||||||MMRM|||Week 4||||<0.0001
82552160|NCT03257410|164807971|OTHER||Mean Difference (Final Values)|15.36|STANDARD_ERROR_OF_MEAN|2.479|<|0.0001|TWO_SIDED||||||MMRM|||Week 24||||<0.0001
82477395|NCT00730028|164650389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7||||0.1505|TWO_SIDED|95.0|-13.3|1.9||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||1.9|-13.3|0.1505
82477396|NCT00730028|164650389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.1666|TWO_SIDED|95.0|-10.9|2.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||2.2|-10.9|0.1666
82552161|NCT03257410|164807972|OTHER||Mean Difference (Final Values)|17.59|STANDARD_ERROR_OF_MEAN|9.583||0.0684|TWO_SIDED||||||MMRM|||Week 4||||0.0684
82552162|NCT03257410|164807972|OTHER||Mean Difference (Final Values)|13.98|STANDARD_ERROR_OF_MEAN|7.937||0.0806|TWO_SIDED||||||MMRM|||Week 24||||0.0806
82552163|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.0347|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.0347
82552164|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.033||0.0036|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 8||||0.0036
82552165|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.04||0.129|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.129
82552166|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.052||0.1149|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 16||||0.1149
82552167|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.044||0.0688|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 20||||0.0688
82552168|NCT03257410|164807977|OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.042||0.6097|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.6097
82552169|NCT03257410|164807978|OTHER||Mean Difference (Final Values)|-6.32|STANDARD_ERROR_OF_MEAN|4.336||0.1472|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.1472
82552170|NCT03257410|164807978|OTHER||Mean Difference (Final Values)|-11.18|STANDARD_ERROR_OF_MEAN|7.154||0.1207|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.1207
82552171|NCT03257410|164807979|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.488||0.9775|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.9775
82552172|NCT03257410|164807979|OTHER||Mean Difference (Final Values)|1.72|STANDARD_ERROR_OF_MEAN|2.905||0.5538|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.5538
82552173|NCT03257410|164807980|OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.146||0.11|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.1100
82552174|NCT03257410|164807980|OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.153||0.4607|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.4607
82552175|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|-0.0787|STANDARD_ERROR_OF_MEAN|0.04454||0.0791|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 4||||0.0791
82552176|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|-0.0027|STANDARD_ERROR_OF_MEAN|0.04302||0.9505|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 8||||0.9505
82552177|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|-0.0615|STANDARD_ERROR_OF_MEAN|0.04271||0.1521|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.1521
82552178|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|0.0538|STANDARD_ERROR_OF_MEAN|0.04652||0.2489|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 16||||0.2489
82552179|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|-0.0345|STANDARD_ERROR_OF_MEAN|0.05025||0.4936|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 20||||0.4936
82552180|NCT03257410|164807981|OTHER||Mean Difference (Final Values)|-0.0663|STANDARD_ERROR_OF_MEAN|0.0458||0.1497|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.1497
82552181|NCT03257410|164807982|OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|2.012||0.9001|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 12||||0.9001
82552182|NCT03257410|164807982|OTHER||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|2.372||0.3279|TWO_SIDED||||||Mixed-effect Model Repeated Measurement|||Week 24||||0.3279
82552183|NCT03257410|164807983|OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.452||0.6576|TWO_SIDED||||||ANCOVA|||||||0.6576
82552184|NCT03257410|164807984|OTHER||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.104||0.0058|TWO_SIDED||||||ANCOVA|||||||0.0058
82552185|NCT03257410|164807985|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.023||0.034|TWO_SIDED||||||ANCOVA|||||||0.034
82552186|NCT03257410|164807986|OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.071||0.0285|TWO_SIDED||||||ANCOVA|||||||0.0285
82477397|NCT00730028|164650389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.0001|TWO_SIDED|95.0|-23.0|-8.0||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-8.0|-23.0|<0.0001
82477398|NCT00730028|164650389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1||||0.0046|TWO_SIDED|95.0|-19.0|-3.2||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-3.2|-19.0|0.0046
82477399|NCT00730028|164650390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.4||||0.1815|TWO_SIDED|95.0|-13.6|2.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: Clindamycin and TMP-SMX have equal rates of cure in the treatment of cellulitis/larger abscess.||2.8|-13.6|0.1815
82477400|NCT00730028|164650390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.1552|TWO_SIDED|95.0|-13.2|2.1||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of TMP-SMX minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||2.1|-13.2|0.1552
82477401|NCT00730028|164650390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.9|||<|0.0001|TWO_SIDED|95.0|-24.0|-7.8||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus Clindamycin.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-7.8|-24.0|<0.0001
82477402|NCT00730028|164650390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4||||0.0145|TWO_SIDED|95.0|-18.7|-2.0||Adjustments for multiple comparisons were not made for secondary efficacy outcome measures.|Fisher Exact||The mean difference is determined by the cure rate of Placebo minus TMP-SMX.|Null hypothesis: After successful surgical drainage, placebo, Clindamycin, and TMP-SMX have equal rates of cure in the treatment of limited abscess.||-2.0|-18.7|0.0145
82477403|NCT02204124|164650404|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82477404|NCT02204124|164650405|SUPERIORITY|||||||0.513|||||||Chi-squared|||||||0.513
82477405|NCT02204124|164650408|SUPERIORITY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82552187|NCT03257410|164807987|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.513||0.9069|TWO_SIDED||||||ANCOVA|||||||0.9069
82552188|NCT03257410|164807988|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.443||0.8413|TWO_SIDED||||||ANCOVA|||||||0.8413
82552189|NCT03257410|164807989|OTHER||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.382||0.0125|TWO_SIDED||||||ANCOVA|||||||0.0125
82552190|NCT03257410|164807990|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.561||0.6891|TWO_SIDED||||||ANCOVA|||||||0.6891
82477406|NCT02204124|164650409|SUPERIORITY|||||||0.132|||||||Chi-squared|||||||0.132
82477407|NCT02204124|164650410|SUPERIORITY|||||||0.975|||||||Chi-squared|||Statistical analysis #1 is for readmission||||0.975
82477408|NCT02204124|164650410|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #2 is for wound infection.||||0.401
82477409|NCT02204124|164650410|SUPERIORITY|||||||0.975|||||||Chi-squared|||Statistical analysis #3 is for gastroparesis.||||0.975
82477410|NCT02204124|164650410|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #4 is for pancreatic fistula.||||0.401
82477411|NCT02204124|164650410|SUPERIORITY|||||||0.219|||||||Chi-squared|||Statistical analysis #5 is for intraabdominal abscess.||||0.219
82477412|NCT02204124|164650410|SUPERIORITY|||||||0.401|||||||Chi-squared|||Statistical analysis #6 is for anastomotic leakage.||||0.401
82477413|NCT02204124|164650410|SUPERIORITY|||||||0.219|||||||Chi-squared|||Statistical analysis #7 is for blood product transfusion (anemia).||||0.219
82477414|NCT01250496|164650411|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.45||||0.04|TWO_SIDED|95.0|0.2|0.98||No adjustment for multiple comparisons was performed. The threshold for statistical significance was \< 0.05|Chi-squared|||null hypothesis: aminophylline administration does not reduce the incidence of the primary endpoint as compared to placebo. The chi-square test was used to compare event rate between the study arm.||0.98|0.2|0.04
82477415|NCT01250496|164650412|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.39|||<|0.001|TWO_SIDED|95.0|0.2|0.7||P value is not adjusted for multiple comparisons.|Chi-squared|||"null hypothesis: the rate of regadenoson adverse effects (global symptomatic burden) in the aminophylline and placebo group are not statistically different.~The chi-square test was used for comparison."||0.7|0.2|< 0.001
82477416|NCT01425463|164650444|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority of the investigational drug (Ferrous (II) Glycine Sulphate Complex) to the reference drug (Polyferose) was concluded if the lower limit of the two-sided 95 % confidence interval was greater than -7.0 g/L.|LS-Mean of ANCOVA|-2.19|||||TWO_SIDED|95.0|-8.47|4.09||||||||4.09|-8.47|
82477417|NCT02908490|164650471|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline FMD within that period and a term for treatment order.|Slope|-1.42||||0.185|TWO_SIDED|95.0|-3.54|0.68||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||0.68|-3.54|0.185
82477418|NCT02908490|164650472|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline EndoPAT within that period and a term for treatment order.|Slope|0.2||||0.003|TWO_SIDED|95.0|0.069|0.331||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||0.331|0.069|0.003
82552191|NCT03257410|164807991|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.047||0.6043|TWO_SIDED||||||ANCOVA|||||||0.6043
82552192|NCT03257410|164807992|OTHER||Mean Difference (Final Values)|1.39|STANDARD_ERROR_OF_MEAN|2.08||0.5067|TWO_SIDED||||||ANCOVA|||||||0.5067
82552193|NCT03257410|164807993|OTHER||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.0297|TWO_SIDED||||||ANCOVA|||||||0.0297
82552194|NCT03257410|164807994|OTHER||Mean Difference (Final Values)|3.24|STANDARD_ERROR_OF_MEAN|2.14||0.1325|TWO_SIDED||||||ANCOVA|||||||0.1325
82477419|NCT02908490|164650478|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|7.63||||0.061|TWO_SIDED|95.0|-0.36|15.63||The a prior threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||15.63|-0.36|0.061
82477420|NCT02908490|164650479|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|55.3||||0.011|TWO_SIDED|95.0|12.79|97.81||The a prior threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||97.81|12.79|0.011
82477421|NCT02908490|164650480|SUPERIORITY|Given the cross-over design, analyses included a random effects model for within-subject comparisons of sildenafil versus placebo periods, adjusting for the baseline biomarker within that period and a term for treatment order.|Slope|74.93||||0.077|TWO_SIDED|95.0|-7.98|157.84||The a priori threshold for statistical significance was \<0.05.|Mixed Models Analysis|||||157.84|-7.98|0.077
82477422|NCT00538785|164650517|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.746|||||TWO_SIDED|95.0|0.344|1.586|||Guess method|Exact conditional binomial method conditioning on the total number of cases with mid-probability adjustment||Relative risk and confidence interval adjusted for the stratification factor of CHD stratum (cyanotic or other) specified on the CRF||1.586|0.344|
82477423|NCT00538785|164650518|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.495|||||TWO_SIDED|95.0|0.101|1.989|||Guess method|Exact conditional binomial method conditioning on the total number of cases with mid-probability adjustment||Relative risk and confidence interval adjusted for the stratification factor of CHD stratum (cyanotic or other) specified on the CRF||1.989|0.101|
82477424|NCT01323855|164650565|NON_INFERIORITY_OR_EQUIVALENCE|Geometric Mean Ratio (GMR) is contained within the interval \[0.50, 2.00\]|GMR|1.19|||||TWO_SIDED|90.0|0.54|2.62|||||Severe CRI/Healthy|||2.62|0.54|
82477425|NCT01323855|164650566|NON_INFERIORITY_OR_EQUIVALENCE|GMR is contained within the interval \[0.50, 2.00\]|GMR|1.3|||||TWO_SIDED|90.0|0.59|2.87|||||Moderate CRI/Healthy|||2.87|0.59|
82477426|NCT01323855|164650567|NON_INFERIORITY_OR_EQUIVALENCE|GMR is contained within the interval \[0.50, 2.00\]|GMR|2.63|||||TWO_SIDED|90.0|1.38|5.04|||||Mild CRI/Healthy|||5.04|1.38|
82477427|NCT02744040|164650606|OTHER|||||||0.048||||||Multiple hypothesis testing was performed using Tukey's Honest Significant Difference (HSD) procedure.|Mixed Effects Models|||Total HIV DNA at the time of ART initiation in each of the three EDDI groups||||0.048
82477428|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477429|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477430|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477431|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477432|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477433|NCT02744040|164650607|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in total HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for Total HIV DNA.||||<0.0001
82477434|NCT02744040|164650608|OTHER||||||>|0.05||||||Multiple hypothesis testing was performed using Tukey's HSD procedure.|Mixed Effects Models|||Integrated HIV DNA at the time of ART initiation in each of the three EDDI groups||||>0.05
82477435|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
82552195|NCT03257410|164807995|OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.186||0.2304|TWO_SIDED||||||ANCOVA|||||||0.2304
82477436|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
82477437|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||<0.0001
82477438|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
82477439|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
82477440|NCT02744040|164650609|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in integrated HIV DNA was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for integrated HIV DNA.||||>0.05
82477441|NCT02744040|164650610|OTHER|||||||0.057||||||Multiple hypothesis testing was performed using Tukey's HSD procedure.|Mixed Effects Models|||TILDA stimulation reservoir measure at the time of ART initiation in each of the three EDDI groups||||0.057
82477442|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test||||||0.01||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||0.010
82477443|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test|||||<|0.0001||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||<0.0001
82477444|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 1|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
82477445|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
82477446|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test||||||0.052||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||0.052
82477447|NCT02744040|164650611|OTHER|Tukey's Honest Significant Difference (HSD) test|||||>|0.05||||||Pair-Wise comparison of Slope 2|Tukey's Honest Significant Difference (H|||The decay in TILDA stimulation was modeled from the time of ART initiation in each of the three EDDI groups until the end of follow-up. The decay was analyzed on the log10 scale with a mixed-effects model to account for correlation between measurements from the same individual. We used a piecewise linear function to model the decay, where the number of linear segments was fixed at 2 (two-phase segmentation model) for TILDA Stimulation.||||>0.05
82552196|NCT03257410|164807996|OTHER||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|2.846||0.5785|TWO_SIDED||||||ANCOVA|||||||0.5785
82552197|NCT03257410|164807997|OTHER||Mean Difference (Final Values)|2.55|STANDARD_ERROR_OF_MEAN|0.918||0.0067|TWO_SIDED||||||ANCOVA|||||||0.0067
82552198|NCT03257410|164807998|OTHER||Mean Difference (Final Values)|-14.93|STANDARD_ERROR_OF_MEAN|7.314||0.0434|TWO_SIDED||||||ANCOVA|||||||0.0434
82552199|NCT03257410|164807999|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.07||0.3281|TWO_SIDED||||||ANCOVA|||||||0.3281
82477448|NCT00096356|164650625|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.03||0.1815|TWO_SIDED|95.0|-3.39|0.64||The a priori significance level was 0.05 for the primary outcome; there is no adjustment for multiple comparisons.|Mixed Models Analysis||This is the estimate of the difference in arms (Co-Q10 minus placebo). Lower is better for this outcome.|Constrained repeated measures analysis of variance - constrained such that baseline fatigue was the same in both groups and unadjusted for any baseline covariates.||0.64|-3.39|0.1815
82477449|NCT00096356|164650626|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.99|STANDARD_ERROR_OF_MEAN|2.31||0.3903|TWO_SIDED|95.0|-2.56|6.53||0.05 significance level; no multiple comparison adjustment|Mixed Models Analysis||This is the difference in treatment groups at 24 weeks (Co-Q10 minus Placebo). Higher is better for this outcome.|Constrained repeated measures analysis of variance - constrained to have equal means at baseline, unadjusted for other covariates||6.53|-2.56|.3903
82477450|NCT00096356|164650627|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|1.31||0.6014|TWO_SIDED|95.0|-3.25|1.88||0.05 significance level, unadjusted for multiple comparisons|Mixed Models Analysis||This is the difference between treatment groups at 24 weeks (Co-Q10 minus Placebo). Lower is better for this outcome.|Constrained repeated measures analysis of variance, constrained such that the baseline means are equal, unadjusted of other covariates||1.88|-3.25|.6014
82477451|NCT02140593|164650637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82477452|NCT02140593|164650638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82477453|NCT00183729|164650641|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|2.0||0.42|TWO_SIDED||||||Mixed Models Analysis|||Null: the two groups would not differ in depressive symptoms over time (ie both groups would improve equally in terms of their depressive symptoms) Power calculation: none; this was a pilot study||||0.42
82477454|NCT00183729|164650643|SUPERIORITY|(no comments)|Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|7.0||0.06|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis: functional recovery would be the same in both groups. Power calculation: none. This was a pilot study.||||0.06
82477455|NCT00796926|164650644|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||>0.05
82477456|NCT03009396|164650661|SUPERIORITY|||||||0.2112|||||||Log Rank|||||||0.2112
82477457|NCT03009396|164650662|SUPERIORITY|||||||0.0356|||||||Log Rank|||||||0.0356
82477458|NCT03009396|164650663|SUPERIORITY|||||||0.0514|||||||Log Rank|||||||0.0514
82552200|NCT03257410|164808000|OTHER||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.334||0.0463|TWO_SIDED||||||ANCOVA|||||||0.0463
82552201|NCT03257410|164808001|OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.06||0.1925|TWO_SIDED||||||ANCOVA|||||||0.1925
82552202|NCT03257410|164808002|OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.389||0.2569|TWO_SIDED||||||ANCOVA|||||||0.2569
82552203|NCT03257410|164808003|OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|1.104||0.5709|TWO_SIDED||||||ANCOVA|||||||0.5709
82552204|NCT03257410|164808004|OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.412||0.217|TWO_SIDED||||||ANCOVA|||||||0.217
82552205|NCT03257410|164808005|OTHER||Mean Difference (Final Values)|-1.53|STANDARD_ERROR_OF_MEAN|1.292||0.2386|TWO_SIDED||||||ANCOVA|||||||0.2386
82552206|NCT03257410|164808006|OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.84||0.1769|TWO_SIDED||||||ANCOVA|||||||0.1769
82552207|NCT03257410|164808007|OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.36||0.8102|TWO_SIDED||||||ANCOVA|||||||0.8102
82552208|NCT03257410|164808008|OTHER||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|1.501||0.9672|TWO_SIDED||||||ANCOVA|||||||0.9672
82552209|NCT03257410|164808009|OTHER||Mean Difference (Final Values)|27.34|STANDARD_ERROR_OF_MEAN|24.623||0.2697|TWO_SIDED||||||ANCOVA|||||||0.2697
82552210|NCT03257410|164808012|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.115||0.7189|TWO_SIDED||||||ANCOVA|||||||0.7189
82552211|NCT03257410|164808013|OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.044||0.097|TWO_SIDED||||||ANCOVA|||||||0.097
82552212|NCT03257410|164808014|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.113||0.4513|TWO_SIDED||||||ANCOVA|||||||0.4513
82477459|NCT03009396|164650664|SUPERIORITY|||||||0.1259|||||||Log Rank|||||||0.1259
82477460|NCT03009396|164650665|SUPERIORITY|||||||0.4114|||||||Fisher Exact|||||||0.4114
82477461|NCT02043808|164650667|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.69|||||TWO_SIDED|95.0|0.52|0.92|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.92|0.52|
82552213|NCT03257410|164808015|OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.1||0.0733|TWO_SIDED||||||ANCOVA|||||||0.0733
82552214|NCT03257410|164808016|OTHER||Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|5.467||0.5326|TWO_SIDED||||||ANCOVA|||||||0.5326
82552215|NCT03257410|164808017|OTHER||Mean Difference (Final Values)|-1.11|STANDARD_ERROR_OF_MEAN|1.076||0.3042|TWO_SIDED||||||ANCOVA|||||||0.3042
82552216|NCT03257410|164808018|OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.976||0.5534|TWO_SIDED||||||ANCOVA|||||||0.5534
82552217|NCT03257410|164808019|OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|1.181||0.2958|TWO_SIDED||||||ANCOVA|||||||0.2958
82552218|NCT03257410|164808020|OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.377||0.0998|TWO_SIDED||||||ANCOVA|||||||0.0998
82552219|NCT03257410|164808021|OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|3.176||0.9952|TWO_SIDED||||||ANCOVA|||||||0.9952
82552220|NCT03257410|164808022|OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.693||0.3063|TWO_SIDED||||||ANCOVA|||||||0.3063
82552221|NCT03257410|164808023|OTHER||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.529||0.1098|TWO_SIDED||||||ANCOVA|||||||0.1098
82552222|NCT03257410|164808024|OTHER||Mean Difference (Final Values)|-1.44|STANDARD_ERROR_OF_MEAN|0.797||0.0766|TWO_SIDED||||||ANCOVA|||||||0.0766
82552223|NCT03257410|164808025|OTHER||Mean Difference (Final Values)|-2.58|STANDARD_ERROR_OF_MEAN|2.41||0.2886|TWO_SIDED||||||ANCOVA|||||||0.2886
82552224|NCT03257410|164808026|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.042||0.4513|TWO_SIDED||||||ANCOVA|||||||0.4513
82552225|NCT03257410|164808027|OTHER||Mean Difference (Final Values)|1.56|STANDARD_ERROR_OF_MEAN|2.96||0.5992|TWO_SIDED||||||ANCOVA|||||||0.5992
82552226|NCT03257410|164808028|OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.29||0.3836|TWO_SIDED||||||ANCOVA|||||||0.3836
82552227|NCT03257410|164808029|OTHER||Mean Difference (Final Values)|-13.07|STANDARD_ERROR_OF_MEAN|7.284||0.0769|TWO_SIDED||||||ANCOVA|||||||0.0769
82552228|NCT03257410|164808030|OTHER||Mean Difference (Final Values)|-19.56|STANDARD_ERROR_OF_MEAN|5.17||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
82580758|NCT01468181|164873076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.57|||<|0.001|TWO_SIDED|95.0|24.73|30.41|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-B% at 52 Weeks||30.41|24.73|<0.001
82580759|NCT01468181|164873076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.194|TWO_SIDED|95.0|-6.46|1.32|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-S% at 26 Weeks||1.32|-6.46|0.194
82580760|NCT01468181|164873076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.4|TWO_SIDED|65.0|-5.68|2.27|||t-test, 2 sided|p-values are from within-group change t-test at the level of 0.05||HOMA2-S% at 52 Weeks||2.27|-5.68|0.400
82580761|NCT04664400|164873077|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.043|||||||t-test, 1 sided|||||||0.043
82477462|NCT02043808|164650668|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.83|||||TWO_SIDED|95.0|0.71|0.98|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.98|0.71|
82477463|NCT02043808|164650669|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.79|||||TWO_SIDED|95.0|0.59|1.07|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.07|0.59|
82477464|NCT02043808|164650670|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.31|||||TWO_SIDED|95.0|0.13|0.7|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.70|0.13|
82552229|NCT03257410|164808031|OTHER||Mean Difference (Final Values)|-1.39|STANDARD_ERROR_OF_MEAN|1.039||0.1825|TWO_SIDED||||||ANCOVA|||||||0.1825
82552230|NCT03257410|164808032|OTHER||Mean Difference (Final Values)|-1.24|STANDARD_ERROR_OF_MEAN|0.737||0.0957|TWO_SIDED||||||ANCOVA|||||||0.0957
82477465|NCT02043808|164650671|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.48|||||TWO_SIDED|95.0|0.3|0.77|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.77|0.30|
82477466|NCT02043808|164650672|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.9|||||TWO_SIDED|95.0|0.76|1.07|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.07|0.76|
82477467|NCT02043808|164650673|SUPERIORITY_OR_OTHER||Crude event rate ratio|1.07|||||TWO_SIDED|95.0|0.89|1.3|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.30|0.89|
82477468|NCT02043808|164650674|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.72|||||TWO_SIDED|95.0|0.5|1.03|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.03|0.50|
82477469|NCT02043808|164650675|SUPERIORITY_OR_OTHER||Crude event rate ratio|1.24|||||TWO_SIDED|95.0|0.99|1.54|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.54|0.99|
82477470|NCT02043808|164650676|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.35|||||TWO_SIDED|95.0|0.17|0.72|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.72|0.17|
82477471|NCT02043808|164650677|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.37|||||TWO_SIDED|95.0|0.22|0.64|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.64|0.22|
82477472|NCT02043808|164650678|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.83|||||TWO_SIDED|95.0|0.55|1.26|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.26|0.55|
82477473|NCT02043808|164650679|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.66|||||TWO_SIDED|95.0|0.45|0.95|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.95|0.45|
82477474|NCT02043808|164650680|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.64|||||TWO_SIDED|95.0|0.31|1.31|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.31|0.31|
82477475|NCT02043808|164650681|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.44|||||TWO_SIDED|95.0|0.16|1.21|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||1.21|0.16|
82477476|NCT02043808|164650682|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.97|||||TWO_SIDED|95.0|0.34|2.81|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||2.81|0.34|
82477477|NCT02043808|164650683|SUPERIORITY_OR_OTHER||Crude event rate ratio|0.6|||||TWO_SIDED|95.0|0.52|0.69|||||Crude event rate ratio for dabigatran with warfarin as the reference group|||0.69|0.52|
82477478|NCT01675167|164650686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.98|||<|1e-05|TWO_SIDED|95.0|-1.32|-0.64||P value was adjusted using weighted z-test (CHW).|ANCOVA|||||-0.64|-1.32|<.00001
82477479|NCT01675167|164650687|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by stratum (dose level)||Responders with ≥30% pain reduction||||<.0001
82477480|NCT01675167|164650687|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by Stratum (Dose Level)||Responders with ≥50% pain reduction||||<.0001
82552231|NCT03257410|164808033|OTHER||Mean Difference (Final Values)|-34.02|STANDARD_ERROR_OF_MEAN|10.23||0.0012|TWO_SIDED||||||ANCOVA|||||||0.0012
82552232|NCT03257410|164808034|OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.859||0.1824|TWO_SIDED||||||ANCOVA|||||||0.1824
82552233|NCT05349500|164808036|SUPERIORITY||Mean Difference (Final Values)|-11.0||||0.019|TWO_SIDED|95.0|-20.1|-1.9|||Mixed Models Analysis|||||-1.9|-20.1|0.019
82580762|NCT04664400|164873078|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.036|||||||t-test, 1 sided|||||||0.036
82580763|NCT04664400|164873079|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.012|||||||t-test, 1 sided|||||||0.012
82580764|NCT04664400|164873080|OTHER|Paired t test, testing whether the within participant difference is larger than 0.||||||0.835|||||||t-test, 1 sided|||||||0.835
82580765|NCT01011153|164873086|NON_INFERIORITY_OR_EQUIVALENCE|Sample sizes computed based on data from smaller studies provided 90% power for the comparison of sensitivity. Under the alternative hypothesis that the biopsy sensitivity of MelaFind would be 0.10 greater than the average biopsy/referral sensitivity of physicians (combined or separate), the probability that a 95% CI lies entirely above zero will be at least 90% when the standard error of the estimated difference is at most 0.0308.|Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.03|<|0.0001|TWO_SIDED|95.0|0.18|0.32|||ANOVA|||Using True Positives/All Positives, sensitivity values were calculated for MelaFind as well as the average of the 110 dermatologists.||0.32|0.18|<0.0001
82580766|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_DEVIATION|0.04|<|0.0001|TWO_SIDED|95.0|0.19|0.34|||ANOVA|||Sensitivity||0.34|0.19|<0.0001
82580767|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_DEVIATION|0.04|<|0.0001|TWO_SIDED|95.0|0.16|0.31|||ANOVA|||Sensitivity||0.31|0.16|<0.0001
82552234|NCT05349500|164808037|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.286|TWO_SIDED|95.0|-14.1|4.3|||Mixed Models Analysis|||||4.3|-14.1|0.286
82552235|NCT05349500|164808038|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.046|TWO_SIDED|95.0|-4.0|0.0|||Mixed Models Analysis|||||-0.0|-4.0|0.046
82552236|NCT05349500|164808039|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.128|TWO_SIDED|95.0|-3.8|0.5|||Mixed Models Analysis|||||0.5|-3.8|0.128
82552237|NCT05349500|164808040|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.031|TWO_SIDED|95.0|-14.3|-0.7|||Mixed Models Analysis|||||-0.7|-14.3|0.031
82552238|NCT05349500|164808041|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.564|TWO_SIDED|95.0|-8.8|4.9|||Mixed Models Analysis|||||4.9|-8.8|0.564
82552239|NCT05349500|164808042|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.349|TWO_SIDED|95.0|-0.2|0.6|||Mixed Models Analysis|||||0.6|-0.2|0.349
82552240|NCT05349500|164808043|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.303|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||||0.2|-0.6|0.303
82552241|NCT05349500|164808044|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.507|TWO_SIDED|95.0|-0.1|0.2|||Mixed Models Analysis|||||0.2|-0.1|0.507
82552242|NCT05349500|164808045|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.729|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||||0.2|-0.2|0.729
82552243|NCT05349500|164808046|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.421|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||||0.1|-0.2|0.421
82552244|NCT05349500|164808047|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.648|TWO_SIDED|95.0|-0.2|0.1|||Mixed Models Analysis|||||0.1|-0.2|0.648
82477481|NCT01457352|164650713|SUPERIORITY|||||||0.2062|||||||Cochran-Mantel-Haenszel|||||||0.2062
82477482|NCT01457352|164650714|SUPERIORITY|||||||0.0485|||||||Mantel Haenszel|||||||0.0485
82552245|NCT05349500|164808048|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.034|TWO_SIDED|95.0|0.3|6.5|||Mixed Models Analysis|||||6.5|0.3|0.034
82552246|NCT05349500|164808049|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.315|TWO_SIDED|95.0|-2.1|6.3|||Mixed Models Analysis|||||6.3|-2.1|0.315
82552247|NCT05349500|164808050|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.444|TWO_SIDED|95.0|-21.5|48.2|||Mixed Models Analysis|||||48.2|-21.5|0.444
82552248|NCT05349500|164808051|SUPERIORITY||Mean Difference (Final Values)|9.3||||0.638|TWO_SIDED|95.0|-30.6|49.2|||Mixed Models Analysis|||||49.2|-30.6|0.638
82552249|NCT05349500|164808052|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.688|TWO_SIDED|95.0|-13.4|8.9|||Mixed Models Analysis|||||8.9|-13.4|0.688
82552250|NCT05349500|164808053|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.709|TWO_SIDED|95.0|-2.5|1.7|||Mixed Models Analysis|||||1.7|-2.5|0.709
82552251|NCT05349500|164808054|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.089|TWO_SIDED|95.0|-3.3|0.2|||Mixed Models Analysis|||||0.2|-3.3|0.089
82552252|NCT05349500|164808055|SUPERIORITY||Mean Difference (Final Values)|14.9||||0.066|TWO_SIDED|95.0|-1.0|30.8|||Mixed Models Analysis|||||30.8|-1.0|0.066
82552253|NCT03381196|164808056|SUPERIORITY|||||||0.0216|||||||Gehan-Wilcoxon test|||||||0.0216
82552254|NCT02359890|164808088|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants with events|2.6|||||TWO_SIDED|95.0|0.7|6.5|||||The 2-sided 95% confidence interval is derived using the exact Clopper-Pearson interval.|||6.5|0.7|
82552255|NCT02359890|164808090|SUPERIORITY_OR_OTHER_LEGACY||Percentage of patient with acute success|96.2|||||TWO_SIDED|95.0|92.0|98.6|||||The 2-sided 95% confidence interval is derived using the exact Clopper-Pearson interval|||98.6|92.0|
82552256|NCT03628924|164808092|SUPERIORITY||Treatment difference|12.6|||=|0.166|TWO_SIDED|95.0|-4.6|29.8|||Cochran-Mantel-Haenszel|||||29.8|-4.6|= 0.166
82477483|NCT03952039|164650715|SUPERIORITY||Difference in Proportion|29.6|||<|0.0001|TWO_SIDED|95.0|19.9|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||Stratified analysis (based on CRF)||39.4|19.9|<0.0001
82552257|NCT03628924|164808092|SUPERIORITY||Treatment difference|6.6|||=|0.459|TWO_SIDED|95.0|-10.3|23.6|||Cochran-Mantel-Haenszel|||||23.6|-10.3|= 0.459
82552258|NCT05256017|164808114|OTHER||Excess rate (ER)|-1.5|||||TWO_SIDED|95.0|-7.2|3.7||||||||3.7|-7.2|
82552259|NCT05256017|164808115|OTHER||Excess rate (ER)|-0.9|||||TWO_SIDED|95.0|-4.1|1.4|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|Occurrence and excess rate (95% CI) of any TEAEs (by PT, for PTs reported in ≥1% of participants in either arm) from the investigational product administration (Day 1) to the Month 4 follow-up visit.||1.4|-4.1|
82552260|NCT05256017|164808116|OTHER||Excess rate (ER)|0.4|||||TWO_SIDED|95.0|-1.6|1.6|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.6|-1.6|
82552261|NCT05256017|164808117|OTHER||Excess rate (ER)|-0.5|||||TWO_SIDED|95.0|-3.2|1.4|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.4|-3.2|
82552262|NCT05256017|164808118|OTHER||Excess rate (ER)|-0.6|||||TWO_SIDED|95.0|-2.6|0.6|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.6|-2.6|
82552263|NCT05256017|164808119|OTHER||Excess rate (ER)|-0.2|||||TWO_SIDED|95.0|-2.2|0.8|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.8|-2.2|
82552264|NCT05256017|164808120|OTHER||Excess rate (ER)|-0.3|||||TWO_SIDED|95.0|-2.3|0.7|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.7|-2.3|
82552265|NCT05256017|164808121|OTHER||Excess rate (ER)|3.2|||||TWO_SIDED|95.0|0.3|5.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||5.3|0.3|
82552266|NCT05256017|164808122|OTHER||Excess rate (ER)|-0.1|||||TWO_SIDED|95.0|-2.4|1.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||1.3|-2.4|
82580768|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|STANDARD_DEVIATION|0.03|<|0.0001|TWO_SIDED|95.0|0.19|0.33|||ANOVA|||Sensitivity||0.33|0.19|<0.0001
82477484|NCT03952039|164650716|SUPERIORITY|Stratified analysis (based on CRF)|Difference in Proportion|17.1||||0.0033|TWO_SIDED|95.0|4.8|29.4|||Cochran-Mantel-Haenszel|CMH test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||||29.4|4.8|0.0033
82477485|NCT03952039|164650717|SUPERIORITY||Difference in Proportion|33.5|||<|0.0001|TWO_SIDED|95.0|21.9|45.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test using the Greenland and Robins method to adjust for stratification factors: spleen size by palpation and platelet counts.||Stratified analysis (based on CRF)||45.1|21.9|<0.0001
82477486|NCT03952039|164650720|SUPERIORITY||Greenland and Robins method|19.9|||||TWO_SIDED|95.0|10.0|29.7|||Greenland and Robins method|||||29.7|10.0|
82477487|NCT04174365|164650737|SUPERIORITY||Least squares (LS) mean difference|-1.22||||0.4597|TWO_SIDED|95.0|-4.49|2.05|||Mixed model repeated measures(MMRM)|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction.|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction. Significance test was based on least-square means using a two-sided 0.05 level.|||2.05|-4.49|0.4597
82552267|NCT05256017|164808123|OTHER||Excess rate (ER)|-1.1|||||TWO_SIDED|95.0|-3.5|0.3|||||"ER: calculated as occurrence rate of the TEAE in the acoziborole arm minus occurrence rate of the TEAE in the placebo arm.~CI: calculated using the Wilson score interval."|||0.3|-3.5|
82552268|NCT05256017|164808124|OTHER||Excess rate (ER)|1.0|||||TWO_SIDED|95.0|-3.7|5.1||||||Occurrence and excess rate (95% CI) of any TEAEs reported during hospitalization.||5.1|-3.7|
82552269|NCT05256017|164808124|OTHER||Excess rate (ER)|-3.3|||||TWO_SIDED|95.0|-8.2|0.9||||||Occurrence and excess rate (95% CI) of any TEAEs reported after the hospitalization period.||0.9|-8.2|
82552270|NCT05256017|164808125|OTHER||Excess rate (ER)|-1.0|||||TWO_SIDED|95.0|-3.1|0.0||||||||0.0|-3.1|
82552271|NCT05256017|164808126|OTHER||Excess rate (ER)|-1.5|||||TWO_SIDED|95.0|-7.2|3.7||||||Of note, all AEs reported during this study were TEAEs.||3.7|-7.2|
82477488|NCT04174365|164650738|SUPERIORITY||LS mean difference|-0.07||||0.7315|TWO_SIDED|95.0|-0.46|0.32|||MMRM|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction.|MMRM method with model terms: treatment, trial site, baseline body weight stratum, visit, treatment-by-visit and baseline-by-visit interaction. Significance test was based on least-square means using a two-sided 0.05 level.|||0.32|-0.46|0.7315
82477489|NCT01236547|164650762|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.2831|TWO_SIDED|95.0|0.52|1.43||One-sided significance level = 0.1379|Log Rank||Reference arm = placebo|Assuming hazard ratio (pazopanib/placebo) of 0.625 (1-year 19% vs. 35.4%), 1-sided alpha 0.15, logrank test, 80% power, 1 interim analysis, required 71 deaths in 79 eligible patients (88 allowing 10% ineligible) in original design. The protocol was amended for phase II final analysis to be performed after all phase II eligible participants were potentially followed for 3 years with 1-sided alpha 0.1379, providing 77% power. See Limitations and Caveats||1.43|0.52|0.2831
82477490|NCT01236547|164650764|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.688|TWO_SIDED|95.0|0.55|2.67|||Log Rank|One-sided significance level = 0.15|Reference arm = placebo|||2.67|0.55|0.6880
82477491|NCT01236547|164650765|SUPERIORITY|||||||0.1921||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.1921
82477492|NCT01236547|164650766|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.00
82477493|NCT01236547|164650767|SUPERIORITY|||||||1|||||||Fisher Exact|Two-sided significance level = 0.05||||||1.00
82477494|NCT00594425|164650771|SUPERIORITY_OR_OTHER||% success rate|5.53||||0.5288|TWO_SIDED|95.0|-7.97|19.04||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||19.04|-7.97|0.5288
82477495|NCT00594425|164650771|SUPERIORITY_OR_OTHER||% success rate|3.95||||0.7539|TWO_SIDED|95.0|-8.79|16.69||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||16.69|-8.79|0.7539
82477496|NCT00594425|164650772|SUPERIORITY_OR_OTHER||Least squares mean|-2.64||||0.3236|TWO_SIDED|95.0|-7.91|2.63||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||2.63|-7.91|0.3236
82552272|NCT05256017|164808144|OTHER||Placebo-corrected change from baseline|-0.4|||||TWO_SIDED|90.0|-2.1|1.4||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||1.4|-2.1|
82552273|NCT05256017|164808145|OTHER||Placebo-corrected change from baseline|-0.5|||||TWO_SIDED|90.0|-22.0|21.1||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||21.1|-22.0|
82552274|NCT05256017|164808146|OTHER||Placebo-corrected change from baseline|-1.1|||||TWO_SIDED|90.0|-3.6|1.3||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||1.3|-3.6|
82552275|NCT05256017|164808147|OTHER||Placebo-corrected change from baseline|-0.7|||||TWO_SIDED|90.0|-1.9|0.4||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||0.4|-1.9|
82552276|NCT05256017|164808148|OTHER||Placebo-corrected change from baseline|-10.9|||||TWO_SIDED|90.0|-15.3|-6.6||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-6.6|-15.3|
82552277|NCT05256017|164808149|OTHER||Placebo-corrected change from baseline|-11.5|||||TWO_SIDED|90.0|-14.4|-8.7||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-8.7|-14.4|
82552278|NCT05256017|164808150|OTHER||Placebo-corrected change from baseline|-11.7|||||TWO_SIDED|90.0|-14.9|-8.6||||||Placebo-corrected change from baseline (ΔΔ), calculated using an ANCOVA model adjusted for sex and age.||-8.6|-14.9|
82552279|NCT05256017|164808151|OTHER||Estimate|-10.7|STANDARD_DEVIATION|1.72|||TWO_SIDED|90.0|-13.5|-7.85||||||Estimated ΔΔQTcF (in ms) computed from a concentration-response (C-R) model between dry blood spot concentration of acoziborole and changes from baseline in QTcF parameter||-7.85|-13.5|
82552280|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-1.29||||0.27|TWO_SIDED|95.0|-3.6|1.03|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||1.03|-3.60|0.27
82552281|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-0.25||||0.83|TWO_SIDED|95.0|-2.53|2.04|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||2.04|-2.53|0.83
82552282|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-2.01||||0.08|TWO_SIDED|95.0|-4.3|0.28|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.28|-4.30|0.08
82552283|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-1.56||||0.16|TWO_SIDED|95.0|-3.77|0.65|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.65|-3.77|0.16
82552284|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-1.65||||0.14|TWO_SIDED|95.0|-3.84|0.54|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||0.54|-3.84|0.14
82552285|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|-2.46||||0.04|TWO_SIDED|95.0|-4.47|-0.17|||ANOVA|||Active treatment minus vehicle, adjusted for the effect of (pooled) country.||-0.17|-4.47|0.04
82552286|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|2.46||||0.04|TWO_SIDED|95.0|0.17|4.74|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||4.74|0.17|0.04
82552287|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|1.17||||0.32|TWO_SIDED|95.0|-1.14|3.48|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.48|-1.14|0.32
82552288|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|2.21||||0.06|TWO_SIDED|95.0|-0.08|4.5|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||4.50|-0.08|0.06
82552289|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|0.45||||0.7|TWO_SIDED|95.0|-1.84|2.73|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||2.73|-1.84|0.70
82552290|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|0.9||||0.42|TWO_SIDED|95.0|-1.31|3.1|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.10|-1.31|0.42
82552291|NCT01037881|164808230|SUPERIORITY||Difference in least squares mean|0.81||||0.47|TWO_SIDED|95.0|-1.38|3.0|||ANOVA|||LEO 29102 treatment minus Elidel, adjusted for the effect of (pooled) country.||3.00|-1.38|0.47
82552292|NCT04563546|164808251|OTHER||||||<|0.001||||||Unadjusted p-value. Threshold for statistical significance = 0.05|Chi-squared|||||||<0.001
82552293|NCT04563546|164808252|OTHER|||||||0.739|||||||Chi-squared|||||||0.739
82552294|NCT04563546|164808253|OTHER||||||<|0.001||||||Unadjusted p-value. Threshold for statistical significance = 0.05|Chi-squared|||||||<0.001
82552295|NCT04413708|164808331|SUPERIORITY||Risk Ratio (RR)|1.62||||0.41|TWO_SIDED|95.0|0.5|5.17|||Fisher Exact|||||5.17|0.50|0.41
82552296|NCT04413708|164808332|SUPERIORITY||Risk Ratio (RR)|1.07||||1|TWO_SIDED|95.0|0.61|1.9|||Fisher Exact|||||1.90|0.61|1.0
82552297|NCT06044090|164808335|SUPERIORITY|||||||0.856|||||||t-test, 2 sided|||||||0.856
82552298|NCT06044090|164808335|SUPERIORITY|||||||0.613|||||||t-test, 2 sided|||||||0.613
82552299|NCT06044090|164808336|SUPERIORITY|||||||1|||||||t-test, 2 sided|||||||1.000
82552300|NCT06044090|164808336|SUPERIORITY|||||||0.691|||||||t-test, 2 sided|||||||0.691
82552301|NCT06044090|164808337|SUPERIORITY|||||||0.225|||||||t-test, 2 sided|||||||0.225
82552302|NCT06044090|164808337|SUPERIORITY|||||||0.667|||||||t-test, 2 sided|||||||0.667
82552303|NCT03133546|164808355|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.84|TWO_SIDED|95.0|0.68|1.37||significance level: 5%|Regression, Cox|Univariate Cox for PFS with treatment effect only|The HR for Osimertinib plus Bevacizumab versus Osimertinib alone is provided.|"Assumption: Median PFS with osimertinib 11 months Target: Detect a 36% improvement in PFS (HR=0.64, corresponding to an increase in median PFS to 17.2 months) under osimertinib and bevacizumab (80% power, at one-sided significant level of 5%)~126 events required"||1.37|0.68|0.84
82552304|NCT03532282|164808361|SUPERIORITY||coefficient beta for change trajectory|-0.15||||0.001|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.001
82552305|NCT03532282|164808362|SUPERIORITY||coefficient beta for change trajectory|-0.01||||0.01|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.01
82552306|NCT03532282|164808363|SUPERIORITY||coefficient beta for change trajectory|-0.24||||0.0006|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.0006
82552307|NCT03532282|164808364|SUPERIORITY||coefficient beta for change trajectory|-0.04||||0.05|TWO_SIDED|||||The a-priori threshold for statistical significance was 0.05|Mixed Models Analysis|Mixed effects model incorporating all assessment time points.||||||0.05
82552308|NCT05034328|164808392|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82552309|NCT05034328|164808393|SUPERIORITY||Hazard Ratio (HR)|1.063||||0.7026|TWO_SIDED|95.0|0.778|1.451|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treament chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.451|0.778|0.7026
82552310|NCT05034328|164808394|SUPERIORITY||Hazard Ratio (HR)|1.078||||0.6322|TWO_SIDED|95.0|0.792|1.469|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.469|0.792|0.6322
82552311|NCT05034328|164808395|SUPERIORITY||Hazard Ratio (HR)|0.992||||0.9598|TWO_SIDED|95.0|0.726|1.356|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.356|0.726|0.9598
82552312|NCT05034328|164808396|SUPERIORITY||Hazard Ratio (HR)|1.333||||0.1016|TWO_SIDED|95.0|0.945|1.88|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.880|0.945|0.1016
82552313|NCT05034328|164808397|SUPERIORITY||Hazard Ratio (HR)|1.153||||0.3954|TWO_SIDED|95.0|0.83|1.601|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.601|0.830|0.3954
82580769|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.46|-0.25|||ANOVA|||Specificity||-0.25|-0.46|<0.0001
82477497|NCT00594425|164650772|SUPERIORITY_OR_OTHER||Least squares mean|-1.19||||0.6657|TWO_SIDED|95.0|-6.64|4.26||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||4.26|-6.64|0.6657
82477498|NCT00594425|164650800|SUPERIORITY_OR_OTHER||%success rate|3.09||||0.7889|TWO_SIDED|95.0|-11.16|17.33||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||17.33|-11.16|0.7889
82477499|NCT00594425|164650800|SUPERIORITY_OR_OTHER||Percent success|5.48||||0.888|TWO_SIDED|95.0|-10.15|21.11||Priori threshold for statistical significance was 5%|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by center. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||21.11|-10.15|0.8880
82477500|NCT00594425|164650801|SUPERIORITY_OR_OTHER||Least squares mean|-0.33||||0.9151|TWO_SIDED|95.0|-6.53|5.86||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||5.86|-6.53|0.9151
82477501|NCT00594425|164650801|SUPERIORITY_OR_OTHER||Least squares mean|-1.18||||0.7233|TWO_SIDED|95.0|-7.81|5.45||Priori threshold for statistical significance was 5%|ANCOVA|ANCOVA model including center and baseline lesion count as a covariates. No adjustment for multiple comparisons was done||H0: τ (Vehicle PDT) = τ (MAL PDT) versus HA: τ (Vehicle PDT) ≠ τ (MAL PDT)||5.45|-7.81|0.7233
82477502|NCT01478048|164650838|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.0923|TWO_SIDED|95.0|0.49|1.06||Log Rank test was stratified by prior proteasome inhibitor use (Yes versus No), presence of at least 1 FcγRIIIa V allele (Yes versus No) and number of prior lines of therapy (1 versus 2 or 3) at randomization|Log Rank|Adjusted alpha level= 0.30||||1.06|0.49|0.0923
82477503|NCT01478048|164650841|SUPERIORITY_OR_OTHER||Difference using Chan-Zhang method|2.3|||||TWO_SIDED|95.0|-13.2|17.8||||||||17.8|-13.2|
82477504|NCT00955201|164650844|SUPERIORITY|||||||0.49||||||Tukey's multiple comparisons test|ANOVA|Comparison to baseline values||Evaluated within group across time||||0.49
82477505|NCT00955201|164650844|SUPERIORITY|||||||0.82||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.82
82477506|NCT00955201|164650844|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.96
82477507|NCT00955201|164650844|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test|ANOVA|||Evaluated within group across time||||0.93
82477508|NCT00955201|164650844|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at baseline||||0.63
82477509|NCT00955201|164650844|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 12-wk||||0.31
82552314|NCT05034328|164808398|SUPERIORITY||Hazard Ratio (HR)|1.218||||1.218|TWO_SIDED|95.0|0.871|1.703|||Regression, Cox|||For each item 2 to 7 of the WURSS-K questionnaire, the impact of the treatment chosen on the corresponding common cold symptom duration was analyzed by means of Cox model and p-value (Wald) calculated||1.703|0.871|1.218
82477510|NCT00955201|164650844|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at 24-wk||||0.28
82477511|NCT00955201|164650845|SUPERIORITY|||||||0.53||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.53
82477512|NCT00955201|164650845|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
82477513|NCT00955201|164650845|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
82477514|NCT00955201|164650845|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.93
82477515|NCT00955201|164650845|SUPERIORITY|||||||0.8|||||||ANOVA|||Comparison across groups at baseline.||||0.80
82477516|NCT00955201|164650845|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at 12-wks||||0.63
82477517|NCT00955201|164650845|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 24-wk||||0.31
82552315|NCT05034328|164808399|SUPERIORITY||||||>|0.05|||||||Regression, Logistic|||The impact of the treatment chosen on the risk to develop respiratory complication requiring antibiotic prescription during a 20-day follow-up was analyzed by a multivariate logistic model||||>0.05
82477518|NCT00955201|164650846|SUPERIORITY|||||||0.39||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.39
82477519|NCT00955201|164650846|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
82477520|NCT00955201|164650846|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||1.00
82477521|NCT00955201|164650846|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
82477522|NCT00955201|164650846|SUPERIORITY|||||||0.7|||||||ANOVA|||Comparison across groups at baseline||||0.70
82477523|NCT00955201|164650846|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at 12-wks||||0.45
82477524|NCT00955201|164650846|SUPERIORITY|||||||0.22|||||||ANOVA|||Comparison across groups at 24-wks||||0.22
82477525|NCT00955201|164650847|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
82477526|NCT00955201|164650847|SUPERIORITY|||||||0.9||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.90
82477527|NCT00955201|164650847|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
82477528|NCT00955201|164650847|SUPERIORITY|||||||0.78||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.78
82477529|NCT00955201|164650847|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at baseline||||0.63
82477530|NCT00955201|164650847|SUPERIORITY|||||||0.97|||||||ANOVA|||Comparison across groups at 12-wk||||0.97
82477531|NCT00955201|164650847|SUPERIORITY|||||||0.99|||||||ANOVA|||Comparison across groups at 24-wks||||0.99
82477532|NCT00955201|164650848|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.94
82477533|NCT00955201|164650848|SUPERIORITY|||||||0.69||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.69
82477534|NCT00955201|164650848|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.98
82477535|NCT00955201|164650848|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
82477536|NCT00955201|164650848|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at baseline||||0.45
82477537|NCT00955201|164650848|SUPERIORITY|||||||0.91|||||||ANOVA|||Comparison across groups at 12-wks||||0.91
82477538|NCT00955201|164650848|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 24-wks||||0.51
82477539|NCT00955201|164650849|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477540|NCT00955201|164650849|SUPERIORITY|||||||0.72||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.72
82477541|NCT00955201|164650849|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477542|NCT00955201|164650849|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477543|NCT00955201|164650849|SUPERIORITY|||||||0.85|||||||ANOVA|||Comparison across groups at baseline||||0.85
82477544|NCT00955201|164650849|SUPERIORITY|||||||0.98|||||||ANOVA|||Comparison across groups at 12-wks||||0.98
82477545|NCT00955201|164650849|SUPERIORITY|||||||0.68|||||||ANOVA|||Comparison across groups at 24-wks||||0.68
82477546|NCT00955201|164650850|SUPERIORITY|||||||0.91||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.91
82477547|NCT00955201|164650850|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477548|NCT00955201|164650850|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.94
82477549|NCT00955201|164650850|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.93
82477550|NCT00955201|164650850|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at baseline||||0.38
82477551|NCT00955201|164650850|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 12-wks||||0.51
82477552|NCT00955201|164650850|SUPERIORITY|||||||0.94|||||||ANOVA|||Comparison across groups at 24-wks||||0.94
82477553|NCT00955201|164650851|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477554|NCT00955201|164650851|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.97
82477555|NCT00955201|164650851|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.96
82477556|NCT00955201|164650851|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
82477557|NCT00955201|164650851|SUPERIORITY|||||||0.16|||||||ANOVA|||Comparison across groups at baseline.||||0.16
82477558|NCT00955201|164650851|SUPERIORITY|||||||0.37|||||||ANOVA|||Comparison across groups at 12-wks||||0.37
82477559|NCT00955201|164650851|SUPERIORITY|||||||0.75|||||||ANOVA|||Comparison across groups at 24-wks||||0.75
82477560|NCT00955201|164650852|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
82477561|NCT00955201|164650852|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
82477562|NCT00955201|164650852|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
82477563|NCT00955201|164650852|SUPERIORITY|||||||0.81||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.81
82477564|NCT00955201|164650852|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at baseline||||0.28
82477565|NCT00955201|164650852|SUPERIORITY|||||||0.28|||||||ANOVA|||Comparison across groups at 12-wks||||0.28
82477566|NCT00955201|164650852|SUPERIORITY|||||||0.83|||||||ANOVA|||Comparison across groups at 24-wks||||0.83
82477567|NCT00955201|164650853|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.99
82477568|NCT00955201|164650853|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.97
82477569|NCT00955201|164650853|SUPERIORITY|||||||0.82||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.82
82477570|NCT00955201|164650853|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time||||0.96
82477571|NCT00955201|164650853|SUPERIORITY|||||||0.55|||||||ANOVA|||Comparison across groups at baseline.||||0.55
82477572|NCT00955201|164650853|SUPERIORITY|||||||0.31|||||||ANOVA|||Comparison across groups at 12-wks||||0.31
82477573|NCT00955201|164650853|SUPERIORITY|||||||0.32|||||||ANOVA|||Comparison across groups at 24-wks||||0.32
82477574|NCT00955201|164650854|SUPERIORITY|||||||0.81||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.81
82477575|NCT00955201|164650854|SUPERIORITY|||||||0.92||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.92
82477576|NCT00955201|164650854|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.93
82477577|NCT00955201|164650854|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
82477578|NCT00955201|164650854|SUPERIORITY|||||||0.5|||||||ANOVA|||Comparison across groups at baseline.||||0.50
82477579|NCT00955201|164650854|SUPERIORITY|||||||0.47|||||||ANOVA|||Comparison across groups at 12-wks.||||0.47
82477580|NCT00955201|164650854|SUPERIORITY|||||||0.97|||||||ANOVA|||Comparison across groups at 24-wks||||0.97
82477581|NCT00955201|164650855|SUPERIORITY|||||||0.83||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.83
82477582|NCT00955201|164650855|SUPERIORITY|||||||0.91||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.91
82477583|NCT00955201|164650855|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||1.00
82477584|NCT00955201|164650855|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.95
82477585|NCT00955201|164650855|SUPERIORITY|||||||0.26|||||||ANOVA|||Comparison across groups at baseline.||||0.26
82477586|NCT00955201|164650855|SUPERIORITY|||||||0.42|||||||ANOVA|||Comparison across groups at 12-wks||||0.42
82477587|NCT00955201|164650855|SUPERIORITY|||||||0.95|||||||ANOVA|||Comparison across groups at 24-wks.||||0.95
82477588|NCT00955201|164650856|SUPERIORITY|||||||0.96||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.96
82477589|NCT00955201|164650856|SUPERIORITY|||||||0.53||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.53
82477590|NCT00955201|164650856|SUPERIORITY|||||||0.79||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.79
82552316|NCT05034328|164808400|SUPERIORITY||Odds Ratio (OR)|0.335||||0.001|TWO_SIDED|95.0|0.174|0.644|||Regression, Logistic|||||0.644|0.174|0.0010
82552317|NCT02969707|164808404|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|2-sample t-test||Examining the Change in sum of positive z-transformed CC.||||0.035
82552318|NCT02969707|164808404|SUPERIORITY|||||||0.7||||||2-sample t-test|t-test, 2 sided|||Examining the change in sum of all z-transformed CC.||||0.7
82552319|NCT02969707|164808404|SUPERIORITY|2-sample t-test||||||0.11|||||||t-test, 2 sided|||Examining the change in sum of negative z-transformed CC.||||0.11
82552320|NCT02969707|164808404|SUPERIORITY||Mean Difference (Net)|61.98||||0.008|TWO_SIDED||||||t-test, 2 sided|One sample(paired) t-test||Examining the change in positive functional connectivity between the L-DLPFC and the dACC within the active group from pre to post TMS.||||0.008
82552321|NCT02969707|164808406|OTHER||Mann-Whitney U statistic|601.0||||0.046|TWO_SIDED||||||Mann-Whitney U-test 2-tailed|||Non-parametric analysis, comparison of change (post-treatment minus pre-treatment)||||0.046
82552322|NCT02969707|164808406|OTHER||Cohen's R|0.25|||||TWO_SIDED||||||||Estimate of effect size|Non-parametric analysis, comparison of change (post-treatment minus pre-treatment)||||
82552323|NCT02969707|164808407|SUPERIORITY|We assessed the superiority of active over sham.|Mann-Whitney U statistic|702.5|||=|0.412|TWO_SIDED||||||Mann-Whitney U-test 2-tailed|||Pre- to post-rTMS change in HIS scores were calculated for both Active and Sham conditions. Two-tailed t-tests were used to evaluate the difference between the two conditions' change scores.||||=.412
82552324|NCT02969707|164808410|SUPERIORITY|||||||0.037|||||||t-test, 2 sided|2-sample t-test||||||0.037
82552325|NCT02969707|164808410|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||0.063
82552326|NCT02969707|164808410|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
82552327|NCT02969707|164808415|SUPERIORITY|We assessed the superiority of active over sham.|Cohen's d|-0.234||||0.49|TWO_SIDED||||||Mixed-effects model|||We used standard mixed-effects modeling to estimate the change (slope) in pain in our 2\*2 pre- and post-assessment design. Pain ratings were calculated by averaging pain ratings across 5 assessments under four conditions (TMS with hypnosis, TMS without hypnosis, Sham with hypnosis, Sham without hypnosis). Based on these change estimates, we derived the two main effects (TMS, Hypnosis) and their interaction effect on the change in pain from the pre- to post-treatment assessment.||||0.49
82552328|NCT02969707|164808416|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.454|||||||t-test, 2 sided|||Pre- to post-rTMS change in SOARS scores were calculated for both Active and Sham conditions. Two-tailed t-tests were used to evaluate the difference between the two conditions' change scores.||||=.454
82552329|NCT02969707|164808417|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to water and Thermal Pain Tolerance with E/I as the independent variable and Thermal Pain Tolerance as the dependent variable.||||||0.023|||||||Regression, Linear|(R² = .104, F(2,48) = 2.794, β = .320, p = .023)||In people with FMS, the linear relationship between Thermal Pain Tolerance and E/I ratio as it relates to water was assessed.||||0.023
82477591|NCT00955201|164650856|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.94
82477592|NCT00955201|164650856|SUPERIORITY|||||||0.75|||||||ANOVA|||Comparison across groups at baseline||||0.75
82477593|NCT00955201|164650856|SUPERIORITY|||||||0.51|||||||ANOVA|||Comparison across groups at 12-wks||||0.51
82477594|NCT00955201|164650856|SUPERIORITY|||||||0.63|||||||ANOVA|||Comparison across groups at 24-wks.||||0.63
82477595|NCT00955201|164650857|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.98
82477596|NCT00955201|164650857|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.99
82477597|NCT00955201|164650857|SUPERIORITY|||||||0.89||||||Tukey's multiple comparisons test:|ANOVA|||Evaluated within group across time.||||0.89
82477598|NCT00955201|164650857|SUPERIORITY|||||||0.9||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.90
82477599|NCT00955201|164650857|SUPERIORITY|||||||0.98|||||||ANOVA|||Comparison across groups at baseline||||0.98
82477600|NCT00955201|164650857|SUPERIORITY|||||||0.94|||||||ANOVA|||Comparison across groups at 12-wks||||0.94
82477601|NCT00955201|164650857|SUPERIORITY|||||||0.91|||||||ANOVA|||Comparison across groups at 24-wks.||||0.91
82477602|NCT00955201|164650858|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477603|NCT00955201|164650858|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.99
82477604|NCT00955201|164650858|SUPERIORITY|||||||0.84||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.84
82477605|NCT00955201|164650858|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477606|NCT00955201|164650858|SUPERIORITY|||||||0.96|||||||ANOVA|||Comparison across groups at baseline.||||0.96
82477607|NCT00955201|164650858|SUPERIORITY|||||||0.86|||||||ANOVA|||Comparison across groups at 12-wks.||||0.86
82477608|NCT00955201|164650858|SUPERIORITY|||||||0.92|||||||ANOVA|||Comparison across groups at 24-wks.||||0.92
82552330|NCT02969707|164808417|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to water and Thermal Pain Threshold with E/I as the independent variable and Thermal Pain Threshold as the dependent variable.||||||0.043|||||||Regression, Linear|(R² = .081, F(1,49) = 4.315, β = .284, p = .043)||In people with FMS, the linear relationship between Thermal Pain Threshold and E/I ratio as it relates to water was assessed.||||0.043
82580770|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.53|-0.31|||ANOVA|||Specificity||-0.31|-0.53|<0.0001
82586065|NCT00822523|164884103|SUPERIORITY_OR_OTHER||r value|0.5||||0.391|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.391
82477609|NCT00955201|164650859|SUPERIORITY|||||||0.03||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.03
82477610|NCT00955201|164650859|SUPERIORITY|||||||0.29||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.29
82477611|NCT00955201|164650859|SUPERIORITY|||||||0.36||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.36
82477612|NCT00955201|164650859|SUPERIORITY|||||||0.15||||||Unpaired two-tailed t-test:|t-test, 2 sided|||Evaluate within group pre- and post-test responses across time.||||0.15
82477613|NCT00955201|164650859|SUPERIORITY|||||||0.2||||||ANOVA|ANOVA|||Comparison of pre- and post-responses across groups at baseline.||||0.20
82477614|NCT00955201|164650859|SUPERIORITY|||||||0.51||||||ANOVA|ANOVA|||Comparison of pre- and post-test responses across groups at 12 wks.||||0.51
82477615|NCT00955201|164650859|SUPERIORITY|||||||0.59||||||ANOVA|ANOVA|||Comparison of pre- and post-test responses across groups at 24 wks.||||0.59
82477616|NCT00955201|164650860|SUPERIORITY|||||||1||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||1.00
82477617|NCT00955201|164650860|SUPERIORITY|||||||0.01||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||0.01
82477618|NCT00955201|164650860|SUPERIORITY|||||||1||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||1.00
82477619|NCT00955201|164650860|SUPERIORITY|||||||0.98||||||Dunn's multiple comparisons|Kruskal-Wallis|||Evaluate within group across time||||0.98
82477620|NCT00955201|164650860|SUPERIORITY|||||||0.96|||||||Kruskal-Wallis|||Comparison across groups at baseline||||0.96
82477621|NCT00955201|164650860|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||Comparison across groups at 12-wks||||0.06
82477622|NCT00955201|164650860|SUPERIORITY|||||||0.14|||||||Kruskal-Wallis|||Comparison across groups at 24-wks||||0.14
82477623|NCT00955201|164650861|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477624|NCT00955201|164650861|SUPERIORITY|||||||0.36||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.36
82477625|NCT00955201|164650861|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
82477626|NCT00955201|164650861|SUPERIORITY|||||||0.46||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.46
82477627|NCT00955201|164650861|SUPERIORITY|||||||0.14|||||||ANOVA|||Comparison across groups at baseline.||||0.14
82477628|NCT00955201|164650861|SUPERIORITY|||||||0.05|||||||ANOVA|||Comparison across groups at 12 wks.||||0.05
82477629|NCT00955201|164650861|SUPERIORITY|||||||0.01|||||||ANOVA|||Comparison across groups at 24 wks.||||0.01
82477630|NCT00955201|164650862|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477631|NCT00955201|164650862|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477632|NCT00955201|164650862|SUPERIORITY|||||||0.67||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.67
82477633|NCT00955201|164650862|SUPERIORITY|||||||0.55||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.55
82477634|NCT00955201|164650862|SUPERIORITY|||||||0.4||||||Tukey's multiple comparisons test:|ANOVA|||Comparison across groups at baseline.||||0.40
82477635|NCT00955201|164650862|SUPERIORITY|||||||0.47|||||||ANOVA|||Comparison across groups at 12 wks.||||0.47
82477636|NCT00955201|164650862|SUPERIORITY|||||||0.43|||||||ANOVA|||Comparison across groups at 24 wks.||||0.43
82477637|NCT00955201|164650863|SUPERIORITY|||||||0.84||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.84
82477638|NCT00955201|164650863|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
82477639|NCT00955201|164650863|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.94
82477640|NCT00955201|164650863|SUPERIORITY|||||||0.94||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.94
82477641|NCT00955201|164650863|SUPERIORITY|||||||0.88|||||||ANOVA|||Comparison across groups at baseline.||||0.88
82477642|NCT00955201|164650863|SUPERIORITY|||||||0.48|||||||ANOVA|||Comparison across groups at 12 wks.||||0.48
82477643|NCT00955201|164650863|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at 24 wks.||||0.38
82477644|NCT00955201|164650864|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
82477645|NCT00955201|164650864|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
82477646|NCT00955201|164650864|SUPERIORITY|||||||0.51||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.51
82477647|NCT00955201|164650864|SUPERIORITY|||||||0.89||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.89
82477648|NCT00955201|164650864|SUPERIORITY|||||||0.46|||||||ANOVA|||Comparison across groups at baseline.||||0.46
82477649|NCT00955201|164650864|SUPERIORITY|||||||0.72|||||||ANOVA|||Comparison across groups at 12 wks.||||0.72
82477650|NCT00955201|164650864|SUPERIORITY|||||||0.22|||||||ANOVA|||Comparison across groups at 24wks.||||0.22
82477651|NCT00955201|164650865|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477652|NCT00955201|164650865|SUPERIORITY|||||||0.99||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.99
82477653|NCT00955201|164650865|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
82477654|NCT00955201|164650865|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.95
82477655|NCT00955201|164650865|SUPERIORITY|||||||0.39|||||||ANOVA|||Comparison across groups at baseline.||||0.39
82477656|NCT00955201|164650865|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at 12-wks.||||0.59
82477657|NCT00955201|164650865|SUPERIORITY|||||||0.29|||||||ANOVA|||Comparison across groups at 24-wks.||||0.29
82477658|NCT00955201|164650866|SUPERIORITY|||||||0.97||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time||||0.97
82580771|NCT01011153|164873087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_DEVIATION|0.05|<|0.0001|TWO_SIDED|95.0|-0.51|-0.3|||ANOVA|||Specificity||-0.30|-0.51|<0.0001
82580772|NCT01011153|164873088|SUPERIORITY_OR_OTHER||Kappa|0.313|STANDARD_ERROR_OF_MEAN|0.003||||0.0||||No comparison is being made.|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
82477659|NCT00955201|164650866|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82580773|NCT01011153|164873088|SUPERIORITY_OR_OTHER||Kappa|0.276|STANDARD_ERROR_OF_MEAN|0.002||||0.0||||No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
82477660|NCT00955201|164650866|SUPERIORITY|||||||0.09||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.09
82477661|NCT00955201|164650866|SUPERIORITY|||||||0.05||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.05
82477662|NCT00955201|164650866|SUPERIORITY|||||||0.11|||||||ANOVA|||Comparison across groups at baseline.||||0.11
82477663|NCT00955201|164650866|SUPERIORITY|||||||0.41|||||||ANOVA|||Comparison across groups at 12-wks.||||0.41
82477664|NCT00955201|164650866|SUPERIORITY|||||||0.03|||||||ANOVA|||Comparison across groups at 24-wks.||||0.03
82477665|NCT00955201|164650867|SUPERIORITY|||||||0.95||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.95
82477666|NCT00955201|164650867|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477667|NCT00955201|164650867|SUPERIORITY|||||||0.87||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.87
82477668|NCT00955201|164650867|SUPERIORITY|||||||0.48||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.48
82477669|NCT00955201|164650867|SUPERIORITY|||||||0.58|||||||ANOVA|||Comparison across groups at baseline.||||0.58
82477670|NCT00955201|164650867|SUPERIORITY|||||||0.5|||||||ANOVA|||Comparison across groups at 12-wks.||||0.50
82477671|NCT00955201|164650867|SUPERIORITY|||||||0.33|||||||ANOVA|||Comparison across groups at 24-wks.||||0.33
82477672|NCT00955201|164650868|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477673|NCT00955201|164650868|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477674|NCT00955201|164650868|SUPERIORITY|||||||0.88||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.88
82477675|NCT00955201|164650868|SUPERIORITY|||||||0.93||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.93
82477676|NCT00955201|164650868|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at baseline.||||0.38
82477677|NCT00955201|164650868|SUPERIORITY|||||||0.55|||||||ANOVA|||Comparison across groups at 12-wks.||||0.55
82477678|NCT00955201|164650868|SUPERIORITY|||||||0.37|||||||ANOVA|||Comparison across groups at 24-wks||||0.37
82477679|NCT00955201|164650869|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
82477680|NCT00955201|164650869|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
82477681|NCT00955201|164650869|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time||||1.00
82477682|NCT00955201|164650869|SUPERIORITY|||||||1||||||Dunn's multiple comparisons test:|Kruskal-Wallis|||Evaluate within group across time.||||1.00
82580774|NCT01011153|164873088|SUPERIORITY_OR_OTHER||Kappa|0.2|STANDARD_ERROR_OF_MEAN|0.003||||0.0||||No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
82477683|NCT00955201|164650869|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||Comparison across groups at baseline||||0.81
82477684|NCT00955201|164650869|SUPERIORITY|||||||0.6|||||||Kruskal-Wallis|||Comparison across groups at 12-wks||||0.60
82477685|NCT00955201|164650869|SUPERIORITY|||||||0.99|||||||Kruskal-Wallis|||Comparison across groups at 24-wks||||0.99
82477686|NCT00955201|164650870|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at baseline.||||0.59
82477687|NCT00955201|164650871|SUPERIORITY|||||||0.98||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.98
82477688|NCT00955201|164650871|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477689|NCT00955201|164650871|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477690|NCT00955201|164650871|SUPERIORITY|||||||0.72||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.72
82477691|NCT00955201|164650871|SUPERIORITY|||||||0.62|||||||ANOVA|||Comparison across groups at baseline.||||0.62
82477692|NCT00955201|164650871|SUPERIORITY|||||||0.33|||||||ANOVA|||Comparison across groups at 12 wks.||||0.33
82477693|NCT00955201|164650871|SUPERIORITY|||||||0.38|||||||ANOVA|||Comparison across groups at 24 wks.||||0.38
82477694|NCT00955201|164650872|SUPERIORITY|||||||0.88||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.88
82477695|NCT00955201|164650872|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82580775|NCT01011153|164873088|SUPERIORITY_OR_OTHER||Kappa|0.256|STANDARD_ERROR_OF_MEAN|0.001||||0.0||||N/A - No comparison is being made|ANOVA||There is no threshold level-this is a measurement of variability among responses provided by the participants.|||||
82586066|NCT00822523|164884104|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82580776|NCT01081132|164873091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.026|||<|0.001|TWO_SIDED|95.0|-8.865|-3.187|||Mixed Models Repeated Measures Analysis|||||-3.187|-8.865|<0.001
82580777|NCT01081132|164873092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|||||||Cochran-Mantel-Haenszel|||||||0.010
82580778|NCT01081132|164873093|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.115||||0.104|TWO_SIDED|95.0|-0.254|0.024|||Mixed Models Repeated Measures Analysis|||||0.024|-0.254|0.104
82580779|NCT01081132|164873094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.057||||0.408|TWO_SIDED|95.0|-0.192|0.078|||Mixed Models Repeated Measures Analysis|||||0.078|-0.192|0.408
82580780|NCT01081132|164873095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.083||||0.176|TWO_SIDED|95.0|-0.203|0.037|||Mixed Models Repeated Measures Analysis|||||0.037|-0.203|0.176
82477696|NCT00955201|164650872|SUPERIORITY|||||||1||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||1.00
82477697|NCT00955201|164650872|SUPERIORITY|||||||0.76||||||Tukey's multiple comparisons test:|ANOVA|||Evaluate within group across time.||||0.76
82477698|NCT00955201|164650872|SUPERIORITY|||||||0.82|||||||ANOVA|||Comparison across groups at baseline.||||0.82
82477699|NCT00955201|164650872|SUPERIORITY|||||||0.53|||||||ANOVA|||Comparison across groups at 12 wks.||||0.53
82477700|NCT00955201|164650872|SUPERIORITY|||||||0.68|||||||ANOVA|||Comparison across groups at 24 wks.||||0.68
82477701|NCT00955201|164650873|SUPERIORITY|||||||0.7|||||||ANOVA|||Comparison across groups at baseline.||||0.70
82477702|NCT00955201|164650875|SUPERIORITY|||||||0.59|||||||ANOVA|||Comparison across groups at baseline.||||0.59
82477703|NCT00955201|164650876|SUPERIORITY|||||||0.45|||||||ANOVA|||Comparison across groups at baseline.||||0.45
82477704|NCT00955201|164650877|SUPERIORITY|||||||0.04|||||||ANOVA|||Comparison across groups at baseline.||||0.04
82477705|NCT00955201|164650878|SUPERIORITY|||||||0.77|||||||ANOVA|||Comparison across groups at baseline.||||0.77
82477706|NCT00955201|164650879|SUPERIORITY|||||||0.12|||||||ANOVA|||Comparison across groups at baseline.||||0.12
82477707|NCT00955201|164650880|SUPERIORITY|||||||0.42|||||||ANOVA|||Comparison across groups at baseline.||||0.42
82580781|NCT01081132|164873096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05||||0.253|TWO_SIDED|95.0|-0.136|-0.036|||Mixed Models Repeated Measures Analysis|||||-0.036|-0.136|0.253
82580782|NCT01081132|164873097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.004||||0.912|TWO_SIDED|95.0|-0.061|0.068|||Mixed Models Repeated Measures Analysis|||||0.068|-0.061|0.912
82477708|NCT00955201|164650881|SUPERIORITY|||||||0.79|||||||ANOVA|||Comparison across groups at baseline.||||0.79
82477709|NCT03032380|164650891|NON_INFERIORITY|The study hypothesis was that the all-cause mortality rate at Day 14 in participants who received cefiderocol would be non-inferior to that in participants who received high-dose meropenem. The margin of non-inferiority was 12.5%. Non-inferiority was concluded if the upper bound of the 2-sided 95% confidence interval for the difference in mortality at Day 14 between the 2 treatment groups (cefiderocol - meropenem) was smaller than 12.5%.|Treatment Difference|0.8||||0.002|TWO_SIDED|95.0|-6.6|8.2|||Cochran-Mantel-Haenszel||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at Day 14 based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||8.2|-6.6|0.0020
82477710|NCT03032380|164650892|SUPERIORITY||Treatment Difference|-1.4|||||TWO_SIDED|95.0|-13.5|10.7|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the eradication rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||10.7|-13.5|
82477711|NCT03032380|164650893|SUPERIORITY||Treatment Difference|-2.0|||||TWO_SIDED|95.0|-12.5|8.5|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||8.5|-12.5|
82477712|NCT03032380|164650894|OTHER||Treatment Difference|-0.3|||||TWO_SIDED|95.0|-8.8|8.2|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||8.2|-8.8|
82477713|NCT03032380|164650895|OTHER||Treatment Difference|-3.8|||||TWO_SIDED|95.0|-12.8|5.1|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||5.1|-12.8|
82477714|NCT03032380|164650896|OTHER||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||10.8|-10.9|
82477715|NCT03032380|164650897|OTHER||Treatment Difference|-12.4|||||TWO_SIDED|95.0|-24.4|-0.5|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||-0.5|-24.4|
82580783|NCT01081132|164873098|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.029||||0.606|TWO_SIDED|95.0|-0.139|0.081|||Mixed Models Repeated Measures Analysis|||||0.081|-0.139|0.606
82580784|NCT01081132|164873099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.102||||0.228|TWO_SIDED|95.0|-0.064|0.268|||Mixed Models Repeated Measures Analysis|||||0.268|-0.064|0.228
82580785|NCT01081132|164873100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.047||||0.41|TWO_SIDED|95.0|-0.159|0.065|||Mixed Models Repeated Measures Analysis|||||0.065|-0.159|0.410
82580786|NCT01081132|164873101|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.208||||0.082|TWO_SIDED|95.0|-0.443|0.026|||Mixed Models Repeated Measures Analysis|||||0.026|-0.443|0.082
82580787|NCT01081132|164873102|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82580788|NCT01081132|164873103|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.3||||0.134|TWO_SIDED|95.0|-5.3|0.7|||Mixed Models Repeated Measures Analysis|||Global Executive Composite||0.7|-5.3|0.134
82552331|NCT02969707|164808417|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to creatine and Thermal Pain Tolerance with E/I as the independent variable and Thermal Pain Tolerance as the dependent variable.||||||0.022|||||||Regression, Linear|(R² = .103, F(1,49) = 5.632, β = .321, p = .022)||In people with FMS, the linear relationship between Thermal Pain Tolerance and E/I ratio as it relates to creatine was assessed.||||0.022
82552332|NCT02969707|164808417|OTHER|Linear regression was used to evaluate the scalar relationship between E/I ratio as it relates to creatine and Thermal Pain Threshold with E/I as the independent variable and Thermal Pain Threshold as the dependent variable.||||||0.041|||||||Regression, Linear|(R² = .083, F(1,49) = 4.425, β = .288, p = .041)||In people with FMS, the linear relationship between Thermal Pain Threshold and E/I ratio as it relates to creatine was assessed.||||0.041
82552333|NCT02969707|164808423|SUPERIORITY|||||||0.728|||||||ANCOVA|||Standard ANCOVA testing whether the Post-TMS E/I relative to creatine is predicted for each subject by the intervention (Active / Sham) while covarying for the Pre-TMS E/I ratio relative to creatine.||||0.728
82477716|NCT03032380|164650898|OTHER||Treatment Difference|-3.8|||||TWO_SIDED|95.0|-15.5|7.9|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||7.9|-15.5|
82477717|NCT03032380|164650899|OTHER||Treatment Difference|3.9|||||TWO_SIDED|95.0|-7.9|15.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the cure rate calculated using Cochran-Mantel-Haenszel weights based on infection diagnosis (HABP/VABP/HCABP), and APACHE II score (≤ 15 and ≥ 16).|||15.8|-7.9|
82477718|NCT03032380|164650900|OTHER||Treatment Difference|0.5|||||TWO_SIDED|95.0|-8.7|9.8|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at Day 28 based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||9.8|-8.7|
82477719|NCT03032380|164650901|OTHER||Treatment Difference|3.6|||||TWO_SIDED|95.0|-6.3|13.4|||||Treatment difference (cefiderocol - meropenem) was the adjusted estimate of the difference in the ACM rate at EOS based on Cochran-Mantel Haenszel weights using APACHE II score (≤ 15 and ≥ 16) as the stratification factor.|||13.4|-6.3|
82477720|NCT03032380|164650902|SUPERIORITY|||||||0.9382|||||||t-test, 2 sided|||Comparison of Hospitalization time at test of cure||||0.9382
82477721|NCT03032380|164650902|SUPERIORITY|||||||0.6552|||||||t-test, 2 sided|||Comparison of hospitalization time at follow-up||||0.6552
82552334|NCT02969707|164808423|SUPERIORITY|||||||0.72|||||||ANCOVA|||Standard ANCOVA testing whether the Post-TMS E/I relative to water is predicted for each subject by the intervention (Active / Sham) while covarying for the Pre-TMS E/I ratio relative to water.||||0.720
82552335|NCT06074172|164808425|OTHER|Linear Mixed Models were done with a compound symmetry covariance structure. This infers that the variances (pooled within-group) and covariances (across subjects) of all of the repeated measures are homogenous.||||||0.008||||||In the Bonferroni corrected Linear Mixed Model for PI Ratio, the p-value for the following interaction was reported: Treatment\*Age.|Linear Mixed Model|"Linear Mixed Model analyses:~1. Factor: Treatment group~2. Covariates: Age, Sex, CBD Use history, and Urine THC~3. Interactions"||||||0.008
82552336|NCT05583578|164808429|SUPERIORITY|||||||0.012||||||The Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.012
82477722|NCT00913458|164650988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.8|||<|0.0001|TWO_SIDED|95.0|2.7|12.5||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Logistic|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||12.5|2.7|<0.0001
82477723|NCT00913458|164650988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.0085|TWO_SIDED|95.0|1.3|5.3||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Logistic|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.3|1.3|0.0085
82477724|NCT00913458|164650988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0397|TWO_SIDED|95.0|1.0|4.8||The rate of sustained remission was analyzed using a logistic regression model with a 2-sided significance level of 5%.|Regression, Linear|Values are based on a logistic regression model with treatment as the only factor.||The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.8|1.0|0.0397
82477725|NCT00913458|164650989|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~End of Phase 1"||||<0.0001
82477726|NCT00913458|164650990|SUPERIORITY_OR_OTHER|||||||0.1183|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 52"||||0.1183
82477727|NCT00913458|164650990|SUPERIORITY_OR_OTHER|||||||0.0286|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Final on therapy"||||0.0286
82477728|NCT00913458|164650991|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
82477729|NCT00913458|164650992|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
82477730|NCT00913458|164650993|SUPERIORITY_OR_OTHER|||||||0.0063|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13"||||0.0063
82477731|NCT00913458|164650993|SUPERIORITY_OR_OTHER|||||||0.0053|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 26"||||0.0053
82477732|NCT00913458|164650993|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 39"||||0.0027
82477733|NCT00913458|164650993|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 52"||||0.0002
82477734|NCT00913458|164650993|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Final on therapy"||||0.0005
82477735|NCT00913458|164650994|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 13, 26, 39, 52 and final on therapy"||||<0.0001
82477736|NCT00913458|164650995|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477737|NCT00913458|164650996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
82477738|NCT00913458|164650997|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477739|NCT00913458|164650998|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477740|NCT00913458|164650999|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
82477741|NCT00913458|164651000|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477742|NCT00913458|164651001|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||"Significance tests were based on paired t-tests using a 2-sided α=0.05.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477743|NCT00913458|164651002|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 and final on therapy"||||<0.0001
82477744|NCT00913458|164651003|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Binomial test|||"Binomial test-value tests the null hypothesis that the proportion is significantly different from 0.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
82477745|NCT00913458|164651004|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||McNemar|||"P-value is from McNemar's test for no change from baseline in response rate.~Week 2, 4, 8, 13, 26, 39, 52 week and final on therapy"||||<0.0001
82477746|NCT00913458|164651005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.4075|TWO_SIDED|95.0|0.4|7.6|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.6|0.4|0.4075
82477747|NCT00913458|164651005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.88||||0.0011|TWO_SIDED|95.0|2.4|33.1|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||33.1|2.4|0.0011
82477748|NCT00913458|164651005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87||||0.0031|TWO_SIDED|95.0|1.7|13.9|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||13.9|1.7|0.0031
82477749|NCT00913458|164651006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.5951|TWO_SIDED|95.0|0.3|2.0|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.0|0.3|0.5951
82477750|NCT00913458|164651006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0934|TWO_SIDED|95.0|0.9|5.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.5|0.9|0.0934
82477751|NCT00913458|164651006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.85||||0.0314|TWO_SIDED|95.0|1.1|7.4|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.4|1.1|0.0314
82477752|NCT00913458|164651007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6152|TWO_SIDED|95.0|0.5|2.8|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.8|0.5|0.6152
82477753|NCT00913458|164651007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0432|TWO_SIDED|95.0|1.0|5.4|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.4|1.0|0.0432
82477754|NCT00913458|164651007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.1189|TWO_SIDED|95.0|0.8|4.3|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.3|0.8|0.1189
82477755|NCT00913458|164651008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.0535|TWO_SIDED|95.0|1.0|4.7|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.7|1.0|0.0535
82477756|NCT00913458|164651008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.22||||0.0064|TWO_SIDED|95.0|1.4|7.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.5|1.4|0.0064
82552337|NCT05583578|164808429|OTHER||Cohen's d (effect size)|0.98|||||TWO_SIDED||||||||Effect sizes greater than (d = 0.80) were considered large.|Post-intervention changes in walking speed||||
82552338|NCT05583578|164808430|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.05|t-test, 2 sided|||||||0.39
82477757|NCT00913458|164651008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.3696|TWO_SIDED|95.0|0.6|3.6|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||3.6|0.6|0.3696
82477758|NCT00913458|164651009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0788|TWO_SIDED|95.0|0.9|5.2|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||5.2|0.9|0.0788
82477759|NCT00913458|164651009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57||||0.0007|TWO_SIDED|95.0|1.9|11.0|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||11.0|1.9|0.0007
82477760|NCT00913458|164651009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.0676|TWO_SIDED|95.0|0.9|4.7|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.7|0.9|0.0676
82477761|NCT00913458|164651010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.56||||0.0548|TWO_SIDED|95.0|1.0|59.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||59.5|1.0|0.0548
82477762|NCT00913458|164651010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.18||||0.0166|TWO_SIDED|95.0|1.6|94.2|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||94.2|1.6|0.0166
82477763|NCT00913458|164651010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.3619|TWO_SIDED|95.0|0.6|4.5|||Longitudinal statistical model|Odds ratios and p-values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.5|0.6|0.3619
82477764|NCT00913458|164651011|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.23||||0.0017|TWO_SIDED|95.0|1.6|6.7|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||6.7|1.6|0.0017
82477765|NCT00913458|164651011|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.05|||<|0.0001|TWO_SIDED|95.0|4.4|28.0|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||28.0|4.4|<0.0001
82477766|NCT00913458|164651011|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.42||||0.0111|TWO_SIDED|95.0|1.3|8.8|||Regression, Logistic|Odds ratios, p-values, and 95% CIs are based on a logistic regression model with treatment as the only factor.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||8.8|1.3|0.0111
82477767|NCT00913458|164651012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.66||||0.0328|TWO_SIDED|95.0|-16.6|-0.7|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.7|-16.6|0.0328
82477768|NCT00913458|164651012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.64|||<|0.0001|TWO_SIDED|95.0|-30.1|-13.2|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-13.2|-30.1|<0.0001
82477769|NCT00913458|164651012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.98||||0.0035|TWO_SIDED|95.0|-21.5|-4.5|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-4.5|-21.5|0.0035
82477770|NCT00913458|164651013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.36||||0.2473|TWO_SIDED|95.0|-11.8|3.1|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||3.1|-11.8|0.2473
82477771|NCT00913458|164651013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.19||||0.0016|TWO_SIDED|95.0|-21.3|-5.1|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-5.1|-21.3|0.0016
82477772|NCT00913458|164651013|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83||||0.0348|TWO_SIDED|95.0|-17.0|-0.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.6|-17.0|0.0348
82477773|NCT00913458|164651014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.51||||0.1248|TWO_SIDED|95.0|-12.6|1.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||1.6|-12.6|0.1248
82477774|NCT00913458|164651014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.14||||0.0004|TWO_SIDED|95.0|-21.8|-6.5|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-6.5|-21.8|0.0004
82586067|NCT00822523|164884104|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82477775|NCT00913458|164651014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.63||||0.0306|TWO_SIDED|95.0|-16.4|-0.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for Week 52 value, treatment, visit, and interaction of treatment.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-0.8|-16.4|0.0306
82477776|NCT00913458|164651015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.4717|TWO_SIDED|95.0|0.5|4.6|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.6|0.5|0.4717
82477777|NCT00913458|164651015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.0551|TWO_SIDED|95.0|1.0|7.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||7.8|1.0|0.0551
82477778|NCT00913458|164651015|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.84||||0.2141|TWO_SIDED|95.0|0.7|4.8|||Longitudinal statistical model|Values are based on a longitudinal statistical model with factors for treatment, visit, and interaction of treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||4.8|0.7|0.2141
82477779|NCT00913458|164651017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9652|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.4|-0.5|0.9652
82477780|NCT00913458|164651017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.2168|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.0|-1.0|0.2168
82477781|NCT00913458|164651017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.2131|TWO_SIDED|95.0|-1.0|0.0|||ANCOVA|P-values for between-treatment comparisons are based on ANCOVA on ranks of change in score with ranks of Week 52 value as covariate.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.0|-1.0|0.2131
82477782|NCT00913458|164651019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.9338|TWO_SIDED|95.0|-10.0|10.9|||ANCOVA||Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.|Change from Week 52 to Week 91. The hyothesis of primary interest was the superiority of E25+MTX compared with PBO.||10.9|-10.0|0.9338
82477783|NCT00913458|164651019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55||||0.713|TWO_SIDED|95.0|-16.4|11.2|||ANCOVA|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||11.2|-16.4|0.7130
82477784|NCT00913458|164651019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.6628|TWO_SIDED|95.0|-16.6|10.6|||ANCOVA|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||10.6|-16.6|0.6628
82477785|NCT00913458|164651021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.74||||0.1303|TWO_SIDED|95.0|-15.5|2.0|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||2.0|-15.5|0.1303
82477786|NCT00913458|164651021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.59||||0.0024|TWO_SIDED|95.0|-27.1|-6.0|||Longitudinal statisitical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-6.0|-27.1|0.0024
82477787|NCT00913458|164651021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.85||||0.0621|TWO_SIDED|95.0|-20.2|0.5|||Longitudinal statistical model|||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||0.5|-20.2|0.0621
82477788|NCT00913458|164651023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.01||||0.4664|TWO_SIDED|95.0|-15.0|6.9|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||6.9|-15.0|0.4664
82477789|NCT00913458|164651023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.57||||0.021|TWO_SIDED|95.0|-30.6|-2.6|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-2.6|-30.6|0.0210
82552339|NCT05583578|164808430|SUPERIORITY||Cohen's d (effect size)|0.31|||||TWO_SIDED||||||||Effect sizes ranging from 0.21 to 0.79 were considered moderate, anything ≥0.80 were considered large.|||||
82552340|NCT05312008|164808485|SUPERIORITY||||||<|0.6|||||||t-test, 2 sided|paired||||||<0.6
82552341|NCT05312008|164808486|SUPERIORITY||||||<|0.6|||||||t-test, 2 sided|Paired||||||<0.6
82552342|NCT05312008|164808487|SUPERIORITY||||||<|1|||||||t-test, 2 sided|Paired||||||<1
82552343|NCT05312008|164808488|SUPERIORITY||||||<|0.04|||||||t-test, 2 sided|Paired||||||<0.04
82552344|NCT05312008|164808489|SUPERIORITY||||||<|0.5|||||||t-test, 2 sided|Paired||||||<0.5
82552345|NCT04324359|164808490|SUPERIORITY||||||<|0.001|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on the normal approximation test for differences between proportions.||||||<0.001
82552346|NCT04324359|164808491|SUPERIORITY|||||||0.066|||||||Other: z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.066
82552347|NCT04324359|164808492|SUPERIORITY|||||||0.716|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.716
82477790|NCT00913458|164651023|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.56||||0.0713|TWO_SIDED|95.0|-26.2|1.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||1.1|-26.2|0.0713
82477791|NCT00913458|164651025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.11||||0.0256|TWO_SIDED|95.0|-17.1|-1.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-1.1|-17.1|0.0256
82477792|NCT00913458|164651025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.62|||<|0.0001|TWO_SIDED|95.0|-28.1|-11.1|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-11.1|-28.1|<0.0001
82477793|NCT00913458|164651025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.51||||0.0161|TWO_SIDED|95.0|-19.0|-2.0|||Longitudinal statistical model|Values are based on a model with factors for Week 52 value, treatment, visit, and interaction of treatment and Week 52 value and treatment and visit.||Change from Week 52 to Week 91. The hypothesis of primary interest was the superiority of E25+MTX compared with PBO.||-2.0|-19.0|0.0161
82477794|NCT03595618|164651032|SUPERIORITY||Adjusted mean difference|0.04514|STANDARD_ERROR_OF_MEAN|0.02465||0.165|TWO_SIDED|95.0|-0.00317|0.09345||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using mixed-effects model for repeated measures (MMRM) including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value||0.09345|-0.00317|0.165
82477795|NCT03595618|164651032|SUPERIORITY||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.02585||0.939|TWO_SIDED|95.0|-0.03868|0.06267||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.06267|-0.03868|0.939
82477796|NCT03595618|164651032|SUPERIORITY||Adjusted mean difference|0.02329|STANDARD_ERROR_OF_MEAN|0.02536||0.682|TWO_SIDED|95.0|-0.02641|0.073|||Mixed Models Analysis||Two-sided 95% confidence interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose minus placebo using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.07300|-0.02641|0.682
82477797|NCT03595618|164651033|SUPERIORITY||Odds Ratio (OR)|1.47|STANDARD_ERROR_OF_MEAN|0.29||0.396|TWO_SIDED|95.0|0.84|2.58||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||2.58|0.84|0.396
82477798|NCT03595618|164651033|SUPERIORITY||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.26||0.951|TWO_SIDED|95.0|0.53|1.5||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||1.50|0.53|0.951
82477799|NCT03595618|164651033|SUPERIORITY||Odds Ratio (OR)|1.08|STANDARD_ERROR_OF_MEAN|0.27||0.985|TWO_SIDED|95.0|0.64|1.83||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen||1.83|0.64|0.985
82477800|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-2.1|STANDARD_ERROR_OF_MEAN|1.7||0.467|TWO_SIDED|95.0|-5.6|1.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.3|-5.6|0.467
82552348|NCT04324359|164808493|SUPERIORITY|||||||0.528|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level P-value: based on Barnard's exact test for differences between proportions.||||||0.528
82552349|NCT04324359|164808494|SUPERIORITY|||||||0.766|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.766
82552350|NCT04324359|164808495|SUPERIORITY|||||||0.619|||||||z-test for proportions|Other: z-test for proportions, 2-sided test at alpha = 5% level. P-value: based on Barnard's exact test for differences between proportions.||||||0.619
82580789|NCT01081132|164873103|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.579|TWO_SIDED|95.0|-4.0|2.3|||Mixed Models Repeated Measures Analysis|||Behavioral Regulation Index||2.3|-4.0|0.579
82651023|NCT00294723|165016806|NON_INFERIORITY_OR_EQUIVALENCE|The two-sided 95% confidence interval (CI) for the treatment difference \[liraglutide - glimepiride\] was estimated. Liraglutide was shown to be non-inferior to glimepiride if the upper limit of the two-sided 95% CI for the treatment difference was below 0.4% and superior if the complete CI was below 0%. Superiority of 1.2 mg liraglutide was only tested if 1.2 mg liraglutide was non-inferior to glimepiride and 1.8 mg liraglutide was superior to glimepiride.|Estimated treatment difference, LS Mean|-0.28||||0.0122||95.0|-0.49|-0.06||The statistical analysis of the primary endpoint was done in a hierarchal manner due to multiple comparisons. No other adjustments were made for multiplicity. 2-sided significance level was 5%.|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.49|0.0122
82651024|NCT00294723|165016806|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of liraglutide 1.8 mg to liraglutide 1.2 mg was performed to compare the two doses. Superiority of liraglutide 1.8 mg was concluded if the upper limit of the 2-sided 95% CI for the treatment difference (liraglutide 1.8 mg - liraglutide 1.2 mg) was below 0%.|Estimated treatment difference, LS Mean|-0.28||||0.0123||95.0|-0.49|-0.06||2-sided significance level 5%|ANCOVA|||Change in glycosylated haemoglobin (HbA1c) from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country, and previous oral antidiabetic drug (OAD) treatment as fixed effects and baseline HbA1c as covariate.||-0.06|-0.49|0.0123
82651025|NCT00294723|165016807|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-4.0||||0.1396||95.0|-9.4|1.3||2-sided significance level 5%|ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.3|-9.4|0.1396
82552351|NCT05778695|164808496|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Median Difference (Net)|-14.0|STANDARD_DEVIATION|22.02||0.875|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.875
82552352|NCT05778695|164808496|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Mean Difference (Net)|-2.0|STANDARD_DEVIATION|15.166||0.739|TWO_SIDED|95.0|-16.026|12.026||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|||||12.026|-16.026|0.739
82552353|NCT05778695|164808497|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Median Difference (Net)|0.0|STANDARD_DEVIATION|0.34||0.37|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||0.37
82552354|NCT03701763|164808555|SUPERIORITY||Percentage Adjusted Difference|21.7|||<|0.0001|TWO_SIDED|95.0|11.2|32.1|||Cochran-Mantel-Haenszel|||||32.1|11.2|<0.0001
82552355|NCT03701763|164808556|SUPERIORITY||Percentage Adjusted Difference|29.4|||<|0.0001|TWO_SIDED|95.0|17.8|40.9|||Cochran-Mantel-Haenszel|||||40.9|17.8|<0.0001
82552356|NCT03701763|164808557|SUPERIORITY||Percentage Adjusted Difference|38.4|||<|0.0001|TWO_SIDED|95.0|25.6|51.2|||Cochran-Mantel-Haenszel|||||51.2|25.6|<0.0001
82552357|NCT03701763|164808558|SUPERIORITY||Difference in Least Squares Mean|-26.97|STANDARD_ERROR_OF_MEAN|4.572|<|0.0001|TWO_SIDED|95.0|-35.93|-18.0|||ANCOVA|||||-18.00|-35.93|<0.0001
82552358|NCT03701763|164808559|SUPERIORITY||Difference in Least Squares Mean|-34.77|STANDARD_ERROR_OF_MEAN|6.229|<|0.0001|TWO_SIDED|95.0|-46.99|-22.55|||ANCOVA|||||-22.55|-46.99|< 0.0001
82552359|NCT03701763|164808560|SUPERIORITY||Percentage Adjusted Difference|4.1||||0.5616|TWO_SIDED|95.0|-9.8|18.0|||Cochran-Mantel-Haenszel|||||18.0|-9.8|0.5616
82552360|NCT03701763|164808561|SUPERIORITY||Difference in Least Squares Mean|-1.8||||0.0009|TWO_SIDED|95.0|-2.9|-0.8|||ANCOVA|||||-0.8|-2.9|0.0009
82552361|NCT03785964|164808594|SUPERIORITY||Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.15|0.55|||Log Rank|p-value was from a one-sided stratified log-rank test with placebo as reference.||Hazard ratio was estimated from stratified Cox proportional hazards model using the exact method for ties, stratified by tumor location. Placebo was the reference treatment.||0.55|0.15|< 0.001
82552362|NCT03785964|164808595|SUPERIORITY||||||<|0.001||||||Two-sided p-value|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test for general association stratified by tumor location. Placebo was reference treatment.||||< 0.001
82552363|NCT03785964|164808596|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline Brief Pain Inventory Short Form score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 40 and 31 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
82586068|NCT00822523|164884104|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
82552364|NCT03785964|164808597|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline DEsmoid Tumor Symptom Scale score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 40 and 32 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
82552365|NCT03785964|164808598|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 39 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
82477801|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.8||0.557|TWO_SIDED|95.0|-5.4|1.5||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.5|-5.4|0.557
82477802|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-1.9|STANDARD_ERROR_OF_MEAN|1.8||0.593|TWO_SIDED|95.0|-5.3|1.6||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Total score: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.6|-5.3|0.593
82477803|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.4||0.776|TWO_SIDED|95.0|-1.0|0.4||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.4|-1.0|0.776
82477804|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.446|TWO_SIDED|95.0|-1.2|0.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.3|-1.2|0.446
82477805|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.649|TWO_SIDED|95.0|-1.1|0.4||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Pain subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.4|-1.1|0.649
82477806|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.3||0.452|TWO_SIDED|95.0|-4.1|0.9||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.9|-4.1|0.452
82477807|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-1.2|STANDARD_ERROR_OF_MEAN|1.3||0.665|TWO_SIDED|95.0|-3.7|1.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical Function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.3|-3.7|0.665
82477808|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-1.3|STANDARD_ERROR_OF_MEAN|1.3||0.598|TWO_SIDED|95.0|-3.9|1.2||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Physical Function subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||1.2|-3.9|0.598
82562010|NCT03989232|164833305|SUPERIORITY||Treatment difference|-0.23||||0.0003|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||On-treatment without rescue medication observation period: Imputation of missing data was handled by multiple imputation (MI) assuming that missing data were missed at random (MAR). The imputation was performed separately within each treatment group defined by randomised treatment.||-0.11|-0.36|0.0003
82477809|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.4|TWO_SIDED|95.0|-0.6|0.1||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.1|-0.6|0.400
82477810|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.393|TWO_SIDED|95.0|-0.6|0.1||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.1|-0.6|0.393
82477811|NCT03595618|164651034|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.858|TWO_SIDED|95.0|-0.5|0.2||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment|Stiffness subscore: Estimate (Standard Error) of adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose using MMRM including fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as continuous, fixed covariates of baseline and time-by-baseline interaction preceded by multiple imputation step for participants without post baseline value.||0.2|-0.5|0.858
82477812|NCT03595618|164651035|SUPERIORITY||Adjusted mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.5||0.705|TWO_SIDED|95.0|-7.1|2.7||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||2.7|-7.1|0.705
82477813|NCT03595618|164651035|SUPERIORITY||Adjusted mean difference|-4.1|STANDARD_ERROR_OF_MEAN|2.5||0.243|TWO_SIDED|95.0|-9.0|0.8||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.8|-9.0|0.243
82477814|NCT03595618|164651035|SUPERIORITY||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|2.5||0.949|TWO_SIDED|95.0|-6.1|3.9||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||3.9|-6.1|0.949
82477815|NCT03595618|164651036|SUPERIORITY||Adjusted mean difference|1.4|STANDARD_ERROR_OF_MEAN|2.5||0.89|TWO_SIDED|95.0|-3.4|6.3||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||6.3|-3.4|0.890
82477816|NCT03595618|164651036|SUPERIORITY||Adjusted mean difference|-2.3|STANDARD_ERROR_OF_MEAN|2.5||0.682|TWO_SIDED|95.0|-7.1|2.6||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||2.6|-7.1|0.682
82477817|NCT03595618|164651036|SUPERIORITY||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|2.5||1|TWO_SIDED|95.0|-4.8|5.0||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||5.0|-4.8|1.000
82580790|NCT01081132|164873103|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.7||||0.072|TWO_SIDED|95.0|-5.6|0.2|||Mixed Models Repeated Measures Analysis|||Metacognition Index||0.2|-5.6|0.072
82477818|NCT03595618|164651037|SUPERIORITY||Odds Ratio (OR)|1.05|STANDARD_ERROR_OF_MEAN|0.21||0.991|TWO_SIDED|95.0|0.7|1.58||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.58|0.70|0.991
82477819|NCT03595618|164651037|SUPERIORITY||Odds Ratio (OR)|0.95|STANDARD_ERROR_OF_MEAN|0.21||0.992|TWO_SIDED|95.0|0.64|1.43||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.43|0.64|0.992
82477820|NCT03595618|164651037|SUPERIORITY||Odds Ratio (OR)|0.82|STANDARD_ERROR_OF_MEAN|0.21||0.653|TWO_SIDED|95.0|0.55|1.23||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Logistic Model||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error of log \[estimate\]) of the adjusted odds ratio between GLPG1972 dose regimen and placebo: between the proportions of participants with response: placebo versus GLPG1972 dose regimen.||1.23|0.55|0.653
82477821|NCT03595618|164651038|SUPERIORITY||Adjusted mean difference|0.03779|STANDARD_ERROR_OF_MEAN|0.02156||0.193|TWO_SIDED|95.0|-0.00448|0.08005||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.08005|-0.00448|0.193
82477822|NCT03595618|164651038|SUPERIORITY||Adjusted mean difference|0.0358|STANDARD_ERROR_OF_MEAN|0.02235||0.256|TWO_SIDED|95.0|-0.00801|0.07962||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.07962|-0.00801|0.256
82477823|NCT03595618|164651038|SUPERIORITY||Adjusted mean difference|0.03884|STANDARD_ERROR_OF_MEAN|0.02243||0.201|TWO_SIDED|95.0|-0.00514|0.08281||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||0.08281|-0.00514|0.201
82477824|NCT03595618|164651039|SUPERIORITY||Adjusted mean difference|3.12394|STANDARD_ERROR_OF_MEAN|3.13671||0.627|TWO_SIDED|95.0|-3.02464|9.27252||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an analysis of covariance (ANCOVA) including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||9.27252|-3.02464|0.627
82477825|NCT03595618|164651039|SUPERIORITY||Adjusted mean difference|0.46842|STANDARD_ERROR_OF_MEAN|3.21111||0.998|TWO_SIDED|95.0|-5.82659|6.76343||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||6.76343|-5.82659|0.998
82477826|NCT03595618|164651039|SUPERIORITY||Adjusted mean difference|4.11756|STANDARD_ERROR_OF_MEAN|3.2759||0.449|TWO_SIDED|95.0|-2.30536|10.54049||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: Placebo minus GLPG1972 dose regimen using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||10.54049|-2.30536|0.449
82500490|NCT01500629|164691743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.961|TWO_SIDED|95.0|-0.85|0.89|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.89|-0.85|0.961
82500491|NCT01500629|164691744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.546|TWO_SIDED|95.0|-0.57|1.04|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||1.04|-0.57|0.546
82500492|NCT02618434|164691766|SUPERIORITY||Median Difference (Net)|-0.56||||0.9383|TWO_SIDED|95.0|-8.96|7.84|||Wilcoxon (Mann-Whitney)|||||7.84|-8.96|0.9383
82500493|NCT02618434|164691767|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.0979|TWO_SIDED|95.0|-0.33|0.03|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.03|-0.33|0.0979
82580791|NCT01081132|164873104|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.465|TWO_SIDED|95.0|-1.8|0.8|||Mixed Models Repeated Measures Analysis|||||0.8|-1.8|0.465
82500494|NCT02618434|164691767|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.126||0.0502|TWO_SIDED|95.0|-0.5|0.0|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.00|-0.50|0.0502
82500495|NCT02618434|164691767|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.141||0.4769|TWO_SIDED|95.0|-0.38|0.18|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.18|-0.38|0.4769
82500496|NCT02618434|164691768|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.113||0.0881|TWO_SIDED|95.0|-0.41|0.03|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.03|-0.41|0.0881
82500497|NCT02618434|164691768|SUPERIORITY||Mean Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.135||0.0522|TWO_SIDED|95.0|-0.53|0.0|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.00|-0.53|0.0522
82500498|NCT02618434|164691768|SUPERIORITY||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.156||0.1766|TWO_SIDED|95.0|-0.52|0.1|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.10|-0.52|0.1766
82500499|NCT02618434|164691769|SUPERIORITY||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|1.613||0.3409|TWO_SIDED|95.0|-1.64|4.72|||ANCOVA|||This analysis pertains to the Physical Functioning Summary Score at Visit 6.||4.72|-1.64|0.3409
82500500|NCT02618434|164691769|SUPERIORITY||Mean Difference (Net)|-2.21|STANDARD_ERROR_OF_MEAN|0.952||0.0215|TWO_SIDED|95.0|-4.08|-0.33|||ANCOVA|||This analysis pertains to the Psychosocial Health Summary Score at Visit 6.||-0.33|-4.08|0.0215
82500501|NCT02618434|164691770|SUPERIORITY||Mean Difference (Net)|-1.06|STANDARD_ERROR_OF_MEAN|2.0||0.5977|TWO_SIDED|95.0|-5.0|2.89|||ANCOVA|||This analysis pertains to the Total Score at Visit 6.||2.89|-5.00|0.5977
82500502|NCT02618434|164691770|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.807||0.8049|TWO_SIDED|95.0|-1.39|1.79|||ANCOVA|||This analysis pertains to the Parental Distress Domain score at Visit 6.||1.79|-1.39|0.8049
82500503|NCT02618434|164691770|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.801||0.8911|TWO_SIDED|95.0|-1.47|1.69|||ANCOVA|||This analysis pertains to the Parent-Child Dysfunctional Interaction score at Visit 6.||1.69|-1.47|0.8911
82500504|NCT02618434|164691770|SUPERIORITY||Mean Difference (Net)|-1.25|STANDARD_ERROR_OF_MEAN|0.849||0.1426|TWO_SIDED|95.0|-2.93|0.42|||ANCOVA|||This analysis pertains to the Difficult Child Domain score Visit 6.||0.42|-2.93|0.1426
82500505|NCT02618434|164691771|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.134||0.6171|TWO_SIDED|95.0|-0.33|0.2|||Mixed Models Analysis|||This analysis pertains to Visit 4||0.20|-0.33|0.6171
82500506|NCT02618434|164691771|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.143||0.0617|TWO_SIDED|95.0|-0.55|0.01|||Mixed Models Analysis|||This analysis pertains to Visit 5||0.01|-0.55|0.0617
82500507|NCT02618434|164691771|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.171||0.4419|TWO_SIDED|95.0|-0.47|0.21|||Mixed Models Analysis|||This analysis pertains to Visit 6||0.21|-0.47|0.4419
82500508|NCT02618434|164691772|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.08||0.0416|TWO_SIDED|95.0|-0.32|-0.01|||ANCOVA|||This analysis pertains to the Inattention subscale at Visit 6.||-0.01|-0.32|0.0416
82500509|NCT02618434|164691772|SUPERIORITY||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.089||0.0921|TWO_SIDED|95.0|-0.33|0.02|||ANCOVA|||This analysis pertains to Hyperactivity/Impulsivity subscale at Visit 6||0.02|-0.33|0.0921
82500510|NCT02618434|164691772|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.448|TWO_SIDED|95.0|-0.26|0.11|||ANCOVA|||This analysis pertains to the Oppositional Defiant Disorder subscale at Visit 6||0.11|-0.26|0.4480
82500511|NCT02618434|164691772|SUPERIORITY||Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.077||0.0457|TWO_SIDED|95.0|-0.31|0.0|||ANCOVA|||This analysis pertains to the Combined Scale score at Visit 6||-0.00|-0.31|0.0457
82500512|NCT02618434|164691773|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8525|TWO_SIDED|95.0|0.58|1.93|||Regression, Logistic|||This analysis pertains to ≥ 30% Responders.||1.93|0.58|0.8525
82500513|NCT02618434|164691773|SUPERIORITY||Odds Ratio (OR)|0.89||||0.6635|TWO_SIDED|95.0|0.52|1.51|||Regression, Logistic|||This analysis pertains to ≥ 50% Responders.||1.51|0.52|0.6635
82500514|NCT02772081|164691779|SUPERIORITY||Adjusted difference|-15.4||||0.39|TWO_SIDED|95.0|-47.9|17.1|||Cochran-Mantel-Haenszel|||First Administration; Treatment comparison. Adjusted difference, its 95% confidence interval (CI) and p-value are estimated using Cochran-Mantel-Haenszel test||17.1|-47.9|0.390
82500515|NCT02772081|164691785|SUPERIORITY||Median Difference (Final Values)|5.0||||0.563|TWO_SIDED|95.0|-13.8|23.8|||Wilcoxon (Mann-Whitney)|||Duration of standalone oxygen supplementation||23.8|-13.8|0.563
82500516|NCT02772081|164691785|SUPERIORITY||Median Difference (Final Values)|1.0||||0.612|TWO_SIDED|95.0|-19.7|21.7|||Wilcoxon (Mann-Whitney)|||Duration of NIV||21.7|-19.7|0.612
82500517|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|-0.619||||0.137|TWO_SIDED|95.0|-1.447|0.21|||Mixed model for repeated measures|||T0, Treatment comparison. The analysis was based on an mixed model for repeated measures (MMRM) with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.210|-1.447|0.137
82500518|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.268||||0.534|TWO_SIDED|95.0|-0.604|1.14|||Mixed model for repeated measures|||5 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.140|-0.604|0.534
82500519|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.27||||0.53|TWO_SIDED|95.0|-0.597|1.136|||Mixed model for repeated measures|||15 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.136|-0.597|0.530
82500520|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.641||||0.091|TWO_SIDED|95.0|-0.108|1.389|||Mixed model for repeated measures|||30 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||1.389|-0.108|0.091
82500521|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.463||||0.04|TWO_SIDED|95.0|0.023|0.903|||Mixed model for repeated measures|||1 hour, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.903|0.023|0.040
82477827|NCT03595618|164651040|SUPERIORITY||Adjusted mean difference|2.84781|STANDARD_ERROR_OF_MEAN|3.75674||0.789|TWO_SIDED|95.0|-4.51643|10.21205||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05)|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||10.21205|-4.51643|0.789
82477828|NCT03595618|164651040|SUPERIORITY||Adjusted mean difference|-3.64759|STANDARD_ERROR_OF_MEAN|3.84747||0.661|TWO_SIDED|95.0|-11.19071|3.89553||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||3.89553|-11.19071|0.661
82477829|NCT03595618|164651040|SUPERIORITY||Adjusted mean difference|-2.55176|STANDARD_ERROR_OF_MEAN|3.81987||0.843|TWO_SIDED|95.0|-10.04053|4.93701||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|Mixed Models Analysis||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: placebo minus GLPG1972 dose regimen using a MMRM including the fixed, categorical effects of treatment, region (Asia and Rest of the World), time and treatment-by-time interaction, as well as the continuous, fixed covariates of baseline and time-by-baseline interaction preceded by a Multiple Imputation step for participants without post-baseline measurement.||4.93701|-10.04053|0.843
82477830|NCT03595618|164651041|SUPERIORITY||Adjusted mean difference|0.0951|STANDARD_ERROR_OF_MEAN|0.0499||0.141|TWO_SIDED|95.0|-0.0028|0.1929||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1929|-0.0028|0.141
82477831|NCT03595618|164651041|SUPERIORITY||Adjusted mean difference|0.0158|STANDARD_ERROR_OF_MEAN|0.0519||0.981|TWO_SIDED|95.0|-0.0861|0.1177||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1177|-0.0861|0.981
82477832|NCT03595618|164651041|SUPERIORITY||Adjusted mean difference|0.0753|STANDARD_ERROR_OF_MEAN|0.0529||0.349|TWO_SIDED|95.0|-0.0286|0.1792||Two-sided adjusted p-value taking into account Dunnett adjustment (to be compared to 0.05).|ANCOVA||Two-sided 95% Confidence Interval of the estimate without Dunnett adjustment.|Estimate (Standard Error) of the adjusted difference from baseline to last post baseline value between treatment groups means: GLPG1972 dose regimen minus placebo using an ANCOVA including the factors treatment and region with baseline as covariate and no interaction, after a Multiple Imputation for missing data.||0.1792|-0.0286|0.349
82477833|NCT02279407|164651047|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.83||||0.046|TWO_SIDED|95.0|0.7|1.0||Hypotheses tested using Dunnett's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons versus a single control (placebo).|Mixed Models Analysis|||||1.00|0.70|0.046
82477834|NCT02279407|164651048|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.91||||0.502|TWO_SIDED|95.0|0.75|1.11||Conditional upon rejection of at least 1 of the 3 hypotheses for the primary analysis, secondary hypotheses are tested using Tukey's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons.|Mixed Models Analysis|||||1.11|0.75|0.502
82477835|NCT02279407|164651048|SUPERIORITY_OR_OTHER||Geometric mean ratio for difference|0.91||||0.562|TWO_SIDED|95.0|0.73|1.13||Conditional upon rejection of at least 1 of the hypotheses for the primary analysis, secondary hypotheses are tested using Tukey's multiple testing procedure with a family-wise error rate of 5%, adjusting for 3 pairwise comparisons.|Mixed Models Analysis|||||1.13|0.73|0.562
82477836|NCT03890666|164651055|OTHER||Odds Ratio (OR)|1.33||||||||||||||The statistical model is a logistic regression model with treatment group as a fixed factor, pooled study sites as a random factor, and baseline ACT score as a covariate.||||
82477837|NCT01105065|164651072|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared, Corrected|||There would be no change in retinal vascular dysregulation after treatment with brimonidine||||<0.0001
82477838|NCT01105065|164651073|SUPERIORITY_OR_OTHER|||||||0.28|||||||paired t-test|||A paired t-test was used to determine if their was a statistically significant difference between the mean deviation of the frequency doubling perimetry in the RVD patients pre and post brimonidine treatment.||||0.28
82477839|NCT01816945|164651085|SUPERIORITY|||||||0.15|||||||Fisher Exact|||||||0.15
82477840|NCT01816945|164651088|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Two-sample t-test for PHQ-9 at 12 months||||0.96
82477841|NCT01816945|164651089|SUPERIORITY|||||||0.043|||||||t-test, 2 sided|||Two-sample t-test for Social Network Score at 12 month||||0.043
82477842|NCT04620798|164651097|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.96|1.07|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.07|0.96|
82580792|NCT01865747|164873112|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.74|||Log Rank|The Log-Rank Test was stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) group and number of prior VEGFR TKIs.||||0.74|0.45|<0.0001
82552366|NCT03785964|164808599|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 27 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||0.006
82552367|NCT03785964|164808600|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
82552368|NCT03785964|164808601|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|An unstructured covariance structure was used and degrees of freedom were estimated using the Kenward-Roger approximation.||Mixed model with repeated measures (MMRM) with treatment and visit as factors, Baseline score and primary tumor location (intra-abdominal or extra-abdominal) as covariates, included baseline by visit and treatment by visit interactions. Only participants with a Baseline and at least one post-baseline score were included in the analysis. 38 and 28 participants contributed to this analysis at Cycle 10 from Nirogacestat and Placebo respectively.||||<0.001
82552369|NCT05651308|164808705|SUPERIORITY||Risk Difference (RD)|0.026||||0.37|TWO_SIDED|95.0|-0.03|0.08|||Chi-squared||Risk difference = Intervention proportion minus control proportion.|||0.08|-0.03|0.37
82552370|NCT03020199|164808720|SUPERIORITY||Odds Ratio (OR)|16.8|||<|0.0001|TWO_SIDED|95.0|5.9|48.3|||Regression, Logistic||Logistic regression model with treatment as an explanatory variable and subset of significant covariates (including Baseline PASI score, age, BMI and their interaction terms with treatment) selected using forward selection method.|Week 52 PASI 90||48.3|5.9|<0.0001
82580793|NCT01865747|164873113|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0003|TWO_SIDED|95.0|0.53|0.83|||Log Rank|The Log-Rank test was stratified by the Memorial Sloan-Kettering Cancer Center (MSKCC) risk group and number of prior VEGFR TKIs.||||0.83|0.53|0.0003
82580794|NCT01865747|164873114|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82580795|NCT03973931|164873115|NON_INFERIORITY|Generalized Estimating Equation (GEE) model with an identity link and independence with unequal variances for the covariance structure of the 12 observations|||||<|0.05|||||||GEE|To account for multiple treatment comparisons significance levels of 0.05/3||||||<0.05
82552371|NCT03020199|164808721|SUPERIORITY||Odds Ratio (OR)|0.8||||0.653|TWO_SIDED|95.0|0.3|2.1|||Regression, Logistic||Exact logistic regression method for Treatment group comparison, without using any covariates.|Week 104 PASI 90||2.1|0.3|0.6530
82552372|NCT04447469|164808732|SUPERIORITY||Odds Ratio (OR)|2.069||||0.2598|TWO_SIDED|95.0|0.555|8.615||P-value and odds ratio were calculated using Fisher's Exact test.|Fisher Exact|||||8.615|0.555|0.2598
82552373|NCT04447469|164808732|SUPERIORITY||Odds Ratio (OR)|2.414||||0.161|TWO_SIDED|95.0|0.653|9.957||P-value and odds ratio were calculated using Fisher's Exact test.|Fisher Exact|||||9.957|0.653|0.1610
82580796|NCT03973931|164873116|NON_INFERIORITY|Analysis of the longitudinal data (12 observations per patient) and estimated absolute differences in PDC between treatment group and usual care was analyzed using Generalized Estimating Equation (GEE) model with an identity link and independence with unequal variances for the covariance structure was used.|||||<|0.05||||||To account for multiple treatment comparisons significance levels of 0.05/3, and if any test was significant, a significance level of (R/3)\*(0.05/3) using the Holm method was used for the 3 pairwise comparisons, R=number of significant stage 1 tests.|GEE|||||||<0.05
82580797|NCT02516332|164873124|OTHER|||||||0.038|||||||ANCOVA|||||||0.038
82580798|NCT02516332|164873124|OTHER|||||||0.002|||||||ANCOVA|||||||0.002
82580799|NCT02516332|164873129|OTHER|||||||0.011|||||||Regression, Linear|||||||0.011
82580800|NCT02516332|164873129|OTHER|||||||0.036|||||||Regression, Linear|||||||0.036
82580801|NCT00452426|164873142|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED||||||ANOVA|||||||0.028
82580802|NCT00452426|164873144|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANOVA|||||||0.007
82580803|NCT00452426|164873145|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82580804|NCT03541174|164873147|SUPERIORITY||LS Mean difference to placebo|-3.79||||0.0042|TWO_SIDED|97.5|-6.76|-0.82||Mixed effects model for Repeated Measures: Change from baseline in SiSBP = baseline SiSBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-0.82|-6.76|0.0042
82580805|NCT03541174|164873147|SUPERIORITY||LS Mean difference to placebo|-3.73||||0.0046|TWO_SIDED|97.5|-6.67|-0.78||Mixed effects model for Repeated Measures: Change from baseline in SiSBP = baseline SiSBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-0.78|-6.67|0.0046
82580806|NCT03541174|164873148|SUPERIORITY||LS mean difference to placebo.|-5.82|||<|0.0001|TWO_SIDED|95.0|-7.94|-3.71||Mixed effects model for Repeated Measures: Change from DB-WD baseline in SiSBP = DB-WD baseline SiSBP + stratum (randomized treatment in DB part) + treatment + visit + treatment x visit + DB-WD baseline x visit.|Mixed Models Analysis|||||-3.71|-7.94|<0.0001
82580807|NCT03541174|164873149|OTHER||LS Mean difference to placebo|-3.94|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.31||Mixed effects model for Repeated Measures: Change from baseline in SiDBP = baseline SiDBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-2.31|-5.57|<0.0001
82580808|NCT03541174|164873149|OTHER||LS Mean difference to placebo|-4.47|||<|0.0001|TWO_SIDED|95.0|-6.09|-2.85||Mixed effects model for Repeated Measures: Change from baseline in SiDBP = baseline SiDBP + treatment + visit + treatment x visit + baseline x visit.|Mixed Models Analysis|||||-2.85|-6.09|<0.0001
82552374|NCT04447469|164808732|SUPERIORITY||Stratified Odds Ratio|2.091||||0.2448|TWO_SIDED|95.0|0.612|7.144||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||7.144|0.612|0.2448
82552375|NCT04447469|164808732|SUPERIORITY||Stratified Odds Ratio|2.749||||0.1378|TWO_SIDED|95.0|0.756|9.993||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||9.993|0.756|0.1378
82477843|NCT04620798|164651097|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.77|1.44|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.44|0.77|
82477844|NCT04620798|164651098|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.89|1.1|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.10|0.89|
82477845|NCT04620798|164651098|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.5|1.62|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.62|0.50|
82477846|NCT04620798|164651099|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.96|1.06|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.06|0.96|
82477847|NCT04620798|164651099|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.74|1.31|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.31|0.74|
82477848|NCT04620798|164651100|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.84|1.09|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.09|0.84|
82477849|NCT04620798|164651100|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.33|1.72|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.72|0.33|
82477850|NCT04620798|164651101|SUPERIORITY||Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.74|1.04|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.04|0.74|
82477851|NCT04620798|164651101|SUPERIORITY||Risk Ratio (RR)|1.4|||||TWO_SIDED|95.0|0.6|3.25|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||3.25|0.60|
82477852|NCT04620798|164651102|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.99|1.03|||||"This analysis compares the probability of a response of Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.03|0.99|
82552376|NCT04447469|164808733|SUPERIORITY||Stratified Odds Ratio|1.231||||0.4534|TWO_SIDED|95.0|0.715|2.12||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||2.120|0.715|0.4534
82552377|NCT04447469|164808733|SUPERIORITY||Stratified Odds Ratio|1.097||||0.7414|TWO_SIDED|95.0|0.636|1.891||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.891|0.636|0.7414
82552378|NCT04447469|164808734|SUPERIORITY||Odds Ratio (OR)|0.984||||1|TWO_SIDED|95.0|0.198|4.884|||Fisher Exact|||||4.884|0.198|1.0000
82552379|NCT04447469|164808734|SUPERIORITY||Odds Ratio (OR)|1.286||||1|TWO_SIDED|95.0|0.26|6.417|||Fisher Exact|||||6.417|0.260|1.0000
82552380|NCT04447469|164808735|SUPERIORITY||Difference in Proportion|-15.0|||||TWO_SIDED|95.0|-45.6|15.6|||||95% CI were calculated using asymptotic normal approximation. Difference = KPL-301 - placebo.|||15.6|-45.6|
82477853|NCT04620798|164651102|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.77|1.21|||||"This analysis compares the probability of a response of Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.21|0.77|
82477854|NCT04620798|164651103|SUPERIORITY||Risk Ratio (RR)|1.01|||||TWO_SIDED|95.0|0.97|1.06|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.06|0.97|
82477855|NCT04620798|164651103|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.6|1.11|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.11|0.60|
82477856|NCT04620798|164651104|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.04|||||"This analysis compares the probability of responding Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.04|0.97|
82477857|NCT04620798|164651104|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.74|1.12|||||"This analysis compares the probability of a response of Very Often/Always vs. all other response categories. The reference group for this analysis was the control (delayed results) group."|This analysis uses only those participants with a positive antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and behavioral outcomes. The reference group for this analysis was the control (delayed results) group.||1.12|0.74|
82477858|NCT04620798|164651105|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.52|1.71|||||This analysis compares the probability of seroconverting during the study period. The reference group for this analysis was the control (delayed results) group.|This analysis includes only those participants with a negative antibody test result at baseline to test the association between the treatment condition (immediate vs. delayed test results) and seroconversion. The reference group for this analysis was the control (delayed results) group.||1.71|0.52|
82477859|NCT01960907|164651106|SUPERIORITY_OR_OTHER|||||||0.342|||||||Log Rank|||||||0.342
82477860|NCT01960907|164651107|SUPERIORITY_OR_OTHER|||||||0.915|||||||t-test, 2 sided|||||||0.915
82477861|NCT01960907|164651108|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||||||0.038
82477862|NCT02034409|164651146|NON_INFERIORITY|For the 48-week OMERACT-OARSI response the minimally clinically significant difference is an absolute rate difference of 10% between sham and PLIUS groups. With a total sample size of 144 the probability of correctly selecting the group with the greatest OORR is at least 0.885 assuming (δ=10%) that the sham group is drawn from a population with a 50% response rate and the PLIUS group is drawn from a population with response rate of at least 60% or at most 40%.||||||||||||||||Sample size has been calculated with ranking and selection methodology, a procedure used for Phase II trials. The purpose of the procedure as applied to this study is to identify whether PLIUS has a high probability of being more effective than sham. This is accomplished by obtaining sample estimates of the outcome for the PLIUS and sham groups and determining whether the PLIUS group outcome is better by the pre-specified margin of difference.|Since the ranking and selection procedures are fundamentally different from traditional hypothesis testing, concepts of statistical significance and power have no direct analogue.|||
82477863|NCT02034409|164651147|NON_INFERIORITY|For the 48-week cartilage change outcome measure the minimally clinically significant difference is 33 μm. With a difference of 33 μm, σ=152 μm standard deviation, k=2 groups, and P=0.90 probability to obtain τ=1.8124, which we use to estimate the per-group sample size: n=σ2(τ/δ\*)2=72 or a total of 144.||||||||||||||||Sample size has been calculated with ranking and selection methodology, a procedure used for Phase II trials. The purpose of the procedure as applied to this study is to identify whether PLIUS has a high probability of being more effective than sham. This is accomplished by obtaining sample estimates of the outcome for the PLIUS and sham groups and determining whether the PLIUS group outcome is better by the pre-specified margin of difference.|Since the ranking and selection procedures are fundamentally different from traditional hypothesis testing, concepts of statistical significance and power have no direct analogue.|||
82477864|NCT00934843|164651158|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.35|TWO_SIDED|95.0|0.45|1.33|||Multivariate risk computation|||The current study was designed with an anticipated enrollment of 87 patients per treatment arm to achieve a statistical power of 80% (1- β) while controlling type I error at 0.05 (α) using a more conservative estimate of LCOS rate in the Single Dose MP group of 33%, and an incidence of LCOS in the Two Dose MP group of 15%.||1.33|0.45|0.35
82477865|NCT00934843|164651159|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||A repeated measures analysis of variance framework was used for longitudinal analysis of inotrope score. In order to identify potential confounding variables, a variable was considered a relevant covariate and added into the model with a p ≤ 0.15.|ANCOVA|||||||0.43
82552381|NCT04447469|164808735|SUPERIORITY||Difference in Proportions|-27.7|||||TWO_SIDED|95.0|-56.4|0.9|||||95% CI were calculated using asymptotic normal approximation. Difference = KPL-301 - Placebo .|||0.9|-56.4|
82477866|NCT00934843|164651161|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||Analysis of variance/covariance models were used to test both unadjusted and multivariable relationships between treatment groups for diuresis.|ANCOVA|||||||0.052
82552382|NCT04447469|164808736|SUPERIORITY|||||||0.6229||||||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank|||||||0.6229
82552383|NCT04447469|164808736|SUPERIORITY|||||||0.5526||||||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank|||||||0.5526
82477867|NCT00934843|164651162|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||ANCOVA|Analysis of variance/covariance models were used to test both unadjusted and multivariable relationships between treatment groups for diuresis.||||||0.047
82477868|NCT01122264|164651212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.66|||<|0.001|TWO_SIDED|97.3|0.51|0.85||P-value: Tadalafil Once a Day versus Sildenafil Citrate On Demand treatment groups. Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||0.85|0.51|<0.001
82477869|NCT01122264|164651212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.49|||<|0.001|TWO_SIDED|97.3|0.37|0.65||P-value: Tadalafil On Demand versus Sildenafil Citrate On Demand treatment groups. Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||0.65|0.37|<0.001
82477870|NCT01122264|164651212|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.32||||0.033|TWO_SIDED|95.0|1.02|1.71||P-value: Tadalafil On Demand versus Tadalafil Once a Day treatment groups using Cox's proportional hazards model with factors for randomized treatment group, baseline International Index of Erectile Function-Erectile Function score, and country.|Regression, Cox|||||1.71|1.02|0.033
82477871|NCT02558829|164651230|OTHER|Positive percent agreement \[%\] = 100% x A/(A+C). A= MAC outcome positive and ITT outcome positive; C = MAC outcome negative and ITT positive|CI (Clopper Pearson): positive agreement|74.32|||||TWO_SIDED|95.0|62.84|83.78||||||The estimated percentages of the agreements and the two-sided 95% confidence interval (or one-sided 97.5% confidence interval) of the percent agreement based on Clopper-Pearson are presented. The performance of the MAC (cut-off point 2.8 ng/mL) was considered to be acceptable if the lower bound of the two-sided 95% CI (or lower bound of the one-sided 97.5% CI) was 75% or higher for 'percent negative agreement', and 70% or higher for the 'percent positive agreement'.||83.78|62.84|
82552384|NCT04447469|164808737|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9426|TWO_SIDED|80.0|0.71|1.46||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|||1.46|0.71|0.9426
82477872|NCT02558829|164651230|OTHER|Negative percent agreement \[%\] = 100% x D/(B+D). D = MAC outcome negative and ITT outcome negative; B = MAC outcome positive and ITT outcome negative|CI (Clopper Pearson): negative agreement|93.94|||||TWO_SIDED|95.0|85.2|98.32||||||Please refer to Statistical Analysis 1.||98.32|85.20|
82477873|NCT02558829|164651231|OTHER|The secondary diagnostic accuracy measure was 'percent overall agreement'.|overall agreement|83.57|||||TWO_SIDED|95.0|76.38|89.29||||||This variable was analyzed using the same methodology described for the analyses for the primary efficacy variables. in the below, the results for Step 1 (peak GH level among all post baseline samples) are presented.||89.29|76.38|
82477874|NCT02558829|164651233|OTHER||Mean Difference (Final Values)|-2.9|STANDARD_DEVIATION|6.38|||TWO_SIDED|||||||||"Pre/post dose comparison of ECGs was done for both GHSTs. During the GHSTs, ECGs were measured at pre-dose (up to 15 min before) and 60 minutes post-dose. Furthermore, ECGs were measured at screening and at End-of-Study (EOS) Visit.~Calculations were done from two time points: baseline and 60 min post-dose. Baseline is either the screening or pre-dose value."||||
82477875|NCT02558829|164651233|OTHER|Please refer to Statistical Analysis 1 for this secondary outcome measure.|Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|8.15|||TWO_SIDED|||||||||||||
82477876|NCT02558829|164651234|OTHER|Sensitivity is the probability that the test result is positive given the subject has the disease (for the purpose of this analysis, all group A subjects were assumed to have AGHD, but none of the group D subjects). Sensitivity (SS) was estimated by: SS = TP/(TP+FN). TP=True AGHD positive subject; FN=False AGHD negative subject.|CI (Clopper Pearson)|0.87|||||TWO_SIDED|95.0|0.72|0.96||||||Sensitivity was estimated for the MAC at the pre-defined cut-off point GH: 2.8 ng/mL.||0.96|0.72|
82552385|NCT04447469|164808737|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.6838|TWO_SIDED|80.0|0.78|1.57||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy, age, and ARDS status).|||1.57|0.78|0.6838
82552386|NCT04447469|164808738|SUPERIORITY||Odds Ratio (OR)|0.235||||0.0905|TWO_SIDED|95.0|0.023|1.328|||Fisher Exact|||||1.328|0.023|0.0905
82552387|NCT04447469|164808738|SUPERIORITY||Odds Ratio (OR)|0.431||||0.2247|TWO_SIDED|95.0|0.087|1.815|||Fisher Exact|||||1.815|0.087|0.2247
82552388|NCT04447469|164808738|SUPERIORITY||Stratified Odds Ratio|0.191||||0.0623|TWO_SIDED|95.0|0.033|1.114||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||1.114|0.033|0.0623
82552389|NCT04447469|164808738|SUPERIORITY||Stratified Odds Ratio|0.368||||0.1957|TWO_SIDED|95.0|0.085|1.583||P-value and odds ratio were calculated using Cochran Mantel-Haenszel (CMH) test, stratified by randomization strata (standard of care antiretroviral therapy, age, and ARDS status).|Cochran-Mantel-Haenszel|||||1.583|0.085|0.1957
82552390|NCT04447469|164808739|SUPERIORITY||Hazard Ratio (HR)|1.57||||0.3766|TWO_SIDED|80.0|0.8|3.09||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, and age).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy and age).|||3.09|0.80|0.3766
82552391|NCT04447469|164808739|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9209|TWO_SIDED|80.0|0.51|2.16||Log-rank test is stratified by randomization strata (Standard of Care antiretroviral therapy, and age).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (Standard of Care antiretroviral therapy and age).|||2.16|0.51|0.9209
82552392|NCT04447469|164808740|SUPERIORITY||Stratified Odds Ratio|0.645||||0.1772|TWO_SIDED|95.0|0.34|1.222||Calculated using Cochran Mantel-Haenszel test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.222|0.340|0.1772
82477877|NCT02558829|164651234|OTHER|"Specificity is the probability that the test result is negative given the subject does not have the disease.~Specificity (SP) was estimated by: SP = TN/(TN+FP). TN = True AGHD negative Subjects; FP = False AGHD positive subjects."|CI (Clopper Pearson)|0.96|||||TWO_SIDED|95.0|0.8|1.0||||||Specificity was estimated for the MAC at the pre-defined cut-off point GH: 2.8 ng/mL.||1.00|0.80|
82477878|NCT02558829|164651235|OTHER|Positive percent agreement \[%\] = 100% x A/(A+C). A= test outcome positive for MAC core study part and positive for MAC repeatability extension; C = test outcome positive for MAC core study part and negative for MAC repeatability extension.|CI (Clopper Pearson): positive agreement|88.89|||||TWO_SIDED|95.0|65.29|98.62||||||Please refer to Statistical Analysis 1 for this outcome.||98.62|65.29|
82477879|NCT02558829|164651235|OTHER|Negative percent agreement \[%\] = 100% x D/(B+D). D = test outcome negative for MAC core study part and negative for MAC repeatability extension; B = test outcome negative for MAC core study part and positive for MAC repeatability extension|CI (Clopper Pearson): negative agreement|100.0|||||TWO_SIDED|95.0|79.41|100.0||||||Amendment no 1 had been issued for selected sites in Europe to obtain exploratory data on the repeatability of the MAC in a subset of subjects that had completed the core study.||100.00|79.41|
82477880|NCT00097981|164651236|SUPERIORITY_OR_OTHER|||||||0.49|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Index (IPI) stage 1,2 and 3||||||0.49
82477881|NCT00097981|164651237|SUPERIORITY_OR_OTHER|||||||0.42|||||||Cochran-Mantel-Haenszel|Stratified by International Prognostic Index (IPI) stage 1,2 and 3||||||0.42
82477882|NCT00097981|164651238|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Log Rank|||||||0.42
82477883|NCT00097981|164651239|SUPERIORITY_OR_OTHER|||||||0.5162||95.0|||||Log Rank|||||||0.5162
82477884|NCT00097981|164651240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.93|TWO_SIDED|95.0|0.529|1.797|||Log Rank|Stratified log-rank test||||1.797|0.529|0.93
82477885|NCT00412373|164651243|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.6||0.774||95.0|-2.7|3.7|||ANOVA|P-value based on the actual value and was from an ANOVA model with fixed effects for treatment, concomitant medication stratum, and country.|Paliperidone Extended Release (ER) - Placebo on the Actual Score.|||3.7|-2.7|0.774
82477886|NCT00412373|164651244|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|2.3|<|0.001||95.0|-13.8|-4.9|||ANCOVA|P-values are from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-4.9|-13.8|<0.001
82477887|NCT00412373|164651245|SUPERIORITY_OR_OTHER||LS Means Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|-4.4|-1.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.2|-4.4|<0.001
82477888|NCT00412373|164651246|SUPERIORITY_OR_OTHER||LS Means Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.1|-0.8|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.8|-3.1|<0.001
82477889|NCT00412373|164651247|SUPERIORITY_OR_OTHER||LS Means Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.8|-2.3|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-2.3|-6.8|<0.001
82477890|NCT00412373|164651248|SUPERIORITY_OR_OTHER||LS Means Difference|-2.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|-4.2|-1.1|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.1|-4.2|<0.001
82552393|NCT04447469|164808740|SUPERIORITY||Stratified Odds Ratio|1.029||||0.9269|TWO_SIDED|95.0|0.563|1.881||Calculated using Cochran Mantel-Haenszel test, stratified by randomization strata (age and ARDS status).|Cochran-Mantel-Haenszel|||||1.881|0.563|0.9269
82552394|NCT04447469|164808741|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9578|TWO_SIDED|95.0|0.66|1.49||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age and ARDS status).|||1.49|0.66|0.9578
82552395|NCT04447469|164808741|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5274|TWO_SIDED|95.0|0.76|1.7||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age and ARDS status).|||1.70|0.76|0.5274
82552396|NCT04447469|164808742|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.1336|TWO_SIDED|95.0|0.36|1.15||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age, and ARDS status).|||1.15|0.36|0.1336
82552397|NCT04447469|164808742|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9767|TWO_SIDED|95.0|0.59|1.72||Log-rank test is stratified by randomization strata (age, and ARDS status).|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata ( age, and ARDS status).|||1.72|0.59|0.9767
82552398|NCT04447469|164808743|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.55|3.71|||||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age).|||3.71|0.55|
82552399|NCT04447469|164808743|SUPERIORITY||Hazard Ratio (HR)|1.88|||||TWO_SIDED|95.0|0.78|4.54|||||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by randomization strata (age).|||4.54|0.78|
82477891|NCT00412373|164651249|SUPERIORITY_OR_OTHER||LS Means Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.3|-0.9|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.9|-3.3|<0.001
82477892|NCT00412373|164651250|SUPERIORITY_OR_OTHER||LS Means Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.5|<|0.001||95.0|-2.9|-0.9|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.9|-2.9|<0.001
82477893|NCT00412373|164651251|SUPERIORITY_OR_OTHER||LS Means Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.5||0.001||95.0|-2.6|-0.6|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.6|-2.6|0.001
82552400|NCT02714257|164808744|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.43|TWO_SIDED|95.0|0.74|1.14|||Regression, Cox||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.14|0.74|0.43
82477894|NCT00412373|164651252|SUPERIORITY_OR_OTHER||LS Means Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.016||95.0|-1.8|-0.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.2|-1.8|0.016
82477895|NCT00412373|164651254|SUPERIORITY_OR_OTHER||LS Means Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1||0.002||95.0|-0.7|-0.2|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-0.2|-0.7|0.002
82477896|NCT00412373|164651255|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-0.9|-0.3|||ANOVA|P-value is from an ANOVA model with fixed effects for treatment, concomitant medication stratum, and country.||||-0.3|-0.9|<0.001
82477897|NCT00412373|164651256|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Cochran-Mantel-Haenszel|P-value based on Cochran-Mantel-Haenszel (CMH) chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.046
82477898|NCT00412373|164651258|SUPERIORITY_OR_OTHER||LS Means Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.4|-1.7|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-1.7|-6.4|<0.001
82477899|NCT00412373|164651260|SUPERIORITY_OR_OTHER||LS Means Difference|-4.8|STANDARD_ERROR_OF_MEAN|1.5||0.001||95.0|-7.7|-2.0|||ANCOVA|P-value is from an ANCOVA model with fixed effects for treatment, concomitant medication stratum, and country, and with baseline value as a covariate.|Paliperidone Extended Release (ER) - Placebo on the Change Scores.|||-2.0|-7.7|0.001
82500522|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.166||||0.532|TWO_SIDED|95.0|-0.371|0.703|||Mixed model for repeated measures|||6 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.703|-0.371|0.532
82500523|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.048||||0.877|TWO_SIDED|95.0|-0.578|0.674|||Mixed model for repeated measures|||12 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.674|-0.578|0.877
82500524|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.244||||0.356|TWO_SIDED|95.0|-0.289|0.776|||Mixed model for repeated measures|||24 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.776|-0.289|0.356
82500525|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.303||||0.258|TWO_SIDED|95.0|-0.235|0.841|||Mixed model for repeated measures|||48 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.841|-0.235|0.258
82500526|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|0.022||||0.945|TWO_SIDED|95.0|-0.616|0.66|||Mixed model for repeated measures|||72 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.660|-0.616|0.945
82500527|NCT02772081|164691788|SUPERIORITY||Adjusted mean difference|-0.075||||0.766|TWO_SIDED|95.0|-0.586|0.436|||Mixed model for repeated measures|||120 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2/FiO2 as a covariate.||0.436|-0.586|0.766
82500528|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|0.051||||0.59|TWO_SIDED|95.0|-0.141|0.243|||Mixed model for repeated measures|||T0, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.243|-0.141|0.590
82500529|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.051||||0.511|TWO_SIDED|95.0|-0.21|0.107|||Mixed model for repeated measures|||5 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.107|-0.210|0.511
82500530|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.05||||0.488|TWO_SIDED|95.0|-0.196|0.096|||Mixed model for repeated measures|||15 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.096|-0.196|0.488
82500531|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.11||||0.091|TWO_SIDED|95.0|-0.239|0.019|||Mixed model for repeated measures|||30 min, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.019|-0.239|0.091
82500532|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.024||||0.344|TWO_SIDED|95.0|-0.076|0.027|||Mixed model for repeated measures|||1 hour, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.027|-0.076|0.344
82500533|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.026||||0.376|TWO_SIDED|95.0|-0.084|0.033|||Mixed model for repeated measures|||6 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.033|-0.084|0.376
82500534|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.04||||0.396|TWO_SIDED|95.0|-0.135|0.055|||Mixed model for repeated measures|||12 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.055|-0.135|0.396
82500535|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.026||||0.268|TWO_SIDED|95.0|-0.074|0.021|||Mixed model for repeated measures|||24 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.021|-0.074|0.268
82500536|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.037||||0.147|TWO_SIDED|95.0|-0.089|0.014|||Mixed model for repeated measures|||48 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.014|-0.089|0.147
82552401|NCT02714257|164808745|SUPERIORITY||Incidence Rate Ratio|1.06||||0.5|TWO_SIDED|95.0|0.89|1.28|||Regression, Negative Binomial||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.28|0.89|0.50
82552402|NCT02714257|164808746|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3|TWO_SIDED|95.0|0.72|1.11|||Regression, Logistic|||||1.11|0.72|0.30
82552403|NCT02714257|164808747|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.01|TWO_SIDED|95.0|0.16|0.92|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.92|0.16|<0.01
82552404|NCT02714257|164808748|SUPERIORITY||Odds Ratio (OR)|1.04||||0.73|TWO_SIDED|95.0|0.85|1.27|||Regression, Logistic||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||1.27|0.85|0.73
82552405|NCT02714257|164808749|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.27|TWO_SIDED|95.0|-0.18|0.62|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.62|-0.18|0.27
82552406|NCT02714257|164808750|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.37|TWO_SIDED|95.0|-0.13|0.34|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.34|-0.13|0.37
82552407|NCT02714257|164808751|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.26|TWO_SIDED|95.0|-0.1|0.38|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.38|-0.10|0.26
82552408|NCT02714257|164808752|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.39|TWO_SIDED|95.0|-0.09|0.22|||Mixed Models Analysis||Enhanced Usual Care - control group vs. Enhanced Usual Care plus Exercise Coaching Intervention|||0.22|-0.09|0.39
82552409|NCT05698875|164808807|OTHER||Fixed effects parameter|1.0||||0.12|TWO_SIDED|95.0|0.1|1.9||P=0.04 however was adjusted using the Bonferroni correction The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs control meals||1.9|0.1|0.12
82580809|NCT03541174|164873150|OTHER||LS Mean difference to placebo|-4.18|||<|0.0001|TWO_SIDED|95.0|-6.25|-2.12|||ANCOVA|||24-hour mean systolic (SBP)||-2.12|-6.25|<0.0001
82580810|NCT03541174|164873150|OTHER||LS Mean difference to placebo|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.94|-3.85|||ANCOVA|||24-hour mean systolic (SBP)||-3.85|-7.94|<0.0001
82552410|NCT05698875|164808807|OTHER||Fixed effects parameter|-0.58||||0.23|TWO_SIDED|95.0|-1.5|0.4||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP vs control meal||0.4|-1.5|0.23
82552411|NCT05698875|164808807|OTHER||Fixed effects parameter|0.24||||0.62|TWO_SIDED|95.0|-0.7|1.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL vs control meal||1.2|-0.7|0.62
82552412|NCT05698875|164808807|OTHER||Fixed effects parameter|1.6||||0.003|TWO_SIDED|95.0|0.7|2.5||Above is adjusted p value using Bonferroni correction. The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs HGLP||2.5|0.7|0.003
82552413|NCT05698875|164808807|OTHER||Fixed effects parameter|0.82||||0.08|TWO_SIDED|95.0|-0.1|1.7||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs MGL meals||1.7|-0.1|0.08
82552414|NCT05698875|164808807|OTHER||Fixed effects parameter|-0.8||||0.12|TWO_SIDED|95.0|-1.7|0.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.2|-1.7|0.12
82552415|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|0.835||||0.08|TWO_SIDED|95.0|-0.1|1.8||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL vs control meals||1.8|-0.1|0.08
82552416|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|-0.7||||0.13|TWO_SIDED|95.0|-1.7|0.2||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meal vs control meal||0.2|-1.7|0.13
82552417|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|-0.2||||0.68|TWO_SIDED|95.0|-1.2|0.8||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||0.8|-1.2|0.68
82552418|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|1.6|||<|0.01|TWO_SIDED|95.0|0.7|2.5||The a priori threshold for statistical significance p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||2.5|0.7|<0.01
82552419|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|1.1||||0.06|TWO_SIDED|95.0|0.2|2.0||The a priori threshold for statistical significance p\<0.05 p value adjusted with the Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||2.0|0.2|0.06
82552420|NCT05698875|164808808|OTHER||Mean Difference (Final Values)|-0.5||||0.29|TWO_SIDED|95.0|-1.4|0.4||a priori threshold for statistical significance - P\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.4|-1.4|0.29
82552421|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|1.9|||<|0.01|TWO_SIDED|95.0|0.8|3.0||The a priori threshold for statistical significance p\<0.05 Adjusted p value with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||3.0|0.8|<0.01
82552422|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|-0.3||||0.59|TWO_SIDED|95.0|-1.4|0.8||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.8|-1.4|0.59
82580811|NCT03541174|164873150|OTHER||LS Mean difference to placebo|-4.32|||<|0.0001|TWO_SIDED|95.0|-5.66|-2.98|||ANCOVA|||24-hour mean diastolic (DBP)||-2.98|-5.66|<0.0001
82580812|NCT03541174|164873150|OTHER||LS Mean|-5.81|||<|0.0001|TWO_SIDED|95.0|-7.14|-4.49|||ANCOVA|||24-hour mean diastolic (DBP)||-4.49|-7.14|<0.0001
82580813|NCT03541174|164873151|OTHER||LS Mean difference to placebo|-5.19|||<|0.0001|TWO_SIDED|95.0|-6.62|-3.76||Mixed effects model for Repeated Measures: Change from DB-WD baseline in SiDBP = Double-blind withdrawal baseline SiDBP + stratum (randomized treatment in DB part) + treatment + visit + treatment x visit + Double-blind withdrawal baseline x visit.|Mixed Models Analysis|||||-3.76|-6.62|<0.0001
82580814|NCT03541174|164873152|OTHER||LS Mean difference to placebo|-6.53|||<|0.0001|TWO_SIDED|95.0|-8.5|-4.56|||ANCOVA|||24-hour mean systolic (SBP)||-4.56|-8.50|<0.0001
82580815|NCT03541174|164873152|OTHER||LSM Mean difference to placebo|-6.75|||<|0.0001|TWO_SIDED|95.0|-7.98|-5.52|||ANCOVA|||24-hour mean diastolic (DBP)||-5.52|-7.98|<0.0001
82580816|NCT00605215|164873153|OTHER||Risk Ratio (RR)|0.823|STANDARD_ERROR_OF_MEAN|0.09||0.0746|TWO_SIDED|95.0|0.664|1.02||Threshold for significance at 0.05 level.|Negative Binomial Regression|||Analysis was performed using baseline-adjusted negative binomial regression, where a participant's number of relapses during the double-blind, placebo-controlled phase served as the response variable and an offset based on the log of participant's exposure in years was employed to adjust for variability of treatment exposure. The model included baseline EDSS score, log of (prior 2-year number of relapses+1) and CGR as covariates.||1.020|0.664|0.0746
82477900|NCT03859973|164651346|OTHER||Mean Difference (Net)|-0.866||||0.3101|TWO_SIDED|95.0|-2.605|0.833|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (screening, baseline, week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group, and continuous covariate of change from screening to baseline value.||0.833|-2.605|0.3101
82477901|NCT03859973|164651347|OTHER||Mean Difference (Net)|-1.051||||0.2309|TWO_SIDED|95.0|-2.778|0.676|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (screening, baseline, week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group, and continuous covariate of change from screening to baseline value.||0.676|-2.778|0.2309
82477902|NCT03859973|164651348|OTHER||Mean Difference (Net)|0.577||||0.5237|TWO_SIDED|95.0|-1.207|2.362|||ANCOVA||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Analysis of Covariance (ANCOVA) which included the following fixed effects: categorical factor of planned treatment, continuous covariate of baseline value, categorical factor of age group.||2.362|-1.207|0.5237
82477903|NCT03859973|164651349|OTHER||Mean Difference (Net)|-0.669||||0.642|TWO_SIDED|95.0|-3.51|2.172|||Mixed Models Analysis||Least Square Mean of (BI 425809 10 mg + Computerized Cognitive Training) - Least Square Mean of (Placebo + Computerized Cognitive Training)|Restricted maximum likelihood (REML) based approach using a mixed model with repeated measurements (MMRM) which included the following fixed effects: categorical factor of planned treatment, visit (baseline, Week 6 and Week 12), planned treatment by visit interaction, continuous covariate of baseline value, baseline by visit interaction, categorical factor of age group.||2.172|-3.510|0.6420
82477904|NCT00864916|164651407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.52|||||||Regression, Linear|||||||0.52
82477905|NCT00422084|164651408|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the PCR-corrected ACPR response rate at Day 28 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction) and a 5% non-inferiority margin. Non-inferiority was demonstrated if the lower limit of the CI for the difference \>-5%.|ACPR percent difference|0.3||||0.578|TWO_SIDED|95.0|-0.7|1.8||If non-inferiority of PA is demonstrated, the p-value associated with a superiority test was calculated based on a 2-sided Chi-square test. If the calculated p-value is \<5%, then the superiority of PA compared to AL is statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (AL) by more than 5%.~Was tested versus the alternative:~Alternative hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (AL) by more than -5%."||1.8|-0.7|0.578
82477906|NCT03996369|164651442|SUPERIORITY||Risk Difference (RD)|9.69|||=|0.026|TWO_SIDED|95.0|1.14|18.23|||Cochran-Mantel-Haenszel|||Week 12||18.23|1.14|=0.026
82477907|NCT03996369|164651443|SUPERIORITY||Risk Difference (RD)|12.11|||=|0.009|TWO_SIDED|95.0|3.0|21.23|||Cochran-Mantel-Haenszel|||Week 12||21.23|3.00|=0.009
82552423|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|-0.1||||0.86|TWO_SIDED|95.0|-1.2|1.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.0|-1.2|0.86
82552424|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.2|3.3||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs HGLP meals||3.3|1.2|<0.001
82552425|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|2.1|||<|0.001|TWO_SIDED|95.0|1.1|3.1||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction did not alter p value|Linear Mixed Model|||HGL vs MGL meals||3.1|1.1|<0.001
82552426|NCT05698875|164808809|OTHER||Mean Difference (Final Values)|-0.1||||0.79|TWO_SIDED|95.0|-1.2|0.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||0.9|-1.2|0.79
82552427|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|-8.5||||0.31|TWO_SIDED|95.0|-25.0|8.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGL meals vs control meals||8|-25|0.31
82552428|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|-24.4||||0.03|TWO_SIDED|95.0|-41.0|-8.0||A priori threshold for statistical significance is p\<0.05 P adjusted using Bonferroni correction|Linear Mixed Model|||HGLP meals vs control meals||-8|-41|0.03
82552429|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|12.7||||0.14|TWO_SIDED|95.0|-4.1|29.5||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||29.5|-4.1|0.14
82552430|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|17.0||||0.34|TWO_SIDED|95.0|3.1|31.7||A priori threshold P \<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||31.7|3.1|0.34
82477908|NCT03996369|164651444|SUPERIORITY||Risk Difference (RD)|17.48|||=|0.001|TWO_SIDED|95.0|6.81|28.15|||Cochran-Mantel-Haenszel|||Week 12||28.15|6.81|=0.001
82477909|NCT03996369|164651445|SUPERIORITY||Risk Difference (RD)|7.44|||=|0.036|TWO_SIDED|95.0|0.5|14.39|||Cochran-Mantel-Haenszel|||Week 12||14.39|0.50|=0.036
82552431|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|-19.0||||0.07|TWO_SIDED|95.0|-33.3|-4.7||A priori threshold for statistical significance is p\<0.05 Adjusted P value with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||-4.7|-33.3|0.07
82477910|NCT03996369|164651446|SUPERIORITY||Risk Difference (RD)|21.23|||<|0.001|TWO_SIDED|95.0|10.18|32.29|||Cochran-Mantel-Haenszel|||Week 12||32.29|10.18|<0.001
82552432|NCT05698875|164808810|OTHER||Mean Difference (Final Values)|-36.4|||<|0.001|TWO_SIDED|95.0|-51.0|-21.8||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGLP vs MGL meals||-21.8|-51.0|<0.001
82586069|NCT00822523|164884105|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||0.0374
82552433|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|151.0||||0.25|TWO_SIDED|95.0|7.0|294.0||A priori threshold for statistical significance is p\<0.05 Adjusted p value with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||294|7|0.25
82552434|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|-109.0||||0.15|TWO_SIDED|95.0|-256.0|38.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||38|-256|0.15
82552435|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|-30.0||||0.69|TWO_SIDED|95.0|-177.0|117.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||117|-177|0.69
82552436|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|264.0|||<|0.001|TWO_SIDED|95.0|126.0|401.0||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs HGLP meals||401|126|<0.001
82552437|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|192.0||||0.02|TWO_SIDED|95.0|56.0|329.0||A priori threshold for statistical significance is p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||329|56|0.02
82552438|NCT05698875|164808811|OTHER||Mean Difference (Final Values)|-71.0||||0.32|TWO_SIDED|95.0|-211.0|69.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||69|-211|0.32
82552439|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|6.9|||<|0.01|TWO_SIDED|95.0|3.3|10.4||A priori threshold for statistical significance is p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meals||10.4|3.3|<0.01
82552440|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|3.5||||0.06|TWO_SIDED|95.0|-0.2|7.2||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||7.2|-0.2|0.06
82552441|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|0.32||||0.86|TWO_SIDED|95.0|-3.3|3.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||3.9|-3.3|0.86
82552442|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|3.4||||0.11|TWO_SIDED|95.0|0.24|6.48||A priori threshold for statistical significance is p\<0.05 P value adjusted with the Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||6.48|0.24|0.11
82552443|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|6.7|||<|0.001|TWO_SIDED|95.0|3.6|9.8||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni did not alter p value|Linear Mixed Model|||HGL vs MGL meals||9.8|3.6|<0.001
82552444|NCT05698875|164808812|OTHER||Mean Difference (Final Values)|3.3||||0.13|TWO_SIDED|95.0|0.2|6.5||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGLP vs MGL meals||6.5|0.2|0.13
82552445|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|-34.8||||0.01|TWO_SIDED|95.0|-55.9|-13.6||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL meals vs control meal||-13.6|-55.9|0.01
82552446|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|-1.8||||0.87|TWO_SIDED|95.0|-23.6|19.9||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||19.9|-23.6|0.87
82552447|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|-4.7||||0.67|TWO_SIDED|95.0|-26.4|17.0||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||MGL meals vs control meals||17.0|-26.4|0.67
82552448|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|-33.3||||0.01|TWO_SIDED|95.0|-54.4|-12.2||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL vs HGLP meals||-12.2|-54.4|0.01
82552449|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|-31.4||||0.01|TWO_SIDED|95.0|-52.4|-10.4||A priori threshold for statistical significance is p\<0.05 Adjustment with Bonferroni correction|Linear Mixed Model|||HGL vs MGL meals||-10.4|-52.4|0.01
82477911|NCT03996369|164651447|SUPERIORITY||Risk Difference (RD)|9.24|||=|0.009|TWO_SIDED|95.0|2.27|16.2|||Cochran-Mantel-Haenszel|||Week 12||16.20|2.27|=0.009
82552450|NCT05698875|164808813|OTHER||Mean Difference (Final Values)|1.86||||0.87|TWO_SIDED|95.0|-19.7|23.4||A priori threshold for statistical significance is p\<0.05|Linear Mixed Model|||HGLP vs MGL meals||23.4|-19.7|0.87
82552451|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|34.0||||0.04|TWO_SIDED|95.0|2.0|65.0|||t-test, 2 sided|||Control vs HGL meals||65|2|0.04
82552452|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|6.0||||0.56|TWO_SIDED|95.0|-17.0|30.0|||t-test, 2 sided|||Control vs HGLP meals||30|-17|0.56
82552453|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|12.0||||0.22|TWO_SIDED|95.0|8.0|32.0|||t-test, 2 sided|||Control vs MGL meals||32|8|0.22
82477912|NCT03996369|164651448|SUPERIORITY||Risk Difference (RD)|5.85|||=|0.115|TWO_SIDED|95.0|-1.42|13.13|||Cochran-Mantel-Haenszel|||Week 2||13.13|-1.42|=0.115
82477913|NCT03996369|164651448|SUPERIORITY||Risk Difference (RD)|11.83|||=|0.007|TWO_SIDED|95.0|3.19|20.47|||Cochran-Mantel-Haenszel|||Week 4||20.47|3.19|=0.007
82552454|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|38.0||||0.01|TWO_SIDED|95.0|10.0|67.0|||t-test, 2 sided|||HGL vs HGLP meals||67|10|0.01
82552455|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|33.0||||0.03|TWO_SIDED|95.0|4.0|62.0|||t-test, 2 sided|||HGL vs MGL meals||62|4|0.03
82552456|NCT05698875|164808814|OTHER||Mean Difference (Final Values)|-5.0||||0.63|TWO_SIDED|95.0|-29.0|18.0|||t-test, 2 sided|||HGLP vs MGL meals||18|-29|0.63
82552457|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|22.0||||0.16|TWO_SIDED|95.0|10.0|53.0|||t-test, 2 sided|||Control vs HGL meals||53|10|0.16
82552458|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|21.0||||0.11|TWO_SIDED|95.0|5.0|46.0|||t-test, 2 sided|||Control vs HGLP meals||46|5|0.11
82552459|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|19.0||||0.15|TWO_SIDED|95.0|8.0|45.0|||t-test, 2 sided|||Control vs MGL meals||45|8|0.15
82552460|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|44.0|||<|0.01|TWO_SIDED|95.0|16.0|71.0|||t-test, 2 sided|||HGL vs HGLP meals||71|16|<0.01
82552461|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|-7.0||||0.6|TWO_SIDED|95.0|-36.0|21.0|||t-test, 2 sided|||HGL vs MGL meals||21|-36|0.60
82552462|NCT05698875|164808815|OTHER||Mean Difference (Final Values)|29.0||||0.02|TWO_SIDED|95.0|6.0|51.0|||t-test, 2 sided|||HGLP vs MGL meals||51|6|0.02
82552463|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|0.8|2.4||The a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meal excursion vs Control meal at 30 minutes||2.4|0.8|<0.001
82552464|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|0.4||||0.38|TWO_SIDED|95.0|-0.5|1.2|||Linear Mixed Model|||HGLP meal vs Control meal glucose excursion at 30 minutes||1.2|-0.5|0.38
82552465|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|-0.3||||0.47|TWO_SIDED|95.0|-1.1|0.5||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meal excursion vs Control meal at 30 minutes||0.5|-1.1|0.47
82552466|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|1.2||||0.01|TWO_SIDED|95.0|0.5|2.0||a priori threshold for statistical significance p\<0.05 P value adjusted with Bonferroni correction|Linear Mixed Model|||HGL meal vs HGLP meal||2.0|0.5|0.01
82552467|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.1|2.6||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meal vs MGL meals||2.6|1.1|<0.001
82552468|NCT05698875|164808816|OTHER||Mean Difference (Final Values)|0.7||||0.09|TWO_SIDED|95.0|0.1|1.4||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs MGL meals||1.4|0.1|0.09
82552469|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|0.7|3.0||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||3.0|0.7|<0.001
82552470|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|-0.1||||0.87|TWO_SIDED|95.0|-1.2|1.0||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||1.0|-1.2|0.87
82552471|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|-0.4||||0.48|TWO_SIDED|95.0|-1.5|0.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||0.7|-1.5|0.48
82552472|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|2.0|||<|0.001|TWO_SIDED|95.0|1.0|3.1||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs HGLP meals||3.1|1.0|<0.001
82552473|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED|95.0|1.3|3.4||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs MGL meals||3.4|1.3|<0.001
82552474|NCT05698875|164808817|OTHER||Mean Difference (Final Values)|-0.34||||0.53|TWO_SIDED|95.0|-1.4|0.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||0.7|-1.4|0.53
82552475|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|1.3||||0.06|TWO_SIDED|95.0|-0.03|2.7||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||2.7|-0.03|0.06
82552476|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|-1.1||||0.13|TWO_SIDED|95.0|-2.5|0.3||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.3|-2.5|0.13
82552477|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-1.5|1.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.5|0.82
82552478|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|2.4|||<|0.01|TWO_SIDED|95.0|1.1|3.7||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs MGL meals||3.7|1.1|<0.01
82552479|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|1.5||||0.08|TWO_SIDED|95.0|0.2|2.9||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs MGL meals||2.9|0.2|0.08
82552480|NCT05698875|164808818|OTHER||Mean Difference (Final Values)|0.9||||0.21|TWO_SIDED|95.0|-0.5|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.2|-0.5|0.21
82552481|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|0.8||||0.31|TWO_SIDED|95.0|-0.7|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs control meals||2.2|-0.7|0.31
82552482|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|-1.5||||0.05|TWO_SIDED|95.0|-3.0|-0.1||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGLP meals vs control meals||-0.1|-3.0|0.05
82552483|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|0.03||||0.97|TWO_SIDED|95.0|-1.5|1.5||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||MGL meals vs control meals||1.5|-1.5|0.97
82552484|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|2.3|||<|0.01|TWO_SIDED|95.0|1.0|3.6||a priori threshold for statistical significance p\<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||3.6|1.0|<0.01
82552485|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|0.8||||0.27|TWO_SIDED|95.0|0.6|2.2||a priori threshold for statistical significance p\<0.05|Linear Mixed Model|||HGL meals vs MGL meals||2.2|0.6|0.27
82552486|NCT05698875|164808819|OTHER||Mean Difference (Final Values)|1.5||||0.12|TWO_SIDED|95.0|0.1|3.0||a priori threshold for statistical significance \<0.05 Adjusted with p value|Linear Mixed Model|||MGL meals vs HGLP meals||3.0|0.1|0.12
82552487|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|-0.2||||0.83|TWO_SIDED|95.0|-1.5|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs control meals||1.2|-1.5|0.83
82552488|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|-1.5||||0.09|TWO_SIDED|95.0|-2.9|-0.2||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGLP meals vs control meals||-0.2|-2.9|0.09
82552489|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|-0.2||||0.78|TWO_SIDED|95.0|-1.6|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.6|0.78
82552490|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|1.4||||0.11|TWO_SIDED|95.0|0.1|2.7||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||2.7|0.1|0.11
82552491|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|-0.2||||0.82|TWO_SIDED|95.0|-1.5|1.1||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGL meals||1.1|-1.5|0.82
82552492|NCT05698875|164808820|OTHER||Mean Difference (Final Values)|1.3||||0.06|TWO_SIDED|95.0|-0.1|2.6||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.6|-0.1|0.06
82552493|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|0.1||||0.85|TWO_SIDED|95.0|-1.1|1.3||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs control meals||1.3|-1.1|0.85
82552494|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|-1.2||||0.06|TWO_SIDED|95.0|-2.4|0.04||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGLP meals vs control meals||0.04|-2.4|0.06
82552495|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|-0.08||||0.9|TWO_SIDED|95.0|-1.3|1.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs control meals||1.2|-1.3|0.90
82580817|NCT00605215|164873153|OTHER||Risk Ratio (RR)|0.741|STANDARD_ERROR_OF_MEAN|0.082||0.0067|TWO_SIDED|95.0|0.596|0.92|||Negative Binomial Regression|||Analysis was performed using baseline-adjusted negative binomial regression, where a participant's number of relapses during the double-blind, placebo-controlled phase served as the response variable and an offset based on the log of participant's exposure in years was employed to adjust for variability of treatment exposure. The model included baseline EDSS score, log of (prior 2-year number of relapses+1) and CGR as covariates.||0.920|0.596|0.0067
82580818|NCT02914275|164873166|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% confidence interval (CI) of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|0.79|||||TWO_SIDED|95.0|0.72|0.88||||||Non-inferiority of immune responses to A/H1N1 vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||0.88|0.72|
82580819|NCT02914275|164873166|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|1.27|||||TWO_SIDED|95.0|1.15|1.42||||||Non-inferiority of immune responses to A/H3N2 vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.42|1.15|
82580820|NCT02914275|164873166|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|1.12|||||TWO_SIDED|95.0|1.01|1.24||||||Non-inferiority of immune responses to B/YAM vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.24|1.01|
82552496|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|1.4||||0.05|TWO_SIDED|95.0|0.3|2.5||a priori threshold for statistical significance \<0.05 Adjusted with Bonferroni correction|Linear Mixed Model|||HGL meals vs HGLP meals||2.5|0.3|0.05
82552497|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|0.34||||0.55|TWO_SIDED|95.0|-0.8|1.5||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||HGL meals vs MGL meals||1.5|-0.8|0.55
82552498|NCT05698875|164808821|OTHER||Mean Difference (Final Values)|1.1||||0.08|TWO_SIDED|95.0|-0.1|2.2||a priori threshold for statistical significance \<0.05|Linear Mixed Model|||MGL meals vs HGLP meals||2.2|-0.1|0.08
82552499|NCT01733316|164808871|SUPERIORITY|||||||0.0048||||||Paired t-test testing the null hypothesis that the population average difference during the Cystagon® phase is equal to the population average difference during the RP103 phase.|Paired t-test, two-sided|||||||0.0048
82552500|NCT01674140|164808900|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.52|TWO_SIDED|95.0|0.77|1.14|||Log Rank|||||1.14|0.77|0.52
82580821|NCT02914275|164873166|NON_INFERIORITY|The non-inferiority criterion for the GMT ratio (adjusted analysis) was that the upper bound of the two-sided 95% CI of the GMT ratio for the Comparator QIV GMT, divided by the Seqirus QIV GMT, should not exceed 1.5|Geometric Mean Titer Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.09||||||Non-inferiority of immune responses to B/VIC vaccine strain measured in terms of Geometric Mean Titer ratios 28 days after the last vaccination||1.09|0.86|
82552501|NCT01674140|164808901|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.84|TWO_SIDED|95.0|0.75|1.26|||Log Rank|||||1.26|0.75|0.84
82552502|NCT01674140|164808903|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.32|TWO_SIDED|95.0|0.74|1.1|||Log Rank|||||1.10|0.74|0.32
82552503|NCT03621371|164808985|OTHER||F-test|9.88|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82552504|NCT04625465|164809006|OTHER||Difference in the log odds ratios|0.042||||0.869|||||||Multilevel logistic regression|||"Multilevel logistic regression of daily IPV perpetration on alcohol use (Level 1) nested within participant (Level 2) with interaction between alcohol use and CBT Intervention.~Testing the difference in odds ratio between groups 1 (No Intervention and Attention Control ) and 2 (CBT Texts Intervention) H0: OR1 = OR2"||||.869
82580822|NCT02914275|164873167|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|-10.3|||||TWO_SIDED|95.0|-15.4|-5.1||||||Non-inferiority of immune responses to A/H1N1 vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||-5.1|-15.4|
82552505|NCT04625465|164809007|OTHER||Difference in the log odds ratios|-0.32||||0.21|||||||Multilevel logistic regression|||"Multilevel logistic regression of daily IPV perpetration on alcohol use (Level 1) nested within participant (Level 2) with interaction between alcohol use and CBT Intervention.~Testing the difference in odds ratio between groups 1 (No Intervention and Attention Control ) and 2 (CBT Texts Intervention) H0: OR1 = OR2"||||.210
82552506|NCT05566639|164809025|NON_INFERIORITY|Noninferiority margin = 10%|Relative vaccine efficacy (rVE)|1.7||||0.1715|TWO_SIDED|95.0|-24.1|22.2|||Stratified Cox proportional hazards||rVE = 100 \* (1 - HR) % was defined as the percent reduction in the hazard (mRNA-1010 vs active comparator), where HR was the hazard ratio between mRNA-1010 vs the active comparator.|||22.2|-24.1|0.1715
82552507|NCT04753697|164809067|SUPERIORITY||Difference in Least Square Mean|-1.91|STANDARD_ERROR_OF_MEAN|0.544||0.0005|TWO_SIDED|95.0|-2.97|-0.84|||ANCOVA|||||-0.84|-2.97|0.0005
82552508|NCT04753697|164809068|SUPERIORITY||Difference in percentage|26.4|||<|0.0001|TWO_SIDED|95.0|20.6|32.2|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||32.2|20.6|<0.0001
82552509|NCT04753697|164809069|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI(%)|18.4|||<|0.0001|TWO_SIDED|95.0|11.3|25.5|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||25.5|11.3|<0.0001
82552510|NCT04753697|164809069|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI(%)|17.0|||<|0.0001|TWO_SIDED|95.0|10.1|24.0||Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.|Cochran-Mantel-Haenszel|||||24.0|10.1|<0.0001
82552511|NCT04753697|164809070|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|40.0|||<|0.0001|TWO_SIDED|95.0|33.3|46.7|||Cochran-Mantel-Haenszel|Imputed data is used in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status||||46.7|33.3|<0.0001
82552512|NCT04753697|164809071|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|25.7|||<|0.0001|TWO_SIDED|95.0|17.8|33.6|||Cochran-Mantel-Haenszel|Imputed data is used for all in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||33.6|17.8|<0.0001
82552513|NCT04753697|164809071|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|27.7|||<|0.0001|TWO_SIDED|95.0|19.7|35.7|||Cochran-Mantel-Haenszel|Imputed data is used for all in CMH test, which is stratified by Steroid Inadequate Responder/Intolerant status.||||35.7|19.7|<0.0001
82552514|NCT04753697|164809072|SUPERIORITY||DIFFERENCE IN LSM|-2.26|STANDARD_ERROR_OF_MEAN|0.655||0.0006|TWO_SIDED|95.0|-3.55|-0.98|||ANCOVA|||||-0.98|-3.55|0.0006
82552515|NCT04753697|164809072|SUPERIORITY||DIFFERENCE IN LSM|-2.49|STANDARD_ERROR_OF_MEAN|0.657||0.0002||95.0|-3.78|-1.2|||ANCOVA|||||-1.20|-3.78|0.0002
82552516|NCT04753697|164809073|SUPERIORITY||DIFFERENCE IN LSM|-4.0|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-4.8|-3.2|||ANCOVA|||||-3.2|-4.8|<0.0001
82552517|NCT04753697|164809074|SUPERIORITY||DIFFERENCE IN LSM|-3.5|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.5|-2.4|||ANCOVA|||||-2.4|-4.5|<0.0001
82552518|NCT04753697|164809074|SUPERIORITY||DIFFERENCE IN LSM|-3.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-4.1|-2.1|||ANCOVA|||||-2.1|-4.1|<0.0001
82552519|NCT04753697|164809075|SUPERIORITY||DIFFERENCE IN LSM|-22.51|STANDARD_ERROR_OF_MEAN|1.528|<|0.0001|TWO_SIDED|95.0|-25.5|-19.51|||ANCOVA|||||-19.51|-25.50|<0.0001
82552520|NCT04753697|164809076|SUPERIORITY||DIFFERENCE IN LSM|-18.13|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-21.85|-14.4|||ANCOVA|||||-14.40|-21.85|<0.0001
82552521|NCT04753697|164809076|SUPERIORITY||DIFFERENCE IN LSM|-19.22|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-22.9|-15.53|||ANCOVA|||||-15.53|-22.90|<0.0001
82552522|NCT04753697|164809077|SUPERIORITY||DIFFERENCE IN LSM|-25.4|STANDARD_ERROR_OF_MEAN|1.793|<|0.0001|TWO_SIDED|95.0|-28.92|-21.89|||ANCOVA|||||-21.89|-28.92|<0.0001
82552523|NCT04753697|164809078|SUPERIORITY||DIFFERENCE IN LSM|-20.82|STANDARD_ERROR_OF_MEAN|2.229|<|0.0001|TWO_SIDED|95.0|-25.17|-18.91|||Cochran-Mantel-Haenszel|||||-18.91|-25.17|<0.0001
82552524|NCT04753697|164809078|SUPERIORITY||DIFFERENCE IN LSM|-23.43|STANDARD_ERROR_OF_MEAN|2.222|<|0.0001|TWO_SIDED|95.0|-27.73|-21.56|||ANCOVA|||||-21.56|-27.73|<0.0001
82552525|NCT04753697|164809079|SUPERIORITY||DIFFERENCE IN LSM|-4.1|STANDARD_ERROR_OF_MEAN|1.174||0.0005|TWO_SIDED|95.0|-6.4|-1.8|||ANCOVA|||||-1.80|-6.40|0.0005
82552526|NCT04753697|164809080|SUPERIORITY||DIFFERENCE IN LSM|-4.35|STANDARD_ERROR_OF_MEAN|1.42||0.0022|TWO_SIDED|95.0|-7.14|-1.57|||ANCOVA|||||-1.57|-7.14|0.0022
82552527|NCT04753697|164809080|SUPERIORITY||Difference in LSM|-5.2|STANDARD_ERROR_OF_MEAN|1.425||0.0003|TWO_SIDED|95.0|-8.0|-2.41|||ANCOVA|||||-2.41|-8.00|0.0003
82552528|NCT04753697|164809081|SUPERIORITY||DIFFERENCE IN RESPONSE RATE AFTER MI (%)|16.9||||0.0016|TWO_SIDED|95.0|6.7|27.2|||ANCOVA|||||27.2|6.7|0.0016
82552529|NCT01658930|164809125|NON_INFERIORITY|Margin of inferiority in the difference of 3 year pelvic recurrence rates between simple and radical hysterectomy group was 4%.|Mean Difference (Final Values)|0.0035|||||TWO_SIDED|90.0|-0.0162|0.0232|||||Difference between simple and radical hysterectomy groups.|||0.0232|-0.0162|
82552530|NCT01658930|164809126|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.47|2.67|||||Hazard ratio of simple to radical hysterectomy.|||2.67|0.47|
82552531|NCT01658930|164809127|SUPERIORITY||Hazard Ratio (HR)|3.82|||||TWO_SIDED|95.0|0.79|18.4|||||Hazard ratio is simple hysterectomy group of radical hysterectomy group.|||18.4|0.79|
82552532|NCT01658930|164809128|SUPERIORITY||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.69|3.45|||||Hazard ratio is simple hysterectomy group to radical hysterectomy group.|||3.45|0.69|
82552533|NCT01658930|164809129|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.38|3.14|||||Hazard ratio of simple to radical hysterectomy.|||3.14|0.38|
82477914|NCT03996369|164651448|SUPERIORITY||Risk Difference (RD)|14.84|||=|0.003|TWO_SIDED|95.0|4.98|24.69|||Cochran-Mantel-Haenszel|||Week 8||24.69|4.98|=0.003
82552534|NCT05446168|164809148|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis|Mean Difference (Net)|-0.08|STANDARD_DEVIATION|0.05||0.005|TWO_SIDED|95.0|-0.12|-0.03||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|t = -4.05, df = 7||||-0.03|-0.12|0.005
82552535|NCT05446168|164809149|OTHER|A comparison is not being made between two different treatment groups. Exploratory analysis.|Mean Difference (Net)|4.33|STANDARD_DEVIATION|12.81||0.27|TWO_SIDED|95.0|-3.81|12.47||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|t = 1.17, df = 11||||12.47|-3.81|0.27
82552536|NCT05875467|164809150|SUPERIORITY|||||||0.042|||||||t-test, 2 sided|||||||.042
82552537|NCT05875467|164809151|SUPERIORITY|||||||0.928|||||||t-test, 2 sided|||||||.928
82552538|NCT05875467|164809152|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||||||.022
82552539|NCT05875467|164809153|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
82552540|NCT04642820|164809154|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
82552541|NCT06473662|164809158|OTHER||Mean Difference (Final Values)|-0.53||||0.0039|TWO_SIDED||||||t-test, 2 sided|||||||0.0039
82552542|NCT06473662|164809159|OTHER||Mean Difference (Final Values)|-18.8||||0.0166|TWO_SIDED||||||t-test, 2 sided|||||||0.0166
82552543|NCT06473662|164809161|OTHER||Mean Difference (Final Values)|-22.13||||0.0474|TWO_SIDED||||||ANCOVA|||||||0.0474
82552544|NCT01574274|164809260|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82552545|NCT01574274|164809261|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||Day 4 NSAA Level||||0.07
82552546|NCT01574274|164809261|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Day 11 NSAA Level||||0.29
82552547|NCT01574274|164809261|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||Day 18 NSAA Level||||0.0002
82552548|NCT01574274|164809261|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Day 25 NSAA Level||||<0.0001
82552549|NCT01574274|164809261|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Week 7 NSAA Level||||<0.0001
82552550|NCT01574274|164809261|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Week 13 NSAA Level||||0.87
82552551|NCT01574274|164809261|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Week 19 NSAA Level||||0.83
82552552|NCT01574274|164809261|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Week 25 NSAA Level||||0.94
82552553|NCT04752709|164809356|OTHER||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.0001
82552554|NCT03656510|164809386|OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.382|0.185||||||Difference versus placebo in mean RSV viral load AUC on Day 3||0.185|-1.382|
82552555|NCT03656510|164809386|OTHER||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-1.19|0.418||||||Difference versus placebo in mean RSV viral load AUC on Day 3||0.418|-1.190|
82552556|NCT03656510|164809386|OTHER||Mean Difference (Final Values)|-2.46|||||TWO_SIDED|95.0|-4.674|-0.25||||||Difference versus placebo in mean RSV viral load AUC on Day 8||-0.250|-4.674|
82552557|NCT03656510|164809386|OTHER||Mean Difference (Final Values)|-2.38|||||TWO_SIDED|95.0|-4.645|-0.114||||||Difference versus placebo in mean RSV viral load AUC on Day 8||-0.114|-4.645|
82552558|NCT03819153|164809432|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0001|TWO_SIDED|95.0|0.66|0.88|||Regression, Cox|||Time from randomization to first composite renal event was analyzed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by use of sodium glucose cotransporter-2 (SGLT-2) inhibitor (yes/no) at baseline. Based on the available number of events for analysis, the nominal significance level was updated to 0.01612 using the Lan-DeMets alpha spending function. eGFR was calculated using the CKD-EPI formula.||0.88|0.66|0.0001
82552559|NCT00691002|164809454|SUPERIORITY||Odds Ratio (OR)|1.28||||0.11|TWO_SIDED|95.0|0.94|1.74|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus calcipotriol ointment at Week 8 LOCF (Last Observation Carried Forward).||1.74|0.94|0.11
82580823|NCT02914275|164873167|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|2.6|||||TWO_SIDED|95.0|-2.54|7.8||||||Non-inferiority of immune responses to A/H3N2 vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||7.8|-2.54|
82552560|NCT00691002|164809454|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.001|TWO_SIDED|95.0|1.31|2.45|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus hydrocortisone ointment at Week 8 LOCF (Last Observation Carried Forward).||2.45|1.31|<0.001
82552561|NCT00691002|164809454|SUPERIORITY||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.8|4.04|||Cochran-Mantel-Haenszel|||Test for superiority of LEO 80190 ointment versus ointment vehicle at Week 8 LOCF (Last Observation Carried Forward).||4.04|1.80|<0.001
82552562|NCT03974178|164809459|OTHER|"The minimal sample size to get a possible rejection of H0 (pdeath = 8.5% or more) in favour of H1 (pdeath \<8.5%) was 34 evaluable patients with stage 2 r-HAT.~The hypothesis was tested with a one-sided exact test for proportions at the 0.05 significance level."|Fatality rate|0.0||||0.0488|TWO_SIDED|90.0|0.0|8.43||The rate of deaths possibly related to r-HAT or to fexinidazole at the end of hospitalization was compared to the predefined unacceptable rate of 8.5%.|one-sided exact test|Clopper Pearson exact method||"The proportion of deaths (pdeath) is compared to the threshold of 8.5%, with H0 being pdeath = 8.5% or more.~The 90% confidence interval of the fatality rate is calculated with the Clopper-Pearson method."||8.43|0|0.0488
82552563|NCT03974178|164809460|OTHER|The hypothesis H0 (pfailure at the end of hospitalization = 9% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|0.0||||0.0405|TWO_SIDED|90.0|0.0|8.43||The rate of failures at the end of hospitalization was compared to the predefined unacceptable rate of 9%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at the end of hospitalization (pfailure) is compared to the threshold of 9%, with H0 being pfailure = 9% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||8.43|0|0.0405
82552564|NCT03974178|164809461|OTHER|The hypothesis H0 (pfailure at 12 months = 12% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|2.94||||0.073|TWO_SIDED|90.0|0.15|13.21||The rate of failures at 12 months was compared to the predefined unacceptable rate of 12%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at 12 months (pfailure) is compared to the threshold of 12%, with H0 being pfailure = 12% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||13.21|0.15|0.0730
82580824|NCT02914275|164873167|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|3.1|||||TWO_SIDED|95.0|-2.1|8.2||||||Non-inferiority of immune responses to B/YAM vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||8.2|-2.1|
82552565|NCT03974178|164809464|OTHER|The hypothesis H0 (pdeath = 8.5% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Fatality rate|0.0||||0.0201|TWO_SIDED|90.0|0.0|6.58||The rate of deaths possibly related to r-HAT or to fexinidazole at the end of hospitalization was compared to the predefined unacceptable rate of 8.5%.|one-sided exact test|Clopper Pearson exact method||"The proportion of deaths (pdeath) is compared to the threshold of 8.5%, with H0 being pdeath = 8.5% or more.~The 90% confidence interval of the fatality rate is calculated with the Clopper-Pearson method."||6.58|0|0.0201
82552566|NCT03974178|164809465|OTHER|The hypothesis H0 (pfailure at the end of hospitalization = 9% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|0.0||||0.0158|TWO_SIDED|90.0|0.0|6.58||The rate of failures at the end of hospitalization was compared to the predefined unacceptable rate of 9%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at the end of hospitalization (pfailure) is compared to the threshold of 9%, with H0 being pfailure = 9% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||6.58|0|0.0158
82552567|NCT03974178|164809466|OTHER|The hypothesis H0 (pfailure at 12 months = 12% or more) was tested with a one-sided exact test for proportions at the 0.05 significance level.|Failure rate|2.27||||0.0253|TWO_SIDED|90.0|0.12|10.34||The rate of failures at 12 months was compared to the predefined unacceptable rate of 12%.|one-sided exact test|Clopper Pearson exact method||"The proportion of failures at 12 months (pfailure) is compared to the threshold of 12%, with H0 being pfailure = 12% or more.~The 90% confidence interval of the failure rate is calculated with the Clopper-Pearson method."||10.34|0.12|0.0253
82552568|NCT03899259|164809487|SUPERIORITY||Odds Ratio (OR)|7.86|||<|0.001|TWO_SIDED|95.0|2.79|22.17|||Regression, Logistic|||||22.17|2.79|<0.001
82552569|NCT03899259|164809487|SUPERIORITY||Odds Ratio (OR)|19.72|||<|0.001|TWO_SIDED|95.0|7.3|53.3|||Regression, Logistic|||||53.30|7.30|<0.001
82552570|NCT03899259|164809488|SUPERIORITY||Mean Difference (Final Values)|-25.25|STANDARD_ERROR_OF_MEAN|3.834|<|0.001|TWO_SIDED|95.0|-32.78|-17.72|||ANCOVA|||||-17.72|-32.78|<0.001
82552571|NCT03899259|164809488|SUPERIORITY||Mean Difference (Final Values)|-44.49|STANDARD_ERROR_OF_MEAN|3.482|<|0.001|TWO_SIDED|95.0|-51.33|-37.65|||ANCOVA|||||-37.65|-51.33|<0.001
82552572|NCT03899259|164809489|SUPERIORITY||Odds Ratio (OR)|4.63||||0.005|TWO_SIDED|95.0|1.58|13.6|||Regression, Logistic|||||13.60|1.58|0.005
82552573|NCT03899259|164809489|SUPERIORITY||Odds Ratio (OR)|12.94|||<|0.001|TWO_SIDED|95.0|4.72|35.44|||Regression, Logistic|||||35.44|4.72|<0.001
82552574|NCT03899259|164809490|SUPERIORITY||Odds Ratio (OR)|4.36||||0.001|TWO_SIDED|95.0|1.77|10.74|||Regression, Logistic|||||10.74|1.77|0.001
82552575|NCT03899259|164809490|SUPERIORITY||Odds Ratio (OR)|13.37|||<|0.001|TWO_SIDED|95.0|5.75|31.1|||Regression, Logistic|||||31.10|5.75|<0.001
82552576|NCT03899259|164809492|SUPERIORITY||Odds Ratio (OR)|2.56||||0.076|TWO_SIDED|95.0|0.91|7.24|||Regression, Logistic|||||7.24|0.91|0.076
82552577|NCT03899259|164809492|SUPERIORITY||Odds Ratio (OR)|10.3|||<|0.001|TWO_SIDED|95.0|4.12|25.77|||Regression, Logistic|||||25.77|4.12|<0.001
82552578|NCT03899259|164809493|SUPERIORITY||Odds Ratio (OR)|1.88||||0.26|TWO_SIDED|95.0|0.63|5.62|||Regression, Logistic|||||5.62|0.63|0.260
82552579|NCT03899259|164809493|SUPERIORITY||Odds Ratio (OR)|8.1|||<|0.001|TWO_SIDED|95.0|3.18|20.66|||Regression, Logistic|||||20.66|3.18|<0.001
82552580|NCT03899259|164809494|SUPERIORITY||Odds Ratio (OR)|3.43||||0.017|TWO_SIDED|95.0|1.25|9.4|||Regression, Logistic|||||9.40|1.25|0.017
82552581|NCT03899259|164809494|SUPERIORITY||Odds Ratio (OR)|10.85|||<|0.001|TWO_SIDED|95.0|4.32|27.25|||Regression, Logistic|||||27.25|4.32|<0.001
82552582|NCT03899259|164809495|SUPERIORITY||Odds Ratio (OR)|14.63||||0.002|TWO_SIDED|95.0|2.73|78.42|||Regression, Logistic|||||78.42|2.73|0.002
82552583|NCT03899259|164809495|SUPERIORITY||Odds Ratio (OR)|30.37|||<|0.001|TWO_SIDED|95.0|5.93|99.99|||Regression, Logistic|||||99.99|5.93|<0.001
82552584|NCT03899259|164809496|SUPERIORITY||Mean Difference (Final Values)|-3.02|STANDARD_ERROR_OF_MEAN|1.981||0.129|TWO_SIDED|95.0|-6.91|0.88|||ANCOVA|||||0.88|-6.91|0.129
82552585|NCT03899259|164809496|SUPERIORITY||Mean Difference (Final Values)|-4.21|STANDARD_ERROR_OF_MEAN|1.799||0.02|TWO_SIDED|95.0|-7.75|-0.68|||ANCOVA|||||-0.68|-7.75|0.020
82552586|NCT03899259|164809497|SUPERIORITY||Mean Difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|3.017||0.026|TWO_SIDED|95.0|-12.68|-0.82|||ANCOVA|||||-0.82|-12.68|0.026
82552587|NCT03899259|164809497|SUPERIORITY||Mean Difference (Final Values)|-13.42|STANDARD_ERROR_OF_MEAN|2.737|<|0.001|TWO_SIDED|95.0|-18.8|-8.04|||ANCOVA|||||-8.04|-18.80|<0.001
82552588|NCT03899259|164809498|SUPERIORITY||Mean Difference (Final Values)|-4.38|STANDARD_ERROR_OF_MEAN|2.68||0.103|TWO_SIDED|95.0|-9.65|0.88|||ANCOVA|||||0.88|-9.65|0.103
82552589|NCT03899259|164809498|SUPERIORITY||Mean Difference (Final Values)|-8.33|STANDARD_ERROR_OF_MEAN|2.429|<|0.001|TWO_SIDED|95.0|-13.1|-3.56|||ANCOVA|||||-3.56|-13.10|<0.001
82552590|NCT03899259|164809499|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.315||0.518|TWO_SIDED|95.0|-0.82|0.42|||ANCOVA|||||0.42|-0.82|0.518
82552591|NCT03899259|164809499|SUPERIORITY||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.286||0.012|TWO_SIDED|95.0|-1.28|-0.16|||ANCOVA|||||-0.16|-1.28|0.012
82552592|NCT03899259|164809500|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.291||0.083|TWO_SIDED|95.0|-1.08|0.07|||ANCOVA|||||0.07|-1.08|0.083
82552593|NCT03899259|164809500|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.264||0.01|TWO_SIDED|95.0|-1.2|-0.16|||ANCOVA|||||-0.16|-1.20|0.010
82477915|NCT03996369|164651449|SUPERIORITY||Risk Difference (RD)|2.83|||=|0.128|TWO_SIDED|95.0|-0.81|6.48|||Cochran-Mantel-Haenszel|||Week 2||6.48|-0.81|=0.128
82552594|NCT05670587|164809502|OTHER||gMean ratio at Week 4|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric Coefficient of variation (gCV) = 84.59%"|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Week 4.||1.18|0.76|
82552595|NCT05670587|164809502|OTHER||gMean ratio at Week 8|0.84|||||TWO_SIDED|95.0|0.64|1.11|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric coefficient of variation (gCV) = 115.62%"|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Week 8.||1.11|0.64|
82552596|NCT05670587|164809502|OTHER||gMean ratio at Day 82|0.98|||||TWO_SIDED|95.0|0.75|1.29|||||"gMean ratios of CfB in CC/h were calculated from the log transformed values at each visit.~Geometric coefficient of variation (gCV) = 100.02%."|Geometric mean (gMean) ratio of change from baseline (CfB) in cough count per hour (CC/h) at Day 82.||1.29|0.75|
82552597|NCT03738852|164809507|SUPERIORITY|||||||0.907|||||||ANOVA|||||||0.907
82552598|NCT04508309|164809508|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.09|||||TWO_SIDED|98.3|0.891|1.327|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||1.327|0.891|
82552599|NCT04508309|164809508|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.78|||||TWO_SIDED|98.3|1.455|2.176|||||GMC ratio (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% CI was used.||2.176|1.455|
82562011|NCT03989232|164833305|SUPERIORITY||Treatment difference|-0.18||||0.0098|TWO_SIDED|95.0|-0.31|-0.04|||ANCOVA|||In-trial observation period: Imputation of missing data was handled by MI assuming that missing data were missed at random. The imputation was performed by imputing missing week 40 data separately within groups defined by randomised treatment and treatment status at week 40.||-0.04|-0.31|0.0098
82552600|NCT04508309|164809508|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|2.37|||||TWO_SIDED|98.3|1.942|2.903|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.903|1.942|
82552601|NCT04508309|164809509|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.25|||||TWO_SIDED|98.3|1.022|1.539|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||1.539|1.022|
82552602|NCT04508309|164809509|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.68|||||TWO_SIDED|98.3|1.372|2.069|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.069|1.372|
82552603|NCT04508309|164809509|NON_INFERIORITY|Non-inferiority was to be demonstrated if the lower bound of the 98.3% confidence interval of the geometric mean concentration (GMC) ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.71|||||TWO_SIDED|98.3|1.389|2.102|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|The primary objective included three non-inferiority comparisons of Cecolin at 0 and 6 months, 0 and 12 months, or 0 and 24 months compared to Gardasil at 0 and 6 months. To control the type I error for the three co-primary non-inferiority hypotheses, a Bonferroni correction corresponding to 98.3% confidence intervals (CI) was used.||2.102|1.389|
82580825|NCT02914275|164873167|NON_INFERIORITY|The noninferiority criterion for the SCR difference was that the upper bound of the two-sided 95% CI on the difference between SCRs for Comparator QIV minus the Seqirus QIV SCR should not exceed 10%.|Seroconversion Rate Difference|0.9|||||TWO_SIDED|95.0|-4.2|6.1||||||Non-inferiority of immune responses to B/VIC vaccine strain measured in terms of Seroconversion Rate Difference 28 days after the last vaccination||6.1|-4.2|
82580826|NCT01302067|164873188|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.16|-0.66||Primary comparison was 8 mg VS. 4 mg (closed-testing method). Treatment effect of 8 mg VS. placebo was tested 1st. Treatment difference of 8 mg VS. 4 mg was tested if a statistically significant difference between 8 mg and placebo was shown.|ANCOVA|Using a closed testing procedure, no adjustments of α-level was needed at each stage of testing. Each was done at the 0.05 significance level.|Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Comparisons were done with 2-sided test at 5% significance level. Null hypothesis: mean change from BL in the number of UUI episodes per 24 hours in the 8mg group was same as 4mg group at Week 12. ANCOVA was used to compare 8mg and 4mg arms for numeric change from BL - Week 12. This included terms for treatment, country, centered BL value and centered BL by treatment interaction, in which centered BL (BL - mean BL) was used to ensure that treatment effect was estimated at mean covariate value.||-0.66|-1.16|<0.0001
82580827|NCT01302067|164873188|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.11||0.0109|TWO_SIDED|95.0|-0.48|-0.06||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Treatment comparisons were performed with a two-sided test at the 5% significance level.||-0.06|-0.48|0.0109
82580828|NCT01302067|164873188|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.89|-0.39||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Treatment comparisons were performed with a two-sided test at the 5% significance level.||-0.39|-0.89|<0.0001
82580829|NCT01302067|164873189|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.48|-0.79||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.79|-1.48|<0.0001
82580830|NCT01302067|164873189|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0082|TWO_SIDED|95.0|-0.67|-0.1||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.10|-0.67|0.0082
82580831|NCT01302067|164873189|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.1|-0.41||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.41|-1.10|<0.0001
82586070|NCT00822523|164884105|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.188
82586071|NCT00822523|164884105|SUPERIORITY_OR_OTHER||r value|0.4||||0.505|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.505
82586072|NCT00822523|164884106|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82586073|NCT00822523|164884106|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82477916|NCT03996369|164651449|SUPERIORITY||Risk Difference (RD)|8.32|||=|0.002|TWO_SIDED|95.0|3.01|13.64|||Cochran-Mantel-Haenszel|||Week 4||13.64|3.01|=0.002
82477917|NCT03996369|164651449|SUPERIORITY||Risk Difference (RD)|7.06|||=|0.032|TWO_SIDED|95.0|0.62|13.49|||Cochran-Mantel-Haenszel|||Week 8||13.49|0.62|=0.032
82477918|NCT03996369|164651449|SUPERIORITY||Risk Difference (RD)|9.18|||=|0.014|TWO_SIDED|95.0|1.82|16.54|||Cochran-Mantel-Haenszel|||Week 12||16.54|1.82|=0.014
82477919|NCT03996369|164651450|SUPERIORITY||Risk Difference (RD)|15.55|||=|0.002|TWO_SIDED|95.0|5.65|25.46|||Cochran-Mantel-Haenszel|||Week 2||25.46|5.65|=0.002
82477920|NCT03996369|164651450|SUPERIORITY||Risk Difference (RD)|14.98|||=|0.007|TWO_SIDED|95.0|4.05|25.91|||Cochran-Mantel-Haenszel|||Week 4||25.91|4.05|=0.007
82477921|NCT03996369|164651450|SUPERIORITY||Risk Difference (RD)|22.6|||<|0.001|TWO_SIDED|95.0|11.95|33.25|||Cochran-Mantel-Haenszel|||Week 8||33.25|11.95|<0.001
82477922|NCT03996369|164651450|SUPERIORITY||Risk Difference (RD)|17.58|||=|0.002|TWO_SIDED|95.0|6.7|28.47|||Cochran-Mantel-Haenszel|||Week 12||28.47|6.70|=0.002
82477923|NCT03996369|164651451|SUPERIORITY||Risk Difference (RD)|15.99|||=|0.002|TWO_SIDED|95.0|6.07|25.91|||Cochran-Mantel-Haenszel|||Week 2||25.91|6.07|=0.002
82552604|NCT04508309|164809514|NON_INFERIORITY|Non-inferiority of the Cecolin containing arm (Group 5) compared to Gardasil at months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.75|||||TWO_SIDED|95.0|1.476|2.071|||||GMC ratio (Cecolin containing arm (Group 5)/Gardasil (Group 4)) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||2.071|1.476|
82552605|NCT04508309|164809515|NON_INFERIORITY|Non-inferiority of the Cecolin containing arm (Group 5) compared to Gardasil at months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.21|||||TWO_SIDED|95.0|1.004|1.451|||||GMC ratio (Cecolin containing arm (Group 5)/Gardasil (Group 4)) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.451|1.004|
82552606|NCT04508309|164809516|NON_INFERIORITY|Non-inferiority of Cecolin at Months 0 and 6 (Group 1) compared to Gardasil at Months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.12|||||TWO_SIDED|95.0|0.933|1.344|||||GMC ratio (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.344|0.933|
82552607|NCT04508309|164809517|NON_INFERIORITY|Non-inferiority of Cecolin at Months 0 and 6 (Group 1) compared to Gardasil at Months 0 and 6 (Group 4) was to be demonstrated if the lower limit of the 95% CI of the GMC ratio was greater than the non-inferiority margin of 0.5 for both HPV-16 and HPV-18.|GMC Ratio|1.32|||||TWO_SIDED|95.0|1.07|1.635|||||GMC ratios (Cecolin/Gardasil) and corresponding confidence limits were calculated using linear models of the log concentration values adjusted by site and transformed back to the original scale.|||1.635|1.070|
82552608|NCT05139810|164809523|SUPERIORITY||IC HAE attack rate ratio|0.19|||<|0.001|TWO_SIDED|95.0|0.107|0.351|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 1 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used to account for potential over dispersion.||0.351|0.107|<0.001
82552609|NCT05139810|164809523|SUPERIORITY||IC HAE attack rate ratio|0.45|||=|0.004|TWO_SIDED|95.0|0.261|0.777|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 1 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential overdispersion.||0.777|0.261|=0.004
82586074|NCT00822523|164884106|SUPERIORITY_OR_OTHER||r value|0.8||||0.104|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.104
82586075|NCT00822523|164884107|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82477924|NCT03996369|164651451|SUPERIORITY||Risk Difference (RD)|15.45|||=|0.006|TWO_SIDED|95.0|4.54|26.36|||Cochran-Mantel-Haenszel|||Week 4||26.36|4.54|=0.006
82477925|NCT03996369|164651451|SUPERIORITY||Risk Difference (RD)|22.14|||<|0.001|TWO_SIDED|95.0|11.43|32.85|||Cochran-Mantel-Haenszel|||Week 8||32.85|11.43|<0.001
82477926|NCT03996369|164651451|SUPERIORITY||Risk Difference (RD)|18.49|||<|0.001|TWO_SIDED|95.0|7.65|29.33|||Cochran-Mantel-Haenszel|||Week 12||29.33|7.65|<0.001
82477927|NCT00653432|164651453|SUPERIORITY|||||||0.145|||||||Ordinal GEE Model|||||||0.1450
82477928|NCT00653432|164651454|SUPERIORITY|||||||0.5824|||||||Ordinal GEE Model|||||||0.5824
82477929|NCT00653432|164651455|SUPERIORITY|||||||0.9136|||||||Ordinal GEE Model|||||||0.9136
82477930|NCT00653432|164651456|SUPERIORITY|||||||0.1699|||||||Ordinal GEE Model|||||||0.1699
82477931|NCT00653432|164651457|SUPERIORITY|||||||0.3238|||||||Ordinal GEE Model|||||||0.3238
82477932|NCT00653432|164651458|SUPERIORITY|||||||0.0427|||||||Ordinal GEE Model|||||||0.0427
82477933|NCT00653432|164651459|SUPERIORITY|||||||0.8206|||||||Ordinal GEE Model|||||||0.8206
82477934|NCT00653432|164651460|SUPERIORITY|||||||0.9818|||||||Ordinal GEE Model|||||||0.9818
82477935|NCT00653432|164651461|SUPERIORITY|||||||0.0542|||||||Ordinal GEE Model|||||||0.0542
82477936|NCT00653432|164651462|SUPERIORITY|||||||0.323|||||||Ordinal GEE Model|||||||0.3230
82477937|NCT01782469|164651468|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 2 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
82477938|NCT01782469|164651468|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 3 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
82477939|NCT01782469|164651468|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 4 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||<0.001
82552610|NCT05139810|164809524|SUPERIORITY||IC HAE attack rate ratio|0.13|||<|0.001|TWO_SIDED|95.0|0.062|0.281|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.281|0.062|<0.001
82552611|NCT05139810|164809524|SUPERIORITY||IC HAE attack rate ratio|0.4|||=|0.004|TWO_SIDED|95.0|0.212|0.748|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.748|0.212|=0.004
82552612|NCT05139810|164809525|SUPERIORITY||Odds Ratio (OR)|11.79|||=|0.003|TWO_SIDED|95.0|2.34|59.36|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.||||59.36|2.34|=0.003
82552613|NCT05139810|164809525|SUPERIORITY||Odds Ratio (OR)|3.23|||=|0.24|TWO_SIDED|95.0|0.46|22.85|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.||||22.85|0.46|=0.240
82552614|NCT05139810|164809526|SUPERIORITY||IC HAE attack rate ratio|0.11|||<|0.001|TWO_SIDED|95.0|0.035|0.339|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.339|0.035|<0.001
82552615|NCT05139810|164809526|SUPERIORITY||IC HAE attack rate ratio|0.59|||=|0.173|TWO_SIDED|95.0|0.276|1.26|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||1.260|0.276|=0.173
82580832|NCT01302067|164873190|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.76|-1.03||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.03|-1.76|<0.0001
82580833|NCT01302067|164873190|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.15||0.0006|TWO_SIDED|95.0|-0.83|-0.23||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.23|-0.83|0.0006
82552616|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|310.35|||<|0.001|TWO_SIDED|95.0|11.63|8279.94|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 50% Reduction||8279.94|11.63|<0.001
82552617|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|14.8|||<|0.001|TWO_SIDED|95.0|3.15|69.41|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 50% Reduction||69.41|3.15|<0.001
82580834|NCT01302067|164873190|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.23|-0.51||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.51|-1.23|<0.0001
82580835|NCT01302067|164873191|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580836|NCT01302067|164873191|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0040
82580837|NCT01302067|164873191|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580838|NCT01302067|164873192|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82586076|NCT00822523|164884107|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82580839|NCT01302067|164873192|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580840|NCT01302067|164873192|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580841|NCT01302067|164873193|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.02|-0.5||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||-0.50|-1.02|<0.0001
82651026|NCT00294723|165016807|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-2.9||||0.2968||95.0|-8.3|2.5||2-sided significance level 5%|ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||2.5|-8.3|0.2968
82477940|NCT01782469|164651468|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Mean percent reduction in ultrasonography assessment score at Vist 5 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.001
82477941|NCT01782469|164651469|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|||||Mean number of joints with erosions at Vist 2 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||.130
82477942|NCT01782469|164651469|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||Mean number of joints with erosions at Vist 3 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.031
82477943|NCT01782469|164651469|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||Mean number of joints with erosions at Vist 4 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.006
82477944|NCT01782469|164651469|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Mean number of joints with erosions at Vist 5 as compared to Baseline (Visit 1)|Wilcoxon signed-rank test|||||||0.003
82477945|NCT02614469|164651472|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|103.0|||||TWO_SIDED|90.0|98.0|108.0|||||Fed/Fasting Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||108|98.0|
82477946|NCT02614469|164651473|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|99.3|||||TWO_SIDED|90.0|96.9|102.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||102|96.9|
82477947|NCT02614469|164651477|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|103.0|||||TWO_SIDED|90.0|90.9|118.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||118|90.9|
82477948|NCT02614469|164651478|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|83.4|||||TWO_SIDED|90.0|62.1|112.0|||||Fed/Fasted Ratio|To assess the effect of food on the PK of urate, analyses of variance (ANOVA) using a linear mixed-effects model was fitted to the natural logarithmic transformation of PK parameters of urate. The linear mixed-effects model will include subject as a random effect, and treatment, period, and sequence as fixed effects. The 90% confidence intervals were constructed for the ratio of geometric means of PK parameters between fed and fasted treatments, based on log-transformed data.||112|62.1|
82477949|NCT00441116|164651500|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.54|STANDARD_DEVIATION|20.37||0.0319||95.0|0.75|14.33|||t-test, 2 sided||Mean difference = Drug A minus Drug B|Month 6 - Baseline||14.33|0.75|0.0319
82477950|NCT02395172|164651574|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.0721|TWO_SIDED|95.0|0.71|1.05|||Log Rank|||||1.05|0.71|= 0.0721
82586077|NCT00822523|164884107|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
82477951|NCT02395172|164651575|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.77|1.05||||||||1.05|0.77|
82477952|NCT02395172|164651576|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.8|1.27||||||||1.27|0.80|
82477953|NCT02395172|164651577|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.98|1.41||||||||1.41|0.98|
82477954|NCT02395172|164651580|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.92|2.13||||||||2.13|0.92|
82477955|NCT02395172|164651581|SUPERIORITY||Odds Ratio (OR)|1.76|||||TWO_SIDED|95.0|1.08|2.86||||||||2.86|1.08|
82477956|NCT00029146|164651601|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.7||||0.78||95.0|-10.4|13.8|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference. The 2-sided z-statistic was compared to a standard unit normal distribution.The study was terminated early for futility after 195 of the planned 372 participants were enrolled.||13.8|-10.4|0.78
82586078|NCT00822523|164884108|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82477957|NCT00029146|164651602|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|3.5||||0.59|TWO_SIDED|95.0|-9.2|16.1|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors.||16.1|-9.2|0.59
82651027|NCT00294723|165016807|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-1.2||||0.6639||95.0|-6.5|4.1||2-sided significance level 5%|ANCOVA|||Change in postprandial (PPG) from baseline to end of treatment at 52 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||4.1|-6.5|0.6639
82477958|NCT00029146|164651603|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|-3.2||||0.27|TWO_SIDED|95.0|-9.0|2.6|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Negative indicates lower rate in non-surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||2.6|-9.0|0.27
82477959|NCT00029146|164651604|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.3||||0.5|TWO_SIDED|95.0|-2.5|5.2|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||5.2|-2.5|0.50
82477960|NCT00029146|164651605|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|4.0||||0.13|TWO_SIDED|95.0|-1.2|9.7|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||9.7|-1.2|0.13
82477961|NCT00029146|164651606|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|6.5||||0.33|TWO_SIDED|95.0|-6.5|19.6|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.|Positive indicates lower rate in surgical group|Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||19.6|-6.5|.33
82552618|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|34.74|||<|0.001|TWO_SIDED|95.0|7.32|164.87|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 70% Reduction||164.87|7.32|<0.001
82552619|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|9.17|||=|0.004|TWO_SIDED|95.0|2.05|41.09|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 70% Reduction||41.09|2.05|=0.004
82552620|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|17.04|||<|0.001|TWO_SIDED|95.0|3.36|86.42|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 90% Reduction||86.42|3.36|<0.001
82552621|NCT05139810|164809527|SUPERIORITY||Odds Ratio (OR)|8.7|||=|0.014|TWO_SIDED|95.0|1.56|48.52|||Regression, Logistic|p-value was calculated based on logistic regression with baseline and the treatment-by-baseline interaction as a covariate.|The odds ratio and its 95% confidence interval were calculated based on a logistic regression with baseline (the time-normalized run-in period attack rate) and the treatment-by-baseline interaction as a covariate.|≥ 90% Reduction||48.52|1.56|=0.014
82552622|NCT05139810|164809528|SUPERIORITY||IC HAE attack rate ratio|0.08|||<|0.001|TWO_SIDED|95.0|0.03|0.234|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.234|0.030|<0.001
82580842|NCT01302067|164873193|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0662|TWO_SIDED|95.0|-0.41|0.01||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||0.01|-0.41|0.0662
82477962|NCT00029146|164651607|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|-6.6||||0.41|TWO_SIDED|95.0|-20.6|7.3|||Fisher Exact||Negative indicates lower rate in non-surgical group. In this case, lower rate is worse since Rankin 0-1 indicates a good outcome.|||7.3|-20.6|0.41
82477963|NCT00029146|164651608|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|4.4||||0.7|TWO_SIDED|95.0|-8.2|16.9|||Fisher Exact||Positive indicates lower rate in surgical group In this case, lower rate is worse since Rankin 0-2 indicates a good outcome.|||16.9|-8.2|0.70
82477964|NCT00029146|164651609|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Fisher's Exact Test|||||||0.85
82477965|NCT00029146|164651610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.13|TWO_SIDED|95.0|-0.54|0.07|||t-test, 2 sided||Negative indicates lower score in non-surgical group.A higher score indicates better quality of life|||0.07|-0.54|0.13
82477966|NCT00029146|164651611|SUPERIORITY_OR_OTHER||Difference in estimated 2 yr rates|1.5||||0.81|TWO_SIDED|95.0|-10.7|13.7|||2-sided z-statistic|The difference in estimated rates divided by the standard error of that difference was compared to a standard unit normal distribution.||Rates for each group were based on product limit estimates of 2-year rates and their standard errors. The test statistic was calculated as the difference in estimated rates divided by the standard error of that difference.||13.7|-10.7|0.81
82477967|NCT04525885|164651628|SUPERIORITY|Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|Estimated Relative Reduction (%)|8.7||||0.713|TWO_SIDED|95.0|-30.51|70.03|||ANCOVA||Estimated relative reduction (ERR) relative to placebo was calculated by 100 (e\*\*DIFF -1), where e\*\*DIFF=exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.|||70.03|-30.51|0.713
82477968|NCT04525885|164651631|SUPERIORITY||Estimated Relative Reduction (%)|11.58||||0.628|TWO_SIDED|95.0|-28.68|74.57||Comparison based on a longitudinal ANCOVA model that included treatment, visit, treatment-by-visit interaction, gender, log-transformed baseline value, and log-transformed baseline value-by-visit as covariates.|ANCOVA||Estimated relative reduction (ERR) relative to placebo was calculated by 100 (e\*\*DIFF -1), where e\*\*DIFF=exponent of difference; and DIFF= treatment difference in change from baseline at Week 24 based on log transformed data.|||74.57|-28.68|0.628
82477969|NCT04525885|164651632|SUPERIORITY||Odds Ratio (OR)|0.96||||0.917|TWO_SIDED|95.0|0.43|2.13||Comparison based on logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline LCQ total score, and the interaction of baseline LCQ total score by visit as covariates.|Regression, Logistic|||||2.13|0.43|0.917
82477970|NCT04525885|164651633|SUPERIORITY||Odds Ratio (OR)|0.85||||0.687|TWO_SIDED|95.0|0.38|1.88||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline 24-hour coughs per hour and the interaction of baseline 24-hour coughs per hour by visit as covariates.|Regression, Logistic|||||1.88|0.38|0.687
82477971|NCT04525885|164651634|OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.49|2.49||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly CSD total score and the interaction of baseline mean weekly CSD total score by visit as covariates.||2.49|0.49|
82477972|NCT04525885|164651635|OTHER||Odds Ratio (OR)|1.93|||||TWO_SIDED|95.0|0.8|4.64||||||Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly CSD total score, and the interaction of baseline mean weekly CSD total score by visit as covariates||4.64|0.80|
82477973|NCT04525885|164651636|OTHER|Comparison based on a logistic regression model that included treatment, visit, treatment-by-visit interaction, gender, baseline mean weekly VAS score, and the interaction of baseline mean weekly VAS score by visit as covariates.|Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.45|2.72||||||||2.72|0.45|
82477974|NCT00978757|164651641|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82477975|NCT01185353|164651642|SUPERIORITY_OR_OTHER||||||<|0.001||||||A priori p-value significance threshold: 1-sided ≤0.10|Regression, Logistic|||||||<0.001
82477976|NCT01185353|164651644|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.045
82477977|NCT01185353|164651644|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.088
82477978|NCT01185353|164651644|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82477979|NCT01185353|164651644|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82552623|NCT05139810|164809528|SUPERIORITY||IC HAE attack rate ratio|0.33|||=|0.004|TWO_SIDED|95.0|0.155|0.706|||Poisson regression model||Model adjusted rate ratio from Poisson regression model.|The Poisson regression model includes treatment groups, baseline (the run-in period HAE attack rate), the treatment-by-baseline interaction as a covariate, and the logarithm of time in every-4-week that each participant was observed from Week 5 to Week 25 used as an offset variable. Pearson chi-square scaling of standard errors was used in the Poisson regression model to account for potential over dispersion.||0.706|0.155|=0.004
82477980|NCT01185353|164651646|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.003
82477981|NCT01185353|164651646|SUPERIORITY_OR_OTHER|||||||0.162|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.162
82477982|NCT01185353|164651646|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82477983|NCT01185353|164651646|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82477984|NCT01185353|164651648|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.017
82477985|NCT01185353|164651648|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||0.109
82477986|NCT01185353|164651648|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82477987|NCT01185353|164651648|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Fisher Exact|||||||<0.001
82477988|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.480
82477989|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.064
82477990|NCT01185353|164651652|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82477991|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for TJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
82477992|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.116|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.116
82477993|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.201|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.201
82477994|NCT01185353|164651652|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82477995|NCT01185353|164651652|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||P-value is for SJC - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.002
82477996|NCT01185353|164651654|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.003
82477997|NCT01185353|164651654|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.167
82477998|NCT01185353|164651654|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82477999|NCT01185353|164651654|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
82552624|NCT05139810|164809530|SUPERIORITY||Treatment difference|-18.56|||<|0.001|TWO_SIDED|95.0|-27.673|-9.454|||Mixed model with repeated measures(MMRM)|||||-9.454|-27.673|<0.001
82552625|NCT05139810|164809530|SUPERIORITY||Treatment difference|-13.65|||=|0.01|TWO_SIDED|95.0|-24.024|-3.286|||MMRM|||||-3.286|-24.024|=0.010
82552626|NCT02606422|164809561|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82552627|NCT04731818|164809562|SUPERIORITY||Mean Difference (Final Values)|0.0001|||<|0.0001|TWO_SIDED|||||analyzed by 1-way repeated measures analysis of variance (ANOVA) with post hoc Tukey multiple comparison test|ANOVA|1 way repeated measures ANOVA||||||<0.0001
82552628|NCT01456949|164809588|SUPERIORITY||Kaplan-Meier (product-limit) estimator|66.9|||<|0.001|TWO_SIDED|95.0|61.6|71.7|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||71.7|61.6|<0.001
82552629|NCT01456949|164809589|SUPERIORITY||Kaplan-Meier (product-limit) estimator|2.3|||<|0.001|TWO_SIDED|95.0|1.1|4.5|||Exact binomial|Exact binomial p-value is shown, but the confidence intervals reported are calculated from Greenwood's approximation of the standard error.||||4.5|1.1|<0.001
82552630|NCT01456949|164809590|OTHER|Secondary analyses were exploratory. No formal hypotheses or performance criteria were predefined.|||||||||||||||||Freedom from MAFE's was estimated using Kaplan-Meier methods.|||
82552631|NCT01456949|164809591|OTHER|Secondary analyses were exploratory. No formal hypotheses or performance criteria were predefined.|||||||||||||||||Chronic treatment success was estimated at one and two years using Kaplan-Meier methods.|||
82552632|NCT02723591|164809645|SUPERIORITY||Odds Ratio (OR)|1.115||||0.5777|TWO_SIDED|95.0|0.76|1.636|||Regression, Logistic|||Logistic regression with DSA/IA occurrence by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant calculated panel reactivity antibody (cPRA) as fixed effects, and pooled site as a random effect with standard variance components covariance type.||1.636|0.760|0.5777
82478000|NCT01185353|164651656|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.016
82478001|NCT01185353|164651656|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.108
82478002|NCT01185353|164651656|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.008
82478003|NCT01185353|164651656|SUPERIORITY_OR_OTHER|||||||0.368|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.368
82478004|NCT01185353|164651658|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.039
82478005|NCT01185353|164651658|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.458
82478006|NCT01185353|164651658|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.008
82478007|NCT01185353|164651658|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.029
82478008|NCT01185353|164651660|SUPERIORITY_OR_OTHER|||||||0.217|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.217
82478009|NCT01185353|164651660|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.092
82478010|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478011|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Physician's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478012|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478013|NCT01185353|164651660|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.072
82478014|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82552633|NCT02723591|164809648|SUPERIORITY|||||||0.6618|||||||Fisher Exact|||P-values obtained from a 2x3 Exact Test of treatment by strength levels.||||0.6618
82586079|NCT00822523|164884108|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82586080|NCT00822523|164884108|SUPERIORITY_OR_OTHER||r value|0.7||||0.188|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.188
82552634|NCT02723591|164809653|SUPERIORITY||Odds Ratio (OR)|1.038||||0.8518|TWO_SIDED|95.0|0.7|1.539|||Regression, Logistic|||Logistic regression with IA occurrence by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||1.539|0.700|0.8518
82552635|NCT02723591|164809656|SUPERIORITY|||||||1|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||1.0000
82552636|NCT02723591|164809657|SUPERIORITY|||||||0.475|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||0.4750
82552637|NCT02723591|164809658|SUPERIORITY|||||||0.0939|||||||Fisher Exact|||P-values obtained from a 2-sided Fisher's Exact Test of treatment arm by response.||||0.0939
82552638|NCT02723591|164809661|SUPERIORITY||Odds Ratio (OR)|1.431||||0.116|TWO_SIDED|95.0|0.915|2.24|||Regression, Logistic|||Logistic regression with occurrence of eGFR \< 50 by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||2.240|0.915|0.1160
82552639|NCT02723591|164809662|SUPERIORITY||Odds Ratio (OR)|1.212||||0.4995|TWO_SIDED|95.0|0.693|2.12|||Regression, Logistic|||Logistic regression with occurrence of 5-point eGFR decline by Month 12 as response, with treatment group, planned Campath use, KDPI level (as recorded in IVRS), HLA Class II mismatch, recipient age, recipient gender, recipient race, and pre-transplant cPRA as fixed effects, and pooled site as a random effect with standard Variance Components covariance type.||2.120|0.693|0.4995
82552640|NCT02723591|164809680|SUPERIORITY|||||||0.6327|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.6327
82552641|NCT02723591|164809681|SUPERIORITY|||||||0.9701|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.9701
82552642|NCT02723591|164809682|SUPERIORITY|||||||0.3127|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.3127
82552643|NCT02723591|164809683|SUPERIORITY|||||||0.083|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.0830
82552644|NCT02723591|164809684|SUPERIORITY|||||||0.6022|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.6022
82552645|NCT02723591|164809685|SUPERIORITY|P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||||0.9249|||||||Fisher Exact|||||||0.9249
82552646|NCT02723591|164809686|SUPERIORITY|||||||0.9136|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.9136
82552647|NCT02723591|164809687|SUPERIORITY|||||||0.8789|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.8789
82552648|NCT02723591|164809688|SUPERIORITY|||||||0.5574|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.5574
82552649|NCT02723591|164809689|SUPERIORITY|||||||0.815|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.8150
82552650|NCT02723591|164809690|SUPERIORITY|||||||0.5673|||||||Fisher Exact|||P-values obtained from the Exact Test of treatment arm by Banff scoring levels.||||0.5673
82552651|NCT05907174|164809762|SUPERIORITY||B|-2.23||||0.023|TWO_SIDED||||||Regression, Linear|||||||0.023
82552661|NCT06201559|164809801|EQUIVALENCE|Point estimate of geometric mean ratio (GMR) of T/R should be between 80.00 -125.00%. If the intra-subject variability for Cmax following replicate administrations of the comparator product was \> 30%, the acceptance criteria for Cmax was widened to a maximum of 69.84-143.19%.|Ratio of Geometric Least Square Means|98.1|||||TWO_SIDED|90.0|86.79|110.91|||||Geometric least square means were combined to perform statistical analysis of T as T1 + T2 and R as R1 + R2.|||110.91|86.79|
82586081|NCT00822523|164884109|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82586082|NCT00822523|164884109|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82552662|NCT06201559|164809802|EQUIVALENCE|Point estimate of geometric mean ratio (GMR) of T/R should be between 80.00 -125.00%. If the intra-subject variability for AUC(0-t) following replicate administrations of the comparator product was \> 30%, the acceptance criteria for AUC(0-t) was widened to a maximum of 69.84-143.19%.|Ratio of Geometric Least Square Means|97.6|||||TWO_SIDED|90.0|86.86|109.73|||||Geometric least square means were combined to perform statistical analysis of T as T1 + T2 and R as R1 + R2.|||109.73|86.86|
82552663|NCT03526887|164809874|SUPERIORITY||Median Difference (Net)|9.7||||0.016|TWO_SIDED|95.0|9.4|19.1|||Log Rank|||||19.1|9.4|0.016
82552664|NCT04119843|164809891|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.95|STANDARD_DEVIATION|0.824|<|0.001|TWO_SIDED|95.0|0.743|1.165|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 1||1.165|0.743|<0.001
82552665|NCT04119843|164809891|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|0.892|<|0.001|TWO_SIDED|95.0|0.552|1.043|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 2||1.043|0.552|<0.001
82552666|NCT04119843|164809891|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|0.622|<|0.001|TWO_SIDED|95.0|0.494|0.813|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 3||0.813|0.494|<0.001
82552667|NCT04119843|164809892|SUPERIORITY|Reader success of the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.98|STANDARD_DEVIATION|0.853|<|0.001|TWO_SIDED|95.0|0.759|1.196|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 1||1.196|0.759|<0.001
82552668|NCT04119843|164809892|SUPERIORITY|Reader success of the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|0.909|<|0.001|TWO_SIDED|95.0|0.766|1.267|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 2||1.267|0.766|<0.001
82552669|NCT04119843|164809892|SUPERIORITY|Reader success for the primary analysis was achieved if the reading results demonstrated superiority of combined MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|0.678|<|0.001|TWO_SIDED|95.0|0.638|0.985|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (combined MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of combined MRI versus unenhanced MRI: Reader 3||0.985|0.638|<0.001
82552670|NCT04119843|164809894|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.805|<|0.001|TWO_SIDED|95.0|0.555|0.971|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 1||0.971|0.555|<0.001
82552671|NCT04119843|164809894|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|1.059|<|0.001|TWO_SIDED|95.0|0.464|1.054|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 2||1.054|0.464|<0.001
82552672|NCT04119843|164809894|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.59|STANDARD_DEVIATION|0.609|<|0.001|TWO_SIDED|95.0|0.429|0.747|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion border delineation mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 3||0.747|0.429|<0.001
82586083|NCT00822523|164884109|SUPERIORITY_OR_OTHER||r value|0.5||||0.391|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.391
82586084|NCT00822523|164884110|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82552673|NCT04119843|164809895|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.95|STANDARD_DEVIATION|0.852|<|0.001|TWO_SIDED|95.0|0.726|1.166|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 1||1.166|0.726|<0.001
82562012|NCT01930188|164833316|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 1.0 mg and sitagliptin was below the pre-specified non-inferiority margin (0.3 %).|treatment difference|-1.06|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.91|||Mixed Models Analysis|Post-baseline responses analysed with mixed model for repeated measurements-treatment \& country (fixed) \& baseline (covariate) all nested within visit||||-0.91|-1.21|<0.0001
82478015|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of DA - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478016|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478017|NCT01185353|164651660|SUPERIORITY_OR_OTHER|||||||0.082|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.082
82478018|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478019|NCT01185353|164651660|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Patient's Assessment of Pain - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478020|NCT01185353|164651662|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.024
82478021|NCT01185353|164651662|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.030
82478022|NCT01185353|164651662|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478023|NCT01185353|164651662|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478024|NCT01185353|164651664|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||0.120
82478025|NCT01185353|164651664|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||0.012
82478026|NCT01185353|164651664|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||<0.001
82478027|NCT01185353|164651664|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for comparison of the superiority of the LY3009104 dose level vs. placebo for the ordinal levels of response - Week 12. A priori p-value significance threshold: 1-sided ≤0.10.|Cochran-Mantel-Haenszel|||||||<0.001
82478028|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.409
82478029|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.371|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.371
82478030|NCT01185353|164651666|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||<0.001
82478031|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||P-value is for Low Disease Activity - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.007
82478032|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.033
82478033|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.019
82478034|NCT01185353|164651666|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||<0.001
82478035|NCT01185353|164651666|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||P-value is for Remission - Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|Fisher Exact|||||||0.001
82478036|NCT01185353|164651668|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.015
82478037|NCT01185353|164651668|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.073
82478038|NCT01185353|164651668|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478039|NCT01185353|164651668|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for Week 12. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478040|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.021
82478041|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.194|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.194
82478042|NCT01185353|164651669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478043|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||P-value is for PCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.012
82552674|NCT04119843|164809895|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.73|STANDARD_DEVIATION|1.261|<|0.001|TWO_SIDED|95.0|0.38|1.082|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 2||1.082|0.380|<0.001
82552675|NCT04119843|164809895|SUPERIORITY|Reader success was achieved if the reading results demonstrated superiority of mangoral-enhanced MRI versus unenhanced MRI for both lesion border delineation and lesion contrast. The acceptance by two out of three readers was considered to be a successful demonstration of efficacy in the study.|Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.786|<|0.001|TWO_SIDED|95.0|0.517|0.927|||t-test, 1 sided|p-values show a one-sided t-test with a significance level of 0.025.|Positive changes in lesion contrast mean difference (mangoral-enhanced MRI compared to unenhanced MRI) represents a better outcome.|Paired difference of mangoral-enhanced MRI versus unenhanced MRI: Reader 3||0.927|0.517|<0.001
82552676|NCT04005794|164810016|OTHER|||||||0.004||||||Social latency t = 3.215|t-test, 2 sided|||||||0.004
82552677|NCT04005794|164810017|OTHER|||||||0.213|||||||ANOVA|||||||0.213
82552678|NCT04005794|164810018|OTHER|||||||0.01|||||||ANOVA|||||||0.01
82552679|NCT04005794|164810019|OTHER|||||||0.004|||||||ANOVA|||||||0.004
82552680|NCT04005794|164810020|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82552681|NCT03511664|164810088|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.001|TWO_SIDED|99.2|0.29|0.57|||Log Rank|one-sided stratified log-rank test||||0.57|0.29|< 0.001
82552682|NCT03511664|164810089|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.52|0.74|||Log Rank|one-sided stratified log-rank test||Primary OS Analysis||0.74|0.52|<0.001
82552683|NCT03511664|164810089|SUPERIORITY||Cox Proportional Hazard|0.68|||||TWO_SIDED|95.0|0.58|0.81|||||Cox PH model stratified by LDH (≤260 vs. \>260 IU/L), liver metastases (yes/no), ECOG score (0-1 vs. 2), and NAAD inclusion in best supportive care at randomization (yes/no). IRT data used for stratification|Final OS analysis||0.81|0.58|
82552684|NCT03511664|164810091|SUPERIORITY||Odds Ratio (OR)|24.99|||<|0.001|TWO_SIDED|95.0|6.05|103.24|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||103.24|6.05|< 0.001
82552685|NCT03511664|164810092|SUPERIORITY||Odds Ratio (OR)|5.79|||<|0.001|TWO_SIDED|95.0|3.18|10.55|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||10.55|3.18|< 0.001
82552686|NCT03511664|164810094|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.62|||Log Rank|Two-sided stratified log-rank test||||0.62|0.40|< 0.001
82552687|NCT03511664|164810095|SUPERIORITY||Cox Proportional Hazard|0.3|||<|0.001|TWO_SIDED|95.0|0.24|0.38|||Log Rank|Two-sided stratified log-rank test||||0.38|0.24|< 0.001
82586085|NCT00822523|164884110|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82552688|NCT03511664|164810097|SUPERIORITY||Odds Ratio (OR)|11.19|||<|0.001|TWO_SIDED|95.0|6.3|20.0|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||20.0|6.3|< 0.001
82552689|NCT03511664|164810098|SUPERIORITY||Odds Ratio (OR)|23.6|||<|0.001|TWO_SIDED|95.0|8.6|65.1|||Chi-squared|Two-sided Wald's Chi-square test (stratified)||||65.1|8.6|< 0.001
82552690|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.69|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.69|0.40|<0.001
82552691|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.35|0.61|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.61|0.35|<0.001
82478044|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.449|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.449
82552692|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.28|0.48|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.48|0.28|<0.001
82552693|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.88||||0.38|TWO_SIDED|95.0|0.66|1.17|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||1.17|0.66|0.38
82552694|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.69||||0.013|TWO_SIDED|95.0|0.52|0.93|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||0.93|0.52|0.013
82552695|NCT01922050|164810127|SUPERIORITY||Rate ratio|0.79||||0.13|TWO_SIDED|95.0|0.58|1.07|||Negative binominal regression|Negative binominal regression with log baseline count as offset variable and treatment group and analysis site as factors.||||1.07|0.58|0.13
82552696|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|0.74||||0.57|TWO_SIDED|95.0|0.27|2.04|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.04|0.27|0.57
82552697|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|1.33||||0.51|TWO_SIDED|95.0|0.56|3.13|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||3.13|0.56|0.51
82552698|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|1.9||||0.11|TWO_SIDED|95.0|0.86|4.21|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||4.21|0.86|0.11
82586086|NCT00822523|164884110|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.0374
82586087|NCT00822523|164884111|SUPERIORITY_OR_OTHER||r value|0.99|||<|0.0001|TWO_SIDED||||||Spearman Correlation Test|||Day 4||||<0.0001
82552699|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|1.79||||0.21|TWO_SIDED|95.0|0.72|4.43|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||4.43|0.72|0.21
82552700|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|2.55||||0.031|TWO_SIDED|95.0|1.09|5.98|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||5.98|1.09|0.031
82552701|NCT01922050|164810128|SUPERIORITY||Ratio of clearance rates|1.43||||0.29|TWO_SIDED|95.0|0.74|2.75|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.75|0.74|0.29
82552702|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|1.69||||0.026|TWO_SIDED|95.0|1.06|2.69|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.69|1.06|0.026
82552703|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|1.79||||0.013|TWO_SIDED|95.0|1.13|2.84|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||2.84|1.13|0.013
82552704|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|2.1|||<|0.001|TWO_SIDED|95.0|1.35|3.25|||Log binomial regression|||||3.25|1.35|<0.001
82552705|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|1.06||||0.73|TWO_SIDED|95.0|0.76|1.47|||Log binomial regression|||||1.47|0.76|0.73
82552706|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|1.24||||0.16|TWO_SIDED|95.0|0.92|1.67|||Log binomial regression|||||1.67|0.92|0.16
82552707|NCT01922050|164810129|SUPERIORITY||Ratio of clearance rates|1.17||||0.3|TWO_SIDED|95.0|0.87|1.57|||Log binomial regression|||Log binomial regression with treatment group as factor and baseline AK count included as covariate.||1.57|0.87|0.30
82552708|NCT05764525|164810161|SUPERIORITY||Difference of least squares mean|6.938||||0.0047|TWO_SIDED|95.0|2.145|11.731|||ANOVA|||||11.731|2.145|0.0047
82552709|NCT03334630|164810164|NON_INFERIORITY|Assuming a Control composite SAE freedom rate of 93.5%, 226 subjects per group yields 80% power to detect a non-inferiority margin of -6.5% between treatment groups at a significance level of 0.025.|Risk Difference (RD)|0.0324|||<|0.0001|TWO_SIDED|95.0|-0.0132|0.0779||The a priori threshold for statistical significance is 0.025.|Farrington-Manning non-inferiority test||Estimated risk difference = DiamondTemp composite SAE freedom rate - Control composite SAE freedom rate = 3.24% = 0.0324|Null hypothesis: the DiamondTemp arm is inferior to the Control arm. Alternative hypothesis: the DiamondTemp arm is non-inferior to the Control arm.||0.0779|-0.0132|<0.0001
82552710|NCT03334630|164810165|NON_INFERIORITY|Assuming a Control primary effectiveness rate of 65%, 229 subjects per group yields 80% power to detect a non-inferiority margin of -12.5% between treatment groups at a significance level of 0.025.|Risk Difference (RD)|0.034|||<|0.0001|TWO_SIDED|95.0|-0.042|0.109||The a priori threshold for statistical significance is 0.025.|Farrington-Manning non-inferiority test||Estimated risk difference = DiamondTemp composite SAE freedom rate - Control composite SAE freedom rate = 3.4% = 0.034|Null hypothesis: the DiamondTemp arm is inferior to the Control arm. Alternative hypothesis: the DiamondTemp arm is non-inferior to the Control arm.||0.109|-0.042|<0.0001
82552711|NCT03334630|164810166|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-17.9|||<|0.0001|TWO_SIDED|95.0|-21.2|-14.6||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||-14.6|-21.2|<0.0001
82552712|NCT03334630|164810167|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-11.9|||<|0.0001|TWO_SIDED|95.0|-13.9|-9.8||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||-9.8|-13.9|<0.0001
82552713|NCT03334630|164810176|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-5.7|||||TWO_SIDED|95.0|-14.4|3.1||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.||Since the previous secondary endpoint (Total fluoroscopy time) was non-significant, testing stopped and this secondary endpoint was not tested.|Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||3.1|-14.4|
82562013|NCT01930188|164833316|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper limit of the two-sided 95% confidence interval for the estimated treatment difference between semaglutide 0.5 mg and sitagliptin was below the pre-specified non-inferiority margin (0.3 %).|treatment difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.62|||Mixed Models Analysis|Analysis done with mixed model for repeated measurements (treatment \& country as fixed factors \& baseline value as covariate) all nested within visit||||-0.62|-1.21|<0.0001
82552714|NCT03334630|164810181|SUPERIORITY|"Four secondary endpoints will be tested for superiority over Control hierarchically with pre-specified order:~1. Mean duration of individual RF ablations (seconds)~2. Mean cumulative RF time per procedure (minutes)~3. Total fluoroscopy time (minutes)~4. Total procedure time (minutes) The first secondary endpoint needs to be significant at the two-sided 0.05 alpha level before the next one can be tested at the same threshold. Testing stops once an endpoint is determined to be non-significant."|Mean Difference (Final Values)|-0.2||||0.8528|TWO_SIDED|95.0|-1.9|1.6||The a priori threshold for statistical significance is 0.05 two-sided. The p-value is adjusted for multiple comparisons via the hierarchical testing approach.|t-test, 2 sided||Difference is DiamondTemp minus Control. A lower value is better.|"Null hypothesis: the population means for the DiamondTemp and Control groups are not different.~Alternative hypothesis: the population means for the DiamondTemp and Control groups are different."||1.6|-1.9|0.8528
82552715|NCT05093842|164810195|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82552716|NCT05093842|164810196|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82552717|NCT05093842|164810197|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82552718|NCT05093842|164810198|OTHER|Descriptive rates were calculated.|||||||||||||||||Descriptive statistics only|||
82552719|NCT05093842|164810199|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
82552720|NCT05093842|164810200|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
82552721|NCT05093842|164810201|OTHER|Descriptive statistics only|||||||||||||||||Descriptive statistics only|||
82552722|NCT03910478|164810208|EQUIVALENCE|A two-sided Wald-test for evidence of a non-zero coefficient for intervention group in the regression was conducted at the 5% significance level.|Odds Ratio (OR)|0.948||||0.892|TWO_SIDED|95.0|0.438|2.053|||Regression, Logistic|The logistic regression was adjusted by covariates (transplant site and participant's perceived ease of access to blood draw facility).||A traditional logistic regression model was fit where the outcome was whether or not participants completed \> 90% of their clinician-recommended CMV monitoring tests in the study period by 1-year after HCT.||2.053|0.438|0.8920
82552723|NCT03910478|164810209|EQUIVALENCE|A two-sided Wald-test for evidence of a non-zero coefficient for intervention group in the regression was conducted at the 5% significance level.|Odds Ratio (OR)|0.66||||0.3008|TWO_SIDED|95.0|0.301|1.45|||Regression, Logistic|The logistic regression was adjusted by covariates (transplant site and participant's perceived ease of access to blood draw facility).||A traditional logistic regression model was fit where the outcome was whether or not participants completed \> 90% of their clinician -recommended CMV monitoring tests in the study period by 1-year after HCT.||1.450|0.301|0.3008
82552724|NCT03987022|164810243|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||.16
82552725|NCT03987022|164810244|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82552726|NCT03987022|164810245|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||.01
82552727|NCT03987022|164810246|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82552728|NCT03987022|164810247|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||.58
82552729|NCT03987022|164810248|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||.47
82552730|NCT03987022|164810249|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82478045|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.578|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.578
82552731|NCT03987022|164810250|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||.02
82552732|NCT03987022|164810251|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82552733|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-178.789|||<|0.0001|TWO_SIDED|95.0|-204.899|-152.678|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-152.678|-204.899|<.0001
82552734|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-184.391|||<|0.0001|TWO_SIDED|95.0|-211.184|-157.598|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-157.598|-211.184|<.0001
82552735|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-175.1|||<|0.0001|TWO_SIDED|95.0|-200.964|-149.237|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-149.237|-200.964|<.0001
82562014|NCT00337610|164833332|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.02|STANDARD_DEVIATION|1.19|<|0.001||95.0|-1.36|-0.67|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic agent (AHA) \[medication\] (on Monotherapy AHA or on Metformin-based combination therapy)||||-0.67|-1.36|<0.001
82586088|NCT00822523|164884111|SUPERIORITY_OR_OTHER||r value|0.9||||0.0374|TWO_SIDED||||||Spearman Correlation Test|||Day 14||||0.0374
82562015|NCT00337610|164833333|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.5|STANDARD_DEVIATION|42.2|<|0.001||95.0|-37.7|-13.3|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-13.3|-37.7|<0.001
82478046|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.140
82478047|NCT01185353|164651669|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|||||P-value is for MCS. A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.266
82478048|NCT01185353|164651670|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|A priori p-value significance threshold: 2-sided ≤0.10.||||||0.005
82478049|NCT01185353|164651670|SUPERIORITY_OR_OTHER|||||||0.135|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.135
82478050|NCT01185353|164651670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||<0.001
82478051|NCT01185353|164651670|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.001
82478052|NCT01185353|164651671|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.203
82478053|NCT01185353|164651671|SUPERIORITY_OR_OTHER|||||||0.164|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.164
82478054|NCT01185353|164651671|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.018
82478055|NCT01185353|164651671|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED|||||A priori p-value significance threshold: 2-sided ≤0.10.|ANCOVA|||||||0.097
82478056|NCT02270944|164651678|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|1.02|||||TWO_SIDED|95.0|0.79|1.32|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||To demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes Ia when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.32|0.79|
82478057|NCT02270944|164651679|NON_INFERIORITY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|0.99|||||TWO_SIDED|95.0|0.76|1.3|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||to demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes III when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.30|0.76|
82478058|NCT02270944|164651680|NON_INFERIORITY|To assess the vaccine formulations equivalence, the lower limit of the two-sided 95% confidence interval (CI) for the ratio of GMCs at Day 31 after vaccination must be \> 0.5 and the upper limit of the two-sided 95% CI must be \< 2.0 (the entire two-sided 95% CI must be contained in the 0.5, 2.0 interval).|Ratio of GMCs|0.94|||||TWO_SIDED|95.0|0.72|1.22|||ANCOVA|Analysis of covariance (ANCOVA) model with vaccine group and center as fixed effects and log10-prevaccination antibody concentration as a covariate||to demonstrate the equivalence of the liquid GBS trivalent vaccine formulation to the lyophilized GBS trivalent vaccine formulation for serotypes Ib when administered to healthy non-pregnant women, as measured by geometric mean concentrations (GMC).||1.22|0.72|
82478059|NCT02342418|164651697|SUPERIORITY_OR_OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82478060|NCT02342418|164651698|SUPERIORITY_OR_OTHER|||||||0.214|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon matched-pair signed-rank test||||0.214
82478061|NCT00428584|164651703|SUPERIORITY_OR_OTHER|||||||0.524||||||P value refers to mean change to 30 minute post injection|ANOVA|||The primary efficacy endpoint was analyzed by using a two-way ANOVA model on ranked data including treatment group and site as fixed effect.||||0.524
82478062|NCT00428584|164651704|SUPERIORITY_OR_OTHER|||||||0.484|||||||ANOVA|||||||0.484
82478063|NCT00428584|164651705|SUPERIORITY_OR_OTHER|||||||0.838|||||||ANOVA|||||||0.838
82478064|NCT00428584|164651706|SUPERIORITY_OR_OTHER|||||||0.451||||||No pain is defined as a VAS = 0 for all 21 full dose injections.|Cochran-Mantel-Haenszel|||||||0.451
82478065|NCT00428584|164651707|SUPERIORITY_OR_OTHER|||||||0.338|||||||ANOVA|||||||0.338
82478066|NCT03259620|164651722|SUPERIORITY|||||||0.2587|||||||Cochran-Mantel-Haenszel|||||||0.2587
82478067|NCT02390791|164651733|SUPERIORITY|||||||0.04|||||||generalized linear model|assuming a Poisson distribution with a log link function||||||0.04
82478068|NCT02390791|164651734|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82478069|NCT02390791|164651735|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
82478070|NCT02390791|164651736|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||||||0.69
82478071|NCT02390791|164651737|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82478072|NCT02390791|164651738|SUPERIORITY|||||||0.94|||||||Wilcoxon (Mann-Whitney)|||||||0.94
82478073|NCT02390791|164651739|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82478074|NCT02390791|164651740|SUPERIORITY|||||||0.15|||||||Chi-squared|||||||0.15
82478075|NCT02390791|164651741|SUPERIORITY|||||||0.48|||||||generalized linear model|||||||0.48
82478076|NCT02390791|164651742|SUPERIORITY|||||||0.71|||||||generalized linear model|||||||0.71
82478077|NCT01181986|164651798|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for treatment sequence, group (diabetes duration) and time.||||||<0.0001
82478078|NCT01181986|164651798|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANCOVA|Adjusted for treatment sequence.||||||0.006
82478079|NCT01181986|164651798|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|Adjusted for treatment sequence.||||||0.003
82478080|NCT01181986|164651799|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Adjusted for treatment sequence and diabetes duration group.||||||<0.0001
82478081|NCT01181986|164651800|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82586089|NCT00822523|164884111|SUPERIORITY_OR_OTHER||r value|0.4||||0.505|TWO_SIDED||||||Spearman Correlation Test|||Month 4||||0.505
82478082|NCT03602560|164651810|OTHER|The primary endpoint was analyzed using Cochran-Mantel-Haenszel (CMH) test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 2:350 U/L; pruritus NRS: \<4 and 2:4).|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82478083|NCT03602560|164651810|OTHER|The primary endpoint was analyzed using Cochran-Mantel-Haenszel (CMH) test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 2:350 U/L; pruritus NRS: \<4 and 2:4).|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82478084|NCT03602560|164651811|OTHER|Two-sided p-value for each pair-wise comparison was based on the CMH test adjusted for both randomization stratification variables (ALP level: \<350 U/L and 350 U/L; pruritus NRS: \<4 and 4). Breslow-Day test was used to check the homogeneity of treatment effects across stratum.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82478085|NCT03602560|164651811|OTHER|Two-sided p-value for each pair-wise comparison is based on the Cochran Mantel Haenszel test adjusted for both randomization stratification variables (ALP level: \< 350 U/L and \>= 350 U/L; pruritus NRS: \< 4 and \>= 4). Breslow-Day test is used to check the homogeneity of treatment effects across stratum.||||||0.0839|||||||Cochran-Mantel-Haenszel|||||||0.0839
82478086|NCT03602560|164651812|OTHER|"Change from baseline is estimated by an analysis of covariance (ANCOVA) model with treatment group (including 3 levels:~Placebo, Initial Dose 5mg, and Initial Dose 10 mg) and randomization ALP stratification as factors, and baseline as a covariate.~The p-value for the interaction between treatment and stratum is 0.7595, hence the interaction is dropped from the model."|Risk Difference (RD)|-1.59||||0.0164|TWO_SIDED|95.0|-2.87|-0.3|||ANCOVA|||||-0.3|-2.87|0.0164
82478087|NCT03602560|164651812|OTHER|"Change from baseline is estimated by an analysis of covariance (ANCOVA) model with treatment group (including 3 levels:~Placebo, Initial Dose 5mg, and Initial Dose 10 mg) and randomization ALP stratification as factors, and baseline as a covariate.~The p-value for the interaction between treatment and stratum is 0.7595, hence the interaction is dropped from the model."|Risk Difference (RD)|-0.46||||0.4781|TWO_SIDED|95.0|-1.77|0.84|||ANCOVA|||||0.84|-1.77|0.4781
82478088|NCT01330017|164651824|SUPERIORITY_OR_OTHER|||||||0.4912||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.4912
82478089|NCT01330017|164651824|SUPERIORITY_OR_OTHER|||||||0.4519||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.4519
82478090|NCT01330017|164651824|SUPERIORITY_OR_OTHER|||||||0.2186||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.2186
82478091|NCT01330017|164651824|SUPERIORITY_OR_OTHER|||||||0.5983||95.0||||The p-value reflects mean change from baseline vs. placebo from an ANCOVA model with adjustments for baseline reflective score value, investigative site, age, and gender.|ANCOVA|||||||0.5983
82478092|NCT01221272|164651840|SUPERIORITY_OR_OTHER||Mixed Models Analysis|0.67||||0.29|TWO_SIDED|95.0|-0.6|1.9||The null hypothesis that ranolazine treatment had no effect on PDS would be rejected if the PDS and TPD p-values were less than 0.05 or the PDS p-value was less than 0.05/2 = 0.025.|Mixed Models Analysis|||||1.9|-0.6|0.29
82478093|NCT01221272|164651841|SUPERIORITY_OR_OTHER||Mixed Models Analysis|0.65||||0.22|TWO_SIDED|95.0|-0.4|1.7||The null hypothesis that ranolazine treatment had no effect on TPD would be rejected if the PDS and TPD p-values were less than 0.05 or the TPD p-value was less than 0.05/2 = 0.025.|Mixed Models Analysis|||||1.7|-0.4|0.22
82562016|NCT00337610|164833334|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.1|STANDARD_DEVIATION|63.8|<|0.001||95.0|-74.7|-33.6|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-33.6|-74.7|<0.001
82478094|NCT02043899|164651857|OTHER|"1. Exact one-sided binomial test of the null hypothesis (p≤90%) using α=0.05 on \[124I\]mIBG PET/CT SIOPEN consensus scores. If this was accepted and the alternative hypothesis rejected, then trial stopped early for futility.~2. If the null hypothesis was rejected, then a one-sided binomial test of the null hypothesis (p≥97%) was performed (α=0.025). If this was accepted and the alternative hypothesis rejected then the trial stopped early for efficacy."|||||<|0.001||||||Overall design has 82% power and an α of 0.03. Total minimum sample size of 100 lesions was calculated based on a single stage A'hern design with p0 = 0.90 and p1 = 0.97. The overall power and α was calculated based on exact binomial probabilities.|Exact one-sided binomial test||||"For the primary endpoint, a sensitivity analysis was also performed on patients with \<20 positive lesions on \[124I\]mIBG PET/CT to test if few patients with large numbers of positive lesions were affecting the results. The results of the sensitivity analysis were consistent with those of the overall analysis.~Secondary efficacy analysis, separate exact one-sided binomial test of the null hypothesis (p≥97%), performed (α=0.025) performed for skeletal and soft tissue lesions."|||<0.001
82478095|NCT00362180|164651867|SUPERIORITY_OR_OTHER|||||||0.7244|TWO_SIDED||||||exact Wilcoxon Rank-sum test|||The p-value is a comparison between the placebo group and the mipomersen group in Cohort E as a change from Baseline to Day 26.||||0.7244
82478096|NCT00362180|164651867|SUPERIORITY_OR_OTHER|||||||0.0513|TWO_SIDED||||||exact Wilcoxon Rank-sum test|||The p-value is a comparison between the placebo group and the mipomersen group in Cohort E as a change from Baseline to Day 99.||||0.0513
82562017|NCT00337610|164833335|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.01|STANDARD_DEVIATION|1.34|<|0.001||95.0|-1.4|-0.62|||ANCOVA|Model terms: treatment; baseline; prior anti-hyperglycemic medication (on Monotherapy AHA or on Metformin-based combination therapy)||||-0.62|-1.40|<0.001
82478097|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The upper limit (UL) of the standardized asymptotic 95% confidence interval (CI) on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix™/Hib vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||4.72|-4.78|
82562018|NCT04012970|164833336|SUPERIORITY||||||<|0.05|||||||ANOVA|2-way, repeated measures||||||<0.05
82552736|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-161.576|||<|0.0001|TWO_SIDED|95.0|-187.543|-135.609|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-135.609|-187.543|<.0001
82552737|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-172.983|||<|0.0001|TWO_SIDED|95.0|-192.08|-153.886|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-153.886|-192.080|<.0001
82552738|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-3.585||||0.7781|TWO_SIDED|95.0|-28.572|21.401|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||21.401|-28.572|0.7781
82552739|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-7.764||||0.5457|TWO_SIDED|95.0|-32.993|17.465|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||17.465|-32.993|0.5457
82552740|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-175.203|||<|0.0001|TWO_SIDED|95.0|-220.445|-129.961|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-129.961|-220.445|<.0001
82552741|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-176.627|||<|0.0001|TWO_SIDED|95.0|-222.672|-130.582|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-130.582|-222.672|<.0001
82562019|NCT04012970|164833336|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Stiffness change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.01
82562020|NCT04012970|164833337|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
82562021|NCT04012970|164833337|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Stiffness change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.01
82562022|NCT04012970|164833338|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
82562023|NCT04012970|164833338|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Tone change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.05
82562024|NCT04012970|164833339|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
82562025|NCT04012970|164833339|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Tone change ran with covariates (baseline stiffness, BMI, ODI, waist circumference, height and gender).||||<0.05
82562026|NCT04012970|164833340|SUPERIORITY||||||<|0.01|||||||ANOVA|2-way, repeated measures||||||<0.01
82562027|NCT04012970|164833341|SUPERIORITY||||||<|0.001|||||||ANOVA|2-way, repeated measures||||||<0.001
82562028|NCT04867382|164833342|SUPERIORITY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.27||0.63|TWO_SIDED||||||t-test, 2 sided|||||||.63
82562029|NCT04867382|164833343|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.27|TWO_SIDED||||||t-test, 2 sided|||||||0.27
82580843|NCT01302067|164873193|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.3||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||-0.30|-0.82|<0.0001
82580844|NCT01302067|164873194|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580845|NCT01302067|164873194|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580846|NCT01302067|164873195|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580847|NCT01302067|164873195|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0006
82580848|NCT01302067|164873195|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0001
82478098|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||6.94|-3.53|
82478099|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 1 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 1 antibodies, one month after vaccination.||4.72|-4.78|
82478100|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.78||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.78|-4.78|
82478101|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.72|-4.78|
82499105|NCT05355805|164689213|SUPERIORITY||Risk Difference (RD)|6.56|STANDARD_ERROR_OF_MEAN|6.764||0.3322|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR100."||||0.3322
82580849|NCT01302067|164873196|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.55|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-2.04|-1.06||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.06|-2.04|<0.0001
82552742|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-171.515|||<|0.0001|TWO_SIDED|95.0|-216.626|-126.404|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-126.404|-216.626|<.0001
82552743|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-153.812|||<|0.0001|TWO_SIDED|95.0|-199.27|-108.354|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-108.354|-199.270|<.0001
82552744|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-165.22|||<|0.0001|TWO_SIDED|95.0|-195.898|-134.541|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-134.541|-195.898|<.0001
82552745|NCT04800211|164810264|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-22.815||||0.2188|TWO_SIDED|95.0|-59.223|13.593|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||13.593|-59.223|0.2188
82552746|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-248.311|||<|0.0001|TWO_SIDED|95.0|-286.423|-210.199|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-210.199|-286.423|<.0001
82552747|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-247.572|||<|0.0001|TWO_SIDED|95.0|-280.904|-214.241|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-214.241|-280.904|<.0001
82562030|NCT04867382|164833344|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.37|TWO_SIDED||||||t-test, 2 sided|||||||.37
82562031|NCT04867382|164833345|SUPERIORITY||Odds Ratio (OR)|1.75||||0.12|TWO_SIDED|95.0|0.86|3.57|||Regression, Logistic|||||3.57|0.86|.12
82562032|NCT02102724|164833355|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||The null hypotheses were that there are no differences between the two groups' change scores for any study outcomes. The power analysis was based on a study of krill oil for reducing CRP levels in persons with arthritis (N = 90) that yielded an effect size (Cohen's d) of 1.2. A sample size of 37 was determined to yield a power of 0.80 to detect an effect size of 1.0 with a two-tailed alpha of 0.05.|The change scores of the two groups (week 12 minus baseline) were compared using Wilcoxon rank sum tests.|||< 0.05
82552748|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-245.868|||<|0.0001|TWO_SIDED|95.0|-284.945|-206.791|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-206.791|-284.945|<.0001
82552749|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-234.942|||<|0.0001|TWO_SIDED|95.0|-271.603|-198.282|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-198.282|-271.603|<.0001
82552750|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-244.049|||<|0.0001|TWO_SIDED|95.0|-275.269|-212.829|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-212.829|-275.269|<.0001
82552751|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-221.385|||<|0.0001|TWO_SIDED|95.0|-258.371|-184.398|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-184.398|-258.371|<.0001
82562033|NCT01326455|164833356|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|TWO_SIDED|95.0|||||Chi-squared|||Lancaster et. al. (2004) quoted the number 30 as a general sample size for a pilot study. Each arm of this study had 25 people (due to time constraints), giving a total of 75 people. The data were analyzed using t-tests for equality of means, a two-way analysis of variance (ANOVA), and chi-square. Significance was set at p \< 0.05.||||0.25
82562034|NCT01326455|164833357|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||Chi-squared|||||||0.47
82562035|NCT01326455|164833358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||ANOVA|||||||0.002
82562036|NCT01326455|164833358|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||||||<0.001
82562037|NCT01326455|164833358|SUPERIORITY_OR_OTHER_LEGACY|||||||0.144|||||||ANOVA|||||||0.144
82580850|NCT01302067|164873196|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0121|TWO_SIDED|95.0|-0.92|-0.11||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.11|-0.92|0.0121
82580851|NCT01302067|164873196|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.52|-0.55||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.55|-1.52|<0.0001
82651028|NCT00294723|165016808|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.81||||0.172||95.0|-9.28|1.66||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.66|-9.28|0.1720
82478102|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 2 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 2 antibodies, one month after vaccination.||4.72|-4.78|
82478103|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 1\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 1) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||6.94|-3.53|
82478104|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 2\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|1.28|||||TWO_SIDED|95.0|-3.53|6.94||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 2) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||6.94|-3.53|
82500537|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.055|0.055|||Mixed model for repeated measures|||72 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.055|-0.055|0.994
82500538|NCT02772081|164691789|SUPERIORITY||Adjusted mean difference|-0.004||||0.853|TWO_SIDED|95.0|-0.048|0.04|||Mixed model for repeated measures|||120 hours, Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure FiO2 as a covariate.||0.040|-0.048|0.853
82500539|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|-10.4||||0.09|TWO_SIDED|95.0|-22.6|1.7|||Mixed model for repeated measures|||T0; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||1.7|-22.6|0.090
82562038|NCT01326455|164833359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.372|||||||ANOVA|||||||0.372
82562039|NCT01326455|164833360|SUPERIORITY_OR_OTHER_LEGACY|||||||0.468|||||||Chi-squared|||||||0.468
82562040|NCT02008916|164833368|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0093|TWO_SIDED|95.0|1.24|4.69|||Regression, Logistic|||||4.69|1.24|0.0093
82562041|NCT02008916|164833368|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0037|TWO_SIDED|95.0|1.38|5.21|||Regression, Logistic|||||5.21|1.38|0.0037
82562042|NCT02008916|164833369|SUPERIORITY||Odds Ratio (OR)|2.59||||0.01|TWO_SIDED|95.0|1.26|5.35|||Regression, Logistic|||||5.35|1.26|0.0100
82562043|NCT02008916|164833369|SUPERIORITY||Odds Ratio (OR)|2.81||||0.0051|TWO_SIDED|95.0|1.36|5.78|||Regression, Logistic|||||5.78|1.36|0.0051
82500540|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|-0.3||||0.917|TWO_SIDED|95.0|-6.4|5.8|||Mixed model for repeated measures|||5 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.8|-6.4|0.917
82500541|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|-1.5||||0.668|TWO_SIDED|95.0|-8.5|5.6|||Mixed model for repeated measures|||15 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.6|-8.5|0.668
82500542|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|4.0||||0.149|TWO_SIDED|95.0|-1.5|9.6|||Mixed model for repeated measures|||30 min; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||9.6|-1.5|0.149
82500543|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|1.8||||0.318|TWO_SIDED|95.0|-1.9|5.5|||Mixed model for repeated measures|||1 hour; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||5.5|-1.9|0.318
82500544|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|1.6||||0.148|TWO_SIDED|95.0|-0.6|3.7|||Wilcoxon (Mann-Whitney)|||6 hour; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||3.7|-0.6|0.148
82500545|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|3.3||||0.333|TWO_SIDED|95.0|-3.6|10.2|||Mixed model for repeated measures|||12 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||10.2|-3.6|0.333
82500546|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|0.9||||0.56|TWO_SIDED|95.0|-2.2|4.0|||Mixed model for repeated measures|||24 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.0|-2.2|0.560
82580852|NCT01302067|164873197|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.02|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-2.55|-1.49||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-1.49|-2.55|<0.0001
82478105|NCT01106092|164651874|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group \[Zilbrix/Hib/Poliorix Group - GSK2036874A Group 3\] difference in percentage of seroprotected subjects ≤ 10%. The lower limit of the asymptotic 95% CI on the geometric mean of the individual ratios (post- over pre-booster titres) for anti-poliovirus type 3 is ≥ 2.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-4.78|4.72||||||To demonstrate the non-inferiority of GSK2036874A vaccine (Formulation 3) compared to Poliorix™ vaccine co-administered with Zilbrix/Hib™ vaccine, in terms of seroprotection rates to the three poliovirus types and to demonstrate that the formulation induces at least a two-fold increase in the geometric mean of the individual ratios (post- over pre-booster titres) for anti-polio type 3 antibodies, one month after vaccination.||4.72|-4.78|
82478106|NCT03930264|164651892|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of Cmax for tablet and suspension were required to be within the 80 to 125% range.|Odds Ratio (OR)|1.12||||0.3008|TWO_SIDED|90.0|0.93|1.35|||ANOVA|||||1.35|0.93|0.3008
82552752|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-233.626|||<|0.0001|TWO_SIDED|95.0|-261.113|-206.14|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-206.140|-261.113|<.0001
82552753|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|26.266||||0.1672|TWO_SIDED|95.0|-11.13|63.661|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||63.661|-11.130|0.1672
82552754|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.051||||0.014|TWO_SIDED|95.0|-71.881|-8.221|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-8.221|-71.881|0.0140
82562044|NCT02008916|164833370|SUPERIORITY||Relative treatment effect|0.51|||<|0.0001|TWO_SIDED|95.0|0.38|0.68|||Mixed Models Analysis||Relative treatment effect = exponential of the difference in LSM on the log e scale or the geometric LSM ratio on the original scale. For values less than 1, AIN457 has a greater reduction than Placebo.|||0.68|0.38|<0.0001
82562045|NCT02008916|164833370|SUPERIORITY||Relative treatment effect|0.44|||<|0.0001|TWO_SIDED|95.0|0.33|0.6|||Mixed Models Analysis||Relative treatment effect = exponential of the difference in LSM on the log e scale or the geometric LSM ratio on the original scale. For values less than 1, AIN457 has a greater reduction than Placebo.|||0.60|0.33|<0.0001
82580853|NCT01302067|164873197|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.78|STANDARD_ERROR_OF_MEAN|0.22||0.0005|TWO_SIDED|95.0|-1.22|-0.34||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.34|-1.22|0.0005
82478107|NCT03930264|164651893|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-τ for tablet and suspension were required to be within the 80 to 125% range.|Ratio|1.06||||0.1061|TWO_SIDED|90.0|1.0|1.13|||ANOVA|||||1.13|1.00|0.1061
82478108|NCT03930264|164651894|EQUIVALENCE|For bioequivalence, the 90% CIs of the geometric mean ratio of AUC0-∞ for tablet and suspension were required to be within the 80 to 125% range.|Ratio|1.02||||0.5696|TWO_SIDED|90.0|0.96|1.09|||ANOVA|||||1.09|0.96|0.5696
82478109|NCT02434471|164651901|OTHER||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82478110|NCT02434471|164651902|OTHER||Mean Difference (Final Values)|0.1||||0.83|TWO_SIDED||||||Mixed Models Analysis|||||||0.83
82478111|NCT01473368|164651904|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||0.026
82478112|NCT01473368|164651908|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82478113|NCT04839562|164651911|SUPERIORITY||Mean Difference (Final Values)|-4.3|||=|0.0106|TWO_SIDED|95.0|-7.7|-1.0|||t-test, 2 sided|||||-1|-7.7|=.0106
82478114|NCT04839562|164651912|SUPERIORITY||||||=|0.002|||||||Fisher Exact|||||||=.002
82478115|NCT04839562|164651913|SUPERIORITY||||||=|0.0173|||||||Fisher Exact|||||||=.0173
82478116|NCT04839562|164651914|SUPERIORITY||||||=|0.1144|||||||Fisher Exact|||||||=.1144
82478117|NCT04839562|164651915|SUPERIORITY||||||=|0.0348|||||||Fisher Exact|||||||=.0348
82478118|NCT04839562|164651916|SUPERIORITY||||||=|1|||||||Fisher Exact|||||||=1
82478119|NCT04839562|164651917|SUPERIORITY||||||=|0.0173|||||||Fisher Exact|||||||=.0173
82478120|NCT04839562|164651918|SUPERIORITY||||||=|0.1864|||||||Fisher Exact|||||||=.1864
82478121|NCT04839562|164651919|SUPERIORITY||||||=|0.4173|||||||Fisher Exact|||||||=.4173
82478122|NCT04839562|164651920|SUPERIORITY||||||=|0.0343|||||||Fisher Exact|||||||=.0343
82478123|NCT04839562|164651921|SUPERIORITY||||||=|0.0636|||||||Fisher Exact|||||||=.0636
82478124|NCT04839562|164651922|SUPERIORITY||||||=|0.065|||||||Fisher Exact|||||||=.065
82478125|NCT04839562|164651923|SUPERIORITY||||||=|0.1144|||||||Fisher Exact|||||||=.1144
82478126|NCT04839562|164651924|SUPERIORITY||||||=|0.2829|||||||Fisher Exact|||||||=.2829
82552755|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-42.635||||0.0288|TWO_SIDED|95.0|-80.785|-4.484|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-4.484|-80.785|0.0288
82552756|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-274.577|||<|0.0001|TWO_SIDED|95.0|-345.428|-203.726|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-203.726|-345.428|<.0001
82552757|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-207.521|||<|0.0001|TWO_SIDED|95.0|-269.198|-145.844|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-145.844|-269.198|<.0001
82552758|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-203.233|||<|0.0001|TWO_SIDED|95.0|-275.683|-130.784|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-130.784|-275.683|<.0001
82562046|NCT02008916|164833371|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0002|TWO_SIDED|95.0|2.01|9.92|||Regression, Logistic|||||9.92|2.01|0.0002
82562047|NCT02008916|164833371|SUPERIORITY||Odds Ratio (OR)|4.21||||0.0004|TWO_SIDED|95.0|1.89|9.38|||Regression, Logistic|||||9.38|1.89|0.0004
82478127|NCT01012219|164651930|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio|1.23|||||TWO_SIDED|90.0|0.96|1.56||||||||1.56|0.96|
82478128|NCT02871882|164651998|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82478129|NCT00791973|164651999|SUPERIORITY_OR_OTHER|||||||0.33|||||||Wilcoxon signed-rank test|||||||0.33
82478130|NCT00791973|164652000|SUPERIORITY_OR_OTHER|||||||0.14|||||||Wilcoxon signed-rank test|||||||0.14
82478131|NCT00797966|164652002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.6551|TWO_SIDED|95.0|-2.87|1.81|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||1.81|-2.87|0.6551
82478132|NCT00797966|164652002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.7037|TWO_SIDED|95.0|-2.3|1.55|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||1.55|-2.30|0.7037
82562048|NCT02008916|164833372|SUPERIORITY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.39||0.0347|TWO_SIDED|95.0|-1.6|-0.06|||Mixed Models Analysis|||||-0.06|-1.60|0.0347
82562049|NCT02008916|164833372|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|0.39||0.0018|TWO_SIDED|95.0|-2.0|-0.46|||Mixed Models Analysis|||||-0.46|-2.00|0.0018
82562050|NCT02008916|164833376|SUPERIORITY||Odds Ratio (OR)|7.71||||0.0593|TWO_SIDED|95.0|0.92|64.42|||Regression, Logistic|||||64.42|0.92|0.0593
82562051|NCT02008916|164833376|SUPERIORITY||Odds Ratio (OR)|19.39||||0.0046|TWO_SIDED|95.0|2.49|150.79|||Regression, Logistic|||||150.79|2.49|0.0046
82562052|NCT01528605|164833377|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||The null hypothesis was no group difference||||<0.05
82562053|NCT01528605|164833378|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||The null hypothesis was no group difference||||<0.05
82562054|NCT01528605|164833379|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||"The null hypothesis is no group difference"||||>0.05
82562055|NCT02432274|164833420|OTHER||||||=|0.20359|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 19 (PFS-4, Yes) vs. C2D1: FGF 19 (PFS-4, No)||||=0.20359
82562056|NCT02432274|164833420|OTHER||||||=|0.50068|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 19 (PFS-4, Yes) vs. C2D1: FGF 19 (PFS-4, No)||||=0.50068
82562057|NCT02432274|164833420|OTHER||||||=|0.05512|||||||Wilcoxon Rank-Sum Test|||C3D1: FGF 19 (PFS-4, Yes) vs. C3D1: FGF 19 (PFS-4, No)||||=0.05512
82562058|NCT02432274|164833420|OTHER||||||=|0.50382|||||||Wilcoxon Rank-Sum Test|||C4D1: FGF 19 (PFS-4, Yes) vs. C4D1: FGF 19 (PFS-4, No)||||=0.50382
82562059|NCT02432274|164833420|OTHER||||||=|0.0476|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 21 (PFS-4, Yes) vs. C2D1: FGF 21 (PFS-4, No)||||=0.04760
82562060|NCT02432274|164833420|OTHER||||||=|0.2142|||||||Wilcoxon Rank-Sum Test|||C2D1: FGF 21 (PFS-4, Yes) vs. C2D1: FGF 21 (PFS-4, No)||||=0.21420
82562061|NCT02432274|164833420|OTHER||||||=|0.42542|||||||Wilcoxon Rank-Sum Test|||C3D1: FGF 21 (PFS-4, Yes) vs. C3D1: FGF 21 (PFS-4, No)||||=0.42542
82562062|NCT02432274|164833420|OTHER||||||=|0.73573|||||||Wilcoxon Rank-Sum Test|||C4D1: FGF 21 (PFS-4, Yes) vs. C4D1: FGF 21 (PFS-4, No)||||=0.73573
82562063|NCT02432274|164833420|OTHER||||||=|0.35754|||||||Wilcoxon Rank-Sum Test|||C2D1: VEGF (PFS-4, Yes) vs. C2D1: VEGF (PFS-4, No)||||=0.35754
82562064|NCT02432274|164833420|OTHER||||||=|0.59903|||||||Wilcoxon Rank-Sum Test|||C2D1: VEGF (PFS-4, Yes) vs. C2D1: VEGF (PFS-4, No)||||=0.59903
82562065|NCT02432274|164833420|OTHER||||||=|1|||||||Wilcoxon Rank-Sum Test|||C3D1: VEGF (PFS-4, Yes) vs. C3D1: VEGF (PFS-4, No)||||=1.00000
82562066|NCT00090519|164833423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.969|TWO_SIDED|95.0|-0.714|0.686|||ANOVA|||||0.686|-0.714|0.969
82562067|NCT00090519|164833424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09||||0.015|TWO_SIDED|95.0|0.21|1.97||P-value is for change from baseline.|ANCOVA|||||1.97|0.21|0.015
82562068|NCT00090519|164833425|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||P-value is for first occurrence of focal/grid photocoagulation yes versus no.|Chi-squared|||||||0.577
82562069|NCT00090519|164833426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.041|TWO_SIDED|95.0|0.02|0.87||P-value is for change from baseline.|ANCOVA|||||0.87|0.02|0.041
82562070|NCT00090519|164833427|SUPERIORITY_OR_OTHER|||||||0.475||95.0||||P-value is for progression of nonproliferative diabetic retinopathy (DR) by seven-field stereo fundus photography progression versus no progression.|Chi-squared|||||||0.475
82562071|NCT00090519|164833428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.211|TWO_SIDED|95.0|-0.87|3.92||P-value is for change from baseline.|ANCOVA|||||3.92|-0.87|0.211
82562072|NCT00090519|164833429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|63.22||||0.365|TWO_SIDED|95.0|-73.68|200.12||P-value is for change from baseline.|t-test, 2 sided|||||200.12|-73.68|0.365
82562073|NCT00090519|164833430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52||||0.009|TWO_SIDED|95.0|0.38|2.66||P-value is for change from baseline.|ANCOVA|||||2.66|0.38|0.009
82562074|NCT00090519|164833432|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.081|TWO_SIDED|95.0|0.2|1.12||P-value is for occurrence of sustained moderate visual loss (SMVL) in a diabetic retinopathy (DR) study eye yes versus no.|Chi-squared|||||1.12|0.20|0.081
82562075|NCT01094106|164833486|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||In a previous non-randomised study at our institution, the mean oxycodone consumption in the control group was 60.7 mg (SD, 22.2 mg) during the first 48 h after caesarean section. At α = 0.05, 31 patients would be needed in each group to achieve a power of 90% for detecting a 30% reduction in the need for rescue opioids, which we considered a clinically meaningful effect. We decided to enrol 70 patients. The final study population was 67 patients.||||0.10
82562076|NCT01094106|164833487|SUPERIORITY|||||||0.08||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 0-6 h||||0.08
82562077|NCT01094106|164833487|SUPERIORITY|||||||0.86||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 6-12 h||||0.86
82562078|NCT01094106|164833487|SUPERIORITY|||||||0.66||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 12-24 h||||0.66
82562079|NCT01094106|164833487|SUPERIORITY|||||||0.79||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 24-36 h||||0.79
82562080|NCT01094106|164833487|SUPERIORITY|||||||0.2||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores at rest, 36-48 h||||0.20
82562081|NCT01094106|164833487|SUPERIORITY|||||||0.36||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 0-6 h||||0.36
82651029|NCT00294723|165016808|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-0.33||||0.906||95.0|-5.82|5.16||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||5.16|-5.82|0.9060
82478133|NCT00797966|164652002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14||||0.0303|TWO_SIDED|95.0|-4.08|-0.21|||ANCOVA|||The planned sample size of 120 participants per arm will yield 80% power to detect the treatment effects at a 2-tailed significance level of 0.025. The 0.025 significance level corresponds to the second level of Hochberg's procedure for handling the two primary efficacy comparisons.||-0.21|-4.08|0.0303
82478134|NCT00797966|164652003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.4166|TWO_SIDED|95.0|-0.43|0.18|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo|||0.18|-0.43|0.4166
82478135|NCT00797966|164652003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.4193|TWO_SIDED|95.0|-0.35|0.15|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.15|-0.35|0.4193
82478136|NCT00797966|164652003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0064|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||-0.10|-0.60|0.0064
82478137|NCT00797966|164652004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68||||0.449|TWO_SIDED|95.0|-2.67|6.02|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||6.02|-2.67|0.4490
82478138|NCT00797966|164652004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.7412|TWO_SIDED|95.0|-3.02|4.24|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||4.24|-3.02|0.7412
82478139|NCT00797966|164652004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54||||0.407|TWO_SIDED|95.0|-2.1|5.17|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||5.17|-2.10|0.4070
82478140|NCT00797966|164652005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.4954|TWO_SIDED|95.0|-0.86|0.42|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.42|-0.86|0.4954
82478141|NCT00797966|164652005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4902|TWO_SIDED|95.0|-0.73|0.35|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.35|-0.73|0.4902
82478142|NCT00797966|164652005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0161|TWO_SIDED|95.0|-1.2|-0.12|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||-0.12|-1.20|0.0161
82478143|NCT00797966|164652011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.5953|TWO_SIDED|95.0|-2.54|1.46|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||1.46|-2.54|0.5953
82478144|NCT00797966|164652011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.9479|TWO_SIDED|95.0|-1.66|1.55|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||1.55|-1.66|0.9479
82478145|NCT00797966|164652011|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0919|TWO_SIDED|95.0|-2.95|0.22|||ANCOVA||Treatment difference = difference in adjusted mean change: OPC-34712 - placebo.|||0.22|-2.95|0.0919
82478146|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.3998||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.3998
82478147|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.8838||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.8838
82478148|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.4012||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||||0.4012
82478149|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.6131||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.6131
82478150|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.5964||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.5964
82478151|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.254||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||||0.2540
82478152|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.8524||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.8524
82478153|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.6969||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.6969
82478154|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.3108||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||||0.3108
82478155|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.8719||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.8719
82478156|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.6105||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.6105
82478157|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.0709||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||||0.0709
82478158|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.9574||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.9574
82478159|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.231||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.2310
82478160|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.0672||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||||0.0672
82552759|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-261.208|||<|0.0001|TWO_SIDED|95.0|-330.647|-191.769|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-191.769|-330.647|<.0001
82552760|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-203.998|||<|0.0001|TWO_SIDED|95.0|-263.396|-144.599|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-144.599|-263.396|<.0001
82552761|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-178.75|||<|0.0001|TWO_SIDED|95.0|-249.092|-108.408|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-108.408|-249.092|<.0001
82580854|NCT01302067|164873197|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|-1.77|-0.71||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, and centered baseline value.||-0.71|-1.77|<0.0001
82478161|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.8441||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.8441
82478162|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.6741||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.6741
82478163|NCT00797966|164652012|SUPERIORITY_OR_OTHER|||||||0.0183||||||Cochran-Mantel-Haenszel row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||||0.0183
82552762|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-190.992|||<|0.0001|TWO_SIDED|95.0|-237.134|-144.85|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-144.850|-237.134|<.0001
82580855|NCT01302067|164873198|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82478164|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.49||||0.3007|TWO_SIDED|95.0|0.12|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.93|0.12|0.3007
82478165|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.94||||0.8812|TWO_SIDED|95.0|0.42|2.1||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||2.10|0.42|0.8812
82478166|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.32||||0.0553|TWO_SIDED|95.0|0.1|1.07||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.07|0.10|0.0553
82478167|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.78||||0.6051|TWO_SIDED|95.0|0.3|2.05||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.05|0.30|0.6051
82478168|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.92||||0.8264|TWO_SIDED|95.0|0.46|1.85||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.85|0.46|0.8264
82478169|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.869|TWO_SIDED|95.0|0.54|2.1||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.10|0.54|0.8690
82478170|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.35||||0.3441|TWO_SIDED|95.0|0.74|2.44||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.44|0.74|0.3441
82478171|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.14||||0.6375|TWO_SIDED|95.0|0.67|1.94||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.94|0.67|0.6375
82478172|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.31||||0.3135|TWO_SIDED|95.0|0.78|2.21||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.21|0.78|0.3135
82478173|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|2.35||||0.0035|TWO_SIDED|95.0|1.32|4.18||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||4.18|1.32|0.0035
82478174|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.4358|TWO_SIDED|95.0|0.7|2.31||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||2.31|0.70|0.4358
82478175|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|2.02||||0.0063|TWO_SIDED|95.0|1.2|3.41||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.41|1.20|0.0063
82478176|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.3968|TWO_SIDED|95.0|0.72|2.23||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.23|0.72|0.3968
82478177|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.27||||0.299|TWO_SIDED|95.0|0.81|2.0||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.00|0.81|0.2990
82478178|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.39||||0.1614|TWO_SIDED|95.0|0.86|2.25||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.25|0.86|0.1614
82478179|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.29||||0.3254|TWO_SIDED|95.0|0.79|2.12||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.12|0.79|0.3254
82478180|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.02||||0.9463|TWO_SIDED|95.0|0.64|1.62||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.62|0.64|0.9463
82478181|NCT00797966|164652013|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.74||||0.008|TWO_SIDED|95.0|1.14|2.65||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.65|1.14|0.0080
82478182|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.59||||0.5791|TWO_SIDED|95.0|0.09|3.9||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||3.90|0.09|0.5791
82478183|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.43||||0.2653|TWO_SIDED|95.0|0.1|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.93|0.10|0.2653
82478184|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.39||||0.2259|TWO_SIDED|95.0|0.08|1.87||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.87|0.08|0.2259
82478185|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.83||||0.6986|TWO_SIDED|95.0|0.32|2.18||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.18|0.32|0.6986
82478186|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.61||||0.2339|TWO_SIDED|95.0|0.28|1.35||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.35|0.28|0.2339
82478187|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.07||||0.8615|TWO_SIDED|95.0|0.53|2.15||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||2.15|0.53|0.8615
82478188|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.06||||0.8807|TWO_SIDED|95.0|0.51|2.2||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.20|0.51|0.8807
82478189|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.96||||0.9035|TWO_SIDED|95.0|0.52|1.77||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.77|0.52|0.9035
82478190|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.19||||0.5898|TWO_SIDED|95.0|0.64|2.24|||Cochran-Mantel-Haenszel|||Week 11 values presented here.||2.24|0.64|0.5898
82478191|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.82||||0.084|TWO_SIDED|95.0|0.93|3.58||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.58|0.93|0.0840
82478192|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.96||||0.9115|TWO_SIDED|95.0|0.49|1.88||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.88|0.49|0.9115
82478193|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.77||||0.0522|TWO_SIDED|95.0|0.98|3.17||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||3.17|0.98|0.0522
82478194|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.24||||0.4997|TWO_SIDED|95.0|0.65|2.34||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||2.34|0.65|0.4997
82478195|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.16||||0.5846|TWO_SIDED|95.0|0.69|1.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.93|0.69|0.5846
82478196|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|0.99||||0.9602|TWO_SIDED|95.0|0.55|1.76||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.76|0.55|0.9602
82478197|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.62||||0.1254|TWO_SIDED|95.0|0.87|3.02||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||3.02|0.87|0.1254
82552763|NCT04800211|164810265|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-24.483||||0.359|TWO_SIDED|95.0|-77.096|28.13|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||28.130|-77.096|0.3590
82552764|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.287|||<|0.0001|TWO_SIDED|95.0|-2.582|-1.992|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-1.992|-2.582|<.0001
82552765|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.415|||<|0.0001|TWO_SIDED|95.0|-2.722|-2.107|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.107|-2.722|<.0001
82552766|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.382|||<|0.0001|TWO_SIDED|95.0|-2.673|-2.09|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-2.090|-2.673|<.0001
82562082|NCT01094106|164833487|SUPERIORITY|||||||0.43||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 6-12 h||||0.43
82562083|NCT01094106|164833487|SUPERIORITY|||||||0.68||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 12-24 h||||0.68
82478198|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.13||||0.667|TWO_SIDED|95.0|0.65|1.99||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.99|0.65|0.6670
82478199|NCT00797966|164652014|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.7||||0.0525|TWO_SIDED|95.0|0.98|2.93||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||2.93|0.98|0.0525
82478200|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.98||||0.9462|TWO_SIDED|95.0|0.52|1.84||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.84|0.52|0.9462
82478201|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.8||||0.4971|TWO_SIDED|95.0|0.43|1.49||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.49|0.43|0.4971
82478202|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.93||||0.8118|TWO_SIDED|95.0|0.53|1.63||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 9 values presented here.||1.63|0.53|0.8118
82478203|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.95||||0.8323|TWO_SIDED|95.0|0.59|1.53||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.53|0.59|0.8323
82478204|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.68||||0.093|TWO_SIDED|95.0|0.43|1.08||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.08|0.43|0.0930
82478205|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.88||||0.553|TWO_SIDED|95.0|0.59|1.32||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 10 values presented here.||1.32|0.59|0.5530
82478206|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.8007|TWO_SIDED|95.0|0.69|1.61||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.61|0.69|0.8007
82478207|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.03||||0.8945|TWO_SIDED|95.0|0.71|1.49||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.49|0.71|0.8945
82478208|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.17||||0.3837|TWO_SIDED|95.0|0.83|1.64||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 11 values presented here.||1.64|0.83|0.3837
82478209|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.09||||0.7064|TWO_SIDED|95.0|0.72|1.63||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.63|0.72|0.7064
82478210|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.06||||0.7469|TWO_SIDED|95.0|0.74|1.52||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.52|0.74|0.7469
82478211|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.34||||0.0832|TWO_SIDED|95.0|0.97|1.86||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 12 values presented here.||1.86|0.97|0.0832
82478212|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.09||||0.6611|TWO_SIDED|95.0|0.74|1.61||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.61|0.74|0.6611
82478213|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.13||||0.4435|TWO_SIDED|95.0|0.83|1.56||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.56|0.83|0.4435
82478214|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.47||||0.0118|TWO_SIDED|95.0|1.09|1.98||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 13 values presented here.||1.98|1.09|0.0118
82478215|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.89||||0.5111|TWO_SIDED|95.0|0.63|1.26||Cochran-Mantel-Haenszel general association test controlling for study center.|Chi-squared, Corrected|||Week 14 values presented here.||1.26|0.63|0.5111
82478216|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|0.9||||0.4903|TWO_SIDED|95.0|0.66|1.22||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.22|0.66|0.4903
82478217|NCT00797966|164652015|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.28||||0.0662|TWO_SIDED|95.0|0.98|1.67||Cochran-Mantel-Haenszel general association test controlling for study center.|Cochran-Mantel-Haenszel|||Week 14 values presented here.||1.67|0.98|0.0662
82478218|NCT00917644|164652040|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%)|Ratio of adjusted geometric means|98.79||||||90.0|94.57|103.2|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. AUClast + (Clast\*/kel), where Clast\* was the predicted plasma concentration at the last quantifiable time point estimated from the log-linear regression analysis.|Natural log transformed AUCinf was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Adjusted mean difference (Test-Ref) and 90% CI was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean and 90% CI for the ratio. Alternative hypothesis of bioequivalence: (H1: θL \<=µT - µR \<=θU); null hypothesis of inequivalence: (Ho: µT - µR \<θL or µT - µR \>θU).||103.20|94.57|
82478219|NCT00917644|164652042|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%). AUCinf method of determination includes AUClast calculated value.|Ratio of adjusted geometric means|98.72||||||90.0|94.41|103.23|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Log-linear trapezoidal method.|Natural log transformed AUClast was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence interval was obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||103.23|94.41|
82478220|NCT00917644|164652043|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the two treatments was concluded if the 90% confidence intervals for the ratio of adjusted geometric means for both AUCinf and Cmax fell wholly within (80%, 125%)|Ratio of adjusted geometric means|104.66||||||90.0|95.73|114.42|||ANOVA|Values have been back-transformed from the log scale.|Parameter estimate = ratio (%) (test/reference) of adjusted geometric means. Observed directly from data.|Natural log transformed Cmax was analyzed using a mixed effects model with sequence, period and treatment as fixed effects and subject within sequence as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% confidence intervals were obtained from the model and exponentiated to provide estimates of the ratio of adjusted geometric mean (Test/Reference) and 90% confidence interval for the ratio.||114.42|95.73|
82478221|NCT02788279|164652053|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9871|TWO_SIDED|95.0|0.73|1.38|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.38|0.73|0.9871
82478222|NCT02788279|164652053|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.336|TWO_SIDED|95.0|0.83|1.71|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.71|0.83|0.3360
82478223|NCT02788279|164652053|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9686|TWO_SIDED|95.0|0.74|1.38|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.38|0.74|0.9686
82478224|NCT02788279|164652053|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3553|TWO_SIDED|95.0|0.83|1.69|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.69|0.83|0.3553
82478225|NCT02788279|164652054|SUPERIORITY||Hazard Ratio (HR)|1.25||||0.1208|TWO_SIDED|95.0|0.94|1.65|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.65|0.94|0.1208
82478226|NCT02788279|164652054|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.0509|TWO_SIDED|95.0|1.0|1.94|||Stratified Log-Rank|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|Hazard ratio was estimated using stratified Cox regression.|||1.94|1.00|0.0509
82478227|NCT02788279|164652054|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.1726|TWO_SIDED|95.0|0.92|1.6|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.60|0.92|0.1726
82478228|NCT02788279|164652054|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.0467|TWO_SIDED|95.0|1.0|1.91|||Unstratified Log-Rank||Hazard ratio was estimated using unstratified Cox regression.|||1.91|1.00|0.0467
82478229|NCT02788279|164652055|SUPERIORITY||Difference in Response Rates|0.51||||1|TWO_SIDED|95.0|-3.92|4.94|||Stratified Cochrane-Mantel-Haenszel|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|95% CI for difference in response rates was constructed using Hauck-Anderson method.|||4.94|-3.92|1.0000
82478230|NCT02788279|164652055|SUPERIORITY||Difference in Response Rates|0.0||||1|TWO_SIDED|95.0|-4.89|4.89|||Stratified Cochran-Mantel-Haenszel|Stratification factors included extended RAS mutation status and time since diagnosis of first metastasis.|95% CI for difference in response rates was constructed using Hauck-Anderson method.|||4.89|-4.89|1.0000
82478231|NCT04987944|164652069|OTHER||Least square mean difference|-9.8|||||TWO_SIDED|95.0|-24.5|5.0||||||||5.0|-24.5|
82478232|NCT04987944|164652070|OTHER||Least square mean difference|-3.9|||||TWO_SIDED|95.0|-19.4|11.5||||||||11.5|-19.4|
82478233|NCT04987944|164652071|OTHER||Least square mean difference|0.423|||||TWO_SIDED|95.0|-0.125|0.972||||||||0.972|-0.125|
82478234|NCT00345332|164652075|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
82478235|NCT00345332|164652076|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||||||<0.01
82478236|NCT04121078|164652077|EQUIVALENCE|Point estimate and its 90% confidence interval (CI) were calculated for Treatment B to Treatment A ratio of geometric means for Cmax based on the mixed-effect model of log-transformed Cmax with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for Cmax. No adjustments were made for multiplicity.|Geometric Mean Ratio|6.24|||||TWO_SIDED|90.0|4.62|8.42||||||||8.42|4.62|
82478237|NCT04121078|164652078|EQUIVALENCE|Point estimate and its 90% CI were calculated for Treatment B to Treatment A ratio of geometric means for AUC∞ based on the mixed-effect model of log-transformed AUC∞ with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for AUC∞. No adjustments were made for multiplicity.|Geometric Mean Ratio|5.16|||||TWO_SIDED|90.0|4.25|6.25||||||||6.25|4.25|
82478238|NCT04121078|164652079|EQUIVALENCE|Point estimate and its 90% CI were calculated for Treatment B to Treatment A ratio of geometric means for AUClast based on the mixed-effect model of log-transformed AUClast with sequence, treatment, and period as fixed effects, and participant nested within sequence as a random effect. Bioequivalence was concluded if the 90% CI for the ratio of geometric means is entirely contained within 80% to 125% for AUClast. No adjustments were made for multiplicity.|Geometric Mean Ratio|5.21|||||TWO_SIDED|90.0|4.29|6.32||||||||6.32|4.29|
82580856|NCT01302067|164873198|SUPERIORITY_OR_OTHER|||||||0.0348|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0348
82478239|NCT02012582|164652166|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||Mixed model analysis for TIL with the patient as random effect and study day, cohort, treatment, and interaction between study day and treatment as fixed effects.|Mixed Models Analysis|||Placebo versus pooled VAS203 Arms/Groups||||<0.04
82478240|NCT02012582|164652167|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Kruskal-Wallis|||Placebo versus pooled VAS203 Arms/Group||||<0.01
82478241|NCT03241368|164652169|OTHER|Comparative - This purpose of this study is to evaluate performance of the PillCam Crohn's capsule \[referred to as capsule endoscopy (CE)\] as compared to IC with MRE.||||||0.125|||||||McNemar|Exact McNemar's test||This was a 1-arm, non-powered study. Sensitivity, Specificity, Positive Predictive Value (PPV) and Negative Predictive Value (NPV) was estimated for each treatment group, along with the 95% confidence interval. The difference between treatment groups in Sensitivity and Specificity was compared.||||0.125
82478242|NCT01054183|164652173|NON_INFERIORITY_OR_EQUIVALENCE|powered for 62 patients||||||0.57||95.0|||||z test, two-sided|||Null hypothesis: the proportion of successful 1st intubation attempt is the same for both groups||||0.57
82478243|NCT01054183|164652174|NON_INFERIORITY_OR_EQUIVALENCE|powered for 62 patients||||||0.002||95.0|||||z test, two-sided|||Null hypothesis: overall successful intubation rate is the same for both groups.||||0.002
82478244|NCT01332461|164652179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.649||||0.05|TWO_SIDED|95.0|0.455|0.926|||Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.926|0.455|0.05
82478245|NCT01332461|164652180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601|||<|0.05|TWO_SIDED|95.0|0.326|1.109||COPD-related hospitalization|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||1.109|0.326|<0.05
82552767|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.486|||<|0.0001|TWO_SIDED|95.0|-2.782|-2.19|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.190|-2.782|<.0001
82562084|NCT01094106|164833487|SUPERIORITY|||||||0.37||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 24-36 h||||0.37
82580857|NCT01302067|164873198|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0003
82580858|NCT01302067|164873199|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580859|NCT01302067|164873199|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||0.0002
82580860|NCT01302067|164873199|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||P-value was based on a RANKED ANCOVA model with terms for treatment and pooled country with ranked baseline value as a covariate.||||<0.0001
82580861|NCT01302067|164873200|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||<0.0001
82580862|NCT01302067|164873200|SUPERIORITY_OR_OTHER|||||||0.0057|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0057
82478246|NCT01332461|164652180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.651|||<|0.05|TWO_SIDED|95.0|0.434|0.977||COPD-related ER visit|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.977|0.434|<0.05
82478247|NCT01332461|164652180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.815|||<|0.05|TWO_SIDED|95.0|0.658|1.008||COPD-related physician + Rx visit|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||1.008|0.658|<0.05
82478248|NCT01332461|164652180|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.785|||<|0.05|TWO_SIDED|95.0|0.649|0.948||COPD-related hospitalization/ER visit/physician+Rx|Log Rank||Covariates for risk models included Charlson Comorbidity Index, presence of asthma, number and quantity of rescue and controller medications, oxygen, and number of COPD healthcare resource use.|||0.948|0.649|<0.05
82562085|NCT01094106|164833487|SUPERIORITY|||||||0.06||||||No adjustments for multiple comparisons|Wilcoxon (Mann-Whitney)|||Highest recorded pain scores when moving, 36-48 h||||0.06
82562086|NCT01094106|164833488|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
82580863|NCT01302067|164873200|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0008
82580864|NCT01302067|164873201|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0007
82580865|NCT01302067|164873201|SUPERIORITY_OR_OTHER|||||||0.0091|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.0091
82580866|NCT01302067|164873201|SUPERIORITY_OR_OTHER|||||||0.3901|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for country was used to calculate p-value.||||0.3901
82580867|NCT01302067|164873202|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.47|STANDARD_ERROR_OF_MEAN|1.54|<|0.0001|TWO_SIDED|95.0|-15.49|-9.45||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-9.45|-15.49|<0.0001
82580868|NCT01302067|164873202|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.69|STANDARD_ERROR_OF_MEAN|1.26||0.0002|TWO_SIDED|95.0|-7.15|-2.22||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-2.22|-7.15|0.0002
82580869|NCT01302067|164873202|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.78|STANDARD_ERROR_OF_MEAN|1.53|<|0.0001|TWO_SIDED|95.0|-10.78|-4.78||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|Change at Week 12- ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction was used to calculate p-value.||-4.78|-10.78|<0.0001
82580870|NCT01302067|164873203|SUPERIORITY_OR_OTHER||Least squares mean difference|10.46|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|7.2|13.73||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||13.73|7.20|<0.0001
82580871|NCT01302067|164873203|SUPERIORITY_OR_OTHER||Least squares mean difference|4.68|STANDARD_ERROR_OF_MEAN|1.36||0.0006|TWO_SIDED|95.0|2.01|7.36||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||7.36|2.01|0.0006
82580872|NCT01302067|164873203|SUPERIORITY_OR_OTHER||Least squares mean difference|5.78|STANDARD_ERROR_OF_MEAN|1.66||0.0005|TWO_SIDED|95.0|2.53|9.03||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.03|2.53|0.0005
82580873|NCT01302067|164873204|SUPERIORITY_OR_OTHER||Least squares mean difference|10.91|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|7.73|14.09||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||14.09|7.73|<0.0001
82580874|NCT01302067|164873204|SUPERIORITY_OR_OTHER||Least squares mean difference|4.36|STANDARD_ERROR_OF_MEAN|1.33||0.001|TWO_SIDED|95.0|1.76|6.96||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.96|1.76|0.0010
82580875|NCT01302067|164873204|SUPERIORITY_OR_OTHER||Least squares mean difference|6.55|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED|95.0|3.39|9.72||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.72|3.39|<0.0001
82580876|NCT01302067|164873205|SUPERIORITY_OR_OTHER||Least squares mean difference|7.46|STANDARD_ERROR_OF_MEAN|1.56|<|0.0001|TWO_SIDED|95.0|4.4|10.51||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||10.51|4.40|<0.0001
82580877|NCT01302067|164873205|SUPERIORITY_OR_OTHER||Least squares mean difference|3.74|STANDARD_ERROR_OF_MEAN|1.27||0.0034|TWO_SIDED|95.0|1.24|6.23||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.23|1.24|0.0034
82580878|NCT01302067|164873205|SUPERIORITY_OR_OTHER||Least squares mean difference|3.72|STANDARD_ERROR_OF_MEAN|1.55||0.0164|TWO_SIDED|95.0|0.68|6.76||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.76|0.68|0.0164
82478249|NCT02199717|164652207|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||All statistical analyses were completed using SAS 9.4 (SAS Institute Inc., Cary, NC, USA). Descriptive statistics such as mean (± SD) and range were calculated and provided for demographic variables, accelerometry variables and questionnaire outcomes. Differences between the two groups (mild/moderate versus severe haemophilia) were examined in exploratory analyses.||||0.32
82580879|NCT01302067|164873206|SUPERIORITY_OR_OTHER||Least squares mean difference|7.5|STANDARD_ERROR_OF_MEAN|1.26|<|0.0001|TWO_SIDED|95.0|5.03|9.97||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||9.97|5.03|<0.0001
82478250|NCT02199717|164652208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|306.4|||<|0.01|TWO_SIDED|95.0|254.8|358.0|||Wilcoxon (Mann-Whitney)|||||358|254.8|<0.01
82478251|NCT03567343|164652209|EQUIVALENCE|Significance set to 0.05|Mean Difference (Net)|-2.1||||0.1543|TWO_SIDED|95.0|-5.03|0.82||The threshold for statistical significance was P\< 0.05.|Paired T-test|||||0.82|-5.03|0.1543
82478252|NCT03567343|164652209|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-2.53||||0.1827|TWO_SIDED|95.0|-6.3|1.24|||Paired T-test|||||1.24|-6.3|0.1827
82478253|NCT03567343|164652210|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.2||||0.8165|TWO_SIDED|95.0|-1.96|1.56|||Paired T-test|||||1.56|-1.96|0.8165
82478254|NCT03567343|164652210|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.58||||0.1821|TWO_SIDED|95.0|-0.77|3.94|||Paired T-test|||||3.94|-0.77|0.1821
82478255|NCT03567343|164652211|EQUIVALENCE|P\<0.05|Mean Difference (Net)|20.94||||0.0156|TWO_SIDED|95.0|4.19|37.69|||Paired T-test|||||37.69|4.19|0.0156
82478256|NCT03567343|164652211|EQUIVALENCE|P\<0.05|Mean Difference (Net)|20.08||||0.0572|TWO_SIDED|95.0|-0.64|40.8|||Paired T-test|||||40.8|-0.64|0.0572
82478257|NCT03567343|164652212|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-4.48||||0.0781|TWO_SIDED|95.0|-9.37|0.41|||Paired T-test|||||0.41|-9.37|0.0781
82478258|NCT03567343|164652212|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-3.0||||0.242|TWO_SIDED|95.0|-8.1|2.1|||Paired T-test|||||2.1|-8.1|0.242
82478259|NCT03567343|164652213|EQUIVALENCE|P\<0.05|Mean Difference (Net)|2.91||||0.0195|TWO_SIDED|95.0|0.49|5.32|||Paired T-test|||||5.32|0.49|0.0195
82478260|NCT03567343|164652213|EQUIVALENCE|P\<0.05|Mean Difference (Net)|4.66||||0.0097|TWO_SIDED|95.0|1.19|8.12|||Paired T-test|||||8.12|1.19|0.0097
82478261|NCT03567343|164652214|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.93|||<|0.0001|TWO_SIDED|95.0|0.59|1.28|||Paired T-test|||||1.28|0.59|<0.0001
82478262|NCT03567343|164652214|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.45||||0.0179|TWO_SIDED|95.0|0.08|0.81|||Paired T-test|||||0.81|0.08|0.0179
82478263|NCT03567343|164652215|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.03||||0.9875|TWO_SIDED|95.0|-3.89|3.83|||Paired T-test|||||3.83|-3.89|0.9875
82478264|NCT03567343|164652215|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.2||||0.9463|TWO_SIDED|95.0|-6.23|5.82|||Paired T-test|||||5.82|-6.23|0.9463
82478265|NCT03567343|164652216|EQUIVALENCE|P\<0.05|Mean Difference (Net)|28.5||||0.0037|TWO_SIDED|95.0|9.84|47.17|||Paired T-test|||||47.17|9.84|0.0037
82478266|NCT03567343|164652216|EQUIVALENCE|p\<0.05|Mean Difference (Net)|9.84||||0.4395|TWO_SIDED|95.0|-15.63|35.31|||Paired T-test|||||35.31|-15.63|0.4395
82478267|NCT03567343|164652217|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.03||||0.912|TWO_SIDED|95.0|-0.59|0.53|||Paired T-test|||||0.53|-0.59|0.912
82478268|NCT03567343|164652217|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.11||||0.8207|TWO_SIDED|95.0|-1.04|0.83|||Paired T-test|||||0.83|-1.04|.8207
82478269|NCT03567343|164652218|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.89||||0.1929|TWO_SIDED|95.0|-2.26|0.47|||Paired T-test|||||0.47|-2.26|0.1929
82478270|NCT03567343|164652218|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.24||||0.8744|TWO_SIDED|95.0|-3.35|2.86|||Paired T-test|||||2.86|-3.35|0.8744
82478271|NCT03567343|164652219|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.95||||0.2048|TWO_SIDED|95.0|-2.45|0.54|||Paired T-test|||||0.54|-2.45|0.2048
82478272|NCT03567343|164652219|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.96||||0.1933|TWO_SIDED|95.0|-0.5|2.42|||Paired T-test|||||2.42|-0.5|0.1933
82478273|NCT03567343|164652220|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-1.69||||0.034|TWO_SIDED|95.0|-3.25|-0.13|||Paired T-test|||change in mean number of lapses||-0.13|-3.25|0.034
82478274|NCT03567343|164652220|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.41||||0.5242|TWO_SIDED|95.0|-0.88|1.71|||Paired T-test|||Change in number of lapses||1.71|-0.88|0.5242
82478275|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.67||||0.8106|TWO_SIDED|95.0|-4.92|6.25|||Paired T-test|||POMS-TMD||6.25|-4.92|0.8106
82478276|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|3.87||||0.1427|TWO_SIDED|95.0|-1.35|9.09|||Paired T-test|||POMS-TMD||9.09|-1.35|0.1427
82478277|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.05||||0.9344|TWO_SIDED|95.0|-1.11|1.21|||Paired T-test|||POMS-Tension||1.21|-1.11|0.9344
82478278|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.54||||0.0092|TWO_SIDED|95.0|0.4|2.69|||Paired T-test|||POMS-Tension||2.69|0.40|0.0092
82478279|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.29||||0.755|TWO_SIDED|95.0|-1.55|2.12|||Paired T-test|||POMS-Depression||2.12|-1.55|0.755
82478280|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.74||||0.2131|TWO_SIDED|95.0|-0.44|1.92|||Paired T-test|||POMS-Depression||1.92|-0.44|0.2131
82478281|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.19||||0.06|TWO_SIDED|95.0|-0.05|2.43|||Paired T-test|||POMS-Anger||2.43|-0.05|0.06
82478282|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.24||||0.4117|TWO_SIDED|95.0|-0.34|0.82|||Paired T-test|||POMS-Anger||0.82|-0.34|0.4117
82478283|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.05||||0.9548|TWO_SIDED|95.0|-1.64|1.73|||Paired T-test|||POMS-Fatigue||1.73|-1.64|0.9548
82478284|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.48||||0.4649|TWO_SIDED|95.0|-0.83|1.79|||Paired T-test|||POMS-Fatigue||1.79|-0.83|0.4649
82478285|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.26||||0.5656|TWO_SIDED|95.0|-0.65|1.18|||Paired T-test|||POMS-Confusion||1.18|-0.65|0.5656
82478286|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.33||||0.4307|TWO_SIDED|95.0|-0.5|1.15|||Paired T-test|||POMS-Confusion||1.15|-0.5|0.4307
82478287|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.17||||0.2651|TWO_SIDED|95.0|-0.92|3.25|||Paired T-test|||POMS-Vigor||3.25|-0.92|0.2651
82478288|NCT03567343|164652221|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.54||||0.5992|TWO_SIDED|95.0|-2.61|1.53|||Paired T-test|||POMS-Vigor||1.53|-2.61|0.5992
82478289|NCT03567343|164652222|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.37||||0.6869|TWO_SIDED|95.0|-1.48|2.22|||Paired T-test|||||2.22|-1.48|0.6869
82478290|NCT03567343|164652222|EQUIVALENCE|P\<0.05|Mean Difference (Net)|1.39||||0.1769|TWO_SIDED|95.0|-0.65|3.43|||Paired T-test|||||3.43|-0.65|0.1769
82478291|NCT03567343|164652223|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.51||||0.6422|TWO_SIDED|95.0|-1.69|2.72|||Paired T-test|||||2.72|-1.69|0.6422
82478292|NCT03567343|164652223|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.63||||0.4106|TWO_SIDED|95.0|-0.9|2.16|||Paired T-test|||||2.16|-0.9|0.4106
82478293|NCT03567343|164652224|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-0.23||||0.5672|TWO_SIDED|95.0|-1.05|0.58|||Paired T-test|||||0.58|-1.05|0.5672
82478294|NCT03567343|164652224|EQUIVALENCE|P\<0.05|Mean Difference (Net)|0.11||||0.805|TWO_SIDED|95.0|-0.77|0.99|||Paired T-test|||||0.99|-0.77|0.805
82478295|NCT03567343|164652225|EQUIVALENCE|P\<0.05|Median Difference (Net)|-43.09||||0.1236|TWO_SIDED|95.0|-98.43|12.26|||Paired T-test|||Change in lapse time||12.26|-98.43|.1236
82478296|NCT03567343|164652225|EQUIVALENCE|P\<0.05|Mean Difference (Net)|-2.01||||0.8241|TWO_SIDED|95.0|-20.13|16.11|||Paired T-test|||Change in lapse time||16.11|-20.13|.8241
82478297|NCT00576420|164652234|SUPERIORITY_OR_OTHER|||||||0.1564||90.0|||||Likelihood ratio chi-square test|||||||0.1564
82478298|NCT00576420|164652236|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Likelihood ratio chi-square test|||||||0.060
82478299|NCT00576420|164652236|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Likelihood ratio chi-square test|||||||0.005
82478300|NCT00576420|164652237|SUPERIORITY_OR_OTHER|||||||0.123||95.0|||||Likelihood ratio chi-square test|||||||0.123
82478301|NCT00576420|164652237|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Likelihood ratio chi-square test|||||||0.026
82478302|NCT00576420|164652238|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Likelihood ratio chi-square test|||||||0.929
82478303|NCT00576420|164652238|SUPERIORITY_OR_OTHER|||||||0.228||95.0|||||Likelihood ratio chi-square test|||||||0.228
82478304|NCT00576420|164652240|SUPERIORITY_OR_OTHER|||||||0.234||95.0|||||Likelihood ratio chi-square test|||||||0.234
82478305|NCT00576420|164652240|SUPERIORITY_OR_OTHER|||||||0.955||95.0|||||Likelihood ratio chi-square test|||||||0.955
82478306|NCT00576420|164652241|SUPERIORITY_OR_OTHER|||||||0.106||95.0|||||Likelihood ratio chi-square test|||||||0.106
82478307|NCT00576420|164652241|SUPERIORITY_OR_OTHER|||||||0.243||95.0|||||Likelihood ratio chi-square test|||||||0.243
82478308|NCT00576420|164652241|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Likelihood ratio chi-square test|||||||0.127
82478309|NCT00576420|164652242|SUPERIORITY_OR_OTHER|||||||0.257||95.0|||||Likelihood ratio chi-square test|||||||0.257
82478310|NCT00576420|164652242|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||Likelihood ratio chi-square test|||||||0.096
82478311|NCT00576420|164652242|SUPERIORITY_OR_OTHER|||||||0.127||95.0|||||Likelihood ratio chi-square test|||||||0.127
82478312|NCT01340872|164652265|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|ONE_SIDED|97.5|1.81||||ANCOVA|||ANCOVA for primary endpoint, Change in Hb concentration from Baseline to Week 12 in double-blind phase, FAS|||1.81|< 0.0001
82478313|NCT01340872|164652269|SUPERIORITY||Mean Difference (Final Values)|1.04|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|ONE_SIDED|97.5|0.82||||ANCOVA|||ANCOVA analysis of the change in Hb concentration from Baseline to Week 4 of the double-blind phase - Full Analysis Set, multiple imputation|||0.82|< 0.0001
82478314|NCT01340872|164652270|SUPERIORITY||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|ONE_SIDED|97.5|1.43||||ANCOVA|||ANCOVA analysis of Change in Hb concentration from Baseline to Week 8 of double-blind phase - FAS, multiple imputation|||1.43|< 0.0001
82478315|NCT01340872|164652281|SUPERIORITY||Mean Difference (Final Values)|2.18|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|ONE_SIDED|97.5|1.87||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the PPAS|||1.87|< 0.0001
82478316|NCT01340872|164652282|SUPERIORITY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|ONE_SIDED|97.5|1.82||||ANCOVA|||ANCOVA sensitivity analysis of the Primary efficacy endpoint analysis on the FAS LOCF - Change in Haemoglobin Concentration from Baseline to Week 12|||1.82|< 0.0001
82478317|NCT01502332|164652291|SUPERIORITY_OR_OTHER|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||||||0.016
82478318|NCT01502332|164652292|SUPERIORITY_OR_OTHER|||||||0.014|||||||Log Rank|||||||0.014
82478319|NCT01502332|164652293|SUPERIORITY_OR_OTHER|||||||0.037|||||||Log Rank|||||||0.037
82478320|NCT01502332|164652295|SUPERIORITY_OR_OTHER|||||||0.267|||||||Regression, Logistic|||||||0.267
82478321|NCT02656680|164652296|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney U Test||||0.72
82478322|NCT02656680|164652297|SUPERIORITY|||||||0.31|||||||Chi-squared|||Chi square test comparing proportion retained in each condition.||||0.31
82478323|NCT02656680|164652298|SUPERIORITY|||||||0.69|||||||Chi-squared|||||||0.69
82478324|NCT02656680|164652299|SUPERIORITY|||||||0.218|||||||ANOVA|||We compared mean percent weight loss from baseline across groups with a one-way ANOVA. One participant became pregnant and thus removed from the analysis. This analysis is exploratory given that this pilot study was not powered to detect weight loss differences between groups.||||0.218
82478325|NCT02656680|164652300|SUPERIORITY|||||||0.421|||||||ANOVA|||||||0.421
82478326|NCT01949337|164652312|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.33|TWO_SIDED|95.0|0.8|1.08|||Log Rank|||||1.08|0.80|0.33
82500547|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|2.0||||0.089|TWO_SIDED|95.0|-0.3|4.3|||Mixed model for repeated measures|||48 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.3|-0.3|0.089
82500548|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|1.9||||0.115|TWO_SIDED|95.0|-0.5|4.4|||Mixed model for repeated measures|||72 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||4.4|-0.5|0.115
82500549|NCT02772081|164691790|SUPERIORITY||Adjusted mean difference|1.1||||0.284|TWO_SIDED|95.0|-1.0|3.3|||Mixed model for repeated measures|||120 hours; Treatment comparison. The analysis was based on an MMRM with treatment, timepoint, treatment by timepoint interaction, and GA group as fixed effects and pre-procedure SpO2 as a covariate.||3.3|-1.0|0.284
82500550|NCT02772081|164691791|SUPERIORITY||Adjusted difference|-15.7||||0.22|TWO_SIDED|95.0|-39.6|8.2|||Cochran-Mantel-Haenszel|||Any intubation procedure in first 72 hours of life.||8.2|-39.6|0.220
82500551|NCT02772081|164691791|SUPERIORITY||Adjusted difference|4.9||||0.741|TWO_SIDED|95.0|-22.8|32.5|||Cochran-Mantel-Haenszel|||Any intubation procedure within 36 weeks PMA.||32.5|-22.8|0.741
82500552|NCT02772081|164691792|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.333|TWO_SIDED|95.0|-32.3|16.3|||Wilcoxon (Mann-Whitney)|||Duration of invasive MV in first 28 days PNA.||16.3|-32.3|0.333
82478327|NCT01350544|164652319|SUPERIORITY||Odds Ratio (OR)|0.79||||0.005|TWO_SIDED|95.0|0.69|0.91||a priori threshold for significance for p \< .05|Mixed Models Analysis|||We used generalized linear mixed models predicting adherence at baseline and 1.5-, 3-, 4.5-, and 6-months post-baseline, with intervention , time, interaction between intervention and time, medical and socio-demographic covariates, and baseline viral load. Sample size was determined with a power analysis assuming .80 power and an alpha level of .05 that would allow for detection of a small-to-medium effect size in adherence between arms.||0.91|0.69|.005
82478328|NCT02882152|164652320|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Results were compared by means of the ANOVA of repeated measures followed by Bonferroni test.~Comparing: all four moments, from zero to 72hs within femoral blockade group, all four moments within morphine group, and all four moments between the groups"||||<0.05
82500553|NCT02772081|164691792|SUPERIORITY||Median Difference (Final Values)|-8.0||||0.334|TWO_SIDED|95.0|-49.5|33.5|||Wilcoxon (Mann-Whitney)|||Duration of invasive MV within 36 weeks PMA.||33.5|-49.5|0.334
82500554|NCT02772081|164691793|SUPERIORITY||Adjusted difference|-28.6||||0.596|TWO_SIDED|95.0|-120.9|63.6|||Wilcoxon (Mann-Whitney)|||Duration of invasive mechanical ventilation.||63.6|-120.9|0.596
82500555|NCT02772081|164691794|SUPERIORITY||CMH adjusted difference|-18.6||||0.219|TWO_SIDED|95.0|-47.0|9.8||The percentage of neonates needing invasive MV in the first 72 hours of life, was compared between the treatment groups using the Cochran-Mantel-Haenszel (CMH) test, adjusted for gestational age (GA) group.|Cochran-Mantel-Haenszel|||Invasive MV in the first 72 hours of life.||9.8|-47.0|0.219
82500556|NCT02772081|164691794|SUPERIORITY||Adjusted difference|-3.4||||0.826|TWO_SIDED|95.0|-33.5|26.7|||Cochran-Mantel-Haenszel|||Invasive MV in first 28 days PNA||26.7|-33.5|0.826
82500557|NCT02772081|164691794|SUPERIORITY||Adjusted difference|-3.4||||0.826|TWO_SIDED|95.0|-33.5|26.7|||Cochran-Mantel-Haenszel|||Invasive MV within 36 weeks PMA.||26.7|-33.5|0.826
82500558|NCT02959944|164691807|SUPERIORITY||Difference in Rates|0.043||||0.5384|TWO_SIDED|95.0|-0.094|0.181||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.181|-0.094|0.5384
82500559|NCT02959944|164691808|SUPERIORITY||Difference in Rates|0.043||||0.5384|TWO_SIDED|95.0|-0.094|0.181||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.181|-0.094|0.5384
82500560|NCT02959944|164691809|SUPERIORITY|||||||0.324||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.324
82500561|NCT02959944|164691810|SUPERIORITY|||||||0.281||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.281
82500562|NCT02959944|164691811|SUPERIORITY|||||||0.275||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.275
82500563|NCT02959944|164691812|SUPERIORITY|||||||0.216||||||Gray's chi-square test (p-value) was calculated using SAS lifetest procedure adjusting for competing risks including death, cGVHD progression, relapse of underlying disease, and start of subsequent cGVHD therapy.|Chi-squared|||||||0.216
82500564|NCT02959944|164691813|SUPERIORITY||Difference in Rates|-0.067||||0.351|TWO_SIDED|95.0|-0.208|0.074||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.074|-0.208|0.3510
82500565|NCT02959944|164691814|SUPERIORITY||Difference in Rates|-0.067||||0.351|TWO_SIDED|95.0|-0.208|0.074||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.074|-0.208|0.3510
82500566|NCT02959944|164691815|SUPERIORITY||Difference in Rates|0.124||||0.0659|TWO_SIDED|95.0|-0.007|0.256||P-value is computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval is computed using normal approximation.|||0.256|-0.007|0.0659
82500567|NCT02959944|164691816|SUPERIORITY||Difference in Rates|0.125||||0.0708|TWO_SIDED|95.0|-0.01|0.261||P-value is computed using non-stratified Chi-Square test.|Chi-squared|||||0.261|-0.010|0.0708
82500568|NCT02959944|164691817|SUPERIORITY||Difference in Rates|-0.059||||0.4064|TWO_SIDED|95.0|-0.199|0.08||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval was computed using normal approximation.|||0.080|-0.199|0.4064
82500569|NCT02959944|164691818|SUPERIORITY||Difference in Rates|-0.049||||0.4955|TWO_SIDED|95.0|-0.188|0.091||P-value was computed using non-stratified Chi-Square test.|Chi-squared||Confidence interval was computed using normal approximation.|||0.091|-0.188|0.4955
82500570|NCT02959944|164691819|SUPERIORITY||Hazard Ratio (HR)|0.994|||||TWO_SIDED|95.0|0.507|1.949|||||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|||1.949|0.507|
82500571|NCT02959944|164691820|SUPERIORITY||Hazard Ratio (HR)|1.061|||||TWO_SIDED|95.0|0.591|1.904|||||Hazard ratio is estimated using unstratified Cox regression model with treatment as the only covariate.|||1.904|0.591|
82500572|NCT02959944|164691821|SUPERIORITY||Hazard Ratio (HR)|0.697||||0.101|TWO_SIDED|95.0|0.451|1.076|||Regression, Cox|||||1.076|0.451|0.1010
82500573|NCT02959944|164691822|SUPERIORITY||Hazard Ratio (HR)|0.717||||0.1004|TWO_SIDED|95.0|0.482|1.068|||Regression, Cox|||||1.068|0.482|0.1004
82500574|NCT05081011|164691825|OTHER|||||||0.006||||||A p-value of 0.05 would be considered statistically significant|Log Rank|||||||0.006
82500575|NCT05081011|164691826|OTHER||Mean Difference (Final Values)|32.7||||0.01|TWO_SIDED|95.0|8.0|57.4||A p-value of 0.05 would be considered statistically significant.|Welch 2-sample method|||||57.4|8.0|0.01
82500576|NCT05081011|164691827|OTHER||Mean Difference (Final Values)|-3.6||||0.03|TWO_SIDED|95.0|-6.8|-0.4||A p-value of 0.05 would be considered statistically significant.|Welch 2-sample method|||||-0.4|-6.8|0.03
82500577|NCT05081011|164691828|OTHER||Mean Difference (Final Values)|1.4||||0.06|TWO_SIDED|95.0|-0.03|2.8|||Welch 2-sample method|||||2.8|-0.03|0.06
82500578|NCT05081011|164691829|OTHER||Mean Difference (Final Values)|1.0||||0.46|TWO_SIDED|95.0|-1.6|3.5|||Welch 2-sample method|||||3.5|-1.6|0.46
82478329|NCT02882152|164652321|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Results were compared by means of the ANOVA of repeated measures followed by Bonferroni test.~Comparing: all four moments, from zero to 72hs within femoral blockade group, all four moments within morphine group, and all four moments between the groups"||||<0.05
82478330|NCT01369329|164652333|SUPERIORITY_OR_OTHER|||||||0.002||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.002
82478331|NCT01369329|164652333|SUPERIORITY_OR_OTHER|||||||0.003||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.003
82478332|NCT01369329|164652334|SUPERIORITY_OR_OTHER|||||||0.003||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.003
82478333|NCT01369329|164652334|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
82478334|NCT01369329|164652335|SUPERIORITY_OR_OTHER|||||||0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.001
82478335|NCT01369329|164652335|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
82478336|NCT01369329|164652336|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||< 0.001
82478337|NCT01369329|164652336|SUPERIORITY_OR_OTHER|||||||0.002||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.002
82478338|NCT01369329|164652337|SUPERIORITY_OR_OTHER|||||||0.009||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.009
82478339|NCT01369329|164652337|SUPERIORITY_OR_OTHER|||||||0.001||||||A fixed sequence testing procedure was used to control alpha at 0.05 over the outcome measures.|Cochran-Mantel-Haenszel chi-square test|2-sided Cochran-Mantel-Haenszel chi-square test stratified by study region, CDAI score, and initial response to TNF antagonist therapy.||||||0.001
82478340|NCT00159822|164652352|SUPERIORITY_OR_OTHER||Percent of subjects with success|31.7||||||95.0|18.08|48.09|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|For sample size calculation, null hypothesis (p\<p0) is defined as response rate \<15% (ie, weak drug efficacy). Alternative hypothesis (p\>pA) defined as response rate \>30%. To reduce the chance of incorrectly rejecting the null hypothesis to 5% (α=5%) and incorrectly rejecting the alternate hypothesis to 20% (β=20%) it was calculated that a sample size of 48 subjects was required. Null hypothesis was rejected (assessing efficacy of study drug) if the number of eligible success was ≥ than n=12.||48.09|18.08|
82478341|NCT00159822|164652353|SUPERIORITY_OR_OTHER||Percent of subjects with success|33.3||||||95.0|18.6|51.0|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|Month 3 success=yes||51.0|18.6|
82478342|NCT00159822|164652353|SUPERIORITY_OR_OTHER||Percent of subjects with success|43.9||||||95.0|28.5|60.3|||||Number of subjects with successful global outcomes were summarized and 95% two-sided confidence intervals based on the exact Clopper-Pearson method for the binomial distribution provided.|EOT success=yes||60.3|28.5|
82562087|NCT01075152|164833499|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.73||||0.03|TWO_SIDED|95.0|1.06|2.82||A Lan-DeMets spending function analog of the O'Brien-Fleming boundaries was proposed to control the type-I error resulting from multiple interim analyses.|Regression, Cox||Hazard Ratio describes the risk of earlier HIV therapy in comparison to deferred HIV therapy initiation as the reference group.|"We compared the randomization arms for the primary endpoint of survival using time-to-event methods of Cox proportional hazards models by the intention-to-treat principle, based on two-sided type-I error with alpha=0.05.~The trial was statistically powered to detect a 25% relative survival benefit (15% absolute benefit) with 90% power and overall two-sided alpha=0.05 with an intended sample size of 500 participants. The trial was halted early by the Data and Safety Monitoring Board."||2.82|1.06|0.03
82478343|NCT00159822|164652359|SUPERIORITY_OR_OTHER||Kaplan-Meier estimate overall survival|0.85||||||95.0|0.725|0.976|||||Global survival rate calculated using Kaplan-Meier estimate of overall survival.|||0.976|0.725|
82478344|NCT02683746|164652418|NON_INFERIORITY|The primary hypothesis tested was that the liquid drug product would provide glycemic control non-inferior to the lyophilized drug product for a period of 26 weeks of treatment in participants with T2DM. Non-inferiority testing was performed at a one-sided alpha of 0.025 and non-inferiority margin of 0.4.|Mean Difference (Net)|0.06||||0.0002|TWO_SIDED|95.0|-0.13|0.24||P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model|||||0.24|-0.13|0.0002
82478345|NCT02683746|164652426|OTHER||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.83|0.14||||||||0.14|-0.83|
82478346|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.03|||<|0.0001|TWO_SIDED|95.0|-0.07|0.13||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 4 are presented.|||0.13|-0.07|<0.0001
82478347|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.07|||<|0.0001|TWO_SIDED|95.0|-0.07|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 8 are presented.|||0.20|-0.07|<0.0001
82580880|NCT01302067|164873206|SUPERIORITY_OR_OTHER||Least squares mean difference|3.68|STANDARD_ERROR_OF_MEAN|1.03||0.0004|TWO_SIDED|95.0|1.65|5.7||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||5.70|1.65|0.0004
82478348|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.08|||<|0.0001|TWO_SIDED|95.0|-0.08|0.24||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 12 are presented.|||0.24|-0.08|<0.0001
82478349|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.02|||<|0.0001|TWO_SIDED|95.0|-0.16|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 16 are presented.|||0.20|-0.16|<0.0001
82478350|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.02|||<|0.0001|TWO_SIDED|95.0|-0.15|0.19||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 20 are presented.|||0.19|-0.15|<0.0001
82500579|NCT05081011|164691830|OTHER||Mean Difference (Final Values)|0.56||||0.005|TWO_SIDED|95.0|0.21|0.91|||2-sample test|2-sample test for equality of proportions with Yates continuity correction|Comparison of percentage (proportion) of participants achieving glycemic control.|Comparison of percentage (proportion) of participants achieving glycemic control.||0.91|0.21|0.005
82500580|NCT05081011|164691831|OTHER||Mean Difference (Final Values)|-68.9||||0.001|TWO_SIDED|95.0|-107.1|-30.1|||Welch 2-sample method|||||-30.1|-107.1|0.001
82500581|NCT02320149|164691857|SUPERIORITY||Least Squares Mean Difference|-5.2|||<|0.0001|TWO_SIDED|95.0|-6.7|-3.6||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|||-3.6|-6.7|< 0.0001
82500582|NCT02320149|164691858|SUPERIORITY||Treatment Rate Difference|11.05|||<|0.0001|TWO_SIDED|95.0|6.39|15.72||P-values were based on the test of general association between the response and treatment group using Cochran-Mantel-Haenszel test with pooled site as stratification factor.|Cochran-Mantel-Haenszel||sarecycline - placebo|||15.72|6.39|< 0.0001
82500583|NCT02320149|164691859|SUPERIORITY||Least Squares Mean Difference|-16.7|||<|0.0001|TWO_SIDED|95.0|-21.9|-11.6||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||-11.6|-21.9|< 0.0001
82500584|NCT02320149|164691860|SUPERIORITY||Least Squares Mean Difference|-12.5|||<|0.0001||95.0|-16.9|-8.0||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||-8.0|-16.9|< 0.0001
82500585|NCT02320149|164691861|SUPERIORITY||Least Squares Mean Difference|-13.3|||<|0.0001|TWO_SIDED|95.0|-17.5|-9.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||-9.1|-17.5|< 0.0001
82500586|NCT02320149|164691862|SUPERIORITY||Least Squares Mean Difference|-7.2||||0.0003|TWO_SIDED|95.0|-11.1|-3.3||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||-3.3|-11.1|0.0003
82500587|NCT02320149|164691863|SUPERIORITY||Least Squares Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-2.5|-5.3|< 0.0001
82500588|NCT02320149|164691864|SUPERIORITY||Least Squares Mean Difference|-4.1|||<|0.0001|TWO_SIDED|95.0|-5.4|-2.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-2.9|-5.4|< 0.0001
82500589|NCT02320149|164691865|SUPERIORITY||Least Squares Mean Difference|-2.1||||0.0005|TWO_SIDED|95.0|-3.3|-0.9||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||-0.9|-3.3|0.0005
82500590|NCT02320149|164691866|SUPERIORITY||Least Squares Mean Difference|-4.3||||0.5786|TWO_SIDED|95.0|-19.4|10.8||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 12||10.8|-19.4|0.5786
82500591|NCT02320149|164691867|SUPERIORITY||Least Squares Mean Difference|-2.8||||0.6969|TWO_SIDED|95.0|-17.1|11.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 9||11.4|-17.1|0.6969
82552768|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.45|||<|0.0001|TWO_SIDED|95.0|-2.668|-2.233|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-2.233|-2.668|<.0001
82552769|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.466||||0.0012|TWO_SIDED|95.0|0.185|0.747|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.747|0.185|0.0012
82562088|NCT01075152|164833500|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|||||||Gray's method of cumulative incidence|||To account for the competing risk of death, the cumulative incidence function compared the randomized groups for endpoints of IRIS, relapse, and adverse events (Gray's method).||||0.32
82562089|NCT01075152|164833501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06|||||||Gray's method of cumulative incidence|||To account for the competing risk of death, the cumulative incidence function compared the randomized groups for endpoints of IRIS, relapse, and adverse events (Gray's method).||||0.06
82562090|NCT01075152|164833502|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.98
82478351|NCT02683746|164652427|OTHER||Mean Difference (Net)|0.01|||<|0.0001|TWO_SIDED|95.0|-0.17|0.2||Calculated P-value from a one-sided t-test to test whether the difference of least square means (Albiglutide liquid - Albiglutide lyophilized) is equal to the pre-specified non-inferiority margin of 0.4%.|MMRM model||Difference in HbA1c levels between albiglutide liquid and lyophilized product at Week 26 are presented.|||0.20|-0.17|<0.0001
82478352|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.15|0.65|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 1 are presented.|||0.65|-0.15|
82478353|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.2|0.69|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 2 are presented.|||0.69|-0.20|
82478354|NCT02683746|164652428|OTHER||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.42|0.4|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 3 are presented.|||0.40|-0.42|
82478355|NCT02683746|164652428|OTHER||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.42|0.36|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 4 are presented.|||0.36|-0.42|
82478356|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.19|||||TWO_SIDED|95.0|-0.19|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 5 are presented.|||0.57|-0.19|
82478357|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.26|0.55|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 6 are presented.|||0.55|-0.26|
82478358|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-0.16|0.71|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 7 are presented.|||0.71|-0.16|
82478359|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.19|||||TWO_SIDED|95.0|-0.22|0.6|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 8 are presented.|||0.60|-0.22|
82478360|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.41|0.47|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 9 are presented.|||0.47|-0.41|
82478361|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.15|||||TWO_SIDED|95.0|-0.28|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 10 are presented.|||0.57|-0.28|
82478362|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.34|0.56|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 11 are presented.|||0.56|-0.34|
82478363|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.41|0.46|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 12 are presented.|||0.46|-0.41|
82478364|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.47|0.57|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 13 are presented.|||0.57|-0.47|
82478365|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.06|||||TWO_SIDED|95.0|-0.41|0.54|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 16 are presented.|||0.54|-0.41|
82478366|NCT02683746|164652428|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.47|0.53|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 20 are presented.|||0.53|-0.47|
82478367|NCT02683746|164652428|OTHER||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.83|0.14|||||Difference in FPG levels between albiglutide liquid and lyophilized product at Week 26 are presented.|||0.14|-0.83|
82478368|NCT02108262|164652465|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|1.0|||=|0.1241|TWO_SIDED|95.0|-0.1|2.5|||Newcombe-Wilson score method|||||2.5|-0.1|= 0.1241
82552770|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.099||||0.4957|TWO_SIDED|95.0|-0.187|0.386|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||0.386|-0.187|0.4957
82552771|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.753|||<|0.0001|TWO_SIDED|95.0|-3.266|-2.239|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-2.239|-3.266|<.0001
82580881|NCT01302067|164873206|SUPERIORITY_OR_OTHER||Least squares mean difference|3.82|STANDARD_ERROR_OF_MEAN|1.25||0.0023|TWO_SIDED|95.0|1.36|6.28||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.28|1.36|0.0023
82580882|NCT01302067|164873207|SUPERIORITY_OR_OTHER||Least squares mean difference|9.37|STANDARD_ERROR_OF_MEAN|1.43|<|0.0001|TWO_SIDED|95.0|6.56|12.18||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||12.18|6.56|<0.0001
82478369|NCT02108262|164652465|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|0.5|||=|0.4994|TWO_SIDED|95.0|-0.5|1.7|||Newcombe-Wilson score method|||||1.7|-0.5|= 0.4994
82478370|NCT02108262|164652466|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|-0.2|||=|0.4988|TWO_SIDED|95.0|-1.4|0.7|||Newcombe-Wilson score method|||||0.7|-1.4|= 0.4988
82478371|NCT02108262|164652466|NON_INFERIORITY|The calculation used a non-inferiority argument powering the test of the alternative hypothesis of no difference in the rates. Within each co-primary endpoint, the two active treatment groups are assumed to have the same endpoint rates. Total alpha is 0.05 with 0.025 allocated to each co-primary endpoint, which in turn involves comparisons of two active treatment groups to placebo without further alpha control.|Difference in event rates (%)|0.5|||=|0.6241|TWO_SIDED|95.0|-0.7|1.9|||Newcombe-Wilson score method|||||1.9|-0.7|= 0.6241
82478372|NCT02108262|164652467|OTHER||Hazard Ratio (HR)|1.18|||=|0.5733|TWO_SIDED|95.0|0.67|2.05||Stratified log-rank p-value|Log Rank|||||2.05|0.67|= 0.5733
82478373|NCT02108262|164652467|OTHER||Hazard Ratio (HR)|1.02|||=|0.9717|TWO_SIDED|95.0|0.57|1.8||Stratified log-rank p-value|Log Rank|||||1.80|0.57|= 0.9717
82478374|NCT01976988|164652543|SUPERIORITY_OR_OTHER|||||||0.72|||||||Fisher Exact|||||||0.72
82478375|NCT01976988|164652544|SUPERIORITY_OR_OTHER|||||||0.36|||||||Fisher Exact|||||||0.36
82478376|NCT01976988|164652545|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
82478377|NCT01976988|164652546|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1
82478378|NCT01976988|164652547|SUPERIORITY_OR_OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82478379|NCT01976988|164652548|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
82478380|NCT03207438|164652549|SUPERIORITY||Hazard Ratio (HR)|1.39|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|||Main effect of quetiapine vs. placebo||||<.001
82478381|NCT03207438|164652549|SUPERIORITY||Hazard Ratio (HR)|1.15|STANDARD_ERROR_OF_MEAN|0.1||0.18|TWO_SIDED||||||Regression, Cox|||Interaction - treatment condition x melancholia||||.18
82478382|NCT03207438|164652549|SUPERIORITY||Hazard Ratio (HR)|1.46|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Main effect of quetiapine vs. placebo||||<.001
82478383|NCT03207438|164652549|SUPERIORITY||Hazard Ratio (HR)|1.17|STANDARD_ERROR_OF_MEAN|0.1||0.14|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Interaction - treatment condition by melancholia||||.14
82478384|NCT03207438|164652550|SUPERIORITY||Hazard Ratio (HR)|1.35|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|||Main effect of quetiapine vs. placebo||||<.001
82478385|NCT03207438|164652550|SUPERIORITY||Hazard Ratio (HR)|1.16|STANDARD_ERROR_OF_MEAN|0.11||0.17|TWO_SIDED||||||Regression, Cox|||Interaction - treatment condition x melancholia||||.17
82478386|NCT03207438|164652550|SUPERIORITY||Hazard Ratio (HR)|1.3|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Main effect of quetiapine vs. placebo||||<.001
82552772|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.514|||<|0.0001|TWO_SIDED|95.0|-3.043|-1.986|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-1.986|-3.043|<.0001
82552773|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-2.848|||<|0.0001|TWO_SIDED|95.0|-3.359|-2.336|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-2.336|-3.359|<.0001
82552774|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.586|||<|0.0001|TWO_SIDED|95.0|-3.105|-2.066|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.066|-3.105|<.0001
82552775|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.55|||<|0.0001|TWO_SIDED|95.0|-2.901|-2.199|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.199|-2.901|<.0001
82552776|NCT04800211|164810266|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.071||||0.7372|TWO_SIDED|95.0|-0.346|0.489|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||0.489|-0.346|0.7372
82562091|NCT01075152|164833503|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.66||||0.04|TWO_SIDED|95.0|1.03|2.68|||Regression, Cox|||We compared the randomization arms for survival using time-to-event methods of Cox proportional hazards models.||2.68|1.03|0.04
82562092|NCT01075152|164833504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.26|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.26
82562093|NCT01075152|164833505|SUPERIORITY_OR_OTHER_LEGACY|||||||0.23|||||||Fisher Exact|||Categorical secondary endpoints were compared with Fisher's exact tests.||||0.23
82562094|NCT01075152|164833506|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34|||||||repeated measure analysis|||The overall change from baseline in Karnofsky performance status scores was compared between groups via a repeated measure analysis, unstructured covariance matrix, adjusted for baseline value.||||0.34
82651030|NCT00294723|165016808|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-3.48||||0.2089||95.0|-8.91|1.95||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 104 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.95|-8.91|0.2089
82651031|NCT00294723|165016809|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|-3.04||||0.2749||95.0|-8.51|2.42||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||2.42|-8.51|0.2749
82478387|NCT03207438|164652550|SUPERIORITY||Hazard Ratio (HR)|1.18|STANDARD_ERROR_OF_MEAN|0.11||0.13|TWO_SIDED||||||Regression, Cox|Adjusted for baseline depression severity, Study number (1-4), and melancholic-by-time interaction.||Interaction - treatment condition by melancholia||||.13
82478388|NCT03207438|164652551|SUPERIORITY|||||||0.33|||||||Fisher's exact test|||Day 4 - Fisher's exact test comparing the proportion of quetiapine responders in each sleep subgroup|An exact OR could not be estimated by R; the 95% confidence interval was 0.31 to infinity, p = .33.|||.33
82478389|NCT03207438|164652551|SUPERIORITY||Odds Ratio (OR)|1.3||||0.44|TWO_SIDED||||||Fisher's exact test||The exact limits of 95% confidence interval could not be estimated, it was reported as 0.40 to infinity.|Week 1 - Fisher's exact test comparing the proportion of quetiapine responders in each sleep subgroup||||.44
82478390|NCT03207438|164652551|SUPERIORITY||Chi-squared|0.38||||0.73|TWO_SIDED||||||Chi-squared, Corrected|||Week 2 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.73
82478391|NCT03207438|164652551|SUPERIORITY||Chi-squared|1.5||||0.11|TWO_SIDED||||||Chi-squared, Corrected|||Week 4 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.11
82478392|NCT03207438|164652551|SUPERIORITY||Chi-squared|0.001||||0.5|TWO_SIDED||||||Chi-squared, Corrected||The actual estimated Chi-squared statistic was 6.35(10\^-31)|Week 6 - Chi-squared test comparing the proportion of quetiapine responders in each sleep subgroup||||.50
82478393|NCT03207438|164652552|SUPERIORITY||Chi-squared|0.001||||0.5|TWO_SIDED||||||Chi-squared, Corrected||Estimated chi-squared statistic was 1.88(10\^-29).|Day 4 - chi-squared test comparing response rates between groups.||||.5
82478394|NCT03207438|164652552|SUPERIORITY||Chi-squared|3.3||||0.03|TWO_SIDED||||||Chi-squared, Corrected|||Week 1 - chi-squared test comparing response rates between groups.||||.03
82478395|NCT03207438|164652552|SUPERIORITY||Chi-squared|3.87||||0.02|TWO_SIDED||||||Chi-squared, Corrected|||Week 2 - chi-squared test comparing response rates between groups.||||.02
82478396|NCT03207438|164652552|SUPERIORITY||Chi-squared|0.62||||0.22|TWO_SIDED||||||Chi-squared, Corrected|||Week 4 - chi-squared test comparing response rates between groups.||||.22
82478397|NCT03207438|164652552|SUPERIORITY||Chi-squared|2.45||||0.059|TWO_SIDED||||||Chi-squared, Corrected|||Week 6 - chi-squared test comparing response rates between groups.||||.059
82552777|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.106|||<|0.0001|TWO_SIDED|95.0|-3.502|-2.71|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.710|-3.502|<.0001
82552778|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.824|||<|0.0001|TWO_SIDED|95.0|-3.235|-2.414|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.414|-3.235|<.0001
82552779|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.228|||<|0.0001|TWO_SIDED|95.0|-3.553|-2.904|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.904|-3.553|<.0001
82478398|NCT01270802|164652580|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.76||0.67|TWO_SIDED|95.0|-0.75|2.37||P-value was not adjusted for multiple comparisons; P\<0.05 was considered statistically significant.|t-test, 2 sided|||We assumed that the declines in FMD seen with TDF/FTC/EFV in our previous study would fully reverse. Thus, the clinically relevant effect size to be detected for FMD change was +3.12% (SD 4%) in those switching from EFV to RAL. Using a two-sample, independent, two-tailed t-test with 5% type I error and 20% type II error, a sample size of 13 per group would be needed to find a difference in FMD between groups. Allowing for a 10% dropout rate, we planned to recruit 15 subjects per group.||2.37|-0.75|0.67
82478399|NCT01270802|164652581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.63|STANDARD_ERROR_OF_MEAN|5.52||0.4|TWO_SIDED|95.0|-13.04|9.77||P-value was not adjusted for multiple comparisons. P\<0.05 was considered statistically significant.|t-test, 2 sided|||||9.77|-13.04|0.40
82552780|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.839|||<|0.0001|TWO_SIDED|95.0|-3.221|-2.457|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.457|-3.221|<.0001
82580883|NCT01302067|164873207|SUPERIORITY_OR_OTHER||Least squares mean difference|4.23|STANDARD_ERROR_OF_MEAN|1.17||0.0003|TWO_SIDED|95.0|1.93|6.53||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||6.53|1.93|0.0003
82580884|NCT01302067|164873207|SUPERIORITY_OR_OTHER||Least squares mean difference|5.14|STANDARD_ERROR_OF_MEAN|1.43||0.0003|TWO_SIDED|95.0|2.34|7.94||A closed-testing procedure was used for the treatment comparison.|ANCOVA||Note- Standard Error of the Mean in the table refers to Standard Error of the Least Squares Mean.|P-value was based on an ANCOVA model with terms for treatment, pooled country, centered baseline value and centered baseline by treatment interaction.||7.94|2.34|0.0003
82580885|NCT01302067|164873208|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0016
82580886|NCT01302067|164873208|SUPERIORITY_OR_OTHER|||||||0.8121|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.8121
82580887|NCT01302067|164873208|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0015
82580888|NCT01302067|164873209|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||<0.0001
82580889|NCT01302067|164873209|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0006
82580890|NCT01302067|164873209|SUPERIORITY_OR_OTHER|||||||0.0027|TWO_SIDED|||||A closed-testing procedure was used for the treatment comparison.|Cochran-Mantel-Haenszel|||P-value was obtained from a Cochran-Mantel-Haenszel (CMH) general association test stratified by country.||||0.0027
82478400|NCT04740905|164652582|NON_INFERIORITY|If the lower bound of a two-sided 95% confidence interval (CI) for the difference in adjusted means of the two treatments (faricimab minus aflibercept) is greater than -4 letters (the non-inferiority margin), then faricimab is considered non-inferior to aflibercept.|Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-2.2|1.1|||||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The null hypothesis, H0: μ(faricimab) - μ(aflibercept) ≤-4 letters; the alternative hypothesis, Ha: μ(faricimab) - μ(aflibercept) \>-4 letters. The final sample size provided \>90% power for the non-inferiority assessment (at a one-sided 0.02485 significance level).||1.1|-2.2|
82478401|NCT04740905|164652582|SUPERIORITY||Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.84||0.4978|TWO_SIDED|95.0|-2.2|1.1||Tested at a two-sided 0.0497 significance level.|Mixed Model of Repeated Measures||The treatment difference in adjusted means of change from baseline BCVA is the calculated difference of Arm A: Faricimab and Arm B: Aflibercept. MMRM adjustments are listed in the outcome measure description.|The final sample size provided \>80% power for a 3.5-letter superiority assessment of faricimab over aflibercept.||1.1|-2.2|0.4978
82478402|NCT04740905|164652584|OTHER||Difference in CMH Weighted Percentage|-4.3|||||TWO_SIDED|95.0|-12.3|3.8||||||||3.8|-12.3|
82478403|NCT04740905|164652600|OTHER||Difference in Adjusted Means|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.9|1.1||||||||1.1|-1.9|
82478404|NCT03554486|164652658|OTHER|||||||0.051|||||||t-test, 2 sided|||||||0.051
82580891|NCT00266227|164873219|SUPERIORITY_OR_OTHER|||||||0.0195|||||||Cochran-Mantel-Haenszel|||||||0.0195
82580892|NCT00266227|164873221|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||||95.0|-0.7|-0.1|||ANOVA|Adjusted mean for Arm A (Rituxan) is -1.9 and adjusted mean for Arm B (Placebo) is -1.5.||Assessed using an analysis of variance (ANOVA) model, with retreatment group, baseline DAS28-ESR score, baseline RF status, and ≥20% improvement in both SJC and TJC at Week 24 from baseline (yes/no) as explanatory terms in the model.||-0.1|-0.7|
82478405|NCT03554486|164652659|OTHER|||||||0.17|||||||t-test, 2 sided|||||||0.17
82478406|NCT03554486|164652660|OTHER|||||||0.74|||||||t-test, 2 sided|||||||0.74
82478407|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-58.659|STANDARD_ERROR_OF_MEAN|0.0642|<|0.0001|TWO_SIDED|80.0|-61.95|-55.08|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-55.08|-61.95|<0.0001
82478408|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-68.026|STANDARD_ERROR_OF_MEAN|0.0665|<|0.0001|TWO_SIDED|80.0|-70.66|-65.16|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-65.16|-70.66|<0.0001
82552781|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-2.449|||<|0.0001|TWO_SIDED|95.0|-2.828|-2.07|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.070|-2.828|<.0001
82562095|NCT01075152|164833507|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||Regression, Linear|a linear mixed effects regression model fit with a random intercept and slope estimated the rate of clearance||To describe early fungicidal activity, a linear mixed effects regression model fit with a random intercept and slope estimated the rate of clearance of log10 colony forming units (CFU) of Cryptococcus, per mL of CSF per day, for all participants with \>2 cultures obtained.||||0.44
82562096|NCT01075152|164833508|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||||||This is the interaction p-value for CSF white cell count at randomization (implying there is a statistical difference in the outcome by arm based on this parameter).|Regression, Cox|||Pre-specified subgroups formed by baseline characteristics were compared for 26 week survival with models including an interaction term between treatment arm and subgroup.||||0.02
82651032|NCT00294723|165016809|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg and glimepiride was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that the given dose of liraglutide was better than glimepiride.|Estimated treatment difference, LS Mean|0.43||||0.8765||95.0|-5.05|5.92||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||5.92|-5.05|0.8765
82478409|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-86.152|STANDARD_ERROR_OF_MEAN|0.0643|<|0.0001|TWO_SIDED|80.0|-87.26|-84.95|||Mixed Model Repeated Measures|||ABeta 1-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-84.95|-87.26|<0.0001
82478410|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-40.558|STANDARD_ERROR_OF_MEAN|0.0558|<|0.0001|TWO_SIDED|80.0|-44.7|-36.1|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-36.10|-44.70|<0.0001
82478411|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-51.368|STANDARD_ERROR_OF_MEAN|0.0561|<|0.0001|TWO_SIDED|80.0|-54.78|-47.7|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-47.70|-54.78|<0.0001
82478412|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-59.583|STANDARD_ERROR_OF_MEAN|0.0558|<|0.0001|TWO_SIDED|80.0|-62.4|-56.56|||Mixed Model Repeated Measures|||ABeta x-40: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-56.56|-62.40|<0.0001
82478413|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-37.373|STANDARD_ERROR_OF_MEAN|0.1007|<|0.0001|TWO_SIDED|80.0|-45.06|-28.62|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-28.62|-45.06|<0.0001
82478414|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-45.018|STANDARD_ERROR_OF_MEAN|0.1001|<|0.0001|TWO_SIDED|80.0|-51.72|-37.38|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-37.38|-51.72|<0.0001
82562097|NCT01079949|164833509|SUPERIORITY_OR_OTHER|||||||0.5739||95.0|||||Wilcoxon two sample test|||||||0.5739
82478415|NCT02509117|164652712|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-61.797|STANDARD_ERROR_OF_MEAN|0.1014|<|0.0001|TWO_SIDED|80.0|-66.51|-56.42|||Mixed Model Repeated Measures|||ABeta Total: General linear model with intervention, as the fixed effect and loge(baseline) as covariate.||-56.42|-66.51|<0.0001
82478416|NCT04345367|164652725|SUPERIORITY||Estimate of difference|22.6|||<|0.0001|TWO_SIDED|95.0|15.8|29.5||Cochran-Mantel-Haenszel (CMH) method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and confidence interval (CI) for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.5|15.8|<0.0001
82478417|NCT04345367|164652726|SUPERIORITY||Estimate of difference|14.1|||<|0.0001|TWO_SIDED|95.0|8.2|20.0||CMH method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.0|8.2|<0.0001
82478418|NCT04345367|164652727|SUPERIORITY||Estimate of difference|12.5||||0.0008|TWO_SIDED|95.0|5.3|19.7||CMH method adjusted by baseline disease severity.|Cochran-Mantel-Haenszel||The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||19.7|5.3|0.0008
82478419|NCT04345367|164652728|OTHER||Estimate of difference|4.5|||||TWO_SIDED|95.0|0.2|8.7|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||8.7|0.2|
82478420|NCT04345367|164652728|OTHER||Estimate of difference|20.0|||||TWO_SIDED|95.0|13.2|26.9|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.9|13.2|
82478421|NCT04345367|164652728|OTHER||Estimate of difference|14.0|||||TWO_SIDED|95.0|6.9|21.1|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||21.1|6.9|
82478422|NCT04345367|164652728|OTHER||Estimate of difference|12.7|||||TWO_SIDED|95.0|5.5|20.0|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.0|5.5|
82651033|NCT00294723|165016809|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg and liraglutide 1.2 mg was calculated. If the upper limit of the 95% CI was below 0 mg/dL, it was concluded that liraglutide 1.8 mg was better than liraglutide 1.2 mg.|Estimated treatment difference, LS Mean|-3.48||||0.2088||95.0|-8.9|1.95||2-sided significance level 5%|ANCOVA|||Change in prandial increments of plasma glucose from baseline to end of treatment at 156 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.95|-8.90|0.2088
82478423|NCT04345367|164652728|OTHER||Estimate of difference|6.9|||||TWO_SIDED|95.0|-0.4|14.3|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||14.3|-0.4|
82478424|NCT04345367|164652729|OTHER||Estimate of difference|8.1|||||TWO_SIDED|95.0|1.8|14.4|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||14.4|1.8|
82478425|NCT04345367|164652729|OTHER||Estimate of difference|20.9|||||TWO_SIDED|95.0|13.8|28.0|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.0|13.8|
82478426|NCT04345367|164652729|OTHER||Estimate of difference|18.4|||||TWO_SIDED|95.0|11.4|25.3|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||25.3|11.4|
82478427|NCT04345367|164652729|OTHER||Estimate of difference|14.9|||||TWO_SIDED|95.0|8.2|21.5|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||21.5|8.2|
82478428|NCT04345367|164652729|OTHER||Estimate of difference|9.5|||||TWO_SIDED|95.0|3.0|16.0|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.0|3.0|
82478429|NCT04345367|164652729|OTHER||Estimate of difference|5.0|||||TWO_SIDED|95.0|-1.4|11.5|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.5|-1.4|
82478430|NCT04345367|164652729|OTHER||Estimate of difference|0.7|||||TWO_SIDED|95.0|-5.9|7.2|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||7.2|-5.9|
82478431|NCT04345367|164652730|OTHER||Estimate of difference|7.3|||||TWO_SIDED|95.0|2.8|11.7|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.7|2.8|
82478432|NCT04345367|164652730|OTHER||Estimate of difference|20.6|||||TWO_SIDED|95.0|14.3|26.9|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.9|14.3|
82478433|NCT04345367|164652730|OTHER||Estimate of difference|19.5|||||TWO_SIDED|95.0|12.5|26.4|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.4|12.5|
82478434|NCT04345367|164652730|OTHER||Estimate of difference|15.8|||||TWO_SIDED|95.0|8.7|23.0|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||23.0|8.7|
82478435|NCT04345367|164652730|OTHER||Estimate of difference|13.0|||||TWO_SIDED|95.0|5.9|20.2|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.2|5.9|
82478436|NCT04345367|164652730|OTHER||Estimate of difference|9.2|||||TWO_SIDED|95.0|2.0|16.4|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.4|2.0|
82562098|NCT01079949|164833514|SUPERIORITY_OR_OTHER|||||||0.1734||95.0|||||Wilcoxon two sample test|||||||0.1734
82562099|NCT01079949|164833515|SUPERIORITY_OR_OTHER|||||||0.0642||95.0|||||Wilcoxon two sample test|||||||0.0642
82562100|NCT01079949|164833519|SUPERIORITY_OR_OTHER|||||||0.408||95.0|||||Wilcoxon two sample test|||||||0.4080
82562101|NCT01079949|164833522|SUPERIORITY_OR_OTHER|||||||0.0648||95.0|||||Wilcoxon two sample test|||||||0.0648
82562102|NCT01079949|164833523|SUPERIORITY_OR_OTHER|||||||0.6799||95.0|||||ANOVA|||||||0.6799
82562103|NCT01079949|164833524|SUPERIORITY_OR_OTHER|||||||0.0634||95.0|||||Wilcoxon two sample test|||||||0.0634
82562104|NCT01079949|164833526|SUPERIORITY_OR_OTHER|||||||0.0166||95.0|||||Wilcoxon two sample test|||||||0.0166
82562105|NCT01079949|164833527|SUPERIORITY_OR_OTHER|||||||0.8812||95.0|||||ANOVA|||||||0.8812
82562106|NCT02144285|164833531|SUPERIORITY_OR_OTHER||Absolute Bioavailability|0.45|||||TWO_SIDED|90.0|0.34|0.6||||||||0.60|0.34|
82562107|NCT03346200|164833550|NON_INFERIORITY|The non-inferiority margin was based on the proportion of responders and was set to 17%. That is, we defined non-inferiority to mean that the proportion of responders in the non-referent study arms is not less than one third of the responders in the 20 mg group (50% minus 33% = 17%)|Median Difference (Final Values)|52.5|||<|0.01|TWO_SIDED|97.5|41.9|100.0|||one-sided Wald tests|P-values were corrected for multiple comparisons using the Holm-Bonferroni method. Non-inferiority p-values were declared if less than a=0.025||||100|41.9|<0.01
82562108|NCT04620733|164833578|SUPERIORITY||Risk Difference (RD)|41.7|||<|0.0001|TWO_SIDED|95.0|27.7|53.4||Two-sided p-value for pair-wise comparison was based on the CMH test adjusted for both randomization stratification variables (baseline ALP level: \< 350 U/L and ≥ 350 U/L; baseline Pruritus NRS: \< 4 and ≥ 4).|Cochran-Mantel-Haenszel|||||53.4|27.7|< 0.0001
82562109|NCT04620733|164833581|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.0001|TWO_SIDED|95.0|18.3|33.2|||Cochran-Mantel-Haenszel||Two-sided p-value for pair-wise comparison is based on the Cochran Mantel Haenszel test adjusted for both stratification variables (baseline ALP level: \< 350 U/L and \>= 350 U/L; baseline pruritus NRS: \< 4 and \>= 4).|||33.2|18.3|< 0.0001
82562110|NCT04620733|164833582|SUPERIORITY||Least Squares (LS) Mean Difference|-1.5||||0.0047|TWO_SIDED|95.0|-2.5|-0.5|||MMRM|Mixed-Effect Model Repeated Measure (MMRM)||||-0.5|-2.5|0.0047
82478437|NCT04345367|164652730|OTHER||Estimate of difference|4.5|||||TWO_SIDED|95.0|-2.8|11.8|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.8|-2.8|
82552782|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.023|||<|0.0001|TWO_SIDED|95.0|-3.328|-2.718|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.718|-3.328|<.0001
82552783|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.126|||<|0.0001|TWO_SIDED|95.0|-3.354|-2.897|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.897|-3.354|<.0001
82478438|NCT04345367|164652731|OTHER||Estimate of difference|7.1|||||TWO_SIDED|95.0|3.1|11.1|||||Day 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.1|3.1|
82478439|NCT04345367|164652731|OTHER||Estimate of difference|6.5|||||TWO_SIDED|95.0|1.7|11.3|||||Day 3. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.3|1.7|
82552784|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|0.908|||<|0.0001|TWO_SIDED|95.0|0.518|1.298|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||1.298|0.518|<.0001
82552785|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|1.291|||<|0.0001|TWO_SIDED|95.0|0.902|1.679|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||1.679|0.902|<.0001
82562111|NCT03854734|164833587|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|1.0|1.25|||Regression, Logistic|||Analysis for vaccine intention of Tdap||1.25|1.00|
82562112|NCT03854734|164833587|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|1.0|1.29|||Regression, Logistic|||Analysis for vaccine intention of MCV||1.29|1.00|
82562113|NCT03854734|164833587|SUPERIORITY|Generalized estimating equations (GEE) model using the framework of a log-binomial logistic regression model.|Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.96|1.14|||Regression, Logistic|||Analysis for vaccine intention of HPV||1.14|0.96|
82651034|NCT00752791|165016812|SUPERIORITY_OR_OTHER||Mean change from Baseline|0.1|||||TWO_SIDED|95.0|-0.24|0.44|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||0.44|-0.24|
82651035|NCT02927847|165016823|OTHER||t-value|0.138||||0.891|TWO_SIDED||||||t-test, 2 sided|||||||0.891
82651036|NCT02927847|165016824|OTHER||t-value|-0.575||||0.571|TWO_SIDED||||||t-test, 2 sided|||||||0.571
82651037|NCT02927847|165016825|OTHER||Odds Ratio (OR)|1.17||||0.739|TWO_SIDED||||||Regression, Cox|||||||0.739
82478440|NCT04345367|164652731|OTHER||Estimate of difference|11.4|||||TWO_SIDED|95.0|6.0|16.8|||||Day 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||16.8|6.0|
82478441|NCT04345367|164652731|OTHER||Estimate of difference|14.5|||||TWO_SIDED|95.0|8.8|20.3|||||Day 5. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.3|8.8|
82478442|NCT04345367|164652731|OTHER||Estimate of difference|12.9|||||TWO_SIDED|95.0|6.9|19.0|||||Day 6. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||19.0|6.9|
82478443|NCT04345367|164652731|OTHER||Estimate of difference|19.9|||||TWO_SIDED|95.0|13.8|26.0|||||Day 7. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.0|13.8|
82478444|NCT04345367|164652731|OTHER||Estimate of difference|22.1|||||TWO_SIDED|95.0|15.9|28.3|||||Day 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.3|15.9|
82478445|NCT04345367|164652731|OTHER||Estimate of difference|21.7|||||TWO_SIDED|95.0|15.2|28.1|||||Day 9. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||28.1|15.2|
82478446|NCT04345367|164652731|OTHER||Estimate of other|21.3|||||TWO_SIDED|95.0|14.7|27.9|||||Day 10. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||27.9|14.7|
82580893|NCT02915302|164873270|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the difference in fever rate was \<5%.|Difference in Fever Rate|0.84|||||TWO_SIDED|95.0|-2.13|3.8|||||Fever rate: Fluzone Quadrivalent vaccine (0.5-mL vs. 0.25-mL)|Difference in fever rate was defined as the fever rate following a 0.5-mL dose of Fluzone Quadrivalent vaccine minus the fever rate following a 0.25-mL dose of Fluzone Quadrivalent vaccine.||3.80|-2.13|
82478447|NCT04345367|164652731|OTHER||Estimate of difference|20.0|||||TWO_SIDED|95.0|13.3|26.6|||||Day 11. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||26.6|13.3|
82478448|NCT04345367|164652731|OTHER||Estimate of difference|21.3|||||TWO_SIDED|95.0|14.6|27.9|||||Day 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||27.9|14.6|
82478449|NCT04345367|164652731|OTHER||Estimate of difference|22.5|||||TWO_SIDED|95.0|15.8|29.2|||||Day 13. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.2|15.8|
82552786|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|0.174||||0.2772|TWO_SIDED|95.0|-0.142|0.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||0.490|-0.142|0.2772
82580894|NCT02915302|164873271|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (A/H1N1)|1.45|||||TWO_SIDED|95.0|1.19|1.77|||||A/H1N1 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H1N1 strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.77|1.19|
82651038|NCT03255031|165016862|SUPERIORITY|||||||0.067||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||||0.067
82651039|NCT03255031|165016863|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p = 0.05|Mixed Models Analysis|||||||0.004
82478450|NCT04345367|164652731|OTHER||Estimate of difference|22.4|||||TWO_SIDED|95.0|15.6|29.2|||||Day 14. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.2|15.6|
82478451|NCT04345367|164652731|OTHER||Estimate of difference|22.9|||||TWO_SIDED|95.0|16.0|29.9|||||Day 15. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||29.9|16.0|
82478452|NCT04345367|164652732|OTHER||Estimate of difference|17.3|||||TWO_SIDED|95.0|10.1|24.5|||||Week 4. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||24.5|10.1|
82478453|NCT04345367|164652732|OTHER||Estimate of difference|13.0|||||TWO_SIDED|95.0|6.0|20.1|||||Week 8. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.1|6.0|
82478454|NCT04345367|164652732|OTHER||Estimate of difference|4.4|||||TWO_SIDED|95.0|-2.5|11.4|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.4|-2.5|
82478455|NCT04345367|164652732|OTHER||Estimate of difference|3.6|||||TWO_SIDED|95.0|-3.4|10.5|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||10.5|-3.4|
82478456|NCT04345367|164652732|OTHER||Estimate of difference|2.0|||||TWO_SIDED|95.0|-4.9|9.0|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||9.0|-4.9|
82478457|NCT04345367|164652732|OTHER||Estimate of difference|5.0|||||TWO_SIDED|95.0|-1.9|11.9|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||11.9|-1.9|
82580895|NCT02915302|164873271|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (A/H3N2)|1.5|||||TWO_SIDED|95.0|1.23|1.83|||||A/H3N2 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H3N2 strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.83|1.23|
82478458|NCT04345367|164652734|OTHER||Least square mean difference|-9.3|||||TWO_SIDED|95.0|-14.0|-4.6|||||Week 2. Analysis was performed using Mixed Model Repeated Measure (MMRM) with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-4.6|-14.0|
82478459|NCT04345367|164652734|OTHER||Least square mean difference|-12.5|||||TWO_SIDED|95.0|-17.4|-7.6|||||Week 4. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-7.6|-17.4|
82478460|NCT04345367|164652734|OTHER||Least square mean difference|-11.1|||||TWO_SIDED|95.0|-15.6|-6.6|||||Week 8. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-6.6|-15.6|
82478461|NCT04345367|164652734|OTHER||Least square mean difference|-9.4|||||TWO_SIDED|95.0|-13.7|-5.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-5.1|-13.7|
82478462|NCT04345367|164652734|OTHER||Least square mean difference|-6.9|||||TWO_SIDED|95.0|-10.9|-2.9|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-2.9|-10.9|
82478463|NCT04345367|164652734|OTHER||Least square mean difference|-5.3|||||TWO_SIDED|95.0|-9.0|-1.7|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.7|-9.0|
82478464|NCT04345367|164652734|OTHER||Least square mean difference|-3.4|||||TWO_SIDED|95.0|-7.1|0.4|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-7.1|
82478465|NCT04345367|164652735|OTHER||Least square mean difference|-11.0|||||TWO_SIDED|95.0|-14.5|-7.6|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-7.6|-14.5|
82478466|NCT04345367|164652735|OTHER||Least square mean difference|-12.8|||||TWO_SIDED|95.0|-16.0|-9.5|||||Week 4. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-9.5|-16.0|
82552787|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-4.014|||<|0.0001|TWO_SIDED|95.0|-4.75|-3.278|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.278|-4.750|<.0001
82562114|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.7|1.04|||ANOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.04|0.70|
82478467|NCT04345367|164652735|OTHER||Least square mean difference|-10.2|||||TWO_SIDED|95.0|-13.6|-6.8|||||Week 8. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-6.8|-13.6|
82478468|NCT04345367|164652735|OTHER||Least square mean difference|-7.3|||||TWO_SIDED|95.0|-10.5|-4.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-4.1|-10.5|
82478469|NCT04345367|164652735|OTHER||Least square mean difference|-6.1|||||TWO_SIDED|95.0|-9.3|-3.0|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-3.0|-9.3|
82478470|NCT04345367|164652735|OTHER||Least square mean difference|-4.9|||||TWO_SIDED|95.0|-8.2|-1.7|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.7|-8.2|
82478471|NCT04345367|164652735|OTHER||Least square mean difference|-3.3|||||TWO_SIDED|95.0|-6.6|0.1|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-6.6|
82478472|NCT04345367|164652736|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.4|
82478473|NCT04345367|164652736|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-0.3|
82478474|NCT04345367|164652736|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.3|0.6|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.3|
82478475|NCT04345367|164652737|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.3|-0.3|
82478476|NCT04345367|164652737|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-0.2|
82478477|NCT04345367|164652737|OTHER||Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.1|
82478478|NCT04345367|164652738|OTHER||Least square mean difference|-2.0|||||TWO_SIDED|95.0|-2.6|-1.3|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.3|-2.6|
82478479|NCT04345367|164652738|OTHER||Least square mean difference|-1.0|||||TWO_SIDED|95.0|-1.6|-0.4|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.4|-1.6|
82478480|NCT04345367|164652738|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-1.4|-0.2|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.2|-1.4|
82478481|NCT04345367|164652738|OTHER||Least square mean difference|-0.6|||||TWO_SIDED|95.0|-1.2|0.0|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.0|-1.2|
82478482|NCT04345367|164652738|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-1.0|0.4|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-1.0|
82478483|NCT04345367|164652739|OTHER||Least square mean difference|0.818|||||TWO_SIDED|95.0|-1.22|2.856|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.856|-1.220|
82478484|NCT04345367|164652739|OTHER||Least square mean difference|2.093|||||TWO_SIDED|95.0|-0.081|4.267|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||4.267|-0.081|
82478485|NCT04345367|164652739|OTHER||Least square mean difference|-0.816|||||TWO_SIDED|95.0|-2.914|1.281|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.281|-2.914|
82478486|NCT04345367|164652740|OTHER||Least square mean difference|-1.6|||||TWO_SIDED|95.0|-2.5|-0.7|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.7|-2.5|
82478487|NCT04345367|164652740|OTHER||Least square mean difference|-1.4|||||TWO_SIDED|95.0|-2.2|-0.5|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.5|-2.2|
82478488|NCT04345367|164652740|OTHER||Least square mean difference|-0.4|||||TWO_SIDED|95.0|-1.3|0.5|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-1.3|
82478489|NCT04345367|164652741|OTHER||Least square mean difference|0.2|||||TWO_SIDED|95.0|-0.1|0.6|||||Quantity of hours slept: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.6|-0.1|
82478490|NCT04345367|164652741|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Quantity of hours slept: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.2|
82562115|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.57|||||TWO_SIDED|95.0|0.46|0.7|||ANOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.70|0.46|
82478491|NCT04345367|164652741|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Quantity of hours slept: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-0.2|
82478492|NCT04345367|164652741|OTHER||Least square mean difference|1.2|||||TWO_SIDED|95.0|-0.9|3.4|||||Short of Breath or Headache score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-0.9|
82478493|NCT04345367|164652741|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-2.0|2.2|||||Short of Breath or Headache score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.2|-2.0|
82580896|NCT02915302|164873271|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (B Victoria lineage)|1.33|||||TWO_SIDED|95.0|1.1|1.62|||||B Victoria lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Victoria lineage strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.62|1.10|
82552788|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-4.115|||<|0.0001|TWO_SIDED|95.0|-4.865|-3.365|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.365|-4.865|<.0001
82552789|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.403|||<|0.0001|TWO_SIDED|95.0|-4.005|-2.801|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.801|-4.005|<.0001
82552790|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.747|||<|0.0001|TWO_SIDED|95.0|-4.473|-3.02|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.020|-4.473|<.0001
82552791|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.74|||<|0.0001|TWO_SIDED|95.0|-4.461|-3.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-3.018|-4.461|<.0001
82580897|NCT02915302|164873271|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the ratio of GMTs was \>0.667.|GMTs Ratio (B Yamagata lineage)|1.44|||||TWO_SIDED|95.0|1.2|1.73|||||B Yamagata lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Yamagata lineage strain, GMT ratio was defined as the GMT after 0.5 mL dose(s) of Fluzone Quadrivalent vaccine divided by the GMT after 0.25 mL dose(s) of Fluzone Quadrivalent vaccine.||1.73|1.20|
82580898|NCT02915302|164873272|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (A/H1N1)|5.1|||||TWO_SIDED|95.0|0.189|10.0|||||A/H1N1 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H1N1 strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||10.0|0.189|
82651040|NCT01809314|165016872|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon signed-rank test|||The difference between Baseline and Month 4 was analyzed using the Wilcoxon signed-rank test.||||<0.0001
82651041|NCT01809314|165016873|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon signed-rank test|||Overall (all categories combined) change from Baseline in ECOG performance status at Month 4 was analyzed using Wilcoxon signed-rank test.||||0.001
82478494|NCT04345367|164652741|OTHER||Least square mean difference|0.6|||||TWO_SIDED|95.0|-1.5|2.6|||||Short of Breath or Headache score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||2.6|-1.5|
82651042|NCT00591253|165016901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0||||0.001|TWO_SIDED|95.0|-7.97|-2.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.04|-7.97|0.001
82478495|NCT04345367|164652741|OTHER||Least square mean difference|-1.8|||||TWO_SIDED|95.0|-4.2|0.5|||||Snoring score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.5|-4.2|
82478496|NCT04345367|164652741|OTHER||Least square mean difference|-0.9|||||TWO_SIDED|95.0|-3.3|1.5|||||Snoring score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.5|-3.3|
82552792|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.197|||<|0.0001|TWO_SIDED|95.0|-3.784|-2.61|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.610|-3.784|<.0001
82552793|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-3.3|||<|0.0001|TWO_SIDED|95.0|-3.678|-2.921|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||-2.921|-3.678|<.0001
82580899|NCT02915302|164873272|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (A/H3N2)|4.3|||||TWO_SIDED|95.0|-0.283|8.99|||||A/H3N2 strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For A/H3N2 strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||8.99|-0.283|
82478497|NCT04345367|164652741|OTHER||Least square mean difference|0.8|||||TWO_SIDED|95.0|-1.7|3.4|||||Snoring score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-1.7|
82580900|NCT02915302|164873272|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (B Victoria lineage)|1.4|||||TWO_SIDED|95.0|-2.78|5.56|||||B Victoria lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Victoria lineage strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||5.56|-2.78|
82580901|NCT02915302|164873272|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference in SCRs was \>-10%.|Difference in SCR (B Yamagata lineage)|3.4|||||TWO_SIDED|95.0|-0.465|7.36|||||B Yamagata lineage strain: Fluzone Quadrivalent Vaccine (0.5-mL vs. 0.25-mL)|For B Yamagata lineage strain, difference in SCR was defined as SCR after 0.5-mL dose(s) of Fluzone Quadrivalent Vaccine minus SCR after 0.25-mL dose(s) of Fluzone Quadrivalent Vaccine.||7.36|-0.465|
82478498|NCT04345367|164652741|OTHER||Least square mean difference|-4.1|||||TWO_SIDED|95.0|-6.6|-1.6|||||Sleep disturbance score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.6|-6.6|
82580902|NCT01850446|164873279|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day). Type I error (alpha) level of 0.025 was prospectively planned for this analysis. Power of this analysis was planned to be greater than 0.8|Z-value|8.56|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien Procedures for Comparing Samples with Multiple Endpoints.|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics (patient diary analysis)||||<0.0001
82580903|NCT01850446|164873279|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day). Type I error (alpha) level of 0.025 was prospectievely planned for this analysis. Power of this analysis was planned to be greater than 0.8|Z-value|7.31|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien, P. (1984). Procedures for Comparing Samples with Multiple Endpoints. Biometrics, 40(4), 1079-1087. doi:10.2307/2531158|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics (physician's examination analysis)||||<0.0001
82478499|NCT04345367|164652741|OTHER||Least square mean difference|-3.8|||||TWO_SIDED|95.0|-6.2|-1.4|||||Sleep disturbance score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.4|-6.2|
82478500|NCT04345367|164652741|OTHER||Least square mean difference|-1.7|||||TWO_SIDED|95.0|-4.1|0.7|||||Sleep disturbance score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.7|-4.1|
82478501|NCT04345367|164652741|OTHER||Least square mean difference|1.0|||||TWO_SIDED|95.0|-1.6|3.6|||||Sleep adequacy score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.6|-1.6|
82478502|NCT04345367|164652741|OTHER||Least square mean difference|2.9|||||TWO_SIDED|95.0|0.4|5.4|||||Sleep adequacy score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||5.4|0.4|
82552794|NCT04800211|164810267|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)|Mean Difference (Net)|-0.206||||0.348|TWO_SIDED|95.0|-0.638|0.226|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood COHb (% Saturation) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (MiTT Population)||0.226|-0.638|0.3480
82552795|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.716|||<|0.0001|TWO_SIDED|95.0|-0.951|-0.481|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5. (mITT Population)||-0.481|-0.951|<0.0001
82552796|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.686|||<|0.0001|TWO_SIDED|95.0|-0.966|-0.406|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 7. (mITT Population)||-0.406|-0.966|<0.0001
82552797|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.521|||<|0.0001|TWO_SIDED|95.0|-0.755|-0.288|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 5. (mITT Population)||-0.288|-0.755|<.0001
82552798|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.342||||0.0131|TWO_SIDED|95.0|-0.612|-0.072|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 7. (mITT Population)||-0.072|-0.612|0.0131
82552799|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|-0.514|||<|0.0001|TWO_SIDED|95.0|-0.712|-0.316|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 7. (mITT Population)||-0.316|-0.712|<.0001
82552800|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5. (mITT Population)|Mean Difference (Net)|-0.231||||0.0435|TWO_SIDED|95.0|-0.455|-0.007|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5. (mITT Population)||-0.007|-0.455|0.0435
82580904|NCT01850446|164873280|NON_INFERIORITY|Non-inferiority margin was prespecified as 1.2 degree\*day|Mean Difference (Final Values)|0.44||||0.027|ONE_SIDED|97.5|-0.23||||t-test, 1 sided|||Severity of fever was measured as area under curve (body temperature-time)|||-0.23|0.027
82580905|NCT01850446|164873281|NON_INFERIORITY|Non-inferiority magrin was prespecified as 20% of comparator duration|Mean Difference (Final Values)|0.23||||0.02|ONE_SIDED|97.5||0.63|||t-test, 1 sided|mean survival time estimates obtained from survival analysis were compared by means of t-test with infinite degrees of freedom||||0.63||0.02
82651043|NCT00591253|165016901|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|||<|0.001|TWO_SIDED|95.0|-10.69|-4.86||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-4.86|-10.69|<0.001
82651044|NCT00591253|165016902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.48|||<|0.001|TWO_SIDED|95.0|-10.18|-2.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.78|-10.18|<0.001
82552801|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 7. (mITT Population)|Mean Difference (Net)|0.111||||0.4012|TWO_SIDED|95.0|-0.149|0.371|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 7. (mITT Population)||0.371|-0.149|0.4012
82552802|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5. (mITT Population)|Mean Difference (Net)|-0.485||||0.0133|TWO_SIDED|95.0|-0.895|-0.074|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5. (mITT Population)||-0.074|-0.895|0.0133
82552803|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.797||||0.0002|TWO_SIDED|95.0|-1.277|-0.317|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7. (mITT Population)||-0.317|-1.277|0.0002
82552804|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5. (mITT Population)|Mean Difference (Net)|-0.29||||0.2641|TWO_SIDED|95.0|-0.699|0.119|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5. (mITT Population)||0.119|-0.699|0.2641
82552805|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.453||||0.0639|TWO_SIDED|95.0|-0.924|0.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7. (mITT Population)||0.018|-0.924|0.0639
82552806|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 7. (mITT Population)|Mean Difference (Net)|-0.625||||0.0001|TWO_SIDED|95.0|-0.945|-0.305|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 7. (mITT Population)||-0.305|-0.945|0.0001
82552807|NCT04800211|164810268|EQUIVALENCE|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Test 2 on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Test 2 on Visit 7. (mITT Population)|Mean Difference (Net)|-0.344||||0.0776|TWO_SIDED|95.0|-0.725|0.038|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Test 2 on Visit 7. Alternate hypothesis: Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Test 2 on Visit 7. (mITT Population)||0.038|-0.725|0.0776
82651045|NCT00591253|165016902|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|||<|0.001|TWO_SIDED|95.0|-10.27|-2.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-2.81|-10.27|<0.001
82651046|NCT00591253|165016903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44||||0.001|TWO_SIDED|95.0|-5.47|-1.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.40|-5.47|0.001
82651047|NCT00591253|165016903|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.77|||<|0.001|TWO_SIDED|95.0|-7.78|-3.77||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.77|-7.78|<0.001
82580906|NCT01850446|164873282|NON_INFERIORITY|Non-inferiority margin was prespecified as 20% (on each day)|Z-value|6.95|||<|0.0001|TWO_SIDED|||||Global test statistics (GTS) was constructed in accordance with O'Brien, P. (1984). Procedures for Comparing Samples with Multiple Endpoints. Biometrics, 40(4), 1079-1087. doi:10.2307/2531158|Z-test for Global test statistics|||Individual day analyses were combined into Global Test Statistics||||<0.0001
82651048|NCT00591253|165016904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.004|TWO_SIDED|95.0|-5.22|-1.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.02|-5.22|0.004
82580907|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.49|||<|0.001|ONE_SIDED|97.5||1.33|||t-test, 1 sided|||Severity of influenza symptoms (day1 morning)||1.33||<0.001
82580908|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.56||||0.013|ONE_SIDED|97.5||2.59|||t-test, 1 sided|||Severity of influenza symptoms (day2 morning)||2.59||0.013
82552808|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.621||||0.0055|TWO_SIDED|95.0|-1.055|-0.186|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.186|-1.055|0.0055
82552809|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.778||||0.0011|TWO_SIDED|95.0|-1.24|-0.316|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.316|-1.240|0.0011
82552810|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.26|-0.54|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.540|-1.260|<.0001
82552811|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.52||||0.015|TWO_SIDED|95.0|-0.938|-0.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.103|-0.938|0.0150
82562116|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.14|||||TWO_SIDED|95.0|0.95|1.36|||ANOVA|||"The following hypotheses were tested for B strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.36|0.95|
82580909|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.82||||0.084|ONE_SIDED|97.5||2.66|||t-test, 1 sided|||Severity of influenza symptoms (day3 morning)||2.66||0.084
82580910|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.62||||0.22|ONE_SIDED|97.5||2.2|||t-test, 1 sided|||Severity of influenza symptoms (day4 morning)||2.2||0.22
82580911|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.27||||0.04|ONE_SIDED|97.5||1.07|||t-test, 1 sided|||Severity of influenza symptoms (day5 morning)||1.07||0.04
82580912|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.08||||0.13|ONE_SIDED|97.5||0.98|||t-test, 1 sided|||Severity of influenza symptoms (day6 morning)||0.98||0.13
82580913|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.25||||0.135|ONE_SIDED|97.5||0.74|||t-test, 1 sided|||severity of influenza symptoms (day1 morning)||0.74||0.135
82580914|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.64||||0.004|ONE_SIDED|97.5||2.67|||t-test, 1 sided|||Severity of influenza symptoms (day1 evening)||2.67||0.004
82478503|NCT04345367|164652741|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-1.9|3.4|||||Sleep adequacy score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||3.4|-1.9|
82478504|NCT04345367|164652741|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-2.8|1.3|||||Sleep somnolence score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||1.3|-2.8|
82478505|NCT04345367|164652741|OTHER||Least square mean difference|-2.4|||||TWO_SIDED|95.0|-4.4|-0.4|||||Sleep somnolence score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.4|-4.4|
82478506|NCT04345367|164652741|OTHER||Least square mean difference|-2.3|||||TWO_SIDED|95.0|-4.3|-0.3|||||Sleep somnolence score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.3|-4.3|
82478507|NCT04345367|164652741|OTHER||Least square mean difference|-1.2|||||TWO_SIDED|95.0|-3.0|0.7|||||Sleep Problems Index I score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.7|-3.0|
82478508|NCT04345367|164652741|OTHER||Least square mean difference|-2.3|||||TWO_SIDED|95.0|-4.0|-0.5|||||Sleep Problems Index I score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.5|-4.0|
82478509|NCT04345367|164652741|OTHER||Least square mean difference|-0.8|||||TWO_SIDED|95.0|-2.5|0.9|||||Sleep Problems Index I score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.9|-2.5|
82478510|NCT04345367|164652741|OTHER||Least square mean difference|-2.2|||||TWO_SIDED|95.0|-4.0|-0.3|||||Sleep Problems Index II score: Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.3|-4.0|
82478511|NCT04345367|164652741|OTHER||Least square mean difference|-2.9|||||TWO_SIDED|95.0|-4.8|-1.1|||||Sleep Problems Index II score: Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-1.1|-4.8|
82580915|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.9||||0.05|ONE_SIDED|97.5||2.94|||t-test, 1 sided|||Severity of influenza symptoms (day2 evening)||2.94||0.05
82478512|NCT04345367|164652741|OTHER||Least square mean difference|-1.4|||||TWO_SIDED|95.0|-3.2|0.4|||||Sleep Problems Index II score: Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.4|-3.2|
82478513|NCT04345367|164652742|OTHER||Least square mean difference|-1.1|||||TWO_SIDED|95.0|-1.5|-0.8|||||Week 2. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.8|-1.5|
82478514|NCT04345367|164652742|OTHER||Least square mean difference|-0.4|||||TWO_SIDED|95.0|-0.8|-0.1|||||Week 12. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||-0.1|-0.8|
82478515|NCT04345367|164652742|OTHER||Least square mean difference|-0.2|||||TWO_SIDED|95.0|-0.6|0.1|||||Week 16. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-0.6|
82478516|NCT04345367|164652742|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-0.6|0.0|||||Week 20. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.0|-0.6|
82478517|NCT04345367|164652742|OTHER||Least square mean difference|-0.2|||||TWO_SIDED|95.0|-0.5|0.1|||||Week 26. Analysis was performed using MMRM with fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, baseline value and an unstructured covariance matrix.|||0.1|-0.5|
82478518|NCT04345367|164652743|OTHER||Least square mean difference|18.1|||||TWO_SIDED|95.0|10.5|25.7||||||Analysis was performed using analysis of covariance (ANCOVA) model including treatment as a main effect and baseline disease severity as covariates.||25.7|10.5|
82478519|NCT04345367|164652744|OTHER||Estimate of difference|13.7|||||TWO_SIDED|95.0|7.3|20.1|||||Week 2. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||20.1|7.3|
82478520|NCT04345367|164652744|OTHER||Estimate of difference|3.9|||||TWO_SIDED|95.0|-1.6|9.4|||||Week 12. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||9.4|-1.6|
82478521|NCT04345367|164652744|OTHER||Estimate of difference|-1.6|||||TWO_SIDED|95.0|-7.1|4.0|||||Week 16. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||4.0|-7.1|
82478522|NCT04345367|164652744|OTHER||Estimate of difference|-2.0|||||TWO_SIDED|95.0|-7.6|3.6|||||Week 20. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||3.6|-7.6|
82478523|NCT04345367|164652744|OTHER||Estimate of difference|-4.2|||||TWO_SIDED|95.0|-10.3|1.9|||||Week 26. The estimate and CI for difference were calculated based on the weighted average of difference by disease severity group using the normal approximation of binomial proportions.|||1.9|-10.3|
82478524|NCT01227824|164652761|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority could be concluded if the lower bound of a two-sided 95% confidence interval for the difference (DTG - RAL) in percentages between the two treatment arms was \> -10%.|Difference in percentage|2.5|||||TWO_SIDED|95.0|-2.2|7.1|||||Analysis was based on Cochran-Mantel Haenszel stratified analysis adjusted for the following Baseline stratification factors: baseline HIV-1 RNA and background dual NRTI.|||7.1|-2.2|
82580916|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|1.34||||0.447|ONE_SIDED|97.5||3.08|||t-test, 1 sided|||Severity of influenza symptoms (day3 evening)||3.08||0.447
82580917|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.08||||0.042|ONE_SIDED|97.5||1.4|||t-test, 1 sided|||Severity of influenza symptoms (day4 evening)||1.4||0.042
82580918|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.29||||0.313|ONE_SIDED|97.5||1.53|||t-test, 1 sided|||Severity of influenza symptoms (day5 evening)||1.53||0.313
82580919|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.27||||0.087|ONE_SIDED|97.5||0.77|||t-test, 1 sided|||Severity of influenza symptoms (day6 evening)||0.77||0.087
82580920|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.43|||<|0.001|ONE_SIDED|97.5||1.41|||t-test, 1 sided|||Severity of influenza symptoms (day1 physician's objective examination)||1.41||<0.001
82580921|NCT01850446|164873283|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|1.34||||0.305|ONE_SIDED|97.5||3.11|||t-test, 1 sided|||Severity of influenza symptoms (day3 physician's objective examination)||3.11||0.305
82580922|NCT01850446|164873284|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|0.08||||0.02|ONE_SIDED|97.5||0.5|||t-test, 1 sided|||Fever duration||0.5||0.02
82580923|NCT01850446|164873284|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.18|||<|0.001|ONE_SIDED|97.5||0.14|||t-test, 1 sided|||Non-specific symptoms duration||0.14||<0.001
82580924|NCT01850446|164873284|NON_INFERIORITY|N.I. margin was prespecified as 20% of comparator (with respect to timeframe)|Mean Difference (Final Values)|-0.25|||<|0.001|ONE_SIDED|97.5||0.11|||t-test, 1 sided|||Nasal/ throat/ chest symptoms duration||0.11||<0.001
82580925|NCT01850446|164873285|NON_INFERIORITY|N.I. margin was prespecified as 20% (AUC ratio supposed to be less than 1.2)|AUC ratio|1.04||||0.015|TWO_SIDED|95.0|0.9|1.17||bootstrap (100000 rep) confidence limits were constructed for AUC ratio|one-sample Z-test|AUC ratio was compared with N.I. margin||Severity of influenza was measured as area under curve (symptoms score-time)||1.17|0.9|0.015
82580926|NCT01850446|164873286|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.05||||0.036|ONE_SIDED|97.5||0.19|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day1)||0.19||0.036
82580927|NCT01850446|164873286|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.01||||0.009|ONE_SIDED|97.5||0.15|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day2)||0.15||0.009
82478525|NCT01755026|164652801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|191.0|STANDARD_ERROR_OF_MEAN|166.01|<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.01
82580928|NCT01850446|164873286|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.03|||<|0.001|ONE_SIDED|97.5||0.13|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day3)||0.13||<0.001
82580929|NCT01850446|164873286|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.02|||<|0.001|ONE_SIDED|97.5||0.13|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day4)||0.13||<0.001
82580930|NCT01850446|164873286|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.02|||<|0.001|ONE_SIDED|97.5||0.01|||Z test for proportions|||Percentage difference of Patients, Who Used Antipyretics (day5)||0.01||<0.001
82580931|NCT01850446|164873287|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|0.0|||<|0.001|ONE_SIDED|97.5||0.03|||Z test for proportions|||Percentage of Patients Requiring Antibiotics Administration||0.03||<0.001
82580932|NCT01850446|164873288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.01||||0.014|ONE_SIDED|97.5||0.15|||Z test for proportions|||Proportion difference of Patients With Negative Results (day3)||0.15||0.014
82580933|NCT01850446|164873288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.08||||0.037|ONE_SIDED|97.5||0.03|||Z test for proportions|||Proportion difference of Patients With Negative Results (day5)||0.03||0.037
82580934|NCT01850446|164873288|NON_INFERIORITY|N.I. margin was prespecified as 20%|Risk Difference (RD)|-0.03|||<|0.001|ONE_SIDED|97.5||0.03|||Z test for proportions|||Proportion difference of Patients With Negative Results (day7)||0.03||<0.001
82580935|NCT01850446|164873289|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.03|TWO_SIDED|95.0|0.19|3.59||P-value IL2 provided for between-group comparisson of difference from days 3 to day 1.|t-test, 2 sided|||difference between changes from day 1 to day 3 (IL-2)||3.59|0.19|0.03
82580936|NCT01850446|164873289|SUPERIORITY||Mean Difference (Final Values)|1.23||||0.19|TWO_SIDED|95.0|-0.64|3.12||P-value IL2 provided for between-group comparisson of difference from day 7 to day 1.|t-test, 2 sided|||difference between changes from day 1 to day 7 (IL-2)||3.12|-0.64|0.19
82478526|NCT02184624|164652816|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical comparison for categories Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478527|NCT02184624|164652816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
82580937|NCT01850446|164873289|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IFN-γ)||||0.012
82580938|NCT01850446|164873289|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IFN-γ)||||<0.0001
82580939|NCT01850446|164873289|SUPERIORITY|||||||0.795|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IL-18)||||0.795
82580940|NCT01850446|164873289|SUPERIORITY|||||||0.992|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IL-18)||||0.992
82580941|NCT01850446|164873289|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.04|TWO_SIDED|95.0|0.02|0.92|||t-test, 2 sided|||difference between changes from day 1 to day 3 (IL-4)||0.92|0.02|0.04
82580942|NCT01850446|164873289|SUPERIORITY||Median Difference (Final Values)|0.37||||0.08|TWO_SIDED|95.0|-0.04|0.79|||t-test, 2 sided|||difference between changes from day 1 to day 7 (IL-4)||0.79|-0.04|0.08
82478528|NCT02184624|164652816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478529|NCT02184624|164652816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478530|NCT02184624|164652816|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478531|NCT02184624|164652817|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478532|NCT02184624|164652817|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
82478533|NCT02184624|164652817|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478534|NCT02184624|164652817|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478535|NCT02184624|164652817|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478536|NCT02184624|164652818|SUPERIORITY_OR_OTHER|||||||0.48||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||0.480
82580943|NCT01850446|164873289|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (IL-16)||||0.062
82580944|NCT01850446|164873289|SUPERIORITY|||||||0.638|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (IL-16)||||0.638
82478537|NCT02184624|164652818|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||0.044
82478538|NCT02184624|164652818|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||0.025
82478539|NCT02184624|164652818|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478540|NCT02184624|164652818|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||0.014
82478541|NCT02184624|164652819|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using DISKUS/ACCUHALER|Cochran-Mantel-Haenszel|||||||<0.001
82478542|NCT02184624|164652819|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using MDI|Cochran-Mantel-Haenszel|||||||<0.001
82478543|NCT02184624|164652819|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using TURBUHALER|Cochran-Mantel-Haenszel|||||||0.002
82478544|NCT02184624|164652819|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using HANDIHALER|Cochran-Mantel-Haenszel|||||||0.001
82478545|NCT02184624|164652819|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||Statistical comparison for categories: Error while using only ELLIPTA inhaler Vs Error while using BREEZHALER|Cochran-Mantel-Haenszel|||||||0.003
82478546|NCT02184624|164652820|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for DISKUS/ACCUHALER inhaler|Wilcoxon signed rank test|||||||<0.001
82478547|NCT02184624|164652820|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for MDI inhaler|Wilcoxon signed rank test|||||||<0.001
82478548|NCT02184624|164652820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for TURBUHALER inhaler|Wilcoxon signed rank test|||||||<0.001
82478549|NCT02184624|164652820|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for HANDIHALER inhaler|Wilcoxon signed rank test|||||||<0.001
82478550|NCT02184624|164652820|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants requiring instructions from the HCP (maximum three times) to demonstrate adequate inhalation technique of ELLIPTA inhaler versus those for BREEZHALER inhaler|Wilcoxon signed rank test|||||||<0.001
82478551|NCT02184624|164652821|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring DISKUS/ACCUHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478552|NCT02184624|164652821|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring MDI device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478553|NCT02184624|164652821|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring TURBUHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478554|NCT02184624|164652821|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring HANDIHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478555|NCT02184624|164652821|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring BREEZHALER device as assessed by the 'preference' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82580945|NCT01850446|164873290|SUPERIORITY|||||||0.065|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-α)||||0.065
82580946|NCT01850446|164873290|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-α)||||0.404
82478556|NCT02184624|164652822|SUPERIORITY_OR_OTHER||||||<|0.001||||||Number of participants preferring ELLIPTA device versus number of participants preferring DISKUS/ACCUHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478557|NCT02184624|164652822|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring MDI device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478558|NCT02184624|164652822|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring TURBUHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478559|NCT02184624|164652822|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring HANDIHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478560|NCT02184624|164652822|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Number of participants preferring ELLIPTA device versus number of participants preferring BREEZHALER device by the 'ease of use' questionnaire|Cochran-Mantel-Haenszel|||||||<0.001
82478561|NCT02365233|164652837|SUPERIORITY||||||||||||||||||IRB withheld the data due to inadequate supporting documentation|||
82478562|NCT03207035|164652867|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82478563|NCT03207035|164652868|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82478564|NCT03207035|164652869|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
82580947|NCT01850446|164873290|SUPERIORITY|||||||0.204|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Induced IFN-α)||||0.204
82478565|NCT03207035|164652870|OTHER|||||||0.002|||||||t-test, 2 sided|||||||0.002
82478566|NCT03207035|164652871|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82478567|NCT03207035|164652872|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82478568|NCT03207035|164652873|OTHER|||||||0.53|||||||Chi-squared|||||||0.53
82478569|NCT03207035|164652874|OTHER|||||||0.48|||||||Chi-squared|||||||0.48
82478570|NCT02880956|164652887|SUPERIORITY||Least Squares (LS) Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.178||0.74|TWO_SIDED|95.0|-0.291|0.409||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.409|-0.291|0.740
82478571|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.38|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478572|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.176||0.367|TWO_SIDED|95.0|-0.504|0.187||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.187|-0.504|0.367
82478573|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478574|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.18||0.843|TWO_SIDED|95.0|-0.318|0.389||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.389|-0.318|0.843
82478575|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.37|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478576|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|0.08|STANDARD_ERROR_OF_MEAN|0.222||0.703|TWO_SIDED|95.0|-0.351|0.52||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.520|-0.351|0.703
82580948|NCT01850446|164873290|SUPERIORITY|||||||0.386|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Induced IFN-α)||||0.386
82478577|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|1.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478578|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.218||0.947|TWO_SIDED|95.0|-0.442|0.413||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.413|-0.442|0.947
82478579|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.69|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478580|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.222||0.732|TWO_SIDED|95.0|-0.514|0.361||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.361|-0.514|0.732
82478581|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478582|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.305||0.939|TWO_SIDED|95.0|-0.623|0.576||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.576|-0.623|0.939
82478583|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|2.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82580949|NCT01850446|164873290|SUPERIORITY|||||||0.592|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Spontaneous IFN-γ)||||0.592
82580950|NCT01850446|164873290|SUPERIORITY|||||||0.356|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Spontaneous IFN-γ)||||0.356
82580951|NCT01850446|164873290|SUPERIORITY|||||||0.475|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (Induced IFN-γ)||||0.475
82478584|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.299||0.872|TWO_SIDED|95.0|-0.637|0.54||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.540|-0.637|0.872
82478585|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478586|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.305||0.773|TWO_SIDED|95.0|-0.688|0.512||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.512|-0.688|0.773
82478587|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478588|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.387||0.848|TWO_SIDED|95.0|-0.834|0.686||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.686|-0.834|0.848
82478589|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|2.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478590|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.38||0.869|TWO_SIDED|95.0|-0.81|0.684||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.684|-0.810|0.869
82478591|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478592|NCT02880956|164652887|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.389||0.679|TWO_SIDED|95.0|-0.603|0.925||The statistical model: CDR change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.925|-0.603|0.679
82478593|NCT02880956|164652887|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|2.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478594|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.693||0.562|TWO_SIDED|95.0|-1.764|0.96||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.960|-1.764|0.562
82478595|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|4.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478596|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.682||0.066|TWO_SIDED|95.0|-2.602|0.081||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.081|-2.602|0.066
82478597|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|5.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478598|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.7||0.962|TWO_SIDED|95.0|-1.343|1.41||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.410|-1.343|0.962
82478599|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|5.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478600|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.887||0.265|TWO_SIDED|95.0|-2.734|0.755||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.755|-2.734|0.265
82580952|NCT01850446|164873290|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (Induced IFN-γ)||||>0.99
82580953|NCT01850446|164873291|SUPERIORITY|||||||0.364|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (leukocytes)||||0.364
82478601|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|6.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478602|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.863||0.212|TWO_SIDED|95.0|-2.775|0.618||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.618|-2.775|0.212
82478603|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|6.29|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82580954|NCT01850446|164873291|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (leukocytes)||||0.07
82580955|NCT01850446|164873291|SUPERIORITY|||||||0.607|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day1 to day 3 (neutrophils)||||0.607
82478604|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.893||0.602|TWO_SIDED|95.0|-2.223|1.29||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.290|-2.223|0.602
82478605|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|6.35|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478606|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.019||0.635|TWO_SIDED|95.0|-2.489|1.519||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.519|-2.489|0.635
82478607|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|6.31|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478608|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.003||0.795|TWO_SIDED|95.0|-2.233|1.712||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.712|-2.233|0.795
82478609|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|7.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478610|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|1.11|STANDARD_ERROR_OF_MEAN|1.027||0.281|TWO_SIDED|95.0|-0.91|3.128||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||3.128|-0.910|0.281
82478611|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|7.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478612|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|1.261||0.729|TWO_SIDED|95.0|-2.918|2.043||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.043|-2.918|0.729
82580956|NCT01850446|164873291|SUPERIORITY|||||||0.028|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (neutrophils)||||0.028
82478613|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|7.4|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478614|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|-0.59|STANDARD_ERROR_OF_MEAN|1.248||0.636|TWO_SIDED|95.0|-3.047|1.863||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.863|-3.047|0.636
82478615|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|7.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478616|NCT02880956|164652896|SUPERIORITY||LS Mean of Difference|1.03|STANDARD_ERROR_OF_MEAN|1.294||0.427|TWO_SIDED|95.0|-1.515|3.575||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||3.575|-1.515|0.427
82478617|NCT02880956|164652896|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|7.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478618|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.053||0.69|TWO_SIDED|95.0|-0.083|0.126||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.126|-0.083|0.690
82478619|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|0.39|||TWO_SIDED|95.0|||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478620|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.052||0.595|TWO_SIDED|95.0|-0.075|0.131||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.131|-0.075|0.595
82580957|NCT01850446|164873291|SUPERIORITY|||||||0.759|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (lymphocytes)||||0.759
82478621|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|0.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478622|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.054||0.201|TWO_SIDED|95.0|0.037|0.175||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.175|0.037|0.201
82478623|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|0.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82580958|NCT01850446|164873291|SUPERIORITY|||||||0.777|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (lymphocytes)||||0.777
82580959|NCT01850446|164873291|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (monocytes)||||0.02
82478624|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.064||0.361|TWO_SIDED|95.0|-0.067|0.184||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.184|-0.067|0.361
82478625|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478626|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.062||0.522|TWO_SIDED|95.0|-0.082|0.162||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|Week 48||0.162|-0.082|0.522
82478627|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|0.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478628|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.09|STANDARD_ERROR_OF_MEAN|0.064||0.147|TWO_SIDED|95.0|-0.033|0.219||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.219|-0.033|0.147
82478629|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|0.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478630|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.091||0.492|TWO_SIDED|95.0|-0.243|0.117||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.117|-0.243|0.492
82478631|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|0.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478632|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.691|TWO_SIDED|95.0|-0.213|0.141||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.141|-0.213|0.691
82478633|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478634|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.091||0.135|TWO_SIDED|95.0|-0.043|0.317||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.317|-0.043|0.135
82552812|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.349||||0.1048|TWO_SIDED|95.0|-0.771|0.074|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.074|-0.771|0.1048
82580960|NCT01850446|164873291|SUPERIORITY|||||||0.343|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (lymphocytes)||||0.343
82580961|NCT01850446|164873291|SUPERIORITY|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (eosinophils)||||0.575
82580962|NCT01850446|164873291|SUPERIORITY|||||||0.912|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (eosinophils)||||0.912
82478635|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82580963|NCT01850446|164873291|SUPERIORITY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (basophils)||||0.242
82478636|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.117||0.713|TWO_SIDED|95.0|-0.273|0.187||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.187|-0.273|0.713
82478637|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478638|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.115||0.318|TWO_SIDED|95.0|-0.341|0.111||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.111|-0.341|0.318
82478639|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478640|NCT02880956|164652897|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.119||0.927|TWO_SIDED|95.0|-0.244|0.222||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.222|-0.244|0.927
82478641|NCT02880956|164652897|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.84|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478642|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.081||0.456|TWO_SIDED|95.0|-0.219|0.098||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.098|-0.219|0.456
82478643|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478644|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.079||0.093|TWO_SIDED|95.0|-0.29|0.023||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.023|-0.290|0.093
82478645|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.59|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478646|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.082||0.75|TWO_SIDED|95.0|-0.187|0.135||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.135|-0.187|0.750
82478647|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478648|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.106||0.134|TWO_SIDED|95.0|-0.049|0.366||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.366|-0.049|0.134
82478649|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552813|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.846|||<|0.0001|TWO_SIDED|95.0|-1.185|-0.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.507|-1.185|<.0001
82552814|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.873|||<|0.0001|TWO_SIDED|95.0|-1.127|-0.619|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.619|-1.127|<.0001
82651049|NCT00591253|165016904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||0.006|TWO_SIDED|95.0|-5.08|-0.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.84|-5.08|0.006
82478650|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.103||0.316|TWO_SIDED|95.0|-0.099|0.305||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.305|-0.099|0.316
82478651|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|0.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478652|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.106||0.218|TWO_SIDED|95.0|-0.078|0.339||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.339|-0.078|0.218
82478653|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552815|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.247||||0.2525|TWO_SIDED|95.0|-0.178|0.671|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.671|-0.178|0.2525
82580964|NCT01850446|164873291|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (basophils)||||0.102
82478654|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.099||0.799|TWO_SIDED|95.0|-0.219|0.169||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.169|-0.219|0.799
82478655|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478656|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.098||0.406|TWO_SIDED|95.0|-0.273|0.111||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.111|-0.273|0.406
82478657|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478658|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.099||0.363|TWO_SIDED|95.0|-0.285|0.105||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.105|-0.285|0.363
82478659|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478660|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.125||0.22|TWO_SIDED|95.0|-0.4|0.093||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.093|-0.400|0.220
82478661|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478662|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.123||0.245|TWO_SIDED|95.0|-0.386|0.099||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.099|-0.386|0.245
82478663|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478664|NCT02880956|164652898|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.127||0.569|TWO_SIDED|95.0|-0.323|0.178||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.178|-0.323|0.569
82580965|NCT01850446|164873291|SUPERIORITY|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+)||||0.429
82580966|NCT01850446|164873291|SUPERIORITY|||||||0.783|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+)||||0.783
82580967|NCT01850446|164873291|SUPERIORITY|||||||0.466|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD4+)||||0.466
82478665|NCT02880956|164652898|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478666|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.093||0.945|TWO_SIDED|95.0|-0.177|0.19||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.190|-0.177|0.945
82478667|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.86|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478668|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.092||0.974|TWO_SIDED|95.0|-0.184|0.178||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.178|-0.184|0.974
82478669|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82580968|NCT01850446|164873291|SUPERIORITY|||||||0.945|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD4+)||||0.945
82580969|NCT01850446|164873291|SUPERIORITY|||||||0.335|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD8+)||||0.335
82478670|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.094||0.963|TWO_SIDED|95.0|-0.19|0.181||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||||0.181|-0.190|0.963
82478671|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478672|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.104||0.625|TWO_SIDED|95.0|-0.255|0.154||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.154|-0.255|0.625
82478673|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478674|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.468|TWO_SIDED|95.0|-0.272|0.125||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.125|-0.272|0.468
82478675|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478676|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.104||0.636|TWO_SIDED|95.0|-0.155|0.254||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.254|-0.155|0.636
82478677|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478678|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.112||0.887|TWO_SIDED|95.0|-0.204|0.236||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.236|-0.204|0.887
82478679|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.84|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478680|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.111||0.016|TWO_SIDED|95.0|0.051|0.486||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.486|0.051|0.016
82478681|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.33|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478682|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.112||0.272|TWO_SIDED|95.0|-0.097|0.342||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.342|-0.097|0.272
82478683|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478684|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.145||0.671|TWO_SIDED|95.0|-0.223|0.347||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.347|-0.223|0.671
82478685|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478686|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.143||0.493|TWO_SIDED|95.0|-0.183|0.378||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.378|-0.183|0.493
82478687|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|0.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478688|NCT02880956|164652899|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.147||0.501|TWO_SIDED|95.0|-0.19|0.387||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.387|-0.190|0.501
82562117|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|0.92|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.12|0.76|
82580970|NCT01850446|164873291|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD8+)||||0.66
82580971|NCT01850446|164873291|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD16+CD56+)||||0.01
82478689|NCT02880956|164652899|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|0.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478690|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.188||0.742|TWO_SIDED|95.0|-0.307|0.431||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.431|-0.307|0.742
82478691|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82552816|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.098||||0.6503|TWO_SIDED|95.0|-0.33|0.527|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.527|-0.330|0.6503
82552817|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.239||||0.1759|TWO_SIDED|95.0|-0.109|0.588|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.588|-0.109|0.1759
82562118|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|0.61|||||TWO_SIDED|95.0|0.5|0.75|||ANOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.75|0.50|
82580972|NCT01850446|164873291|SUPERIORITY|||||||0.573|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD16+CD56+)||||0.573
82580973|NCT01850446|164873291|SUPERIORITY|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3-CD16+CD56+)||||0.472
82580974|NCT01850446|164873291|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3-CD16+CD56+)||||0.69
82580975|NCT01850446|164873291|SUPERIORITY|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3-CD8+)||||0.727
82478692|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.185||0.431|TWO_SIDED|95.0|-0.511|0.218||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.218|-0.511|0.431
82478693|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478694|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.29|TWO_SIDED|95.0|-0.574|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.172|-0.574|0.290
82580976|NCT01850446|164873291|SUPERIORITY|||||||0.554|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3-CD8+)||||0.554
82580977|NCT01850446|164873291|SUPERIORITY|||||||0.837|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD19+CD3-)||||0.837
82478695|NCT02880956|164652900|SUPERIORITY||effect size|0.13|STANDARD_DEVIATION|1.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478696|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.191||0.541|TWO_SIDED|95.0|-0.492|0.258||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.258|-0.492|0.541
82478697|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478698|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.186||0.617|TWO_SIDED|95.0|-0.459|0.272||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.272|-0.459|0.617
82552818|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.867||||0.0293|TWO_SIDED|95.0|-1.674|-0.06|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.060|-1.674|0.0293
82552819|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.876||||0.0362|TWO_SIDED|95.0|-1.714|-0.038|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.038|-1.714|0.0362
82552820|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.139|||<|0.0001|TWO_SIDED|95.0|-1.809|-0.469|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.469|-1.809|<.0001
82552821|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.767||||0.0621|TWO_SIDED|95.0|-1.559|0.025|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.025|-1.559|0.0621
82562119|NCT00264576|164833589|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination geometric mean titers (GMTs) had to be \>0.5.|Ratio of GMT|1.31|||||TWO_SIDED|95.0|1.09|1.57|||ANOVA|||"The following hypotheses were tested for B strain as measured by cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.57|1.09|
82562120|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.85|||||TWO_SIDED|95.0|0.7|1.03|||ANCOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.03|0.70|
82562121|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.63|||||TWO_SIDED|95.0|0.52|0.76|||ANCOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.76|0.52|
82580978|NCT01850446|164873291|SUPERIORITY|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD19+CD3-)||||0.967
82580979|NCT01850446|164873291|SUPERIORITY|||||||0.473|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (CD3+CD119+)||||0.473
82580980|NCT01850446|164873291|SUPERIORITY|||||||0.736|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (CD3+CD119+)||||0.736
82580981|NCT01850446|164873292|SUPERIORITY|||||||0.282|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of neutrophils)||||0.282
82552822|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.447||||0.5259|TWO_SIDED|95.0|-1.246|0.352|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.352|-1.246|0.5259
82552823|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.085|||<|0.0001|TWO_SIDED|95.0|-1.736|-0.435|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.435|-1.736|<.0001
82552824|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.112|||<|0.0001|TWO_SIDED|95.0|-1.532|-0.693|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-0.693|-1.532|<.0001
82552825|NCT04800211|164810269|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.054||||0.8248|TWO_SIDED|95.0|-0.535|0.427|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||0.427|-0.535|0.8248
82552826|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|2.821||||0.0002|TWO_SIDED|95.0|1.369|4.273|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||4.273|1.369|0.0002
82651050|NCT00591253|165016905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.09||||0.001|TWO_SIDED|95.0|-8.14|-2.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.04|-8.14|0.001
82478699|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82580982|NCT01850446|164873292|SUPERIORITY|||||||0.071|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of neutrophils)||||0.071
82651051|NCT00591253|165016905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|||<|0.001|TWO_SIDED|95.0|-10.96|-4.97||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.97|-10.96|<0.001
82478700|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.457|TWO_SIDED|95.0|-0.517|0.233||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.233|-0.517|0.457
82478701|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.5|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82580983|NCT01850446|164873292|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of lymphocytes)||||0.45
82580984|NCT01850446|164873292|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of lymphocytes)||||0.58
82580985|NCT01850446|164873292|SUPERIORITY|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of monocytes)||||0.017
82580986|NCT01850446|164873292|SUPERIORITY|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of monocytes)||||0.019
82580987|NCT01850446|164873292|SUPERIORITY|||||||0.424|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of eosinophils)||||0.424
82580988|NCT01850446|164873292|SUPERIORITY|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of eosinophils)||||0.666
82580989|NCT01850446|164873292|SUPERIORITY|||||||0.268|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of basophils)||||0.268
82580990|NCT01850446|164873292|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of basophils)||||0.031
82478702|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|0.22|STANDARD_ERROR_OF_MEAN|0.188||0.245|TWO_SIDED|95.0|-0.151|0.59||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.590|-0.151|0.245
82478703|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82580991|NCT01850446|164873292|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+)||||0.361
82580992|NCT01850446|164873292|SUPERIORITY|||||||0.699|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+)||||0.699
82580993|NCT01850446|164873292|SUPERIORITY|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD4+)||||0.418
82478704|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.187||0.491|TWO_SIDED|95.0|-0.238|0.496||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.496|-0.238|0.491
82478705|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|1.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478706|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|0.28|STANDARD_ERROR_OF_MEAN|0.188||0.132|TWO_SIDED|95.0|-0.085|0.652||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.652|-0.085|0.132
82478707|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|1.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478708|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.19||0.751|TWO_SIDED|95.0|-0.434|0.313||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.313|-0.434|0.751
82478709|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|1.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478710|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.188||0.157|TWO_SIDED|95.0|-0.635|0.103||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.103|-0.635|0.157
82478711|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|1.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478712|NCT02880956|164652900|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.192||0.283|TWO_SIDED|95.0|-0.585|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.172|-0.585|0.283
82580994|NCT01850446|164873292|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD4+)||||>0.99
82580995|NCT01850446|164873292|SUPERIORITY|||||||0.172|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD8+)||||0.172
82580996|NCT01850446|164873292|SUPERIORITY|||||||0.904|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD8+)||||0.904
82580997|NCT01850446|164873292|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3+CD16+CD56+)||||0.148
82580998|NCT01850446|164873292|SUPERIORITY|||||||0.821|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3+CD16+CD56+)||||0.821
82478713|NCT02880956|164652900|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|1.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478714|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.363|TWO_SIDED|95.0|-0.085|0.231||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.231|-0.085|0.363
82478715|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82580999|NCT01850446|164873292|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3-CD16+CD56+)||||0.31
82581000|NCT01850446|164873292|SUPERIORITY||||||>|0.99|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3-CD16+CD56+)||||>0.99
82581001|NCT01850446|164873292|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD3-CD8+)||||0.43
82581002|NCT01850446|164873292|SUPERIORITY|||||||0.821|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD3-CD8+)||||0.821
82478716|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.079||0.688|TWO_SIDED|95.0|-0.188|0.124||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.124|-0.188|0.688
82478717|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478718|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.081||0.137|TWO_SIDED|95.0|-0.039|0.281||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.281|-0.039|0.137
82478719|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|0.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478720|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.107||0.408|TWO_SIDED|95.0|-0.3|0.122||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.122|-0.300|0.408
82478721|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478722|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.104||0.249|TWO_SIDED|95.0|-0.325|0.085||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.085|-0.325|0.249
82478723|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478724|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.107||0.616|TWO_SIDED|95.0|-0.265|0.157||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.157|-0.265|0.616
82478725|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478726|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.119||0.555|TWO_SIDED|95.0|-0.163|0.304||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.304|-0.163|0.555
82478727|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478728|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.117||0.815|TWO_SIDED|95.0|-0.203|0.258||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.258|-0.203|0.815
82478729|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|0.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478730|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.119||0.138|TWO_SIDED|95.0|-0.057|0.409||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.409|-0.057|0.138
82581003|NCT01850446|164873292|SUPERIORITY|||||||0.943|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 3 (RC of CD19+CD3-)||||0.943
82581004|NCT01850446|164873292|SUPERIORITY|||||||0.841|||||||Wilcoxon (Mann-Whitney)|||difference between changes from day 1 to day 7 (RC of CD19+CD3-)||||0.841
82581005|NCT02929329|164873322|SUPERIORITY|"The overall type I error was 0.05 for 2-sided testing across primary and secondary outcomes.~Control for multiple comparisons was achieved using the following testing algorithm: if the primary outcome met the P-value threshold of 0.05, the alpha error would be divided unequally between cardiovascular death (96% of the overall alpha error, or 0.048) and change from baseline to week 24 in the Kansas City Cardiomyopathy Questionnaire total symptom score (4% of the overall alpha error, or 0.002)."|Hazard Ratio (HR)|0.92||||0.0252|TWO_SIDED|95.0|0.86|0.99|||Regression, Cox|Stratified by randomization setting and region, including terms for baseline estimated glomerular filtration rate (eGFR) and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|||0.99|0.86|0.0252
82581006|NCT02929329|164873322|SUPERIORITY|||||||0.0211|||||||Stratified log-rank test|Log-rank test stratified by randomization setting and region.||||||0.0211
82651052|NCT00591253|165016906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.74|||<|0.001|TWO_SIDED|95.0|-5.86|-1.61||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.61|-5.86|<0.001
82581007|NCT02929329|164873322|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.86|0.99|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint were considered as the competing risk.||0.99|0.86|
82581008|NCT02929329|164873323|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.8555|TWO_SIDED|95.0|0.92|1.11||If significance for the primary outcome was determined, cardiovascular death was tested against an alpha of 0.048.|Regression, Cox|Stratified by randomization setting and region, including terms for baseline eGFR and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|||1.11|0.92|0.8555
82581009|NCT02929329|164873323|SUPERIORITY||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.92|1.11|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the treatment group and baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint were considered as the competing risk.||1.11|0.92|
82581010|NCT02929329|164873324|OTHER||Least Squares (LS) Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|95.0|-1.4|0.48|||||Treatment difference = Omecamtiv mecarbil - Placebo|||0.48|-1.40|
82478731|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478732|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.157||0.573|TWO_SIDED|95.0|-0.397|0.22||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.220|-0.397|0.573
82478733|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478734|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.154||0.689|TWO_SIDED|95.0|-0.241|0.365||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.365|-0.241|0.689
82478735|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478736|NCT02880956|164652901|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.159||0.662|TWO_SIDED|95.0|-0.243|0.382||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.382|-0.243|0.662
82478737|NCT02880956|164652901|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|1.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478738|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.184||0.291|TWO_SIDED|95.0|-0.555|0.167||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.167|-0.555|0.291
82478739|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|1.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478740|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|-0.36|STANDARD_ERROR_OF_MEAN|0.182||0.051|TWO_SIDED|95.0|-0.713|0.001||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.001|-0.713|0.051
82581011|NCT02929329|164873324|OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|0.54|4.46|||||Treatment difference = Omecamtiv mecarbil - Placebo|||4.46|0.54|
82581012|NCT02929329|164873324|SUPERIORITY|If significance for the primary outcome was determined, change from baseline in the KCCQ total symptom score was tested against an alpha of 0.002.||||||0.0278|||||||Omnibus F-test|||||||0.0278
82478741|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|1.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478742|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.185||0.921|TWO_SIDED|95.0|-0.346|0.383||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.383|-0.346|0.921
82478743|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478744|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.211||0.163|TWO_SIDED|95.0|-0.711|0.12||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.120|-0.711|0.163
82581013|NCT02929329|164873324|OTHER||Pooled treatment difference|0.75|||||TWO_SIDED|95.0|-2.55|4.51|||||Overall pooled estimate of treatment difference (Omecamtiv mecarbil - Placebo) using random effects meta-analysis approach.|||4.51|-2.55|
82651053|NCT00591253|165016906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||<|0.001|TWO_SIDED|95.0|-7.99|-3.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.81|-7.99|<0.001
82478745|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478746|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.205||0.424|TWO_SIDED|95.0|-0.567|0.239||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.239|-0.567|0.424
82478747|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478748|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.213||0.664|TWO_SIDED|95.0|-0.51|0.326||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.326|-0.510|0.664
82581014|NCT02929329|164873324|SUPERIORITY||LS Mean Difference|-0.71|||||TWO_SIDED|95.0|-1.62|0.2|||||Treatment difference = Omecamtiv mecarbil - Placebo|As a sensitivity for missing data due to death, joint longitudinal and survival models were fit using KCCQ TSS observed values with random subject slopes and intercepts for the longitudinal models with terms for baseline eGFR, region, and treatment by slope. The survival models were fit for all-cause death with baseline eGFR and treatment in the proportional hazard part of the models, KCCQ TSS modeled values as the shared parameterization, stratified by region with Weibull baseline functions.||0.20|-1.62|
82478749|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478750|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.229||0.417|TWO_SIDED|95.0|-0.638|0.265||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.265|-0.638|0.417
82478751|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478752|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.227||0.217|TWO_SIDED|95.0|-0.727|0.166||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.166|-0.727|0.217
82651054|NCT00591253|165016907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.91||||0.008|TWO_SIDED|95.0|-8.54|-1.27||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.27|-8.54|0.008
82478753|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|1.68|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478754|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.231||0.753|TWO_SIDED|95.0|-0.381|0.526||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.526|-0.381|0.753
82478755|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478756|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.257||0.362|TWO_SIDED|95.0|-0.74|0.27||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.270|-0.740|0.362
82478757|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|1.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478758|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.256||0.78|TWO_SIDED|95.0|-0.432|0.575||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.575|-0.432|0.780
82478759|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478760|NCT02880956|164652902|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.263||0.974|TWO_SIDED|95.0|-0.526|0.509||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.509|-0.526|0.974
82478761|NCT02880956|164652902|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478762|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.139||0.976|TWO_SIDED|95.0|-0.269|0.278||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.278|-0.269|0.976
82478763|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.1|||TWO_SIDED|||||||||Week 24||||
82478764|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.137||0.85|TWO_SIDED|95.0|-0.244|0.296||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.296|-0.244|0.850
82478765|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478766|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.141||0.981|TWO_SIDED|95.0|-0.281|0.275||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.275|-0.281|0.981
82478767|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.05|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478768|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.163||0.989|TWO_SIDED|95.0|-0.323|0.318||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.318|-0.323|0.989
82478769|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478770|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.159||0.97|TWO_SIDED|95.0|-0.319|0.307||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.307|-0.319|0.970
82478771|NCT02880956|164652903|SUPERIORITY||effect size|0.0|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478772|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.164||0.215|TWO_SIDED|95.0|-0.526|0.119||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.119|-0.526|0.215
82478773|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|1.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478774|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.163||0.665|TWO_SIDED|95.0|-0.392|0.25||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.250|-0.392|0.665
82478775|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478776|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.162||0.059|TWO_SIDED|95.0|-0.625|0.012||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.012|-0.625|0.059
82478777|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.28|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478778|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.164||0.663|TWO_SIDED|95.0|-0.394|0.251||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.251|-0.394|0.663
82478779|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478780|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.193||0.866|TWO_SIDED|95.0|-0.413|0.348||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.348|-0.413|0.866
82478781|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478782|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.471|TWO_SIDED|95.0|-0.514|0.238||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.238|-0.514|0.471
82478783|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478784|NCT02880956|164652903|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.198||0.604|TWO_SIDED|95.0|-0.493|0.287||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.287|-0.493|0.604
82478785|NCT02880956|164652903|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478786|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.069||0.325|TWO_SIDED|95.0|-0.067|0.202||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.202|-0.067|0.325
82552827|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.468|||<|0.0001|TWO_SIDED|95.0|1.85|5.086|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||5.086|1.850|<.0001
82552828|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|2.245||||0.0022|TWO_SIDED|95.0|0.812|3.679|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||3.679|0.812|0.0022
82581015|NCT02929329|164873324|SUPERIORITY||LS mean difference|2.31|||||TWO_SIDED|95.0|0.8|3.82|||||Treatment difference = Omecamtiv mecarbil - Placebo|As a sensitivity for missing data due to death, joint longitudinal and survival models were fit using KCCQ TSS observed values with random subject slopes and intercepts for the longitudinal models with terms for baseline eGFR, region, and treatment by slope. The survival models were fit for all-cause death with baseline eGFR and treatment in the proportional hazard part of the models, KCCQ TSS modeled values as the shared parameterization, stratified by region with Weibull baseline functions.||3.82|0.80|
82581016|NCT02929329|164873325|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.1902|TWO_SIDED|95.0|0.87|1.03||If statistical significance was achieved for both the time to CV death and change from baseline in the KCCQ TSS, time to first heart failure hospitalization was to be tested at the full alpha.|Regression, Cox|Stratified by randomization setting and region, including terms for baseline eGFR and treatment group.|Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|||1.03|0.87|0.1902
82581017|NCT02929329|164873325|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.88|1.04|||||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|Competing risk subdistribution hazard ratio and associated 95% confidence intervals for treatment were computed. Deaths not included in the endpoint are considered as the competing risk.||1.04|0.88|
82581018|NCT02929329|164873326|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9633|TWO_SIDED|95.0|0.92|1.09||If time to first heart failure hospitalization was statistically significant, time to all-cause death was to be tested with the same alpha as time to first heart failure hospitalization.|Regression, Cox||Cox proportional-hazards model with baseline hazards stratified according to the randomization setting and geographic region and with the trial group and the baseline eGFR as covariates.|||1.09|0.92|0.9633
82478787|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478788|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.067||0.51|TWO_SIDED|95.0|-0.177|0.088||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.088|-0.177|0.510
82478789|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478790|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.069||0.601|TWO_SIDED|95.0|-0.1|0.172||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.172|-0.100|0.601
82478791|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478792|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.157|0.119||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.119|-0.157|0.783
82478793|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478794|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.068||0.646|TWO_SIDED|95.0|-0.165|0.103||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.103|-0.165|0.646
82478795|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478796|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.209|TWO_SIDED|95.0|-0.226|0.05||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.050|-0.226|0.209
82562122|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.16|||||TWO_SIDED|95.0|0.98|1.38|||ANCOVA|||"The following hypotheses were tested for B strain as measured by HI egg-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.38|0.98|
82478797|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478798|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.091||0.454|TWO_SIDED|95.0|-0.246|0.11||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.110|-0.246|0.454
82478799|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478800|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.089||0.141|TWO_SIDED|95.0|-0.306|0.043||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.043|-0.306|0.141
82478801|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478802|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.09||0.107|TWO_SIDED|95.0|-0.323|0.031||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.031|-0.323|0.107
82478803|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.24|STANDARD_DEVIATION|0.59|||TWO_SIDED|||||||||Week 72||||
82478804|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.121||0.961|TWO_SIDED|95.0|-0.243|0.232||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.232|-0.243|0.961
82478805|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.79|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478806|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.118||0.618|TWO_SIDED|95.0|-0.29|0.173||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.173|-0.290|0.618
82478807|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478808|NCT02880956|164652904|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.121||0.227|TWO_SIDED|95.0|-0.385|0.092||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.092|-0.385|0.227
82478809|NCT02880956|164652904|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.79|||TWO_SIDED|||||||||Week 96||||
82478810|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.18||0.056|TWO_SIDED|95.0|-0.009|0.697||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.697|-0.009|0.056
82478811|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.23|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478812|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.177||0.997|TWO_SIDED|95.0|-0.348|0.349||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.349|-0.348|0.997
82478813|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.34|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478814|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.41|STANDARD_ERROR_OF_MEAN|0.182||0.023|TWO_SIDED|95.0|0.056|0.772||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.772|0.056|0.023
82478815|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.3|STANDARD_DEVIATION|1.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478816|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.14|STANDARD_ERROR_OF_MEAN|0.212||0.502|TWO_SIDED|95.0|-0.274|0.558||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.558|-0.274|0.502
82581019|NCT01144052|164873370|NON_INFERIORITY_OR_EQUIVALENCE|No statistical hypothesis tests for efficacy were performed as this was a pilot study serving to generate first data and hypotheses.||||||0.125||95.0|||||Log Rank|||||||0.125
82581020|NCT01144052|164873371|SUPERIORITY_OR_OTHER|||||||0.447||95.0|||||non-parametric|||||||0.447
82581021|NCT01144052|164873372|SUPERIORITY_OR_OTHER|||||||0.447|||||||non-parametric|||||||0.447
82478817|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|1.58|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478818|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.206||0.379|TWO_SIDED|95.0|-0.587|0.224||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.224|-0.587|0.379
82552829|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.329|||<|0.0001|TWO_SIDED|95.0|1.768|4.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||4.891|1.768|<.0001
82552830|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|3.399|||<|0.0001|TWO_SIDED|95.0|2.252|4.545|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||4.545|2.252|<.0001
82552831|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|1.25||||0.0761|TWO_SIDED|95.0|-0.132|2.633|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||2.633|-0.132|0.0761
82552832|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.778||||0.0211|TWO_SIDED|95.0|0.269|3.286|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||3.286|0.269|0.0211
82552833|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|1.57||||0.3841|TWO_SIDED|95.0|-0.951|4.092|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||4.092|-0.951|0.3841
82552834|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.69||||0.3934|TWO_SIDED|95.0|-1.084|4.464|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||4.464|-1.084|0.3934
82581022|NCT01144052|164873373|SUPERIORITY_OR_OTHER|||||||0.206|||||||t-test, 2 sided|||||||0.206
82581023|NCT01144052|164873375|NON_INFERIORITY_OR_EQUIVALENCE|No statistical hypothesis tests for efficacy were performed, as this was pilot study serving to generate first data and hypotheses.||||||0.234||95.0|||||Wilcoxon (Mann-Whitney)|p-value refers to nT2L at month 12||||||0.234
82478819|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478820|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.212||0.916|TWO_SIDED|95.0|-0.439|0.394||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.394|-0.439|0.916
82552835|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.995||||0.7782|TWO_SIDED|95.0|-1.505|3.494|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||3.494|-1.505|0.7782
82552836|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.552||||0.4576|TWO_SIDED|95.0|-1.171|4.274|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||4.274|-1.171|0.4576
82552837|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.621||||0.0849|TWO_SIDED|95.0|-0.224|3.466|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.466|-0.224|0.0849
82552838|NCT04800211|164810270|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.139||||0.9016|TWO_SIDED|95.0|-2.064|2.341|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||2.341|-2.064|0.9016
82552839|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.587||||0.0004|TWO_SIDED|95.0|2.511|8.662|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.662|2.511|0.0004
82581024|NCT00105001|164873378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.09
82581025|NCT00105001|164873378|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69||||0.1|TWO_SIDED|95.0|0.4|1.1|||Regression, Cox||HR for Arm II relative to Arm I, reflecting events over the entire period of follow-u\[|||1.1|0.4|0.10
82478821|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478822|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.238||0.487|TWO_SIDED|95.0|-0.633|0.302||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.302|-0.633|0.487
82478823|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478824|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.235||0.963|TWO_SIDED|95.0|-0.451|0.473||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.473|-0.451|0.963
82478825|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478826|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.238||0.856|TWO_SIDED|95.0|-0.424|0.51||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.510|-0.424|0.856
82552840|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.556||||0.1141|TWO_SIDED|95.0|-0.62|5.732|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.732|-0.620|0.1141
82552841|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.536||||0.0007|TWO_SIDED|95.0|2.367|8.705|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.705|2.367|0.0007
82552842|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|6.629|||<|0.0001|TWO_SIDED|95.0|3.68|9.577|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||9.577|3.680|<.0001
82552843|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.083||||0.0072|TWO_SIDED|95.0|1.118|7.047|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.047|1.118|0.0072
82552844|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.688||||0.0023|TWO_SIDED|95.0|1.691|7.686|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.686|1.691|0.0023
82552845|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.112|||<|0.0001|TWO_SIDED|95.0|2.874|7.35|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.350|2.874|<.0001
82581026|NCT00105001|164873378|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.62||||0.04|TWO_SIDED|95.0|0.6|1.0|||Regression, Cox||HR for Arm III relative to Arm I, reflecting events over the entire period of follow-up|||1.0|0.6|0.04
82478827|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478828|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.2|STANDARD_ERROR_OF_MEAN|0.277||0.463|TWO_SIDED|95.0|-0.341|0.748||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.748|-0.341|0.463
82478829|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|1.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478830|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.273||0.943|TWO_SIDED|95.0|-0.518|0.557||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.557|-0.518|0.943
82478831|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478832|NCT02880956|164652905|SUPERIORITY||LS Mean of Difference|0.74|STANDARD_ERROR_OF_MEAN|0.281||0.009|TWO_SIDED|95.0|0.191|1.295||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||1.295|0.191|0.009
82478833|NCT02880956|164652905|SUPERIORITY||Effect size/pooled SD|-0.38|STANDARD_DEVIATION|1.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478834|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.138||0.325|TWO_SIDED|95.0|-0.408|0.136||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.136|-0.408|0.325
82552846|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.777||||0.603|TWO_SIDED|95.0|-2.165|3.72|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.720|-2.165|0.6030
82552847|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.003||||0.5053|TWO_SIDED|95.0|-1.96|3.967|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.967|-1.960|0.5053
82581027|NCT00105001|164873379|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.55
82651055|NCT00591253|165016907|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.27|||<|0.001|TWO_SIDED|95.0|-10.85|-3.69||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.69|-10.85|<0.001
82478835|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|1.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478836|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.137||0.966|TWO_SIDED|95.0|-0.274|0.263||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.263|-0.274|0.966
82478837|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478838|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.695|TWO_SIDED|95.0|-0.33|0.22||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.220|-0.330|0.695
82478839|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478840|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.145||0.662|TWO_SIDED|95.0|-0.348|0.221||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.221|-0.348|0.662
82552848|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.674||||0.6607|TWO_SIDED|95.0|-2.347|3.694|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.694|-2.347|0.6607
82478841|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478842|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.141||0.849|TWO_SIDED|95.0|-0.25|0.304||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.304|-0.250|0.849
82478843|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|1.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478844|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.145||0.995|TWO_SIDED|95.0|-0.286|0.284||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.284|-0.286|0.995
82478845|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478846|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.161||0.707|TWO_SIDED|95.0|-0.256|0.378||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.378|-0.256|0.707
82478847|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478848|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.159||0.901|TWO_SIDED|95.0|-0.294|0.333||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.333|-0.294|0.901
82478849|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478850|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.161||0.451|TWO_SIDED|95.0|-0.195|0.439||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.439|-0.195|0.451
82478851|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478852|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.185||0.722|TWO_SIDED|95.0|-0.429|0.298||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.298|-0.429|0.722
82478853|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478854|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.181||0.42|TWO_SIDED|95.0|-0.503|0.21||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.210|-0.503|0.420
82478855|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478856|NCT02880956|164652906|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.187||0.498|TWO_SIDED|95.0|-0.495|0.241||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.241|-0.495|0.498
82478857|NCT02880956|164652906|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478858|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.071||0.975|TWO_SIDED|95.0|-0.138|0.142||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.142|-0.138|0.975
82478859|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478860|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.078|TWO_SIDED|95.0|-0.014|0.261||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.261|-0.014|0.078
82478861|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|0.66|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478862|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.072||0.514|TWO_SIDED|95.0|-0.188|0.094||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.094|-0.188|0.514
82478863|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|0.47|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478864|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.102||0.107|TWO_SIDED|95.0|-0.367|0.036||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.036|-0.367|0.107
82478865|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478866|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.099||0.425|TWO_SIDED|95.0|-0.275|0.116||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.116|-0.275|0.425
82478867|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478868|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.102||0.039|TWO_SIDED|95.0|-0.413|-0.011||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||-0.011|-0.413|0.039
82478869|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.28|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552849|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.809||||0.1309|TWO_SIDED|95.0|-0.827|10.446|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||10.446|-0.827|0.1309
82581028|NCT00105001|164873380|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.009
82581029|NCT00105001|164873380|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.51|TWO_SIDED|95.0|0.5|1.4|||Regression, Cox||HR for Arm II relative to Arm I, reflecting events over the entire period of follow-up|||1.4|0.5|0.51
82581030|NCT00105001|164873380|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.004|TWO_SIDED|95.0|0.3|0.8|||Regression, Cox||HR for Arm III relative to Arm I, reflecting events over the entire period of follow-up|||0.8|0.3|0.004
82478870|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.131||0.729|TWO_SIDED|95.0|-0.302|0.212||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.212|-0.302|0.729
82478871|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478872|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.128||0.671|TWO_SIDED|95.0|-0.198|0.307||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.307|-0.198|0.671
82478873|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478874|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.13||0.876|TWO_SIDED|95.0|-0.235|0.276||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.276|-0.235|0.876
82581031|NCT00105001|164873381|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.93
82651056|NCT00591253|165016908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.05||||0.024|TWO_SIDED|95.0|-5.69|-0.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.40|-5.69|0.024
82552850|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.553||||0.9776|TWO_SIDED|95.0|-4.212|7.318|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||7.318|-4.212|0.9776
82552851|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.862||||0.1422|TWO_SIDED|95.0|-0.939|10.663|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||10.663|-0.939|0.1422
82562123|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.92|||||TWO_SIDED|95.0|0.76|1.12||To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|ANCOVA|||"The following hypotheses were tested for A/H1N1 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.12|0.76|
82581032|NCT00105001|164873382|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED|||||Overall test of homogeneity among arms, reflecting events over the entire period of follow-up|Regression, Cox|||||||0.96
82581033|NCT00037830|164873456|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The null hypothesis for Phase I was that at week 24, there is no difference between UPDRS motor scores in placebo vs. GM1-treated subjects.||||<0.0001
82581034|NCT00037830|164873457|SUPERIORITY_OR_OTHER|||||||0.0368|||||||t-test, 2 sided|||The null hypothesis for Phase II is that long-term use of GM1 does not affect the progression of PD symptoms and that there is no benefit to early start of GM1 use.||||0.0368
82478875|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478876|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.159||0.763|TWO_SIDED|95.0|-0.266|0.362||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.362|-0.266|0.763
82478877|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478878|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.157||0.429|TWO_SIDED|95.0|-0.434|0.185||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.185|-0.434|0.429
82478879|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|1.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478880|NCT02880956|164652907|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.162||0.701|TWO_SIDED|95.0|-0.256|0.381||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 96||0.381|-0.256|0.701
82478881|NCT02880956|164652907|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|1.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478882|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.064||0.867|TWO_SIDED|95.0|-0.115|0.137||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.137|-0.115|0.867
82478883|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82581035|NCT00037830|164873458|SUPERIORITY_OR_OTHER|||||||0.1903|||||||estimate of slope of change over time|random intercept model and a variance components covariance structure||||||0.1903
82581036|NCT00037830|164873458|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||estimate slope of change over time|random intercept model and a variance components covariance structure||||||0.0063
82478884|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.063||0.898|TWO_SIDED|95.0|-0.132|0.116||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.116|-0.132|0.898
82478885|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478886|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.065||0.537|TWO_SIDED|95.0|-0.088|0.168||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 24||0.168|-0.088|0.537
82478887|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.54|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478888|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.074||0.176|TWO_SIDED|95.0|-0.245|0.045||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.045|-0.245|0.176
82478889|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|0.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478890|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.072||0.125|TWO_SIDED|95.0|-0.251|0.031||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 48||0.031|-0.251|0.125
82478891|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.21|STANDARD_DEVIATION|0.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478892|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.074||0.676|TWO_SIDED|95.0|-0.176|0.114||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||week 48||0.114|-0.176|0.676
82478893|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478894|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.095||0.226|TWO_SIDED|95.0|-0.301|0.071||"The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit~\+ baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured."|repeated measures model|||Week 72||0.071|-0.301|0.226
82478895|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|0.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478896|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.093||0.683|TWO_SIDED|95.0|-0.222|0.145||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.145|-0.222|0.683
82478897|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478898|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.094||0.848|TWO_SIDED|95.0|-0.168|0.204||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.204|-0.168|0.848
82478899|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|0.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478900|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.126||0.656|TWO_SIDED|95.0|-0.305|0.192||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.192|-0.305|0.656
82478901|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478902|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.124||0.777|TWO_SIDED|95.0|-0.279|0.209||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.209|-0.279|0.777
82478903|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478904|NCT02880956|164652908|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.128||0.256|TWO_SIDED|95.0|-0.106|0.397||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.397|-0.106|0.256
82478905|NCT02880956|164652908|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|0.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552852|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|5.851||||0.0334|TWO_SIDED|95.0|0.307|11.396|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||11.396|0.307|0.0334
82552853|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|3.08||||0.5622|TWO_SIDED|95.0|-2.501|8.66|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.660|-2.501|0.5622
82552854|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.014||||0.2841|TWO_SIDED|95.0|-1.643|9.672|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||9.672|-1.643|0.2841
82552855|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|4.438||||0.0178|TWO_SIDED|95.0|0.774|8.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.103|0.774|0.0178
82562124|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|0.69|||||TWO_SIDED|95.0|0.57|0.83|||ANCOVA|||"The following hypotheses were tested for A/H3N2 strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||0.83|0.57|
82581037|NCT00037830|164873459|SUPERIORITY_OR_OTHER|||||||0.0502|||||||estimate of slope of change over time|random intercept model and a variance components covariance structure||||||0.0502
82581038|NCT00037830|164873459|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||estimate slope of change over time|random intercept model and a variance components covariance structure||||||0.0003
82581039|NCT00037830|164873460|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82581040|NCT00037830|164873461|SUPERIORITY_OR_OTHER|||||||0.131|||||||t-test, 2 sided|||||||0.1310
82581041|NCT00037830|164873462|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||Analysis was paired sample t-test on change from baseline.||||<0.05
82581042|NCT00037830|164873463|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82651057|NCT00591253|165016908|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.79|||<|0.001|TWO_SIDED|95.0|-8.39|-3.19||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.19|-8.39|<0.001
82478906|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.101||0.479|TWO_SIDED|95.0|-0.269|0.126||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.126|-0.269|0.479
82581043|NCT00037830|164873464|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82478907|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478908|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.099||0.295|TWO_SIDED|95.0|-0.299|0.091||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.091|-0.299|0.295
82478909|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|0.77|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478910|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.102||0.884|TWO_SIDED|95.0|-0.186|0.215||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.215|-0.186|0.884
82478911|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478912|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.569|TWO_SIDED|95.0|-0.281|0.155||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.155|-0.281|0.569
82478913|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478914|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_ERROR_OF_MEAN|0.108||0.702|TWO_SIDED|95.0|-0.254|0.171||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.171|-0.254|0.702
82478915|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478916|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.111||0.566|TWO_SIDED|95.0|-0.155|0.283||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.283|-0.155|0.566
82478917|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478918|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.133||0.141|TWO_SIDED|95.0|-0.458|0.065||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.065|-0.458|0.141
82478919|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478920|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.131||0.834|TWO_SIDED|95.0|-0.285|0.23||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.230|-0.285|0.834
82478921|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|0.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478922|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.133||0.724|TWO_SIDED|95.0|-0.309|0.215||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.215|-0.309|0.724
82478923|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478924|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.166||0.163|TWO_SIDED|95.0|-0.559|0.095||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.095|-0.559|0.163
82478925|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|0.24|STANDARD_DEVIATION|0.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478926|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.163||0.497|TWO_SIDED|95.0|-0.432|0.21||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.210|-0.432|0.497
82478927|NCT02880956|164652909|SUPERIORITY||effect size|0.1|STANDARD_DEVIATION|1.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478928|NCT02880956|164652909|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.168||0.919|TWO_SIDED|95.0|-0.314|0.349||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.349|-0.314|0.919
82478929|NCT02880956|164652909|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82581044|NCT00037830|164873465|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82478930|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.352||0.423|TWO_SIDED|95.0|-0.974|0.409||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.409|-0.974|0.423
82478931|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82552856|NCT04800211|164810271|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.847||||0.6944|TWO_SIDED|95.0|-3.398|5.093|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Serum HDL-C (mg/dL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.093|-3.398|0.6944
82552857|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-35.556||||0.0031|TWO_SIDED|95.0|-59.038|-12.075|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-12.075|-59.038|0.0031
82552858|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-31.35||||0.0371|TWO_SIDED|95.0|-60.818|-1.882|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-1.882|-60.818|0.0371
82552859|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-34.356||||0.0043|TWO_SIDED|95.0|-57.877|-10.834|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-10.834|-57.877|0.0043
82581045|NCT00383110|164873503|SUPERIORITY_OR_OTHER|||||||0.648|||||||ANOVA|||||||0.648
82581046|NCT00383110|164873504|SUPERIORITY_OR_OTHER|||||||0.14|||||||ANOVA|||||||0.14
82478932|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.346||0.036|TWO_SIDED|95.0|-1.408|-0.047||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.047|-1.408|0.036
82478933|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|2.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478934|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.355||0.121|TWO_SIDED|95.0|-1.25|0.147||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.147|-1.250|0.121
82581047|NCT00383110|164873505|SUPERIORITY_OR_OTHER|||||||0.675|||||||ANOVA|||||||0.675
82581048|NCT00383110|164873506|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANOVA|||||||0.03
82581049|NCT00383110|164873507|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82478935|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478936|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.371||0.244|TWO_SIDED|95.0|-1.163|0.296||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.296|-1.163|0.244
82478937|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.15|STANDARD_DEVIATION|2.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478938|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.36||0.085|TWO_SIDED|95.0|-1.33|0.086||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.086|-1.330|0.085
82478939|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.21|STANDARD_DEVIATION|3.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478940|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.371||0.137|TWO_SIDED|95.0|-1.28|0.177||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.177|-1.280|0.137
82478941|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.19|STANDARD_DEVIATION|2.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478942|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.352||0.258|TWO_SIDED|95.0|-0.294|1.091||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.091|-0.294|0.258
82478943|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|2.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478944|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.348||0.711|TWO_SIDED|95.0|-0.555|0.814||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.814|-0.555|0.711
82478945|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|3.05|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478946|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.35||0.503|TWO_SIDED|95.0|-0.454|0.924||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.924|-0.454|0.503
82552860|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-18.096||||0.2091|TWO_SIDED|95.0|-46.375|10.183|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||10.183|-46.375|0.2091
82581050|NCT00383110|164873508|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82478947|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478948|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.404||0.978|TWO_SIDED|95.0|-0.806|0.784||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.784|-0.806|0.978
82478949|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|3.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478950|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.402||0.265|TWO_SIDED|95.0|-1.239|0.342||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.342|-1.239|0.265
82478951|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|3.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82651058|NCT00591253|165016909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.001|TWO_SIDED|95.0|-8.52|-2.08||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-2.08|-8.52|0.001
82478952|NCT02880956|164652910|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.414||0.789|TWO_SIDED|95.0|-0.704|0.925||The statistical model: ADAS-Cog change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.925|-0.704|0.789
82478953|NCT02880956|164652910|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|2.82|||TWO_SIDED|||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.||||
82478954|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.6||0.72|TWO_SIDED|95.0|-0.965|1.395||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.395|-0.965|0.720
82478955|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|4.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82552861|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-24.723||||0.0197|TWO_SIDED|95.0|-45.473|-3.973|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-3.973|-45.473|0.0197
82552862|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-13.595||||0.2353|TWO_SIDED|95.0|-36.08|8.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||8.891|-36.080|0.2353
82581051|NCT00611975|164873565|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.8|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.8
82478956|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.592||0.455|TWO_SIDED|95.0|-1.607|0.722||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.722|-1.607|0.455
82478957|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|4.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478958|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.43|STANDARD_ERROR_OF_MEAN|0.605||0.473|TWO_SIDED|95.0|-0.755|1.625||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.625|-0.755|0.473
82478959|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|4.25|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82478960|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.686||0.813|TWO_SIDED|95.0|-1.187|1.512||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.512|-1.187|0.813
82478961|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|5.3|||TWO_SIDED|||||||||Week 48||||
82478962|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.672||0.421|TWO_SIDED|95.0|-1.863|0.78||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.780|-1.863|0.421
82478963|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|5.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478964|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.687||0.758|TWO_SIDED|95.0|-1.139|1.564||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.564|-1.139|0.758
82478965|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|5.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478966|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.815||0.511|TWO_SIDED|95.0|-2.14|1.066||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.066|-2.140|0.511
82478967|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|6.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478968|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.801||0.192|TWO_SIDED|95.0|-2.623|0.527||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.527|-2.623|0.192
82478969|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|6.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478970|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.69|STANDARD_ERROR_OF_MEAN|0.816||0.398|TWO_SIDED|95.0|-0.914|2.294||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.294|-0.914|0.398
82581052|NCT00611975|164873565|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.4|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.4
82581053|NCT00611975|164873566|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.6|||||||Mixed Models Analysis|||Asex questionnaires were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for ASEX scores were re-assigned to phase based on time to onset of next menstrual period. Follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-2 days before NMP).||||>0.6
82581054|NCT00611975|164873566|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.6|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on ASEX scores||||>0.6
82581055|NCT00611975|164873567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||<.01
82478971|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|5.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82478972|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|0.97|STANDARD_ERROR_OF_MEAN|0.924||0.296|TWO_SIDED|95.0|-0.851|2.784||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.784|-0.851|0.296
82478973|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|6.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478974|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.907||0.706|TWO_SIDED|95.0|-2.126|1.442||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.442|-2.126|0.706
82478975|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|6.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478976|NCT02880956|164652911|SUPERIORITY||LS Mean of Difference|1.79|STANDARD_ERROR_OF_MEAN|0.929||0.055|TWO_SIDED|95.0|-0.036|3.617||The statistical model: FAQ change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||3.617|-0.036|0.055
82478977|NCT02880956|164652911|SUPERIORITY||Effect size/pooled SD|-0.28|STANDARD_DEVIATION|6.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478978|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.11||0.651|TWO_SIDED|95.0|-0.266|0.166||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.166|-0.266|0.651
82478979|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|0.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478980|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.107||0.32|TWO_SIDED|95.0|-0.318|0.104||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.104|-0.318|0.320
82478981|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|0.13|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478982|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.11||0.757|TWO_SIDED|95.0|-0.25|0.182||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.182|-0.250|0.757
82552863|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-4.759||||0.7329|TWO_SIDED|95.0|-32.159|22.641|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||22.641|-32.159|0.7329
82581056|NCT00611975|164873567|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<0.01
82581057|NCT00611975|164873568|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.4|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.4
82581058|NCT00611975|164873568|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
82478983|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|0.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478984|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.121||0.984|TWO_SIDED|95.0|-0.241|0.236||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.236|-0.241|0.984
82478985|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.85|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478986|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.118||0.595|TWO_SIDED|95.0|-0.296|0.17||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.170|-0.296|0.595
82478987|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|0.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478988|NCT02880956|164652912|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.122||0.67|TWO_SIDED|95.0|-0.187|0.291||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.291|-0.187|0.670
82478989|NCT02880956|164652912|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552864|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-21.962||||0.542|TWO_SIDED|95.0|-62.989|19.065|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||19.065|-62.989|0.5420
82552865|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.591||||0.5234|TWO_SIDED|95.0|-77.049|23.866|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||23.866|-77.049|0.5234
82552866|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-20.761||||0.5975|TWO_SIDED|95.0|-61.867|20.344|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||20.344|-61.867|0.5975
82552867|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-13.337||||0.9331|TWO_SIDED|95.0|-62.853|36.179|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||36.179|-62.853|0.9331
82552868|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-19.964||||0.2444|TWO_SIDED|95.0|-53.637|13.709|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||13.709|-53.637|0.2444
82552869|NCT04800211|164810272|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-13.254||||0.5169|TWO_SIDED|95.0|-53.427|26.919|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||26.919|-53.427|0.5169
82552870|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.174||||0.1359|TWO_SIDED|95.0|-93.12|12.772|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||12.772|-93.120|0.1359
82552871|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-71.725||||0.0129|TWO_SIDED|95.0|-127.961|-15.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.490|-127.961|0.0129
82552872|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-37.308||||0.3262|TWO_SIDED|95.0|-112.293|37.678|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||37.678|-112.293|0.3262
82552873|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-20.012||||0.4343|TWO_SIDED|95.0|-70.468|30.444|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||30.444|-70.468|0.4343
82552874|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-44.657||||0.0967|TWO_SIDED|95.0|-97.481|8.167|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||8.167|-97.481|0.0967
82552875|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-28.974||||0.4198|TWO_SIDED|95.0|-99.915|41.966|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||41.966|-99.915|0.4198
82552876|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-33.141||||0.2121|TWO_SIDED|95.0|-85.475|19.193|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||19.193|-85.475|0.2121
82552877|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|15.799||||0.5445|TWO_SIDED|95.0|-35.614|67.212|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||67.212|-35.614|0.5445
82552878|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.583||||0.9534|TWO_SIDED|95.0|-51.951|55.116|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||55.116|-51.951|0.9534
82581059|NCT00611975|164873569|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.7|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.7
82581060|NCT00611975|164873569|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
82581061|NCT00611975|164873570|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.9
82581062|NCT00611975|164873570|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||<.0001
82581063|NCT00611975|164873571|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.9
82478990|NCT02880956|164652913|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.112||0.722|TWO_SIDED|95.0|-0.26|0.18||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.180|-0.260|0.722
82478991|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.86|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552879|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|7.584||||0.8366|TWO_SIDED|95.0|-65.126|80.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||80.295|-65.126|0.8366
82552880|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-55.973||||0.5437|TWO_SIDED|95.0|-154.862|42.916|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||42.916|-154.862|0.5437
82552881|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-73.308||||0.2974|TWO_SIDED|95.0|-177.224|30.608|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||30.608|-177.224|0.2974
82581064|NCT00611975|164873571|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.9|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.9
82581065|NCT00611975|164873572|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.1|||||||Mixed Models Analysis|||Blood draws were scheduled for early follicular, ovulatory and luteal phases. Menstrual phase for blood samples were re-assigned to phase based on time to onset of next menstrual period. Early follicular(35-21 days before next menstrual period (NMP)), Ovulatory (16-12 before NMP) luteal (11-3 days before NMP).||||>0.1
82581066|NCT00611975|164873572|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.7|||||||Mixed Models Analysis|||This secondary analysis examined main effect of menstrual cycle phase on hormone levels||||>0.7
82581067|NCT03465904|164873582|SUPERIORITY|Our power analysis indicated that a minimum of 239 patients per group was needed to provide 90% power to detect a 13.4% difference in the primary outcome, pain freedom at 2 h. Accounting for an estimated attrition rate of 20%, we aimed to enroll 299 patients per group.|||||<|0.05||||||All analyses were performed using SPSS, version 26.0 with two-sided levels of statistical significance established at p \< 0.05|Chi-squared|A Chi-square test of independent proportions was used to compare primary and secondary efficacy outcomes between groups.||Identical statistical analyses were performed for the intent-to-treat (ITT) and the per protocol (PP) populations. The ITT population consisted of all randomized patients, who received any duration of sham or verum treatment and returned completed study materials. The PP population consisted of patients who strictly met inclusion criteria and completed at least 60 min of treatment.||||<0.05
82581068|NCT00925353|164873609|SUPERIORITY_OR_OTHER||Actual lab results shown|1.0|||<|0.05||95.0|||||non-compartmental pharmacokinetic|The planned analysis was to estimate pharmacokinetic parameters. There were too few detectable values to be able to perform this analysis.||Null Hypothesis: Application of 4% lidocaine gel on the breasts and chest wall of healthy women occluded for one hour does not result in systemically toxic plasma concentrations of lidocaine or its principal metabolite, monoethylglycinexyliidie (MEGX), electrocardiogram changes, or adverse events.||||<0.05
82581069|NCT00275262|164873624|SUPERIORITY_OR_OTHER|||||||0.125|||||||ANOVA|The statistical method used for a 1-way ANOVA between treatment groups.||The final on treatment values were included in the analysis.||||0.125
82581070|NCT00275262|164873625|SUPERIORITY_OR_OTHER|||||||0.299|||||||ANOVA|The statistical method used for a 1-way ANOVA between treatment groups.||The final on treatment values were included in the analysis.||||0.299
82581071|NCT02217332|164873630|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-test comparing baseline to month 6 on log scale within the dexpramipexole treatment group.||Null hypothesis is the ratio of Month 6 to Baseline within the dexpramipexole group equals '1'.||||< 0.001
82581072|NCT02217332|164873631|SUPERIORITY|||||||0.885||||||Month 6/LOCF was used for the analysis of change from Baseline to Month 6 within the dexpramipexole group.|t-test, 2 sided|||||||0.885
82478992|NCT02880956|164652913|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.109||0.878|TWO_SIDED|95.0|-0.232|0.198||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.198|-0.232|0.878
82552882|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-44.892||||0.9026|TWO_SIDED|95.0|-181.909|92.126|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||92.126|-181.909|0.9026
82552883|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-35.811||||0.8954|TWO_SIDED|95.0|-132.513|60.891|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||60.891|-132.513|0.8954
82552884|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-46.239||||0.7485|TWO_SIDED|95.0|-146.766|54.288|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||54.288|-146.766|0.7485
82552885|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-36.559||||0.9578|TWO_SIDED|95.0|-169.77|96.653|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||96.653|-169.770|0.9578
82552886|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.725||||0.3635|TWO_SIDED|95.0|-129.208|47.757|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||47.757|-129.208|0.3635
82581073|NCT02217332|164873635|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|Paired t-test comparing baseline to month 3 on log scale within the dexpramipexole treatment group.||Null hypothesis is the ratio of Month 3 to Baseline within the dexpramipexole group equals '1'.||||<.001
82581074|NCT02217332|164873636|SUPERIORITY|||||||1||||||Month 3/LOCF was used for the analysis of change from Baseline to Month 3 within the dexpramipexole group.|t-test, 2 sided|Paired t-test comparing baseline to month 3 within the dexpramipexole treatment group||||||1.0
82581075|NCT02217332|164873637|SUPERIORITY||log scale|||||0.001|||||||Wilcoxon Signed Rank Test (paired)|||Null hypothesis is the ratio of Month 6 to Baseline within the dexpramipexole group equals '1'; 68% confidence interval is equal to plus/minus 1 standard error||||0.001
82552887|NCT04800211|164810273|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-8.333||||0.8713|TWO_SIDED|95.0|-110.097|93.431|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||93.431|-110.097|0.8713
82552888|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-115.256||||0.0003|TWO_SIDED|95.0|-177.973|-52.539|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-52.539|-177.973|0.0003
82552889|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-74.904||||0.0467|TWO_SIDED|95.0|-148.706|-1.102|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-1.102|-148.706|0.0467
82552890|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-144.035|||<|0.0001|TWO_SIDED|95.0|-206.668|-81.402|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-81.402|-206.668|<.0001
82552891|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-62.755||||0.0807|TWO_SIDED|95.0|-133.221|7.71|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||7.710|-133.221|0.0807
82581076|NCT03573583|164873638|SUPERIORITY||Mean Difference (Final Values)|2.29||||0.03|TWO_SIDED|95.0|0.22|4.36||No formal adjustment for type I error due to the pilot nature of the study. All significance tests were 2-tailed and an alpha level of 0.05 was required for significance.|ANCOVA|Adjusted for baseline score.||Continuous variables were expressed as mean (SD) and categorical variables were as frequencies and percentages. A 2-sided independent-sample t test was used to compare group differences in change scores. Change scores were calculated as Week 16 measurements minus baseline measurements. Statistical analyses were done by a blinded statistician without knowledge of group membership.||4.36|0.22|0.03
82581077|NCT03573583|164873639|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.009|TWO_SIDED|95.0|0.31|1.77|||ANCOVA|Adjusted for baseline score.||||1.77|0.31|0.009
82581078|NCT03573583|164873640|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.07|TWO_SIDED|95.0|-0.1|2.67|||ANCOVA|Baseline as covariate||||2.67|-0.10|0.07
82581079|NCT03573583|164873641|OTHER|Pearson's correlation coefficients, along with their 95% confidence intervals (CIs)|Pearson's Correlation coefficient|0.19||||0.49|TWO_SIDED|95.0|-0.35|0.64|||Pearson's Correlation coefficient|||||0.64|-0.35|0.49
82581080|NCT00704379|164873670|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.6|||<|0.05|TWO_SIDED|95.0|1.1|16.2|||Log Rank|||||16.2|1.1|<0.05
82581081|NCT01534689|164873677|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82581082|NCT01534689|164873678|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||results at 12 weeks compared to baseline||||<0.0001
82581083|NCT00006011|164873679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||"Primary outcome is measured as a treatment hazard ratio stratified by stage and assuming proportional hazards.~Recurrence-free survival hazard ratio: Arm 2 is relative to Arm 1."||1.17|0.69|
82478993|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478994|NCT02880956|164652913|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.112||0.535|TWO_SIDED|95.0|-0.151|0.29||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.290|-0.151|0.535
82478995|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|0.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82478996|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_ERROR_OF_MEAN|0.129||0.916|TWO_SIDED|95.0|-0.266|0.239||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.239|-0.266|0.916
82478997|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82478998|NCT02880956|164652913|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.126||0.511|TWO_SIDED|95.0|-0.33|0.165||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.165|-0.330|0.511
82478999|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479000|NCT02880956|164652913|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.129||0.771|TWO_SIDED|95.0|-0.217|0.292||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.292|-0.217|0.771
82479001|NCT02880956|164652913|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.94|||TWO_SIDED|||||||||Week 96||||
82479002|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.086||0.903|TWO_SIDED|95.0|-0.159|0.18||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.180|-0.159|0.903
82552892|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-68.83||||0.0095|TWO_SIDED|95.0|-120.753|-16.907|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-16.907|-120.753|0.0095
82552893|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-1.593||||0.9586|TWO_SIDED|95.0|-61.873|58.687|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||58.687|-61.873|0.9586
82581084|NCT01639560|164873684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.7|||<|0.001|TWO_SIDED|95.0|2.5|18.1|||Regression, Logistic|||||18.1|2.5|<0.001
82581085|NCT01639560|164873685|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.33||||0.001|TWO_SIDED|95.0|2.2|24.0|||Regression, Logistic|||||24.0|2.2|0.001
82479003|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|0.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479004|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.084||0.811|TWO_SIDED|95.0|-0.185|0.145||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.145|-0.185|0.811
82479005|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|0.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479006|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.086||0.775|TWO_SIDED|95.0|-0.145|0.194||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.194|-0.145|0.775
82479007|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82581086|NCT01639560|164873686|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.047|TWO_SIDED|95.0|1.0|6.3|||Regression, Logistic|||||6.3|1.0|0.047
82581087|NCT01639560|164873687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0||||0.009|TWO_SIDED|95.0|1.5|16.5|||Regression, Logistic|||||16.5|1.5|0.009
82552894|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.635||||0.9402|TWO_SIDED|95.0|-71.714|66.443|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||66.443|-71.714|0.9402
82479008|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.273|TWO_SIDED|95.0|-0.337|0.096||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.096|-0.337|0.273
82479009|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479010|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.108||0.74|TWO_SIDED|95.0|-0.248|0.176||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.176|-0.248|0.740
82479011|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479012|NCT02880956|164652914|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.567|TWO_SIDED|95.0|-0.282|0.155||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.155|-0.282|0.567
82479013|NCT02880956|164652914|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|0.8|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479014|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.099||0.931|TWO_SIDED|95.0|-0.204|0.187||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.187|-0.204|0.931
82479015|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479016|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.097||0.187|TWO_SIDED|95.0|-0.32|0.063||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.063|-0.320|0.187
82479017|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|0.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479018|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.961|TWO_SIDED|95.0|-0.191|0.201||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.201|-0.191|0.961
82479019|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.73|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479020|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.124||0.894|TWO_SIDED|95.0|-0.26|0.227||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.227|-0.260|0.894
82479021|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479022|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.121||0.917|TWO_SIDED|95.0|-0.226|0.251||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.251|-0.226|0.917
82479023|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552895|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-113.663||||0.039|TWO_SIDED|95.0|-223.33|-3.996|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-3.996|-223.330|0.0390
82552896|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-72.269||||0.4543|TWO_SIDED|95.0|-199.091|54.554|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||54.554|-199.091|0.4543
82552897|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-142.442||||0.0051|TWO_SIDED|95.0|-252.08|-32.805|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-32.805|-252.080|0.0051
82552898|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-60.12||||0.6061|TWO_SIDED|95.0|-184.286|64.046|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||64.046|-184.286|0.6061
82562125|NCT00264576|164833595|NON_INFERIORITY_OR_EQUIVALENCE|To demonstrate non-inferiority of cTIV to eTIV\_f the lower limit of the 95% confidence interval (CI) around the ratio of the postvaccination GMTs had to be \>0.5.|Ratio of GMT|1.33|||||TWO_SIDED|95.0|1.13|1.58|||ANCOVA|||"The following hypotheses were tested for B strain as measured by HI cell-culture-derived assay:~H0i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) ≥0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) ≤0.5 (null hypothesis); H1i: log(GMTeTIV\_f(i)) - log(GMTcTIV(i)) \<0.301 ↔ GMTcTIV(i) / GMTeTIV\_f(i) \>0.5 (alternative hypothesis); With: GMTcTIV(i)=GMT for strain i in cTIV group; GMTeTIV\_f(i)=GMT for strain i in eTIV\_f group."||1.58|1.13|
82581088|NCT02015455|164873703|SUPERIORITY||Percent Difference in Median|-0.7||||0.54|TWO_SIDED|95.0|-2.9|1.5|||Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, and site time trends. Random effects for clinic and provider.|Percent difference in median of the intervention group with respect to the control group.|||1.5|-2.9|0.54
82581089|NCT02015455|164873704|SUPERIORITY||Odds Ratio (OR)|0.95||||0.04|TWO_SIDED|95.0|0.91|1.0||A p-value \<0.05 was considered significant.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||1.00|0.91|0.04
82479024|NCT02880956|164652915|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.124||0.639|TWO_SIDED|95.0|-0.186|0.303||The statistical model: ADCS-CGIC-MCI change from baseline = treatment + site + visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.303|-0.186|0.639
82479025|NCT02880956|164652915|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|0.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (placebo - 8E12) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479026|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|-1.57|STANDARD_ERROR_OF_MEAN|2.175||0.47|TWO_SIDED|95.0|-5.851|2.703||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.703|-5.851|0.470
82479027|NCT02880956|164652916|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|15.44|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479028|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|0.36|STANDARD_ERROR_OF_MEAN|2.127||0.864|TWO_SIDED|95.0|-3.819|4.548||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||4.548|-3.819|0.864
82479029|NCT02880956|164652916|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|15.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479030|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|-4.49|STANDARD_ERROR_OF_MEAN|2.206||0.043|TWO_SIDED|95.0|-8.826|-0.15||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||-0.150|-8.826|0.043
82479031|NCT02880956|164652916|SUPERIORITY||Effect size/pooled SD|-0.28|STANDARD_DEVIATION|16.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479032|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|0.61|STANDARD_ERROR_OF_MEAN|2.874||0.831|TWO_SIDED|95.0|-5.041|6.27||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||6.270|-5.041|0.831
82479033|NCT02880956|164652916|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|18.06|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479034|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|1.81|STANDARD_ERROR_OF_MEAN|2.843||0.525|TWO_SIDED|95.0|-3.784|7.404||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||7.404|-3.784|0.525
82479035|NCT02880956|164652916|OTHER||Effect size/pooled SD|0.1|STANDARD_ERROR_OF_MEAN|18.47|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479036|NCT02880956|164652916|SUPERIORITY||LS Mean of Difference|-1.49|STANDARD_ERROR_OF_MEAN|2.921||0.61|TWO_SIDED|95.0|-7.239|4.255||The statistical model: UPSA-Brief change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||4.255|-7.239|0.610
82479037|NCT02880956|164652916|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|19.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479038|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.02||0.438|TWO_SIDED|95.0|-2.798|1.214||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||1.214|-2.798|0.438
82479039|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|7.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479040|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|0.81|STANDARD_ERROR_OF_MEAN|1.005||0.419|TWO_SIDED|95.0|-1.164|2.788||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||2.788|-1.164|0.419
82479041|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|7.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479042|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|1.03||0.948|TWO_SIDED|95.0|-1.959|2.092||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 48||2.092|-1.959|0.948
82479043|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|8.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479044|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|-1.04|STANDARD_ERROR_OF_MEAN|1.597||0.516|TWO_SIDED|95.0|-4.18|2.101||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||2.101|-4.180|0.516
82479045|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|10.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479046|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|1.582||0.971|TWO_SIDED|95.0|-3.055|3.168||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||3.168|-3.055|0.971
82479047|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|11.24|||TWO_SIDED|||||||||Week 96||||
82479048|NCT02880956|164652917|SUPERIORITY||LS Mean of Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.621||0.392|TWO_SIDED|95.0|-4.577|1.8||The statistical model: ADCS-MCI-ADL-24 change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; var-covar structure = Unstructured.|repeated measures model|||Week 96||1.800|-4.577|0.392
82479049|NCT02880956|164652917|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|10.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479050|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.902||0.148|TWO_SIDED|95.0|-3.08|0.465||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.465|-3.080|0.148
82479051|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|6.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479052|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.896||0.092|TWO_SIDED|95.0|-3.278|0.246||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.246|-3.278|0.092
82479053|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|7.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82552899|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-66.194||||0.1242|TWO_SIDED|95.0|-150.672|18.284|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||18.284|-150.672|0.1242
82552900|NCT04800211|164810274|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-12.149||||0.8117|TWO_SIDED|95.0|-112.35|88.052|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||88.052|-112.350|0.8117
82552901|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-111.957||||0.0567|TWO_SIDED|95.0|-227.151|3.237|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.237|-227.151|0.0567
82552902|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-76.728||||0.2103|TWO_SIDED|95.0|-197.025|43.569|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||43.569|-197.025|0.2103
82581090|NCT02015455|164873705|SUPERIORITY||Odds Ratio (OR)|0.95||||0.02|TWO_SIDED|95.0|0.9|0.99||The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||0.99|0.90|0.02
82581091|NCT02015455|164873706|SUPERIORITY||Odds Ratio (OR)|0.95||||0.02|TWO_SIDED|95.0|0.91|0.99||The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, prior opioid use, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||0.99|0.91|0.02
82581092|NCT02015455|164873710|SUPERIORITY||Odds Ratio (OR)|0.99||||0.74|TWO_SIDED|95.0|0.91|1.07||Statistical significance defined as P\<0.05|Mixed Models Analysis|Adjusted for site, clinic size, age, sex, image modality, comorbidity, site time trends. Random effects for clinic and provider.|Odds ratio is for the intervention group with respect to the control group.|||1.07|0.91|0.74
82581093|NCT03292432|164873745|SUPERIORITY||Risk Difference (RD)|-3.5||||0.8|TWO_SIDED|95.0|-21.8|15.2|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 50 copies/mL in TERA arm minus SOC arm|||15.2|-21.8|0.80
82479054|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.915||0.073|TWO_SIDED|95.0|-3.446|0.152||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.152|-3.446|0.073
82479055|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.25|STANDARD_DEVIATION|6.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479056|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|0.47|STANDARD_ERROR_OF_MEAN|1.081||0.662|TWO_SIDED|95.0|-1.652|2.599||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.599|-1.652|0.662
82479057|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|8.07|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552903|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-169.735||||0.0052|TWO_SIDED|95.0|-288.22|-51.251|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-51.251|-288.220|0.0052
82552904|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-52.505||||0.349|TWO_SIDED|95.0|-162.721|57.711|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||57.711|-162.721|0.3490
82552905|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-11.413||||0.841|TWO_SIDED|95.0|-123.333|100.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||100.507|-123.333|0.8410
82581094|NCT03292432|164873746|SUPERIORITY||Risk Difference (RD)|-0.7|||>|0.99|TWO_SIDED|95.0|-20.9|19.6|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 200 copies/ml in TERA arm minus SOC arm|||19.6|-20.9|>0.99
82581095|NCT03292432|164873747|SUPERIORITY||Risk Difference (RD)|-13.1||||0.24|TWO_SIDED|95.0|-32.1|7.2|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24 in TERA arm minus SOC arm|Comparison of percentages at Week 24||7.2|-32.1|0.24
82581096|NCT03292432|164873747|SUPERIORITY||Risk Difference (RD)|3.8||||0.76|TWO_SIDED|95.0|-16.0|22.6|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 36 in TERA arm minus SOC arm|Comparison of percentages at Week 36||22.6|-16.0|0.76
82581097|NCT03292432|164873747|SUPERIORITY||Risk Difference (RD)|3.6|||>|0.99|TWO_SIDED|95.0|-21.8|27.4|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in TERA arm minus SOC arm|Comparison of percentages at Week 48||27.4|-21.8|>0.99
82651059|NCT00591253|165016909|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.71|||<|0.001|TWO_SIDED|95.0|-10.88|-4.55||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.55|-10.88|<0.001
82651060|NCT00591253|165016910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.81||||0.001|TWO_SIDED|95.0|-6.08|-1.54||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.54|-6.08|0.001
82651061|NCT00591253|165016910|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.65|||<|0.001|TWO_SIDED|95.0|-7.88|-3.41||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.41|-7.88|<0.001
82479058|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|1.057||0.992|TWO_SIDED|95.0|-2.089|2.068||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.068|-2.089|0.992
82479059|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|8.38|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479060|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-0.82|STANDARD_ERROR_OF_MEAN|1.088||0.451|TWO_SIDED|95.0|-2.961|1.32||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.320|-2.961|0.451
82651062|NCT00591253|165016911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.86||||0.014|TWO_SIDED|95.0|-8.72|-1.01||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-1.01|-8.72|0.014
82479061|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|7.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82651063|NCT00591253|165016911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.71|||<|0.001|TWO_SIDED|95.0|-12.5|-4.92||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.92|-12.50|<0.001
82479062|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|1.227||0.583|TWO_SIDED|95.0|-3.088|1.739||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.739|-3.088|0.583
82479063|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|8.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479064|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-1.59|STANDARD_ERROR_OF_MEAN|1.213||0.191|TWO_SIDED|95.0|-3.975|0.795||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.795|-3.975|0.191
82479065|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|9.37|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479066|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-1.11|STANDARD_ERROR_OF_MEAN|1.238||0.372|TWO_SIDED|95.0|-3.541|1.329|||repeated measures model|||Week 72||1.329|-3.541|0.372
82479067|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|8.96|||TWO_SIDED|||||||||Week 72||||
82479068|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|1.303||0.447|TWO_SIDED|95.0|-3.553|1.571||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.571|-3.553|0.447
82479069|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|9.35|||TWO_SIDED|||||||||Week 96||||
82479070|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|1.285||0.881|TWO_SIDED|95.0|-2.334|2.719||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.719|-2.334|0.881
82479071|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|8.68|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479072|NCT02880956|164652918|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|1.338||0.853|TWO_SIDED|95.0|-2.881|2.383||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.383|-2.881|0.853
82479073|NCT02880956|164652918|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|8.54|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479074|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.846||0.287|TWO_SIDED|95.0|-2.567|0.762||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.762|-2.567|0.287
82479075|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|6.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479076|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.838||0.227|TWO_SIDED|95.0|-2.661|0.633||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.633|-2.661|0.227
82479077|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|6.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479078|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.859||0.241|TWO_SIDED|95.0|-2.698|0.681||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.681|-2.698|0.241
82479079|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|6.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479080|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|0.81|STANDARD_ERROR_OF_MEAN|0.958||0.397|TWO_SIDED|95.0|-1.073|2.696||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.696|-1.073|0.397
82479081|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|7.45|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479082|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.936||0.671|TWO_SIDED|95.0|-2.239|1.443||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.443|-2.239|0.671
82479083|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|7.59|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82651064|NCT00591253|165016912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04||||0.012|TWO_SIDED|95.0|-7.17|-0.91||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-0.91|-7.17|0.012
82479084|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.964||0.231|TWO_SIDED|95.0|-3.052|0.738||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.738|-3.052|0.231
82479085|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|7.25|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479086|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|2.47|STANDARD_ERROR_OF_MEAN|1.137||0.031|TWO_SIDED|95.0|0.23|4.701||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||4.701|0.230|0.031
82479087|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|0.29|STANDARD_DEVIATION|8.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479088|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|0.68|STANDARD_ERROR_OF_MEAN|1.124||0.547|TWO_SIDED|95.0|-1.532|2.888||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.888|-1.532|0.547
82479089|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|9.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479090|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|0.73|STANDARD_ERROR_OF_MEAN|1.145||0.524|TWO_SIDED|95.0|-1.521|2.984||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.984|-1.521|0.524
82479091|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|8.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479092|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.356||0.54|TWO_SIDED|95.0|-3.499|1.836||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.836|-3.499|0.540
82479093|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|10.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479094|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.336||0.664|TWO_SIDED|95.0|-3.208|2.046||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.046|-3.208|0.664
82479095|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|10.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479096|NCT02880956|164652919|SUPERIORITY||LS Mean of Difference|-1.19|STANDARD_ERROR_OF_MEAN|1.39||0.393|TWO_SIDED|95.0|-3.923|1.546||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.546|-3.923|0.393
82479097|NCT02880956|164652919|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|9.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479098|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.262||0.946|TWO_SIDED|95.0|-0.534|0.498||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.498|-0.534|0.946
82479099|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479100|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.259||0.242|TWO_SIDED|95.0|-0.813|0.206||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.206|-0.813|0.242
82479101|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|2.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479102|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.266||0.541|TWO_SIDED|95.0|-0.685|0.36||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.360|-0.685|0.541
82479103|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479104|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.298||0.724|TWO_SIDED|95.0|-0.481|0.691||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.691|-0.481|0.724
82479105|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.36|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552906|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-53.565||||0.3465|TWO_SIDED|95.0|-165.4|58.27|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||58.270|-165.400|0.3465
82552907|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-111.65||||0.0087|TWO_SIDED|95.0|-194.865|-28.435|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-28.435|-194.865|0.0087
82552908|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|63.944||||0.2688|TWO_SIDED|95.0|-49.678|177.565|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||177.565|-49.678|0.2688
82552909|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|151.222||||0.0096|TWO_SIDED|95.0|37.114|265.33|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||265.330|37.114|0.0096
82479106|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.29||0.236|TWO_SIDED|95.0|-0.226|0.913||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.913|-0.226|0.236
82479107|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|2.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552910|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|182.631||||0.0023|TWO_SIDED|95.0|65.754|299.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||299.509|65.754|0.0023
82479108|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.298||0.714|TWO_SIDED|95.0|-0.477|0.695||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.695|-0.477|0.714
82479109|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|2.11|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479110|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.277||0.86|TWO_SIDED|95.0|-0.496|0.593||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.593|-0.496|0.860
82581098|NCT03292432|164873748|SUPERIORITY||Risk Difference (RD)|-13.0||||0.26|TWO_SIDED|95.0|-32.7|7.3|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 24 in TERA arm minus SOC arm|Comparison of percentages at Week 24||7.3|-32.7|0.26
82581099|NCT03292432|164873748|SUPERIORITY||Risk Difference (RD)|11.5||||0.42|TWO_SIDED|95.0|-11.2|32.8|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 36 in TERA arm minus SOC arm|Comparison of percentages at Week 36||32.8|-11.2|0.42
82581100|NCT03292432|164873748|SUPERIORITY||Risk Difference (RD)|-4.4||||0.77|TWO_SIDED|95.0|-29.5|20.7|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 48 in TERA arm minus SOC arm|Comparison of percentages at Week 48||20.7|-29.5|0.77
82581101|NCT03292432|164873749|SUPERIORITY||Risk Difference (RD)|5.8||||0.67|TWO_SIDED|95.0|-14.6|25.3|||Fisher Exact||Risk difference reflects percentage of participants with HIV-1 RNA \< 200 copies/mL at Week 12 and maintained to Week 48 in TERA arm minus SOC arm|||25.3|-14.6|0.67
82581102|NCT03292432|164873750|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentages of doses taken from Weeks 0 -12||||<0.001
82581103|NCT03292432|164873750|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>12 to 24||||<0.001
82581104|NCT03292432|164873750|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>24 to 36||||0.06
82581105|NCT03292432|164873750|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken from Weeks \>36 to 48||||0.50
82581106|NCT03292432|164873751|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken on time from Weeks 0 - 12||||<0.001
82581107|NCT03292432|164873751|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Comparison of percentage of doses taken on time from Weeks \>12 - 24||||<0.001
82581108|NCT03292432|164873751|SUPERIORITY|||||||0.05||||||p-value equal to a priori threshold for statistical significance|Wilcoxon (Mann-Whitney)|||Comparison of percentages of doses taken on time from Weeks \>24 - 36||||0.05
82581109|NCT03292432|164873751|SUPERIORITY|||||||0.49|||||||Wilcoxon (Mann-Whitney)|||Comparison of doses taken on time from Weeks \>36 - 48||||0.49
82581110|NCT03292432|164873752|SUPERIORITY||Risk Ratio (RR)|2.51|||<|0.001|TWO_SIDED|95.0|1.9|3.33|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks 0 - 12||3.33|1.90|<0.001
82479111|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|2.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82581111|NCT03292432|164873752|SUPERIORITY||Risk Ratio (RR)|1.56|||<|0.001|TWO_SIDED|95.0|1.29|1.89|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks \>12 - 24||1.89|1.29|<0.001
82581112|NCT03292432|164873752|SUPERIORITY||Risk Ratio (RR)|1.23||||0.02|TWO_SIDED|95.0|1.03|1.47|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|P-value from Pearson Chi-square test from generalized linear model with Poisson link|Comparison of incidence rates from Weeks \>24 - 36||1.47|1.03|0.020
82581113|NCT03292432|164873752|SUPERIORITY||Risk Ratio (RR)|1.08||||0.39|TWO_SIDED|95.0|0.9|1.3|||Chi-squared|Pearson Chi-square test from generalized linear model with Poisson link|Risk ratio for SOC arm relative to TERA arm|Comparison of incidence rates from Weeks \>36 - 48||1.30|0.90|0.39
82581114|NCT03292432|164873753|SUPERIORITY||Risk Difference (RD)|2.3|||>|0.99|TWO_SIDED|95.0|-16.4|21.1|||Fisher Exact||Risk difference reflects percentage of participants achieving HIV-1 RNA \< 200 copies/mL in TERA arm minus SOC arm|||21.1|-16.4|>0.99
82581115|NCT03292432|164873754|SUPERIORITY||Risk Difference (RD)|4.7||||0.71|TWO_SIDED|95.0|-9.0|19.4|||Fisher Exact||Risk difference reflects percentage of participants achieving sustained virologic control in TERA arm minus SOC arm|||19.4|-9.0|0.71
82581116|NCT00911937|164873756|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.003|TWO_SIDED|95.0|-0.37|-0.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Analysis of covariance (ANCOVA) model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.08|-0.37|0.0030
82581117|NCT00911937|164873757|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.0772|TWO_SIDED|95.0|-0.27|0.01||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.01|-0.27|0.0772
82581118|NCT00911937|164873758|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0001
82581119|NCT00911937|164873760|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0827|TWO_SIDED|95.0|-0.25|0.01||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.01|-0.25|0.0827
82581120|NCT00911937|164873760|SUPERIORITY_OR_OTHER||Least Squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.0112|TWO_SIDED|95.0|-0.33|-0.04||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.04|-0.33|0.0112
82479112|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.274||0.476|TWO_SIDED|95.0|-0.733|0.343||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.343|-0.733|0.476
82479113|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|2.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479114|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.276||0.586|TWO_SIDED|95.0|-0.393|0.694||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.694|-0.393|0.586
82581121|NCT00911937|164873761|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0023
82581122|NCT00911937|164873763|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.15||0.0026|TWO_SIDED|95.0|-0.74|-0.16||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.16|-0.74|0.0026
82581123|NCT00911937|164873763|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.17||0.0014|TWO_SIDED|95.0|-0.9|-0.22||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.22|-0.90|0.0014
82581124|NCT00911937|164873764|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0016
82581125|NCT00911937|164873764|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0004
82581126|NCT00911937|164873766|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.22||0.0072|TWO_SIDED|95.0|-1.03|-0.16||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.16|-1.03|0.0072
82581127|NCT00911937|164873766|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.24||0.0009|TWO_SIDED|95.0|-1.25|-0.32||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.32|-1.25|0.0009
82581128|NCT00911937|164873767|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0041
82479115|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|1.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479116|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.324||0.412|TWO_SIDED|95.0|-0.371|0.903||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.903|-0.371|0.412
82479117|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|2.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479118|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.319||0.45|TWO_SIDED|95.0|-0.386|0.868||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.868|-0.386|0.450
82479119|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|2.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479120|NCT02880956|164652920|SUPERIORITY||LS Mean of Difference|0.17|STANDARD_ERROR_OF_MEAN|0.33||0.612|TWO_SIDED|95.0|-0.481|0.816||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.816|-0.481|0.612
82479121|NCT02880956|164652920|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|2.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479122|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.405||0.52|TWO_SIDED|95.0|-1.058|0.535||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.535|-1.058|0.520
82479123|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|3.52|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479124|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.401||0.303|TWO_SIDED|95.0|-1.201|0.374||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.374|-1.201|0.303
82479125|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479126|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.412||0.23|TWO_SIDED|95.0|-1.307|0.315||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.315|-1.307|0.230
82479127|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.53|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479128|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.5222||0.2|TWO_SIDED|95.0|-1.698|0.356||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.356|-1.698|0.200
82479129|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.07|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479130|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.508||0.873|TWO_SIDED|95.0|-1.08|0.917||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.917|-1.080|0.873
82479131|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479132|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.524||0.388|TWO_SIDED|95.0|-1.482|0.576||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.576|-1.482|0.388
82552911|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-175.901||||0.1612|TWO_SIDED|95.0|-390.865|39.063|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||39.063|-390.865|0.1612
82552912|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-227.95||||0.0396|TWO_SIDED|95.0|-448.725|-7.175|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-7.175|-448.725|0.0396
82651065|NCT00591253|165016912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.55|||<|0.001|TWO_SIDED|95.0|-10.63|-4.48||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.48|-10.63|<0.001
82479133|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479134|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.587||0.734|TWO_SIDED|95.0|-1.355|0.955||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.955|-1.355|0.734
82479135|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|3.91|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479136|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.579||0.417|TWO_SIDED|95.0|-1.608|0.668||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.668|-1.608|0.417
82479137|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|4.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479138|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.589||0.252|TWO_SIDED|95.0|-1.836|0.482||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.482|-1.836|0.252
82479139|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479140|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.669||0.827|TWO_SIDED|95.0|-1.17|1.462||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.462|-1.170|0.827
82479141|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|4.69|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479142|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|0.33|STANDARD_ERROR_OF_MEAN|0.657||0.615|TWO_SIDED|95.0|-0.962|1.624||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 96||1.624|-0.962|0.615
82479143|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.61|||TWO_SIDED|||||||||Week 96||||
82479144|NCT02880956|164652921|SUPERIORITY||LS Mean of Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.678||0.637|TWO_SIDED|95.0|-1.653|1.014||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.014|-1.653|0.637
82479145|NCT02880956|164652921|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|4.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479146|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.367||0.261|TWO_SIDED|95.0|-1.135|0.308||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.308|-1.135|0.261
82479147|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479148|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.29|STANDARD_ERROR_OF_MEAN|0.361||0.423|TWO_SIDED|95.0|-0.42|1.001||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.001|-0.420|0.423
82479149|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479150|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.371||0.322|TWO_SIDED|95.0|-1.097|0.361||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.361|-1.097|0.322
82479151|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|2.48|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479152|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.27|STANDARD_ERROR_OF_MEAN|0.397||0.498|TWO_SIDED|95.0|-0.511|1.049||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.049|-0.511|0.498
82479153|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|3.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479154|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.75|STANDARD_ERROR_OF_MEAN|0.386||0.052|TWO_SIDED|95.0|-0.006|1.51||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.510|-0.006|0.052
82479155|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|3.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479156|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.398||0.597|TWO_SIDED|95.0|-0.993|0.572||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.572|-0.993|0.597
82479157|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479158|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.376||0.896|TWO_SIDED|95.0|-0.689|0.788||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.788|-0.689|0.896
82479159|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|3.4|||TWO_SIDED|||||||||Week 72||||
82479160|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.53|STANDARD_ERROR_OF_MEAN|0.369||0.149|TWO_SIDED|95.0|-0.192|1.258||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.258|-0.192|0.149
82479161|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479162|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.376||0.522|TWO_SIDED|95.0|-0.98|0.499||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.499|-0.980|0.522
82479163|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.09|STANDARD_DEVIATION|2.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82581129|NCT00911937|164873767|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at alpha = 0.05 level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
82581130|NCT00911937|164873769|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.3954|TWO_SIDED|95.0|-0.47|0.19||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.19|-0.47|0.3954
82581131|NCT00911937|164873769|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.2166|TWO_SIDED|95.0|-0.48|0.11||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.11|-0.48|0.2166
82581132|NCT00911937|164873772|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.24||0.1018|TWO_SIDED|95.0|-0.85|0.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||0.08|-0.85|0.1018
82581133|NCT00911937|164873772|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.73|STANDARD_ERROR_OF_MEAN|0.24||0.0027|TWO_SIDED|95.0|-1.2|-0.25||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.25|-1.20|0.0027
82581134|NCT00911937|164873774|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.63||0.0131|TWO_SIDED|95.0|-2.79|-0.33||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.33|-2.79|0.0131
82651066|NCT00591253|165016913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.004|TWO_SIDED|95.0|1.27|3.65||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.65|1.27|0.004
82651067|NCT00591253|165016913|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.016|TWO_SIDED|95.0|1.13|3.31||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.31|1.13|0.016
82479164|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.424||0.528|TWO_SIDED|95.0|-1.103|0.567||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.567|-1.103|0.528
82479165|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|3.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82581135|NCT00911937|164873774|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.43|STANDARD_ERROR_OF_MEAN|0.69||0.0004|TWO_SIDED|95.0|-3.78|-1.08||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-1.08|-3.78|0.0004
82581136|NCT00911937|164873776|SUPERIORITY_OR_OTHER||Least squares mean difference|1.32|STANDARD_ERROR_OF_MEAN|7.2||0.8547|TWO_SIDED|95.0|-12.82|15.46||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||15.46|-12.82|0.8547
82581137|NCT00911937|164873778|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.85|STANDARD_ERROR_OF_MEAN|4.22||0.8396|TWO_SIDED|95.0|-9.14|7.44||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||7.44|-9.14|0.8396
82581138|NCT00911937|164873780|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.37|STANDARD_ERROR_OF_MEAN|1.26||0.0006|TWO_SIDED|95.0|-6.84|-1.89||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-1.89|-6.84|0.0006
82581139|NCT00911937|164873782|SUPERIORITY_OR_OTHER||Least squares mean difference|3.42|STANDARD_ERROR_OF_MEAN|1.34||0.011|TWO_SIDED|95.0|0.79|6.05||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||6.05|0.79|0.0110
82651068|NCT00591253|165016914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.018|TWO_SIDED|95.0|1.11|3.08||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.08|1.11|0.018
82651069|NCT00591253|165016914|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.015|TWO_SIDED|95.0|1.13|3.16||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||3.16|1.13|0.015
82479166|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|0.3|STANDARD_ERROR_OF_MEAN|0.416||0.474|TWO_SIDED|95.0|-0.519|1.116||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.116|-0.519|0.474
82479167|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479168|NCT02880956|164652922|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.429||0.441|TWO_SIDED|95.0|-1.176|0.513||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.513|-1.176|0.441
82479169|NCT02880956|164652922|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|3.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479170|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.331||0.027|TWO_SIDED|95.0|-1.383|-0.082||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.082|-1.383|0.027
82479171|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.26|STANDARD_DEVIATION|2.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479172|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.328||0.146|TWO_SIDED|95.0|-1.123|0.167||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.167|-1.123|0.146
82479173|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|2.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479174|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.335||0.009|TWO_SIDED|95.0|-1.537|-0.22||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.220|-1.537|0.009
82479175|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.31|STANDARD_DEVIATION|2.87|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479176|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.333||0.952|TWO_SIDED|95.0|-0.674|0.634||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.634|-0.674|0.952
82479177|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|3.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479178|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.324||0.764|TWO_SIDED|95.0|-0.54|0.734||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.734|-0.540|0.764
82479179|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|2.85|||TWO_SIDED|||||||||Week 48||||
82479180|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.331||0.103|TWO_SIDED|95.0|-1.191|0.109||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.109|-1.191|0.103
82479181|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|2.83|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479182|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.362||0.06|TWO_SIDED|95.0|-1.396|0.028||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.028|-1.396|0.060
82479183|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.22|STANDARD_DEVIATION|3.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479184|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.36||0.091|TWO_SIDED|95.0|-1.316|0.098||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.098|-1.316|0.091
82479185|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|3.03|||TWO_SIDED|||||||||Week 72||||
82479186|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.361||0.12|TWO_SIDED|95.0|-1.274|0.147||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.147|-1.274|0.120
82479187|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.19|STANDARD_DEVIATION|2.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479188|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.395||0.429|TWO_SIDED|95.0|-1.09|0.464||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.464|-1.090|0.429
82479189|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|3.13|||TWO_SIDED|||||||||Week 96||||
82479190|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|0.21|STANDARD_ERROR_OF_MEAN|0.389||0.597|TWO_SIDED|95.0|-0.559|0.97||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.970|-0.559|0.597
82479191|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|2.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552913|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-352.366||||0.0002|TWO_SIDED|95.0|-573.315|-131.418|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-131.418|-573.315|0.0002
82552914|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-116.449||||0.5616|TWO_SIDED|95.0|-327.445|94.547|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||94.547|-327.445|0.5616
82552915|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-162.635||||0.2176|TWO_SIDED|95.0|-375.57|50.299|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||50.299|-375.570|0.2176
82562126|NCT00092456|164833629|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2).|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
82581140|NCT00911937|164873782|SUPERIORITY_OR_OTHER||Least squares mean difference|3.14|STANDARD_ERROR_OF_MEAN|1.35||0.02|TWO_SIDED|95.0|0.5|5.79||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.79|0.50|0.0200
82479192|NCT02880956|164652923|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.4||0.86|TWO_SIDED|95.0|-0.717|0.858||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.858|-0.717|0.860
82479193|NCT02880956|164652923|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479194|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.497||0.854|TWO_SIDED|95.0|-1.069|0.885||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.885|-1.069|0.854
82479195|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.02|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479196|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.491||0.412|TWO_SIDED|95.0|-1.368|0.562||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.562|-1.368|0.412
82479197|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|4.08|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479198|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.503||0.262|TWO_SIDED|95.0|-1.554|0.424||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.424|-1.554|0.262
82479199|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|3.82|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479200|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.91|STANDARD_ERROR_OF_MEAN|0.571||0.11|TWO_SIDED|95.0|-0.209|2.036||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.036|-0.209|0.110
82479201|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|4.09|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479202|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.555||0.263|TWO_SIDED|95.0|-1.713|0.469||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.469|-1.713|0.263
82479203|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|4.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479204|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.1|STANDARD_ERROR_OF_MEAN|0.57||0.868|TWO_SIDED|95.0|-1.026|1.217||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.217|-1.026|0.868
82651070|NCT00591253|165016915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.35||||0.004|TWO_SIDED|95.0|1.31|4.24||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.24|1.31|0.004
82479205|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479206|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.592||0.82|TWO_SIDED|95.0|-1.298|1.029||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.029|-1.298|0.820
82479207|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|4.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479208|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.16|STANDARD_ERROR_OF_MEAN|0.583||0.781|TWO_SIDED|95.0|-0.984|1.308||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.308|-0.984|0.781
82479209|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|4.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479210|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.08|STANDARD_ERROR_OF_MEAN|0.59||0.895|TWO_SIDED|95.0|-1.082|1.238||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.238|-1.082|0.895
82479211|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|4.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479212|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.63|STANDARD_ERROR_OF_MEAN|0.69||0.359|TWO_SIDED|95.0|-0.724|1.991||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.991|-0.724|0.359
82479213|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|4.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479214|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.34|STANDARD_ERROR_OF_MEAN|0.675||0.612|TWO_SIDED|95.0|-0.985|1.67||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.670|-0.985|0.612
82479215|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.72|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479216|NCT02880956|164652924|SUPERIORITY||LS Mean of Difference|0.5|STANDARD_ERROR_OF_MEAN|0.696||0.475|TWO_SIDED|95.0|-0.872|1.867||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.867|-0.872|0.475
82479217|NCT02880956|164652924|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|4.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552916|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-236.196||||0.0242|TWO_SIDED|95.0|-451.334|-21.059|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-21.059|-451.334|0.0242
82552917|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-294.281|||<|0.0001|TWO_SIDED|95.0|-434.513|-154.05|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-154.050|-434.513|<.0001
82552918|NCT04800211|164810275|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-116.17||||0.1524|TWO_SIDED|95.0|-275.521|43.18|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||43.180|-275.521|0.1524
82552919|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-32.792|||<|0.0001|TWO_SIDED|95.0|-39.375|-26.208|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-26.208|-39.375|<.0001
82552920|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-25.921|||<|0.0001|TWO_SIDED|95.0|-33.398|-18.443|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-18.443|-33.398|<.0001
82581141|NCT00911937|164873782|SUPERIORITY_OR_OTHER||Least squares mean difference|3.48|STANDARD_ERROR_OF_MEAN|1.51||0.0218|TWO_SIDED|95.0|0.51|6.45||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||6.45|0.51|0.0218
82581142|NCT00911937|164873782|SUPERIORITY_OR_OTHER||Least squares mean difference|1.86|STANDARD_ERROR_OF_MEAN|0.93||0.0458|TWO_SIDED|95.0|0.03|3.68||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||3.68|0.03|0.0458
82581143|NCT00911937|164873782|SUPERIORITY_OR_OTHER||Least squares mean difference|3.02|STANDARD_ERROR_OF_MEAN|1.17||0.01|TWO_SIDED|95.0|0.72|5.32||Statistical testing, two-sided, was done at alpha = 0.05 level.|ANCOVA|||Change at Week 12: Total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.32|0.72|0.0100
82581144|NCT04587752|164873804|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
82581145|NCT04587752|164873805|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82581146|NCT04587752|164873806|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82581147|NCT03535597|164873825|OTHER||Risk Ratio (RR)|0.99||||0.906|TWO_SIDED|95.0|0.89|1.11|||Chi-squared|||||1.11|0.89|0.906
82581148|NCT03535597|164873825|OTHER||Risk Ratio (RR)|1.27||||0.002|TWO_SIDED|95.0|1.09|1.53|||Chi-squared|||||1.53|1.09|0.002
82479218|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.427||0.926|TWO_SIDED|95.0|-0.799|0.878||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.878|-0.799|0.926
82479219|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|3.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479220|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.423||0.553|TWO_SIDED|95.0|-1.082|0.58||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.580|-1.082|0.553
82479221|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|3.96|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479222|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.432||0.69|TWO_SIDED|95.0|-1.021|0.677||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.677|-1.021|0.690
82479223|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|4.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479224|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.9|STANDARD_ERROR_OF_MEAN|0.499||0.073|TWO_SIDED|95.0|-0.085|1.879||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.879|-0.085|0.073
82552921|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-25.484|||<|0.0001|TWO_SIDED|95.0|-31.99|-18.979|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-18.979|-31.990|<.0001
82552922|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.899|||<|0.0001|TWO_SIDED|95.0|-34.135|-19.663|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-19.663|-34.135|<.0001
82552923|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-26.41|||<|0.0001|TWO_SIDED|95.0|-31.716|-21.103|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||-21.103|-31.716|<.0001
82581149|NCT03535597|164873825|OTHER||Risk Ratio (RR)|0.97||||0.613|TWO_SIDED|95.0|0.86|1.09|||Chi-squared|||||1.09|0.86|0.613
82479225|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.22|STANDARD_DEVIATION|4.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479226|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.487||0.517|TWO_SIDED|95.0|-0.641|1.273||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 48||1.273|-0.641|0.517
82581150|NCT03535597|164873826|OTHER||Mean Difference (Net)|-98.5|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82581151|NCT03535597|164873826|OTHER||Mean Difference (Net)|-120.6|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
82479227|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|4.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479228|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.38|STANDARD_ERROR_OF_MEAN|0.501||0.454|TWO_SIDED|95.0|-0.609|1.36||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.360|-0.609|0.454
82479229|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|4.45|||TWO_SIDED|||||||||Week 48||||
82479230|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.57|STANDARD_ERROR_OF_MEAN|0.522||0.276|TWO_SIDED|95.0|-0.456|1.596||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.596|-0.456|0.276
82479231|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|3.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479232|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.516||0.935|TWO_SIDED|95.0|-0.973|1.058||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.058|-0.973|0.935
82479233|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.35|||TWO_SIDED|95.0|||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479234|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.04|STANDARD_ERROR_OF_MEAN|0.523||0.942|TWO_SIDED|95.0|-0.99|1.066||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.066|-0.990|0.942
82479235|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.35|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479236|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.569||0.578|TWO_SIDED|95.0|-0.802|1.436||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.436|-0.802|0.578
82479237|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479238|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|0.56|STANDARD_ERROR_OF_MEAN|0.34||0.545|TWO_SIDED|95.0|-0.762|1.441||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|repeated measures model|||Week 96||1.441|-0.762|0.545
82479239|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|3.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479240|NCT02880956|164652925|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.583||0.346|TWO_SIDED|95.0|-1.697|0.597||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.597|-1.697|0.346
82479241|NCT02880956|164652925|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.81|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479242|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.146||0.202|TWO_SIDED|95.0|-0.473|0.1||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.100|-0.473|0.202
82479243|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479244|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.144||0.76|TWO_SIDED|95.0|-0.327|0.239||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.239|-0.327|0.760
82479245|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479246|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.147||0.419|TWO_SIDED|95.0|-0.409|0.17||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.170|-0.409|0.419
82479247|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|1.03|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479248|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.173||0.893|TWO_SIDED|95.0|-0.363|0.317||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.317|-0.363|0.893
82479249|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|1.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|||||
82479250|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.168||0.886|TWO_SIDED|95.0|-0.306|0.354||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.354|-0.306|0.886
82479251|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|1.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82581152|NCT03535597|164873826|OTHER||Mean Difference (Net)|-94.3|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||< 0.001
82479252|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.172||0.306|TWO_SIDED|95.0|-0.515|0.162||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.162|-0.515|0.306
82479253|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|1.12|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479254|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.116||0.008|TWO_SIDED|95.0|-0.535|-0.079||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.079|-0.535|0.008
82552924|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-7.021||||0.028|TWO_SIDED|95.0|-13.278|-0.763|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||-0.763|-13.278|0.0280
82552925|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-5.902||||0.0972|TWO_SIDED|95.0|-12.881|1.077|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.077|-12.881|0.0972
82581153|NCT03535597|164873827|OTHER||Risk Ratio (RR)|0.77||||0.744|TWO_SIDED|95.0|0.23|2.57|||Fisher Exact|||||2.57|0.23|0.744
82581154|NCT03535597|164873827|OTHER||Risk Ratio (RR)|1.02|||>|0.999|TWO_SIDED|95.0|0.31|3.41|||Fisher Exact|||||3.41|0.31|>0.999
82581155|NCT03535597|164873827|OTHER||Risk Ratio (RR)|0.67||||0.724|TWO_SIDED|95.0|0.18|2.46|||Fisher Exact|||||2.46|0.18|0.724
82581156|NCT03535597|164873828|OTHER||Risk Ratio (RR)|1.44||||0.594|TWO_SIDED|95.0|0.56|3.76|||Fisher Exact|||||3.76|0.56|0.594
82479255|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.26|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479256|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.115||0.031|TWO_SIDED|95.0|-0.474|-0.023||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.023|-0.474|0.031
82479257|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|1.16|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479258|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.116||0.014|TWO_SIDED|95.0|-0.514|-0.059||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||-0.059|-0.514|0.014
82479259|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.25|STANDARD_DEVIATION|1.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|||||
82479260|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.135||0.065|TWO_SIDED|95.0|-0.514|0.016||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.016|-0.514|0.065
82479261|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479262|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.132||0.121|TWO_SIDED|95.0|-0.465|0.055||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.055|-0.465|0.121
82479263|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|1.05|STANDARD_DEVIATION|1.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479264|NCT02880956|164652926|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.136||0.21|TWO_SIDED|95.0|-0.438|0.097||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.097|-0.438|0.210
82479265|NCT02880956|164652926|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|1.0|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479266|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.188||0.303|TWO_SIDED|95.0|-0.564|0.176||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.176|-0.564|0.303
82479267|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|1.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479268|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.186||0.358|TWO_SIDED|95.0|-0.536|0.194||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.194|-0.536|0.358
82479269|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_ERROR_OF_MEAN|1.31|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479270|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.19||0.347|TWO_SIDED|95.0|-0.553|0.195||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.195|-0.553|0.347
82479271|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|1.21|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479272|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.494|TWO_SIDED|95.0|-0.205|0.423||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.423|-0.205|0.494
82479273|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.09|STANDARD_DEVIATION|1.22|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479274|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.156||0.454|TWO_SIDED|95.0|-0.189|0.423||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.423|-0.189|0.454
82479275|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479276|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_DEVIATION|0.16||0.644|TWO_SIDED|95.0|-0.24|0.388||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.388|-0.240|0.644
82479277|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.07|STANDARD_DEVIATION|1.1|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479278|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.09|STANDARD_ERROR_OF_MEAN|0.232||0.685|TWO_SIDED|95.0|-0.363|0.551||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.551|-0.363|0.685
82479279|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|1.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479280|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.28|STANDARD_ERROR_OF_MEAN|0.228||0.219|TWO_SIDED|95.0|-0.168|0.73||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.730|-0.168|0.219
82651071|NCT00591253|165016915|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84|||<|0.001|TWO_SIDED|95.0|1.57|5.13||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.13|1.57|<0.001
82479281|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|1.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479282|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.232||0.507|TWO_SIDED|95.0|-0.302|0.61||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.610|-0.302|0.507
82479283|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.1|STANDARD_DEVIATION|1.49|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82581157|NCT03535597|164873828|OTHER||Risk Ratio (RR)|1.1|||>|0.999|TWO_SIDED|95.0|0.37|3.26|||Fisher Exact|||||3.26|0.37|>0.999
82581158|NCT03535597|164873828|OTHER||Risk Ratio (RR)|1.45||||0.581|TWO_SIDED|95.0|0.55|3.88|||Fisher Exact|||||3.88|0.55|0.581
82581159|NCT03535597|164873829|OTHER||Risk Ratio (RR)|1.92||||0.284|TWO_SIDED|95.0|0.71|5.22|||Fisher Exact|||||5.22|0.71|0.284
82581160|NCT03535597|164873829|OTHER||Risk Ratio (RR)|2.1||||0.243|TWO_SIDED|95.0|0.75|5.9|||Fisher Exact|||||5.9|0.75|0.243
82479284|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.216||0.233|TWO_SIDED|95.0|-0.683|0.167||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.167|-0.683|0.233
82479285|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|1.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479286|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.211||0.881|TWO_SIDED|95.0|-0.383|0.446||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.446|-0.383|0.881
82581161|NCT03535597|164873829|OTHER||Risk Ratio (RR)|2.01||||0.266|TWO_SIDED|95.0|0.74|5.54|||Fisher Exact|||||5.54|0.74|0.266
82479287|NCT02880956|164652927|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|1.42|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479288|NCT02880956|164652927|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.217||0.671|TWO_SIDED|95.0|-0.52|0.335||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.335|-0.520|0.671
82552926|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-25.771|||<|0.0001|TWO_SIDED|95.0|-37.189|-14.353|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-14.353|-37.189|<.0001
82552927|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.019||||0.0005|TWO_SIDED|95.0|-32.833|-7.205|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-7.205|-32.833|0.0005
82552928|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-18.463||||0.0002|TWO_SIDED|95.0|-29.825|-7.101|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||-7.101|-29.825|0.0002
82552929|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.997||||0.0002|TWO_SIDED|95.0|-33.619|-8.375|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-8.375|-33.619|0.0002
82581162|NCT03412747|164873830|NON_INFERIORITY|The evaluation of non-inferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a non-inferiority margin of 10%.|Risk Difference (RD)|39.3|||||TWO_SIDED|95.0|30.9|47.7||||||Risk Difference: BKZ-ADA calculated using stratified CMH.||47.7|30.9|
82479289|NCT02880956|164652927|OTHER||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|1.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479290|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.409||0.297|TWO_SIDED|95.0|-1.232|0.377||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.377|-1.232|0.297
82479291|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|3.7|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479292|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.405||0.979|TWO_SIDED|95.0|-0.808|0.786||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.786|-0.808|0.979
82479293|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|3.63|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479294|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.415||0.663|TWO_SIDED|95.0|-0.996|0.634||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.634|-0.996|0.663
82479295|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.05|STANDARD_DEVIATION|3.71|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479296|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.636||0.961|TWO_SIDED|95.0|-1.22|1.282||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.282|-1.220|0.961
82479297|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.88|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479298|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.617||0.833|TWO_SIDED|95.0|-1.083|1.344||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.344|-1.083|0.833
82479299|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|0.03|STANDARD_DEVIATION|5.06|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479300|NCT02880956|164652928|OTHER||LS Mean of Difference|0.23|STANDARD_ERROR_OF_MEAN|0.636||0.714|TWO_SIDED|95.0|-1.017|1.484||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.484|-1.017|0.714
82479301|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|5.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479302|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.663||0.518|TWO_SIDED|95.0|-1.733|0.876||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.876|-1.733|0.518
82552930|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.508|||<|0.0001|TWO_SIDED|95.0|-29.061|-11.955|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-11.955|-29.061|<.0001
82552931|NCT04800211|164810276|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.978||||0.8504|TWO_SIDED|95.0|-9.216|11.172|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||11.172|-9.216|0.8504
82651072|NCT01841359|165016916|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
82651073|NCT01841359|165016917|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.08
82479303|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|5.17|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479304|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.654||0.633|TWO_SIDED|95.0|-1.598|0.973||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.973|-1.598|0.633
82651074|NCT01841359|165016918|OTHER||||||=|0.20492|||||||t-test, 2 sided|||||||= 0.20492
82651075|NCT01841359|165016919|OTHER|||||||0.2655|||||||t-test, 2 sided|||||||0.2655
82651076|NCT01841359|165016920|OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82651077|NCT01841359|165016921|OTHER|||||||0.597|||||||t-test, 2 sided|||||||0.597
82479305|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.06|STANDARD_DEVIATION|4.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479306|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.661||0.776|TWO_SIDED|95.0|-1.488|1.112||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.112|-1.488|0.776
82479307|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|4.93|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479308|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.58||0.316|TWO_SIDED|95.0|-1.723|0.558||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.558|-1.723|0.316
82479309|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|4.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479310|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.567||0.336|TWO_SIDED|95.0|-1.66|0.569||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.569|-1.660|0.336
82479311|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.14|STANDARD_DEVIATION|3.9|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479312|NCT02880956|164652928|SUPERIORITY||LS Mean of Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.587||0.403|TWO_SIDED|95.0|-1.647|0.663||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.663|-1.647|0.403
82479313|NCT02880956|164652928|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|3.92|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479314|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.4||0.861|TWO_SIDED|95.0|-0.856|0.716||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.716|-0.856|0.861
82479315|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|3.51|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479316|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.13|STANDARD_ERROR_OF_MEAN|0.395||0.746|TWO_SIDED|95.0|-0.648|0.905||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.905|-0.648|0.746
82479317|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|3.46|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82552932|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.257|||<|0.0001|TWO_SIDED|95.0|-41.957|-20.557|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-20.557|-41.957|<.0001
82552933|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-29.862|||<|0.0001|TWO_SIDED|95.0|-44.234|-15.491|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.491|-44.234|<.0001
82552934|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.512|||<|0.0001|TWO_SIDED|95.0|-46.971|-16.053|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-16.053|-46.971|<.0001
82651078|NCT01841359|165016922|OTHER|||||||0.37|||||||t-test, 2 sided|||||||0.37
82479318|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.405||0.859|TWO_SIDED|95.0|-0.724|0.868||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.868|-0.724|0.859
82479319|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|3.64|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82651079|NCT01841359|165016923|OTHER|||||||0.14|||||||t-test, 2 sided|||||||0.14
82479320|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.55|STANDARD_ERROR_OF_MEAN|0.467||0.24|TWO_SIDED|95.0|-0.369|1.469||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.469|-0.369|0.240
82479321|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.16|STANDARD_DEVIATION|3.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479322|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.91|STANDARD_ERROR_OF_MEAN|0.454||0.044|TWO_SIDED|95.0|0.023|1.087||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.087|0.023|0.044
82479323|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.26|STANDARD_DEVIATION|3.51|||TWO_SIDED|||||||||Week 48||||
82651080|NCT01841359|165016924|OTHER|||||||0.412|||||||t-test, 2 sided|||||||0.412
82651081|NCT01841359|165016925|OTHER|||||||0.89|||||||t-test, 2 sided|||||||0.890
82651082|NCT01841359|165016926|OTHER|||||||0.69|||||||Fisher Exact|||||||0.69
82651083|NCT03764059|165016927|NON_INFERIORITY|The test for non-inferiority is based on a 95% CI of the difference between the investigational and control groups with respect to the rate of clinically acceptable restorations at 1-year post placement. The non-inferiority margin was 7%. To establish non-inferiority the lower limit has to be \> -7%|Risk Difference (RD)|4.2|||<|0.0001|TWO_SIDED|95.0||9.2|||Cochran-Mantel-Haenszel|||||9.2|- 0.6|< 0.0001
82651084|NCT01102777|165016930|SUPERIORITY_OR_OTHER|||||||0.142|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value of outcome, MMRC dyspnea score, and urban versus rural residence.||||||0.142
82651085|NCT01102777|165016931|SUPERIORITY_OR_OTHER|||||||0.502|TWO_SIDED||||||Mixed Models Analysis|Based on mixed models, adjusting for group, time, group\*time interaction, MMRC score, and urban versus rural residence.||||||.502
82651086|NCT01102777|165016932|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value and rural residence.||||||.90
82651087|NCT01102777|165016933|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Regression, Linear|Adjusted for baseline value and rural residence.||||||.93
82651088|NCT01102777|165016934|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||Zero inflated Poisson regression|Adjusted for age, gender, oxygen use, and arm.||||||.08
82651089|NCT01102777|165016935|SUPERIORITY_OR_OTHER|||||||0.731|TWO_SIDED||||||Mixed Models Analysis|Based on mixed models, adjusting for group, time, group\*time interaction, MMRC score, and urban versus rural residence.||||||0.731
82651090|NCT01102777|165016936|SUPERIORITY_OR_OTHER|||||||0.52|||||||Mixed Models Analysis|Based on mixed models, adjusting for time, MMRC score, and urban versus rural residence.||||||.52
82479324|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.61|STANDARD_ERROR_OF_MEAN|0.467||0.195|TWO_SIDED|95.0|-0.312|1.524||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||1.524|-0.312|0.195
82479325|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.17|STANDARD_DEVIATION|3.53|||TWO_SIDED|||||||||Week 48||||
82651091|NCT01102777|165016937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|||||||||The determination of arm occurred after recruitment, and Study Reach is a recruitment value.||||
82651092|NCT01102777|165016938|SUPERIORITY_OR_OTHER|||||||0.11|||||||Regression, Linear|Adjusting for time, MMRC score, and urban versus rural residence.||||||.11
82651093|NCT01102777|165016939|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|Based on mixed models, adjusting for time, MMRC score, and urban versus rural residence.||||||.01
82651094|NCT00210626|165016975|SUPERIORITY_OR_OTHER|||||||0.3807||95.0|||||ANCOVA|Covariate used is Baseline SF-36 PF Score. Baseline SF-36 PF Score was collected prior to the start of Procrit or Placebo treatment||The null hypothesis is that there is no difference between Procrit and Placebo in average SF-36 Physical Function Scores||||0.3807
82651095|NCT00210626|165016976|SUPERIORITY_OR_OTHER|||||||0.7038||95.0|||||Chi-squared|||||||0.7038
82651096|NCT04147715|165016990|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9913|||||TWO_SIDED|90.0|0.9232|1.0645|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed by analysis of variance (ANOVA) fit with a linear mixed effect model with the natural log (ln)-transformed Cmax as the dependent variable, treatment as fixed effect, and participant as random effect. The difference and 90% confidence interval (CI) between the ln-transformed Cmax of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0645|0.9232|
82651097|NCT04147715|165016990|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9754|||||TWO_SIDED|90.0|0.8916|1.0671|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed by an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as fixed effect, and participant as random effect. The difference and 90% CI between the ln-transformed Cmax of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0671|0.8916|
82651098|NCT04147715|165016992|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0353|||||TWO_SIDED|90.0|0.9421|1.1377|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1377|0.9421|
82479326|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|0.547||0.778|TWO_SIDED|95.0|-0.921|1.229||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.229|-0.921|0.778
82479327|NCT02880956|164652929|OTHER||Effect size/pooled SD|0.04|STANDARD_DEVIATION|3.99|||TWO_SIDED|||||||||Week 72||||
82479328|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.32|STANDARD_ERROR_OF_MEAN|0.539||0.558|TWO_SIDED|95.0|-0.743|1.376||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.376|-0.743|0.558
82479329|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|3.89|||TWO_SIDED|||||||||Week 72||||
82479330|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.05|STANDARD_ERROR_OF_MEAN|0.546||0.928|TWO_SIDED|95.0|-1.025|1.124||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.124|-1.025|0.928
82479331|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|4.27|||TWO_SIDED|||||||||Week 72||||
82479332|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.64|STANDARD_ERROR_OF_MEAN|0.541||0.238|TWO_SIDED|95.0|-0.425|1.704||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.704|-0.425|0.238
82479333|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.18|STANDARD_DEVIATION|3.61|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479334|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.86|STANDARD_ERROR_OF_MEAN|0.53||0.107|TWO_SIDED|95.0|-0.186|1.898||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.898|-0.186|0.107
82479335|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.25|STANDARD_DEVIATION|3.41|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552935|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-37.197|||<|0.0001|TWO_SIDED|95.0|-47.522|-26.872|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-26.872|-47.522|<.0001
82581163|NCT03412747|164873830|SUPERIORITY||Odds Ratio (OR)|7.459|||<|0.001|TWO_SIDED|95.0|4.709|11.816||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||11.816|4.709|<0.001
82581164|NCT03412747|164873831|NON_INFERIORITY|The evaluation of non-inferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a non-inferiority margin of 10%.|Risk Difference (RD)|28.2|||||TWO_SIDED|95.0|19.7|36.7||||||Risk Difference: BKZ-ADA calculated using stratified CMH.||36.7|19.7|
82479336|NCT02880956|164652929|SUPERIORITY||LS Mean of Difference|0.86|STANDARD_ERROR_OF_MEAN|0.548||0.116|TWO_SIDED|95.0|-0.214|1.942||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.942|-0.214|0.116
82479337|NCT02880956|164652929|SUPERIORITY||Effect size/pooled SD|0.23|STANDARD_DEVIATION|3.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479338|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.186||0.683|TWO_SIDED|95.0|-0.442|0.29||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.290|-0.442|0.683
82479339|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|1.98|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479340|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.184||0.973|TWO_SIDED|95.0|-0.356|0.368||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.368|-0.356|0.973
82479341|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|1.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479342|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.189||0.921|TWO_SIDED|95.0|-0.389|0.352||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.352|-0.389|0.921
82479343|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|1.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479344|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.256||0.335|TWO_SIDED|95.0|-0.751|0.257||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.257|-0.751|0.335
82479345|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.11|STANDARD_DEVIATION|2.2|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82552936|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.442|||<|0.0001|TWO_SIDED|95.0|-44.96|-17.923|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-17.923|-44.960|<.0001
82552937|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-28.597||||0.0002|TWO_SIDED|95.0|-43.34|-13.853|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-13.853|-43.340|0.0002
82552938|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-30.054|||<|0.0001|TWO_SIDED|95.0|-40.943|-19.166|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-19.166|-40.943|<.0001
82581165|NCT03412747|164873831|SUPERIORITY||Odds Ratio (OR)|4.341|||<|0.001|TWO_SIDED|95.0|2.785|6.765||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||6.765|2.785|<0.001
82581166|NCT03412747|164873832|SUPERIORITY||Odds Ratio (OR)|6.231|||<|0.001|TWO_SIDED|95.0|3.515|11.046||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||11.046|3.515|<0.001
82581167|NCT03412747|164873832|SUPERIORITY||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|3.657|9.041||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||9.041|3.657|<0.001
82581168|NCT03412747|164873833|SUPERIORITY||Odds Ratio (OR)|4.724|||<|0.001|TWO_SIDED|95.0|2.683|8.318||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||8.318|2.683|<0.001
82581169|NCT03412747|164873833|SUPERIORITY||Odds Ratio (OR)|4.762|||<|0.001|TWO_SIDED|95.0|3.014|7.523||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||7.523|3.014|<0.001
82581170|NCT03412747|164873834|SUPERIORITY||Odds Ratio (OR)|7.103|||<|0.001|TWO_SIDED|95.0|4.637|10.88||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||10.880|4.637|<0.001
82581171|NCT03412747|164873835|SUPERIORITY||Odds Ratio (OR)|4.974|||<|0.001|TWO_SIDED|95.0|3.23|7.661||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||7.661|3.230|<0.001
82581172|NCT03412747|164873836|SUPERIORITY||Odds Ratio (OR)|5.249|||<|0.001|TWO_SIDED|95.0|3.207|8.593||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified Cochran-Mantel-Haenszel (CMH) test with region and prior biologic exposure as stratification variables.||8.593|3.207|<0.001
82581173|NCT03412747|164873836|SUPERIORITY||Odds Ratio (OR)|4.974|||<|0.001|TWO_SIDED|95.0|3.257|7.594||P-values for the comparison of treatment groups were based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio: BKZ/ADA calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||7.594|3.257|<0.001
82581174|NCT03484273|164873845|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated Measures ANOVA||Repeated Measured ANOVA was used to compare the 4 compression garment configurations.||||<0.001
82581175|NCT03484273|164873846|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
82581176|NCT03484273|164873847|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
82479346|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.11|STANDARD_ERROR_OF_MEAN|0.249||0.67|TWO_SIDED|95.0|-0.383|0.596||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.596|-0.383|0.670
82479347|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|2.01|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479348|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.256||0.95|TWO_SIDED|95.0|-0.486|0.519||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.519|-0.486|0.950
82479349|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.01|STANDARD_DEVIATION|2.04|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479350|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.257||0.383|TWO_SIDED|95.0|-0.729|0.281||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.281|-0.729|0.383
82479351|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.1|STANDARD_DEVIATION|2.33|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479352|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.254||0.985|TWO_SIDED|95.0|-0.504|0.494||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.494|-0.504|0.985
82479353|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|2.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479354|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.256||0.064|TWO_SIDED|95.0|-0.982|0.027||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.027|-0.982|0.064
82479355|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|2.4|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479356|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|0.28||0.527|TWO_SIDED|95.0|-0.374|0.729||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.729|-0.374|0.527
82479357|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.08|STANDARD_DEVIATION|2.3|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479358|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|0.31|STANDARD_ERROR_OF_MEAN|0.275||0.254|TWO_SIDED|95.0|-0.226|0.854||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.854|-0.226|0.254
82479359|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|0.14|STANDARD_DEVIATION|2.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552939|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-5.904||||0.2667|TWO_SIDED|95.0|-16.37|4.563|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.563|-16.370|0.2667
82581177|NCT03484273|164873848|SUPERIORITY|||||||0.01|||||||Repeated Measures ANOVA|||||||0.01
82581178|NCT03484273|164873849|SUPERIORITY||||||<|0.001|||||||Repeated Measures ANOVA|||||||<0.001
82581179|NCT03484273|164873850|SUPERIORITY|||||||0.001|||||||Repeated Measures ANOVA|||||||0.001
82479360|NCT02880956|164652930|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.284||0.805|TWO_SIDED|95.0|-0.628|0.488||The statistical model: RBANS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.488|-0.628|0.805
82479361|NCT02880956|164652930|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|2.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479362|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.361||0.534|TWO_SIDED|95.0|-0.935|0.485||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.485|-0.935|0.534
82479363|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.08|STANDARD_DEVIATION|2.76|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479364|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|0.12|STANDARD_ERROR_OF_MEAN|0.356||0.735|TWO_SIDED|95.0|-0.58|0.821||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.821|-0.580|0.735
82479365|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|2.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479366|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.365||0.009|TWO_SIDED|95.0|-1.673|-0.24||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||-0.240|-1.673|0.009
82479367|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.35|STANDARD_DEVIATION|2.75|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479368|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.422||0.954|TWO_SIDED|95.0|-0.854|0.806||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.806|-0.854|0.954
82479369|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|2.97|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479370|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|0.412||0.649|TWO_SIDED|95.0|-0.622|0.997||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.997|-0.622|0.649
82479371|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|0.06|STANDARD_DEVIATION|2.95|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479372|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.423||0.358|TWO_SIDED|95.0|-1.22|0.443||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.443|-1.220|0.358
82479373|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.13|STANDARD_DEVIATION|2.99|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479374|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.539||0.859|TWO_SIDED|95.0|-1.155|0.963||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.963|-1.155|0.859
82479375|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|3.74|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479376|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|0.4|STANDARD_ERROR_OF_MEAN|0.529||0.455|TWO_SIDED|95.0|-0.644|1.437||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||1.437|-0.644|0.455
82479377|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|0.11|STANDARD_DEVIATION|3.6|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82552940|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|8.767||||0.2085|TWO_SIDED|95.0|-4.95|22.485|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||22.485|-4.950|0.2085
82479378|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.538||0.335|TWO_SIDED|95.0|-1.578|0.539||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.539|-1.578|0.335
82479379|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|3.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479380|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.681||0.875|TWO_SIDED|95.0|-1.447|1.233||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.233|-1.447|0.875
82479381|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|4.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479382|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|0.668||0.712|TWO_SIDED|95.0|-1.068|1.561||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.561|-1.068|0.712
82479383|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|0.05|STANDARD_DEVIATION|4.62|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552941|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|12.455||||0.1041|TWO_SIDED|95.0|-2.595|27.505|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||27.505|-2.595|0.1041
82479384|NCT02880956|164652931|SUPERIORITY||LS Mean of Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.687||0.269|TWO_SIDED|95.0|-2.112|0.59||The statistical model: MMSE change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.590|-2.112|0.269
82479385|NCT02880956|164652931|SUPERIORITY||Effect size/pooled SD|-0.16|STANDARD_DEVIATION|4.78|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552942|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-25.353||||0.0058|TWO_SIDED|95.0|-45.41|-5.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-5.295|-45.410|0.0058
82552943|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-38.63||||0.001|TWO_SIDED|95.0|-65.062|-12.197|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-12.197|-65.062|0.0010
82562127|NCT00092456|164833629|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2)|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
82479386|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.785||0.966|TWO_SIDED|95.0|-1.509|1.577||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.577|-1.509|0.966
82479387|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|6.32|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479388|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.775||0.874|TWO_SIDED|95.0|-1.646|1.4||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||1.400|-1.646|0.874
82479389|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|5.89|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82581180|NCT03484273|164873851|SUPERIORITY|||||||0.04|||||||Repeated Measures ANOVA|||||||0.04
82479390|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.99|STANDARD_ERROR_OF_MEAN|0.794||0.213|TWO_SIDED|95.0|-0.572|2.551||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||2.551|-0.572|0.213
82479391|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.15|STANDARD_DEVIATION|6.67|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479392|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.88|STANDARD_ERROR_OF_MEAN|0.695||0.208|TWO_SIDED|95.0|-0.49|2.242||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.242|-0.490|0.208
82479393|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.17|STANDARD_DEVIATION|5.26|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479394|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|1.03|STANDARD_ERROR_OF_MEAN|0.68||0.131|TWO_SIDED|95.0|-0.307|2.365||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.365|-0.307|0.131
82479395|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.18|STANDARD_DEVIATION|5.57|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479396|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|1.35|STANDARD_ERROR_OF_MEAN|0.695||0.052|TWO_SIDED|95.0|-0.014|2.719||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||2.719|-0.014|0.052
82479397|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.24|STANDARD_DEVIATION|5.55|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479398|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.18|STANDARD_ERROR_OF_MEAN|1.062||0.866|TWO_SIDED|95.0|-1.908|2.268||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.268|-1.908|0.866
82479399|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.03|STANDARD_DEVIATION|6.15|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479400|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.46|STANDARD_ERROR_OF_MEAN|1.048||0.66|TWO_SIDED|95.0|-1.599|2.523||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||2.523|-1.599|0.660
82479401|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|6.94|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479402|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|1.91|STANDARD_ERROR_OF_MEAN|1.062||0.074|TWO_SIDED|95.0|-0.184|3.995||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||3.995|-0.184|0.074
82479403|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.22|STANDARD_DEVIATION|8.65|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479404|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|-0.36|STANDARD_ERROR_OF_MEAN|1.111||0.747|TWO_SIDED|95.0|-2.545|1.828||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||1.828|-2.545|0.747
82479405|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|0.04|STANDARD_DEVIATION|7.99|||TWO_SIDED|||||||||Week 96||||
82552944|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-43.967||||0.0005|TWO_SIDED|95.0|-72.443|-15.491|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-15.491|-72.443|0.0005
82581181|NCT00294515|164873858|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<=|0.0002|TWO_SIDED|95.0|0.25|0.66|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.66|0.25|<=0.0002
82581182|NCT00294515|164873859|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2|||<|0.0001||95.0|0.11|0.37|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.37|0.11|<0.0001
82479406|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.15|STANDARD_ERROR_OF_MEAN|1.095||0.891|TWO_SIDED|95.0|-2.004|2.304||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.304|-2.004|0.891
82479407|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.02|STANDARD_DEVIATION|8.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479408|NCT02880956|164652932|SUPERIORITY||LS Mean of Difference|0.55|STANDARD_ERROR_OF_MEAN|1.12||0.621|TWO_SIDED|95.0|-1.65|2.759||The statistical model: NPI change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||2.759|-1.650|0.621
82479409|NCT02880956|164652932|SUPERIORITY||Effect size/pooled SD|-0.07|STANDARD_DEVIATION|8.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82552945|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-31.293||||0.0003|TWO_SIDED|95.0|-51.159|-11.428|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-11.428|-51.159|0.0003
82562128|NCT00092456|164833629|NON_INFERIORITY_OR_EQUIVALENCE|If equivalence was established in all 3 pairwise comparisons for a given serotype, the 3 lots were considered consistent for that serotype. Each comparison consisted of 2 one-sided tests of equivalence with α=0.05. Statistical significance for the 2 one-sided equivalence tests for each pair of lots was established if the p-values for the hypothesis tests were each less than 0.05. This corresponds to the 2-sided 90% CI for the fold difference in the 2 lots being contained entirely within (0.5,2).|||||<|0.001||95.0||||The reported p-value is for all 5 serotypes, no multiplicity adjustment made, and Type I error rate controlled at the 0.05 level. P\<0.05 implies that the difference is statistically significantly less than the prespecified difference of 2 fold.|ANCOVA|||A pairwise comparison of lots was made for each serotype, for each pair of lots.||||<0.001
82581183|NCT00294515|164873860|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.0001||95.0|0.22|0.6|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.60|0.22|0.0001
82581184|NCT00294515|164873861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.0126||95.0|0.35|0.88|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.88|0.35|0.0126
82581185|NCT00294515|164873862|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.01||95.0|0.34|0.86|||Cochran-Mantel-Haenszel|Stratified by Center Pools||||0.86|0.34|0.0100
82479410|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.019||0.147|TWO_SIDED|95.0|-0.01|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.064|-0.010|0.147
82479411|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.2|STANDARD_DEVIATION|0.14|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479412|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.018||0.795|TWO_SIDED|95.0|-0.041|0.031||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.031|-0.041|0.795
82479413|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|0.12|STANDARD_DEVIATION|0.147|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82581186|NCT02217475|164873885|SUPERIORITY||Odds Ratio (OR)|0.816||||0.5194|TWO_SIDED|95.0|0.439|1.516|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||1.516|0.439|0.5194
82479414|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.03|STANDARD_ERROR_OF_MEAN|0.019||0.095|TWO_SIDED|95.0|-0.006|0.069||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 24||0.069|-0.006|0.095
82479415|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.24|STANDARD_DEVIATION|0.13|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 24||||
82479416|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.025||0.39|TWO_SIDED|95.0|-0.028|0.072||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.072|-0.028|0.390
82479417|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.12|STANDARD_DEVIATION|0.18|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479418|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.025||0.898|TWO_SIDED|95.0|-0.052|0.045||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.045|-0.052|0.898
82479419|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.19|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 48||||
82479420|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.01|STANDARD_ERROR_OF_MEAN|0.026||0.8|TWO_SIDED|95.0|-0.044|0.057||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 48||0.057|-0.044|0.800
82479421|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.04|STANDARD_DEVIATION|0.18|||TWO_SIDED|||||||||Week 48||||
82479422|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.977|TWO_SIDED|95.0|-0.066|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.064|-0.066|0.977
82479423|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479424|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.99|TWO_SIDED|95.0|-0.063|0.064||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.064|-0.063|0.990
82479425|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|0.0|STANDARD_DEVIATION|0.24|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82552946|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-40.209||||0.0004|TWO_SIDED|95.0|-65.941|-14.477|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-14.477|-65.941|0.0004
82562129|NCT01250717|164833661|SUPERIORITY_OR_OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|0.12||||||||0.12|0|
82562130|NCT02164578|164833668|SUPERIORITY|||||||0.004|||||||ANCOVA|ANCOVA for repeated measurements with baseline as covariate||The hypothesis H0 is tested against the one-sided alternative hypothesis H1 H0: µ∆FBF,Riva, week 20 ≤ µ∆FBF, ASA, week 20 versus H1: µΔFBF, Riva, week 20 \> µΔFBF, ASA, week 20 by test procedures for continuous data.||||0.004
82479426|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.033||0.944|TWO_SIDED|95.0|-0.063|0.067||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 72||0.067|-0.063|0.944
82479427|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.23|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 72||||
82479428|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.0|STANDARD_ERROR_OF_MEAN|0.042||0.942|TWO_SIDED|95.0|-0.079|0.085||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.085|-0.079|0.942
82562131|NCT02164578|164833669|OTHER|||||||0.07|||||||ANCOVA|||||||0.070
82581187|NCT02217475|164873886|SUPERIORITY||Odds Ratio (OR)|1.934||||0.0388|TWO_SIDED|95.0|1.035|3.614|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||3.614|1.035|0.0388
82479429|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.01|STANDARD_DEVIATION|0.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479430|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.041||0.876|TWO_SIDED|95.0|-0.087|0.074||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.074|-0.087|0.876
82479431|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|0.02|STANDARD_DEVIATION|0.27|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479432|NCT02880956|164652933|SUPERIORITY||LS Mean of Difference|0.06|STANDARD_ERROR_OF_MEAN|0.043||0.163|TWO_SIDED|95.0|-0.024|0.143||The statistical model: ADCOMS change from baseline = baseline + treatment + site + visit + baseline\*visit + treatment\*visit; variance-covariance structure = Unstructured.|repeated measures model|||Week 96||0.143|-0.024|0.163
82581188|NCT02217475|164873887|SUPERIORITY||Odds Ratio (OR)|1.249||||0.592|TWO_SIDED|95.0|0.553|2.821|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||2.821|0.553|0.5920
82581189|NCT02217475|164873888|SUPERIORITY||Odds Ratio (OR)|1.396||||0.4941|TWO_SIDED|95.0|0.537|3.628|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||3.628|0.537|0.4941
82581190|NCT02217475|164873889|SUPERIORITY||Odds Ratio (OR)|1.142||||0.8434|TWO_SIDED|95.0|0.305|4.277|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||4.277|0.305|0.8434
82581191|NCT02217475|164873890|SUPERIORITY||Odds Ratio (OR)|2.201||||0.0234|TWO_SIDED|95.0|1.113|4.352|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||4.352|1.113|0.0234
82479433|NCT02880956|164652933|SUPERIORITY||Effect size/pooled SD|-0.21|STANDARD_DEVIATION|0.28|||TWO_SIDED||||||||Effect size at a specific visit is calculated as LS mean difference (8E12 - placebo) divided by pooled standard deviation of change scores for a ABBV-8E12 dose and placebo at that visit.|Week 96||||
82479434|NCT00833664|164652934|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.2||||||90.0|88.1|109.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.5|88.1|
82562132|NCT02164578|164833670|OTHER|||||||0.045|||||||ANCOVA|ANCOVA for repeated measurements with baseline as covariate||||||0.045
82562133|NCT02164578|164833671|OTHER|||||||0.125|||||||ANCOVA|||||||0.125
82562134|NCT02164578|164833672|OTHER|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
82562135|NCT02164578|164833673|OTHER|||||||0.589|||||||Wilcoxon (Mann-Whitney)|||||||0.589
82581192|NCT02217475|164873891|SUPERIORITY||Odds Ratio (OR)|1.154||||0.7474|TWO_SIDED|95.0|0.484|2.752|||Regression, Logistic|Logistic regression model was used for analysis. Randomized treatment group, NAS score at screening and fibrosis stage were the factors.||||2.752|0.484|0.7474
82479435|NCT00833664|164652935|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|107.6||||||90.0|104.7|110.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.6|104.7|
82479436|NCT00833664|164652936|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.2||||||90.0|92.7|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.0|92.7|
82479437|NCT01512667|164652937|NON_INFERIORITY_OR_EQUIVALENCE|Similarity will be concluded if the GMR (severe renal insufficiency / healthy) is contained within the interval \[0.40, 2.50\].|GMR|1.6|||||TWO_SIDED|90.0|1.15|2.23||||||Natural log-transformed plasma values were analyzed using an analysis of covariance (ANCOVA) model with a categorical factor for population (severe renal insufficiency participants, healthy matched control participants) and continuous covariates for age and body mass index (BMI). Data are back transformed to geometric least-squares mean ratio (GMR) (severe renal insufficiency / healthy) and 90% confidence intervals.||2.23|1.15|
82479438|NCT01512667|164652938|SUPERIORITY_OR_OTHER||GMR|1.46|||||TWO_SIDED|90.0|1.18|1.81||||||Natural log-transformed plasma values were analyzed using an ANCOVA model with a categorical factor for population (severe renal insufficiency participants, healthy matched control participants) and continuous covariates for age and BMI. Data are back transformed to GMR (severe renal insufficiency / healthy) and 90% confidence intervals.||1.81|1.18|
82581193|NCT03001076|164873959|SUPERIORITY||Difference in LS mean|-28.45|STANDARD_ERROR_OF_MEAN|3.022|<|0.001|TWO_SIDED|95.0|-34.376|-22.531|||ANCOVA|||||-22.531|-34.376|<0.001
82479439|NCT02700334|164652959|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82581194|NCT03001076|164873960|SUPERIORITY||Difference in LS mean|-23.56|STANDARD_ERROR_OF_MEAN|2.777|<|0.001|TWO_SIDED|95.0|-29.005|-18.121|||ANCOVA|||||-18.121|-29.005|<0.001
82479440|NCT02700334|164652960|OTHER|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
82479441|NCT02700334|164652961|OTHER|||||||0.878|||||||Wilcoxon (Mann-Whitney)|||||||0.878
82479442|NCT02700334|164652962|OTHER|||||||0.959|||||||Wilcoxon (Mann-Whitney)|||||||0.959
82479443|NCT02700334|164652963|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82479444|NCT02700334|164652964|OTHER|||||||0.331|||||||Wilcoxon (Mann-Whitney)|||||||0.331
82479445|NCT02700334|164652965|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82479446|NCT02700334|164652966|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82479447|NCT02700334|164652967|OTHER|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||||||0.575
82479448|NCT02700334|164652968|OTHER|||||||0.314|||||||Wilcoxon (Mann-Whitney)|||||||0.314
82479449|NCT02700334|164652969|OTHER|||||||0.721|||||||Wilcoxon (Mann-Whitney)|||||||0.721
82479450|NCT02700334|164652970|OTHER|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
82479451|NCT02700334|164652971|OTHER|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||||||0.333
82479452|NCT02700334|164652972|OTHER|||||||0.859|||||||Wilcoxon (Mann-Whitney)|||||||0.859
82479453|NCT02700334|164652973|OTHER|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82479454|NCT02700334|164652974|OTHER|||||||0.919|||||||Wilcoxon (Mann-Whitney)|||||||0.919
82479455|NCT02700334|164652975|OTHER|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.720
82479456|NCT00770146|164652978|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|Wilcoxon (Mann-Whitney)|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With at least 20 patients in the control group and 40 patients in the mipomersen-treated group, this study would have at least 90% power to detect a 20% difference between the 2 groups.||||<0.001
82479457|NCT00770146|164652980|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon (Mann-Whitney)|||||||<0.001
82479458|NCT00770146|164652982|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82479459|NCT00770146|164652984|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|Wilcoxon (Mann-Whitney)|||||||<0.001
82479460|NCT00770146|164652986|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
82479461|NCT00770146|164652988|SUPERIORITY_OR_OTHER|||||||0.977||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.977
82479462|NCT00770146|164652990|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
82479463|NCT00770146|164652992|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
82479464|NCT00770146|164652994|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||<0.001
82479465|NCT00770146|164652996|SUPERIORITY_OR_OTHER|||||||0.032||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.032
82479466|NCT02412488|164653002|OTHER|"The goal of the primary study objective was to estimate the rate of untoward events associated with Reveal LINQ insertions performed in the out-of-cathlab setting through 3-months within a desired level of precision. The target sample size of approximately 200 subjects undergoing Reveal LINQ insertion was selected to ensure that the upper 95% confidence interval would be within 3 percentage points of the point estimate of the untoward event rate assuming the underlying rate was 2%"|Event Rate expressed as a percent|0.0|||||TWO_SIDED|95.0|0.0|2.1|||||The estimate is the observed rate of untoward events expressed as a percentage. The 95% confidence interval is also expressed as a percentage|"There was no formal statistical hypothesis test associated with the primary outcome measure. Rather the goal of the primary study objective was to estimate the rate of untoward events associated with Reveal LINQ insertions performed in the out-of-cathlab setting through 3-months within a desired level of precision."||2.1|0|
82581195|NCT03001076|164873961|SUPERIORITY||Difference in LS mean|-17.99|STANDARD_ERROR_OF_MEAN|2.018|<|0.001|TWO_SIDED|95.0|-21.94|-14.03|||ANCOVA|||||-14.030|-21.940|<0.001
82479467|NCT03222492|164653018|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
82479468|NCT03222492|164653018|SUPERIORITY|||||||0.444||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.444
82479469|NCT03222492|164653019|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
82479470|NCT03222492|164653019|SUPERIORITY|||||||0.4||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.400
82479471|NCT03222492|164653020|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
82479472|NCT03222492|164653020|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
82479473|NCT03222492|164653020|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
82479474|NCT03222492|164653020|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
82479475|NCT03222492|164653020|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||1.000
82479476|NCT03222492|164653020|SUPERIORITY|||||||0.5||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.500
82479477|NCT03222492|164653021|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
82479478|NCT03222492|164653021|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
82479479|NCT03222492|164653022|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||1.000
82479480|NCT03222492|164653022|SUPERIORITY|||||||0.467||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.467
82479481|NCT03222492|164653023|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||1.000
82479482|NCT03222492|164653023|SUPERIORITY|||||||0.4||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.400
82479483|NCT03222492|164653024|SUPERIORITY|||||||0.464||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.464
82479484|NCT03222492|164653024|SUPERIORITY|||||||0.5||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.500
82479485|NCT03222492|164653024|SUPERIORITY|||||||0.25||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.250
82479486|NCT03222492|164653024|SUPERIORITY|||||||0.167||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.167
82479487|NCT03222492|164653024|SUPERIORITY|||||||0.083||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.083
82479488|NCT03222492|164653024|SUPERIORITY|||||||0.083||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.083
82479489|NCT03222492|164653025|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||1.000
82479490|NCT03222492|164653025|SUPERIORITY|||||||0.429||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 12||||0.429
82479491|NCT03222492|164653026|SUPERIORITY|||||||0.286||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.286
82479492|NCT03222492|164653026|SUPERIORITY|||||||0.067||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 24||||0.067
82479493|NCT03222492|164653027|SUPERIORITY|||||||0.1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 36||||0.100
82479494|NCT03222492|164653028|SUPERIORITY|||||||0.1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||0.100
82479495|NCT03222492|164653039|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
82562136|NCT02753075|164833764|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|0.09||||0.829|TWO_SIDED|95.0|-0.289|0.461||For the Week 8 comparisons of two Oral Rinses against the Placebo Rinse, Dunnett's multiplicity adjustment is applied.|ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.461|-0.289|0.8290
82581196|NCT03001076|164873962|SUPERIORITY||Difference in LS mean|-19.32|STANDARD_ERROR_OF_MEAN|2.341|<|0.001|TWO_SIDED|95.0|-23.908|-14.732|||ANCOVA|||||-14.732|-23.908|<0.001
82581197|NCT03001076|164873963|SUPERIORITY||Location shift|-31.045|||<|0.001|TWO_SIDED|95.0|-44.761|-17.401|||Wilcoxon Rank Sum Test||The location shift and asymptotic 95% confidence interval are based on Hodges-Lehman estimation.|||-17.401|-44.761|<0.001
82581198|NCT03001076|164873964|SUPERIORITY||Difference in LS mean|-4.53|STANDARD_ERROR_OF_MEAN|5.24|=|0.388|TWO_SIDED|95.0|-14.877|5.812|||ANCOVA|||||5.812|-14.877|=0.388
82581199|NCT03001076|164873965|SUPERIORITY||Difference in LS mean|-5.89|STANDARD_ERROR_OF_MEAN|1.845|=|0.002|TWO_SIDED|95.0|-9.528|-2.25|||ANCOVA|||||-2.250|-9.528|=0.002
82581200|NCT03001076|164873967|SUPERIORITY||Difference in LS mean|-31.09|STANDARD_ERROR_OF_MEAN|2.238|<|0.001|TWO_SIDED|95.0|-35.498|-26.682|||ANCOVA|||Change from Baseline to Week 4||-26.682|-35.498|<0.001
82581201|NCT03001076|164873967|SUPERIORITY||Difference in LS mean|-29.12|STANDARD_ERROR_OF_MEAN|2.513|<|0.001|TWO_SIDED|95.0|-34.074|-24.168|||ANCOVA|||Change from Baseline to Week 8||-24.168|-34.074|<0.001
82581202|NCT03001076|164873968|SUPERIORITY||Difference in LS mean|-25.26|STANDARD_ERROR_OF_MEAN|2.004|<|0.001|TWO_SIDED|95.0|-29.204|-21.308|||ANCOVA|||Change from Baseline to Week 4||-21.308|-29.204|<0.001
82581203|NCT03001076|164873968|SUPERIORITY||Difference in LS mean|-23.75|STANDARD_ERROR_OF_MEAN|2.268|<|0.001|TWO_SIDED|95.0|-28.219|-19.276|||ANCOVA|||Change from Baseline to Week 8||-19.276|-28.219|<0.001
82479496|NCT03222492|164653039|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
82479497|NCT03222492|164653040|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||||||1.000
82479498|NCT03222492|164653040|SUPERIORITY|||||||1||||||P-value is from comparing the number of participants with the AEs of interest between the two treatment groups using Fisher's exact test.|Fisher Exact|||Treatment start to Week 48||||1.000
82479499|NCT00816023|164653047|SUPERIORITY_OR_OTHER|||||||0.474||95.0|||||Jonckheere-Terpstra|||||||0.474
82581204|NCT03001076|164873969|SUPERIORITY||Difference in LS mean|-20.41|STANDARD_ERROR_OF_MEAN|1.513|<|0.001|TWO_SIDED|95.0|-23.39|-17.43|||ANCOVA|||Change from Baseline to Week 4||-17.430|-23.390|<0.001
82581205|NCT03001076|164873969|SUPERIORITY||Difference in LS mean|-18.46|STANDARD_ERROR_OF_MEAN|1.651|<|0.001|TWO_SIDED|95.0|-21.71|-15.206|||ANCOVA|||Change from Baseline to Week 8||-15.206|-21.710|<0.001
82581206|NCT03001076|164873970|SUPERIORITY||Difference in LS mean|-0.8|STANDARD_ERROR_OF_MEAN|4.99|=|0.873|TWO_SIDED|95.0|-10.663|9.059|||ANCOVA|||Change from Baseline to Week 4||9.059|-10.663|=0.873
82581207|NCT03001076|164873970|SUPERIORITY||Difference in LS mean|-0.08|STANDARD_ERROR_OF_MEAN|5.131|=|0.988|TWO_SIDED|95.0|-10.215|10.055|||ANCOVA|||Change from Baseline to Week 8||10.055|-10.215|=0.988
82581208|NCT03001076|164873971|SUPERIORITY||Difference in LS mean|-8.59|STANDARD_ERROR_OF_MEAN|1.619|<|0.001|TWO_SIDED|95.0|-11.778|-5.394|||ANCOVA|||Change from Baseline to Week 4||-5.394|-11.778|<0.001
82581209|NCT03001076|164873971|SUPERIORITY||Difference in LS mean|-6.42|STANDARD_ERROR_OF_MEAN|1.712|<|0.001|TWO_SIDED|95.0|-9.798|-3.049|||ANCOVA|||Change from Baseline to Week 8||-3.049|-9.798|<0.001
82581210|NCT04602221|164873973|OTHER||Difference of adjusted means|-0.339|STANDARD_ERROR_OF_MEAN|3.8242||0.9296|TWO_SIDED|95.0|-7.975|7.297|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||7.297|-7.975|0.9296
82581211|NCT04602221|164873973|OTHER||Difference of adjusted means|4.002|STANDARD_ERROR_OF_MEAN|3.8224||0.299|TWO_SIDED|95.0|-3.631|11.634|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||11.634|-3.631|0.2990
82479500|NCT02312882|164653049|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82479501|NCT02025556|164653073|SUPERIORITY||Mean Difference (Final Values)|-2.81|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-4.07|-1.55||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.55|-4.07|< .0001
82479502|NCT02025556|164653073|SUPERIORITY||Mean Difference (Final Values)|-2.64|STANDARD_ERROR_OF_MEAN|0.64|<|0.0001|TWO_SIDED|95.0|-3.9|-1.38||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.38|-3.9|< .0001
82479503|NCT02486627|164653077|NON_INFERIORITY|95% CIs for the difference in cure rates were calculated using the Newcombe method with continuity correction.|Difference|-3.4|||||TWO_SIDED|95.0|-10.0|3.1||||||||3.1|-10|
82479504|NCT02486627|164653078|NON_INFERIORITY|95% CIs for the difference in cure rates were calculated using the Newcombe method with continuity correction.|Difference|11.6|||||TWO_SIDED|95.0|2.7|20.3||||||||20.3|2.7|
82479505|NCT02189954|164653087|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82479506|NCT02189954|164653087|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mann Whitney U|||||||<0.05
82479507|NCT02775240|164653088|OTHER||Ratio of geometric means|1.248|||||TWO_SIDED|90.0|1.13|1.378|||Linear mixed effects model||Log-transformed Cmax values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Cmax of Digoxin||1.378|1.130|
82479508|NCT02775240|164653089|OTHER||Ratio of geometric means|0.944|||||TWO_SIDED|90.0|0.778|1.144|||Linear mixed effects model|||Comparison of Treatment B over Treatment A for Cmax of Dextromethorphan||1.144|0.778|
82581212|NCT04602221|164873973|OTHER||Difference of adjusted means|-1.258|STANDARD_ERROR_OF_MEAN|3.6608||0.7322|TWO_SIDED|95.0|-8.565|6.05|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the primary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||6.050|-8.565|0.7322
82581213|NCT04602221|164873974|OTHER||Difference of adjusted means|0.347|STANDARD_ERROR_OF_MEAN|1.563||0.8249|TWO_SIDED|95.0|-2.776|3.471|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||3.471|-2.776|0.8249
82581214|NCT04602221|164873974|OTHER||Difference of adjusted means|-1.085|STANDARD_ERROR_OF_MEAN|1.5889||0.4973|TWO_SIDED|95.0|-4.26|2.091|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||2.091|-4.260|0.4973
82581215|NCT04602221|164873974|OTHER||Difference of adjusted means|-2.858|STANDARD_ERROR_OF_MEAN|1.5266||0.0658|TWO_SIDED|95.0|-5.909|0.192|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.192|-5.909|0.0658
82581216|NCT04602221|164873975|OTHER||Difference of adjusted means|0.0053|STANDARD_ERROR_OF_MEAN|0.00798||0.5081|TWO_SIDED|95.0|-0.0106|0.0213|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0213|-0.0106|0.5081
82581217|NCT04602221|164873975|OTHER||Difference of adjusted means|0.0058|STANDARD_ERROR_OF_MEAN|0.00798||0.4723|TWO_SIDED|95.0|-0.0102|0.0217|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0217|-0.0102|0.4723
82479509|NCT02775240|164653090|OTHER||Ratio of geometric means|0.943|||||TWO_SIDED|90.0|0.883|1.007|||Linear mixed effects model||Log-transformed Cmax values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Cmax of Dextrorphan||1.007|0.883|
82479510|NCT02775240|164653096|OTHER||Ratio of geometric means|1.206|||||TWO_SIDED|90.0|1.099|1.324|||Linear mixed effects model||Log-transformed AUC0-infinity values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUC0-infinity of Digoxin||1.324|1.099|
82479511|NCT02775240|164653098|OTHER||Ratio of geometric means|0.971|||||TWO_SIDED|90.0|0.943|0.999|||Linear mixed effects model||Log-transformed AUC0-infinity values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUC0-infinity of Dextrorphan||0.999|0.943|
82479512|NCT02775240|164653099|OTHER||Ratio of geometric means|1.179|||||TWO_SIDED|90.0|1.08|1.287|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast for Digoxin||1.287|1.080|
82479513|NCT02775240|164653100|OTHER||Ratio of geometric means|0.882|||||TWO_SIDED|90.0|0.696|1.118|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast of Dextromethorphan||1.118|0.696|
82479514|NCT02775240|164653101|OTHER||Ratio of geometric means|0.973|||||TWO_SIDED|90.0|0.949|0.998|||Linear mixed effects model||Log-transformed AUClast values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for AUClast for Dextrorphan||0.998|0.949|
82479515|NCT02775240|164653102|OTHER||Ratio of geometric means|0.905|||||TWO_SIDED|90.0|0.721|1.138|||Linear mixed effects model||Log-transformed AUClast ratio values were compared between treatment regimens using a linear mixed effects model with treatment regimen as fixed effect and participant as random effect.|Comparison of Treatment B over Treatment A for Dextromethorphan/Dextrorphan (Parent/Metabolite) AUClast ratio||1.138|0.721|
82479516|NCT00796991|164653140|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.963|||||TWO_SIDED|90.0|0.794|1.168|||Mixed Models Analysis|A general linear mixed model was applied to paclitaxel log(Cmax) using study day as a fixed effect.||Estimated effect of ipilimumab on paclitaxel Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the paclitaxel/carboplatin/ipilimumab combination (Day 43) relative to paclitaxel/carboplatin alone (Day 1)||1.168|0.794|
82581218|NCT04602221|164873975|OTHER||Difference of adjusted means|0.0333|STANDARD_ERROR_OF_MEAN|0.00767|<|0.0001|TWO_SIDED|95.0|0.018|0.0486|||ANCOVA||The difference was calculated as treatment group minus placebo group.|A linear mixed effects model, i.e. analyses of covariance (ANCOVA) was used for analysis of the secondary endpoint. This model included effects for sequence, subject within sequence, period, baseline values (pre-ketamine baseline and on-ketamine baseline) and treatment. The effect 'subject within sequence' were considered as random, whereas the other effects were considered as fixed.||0.0486|0.0180|< .0001
82581219|NCT01056718|164873976|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of treatment. Each subject served as his/her own control.||||<0.05
82581220|NCT01056718|164873977|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82581221|NCT01056718|164873978|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82479517|NCT00796991|164653140|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.027|||||TWO_SIDED|90.0|0.848|1.243|||Mixed Models Analysis|study day was used as a fixed effect||Estimated effect of ipilimumab on dacarbazine Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.243|0.848|
82479518|NCT00796991|164653140|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|1.058|||||TWO_SIDED|90.0|0.974|1.15|||Mixed Models Analysis|study day was used as a fixed effect||Estimated effect of ipilimumab on AIC Cmax. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.150|0.974|
82479519|NCT00796991|164653140|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.934||||||90.0|0.768|1.136|||linear model|treatment arm as a fixed effect||Estimated effect of paclitaxel/carboplatin on ipilimumab Cmax: linear model was applied to ipilimumab log(Cmax)) data from Week 7 (Day 43) PK measurements in first and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the 3 drug combination relative to ipilimumab alone.||1.136|0.768|
82479520|NCT00796991|164653140|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.982|||||TWO_SIDED|90.0|0.798|1.208|||linear model|treatment arm as a fixed effect||Estimated effect of dacarbazine on ipilimumab Cmax: linear model was applied to ipilimumab log(Cmax) data from Week 7 (Day 43) PK measurements in second and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination relative to ipilimumab alone.||1.208|0.798|
82479521|NCT00796991|164653144|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.068|||||TWO_SIDED|90.0|0.954|1.196|||Mixed Models Analysis|A general linear mixed model was applied to paclitaxel log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on paclitaxel AUC(INF). Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the paclitaxel/carboplatin/ipilimumab combination (Day 43) relative to paclitaxel/carboplatin alone (Day 1).||1.196|0.954|
82479522|NCT00796991|164653144|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.912|||||TWO_SIDED|90.0|0.757|1.099|||Mixed Models Analysis|A general linear mixed model was applied to dacarbazine log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on dacarbazine AUC(INF). Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.099|0.757|
82479523|NCT00796991|164653144|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.97|||||TWO_SIDED|90.0|0.891|1.056|||Mixed Models Analysis|A general linear mixed model was applied to active metabolite AIC log\[AUC(INF)\] using study day as a fixed effect.||Estimated effect of ipilimumab on AUC(INF) for AIC. Point estimates and 90% confidence intervals (CIs) for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination (Day 43) relative to dacarbazine alone (Day 1).||1.056|0.891|
82479524|NCT00796991|164653144|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.934|||||TWO_SIDED|90.0|0.768|1.136|||linear model|treatment arm as fixed effect||Estimated effect of paclitaxel/carboplatin on ipilimumab AUC: linear model was applied to ipilimumab log(AUC(0-21d)) data from Week 7 (Day 43) PK measurements in first and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the 3 drug combination relative to ipilimumab alone.||1.136|0.768|
82581222|NCT01056718|164873979|SUPERIORITY_OR_OTHER||||||=|0.078|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.078
82581223|NCT01056718|164873980|SUPERIORITY_OR_OTHER||||||=|0.186|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.186
82479525|NCT00796991|164653144|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.982|||||TWO_SIDED|90.0|0.7981|1.208|||linear model|treatment arm as a fixed effect||Estimated effect of dacarbazine on ipilimumab AUC: linear model was applied to ipilimumab log(AUC(0-21d)) data from Week 7 (Day 43) PK measurements in second and third arms with treatment arm as a fixed effect. Point estimates and 90% CIs for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale for the dacarbazine, ipilimumab combination relative to ipilimumab alone.||1.208|0.7981|
82479526|NCT00796991|164653150|SUPERIORITY_OR_OTHER|||||||0.027||||||p-value was not corrected for multiple testing. F-statistic = 1.86.|conditional F test|15 degrees freedom (DF) in numerator and 335 DF in denominator.||null hypothesis of no mean ALC changes over time in any treatment group. Conditional F-tests were used to test for mean ALC changes over time in each treatment arm and the difference between treatment arms in the pattern of change in ALC over time.||||0.027
82479527|NCT00796991|164653150|SUPERIORITY_OR_OTHER|||||||0.5||||||P-values were not corrected for multiple testing. F Statistic =0.94|Omnibus conditional F-test|10 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in all treatment groups. Test of overall time-by-treatment interaction used an omnibus conditional F-test.||||0.5
82479528|NCT00796991|164653150|SUPERIORITY_OR_OTHER|||||||0.37||||||P-values were not corrected for multiple testing. F Statistic =1.08|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.37
82479529|NCT00796991|164653150|SUPERIORITY_OR_OTHER|||||||0.85||||||P-values were not corrected for multiple testing. F Statistic =0.39|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.85
82479530|NCT00796991|164653150|SUPERIORITY_OR_OTHER|||||||0.22||||||P-values were not corrected for multiple testing. F Statistic = 1.41|conditional F-test|5 Degrees Freedom (DF) in numerator and 335 DF in denominator.||null hypothesis that the pattern of mean ALC values over time is the same in the given pair of treatment groups.||||0.22
82479531|NCT00392379|164653205|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|STANDARD_DEVIATION|43.0|<|0.05|TWO_SIDED|95.0||||No adjustment for multiple comparisons.|Regression, Logistic|||Based upon previous research, we hypothesized that the end-of-treatment abstinence rate for subjects receiving placebo would be 35% and the abstinence rate for subjects receiving the 4-mg nicotine lozenge would be 53%. A resulting power calculation indicated that 270 subjects (135 per group) were required in order to have 85% power to detect a significant difference (two-sided, α = 0.05 level test).||||<0.05
82479532|NCT01978938|164653208|NON_INFERIORITY|The NI test was based on the lower limit of the 2-sided 95% confidence interval (CI), using the method proposed without stratification by Miettinen and Nurminen. If the lower limit of the 95% CI for the difference in Responder (clinical cure and microbiologic success) rates in the micro-ITT population exceeded -10%, then the null hypothesis was rejected and the NI of eravacycline to levofloxacin was declared.|Treatment Difference|-6.5|||||TWO_SIDED|95.0|-14.1|1.2||||||For the FDA, an NI margin of 10% was used, which was based on historical data regarding the treatment effect of antibiotics. A 10% NI margin for the Responder outcome is robust and can sufficiently confirm a clinically meaningful treatment effect of eravacycline in the treatment of cUTI.||1.2|-14.1|
82479533|NCT00043550|164653223|SUPERIORITY|The proposed sample size had at least 80% power to detect effect sizes of 0.36 between the two active treatment conditions and placebo during the active phase. These power calculations were based on a priori values of within-subject correlation of 0.50, 10% attrition, and 6 assessment points.|Slope|1.0||||0.95|TWO_SIDED|||||Overall significant effect for treatment, as well as the two moderating effects, used a Bonferroni-corrected alpha level of 0.0167 (0.05/3).|HLM|||Comparison of conditions||||.95
82479534|NCT00043550|164653223|SUPERIORITY||||||<|0.0001|||||||HLM|||effects of conditions over time||||<.0001
82479535|NCT00043550|164653223|SUPERIORITY||Slope|0.03|||||TWO_SIDED|95.0|-0.35|0.41||||||||.41|-.35|
82479536|NCT00043550|164653223|SUPERIORITY||Slope|0.06|||||TWO_SIDED|95.0|-0.33|0.45||||||||.45|-.33|
82500592|NCT02320149|164691868|SUPERIORITY||Least Squares Mean Difference|3.0||||0.7377|TWO_SIDED|95.0|-14.7|20.7||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 6||20.7|-14.7|0.7377
82500593|NCT02320149|164691869|SUPERIORITY||Least Squares Mean Difference|6.4||||0.2861|TWO_SIDED|95.0|-5.3|18.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Percent Change from Baseline to Week 3||18.1|-5.3|0.2861
82500594|NCT02320149|164691870|SUPERIORITY||Least Squares Mean Difference|-3.9||||0.0014|TWO_SIDED|95.0|-6.3|-1.5||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 12||-1.5|-6.3|0.0014
82500595|NCT02320149|164691871|SUPERIORITY||Least Squares Mean Difference|-3.4||||0.001|TWO_SIDED|95.0|-5.5|-1.4||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 9||-1.4|-5.5|0.0010
82500596|NCT02320149|164691872|SUPERIORITY||Least Squares Mean Difference|-2.0||||0.0371|TWO_SIDED|95.0|-4.0|-0.1||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 6||-0.1|-4.0|0.0371
82500597|NCT02320149|164691873|SUPERIORITY||Least Squares Mean Difference|-0.8||||0.3806|TWO_SIDED|95.0|-2.5|1.0||Analyses were based on ANCOVA model for the endpoint with treatment group and pooled study center as factors and baseline value as a covariate.|ANCOVA||sarecycline - placebo|Change from Baseline to Week 3||1.0|-2.5|0.3806
82500598|NCT06133348|164691884|OTHER|Single group|Mean Difference (Final Values)|3.3|STANDARD_DEVIATION|6.9||0.0089|TWO_SIDED|95.0|0.9|5.8|||Paired t-Test|||||5.8|0.9|0.0089
82500599|NCT06133348|164691885|OTHER|Single group|Mean Difference (Final Values)|10.4|STANDARD_DEVIATION|23.8||0.0169|TWO_SIDED|95.0|2.0|18.8|||Paired t-Test|||||18.8|2|0.0169
82500600|NCT06133348|164691886|OTHER|Single group|Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|5.3||0.0162|TWO_SIDED|95.0|0.5|4.3|||Paired t-Test|||||4.3|0.5|0.0162
82552947|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-41.052||||0.0011|TWO_SIDED|95.0|-68.965|-13.138|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-13.138|-68.965|0.0011
82552948|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-42.509|||<|0.0001|TWO_SIDED|95.0|-60.902|-24.116|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||-24.116|-60.902|<.0001
82552949|NCT04800211|164810277|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-2.915||||0.7835|TWO_SIDED|95.0|-23.855|18.025|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||18.025|-23.855|0.7835
82562137|NCT02753075|164833764|SUPERIORITY_OR_OTHER||LS mean difference|-0.01||||0.9993|TWO_SIDED|95.0|-0.372|0.362||For the Week 8 comparisons of two Oral Rinses against the Placebo Rinse, Dunnett's multiplicity adjustment is applied.|ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.362|-0.372|0.9993
82562138|NCT02753075|164833765|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.5892|TWO_SIDED|95.0|-0.242|0.424|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.424|-0.242|0.5892
82562139|NCT02753075|164833766|SUPERIORITY_OR_OTHER||LS mean difference|0.14||||0.2825|TWO_SIDED|95.0|-0.116|0.396|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.396|-0.116|0.2825
82562140|NCT02753075|164833766|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.8448|TWO_SIDED|95.0|-0.229|0.28|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.280|-0.229|0.8448
82562141|NCT02753075|164833766|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.3784|TWO_SIDED|95.0|-0.141|0.371|||ANCOVA||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.371|-0.141|0.3784
82479537|NCT01143701|164653224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54|||<|0.05|TWO_SIDED|95.0|-5.89|-1.19|||Mixed Models Analysis|||Utilizing the full sample (n=577), an intent-to-treat analyses was conducted comparing patient outcomes across intervention and control groups using a three-level mixed model. Baseline ratings were entered as a covariate. Post-baseline ratings collected closest to 12-months post-baseline were entered as dependent variables.||-1.19|-5.89|<.05
82562142|NCT02753075|164833767|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1688|TWO_SIDED|95.0|-10.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-10.00|0.1688
82479538|NCT01143701|164653225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|||<|0.05|TWO_SIDED|95.0|-4.71|1.75|||Mixed Models Analysis|||An intent-to-treat analyses was conducted comparing patient outcomes across intervention and control groups using a three-level mixed model. Baseline ratings were entered as a covariate. Post-baseline ratings collected closest to 12-months post-baseline were entered as dependent variables.||1.75|-4.71|<0.05
82562143|NCT02753075|164833767|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.438|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.4380
82479539|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|92.61|STANDARD_ERROR_OF_MEAN|9.04|<|0.001|TWO_SIDED|90.0|77.65|107.57||The P-value is for percent change from baseline in HDL-C at Week 2.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||107.57|77.65|<0.001
82581224|NCT01056718|164873981|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82500601|NCT06133348|164691887|OTHER|Single group|Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|7.6||0.0144|TWO_SIDED|95.0|0.7|6.1|||Paired t-Test|||||6.1|0.7|0.0144
82500602|NCT06133348|164691888|OTHER|Single group|Mean Difference (Final Values)|2.9|STANDARD_DEVIATION|7.3||0.0264|TWO_SIDED|95.0|0.4|5.5|||Paired t-Test|||||5.5|0.4|0.0264
82500603|NCT06133348|164691889|OTHER|Single group|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|2.7||0.1622|TWO_SIDED|95.0|-0.3|1.6|||Paired t-Test|||||1.6|-0.3|0.1622
82500604|NCT06133348|164691890|OTHER|Single group|Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|4.0||0.1506|TWO_SIDED|95.0|-0.4|2.5|||Paired t-Test|||||2.5|-0.4|0.1506
82500605|NCT06133348|164691891|OTHER|Single group|Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|5.5||0.0012|TWO_SIDED|95.0|1.5|5.4|||Paired t-Test|||||5.4|1.5|0.0012
82500606|NCT06133348|164691892|OTHER|Single group|Mean Difference (Final Values)|1.2|STANDARD_DEVIATION|2.1||0.0021|TWO_SIDED|95.0|0.5|2.0|||Paired t-Test|||||2|0.5|0.0021
82500607|NCT06133348|164691893|OTHER|Single group|Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|2.6||0.0027|TWO_SIDED|95.0|0.6|2.4|||Paired t-Test|||||2.4|0.6|0.0027
82500608|NCT06133348|164691894|OTHER|Single group|Mean Difference (Final Values)|0.697|STANDARD_DEVIATION|2.0||0.0494|TWO_SIDED|95.0|0.0|1.4|||Paired t-Test|||||1.4|0.0|0.0494
82500609|NCT06133348|164691895|OTHER|Single group|Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|4.8||0.4707|TWO_SIDED|95.0|-1.1|2.3|||Paired t-Test|||||2.3|-1.1|0.4707
82500610|NCT06133348|164691896|OTHER|Single group|Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|5.1||0.0082|TWO_SIDED|95.0|-4.3|-0.7|||Paired t-Test|||||-0.7|-4.3|0.0082
82500611|NCT06133348|164691897|OTHER|Single group|Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|4.3||0.1327|TWO_SIDED|95.0|-2.7|0.4|||Paired t-Test|||||0.4|-2.7|0.1327
82500612|NCT06133348|164691898|OTHER|Single group|Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|5.0||0.2046|TWO_SIDED|95.0|-2.9|0.6|||Paired t-Test|||||0.6|-2.9|0.2046
82500613|NCT06133348|164691899|OTHER|Single group|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|5.9||0.5252|TWO_SIDED|95.0|-2.8|1.4|||Paired t-Test|||||1.4|-2.8|0.5252
82500614|NCT06133348|164691900|OTHER|Single group|Mean Difference (Final Values)|0.8|STANDARD_DEVIATION|6.0||0.4569|TWO_SIDED|95.0|-1.3|2.9|||Paired t-Test|||||2.9|-1.3|0.4569
82500615|NCT06133348|164691901|OTHER|Single group|Mean Difference (Final Values)|12.2|STANDARD_DEVIATION|40.8||0.1497|TWO_SIDED|95.0|-4.7|29.0|||Paired t-Test|||||29.0|-4.7|0.1497
82500616|NCT06133348|164691902|OTHER|Single group|Mean Difference (Final Values)|16.6|STANDARD_DEVIATION|65.5||0.2163|TWO_SIDED|95.0|-10.4|43.7|||Paired t-Test|||||43.7|-10.4|0.2163
82500617|NCT06133348|164691903|OTHER|Single group|Mean Difference (Final Values)|3.6|STANDARD_DEVIATION|10.1||0.0915|TWO_SIDED|95.0|-0.6|7.7|||Paired t-Test|||||7.7|-0.6|0.0915
82500618|NCT06133348|164691904|OTHER|Single group|Mean Difference (Final Values)|5.3|STANDARD_DEVIATION|28.1||0.3573|TWO_SIDED|95.0|-6.3|16.9|||Paired t-Test|||||16.9|-6.3|0.3573
82500619|NCT06133348|164691905|OTHER|Single group|Mean Difference (Final Values)|-0.9|STANDARD_DEVIATION|4.7||0.3741|TWO_SIDED|95.0|-2.8|1.1|||Paired t-Test|||||1.1|-2.8|0.3741
82500620|NCT06133348|164691906|OTHER|Single group|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|0.4||0.6187|TWO_SIDED|95.0|-0.6|1.0|||Paired t-Test|||||1.0|-0.6|0.6187
82500621|NCT06133348|164691907|OTHER|Single group|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.2||0.3572|TWO_SIDED|95.0|-0.04|0.1|||Paired t-Test|||||0.1|-0.04|0.3572
82500622|NCT06133348|164691908|OTHER|Single group|Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|5.8||0.108|TWO_SIDED|95.0|-0.5|4.3|||Paired t-Test|||||4.3|-0.5|0.1080
82500623|NCT06133348|164691909|OTHER|Single group|Mean Difference (Final Values)|0.9|STANDARD_DEVIATION|3.7||0.2088|TWO_SIDED|95.0|-0.6|2.5|||Paired t-Test|||||2.5|-0.6|0.2088
82500624|NCT06133348|164691912|OTHER|Single group|Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.4||0.7333|TWO_SIDED|95.0|-0.1|0.2|||Paired t-Test|||||0.2|-0.1|0.7333
82500625|NCT06133348|164691913|OTHER|Single group|Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|2.5||0.6382|TWO_SIDED|95.0|-0.8|1.3|||Paired t-Test|||||1.3|-0.8|0.6382
82500626|NCT06133348|164691914|OTHER|Single group|Mean Difference (Final Values)|-0.2|STANDARD_DEVIATION|1.4||0.4771|TWO_SIDED|95.0|-0.8|0.4|||Paired t-Test|||||0.4|-0.8|0.4771
82500627|NCT02237950|164691954|SUPERIORITY|||||||0.015|||||||Regression, Logistic|||||||0.015
82500628|NCT02237950|164691955|SUPERIORITY|||||||0.007|||||||Log Rank|||||||0.007
82500629|NCT02237950|164691956|SUPERIORITY|||||||0.002|||||||Regression, Logistic|||||||0.002
82500630|NCT02237950|164691957|SUPERIORITY|||||||0.014|||||||Regression, Logistic|||||||0.014
82500631|NCT02237950|164691958|SUPERIORITY|||||||0.012|||||||Regression, Logistic|||||||0.012
82500632|NCT02237950|164691959|SUPERIORITY|||||||0.059|||||||Regression, Logistic|||||||0.059
82500633|NCT02237950|164691960|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||||||0.008
82500636|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage (IIIC \[referral category\] versus (vs) M1a vs M1b vs M1c) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.001
82500637|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage IIIC/M1a/M1b \[referral category\] vs M1c with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.196
82552950|NCT04800211|164810278|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|-0.769||||0.0002|TWO_SIDED|95.0|-1.228|-0.309|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||-0.309|-1.228|0.0002
82552951|NCT04800211|164810278|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|-0.52||||0.0175|TWO_SIDED|95.0|-0.972|-0.068|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood WBC (x 10\^3/uL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||-0.068|-0.972|0.0175
82552952|NCT04800211|164810279|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)|Mean Difference (Net)|2.408||||0.0362|TWO_SIDED|95.0|0.11|4.705|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population with Outliers Excluded)||4.705|0.110|0.0362
82562144|NCT02753075|164833767|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5693|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. Median Difference has been calculated from non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.5693
82562145|NCT02753075|164833768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7789|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.7789
82479540|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|106.17|STANDARD_ERROR_OF_MEAN|10.69|<|0.001|TWO_SIDED|90.0|88.47|123.87||The P-value is for percent change from baseline in HDL-C at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||123.87|88.47|<0.001
82479541|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|103.66|STANDARD_ERROR_OF_MEAN|11.18|<|0.001|TWO_SIDED|90.0|85.14|122.17||The P-value is for percent change from baseline in HDL-C at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||122.17|85.14|<0.001
82479542|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.46|STANDARD_ERROR_OF_MEAN|4.39|<|0.001|TWO_SIDED|90.0|-24.73|-10.19||The P-value is for percent change from baseline in LDL-C at Week 2.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-10.19|-24.73|<0.001
82479543|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.39|STANDARD_ERROR_OF_MEAN|4.4||0.019|TWO_SIDED|90.0|-17.67|-3.11||The P-value is for percent change from baseline in LDL-C at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-3.11|-17.67|0.019
82479544|NCT01375075|164653234|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.26|STANDARD_ERROR_OF_MEAN|4.77||0.011|TWO_SIDED|90.0|-20.17|-4.36||The P-value is for percent change from baseline in LDL-C at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-4.36|-20.17|0.011
82479545|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|3.74|STANDARD_ERROR_OF_MEAN|2.5||0.136|TWO_SIDED|90.0|-0.39|7.88||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||7.88|-0.39|0.136
82479546|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|2.48||0.257|TWO_SIDED|90.0|-1.28|6.94||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||6.94|-1.28|0.257
82479547|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|2.54||0.021|TWO_SIDED|90.0|1.7|10.1||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||10.10|1.70|0.021
82552953|NCT04800211|164810279|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.692||||0.2142|TWO_SIDED|95.0|-0.569|3.953|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Serum HDL-C (mg/dL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.953|-0.569|0.2142
82552954|NCT04800211|164810280|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-39.501||||0.025|TWO_SIDED|95.0|-75.396|-3.605|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-3.605|-75.396|0.0250
82552955|NCT04800211|164810280|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.94||||0.9997|TWO_SIDED|95.0|-37.896|32.016|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 8-epi-prostaglandin F2alpha (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||32.016|-37.896|0.9997
82552956|NCT04800211|164810281|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-54.398||||0.6778|TWO_SIDED|95.0|-177.281|68.485|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||68.485|-177.281|0.6778
82552957|NCT04800211|164810281|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-48.395||||0.7497|TWO_SIDED|95.0|-168.697|71.908|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine 11-dehydrothromboxane B2 (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||71.908|-168.697|0.7497
82562146|NCT02753075|164833768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7214|TWO_SIDED|95.0|-5.0|0.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.7214
82562147|NCT02753075|164833768|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.896|TWO_SIDED|95.0|-5.0|5.0||Wilcoxon rank sum test.|Wilcoxon rank sum test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|-5.000|0.8960
82562148|NCT02753075|164833769|SUPERIORITY_OR_OTHER||LS mean difference|0.45||||0.0978|TWO_SIDED|95.0|-0.084|0.987|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.987|-0.084|0.0978
82562149|NCT02753075|164833769|SUPERIORITY_OR_OTHER||LS mean difference|0.2||||0.4607|TWO_SIDED|95.0|-0.333|0.732|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.732|-0.333|0.4607
82562150|NCT02753075|164833769|SUPERIORITY_OR_OTHER||LS mean difference|0.25||||0.3542|TWO_SIDED|95.0|-0.283|0.787|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.787|-0.283|0.3542
82479548|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|2.52||0.829|TWO_SIDED|90.0|-4.71|3.62||The P-value is for change from baseline in SBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.62|-4.71|0.829
82552958|NCT04800211|164810282|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-20.01||||0.0003|TWO_SIDED|95.0|-32.447|-7.573|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-7.573|-32.447|0.0003
82651099|NCT04147715|165016992|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9096|||||TWO_SIDED|90.0|0.8791|0.9411|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||0.9411|0.8791|
82651100|NCT04147715|165016993|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0071|||||TWO_SIDED|90.0|0.9679|1.0479|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0479|0.9679|
82651101|NCT04147715|165016993|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of S-648414 were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9852|||||TWO_SIDED|90.0|0.9605|1.0105|||||Ratio = S-648414 + Dolutegravir / S-648414|The effect of dolutegravir on the PK of S-648414 was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of S-648414 + dolutegravir and S-648414 alone were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0105|0.9605|
82479549|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|1.5||0.603|TWO_SIDED|90.0|-1.69|3.24||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.24|-1.69|0.603
82479550|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|1.48||0.656|TWO_SIDED|90.0|-3.11|1.78||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.78|-3.11|0.656
82479551|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|1.83|STANDARD_ERROR_OF_MEAN|1.52||0.228|TWO_SIDED|90.0|-0.67|4.34||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||4.34|-0.67|0.228
82479552|NCT01375075|164653237|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.51||0.516|TWO_SIDED|90.0|-3.47|1.51||The P-value is for change from baseline in DBP at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.51|-3.47|0.516
82562151|NCT02753075|164833770|SUPERIORITY_OR_OTHER||LS mean difference|0.02||||0.9474|TWO_SIDED|95.0|-0.665|0.711|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.711|-0.665|0.9474
82562152|NCT02753075|164833770|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.7987|TWO_SIDED|95.0|-0.76|0.586|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.586|-0.760|0.7987
82479553|NCT01375075|164653238|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|1.11||0.513|TWO_SIDED|90.0|-2.57|1.11|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.11|-2.57|0.513
82479554|NCT01375075|164653238|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|1.12||0.97|TWO_SIDED|90.0|-1.82|1.9|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.90|-1.82|0.970
82479555|NCT01375075|164653238|SUPERIORITY_OR_OTHER||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|1.16||0.824|TWO_SIDED|90.0|-1.66|2.17|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.17|-1.66|0.824
82479556|NCT01375075|164653238|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.12||0.769|TWO_SIDED|90.0|-2.18|1.52|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.52|-2.18|0.769
82479557|NCT01375075|164653239|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.33||0.735|TWO_SIDED|90.0|-0.65|0.43|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.43|-0.65|0.735
82479558|NCT01375075|164653239|SUPERIORITY_OR_OTHER||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.33||0.503|TWO_SIDED|90.0|-0.32|0.76|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.76|-0.32|0.503
82479559|NCT01375075|164653239|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.33||0.988|TWO_SIDED|90.0|-0.53|0.54|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.54|-0.53|0.988
82479560|NCT01375075|164653239|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.32||0.207|TWO_SIDED|90.0|-0.95|0.13|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.13|-0.95|0.207
82479561|NCT01375075|164653240|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.43||0.756|TWO_SIDED|90.0|-0.57|0.84|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.84|-0.57|0.756
82479562|NCT01375075|164653240|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.43||0.99|TWO_SIDED|90.0|-0.71|0.7|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.70|-0.71|0.990
82479563|NCT01375075|164653240|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.44||0.565|TWO_SIDED|90.0|-0.47|0.97|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.97|-0.47|0.565
82479564|NCT01375075|164653240|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.43||0.678|TWO_SIDED|90.0|-0.53|0.89|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||0.89|-0.53|0.678
82479565|NCT01375075|164653241|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.61||0.856|TWO_SIDED|90.0|-0.9|1.12|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.12|-0.90|0.856
82479566|NCT01375075|164653241|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.869|TWO_SIDED|90.0|-0.9|1.1|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.10|-0.90|0.869
82479567|NCT01375075|164653241|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.869|TWO_SIDED|90.0|-0.92|1.13|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.13|-0.92|0.869
82479568|NCT01375075|164653241|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|0.61||0.317|TWO_SIDED|90.0|-0.4|1.63|||Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||1.63|-0.40|0.317
82479569|NCT01375075|164653243|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.13||0.888|TWO_SIDED|90.0|-0.24|0.2|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.20|-0.24|0.888
82479570|NCT01375075|164653243|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.939|TWO_SIDED|90.0|-0.21|0.23|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.23|-0.21|0.939
82479571|NCT01375075|164653243|SUPERIORITY_OR_OTHER||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.13||0.296|TWO_SIDED|90.0|-0.08|0.36|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.36|-0.08|0.296
82479572|NCT01375075|164653243|SUPERIORITY_OR_OTHER||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.13||0.181|TWO_SIDED|90.0|-0.04|0.4|||ANCOVA|Treatment was included in the model as fixed effects, baseline hsCRP as covariate.||||0.40|-0.04|0.181
82479573|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.29|STANDARD_ERROR_OF_MEAN|5.97|<|0.001|TWO_SIDED|90.0|-53.16|-33.41||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-33.41|-53.16|<0.001
82479574|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.93|STANDARD_ERROR_OF_MEAN|6.02|<|0.001|TWO_SIDED|90.0|-86.89|-66.97||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-66.97|-86.89|<0.001
82479575|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-90.81|STANDARD_ERROR_OF_MEAN|6.08|<|0.001|TWO_SIDED|90.0|-100.87|-80.75||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-80.75|-100.87|<0.001
82479576|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.25|STANDARD_ERROR_OF_MEAN|5.96|<|0.001|TWO_SIDED|90.0|-77.12|-57.39||The P-value is for percent change from baseline in plasma CETP activity at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-57.39|-77.12|<0.001
82479577|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|6.21|<|0.001|TWO_SIDED|90.0|-52.88|-32.33||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-32.33|-52.88|<0.001
82479578|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.93|STANDARD_ERROR_OF_MEAN|6.17|<|0.001|TWO_SIDED|90.0|-89.15|-68.71||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-68.71|-89.15|<0.001
82479579|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.67|STANDARD_ERROR_OF_MEAN|6.29|<|0.001|TWO_SIDED|90.0|-104.08|-83.26||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-83.26|-104.08|<0.001
82479580|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.01|STANDARD_ERROR_OF_MEAN|6.31|<|0.001|TWO_SIDED|90.0|-85.46|-64.57||The P-value is for percent change from baseline in plasma CETP activity at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-64.57|-85.46|<0.001
82479581|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.28|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|90.0|-58.53|-42.04||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-42.04|-58.53|<0.001
82479582|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.07|STANDARD_ERROR_OF_MEAN|4.98|<|0.001|TWO_SIDED|90.0|-91.32|-74.83||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-74.83|-91.32|<0.001
82479583|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-94.51|STANDARD_ERROR_OF_MEAN|5.08|<|0.001|TWO_SIDED|90.0|-102.92|-86.1||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-86.10|-102.92|<0.001
82479584|NCT01375075|164653244|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.68|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|90.0|-76.2|-59.16||The P-value is for percent change from baseline in plasma CETP activity at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-59.16|-76.20|<0.001
82479585|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|1.38|2.21||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.21|1.38|<0.001
82552959|NCT04800211|164810282|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-22.566|||<|0.0001|TWO_SIDED|95.0|-34.837|-10.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Plasma sICAM-1 (ng/mL) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-10.295|-34.837|<.0001
82552960|NCT04800211|164810283|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-179.365|||<|0.0001|TWO_SIDED|95.0|-225.708|-133.022|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-133.022|-225.708|<.0001
82552961|NCT04800211|164810283|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-153.22|||<|0.0001|TWO_SIDED|95.0|-198.93|-107.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Total NNAL (ng/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-107.509|-198.930|<.0001
82562153|NCT02753075|164833770|SUPERIORITY_OR_OTHER||LS mean difference|0.11||||0.7525|TWO_SIDED|95.0|-0.578|0.798|||ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.798|-0.578|0.7525
82562154|NCT01301183|164833771|OTHER|ANCOVA||||||0.109||||||Adjusted for baseline age, height, bone density and 12-month weight change|ANCOVA|||||||.109
82562155|NCT01301183|164833772|OTHER|||||||0.344||||||Adjusted for age, height, baseline trabecular number and change in weight over 12 months|ANCOVA|||||||0.344
82562156|NCT04540952|164833787|SUPERIORITY|Power analysis indicated that with a sample size of 34 per arm, would provide 81% power to detect an effect size of 0.7 (0.7\*SD of fluid deficit) with a two-sided, two sample t test (a=0.05).|Mean Difference (Final Values)|11.3||||0.93|TWO_SIDED|95.0|-260.7|283.4|||t-test, 2 sided|||||283.4|-260.7|0.93
82479586|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|3.06|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|2.65|3.48||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.48|2.65|<0.001
82479587|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|3.46|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|3.04|3.88||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.88|3.04|<0.001
82479588|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|0.25|<|0.001|TWO_SIDED|90.0|1.81|2.63||The P-value is for change from baseline in plasma CETP mass at Week 4.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.63|1.81|<0.001
82479589|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.4|2.36||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.36|1.40|<0.001
82479590|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|2.99|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|2.51|3.47||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.47|2.51|<0.001
82479591|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|90.0|3.42|4.41||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||4.41|3.42|<0.001
82479592|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|2.04|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.56|2.52||The P-value is for change from baseline in plasma CETP mass at Week 8.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.52|1.56|<0.001
82479593|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.34|2.31||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.31|1.34|<0.001
82479594|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|2.34|3.31||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.31|2.34|<0.001
82479595|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|3.24|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|90.0|2.74|3.73||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||3.73|2.74|<0.001
82479596|NCT01375075|164653245|SUPERIORITY_OR_OTHER||LS Mean Difference|2.14|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|90.0|1.65|2.63||The P-value is for change from baseline in plasma CETP mass at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||2.63|1.65|<0.001
82479597|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|74.23|STANDARD_ERROR_OF_MEAN|12.59|<|0.001|TWO_SIDED|90.0|53.38|95.07||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||95.07|53.38|<0.001
82562157|NCT02584257|164833816|SUPERIORITY||Least Square Means Differences|3.171|STANDARD_ERROR_OF_MEAN|0.238|<|0.0001|TWO_SIDED|95.0|2.732|3.61||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||3.610|2.732|<0.0001
82581225|NCT01056718|164873982|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82581226|NCT01056718|164873983|SUPERIORITY_OR_OTHER||||||=|0.06|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.06
82479598|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|115.36|STANDARD_ERROR_OF_MEAN|12.55|<|0.001|TWO_SIDED|90.0|94.58|136.14||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||136.14|94.58|<0.001
82479599|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|135.57|STANDARD_ERROR_OF_MEAN|12.72|<|0.001|TWO_SIDED|90.0|114.5|156.63||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||156.63|114.50|<0.001
82479600|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.47|STANDARD_ERROR_OF_MEAN|4.85||0.002|TWO_SIDED|90.0|-23.5|-7.43||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-7.43|-23.50|0.002
82479601|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.37|STANDARD_ERROR_OF_MEAN|4.83|<|0.001|TWO_SIDED|90.0|-31.37|-15.38||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-15.38|-31.37|<0.001
82479602|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.19|STANDARD_ERROR_OF_MEAN|4.91|<|0.001|TWO_SIDED|90.0|-30.32|-14.06||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||Comparisons between LY2484595 and Placebo were the primary focus for this endpoint.||-14.06|-30.32|<0.001
82479603|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|103.25|STANDARD_ERROR_OF_MEAN|12.64|<|0.001|TWO_SIDED|90.0|82.32|124.18||The P-value is for percent change from baseline in HDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||124.18|82.32|<0.001
82479604|NCT01375075|164653246|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.63|STANDARD_ERROR_OF_MEAN|4.88||0.003|TWO_SIDED|90.0|-22.72|-6.55||The P-value is for percent change from baseline in LDL-C at Week 12.|Mixed Models Analysis|Treatment, visit, and treatment by visit interaction were included in the model as fixed effects, baseline measurement as covariate.||||-6.55|-22.72|0.003
82479605|NCT00545129|164653247|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.45||0.569|TWO_SIDED|95.0|-1.18|0.66|||ANCOVA|||Analysis of covariance (ANCOVA) model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. Least squares (LS) mean difference, and corresponding 95% confidence interval (CI) were estimated from ANCOVA model.||0.66|-1.18|0.569
82479606|NCT00545129|164653248|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.23||0.581|TWO_SIDED|95.0|-0.6|0.34|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.34|-0.60|0.581
82479607|NCT00545129|164653248|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.32||0.795|TWO_SIDED|95.0|-0.56|0.73|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.73|-0.56|0.795
82479608|NCT00545129|164653248|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.41||0.843|TWO_SIDED|95.0|-0.76|0.93|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.93|-0.76|0.843
82552962|NCT04800211|164810284|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.569|||<|0.0001|TWO_SIDED|95.0|-3.084|-2.054|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.054|-3.084|<.0001
82552963|NCT04800211|164810284|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-2.586|||<|0.0001|TWO_SIDED|95.0|-3.092|-2.081|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Whole Blood COHb (% Saturation) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||-2.081|-3.092|<.0001
82552964|NCT04800211|164810286|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.42||||0.0839|TWO_SIDED|95.0|-0.19|3.04|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.04|-0.19|0.0839
82651102|NCT04147715|165016995|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.1806|||||TWO_SIDED|90.0|1.1171|1.2477|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.2477|1.1171|
82479609|NCT00545129|164653248|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.43||0.292|TWO_SIDED|95.0|-1.34|0.42|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.42|-1.34|0.292
82552965|NCT04800211|164810286|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|2.1||||0.0089|TWO_SIDED|95.0|0.53|3.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1 (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.66|0.53|0.0089
82552966|NCT04800211|164810287|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.26||||0.7101|TWO_SIDED|95.0|-1.13|1.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||1.66|-1.13|0.7101
82552967|NCT04800211|164810287|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.24||||0.7325|TWO_SIDED|95.0|-1.12|1.59|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||1.59|-1.12|0.7325
82479610|NCT00545129|164653249|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.23||0.299|TWO_SIDED|95.0|-0.72|0.23|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.23|-0.72|0.299
82479611|NCT00545129|164653249|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.34||0.519|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.47|0.519
82479612|NCT00545129|164653249|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.42||0.776|TWO_SIDED|95.0|-0.74|0.98|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.98|-0.74|0.776
82479613|NCT00545129|164653249|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.45||0.978|TWO_SIDED|95.0|-0.93|0.91|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.93|0.978
82479614|NCT00545129|164653249|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.45||0.689|TWO_SIDED|95.0|-1.1|0.73|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.73|-1.10|0.689
82479615|NCT00545129|164653250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.23||0.299|TWO_SIDED|95.0|-0.72|0.23|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.23|-0.72|0.299
82479616|NCT00545129|164653250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.34||0.519|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.91|-0.47|0.519
82479617|NCT00545129|164653250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.44||0.618|TWO_SIDED|95.0|-0.68|1.13|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.13|-0.68|0.618
82479618|NCT00545129|164653250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.47||0.818|TWO_SIDED|95.0|-0.85|1.07|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.07|-0.85|0.818
82479619|NCT00545129|164653250|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.48||0.819|TWO_SIDED|95.0|-0.87|1.09||P-value was based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.09|-0.87|0.819
82479620|NCT00545129|164653251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.34||0.906|TWO_SIDED|95.0|-0.66|0.74|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.74|-0.66|0.906
82479621|NCT00545129|164653251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.44||0.906|TWO_SIDED|95.0|-0.95|0.85|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.85|-0.95|0.906
82479622|NCT00545129|164653251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.5||0.613|TWO_SIDED|95.0|-0.78|1.29|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.29|-0.78|0.613
82479623|NCT00545129|164653251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.46||0.988|TWO_SIDED|95.0|-0.95|0.94|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.94|-0.95|0.988
82479624|NCT00545129|164653251|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.47||0.922|TWO_SIDED|95.0|-1.01|0.92|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.92|-1.01|0.922
82479625|NCT00545129|164653252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.4||0.655|TWO_SIDED|95.0|-1.03|0.66|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.66|-1.03|0.655
82479626|NCT00545129|164653252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.44||0.897|TWO_SIDED|95.0|-0.85|0.96|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.96|-0.85|0.897
82479627|NCT00545129|164653252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.51||0.798|TWO_SIDED|95.0|-0.93|1.2|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.20|-0.93|0.798
82479628|NCT00545129|164653252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.51||0.672|TWO_SIDED|95.0|-0.83|1.27|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.27|-0.83|0.672
82479629|NCT00545129|164653252|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.48||0.243|TWO_SIDED|95.0|-1.56|0.41|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.41|-1.56|0.243
82479630|NCT00545129|164653253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.41||0.445|TWO_SIDED|95.0|-1.16|0.52|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.52|-1.16|0.445
82581227|NCT01056718|164873984|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82651103|NCT04147715|165016995|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.048|||||TWO_SIDED|90.0|0.9656|1.1373|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1373|0.9656|
82479631|NCT00545129|164653253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.49||0.992|TWO_SIDED|95.0|-1.0|1.0|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.00|-1.00|0.992
82479632|NCT00545129|164653253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.53||0.655|TWO_SIDED|95.0|-1.34|0.86|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.86|-1.34|0.655
82479633|NCT00545129|164653253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.58||0.86|TWO_SIDED|95.0|-1.09|1.3|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.30|-1.09|0.860
82479634|NCT00545129|164653253|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.59||0.595|TWO_SIDED|95.0|-1.52|0.89|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.89|-1.52|0.595
82479635|NCT00545129|164653254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.179|TWO_SIDED|95.0|-1.76|0.35|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.35|-1.76|0.179
82479636|NCT00545129|164653254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.938|TWO_SIDED|95.0|-1.02|1.1|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.10|-1.02|0.938
82479637|NCT00545129|164653254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.55||0.621|TWO_SIDED|95.0|-1.41|0.86|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.86|-1.41|0.621
82479638|NCT00545129|164653254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.64||0.863|TWO_SIDED|95.0|-1.44|1.21|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||1.21|-1.44|0.863
82479639|NCT00545129|164653254|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.59||0.237|TWO_SIDED|95.0|-1.95|0.51|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as covariate and study site as random effect. LS mean difference and corresponding 95% CI were estimated from ANCOVA model.||0.51|-1.95|0.237
82479640|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||1|TWO_SIDED|95.0|0.1|4.94|||Fisher Exact|||Week 1 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.94|0.10|1.000
82479641|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||1|TWO_SIDED|95.0|0.23|3.32|||Fisher Exact|||Week 2 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.32|0.23|1.000
82479642|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||1|TWO_SIDED|95.0|0.05|6.35|||Fisher Exact|||Week 2 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.35|0.05|1.000
82479643|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.601|TWO_SIDED|95.0|0.44|4.53|||Fisher Exact|||Week 4 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.53|0.44|0.601
82479644|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.36|TWO_SIDED|95.0|0.46|8.51|||Fisher Exact|||Week 4 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.51|0.46|0.360
82479645|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||1|TWO_SIDED|95.0|0.01|10.24|||Fisher Exact|||Week 4 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||10.24|0.01|1.000
82479646|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.596|TWO_SIDED|95.0|0.43|4.66|||Fisher Exact|||Week 6 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.66|0.43|0.596
82479647|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.52||||0.552|TWO_SIDED|95.0|0.39|6.24|||Fisher Exact|||Week 6 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.24|0.39|0.552
82479648|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.612|TWO_SIDED|95.0|0.1|131.03|||Fisher Exact|||Week 6 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||131.03|0.10|0.612
82479649|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|19.66|||Fisher Exact|||Week 6 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||19.66|0.00|1.000
82479650|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.73||||0.029|TWO_SIDED|95.0|1.04|14.32|||Fisher Exact|||Week 8 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||14.32|1.04|0.029
82479651|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.63||||0.143|TWO_SIDED|95.0|0.67|11.36|||Fisher Exact|||Week 8 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||11.36|0.67|0.143
82479652|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.07|15.25|||Fisher Exact|||Week 8 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||15.25|0.07|1.000
82479653|NCT00545129|164653255|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.492|TWO_SIDED|95.0|0.0|3.57|||Fisher Exact|||Week 8 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.57|0.00|0.492
82479654|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.75||||1|TWO_SIDED|95.0|0.1|4.94|||Fisher Exact|||Week 1 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.94|0.10|1.000
82479655|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.88||||1|TWO_SIDED|95.0|0.23|3.32|||Fisher Exact|||Week 2 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.32|0.23|1.000
82479656|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.67||||1|TWO_SIDED|95.0|0.05|6.35|||Fisher Exact|||Week 2 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.35|0.05|1.000
82479657|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.795|TWO_SIDED|95.0|0.38|3.88|||Fisher Exact|||Week 4 (\>=30%) reduction: odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.88|0.38|0.795
82479658|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.36|TWO_SIDED|95.0|0.46|8.51|||Fisher Exact|||Week 4 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.51|0.46|0.360
82479659|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||1|TWO_SIDED|95.0|0.01|10.24|||Fisher Exact|||Week 4 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||10.24|0.01|1.000
82479660|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||1|TWO_SIDED|95.0|0.33|3.39|||Fisher Exact|||Week 6 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.39|0.33|1.000
82479661|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.771|TWO_SIDED|95.0|0.33|4.83|||Fisher Exact|||Week 6 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||4.83|0.33|0.771
82479662|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.612|TWO_SIDED|95.0|0.1|131.03|||Fisher Exact|||Week 6 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||131.03|0.10|0.612
82479663|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|19.66|||Fisher Exact|||Week 6 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||19.66|0.00|1.000
82479664|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.187|TWO_SIDED|95.0|0.66|7.3|||Fisher Exact|||Week 8 (\>=30%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.30|0.66|0.187
82479665|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.73||||0.399|TWO_SIDED|95.0|0.48|6.43|||Fisher Exact|||Week 8 (\>=50%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||6.43|0.48|0.399
82479666|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.07|15.25|||Fisher Exact|||Week 8 (\>=70%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||15.25|0.07|1.000
82479667|NCT00545129|164653256|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0||||0.492|TWO_SIDED|95.0|0.0|3.57|||Fisher Exact|||Week 8 (\>=90%) reduction: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||3.57|0.00|0.492
82479668|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.68||0.188|TWO_SIDED|95.0|0.77|3.73|||Negative binomial regression|||Week 1: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||3.73|0.77|0.188
82479669|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.81|STANDARD_ERROR_OF_MEAN|0.85||0.207|TWO_SIDED|95.0|0.72|4.54|||Negative binomial regression|||Week 2: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||4.54|0.72|0.207
82479670|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.71|STANDARD_ERROR_OF_MEAN|0.92||0.317|TWO_SIDED|95.0|0.6|4.93|||Negative binomial regression|||Week 3: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||4.93|0.60|0.317
82552968|NCT04800211|164810288|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.48||||0.0136|TWO_SIDED|95.0|0.31|2.66|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.66|0.31|0.0136
82581228|NCT01056718|164873985|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82479671|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|0.7||0.554|TWO_SIDED|95.0|0.5|3.71|||Negative binomial regression|||Week 4: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||3.71|0.50|0.554
82479672|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.35||0.581|TWO_SIDED|95.0|0.32|1.89|||Negative binomial regression|||Week 5: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.89|0.32|0.581
82479673|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.61|STANDARD_ERROR_OF_MEAN|0.27||0.252|TWO_SIDED|95.0|0.26|1.43|||Negative binomial regression|||Week 6: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.43|0.26|0.252
82479674|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.31||0.365|TWO_SIDED|95.0|0.26|1.64|||Negative binomial regression|||Week 7: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.64|0.26|0.365
82479675|NCT00545129|164653258|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.58|STANDARD_ERROR_OF_MEAN|0.25||0.212|TWO_SIDED|95.0|0.25|1.36|||Negative binomial regression|||Week 8: Negative binomial regression model with model terms for treatment as a main effect. P-value was based on negative binomial regression model from pairwise comparisons. LS mean difference and corresponding 95% CI were estimated from the corresponding negative binomial regression model.||1.36|0.25|0.212
82581229|NCT01056718|164873986|SUPERIORITY_OR_OTHER||||||=|0.85|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.85
82552969|NCT04800211|164810288|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.94||||0.0009|TWO_SIDED|95.0|0.8|3.08|||ANCOVA||The ANCOVA includes study group, gender, and age class as fixed effects, and baseline score as the covariate. Least-squares means (LS Means) are calculated from the ANCOVA.|Null hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Screening) for Percentage of Predicted FEV1/FVC (%) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||3.08|0.80|0.0009
82479676|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.215|TWO_SIDED|95.0|-0.13|0.55|||ANCOVA|||Change at Week 2 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.55|-0.13|0.215
82552970|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.038||||0.9294|TWO_SIDED|95.0|-0.795|0.87|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.870|-0.795|0.9294
82562158|NCT02584257|164833816|SUPERIORITY||Least Square Means Differences|3.824|STANDARD_ERROR_OF_MEAN|0.238|<|0.0001|TWO_SIDED|95.0|3.384|4.263||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||4.263|3.384|<0.0001
82479677|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.947|TWO_SIDED|95.0|-0.45|0.42|||ANCOVA|||Change at Week 4 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.42|-0.45|0.947
82479678|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.341|TWO_SIDED|95.0|-0.56|0.2|||ANCOVA|||Change at Week 6 (Fatigue MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.20|-0.56|0.341
82479679|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.24||0.18|TWO_SIDED|95.0|-0.83|0.17|||ANCOVA|||Change at Week 2 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.17|-0.83|0.180
82581230|NCT01056718|164873987|SUPERIORITY_OR_OTHER||||||=|0.4|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.40
82651104|NCT04147715|165016997|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.3445|||||TWO_SIDED|90.0|1.2352|1.4636|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.4636|1.2352|
82479680|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.509|TWO_SIDED|95.0|-0.43|0.84|||ANCOVA|||Change at Week 4 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.84|-0.43|0.509
82479681|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.767|TWO_SIDED|95.0|-0.62|0.82|||ANCOVA|||Change at Week 6 (Drowsiness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.82|-0.62|0.767
82479682|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.25||0.108|TWO_SIDED|95.0|-0.11|0.95|||ANCOVA|||Change at Week 2 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.95|-0.11|0.108
82562159|NCT02584257|164833816|SUPERIORITY||Least Square Means Differences|3.32|STANDARD_ERROR_OF_MEAN|0.241|<|0.0001|TWO_SIDED|95.0|2.876|3.764||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL.||||3.764|2.876|<0.0001
82562160|NCT02584257|164833816|SUPERIORITY||Least Square Means Differences|3.872|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|3.43|4.315||Fixed effects of dose, week, and sequence and the random effect of the patient was carried out to ensure that the overall treatment effect was significant at p\<0.05.|Brief Mixed Models Analysis|For this model, the dependent variable was log2(PC20FEV1) values where PC20FEV1 was measured in mg/mL||||4.315|3.430|<0.0001
82479683|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.37||0.28|TWO_SIDED|95.0|-1.26|0.41|||ANCOVA|||Change at Week 4 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.41|-1.26|0.280
82552971|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.277||||0.529|TWO_SIDED|95.0|-0.587|1.142|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.142|-0.587|0.5290
82552972|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.508||||0.2291|TWO_SIDED|95.0|-1.337|0.321|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.321|-1.337|0.2291
82552973|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.525||||0.2179|TWO_SIDED|95.0|-0.311|1.361|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.361|-0.311|0.2179
82581231|NCT01056718|164873988|SUPERIORITY_OR_OTHER||||||=|0.64|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.64
82581232|NCT01056718|164873989|SUPERIORITY_OR_OTHER||||||=|0.49|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.49
82479684|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.57||0.747|TWO_SIDED|95.0|-1.53|1.15|||ANCOVA|||Change at Week 6 (Inability to Concentrate MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.15|-1.53|0.747
82479685|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.991|TWO_SIDED|95.0|-0.87|0.88|||ANCOVA|||Change at Week 2 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.88|-0.87|0.991
82479686|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.27||0.335|TWO_SIDED|95.0|-0.41|0.99|||ANCOVA|||Change at Week 4 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.99|-0.41|0.335
82479687|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.7||0.159|TWO_SIDED|95.0|-4.57|1.48|||ANCOVA|||Change at Week 6 (Nausea MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.48|-4.57|0.159
82479688|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.23||0.136|TWO_SIDED|95.0|-0.16|0.94|||ANCOVA|||Change at Week 2 (Dizziness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.94|-0.16|0.136
82479689|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|0.37||0.186|TWO_SIDED|95.0|-3.46|5.9|||ANCOVA|||Change at Week 6 (Dizziness MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||5.90|-3.46|0.186
82479690|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.48||0.292|TWO_SIDED|95.0|-1.52|0.49|||ANCOVA|||Change at Week 2 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.49|-1.52|0.292
82479691|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.38||0.225|TWO_SIDED|95.0|-0.34|1.3|||ANCOVA|||Change at Week 4 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.30|-0.34|0.225
82479692|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.36||0.517|TWO_SIDED|95.0|-0.58|1.07|||ANCOVA|||Change at Week 6 (Constipation MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.07|-0.58|0.517
82479693|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.58||1|TWO_SIDED|95.0|-2.48|2.48|||ANCOVA|||Change at Week 2 (Itching MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||2.48|-2.48|1.000
82552974|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.401||||0.2002|TWO_SIDED|95.0|-0.213|1.016|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||1.016|-0.213|0.2002
82552975|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.29||||0.476|TWO_SIDED|95.0|-1.089|0.509|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 6). (mITT Population)||0.509|-1.089|0.4760
82479694|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|95.0|-1.01|-0.99|||ANCOVA|||Change at Week 4 (Itching MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||-0.99|-1.01|<0.001
82479695|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.43||0.362|TWO_SIDED|95.0|-0.75|1.63|||ANCOVA|||Change at Week 2 (Difficulty with Urination MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||1.63|-0.75|0.362
82552976|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-0.699||||0.0914|TWO_SIDED|95.0|-1.512|0.113|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 7 (Week 12). (mITT Population)||0.113|-1.512|0.0914
82552977|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|0.328||||0.9705|TWO_SIDED|95.0|-1.122|1.777|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||1.777|-1.122|0.9705
82581233|NCT01056718|164873990|SUPERIORITY_OR_OTHER||||||=|0.47|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.47
82479696|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|4.08||1|TWO_SIDED|95.0|-51.87|51.87|||ANCOVA|||Change at Week 4 (Difficulty with Urination MDA): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||51.87|-51.87|1.000
82479697|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|0.1||0.031|TWO_SIDED|95.0|-3.3|-0.76|||ANCOVA|||Change at Week 4 (Retching/Vomiting MDR): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||-0.76|-3.30|0.031
82479698|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.15||0.886|TWO_SIDED|95.0|-0.28|0.32|||ANCOVA|||Change at Week 2 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.32|-0.28|0.886
82581234|NCT01056718|164873991|SUPERIORITY_OR_OTHER||||||=|0.55|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.55
82581235|NCT01056718|164873992|SUPERIORITY_OR_OTHER||||||=|0.64|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=0.64
82581236|NCT01056718|164873993|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82581237|NCT01056718|164873994|SUPERIORITY_OR_OTHER||||||=|0.526|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.526
82581238|NCT01056718|164873995|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82581239|NCT01056718|164873996|SUPERIORITY_OR_OTHER||||||=|0.925|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.925
82581240|NCT01056718|164873997|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||<0.05
82581241|NCT01056718|164873998|SUPERIORITY_OR_OTHER||||||=|0.458|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.458
82581242|NCT01056718|164873999|SUPERIORITY_OR_OTHER||||||=|0.561|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.561
82581243|NCT01056718|164874000|SUPERIORITY_OR_OTHER||||||=|0.734|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.734
82479699|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.21||0.66|TWO_SIDED|95.0|-0.52|0.33|||ANCOVA|||Change at Week 4 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.33|-0.52|0.660
82479700|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.238|TWO_SIDED|95.0|-0.54|0.14|||ANCOVA|||Change at Week 6 (Frequency Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.14|-0.54|0.238
82479701|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.14||0.36|TWO_SIDED|95.0|-0.42|0.16|||ANCOVA|||Change at Week 2 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.16|-0.42|0.360
82479702|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.17||0.278|TWO_SIDED|95.0|-0.16|0.54|||ANCOVA|||Change at Week 4 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.54|-0.16|0.278
82581244|NCT01056718|164874001|SUPERIORITY_OR_OTHER||||||=|0.129|TWO_SIDED||||||t-test, 2 sided|||Nebivolol treatment group refers to 50 patients that completed 10 weeks of open label nebivolol treatment. Results were compared using paired T-tests in a pre - post study design before and after 10 weeks of his/her treatment. Each subject served as own control.||||=.129
82479703|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.15||0.809|TWO_SIDED|95.0|-0.34|0.27|||ANCOVA|||Change at Week 6 (Severity Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.27|-0.34|0.809
82479704|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.18||0.944|TWO_SIDED|95.0|-0.35|0.38|||ANCOVA|||Change at Week 2 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.38|-0.35|0.944
82581245|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.002||||||This is the PCS KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.002
82586090|NCT01315353|164884122|SUPERIORITY|Confidence interval estimation was stratified by ART use at screening using Greenwood's variance with the inverse of this variance used for the stratum weights.|Cumulative rate difference|1.7|||||ONE_SIDED|95.0|-7.9||||||The lower bound of the (lower) one-sided 95% confidence interval was provided.|Treatment comparison was made using the difference (arm B - arm A) in the stratified Kaplan-Meier estimate for the week 130 cumulative rate of CIN2+ with 95% one-sided confidence interval.|||-7.9|
82479705|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.26||0.892|TWO_SIDED|95.0|-0.48|0.55|||ANCOVA|||Change at Week 4 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.55|-0.48|0.892
82479706|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.884|TWO_SIDED|95.0|-0.39|0.45|||ANCOVA|||Change at Week 6 (Bother Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.45|-0.39|0.884
82479707|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.919|TWO_SIDED|95.0|-0.26|0.28|||ANCOVA|||Change at Week 2 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.28|-0.26|0.919
82479708|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.19||0.752|TWO_SIDED|95.0|-0.33|0.45|||ANCOVA|||Change at Week 4 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.45|-0.33|0.752
82552978|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|0.977||||0.328|TWO_SIDED|95.0|-0.512|2.465|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.465|-0.512|0.3280
82552979|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)|Mean Difference (Net)|-0.218||||0.9951|TWO_SIDED|95.0|-1.667|1.23|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 6). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 6). (mITT Population)||1.230|-1.667|0.9951
82581246|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.23||||||This is the MCS KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.23
82581247|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.18||||||This is the Burden KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.18
82586091|NCT01315353|164884123|OTHER|||||||0.94||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Log Rank|Log-rank test was stratified by ART use at screening.||Null Hypothesis: There is no difference between Arm A and Arm B with respect to time to CIN2+.||||0.94
82479709|NCT00545129|164653259|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.14||0.715|TWO_SIDED|95.0|-0.34|0.24|||ANCOVA|||Change at Week 6 (MDA Composite Score): LS mean difference and corresponding 95% CI were estimated from the corresponding repeated measures ANCOVA model.||0.24|-0.34|0.715
82479710|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.47||0.666|TWO_SIDED|95.0|-0.77|1.18|||ANCOVA|||Change at Week 1 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.18|-0.77|0.666
82479711|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.49||0.745|TWO_SIDED|95.0|-0.86|1.18|||ANCOVA|||Change at Week 2 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.18|-0.86|0.745
82479712|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.48||0.749|TWO_SIDED|95.0|-1.14|0.83|||ANCOVA|||Change at Week 4 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.83|-1.14|0.749
82479713|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.5||0.794|TWO_SIDED|95.0|-1.16|0.9|||ANCOVA|||Change at Week 6 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.90|-1.16|0.794
82479714|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.56||0.772|TWO_SIDED|95.0|-1.33|1.0|||ANCOVA|||Change at Week 8 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.33|0.772
82552980|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.225||||0.1367|TWO_SIDED|95.0|-0.244|2.693|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.693|-0.244|0.1367
82479715|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.5||0.547|TWO_SIDED|95.0|-0.73|1.34|||ANCOVA|||Change at Week 1 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.34|-0.73|0.547
82479716|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.57||0.65|TWO_SIDED|95.0|-1.43|0.91|||ANCOVA|||Change at Week 2 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.91|-1.43|0.650
82479717|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.55||0.808|TWO_SIDED|95.0|-1.27|1.0|||ANCOVA|||Change at Week 4 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.27|0.808
82479718|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.55||0.915|TWO_SIDED|95.0|-1.19|1.07|||ANCOVA|||Change at Week 6 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.07|-1.19|0.915
82479719|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.757|TWO_SIDED|95.0|-1.54|1.14|||ANCOVA|||Change at Week 8 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.14|-1.54|0.757
82479720|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.57||0.987|TWO_SIDED|95.0|-1.19|1.17|||ANCOVA|||Change at Week 1 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.17|-1.19|0.987
82581248|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.02||||||This is the Symptoms KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.02
82581249|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.004||||||This is the Effects KDQOL Subscale p-value for change in 0-6 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.004
82479721|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.64||0.781|TWO_SIDED|95.0|-1.14|1.51|||ANCOVA|||Change at Week 2 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.51|-1.14|0.781
82479722|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.61||0.834|TWO_SIDED|95.0|-1.13|1.38|||ANCOVA|||Change at Week 4 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.38|-1.13|0.834
82479723|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.59||0.851|TWO_SIDED|95.0|-1.32|1.1|||ANCOVA|||Change at Week 6 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.10|-1.32|0.851
82479724|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.68||0.701|TWO_SIDED|95.0|-1.68|1.15|||ANCOVA|||Change at Week 8 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.15|-1.68|0.701
82479725|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.59||0.453|TWO_SIDED|95.0|-1.68|0.77|||ANCOVA|||Change at Week 1 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.77|-1.68|0.453
82479726|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.67||0.258|TWO_SIDED|95.0|-2.15|0.6|||ANCOVA|||Change at Week 2 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.60|-2.15|0.258
82479727|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.64||0.736|TWO_SIDED|95.0|-1.53|1.09|||ANCOVA|||Change at Week 4 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.09|-1.53|0.736
82552981|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|1.101||||0.0294|TWO_SIDED|95.0|0.111|2.091|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 7 (Week 12). (mITT Population)||2.091|0.111|0.0294
82552982|NCT04800211|164810289|EQUIVALENCE|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)|Mean Difference (Net)|-0.248||||0.6792|TWO_SIDED|95.0|-1.424|0.928|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Test 2 on Visit 7 (Week 12). Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Test 2 on Visit 7 (Week 12). (mITT Population)||0.928|-1.424|0.6792
82552983|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.638||||0.4012|TWO_SIDED|95.0|-0.86|2.137|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||2.137|-0.860|0.4012
82581250|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.01||||||This is the PCS KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.01
82581251|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.21||||||This is the MCS KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.21
82581252|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Burden KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
82479728|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.64||0.491|TWO_SIDED|95.0|-1.76|0.87|||ANCOVA|||Change at Week 6 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.87|-1.76|0.491
82479729|NCT00545129|164653260|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.62||0.695|TWO_SIDED|95.0|-1.53|1.04|||ANCOVA|||Change at Week 8 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.04|-1.53|0.695
82479730|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.6||0.897|TWO_SIDED|95.0|-1.34|1.19|||ANCOVA|||Change at Week 1 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.19|-1.34|0.897
82479731|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.56||0.643|TWO_SIDED|95.0|-0.9|1.43|||ANCOVA|||Change at Week 2 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.43|-0.90|0.643
82479732|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.51||0.464|TWO_SIDED|95.0|-1.45|0.68|||ANCOVA|||Change at Week 4 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.68|-1.45|0.464
82479733|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.56||0.593|TWO_SIDED|95.0|-1.46|0.86|||ANCOVA|||Change at Week 6 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.86|-1.46|0.593
82479734|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.61||0.423|TWO_SIDED|95.0|-1.77|0.77|||ANCOVA|||Change at Week 8 (Composite Score): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.77|-1.77|0.423
82479735|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.65||0.805|TWO_SIDED|95.0|-1.21|1.54|||ANCOVA|||Change at Week 1 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.54|-1.21|0.805
82479736|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.68||0.882|TWO_SIDED|95.0|-1.3|1.51|||ANCOVA|||Change at Week 2 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.51|-1.30|0.882
82479737|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.63||0.446|TWO_SIDED|95.0|-1.79|0.81|||ANCOVA|||Change at Week 4 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.81|-1.79|0.446
82479738|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.68||0.604|TWO_SIDED|95.0|-1.77|1.05|||ANCOVA|||Change at Week 6 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.05|-1.77|0.604
82479739|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.76||0.393|TWO_SIDED|95.0|-2.24|0.91|||ANCOVA|||Change at Week 8 (General Activity): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.91|-2.24|0.393
82479740|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.79||0.399|TWO_SIDED|95.0|-2.33|0.97|||ANCOVA|||Change at Week 1 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.97|-2.33|0.399
82479741|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.75||0.876|TWO_SIDED|95.0|-1.43|1.66|||ANCOVA|||Change at Week 2 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.66|-1.43|0.876
82479742|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.66||0.74|TWO_SIDED|95.0|-1.58|1.14|||ANCOVA|||Change at Week 4 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.14|-1.58|0.740
82479743|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.69||0.854|TWO_SIDED|95.0|-1.56|1.31|||ANCOVA|||Change at Week 6 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.31|-1.56|0.854
82479744|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.78||0.436|TWO_SIDED|95.0|-2.24|1.0|||ANCOVA|||Change at Week 8 (Walking Ability): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-2.24|0.436
82479745|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.72||0.087|TWO_SIDED|95.0|-2.81|0.21|||ANCOVA|||Change at Week 1 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.21|-2.81|0.087
82586092|NCT01315353|164884124|OTHER||Cumulative rate difference|4.4|||||TWO_SIDED|95.0|-4.8|13.6|||||Confidence interval estimation was stratified by ART use at screening using Greenwood's variance with the inverse of this variance used for the stratum weights.|Treatment comparison was made using the difference (arm B - arm A) in the stratified Kaplan-Meier estimate for the week 130 cumulative rate of CIN3+ with 95% two-sided confidence interval.||13.6|-4.8|
82581253|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Symptoms KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
82479746|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.75||0.278|TWO_SIDED|95.0|-2.4|0.72|||ANCOVA|||Change at Week 2 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.72|-2.40|0.278
82479747|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.69||0.548|TWO_SIDED|95.0|-1.84|1.0|||ANCOVA|||Change at Week 4 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||1.00|-1.84|0.548
82479748|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.75||0.318|TWO_SIDED|95.0|-2.33|0.79|||ANCOVA|||Change at Week 6 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.79|-2.33|0.318
82479749|NCT00545129|164653261|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.73||0.484|TWO_SIDED|95.0|-2.02|0.99|||ANCOVA|||Change at Week 8 (Normal Work): ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.99|-2.02|0.484
82479750|NCT00545129|164653262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.399|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 1: P-value was calculated by Cochran-Mantel-Haenszel (CMH test) stratified by center.||||0.399
82479751|NCT00545129|164653262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.779|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 2: P-value was calculated by CMH test stratified by center.||||0.779
82479752|NCT00545129|164653262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.922|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 4: P-value was calculated by CMH test stratified by center.||||0.922
82479753|NCT00545129|164653262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.811|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 6: P-value was calculated by CMH test stratified by center.||||0.811
82479754|NCT00545129|164653262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Week 8: P-value was calculated by CMH test stratified by center.||||0.237
82479755|NCT00545129|164653263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.108|TWO_SIDED|95.0|-0.82|0.09|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.09|-0.82|0.108
82479756|NCT00545129|164653263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.202|TWO_SIDED|95.0|-0.7|0.16|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.16|-0.70|0.202
82479757|NCT00545129|164653263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.2||0.571|TWO_SIDED|95.0|-0.54|0.3|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.30|-0.54|0.571
82479758|NCT00545129|164653263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.24||0.808|TWO_SIDED|95.0|-0.55|0.43|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.43|-0.55|0.808
82479759|NCT00545129|164653263|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.26||0.913|TWO_SIDED|95.0|-0.57|0.51|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.51|-0.57|0.913
82479760|NCT00545129|164653264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.22||0.108|TWO_SIDED|95.0|-0.82|0.09|||ANCOVA|||Change at Week 1: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.09|-0.82|0.108
82479761|NCT00545129|164653264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.21||0.339|TWO_SIDED|95.0|-0.65|0.23|||ANCOVA|||Change at Week 2: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.23|-0.65|0.339
82479762|NCT00545129|164653264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.23||0.408|TWO_SIDED|95.0|-0.67|0.28|||ANCOVA|||Change at Week 4: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.28|-0.67|0.408
82479763|NCT00545129|164653264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.27||0.686|TWO_SIDED|95.0|-0.67|0.45|||ANCOVA|||Change at Week 6: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.45|-0.67|0.686
82552984|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.163||||0.0201|TWO_SIDED|95.0|0.343|3.983|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.983|0.343|0.0201
82552985|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.21||||0.1709|TWO_SIDED|95.0|-0.528|2.948|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||2.948|-0.528|0.1709
82552986|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.593||||0.0307|TWO_SIDED|95.0|0.15|3.035|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.035|0.150|0.0307
82552987|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.588||||0.0691|TWO_SIDED|95.0|-0.126|3.302|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.302|-0.126|0.0691
82562161|NCT02584257|164833816|EQUIVALENCE|A blinded interim analysis was performed after 60 patients completed all treatment visits which determined that 80 subjects would be sufficient to complete the study with 90% power.|Frel|1.15|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.93|1.48|||||Frel is the relative bioavailability of the test versus reference product. The CI was a bias corrected and accelerated CI based on a bootstrapping procedure. The FDA acceptable CI was between 0.67 and 1.50.|An Emax model was developed and the 90% confidence interval of Frel was a bias corrected accelerated confidence interval based on a bootstrapping procedure. The bootstrapping procedure used for this analysis was residual resampling. The Per-Protocol population was the primary population for bioequivalence analysis. Patients in the PP population must have completed at least 2 treatment periods with valid PC20FEV1 measurements and had no major protocol deviations within those intervals.||1.48|0.93|
82581254|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.14||||||This is the Effects KDQOL Subscale p-value for change in 6-12 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.14
82581255|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.45||||||This is the PCS KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.45
82552988|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.487||||0.0034|TWO_SIDED|95.0|0.838|4.137|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.137|0.838|0.0034
82552989|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.849||||0.0034|TWO_SIDED|95.0|0.622|3.075|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.075|0.622|0.0034
82552990|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.178||||0.8123|TWO_SIDED|95.0|-1.654|1.299|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.299|-1.654|0.8123
82581256|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.79||||||This is the MCS KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.79
82552991|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.48||||0.5879|TWO_SIDED|95.0|-2.226|1.267|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.267|-2.226|0.5879
82562162|NCT02137785|164833817|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Analysis uses observed data only. Missing data was not imputed except for subjects with missing CCR are classified as not having a CCR (ie non-responder).|Cochran-Mantel-Haenszel|CMH test stratified by analysis center||A hierarchical procedure was used to control the level of significance. If the primary analysis was sig (p≤0.05), then AKCR at Week 12 were to be compared. If this analysis was significant, then the AKCR at Week 8 were to be compared. If this analysis was significant, then the CCR at Week 8 was to be compared.||||0.0001
82562163|NCT02137785|164833818|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|linear mixed model with fixed effects for treatment group, time point, and treatment group by time point interaction||||||<0.0001
82581257|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.77||||||This is the Burden KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.77
82651105|NCT04147715|165016997|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0769|||||TWO_SIDED|90.0|1.0137|1.1441|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed Cτ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cτ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1441|1.0137|
82479764|NCT00545129|164653264|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.3||0.493|TWO_SIDED|95.0|-0.81|0.4|||ANCOVA|||Change at Week 8: ANCOVA model included treatment and cancer type as fixed effects, baseline value as a covariate and study site as a random effect. LS mean difference and corresponding 95% CI were estimated from the corresponding ANCOVA model.||0.40|-0.81|0.493
82479765|NCT00545129|164653265|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.58||||0.724|TWO_SIDED|95.0|0.03|12.27|||Fisher Exact|||Week 1: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||12.27|0.03|0.724
82552992|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-0.596||||0.491|TWO_SIDED|95.0|-2.304|1.111|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Control is equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Control is NOT equal to zero on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.111|-2.304|0.4910
82552993|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|0.816||||0.9673|TWO_SIDED|95.0|-1.967|3.599|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||3.599|-1.967|0.9673
82552994|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.643||||0.1787|TWO_SIDED|95.0|-0.683|5.968|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.968|-0.683|0.1787
82552995|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.806||||0.5243|TWO_SIDED|95.0|-1.406|5.018|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.018|-1.406|0.5243
82562164|NCT02137785|164833819|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|linear mixed model with fixed effects for treatment group, time point, and treatment group by time point interaction||||||<0.0001
82562165|NCT02137785|164833820|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Analysis uses observed data only. Missing data was not imputed except for subjects with missing CCR are classified as not having a CCR (ie non-responder).|Cochran-Mantel-Haenszel|CMH test stratified by analysis center||||||0.0001
82562166|NCT01584648|164833894|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.59|0.91|||||Hazard ratios (HRs) were estimated using a Pike estimator.|||0.91|0.59|
82479766|NCT00545129|164653265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.947|TWO_SIDED||||||Fisher Exact|||Week 2: P-value was calculated using Fisher Extract method.||||0.947
82552996|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|1.77||||0.3956|TWO_SIDED|95.0|-0.966|4.507|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 1 (Week 12), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.507|-0.966|0.3956
82552997|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.068||||0.381|TWO_SIDED|95.0|-1.16|5.295|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 3 (Week 18), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||5.295|-1.160|0.3810
82552998|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|3.084||||0.0557|TWO_SIDED|95.0|-0.049|6.216|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||6.216|-0.049|0.0557
82552999|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|2.445||||0.0195|TWO_SIDED|95.0|0.4|4.49|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 1 + Test 2 is NOT equal to Control on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||4.490|0.400|0.0195
82553000|NCT04800211|164810290|EQUIVALENCE|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)|Mean Difference (Net)|-1.277||||0.2817|TWO_SIDED|95.0|-3.615|1.06|||Mixed Models Analysis||LSM calculated from the MMRM includes study group, study visit, study group by study visit interaction, gender, age class, BMI class as fixed effects and baseline value as the covariate, with a variance-covariance matrix based on the AIC value.|Null hypothesis: Absolute change from Baseline for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. Alternate hypothesis: Absolute change from Baseline (Week 1) for Urine Nicotine Equivalents (mg/g creatinine) in Test 2 is NOT equal to Test 1 on Visit 5 (Week 24), relative to the start of the 12-week ALCS-RA-16-06-EV study. (mITT Population)||1.060|-3.615|0.2817
82553001|NCT03643744|164810291|SUPERIORITY|||||||0.53|||||||ANOVA|||||||0.530
82553002|NCT03643744|164810291|SUPERIORITY|||||||0.727|||||||ANOVA|||||||0.727
82553003|NCT03643744|164810292|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82553004|NCT02724969|164810344|SUPERIORITY|||||||0.272|||||||Mixed Models Analysis|||||||.272
82553005|NCT02724969|164810345|SUPERIORITY|||||||0.082|||||||Mixed Models Analysis|||||||.082
82553006|NCT02724969|164810346|SUPERIORITY|||||||0.355|||||||Mixed Models Analysis|||||||.355
82553007|NCT02724969|164810347|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||||||.780
82553008|NCT02724969|164810348|SUPERIORITY|||||||0.588|||||||Mixed Models Analysis|||||||.588
82553009|NCT01236781|164810355|EQUIVALENCE|no margin is assumed.||||||0.46||||||1 degree of freedom;|McNemar|Exact test||"To account for the paired nature of the design, McNemar's test will be used to compare the call-back rates.~H0: assumes no difference between the tests (modalities)"||||0.46
82553010|NCT01236781|164810358|EQUIVALENCE|no equivalence margin||||||0.2188||||||Due to the paired nature of the data an exact McNemar's Test is used|McNemar|Exact test||H0: no difference between the 2 modalities||||0.2188
82553011|NCT02709161|164810376|SUPERIORITY||Mean Difference (Final Values)|8.2|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82581258|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.03||||||This is the Symptoms KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.03
82581259|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.12||||||This is the Effects KDQOL Subscale p-value for change in 12-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.12
82581260|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.29||||||This is the PCS KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"PCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.29
82581261|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.01||||||This is the MCS KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"MCS:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.01
82581262|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.08||||||This is the Burden KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Burden:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.08
82581263|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.61||||||This is the Symptoms KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Symptoms:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.61
82581264|NCT02270515|164874005|SUPERIORITY_OR_OTHER|||||||0.02||||||This is the Effects KDQOL Subscale p-value for change in 0-18 months shown in Primary Outcome table 3.|Mixed Models Analysis|||"Effects:~From random-intercept linear mixed models with an AR(1) covariance pattern in the residual, adjusted for baseline age, sex, race (AA, all other), interview language, dialysis vintage (months), site, education (not HS grad, HS grad), marital status (married or living with partner, other), self-reported diabetes at baseline, PCP at baseline, urea reduction ratio (URR), hemoglobin (g/dL), and albumin (g/dL). The 3 lab values are time-varying covariates."||||0.02
82581265|NCT01139580|164874006|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82581266|NCT01139580|164874009|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|||||||0.001
82581267|NCT00633880|164874012|SUPERIORITY_OR_OTHER|||||||0.509||||||Statistical analysis plan involved a hierarchical assessment of secondary endpoints to prevent inflation of type I errors. As the primary endpoint was not positive, statistical analysis was not performed on secondary endpoints.|Wilcoxon (Mann-Whitney)|||||||0.509
82581268|NCT00633880|164874017|SUPERIORITY_OR_OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||||||0.026
82479767|NCT00545129|164653265|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.634|TWO_SIDED|95.0|0.03|8.71|||Fisher Exact|||Week 4: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.71|0.03|0.634
82553012|NCT02709161|164810377|SUPERIORITY||Mean Difference (Final Values)|8.2|||<|0.001|TWO_SIDED||||||ANOVA|||||||<0.001
82479768|NCT00545129|164653265|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03||||0.975|TWO_SIDED|95.0|0.14|7.74|||Fisher Exact|||Week 6: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.74|0.14|0.975
82553013|NCT05167864|164810387|SUPERIORITY|||||||0.13519|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.13519
82553014|NCT05167864|164810387|SUPERIORITY|||||||0.8556|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.8556
82553015|NCT05167864|164810387|SUPERIORITY|||||||0.46943|TWO_SIDED|95.0|||||Wilcoxon signed-rank test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.46943
82553016|NCT05167864|164810387|SUPERIORITY|||||||0.0449|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 3|||0.0449
82553017|NCT05167864|164810387|SUPERIORITY|||||||0.504|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.504
82553018|NCT05167864|164810387|SUPERIORITY|||||||0.772193|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.772193
82553019|NCT05167864|164810387|SUPERIORITY|||||||0.5414|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.5414
82553020|NCT05167864|164810387|SUPERIORITY|||||||0.07|TWO_SIDED|95.0|||||Wilcoxon signed-rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 30|||0.070
82553021|NCT05167864|164810387|SUPERIORITY|||||||0.546|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.546
82553022|NCT05167864|164810387|SUPERIORITY|||||||0.756|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.756
82553023|NCT05167864|164810387|SUPERIORITY|||||||0.7|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.700
82553024|NCT05167864|164810387|SUPERIORITY|||||||0.397|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 90|||0.397
82553025|NCT05167864|164810387|SUPERIORITY|||||||0.093|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.093
82553026|NCT05167864|164810387|SUPERIORITY|||||||0.323|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.323
82553027|NCT05167864|164810387|SUPERIORITY|||||||0.182|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) tothe patient satisfaction improvement of line in the forehead post injection day 180|||0.182
82553028|NCT05167864|164810387|SUPERIORITY|||||||0.88|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement of line in the forehead post injection day 180|||0.880
82553029|NCT05167864|164810387|SUPERIORITY|||||||0.496|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) tothe patient satisfaction improvement in the forehead post injection day 3|||0.496
82553030|NCT05167864|164810387|SUPERIORITY|||||||0.905|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.905
82553031|NCT05167864|164810387|SUPERIORITY|||||||0.692|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.692
82553032|NCT05167864|164810387|SUPERIORITY|||||||0.262|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 3|||0.262
82553033|NCT05167864|164810387|SUPERIORITY|||||||0.828|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.828
82553034|NCT05167864|164810387|SUPERIORITY|||||||0.268|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.268
82553035|NCT05167864|164810387|SUPERIORITY|||||||0.975|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.975
82553036|NCT05167864|164810387|SUPERIORITY|||||||0.499|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 30|||0.499
82553037|NCT05167864|164810387|SUPERIORITY|||||||0.75|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.750
82562167|NCT01584648|164833895|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.64|1.02|||||Hazard ratios (HRs) were estimated using a Pike estimator.|||1.02|0.64|
82562168|NCT02009332|164833904|OTHER||maximum deliverable dose (MDD)|400.0|||||TWO_SIDED||||||||Maximum deliverable dose (MDD) was not reached in the Phase 1 study as no DLTs were observed in any of the dose groups up to ABI-009 400 mg/week.|||||
82562169|NCT00674765|164833920|SUPERIORITY_OR_OTHER|||||||0.388|||||||t-test, 2 sided|t=.87||||||.388
82562170|NCT03449979|164833921|SUPERIORITY|||||||0.0852|||||||ANOVA|degrees of freedom = (1,39); F-statistic = 3.119||Interaction in the effect of tACS on left frontal alpha oscillation in the depressed group. Two-way interaction of within-participant factor of before/after tACS and between-participant factor of alpha-tACS/placebo.||||0.0852
82562171|NCT03449979|164833921|SUPERIORITY|||||||0.6676|||||||ANOVA|degrees of freedom = (1,39); F-statistic = 0.187||Interaction in the effect of tACS on left frontal alpha oscillation in the healthy group. Two-way interaction of within-participant factor of before/after tACS and between-participant factor of alpha-tACS/placebo.||||0.6676
82581269|NCT00350103|164874023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|||=|0.041|TWO_SIDED|95.0|-0.88|-0.02|||ANCOVA||Estimated value is the difference of Least Square Means.|Last Observation Carried Forward (LOCF) procedure was applied for missing daily diary entries between start of trial medication and Visit 8 or last intake of trial medication in the case of discontinuation during the Titration or Maintenance Phase.||-0.02|-0.88|=0.0410
82581270|NCT00350103|164874023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|||=|0.2902|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA||Estimated value is the difference of Least Square Means.|Last Observation Carried Forward (LOCF) procedure was applied for missing daily diary entries between start of trial medication and Visit 8 or last intake of trial medication in the case of discontinuation during the Titration or Maintenance Phase.||0.20|-0.65|=0.2902
82581271|NCT02842151|164874061|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Final Values)|0.05|STANDARD_DEVIATION|0.346|||TWO_SIDED|90.0|-0.03|0.13||||||To demonstrate equivalency at Site 1, A-constant with manifest refraction was compared to A-constant with autorefraction.||0.13|-0.03|
82581272|NCT02842151|164874061|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Net)|-0.07|STANDARD_DEVIATION|0.595|||TWO_SIDED|90.0|-0.21|0.07||||||To demonstrate equivalency at Site 2, A-constant with manifest refraction was compared to A-constant with autorefraction.||0.07|-0.21|
82581273|NCT02842151|164874061|EQUIVALENCE|Difference in A-Constant is manifest refraction minus autorefraction. The criteria for equivalence (based on paired difference t-test) was established if the bounds of the 90% two-sided confidence interval (CI) on the difference was contained within the equivalence range (-0.15, 0.15).|Mean Difference (Net)|-0.13|STANDARD_DEVIATION|0.34|||TWO_SIDED|90.0|-0.22|-0.04||||||To demonstrate equivalency at Site 3, A-constant with manifest refraction was compared to A-constant with autorefraction.||-0.04|-0.22|
82581274|NCT02559895|164874062|SUPERIORITY||Mean Difference (Final Values)|-1.11|STANDARD_DEVIATION|3.4||0.0001|TWO_SIDED|95.0|-1.68|-0.54|||ANCOVA|||||-0.54|-1.68|0.0001
82581275|NCT02559895|164874062|SUPERIORITY||Mean Difference (Final Values)|-0.69|STANDARD_DEVIATION|3.4||0.0182|TWO_SIDED|95.0|-1.25|-0.12|||ANCOVA|||||-0.12|-1.25|0.0182
82581276|NCT02559895|164874062|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_DEVIATION|3.4||0.0046|TWO_SIDED|95.0|-1.39|-0.25|||ANCOVA|||||-0.25|-1.39|0.0046
82581277|NCT02559895|164874063|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.0007|TWO_SIDED|95.0|5.8|21.2|||Cochran-Mantel-Haenszel|||||21.2|5.8|0.0007
82479769|NCT00545129|164653265|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.49||||0.759|TWO_SIDED|95.0|0.12|18.86|||Fisher Exact|||Week 8: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||18.86|0.12|0.759
82479770|NCT00545129|164653266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.58||||0.724|TWO_SIDED|95.0|0.03|12.27|||Fisher Exact|||Week 1: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||12.27|0.03|0.724
82479771|NCT00545129|164653266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95|TWO_SIDED||||||Fisher Exact|||Week 2: P-value was calculated using Fisher Extract test.||||0.950
82479772|NCT00545129|164653266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5||||0.634|TWO_SIDED|95.0|0.03|8.71|||Fisher Exact|||Week 4: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||8.71|0.03|0.634
82479773|NCT00545129|164653266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03||||0.975|TWO_SIDED|95.0|0.14|7.74|||Fisher Exact|||Week 6: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||7.74|0.14|0.975
82581278|NCT02559895|164874063|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.1126|TWO_SIDED|95.0|-1.4|13.3|||Cochran-Mantel-Haenszel|||||13.3|-1.4|0.1126
82581279|NCT02559895|164874063|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.0272|TWO_SIDED|95.0|1.0|15.9|||Cochran-Mantel-Haenszel|||||15.9|1.0|0.0272
82581280|NCT02559895|164874064|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.0066|TWO_SIDED|95.0|3.2|19.3|||Cochran-Mantel-Haenszel|||||19.3|3.2|0.0066
82581281|NCT02559895|164874064|SUPERIORITY||Mean Difference (Final Values)|10.5||||0.0112|TWO_SIDED|95.0|2.4|18.6|||Cochran-Mantel-Haenszel|||||18.6|2.4|0.0112
82581282|NCT02559895|164874064|SUPERIORITY||Mean Difference (Final Values)|9.8||||0.017|TWO_SIDED|95.0|1.8|17.8|||Cochran-Mantel-Haenszel|||||17.8|1.8|0.0170
82581283|NCT02559895|164874065|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.0001|TWO_SIDED|95.0|9.8|28.0|||Cochran-Mantel-Haenszel|||||28.0|9.8|0.0001
82581284|NCT02559895|164874065|SUPERIORITY||Mean Difference (Final Values)|12.4||||0.0085|TWO_SIDED|95.0|3.2|21.5|||Cochran-Mantel-Haenszel|||||21.5|3.2|0.0085
82581285|NCT02559895|164874065|SUPERIORITY||Mean Difference (Final Values)|12.8||||0.0064|TWO_SIDED|95.0|3.7|22.0|||Cochran-Mantel-Haenszel|||||22.0|3.7|0.0064
82581286|NCT02559895|164874066|SUPERIORITY|||||||0.0159|||||||Cochran-Mantel-Haenszel|||||||0.0159
82581287|NCT02559895|164874066|SUPERIORITY|||||||0.0312|||||||Cochran-Mantel-Haenszel|||||||0.0312
82581288|NCT02559895|164874066|SUPERIORITY|||||||0.1539|||||||Cochran-Mantel-Haenszel|||||||0.1539
82581289|NCT00878826|164874083|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||at 14-18 weeks gestational age||||0.4
82581290|NCT00878826|164874083|SUPERIORITY_OR_OTHER|||||||0.9|||||||Kruskal-Wallis|||at 24-28 weeks gestational age||||0.9
82581291|NCT00878826|164874083|SUPERIORITY_OR_OTHER|||||||0.3|||||||Kruskal-Wallis|||at 32-34 weeks gestational age||||0.3
82479774|NCT00545129|164653266|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.02||||0.578|TWO_SIDED|95.0|0.17|23.89|||Fisher Exact|||Week 8: The odds ratio with 95% 2-sided CI for the treatment contrast was given.||23.89|0.17|0.578
82479775|NCT00821509|164653279|SUPERIORITY_OR_OTHER||ratio of proportions|1.03||||0.004|||||||proportion test|The test was carried out using the proportions calculated from the number of sick-leave episodes over the number o total follow-up weeks in each arm||According to the null hypothesis the proportion of weeks with an onset of days-off period in neither of the intervention arms was different from that of control. No in advance power calculations were done.||||0.004
82479776|NCT00821509|164653280|SUPERIORITY_OR_OTHER||ratio of proportions|0.933||||0.04|||||||proportion test|||According to the null hypothesis the proportion of weeks with an onset of an infectious disease period in neither of the intervention arms was different from that of control. No in advance power calculations were done.||||0.04
82553038|NCT05167864|164810387|SUPERIORITY|||||||0.433|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.433
82553039|NCT05167864|164810387|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.834
82553040|NCT05167864|164810387|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 90|||0.834
82553041|NCT05167864|164810387|SUPERIORITY|||||||0.526|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.526
82553042|NCT05167864|164810387|SUPERIORITY|||||||0.816|TWO_SIDED|95.0|||||Wilcoxon singed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.816
82553043|NCT05167864|164810387|SUPERIORITY|||||||0.65|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.650
82553044|NCT05167864|164810387|SUPERIORITY|||||||0.095|TWO_SIDED|95.0|||||wilcoxon rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the forehead post injection day 180|||0.095
82581292|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_DEVIATION|0.157||0.083||||||Significance was set at p \<0.05.|t-test, 2 sided||Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glu/Cr posterior insula||||0.083
82581293|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.436||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glu/Cr posterior insula||||0.436
82581294|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.306||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr posterior insula||||0.306
82581295|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr posterior insula||||0.809
82581296|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.116|STANDARD_DEVIATION|0.177||0.016|||||||t-test, 2 sided|Significance was set at p \<0.05.|Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glx/Cr posterior insula||||0.016
82581297|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.029|STANDARD_DEVIATION|0.308||0.708||||||Significance was set at p \<0.05.|t-test, 2 sided||Mean difference between the pre-dose (baseline) and post-dose values calculated as post-dose minus pre-dose (post minus pre).|Glx/Cr posterior insula||||0.708
82479777|NCT01894568|164653286|NON_INFERIORITY_OR_EQUIVALENCE|0.4% is the margin of Non-inferiority|LS Mean Difference|-0.24||||0.005|TWO_SIDED|95.0|-0.41|-0.07|||Mixed Models Analysis|||||-0.07|-0.41|0.005
82553045|NCT05167864|164810387|SUPERIORITY|||||||0.618|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.618
82553046|NCT05167864|164810387|SUPERIORITY|||||||0.34|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.340
82553047|NCT05167864|164810387|SUPERIORITY|||||||0.15|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.150
82553048|NCT05167864|164810387|SUPERIORITY|||||||0.361|TWO_SIDED|95.0|||||Wilcoxon signed rank sum test||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 3|||0.361
82553049|NCT05167864|164810387|SUPERIORITY|||||||0.428|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.428
82553050|NCT05167864|164810387|SUPERIORITY|||||||0.834|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.834
82553051|NCT05167864|164810387|SUPERIORITY|||||||0.318|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.318
82553052|NCT05167864|164810387|SUPERIORITY|||||||0.311|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 30|||0.311
82581298|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.809||95.0||||Significance was set at p \<0.050.|t-test, 2 sided|||Glu/Cr anterior insula||||0.809
82581299|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glu/Cr anterior insula||||0.154
82581300|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr anterior insula||||0.960
82581301|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.937||95.0|||||t-test, 2 sided|Significance was set at p \<0.05.||Gln/Cr anterior insula||||0.937
82479778|NCT03720652|164653319|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.18|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.18
82581302|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.897||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glx/Cr anterior insula||||0.897
82581303|NCT00760474|164874087|SUPERIORITY_OR_OTHER_LEGACY|||||||0.309||95.0||||Significance was set at p \<0.05.|t-test, 2 sided|||Glx/Cr anterior insula||||0.309
82581304|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.032||||0.6347|TWO_SIDED|95.0|-0.1081|0.1714||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Anterior Cingulate||0.1714|-0.1081|0.6347
82553053|NCT05167864|164810387|SUPERIORITY|||||||0.885|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.885
82553054|NCT05167864|164810387|SUPERIORITY|||||||0.457|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.457
82553055|NCT05167864|164810387|SUPERIORITY|||||||0.745|TWO_SIDED|95.0|||||Wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.745
82553056|NCT05167864|164810387|SUPERIORITY|||||||0.757|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 90|||0.757
82553057|NCT05167864|164810387|SUPERIORITY|||||||0.562|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.562
82553058|NCT05167864|164810387|SUPERIORITY|||||||0.828|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.828
82553059|NCT05167864|164810387|SUPERIORITY|||||||0.005|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.005
82553060|NCT05167864|164810387|SUPERIORITY|||||||0.437|TWO_SIDED|95.0|||||wilcoxon signed rank sum||||the correlation of dynamic strain (decreased compression) to the patient satisfaction improvement in the lines between the eyebrows post injection day 180|||0.437
82553061|NCT04028284|164810388|OTHER|Two-sided inferential test||||||0.02||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction. The a priori threshold for statistical significance was P \< 0.05 for the primary outcome.|t-test, 2 sided|||||||0.02
82553062|NCT04028284|164810389|OTHER|Inferential two-sided test||||||0.31|||||||t-test, 2 sided|||||||0.31
82581305|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.079||||0.5181|TWO_SIDED|95.0|-0.3356|0.1771||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||BA22||0.1771|-0.3356|0.5181
82581306|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.072||||0.2987|TWO_SIDED|95.0|-0.2161|0.0714||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||BA40||0.0714|-0.2161|0.2987
82581307|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.029||||0.5151|TWO_SIDED|95.0|-0.064|0.1219||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_anIns||0.1219|-0.0640|0.5151
82553063|NCT04028284|164810390|OTHER|Inferential two-sided test||||||0.01||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction.|t-test, 2 sided|||||||0.01
82553064|NCT04028284|164810391|OTHER|Inferential two-sided test||||||0.03||||||Adjusted for multiple comparisons using the Holm-Bonferroni correction.|t-test, 2 sided|||||||0.03
82553065|NCT04028284|164810392|OTHER|Inferential two-sided test||||||0.56|||||||t-test, 2 sided|||||||0.56
82553066|NCT04028284|164810393|OTHER|Inferential two-sided test||||||0.78|||||||t-test, 2 sided|||||||0.78
82553067|NCT04028284|164810394|OTHER|Inferential two-sided test||||||0.24|||||||Fisher Exact|||||||0.24
82553068|NCT04587453|164810429|OTHER|No formal testing was performed. Confidence intervals (CIs) are presented with two sided 95% degree of confidence.|Risk Difference (RD)|5.7|||||TWO_SIDED|95.0|-11.2|22.5|||||Mantel-Haenzel risk difference, stratified by baseline IGA.|Responders were considered those meeting an IGA score of 0 or 1 (clear or almost clear). Subjects with missing data or subjects who had received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.||22.5|-11.2|
82553069|NCT04587453|164810430|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-2.9|33.0|||||Mantel-Haenzel risk difference, stratified by baseline IGA.|Subjects with 75% reduction in EASI were considered responders. Subjects with missing data or subjects who had received rescue medication prior to Week 16 were considered non-responders in the primary analysis of the primary estimand.||33.0|-2.9|
82553070|NCT04587453|164810431|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-5.1|||||TWO_SIDED|95.0|-12.4|2.3|||||Analysis of covariance (ANCOVA). Worst observation carried forward for all subjects who prior to Week 16 had received rescue medication. Multiple imputation of missing values for subjects who had not received rescue medication.|||2.3|-12.4|
82553071|NCT04587453|164810432|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-2.7|0.5|||||ANCOVA. Worst observation carried forward for all subjects who prior to Week 16 had received rescue medication. Multiple imputation of missing values for subjects who had not received rescue medication.|||0.5|-2.7|
82553072|NCT04587453|164810433|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|-3.8|||||TWO_SIDED|95.0|-21.7|14.2|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with at least a reduction of 4 in the worst daily pruritus NRS score were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data at Week 16 were imputed as non-responders.||14.2|-21.7|
82553073|NCT04587453|164810434|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|15.1|||||TWO_SIDED|95.0|-3.0|33.2|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with a reduction of 90% in EASI were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data were imputed as non-responders.||33.2|-3.0|
82581308|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.081||||0.2369|TWO_SIDED|95.0|-0.2228|0.0599||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Amygdala||0.0599|-0.2228|0.2369
82553074|NCT04587453|164810435|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Risk Difference (RD)|5.7|||||TWO_SIDED|95.0|-9.0|20.3|||||Mantel-Haenszel risk difference, stratified by baseline IGA.|Subjects with at least 50% reduction in EASI were considered responders. Subjects who had received rescue medication were considered non-responders. Subjects with missing data were imputed as non-responders.||20.3|-9.0|
82553075|NCT04587453|164810436|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-14.9|6.3|||||Repeated measurements Model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||6.3|-14.9|
82553076|NCT04587453|164810437|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.7|0.8|||||Repeated measurements Model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||0.8|-0.7|
82553077|NCT04587453|164810438|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.9|0.6|||||Repeated measurements model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 1 change imputed as 0 if no post-baseline assessments.|||0.6|-0.9|
82553078|NCT04587453|164810439|OTHER|No formal testing was performed. CIs are presented with two sided 95% degree of confidence.|Mean Difference (Net)|-3.2|||||TWO_SIDED|95.0|-5.6|-0.9|||||Repeated measurements model: Change=Treatment\*Week+Baseline\*Week+Baseline IGA. Data after permanent discontinuation of IMP/initiation of rescue medication not included (4 subjects excluded). Week 2 change imputed as 0 if no post-baseline assessments.|||-0.9|-5.6|
82553079|NCT03125070|164810442|SUPERIORITY|||||||0.9||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.90
82553080|NCT03125070|164810443|SUPERIORITY|||||||0.6||||||The threshold for statistical significance was p=0.05|Chi-squared|||||||0.60
82553081|NCT03125070|164810444|OTHER|||||||0.27||||||The threshold for statistical significance was p=0.05|Chi-squared|||Sex: Female vs. Male||||0.27
82553082|NCT03125070|164810444|OTHER|||||||0.88||||||The threshold for statistical significance was p=0.05|Chi-squared|||Age \<70 vs. \>=70||||0.88
82553083|NCT03125070|164810444|OTHER|||||||0.98||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Race and ethnicity: white AND non-Hispanic versus any other combination of race and ethnicity (BIPOC)||||0.98
82553084|NCT03125070|164810444|OTHER|||||||0.19||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Education: High school or less versus at least some college or vocational/technical program||||0.19
82553085|NCT03125070|164810444|OTHER|||||||0.24||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Income: \<$100,000 annual versus \>=$100,000 annual||||0.24
82553086|NCT03125070|164810444|OTHER|||||||0.28||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer the survey items for this measure are shown as unknwon in the table and are excluded from the statistical test.||PHQ score at baseline: no depression (\<10), mild depression (10-14), moderate depression (15-19), severe depression (\>=20)||||0.28
82553087|NCT03125070|164810444|OTHER|||||||0.33||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer the survey items for this measure are shown as unknwon in the table and are excluded from the statistical test.||CTXD score at baseline \<0.9 (not distressed) or \>=0.9 (distressed)||||0.33
82553088|NCT03125070|164810444|OTHER|||||||0.1||||||The threshold for statistical significance was p=0.05|Chi-squared|Participants that did not answer this survey item are shown as unknwon in the table and are excluded from the statistical test.||Cardiometabolic Healthcare Utilization (HCU-C) score at baseline: \>.80 versus \<.80||||0.10
82553089|NCT03125070|164810444|OTHER|||||||0.31||||||The threshold for statistical significance was p=0.05|Chi-squared|||Secondary cancer screening healthcare utilization (HCU-SM) at baseline: \>=.80 versus \<.80||||0.31
82553090|NCT03125070|164810445|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
82553091|NCT03125070|164810446|SUPERIORITY|||||||0.4|||||||Chi-squared|||||||0.40
82553092|NCT05309291|164810453|NON_INFERIORITY|The null hypothesis to demonstrate non-inferiority using a 10% margin for λ FLC RR can be expressed as: Ho: μT-μR ≤ -3.783. The alternative hypothesis is expressed as: Ha: μT-μR \> -3.783 where μT denotes the Theranova 400 treatment mean and μR denotes the FX 800 treatment mean.|Mean Difference (Final Values)|16.99|STANDARD_DEVIATION|8.86|<|0.0001|TWO_SIDED|95.0|14.84|19.15|||t-test, 2 sided|T-test was utilized to generate a two-sided 95% confidence interval (CI) for the difference in means.||Non-inferiority of the Theranova 400 Dialyzer compared to the FX 800 Dialyzer in regard to the λ FLC RR at the mid-week treatment day dialysis session was assessed.||19.15|14.84|<0.0001
82562172|NCT03449979|164833921|SUPERIORITY|||||||0.929||||||degrees of freedom = (1,41); F-statistic = 0.008|ANOVA|||Main effect of alpha-tACS on session (before and after) on left frontal alpha oscillations across both groups (healthy and patient).||||0.929
82562173|NCT03449979|164833921|SUPERIORITY|||||||0.195|||||||t-test, 1 sided|degrees of freedom = 20; t-statistic = -0.08789||Difference in alpha oscillations after versus before in the depressed cohort (one-tailed Student's t-test) with the hypothesis to decrease pathologically elevate left frontal alpha oscillations||||0.1950
82562174|NCT03449979|164833921|SUPERIORITY|||||||0.8603|||||||t-test, 1 sided|degrees of freedom = 20; t-statistic = 1.1117||Difference in alpha oscillations after versus before in the healthy cohort (one-tailed Student's t-test) run as a control analysis||||0.8603
82562175|NCT00068107|164833922|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||eGFR measured pre-study was compared to eGFR during the study||||0.01
82562176|NCT00068107|164833922|SUPERIORITY_OR_OTHER||Average Delay in time to ESRD|166.0|||||TWO_SIDED|95.0|8.4|323.8|||||The average delay in end stage renal disease (ESRD) calculated from the eGFR values and represents the estimated difference in time to ESRD between Relagal administered every 2 weeks and Relagal administered weekly. Units = months|||323.8|8.4|
82553093|NCT05309291|164810454|NON_INFERIORITY|The null hypothesis to demonstrate non-inferiority using a 10% margin for ß2-MG RR can be expressed as Ho: μT-μR ≤ -7.848. The alternative hypothesis is expressed as: Ha: μT-μR \> -7.848, where μT denotes the Theranova 400 treatment mean and μR denotes the FX 800 treatment mean.|Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|5.55|<|0.0001|TWO_SIDED|95.0|-2.54|0.16|||t-test, 2 sided|T-test was utilized to generate a two-sided 95% confidence interval (CI) for the difference in means.||Non-inferiority of the Theranova 400 Dialyzer compared to the FX 800 Dialyzer in regard to the β2-MG RR at the mid-week treatment day dialysis session was assessed.||0.16|-2.54|<0.0001
82479779|NCT03720652|164653319|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.34|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.34
82553094|NCT03221426|164810466|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.01501|TWO_SIDED|95.0|0.67|0.98||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||0.98|0.67|0.01501
82553095|NCT03221426|164810467|SUPERIORITY||Difference in Percentage|11.4|||<|1e-05|TWO_SIDED|95.0|8.0|15.3|||Stratified Miettinen and Nurminen|Based on Miettinen \& Nurminen method stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)||||15.3|8.0|<0.00001
82553096|NCT03221426|164810468|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.07503|TWO_SIDED|95.0|0.71|1.06||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||1.06|0.71|0.07503
82553097|NCT03221426|164810473|OTHER||Hazard Ratio (HR)|0.82||||0.04125|TWO_SIDED|95.0|0.65|1.03||One-sided p-value based on log-rank test with stratification|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate with stratification|||1.03|0.65|0.04125
82553098|NCT03221426|164810474|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.04493|TWO_SIDED|95.0|0.71|1.03||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia), tumor staging (II vs. III vs. IVa), and chemotherapy backbone (XP/FP vs. FLOT)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia), tumor staging (II vs. III vs. IVa), and chemotherapy backbone (XP/FP vs. FLOT)|||1.03|0.71|0.04493
82553099|NCT03221426|164810475|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.00589|TWO_SIDED|95.0|0.67|0.95||One-sided p-value based on log-rank test stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|Log Rank||Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region (Asia vs. Non-Asia) and tumor staging (II vs. III vs. IVa)|||0.95|0.67|0.00589
82553100|NCT04117347|164810558|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.022|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.0861723|0.1309519|||||coefficient for an indicator for Light Therapy B (vs. Light Therapy A)|Analysis for left amygdala.||0.1309519|-0.0861723|
82553101|NCT04117347|164810558|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.068|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.0363877|0.1730965|||||coefficient for an indicator for Light Therapy C (vs. Light Therapy A)|Analysis for left amygdala.||0.1730965|-0.0363877|
82553102|NCT04117347|164810558|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.043|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.0676154|0.1545869|||||coefficient for an indicator for Light Therapy B (vs. Light Therapy A)|Analysis for right amygdala.||0.1545869|-0.0676154|
82553103|NCT04117347|164810558|OTHER|Dose Response Relationship.|Coefficient for an indicator|0.018|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|-0.0888691|0.1255146|||||coefficient for an indicator for Light Therapy C (vs. Light Therapy A)|Analysis for right amygdala.||0.1255146|-0.0888691|
82553104|NCT05194956|164810559|SUPERIORITY||Mean Difference (Net)|8.5||||0.0006|TWO_SIDED|95.0|3.75|13.15|||Two-period two-treatment crossover ANOVA|P-values are calculated taking sequence and period effects into account.|This estimation value assumes period and sequence effects are equal between the treatments.|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)||13.15|3.75|0.0006
82553105|NCT05194956|164810559|SUPERIORITY|Sequence effects||||||0.1984|||||||ANOVA|||||||0.1984
82553106|NCT05194956|164810559|SUPERIORITY|Period effects||||||0.7494|||||||ANOVA|||||||0.7494
82553107|NCT05194956|164810559|SUPERIORITY|Mixed effects modelling|Mean Difference (Net)|-13.31||||0.001|TWO_SIDED|95.0|-21.29|-5.33|||Mixed Models Analysis|||||-5.33|-21.29|0.001
82553108|NCT05194956|164810560|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-3.4||||0.123|TWO_SIDED|95.0|-7.71|0.91||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||0.91|-7.71|0.1230
82553109|NCT05194956|164810560|SUPERIORITY|Sequence effects||||||0.8423|||||||ANOVA|||||||0.8423
82553110|NCT05194956|164810560|SUPERIORITY|Period effects||||||0.9544|||||||ANOVA|||||||0.9544
82562177|NCT01782209|164833963|OTHER||Incidence|17.3|||||TWO_SIDED|95.0|13.4|21.8|||||95% Clopper-Pearson Confidence Interval|||21.8|13.4|
82562178|NCT02033174|164833972|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||||||0.05
82562179|NCT03786471|164833979|SUPERIORITY||marginal difference of LS means|0.3||||0.33|TWO_SIDED|97.5|-0.18|0.78||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.78|-0.18|0.33
82562180|NCT03786471|164833979|SUPERIORITY||marginal difference of LS means|-0.62||||0.33|TWO_SIDED|97.5|-1.61|0.37||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.37|-1.61|0.33
82562181|NCT03786471|164833979|SUPERIORITY||marginal difference of LS means|-0.33||||0.46|TWO_SIDED|97.5|-1.32|0.67||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.67|-1.32|0.46
82562182|NCT03786471|164833986|SUPERIORITY||marginal difference of LS means|0.25||||0.54|TWO_SIDED|97.5|-0.16|0.66||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.66|-0.16|0.54
82651106|NCT04147715|165016998|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.1939|||||TWO_SIDED|90.0|1.1176|1.2754|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.2754|1.1176|
82553111|NCT05194956|164810561|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-3.4||||0.0439|TWO_SIDED|95.0|-6.69|-0.12||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-0.12|-6.69|0.0439
82553112|NCT05194956|164810561|SUPERIORITY|Sequence effects||||||0.3878|||||||ANOVA|||||||0.3878
82553113|NCT05194956|164810561|SUPERIORITY|Period effects||||||0.9772|||||||ANOVA|||||||0.9772
82553114|NCT05194956|164810562|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|9.6||||0.0213|TWO_SIDED|95.0|1.5|17.79||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||17.79|1.50|0.0213
82553115|NCT05194956|164810562|SUPERIORITY|Sequence effects||||||0.1583|||||||ANOVA|||||||0.1583
82553116|NCT05194956|164810562|SUPERIORITY|Period effects||||||0.4709|||||||ANOVA|||||||0.4709
82553117|NCT05194956|164810563|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|5.3||||0.0146|TWO_SIDED|95.0|1.09|9.46||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||9.46|1.09|0.0146
82553118|NCT05194956|164810563|SUPERIORITY|Sequence effects||||||0.5911|||||||ANOVA|||||||0.5911
82553119|NCT05194956|164810563|SUPERIORITY|Period effects||||||0.5825|||||||ANOVA|||||||0.5825
82553120|NCT05194956|164810564|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-5.2||||0.0817|TWO_SIDED|95.0|-11.12|0.69||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||0.69|-11.12|0.0817
82553121|NCT05194956|164810564|SUPERIORITY|Sequence effects||||||0.091|||||||ANOVA|||||||0.0910
82553122|NCT05194956|164810564|SUPERIORITY|Period effects||||||0.2278|||||||ANOVA|||||||0.2278
82553123|NCT05194956|164810565|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-2.2||||0.1347|TWO_SIDED|95.0|-5.17|0.69|||Two-period two-treatment crossover ANOVA|From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|This estimation value assumes period and sequence effects are equal between the treatments.|||0.69|-5.17|0.1347
82553124|NCT05194956|164810565|SUPERIORITY|Sequence effects||||||0.9259|||||||ANOVA|||||||0.9259
82553125|NCT05194956|164810565|SUPERIORITY|Period effects||||||0.8225|||||||ANOVA|||||||0.8225
82553126|NCT05194956|164810566|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Median Difference (Net)|-11.2||||0.02|TWO_SIDED|95.0|-20.47|-1.83||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-1.83|-20.47|0.0200
82553127|NCT05194956|164810566|SUPERIORITY|Sequence effects||||||0.9104|||||||ANOVA|||||||0.9104
82553128|NCT05194956|164810566|SUPERIORITY|Period effects||||||0.5194|||||||ANOVA|||||||0.5194
82553129|NCT05194956|164810567|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-23.2|||<|5e-05|TWO_SIDED|95.0|-30.71|-15.75||From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|Two-period two-treatment crossover ANOVA||This estimation value assumes period and sequence effects are equal between the treatments.|||-15.75|-30.71|<0.00005
82553130|NCT05194956|164810567|SUPERIORITY|Sequence effects||||||0.1369|||||||ANOVA|||||||0.1369
82553131|NCT05194956|164810567|SUPERIORITY|Period effects||||||0.3366|||||||ANOVA|||||||0.3366
82553132|NCT05194956|164810568|SUPERIORITY|All units of measure reported for this analysis are the mean within-patient differences between alginate and scan VAS scores (i.e. alginate score - scan score)|Mean Difference (Net)|-120.0|||<|5e-05|TWO_SIDED|95.0|-149.54|-90.38|||Two-period two-treatment crossover ANOVA|From a 2-period 2-treatment crossover ANOVA, taking sequence and period effects into account|This estimation value assumes period and sequence effects are equal between the treatments.|||-90.38|-149.54|<0.00005
82553133|NCT05194956|164810568|SUPERIORITY|Sequence effects||||||0.8509|||||||ANOVA|||||||0.8509
82553134|NCT05194956|164810568|SUPERIORITY|Period effects||||||0.0355|||||||ANOVA|||||||0.0355
82553135|NCT03687086|164810570|SUPERIORITY||Odds Ratio (OR)|1.95|STANDARD_ERROR_OF_MEAN|0.63||0.039|TWO_SIDED|95.0|1.03|3.7|||Regression, Logistic|||||3.70|1.03|.039
82553136|NCT03687086|164810571|SUPERIORITY||Mean Difference (Net)|1.38|STANDARD_ERROR_OF_MEAN|0.97||0.155|TWO_SIDED|95.0|-0.52|3.29|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 Weeks vs. baseline)||||3.29|-0.52|0.155
82553137|NCT03687086|164810572|SUPERIORITY||Median Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|1.04||0.88|TWO_SIDED|95.0|-1.88|2.2|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||2.20|-1.88|0.880
82553138|NCT03687086|164810573|SUPERIORITY||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.39||0.228|TWO_SIDED|95.0|-1.25|0.3|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 weeks vs. baseline)||||0.30|-1.25|0.228
82553139|NCT03687086|164810574|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.44||0.843|TWO_SIDED|95.0|-0.96|0.78|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||0.78|-0.96|0.843
82553140|NCT03687086|164810575|SUPERIORITY||Odds Ratio (OR)|3.68|STANDARD_ERROR_OF_MEAN|1.48||0.001|TWO_SIDED|95.0|1.67|8.12|||Regression, Logistic|||||8.12|1.67|0.001
82553141|NCT03687086|164810576|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.42||0.443|TWO_SIDED|95.0|-1.14|0.5|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (9 weeks vs. baseline)||||0.50|-1.14|0.443
82553142|NCT03687086|164810577|SUPERIORITY||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.51||0.409|TWO_SIDED|95.0|-1.41|0.58|||Mixed Models Analysis|Interaction contrast of Treatment Group (Program A vs. Program B) by Time (6 months vs. baseline)||||0.58|-1.41|0.409
82651107|NCT04147715|165016998|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, Cτ, and AUC0-τ of dolutegravir were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0482|||||TWO_SIDED|90.0|0.9881|1.1119|||||Ratio = S-648414 + Dolutegravir / Dolutegravir|The effect of S-648414 on the plasma PK of dolutegravir was assessed using an ANOVA fitted with a linear mixed effect model with the natural log-transformed AUC0-τ as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-τ of dolutegravir plus S-648414 and dolutegravir alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.1119|0.9881|
82479780|NCT03720652|164653319|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.13|||||||McNemar|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.13
82479781|NCT03720652|164653320|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.7|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.70
82479782|NCT03720652|164653320|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.66|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.66
82479783|NCT03720652|164653320|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.84|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.84
82553143|NCT02505984|164810586|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82553144|NCT02505984|164810586|SUPERIORITY|||||||0.093|||||||Wilcoxon (Mann-Whitney)|||||||0.093
82553145|NCT02505984|164810586|SUPERIORITY|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
82553146|NCT02505984|164810586|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82553147|NCT02505984|164810587|SUPERIORITY||||||>|0.9|||||||Wilcoxon (Mann-Whitney)|||||||>0.9
82553148|NCT02505984|164810587|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82553149|NCT02505984|164810588|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82553150|NCT02505984|164810588|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82553151|NCT02505984|164810589|SUPERIORITY|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.7
82553152|NCT02505984|164810589|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82553153|NCT02505984|164810589|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82553154|NCT04176601|164810593|SUPERIORITY||Mean Difference (Net)|4.32|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|1.49|7.15||||||||7.15|1.49|
82553155|NCT04176601|164810594|SUPERIORITY||Mean Difference (Net)|4.7|STANDARD_ERROR_OF_MEAN|1.67|||TWO_SIDED|95.0|1.26|8.15||||||||8.15|1.26|
82553156|NCT04176601|164810595|SUPERIORITY||Mean Difference (Net)|3.68|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|1.59|6.14||||||||6.14|1.59|
82553157|NCT01928394|164810640|SUPERIORITY||Odds Ratio (OR)|2.12||||0.0309|TWO_SIDED|95.0|1.06|4.26|||Cochran-Mantel-Haenszel|||SCLC Arm N Expansion as compare to SCLC Arm N-I Dose Level 2- Expansion||4.26|1.06|0.0309
82553158|NCT02398656|164810641|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.88|1.04||||||||1.04|0.88|
82562183|NCT03786471|164833986|SUPERIORITY||marginal difference of LS means|-0.1||||0.79|TWO_SIDED|97.5|-0.94|0.74||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.74|-0.94|0.79
82562184|NCT03786471|164833986|SUPERIORITY||marginal difference of LS means|0.14||||0.79|TWO_SIDED|97.5|-0.7|0.99||Alpha = 0.025; Hochberg correction for three pairwise comparisons|Mixed Models Analysis|||||0.99|-0.70|0.79
82562185|NCT03786471|164833993|SUPERIORITY||marginal difference of LS means|0.52||||0.48|TWO_SIDED|95.0|-0.09|1.13||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.13|-.09|0.48
82562186|NCT03786471|164833993|SUPERIORITY||marginal difference of LS means|-0.81||||0.62|TWO_SIDED|95.0|-2.07|0.45||Alpha = 0.05; Hochberg correction for three pairwise comparisons \*three secondary outcomes|Mixed Models Analysis|||||0.45|-2.07|0.62
82562187|NCT03786471|164833993|SUPERIORITY||marginal difference of LS means|-1.33||||0.23|TWO_SIDED|95.0|-2.58|-0.07||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||-0.07|-2.58|0.23
82562188|NCT03786471|164834000|SUPERIORITY||marginal difference of LS means|0.28||||0.23|TWO_SIDED|95.0|0.01|0.54||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||.54|.01|0.23
82562189|NCT03786471|164834000|SUPERIORITY||marginal difference of LS means|0.01||||0.98|TWO_SIDED|95.0|-0.53|0.55||Alpha = 0.05; Hochberg correction for three pairwise comparisons \*three secondary outcomes|Mixed Models Analysis|||||.55|-.53|.98
82553159|NCT05485779|164810653|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.17||||0.6358|TWO_SIDED|95.0|1.07|1.27|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 30.4. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.27|1.07|0.6358
82553160|NCT05485779|164810653|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.13||||0.5506|TWO_SIDED|95.0|0.963|1.31|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 32.9. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.31|0.963|0.5506
82553161|NCT05485779|164810654|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.13||||0.3653|TWO_SIDED|95.0|1.04|1.22|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 25.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.22|1.04|0.3653
82553162|NCT05485779|164810654|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.16||||0.2933|TWO_SIDED|95.0|1.01|1.31|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 27.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.31|1.01|0.2933
82553163|NCT05485779|164810655|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.16||||0.46|TWO_SIDED|95.0|0.908|1.41|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 64.3. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.41|0.908|0.4600
82553164|NCT05485779|164810655|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.12||||0.3157|TWO_SIDED|95.0|0.795|1.45|||Lack of Fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 65.6. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.45|0.795|0.3157
82553165|NCT05485779|164810656|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.2||||0.235|TWO_SIDED|95.0|1.02|1.37|||Lack of fit 1-sided p-value|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 54.2. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 3 to 60 mg AQ280||1.37|1.02|0.2350
82553166|NCT05485779|164810656|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.19||||0.1632|TWO_SIDED|95.0|0.88|1.5|||Lack of fit 1-sided p-value|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 58.5. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Single Oral Doses of 9 to 60 mg AQ280||1.50|0.880|0.1632
82553167|NCT05485779|164810657|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.977|||||TWO_SIDED|90.0|0.915|1.04|||||Within-subject geometric coefficient of variation was 5.66. Data analyzed using a mixed model included treatment as a fixed effect and subject as a random effect. ln(parameter)=treatment+subject+random error, with subject fitted as a random effect.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess the Effect of Food on Single Oral Doses of 16 mg AQ280||1.04|0.915|
82651108|NCT04147715|165017000|OTHER||Slope|0.9857|||||TWO_SIDED|95.0|0.9341|1.0373||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(Cmax) = Intercept + Slope × ln(Dose) + Random error||1.0373|0.9341|
82553168|NCT05485779|164810658|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Ratio of geometric least squares mean|0.805|||||TWO_SIDED|90.0|0.635|1.02|||||Within-subject geometric coefficient of variation was 20.5. Data analyzed using a mixed model included treatment as a fixed effect and subject as a random effect. ln(parameter)=treatment+subject+random error, with subject fitted as a random effect.|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess the Effect of Food on Single Oral Doses of 16 mg AQ280||1.02|0.635|
82553169|NCT05485779|164810660|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.15||||0.1558|TWO_SIDED|95.0|0.954|1.34|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 28.0. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 QD for 7 Consecutive Days in a Fasted State||1.34|0.954|0.1558
82553170|NCT05485779|164810661|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|1.1||||0.5458|TWO_SIDED|95.0|0.946|1.26|||Lack of Fit 2-sided model|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 24.0. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error|Statistical Analysis of AQ280 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 QD for 7 Consecutive Days in a Fasted State||1.26|0.946|0.5458
82553171|NCT05485779|164810662|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.941||||0.4856|TWO_SIDED|95.0|0.602|1.28||Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Lack of fit 2-sided||Between-subject geometric coefficient of variation was 54.7. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 once daily for 7 Consecutive Days in a Fasted State||1.28|0.602|0.4856
82553172|NCT05485779|164810663|EQUIVALENCE|Study was not powered and confidence intervals were assessed for containing unity (1) within them.|Slope|0.971||||0.1455|TWO_SIDED|95.0|0.666|1.28|||Lack of fit 2-sided|Lack of Fit Model: ln(parameter) = intercept + slope × ln(dose) + dose + random error|Between-subject geometric coefficient of variation was 45.5. Data were analyzed using a power model. ln(parameter) = intercept + slope ×ln(dose) + random error.|Statistical Analysis of Metabolite AQ282 Primary Pharmacokinetic Endpoints to Assess Dose Proportionality of Multiple Oral Doses of 9 to 60 mg AQ280 once daily for 7 Consecutive Days in a Fasted State||1.28|0.666|0.1455
82553173|NCT05170841|164810685|SUPERIORITY||||||=|0.566|||||||t-test, 2 sided|||||||=0.566
82553174|NCT05170841|164810686|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
82553175|NCT05170841|164810687|SUPERIORITY||||||=|0.006|||||||t-test, 2 sided|||||||=0.006
82553176|NCT05170841|164810688|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
82553177|NCT05170841|164810689|SUPERIORITY||||||=|0.031|||||||t-test, 2 sided|||||||=0.031
82553178|NCT05170841|164810690|SUPERIORITY||||||=|0.027|||||||t-test, 2 sided|||||||=0.027
82553179|NCT05170841|164810691|SUPERIORITY||||||=|0.011|||||||t-test, 2 sided|||||||=0.011
82553180|NCT05170841|164810692|SUPERIORITY||||||=|0.007|||||||t-test, 2 sided|||||||=0.007
82553181|NCT05170841|164810693|SUPERIORITY||||||=|0.013|||||||t-test, 2 sided|||||||=0.013
82553182|NCT05170841|164810694|SUPERIORITY||||||=|0.029|||||||t-test, 2 sided|||||||=0.029
82553183|NCT05170841|164810695|SUPERIORITY||||||=|0.022|||||||t-test, 2 sided|||||||=0.022
82553184|NCT05170841|164810696|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82553185|NCT05170841|164810697|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82553186|NCT05170841|164810698|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||||||=0.001
82553187|NCT05170841|164810699|SUPERIORITY||||||=|0.01|||||||t-test, 2 sided|||||||=0.01
82553188|NCT05170841|164810700|SUPERIORITY||||||=|0.04|||||||t-test, 2 sided|||||||=0.04
82553189|NCT05170841|164810701|SUPERIORITY||||||=|0.016|||||||t-test, 2 sided|||||||=0.016
82553190|NCT05170841|164810702|SUPERIORITY||||||=|0.045|||||||t-test, 2 sided|||||||=0.045
82553191|NCT05170841|164810703|SUPERIORITY||||||=|0.042|||||||t-test, 2 sided|||||||=0.042
82553192|NCT05170841|164810704|SUPERIORITY||||||=|0.037|||||||t-test, 2 sided|||||||=0.037
82553193|NCT05170841|164810705|SUPERIORITY||||||=|0.045|||||||t-test, 2 sided|||||||=0.045
82553194|NCT05170841|164810706|SUPERIORITY||||||=|0.029|||||||t-test, 2 sided|||||||=0.029
82553195|NCT05170841|164810707|SUPERIORITY||||||=|0.027|||||||t-test, 2 sided|||||||=0.027
82553196|NCT05170841|164810708|SUPERIORITY||||||=|0.035|||||||t-test, 2 sided|||||||=0.035
82553197|NCT05170841|164810709|SUPERIORITY||||||=|0.001|||||||t-test, 2 sided|||||||=0.001
82553198|NCT03806790|164810711|SUPERIORITY||Odds Ratio (OR)|5.8||||0.12|TWO_SIDED|95.0|0.68|49.16|||Fisher Exact|||Statistical analysis on the Full Analysis Set (FAS)||49.16|0.68|0.120
82553199|NCT03806790|164810712|SUPERIORITY||Odds Ratio (OR)|2.5||||0.004|TWO_SIDED|95.0|1.36|4.6|||Fisher Exact|||End of Week 1 (FAS)||4.60|1.36|0.004
82553200|NCT03806790|164810712|SUPERIORITY||Odds Ratio (OR)|4.85||||0.003|TWO_SIDED|95.0|1.57|14.97|||Fisher Exact|||End of Week 2 (FAS)||14.97|1.57|0.003
82553201|NCT03806790|164810713|SUPERIORITY||Estimated difference|-1.11|||<|0.001|TWO_SIDED|95.0|-1.64|-0.59|||ANOVA|||FAS||-0.59|-1.64|<0.001
82553202|NCT02432261|164810727|SUPERIORITY|We did not statistically power this study.|difference of proportion of subjects|57.6||||0.003|TWO_SIDED||||||Fisher Exact||The difference of proportion = NES/Testosterone - Testosterone|||||0.003
82553203|NCT04911296|164810818|OTHER|||||||0.935|||||||Fisher Exact|||||||0.935
82553204|NCT04911296|164810819|OTHER|||||||0.536|||||||Fisher Exact|||||||0.536
82553205|NCT05623228|164810859|SUPERIORITY|||||||0||||||"Bonferroni correction p\<.05~F(1.25)=9.17 η=.254 (p\<.05)"|ANOVA|||||||.00
82553206|NCT05623228|164810859|SUPERIORITY|||||||0||||||Bonferroni correction p\<.05 F(2)=7.30 η=.213 (P\<.05)|ANOVA|||||||.00
82553207|NCT05623228|164810860|SUPERIORITY|||||||0.04||||||F(2)=3.20, η=.106 Bonferroni Correction p\<.05|ANOVA|||||||.04
82553208|NCT05623228|164810861|SUPERIORITY|||||||0||||||F(1,06)=8,11, η2=.231 Bonferroni correction p\<.05|ANOVA|||||||.00
82553209|NCT05623228|164810862|SUPERIORITY|||||||0.04||||||F(1,19)=4,30, η2=.137 Bonferroni correction p\<0.5|ANOVA|||||||.04
82553210|NCT05623228|164810863|SUPERIORITY|||||||0||||||t (38.70)|t-test, 1 sided|||||||.00
82553211|NCT03825588|164810905|SUPERIORITY|||||||0.71||||||False Discovery Rate q-value \> 0.99|Chi-squared|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on the rate of actual suicide attempts||||0.71
82553212|NCT03825588|164810905|SUPERIORITY|||||||0.43||||||False Discovery Rate q-vale \> 0.99|Chi-squared|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the rate of actual suicide attempts||||0.43
82553213|NCT03825588|164810905|SUPERIORITY||Odds Ratio (OR)|0.4||||0.21|TWO_SIDED|95.0|0.1|1.66||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Interaction effect of ASAP and BRITE.||1.66|0.10|0.21
82553214|NCT03825588|164810905|SUPERIORITY||Odds Ratio (OR)|1.31||||0.57|TWO_SIDED|95.0|0.51|3.34||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Main effect of ASAP||3.34|0.51|0.57
82553215|NCT03825588|164810905|SUPERIORITY||Odds Ratio (OR)|1.15||||0.77|TWO_SIDED|95.0|0.44|2.97||False Discovery Rate q-value \> 0.99|Regression, Logistic|||Compare the 4 arms on the rate of actual suicide attempts in a 2x2 factorial design. Main effect of BRITE.||2.97|0.44|0.77
82553216|NCT03825588|164810905|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.74|TWO_SIDED|95.0|0.48|1.69||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on time to actual suicide attempt||1.69|0.48|0.74
82553217|NCT03825588|164810905|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.45|TWO_SIDED|95.0|0.42|1.48||False Discovery Rate q-vale \> 0.99|Regression, Cox|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the time to actual suicide attempt||1.48|0.42|0.45
82553218|NCT03825588|164810905|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.25|TWO_SIDED|95.0|0.13|1.72||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Interaction effect of ASAP and BRITE||1.72|0.13|0.25
82553219|NCT03825588|164810905|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.62|TWO_SIDED|95.0|0.54|2.87||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of ASAP.||2.87|0.54|0.62
82553220|NCT03825588|164810905|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.83|TWO_SIDED|95.0|0.47|2.59||False Discovery Rate q-value \> 0.99|Regression, Cox|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of BRITE.||2.59|0.47|0.83
82553221|NCT03825588|164810906|SUPERIORITY|||||||0.19||||||False Discovery Rate q-value = 0.72|Chi-squared|||Compare participants receiving ASAP (ASAP+TAU and ASAP+BRITE+TAU) to those who do not (BRITE+TAU and TAU) on the rate of suicidal events|We used standard univariate statistics to compare partici- pants' baseline sociodemographics and clinical characteris- tics by arm \[(ASAP vs No ASAP where comparison is 6 www.jaacap.org (ASAP+TAU) and (ASAP+BRITE+TAU) vs (TAU alone) and (BRITE+TAU); and BRITE vs No BRITE where comparison is (ASAP+BRITE+TAU) and (BRITE+TAU) vs (ASAP+TAU) and (TAU Alone)\], site, retention, pre- post-COVID and recruitment venue. We then tested for equality of the 2 cells (ASAP vs no ASAP, BRITE vs no BRITE) or 4 cells (ASAP+BRITE+TAU vs BRITE +TAU vs ASAP+TAU vs TAU Alone) without covariates on the rates of and time to suicidal behavior using the appropriate (t or F, c2, Kaplan-Meier, Cox models) test statistics. We then used mixed-effects regression models with arm (2 and 4 cells), time, and their interaction for continuous data. Presented percentages are based on all observed data.|||0.19
82553222|NCT03825588|164810906|SUPERIORITY|||||||0.89|TWO_SIDED|95.0||||False Discovery Rate q-value \> 0.99|Chi-squared|||Compare participants receiving BRITE (BRITE+TAU and ASAP+BRITE+TAU) to those who do not (ASAP+TAU and TAU) on the rate of suicidal events||||0.89
82581309|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.077||||0.0758|TWO_SIDED|95.0|-0.1642|0.0092||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Cerebellum||0.0092|-0.1642|0.0758
82553223|NCT03825588|164810906|SUPERIORITY||Odds Ratio (OR)|0.35||||0.08|TWO_SIDED|95.0|0.11|1.1||False Discovery Rate q-value = 0.72|Regression, Logistic|||Compare participants the 4 arms on the rate of suicidal events in a 2x2 factorial design. Interaction effect of ASAP and BRITE.||1.10|0.11|0.08
82553224|NCT03825588|164810906|SUPERIORITY||Odds Ratio (OR)|1.14||||0.74|TWO_SIDED|95.0|0.51|2.55||False Discovery Rate q \> 0.99|Regression, Logistic|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of ASAP.||2.55|0.51|0.74
82553225|NCT03825588|164810906|SUPERIORITY||Odds Ratio (OR)|1.69||||0.19|TWO_SIDED|95.0|0.77|3.69||False Discovery Rate q=0.72|Regression, Logistic|||Compare the 4 arms on time to actual suicide attempt in a 2x2 factorial design. Main effect of BRITE.||3.69|0.77|0.19
82553226|NCT00104676|164810929|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.05|TWO_SIDED|95.0|0.44|1.0|||Log Rank|Adjusted on the stratification factor (treatment centers)||To detect an absolute difference of 20% in progression-free survival at 3-years between Arm I and Unfav-Dose-Dense Arm II (46% versus 66%) with the possibility that 80 events (progressive disease and death) may be observed during this period, a total of 196 participants, 98 per group needed to be included, with an additional 25% of patients for a total of 260 participants required.||1.00|0.44|0.05
82581310|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.025||||0.4609|TWO_SIDED|95.0|-0.0947|0.0452||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_DLPFC||0.0452|-0.0947|0.4609
82553227|NCT00104676|164810930|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.34|TWO_SIDED|95.0|0.46|1.31|||Log Rank|Adjusted on the stratification factor (treatment centers)||||1.31|0.46|0.34
82553228|NCT05622812|164810931|SUPERIORITY||Treatment difference|39.0|||<|0.001|TWO_SIDED|95.0|21.6|56.5||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|||56.5|21.6|<0.001
82553229|NCT05622812|164810932|SUPERIORITY||Treatment difference|40.4|||<|0.001|TWO_SIDED|95.0|23.1|57.6||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||57.6|23.1|<0.001
82581311|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.111||||0.3813|TWO_SIDED|95.0|-0.3745|0.1524||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Mid Insula||0.1524|-0.3745|0.3813
82553230|NCT05622812|164810932|SUPERIORITY||Treatment difference|41.7|||<|0.001|TWO_SIDED|95.0|25.6|57.8||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 9||57.8|25.6|<0.001
82553231|NCT05622812|164810932|SUPERIORITY||Treatment difference|30.2||||0.003|TWO_SIDED|95.0|13.2|47.1||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||47.1|13.2|0.003
82581312|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.02||||0.72|TWO_SIDED|95.0|-0.0964|0.1361||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Mid Temporal Pole||0.1361|-0.0964|0.7200
82479784|NCT03720652|164653321|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.015|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.015
82479785|NCT03720652|164653321|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.34|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.34
82479786|NCT03720652|164653321|OTHER|The statistical test is a paired test assessing change at the End-of-Program Interview relative to baseline.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.002
82479787|NCT03720652|164653322|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.022|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.022
82479788|NCT03720652|164653322|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.02|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.020
82479789|NCT03720652|164653322|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.09|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.090
82479790|NCT03720652|164653323|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.051|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.051
82479791|NCT03720652|164653323|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.044|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.044
82479792|NCT03720652|164653323|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||1|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||1.00
82479793|NCT03720652|164653324|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.023
82479794|NCT03720652|164653324|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.56|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.56
82479795|NCT03720652|164653324|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.16|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.16
82553232|NCT05622812|164810933|SUPERIORITY||Treatment difference|99.0|||<|0.001|TWO_SIDED|95.0|97.1|100.0||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 3||100.0|97.1|<0.001
82479796|NCT03720652|164653325|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.15|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.15
82479797|NCT03720652|164653325|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.12|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.12
82553233|NCT05622812|164810933|SUPERIORITY||Treatment difference|87.6|||<|0.001|TWO_SIDED|95.0|76.9|98.2||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||98.2|76.9|<0.001
82553234|NCT05622812|164810933|SUPERIORITY||Treatment difference|80.5|||<|0.001|TWO_SIDED|95.0|68.6|92.4||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 9||92.4|68.6|<0.001
82553235|NCT05622812|164810933|SUPERIORITY||Treatment difference|73.7|||<|0.001|TWO_SIDED|95.0|61.9|85.5||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||85.5|61.9|<0.001
82479798|NCT03720652|164653325|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.018|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.018
82479799|NCT03720652|164653326|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.33|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.33
82479800|NCT03720652|164653326|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.88|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.88
82479801|NCT03720652|164653326|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.67|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.67
82479802|NCT03720652|164653327|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479803|NCT03720652|164653327|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479804|NCT03720652|164653327|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479805|NCT03720652|164653328|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.17|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.17
82479806|NCT03720652|164653328|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.02|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.020
82479807|NCT03720652|164653328|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.062|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.062
82479808|NCT03720652|164653329|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.013|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.013
82479809|NCT03720652|164653329|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.001
82553236|NCT05622812|164810934|SUPERIORITY||Treatment difference|93.1|||<|0.001|TWO_SIDED|95.0|88.2|98.0||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 3||98.0|88.2|<0.001
82553237|NCT05622812|164810934|SUPERIORITY||Treatment difference|87.9|||<|0.001|TWO_SIDED|95.0|81.4|94.3||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 6||94.3|81.4|<0.001
82553238|NCT05622812|164810934|SUPERIORITY||Treatment difference|80.4|||<|0.001|TWO_SIDED|95.0|72.7|88.1||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|||88.1|72.7|<0.001
82553239|NCT05622812|164810934|SUPERIORITY||Treatment difference|71.6|||<|0.001|TWO_SIDED|95.0|62.8|80.3||Two-sided p-value calculated using Fisher's Exact Test. The threshold of significance at \<0.05.|Fisher's Exact Test.||Difference confidence interval calculated using normal approximation.|Month 12||80.3|62.8|<0.001
82553240|NCT05196919|164810944|SUPERIORITY||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|8.693||1|TWO_SIDED|95.0|-22.57|30.97|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||30.97|-22.57|1.00
82553241|NCT05196919|164810944|SUPERIORITY||Mean Difference (Final Values)|7.96|STANDARD_ERROR_OF_MEAN|8.142||0.99|TWO_SIDED|95.0|-17.12|33.03|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||33.03|-17.12|0.99
82553242|NCT05196919|164810945|SUPERIORITY||Mean Difference (Final Values)|-6.15|STANDARD_ERROR_OF_MEAN|4.676||0.1933|TWO_SIDED|95.0|-15.49|3.19|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||3.19|-15.49|0.1933
82553243|NCT05196919|164810945|SUPERIORITY||Mean Difference (Final Values)|5.14|STANDARD_ERROR_OF_MEAN|4.434||0.2511|TWO_SIDED|95.0|-3.73|14.0|||Mixed Models Analysis|||This was a phase 2a safety study that was not statistically powered for efficacy assessments.||14.00|-3.73|0.2511
82553244|NCT01959607|164810949|OTHER||Geometric LS Mean Ratio|103.5|||||TWO_SIDED|95.0|84.94|126.11|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for Cmax, therefore, there was no statistical hypothesis to be tested for this objective.||126.11|84.94|
82553245|NCT01959607|164810950|OTHER||Geometric LS Mean Ratio|96.34|||||TWO_SIDED|95.0|85.1|109.07|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|LS mean ratio (THS 2.2 - Group 1:CC - Group 1)|The objective of this study was to determine the point estimate and precision of the nicotine bioavailability (ratio of THS 2.2:CC) for AUC(0-last), therefore, there was no statistical hypothesis to be tested for this objective.||109.07|85.10|
82553246|NCT03952338|164810971|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.97|TWO_SIDED|95.0|-4.07|3.93|||Mixed Models Analysis|||||3.93|-4.07|0.97
82553247|NCT03952338|164810972|SUPERIORITY||Mean Difference (Final Values)|1.22||||0.57|TWO_SIDED|95.0|-3.0|5.44|||Mixed Models Analysis|||||5.44|-3.00|0.57
82553248|NCT03952338|164810973|SUPERIORITY||Mean Difference (Final Values)|1.96||||0.09|TWO_SIDED|95.0|-0.32|4.23|||Mixed Models Analysis|||||4.23|-0.32|0.09
82479810|NCT03720652|164653329|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.003|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.003
82479811|NCT03720652|164653330|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.001
82553249|NCT03952338|164810974|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.08|TWO_SIDED|95.0|-0.22|4.43|||Mixed Models Analysis|||||4.43|-0.22|0.08
82553250|NCT03952338|164810975|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.09|TWO_SIDED|95.0|-0.17|2.46|||Mixed Models Analysis|||||2.46|-0.17|0.09
82553251|NCT03952338|164810976|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.95|TWO_SIDED|95.0|-1.39|1.3|||Mixed Models Analysis|||||1.30|-1.39|0.95
82581313|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.168||||0.2099|TWO_SIDED|95.0|-0.1065|0.4434||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Orbito Front||0.4434|-0.1065|0.2099
82553252|NCT03952338|164810977|SUPERIORITY||Odds Ratio (OR)|0.21||||0.01|TWO_SIDED|95.0|0.06|0.7|||Regression, Logistic|||||0.70|0.06|0.01
82581314|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.003||||0.9551|TWO_SIDED|95.0|-0.1047|0.0992||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||PAG||0.0992|-0.1047|0.9551
82581315|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.994|TWO_SIDED|95.0|-0.0855|0.0848||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Posterior Insula||0.0848|-0.0855|0.9940
82581316|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.049||||0.4291|TWO_SIDED|95.0|-0.1792|0.0806||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Posterior Cingulate||0.0806|-0.1792|0.4291
82581317|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.027||||0.467|TWO_SIDED|95.0|-0.0496|0.1028||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Precuneus||0.1028|-0.0496|0.4670
82581318|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.044||||0.4443|TWO_SIDED|95.0|-0.0752|0.1624||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_Putamen||0.1624|-0.0752|0.4443
82581319|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.127||||0.2823|TWO_SIDED|95.0|-0.3704|0.1165||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_S2||0.1165|-0.3704|0.2823
82581320|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.105||||0.1369|TWO_SIDED|95.0|-0.2481|0.0378||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_DLPFC||0.0378|-0.2481|0.1369
82581321|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.078||||0.2376|TWO_SIDED|95.0|-0.0573|0.2127||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_anIns||0.2127|-0.0573|0.2376
82581322|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.153||||0.0968|TWO_SIDED|95.0|-0.3365|0.0313||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Amygdala||0.0313|-0.3365|0.0968
82651109|NCT04147715|165017000|OTHER||Geometric Least Squares Mean Ratio|0.8786|||||TWO_SIDED|90.0|0.7705|1.0019|||||Ratio = Fed / Fasted|"The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed state and fasted state using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as random effect.~The difference and 90% CI between the fed and fasted state ln-transformed Cmax were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.0019|0.7705|
82479812|NCT03720652|164653330|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.01|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.010
82553253|NCT03952338|164810978|SUPERIORITY||Odds Ratio (OR)|0.29||||0.04|TWO_SIDED|95.0|0.09|0.96|||Regression, Logistic|||||0.96|0.09|0.04
82553254|NCT03952338|164810979|SUPERIORITY||Odds Ratio (OR)|2.11||||0.236|TWO_SIDED|95.0|0.27|7.23|||Regression, Logistic|||||7.23|0.27|0.236
82553255|NCT03952338|164810980|SUPERIORITY||Odds Ratio (OR)|2.22||||0.22|TWO_SIDED|95.0|0.62|7.97|||Regression, Logistic|||||7.97|0.62|0.220
82553256|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.7|TWO_SIDED|95.0|-0.37|0.55|||Mixed Models Analysis|||Total vegetables||0.55|-0.37|0.70
82553257|NCT03952338|164810981|SUPERIORITY||Median Difference (Final Values)|-0.07||||0.85|TWO_SIDED|95.0|-0.84|0.69|||Mixed Models Analysis|||Greens and beans||0.69|-0.84|0.85
82553258|NCT03952338|164810981|SUPERIORITY|Total fruits|Mean Difference (Final Values)|0.34||||0.29|TWO_SIDED|95.0|-0.29|0.98|||Mixed Models Analysis|||||0.98|-0.29|0.29
82553259|NCT03952338|164810981|SUPERIORITY||Median Difference (Final Values)|0.6||||0.07|TWO_SIDED|95.0|-0.06|1.26|||Mixed Models Analysis|||Whole fruits||1.26|-0.06|0.07
82553260|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.92|TWO_SIDED|95.0|-1.16|1.05|||Mixed Models Analysis|||Whole grains||1.05|-1.16|0.92
82581323|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.023||||0.572|TWO_SIDED|95.0|-0.061|0.1062||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_BA23\_base||0.1062|-0.0610|0.5720
82581324|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.027||||0.5822|TWO_SIDED|95.0|-0.1303|0.0761||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_IPL\_base||0.0761|-0.1303|0.5822
82581325|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.044||||0.6851|TWO_SIDED|95.0|-0.2697|0.1824||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Insula\_base||0.1824|-0.2697|0.6851
82479813|NCT03720652|164653330|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.085|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.085
82479814|NCT03720652|164653331|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479815|NCT03720652|164653331|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479816|NCT03720652|164653331|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479817|NCT03720652|164653332|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.||||||0.046|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.046
82479818|NCT03720652|164653332|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.||||||0.14|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.14
82479819|NCT03720652|164653332|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.||||||0.058|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||0.058
82479820|NCT03720652|164653333|OTHER|The statistical test is a paired test assessing change at the End-of-Intervention Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479821|NCT03720652|164653333|OTHER|The statistical test is a paired test assessing change at the 3-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479822|NCT03720652|164653333|OTHER|The statistical test is a paired test assessing change at the 6-Month Follow Up Interview relative to baseline.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||As the study design is quasi-experimental, there is no comparison group - both arms were analyzed jointly for each pre- and post- time interval.||||<0.001
82479823|NCT03073733|164653345|SUPERIORITY||least squares mean difference|-2.2|STANDARD_ERROR_OF_MEAN|2.9||0.582|TWO_SIDED|95.0|-10.3|5.8|||linear model for repeated measures|||||5.8|-10.3|0.582
82479824|NCT03073733|164653345|SUPERIORITY||least squares mean difference|-0.1|STANDARD_ERROR_OF_MEAN|2.91||0.984|TWO_SIDED|95.0|-8.2|8.0|||linear model for repeated measures|||||8.0|-8.2|0.984
82479825|NCT03073733|164653346|SUPERIORITY||least squares mean difference|1.2986|STANDARD_ERROR_OF_MEAN|0.8744||0.29|TWO_SIDED|95.0|-1.1341|3.7313|||linear model for repeated measures|||||3.7313|-1.1341|0.290
82479826|NCT03073733|164653346|SUPERIORITY||least squares mean difference|-0.3542|STANDARD_ERROR_OF_MEAN|0.7793||0.759|TWO_SIDED|95.0|-2.6516|1.9433|||linear model for repeated measures|||||1.9433|-2.6516|0.759
82479827|NCT03073733|164653347|SUPERIORITY||least squares mean difference|-278.73|STANDARD_ERROR_OF_MEAN|305.192||0.515|TWO_SIDED|95.0|-1126.21|568.75|||linear model for repeated measures|||||568.75|-1126.21|0.515
82553261|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.72|TWO_SIDED|95.0|-1.29|0.89|||Mixed Models Analysis|||Dairy||0.89|-1.29|0.72
82553262|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.15|TWO_SIDED|95.0|-0.12|0.74|||Mixed Models Analysis|||Total protein||0.74|-0.12|0.15
82553263|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.92|TWO_SIDED|95.0|-0.78|0.71|||Mixed Models Analysis|||Seafood and plant proteins||0.71|-0.78|0.92
82553264|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.67|TWO_SIDED|95.0|-1.47|0.94|||Mixed Models Analysis|||Fatty acids||0.94|-1.47|0.67
82479828|NCT03073733|164653347|SUPERIORITY||least squares mean difference|292.18|STANDARD_ERROR_OF_MEAN|308.659||0.499|TWO_SIDED|95.0|-562.87|1147.23|||linear model for repeated measures|||||1147.23|-562.87|0.499
82479829|NCT03073733|164653348|SUPERIORITY||least squares mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.42||0.16|TWO_SIDED|95.0|-2.1|0.3|||linear model for repeated measures|||||0.3|-2.1|0.160
82479830|NCT03073733|164653348|SUPERIORITY||least squares mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.43||0.622|TWO_SIDED|95.0|-1.5|0.9|||linear model for repeated measures|||||0.9|-1.5|0.622
82479831|NCT03073733|164653349|SUPERIORITY||least squares mean difference|-0.111|STANDARD_ERROR_OF_MEAN|0.1038||0.442|TWO_SIDED|95.0|-0.399|0.176|||linear model for repeated measures|||||0.176|-0.399|0.442
82479832|NCT03073733|164653349|SUPERIORITY||least squares mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.1037||0.401|TWO_SIDED|95.0|-0.165|0.409|||linear model for repeated measures|||||0.409|-0.165|0.401
82479833|NCT03073733|164653351|SUPERIORITY|||||||0.205|||||||Fisher Exact|||||||0.205
82479834|NCT03073733|164653352|SUPERIORITY|||||||0.157|||||||Fisher Exact|||||||0.157
82479835|NCT03073733|164653353|SUPERIORITY|||||||0.125|||||||Fisher Exact|||||||0.125
82479836|NCT03073733|164653354|SUPERIORITY|||||||0.173|||||||Fisher Exact|||||||0.173
82479837|NCT03073733|164653355|SUPERIORITY|||||||0.099|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.2)||||||0.099
82479838|NCT03073733|164653355|SUPERIORITY|||||||0.13|||||||t-test, 1 sided|Pooled t-test (variance ratio of 1.9)||||||0.130
82479839|NCT03073733|164653356|SUPERIORITY|||||||0.0959|||||||Fisher Exact|||||||0.0959
82479840|NCT03073733|164653357|SUPERIORITY|||||||0.1868|||||||Fisher Exact|||||||0.1868
82479841|NCT03073733|164653358|SUPERIORITY|||||||0.608|||||||Fisher Exact|||||||0.608
82479842|NCT03073733|164653359|SUPERIORITY|||||||0.264|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 7.9)||||||0.264
82553265|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.61|TWO_SIDED|95.0|-1.45|0.84|||Mixed Models Analysis|||Sodium||0.84|-1.45|0.61
82479843|NCT03073733|164653359|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 25.9)||||||0.139
82479844|NCT03073733|164653360|SUPERIORITY|||||||0.261|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 7.9)||||||0.261
82479845|NCT03073733|164653360|SUPERIORITY|||||||0.139|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 6.3)||||||0.139
82479846|NCT03073733|164653361|SUPERIORITY|||||||0.35|||||||t-test, 1 sided|Pooled t-test (variance ratio of 0.8).||||||0.350
82479847|NCT03073733|164653361|SUPERIORITY|||||||0.5|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.5)||||||0.500
82479848|NCT03073733|164653362|SUPERIORITY|||||||0.22|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.9).||||||0.220
82479849|NCT03073733|164653362|SUPERIORITY|||||||0.119|||||||t-test, 1 sided|Pooled t-test (variance ratio of 1.9).||||||0.119
82479850|NCT03073733|164653363|SUPERIORITY|||||||0.006|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.7)||||||0.006
82479851|NCT03073733|164653364|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
82479852|NCT03073733|164653365|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
82553266|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|-1.15||||0.06|TWO_SIDED|95.0|-2.34|0.04|||Mixed Models Analysis|||Refined grains||0.04|-2.34|0.06
82553267|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.32|TWO_SIDED|95.0|-0.51|1.57|||Mixed Models Analysis|||Saturated fats||1.57|-0.51|0.32
82553268|NCT03952338|164810981|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.63|TWO_SIDED|95.0|-0.56|0.92|||Mixed Models Analysis|||Added sugars||0.92|-0.56|0.63
82553269|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.85|TWO_SIDED|95.0|-0.61|0.5|||Mixed Models Analysis|||Total vegetables||0.50|-0.61|0.85
82553270|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.82|TWO_SIDED|95.0|-0.88|0.7|||Mixed Models Analysis|||Greens and beans||0.70|-0.88|0.82
82553271|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.48|TWO_SIDED|95.0|-0.43|0.93|||Mixed Models Analysis|||Total fruits||0.93|-0.43|0.48
82479853|NCT03073733|164653366|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.010
82479854|NCT03073733|164653367|SUPERIORITY|||||||0.072|||||||Fisher Exact|||||||0.072
82479855|NCT03073733|164653368|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 5.9)||||||0.019
82479856|NCT03073733|164653368|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.98)||||||0.019
82479857|NCT03073733|164653369|SUPERIORITY|||||||0.013|||||||Fisher Exact|||||||0.013
82479858|NCT03073733|164653370|SUPERIORITY|||||||0.033|||||||Fisher Exact|||||||0.033
82479859|NCT03073733|164653371|SUPERIORITY|||||||0.199|||||||Fisher Exact|||||||0.199
82479860|NCT03073733|164653372|SUPERIORITY|||||||0.075|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 56.3)||||||0.075
82479861|NCT03073733|164653372|SUPERIORITY|||||||0.062|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 25.2)||||||0.062
82479862|NCT03073733|164653373|SUPERIORITY|||||||0.255|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 9.9)||||||0.255
82479863|NCT03073733|164653373|SUPERIORITY|||||||0.109|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 8.7)||||||0.109
82479864|NCT03073733|164653374|SUPERIORITY|||||||0.488|||||||t-test, 1 sided|Pooled t-test (variance ratio of 0.7).||||||0.488
82479865|NCT03073733|164653374|SUPERIORITY|||||||0.273|||||||t-test, 1 sided|Pooled t-test (variance ratio of 2.5)||||||0.273
82479866|NCT03073733|164653375|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82479867|NCT03073733|164653376|SUPERIORITY|||||||0.006|||||||Fisher Exact|||||||0.006
82479868|NCT03073733|164653377|SUPERIORITY|||||||0.016|||||||Fisher Exact|||||||0.016
82479869|NCT03073733|164653378|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
82479870|NCT03073733|164653379|SUPERIORITY|||||||0.019|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 8.2)||||||0.019
82479871|NCT03073733|164653379|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 4.7)||||||0.011
82479872|NCT03073733|164653380|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
82479873|NCT03073733|164653381|SUPERIORITY|||||||0.096|||||||Fisher Exact|||||||0.096
82479874|NCT03073733|164653382|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.480
82479875|NCT03073733|164653383|SUPERIORITY|||||||0.076|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 51.5)||||||0.076
82479876|NCT03073733|164653383|SUPERIORITY|||||||0.057|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 26.1)||||||0.057
82479877|NCT03073733|164653384|SUPERIORITY|||||||0.117|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 29.0)||||||0.117
82479878|NCT03073733|164653384|SUPERIORITY|||||||0.083|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 9.5)||||||0.083
82479879|NCT03073733|164653385|SUPERIORITY|||||||0.172|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 6.7)||||||0.172
82479880|NCT03073733|164653385|SUPERIORITY|||||||0.14|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.98)||||||0.140
82479881|NCT03073733|164653386|SUPERIORITY|||||||0.011|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 5.4).||||||0.011
82479882|NCT03073733|164653387|SUPERIORITY|||||||0.0406|||||||Fisher Exact|||||||0.0406
82479883|NCT03073733|164653388|SUPERIORITY|||||||0.007|||||||Fisher Exact|||||||0.007
82479884|NCT03073733|164653389|SUPERIORITY|||||||0.026|||||||Fisher Exact|||||||0.026
82479885|NCT03073733|164653390|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
82479886|NCT03073733|164653391|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 22.2)||||||0.030
82479887|NCT03073733|164653391|SUPERIORITY|||||||0.033|||||||t-test, 1 sided|Pooled t-test (variance ratio of 3.3)||||||0.033
82479888|NCT03073733|164653392|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
82479889|NCT03073733|164653393|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
82479890|NCT03073733|164653394|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82479891|NCT03073733|164653395|SUPERIORITY|||||||0.08|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 606.4)||||||0.080
82479892|NCT03073733|164653395|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 52.3)||||||0.050
82479893|NCT03073733|164653396|SUPERIORITY|||||||0.099|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 35.7)||||||0.099
82479894|NCT03073733|164653396|SUPERIORITY|||||||0.076|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 17.6)||||||0.076
82479895|NCT03073733|164653397|SUPERIORITY|||||||0.1099|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 4.5)||||||0.1099
82479896|NCT03073733|164653397|SUPERIORITY|||||||0.012|||||||t-test, 1 sided|Unpooled t-test (variance ratio of 14.3)||||||0.012
82479897|NCT01227629|164653415|SUPERIORITY_OR_OTHER|||||||0.0357||95.0|||||Kruskal-Wallis|||Group comparison of differences from baseline to last available value||||0.0357
82479898|NCT01227629|164653416|SUPERIORITY_OR_OTHER|||||||0.26711||95.0|||||Kruskal-Wallis|||Group comparison of differences from baseline to week 12||||0.26711
82479899|NCT01588470|164653426|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82553272|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.06|TWO_SIDED|95.0|-0.04|1.46|||Mixed Models Analysis|||Whole fruits||1.46|-0.04|0.06
82553273|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.61||||0.34|TWO_SIDED|95.0|-0.63|1.84|||Mixed Models Analysis|||Whole grains||1.84|-0.63|0.34
82581326|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.013||||0.8656|TWO_SIDED|95.0|-0.1699|0.1446||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Insula||0.1446|-0.1699|0.8656
82479900|NCT01588470|164653428|SUPERIORITY||Mean Difference (Final Values)|-1.1|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82479901|NCT01252732|164653453|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|-2.7|||||TWO_SIDED|95.0|-7.5|2.0||||||||2.0|-7.5|
82479902|NCT01252732|164653454|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|2.2|||||TWO_SIDED|95.0|-2.6|7.0||||||||7.0|-2.6|
82553274|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.01|TWO_SIDED|95.0|0.31|2.62|||Mixed Models Analysis|||Dairy||2.62|0.31|0.01
82553275|NCT03952338|164810982|SUPERIORITY||Median Difference (Final Values)|0.21||||0.39|TWO_SIDED|95.0|-0.27|0.69|||Mixed Models Analysis|||Total protein||0.69|-0.27|0.39
82553276|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.81|TWO_SIDED|95.0|-0.9|0.7|||Mixed Models Analysis|||Seafood and plant proteins||0.70|-0.90|0.81
82553277|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.04|TWO_SIDED|95.0|-2.57|-0.04|||Mixed Models Analysis|||Fatty acids||-0.04|-2.57|0.04
82553278|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.25|TWO_SIDED|95.0|-1.86|0.48|||Mixed Models Analysis|||Sodium||0.48|-1.86|0.25
82553279|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.91|TWO_SIDED|95.0|-1.25|1.4|||Mixed Models Analysis|||Refined grains||1.40|-1.25|0.91
82553280|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.89|TWO_SIDED|95.0|-0.98|1.13|||Mixed Models Analysis|||Saturated fats||1.13|-0.98|0.89
82553281|NCT03952338|164810982|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.59|TWO_SIDED|95.0|-0.55|0.97|||Mixed Models Analysis|||Added sugars||0.97|-0.55|0.59
82553282|NCT03952338|164810983|SUPERIORITY||Risk Ratio (RR)|0.15||||0.01|TWO_SIDED|95.0|0.03|0.67||Marginal food insecurity|Mixed Models Analysis|Mixed effects multinomial logistic regression||||0.67|0.03|0.01
82553283|NCT03952338|164810983|SUPERIORITY||Risk Ratio (RR)|0.56||||0.34|TWO_SIDED|95.0|0.17|1.82|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Moderate food insecurity||1.82|0.17|0.34
82479903|NCT01252732|164653455|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The non-inferiority hypothesis test is a one sided hypothesis test performed at the 2.5% level of significance. If the lower limit of the two-sided 95% CI for the difference in response rates in the mITT population is greater than -10% the NI of oritavancin to vancomycin is concluded.|Difference in Proportions|0.6|||||TWO_SIDED|95.0|-3.7|5.0||||||||5.0|-3.7|
82479904|NCT02081859|164653456|OTHER|||||||0.41|||||||Chi-squared|||||||0.41
82479905|NCT02081859|164653457|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
82479906|NCT03039621|164653464|SUPERIORITY|||||||0.026||||||a priori threshold for statistical significance equals 0.05|Wilcoxon (Mann-Whitney)|||||||0.026
82479907|NCT03039621|164653465|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
82479908|NCT03039621|164653466|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
82479909|NCT03039621|164653467|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82479910|NCT03039621|164653468|SUPERIORITY|||||||0.0201||||||"The p-value associated with treatment factor of total severity index of the disease from Day 2 to Day 3, 4, 5 and 6 endpoint between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0201
82479911|NCT03039621|164653469|SUPERIORITY|||||||0.046|||||||Wilcoxon (Mann-Whitney)|||||||0.046
82479912|NCT03039621|164653470|SUPERIORITY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||||||0.0025
82479913|NCT03039621|164653470|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.22|||||||Breslow-Day test|||||||0.22
82479914|NCT03039621|164653471|SUPERIORITY|||||||0.0037||||||"The p-value associated with treatment factor of total severity index of the disease from Day 1 to Day 2, 3 and 4 endpoint between Ergoferon and Placebo treatment groups. Model includes treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||||||0.0037
82479915|NCT03039621|164653472|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82479916|NCT01733212|164653486|EQUIVALENCE|Considering the null hypothesis that the number of participants who will have vomiting will be equal in the two arms, we performed this study with a significance level of 0.05% and power of 80% to prove that there is a difference in the number.||||||0.07|||||||Chi-squared|||Number of participants who had vomiting in each group is compared to the other. Two sided Chi square test was conducted, Type I error of 0.05% and power of 80% are considered.||||0.07
82479917|NCT01029405|164653506|SUPERIORITY_OR_OTHER||||||<|0.001|||||||2-sided sign test|||||||<0.001
82479918|NCT05027971|164653525|OTHER||Proportion by cohort|0.02|||||TWO_SIDED|95.0|0.002|0.07||||||||.07|.002|
82479919|NCT05027971|164653526|OTHER||Proportion by cohort|0.03|||||TWO_SIDED|95.0|0.006|0.084||||||||.084|.006|
82553284|NCT03952338|164810983|SUPERIORITY||Risk Ratio (RR)|0.16||||0.02|TWO_SIDED|95.0|0.03|0.76|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Severe food insecurity||0.76|0.03|0.02
82553285|NCT03952338|164810984|SUPERIORITY||Risk Ratio, log|0.28||||0.1|TWO_SIDED|95.0|0.06|1.29|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Marginal food insecurity||1.29|0.06|0.10
82553286|NCT03952338|164810984|SUPERIORITY||Risk Ratio (RR)|0.68||||0.52|TWO_SIDED|95.0|0.21|2.21|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Moderate food insecurity||2.21|0.21|0.52
82479920|NCT05027971|164653527|OTHER||Proportion by cohort|0.667|||||TWO_SIDED|95.0|0.553|0.768||||||||.768|.553|
82479921|NCT05027971|164653528|OTHER||Mean Difference (Final Values)|-15.8|||||TWO_SIDED|95.0|-17.4|-14.2||||||||-14.2|-17.4|
82479922|NCT05027971|164653531|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
82479923|NCT05027971|164653532|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
82479924|NCT05027971|164653533|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
82479925|NCT05027971|164653534|OTHER||Proportion by cohort|0.889|||||TWO_SIDED|95.0|0.81|0.943||||||||.943|.810|
82553287|NCT03952338|164810984|SUPERIORITY||Risk Ratio (RR)|0.11||||0.01|TWO_SIDED|95.0|0.02|0.56|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Severe food insecurity||0.56|0.02|0.01
82553288|NCT03952338|164810985|SUPERIORITY||Risk Ratio (RR)|2.94||||0.15|TWO_SIDED|95.0|0.68|12.66|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Medium malnutrition risk||12.66|0.68|0.15
82553289|NCT03952338|164810985|SUPERIORITY||Risk Ratio (RR)|1.18||||0.86|TWO_SIDED|95.0|0.2|7.13|||Mixed Models Analysis|Mixed effects multinomial logistic regression||High malnutrition risk||7.13|0.20|0.86
82479926|NCT05027971|164653535|OTHER||Mean Difference (Final Values)|15.0|||||TWO_SIDED|95.0|11.3|18.6||||||||18.6|11.3|
82479927|NCT05027971|164653536|OTHER||Mean Difference (Final Values)|-3.4|||||TWO_SIDED|95.0|-3.9|-2.9||||||||-2.9|-3.9|
82479928|NCT05027971|164653537|OTHER||Proportion by cohort|1.0|||||TWO_SIDED|95.0|0.963|1.0||||||||1|.963|
82553290|NCT03952338|164810986|SUPERIORITY||Risk Ratio (RR)|1.28||||0.74|TWO_SIDED|95.0|0.31|5.38|||Mixed Models Analysis|Mixed effects multinomial logistic regression||Medium malnutrition risk||5.38|0.31|0.74
82553291|NCT03952338|164810986|SUPERIORITY||Risk Ratio (RR)|5.48||||0.1|TWO_SIDED|95.0|0.73|41.3|||Mixed Models Analysis|Mixed effects multinomial logistic regression||High malnutrition risk||41.3|0.73|0.10
82553292|NCT03952338|164810987|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.64|TWO_SIDED|95.0|-0.65|0.4|||Mixed Models Analysis|||||0.40|-0.65|0.64
82553293|NCT03952338|164810988|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.9|TWO_SIDED|95.0|-0.57|0.5|||Mixed Models Analysis|||||0.50|-0.57|0.90
82553294|NCT03952338|164810989|SUPERIORITY||Mean Difference (Final Values)|-4.07||||0.43|TWO_SIDED|95.0|-14.05|5.92||Males|Mixed Models Analysis|||||5.92|-14.05|0.43
82553295|NCT03952338|164810989|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.83|TWO_SIDED|95.0|-3.75|4.66|||Mixed Models Analysis|||Females||4.66|-3.75|0.83
82553296|NCT03952338|164810990|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.66|TWO_SIDED|95.0|-5.65|3.57||Age 18-59 years|Mixed Models Analysis|||||3.57|-5.65|0.66
82479929|NCT02112045|164653541|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
82479930|NCT02112045|164653542|SUPERIORITY|||||||0.6|||||||Log Rank|||||||0.60
82479931|NCT00247611|164653570|SUPERIORITY_OR_OTHER|||||||0.12||||||The p-value was not adjusted for multiple comparisons, and thresholds for significance were 0.05 alpha two tailed.|HLM|||For the ITT sample, the observed pattern of an increasing proportion of participants in the intervention arm reporting perfect adherence as time progressed from was associated with a p-value of 0.12, two-tailed alpha 0.05.||||0.12
82479932|NCT00247611|164653570|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||The p-value was not adjusted for multiple comparisons, and thresholds for significance was 0.05 alpha, two tailed.|HLM|||For the on protocol sample, study arm was associated with perfect ACTG-assessed 3-day ARV adherence at p = 0.024, alpha two-tailed.||||0.024
82479933|NCT00247611|164653571|SUPERIORITY_OR_OTHER||||||>|0.5||95.0||||No adjustments were made.|Generalized Linear Model (GLM)|||For the ITT or OP samples, the significance threshold between groups over time for differential increases in proportion with suppressed (undetectable) viral load was p \> 0.50. The study was underpowered to detect differences in Viral load.||||>0.50
82479934|NCT00247611|164653572|SUPERIORITY_OR_OTHER|||||||0.12||0.0||||The p-value was not adjusted for multiple comparisons and is reported as 0.12 at alpha 0.05 two tailed|HLM|||For the ITT sample (t=586) the observed pattern of an increasing proportion of participants in the intervention arm reporting perfect adherence as time progressed from baseline was associated with a p-value of 0.12, alpha 0.05 two-tailed.||||0.12
82479935|NCT00247611|164653572|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||The p-value was not adjusted for multiple comparisons, and is reported as 0.12 at alpha 0.05 two tailed.|HLM|||For the on protocol sample the pattern of increased proportion of participants in the intervention arm reporting perfect adherence as time progressed from baseline was associated with a p-value of 0.12, alpha 0.05 two-tailed.||||0.12
82479936|NCT00247611|164653573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||P-value for difference in unemployment rate between On Protocol (OP) sample, and participants excluded from on protocol analysis.||||<0.001
82479937|NCT00247611|164653573|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Chi-squared|||P-value for difference of participants on disability between On Protocol (OP) sample, and participants excluded from on protocol analysis.||||<0.01
82479938|NCT00445588|164653585|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.4|TWO_SIDED|95.0|0.6|1.3||cox regression model was used to estimate the HR of death compared to NABTT historical control with same histology, adjusted for age, KPS, and surgical procedure|Regression, Cox|cox regression model used to estimate the HR of death compared to NABTT historical control same histology, adjusted for age, KPS, surgical procedure||The overall failure rate will be estimated by dividing the number of events (death) with the total exposure time in the study cohort. 95% confidence intervals and median time of survival will be calculated using standard methods.||1.3|0.6|0.4
82479939|NCT03192358|164653593|SUPERIORITY||Cohen's d|1.18|||<|0.001|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05.|ANOVA||Cohen's d values \> 0.8 are considered large|This was an observational study. The statistical test explores whether there were significant differences in tongue pressure between the two cohorts. The hypothesis was that individuals with ALS would display significantly lower maximum anterior isometric tongue pressures compared to the people with PD.||||< 0.001
82553297|NCT03952338|164810990|SUPERIORITY||Mean Difference (Final Values)|3.28||||0.4|TWO_SIDED|95.0|-4.36|10.93|||Mixed Models Analysis|||Age 60+ years||10.93|-4.36|0.40
82553298|NCT03952338|164810991|SUPERIORITY||Mean Difference (Final Values)|6.25||||0.43|TWO_SIDED|95.0|-9.13|21.63|||Mixed Models Analysis|||Males||21.63|-9.13|0.43
82553299|NCT03952338|164810991|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.62|TWO_SIDED|95.0|-3.23|5.41|||Mixed Models Analysis|||Females||5.41|-3.23|0.62
82553300|NCT03952338|164810992|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.99|TWO_SIDED|95.0|-4.76|4.66|||Mixed Models Analysis|||18-59 years||4.66|-4.76|0.99
82479940|NCT03192358|164653594|SUPERIORITY||Cohen's d|1.75|||<|0.001|TWO_SIDED||||||ANOVA||Cohen's d values \> 0.8 are considered large|This was an observational study rather than a trial. The hypothesis was that individuals with ALS would display significantly lower regular effort saliva swallow pressures than the individuals with PD.||||< 0.001
82553301|NCT03952338|164810992|SUPERIORITY||Mean Difference (Final Values)|3.66||||0.43|TWO_SIDED|95.0|-5.48|12.8|||Mixed Models Analysis|||60+ years||12.80|-5.48|0.43
82553302|NCT05274074|164811008|SUPERIORITY||Mean Difference (Net)|1.4||||0.57|TWO_SIDED|95.0|-3.4|6.2|||Regression, Linear|||||6.2|-3.4|0.57
82581327|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.094||||0.1562|TWO_SIDED|95.0|-0.2296|0.0407||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Front\_DLPFC||0.0407|-0.2296|0.1562
82581328|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.012||||0.7752|TWO_SIDED|95.0|-0.0991|0.0754||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Mid Temporal Pole||0.0754|-0.0991|0.7752
82581329|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.01||||0.9182|TWO_SIDED|95.0|-0.1912|0.2109||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Orbito Front||0.2109|-0.1912|0.9182
82581330|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.022||||0.6544|TWO_SIDED|95.0|-0.0829|0.1278||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||L\_PAG||0.1278|-0.0829|0.6544
82581331|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.087||||0.0813|TWO_SIDED|95.0|-0.0123|0.1863||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_pIns||0.1863|-0.0123|0.0813
82581332|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.052||||0.4605|TWO_SIDED|95.0|-0.0956|0.2004||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_pIns||0.2004|-0.0956|0.4605
82553303|NCT05274074|164811009|SUPERIORITY||Mean Difference (Net)|-0.1||||0.53|TWO_SIDED|95.0|-0.5|0.2|||Regression, Linear|||||0.2|-0.5|0.53
82553304|NCT05274074|164811010|SUPERIORITY||Mean Difference (Net)|-1.0||||0.41|TWO_SIDED|95.0|-3.3|1.4|||Regression, Linear|||||1.4|-3.3|0.41
82581333|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.081||||0.3136|TWO_SIDED|95.0|-0.2484|0.0856||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Posterior Cingulate||0.0856|-0.2484|0.3136
82479941|NCT03467685|164653634|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||< 0.05
82479942|NCT00095147|164653653|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-1.04|||<|0.001|TWO_SIDED|95.0|-1.42|-0.67|||ANCOVA|||The primary analysis was the comparison of abatacept versus placebo for changes from baseline to 6 months (Day 197) in the DAS28. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.67|-1.42|<0.001
82553305|NCT05274074|164811011|SUPERIORITY||Mean Difference (Net)|-0.9||||0.45|TWO_SIDED|95.0|-3.5|1.6|||Regression, Linear|||||1.6|-3.5|0.45
82553306|NCT05274074|164811012|SUPERIORITY||Mean Difference (Net)|3.3||||0.02|TWO_SIDED|95.0|0.5|6.2|||Regression, Linear|||||6.2|0.5|0.02
82553307|NCT05274074|164811013|SUPERIORITY||Mean Difference (Net)|-0.8||||0.69|TWO_SIDED|95.0|-4.9|3.3|||Regression, Linear|||||3.3|-4.9|0.69
82553308|NCT01828099|164811014|SUPERIORITY||Hazard Ratio (HR)|0.55|||<|0.001|TWO_SIDED|95.0|0.42|0.73|||Log Rank|||||0.73|0.42|<0.001
82553309|NCT04568434|164811130|SUPERIORITY||LS mean difference|-43.5|||=|0.0009|TWO_SIDED|95.0|-69.085|-17.921||ANCOVA model included effects of treatment (olezarsen 80 mg, olezarsen 50 mg, or placebo): dependent variable, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-17.921|-69.085|=0.0009
82553310|NCT04568434|164811130|SUPERIORITY||Least squares (LS) mean difference|-22.37|||=|0.0775|TWO_SIDED|95.0|-47.2|2.463||Analysis of covariance (ANCOVA) model included effects of treatment (olezarsen 80 mg, olezarsen 50 mg, or placebo): dependent variable, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||2.463|-47.200|=0.0775
82553311|NCT04568434|164811131|SUPERIORITY||LS mean difference|-43.81|||=|0.0044|TWO_SIDED|95.0|-73.928|-13.692||ANCOVA model included percent change from baseline in fasting TG at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-13.692|-73.928|=0.0044
82581334|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.9929|TWO_SIDED|95.0|-0.0885|0.0893||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Precuneus||0.0893|-0.0885|0.9929
82581335|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.002||||0.949|TWO_SIDED|95.0|-0.0815|0.0767||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Precuneus\_base||0.0767|-0.0815|0.9490
82479943|NCT00095147|164653654|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-0.77|||<|0.001|TWO_SIDED|95.0|-1.14|-0.39|||ANCOVA|||Infliximab versus placebo were compared for changes from baseline to 6 months (Day 197) in the DAS28. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.39|-1.14|<0.001
82479944|NCT00095147|164653656|SUPERIORITY_OR_OTHER||Estimate of difference from placebo|20.6||||0.001|TWO_SIDED|95.0|7.7|33.6|||Chi-squared, Corrected|||Comparisons were made between ABA and PLA at Day 197 using a continuity corrected Chi-square test. All tests and confidence intervals for treatment comparison were two-sided.||33.6|7.7|0.001
82479945|NCT00095147|164653656|SUPERIORITY_OR_OTHER||Estimate of difference from placebo|17.9||||0.005|TWO_SIDED|95.0|5.1|30.7|||Chi-squared, Corrected|||Comparisons were made between INF and PLA at Day 197 using a continuity corrected Chi-square test. All tests and confidence intervals for treatment comparison were two-sided.||30.7|5.1|0.005
82479946|NCT00095147|164653658|SUPERIORITY_OR_OTHER||Difference from placebo|-0.38|||<|0.001|TWO_SIDED|95.0|-0.53|-0.23|||ANCOVA|||Adjusted mean change in HAQ-DI from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.23|-0.53|<0.001
82479947|NCT00095147|164653658|SUPERIORITY_OR_OTHER||Difference from placebo|-0.3|||<|0.001|TWO_SIDED|95.0|-0.45|-0.15|||ANCOVA|||Adjusted mean change in HAQ-DI from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||-0.15|-0.45|<0.001
82553312|NCT04568434|164811131|SUPERIORITY||LS mean difference|-59.39|||=|0.0002|TWO_SIDED|95.0|-90.663|-28.119||ANCOVA model included percent change from baseline in fasting TG at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline TG: covariate.|ANCOVA|||||-28.119|-90.663|=0.0002
82553313|NCT04568434|164811132|SUPERIORITY||LS mean difference|-65.48|||<|0.0001|TWO_SIDED|95.0|-82.634|-48.32||ANCOVA model included percent change from baseline in fasting apoC-III at Month 6: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 6||-48.320|-82.634|<0.0001
82553314|NCT04568434|164811132|SUPERIORITY||LS mean difference|-73.69|||<|0.0001|TWO_SIDED|95.0|-94.553|-52.837||ANCOVA model included percent change from baseline in fasting apoC-III at Month 6: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 6||-52.837|-94.553|<0.0001
82553315|NCT04568434|164811132|SUPERIORITY||Ls mean difference|-77.06|||<|0.0001|TWO_SIDED|95.0|-98.938|-55.177||ANCOVA model included percent change from baseline in fasting apoC-III at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-55.177|-98.938|<0.0001
82553316|NCT04568434|164811132|SUPERIORITY||LS mean difference|-81.28|||<|0.0001|TWO_SIDED|95.0|-104.656|-57.894||ANCOVA model included percent change from baseline in fasting apoC-III at Month 12: dependent variable, treatment group, protocol specified 2 randomization stratification factors: fixed effects, log-transformed baseline apoC-III: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-57.894|-104.656|<0.0001
82553317|NCT04568434|164811134|SUPERIORITY||LS mean difference|-33.29|||=|0.186|TWO_SIDED|95.0|-82.612|16.041||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change From Baseline at Month 6||16.041|-82.612|=0.1860
82553318|NCT04568434|164811134|SUPERIORITY||LS mean difference|-83.97|||=|0.0019|TWO_SIDED|95.0|-136.949|-30.982||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change From Baseline at Month 6||-30.982|-136.949|=0.0019
82479948|NCT00095147|164653660|SUPERIORITY_OR_OTHER||Difference from placebo (PCS)|4.02|||<|0.001|TWO_SIDED|95.0|1.92|6.12|||ANCOVA|||Adjusted mean change in SF-36 physical component summary from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||6.12|1.92|<0.001
82479949|NCT00095147|164653660|SUPERIORITY_OR_OTHER||Difference from placebo (MCS)|3.51||||0.004|TWO_SIDED|95.0|1.1|5.91|||ANCOVA|||Adjusted mean change in SF-36 mental component summary from baseline to 6 months (Day 197) was compared between ABA and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.91|1.10|0.004
82479950|NCT00095147|164653660|SUPERIORITY_OR_OTHER||Difference from placebo (PCS)|3.32||||0.002|TWO_SIDED|95.0|1.25|5.4|||ANCOVA|||Adjusted mean change in SF-36 physical component summary from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.40|1.25|0.002
82562190|NCT03786471|164834000|SUPERIORITY||marginal difference of LS means|-0.27||||0.65|TWO_SIDED|95.0|-0.81|0.27||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||0.27|-0.81|0.65
82479951|NCT00095147|164653660|SUPERIORITY_OR_OTHER||Difference from placebo (MCS)|2.68||||0.027|TWO_SIDED|95.0|0.31|5.05|||ANCOVA|||Adjusted mean change in SF-36 mental component summary from baseline to 6 months (Day 197) was compared between INF and PLA. This comparison was done using an analysis of covariance (ANCOVA) model with treatment group as the effect and baseline value as the covariate. A 95% confidence interval was computed for the treatment difference within the framework of the ANCOVA model.||5.05|0.31|0.027
82553319|NCT04568434|164811134|SUPERIORITY||LS mean difference|-32.9|||=|0.4219|TWO_SIDED|95.0|-113.254|47.459||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||47.459|-113.254|=0.4219
82553320|NCT04568434|164811134|SUPERIORITY||LS mean difference|-75.63|||=|0.056|TWO_SIDED|95.0|-153.195|1.927||ANCOVA model included percent change from baseline in fasting apoB-48 to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline apoB-48: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||1.927|-153.195|=0.0560
82553321|NCT04568434|164811135|SUPERIORITY||LS mean difference|-17.69|||=|0.0401|TWO_SIDED|95.0|-34.571|-0.801||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline Month 6||-0.801|-34.571|=0.0401
82553322|NCT04568434|164811135|SUPERIORITY||LS mean difference|-24.2|||=|0.0036|TWO_SIDED|95.0|-40.484|-7.911||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 6: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate|ANCOVA|||Percent Change from Baseline Month 6||-7.911|-40.484|=0.0036
82581336|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.065||||0.5668|TWO_SIDED|95.0|-0.3019|0.1722||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Superior Temporal||0.1722|-0.3019|0.5668
82581337|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.0||||0.9958|TWO_SIDED|95.0|-0.1398|0.1391||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Premotor||0.1391|-0.1398|0.9958
82581338|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.057||||0.3379|TWO_SIDED|95.0|-0.0659|0.1795||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Putamen||0.1795|-0.0659|0.3379
82581339|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.085||||0.2186|TWO_SIDED|95.0|-0.2262|0.0565||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_S1||0.0565|-0.2262|0.2186
82581340|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|-0.008||||0.8191|TWO_SIDED|95.0|-0.0843|0.0678||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||R\_Thalamus||0.0678|-0.0843|0.8191
82581341|NCT00760474|164874088|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean difference|0.012||||0.7647|TWO_SIDED|95.0|-0.0698|0.093||Significance was set at p \<0.05.|Mixed Models Analysis|Mixed-effect repeated measure model included participant as a random effect; treatment, visit as fixed effects.||Precuneus||0.0930|-0.0698|0.7647
82581342|NCT00513305|164874104|SUPERIORITY_OR_OTHER|||||||0.425|TWO_SIDED|95.0||||The p-value is from the Pearson chi-square test for testing the equality of two binomial proportions, assuming normal approximation of the binomial proportions.|Chi-squared|There were no adjustments for covariates. Since the primary endpoint was prespecified, no adjustment for multiplicity of endpoints was introduced||The hypothesis of equal complete remission rates between the two treatment groups was tested using a 2-sided, normal approximation to the difference in binomial proportions test with two-sided alpha equal to 0.05.||||0.425
82581343|NCT00513305|164874105|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.027||||0.829|TWO_SIDED|95.0|0.535|1.973|||Log Rank|||||1.973|0.535|0.829
82581344|NCT00513305|164874106|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.31||||0.527|TWO_SIDED|95.0|0.16|33.343|||Log Rank||Estimate based on Cox Proportional Hazards Model adjusting for age, Eastern Cooperative Oncology Group (ECOG) status, white blood count and presence of antecedent hematologic disorder.|||33.343|0.160|0.527
82581345|NCT00513305|164874109|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.027||||0.8289|TWO_SIDED|95.0|0.535|1.973|||Log Rank||Estimate based on Cox Proportional Hazards Model adjusting for age, Eastern Cooperative Oncology Group (ECOG) status, white blood count and presence of antecedent hematologic disorder.|||1.973|0.535|0.8289
82553323|NCT04568434|164811135|SUPERIORITY||LS mean difference|-29.84|||=|0.0134|TWO_SIDED|95.0|-53.49|-6.198||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-6.198|-53.490|=0.0134
82553324|NCT04568434|164811135|SUPERIORITY||LS mean difference|-39.7|||=|0.0009|TWO_SIDED|95.0|-63.108|-16.292||ANCOVA model included percent change from baseline in fasting non-HDL-C to Month 12: dependent variable, treatment group, protocol prespecified randomization stratification factors: fixed effects \& log-transformed baseline non-HDL-C: covariate.|ANCOVA|||Percent Change from Baseline at Month 12||-16.292|-63.108|=0.0009
82581346|NCT03014479|164874112|SUPERIORITY||Differences of Least Square Means|2.418||||0.2305|TWO_SIDED|95.0|-1.546|6.382|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||6.382|-1.546|0.2305
82581347|NCT03014479|164874113|SUPERIORITY||Differences of Least Square Means|1.938||||0.4536|TWO_SIDED|95.0|-3.15|7.027|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||7.027|-3.150|0.4536
82581348|NCT03014479|164874114|SUPERIORITY||Differences of Least Square Means|4.16||||0.0896|TWO_SIDED|95.0|-0.649|8.968|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||8.968|-0.649|0.0896
82581349|NCT03014479|164874115|SUPERIORITY||Differences of Least Square Means|-0.563||||0.8506|TWO_SIDED|95.0|-6.448|5.323|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||5.323|-6.448|0.8506
82581350|NCT03014479|164874116|SUPERIORITY||Differences of Least Square Means|2.696||||0.3533|TWO_SIDED|95.0|-3.018|8.41|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||8.410|-3.018|0.3533
82581351|NCT03014479|164874118|SUPERIORITY||Differences of Least Square Means|0.613||||0.5451|TWO_SIDED|95.0|-1.38|2.605|||ANCOVA||Trelagliptin - Daily DPP-4 inhibitors|||2.605|-1.380|0.5451
82581352|NCT02217501|164874140|SUPERIORITY|||||||0.6595||||||Alpha of 0.05|Cochran-Mantel-Haenszel|||||||0.6595
82479952|NCT02650921|164653724|SUPERIORITY||Difference in Responder Rate|64.7|||<|0.0001|TWO_SIDED|95.0|53.3|76.1|||McNemar|||||76.1|53.3|<0.0001
82479953|NCT02650921|164653725|SUPERIORITY||Difference in Responder Rate|72.3|||<|0.0001|TWO_SIDED|95.0|61.9|82.7|||McNemar|||||82.7|61.9|<0.0001
82479954|NCT02650921|164653726|SUPERIORITY||Difference in Responder Rate|57.3|||<|0.0001|TWO_SIDED|95.0|44.8|69.8|||McNemar|||||69.8|44.8|<0.0001
82479955|NCT02650921|164653727|SUPERIORITY||Difference in Responder Rate|45.8|||<|0.0001|TWO_SIDED|95.0|32.3|59.3|||McNemar|||||59.3|32.3|<0.0001
82553325|NCT04568434|164811136|SUPERIORITY||Mean Rate Ratio|0.1|||=|0.0052|TWO_SIDED|95.0|0.02|0.506||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable.|Negative Binomial Regression Model|||||0.506|0.020|=0.0052
82553326|NCT04568434|164811137|SUPERIORITY||Mean Rate Ratio|0.12|||=|0.0144|TWO_SIDED|95.0|0.022|0.656||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable.|Negative Binomial Regression Model|||||0.656|0.022|=0.0144
82553327|NCT04568434|164811138|SUPERIORITY||Mean Rate Ratio|0.14|||=|0.0174|TWO_SIDED|95.0|0.028|0.709||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.709|0.028|=0.0174
82553328|NCT04568434|164811139|SUPERIORITY||Mean Rate Ratio|0.16|||=|0.0314|TWO_SIDED|95.0|0.031|0.85||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.850|0.031|=0.0314
82553329|NCT04568434|164811142|SUPERIORITY||Mean Rate Ratio|0.14|||=|0.0137|TWO_SIDED|95.0|0.029|0.669||Regression model: treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 1 to 53:offset variable|Negative Binomial Regression Model|||||0.669|0.029|=0.0137
82581353|NCT05453201|164874147|OTHER|||||||0.06|||||||paired t-test|||This analysis uses the functional disability subscale from pre- to post-intervention.||||.06
82553330|NCT04568434|164811143|SUPERIORITY||Mean Rate Ratio|0.2|||=|0.048|TWO_SIDED|95.0|0.04|0.986||Regression model:treatment group \& previous treatment (volanesorsen):factors adjudicated acute pancreatitis events in 5 years prior enrollment:covariate. Logarithm of time in year that each participant was observed from Week 13 to 53:offset variable|Negative Binomial Regression Model|||||0.986|0.040|=0.0480
82479956|NCT00160667|164653759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||=|0.965|TWO_SIDED|95.0|-12.82|13.41|||ANCOVA||Estimated value is the difference of Least Square Means.|||13.41|-12.82|=0.965
82479957|NCT00160667|164653759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.48|||=|0.825|TWO_SIDED|95.0|-11.69|14.65|||ANCOVA||Estimated value is the difference of Least Square Means.|||14.65|-11.69|=0.825
82479958|NCT02285062|164653792|SUPERIORITY||Hazard Ratio (HR)|0.849||||0.2864|TWO_SIDED|95.0|0.632|1.14|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors|||1.140|0.632|0.2864
82553331|NCT05469464|164811145|SUPERIORITY||Mean Difference (Net)|-4.6|STANDARD_ERROR_OF_MEAN|6.93||0.505|TWO_SIDED|95.0|-18.2|9.0|||ANCOVA|||||9.0|-18.2|0.505
82553332|NCT05469464|164811145|SUPERIORITY||Mean Difference (Net)|-1.7|STANDARD_ERROR_OF_MEAN|7.15||0.812|TWO_SIDED|95.0|-15.8|12.3|||ANCOVA|||||12.3|-15.8|0.812
82553333|NCT05469464|164811145|SUPERIORITY||Mean Difference (Net)|-10.9|STANDARD_ERROR_OF_MEAN|6.99||0.118|TWO_SIDED|95.0|-24.6|2.8|||ANCOVA|||||2.8|-24.6|0.118
82553334|NCT02038777|164811203|OTHER||||||<|0.0001||||||An exact test for a single proportion (1-sided significance level: 0.05) was used.|Exact test for a single proportion|||||||<.0001
82581354|NCT05453201|164874147|OTHER|||||||0.004|||||||paired t-test|||This analysis uses the symptom severity subscale from pre- to post-intervention.||||.004
82581355|NCT05453201|164874147|OTHER|||||||0.1|||||||paired t-test|||This analysis uses the perceived overall health now subscale (1 item) from pre- to post-intervention.||||.10
82479959|NCT02285062|164653793|SUPERIORITY||Hazard Ratio (HR)|1.038||||0.7294|TWO_SIDED|95.0|0.802|1.344|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors.|||1.344|0.802|0.7294
82479960|NCT02285062|164653794|SUPERIORITY||Hazard Ratio (HR)|0.965||||0.876|TWO_SIDED|95.0|0.716|1.3|||Log Rank|Log-rank test stratified by 3 factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65).|Hazard ratio was derived from Cox proportional hazard model adjusting for the 3 stratification factors.|||1.300|0.716|0.8760
82479961|NCT02285062|164653795|SUPERIORITY|||||||0.2933||||||Obtained from CMH test adjusting for stratification factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65)|Cochran-Mantel-Haenszel|||||||0.2933
82479962|NCT02285062|164653796|SUPERIORITY|||||||0.9964||||||Obtained from CMH test adjusting for stratification factors: IPI score (2 or ≥ 3), presence of bulky disease (bulky or nonbulky), and age (\< 65 or ≥ 65)|Cochran-Mantel-Haenszel|||||||0.9964
82479963|NCT02285062|164653797|SUPERIORITY||Hazard Ratio (HR)|0.776||||0.2143|TWO_SIDED|95.0|0.521|1.157|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|HR was derived from COX model adjusting for the 3 stratification factors mentioned above.|||1.157|0.521|0.2143
82479964|NCT02285062|164653798|SUPERIORITY||Hazard Ratio (HR)|1.167||||0.315||95.0|0.856|1.59|||Log Rank|Stratified by: IPI score (2 or ≥ 3), presence or absence of bulky disease (diameter of the lesion ≥ 7 cm or \< 7 cm), and age (\< 65 or ≥ 65 years).|HR is derived from Cox model|||1.590|0.856|0.3150
82479965|NCT04355728|164653846|SUPERIORITY|||||||0.04|||||||Fisher Exact|||"The null hypothesis is the following: There is no difference in the number of subjects experiencing serious adverse events in the UC-MSC vs control group."||||.04
82479966|NCT04355728|164653855|SUPERIORITY||Hazard Ratio (HR)|0.289||||0.0307|TWO_SIDED|95.0|0.088|0.948|||Log Rank||Censoring was limited to dropout from study, and the event of interest was recovery. In the case of death, the patient's time to recovery was censored at the end of study observation; thus the patient remained in the risk set for all KM estimations.|"The null hypothesis is the following: There is no difference in Time to Recovery up to 31 days post infusion between the UC-MSC group and control group. Time to recovery was estimated in each group with Kaplan-Meier survival estimates. Log-rank tests were used to compare hazards between groups."||0.948|0.088|0.0307
82479967|NCT04355728|164653856|SUPERIORITY|||||||0.0563|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: The center of the distributions of ventilator free days are equal in the UC-MSC and control group.||||.0563
82479968|NCT04355728|164653857|SUPERIORITY|||||||0.0563|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: The center of the distributions of ventilator free days are equal in the UC-MSC and control group.||||.0563
82479969|NCT04355728|164653888|SUPERIORITY|||||||0.0356|||||||Wilcoxon (Mann-Whitney)|||||||0.0356
82479970|NCT04355728|164653889|SUPERIORITY|||||||0.0215|||||||Wilcoxon (Mann-Whitney)|||||||0.0215
82479971|NCT04355728|164653890|SUPERIORITY||Mean Difference (Net)|-3498.0|STANDARD_DEVIATION|3078.2||0.021|TWO_SIDED|95.0|-6404.7|-591.2|||t-test, 2 sided|||||-591.2|-6404.7|0.0210
82479972|NCT04355728|164653892|SUPERIORITY|||||||0.48|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 3 days post first infusion."||||0.48
82553335|NCT04299464|164811276|SUPERIORITY||Difference in Adjusted Mean|-0.432||||0.765|TWO_SIDED|80.0|-2.291|1.428|||ANCOVA|||||1.428|-2.291|0.7650
82479973|NCT04355728|164653892|SUPERIORITY|||||||0.41|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class II) status and treatment group at 3 days post first infusion."||||0.41
82479974|NCT04355728|164653893|SUPERIORITY|||||||1|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 6 days post first infusion."||||1.00
82479975|NCT04355728|164653893|SUPERIORITY|||||||1|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (Class II) status and treatment group at 6 days post first infusion."||||1.00
82479976|NCT04355728|164653894|SUPERIORITY|||||||0.44|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class I) status and treatment group at 14 days post first infusion."||||0.44
82479977|NCT04355728|164653894|SUPERIORITY|||||||0.5238|||||||Fisher Exact|||"The null hypothesis is the following: There is no association between PRA (class II) status and treatment group at 14 days post first infusion."||||0.5238
82479978|NCT01947855|164653916|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-104.87|STANDARD_ERROR_OF_MEAN|19.88|<|0.0001|TWO_SIDED|95.0|-144.77|-64.97|||ANCOVA|Model includes treatment, number of previous antidiabetic medication, baseline renal function, baseline HbA1c and baseline AUC1-4h for plasma glucose.||Difference calculated as empa 25 mg minus placebo. The analyses will be performed sequentially compared with placebo from high dose of empagliflozin and the full significance level (5%) will be maintained by the hierarchical procedure.||-64.97|-144.77|<0.0001
82479979|NCT01947855|164653916|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-85.49|STANDARD_ERROR_OF_MEAN|20.18|<|0.0001|TWO_SIDED|95.0|-126.01|-44.97|||ANCOVA|Model includes treatment, number of previous antidiabetic medication, baseline renal function, baseline HbA1c and baseline AUC1-4h for plasma glucose.||Difference calculated as empa 10 mg minus placebo. The analyses will be performed sequentially compared with placebo from high dose of empagliflozin and the full significance level (5%) will be maintained by the hierarchical procedure.||-44.97|-126.01|<0.0001
82479980|NCT04157673|164653933|SUPERIORITY|||||||0.0002||||||This is the overall treatment effect from the mixed model. p-value threshold set at p = 0.05.|Mixed Models Analysis|||Statistical analysis to support visual inspection of the multiple-baseline graphs included the phase changes from baseline to Episodic future thinking treatment. Phase changes were assessed using mixed model with fixed effects of level and trend for baseline phase and random effects for level and trend for treatment phase.||||0.0002
82553336|NCT04299464|164811276|SUPERIORITY||Difference in Adjusted Mean|-0.4444||||0.7517|TWO_SIDED|80.0|-2.25|1.363|||ANCOVA|||||1.363|-2.250|0.7517
82553337|NCT04299464|164811285|SUPERIORITY||Difference in Adjusted Mean|1.741||||0.6082|TWO_SIDED|80.0|-2.631|6.114|||ANCOVA|||||6.114|-2.631|0.6082
82553338|NCT04299464|164811285|SUPERIORITY||Difference in Adjusted Mean|-1.715||||0.6228|TWO_SIDED|80.0|-6.204|2.774|||ANCOVA|||||2.774|-6.204|0.6228
82553339|NCT04299464|164811286|SUPERIORITY||Difference in Adjusted Mean|-2.983||||0.1987|TWO_SIDED|80.0|-5.957|-0.009|||ANCOVA|||||-0.009|-5.957|0.1987
82553340|NCT04299464|164811286|SUPERIORITY||Difference in Adjusted Mean|-4.474||||0.046|TWO_SIDED|80.0|-7.326|-1.622|||ANCOVA|||||-1.622|-7.326|0.0460
82479981|NCT04157673|164653934|OTHER|Effect size of mean differences|Mean Difference (Final Values)|2.75|STANDARD_DEVIATION|3.78|||TWO_SIDED||||||||Cohen's d effect size = 0.73|Statistical analysis to support visual inspection of the multiple-baseline graphs included the phase changes from baseline to Episodic future thinking treatment. Phase changes were assessed using mixed model with fixed effects of level and trend for baseline phase and random effects for level and trend for treatment phase.||||
82479982|NCT04157673|164653935|OTHER|Effect size of mean pre-post differences|Mean Difference (Final Values)|0.355|STANDARD_DEVIATION|0.295|||TWO_SIDED||||||||cohen's d effect size for mean differences pre to post-treatment = 1.20|||||
82479983|NCT03011892|164653956|SUPERIORITY||Difference in Least Square (LS) Mean|-59.66|||<|0.0001|TWO_SIDED|95.0|-77.85|-41.47|||MMRM|||||-41.47|-77.85|< 0.0001
82479984|NCT03011892|164653957|SUPERIORITY||Difference in LS Mean|-33.01||||0.0004|TWO_SIDED|95.0|-51.27|-14.76|||MMRM|||DB: Vehicle BID, Ruxolitinib 0.15% QD||-14.76|-51.27|0.0004
82479985|NCT03011892|164653957|SUPERIORITY||Difference in LS Mean|-40.9|||<|0.0001|TWO_SIDED|95.0|-59.23|-22.57|||MMRM|||||-22.57|-59.23|< 0.0001
82479986|NCT03011892|164653957|SUPERIORITY||Difference in LS Mean|-54.82|||<|0.0001|TWO_SIDED|95.0|-72.93|-36.7|||MMRM|||||-36.70|-72.93|< 0.0001
82479987|NCT03011892|164653958|SUPERIORITY||Difference in LS Mean|14.63||||0.1127|TWO_SIDED|95.0|-3.47|32.73|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 0.15% QD||32.73|-3.47|0.1127
82479988|NCT03011892|164653958|SUPERIORITY||Difference in LS Mean|6.74||||0.4659|TWO_SIDED|95.0|-11.44|24.92|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 0.5% QD||24.92|-11.44|0.4659
82553341|NCT04299464|164811287|SUPERIORITY||Difference in Adjusted Means|1.279||||0.4746|TWO_SIDED|80.0|-1.021|3.578|||ANCOVA|||||3.578|-1.021|0.4746
82479989|NCT03011892|164653958|SUPERIORITY||Difference in LS Mean|-7.18||||0.432|TWO_SIDED|95.0|-25.13|10.77|||MMRM|||Triamcinolone 0.1% BID/Vehicle Cream BID, DB: Ruxolitinib 1.5% QD||10.77|-25.13|0.4320
82479990|NCT03011892|164653958|SUPERIORITY||Difference in LS Mean|-12.02||||0.1903|TWO_SIDED|95.0|-30.05|6.0|||MMRM|||||6.00|-30.05|0.1903
82479991|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-25.12||||0.0009|TWO_SIDED|95.0|-39.84|-10.41|||MMRM|||Week 2||-10.41|-39.84|0.0009
82479992|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-47.85|||<|0.0001|TWO_SIDED|95.0|-62.64|-33.06|||MMRM|||Week 2||-33.06|-62.64|< 0.0001
82479993|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-41.04|||<|0.0001|TWO_SIDED|95.0|-56.0|-26.08|||MMRM|||Week 2||-26.08|-56.00|< 0.0001
82479994|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-45.05|||<|0.0001|TWO_SIDED|95.0|-59.69|-30.4|||MMRM|||Week 2||-30.40|-59.69|< 0.0001
82553342|NCT04299464|164811287|SUPERIORITY||Difference in Adjusted Means|2.697||||0.1244|TWO_SIDED|80.0|0.453|4.94|||ANCOVA|||||4.940|0.453|0.1244
82553343|NCT03916276|164811329|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce a greater proportion of people decreasing their dose relative to those increasing their dose during treatment.|||||>|0.05|||||||Chi-squared|||||||>.05
82553344|NCT03916276|164811330|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553345|NCT03916276|164811331|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553346|NCT03916276|164811332|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82479995|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|9.99||||0.1806|TWO_SIDED|95.0|-4.66|24.63|||MMRM|||Week 2||24.63|-4.66|0.1806
82479996|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-5.93||||0.4333|TWO_SIDED|95.0|-20.82|8.95|||MMRM|||Week 2||8.95|-20.82|0.4333
82479997|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-9.94||||0.1805|TWO_SIDED|95.0|-24.51|4.63|||MMRM|||Week 2||4.63|-24.51|0.1805
82479998|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-12.74||||0.0895|TWO_SIDED|95.0|-27.45|1.98|||MMRM|||Week 2||1.98|-27.45|0.0895
82479999|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-28.38||||0.0042|TWO_SIDED|95.0|-47.74|-9.02|||MMRM|||Week 8||-9.02|-47.74|0.0042
82480000|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-36.52||||0.0003|TWO_SIDED|95.0|-56.03|-17.01|||MMRM|||Week 8||-17.01|-56.03|0.0003
82480001|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-45.19|||<|0.0001|TWO_SIDED|95.0|||||MMRM|||Week 8||||< 0.0001
82480002|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-57.15|||<|0.0001|TWO_SIDED|95.0|-76.53|-37.77|||MMRM|||Week 8||-37.77|-76.53|< 0.0001
82480003|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|7.78||||0.4243|TWO_SIDED|95.0|-11.37|26.93|||MMRM|||Week 8||26.93|-11.37|0.4243
82480004|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-0.35||||0.9715|TWO_SIDED|95.0|-19.65|18.95|||MMRM|||Week 8||18.95|-19.65|0.9715
82480005|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-9.03||||0.3507|TWO_SIDED|95.0|-28.05|9.99|||MMRM|||Week 8||9.99|-28.05|0.3507
82480006|NCT03011892|164653959|SUPERIORITY||Difference in LS Mean|-20.98||||0.032|TWO_SIDED|95.0|-40.15|-1.82|||MMRM|||Week 8||-1.82|-40.15|0.0320
82480007|NCT02282293|164653966|OTHER||Risk Ratio (RR)|1.96||||0.5|TWO_SIDED|95.0|0.5|7.61||Calculated p-value|Chi-squared|||||7.61|0.50|0.50
82480008|NCT02282293|164653968|OTHER||Risk Ratio (RR)|1.96||||0.5|TWO_SIDED|95.0|0.5|7.61|||Chi-squared|||||7.61|0.50|0.50
82480009|NCT02282293|164653970|OTHER||Risk Ratio (RR)|0.45||||0.19|TWO_SIDED|95.0|0.13|1.48||Calculated p-value|GEE|||||1.48|0.13|0.19
82553347|NCT03916276|164811333|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553348|NCT03916276|164811334|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553349|NCT03916276|164811335|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553350|NCT03916276|164811336|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553351|NCT03916276|164811337|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82581356|NCT05453201|164874148|OTHER|||||||0.46|||||||paired t-test|||This analysis uses domain 1 from pre- to post-intervention.||||.46
82480010|NCT02282293|164653971|OTHER||Risk Ratio (RR)|1.33||||0.35|TWO_SIDED|95.0|0.72|2.45|||Chi-squared|||||2.45|0.72|0.35
82480011|NCT03381729|164653985|SUPERIORITY||Difference in Percent|-6.0|||>|0.9999|TWO_SIDED|95.0|-21.8|22.8|||Fisher Exact|||Difference in the percentage of participants who achieved the ability to stand alone.|Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 7 (13.7%) participants achieved the ability to stand alone and 44 (86.3%) participants did not achieve the ability to stand alone.|22.8|-21.8|>0.9999
82480012|NCT03381729|164653986|SUPERIORITY||Difference Between Least Squares Mean|5.5||||0.0027|TWO_SIDED|95.0|1.9|9.0|||Mixed-Model Repeat Measure||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where the least squares mean (95% confidence interval) of the change from baseline in HFMSE scores at 12 months was 0.5 (-2.2 to 3.2).|9.0|1.9|0.0027
82480013|NCT03381729|164653988|SUPERIORITY||Percentage Difference|-2.1|||>|0.9999|TWO_SIDED|95.0|-17.2|27.0|||Fisher Exact|||Difference in the percentage of participants who achieved the ability to walk alone.|Data for the current study were compared to historical control data (Finkel et al 2014 PubMed 25080519) where 5 (9.8%) participants achieved the ability to walk alone and 46 (90.2%) participants did not achieve the ability to walk alone.|27.0|-17.2|>0.9999
82553352|NCT03916276|164811338|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||<|0.05|||||||ANOVA|||||||<.05
82553353|NCT03916276|164811339|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements|||||>|0.05|||||||ANOVA|||||||>.05
82553354|NCT03916276|164811340|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements|||||>|0.05|||||||ANOVA|||||||>.05
82553355|NCT03916276|164811341|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553356|NCT03916276|164811342|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553357|NCT03916276|164811343|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553358|NCT03916276|164811344|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553359|NCT03916276|164811345|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82553360|NCT03209973|164811351|OTHER||||||<|0.0001||||||1-sided p-value was based on exact test of BGB-A317 versus historical rate of 0.35|Exact Binomial Test|Comparison with historical control values||||||<0.0001
82553361|NCT04726371|164811362|SUPERIORITY|||||||0.89||||||A Wald test was used to test against the null hypothesis that intervention main effect and interaction effects between intervention and time trends were simultaneously zero and assess for differences in the mean trend of infections over follow-up.|Test of joint null hypothesis from model|Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.||A Poisson GLMM was fit with a main effect for intervention group, linear and quadratic time trends, and interaction effects between intervention and the time trend variables. The model was adjust for stratification factors, baseline infection incidence, agency and included random intercept for group home.|"The point estimates for intervention main effect, intervention by linear time effect, and for intervention by time\^2 interaction effect are described in the paper Tailored vs. General COVID-19 prevention for adults with mental disabilities residing in group homes: a randomized controlled effectiveness-implementation trial by Bartels S, Levison JH, Trieu HD, et al., published in 2024 in BMC Public Health, doi:10.1186/s12889-024-18835-w."|||0.89
82553362|NCT04726371|164811363|SUPERIORITY||||||>|0.99||||||A Wald test was used to test against the null hypothesis that intervention main effect and interaction effects between intervention and time trends were simultaneously zero and assess for differences in the mean trend of scores over follow-up.|Wald test|Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.||A GLMM was fit with a main effect for intervention group, linear and quadratic time trends, and interaction effects between intervention and the time trend variables. The model was adjust for stratification factors, baseline fidelity score, agency and included random intercept for group home.|"The point estimates for intervention main effect, intervention by linear time effect, and intervention by time\^2 interaction effect are described in the paper Tailored vs. General COVID-19 prevention for adults with mental disabilities residing in group homes: a randomized controlled effectiveness-implementation trial by Bartels S, Levison JH, Trieu HD, et al., published in 2024 in BMC Public Health, doi:10.1186/s12889-024-18835-w."|||>.99
82553363|NCT04726371|164811364|SUPERIORITY||Hazard Ratio (HR)|1.21|||>|0.99|TWO_SIDED|95.0|0.79|1.84||Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.|Regression, Cox|||A Cox frailty model was fit to evaluate differences in the hazard of vaccination uptake between arms separately within the combined population of residents with SMI and ID/DD. This model included a main effect for intervention arm and additionally adjusted for stratification factors, GH agency, and GH-level log-normal frailties.||1.84|0.79|>.99
82581357|NCT05453201|164874148|OTHER|||||||0.2|||||||paired t-test|||This analysis uses domain 2 from pre- to post-intervention.||||.20
82581358|NCT05453201|164874148|OTHER|||||||0.42|||||||paired t-test|||This analysis uses domain 3 from pre- to post-intervention.||||.42
82553364|NCT04726371|164811365|SUPERIORITY||Hazard Ratio (HR)|0.99|||>|0.99|TWO_SIDED|95.0|0.86|1.15||Bonferroni-adjusted p-value is reported to correct for multiplicity for testing outcomes with 6 combinations of outcomes and subpopulations.|Regression, Cox|||A Cox frailty model was fit to evaluate differences in the hazard of vaccination uptake between arms separately within the staff population. This model included a main effect for intervention arm and additionally adjusted for stratification factors, GH agency, and GH-level log-normal frailties.||1.15|0.86|>.99
82553365|NCT04231331|164811369|SUPERIORITY||||||<|0.001||||||P-value \<0.05 was considered statistically significant.|t-test, 2 sided|||Based on our previous study, we assumed a common baseline mean EROA of 0.21 cm2 with a common standard deviation of 0.11 cm2. Given these assumptions, we calculated that a sample size of 204 patients randomly assigned to two groups, would provide 90% power to detect a difference of 0.05 cm2 in the EROA between the ertugliflozin and placebo groups, using a two-sided t test with an alpha level of 0.05.||||<0.001
82581359|NCT05453201|164874148|OTHER|||||||0.84|||||||paired t-test|||This analysis uses domain 4 from pre- to post-intervention.||||.84
82581360|NCT05453201|164874148|OTHER|||||||0.25|||||||paired t-test|||This analysis uses domain 5 (part 1) from pre- to post-intervention.||||.25
82581361|NCT05453201|164874148|OTHER|||||||0.26|||||||paired t-test|||This analysis uses domain 6 from pre- to post-intervention.||||.26
82581362|NCT05453201|164874149|OTHER|||||||0.89|||||||Wilcoxon test|||This analysis uses the SBQ-R total score from pre- to post-intervention.||||.89
82581363|NCT05453201|164874150|OTHER|||||||0.8|||||||paired t-test|||This analysis uses the MOCS (part A) from pre- to post-intervention.||||.80
82480014|NCT00906971|164654005|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis to compare the two groups at the end of the follow-up period with regard to the primary outcome measures was blind, by intention-to-treat, considering loss of follow-up as treatment failure. In such cases, at the end of the follow-up period, the frequency of defecations was recorded.|||||<|0.05|||||||t-test, 1 sided|The Mann-Whitney test was used for numerical variables with non-normal distribution.||||||<0.05
82480015|NCT00906971|164654006|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis to compare the two groups at the end of the follow-up period with regard to the primary outcome measures was blind, by intention-to-treat, considering loss of follow-up as treatment failure. In such cases, at the end of the follow-up period, the frequency of fecal incontinence was recorded reported at the beginning of the study|||||>|0.05|||||||t-test, 1 sided|The Mann-Whitney test was used for numerical variables with non-normal distribution.||||||>0.05
82480016|NCT01551420|164654007|SUPERIORITY|Null hypothesis of no change after home use|Mean Difference (Net)|0.002|STANDARD_DEVIATION|0.68||0.9358|TWO_SIDED|95.0|-0.27|0.28||Two way comparison between scores at baseline and after 9-12 weeks of Prosthetic use. Alpha=0.05|t-test, 2 sided|paired t-tests||||0.28|-0.27|.9358
82480017|NCT01551420|164654007|SUPERIORITY||Slope|-0.69||||0.08|TWO_SIDED|95.0|-1.47|0.09|||Regression, Linear|||Linear regression of QOL measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.09|-1.47|0.08
82480018|NCT01551420|164654008|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|0.42|<|0.0001|TWO_SIDED|95.0|0.17|0.43|||t-test, 2 sided|The sample for this analyses was 44 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e participants with UEFS data at both time points).||0.43|0.17|<0.0001
82480019|NCT01551420|164654008|SUPERIORITY||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.73|-0.4|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UEFS use measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.40|-0.73|<0.0001
82480020|NCT01551420|164654009|SUPERIORITY||Mean Difference (Net)|-0.22|STANDARD_DEVIATION|0.94||0.186|TWO_SIDED|95.0|-0.55|0.11|||t-test, 2 sided|The sample for this analysis was 34 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e participants with TAPES data at both time points).||0.11|-0.55|0.186
82480021|NCT01551420|164654009|SUPERIORITY||Slope|-1.15|STANDARD_ERROR_OF_MEAN|0.44||0.0168|TWO_SIDED|95.0|-2.06|-0.23|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for TAPES at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from TAPES measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.23|-2.06|0.0168
82480022|NCT01551420|164654010|SUPERIORITY||Mean Difference (Net)|-0.97|STANDARD_DEVIATION|5.61||0.3367|TWO_SIDED|95.0|-2.99|1.05|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UEFS data at both time points).||1.05|-2.99|0.3367
82480023|NCT01551420|164654010|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|1.49||0.6339|TWO_SIDED|95.0|-3.84|2.39|||Regression, Linear|The sample for this analysis was 22 participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from AM-ULA measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||2.39|-3.84|0.6339
82480024|NCT01551420|164654011|SUPERIORITY||Mean Difference (Net)|-1.74|STANDARD_DEVIATION|18.8||0.5465|TWO_SIDED|95.0|-7.53|4.05|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with SF-36V Role Physical data at both time points).||4.05|-7.53|0.5465
82480025|NCT01551420|164654011|SUPERIORITY||Mean Difference (Net)|-3.78|STANDARD_DEVIATION|17.37||0.161|TWO_SIDED|95.0|-9.12|1.57|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline to End of A (with SF-36V Social Functioning data at both time points).||1.57|-9.12|0.1610
82480026|NCT01551420|164654011|SUPERIORITY||Mean Difference (Net)|-0.61|STANDARD_DEVIATION|13.9||0.7765|TWO_SIDED|95.0|-4.9|3.68|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data for participants at baseline to End of A (with SF-36V Physical Functioning data at both time points).||3.68|-4.90|0.7765
82480027|NCT01551420|164654011|SUPERIORITY||Slope|-13.35|STANDARD_ERROR_OF_MEAN|6.91||0.0669|TWO_SIDED|95.0|-27.72|1.02|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V; Role Physical measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.02|-27.72|0.0669
82553366|NCT01651403|164811376|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||< 0.001
82553367|NCT01651403|164811376|SUPERIORITY||||||<|0.001|||||||Fisher Exact|Fisher's exact test without adjusting for strata at baseline||||||< 0.001
82553368|NCT01651403|164811377|SUPERIORITY|||||||0.935|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||0.935
82553369|NCT01651403|164811378|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||0.001
82553370|NCT01651403|164811380|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
82553371|NCT01651403|164811382|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||0.002
82553372|NCT01651403|164811384|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
82651110|NCT04147715|165017002|OTHER||Slope|1.0252|||||TWO_SIDED|95.0|0.984|1.0665||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(AUC0-last) = Intercept + Slope × ln(Dose) + Random error||1.0665|0.9840|
82480028|NCT01551420|164654011|SUPERIORITY||Slope|-8.24|STANDARD_ERROR_OF_MEAN|7.1||0.2592|TWO_SIDED|95.0|-23.01|6.54|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V: Social Functioning measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||6.54|-23.01|0.2592
82480029|NCT01551420|164654011|SUPERIORITY||Slope|-30.23|STANDARD_ERROR_OF_MEAN|6.25|<|0.0001|TWO_SIDED|95.0|-43.23|-17.23|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for SF-36 at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of SF-36V: Physical Functioning measure at 9-12 weeks, comparing groups by control type, controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-17.23|-43.23|<0.0001
82480030|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.17||0.6691|TWO_SIDED|95.0|-0.05|0.07|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Writing data at both time points).||0.07|-0.05|0.6691
82480031|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.06||0.0511|TWO_SIDED|95.0|-0.05|0.0|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Page turning data at both time points).||0.00|-0.05|0.0511
82480032|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.09||0.5942|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Lifting Small Items data at both time points).||0.04|-0.02|0.5942
82480033|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_DEVIATION|0.08||0.0101|TWO_SIDED|95.0|-0.07|-0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Checkers data at both time points).||-0.01|-0.07|0.0101
82480034|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.09||0.1063|TWO_SIDED|95.0|-0.06|0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Feeding data at both time points).||0.01|-0.06|0.1063
82480035|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|-0.03|STANDARD_DEVIATION|0.12||0.2474|TWO_SIDED|95.0|-0.06|0.01|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Light Cans data at both time points).||0.01|-0.06|0.2474
82480036|NCT01551420|164654012|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_DEVIATION|0.14||0.1604|TWO_SIDED|95.0|-0.09|0.02|||t-test, 2 sided|The sample for this paired t-test was 31 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with JTHFT: Heavy Cans data at both time points).||0.02|-0.09|0.1604
82480037|NCT01551420|164654012|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.4208|TWO_SIDED|95.0|-0.12|0.09|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Writing measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.09|-0.12|0.4208
82480038|NCT01551420|164654012|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.1959|TWO_SIDED|95.0|-0.09|0.02|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Page Turning measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.02|-0.09|0.1959
82480039|NCT01551420|164654012|SUPERIORITY|Linear regression of scores from JTHFT: Lifting Small Items measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.|Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3328|TWO_SIDED|95.0|-0.09|0.03|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|||0.03|-0.09|0.3328
82480040|NCT01551420|164654012|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6585|TWO_SIDED|95.0|-0.05|0.08|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Checkers measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.08|-0.05|0.6585
82651111|NCT04147715|165017002|OTHER||Geometric Least Squares Mean Ratio|0.9598|||||TWO_SIDED|90.0|0.8585|1.073|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed AUC0-last were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0730|0.8585|
82651112|NCT04147715|165017003|OTHER||Slope|1.028|||||TWO_SIDED|95.0|0.9866|1.0695||||||The dose proportionality of plasma PK parameters of S-648414 was examined for all fasted groups in Part 1 using the power model. The power model assumes a linear relationship between the ln-transformed parameter and ln-transformed dose where ln(AUC0-inf) = Intercept + Slope × ln(Dose) + Random error||1.0695|0.9866|
82651113|NCT04147715|165017003|OTHER||Geometric Least Squares Mean Ratio|0.9646|||||TWO_SIDED|90.0|0.8643|1.0766|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed AUC0-inf were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0766|0.8643|
82651114|NCT04147715|165017004|OTHER||Geometric Least Squares Mean Ratio|1.0272|||||TWO_SIDED|90.0|0.9949|1.0606|||||Ratio = Fed / Fasted|The effect of food on the plasma PK of S-648414 was examined after a single dose of 100 mg S-648414 in the fed and fasted state using an ANOVA fitted with a linear mixed effect model, with ln-transformed t1/2,z as the dependent variable, treatment as a fixed effect, and participant as random effect. The difference and 90% CI between the fed and fasted state ln-transformed t1/2,z were estimated, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI.||1.0606|0.9949|
82651115|NCT04147715|165017011|OTHER||Geometric Least Squares Mean Ratio|1.5167|||||TWO_SIDED|90.0|1.2654|1.818|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 Cmax after a single dose of S-648414 (Day 1) was assessed using an ANOVA model fitted to the ln-transformed Cmax, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed Cmax, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.8180|1.2654|
82651116|NCT04147715|165017011|OTHER||Geometric Least Squares Mean Ratio|1.8372|||||TWO_SIDED|90.0|1.5696|2.1506|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 Cmax after multiple doses of S-648414 (Day 14) was assessed using an ANOVA model fitted to the ln-transformed Cmax, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed Cmax, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.1506|1.5696|
82651117|NCT04147715|165017011|OTHER||Geometric Least Squares Mean Ratio|1.7489|||||TWO_SIDED|90.0|1.525|2.0057|||||Ratio = Day 14 / Day 1|"The accumulation ratio of Cmax in the 30 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed Cmax, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed Cmax on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0057|1.5250|
82651118|NCT04147715|165017011|OTHER||Geometric Least Squares Mean Ratio|2.1453|||||TWO_SIDED|90.0|1.9741|2.3313|||||Ratio = Day 14 / Day 1|"The accumulation ratio of Cmax in the 50 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed Cmax, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed Cmax on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.3313|1.9741|
82651119|NCT04147715|165017013|OTHER||Geometric Least Squares Mean Ratio|1.6277|||||TWO_SIDED|90.0|1.4038|1.8874|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 AUC0-τ after a single dose of S-648414 (Day 1) was assessed using an ANOVA model fitted to the ln-transformed AUC0-τ, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed AUC0-τ, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||1.8874|1.4038|
82651120|NCT04147715|165017013|OTHER||Geometric Least Squares Mean Ratio|1.7454|||||TWO_SIDED|90.0|1.4785|2.0605|||||Ratio = 50 mg / 30 mg|"The dose proportionality of plasma S-648414 AUC0-τ after multiple doses of S-648414 (Day 14) was assessed using an ANOVA model fitted to the ln-transformed AUC0-τ, with dose group fitted as a fixed factor.~The point estimates and 90% CIs were generated for the ratios of the 50 mg dose to 30 mg dose ln-transformed AUC0-τ, then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0605|1.4785|
82480041|NCT01551420|164654012|SUPERIORITY|Linear regression of scores from JTHFT: Feeding measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.|Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0552|TWO_SIDED|95.0|-0.12|0.0|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|||0.00|-0.12|0.0552
82553373|NCT01651403|164811386|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
82480042|NCT01551420|164654012|SUPERIORITY||Slope|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0319|TWO_SIDED|95.0|-0.25|-0.01|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Light Cans measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.01|-0.25|0.0319
82553374|NCT01651403|164811388|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel tests adjusted for age at baseline and region strata||||||<0.001
82553375|NCT01651403|164811390|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|two-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||<0.001
82553376|NCT01651403|164811392|SUPERIORITY||||||>|0.999|||||||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||>0.999
82553377|NCT01651403|164811400|OTHER|Comparison of the difference in percentages|Exact Chan-Zhang method|11.4|||||TWO_SIDED|95.0|-6.9|25.1||||||||25.1|-6.9|
82480043|NCT01551420|164654012|SUPERIORITY||Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0073|TWO_SIDED|95.0|-0.24|-0.04|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for JTHFT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from JTHFT: Heavy Cans measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||-0.04|-0.24|0.0073
82480044|NCT01551420|164654013|SUPERIORITY||Mean Difference (Net)|-0.04|STANDARD_DEVIATION|0.52||0.6529|TWO_SIDED|95.0|-0.24|0.15|||t-test, 2 sided|The sample for this paired t-test was 30 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UNB: Spontaneity data at both time points).||0.15|-0.24|0.6529
82480045|NCT01551420|164654013|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.64||0.849|TWO_SIDED|95.0|-0.26|0.22|||t-test, 2 sided|The sample for this paired t-test was 30 participants.|Mean difference is the change in scores from baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UNB: Skill data at both time points).||0.22|-0.26|0.8490
82480046|NCT01551420|164654013|SUPERIORITY||Slope|0.13|STANDARD_ERROR_OF_MEAN|0.17||0.4589|TWO_SIDED|95.0|-0.22|0.48|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UNB: Spontaneity at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UNB: Spontaneity measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.48|-0.22|0.4589
82480047|NCT01551420|164654013|SUPERIORITY||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.18||0.711|TWO_SIDED|95.0|-0.31|0.44|||Regression, Linear|The sample for this analysis was 23 participants with TR or TH amputation level who completed data collection for UNB: Skill at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UNB: Skill measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||0.44|-0.31|0.7110
82480048|NCT01551420|164654014|SUPERIORITY||Mean Difference (Net)|253.6|STANDARD_DEVIATION|325.2|<|0.0001|TWO_SIDED|95.0|146.7|360.5|||t-test, 2 sided|The sample for this paired t-test was 38 participants.||Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with T-MAP data at both time points).|Mean difference is the change in scores from Baseline to End of A.|360.5|146.7|<0.0001
82480049|NCT01551420|164654014|SUPERIORITY||Slope|-183.1|STANDARD_ERROR_OF_MEAN|186.9||0.3397|TWO_SIDED|95.0|-574.3|208.2|||Regression, Linear|The sample for this analysis was 22 participants with TR or TH amputation level who completed data collection for T-MAP at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from T-MAP measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||208.2|-574.3|0.3397
82480050|NCT01551420|164654015|SUPERIORITY||Mean Difference (Net)|4.3|STANDARD_DEVIATION|10.01||0.0465|TWO_SIDED|95.0|0.07|8.53|||t-test, 2 sided|The sample for this paired t-test was 24 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with UEFS data at both time points).||8.53|0.07|0.0465
82553378|NCT01651403|164811401|OTHER|Comparison of the difference in percentages|Exact Chan-Zhang method|11.4|||||TWO_SIDED|95.0|-6.9|25.1||||||||25.1|-6.9|
82480051|NCT01551420|164654015|SUPERIORITY||Slope|-2.39|STANDARD_ERROR_OF_MEAN|2.46||0.345|TWO_SIDED|95.0|-7.6|2.82|||Regression, Linear|The sample for this analysis was 19participants with TR or TH amputation level who completed data collection for UEFS at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from UEFS measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||2.82|-7.60|0.3450
82480052|NCT01551420|164654016|SUPERIORITY||Mean Difference (Net)|0.47|STANDARD_DEVIATION|7.54||0.6881|TWO_SIDED|95.0|-1.86|2.79|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data for participants at baseline and completers at End of A (i.e participants with CRIS: Extent of Limitations data at both time points).||2.79|-1.86|0.6881
82480053|NCT01551420|164654016|SUPERIORITY||Mean Difference (Net)|-0.72|STANDARD_DEVIATION|13.95||0.7363|TWO_SIDED|95.0|-5.01|3.67|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with CRIS: Perceived Limitations data at both time points).||3.67|-5.01|0.7363
82480054|NCT01551420|164654016|SUPERIORITY||Mean Difference (Net)|-1.49|STANDARD_DEVIATION|8.12||0.2361|TWO_SIDED|95.0|-3.99|1.01|||t-test, 2 sided|The sample for this paired t-test was 43 participants.|Mean difference is the change in scores from Baseline to End of A.|Pairwise t-test for data from prosthesis users at baseline and completers at End of A (i.e. participants with CRIS: Satisfaction data at both time points).||1.01|-3.99|0.2361
82480055|NCT01551420|164654016|SUPERIORITY||Slope|-7.07|STANDARD_ERROR_OF_MEAN|4.02||0.0932|TWO_SIDED|95.0|-15.43|1.29|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Extent of Limitations measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.29|-15.43|0.0932
82553379|NCT01651403|164811402|SUPERIORITY|||||||0.007|||||||ANOVA|two-sided superiority test||||||0.007
82553380|NCT01651403|164811404|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test adjusted for age at baseline and region strata||||||<0.001
82562191|NCT03786471|164834005|SUPERIORITY||marginal difference of LS means|-0.16||||0.62|TWO_SIDED|95.0|-0.37|0.06||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||0.06|-0.37|0.62
82581364|NCT05453201|164874151|OTHER|||||||0.92|||||||paired t-test|||This analysis uses the FSCQ score (all items) from pre- to post-intervention.||||.92
82581365|NCT05453201|164874151|OTHER|||||||0.9|||||||Wilcoxon test (paired)|||This analysis uses the FSCQ similarity subscale from pre- to post-intervention.||||.90
82581366|NCT05453201|164874151|OTHER|||||||0.74|||||||paired t-test|||This analysis uses the FSCQ vividness subscale from pre- to post-intervention.||||.74
82581367|NCT05453201|164874151|OTHER|||||||0.44|||||||paired t-test|||This analysis uses the FSCQ positivity subscale from pre- to post-intervention.||||.44
82581368|NCT05453201|164874152|OTHER|||||||0.003|||||||paired t-test|||This analysis uses the PHQ-9 from pre- to post-intervention.||||.003
82581369|NCT05453201|164874153|OTHER|||||||0.01|||||||paired t-test|||This analysis uses the GAD-7 from pre- to post-intervention.||||.01
82581370|NCT05453201|164874154|OTHER|||||||0.04|||||||paired t-test|||This analysis uses the QOLS from pre- to post-intervention.||||.04
82581371|NCT05453201|164874155|OTHER|"The AIM measures an intervention's acceptability. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention acceptability. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the AIM at pre- and post-intervention."||||||0.24|||||||Paired t-test|||||||.24
82581372|NCT05453201|164874155|OTHER|"The IAM measures an intervention's appropriateness. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention appropriateness. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the IAM at pre- and post-intervention."||||||0.82|||||||Paired t-test|||||||.82
82581373|NCT05453201|164874155|OTHER|||||||0.38|||||||Paired t-test|||"The FIM measures an intervention's feasibility. Therefore, the goal is not change over time, the goal is to assess, descriptively, post-intervention feasibility. Because we assessed this measure at baseline (with expectations of the future treatment), we provide a paired t-test with the FIM at pre- and post-intervention."||||.38
82581374|NCT03798691|164874181|SUPERIORITY|||||||0.16|||||||Mann-Whitney U test|||one month after series completion of two dose series||||0.16
82581375|NCT04155203|164874188|EQUIVALENCE|The primary efficacy endpoint was the proportion of subjects in each treatment group with clinical cure, defined as a SIRS score of 0 for all signs and symptoms at Visit 4/Follow-up (7 days after the end of treatment).|equivalence ratio|0.97|||||TWO_SIDED|90.0|-8.19|2.7||||||||2.70|-8.19|
82581376|NCT03762200|164874192|OTHER|Confidence Interval|percentage of sucesses|87.4|||||TWO_SIDED|95.0|79.4|93.1||||||||93.1|79.4|
82651121|NCT04147715|165017013|OTHER||Geometric Least Squares Mean Ratio|1.9102|||||TWO_SIDED|90.0|1.7788|2.0513|||||Ratio = Day 14 / Day 1|"The accumulation ratio of AUC0-τ in the 30 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed AUC0-τ, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed AUC0-τ on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.0513|1.7788|
82500638|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation||The association of Melanoma Stage IIIc with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||||0.002
82581377|NCT03762200|164874193|OTHER|Confidence Interval|Percentage of Successes|77.7|||||TWO_SIDED|95.0|68.4|85.3||||||||85.3|68.4|
82581378|NCT03762200|164874194|OTHER|Confidence Interval|Percentage of Successes|92.2|||||TWO_SIDED|95.0|85.3|96.6||||||||96.6|85.3|
82581379|NCT05559476|164874221|NON_INFERIORITY|The non-inferiority is demonstrated if the Upper Limit (UL) of the 2-sided 95% Confidence Interval (CI) of the GMT ratio (Control group divided by Co-Ad group) for RSVPreF3 OA vaccine is less than or equal (\<=)1.5.|GMT Ratio|1.18|||||TWO_SIDED|95.0|1.03|1.35|||||The comparison is done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-A neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.35|1.03|
82581380|NCT05559476|164874222|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Darwin/6/2021 H3N2 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.16|0.85|
82581381|NCT05559476|164874222|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu A/Victoria/2570/2019 H1N1 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.09|0.80|
82586093|NCT01315353|164884125|OTHER|||||||0.445||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Fisher Exact|||Null hypothesis: There is no difference between Arm A and Arm B with respect to rate of premature study discontinuation.||||0.445
82586094|NCT01315353|164884126|OTHER|||||||1||||||P-value for the week 26 comparison. The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 26.||||1.000
82651122|NCT04147715|165017013|OTHER||Geometric Least Squares Mean Ratio|2.0478|||||TWO_SIDED|90.0|1.9203|2.1837|||||Ratio = Day 14 / Day 1|"The accumulation ratio of AUC0-τ in the 50 mg dose group was calculated as the ratio of Day 14 to Day 1 using an ANOVA fitted with a linear mixed model with ln-transformed AUC0-τ, Day as a fixed effect and participant as a random effect.~The difference and 90% CI between the ln-transformed AUC0-τ on Day 1 and Day 14 were estimated then back-transformed to obtain the corresponding geometric least squares mean ratio and 90% CI."||2.1837|1.9203|
82651123|NCT04147715|165017020|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.9241|||||TWO_SIDED|90.0|0.8057|1.06|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0600|0.8057|
82651124|NCT04147715|165017020|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|1.0303|||||TWO_SIDED|90.0|0.9299|1.1415|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed Cmax as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed Cmax of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.1415|0.9299|
82651125|NCT04147715|165017022|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500|Geometric Least Squares Mean Ratio|0.842|||||TWO_SIDED|90.0|0.6628|1.0696|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-last of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0696|0.6628|
82651126|NCT04147715|165017022|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8542|||||TWO_SIDED|90.0|0.7185|1.0155|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-last as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-last of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0155|0.7185|
82651127|NCT04147715|165017023|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8377|||||TWO_SIDED|90.0|0.6645|1.0561|||||Ratio = 30 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-inf of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0561|0.6645|
82651128|NCT04147715|165017023|OTHER|The drug interaction was assessed by whether the 90% CIs for the geometric least squares mean ratio of Cmax, AUC0-last, and AUC0-inf of midazolam were completely contained within the range of 0.8000 to 1.2500.|Geometric Least Squares Mean Ratio|0.8529|||||TWO_SIDED|90.0|0.7213|1.0085|||||Ratio = 50 mg S-648414 + Midazolam / Midazolam|The effect of S-648414 on the PK of midazolam (a CYP3A substrate) was assessed using an ANOVA fitted with a linear mixed effect model with ln-transformed AUC0-inf as the dependent variable, treatment as a fixed effect, and participant as a random effect. The difference and 90% CI between the ln-transformed AUC0-inf of midazolam plus S-648414 and midazolam alone was estimated then back-transformed to obtain the corresponding geometric least squares mean ratios and 90% CIs.||1.0085|0.7213|
82651129|NCT00566709|165017075|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82651130|NCT00566709|165017076|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Chi-squared, Corrected|||||||0.07
82651131|NCT00566709|165017077|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Chi-squared, Corrected|||||||0.56
82651132|NCT00566709|165017078|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||t-test, 2 sided|||||||0.79
82651133|NCT00566709|165017079|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Chi-squared, Corrected|||||||0.77
82651134|NCT00566709|165017080|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Chi-squared, Corrected|||||||0.22
82651135|NCT00936377|165017091|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82651136|NCT00936377|165017091|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82651137|NCT00936377|165017092|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82651138|NCT00936377|165017092|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82651139|NCT00936377|165017093|SUPERIORITY_OR_OTHER|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
82562192|NCT03786471|164834005|SUPERIORITY||marginal difference of LS means|0.7||||0.01|TWO_SIDED|95.0|0.26|1.14||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.14|0.26|0.01
82651140|NCT00936377|165017093|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82651141|NCT00936377|165017094|SUPERIORITY_OR_OTHER|||||||0.18||||||Percentage of CIWA scores rates as severe|Chi-squared, Corrected|||Percentage of CIWA scores rates as severe||||0.18
82651142|NCT00936377|165017094|SUPERIORITY_OR_OTHER|||||||0.35||||||Percentage of CIWA scores rates as severe|Chi-squared, Corrected|||||||0.35
82651143|NCT00936377|165017095|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||For hypotension||||1
82651144|NCT00936377|165017095|SUPERIORITY_OR_OTHER|||||||0.47|||||||Fisher Exact|||For hypotension||||0.47
82480056|NCT01551420|164654016|SUPERIORITY||Mean Difference (Final Values)|-10.5|STANDARD_ERROR_OF_MEAN|6.0||0.0951|TWO_SIDED|95.0|-22.9|1.99|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Perceived Limitations measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||1.99|-22.9|0.0951
82480057|NCT01551420|164654016|SUPERIORITY||Slope|-4.91|STANDARD_ERROR_OF_MEAN|4.01||0.2346|TWO_SIDED|95.0|-13.3|3.43|||Regression, Linear|The sample for this analysis was 24 participants with TR or TH amputation level who completed data collection for CRIS-CAT at End of Part B.|Effect of EMG-PR (compared to IMU group)|Linear regression of scores from CRIS-CAT: Satisfaction measure at 9-12 weeks (End of B), comparing groups by control type, and controlling for amputation level (transhumeral or transradial). Persons with shoulder level devices are excluded from this analysis.||3.43|-13.3|0.2346
82480058|NCT00223236|164654046|SUPERIORITY_OR_OTHER|||||||0.4637|||||||Chi-squared|df=1 n=34||Null hypothsis is no group association in cocaine use.||||.4637
82553381|NCT04047602|164811483|EQUIVALENCE|The observed proportion of evaluable patients with symptomatic radiation necrosis was calculated and tested against a baseline 6-month symptomatic radiation necrosis rate of 16% at a type I error rate of 5% using a one-sided binomial exact test. The null hypothesis is that the observed proportion is equivalent to 16% or 0.160.|Binomial Proportion|0.083||||0.234|TWO_SIDED|95.0|0.002|0.385||The p-value reported is the one-sided p-value from the exact equivalence binomial test using an alpha value of 0.05.|Exact Binomial Test||The binomial proportion 95% confidence intervals were calculated using the Clopper-Pearson (Exact) method.|The observed proportion of evaluable patients with symptomatic radiation necrosis was calculated and tested against a baseline 6-month symptomatic radiation necrosis rate of 16% at a type I error rate of 5% using a one-sided binomial exact test. The null hypothesis is that the observed proportion is equivalent to 16% or 0.160.||0.385|0.002|0.234
82553382|NCT04047602|164811486|OTHER|||||||0.285|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across SRS groups. The null hypothesis was that the survival probabilities were equal.||||0.285
82553383|NCT04047602|164811487|OTHER|||||||0.292|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across brain metastases groups. The null hypothesis was that the survival probabilities were equal.||||0.292
82553384|NCT04047602|164811488|OTHER|||||||0.289|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across ICI groups. The null hypothesis was that the survival probabilities were equal.||||0.289
82553385|NCT04047602|164811491|OTHER|||||||0.248|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across SRS groups. The null hypothesis was that the survival probabilities were equal.||||0.248
82553386|NCT04047602|164811492|OTHER|||||||0.292|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across brain metastases groups. The null hypothesis was that the survival probabilities were equal.||||0.292
82553387|NCT04047602|164811493|OTHER|||||||0.289|||||||Klein Method|||The method of Klein et al., (Klein et.al., 2007) was used to compare the 12-month survival probabilities across ICI groups. The null hypothesis was that the survival probabilities were equal.||||0.289
82553388|NCT03916185|164811560|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-32.0|32.0||Statistical significance level of 0.05 was used. No adjustment for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||32|-32|>0.99
82553389|NCT03916185|164811560|SUPERIORITY||Difference in proportions|-15.0||||0.53|TWO_SIDED|95.0|-46.0|18.0||Statistical significance level of 0.05 used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-46|0.53
82553390|NCT03916185|164811560|SUPERIORITY||Difference in proportions|16.0||||0.66|TWO_SIDED|95.0|-29.0|52.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||52|-29|0.66
82553391|NCT03916185|164811561|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-20.0|20.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||20|-20|>0.99
82553392|NCT03916185|164811561|SUPERIORITY||Difference in proportions|-5.0|||>|0.99|TWO_SIDED|95.0|-25.0|13.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||13|-25|>0.99
82553393|NCT03916185|164811561|SUPERIORITY||Difference in proportions|-5.0|||>|0.99|TWO_SIDED|95.0|-26.0|34.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||34|-26|>0.99
82553394|NCT03916185|164811562|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-18.0|18.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-18|>0.99
82553395|NCT03916185|164811562|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-18.0|18.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||18|-18|>0.99
82553396|NCT03916185|164811562|SUPERIORITY||Difference in proportions|0.0|||>|0.99|TWO_SIDED|95.0|-17.0|41.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||41|-17|>0.99
82553397|NCT03916185|164811563|SUPERIORITY||Difference in proportions|61.0|||<|0.001|TWO_SIDED|95.0|27.0|83.0||Statistical significance level of 0.05 was used. No adjustment for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||83|27|<0.001
82651145|NCT00936377|165017095|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||For bradycardia||||1
82651146|NCT00936377|165017095|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||For bradycardia||||0.2
82651147|NCT00936377|165017096|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Repeated measures ANOVA|||||||<0.05
82651148|NCT00936377|165017097|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82480059|NCT04966910|164654076|SUPERIORITY|||||||0.036||||||This p-value applies to the time x condition interaction variable in a repeated-measure ANOVA for client data.|ANOVA|||Repeated measures ANOVA including a time x condition interaction term to test for differences in slopes by condition for client data.||||0.036
82480060|NCT04966910|164654077|SUPERIORITY|||||||0.226||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA.|ANOVA|||||||.226
82480061|NCT04966910|164654078|SUPERIORITY|||||||0.674||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.674
82480062|NCT04966910|164654079|SUPERIORITY|||||||0.317||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.317
82480063|NCT04966910|164654080|SUPERIORITY|||||||0.741||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.741
82480064|NCT04966910|164654081|SUPERIORITY|||||||0.737||||||This p-value refers to a time x condition interaction term in a repeated measures ANOVA to test for differences in slopes over time.|ANOVA|||||||.737
82480065|NCT00830791|164654107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.74||||0.325|TWO_SIDED|90.0|0.43|1.26|||ANCOVA||The mean square error on a log scale for this comparison was 0.322.|||1.26|0.43|0.325
82480066|NCT00830791|164654108|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95||||0.718|TWO_SIDED|90.0|0.76|1.2|||ANCOVA||The mean square error on a log scale was 0.061 for this comparison.|||1.20|0.76|0.718
82651149|NCT00936377|165017097|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82651150|NCT00936377|165017098|SUPERIORITY_OR_OTHER|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.43
82480067|NCT00830791|164654109|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.63||||0.014|TWO_SIDED|90.0|1.21|2.2|||ANCOVA||The mean square error on a log scale was 0.104 for this comparison.|||2.20|1.21|0.014
82480068|NCT00830791|164654111|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.14||||0.505|TWO_SIDED|90.0|0.81|1.6|||ANCOVA||The mean square error on a log scale for this comparison was 0.133.|||1.60|0.81|0.505
82480069|NCT00830791|164654113|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.0|||||TWO_SIDED|90.0|0.0|0.5|||ANCOVA|||||0.50|0.00|
82480070|NCT00830791|164654114|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.0|||||TWO_SIDED|90.0|0.0|0.5|||ANCOVA|||||0.50|0.00|
82480071|NCT02446171|164654128|SUPERIORITY_OR_OTHER||Ratio#|98.89|||||TWO_SIDED|90.0|92.4|105.84|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||105.84|92.40|
82480072|NCT02446171|164654128|SUPERIORITY_OR_OTHER||Ratio#|100.04|||||TWO_SIDED|90.0|93.17|107.43|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||107.43|93.17|
82480073|NCT02446171|164654128|SUPERIORITY_OR_OTHER||Ratio#|94.37|||||TWO_SIDED|90.0|88.7|100.4|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||100.40|88.70|
82480074|NCT02446171|164654129|SUPERIORITY_OR_OTHER||Ratio#|98.79|||||TWO_SIDED|90.0|92.24|105.8|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||105.80|92.24|
82480075|NCT02446171|164654129|SUPERIORITY_OR_OTHER||Ratio#|100.44|||||TWO_SIDED|90.0|93.65|107.72|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||107.72|93.65|
82480076|NCT02446171|164654129|SUPERIORITY_OR_OTHER||Ratio#|94.83|||||TWO_SIDED|90.0|89.2|100.82|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||100.82|89.20|
82480077|NCT02446171|164654130|SUPERIORITY_OR_OTHER||Ratio#|97.05|||||TWO_SIDED|90.0|88.09|106.92|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||106.92|88.09|
82480078|NCT02446171|164654130|SUPERIORITY_OR_OTHER||Ratio#|100.56|||||TWO_SIDED|90.0|91.8|110.16|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||110.16|91.80|
82480079|NCT02446171|164654130|SUPERIORITY_OR_OTHER||Ratio#|102.5|||||TWO_SIDED|90.0|93.13|111.82|||ANOVA|The results are based on ANOVA of log transformed PK parameters with sequence, period, treatment, and subject nested within sequence as fixed effects.||||111.82|93.13|
82480080|NCT00789074|164654149|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
82480081|NCT00789074|164654150|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.001
82480082|NCT00789074|164654151|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||F=16.60|ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.001
82480083|NCT00789074|164654152|SUPERIORITY_OR_OTHER||||||<|0.04||95.0||||F=2.92|ANOVA|Changes were compared using repeated measures analysis of variance||||||<0.04
82480084|NCT00789074|164654153|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||0.02
82480085|NCT00789074|164654154|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|Changes were compared using repeated measures analysis of variance||||||0.97
82480086|NCT04531462|164654168|SUPERIORITY|Null hypothesis: Mean change from baseline in HbA1c after 52 weeks of treatment with empagliflozin 10 mg = mean change from baseline in HbA1c after 52 weeks of treatment with placebo.|Mean Difference (Net)|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.36||Threshold level for statistical significance: α = 0.05 .|Mixed Model Repeated Measures (MMRM)||Empagliflozin 10 mg- Placebo|Restricted maximum likelihood (REML)-based mixed model repeated measures (MMRM) which included fixed classification effects for treatment, gender, baseline renal function, visit and visit-by-treatment interaction, and a linear covariate for baseline HbA1c and age. An unstructured covariance structure was used to model the within patient errors. The Kenward-Roger approximation was used to estimate the denominator degrees of freedom.||-0.36|-0.78|<0.0001
82562193|NCT03786471|164834005|SUPERIORITY||marginal difference of LS means|0.85||||0.001|TWO_SIDED|95.0|0.42|1.29||Alpha = 0.05; Hochberg correction for three pairwise comparisons \* three secondary outcomes|Mixed Models Analysis|||||1.29|0.42|0.001
82651151|NCT00936377|165017098|SUPERIORITY_OR_OTHER|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82553398|NCT03916185|164811563|SUPERIORITY||Difference in proportions|56.0|||<|0.001|TWO_SIDED|95.0|22.0|79.0|||Fisher Exact|Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Comparison was vaccine arm - placebo.|||79|22|<0.001
82581382|NCT05559476|164874222|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.88|1.03|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Austria/1359417/2021 influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.03|0.88|
82553399|NCT03916185|164811563|SUPERIORITY||Difference in proportions|56.0||||0.011|TWO_SIDED|95.0|9.0|86.0|||Fisher Exact|Statistical significance level of 0.05 was used. No adjustments were made for multiple comparisons.|Comparison was vaccine arm - placebo.|||86|9|0.011
82553400|NCT03916185|164811563|SUPERIORITY||Difference in proportions|6.0|||>|0.99|TWO_SIDED|95.0|-25.0|36.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 6120/ΔNS2/1030s Vaccine.|||36|-25|>0.99
82553401|NCT03916185|164811563|SUPERIORITY||Difference in proportions|5.0|||>|0.99|TWO_SIDED|95.0|-31.0|48.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 276 Vaccine.|||48|-31|>0.99
82553402|NCT03916185|164811563|SUPERIORITY||Difference in proportions|-1.0|||>|0.99|TWO_SIDED|95.0|-38.0|44.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV 6120/ΔNS2/1030s Vaccine - RSV 276 Vaccine.|||44|-38|>0.99
82553403|NCT03916185|164811564|SUPERIORITY||Difference in proportions|73.0|||<|0.001|TWO_SIDED|95.0|44.0|91.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||91|44|<0.001
82553404|NCT03916185|164811564|SUPERIORITY||Difference in proportions|61.0|||<|0.001|TWO_SIDED|95.0|27.0|83.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||83|27|<0.001
82553405|NCT03916185|164811564|SUPERIORITY||Difference in proportions|85.0|||<|0.001|TWO_SIDED|95.0|42.0|97.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was vaccine arm - placebo.|||97|42|<0.001
82553406|NCT03916185|164811564|SUPERIORITY||Difference in proportions|12.0||||0.66|TWO_SIDED|95.0|-17.0|40.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 6120/ΔNS2/1030s Vaccine.|||40|-17|0.66
82553407|NCT03916185|164811564|SUPERIORITY||Difference in proportions|-12.0|||>|0.99|TWO_SIDED|95.0|-36.0|30.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV ΔNS2/Δ1313/I1314L Vaccine - RSV 276 Vaccine.|||30|-36|>0.99
82553408|NCT03916185|164811564|SUPERIORITY||Difference in proportions|-24.0||||0.28|TWO_SIDED|95.0|-50.0|20.0||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Fisher Exact||Comparison was RSV 6120/ΔNS2/1030s Vaccine - RSV 276 Vaccine.|||20|-50|0.28
82553409|NCT03916185|164811565|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553410|NCT03916185|164811565|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553411|NCT03916185|164811565|SUPERIORITY||||||<|0.001||||||Statistical significance of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553412|NCT03916185|164811565|SUPERIORITY|||||||0.95||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.95
82553413|NCT03916185|164811565|SUPERIORITY|||||||0.12||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.12
82553414|NCT03916185|164811565|SUPERIORITY|||||||0.033||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.033
82586095|NCT01315353|164884126|OTHER|||||||0.279||||||"P-value for the week 52 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between the Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 52.||||0.279
82553415|NCT03916185|164811566|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553416|NCT03916185|164811566|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553417|NCT03916185|164811566|SUPERIORITY||||||<|0.001||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||<0.001
82553418|NCT03916185|164811566|SUPERIORITY|||||||0.39||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.39
82553419|NCT03916185|164811566|SUPERIORITY|||||||0.15||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.15
82553420|NCT03916185|164811566|SUPERIORITY|||||||0.049||||||Statistical significance level of 0.05 was used. No adjustments made for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.049
82553421|NCT02844465|164811592|NON_INFERIORITY|A non-inferiority test will be performed using a paired t-test, with a non-inferiority delta (δ) of one Reliable Change Index (RCI) of 5 points, to test the hypothesis of no reduction. A two-tailed alpha of 0.05 will be used.|||||<|0.0001|||||||Paired t-test|||"It is hypothesized that the Boston Naming Test score will not decrease from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: μ (V-BNT - BSL-BNT) + δ ≤ 0 Alternate Hypothesis: μ (V-BNT - BSL-BNT) + δ \> 0 Where μ (V-BNT - BSL-BNT) = mean difference in the Boston Naming Test score from baseline to Month 12 post Visualase."||||<0.0001
82651152|NCT00387712|165017142|OTHER|Analysis of variance between groups across time is the primary analyses.||||||0.001||||||Group (high velocity training vs. low velocity duration training) by time (baseline to post-6 months) for the primary outcome category (peak fitness) using repeated measures analysis of variance. No adjustment for multiple comparisons is needed.|ANOVA|No other adjustments such as degrees of freedom was necessary.||"Power Calculation: It was calculated that 29 subjects should be randomized to 2 groups to achieve a significant time by group interaction for peak fitness for high-velocity or low velocity duration training groups, assuming a power of 90 percent power and alpha = 0.01, two-tailed analyses.~Primary analyses is a group by time analysis of variance in peak fitness levels between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points."||||0.001
82651153|NCT00387712|165017143|OTHER|Primary analyses is a group by time analysis of variance in myosin heavy chain levels levels between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points.||||||0.11|||||||ANOVA|||Power Calculation: It was calculated that 22 participants should be randomized to 2 groups to achieve a significant time by group interaction for myosin heavy chain isoforms for high-velocity or low velocity duration training groups, assuming a power of 90 percent power and alpha = 0.01, two-tailed analyses.||||0.11
82651154|NCT00387712|165017144|OTHER|Analysis of variance between groups across time is the primary analyses.||||||0.81||||||Group (high velocity training vs. low velocity duration training) by time (baseline to post-6 months) for the secondary outcome category (30 ft walk time - fastest comfortable gait) using repeated measures analysis of variance.|ANOVA|No other adjustments such as degrees of freedom was necessary.||Primary analyses is a group by time analysis of variance in 30 foot walk time (sec) between the higher-intensity and lower intensity training groups across baseline to 6 months post-exercise time points.||||0.81
82651155|NCT02040428|165017145|SUPERIORITY_OR_OTHER|||||||0.0001|ONE_SIDED||||||Adaptive group sequential design|Whitehead method for triangular test||Superiority||||0.0001
82651156|NCT02040428|165017146|SUPERIORITY_OR_OTHER|||||||0.0046|TWO_SIDED||||||Chi-squared|||||||0.0046
82651157|NCT03907280|165017154|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T1/R) [%]|0.5|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|0.39|0.63|||Mixed Models Analysis||The standard error of the mean is actually the geometric standard error.|Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||0.63|0.39|
82651158|NCT03907280|165017154|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T2/R) [%]|40.26|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|31.68|51.15|||Mixed Models Analysis||The standard error of the mean is actually the geometric standard error.|Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||51.15|31.68|
82651159|NCT03907280|165017154|OTHER|Absolute bioavailability comparison|Ratio of the geometric means (T3/R) [%]|40.24|STANDARD_ERROR_OF_MEAN|1.15|||TWO_SIDED|90.0|31.86|50.83|||Mixed Models Analysis|The standard error of the mean is actually the geometric standard error.||Exploratory trial, no formal hypotheses were tested. Analysis of variance (ANOVA) on the logarithmic scale including effects for treatment sequence ('fixed effect'), subjects nested within treatment sequences ('random effect'), and treatment ('fixed effect').||50.83|31.86|
82651160|NCT04081337|165017168|SUPERIORITY||LS Mean Difference|19.68||||0.5733|TWO_SIDED|95.0|-50.36|89.72|||ANCOVA|||||89.72|-50.36|0.5733
82480087|NCT04531462|164654169|OTHER||Mean Difference (Net)|-0.61||||0.231|TWO_SIDED|95.0|-1.61|0.39|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline muscle mass, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.39|-1.61|0.2310
82480088|NCT04531462|164654170|OTHER||Mean Difference (Net)|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.65|-1.04|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline body fat measurement, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||-1.04|-2.65|<0.0001
82480089|NCT04531462|164654171|OTHER||Mean Difference (Net)|-0.53||||0.1632|TWO_SIDED|95.0|-1.28|0.22|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline lean body mass, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.22|-1.28|0.1632
82480090|NCT04531462|164654172|OTHER||Mean Difference (Net)|-0.63||||0.0384|TWO_SIDED|95.0|-1.23|-0.03|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline total body water, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||-0.03|-1.23|0.0384
82480091|NCT04531462|164654173|OTHER||Mean Difference (Net)|-0.03||||0.1975|TWO_SIDED|95.0|-0.07|0.01|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline bone mineral content, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.01|-0.07|0.1975
82480092|NCT04531462|164654174|OTHER||Mean Difference (Net)|-0.081||||0.3725|TWO_SIDED|95.0|-0.259|0.098|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) which included baseline skeletal muscle index, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.098|-0.259|0.3725
82480093|NCT04531462|164654175|OTHER||Mean Difference (Net)|-0.3||||0.4208|TWO_SIDED|95.0|-1.1|0.5|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline grip strength, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.5|-1.1|0.4208
82651161|NCT04081337|165017169|SUPERIORITY||LS Mean Difference|-855.94|||<|0.0001|TWO_SIDED|95.0|-1090.87|-621.02|||ANCOVA|||||-621.02|-1090.87|<0.0001
82480094|NCT04531462|164654176|OTHER||Mean Difference (Net)|0.0||||0.9267|TWO_SIDED|95.0|-1.0|0.9|||ANCOVA||Empagliflozin 10 mg- Placebo|Analysis of Covariance (ANCOVA) included baseline 5-time chair stand test, age, baseline glycated hemoglobin (HbA1c), baseline body mass index (BMI) as linear covariates and sex, treatment as fixed effects.||0.9|-1.0|0.9267
82480095|NCT04175509|164654179|SUPERIORITY|||||||0.378|||||||t-test, 2 sided|||||||.378
82480096|NCT04175509|164654180|SUPERIORITY|||||||0.753|||||||t-test, 2 sided|||||||.753
82480097|NCT04175509|164654181|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.30
82480098|NCT04175509|164654182|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82651162|NCT04081337|165017170|SUPERIORITY||LS Mean Difference|-3.22||||0.9481|TWO_SIDED|95.0|-102.65|96.2|||ANCOVA|||||96.20|-102.65|0.9481
82376755|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.06|0.02||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 1. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.02|-0.06|<0.0001
82376756|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority between gadopiclenol and gadobutrol was concluded if the lower bound of this confidence interval was above the non-inferiority margin set to 0.35 for at least 2 out of 3 blinded readers and for the 3 co-primary criteria simultaneously.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.04|0.11||The Null hypothesis was rejected if the 2-sided 95% Confidence Interval (CI) for the difference \[gadopiclenol scores mean - gadobutrol scores mean\] had its lower limit above -0.35.|t-test, 2 sided|The Student's t-based 95% CIs of the difference between gadopiclenol and gadobutrol were constructed for each of 3 co-primary criteria.||Criterion: Border delineation; Reader 2. The null hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 primary criteria was equal to the non inferiority margin (-0.35). The alternative hypothesis was that the difference in mean scores between gadopiclenol and gadobutrol for each of the 3 co-primary criteria was greater than the non inferiority margin.||0.11|-0.04|<0.0001
82376757|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.01|0.05|||t-test, 2 sided|||Criterion: Border delineation; Reader 3||0.05|-0.01|<0.0001
82376758|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.04|0.03|||t-test, 2 sided|||Criterion: Internal morphology; Reader 1||0.03|-0.04|<0.0001
82480099|NCT04175509|164654183|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||0.61
82480100|NCT04175509|164654184|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.77
82480101|NCT04175509|164654185|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
82480102|NCT04175509|164654186|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||||||0.78
82480103|NCT01727700|164654211|SUPERIORITY_OR_OTHER||Treatment difference|-6.26||||0.002|TWO_SIDED|95.0|-10.18|-2.34||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||Assuming 5% of participants may drop out of the trial without a postbaseline efficacy evaluation, a total of 126 participants were required to provide at least 80% power to detect a treatment difference of -5 (common standard deviation \[SD\] of 8.5) between at least 1 of 2 aripiprazole dose levels and placebo in the primary outcome.||-2.34|-10.18|0.0020
82480104|NCT01727700|164654211|SUPERIORITY_OR_OTHER||Treatment difference|-9.85|||<|0.0001|TWO_SIDED|95.0|-13.84|-5.86||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||Assuming 5% of participants may drop out of the trial without a postbaseline efficacy evaluation, a total of 126 participants were required to provide at least 80% power to detect a treatment difference of -5 (common standard SD of 8.5) between at least 1 of 2 aripiprazole dose levels and placebo in the primary outcome.||-5.86|-13.84|<0.0001
82480105|NCT01727700|164654212|SUPERIORITY_OR_OTHER||Treatment difference|-1.03||||0.0001|TWO_SIDED|95.0|-1.54|-0.52||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||||-0.52|-1.54|0.0001
82480106|NCT01727700|164654212|SUPERIORITY_OR_OTHER||Treatment difference|-1.02||||0.0002|TWO_SIDED|95.0|-1.54|-0.49||The Hochberg procedure was used to adjust for multiplicity.|Mixed Models Analysis|Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.||||-0.49|-1.54|0.0002
82480107|NCT01727700|164654213|SUPERIORITY_OR_OTHER||Treatment difference|-13.26||||0.0017|TWO_SIDED|95.0|-21.43|-5.08||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-5.08|-21.43|0.0017
82480108|NCT01727700|164654213|SUPERIORITY_OR_OTHER||Treatment difference|-19.37|||<|0.0001|TWO_SIDED|95.0|-27.7|-11.04||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-11.04|-27.70|<0.0001
82480109|NCT01727700|164654214|SUPERIORITY_OR_OTHER||Treatment difference|-0.8||||0.001|TWO_SIDED|95.0|-1.27|-0.33||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-0.33|-1.27|0.0010
82480110|NCT01727700|164654214|SUPERIORITY_OR_OTHER||MMRM|-0.92||||0.0002|TWO_SIDED|95.0|-1.41|-0.44||Treatment, week, treatment by week interaction, region, and weight group were fixed categorical effects; baseline value as a fixed covariate.|Mixed Models Analysis|||||-0.44|-1.41|0.0002
82480111|NCT01727700|164654215|SUPERIORITY_OR_OTHER||Response ratio|1.36||||0.0835|TWO_SIDED|95.0|0.98|1.88||P-value derived from Cochran-Mantel-Haenszel (CMH) General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|Response ratio \> 1 favors aripiprazole.||||1.88|0.98|0.0835
82480112|NCT01727700|164654215|SUPERIORITY_OR_OTHER||Response ratio|1.61||||0.0014|TWO_SIDED|95.0|1.2|2.16||P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|Response ratio \> 1 favors aripiprazole.||||2.16|1.20|0.0014
82480113|NCT01727700|164654216|SUPERIORITY_OR_OTHER||Discontinuation ratio|1.16||||0.9187|TWO_SIDED|95.0|0.19|7.05||Discontinuation ratio \< 1 favors aripiprazole. P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|||||7.05|0.19|0.9187
82480114|NCT01727700|164654216|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.9576||||||Hazard ratio \< 1 favors aripiprazole. P-value derived from Cox proportional hazard regression adjusting for region and weight group.|Regression, Cox|||||||0.9576
82480115|NCT01727700|164654216|SUPERIORITY_OR_OTHER||Discontinuation ratio|4.06||||0.0132|TWO_SIDED|95.0|1.1|14.95||Discontinuation ratio \< 1 favors aripiprazole. P-value derived from CMH General Association Test adjusting for region and weight group.|Cochran-Mantel-Haenszel|||||14.95|1.10|0.0132
82480116|NCT01727700|164654216|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.51||||0.0278||||||Hazard ratio \< 1 favors aripiprazole. P-value derived from Cox proportional hazard regression adjusting for region and weight group.|Regression, Cox|||||||0.0278
82480117|NCT02484859|164654226|SUPERIORITY||||||>|0.69|||||||Wilcoxon (Mann-Whitney)|||Median intraoperative bleeding scores were compared with Wilcoxon test. In this pilot study the power analysis showed that a sample size of 44 patients in each group was sufficient to detect a difference of 0.2 in the mean (standard deviation of 0.4) with an 80% power with an alpha error of 0.05 and a beta error of 20%. The Shapiro-Wilk test was used to test the distribution of data.||||>0.69
82480118|NCT02484859|164654227|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82480119|NCT02484859|164654228|SUPERIORITY|||||||0.052|||||||t-test, 2 sided|||||||0.052
82480120|NCT02484859|164654229|SUPERIORITY|||||||0.05|||||||Chi-squared|||Null hypothesis was that the visual analog pain scores (VAS) of patients at arrrival to post anesthetic care unit (PACU) were similar.||||0.05
82480121|NCT02484859|164654229|SUPERIORITY|||||||0.55|||||||Chi-squared|||Null hypothesis was that the visual analog pain scores (VAS) of patients at discharge from post anesthetic care unit (PACU) were similar.||||0.55
82480122|NCT02484859|164654230|SUPERIORITY|||||||0.47|||||||Chi-squared|||||||0.47
82480123|NCT02564432|164654231|EQUIVALENCE|This is not a randomized clinical trial but is an observational study, each patient's thigh skin site served as the control.|Base mean abundance|0.03|||<|0.05|TWO_SIDED|||||The reported p-value was calculated.|Unweighted UniFrac (qualitative)|Both weighted and unweighted UniFrac were calculated; weighted UniFrac is calculated to be p = 0.398 while unweighted UniFrac was P\<0.03|Differential abundance of Staphylococcus aureus in the stoma calculated by Log2 fold change (y-axis) versus base mean abundance (x-axis)|Sample similarity was calculated using the statistical comparisons of community composition.||||<0.05
82480124|NCT02564432|164654231|OTHER|"In this study, dissimilarities between the stomal and healthy thigh skins were tested.~Observational study. Used only for visualizing trends in the data."|PERMANOVA|0.001|||<|0.005|TWO_SIDED|||||Each stomal community type was distinguished by both its diversity and taxonomic composition|Bray-Curtis dissimilarities|Nonmetric multidimensional scaling (NMDS) of Bray-Curtis dissimilarities|||Loess Regression was used to visualize temporal trends in the Shannnon Diversity and relative abundance of microbes (Staphylococcus, Streptococcus, Corynebacterium, and obligate anaerobes).|||<0.005
82480125|NCT00464490|164654233|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value \<0.05 was considered significant|t-test, 2 sided|||H(0): Ventilator time (DG) = Ventilator time (CG)||||0.02
82480126|NCT03860935|164654254|SUPERIORITY||||||<|0.0001|||||||Finkelstein-Schoenfeld Method|||||||<0.0001
82480127|NCT03860935|164654255|SUPERIORITY||Least Squares Mean Difference|39.64|STANDARD_ERROR_OF_MEAN|9.477|<|0.0001|TWO_SIDED|96.0|20.18|59.1|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||59.10|20.18|<0.0001
82480128|NCT03860935|164654256|SUPERIORITY||Least Squares Mean Difference|9.94|STANDARD_ERROR_OF_MEAN|2.024|<|0.0001|TWO_SIDED|96.0|5.79|14.1|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||14.10|5.79|<0.0001
82480129|NCT03860935|164654257|SUPERIORITY||Least Squares Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|0.665|<|0.0001|TWO_SIDED|96.0|5.73|8.46|||Mixed Models Analysis|||LS means are from a MMRM model with treatment group, visit, randomization stratification factors of genotype, NT-proBNP level and eGFR level (as recorded in IXRS) and treatment group-by-visit interaction as factors, and baseline value as covariate. Missing measurements due to early discontinuation of study treatment and due to death were imputed using the Jump to Reference (J2R) method and sampling with replacement from the worst 5% of observed values, respectively, as specified in study SAP.||8.46|5.73|<0.0001
82480130|NCT03860935|164654258|SUPERIORITY||Relative Risk Reduction (%)|25.0||||0.0569|TWO_SIDED|||||Cochran-Mantel-Haenszel test is stratified by randomization stratification factors of genotype, NT-proBNP level and eGFR level as recorded in IXRS.|Cochran-Mantel-Haenszel|||||||0.0569
82480131|NCT04575597|164654259|OTHER|Difference in rates % and associated confidence intervals (CIs) were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-4.1|||||TWO_SIDED|95.0|-12.2|2.5||||||||2.5|-12.2|
82651163|NCT04081337|165017171|SUPERIORITY||LS Mean Difference|-0.034|||<|0.0001|TWO_SIDED|95.0|-0.051|-0.018|||ANCOVA|||||-0.018|-0.051|<0.0001
82651164|NCT04081337|165017172|SUPERIORITY||LS Mean difference|-0.028||||0.0031|TWO_SIDED|95.0|-0.045|-0.01|||ANCOVA|||||-0.010|-0.045|0.0031
82553422|NCT02844465|164811593|NON_INFERIORITY|A non-inferiority test will be performed using a paired t-test, with a non-inferiority delta (δ) of one Reliable Change Index (RCI) of 15 points, to test the hypothesis of no reduction. A two-tailed alpha of 0.05 will be used.|||||<|0.0001|||||||Paired t-test|||"It is hypothesized that the Rey Auditory Verbal Learning Test 5-Trial Total score will not decrease from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: μ (V-RAVLT - BSL-RAVLT) + δ ≤ 0 Alternate Hypothesis: μ (V-RAVLT - BSL-RAVLT) + δ \> 0 Where μ (V-RAVLT - BSL-RAVLT) = mean difference in the Rey Auditory Verbal Learning Test 5-Trial Total score from baseline to Month 12 post Visualase."||||<0.0001
82553423|NCT02844465|164811594|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.|||||<|0.0001|||||||Sign test|||"It is hypothesized that the QOLIE-31 score will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-QOLIE-31 - BSL-QOLIE-31) ≤ 0 Alternate Hypothesis: M (V-QOLIE-31 - BSL-QOLIE-31) \> 0 Where M (V-QOLIE-31 - BSL-QOLIE-31) = sign-test statistic (\[increases-decreases\]/2) in the Quality of Life in Epilepsy inventory from baseline to Month 12 post Visualase."||||<0.0001
82553424|NCT02844465|164811595|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.||||||0.0004|||||||Sign test|||"It is hypothesized that the SF-36 Mental Component Score (MCS) will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-SF-36 - BSL-SF-36-MCS) ≤ 0 Alternate Hypothesis: M (V-SF-36 - BSL-SF-36-MCS) \> 0 Where M (V- SF-36-MCS - BSL- SF-36-MCS) = sign-test statistic (\[increases-decreases\]/2) in the SF-36 quality of life questionnaire MCS from baseline to Month 12 post Visualase."||||0.0004
82586096|NCT01315353|164884126|OTHER|||||||0.781||||||"P-value for the week 78 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 78.||||0.781
82480132|NCT04575597|164654259|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-1.5|||||TWO_SIDED|95.0|-9.9|6.2||||||||6.2|-9.9|
82480133|NCT04575597|164654259|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Differences in Rates %|-1.3|||||TWO_SIDED|95.0|-9.6|6.4||||||||6.4|-9.6|
82480134|NCT04575597|164654259|SUPERIORITY|Difference in rates %, associated CIs, and p-value were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-6.8||||0.0012|TWO_SIDED|95.0|-11.3|-2.4|||Miettinen & Nurminen|||||-2.4|-11.3|0.0012
82480135|NCT04575597|164654262|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.48|1.13||||||||1.13|0.48|
82651165|NCT04081337|165017173|SUPERIORITY||LS Mean difference|251.89||||0.0004|TWO_SIDED|95.0|119.09|384.69|||ANCOVA|||||384.69|119.09|0.0004
82651166|NCT04081337|165017174|SUPERIORITY||LS Mean difference|-6.87||||0.0005|TWO_SIDED|95.0|-10.51|-3.22|||ANCOVA|||For Adjusted protein oxidation||-3.22|-10.51|0.0005
82651167|NCT04081337|165017174|SUPERIORITY||LS Mean difference|14.48|||<|0.0001|TWO_SIDED|95.0|8.02|20.93|||ANCOVA|||For Adjusted fat oxidation||20.93|8.02|<0.0001
82480136|NCT04575597|164654262|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.46|1.08||||||||1.08|0.46|
82480137|NCT04575597|164654262|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.47|1.11||||||||1.11|0.47|
82480138|NCT04575597|164654262|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.92|1.18||||||||1.18|0.92|
82480139|NCT04575597|164654263|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.8|2.76||||||||2.76|0.80|
82480140|NCT04575597|164654263|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.69|2.09||||||||2.09|0.69|
82553425|NCT02844465|164811596|OTHER|A sign test will be used to determine if the median categorical change is significantly greater than zero.|||||<|0.0001|||||||Sign test|||"It's hypothesized that the SF-36 Physical Component Score (PCS) will increase (improve) from baseline to 12 months following the Visualase procedure. The hypotheses associated with this endpoint are as follows:~Null Hypothesis: M (V-SF-36-PCS - BSL-SF-36-PCS) ≤ 0 Alternate Hypothesis: M (V-SF-36-PCS - BSL-SF-36-PCS) \> 0 Where M (V-SF-36-PCS - BSL- SF-36-PCS) = sign-test statistic (\[increases-decreases\]/2) in the SF-36 quality of life questionnaire PCS from baseline to Month 12 post Visualase."||||<0.0001
82553426|NCT02844465|164811597|NON_INFERIORITY|"The hypotheses associated with this endpoint are:~Null Hypothesis: π V - 64% + δ ≤ 0 Alternate Hypothesis: π V - 64% + δ \> 0 Where πV is the proportion of subjects treated with Visualase experiencing no seizures.~An exact 95% CI for the percentage of subjects who are seizure free will be calculated and its lower boundary compared to zero after subtraction of the historical open surgical resection percentage of 64% and the addition of the equivalence delta percentage of 10%."|Proportion of Participants|56.0|||||TWO_SIDED|95.0|46.2|65.8||||||||65.8|46.2|
82553427|NCT04228042|164811600|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82553428|NCT04228042|164811600|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82553429|NCT04228042|164811600|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82553430|NCT04228042|164811600|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82651168|NCT04081337|165017174|SUPERIORITY||LS Mean difference|-26.64||||0.0001|TWO_SIDED|95.0|-39.46|-13.83|||ANCOVA|||Adjusted carbohydrate oxidation||-13.83|-39.46|0.0001
82651169|NCT04081337|165017175|SUPERIORITY||LS Mean difference|-8.47|||<|0.0001|TWO_SIDED|95.0|-11.04|-5.9|||Mixed Models Analysis|||||-5.90|-11.04|<0.0001
82651170|NCT04081337|165017176|SUPERIORITY||LS Mean difference|-4.08|||<|0.0001|TWO_SIDED|95.0|-5.12|-3.05|||Mixed Models Analysis|||||-3.05|-5.12|<0.0001
82651171|NCT04081337|165017177|SUPERIORITY||LS Mean difference|-5.08|||<|0.0001|TWO_SIDED|95.0|-6.93|-3.22|||ANCOVA|||||-3.22|-6.93|<0.0001
82553431|NCT05671653|164811601|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|88.85|||||TWO_SIDED|90.0|80.25|98.38||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 80 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 4).||98.38|80.25|
82480141|NCT04575597|164654263|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.54|1.62||||||||1.62|0.54|
82480142|NCT04575597|164654263|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.95|1.33||||||||1.33|0.95|
82480143|NCT04575597|164654264|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.62|1.46||||||||1.46|0.62|
82480144|NCT04575597|164654264|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.75|1.79||||||||1.79|0.75|
82480145|NCT04575597|164654264|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.45|1.07||||||||1.07|0.45|
82480146|NCT04575597|164654264|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.93|1.23||||||||1.23|0.93|
82480147|NCT04575597|164654265|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.62|1.83||||||||1.83|0.62|
82480148|NCT04575597|164654265|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.4|1.26||||||||1.26|0.40|
82480149|NCT04575597|164654265|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.41|||||TWO_SIDED|95.0|0.2|0.85||||||||0.85|0.20|
82480150|NCT04575597|164654265|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.86|1.18||||||||1.18|0.86|
82480151|NCT04575597|164654266|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.32|1.34||||||||1.34|0.32|
82480152|NCT04575597|164654266|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.44|||||TWO_SIDED|95.0|0.76|2.71||||||||2.71|0.76|
82480153|NCT04575597|164654266|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.39|1.42||||||||1.42|0.39|
82480154|NCT04575597|164654266|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.94|1.37||||||||1.37|0.94|
82651172|NCT04081337|165017178|SUPERIORITY||LS Mean Difference|-1.14||||0.0304|TWO_SIDED|95.0|-2.16|-0.11|||ANCOVA|||||-0.11|-2.16|0.0304
82480155|NCT04575597|164654267|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.66|1.61||||||||1.61|0.66|
82651173|NCT04081337|165017179|SUPERIORITY||LS Mean difference|-1.83|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.06|||ANCOVA|||For Triglyceride||-1.06|-2.60|<0.0001
82651174|NCT04081337|165017179|SUPERIORITY||LS Mean difference|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.48|||ANCOVA|||For VLDL||-0.48|-1.19|<0.0001
82651175|NCT04081337|165017179|SUPERIORITY||LS Mean difference|-0.53||||0.0436|TWO_SIDED|95.0|-1.05|-0.02|||ANCOVA|||For HDL||-0.02|-1.05|0.0436
82651176|NCT04081337|165017179|SUPERIORITY||LS Mean Difference|0.45||||0.0002|TWO_SIDED|95.0|0.23|0.66|||ANCOVA|||For Free fatty acid||0.66|0.23|0.0002
82651177|NCT04081337|165017180|SUPERIORITY||LS Mean Difference|0.03||||0.8762|TWO_SIDED|95.0|-0.34|0.4|||ANCOVA|||||0.40|-0.34|0.8762
82651178|NCT04081337|165017181|SUPERIORITY||LS Mean difference|3.49||||0.0126|TWO_SIDED|95.0|0.79|6.19|||ANCOVA|||||6.19|0.79|0.0126
82651179|NCT04081337|165017182|SUPERIORITY||LS Mean Difference|-1.26||||0.0222|TWO_SIDED|95.0|-2.34|-0.19|||ANCOVA|||||-0.19|-2.34|0.0222
82651180|NCT04081337|165017183|SUPERIORITY||LS Mean difference|-0.36|||<|0.0001|TWO_SIDED|95.0|-0.48|-0.23|||ANCOVA|||||-0.23|-0.48|<0.0001
82480156|NCT04575597|164654267|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.83|2.09||||||||2.09|0.83|
82480157|NCT04575597|164654267|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.47|1.23||||||||1.23|0.47|
82480158|NCT04575597|164654267|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.88|1.16||||||||1.16|0.88|
82480159|NCT04575597|164654268|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.62|1.41||||||||1.41|0.62|
82480160|NCT04575597|164654268|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.7|1.69||||||||1.69|0.70|
82480161|NCT04575597|164654268|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.66|1.51||||||||1.51|0.66|
82480162|NCT04575597|164654268|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.01|1.31||||||||1.31|1.01|
82480163|NCT04575597|164654269|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.54|1.69||||||||1.69|0.54|
82480164|NCT04575597|164654269|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.61|2.0||||||||2.00|0.61|
82376759|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.05|0.09|||t-test, 2 sided|||Criterion: Internal morphology; Reader 2||0.09|-0.05|<0.0001
82480165|NCT04575597|164654269|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.5|1.38||||||||1.38|0.50|
82480166|NCT04575597|164654269|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.9|1.21||||||||1.21|0.90|
82480167|NCT04575597|164654270|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|0.77|2.76||||||||2.76|0.77|
82480168|NCT04575597|164654270|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.76|||||TWO_SIDED|95.0|0.92|3.38||||||||3.38|0.92|
82480169|NCT04575597|164654270|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.52|||||TWO_SIDED|95.0|0.81|2.86||||||||2.86|0.81|
82480170|NCT04575597|164654270|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.89|1.24||||||||1.24|0.89|
82480171|NCT04575597|164654271|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.81|2.2||||||||2.20|0.81|
82480172|NCT04575597|164654271|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.85|2.31||||||||2.31|0.85|
82376760|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.01|0.08|||t-test, 2 sided|||Criterion: Internal morphology; Reader 3||0.08|0.01|<0.0001
82376761|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.0001|TWO_SIDED|95.0|-0.04|0.07|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 1||0.07|-0.04|0.0001
82376762|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.03|0.12|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 2||0.12|-0.03|<0.0001
82376763|NCT03996447|164459860|NON_INFERIORITY|Non-inferiority margin : -0.35|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.03|0.15|||t-test, 2 sided|||Criterion: Contrast enhancement; Reader 3||0.15|0.03|<0.0001
82480173|NCT04575597|164654271|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.57|1.65||||||||1.65|0.57|
82480174|NCT04575597|164654271|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.89|1.18||||||||1.18|0.89|
82480175|NCT04575597|164654272|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.36|1.91||||||||1.91|0.36|
82480176|NCT04575597|164654272|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.64|2.97||||||||2.97|0.64|
82480177|NCT04575597|164654272|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.37|2.02||||||||2.02|0.37|
82480178|NCT04575597|164654272|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.74|1.14||||||||1.14|0.74|
82480179|NCT04575597|164654273|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.44|1.06||||||||1.06|0.44|
82480180|NCT04575597|164654274|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.06|0.67||||||||0.67|0.06|
82480181|NCT04575597|164654274|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.33|||||TWO_SIDED|95.0|0.13|0.83||||||||0.83|0.13|
82480182|NCT04575597|164654274|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.27|||||TWO_SIDED|95.0|0.09|0.79||||||||0.79|0.09|
82480183|NCT04575597|164654274|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.87|1.36||||||||1.36|0.87|
82480184|NCT04575597|164654275|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.29|||||TWO_SIDED|95.0|0.74|2.23||||||||2.23|0.74|
82480185|NCT04575597|164654275|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.45|1.8||||||||1.80|0.45|
82480186|NCT04575597|164654275|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.55|1.89||||||||1.89|0.55|
82480187|NCT04575597|164654275|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.37||||||||1.37|0.94|
82480188|NCT04575597|164654276|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.83|2.33||||||||2.33|0.83|
82480189|NCT04575597|164654276|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.5|1.48||||||||1.48|0.50|
82480190|NCT04575597|164654276|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.56|1.72||||||||1.72|0.56|
82480191|NCT04575597|164654276|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|1.01|1.43||||||||1.43|1.01|
82480192|NCT04575597|164654277|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.29|2.19||||||||2.19|0.29|
82480193|NCT04575597|164654277|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.34|2.44||||||||2.44|0.34|
82480194|NCT04575597|164654277|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.77|||||TWO_SIDED|95.0|0.74|4.23||||||||4.23|0.74|
82480195|NCT04575597|164654277|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.67|1.04||||||||1.04|0.67|
82480196|NCT04575597|164654278|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|2.52|||||TWO_SIDED|95.0|0.98|6.53||||||||6.53|0.98|
82480197|NCT04575597|164654278|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.23|2.52||||||||2.52|0.23|
82480198|NCT04575597|164654278|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.11|1.84||||||||1.84|0.11|
82480199|NCT04575597|164654278|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.66|1.16||||||||1.16|0.66|
82480200|NCT04575597|164654279|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.46|3.32||||||||3.32|0.46|
82480201|NCT04575597|164654279|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.54|3.74||||||||3.74|0.54|
82480202|NCT04575597|164654279|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.34|2.76||||||||2.76|0.34|
82480203|NCT04575597|164654279|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.66|1.1||||||||1.10|0.66|
82480204|NCT04575597|164654280|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.41|2.52||||||||2.52|0.41|
82480205|NCT04575597|164654280|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.26|1.9||||||||1.90|0.26|
82581383|NCT05559476|164874222|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the group GMT ratio (Control group divided by Co-Ad group) for HI antibody titers for the Flu strain is \<=1.5.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.84|1.02|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone, in terms of HI GMTs against the Flu B/Phuket/3073/2013 Yamagata influenza strain, at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||1.02|0.84|
82581384|NCT05559476|164874223|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI of the GMT ratio (Control group divided by Co-Ad group) for RSVPreF3 OA vaccine is \<=1.5.|GMT Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.15|||||The comparison was done using the adjusted group ratio of GMT (ANCOVA model applied to the logarithm- transformed titers). The ANCOVA model included the treatment group, the age category as fixed effects and the pre-dose log-10 titer as covariate.|To demonstrate the non-inferiority of the RSVPreF3 OA vaccine when co-administered with the FLU vaccine compared to the RSVPreF3 OA vaccine administered alone, in terms of RSV-B neutralizing antibody titers, at 1 month after the RSVPreF3 OA vaccine dose (Day 31 for the Co-Ad Group and Day 61 for the Control Group).||1.15|0.89|
82581385|NCT05559476|164874224|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-1.71|||||TWO_SIDED|95.0|-8.15|4.74||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Darwin/6/2021 H3N2 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||4.74|-8.15|
82581386|NCT05559476|164874224|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-4.11|||||TWO_SIDED|95.0|-10.67|2.48||||||To evaluate the non-inferiority of the FLU vaccine when co administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu A/Victoria/2570/2019 H1N1 strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||2.48|-10.67|
82581387|NCT05559476|164874224|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-8.56|||||TWO_SIDED|95.0|-14.75|-2.29||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Austria/1359417/2021 Victoria at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||-2.29|-14.75|
82586097|NCT01315353|164884126|OTHER|||||||0.375||||||"P-value for the week 104 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 104.||||0.375
82480206|NCT04575597|164654280|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.51|3.0||||||||3.00|0.51|
82480207|NCT04575597|164654280|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.69|1.17||||||||1.17|0.69|
82480208|NCT04575597|164654281|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.36|1.75||||||||1.75|0.36|
82480209|NCT04575597|164654281|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.33|1.64||||||||1.64|0.33|
82480210|NCT04575597|164654281|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.31|1.62||||||||1.62|0.31|
82480211|NCT04575597|164654281|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.76|1.16||||||||1.16|0.76|
82480212|NCT04575597|164654282|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.25|1.39||||||||1.39|0.25|
82480213|NCT04575597|164654282|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.38|1.78||||||||1.78|0.38|
82651181|NCT01464827|165017185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.406|TWO_SIDED|95.0|0.09|2.61||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Group G|"The primary efficacy endpoint was the comparison of the percentage of treatment-naïve participants with SVR24 after treatment with 3 DAAs (at the 150 mg ABT-450 dose) and ribavirin for 8 weeks (Group A) versus 12 weeks (Group G).~Logistic regression with baseline log10 HCV RNA level, treatment group, Interleukin 28B genotype (CC or non-CC), HCV subgenotype (1a or non-1a), and geographic region (US or non-US) as predictors."||2.61|0.09|0.406
82480214|NCT04575597|164654282|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.25|1.39||||||||1.39|0.25|
82480215|NCT04575597|164654282|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||||1.48|0.91|
82480216|NCT04575597|164654283|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.59|||||TWO_SIDED|95.0|0.26|1.34||||||||1.34|0.26|
82480217|NCT04575597|164654283|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.28|1.37||||||||1.37|0.28|
82480218|NCT04575597|164654283|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.38|1.74||||||||1.74|0.38|
82480219|NCT04575597|164654283|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.79|1.21||||||||1.21|0.79|
82480220|NCT04575597|164654284|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.47|3.02||||||||3.02|0.47|
82480221|NCT04575597|164654284|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.29|2.2||||||||2.20|0.29|
82480222|NCT04575597|164654284|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.32|2.45||||||||2.45|0.32|
82480223|NCT04575597|164654284|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.62|1.11||||||||1.11|0.62|
82480224|NCT04575597|164654285|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.3|2.27||||||||2.27|0.30|
82480225|NCT04575597|164654285|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.04|1.0||||||||1.00|0.04|
82480226|NCT04575597|164654285|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.23|1.91||||||||1.91|0.23|
82480227|NCT04575597|164654285|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.62|1.23||||||||1.23|0.62|
82553432|NCT05671653|164811601|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|70.0|||||TWO_SIDED|90.0|55.21|88.76||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 260 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 7).||88.76|55.21|
82480228|NCT04575597|164654286|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.28|1.2||||||||1.20|0.28|
82480229|NCT04575597|164654286|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.2|0.95||||||||0.95|0.20|
82480230|NCT04575597|164654286|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.43|1.59||||||||1.59|0.43|
82480231|NCT04575597|164654286|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.73|1.19||||||||1.19|0.73|
82480232|NCT04575597|164654287|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.35|2.11||||||||2.11|0.35|
82480233|NCT04575597|164654287|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.16|1.34||||||||1.34|0.16|
82553433|NCT05671653|164811602|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|57.19|||||TWO_SIDED|90.0|39.27|83.29||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 80 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 4).||83.29|39.27|
82553434|NCT05671653|164811602|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|29.68|||||TWO_SIDED|90.0|19.6|44.94||||||Reference: Cohort 1: Midazolam 2 mg + Omeprazole 20 mg (Period 1). Test: Cohort 1: PF-07081532 260 mg QD + Midazolam 2 mg + Omeprazole 20 mg (Period 7).||44.94|19.60|
82553435|NCT05671653|164811603|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|119.86|||||TWO_SIDED|90.0|108.97|131.85||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 80 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 5).||131.85|108.97|
82553436|NCT05671653|164811603|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|185.45|||||TWO_SIDED|90.0|108.0|318.44||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 260 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 8)||318.44|108.00|
82553437|NCT05671653|164811604|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|103.17|||||TWO_SIDED|90.0|95.09|111.93||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 80 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 5).||111.93|95.09|
82553438|NCT05671653|164811604|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|90.2|||||TWO_SIDED|90.0|60.24|135.06||||||Reference: Cohort 1: LE 0.15 mg \& EE 0.03 mg (Period 2). Test: Cohort 1: PF-07081532 260 mg QD + LE 0.15 mg \& EE 0.03 mg (Period 8)||135.06|60.24|
82553439|NCT05671653|164811605|OTHER|Analysis done using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Ratio (Test/Reference) and 90% confidence interval (CI) are expressed as percentages.|Ratio (%) of Adjusted Geometric Means|92.88|||||TWO_SIDED|90.0|79.97|107.87||||||Reference: Cohort 2: Midazolam 2 mg (Period 1). Test: Cohort 2: Semaglutide 2.4 mg QW + Midazolam 2 mg (Period 3).||107.87|79.97|
82553440|NCT02589795|164811698|OTHER|Inequality test|||||>|0.05|||||||Fisher Exact|||The proportions of subjects with primary safety outcomes were compared in a pairwise manner between the three randomised groups, using Fisher's exact tests.||||>0.05
82553441|NCT02589795|164811699|OTHER|Inequality test|||||>|0.05|||||||Kruskal-Wallis|Kruskal-Wallis test with Dunn's correction for multiple comparisons||Kruskal-Wallis test with Dunn's correction for multiple comparisons to compare the levels of antigen-specific serum IgG in the three groups at Week 22.||||>0.05
82581388|NCT05559476|164874224|NON_INFERIORITY|The non-inferiority is demonstrated if the UL of the 2-sided 95% CI on the group difference (Control group minus Co-Ad group) in terms of SCR is \<=10% for anti-HI antibodies.|Difference of Percentage|-5.89|||||TWO_SIDED|95.0|-12.28|0.56||||||To evaluate the non-inferiority of the FLU vaccine when co-administered with the RSVPreF3 OA vaccine compared to the FLU vaccine administered alone as measured by the difference of percentage of participants achieving seroconversion for HI antibody titers against Flu B/Phuket/3073/2013 Yamagata strain at 1 month post-FLU vaccine dose administration (Day 31 for both groups).||0.56|-12.28|
82651182|NCT01464827|165017186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.266|TWO_SIDED|95.0|0.08|2.02||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment for 8 weeks versus 12 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), and ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||2.02|0.08|0.266
82553442|NCT04909801|164811701|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.9026
82581389|NCT00715962|164874267|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Fisher Exact|Fisher's exact test used as the rate of falling was low.||||||<.05
82553443|NCT04909801|164811702|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5824|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||||1.5|0.5|0.5824
82553444|NCT04909801|164811703|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3534||95.0|0.5|1.3|||Regression, Logistic|||||1.3|0.5|0.3534
82553445|NCT04909801|164811704|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.614|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||||1.5|0.5|0.6140
82553446|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4996|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 29||1.4|0.5|0.4996
82553447|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.449|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 57||1.4|0.5|0.4490
82553448|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.809|TWO_SIDED|95.0|0.5|1.7|||Regression, Logistic|||Day 85||1.7|0.5|0.8090
82553449|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.9||||0.0739|TWO_SIDED|95.0|0.9|3.6|||Regression, Logistic|||Day 113||3.6|0.9|0.0739
82553450|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.4201|TWO_SIDED|95.0|0.7|2.6|||Regression, Logistic|||Day 141||2.6|0.7|0.4201
82553451|NCT04909801|164811706|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7928|TWO_SIDED|95.0|0.6|2.0|||Regression, Logistic|||Day 169||2.0|0.6|0.7928
82553452|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2701|TWO_SIDED|95.0|0.4|1.3|||Regression, Logistic|||Day 29||1.3|0.4|0.2701
82553453|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4863|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 57||1.4|0.5|0.4863
82581390|NCT00715962|164874268|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
82480234|NCT04575597|164654287|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.5|2.79||||||||2.79|0.50|
82553454|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9513|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 85||1.7|0.6|0.9513
82480235|NCT04575597|164654287|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.74|1.32||||||||1.32|0.74|
82480236|NCT04575597|164654288|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.06|15.54||||||||15.54|0.06|
82553455|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8536|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Day 113||1.8|0.6|0.8536
82581391|NCT00705679|164874304|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.37|TWO_SIDED|95.0|0.61|1.21||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||1.21|0.61|0.37
82553456|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9223|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 141||1.7|0.6|0.9223
82553457|NCT04909801|164811707|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||Day 169||1.6|0.6|0.9026
82553458|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.3411|TWO_SIDED|95.0|0.2|1.6|||Regression, Logistic|||Day 29||1.6|0.2|0.3411
82553459|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2546|TWO_SIDED|95.0|0.4|1.3|||Regression, Logistic|||Day 57||1.3|0.4|0.2546
82581392|NCT00705679|164874307|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.49||||0.07|TWO_SIDED|95.0|0.97|2.29||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||2.29|0.97|0.07
82480237|NCT04575597|164654288|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.0|||||TWO_SIDED|95.0|0.0||NA = Upper limit not reached as no events were recorded||||||||0.00|
82480238|NCT04575597|164654288|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.06|15.99||||||||15.99|0.06|
82480239|NCT04575597|164654288|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.46|1.25||||||||1.25|0.46|
82553460|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4558|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 85||1.4|0.5|0.4558
82553461|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9544|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 113||1.7|0.6|0.9544
82553462|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.545|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 141||1.4|0.5|0.5450
82553463|NCT04909801|164811708|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.2227|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||Day 169||1.2|0.4|0.2227
82553464|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.32|TWO_SIDED|95.0|0.3|1.4|||Regression, Logistic|||Day 29||1.4|0.3|0.3200
82553465|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4992|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 57||1.5|0.5|0.4992
82553466|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.8963|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 85||1.7|0.6|0.8963
82553467|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4544|TWO_SIDED|95.0|0.5|1.4|||Regression, Logistic|||Day 113||1.4|0.5|0.4544
82553468|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.8985|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Day 141||1.8|0.6|0.8985
82553469|NCT04909801|164811709|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5824|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 169||1.5|0.5|0.5824
82553470|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.5||||0.4152|TWO_SIDED|95.0|0.6|4.1|||Regression, Logistic|||Day 29||4.1|0.6|0.4152
82553471|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5917|TWO_SIDED|95.0|0.6|2.5|||Regression, Logistic|||Day 57||2.5|0.6|0.5917
82553472|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.4||||0.3348|TWO_SIDED|95.0|0.7|2.6|||Regression, Logistic|||Day 85||2.6|0.7|0.3348
82553473|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3959|TWO_SIDED|95.0|0.4|1.4|||Regression, Logistic|||Day 113||1.4|0.4|0.3959
82480240|NCT04575597|164654289|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.58|3.83||||||||3.83|0.58|
82480241|NCT04575597|164654289|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.42|3.05||||||||3.05|0.42|
82480242|NCT04575597|164654289|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.57|3.93||||||||3.93|0.57|
82480243|NCT04575597|164654289|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.61|1.1||||||||1.10|0.61|
82480244|NCT04575597|164654290|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.11|1.21||||||||1.21|0.11|
82480245|NCT04575597|164654290|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.52|||||TWO_SIDED|95.0|0.2|1.36||||||||1.36|0.20|
82480246|NCT04575597|164654290|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.29|1.89||||||||1.89|0.29|
82480247|NCT04575597|164654290|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.68|1.2||||||||1.20|0.68|
82480248|NCT04575597|164654291|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.09|1.33||||||||1.33|0.09|
82480249|NCT04575597|164654291|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.3|2.15||||||||2.15|0.30|
82480250|NCT04575597|164654291|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.18|1.48||||||||1.48|0.18|
82480251|NCT04575597|164654291|OTHER|Hazard ratio and associated CIs were based on Cox regression model with Efron's method of tie handling with treatment and randomization stratification factors as covariates.|Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.62|1.04||||||||1.04|0.62|
82553474|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.6225|TWO_SIDED|95.0|0.7|2.0|||Regression, Logistic|||Day 141||2.0|0.7|0.6225
82480252|NCT04575597|164654292|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|3.04|||||TWO_SIDED|95.0|0.59|15.59||||||||15.59|0.59|
82480253|NCT04575597|164654292|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.29|6.16||||||||6.16|0.29|
82480254|NCT04575597|164654292|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.37|||||TWO_SIDED|95.0|0.09|1.44||||||||1.44|0.09|
82480255|NCT04575597|164654292|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.62|2.3||||||||2.30|0.62|
82480256|NCT04575597|164654293|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|3.67|||||TWO_SIDED|95.0|1.14|11.88||||||||11.88|1.14|
82480257|NCT04575597|164654293|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.34|3.98||||||||3.98|0.34|
82480258|NCT04575597|164654293|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.85|||||TWO_SIDED|95.0|0.27|2.68||||||||2.68|0.27|
82480259|NCT04575597|164654293|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.52|||||TWO_SIDED|95.0|0.96|2.39||||||||2.39|0.96|
82480260|NCT04575597|164654294|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.82|3.45||||||||3.45|0.82|
82553475|NCT04909801|164811710|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.614|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 169||1.5|0.5|0.6140
82553476|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8084|TWO_SIDED|95.0|0.4|2.9|||Regression, Logistic|||Day 29||2.9|0.4|0.8084
82553477|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.747|TWO_SIDED|95.0|0.5|2.3|||Regression, Logistic|||Day 57||2.3|0.5|0.7470
82553478|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5233|TWO_SIDED|95.0|0.7|2.3|||Regression, Logistic|||Day 85||2.3|0.7|0.5233
82553479|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7295|TWO_SIDED|95.0|0.5|1.6|||Regression, Logistic|||Day 113||1.6|0.5|0.7295
82480261|NCT04575597|164654294|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|0.55|2.33||||||||2.33|0.55|
82480262|NCT04575597|164654294|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.27|1.29||||||||1.29|0.27|
82480263|NCT04575597|164654294|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|1.14|2.2||||||||2.20|1.14|
82480264|NCT04575597|164654295|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.41|||||TWO_SIDED|95.0|0.73|2.73||||||||2.73|0.73|
82480265|NCT04575597|164654295|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.52|1.94||||||||1.94|0.52|
82480266|NCT04575597|164654295|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.34|1.32||||||||1.32|0.34|
82480267|NCT04575597|164654295|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.36|||||TWO_SIDED|95.0|1.03|1.78||||||||1.78|1.03|
82480268|NCT04575597|164654296|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.35|1.66||||||||1.66|0.35|
82480269|NCT04575597|164654296|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.38|1.79||||||||1.79|0.38|
82480270|NCT04575597|164654296|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.37|1.81||||||||1.81|0.37|
82480271|NCT04575597|164654296|OTHER|Odds ratio was based on the proportional odds model with WHO-11 score categories as the response variable. Due to sparse data, the final model includes only treatment as covariate. CIs are based on Wald Chi-Square Test.|Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.84|1.29||||||||1.29|0.84|
82480272|NCT04575597|164654297|OTHER|Difference in rates % and associated CIs were based on the Miettinen \& Nurminen method stratified by randomization strata. Unknown survival status at Day 29 was treated as failure.|Difference in Rates %|-3.0|||||TWO_SIDED|95.0|-5.9|-0.1||||||||-0.1|-5.9|
82480273|NCT02692651|164654307|SUPERIORITY|||||||0.195|||||||Chi-squared, Corrected|||||||0.195
82480274|NCT02692651|164654308|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||||||.99
82480275|NCT02692651|164654309|SUPERIORITY|||||||0.999|||||||Chi-squared, Corrected|||||||.999
82480276|NCT01087788|164654323|SUPERIORITY_OR_OTHER||Difference in Percentages|33.7|||<|0.001|TWO_SIDED|95.0|22.8|44.6||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||44.6|22.8|<0.001
82480277|NCT01087788|164654323|SUPERIORITY_OR_OTHER||Difference in Percentages|27.6|||<|0.001|TWO_SIDED|95.0|16.5|38.7||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||38.7|16.5|<0.001
82500639|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|2.716||||0.028|TWO_SIDED|95.0|1.115|6.616|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1a (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||6.616|1.115|0.028
82553480|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7621|TWO_SIDED|95.0|0.6|1.9|||Regression, Logistic|||Day 141||1.9|0.6|0.7621
82553481|NCT04909801|164811711|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.6861|TWO_SIDED|95.0|0.5|1.6|||Regression, Logistic|||Day 169||1.6|0.5|0.6861
82553482|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3117|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|||Day 29||1.2|0.5|0.3117
82553483|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.612|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 57||1.4|0.6|0.6120
82553484|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4339|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 85||1.3|0.5|0.4339
82553485|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.5||||0.1963|TWO_SIDED|95.0|0.8|2.6|||Regression, Logistic|||Day 113||2.6|0.8|0.1963
82553486|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3275|TWO_SIDED|95.0|0.8|2.3|||Regression, Logistic|||Day 141||2.3|0.8|0.3275
82553487|NCT04909801|164811712|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9113|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Day 169||1.7|0.6|0.9113
82553488|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.1247|TWO_SIDED|95.0|0.4|1.1|||Regression, Logistic|||Day 29||1.1|0.4|0.1247
82553489|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5656|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 57||1.4|0.6|0.5656
82553490|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.897|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 85||1.5|0.6|0.8970
82553491|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9175|TWO_SIDED|95.0|0.7|1.6|||Regression, Logistic|||Day 113||1.6|0.7|0.9175
82553492|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.5996|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 141||1.7|0.7|0.5996
82651183|NCT01464827|165017186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.525|TWO_SIDED|95.0|0.18|2.4||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Group A : Groups \[H + I + M + N\]|The percentage of participants with SVR24 after treatment for 8 weeks versus 24 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||2.40|0.18|0.525
82480278|NCT01087788|164654324|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-10.64|STANDARD_ERROR_OF_MEAN|8.35|=|0.203|TWO_SIDED|95.0|-27.05|5.77||Diff. of CZP 200mg+400mg versus PBO (and corresponding 95% Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior Tumor Necrosis Factor(TNF)-antagonist exposure as factors \& BL mTSS score as a covariate|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the pre-defined primary analysis.||5.77|-27.05|=0.203
82553493|NCT04909801|164811713|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.3534|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 169||1.3|0.5|0.3534
82553494|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.1641|TWO_SIDED|95.0|0.2|1.3|||Regression, Logistic|||Day 29||1.3|0.2|0.1641
82553495|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5905|TWO_SIDED|95.0|0.5|1.5|||Regression, Logistic|||Day 57||1.5|0.5|0.5905
82586098|NCT01315353|164884126|OTHER|||||||0.444||||||"P-value for the week 130 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with abnormal cervical cytology results at week 130.||||0.444
82553496|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7146|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 85||1.5|0.6|0.7146
82553497|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.7416|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 113||1.7|0.7|0.7416
82553498|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9026|TWO_SIDED|95.0|0.6|1.5|||Regression, Logistic|||Day 141||1.5|0.6|0.9026
82553499|NCT04909801|164811714|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.2605|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|||Day 169||1.2|0.5|0.2605
82553500|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.6||||0.1078|TWO_SIDED|95.0|0.3|1.1|||Regression, Logistic|||Day 29||1.1|0.3|0.1078
82553501|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.7||||0.1855|TWO_SIDED|95.0|0.4|1.2|||Regression, Logistic|||Day 57||1.2|0.4|0.1855
82553502|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.5223|TWO_SIDED|95.0|0.6|1.4|||Regression, Logistic|||Day 85||1.4|0.6|0.5223
82553503|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.8||||0.4078|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 113||1.3|0.5|0.4078
82553504|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.5238|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 141||1.8|0.7|0.5238
82553505|NCT04909801|164811715|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.474|TWO_SIDED|95.0|0.5|1.3|||Regression, Logistic|||Day 169||1.3|0.5|0.4740
82553506|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.6565|TWO_SIDED|95.0|0.5|2.9|||Regression, Logistic|||Day 29||2.9|0.5|0.6565
82553507|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.701|TWO_SIDED|95.0|0.6|2.1|||Regression, Logistic|||Day 57||2.1|0.6|0.7010
82553508|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3683|TWO_SIDED|95.0|0.8|2.1|||Regression, Logistic|||Day 85||2.1|0.8|0.3683
82553509|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.6372|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 113||1.8|0.7|0.6372
82553510|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.2922|TWO_SIDED|95.0|0.8|2.0|||Regression, Logistic|||Day 141||2.0|0.8|0.2922
82553511|NCT04909801|164811716|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.8178|TWO_SIDED|95.0|0.7|1.7|||Regression, Logistic|||Day 169||1.7|0.7|0.8178
82553512|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.0||||0.9599|TWO_SIDED|95.0|0.4|2.2|||Regression, Logistic|||Day 29||2.2|0.4|0.9599
82553513|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|0.9||||0.7899|TWO_SIDED|95.0|0.5|1.7|||Regression, Logistic|||Day 57||1.7|0.5|0.7899
82553514|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.6305|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||Day 85||1.9|0.7|0.6305
82480279|NCT01087788|164654324|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.09|=|0.017|TWO_SIDED|95.0|-0.38|-0.04||Difference of CZP 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints.Conditional on the 1st test being significant, the 2nd hypothesis was tested with the same alpha level of 5%. Stat. testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected Re-analysis approach, restricted to subjects in the RS who have at least 2 x-ray values at scheduled visits (at least 8 wks apart)||-0.04|-0.38|=0.017
82480280|NCT01087788|164654324|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.09|=|0.261|TWO_SIDED|95.0|-0.27|0.07||Difference of CZP 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints.Conditional on the 1st test being significant, the 2nd hypothesis was tested with the same alpha level of 5%. Stat. testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected Re-analysis approach, restricted to subjects in the RS who have at least 2 x-ray values at scheduled visits (at least 8 wks apart)||0.07|-0.27|=0.261
82480281|NCT01087788|164654325|SUPERIORITY_OR_OTHER||Difference in Percentages|40.2|||<|0.001|TWO_SIDED|95.0|29.5|51.0||Difference of Certolizumab Pegol 200 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||51.0|29.5|<0.001
82480282|NCT01087788|164654325|SUPERIORITY_OR_OTHER||Difference in Percentages|32.8|||<|0.001|TWO_SIDED|95.0|21.8|43.8||Difference of Certolizumab Pegol 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||43.8|21.8|<0.001
82480283|NCT01087788|164654326|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.42|-0.2||Difference of CZP 200 mg + 400 mg vs. Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline HAQ-DI score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||-0.20|-0.42|<0.001
82480284|NCT01087788|164654327|SUPERIORITY_OR_OTHER||Difference in Percentages|46.3|||<|0.001|TWO_SIDED|95.0|35.7|56.9||Difference of Certolizumab Pegol 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using a standard two-sided Wald asymptotic test with a 5 % alpha level.|Wald-test, 2-sided|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected.||56.9|35.7|<0.001
82480285|NCT01087788|164654328|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.12|=|0.127|TWO_SIDED|95.0|-0.43|0.05||Difference of CZP 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the predefined analysis.||0.05|-0.43|=0.127
82553515|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.3||||0.3491|TWO_SIDED|95.0|0.8|2.0|||Regression, Logistic|||Day 113||2.0|0.8|0.3491
82480286|NCT01087788|164654328|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.26|=|0.048|TWO_SIDED|95.0|-1.04|-0.01||Difference of CZP 200 mg + 400 mg versus Placebo (and corresponding 95 % Confidence Interval and p-value) were estimated using an ANCOVA model with treatment, region and prior TNF-antagonist exposure as factors and Baseline mTSS score as a covariate.|ANCOVA|||A hierarchical test procedure was applied to protect the overall significance level for the multiplicity of dose groups and endpoints. Conditional on the first test being significant, the second hypothesis was tested with the same alpha level of 5 %. Statistical testing for the following hypotheses was performed only if the previous null hypothesis in the hierarchy was rejected. This is the post-hoc analysis for the subgroup 'Baseline mTSS \> 6'.||-0.01|-1.04|=0.048
82480287|NCT01779219|164654369|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Fisher's exact test (two-tailed)|Fisher Exact|||||||1.0
82480288|NCT01779219|164654370|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.0
82480289|NCT01779219|164654371|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total length of hospital stay||||0.16
82553516|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.2||||0.4916|TWO_SIDED|95.0|0.7|1.9|||Regression, Logistic|||Day 141||1.9|0.7|0.4916
82553517|NCT04909801|164811717|SUPERIORITY|Abatacept vs. Adalimumab|Adjusted Odds Ratio|1.1||||0.5697|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Day 169||1.8|0.7|0.5697
82553518|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.0977|TWO_SIDED|95.0|0.0|0.5|||longitudinal|||Day 29||0.5|-0.0|0.0977
82553519|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.2889|TWO_SIDED|95.0|-0.1|0.5|||longitudinal|||Day 57||0.5|-0.1|0.2889
82553520|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.7676|TWO_SIDED|95.0|-0.3|0.4|||longitudinal|||Day 85||0.4|-0.3|0.7676
82553521|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.6157|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 113||0.2|-0.3|0.6157
82553522|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.3904|TWO_SIDED|95.0|-0.4|0.2|||longitudinal|||Day 141||0.2|-0.4|0.3904
82553523|NCT04909801|164811718|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.8359|TWO_SIDED|95.0|-0.4|0.3|||longitudinal|||Day 169||0.3|-0.4|0.8359
82651184|NCT01464827|165017186|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.375|TWO_SIDED|95.0|0.55|4.92||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Groups \[F + G + K + L\] : Groups \[H + I + M + N\]|The percentage of participants with SVR24 after treatment for 12 weeks versus 24 weeks was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), ABT-450/ritonavir dose and population (treatment-naïve or null-responders) as predictors.||4.92|0.55|0.375
82480290|NCT01779219|164654371|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Length of the preoperative hospital stay||||0.73
82480291|NCT01779219|164654371|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Length of the postoperative hospital stay||||1.0
82553524|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.4||||0.7852|TWO_SIDED|95.0|-2.3|3.1|||longitudinal|||Day 29||3.1|-2.3|0.7852
82651185|NCT01464827|165017187|SUPERIORITY_OR_OTHER||Difference|-12.16||||0.068|TWO_SIDED|95.0|-25.2|0.88||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Group B - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 2 DAAs and ribavirin versus 3 DAAs and ribavirin was compared using stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||0.88|-25.20|0.068
82480292|NCT01779219|164654372|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total OR time||||<0.001
82480293|NCT01779219|164654372|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Time of preoperative preparations||||0.004
82480294|NCT01779219|164654372|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Time of the operation (skin-to-skin)"||||0.024
82480295|NCT00534313|164654380|SUPERIORITY_OR_OTHER||Difference|22.9||||0.022|TWO_SIDED|95.0|4.0|41.8||The p-value (two-sided) was based on Cochran-Mantel-Haenszel method (CMH) with stratification of baseline body surface area (BSA) affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||41.8|4.0|0.022
82553525|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.6336|TWO_SIDED|95.0|-2.0|3.3|||longitudinal|||Day 57||3.3|-2.0|0.6336
82553526|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.9||||0.4879|TWO_SIDED|95.0|-3.5|1.7|||longitudinal|||Day 85||1.7|-3.5|0.4879
82480296|NCT00534313|164654380|SUPERIORITY_OR_OTHER||Difference|28.7||||0.006|TWO_SIDED|95.0|9.4|48.0||p-value (two-sided) was based on CMH with stratification of baseline BSA affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||48.0|9.4|0.006
82480297|NCT00534313|164654380|SUPERIORITY_OR_OTHER||Difference|14.6||||0.121|TWO_SIDED|95.0|-3.5|32.6||p-value (2-sided) was based on CMH with stratification of baseline BSA affected by psoriasis.|Cochran-Mantel-Haenszel||Difference was based on CMH with stratification of baseline BSA affected by psoriasis.|||32.6|-3.5|0.121
82553527|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.2812|TWO_SIDED|95.0|-3.5|1.0|||longitudinal|||Day 113||1.0|-3.5|0.2812
82553528|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.7||||0.1205|TWO_SIDED|95.0|-3.9|0.5|||longitudinal|||Day 141||0.5|-3.9|0.1205
82553529|NCT04909801|164811719|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.4||||0.3001|TWO_SIDED|95.0|-4.1|1.3|||longitudinal|||Day 169||1.3|-4.1|0.3001
82553530|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.2||||0.4107|TWO_SIDED|95.0|-1.6|4.0|||longitudinal|||Day 29||4.0|-1.6|0.4107
82553531|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.5||||0.6824|TWO_SIDED|95.0|-2.1|3.2|||longitudinal|||Day 57||3.2|-2.1|0.6824
82553532|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.7||||0.5793|TWO_SIDED|95.0|-3.4|1.9|||longitudinal|||Day 85||1.9|-3.4|0.5793
82553533|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.5||||0.2883|TWO_SIDED|95.0|-4.2|1.2|||longitudinal|||Day 113||1.2|-4.2|0.2883
82553534|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.7||||0.1285|TWO_SIDED|95.0|-3.9|0.5|||longitudinal|||Day 141||0.5|-3.9|0.1285
82553535|NCT04909801|164811720|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.5||||0.2815|TWO_SIDED|95.0|-4.2|1.2|||longitudinal|||Day 169||1.2|-4.2|0.2815
82553536|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.3||||0.0099|TWO_SIDED|95.0|0.1|0.5|||longitudinal|||Day 29||0.5|0.1|0.0099
82553537|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.1519|TWO_SIDED|95.0|-0.1|0.4|||longitudinal|||Day 57||0.4|-0.1|0.1519
82553538|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.1||||0.2505|TWO_SIDED|95.0|-0.1|0.4|||longitudinal|||Day 85||0.4|-0.1|0.2505
82553539|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-0.1||||0.5248|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 113||0.2|-0.3|0.5248
82480298|NCT00534313|164654387|SUPERIORITY_OR_OTHER||Difference|-6.0|||||TWO_SIDED|95.0|-23.0|11.0|||Cochran-Mantel-Haenszel||Difference and 95% confidence intervals (CI) was based on CMH with stratification of baseline BSA affected by psoriasis.|||11.0|-23.0|
82553540|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.1778|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 141||0.2|-0.3|0.1778
82553541|NCT04909801|164811725|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.0||||0.851|TWO_SIDED|95.0|-0.3|0.2|||longitudinal|||Day 169||0.2|-0.3|0.8510
82553542|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.3||||0.2319|TWO_SIDED|95.0|-0.9|3.5|||longitudinal|||Day 29||3.5|-0.9|0.2319
82651186|NCT01464827|165017187|SUPERIORITY_OR_OTHER||Difference|-6.75||||0.065|TWO_SIDED|95.0|-13.93|0.43||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Groups \[C + D + J\] - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 2 DAAs and ribavirin versus 3 DAAs and ribavirin was compared using stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||0.43|-13.93|0.065
82480299|NCT00534313|164654387|SUPERIORITY_OR_OTHER||Difference|-0.5|||||TWO_SIDED|95.0|-18.0|17.1|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||17.1|-18.0|
82480300|NCT00534313|164654387|SUPERIORITY_OR_OTHER||Difference|10.4|||||TWO_SIDED|95.0|-7.6|28.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||28.5|-7.6|
82480301|NCT00534313|164654388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.77|||||TWO_SIDED|95.0|-7.02|44.56|||ANCOVA|||||44.56|-7.02|
82480302|NCT00534313|164654388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.34|||||TWO_SIDED|95.0|-3.93|48.6|||ANCOVA|||||48.60|-3.93|
82480303|NCT00534313|164654388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.48|||||TWO_SIDED|95.0|4.82|56.15|||ANCOVA|||||56.15|4.82|
82480304|NCT00534313|164654390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.08||||||95.0|-4.79|8.96|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||8.96|-4.79|
82480305|NCT00534313|164654390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.01|||||TWO_SIDED|95.0|-4.94|8.95|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||8.95|-4.94|
82480306|NCT00534313|164654390|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|-6.08|7.58|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||7.58|-6.08|
82480307|NCT00534313|164654394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.15|||||TWO_SIDED|95.0|1.97|12.33|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as factor and baseline value as covariate was used for the analysis.||||12.33|1.97|
82480308|NCT00534313|164654394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.12|||||TWO_SIDED|95.0|3.83|14.41|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis||||14.41|3.83|
82480309|NCT00534313|164654394|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.17|||||TWO_SIDED|95.0|1.01|11.32|||ANCOVA|ANCOVA model with treatment as factor and baseline value as covariate was used for the analysis.||||11.32|1.01|
82480310|NCT00534313|164654395|SUPERIORITY_OR_OTHER||Difference|16.0|||||TWO_SIDED|95.0|-2.5|34.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||34.5|-2.5|
82480311|NCT00534313|164654395|SUPERIORITY_OR_OTHER||Difference|26.1||||||95.0|6.8|45.5|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||45.5|6.8|
82586099|NCT01315353|164884127|OTHER|||||||0.132||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||0.132
82480312|NCT00534313|164654395|SUPERIORITY_OR_OTHER||Difference|16.6||||||95.0|-1.8|34.9|||Cochran-Mantel-Haenszel||Difference and 95% CI was based on CMH with stratification of baseline BSA affected by psoriasis.|||34.9|-1.8|
82480313|NCT00827931|164654422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-99.9|STANDARD_ERROR_OF_MEAN|131.99||0.46|TWO_SIDED|95.0|-371.4|171.5|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||171.5|-371.4|0.460
82480314|NCT00827931|164654423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.6|STANDARD_ERROR_OF_MEAN|147.61||0.579|TWO_SIDED|95.0|-386.5|219.3|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||219.3|-386.5|0.579
82480315|NCT00827931|164654424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.5|STANDARD_ERROR_OF_MEAN|239.19||0.452|TWO_SIDED|95.0|-672.6|305.5|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||305.5|-672.6|0.452
82553543|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.5572|TWO_SIDED|95.0|-1.5|2.7|||longitudinal|||Day 57||2.7|-1.5|0.5572
82553544|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.1||||0.9366|TWO_SIDED|95.0|-2.0|2.1|||longitudinal|||Day 85||2.1|-2.0|0.9366
82553545|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.1508|TWO_SIDED|95.0|-3.5|1.0|||longitudinal|||Day 113||1.0|-3.5|0.1508
82553546|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.9||||0.0303|TWO_SIDED|95.0|-3.6|-0.2|||longitudinal|||Day 141||-0.2|-3.6|0.0303
82553547|NCT04909801|164811726|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.2333|TWO_SIDED|95.0|-3.3|0.8|||longitudinal|||Day 169||0.8|-3.3|0.2333
82586100|NCT01315353|164884128|OTHER|||||||0.227||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||0.227
82480316|NCT00827931|164654425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-417.7|STANDARD_ERROR_OF_MEAN|152.51||0.01|TWO_SIDED|95.0|-729.4|-106.1|||t-test, 2 sided|||The null hypothesis applicable to the efficacy analyses was that there was no difference between tranexamic acid plus standard care compared to standard care alone. The alternative hypothesis was that there was a difference.||-106.1|-729.4|0.010
82480317|NCT00827931|164654426|SUPERIORITY_OR_OTHER|||||||0.701|TWO_SIDED||||||Fisher Exact|||Fisher's exact test was used at 5% level of significance.||||0.701
82480318|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H1N1 after one vaccination in adults.||3|-3|
82480319|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-1.0|2.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H3N2 after one vaccination in adults.||2|-1|
82480320|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain B after one vaccination in adults.||3|-3|
82480321|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H1N1 after one vaccination in the elderly population.||3|-4|
82480322|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|-1.0|||||TWO_SIDED|95.0|-2.0|1.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain A/H3N2 after one vaccination in the elderly population.||1|-2|
82480323|NCT00492063|164654431|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with HI titer ≥40 in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with HI titer ≥40 in the cTIV group is non-inferior to that of TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%)|Group difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0||||||Non-inferiority testing in immune response (HI titer ≥40) of cTIV to that of TIV vaccine for strain B after one vaccination in the elderly population.||4|-2|
82480324|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|2.0|||||TWO_SIDED|95.0|-3.0|7.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in adults.||7|-3|
82480325|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in adults.||4|-6|
82480326|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|4.0|||||TWO_SIDED|95.0|0.0|8.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain B in adults.||8|0|
82480327|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|0.0|||||TWO_SIDED|95.0|-6.0|5.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in the elderly population.||5|-6|
82480328|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|3.0|||||TWO_SIDED|95.0|-2.0|8.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in the elderly population.||8|-2|
82480329|NCT00492063|164654432|NON_INFERIORITY_OR_EQUIVALENCE|The percentage of subjects with seroconversion or significant increase in HI titer in the cTIV group is \>10% lower than in the TIV group (i.e., the percentage of subjects with seroconversion or significant in HI titer of cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI of the difference in the percentages is greater than -10%).|Group difference|6.0|||||TWO_SIDED|95.0|2.0|11.0||||||Non-inferiority testing in immune response (seroconversion or significant increase in HI titer) after one vaccination of cTIV to that of TIV vaccine for strain B in the elderly population.||11|2|
82480330|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.07|||||TWO_SIDED|95.0|0.9|1.28||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in adults.||1.28|0.9|
82480331|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in adults.||0.99|0.72|
82480332|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.14|||||TWO_SIDED|95.0|0.99|1.3||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain B in adults.||1.3|0.99|
82480333|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H1N1, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.96|||||TWO_SIDED|95.0|0.82|1.12||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H1N1 in the elderly population.||1.12|0.82|
82480334|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain A/H3N2, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|0.87|||||TWO_SIDED|95.0|0.74|1.02||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain A/H3N2 in the elderly population.||1.02|0.74|
82480335|NCT00492063|164654433|NON_INFERIORITY_OR_EQUIVALENCE|The value of GMR ratio of cTIV to TIV is \>0.5 (i.e., the GMR of the cTIV group is non-inferior to that of the TIV group if, for strain B, the lower limit of the 95% CI for ratio of GMRs at day 22 is greater than 0.5).|Ratio of GMRs|1.27|||||TWO_SIDED|95.0|1.11|1.4||||||Non-inferiority testing in immune response (GMR) after one vaccination of cTIV to that of TIV vaccine for strain B in the elderly population.||1.4|1.11|
82480336|NCT01402427|164654435|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.28|TWO_SIDED|95.0|-0.011|0.033|||Fisher Exact|||||0.033|-0.011|0.28
82480337|NCT01402427|164654436|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
82553548|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|1.9||||0.0938|TWO_SIDED|95.0|-0.3|4.2|||longitudinal|||Day 29||4.2|-0.3|0.0938
82553549|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.6||||0.6053|TWO_SIDED|95.0|-1.6|2.7|||longitudinal|||Day 57||2.7|-1.6|0.6053
82553550|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|0.2||||0.857|TWO_SIDED|95.0|-1.9|2.3|||longitudinal|||Day 85||2.3|-1.9|0.8570
82553551|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.2||||0.1592|TWO_SIDED|95.0|-3.0|0.5|||longitudinal|||Day 113||0.5|-3.0|0.1592
82480338|NCT01402427|164654437|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82480339|NCT01402427|164654438|SUPERIORITY_OR_OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82480340|NCT01402427|164654439|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
82480341|NCT01402427|164654440|SUPERIORITY_OR_OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82480342|NCT01402427|164654441|SUPERIORITY_OR_OTHER|||||||0.45|||||||Fisher Exact|||||||0.45
82480343|NCT00608569|164654442|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Results were considered to be statistically significant if p\<0.05|Fisher Exact|||Fisher exact test (unstratified)||||0.133
82480344|NCT04456153|164654450|SUPERIORITY|||||||0.17|||||||GLMM|||||||0.170
82480345|NCT04456153|164654451|SUPERIORITY|||||||0.051|||||||GLMM|||||||0.051
82480346|NCT04456153|164654454|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.68
82553552|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.9||||0.0319|TWO_SIDED|95.0|-3.7|-0.2|||longitudinal|||Day 141||-0.2|-3.7|0.0319
82553553|NCT04909801|164811727|SUPERIORITY|Abatacept - Adalimumab|Adjusted Mean Difference|-1.3||||0.2059|TWO_SIDED|95.0|-3.4|0.7|||longitudinal|||Day 169||0.7|-3.4|0.2059
82553554|NCT04447040|164811788|SUPERIORITY||Least square (LS) Mean Difference|31.48|STANDARD_ERROR_OF_MEAN|5.379|<|0.001|TWO_SIDED|95.0|20.9|42.07|||ANOVA|||||42.07|20.90|<0.001
82553555|NCT04447040|164811788|SUPERIORITY||LS Mean Difference|41.38|STANDARD_ERROR_OF_MEAN|5.267|<|0.001|TWO_SIDED|95.0|31.02|51.75|||ANOVA|||||51.75|31.02|<0.001
82553556|NCT04447040|164811788|SUPERIORITY||LS Mean Difference|46.86|STANDARD_ERROR_OF_MEAN|5.292|<|0.001|TWO_SIDED|95.0|36.44|57.27|||ANOVA|||||57.27|36.44|<0.001
82480347|NCT04456153|164654455|SUPERIORITY|||||||0.76|||||||trapezoidal method|||||||0.76
82480348|NCT02312687|164654466|SUPERIORITY||Least Squares (LS) Mean|0.68|||<|0.0001|TWO_SIDED|95.0|0.48|0.88||The generalized estimation equation (GEE) model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|generalized estimation equation (GEE)|||Change at Week 24||0.88|0.48|< 0.0001
82480349|NCT02312687|164654466|SUPERIORITY||LS Mean|0.68|||<|0.0001|TWO_SIDED|95.0|0.57|0.79||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||0.79|0.57|< 0.0001
82480350|NCT02312687|164654466|SUPERIORITY||LS Mean|0.59|||<|0.0001|TWO_SIDED|95.0|0.44|0.75||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||0.75|0.44|< 0.0001
82480351|NCT02312687|164654466|SUPERIORITY||LS Mean|0.47|||<|0.0001|TWO_SIDED|95.0|0.31|0.63||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||0.63|0.31|< 0.0001
82480352|NCT02312687|164654466|SUPERIORITY||LS Mean|0.57|||<|0.0001|TWO_SIDED|95.0|0.41|0.73||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||0.73|0.41|< 0.0001
82480353|NCT02312687|164654466|SUPERIORITY||LS Mean|0.59|||<|0.0001|TWO_SIDED|95.0|0.43|0.76||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||0.76|0.43|< 0.0001
82480354|NCT02312687|164654467|SUPERIORITY||LS Mean|-9.75||||0.1366|TWO_SIDED|95.0|-22.59|3.09||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 24||3.09|-22.59|0.1366
82480355|NCT02312687|164654467|SUPERIORITY||LS Mean|-11.17||||0.1334|TWO_SIDED|95.0|-25.76|3.42||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 48||3.42|-25.76|0.1334
82480356|NCT02312687|164654467|SUPERIORITY||LS Mean|-18.12|||<|0.0001|TWO_SIDED|95.0|-27.07|-9.17||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 72||-9.17|-27.07|< 0.0001
82480357|NCT02312687|164654467|SUPERIORITY||LS Mean|-25.28|||<|0.0001|TWO_SIDED|95.0|-36.21|-14.35||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 96||-14.35|-36.21|< 0.0001
82480358|NCT02312687|164654467|SUPERIORITY||LS Mean|-22.39|||<|0.0001|TWO_SIDED|95.0|-31.51|-13.26||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 120||-13.26|-31.51|< 0.0001
82480359|NCT02312687|164654467|SUPERIORITY||LS Mean|-28.33|||<|0.0001|TWO_SIDED|95.0|-40.11|-16.56||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE estimate|||Change at Week 144||-16.56|-40.11|< 0.0001
82480360|NCT02312687|164654468|SUPERIORITY||LS Mean|215493.38|||<|0.0001|TWO_SIDED|95.0|194650.78|236335.97||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||236335.97|194650.78|< 0.0001
82480361|NCT02312687|164654468|SUPERIORITY||LS Mean|202525.38|||<|0.0001|TWO_SIDED|95.0|168364.92|236685.83||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||236685.83|168364.92|< 0.0001
82480362|NCT02312687|164654468|SUPERIORITY||LS Mean|221481.03|||<|0.0001|TWO_SIDED|95.0|179628.07|263333.98||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||263333.98|179628.07|< 0.0001
82480363|NCT02312687|164654468|SUPERIORITY||LS Mean|221674.07|||<|0.0001|TWO_SIDED|95.0|181313.34|262034.81||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||262034.81|181313.34|< 0.0001
82480364|NCT02312687|164654468|SUPERIORITY||LS Mean|208270.02|||<|0.0001|TWO_SIDED|95.0|167217.98|249322.06||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||249322.06|167217.98|< 0.0001
82480365|NCT02312687|164654468|SUPERIORITY||LS Mean|235953.55|||<|0.0001|TWO_SIDED|95.0|166110.59|305796.52||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||305796.52|166110.59|< 0.0001
82480366|NCT02312687|164654469|SUPERIORITY||LS Mean|1277.84|||<|0.0001|TWO_SIDED|95.0|1202.34|1353.34||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||1353.34|1202.34|< 0.0001
82480367|NCT02312687|164654469|SUPERIORITY||LS Mean|1244.99|||<|0.0001|TWO_SIDED|95.0|1166.1|1323.88||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||1323.88|1166.10|< 0.0001
82480368|NCT02312687|164654469|SUPERIORITY||LS Mean|1298.49|||<|0.0001|TWO_SIDED|95.0|1233.56|1363.43||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||1363.43|1233.56|< 0.0001
82480369|NCT02312687|164654469|SUPERIORITY||LS Mean|1311.05|||<|0.0001|TWO_SIDED|95.0|1238.3|1383.8||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||1383.80|1238.30|< 0.0001
82480370|NCT02312687|164654469|SUPERIORITY||LS Mean|1368.68|||<|0.0001|TWO_SIDED|95.0|1327.4|1409.96||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||1409.96|1327.40|< 0.0001
82480371|NCT02312687|164654469|SUPERIORITY||LS Mean|1298.41|||<|0.0001|TWO_SIDED|95.0|1208.31|1388.51||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||1388.51|1208.31|< 0.0001
82480372|NCT02312687|164654470|SUPERIORITY||LS Mean|7.87||||0.0011|TWO_SIDED|95.0|3.16|12.58||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||12.58|3.16|0.0011
82480373|NCT02312687|164654470|SUPERIORITY||LS Mean|2.7||||0.3092|TWO_SIDED|95.0|-2.5|7.9||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||7.90|-2.50|0.3092
82480374|NCT02312687|164654470|SUPERIORITY||LS Mean|2.62||||0.2958|TWO_SIDED|95.0|-2.29|7.53||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||7.53|-2.29|0.2958
82480375|NCT02312687|164654470|SUPERIORITY||LS Mean|0.31||||0.8796|TWO_SIDED|95.0|-3.71|4.33||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||4.33|-3.71|0.8796
82480376|NCT02312687|164654470|SUPERIORITY||LS Mean|-0.48||||0.8396|TWO_SIDED|95.0|-5.11|4.16||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||4.16|-5.11|0.8396
82480377|NCT02312687|164654470|SUPERIORITY||LS Mean|-3.43||||0.2284|TWO_SIDED|95.0|-9.0|2.15||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||2.15|-9.00|0.2284
82480378|NCT02312687|164654471|SUPERIORITY||LS Mean|0.57|||||TWO_SIDED|95.0|0.32|0.83||||||Change at Week 24||0.83|0.32|
82480379|NCT02312687|164654471|SUPERIORITY||LS Mean|0.47|||||TWO_SIDED|95.0|0.37|0.56||||||Change at Week 48||0.56|0.37|
82480380|NCT02312687|164654471|SUPERIORITY||LS Mean|0.42|||||TWO_SIDED|95.0|0.28|0.56||||||Change at Week 72||0.56|0.28|
82480381|NCT02312687|164654471|SUPERIORITY||LS Mean|0.44|||||TWO_SIDED|95.0|0.27|0.6||||||Change at Week 96||0.60|0.27|
82553557|NCT04447040|164811788|SUPERIORITY||LS Mean Difference|54.04|STANDARD_ERROR_OF_MEAN|5.321|<|0.001|TWO_SIDED|95.0|43.57|64.51|||ANOVA|||||64.51|43.57|<0.001
82553558|NCT04447040|164811788|SUPERIORITY||LS Mean Difference|59.92|STANDARD_ERROR_OF_MEAN|5.468|<|0.001|TWO_SIDED|95.0|49.16|70.68|||ANOVA|||||70.68|49.16|<0.001
82553559|NCT04447040|164811789|SUPERIORITY||LS Mean Difference|35.66|STANDARD_ERROR_OF_MEAN|6.542|<|0.001|TWO_SIDED|95.0|22.79|48.54|||ANOVA|||||48.54|22.79|<0.001
82553560|NCT04447040|164811789|SUPERIORITY||LS Mean Difference|49.04|STANDARD_ERROR_OF_MEAN|6.407|<|0.001|TWO_SIDED|95.0|36.44|61.65|||ANOVA|||||61.65|36.44|<0.001
82480382|NCT02312687|164654471|SUPERIORITY||LS Mean|0.36|||||TWO_SIDED|95.0|0.23|0.48||||||Change at Week 120||0.48|0.23|
82480383|NCT02312687|164654471|SUPERIORITY||LS Mean|0.47|||||TWO_SIDED|95.0|0.32|0.62||||||Change at Week 144||0.62|0.32|
82480384|NCT02312687|164654472|SUPERIORITY||LS Mean|0.04|||||TWO_SIDED|95.0|0.01|0.07||||||Change at Week 24||0.07|0.01|
82480385|NCT02312687|164654472|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Change at Week 48||0.03|-0.01|
82480386|NCT02312687|164654472|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04||||||Change at Week 72||0.04|-0.01|
82480387|NCT02312687|164654472|SUPERIORITY||LS Mean|0.05|||||TWO_SIDED|95.0|0.02|0.07||||||Change at Week 96||0.07|0.02|
82480388|NCT02312687|164654472|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.02|0.03||||||Change at Week 120||0.03|-0.02|
82480389|NCT02312687|164654472|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|95.0|-0.01|0.05||||||Change at Week 144||0.05|-0.01|
82480390|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.04|||||TWO_SIDED|95.0|-0.07|-0.01||||||Change at Week 24||-0.01|-0.07|
82480391|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.03|0.01||||||Change at Week 48||0.01|-0.03|
82480392|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.04|0.01||||||Change at Week 72||0.01|-0.04|
82480393|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.05|||||TWO_SIDED|95.0|-0.07|-0.02||||||Change at Week 96||-0.02|-0.07|
82480394|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.03|0.02||||||Change at Week 120||0.02|-0.03|
82480395|NCT02312687|164654473|SUPERIORITY||LS Mean|-0.02|||||TWO_SIDED|95.0|-0.05|0.01||||||Change at Week 144||0.01|-0.05|
82480396|NCT02312687|164654474|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.1|0.08||||||Change at Week 24||0.08|-0.10|
82480397|NCT02312687|164654474|SUPERIORITY||LS Mean|0.02|||||TWO_SIDED|95.0|-0.07|0.1||||||Change at Week 48||0.10|-0.07|
82553561|NCT04447040|164811789|SUPERIORITY||LS Mean Difference|53.64|STANDARD_ERROR_OF_MEAN|6.437|<|0.001|TWO_SIDED|95.0|40.97|66.31|||ANOVA|||||66.31|40.97|<0.001
82553562|NCT04447040|164811789|SUPERIORITY||LS Mean Difference|60.93|STANDARD_ERROR_OF_MEAN|6.472|<|0.001|TWO_SIDED|95.0|48.19|73.67|||ANOVA|||||73.67|48.19|<0.001
82553563|NCT04447040|164811789|SUPERIORITY||LS Mean Difference|67.58|STANDARD_ERROR_OF_MEAN|6.65|<|0.001|TWO_SIDED|95.0|54.49|80.67|||ANOVA|||||80.67|54.49|<0.001
82553564|NCT04447040|164811790|SUPERIORITY||LS mean Difference|12.53|STANDARD_ERROR_OF_MEAN|3.097|<|0.001|TWO_SIDED|95.0|6.44|18.63|||ANOVA|||||18.63|6.44|<0.001
82480398|NCT02312687|164654474|SUPERIORITY||LS Mean|0.08|||||TWO_SIDED|95.0|-0.01|0.16||||||Change at Week 72||0.16|-0.01|
82480399|NCT02312687|164654474|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.09|0.06||||||Change at Week 96||0.06|-0.09|
82480400|NCT02312687|164654474|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.12|0.1||||||Change at Week 120||0.10|-0.12|
82480401|NCT02312687|164654474|SUPERIORITY||LS Mean|-0.05|||||TWO_SIDED|95.0|-0.16|0.06||||||Change at Week 144||0.06|-0.16|
82480402|NCT02312687|164654475|SUPERIORITY||LS Mean|22.89|||||TWO_SIDED|95.0|-1.81|47.6||||||Change at Week 24||47.60|-1.81|
82480403|NCT02312687|164654475|SUPERIORITY||LS Mean|15.15|||||TWO_SIDED|95.0|-2.32|32.62||||||Change at Week 48||32.62|-2.32|
82480404|NCT02312687|164654475|SUPERIORITY||LS Mean|11.1|||||TWO_SIDED|95.0|-14.33|36.53||||||Change at Week 72||36.53|-14.33|
82480405|NCT02312687|164654475|SUPERIORITY||LS Mean|-16.65|||||TWO_SIDED|95.0|-37.5|4.2||||||Change at Week 96||4.20|-37.50|
82480406|NCT02312687|164654475|SUPERIORITY||LS Mean|3.48|||||TWO_SIDED|95.0|-32.53|39.49||||||Change at Week 120||39.49|-32.53|
82480407|NCT02312687|164654475|SUPERIORITY||LS Mean|28.55|||||TWO_SIDED|95.0|-11.12|68.22||||||Change at Week 144||68.22|-11.12|
82480408|NCT02312687|164654476|SUPERIORITY||LS Mean|-14.77|||||TWO_SIDED|95.0|-87.62|58.08||||||Change at Week 24||58.08|-87.62|
82480409|NCT02312687|164654476|SUPERIORITY||LS Mean|-70.79|||||TWO_SIDED|95.0|-161.31|19.74||||||Change at Week 48||19.74|-161.31|
82480410|NCT02312687|164654476|SUPERIORITY||LS Mean|-16.11|||||TWO_SIDED|95.0|-110.96|78.73||||||Change at Week 72||78.73|-110.96|
82480411|NCT02312687|164654476|SUPERIORITY||LS Mean|-41.74|||||TWO_SIDED|95.0|-150.61|67.13||||||Change at Week 96||67.13|-150.61|
82480412|NCT02312687|164654476|SUPERIORITY||LS Mean|-76.11|||||TWO_SIDED|95.0|-237.29|85.08||||||Change at Week 120||85.08|-237.29|
82480413|NCT02312687|164654476|SUPERIORITY||LS Mean|-96.06|||||TWO_SIDED|95.0|-206.59|14.46||||||Change at Week 144||14.46|-206.59|
82480414|NCT02312687|164654477|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.03||||||Change at Week 24||0.03|-0.01|
82480415|NCT02312687|164654477|SUPERIORITY||LS Mean|0.01|||||TWO_SIDED|95.0|-0.01|0.04||||||Change at Week 48||0.04|-0.01|
82480416|NCT02312687|164654477|SUPERIORITY||LS Mean|0.0|||||TWO_SIDED|95.0|-0.02|0.02||||||Change at Week 72||0.02|-0.02|
82480417|NCT02312687|164654477|SUPERIORITY||LS Mean|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||||||Change at Week 96||0.02|-0.04|
82480418|NCT02312687|164654477|SUPERIORITY||LS Mean|0.0|||||TWO_SIDED|95.0|-0.02|0.03||||||Change at Week 120||0.03|-0.02|
82480419|NCT02312687|164654477|SUPERIORITY||LS Mean|0.03|||||TWO_SIDED|95.0|-0.01|0.08||||||Change at Week 144||0.08|-0.01|
82480420|NCT02312687|164654478|SUPERIORITY||LS Mean|14.92||||0.0314|TWO_SIDED|95.0|1.33|28.52||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||28.52|1.33|0.0314
82480421|NCT02312687|164654478|SUPERIORITY||LS Mean|-1.73||||0.764|TWO_SIDED|95.0|-13.0|9.55||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||9.55|-13.00|0.7640
82480422|NCT02312687|164654478|SUPERIORITY||LS Mean|-22.28|||<|0.0001|TWO_SIDED|95.0|-30.2|-14.35||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||-14.35|-30.20|< 0.0001
82480423|NCT02312687|164654478|SUPERIORITY||LS Mean|-20.93|||<|0.0001|TWO_SIDED|95.0|-27.92|-13.94||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||-13.94|-27.92|< 0.0001
82480424|NCT02312687|164654478|SUPERIORITY||LS Mean|-18.77||||0.0094|TWO_SIDED|95.0|-32.93|-4.6||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||-4.60|-32.93|0.0094
82480425|NCT02312687|164654478|SUPERIORITY||LS Mean|-25.72|||<|0.0001|TWO_SIDED|95.0|-36.89|-14.54||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||-14.54|-36.89|< 0.0001
82480426|NCT02312687|164654479|SUPERIORITY||LS Mean|4.68||||0.1673|TWO_SIDED|95.0|-1.96|11.32||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||11.32|-1.96|0.1673
82480427|NCT02312687|164654479|SUPERIORITY||LS Mean|-2.68||||0.233|TWO_SIDED|95.0|-7.09|1.72||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||1.72|-7.09|0.2330
82480428|NCT02312687|164654479|SUPERIORITY||LS Mean|-7.45|||<|0.0001|TWO_SIDED|95.0|-9.54|-5.36||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||-5.36|-9.54|< 0.0001
82480429|NCT02312687|164654479|SUPERIORITY||LS Mean|-8.08|||<|0.0001|TWO_SIDED|95.0|-9.86|-6.29||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||-6.29|-9.86|< 0.0001
82480430|NCT02312687|164654479|SUPERIORITY||LS Mean|-10.01|||<|0.0001|TWO_SIDED|95.0|-13.07|-6.95||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||-6.95|-13.07|< 0.0001
82480431|NCT02312687|164654479|SUPERIORITY||LS Mean|-10.89|||<|0.0001|TWO_SIDED|95.0|-14.77|-7.02||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||-7.02|-14.77|< 0.0001
82553565|NCT04447040|164811790|SUPERIORITY||LS MEAN Difference|17.73|STANDARD_ERROR_OF_MEAN|3.032|<|0.001|TWO_SIDED|95.0|11.76|23.7|||ANOVA|||||23.70|11.76|<0.001
82553566|NCT04447040|164811790|SUPERIORITY||LS Mean Difference|21.88|STANDARD_ERROR_OF_MEAN|3.047|<|0.001|TWO_SIDED|95.0|15.89|27.88|||ANOVA|||||27.88|15.89|<0.001
82553567|NCT04447040|164811790|SUPERIORITY||LS Mean Difference|25.01|STANDARD_ERROR_OF_MEAN|3.063|<|0.001|TWO_SIDED|95.0|18.98|31.03|||ANOVA|||||31.03|18.98|<0.001
82553568|NCT04447040|164811790|SUPERIORITY||LS Mean Difference|29.3|STANDARD_ERROR_OF_MEAN|3.148|<|0.001|TWO_SIDED|95.0|23.11|35.5|||ANOVA|||||35.50|23.11|<0.001
82553569|NCT04447040|164811791|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
82553570|NCT04447040|164811791|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
82553571|NCT04447040|164811791|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
82553572|NCT04447040|164811791|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
82553573|NCT04447040|164811791|SUPERIORITY||||||<|0.001|||||||Wilcoxon test|||||||<0.001
82553574|NCT04447040|164811792|SUPERIORITY|||||||0.014|||||||Wald method|||||||0.014
82553575|NCT04447040|164811792|SUPERIORITY|||||||0.002|||||||Wald method|||||||0.002
82553576|NCT04447040|164811792|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
82553577|NCT04447040|164811792|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
82553578|NCT04447040|164811792|SUPERIORITY||||||<|0.001|||||||Wald method|||||||<0.001
82553579|NCT01208662|164811793|SUPERIORITY||Hazard Ratio (HR)|1.53|||<|0.001|TWO_SIDED|95.0|1.23|1.91|||Log Rank|Observed Stratified Log Rank Test (1-sided p-value)||||1.91|1.23|<0.001
82553580|NCT01208662|164811794|SUPERIORITY|||||||0.55|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.55
82553581|NCT01208662|164811795|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.99
82553582|NCT01208662|164811796|SUPERIORITY|||||||0.99|||||||Fisher Exact|||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||||0.99
82553583|NCT01208662|164811798|SUPERIORITY||Hazard Ratio (HR)|1.66|||<|0.001|TWO_SIDED|99.29|1.21|2.27|||Log Rank|Stratified||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||2.27|1.21|<0.001
82553584|NCT01208662|164811799|SUPERIORITY||Hazard Ratio (HR)|1.1|||>|0.99|TWO_SIDED|95.0|0.73|1.65|||Log Rank|||||1.65|0.73|>0.99
82553585|NCT01208662|164811801|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.99|TWO_SIDED|99.29|0.73|1.65|||Log Rank|Stratified||Exact (Clopper-Pearson) confidence limits of 98.2857% represents Bonferroni adjustment for 7 tests (1-0.05/7) per statistical analysis plan for key secondary outcomes.||1.65|0.73|0.99
82553586|NCT01208662|164811808|SUPERIORITY||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.3|1.01||||||||1.01|0.30|
82553587|NCT04433208|164811854|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82553588|NCT05565820|164811968|SUPERIORITY||difference in proportions|-0.335|STANDARD_ERROR_OF_MEAN|0.149||0.025|TWO_SIDED|||||Alpha: .05|Z-test for difference in proportions|Z: 2.246 Cohen's d: .590|Direction of comparison: Vamousse Day 2 proportion of live lice - Nix Day 2 proportion of live lice|"Null hypothesis: At Day 2 the proportion of lice free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.025
82553589|NCT05565820|164811968|SUPERIORITY||Difference in proportions|0.348|STANDARD_ERROR_OF_MEAN|0.141||0.014|TWO_SIDED|||||Alpha: .05.|Z-test for difference in proportions|Z 2.469 Cohen's d .660|Direction of comparison: Vamousse Day 7 proportion live lice free - Nix Day 7 proportion live lice free|"Null hypothesis: At Day 7 the proportion of lice free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.014
82553590|NCT05565820|164811968|SUPERIORITY||Difference in proportions|0.283|STANDARD_ERROR_OF_MEAN|0.147||0.054|TWO_SIDED|||||Alpha: .05|Z-test for difference in proportions|Z: 1.920 Cohen's d: .513|Vamousse Day 14 proportion live lice free - Nix Day 14 proportion live lice free|"Null hypothesis: At Day 14 the proportion of lice-free subjects in the Vamousse Spray 'n' Go group does not exceed that in the Nix Creme Rinse Lice Treatment group.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."||||.054
82553591|NCT05565820|164811969|SUPERIORITY|"To check on the effect of the non-normality of the change proportions, the nonparametric Mann-Whitney test was also performed.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Mean Difference (Final Values)|0.295|STANDARD_ERROR_OF_MEAN|0.1148||0.02|TWO_SIDED|95.0|0.052|0.537||Alpha = .05 t: 2.567 df (adjusted, see comment below): 16.83 Mann-Whitney Z: 2.830 p(2-tailed) of Mann-Whitney Z: .005 Cohen's d = 1.023|t-test, 2 sided|Degrees of freedom for the t-test were adjusted for inequality of variances between the groups using the Satterthwaite correction: df(adj) = 16.83|Direction of comparison: Vamousse prop. reduction in live lice count from Day O - Nix prop. reduction in live lice count from Day O|"Null hypothesis: At Day 2 the mean proportion of decrease from Day 0 in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 2 change proportions deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on the mean change proportions."||.537|.052|.020
82586101|NCT01315353|164884129|OTHER|||||||1||||||"P-value for the week 26 comparison.~The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05."|Fisher Exact|||Null Hypothesis: There is no difference between Arm A and Arm B with respect to the proportion of participants with hr-HPV at week 26.||||1.000
82586102|NCT01880528|164884158|SUPERIORITY|||||||0.006|||||||Kruskal-Wallis|||||||0.006
82586103|NCT01880528|164884159|SUPERIORITY|||||||0.0337|||||||Kruskal-Wallis|||||||0.0337
82586104|NCT01880528|164884160|SUPERIORITY|||||||0.0427|||||||Kruskal-Wallis|||||||0.0427
82586105|NCT01880528|164884161|SUPERIORITY|||||||0.0237|||||||Kruskal-Wallis|||||||0.0237
82553592|NCT05565820|164811969|SUPERIORITY|"The nonparametric Mann-Whitney test was also conducted to check on the effect of the non-normality of the change proportions.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.182||0.334|TWO_SIDED|95.0|-0.187|0.543||Alpha = .05 t: .976 df: 54 Mann-Whitney Z: 3.021 p(2-tailed) of Mann-Whitney Z: .003 Cohen's d = .294|t-test, 2 sided|Levine's test for violation of equality of variances nonsignificant; no df adjustment necessary.||"Null hypothesis: At Day 7 the proportion of decrease from baseline in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 7 change proportions deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on their mean change proportions."||.543|-.187|.334
82553593|NCT05565820|164811969|SUPERIORITY|"The nonparametric Mann-Whitney test was also conducted to check on the effect of the non-normality of the change proportions.~The null hypothesis is one-tailed. However, for consistency with the practice of reporting conservative p-values in clinical studies, the two-tailed p-value will be reported."|Difference between proportions|0.235|STANDARD_ERROR_OF_MEAN|0.1034||0.037|TWO_SIDED|95.0|0.016|0.454||Alpha = .05 t: 2.276 df(adjusted, see comment below): 16.2 Mann-Whitney Z: 2.478 p(2-tailed) of Mann-Whitney Z: .013 Cohen's d = .947|t-test, 2 sided|Degrees of freedom for the t-test were adjusted for inequality of variances between the groups using the Satterthwaite correction: df(adj) = 16.2||"Null hypothesis: At Day 14 the proportion of decrease from baseline in the number of live lice in the Vamousse group does not exceed that in the Nix group.~The distribution of the Day 0 to Day 14 change proportion deviated significantly from normality by the Shapiro-Wilk test for both the Vamousse and combined samples. However, the t-test is robust to such departures from normality for samples of this size and was used to compare the two groups on the mean change proportions."||.454|.016|.037
82553594|NCT03295721|164811970|SUPERIORITY||Least Squares Mean Difference (LSMD)|-122.05|STANDARD_ERROR_OF_MEAN|21.217|<|0.0001|TWO_SIDED|95.0|-163.76|-80.34|||ANOVA|||||-80.34|-163.76|< 0.0001
82553595|NCT03295721|164811971|SUPERIORITY||Least Squares Mean Difference (LSMD)|-70.16|STANDARD_ERROR_OF_MEAN|18.777|=|0.0002|TWO_SIDED|95.0|-107.07|-33.25|||ANOVA|||||-33.25|-107.07|= 0.0002
82553596|NCT03295721|164811972|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82553597|NCT03295721|164811973|SUPERIORITY||Risk Difference (RD)|0.177||||0.0001|TWO_SIDED|95.0|0.085|0.265|||Fisher Exact|||||.265|.085|0.0001
82553598|NCT03295721|164811974|SUPERIORITY||||||=|0.0022|||||||Wilcoxon (Mann-Whitney)|||||||= 0.0022
82553599|NCT00429364|164811981|SUPERIORITY_OR_OTHER_LEGACY|||||||0.08|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.08
82553600|NCT00429364|164811982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.20
82553601|NCT00429364|164811983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.15
82553602|NCT00429364|164811984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.30
82553603|NCT00429364|164811985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||<0.001
82553604|NCT00429364|164811986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.002
82553605|NCT00429364|164811987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|TWO_SIDED|||||P values are based on a linear regression mixed-effect model comparing slopes under compound symmetry, with adjustment for baseline.|Mixed Models Analysis|||||||0.29
82553606|NCT00429364|164811988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.96|TWO_SIDED|||||Regression model adjusted for age at study visit.|Mixed Models Analysis|||||||0.96
82586106|NCT02254278|164884162|SUPERIORITY|||||||0.04|||||||binomial|One-sided significance level=0.10||Assuming a binomial distribution, 140 eligible patients per arm were required for 80% power and 1-sided type I error rate of 10% to test the null hypothesis of 2-year progression-free survival (PFS) rate ≤ 85% against the alternative hypothesis of \> 85% with a binomial test. The arms are not compared to each other; they are each tested separately against the null hypothesis.||||0.04
82553607|NCT00429364|164811989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|TWO_SIDED||||||Mixed Models Analysis|||||||0.45
82553608|NCT00429364|164811990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82553609|NCT00429364|164811991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.65|TWO_SIDED||||||Mixed Models Analysis|||||||0.65
82553610|NCT00429364|164811992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||0.13
82553611|NCT00429364|164811993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82|TWO_SIDED||||||Mixed Models Analysis|||||||0.82
82553612|NCT00429364|164811994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
82553613|NCT00429364|164811995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.49|TWO_SIDED||||||Mixed Models Analysis|||||||0.49
82553614|NCT00429364|164811996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||0.59
82553615|NCT00429364|164811998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED||||||Log Rank|||||||0.16
82553616|NCT00429364|164812000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|TWO_SIDED||||||Log Rank|||||||0.13
82553617|NCT00429364|164812002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.32|TWO_SIDED||||||Log Rank|||||||0.32
82553618|NCT00429364|164812004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|TWO_SIDED||||||Log Rank|||||||0.10
82480432|NCT02312687|164654480|SUPERIORITY||LS Mean|343.38||||0.0113|TWO_SIDED|95.0|77.66|609.11||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||609.11|77.66|0.0113
82480433|NCT02312687|164654480|SUPERIORITY||LS Mean|41.45||||0.4972|TWO_SIDED|95.0|-78.23|161.13||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||161.13|-78.23|0.4972
82480434|NCT02312687|164654480|SUPERIORITY||LS Mean|-61.96||||0.3288|TWO_SIDED|95.0|-186.34|62.41||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||62.41|-186.34|0.3288
82480435|NCT02312687|164654480|SUPERIORITY||LS Mean|-68.62||||0.2772|TWO_SIDED|95.0|-192.39|55.16||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||55.16|-192.39|0.2772
82480436|NCT02312687|164654480|SUPERIORITY||LS Mean|-53.41||||0.2907|TWO_SIDED|95.0|-152.47|45.66||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||45.66|-152.47|0.2907
82480437|NCT02312687|164654480|SUPERIORITY||LS Mean|-97.46||||0.08|TWO_SIDED|95.0|-206.57|11.65||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||11.65|-206.57|0.0800
82480438|NCT02312687|164654481|SUPERIORITY||LS Mean|72.45|||<|0.0001|TWO_SIDED|95.0|39.21|105.7||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 24||105.70|39.21|< 0.0001
82480439|NCT02312687|164654481|SUPERIORITY||LS Mean|44.4|||<|0.0001|TWO_SIDED|95.0|30.34|58.47||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 48||58.47|30.34|< 0.0001
82480440|NCT02312687|164654481|SUPERIORITY||LS Mean|28.3||||0.0002|TWO_SIDED|95.0|13.24|43.37||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 72||43.37|13.24|0.0002
82480441|NCT02312687|164654481|SUPERIORITY||LS Mean|27.02|||<|0.0001|TWO_SIDED|95.0|13.81|40.22||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 96||40.22|13.81|< 0.0001
82480442|NCT02312687|164654481|SUPERIORITY||LS Mean|13.02||||0.1195|TWO_SIDED|95.0|-3.37|29.4||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 120||29.40|-3.37|0.1195
82480443|NCT02312687|164654481|SUPERIORITY||LS Mean|43.12||||0.2009|TWO_SIDED|95.0|-22.96|109.2||The GEE model includes the change from baseline as the dependent variable, time as the categorical variable and adjusted for baseline measurement, with compound symmetry covariance structure.|GEE|||Change at Week 144||109.20|-22.96|0.2009
82480444|NCT04545944|164654488|OTHER||Geometric Least Squares Mean Ratio|192.4|||||TWO_SIDED|90.0|152.8|242.4||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||242.4|152.8|
82480445|NCT04545944|164654489|OTHER||Geometric Least Squares Mean Ratio|188.9|||||TWO_SIDED|90.0|150.6|236.9||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||236.9|150.6|
82480446|NCT04545944|164654490|OTHER||Geometric Least Squares Mean Ratio|193.4|||||TWO_SIDED|90.0|160.5|233.1||||||A linear mixed model with treatment as a fixed effect and participant as a random effect was performed on the natural log-transformed values to assess the effect of vonoprazan on the PK of midazolam.||233.1|160.5|
82480447|NCT01634191|164654495|OTHER||Geometric Mean Ratio|113.0|||||TWO_SIDED|90.0|94.2|135.0|||||Geometric mean ratio (Elderly/Young) and 90% confidence interval (CI) of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-t. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||135|94.2|
82480448|NCT01634191|164654497|OTHER||Geometric Mean Ratio|128.0|||||TWO_SIDED|90.0|107.0|154.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-t. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||154|107|
82480449|NCT01634191|164654498|OTHER||Geometric Mean Ratio|113.0|||||TWO_SIDED|90.0|94.1|135.0|||||Geometric mean ratio (Elderly/Young) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of variance (ANOVA) model was performed on the log-transformed AUC0-∞. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||135|94.1|
82480450|NCT01634191|164654499|OTHER||Geometric Mean Ratio|131.0|||||TWO_SIDED|90.0|109.0|157.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way ANOVA model was performed on the log-transformed AUC0-∞. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||157|109|
82500640|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.466||||0.142|TWO_SIDED|95.0|0.168|1.291|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1b (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||1.291|0.168|0.142
82553619|NCT05586490|164812034|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-0.6375||||0.429|TWO_SIDED|||||A priori threshold for statistical significance is p \< 0.05.|t-test, 2 sided|Paired samples t-test, df = 7||||||0.429
82553620|NCT05586490|164812035|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|3.75||||0.351|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.351
82553621|NCT05586490|164812036|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-0.013||||0.937|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.937
82553622|NCT05586490|164812037|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-14.8||||0.044|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 7||||||0.044
82581393|NCT00705679|164874310|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.81|TWO_SIDED|95.0|0.73|1.49||The two-sided test a priori threshold for statistical significance is 0.05 against an alternative of 0% effectiveness for estimated effectiveness levels between 33.3% and 50.0%.|Regression, Cox|The Cox proportional-hazards model was stratified by site.|A ratio less than 1 indicates a lower rate of HIV infection in the active arm compared to the placebo arm. A ratio more than 1 indicates a higher rate of HIV infection in the active arm compared to the placebo arm.|The null hypothesis is that the active product will be no more than 25% effective. The trial was designed so that 94 events per pairwise comparison are needed to detect 55% effectiveness while ruling out a lower effectiveness of 25% with 90% power and a false-positive error rate of 0.0025.||1.49|0.73|0.81
82480451|NCT01634191|164654500|OTHER||Geometric Mean Ratio|106.0|||||TWO_SIDED|90.0|90.5|123.0|||||Geometric mean ratio (Elderly/Young) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of age on the PK of apremilast after a single 30 mg dose, a 2-way analysis of ANOVA model was performed on the log-transformed Cmax. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||123|90.5|
82480452|NCT01634191|164654501|OTHER||Geometric Mean Ratio|108.0|||||TWO_SIDED|90.0|92.3|126.0|||||Geometric mean ratio (Female/Male) and 90% CI of the ratio calculated from a 2-way ANOVA model, and presented as percentages.|To assess the effect of sex on the PK of apremilast after a single 30 mg dose, a 2-way ANOVA model was performed on the log-transformed Cmax. The ANOVA model included age group (elderly and young), sex (male and female), and age group by sex as a fixed effect.||126|92.3|
82480453|NCT01634191|164654502|OTHER||Median Difference|0.5||||0.153|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test||Median difference (Elderly - Young) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.000|0.153
82480454|NCT01634191|164654503|OTHER||Median Difference|0.5||||0.169|TWO_SIDED|90.0|0.0|2.0|||Wilcoxon rank-sum test||Median difference (Female - Male) and 90% CI of the difference calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||2.00|0.000|0.169
82480455|NCT03645434|164654510|SUPERIORITY||Mean Difference (Final Values)|0.202|||<|0.0001|TWO_SIDED|95.0|0.151|0.253|||Mixed Models Analysis|||||0.253|0.151|<0.0001
82480456|NCT03645434|164654515|SUPERIORITY||Mean Difference (Final Values)|0.098|||<|0.0001|TWO_SIDED|95.0|0.051|0.146|||Mixed Models Analysis|||Day 2||0.146|0.051|<0.0001
82581394|NCT00705679|164874311|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||Fisher Exact|Two-sided Fisher's Exact Test.||||||0.004
82581395|NCT00759915|164874312|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|109.98||||||90.0|100.1|120.8|||ANOVA|log-transformation||||120.8|100.1|
82480457|NCT03645434|164654515|SUPERIORITY||Mean Difference (Final Values)|0.195|||<|0.0001|TWO_SIDED|95.0|0.148|0.242|||Mixed Models Analysis|||Day 8||0.242|0.148|<0.0001
82480458|NCT03645434|164654516|SUPERIORITY||Mean Difference (Final Values)|0.306|||<|0.0001|TWO_SIDED|95.0|0.266|0.346|||Mixed Models Analysis|||Day 1||0.346|0.266|<0.0001
82480459|NCT03645434|164654516|SUPERIORITY||Mean Difference (Final Values)|0.374|||<|0.0001|TWO_SIDED|95.0|0.324|0.425|||Mixed Models Analysis|||Day 8||0.425|0.324|<0.0001
82480460|NCT03645434|164654516|SUPERIORITY||Mean Difference (Final Values)|0.388|||<|0.0001|TWO_SIDED|95.0|0.329|0.447|||Mixed Models Analysis|||Day 14||0.447|0.329|<0.0001
82480461|NCT03645434|164654517|SUPERIORITY||Mean Difference (Final Values)|-0.551||||0.001|TWO_SIDED|95.0|-0.876|-0.226|||Mixed Models Analysis|||Day 1 to Day 8||-0.226|-0.876|0.0010
82480462|NCT03645434|164654517|SUPERIORITY||Mean Difference (Final Values)|-0.867|||<|0.0001|TWO_SIDED|95.0|-1.248|-0.486|||Mixed Models Analysis|||Day 9 to Day 14||-0.486|-1.248|<0.0001
82480463|NCT03645434|164654517|SUPERIORITY||Mean Difference (Final Values)|-0.722|||<|0.0001|TWO_SIDED|95.0|-1.047|-0.397|||Mixed Models Analysis|||Day 1 to Day 14||-0.397|-1.047|<0.0001
82480464|NCT03645434|164654518|SUPERIORITY||Mean Difference (Final Values)|-1.571||||0.0022|TWO_SIDED|95.0|-2.563|-0.579|||Mixed Models Analysis|||Day 1 to Day 8||-0.579|-2.563|0.0022
82553623|NCT05586490|164812038|SUPERIORITY||Mean Difference (Net)|-0.68||||0.42|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.42
82553624|NCT05586490|164812038|SUPERIORITY||Mean Difference (Net)|0.57||||0.5|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device group and no device group) controlling for pre-trial measurements, gender, and age.||||||0.50
82553625|NCT05586490|164812039|SUPERIORITY||Mean Difference (Net)|-0.03||||0.986|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.986
82553626|NCT05586490|164812039|SUPERIORITY||Mean Difference (Net)|-1.25||||0.479|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.479
82553627|NCT05586490|164812040|SUPERIORITY||Mean Difference (Net)|-0.195||||0.098|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.098
82553628|NCT05586490|164812040|SUPERIORITY||Mean Difference (Net)|-0.039||||0.729|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.729
82553629|NCT05586490|164812041|SUPERIORITY||Mean Difference (Net)|-8.15||||0.058|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.0580
82553630|NCT05586490|164812041|SUPERIORITY||Mean Difference (Net)|-1.54||||0.718|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.718
82553631|NCT05586490|164812043|SUPERIORITY||Mean Difference (Net)|0.063||||0.816|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.816
82553632|NCT05586490|164812043|SUPERIORITY||Mean Difference (Net)|-0.0048||||0.985|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.985
82553633|NCT05586490|164812044|SUPERIORITY||Mean Difference (Net)|6.33||||0.59|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (alternate device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.59
82581396|NCT00759915|164874314|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|100.91||||||90.0|96.96|105.0|||ANOVA|log-transformation||||105.0|96.96|
82581397|NCT00759915|164874315|NON_INFERIORITY_OR_EQUIVALENCE|The 90% confidence intervals for the ratios (test/reference) of the least squares means of the non-transformed parameters Cmax, AUClast, AUCinf, Tmax, λz, and T1/2, were calculated.|mean ratio|96.5||||||90.0|92.3|100.97|||ANOVA|log-transformation||||100.97|92.3|
82581398|NCT03730480|164874316|OTHER|count of number of results within 15% of reference analyzer||||||||||||||||count of number of responses|The number of results that are within 15% of reference analyzer is reported.|||
82581399|NCT00560560|164874348|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||The final analysis was intended to be a binomial test (death prior to 6 months, yes or no). However, 2 participants in the 30/kg mg group were censored prior to 6 months, so the six month Kaplan and Meier estimates were used for each group instead.|Test of probability of 6 month survival|p-Value \>0.05 applies to each group (20 mg/kg and 30 mg/kg). Greenwood's formula was used for standard deviation.||The hypotheses for each group were H0:p=0.45 vs H1:p\>0.45. There was one interim analysis for futility for each group based on the method of Case and Morgan. The futility boundary was not crossed for 20/kg mg group, but was crossed for the 30/kg mg group. It was recommended to investigators that participants be discontinued from treatment with 30 mg/kg of figitumumab.||||>0.05
82581400|NCT00768079|164874376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|||||||Fisher Exact|||Non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.312
82480465|NCT03645434|164654518|SUPERIORITY||Mean Difference (Final Values)|-2.386|||<|0.0001|TWO_SIDED|95.0|-3.541|-1.23|||Mixed Models Analysis|||Day 9 to Day 14||-1.230|-3.541|<0.0001
82480466|NCT03645434|164654518|SUPERIORITY||Mean Difference (Final Values)|-1.912||||0.0003|TWO_SIDED|95.0|-2.923|-0.901|||Mixed Models Analysis|||Day 1 to Day 14||-0.901|-2.923|0.0003
82480467|NCT03645434|164654529|SUPERIORITY||Mean Difference (Final Values)|-1.268|||<|0.0001|TWO_SIDED|95.0|-1.741|-0.794|||Mixed Models Analysis|||Day 1 to Day 8||-0.794|-1.741|<0.0001
82553634|NCT05586490|164812044|SUPERIORITY||Mean Difference (Net)|8.16||||0.51|TWO_SIDED|||||A priori threshold for statistical significance was p \< 0.05|ANCOVA|Estimated difference between groups (research device and no device group) controlling for pre-trial measurements, gender, and age.||||||0.51
82553635|NCT05828017|164812055|SUPERIORITY||Mean Difference (Final Values)|1.107|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
82553636|NCT05828017|164812055|SUPERIORITY||Mean Difference (Final Values)|0.544||||0.015|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference between Variation #1 and the standard curve in terms of mean preference counts per participant.||||0.015
82553637|NCT05828017|164812056|SUPERIORITY||Mean Difference (Final Values)|1.039|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
82553638|NCT05828017|164812056|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.03569|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.03569
82553639|NCT05828017|164812057|SUPERIORITY||Mean Difference (Final Values)|0.365||||0.069|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||0.069
82553640|NCT05828017|164812057|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.6976|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.6976
82553641|NCT05828017|164812058|SUPERIORITY||Mean Difference (Final Values)|0.876|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts per participant between the standard curve, variation #1, and no preference counts.||||<0.001
82581401|NCT00768079|164874376|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82581402|NCT00768079|164874376|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|||||||Fisher Exact|||Adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.312
82581403|NCT00768079|164874376|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82581404|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343|||||||Fisher Exact|||Week 4, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.343
82480468|NCT03645434|164654529|SUPERIORITY||Mean Difference (Final Values)|-1.302|||<|0.0001|TWO_SIDED|95.0|-1.804|-0.8|||Mixed Models Analysis|||Day 9 to Day 14||-0.800|-1.804|<0.0001
82480469|NCT00167778|164654530|SUPERIORITY_OR_OTHER||||||>|0.99||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||>0.99
82480470|NCT00167778|164654531|SUPERIORITY_OR_OTHER||||||=|0.09||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.09
82480471|NCT00167778|164654532|SUPERIORITY_OR_OTHER||||||=|0.09||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.09
82480472|NCT00167778|164654533|SUPERIORITY_OR_OTHER||||||=|0.7||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.7
82480473|NCT00167778|164654534|SUPERIORITY_OR_OTHER||||||>|0.99||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||>0.99
82480474|NCT00167778|164654536|SUPERIORITY_OR_OTHER||||||=|0.8||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.8
82553642|NCT05828017|164812058|SUPERIORITY||Mean Difference (Final Values)|0.728||||0.0013|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean preference counts between the standard curve and variation #1.||||0.0013
82480475|NCT00167778|164654537|SUPERIORITY_OR_OTHER||||||=|0.7||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=0.7
82480476|NCT00167778|164654538|SUPERIORITY_OR_OTHER||||||=|0.4||95.0||||Statistical significance was set a-prior at p\<0.05.|Mixed Models Analysis|||||||=.4
82480477|NCT00167778|164654539|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82581405|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 4, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82480478|NCT00167778|164654540|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82480479|NCT00167778|164654541|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82480480|NCT00167778|164654542|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82553643|NCT05828017|164812059|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.522|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.522
82480481|NCT00167778|164654543|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82480482|NCT00167778|164654544|SUPERIORITY_OR_OTHER||||||>|0.15||95.0||||Statistical significance was set a-prior at p\<0.05. Values of p\>0.15 were considered not significant (NS) statistically.|Mixed Models Analysis|The effect of study prosthesis was analyzed using repeated measures one-way analyses of variance.||||||>0.15
82480483|NCT00167778|164654545|SUPERIORITY_OR_OTHER||||||=|0.13||95.0||||Statistical significance was set a-prior at p\<0.05.|Wilcoxon (Mann-Whitney)|Wilcoon paired signed rank test for the differences between Rigid and Torsion Adapter pylons||||||=0.13
82480484|NCT00167778|164654546|SUPERIORITY_OR_OTHER||||||=|0.92||95.0||||Statistical significance was set a-prior at p\<0.05.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between Rigid and Torsion Adapter pylons.||||||=0.92
82480485|NCT00167778|164654547|SUPERIORITY_OR_OTHER||||||=|0.37||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.37
82480486|NCT00167778|164654548|SUPERIORITY_OR_OTHER||||||=|0.27||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.27
82480487|NCT00167778|164654549|SUPERIORITY_OR_OTHER||||||=|0.2||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.20
82480488|NCT00167778|164654550|SUPERIORITY_OR_OTHER||||||=|0.59||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.59
82480489|NCT00167778|164654551|SUPERIORITY_OR_OTHER||||||=|0.057||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.057
82480490|NCT00167778|164654552|SUPERIORITY_OR_OTHER||||||=|0.78||95.0||||Statistical significance was set a-prior at p\<0.1.|Wilcoxon (Mann-Whitney)|Wilcoxon paired signed rank test for the differences between the Rigid and Torsion Adapter pylons.||||||=0.78
82480491|NCT00678743|164654554|SUPERIORITY|All statistical significance were completed at the 5% level, two-tailed. Comparability of baseline characteristics between those who did and did not opt to enter the extension study was assessed with the chi square test and analysis of variance.||||||0.0008||||||Threshold for statistical significance p\<0.05|ANOVA|||||||0.0008
82553644|NCT05828017|164812059|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.27|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts between the standard curve and variation #1.||||0.27
82553645|NCT05828017|164812060|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.28|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.28
82581406|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.343|||||||Fisher Exact|||Week 4, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.343
82581407|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 4, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82651187|NCT01464827|165017188|SUPERIORITY_OR_OTHER||Difference|-7.13||||0.106|TWO_SIDED|95.0|-15.77|1.51||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Mantel Haenszel|The Mantel-Haenszel method was used because logistic regression failed due to separation or quasi-separation.|Difference = Group E - Groups \[F + G + K + L\]|The percentage of participants with SVR24 after treatment with 3 DAAs with and without ribavirin was compared using a stratum-adjusted Mantel-Haenszel (MH) method with Interleukin 28B genotype (CC or non-CC) and HCV subgenotype (1a or non-1a).||1.51|-15.77|0.106
82651188|NCT01464827|165017189|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.616|TWO_SIDED|95.0|0.37|5.34||No adjustment for multiple comparison. Pre-specified 2-sided significance level of 0.05.|Regression, Logistic||Odds ratio: Groups \[F + G + H + I\] : Groups \[K + L + M + N\]|The percentage of participants with SVR24 after treatment with 3 DAAs and ribavirin in treatment-naïve versus null-responders was compared using logistic regression with treatment group, baseline log10 HCV RNA level, HCV subgenotype (1a or non-1a), geographic region (US or non-US), Interleukin 28B genotype (CC or non-CC), and ABT-450/ritonavir dose as predictors.||5.34|0.37|0.616
82651189|NCT00810732|165017190|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.19||0.004|TWO_SIDED|95.0|-0.94|-0.19|||ANCOVA|||||-0.19|-0.94|0.0040
82651190|NCT00810732|165017190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.0018|TWO_SIDED|95.0|-0.99|-0.24|||ANCOVA|||||-0.24|-0.99|0.0018
82651191|NCT00810732|165017190|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.19||0.7945|TWO_SIDED|95.0|-0.33|0.43|||ANCOVA|||||0.43|-0.33|0.7945
82480492|NCT02054481|164654559|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.4|||<|0.0001|TWO_SIDED|95.0|19.0|53.8|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||53.8|19.0|<0.0001
82651192|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.5|STANDARD_ERROR_OF_MEAN|1.3||0.0087|TWO_SIDED|95.0|-6.08|-0.91|||ANCOVA|||Mean Systemic Arterial BP: Week 3||-0.91|-6.08|0.0087
82651193|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.92|STANDARD_ERROR_OF_MEAN|1.3||0.1424|TWO_SIDED|95.0|-4.5|0.66|||ANCOVA|||Mean Systemic Arterial BP: Week 3||0.66|-4.50|0.1424
82651194|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.58|STANDARD_ERROR_OF_MEAN|1.29||0.2277|TWO_SIDED|95.0|-4.15|1.0|||ANCOVA|||Mean Systemic Arterial BP: Week 3||1.00|-4.15|0.2277
82651195|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.81||0.1599|TWO_SIDED|95.0|-6.16|1.03|||ANCOVA|||Systolic Blood Pressure: Week 3||1.03|-6.16|0.1599
82480493|NCT02054481|164654560|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.6||||0.0355|TWO_SIDED|95.0|1.0|28.2|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|Week 12||28.2|1.0|0.0355
82651196|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.07|STANDARD_ERROR_OF_MEAN|1.8||0.5545|TWO_SIDED|95.0|-4.66|2.52|||ANCOVA|||Systolic Blood Pressure: Week 3||2.52|-4.66|0.5545
82651197|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.49|STANDARD_ERROR_OF_MEAN|1.8||0.4095|TWO_SIDED|95.0|-5.08|2.09|||ANCOVA|||Systolic Blood Pressure: Week 3||2.09|-5.08|0.4095
82651198|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.08|STANDARD_ERROR_OF_MEAN|1.21||0.0012|TWO_SIDED|95.0|-6.49|-1.67|||ANCOVA|||Diastolic Blood Pressure: Week 3||-1.67|-6.49|0.0012
82651199|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.98|STANDARD_ERROR_OF_MEAN|1.21||0.0159|TWO_SIDED|95.0|-5.38|-0.57|||ANCOVA|||Diastolic Blood Pressure: Week 3||-0.57|-5.38|0.0159
82651200|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.21||0.3627|TWO_SIDED|95.0|-3.51|1.3|||ANCOVA|||Diastolic Blood Pressure: Week 3||1.30|-3.51|0.3627
82651201|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.36|STANDARD_ERROR_OF_MEAN|1.16||0.0057|TWO_SIDED|95.0|-5.69|-1.03|||ANCOVA|||Mean Systemic Arterial BP: Week 6||-1.03|-5.69|0.0057
82651202|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.53|STANDARD_ERROR_OF_MEAN|1.16||0.6503|TWO_SIDED|95.0|-2.86|1.8|||ANCOVA|||Mean Systemic Arterial BP: Week 6||1.80|-2.86|0.6503
82651203|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.83|STANDARD_ERROR_OF_MEAN|1.16||0.0183|TWO_SIDED|95.0|-5.16|-0.5|||ANCOVA|||Mean Systemic Arterial BP: Week 6||-0.50|-5.16|0.0183
82651204|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.81|STANDARD_ERROR_OF_MEAN|1.53||0.0726|TWO_SIDED|95.0|-5.89|0.27|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||0.27|-5.89|0.0726
82651205|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.07|STANDARD_ERROR_OF_MEAN|1.53||0.9661|TWO_SIDED|95.0|-3.01|3.14|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||3.14|-3.01|0.9661
82651206|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.88|STANDARD_ERROR_OF_MEAN|1.53||0.0656|TWO_SIDED|95.0|-5.94|0.19|||ANCOVA|||Systolic Blood Pressure (SBP): Week 6||0.19|-5.94|0.0656
82651207|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.16|STANDARD_ERROR_OF_MEAN|1.11||0.0068|TWO_SIDED|95.0|-5.39|-0.92|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||-0.92|-5.39|0.0068
82651208|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.11||0.376|TWO_SIDED|95.0|-3.22|1.24|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||1.24|-3.22|0.3760
82651209|NCT00810732|165017191|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.16|STANDARD_ERROR_OF_MEAN|1.11||0.0572|TWO_SIDED|95.0|-4.4|0.07|||ANCOVA|||Diastolic Blood Pressure (DBP): Week 6||0.07|-4.40|0.0572
82651210|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.21||0.8823|TWO_SIDED|95.0|-0.39|0.45|||ANCOVA|||Week 3||0.45|-0.39|0.8823
82651211|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.21||0.9457|TWO_SIDED|95.0|-0.41|0.43|||ANCOVA|||Week 3||0.43|-0.41|0.9457
82651212|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.21||0.9358|TWO_SIDED|95.0|-0.4|0.44|||ANCOVA|||Week 3||0.44|-0.40|0.9358
82651213|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.19||0.0022|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Week 6||-0.25|-1.03|0.0022
82553646|NCT05828017|164812060|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.11|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.11
82553647|NCT05828017|164812061|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.52|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.52
82553648|NCT05828017|164812061|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.26|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.26
82553649|NCT05828017|164812062|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.16|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.16
82553650|NCT05828017|164812062|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.37|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.37
82581408|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Fisher Exact|||Week 24, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.474
82480494|NCT02054481|164654560|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.1||||0.0062|TWO_SIDED|95.0|6.0|36.2|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|Week 24||36.2|6.0|0.0062
82480495|NCT02054481|164654561|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.1||||0.0008|TWO_SIDED|95.0|11.3|42.9|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||42.9|11.3|0.0008
82480496|NCT02054481|164654562|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.1||||0.0706|TWO_SIDED|95.0|-0.8|21.1|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||21.1|-0.8|0.0706
82553651|NCT05828017|164812063|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.08|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.08
82553652|NCT05828017|164812063|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.31|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.31
82553653|NCT05828017|164812064|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.21|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.21
82553654|NCT05828017|164812064|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.085|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.085
82553655|NCT05828017|164812065|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.86|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.86
82553656|NCT05828017|164812065|SUPERIORITY||Mean Difference (Final Values)|0.0||||1|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||1
82553657|NCT05828017|164812066|SUPERIORITY||Mean Difference (Final Values)|0.607||||0.009|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve, variation #1, and no preference counts.||||0.009
82553658|NCT05828017|164812066|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.61|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in mean counts per participant between the standard curve and variation #1.||||0.61
82553659|NCT05828017|164812067|SUPERIORITY||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.11|1.0|||ANOVA|||This is to see if there is a difference in mean SRT50 scores between the standard curve, variation #1, and no preference counts.||1.00|0.11|<0.001
82553660|NCT05828017|164812067|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.357|TWO_SIDED|95.0|0.0|1.0|||ANOVA|||This is to see if there is a difference in SRT 50 scores between the standard curve and variation #1.||1|0|0.357
82553661|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.7|||<|0.01|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2, #3, and #4||||<0.01
82553662|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.01||||0.94|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2 and #3.||||0.94
82553663|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.014||||0.94|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in most preferred program counts between variations #2 and #4||||0.94
82553664|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.45||||0.017|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2, #3, and #4||||0.017
82553665|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.51||||0.02|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2 and #3.||||0.02
82553666|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.61||||0.006|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in somewhat preferred (i.e. rated in the middle) program counts between variations #2 and #4||||0.006
82553667|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.6|||<|0.0001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2, #3, and #4||||<.0001
82553668|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.38||||0.08|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2 and #3||||0.08
82553669|NCT05828017|164812068|SUPERIORITY||Total Count - Cramer's V|0.5|||<|0.001|TWO_SIDED||||||Chi-squared|||This is to see if there is a difference in the least preferred program counts between variations #2 and #4||||<0.001
82581409|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 24, non-adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82480497|NCT02054481|164654563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.8||||0.03|TWO_SIDED|95.0|1.9|37.7|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||37.7|1.9|0.0300
82581410|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||0.474|||||||Fisher Exact|||Week 24, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||0.474
82581411|NCT00768079|164874378|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Fisher Exact|||Week 24, adjudicated exacerbations: Fisher's exact test was used for statistical analysis.||||1.000
82581412|NCT01498679|164874395|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|51.0|||<|0.001|TWO_SIDED|95.0|42.2|59.7|||ANCOVA|||||59.7|42.2|<0.001
82581413|NCT00158860|164874413|SUPERIORITY||Kaplan-Meier estimates|27.3|||<|0.001|TWO_SIDED|95.0|16.0|38.6|||Log Rank|||||38.6|16.0|<0.001
82581414|NCT00158860|164874413|SUPERIORITY||Hazard Ratio (HR)|0.401|||<|0.001|TWO_SIDED|95.0|0.282|0.57|||Log Rank|||||0.570|0.282|<0.001
82581415|NCT00158860|164874414|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon rank sum test|||||||<0.001
82480498|NCT02054481|164654565|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.2||||0.0072|TWO_SIDED|95.0|5.7|36.6|||Cochran-Mantel-Haenszel|Adjusted for weight (=\<100kg vs \>100kg) \& prior exposure to 2 or more tumour necrosis factor antagonists with discontinuation due to lack of efficacy|Difference calculated as BI 90+180 mg minus Stelara|||36.6|5.7|0.0072
82480499|NCT02054481|164654566|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.1844|||<|0.0001|TWO_SIDED|95.0|0.1|0.4|||Log Rank|||||0.4|0.1|<0.0001
82480500|NCT02320903|164654578|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was 0.16.|||
82480501|NCT02320903|164654578|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.22.|||
82480502|NCT02320903|164654579|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.22.|||
82480503|NCT02320903|164654579|OTHER|What was the within-group change over time effect size?||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for teen report on this measure was d = 0.22.|||
82480504|NCT02320903|164654580|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.10.|||
82480505|NCT02320903|164654580|EQUIVALENCE|What was the within-group change over time effect size? (Cohen's d)||||||||||||||||Paired samples T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.28.|||
82480506|NCT02320903|164654581|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.16.|||
82480507|NCT02320903|164654581|EQUIVALENCE|What was the within-group change over time effect size? (Cohen's d)||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for youth report was d = 0.21.|||
82480508|NCT02320903|164654582|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?|||||||||||||Paired samples T test (change over time)|||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.62.|||
82480509|NCT02320903|164654582|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change over time for teens.|Cohen's d for youth report was d = 0.23.|||
82480510|NCT02320903|164654583|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.22.|||
82480511|NCT02320903|164654583|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired samples T tests were used to measure within-groups change over time for teens.|Cohen's d for youth report was d = 0.26.|||
82480512|NCT02320903|164654584|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d =.12.|||
82480513|NCT02320903|164654585|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.81.|||
82581416|NCT00964886|164874418|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANCOVA|||In an intent-to-treat analysis of all randomized participants assigned to experimental drug (desipramine) or active placebo (benztropine) an analysis of variance compared mean Descriptor Differential Scale scores at 12 weeks (or last observation carried forward) adjusted fro mean baseline score ( = ).||||0.7
82581417|NCT00964886|164874419|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|Means are adjusted for baseline Roland and Morris scores.||In the intent-to-treat sample of all randomized participants assigned to experimental drug (desipramine) or active placebo (benztropine) an analysis of variance (ANOVA) compared mean Roland and Morris scores at 12 weeks adjusted for mean baseline scores.||||0.84
82581418|NCT00964886|164874420|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANCOVA|||||||0.6
82581419|NCT00964886|164874421|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANCOVA|||This analysis compares outcomes for participants assigned at baseline to receive cognitive behavioral therapy or not to receive cognitive behavioral therapy (behavioral effect)||||0.8
82581420|NCT01871805|164874439|SUPERIORITY|||||||0.0056||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0056
82581421|NCT01871805|164874440|SUPERIORITY|||||||0.0251||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0251
82581422|NCT01871805|164874440|SUPERIORITY|||||||0.0203||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0203
82553670|NCT04070573|164812069|SUPERIORITY||Risk Difference (RD)|0.035||||0.28|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.28
82553671|NCT04070573|164812070|SUPERIORITY||Risk Difference (RD)|0.035||||0.31|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.31
82651214|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.8956|TWO_SIDED|95.0|-0.41|0.36|||ANCOVA|||Week 6||0.36|-0.41|0.8956
82480514|NCT02320903|164654586|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for parents over time.|Cohen's d for parent report on this measure was d = 0.43.|||
82480515|NCT02320903|164654587|EQUIVALENCE|What was the within-group change over time effect size (Cohen's d)?||||||||||||||||Paired sample T tests were used to measure change for teens over time.|Cohen's d for youth report on this measure was d = 24.|||
82480516|NCT03086967|164654597|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82480517|NCT03086967|164654598|SUPERIORITY|||||||0.133|||||||t-test, 2 sided|||||||0.133
82480518|NCT03086967|164654599|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82480519|NCT03086967|164654600|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82553672|NCT04070573|164812071|SUPERIORITY||Risk Difference (RD)|0.019||||0.61|TWO_SIDED||||||Chi-squared||Risk difference direction = 81mg arm minus 162mg arm.|||||0.61
82553673|NCT04070573|164812074|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.72|TWO_SIDED||||||t-test, 2 sided|||||||0.72
82553674|NCT02361216|164812122|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|6.29|||<|0.001|TWO_SIDED|95.0|2.82|14.0|||Cochran-Mantel-Haenszel|||AKclear100 at Week 8: full analysis set. The null hypothesis was that there is no difference at Week 8 in AKclear100 rates between ingenol mebutate gel 0.027% and vehicle gel. This hypothesis was tested against the 2-sided alternative of a difference between the 2 treatment groups.||14|2.82|<0.001
82553675|NCT02361216|164812123|SUPERIORITY||Ratio of clearance rates|6.81|||<|0.001|TWO_SIDED|95.0|4.16|11.1|||Cochran-Mantel-Haenszel||Mantel-Haenszel estimate (0.027% relative to vehicle), adjusted for pooled sites|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||11.1|4.16|<0.001
82651215|NCT00810732|165017192|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|-1.0|-0.23|||ANCOVA|||Week 6||-0.23|-1.00|0.0030
82651216|NCT04604184|165017193|OTHER||Risk Difference (RD)|-5.39||||0.3232|TWO_SIDED|95.0|-16.08|5.3|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||5.30|-16.08|0.3232
82480520|NCT03086967|164654601|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
82480521|NCT03086967|164654602|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82480522|NCT03086967|164654603|SUPERIORITY|||||||0.98|||||||Chi-squared|||||||0.98
82480523|NCT03086967|164654604|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|||||||0.95
82480524|NCT03086967|164654605|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82480525|NCT03086967|164654606|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82480526|NCT03086967|164654607|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||||||0.48
82480527|NCT01475071|164654632|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority margin of -10%|Mean Difference (Final Values)|-3.5|STANDARD_DEVIATION|15.6||0.0345|ONE_SIDED|95.0|-6.8||||paired Student's t statistic|||The primary purpose of this study is to demonstrate the non-inferiority of Metvix and daylight compared to Metvix and the lamp in terms of lesion complete response rate.|||-6.8|0.0345
82480528|NCT01475071|164654633|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_DEVIATION|2.7|<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|two-sided Wilcoxon rank signed||superiority of Metvix adaylight and Metvix Lamp in term of pain||||<0.001
82480529|NCT01437995|164654670|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.3|0.69|1.65||||||||1.65|0.69|
82480530|NCT01437995|164654671|SUPERIORITY_OR_OTHER|||||||0.43|||||||Kruskal-Wallis|||||||0.43
82553676|NCT02361216|164812124|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance rates|6.53|||<|0.001|TWO_SIDED|95.0|4.04|10.5|||Mantel Haenszel|||The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The pre-specified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.5|4.04|<0.001
82553677|NCT02361216|164812125|SUPERIORITY_OR_OTHER_LEGACY||Ratio of clearance|0.28|||<|0.001|TWO_SIDED|95.0|0.24|0.32||Negative binominal regression with log baseline count as offset variable and treatment group, anatomical location stratum and pooled site as factors.|Cochran-Mantel-Haenszel|||The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.32|0.24|<0.001
82553678|NCT05098158|164812131|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|3.9|||<|0.001|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||<0.001
82553679|NCT05098158|164812132|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|5.6||||0.003|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.003
82553680|NCT05098158|164812133|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|3.1||||0.011|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.011
82553681|NCT05098158|164812134|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|1.9||||0.168|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.168
82480531|NCT01437995|164654671|SUPERIORITY_OR_OTHER|||||||0.022|||||||Kruskal-Wallis|||||||0.022
82480532|NCT01437995|164654671|SUPERIORITY_OR_OTHER|||||||0.002|||||||Kruskal-Wallis|||||||0.002
82480533|NCT01437995|164654672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.63|1.41||||||||1.41|0.63|
82480534|NCT01437995|164654672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.8|1.73||||||||1.73|0.80|
82480535|NCT01437995|164654672|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.24|||||TWO_SIDED|95.0|0.83|1.81||||||||1.81|0.83|
82480536|NCT01437995|164654673|SUPERIORITY_OR_OTHER|||||||0.15|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||0.15
82480537|NCT01437995|164654673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||<0.001
82480538|NCT01437995|164654673|SUPERIORITY_OR_OTHER|||||||0.027|||||||Kruskal-Wallis|||Comparing change in pre-bronchodilator FEV1||||0.027
82480539|NCT01437995|164654673|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.40
82480540|NCT01437995|164654673|SUPERIORITY_OR_OTHER|||||||0.032|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.032
82480541|NCT01437995|164654673|SUPERIORITY_OR_OTHER|||||||0.21|||||||Kruskal-Wallis|||Comparison of change in pre-bronchodilator FVC||||0.21
82480542|NCT01437995|164654674|SUPERIORITY_OR_OTHER|||||||0.14|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||0.14
82480543|NCT01437995|164654674|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||<0.001
82480544|NCT01437995|164654674|SUPERIORITY_OR_OTHER|||||||0.031|||||||Kruskal-Wallis|||Comparison of change in FEV1/FVC ratio||||0.031
82480545|NCT04456673|164654679|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Risk Difference (RD)|-0.435||||0.0002|TWO_SIDED|95.0|-0.682|-0.188|||Negative binomial model||Derived using delta method|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), ICS dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.188|-0.682|0.0002
82480546|NCT04456673|164654680|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Least Square (LS) Mean Difference|0.082||||0.0001|TWO_SIDED|95.0|0.04|0.124|||MMRM model|||Derived from mixed-effect model with repeated measures (MMRM) model with the change from baseline in pre-bronchodilator FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-bronchodilator FEV1, and FEV1 baseline-by-visit interaction as covariates.||0.124|0.040|0.0001
82480547|NCT04456673|164654681|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|LS Mean Difference|-3.371||||0.0068|TWO_SIDED|95.0|-5.811|-0.931|||MMRM model|||Derived from MMRM model with the change from baseline in SGRQ total score up to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, treatment-by-visit interaction, baseline SGRQ total score, and SGRQ baseline-by-visit interaction as covariates.||-0.931|-5.811|0.0068
82480548|NCT04456673|164654682|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|Odds Ratio (OR)|1.164||||0.3329|TWO_SIDED|95.0|0.856|1.581|||Regression, Logistic|||Derived from logistic regression model which includes treatment group, region (pooled country), ICS dose, smoking status at screening, and baseline SGRQ total score as covariates.||1.581|0.856|0.3329
82480549|NCT04456673|164654683|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and first 4 secondary endpoints (reported sequentially) analyses at a 2-sided significance level of 0.05.|LS Mean Difference|0.062||||0.0182|TWO_SIDED|95.0|0.011|0.113|||MMRM model|||Derived from MMRM model with the change from baseline in pre-bronchodilator FEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-bronchodilator FEV1, and FEV1 baseline-by-visit interaction as covariates.||0.113|0.011|0.0182
82480550|NCT03874429|164654699|NON_INFERIORITY|Non- inferiority was demonstrated if the upper bound of the 95% CI was no higher than 2 points for the the difference of T2259 minus Vismed Multi.|Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.37|||TWO_SIDED|95.0|-0.42|1.05|||ANCOVA|||To assess the non inferiority of T2259 compared to Vismed Multi, two-sided 95% confidence interval from ANCOVA model was computed of the difference of T2259 minus Vismed Multi. The model was adjusted for the main effects of investigation product and baseline score.||1.05|-0.42|
82480551|NCT00775203|164654702|SUPERIORITY_OR_OTHER|||||||0.0119|||||||ANCOVA|ANCOVA with treatment and study center as categorical factors and HAMD-17 baseline as covariate.||The primary null hypothesis for the HAMD-17 total score is that there is no difference between the Trazodone Contramid® OAD group and the placebo group at Week 8. A sample size of 133 in each group will have 90% power to detect a difference in the absolute mean Hamilton Rating Scale for Depression (HAMD-17) change from baseline of 3.0 units assuming that the common standard deviation is 7.5 using a two-group t-test with a 0.05 two-sided significance level.||||0.0119
82480552|NCT04896229|164654718|SUPERIORITY||Slope|1.2|STANDARD_ERROR_OF_MEAN|0.52||0.022|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.022
82480553|NCT04896229|164654719|SUPERIORITY||Slope|0.09|STANDARD_ERROR_OF_MEAN|0.35||0.8|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.800
82480554|NCT04896229|164654720|SUPERIORITY||Slope|0.58|STANDARD_ERROR_OF_MEAN|0.49||0.235|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.235
82581423|NCT01871805|164874442|SUPERIORITY|||||||0.001||||||Tests null hypothesis that the response rate is equal to 35% versus the alternative hypothesis that the response rate is not equal to 35%.|Exact Clopper-Pearson CI, 2 sided|||||||0.0010
82581424|NCT03097484|164874475|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82480555|NCT04896229|164654721|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.3||0.325|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.325
82480556|NCT04896229|164654722|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.502|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.502
82480557|NCT04896229|164654723|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.02||0.005|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.005
82480558|NCT04896229|164654724|SUPERIORITY||Slope|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.712|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.712
82480559|NCT04896229|164654725|SUPERIORITY||Slope|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.245|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.245
82480560|NCT04896229|164654726|SUPERIORITY||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.282|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.282
82480561|NCT04896229|164654727|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.289|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.289
82480562|NCT04896229|164654728|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.296|TWO_SIDED||||||t-test, 2 sided|||The results show the condition x time interaction from the growth model, and the parameter estimate describes the relative change of the intervention condition to the treatment-as-usual condition, for a unit change in time.||||.296
82480563|NCT00329901|164654765|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus(Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group difference|9.0|||||TWO_SIDED|95.0|5.0|14.0||||||Non-inferiority of anti-diphtheria immune response following concomitant administration of Tdap with MenACWY-CRM as compared to Tdap given with placebo saline||14|5|
82480564|NCT00329901|164654765|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus(Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|1.0|||||TWO_SIDED|95.0|-1.0|2.0||||||Non-inferiority of anti-tetanus immune response following concomitant administration of Tdap with MenACWY-CRM compared to Tdap given concomitantly with saline placebo||2|-1|
82480565|NCT00329901|164654765|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0||||||Non-inferiority of anti-PT antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||1|-12|
82480566|NCT00329901|164654765|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|-3.0|||||TWO_SIDED|95.0|-9.0|3.0||||||Non-inferiority of anti-FHA antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||3|-9|
82480567|NCT00329901|164654765|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to Tdap + MenACWY-CRM was considered non-inferior to that of Tdap+saline if for all five antigens (diphtheria, tetanus, PT, FHA, PRN) the lower limit of the 95% CI of the difference \[(Tdap + MenACWY-CRM) minus (Tdap + saline)\] was greater than -10, at 1 month (Day 29) after vaccination|Vaccine Group Difference|-7.0|||||TWO_SIDED|95.0|-13.0|-2.0||||||Non-inferiority of anti-PRN antigen immune response following concomitant administration of Tdap with MenACWY as compared to Tdap given concomitantly with saline placebo||-2|-13|
82480568|NCT00992589|164654776|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.449||||0.168|TWO_SIDED|95.0|-1.087|0.19|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in daily average frequency of regurgitation from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.190|-1.087|0.168
82480569|NCT00992589|164654777|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.03||||0.44|TWO_SIDED|95.0|-0.047|0.108|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Double-blind (DB) Baseline as covariate to test the hypothesis of no difference in change in Weight-for-Age Z-Score from DB Baseline to DB Endpoint between Rabeprazole Sodium Total and Placebo.||0.108|-0.047|0.440
82581425|NCT03097484|164874476|SUPERIORITY|||||||0.05||||||0.05 is the calculated p-value (not the threshold for statistical significance)|t-test, 2 sided|||||||0.05
82581426|NCT00468104|164874478|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||A univariate analysis was done to identify possible predictors of successful resolution of symptoms. The chi-square analysis was used to compare the percent successful.||||<0.001
82480570|NCT00992589|164654779|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.006||||0.984|TWO_SIDED|95.0|-0.619|0.632|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Regurgitation Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.632|-0.619|0.984
82480571|NCT00992589|164654780|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.182||||0.479|TWO_SIDED|95.0|-0.69|0.325|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Discomfort Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.325|-0.690|0.479
82480572|NCT00992589|164654781|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.192||||0.498|TWO_SIDED|95.0|-0.751|0.366|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in weekly average I-GERQ-DD Eating Behavior Subscale Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||0.366|-0.751|0.498
82480573|NCT00992589|164654782|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.042||||0.96|TWO_SIDED|95.0|-1.615|1.7|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in I-GERQ-R Total Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||1.700|-1.615|0.960
82480574|NCT00992589|164654783|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|0.024||||0.968|TWO_SIDED|95.0|-1.167|1.214|||ANCOVA|||Analysis of Covariance with Treatment as fixed effect, Region and Age as stratification factors and Change from Open-label (OL) Baseline to OL Endpoint as covariate to test the hypothesis of no difference in change in Weekly Average I-GERQ-DD Total Score from Double-blind (DB) Baseline to DB Endpoint between rabeprazole sodium total and placebo.||1.214|-1.167|0.968
82480575|NCT01101308|164654823|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|102.0|||||TWO_SIDED|90.0|97.51|107.27|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||107.27|97.51|
82480576|NCT01101308|164654824|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|97.19|103.0|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||103.00|97.19|
82480577|NCT01101308|164654825|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|100.0|||||TWO_SIDED|90.0|97.14|102.99|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||102.99|97.14|
82480578|NCT02984943|164654826|OTHER|||||||0.1|||||||Skillings-Mack test|||||||0.10
82480579|NCT02984943|164654827|OTHER|||||||0.1|||||||Skillings-Mack test|||||||0.10
82480580|NCT02984943|164654828|OTHER|||||||0.02|||||||Skillings-Mack test|||||||0.02
82480581|NCT02984943|164654829|OTHER|||||||0.02|||||||Skillings-Mack test|||||||0.02
82480582|NCT02984943|164654830|OTHER|||||||0.004|||||||Skillings-Mack test|||||||0.004
82480583|NCT02984943|164654831|OTHER|||||||0.004|||||||Skillings-Mack test|||||||0.004
82480584|NCT02984943|164654832|OTHER|||||||0.2938|||||||Skillings-Mack test|||||||0.2938
82480585|NCT02984943|164654833|OTHER|||||||0.2938|||||||Skillings-Mack test|||||||0.2938
82480586|NCT02984943|164654834|OTHER|||||||0.0608|||||||Skillings-Mack test|||||||0.0608
82553682|NCT05098158|164812135|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|1.1||||0.456|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.456
82553683|NCT05098158|164812136|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|0.8||||0.517|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.517
82553684|NCT05098158|164812137|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Net)|3.2||||0.012|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest data||||0.012
82480587|NCT02984943|164654835|OTHER|||||||0.0608|||||||Skillings-Mack test|||||||0.0608
82480588|NCT02984943|164654836|OTHER|||||||0.1496|||||||Skillings-Mack test|||||||0.1496
82480589|NCT02984943|164654837|OTHER|||||||0.1496|||||||Skillings-Mack test|||||||0.1496
82480590|NCT02984943|164654838|OTHER|||||||0.36|||||||Skillings-Mack test|||||||0.36
82480591|NCT02984943|164654839|OTHER|||||||0.36|||||||Skillings-Mack test|||||||0.36
82480592|NCT02984943|164654840|OTHER|||||||0.0012|||||||Skillings-Mack test|||||||0.0012
82480593|NCT02984943|164654841|OTHER|||||||0.0012|||||||Skillings-Mack test|||||||0.0012
82480594|NCT02984943|164654842|OTHER|||||||0.9|||||||Skillings-Mack test|||||||0.90
82480595|NCT02984943|164654843|OTHER|||||||0.9|||||||Skillings-Mack test|||||||0.90
82480596|NCT02984943|164654844|OTHER|||||||0.0068|||||||Skillings-Mack test|||||||0.0068
82480597|NCT02984943|164654845|OTHER|||||||0.0068|||||||Skillings-Mack test|||||||0.0068
82480598|NCT02984943|164654846|OTHER|||||||0.0183|||||||Skillings-Mack test|||||||0.0183
82480599|NCT02984943|164654847|OTHER|||||||0.0183|||||||Skillings-Mack test|||||||0.0183
82480600|NCT02984943|164654848|OTHER|||||||0.08|||||||Skillings-Mack test|||||||0.08
82581427|NCT01670760|164874514|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.69||||0.69|TWO_SIDED||||||ANOVA|||||||0.69
82553685|NCT05098158|164812138|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Net)|0.3||||0.811|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||||||0.811
82553686|NCT05098158|164812139|EQUIVALENCE|Paired t tests had .05 set as level of significance to reject null hypothesis. Sample powered to generate effect size for future studies.|Mean Difference (Final Values)|0.1||||0.941|TWO_SIDED|||||Actual p value results above; Not adjusted due to pilot study aim to generate effect size comparing pre and posttest data|t-test, 2 sided|||Paired t tests of pre and posttest dat||||0.941
82553687|NCT05098158|164812140|OTHER|Descriptive statistics to report the percentage of offered telehealth sessions that were attended \[#attended/#offered = % attended\]|percentage|95.8|||||TWO_SIDED|||||||||||||
82553688|NCT05452460|164812142|SUPERIORITY||Mean Difference (Final Values)|0.11|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in RT as the outcome, with Group as the factor, and pre-test condition difference in RT as the covariate.||||||> 0.05
82553689|NCT05452460|164812143|SUPERIORITY||Mean Difference (Final Values)|0.18|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in ACC the outcome, with Group as the factor, and pre-test condition difference in ACC as the covariate.||||||> .05
82553690|NCT05452460|164812144|SUPERIORITY||Mean Difference (Final Values)|0.32|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in N2 the outcome, with Group as the factor, and pre-test condition difference in N2 as the covariate.||||||> 0.05
82581428|NCT00741390|164874590|SUPERIORITY_OR_OTHER||Percentage|99.59||||||95.0|98.09|99.59||||||||99.59|98.09|
82581429|NCT00741390|164874590|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|98.79|100.0||||||||100|98.79|
82553691|NCT05452460|164812145|SUPERIORITY||Mean Difference (Final Values)|0.71|||>|0.05|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in P3 the outcome, with Group as the factor, and pre-test condition difference in P3 as the covariate.||||||> 0.05
82553692|NCT05452460|164812146|SUPERIORITY||Mean Difference (Final Values)|13.35|||<|0.01|TWO_SIDED||||||ANCOVA|ANCOVA with post-test condition difference in TTE the outcome, with Group as the factor, and pre-test condition difference in TTE as the covariate.|\[F(1, 52) = 13.35, p = .001, ηp2 = .211\]|||||< 0.01
82553693|NCT05452460|164812147|SUPERIORITY||Mean Difference (Final Values)|0.02|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in VO2max Covariate: Pre-test condition difference in VO2max||||||> 0.05
82553694|NCT05452460|164812148|SUPERIORITY||Mean Difference (Final Values)|38.76|||<|0.01|TWO_SIDED||||||ANOVA|Four-way mixed-design ANOVA: 2 (GROUP) × 2 (CONDITION) × 3 (ASSESSMENT TIME) × 2 (Experiment Phase)||||||< 0.01
82553695|NCT05452460|164812149|SUPERIORITY||Mean Difference (Final Values)|9.21|||<|0.01|TWO_SIDED|||||The main effect of the Stroop block on accuracy showed a decrease from the first block to the fifth block.|ANOVA|Four-way mixed-design ANOVA: 2 (GROUP) × 2 (CONDITION) × 5 (BLOCK) × 2 (Phase)||||||< 0.01
82553696|NCT05452460|164812150|SUPERIORITY||Mean Difference (Final Values)|7.07|||<|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test mean score Covariate: Pre-test mean score||||||< 0.05
82553697|NCT05452460|164812151|SUPERIORITY||Mean Difference (Final Values)|1.37|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed anger Covariate: Pre-test condition difference in changed anger||||||> 0.05
82553698|NCT05452460|164812152|SUPERIORITY||Mean Difference (Final Values)|2.73|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
82553699|NCT05452460|164812153|SUPERIORITY||Mean Difference (Final Values)|0.07|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed depression Covariate: Pre-test condition difference in changed depression||||||> 0.05
82553700|NCT05452460|164812154|SUPERIORITY||Mean Difference (Final Values)|0.2|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed fatigue Covariate: Pre-test condition difference in changed fatigue||||||> 0.05
82553701|NCT05452460|164812155|SUPERIORITY||Mean Difference (Final Values)|0.01|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
82553702|NCT05452460|164812156|SUPERIORITY||Mean Difference (Final Values)|0.66|||>|0.05|TWO_SIDED||||||ANCOVA|Factor: Group Outcome: Post-test condition difference in changed confusion Covariate: Pre-test condition difference in changed confusion||||||> 0.05
82553703|NCT02010242|164812158|SUPERIORITY|All statistical analyses were performed on a comparison-wise basis without adjustment for multiple comparisons.||||||1|||||||ANCOVA|||Primary efficacy endpoint was analyzed using ANCOVA comparing GKT137831 vs placebo after controlling for the baseline UACR level. The UACR were log-transformed prior to analysis. The model included treatment group and log-transformed baseline UACR value as predicted variables. The results were back-transformed exponentially to calculate geo. mean values and associated 90% CIs and 1-sided p-values. The null hypothesis was that the difference in the adjusted mean logarithm of UACR was equal to 0||||1.000
82553704|NCT03676192|164812166|EQUIVALENCE|The similarity criterion had been set such that the confidence limits of the 95% confidence interval (CI) of the difference of ORR from each treatment group was entirely bounded by the interval (-12.5, 12.5).|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-7.02|7.83||||||Logistic regression model including treatment groups (CT-P16 and EU-approved Avastin) as a fixed effect and region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as covariates was used.||7.83|-7.02|
82581430|NCT00741390|164874590|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|97.61|100.0||||||||100|97.61|
82581431|NCT00741390|164874590|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|95.36|100.0||||||||100|95.36|
82581432|NCT00741390|164874590|SUPERIORITY_OR_OTHER||Percentage|100.0||||||95.0|95.13|100.0||||||||100|95.13|
82581433|NCT00741390|164874591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.84|||<|0.001||95.0|6.8|10.84|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||10.84|6.80|<0.001
82581434|NCT00741390|164874591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.55||||0.003||95.0|3.63|8.55|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||8.55|3.63|0.003
82553705|NCT03676192|164812166|EQUIVALENCE|The similarity criterion had been set such that the confidence limits of the 90% confidence interval (CI) of the ratio of ORR from each treatment group was entirely bounded by the interval (0.7368, 1.3572).|Risk Ratio (RR)|1.0136|||||TWO_SIDED|90.0|0.8767|1.1719||||||Log-binomial regression model including treatment groups (CT-P16 and EU-approved Avastin) as a fixed effect and region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as covariates was used.||1.1719|0.8767|
82553706|NCT03676192|164812169|OTHER||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.1||||||Adjusted stratified Cox regression model is used to estimate the hazard ratio and its 95% CI for receiving CT-P16 compared with receiving EU-approved Avastin using region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as stratification factors.||1.10|0.77|
82553707|NCT03676192|164812170|OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.77|1.19||||||Adjusted stratified Cox regression model is used to estimate the hazard ratio and its 95% CI for receiving CT-P16 compared with receiving EU-approved Avastin using region (EMEA vs. America vs. Asia), sex (female vs. male), disease status at baseline (recurrence vs. metastatic), and ECOG performance score at baseline (0 vs. 1) as stratification factors.||1.19|0.77|
82553708|NCT04731129|164812173|SUPERIORITY|||||||0.023||||||threshold for statistical significance \< 0.05|Fisher Exact|||Abnormal tissular architecture||||0.023
82553709|NCT04731129|164812173|SUPERIORITY|||||||0.01||||||Threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell size||||0.01
82553710|NCT04731129|164812173|SUPERIORITY|||||||0.01||||||threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell shape||||0.01
82553711|NCT04731129|164812173|SUPERIORITY|||||||0.013||||||threshold for statistical significance \< 0.05|Fisher Exact|||Homogeneous cell fluorescence||||0.013
82553712|NCT04731129|164812173|SUPERIORITY|||||||0.16||||||threshold for statistical significance \< 0.05|Fisher Exact|||Blood vessel dysplasia||||0.16
82553713|NCT04731129|164812173|SUPERIORITY|||||||0.17||||||threshold for statistical significance \< 0.05|Fisher Exact|||Organized conjunctive fibers||||0.17
82553714|NCT04731129|164812173|SUPERIORITY|||||||0.049||||||threshold for statistical significance \< 0.05|Fisher Exact|||Full chia seed sign||||0.049
82480601|NCT02984943|164654849|OTHER|||||||0.08|||||||Skillings-Mack test|||||||0.08
82553715|NCT04731129|164812173|SUPERIORITY|||||||0.0041||||||threshold for statistical significance \< 0.05|Fisher Exact|||General physician conclusion||||0.0041
82553716|NCT03386578|164812185|OTHER||Incidence rate ratio|1.62|||||TWO_SIDED|95.0|0.89|2.94||||||The incidence rate ratio of cumulative maternal adverse events was calculated between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and the PrEP-unexposed (Cohort 2/Step 1) reference group based on incidence per person-time follow-up. Maternal participants in Cohort 2/Step 2 contributed person-time to both Cohort 2/Step 1 and Step 2.||2.94|0.89|
82553717|NCT03386578|164812186|OTHER||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.52|1.5||||||Odds ratio comparing the proportion of mothers with adverse pregnancy outcomes between the PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 1) reference group.||1.50|0.52|
82553718|NCT03386578|164812186|OTHER|||||||0.68|||||||Fisher Exact|||Test the differences in the proportion of mothers with adverse pregnancy outcomes between PrEP-exposed (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 2) groups.||||0.68
82553719|NCT03386578|164812187|OTHER||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|0.7|2.38||||||The incidence rate ratio of cumulative infant AEs between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed (Cohort 2/Step 1) reference group was based on incidence per person-time follow-up. Cohort 2/Step 2 infants contributed person-time to both Cohort 2/Step 1 and Step 2.||2.38|0.70|
82553720|NCT03386578|164812188|OTHER|||||||0.18|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant whole-body bone mineral content (WB-BMC) at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.18
82553721|NCT03386578|164812189|OTHER|||||||0.39|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant lumbar-spine bone mineral content (WB-BMC) at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.39
82553722|NCT03386578|164812190|OTHER|||||||0.12|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant lumbar-spine bone mineral content (WB-BMC) at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.12
82553723|NCT03386578|164812191|OTHER|||||||0.7|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine levels at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.70
82553724|NCT03386578|164812192|OTHER|||||||0.58|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine levels at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.58
82581435|NCT00741390|164874591|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.46||95.0|-3.57|0.23|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||0.23|-3.57|0.460
82480602|NCT02984943|164654850|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480603|NCT02984943|164654851|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480604|NCT02984943|164654852|OTHER||||||||||||||||||Descriptive statistics only were used|||
82553725|NCT03386578|164812193|OTHER|||||||0.08|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine clearance rate at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.08
82553726|NCT03386578|164812194|OTHER|||||||0.52|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant creatinine clearance rate at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1)||||0.52
82553727|NCT03386578|164812195|OTHER|||||||0.3|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant length-for-age z-score at birth between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.30
82581436|NCT00741390|164874592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.9||||0.017||95.0|1.14|4.9|||ANOVA|A general linear model with subject as a random effect and order within a pair as a fixed effect was fit to each study group.||||4.90|1.14|0.017
82553728|NCT03386578|164812196|OTHER|||||||0.06|||||||t-test, 2 sided|||A two-sample t-test was used to evaluate the difference in mean infant length-for-age z-score at week 26 between PrEP-exposed group (Cohort 1 and Cohort 2/Step 2) and PrEP-unexposed group (Cohort 2/Step 1).||||0.06
82553729|NCT03386578|164812197|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82553730|NCT01868997|164812222|SUPERIORITY||Odds Ratio (OR)|8.86|||<|0.001|TWO_SIDED|95.0|3.293|23.825||Odds ratio, 95% confidence interval, and P-value are obtained from a logistic regression model with treatment and smoking status as covariates.|Regression, Logistic|||||23.825|3.293|< 0.001
82553731|NCT01868997|164812223|SUPERIORITY||Difference in Least Squares Mean|10.97|STANDARD_ERROR_OF_MEAN|3.221||0.001|TWO_SIDED|95.0|4.561|17.375|||Mixed-Model Repeated Measures|||||17.375|4.561|0.001
82553732|NCT01868997|164812224|SUPERIORITY||Difference in Least Squares Mean|-2.31|STANDARD_ERROR_OF_MEAN|0.269|<|0.001|TWO_SIDED|95.0|-2.843|-1.772|||Mixed-Model Repeated Measures|||||-1.772|-2.843|< 0.001
82553733|NCT01868997|164812225|SUPERIORITY||Difference in Least Squares Mean|-1.59|STANDARD_ERROR_OF_MEAN|0.245|<|0.001|TWO_SIDED|95.0|-2.073|-1.098|||Mixed-Model Repeated Measures|||||-1.098|-2.073|< 0.001
82553734|NCT01868997|164812226|SUPERIORITY||Difference in Least Squares Mean|14.16|STANDARD_ERROR_OF_MEAN|3.827|<|0.001|TWO_SIDED|95.0|6.549|21.773|||Mixed-Model Repeated Measures|||||21.773|6.549|< 0.001
82553735|NCT01868997|164812227|SUPERIORITY||Difference in Least Squares Mean|6.32|STANDARD_ERROR_OF_MEAN|3.81||0.101|TWO_SIDED|95.0|-1.255|13.901|||Mixed-Model Repeated Measures|||||13.901|-1.255|0.101
82581437|NCT00741390|164874593|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.001
82581438|NCT00741390|164874593|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.002
82651217|NCT04604184|165017194|OTHER||Risk Difference (RD)|-9.86||||0.1274|TWO_SIDED|95.0|-22.54|2.82|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||2.82|-22.54|0.1274
82651218|NCT04604184|165017195|OTHER||Risk Difference (RD)|2.66||||0.6828|TWO_SIDED|95.0|-10.11|15.43|||Regression, Logistic|includes treatment, age, severity grade and creatinine at baseline, duration of symptoms before hospitalisation as covariates||||15.43|-10.11|0.6828
82651219|NCT04604184|165017196|OTHER||Rate Ratio|0.67||||0.0445|TWO_SIDED|95.0|0.46|0.99|||Regression, Cox|Covariates are treatment, age, severity grade and creatinine at baseline and duration of symptoms before hospitalization||||0.99|0.46|0.0445
82553736|NCT01960452|164812228|OTHER|Group comparison, for absolute (spatially z-score normalized across all electrodes for each subject)||||||0.2791|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.2791
82553737|NCT01960452|164812228|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.9|||||||t-test, 2 sided|||||||0.9
82553738|NCT01960452|164812229|OTHER|Group comparison, for both absolute (spatially z-score normalized across all electrodes for each subject)||||||0.1069|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.1069
82553739|NCT01960452|164812229|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.546|||||||t-test, 2 sided|||||||0.546
82553740|NCT01960452|164812230|OTHER|Group comparison, for absolute (spatially z-score normalized across all electrodes for each subject)||||||0.2918|||||||t-test, 2 sided|||Only reporting values for approximate 10-20 channel CP1||||0.2918
82553741|NCT01960452|164812230|OTHER|Group comparison, for absolute multiple comparisons correction across electrodes using threshold free cluster enhancement (TFCE)||||||0.761|||||||t-test, 2 sided|||||||0.761
82553742|NCT06415292|164812237|SUPERIORITY||||||<|0.001||||||The P-value reported here is the calculated p-value. The p-value theshold for significance was p =0.05|t-test, 2 sided|||||||<0.001
82553743|NCT04778397|164812239|SUPERIORITY||Stratified Hazard Ratio|1.132||||0.507|TWO_SIDED|95.0|0.783|1.637|||Stratified log-rank test|P-value from stratified log-rank test.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors (appropriateness for non-intensive therapy vs intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites)).|1.637|0.783|0.5070
82553744|NCT04778397|164812240|SUPERIORITY||Stratified Hazard Ratio|1.183||||0.3237|TWO_SIDED|95.0|0.845|1.654|||Stratified Log-rank test|P-value from stratified log-rank test.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors (appropriateness for non-intensive therapy vs intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites)).|1.654|0.845|0.3237
82553745|NCT04778397|164812241|SUPERIORITY||Stratified Hazard Ratio|1.389||||0.0661|TWO_SIDED|95.0|1.043|1.848|||Stratified Log-rank test|P-value for comparing the event free survival functions from the two treatment groups was from stratified log-rank test, adjusted for randomization.|||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors: therapy appropriateness, age (\< 75 years, \>=75 years), geographic region (US sites, outside the US sites).|1.848|1.043|0.0661
82553746|NCT04778397|164812242|SUPERIORITY||Stratified Odds Ratio|0.25|||||TWO_SIDED|95.0|0.123|0.506|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.506|0.123|
82553747|NCT04778397|164812243|SUPERIORITY||Stratified Odds Ratio|0.072|||||TWO_SIDED|95.0|0.009|0.559|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.559|0.009|
82480605|NCT02984943|164654853|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480606|NCT02984943|164654854|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480607|NCT02984943|164654855|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480608|NCT02984943|164654856|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480609|NCT02984943|164654858|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480610|NCT02984943|164654859|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480611|NCT02984943|164654860|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480612|NCT02984943|164654862|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480613|NCT02984943|164654863|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480614|NCT02984943|164654864|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480615|NCT02984943|164654865|OTHER||||||||||||||||||Descriptive statistics only were used|||
82480616|NCT00711516|164654870|SUPERIORITY_OR_OTHER||Median Difference (Net)|-241.8||||0.7382|TWO_SIDED|95.0|-2470.0|2102.3||The hierarchical testing procedure was employed to control the studywise error rate at 0.05.|Wilcoxon (Mann-Whitney)|The assumption of normality was violated (p-value ≤0.05), therefore the treatment comparison was made using a Wilcoxon rank-sum test.||Using the standardized difference of 1.10, 28 evaluable patients (14 per treatment group) were required to provide 80% power while controlling the 2-sided, Type 1 error rate at 0.05. With an estimated 25% attrition rate, a total of 38 patients (19 per group) were planned. First analyzed using ANCOVA,the residuals were used to test for normality using Shapiro-Wilk; normality was violated therefore treatment comparison used the Wilcoxon rank sum.||2102.3|-2470.0|0.7382
82480617|NCT00711516|164654871|SUPERIORITY_OR_OTHER||Median Difference (Net)|53.2||||0.1661|TWO_SIDED|95.0|-17.8|136.1|||Wilcoxon (Mann-Whitney)|||The statistical hypothesis for this key secondary efficacy variable was to be tested using the same model as specified for the primary objective efficacy variable (ANCOVA, ANOVA, and Wilcoxon as appropriate). All statistical tests were 2 tailed at the 0.05 level of significance.||136.1|-17.8|0.1661
82480618|NCT00711516|164654872|SUPERIORITY_OR_OTHER||Median Difference (Net)|78.9||||0.5774|TWO_SIDED|95.0|-157.8|311.3|||Wilcoxon (Mann-Whitney)|||||311.3|-157.8|0.5774
82651220|NCT04604184|165017197|OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.35||0.5526|TWO_SIDED|95.0|-3.47|1.87|||ANCOVA|Fixed effects of treatment, age, severity grade and creatinine at baseline and duration of symptoms before hospitalisation as covariates|Difference = covariate adjusted BI 764198 - covariate adjusted Placebo|||1.87|-3.47|0.5526
82651221|NCT04604184|165017198|OTHER||Risk Difference (RD)|5.32||||0.0995|TWO_SIDED|95.0|-1.01|11.65|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 15||11.65|-1.01|0.0995
82480619|NCT00711516|164654873|SUPERIORITY_OR_OTHER||Median Difference (Net)|90.1||||0.861|TWO_SIDED|95.0|-806.7|707.0|||Wilcoxon (Mann-Whitney)|||||707.0|-806.7|0.8610
82480620|NCT00711516|164654874|SUPERIORITY_OR_OTHER||Median Difference (Net)|252.8||||0.6907|TWO_SIDED|95.0|-1066.5|1523.8|||Wilcoxon (Mann-Whitney)|||||1523.8|-1066.5|0.6907
82480621|NCT00711516|164654875|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.2456|TWO_SIDED|95.0|-8.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-8.0|0.2456
82480622|NCT00711516|164654876|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.7115|TWO_SIDED|95.0|-8.0|9.0|||Wilcoxon (Mann-Whitney)|||||9.0|-8.0|0.7115
82480623|NCT00711516|164654877|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.0||||0.6103|TWO_SIDED|95.0|-13.0|19.0|||Wilcoxon (Mann-Whitney)|||||19.0|-13.0|0.6103
82480624|NCT00711516|164654878|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.9619|TWO_SIDED|95.0|-18.0|17.0|||Wilcoxon (Mann-Whitney)|||||17.0|-18.0|0.9619
82480625|NCT00711516|164654879|SUPERIORITY_OR_OTHER||Median Difference (Net)|-335.5||||0.4544|TWO_SIDED|95.0|-1270.7|723.3|||Wilcoxon (Mann-Whitney)|||||723.3|-1270.7|0.4544
82480626|NCT00711516|164654880|SUPERIORITY_OR_OTHER||Median Difference (Net)|6410.3||||0.0193|TWO_SIDED|95.0|1064.7|12087.3|||Wilcoxon (Mann-Whitney)|||||12087.3|1064.7|0.0193
82480627|NCT00711516|164654881|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1704|TWO_SIDED|95.0|-0.1|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.1|0.1704
82480628|NCT00711516|164654882|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.2||||0.0609|TWO_SIDED|95.0|-0.3|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|-0.3|0.0609
82480629|NCT00711516|164654883|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.9||||0.0499|TWO_SIDED|95.0|-5.8|0.0||Nominal P-value for treatment comparison is from an analysis of covariance (ANCOVA) with treatment and center as factors and the baseline value as covariate.|ANCOVA|||Hierarchical testing procedure was used to control the studywise error rate at 0.05. If treatment was statistically significant on the primary variable, the key secondary variable would be claimed as significant if p-value was \<= 0.05. If primary and key secondary variables were significant subsequent secondary variables following the order presented here would be claimed as significant if their p-values were \<= 0.05. If any were \>0.05 subsequent p-values would be reported as nominal p-values.||-0.0|-5.8|0.0499
82480630|NCT00711516|164654884|SUPERIORITY_OR_OTHER|||||||0.7343||95.0|||||Fisher Exact|||||||0.7343
82480631|NCT00711516|164654885|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.2||||0.1246|TWO_SIDED|95.0|-1.8|14.3||P-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment and center as factors and the baseline value as a covariate.|ANCOVA|||||14.3|-1.8|0.1246
82480632|NCT00711516|164654886|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.026||||0.7382|TWO_SIDED|95.0|-21.684|19.98|||Wilcoxon (Mann-Whitney)|||||19.980|-21.684|0.7382
82480633|NCT00711516|164654887|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.086||||1|TWO_SIDED|95.0|-19.195|25.043|||Wilcoxon (Mann-Whitney)|||||25.043|-19.195|1.000
82480634|NCT00711516|164654888|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.282||||0.8861|TWO_SIDED|95.0|-11.46|14.77|||Wilcoxon (Mann-Whitney)|||||14.770|-11.460|0.8861
82480635|NCT00711516|164654889|SUPERIORITY_OR_OTHER||Median Difference (Net)|11.825||||0.4738|TWO_SIDED|95.0|-12.601|37.987|||Wilcoxon (Mann-Whitney)|||||37.987|-12.601|0.4738
82480636|NCT00711516|164654890|SUPERIORITY_OR_OTHER|||||||0.0573||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||Pearson's correlation coefficient was used to assess the relationship between fMRI variable and performance on the 2-back working memory test||||0.0573
82480637|NCT00711516|164654890|SUPERIORITY_OR_OTHER|||||||0.0754||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.0754
82480638|NCT00711516|164654891|SUPERIORITY_OR_OTHER|||||||0.2727||95.0|||||Pearson's Correlation Coefficient|||||||0.2727
82480639|NCT00711516|164654891|SUPERIORITY_OR_OTHER|||||||0.5671||95.0|||||Pearson's Correlation Coefficient|||||||.5671
82480640|NCT00711516|164654892|SUPERIORITY_OR_OTHER|||||||0.1169||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1169
82553748|NCT04778397|164812244|SUPERIORITY||Stratified Odds Ratio|0.215|||||TWO_SIDED|95.0|0.108|0.428|||||||Odds ratio and 2-sided 95% CI were calculated from stratum-adjusted Mantel-Haenszel estimates adjusted for randomization stratification factors (appropriateness for non-intensive therapy versus intensive therapy, age (\< 75 years, \>=75 years), geographic region (US sites, outside US sites)).|0.428|0.108|
82553749|NCT01627574|164812272|SUPERIORITY||Risk Ratio, log|0.281|STANDARD_ERROR_OF_MEAN|0.07|>|0.05|TWO_SIDED|95.0|0.056|1.42|||Chi-squared, Corrected|||||1.42|.056|>.05
82553750|NCT05233800|164812278|SUPERIORITY||Mean Difference (Net)|5.83|||<|0.05|TWO_SIDED|95.0|3.84|7.81|||Mixed Models Analysis|||||7.81|3.84|<0.05
82553751|NCT04487860|164812285|SUPERIORITY|||||||0.7905|||||||ANCOVA|||||||0.7905
82553752|NCT04487860|164812285|SUPERIORITY|||||||0.7372|||||||ANCOVA|||||||0.7372
82553753|NCT04487860|164812285|SUPERIORITY|||||||0.2989|||||||ANCOVA|||||||0.2989
82553754|NCT04487860|164812285|SUPERIORITY|||||||0.3328|||||||ANCOVA|||||||0.3328
82553755|NCT04487860|164812286|SUPERIORITY|||||||0.8989|||||||ANCOVA|||||||0.8989
82553756|NCT04487860|164812286|SUPERIORITY|||||||0.6768|||||||ANCOVA|||||||0.6768
82553757|NCT04487860|164812286|SUPERIORITY|||||||0.8209|||||||ANCOVA|||||||0.8209
82553758|NCT04487860|164812286|SUPERIORITY|||||||0.3106|||||||ANCOVA|||||||0.3106
82553759|NCT04487860|164812287|SUPERIORITY|||||||0.8593|||||||ANCOVA|||||||0.8593
82553760|NCT04487860|164812287|SUPERIORITY|||||||0.9594|||||||ANCOVA|||||||0.9594
82553761|NCT04487860|164812287|SUPERIORITY|||||||0.9041|||||||ANCOVA|||||||0.9041
82553762|NCT04487860|164812287|SUPERIORITY|||||||0.7147|||||||ANCOVA|||||||0.7147
82553763|NCT04359654|164812300|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82553764|NCT04359654|164812301|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82480641|NCT00711516|164654892|SUPERIORITY_OR_OTHER|||||||0.1634||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1634
82480642|NCT00711516|164654893|SUPERIORITY_OR_OTHER|||||||0.0692||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.0692
82553765|NCT04359654|164812303|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82553766|NCT04359654|164812304|SUPERIORITY|||||||0.021|||||||Mixed Models Analysis|||The reported LS means are antilogs of the LS means estimated on the log scale.||||0.021
82553767|NCT06122194|164812305|OTHER||Ratio of Adjusted Geometric Means|112.15|||||TWO_SIDED|90.0|93.01|135.22||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90 percent (%) confidence intervals (CIs) were expressed as percentages.||135.22|93.01|
82553768|NCT06122194|164812305|OTHER||Ratio of Adjusted Geometric Means|187.37|||||TWO_SIDED|90.0|155.79|225.35||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||225.35|155.79|
82553769|NCT06122194|164812305|OTHER||Ratio of Adjusted Geometric Means|153.61|||||TWO_SIDED|90.0|127.4|185.21||||||Natural log transformed Cmax for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||185.21|127.40|
82553770|NCT06122194|164812306|OTHER||Ratio of Adjusted Geometric Means|102.59|||||TWO_SIDED|90.0|91.09|115.54||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||115.54|91.09|
82553771|NCT06122194|164812306|OTHER||Ratio of Adjusted Geometric Means|125.07|||||TWO_SIDED|90.0|110.81|141.17||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||141.17|110.81|
82553772|NCT06122194|164812306|OTHER||Ratio of Adjusted Geometric Means|121.75|||||TWO_SIDED|90.0|108.65|136.43||||||Natural log transformed AUCinf for PF-07817883 were analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect in Periods 1 to 4. The ratio (Test/Reference) and 90% CIs were expressed as percentages.||136.43|108.65|
82553773|NCT05218096|164812317|OTHER|Difference|Difference|-7.1||||0.6797|TWO_SIDED|90.0|-28.8|15.0|||Barnard's Unconditional Exact Test||CI calculated using the Chan and Zhang method.|||15.0|-28.8|0.6797
82553774|NCT05218096|164812317|OTHER|Difference|Difference|-7.1||||0.7341|TWO_SIDED|90.0|-34.8|19.3|||Barnard's Unconditional Exact Test||CI calculated using the Chan and Zhang method.|||19.3|-34.8|0.7341
82553775|NCT04685135|164812324|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.45|0.76|||Log Rank|HR and CI are from stratified Cox proportional hazard model||||0.76|0.45|<0.0001
82553776|NCT04685135|164812326|SUPERIORITY||Odds Ratio (OR)|4.68|||<|0.0001|TWO_SIDED|95.0|2.56|8.56|||Cochran Mantel Haenszel chi-square test|||||8.56|2.56|<0.0001
82553777|NCT03655028|164812399|SUPERIORITY|||||||0.85||||||The co-variate used in the analysis was the 6 minute walk distance at baseline.|ANCOVA|||||||0.85
82553778|NCT03655028|164812400|SUPERIORITY|||||||0.307||||||The co-variant used to adjust the ANCOVA was the baseline step count/day.|ANCOVA|||||||.307
82553779|NCT03655028|164812401|SUPERIORITY|||||||0.106||||||this comparison is made between distance walked during 6MW at 12 weeks and distance walked during 6MW at 24 weeks|ANCOVA|||||||0.106
82553780|NCT03655028|164812402|SUPERIORITY|||||||0.26||||||Baseline PCS score was used at the co-variate|ANCOVA|||||||0.26
82553781|NCT03655028|164812403|SUPERIORITY|||||||0.85||||||Covariate was baseline MCS score|ANCOVA|||||||0.85
82553782|NCT03655028|164812404|SUPERIORITY|||||||0.025|||||||t-test, 2 sided|||||||0.025
82651222|NCT04604184|165017198|OTHER||Risk Difference (RD)|6.06||||0.1992|TWO_SIDED|95.0|-3.19|15.31|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 29||15.31|-3.19|0.1992
82651223|NCT04604184|165017198|OTHER||Risk Difference (RD)|8.93||||0.0709|TWO_SIDED|95.0|-0.76|18.62|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 60||18.62|-0.76|0.0709
82651224|NCT04604184|165017198|OTHER||Risk Difference (RD)|10.35||||0.0412|TWO_SIDED|95.0|0.41|20.28|||Regression, Logistic|Includes treatment, age, severity grade and creatinine at baseline, and duration of symptoms before hospitalisation as covariates||Day 90||20.28|0.41|0.0412
82651225|NCT01769378|165017199|SUPERIORITY_OR_OTHER||LS Squares Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.57|-0.97|||Mixed Models Analysis|||||-0.97|-1.57|<0.001
82651226|NCT01769378|165017200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.37|||<|0.001|TWO_SIDED|95.0|3.82|33.84|||Regression, Logistic|Sequential gatekeeping strategy was used to adjust for multiplicity.||\<7.0% HbA1c||33.84|3.82|<0.001
82651227|NCT01769378|165017200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.45|||<|0.001|TWO_SIDED|95.0|3.71|35.34|||Regression, Logistic|||≤6.5% HbA1c||35.34|3.71|<0.001
82651228|NCT01769378|165017201|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-33.54|STANDARD_ERROR_OF_MEAN|6.6|<|0.001|TWO_SIDED|95.0|-46.55|-20.53|||ANCOVA|Sequential gatekeeping strategy was used to adjust for multiplicity.||||-20.53|-46.55|<0.001
82651229|NCT01769378|165017202|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.43||0.12|TWO_SIDED|95.0|-1.53|0.18|||Mixed Models Analysis|Sequential gatekeeping strategy was used to adjust for multiplicity.||||0.18|-1.53|0.120
82651230|NCT01769378|165017203|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.161|TWO_SIDED|95.0|-0.54|0.09||No adjustment for multiplicity|Mixed Models Analysis|||||0.09|-0.54|0.161
82651231|NCT01769378|165017204|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-28.95|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-38.49|-19.4|||Mixed Models Analysis|||||-19.40|-38.49|<0.001
82651232|NCT00678392|165017223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665|||<|0.0001|TWO_SIDED|95.0|0.544|0.812||P-value was obtained from 1-sided log rank test, stratified by eastern cooperative oncology group (ECOG) and prior treatment. One-sided log-rank test at 0.025 level of significance was used to compare PFS between the 2 treatment arms.|Log Rank|||||0.812|0.544|<0.0001
82480643|NCT00711516|164654893|SUPERIORITY_OR_OTHER|||||||0.8876||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.8876
82480644|NCT00711516|164654894|SUPERIORITY_OR_OTHER|||||||0.603||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.6030
82553783|NCT05256654|164812418|SUPERIORITY||Mean Difference (Net)|-2.8|STANDARD_ERROR_OF_MEAN|6.92||0.691|TWO_SIDED|95.0|-15.5|11.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (Triglycerides (TG) \<250 milligram per deciliter (mg/dL) or \>=250 mg/dL at screening), and the interaction between treatment and time.|||11.9|-15.5|0.691
82651233|NCT00678392|165017224|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.969||||0.3744|TWO_SIDED|95.0|0.8|1.174|||Log Rank|P-value was obtained from a 1-sided log-rank test of treatment stratified by ECOG performance status and prior treatment.||||1.174|0.800|0.3744
82651234|NCT00678392|165017225|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.056||||0.0001|TWO_SIDED|95.0|1.408|3.003|||Cochran-Mantel-Haenszel|P-value was obtained from a 1-sided Cochran-Mantel-Haenszel test of treatment stratified by ECOG performance status and prior treatment.||||3.003|1.408|0.0001
82651235|NCT05117099|165017272|SUPERIORITY|||||||0.548|||||||ANOVA|||||||.548
82651236|NCT05117099|165017274|SUPERIORITY|||||||0.915|||||||ANOVA|||||||.915
82480645|NCT00711516|164654894|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||<.0001
82651237|NCT05117099|165017275|SUPERIORITY|||||||0.663|||||||ANOVA|||||||.663
82651238|NCT05117099|165017276|SUPERIORITY|||||||0.138|||||||ANOVA|||||||.138
82651239|NCT05117099|165017277|SUPERIORITY|||||||0.114|||||||ANOVA|||||||.114
82651240|NCT05117099|165017278|SUPERIORITY|||||||0.065|||||||ANOVA|||||||.065
82651241|NCT05117099|165017279|SUPERIORITY|||||||0.394|||||||ANOVA|||||||.394
82651242|NCT05117099|165017280|SUPERIORITY|||||||0.388|||||||ANOVA|||||||.388
82651243|NCT05117099|165017281|SUPERIORITY|||||||0.332|||||||ANOVA|||||||.332
82651244|NCT02784106|165017282|SUPERIORITY||Difference in Proportion of Responders|0.1|||||TWO_SIDED|80.0|-0.07|0.25||||||||0.25|-0.07|
82651245|NCT02784106|165017283|SUPERIORITY||Difference in Mean Changes|-1.93|||||TWO_SIDED|80.0|-5.54|1.69||||||||1.69|-5.54|
82651246|NCT02784106|165017284|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.13|0.06||||||Day 28||0.06|-0.13|
82480646|NCT00711516|164654895|SUPERIORITY_OR_OTHER|||||||0.917||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's Z-transformation.||||||0.9170
82651247|NCT02784106|165017284|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.18|0.09||||||Day 56||0.09|-0.18|
82651248|NCT02784106|165017284|SUPERIORITY||Difference in Proportion of Responders|-0.01|||||TWO_SIDED|80.0|-0.15|0.12||||||Day 84||0.12|-0.15|
82651249|NCT02784106|165017285|SUPERIORITY||Difference in Proportion of Responders|0.06|||||TWO_SIDED|80.0|0.01|0.14||||||Day 28||0.14|0.01|
82651250|NCT02784106|165017285|SUPERIORITY||Difference in Proportion of Responders|0.03|||||TWO_SIDED|80.0|-0.05|0.11||||||Day 56||0.11|-0.05|
82651251|NCT02784106|165017285|SUPERIORITY||Difference in Proportion of Responders|-0.04|||||TWO_SIDED|80.0|-0.15|0.07||||||Day 84||0.07|-0.15|
82651252|NCT02784106|165017286|SUPERIORITY||Difference in Mean Changes|-1.4|||||TWO_SIDED|80.0|-5.37|2.58||||||||2.58|-5.37|
82651253|NCT02784106|165017287|SUPERIORITY||Difference in Mean Changes|-0.08|||||TWO_SIDED|80.0|-0.33|0.16||||||Day 28||0.16|-0.33|
82651254|NCT02784106|165017287|SUPERIORITY||Difference in Mean Changes|0.07|||||TWO_SIDED|80.0|-0.29|0.43||||||Day 84||0.43|-0.29|
82651255|NCT02784106|165017288|SUPERIORITY||Difference in Proportion of Participants|0.08|||||TWO_SIDED|80.0|-0.04|0.21||||||||0.21|-0.04|
82651256|NCT02784106|165017289|SUPERIORITY||Difference in Proportion of Participants|-0.04|||||TWO_SIDED|80.0|-0.13|0.06||||||||0.06|-0.13|
82480647|NCT00711516|164654895|SUPERIORITY_OR_OTHER|||||||0.9642||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||.9642
82480648|NCT00711516|164654896|SUPERIORITY_OR_OTHER|||||||0.7813||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.7813
82480649|NCT00711516|164654896|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.1560
82480650|NCT00711516|164654897|SUPERIORITY_OR_OTHER|||||||0.901||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.9010
82480651|NCT00711516|164654897|SUPERIORITY_OR_OTHER|||||||0.0135||95.0|||||Pearson's Correlation Coefficient|The SAS CORR procedure was used to analyze the activation performance relationships. All estimations are based on Fisher's z-transformation.||||||0.0135
82480652|NCT00711516|164654906|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.841||||0.7053|TWO_SIDED|95.0|-27.778|19.313|||Wilcoxon (Mann-Whitney)|||||19.313|-27.778|0.7053
82480653|NCT00711516|164654907|SUPERIORITY_OR_OTHER||Median Difference (Net)|4.792||||0.5163|TWO_SIDED|95.0|-30.631|16.19|||Wilcoxon (Mann-Whitney)|||||16.190|-30.631|0.5163
82480654|NCT00711516|164654908|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.108||||0.8711|TWO_SIDED|95.0|-14.341|5.498|||Wilcoxon (Mann-Whitney)|||||5.498|-14.341|0.8711
82480655|NCT00711516|164654909|SUPERIORITY_OR_OTHER||Median Difference (Net)|13.855||||0.1825||95.0|-15.357|25.714|||Wilcoxon (Mann-Whitney)|||||25.714|-15.357|0.1825
82480656|NCT00711516|164654910|SUPERIORITY_OR_OTHER||Median Difference (Net)|-323.5||||0.9282|TWO_SIDED|95.0|-9311.0|2375.5|||Wilcoxon (Mann-Whitney)|||||2375.5|-9311.0|0.9282
82480657|NCT00711516|164654911|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.0||||1|TWO_SIDED|95.0|-1069.0|426.0|||Wilcoxon (Mann-Whitney)|||||426.0|-1069.0|1.0000
82480658|NCT00711516|164654912|SUPERIORITY_OR_OTHER||Median Difference (Net)|-82.8||||0.5284|TWO_SIDED|95.0|-788.0|165.5|||Wilcoxon (Mann-Whitney)|||||165.5|-788.0|0.5284
82480659|NCT00711516|164654913|SUPERIORITY_OR_OTHER||Median Difference (Net)|-145.8||||0.8997|TWO_SIDED|95.0|-3151.0|1006.5|||Wilcoxon (Mann-Whitney)|||||1006.5|-3151.0|0.8997
82480660|NCT00711516|164654914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.1||||0.1305|TWO_SIDED|95.0|-58.2|8.0|||ANCOVA|||||8.0|-58.2|0.1305
82480661|NCT01895361|164654924|OTHER||Hodges-Lehmann median absolute diff.|-1.01|||=|0.01|TWO_SIDED|95.0|-2.0|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crisis history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|-2.00|= 0.010
82480662|NCT01895361|164654924|OTHER||Hodges-Lehmann median absolute diff.|-0.69|||=|0.18|TWO_SIDED|95.0|-1.84|0.02|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.02|-1.84|= 0.180
82480663|NCT01895361|164654925|OTHER||Change vs placebo (%)|-45.3|||||ONE_SIDED|||||||||||||
82480664|NCT01895361|164654925|OTHER||Change vs placebo (%)|-32.6|||||ONE_SIDED|||||||||||||
82480665|NCT01895361|164654926|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.45|TWO_SIDED|95.0|-4.36|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|-4.36|= 0.450
82480666|NCT01895361|164654926|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.837|TWO_SIDED|95.0|-3.9|2.61|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||2.61|-3.90|= 0.837
82480667|NCT01895361|164654927|OTHER||Hazard Ratio (HR)|0.495|||=|0.001|TWO_SIDED|95.0|0.331|0.741|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||0.741|0.331|= 0.001
82480668|NCT01895361|164654927|OTHER||Hazard Ratio (HR)|0.752|||=|0.136|TWO_SIDED|95.0|0.515|1.097|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||1.097|0.515|= 0.136
82480669|NCT01895361|164654928|OTHER||Hazard Ratio (HR)|0.534|||=|0.022|TWO_SIDED|95.0|0.329|0.866|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||0.866|0.329|= 0.022
82480670|NCT01895361|164654928|OTHER||Hazard Ratio (HR)|0.693|||=|0.1|TWO_SIDED|95.0|0.44|1.092|||Log Rank||Calculated based on Cox regression analysis with HU therapy (yes, no), categorized crises history (2 to 4, 5 to 10), and treatment as covariates|||1.092|0.440|= 0.100
82480671|NCT01895361|164654929|OTHER||Hodges-Lehmann median absolute diff.|-1.0|||=|0.015|TWO_SIDED|95.0|-1.98|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|-1.98|= 0.015
82480672|NCT01895361|164654929|OTHER||Hodges-Lehmann median absolute diff.|-0.87|||=|0.12|TWO_SIDED|95.0|-1.77|0.0|||Stratified Wilcoxon Rank Sum Test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|-1.77|= 0.120
82480673|NCT01895361|164654930|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.78|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata||||0.00|0.00|= 0.780
82480674|NCT01895361|164654930|OTHER||Hodges-Lehmann median absolute diff.|0.0|||=|0.868|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum test|with HU therapy (yes, no) and categorized crises history (2 to 4, 5 to 10) as recorded in the IXRS system as the strata.||||0.00|0.00|= 0.868
82480675|NCT01860846|164654947|SUPERIORITY_OR_OTHER||||||=|0.004||||||Baseline vs. 12 months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||=0.004
82480676|NCT01860846|164654948|SUPERIORITY_OR_OTHER||||||=|0.022||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||= 0.022
82480677|NCT01860846|164654949|SUPERIORITY_OR_OTHER||||||=|0.006||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||= 0.006
82480678|NCT01860846|164654950|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||The null hypothesis was set as no difference.||||< 0.001
82480679|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Physical Functioning Scores: the null hypothesis was set as no difference.||||< 0.001
82480680|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Role-Physical Scores: the null hypothesis was set as no difference.||||< 0.001
82480681|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||=|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Role-Emotional Scores: the null hypothesis was set as no difference.||||= 0.001
82480682|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||=|0.019||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Vitality Scores: the null hypothesis was set as no difference.||||= 0.019
82480683|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||=|0.017||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Mental Health Scores: the null hypothesis was set as no difference.||||= 0.017
82480684|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||=|0.007||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Social Functioning Scores: the null hypothesis was set as no difference.||||= 0.007
82480685|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Bodily Pain Scores: the null hypothesis was set as no difference.||||< 0.001
82480686|NCT01860846|164654951|SUPERIORITY_OR_OTHER||||||=|0.005||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||General Health Scores: the null hypothesis was set as no difference.||||= 0.005
82480687|NCT01860846|164654952|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Bowel-related Symptoms Scores: The null hypothesis was set as no difference.||||< 0.001
82480688|NCT01860846|164654952|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Systemic Symptoms Scores:The null hypothesis was set as no difference.||||< 0.001
82480689|NCT01860846|164654952|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Emotional Function Scores: the null hypothesis was set as no difference.||||< 0.001
82553784|NCT05256654|164812418|SUPERIORITY||Mean Difference (Net)|-14.3|STANDARD_ERROR_OF_MEAN|4.98||0.008|TWO_SIDED|95.0|-23.6|-3.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-3.9|-23.6|0.008
82553785|NCT05256654|164812418|SUPERIORITY||Mean Difference (Net)|-8.3|STANDARD_ERROR_OF_MEAN|5.36||0.14|TWO_SIDED|95.0|-18.3|2.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.9|-18.3|0.140
82553786|NCT05256654|164812419|SUPERIORITY||Mean Difference (Net)|-54.3|STANDARD_ERROR_OF_MEAN|5.08|<|0.001|TWO_SIDED|95.0|-63.3|-43.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.1|-63.3|<.001
82553787|NCT05256654|164812419|SUPERIORITY||Mean Difference (Net)|-69.8|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-74.8|-63.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-63.9|-74.8|<.001
82480690|NCT01860846|164654952|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline vs. 12 Months|Wilcoxon signed-ranked test|||Social Function Scores: The null hypothesis was set as no difference.||||< 0.001
82480691|NCT01856764|164654956|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.496||0.276|TWO_SIDED|95.0|-1.5542|0.4574||Mixed Model Repeated Measures (MMRM) Model: SCORAD change from baseline = treatment + visit + treatment by visit interaction + baseline SCORAD score|Mixed Models Analysis|||||0.4574|-1.5542|0.276
82480692|NCT01856764|164654957|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.91|STANDARD_ERROR_OF_MEAN|3.454||0.095|TWO_SIDED|95.0|-12.9134|1.0835||MMRM model: TEWL change from baseline = treatment + visit + treatment by visit interaction + baseline TEWL score|Mixed Models Analysis|||||1.0835|-12.9134|0.095
82480693|NCT01856764|164654958|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.596||0.013|TWO_SIDED|95.0|-2.7656|-0.3492||MMRM model: Assessment of Pruritus change from baseline = treatment + visit + treatment by visit interaction + baseline Assessment of Pruritus score|Mixed Models Analysis|||||-0.3492|-2.7656|0.013
82480694|NCT02239120|164654959|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1028|TWO_SIDED|95.0|0.69|1.03|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.03|0.69|0.1028
82480695|NCT02239120|164654960|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.1076|TWO_SIDED|95.0|0.94|1.97|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.97|0.94|0.1076
82480696|NCT02239120|164654961|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0892|TWO_SIDED|95.0|0.68|1.03|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.03|0.68|0.0892
82480697|NCT02239120|164654962|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1911|TWO_SIDED|95.0|0.73|1.06|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.06|0.73|0.1911
82480698|NCT02239120|164654963|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0354|TWO_SIDED|95.0|0.36|0.96|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||0.96|0.36|0.0354
82480699|NCT02239120|164654964|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.8074|TWO_SIDED|95.0|0.66|1.38|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.38|0.66|0.8074
82651257|NCT01952574|165017367|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|-1.12||||0.021|TWO_SIDED|95.0|-2.06|-0.17|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||-0.17|-2.06|0.021
82651258|NCT01952574|165017367|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|-0.1||||0.83|TWO_SIDED|95.0|-1.07|0.86|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||0.86|-1.07|0.83
82651259|NCT01952574|165017367|SUPERIORITY|To maintain the type I error at ≤ 0.05, the pairwise comparison was tested in a sequential testing procedure in the order of erenumab 70 mg vs placebo, 21 mg vs placebo, and 7 mg vs placebo. The lower dose group was only to be tested when the higher dose group was tested as significant.|LS Mean Difference|0.11||||0.82|TWO_SIDED|92.0|-0.83|1.05|||Generalized Linear Mixed Model|||The primary analysis utilized a generalized linear mixed model which included treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||1.05|-0.83|0.82
82651260|NCT01952574|165017368|SUPERIORITY||Odds Ratio (OR)|2.0||||0.011|TWO_SIDED|95.0|1.17|3.42|||Generalised Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one percent change from baseline value in monthly migraine days (152 participants in the placebo group and 104 in the erenumab 70 mg group)||3.42|1.17|0.011
82651261|NCT01952574|165017368|SUPERIORITY||Odds Ratio (OR)|1.25||||0.44|TWO_SIDED|95.0|0.71|2.18|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one change from baseline value in monthly migraine days (152 participants in the placebo group and 99 in the erenumab 21 mg group)||2.18|0.71|0.44
82651262|NCT01952574|165017368|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8|TWO_SIDED|95.0|0.53|1.63|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, stratification factor region, and baseline value as covariates.||The generalized linear mixed model includes data for all participants in the efficacy analysis set with at least one change from baseline value in monthly migraine days (152 participants in the placebo group and 107 in the erenumab 7 mg group)||1.63|0.53|0.80
82651263|NCT01952574|165017369|SUPERIORITY||LS Mean Difference|-0.4||||0.13|TWO_SIDED|95.0|-0.92|0.12|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.12|-0.92|0.13
82651264|NCT01952574|165017369|SUPERIORITY||LS Mean Difference|0.02||||0.95|TWO_SIDED|95.0|-0.51|0.54|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.54|-0.51|0.95
82651265|NCT01952574|165017369|SUPERIORITY||LS Mean Difference|0.37||||0.16|TWO_SIDED|95.0|-0.14|0.87|||Generalized Linear Mixed Model|Generalized linear mixed model including treatment, visit, treatment by visit, the stratification factor region, and baseline value as covariates.||||0.87|-0.14|0.16
82651266|NCT00770991|165017382|SUPERIORITY_OR_OTHER|||||||0.065|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||All patients received BRB suppositories and were pooled for the analysis comparing baseline and end of study polyp counts.||||0.065
82651267|NCT00770991|165017383|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0|||||Chi-squared|||||||0.016
82651268|NCT00770991|165017384|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.043
82480700|NCT02239120|164654965|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9064|TWO_SIDED|95.0|0.58|1.83|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.83|0.58|0.9064
82480701|NCT02239120|164654967|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.4352|TWO_SIDED|95.0|0.49|1.36|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.36|0.49|0.4352
82480702|NCT02239120|164654968|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.0003|TWO_SIDED|95.0|1.12|1.47|||Regression, Cox|Covariates in model are age(\<or\>= 75years), creatinine clearance \< or \>= 50mL/min and stroke or transient ischaemic attack(TIA) prior to index stroke.||||1.47|1.12|0.0003
82553788|NCT05256654|164812419|SUPERIORITY||Mean Difference (Net)|-76.6|STANDARD_ERROR_OF_MEAN|2.13|<|0.001|TWO_SIDED|95.0|-80.4|-72.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-72.0|-80.4|<.001
82651269|NCT02444533|165017395|SUPERIORITY|||||||0.043|||||||t-test, 2 sided|||Comparison between groups for pain on day of surgery. Statistical significance was defined as a p-value less than 0.05.||||0.043
82651270|NCT02444533|165017395|SUPERIORITY|||||||0.445|||||||t-test, 2 sided|||Comparison between groups for pain at 14 days after surgery. Statistical significance was defined as a p-value less than 0.05.||||0.445
82651271|NCT02444533|165017396|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||Comparison between groups for ibuprofen usage. Statistical significance was defined as a p-value less than 0.05.||||0.650
82651272|NCT02444533|165017396|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Comparison between groups for acetaminophen usage. Statistical significance was defined as a p-value less than 0.05.||||0.970
82651273|NCT02444533|165017396|SUPERIORITY|||||||0.835|||||||t-test, 2 sided|||Comparison between groups for oxycodone usage. Statistical significance was defined as a p-value less than 0.05.||||0.835
82651274|NCT02444533|165017397|SUPERIORITY|||||||1|||||||t-test, 2 sided|||Comparison between groups at 7 days. Statistical significance was defined as a p-value less than 0.05.||||1.0
82651275|NCT00947765|165017436|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82553789|NCT05256654|164812420|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|7.24||0.854|TWO_SIDED|95.0|-14.6|14.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||14.0|-14.6|0.854
82480703|NCT00046891|164654973|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||t-test, 2 sided|||Total HSCS Area Under the Curve (AUC) scores between the two treatment arms.||||0.84
82480704|NCT01514370|164654984|OTHER|||||||0.271|||||||Chi-squared|||||||0.271
82480705|NCT00604214|164655015|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.088||||0.313|TWO_SIDED|95.0|0.923|1.283||No adjustment for multiple comparisons.|Chi-squared|||The study was planned to have 80% power to detect a 20% relative risk reduction in 28-day all-cause mortality in drotrecogin alpha (activated) compared to placebo. The final power was 75% because of the lower than anticipated placebo mortality.||1.283|0.923|0.313
82480706|NCT00604214|164655016|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.54|TWO_SIDED|95.0|0.737|1.173||No adjustments for multiple comparisons.|Chi-squared|||||1.173|0.737|0.540
82480707|NCT00604214|164655017|SUPERIORITY_OR_OTHER|||||||0.181||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.181
82480708|NCT00604214|164655018|SUPERIORITY_OR_OTHER|||||||0.733||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.733
82480709|NCT00604214|164655019|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||No adjustments for multiple comparisons.|ANOVA|||||||0.122
82480710|NCT00604214|164655020|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.042||||0.556|TWO_SIDED|95.0|0.909|1.193||No adjustments for multiple comparisons.|Chi-squared|||||1.193|0.909|0.556
82480711|NCT00604214|164655021|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.758|TWO_SIDED|95.0|0.898|1.16||No adjustments for multiple comparisons.|Chi-squared|||||1.160|0.898|0.758
82480712|NCT00604214|164655023|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-value is for Baseline, unadjusted for multiple comparisons.|ANOVA|||||||0.788
82480713|NCT00604214|164655023|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value is for Day 28, unadjusted for multiple comparisons.|ANOVA|||||||0.730
82480714|NCT00604214|164655023|SUPERIORITY_OR_OTHER|||||||0.662||95.0||||P-value is for Day 90, unadjusted for multiple comparisons.|ANOVA|||||||0.662
82480715|NCT00604214|164655023|SUPERIORITY_OR_OTHER|||||||0.846||95.0||||P-value is for Day 180, unadjusted for multiple comparisons.|ANOVA|||||||0.846
82553790|NCT05256654|164812420|SUPERIORITY||Mean Difference (Net)|-16.8|STANDARD_ERROR_OF_MEAN|4.98||0.002|TWO_SIDED|95.0|-26.0|-6.4|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-6.4|-26.0|0.002
82553791|NCT05256654|164812420|SUPERIORITY||Mean Difference (Net)|-12.1|STANDARD_ERROR_OF_MEAN|5.28||0.033|TWO_SIDED|95.0|-21.9|-1.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-1.1|-21.9|0.033
82553792|NCT05256654|164812421|SUPERIORITY||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|4.03||0.143|TWO_SIDED|95.0|-13.8|2.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.2|-13.8|0.143
82651276|NCT00947765|165017437|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82480716|NCT00604214|164655024|SUPERIORITY_OR_OTHER|||||||0.697||95.0||||P-value is for Baseline, unadjusted for multiple comparisons.|ANOVA|||||||0.697
82480717|NCT00604214|164655024|SUPERIORITY_OR_OTHER|||||||0.306||95.0||||P-value is for Day 28, unadjusted for multiple comparisons.|ANOVA|||||||0.306
82480718|NCT00604214|164655024|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||P-value is for Day 90, unadjusted for multiple comparisons.|ANOVA|||||||0.645
82480719|NCT00604214|164655024|SUPERIORITY_OR_OTHER|||||||0.69||95.0||||P-value is for Day 180, unadjusted for multiple comparisons.|ANOVA|||||||0.690
82480720|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||P-value is for physical component at Baseline, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.482
82480721|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.584||95.0||||P-value is for physical component at Day 28, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.584
82480722|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-value is for physical component at Day 90, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.164
82480723|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.666||95.0||||P-value is for physical component at Day 180, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.666
82480724|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.786||95.0||||P-value is for mental component at Baseline, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.786
82480725|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is for mental component at Day 28, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.160
82480726|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||P-value is for mental component at Day 90, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.696
82480727|NCT00604214|164655025|SUPERIORITY_OR_OTHER|||||||0.966||95.0||||P-value is for mental component at Day 180, unadjusted for multiple comparisons.|ANOVA|||Analysis on ranked data.||||0.966
82480728|NCT00604214|164655026|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||P-value is for participants with ≥1 event. No adjustments for multiple comparisons.|Fisher Exact|||||||0.758
82480729|NCT00604214|164655027|SUPERIORITY_OR_OTHER|||||||0.154||95.0||||Unadjusted for multiple comparisons.|Fisher Exact|||||||0.154
82499106|NCT05355805|164689214|SUPERIORITY||Risk Difference (RD)|8.63|STANDARD_ERROR_OF_MEAN|8.78||0.3258|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR50."||||0.3258
82651277|NCT00947765|165017438|SUPERIORITY_OR_OTHER|||||||0.0022||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0022
82480730|NCT03386253|164655067|SUPERIORITY|||||||0.77||||||Group x time p value|ANOVA|||||||0.77
82480731|NCT03493815|164655068|SUPERIORITY||Risk Ratio (RR)|0.73||||0.51|TWO_SIDED|95.0|0.28|1.9|||binary regression w/ comp log-log link||Ultrasound guided is the numerator and traditional is the denominator.|||1.90|0.28|0.51
82480732|NCT03493815|164655069|SUPERIORITY||Risk Ratio (RR)|0.58||||0.41|TWO_SIDED|95.0|0.15|2.18|||binary regression w/ comp log-log link||Ultrasound guided is the numerator and traditional is the denominator.|||2.18|0.15|0.41
82480733|NCT03493815|164655070|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
82480734|NCT03493815|164655071|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
82480735|NCT02415842|164655222|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 21. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.12|||||TWO_SIDED|95.0|0.73|1.72|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.72|0.73|
82480736|NCT02415842|164655222|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.23|||||TWO_SIDED|95.0|0.83|1.81|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.81|0.83|
82480737|NCT02415842|164655222|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H1N1\_AS over H1N1\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|0.88|||||TWO_SIDED|95.0|0.63|1.24|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.24|0.63|
82480738|NCT02415842|164655223|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 21 . Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.66|||||TWO_SIDED|95.0|1.12|2.47|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.47|1.12|
82480739|NCT02415842|164655223|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|2.16|||||TWO_SIDED|95.0|1.54|3.03|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||3.03|1.54|
82480740|NCT02415842|164655223|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.95|||||TWO_SIDED|95.0|1.49|2.54|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.54|1.49|
82480741|NCT02415842|164655223|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H5N1\_AS over H5N1\_NAS) at Day 385 . Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.63|||||TWO_SIDED|95.0|1.32|2.01|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||2.01|1.32|
82480742|NCT02415842|164655224|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 21. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.39|||||TWO_SIDED|95.0|1.14|1.69|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.69|1.14|
82480743|NCT02415842|164655224|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 42. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.49|||||TWO_SIDED|95.0|1.28|1.73|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.73|1.28|
82480744|NCT02415842|164655224|EQUIVALENCE|Adjusted GMC ratios of anti-H1 HA stalk ELISA antibody concentration between groups (H9N2\_AS over H9N2\_NAS) at Day 182. Adjusted GMC = GMC adjusted for baseline concentration.|Adjusted GMC ratio|1.2|||||TWO_SIDED|95.0|1.0|1.44|||ANCOVA|ANCOVA model on logarithm10 transformation of concentration, with vaccine group as fixed effect and anti- H1 stalk ELISA result at Day 0 as covariates||||1.44|1.00|
82480745|NCT02415842|164655225|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|10.79|||||TWO_SIDED|95.0|-16.5|36.83|||Asymptotic standardized 95% CI|||||36.83|-16.50|
82480746|NCT02415842|164655225|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|12.0|||||TWO_SIDED|95.0|-14.45|36.98|||Asymptotic standardized 95% CI|||||36.98|-14.45|
82480747|NCT02415842|164655225|EQUIVALENCE|Difference between groups (H1N1\_AS minus H1N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|-6.07|||||TWO_SIDED|95.0|-30.56|18.65|||Asymptotic standardized 95% CI|||||18.65|-30.56|
82480748|NCT02415842|164655226|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|27.08|||||TWO_SIDED|95.0|5.96|47.01|||Asymptotic standardized 95% CI|||||47.01|5.96|
82480749|NCT02415842|164655226|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|36.65|||||TWO_SIDED|95.0|11.41|57.53|||Asymptotic standardized 95% CI|||||57.53|11.41|
82553793|NCT05256654|164812421|SUPERIORITY||Mean Difference (Net)|-16.4|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-22.0|-10.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-10.5|-22.0|<.001
82553794|NCT05256654|164812421|SUPERIORITY||Mean Difference (Net)|-22.7|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-27.9|-17.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-17.2|-27.9|<.001
82553795|NCT05256654|164812422|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|5.55||0.068|TWO_SIDED|95.0|-21.1|0.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||0.9|-21.1|0.068
82553796|NCT05256654|164812422|SUPERIORITY||Mean Difference (Net)|-25.5|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-32.6|-17.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-17.6|-32.6|<.001
82553797|NCT05256654|164812422|SUPERIORITY||Mean Difference (Net)|-23.8|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-31.1|-15.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-15.7|-31.1|<.001
82553798|NCT05256654|164812423|SUPERIORITY||Mean Difference (Net)|-36.3|STANDARD_ERROR_OF_MEAN|5.21|<|0.001|TWO_SIDED|95.0|-45.8|-25.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-25.1|-45.8|<.001
82553799|NCT05256654|164812423|SUPERIORITY||Mean Difference (Net)|-50.3|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-56.4|-43.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.3|-56.4|<.001
82553800|NCT05256654|164812423|SUPERIORITY||Mean Difference (Net)|-52.5|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-58.4|-45.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-45.9|-58.4|<.001
82553801|NCT05256654|164812424|SUPERIORITY||Mean Difference (Net)|-38.6|STANDARD_ERROR_OF_MEAN|7.76|<|0.001|TWO_SIDED|95.0|-52.2|-21.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-21.2|-52.2|<.001
82553802|NCT05256654|164812424|SUPERIORITY||Mean Difference (Net)|-54.0|STANDARD_ERROR_OF_MEAN|4.69|<|0.001|TWO_SIDED|95.0|-62.4|-43.8|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-43.8|-62.4|<.001
82553803|NCT05256654|164812424|SUPERIORITY||Mean Difference (Net)|-63.6|STANDARD_ERROR_OF_MEAN|3.72|<|0.001|TWO_SIDED|95.0|-70.3|55.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||55.5|-70.3|<.001
82651278|NCT00947765|165017439|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
82651279|NCT00947765|165017440|SUPERIORITY_OR_OTHER|||||||0.0127||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0127
82553804|NCT05256654|164812425|SUPERIORITY||Mean Difference (Net)|-4.1|STANDARD_ERROR_OF_MEAN|5.99||0.506|TWO_SIDED|95.0|-15.2|8.5|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||8.5|-15.2|0.506
82553805|NCT05256654|164812425|SUPERIORITY||Mean Difference (Net)|-19.7|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-27.2|-11.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-11.3|-27.2|<.001
82553806|NCT05256654|164812425|SUPERIORITY||Mean Difference (Net)|-19.4|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-27.0|-11.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-11.0|-27.0|<.001
82553807|NCT05256654|164812426|SUPERIORITY||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|4.16||0.428|TWO_SIDED|95.0|-11.2|5.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||5.2|-11.2|0.428
82553808|NCT05256654|164812426|SUPERIORITY||Mean Difference (Net)|-8.7|STANDARD_ERROR_OF_MEAN|3.14||0.009|TWO_SIDED|95.0|-14.7|-2.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-2.3|-14.7|0.009
82553809|NCT05256654|164812426|SUPERIORITY||Mean Difference (Net)|-12.2|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-18.0|-6.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-6.0|-18.0|<.001
82553810|NCT05256654|164812427|SUPERIORITY||Mean Difference (Net)|6.5|STANDARD_ERROR_OF_MEAN|8.1||0.412|TWO_SIDED|95.0|-8.4|23.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||23.7|-8.4|0.412
82553811|NCT05256654|164812427|SUPERIORITY||Mean Difference (Net)|-9.5|STANDARD_ERROR_OF_MEAN|5.52||0.104|TWO_SIDED|95.0|-19.7|2.1|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.1|-19.7|0.104
82553812|NCT05256654|164812427|SUPERIORITY||Mean Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|5.79||0.363|TWO_SIDED|95.0|-16.2|6.7|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||6.7|-16.2|0.363
82651280|NCT00947765|165017441|SUPERIORITY_OR_OTHER|||||||0.0184||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0184
82651281|NCT00947765|165017442|SUPERIORITY_OR_OTHER|||||||0.0058||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0058
82651282|NCT00947765|165017443|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0064
82651283|NCT01086215|165017444|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
82553813|NCT05256654|164812428|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|6.19||0.101|TWO_SIDED|95.0|-22.2|2.3|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||2.3|-22.2|0.101
82553814|NCT05256654|164812428|SUPERIORITY||Mean Difference (Net)|-11.3|STANDARD_ERROR_OF_MEAN|4.96||0.033|TWO_SIDED|95.0|-20.6|-1.0|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-1.0|-20.6|0.033
82553815|NCT05256654|164812428|SUPERIORITY||Mean Difference (Net)|-10.9|STANDARD_ERROR_OF_MEAN|4.98||0.04|TWO_SIDED|95.0|-20.3|-0.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-0.6|-20.3|0.040
82553816|NCT05256654|164812429|SUPERIORITY||Mean Difference (Net)|-28.3|STANDARD_ERROR_OF_MEAN|6.79|<|0.001|TWO_SIDED|95.0|-40.5|-13.6|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-13.6|-40.5|<.001
82553817|NCT05256654|164812429|SUPERIORITY||Mean Difference (Net)|-42.5|STANDARD_ERROR_OF_MEAN|4.35|<|0.001|TWO_SIDED|95.0|-50.5|-33.2|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-33.2|-50.5|<.001
82553818|NCT05256654|164812429|SUPERIORITY||Mean Difference (Net)|-44.8|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-52.5|-35.9|||Mixed Models Analysis||Model uses log-transformed outcome and baseline variables, including terms for baseline, strata (TG \<250 mg/dL or \>=250 mg/dL at screening), and the interaction between treatment and time.|||-35.9|-52.5|<.001
82553819|NCT04089059|164812468|SUPERIORITY|Poisson regression for comparison of incidence rate against performance goal (0.43)|||||<|0.0001|||||||Poisson Regression|||||||<0.0001
82553820|NCT04089059|164812471|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Comparison of HF Hospitalization events 6 months before implant vs 6 months after implant||||<0.0001
82553821|NCT04089059|164812472|SUPERIORITY|Comparison of the incidence rate of HF hospitalizations or emergency department / hospital outpatient IV diuretic visits of Former Control Arm versus Modified Intent to Treat Arm at 6 months post-implant/Subgroup Analysis||||||0.0697|||||||Poisson Regression|||||||0.0697
82553822|NCT04089059|164812475|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.||||||0.0952|||||||Wilcoxon (Mann-Whitney)|||||||0.0952
82581439|NCT00741390|164874593|SUPERIORITY_OR_OTHER|||||||0.761||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.761
82553823|NCT04089059|164812475|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.0090
82376764|NCT00369486|164459879|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||Adjusted for baseline central subfield thickness|repeated measures least sq. regression|Models adjusted for baseline values and for correlated data from subjects with two study eyes.||Comparison of change in central subfield thickening from baseline to 34 weeks in all five groups.||||0.46
82553824|NCT04089059|164812475|SUPERIORITY|Comparison of mPAP values at baseline to values at 6 months.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82553825|NCT04089059|164812477|SUPERIORITY|Comparison of KCCQ at baseline and at 6 months||||||0.0026|||||||Wilcoxon (Mann-Whitney)|||||||0.0026
82553826|NCT04089059|164812478|OTHER|Test of difference in distribution of NYHA class from baseline (all patients were class III at baseline).|||||<|0.0001|||||||Chi-squared|||The New York Heart Association (NYHA) Classification is a system used to evaluate and classify the severity of heart failure based on symptoms, patient's physical activity, and quality of life. Its scale ranges from class 1 to 4 with class 1 indicating the least severe heart failure symptoms (i.e., the best functionality) and class 4 indicating the most severe heart failure symptoms (i.e., the poorest functionality), with higher classes indicating poorer functioning as relates to heart failure.||||<0.0001
82553827|NCT04089059|164812479|SUPERIORITY|Comparison of baseline 6MWT vs 6 month 6MWT.||||||0.1086|||||||Wilcoxon (Mann-Whitney)|||||||0.1086
82553828|NCT04089059|164812482|SUPERIORITY|Compare NTproBNP at baseline with 6 months||||||0.0628|||||||Wilcoxon (Mann-Whitney)|||||||0.0628
82553829|NCT02800356|164812510|OTHER|||||||0.404|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.404
82553830|NCT02800356|164812511|OTHER|||||||0.232|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.232
82553831|NCT02800356|164812512|OTHER|||||||0.001|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.001
82553832|NCT02800356|164812515|OTHER|||||||0.267|||||||ANOVA|Analysis of Variance (ANOVA) for paired samples with Bonferroni post-hoc analysis||||||0.267
82553833|NCT04625725|164812541|SUPERIORITY||Relative Risk Reduction|76.73|||<|0.001|TWO_SIDED|95.0|46.05|89.96|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|Primary Analysis||89.96|46.05|<0.001
82553834|NCT04625725|164812541|SUPERIORITY||Relative Risk Reduction|83.04|||<|0.001|TWO_SIDED|95.0|67.26|91.21|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|Final Analysis||91.21|67.26|<0.001
82581440|NCT00741390|164874593|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Fisher Exact|One proportion two-sided test; p=50%||Analysis consisted of a one proportion test for the 1st device in the lancing pair being preferred, out of the total number of times that a preference was stated. Note: lancing pairs in which no preference was stated or where data were missing were excluded from analysis. The null hypothesis for the one proportion test was that the 1st device in the lancing pair was preferred 50% of the times.||||0.004
82651284|NCT01086215|165017444|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
82553835|NCT04625725|164812543|SUPERIORITY||Relative Risk Reduction|34.9|||<|0.001|TWO_SIDED|95.0|21.44|46.05|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||46.05|21.44|<0.001
82553836|NCT04625725|164812544|SUPERIORITY||Relative Risk Reduction|91.41||||0.001|TWO_SIDED|95.0|61.31|98.09|||Poisson regression||Estimates are based on a Poisson regression with robust variance. The model includes covariate for treatment, and age group, with the log of the follow-up time as an offset. Estimated RRR greater than 0% provides evidence in favor of AZD7442.|||98.09|61.31|0.001
82553837|NCT04625725|164812545|SUPERIORITY||Relative Risk Reduction|52.43||||0.137|TWO_SIDED|95.0|-26.61|82.13|||Poisson regression|||||82.13|-26.61|0.137
82553838|NCT04484428|164812566|SUPERIORITY|||||||0.773|||||||ANCOVA|||||||0.773
82553839|NCT04484428|164812567|SUPERIORITY|||||||0.972|||||||ANCOVA|||||||0.972
82553840|NCT04484428|164812568|SUPERIORITY|||||||0.617|||||||ANCOVA|||||||0.617
82553841|NCT04484428|164812569|SUPERIORITY|||||||0.796|||||||ANCOVA|||||||0.796
82553842|NCT04484428|164812570|SUPERIORITY|||||||0.96|||||||ANCOVA|||||||0.960
82553843|NCT04484428|164812571|SUPERIORITY|||||||0.761|||||||ANCOVA|||||||0.761
82553844|NCT04484428|164812572|SUPERIORITY|||||||0.979|||||||ANCOVA|||||||0.979
82553845|NCT04484428|164812573|SUPERIORITY|||||||0.803|||||||ANCOVA|||||||0.803
82553846|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|2.49||||0.75|TWO_SIDED|90.0|-10.66|15.65|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||15.65|-10.66|0.75
82553847|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-5.37||||0.5|TWO_SIDED|90.0|-18.49|7.76|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||7.76|-18.49|0.50
82553848|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.83|TWO_SIDED|90.0|-11.48|14.84|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||14.84|-11.48|0.83
82553849|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.84|TWO_SIDED|90.0|-7.91|6.15|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||6.15|-7.91|0.84
82553850|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.66|TWO_SIDED|90.0|-5.13|8.9|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||8.90|-5.13|0.66
82553851|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.88|TWO_SIDED|90.0|-6.38|7.68|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||7.68|-6.38|0.88
82553852|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-53.83||||0.54|TWO_SIDED|90.0|-200.7|93.05|||ANOVA|||Ring/CA conc: 3% Type: ROI||93.05|-200.70|0.54
82553853|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-40.51||||0.65|TWO_SIDED|90.0|-187.01|105.98|||ANOVA|||Ring/CA conc: 3% Type: ROI||105.98|-187.01|0.65
82553854|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-52.99||||0.55|TWO_SIDED|90.0|-199.87|93.88|||ANOVA|||Ring/CA conc: 3% Type: ROI||93.88|-199.87|0.55
82553855|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-36.65||||0.18|TWO_SIDED|90.0|-81.85|8.56|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||8.56|-81.85|0.18
82553856|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-22.49||||0.41|TWO_SIDED|90.0|-67.58|22.59|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||22.59|-67.58|0.41
82553857|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-33.86||||0.22|TWO_SIDED|90.0|-79.06|11.34|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||11.34|-79.06|0.22
82553858|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-30.66||||0.74|TWO_SIDED|90.0|-183.08|121.76|||ANOVA|||Ring/CA conc: 10%, Type: ROI||121.76|-183.08|0.74
82553859|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-98.77||||0.28|TWO_SIDED|90.0|-250.79|53.25|||ANOVA|||Ring/CA conc: 10%, Type: ROI||53.25|-250.79|0.28
82553860|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-214.89||||0.02|TWO_SIDED|90.0|-367.31|-62.48|||ANOVA|||Ring/CA conc: 10%, Type: ROI||-62.48|-367.31|0.02
82553861|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-3.89||||0.93|TWO_SIDED|90.0|-81.44|73.66|||ANOVA|||Ring/CA conc: 10% , Type: Entire Image||73.66|-81.44|0.93
82553862|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-191.02|||<|0.0001|TWO_SIDED|90.0|-268.37|-113.67|||ANOVA|||Ring/CA conc: 10% , Type: Entire Image||-113.67|-268.37|<.0001
82553863|NCT04183283|164812649|SUPERIORITY||Mean Difference (Final Values)|-252.24|||<|0.0001|TWO_SIDED|90.0|-329.79|-174.68|||ANOVA|||Ring/CA conc: 10%, Type: Entire Image||-174.68|-329.79|<.0001
82553864|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.99|TWO_SIDED|90.0|-8.28|8.15|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||8.15|-8.28|0.99
82553865|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.91|TWO_SIDED|90.0|-8.78|7.6|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||7.60|-8.78|0.91
82553866|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|2.53||||0.61|TWO_SIDED|90.0|-5.69|10.74|||ANOVA|||Ring/CA conc: Vehicle, Type: ROI||10.74|-5.69|0.61
82553867|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-1.29||||0.8|TWO_SIDED|90.0|-9.58|7.0|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||7.00|-9.58|0.80
82553868|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|1.45||||0.77|TWO_SIDED|90.0|-6.83|9.72|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||9.72|-6.83|0.77
82553869|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|1.85||||0.71|TWO_SIDED|90.0|-6.45|10.14|||ANOVA|||Ring/CA conc: Vehicle, Type: Entire Image||10.14|-6.45|0.71
82553870|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-18.38||||0.38|TWO_SIDED|90.0|-53.27|16.51|||ANOVA|||Ring/CA conc: 3%, Type: ROI||16.51|-53.27|0.38
82553871|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-2.97||||0.89|TWO_SIDED|90.0|-37.76|31.83|||ANOVA|||Ring/CA conc: 3%, Type: ROI||31.83|-37.76|0.89
82553872|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-10.12||||0.63|TWO_SIDED|90.0|-45.0|24.77|||ANOVA|||Ring/CA conc: 3%, Type: ROI||24.77|-45.00|0.63
82553873|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-11.31||||0.21|TWO_SIDED|90.0|-26.21|3.58|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||3.58|-26.21|0.21
82553874|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-3.19||||0.72|TWO_SIDED|90.0|-18.04|11.67|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||11.67|-18.04|0.72
82553875|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-10.46||||0.25|TWO_SIDED|90.0|-25.35|4.44|||ANOVA|||Ring/CA conc: 3%, Type: Entire Image||4.44|-25.35|0.25
82553876|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|7.27||||0.69|TWO_SIDED|90.0|-22.71|37.25|||ANOVA|||Ring/CA conc: 10%, Type: ROI||37.25|-22.71|0.69
82553877|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-20.7||||0.25|TWO_SIDED|90.0|-50.6|9.2|||ANOVA|||Ring/CA conc: 10%, Type: ROI||9.2|-50.60|0.25
82553878|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-34.79||||0.06|TWO_SIDED|90.0|-64.77|-4.81|||ANOVA|||Ring/CA conc: 10%, Type: ROI||-4.81|-64.77|0.06
82553879|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|10.01||||0.51|TWO_SIDED|90.0|-15.4|35.42|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||35.42|-15.4|0.51
82553880|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-53.63|||<|0.001|TWO_SIDED|90.0|-78.98|-28.29|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||-28.29|-78.98|<0.001
82553881|NCT04183283|164812650|SUPERIORITY||Mean Difference (Final Values)|-79.5|||<|0.0001|TWO_SIDED|90.0|-104.91|-54.09|||ANOVA|||Ring/CA conc: 10% Type: Entire Image||-54.09|-104.91|<.0001
82553882|NCT03308877|164812662|OTHER|||||||0.07||||||Covariates include education \& percent days abstinent at baseline.|Regression, Linear|||Hypothesis 1: Affective psychopathy scores will moderate response to a BMI such that individuals with lower scores will benefit relative to controls, but individuals with higher psychopathy scores will not benefit from the intervention in terms of percent days abstinent.||||.07
82553883|NCT03308877|164812662|OTHER|||||||0.02|||||||Regression, Linear|||Sensitivity analysis: proximal follow-up (3 months following BMI or SC)||||.02
82553884|NCT03308877|164812662|OTHER||B|0.063|||<|0.01|TWO_SIDED|95.0|0.007|0.156|||Regression, Linear|bias corrected bootstrap||Increased readiness to change will be associated with decreased substance use.||.156|.007|<.01
82553885|NCT03308877|164812663|OTHER|||||||0.74|||||||Regression, Linear|||||||.74
82553886|NCT03308877|164812664|OTHER|||||||0.88|||||||Regression, Logistic|||||||.88
82553887|NCT05163496|164812683|SUPERIORITY||Mean Difference (Net)|12.0|STANDARD_DEVIATION|0.8|<|0.001|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis was that the mean change in MADRS score from the preparation 1 session to day 28 would be the same in both niacin and psilocybin groups. The alternative hypothesis was that the change in the psilocybin group would be greater than the change in the niacin group, with an assumed true effect size of 1.06 SD units based on findings in prior studies. With 15 participants per group, this study had 80% power to observe a statistically significant difference between groups.||||<.001
82553888|NCT03625115|164812746|EQUIVALENCE|A two-tailed t-test was done to compare the mean Bayley cognitive scores between the groups.||||||0.3|||||||t-test, 2 sided|||||||0.30
82553889|NCT03625115|164812747|SUPERIORITY||Pearson chi square (1)|8.51||||0.004|TWO_SIDED||||||Chi-squared|||Chi-square test of independence to determine if there was a significant difference between intervention arms for those who completed a multidisciplinary evaluation (referral completed).||||.004
82651285|NCT01086215|165017444|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
82553890|NCT03625115|164812748|SUPERIORITY||Pearson chi square (1)|0.05||||0.82|TWO_SIDED||||||Chi-squared|||Chi-square test of independence to determine if there was a significant difference between intervention arms for those who began early intervention services.||||.82
82553891|NCT03625115|164812749|EQUIVALENCE|A two-tailed t-test was done to compare the mean Bayley language scores between the groups.||||||0.69|||||||t-test, 2 sided|||||||0.69
82553892|NCT03625115|164812751|EQUIVALENCE|two tailed t-test to compare the means of factor 1 between groups||||||0.858|||||||t-test, 2 sided|||Analysis of factor 1 items from the parent engagement questionnaire. Factor 1 (Buy-in) I am open to getting EI for my child. EI can help my child. EI can teach me new ways to help my child.||||.858
82553893|NCT03625115|164812751|EQUIVALENCE|two tailed t-test to compare the means of factor 2 between groups||||||0.995|||||||t-test, 2 sided|||"Analysis of factor 2 items from the parent engagement questionnaire.~Factor 2 (early intervention consequences):~EI could have negative consequences for my child. Getting EI for my child reflects negatively on me as a parent."||||.995
82553894|NCT03625115|164812751|EQUIVALENCE|two tailed t-test to compare the means of factor 3 between groups||||||0.049|||||||t-test, 2 sided|||"Analysis of factor 3 items from the parent engagement questionnaire.~Factor 3 (Knowledge/Self-Efficacy):~I know how to get EI for my child. I understand how the EI process works. If I have questions about EI, I know who to call. 12. I know my child's rights to EI under the law."||||.049
82553895|NCT03625115|164812752|SUPERIORITY||Odds Ratio (OR)|1.87||||0.02|TWO_SIDED|95.0|1.09|3.21|||Regression, Logistic|||A logistic regression was run to determine if the intervention arm, adjusted for child sex, income, maternal education, and primary care site, was associated with the completion of early intervention referrals for families with an adverse childhood experience survey score of greater than 2.||3.21|1.09|.02
82553896|NCT05618587|164812880|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82553897|NCT05618587|164812881|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82553898|NCT05618587|164812882|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.68
82553899|NCT05618587|164812883|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||||||0.89
82553900|NCT05618587|164812884|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
82553901|NCT05618587|164812885|SUPERIORITY|||||||1|||||||Barnard unconditional exact test|||||||1.0
82553902|NCT05618587|164812886|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||||||0.28
82553903|NCT05618587|164812887|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82553904|NCT05618587|164812888|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82553905|NCT05618587|164812889|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
82553906|NCT05618587|164812890|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||||||0.29
82553907|NCT05618587|164812891|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
82581441|NCT00620282|164874594|SUPERIORITY_OR_OTHER||Least squares mean|7.43||||0.0549||95.0|-0.164|15.025||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||15.025|-0.164|0.0549
82651286|NCT01086215|165017444|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Alternative hypothesis is change in occlusion \>0||||||<0.0001
82553908|NCT05207982|164812921|OTHER|||||||||||||||||This study utilized a multiple baseline single case experimental design in which analysis of the daily weights (for each participant) involved discontinuous growth curve analysis using multi-level modeling. Separate models were developed for each participant which include the daily weights from the baseline, treatment and follow-up phases. Given the nature of the data, we hypothesized different slopes for the baseline vs treatment phases. Overall weight change was a primary outcome measure.|Multiple baseline single case experimental design in which analysis of the daily weights (for each participant) involved discontinuous growth curve analysis using multi-level modeling.|||
82553909|NCT03314688|164812922|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||||||0.69
82553910|NCT03314688|164812923|SUPERIORITY|||||||0.33|||||||Chi-squared|||Comparison of Q1: In the past month, how often did you take your aromatase inhibitor (AI)/tamoxifen pills as the doctor prescribed? = 'All the time'||||0.33
82553911|NCT03314688|164812923|SUPERIORITY|||||||0.44|||||||Chi-squared|||Comparison of Q2: In the past month, how often did you forget to take one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.44
82553912|NCT03314688|164812923|SUPERIORITY|||||||0.29|||||||Chi-squared|||Comparison of Q3: In the past month, how often did you decide to skip one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.29
82553913|NCT03314688|164812924|SUPERIORITY|||||||0.69|||||||Chi-squared|||Comparison of Q1: In the past month, how often did you take your aromatase inhibitor (AI)/tamoxifen pills as the doctor prescribed? = 'All the time'||||0.69
82553914|NCT03314688|164812924|SUPERIORITY|||||||0.91|||||||Chi-squared|||Comparison of Q2: In the past month, how often did you forget to take one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.91
82553915|NCT03314688|164812924|SUPERIORITY|||||||0.13|||||||Chi-squared|||Comparison of Q3: In the past month, how often did you decide to skip one or more of your aromatase inhibitor (AI)/tamoxifen pills? = 'Never'||||0.13
82553916|NCT03728608|164812967|SUPERIORITY|||||||0.92|||||||survival analysis|||||||0.92
82553917|NCT03728608|164812968|SUPERIORITY|||||||0.65|||||||survival analysis|||||||0.65
82581442|NCT00620282|164874594|SUPERIORITY_OR_OTHER||Least squares mean|2.08||||0.5681||95.0|-5.215|9.375||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||9.375|-5.215|0.5681
82651287|NCT01965652|165017448|SUPERIORITY_OR_OTHER||LS Mean Difference|1.28|STANDARD_ERROR_OF_MEAN|0.226|<|0.0001|TWO_SIDED|95.0|0.83|1.72||The significance level was set at 0.05 (2-sided). The analysis of efficacy endpoints was not adjusted for multiplicity; hence, the p-values are purely nominal. A mixed-effects model repeated measures (MMRM) method was used for the comparisons.|Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||1.72|0.83|<0.0001
82553918|NCT03728608|164812969|SUPERIORITY|||||||0.96|||||||survival analysis|||||||0.96
82553919|NCT03728608|164812970|SUPERIORITY|||||||0.77|||||||survival analysis|||||||0.77
82553920|NCT03728608|164812971|SUPERIORITY|||||||0.43|||||||Regression, Logistic|||||||0.43
82553921|NCT03728608|164812972|SUPERIORITY|||||||0.97|||||||Regression, Logistic|||||||0.97
82553922|NCT03728608|164812973|SUPERIORITY|||||||0.97|||||||Regression, Logistic|||||||0.97
82553923|NCT03728608|164812974|SUPERIORITY|||||||0.79|||||||Regression, Logistic|||||||0.79
82553924|NCT01828112|164812994|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.36|0.67|||Log Rank|||||0.67|0.36|<0.001
82553925|NCT05086796|164813064|SUPERIORITY||Risk Ratio (RR)|2.1|||||TWO_SIDED|97.5|1.51|2.91|||||The START arm is the numerator, Usual Care is the denominator. There are two primary outcome measures, so the type I error level was adjusted to alpha = 0.025.||Poisson regression was used to compare the proportions of participants who initiated MOUD in the hospital by calculating the risk ratio (RR) and 97.5% confidence interval (CI) and with covariates treatment arm, site (3 sites), prior exposure to MOUD (yes vs. no), and length of hospital stay in days.|2.91|1.51|
82553926|NCT05086796|164813065|SUPERIORITY||Risk Ratio (RR)|1.49|||||TWO_SIDED|97.5|1.15|1.93|||||The START arm is the numerator, Usual Care is the denominator. There are two primary outcome measures, so the type I error level was adjusted to alpha = 0.025.||Poisson regression was used to compare the proportions of participants who linked to follow-up OUD care by calculating the risk ratio (RR) and 97.5% confidence interval (CI) and with covariates treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|1.93|1.15|
82553927|NCT05086796|164813066|SUPERIORITY||Risk Ratio (RR)|1.8|||||TWO_SIDED|95.0|1.35|2.41|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who initiated MOUD in the hospital between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|2.41|1.35|
82553928|NCT05086796|164813067|SUPERIORITY||Risk Ratio (RR)|1.71|||||TWO_SIDED|95.0|1.23|2.39|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who reported any post-discharge MOUD utilization between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: treatment arm, site (3 sites), and prior exposure to MOUD (yes vs. no).|2.39|1.23|
82553929|NCT05086796|164813068|SUPERIORITY||Risk Ratio (RR)|1.89|||||TWO_SIDED|95.0|1.18|3.03|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable Poisson regression was used to compare the proportions of participants who reported receiving any post-discharge outpatient medical care for their OUD between arms by calculating the risk ratio (RR) and 95% confidence interval (CI) with covariates: site (3 sites), and prior exposure to MOUD (yes vs. no).|3.03|1.18|
82581443|NCT00620282|164874594|SUPERIORITY_OR_OTHER||Least squares mean|5.35||||0.1668||95.0|-2.323|13.024||2-sided significance level of 5%.|ANCOVA|||Change in Ach-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||13.024|-2.323|0.1668
82581444|NCT00620282|164874595|SUPERIORITY_OR_OTHER||Least squares mean|4.499||||0.2648||95.0|-3.535|12.534||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||12.534|-3.535|0.2648
82480750|NCT02415842|164655226|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|6.39|||||TWO_SIDED|95.0|-11.91|24.71|||Asymptotic standardized 95% CI|||||24.71|-11.91|
82480751|NCT02415842|164655226|EQUIVALENCE|Difference between groups (H5N1\_AS minus H5N1\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 365.|Difference in percentage of subjects|6.9|||||TWO_SIDED|95.0|-6.19|22.15|||Asymptotic standardized 95% CI|||||22.15|-6.19|
82480752|NCT02415842|164655227|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 21.|Difference in percentage of subjects|3.33|||||TWO_SIDED|95.0|-13.06|20.24|||Asymptotic standardized 95% CI|||||20.24|-13.06|
82480753|NCT02415842|164655227|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 42.|Difference in percentage of subjects|16.67|||||TWO_SIDED|95.0|0.35|34.76|||Asymptotic standardized 95% CI|||||34.76|0.35|
82480754|NCT02415842|164655227|EQUIVALENCE|Difference between groups (H9N2\_AS minus H9N2\_NAS) in percentage of subjects with at least 4-fold increase of anti-H1 stalk ELISA at Day 182.|Difference in percentage of subjects|0.24|||||TWO_SIDED|95.0|-13.76|15.0|||Asymptotic standardized 95% CI|||||15.00|-13.76|
82480755|NCT03811093|164655232|SUPERIORITY||Mean Difference (Net)|2.036|||<|0.01|TWO_SIDED|95.0|1.243|2.828||p-value is calculated using SPSS.|t-test, 2 sided|||The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. Change in Body Fat Percentage.||2.828|1.243|<0.01
82480756|NCT03811093|164655232|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A single sample Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of Percent of Body Fat Lost or Gained is normal with mean -.83 and standard deviation 1.50218."||||0.20
82480757|NCT03811093|164655232|OTHER|||||||0.075|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||0.075
82480758|NCT03811093|164655233|SUPERIORITY||Mean Difference (Net)|7.063|||<|0.01|TWO_SIDED|95.0|3.829|10.296||p-value is calculated using SPSS.|t-test, 2 sided|||Designed as a superiority trial with the aim of establishing whether the intervention was superior or inferior to a placebo in effectiveness as a therapy for change over time in measured body circumference. The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. measured body circumference.||10.296|3.829|<0.01
82480759|NCT03811093|164655233|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of Total Inches Lost or Gained is normal with mean -7.136 and standard deviation 5.796."||||0.20
82480760|NCT03811093|164655233|OTHER|||||||0.44|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||0.44
82480761|NCT03811093|164655234|SUPERIORITY||Mean Difference (Net)|4.4703|||<|0.01|TWO_SIDED|95.0|2.3372|6.6034||p-value is computed using SPSS.|t-test, 2 sided|||Designed as a superiority trial with the aim of establishing whether the intervention was superior or inferior to a placebo in effectiveness as a therapy for change in body fat, measured in pounds. The null hypothesis states that in the population from where the sample was obtained there was no difference between the intervention (invisa-RED Elite) and placebo groups in the mean change in the primary outcome variable, i.e. change in pounds of body fat.||6.6034|2.3372|<0.01
82480762|NCT03811093|164655234|OTHER|||||||0.2||||||The significance value has been Lilliefors corrected and represents the lower bound of the true significance.|Kolmogorov-Smirnov Test|||"A single sample Kolmogorov-Smirnov normality test was used to examine if variables are normally distributed for the population from which the trial groups are drawn.~The null hypothesis is that the distribution of the Weight of Body Fat Lost or Gained is normal with mean -2.49 and standard deviation 3.71209."||||.200
82480763|NCT03811093|164655234|OTHER|||||||0.438|||||||Levene's Test for Equality of Variance|||To test that the trial participant's population variances are equal (or exhibit homogeneity of variance), a Levene's Test for Equality of Variance was conducted. It tests the null hypothesis that the population variances are equal (called homogeneity of variance or homoscedasticity). For this test if the resulting p-value of Levene's test is less than .05, the obtained differences in sample variances are unlikely to have occurred based on random sampling from a population with equal variances.||||.438
82480764|NCT00178503|164655235|SUPERIORITY_OR_OTHER||Linear trend P value|0.0|||=|0.001|||||||ANOVA|||Data were analyzed using SPSS-PC repeated measures one-way analysis of variance (ANOVA), with MPH dosing regimen as the within-subjects variable.||||=.001
82480765|NCT00178503|164655236|SUPERIORITY_OR_OTHER||Linear p|0.005||||0.005|||||||ANOVA|||||||.005
82480766|NCT00178503|164655237|SUPERIORITY_OR_OTHER||Linear p|0.0|||<|0.001||0.0|||||ANOVA|||||||<.001
82553930|NCT05086796|164813069|SUPERIORITY||Incident rate ratio|1.25|||||TWO_SIDED|95.0|0.64|2.43|||||The START arm is the numerator, Usual Care is the denominator.||Multivariable negative binomial regression with a log link function was used to compare opioid use-days between the two treatment arms by calculating the incident rate ratio (IRR) and 95% confidence interval (CI) with covariates: site (3 sites), prior exposure to MOUD (yes vs. no), and baseline opioid use days.|2.43|0.64|
82581445|NCT00620282|164874595|SUPERIORITY_OR_OTHER||Least squares mean|0.709||||0.8518||95.0|-6.904|8.322||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||8.322|-6.904|0.8518
82480767|NCT00528970|164655249|OTHER||Mean Difference (Final Values)|2.0||||0.944||||||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by surgery type and region for comparisons of survival distributions for active MOA versus Placebo group.||||0.944
82480768|NCT00528970|164655249|OTHER||Mean Difference (Final Values)|9.1||||0.208||||||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using log-rank test stratified by surgery type and region for comparisons of survival distributions for active MOA versus Placebo group.||||0.208
82480769|NCT03739242|164655263|SUPERIORITY||Least Square Mean difference|-39.16|||<|0.0001|TWO_SIDED|95.0|-48.57|-29.75|||ANCOVA|||||-29.75|-48.57|<0.0001
82480770|NCT03739242|164655264|SUPERIORITY||Least Square Mean difference|-41.24||||0.0001|TWO_SIDED|95.0|-51.73|-30.74|||ANCOVA|||||-30.74|-51.73|0.0001
82480771|NCT03739242|164655265|SUPERIORITY||Least Square Mean difference|0.09||||0.951|TWO_SIDED|95.0|-2.87|3.05|||ANCOVA|||||3.05|-2.87|0.9510
82480772|NCT03739242|164655266|SUPERIORITY||Least Square Mean difference|-41.7|||<|0.0001|TWO_SIDED|95.0|-51.58|-31.82|||ANCOVA|||||-31.82|-51.58|<0.0001
82480773|NCT03739242|164655267|SUPERIORITY||Least Square Mean difference|-7.0||||0.1924|TWO_SIDED|95.0|-17.59|3.59|||ANCOVA|||||3.59|-17.59|0.1924
82480774|NCT03739242|164655268|SUPERIORITY||Least Square Mean difference|-17.26|||<|0.0001|TWO_SIDED|95.0|-23.54|-10.98|||ANCOVA|||||-10.98|-23.54|<0.0001
82480775|NCT03739242|164655269|SUPERIORITY||Least Square Mean difference|-0.91|||<|0.0001|TWO_SIDED|95.0|-1.19|-0.62|||ANCOVA|||||-0.62|-1.19|<0.0001
82480776|NCT03739242|164655270|SUPERIORITY||Least Square Mean difference|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.05|-0.59|||ANCOVA|||||-0.59|-1.05|<0.0001
82480777|NCT03739242|164655271|SUPERIORITY||Least Square Mean difference|-3.47||||0.4535|TWO_SIDED|95.0|-12.64|5.7|||ANCOVA|||||5.7|-12.64|0.4535
82480778|NCT03739242|164655272|SUPERIORITY||Least Square Mean difference|0.74||||0.5594|TWO_SIDED|95.0|-1.76|3.24|||ANCOVA|||||3.24|-1.76|0.5594
82480779|NCT03739242|164655273|SUPERIORITY||Least Square Mean difference|-0.07||||0.9266|TWO_SIDED|95.0|-1.63|1.48|||ANCOVA|||||1.48|-1.63|0.9266
82480780|NCT03739242|164655274|SUPERIORITY||Least Square Mean difference|6.02||||0.2654|TWO_SIDED|95.0|-4.66|16.69|||ANCOVA|||||16.69|-4.66|0.2654
82480781|NCT03739242|164655275|SUPERIORITY||Least Square Mean difference|-5.95||||0.2595|TWO_SIDED|95.0|-16.37|4.47|||ANCOVA|||||4.47|-16.37|0.2595
82651288|NCT01965652|165017448|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|0.53|1.47|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||1.47|0.53|<0.0001
82651289|NCT01965652|165017448|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|0.52|1.5|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||1.50|0.52|<0.0001
82480782|NCT03739242|164655276|SUPERIORITY||Least Square Mean difference|0.003||||0.8476|TWO_SIDED|95.0|-0.039|0.032|||ANCOVA|||||0.032|-0.039|0.8476
82480783|NCT03739242|164655277|SUPERIORITY||Least Square Mean difference|-0.21||||0.1499|TWO_SIDED|95.0|-0.49|0.08|||ANCOVA|||||0.08|-0.49|0.1499
82480784|NCT03739242|164655278|SUPERIORITY||Least Square Mean difference|1.71||||0.7224|TWO_SIDED|95.0|-7.83|11.25|||ANCOVA|||||11.25|-7.83|0.7224
82480785|NCT01122394|164655279|SUPERIORITY_OR_OTHER|||||||0.29|||||||robust regression|controlling for provider clustering||Robust regressions were performed||||0.29
82480786|NCT01122394|164655280|SUPERIORITY_OR_OTHER|||||||0.25|||||||Regression, Logistic|This analysis includes participants in pre-action and action/maintenance||||||0.25
82480787|NCT01122394|164655281|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82480788|NCT01122394|164655282|SUPERIORITY_OR_OTHER|||||||0.81|||||||Regression, Linear|||||||0.81
82480789|NCT01122394|164655283|SUPERIORITY_OR_OTHER|||||||0.12|||||||Regression, Linear|||||||0.12
82480790|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[(Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine Group Difference|77.0|||||TWO_SIDED|95.0|68.1|84.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||84.1|68.1|
82480791|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|60.0|||||TWO_SIDED|95.0|49.9|69.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||69.2|49.9|
82480792|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|68.0|||||TWO_SIDED|95.0|60.5|73.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||73.5|60.5|
82480793|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|9.0|||||TWO_SIDED|95.0|5.3|14.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.8|5.3|
82480794|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10 vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|14.0|||||TWO_SIDED|95.0|4.9|24.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.2|4.9|
82480795|NCT02446743|164655284|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|10.0|||||TWO_SIDED|95.0|4.3|15.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||15.9|4.3|
82480796|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|25.0|||||TWO_SIDED|95.0|18.2|31.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||31.4|18.2|
82480797|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[(Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine groups difference|22.0|||||TWO_SIDED|95.0|13.2|30.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||30.1|13.2|
82480798|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|30.0|||||TWO_SIDED|95.0|20.0|39.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||39.6|20.0|
82480799|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-3.4|11.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.9|-3.4|
82480800|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1(V72\_41)\]|vaccine group differences|12.0|||||TWO_SIDED|95.0|0.33|24.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.2|0.33|
82480801|NCT02446743|164655285|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1(V72P10)\]|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-10.0|9.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.5|-10.0|
82480802|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|22.0|||||TWO_SIDED|95.0|16.5|28.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||28.6|16.5|
82480803|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|14.6|28.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||28.9|14.6|
82480804|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|26.0|||||TWO_SIDED|95.0|16.4|35.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain H44/76and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||35.3|16.4|
82480805|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|68.0|||||TWO_SIDED|95.0|60.8|73.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||73.7|60.8|
82553931|NCT05873556|164813079|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.97||||0.83|TWO_SIDED|95.0|0.74|1.27|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.27|0.74|0.83
82480806|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|74.0|||||TWO_SIDED|95.0|65.3|81.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||81.3|65.3|
82480807|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|64.0|||||TWO_SIDED|95.0|53.6|72.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||72.3|53.6|
82480808|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|9.0|||||TWO_SIDED|95.0|3.7|14.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||14.0|3.7|
82480809|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|7.0|||||TWO_SIDED|95.0|3.3|12.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.3|3.3|
82480810|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|4.5|22.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||22.0|4.5|
82480811|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|5.0|||||TWO_SIDED|95.0|-3.4|12.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.8|-3.4|
82480812|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|9.0|||||TWO_SIDED|95.0|-3.3|21.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||21.4|-3.3|
82480813|NCT02446743|164655287|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-6.4|14.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis group B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.5|-6.4|
82480814|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|10.1|20.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.9|10.1|
82480815|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|12.0|||||TWO_SIDED|95.0|7.5|18.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||18.1|7.5|
82480816|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|12.3|29.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||29.9|12.3|
82480817|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|66.0|||||TWO_SIDED|95.0|59.6|72.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||72.4|59.6|
82480818|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|70.0|||||TWO_SIDED|95.0|60.8|77.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||77.0|60.8|
82480819|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|65.0|||||TWO_SIDED|95.0|55.2|73.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||73.7|55.2|
82480820|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|9.0|||||TWO_SIDED|95.0|4.9|13.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.6|4.9|
82480821|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|5.0|||||TWO_SIDED|95.0|1.2|9.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.7|1.2|
82480822|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|15.0|||||TWO_SIDED|95.0|7.5|22.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||22.6|7.5|
82553932|NCT05873556|164813079|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.07||||0.61|TWO_SIDED|95.0|0.83|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.83|0.61
82553933|NCT05873556|164813080|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|1.16||||0.45|TWO_SIDED|95.0|0.79|1.72|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.72|0.79|0.45
82553934|NCT05873556|164813080|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.17||||0.46|TWO_SIDED|95.0|0.77|1.79|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.79|0.77|0.46
82553935|NCT05873556|164813081|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.95||||0.62|TWO_SIDED|95.0|0.77|1.17|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.17|0.77|0.62
82553936|NCT05873556|164813081|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.14||||0.34|TWO_SIDED|95.0|0.87|1.48|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.48|0.87|0.34
82553937|NCT05873556|164813082|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|1.08||||0.66|TWO_SIDED|95.0|0.76|1.54|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.54|0.76|0.66
82553938|NCT05873556|164813082|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=93 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.02||||0.92|TWO_SIDED|95.0|0.75|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.75|0.92
82553939|NCT06193070|164813125|OTHER|A one-tailed paired t-test was run to examine within subject mean difference on the cancer nutrition information beliefs scale pre- and post-game.|||||<|0.001||||||The threshold was set at alpha \< 0.05.|t-test, 1 sided|A paired samples t-test was run on pre- and post-game mean scores within subjects.||All participants were exposed to the intervention, and pre- and post-game scores within subject were examined.||||<.001
82553940|NCT04479761|164813193|OTHER|T test derived from a linear mixed effects model|Mean Difference (Final Values)|0.52||||0.005|TWO_SIDED|95.0|||||Mixed Models Analysis||we provided the mean difference between the vestibular group and healthy controls for the reported condition.|||||0.005
82553941|NCT04479761|164813194|OTHER|T tests derived from linear mixed effects model|Mean Difference (Final Values)|0.23||||0.008|TWO_SIDED||||||Mixed Models Analysis||we provided the mean difference between the vestibular group and the controls on the reported condition.|||||0.008
82581446|NCT00620282|164874595|SUPERIORITY_OR_OTHER||Least squares mean|3.79||||0.3435||95.0|-4.194|11.774||2-sided significance level of 5%.|ANCOVA|||Change in SNP-mediated FBF from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FBF as a covariate.||11.774|-4.194|0.3435
82581447|NCT00620282|164874596|SUPERIORITY_OR_OTHER||Least squares mean|-0.536||||0.0023||95.0|-0.868|-0.203||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||-0.203|-0.868|0.0023
82553942|NCT03106740|164813202|SUPERIORITY|Because relevant \[11C\]PBR28 PET imaging data were unavailable at the time of trial initiation to inform a power analysis of a treatment effect, we ran a power analysis of the treatment effect on the expected change in pain ratings based on a recent clinical trial using minocycline in subjects with back pain. We computed the sample size required for mixed effects between-subject and within-subject (Time: Pretest/Posttest) repeated measures ANOVA design. Alpha was set at 0.05 (two-tailed test).|Restricted maximum likelihood|0.0||||0.956|TWO_SIDED|95.0|-0.02|0.02||The p-value corresponds to the group-by-time interaction analysis of the primary outcome measure.|Mixed Models Analysis||Estimation parameter: Unstandardized partial regression coefficient (beta)|||0.02|-0.02|0.956
82553943|NCT04797858|164813210|SUPERIORITY||Risk Difference (RD)|0.0077||||0.45|TWO_SIDED|95.0|-0.021|0.056|||Fisher Exact|||||0.056|-0.021|0.45
82553944|NCT04797858|164813211|SUPERIORITY||Risk Difference (RD)|0.015||||0.11|TWO_SIDED|95.0|-0.0004|0.03|||Fisher Exact|||||0.03|-0.0004|0.11
82553945|NCT03442309|164813248|NON_INFERIORITY|NI margin for arrest difference of 10%|Mean Difference (Final Values)|-0.11|||||TWO_SIDED|95.0|-0.22|0.01||||||||0.01|-.22|
82553946|NCT03442309|164813249|NON_INFERIORITY|Non-inferiority OR (OR δ, 0.63)|Odds Ratio (OR)|0.94|||||TWO_SIDED|90.0|0.82|1.08||||||||1.08|0.82|
82553947|NCT00661141|164813263|SUPERIORITY|||||||0.8727||||||Overall p-value testing cohort difference from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort, 5.0 mg/kg cohort||||0.8727
82553948|NCT00661141|164813266|SUPERIORITY|||||||0.0023||||||Overall p-value testing cohort difference from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort, 5.0 mg/kg cohort||||0.0023
82581448|NCT00620282|164874596|SUPERIORITY_OR_OTHER||Least squares mean|-0.077||||0.6207||95.0|-0.391|0.236||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||0.236|-0.391|0.6207
82480823|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-6.8|10.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.0|-6.8|
82480824|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-9.8|15.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.2|-9.8|
82480825|NCT02446743|164655288|OTHER|Vaccine comparison at Persistence at 4/7.5 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|4.0|||||TWO_SIDED|95.0|-7.8|14.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||14.7|-7.8|
82480826|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group ratio of GMTs|2.54|||||TWO_SIDED|95.0|2.07|3.12|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.12|2.07|
82480827|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|2.13|||||TWO_SIDED|95.0|1.66|2.72|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.72|1.66|
82480828|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|2.96|||||TWO_SIDED|95.0|2.15|4.07|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.07|2.15|
82480829|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|16.0|||||TWO_SIDED|95.0|12.0|21.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||21|12|
82480830|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|20.0|||||TWO_SIDED|95.0|14.0|28.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||28|14|
82480831|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|14.0|||||TWO_SIDED|95.0|9.05|20.0|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||20|9.05|
82480832|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|1.5|||||TWO_SIDED|95.0|1.26|1.78|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.78|1.26|
82480833|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|1.3|||||TWO_SIDED|95.0|1.11|1.51|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.51|1.11|
82480834|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|1.7|||||TWO_SIDED|95.0|1.27|2.28|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.28|1.27|
82553949|NCT00661141|164813266|SUPERIORITY|||||||0.386||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||1.0 mg/kg Cohort, 3.0 mg/kg cohort||||0.386
82553950|NCT00661141|164813266|SUPERIORITY|||||||0.0006||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||1.0 mg/kg, 5.0 mg/kg||||0.0006
82553951|NCT00661141|164813266|SUPERIORITY|||||||0.0154||||||P-values for pairwise comparison between cohorts from ANOVA|ANOVA|||3.0 mg/kg, 5.0 mg/kg||||0.0154
82553952|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|115.57|||||TWO_SIDED|90.0|90.45|147.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||147.67|90.45|
82553953|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|126.05|||||TWO_SIDED|90.0|101.94|155.87|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||155.87|101.94|
82480835|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group ratio of GMTs|1.26|||||TWO_SIDED|95.0|0.94|1.68|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.68|0.94|
82480836|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|vaccine group ratio of GMTs|1.32|||||TWO_SIDED|95.0|0.85|2.05|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.05|0.85|
82480837|NCT02446743|164655289|OTHER|Vaccine Comparison at Persistence at 4 years/Baseline in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|vaccine group ratio of GMTs|1.2|||||TWO_SIDED|95.0|0.81|1.78|||ANOVA|Adjusted by vaccine group and country||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.78|0.81|
82480838|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|8.0|21.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||21.6|8.0|
82480839|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|16.0|||||TWO_SIDED|95.0|10.8|23.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||23.1|10.8|
82480840|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|11.0|20.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||20.1|11.0|
82480841|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|54.0|||||TWO_SIDED|95.0|43.0|63.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||63.3|43.0|
82480842|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|31.0|||||TWO_SIDED|95.0|22.0|40.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||40.1|22.0|
82480843|NCT02446743|164655294|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|41.0|||||TWO_SIDED|95.0|33.6|47.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||47.2|33.6|
82480844|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|20.0|||||TWO_SIDED|95.0|15.0|25.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||25.4|15.0|
82480845|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|18.0|||||TWO_SIDED|95.0|10.7|27.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||27.0|10.7|
82480846|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|21.0|||||TWO_SIDED|95.0|15.6|28.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||28.8|15.6|
82553954|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|137.58|||||TWO_SIDED|90.0|115.66|163.65|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||163.65|115.66|
82553955|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|82.4|||||TWO_SIDED|90.0|62.83|108.07|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||108.07|62.83|
82376765|NCT00369486|164459880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.04||95.0|0.2|1.0|||generalized estimating equations|||Analysis combined posterior and anterior injection + laser groups to compare with laser only.||1.0|0.2|0.04
82376766|NCT00369486|164459880|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.63||95.0|0.5|2.9|||generalized estimating equations|||Analysis combined posterior and anterior injection only groups to compare with laser only treatment group.||2.9|0.5|0.63
82480847|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|12.0|||||TWO_SIDED|95.0|8.0|16.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.8|8.0|
82480848|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|20.0|||||TWO_SIDED|95.0|12.8|28.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.6|12.8|
82480849|NCT02446743|164655295|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|6.0|||||TWO_SIDED|95.0|1.5|12.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.2|1.5|
82480850|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|Vaccine group difference|27.0|||||TWO_SIDED|95.0|21.9|33.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||33.3|21.9|
82480851|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|31.0|||||TWO_SIDED|95.0|21.8|40.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||40.3|21.8|
82480852|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|26.0|||||TWO_SIDED|95.0|19.2|33.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||33.1|19.2|
82480853|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|19.0|||||TWO_SIDED|95.0|14.3|24.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||24.3|14.3|
82480854|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|19.0|||||TWO_SIDED|95.0|12.1|27.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||27.5|12.1|
82480855|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|19.0|||||TWO_SIDED|95.0|13.3|26.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||26.4|13.3|
82480856|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|43.0|||||TWO_SIDED|95.0|35.2|49.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||49.9|35.2|
82553956|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|115.25|||||TWO_SIDED|90.0|91.19|145.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||145.67|91.19|
82480857|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|58.0|||||TWO_SIDED|95.0|46.6|67.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||67.3|46.6|
82480858|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|33.0|||||TWO_SIDED|95.0|23.0|42.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||42.5|23.0|
82480859|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|13.0|||||TWO_SIDED|95.0|8.8|18.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||18.3|8.8|
82480860|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|20.0|||||TWO_SIDED|95.0|12.6|29.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||29.0|12.6|
82553957|NCT00661141|164813273|SUPERIORITY||ratio of parameter means|112.64|||||TWO_SIDED|90.0|96.14|131.98|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||131.98|96.14|
82553958|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|139.63|||||TWO_SIDED|90.0|92.18|211.51|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||211.51|92.18|
82581449|NCT00620282|164874596|SUPERIORITY_OR_OTHER||Least squares mean|-0.458||||0.0098||95.0|-0.8|-0.116||2-sided significance level of 5%.|ANCOVA|||Change in HbA1c from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HbA1c as a covariate.||-0.116|-0.8|0.0098
82480861|NCT02446743|164655296|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|8.0|||||TWO_SIDED|95.0|2.7|14.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference were calculated using the method of Miettinen and Nurminen||14.7|2.7|
82480862|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|40.0|||||TWO_SIDED|95.0|33.9|46.3|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||46.3|33.9|
82480863|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|49.0|||||TWO_SIDED|95.0|38.9|58.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.5|38.9|
82480864|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|34.0|||||TWO_SIDED|95.0|26.6|42.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||42.2|26.6|
82480865|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|27.0|||||TWO_SIDED|95.0|21.6|33.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.0|21.6|
82480866|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|23.0|||||TWO_SIDED|95.0|15.5|32.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.0|15.5|
82480867|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|30.0|||||TWO_SIDED|95.0|22.9|38.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||38.1|22.9|
82480868|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|43.0|||||TWO_SIDED|95.0|35.1|50.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||50.6|35.1|
82480869|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|51.0|||||TWO_SIDED|95.0|39.3|60.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||60.9|39.3|
82553959|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|120.76|||||TWO_SIDED|90.0|108.8|134.03|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||134.03|108.80|
82553960|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|143.39|||||TWO_SIDED|90.0|107.72|190.87|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||190.87|107.72|
82480870|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|41.0|||||TWO_SIDED|95.0|29.9|50.2|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||50.2|29.9|
82553961|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|103.13|||||TWO_SIDED|90.0|84.35|126.1|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||126.10|84.35|
82581450|NCT00620282|164874597|SUPERIORITY_OR_OTHER||Least squares mean|-35.605||||||95.0|-46.797|-24.413||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||-24.413|-46.797|
82553962|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|123.17|||||TWO_SIDED|90.0|108.61|139.67|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||139.67|108.61|
82553963|NCT00661141|164813276|SUPERIORITY||ratio of parameter means|137.17|||||TWO_SIDED|90.0|123.3|152.59|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||152.59|123.30|
82553964|NCT00661141|164813278|SUPERIORITY||ratio of parameter means|121.81|||||TWO_SIDED|90.0|108.42|136.84|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||136.84|108.42|
82553965|NCT00661141|164813278|SUPERIORITY||ratio of parameter means|123.7|||||TWO_SIDED|90.0|93.55|163.56|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||163.56|93.55|
82553966|NCT00661141|164813278|SUPERIORITY||ratio of parameter means|150.33|||||TWO_SIDED|90.0|93.14|242.63|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||242.63|93.14|
82581451|NCT00620282|164874597|SUPERIORITY_OR_OTHER||Least squares mean|-9.653||||0.0677||95.0|-20.041|0.736||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||0.736|-20.041|0.0677
82480871|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 (Group 3B vs. Group B\_0\_1)|vaccine group difference|19.0|||||TWO_SIDED|95.0|12.9|24.6|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||24.6|12.9|
82480872|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Vaccine group difference|28.0|||||TWO_SIDED|95.0|17.9|37.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||37.8|17.9|
82480873|NCT02446743|164655297|OTHER|Vaccine comparison at 1 month after booster /1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Vaccine group difference|13.0|||||TWO_SIDED|95.0|6.4|20.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.1|6.4|
82480874|NCT02446743|164655298|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|2.6|||||TWO_SIDED|95.0|2.11|3.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.20|2.11|
82480875|NCT02446743|164655298|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|11.0|||||TWO_SIDED|95.0|8.85|15.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||15|8.85|
82480876|NCT02446743|164655298|OTHER|Vaccine comparison-Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|2.18|||||TWO_SIDED|95.0|1.7|2.79|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.79|1.70|
82480877|NCT02446743|164655298|OTHER|Vaccine comparison-post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|12.0|||||TWO_SIDED|95.0|8.22|17.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||17|8.22|
82480878|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|3.04|||||TWO_SIDED|95.0|2.2|4.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.20|2.20|
82553967|NCT00661141|164813278|SUPERIORITY||ratio of parameter means|122.83|||||TWO_SIDED|90.0|82.45|183.0|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analysis for Cohort 3 where all available data were included.||183.00|82.45|
82651290|NCT01965652|165017448|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.259||0.0001|TWO_SIDED|95.0|0.49|1.51|||Mixed-effects model repeated measures|The MMRM method included the opioid dose strata as a covariate and treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||1.51|0.49|0.0001
82651291|NCT01965652|165017450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.44|-0.25|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.25|-0.44|<0.0001
82651292|NCT01965652|165017450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.36|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.14|-0.36|<0.0001
82480879|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|11.0|||||TWO_SIDED|95.0|7.75|16.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||16|7.75|
82480880|NCT02446743|164655298|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|16.0|||||TWO_SIDED|95.0|12.0|21.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||21|12|
82480881|NCT02446743|164655298|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|68.0|||||TWO_SIDED|95.0|51.0|90.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||90|51|
82480882|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|18.0|||||TWO_SIDED|95.0|13.0|26.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||26|13|
82480883|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|74.0|||||TWO_SIDED|95.0|51.0|107.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||107|51|
82581452|NCT00620282|164874597|SUPERIORITY_OR_OTHER||Least squares mean|-25.952||||||95.0|-37.429|-14.475||2-sided significance level of 5%.|ANCOVA|||Change in FPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline FPG as a covariate.||-14.475|-37.429|
82480884|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|14.0|||||TWO_SIDED|95.0|8.99|22.0|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||22|8.99|
82480885|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|63.0|||||TWO_SIDED|95.0|41.0|95.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||95|41|
82480886|NCT02446743|164655298|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.24|1.75|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.75|1.24|
82480887|NCT02446743|164655298|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|5.9|||||TWO_SIDED|95.0|4.49|7.76|||ANOVA|||Post booster dose/ post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||7.76|4.49|
82480888|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.13|1.54|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||1.54|1.13|
82480889|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|8.27|||||TWO_SIDED|95.0|5.83|12.0|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||12|5.83|
82480890|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|1.64|||||TWO_SIDED|95.0|1.22|2.2|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.20|1.22|
82500641|NCT02663232|164691985|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.822||||0.653|TWO_SIDED|95.0|0.351|1.928|||Multivariate regression analysis|Multivariate regression analysis of clinical risk factors for BRAF mutation (n=184)||The association of Melanoma Stage M1c (using Melanoma Stage IIIC as referral category) with the risk of BRAF mutation (Yes/No) was assessed using multivariate regression analysis.||1.928|0.351|0.653
82651293|NCT01965652|165017450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.4|-0.18|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.18|-0.40|<0.0001
82651294|NCT01965652|165017450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.47|-0.24|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.24|-0.47|<0.0001
82651295|NCT01965652|165017450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.35|-0.12|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.12|-0.35|<0.0001
82651296|NCT01965652|165017451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.054||0.0002|TWO_SIDED|95.0|-0.31|-0.1|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.10|-0.31|0.0002
82480891|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|4.36|||||TWO_SIDED|95.0|2.88|6.58|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||6.58|2.88|
82651297|NCT01965652|165017451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0173|TWO_SIDED|95.0|-0.26|-0.03|||Mixed-effects model repeated meaures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.03|-0.26|0.0173
82480892|NCT02446743|164655298|OTHER|"Vaccine comparison Pre-booster or pre-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|1.3|||||TWO_SIDED|95.0|0.97|1.75|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||1.75|0.97|
82480893|NCT02446743|164655298|OTHER|"Vaccine comparison Post-booster or post-1st dose in V72\_75 (Group 3B vs. Group B~\_0\_1)"|Ratio of GMTs|2.6|||||TWO_SIDED|95.0|2.08|3.25|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.25|2.08|
82480894|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|1.4|||||TWO_SIDED|95.0|0.9|2.18|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.18|0.90|
82651298|NCT01965652|165017451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.061||0.0035|TWO_SIDED|95.0|-0.3|-0.06|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.06|-0.30|0.0035
82651299|NCT01965652|165017451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.4|-0.16|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.16|-0.40|<0.0001
82651300|NCT01965652|165017451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.064||0.0336|TWO_SIDED|95.0|-0.26|-0.01|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.01|-0.26|0.0336
82651301|NCT01965652|165017452|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.37|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.14|-0.37|<0.0001
82480895|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\]|Ratio of GMTs|2.79|||||TWO_SIDED|95.0|2.04|3.81|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.81|2.04|
82480896|NCT02446743|164655298|OTHER|Vaccine comparison- Pre-booster or pre-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|1.23|||||TWO_SIDED|95.0|0.82|1.82|||ANOVA|||Pre booster/Pre first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||1.82|0.82|
82480897|NCT02446743|164655298|OTHER|Vaccine comparison- post-booster or post-1st dose in V72\_75 \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\]|Ratio of GMTs|2.45|||||TWO_SIDED|95.0|1.79|3.36|||ANOVA|||Post booster/Post first dose-Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.36|1.79|
82480898|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|27.0|||||TWO_SIDED|95.0|20.7|33.0|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.0|20.7|
82480899|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|29.0|||||TWO_SIDED|95.0|19.3|38.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||38.7|19.3|
82480900|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|26.0|||||TWO_SIDED|95.0|18.3|33.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||33.9|18.3|
82553968|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|69.13|||||TWO_SIDED|90.0|48.88|97.78|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||97.78|48.88|
82651302|NCT01965652|165017452|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.063||0.0114|TWO_SIDED|95.0|-0.28|-0.04|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.04|-0.28|0.0114
82480901|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|22.0|||||TWO_SIDED|95.0|15.9|27.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval or the difference was calculated using the method of Miettinen and Nurminen||27.9|15.9|
82480902|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|19.0|||||TWO_SIDED|95.0|11.5|28.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.5|11.5|
82480903|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|23.0|||||TWO_SIDED|95.0|14.6|31.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||31.9|14.6|
82500642|NCT02663232|164691986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of Family family history of melanoma (yes vs no) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.240
82500643|NCT02663232|164691987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.719|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of sun exposure yes vs no with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.719
82500644|NCT02663232|164691988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of primary tumor site (trunk \[referral category\] vs head and neck vs upper extremities vs lower extremities vs. visceral/mucosa) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.262
82500645|NCT02663232|164691989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.313|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of LDH (elevated \[referral category\] vs normal vs unknown) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.313
82500646|NCT02663232|164691990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.291|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of clinical risk factors for BRAF mutation||The association of time since diagnosis of primary melanoma (continuous variable) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.291
82500647|NCT02663232|164691991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.164|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of tumor sample source (primary tumor \[referral category\] vs metastases vs relapses) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.164
82500648|NCT02663232|164691992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of tumor sample type (paraffin-embedded blocks \[referral category\] vs slides of paraffin blocks vs cytology slides) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.505
82500649|NCT02663232|164691993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of method of fixation (buffered formalin \[referral category\] vs other) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.701
82500650|NCT02663232|164691994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.683|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Berslow thickness (≤1 mm \[referral category\] vs 1.01-2 mm vs 2.01-4 mm vs 4 mm) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.683
82500651|NCT02663232|164691995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Ulceration (no \[referral category\] vs yes) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.615
82500652|NCT02663232|164691996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.949|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of presence of regression (Without regression \[referral category\] vs With regression) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.949
82581453|NCT00620282|164874598|SUPERIORITY_OR_OTHER||Least squares mean|-11.871||||0.4121||95.0|-40.943|17.201||2-sided significance level of 5%.|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||17.201|-40.943|0.4121
82651303|NCT01965652|165017452|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065||0.0003|TWO_SIDED|95.0|-0.36|-0.11|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.11|-0.36|0.0003
82651304|NCT01965652|165017452|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.13|-0.38|<0.0001
82480904|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|38.0|||||TWO_SIDED|95.0|29.8|45.4|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||45.4|29.8|
82480905|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|55.0|||||TWO_SIDED|95.0|43.5|64.7|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||64.7|43.5|
82480906|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|24.0|||||TWO_SIDED|95.0|12.9|35.1|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||35.1|12.9|
82480907|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|23.0|||||TWO_SIDED|95.0|14.7|30.8|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||30.8|14.7|
82480908|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41) Difference|Vaccine group difference|24.0|||||TWO_SIDED|95.0|12.2|35.5|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||35.5|12.2|
82480909|NCT02446743|164655300|OTHER|1 month post booster/first dose of vaccination: Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10) Difference|Vaccine group difference|22.0|||||TWO_SIDED|95.0|10.6|32.9|||Miettinen and Nurminen score method|||The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.9|10.6|
82480910|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-15.0|4.5||Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||4.5|-15.0|
82480911|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|Vaccine group difference|-4.0|||||TWO_SIDED|95.0|-17.0|11.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.4|-17.0|
82480912|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-8.0|||||TWO_SIDED|95.0|-20.0|7.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||7.3|-20.0|
82480913|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||6.2|-0.9|
82500653|NCT02663232|164691997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.374|TWO_SIDED||||||Bivariate regression analysis|Bivariate regression analysis of anatomopathological risk factors for BRAF mutation||The association of Vascular invasion (Without vascular invasion \[referral category\] vs With vascular invasion) with the risk of BRAF mutation (Yes/No) was assessed using bivariate regression analysis.||||0.374
82500654|NCT04044716|164692090|SUPERIORITY|||||||0.048|||||||ANCOVA|age, joint involved in surgery, sex, baseline pain||||||.048
82500655|NCT04044716|164692091|SUPERIORITY|||||||0.29|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline pain||||||0.29
82500656|NCT04044716|164692092|SUPERIORITY|||||||0.64|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline morphine milligram equivalents (MME)||||||0.64
82500657|NCT04044716|164692093|SUPERIORITY|||||||0.86|||||||ANCOVA|adjusted for age, sex, type of surgery (joint), baseline MME, and time in hospital||||||0.86
82500658|NCT04044716|164692094|SUPERIORITY|||||||0.661||||||adjusted for age, type of surgery (joint), and sex|ANCOVA|||||||0.661
82500659|NCT00071513|164692128|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Mean changes in Short Moods and Feelings measure of depression was the unit of analysis.||||<0.05
82553969|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|124.46|||||TWO_SIDED|90.0|88.77|174.5|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||174.50|88.77|
82553970|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|105.31|||||TWO_SIDED|90.0|89.24|124.27|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||124.27|89.24|
82553971|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|88.6|||||TWO_SIDED|90.0|56.66|138.54|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||138.54|56.66|
82553972|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|70.77|||||TWO_SIDED|90.0|34.16|146.59|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||146.59|34.16|
82553973|NCT00661141|164813284|SUPERIORITY||ratio of parameter means|86.04|||||TWO_SIDED|90.0|55.78|132.73|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||132.73|55.78|
82651305|NCT01965652|165017452|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.066||0.0119|TWO_SIDED|95.0|-0.29|-0.04|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.04|-0.29|0.0119
82480914|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
82480915|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
82480916|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1(V72\_41) (1 month after booster or 2nd dose)|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
82480917|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.3|7.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-2.3|
82480918|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|Vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|4.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.1|-0.9|
82480919|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|Vaccine group difference|-20.0|||||TWO_SIDED|95.0|-35.2|-7.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-7.5|-35.2|
82480920|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-32.0|||||TWO_SIDED|95.0|-46.5|-15.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-15.7|-46.5|
82480921|NCT02446743|164655301|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|Vaccine group difference|-28.0|||||TWO_SIDED|95.0|-38.4|-17.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-17.1|-38.4|
82480922|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|9.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.2|-19.2|
82553974|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|90.2|||||TWO_SIDED|90.0|69.54|117.0|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||117.00|69.54|
82480923|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-14.1|12.3|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||12.3|-14.1|
82480924|NCT02446743|164655301|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|Vaccine group difference|-5.0|||||TWO_SIDED|95.0|-13.6|5.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||5.6|-13.6|
82480925|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Vaccine group difference|12.0|||||TWO_SIDED|95.0|3.6|21.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||21.6|3.6|
82480926|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Vaccine group difference|15.0|||||TWO_SIDED|95.0|6.4|24.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||24.6|6.4|
82480927|NCT02446743|164655301|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|Vaccine group difference|14.0|||||TWO_SIDED|95.0|7.6|20.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||20.3|7.6|
82480928|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-44.0|||||TWO_SIDED|95.0|-52.7|-33.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-33.1|-52.7|
82480929|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-3.9|3.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.6|-3.9|
82480930|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-2.7|2.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||2.4|-2.7|
82480931|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-46.0|||||TWO_SIDED|95.0|-58.4|-29.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-29.8|-58.4|
82480932|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-3.0|||||TWO_SIDED|95.0|-7.7|5.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.1|-7.7|
82480933|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.7|3.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.7|-5.7|
82553975|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|112.28|||||TWO_SIDED|90.0|103.72|121.54|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||121.54|103.72|
82553976|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|106.08|||||TWO_SIDED|90.0|96.81|116.24|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||116.24|96.81|
82553977|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|104.12|||||TWO_SIDED|90.0|83.5|129.84|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||129.84|83.50|
82480934|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|Vaccine group difference|-40.0|||||TWO_SIDED|95.0|-51.8|-25.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-25.4|-51.8|
82581454|NCT00620282|164874598|SUPERIORITY_OR_OTHER||Least squares mean|3.815||||0.7622||95.0|-21.618|29.247||2-sided significance level of 5%|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||29.247|-21.618|0.7622
82480935|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-3.3|9.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.0|-3.3|
82480936|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-2.4|5.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-2.4|
82480937|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-12.4|5.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.8|-12.4|
82480938|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.2|7.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.7|-2.2|
82480939|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|6.0|||||TWO_SIDED|95.0|2.8|10.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.5|2.8|
82480940|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-17.8|10.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.6|-17.8|
82480941|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.2|13.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.0|-3.2|
82480942|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|9.0|||||TWO_SIDED|95.0|3.7|16.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.5|3.7|
82480943|NCT02446743|164655302|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-2.0|||||TWO_SIDED|95.0|-11.8|11.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||11.0|-11.8|
82480944|NCT02446743|164655302|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-4.6|10.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.1|-4.6|
82480945|NCT02446743|164655302|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|-0.8|9.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.5|-0.8|
82480946|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-45.0|||||TWO_SIDED|95.0|-54.4|-34.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-34.3|-54.4|
82480947|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-4.5|5.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.2|-4.5|
82480948|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-1.9|3.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.9|-1.9|
82651306|NCT01965652|165017453|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.64|-0.39|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.39|-0.64|<0.0001
82553978|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|100.41|||||TWO_SIDED|90.0|77.86|129.49|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||129.49|77.86|
82553979|NCT00661141|164813287|SUPERIORITY||ratio of parameter means|94.7|||||TWO_SIDED|90.0|82.7|108.42|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||108.42|82.70|
82553980|NCT00661141|164813289|SUPERIORITY||ratio of parameter means|94.15|||||TWO_SIDED|90.0|78.01|1113.63|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|||1113.63|78.01|
82553981|NCT00661141|164813289|SUPERIORITY||ratio of parameter means|107.05|||||TWO_SIDED|90.0|87.42|131.1|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|3 participants in Cohort 3 had some residual 4-MP detected on Day 2 (Placebo treatment). As a result, the data for the participants on Day 2 were excluded from these statistical analyses, which could be compared with the analyses below where all available data were included.||131.10|87.42|
82553982|NCT00661141|164813289|SUPERIORITY||ratio of parameter means|97.9|||||TWO_SIDED|90.0|84.84|112.97|||||Ratio of parameter means (Antizol/placebo, expressed as a percent), transformed back to the linear scale. 90% confidence interval for ratio of parameter means (expressed as a percent), transformed back to the linear scale.|Analyses for Cohort 3 where all available data were included.||112.97|84.84|
82553983|NCT05290493|164813294|SUPERIORITY|||||||0.0672|||||||Mixed Models Analysis|||||||0.0672
82581455|NCT00620282|164874598|SUPERIORITY_OR_OTHER||Least squares mean|-15.686||||0.2651||95.0|-43.838|12.466||2-sided significance level of 5%.|ANCOVA|||Change in PPG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline PPG as a covariate.||12.466|-43.838|0.2651
82651307|NCT01965652|165017453|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.51|-0.26|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.26|-0.51|<0.0001
82480949|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-48.0|||||TWO_SIDED|95.0|-60.8|-32.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-32.0|-60.8|
82480950|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-7.3|10.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.1|-7.3|
82480951|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-5.7|3.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.7|-5.7|
82480952|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-41.0|||||TWO_SIDED|95.0|-53.3|-25.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-25.5|-53.3|
82480953|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.8|8.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.1|-4.8|
82480954|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-0.6|7.8|||Miettinen and Nurminen score methodx|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-0.6|
82480955|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-15.9|4.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.6|-15.9|
82553984|NCT05290493|164813295|SUPERIORITY|||||||0.2045|||||||Mixed Models Analysis|||||||0.2045
82553985|NCT05290493|164813296|SUPERIORITY|||||||0.2931|||||||Mixed Models Analysis|||||||0.2931
82553986|NCT05290493|164813297|SUPERIORITY|||||||0.7799|||||||Mixed Models Analysis|||||||0.7799
82553987|NCT05290493|164813298|SUPERIORITY|||||||0.7974|||||||Mixed Models Analysis|||||||0.7974
82553988|NCT05290493|164813299|SUPERIORITY|||||||0.8286|||||||Mixed Models Analysis|||||||0.8286
82480956|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.2|-0.9|
82480957|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|4.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.1|-0.9|
82480958|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|10.3|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.3|-19.2|
82480959|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
82480960|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
82480961|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.4|9.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.1|-19.4|
82480962|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
82480963|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.3|7.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.8|-2.3|
82480964|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-26.0|||||TWO_SIDED|95.0|-36.6|-15.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||-15.7|-36.6|
82480965|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|-3.0|||||TWO_SIDED|95.0|-13.3|8.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.5|-13.3|
82480966|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|21.0|||||TWO_SIDED|95.0|12.8|28.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.3|12.8|
82480967|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-18.0|||||TWO_SIDED|95.0|-32.5|-5.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-5.8|-32.5|
82480968|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|-7.0|||||TWO_SIDED|95.0|-22.3|9.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.5|-22.3|
82480969|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|20.0|||||TWO_SIDED|95.0|8.4|31.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||31.3|8.4|
82500660|NCT00071513|164692128|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||A secondary hypothesis of the study was that attachment to school and/or perceptions of school supportiveness would mediate the effect of the HSTS intervention on depressive symptoms.||||<0.01
82480970|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-31.0|||||TWO_SIDED|95.0|-46.0|-15.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-15.5|-46.0|
82480971|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-10.8|18.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||18.8|-10.8|
82480972|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month days after booster or 2nd dose)|vaccine group difference|22.0|||||TWO_SIDED|95.0|12.1|32.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||32.8|12.1|
82480973|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-13.4|7.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.1|-13.4|
82480974|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-3.2|8.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.5|-3.2|
82480975|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|4.2|13.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.2|4.2|
82553989|NCT05419830|164813301|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in sleep time dip in systolic BP. Analysis was adjusted for baseline value of the outcome||||||0.65|||||||ANCOVA|||||||0.65
82553990|NCT05419830|164813302|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in nocturia frequency. Analysis was adjusted for baseline value of the outcome||||||0.66|||||||ANCOVA|||||||0.66
82553991|NCT05419830|164813303|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in NPi. Analysis was adjusted for baseline value of the outcome||||||0.14|||||||ANCOVA|||||||0.14
82553992|NCT05419830|164813304|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in PSQI scores. Analysis was adjusted for baseline value of the outcome||||||0.2|||||||ANCOVA|||||||0.2
82553993|NCT05419830|164813305|OTHER|Three-group ANCOVA comparisons were completed using pre- to post-intervention changes in sleep efficiency. Analysis was adjusted for baseline value of the outcome||||||0.02|||||||ANCOVA|||||||0.02
82553994|NCT05012163|164813306|SUPERIORITY|||||||0.506||||||Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket and patients sent messages offering $1 cash in exchange for vaccination; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those sent messages offering $1 cash.||||.506
82553995|NCT05012163|164813306|SUPERIORITY|||||||0.378||||||Comments: Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket in exchange for vaccination and those sent active control messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those sent active control messages.||||0.378
82553996|NCT05012163|164813306|SUPERIORITY||||||<|0.001||||||Pairwise comparisons between patients offered scratch-off tickets for vaccination and those in other arms (Analyses 1, 2 and 3) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering a scratch-off lottery ticket in exchange for vaccination and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering scratch-off tickets compared to those who were not sent messages.||||<.001
82581456|NCT00620282|164874599|SUPERIORITY_OR_OTHER||Least squares mean|-1.528||||0.0268||95.0|-2.873|-0.184||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||-0.184|-2.873|0.0268
82553997|NCT05012163|164813306|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent active control messages and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent active control messages compared to those who were not sent messages.||||<.001
82553998|NCT05012163|164813306|SUPERIORITY|Pairwise comparisons between patients offered cash for vaccination and those in active or passive control (Analyses 5 and 6) were analyzed in the same regression.||||||0.121|||||||Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering $1 cash in exchange for vaccination and those sent active control messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering $1 cash compared to those sent active control messages.||||.121
82480976|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-15.1|16.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||16.1|-15.1|
82480977|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-4.7|13.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.9|-4.7|
82480978|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|12.0|||||TWO_SIDED|95.0|5.9|20.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||20.9|5.9|
82480979|NCT02446743|164655303|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.7|8.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||8.6|-16.7|
82480980|NCT02446743|164655303|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-5.7|11.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.1|-5.7|
82480981|NCT02446743|164655303|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|5.0|||||TWO_SIDED|95.0|-0.7|11.1||||||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.1|-0.7|
82480982|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-30.0|||||TWO_SIDED|95.0|-40.4|-19.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-19.0|-40.4|
82480983|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-2.6|10.3|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.3|-2.6|
82480984|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|3.9|12.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.5|3.9|
82480985|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-27.0|||||TWO_SIDED|95.0|-41.8|-12.9|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-12.9|-41.8|
82480986|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-6.0|16.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.2|-6.0|
82480987|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|7.0|||||TWO_SIDED|95.0|1.4|15.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.2|1.4|
82480988|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-31.0|||||TWO_SIDED|95.0|-45.1|-14.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-14.6|-45.1|
82480989|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|1.9|13.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||13.5|1.9|
82651308|NCT01965652|165017453|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.54|-0.27|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.27|-0.54|<0.0001
82480990|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|8.0|||||TWO_SIDED|95.0|4.4|15.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.0|4.4|
82480991|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.0|6.5|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.5|-16.0|
82480992|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-0.9|6.2|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.2|-0.9|
82480993|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-0.33|5.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-0.33|
82480994|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-20.5|10.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||10.6|-20.5|
82480995|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|8.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.8|-3.6|
82480996|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-3.6|4.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.4|-3.6|
82480997|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-19.4|13.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||13.0|-19.4|
82480998|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|2.0|||||TWO_SIDED|95.0|-2.5|11.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.0|-2.5|
82480999|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.2|9.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||9.4|-1.2|
82481000|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-20.0|||||TWO_SIDED|95.0|-30.0|-11.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-11.1|-30.0|
82481001|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|4.0|||||TWO_SIDED|95.0|-7.6|15.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.7|-7.6|
82553999|NCT05012163|164813306|SUPERIORITY|||||||0.002||||||Pairwise comparisons between patients offered cash for vaccination and those in active or passive control (Analyses 5 and 6) were analyzed in the same regression.|Regression, Linear|||Null hypothesis: There is no difference in vaccination rates between patients sent messages offering $1 cash in exchange for vaccination and those sent no study messages; Alternative hypothesis: the vaccination rate is higher in patients sent messages offering $1 cash compared to those who were not sent messages.||||.002
82554000|NCT05062330|164813340|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.67|4.13|||Generalized estimating equation|||||4.13|1.67|<0.0001
82554001|NCT02567409|164813349|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.69|1.98|||||Hazard ratio relative to arm B.|||1.98|0.69|
82554002|NCT02567409|164813350|SUPERIORITY||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.71|2.48|||||Hazard ratio relative to arm B.|||2.48|0.71|
82554003|NCT02567409|164813351|SUPERIORITY|||||||0.51|||||||Fisher Exact|||||||0.51
82554004|NCT03673501|164813399|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3598|TWO_SIDED|95.0|0.66|1.16|||Log Rank|Strata: by intolerance to imatinib treatment||||1.16|0.66|0.3598
82651309|NCT01965652|165017453|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.071|<|0.0001|TWO_SIDED|95.0|-0.62|-0.34|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.34|-0.62|<0.0001
82651310|NCT01965652|165017453|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|-0.52|-0.23|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.23|-0.52|<0.0001
82651311|NCT01965652|165017454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|-0.49|-0.3|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.30|-0.49|<0.0001
82481002|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|32.0|||||TWO_SIDED|95.0|23.2|40.2|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||40.2|23.2|
82481003|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-13.0|||||TWO_SIDED|95.0|-25.9|-3.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-3.0|-25.9|
82481004|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-17.1|15.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.9|-17.1|
82651312|NCT01965652|165017454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.46|-0.26|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.26|-0.46|<0.0001
82651313|NCT01965652|165017454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.43|-0.22|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.22|-0.43|<0.0001
82481005|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|33.0|||||TWO_SIDED|95.0|20.5|45.3|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||45.3|20.5|
82481006|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-25.0|||||TWO_SIDED|95.0|-40.1|-11.2|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||-11.2|-40.1|
82481007|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|12.0|||||TWO_SIDED|95.0|-3.9|28.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||28.1|-3.9|
82481008|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|33.0|||||TWO_SIDED|95.0|22.0|44.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||44.1|22.0|
82481009|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B vs Day 34 Group B\_0\_1 (3 days after booster or 2nd dose)|vaccine group difference|-5.0|||||TWO_SIDED|95.0|-16.0|6.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.0|-16.0|
82481010|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B vs Day 38 Group B\_0\_1 (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-6.8|8.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||8.9|-6.8|
82554005|NCT03673501|164813400|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7153|TWO_SIDED|95.0|0.82|1.33||Two-sided P-value|Log Rank|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib treatment||||1.33|0.82|0.7153
82554006|NCT03673501|164813401|SUPERIORITY|||||||0.0333|||||||Cochran-Mantel-Haenszel|Strata: intolerance to imatinib treatment||||||0.0333
82554007|NCT03673501|164813402|SUPERIORITY|||||||0.2681|||||||Cochran-Mantel-Haenszel|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib treatment||||||0.2681
82554008|NCT03673501|164813403|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7733|TWO_SIDED|95.0|0.75|1.48|||Log Rank|Strata: intolerance to imatinib treatment||||1.48|0.75|0.7733
82481011|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B vs Day 61 Group B\_0\_1 (1 month after booster or 2nd dose)|vaccine group difference|11.0|||||TWO_SIDED|95.0|5.3|16.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||16.9|5.3|
82481012|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72\_41) vs Day 34 Group B\_0\_1 (V72\_41) (3 days after booster or 2nd dose)|vaccine group difference|-2.0|||||TWO_SIDED|95.0|-18.0|14.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||14.1|-18.0|
82481013|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72\_41) vs Day 38 Group B\_0\_1 (V72\_41) (7 days after booster or 2nd dose)|vaccine group difference|1.0|||||TWO_SIDED|95.0|-9.7|15.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||15.7|-9.7|
82481014|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|vaccine group difference|17.0|||||TWO_SIDED|95.0|8.2|27.8|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||27.8|8.2|
82481015|NCT02446743|164655304|OTHER|Vaccine comparison at Day 4 Group 3B (V72P10) vs Day 34 Group B\_0\_1 (V72P10) (3 days after booster or 2nd dose)|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.1|9.1|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||9.1|-19.1|
82481016|NCT02446743|164655304|OTHER|Vaccine comparison at Day 8 Group 3B (V72P10) vs Day 38 Group B\_0\_1 (V72P10) (7 days after booster or 2nd dose)|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.4|11.8|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||11.8|-8.4|
82481017|NCT02446743|164655304|OTHER|Vaccine comparison at Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|vaccine group difference|6.0|||||TWO_SIDED|95.0|-0.47|12.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||12.6|-0.47|
82481018|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|3.49|||||TWO_SIDED|95.0|2.85|4.29|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||4.29|2.85|
82481019|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|2.73|||||TWO_SIDED|95.0|2.02|3.69|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.69|2.02|
82481020|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|4.46|||||TWO_SIDED|95.0|3.38|5.88|||ANOVA|||Adjusted geometric mean titers for H44/76 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||5.88|3.38|
82481021|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|8.18|||||TWO_SIDED|95.0|6.51|10.0|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||10|6.51|
82481022|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|9.58|||||TWO_SIDED|95.0|7.17|13.0|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||13|7.17|
82481023|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|6.9|||||TWO_SIDED|95.0|4.82|9.87|||ANOVA|||Adjusted geometric mean titers for 5/99 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||9.87|4.82|
82481024|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|2.58|||||TWO_SIDED|95.0|1.98|3.36|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||3.36|1.98|
82481025|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|2.65|||||TWO_SIDED|95.0|1.89|3.73|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.73|1.89|
82481026|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|2.51|||||TWO_SIDED|95.0|1.67|3.78|||ANOVA|||Adjusted geometric mean titers for NZ98/254 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||3.78|1.67|
82481027|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B vs Day 61 Group B\_0\_1(1 month after booster or 2nd dose)|Ratio of GMTs|1.9|||||TWO_SIDED|95.0|1.52|2.36|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country||2.36|1.52|
82481028|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72\_41) vs Day 61 Group B\_0\_1 (V72\_41) (1 month after booster or 2nd dose)|Ratio of GMTs|1.88|||||TWO_SIDED|95.0|1.37|2.59|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.59|1.37|
82481029|NCT02446743|164655305|OTHER|Vaccine Comparison Day 31 Group 3B (V72P10) vs Day 61 Group B\_0\_1 (V72P10) (1 month after booster or 2nd dose)|Ratio of GMTs|1.91|||||TWO_SIDED|95.0|1.41|2.58|||ANOVA|||Adjusted geometric mean titers for M10713 indicator strain were obtained by exponentiating (base 10) the least square means and the lower and upper limits of the 95% confidence intervals of the log-transformed titers obtained from an ANOVA estimation adjusting for vaccine group and country.||2.58|1.41|
82481030|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|-2.0|||||TWO_SIDED|95.0|-7.5|1.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||1.8|-7.5|
82481031|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|53.0|||||TWO_SIDED|95.0|42.1|62.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||62.5|42.1|
82481032|NCT02446743|164655307|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|58.0|||||TWO_SIDED|95.0|50.5|64.7|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||64.7|50.5|
82481033|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|-4.0|||||TWO_SIDED|95.0|-14.1|2.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||2.0|-14.1|
82481034|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|44.0|||||TWO_SIDED|95.0|28.1|58.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.5|28.1|
82481035|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|44.0|||||TWO_SIDED|95.0|32.7|54.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||54.1|32.7|
82481036|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.0|4.8|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||4.8|-8.0|
82481037|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|60.0|||||TWO_SIDED|95.0|45.0|71.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||71.5|45.0|
82481038|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|71.0|||||TWO_SIDED|95.0|61.2|78.5|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain H44/76 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||78.5|61.2|
82554009|NCT03673501|164813404|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.3928|TWO_SIDED|95.0|0.66|1.18|||Log Rank|Strata: mutation status (KIT exon 9 vs. 11 vs. KIT/PDGFRA WT vs. other KIT {absence of exon 9 or 11}/PDGFRA) and intolerance to imatinib||||1.18|0.66|0.3928
82554010|NCT05237284|164813405|SUPERIORITY|||||||0.6999|||||||Wilcoxon (Mann-Whitney)|||CAFS at Week 24 was analyzed using the Wilcoxon-Mann-Whitney test to compare mean scores between the treatment groups at Week 24.||||0.6999
82581457|NCT00620282|164874599|SUPERIORITY_OR_OTHER||Least squares mean|-2.859||||||95.0|-4.139|-1.579||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||-1.579|-4.139|
82481039|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|-1.0|||||TWO_SIDED|95.0|-9.1|4.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||4|-9.1|
82554011|NCT05237284|164813408|SUPERIORITY||LS Mean Difference|0.52||||0.2182|TWO_SIDED|95.0|-0.31|1.35|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline ALSFRS-R score, baseline NfL, disease duration-by-visit interaction, and baseline ALSFRS-R score-by-visit interaction.||1.350|-0.310|0.2182
82581458|NCT00620282|164874599|SUPERIORITY_OR_OTHER||Least squares mean|1.331||||0.0486||95.0|0.009|2.653||2-sided significance level of 5%.|ANCOVA|||Change in body weight from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline body weight as a covariate.||2.653|0.0090|0.0486
82481040|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|37.0|||||TWO_SIDED|95.0|27.0|48.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||48.1|27.0|
82554012|NCT05237284|164813409|SUPERIORITY||LS Mean Difference|0.419||||0.8134|TWO_SIDED|95.0|-3.075|3.914|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline SVC, baseline NfL, disease duration-by-visit interaction, baseline NfL-by-visit interaction, and baseline SVC-by-visit interaction.||3.914|-3.075|0.8134
82554013|NCT05237284|164813410|SUPERIORITY||Ratio of the LS Geometric Mean Ratios|0.961||||0.2356|TWO_SIDED|95.0|0.899|1.027|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, log transformed baseline NfL, disease duration-by-visit interaction, and log transformed baseline NfL-by-visit interaction.||1.027|0.899|0.2356
82554014|NCT05237284|164813411|SUPERIORITY||LS Mean difference|-0.005||||0.9565|TWO_SIDED|95.0|-0.193|0.183|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline megascore, baseline NfL, disease duration-by-visit interaction, baseline NfL-by-visit interaction and baseline megascore-by-visit interaction.||0.183|-0.193|0.9565
82581459|NCT00620282|164874600|SUPERIORITY_OR_OTHER||Least squares mean|-2.237||||0.7736||95.0|-17.829|13.354||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||13.354|-17.829|0.7736
82554015|NCT05237284|164813416|SUPERIORITY||Least Square (LS) Mean Difference|-0.414||||0.5289|TWO_SIDED|95.0|-1.706|0.878|||MMRM|||Analysis was performed using MMRM including treatment group, visit, randomization strata of the geographic region, ALS onset region, use of riluzole, use of edaravone, use of the combination of sodium phenylbutyrate and taurursodiol, treatment-by-visit interaction, disease duration, baseline ALSFRS-R score, baseline serum neurofilament light chain (NfL), disease duration-by-visit interaction, baseline NfL-by-visit interaction and baseline ALSFRS-R score-by-visit interaction.||0.878|-1.706|0.5289
82554016|NCT05237284|164813417|SUPERIORITY|||||||0.183|||||||ANCOVA|||Analysis was performed using rank analysis of covariance (ANCOVA) model including treatment group, randomization strata of the geographic region of the study site, ALS onset region (bulbar or other areas), use of riluzole (yes or no), use of edaravone (yes or no), use of the combination of sodium phenylbutyrate and taurursodiol (yes or no), disease duration (from first symptom onset to the screening visit), baseline ALSFRS-R score and baseline NfL.||||0.1830
82581460|NCT00620282|164874600|SUPERIORITY_OR_OTHER||Least squares mean|1.912||||0.7993||95.0|-13.168|16.991||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||16.991|-13.168|0.7993
82581461|NCT00620282|164874600|SUPERIORITY_OR_OTHER||Least squares mean|-4.149||||0.5903||95.0|-19.582|11.284||2-sided significance level of 5%.|ANCOVA|||Change in TC from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TC as a covariate.||11.284|-19.582|0.5903
82581462|NCT00620282|164874601|SUPERIORITY_OR_OTHER||Least squares mean|3.702||||0.5583||95.0|-8.96|16.365||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||16.365|-8.96|0.5583
82581463|NCT00620282|164874601|SUPERIORITY_OR_OTHER||Least squares mean|2.773||||0.6517||95.0|-9.537|15.082||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||15.082|-9.537|0.6517
82651314|NCT01965652|165017454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.5|-0.29|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.29|-0.50|<0.0001
82481041|NCT02446743|164655307|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|33.0|||||TWO_SIDED|95.0|25.2|40.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||40.4|25.2|
82481042|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|2.0|||||TWO_SIDED|95.0|-8.7|10.2|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||10.2|-8.7|
82481043|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|43.0|||||TWO_SIDED|95.0|27.7|58.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||58.6|27.7|
82481044|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|42.0|||||TWO_SIDED|95.0|31.1|53.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||53.0|31.1|
82481045|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|-6.0|||||TWO_SIDED|95.0|-19.2|0.9|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||0.9|-19.2|
82481046|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|32.0|||||TWO_SIDED|95.0|18.2|47.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||47.0|18.2|
82481047|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|24.0|||||TWO_SIDED|95.0|13.2|34.4|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain 5/99 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||34.4|13.2|
82481048|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-4.7|3.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||3.4|-4.7|
82481049|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|Vaccine group difference|36.0|||||TWO_SIDED|95.0|25.6|45.7|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||45.7|25.6|
82481050|NCT02446743|164655307|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|54.0|||||TWO_SIDED|95.0|45.2|61.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||61.1|45.2|
82481051|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.4|5.0|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.0|-8.4|
82481052|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|vaccine group difference|29.0|||||TWO_SIDED|95.0|12.1|43.0|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||43.0|12.1|
82554017|NCT00670241|164813469|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.42|||<|0.001|TWO_SIDED|95.0|2.05|5.7|||Cochran-Mantel-Haenszel|||||5.70|2.05|< 0.001
82481053|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|46.0|||||TWO_SIDED|95.0|33.6|57.1|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/154 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||57.1|33.6|
82481054|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-8.0|5.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.4|-8.0|
82481055|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|42.0|||||TWO_SIDED|95.0|27.8|54.5|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||54.5|27.8|
82554018|NCT00670241|164813470|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.51|||<|0.001|TWO_SIDED|98.33|1.46|8.4|||Cochran-Mantel-Haenszel|||||8.40|1.46|<0.001
82481056|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|vaccine group difference|60.0|||||TWO_SIDED|95.0|47.9|69.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain NZ98/254 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||69.6|47.9|
82481057|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|3.0|||||TWO_SIDED|95.0|-1.1|5.4|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||5.4|-1.1|
82481058|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|28.0|||||TWO_SIDED|95.0|19.1|34.9|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen.||34.9|19.1|
82481059|NCT02446743|164655307|OTHER|1 Month Post Booster/Second Vaccination. Four-fold Increase (Group 3B vs. Group B\_0\_1) Difference|vaccine group difference|39.0|||||TWO_SIDED|95.0|31.6|46.6|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||46.6|31.6|
82481060|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|2.0|||||TWO_SIDED|95.0|-4.9|6.7|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||6.7|-4.9|
82481061|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|25.0|||||TWO_SIDED|95.0|9.7|37.1|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||37.1|9.7|
82481062|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72\_41) vs. Group B\_0\_1 (V72\_41)\] Difference|Vaccine group difference|37.0|||||TWO_SIDED|95.0|25.1|47.0|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||47.0|25.1|
82481063|NCT02446743|164655307|OTHER|3 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|3.0|||||TWO_SIDED|95.0|-3.9|7.6|||Miettinen and Nurminen score method|||3 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||7.6|-3.9|
82481064|NCT02446743|164655307|OTHER|7 Days Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|28.0|||||TWO_SIDED|95.0|20.2|36.6|||Miettinen and Nurminen score method|||7 days post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||36.6|20.2|
82481065|NCT02446743|164655307|OTHER|1 month Post Booster/Second Vaccination. Four-fold Increase \[Group 3B (V72P10) vs. Group B\_0\_1 (V72P10)\] Difference|Vaccine group difference|42.0|||||TWO_SIDED|95.0|31.0|51.9|||Miettinen and Nurminen score method|||1 month post vaccination-The group difference in percentages of subjects with response against N. meningitidis serogroup B indicator strain M10713 and the associated confidence interval for the difference was calculated using the method of Miettinen and Nurminen||51.9|31.0|
82481066|NCT00039871|164655315|SUPERIORITY_OR_OTHER||Binomial Approximation|0.217||||||99.0|0.195|0.239||||||||0.239|0.195|
82481067|NCT00039871|164655316|SUPERIORITY_OR_OTHER||Binomial Approximation|0.563||||||95.0|0.529|0.596||||||||0.596|0.529|
82481068|NCT00039871|164655317|SUPERIORITY_OR_OTHER||Binomial Approximation|0.122||||||95.0|0.076|0.169||||||||0.169|0.076|
82481069|NCT02478398|164655321|SUPERIORITY||Mean Difference (Final Values)|-2.73|||<|0.001|TWO_SIDED|95.0|-3.45|-2.0|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-2.00|-3.45|< 0.001
82481070|NCT02478398|164655322|SUPERIORITY||Difference in LS Mean|-1.86|||<|0.001|TWO_SIDED|95.0|-2.46|-1.27|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-1.27|-2.46|< 0.001
82481071|NCT02478398|164655323|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.001|TWO_SIDED|95.0|-1.81|-0.99|||ANOVA|Model included fixed effects of treatment, baseline asthma status, age group, pollen season, and pollen region nested within pollen season||||-0.99|-1.81|< 0.001
82481072|NCT02478398|164655324|SUPERIORITY||Mean Difference (Final Values)|-1.84|||<|0.001|TWO_SIDED|95.0|-2.6|-1.08|||Zero-Inflated Log-Normal Model|Model included fixed effects of treatment, baseline asthma, age group, pollen season, and pollen region nested within pollen season||||-1.08|-2.60|< 0.001
82481073|NCT02478398|164655325|OTHER||Difference in % estimates|37.61|||<|0.001|TWO_SIDED|95.0|31.82|43.12|||Miettinen & Nurminen|||||43.12|31.82|< 0.001
82481074|NCT02478398|164655326|OTHER||Difference in % estimates|0.39|||=|0.32|TWO_SIDED|95.0|-0.57|1.53|||Miettinen & Nurminen|||||1.53|-0.57|= 0.320
82554019|NCT00670241|164813471|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.7|||<|0.001|TWO_SIDED|98.33|-22.6|-6.9|||ANOVA|||||-6.90|-22.6|<0.001
82554020|NCT03213873|164813480|SUPERIORITY||Interaction effect time x group|0.4||||0.57|TWO_SIDED|95.0|-1.0|1.9|||Mixed Models Analysis|||||1.9|-1.0|0.57
82554021|NCT03213873|164813481|SUPERIORITY||Interaction effect time x group|0.05||||0.25|TWO_SIDED|95.0|-0.03|0.12|||Mixed Models Analysis|||||0.12|-0.03|0.25
82554022|NCT03213873|164813482|SUPERIORITY||Interaction effect time x group|0.2||||0.75|TWO_SIDED|95.0|-0.8|1.1|||Mixed Models Analysis|||||1.1|-0.8|0.75
82554023|NCT05683340|164813502|SUPERIORITY||Least squares mean difference|-21.78|STANDARD_ERROR_OF_MEAN|2.482||0.001|TWO_SIDED|95.0|-26.71|-16.85|||MMRM||The least squares mean difference was calculated as the value for the ETC-1002 180 mg arm minus the value for the placebo arm.|||-16.85|-26.71|0.001
82554024|NCT03505008|164813517|NON_INFERIORITY|Two-sided 90% CI for the intergroup difference in SDAI remission rates to exceed the non-inferiority margin of -15%|Risk Difference (RD)|0.0|||||TWO_SIDED|90.0||||||||||||
82554025|NCT03583333|164813529|NON_INFERIORITY|Non-inferiority margin for the difference in mortality (IMI/REL minus PIP/TAZ) was 12.5%.|Adjusted difference in percentage|5.2||||0.024|TWO_SIDED|95.0|-1.5|12.4|||Miettinen & Nurminen method||Adjusted differences and the 95% confidence intervals (CIs) are based on Miettinen \& Nurminen method stratified by randomization stratum.|||12.4|-1.5|0.024
82554026|NCT03583333|164813529|SUPERIORITY||Adjusted difference in percentage|5.2||||0.938|TWO_SIDED|95.0|-1.5|12.4|||Miettinen & Nurminen|Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.||||12.4|-1.5|0.938
82554027|NCT03583333|164813530|OTHER||Adjusted difference in percentage|3.1|||||TWO_SIDED|95.0|-8.7|14.9|||||Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.9|-8.7|
82554028|NCT03583333|164813531|OTHER||Adjusted difference in percentage|2.2|||||TWO_SIDED|95.0|-12.4|16.8|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||16.8|-12.4|
82554029|NCT03583333|164813532|OTHER||Adjusted difference in percentage|3.4|||||TWO_SIDED|95.0|-7.6|14.3|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.3|-7.6|
82554030|NCT03583333|164813533|OTHER||Adjusted difference in percentage|-4.7|||||TWO_SIDED|95.0|-15.8|6.6|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||6.6|-15.8|
82554031|NCT03583333|164813534|OTHER||Adjusted difference in percentage|-2.4|||||TWO_SIDED|95.0|-17.8|13.1|||||Adjusted differences and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||13.1|-17.8|
82581464|NCT00620282|164874601|SUPERIORITY_OR_OTHER||Least squares mean|0.929||||0.8822||95.0|-11.646|13.505||2-sided significance level of 5%.|ANCOVA|||Change in LDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline LDL-C as a covariate.||13.505|-11.646|0.8822
82581465|NCT00620282|164874602|SUPERIORITY_OR_OTHER||Least squares mean|-0.169||||0.9131||95.0|-3.273|2.935||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||2.935|-3.273|0.9131
82581466|NCT00620282|164874602|SUPERIORITY_OR_OTHER||Least squares mean|-0.723||||0.6362||95.0|-3.785|2.339||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||2.339|-3.785|0.6362
82554032|NCT03583333|164813535|OTHER||Adjusted difference in percentage|1.4|||||TWO_SIDED|95.0|-16.5|19.8|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||19.8|-16.5|
82554033|NCT03583333|164813536|OTHER||Adjusted difference in percentage|-3.1|||||TWO_SIDED|95.0|-19.8|14.4|||||Adjusted difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||14.4|-19.8|
82554034|NCT03583333|164813537|OTHER||Adjusted difference in percentage|2.0|||||TWO_SIDED|95.0|-6.5|10.6|||||Difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||10.6|-6.5|
82554035|NCT03583333|164813538|OTHER||Adjusted difference in percentage|-4.4|||||TWO_SIDED|95.0|-10.7|1.4|||||Difference and the 95% CIs are based on Miettinen \& Nurminen method stratified by randomization stratum.|||1.4|-10.7|
82554036|NCT01866163|164813570|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|30.27|||<|0.001|TWO_SIDED|95.0|9.72|94.3|||Mantel Haenszel|||Multiple imputations were used to handle missing data.||94.30|9.72|<0.001
82554037|NCT01866163|164813571|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.28|||<|0.001|TWO_SIDED|95.0|-3.9|-2.67|||ANOVA|||The mean value and CIs were adjusted for the effect of pooled centres and baseline m-PASI. Multiple imputation was used to handle missing data.||-2.67|-3.90|<0.001
82554038|NCT01866163|164813572|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.76|-0.78|||ANOVA|||The mean value and CIs were adjusted for the effect of pooled centres and baseline m-PASI. Multiple imputation was used to handle missing data.||-0.78|-1.76|<0.001
82581467|NCT00620282|164874602|SUPERIORITY_OR_OTHER||Least squares mean|0.554||||0.7283||95.0|-2.643|3.751||2-sided significance level of 5%.|ANCOVA|||Change in HDL-C from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline HDL-C as a covariate.||3.751|-2.643|0.7283
82376767|NCT00369486|164459881|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||repeated measures least sq. regression|Adjusted for baseline values and for the correlated data from subjects with two study eyes.||Comparison of the mean change in visual acuity letter score among the five groups at 34 weeks. Negative changes represent a worsening in visual acuity.||||0.94
82554039|NCT05736458|164813665|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.66|TWO_SIDED||||||t-test, 2 sided|||Of the 23 participants who completed all study procedures, 2 participant's data was unusable for this analysis. Statistics are from paired 2 tailed t-test comparing pre-rTMS 2-back percent accuracy scores for participant's high and low controllability target.||||0.66
82554040|NCT05736458|164813666|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.43|TWO_SIDED||||||t-test, 2 sided|df = 19||Statistics are from 2-tailed t-test comparing pre-rTMS to post-rTMS 2-back accuracy scores for a high controllability TMS target. Alternative hypothesis: true mean is not equal to 0.||||0.43
82581468|NCT00620282|164874603|SUPERIORITY_OR_OTHER||Least squares mean|-36.709||||0.0694||95.0|-76.467|3.048||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||3.048|-76.467|0.0694
82481075|NCT02478398|164655327|OTHER||Difference in % estimates|0.0|||=|0.996|TWO_SIDED|95.0|-0.92|0.92|||Miettinen & Nurminen|||||0.92|-0.92|= 0.996
82481076|NCT02142387|164655333|OTHER|||||||0.34|TWO_SIDED|95.0|||||Chi-squared|||||||0.34
82481077|NCT02142387|164655334|OTHER|||||||0.7|||||||Chi-squared|||||||0.7
82481078|NCT02142387|164655335|OTHER|||||||0.11|||||||Chi-squared|||||||0.11
82481079|NCT00420641|164655347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78||||0.485|TWO_SIDED|90.0|-2.6|1.05|||Mixed Model Repeated Measures (MMRM)||The point estimate was calculated as least square (LS) mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MADRS total score at Week 10.||1.05|-2.60|0.485
82481080|NCT00420641|164655347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.99||||0|TWO_SIDED|90.0|-5.75|-2.22|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS total score at Week 10.||-2.22|-5.75|0.000
82481081|NCT00420641|164655348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.252|TWO_SIDED|90.0|-1.28|0.23|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in Bech score at Week 10.||0.23|-1.28|0.252
82481082|NCT00420641|164655348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0|TWO_SIDED|90.0|-2.49|-1.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS total score at Week 10.||-1.05|-2.49|0.000
82481083|NCT00420641|164655349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.66||||0.279|TWO_SIDED|90.0|-4.19|0.87|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR total score at Week 10.||0.87|-4.19|0.279
82481084|NCT00420641|164655349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.12||||0.001|TWO_SIDED|90.0|-7.55|-2.68|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR total score at Week 10.||-2.68|-7.55|0.001
82481085|NCT00420641|164655350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05||||0.287|TWO_SIDED|90.0|-5.23|1.12|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-SR total score at Week 10.||1.12|-5.23|0.287
82481086|NCT00420641|164655350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.23||||0.001|TWO_SIDED|90.0|-9.21|-3.25|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-SR total score at Week 10.||-3.25|-9.21|0.001
82481087|NCT00420641|164655351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.352|TWO_SIDED|90.0|-1.47|0.41|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in QIDS-CR16 total score at Week 10.||0.41|-1.47|0.352
82481088|NCT00420641|164655351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.002|TWO_SIDED|90.0|-2.62|-0.81|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in QIDS-CR16 total score at Week 10.||-0.81|-2.62|0.002
82481089|NCT00420641|164655352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.168|TWO_SIDED|90.0|-2.27|0.2|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in QIDS-SR16 total score at Week 10.||0.20|-2.27|0.168
82481090|NCT00420641|164655352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.12||||0.002|TWO_SIDED|90.0|-3.27|-0.97|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in QIDS-SR16 total score at Week 10.||-0.97|-3.27|0.002
82481091|NCT00420641|164655353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.257|TWO_SIDED|90.0|-0.46|0.09|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MADRS Item 2 score at Week 10.||0.09|-0.46|0.257
82481092|NCT00420641|164655353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.001|TWO_SIDED|90.0|-0.77|-0.25|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MADRS Item 2 score at Week 10.||-0.25|-0.77|0.001
82481093|NCT00420641|164655354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.096|TWO_SIDED|90.0|-0.33|0.0|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR Item 5 score at Week 10.||-0.00|-0.33|0.096
82481094|NCT00420641|164655354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0|TWO_SIDED|90.0|-0.53|-0.22|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR Item 5 at Week 10.||-0.22|-0.53|0.000
82554041|NCT05736458|164813666|SUPERIORITY||Mean Difference (Final Values)|6.36|||<|0.04|TWO_SIDED||||||t-test, 2 sided|df = 20||Statistics are from 2-tailed t-test comparing pre-rTMS and post-rTMS 2-back percent accuracy scores for a low controllability TMS target. Alternative hypothesis: true mean is not equal to 0.||||<0.04
82481095|NCT00420641|164655355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.576|TWO_SIDED|90.0|-1.84|0.91|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in HAMD-17 total score at Week 10.||0.91|-1.84|0.576
82481096|NCT00420641|164655355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||0|TWO_SIDED|90.0|-4.28|-1.64|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in HAMD-17 total score at Week 10.||-1.64|-4.28|0.000
82481097|NCT00420641|164655356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.209|TWO_SIDED|90.0|-0.38|0.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in HAMD-17 Item 1 score at Week 10.||0.05|-0.38|0.209
82481098|NCT00420641|164655356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.002|TWO_SIDED|90.0|-0.6|-0.19|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in HAMD-17 Item 1 score at Week 10.||-0.19|-0.60|0.002
82481099|NCT00420641|164655357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.175|TWO_SIDED|90.0|-1.23|0.12|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-CR 5 Item subscale total score at Week 10.||0.12|-1.23|0.175
82651315|NCT01965652|165017454|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.42|-0.2|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.20|-0.42|<0.0001
82481100|NCT00420641|164655357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.003|TWO_SIDED|90.0|-1.79|-0.5|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-CR 5 Item subscale total score at Week 10.||-0.50|-1.79|0.003
82581469|NCT00620282|164874603|SUPERIORITY_OR_OTHER||Least squares mean|-3.786||||0.844||95.0|-42.373|34.801||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||34.801|-42.373|0.844
82581470|NCT00620282|164874603|SUPERIORITY_OR_OTHER||Least squares mean|-32.923||||0.0994||95.0|-72.353|6.507||2-sided significance level of 5%.|ANCOVA|||Change in TG from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TG as a covariate.||6.507|-72.353|0.0994
82481101|NCT00420641|164655357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.99||||0.082|TWO_SIDED|90.0|-1.92|-0.05|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in IDS-SR 5 Item subscale total score at Week 10.||-0.05|-1.92|0.082
82481102|NCT00420641|164655357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.77||||0.001|TWO_SIDED|90.0|-2.64|-0.9|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in IDS-SR 5 Item subscale total score at Week 10.||-0.90|-2.64|0.001
82581471|NCT00620282|164874604|SUPERIORITY_OR_OTHER||Least squares mean|-0.42||||0.2282||95.0|-1.118|0.278||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.278|-1.118|0.2282
82481103|NCT00420641|164655358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.208|TWO_SIDED|90.0|-0.45|0.06|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in CGI-S score at Week 10.||0.06|-0.45|0.208
82481104|NCT00420641|164655358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0|TWO_SIDED|90.0|-0.76|-0.28|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in CGI-S score at Week 10.||-0.28|-0.76|0.000
82481105|NCT00420641|164655359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.76||||0.516|TWO_SIDED|90.0|-2.71|6.24|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in MEI total score at Week 10.||6.24|-2.71|0.516
82481106|NCT00420641|164655359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.22||||0.016|TWO_SIDED|90.0|1.97|10.48|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in MEI total score at Week 10.||10.48|1.97|0.016
82481107|NCT00420641|164655360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72||||0.126|TWO_SIDED|90.0|-0.13|3.57|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and GSK372475.|Placebo versus GSK372475 in CSFQ-14SF total score at Week 10.||3.57|-0.13|0.126
82481108|NCT00420641|164655360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.957|TWO_SIDED|90.0|-1.69|1.81|||MMRM||The point estimate was calculated as LS mean difference (final value) of placebo and Paroxetine.|Placebo versus Paroxetine in CSFQ-14SF total score at Week 10.||1.81|-1.69|0.957
82481109|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.5061|TWO_SIDED|90.0|0.21|1.93|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 1.||1.93|0.21|0.5061
82481110|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.7398|TWO_SIDED|90.0|0.46|3.25|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 1.||3.25|0.46|0.7398
82481111|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.9209|TWO_SIDED|90.0|0.52|2.08|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 2.||2.08|0.52|0.9209
82481112|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.2908|TWO_SIDED|90.0|0.78|3.13|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 2.||3.13|0.78|0.2908
82481113|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.0086|TWO_SIDED|90.0|0.23|0.72|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 3.||0.72|0.23|0.0086
82481114|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.8087|TWO_SIDED|90.0|0.64|1.83|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 3.||1.83|0.64|0.8087
82481115|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.31||||0.0002|TWO_SIDED|90.0|0.18|0.52|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 4.||0.52|0.18|0.0002
82581472|NCT00620282|164874604|SUPERIORITY_OR_OTHER||Least squares mean|-0.018||||0.9569||95.0|-0.697|0.661||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.661|-0.697|0.9569
82481116|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.4606|TWO_SIDED|90.0|0.78|1.94|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 4.||1.94|0.78|0.4606
82481117|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.1399|TWO_SIDED|90.0|0.4|1.05|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 5.||1.05|0.40|0.1399
82481118|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73||||0.0461|TWO_SIDED|90.0|1.1|2.73|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 5.||2.73|1.10|0.0461
82481119|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.14|TWO_SIDED|90.0|0.41|1.05|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 6.||1.05|0.41|0.1400
82554042|NCT05736458|164813667|SUPERIORITY||Mean Difference (Final Values)|11.54|||<|0.05|TWO_SIDED||||||t-test, 2 sided|df = 11||Statistics are from 2-tailed paired t-test comparing 2-back accuracy score before and after rTMS to a high controllability target. Alternative hypothesis: true mean is not equal to 0.||||<0.05
82554043|NCT05736458|164813668|SUPERIORITY||Mean Difference (Net)|-4.42||||0.27|TWO_SIDED||||||t-test, 2 sided|df = 19||Statistics are from paired 2 tailed t-test comparing 2-back percent changes (Post-rTMS - pre-rTMS) scores for participant's high and low controllability target. Alternative hypothesis: true mean is not equal to 0.||||0.27
82554044|NCT00971087|164813669|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|3D + s2D will be considered non-inferior to 2D FFDM if the lower limit one-sided 95% CI for the difference in AUCs (3DS minus 2D FFDM) is greater than -0.05. That is, our null hypothesis is that the AUC for 3D + s2D is 0.05 less than the AUC for 2D FFDM. A difference of 0.05 is considered a clinically significant difference.||||||0.009|||||||MRMC ROC Analysis|||A multi-reader, multi-case ROC analysis will be used to compare 3D + s2D to 2D FFDM. The areas under the curve (AUC) will be used to compare ROC performance.||||0.009
82554045|NCT00971087|164813670|NON_INFERIORITY|A multi-reader, multi-case ROC analysis will be used to compare 3DS to 2D FFDM. The areas under the curve (AUC) will be used to compare ROC performance. 3DS will be considered non-inferior to 2D FFDM if the lower limit onesided 95% CI for the difference in AUCs (3DS minus 2D FFDM) is greater than -0.05.||||||0.045|||||||MRMC ROC Analysis|||||||0.045
82554046|NCT06149338|164813679|SUPERIORITY|||||||0.0002||||||Threshold for statistical significance: p \< 0.05|Chi-squared|||||||0.0002
82554047|NCT06149338|164813679|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82554048|NCT06149338|164813680|SUPERIORITY||||||<|0.0001||||||Threshold for statistical significance: p \< 0.05|Kruskal-Wallis|||||||< 0.0001
82481120|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.71||||0.0002|TWO_SIDED|90.0|1.74|4.21|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 6.||4.21|1.74|0.0002
82481121|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9596|TWO_SIDED|90.0|0.59|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 8.||1.64|0.59|0.9596
82481122|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.24||||0|TWO_SIDED|90.0|2.01|5.23|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 8.||5.23|2.01|0.0000
82554049|NCT06149338|164813681|SUPERIORITY|||||||0.0041||||||Threshold for statistical significance: p \< 0.05|Chi-squared|||||||0.0041
82554050|NCT06149338|164813681|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82554051|NCT06149338|164813682|SUPERIORITY|||||||0.7895||||||Threshold for statistical significance: p \< 0.05|Kruskal-Wallis|||||||0.7895
82554052|NCT02668692|164813706|SUPERIORITY||Odds Ratio (OR)|1.96|||=|0.68|TWO_SIDED|95.0|0.35|10.95|||Fisher Exact|||Statistical analysis of the FAS.||10.95|0.35|=0.68
82481123|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.653|TWO_SIDED|90.0|0.69|1.93|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS responders at Week 10.||1.93|0.69|0.6530
82554053|NCT02668692|164813706|SUPERIORITY||Odds Ratio (OR)|1.92|||=|0.68|TWO_SIDED|95.0|0.34|10.72||Treatment comparison by Fisher's exact test.|Fisher Exact||Odds of 'overall improvement' in LEO 80185 gel group relative to Dovobet® ointment group.|Statistical analysis of the PPAS.||10.72|0.34|=0.68
82554054|NCT02668692|164813707|SUPERIORITY||Odds Ratio (OR)|0.28|||=|0.009|TWO_SIDED|95.0|0.11|0.74|||Fisher Exact|||Statistical analysis for the FAS.||0.74|0.11|=0.009
82554055|NCT02668692|164813707|SUPERIORITY||Odds Ratio (OR)|0.22|||=|0.003|TWO_SIDED|95.0|0.08|0.63||Treatment comparison by Fisher's exact test.|Fisher Exact||Odds of 'overall improvement' in LEO 80185 gel group relative to Dovobet® ointment group.|Statistical analysis of the PPAS.||0.63|0.08|=0.003
82554056|NCT05280574|164813714|OTHER||Ratio of geometric means|0.75|||<|0.05|TWO_SIDED|95.0|0.51|1.1|||Distinct-effects GEE model||Average relative effect of unblinded versus blinded monitoring across the 5-component composite (SpO2 \<85%, RR \>30/min, RR \<4/min, HR \<45/min, HR \>130/min) of cumulative durations.||We assessed the treatment effect of unblinded versus blinded monitoring across the 5-component primary outcome composite of cumulative durations by estimating the average relative effect on the log-transformed count data (counts of observations beyond a given threshold at 1 Hz). Specifically, we employed a distinct-effects (i.e., separate treatment effect estimated for each component) generalized estimating equation (GEE) model to account for within-subject correlation across components with the vector of the 5 cumulative durations as the dependent variable and treatment as independent. We then averaged the component-specific effects and tested whether the average effect equals zero (on the log scale), and reported results as the ratio of geometric means of unblinded versus blinded monitoring.|1.1|0.51|< 0.05
82554057|NCT05838027|164813721|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|3.24|||||TWO_SIDED|95.0|0.84|12.55||||||||12.55|0.84|
82481124|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.48||||0|TWO_SIDED|90.0|2.11|5.73|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS responders at Week 10.||5.73|2.11|0.0000
82481125|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.8844|TWO_SIDED|90.0|0.23|3.48|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 1.||3.48|0.23|0.8844
82554058|NCT05838027|164813722|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.24|2.64||||||||2.64|0.24|
82554059|NCT05838027|164813723|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.52|||||TWO_SIDED|95.0|-3.78|4.82||||||||4.82|-3.78|
82481126|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.7425|TWO_SIDED|90.0|0.36|4.68|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 1.||4.68|0.36|0.7425
82481127|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.8355|TWO_SIDED|90.0|0.39|2.07|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 2.||2.07|0.39|0.8355
82481128|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.1786|TWO_SIDED|90.0|0.86|4.32|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 2.||4.32|0.86|0.1786
82481129|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.0835|TWO_SIDED|90.0|0.26|0.97|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 3.||0.97|0.26|0.0835
82481130|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8558|TWO_SIDED|90.0|0.58|1.98|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 3.||1.98|0.58|0.8558
82481131|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.0067|TWO_SIDED|90.0|0.2|0.67|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 4.||0.67|0.20|0.0067
82481132|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6647|TWO_SIDED|90.0|0.67|1.98|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 4.||1.98|0.67|0.6647
82481133|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9553|TWO_SIDED|90.0|0.55|1.74|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 5.||1.74|0.55|0.9553
82481134|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.58||||0.004||90.0|1.5|4.42|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 5.||4.42|1.50|0.0040
82481135|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.6327|TWO_SIDED|90.0|0.52|1.43|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 6.||1.43|0.52|0.6327
82481136|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36||||0.0027|TWO_SIDED|90.0|1.47|3.79|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 6.||3.79|1.47|0.0027
82481137|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3961|TWO_SIDED|90.0|0.45|1.29|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 8.||1.29|0.45|0.3961
82481138|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.89||||0.0298|TWO_SIDED|90.0|1.17|3.06|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 8.||3.06|1.17|0.0298
82481139|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.8826|TWO_SIDED|90.0|0.56|1.61|||Generalized estimating equation model|||Placebo versus GSK372475 in MADRS remitters at Week 10.||1.61|0.56|0.8826
82554060|NCT05838027|164813724|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.01|1.4||||||||1.40|-1.01|
82481140|NCT00420641|164655364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.48||||0.0022|TWO_SIDED|90.0|1.52|4.05|||Generalized estimating equation model|||Placebo versus Paroxetine in MADRS remitters at Week 10.||4.05|1.52|0.0022
82481141|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.5072|TWO_SIDED|90.0|0.22|1.89|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 1.||1.89|0.22|0.5072
82481142|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.6886|TWO_SIDED|90.0|0.52|2.93|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 1.||2.93|0.52|0.6886
82481143|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8664|TWO_SIDED|90.0|0.56|2.04|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 2.||2.04|0.56|0.8664
82481144|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.2897|TWO_SIDED|90.0|0.8|2.79|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 2.||2.79|0.80|0.2897
82481145|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.2474|TWO_SIDED|90.0|0.39|1.18|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 3.||1.18|0.39|0.2474
82481146|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.2007|TWO_SIDED|90.0|0.89|2.47|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 3.||2.47|0.89|0.2007
82481147|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.0214|TWO_SIDED|90.0|0.29|0.82|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 4.||0.82|0.29|0.0214
82481148|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.2368|TWO_SIDED|90.0|0.88|2.23|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 4.||2.23|0.88|0.2368
82481149|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.987|TWO_SIDED|90.0|0.63|1.59|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 5.||1.59|0.63|0.9870
82481150|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.91||||0.0193|TWO_SIDED|90.0|1.21|3.0|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 5.||3.00|1.21|0.0193
82481151|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8351|TWO_SIDED|90.0|0.59|1.5|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 6.||1.50|0.59|0.8351
82481152|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.0001|TWO_SIDED|90.0|1.9|4.77|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 6.||4.77|1.90|0.0001
82554061|NCT05838027|164813725|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-2.71|||||TWO_SIDED|95.0|-7.43|2.0||||||||2.00|-7.43|
82554062|NCT05838027|164813726|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.65|||||TWO_SIDED|95.0|-5.45|4.16||||||||4.16|-5.45|
82554063|NCT05838027|164813727|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|IRR|1.12|||||TWO_SIDED|95.0|0.46|2.74||||||||2.74|0.46|
82554064|NCT05838027|164813728|SUPERIORITY|All panel-data marginal models use robust standard errors. Categorical outcomes were assessed with ordered logistic models and continuous outcomes were assessed with GEE population-averaged models, except Medication Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.75|||||TWO_SIDED|95.0|-1.29|-0.21||||||||-0.21|-1.29|
82554065|NCT05838027|164813731|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.57|||||TWO_SIDED|95.0|-1.9|3.03||||||||3.03|-1.90|
82554066|NCT05838027|164813732|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.32|0.58||||||||0.58|-0.32|
82581473|NCT00620282|164874604|SUPERIORITY_OR_OTHER||Least squares mean|-0.402||||0.2465||95.0|-1.097|0.293||2-sided significance level of 5%.|ANCOVA|||Change in TNF-alpha from baseline to end of treatment at 12 weeks was analysed using an analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline TNF-alpha as a covariate.||0.293|-1.097|0.2465
82581474|NCT00371683|164874614|NON_INFERIORITY_OR_EQUIVALENCE|Two criteria were to be met to demonstrate non-inferiority: the upper bound of the 95% confidence interval (CI) for the Relative Risk should be \< 1.25, and the upper bound of the 95% CI for the risk difference should be \< 5.6%.|Risk Ratio (RR)|1.02||||0.0635|TWO_SIDED|95.0|0.78|1.32||If p-value is less than 0.025, it is statistically significant.|t-test, 1 sided|||||1.32|0.78|0.0635
82581475|NCT00371683|164874614|NON_INFERIORITY_OR_EQUIVALENCE|Two criteria were to be met to demonstrate non-inferiority: the upper bound of the 95% CI for the relative risk should be \< 1.25, and the upper bound of the 95% CI for the risk difference should be \< 5.6%.|Risk Difference (RD)|0.11|||<|0.0001|TWO_SIDED|95.0|-2.22|2.44||If p-value is less than 0.025, it is statistically significant.|t-test, 1 sided|||||2.44|-2.22|<0.0001
82481153|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.751|TWO_SIDED|90.0|0.67|1.8|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 8.||1.80|0.67|0.7510
82554067|NCT05838027|164813733|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|IRR|0.62|||||TWO_SIDED|95.0|0.23|1.63||||||||1.63|0.23|
82554068|NCT05838027|164813734|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|1.05|||||TWO_SIDED|95.0|-0.54|2.64||||||||2.64|-0.54|
82554069|NCT05838027|164813735|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.19|5.49||||||||5.49|0.19|
82581476|NCT00371683|164874615|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.7|2.23|||||If the upper bound of the two-sided 95% CI for the Relative Risk was \< 1 then superiority for the key secondary efficacy endpoint was demonstrated.|||2.23|0.70|
82581477|NCT00371683|164874615|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.36|||||TWO_SIDED|95.0|-0.68|1.4||||||||1.40|-0.68|
82581478|NCT00371683|164874615|SUPERIORITY_OR_OTHER|||||||0.7779|TWO_SIDED||||||t-test, 1 sided|||||||0.7779
82481154|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.0029|TWO_SIDED|90.0|1.47|3.8|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 8.||3.80|1.47|0.0029
82481155|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.1707|TWO_SIDED|90.0|0.92|2.55|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR responders at Week 10.||2.55|0.92|0.1707
82481156|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.27||||0.0001|TWO_SIDED|90.0|1.99|5.36|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR responders at Week 10.||5.36|1.99|0.0001
82581479|NCT00371683|164874616|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.8|1.35||||||||1.35|0.80|
82581480|NCT00371683|164874616|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-2.04|2.59||||||||2.59|-2.04|
82581481|NCT00371683|164874616|SUPERIORITY_OR_OTHER|||||||0.7754|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.7754
82581482|NCT00371683|164874617|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.41|||||TWO_SIDED|95.0|0.77|2.6||||||||2.60|0.77|
82481157|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.205|TWO_SIDED|90.0|0.05|1.48|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 1.||1.48|0.05|0.2050
82481158|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.1735|TWO_SIDED|90.0|0.11|1.24|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 1.||1.24|0.11|0.1735
82481159|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.2305|TWO_SIDED|90.0|0.78|4.75|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 2.||4.75|0.78|0.2305
82481160|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.2507|TWO_SIDED|90.0|0.77|4.5|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 2.||4.50|0.77|0.2507
82481161|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.5608|TWO_SIDED|90.0|0.35|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 3.||1.64|0.35|0.5608
82481162|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.6526|TWO_SIDED|90.0|0.6|2.42|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 3.||2.42|0.60|0.6526
82481163|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.0208|TWO_SIDED|90.0|0.21|0.77|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 4.||0.77|0.21|0.0208
82481164|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2859|TWO_SIDED|90.0|0.39|1.22|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 4.||1.22|0.39|0.2859
82481165|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.7921|TWO_SIDED|90.0|0.49|1.66|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 5.||1.66|0.49|0.7921
82481166|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.362|TWO_SIDED|90.0|0.79|2.31|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 5.||2.31|0.79|0.3620
82481167|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.4331|TWO_SIDED|90.0|0.44|1.34|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 6.||1.34|0.44|0.4331
82554070|NCT05838027|164813736|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-1.1|||||TWO_SIDED|95.0|-2.64|0.43||||||||0.43|-2.64|
82554071|NCT05838027|164813737|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|2.72|||||TWO_SIDED|95.0|-1.35|6.8||||||||6.80|-1.35|
82481168|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.0047|TWO_SIDED|90.0|1.42|3.75|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 6.||3.75|1.42|0.0047
82481169|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.4431|TWO_SIDED|90.0|0.46|1.32|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 8.||1.32|0.46|0.4431
82481170|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.1901|TWO_SIDED|90.0|0.9|2.44|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 8.||2.44|0.90|0.1901
82481171|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.9222|TWO_SIDED|90.0|0.56|1.66|||Generalized estimating equation model|||Placebo versus GSK372475 in IDS-CR remitters at Week 10.||1.66|0.56|0.9222
82481172|NCT00420641|164655365|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.1665|TWO_SIDED|90.0|0.93|2.43|||Generalized estimating equation model|||Placebo versus Paroxetine in IDS-CR remitters at Week 10.||2.43|0.93|0.1665
82481173|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.5057|TWO_SIDED|90.0|0.2|1.98|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 1.||1.98|0.20|0.5057
82481174|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.12||||0.8633|TWO_SIDED|90.0|0.38|3.3|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 1.||3.30|0.38|0.8633
82554072|NCT05838027|164813738|SUPERIORITY|All panel-data marginal models use robust standard errors. The binary outcome, Future Preference: Behavioral task was assessed with a logistic model and continuous outcomes were assessed with GEE population-averaged models, except All Health Care Expenditures which used Poisson models to account for count data. Some outcomes are missing additional data (not \>10%).|Mean Difference (Net)|-0.69|||||TWO_SIDED|95.0|-1.74|0.36||||||||0.36|-1.74|
82651316|NCT01965652|165017455|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|-0.5|-0.28|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.28|-0.50|<0.0001
82481175|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.8428|TWO_SIDED|90.0|0.55|2.16|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 2.||2.16|0.55|0.8428
82481176|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.3416|TWO_SIDED|90.0|0.76|2.84|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 2.||2.84|0.76|0.3416
82481177|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.3287|TWO_SIDED|90.0|0.4|1.26|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 3.||1.26|0.40|0.3287
82481178|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.2112|TWO_SIDED|90.0|0.88|2.57|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 3.||2.57|0.88|0.2112
82481179|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44||||0.0134|TWO_SIDED|90.0|0.26|0.76|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 4.||0.76|0.26|0.0134
82481180|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33||||0.3412|TWO_SIDED|90.0|0.81|2.17|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 4.||2.17|0.81|0.3412
82481181|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.8434|TWO_SIDED|90.0|0.58|1.54|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 5.||1.54|0.58|0.8434
82651317|NCT01965652|165017455|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001|TWO_SIDED|95.0|-0.44|-0.2|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Anaysis||-0.20|-0.44|<0.0001
82651318|NCT01965652|165017455|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001|TWO_SIDED|95.0|-0.4|-0.15|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.15|-0.40|<0.0001
82651319|NCT01965652|165017455|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.068|<|0.0001|TWO_SIDED|95.0|-0.48|-0.21|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.21|-0.48|<0.0001
82651320|NCT01965652|165017455|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.41|-0.15|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.15|-0.41|<0.0001
82651321|NCT01965652|165017456|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|-0.34|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.14|-0.34|<0.0001
82651322|NCT01965652|165017456|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|-0.35|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.14|-0.35|<0.0001
82481182|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.0819|TWO_SIDED|90.0|1.03|2.63|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 5.||2.63|1.03|0.0819
82481183|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.2832|TWO_SIDED|90.0|0.44|1.19|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 6.||1.19|0.44|0.2832
82481184|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.0016|TWO_SIDED|90.0|1.54|3.97|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 6.||3.97|1.54|0.0016
82481185|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.9727|TWO_SIDED|90.0|0.6|1.63|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 8.||1.63|0.60|0.9727
82481186|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.57||||0.001|TWO_SIDED|90.0|1.6|4.13|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 8.||4.13|1.60|0.0010
82481187|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8312|TWO_SIDED|90.0|0.64|1.8|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 responders at Week 10.||1.80|0.64|0.8312
82481188|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06||||0.0002|TWO_SIDED|90.0|1.86|5.02|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 responders at Week 10.||5.02|1.86|0.0002
82481189|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.553|TWO_SIDED|90.0|0.13|2.6|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 1.||2.60|0.13|0.5530
82481190|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.978|TWO_SIDED|90.0|0.28|3.41|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 1.||3.41|0.28|0.9780
82651323|NCT01965652|165017456|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|-0.36|-0.14|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.14|-0.36|<0.0001
82651324|NCT01965652|165017456|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.43|-0.19|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.19|-0.43|<0.0001
82651325|NCT01965652|165017456|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.061||0.0006|TWO_SIDED|95.0|-0.33|-0.09|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.09|-0.33|0.0006
82651326|NCT01965652|165017457|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.054|<|0.0001|TWO_SIDED|95.0|-0.5|-0.29|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.29|-0.50|<0.0001
82651327|NCT01965652|165017457|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.48|-0.24|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.24|-0.48|<0.0001
82481191|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.8312|TWO_SIDED|90.0|0.43|3.03|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 2.||3.03|0.43|0.8312
82481192|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.1881|TWO_SIDED|90.0|0.83|5.25|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 2.||5.25|0.83|0.1881
82481193|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.6384|TWO_SIDED|90.0|0.39|1.69|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 3.||1.69|0.39|0.6384
82481194|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.216|TWO_SIDED|90.0|0.84|3.37|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 3.||3.37|0.84|0.2160
82554073|NCT03926130|164813744|SUPERIORITY||Risk Difference (RD)|28.7|||<|1e-06|TWO_SIDED|95.0|23.0|34.4|||Cochran-Mantel-Haenszel|||||34.4|23.0|<0.000001
82554074|NCT03926130|164813745|SUPERIORITY||Risk Difference (RD)|25.8|||<|1e-06|TWO_SIDED|95.0|18.8|32.7|||Cochran-Mantel-Haenszel|||||32.7|18.8|<0.000001
82554075|NCT03926130|164813746|SUPERIORITY||Risk Difference (RD)|19.7|||<|1e-06|TWO_SIDED|95.0|13.7|25.6|||Cochran-Mantel-Haenszel|||||25.6|13.7|<0.000001
82554076|NCT03926130|164813747|SUPERIORITY||Risk Difference (RD)|39.1|||<|1e-06|TWO_SIDED|95.0|33.4|44.8|||Cochran-Mantel-Haenszel|||||44.8|33.4|<0.000001
82554077|NCT03926130|164813747|SUPERIORITY||Risk Difference (RD)|2.3||||0.513623|TWO_SIDED|95.0|-4.7|9.3|||Cochran-Mantel-Haenszel|||||9.3|-4.7|0.513623
82554078|NCT03926130|164813748|SUPERIORITY||Risk Difference (RD)|12.4||||0.001431|TWO_SIDED|95.0|5.3|19.6|||Cochran-Mantel-Haenszel|||||19.6|5.3|0.001431
82554079|NCT03926130|164813749|SUPERIORITY||Risk Difference (RD)|34.6|||<|1e-06|TWO_SIDED|95.0|27.7|41.4|||Cochran-Mantel-Haenszel|||||41.4|27.7|<0.000001
82554080|NCT03926130|164813749|NON_INFERIORITY|The non-inferiority margin is 10%. We do not have power calculation in the SAP for this endpoint.|Risk Difference (RD)|5.7|||<|0.0001|TWO_SIDED|95.0|-1.4|12.8|||Z test|||||12.8|-1.4|<0.0001
82554081|NCT03926130|164813750|SUPERIORITY||Risk Difference (RD)|6.8||||0.003414|TWO_SIDED|95.0|3.2|10.5|||Cochran-Mantel-Haenszel|||||10.5|3.2|0.003414
82554082|NCT03926130|164813751|SUPERIORITY||LSMean Difference (Net)|-0.86||||1.1e-05|TWO_SIDED|95.0|-1.24|-0.48|||ANCOVA|||||-0.48|-1.24|0.000011
82554083|NCT03926130|164813752|SUPERIORITY||LSMean Difference (Net)|-2.01|||<|1e-06|TWO_SIDED|95.0|-2.42|-1.6|||ANCOVA|||||-1.60|-2.42|<0.000001
82554084|NCT03926130|164813753|SUPERIORITY||Risk Difference (RD)|25.7|||<|1e-06|TWO_SIDED|95.0|18.9|32.6|||Cochran-Mantel-Haenszel|||||32.6|18.9|<0.000001
82554085|NCT03926130|164813754|SUPERIORITY||Risk Difference (RD)|13.8|||<|1e-06|TWO_SIDED|95.0|10.2|17.4|||Cochran-Mantel-Haenszel|||||17.4|10.2|<0.000001
82554086|NCT03926130|164813755|SUPERIORITY||Risk Difference (RD)|25.0|||<|1e-06|TWO_SIDED|95.0|18.2|31.8|||Cochran-Mantel-Haenszel|||||31.8|18.2|<0.000001
82554087|NCT03926130|164813756|SUPERIORITY||LSMean Difference (Net)|-0.85|||<|1e-06|TWO_SIDED|95.0|-1.05|-0.65|||ANCOVA|||||-0.65|-1.05|<0.000001
82554088|NCT03926130|164813757|SUPERIORITY||LSMean Difference (Net)|-1.22|||<|1e-06|TWO_SIDED|95.0|-1.48|-0.95|||ANCOVA|||||-0.95|-1.48|<0.000001
82554089|NCT03926130|164813758|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82554090|NCT03926130|164813759|SUPERIORITY||Risk Difference (RD)|4.1||||0.732715|TWO_SIDED|95.0|-18.0|26.1|||Cochran-Mantel-Haenszel|||||26.1|-18.0|0.732715
82554091|NCT03926130|164813760|SUPERIORITY||LSMean Difference (Net)|27.92|||<|1e-06|TWO_SIDED|95.0|22.67|33.18|||ANCOVA|||||33.18|22.67|<0.000001
82554092|NCT03926130|164813762|SUPERIORITY||Risk Difference (RD)|10.6||||0.000213|TWO_SIDED|99.5|4.1|17.2|||Cochran-Mantel-Haenszel|||||17.2|4.1|0.000213
82554093|NCT03926130|164813763|SUPERIORITY||Risk Difference (RD)|19.4|||<|1e-06|TWO_SIDED|99.5|13.1|25.7|||Cochran-Mantel-Haenszel|||||25.7|13.1|<0.000001
82554094|NCT03687762|164813766|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554095|NCT03687762|164813767|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554096|NCT03687762|164813768|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554097|NCT03687762|164813769|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554098|NCT03687762|164813770|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554099|NCT03687762|164813771|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.||||||0.01|||||||ANOVA|||||||0.01
82554100|NCT03687762|164813772|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554101|NCT03687762|164813773|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554102|NCT03687762|164813774|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce a greater proportion of people decreasing their dose relative to those increasing their dose during treatment.|||||>|0.05|||||||Chi-squared|||||||>.05
82554103|NCT03687762|164813775|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554104|NCT03687762|164813776|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554105|NCT03687762|164813777|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554106|NCT03687762|164813778|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554107|NCT03687762|164813779|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554108|NCT03687762|164813780|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82554109|NCT03687762|164813781|OTHER|We hypothesized negligible between condition differences, although within each condition, we hypothesized that each treatment would produce medium effect size improvements.|||||>|0.05|||||||ANOVA|||||||>.05
82481195|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4||||0.0259|TWO_SIDED|90.0|0.2|0.79|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 4.||0.79|0.20|0.0259
82481196|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.3959|TWO_SIDED|90.0|0.39|1.35|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 4.||1.35|0.39|0.3959
82481197|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.3857|TWO_SIDED|90.0|0.39|1.34|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 5.||1.34|0.39|0.3857
82481198|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.3126|TWO_SIDED|90.0|0.8|2.52|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 5.||2.52|0.80|0.3126
82481199|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.61||||0.1182|TWO_SIDED|90.0|0.36|1.03|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 6.||1.03|0.36|0.1182
82481200|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1||||0.0125|TWO_SIDED|90.0|1.29|3.43|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 6.||3.43|1.29|0.0125
82481201|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.2147|TWO_SIDED|90.0|0.42|1.13|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 8.||1.13|0.42|0.2147
82481202|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.0783|TWO_SIDED|90.0|1.03|2.69|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 8.||2.69|1.03|0.0783
82481203|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.9067||90.0|0.57|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in HAMD-17 remitters at Week 10.||1.64|0.57|0.9067
82481204|NCT00420641|164655366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.0328|TWO_SIDED|90.0|1.15|2.92|||Generalized estimating equation model|||Placebo versus Paroxetine in HAMD-17 remitters at Week 10.||2.92|1.15|0.0328
82481205|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.6928|TWO_SIDED|90.0|0.44|3.76|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 1.||3.76|0.44|0.6928
82481206|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.3039|TWO_SIDED|90.0|0.69|5.01|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 1.||5.01|0.69|0.3039
82481207|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.1938|TWO_SIDED|90.0|0.89|2.7|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 2.||2.70|0.89|0.1938
82481208|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.06|TWO_SIDED|90.0|1.08|3.16|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 2.||3.16|1.08|0.0600
82481209|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8989|TWO_SIDED|90.0|0.61|1.53|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 3.||1.53|0.61|0.8989
82481210|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.95||||0.0136|TWO_SIDED|90.0|1.25|3.05|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 3.||3.05|1.25|0.0136
82481211|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.3099|TWO_SIDED|90.0|0.5|1.18|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 4.||1.18|0.50|0.3099
82481212|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1137|TWO_SIDED|90.0|0.98|2.27|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 4.||2.27|0.98|0.1137
82481213|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.8682||90.0|0.67|1.64|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 5.||1.64|0.67|0.8682
82481214|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.56||||0.0006|TWO_SIDED|90.0|1.63|4.03|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 5.||4.03|1.63|0.0006
82481215|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.8992|TWO_SIDED|90.0|0.62|1.51|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 6.||1.51|0.62|0.8992
82481216|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61||||0.0004|TWO_SIDED|90.0|1.67|4.09|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 6.||4.09|1.67|0.0004
82481217|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.28|TWO_SIDED|90.0|0.85|2.23|||Placebo versus GSK372475 in percentage o|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 8.||2.23|0.85|0.2800
82481218|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.69||||0|TWO_SIDED|90.0|2.24|6.08|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 8.||6.08|2.24|0.0000
82481219|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.0507|TWO_SIDED|90.0|1.1|3.13|||Generalized estimating equation model|||Placebo versus GSK372475 in percentage of participants with CGI-I at Week 10.||3.13|1.10|0.0507
82481220|NCT00420641|164655367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97||||0.0003|TWO_SIDED|90.0|1.81|4.88|||Generalized estimating equation model|||Placebo versus Paroxetine in percentage of participants with CGI-I at Week 10.||4.88|1.81|0.0003
82481221|NCT00420641|164655368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8782|TWO_SIDED|90.0|0.62|1.5|||Regression, Logistic|||Placebo versus GSK372475 in percentage of participants Satisfied with Study Medication at Week 10.||1.50|0.62|0.8782
82481222|NCT00420641|164655368|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.0011|TWO_SIDED|90.0|1.56|3.86|||Regression, Logistic|||Placebo versus Paroxetine in percentage of participants Satisfied with Study Medication at Week 10.||3.86|1.56|0.0011
82481223|NCT00853996|164655393|OTHER||||||<|0.001||||||No adjustment for multiple comparisons since this was primary endpoint. A priori threshold for statistical significance was set at \<0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82581483|NCT00371683|164874617|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.53|||||TWO_SIDED|95.0|-0.47|1.52||||||||1.52|-0.47|
82481224|NCT00853996|164655394|OTHER|||||||0.067||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05.|Wilcoxon (Mann-Whitney)|||||||0.067
82481225|NCT00853996|164655395|OTHER|||||||0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05|Wilcoxon (Mann-Whitney)|||||||0.001
82651328|NCT01965652|165017457|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|-0.45|-0.21|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.21|-0.45|<0.0001
82481226|NCT00853996|164655396|OTHER|||||||0.002||||||No adjustment for multiple comparisons. A priori threshold for statistical significance was set at \<0.05|Wilcoxon (Mann-Whitney)|||||||0.002
82481227|NCT00853996|164655397|OTHER|||||||0.002||||||No adjustment for multiple comparisons. A priori threshold for statistical significance set at 0.05|Wilcoxon (Mann-Whitney)|||||||0.002
82481228|NCT01607203|164655411|NON_INFERIORITY_OR_EQUIVALENCE|t -test||||||0.04|TWO_SIDED||||||Fisher Exact|||||||0.04
82481229|NCT00609362|164655415|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is un-adjusted. A priori threshold for significance: 0.05|t-test, 2 sided|||The minimum number of participants was determined by power calculations to be 44 (22 in each group), assuming a difference in change in BMD of 1.7%, a standard deviation of 2%, a power of 80%, and a level of significance of 5%.||||0.055
82481230|NCT00609362|164655416|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||t-test, 2 sided|||||||0.056
82481231|NCT00609362|164655417|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||||||0.003
82481232|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.5888|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline Hgb||||0.5888
82481233|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline Weight||||0.6600
82481234|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.7999|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Subgroup: Baseline estimated glomerular filtration rate (eGFR)||||0.7999
82481235|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.2092|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Ethnicity||||0.2092
82481236|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.9996||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Geographic Ancestry||||0.9996
82581484|NCT00371683|164874617|SUPERIORITY_OR_OTHER|||||||0.2626|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.2626
82481237|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.7002|||||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Sex||||0.7002
82481238|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.5536||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Age||||0.5536
82481239|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.0085||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Co-administration with food||||0.0085
82481240|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.0021||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Diabetic||||0.0021
82481241|NCT01587898|164655424|SUPERIORITY_OR_OTHER|||||||0.2194||95.0|||||Mixed effects linear regression model|The modeled Hgb change from baseline over 4 weeks was derived using a random coefficient mixed effects linear regression model.||Covariate: Region||||0.2194
82481242|NCT01903252|164655486|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority, pre-defined non-inferiority margin 10% A two-sided 95% confidence interval about the difference in proportions was constructed. If the lower limit of the confidence interval was no less than -10% it would be concluded that the test product is non-inferior to the comparator.|Risk Difference (RD)|-2.2||||0.005|TWO_SIDED|95.0|-8.1|3.8|||Non-inferiority|||If the lower limit of the confidence interval was no less than -10% it would be concluded that the test product is non-inferior to the comparator.||3.8|-8.1|0.005
82481243|NCT01903252|164655487|SUPERIORITY_OR_OTHER||Percentag|75.3|||||TWO_SIDED|95.0|69.4|80.6||||||||80.6|69.4|
82481244|NCT01903252|164655489|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority|Risk Difference (RD)|-2.1|||<|0.001|TWO_SIDED|95.0|-6.5|2.2|||Non-inferiority|||||2.2|-6.5|<0.001
82481245|NCT01903252|164655490|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.1||||0.026|TWO_SIDED|95.0|-10.1|3.9|||Non-inferiority|||||3.9|-10.1|0.026
82481246|NCT01903252|164655491|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-4.8||||0.048|TWO_SIDED|95.0|-10.9|1.4|||Non-inferiority|||||1.4|-10.9|0.048
82481247|NCT01903252|164655492|NON_INFERIORITY_OR_EQUIVALENCE|Non-Inferiority|Risk Difference (RD)|-3.9||||0.042|TWO_SIDED|95.0|-10.8|3.1|||Non-inferiortiy|||||3.1|-10.8|0.042
82481248|NCT01903252|164655493|NON_INFERIORITY|Non-Inferiority|Risk Difference (RD)|-4.2||||0.048|TWO_SIDED|95.0|-11.0|2.7|||Non-inferiority|||||2.7|-11.0|0.048
82481249|NCT01903252|164655494|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-5.3||||0.068|TWO_SIDED|95.0|-11.5|0.9|||Non-inferiority|||||0.9|-11.5|0.068
82481250|NCT01903252|164655495|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-2.9||||0.021|TWO_SIDED|95.0|-9.8|4.0|||Non-inferiortiy|||||4.0|-9.8|0.021
82481251|NCT01903252|164655496|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.4||||0.031|TWO_SIDED|95.0|-10.3|3.7|||Non-inferiortiy|||||3.7|-10.3|0.031
82481252|NCT01903252|164655497|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.7||||0.013|TWO_SIDED|95.0|-9.2|1.8|||Non-inferiority|||||1.8|-9.2|0.013
82581485|NCT00371683|164874618|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.63|1.87||||||||1.87|0.63|
82481253|NCT01903252|164655498|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Risk Difference (RD)|-3.9||||0.042|TWO_SIDED|95.0|-10.8|3.0|||Non-inferiority|||||3.0|-10.8|0.042
82481254|NCT01903252|164655499|OTHER||Mean Difference (Net)|-0.1||||0.557|TWO_SIDED|95.0|-0.5|0.3|||t-test, 2 sided|||||0.3|-0.5|0.557
82481255|NCT01903252|164655500|OTHER||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.3|0.3|||t-test, 2 sided|||||0.3|-0.3|0.987
82481256|NCT01903252|164655501|OTHER||Mean Difference (Net)|0.1||||0.455|TWO_SIDED|95.0|-0.1|0.2|||t-test, 2 sided||The result of the mean difference is not corresponding to the values in the table due to rounding as specified in the Statistical Analysis Plan (SAP).|||0.2|-0.1|0.455
82481257|NCT01903252|164655502|OTHER||Mean Difference (Net)|0.0||||0.937|TWO_SIDED|95.0|-0.1|0.1|||t-test, 2 sided||The apparent difference between the values in the table and the mean difference is due to rounding as defined in the SAP.|||0.1|-0.1|0.937
82481258|NCT01903252|164655503|OTHER||Mean Difference (Net)|-0.1||||0.357|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||||0.1|-0.2|0.357
82481259|NCT01903252|164655504|OTHER||Mean Difference (Net)|-0.1||||0.099|TWO_SIDED|95.0|-0.2|0.0|||t-test, 2 sided|||||0.0|-0.2|0.099
82481260|NCT01903252|164655505|OTHER||Percentage|21.8|||||TWO_SIDED|95.0|16.8|27.5||||||||27.5|16.8|
82481261|NCT01903252|164655506|OTHER||Percentage|60.1|||||TWO_SIDED|95.0|53.6|66.3||||||||66.3|53.6|
82481262|NCT01903252|164655507|OTHER||Percentage|26.3|||||TWO_SIDED|95.0|20.9|32.3||||||||32.3|20.9|
82481263|NCT01903252|164655508|OTHER||Percentage|44.9|||||TWO_SIDED|95.0|38.5|51.3||||||||51.3|38.5|
82481264|NCT01903252|164655509|OTHER||Percentage|0.0|||||TWO_SIDED|95.0|0.0|1.5||||||||1.5|0.0|
82481265|NCT04876690|164655561|SUPERIORITY||||||=|0.1217|||||||t-test for Independent Samples|||PCS-12: Sex||||=0.1217
82481266|NCT04876690|164655561|SUPERIORITY||||||=|0.8241|||||||ANOVA|ANOVA=Analysis of variance||PCS-12: Employment Status||||=0.8241
82554110|NCT05715528|164813842|SUPERIORITY||Hazard Ratio (HR)|1.099||||0.0681|TWO_SIDED|95.0|0.997|1.211||P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Stratified Log-rank test||Hazard ratio and two-sided 95% confidence interval (CI) for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.211|0.997|0.0681
82581486|NCT00371683|164874618|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.11|||||TWO_SIDED|95.0|-0.99|1.21||||||||1.21|-0.99|
82481267|NCT04876690|164655561|SUPERIORITY||||||=|0.3471|||||||ANOVA|||PCS-12: Smoking Status||||=0.3471
82481268|NCT04876690|164655561|SUPERIORITY||||||=|0.9951|||||||ANOVA|||PCS-12: Age at Onset||||=0.9951
82481269|NCT04876690|164655561|SUPERIORITY||||||=|0.0631|||||||ANOVA|||PCS-12: Disease Location||||=0.0631
82481270|NCT04876690|164655561|SUPERIORITY||||||=|0.7473|||||||ANOVA|||PCS-12: Disease Behavior||||=0.7473
82481271|NCT04876690|164655561|SUPERIORITY||||||=|0.4422|||||||t-test for Independent Samples|||PCS-12: Presence of any Extraintestinal Manifestation of CD||||=0.4422
82481272|NCT04876690|164655561|SUPERIORITY||||||=|0.1796|||||||t-test for Independent Samples|||PCS-12: Fistula With High Intersphincteric Type||||=0.1796
82481273|NCT04876690|164655561|SUPERIORITY||||||=|0.3535|||||||t-test for Independent Samples|||PCS-12: Fistula With High Transsphincteric Type||||=0.3535
82481274|NCT04876690|164655561|SUPERIORITY||||||=|0.1508|||||||t-test for Independent Samples|||PCS-12: Fistula With Suprasphincteric Type||||=0.1508
82481275|NCT04876690|164655561|SUPERIORITY||||||=|0.2671|||||||t-test for Independent Samples|||PCS-12: Fistula with Extrasphincteric Type||||=0.2671
82481276|NCT04876690|164655561|SUPERIORITY||||||=|0.0594|||||||t-test for Independent Samples|||PCS-12: Fistula With Low Intersphincteric Type||||=0.0594
82481277|NCT04876690|164655561|SUPERIORITY||||||=|0.5484|||||||t-test for Independent Samples|||PCS-12: Fistula With Low Transsphincteric Type||||=0.5484
82481278|NCT04876690|164655561|SUPERIORITY||||||=|0.5387|||||||t-test for Independent Samples|||PCS-12: Fistula With Midline Position||||=0.5387
82481279|NCT04876690|164655561|SUPERIORITY||||||=|0.527|||||||t-test for Independent Samples|||PCS-12: Fistula With Lateral Position||||=0.5270
82481280|NCT04876690|164655561|SUPERIORITY||||||=|0.3863|||||||t-test for Independent Samples|||PCS-12: Fistula With Seton||||=0.3863
82481281|NCT04876690|164655561|SUPERIORITY||||||=|0.4206|||||||ANOVA|||PCS-12: HBI Categories (Remission, Mild and Moderate Activity)||||=0.4206
82481282|NCT04876690|164655561|SUPERIORITY||||||=|0.0538|||||||t-test for Independent Samples|||PCS-12: Surgery-naïve||||=0.0538
82481283|NCT04876690|164655561|SUPERIORITY||||||=|0.9572|||||||t-test for Independent Samples|||PCS-12: Surgery - Fistulotomy||||=0.9572
82481284|NCT04876690|164655561|SUPERIORITY||||||=|0.4742|||||||t-test for Independent Samples|||PCS-12: Surgery - Loose Seton||||=0.4742
82481285|NCT04876690|164655561|SUPERIORITY||||||=|0.5735|||||||t-test for Independent Samples|||PCS-12: Surgery - Other||||=0.5735
82481286|NCT04876690|164655561|SUPERIORITY||||||=|0.376|||||||t-test for Independent Samples|||PCS-12: Presence of Perianal Abscess||||=0.3760
82481287|NCT04876690|164655562|SUPERIORITY||||||=|0.4814|||||||t-test for Independent Samples|||MCS-12: Sex||||=0.4814
82481288|NCT04876690|164655562|SUPERIORITY||||||=|0.3136|||||||Kruskal-Wallis|||MCS-12: Employment Status||||=0.3136
82481289|NCT04876690|164655562|SUPERIORITY||||||=|0.5808|||||||ANOVA|||MCS-12: Smoking Status||||=0.5808
82481290|NCT04876690|164655562|SUPERIORITY||||||=|0.2965|||||||ANOVA|||MCS-12: Age at Onset||||=0.2965
82481291|NCT04876690|164655562|SUPERIORITY||||||=|0.2874|||||||ANOVA|||MCS-12: Disease Location||||=0.2874
82481292|NCT04876690|164655562|SUPERIORITY||||||=|0.4269|||||||ANOVA|||MCS-12: Disease Behavior||||=0.4269
82481293|NCT04876690|164655562|SUPERIORITY||||||=|0.8931|||||||t-test for Independent Samples|||MCS-12: Presence of any Extraintestinal Manifestation of CD||||=0.8931
82481294|NCT04876690|164655562|SUPERIORITY||||||=|0.9384|||||||t-test for Independent Samples|||MCS-12: Fistula With High Intersphincteric Type||||=0.9384
82481295|NCT04876690|164655562|SUPERIORITY||||||=|0.8286|||||||Mann-Whitney|||MCS-12: Fistula With High Transsphincteric Type||||=0.8286
82481296|NCT04876690|164655562|SUPERIORITY||||||=|0.1919|||||||t-test for Independent Samples|||MCS-12: Fistula With Suprasphincteric Type||||=0.1919
82481297|NCT04876690|164655562|SUPERIORITY||||||=|0.6452|||||||t-test for Independent Samples|||MCS-12: Fistula with Extrasphincteric Type||||=0.6452
82481298|NCT04876690|164655562|SUPERIORITY||||||=|0.7218|||||||t-test for Independent Samples|||MCS-12: Fistula With Low Intersphincteric Type||||=0.7218
82481299|NCT04876690|164655562|SUPERIORITY||||||=|0.9738|||||||t-test for Independent Samples|||MCS-12: Fistula With Low Transsphincteric Type||||=0.9738
82651329|NCT01965652|165017457|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001|TWO_SIDED|95.0|-0.54|-0.3|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.30|-0.54|<0.0001
82481300|NCT04876690|164655562|SUPERIORITY||||||=|0.2419|||||||t-test for Independent Samples|||MCS-12: Fistula With Midline Position||||=0.2419
82481301|NCT04876690|164655562|SUPERIORITY||||||=|0.5524|||||||t-test for Independent Samples|||MCS-12: Fistula With Lateral Position||||=0.5524
82481302|NCT04876690|164655562|SUPERIORITY||||||=|0.4443|||||||t-test for Independent Samples|||MCS-12: Fistula With Seton||||=0.4443
82481303|NCT04876690|164655562|SUPERIORITY||||||=|0.4106|||||||ANOVA|||MCS-12: HBI Categories (Remission, Mild and Moderate Activity)||||=0.4106
82481304|NCT04876690|164655562|SUPERIORITY||||||=|0.7795|||||||t-test for Independent Samples|||MCS-12: Surgery-naïve||||=0.7795
82481305|NCT04876690|164655562|SUPERIORITY||||||=|0.2964|||||||t-test for Independent Samples|||MCS-12: Surgery - Fistulotomy||||=0.2964
82481306|NCT04876690|164655562|SUPERIORITY||||||=|0.3287|||||||t-test for Independent Samples|||MCS-12: Surgery - Loose Seton||||=0.3287
82481307|NCT04876690|164655562|SUPERIORITY||||||=|0.0091|||||||t-test for Independent Samples|||MCS-12: Surgery - Other||||=0.0091
82481308|NCT04876690|164655562|SUPERIORITY||||||=|0.3889|||||||t-test for Independent Samples|||MCS-12: Presence of Perianal Abscess||||=0.3889
82481309|NCT04876690|164655563|SUPERIORITY||||||=|0.8001|||||||Pearson Correlation Coefficient|||PCS- 12: Age||||=0.8001
82481310|NCT04876690|164655563|SUPERIORITY||||||=|0.4532|||||||Pearson Correlation Coefficient|||PCS- 12: BMI||||=0.4532
82481311|NCT04876690|164655563|SUPERIORITY||||||=|0.9597|||||||Spearman Correlation Coefficient|||PCS- 12: Time Between CD Diagnosis Date and Date of Study Visit||||=0.9597
82481312|NCT04876690|164655563|SUPERIORITY||||||=|0.3304|||||||Spearman Correlation Coefficient|||PCS- 12: Total Number of CPFs per Participant||||=0.3304
82651330|NCT01965652|165017457|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001|TWO_SIDED|95.0|-0.44|-0.19|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.19|-0.44|<0.0001
82554111|NCT05715528|164813846|SUPERIORITY||Hazard Ratio (HR)|1.036||||0.5558|TWO_SIDED|95.0|0.935|1.147|||Stratified Log-Rank Test|P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.147|0.935|0.5558
82481313|NCT04876690|164655563|SUPERIORITY||||||=|0.6333|||||||Pearson Correlation Coefficient|||PCS- 12: Time Since Seton Replacement||||=0.6333
82481314|NCT04876690|164655563|SUPERIORITY||||||=|0.8003|||||||Spearman Correlation Coefficient|||PCS- 12: Time Between First CPF Diagnosis Date and Date of Study Visit||||=0.8003
82481315|NCT04876690|164655563|SUPERIORITY||||||=|0.0032|||||||Pearson Correlation Coefficient|||PCS- 12: PDAI Score||||=0.0032
82481316|NCT04876690|164655563|SUPERIORITY||||||=|0.0923|||||||Spearman Correlation Coefficient|||PCS- 12: Number of Internal Fistula Openings per Participant||||=0.0923
82481317|NCT04876690|164655563|SUPERIORITY||||||=|0.0994|||||||Spearman Correlation Coefficient|||PCS- 12: Number of External Fistula Openings per Participant||||=0.0994
82481318|NCT04876690|164655563|SUPERIORITY||||||=|0.0444|||||||Pearson Correlation Coefficient|||PCS- 12: SIBDQ Score||||=0.0444
82481319|NCT04876690|164655563|SUPERIORITY||||||=|0.086|||||||Pearson Correlation Coefficient|||PCS- 12: SQoL-M Score||||=0.0860
82481320|NCT04876690|164655563|SUPERIORITY||||||=|0.9415|||||||Pearson Correlation Coefficient|||PCS- 12: SQoL-F Score||||=0.9415
82481321|NCT04876690|164655563|SUPERIORITY||||||=|0.3709|||||||Pearson Correlation Coefficient|||PCS- 12: Wexner Score||||=0.3709
82481322|NCT04876690|164655564|SUPERIORITY||||||=|0.0674|||||||Pearson Correlation Coefficient|||MCS- 12: Age||||=0.0674
82481323|NCT04876690|164655564|SUPERIORITY||||||=|0.9392|||||||Pearson Correlation Coefficient|||MCS- 12: BMI||||=0.9392
82481324|NCT04876690|164655564|SUPERIORITY||||||=|0.6387|||||||Spearman Correlation Coefficient|||MCS- 12: Time Between CD Diagnosis Date and Date of Study Visit||||=0.6387
82481325|NCT04876690|164655564|SUPERIORITY||||||=|0.7846|||||||Spearman Correlation Coefficient|||MCS- 12: Total Number of CPFs per Participant||||=0.7846
82481326|NCT04876690|164655564|SUPERIORITY||||||=|0.3972|||||||Pearson Correlation Coefficient|||MCS- 12: Time Since Seton Placement||||=0.3972
82481327|NCT04876690|164655564|SUPERIORITY||||||=|0.9496|||||||Spearman Correlation Coefficient|||MCS- 12: Time Between First CPF Diagnosis Date and Date of Study Visit||||=0.9496
82481328|NCT04876690|164655564|SUPERIORITY||||||=|0.813|||||||Pearson Correlation Coefficient|||MCS- 12: PDAI Score||||=0.8130
82481329|NCT04876690|164655564|SUPERIORITY||||||=|0.4588|||||||Spearman Correlation Coefficient|||MCS- 12: Number of Internal Fistula Openings per Participant||||=0.4588
82481330|NCT04876690|164655564|SUPERIORITY||||||=|0.8663|||||||Spearman Correlation Coefficient|||MCS- 12: Number of External Fistula Openings per Participant||||=0.8663
82481331|NCT04876690|164655564|SUPERIORITY||||||=|0.1349|||||||Pearson Correlation Coefficient|||MCS- 12: SIBDQ Score||||=0.1349
82481332|NCT04876690|164655564|SUPERIORITY||||||=|0.5647|||||||Pearson Correlation Coefficient|||MCS- 12: SQoL-M Score||||=0.5647
82481333|NCT04876690|164655564|SUPERIORITY||||||=|0.9509|||||||Pearson Correlation Coefficient|||MCS- 12: SQoL-F Score||||=0.9509
82481334|NCT04876690|164655564|SUPERIORITY||||||=|0.5328|||||||Pearson Correlation Coefficient|||MCS- 12: Wexner Score||||=0.5328
82481335|NCT02660138|164655565|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025.|LS Mean Difference|-10.83||||0.0001|TWO_SIDED|95.0|-16.36|-5.31|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[Botulinum toxin \[BTX\]-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-5.31|-16.36|0.0001
82554112|NCT05715528|164813847|SUPERIORITY|||||||0.6469|||||||Fisher's exact test|||||||0.6469
82481336|NCT02660138|164655565|SUPERIORITY|If both p-values for the 2 primary tests (the test of Dysport® 800 U vs. placebo and the test of Dysport® 600 U vs. placebo) were lower than 0.05, both were declared statistically significant. If 1 of the primary tests had a p-value greater than or equal to 0.05, then the other test was declared statistically significant if its p-value was lower than 0.025.|LS Mean Difference|-12.19|||<|0.0001|TWO_SIDED|95.0|-17.65|-6.73|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (weekly number of UI episodes) as fixed effect variables, and subject as a random effect.||-6.73|-17.65|<0.0001
82481337|NCT02660138|164655566|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|160.9|||<|0.0001|TWO_SIDED|95.0|109.9|211.9|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||211.9|109.9|<0.0001
82481338|NCT02660138|164655566|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|189.2|||<|0.0001|TWO_SIDED|95.0|140.1|238.2|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MCC as covariates.||238.2|140.1|<0.0001
82581487|NCT00371683|164874618|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.7700
82481339|NCT02660138|164655567|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|-24.3|||<|0.0001|TWO_SIDED|95.0|-32.3|-16.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-16.4|-32.3|<0.0001
82481340|NCT02660138|164655567|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-36.2|-21.1|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of MDP as covariates.||-21.1|-36.2|<0.0001
82481341|NCT02660138|164655568|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|155.5|||<|0.0001|TWO_SIDED|95.0|100.5|210.4|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||210.4|100.5|<0.0001
82481342|NCT02660138|164655568|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|181.8|||<|0.0001|TWO_SIDED|95.0|129.2|234.3|||ANCOVA|||Treatment group, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and baseline value of Vol@1stIDC as covariates.||234.3|129.2|<0.0001
82481343|NCT02660138|164655569|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|9.83||||0.0006|TWO_SIDED|95.0|2.72|35.6|||Generalised linear mixed model (GLMM)|||Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||35.60|2.72|0.0006
82481344|NCT02660138|164655569|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|10.99||||0.0003|TWO_SIDED|95.0|3.05|39.61|||GLMM|||Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.||39.61|3.05|0.0003
82481345|NCT02660138|164655570|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|5.73||||0.001|TWO_SIDED|95.0|2.02|16.24|||Regression, Logistic|||Treatment group, and recorded stratification factors (aetiology of NDO, previous BTX-A usage) and study baseline (prior intradetrusor BTX-A usage for UI) as explanatory variables.||16.24|2.02|0.0010
82481346|NCT02660138|164655570|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|Odds Ratio (OR)|16.08|||<|0.0001|TWO_SIDED|95.0|5.82|44.43|||Regression, Logistic|||Treatment group, and recorded stratification factors (aetiology of NDO, previous BTX-A usage) and study baseline (prior intradetrusor BTX-A usage for UI) as explanatory variables.||44.43|5.82|<0.0001
82481347|NCT02660138|164655571|SUPERIORITY|This secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|13.3||||0.0003|TWO_SIDED|95.0|6.22|20.37|||MMRM|||Treatment group, visit (Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (I-QoL summary total score) as fixed variables, and subject as a random effect.||20.37|6.22|0.0003
82581488|NCT00371683|164874619|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.68|2.11||||||||2.11|0.68|
82376768|NCT03888066|164459893|SUPERIORITY||Mean Difference (Final Values)|-0.097|STANDARD_ERROR_OF_MEAN|0.015|<|0.001|TWO_SIDED|95.0|-0.128|-0.067|||Mixed model for repeated measures (MMRM)|||Difference in adjusted mean changes (SE)||-0.067|-0.128|< 0.001
82581489|NCT00371683|164874619|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.28|||||TWO_SIDED|95.0|-0.78|1.33||||||||1.33|-0.78|
82581490|NCT00371683|164874619|SUPERIORITY_OR_OTHER|||||||0.5443|TWO_SIDED||||||test of equality|For descriptive purposes only, p-values were presented for the test of equality of event rates||||||0.5443
82581491|NCT00371683|164874620|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.2|4.93||||||||4.93|0.20|
82581492|NCT00371683|164874620|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||||0.30|-0.30|
82481348|NCT02660138|164655571|SUPERIORITY|The secondary endpoint was included in the hierarchical analysis and was tested for both doses at the 0.05 level using a hierarchical methodology.|LS Mean Difference|17.25|||<|0.0001|TWO_SIDED|95.0|10.36|24.15|||MMRM|||Treatment group, visit (Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (I-QoL summary total score) as fixed variables, and subject as a random effect.||24.15|10.36|<0.0001
82481349|NCT02660138|164655572|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|4.0||||0.0007|TWO_SIDED|95.0|1.8|8.86||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 600 U versus Placebo.||8.86|1.80|0.0007
82481350|NCT02660138|164655572|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|3.63||||0.0012|TWO_SIDED|95.0|1.68|7.86||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥30% Improvement Level: Dysport® 800 U versus Placebo||7.86|1.68|0.0012
82481351|NCT02660138|164655572|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|8.03|||<|0.0001|TWO_SIDED|95.0|3.56|18.09||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement Level: Dysport® 600 U versus Placebo.||18.09|3.56|<0.0001
82481352|NCT02660138|164655572|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|8.22|||<|0.0001|TWO_SIDED|95.0|3.66|18.47||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥50% Improvement Level: Dysport® 800 U versus Placebo||18.47|3.66|<0.0001
82481353|NCT02660138|164655572|OTHER|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|10.7|||<|0.0001|TWO_SIDED|95.0|4.59|24.95||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement Level: Dysport® 600 U versus Placebo.||24.95|4.59|<0.0001
82481354|NCT02660138|164655572|SUPERIORITY|Treatment group, recorded stratification factors, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, study baseline-by-visit interaction and study baseline weekly number of UI episodes as fixed effect.|Odds Ratio (OR)|12.63|||<|0.0001|TWO_SIDED|95.0|5.4|29.56||This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|GLMM|||Treatment comparison at ≥75% Improvement Level: Dysport® 800 U versus Placebo.||29.56|5.40|<0.0001
82481355|NCT02660138|164655573|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|84.81|||<|0.0001|TWO_SIDED|95.0|43.73|125.89|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||125.89|43.73|<0.0001
82481356|NCT02660138|164655573|SUPERIORITY|This secondary endpoint was not included within the hierarchical testing procedure and was analysed for exploratory purposes only to compare each Dysport® dose to placebo at a 0.05 type one error rate.|LS Mean Difference|110.57|||<|0.0001|TWO_SIDED|95.0|70.17|150.98|||MMRM|||Treatment group, visit (Week 2, Week 6 and Week 12), treatment-by-visit interaction, recorded stratification factors (aetiology of NDO \[SCI or MS\], prior intradetrusor \[BTX-naïve or BTX-non-naïve\]) and study baseline value (total volume per void) as fixed effect variables, and subject as a random effect.||150.98|70.17|<0.0001
82481357|NCT00308581|164655579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.696||95.0|0.7|1.7||Logistic regression model including terms for treatment arm and geographical region (North America versus Europe).|Regression, Logistic||Direction of comparison is Q4W regimen (active 1) versus Q2W regimen (active 2).|With a sample size of 165 patients per treatment arm, assuming a percentage of responders of 45% with the Q4W regimen, the study had 80% power to show a statistically significant difference in percentage of responders at Week 26 between the two treatment groups, when there is a true difference of 16% in percentage of responders in favor of the Q2W regimen, and using a 2-sided chi-square at the 5% significance level.||1.7|0.7|0.696
82481358|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|2.7||0.78|TWO_SIDED|95.0|-5.0|11.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||11.2|-5.0|0.78
82481359|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|2.5||0.75|TWO_SIDED|95.0|-4.6|10.7|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||10.7|-4.6|0.75
82554113|NCT05715528|164813848|SUPERIORITY||Hazard Ratio (HR)|0.495||||0.5581|TWO_SIDED|95.0|0.045|5.464|||Log-rank test|P value was based on log-rank test.|Hazard ratio and two-sided 95% CI were estimated using the Cox regression.|||5.464|0.045|0.5581
82481360|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.3||0.08|TWO_SIDED|95.0|-0.6|13.7|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||13.7|-0.6|0.08
82481361|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_ERROR_OF_MEAN|2.4||0.17|TWO_SIDED|95.0|-1.6|13.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on global response."||13.2|-1.6|0.17
82481362|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|STANDARD_ERROR_OF_MEAN|3.7||0.61|TWO_SIDED|95.0|-6.5|17.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||17.2|-6.5|0.61
82481363|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.3|STANDARD_ERROR_OF_MEAN|3.1||0.32|TWO_SIDED|95.0|-4.1|16.8|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||16.8|-4.1|0.32
82554114|NCT05715528|164813850|SUPERIORITY||Least Squares Mean|0.02||||0.4254|TWO_SIDED|95.0|-0.03|0.08||p-value was from Mixed-effects model repeated measures (MMRM) with baseline viral load and randomization strata as covariates.|MMRM||95% CI was from MMRM with baseline viral load and randomization strata as covariates.|||0.08|-0.03|0.4254
82554115|NCT05715528|164813851|SUPERIORITY||Hazard Ratio (HR)|1.138||||0.0015|TWO_SIDED|95.0|1.032|1.256||P-value calculated from stratified Log-rank test with randomization stratification factor as the strata.|Stratified Log-rank test||Hazard ratio and two-sided 95% CI for hazard ratio were estimated using the Cox regression with randomization stratification factor as a covariate.|||1.256|1.032|0.0015
82554116|NCT05715528|164813852|SUPERIORITY|||||||0.6978|||||||Fisher's exact test|P-value was from the Fisher's exact test.||||||0.6978
82554117|NCT05715528|164813857|SUPERIORITY|||||||0.5707|||||||Fisher's exact test|P-value was from the Fisher's exact test.||||||0.5707
82554118|NCT03331835|164813862|SUPERIORITY||Risk Difference (RD)|42.86|||<|0.001|TWO_SIDED|95.0|30.93|54.79|||Cochran-Mantel-Haenszel|95% CI and p-value are derived from CMH analysis stratified by weight group at baseline (≤100 kg, \> 100 kg).||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||54.79|30.93|<0.001
82554119|NCT03331835|164813863|SUPERIORITY||Risk Difference (RD)|44.76|||<|0.001|TWO_SIDED|95.0|32.81|56.71|||Cochran-Mantel-Haenszel|95% CI and p-value are derived from CMH analysis stratified by weight group at baseline (≤100 kg, \> 100 kg)||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||56.71|32.81|<0.001
82554120|NCT03331835|164813864|SUPERIORITY||Risk Difference (RD)|43.81|||<|0.001|TWO_SIDED|95.0|31.78|55.84|||Cochran-Mantel-Haenszel|||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||55.84|31.78|<0.001
82554121|NCT03331835|164813865|SUPERIORITY||Risk Difference (RD)|31.43|||<|0.001|TWO_SIDED|95.0|20.76|42.1|||Cochran-Mantel-Haenszel|||Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (≤100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.||42.10|20.76|<0.001
82581493|NCT00371683|164874620|SUPERIORITY_OR_OTHER|||||||0.9975|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.9975
82554122|NCT03331835|164813866|SUPERIORITY||Mean Difference (Net)|-3.08|||<|0.001|TWO_SIDED|95.0|-4.83|-1.33|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-1.33|-4.83|<0.001
82554123|NCT03331835|164813867|SUPERIORITY||Mean Difference (Net)|-16.36|||<|0.001|TWO_SIDED|95.0|-23.03|-9.68|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-9.68|-23.03|<0.001
82581494|NCT00371683|164874621|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.13|||||TWO_SIDED|95.0|-0.05|0.3||||||||0.30|-0.05|
82581495|NCT00371683|164874621|SUPERIORITY_OR_OTHER|||||||0.1578|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.1578
82481364|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|STANDARD_ERROR_OF_MEAN|2.8||0.03|TWO_SIDED|95.0|1.6|22.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||22.3|1.6|0.03
82481365|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|3.1||0.04|TWO_SIDED|95.0|0.5|21.8|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on High Initial NFkB Activation Expressers."||21.8|0.5|0.04
82554124|NCT03331835|164813868|SUPERIORITY||Mean Difference (Net)|-8.91|||<|0.001|TWO_SIDED|95.0|-13.0|-4.81|||Mixed Models Analysis|||The endpoint was analysed using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.||-4.81|-13.00|<0.001
82554125|NCT03331835|164813872|SUPERIORITY||Mean Difference (Final Values)|-4.92|||<|0.001|TWO_SIDED|95.0|-6.31|-3.53|||ANCOVA|||The AUC was analysed using analysis of covariance (ANCOVA) with treatment group, baseline weight group, and the baseline PSI total score as explanatory variables. Treatment groups are defined as randomised treatment.||-3.53|-6.31|<0.001
82554126|NCT03331835|164813873|SUPERIORITY||Mean Difference (Net)|-2.57||||0.004|TWO_SIDED|95.0|-4.32|-0.82|||Mixed Models Analysis|||The endpoint is analysed by using mixed model for repeated measurements (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups are defined as randomised treatment.||-0.82|-4.32|0.004
82554127|NCT03331835|164813874|SUPERIORITY|Estimated risk difference, 95% CI and p-value are derived from Cochran-Mantel-Haenszel (CMH) analysis stratified by weight group at baseline (\<=100 kg, \> 100 kg). Non-responder Imputation (NRI) was used to impute missing data. Treatment groups were defined as randomised treatment.|Risk Difference (RD)|40.95|||<|0.001|TWO_SIDED|95.0|28.75|53.16|||Cochran-Mantel-Haenszel|||||53.16|28.75|<0.001
82554128|NCT03331835|164813875|SUPERIORITY|The endpoint was analysed by using mixed model for repeated measures (MMRM) model including treatment group, week, interaction between treatment and time, baseline value, and baseline weight group as fixed factors. Within participant covariance was estimated by an unstructured covariance matrix. Treatment groups were defined as randomised treatment.|Mean Difference (Net)|-1.72||||0.028|TWO_SIDED|95.0|-3.24|-0.19|||Mixed Models Analysis|||||-0.19|-3.24|0.028
82554129|NCT02998528|164813924|SUPERIORITY||Cox Proportional Hazard|0.63||||0.0052|TWO_SIDED|97.38|0.43|0.91|||Log Rank|Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)||||0.91|0.43|0.0052
82554130|NCT02998528|164813925|SUPERIORITY||% Difference|21.6|||||TWO_SIDED|99.0|13.0|30.3|||||Strata adjusted difference (Arm C - Concurrent Arm B) based on the CMH method of weighting. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||30.3|13.0|
82554131|NCT02998528|164813925|SUPERIORITY||Odds Ratio (OR)|13.94|||<|0.0001|TWO_SIDED|99.0|3.49|55.75|||Cochran-Mantel-Haenszel||Strata adjusted odds ratio (Arm C over Concurrent Arm B) the Mantel-Haenszel method. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||55.75|3.49|<0.0001
82554132|NCT02998528|164813926|SUPERIORITY||% Difference|27.9|||||TWO_SIDED|95.0|19.6|36.1|||||Strata adjusted difference (Arm C - Concurrent Arm B) based on the CMH method of weighting. Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||36.1|19.6|
82554133|NCT02998528|164813926|SUPERIORITY||Odds Ratio (OR)|5.7|||||TWO_SIDED|95.0|3.16|10.26|||||Stratified by PD-L1 (≥ 1% vs \<1%/unevaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||10.26|3.16|
82554134|NCT02998528|164813928|SUPERIORITY||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.36|0.77|||||Stratified by: PD-L1 status (≥ 1% vs \<1%/not evaluable/indeterminate), disease stage (IB/II vs IIIA), and sex (male vs female)|||0.77|0.36|
82554135|NCT06029452|164813929|NON_INFERIORITY|Non-inferiority margin was 0.10.|Sensitivity|0.853|||||ONE_SIDED|95.0|0.815||||||Sensitivity was defined as the probability that an individual with the disease in the population were screen positive for disease by the algorithm (TP). Sensitivity = TP / (TP + FN).||||0.815|
82554136|NCT06029452|164813929|NON_INFERIORITY|Non-inferiority margin was 0.10.|Specificity|0.584|||||ONE_SIDED|95.0|0.539||||||Sensitivity was defined as the probability that an individual with the disease in the population were screen positive for disease by the algorithm (TP). Sensitivity = TP / (TP + FN).||||0.539|
82554137|NCT04204083|164813939|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82554138|NCT04204083|164813940|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82554139|NCT04204083|164813941|OTHER||||||<|0.0001||||||P-Value was calculated|t-test, 1 sided|||||||<0.0001
82581496|NCT00371683|164874622|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.65|2.4||||||||2.40|0.65|
82554140|NCT04934072|164813961|NON_INFERIORITY|Non-inferiority of FKS518 to US-Prolia was demonstrated if the 90% CI for the difference in mean percent change from baseline to Week 52 in LS-BMD laid entirely above -1.45%.|Mean Difference (Final Values)|0.46|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|90.0|-0.05|0.96|||||Difference : FKS518 - US-Prolia|||0.96|-0.05|
82554141|NCT04934072|164813961|OTHER|Non-superiority Analysis: Non-superiority of FKS518 to US-Prolia was demonstrated if the 90% CI for the difference in mean percent change from baseline to Week 52 in LS-BMD laid entirely below 1.45%.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.306|||TWO_SIDED|90.0|0.19|1.2|||||Difference : FKS518 - US-Prolia|||1.20|0.19|
82554142|NCT05970861|164814078|OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||"Null hypothesis: there is no statistical significance between the mean percentages of microbiota units of the main and control groups after the mare's milk administration.~Alternate hypothesis: statistical significance exists between the mean percentages of microbiota units of the main and control groups after the mare's milk administration."||||<0.05
82554143|NCT05970861|164814078|OTHER||||||<|0.05|||||||ANOVA|||"Null Hypothesis: The freeze-dried mare's milk does not significantly influence the mean percentages of gut microbiota units.~Alternate Hypothesis: The freeze-dried mare's milk significantly influences the mean percentages of gut microbiota units."||||<0.05
82581497|NCT00371683|164874622|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.25|||||TWO_SIDED|95.0|-0.47|0.98||||||||0.98|-0.47|
82581498|NCT00371683|164874623|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.46|||||TWO_SIDED|95.0|0.72|2.95||||||||2.95|0.72|
82581499|NCT00371683|164874623|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.38|||||TWO_SIDED|95.0|-0.3|1.06||||||||1.06|-0.30|
82581500|NCT00371683|164874623|SUPERIORITY_OR_OTHER|||||||0.2873|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.2873
82581501|NCT00371683|164874624|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.74|1.2||||||||1.20|0.74|
82581502|NCT00371683|164874624|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.83|||||TWO_SIDED|95.0|-3.3|1.63||||||||1.63|-3.30|
82481366|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||1|TWO_SIDED|95.0|-1.5|1.2|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||1.2|-1.5|1.00
82481367|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.88|TWO_SIDED|95.0|-3.5|2.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||2.3|-3.5|0.88
82481368|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.98|TWO_SIDED|95.0|-0.8|1.0|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||1.0|-0.8|0.98
82481369|NCT00899353|164655644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.2||0.98|TWO_SIDED|95.0|-6.6|5.3|||ANOVA|Games-Howell Correction was applied to adjust for unequal variances, unequal sample size and for non-parametric distribution.||"Omnibus analysis. Statistical significance was determined by Games Howell Multiple Comparison test. Significance was determined as α\< 0.05.~Analysis based on Low Initial NFkB Activation Expressers."||5.3|-6.6|0.98
82481370|NCT03445156|164655696|OTHER|ANCOVA||||||0.04|||||||ANCOVA|F(2, 273) = 3.16, p = .044, partial c\^2 = .023||||||0.04
82481371|NCT03445156|164655696|OTHER|ANCOVA||||||0.0001|||||||ANCOVA|F(1, 36) = 44.42||||||.0001
82481372|NCT03445156|164655697|OTHER|ANCOVA|||||<|0.001|||||||ANCOVA|F(1, 36) = 44.42||Hypothesis: Participants who played a violent FPS game were expected to have more hits to targets with heads or faces than were participants who played a nonviolent shooting game.||||<.001
82481373|NCT03445156|164655697|OTHER|ANCOVA||||||0.044|||||||ANCOVA|F(2, 273) = 3.16||Hypothesis: Participants who played a violent FPS game were expected to hit the mannequin's head more often than were participants who played either the nonviolent shooting game or the nonviolent non-shooting game Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun.||||.044
82481374|NCT03445156|164655697|OTHER|ANCOVA||||||0.17|||||||t-test, 2 sided|t(274) = 2.40||"Hypothesis: Because the nonviolent shooting game rewards other shots, participants who played a nonviolent shooting game were expected to hit the mannequin's torso more often than were participants who played the nonviolent non-shooting game.~Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun."||||0.17
82481375|NCT03445156|164655697|OTHER|ANCOVA||||||0.449|||||||t-test, 2 sided|t(274) = -0.76||Hypothesis: participants who played a nonviolent shooting game were expected to hit the mannequin's head less often than were participants who played the nonviolent non-shooting game Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun.||||.449
82554144|NCT05970861|164814079|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: No statistically significant difference exists between antiphospholipid antibody levels before and after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between antiphospholipid antibody levels before and after the mare's milk administration."||||>0.05
82581503|NCT00371683|164874624|SUPERIORITY_OR_OTHER|||||||0.6145|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||||||0.6145
82481376|NCT03445156|164655697|OTHER|ANCOVA||||||0.645|||||||t-test, 2 sided|t(273) = -0.46||"Hypothesis: participants who played a nonviolent shooting game were expected to hit the mannequin's torso more often than were participants who played the nonviolent non-shooting game.~Covariates: participant gender, number of guns owned over their lifetime, attitudes toward guns, and number of times they had fired a gun."||||.645
82481377|NCT03445156|164655697|OTHER|Zero-order correlation||||||0.032|||||||Zero-order correlation|||Hypothesis: A positive correlation was expected between the number of violent shooting games participants listed among their three favorite video games and hits to the mannequin's head.||||.032
82481378|NCT03050775|164655788|SUPERIORITY|||||||0.807|||||||t-test, 2 sided|||||||0.807
82481379|NCT03050775|164655788|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.358|TWO_SIDED|95.0|-0.085|0.237|||ANCOVA|||||0.237|-0.085|0.358
82481380|NCT03050775|164655789|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.823|TWO_SIDED|95.0|-0.3|0.2|||t-test, 2 sided|||\~30 minutes post-induction||0.2|-0.3|0.823
82481381|NCT03050775|164655789|SUPERIORITY||Median Difference (Final Values)|0.0||||0.853|TWO_SIDED|95.0|-0.2|0.3|||t-test, 2 sided|||\~60 minutes post-induction. Data was obtained from 33 subjects in the treatment group.||0.3|-0.2|0.853
82481382|NCT03050775|164655789|SUPERIORITY||Median Difference (Final Values)|0.0||||0.986|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|||\~120 minutes post-induction||0.2|-0.2|0.986
82481383|NCT03050775|164655790|SUPERIORITY||Odds Ratio (OR)|1.7||||0.54|TWO_SIDED|95.0|0.5|5.9|||Fisher Exact|||Post-operative shivering observed||5.9|0.5|0.540
82481384|NCT03050775|164655791|SUPERIORITY||Median Difference (Final Values)|0.0||||0.672|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1|-1|0.672
82481385|NCT03050775|164655792|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.571|TWO_SIDED|95.0|-0.2|0.1|||t-test, 2 sided|||Data was obtained from 32 subjects in the treatment group.||0.1|-0.2|0.571
82481386|NCT03050775|164655793|SUPERIORITY||Odds Ratio (OR)|1.4||||0.619|TWO_SIDED|95.0|0.5|3.7|||Fisher Exact|||||3.7|0.5|0.619
82481387|NCT03050775|164655794|SUPERIORITY||Median Difference (Final Values)|75.0||||0.404|TWO_SIDED|95.0|-100.0|250.0|||Wilcoxon (Mann-Whitney)|||||250|-100|0.404
82481388|NCT03603509|164655809|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||Null Hypothesis: HAI Day 28 - HAI Day 0 for Fluad = HAI Day 28 - HAI Day 0 for Fluzone Alternative Hypothesis: HAI Day 28 - HAI Day 0 for Fluad NE HAI Day 28 - HAI Day 0 for Fluzone||||0.062
82481389|NCT03603509|164655818|SUPERIORITY|null hypothesis: CMV Fluad sample index = CMV Fluzone sample index at Baseline alternate hypothesis: CMV Fluad sample index not equal to CMV Fluzone sample index at Baseline||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82651331|NCT01965652|165017458|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.81|-0.53|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 2 Analysis||-0.53|-0.81|<0.0001
82554145|NCT05970861|164814080|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||"Null hypothesis: No statistically significant difference exists between uric acid blood levels before and after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between uric acid blood levels before and after the mare's milk administration."||||0.01
82554146|NCT05970861|164814081|OTHER||||||<|0.01|||||||t-test, 2 sided|||"Null hypothesis: No statistically significant difference exists between the scores on a scale (PCS, MCS) after the mare's milk administration.~Alternate hypothesis: Statistically significant difference exists between the scores on a scale (PCS, MCS) after the mare's milk administration."||||<0.01
82554147|NCT05970861|164814081|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Null hypothesis: No statistically significant difference exists between the scores on a scale (PCS, MCS) after 2 measurements in the control group.~Alternate hypothesis: Statistically significant difference exists between the scores on a scale (PCS, MCS) after 2 measurements in the control group."||||>0.05
82554148|NCT05970861|164814081|OTHER||||||<|0.01|||||||ANOVA|||"Null Hypothesis: The freeze-dried mare's milk does not significantly influence the scores on the scales (PCS, MCS).~Alternate Hypothesis: The freeze-dried mare's milk significantly influences the scores on the scales (PCS, MCS)."||||<0.01
82554149|NCT04011644|164814098|SUPERIORITY|||||||0.688|||||||Mixed Models Analysis|Quanbeck,A.et al. A randomized trial testing digital medicine support models for mild-to-moderate alcohol use disorder. npj Digit. Med.7,248(2024)||||||0.688
82554150|NCT04011644|164814099|SUPERIORITY|||||||0.261|||||||Mixed Models Analysis|||||||0.261
82554151|NCT04011644|164814100|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||0.014
82554152|NCT04011644|164814102|SUPERIORITY|||||||0.908|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.908
82554153|NCT04011644|164814104|SUPERIORITY|||||||0.206|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.206
82554154|NCT04011644|164814105|SUPERIORITY|||||||0.104|||||||ANCOVA|||A univariate analysis (Analysis of Covariance or ANCOVA) was conducted to compare the number of hospital days among the three groups controlling for baseline assessment of the dependent variable and design factors (i.e., Sex and Severity).||||0.104
82554155|NCT04011644|164814106|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554156|NCT04011644|164814107|SUPERIORITY|||||||0.025|||||||Mixed Models Analysis|||||||0.025
82554157|NCT04011644|164814108|SUPERIORITY|||||||0.555|||||||Mixed Models Analysis|||||||0.555
82554158|NCT04011644|164814109|SUPERIORITY|||||||0.131|||||||Kruskal-Wallis|||||||0.131
82554159|NCT04011644|164814113|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
82554160|NCT01199133|164814115|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.01|||>|0.05||95.0|-0.41|0.43|||ANCOVA|||||0.43|-0.41|> 0.05
82554161|NCT05265065|164814116|NON_INFERIORITY|"Non-inferiority margin of -10% (absolute difference) and a one-sided significance level of 5%.~The sample size calculation assumed an estimated seroresponse rate of 95% in both half- and full-dose arms, a non- inferiority margin of -10% (absolute difference), a one-sided significance level of5%, and no loss to follow- up. Under this scenario, a sample size of 100 per arm provides 90% power to compare seroresponse rates between arms under the non-inferiority framework."|Risk Difference (RD)|-2.9|||||TWO_SIDED|95.0|-7.7|2.0|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|Non-inferiority margin of -10% (absolute difference) and a one-sided significance level of 5%.||2.0|-7.7|
82554162|NCT05265065|164814118|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-16.1|11.3|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||11.3|-16.1|
82554163|NCT05265065|164814118|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-9.5|3.2|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||3.2|-9.5|
82554164|NCT05265065|164814118|NON_INFERIORITY|Non-inferiority margin of -10% (absolute difference)|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-17.1|16.1|||Regression, Logistic||The difference in seroresponse was adjusted for age group, priming vaccine, duration between first and second dose, duration between second and third (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||16.1|-17.1|
82554165|NCT05265065|164814119|SUPERIORITY||Geometric Mean Ratio|0.94||||0.228|TWO_SIDED|95.0|0.86|1.04|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.04|0.86|0.228
82554166|NCT05265065|164814120|SUPERIORITY||Geometric Mean Ratio|0.94||||0.537|TWO_SIDED|95.0|0.77|1.15|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.15|0.77|0.537
82554167|NCT05265065|164814120|SUPERIORITY||Geometric Mean Ratio|0.99||||0.922|TWO_SIDED|95.0|0.89|1.11|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||1.11|0.89|0.922
82651332|NCT01965652|165017458|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|-0.73|-0.43|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 12 Analysis||-0.43|-0.73|<0.0001
82481390|NCT03274999|164655820|SUPERIORITY|||||||0.156||||||Eye-opening, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.156
82481391|NCT03274999|164655820|SUPERIORITY|||||||0.395||||||Eye-opening, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.395
82481392|NCT03274999|164655820|SUPERIORITY|||||||0.114||||||Eye-opening, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.114
82481393|NCT03274999|164655820|SUPERIORITY|||||||0.211||||||Eye-opening, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.211
82481394|NCT03274999|164655820|SUPERIORITY|||||||0.332||||||Eye-opening, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.332
82481395|NCT03274999|164655820|SUPERIORITY|||||||0.318||||||Eye-opening, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.318
82481396|NCT03274999|164655820|SUPERIORITY|||||||0.375||||||Eye-opening, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.375
82481397|NCT03274999|164655820|SUPERIORITY|||||||0.352||||||Eye-opening, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.352
82481398|NCT03274999|164655820|SUPERIORITY|||||||0.312||||||Eye-opening, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.312
82481399|NCT03274999|164655820|SUPERIORITY|||||||0.134||||||Pre-blink, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.134
82481400|NCT03274999|164655820|SUPERIORITY|||||||0.315||||||Pre-blink, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.315
82481401|NCT03274999|164655820|SUPERIORITY|||||||0.071||||||Pre-blink, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.071
82481402|NCT03274999|164655820|SUPERIORITY|||||||0.26||||||Pre-blink, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.260
82481403|NCT03274999|164655820|SUPERIORITY|||||||0.264||||||Pre-blink, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.264
82481404|NCT03274999|164655820|SUPERIORITY|||||||0.381||||||Pre-blink, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.381
82481405|NCT03274999|164655820|SUPERIORITY|||||||0.249||||||Pre-blink, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.249
82481406|NCT03274999|164655820|SUPERIORITY|||||||0.451||||||Pre-blink, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.451
82481407|NCT03274999|164655820|SUPERIORITY|||||||0.393||||||Pre-blink, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.393
82481408|NCT03274999|164655821|SUPERIORITY|||||||0.006||||||Eye-opening, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.006
82481409|NCT03274999|164655821|SUPERIORITY|||||||0.063||||||Eye-opening, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.063
82481410|NCT03274999|164655821|SUPERIORITY|||||||0.005||||||Eye-opening, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.005
82481411|NCT03274999|164655821|SUPERIORITY|||||||0.089||||||Eye-opening, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.089
82481412|NCT03274999|164655821|SUPERIORITY|||||||0.112||||||Eye-opening, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.112
82481413|NCT03274999|164655821|SUPERIORITY|||||||0.16||||||Eye-opening, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.16
82481414|NCT03274999|164655821|SUPERIORITY|||||||0.077||||||Eye-opening, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.077
82481415|NCT03274999|164655821|SUPERIORITY|||||||0.157||||||Eye-opening, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.157
82481416|NCT03274999|164655821|SUPERIORITY|||||||0.111||||||Eye-opening, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.111
82481417|NCT03274999|164655821|SUPERIORITY|||||||0.04||||||Pre-blink, T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.040
82481418|NCT03274999|164655821|SUPERIORITY|||||||0.241||||||Pre-blink, T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.241
82481419|NCT03274999|164655821|SUPERIORITY|||||||0.284||||||Pre-blink, T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.284
82481420|NCT03274999|164655821|SUPERIORITY|||||||0.313||||||Pre-blink, T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.313
82481421|NCT03274999|164655821|SUPERIORITY|||||||0.433||||||Pre-blink, T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.433
82651333|NCT01965652|165017458|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.077|<|0.0001|TWO_SIDED|95.0|-0.66|-0.36|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 24 Analysis||-0.36|-0.66|<0.0001
82481422|NCT03274999|164655821|SUPERIORITY|||||||0.406||||||Pre-blink, T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.406
82651334|NCT01965652|165017458|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.69|-0.38|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 36 Analysis||-0.38|-0.69|<0.0001
82581504|NCT00371683|164874627|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.55|0.05||||||Adjusted difference of event rates of MI/Stroke. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.55|
82581505|NCT00371683|164874627|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.19|||||TWO_SIDED|95.0|-0.46|0.09||||||Adjusted difference of event rates of MI. Type of surgery was taken into consideration as a stratification factor.||0.09|-0.46|
82481423|NCT03274999|164655821|SUPERIORITY|||||||0.318||||||Pre-blink, T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.318
82481424|NCT03274999|164655821|SUPERIORITY|||||||0.499||||||Pre-blink, T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.499
82481425|NCT03274999|164655821|SUPERIORITY|||||||0.39||||||Pre-blink, T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.390
82581506|NCT00371683|164874627|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13|||||TWO_SIDED|95.0|-0.3|0.05||||||Adjusted difference of event rates of Stroke. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.30|
82481426|NCT03274999|164655822|SUPERIORITY|||||||0.053||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.053
82481427|NCT03274999|164655822|SUPERIORITY|||||||0.206||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.206
82481428|NCT03274999|164655822|SUPERIORITY|||||||0.221||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.221
82481429|NCT03274999|164655822|SUPERIORITY|||||||0.126||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.126
82481430|NCT03274999|164655822|SUPERIORITY|||||||0.124||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.124
82481431|NCT03274999|164655822|SUPERIORITY|||||||0.167||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.167
82481432|NCT03274999|164655822|SUPERIORITY|||||||0.377||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.377
82481433|NCT03274999|164655822|SUPERIORITY|||||||0.397||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.397
82554168|NCT05265065|164814120|SUPERIORITY||Geometric Mean Ratio|0.71||||0.014|TWO_SIDED|95.0|0.54|0.93|||Regression, Linear||Adjusted for age group, priming vaccine, duration between 1st and 2nd dose, duration between 2nd and 3rd (study) dose, study day of blood draw, and baseline anti-spike IgG (IgG).|||0.93|0.54|0.014
82554169|NCT01447719|164814132|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|92.0|||||TWO_SIDED|95.0|78.0|98.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a positive scan based on majority of 5 blinded readers||98|78|
82554170|NCT01447719|164814133|SUPERIORITY_OR_OTHER_LEGACY||Specificity|100.0|||||TWO_SIDED|95.0|80.0|100.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a negative scan based on majority of 5 blinded readers||100|80|
82581507|NCT00371683|164874627|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13|||||TWO_SIDED|95.0|-0.3|0.05||||||Adjusted difference of event rates of thrombocytopenia. Type of surgery was taken into consideration as a stratification factor.||0.05|-0.30|
82481434|NCT03274999|164655822|SUPERIORITY|||||||0.441||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.441
82481435|NCT03274999|164655823|SUPERIORITY|||||||0.034||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.034
82481436|NCT03274999|164655823|SUPERIORITY|||||||0.143||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.143
82481437|NCT03274999|164655823|SUPERIORITY|||||||0.328||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
82481438|NCT03274999|164655823|SUPERIORITY|||||||0.25||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.250
82481439|NCT03274999|164655823|SUPERIORITY|||||||0.09||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
82481440|NCT03274999|164655823|SUPERIORITY|||||||0.328||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
82481441|NCT03274999|164655823|SUPERIORITY|||||||0.055||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.055
82581508|NCT00371683|164874628|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.81|||||TWO_SIDED|95.0|-1.49|-0.14||||||Adjusted difference of event rates of Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||-0.14|-1.49|
82581509|NCT00371683|164874628|SUPERIORITY_OR_OTHER|||||||0.0533|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Major Bleeding Endpoint||||0.0533
82481442|NCT03274999|164655823|SUPERIORITY|||||||0.09||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
82481443|NCT03274999|164655823|SUPERIORITY|||||||0.233||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.233
82481444|NCT03274999|164655824|SUPERIORITY|||||||0.072||||||T0: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T0) between the intranasal (test) and extranasal (control) applications are zero.||||0.072
82554171|NCT01447719|164814134|SUPERIORITY_OR_OTHER_LEGACY||Correlation coefficient|0.76|STANDARD_ERROR_OF_MEAN|0.133|<|0.0001|TWO_SIDED|95.0|0.62|0.85||A one-sided test (rho \> 0) was performed with a significance level of alpha=0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|Asymptotic standard error and 95 percent CI used Fisher z-transformation.||Spearman's Rank Order Correlation of the median semiquantitative read (three readers) and the quantitative IHC measurement of cortical amyloid plaque density averaged across six brain regions.||0.85|0.62|<0.0001
82554172|NCT01447719|164814135|SUPERIORITY_OR_OTHER_LEGACY||Sensitivity|96.0|||||TWO_SIDED|95.0|80.0|100.0||||||Proportion of subjects who had a positive scan based on majority of 5 blinded readers||100|80|
82554173|NCT01447719|164814136|SUPERIORITY_OR_OTHER_LEGACY||Specificity|100.0|||||TWO_SIDED|95.0|78.0|100.0||||||Proportion of subjects who had a negative scan based on majority of 5 blinded readers||100|78|
82554174|NCT02575950|164814144|SUPERIORITY||Mean Difference (Final Values)|-9.34|||<|0.001|TWO_SIDED|95.0|-14.71|-3.96|||ANCOVA|||Least square mean values and difference is from ANCOVA model with treatment as fixed effect and baseline total lesion count as covariate and participants as random effect. 100 simulations of monotone multiple imputation is performed. Summary statistics are found across these 100 simulations.||-3.96|-14.71|<.001
82554175|NCT04271046|164814156|OTHER|||||||0.97|||||||Regression, Linear|||||||0.97
82481445|NCT03274999|164655824|SUPERIORITY|||||||0.297||||||T15: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T15) between the intranasal (test) and extranasal (control) applications are zero.||||0.297
82554176|NCT04271046|164814157|OTHER|||||||0.55|||||||Regression, Linear|||||||0.55
82481446|NCT03274999|164655824|SUPERIORITY|||||||0.328||||||T30: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T30) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
82581510|NCT00371683|164874628|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.77|||||TWO_SIDED|95.0|-1.87|0.33||||||Adjusted difference of event rates of Clinically Relevant Non-Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||0.33|-1.87|
82554177|NCT04271046|164814158|OTHER|||||||0.26|||||||Regression, Linear|||||||0.26
82554178|NCT04271046|164814159|OTHER|||||||0.42|||||||Regression, Linear|||||||0.42
82554179|NCT04271046|164814166|OTHER|||||||0.08|||||||Regression, Linear|||||||0.08
82554180|NCT04271046|164814167|OTHER|||||||0.79|||||||Regression, Linear|||||||0.79
82554181|NCT04271046|164814168|OTHER|||||||0.6|||||||Regression, Linear|||||||0.60
82554182|NCT04271046|164814169|OTHER|||||||0.86|||||||Regression, Linear|||||||0.86
82581511|NCT00371683|164874628|SUPERIORITY_OR_OTHER|||||||0.1709|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Clinically relevant Non-Major Bleeding endpoint||||0.1709
82481447|NCT03274999|164655824|SUPERIORITY|||||||0.447||||||T60: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T60) between the intranasal (test) and extranasal (control) applications are zero.||||0.447
82554183|NCT04271046|164814170|OTHER|||||||0.46|||||||Regression, Linear|||||||0.46
82554184|NCT04271046|164814171|OTHER|||||||0.55|||||||Regression, Linear|||||||0.55
82554185|NCT04271046|164814172|OTHER|||||||0.63|||||||Regression, Linear|||||||0.63
82554186|NCT04271046|164814173|OTHER|||||||0.28|||||||Regression, Linear|||||||0.28
82554187|NCT04271046|164814174|OTHER|||||||0.82|||||||Regression, Linear|||||||0.82
82554188|NCT04271046|164814175|OTHER|||||||0.04|||||||Regression, Linear|||||||0.04
82554189|NCT04271046|164814176|OTHER|||||||0.98|||||||Regression, Linear|||||||0.98
82554190|NCT04271046|164814177|OTHER|||||||0.22|||||||Regression, Linear|||||||0.22
82554191|NCT04271046|164814178|OTHER|||||||0.85|||||||Regression, Linear|||||||0.85
82554192|NCT04271046|164814179|OTHER|||||||0.8|||||||Regression, Linear|||||||0.80
82554193|NCT05363163|164814202|OTHER|If the mean volume variation was higher than 0 and the p-value of the statistical test lower than 0.05, the H0 hypothesis was rejected, and the primary endpoint demonstrated.|||||<|0.0001||||||p-value of the statistical test lower than 0.05|t-test, 2 sided|||||||<0.0001
82554194|NCT03154190|164814215|SUPERIORITY||Hazard Ratio (HR)|0.3|||||TWO_SIDED|95.0|0.2|0.47|||Regression, Cox|||||0.47|0.20|
82554195|NCT03154190|164814216|SUPERIORITY||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.3|0.75|||Regression, Cox|||||0.75|0.30|
82554196|NCT03154190|164814219|SUPERIORITY||Risk Ratio (RR)|0.45|||||TWO_SIDED|95.0|0.33|0.62||||||||0.62|0.33|
82554197|NCT03154190|164814221|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.36|0.7||||||||0.70|0.36|
82554198|NCT03154190|164814226|SUPERIORITY||Odds Ratio (OR)|4.46|||||TWO_SIDED|95.0|1.88|10.55||||||||10.55|1.88|
82554199|NCT04820322|164814274|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
82554200|NCT04820322|164814275|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.020
82554201|NCT04820322|164814276|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82554202|NCT04820322|164814277|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.70
82554203|NCT04820322|164814278|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
82554204|NCT04820322|164814279|SUPERIORITY|||||||0.71|||||||Fisher Exact|||||||0.71
82554205|NCT04820322|164814280|SUPERIORITY|||||||0.67|||||||Fisher Exact|||||||0.67
82554206|NCT04820322|164814281|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82554207|NCT04820322|164814282|SUPERIORITY|||||||0.023|||||||t-test, 2 sided|||||||0.023
82554208|NCT04820322|164814283|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82554209|NCT04820322|164814284|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
82554210|NCT03421340|164814318|NON_INFERIORITY|Non-Inferiority Margin of 10%|Risk Difference (RD)|1.8||||0.029|TWO_SIDED||||||exact|||||||0.029
82554211|NCT03421340|164814319|SUPERIORITY|Not powered|Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-8.0|4.1||||||||4.1|-8|
82554212|NCT03421340|164814320|SUPERIORITY||Median Difference (Net)|133.0|||||TWO_SIDED|95.0|120.0|143.0||||||||143|120|
82581512|NCT00371683|164874628|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.46|||||TWO_SIDED|95.0|-2.75|-0.17||||||Adjusted difference of event rates of Major or Clinically Relevant Non-Major Bleeding. Type of surgery was taken into consideration as a stratification factor.||-0.17|-2.75|
82581513|NCT00371683|164874628|SUPERIORITY_OR_OTHER|||||||0.0338|TWO_SIDED||||||test of equality|For descriptive purposes only, p-values were presented for the test of equality of event rates||Major or Clinically Relevant Non-Major Bleeding endpoint.||||0.0338
82581514|NCT00371683|164874628|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-1.52|||||TWO_SIDED|95.0|-3.18|0.13||||||Adjusted difference of event rates of Any Bleeding. Type of surgery was taken into consideration as a stratification factor.||0.13|-3.18|
82581515|NCT00371683|164874628|SUPERIORITY_OR_OTHER|||||||0.0816|TWO_SIDED|||||For descriptive purposes only, p-values were presented for the test of equality of event rates|test of equality|||Any Bleeding Endpoint.||||0.0816
82481448|NCT03274999|164655824|SUPERIORITY|||||||0.328||||||T120: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T120) between the intranasal (test) and extranasal (control) applications are zero.||||0.328
82554213|NCT03421340|164814321|SUPERIORITY||Median Difference (Final Values)|-10.2|||||TWO_SIDED|95.0|-11.6|-7.5||||||||-7.5|-11.6|
82554214|NCT03988621|164814363|SUPERIORITY||Mean Difference (Net)|-0.65||||0.04|TWO_SIDED|95.0|-1.27|-0.03||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean HSCN scale scores of participants in the intervention group were estimated to decrease by 0.65 (95% CI: -1.27 to -0.03) units more than that of participants in the control group from baseline to 6-months.|||-0.03|-1.27|0.04
82554215|NCT03988621|164814364|SUPERIORITY||Mean Difference (Net)|5.05||||0.01|TWO_SIDED|95.0|1.12|8.98||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean Self Care Inventory scale scores of participants in the intervention group were estimated to increase by 5.05 (95% CI: 1.12 to 8.98) units more than that of participants in the control group from baseline to 6-months.|||8.98|1.12|0.01
82554216|NCT03988621|164814365|SUPERIORITY||Mean Difference (Net)|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.48|-2.52||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean PSS scale scores of participants in the intervention group were estimated to decrease by 4.50 (95% CI: -6.48 to -2.52) units more than that of participants in the control group from baseline to 6-months.|||-2.52|-6.48|<0.0001
82554217|NCT03988621|164814366|SUPERIORITY||Mean Difference (Net)|2.16||||0.099|TWO_SIDED|95.0|-0.41|4.73||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis|||Active Coping Subscale||4.73|-0.41|0.099
82554218|NCT03988621|164814366|SUPERIORITY||Mean Difference (Net)|-0.88||||0.25|TWO_SIDED|95.0|-2.38|0.62||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Estimated difference may not be consistent with difference sample means presented in outcome measure data table.|Avoidance Coping Subscale||0.62|-2.38|0.25
82554219|NCT03988621|164814366|SUPERIORITY|The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mean Difference (Net)|-0.31||||0.68|TWO_SIDED|95.0|-1.81|1.18|||Mixed Models Analysis|||Minimization Coping Subscale||1.18|-1.81|0.68
82554220|NCT03988621|164814367|SUPERIORITY||Mean Difference (Net)|-1.32||||0.27|TWO_SIDED|95.0|-3.68|1.04||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis|||Physical Health Score||1.04|-3.68|0.27
82554221|NCT03988621|164814367|SUPERIORITY||Mean Difference (Net)|3.35||||0.04|TWO_SIDED|95.0|0.17|6.53||The p-value for the group-by-time interaction is presented, as well as the estimated mean and confidence interval for difference in 6-month change between intervention and treatment groups.|Mixed Models Analysis||Mean Mental Health scores of participants in the intervention group were estimated to increase by 3.35 (95% CI: 0.17 to 6.53) units more than that of participants in the control group from baseline to 6-months.|Mental Health Score||6.53|0.17|0.04
82554222|NCT03988621|164814370|SUPERIORITY||Mean Difference (Final Values)|1.3472||||0.5433|TWO_SIDED|95.0|0.5153|3.5218|||Regression, zero inflated poisson||Estimation accounts for the zero-inflated distribution of hospitalization count, thus estimate is inconsistent with mean values in the Outcome Measure Data table|||3.5218|0.5153|0.5433
82554223|NCT03988621|164814371|SUPERIORITY||Mean Difference (Final Values)|1.0143||||0.9173|TWO_SIDED|95.0|0.7766|1.3247|||Zero-inflated poisson regression|||||1.3247|0.7766|0.9173
82581516|NCT01131182|164874658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0||||Assessed for relative risk using prior therapy (monotherapy or combination therapy) as a stratification factor.|Cochran-Mantel-Haenszel|||||||0.0005
82581517|NCT00662818|164874660|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.329|TWO_SIDED|95.0|0.62|4.25|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||4.25|0.62|0.329
82581518|NCT00662818|164874661|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.42|TWO_SIDED|95.0|0.59|3.5|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||3.50|0.59|0.420
82481449|NCT03274999|164655824|SUPERIORITY|||||||0.09||||||T180: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T180) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
82481450|NCT03274999|164655824|SUPERIORITY|||||||0.055||||||T240: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T240) between the intranasal (test) and extranasal (control) applications are zero.||||0.055
82481451|NCT03274999|164655824|SUPERIORITY|||||||0.09||||||T300: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T300) between the intranasal (test) and extranasal (control) applications are zero.||||0.090
82481452|NCT03274999|164655824|SUPERIORITY|||||||0.5||||||T360: P-value was calculated using 1-sided paired t-test.|t-test, 1 sided|||The null hypothesis for the outcome measure is the difference in the change from the pre-application value at post-application time (T360) between the intranasal (test) and extranasal (control) applications are zero.||||0.500
82481453|NCT01527357|164655833|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
82554224|NCT03988621|164814372|SUPERIORITY|||||||0.6486|||||||Fisher Exact|||||||0.6486
82554225|NCT03988621|164814373|SUPERIORITY|||||||0.6791|||||||t-test, 2 sided|||||||0.6791
82554226|NCT02905331|164814404|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82554227|NCT02905331|164814405|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82554228|NCT02905331|164814410|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82554229|NCT03334695|164814414|SUPERIORITY|||||||0.012|||||||Wilcoxon Rank Sum test|||||||0.012
82554230|NCT02542631|164814428|NON_INFERIORITY|The sample size determination was based on the primary endpoint, A1C change from Baseline to Week 24. Assuming that the true mean difference in A1C change for Finesse versus Pen was -0.1% with a SD of 1.2%, a study population of 250 completers (125 per arm) was required to achieve a power of 90% for non-inferiority with a margin of 0.4%.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.32|0.14||Non-inferiority p-value was calculated with 2-sided comparison of the difference in treatment effects between Finesse and Pen with a non-inferiority margin of 0.4%.|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||0.14|-0.32|<0.0001
82581519|NCT00662818|164874665|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.648|TWO_SIDED|95.0|0.52|2.85|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||2.85|0.52|0.648
82481454|NCT01527357|164655834|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
82554231|NCT02542631|164814429|SUPERIORITY||Odds Ratio (OR)|1.3|STANDARD_ERROR_OF_MEAN|0.25||0.26|TWO_SIDED|95.0|0.81|2.14||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|Cochran-Mantel-Haenszel|||||2.14|0.81|0.26
82554232|NCT02542631|164814430|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|3.36||0.38|TWO_SIDED|95.0|-9.63|3.7||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ACNOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||3.70|-9.63|0.38
82581520|NCT00662818|164874666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.647|TWO_SIDED|95.0|0.31|2.07|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||2.07|0.31|0.647
82481455|NCT01527357|164655835|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
82481456|NCT01527357|164655836|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||< 0.0001
82481457|NCT02519855|164655862|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported a conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|0.87|||<|0.001|TWO_SIDED|95.0|0.8|0.95|||Longitudinal regression model|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||0.95|0.80|<0.001
82554233|NCT02542631|164814431|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.99|TWO_SIDED|95.0|-0.28|0.28||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with treatment group as a factor and baseline value as a covariate was used to compare devices for continuous measures.||||0.28|-0.28|0.99
82554234|NCT02542631|164814432|SUPERIORITY||Odds Ratio (OR)|1.1|STANDARD_ERROR_OF_MEAN|0.28||0.71|TWO_SIDED|95.0|0.64|1.93||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|Cochran-Mantel-Haenszel|||||1.93|0.64|0.71
82554235|NCT02542631|164814433|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.09||0.52|TWO_SIDED|95.0|-0.12|0.24||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with treatment group as a factor and week 24 value as a covariate was used to compare devices for continuous measures.||||0.24|-0.12|0.52
82554236|NCT02542631|164814434|SUPERIORITY||Mean Difference (Final Values)|9.16|STANDARD_ERROR_OF_MEAN|2.8||0.001|TWO_SIDED|95.0|3.65|14.67||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with change in score as dependent variable, treatment as factor, and baseline score as a covariate was used to compare devices.||||14.67|3.65|0.001
82554237|NCT02542631|164814435|SUPERIORITY||Mean Difference (Final Values)|4.32|STANDARD_ERROR_OF_MEAN|2.03||0.03|TWO_SIDED|95.0|0.33|8.32||Statistical test of device effects was conducted at a 2-sided alpha level of 0.05, and confidence interval (CI) was calculated at 95%, 2-sided.|ANCOVA|ANCOVA model with change in score as dependent variable, treatment as factor, and baseline score as a covariate was used to compare devices.||||8.32|0.33|0.03
82651335|NCT01965652|165017458|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.64|-0.32|||Mixed-effects model repeated measures|The mixed-effects model repeated measures (MMRM) method included treatment group, time, and time-by-treatment group interaction as fixed effects.||Week 52 Analysis||-0.32|-0.64|<0.0001
82481458|NCT02519855|164655863|SUPERIORITY_OR_OTHER||GMFR from Baseline|1.9|||<|0.001|TWO_SIDED|95.0|1.76|2.05||A lower bound of the 95% CI on the GMFR \> 1.4 indicated that the Concomitant Group induces an acceptable VZV antibody response. A p-value ≤0.025 also supported this conclusion.|Longitudinal regression||Estimated GMFR, 95% CI and p-value were based on a longitudinal regression model adjusting for age.|||2.05|1.76|<0.001
82481459|NCT02519855|164655864|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.02|||<|0.001|TWO_SIDED|95.0|0.88|1.18|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.18|0.88|<0.001
82481460|NCT02519855|164655865|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.1|||<|0.001|TWO_SIDED|95.0|0.94|1.29|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.29|0.94|<0.001
82481461|NCT02519855|164655866|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|1.0|||<|0.001|TWO_SIDED|95.0|0.88|1.14|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.14|0.88|<0.001
82481462|NCT02519855|164655867|NON_INFERIORITY_OR_EQUIVALENCE|A lower bound of the 95% CI on the fold difference (GMT ratio \[Concomitant / Nonconcomitant\] at 4 weeks postvaccination) \>0.67 implied that the difference is statistically significantly noninferior to the prespecified clinically relevant decrease of 1.5-fold. A p-value ≤0.025 also supported the conclusion of noninferiority.|GMT Ratio at 4 weeks postvaccination|0.99|||<|0.001|TWO_SIDED|95.0|0.87|1.13|||Longitudinal regression|GMT ratio, 95% CI and p-value were based on a longitudinal regression model adjusting for prevaccination titers and age.||||1.13|0.87|<0.001
82554238|NCT02542631|164814436|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.00
82554239|NCT02641730|164814437|SUPERIORITY||Mean Difference (Final Values)|-7.69|STANDARD_ERROR_OF_MEAN|1.674|<|0.001|TWO_SIDED|95.0|-11.0|-4.383|||Mixed-Model for Repeated Measures|||||-4.383|-11.000|<0.001
82554240|NCT02641730|164814437|SUPERIORITY||Mean Difference (Final Values)|-4.11|STANDARD_ERROR_OF_MEAN|1.7||0.017|TWO_SIDED|95.0|-7.468|-0.748|||Mixed-Model for Repeated Measures|||||-0.748|-7.468|0.017
82554241|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|2.19||||0.853|TWO_SIDED|95.0|-21.16|25.54||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.19|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||25.54|-21.16|0.853
82554242|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|5.04||||0.767|TWO_SIDED|95.0|-28.57|38.65||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.30|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||38.65|-28.57|0.767
82554243|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|2.84||||0.868|TWO_SIDED|95.0|-30.93|36.62||Unadjusted p-value|Mixed Models Analysis|t (df,112) = 0.17|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||36.62|-30.93|0.868
82554244|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.96|TWO_SIDED|95.0|-24.26|25.52||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.05|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||25.52|-24.26|0.960
82581521|NCT00662818|164874667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.83||||0.201|TWO_SIDED|95.0|0.73|4.6|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||4.60|0.73|0.201
82581522|NCT00662818|164874668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.579|TWO_SIDED|95.0|0.47|3.85|||Regression, Logistic|Computed using a logistic regression model adjusting for geographic region, baseline migraine severity, and age.||||3.85|0.47|0.579
82554245|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|8.42||||0.63|TWO_SIDED|95.0|-25.97|42.82||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.48|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||42.82|-25.97|0.630
82554246|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|7.79||||0.657|TWO_SIDED|95.0|-26.77|42.36||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = 0.44|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||42.36|-26.77|0.657
82554247|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-5.08||||0.627|TWO_SIDED|95.0|-25.72|15.56||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||15.56|-25.72|0.627
82581523|NCT01142115|164874679|NON_INFERIORITY_OR_EQUIVALENCE|The estimated difference VAS(Monza) minus VAS(SpeediCath)(i.e. the upper confidence limit) shall be less than 1cm to demonstrate non-inferiority.|Mean Difference (Final Values)|1.052||||0.0018|TWO_SIDED|95.0|0.412|1.692|||Mixed Models Analysis|||||1.692|0.412|0.0018
82481463|NCT02057042|164655892|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82481464|NCT02057042|164655893|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82481465|NCT02057042|164655894|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82481466|NCT02057042|164655895|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82481467|NCT02057042|164655896|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82481468|NCT02057042|164655897|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82481469|NCT01555957|164655905|SUPERIORITY|||||||0.94|||||||Chi-squared|||we hypothesized that among ≥ 34 weeks GA infants with GISDs, infants receiving 1g/kg/day S-ILE (lipid minimizing strategy) would have decreased incidence of IFALD compared to those receiving 2g/kg/day S-ILE. We also hypothesized that the rate of rise of DB would be lower among ≥ 34 weeks GA infants with GISDs receiving 1g/kg/day versus 2g/kg/day of S-ILE.||||0.94
82481470|NCT01555957|164655906|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||We also hypothesized that the rate of rise of direct bilirubin would be lower among ≥ 34 weeks GA infants with GISDs receiving 1g/kg/day versus 2g/kg/day of S-ILE.||||0.0005
82481471|NCT01931670|164655934|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
82481472|NCT01931670|164655934|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
82481473|NCT01931670|164655935|SUPERIORITY|||||||0.003||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||0.003
82481474|NCT01931670|164655935|SUPERIORITY||||||<|0.001||||||An elagolix dose group was to be considered more efficacious than placebo for the co-primary endpoints if and only if both co-primary endpoints (DYS and NMPP) were statistically significant for the elagolix dose group at the 0.025 significance level.|Regression, Logistic|||||||< 0.001
82481475|NCT01931670|164655936|SUPERIORITY||Difference in LS Mean Change|-0.57|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||<0.001
82481476|NCT01931670|164655936|SUPERIORITY||Difference in LS Mean Change|-1.22|STANDARD_ERROR_OF_MEAN|0.156|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 1 of 7.||||< 0.001
82481477|NCT01931670|164655937|SUPERIORITY||Difference in LS Mean Change|-0.54|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
82481478|NCT01931670|164655937|SUPERIORITY||Difference in LS Mean Change|-1.13|STANDARD_ERROR_OF_MEAN|0.074|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 2 of 7.||||< 0.001
82481479|NCT01931670|164655938|SUPERIORITY||Difference in LS Mean Change|-0.15|STANDARD_ERROR_OF_MEAN|0.056||0.009|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||0.009
82481480|NCT01931670|164655938|SUPERIORITY||Difference in LS Mean Change|-0.32|STANDARD_ERROR_OF_MEAN|0.056|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 3 of 7.||||< 0.001
82581524|NCT01142115|164874680|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.805|||<|0.0001|TWO_SIDED|95.0|2.604|12.939|||Regression, Logistic|||||12.939|2.604|<0.0001
82651336|NCT01965652|165017459|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82651337|NCT02524106|165017460|OTHER||percentage difference|61.0||||0.028|TWO_SIDED||||||Mixed Models Analysis|||||||0.028
82481481|NCT01931670|164655939|SUPERIORITY||Difference in LS Mean Change|-0.05|STANDARD_ERROR_OF_MEAN|0.044||0.26|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||0.26
82481482|NCT01931670|164655939|SUPERIORITY||Difference in LS Mean Change|-0.18|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 4 of 7.||||< 0.001
82481483|NCT01931670|164655940|SUPERIORITY||Difference in LS Mean Change|-0.08|STANDARD_ERROR_OF_MEAN|0.048||0.088|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||0.088
82581525|NCT01142115|164874681|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.616|TWO_SIDED|95.0|0.382|1.767|||Proportional odds regression model|||||1.767|0.382|0.6160
82651338|NCT02524106|165017461|OTHER||percentage difference|39.0||||0.096|TWO_SIDED||||||Mixed Models Analysis|||||||0.096
82481484|NCT01931670|164655940|SUPERIORITY||Difference in LS Mean Change|-0.21|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 5 of 7.||||< 0.001
82481485|NCT01931670|164655941|SUPERIORITY||Difference in LS Mean Change|-0.09|STANDARD_ERROR_OF_MEAN|0.067||0.172|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||0.172
82481486|NCT01931670|164655941|SUPERIORITY||Difference in LS Mean Change|-0.3|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 6 of 7.||||< 0.001
82481487|NCT01931670|164655942|SUPERIORITY||Difference in LS Mean Change|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.968|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.968
82481488|NCT01931670|164655942|SUPERIORITY||Difference in LS Mean Change|-0.08|STANDARD_ERROR_OF_MEAN|0.03||0.007|TWO_SIDED|||||For an elagolix dose group to be considered statistically significantly better than placebo on a secondary endpoint, the P value must have been ≤ 0.025 for that endpoint, for all higher-ranking secondary endpoints, and for the co-primary endpoints.|mixed-effects model|||Ranked secondary efficacy endpoint 7 of 7.||||0.007
82481489|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|2.361|||<|0.001|TWO_SIDED|97.5|1.507|3.697|||Regression, Logistic|||Month 1||3.697|1.507|< 0.001
82481490|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|4.185|||<|0.001|TWO_SIDED|97.5|2.707|6.469|||Regression, Logistic|||Month 1||6.469|2.707|< 0.001
82481491|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|2.795|||<|0.001|TWO_SIDED|97.5|1.811|4.312|||Regression, Logistic|||Month 2||4.312|1.811|< 0.001
82481492|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|10.378|||<|0.001|TWO_SIDED|97.5|6.615|16.282|||Regression, Logistic|||Month 2||16.282|6.615|< 0.001
82481493|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|3.178|||<|0.001|TWO_SIDED|97.5|2.084|4.845|||Regression, Logistic|||Month 4||4.845|2.084|< 0.001
82481494|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|15.216|||<|0.001|TWO_SIDED|97.5|9.429|24.554|||Regression, Logistic|||Month 4||24.554|9.429|< 0.001
82481495|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|2.548|||<|0.001|TWO_SIDED|97.5|1.683|3.859|||Regression, Logistic|||Month 5||3.859|1.683|< 0.001
82481496|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|14.055|||<|0.001|TWO_SIDED|97.5|8.716|22.664|||Regression, Logistic|||Month 5||22.664|8.716|< 0.001
82481497|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|2.536|||<|0.001|TWO_SIDED|97.5|1.685|3.816|||Regression, Logistic|||Month 6||3.816|1.685|< 0.001
82481498|NCT01931670|164655943|SUPERIORITY||Odds Ratio (OR)|10.106|||<|0.001|TWO_SIDED|97.5|6.434|15.874|||Regression, Logistic|||Month 6||15.874|6.434|< 0.001
82554248|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.364|TWO_SIDED|95.0|-42.86|15.86||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.91|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||15.86|-42.86|0.364
82481499|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.191||||0.376|TWO_SIDED|97.5|0.765|1.855|||Regression, Logistic|||Month 1||1.855|0.765|0.376
82481500|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.376||||0.101|TWO_SIDED|97.5|0.89|2.127|||Regression, Logistic|||Month 1||2.127|0.890|0.101
82651339|NCT01121900|165017462|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter Cmax is between 80% and 125%.|Mean ratio|39.8|||||TWO_SIDED|90.0|34.4|46.0|||||Test/reference (%)|||46.0|34.4|
82481501|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.358||||0.088|TWO_SIDED|97.5|0.909|2.029|||Regression, Logistic|||Month 2||2.029|0.909|0.088
82481502|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|2.208|||<|0.001|TWO_SIDED|97.5|1.488|3.278|||Regression, Logistic|||Month 2||3.278|1.488|< 0.001
82481503|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.678||||0.003|TWO_SIDED|97.5|1.136|2.477|||Regression, Logistic|||Month 4||2.477|1.136|0.003
82481504|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|2.722|||<|0.001|TWO_SIDED|97.5|1.832|4.044|||Regression, Logistic|||Month 4||4.044|1.832|< 0.001
82481505|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.537||||0.013|TWO_SIDED|97.5|1.042|2.267|||Regression, Logistic|||Month 5||2.267|1.042|0.013
82481506|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|2.598|||<|0.001|TWO_SIDED|97.5|1.75|3.857|||Regression, Logistic|||Month 5||3.857|1.750|< 0.001
82481507|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|1.565||||0.01|TWO_SIDED|97.5|1.062|2.306|||Regression, Logistic|||Month 6||2.306|1.062|0.01
82481508|NCT01931670|164655944|SUPERIORITY||Odds Ratio (OR)|2.412|||<|0.001|TWO_SIDED|97.5|1.63|3.57|||Regression, Logistic|||Month 6||3.570|1.630|< 0.001
82481509|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.028||||0.901|TWO_SIDED|97.5|0.624|1.693|||Regression, Logistic|||Month 1||1.693|0.624|0.901
82481510|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.103||||0.65|TWO_SIDED|97.5|0.68|1.789|||Regression, Logistic|||Month 1||1.789|0.680|0.65
82481511|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.351||||0.154|TWO_SIDED|97.5|0.841|2.17|||Regression, Logistic|||Month 2||2.170|0.841|0.154
82481512|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.871||||0.003|TWO_SIDED|97.5|1.175|2.979|||Regression, Logistic|||Month 2||2.979|1.175|0.003
82481513|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.25||||0.294|TWO_SIDED|97.5|0.776|2.013|||Regression, Logistic|||Month 3||2.013|0.776|0.294
82581526|NCT01142115|164874682|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.117||||0.8014|TWO_SIDED|95.0|0.472|2.646|||Proportional odds regression model|||||2.646|0.472|0.8014
82554249|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-8.42||||0.574|TWO_SIDED|95.0|-38.0|21.15||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.56|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||21.15|-38.00|0.574
82554250|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-5.51||||0.557|TWO_SIDED|95.0|-23.96|12.94||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -0.59|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||12.94|-23.96|0.557
82554251|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-13.65||||0.302|TWO_SIDED|95.0|-39.64|12.35||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -1.03|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||12.35|-39.64|0.302
82554252|NCT02938923|164814467|SUPERIORITY||Mean Difference (Final Values)|-8.14||||0.541|TWO_SIDED|95.0|-34.33|18.06||Unadjusted p-value|Mixed Models Analysis|t (df, 217) = -0.61|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||18.06|-34.33|0.541
82554253|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|357.72||||0.336|TWO_SIDED|95.0|-375.75|1091.19||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.97|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1091.19|-375.75|0.336
82554254|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|936.93||||0.09|TWO_SIDED|95.0|-147.56|2021.42||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.71|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2021.42|-147.56|0.090
82554255|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|579.21||||0.297|TWO_SIDED|95.0|-515.36|1673.78||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.05|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1673.78|-515.36|0.297
82554256|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|383.36||||0.245|TWO_SIDED|95.0|-266.06|1032.79||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 1.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1032.79|-266.06|0.245
82554257|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|836.64||||0.069|TWO_SIDED|95.0|-67.04|1740.32||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 1.84|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1740.32|-67.04|0.069
82481514|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.865||||0.003|TWO_SIDED|97.5|1.163|2.989|||Regression, Logistic|||Month 3||2.989|1.163|0.003
82481515|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.145||||0.521|TWO_SIDED|97.5|0.713|1.839|||Regression, Logistic|||Month 4||1.839|0.713|0.521
82481516|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|2.474|||<|0.001|TWO_SIDED|97.5|1.544|3.963|||Regression, Logistic|||Month 4||3.963|1.544|< 0.001
82481517|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.262||||0.27|TWO_SIDED|97.5|0.787|2.023|||Regression, Logistic|||Month 5||2.023|0.787|0.27
82481518|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|2.416|||<|0.001|TWO_SIDED|97.5|1.5|3.891|||Regression, Logistic|||Month 5||3.891|1.500|< 0.001
82481519|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.013||||0.953|TWO_SIDED|97.5|0.631|1.624|||Regression, Logistic|||Month 6||1.624|0.631|0.953
82481520|NCT01931670|164655945|SUPERIORITY||Odds Ratio (OR)|1.997|||<|0.001|TWO_SIDED|97.5|1.253|3.183|||Regression, Logistic|||Month 6||3.183|1.253|< 0.001
82481521|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.69|-0.37|||mixed-effects model|||Month 1||-0.37|-0.69|< 0.001
82481522|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.94|-0.62|||mixed-effects model|||Month 1||-0.62|-0.94|< 0.001
82481523|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.6|-0.29|||mixed-effects model|||Month 2||-0.29|-0.6|< 0.001
82481524|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-1.43|-1.12|||mixed-effects model|||Month 2||-1.12|-1.43|< 0.001
82481525|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|97.5|-0.68|-0.37|||mixed-effects model|||Month 3||-0.37|-0.68|< 0.001
82554258|NCT02938923|164814468|SUPERIORITY||Mean Difference (Final Values)|453.28||||0.327|TWO_SIDED|95.0|-459.13|1365.68||Unadjusted p-value|Mixed Models Analysis|t (df, 107) = 0.98|Difference between changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1365.68|-459.13|0.327
82554259|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|17.16||||0.934|TWO_SIDED|95.0|-391.74|426.05||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.08|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||426.05|-391.74|0.934
82554260|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|562.64||||0.068|TWO_SIDED|95.0|-42.02|1167.31||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.84|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1167.31|-42.02|0.068
82554261|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|545.49||||0.079|TWO_SIDED|95.0|-64.81|1155.79||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.77|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1155.79|-64.81|0.079
82481526|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-1.25|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|97.5|-1.4|-1.09|||mixed-effects model|||Month 3||-1.09|-1.4|< 0.001
82481527|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-0.73|-0.42|||mixed-effects model|||Month 4||-0.42|-0.73|< 0.001
82481528|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|97.5|-1.42|-1.11|||mixed-effects model|||Month 4||-1.11|-1.42|< 0.001
82481529|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.65|-0.33|||mixed-effects model|||Month 5||-0.33|-0.65|< 0.001
82481530|NCT01931670|164655946|SUPERIORITY||LS Mean of Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-1.42|-1.1|||mixed-effects model|||Month 5||-1.10|-1.42|< 0.001
82481531|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-25.31|STANDARD_ERROR_OF_MEAN|3.669|<|0.001|TWO_SIDED|97.5|-33.55|-17.07|||mixed-effects model|||Month 1||-17.07|-33.55|< 0.001
82481532|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-39.32|STANDARD_ERROR_OF_MEAN|3.657|<|0.001|TWO_SIDED|97.5|-47.53|-31.11|||mixed-effects model|||Month 1||-31.11|-47.53|< 0.001
82481533|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-21.9|STANDARD_ERROR_OF_MEAN|3.355|<|0.001|TWO_SIDED|97.5|-29.44|-14.36|||mixed-effects model|||Month 2||-14.36|-29.44|< 0.001
82481534|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-63.31|STANDARD_ERROR_OF_MEAN|3.365|<|0.001|TWO_SIDED|97.5|-70.87|-55.76|||mixed-effects model|||Month 2||-55.76|-70.87|< 0.001
82481535|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-25.15|STANDARD_ERROR_OF_MEAN|3.241|<|0.001|TWO_SIDED|97.5|-32.43|-17.88|||mixed-effects model|||Month 3||-17.88|-32.43|< 0.001
82481536|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-61.94|STANDARD_ERROR_OF_MEAN|3.233|<|0.001|TWO_SIDED|97.5|-69.2|-54.68|||mixed-effects model|||Month 3||-54.68|-69.20|< 0.001
82554262|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|33.73||||0.867|TWO_SIDED|95.0|-365.4|432.86||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 0.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||432.860|-365.40|0.867
82554263|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|665.75||||0.02|TWO_SIDED|95.0|105.68|1225.81||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 2.36|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||1225.81|105.68|0.020
82481537|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-26.97|STANDARD_ERROR_OF_MEAN|3.344|<|0.001|TWO_SIDED|97.5|-34.48|-19.46|||mixed-effects model|||Month 4||-19.46|-34.48|< 0.001
82481538|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-62.37|STANDARD_ERROR_OF_MEAN|3.346|<|0.001|TWO_SIDED|97.5|-69.89|-54.86|||mixed-effects model|||Month 4||-54.86|-69.89|< 0.001
82481539|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-23.36|STANDARD_ERROR_OF_MEAN|3.428|<|0.001|TWO_SIDED|97.5|-31.06|-15.66|||mixed-effects model|||Month 5||-15.66|-31.06|< 0.001
82481540|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-62.9|STANDARD_ERROR_OF_MEAN|3.42|<|0.001|TWO_SIDED|97.5|-70.58|-55.22|||mixed-effects model|||Month 5||-55.22|-70.58|< 0.001
82481541|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-25.89|STANDARD_ERROR_OF_MEAN|3.528|<|0.001|TWO_SIDED|97.5|-33.81|-17.97|||mixed-effects model|||Month 6||-17.97|-33.81|< 0.001
82481542|NCT01931670|164655947|SUPERIORITY||LS Mean of Difference|-56.62|STANDARD_ERROR_OF_MEAN|3.522|<|0.001|TWO_SIDED|97.5|-64.53|-48.7|||mixed-effects model|||Month 6||-48.70|-64.53|< 0.001
82481543|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.04||0.549|TWO_SIDED|97.5|-0.11|0.07|||mixed-effects model|||Month 1||0.07|-0.11|0.549
82481544|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.02|TWO_SIDED|97.5|-0.18|0.0|||mixed-effects model|||Month 1||0.00|-0.18|0.02
82481545|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.11|TWO_SIDED|97.5|-0.17|0.03|||mixed-effects model|||Month 2||0.03|-0.17|0.11
82481546|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.043|<|0.001|TWO_SIDED|97.5|-0.3|-0.11|||mixed-effects model|||Month 2||-0.11|-0.30|< 0.001
82481547|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.041|TWO_SIDED|97.5|-0.22|0.01|||mixed-effects model|||Month 3||0.01|-0.22|0.041
82481548|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.05|<|0.001|TWO_SIDED|97.5|-0.41|-0.18|||mixed-effects model|||Month 3||-0.18|-0.41|< 0.001
82481549|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.052||0.081|TWO_SIDED|97.5|-0.21|0.03|||mixed-effects model|||Month 4||0.03|-0.21|0.081
82481550|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.052|<|0.001|TWO_SIDED|97.5|-0.45|-0.22|||mixed-effects model|||Month 4||-0.22|-0.45|<0.001
82481551|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.054||0.062|TWO_SIDED|97.5|-0.22|0.02|||mixed-effects model|||Month 5||0.02|-0.22|0.062
82481552|NCT01931670|164655948|SUPERIORITY||LS Mean of Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.054|<|0.001|TWO_SIDED|97.5|-0.46|-0.22|||mixed-effects model|||Month 5||-0.22|-0.46|< 0.001
82481553|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-3.04|STANDARD_ERROR_OF_MEAN|2.94||0.301|TWO_SIDED|97.5|-9.64|3.56|||mixed-effects model|||Month 1||3.56|-9.64|0.301
82481554|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-6.43|STANDARD_ERROR_OF_MEAN|2.92||0.028|TWO_SIDED|97.5|-12.99|0.13|||mixed-effects model|||Month 1||0.13|-12.99|0.028
82554264|NCT02938923|164814469|SUPERIORITY||Mean Difference (Final Values)|632.02||||0.029|TWO_SIDED|95.0|66.38|1197.66||Unadjusted p-value|Mixed Models Analysis|t (df, 102) = 2.22|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||1197.66|66.38|0.029
82481555|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-5.17|STANDARD_ERROR_OF_MEAN|2.964||0.082|TWO_SIDED|97.5|-11.82|1.49|||mixed-effects model|||Month 2||1.49|-11.82|0.082
82481556|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-13.19|STANDARD_ERROR_OF_MEAN|2.956|<|0.001|TWO_SIDED|97.5|-19.83|-6.55|||mixed-effects model|||Month 2||-6.55|-19.83|< 0.001
82481557|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-6.84|STANDARD_ERROR_OF_MEAN|3.379||0.043|TWO_SIDED|97.5|-14.43|0.75|||mixed-effects model|||Month 3||0.75|-14.43|0.043
82481558|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-19.05|STANDARD_ERROR_OF_MEAN|3.364|<|0.001|TWO_SIDED|97.5|-26.61|-11.49|||mixed-effects model|||Month 3||-11.49|-26.61|< 0.001
82481559|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-6.25|STANDARD_ERROR_OF_MEAN|3.473||0.072|TWO_SIDED|97.5|-14.05|1.55|||mixed-effects model|||Month 4||1.55|-14.05|0.072
82481560|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-21.58|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|97.5|-29.35|-13.81|||mixed-effects model|||Month 4||-13.81|-29.35|< 0.001
82481561|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-6.21|STANDARD_ERROR_OF_MEAN|3.536||0.08|TWO_SIDED|97.5|-14.15|1.73|||mixed-effects model|||Month 5||1.73|-14.15|0.08
82481562|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-21.66|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|97.5|-29.56|-13.75|||mixed-effects model|||Month 5||-13.75|-29.56|< 0.001
82581527|NCT01142115|164874683|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.503||||0.3085|TWO_SIDED|95.0|0.314|39.106|||Regression, Logistic|||||39.106|0.314|0.3085
82581528|NCT01142115|164874684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.398||||0.4324|TWO_SIDED|95.0|0.606|3.225|||Proportional odds regression model|||||3.225|0.606|0.4324
82481563|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-10.83|STANDARD_ERROR_OF_MEAN|3.744||0.004|TWO_SIDED|97.5|-19.24|-2.43|||mixed-effects model|||Month 6||-2.43|-19.24|0.004
82481564|NCT01931670|164655949|SUPERIORITY||LS Mean of Difference|-21.16|STANDARD_ERROR_OF_MEAN|3.729|<|0.001|TWO_SIDED|97.5|-29.54|-12.79|||mixed-effects model|||Month 6||-12.79|-29.54|< 0.001
82481565|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|0.02|STANDARD_ERROR_OF_MEAN|0.059||0.688|TWO_SIDED|97.5|-0.11|0.16|||mixed-effects model|||Month 1||0.16|-0.11|0.688
82481566|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.058||0.431|TWO_SIDED|97.5|-0.18|0.08|||mixed-effects model|||Month 1||0.08|-0.18|0.431
82481567|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.06||0.277|TWO_SIDED|97.5|-0.2|0.07|||mixed-effects model|||Month 2||0.07|-0.20|0.277
82481568|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|97.5|-0.37|-0.1|||mixed-effects model|||Month 2||-0.10|-0.37|< 0.001
82481569|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.071||0.494|TWO_SIDED|97.5|-0.21|0.11|||mixed-effects model|||Month 4||0.11|-0.21|0.494
82481570|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|97.5|-0.43|-0.11|||mixed-effects model|||Month 4||-0.11|-0.43|< 0.001
82481571|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.072||0.765|TWO_SIDED|97.5|-0.18|0.14|||mixed-effects model|||Month 5||0.14|-0.18|0.765
82481572|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.073|<|0.001|TWO_SIDED|97.5|-0.47|-0.15|||mixed-effects model|||Month 5||-0.15|-0.47|< 0.001
82481573|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.06|STANDARD_DEVIATION|0.076||0.468|TWO_SIDED|97.5|-0.23|0.12|||mixed-effects model|||Month 6||0.12|-0.23|0.468
82481574|NCT01931670|164655950|SUPERIORITY||LS Mean of Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.076|<|0.001|TWO_SIDED|97.5|-0.5|-0.16|||mixed-effects model|||Month 6||-0.16|-0.50|< 0.001
82481575|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.04||0.029|TWO_SIDED|97.5|-0.18|0.0|||mixed-effects model|||Month 1||0.00|-0.18|0.029
82481576|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.039||0.004|TWO_SIDED|97.5|-0.2|-0.03|||mixed-effects model|||Month 1||-0.03|-0.20|0.004
82481577|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.042||0.076|TWO_SIDED|97.5|-0.17|0.02|||mixed-effects model|||Month 2||0.02|-0.17|0.076
82481578|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.042|<|0.001|TWO_SIDED|97.5|-0.28|-0.09|||mixed-effects model|||Month 2||-0.09|-0.28|< 0.001
82481579|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.045||0.058|TWO_SIDED|97.5|-0.19|0.02|||mixed-effects model|||Month 4||0.02|-0.19|0.058
82481580|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.045|<|0.001|TWO_SIDED|97.5|-0.32|-0.12|||mixed-effects model|||Month 4||-0.12|-0.32|< 0.001
82481581|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.049||0.284|TWO_SIDED|97.5|-0.16|0.06|||mixed-effects model|||Month 5||0.06|-0.16|0.284
82481582|NCT01931670|164655951|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.048|<|0.001|TWO_SIDED|97.5|-0.33|-0.11|||mixed-effects model|||Month 5||-0.11|-0.33|< 0.001
82481583|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.56|-0.18|||ANOVA|||Month 1||-0.18|-0.56|< 0.001
82481584|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.099|<|0.001|TWO_SIDED|95.0|-0.84|-0.46|||ANOVA|||Month 1||-0.46|-0.84|< 0.001
82481585|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-0.82|-0.42|||ANOVA|||Month 2||-0.42|-0.82|< 0.001
82581529|NCT03208036|164874685|SUPERIORITY||||||=|0.69|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .69
82581530|NCT03208036|164874685|SUPERIORITY||||||=|0.74|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .74
82581531|NCT03208036|164874686|SUPERIORITY||||||=|0.62|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .62
82581532|NCT03208036|164874686|SUPERIORITY||||||=|0.24|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .24
82554265|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.946|TWO_SIDED|95.0|-19.61|21.01||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 0.07|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||21.01|-19.61|0.946
82554266|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|24.44||||0.094|TWO_SIDED|95.0|-4.25|53.13||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.69|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||53.13|-4.25|0.094
82554267|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|23.74||||0.107|TWO_SIDED|95.0|-5.19|52.67||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.63|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||52.67|-5.19|0.107
82554268|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|4.81||||0.627|TWO_SIDED|95.0|-14.68|24.3||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 0.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||24.30|-14.68|0.627
82554269|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|24.91||||0.072|TWO_SIDED|95.0|-2.2|52.01||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.81|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||52.01|-2.20|0.072
82554270|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|20.1||||0.149|TWO_SIDED|95.0|-7.29|47.49||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.45|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||47.49|-7.29|0.149
82554271|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|-1.38||||0.849|TWO_SIDED|95.0|-15.71|12.95||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = -0.19|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||12.95|-15.71|0.849
82554272|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|15.47||||0.134|TWO_SIDED|95.0|-4.83|35.78||Unadjusted p-value|Mixed Models Analysis|(df, 110) = 1.15|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||35.78|-4.83|0.134
82554273|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|16.86||||0.107|TWO_SIDED|95.0|-3.68|37.39||Unadjusted p-value|Mixed Models Analysis|t (df, 110) = 1.63|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||37.39|-3.68|0.107
82554274|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.973|TWO_SIDED|95.0|-13.64|13.17||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = -0.03|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||13.17|-13.64|0.973
82554275|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|14.49||||0.135|TWO_SIDED|95.0|-4.56|33.54||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.50|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||33.54|-4.56|0.135
82651340|NCT01121900|165017463|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-tlast) is between 80% and 125%.|Mean ratio|80.9|||||TWO_SIDED|90.0|74.2|88.3|||||Test/reference (%)|||88.3|74.2|
82651341|NCT01121900|165017464|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when the ratio of geometric Least Squares means (LSmeans) and confidence interval calculated from the exponential of the difference between the Test and Reference product for the ln-transformed parameter AUC(0-∞) is between 80% and 125%.|Mean ratio|83.5|||||TWO_SIDED|90.0|76.5|91.1|||||Test/reference (%)|||91.1|76.5|
82481586|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.102|<|0.001|TWO_SIDED|95.0|-1.29|-0.89|||ANOVA|||Month 2||-0.89|-1.29|< 0.001
82554276|NCT02938923|164814470|SUPERIORITY||Mean Difference (Final Values)|14.72||||0.134|TWO_SIDED|95.0|-4.55|34.0||Unadjusted p-value|Mixed Models Analysis|t (df, 189) = 1.51|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||34.00|-4.55|0.134
82554277|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.125|TWO_SIDED|95.0|-0.34|2.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.55|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2.76|-0.34|0.125
82554278|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.758|TWO_SIDED|95.0|-1.9|2.61||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.31|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||2.61|-1.90|0.758
82554279|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.455|TWO_SIDED|95.0|-3.12|1.41||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.75|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1.41|-3.12|0.455
82554280|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|1.14||||0.229|TWO_SIDED|95.0|-0.72|3.0||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 1.21|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||3.00|-0.72|0.229
82554281|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.647|TWO_SIDED|95.0|-1.97|3.16||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.46|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||3.16|-1.97|0.647
82554282|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.68|TWO_SIDED|95.0|-3.12|2.04||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -0.41|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.04|-3.12|0.680
82581533|NCT03208036|164874687|SUPERIORITY||||||=|0.47|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .47
82581534|NCT03208036|164874687|SUPERIORITY||||||=|0.09|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .09
82581535|NCT03208036|164874687|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .02
82581536|NCT03208036|164874687|SUPERIORITY||||||=|0.48|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .48
82581537|NCT03208036|164874687|SUPERIORITY||||||=|0.66|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .66
82581538|NCT03208036|164874687|SUPERIORITY||||||=|0.46|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5 month assessment.||||= .46
82581539|NCT03208036|164874688|SUPERIORITY||||||=|0.68|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .68
82651342|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.31|STANDARD_ERROR_OF_MEAN|2.151|||TWO_SIDED|90.0|2.72|9.89|||||Confidence interval (CI), estimated value and dispersion value of is presented for pre dose|||9.89|2.72|
82651343|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.43|STANDARD_ERROR_OF_MEAN|2.059|||TWO_SIDED|90.0|3.0|9.87|||||CI, estimated value and dispersion value of is presented for 1 hour post dose|||9.87|3.00|
82481587|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-0.84|-0.42|||ANOVA|||Month 3||-0.42|-0.84|< 0.001
82481588|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.106|<|0.001|TWO_SIDED|95.0|-1.35|-0.93|||ANOVA|||Month 3||-0.93|-1.35|< 0.001
82481589|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-0.84|-0.41|||ANOVA|||Month 4||-0.41|-0.84|< 0.001
82481590|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.109|<|0.001|TWO_SIDED|95.0|-1.43|-1.0|||ANOVA|||Month 4||-1.00|-1.43|< 0.001
82481591|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-1.01|-0.57|||ANOVA|||Month 5||-0.57|-1.01|< 0.001
82481592|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.113|<|0.001|TWO_SIDED|95.0|-1.47|-1.02|||ANOVA|||Month 5||-1.02|-1.47|< 0.001
82554283|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|1.48||||0.052|TWO_SIDED|95.0|-0.02|2.97||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 1.96|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||2.97|-0.02|0.052
82581540|NCT03208036|164874688|SUPERIORITY||||||=|0.45|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .45
82581541|NCT03208036|164874689|SUPERIORITY||||||=|0.81|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .81
82581542|NCT03208036|164874689|SUPERIORITY||||||=|0.31|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .31
82581543|NCT03208036|164874690|SUPERIORITY||||||=|0.79|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .79
82581544|NCT03208036|164874690|SUPERIORITY||||||=|0.5|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .50
82581545|NCT03208036|164874691|SUPERIORITY||||||=|0.47|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .47
82581546|NCT03208036|164874691|SUPERIORITY||||||=|0.09|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .09
82581547|NCT03208036|164874691|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .02
82581548|NCT03208036|164874691|SUPERIORITY||||||=|0.48|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .48
82581549|NCT03208036|164874691|SUPERIORITY||||||=|0.66|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .66
82581550|NCT03208036|164874691|SUPERIORITY||||||=|0.46|||||||t-test, 2 sided|||Within group change assessed between baseline and the 5.5 month assessment.||||= .46
82581551|NCT03208036|164874692|SUPERIORITY||||||=|0.99|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .99
82581552|NCT03208036|164874692|SUPERIORITY||||||=|0.84|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .84
82581553|NCT03208036|164874693|SUPERIORITY||||||=|0.25|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .25
82554284|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.754|TWO_SIDED|95.0|-1.79|2.46||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.31|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||2.46|-1.79|0.754
82554285|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|-1.14||||0.294|TWO_SIDED|95.0|-3.28|1.0||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.06|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||1.00|-3.28|0.294
82554286|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|1.46||||0.031|TWO_SIDED|95.0|0.13|2.78||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.17|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.78|0.13|0.031
82554287|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.752|TWO_SIDED|95.0|-1.56|2.16||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.32|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||2.16|-1.56|0.752
82554288|NCT02938923|164814471|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.223|TWO_SIDED|95.0|-3.03|0.71||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.22|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure in the model with covariates.||0.71|-3.03|0.223
82554289|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.85||||0.006|TWO_SIDED|95.0|0.24|1.46||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 2.78|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||1.46|0.24|0.006
82581554|NCT03208036|164874693|SUPERIORITY||||||=|0.08|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .08
82581555|NCT03208036|164874693|SUPERIORITY||||||=|0.14|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .14
82581556|NCT03208036|164874693|SUPERIORITY||||||=|0.02|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .02
82581557|NCT03208036|164874693|SUPERIORITY||||||=|0.24|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .24
82554290|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.863|TWO_SIDED|95.0|-0.81|0.97||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.17|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.97|-0.81|0.863
82554291|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.091|TWO_SIDED|95.0|-1.67|0.12||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.71|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.12|-1.67|0.091
82651344|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.71|STANDARD_ERROR_OF_MEAN|1.734|||TWO_SIDED|90.0|4.82|10.6|||||CI, estimated value and dispersion value of is presented for 2 hour post dose|||10.60|4.82|
82554292|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.009|TWO_SIDED|95.0|0.21|1.44||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.65|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.44|0.21|0.009
82554293|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.778|TWO_SIDED|95.0|-0.76|1.02||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 0.28|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.02|-0.76|0.778
82554294|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.124|TWO_SIDED|95.0|-1.59|0.19||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.55|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.19|-1.59|0.124
82581558|NCT03208036|164874693|SUPERIORITY||||||=|0.93|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .93
82581559|NCT03208036|164874694|SUPERIORITY||||||=|0.98|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Group x Time interaction.||||= .98
82581560|NCT03208036|164874694|SUPERIORITY||||||=|0.08|||||||Mixed Models Analysis|||Mixed effect, repeated measure ANOVA to assess change between baseline, 4-month, and 5.5 month assessments. Test for a Main Effect of Time.||||= .08
82581561|NCT03208036|164874694|SUPERIORITY||||||=|0.08|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .08
82581562|NCT03208036|164874694|SUPERIORITY||||||=|0.06|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .06
82581563|NCT03208036|164874694|SUPERIORITY||||||=|0.28|||||||t-test, 2 sided|||Within group change assessed between baseline and 4-month assessment.||||= .28
82581564|NCT03208036|164874694|SUPERIORITY||||||=|0.23|||||||t-test, 2 sided|||Within group change assessed between baseline and 5.5-month assessment.||||= .23
82581565|NCT03406078|164874695|SUPERIORITY||Cumulative Odds Ratio|1.28||||0.434|TWO_SIDED|95.0|0.69|2.35|||Proportional odds model|Response variable: categorised % reduction from baseline in final OCS dose. Covariates in the model: treatment, region and daily OCS dose at baseline.||||2.35|0.69|0.434
82581566|NCT01781078|164874768|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|-0.3|||<|0.0001|ONE_SIDED|95.0||3.9|||Farrington-Manning score test|||||3.9||<0.0001
82554295|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.027|TWO_SIDED|95.0|0.08|1.31||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 2.24|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||1.31|0.08|0.027
82554296|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.833|TWO_SIDED|95.0|-0.97|0.78||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.21|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.78|-0.97|0.833
82554297|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.08|TWO_SIDED|95.0|-1.67|0.1||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.77|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.10|-1.67|0.080
82481593|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.116|<|0.001|TWO_SIDED|95.0|-0.95|-0.49|||ANOVA|||Month 6||-0.49|-0.95|< 0.001
82481594|NCT01931670|164655952|SUPERIORITY||LS Mean of Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.117|<|0.001|TWO_SIDED|95.0|-1.5|-1.04|||ANOVA|||Month 6||-1.04|-1.50|< 0.001
82481595|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.12||0.02|TWO_SIDED|97.5|-0.55|-0.01|||mixed-effects model|||Month 1||-0.01|-0.55|0.02
82554298|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.014|TWO_SIDED|95.0|0.14|1.21||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = 2.49|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||1.21|0.14|0.014
82554299|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.834|TWO_SIDED|95.0|-0.84|0.68||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -0.21|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.68|-0.84|0.834
82554300|NCT02938923|164814472|SUPERIORITY||Mean Difference (Final Values)|-0.75||||0.054|TWO_SIDED|95.0|-1.52|0.01||Unadjusted p-value|Mixed Models Analysis|t (df, 214) = -1.94|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.01|-1.52|0.054
82554301|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.326|TWO_SIDED|95.0|-0.25|0.74||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.99|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.74|-0.25|0.326
82554302|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.587|TWO_SIDED|95.0|-0.87|0.49||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.54|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.49|-0.87|0.587
82554303|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.213|TWO_SIDED|95.0|-1.12|0.25||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.25|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.25|-1.12|0.213
82554304|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.41|TWO_SIDED|95.0|-0.32|0.78||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.83|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.78|-0.32|0.410
82554305|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.527|TWO_SIDED|95.0|-0.99|0.51||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.63|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.51|-0.99|0.527
82554306|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.219|TWO_SIDED|95.0|-1.23|0.28||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.23|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.28|-1.23|0.219
82554307|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.355|TWO_SIDED|95.0|-0.25|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.93|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.69|-0.25|0.355
82481596|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.119|<|0.001|TWO_SIDED|97.5|-0.72|-0.18|||mixed-effects model|||Month 1||-0.18|-0.72|< 0.001
82481597|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-0.85|-0.23|||mixed-effects model|||Month 2||-0.23|-0.85|< 0.001
82481598|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.137|<|0.001|TWO_SIDED|97.5|-1.27|-0.65|||mixed-effects model|||Month 2||-0.65|-1.27|< 0.001
82481599|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.164|<|0.001|TWO_SIDED|97.5|-0.95|-0.21|||mixed-effects model|||Month 4||-0.21|-0.95|< 0.001
82481600|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-1.36|STANDARD_ERROR_OF_MEAN|0.164|<|0.001|TWO_SIDED|97.5|-1.72|-0.99|||mixed-effects model|||Month 4||-0.99|-1.72|< 0.001
82481601|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.168|<|0.001|TWO_SIDED|97.5|-0.99|-0.23|||mixed-effects model|||Month 5||-0.23|-0.99|< 0.001
82581567|NCT01781078|164874769|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|-0.1||||0.0006|ONE_SIDED|95.0||5.0|||Farrington-Manning score test|||||5.0||0.0006
82651345|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.42|STANDARD_ERROR_OF_MEAN|2.085|||TWO_SIDED|90.0|2.94|9.89|||||CI, estimated value and dispersion value of is presented for 3 hour post dose|||9.89|2.94|
82481602|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.168|<|0.001|TWO_SIDED|97.5|-1.75|-1.0|||mixed-effects model|||Month 5||-1.00|-1.75|< 0.001
82481603|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.175|<|0.001|TWO_SIDED|97.5|-1.08|-0.3|||mixed-effects model|||Month 6||-0.30|-1.08|< 0.001
82481604|NCT01931670|164655953|SUPERIORITY||LS Mean of Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.175|<|0.001|TWO_SIDED|97.5|-1.67|-0.89|||mixed-effects model|||Month 6||-0.89|-1.67|< 0.001
82481605|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-4.2|STANDARD_ERROR_OF_MEAN|1.55||0.007|TWO_SIDED|95.0|-7.25|-1.16|||ANCOVA|||Month 1||-1.16|-7.25|0.007
82481606|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-7.55|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-10.6|-4.5|||ANCOVA|||Month 1||-4.50|-10.6|< 0.001
82481607|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-7.33|STANDARD_ERROR_OF_MEAN|1.74|<|0.001|TWO_SIDED|95.0|-10.75|-3.91|||ANCOVA|||Month 3||-3.91|-10.75|< 0.001
82481608|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-15.43|STANDARD_ERROR_OF_MEAN|1.75|<|0.001|TWO_SIDED|95.0|-18.87|-11.99|||ANCOVA|||Month 3||-11.99|-18.87|< 0.001
82481609|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-8.7|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-12.81|-4.6|||ANCOVA|||Month 6||-4.60|-12.81|< 0.001
82481610|NCT01931670|164655954|SUPERIORITY||Difference in LS Means|-16.92|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-20.98|-12.86|||ANCOVA|||Month 6||-12.86|-20.98|< 0.001
82554308|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.554|TWO_SIDED|95.0|-0.88|0.47||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.59|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.47|-0.88|0.554
82554309|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.219|TWO_SIDED|95.0|-1.1|0.26||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -1.24|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.26|-1.10|0.219
82651346|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.6|STANDARD_ERROR_OF_MEAN|2.434|||TWO_SIDED|90.0|2.54|10.65|||||CI, estimated value and dispersion value of is presented for 4 hour post dose|||10.65|2.54|
82651347|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|STANDARD_ERROR_OF_MEAN|2.573|||TWO_SIDED|90.0|1.57|10.14|||||CI, estimated value and dispersion value of is presented for 6 hour post dose|||10.14|1.57|
82481611|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|1.95||0.77|TWO_SIDED|95.0|-4.4|3.26|||ANCOVA|||Month 1||3.26|-4.40|0.77
82481612|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-4.4|STANDARD_ERROR_OF_MEAN|1.93||0.023|TWO_SIDED|95.0|-8.19|-0.61|||ANCOVA|||Month 1||-0.61|-8.19|0.023
82481613|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-2.74|STANDARD_ERROR_OF_MEAN|2.42||0.257|TWO_SIDED|95.0|-7.5|2.01|||ANCOVA|||Month 3||2.01|-7.50|0.257
82554310|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.345|TWO_SIDED|95.0|-0.24|0.68||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.95|Difference between the BADL changes (EX+T - EX+P)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.68|-0.24|0.345
82581568|NCT01781078|164874769|NON_INFERIORITY|The difference in the success rate between the 2 randomized groups was compared to 10% using a one-sided Farrington-Manning score test for non-inferiority at a significance level of 0.05.|difference|0.0||||0.0002|ONE_SIDED|95.0||4.7|||Farrington-Manning score test|||||4.7||0.0002
82481614|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-10.69|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-15.37|-6.01|||ANCOVA|||Month 3||-6.01|-15.37|< 0.001
82481615|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-2.93|STANDARD_ERROR_OF_MEAN|2.91||0.315|TWO_SIDED|95.0|-8.66|2.8|||ANCOVA|||Month 6||2.80|-8.66|0.315
82481616|NCT01931670|164655955|SUPERIORITY||Difference in LS Means|-14.1|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-19.64|-8.55|||ANCOVA|||Month 6||-8.55|-19.64|< 0.001
82481617|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.43||0.019|TWO_SIDED|95.0|-1.86|-0.17|||ANCOVA|||Month 1||-0.17|-1.86|0.019
82481618|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.95|STANDARD_ERROR_OF_MEAN|0.433||0.028|TWO_SIDED|95.0|-1.8|-0.1|||ANCOVA|||Month 1||-0.10|-1.80|0.028
82481619|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.98|STANDARD_ERROR_OF_MEAN|0.397||0.014|TWO_SIDED|95.0|-1.76|-0.2|||ANCOVA|||Month 2||-0.20|-1.76|0.014
82481620|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.44|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-2.22|-0.65|||ANCOVA|||Month 2||-0.65|-2.22|< 0.001
82481621|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.67|STANDARD_ERROR_OF_MEAN|0.432||0.121|TWO_SIDED|95.0|-1.52|0.18|||ANCOVA|||Month 3||0.18|-1.52|0.121
82481622|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.41|STANDARD_ERROR_OF_MEAN|0.431||0.001|TWO_SIDED|95.0|-2.25|-0.56|||ANCOVA|||Month 3||-0.56|-2.25|0.001
82481623|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.25|STANDARD_ERROR_OF_MEAN|0.561||0.026|TWO_SIDED|95.0|-2.35|-0.15|||ANCOVA|||Month 4||-0.15|-2.35|0.026
82481624|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.48|STANDARD_ERROR_OF_MEAN|0.555||0.008|TWO_SIDED|95.0|-2.57|-0.39|||ANCOVA|||Month 4||-0.39|-2.57|0.008
82481625|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.327||0.027|TWO_SIDED|95.0|-1.37|-0.08|||ANCOVA|||Month 5||-0.08|-1.37|0.027
82651348|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.91|STANDARD_ERROR_OF_MEAN|2.735|||TWO_SIDED|90.0|0.35|9.47|||||CI, estimated value and dispersion value of is presented for 8 hour post dose|||9.47|0.35|
82651349|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.75|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|90.0|4.08|13.42|||||CI, estimated value and dispersion value of is presented for 10 hour post dose|||13.42|4.08|
82481626|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-1.11|STANDARD_ERROR_OF_MEAN|0.327|<|0.001|TWO_SIDED|95.0|-1.75|-0.47|||ANCOVA|||Month 5||-0.47|-1.75|< 0.001
82481627|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.391||0.143|TWO_SIDED|95.0|-1.34|0.2|||ANCOVA|||Month 6||0.20|-1.34|0.143
82481628|NCT01931670|164655956|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.385||0.019|TWO_SIDED|95.0|-1.67|-0.15|||ANCOVA|||Month 6||-0.15|-1.67|0.019
82481629|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.63|STANDARD_ERROR_OF_MEAN|0.415||0.131|TWO_SIDED|95.0|-1.44|0.19|||ANCOVA|||Month 1||0.19|-1.44|0.131
82554311|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.494|TWO_SIDED|95.0|-0.88|0.43||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.69|Difference between the BADL changes (EX+T - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.43|-0.88|0.494
82554312|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.18|TWO_SIDED|95.0|-1.11|0.21||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.35|Difference between the BADL changes (EX+P - EUC)|Comparison of the Basic Activities of Daily Living (BADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||0.21|-1.11|0.180
82554313|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.693|TWO_SIDED|95.0|-0.75|0.5||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.4|Difference between the changes of IADL of EX+T - EX+P|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.50|-0.75|0.693
82554314|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.42||||0.327|TWO_SIDED|95.0|-1.27|0.43||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.98|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.43|-1.27|0.327
82554315|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.493|TWO_SIDED|95.0|-1.15|0.56||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = -0.69|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an unstructured covariance structure.||0.56|-1.15|0.493
82554316|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.698|TWO_SIDED|95.0|-0.72|0.49||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.39|Difference between the IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.49|-0.72|0.698
82554317|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.404|TWO_SIDED|95.0|-1.17|0.47||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.84|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.47|-1.17|0.404
82554318|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.585|TWO_SIDED|95.0|-1.06|0.6||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.55|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.60|-1.06|0.585
82581569|NCT05121246|164874797|EQUIVALENCE|CI 90% of least squares geometric means must be entirely contained within the range \[80%-125%\].||||||||||||||||PK parameters will be determined using a non-compartmental analysis method. Bioequivalence between MB05 and EU-Synagis®, between MB05 and US-Synagis® and between EU-Synagis® and US-Synagis® will be established by analysis of variance for the PK parameters AUC0-inf, and Cmax.|PK parameters for each participant will be listed and summarised by treatment using descriptive statistics.|||
82481630|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.85|STANDARD_ERROR_OF_MEAN|0.409||0.037|TWO_SIDED|95.0|-1.65|-0.05|||ANCOVA|||Month 1||-0.05|-1.65|0.037
82586107|NCT02254278|164884162|SUPERIORITY|||||||0.23|||||||bionmial|One-sided significance level = 0.10||Assuming a binomial distribution, 140 eligible patients per arm were required for 80% power and 1-sided type I error rate of 10% to test the null hypothesis of 2-year PFS rate ≤ 85% against the alternative hypothesis of \> 85% with a binomial test. The arms are not compared to each other; they are each tested separately against the null hypothesis.||||0.23
82651350|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.76|STANDARD_ERROR_OF_MEAN|2.759|||TWO_SIDED|90.0|1.16|10.36|||||CI, estimated value and dispersion value of is presented for 12 hour post dose|||10.36|1.16|
82481631|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.12|STANDARD_ERROR_OF_MEAN|0.423||0.008|TWO_SIDED|95.0|-1.96|-0.29|||ANCOVA|||Month 2||-0.29|-1.96|0.008
82481632|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.44|STANDARD_ERROR_OF_MEAN|0.426|<|0.001|TWO_SIDED|95.0|-2.27|-0.6|||ANCOVA|||Month 2||-0.60|-2.27|< 0.001
82481633|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.434||0.036|TWO_SIDED|95.0|-1.76|-0.06|||ANCOVA|||Month 3||-0.06|-1.76|0.036
82481634|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.91|STANDARD_ERROR_OF_MEAN|0.431||0.035|TWO_SIDED|95.0|-1.76|-0.06|||ANCOVA|||Month 3||-0.06|-1.76|0.035
82481635|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.34|STANDARD_ERROR_OF_MEAN|0.453||0.452|TWO_SIDED|95.0|-1.23|0.55|||ANCOVA|||Month 4||0.55|-1.23|0.452
82481636|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.432||0.002|TWO_SIDED|95.0|-2.18|-0.48|||ANCOVA|||Month 4||-0.48|-2.18|0.002
82581570|NCT05121246|164874798|EQUIVALENCE|CI 90% of least squares geometric means must be entirely contained within the range \[80%-125%\].||||||||||||||||PK parameters will be determined using a non-compartmental analysis method. Bioequivalence between MB05 and EU-Synagis®, between MB05 and US-Synagis® and between EU-Synagis® and US-Synagis® will be established by analysis of variance for the PK parameters AUC0-inf, and Cmax.|PK parameters for each participant will be listed and summarised by treatment using descriptive statistics.|||
82554319|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.399|TWO_SIDED|95.0|-0.31|0.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.85|Difference between IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.76|-0.31|0.399
82554320|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.554|TWO_SIDED|95.0|-0.53|0.98||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0.59|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.98|-0.53|0.554
82554321|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.76|0.76||Unadjusted p-value|Mixed Models Analysis|t (df, 112) = 0|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an unstructured covariance structure.||0.76|-0.76|0.998
82554322|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.378|TWO_SIDED|95.0|-0.28|0.73||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.88|Difference between the IADL changes (EX+T - EX+P)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.73|-0.28|0.378
82554323|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.608|TWO_SIDED|95.0|-0.53|0.91||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.51|Difference between the IADL changes (EX+T - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.91|-0.53|0.608
82581571|NCT05038163|164874807|SUPERIORITY||Treatment Effect|-0.51|||<|0.001|TWO_SIDED|95.0|-0.63|-0.39|||Regression, Linear|||||-0.39|-0.63|<0.001
82651351|NCT01328054|165017473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|STANDARD_ERROR_OF_MEAN|2.164|||TWO_SIDED|90.0|0.15|7.36|||||CI, estimated value and dispersion value of is presented for 24 hour post dose|||7.36|0.15|
82651352|NCT02400710|165017500|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||ANOVA|||||||.05
82554324|NCT02938923|164814473|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.915|TWO_SIDED|95.0|-0.76|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.11|Difference between the IADL changes (EX+P - EUC)|Comparison of the Instrumental Activities of Daily Living (IADL) subscale based on contrasts between two groups at baseline to three months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.||0.69|-0.76|0.915
82554325|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.602|TWO_SIDED|95.0|-1.36|2.33||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.52|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||2.33|-1.36|0.602
82554326|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.454|TWO_SIDED|95.0|-3.48|1.56||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.75|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||1.56|-3.48|0.454
82554327|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-1.45||||0.262|TWO_SIDED|95.0|-3.98|1.09||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -1.13|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure.||1.09|-3.98|0.262
82554328|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.639|TWO_SIDED|95.0|-1.47|2.4||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.47|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.40|-1.47|0.639
82554329|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.438|TWO_SIDED|95.0|-3.66|1.59||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.78|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.59|-3.66|0.438
82554330|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.265|TWO_SIDED|95.0|-4.14|1.14||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -1.12|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.14|-4.14|0.265
82554331|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.555|TWO_SIDED|95.0|-1.11|2.07||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.59|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||2.07|-1.11|0.555
82554332|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.917|TWO_SIDED|95.0|-2.39|2.15||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.10|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||2.15|-2.39|0.917
82581572|NCT05038163|164874807|SUPERIORITY||Treatment Effect|-0.45|||<|0.001|TWO_SIDED|95.0|-0.57|-0.33|||Regression, Linear|||||-0.33|-0.57|<0.001
82581573|NCT05038163|164874807|SUPERIORITY||Treatment Effect|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.24|||Regression, Linear|||||-0.24|-0.44|<0.001
82581574|NCT05038163|164874808|SUPERIORITY||Treatment Effect|-0.33||||0.003|TWO_SIDED|95.0|-0.55|-0.11|||Regression, Linear|||||-0.11|-0.55|0.003
82581575|NCT05038163|164874808|SUPERIORITY||Treatment Effect|-0.61|||<|0.001|TWO_SIDED|95.0|-0.87|-0.35|||Regression, Linear|||||-0.35|-0.87|<0.001
82481637|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.12|STANDARD_ERROR_OF_MEAN|0.443||0.012|TWO_SIDED|95.0|-1.99|-0.25|||ANCOVA|||Month 5||-0.25|-1.99|0.012
82554333|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.606|TWO_SIDED|95.0|-2.87|1.68||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.52|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure.||1.68|-2.87|0.606
82651353|NCT02400710|165017501|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Chi-squared|||||||.05
82481638|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.64|STANDARD_ERROR_OF_MEAN|0.439|<|0.001|TWO_SIDED|95.0|-2.5|-0.78|||ANCOVA|||Month 5||-0.78|-2.5|< 0.001
82481639|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-0.73|STANDARD_ERROR_OF_MEAN|0.478||0.13|TWO_SIDED|95.0|-1.67|0.21|||ANCOVA|||Month 6||0.21|-1.67|0.13
82481640|NCT01931670|164655957|SUPERIORITY||Difference in LS Means|-1.45|STANDARD_ERROR_OF_MEAN|0.454||0.001|TWO_SIDED|95.0|-2.34|-0.56|||ANCOVA|||Month 6||-0.56|-2.34|0.001
82481641|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-1.34|STANDARD_ERROR_OF_MEAN|1.01||0.186|TWO_SIDED|95.0|-3.32|0.65|||ANCOVA|||Month 1||0.65|-3.32|0.186
82481642|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-3.09|STANDARD_ERROR_OF_MEAN|1.013||0.002|TWO_SIDED|95.0|-5.08|-1.1|||ANCOVA|||Month 1||-1.10|-5.08|0.002
82481643|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-1.31|STANDARD_ERROR_OF_MEAN|1.005||0.195|TWO_SIDED|95.0|-3.28|0.67|||ANCOVA|||Month 2||0.67|-3.28|0.195
82481644|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-3.65|STANDARD_ERROR_OF_MEAN|1.007|<|0.001|TWO_SIDED|95.0|-5.63|-1.67|||ANCOVA|||Month 2||-1.67|-5.63|< 0.001
82481645|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-2.03|STANDARD_ERROR_OF_MEAN|1.02||0.047|TWO_SIDED|95.0|-4.03|-0.02|||ANCOVA|||Month 3||-0.02|-4.03|0.047
82481646|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-3.2|STANDARD_ERROR_OF_MEAN|1.021||0.002|TWO_SIDED|95.0|-5.21|-1.19|||ANCOVA|||Month 3||-1.19|-5.21|0.002
82481647|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-1.63|STANDARD_ERROR_OF_MEAN|0.998||0.103|TWO_SIDED|95.0|-3.59|0.33|||ANCOVA|||Month 4||0.33|-3.59|0.103
82481648|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-4.78|STANDARD_ERROR_OF_MEAN|0.99|<|0.001|TWO_SIDED|95.0|-6.72|-2.83|||ANCOVA|||Month 4||-2.83|-6.72|< 0.001
82481649|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-2.29|STANDARD_ERROR_OF_MEAN|0.97||0.019|TWO_SIDED|95.0|-4.2|-0.38|||ANCOVA|||Month 5||-0.38|-4.20|0.019
82481650|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-5.14|STANDARD_ERROR_OF_MEAN|0.975|<|0.001|TWO_SIDED|95.0|-7.06|-3.22|||ANCOVA|||Month 5||-3.22|-7.06|< 0.001
82481651|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|1.112||0.383|TWO_SIDED|95.0|-3.16|1.22|||ANCOVA|||Month 6||1.22|-3.16|0.383
82651354|NCT00895583|165017525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.239|TWO_SIDED|95.0|0.4|1.3||Two-sided alpha equals (=) 0.05.|Fisher Exact|||||1.3|0.4|0.239
82481652|NCT01931670|164655958|SUPERIORITY||Difference in LS Means|-3.02|STANDARD_ERROR_OF_MEAN|1.092||0.006|TWO_SIDED|95.0|-5.17|-0.87|||ANCOVA|||Month 6||-0.87|-5.17|0.006
82481653|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|0.01|STANDARD_ERROR_OF_MEAN|0.422||0.975|TWO_SIDED|95.0|-0.81|0.84|||ANCOVA|||Month 1||0.84|-0.81|0.975
82481654|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.02|STANDARD_ERROR_OF_MEAN|0.415||0.969|TWO_SIDED|95.0|-0.83|0.8|||ANCOVA|||Month 1||0.80|-0.83|0.969
82481655|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.22|STANDARD_ERROR_OF_MEAN|0.389||0.569|TWO_SIDED|95.0|-0.99|0.54|||ANCOVA|||Month 2||0.54|-0.99|0.569
82481656|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.4|STANDARD_ERROR_OF_MEAN|0.393||0.311|TWO_SIDED|95.0|-1.17|0.37|||ANCOVA|||Month 2||0.37|-1.17|0.311
82481657|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|0.43|STANDARD_ERROR_OF_MEAN|0.505||0.398|TWO_SIDED|95.0|-0.56|1.42|||ANCOVA|||Month 3||1.42|-0.56|0.398
82481658|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.15|STANDARD_ERROR_OF_MEAN|0.505||0.761|TWO_SIDED|95.0|-1.15|0.84|||ANCOVA|||Month 3||0.84|-1.15|0.761
82481659|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|0.08|STANDARD_ERROR_OF_MEAN|0.491||0.874|TWO_SIDED|95.0|-0.89|1.04|||ANCOVA|||Month 4||1.04|-0.89|0.874
82481660|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.93|STANDARD_ERROR_OF_MEAN|0.468||0.048|TWO_SIDED|95.0|-1.85|-0.01|||ANCOVA|||Month 4||-0.01|-1.85|0.048
82481661|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.89|STANDARD_ERROR_OF_MEAN|0.635||0.16|TWO_SIDED|95.0|-2.14|0.35|||ANCOVA|||Month 5||0.35|-2.14|0.16
82481662|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.9|STANDARD_ERROR_OF_MEAN|0.63||0.152|TWO_SIDED|95.0|-2.14|0.33|||ANCOVA|||Month 5||0.33|-2.14|0.152
82481663|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.83|STANDARD_ERROR_OF_MEAN|0.498||0.095|TWO_SIDED|95.0|-1.81|0.15|||ANCOVA|||Month 6||0.15|-1.81|0.095
82481664|NCT01931670|164655959|SUPERIORITY||Difference in LS Means|-0.86|STANDARD_ERROR_OF_MEAN|0.474||0.071|TWO_SIDED|95.0|-1.79|0.07|||ANCOVA|||Month 6||0.07|-1.79|0.071
82481665|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-1.83|STANDARD_ERROR_OF_MEAN|1.106||0.098|TWO_SIDED|95.0|-4.01|0.34|||ANCOVA|||Month 1||0.34|-4.01|0.098
82481666|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-3.72|STANDARD_ERROR_OF_MEAN|1.113|<|0.001|TWO_SIDED|95.0|-5.91|-1.54|||ANCOVA|||Month 1||-1.54|-5.91|< 0.001
82481667|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-2.02|STANDARD_ERROR_OF_MEAN|1.091||0.065|TWO_SIDED|95.0|-4.16|0.13|||ANCOVA|||Month 2||0.13|-4.16|0.065
82481668|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-5.1|STANDARD_ERROR_OF_MEAN|1.089|<|0.001|TWO_SIDED|95.0|-7.24|-2.96|||ANCOVA|||Month 2||-2.96|-7.24|< 0.001
82481669|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-2.65|STANDARD_ERROR_OF_MEAN|1.14||0.02|TWO_SIDED|95.0|-4.89|-0.41|||ANCOVA|||Month 3||-0.41|-4.89|0.02
82554334|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.549|TWO_SIDED|95.0|-1.09|2.04||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = 0.60|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.04|-1.09|0.549
82581576|NCT05038163|164874808|SUPERIORITY||Treatment Effect|-0.25|||<|0.001|TWO_SIDED|95.0|-0.48|-0.17|||Regression, Linear|||||-0.17|-0.48|<0.001
82481670|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-4.64|STANDARD_ERROR_OF_MEAN|1.135|<|0.001|TWO_SIDED|95.0|-6.87|-2.41|||ANCOVA|||Month 3||-2.41|-6.87|< 0.001
82481671|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-2.72|STANDARD_ERROR_OF_MEAN|1.138||0.017|TWO_SIDED|95.0|-4.95|-0.48|||ANCOVA|||Month 4||-0.48|-4.95|0.017
82481672|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-6.27|STANDARD_ERROR_OF_MEAN|1.124|<|0.001|TWO_SIDED|95.0|-8.48|-4.06|||ANCOVA|||Month 4||-4.06|-8.48|< 0.001
82481673|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-2.49|STANDARD_ERROR_OF_MEAN|1.095||0.023|TWO_SIDED|95.0|-4.64|-0.34|||ANCOVA|||Month 5||-0.34|-4.64|0.023
82481674|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-5.83|STANDARD_ERROR_OF_MEAN|1.095|<|0.001|TWO_SIDED|95.0|-7.98|-3.68|||ANCOVA|||Month 5||-3.68|-7.98|< 0.001
82481675|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-1.28|STANDARD_ERROR_OF_MEAN|1.264||0.311|TWO_SIDED|95.0|-3.77|1.2|||ANCOVA|||Month 6||1.20|-3.77|0.311
82481676|NCT01931670|164655960|SUPERIORITY||Difference in LS Means|-3.97|STANDARD_ERROR_OF_MEAN|1.241||0.001|TWO_SIDED|95.0|-6.42|-1.53|||ANCOVA|||Month 6||-1.53|-6.42|0.001
82481677|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-0.6|STANDARD_ERROR_OF_MEAN|0.62||0.335|TWO_SIDED|95.0|-1.81|0.62|||ANCOVA|||Month 1||0.62|-1.81|0.335
82481678|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-0.72|STANDARD_ERROR_OF_MEAN|0.611||0.242|TWO_SIDED|95.0|-1.91|0.48|||ANCOVA|||Month 1||0.48|-1.91|0.242
82481679|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-1.33|STANDARD_ERROR_OF_MEAN|0.652||0.042|TWO_SIDED|95.0|-2.61|-0.05|||ANCOVA|||Month 2||-0.05|-2.61|0.042
82481680|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-1.77|STANDARD_ERROR_OF_MEAN|0.656||0.007|TWO_SIDED|95.0|-3.06|-0.48|||ANCOVA|||Month 2||-0.48|-3.06|0.007
82481681|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-0.48|STANDARD_ERROR_OF_MEAN|0.71||0.503|TWO_SIDED|95.0|-1.87|0.92|||ANCOVA|||Month 3||0.92|-1.87|0.503
82481682|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-0.97|STANDARD_ERROR_OF_MEAN|0.707||0.169|TWO_SIDED|95.0|-2.36|0.41|||ANCOVA|||Month 3||0.41|-2.36|0.169
82481683|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-0.31|STANDARD_ERROR_OF_MEAN|0.737||0.675|TWO_SIDED|95.0|-1.76|1.14|||ANCOVA|||Month 4||1.14|-1.76|0.675
82481684|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-2.17|STANDARD_ERROR_OF_MEAN|0.703||0.002|TWO_SIDED|95.0|-3.55|-0.79|||ANCOVA|||Month 4||-0.79|-3.55|0.002
82481685|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-2.04|STANDARD_ERROR_OF_MEAN|0.856||0.017|TWO_SIDED|95.0|-3.72|-0.36|||ANCOVA|||Month 5||-0.36|-3.72|0.017
82481686|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-2.54|STANDARD_ERROR_OF_MEAN|0.848||0.003|TWO_SIDED|95.0|-4.21|-0.87|||ANCOVA|||Month 5||-0.87|-4.21|0.003
82481687|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-1.59|STANDARD_ERROR_OF_MEAN|0.778||0.042|TWO_SIDED|95.0|-3.12|-0.06|||ANCOVA|||Month 6||-0.06|-3.12|0.042
82481688|NCT01931670|164655961|SUPERIORITY||Difference in LS Means|-2.28|STANDARD_ERROR_OF_MEAN|0.738||0.002|TWO_SIDED|95.0|-3.73|-0.83|||ANCOVA|||Month 6||-0.83|-3.73|0.002
82481689|NCT01992159|164655986|SUPERIORITY||Treatment Difference|7.5|||<|0.0001|ONE_SIDED|95.0|6.5|||P-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||6.5|< 0.0001
82481690|NCT01992159|164655986|SUPERIORITY||Treatment Difference|12.4|||<|0.0001|ONE_SIDED|95.0|11.1|||P-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||11.1|< 0.0001
82481691|NCT01992159|164655986|SUPERIORITY||Treatment Difference|16.0|||<|0.0001|ONE_SIDED|95.0|14.6|||One-sided p-values were adjusted for multiplicity using a combination of a sequential test procedure and Hochberg's method to control type 1 error for the primary endpoint.|Repeated Measures Model|||The primary analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||14.6|< 0.0001
82481692|NCT01992159|164655987|SUPERIORITY||Treatment Difference|5.3|||<|0.0001|ONE_SIDED|95.0|4.4||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||4.4|< 0.0001
82481693|NCT01992159|164655987|SUPERIORITY||Treatment Difference|9.0|||<|0.0001|ONE_SIDED|95.0|8.0||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||8.0|< 0.0001
82481694|NCT01992159|164655987|SUPERIORITY||Treatment Difference|11.9|||<|0.0001|ONE_SIDED|95.0|10.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the lumbar spine as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||10.6|< 0.0001
82581577|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.5|||<|0.001|TWO_SIDED|95.0|-0.67|-0.32|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.32|-0.67|<0.001
82481695|NCT01992159|164655988|SUPERIORITY||Treatment Difference|0.6||||0.125|ONE_SIDED|95.0|-0.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||-0.3|0.1250
82481696|NCT01992159|164655988|SUPERIORITY||Treatment Difference|1.7||||0.0002|ONE_SIDED|95.0|0.9||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.9|0.0002
82481697|NCT01992159|164655988|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.7||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.7|< 0.0001
82481698|NCT01992159|164655989|SUPERIORITY||Treatment Difference|1.5||||0.0012|ONE_SIDED|95.0|0.7||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.7|0.0012
82481699|NCT01992159|164655989|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.8||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.8|< 0.0001
82481700|NCT01992159|164655989|SUPERIORITY||Treatment Difference|4.1|||<|0.0001|ONE_SIDED|95.0|3.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the total hip as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||3.3|< 0.0001
82481701|NCT01992159|164655990|SUPERIORITY||Treatment Difference|0.3||||0.2846|ONE_SIDED|95.0|-0.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||-0.6|0.2846
82481702|NCT01992159|164655990|SUPERIORITY||Treatment Difference|1.3||||0.0151|ONE_SIDED|95.0|0.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.3|0.0151
82481703|NCT01992159|164655990|SUPERIORITY||Treatment Difference|2.6||||0.0001|ONE_SIDED|95.0|1.5||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.5|0.0001
82481704|NCT01992159|164655991|SUPERIORITY||Treatment Difference|1.6||||0.0067|ONE_SIDED|95.0|0.5||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||0.5|0.0067
82481705|NCT01992159|164655991|SUPERIORITY||Treatment Difference|2.6|||<|0.0001|ONE_SIDED|95.0|1.6||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||1.6|< 0.0001
82481706|NCT01992159|164655991|SUPERIORITY||Treatment Difference|3.5|||<|0.0001|ONE_SIDED|95.0|2.3||||Repeated Measures Model|||The analysis was based on a repeated measures model with the percent change from baseline at months 6 and 12 in BMD of the femoral neck as the dependent variable, and baseline BMD, machine type, interaction of baseline BMD and machine type, visit (categorical), treatment (categorical), and interaction of treatment and visit as the independent variables; using an unstructured variance covariance structure.|||2.3|< 0.0001
82481707|NCT01992159|164655996|SUPERIORITY||Treatment Difference|-15.3||||0.5084|TWO_SIDED|95.0|-60.8|30.2|||ANCOVA|ANCOVA model with the AUC of P1NP at month 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||30.2|-60.8|0.5084
82481708|NCT01992159|164655996|SUPERIORITY||Treatment Difference|84.1||||0.0002|TWO_SIDED|95.0|40.1|128.0|||ANCOVA|ANCOVA model with the AUC of P1NP at month 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||128.0|40.1|0.0002
82481709|NCT01992159|164655996|SUPERIORITY||Treatment Difference|153.8|||<|0.0001|TWO_SIDED|95.0|109.2|198.4|||ANCOVA|ANCOVA model with the AUC of P1NP at months 12 as the dependent variable, and baseline P1NP and treatment (categorical) as the independent variables.||||198.4|109.2|< 0.0001
82481710|NCT01198158|164656000|SUPERIORITY|||||||0.739|||||||Log Rank|OS was analyzed based on an intent-to-treat approach using the stratified log-rank statistic adjusting on the stratification factors.||||||0.739
82554335|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.887|TWO_SIDED|95.0|-2.38|2.06||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.14|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||2.06|-2.38|0.887
82554336|NCT02938923|164814474|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.574|TWO_SIDED|95.0|-2.87|1.59||Unadjusted p-value|Mixed Models Analysis|t (df, 234) = -0.56|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Toeplitz covariance structure in the model with covariates.||1.59|-2.87|0.574
82554337|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|0.96||||0.649|TWO_SIDED|95.0|-3.19|5.11||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.46|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||5.11|-3.19|0.649
82554338|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.389|TWO_SIDED|95.0|-3.22|8.23||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.86|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||8.23|-3.22|0.389
82554339|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|1.55||||0.598|TWO_SIDED|95.0|-4.22|7.31||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.53|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure.||7.31|-4.22|0.598
82554340|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.676|TWO_SIDED|95.0|-3.26|5.02||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.42|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||5.02|-3.26|0.676
82554341|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|2.48||||0.394|TWO_SIDED|95.0|-3.24|8.19||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.85|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||8.19|-3.24|0.394
82581578|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.53|||<|0.001|TWO_SIDED|95.0|-0.7|-0.36|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Male||-0.36|-0.70|<0.001
82581579|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.41|||<|0.001|TWO_SIDED|95.0|-0.57|-0.25|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.25|-0.57|<0.001
82481711|NCT01198158|164656001|SUPERIORITY|||||||0.832|||||||Log Rank|PFS was analyzed based on an intent-to-treat approach using the stratified log-rank statistic adjusting on the stratification factors||||||0.832
82481712|NCT01205581|164656013|SUPERIORITY_OR_OTHER|||||||0.78|||||||Fisher Exact|||||||0.78
82554342|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.585|TWO_SIDED|95.0|-4.15|7.35||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.55|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.35|-4.15|0.585
82554343|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.794|TWO_SIDED|95.0|-3.56|4.65||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.26|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||4.65|-3.56|0.794
82554344|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|2.27||||0.449|TWO_SIDED|95.0|-3.62|8.16||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.76|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||8.16|-3.62|0.449
82554345|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.567|TWO_SIDED|95.0|-4.2|7.64||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.57|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure.||7.64|-4.20|0.567
82554346|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.794|TWO_SIDED|95.0|-3.56|4.65||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.26|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||4.65|-3.56|0.794
82554347|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.526|TWO_SIDED|95.0|-3.97|7.75||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.64|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.75|-3.97|0.526
82554348|NCT02938923|164814475|SUPERIORITY||Mean Difference (Final Values)|1.34||||0.654|TWO_SIDED|95.0|-4.55|7.23||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.45|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Compound Symmetry covariance structure in the model with covariates.||7.23|-4.55|0.654
82581580|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.32|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Male||-0.32|-0.65|<0.001
82581581|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.28|||<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||Regression, Linear||Unit: $ per 12-pack|Gender subgroup: Female or other||-0.14|-0.42|<0.001
82581582|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.57|||<|0.001|TWO_SIDED|95.0|-0.57|-0.27|||Regression, Linear|||Gender subgroup: Male|Unit: $ per 12-pack|-0.27|-0.57|<0.001
82581583|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-2.23|||<|0.001|TWO_SIDED|95.0|-3.34|-1.12|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||-1.12|-3.34|<0.001
82581584|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.69|||<|0.001|TWO_SIDED|95.0|-1.15|-0.23|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.23|-1.15|<0.001
82554349|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|0.63||||0.597|TWO_SIDED|95.0|-1.72|2.98||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.53|Difference between the changes (EX+T - EX+P) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||2.98|-1.72|0.597
82581585|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.8|||<|0.001|TWO_SIDED|95.0|0.8|0.8|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.80|0.80|<0.001
82481713|NCT01205581|164656016|SUPERIORITY_OR_OTHER|||||||0.48|||||||Fisher Exact|||||||0.48
82481714|NCT01205581|164656017|SUPERIORITY_OR_OTHER|||||||0.51|||||||Fisher Exact|||||||0.51
82481715|NCT01205581|164656018|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher Exact|||||||0.29
82481716|NCT01205581|164656019|SUPERIORITY_OR_OTHER|||||||0.43|||||||Fisher Exact|||||||0.43
82481717|NCT01205581|164656020|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher Exact|||||||0.11
82481718|NCT00075270|164656049|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.87||||0.142|TWO_SIDED|95.0|0.72|1.05||P-value from stratified log-rank test, stratifying for stage of disease and site of disease at screening|Log Rank||The estimate of the treatment hazard ratio is based on the log-rank test.|||1.05|0.72|0.142
82481719|NCT00075270|164656050|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.82||||0.094|TWO_SIDED|95.0|0.65|1.04||P-value from stratified log-rank test, stratifying for stage of disease and site of disease at screening|Log Rank||The estimate of the treatment hazard ratio was based on the log-rank test.|||1.04|0.65|0.094
82481720|NCT03390842|164656083|SUPERIORITY||Difference in % of subjects|24.9|||=|0.0015|TWO_SIDED|95.0|10.2|38.7|||Fisher Exact|||% Subjects Who Met Endpoint (≥ 4 mEq/L Change from Baseline Serum Bicarbonate or Serum Bicarbonate in the Normal Range \[22 - 29 mEq/L\]): TRC101-Placebo||38.7|10.2|= 0.0015
82481721|NCT03390842|164656083|SUPERIORITY||Treatment difference in % of subjects|24.4|||=|0.0015|TWO_SIDED|95.0|9.7|38.2|||Fisher Exact|||% Subjects with ≥ 4mEq/L Change from Baseline in Serum Bicarbonate: TRC101-Placebo||38.2|9.7|= 0.0015
82651355|NCT00895583|165017526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.422|TWO_SIDED|95.0|0.5|1.4||Alpha was unadjusted.|Fisher Exact|||||1.4|0.5|0.422
82481722|NCT03390842|164656083|SUPERIORITY||Treatment difference in % of subjects|30.2|||<|0.0001|TWO_SIDED|95.0|15.6|43.7|||Fisher Exact|||% Subjects with Serum Bicarbonate in Normal Range (22 - 29 mEq/L): TRC101-Placebo||43.7|15.6|< 0.0001
82481723|NCT03390842|164656084|SUPERIORITY||Treatment difference in LS means|1.99|STANDARD_ERROR_OF_MEAN|0.524|=|0.0002|TWO_SIDED|95.0|0.96|3.03|||Mixed-effect repeated measures model||Standard error presented above is for the LS mean.|Least Squares Mean Change from Baseline: TRC101-Placebo||3.03|0.96|= 0.0002
82481724|NCT03390842|164656085|SUPERIORITY||||||<|0.0001||||||p-value based on analysis of covariance model with rank of change from baseline in total score as dependent variable; treatment (PBO or TRC101) as a fixed effect; and baseline total score, Baseline eGFR, Baseline Bicarbonate as continuous covariates.|ANCOVA|||Mean Change from Baseline in KDQOL-PFD: TRC101-Placebo||||< 0.0001
82554350|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.18||||0.184|TWO_SIDED|95.0|-5.41|1.04||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.33|Difference between the changes (EX+T - EUC) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||1.04|-5.41|0.184
82651356|NCT00895583|165017527|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.524|TWO_SIDED|95.0|0.5|1.4||Alpha was unadjusted.|Fisher Exact|||Month 12||1.4|0.5|0.524
82651357|NCT00895583|165017527|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.298|TWO_SIDED|95.0|0.4|1.2||Alpha was unadjusted.|Fisher Exact|||Month 24||1.2|0.4|0.298
82481725|NCT03390842|164656086|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||Change from Baseline for Repeated Chair Stand Test: TRC101-Placebo||||< 0.0001
82481726|NCT00713310|164656087|SUPERIORITY_OR_OTHER||High-Low Dose Difference Success Rates|-1.1||||0.924|TWO_SIDED|95.0|-22.7|20.5|||Cochran-Mantel-Haenszel|||A total of about 100 subjects were to be enrolled in the study with the expectation that about 80 subjects (40/dose level) would complete. Minimum of 9 subjects in 5-8 year old range were to be enrolled, 4-5 per dose level (high/low). A 2-sided α=0.05 Fisher's Exact test has an estimated power of P=0.50 with 40 subjects per dose level.||20.5|-22.7|0.9240
82481727|NCT00713310|164656088|SUPERIORITY_OR_OTHER||High-Low Dose Difference Success Rates|1.4||||0.8193|TWO_SIDED|95.0|-20.2|23.0|||Cochran-Mantel-Haenszel|||A total of about 100 subjects were to be enrolled in the study with the expectation that about 80 subjects (40/dose level) would complete. Minimum of 9 subjects in 5-8 year old range were to be enrolled, 4-5 per dose level (high/low). A 2-sided α=0.05 Fisher's Exact test has an estimated power of P=0.50 with 40 subjects per dose level.||23.0|-20.2|0.8193
82481728|NCT05508074|164656090|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|3.45||0.923|TWO_SIDED|95.0|-7.27|6.6|||ANCOVA|adjusted on baseline ALSFRS-R and treatment.||primary analysis results based on estimand 1 (see attached SAP)||6.60|-7.27|0.923
82481729|NCT05508074|164656090|OTHER|FAS post hoc|Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|3.3||0.65|TWO_SIDED|95.0|-5.1|8.2||post hoc analysis on the FAS population, adjusted on baseline NfL on top of previous parameters|ANCOVA|||post hoc analysis adjusted on baseline NfL on top of previous parameters||8.2|-5.1|0.65
82481730|NCT05508074|164656091|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.118||||0.398|TWO_SIDED|95.0|-0.408|0.186|||binomial exact method|||primary analysis results based on estimand 1 (see attached SAP)||0.186|-0.408|0.398
82581586|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.45|||<|0.001|TWO_SIDED|95.0|-0.24|1.14|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||1.14|-0.24|<0.001
82581587|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.5|||<|0.001|TWO_SIDED|95.0|-0.63|-0.37|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: White||-0.37|-0.63|<0.001
82651358|NCT00895583|165017528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||0.055|TWO_SIDED|95.0|0.3|1.0||Alpha was unadjusted.|Fisher Exact|||Month 12||1.0|0.3|0.055
82651359|NCT00895583|165017528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.33|TWO_SIDED|95.0|0.4|1.3||Alpha was unadjusted.|Fisher Exact|||Month 24||1.3|0.4|0.330
82481731|NCT05508074|164656092|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|-0.029||||0.835|TWO_SIDED|95.0|-0.326|0.271|||binomial exact method|||calculation based on estimand 1 (see SAP)||0.271|-0.326|0.835
82481732|NCT05508074|164656093|OTHER|the primary endpoint was safety hence the study was not powered to show efficacy. statistical analysis was performed to detect signal of efficacy.|Mean Difference (Final Values)|5.31|STANDARD_ERROR_OF_MEAN|7.47||0.481|TWO_SIDED|95.0|-9.72|20.34|||ANCOVA|||based on estimand 1 (see SAP). change of SVC percentage from baseline to 6 months||20.34|-9.72|0.481
82481733|NCT05508074|164656103|OTHER||adjusted geometric mean ratio|1.04|STANDARD_ERROR_OF_MEAN|1.08||0.609|TWO_SIDED|95.0|0.89|1.21|||ANCOVA|||based on available data at V4||1.21|0.89|0.609
82481734|NCT05028361|164656110|NON_INFERIORITY|One-sided non-inferiority test with the alpha level set at 0.025 and non-inferiority margin of 10%, stratified by site.|Difference in proportions|-5.6||||0.0007|TWO_SIDED|95.0|-15.2|4.0||The upper limit of the 95% CI of the difference was 4% with a noninferiority margin of 10%.|Cochran-Mantel-Haenszel|The upper bound of a site-stratified Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting was used.||The null hypothesis is the Simultaneous group is inferior (i.e., Simultaneous group will have a higher proportion) to the Sequential group in regards to the proportion of participants with at least one moderate or severe fever, chills, myalgia, or arthralgia event after visits 1 and 2 using 10% non-inferiority margin.||4.0|-15.2|0.0007
82481735|NCT05028361|164656111|SUPERIORITY|||||||0.3851|||||||Mantel Haenszel|||||||0.3851
82481736|NCT05028361|164656112|SUPERIORITY|||||||0.2886|||||||Mantel Haenszel|||||||0.2886
82554351|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.82||||0.089|TWO_SIDED|95.0|-6.07|0.44||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.71|Difference between the changes (EX+P - EUC) on Physical Health domain|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||0.44|-6.07|0.089
82554352|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.635|TWO_SIDED|95.0|-2.01|3.28||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.47|Difference in the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.28|-2.01|0.635
82554353|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.15||||0.242|TWO_SIDED|95.0|-5.76|1.46||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.17|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||1.46|-5.76|0.242
82554354|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.79||||0.132|TWO_SIDED|95.0|-6.42|0.85||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -1.51|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||0.85|-6.42|0.132
82651360|NCT00895583|165017529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.543|TWO_SIDED|95.0|0.4|1.5||Alpha was unadjusted.|Fisher Exact|||Month 12||1.5|0.4|0.543
82481737|NCT05028361|164656114|OTHER||Comparison of Frequencies|-0.01|||||TWO_SIDED|95.0|-1.66|1.64||The comparison in number of participants with reported SAEs regardless of relationship to study product were made using a difference in proportions along with a 95% confidence interval of the difference.||||||1.64|-1.66|
82481738|NCT01993836|164656115|OTHER||Spearman Correlation|-0.03|||||TWO_SIDED|95.0|-0.23|0.18||||||Correlation between 6-week change in Tau and continuous cognitive index||0.18|-0.23|
82554355|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.193|TWO_SIDED|95.0|-0.77|3.81||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 1.31|Difference between the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||3.81|-0.77|0.193
82554356|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.39|TWO_SIDED|95.0|-1.86|4.75||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.86|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||4.75|-1.86|0.390
82554357|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.965|TWO_SIDED|95.0|-3.39|3.25||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.04|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure.||3.25|-3.39|0.965
82554358|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.52||||0.195|TWO_SIDED|95.0|-0.79|3.82||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 1.30|Difference between the changes (EX+T - EX+P)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.82|-0.79|0.195
82581588|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.96|||<|0.001|TWO_SIDED|95.0|-1.67|-0.25|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.25|-1.67|<0.001
82481739|NCT01993836|164656115|OTHER||Spearman Correlation|-0.08|||||TWO_SIDED|95.0|-0.29|0.13||||||Correlation between 6-week change in Abeta and continuous cognitive index||0.13|-0.29|
82481740|NCT01993836|164656115|OTHER||Spearman Correlation|0.12|||||TWO_SIDED|95.0|-0.08|0.32||||||Correlation between 6-week change in P-Tau and continuous cognitive index||0.32|-0.08|
82481741|NCT01993836|164656116|OTHER||Spearman Correlation|0.02|||||TWO_SIDED|95.0|-0.19|0.22||||||Correlation between 6-week change in Tau/Abeta ratio and continuous cognitive index||0.22|-0.19|
82481742|NCT01993836|164656116|OTHER||Spearman Correlation|0.16|||||TWO_SIDED|95.0|-0.05|0.34||||||Correlation between 6-week change in P-Tau/Abeta ratio and continuous cognitive index||0.34|-0.05|
82481743|NCT01993836|164656117|OTHER|||||||0.36|||||||t-test, 2 sided|||||||0.360
82481744|NCT01993836|164656118|OTHER|||||||0.532|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Tau Change between anesthetic groups||||0.532
82481745|NCT01993836|164656118|OTHER|||||||0.565|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Abeta Change between anesthetic groups||||0.565
82481746|NCT01993836|164656118|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week P-Tau Change between anesthetic groups||||0.110
82481747|NCT01993836|164656119|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week Tau/Abeta ratio Change between anesthetic groups||||0.439
82481748|NCT01993836|164656119|OTHER|||||||0.082|||||||Wilcoxon (Mann-Whitney)|||Difference in 6-week P-Tau/Abeta Change between anesthetic groups||||0.082
82481749|NCT01993836|164656120|OTHER|||||||0.801|||||||Wilcoxon Signed Rank|||||||0.801
82481750|NCT03490981|164656142|SUPERIORITY||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.47||0.486|TWO_SIDED||||||ANCOVA|||||||.486
82481751|NCT03490981|164656143|SUPERIORITY||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|1.16||0.342|TWO_SIDED||||||ANCOVA|||||||.342
82481752|NCT03490981|164656144|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|1.31||0.646|TWO_SIDED||||||ANCOVA|||||||.646
82481753|NCT03490981|164656145|SUPERIORITY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|0.205||0.205|TWO_SIDED||||||ANCOVA|||||||.205
82481754|NCT03490981|164656146|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|2.94||0.492|TWO_SIDED||||||ANCOVA|||||||.492
82481755|NCT03490981|164656147|SUPERIORITY||Mean Difference (Final Values)|4.31|STANDARD_ERROR_OF_MEAN|3.84||0.272|TWO_SIDED||||||ANCOVA|||||||.272
82481756|NCT03490981|164656148|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|4.82||0.87|TWO_SIDED||||||ANCOVA|||||||.870
82481757|NCT03490981|164656149|SUPERIORITY||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.67||0.57|TWO_SIDED||||||ANCOVA|||||||.570
82481758|NCT00924170|164656170|SUPERIORITY||||||<|0.0001|||||||Kaplan Meier|||Published response duration of 15 patients with leukemic adult T cell leukemia treated with Alemtuzumab.||||<0.0001
82481759|NCT00579436|164656184|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||.05
82554359|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.35||||0.418|TWO_SIDED|95.0|-1.93|4.63||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = 0.81|Difference between the changes (EX+T - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||4.63|-1.93|0.418
82481760|NCT00579436|164656185|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82481761|NCT00579436|164656186|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
82481762|NCT00579436|164656187|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
82481763|NCT01203852|164656196|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value for one sided t-test of mean change in blood pressure before and after treatment with metoprolol and chlorthalidone were \<0.0001.|t-test, 1 sided|||||||<0.0001
82554360|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.921|TWO_SIDED|95.0|-3.46|3.13||Unadjusted p-value|Mixed Models Analysis|t (df, 233) = -0.10|Difference between the changes (EX+P - EUC)|Comparison of Physical Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous Toeplitz covariance structure in the model with covariates.||3.13|-3.46|0.921
82651361|NCT00895583|165017529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.6|1.8||Alpha was unadjusted.|Fisher Exact|||Month 24||1.8|0.6|1.000
82651362|NCT00895583|165017531|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.3||0.019|TWO_SIDED|95.0|0.5|5.5||Alpha was unadjusted.|ANCOVA|Analysis of covariance (ANCOVA) with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 6||5.5|0.5|0.019
82481764|NCT01203852|164656197|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value for one sided t-test for mean glucose change before and after treatment with chlorthalidone was \<0.0001.|t-test, 1 sided|||Mean glucose change after treatment with chlorthalidone||||<0.0001
82481765|NCT01203852|164656197|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||P-value for one sided t-test for mean glucose change before and after treatment with metoprolol was 0.049.|t-test, 1 sided|||Mean glucose change after treatment with metoprolol||||0.049
82481766|NCT01431300|164656237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.0|STANDARD_DEVIATION|12.0|<|0.01|TWO_SIDED|95.0|||||t-test, 2 sided|||signal-to-noise (SNR) ratios of the central veins in the 0.01 mmol/kg and 0.03mmol/kg dose groups were compared.||||<0.01
82481767|NCT01431300|164656237|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.0|STANDARD_DEVIATION|19.0|<|0.01||95.0|||||t-test, 2 sided|||contrast-to-noise (CNR) ratios of the central veins in the 0.01 mmol/kg and 0.03mmol/kg dose groups were compared.||||<0.01
82481768|NCT06054269|164656238|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.004
82481769|NCT06054269|164656238|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.066
82481770|NCT06054269|164656238|SUPERIORITY|||||||0.694|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.694
82481771|NCT06054269|164656238|SUPERIORITY|||||||0.408|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.408
82481772|NCT06054269|164656239|SUPERIORITY|||||||0.164|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.164
82481773|NCT06054269|164656239|SUPERIORITY|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.113
82481774|NCT06054269|164656239|SUPERIORITY|||||||0.404|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.404
82481775|NCT06054269|164656239|SUPERIORITY|||||||0.879|||||||Wilcoxon (Mann-Whitney)|||For comparison of post-vaccination geometric mean antibody titers to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.879
82481776|NCT06054269|164656240|SUPERIORITY||||||<|0.001|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||<0.001
82481777|NCT06054269|164656240|SUPERIORITY|||||||0.002|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.002
82481778|NCT06054269|164656240|SUPERIORITY|||||||0.468|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.468
82481779|NCT06054269|164656240|SUPERIORITY|||||||0.057|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.057
82481780|NCT06054269|164656241|SUPERIORITY|||||||0.112|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.112
82481781|NCT06054269|164656241|SUPERIORITY|||||||0.149|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.149
82481782|NCT06054269|164656241|SUPERIORITY|||||||0.101|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.101
82481783|NCT06054269|164656241|SUPERIORITY|||||||0.259|||||||Chi-squared|||For comparison of post-vaccination seroconversion rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.259
82481784|NCT06054269|164656242|SUPERIORITY|||||||0.097|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.097
82481785|NCT06054269|164656242|SUPERIORITY|||||||0.733|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.733
82481786|NCT06054269|164656242|SUPERIORITY|||||||0.477|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.477
82481787|NCT06054269|164656242|SUPERIORITY|||||||0.312|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.312
82481788|NCT06054269|164656243|SUPERIORITY|||||||0.22|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H1N1)pdm09 vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.220
82481789|NCT06054269|164656243|SUPERIORITY|||||||0.003|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza A(H3N2) vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.003
82481790|NCT06054269|164656243|SUPERIORITY|||||||0.897|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Victoria vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.897
82481791|NCT06054269|164656243|SUPERIORITY|||||||0.931|||||||Chi-squared|||For comparison of post-vaccination seroprotection rate to the influenza B/Yamagata vaccine virus between recipients of FLUAD Quadrivalent and FluQuadri.||||0.931
82481792|NCT01738477|164656244|NON_INFERIORITY|To assess the non-inferiority of the second dose of Boostrix (Boostrix 2 Group) minus first dose of Boostrix (Boostrix 1 Group) for anti-diphtheria. Objective of non-inferiority was considered to be met if the lower limit (LL) of the 95% confidence interval (CI) was greater than, or equal to -10%.|Mean Difference (Final Values)|0.0||||||95.0|-3.25|9.95||||||Non-inferiority in terms of seroprotection rates to diphtheria.||9.95|-3.25|
82481793|NCT01738477|164656244|NON_INFERIORITY|To assess the non-inferiority of the second dose of Boostrix (Boostrix 2 Group) minus first dose of Boostrix (Boostrix 1 Group) for anti-tetanus. Objective of non-inferiority was considered to be met if the LL of the 95% CI was above -10%.|Mean Difference (Final Values)|0.0||||||95.0|-3.25|9.95||||||Non-inferiority in terms of seroprotection rates to tetanus.||9.95|-3.25|
82481794|NCT01302834|164656258|NON_INFERIORITY|The non-inferiority margin was set at 1.45 (hazard ratio scale; IMRT + Cetuximab / IMRT + Cisplatin). If the upper limit of the 95% confidence interval was \<1.45, non-inferiority would be concluded. Design was based on a group sequential design with 3 interim analyses, one-sided 0.05, and 80% power.|Hazard Ratio (HR)|1.45|||||ONE_SIDED|95.0||1.94|||||Reference level = IMRT + Cisplatin|||1.94||
82481795|NCT01302834|164656259|SUPERIORITY||Hazard Ratio (HR)|1.72||||0.0002|TWO_SIDED|95.0|1.29|2.29|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT + Cisplatin|||2.29|1.29|0.0002
82481796|NCT01302834|164656260|SUPERIORITY||Hazard Ratio (HR)|2.05||||0.0005|TWO_SIDED|95.0|1.35|3.1|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT + Cisplatin|||3.10|1.35|0.0005
82481797|NCT01302834|164656261|SUPERIORITY||Hazard Ratio (HR)|1.49||||0.09|TWO_SIDED|95.0|0.94|2.36||Two-sided significance level = 0.05|Log Rank||Reference level = IMRT + Cisplatin|||2.36|0.94|0.09
82481798|NCT01302834|164656262|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.61|1.58||Two-sided significance level = 0.05|Log Rank||Reference level = IMRT + Cisplatin|||1.58|0.61|0.95
82481799|NCT01302834|164656264|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.0
82481800|NCT01302834|164656272|SUPERIORITY|||||||0.79||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.79
82481801|NCT01302834|164656275|SUPERIORITY|||||||0.5438||||||One-sided significance level = 0.05|t-test, 1 sided|||||||0.5438
82481802|NCT01302834|164656279|SUPERIORITY|||||||0.7108||||||One-sided significance level = 0.05|t-test, 1 sided|||||||0.7108
82481803|NCT00899392|164656296|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Student's t test|t-test, 2 sided|||||||<0.0001
82481804|NCT00899392|164656297|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Mann Whitney Test-non parametric||||>0.05
82481805|NCT00899392|164656298|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||t-test, 2 sided|paired||||||>0.05
82481806|NCT00899392|164656299|SUPERIORITY_OR_OTHER|||||||0.0053||95.0|||||t-test, 2 sided|||||||0.0053
82481807|NCT03735238|164656302|OTHER|Not applicable. No statistical test was performed for this outcome.||||||||||||||||This is a single arm implementation trial with no comparison group. This outcome represents the reach/penetration of the implementation at each site over the trial duration. We did not perform power calculation. There was no null hypothesis stated. Our aim was to enroll at least 28 patients per site in this implementation trial during regular outpatient rheumatology clinic visits. No statistical test was performed for this outcome.|Our aim was to enroll at least 28 patients per site in this implementation trial during regular outpatient rheumatology clinic visits. No statistical test was performed for this outcome.|||
82481808|NCT01247298|164656329|OTHER||Kaplan Meier Estimate|82.0|||||TWO_SIDED||||||||Kaplan Meier Estimates of Progression Free Survival (PFS)|||||
82481809|NCT03400956|164656331|SUPERIORITY||Risk Difference (RD)|0.82|||<|0.0001|TWO_SIDED|95.0|0.72|0.93|||Cochran-Mantel-Haenszel||Number of subjects per treatment: 63 (Vilaprisan) / 33 (Placebo).|Vilaprisan (A1) and Vilaprisan+Placebo (B2) combined vs. Placebo+Vilaprisan (B1) in treatment period 1||0.93|0.72|<.0001
82481810|NCT02589600|164656339|SUPERIORITY||Incident Rate Ratio|1.05||||0.7251|TWO_SIDED|95.0|0.9|1.22|||Negative binomial regression||Placebo group is the reference group||Negative binomial regression implemented in the SAS®️ GENMOD procedure with fracture outcome as the dependent variable; duration of follow-up as an offset to account for each participant's exposure; treatment arm as the main independent factor of interest.|1.22|.90|0.7251
82481811|NCT03044574|164656340|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82481812|NCT03044574|164656341|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
82481813|NCT03044574|164656342|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82481814|NCT03044574|164656343|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
82481815|NCT03044574|164656344|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82481816|NCT03044574|164656345|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82481817|NCT03044574|164656346|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82481818|NCT03044574|164656348|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82481819|NCT01816451|164656351|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For pre-post training variables data were expressed as mean and standard deviation. Heart Rate and Blood Lactate, were by three-way ANOVA (Measure x Group x Time) with repeated measures for the factors Measure and Time. The variables absolute and relative VO2, tVO2, Body Fat, Body Mass, RPE, were made two-way ANOVAs (Group x Measure) with repeated measures on the factor Measure. Where the ANOVA was significant, the Tukey-Kramer as post-hoc was used.||||< 0.05
82481820|NCT01816451|164656351|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||For pre; during (retest I 0-6weeks; retest II 0-10 weeks) and post training data were expressed as mean and standard deviation. HR and \[La\], were by three-way ANOVA (Measure x Group x Time) with repeated measures for the factors Measure and Time. The variables RPE, Velocity were made two-way ANOVAs (Group x Measure) with repeated measures on the factor Measure. Where the ANOVA was significant, the Tukey-Kramer as post-hoc was used. Control didn't do submaximal test for training intensities.||||<0.05
82481821|NCT02233946|164656402|SUPERIORITY||Cox Proportional Hazard|0.69|||||TWO_SIDED|95.0|0.47|1.02||||||Participants who reported past-12-month use of alcohol or other drugs at baseline||1.02|0.47|
82481822|NCT02233946|164656402|SUPERIORITY||Cox Proportional Hazard|0.87|||||TWO_SIDED|95.0|0.57|1.31||||||Participants who reported no past-12-month use of alcohol or other drugs at baseline||1.31|0.57|
82481823|NCT02233946|164656403|SUPERIORITY||Cox Proportional Hazard|0.66|||||TWO_SIDED|95.0|0.4|1.1||||||Participants who reported past-12-month use of alcohol or other drugs at baseline||1.10|0.40|
82481824|NCT02233946|164656404|SUPERIORITY|Participants who reported past-12-month use of alcohol or other drugs at baseline|Cox Proportional Hazard|0.62|||||TWO_SIDED|95.0|0.41|0.94||||||||0.94|0.41|
82481825|NCT02233946|164656404|SUPERIORITY||Cox Proportional Hazard|0.76|||||TWO_SIDED|95.0|0.44|1.32||||||Participants who reported no past-12-month use of alcohol or other drugs at baseline||1.32|0.44|
82481826|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.5|1.34||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 6 months follow-up, cSBI vs. TAU."||1.34|0.50|
82481827|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.44|1.19||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 9 months follow-up, cSBI vs. TAU."||1.19|0.44|
82481828|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|0.58|||||TWO_SIDED|95.0|0.37|0.91||||||"Participants with riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 12 months follow-up, cSBI vs. TAU."||0.91|0.37|
82481829|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|0.72|||||TWO_SIDED|95.0|0.43|1.23||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 6 months follow-up, cSBI vs. TAU."||1.23|0.43|
82481830|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|0.67|2.66||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 9 months follow-up, cSBI vs. TAU."||2.66|0.67|
82481831|NCT02233946|164656405|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.5|1.99||||||"Participants with no riding risk at baseline:~Adjusted Relative Risk Ratio (ARRR) of past-3-month riding risk at 12 months follow-up, cSBI vs. TAU."||1.99|0.50|
82481832|NCT01879579|164656412|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Chi-squared|||||||<0.0001
82481833|NCT01879579|164656413|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Interval-censoring survival analysis|||||||0.007
82481834|NCT01879579|164656414|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.99
82481835|NCT01879579|164656415|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.78
82481836|NCT01879579|164656416|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.04
82481837|NCT01879579|164656417|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.13
82481838|NCT01879579|164656422|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Generalized estimating equation modeling|||||||0.008
82481839|NCT01879579|164656423|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.003
82481840|NCT02927067|164656427|NON_INFERIORITY|Non-inferiority (NI) margin of primary efficacy endpoint was 7%. If lower limit of 95% confidence interval (CI) was greater than -7%, NI was assumed. Power calculation: Assuming 68% (maribavir), 60% (valganciclovir) participants achieve confirmed viremia clearance,494 participants (247 per group) would yield \>90% power to declare NI based on 2-group test of equivalence in proportions. Considering 10% dropout,550 participants (275 per group) were planned to be enrolled and randomized.|Difference in Percentage of Responders|-7.7|||||TWO_SIDED|95.0|-14.98|-0.36|||||Cochran-Mantel-Haenszel (CMH) weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for adjusted difference in percentage of responders (Maribavir-Valganciclovir), 95% CI, and p-value.|||-0.36|-14.98|
82581589|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.38|||<|0.001|TWO_SIDED|95.0|-1.16|0.4|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.40|-1.16|<0.001
82481841|NCT02927067|164656428|NON_INFERIORITY|The non-inferiority margin of the key secondary efficacy endpoint was 7%. If the lower limit of the 95% CI was greater than -7%, then noninferiority (NI) was assumed. Because the NI of the primary efficacy endpoint was not established, the NI hypothesis of the key secondary endpoint was not tested formally.|Difference in Percentage of Responders|4.4|||||TWO_SIDED|95.0|-3.91|12.76|||||CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|||12.76|-3.91|
82481842|NCT02927067|164656429|SUPERIORITY||Difference in Percentage of Responders|8.0|||=|0.061|TWO_SIDED|95.0|-0.38|16.3||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||||16.30|-0.38|=0.061
82481843|NCT02927067|164656430|SUPERIORITY||Difference in Percentage of Responders|8.0|||=|0.061|TWO_SIDED|95.0|-0.38|16.3||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 8||16.30|-0.38|=0.061
82481844|NCT02927067|164656430|SUPERIORITY||Difference in Percentage of Responders|13.4|||=|0.001|TWO_SIDED|95.0|5.23|21.62||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 12||21.62|5.23|=0.001
82481845|NCT02927067|164656430|SUPERIORITY||Difference in Percentage of Responders|13.8|||<|0.001|TWO_SIDED|95.0|5.8|21.87||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 16||21.87|5.80|<0.001
82481846|NCT02927067|164656430|SUPERIORITY||Difference in Percentage of Responders|9.7|||=|0.014|TWO_SIDED|95.0|1.98|17.5||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 20||17.50|1.98|=0.014
82481847|NCT02927067|164656431|SUPERIORITY||Difference in Percentage of Responders|-7.3|||=|0.051|TWO_SIDED|95.0|-14.64|0.02||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 8||0.02|-14.64|=0.051
82481848|NCT02927067|164656431|SUPERIORITY||Difference in Percentage of Responders|2.2|||=|0.606|TWO_SIDED|95.0|-6.05|10.37||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 12||10.37|-6.05|=0.606
82481849|NCT02927067|164656431|SUPERIORITY||Difference in Percentage of Responders|1.0|||=|0.809|TWO_SIDED|95.0|-7.27|9.31||The CMH weighted average approach (stratified for baseline plasma CMV DNA concentration and acute GVHD status) was used for the adjusted difference in percentage of responders (Maribavir-Valganciclovir), the corresponding 95% CI, and the p-value.|Cochran-Mantel-Haenszel|||Week 20||9.31|-7.27|=0.809
82481850|NCT01842633|164656484|SUPERIORITY_OR_OTHER||Treatment Difference|-0.47|||||TWO_SIDED|95.0|-1.36|0.42||||||||0.42|-1.36|
82481851|NCT01206387|164656501|SUPERIORITY_OR_OTHER|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82481852|NCT01206387|164656502|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82481853|NCT01206387|164656503|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82481854|NCT01206387|164656504|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82481855|NCT01206387|164656505|SUPERIORITY_OR_OTHER|||||||0.0011|||||||t-test, 2 sided|||||||0.0011
82481856|NCT00706849|164656506|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical significance was concluded if p ≤ 0.05.|t-test, 2 sided|||Based upon prior clinical study experience with mipomersen, it was estimated that the standard deviation of the percent change in LDL-C is approximately 22%. With 20 patients in the control group and 40 patients in the mipomersen-treated group, this study would have at least 90% power to detect a 20% difference between the 2 treatment groups.||||<0.001
82481857|NCT00706849|164656508|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82481858|NCT00706849|164656510|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82481859|NCT00706849|164656512|SUPERIORITY_OR_OTHER||||||<|0.001||||||Inflation of type 1 error was controlled by specifying a small number of secondary parameters and a sequential inferential approach in which inferential conclusions about each successive parameter required statistical significance of the prior one.|t-test, 2 sided|||||||<0.001
82481860|NCT00706849|164656514|SUPERIORITY_OR_OTHER|||||||0.042||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.042
82481861|NCT00706849|164656516|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
82481862|NCT00706849|164656518|SUPERIORITY_OR_OTHER|||||||0.023||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.023
82481863|NCT00706849|164656520|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||<0.001
82481864|NCT00706849|164656522|SUPERIORITY_OR_OTHER|||||||0.004||||||No adjustments were made for tertiary parameters.|t-test, 2 sided|||||||0.004
82481865|NCT00706849|164656524|SUPERIORITY_OR_OTHER|||||||0.207||||||No adjustments were made for tertiary parameters.|Wilcoxon (Mann-Whitney)|||||||0.207
82581590|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.44|||<|0.001|TWO_SIDED|95.0|-1.07|0.19|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||0.19|-1.07|<0.001
82481866|NCT02616601|164656526|EQUIVALENCE|If the 90% confidence interval on the percentage difference between generic fluorouracil cream and Carac (fluorouracil) cream lesion clearance were contained within the interval -0.20 to +0.20, and each of these percentages was greater than and statistically different (p\<0.05) from the vehicle cream percentage, then generic fluorouracil cream and Carac (fluorouracil) cream were considered to be therapeutically equivalent.|Mean Difference (Net)|0.04|||||TWO_SIDED|90.0|-11.03|11.11|||||90% Wald's confidence interval with a continuity correction for the difference (Generic Fluorouracil Cream - Carac \[Fluorouracil\] Cream) in complete clearance rates.|||11.11|-11.03|
82481867|NCT02616601|164656526|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82481868|NCT02616601|164656526|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82481869|NCT03718299|164656527|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Week 52||||<0.001
82481870|NCT03718299|164656528|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||0.011
82481871|NCT03718299|164656529|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481872|NCT03718299|164656530|SUPERIORITY||Clopper-Pearson|62.2|||||TWO_SIDED|95.0|46.5|76.2||||||||76.2|46.5|
82481873|NCT03718299|164656531|SUPERIORITY||Clopper-Pearson|93.3|||||TWO_SIDED|95.0|81.7|98.6||||||||98.6|81.7|
82481874|NCT03718299|164656532|SUPERIORITY||Clopper-Pearson|78.9|||||TWO_SIDED|95.0|62.7|90.4||||||||90.4|62.7|
82481875|NCT03718299|164656533|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481876|NCT03718299|164656534|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481877|NCT03718299|164656535|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82651363|NCT00895583|165017531|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.5||0.215|TWO_SIDED|95.0|-4.8|1.1||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 12||1.1|-4.8|0.215
82481878|NCT03718299|164656536|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481879|NCT03718299|164656537|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481880|NCT03718299|164656538|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481881|NCT03718299|164656539|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481882|NCT03718299|164656540|SUPERIORITY||Mean (Clopper-Pearson)|24.4|||||TWO_SIDED|95.0|12.9|39.5||||||||39.5|12.9|
82481883|NCT03718299|164656541|SUPERIORITY||Mean (Clopper-Pearson)|17.8|||||TWO_SIDED|95.0|8.0|32.1||||||||32.1|8.0|
82481884|NCT03718299|164656542|SUPERIORITY||Clopper-Pearson|48.9|||||TWO_SIDED|95.0|33.7|64.2||||||||64.2|33.7|
82481885|NCT03718299|164656543|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Total Activity Impairment||||<0.001
82481886|NCT03718299|164656543|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Total Work Productivity Impairment||||<0.001
82481887|NCT03718299|164656544|SUPERIORITY||Mean|79.5|STANDARD_DEVIATION|20.06|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time- Effectiveness||||
82481888|NCT03718299|164656544|SUPERIORITY||||||<|0.001|||||||Exact binomial test|||Treatment Satisfaction Questionnaire for Medication over time-Side Effects||||<0.001
82481889|NCT03718299|164656544|SUPERIORITY||Mean|82.2|STANDARD_DEVIATION|16.35|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time - Convenience||||
82481890|NCT03718299|164656544|SUPERIORITY||Mean|81.9|STANDARD_DEVIATION|20.47|||TWO_SIDED|||||||||Treatment Satisfaction Questionnaire for Medication over time - Global Satisfaction||||
82481891|NCT03718299|164656545|SUPERIORITY||Mean|8.7|STANDARD_DEVIATION|2.01|||TWO_SIDED|||||||||Improvement in Symptoms||||
82481892|NCT03718299|164656545|SUPERIORITY||Mean|8.3|STANDARD_DEVIATION|2.3|||TWO_SIDED|||||||||Speed of Symptom Improvement||||
82481893|NCT03718299|164656545|SUPERIORITY||Mean|9.1|STANDARD_DEVIATION|1.7|||TWO_SIDED|||||||||Frequency of Taking Medication||||
82481894|NCT03718299|164656545|SUPERIORITY||Mean|9.6|STANDARD_DEVIATION|0.68|||TWO_SIDED|||||||||Side Effects||||
82481895|NCT03718299|164656546|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82481896|NCT04389970|164656548|OTHER|Single group, within subject pre/post change.||||||0.39|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no conclusion of significance can be made.||||.39
82481897|NCT04389970|164656549|OTHER|Single group, within subject pre/post change.||||||0.3|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.3
82481898|NCT04389970|164656550|OTHER|Single group, within subjects pre/post change.||||||0.77|||||||t-test, 2 sided|Paired-sample t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.77
82481899|NCT04389970|164656551|OTHER|Single group, within subjects pre/post change.||||||0.66|||||||t-test, 2 sided|Paired-samples t-test.||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.66
82481900|NCT04389970|164656552|OTHER|Single group, within subjects pre/post change||||||0.88|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.88
82481901|NCT04389970|164656553|OTHER|Single group, within subjects pre/post change||||||0.03|||||||t-test, 2 sided|Paired-samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.03
82481902|NCT04389970|164656554|OTHER|Single group, within subjects pre/post change.||||||0.06|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.06
82481903|NCT04389970|164656555|OTHER|Single group, within subjects pre/post change||||||0.04|||||||t-test, 2 sided|Paired samples t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||.04
82481904|NCT04389970|164656556|OTHER|Single group, within subjects analysis.||||||0|||||||t-test, 2 sided|Paired sample t-test||This was a feasibility study and was not powered to detect statistical significance. Significance values are presented but no evaluation of significance can be concluded.||||0
82554361|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.078|TWO_SIDED|95.0|-0.26|4.88||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.77|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||4.88|-0.26|0.078
82554362|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.982|TWO_SIDED|95.0|-3.51|3.43||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.02|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||3.43|-3.51|0.982
82554363|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.35||||0.187|TWO_SIDED|95.0|-5.85|1.15||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.32|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||1.15|-5.85|0.187
82554364|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|2.16||||0.08|TWO_SIDED|95.0|-0.26|4.58||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.76|Difference of the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||4.58|-0.26|0.080
82554365|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.781|TWO_SIDED|95.0|-3.76|2.83||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.28|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||2.83|-3.76|0.781
82554366|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.63||||0.121|TWO_SIDED|95.0|-5.94|0.69||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.56|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to six months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||0.69|-5.94|0.121
82554367|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.58||||0.148|TWO_SIDED|95.0|-0.57|3.73||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.45|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||3.73|-0.57|0.148
82554368|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.699|TWO_SIDED|95.0|-3.64|2.45||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.39|Differences between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||2.45|-3.64|0.699
82554369|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.18||||0.163|TWO_SIDED|95.0|-5.24|0.89||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.4|Difference in the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure.||0.89|-5.24|0.163
82554370|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|1.59||||0.137|TWO_SIDED|95.0|-0.51|3.69||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = 1.49|Difference between the changes (EX+T - EX+P)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||3.69|-0.51|0.137
82554371|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.648|TWO_SIDED|95.0|-3.68|2.29||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -0.46|Difference between the changes (EX+T - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||2.29|-3.68|0.648
82554372|NCT02938923|164814476|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.135|TWO_SIDED|95.0|-5.29|0.72||Unadjusted p-value|Mixed Models Analysis|t (df, 232) = -1.50|Difference between the changes (EX+P - EUC)|Comparison of Mental Health Domain based on contrasts between two groups at baseline to three months from mixed model ANOVA with a Heterogeneous AR Autoregressive (1) covariance structure in the model with covariates.||0.72|-5.29|0.135
82554373|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|-0.008||||0.821|TWO_SIDED|95.0|-0.073|0.058||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.23|Difference between the changes (EX+T - EX+P)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.058|-0.073|0.821
82581591|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.54|||<|0.001|TWO_SIDED|95.0|-0.91|-0.17|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.17|-0.91|<0.001
82554374|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.789|TWO_SIDED|95.0|-0.082|0.108||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.27|Difference between the changes (EX+T - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.108|-0.082|0.789
82554375|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.672|TWO_SIDED|95.0|-0.075|0.116||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.42|Difference between the changes (EX+P - EUC)|Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive AR(1) covariance structure.||0.116|-0.075|0.672
82581592|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.00|0.00|<0.001
82581593|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.16|||<|0.001|TWO_SIDED|95.0|-0.36|0.68|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||0.68|-0.36|<0.001
82651364|NCT00895583|165017531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.7||0.722|TWO_SIDED|95.0|-2.7|3.9||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 18||3.9|-2.7|0.722
82554376|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.703|TWO_SIDED|95.0|-0.013|0.009||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.38||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+T - EX+P)|0.009|-0.013|0.703
82554377|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|-0.002||||0.803|TWO_SIDED|95.0|-0.017|0.014||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = -0.25||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+T - EUC)|0.014|-0.017|0.803
82554378|NCT02938923|164814477|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.015|0.016||Unadjusted p-value|Mixed Models Analysis|t (df, 92) = 0.01||Comparison based on contrasts between two groups at baseline to six months from mixed model ANOVA with an Autoregressive (1) covariance structure in the model with covariates.|Difference between the changes (EX+P - EUC)|0.016|-0.015|0.991
82554379|NCT01570361|164814524|SUPERIORITY|||||||0.0009||||||Prior to the final analysis, study had two interim analyses. Hence alpha level is 0.0231 for primary analysis adjusted for the two interim analyses.|Log Rank|One-sided test||||||0.0009
82554380|NCT01570361|164814525|SUPERIORITY|||||||0.0118||||||The alpha level is 0.025 for this secondary endpoint.|Log Rank|One-sided test||||||0.0118
82554381|NCT01570361|164814526|SUPERIORITY|||||||0.0041||||||The alpha level is 0.025 for this secondary endpoint.|Log Rank|One-sided test||||||0.0041
82554382|NCT05513937|164814552|SUPERIORITY||Mean difference pre vs post|-15.2|STANDARD_DEVIATION|8.32|<|0.001|TWO_SIDED||||||Wilcoxon signed rank test|||||||<0.001
82554383|NCT02846545|164814554|SUPERIORITY||Least Square (LS) Mean|-0.178|||=|0.0004|TWO_SIDED|95.0|-0.28|-0.08|||Mixed Models Analysis|||||-0.08|-0.28|= 0.0004
82554384|NCT02846545|164814555|SUPERIORITY||LS Mean|-0.09|||=|0.802|TWO_SIDED|95.0|-0.81|0.63|||Mixed Models Analysis|||||0.63|-0.81|= 0.8020
82554385|NCT02846545|164814556|SUPERIORITY||Ratio of hypoglycemia rates|0.9|||=|0.0036|TWO_SIDED|95.0|0.838|0.966|||Poisson regression model|||Hypoglycemia rate was analyzed by using a Poisson regression model with the number of hypoglycemia events through Week 52 as the response, treatment and gender as fixed factors, age and baseline HbA1c as covariates, and the duration of study participation through week 52 in logarithm as an offset variable.||0.966|0.838|= 0.0036
82554386|NCT06468982|164814565|SUPERIORITY|To evaluate whether intra-aortic balloon pump catheter support contributes to a more rapid decrease in troponin levels and faster myocardial recovery, daily troponin levels were analyzed using mixed ANOVA.||||||0.05||||||The p-value was adjusted for multiple comparisons, and the threshold value was set at 0.05.|ANOVA|The hypothesis that IABP causes a rapid increase in troponin levels was analyzed using ANOVA, and the p-value was reported.||After testing for normality, the baseline characteristics of the two groups will be analyzed using the Student's t-test or the Mann-Whitney U-test for continuous variables and the chi-square test or Fisher's exact test for categorical variables. Differences between the intra-aortic balloon pump group and the control group in terms of repeated measurements will be analyzed using mixed ANOVA.||||0.05
82554387|NCT06468982|164814566|OTHER||Hazard Ratio, log|0.55|||<|0.05|TWO_SIDED|95.0|0.38|0.78|||Wilcoxon (Mann-Whitney)|||The prognostic value of risk factors for in-hospital mortality was evaluated by multivariate logistic regression analysis||0.78|0.38|<0.05
82554388|NCT04181736|164814567|OTHER||F-statistic|6.621||||0.02|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for circuit function, with five repeated measures for each circuit measure defining the cognitive control circuit.||||0.020
82554389|NCT04181736|164814572|OTHER||Cohen's d effect size|1.47|||<|0.001|TWO_SIDED|95.0|0.937|2.002||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in HDRS-17 depression scores from pre-treatment to week 2.||2.002|0.937|<0.001
82554390|NCT04181736|164814572|OTHER||Cohen's d effect size|3.152|||<|0.001|TWO_SIDED|95.0|2.757|3.547||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in HDRS-17 depression scores from pre-treatment to post-treatment sessions.||3.547|2.757|<0.001
82554391|NCT04181736|164814573|OTHER||Cohen's d effect size|-1.249|||<|0.001|TWO_SIDED|95.0|-1.724|-0.774||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in QIDS-SR depression scores from pre-treatment to post-treatment sessions.||-0.774|-1.724|< 0.001
82554392|NCT04181736|164814574|OTHER||F-statistic|19.362|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for cognitive control function, with six repeated measures for behavioral tests of cognitive control.||||<0.001
82554393|NCT04181736|164814575|OTHER||Cohen's d effect size|0.881||||0.002|TWO_SIDED|95.0|0.324|1.438||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in SWLS scores from pre-treatment to post-treatment sessions.||1.438|0.324|0.002
82554394|NCT04181736|164814576|OTHER||F-statistic|11.913||||0.003|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Repeated Measures General Linear Model|||Test of the effect of guanfacine using a general linear model including a within subjects' effect for treatment (pre- versus post-treatment sessions) and for quality with four repeated measures for domains of quality of life.||||0.003
82554395|NCT04181736|164814577|OTHER||Cohen's d effect size|-0.2||||0.283|TWO_SIDED|95.0|-0.608|0.208||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||A paired t-test was conducted to evaluate the effect of GIR on changes in C-SSRS scores from pre-treatment to post-treatment sessions.||0.208|-0.608|0.283
82554396|NCT01116895|164814589|OTHER||Least square mean difference|-2.2||||0.89|TWO_SIDED|95.0|-32.6|28.2|||ANOVA|||||28.2|-32.6|0.89
82554397|NCT01116895|164814589|OTHER||Least square mean difference|4.5||||0.77|TWO_SIDED|95.0|-26.2|35.3|||ANOVA|||||35.3|-26.2|0.77
82554398|NCT01116895|164814589|OTHER||Least square mean difference|-6.7||||0.65|TWO_SIDED|95.0|-36.2|22.8|||ANOVA|||||22.8|-36.2|0.65
82554399|NCT03995979|164814594|SUPERIORITY|||||||0.05||||||The P-value was calculated using a paired t test|Paired t-test|||A compositional analysis with species-level alpha diversity will be performed between the three conditions (Pre-Dietary Restriction, Dietary Restriction, and Post-Dietary Restriction,) with ANOVA testing. Furthermore, a differential abundance analysis will be performed to further identify and confirm prevalent organisms associated with the experimental dietary restriction.||||0.05
82554400|NCT02518048|164814595|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.17|||<|0.001|TWO_SIDED|95.0|-2.58|-1.76||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group).|ANOVA|||A last observation carried forward (LOCF) approach was used to account for drop-outs and missing values in the analysis of end of treatment values.||-1.76|-2.58|<0.001
82554401|NCT02518048|164814598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.53|-0.32||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group)|ANOVA|||Total Skin Thickness: LEO 90100 vs. Betesil®||-0.32|-0.53|<0.001
82554402|NCT02518048|164814598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|||<|0.001|TWO_SIDED|95.0|-0.69|-0.41||Least Square Means difference from ANOVA with treatment group as fixed effect and subject as random effect (105 treated sites per treatment group)|ANOVA|||Echo-Poor Band Thickness: LEO 90100 vs. Betesil®||-0.41|-0.69|<0.001
82554403|NCT05654662|164814599|SUPERIORITY|||||||0.0032|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||0.0032
82554404|NCT05654662|164814600|SUPERIORITY||Adjusted Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.03||0.0013|TWO_SIDED|95.0|-10.6|-2.6|||Mixed Model with Repeated Measure (MMRM)||Adjusted mean difference was calculated as test product minus reference product.|||-2.6|-10.6|0.0013
82554405|NCT05654662|164814601|SUPERIORITY|||||||0.0181|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||0.0181
82554406|NCT05654662|164814601|SUPERIORITY|||||||0.0541|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||0.0541
82554407|NCT05654662|164814602|SUPERIORITY||Adjusted Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.44||0.0091|TWO_SIDED|95.0|-6.7|-1.0|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-1.0|-6.7|0.0091
82554408|NCT05654662|164814602|SUPERIORITY||Adjusted Mean Difference|-5.3|STANDARD_ERROR_OF_MEAN|1.78||0.0031|TWO_SIDED|95.0|-8.8|-1.8|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-1.8|-8.8|0.0031
82554409|NCT05654662|164814603|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
82554410|NCT05654662|164814603|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
82554411|NCT05654662|164814603|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
82554412|NCT05654662|164814604|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.011||0.0051|TWO_SIDED|95.0|-0.05|-0.01|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.01|-0.05|0.0051
82581594|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.44|||<|0.001|TWO_SIDED|95.0|-0.57|-0.31|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: white||-0.31|-0.57|<0.001
82554413|NCT05654662|164814604|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.013||0.0034|TWO_SIDED|95.0|-0.07|-0.01|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.01|-0.07|0.0034
82554414|NCT05654662|164814604|SUPERIORITY||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.015||0.0022|TWO_SIDED|95.0|-0.08|-0.02|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.02|-0.08|0.0022
82554415|NCT05654662|164814605|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
82554416|NCT05654662|164814605|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
82554417|NCT05654662|164814605|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
82554418|NCT05654662|164814606|SUPERIORITY||Adjusted Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|-0.12|-0.04|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.04|-0.12|<0.0001
82554419|NCT05654662|164814606|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|-0.18|-0.07|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.07|-0.18|<0.0001
82554420|NCT05654662|164814606|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|-0.2|-0.08|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.08|-0.20|<0.0001
82554421|NCT05654662|164814607|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
82554422|NCT05654662|164814607|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
82581595|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-1.18|||<|0.001|TWO_SIDED|95.0|-2.04|-0.32|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.32|-2.04|<0.001
82581596|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.38|||<|0.001|TWO_SIDED|95.0|-0.9|0.14|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.14|-0.90|<0.001
82581597|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.79|||<|0.001|TWO_SIDED|95.0|-1.54|-0.04|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: American Indian or Alaska Native||-0.04|-1.54|<0.001
82581598|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.51|||<|0.001|TWO_SIDED|95.0|-0.9|-0.12|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Asian||-0.12|-0.90|<0.001
82581599|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.8|||<|0.001|TWO_SIDED|95.0|0.8|0.8|||Regression, Logistic||Unit: $ per 12-pack|Race subgroup: Native Hawaiian or Pacific Islander||0.80|0.80|<0.001
82651365|NCT00895583|165017531|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.9||0.71|TWO_SIDED|95.0|-3.0|4.4||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline GFR as a covariate.||Change from randomization at Month 24||4.4|-3.0|0.710
82651366|NCT00895583|165017532|SUPERIORITY_OR_OTHER||Slope difference (SRL-TAC)|-1.8||||0.131|TWO_SIDED|95.0|-4.2|0.5|||Random coefficient model||Random coefficient model with GFR as the dependent variable and study day as the independent variable.|Slope difference (sirolimus \[SRL\] minus tacrolimus \[TAC\])||0.5|-4.2|0.131
82481905|NCT03702244|164656560|SUPERIORITY|Statistical testing for recurrent events was performed using the negative binomial methods for recurrent events.|Hazard Ratio (HR)|0.29|||<|0.001|TWO_SIDED|95.0|0.2|0.41|||Log Rank||Hazard ratio was adjusted for age, sex, and coronary artery disease equivalent (diabetes, history of peripheral artery disease or cerebrovascular disease), and intended first test strata (invasive or noninvasive).|Sample size and power calculations for this study are based on the hypothesis that the precision evaluation arm is superior to the usual care arm on the time-to-first event of the composite 3-component endpoint: all-cause death, non-fatal MI, or invasive cardiac catheterization without obstructive CAD over a 12-month of follow-up. Time to event analysis will use the date of the event, including the date of catheterization at which the absence of obstructive CAD is demonstrated.||0.41|0.20|<.001
82481906|NCT01848782|164656573|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.5|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||||0.7|-0.4|0.5
82481907|NCT01848782|164656574|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.8|TWO_SIDED|95.0|-0.5|0.6|||Mixed Models Analysis|||||0.6|-0.5|0.8
82481908|NCT01848782|164656575|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.6|TWO_SIDED|95.0|-0.4|0.7|||Mixed Models Analysis|||||0.7|-0.4|0.6
82481909|NCT01848782|164656576|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.8|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||||0.5|-0.6|0.8
82554423|NCT05654662|164814607|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
82554424|NCT05654662|164814608|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.047||0.0012|TWO_SIDED|95.0|-0.25|-0.06|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.06|-0.25|0.0012
82554425|NCT05654662|164814608|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.061||0.0058|TWO_SIDED|95.0|-0.29|-0.05|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.05|-0.29|0.0058
82554426|NCT05654662|164814608|SUPERIORITY||Adjusted Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|-0.42|-0.16|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.16|-0.42|<0.0001
82554427|NCT05654662|164814609|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 3 (Test for non-zero within group change from Baseline)||||<0.0001
82554428|NCT05654662|164814609|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 6 (Test for non-zero within group change from Baseline)||||<0.0001
82554429|NCT05654662|164814609|SUPERIORITY||||||<|0.0001|||||||MMRM|||Change from Baseline at Week 12 (Test for non-zero within group change from Baseline)||||<0.0001
82554430|NCT05654662|164814610|SUPERIORITY||Adjusted Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.051||0.0022|TWO_SIDED|95.0|-0.26|-0.06|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 3||-0.06|-0.26|0.0022
82554431|NCT05654662|164814610|SUPERIORITY||Adjusted Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.066||0.0099|TWO_SIDED|95.0|-0.3|-0.04|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 6||-0.04|-0.30|0.0099
82554432|NCT05654662|164814610|SUPERIORITY||Adjusted Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.073|<|0.0001|TWO_SIDED|95.0|-0.45|-0.16|||MMRM||Adjusted mean difference was calculated as test product minus reference product.|Change from Baseline at Week 12||-0.16|-0.45|<0.0001
82554433|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.837||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.837
82554434|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.428||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.428
82481910|NCT01848782|164656577|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.2|TWO_SIDED|95.0|-1.0|0.2|||Mixed Models Analysis|||||0.2|-1.0|0.2
82481911|NCT02047318|164656585|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-94.4|STANDARD_DEVIATION|98.915||0.0012|TWO_SIDED|95.0|-145.26|-43.55||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||-43.55|-145.26|0.0012
82651367|NCT00895583|165017534|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|2.4||0.105|TWO_SIDED|95.0|-8.6|0.8||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 6||0.8|-8.6|0.105
82481912|NCT02047318|164656586|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-141.94|STANDARD_DEVIATION|117.992||0.032|TWO_SIDED|95.0|-265.77|-18.12||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed over time (with Week 252 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||-18.12|-265.77|0.032
82481913|NCT02047318|164656587|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-1.095|STANDARD_DEVIATION|0.7173|<|0.0001|TWO_SIDED|95.0|-1.464|-0.726||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) scores was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||-0.726|-1.464|< 0.0001
82481914|NCT02047318|164656588|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Obs) scores from baseline over time (to Week 158) was statistically significant.|Mean Difference (Net)|-0.958|STANDARD_DEVIATION|0.7868||0.0307|TWO_SIDED|95.0|-1.784|-0.132||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 158 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) scores was observed over time (with Week 158 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||-0.132|-1.784|0.0307
82481915|NCT02047318|164656591|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|7.4|STANDARD_DEVIATION|210.32||0.8863|TWO_SIDED|95.0|-100.7|115.6||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||115.6|-100.7|0.8863
82481916|NCT02047318|164656592|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-184.3|STANDARD_DEVIATION|322.22||0.22|TWO_SIDED|95.0|-522.5|153.8||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||153.8|-522.5|0.22
82554435|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.269||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.269
82554436|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.015||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.015
82581600|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.04|||<|0.001|TWO_SIDED|95.0|-0.79|0.71|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Black or African American||0.71|-0.79|<0.001
82651368|NCT00895583|165017534|SUPERIORITY_OR_OTHER||LS Mean Difference|7.7|STANDARD_ERROR_OF_MEAN|3.3||0.023|TWO_SIDED|95.0|1.1|14.3||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 12||14.3|1.1|0.023
82651369|NCT00895583|165017534|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|3.4||0.955|TWO_SIDED|95.0|-6.8|6.4||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 18||6.4|-6.8|0.955
82651370|NCT00895583|165017534|SUPERIORITY_OR_OTHER||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|5.8||0.582|TWO_SIDED|95.0|-8.2|14.6||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline serum creatinine as a covariate.||Change from randomization at Month 24||14.6|-8.2|0.582
82651371|NCT00895583|165017535|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||||||0.006
82651372|NCT00895583|165017536|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Post-randomization to Month 12 Post-transplantation||||1.000
82481917|NCT02047318|164656593|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|51.6|STANDARD_DEVIATION|89.77||0.0307|TWO_SIDED|95.0|5.4|97.7||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||97.7|5.4|0.0307
82481918|NCT02047318|164656594|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|42.3|STANDARD_DEVIATION|140.41||0.4934|TWO_SIDED|95.0|-105.0|189.7||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed over time (with Week 252 chosen as the end point, as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||189.7|-105|0.4934
82481919|NCT02047318|164656595|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in AST levels between MRX baseline and Week 48 was statistically significant|Mean Difference (Net)|21.2|STANDARD_DEVIATION|58.98||0.1571|TWO_SIDED|95.0|-9.1|51.6||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in AST levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||51.6|-9.1|0.1571
82481920|NCT02047318|164656596|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in AST levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|12.2|STANDARD_DEVIATION|101.84||0.7815|TWO_SIDED|95.0|-94.7|119.0||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in AST levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||119|-94.7|0.7815
82481921|NCT02047318|164656597|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in GGT levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-3.9|STANDARD_DEVIATION|257.78||0.9513|TWO_SIDED|95.0|-136.4|128.7||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in GGT levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||128.7|-136.4|0.9513
82481922|NCT02047318|164656598|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in GGT levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-56.7|STANDARD_DEVIATION|356.88||0.7133|TWO_SIDED|95.0|-431.2|317.9||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in GGT levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||317.9|-431.2|0.7133
82481923|NCT02047318|164656599|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|0.16|STANDARD_DEVIATION|2.348||0.7839|TWO_SIDED|95.0|-1.05|1.37||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in total bilirubin levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||1.37|-1.05|0.7839
82481924|NCT02047318|164656599|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels between MRX baseline and Week 48 was statistically significant.|Mean Difference (Net)|-0.15|STANDARD_DEVIATION|0.982||0.5298|TWO_SIDED|95.0|-0.66|0.35||Data for this analysis were obtained from 19 participants at MRX baseline; 17 of those participants contributed Week 48 data.|Student's t-test|||This analysis investigated whether a statistically significant change in direct bilirubin levels was observed when comparing MRX baseline to Week 48. The analysis was based on the safety population.||0.35|-0.66|0.5298
82481925|NCT02047318|164656600|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-0.53|STANDARD_DEVIATION|5.505||0.8218|TWO_SIDED|95.0|-6.31|5.24||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in total bilirubin levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||5.24|-6.31|0.8218
82481926|NCT02047318|164656600|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels from baseline over time (to Week 252) was statistically significant.|Mean Difference (Net)|-0.52|STANDARD_DEVIATION|2.001||0.5549|TWO_SIDED|95.0|-2.62|1.58||Data for this analysis were obtained from 19 participants at MRX baseline; 6 of those participants contributed Week 252 data.|Student's t-test|||This analysis investigated whether a statistically significant change in direct bilirubin levels was observed over time (with Week 252 chosen as the end point as the last analysis visit with at least 6 participants). The analysis was based on the safety population.||1.58|-2.62|0.5549
82581601|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.33|||<|0.001|TWO_SIDED|95.0|-0.44|-0.22|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: White||-0.22|-0.44|<0.001
82581602|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.41|||<|0.001|TWO_SIDED|95.0|-0.76|-0.06|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: More Than One Race||-0.06|-0.76|<0.001
82481927|NCT02296138|164656601|SUPERIORITY|This hypothesis testing strategy ensures that the overall type I error is protected at 2-sided 0.01 level.|Ratio of rates vs. Tiotropium 5 μg|0.93||||0.0498|TWO_SIDED|99.0|0.85|1.02|||Negative binomial model||Ratio of events Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg) is provided.|Annualised rate of moderate to severe COPD exacerbation was analysed using a negative binomial model including the fixed, categorical effect of treatment as well as the logarithm of the treatment exposure as an offset.||1.02|0.85|0.0498
82481928|NCT02296138|164656601|SUPERIORITY||Ratio of rates|0.89||||0.001|TWO_SIDED|95.0|0.84|0.96|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on SPARK/FLAME- Covariates: Smoking status, baseline inhaled corticosteroid, Global Initiative on Chronic Obstructive Lung Disease stage, region, COPD Assessment Test score (replacing baseline symptom score), exacerbations treated with antibiotics/steroids history in previous year (replacing 1-year history of exacerbations)||0.96|0.84|0.0010
82481929|NCT02296138|164656601|SUPERIORITY||Ratio of rates|0.91||||0.008|TWO_SIDED|95.0|0.85|0.98|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on HERMES- Covariates: age, sex, smoking status, baseline Long-acting Beta-agonist/inhaled corticosteroid, region and percent predicted post-bronchodilator Forced Expiratory Volume in One Second||0.98|0.85|0.0080
82481930|NCT02296138|164656601|SUPERIORITY||Ratio of rates|0.89||||0.0011|TWO_SIDED|95.0|0.84|0.96|||Negative binomial model||Ratio of rates Tiotropium (5 μg) versus Tiotropium (5 μg) + Olodaterol (5 μg) is provided.|Model was based on TRINITY/TRILOGY- Covariates: Treatment, region, severity of airflow limitation, and smoking status as effects, and exacerbations treated with antibiotics/steroids in previous year.||0.96|0.84|0.0011
82481931|NCT02296138|164656602|SUPERIORITY|This hypothesis testing strategy ensures that the overall type I error is protected at 2-sided 0.01 level.|Hazard Ratio (HR)|0.95||||0.1188|TWO_SIDED|99.0|0.87|1.03|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.03|0.87|0.1188
82481932|NCT02296138|164656603|SUPERIORITY||Ratio of events vs. Tiotropium 5 μg|0.89||||0.1265|TWO_SIDED|95.0|0.76|1.03|||Negative binomial model||Ratio of events Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg) is provided.|Annualised rate of exacerbations leading to hospitalization was analysed using a negative binomial model including the fixed, categorical effect of treatment as well as the logarithm of the treatment exposure as an offset.||1.03|0.76|0.1265
82481933|NCT02296138|164656604|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.2773|TWO_SIDED|95.0|0.82|1.06|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.06|0.82|0.2773
82481934|NCT02296138|164656605|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7357|TWO_SIDED|95.0|0.67|1.75|||Log Rank||Tiotropium (5 μg) + Olodaterol (5 μg) versus Tiotropium (5 μg)|A Cox's proportional hazard model was used to estimate the hazard ratio and the corresponding Confidence Interval. A log-rank test was used to obtain the p-value||1.75|0.67|0.7357
82481935|NCT01653132|164656606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.194|STANDARD_DEVIATION|0.61|||TWO_SIDED|95.0|-0.71|0.32|||||negative values correspond to a reduction in saliva weight with Inco-A.|Based on the primary outcome measure of mean reduction in saliva weight at 1 month post Inco-A /placebo as compared to baseline, using paired t-test with a two-sided nominal significance (alpha) of 0.05, assuming a correlation of 0.5 between observations, a sample size of 10 pairs has a power of 0.803 to detect a 50% difference in salivary weight.||0.32|-0.71|
82481936|NCT01653132|164656607|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.3|STANDARD_DEVIATION|0.34|||TWO_SIDED|95.0|-50.8|6.2|||||negative numbers represent reduction in saliva weight with Inco-A|||6.2|-50.8|
82481937|NCT01653132|164656608|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.33|STANDARD_DEVIATION|1.41|||TWO_SIDED|95.0|-1.16|0.69|||||negative values represent reduction in scores (improvement in drooling) with Inco-A|||0.69|-1.16|
82481938|NCT01653132|164656609|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.333|||||TWO_SIDED|95.0|-0.633|0.071||||||||0.071|-0.633|
82481939|NCT01653132|164656610|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.11|||||TWO_SIDED|95.0|-0.46|0.28||||||||0.28|-0.46|
82481940|NCT00461331|164656621|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|96.4|STANDARD_DEVIATION|8.5||0.52||95.0|87.9|100.0|||Regression, Linear|7 patients underwent early termination of either one or both of their test period due to loss of glycemic control||Glucose levels for patients when they were on each insulin were analyzed. All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables. This was a pilot study.||100.0|87.9|0.52
82481941|NCT00461331|164656622|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.35|STANDARD_DEVIATION|4.165||0.15||95.0|0.97|9.23|||Regression, Linear||This was between days 3 and 5 after the last pump infusion line change using Insulin Aspart and Insulin Lispro. Adequate samples were not available to do the analysis for day 2.|All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables.||9.23|0.97|0.15
82481942|NCT00461331|164656623|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.7|STANDARD_DEVIATION|2.35||0.55||95.0|4.4|9.4|||Regression, Linear||This was for test period 1 between days 3 and 5 after the last pump infusion line change.|All data was analyzed on an intention to treat basis. Repeated measures, paired t-test and Pearson's correlation on SPSS 14.0 for windows and statistical R-package were used to compare the various variables.||9.4|4.4|0.55
82481943|NCT03312751|164656626|SUPERIORITY||Overall response rate|62.9||||0.0053|TWO_SIDED|95.0|44.9|78.5|||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||78.5|44.9|0.0053
82481944|NCT03312751|164656626|SUPERIORITY|||||||0.2839|||||||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||||0.2839
82481945|NCT03312751|164656626|SUPERIORITY|||||||0.0031|||||||Exact binomial|||The primary efficacy endpoint was analyzed with an exact binomial test to evaluate the null hypothesis that the Overall Response Rate was, at most, 40%. This test was performed at the one sided 0.025 significance level.||||0.0031
82481946|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0056||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.0056
82481947|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.0866
82481948|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0568||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0568
82481949|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||||||For all secondary efficacy analyses, no multiple comparison adjustment were made.|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.0130
82481950|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0188||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0188
82481951|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6394||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.6394
82481952|NCT00282464|164656644|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7707||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.7707
82481953|NCT00282464|164656645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2185||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.2185
82481954|NCT00282464|164656645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4124||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.4124
82481955|NCT00282464|164656645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6098||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.6098
82481956|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 1||||0.0005
82481957|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 2||||0.0099
82481958|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0423||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.0423
82481959|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0618||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 4||||0.0618
82651373|NCT00895583|165017536|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Post-randomization to Month 24 post-transplantation||||0.215
82481960|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0451||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 5||||0.0451
82481961|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2633||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.2633
82481962|NCT00282464|164656646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2206||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.2206
82481963|NCT00282464|164656647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9863||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 3||||0.9863
82481964|NCT00282464|164656647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1017||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Week 6||||0.1017
82481965|NCT00282464|164656647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4033||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Cochran-Mantel-Haenszel|CMH test stratified by study center and rapid cycling strata was used to compare remission and response rates between ziprasidone and placebo groups||Endpoint||||0.4033
82581603|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.27|||<|0.001|TWO_SIDED|95.0|-0.85|0.31|||Regression, Linear||Unit: $ per 12-pack|Race subgroup: Unknown or Not Reported||0.31|-0.85|<0.001
82481966|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||||||No multiple comparison adjustment is applicable. Statistical significance level was 0.05|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.002
82481967|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.019
82481968|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.038
82481969|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.069
82481970|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.053|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.053
82481971|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6 An estimated sample size of 180 was needed per treatment arm in order to achieve 85% power to detect a treatment difference of 3.5 in the mean change from baseline to Week 6 in MADRS total score with a two-sided t-test at the 0.05 significance level. The common standard deviation was estimated as 11.0. The null hypotheses is equality of mean change from baseline to Week 6 in MADRS total score between ziprasidone and placebo groups.||||0.154
82481972|NCT00282464|164656648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.007
82481973|NCT00282464|164656649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.112||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.112
82481974|NCT00282464|164656649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.352
82481975|NCT00282464|164656649|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.873
82481976|NCT00282464|164656650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.305
82481977|NCT00282464|164656650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.51||||||For all efficacy analyses, no multiple comparisons adjustments were made.|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.510
82554437|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.163||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.163
82581604|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.23|||<|0.001|TWO_SIDED|95.0|-0.45|0.91|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.91|-0.45|<0.001
82581605|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.52|||<|0.001|TWO_SIDED|95.0|-0.65|-0.39|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.39|-0.65|<0.001
82481978|NCT00282464|164656650|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.710
82481979|NCT00282464|164656651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.026
82481980|NCT00282464|164656651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.223
82481981|NCT00282464|164656651|SUPERIORITY_OR_OTHER_LEGACY|||||||0.848||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.848
82481982|NCT00282464|164656652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.381||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.381
82481983|NCT00282464|164656652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.676||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.676
82581606|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.93|||<|0.001|TWO_SIDED|95.0|-1.48|-0.38|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Other or Prefer Not to Say||-0.38|-1.48|<0.001
82651374|NCT00895583|165017537|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 6||||0.499
82481984|NCT00282464|164656652|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.295
82554438|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.14||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.140
82554439|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.079||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.079
82581607|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.16|||<|0.001|TWO_SIDED|95.0|-0.7|0.38|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.38|-0.70|<0.001
82581608|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.45|||<|0.001|TWO_SIDED|95.0|-0.57|-0.33|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.33|-0.57|<0.001
82651375|NCT00895583|165017537|SUPERIORITY_OR_OTHER|||||||0.067|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 12||||0.067
82651376|NCT00895583|165017537|SUPERIORITY_OR_OTHER|||||||0.061|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 18||||0.061
82481985|NCT00282464|164656653|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.068
82481986|NCT00282464|164656653|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.043
82481987|NCT00282464|164656653|SUPERIORITY_OR_OTHER_LEGACY|||||||0.404||||||For all efficacy analyses, no multiple comparisons adjustments were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.404
82481988|NCT00282464|164656654|SUPERIORITY_OR_OTHER_LEGACY|||||||0.899||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 3||||0.899
82481989|NCT00282464|164656654|SUPERIORITY_OR_OTHER_LEGACY|||||||0.739||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate||Week 6||||0.739
82481990|NCT00282464|164656654|SUPERIORITY_OR_OTHER_LEGACY|||||||0.797||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.797
82481991|NCT00282464|164656655|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 3||||0.434
82481992|NCT00282464|164656655|SUPERIORITY_OR_OTHER_LEGACY|||||||0.777||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Week 6||||0.777
82481993|NCT00282464|164656655|SUPERIORITY_OR_OTHER_LEGACY|||||||0.82||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.820
82651377|NCT00895583|165017537|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 24||||0.020
82651378|NCT00895583|165017540|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-therapy Period||||1.000
82651379|NCT00895583|165017540|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-therapy Period||||1.000
82481994|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.468||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.468
82481995|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.110
82481996|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.738||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.738
82651380|NCT00895583|165017541|SUPERIORITY_OR_OTHER|||||||0.284|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Baseline||||0.284
82481997|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.617
82481998|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.642||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.642
82481999|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.644||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.644
82482000|NCT00282464|164656656|SUPERIORITY_OR_OTHER_LEGACY|||||||0.789||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.789
82482001|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.042||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 1||||0.042
82482002|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 2||||0.088
82482003|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.651||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 3||||0.651
82482004|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.665||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 4||||0.665
82482005|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.349||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 5||||0.349
82482006|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Week 6||||0.685
82482007|NCT00282464|164656657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.257||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction \& fixed continuous effect of baseline value||Overall||||0.257
82482008|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0099||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 1||||0.0099
82482009|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0654||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 2||||0.0654
82651381|NCT00895583|165017541|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 12||||0.046
82482010|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1807||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 3||||0.1807
82482011|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0957||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 4||||0.0957
82482012|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0752||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 5||||0.0752
82482013|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3964||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Week 6||||0.3964
82482014|NCT00282464|164656658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0287||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|Mixed Models Analysis|Fixed categorical effect: treatment, rapid cycling, center, visit, prior hosp \& treatment-by-visit interaction.||Overall||||0.0287
82482015|NCT00282464|164656659|SUPERIORITY_OR_OTHER_LEGACY|||||||0.965||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Change from baseline to endpoint||||0.965
82581609|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.79|||<|0.001|TWO_SIDED|95.0|-1.42|-0.16|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Other or Prefer Not to Say||-0.16|-1.42|<0.001
82651382|NCT00895583|165017541|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Month 24||||1.000
82651383|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.81|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||TC, Month 12||||<0.001
82651384|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||TC, Month 24||||<0.001
82482016|NCT00282464|164656660|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Change from baseline to endpoint||||0.860
82482017|NCT00282464|164656661|SUPERIORITY_OR_OTHER_LEGACY|||||||0.428||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANCOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Baseline to endpoint||||0.428
82482018|NCT00282464|164656662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.708||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANOVA model included effects of treatment, rapid cycling, center and prior hospitalization status||Change from baseline to endpoint||||0.708
82482019|NCT00282464|164656663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.898||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANCOVA model included effects of treatment, rapid cycling, center, prior hospitalization status, as well as baseline value as a covariate.||Endpoint||||0.898
82482020|NCT00282464|164656664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.559||||||For all secondary efficacy analyses, no multiple comparison adjustment were made|ANOVA|ANOVA model included effects of treatment, rapid cycling, center and prior hospitalization status.||Endpoint||||0.559
82482021|NCT00282464|164656665|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458||||||For all secondary efficacy analyses, no multiple adjustments were made|ANOVA|ANVOVA model included effects of treatment, rapid cycling, center and prior hospitalization status.||Endpoint||||0.458
82482022|NCT02757950|164656685|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.548||||0.1147|TWO_SIDED|95.0|0.259|1.157||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||1.157|0.259|0.1147
82482023|NCT02757950|164656686|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.428||||0.0155|TWO_SIDED|95.0|0.215|0.851||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.851|0.215|0.0155
82482024|NCT02757950|164656687|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.254||||0.0127|TWO_SIDED|95.0|0.086|0.746||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.746|0.086|0.0127
82482025|NCT02757950|164656688|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|0.638||||0.0036|TWO_SIDED|95.0|0.471|0.863||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||0.863|0.471|0.0036
82482026|NCT02757950|164656689|OTHER|The comparison of the relative risk with its two sided 95% CI of each primary endpoint between the Exposed cohort and the Unexposed cohort was obtained by means of logistic regression model, using the exposure status as a binary independent variable in the model. Absence of increased relative risk was concluded if the respective 95% CI contained 1.|Incidence rate ratio|1.342||||0.0931|TWO_SIDED|95.0|0.952|1.89||A multiple logistic regression model was fitted with a backward selection to identify the possible confounding factors for each of the primary safety event using an alpha level of 0.1.|Regression, Logistic|||The analysis contained only the subjects with vaccination date in the Exposed cohort and subjects from the Unexposed cohort.||1.890|0.952|0.0931
82482027|NCT05072470|164656698|SUPERIORITY|When p-value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|||||<|0.01|||||||t-test, 2 sided|||Speech intelligibility will be better with hearing aids plus Roger device, than with hearing aids alone when tested using standardized speech test at 0 dB SNR||||<0.01
82482028|NCT05072470|164656698|SUPERIORITY|||||||0.031||||||When p value is adjusted for multiple comparisons, the level of statistical significance must be \</= to .01666667 (.05/3)|t-test, 2 sided|||Speech intelligibility will be better with hearing aids plus Roger device, than with hearing aids alone when tested using standardized speech test at -5 dB SNR||||.031
82651385|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.824|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||HDL-C, Month 12||||0.824
82482029|NCT05072470|164656698|SUPERIORITY|||||||0.046||||||When p-values are adjusted for multiple comparisons, the level of statistical significance must be \</= .01666667 (.05/3)|t-test, 2 sided|||Speech intelligibility will be equal or better with hearing aids plus Roger device than with hearing aids alone when tested using standardized speech test at +5 dB SNR.||||.046
82482030|NCT00603642|164656706|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82482031|NCT00603642|164656707|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82482032|NCT00603642|164656708|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||ANCOVA|||||||0.0003
82482033|NCT00603642|164656709|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82482034|NCT00603642|164656710|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6015|||||||Fisher Exact|||||||0.6015
82482035|NCT02514473|164656716|SUPERIORITY||Least Square (LS) Mean Difference|-1.09|||<|0.0001|TWO_SIDED|95.0|-1.43|-0.75|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM). The model included treatment, visit and treatment-by-visit interaction as fixed effects; and participant as a random effect with adjustments for baseline, weight (less than \[\<\] 25 kilogram \[kg\] versus greater than or equal to \[\>=\] 25 kg) and percent predicted forced expiratory volume in 1 second (FEV1) severity (\<90 versus \>=90) at screening.||-0.75|-1.43|< 0.0001
82482036|NCT00548405|164656735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.0084|TWO_SIDED|95.0|0.38|0.87||Hochberg method was used to adjust for the two co-primary outcomes.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model with robust variance estimation using treatment group and geographic region as covariate was used.||0.87|0.38|0.0084
82482037|NCT00548405|164656736|SUPERIORITY_OR_OTHER||Rate ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.39|0.65||Hochberg method was used to adjust for the two co-primary outcomes.|Proportional means regression|||Proportional means regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.65|0.39|<0.0001
82482038|NCT00548405|164656737|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.69|||Cox Proportional Hazards Regression|||Cox PH regression model with robust variance estimation and covariate adjustment for geographic region was used.||0.69|0.41|<0.0001
82482039|NCT00548405|164656738|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wei-Lachin|||The analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures.||||<0.0001
82482040|NCT00548405|164656739|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Wei-Lachin|||Change at Year 2: the analysis was performed using Wei-Lachin method for non-parametric analysis of repeated measures.||||0.0022
82482041|NCT00548405|164656740|SUPERIORITY_OR_OTHER|||||||0.1371|TWO_SIDED||||||Ranked ANCOVA|||Ranked ANCOVA models with covariate adjustment for geographic region and Baseline T2 lesion volume was used.||||0.1371
82482042|NCT02582684|164656750|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|proportion|0.9|||||TWO_SIDED|95.0|0.83|0.95|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.95|0.83|
82482043|NCT02582684|164656751|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|Proportion|0.89|||||TWO_SIDED|95.0|0.82|0.94|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.94|0.82|
82482044|NCT02582684|164656752|OTHER|Binomial Proportion of Participants with Virologic Success and 95% Confidence Interval|proportion|0.85|||||TWO_SIDED|95.0|0.77|0.91|||||Confidence interval was calculated using the Clopper-Pearson exact method.|||0.91|0.77|
82482045|NCT03836001|164656766|SUPERIORITY|||||||0.59||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||0.59
82651386|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.02|STANDARD_ERROR_OF_MEAN|0.05||0.735|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||HDL-C, Month 24||||0.735
82651387|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.49|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||LDL-C, Month 12||||<0.001
82482046|NCT03836001|164656767|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
82482047|NCT03836001|164656768|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
82482048|NCT03836001|164656769|SUPERIORITY|||||||0.67||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||0.67
82482049|NCT03836001|164656770|SUPERIORITY|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|Fisher Exact|||||||1
82482050|NCT03836001|164656771|OTHER||Mean Difference (Net)|-0.11||||0.09|TWO_SIDED|95.0|-0.24|0.02||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||0.02|-0.24|0.09
82482051|NCT03836001|164656772|SUPERIORITY||Mean Difference (Net)|-0.08||||0.16|TWO_SIDED|95.0|-0.19|0.03||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||0.03|-0.19|0.16
82482052|NCT03836001|164656774|OTHER||Mean Difference (Net)|-0.25||||0.002|TWO_SIDED|95.0|-0.41|-0.09||A p-value of \<0.05 would be considered statistically significant.|Mixed Models Analysis|||Analysis of change from baseline through week 8 including all time points. For this analysis, data were censored at the time of participant discontinuation.||-0.09|-0.41|0.002
82482053|NCT03758755|164656839|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.0219|||||||t-test, 1 sided|||Null hypothesis: there is no difference between groups in IKDC score at 12 weeks post-op.||||0.0219
82482054|NCT03758755|164656840|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.008|||||||t-test, 1 sided|||Null hypothesis: there is no difference between groups in VAS score at 12 weeks post-op.||||0.008
82482055|NCT03758755|164656841|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.011|||||||t-test, 1 sided|||This analysis compares the change over time in quadriceps tendon strength between the BFR Therapy group and the No BFR Group. Underlying data was collected on a biweekly basis as the percent difference of the operated knee compared to the contralateral side. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in quadriceps tendon strength over time.||||0.011
82482056|NCT03758755|164656842|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.223|||||||t-test, 1 sided|||This analysis compares the change over time in thigh circumference between the BFR Therapy group and the No BFR Group. Underlying data was collected on a biweekly basis as the percent difference of the operated knee compared to the contralateral side. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in thigh circumference over time.||||0.223
82581610|NCT05038163|164874809|SUPERIORITY||Treatment Effect|0.01||||0.98|TWO_SIDED|95.0|-0.4|0.41|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Hispanic||0.41|-0.40|0.980
82554440|NCT06946888|164814623|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.151||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.151
82651388|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.42|STANDARD_ERROR_OF_MEAN|0.13||0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||LDL-C, Month 24||||0.001
82482057|NCT03758755|164656843|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.242|||||||t-test, 1 sided|||This analysis compares the change over time in degrees of knee flexion between the BFR Therapy group and the No BFR Group from 2 weeks post-op to 12 weeks post-op. Underlying data was collected on a biweekly basis. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in degrees of knee flexion over time.||||0.242
82482058|NCT03758755|164656844|EQUIVALENCE|The a priori threshold for statistical significance was set at 0.05.||||||0.049|||||||t-test, 1 sided|||This analysis compares the change over time in degrees of knee extension between the BFR Therapy group and the No BFR Group from 2 weeks post-op to 12 weeks post-op. Underlying data was collected on a biweekly basis. This statistical test utilized the null hypothesis that there would be no difference between groups in the change in degrees of knee extension over time.||||0.049
82482059|NCT02119676|164656874|OTHER||Hazard Ratio (HR)|1.04||||0.588|TWO_SIDED|95.0|0.73|1.49||1-sided|Log Rank|Log-rank test stratified by modified Glasgow Prognostic Score (mGPS) and geographical region.|Estimated using a Cox regression model with Efron's method used for ties, stratified by mGPS score and geographical region|||1.49|0.73|0.588
82482060|NCT02119676|164656874|OTHER||Hazard Ratio (HR)|0.77||||0.136|TWO_SIDED|95.0|0.48|1.23||1-sided|Log Rank|Log rank test stratified by geographical region.|Estimated using Cox regression model with Efron's method used for ties, stratified by geographical region|||1.23|0.48|0.136
82482061|NCT01007253|164656924|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean eye symptoms score difference among the four treatment groups.||||<0.001
82482062|NCT01007253|164656925|SUPERIORITY_OR_OTHER|||||||0.05|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean nasal symptoms score difference among the four treatment groups.||||0.05
82581611|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.36|||<|0.001|TWO_SIDED|95.0|-0.47|-0.25|||Regression, Linear||Unit: $ per 12-pack|Ethnicity subgroup: Not Hispanic||-0.25|-0.47|<0.001
82581612|NCT05038163|164874809|SUPERIORITY||Treatment Effect|-0.39|||<|0.001|TWO_SIDED|95.0|-1.03|0.25|||Regression, Linear||Unit: $ per 12-pack|Ethnicity Subgroup: Other or Prefer Not to Say||0.25|-1.03|<0.001
82482063|NCT01007253|164656926|SUPERIORITY_OR_OTHER|||||||0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean sneeze difference among the four treatment groups.||||0.001
82482064|NCT01007253|164656927|SUPERIORITY_OR_OTHER|||||||0.11|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean histamine level difference among the four treatment groups.||||0.11
82482065|NCT01007253|164656928|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman ANOVA|||Analysis of variance (ANOVA) was used to test the null hypothesis of no mean tryptase level difference among the four treatment groups.||||<0.001
82482066|NCT02093351|164656930|EQUIVALENCE|If the 90% confidence interval (CI) for the tamoxifen treatment ratio falls within 0.7 to 1.43, olaparib can be considered to have had an effect on tamoxifen exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.13|||||TWO_SIDED|90.0|1.06|1.22|||||olaparib + tamoxifen vs. tamoxifen|Analysis of tamoxifen PK parameters.||1.22|1.06|
82581613|NCT04688320|164874810|NON_INFERIORITY|The margin of the non-inferiority was established as a difference in the primary efficacy endpoints between compared groups|Odds Ratio (OR)|0.75|||<|0.05|TWO_SIDED|95.0|0.11|4.52|||Welch's t-test|||||4.52|0.11|<0.05
82586108|NCT02254278|164884163|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.02|TWO_SIDED|95.0|0.17|0.9|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT 5 weeks|||0.90|0.17|0.02
82482067|NCT02093351|164656931|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, tamoxifen can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.8|||||TWO_SIDED|90.0|0.71|0.9|||||olaparib + tamoxifen vs. olaparib|Analysis of olaparib PK parameters.||0.90|0.71|
82482068|NCT02093351|164656932|EQUIVALENCE|If the 90% CI for the anastrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on anastrozole exposure.|Geometric Least Squares (GLS) Mean Ratio|0.9|||||TWO_SIDED|90.0|0.84|0.97|||||olaparib + anastrozole vs. anastrozole|Analysis of anastrozole PK parameters.||0.97|0.84|
82482069|NCT02093351|164656933|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, anastrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.84|1.04|||||olaparib + anastrozole vs. olaparib|Analysis of olaparib PK parameters.||1.04|0.84|
82482070|NCT02093351|164656934|EQUIVALENCE|If the 90% CI for the letrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on letrozole exposure.|GLS Mean Ratio|0.94|||||TWO_SIDED|90.0|0.91|0.98|||||olaparib + letrozole vs. letrozole|Analysis of letrozole PK parameters.||0.98|0.91|
82482071|NCT02093351|164656935|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, letrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.09|||||TWO_SIDED|90.0|0.99|1.21|||||olaparib + letrozole vs. olaparib|Analysis of olaparib PK parameters||1.21|0.99|
82482072|NCT02093351|164656936|EQUIVALENCE|If the 90% CI for the tamoxifen treatment ratio falls within 0.7 to 1.43, olaparib can be considered to have had an effect on tamoxifen exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.16|||||TWO_SIDED|90.0|1.11|1.21|||||olaparib + tamoxifen vs. tamoxifen|Analysis of tamoxifen PK parameters.||1.21|1.11|
82482073|NCT02093351|164656937|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, tamoxifen can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.73|||||TWO_SIDED|90.0|0.63|0.84|||||olaparib + tamoxifen vs. olaparib|Analysis of olaparib PK parameters.||0.84|0.63|
82482074|NCT02093351|164656938|EQUIVALENCE|If the 90% CI for the anastrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on anastrozole exposure.|GLS Mean Ratio|0.86|||||TWO_SIDED|90.0|0.8|0.93|||||olaparib + anastrozole vs. anastrozole|Analysis of anastrozole PK parameters.||0.93|0.80|
82482075|NCT02093351|164656939|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, anastrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|0.89|||||TWO_SIDED|90.0|0.76|1.05|||||olaparib + anastrozole vs. olaparib|Analysis of olaparib PK parameters.||1.05|0.76|
82482076|NCT02093351|164656940|EQUIVALENCE|If the 90% CI for the letrozole treatment ratio falls within 0.8 to 1.25, olaparib can be considered to have had little or no effect on letrozole exposure.|GLS Mean Ratio|0.95|||||TWO_SIDED|90.0|0.91|0.99|||||olaparib + letrozole vs. letrozole|Analysis of letrozole PK parameters.||0.99|0.91|
82482077|NCT02093351|164656941|EQUIVALENCE|If the 90% CI for the olaparib treatment ratio falls within 0.7 to 1.43, letrozole can be considered to have had an effect on olaparib exposure that is unlikely to be clinically relevant.|GLS Mean Ratio|1.15|||||TWO_SIDED|90.0|1.07|1.25|||||olaparib + letrozole vs. olaparib|Analysis of olaparib PK parameters.||1.25|1.07|
82482078|NCT01099709|164656942|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference).|Geometric Test/Ref Ratio x 100|105.0|||||TWO_SIDED|90.0|101.06|108.51|||||Bioequivalence was established when 90% Confidence Interval fell within 80%-125%.|||108.51|101.06|
82482079|NCT01099709|164656942|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|105.0|||||TWO_SIDED|90.0|101.06|108.51|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||108.51|101.06|
82482080|NCT01099709|164656943|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|95.6|||||TWO_SIDED|90.0|93.73|97.53|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.53|93.73|
82482081|NCT01099709|164656944|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric test/Ref Ratio x 100|95.7|||||TWO_SIDED|90.0|93.85|97.68|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||97.68|93.85|
82482082|NCT00920907|164656949|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.01|||||TWO_SIDED|90.0|0.916|1.114|||Least squared linear regression|||Biocomparability of ipilimumab Process C to ipilimumab Process B was concluded if the 90% confidence intervals (CIs) for the ratio of geometric means for Cmax were contained within 80% to 125%.||1.114|0.916|
82482083|NCT00920907|164656953|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.032|||||TWO_SIDED|90.0|0.922|1.156|||Least squared linear regression|||Biocomparability of ipilimumab Process C to ipilimumab Process B was to be concluded if the 90% confidence intervals (CIs) for the ratio of geometric means for ipilimumab Cmax were contained within 80% to 125%. Point estimates and 90% CIs were constructed for the ratio of geometric means (Process C/Process B) for ipilimumab Cmax.||1.156|0.922|
82482084|NCT00920907|164656958|SUPERIORITY_OR_OTHER||omnibus conditional F-test|0.4||||0.85||||||Not corrected for multiple testing|F-test|numerator 5 degrees freedom, denominator 782 degrees freedom||Time-by-process interaction. Null hypothesis that the pattern of mean ALC values over time is the same for both processes.||||0.85
82482085|NCT00920907|164656958|SUPERIORITY_OR_OTHER||F-statistic|4.35|||<|0.0001|||||||F-test|numerator 10 degrees freedom, denominator 782 degrees freedom||Overall time effect. Null hypothesis of no mean ALC changes over time in either process group (treatment arm).||||<0.0001
82482086|NCT04369924|164657027|SUPERIORITY||F test for time by condition interaction|1.49||||0.25|TWO_SIDED||||||ANOVA|||||||.25
82482087|NCT04369924|164657028|SUPERIORITY||F test for time by condition interaction|2.8||||0.12|TWO_SIDED||||||ANOVA|||||||.12
82482088|NCT04369924|164657029|SUPERIORITY||F test for time by condition interaction|0.7||||0.7|TWO_SIDED||||||ANOVA|||||||.70
82482089|NCT04369924|164657030|SUPERIORITY||F test for time by condition interaction|3.67||||0.07|TWO_SIDED||||||ANOVA|||||||.07
82482090|NCT04369924|164657031|SUPERIORITY||Slope|0.16||||0.82|TWO_SIDED||||||Mixed Models Analysis|||||||.82
82482091|NCT04369924|164657032|SUPERIORITY||Slope|-2.41||||0.59|TWO_SIDED||||||Mixed Models Analysis|||||||.59
82482092|NCT03828370|164657033|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
82482093|NCT03828370|164657034|SUPERIORITY|||||||0.034|||||||Chi-squared|||||||.034
82482094|NCT01933789|164657038|SUPERIORITY||Probit regression coefficient|1.145|||<|0.001|TWO_SIDED|95.0|0.844|1.446||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.446|0.844|<0.001
82482095|NCT01933789|164657039|SUPERIORITY||Probit regression coefficient|1.251|||<|0.001|TWO_SIDED|95.0|0.92|1.583||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.583|0.920|<0.001
82482096|NCT01933789|164657040|SUPERIORITY||Probit regression coefficient|1.381|||<|0.001|TWO_SIDED|95.0|1.046|1.715||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Bivariate model; there were no confounders.|Control group coded 0; intervention group coded 1.|||1.715|1.046|<0.001
82482097|NCT01933789|164657042|SUPERIORITY||Probit regression coefficient|0.334||||0.073|TWO_SIDED|95.0|-0.031|0.699||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the patient's treatment preference (focus on life extension vs. comfort care).|Control group coded 0; intervention group coded 1.|Occurrence of goal-concordant care||0.699|-0.031|0.073
82482098|NCT01933789|164657043|SUPERIORITY||Probit regression coefficient|0.481||||0.017|TWO_SIDED|95.0|0.085|0.877||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the patient's treatment preference (focus on life extension vs. comfort care).|Control group coded 0; intervention group coded 1.|||0.877|0.085|0.017
82554441|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.63||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.63
82554442|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.608||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.608
82482099|NCT01933789|164657044|SUPERIORITY||Probit regression coefficient|2.022||||0.01|TWO_SIDED|95.0|0.476|3.569||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for the latent variable as measured at baseline.|Control group coded 0; intervention group coded 1.|||3.569|0.476|0.010
82482100|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|2.209||||0.001|TWO_SIDED|95.0|0.939|3.479||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's feelings about getting sicker.~Variable with range 0-11, defined as censored from below because of strong floor effect."||3.479|0.939|0.001
82482101|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|1.237||||0.122|TWO_SIDED|95.0|-0.33|2.804||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about details of getting sicker.~Variable with range 0-11, defined as censored from below because of strong floor effect."||2.804|-0.330|0.122
82482102|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|2.329||||0.098|TWO_SIDED|95.0|-0.426|5.083||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline and clinician specialty.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about how long the patient might have to live.~Variable with range 0-11, defined as censored from below because of strong floor effect."||5.083|-0.426|0.098
82482103|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|1.573||||0.352|TWO_SIDED|95.0|-1.742|4.887||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Pts clustered under clins. Adjusted for outcome variable as measured at baseline: pt. minority status, education, income; clinician type \& specialty.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about what dying might be like.~Variable with range 0-11, defined as censored from below because of strong floor effect."||4.887|-1.742|0.352
82482104|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|4.625|||<|0.001|TWO_SIDED|95.0|2.06|7.19||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's involvement in end-of-life treatment decisions.~Variable with range 0-11, defined as censored from below because of strong floor effect."||7.190|2.060|<0.001
82482105|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|2.404||||0.002|TWO_SIDED|95.0|0.898|3.909||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about things in life that are important to the patient.~Variable with range 0-11, defined as censored from below because of strong floor effect."||3.909|0.898|0.002
82482106|NCT01933789|164657045|SUPERIORITY||Tobit regression coefficient|2.455||||0.075|TWO_SIDED|95.0|-0.25|5.159||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Patients clustered under clinicians. Adjusted for the outcome variable as measured at baseline and clinician type.|Control group coded 0; intervention group coded 1.|"Patient rating of clinician's quality of communication about patient's religious/spiritual beliefs.~Variable with range 0-11, defined as censored from below because of strong floor effect."||5.159|-0.250|0.075
82482107|NCT01933789|164657046|SUPERIORITY||Probit regression coefficient|-0.103||||0.369|TWO_SIDED|95.0|-0.327|0.122||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent depression variable and for the patient racial/ethnic minority status.|Control group coded 0; intervention group coded 1.|Symptoms of depression - Two-indicator latent variable with measurement invariance imposed between groups and over time.||0.122|-0.327|0.369
82651389|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.65|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||Triglycerides, Month 12||||<0.001
82482108|NCT01933789|164657047|SUPERIORITY||Probit regression coefficient|0.263||||0.536|TWO_SIDED|95.0|-0.571|1.097||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered robust linear regression|Patients clustered under clinicians. Adjusted for baseline level of the PHQ-8 composite score.|Control group coded 0; intervention group coded 1.|Symptoms of depression: standard PHQ-8 composite score.||1.097|-0.571|0.536
82482109|NCT01933789|164657048|SUPERIORITY||Probit regression coefficient|0.208||||0.106|TWO_SIDED|95.0|-0.044|0.461||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Pts clustered under clins. Adjusted for baseline level of the latent depression var; pt age, minority status, education, health status; clin specialty|Control group coded 0; intervention group coded 1.|Symptoms of depression: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.461|-0.044|0.106
82482110|NCT01933789|164657049|SUPERIORITY||Probit regression coefficient|0.446||||0.343|TWO_SIDED|95.0|-0.476|1.368||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered robust linear regression|Patients clustered under clinicians. Adjusted for baseline level of the PHQ-8 composite score and clinician specialty.|Control group coded 0; intervention group coded 1.|Symptoms of depression: Standard PHQ-8 composite score||1.368|-0.476|0.343
82482111|NCT01933789|164657050|SUPERIORITY||Probit regression coefficient|-0.034||||0.734|TWO_SIDED|95.0|-0.232|0.163||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent anxiety variable.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.163|-0.232|0.734
82482112|NCT01933789|164657051|SUPERIORITY||Tobit regression coefficient|0.041||||0.935|TWO_SIDED|95.0|-0.946|1.028||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered Tobit regression|Pts clustered under clins. Clustered Tobit regression because strong floor effect on composite score. Adjusted for baseline level of composite score.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Standard GAD-7 composite score||1.028|-0.946|0.935
82482113|NCT01933789|164657052|SUPERIORITY||Probit regression coefficient|-0.042||||0.689|TWO_SIDED|95.0|-0.247|0.163||No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.|Clustered probit regression|Patients clustered under clinicians. Adjusted for baseline level of the latent anxiety variable.|Control group coded 0; intervention group coded 1.|Symptoms of anxiety: Two-indicator latent variable with measurement invariance imposed between groups and over time||0.163|-0.247|0.689
82482114|NCT01933789|164657053|SUPERIORITY||Tobit regression coefficient|-0.105||||0.852|TWO_SIDED|95.0|-1.204|0.995||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians. Clustered Tobit regression because of strong floor effect on composite score."|Clustered Tobit regression|Adjusted for baseline level of the GAD-7 composite score.|Control group coded 0; intervention group coded 1.|||0.995|-1.204|0.852
82482115|NCT01933789|164657054|SUPERIORITY||probit regression coefficient|-0.221||||0.418|TWO_SIDED|95.0|-0.923|0.482||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|Adjusted for confounding by patient race and health status and by clinician type and specialty|Control group coded 0; intervention group coded 1.|||0.482|-0.923|0.418
82482116|NCT01933789|164657055|SUPERIORITY||probit regression coefficient|0.175||||0.568|TWO_SIDED|95.0|-0.613|0.962||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.962|-0.613|0.568
82482117|NCT01933789|164657056|SUPERIORITY||probit regression coefficient|0.14||||0.592|TWO_SIDED|95.0|-0.534|0.815||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||0.815|-0.534|0.592
82482118|NCT01933789|164657059|SUPERIORITY||probit regression coefficient|-0.179||||0.705|TWO_SIDED|95.0|-1.398|1.04||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||1.040|-1.398|0.705
82482119|NCT01933789|164657060|SUPERIORITY||probit regression coefficient|0.123||||0.644|TWO_SIDED|95.0|-0.56|0.805||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment|Control group coded 0; intervention group coded 1.|||0.805|-0.560|0.644
82581614|NCT00728910|164874824|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis was that the sequential addition of a fibrate and niacin to baseline atorvastatin therapy would not have any effect on apo-AI catabolism.||||>0.5
82482120|NCT01933789|164657061|SUPERIORITY||probit regression coefficient|-0.165||||0.908|TWO_SIDED|95.0|-3.833|3.503||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|Adjusted for confounding by patient education and health status and by clinician gender.|Control group coded 0; intervention group coded 1.|||3.503|-3.833|0.908
82482121|NCT01933789|164657062|SUPERIORITY||probit regression coefficient|-0.121||||0.552|TWO_SIDED|95.0|-0.646|0.403||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.403|-0.646|0.552
82581615|NCT00728910|164874825|SUPERIORITY_OR_OTHER||||||>|0.5|TWO_SIDED||||||Mixed Models Analysis|||The null hypothesis was that sequential addition of fibrate and niacin to baseline atorvastatin therapy would have no effect on apo-A1 production rates||||>0.5
82581616|NCT00728910|164874826|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Mixed Models Analysis|||Null hypothesis was that sequential addition of fibrate and niacin to baseline atorvastatin therapy would have no effect on post-prandial triglyceride levels following an oral fat load||||<0.0005
82482122|NCT01933789|164657063|SUPERIORITY||probit regression coefficient|-0.293||||0.372|TWO_SIDED|95.0|-1.139|0.553||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.553|-1.139|0.372
82554443|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.244||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.244
82554444|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.052||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.052
82554445|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.229||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.229
82554446|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.184||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.184
82581617|NCT00728910|164874826|SUPERIORITY_OR_OTHER||||||<|0.0005|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0005
82586109|NCT02254278|164884164|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.58|TWO_SIDED|95.0|0.4|5.08|||Log Rank|Two-sided significance level = 0.05|Reference level = IMRT 5 weeks|||5.08|0.4|0.58
82651390|NCT00895583|165017542|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.37|STANDARD_ERROR_OF_MEAN|0.16||0.028|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||Triglycerides, Month 24||||0.028
82482123|NCT01933789|164657064|SUPERIORITY||probit regression coefficient|-0.13||||0.501|TWO_SIDED|95.0|-0.63|0.369||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.369|-0.630|0.501
82651391|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.429|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Baseline||||0.429
82482124|NCT01933789|164657065|SUPERIORITY||probit regression coefficient|-0.39||||0.192|TWO_SIDED|95.0|-1.16|0.38||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.380|-1.160|0.192
82482125|NCT01933789|164657066|SUPERIORITY||probit regression coefficient|-0.014||||0.94|TWO_SIDED|95.0|-0.489|0.461||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.461|-0.489|0.940
82586110|NCT02254278|164884165|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.93|TWO_SIDED|95.0|0.31|2.95||Two-side significance level = 0.05|Log Rank||Reference level = IMRT 5 weeks|||2.95|0.31|0.93
82586111|NCT02254278|164884166|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|Two-sided significance level = 0.05||End of RT||||<0.0001
82651392|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.326|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Month 12||||0.326
82651393|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.517|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Anti-hypertensives, Month 24||||0.517
82651394|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agents (insulin), Baseline||||1.000
82482126|NCT01933789|164657067|SUPERIORITY||probit regression coefficient|-0.229||||0.47|TWO_SIDED|95.0|-1.044|0.587||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.587|-1.044|0.470
82482127|NCT01933789|164657068|SUPERIORITY||probit regression coefficient|-0.01||||0.955|TWO_SIDED|95.0|-0.474|0.454||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.454|-0.474|0.955
82482128|NCT01933789|164657069|SUPERIORITY||probit regression coefficient|-0.287||||0.303|TWO_SIDED|95.0|-1.005|0.431||"No adjustment for multiple tests. A priori threshold of 0.05 for statistical significance.~Patients clustered under clinicians."|clustered probit regression|No covariate adjustment.|Control group coded 0; intervention group coded 1.|||0.431|-1.005|0.303
82482129|NCT02815280|164657115|SUPERIORITY||Mean Difference (Final Values)|3.15|STANDARD_ERROR_OF_MEAN|1.12||0.0051|TWO_SIDED|95.0|0.95|5.35|||ANCOVA|||Change from baseline in inflammatory lesion count was analyzed using an analysis of covariance (ANCOVA) model, which included treatment, baseline inflammatory lesion count and pooled investigational site as a blocking factor.||5.35|0.95|0.0051
82482130|NCT02815280|164657116|SUPERIORITY|P-value is for the null hypothesis that the combined log (Risk Ratio) equals 0.|Risk ratio|1.88|STANDARD_ERROR_OF_MEAN|0.31||0.0424|TWO_SIDED|95.0|1.02|3.46|||Mantel Haenszel|||||3.46|1.02|0.0424
82482131|NCT02815280|164657117|SUPERIORITY||Mean Difference (Final Values)|12.84|STANDARD_ERROR_OF_MEAN|5.3||0.0155|TWO_SIDED|95.0|2.44|23.23||Percent change from baseline was analyzed using an ANCOVA model, which included treatment, baseline non-inflammatory lesion counts and pooled investigational site as a blocking factor. For the superiority comparison between FMX101 4% and vehicle.|ANCOVA|||||23.23|2.44|0.0155
82482132|NCT02815280|164657118|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 6 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.89|STANDARD_ERROR_OF_MEAN|1.03||0.0001|TWO_SIDED|95.0|1.88|5.9|||ANCOVA|||||5.90|1.88|0.0001
82482133|NCT02815280|164657118|SUPERIORITY|Change from baseline in inflammatory lesion count for Week 9 was analyzed using an ANCOVA model, which included treatment, baseline inflammatory lesion counts and pooled investigational site as a blocking factor.|Mean Difference (Final Values)|3.78|STANDARD_ERROR_OF_MEAN|1.11||0.0007|TWO_SIDED|95.0|1.6|5.95|||ANCOVA|||||5.95|1.60|0.0007
82482134|NCT02815280|164657119|SUPERIORITY|P-value is for the null hypothesis that the combined log (Risk Ratio) equals 0. Percentage of participants achieving IGA treatment success at Week 6.|Risk Difference (RD)|3.87|STANDARD_ERROR_OF_MEAN|1.44||0.0071|TWO_SIDED|95.0|1.06|6.69|||Cochran-Mantel-Haenszel|||||6.69|1.06|0.0071
82581618|NCT00432666|164874829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.97|STANDARD_ERROR_OF_MEAN|1.49|<|0.001|TWO_SIDED|95.0|1.9|8.3|||Regression, Logistic|||The null hypothesis was equality of the chance (OR = 1) for a clinically relevant treatment effect between incobotulinumtoxinA (Xeomin) and placebo at Week 4 for wrist flexors. Responders were defined as subjects with an improvement of at least 1 point in the Ashworth score compared with Baseline. The dependent variable was the response to treatment, the independent variables were treatment, Ashworth score at the Baseline Visit, pre-treated patient status, gender, age, BMI, and pooled sites.||8.30|1.90|<0.001
82482135|NCT02815280|164657119|SUPERIORITY||Risk Difference (RD)|1.64|STANDARD_ERROR_OF_MEAN|2.52||0.5143|TWO_SIDED|95.0|-3.3|6.58|||Cochran-Mantel-Haenszel|||||6.58|-3.30|0.5143
82482136|NCT03935399|164657133|SUPERIORITY|Exploratory analysis without power calculation||||||0.83|||||||ANOVA|Repeated measures one factor ANOVA||Exploratory analysis without power calculation||||0.83
82482137|NCT03935399|164657134|SUPERIORITY|Exploratory analysis without power calculation||||||0.92|||||||ANOVA|One factor repeated measures ANOVA||Exploratory analysis without power calculation||||0.92
82482138|NCT03935399|164657135|SUPERIORITY|Exploratory analysis without power calculation||||||0.79|||||||ANOVA|One factor repeated measures ANOVA||Exploratory analysis without power calculation||||0.79
82482139|NCT03935399|164657136|SUPERIORITY|Exploratory analysis without power calculation||||||0.93||||||Exploratory analysis without power calculation|ANOVA|One factor repeated measures ANOVA||||||0.93
82482140|NCT03935399|164657137|SUPERIORITY|Exploratory analysis without power calculation||||||0.89||||||Exploratory analysis without power calculation|ANOVA|Two factor repeated measures ANOVA||||||0.89
82482141|NCT03935399|164657138|SUPERIORITY|Exploratory analysis without power calculation||||||0.83||||||Exploratory analysis without power calculation|ANOVA|Two way repeated measures ANOVA||||||0.83
82482142|NCT03935399|164657139|SUPERIORITY|Exploratory analysis without power caclulation||||||0.57||||||Exploratory analysis without power caclulation|ANOVA|Two way repeated measures ANOVA||||||0.57
82482143|NCT02106923|164657140|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.98|STANDARD_ERROR_OF_MEAN|1.014|<|0.0001|TWO_SIDED|90.0|100.505|105.514|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||105.514|100.505|<0.0001
82482144|NCT02106923|164657140|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|100.25|STANDARD_ERROR_OF_MEAN|1.021|<|0.0001|TWO_SIDED|90.0|96.809|103.823|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||103.823|96.809|<0.0001
82482145|NCT02106923|164657140|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.08|STANDARD_ERROR_OF_MEAN|1.016|<|0.0001|TWO_SIDED|90.0|93.507|98.721|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||98.721|93.507|<0.0001
82482146|NCT02106923|164657141|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.04|STANDARD_ERROR_OF_MEAN|1.06||0.0011|TWO_SIDED|90.0|92.3|112.81|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||112.81|92.30|0.0011
82482147|NCT02106923|164657141|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.93|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|90.0|95.45|102.53|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||102.53|95.45|<0.0001
82581619|NCT02233543|164874941|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2419|TWO_SIDED|95.0|-1.21|0.32|||Mixed Models Analysis|||||0.32|-1.21|0.2419
82482148|NCT02106923|164657141|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|101.7|STANDARD_ERROR_OF_MEAN|1.05||0.0002|TWO_SIDED|90.0|93.59|110.52|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||110.52|93.59|0.0002
82482149|NCT02106923|164657142|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|102.88|STANDARD_ERROR_OF_MEAN|1.014|<|0.0001|TWO_SIDED|90.0|100.446|105.373|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||105.373|100.446|<0.0001
82554447|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.148||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.148
82554448|NCT06946888|164814624|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.143||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.143
82554449|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.333||||||This is the first week of tracking. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.333
82554450|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.273||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.273
82581620|NCT02233543|164874942|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.79||||0.2016|TWO_SIDED|95.0|-4.51|20.08|||Mixed Models Analysis|||||20.08|-4.51|0.2016
82586112|NCT02254278|164884166|SUPERIORITY|||||||0.17|||||||Fisher Exact|Two-sided significance level = 0.05||One month after end of RT||||0.17
82482150|NCT02106923|164657142|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|100.03|STANDARD_ERROR_OF_MEAN|1.021|<|0.0001|TWO_SIDED|90.0|96.448|103.738|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||103.738|96.448|<0.0001
82586113|NCT02254278|164884166|SUPERIORITY|||||||0.16|||||||Fisher Exact|Two-side significance level = 0.05||Six months after end of RT||||0.16
82586114|NCT02254278|164884166|SUPERIORITY|||||||0.26|||||||Fisher Exact|Two-side significance level = 0.05||One year after end of RT||||0.26
82586115|NCT02254278|164884166|SUPERIORITY|||||||0.82|||||||Fisher Exact|Two-side significance level = 0.05||Two years after the end of RT||||0.82
82651395|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (insulin), Month 12||||1.000
82482151|NCT02106923|164657142|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.49|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|93.758|99.311|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||99.311|93.758|<0.0001
82482152|NCT02106923|164657143|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|104.83|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.522|110.412|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||110.412|99.522|<0.0001
82651396|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.223|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (insulin), Month 24||||0.223
82651397|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.498|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Baseline||||0.498
82482153|NCT02106923|164657143|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|101.84|STANDARD_ERROR_OF_MEAN|1.041|<|0.0001|TWO_SIDED|90.0|95.03|109.134|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||109.134|95.030|<0.0001
82482154|NCT02106923|164657143|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|96.03|STANDARD_ERROR_OF_MEAN|1.037|<|0.0001|TWO_SIDED|90.0|90.217|102.211|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||102.211|90.217|<0.0001
82482155|NCT02106923|164657144|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.94|STANDARD_DEVIATION|1.071||0.0027|TWO_SIDED|90.0|87.925|111.329|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||111.329|87.925|0.0027
82482156|NCT02106923|164657144|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|108.18|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|102.792|113.859|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||113.859|102.792|<0.0001
82482157|NCT02106923|164657144|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|103.62|STANDARD_ERROR_OF_MEAN|1.071||0.006|TWO_SIDED|90.0|92.116|116.559|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||116.559|92.116|0.0060
82482158|NCT02106923|164657145|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.33|STANDARD_ERROR_OF_MEAN|1.06||0.0008|TWO_SIDED|90.0|89.13|108.47|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fasted) divided by Empa/1000 mg Glumetza® (Fasted)|||108.47|89.13|0.0008
82482159|NCT02106923|164657145|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|98.71|STANDARD_ERROR_OF_MEAN|1.02|<|0.0001|TWO_SIDED|90.0|94.77|102.8|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1000 mg Met FDC (Fed) divided by Empa/1000 mg Glumetza ® (Fed)|||102.80|94.77|<0.0001
82482160|NCT02106923|164657145|NON_INFERIORITY_OR_EQUIVALENCE|Model includes effects for sequence, subjects within sequences, period and treatment.|Adjusted geometric mean ratio (%)|103.9|STANDARD_ERROR_OF_MEAN|1.06||0.0021|TWO_SIDED|90.0|94.09|114.74|||ANOVA|P-value for ratio outside interval 80%-125%|Ratio calculated as Empa/ 1500 mg Met FDC (Fasted) divided by Empa/ 1500 mg Glumetza® (Fasted)|||114.74|94.09|0.0021
82482161|NCT03485495|164657146|SUPERIORITY|||||||0.007||||||A priori threshold for statistical significance is split evenly between primary and secondary endpoints. α=0.025.|t-test, 2 sided|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.007
82482162|NCT03485495|164657147|SUPERIORITY|||||||0.0272||||||A priori threshold for statistical significance is split evenly between primary and secondary endpoints. α=0.025.|Fisher Exact|||||||0.0272
82482163|NCT03485495|164657148|SUPERIORITY|||||||0.8762|||||||t-test, 2 sided|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.8762
82482164|NCT03485495|164657149|SUPERIORITY|||||||0.2082|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 12 weeks row.||||0.2082
82482165|NCT03485495|164657150|SUPERIORITY|||||||0.0038||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO-3 data.||||0.0038
82482166|NCT03485495|164657150|SUPERIORITY|||||||0.0018||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO-2 data.||||0.0018
82482167|NCT03485495|164657150|SUPERIORITY|||||||0.46||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to NO data.||||0.46
82482168|NCT03485495|164657151|SUPERIORITY|||||||0.88||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to ADP-PA data.||||0.88
82651398|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.566|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Month 12||||0.566
82482169|NCT03485495|164657151|SUPERIORITY|||||||0.93||||||"The p-value associated with treatment\*visit interaction between Divaza and Placebo treatment groups. Model includes cuff test status, treatment, visit and treatment\*visit interaction."|Mixed Models Analysis|||This analysis applies to ADR-PA data.||||0.93
82482170|NCT03102190|164657176|OTHER||||||||||||||||||The analysis of the safety endpoints will be presented with means and standard deviations of their occurrence within the study population. The safety of the drug will be determined by analyzing the rate of adverse events in both phases of the trial. An occurrence of 10% within the study population will be considered significant.|||
82482171|NCT00402233|164657191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|||<|0.0001||95.0|-6.53|-2.26|||ANCOVA|||||-2.26|-6.53|<0.0001
82482172|NCT00402233|164657191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.41|||<|0.0001||95.0|-6.54|-2.28|||ANCOVA|||||-2.28|-6.54|<0.0001
82482173|NCT00402233|164657191|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.72|||<|0.0001||95.0|-6.91|-2.52|||ANCOVA|||||-2.52|-6.91|<0.0001
82482174|NCT00402233|164657192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.893||||||95.0|0.431|1.849|||Regression, Logistic|||||1.849|0.431|
82482175|NCT00402233|164657192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.885||||||95.0|0.424|1.845|||Regression, Logistic|||||1.845|0.424|
82482176|NCT00402233|164657192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.687||||||95.0|0.317|1.492|||Regression, Logistic|||||1.492|0.317|
82482177|NCT00402233|164657193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.14||||0.014||95.0|0.23|2.04|||ANCOVA|||||2.04|0.23|0.014
82651399|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.423|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Diabetes agent (non-insulin), Month 24||||0.423
82482178|NCT00402233|164657193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.03||95.0|0.094|1.9|||ANCOVA|||||1.9|0.094|0.03
82482179|NCT00402233|164657193|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49||||0.0019||95.0|0.56|2.43|||ANCOVA|||||2.43|0.56|0.0019
82482180|NCT00402233|164657194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.39||95.0|-1.82|0.71|||ANCOVA|||||0.71|-1.82|0.39
82482181|NCT00402233|164657194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.37||95.0|-1.84|0.69|||ANCOVA|||||0.69|-1.84|0.37
82482182|NCT00402233|164657194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.48||95.0|-1.78|0.84|||ANCOVA|||||0.84|-1.78|0.48
82482183|NCT00481507|164657203|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.82|||>|0.05|TWO_SIDED|95.0|0.54|1.43||Reply: Only one test was performed for the primary outcome. No covariates were entered into this model and p-value is unadjusted.|Chi-squared|The results obtained from the logistic regression are equivalent to the chi-square test with one degree of freedom.||Reply: The null hypothesis was the rates of diarrhea for Kefir vs. Placebo are not different. Post power calculation was not performed because the difference observed (21.9% vs. 18%) was less than a difference that which would be considered clinically important.||1.43|0.54|>.05
82482184|NCT02889562|164657226|OTHER|Pearson chi-squared tests or Fisher exact tests||||||1|||||||Chi-squared|||||||1.0
82482185|NCT02889562|164657229|OTHER|t-test and Wilcoxon analysis||||||0.17|||||||t-test, 1 sided|||||||0.17
82482186|NCT01943474|164657231|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82482187|NCT01943474|164657232|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82482188|NCT01943474|164657233|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82482189|NCT01943474|164657234|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82482190|NCT01943474|164657235|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82482191|NCT01943474|164657238|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82482192|NCT01943474|164657239|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82482193|NCT02486718|164657251|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.848||||0.0683|TWO_SIDED|95.0|0.71|1.013|||Log Rank|||||1.013|0.710|0.0683
82482194|NCT02486718|164657252|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.691|0.998||||||||0.998|0.691|
82482195|NCT02486718|164657253|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.704|||||TWO_SIDED|95.0|0.545|0.91||||||||0.910|0.545|
82482196|NCT02486718|164657255|SUPERIORITY||Difference in event-free rates|5.98|||||TWO_SIDED|95.0|-0.28|12.23||||||||12.23|-0.28|
82482197|NCT02486718|164657256|SUPERIORITY||Difference in event-free rates|6.65|||||TWO_SIDED|95.0|-0.06|13.36||||||||13.36|-0.06|
82482198|NCT02486718|164657257|SUPERIORITY||Difference in event-free rates|10.67|||||TWO_SIDED|95.0|1.56|19.79||||||||19.79|1.56|
82482199|NCT02486718|164657258|SUPERIORITY||Difference in event-free rates|5.48|||||TWO_SIDED|95.0|-0.94|11.9||||||||11.90|-0.94|
82482200|NCT02486718|164657259|SUPERIORITY||Difference in event-free rates|4.88|||||TWO_SIDED|95.0|-1.94|11.7||||||||11.70|-1.94|
82482201|NCT02486718|164657260|SUPERIORITY||Difference in event-free rates|10.46|||||TWO_SIDED|95.0|1.16|19.76||||||||19.76|1.16|
82482202|NCT02486718|164657261|SUPERIORITY|Stratified Analysis|Hazard Ratio (HR)|0.503|||||TWO_SIDED|95.0|0.332|0.761||||||||0.761|0.332|
82482203|NCT00873873|164657266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||ANOVA|||Is there a difference in airway wall thickness among the 4 groups?||||0.2
82482204|NCT03123185|164657318|OTHER|No hypothesis was tested and no acceptance range was specified.|Geometric mean (gMean) ratio (%)|158.61|STANDARD_ERROR_OF_MEAN|22.4|||TWO_SIDED|90.0|133.679|188.195|||||gMean ratio = 10 mg BI 705564 fed/10 mg BI 705564 fast. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect subjects within sequences will be considered as random, the other effects as fixed."||188.195|133.679|
82482205|NCT03123185|164657319|OTHER|No hypothesis was tested and no acceptance range was specified.|gMean ratio (%)|194.18|STANDARD_ERROR_OF_MEAN|26.4|||TWO_SIDED|90.0|158.912|237.267|||||gMean ratio = 10 mg BI 705564 fed/10 mg BI 705564 fast. Standard Error of the mean is actually the intra-individual geometric coefficient variation.|"The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects nested within sequences', 'period' and 'treatment'. The effect subjects within sequences will be considered as random, the other effects as fixed."||237.267|158.912|
82482206|NCT03123185|164657320|OTHER||Slope|0.4879|STANDARD_ERROR_OF_MEAN|0.0546|||TWO_SIDED|95.0|0.3767|0.599|||||Based on the estimate for slope parameter, a 2-sided 95% Confidence Interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fasted condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.5990|0.3767|
82482207|NCT03123185|164657320|OTHER||Slope|0.7553|STANDARD_ERROR_OF_MEAN|0.0876|||TWO_SIDED|95.0|0.5736|0.937|||||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fed condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.9370|0.5736|
82482208|NCT03123185|164657321|OTHER||Slope|0.4651|STANDARD_ERROR_OF_MEAN|0.1274|||TWO_SIDED|95.0|0.1935|0.7368|||||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fasted condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.7368|0.1935|
82482209|NCT03123185|164657321|OTHER||Slope|0.6651|STANDARD_ERROR_OF_MEAN|0.1385|||TWO_SIDED|95.0|0.3679|0.9622|||Power model||Based on the estimate for slope parameter, a 2-sided 95% CI for the slope was computed. Standard error of the mean is actually standard error of slope. Perfect dose proportionality would correspond to a slope of 1.|The basic model for the investigation of dose proportionality for fed condition was a power model that describes the functional relationship between the dose and PK endpoints.||0.9622|0.3679|
82482210|NCT00718081|164657323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.48|STANDARD_ERROR_OF_MEAN|4.92|<|0.001|ONE_SIDED|95.0|||||ANCOVA|||||||<0.001
82554451|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.424||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.424
82554452|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.482||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.482
82581621|NCT03527173|164874943|NON_INFERIORITY|VE in reduction of shigellosis is demonstrated if lower limit (LL) of 90% CI of VE estimated with Miettinen-Nurminen (M-N) method is above 0. This estimated CI was complemented with Barnard test. The LL of the 90% CI for VE calculated with M-N method is above 0 if the p-value of the one-sided Barnard test is below 5%.|Vaccine efficacy rate|-9.4||||0.4266|TWO_SIDED|90.0|-96.7|33.7|||1-sided Barnard Unconditional Exact Test|||To demonstrate the efficacy of two vaccinations with 25 µg of S. sonnei vaccine in healthy adults compared to placebo in preventing shigellosis, fulfilling the protocol primary case definition, after challenge with S. sonnei 53G strain. Vaccine efficacy (VE) rate was assessed as 1-Risk Ratio(RR) with RR = ratio of proportion of subjects with shigellosis in the vaccinated group on the proportion of subjects with shigellosis in the placebo group.||33.7|-96.7|0.4266
82482211|NCT00718081|164657323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.62|STANDARD_ERROR_OF_MEAN|4.86|<|0.001|ONE_SIDED|95.0|||||ANCOVA|||||||<0.001
82482212|NCT05478174|164657356|NON_INFERIORITY|Non inferiority margin is -8%|Risk Difference (RD)|-0.0078|||<|0.001|TWO_SIDED|95.0|-0.0411|0.0255||P-Value for non inferiority test|Farrington-Manning method|||||0.0255|-0.0411|<0.001
82482213|NCT05478174|164657357|SUPERIORITY||Risk Difference (RD)|-0.0716||||0.171|TWO_SIDED|95.0|-0.1742|0.031|||Cochran-Mantel-Haenszel|||||0.0310|-0.1742|0.171
82482214|NCT05478174|164657358|SUPERIORITY||Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|0.231|<|0.001|TWO_SIDED|95.0|-2.22|-1.31|||ANOVA|||||-1.31|-2.22|<0.001
82482215|NCT01545843|164657359|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||Mixed Models Analysis|||||||.202
82482216|NCT01249118|164657373|SUPERIORITY_OR_OTHER||Ratio of LS Means|8.45|||||TWO_SIDED|90.0|7.08|10.08|||||The 90 percent (%) confidence intervals (CI) of test group (oral dose) means relative to reference group (IV dose) means were obtained by taking antilog of corresponding 90% CI for the differences between the means on the log scale.|Least squares (LS) mean was calculated from analysis of variance (ANOVA). Data for dose-normalized Cmax were natural log-transformed prior to analysis.||10.08|7.08|
82482217|NCT01249118|164657377|SUPERIORITY_OR_OTHER||Ratio of LS Means|48.6|||||TWO_SIDED|90.0|41.43|56.94|||||The 90% CI of the test group (oral dose) means relative to the reference group (IV dose) means were obtained by taking the antilog of the corresponding 90% CI for the differences between the means on the log scale.|LS means was calculated from ANOVA. Data for dose-normalized AUC (0 - t) were natural log-transformed prior to analysis.||56.94|41.43|
82482218|NCT01249118|164657379|SUPERIORITY_OR_OTHER||Ratio of LS Means|45.9|||||TWO_SIDED|90.0|39.74|53.06|||||The 90% CI of the test group (oral dose) means relative to the reference group (IV dose) means were obtained by taking the antilog of the corresponding 90% CI for the differences between the means on the log scale.|LS mean was calculated from ANOVA. Data for dose-normalized AUC (0 - ∞) were natural log-transformed prior to analysis.||53.06|39.74|
82581622|NCT01248780|164874967|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82581623|NCT01248780|164874968|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82482219|NCT01063712|164657409|SUPERIORITY_OR_OTHER||||||<|0.01|||||||percentage|||It is not a analysis of two groups. Only one group of patients was analyzed.||||<0.01
82482220|NCT01063712|164657410|SUPERIORITY_OR_OTHER||||||<|0.01|||||||percentage|The analysis was made on the basis of the percentage of patients with completely regressed dilation.||It is a one arm clinical study. No comparison between groups was made.||||<0.01
82482221|NCT05033002|164657441|SUPERIORITY||Slope|-0.41|||<|0.0001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||<.0001
82482222|NCT05033002|164657441|SUPERIORITY||Slope|0.002|||<|0.0001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||<.0001
82482223|NCT05033002|164657442|SUPERIORITY||Slope|0.06||||0.002|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||.002
82482224|NCT05033002|164657442|SUPERIORITY||Slope|-0.0003||||0.01|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.010
82581624|NCT01248780|164874969|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82581625|NCT01248780|164874970|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82651400|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Baseline||||0.033
82554453|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.627||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.627
82554454|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.806||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.806
82482225|NCT05033002|164657443|SUPERIORITY||Slope|0.05||||0.001|TWO_SIDED|||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.|||||.001
82554455|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.786||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.786
82554456|NCT06946888|164814625|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.497||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.497
82554457|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.857||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.857
82581626|NCT02480153|164874996|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval (CIs) calculated by the score statistic method were used for the inference of the equivalence for ACR20 at Week 12. Therapeutic equivalence could be established if the 2-sided 95% CI fell within (-14%, 14%). Non-responder imputation was applied. Comparisons between treatments were computed as PF-06410293 versus Adalimumab-EU.|Week 12 ACR20 response rate difference|-2.98|||||TWO_SIDED|95.0|-10.38|4.44||||||||4.44|-10.38|
82581627|NCT02480153|164874996|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval (CIs) calculated by the score statistic method were used for the inference of the equivalence for ACR20 at Week 12. Therapeutic equivalence could be established if 2-sided 90% CI fell within (-12%, 15%). Non-responder imputation was applied. Comparisons between treatments were computed as PF-06410293 versus Adalimumab-EU.|Week 12 ACR20 response rate difference|-2.98|||||TWO_SIDED|90.0|-9.25|3.28||||||||3.28|-9.25|
82651401|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Month 12||||0.900
82651402|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.802|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Lipid-lowering agents, Month 24||||0.802
82651403|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Baseline||||0.260
82482226|NCT05033002|164657443|SUPERIORITY||Slope|-0.0002||||0.032|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.032
82482227|NCT05033002|164657444|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.506|TWO_SIDED||||||t-test, 2 sided|||||||0.506
82482228|NCT05033002|164657445|SUPERIORITY|||||||0.441||||||The p-value is for the t-test of the coefficient of linear (TimeXGroup) trends.|Mixed Models Analysis|The estimated value is for the slope of linear (TimeXGroup) trends. Controlled for significant covariates.||||||.441
82482229|NCT05033002|164657445|SUPERIORITY||Slope|0.0002||||0.734|TWO_SIDED|||||The p-value is for the t-test of the coefficient of quadratic (TimeXTimeXGroup) trends.|Mixed Models Analysis||The estimated value is for the slope of quadratic (TimeXTimeXGroup) trends. Controlled for significant covariates.|||||.734
82482230|NCT05204381|164657446|OTHER|||||||0.783|||||||ANOVA|F-statistic is 0.077||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.783
82554458|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.684||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.684
82554459|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.333||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.333
82482231|NCT05204381|164657447|OTHER|||||||0.965|||||||ANOVA|F-statistic is 0.002||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.965
82482232|NCT05204381|164657448|OTHER|||||||0.089|||||||ANOVA|F-statistic is 3.046||Mixed-factors ANOVA for the interaction between stimulation frequency (theta or alpha) and synchrony (in-phase or anti-phase).||||0.089
82581628|NCT00107120|164875052|SUPERIORITY_OR_OTHER||Least Square Means Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.458||0.022||95.0|-6.2|-0.5||Two-sided at 5% level of significance p \< 0.05 considered significant|ANCOVA|The model included study center and treatment as factors and baseline core as covariate|Differences are Escitalopram-Placebo|The null hypothesis is that there is no difference in the Change from Baseline to Week 8 in CDRS-R total score between treatment groups. The power calculation was based on the change from baseline to Week 8 in CDRS-R total score (LOCF approach). Assuming an effect size (treatment group difference relative to standard deviation) of 0.325, a sample size of approximately 150 patients per treatment group was used to provide at least 80% power at a significance level of 0.05 using a two-sided test.||-0.5|-6.2|0.022
82581629|NCT00107120|164875053|SUPERIORITY_OR_OTHER||Least Square Means Difference|-0.344|STANDARD_ERROR_OF_MEAN|0.1128||0.008||95.0|-0.595|0.092||Two-sided at 5% level of significance|ANCOVA|The model included treatment and center as factors and baseline CGI-Severity score as covariate.|Differences are Escitalopram-Placebo|Missing values were imputed using the LOCF approach.||0.092|-0.595|0.008
82482233|NCT04972630|164657449|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0||||||||Baseline control vs. intervention||||
82482234|NCT04972630|164657449|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0||||||||Week 4 control vs. intervention||||
82482235|NCT04972630|164657449|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
82586116|NCT02254278|164884168|SUPERIORITY|||||||0.3|||||||binomial test|One-sided significance level = 0.10||Progression-free survival: The null hypothesis of negative predictive value ≤ 90% was tested against the alternative of \> 90% with a 1-sided binomial test at the 0.10 level.||||0.3
82482236|NCT04972630|164657449|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
82482237|NCT04972630|164657450|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||||||
82482238|NCT04972630|164657451|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0||||||||||||
82482239|NCT04972630|164657452|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-1.7|||||TWO_SIDED|95.0||||||||||||
82482240|NCT04972630|164657453|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0||||||||||||
82482241|NCT04972630|164657454|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0||||||||||||
82482242|NCT04972630|164657455|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|3.2|||||TWO_SIDED|95.0||||||||||||
82482243|NCT04972630|164657456|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-5.0|||||TWO_SIDED|95.0||||||||||||
82482244|NCT04972630|164657457|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-4.5|||||TWO_SIDED|95.0||||||||||||
82482245|NCT04972630|164657458|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-6.4|||||TWO_SIDED|95.0||||||||||||
82482246|NCT04972630|164657459|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-3.8|||||TWO_SIDED|95.0||||||||||||
82482247|NCT04972630|164657460|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-16.7|||||TWO_SIDED|95.0||||||||||||
82482248|NCT04972630|164657461|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||||||
82482249|NCT04972630|164657462|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0||||||||Baseline, control vs. intervention||||
82482250|NCT04972630|164657462|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|5.5|||||TWO_SIDED|95.0||||||||Week 4, control vs. intervention||||
82482251|NCT04972630|164657462|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
82554460|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.09||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.090
82554461|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.545||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.545
82554462|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.251||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.251
82554463|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.701||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.701
82581630|NCT00107120|164875054|SUPERIORITY_OR_OTHER||Least Square Means Difference|2.169|STANDARD_ERROR_OF_MEAN|1.324||0.103||95.0|-0.439|4.777||Two-sided at 5% level of significance|ANCOVA||Differences are Escitalopram-Placebo|ANCOVA on the Change from Baseline to Week 8 in CGAS score. The model included treatment and center as factors and baseline score as covariate. Missing values were imputed using the LOCF approach.||4.777|-0.439|0.103
82581631|NCT03241225|164875055|SUPERIORITY||Mean Difference (Final Values)|3.59||||0.16|TWO_SIDED|95.0|-1.43|8.61|||t-test, 2 sided||Mean change in EM/PROTECT group not significantly different from mean change in EM/MH group, at week 12.|Week 12||8.61|-1.43|0.16
82482252|NCT04972630|164657462|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|2.6|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
82482253|NCT04972630|164657463|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0||||||||Baseline, control vs. intervention||||
82482254|NCT04972630|164657463|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0||||||||Week 4, control vs. intervention||||
82482255|NCT04972630|164657463|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0||||||||Week 12, control vs. intervention||||
82482256|NCT04972630|164657463|OTHER|Comparison via 95% confidence interval|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0||||||||Week 24, control vs. intervention||||
82482257|NCT00246571|164657464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.203||||0.8885|TWO_SIDED|95.0|0.8889|1.628||One-sided log-rank test stratified for the number of prior chemotherapy regiments (1 versus more than 1), which is from the interactive voice response system (IVRS).|Log Rank|||For core radiology laboratory assessment||1.6280|0.8889|0.8885
82482258|NCT00246571|164657464|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1598||||0.8472|TWO_SIDED|95.0|0.8703|1.5457||One-sided log-rank test stratified for the number of prior chemotherapy regiments (1 versus more than 1), which is from IVRS.|Log Rank|||For investigator's assessment||1.5457|0.8703|0.8472
82482259|NCT00246571|164657465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.9624|TWO_SIDED|95.0|0.06|1.71||The stratified analysis was from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factor, the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Cochran-Mantel-Haenszel|||Core radiology laboratory assessment||1.71|0.06|0.9624
82482260|NCT00246571|164657465|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.814|TWO_SIDED|95.0|0.27|1.98||The stratified analysis was from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factor, the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Cochran-Mantel-Haenszel|||Investigator's assessment||1.98|0.27|0.8140
82482261|NCT00246571|164657468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1599||||0.8394|TWO_SIDED|95.0|0.8648|1.5558||One-sided log rank test stratified for the number of prior chemotherapy regimens (1 versus more than 1), which is from IVRS.|Log Rank||Hazard ratio for sunitinib versus standard of care.|||1.5558|0.8648|0.8394
82581632|NCT03241225|164875056|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.79|TWO_SIDED|95.0|-1.37|1.05|||t-test, 2 sided|||Domain #1, Week 12||1.05|-1.37|0.79
82482262|NCT02720094|164657493|SUPERIORITY||A bias-adjusted hazard ratio|0.34||||0.0005|TWO_SIDED|95.0|0.18|0.62|||Regression, Cox||The bias-adjusted hazard ratio, CI, and p-value account for the group-sequential trial design and the early stopping time.|||0.62|0.18|0.0005
82482263|NCT02720094|164657493|SUPERIORITY||Hazard Ratio (HR)|0.328||||0.0005|TWO_SIDED|95.0|0.18|0.61|||Regression, Cox||The unadjusted hazard ratio is based on a Cox proportional hazards model stratified by region.|||0.61|0.18|0.0005
82482264|NCT02720094|164657495|SUPERIORITY||Hazard Ratio (HR)|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.45||The P-Values are two-sided.|Regression, Cox|||The analysis population Injection Step 2 Efficacy consists of the subset of the mITT population who received at least one injection and had at least one HIV test result after the week 5 injection visit.||0.45|0.10|<0.001
82482265|NCT04711837|164657551|NON_INFERIORITY|Non-inferiority margin equals to -8%|Risk Difference (RD)|-0.0057|STANDARD_ERROR_OF_MEAN|0.0246|||TWO_SIDED|95.0|-0.054|0.042||Non-inferiority margin equals to -8%: 95% CI; (-5.4%, 4.2%)|Farrington-Manning method|||||0.042|-0.054|
82482266|NCT00814801|164657576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||0.0113|TWO_SIDED|95.0|-2.64|-0.34|||Least Square Means|||||-0.34|-2.64|0.0113
82482267|NCT00814801|164657576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59|||<|0.0001|TWO_SIDED|95.0|-3.74|-1.44|||Least Square Means|||||-1.44|-3.74|<0.0001
82482268|NCT00814801|164657578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.0774|TWO_SIDED|95.0|-0.2|3.7|||Least Square Means|||||3.7|-0.2|0.0774
82482269|NCT00814801|164657578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.6207|TWO_SIDED|95.0|-1.5|2.4|||Least Square Means|||||2.4|-1.5|0.6207
82482270|NCT00814801|164657579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.8419|TWO_SIDED|95.0|-0.6|0.8|||Least Square Means|||||0.8|-0.6|0.8419
82482271|NCT00814801|164657579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7942|TWO_SIDED|95.0|-0.8|0.6|||Least Square Means|||||0.6|-0.8|0.7942
82482272|NCT00814801|164657580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.3141|TWO_SIDED|95.0|-1.6|0.5|||Least Square Means|||||0.5|-1.6|0.3141
82482273|NCT00814801|164657580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.6089|TWO_SIDED|95.0|-1.3|0.8|||Least Square Means|||||0.8|-1.3|0.6089
82482274|NCT02216812|164657603|OTHER|||||||0.63|||||||Regression, Linear|||We tested the null hypothesis that there is no difference in DPC six weeks after fracture of the distal radius between patients taking vitamin C and placebo.||||0.63
82482275|NCT04035486|164657639|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.49|0.79|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.79|0.49|<0.0001
82482276|NCT04035486|164657640|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0002|TWO_SIDED|95.0|0.48|0.8|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.80|0.48|0.0002
82482277|NCT04035486|164657645|OTHER||Percentage of Participants|100.0|||||TWO_SIDED|95.0|88.43|100.0|||Clopper-Pearson|||A 95% CI was calculated on the percentage of participants with a Response or Stable Disease using the exact (Clopper-Pearson) method.||100.00|88.43|
82482278|NCT04035486|164657646|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5238|TWO_SIDED|95.0|0.65|1.24|||Log Rank||A hazard ratio of less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).|An adjusted CI of (0.54, 1.51) was computed at the 2-sided 99.84% level, considering a 2-sided significance level of 0.00158 for the overall survival interim analysis, based on the O'Brien and Fleming spending function, assuming 334 deaths for the final overall survival analysis.|1.24|0.65|0.5238
82482279|NCT04035486|164657648|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0261|TWO_SIDED|95.0|1.06|2.44|||Regression, Logistic||And odds ratio of greater than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a logistic regression stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||2.44|1.06|0.0261
82482280|NCT04035486|164657650|SUPERIORITY||Least Square Mean Difference|-3.36||||0.1067|TWO_SIDED|95.0|-7.44|0.72|||ANCOVA||A difference in least square means less than 0 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using analysis of covariance with baseline tumor size and time from baseline scan to randomization as covariates and with factors race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.72|-7.44|0.1067
82482281|NCT04035486|164657651|SUPERIORITY||Odds Ratio (OR)|1.33||||0.4483|TWO_SIDED|95.0|0.63|2.81|||Regression, Logistic||An odds ratio greater than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a logistic regression stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||2.81|0.63|0.4483
82482282|NCT04035486|164657652|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0132|TWO_SIDED|95.0|0.52|0.93|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.93|0.52|0.0132
82482283|NCT04035486|164657653|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0159|TWO_SIDED|95.0|0.56|0.94|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.94|0.56|0.0159
82581633|NCT03241225|164875056|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.19|TWO_SIDED|95.0|-0.7|3.46|||t-test, 2 sided|||Domain #2, Week 12||3.46|-0.70|0.19
82581634|NCT03241225|164875056|SUPERIORITY||Mean Difference (Final Values)|-4.53||||0.37|TWO_SIDED|95.0|-14.99|5.93|||t-test, 2 sided|||Domain #3, Week 12||5.93|-14.99|0.37
82581635|NCT03241225|164875056|SUPERIORITY||Mean Difference (Final Values)|-5.24||||0.026|TWO_SIDED|95.0|-9.75|-0.73|||t-test, 2 sided|||Domain #4, Week 12||-0.73|-9.75|0.026
82482284|NCT04035486|164657654|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0157|TWO_SIDED|95.0|0.51|0.93|||Log Rank||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|The analysis was performed using a log rank test stratified by race (Chinese/Asian vs. Non-Chinese/Asian vs. Non-Asian), WHO performance status (0 vs. 1), and method used for tissue testing (central vs. local).||0.93|0.51|0.0157
82482285|NCT04035486|164657661|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.44|0.83|||Cox proportional hazards model||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|Subgroup analysis was performed using a Cox proportional hazards model including treatment, subgroup and a treatment-by subgroup interaction term.||0.83|0.44|
82554464|NCT06946888|164814626|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.08||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.080
82554465|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.636||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.636
82554466|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.909||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.909
82554467|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.627||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.627
82554468|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.474||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.474
82554469|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.378||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.378
82581636|NCT03241225|164875056|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.66|TWO_SIDED|95.0|-3.51|2.27|||t-test, 2 sided|||Domain #5, Week 12||2.27|-3.51|0.66
82651404|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.086|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Month 12||||0.086
82482286|NCT04035486|164657662|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.44|0.9|||||A hazard ratio less than 1 favors the Osimertinib (AZD9291) + Chemo treatment arm.|Subgroup analysis was performed using a Cox proportional hazards model including treatment, subgroup and a treatment-by subgroup interaction term.||0.90|0.44|
82482287|NCT01730937|164657670|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0554|TWO_SIDED|90.0|0.59|1.01|||Log Rank||Reference arm = Sorafenib Alone|Original design: Hypothesized 28% reduction (HR=0.72) with SBRT (corresponds to median OS = 14.5 months). Assuming an exponential distribution and constant hazards, 292 patients were required to reach 238 OS events, with 80% statistical power, a 1-sided α of 0.05. Revised design (see limitations/caveats): For same above hypotheses, at least 155 OS events from 193 randomized patients provided 65% statistical power, with a 1-sided α of 0.05.||1.01|0.59|0.0554
82482288|NCT01730937|164657671|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.034|TWO_SIDED|95.0|0.48|0.99||Two-sided significance level = 0.05|Gray's test||Reference arm = Sorafenib Alone|||0.99|0.48|0.034
82482289|NCT01730937|164657672|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.0001|TWO_SIDED|95.0|0.4|0.75||Two-sided significance level=0.05|Log Rank||Reference arm = Sorafenib Alone|||0.75|0.40|0.0001
82482290|NCT03947684|164657677|OTHER|Generalized linear model (GLM) with log link function and exchangeable correlation structure.|||||>|0.05|||||||F-test|||Significance was accepted for p values \<0.05.||||>0.05
82482291|NCT03947684|164657678|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82482292|NCT03947684|164657678|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
82482293|NCT03947684|164657679|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82554470|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.768||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.768
82554471|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.909||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.909
82482294|NCT03947684|164657679|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
82581637|NCT03241225|164875057|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.14|TWO_SIDED|95.0|-0.26|1.66|||t-test, 2 sided|||Domain #1, Week 12||1.66|-0.26|0.14
82581638|NCT03241225|164875057|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.047|TWO_SIDED|95.0|0.011|1.55||Domain #2|t-test, 2 sided|||Domain #2, Week 12||1.55|0.011|0.047
82581639|NCT03241225|164875057|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.18|TWO_SIDED|95.0|-0.34|1.64|||t-test, 2 sided|||Domain #3, Week 12||1.64|-0.34|0.18
82581640|NCT00852540|164875058|SUPERIORITY_OR_OTHER||percentage of participants|56.9|||||TWO_SIDED|95.0|45.5|68.4|||||The estimated value is the percentage of participants achieving clinical response. Confidence intervals are not adjusted for multiplicity.|||68.4|45.5|
82482295|NCT03947684|164657680|OTHER|Repeated measures ANOVA|||||>|0.05|||||||F-test|||Significance was accepted for p values \<0.05.||||>0.05
82482296|NCT03947684|164657681|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data obtained during active pill phase.||||>0.05
82482297|NCT03947684|164657681|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data obtained during inactive pill phase.||||<0.05
82482298|NCT03947684|164657682|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82482299|NCT03947684|164657682|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
82482300|NCT03947684|164657683|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82482301|NCT03947684|164657683|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
82482302|NCT03947684|164657684|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82482303|NCT03947684|164657684|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||>0.05
82482304|NCT03947684|164657685|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during follicular phase.||||>0.05
82482305|NCT03947684|164657685|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during luteal phase.||||<0.05
82482306|NCT03947684|164657686|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
82482307|NCT03947684|164657686|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
82482308|NCT03947684|164657687|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
82482309|NCT03947684|164657687|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||<0.05
82482310|NCT03947684|164657688|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
82482311|NCT03947684|164657688|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||<0.05
82482312|NCT03947684|164657689|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
82482313|NCT03947684|164657689|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||>0.05
82554472|NCT06946888|164814627|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.449||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.449
82581641|NCT00852540|164875058|SUPERIORITY_OR_OTHER||Percentage of participants|84.2|||||TWO_SIDED|95.0|72.6|95.8|||||The estimated value is the percentage of participants achieving clinical response. Confidence intervals are not adjusted for multiplicity.|||95.8|72.6|
82482314|NCT03947684|164657691|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
82482315|NCT03947684|164657691|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||>0.05
82482316|NCT03947684|164657692|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from follicular phase.||||>0.05
82482317|NCT03947684|164657692|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained from luteal phase.||||<0.05
82482318|NCT03947684|164657693|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||>0.05
82482319|NCT03947684|164657693|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
82482320|NCT03947684|164657694|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
82482321|NCT03947684|164657694|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
82482322|NCT03947684|164657695|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
82482323|NCT03947684|164657695|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
82482324|NCT03947684|164657696|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||<|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during active pill phase.||||<0.05
82482325|NCT03947684|164657696|OTHER|Generalized estimating equation (GEE) with log link function and exchangeable correlation structure.|||||>|0.05|||||||Wald test|||Significance was accepted for p values \<0.05. Data is obtained during inactive pill phase.||||>0.05
82581642|NCT01639495|164875069|SUPERIORITY_OR_OTHER||Percentage of subjects|60.6|||||TWO_SIDED|95.0|51.9|68.8|||||The 2-sided 95% confidence intervals are based on exact binomial|||68.8|51.9|
82651405|NCT00895583|165017543|SUPERIORITY_OR_OTHER|||||||0.723|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||ESAs, Month 24||||0.723
82482326|NCT03875235|164657697|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.021|TWO_SIDED|97.0|0.64|0.99||The analysis was performed using a stratified log-rank test adjusting for disease status (initially unresectable versus recurrent) and primary tumor location (IHCC versus EHCC versus GBC), and tested at 0.03 significance level.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for disease status and primary tumor location.|The 2-sided significance level for OS at the second interim analysis was 3%.|95% CI 0.66 to 0.97|0.99|0.64|0.021
82482327|NCT03875235|164657700|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.001|TWO_SIDED|95.19|0.63|0.89||The p-value is based on a stratified log-rank test adjusting for disease status (initially unresectable versus recurrent) and primary tumor location (IHCC versus EHCC versus GBC), and tested at 0.0481 significance level.|Log Rank||The HR and CI were estimated from a stratified Cox proportional hazard model adjusting for disease status and primary tumor location.|The 2-sided significance level for PFS at the second interim analysis was 4.81%.|95% CI 0.63 to 0.89|0.89|0.63|0.001
82482328|NCT03875235|164657703|SUPERIORITY||Odds Ratio (OR)|1.6||||0.011|TWO_SIDED|95.0|1.11|2.31|||Cochran-Mantel-Haenszel||OR and CI were estimated from a stratified CMH test adjusting for disease status and primary tumor location.|||2.31|1.11|0.011
82554473|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.593||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.593
82554474|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.994||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.994
82554475|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.959||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.959
82482329|NCT02104739|164657718|SUPERIORITY|||||||0.27|||||||Non-parametric Wilcoxon paired rank sum|||Exenatide at baseline and 2 hours after ingestion of meal is compared.||||0.27
82554476|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.946||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.946
82554477|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.715||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.715
82581643|NCT01639495|164875071|SUPERIORITY_OR_OTHER||Percentage of subjects with primary AEs|17.4|||||TWO_SIDED|95.0|11.6|24.6|||||The 2-sided 95% confidence interval is exact binomial|||24.6|11.6|
82482330|NCT02104739|164657718|SUPERIORITY|||||||0.59|||||||Non-parametric Wilcoxon paired rank sum|||Saxagliptin at baseline and 2 hours after ingestion of meal is compared.||||0.59
82482331|NCT02104739|164657718|SUPERIORITY|||||||0.51|||||||Non-parametric Wilcoxon paired rank sum|||Placebo at baseline and 2 hours after ingestion of meal is compared.||||0.51
82482332|NCT02104739|164657718|SUPERIORITY|||||||0.31|||||||Non-parametric Wilcoxon paired rank sum|||Exenatide extended-release (ER) at baseline and 2 hours after ingestion of meal is compared.||||0.31
82482333|NCT02104739|164657720|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.02
82482334|NCT02104739|164657722|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (2 hours, 4 hours, 6 hours).||||<0.05
82554478|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.422||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.422
82554479|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.379||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.379
82554480|NCT06946888|164814628|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.302||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.302
82581644|NCT01639495|164875072|SUPERIORITY_OR_OTHER||Percentage of subjects|97.2|||||TWO_SIDED|95.0|95.6|98.2|||||The 2-sided 95% confidence intervals are exact binomial|||98.2|95.6|
82581645|NCT00435591|164875083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.23|||||TWO_SIDED|95.0|-0.37|0.83||||||"Aggregated data were used to determine differences between groups. Statistical analysis is relevant to the aggregated data of all rows except the no assessment row."||0.83|-0.37|
82581646|NCT00210470|164875100|EQUIVALENCE|The correlation of each of the above variables at biopsy/Day 1, surgery/Day 21, and change with percent change in the longest diameter (LD) of the primary tumor was calculated using Spearman rank correlations (183 correlations). Due to outliers in the distribution of percent change in the longest diameter, it was felt that the Spearman rank correlations would be more appropriate than Pearson correlations.|||||<|0.1|||||||Spearman Rank|||||||<0.10
82581647|NCT00686725|164875124|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||Log Rank|||||||0.183
82482335|NCT02104739|164657722|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (2 hours, 4 hours, 6 hours).||||<0.05
82482336|NCT02104739|164657724|SUPERIORITY|||||||0.018|||||||ANOVA|||||||0.018
82482337|NCT02104739|164657726|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (2 hours, 4 hours, 6 hours).||||<0.05
82482338|NCT02104739|164657726|SUPERIORITY||||||<|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (2 hours, 4 hours, 6 hours).||||<0.05
82581648|NCT00686725|164875125|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||Log Rank|||||||0.35
82581649|NCT00686725|164875128|SUPERIORITY_OR_OTHER|||||||0.648||95.0|||||Log Rank|||||||0.648
82482339|NCT02104739|164657728|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
82482340|NCT02104739|164657729|SUPERIORITY||||||>|0.05|||||||ANOVA|||The reported p-value compares exenatide and saxagliptin over all time points (3 hours, 6 hours).||||>0.05
82482341|NCT02104739|164657729|SUPERIORITY||||||>|0.05|||||||ANOVA|||The reported p-value compares exenatide and placebo over all time points (3 hours, 6 hours).||||>0.05
82482342|NCT05772702|164657732|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||t-test, 2 sided|||HDRS-17 change score were submitted to a t-test to estimate the group difference from 0 (i.e., no change in depression symptoms from D1 to FU2). Null hypothesis: D1 == FU2||||<0.0005
82482343|NCT05772702|164657733|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||t-test, 2 sided|||HDRS-17 change score were submitted to a t-test to estimate the group difference from 0 (i.e., no change in depression symptoms from D1 to D5). Note: D5 HDRS-17 were determined prior to receiving the final treatment on D5. Null hypothesis: D1 == D5||||<0.0005
82581650|NCT00686725|164875129|SUPERIORITY_OR_OTHER|||||||0.915||95.0|||||Log Rank|||||||0.915
82482344|NCT05772702|164657735|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||QIDS change score were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 QIDS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482345|NCT05772702|164657736|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||ASRM scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 ASRM surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82554481|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.913||||||This is the first week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 1.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.913
82554482|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.802||||||This is the second week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 2.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.802
82554483|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.605||||||This is the third week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 3.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.605
82554484|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.35||||||This is the fourth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 4.||Generalized Estimating Equations were used to analyze repeated measures data and to assess the interaction effect between group and time. Potential interfering factors such as age and years of work experience were controlled during the analysis, and the effect size (Cohen's d) and its 95% confidence interval were calculated to assist in interpreting the clinical significance. Statistical analysis was performed using SPSS version XX or R version XX, and the significance level was set at p \< 0.05.||||0.350
82554485|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||1||||||This is the fifth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 5.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||1.000
82554486|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.744||||||This is the sixth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 6.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.744
82554487|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.202||||||This is the seventh week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 7.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.202
82581651|NCT00092495|164875130|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82482346|NCT05772702|164657737|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||SHAPS scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 SHAPS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482347|NCT05772702|164657738|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 OVERALL scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482348|NCT05772702|164657738|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|This subscale did not require sphericity corrections.||DASS-42 DEPRESSION SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82581652|NCT00092495|164875130|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581653|NCT00092495|164875131|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82482349|NCT05772702|164657738|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 ANXIETY SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482350|NCT05772702|164657738|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||DASS-42 STRESS SUBSCORES were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 DASS-42 surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482351|NCT05772702|164657739|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.||||||0.021|||||||ANOVA|Mauchly's test of sphericity determined the sphericity assumption was violated, so Greenhouse-Geisser corrections were applied.||STAI scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 STAI surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||0.021
82482352|NCT05772702|164657740|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||QIDS scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 QIDS surveys were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU1 = FU2||||<0.0005
82482353|NCT05772702|164657741|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.|||||<|0.0005|||||||ANOVA|||CGI severity scores were submitted to a repeated measures ANOVA to measure change from baseline over time. Note: D5 CGI assessments were completed prior to receiving the final treatment on D5. Null hypothesis: D1 = D5 = FU2||||<0.0005
82482354|NCT05772702|164657741|OTHER|This was a single-arm, open-label trial. Reported statistics reflect changes from baseline levels.||||||0.006|||||||t-test, 2 sided|||CGI improvement scores were submitted to a paired t-test to measure difference between the improvement assessment on D5 and the assessment at FU2. Note: D5 CGI assessments were completed prior to receiving the final treatment on D5. Null hypothesis: D5 = FU2||||0.006
82482355|NCT04268823|164657750|SUPERIORITY||Least Squares mean|-0.203|STANDARD_ERROR_OF_MEAN|0.1938||0.298|TWO_SIDED|80.0|-0.524|0.119|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.119|-0.524|0.298
82482356|NCT04268823|164657751|SUPERIORITY||Least Squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.651|TWO_SIDED|80.0|-0.9|0.5|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.5|-0.9|0.651
82482357|NCT04268823|164657752|SUPERIORITY||Least Squares mean|-1.39|STANDARD_ERROR_OF_MEAN|1.29||0.288|TWO_SIDED|80.0|-3.55|0.78|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.78|-3.55|0.288
82482358|NCT04268823|164657753|SUPERIORITY||Least Squares mean|4.2|STANDARD_ERROR_OF_MEAN|4.336||0.338|TWO_SIDED|80.0|-3.09|11.48|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||11.48|-3.09|0.338
82482359|NCT04268823|164657754|SUPERIORITY||Least Squares mean|-0.82|STANDARD_ERROR_OF_MEAN|3.147||0.795|TWO_SIDED|80.0|-6.05|4.42|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Total score||4.42|-6.05|0.795
82482360|NCT04268823|164657754|SUPERIORITY||Least Squares mean|5.75|STANDARD_ERROR_OF_MEAN|4.155||0.17|TWO_SIDED|80.0|-1.16|12.66|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Symptoms score||12.66|-1.16|0.170
82482361|NCT04268823|164657754|SUPERIORITY||Least Squares mean|-0.61|STANDARD_ERROR_OF_MEAN|3.259||0.851|TWO_SIDED|80.0|-6.02|4.8|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Activity score||4.80|-6.02|0.851
82581654|NCT00092495|164875131|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581655|NCT00092495|164875132|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581656|NCT00092495|164875132|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82482362|NCT04268823|164657754|SUPERIORITY||Least Squares mean|-2.07|STANDARD_ERROR_OF_MEAN|4.035||0.61|TWO_SIDED|80.0|-8.78|4.65|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Impact score||4.65|-8.78|0.610
82482363|NCT04268823|164657755|SUPERIORITY||Least Squares mean|0.25|STANDARD_ERROR_OF_MEAN|4.557||0.956|TWO_SIDED|80.0|-7.3|7.8|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Cough symptom score||7.80|-7.30|0.956
82482364|NCT04268823|164657755|SUPERIORITY||Least Squares mean|4.22|STANDARD_ERROR_OF_MEAN|4.671||0.369|TWO_SIDED|80.0|-3.55|11.99|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Sputum symptom score||11.99|-3.55|0.369
82554488|NCT06946888|164814629|OTHER|A generalized estimating equation (GEE) model included group (intervention group vs. control group), week (categorical: 0-8), group × week interaction, and age as covariates. Robust (sandwich) standard errors were used. Regression coefficients (B), standard errors, Wald chi-squared statistics, 95% confidence intervals, and p-values for group × week comparisons are reported.||||||0.918||||||This is the eighth week of tracking data. A P value \< 0.05 indicated a statistically significant difference.|Generalized Estimating Equations, GEE|Repeated-measures GEE was used to examine the group × time interaction between week 0 and week 8.||Generalized estimating equations (GEE) were chosen over repeated-measures analysis of variance or generalized linear mixed models because they provide estimates of the population mean, are robust to correlated error specifications, can accommodate missing data under the MAR/MCAR assumptions, and do not require sphericity. All tests were two-tailed, with α = 0.05.||||0.918
82554489|NCT06262477|164814653|EQUIVALENCE|The natural log (ln)- transformed Cmax was analysed using analysis of covariance (ANCOVA) model, which included actual treatment \& body weight category (\<75 kilograms \[kg\], ≥75 kg) as factors. The ratio of geometric least square means (GLSM), and corresponding confidence interval (CI) was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.05|||||TWO_SIDED|90.3|0.974|1.13||||||||1.13|0.974|
82554490|NCT06262477|164814654|EQUIVALENCE|The natural log (ln)- transformed AUC0-inf was analyzed using ANCOVA model, which included actual treatment \& body weight category (\<75 kg, ≥75 kg) as factors. The ratio of GLSM, and corresponding CI was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.07|||||TWO_SIDED|90.3|0.988|1.15||||||||1.15|0.988|
82554491|NCT06262477|164814655|EQUIVALENCE|The natural log (ln)- transformed AUC0-t was analyzed using ANCOVA model, which included actual treatment \& body weight category (\<75 kg, ≥75 kg) as factors. The ratio of GLSM, and corresponding CI was obtained by taking the exponential of the differences in LSMs and corresponding CIs on the ln scale.|Ratio of GLSM|1.06|||||TWO_SIDED|90.3|0.985|1.15||||||||1.15|0.985|
82554492|NCT05507333|164814693|OTHER||Proportion of clinically cured patients|0.62|||||TWO_SIDED|95.0|0.4073|0.7909|||||"The proportion of clinically cured patients at Day 7-14 was calculated and presented together with a two-sided 95% CI based on the Wilson score for the proportion of Yes with continuity correction."|"It was assumed that the true clinical cure rate was 54% in the treatment group, therefore a sample size of 24 patients was needed to obtain 80% power to show that the one-sided 95% CI for the clinical cure rate was above 30%. A sample size of 26 was used to account for patients with missing data.~Hypotheses for the primary endpoint:~Null hypothesis: Clinical cure rate is less than or equal to 30%.~Alternative hypothesis (one-sided): Clinical cure rate is above 30%"||0.7909|0.4073|
82554493|NCT05507333|164814694|OTHER||Proportion with cont. clinical response|0.85|||||TWO_SIDED|95.0|0.5366|0.9729|||||"The proportion of participants with continued clinical response at Day 25 (Yes) was calculated and presented together with a two-sided 95% CI. The CI was based on the Wilson score for the proportion of Yes with a continuity correction."|||0.9729|0.5366|
82554494|NCT05507333|164814695|OTHER||Proportion with clin and mycol. cure|0.38|||||TWO_SIDED|95.0|0.2091|0.5927|||||"The proportion of participants with clinical and mycological cure at Day 7-14 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants with Yes with a continuity correction."|||0.5927|0.2091|
82554495|NCT05507333|164814696|OTHER||Proportion with mycological cure|0.54|||||TWO_SIDED|95.0|0.3375|0.7286|||||"The proportion of participants with mycological cure at Day 7-14 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants with Yes with a continuity correction."|||0.7286|0.3375|
82554496|NCT05507333|164814697|OTHER||Proportion with mycological cure|0.77|||||TWO_SIDED|95.0|0.4598|0.9384|||||"The proportion of participants with mycological cure at Day 25 (Yes) was calculated and presented with a 95% CI. The CI was based on the Wilson score for the proportion of participants recorded as Yes with a continuity correction."|||0.9384|0.4598|
82554497|NCT05507333|164814698|OTHER||Proportion with absence of Candida|0.58|||||TWO_SIDED|95.0|0.3719|0.7603|||||"The proportion of participants that did not show Candida hyphae in the wet smear (absence of/Yes) at Day 7-14 was calculated and presented together with a 95% CI based on the Wilson score for the proportion of Yes with a continuity correction."|||0.7603|0.3719|
82482365|NCT04268823|164657755|SUPERIORITY||Least Squares mean|2.03|STANDARD_ERROR_OF_MEAN|4.001||0.613|TWO_SIDED|80.0|-4.61|8.68|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Cough impact score||8.68|-4.61|0.613
82482366|NCT04268823|164657755|SUPERIORITY||Least Squares mean|0.94|STANDARD_ERROR_OF_MEAN|4.518||0.835|TWO_SIDED|80.0|-6.58|8.47|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|Sputum impact score||8.47|-6.58|0.835
82482367|NCT04268823|164657757|SUPERIORITY||Least Squares Mean|0.0|STANDARD_ERROR_OF_MEAN|0.04||0.335|TWO_SIDED|80.0|0.0|0.1|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.1|0.0|0.335
82482368|NCT04268823|164657758|SUPERIORITY||Least Squares mean|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.645|TWO_SIDED|80.0|-0.1|0.1|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||0.1|-0.1|0.645
82482369|NCT04268823|164657759|SUPERIORITY||Least Squares mean|2.1|STANDARD_ERROR_OF_MEAN|0.8||0.01|TWO_SIDED|80.0|0.8|3.4|||Mixed effects Model for Repeated Measure||Treatment difference (QBW251-placebo)|||3.4|0.8|0.010
82482370|NCT04251156|164657779|SUPERIORITY|Responses were analysed using an analysis of covariance model with randomized treatment and type 2 diabetes status as factors and baseline body weight as covariate.|Treatment difference|-8.47|||<|0.0001|TWO_SIDED|95.0|-10.17|-6.76|||ANCOVA|||Treatment policy estimand||-6.76|-10.17|<0.0001
82482371|NCT04251156|164657780|SUPERIORITY|Responses were analysed using a binary logistic regression model with randomized treatment and type 2 diabetes status as factors and baseline body weight as covariate.|Odds Ratio (OR)|13.07|||<|0.0001|TWO_SIDED|95.0|7.4|23.1|||Regression, Logistic|||Treatment policy estimand||23.10|7.40|<0.0001
82482372|NCT04214288|164657822|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0167||90.0|0.42|0.82|||Log Rank|The analysis was performed using a stratified Cox Proportional Hazards model.|A hazard ratio \< 1 favours AZD9833 to be associated with a longer progression-free survival than fulvestrant.|||0.82|0.42|0.0167
82482373|NCT04214288|164657822|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.009||90.0|0.46|0.89|||Log Rank|The analysis was performed using a stratified Cox Proportional Hazards model.|A hazard ratio \< 1 favours AZD9833 to be associated with a longer progression-free survival than fulvestrant.|||0.89|0.46|0.0090
82554498|NCT05507333|164814699|OTHER||Mean Difference (Net)|-4.5|STANDARD_DEVIATION|3.15|||TWO_SIDED|95.0|-5.77|-3.23|||||The mean change in the score for composite vulvovaginal signs and symptoms from Screening to Day 7-14 was calculated and presented together with a 95% CI.|||-3.23|-5.77|
82554499|NCT05507333|164814700|OTHER||Proportion with reduction CVVS score|0.88|||||TWO_SIDED|95.0|0.6872|0.9697|||||"The proportion of participants having a reduction in signs and symptoms (CVVS scores) on Day 7-14 vs. Screening was calculated and presented with a 95% CI based on the Wilson score for the prop. with Yes with a continuity correction."|||0.9697|0.6872|
82554500|NCT01880515|164814706|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.17|0.99||||||||0.99|0.17|
82554501|NCT01880515|164814709|SUPERIORITY|||||||0.41|||||||Log Rank|||||||0.41
82482374|NCT04214288|164657823|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4828||90.0|0.63|3.31|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||3.31|0.63|0.4828
82482375|NCT04214288|164657823|SUPERIORITY||Odds Ratio (OR)|1.57||||0.3691||90.0|0.69|3.67|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||3.67|0.69|0.3691
82482376|NCT04214288|164657827|SUPERIORITY||Odds Ratio (OR)|1.48||||0.2554|TWO_SIDED|90.0|0.84|2.64|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||2.64|0.84|0.2554
82482377|NCT04214288|164657827|SUPERIORITY||Odds Ratio (OR)|1.62||||0.1658||90.0|0.91|2.89|||Regression, Logistic|The analysis was performed using logistic regression model adjusting for prior use of CDK4/6 inhibitors and presence of lung and/or liver metastasis.|An odds ratio \> 1 favours AZD9833.|||2.89|0.91|0.1658
82482378|NCT03997383|164657834|SUPERIORITY||Median Difference (Net)|14.693||||0.0162|TWO_SIDED|95.0|0.693|28.692||P-value was determined by the Wilcoxon Rank Sum test,stratified by baseline tafamidis use.Analysis was performed on the 100 multiply-imputed datasets.|Wilcoxon Rank Sum Test||Median difference estimated by the Hodges-Lehmann method, stratified by baseline tafamidis use. Analysis was performed on the 100 multiply-imputed datasets.|||28.692|0.693|0.0162
82482379|NCT03997383|164657835|SUPERIORITY||Least squares (LS) mean difference|3.709|STANDARD_ERROR_OF_MEAN|1.796||0.0397|TWO_SIDED|95.0|0.176|7.242||P-value was analyzed using mixed model repeated measures (MMRM) as described in the Statistical analysis plan.|MMRM|||||7.242|0.176|0.0397
82482380|NCT03997383|164657836|SUPERIORITY||Stratified Win Ratio|1.27||||0.0574|TWO_SIDED|95.0|0.99|1.61|||Z-test|P-value was analyzed by a z-test using the mean and variance of the log-transformed win ratio estimate.||||1.61|0.99|0.0574
82482381|NCT03997383|164657837|SUPERIORITY||Hazard Ratio (HR)|0.997||||0.9888|TWO_SIDED|95.0|0.62|1.602|||Andersen-Gill||HR was derived using an Andersen-Gill model, including the treatment arm, type of ATTR amyloidosis, baseline New York Heart Association (NYHA) class, and age as covariates.|||1.602|0.620|0.9888
82482382|NCT03997383|164657838|SUPERIORITY||Hazard Ratio (HR)|0.883||||0.5609|TWO_SIDED|95.0|0.582|1.341|||Modified Andersen-Gill|P-value was derived using the modified Andersen-Gill model stratified by baseline tafamidis use.|HR was derived using the modified Andersen-Gill model stratified by baseline tafamidis use, including treatment arm, type of ATTR amyloidosis, baseline NYHA class, and age as covariates.|||1.341|0.582|0.5609
82482383|NCT00708201|164657868|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.773|||<|0.0001|TWO_SIDED|95.0|1.359|2.311|||Wald's Chi-Square|||||2.311|1.359|<0.0001
82482384|NCT00708201|164657869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.7|||<|0.001|TWO_SIDED|95.0|-37.8|-11.5|||Log Rank|||||-11.5|-37.8|<0.001
82482385|NCT00708201|164657870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.4|||<|0.001|TWO_SIDED|95.0|-35.0|-9.9|||Log Rank|||||-9.9|-35.0|<0.001
82482386|NCT00708201|164657871|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82482387|NCT00708201|164657872|SUPERIORITY_OR_OTHER||Relative Risk|1.38|||<|0.01|TWO_SIDED|95.0|1.12|1.71|||Fisher Exact||This is the relative risk for being a responder (alvimopan/placebo).|||1.71|1.12|<0.01
82554502|NCT05365958|164814710|SUPERIORITY||||||<|0.001|||||||Repeated Measures t-test of differences|||||||<.001
82554503|NCT05365958|164814711|SUPERIORITY||||||<|0.001|||||||Repeated Measures t-test of differences|||||||<.001
82554504|NCT05247034|164814715|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
82554505|NCT05247034|164814715|OTHER|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82554506|NCT05247034|164814715|OTHER|||||||0.0125|||||||Wilcoxon (Mann-Whitney)|||||||0.0125
82554507|NCT05247034|164814716|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||For 1 Hz||||>0.05
82554508|NCT05247034|164814716|OTHER||||||>|0.05|||||||t-test, 2 sided|||5 and 10 Hz||||>0.05
82554509|NCT05247034|164814716|OTHER||||||>|0.05|||||||t-test, 2 sided|||For 1, 5 and 10 Hz||||>0.05
82554510|NCT05247034|164814716|OTHER||||||>|0.05|||||||t-test, 2 sided|||For 1, 5 and 10 Hz||||>0.05
82554511|NCT05247034|164814717|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554512|NCT05247034|164814717|OTHER|||||||0.042|||||||Friedman|||||||0.042
82554513|NCT05247034|164814717|OTHER|||||||0.015|||||||Friedman|||||||0.015
82554514|NCT05247034|164814718|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
82554515|NCT05247034|164814718|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
82554516|NCT05247034|164814718|OTHER||||||>|0.05|||||||Z Test|||||||>0.05
82554517|NCT05247034|164814719|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82482388|NCT00708201|164657873|SUPERIORITY_OR_OTHER||Percent difference|-20.71|||<|0.001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for overall POM is presented.||||<0.001
82482389|NCT00708201|164657874|SUPERIORITY_OR_OTHER||Percent difference|27.05|||<|0.0001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for day of surgery (Day 0) through PSD 7 is presented.||||<0.0001
82482390|NCT00708201|164657875|SUPERIORITY_OR_OTHER||Percent difference|25.2|||<|0.0001|TWO_SIDED||||||Fisher Exact||Percent difference = alvimopan - placebo|Statistical analysis for day of surgery (Day 0) through PSD 7 is presented.||||<0.0001
82482391|NCT00708201|164657876|SUPERIORITY_OR_OTHER||Percent difference|-6.94||||0.0946|TWO_SIDED|95.0|-14.5|0.62|||Fisher Exact||Percent difference = alvimopan - placebo.|||0.62|-14.5|0.0946
82482392|NCT01857310|164657878|SUPERIORITY||Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-4.7|2.8|||||Adjusted for infertility treatment stratum and study site|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Live birth will be compared using two sided tests conducted at the 0.05 level."||2.8|-4.7|
82482393|NCT01857310|164657878|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.88|1.09|||||Adjusted for infertility treatment stratum and study site|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Live birth will be compared using two sided tests conducted at the 0.05 level."||1.09|0.88|
82482394|NCT01857310|164657879|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Semen volume will be compared using two sided tests conducted at the 0.05 level."||0.2|-0.2|
82482395|NCT01857310|164657879|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.1|0.2|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Semen volume will be compared using two sided tests conducted at the 0.05 level."||0.2|-0.1|
82482396|NCT01857310|164657880|SUPERIORITY||Mean Difference (Final Values)|-4.3|||||TWO_SIDED|95.1|-12.5|3.9|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm concentration represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||3.9|-12.5|
82482397|NCT01857310|164657880|SUPERIORITY||Mean Difference (Final Values)|-5.2|||||TWO_SIDED|95.1|-13.6|3.1|||||Weighted for loss to follow-up and adjusted for fertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm concentration represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||3.1|-13.6|
82482398|NCT01857310|164657881|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.1|-2.5|1.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm motility represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||1.5|-2.5|
82482399|NCT01857310|164657881|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.1|-2.7|1.4|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm motility represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||1.4|-2.7|
82482400|NCT01857310|164657882|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.1|-0.8|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm morphology represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||0.1|-0.8|
82482401|NCT01857310|164657882|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.1|-0.9|0.0|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. The confidence interval for sperm morphology represents 95.1% coverage to properly account for the alpha spent in the interim analysis."||0|-0.9|
82554518|NCT05247034|164814719|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554519|NCT05247034|164814719|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554520|NCT05247034|164814720|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
82554521|NCT05247034|164814720|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554522|NCT05247034|164814720|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554523|NCT05247034|164814721|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
82554524|NCT05247034|164814721|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554525|NCT05247034|164814721|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554526|NCT05247034|164814722|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
82554527|NCT05247034|164814722|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554528|NCT05247034|164814722|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554529|NCT05247034|164814723|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82482402|NCT01857310|164657883|SUPERIORITY||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|0.5|4.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. DNA fragmentation will be compared using two sided tests conducted at the 0.05 level."||4.4|0.5|
82482403|NCT01857310|164657883|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|0.3|4.3|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. DNA fragmentation will be compared using two sided tests conducted at the 0.05 level."||4.3|0.3|
82482404|NCT01857310|164657884|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-19.7|22.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Total motile sperm count will be compared using two sided tests conducted at the 0.05 level."||22.5|-19.7|
82482405|NCT01857310|164657884|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-20.9|21.4|||||Weighted for loss to follow-up and adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Total motile sperm count will be compared using two sided tests conducted at the 0.05 level."||21.4|-20.9|
82482406|NCT01857310|164657885|SUPERIORITY||Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-4.7|3.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. hCG detected pregnancy will be compared using two sided tests conducted at the 0.05 level."||3.0|-4.7|
82482407|NCT01857310|164657885|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.91|1.09|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. hCG detected pregnancy will be compared using two sided tests conducted at the 0.05 level."||1.09|0.91|
82482408|NCT01857310|164657886|SUPERIORITY||Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-4.9|2.8|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Clinical intrauterine pregnancy will be compared using two sided tests conducted at the 0.05 level."||2.8|-4.9|
82482409|NCT01857310|164657886|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.89|1.08|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Clinical intrauterine pregnancy will be compared using two sided tests conducted at the 0.05 level."||1.08|0.89|
82554530|NCT05247034|164814723|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554531|NCT05247034|164814723|OTHER||||||>|0.05|||||||Friedman|||||||>0.05
82554532|NCT05247034|164814724|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554533|NCT05247034|164814724|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82554534|NCT05247034|164814724|OTHER||||||>|0.05|||||||Friedman|||||||>0.05
82554535|NCT05247034|164814725|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82482410|NCT01857310|164657887|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.5|0.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Ectopic pregnancy will be compared using two sided tests conducted at the 0.05 level."||0.6|-0.5|
82554536|NCT05247034|164814725|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554537|NCT05247034|164814725|OTHER|||||||0.0027|||||||Wilcoxon (Mann-Whitney)|||||||0.0027
82554538|NCT05247034|164814726|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554539|NCT05247034|164814726|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554540|NCT05247034|164814726|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.0430
82554541|NCT05247034|164814727|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554542|NCT05247034|164814727|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554543|NCT05247034|164814727|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82554544|NCT05247034|164814728|OTHER||||||>|0.05|||||||t-test, 2 sided|||"Comparing row Change from baseline at Week 12"||||>0.05
82554545|NCT05247034|164814728|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82554546|NCT05247034|164814728|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554547|NCT05247034|164814729|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554548|NCT05247034|164814729|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554549|NCT05247034|164814729|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82554550|NCT05247034|164814730|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554551|NCT05247034|164814730|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554552|NCT05247034|164814730|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82554553|NCT05247034|164814731|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554554|NCT05247034|164814731|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554555|NCT05247034|164814731|OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82554556|NCT05247034|164814732|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||"Comparing row Change from baseline at Week 12"||||>0.05
82554557|NCT05247034|164814732|OTHER|||||||0.0007|||||||Wilcoxon (Mann-Whitney)|||||||0.0007
82554558|NCT05247034|164814732|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82554559|NCT05879991|164814744|OTHER||Ratio of adjusted geometric means [%]|76.18|||||TWO_SIDED|90.0|70.21|82.65|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.9|"Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale.~The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale."||82.65|70.21|
82554560|NCT05879991|164814749|OTHER||Ratio of adjusted geometric means [%]|26.1|||||TWO_SIDED|90.0|22.12|30.79|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 16.0|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale.||30.79|22.12|
82482411|NCT01857310|164657887|SUPERIORITY||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.37|3.97|||||Adjusted for fertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Ectopic pregnancy will be compared using two sided tests conducted at the 0.05 level."||3.97|0.37|
82482412|NCT01857310|164657888|SUPERIORITY||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-3.7|1.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Early pregnancy loss will be compared using two sided tests conducted at the 0.05 level."||1.5|-3.7|
82482413|NCT01857310|164657888|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.75|1.15|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Early pregnancy loss will be compared using two sided tests conducted at the 0.05 level."||1.15|0.75|
82482414|NCT01857310|164657889|SUPERIORITY||Risk Difference (RD)|-0.3|||||TWO_SIDED|95.0|-1.9|1.3|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preeclampsia/gestational hypertension will be compared using two sided tests conducted at the 0.05 level."||1.3|-1.9|
82554561|NCT05879991|164814750|OTHER||Ratio of adjusted geometric means [%]|76.99|||||TWO_SIDED|90.0|70.92|83.59|||||Ratio \[%\] = (adjusted geometric mean zongertinib / adjusted geometric mean \[14C\]zongertinib)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 7.9|Ratio of adjusted geometric means was calculated using an ANOVA model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included the effect 'subjects' as a random effect and 'treatment' as a fixed effect. These quantities were then back-transformed to the original scale.||83.59|70.92|
82554562|NCT04615273|164814770|SUPERIORITY||Estimate of Difference|-2.04|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-2.94|-1.14|||ANCOVA|||Analysis included treatment arm, region, baseline age group, gender, concomitant oral estrogen, Adult Growth Hormone Deficiency (AGHD) onset as factors \& baseline trunk percent fat as the covariates. Multiple imputation method was used to impute missing data.||-1.14|-2.94|<.0001
82554563|NCT03677141|164814774|SUPERIORITY||Difference in rates|-4.77|||||TWO_SIDED|95.0|-30.61|21.07||||||||21.07|-30.61|
82554564|NCT05465239|164814791|EQUIVALENCE|Equivalence analysis of metabolic energy consumption using the unpowered vs powered walker for control subjects.|||||<|0.001|||||||t-test, 1 sided|||||||< 0.001
82554565|NCT05465239|164814791|EQUIVALENCE|Equivalence analysis of metabolic energy consumption using the unpowered vs powered walker for subjects with walking disabilities.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82482415|NCT01857310|164657889|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.63|1.36|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preeclampsia/gestational hypertension will be compared using two sided tests conducted at the 0.05 level."||1.36|0.63|
82554566|NCT05423730|164814816|SUPERIORITY||Mean Difference (Final Values)|-11.12|||||TWO_SIDED|95.0|-49.75|57.2|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||57.20|-49.75|
82554567|NCT05423730|164814817|SUPERIORITY||Mean Difference (Final Values)|7.65|||||TWO_SIDED|95.0|-47.96|63.9|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||63.90|-47.96|
82554568|NCT05423730|164814818|SUPERIORITY||Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-1.95|0.67|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||0.67|-1.95|
82554569|NCT05423730|164814819|SUPERIORITY||Mean Difference (Final Values)|13.83|||||TWO_SIDED|95.0|-9.45|43.09|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||43.09|-9.45|
82554570|NCT05423730|164814820|SUPERIORITY||Mean Difference (Final Values)|11.42|||||TWO_SIDED|95.0|-3.31|28.4|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||28.40|-3.31|
82554571|NCT05423730|164814821|SUPERIORITY||Mean Difference (Final Values)|12.57|||||TWO_SIDED|95.0|-0.77|27.69|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||27.69|-0.77|
82554572|NCT05423730|164814822|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-21.92|21.24|||||Estimates represent percentage change in log-transformed hormone levels for wine versus grape juice from linear mixed models including participant as a random effect and interaction terms for drink and sequence (Kenward approach).|||21.24|-21.92|
82554573|NCT02056834|164814915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the percent change from baseline within each treatment group.||||0.0166
82554574|NCT02056834|164814916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3785|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the percent change from baseline within each treatment group.||||0.3785
82482416|NCT01857310|164657890|SUPERIORITY||Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-1.9|0.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational diabetes will be compared using two sided tests conducted at the 0.05 level."||0.6|-1.9|
82482417|NCT01857310|164657890|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.47|1.27|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational diabetes will be compared using two sided tests conducted at the 0.05 level."||1.27|0.47|
82554575|NCT02056834|164814917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the change from baseline within treatment group.||||<0.0001
82554576|NCT02056834|164814918|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||Paired T-Test p-value tests the significance of the change from baseline within treatment group.||||<0.0001
82554577|NCT03536884|164814935|NON_INFERIORITY|The evaluation of noninferiority is tested at a 1-sided alpha level of 0.025 and based on a 1-sided 97.5% CI and a noninferiority margin of 10%.|Risk Difference (RD)|12.682|||||TWO_SIDED|95.0|5.771|19.592||||||Risk Difference: BKZ-Secukinumab calculated using stratified Cochran-Mantel-Haenszel (CMH).||19.592|5.771|
82554578|NCT03536884|164814935|SUPERIORITY||Odds Ratio (OR)|1.714|||<|0.001|TWO_SIDED|95.0|1.271|2.31||P-values for the comparison of treatment groups are based on the CMH test for the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||2.310|1.271|<0.001
82554579|NCT03536884|164814936|SUPERIORITY||Odds Ratio (OR)|2.817|||<|0.001|TWO_SIDED|95.0|2.068|3.836||P-values for the comparison of treatment groups are based on the CMH test from the general association. P-values are not controlled for multiplicity and should only be considered descriptively.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.836|2.068|<0.001
82554580|NCT03536884|164814938|SUPERIORITY||Odds Ratio (OR)|2.49|||<|0.001|TWO_SIDED|95.0|1.835|3.377||P-values for the comparison of treatment groups are based on the CMH test from the general association. P-values are not controlled for multiplicity and should only be considered descriptively.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.377|1.835|<0.001
82651406|NCT00895583|165017544|SUPERIORITY_OR_OTHER||Treatment Ratio|1.71|||<|0.001|TWO_SIDED|95.0|1.38|2.11||Alpha was unadjusted.|ANCOVA|ANCOVA model with change in the logarithmic Upr/Cr as dependent variable, treatment and logarithmic pre-randomization value as covariate.||Change from pre-randomization at Month 12; treatment ratio (SRC/TAC) in adjusted geometric mean fold-change from baseline.||2.11|1.38|<0.001
82554581|NCT03536884|164814938|SUPERIORITY||Odds Ratio (OR)|2.168|||<|0.001|TWO_SIDED|95.0|1.511|3.11||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||3.110|1.511|<0.001
82651407|NCT00895583|165017544|SUPERIORITY_OR_OTHER||Treatment Ratio|1.77|||<|0.001|TWO_SIDED|95.0|1.39|2.26||Alpha was unadjusted.|ANCOVA|ANCOVA model with change in the logarithmic Upr/Cr as dependent variable, treatment and logarithmic pre-randomization value as covariate.||Change from pre-randomization at Month 24; treatment ratio (SRC/TAC) in adjusted geometric mean fold-change from baseline.||2.26|1.39|<0.001
82554582|NCT03536884|164814938|SUPERIORITY||Odds Ratio (OR)|3.243|||<|0.001|TWO_SIDED|95.0|2.103|5.0||P-values for the comparison of treatment groups are based on the CMH test from the general association.|Cochran-Mantel-Haenszel|||Odds ratio calculated using stratified CMH test with region and prior biologic exposure as stratification variables.||5.000|2.103|<0.001
82554583|NCT02990338|164814962|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|Hazard Ratio (HR)|0.596||||0.0005|TWO_SIDED|95.0|0.436|0.814||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.025.|Log Rank|Stratification was based on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \>3) according to IRT.|Stratification was based on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \>3) according to IRT.|Confidence interval (CI) for Kaplan-Meier estimates were calculated with log-log transformation of survival function and methods of Brookmeyer and Crowley.||0.814|0.436|0.0005
82651408|NCT00895583|165017545|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Pre-randomization||||1.000
82651409|NCT00895583|165017545|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-Therapy Period||||0.020
82651410|NCT00895583|165017545|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-Therapy Period||||0.021
82482418|NCT01857310|164657891|SUPERIORITY||Risk Difference (RD)|1.2|||||TWO_SIDED|95.0|-1.4|3.8|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Cesarean delivery will be compared using two sided tests conducted at the 0.05 level."||3.8|-1.4|
82482419|NCT01857310|164657891|SUPERIORITY||Risk Ratio (RR)|1.12|||||TWO_SIDED|95.0|0.89|1.39|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Cesarean delivery will be compared using two sided tests conducted at the 0.05 level."||1.39|0.89|
82482420|NCT01857310|164657892|SUPERIORITY||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|0.2|3.6|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preterm delivery will be compared using two sided tests conducted at the 0.05 level."||3.6|0.2|
82482421|NCT01857310|164657892|SUPERIORITY||Risk Ratio (RR)|1.49|||||TWO_SIDED|95.0|1.04|2.16|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Preterm delivery will be compared using two sided tests conducted at the 0.05 level."||2.16|1.04|
82482422|NCT01857310|164657893|SUPERIORITY||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-1.5|2.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Small for gestational age will be compared using two sided tests conducted at the 0.05 level."||2.0|-1.5|
82482423|NCT01857310|164657893|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.75|1.49|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Small for gestational age will be compared using two sided tests conducted at the 0.05 level."||1.49|0.75|
82482424|NCT01857310|164657894|SUPERIORITY||Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Gestational age will be compared using two sided tests conducted at the 0.05 level."||0.1|-0.5|
82554584|NCT02990338|164814963|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|||||<|0.0001||||||Threshold for statistical significance at 0.025.|Cochran-Mantel-Haenszel|One sided p-value was stratified based on age (\<75 years versus \>=75 years) and number of previous lines (2 or 3 versus \>3) according to IRT.||||||<0.0001
82482425|NCT01857310|164657895|SUPERIORITY||Risk Difference (RD)|-64.7|||||TWO_SIDED|95.0|-156.0|26.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Birth weight will be compared using two sided tests conducted at the 0.05 level."||26.4|-156|
82651411|NCT00895583|165017546|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Alpha is unadjusted.|Fisher Exact|||||||<0.001
82554585|NCT02990338|164814967|SUPERIORITY|A closed test procedure was used to control the type I error rate meaning no further testing would be performed unless the significance level had been reached on PFS.|Hazard Ratio (HR)|0.776||||0.0319|TWO_SIDED|95.0|0.594|1.015||One-sided significance level was 0.02 using the O'Brien-Fleming alpha spending function.|Log Rank|Stratified on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \> 3) according to IRT.|Stratified on age (\<75 years versus \>=75 years) and number of previous lines of therapy (2 or 3 versus \> 3) according to IRT.|||1.015|0.594|0.0319
82554586|NCT04102111|164815021|OTHER||Least Squares Means|37.4||||0.288|TWO_SIDED|90.0|-21.0|95.8|||Mixed Model for Repeated Measures (MMRM)|||||95.8|-21.0|0.288
82554587|NCT00303459|164815084|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.831||||0.2508|TWO_SIDED|97.31|0.582|1.187|||Log Rank|||||1.187|0.582|0.2508
82651412|NCT00895583|165017547|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||On-Therapy Period, any treatment||||<0.001
82651413|NCT00895583|165017547|SUPERIORITY_OR_OTHER|||||||0.685|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Off-Therapy Period, any treatment||||0.685
82482426|NCT01857310|164657896|SUPERIORITY||Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-0.6|0.1|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Stillbirth will be compared using two sided tests conducted at the 0.05 level."||0.1|-0.6|
82554588|NCT00303459|164815085|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.963||||0.8385|TWO_SIDED|95.0|0.673|1.38|||Log Rank|||||1.380|0.673|0.8385
82554589|NCT00303459|164815086|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|21.8||||0.0106|TWO_SIDED|95.0|5.9|37.8|||Wilcoxon (Mann-Whitney)|||||37.8|5.9|0.0106
82651414|NCT00895583|165017548|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.521|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|||||||0.521
82651415|NCT00895583|165017549|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.25||0.265|TWO_SIDED|||||Alpha is unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.265
82651416|NCT00895583|165017550|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|10.02|STANDARD_ERROR_OF_MEAN|23.61||0.672|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.672
82554590|NCT00303459|164815087|SUPERIORITY_OR_OTHER_LEGACY||Relative risk of improvement|0.98||||1|TWO_SIDED|95.0|0.6|1.61|||Fisher Exact|||||1.61|0.60|1.0000
82554591|NCT00303459|164815088|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.855||||0.4974|TWO_SIDED|95.0|0.544|1.344|||Log Rank|||||1.344|0.544|0.4974
82554592|NCT00303459|164815089|SUPERIORITY_OR_OTHER_LEGACY||Percentage change over placebo|-23.52||||0.0003|TWO_SIDED|95.0|-33.69|-11.79|||Repeated measures analysis|||||-11.79|-33.69|0.0003
82554593|NCT00303459|164815090|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.9566|TWO_SIDED|95.0|-0.42|0.39|||Wilcoxon (Mann-Whitney)|||||0.39|-0.42|0.9566
82554594|NCT00303459|164815091|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.02||||0.5571|TWO_SIDED|95.0|-0.036|0.076|||Wilcoxon (Mann-Whitney)|||||0.076|-0.036|0.5571
82554595|NCT00303459|164815092|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.2||||0.4086|TWO_SIDED|95.0|-3.7|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|-3.7|0.4086
82554596|NCT02492711|164815114|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.0334|TWO_SIDED|95.0|0.593|0.979|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||0.979|0.593|0.0334
82554597|NCT02492711|164815115|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.6204|TWO_SIDED|95.0|0.774|1.165|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||1.165|0.774|0.6204
82482427|NCT01857310|164657896|SUPERIORITY||Risk Ratio (RR)|0.25|||||TWO_SIDED|95.0|0.03|2.24|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Stillbirth will be compared using two sided tests conducted at the 0.05 level."||2.24|0.03|
82482428|NCT01857310|164657897|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Neonatal mortality will be compared using two sided tests conducted at the 0.05 level."||0.5|-0.3|
82482429|NCT01857310|164657897|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.25|8.95|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Neonatal mortality will be compared using two sided tests conducted at the 0.05 level."||8.95|0.25|
82482430|NCT01857310|164657898|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Major neonatal complications will be compared using two sided tests conducted at the 0.05 level."||0.4|-0.2|
82482431|NCT01857310|164657898|SUPERIORITY||Risk Ratio (RR)|1.99|||||TWO_SIDED|95.0|0.18|21.9|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Major neonatal complications will be compared using two sided tests conducted at the 0.05 level."||21.9|0.18|
82482432|NCT01857310|164657899|SUPERIORITY||Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.8|1.0|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Structural malformations will be compared using two sided tests conducted at the 0.05 level."||1.0|-0.8|
82482433|NCT01857310|164657899|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.53|2.21|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Structural malformations will be compared using two sided tests conducted at the 0.05 level."||2.21|0.53|
82482434|NCT01857310|164657900|SUPERIORITY||Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-0.4|1.3|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Severe maternal morbidity will be compared using two sided tests conducted at the 0.05 level."||1.3|-0.4|
82554598|NCT02492711|164815117|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0014|TWO_SIDED|95.0|0.556|0.87|||Log Rank|Stratified Log-Rank Test|Stratified Cox Proportional Model|||0.870|0.556|0.0014
82554599|NCT03663205|164815120|SUPERIORITY||Hazard Ratio (HR)|0.651||||0.0054|TWO_SIDED|95.0|0.465|0.912|||One-sided, Log Rank Test||Stratified by stratification factors: disease stage (IIIB or IV) and the level of PD-L1 expression in tumor cells (\>=50%, 1% to 49%, \<1%)|||0.912|0.465|0.0054
82554600|NCT03663205|164815127|OTHER||Least squares mean difference|-2.2|||||TWO_SIDED|95.0|-7.4|3.1|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 coughing score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in coughing score||3.1|-7.4|
82554601|NCT03663205|164815127|OTHER||Least squares mean difference|-1.2|||||TWO_SIDED|95.0|-4.4|2.1|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 dyspnea score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in dyspnea score||2.1|-4.4|
82554602|NCT03663205|164815127|OTHER||Least squares mean difference|-3.2|||||TWO_SIDED|95.0|-7.6|1.2|||||Based on a constrained longitudinal data analysis model with QLQ-LC13 chest pain score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in chest pain score||1.2|-7.6|
82581657|NCT00092495|164875132|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82554603|NCT03663205|164815128|OTHER||Least squares mean difference|3.9|||||TWO_SIDED|95.0|-0.9|8.7|||||Based on a constrained longitudinal data analysis model with QLQ-LC30 Global Health Status/Quality of Life score on the response variable and treatment by study visit interaction and randomization stratification factors as covariates.|Least squares mean difference in Global Health Status/Quality of Life score||8.7|-0.9|
82554604|NCT05932407|164815131|SUPERIORITY||Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.1|2.0||||||Crude hazard ratio of Vortioxetine Tablets to SSRIs for intracranial hemorrhage was reported. Crude hazard ratio of Vortioxetine Tablet Treatment group relative to the control group (SSRI Treatment group) was calculated by the rate of Vortioxetine Tablet Treatment group divided by the rate of SSRI Treatment group.||2.0|0.1|
82554605|NCT05932407|164815131|SUPERIORITY|Adjusted hazard ratio was adjusted from crude hazard ratio by covariance 1 (age and gender), and covariance 2 (antithrombotic drug administration, NSAID administration, and hypertension).|Hazard Ratio (HR)|0.5|||||TWO_SIDED|95.0|0.1|1.9||||||Adjusted hazard ratio of Vortioxetine Tablets to SSRIs for intracranial hemorrhage was reported. Adjusted hazard ratio of Vortioxetine Tablet Treatment group relative to the control group (SSRI Treatment group) was calculated by the rate of Vortioxetine Tablet Treatment group divided by the rate of SSRI Treatment group.||1.9|0.1|
82554606|NCT02938520|164815147|NON_INFERIORITY|Non-inferiority in the proportion of participants with virologic failure at Week 48 (per FDA's snapshot algorithm for assessing HIV-1 RNA \>=50 c/mL) can be concluded if the upper bound of a two-sided 95% confidence interval (CI) for the difference in failure rates between the two treatment arms (CAB - ABC/DTG/3TC) is less than 6%.|Adjusted difference in proportion|-0.4|||||TWO_SIDED|95.0|-2.8|2.1|||||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Induction Baseline (Week -20) HIV-1 RNA (\<100,000 \>=100,000 c/mL)|2.1|-2.8|
82554607|NCT02938520|164815148|NON_INFERIORITY|Non-inferiority in the proportion of participants with HIV-1 RNA\<50 c/mL at Week 48 (per FDA's snapshot algorithm) can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in success rates between the two treatment arms (CAB - ABC/DTG/3TC) is more than -10%|Adjusted difference in proportion|0.4|||||TWO_SIDED|95.0|-3.7|4.5|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Induction Baseline (Week -20) HIV-1 RNA (\<100,000 \>=100,000 c/mL)|||4.5|-3.7|
82554608|NCT02938520|164815201|OTHER||||||<|0.001||||||Week 41/48 was compared with the 1st visit (Week 5) based on Wilcoxon signed-rank test, respectively. p-values are derived for 'Acceptance' only and not adjusted for multiple testing.|Wilcoxon (Mann-Whitney)|||||||<0.001
82554609|NCT02938520|164815203|OTHER||Adjusted difference|1.2||||0.307|TWO_SIDED|95.0|-1.1|3.6|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.6|-1.1|0.307
82554610|NCT02938520|164815203|OTHER||Adjusted difference|0.9||||0.472|TWO_SIDED|95.0|-1.5|3.2|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.2|-1.5|0.472
82554611|NCT02938520|164815204|OTHER||Adjusted difference|1.8||||0.116|TWO_SIDED|95.0|-0.4|3.9|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.9|-0.4|0.116
82554612|NCT02938520|164815204|OTHER||Adjusted difference|0.1||||0.944|TWO_SIDED|95.0|-2.3|2.5|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.5|-2.3|0.944
82554613|NCT02938520|164815205|OTHER||Adjusted difference|-1.3||||0.552|TWO_SIDED|95.0|-5.7|3.0|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.0|-5.7|0.552
82554614|NCT02938520|164815205|OTHER||Adjusted difference|-4.6||||0.033|TWO_SIDED|95.0|-8.9|-0.4|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||-0.4|-8.9|0.033
82581658|NCT00092495|164875133|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581659|NCT00092495|164875133|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581660|NCT00092495|164875133|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581661|NCT00092495|164875134|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82651417|NCT00895583|165017551|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.45|STANDARD_ERROR_OF_MEAN|0.67||0.504|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA||ANCOVA with treatment as a factor and baseline as a covariate.|||||0.504
82581662|NCT00092495|164875134|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581663|NCT00092495|164875135|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
82581664|NCT00092495|164875135|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
82554615|NCT02938520|164815206|OTHER||Adjusted difference|1.021||||0.122|TWO_SIDED|95.0|-0.275|2.318|||ANCOVA||Treatment comparison of SF-12 MCS at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.318|-0.275|0.122
82482435|NCT01857310|164657900|SUPERIORITY||Risk Ratio (RR)|1.5|||||TWO_SIDED|95.0|0.68|3.32|||||Adjusted for infertility treatment stratum and study site.|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Severe maternal morbidity will be compared using two sided tests conducted at the 0.05 level."||3.32|0.68|
82482436|NCT01857310|164657901|SUPERIORITY||Mean Difference (Final Values)|-2.34|||||TWO_SIDED|95.0|-7.9|3.23||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Fertilization rate will be compared using generalized estimating equations accounting for multiple cycles per couple."||3.23|-7.90|
82482437|NCT01857310|164657902|SUPERIORITY||Mean Difference (Final Values)|-0.11|||||TWO_SIDED|95.0|-0.33|0.11||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of good quality embryos will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.11|-0.33|
82482438|NCT01857310|164657903|SUPERIORITY||Mean Difference (Final Values)|-1.31|||||TWO_SIDED|95.0|-6.66|4.05||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Proportion of good quality embryos on day 5 will be compared using generalized estimating equations accounting for multiple cycles per couple."||4.05|-6.66|
82482439|NCT01857310|164657904|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.11|0.1||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of embryos transferred will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.10|-0.11|
82482440|NCT01857310|164657905|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.23|0.18||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of embryos cryopreserved will be compared using Poisson regression with generalized estimating equations accounting for multiple cycles per couple."||0.18|-0.23|
82482441|NCT01857310|164657906|SUPERIORITY||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-45.4|21.2||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Sperm penetration percentage will be compared using generalized estimating equations accounting for multiple cycles per couple."||21.2|-45.4|
82554616|NCT02938520|164815206|OTHER||Adjusted difference|1.103||||0.109|TWO_SIDED|95.0|-0.248|2.453|||ANCOVA||Treatment comparison of SF-12 MCS at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||2.453|-0.248|0.109
82554617|NCT02938520|164815206|OTHER||Adjusted difference|0.182||||0.645|TWO_SIDED|95.0|-0.594|0.958|||ANCOVA||Treatment comparison of SF-12 PCS at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||0.958|-0.594|0.645
82554618|NCT02938520|164815206|OTHER||Adjusted difference|-0.169||||0.689|TWO_SIDED|95.0|-0.994|0.657|||ANCOVA||Treatment comparison of SF-12 PCS at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||0.657|-0.994|0.689
82586117|NCT02254278|164884168|SUPERIORITY|||||||0.07|||||||binomial test|One-sided significance level = 0.10||Local-regional control: The null hypothesis of negative predictive value ≤ 90% was tested against the alternative of \> 90% with a 1-sided binomial test at the 0.10 level.||||0.07
82651418|NCT00895583|165017552|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.56|STANDARD_ERROR_OF_MEAN|1.18||0.637|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.637
82651419|NCT00895583|165017553|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.08|STANDARD_ERROR_OF_MEAN|1.48||0.955|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.955
82482442|NCT01857310|164657907|SUPERIORITY||Mean Difference (Final Values)|-0.07|||||TWO_SIDED|95.0|-0.16|0.03||||||"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 3 will be compared with Poisson regression using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||0.03|-0.16|
82482443|NCT01857310|164657908|SUPERIORITY||Risk Ratio (RR)|1.19|||||TWO_SIDED|95.0|0.88|1.61|||||Fewer than 4 cells|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 3 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.61|0.88|
82482444|NCT01857310|164657909|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.77|1.43|||||Fewer than 8 cells|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Number of cells on day 5 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.43|0.77|
82482445|NCT01857310|164657910|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.87|1.09|||||Excellent or good morphology|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Embryo morphology on day 3 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.09|0.87|
82482446|NCT01857310|164657911|SUPERIORITY||Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.63|1.06|||||Excellent or good morphology|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Embryo morphology on day 5 will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.06|0.63|
82482447|NCT01857310|164657912|SUPERIORITY||Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.8|1.09|||||ICSI|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Method of fertilization will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.09|0.80|
82482448|NCT01857310|164657913|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.88|1.21|||||Excellent or good quality|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Quality of embryos transferred will be compared using generalized estimating equations accounting for multiple embryos per cycle and multiple cycles per couple."||1.21|0.88|
82482449|NCT01857310|164657914|SUPERIORITY||Risk Ratio (RR)|2.35|||||TWO_SIDED|95.0|0.74|7.43|||||Abnormal|"The primary analysis plan is based on an intention-to-treat (ITT) approach comparing the two treatment arms based on the randomized assignment. The common null hypothesis states that the effect of folic acid/zinc on the outcomes is null compared to the placebo. Chromosomal complement will be compared using generalized estimating equations accounting for multiple cycles per couple."||7.43|0.74|
82482450|NCT02554279|164657916|NON_INFERIORITY|The study had at least 80% power, to demonstrate the non-inferiority of menotropin to recombinant FSH at 1-sided significance level of 0.025 with a -12% non-inferiority margin.|Absolute difference|4.7|||||TWO_SIDED|95.0|-2.7|12.1||||||Null hypothesis was defined as the difference between ongoing pregnancy rate of participants randomized and treated with menotropin and recombinant FSH, as ≤-12%.||12.1|-2.7|
82482451|NCT02554279|164657917|OTHER||Absolute difference|1.2|||||TWO_SIDED|95.0|-6.6|8.9||||||||8.9|-6.6|
82482452|NCT02554279|164657918|OTHER||Absolute difference|3.8|||||TWO_SIDED|95.0|-3.8|11.3||||||||11.3|-3.8|
82482453|NCT02554279|164657919|OTHER||Absolute difference|-9.5|||||TWO_SIDED|95.0|-19.2|0.2||||||||0.2|-19.2|
82482454|NCT00998764|164657939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.324|TWO_SIDED|95.0|-0.74|2.23|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 13||2.23|-0.74|0.324
82482455|NCT00998764|164657939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.723|TWO_SIDED|95.0|-1.33|1.92|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 26||1.92|-1.33|0.723
82651420|NCT00895583|165017554|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|216.29|STANDARD_ERROR_OF_MEAN|198.84||0.279|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|ANCOVA with treatment as a factor and baseline as a covariate.||||||0.279
82482456|NCT00998764|164657939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.966|TWO_SIDED|95.0|-1.81|1.89|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 39||1.89|-1.81|0.966
82482457|NCT00998764|164657939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-1.93|1.92|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 52||1.92|-1.93|0.996
82482458|NCT00998764|164657939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21||||0.336|TWO_SIDED|95.0|-3.67|1.26|||Mixed Models Analysis|||Change from baseline in Alzheimer's Disease Assesment Scale-Cognitive Subscale (ADAS-Cog) at week 78||1.26|-3.67|0.336
82482459|NCT00998764|164657940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.737|TWO_SIDED|95.0|-1.11|0.79|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 13||0.79|-1.11|0.737
82482460|NCT00998764|164657940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.213|TWO_SIDED|95.0|-1.76|0.4|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 26||0.40|-1.76|0.213
82482461|NCT00998764|164657940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.168|TWO_SIDED|95.0|-2.19|0.38|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 39||0.38|-2.19|0.168
82482462|NCT00998764|164657940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.197|TWO_SIDED|95.0|-2.3|0.48|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 52||0.48|-2.30|0.197
82482463|NCT00998764|164657940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13||||0.044|TWO_SIDED|95.0|-4.21|0.06|||Mixed Models Analysis|||Change from extension study baseline in ADAS-Cog at week 78||0.06|-4.21|0.044
82482464|NCT00998764|164657941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.99||||0.077|TWO_SIDED|95.0|-6.3|0.33|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 13||0.33|-6.30|0.077
82482465|NCT00998764|164657941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67||||0.117|TWO_SIDED|95.0|-6.02|0.67|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 26||0.67|-6.02|0.117
82651421|NCT00895583|165017555|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.22|STANDARD_ERROR_OF_MEAN|0.23||0.337|TWO_SIDED|||||Alpha was unadjusted.|ANCOVA|||||||0.337
82376769|NCT03888066|164459894|SUPERIORITY||Hazard Ratio (HR)|0.63|||=|0.006|TWO_SIDED|95.0|0.45|0.87||Threshold for statistical significance = 0.05|Regression, Cox|||"Hazard Ratio patiromer vs placebo.~The HR for the time to first hyperkalemia event for patiromer vs placebo was calculated. HR and p-value come from a Cox proportional regression model adjusted for geographic region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR.~HR = Hazard Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.87|0.45|= 0.006
82581665|NCT00092495|164875136|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82482466|NCT00998764|164657941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.063|TWO_SIDED|95.0|-7.38|0.19|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 39||0.19|-7.38|0.063
82554619|NCT02938520|164815207|OTHER||Adjusted difference|2.2|||<|0.001|TWO_SIDED|95.0|1.0|3.4|||ANCOVA||Treatment comparison at Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||3.4|1.0|<0.001
82554620|NCT02938520|164815207|OTHER||Adjusted difference|0.7||||0.217|TWO_SIDED|95.0|-0.4|1.9|||ANCOVA||Treatment comparison at Week 44 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||1.9|-0.4|0.217
82581666|NCT00092495|164875136|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581667|NCT00092495|164875136|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581668|NCT00092495|164875137|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581669|NCT00092495|164875137|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group||||||<0.001
82581670|NCT00092495|164875137|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82554621|NCT02938520|164815208|OTHER||Difference|4.1|||<|0.001|TWO_SIDED|95.0|2.8|5.5|||ANOVA||Treatment comparison of HIVTSQc-total treatment satisfaction score at Week 48 is presented, adjusted for Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.5|2.8|<0.001
82581671|NCT00092495|164875138|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581672|NCT00092495|164875138|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581673|NCT00092495|164875139|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82651422|NCT00895583|165017556|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset (from baseline up to On-Therapy Month 24)||||0.025
82482467|NCT00998764|164657941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.412|TWO_SIDED|95.0|-5.95|2.44|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 52||2.44|-5.95|0.412
82482468|NCT00998764|164657941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.78||||0.321|TWO_SIDED|95.0|-8.28|2.73|||Mixed Models Analysis|||Change from base study baseline in DAD score at Week 78||2.73|-8.28|0.321
82581674|NCT00092495|164875139|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581675|NCT00092495|164875140|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.01||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.01
82581676|NCT00092495|164875140|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581677|NCT00092495|164875140|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581678|NCT00092495|164875141|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581679|NCT00092495|164875141|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581680|NCT00092495|164875141|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82581681|NCT00092495|164875142|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (girls - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581682|NCT00092495|164875142|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (boys - women) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82581683|NCT00092495|164875143|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (girls/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82651423|NCT00895583|165017556|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset at 1 year (from baseline up to On-Therapy Month 12)||||0.012
82554622|NCT02938520|164815210|OTHER||Adjusted difference|2.2||||0.232|TWO_SIDED|95.0|-1.4|5.7|||ANCOVA||Treatment comparison at Week 8 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.7|-1.4|0.232
82554623|NCT02938520|164815210|OTHER||Adjusted difference|2.7||||0.154|TWO_SIDED|95.0|-1.0|6.4|||ANCOVA||Treatment comparison Week 24 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||6.4|-1.0|0.154
82482469|NCT00998764|164657942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.329|TWO_SIDED|95.0|-3.24|1.09|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 13||1.09|-3.24|0.329
82482470|NCT00998764|164657942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.601|TWO_SIDED|95.0|-3.31|1.92|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 26||1.92|-3.31|0.601
82482471|NCT00998764|164657942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.328|TWO_SIDED|95.0|-4.67|1.56|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 39||1.56|-4.67|0.328
82482472|NCT00998764|164657942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.68|TWO_SIDED|95.0|-2.7|4.13|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 52||4.13|-2.70|0.680
82482473|NCT00998764|164657942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.954|TWO_SIDED|95.0|-5.05|4.77|||Mixed Models Analysis|||Change from extension study baseline in DAD score at Week 78||4.77|-5.05|0.954
82482474|NCT00998764|164657943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.931|TWO_SIDED|95.0|-2.4|2.62|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 26.||2.62|-2.40|0.931
82554624|NCT02938520|164815210|OTHER||Adjusted difference|2.2||||0.236|TWO_SIDED|95.0|-1.4|5.8|||ANCOVA||Treatment comparison at Week 48 is presented, adjusted for Maintenance Baseline (Day 1) Score, Induction Baseline (Week -20) HIV-1 RNA (\<100,000, \>=100,000 c/mL), gender at birth, age (\<50, \>= 50 Years) and race (white, non-white).|||5.8|-1.4|0.236
82554625|NCT02585323|164815237|SUPERIORITY||Adjusted difference in mean change|13.1||||0.05|TWO_SIDED|95.0|1.6|24.5|||ANCOVA|||We performed an intent-to-treat analysis. For the main comparison, we used analysis of covariance (ANCOVA) to estimate an adjusted mean difference comparing time in MVPA at 13 weeks (primary end point) between groups, adjusting for baseline MVPA, diagnosis, and blocking.||24.5|1.6|0.05
82651424|NCT00895583|165017556|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||New onset at 2 years (from On-Therapy Month 12 to On-Therapy Month 24)||||1.000
82482475|NCT00998764|164657943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.524|TWO_SIDED|95.0|-3.26|1.67|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 52.||1.67|-3.26|0.524
82482476|NCT00998764|164657943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03||||0.353|TWO_SIDED|95.0|-6.32|2.27|||Mixed Models Analysis|||Change from base study baseline in NPI score at week 78.||2.27|-6.32|0.353
82482477|NCT00998764|164657944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.531|TWO_SIDED|95.0|-2.92|1.51|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 26.||1.51|-2.92|0.531
82482478|NCT00998764|164657944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.84||||0.137|TWO_SIDED|95.0|-4.28|0.59|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 52.||0.59|-4.28|0.137
82482479|NCT00998764|164657944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.128|TWO_SIDED|95.0|-7.6|0.96|||Mixed Models Analysis|||Change from extension study baseline in NPI score at week 78.||0.96|-7.60|0.128
82482480|NCT00998764|164657945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.811|TWO_SIDED|95.0|-0.49|0.63|||Mixed Models Analysis|||Change from base study baseline in MMSE score at Week 6.||0.63|-0.49|0.811
82482481|NCT00998764|164657945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.681|TWO_SIDED|95.0|-0.45|0.69|||Mixed Models Analysis|||Change from base study baseline in MMSE score at Week 19.||0.69|-0.45|0.681
82482482|NCT00998764|164657945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.742|TWO_SIDED|95.0|-0.51|0.72|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 32.||0.72|-0.51|0.742
82482483|NCT00998764|164657945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.598|TWO_SIDED|95.0|-0.48|0.83|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 45.||0.83|-0.48|0.598
82482484|NCT00998764|164657945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.922|TWO_SIDED|95.0|-0.85|0.77|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 78.||0.77|-0.85|0.922
82482485|NCT00998764|164657946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41||||0.099|TWO_SIDED|95.0|-0.08|0.9|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 6.||0.90|-0.08|0.099
82482486|NCT00998764|164657946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.089|TWO_SIDED|95.0|-0.07|1.01|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 19.||1.01|-0.07|0.089
82482487|NCT00998764|164657946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.152|TWO_SIDED|95.0|-0.17|1.08|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 32.||1.08|-0.17|0.152
82482488|NCT00998764|164657946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.16|TWO_SIDED|95.0|-0.21|1.25|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 45.||1.25|-0.21|0.160
82554626|NCT02585323|164815238|SUPERIORITY||Adjusted difference in mean change|-29.5||||0.05|TWO_SIDED|95.0|-75.8|16.7|||ANCOVA|||||16.7|-75.8|0.05
82554627|NCT02585323|164815239|SUPERIORITY||Adjusted difference in mean change|-1.4||||0.05|TWO_SIDED|95.0|-7.8|4.9|||ANCOVA|||||4.9|-7.8|0.05
82554628|NCT02585323|164815240|SUPERIORITY||Adjusted diff in mean change at T0-T1|2.5||||0.05|TWO_SIDED|95.0|-4.2|9.5|||ANCOVA|||||9.5|-4.2|0.05
82554629|NCT02585323|164815241|SUPERIORITY||Adjusted diff in mean change at T0-T1|-3.8||||0.05|TWO_SIDED|95.0|-14.9|7.2|||ANCOVA|||||7.2|-14.9|0.05
82554630|NCT02585323|164815242|SUPERIORITY||Adjusted diff in mean change at T0-T1|2.8||||0.05|TWO_SIDED|95.0|-3.3|8.8|||ANCOVA|||||8.8|-3.3|0.05
82651425|NCT00895583|165017557|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Insulin (12-Month)||||1.000
82554631|NCT02585323|164815243|SUPERIORITY||Adjusted diff in mean change at T0-T1|1.4||||0.05|TWO_SIDED|95.0|-5.0|7.9|||ANCOVA|||||7.9|-5.0|0.05
82554632|NCT02585323|164815244|SUPERIORITY||Adjusted diff in mean change at T0-T1|-0.4||||0.05|TWO_SIDED|95.0|-1.7|0.8|||ANCOVA|||||0.8|-1.7|0.05
82482489|NCT00998764|164657946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.603|TWO_SIDED|95.0|-0.73|1.26|||Mixed Models Analysis|||Change from extension study baseline in MMSE score at Week 78.||1.26|-0.73|0.603
82482490|NCT04761627|164657951|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric Least Squares (LS) Means Ratio|0.9325|||||TWO_SIDED|90.0|0.8874|0.9799|||||Switching group vs Continued-use group.|The ratio of geometric LS means, and 90% confidence intervals (CIs) were estimated using the analysis of covariance (ANCOVA) model adjusted for the actual stratification factors if prior biologic use for psoriasis, baseline body weight group, geographic region, and PK trough concentration at week 28.||0.9799|0.8874|
82482491|NCT04761627|164657952|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9483|||||TWO_SIDED|90.0|0.8977|1.0018|||||Switching group vs Continued-use group.|The ratio of geometric LS means, and 90% CIs were estimated using the ANCOVA model adjusted for the actual stratification factors if prior biologic use for psoriasis, baseline body weight group, geographic region, and PK trough concentration at week 28.||1.0018|0.8977|
82482492|NCT04761627|164657954|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9617|||||TWO_SIDED|90.0|0.8319|1.1119|||||Ctrough,ss at Week 28: Switching group vs Continued-use group|The ratio of Geometric LS means, and 90% CI for Ctrough,ss at week 28 were estimated based on an ANCOVA model adjusted for the actual stratification factors of prior biologic use for psoriasis, baseline body weight group, and geographic region.||1.1119|0.8319|
82482493|NCT04761627|164657954|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geometric LS Means Ratio|0.9662|||||TWO_SIDED|90.0|0.8879|1.0515|||||Ctrough,ss at Week 40: Switching group vs Continued-use group|The ratio of geometric LS means, and 90% CI for Ctrough,ss at week 40 between the 2 treatment groups were estimated using an ANCOVA model adjusting for stratification factors and PK trough concentration at week 28.||1.0515|0.8879|
82482494|NCT04761627|164657954|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Geomtric LS Means Ratio|0.9806|||||TWO_SIDED|90.0|0.8916|1.0785|||||Ctrough,ss at Week 52: Switching group vs Continued-use group|The ratio of geometric LS means, and 90% CI for Ctrough,ss at week 52 between the 2 treatment groups were estimated using an ANCOVA model adjusting for stratification factors and PK trough concentration at week 28.||1.0785|0.8916|
82482495|NCT04761627|164657955|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Mean difference|0.07|||||TWO_SIDED|90.0|-2.62|2.77|||||Mean difference in PASI percent improvement from baseline at Week 64: Switching group - Continued-use group|Multiple imputation was applied for the point estimate and CI of the mean difference between the switching and continued-use groups. Missing PASI scores at the week 64 visit were imputed by MI.||2.77|-2.62|
82482496|NCT04761627|164657956|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Response difference|0.2|||||TWO_SIDED|90.0|-5.7|6.2|||||Response difference in PASI 75 Response at Week 64: Switching group - Continued-use group|Response difference was estimated by the Mantel-Haenszel estimate, and the 90% CIs were estimated by the stratified Newcombe confidence limits, adjusting for the prior biologic use of psoriasis, baseline body weight group, geographic region. Missing post-baseline binary response data were imputed by NRI.||6.2|-5.7|
82482497|NCT04761627|164657957|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Response difference|0.2|||||TWO_SIDED|90.0|-7.4|7.8|||||Response difference in PASI 100 Response at Week 64: Switching group - Continued-use group|Response difference was estimated by the Mantel-Haenszel estimate, and the 90% CIs were estimated by the stratified Newcombe confidence limits, adjusting for the prior biologic use of psoriasis, baseline body weight group, geographic region. Missing post-baseline binary response data were imputed by NRI.||7.8|-7.4|
82482498|NCT04761627|164657959|EQUIVALENCE|The prespecified similarity margin was 0.8 to 1.25.|Risk Difference (RD)|-0.48|||||TWO_SIDED|90.0|-4.17|3.1|||||Switching group - continued-use group|Risk difference for any EOI: risk difference and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.||3.10|-4.17|
82651426|NCT00895583|165017557|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Non-insulin (12-Month)||||1.000
82482499|NCT05867342|164657962|OTHER|||||||0.77||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.77
82482500|NCT05867342|164657963|OTHER|||||||0.002||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.002
82482501|NCT05867342|164657964|OTHER|||||||0.126||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.126
82482502|NCT05867342|164657966|OTHER|||||||0.213||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.213
82554633|NCT02585323|164815245|SUPERIORITY||Adjusted diff in mean change at T0-T1|-2.3||||0.05|TWO_SIDED|95.0|-6.6|1.9|||ANCOVA|||||1.9|-6.6|0.05
82554634|NCT02585323|164815246|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.7||||0.05|TWO_SIDED|95.0|0.2|1.2|||ANCOVA|||||1.2|0.2|0.05
82554635|NCT02585323|164815247|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.7||||0.05|TWO_SIDED|95.0|0.2|1.1|||ANCOVA|||||1.1|0.2|0.05
82554636|NCT02585323|164815248|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.3||||0.05|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.05
82482503|NCT05867342|164657967|OTHER|||||||0.418||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.418
82482504|NCT05867342|164657968|OTHER|||||||0.756||||||A p-value of \< 0.05 would be considered statistically significant.|t-test, 2 sided|||||||0.756
82554637|NCT02585323|164815249|SUPERIORITY||Adjusted diff in mean change at T0-T1|-0.1||||0.05|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||||0.2|-0.4|0.05
82554638|NCT02585323|164815250|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.2||||0.05|TWO_SIDED|95.0|-0.1|0.5|||ANCOVA|||||0.5|-0.1|0.05
82554639|NCT02585323|164815251|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.1||||0.05|TWO_SIDED|95.0|-0.6|0.8|||ANCOVA|||||0.8|-0.6|0.05
82554640|NCT02585323|164815252|SUPERIORITY||Adjusted diff in mean change at T0-T1|0.1||||0.05|TWO_SIDED|95.0|-0.1|0.3|||ANCOVA|||||0.3|-0.1|0.05
82651427|NCT00895583|165017557|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Non-insulin (24-Month)||||0.386
82651428|NCT00895583|165017557|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Alpha was unadjusted.|Fisher Exact|||Insulin (24-Month)||||1.000
82482505|NCT01277081|164657972|SUPERIORITY_OR_OTHER||Adjusted Mean difference|0.72|||<|0.0001|TWO_SIDED|95.0|0.58|0.86|||Repeated Measure Analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment|Null Hypothesis considered no difference in treatments being compared for breathing score over the first 15 minutes compared to baseline.||0.86|0.58|<0.0001
82482506|NCT01277081|164657973|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.72|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered no difference in treatments being compared for breathing score over 60 minutes.||0.72|0.44|<0.0001
82482507|NCT01277081|164657974|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.5|||<|0.0001|TWO_SIDED|95.0|0.36|0.65|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null Hypothesis considered no difference in treatments being compared for cold symptoms score after 60 minutes.||0.65|0.36|<0.0001
82482508|NCT01277081|164657975|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.52|||<|0.0001|TWO_SIDED|95.0|0.38|0.67|||Repeated measures analysis|Repeated measures analysis with factors for time and treatment\*time interaction. Baseline score was adjusted as part of the repeated measures series.|Difference was first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered two treatments being compared to be equal for cold symptom score after 60 minutes.||0.67|0.38|<0.0001
82482509|NCT01673282|164658003|SUPERIORITY_OR_OTHER||Least Square Mean|-0.24|STANDARD_ERROR_OF_MEAN|0.06|=|0.0003|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Based on an ANCOVA model for absolute change in ratio of dose and DDD with group as a fixed effect and the ratio of dose and DDD at Baseline as a covariate.||-0.11|-0.36|=0.0003
82482510|NCT02915874|164658004|SUPERIORITY||Slope|-1.13|STANDARD_ERROR_OF_MEAN|0.47||0.02|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.02
82482511|NCT02915874|164658005|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.78||0.19|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.19
82482512|NCT02915874|164658006|SUPERIORITY||Slope|2.07|STANDARD_ERROR_OF_MEAN|1.86||0.27|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.27
82482513|NCT02915874|164658007|SUPERIORITY||Slope|-0.49|STANDARD_ERROR_OF_MEAN|21.3||0.98|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.98
82482514|NCT02915874|164658008|SUPERIORITY||Slope|1.03|STANDARD_ERROR_OF_MEAN|2.58||0.69|TWO_SIDED|||||a priori: 0.05|Mixed Models Analysis|||||||0.69
82482515|NCT02915874|164658009|SUPERIORITY||Slope|-2.77|STANDARD_ERROR_OF_MEAN|4.93||0.58|TWO_SIDED||||||Mixed Models Analysis|||||||0.58
82554641|NCT05464069|164815291|SUPERIORITY|||||||0.16||||||Significant level \< 0.05|t-test, 2 sided|||||||0.160
82581684|NCT00092495|164875143|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (boys/women) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82651429|NCT00895583|165017558|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED||||||Fisher Exact|||||||0.129
82482516|NCT02915874|164658010|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|0.58||0.08|TWO_SIDED|||||a priori threshold: 0.05|Mixed Models Analysis|||||||0.08
82482517|NCT01046825|164658057|SUPERIORITY|||||||0.555|||||||Log Rank|||||||0.5550
82554642|NCT03550170|164815306|NON_INFERIORITY|Non-inferiority was established using the prespecified margin of inferiority of 10 points on the total composite score of the Fatigue Impact Scale.|Slope|4.89|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|90.0|0.67|9.11|||||Comparison of teleconference to one-to-one at 6 months.|A generalized estimating equation (GEE) served as the primary analysis tool for modeling the longitudinal scores of the primary outcome - Fatigue Impact Scale (FIS).||9.11|0.67|
82482518|NCT01046825|164658058|SUPERIORITY|||||||0.3605|||||||Log Rank|||||||0.3605
82482519|NCT01046825|164658059|SUPERIORITY|||||||0.6181|||||||Chi-squared|||||||0.6181
82482520|NCT01150474|164658073|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
82482521|NCT01150474|164658074|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||t-test, 2 sided|||||||0.75
82554643|NCT03550170|164815306|NON_INFERIORITY|Non-inferiority was established using the prespecified margin of inferiority of 10 points on the total composite score of the Fatigue Impact Scale.|Slope|6.12|STANDARD_ERROR_OF_MEAN|2.62|||TWO_SIDED|90.0|0.98|11.26|||||Comparison of internet to one-to-one at 6 months.|A generalized estimating equation (GEE) served as the primary analysis tool for modeling the longitudinal scores of the primary outcome - Fatigue Impact Scale (FIS).||11.26|0.98|
82482522|NCT01150474|164658075|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||t-test, 2 sided|||||||0.07
82482523|NCT01150474|164658076|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
82482524|NCT01150474|164658077|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
82482525|NCT01150474|164658078|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||0.14
82482526|NCT01150474|164658079|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82482527|NCT01150474|164658080|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.55
82482528|NCT01150474|164658081|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||||||0.59
82554644|NCT03550170|164815307|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.10
82554645|NCT05850052|164815333|SUPERIORITY||Odds Ratio (OR)|1.24||||0.26|TWO_SIDED|95.0|0.85|1.79|||proportional-odds cumulative logit model|||||1.79|0.85|0.26
82581685|NCT00092495|164875144|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82651430|NCT00895583|165017559|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82651431|NCT00895583|165017560|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Fisher Exact|||||||0.276
82651432|NCT00895583|165017561|SUPERIORITY_OR_OTHER|||||||0.158|TWO_SIDED||||||Fisher Exact|||||||0.158
82554646|NCT05850052|164815334|SUPERIORITY||incidence rate ratio|1.02||||0.86|TWO_SIDED|97.5|0.82|1.27|||proportional-odds cumulative logit model|||||1.27|0.82|0.86
82554647|NCT05850052|164815335|SUPERIORITY||Risk Ratio (RR)|3.1||||0.36|TWO_SIDED|95.0|0.32|30.0|||Fisher Exact|||||30|0.32|0.36
82554648|NCT04200313|164815344|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554649|NCT04200313|164815344|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554650|NCT04200313|164815345|NON_INFERIORITY|Non-inferiority with a 1% non-inferiority margin|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554651|NCT04200313|164815345|NON_INFERIORITY|Non-inferiority with a 1% non-inferiority margin|||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554652|NCT04200313|164815346|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554653|NCT04200313|164815346|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554654|NCT04200313|164815347|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554655|NCT04200313|164815347|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82581686|NCT00092495|164875144|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82554656|NCT04200313|164815348|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82581687|NCT00092495|164875144|NON_INFERIORITY_OR_EQUIVALENCE|The difference in seroconversion rates (partial dose - full dose) must be greater than -5%.|||||<|0.001||95.0|||||Miettinen and Nurminen|"Miettinen and Nurminen method for difference in proportions~Miettinen and Nurminen, Stat Med 1985;4:213-26"||||||<0.001
82554657|NCT04200313|164815348|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554658|NCT04200313|164815349|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554659|NCT04200313|164815349|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554660|NCT04200313|164815350|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554661|NCT04200313|164815350|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82554662|NCT04200313|164815351|SUPERIORITY|||||||0.51|||||||Mixed Models Analysis|||||||0.51
82554663|NCT04200313|164815351|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
82554664|NCT03580356|164815430|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|9.029|||<|0.0001|TWO_SIDED|95.0|3.183|25.615|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||25.615|3.183|<.0001
82554665|NCT03580356|164815430|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.926||||0.6646|TWO_SIDED|95.0|0.65|1.319|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.319|0.650|0.6646
82586118|NCT02254278|164884169|SUPERIORITY|||||||0.28|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.28
82554666|NCT03580356|164815430|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|11.508|||<|0.0001|TWO_SIDED|95.0|4.058|32.638|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||32.638|4.058|<.0001
82554667|NCT03580356|164815430|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio, log|1.181||||0.173|TWO_SIDED|95.0|0.836|1.667|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.667|0.836|0.1730
82554668|NCT03580356|164815431|SUPERIORITY||LS Mean|-9.997|STANDARD_ERROR_OF_MEAN|1.305|<|0.0001|TWO_SIDED|95.0|-12.554|-7.439|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||-7.439|-12.554|<.0001
82554669|NCT03580356|164815431|SUPERIORITY||LS mean|0.414|STANDARD_ERROR_OF_MEAN|0.922||0.6735|TWO_SIDED|95.0|-1.392|2.221|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||2.221|-1.392|0.6735
82554670|NCT03580356|164815431|SUPERIORITY||LS Mean|-11.091|STANDARD_ERROR_OF_MEAN|1.313|<|0.0001|TWO_SIDED|95.0|-13.664|-8.518|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||-8.518|-13.664|<.0001
82554671|NCT03580356|164815431|SUPERIORITY||LS mean|-0.68|STANDARD_ERROR_OF_MEAN|0.923||0.2305|TWO_SIDED|95.0|-2.489|1.128|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Treatment contrast in LS mean (change), Adults only||1.128|-2.489|0.2305
82554672|NCT03580356|164815433|SUPERIORITY||LS Mean|-4.105|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-5.281|-2.929|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||-2.929|-5.281|<.0001
82554673|NCT03580356|164815433|SUPERIORITY||LS Mean|0.101|STANDARD_ERROR_OF_MEAN|0.422||0.5943|TWO_SIDED|95.0|-0.727|0.928|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||0.928|-0.727|0.5943
82554674|NCT03580356|164815433|SUPERIORITY|Adults only|LS Mean|-4.496|STANDARD_ERROR_OF_MEAN|0.603|<|0.0001|TWO_SIDED|95.0|-5.678|-3.314|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||||-3.314|-5.678|<.0001
82554675|NCT03580356|164815433|SUPERIORITY||LS Mean|-0.29|STANDARD_ERROR_OF_MEAN|0.423||0.2467|TWO_SIDED|95.0|-1.12|0.54|||Mixed Models Analysis|Linear mixed model with repeated measures (MMRM)||Adults only||0.540|-1.120|0.2467
82554676|NCT03580356|164815435|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|3.443|||<|0.0001|TWO_SIDED|95.0|1.955|6.063|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||6.063|1.955|<.0001
82554677|NCT03580356|164815435|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|0.838||||0.8524|TWO_SIDED|95.0|0.602|1.167|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.167|0.602|0.8524
82554678|NCT03580356|164815435|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|4.542|||<|0.0001|TWO_SIDED|95.0|2.577|8.004|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||8.004|2.577|<.0001
82554679|NCT03580356|164815435|SUPERIORITY|Wald chi-square test based on logistic regression|Odds Ratio (OR)|1.106||||0.2764|TWO_SIDED|95.0|0.794|1.54|||Regression, Logistic|95% confidence interval for the odds ratio||Adults only||1.540|0.794|0.2764
82554680|NCT03580356|164815436|SUPERIORITY||Risk Ratio (RR)|1.389|||<|0.0001|TWO_SIDED|95.0|1.235|1.561|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.561|1.235|<.0001
82554681|NCT03580356|164815436|SUPERIORITY||Risk Ratio (RR)|1.029||||0.2369|TWO_SIDED|95.0|0.952|1.111|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.111|0.952|0.2369
82581688|NCT00092495|164875145|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82482529|NCT00219544|164658082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.78|STANDARD_ERROR_OF_MEAN|0.25||0.0018||95.0|-1.27|-0.3|||ANCOVA||Difference = pregabalin minus placebo|The study is powered to detect clinically significant difference of 1.2 between treatment groups in mean pain score at end of treatment. The statistical sample size calculation requires a total of 144 subjects to complete the Double-Blind phase of the study: a sample size of 72 in each treatment group will have 90% power to detect a difference in treatment mean pain scores of 1.2 assuming that the common standard deviation is 2.2 using a two group t-test with a 0.05 two-sided significance level.||-0.30|-1.27|0.0018
82482530|NCT00219544|164658085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|0.22||0.001||95.0|-1.15|-0.3|||ANCOVA||pregabalin minus placebo|Week 5||-0.30|-1.15|0.0010
82482531|NCT00219544|164658085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.97|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.41|-0.53|||ANCOVA||pregabalin minus placebo|Week 6||-0.53|-1.41|<.0001
82482532|NCT00219544|164658085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.39|-0.47|||ANCOVA||pregabalin minus placebo|Week 7||-0.47|-1.39|<.0001
82482533|NCT00219544|164658085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.93|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001||95.0|-1.39|-0.47|||ANCOVA||pregabalin minus placebo|Week 8||-0.47|-1.39|<.0001
82482534|NCT00219544|164658085|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.69|STANDARD_ERROR_OF_MEAN|0.23||0.0022||95.0|-1.14|-0.25|||ANCOVA||pregabalin minus placebo|Week 9||-0.25|-1.14|0.0022
82482535|NCT00219544|164658091|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|-0.71|STANDARD_ERROR_OF_MEAN|0.24||0.0031||95.0|-1.18|-0.24|||ANCOVA|||||-0.24|-1.18|0.0031
82482536|NCT00219544|164658094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.22||0.0177||95.0|-0.94|-0.09|||ANCOVA||pregabalin minus placebo|Week 5||-0.09|-0.94|0.0177
82482537|NCT00219544|164658094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.87|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||95.0|-1.31|-0.44|||ANCOVA||pregabalin minus placebo|Week 6||-0.44|-1.31|<.0001
82482538|NCT00219544|164658094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.82|STANDARD_ERROR_OF_MEAN|0.23||0.0005||95.0|-1.28|-0.36|||ANCOVA||pregabalin minus placebo|Week 7||-0.36|-1.28|0.0005
82482539|NCT00219544|164658094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|0.23||0.0003||95.0|-1.31|-0.39|||ANCOVA||pregabalin minus placebo|Week 8||-0.39|-1.31|0.0003
82482540|NCT00219544|164658094|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.74|STANDARD_ERROR_OF_MEAN|0.22||0.0011||95.0|-1.18|-0.3|||ANCOVA||pregabalin minus placebo|Week 9||-0.30|-1.18|0.0011
82482541|NCT00219544|164658095|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-9.0|STANDARD_ERROR_OF_MEAN|3.3||0.0069||95.0|-15.5|-2.5|||ANCOVA|||||-2.5|-15.5|0.0069
82554682|NCT03580356|164815436|SUPERIORITY||Risk Ratio (RR)|1.425|||<|0.0001|TWO_SIDED|95.0|1.268|1.603|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.603|1.268|<.0001
82554683|NCT03580356|164815436|SUPERIORITY||Risk Ratio (RR)|1.056||||0.083|TWO_SIDED|95.0|0.978|1.14|||Negative binomial regression model|95% confidence interval for the relative risk ratio||Adults only||1.140|0.978|0.0830
82554684|NCT03314740|164815478|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.265|TWO_SIDED|90.0|0.5|1.14|||cox model|||||1.14|0.5|0.265
82554685|NCT03314740|164815478|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.904|TWO_SIDED|90.0|0.68|1.55|||cox- model|||||1.55|0.68|0.904
82554686|NCT04778410|164815584|SUPERIORITY|||||||0.1794|||||||One Group Chi-Square test|The p-value was based on one group Chi-Square test for the null hypothesis CR rate was 0.19 at one-sided alpha of 0.1 in Cohort 2.||||||0.1794
82554687|NCT04424316|164815635|OTHER||Vaccine Efficacy|57.6|||||TWO_SIDED|95.0|31.3|74.6||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||74.6|31.3|
82554688|NCT04424316|164815636|OTHER||Vaccine Efficacy|54.5|||||TWO_SIDED|95.0|33.2|69.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||69.5|33.2|
82554689|NCT04424316|164815637|OTHER||Vaccine Efficacy|50.0|||||TWO_SIDED|95.0|30.3|64.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||64.5|30.3|
82554690|NCT04424316|164815638|OTHER||Vaccine Efficacy|49.2|||||TWO_SIDED|95.0|31.4|62.8||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||62.8|31.4|
82554691|NCT04424316|164815639|OTHER||Vaccine Efficacy|82.4|||||TWO_SIDED|95.0|57.5|93.9||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||93.9|57.5|
82554692|NCT04424316|164815640|OTHER||Vaccine Efficacy|73.5|||||TWO_SIDED|95.0|50.3|86.8||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||86.8|50.3|
82554693|NCT04424316|164815641|OTHER||Vaccine Efficacy|70.5|||||TWO_SIDED|95.0|49.4|83.6||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||83.6|49.4|
82554694|NCT04424316|164815642|OTHER||Vaccine Efficacy|70.0|||||TWO_SIDED|95.0|50.6|82.5||||||Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||82.5|50.6|
82554695|NCT04424316|164815658|OTHER||Vaccine efficacy|69.7|||||TWO_SIDED|95.0|37.1|86.7||||||Vaccine efficacy within 90 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||86.7|37.1|
82554696|NCT04424316|164815658|OTHER||Vaccine efficacy|61.5|||||TWO_SIDED|95.0|28.6|80.3||||||Vaccine efficacy within 120 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||80.3|28.6|
82482542|NCT00219544|164658096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.4||0.0023||95.0|-2.1|-0.5|||ANCOVA||pregabalin minus placebo|HADS-A||-0.5|-2.1|0.0023
82482543|NCT00219544|164658096|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0013||95.0|-1.9|-0.5|||ANCOVA||pregabalin minus placebo|HADS-D||-0.5|-1.9|0.0013
82482544|NCT00219544|164658097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.98|STANDARD_ERROR_OF_MEAN|3.42||0.0828||95.0|-0.79|12.75|||ANCOVA||pregabalin minus placebo|Impact||12.75|-0.79|0.0828
82554697|NCT04424316|164815658|OTHER||Vaccine efficacy|57.1|||||TWO_SIDED|95.0|23.9|76.8||||||Vaccine efficacy within 150 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||76.8|23.9|
82482545|NCT00219544|164658097|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.49|STANDARD_ERROR_OF_MEAN|2.75||0.0197||95.0|1.05|11.94|||ANCOVA||pregabalin minus placebo|Satisfaction||11.94|1.05|0.0197
82554698|NCT04424316|164815658|OTHER||Vaccine efficacy|55.3|||||TWO_SIDED|95.0|23.8|74.6||||||Vaccine efficacy within 180 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||74.6|23.8|
82554699|NCT04424316|164815658|OTHER||Vaccine efficacy|24.2|||||TWO_SIDED|95.0|-11.1|48.6||||||Vaccine efficacy within 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. Vaccine efficacy was presented in percentage.||48.6|-11.1|
82554700|NCT04424316|164815659|OTHER||Vaccine efficacy|9.5|||||TWO_SIDED|95.0|-10.1|25.7||||||Vaccine efficacy within 90 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||25.7|-10.1|
82554701|NCT04424316|164815659|OTHER||Vaccine efficacy|6.7|||||TWO_SIDED|95.0|-9.8|20.7||||||Vaccine efficacy within 120 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||20.7|-9.8|
82554702|NCT04424316|164815659|OTHER||Vaccine efficacy|7.7|||||TWO_SIDED|95.0|-6.5|20.1||||||Vaccine efficacy within 150 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||20.1|-6.5|
82482546|NCT00219544|164658098|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0278||95.0|||||Mantel Haenszel|||The distribution of the responses to the PGIC at EOT was compared between the 2 treatment groups using the 7 categories of the PGIC.||||0.0278
82482547|NCT00219544|164658099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.76|STANDARD_ERROR_OF_MEAN|0.26||0.0049||95.0|-1.28|-0.23|||ANCOVA|||Pain interference||-0.23|-1.28|0.0049
82554703|NCT04424316|164815659|OTHER||Vaccine efficacy|4.1|||||TWO_SIDED|95.0|-9.5|16.0||||||Vaccine efficacy within 180 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||16.0|-9.5|
82554704|NCT04424316|164815659|OTHER||Vaccine efficacy|4.6|||||TWO_SIDED|95.0|-6.6|14.6||||||Vaccine efficacy within 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||14.6|-6.6|
82554705|NCT04424316|164815660|OTHER||Vaccine efficacy|43.8|||||TWO_SIDED|95.0|25.6|57.7||||||Vaccine efficacy at 210 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||57.7|25.6|
82554706|NCT04424316|164815660|OTHER||Vaccine efficacy|39.7|||||TWO_SIDED|95.0|21.3|54.1||||||Vaccine efficacy at 240 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||54.1|21.3|
82581689|NCT00092495|164875145|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82586119|NCT02254278|164884170|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Two-sided significance level = 0.05||||||0.03
82482548|NCT00219544|164658099|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|0.26||0.0037||95.0|-1.29|-0.25|||ANCOVA|||Pain severity||-0.25|-1.29|0.0037
82482549|NCT00219544|164658100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.0719||95.0|0.0|0.11|||ANCOVA||pregabalin minus placebo|Health State Profile||0.11|-0.00|0.0719
82482550|NCT00219544|164658100|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|2.54||0.418||95.0|-2.96|7.1|||ANCOVA||pregabalin minus placebo|Visual Analog Scale||7.10|-2.96|0.4180
82482551|NCT02081248|164658114|SUPERIORITY|||||||0.37||||||Testing was performed at a significance level of 0.05|t-test, 2 sided|Two-sample t-test comparing mean QuIC-A scores performed using 150 degrees of freedom||The null hypothesis is that there is no difference in comprehension of the parent clinical trial, as measured by the QuIC-A, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Mean QuIC-A scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.37
82482552|NCT02081248|164658115|SUPERIORITY|||||||0.39||||||Testing performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' perception of their comprehension of the parent clinical trial, as measured by the QuIC-B, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median QuIC-B scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.39
82482553|NCT02081248|164658116|SUPERIORITY|||||||0.17||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' comprehension of the parent clinical trial, as measured by the DICCT, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median DICCT scores were compared between arms, which should be approximately equal under the null hypothesis.||||0.17
82482554|NCT02081248|164658119|SUPERIORITY|||||||0.21||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' state anxiety, as measured by the STAI, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median state anxiety subscores of the STAI were compared between arms, which should be equal under the null hypothesis.||||0.21
82482555|NCT02081248|164658119|SUPERIORITY|||||||0.25||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in participants' trait anxiety, as measured by the STAI, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median trait anxiety subscores of the STAI were compared between arms, which should be equal under the null hypothesis.||||0.25
82482556|NCT02081248|164658120|SUPERIORITY|||||||0.8||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in satisfaction with the consent process, as measured by a study-specific questionnaire, between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median participant satisfaction scores were compared between arms, which should be equal under the null hypothesis.||||0.80
82482557|NCT02081248|164658121|SUPERIORITY|||||||0.73||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find the main goal of the study between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find the main goal of the study was compared between arms, which should be equal under the null hypothesis.||||0.73
82482558|NCT02081248|164658121|SUPERIORITY|||||||0.26||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find who to contact for questions between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find who to contact for questions was compared between arms, which should be equal under the null hypothesis.||||0.26
82482559|NCT02081248|164658121|SUPERIORITY|||||||0.74||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find the risks and benefits section between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find the risks and benefits section was compared between arms, which should be equal under the null hypothesis.||||0.74
82482560|NCT02081248|164658121|SUPERIORITY|||||||0.56||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find how to leave the study between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find how to leave the study was compared between arms, which should be equal under the null hypothesis.||||0.56
82482561|NCT02081248|164658121|SUPERIORITY|||||||0.79||||||Testing was performed at a significance level of 0.05|Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in the time required to find study procedures between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Median time required to find study procedures was compared between arms, which should be equal under the null hypothesis.||||0.79
82482562|NCT02081248|164658122|SUPERIORITY|||||||1||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 0901 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 0901 were compared between arms in participants considering enrollment, which should be equal under the null hypothesis.||||1.00
82554707|NCT04424316|164815660|OTHER||Vaccine efficacy|35.0|||||TWO_SIDED|95.0|16.1|49.9||||||Vaccine efficacy at 270 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||49.9|16.1|
82554708|NCT04424316|164815660|OTHER||Vaccine efficacy|33.0|||||TWO_SIDED|95.0|15.2|47.1||||||Vaccine efficacy at 360 days after birth. Vaccine efficacy was calculated as 1-(P/\[1-P\]), where P is the number of cases in the RSVpreF group divided by the total number of cases. The confidence interval was adjusted using Bonferroni procedure and accounting for the primary endpoints results. Vaccine efficacy was presented in percentage.||47.1|15.2|
82554709|NCT04505410|164815671|OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82554710|NCT05123027|164815675|SUPERIORITY||Risk Ratio (RR)|0.7||||0.399|TWO_SIDED|95.0|0.3|1.62||Threshold for significance: p\< 0.05|Mixed Models Analysis|||The primary outcome was analyzed with a longitudinal mixed effects negative binomial model incorporating the total score at earlier time points as well as 180 days. Fixed effect covariates included baseline score, treatment, days, site, stratum, and an interaction between treatment and days. A random effect was included to account for correlation within each participant.||1.62|0.30|0.399
82554711|NCT05123027|164815676|SUPERIORITY||Risk Ratio (RR)|1.09||||0.53|TWO_SIDED|95.0|0.83|1.45||Threshold for significance: p\< 0.05|Mixed Models Analysis|||This was modeled similar to the primary outcome, an over dispersed Poisson regression model with fixed effect covariates for treatment arm, treatment days, site, and stratum with an interaction between treatment arm and treatment days. Note that no baseline score covariate was included as all participants will be considered to have achieved 0 steps at baseline. A random intercept was included for each subject to account for repeated measures.||1.45|0.83|0.53
82554712|NCT05552508|164815710|OTHER|||||||0.0327|||||||t-test, 2 sided|||All participants||||0.0327
82554713|NCT05552508|164815710|OTHER|||||||0.0359|||||||t-test, 2 sided|||Participants with \>=4 mucus plugs||||0.0359
82554714|NCT05552508|164815710|OTHER|||||||0.1088|||||||t-test, 2 sided|||Participants with \<4 mucus plugs||||0.1088
82554715|NCT05552508|164815710|OTHER|||||||0.0391|||||||t-test, 2 sided|||Non-OCS-dependent participants||||0.0391
82554716|NCT05552508|164815711|OTHER|||||||0.0423|||||||t-test, 2 sided|||||||0.0423
82554717|NCT05552508|164815712|OTHER|||||||0.9465|||||||t-test, 2 sided|||||||0.9465
82554718|NCT05552508|164815713|OTHER|||||||0.3455|||||||t-test, 2 sided|||||||0.3455
82482563|NCT02081248|164658122|SUPERIORITY|||||||0.77||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1101 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1101 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.77
82482564|NCT02081248|164658122|SUPERIORITY|||||||0.69||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1203 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1203 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.69
82482565|NCT02081248|164658122|SUPERIORITY|||||||0.26||||||Testing was performed at a significance level of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in the consent rates to BMT CTN 1301 between participants reviewing a standard consent and easy-to-read informed consent (ETRIC) forms. Consent rates to BMT CTN 1501 were compared between arms in participants considering enrollment, which should be approximately equal under the null hypothesis.||||0.26
82482566|NCT01037088|164658124|SUPERIORITY||||||>|0.05||||||not significant|Mixed Models Analysis|||Hour 1 after Administration of Cannabis||||>.05
82482567|NCT01037088|164658124|SUPERIORITY||||||=|0.0002|||||||Mixed Models Analysis|||Hour 2 after Administration of Cannabis||||=.0002
82482568|NCT01037088|164658124|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Hour 3 after Administration of Cannabis (after the second inhalation of cannabis)||||<.0001
82482569|NCT01037088|164658124|SUPERIORITY||||||=|0.0004|||||||Mixed Models Analysis|||Hour 4 after Administration of Cannabis||||=.0004
82482570|NCT01037088|164658124|SUPERIORITY||||||=|0.0018|||||||Mixed Models Analysis|||Hour 5 after Administration of Cannabis||||=.0018
82482571|NCT03036800|164658140|SUPERIORITY||Odds Ratio (OR)|5.19|||<|0.001|TWO_SIDED|95.0|2.09|12.88|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.88|2.09|<0.001
82482572|NCT03036800|164658141|SUPERIORITY||Odds Ratio (OR)|5.94|||<|0.001|TWO_SIDED|95.0|2.45|14.4|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.4|2.45|<0.001
82482573|NCT03036800|164658142|SUPERIORITY||Odds Ratio (OR)|5.04||||0.002|TWO_SIDED|95.0|1.81|14.01|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.01|1.81|0.002
82482574|NCT03036800|164658143|SUPERIORITY||Odds Ratio (OR)|5.24||||0.002|TWO_SIDED|95.0|1.88|14.64|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.64|1.88|0.002
82482575|NCT03036800|164658160|SUPERIORITY||Odds Ratio (OR)|10.12|||<|0.001|TWO_SIDED|95.0|5.26|19.48|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||19.48|5.26|<0.001
82482576|NCT03036800|164658161|SUPERIORITY||Odds Ratio (OR)|5.17|||<|0.001|TWO_SIDED|95.0|2.86|9.36|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||9.36|2.86|<0.001
82482577|NCT03036800|164658162|SUPERIORITY||Odds Ratio (OR)|4.16|||<|0.001|TWO_SIDED|95.0|2.39|7.22|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||7.22|2.39|<0.001
82482578|NCT03036800|164658163|SUPERIORITY||Odds Ratio (OR)|2.44||||0.01|TWO_SIDED|95.0|1.23|4.84|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.84|1.23|0.010
82482579|NCT03036800|164658164|SUPERIORITY||Odds Ratio (OR)|5.14|||<|0.001|TWO_SIDED|95.0|2.14|12.39|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.39|2.14|<0.001
82482580|NCT03036800|164658165|SUPERIORITY||Odds Ratio (OR)|6.53|||<|0.001|TWO_SIDED|95.0|3.32|12.86|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||12.86|3.32|<0.001
82482581|NCT03036800|164658166|SUPERIORITY||Odds Ratio (OR)|8.08|||<|0.001|TWO_SIDED|95.0|3.8|17.16|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 52 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||17.16|3.80|<0.001
82554719|NCT05552508|164815714|OTHER|||||||0.2484|||||||t-test, 2 sided|||||||0.2484
82554720|NCT05552508|164815715|OTHER|||||||0.9405|||||||t-test, 2 sided|||||||0.9405
82554721|NCT05552508|164815716|OTHER|||||||0.6867|||||||t-test, 2 sided|||||||0.6867
82554722|NCT05552508|164815717|OTHER|||||||0.7554|||||||t-test, 2 sided|||||||0.7554
82586120|NCT02254278|164884174|SUPERIORITY|||||||0.08|||||||Fisher Exact|Two-sided significance level = 0.05||||||0.08
82554723|NCT06356285|164815818|EQUIVALENCE|Quasibinominal models were used as the outcomes are bounded count variables. Accepting a two-sided p-value adjusted for 3 comparisons, the study was designed with 80% power to detect a minimal detectable effect size between the trial arms and control for the primary outcome.|Odds Ratio, log|0.05||||0.017|TWO_SIDED|95.0||||A two-sided p-value, as shown in the table, which was adjusted for 3 comparisons|Quasibinominal regression|||||||0.017
82554724|NCT00677365|164815831|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96||||0.0014|TWO_SIDED|95.0|-1.54|-0.38||Repeated Measure Model|Mixed Models Analysis|||LS Mean Difference||-0.38|-1.54|0.0014
82554725|NCT00677365|164815832|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21||||0.0007|TWO_SIDED|95.0|0.09|0.52|||Regression, Cox|||Hazard Ratio for need of anti-pseudomonal antimicrobials; Estimates are obtained from a Cox proportional hazards regression model including terms for treatment, region, baseline P.aeruginosa density (log10 ), highest baseline MIC of levofloxacin against P. aeruginosa (log2 ), and baseline percent predicted FEV1 (quartiles)||0.52|0.09|0.0007
82554726|NCT00677365|164815833|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.61||||0.0026|TWO_SIDED|95.0|3.05|14.17|||Mixed Models Analysis|||LS Mean Difference Between MP-376 240 mg and Placebo groups||14.17|3.05|0.0026
82554727|NCT00677365|164815834|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.94||||0.0008|TWO_SIDED|95.0|4.63|17.25|||Mixed Models Analysis|||LS Mean Difference Between Placebo and MP-376 240 mg BID groups||17.25|4.63|0.0008
82554728|NCT00677365|164815835|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.5||||0.2174|TWO_SIDED|95.0|-2.68|11.67|||Mixed Models Analysis|||LS Mean Difference from MP-376 240 mg BID to placebo groups||11.67|-2.68|0.2174
82554729|NCT04084574|164815850|SUPERIORITY||Mean Difference (Net)|-4.9|STANDARD_DEVIATION|13.5||0.3968|TWO_SIDED|95.0|-16.8|6.9||The threshold for statistical significance is p = 0.05|t-test, 2 sided||Between group difference in mean blood pressure change from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||6.9|-16.8|0.3968
82554730|NCT04084574|164815851|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.5||0.07926|TWO_SIDED|95.0|-0.33|0.44|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||0.44|-0.33|0.07926
82554731|NCT04084574|164815853|SUPERIORITY||Mean Difference (Net)|11.7|STANDARD_DEVIATION|59.3||0.0673|TWO_SIDED|95.0|-34.2|58.6|||t-test, 2 sided|||||58.6|-34.2|0.0673
82554732|NCT04084574|164815854|SUPERIORITY||Mean Difference (Net)|-10.7|STANDARD_DEVIATION|189.3||0.8821|TWO_SIDED|95.0|-157.8|136.4|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||136.4|-157.8|0.8821
82554733|NCT04084574|164815855|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|3.3||0.6479|TWO_SIDED|95.0|-2.0|3.1|||t-test, 2 sided||Between group difference from baseline for Standard of Care group minus Behavioral Diet Counseling group.|||3.1|-2.0|0.6479
82581690|NCT00092495|164875145|NON_INFERIORITY_OR_EQUIVALENCE|The ratio of GMTs (partial dose/full dose) must be greater than 0.5.|||||<|0.001||95.0|||||ANOVA|ANOVA on natural log titer with fixed effects for region and comparison group.||||||<0.001
82482582|NCT03036800|164658167|SUPERIORITY||Odds Ratio (OR)|2.28||||0.065|TWO_SIDED|95.0|0.95|5.47|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||5.47|0.95|0.065
82554734|NCT04084574|164815856|SUPERIORITY||Mean Difference (Net)|7.0|STANDARD_DEVIATION|21.8||0.4044|TWO_SIDED|95.0|-10.0|24.0|||t-test, 2 sided||Between group difference in mean blood pressure change from baseline for Behavioral Diet Counseling group minus Standard of Care group.|||24.0|-10.0|0.4044
82554735|NCT04084574|164815857|SUPERIORITY||Mean Difference (Net)|1.34|STANDARD_DEVIATION|2.91||0.2374|TWO_SIDED|95.0|-0.97|3.6|||t-test, 2 sided|||||3.60|-0.97|0.2374
82581691|NCT02065687|164875160|EQUIVALENCE|The null hypothesis is that there is no relationship between BMI and metformin treatment (i.e. the parameter associated with the interaction term of BMI \* treatment is equal to 0).|Cox Proportional Hazard|-0.01787|STANDARD_ERROR_OF_MEAN|0.27472||0.9482|TWO_SIDED||||||Regression, Cox|||The interaction between BMI and metformin treatment will be examined with an interaction term in a Cox proportional hazards model. Historical data indicate that approximately 50% of people are obese (BMI\>=30). For the purposes of examining the relationship, we will classify patients into two levels (high versus low) at the median BMI, which will increase the likelihood of detecting an interaction between metformin treatment and obesity.||||0.9482
82554736|NCT04084574|164815858|SUPERIORITY||Mean Difference (Net)|-2.69|STANDARD_DEVIATION|13.62||0.6188|TWO_SIDED|95.0|-13.71|8.33|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||8.33|-13.71|0.6188
82554737|NCT04084574|164815859|SUPERIORITY||Mean Difference (Net)|-1.39|STANDARD_DEVIATION|1.79||0.0546|TWO_SIDED|95.0|-2.82|0.03|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||0.03|-2.82|0.0546
82554738|NCT04084574|164815860|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.2||1|TWO_SIDED|95.0|-0.98|0.98|||t-test, 2 sided||Between group difference from 12 weeks to 24 weeks for Behavioral Diet Counseling group minus Standard of Care group.|||0.98|-0.98|1.00
82554739|NCT04084574|164815861|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|1.5||1|TWO_SIDED|95.0|-0.89|1.49|||t-test, 2 sided|||||1.49|-0.89|1.00
82554740|NCT01385202|164815867|SUPERIORITY_OR_OTHER_LEGACY||Primary effectiveness rate|70.2|||<|0.0001|TWO_SIDED|95.0|60.9|78.4||In the worst-case scenario analysis, over seventy-percent (70.2%, 80/114) of the primary effectiveness cohort (PEC) were free from documented symptomatic atrial tachyarrhythmias during their effectiveness evaluation period.|Fisher Exact|The lower bound of the 95% confidence intervals was 60.9%, significantly higher than the pre-determined performance goal of 50% (p\<0.0001).|The confidence intervals above are the 95% exact binomial confidence intervals.|The null hypothesis was that the rate of freedom from documented symptomatic AF/AFL/AT at 12 months would be less than or equal to the pre-determined performance criterion of 50%. The alternative hypothesis was that the rate of freedom from documented symptomatic AF/AFL/AT at 12 months would be greater than the pre-determined performance criterion of 50%.||78.4|60.9|<0.0001
82554741|NCT01385202|164815867|SUPERIORITY_OR_OTHER_LEGACY||Primary effectiveness rate|74.0|||||TWO_SIDED|95.0|66.0|82.0|||||The 95% confidence intervals above were calculated using the Kaplan-Meier (KM) method.|||82|66|
82554742|NCT04068792|164815889|OTHER||Mean Difference (Final Values)|-1.03|||||TWO_SIDED|90.0|-4.467|2.416||||||||2.416|-4.467|
82581692|NCT01942590|164875207|OTHER|||||||0.0512|||||||t-test, 1 sided|||||||0.0512
82482583|NCT03036800|164658168|SUPERIORITY||Odds Ratio (OR)|2.84||||0.206|TWO_SIDED|95.0|0.56|14.34|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||14.34|0.56|0.206
82554743|NCT03969563|164815925|EQUIVALENCE|Equivalence based on non-significant difference between MBSR and Brain Health groups.|Mean Difference (Final Values)|0.3||||0.694|TWO_SIDED||||||Mixed Models Analysis|||||||.694
82554744|NCT03969563|164815926|EQUIVALENCE|Equivalence based on non-significant difference between MBSR vs Brain Health group.|Mean Difference (Final Values)|-1.4||||0.837|TWO_SIDED||||||Mixed Models Analysis|||||||.837
82554745|NCT02577354|164815927|SUPERIORITY|||||||0.138||||||The threshold for statistical significance was p=0.05|Wald asymptotic test of proportions|Cui p-value adjustment for sample size re-estimation at interim analysis; Multiple imputation utilized for 3 participants lost to follow-up.||||||0.138
82482584|NCT03036800|164658169|SUPERIORITY||Odds Ratio (OR)|3.23||||0.023|TWO_SIDED|95.0|1.17|8.9|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥32% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||8.90|1.17|0.023
82482585|NCT03036800|164658170|SUPERIORITY||Odds Ratio (OR)|4.11||||0.07|TWO_SIDED|95.0|0.89|18.93|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||18.93|0.89|0.070
82482586|NCT03036800|164658171|SUPERIORITY||Odds Ratio (OR)|0.59||||0.601|TWO_SIDED|95.0|0.08|4.24|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.24|0.08|0.601
82482587|NCT03036800|164658172|SUPERIORITY||Mean Difference (Net)|-4.63|||<|0.001|TWO_SIDED|95.0|-5.85|-3.4|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.4|-5.85|<0.001
82482588|NCT03036800|164658173|SUPERIORITY||Mean Difference (Net)|-5.89|||<|0.001|TWO_SIDED|95.0|-7.76|-4.02|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.02|-7.76|<0.001
82482589|NCT03036800|164658174|SUPERIORITY||Mean Difference (Net)|-6.87|||<|0.001|TWO_SIDED|95.0|-9.03|-4.71|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.71|-9.03|<0.001
82482590|NCT03036800|164658175|SUPERIORITY||Mean Difference (Net)|-5.44|||<|0.001|TWO_SIDED|95.0|-8.34|-2.53|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute weight change (kg) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.53|-8.34|<0.001
82482591|NCT03036800|164658176|SUPERIORITY||Mean Difference (Net)|-3.72|||<|0.001|TWO_SIDED|95.0|-4.63|-2.8|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.80|-4.63|<0.001
82554746|NCT02577354|164815928|SUPERIORITY|||||||0.032||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.032
82554747|NCT02577354|164815929|SUPERIORITY|||||||0.0499||||||The threshold for significance was p=0.05.|Friedman's regression analysis|Multiple Imputation utilized for 3 participants lost to follow-up.||||||0.0499
82554748|NCT02577354|164815931|SUPERIORITY|||||||0.011||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.011
82581693|NCT01942590|164875207|OTHER|||||||0.434|||||||t-test, 1 sided|||||||0.434
82554749|NCT02577354|164815932|SUPERIORITY|||||||0.009||||||Threshold for statistical significance was p=0.05|t-test, 2 sided|||||||0.009
82581694|NCT01942590|164875208|OTHER|||||||0.0816||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.0816
82581695|NCT01942590|164875208|OTHER|||||||0.3318||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.3318
82482592|NCT03036800|164658177|SUPERIORITY||Mean Difference (Net)|-4.7|||<|0.001|TWO_SIDED|95.0|-6.14|-3.25|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.25|-6.14|<0.001
82554750|NCT02577354|164815933|SUPERIORITY||||||<|0.001||||||Threshold for statistical significance was 0.05|t-test, 2 sided|||||||<0.001
82554751|NCT02577354|164815934|SUPERIORITY|||||||0.003||||||Threshold for statistical significance was p=0.05.|Wilcoxon (Mann-Whitney)|||||||0.003
82554752|NCT02577354|164815935|SUPERIORITY|||||||0.335||||||Threshold for statistical significance was p=0.05.|Chi-squared|||||||0.335
82554753|NCT02577354|164815943|SUPERIORITY|||||||0.048||||||The threshold for statistical significance was p=0.05.|Wald asymptotic test of proportions|Multiple imputation used for three participants lost to follow-up.||||||0.048
82554754|NCT02577354|164815944|SUPERIORITY||||||<|0.001||||||"P-value for Satisfied with Treatment. Threshold for statistical significance was p=0.05"|Cochran-Mantel-Haenszel|||||||<0.001
82554755|NCT02577354|164815946|SUPERIORITY||||||<|0.001||||||Threshold for statistical significance was p=0.05.|Cochran-Mantel-Haenszel|||||||<0.001
82581696|NCT01942590|164875209|OTHER|||||||0.2074|||||||t-test, 1 sided|||||||0.2074
82581697|NCT01942590|164875209|OTHER|||||||0.332|||||||t-test, 1 sided|||||||0.332
82581698|NCT01942590|164875210|OTHER|||||||0.233||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.233
82482593|NCT03036800|164658178|SUPERIORITY||Mean Difference (Net)|-5.37|||<|0.001|TWO_SIDED|95.0|-7.02|-3.71|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-3.71|-7.02|<0.001
82554756|NCT04109066|164816014|SUPERIORITY||Odds Ratio (OR)|2.05||||0.0021|TWO_SIDED|95.0|1.29|3.27|||Cochran-Mantel-Haenszel||"Stratified by PD-L1 by SP142 (\< 1% vs. \>= 1%), AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT.~Strata adjusted odds ratio (Arm A over Arm B) using Mantel-Haenszel method."|Arm A over Arm B||3.27|1.29|0.0021
82554757|NCT04109066|164816014|OTHER||Adjusted Difference of pCR Rates|10.5|||||TWO_SIDED|95.0|4.0|16.9|||||"Strata adjusted difference in pCR (Arm A-B) based on Cochran-Mantel-Haenszel (CMH) method of weighting.~Stratified by PD-L1 by SP142 (\< 1% vs. \>= 1%), AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT."|||16.9|4.0|
82482594|NCT03036800|164658179|SUPERIORITY||Mean Difference (Net)|-4.1||||0.001|TWO_SIDED|95.0|-6.42|-1.77|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.77|-6.42|0.001
82482595|NCT03036800|164658180|SUPERIORITY||Mean Difference (Net)|-2.7|||<|0.001|TWO_SIDED|95.0|-3.5|-1.91|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.91|-3.5|<0.001
82482596|NCT03036800|164658181|SUPERIORITY||Mean Difference (Net)|-1.89|||<|0.001|TWO_SIDED|95.0|-2.91|-0.86|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-0.86|-2.91|<0.001
82482597|NCT03036800|164658182|SUPERIORITY||Mean Difference (Net)|-3.28||||0.01|TWO_SIDED|95.0|-5.77|-0.8|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-0.80|-5.77|0.01
82482598|NCT03036800|164658183|SUPERIORITY||Mean Difference (Net)|-5.51||||0.003|TWO_SIDED|95.0|-9.09|-1.94|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-1.94|-9.09|0.003
82482599|NCT03036800|164658203|SUPERIORITY||Odds Ratio (OR)|10.53|||<|0.001|TWO_SIDED|95.0|3.83|28.97|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥5% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||28.97|3.83|<0.001
82482600|NCT03036800|164658204|SUPERIORITY||Odds Ratio (OR)|23.1|||<|0.001|TWO_SIDED|95.0|7.55|70.67|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||70.67|7.55|<0.001
82482601|NCT03036800|164658207|SUPERIORITY||Odds Ratio (OR)|7.71|||<|0.001|TWO_SIDED|95.0|2.75|21.6|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥10% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||21.60|2.75|<0.001
82482602|NCT03036800|164658208|SUPERIORITY||Odds Ratio (OR)|6.14||||0.032|TWO_SIDED|95.0|1.16|32.32|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 16 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||32.32|1.16|0.032
82482603|NCT03036800|164658209|SUPERIORITY||Odds Ratio (OR)|11.48|||<|0.001|TWO_SIDED|95.0|3.8|34.67|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 32 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||34.67|3.80|<0.001
82482604|NCT03036800|164658211|SUPERIORITY||Odds Ratio (OR)|13.63||||0.003|TWO_SIDED|95.0|2.47|75.09|||Regression, Logistic|||A logistic regression with a binary outcome of weight loss of ≥15% from baseline at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||75.09|2.47|0.003
82482605|NCT03036800|164658212|SUPERIORITY||Odds Ratio (OR)|0.59||||0.601|TWO_SIDED|95.0|0.08|4.24|||Regression, Logistic|||A logistic regression with a binary outcome of maintenance of weight loss of ≥15% at 104 weeks was fitted. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||4.24|0.08|0.601
82554758|NCT04109066|164816015|SUPERIORITY||Odds Ratio (OR)|3.11|||||TWO_SIDED|95.0|1.58|6.11|||||Stratified by AC Dose-Frequency. Chemotherapy Regimen (Q2W vs. Q3W) per IRT. Strata adjusted odds ratio (Arm A over Arm B) using Mantel-Haenszel method.|Arm A over Arm B||6.11|1.58|
82554759|NCT04109066|164816015|OTHER||Adjusted Difference of pCR Rates|24.1|||||TWO_SIDED|95.0|10.7|37.5|||||"Strata adjusted difference in pCR (Arm A-B) based on Cochran-Mantel-Haenszel (CMH) method of weighting.~Stratified by AC Dose-Frequency Chemotherapy Regimen (Q2W vs. Q3W) per IRT."|||37.5|10.7|
82581699|NCT01942590|164875210|OTHER|||||||0.142||||||Paired t test comparing each subject's performance at Week 52 to Baseline|t-test, 1 sided|||||||0.142
82482606|NCT03036800|164658213|SUPERIORITY||Mean Difference (Net)|-6.55|||<|0.001|TWO_SIDED|95.0|-7.81|-5.29|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 16 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.29|-7.81|<0.001
82581700|NCT01942590|164875211|OTHER|||||||0.019|||||||t-test, 1 sided|||||||0.019
82482607|NCT03036800|164658214|SUPERIORITY||Mean Difference (Net)|-9.59|||<|0.001|TWO_SIDED|95.0|-11.3|-7.88|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 32 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-7.88|-11.30|<0.001
82482608|NCT03036800|164658215|SUPERIORITY||Mean Difference (Net)|-13.51|||<|0.001|TWO_SIDED|95.0|-15.51|-11.51|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-11.51|-15.51|<0.001
82482609|NCT03036800|164658216|SUPERIORITY||Mean Difference (Net)|-9.3|||<|0.001|TWO_SIDED|95.0|-12.35|-6.26|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of relative weight change (%) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-6.26|-12.35|<0.001
82482610|NCT03036800|164658217|SUPERIORITY||Mean Difference (Net)|-6.16|||<|0.001|TWO_SIDED|95.0|-7.03|-5.28|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.28|-7.03|<0.001
82482611|NCT03036800|164658218|SUPERIORITY||Mean Difference (Net)|-4.22|||<|0.001|TWO_SIDED|95.0|-5.56|-2.89|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute BMI change (kg/m2) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-2.89|-5.56|<0.001
82482612|NCT03036800|164658219|SUPERIORITY||Median Difference (Net)|-8.8|||<|0.001|TWO_SIDED|95.0|-11.96|-5.64|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 52 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-5.64|-11.96|<0.001
82482613|NCT03036800|164658220|SUPERIORITY||Median Difference (Net)|-9.59||||0.001|TWO_SIDED|95.0|-14.91|-4.27|||Regression, Linear|||A linear regression model was fitted for the continuous outcome of absolute waist circumference change (cm) from baseline at 104 weeks. The main covariate was randomised arm, with the model also being adjusted for the stratification variables: site and baseline body mass index (≥45kg/m2; \<45kg/m2).||-4.27|-14.91|0.001
82482614|NCT01077154|164658230|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.7|TWO_SIDED|95.0|0.82|1.14|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.14|0.82|0.70
82482615|NCT01077154|164658231|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.57|TWO_SIDED|95.0|0.91|1.19|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hzard ratio \< 1 favors denosumab.|||1.19|0.91|0.57
82482616|NCT01077154|164658232|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.26|TWO_SIDED|95.0|0.92|1.36|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.36|0.92|0.26
82482617|NCT01077154|164658233|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.83|1.22|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.22|0.83|0.94
82482618|NCT01077154|164658234|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.41|TWO_SIDED|95.0|0.92|1.21|||Stratified Log Rank|Stratified by breast cancer therapy/LN status, hormone receptor status, HER-2 status, age, and geographic region.|Based on a Cox proportional hazards model stratified by the randomization stratification factors; a hazard ratio \< 1 favors denosumab.|||1.21|0.92|0.41
82482619|NCT02207946|164658235|SUPERIORITY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.28||0.144|TWO_SIDED|95.0|-1.02|0.16|||ANCOVA|||Least square (LS) means are from analysis of covariance (ANCOVA) with treatment and site included as fixed factors and baseline included as covariate.||0.16|-1.02|0.144
82554760|NCT04763772|164816033|SUPERIORITY||Mean Difference (Final Values)|-4.5||||0.2|TWO_SIDED|95.0|-14.0|4.8|||Regression, Linear|||||4.8|-14|0.2
82554761|NCT04564209|164816075|SUPERIORITY|||||||0.455|||||||ANOVA|||||||.455
82554762|NCT04564209|164816076|SUPERIORITY|||||||0.415|||||||ANOVA|||||||.415
82554763|NCT04564209|164816077|SUPERIORITY|||||||0.443|||||||ANOVA|||||||.443
82554764|NCT04564209|164816078|SUPERIORITY|||||||0.457|||||||ANOVA|||||||.457
82554765|NCT04564209|164816079|SUPERIORITY|||||||0.099|||||||ANOVA|||||||.099
82554766|NCT04564209|164816080|SUPERIORITY|||||||0.338|||||||ANOVA|||||||.338
82554767|NCT04564209|164816081|SUPERIORITY|||||||0.723|||||||ANOVA|||||||.723
82554768|NCT04564209|164816083|SUPERIORITY|||||||0.578|||||||t-test, 2 sided|||||||.578
82554769|NCT04564209|164816084|SUPERIORITY|||||||0.998|||||||t-test, 2 sided|||||||.998
82554770|NCT04564209|164816085|SUPERIORITY|||||||0.864|||||||t-test, 2 sided|||||||.864
82554771|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|0.09|STANDARD_ERROR_OF_MEAN|0.127||0.4641|TWO_SIDED|90.0|-0.12|0.3|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.30|-0.12|0.4641
82554772|NCT02865538|164816139|OTHER|Descriptive Analysis|Linear mixed-effects model|0.0|STANDARD_ERROR_OF_MEAN|0.128||0.9894|TWO_SIDED|90.0|-0.21|0.21|||LS means difference||Change from Week -1 to Week 1|||0.21|-0.21|0.9894
82554773|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|-0.31|STANDARD_ERROR_OF_MEAN|0.129||0.0199|TWO_SIDED|90.0|-0.52|-0.09|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.09|-0.52|0.0199
82554774|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|-0.12|STANDARD_ERROR_OF_MEAN|0.133||0.3907|TWO_SIDED|90.0|-0.34|0.11|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.11|-0.34|0.3907
82581701|NCT01942590|164875211|OTHER|||||||0.366|||||||t-test, 1 sided|||||||0.366
82554775|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.166||0.5393|TWO_SIDED|90.0|-0.17|0.38|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.38|-0.17|0.5393
82482620|NCT03764033|164658257|SUPERIORITY||Mean Difference (Net)|0.78|STANDARD_ERROR_OF_MEAN|2.27||0.729|TWO_SIDED|95.0|-3.66|5.24||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||5.24|-3.66|0.729
82482621|NCT03764033|164658258|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|2.31||0.975|TWO_SIDED|95.0|-4.46|4.61||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||4.61|-4.46|0.975
82482622|NCT03764033|164658259|SUPERIORITY||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|2.43||0.831|TWO_SIDED|95.0|-5.27|4.24||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||4.24|-5.27|0.831
82482623|NCT03764033|164658260|SUPERIORITY||Mean Difference (Net)|-6.59|STANDARD_ERROR_OF_MEAN|2.42||0.006|TWO_SIDED|95.0|-11.31|-1.87||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-1.87|-11.31|0.006
82482624|NCT03764033|164658261|SUPERIORITY||Mean Difference (Net)|-6.54|STANDARD_ERROR_OF_MEAN|2.44||0.008|TWO_SIDED|95.0|-11.34|-1.74||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-1.74|-11.34|0.008
82482625|NCT03764033|164658262|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.066|TWO_SIDED|95.0|-0.37|0.01||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||0.01|-0.37|0.066
82482626|NCT03764033|164658263|SUPERIORITY||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.043|TWO_SIDED|95.0|-0.69|-0.01||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.01|-0.69|0.043
82482627|NCT03764033|164658264|SUPERIORITY||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.016|TWO_SIDED|95.0|-0.43|-0.04||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.04|-0.43|0.016
82482628|NCT03764033|164658265|SUPERIORITY||Mean Difference (Net)|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.028|TWO_SIDED|95.0|-0.74|-0.04||The threshold for statistical significance was p=.05|Mixed Models Analysis|||||-0.04|-0.74|0.028
82482629|NCT06372782|164658266|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||Within-Subject Difference in VAS Score at the End of Injection (FAS)||||<0.0001
82482630|NCT05171816|164658296|OTHER|Exploratory|Hazard Ratio (HR)|1.43||||0.2592|TWO_SIDED|95.0|0.83|2.48||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.48|0.83|0.2592
82482631|NCT05171816|164658297|OTHER|Exploratory|Hazard Ratio (HR)|1.14||||0.7251|TWO_SIDED|95.0|0.57|2.29||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.29|0.57|0.7251
82482632|NCT05171816|164658298|OTHER|Exploratory|Hazard Ratio (HR)|0.99||||0.9715|TWO_SIDED|95.0|0.6|1.64||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||1.64|0.60|0.9715
82554776|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|-0.04|STANDARD_ERROR_OF_MEAN|0.169||0.7931|TWO_SIDED|90.0|-0.33|0.24|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.24|-0.33|0.7931
82581702|NCT01942590|164875212|OTHER|||||||0.161|||||||t-test, 1 sided|||||||0.161
82581703|NCT01942590|164875212|OTHER|||||||0.43|||||||t-test, 1 sided|||||||0.43
82581704|NCT01942590|164875213|OTHER|||||||0.01|||||||t-test, 1 sided|||Baseline, week 18||||0.01
82482633|NCT05171816|164658299|OTHER|Exploratory|Hazard Ratio (HR)|0.68||||0.4937|TWO_SIDED|95.0|0.2|2.06||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||2.06|0.20|0.4937
82482634|NCT05171816|164658300|OTHER|Exploratory|Hazard Ratio (HR)|1.65||||0.4923|TWO_SIDED|95.0|0.61|4.87||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||4.87|0.61|0.4923
82482635|NCT05171816|164658302|OTHER|Exploratory|Hazard Ratio (HR)|1.45||||0.3407|TWO_SIDED|95.0|0.63|3.39||Nominal p-value|Log Rank|The 2-sided p-value was calculated using the log-rank test stratified by metastases.|HR and CI calculated using Cox Proportional Hazards model, where a HR \< 1 favours olaparib+abiraterone. Stratification factors are the same as those used in the stratified log-rank test.|||3.39|0.63|0.3407
82482636|NCT04391569|164658306|OTHER|||||||0||||||P-value from logistic regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|P-value is derived by fixed weight (2/3 for interim and 1/3 for post interim) combination test.||||||0.0000
82482637|NCT04391569|164658307|OTHER|||||||0.1619||||||P-value from logistics regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|P-value is derive by fixed weight (2/3 for interim and 1/3 for post interim) combination test.||||||0.1619
82482638|NCT04391569|164658309|OTHER|||||||0.2097|||||||fixed weight combination test|||||||0.2097
82554777|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|-0.63|STANDARD_ERROR_OF_MEAN|0.169||0.0004|TWO_SIDED|90.0|-0.92|-0.35|||Linear mixed-effects model||Change from Week -1 to Week 2|||-0.35|-0.92|0.0004
82581705|NCT01942590|164875213|OTHER|||||||0.004|||||||t-test, 1 sided|||Baseline, week 52||||0.004
82581706|NCT01942590|164875213|OTHER|||||||0.154|||||||t-test, 1 sided|||Baseline, week 18||||0.154
82581707|NCT01942590|164875213|OTHER|||||||0.211|||||||t-test, 1 sided|||Baseline, Week 52||||0.211
82581708|NCT01942590|164875214|OTHER|||||||0.006|||||||t-test, 1 sided|||Baseline, Week 18||||0.006
82581709|NCT01942590|164875214|OTHER|||||||0.007|||||||t-test, 1 sided|||Baseline, Week 52||||0.007
82581710|NCT01942590|164875214|OTHER|||||||0.297|||||||t-test, 1 sided|||Baseline, Week 18||||0.297
82581711|NCT01942590|164875214|OTHER|||||||0.196|||||||t-test, 1 sided|||Baseline, Week 52||||0.196
82581712|NCT01942590|164875215|OTHER|||||||0.3639|||||||t-test, 1 sided|||Baseline Week 18||||0.3639
82482639|NCT04391569|164658310|OTHER|||||||0|||||||Log Rank|||||||0.0000
82482640|NCT04391569|164658311|OTHER|||||||0.0075||||||P-value is derived by fixed weight (2/3 for interim and 1/3 for post interim) combination test. P-value from logistics regression is used for interim data, and Boschloo's test p-value is used for post interim data.|fixed weight combination test|||||||0.0075
82482641|NCT06661954|164658329|OTHER|paired t-tests were used to identify statistically significant differences|||||<|0.05||||||Paired t-tests compared pressure of Bed A and Bed B at each time at each head of bed position (4 tests, two-tailed test, alpha=0.05). A Holm-Bonferroni correction was used to control type 1 error.|t-test, 2 sided|||Peak sacral pressure (mmHg) was collected for every minute of the 10 minute recording. Two averages for each test condition were analyzed (Minutes 1-3 (Min1-3) and 6-8 (Min6-8)). These averages capture pressure during two different 5 minute cycles, when conceivably, sacral pressure would differ. Paired t-tests compared pressure of Bed A and Bed B at each time at each head of bed position (4 tests, two-tailed test, alpha=0.05). A Holm-Bonferroni correction controlled type 1 error.||||<0.05
82482642|NCT01892722|164658333|SUPERIORITY||||||<|0.001|||||||Negative binomial regression model|||||||<0.001
82482643|NCT05568888|164658340|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 6-hour mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 6-hour mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (ITT population).|Estimated difference Placebo - BE1116|-2.5||||1.9|TWO_SIDED|95.0|-5.02|-0.13||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 6-hour mortality rates in BE1116 is no better than the control.||-0.13|-5.02|1.9
82482644|NCT05568888|164658340|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 6-hour mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 6-hour mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-2.8||||3.1|TWO_SIDED|95.0|-5.8|0.13||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 6-hour mortality rates in BE1116 is no better than the control.||0.13|-5.80|3.1
82554778|NCT02865538|164816139|OTHER|Descriptive Analysis|LS means difference|-0.16|STANDARD_ERROR_OF_MEAN|0.175||0.3739|TWO_SIDED|90.0|-0.45|0.13|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.13|-0.45|0.3739
82554779|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|5.29|STANDARD_ERROR_OF_MEAN|3.077||0.09|TWO_SIDED|90.0|0.16|10.42|||Linear mixed-effects model||Change from Week -1 to Week 1|||10.42|0.16|0.0900
82554780|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-4.46|STANDARD_ERROR_OF_MEAN|3.053||0.1487|TWO_SIDED|90.0|-9.55|0.63|||Linear mixed-effects model||Change from Week -1 to Week 1|||0.63|-9.55|0.1487
82482645|NCT05568888|164658341|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 24-hour in-hospital mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 24-hour in-hospital mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-3.6||||3|TWO_SIDED|95.0|-7.35|0.15||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 24-hour in-hospital mortality rates in BE1116 is no better than the control.||0.15|-7.35|3.0
82554781|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-10.18|STANDARD_ERROR_OF_MEAN|3.015||0.0012|TWO_SIDED|90.0|-15.2|-5.15|||Linear mixed-effects model||Change from Week -1 to Week 1|||-5.15|-15.20|0.0012
82554782|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-6.14|STANDARD_ERROR_OF_MEAN|3.142||0.0548|TWO_SIDED|90.0|-11.37|-0.9|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.90|-11.37|0.0548
82554783|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|6.59|STANDARD_ERROR_OF_MEAN|3.337||0.0522|TWO_SIDED|90.0|1.03|12.15|||Linear mixed-effects model||Change from Week -1 to Week 2|||12.15|1.03|0.0522
82554784|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-5.07|STANDARD_ERROR_OF_MEAN|3.329||0.1326|TWO_SIDED|90.0|-10.61|0.48|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.48|-10.61|0.1326
82554785|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-12.28|STANDARD_ERROR_OF_MEAN|3.27||0.0004|TWO_SIDED|90.0|-17.73|-6.83|||Linear mixed-effects model||Change from Week -1 to Week 2|||-6.83|-17.73|0.0004
82554786|NCT02865538|164816140|OTHER|Descriptive Analysis|LS means difference|-7.79|STANDARD_ERROR_OF_MEAN|3.408||0.0253|TWO_SIDED|90.0|-13.47|-2.11|||Linear mixed-effects model||Change from Week -1 to Week 2|||-2.11|-13.47|0.0253
82554787|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|1.4|STANDARD_ERROR_OF_MEAN|1.58||0.3796|TWO_SIDED|90.0|-1.2|4.0|||Linear mixed-effects model||Day 7 Change from Day -1|||4.0|-1.2|0.3796
82554788|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-2.3|STANDARD_ERROR_OF_MEAN|1.55||0.1413|TWO_SIDED|90.0|-4.9|0.3|||Linear mixed-effects model||Day 7 Change from Day -1|||0.3|-4.9|0.1413
82554789|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-5.5|STANDARD_ERROR_OF_MEAN|1.55||0.0007|TWO_SIDED|90.0|-8.1|-2.9|||Linear mixed-effects model||Day 7 Change from Day -1|||-2.9|-8.1|0.0007
82554790|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-3.1|STANDARD_ERROR_OF_MEAN|1.62||0.0624|TWO_SIDED|90.0|-5.8|-0.4|||Linear mixed-effects model||Day 7 Change from Day -1|||-0.4|-5.8|0.0624
82554791|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|1.3|STANDARD_ERROR_OF_MEAN|1.21||0.293|TWO_SIDED|90.0|-0.7|3.3|||Linear mixed-effects model||Day 14 Change from Day -1|||3.3|-0.7|0.2930
82554792|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.21||0.0512|TWO_SIDED|90.0|-4.4|-0.4|||Linear mixed-effects model||Day 14 Change from Day -1|||-0.4|-4.4|0.0512
82482646|NCT05568888|164658342|SUPERIORITY|A Bayesian logistic regression model was used to compare all-cause 30 days in-hospital mortality rate between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of 30 days in-hospital mortality rate difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-6.0||||1.4|TWO_SIDED|95.0|-11.42|-0.68||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic||Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|Null hypotheses: The all-cause 30 days in-hospital mortality rates in BE1116 is no better than the control.||-0.68|-11.42|1.4
82482647|NCT05568888|164658343|SUPERIORITY|A Bayesian logistic regression model was used to compare difference in proportion of subjects between the BE1116 and placebo arms. The null hypothesis is rejected if the posterior probability of subjects who undergo surgical or interventional radiological procedures to stop bleeding related to the primary injury up to 24 hours difference (BE1116-placebo) being negative is greater than predefined threshold at interim and final analyses (mITT population).|Estimated difference Placebo - BE1116|-2.5||||18.9|TWO_SIDED|95.0|-7.98|3.05||Reported value reflect a posterior probability difference rather than p-value.|Regression, Logistic|||Null hypotheses: The proportion of subjects who undergo surgical or interventional radiological procedures to stop bleeding related to the primary injury up to 24 hours in BE1116 is no better than the control.|Reported values reflect a 95% Credible Interval rather than a 95% Confidence Interval.|3.05|-7.98|18.9
82482648|NCT02477696|164658354|NON_INFERIORITY|Non-inferiority of acalabrutinib was demonstrated if the upper bound of the 2-sided 95% confidence interval (CI) of the hazard ratio was below 1.429.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.79|1.27|||||Cox Proportional Hazards model stratified by 17p deletion status (yes versus no) and number of prior therapies (1-3 versus \>=4).|||1.27|0.79|
82482649|NCT04153149|164658367|SUPERIORITY||Hazard Ratio (HR)|0.718|||=|0.0118|TWO_SIDED|95.0|0.555|0.929|||Modified Andersen-Gill Model|||Analysis done using a modified Andersen-Gill model with a robust variance. The model included treatment group, ATTR amyloidosis disease type, New York Heart Association (NYHA) class, age group, and log-transformed baseline N-terminal pro-B-type natriuretic peptide (NT-proBNP) as covariates.||0.929|0.555|=0.0118
82482650|NCT04153149|164658368|SUPERIORITY||Hazard Ratio (HR)|0.672|||=|0.0162|TWO_SIDED|95.0|0.487|0.929|||Modified Andersen-Gill Model|||Analysis done using a modified Andersen-Gill model with a robust variance. The model included treatment group, ATTR amyloidosis disease type, NYHA class, age group, and log-transformed baseline NT-proBNP as covariates.||0.929|0.487|=0.0162
82482651|NCT04153149|164658369|SUPERIORITY||Least Square (LS) Mean Difference|26.46|STANDARD_ERROR_OF_MEAN|6.66|=|7.97e-05|TWO_SIDED|95.0|13.38|39.55|||MMRM|||Analysis done using MMRM with baseline 6-MWT as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline tafamidis use, treatment-by-baseline tafamidis use interaction, type of ATTR amyloidosis, and age group. Missing change values due to amyloidosis disease progression and death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||39.55|13.38|=0.0000797
82482652|NCT04153149|164658370|SUPERIORITY||LS Mean Difference|32.09|STANDARD_ERROR_OF_MEAN|9.19|=|0.0005|TWO_SIDED|95.0|14.03|50.15|||MMRM|||Analysis done using MMRM with baseline 6-MWT as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, type of ATTR amyloidosis, and age group. Missing change values due to amyloidosis disease progression and death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||50.15|14.03|=0.0005
82482653|NCT04153149|164658371|SUPERIORITY||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|1.73|=|0.0008|TWO_SIDED|95.0|2.4|9.2|||MMRM|||Analysis done using MMRM with baseline KCCQ-OS as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, baseline tafamidis use, treatment-by-baseline tafamidis use interaction, type of ATTR amyloidosis, and age group. Missing change values due to death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||9.20|2.40|=0.0008
82482654|NCT04153149|164658372|SUPERIORITY||LS Mean Difference|8.69|STANDARD_ERROR_OF_MEAN|2.4|=|0.0003|TWO_SIDED|95.0|3.98|13.4|||MMRM|||Analysis done using MMRM with baseline KCCQ-OS as a covariate and fixed effect terms including treatment group, visit, treatment-by-visit interaction, type of ATTR amyloidosis, and age group. Missing change values due to death were imputed using sampling with replacement from the worst 10% of observed values, as specified in the SAP.||13.40|3.98|=0.0003
82482655|NCT04153149|164658374|SUPERIORITY||Mean Difference|8.7|||=|0.0217|TWO_SIDED|95.0|1.3|16.1|||Cochran-Mantel-Haenszel|Missing change value in NYHA Class due to death were imputed as worsened. All other missing were imputed using multiple imputation approach.|Adjusted difference in percentage of stable or improved (vutrisiran - placebo) participants was estimated. Adjusted difference, 95% CI, and p-value were derived from multiple imputation procedure by combining estimates per Rubin's rules.|||16.1|1.3|=0.0217
82482656|NCT04153149|164658375|SUPERIORITY||Mean Difference|12.5|||=|0.0121|TWO_SIDED|95.0|2.7|22.2|||Cochran-Mantel-Haenszel|Missing change value in NYHA Class due to death were imputed as worsened. All other missing were imputed using multiple imputation approach.|Adjusted difference in percentage of stable or improved (vutrisiran - placebo) participants was estimated. Adjusted difference, 95% CI, and p-value were derived from multiple imputation procedure by combining estimates per Rubin's rules.|||22.2|2.7|=0.0121
82482657|NCT05040971|164658391|SUPERIORITY|Week 52 responses were analysed using an analysis of covariance model (ANCOVA) with randomised treatment as factor and baseline body weight as covariate.|Treatment difference|-11.19|||<|0.0001|TWO_SIDED|95.0|-12.97|-9.42|||ANCOVA|||Treatment policy estimand||-9.42|-12.97|<0.0001
82482658|NCT05040971|164658392|SUPERIORITY|Week 52 responses were analysed using a logistic regression model with randomised treatment as factor and baseline glycosylated haemoglobin (HbA1c) and fasting plasma glucose (FPG) as covariates.|Odds Ratio (OR)|19.81|||<|0.0001|TWO_SIDED|95.0|8.68|45.21|||Regression, Logistic|||Treatment policy estimand||45.21|8.68|<0.0001
82482659|NCT04641221|164658450|SUPERIORITY||incidence rate ratio|1.1||||0.028|TWO_SIDED|90.0|1.02|1.18||main effect for one-on-one sessions.|zero-inflated negative-binomial (ZINB)|We specified a multilevel (week nested within participant) model which included terms for each main effect and each interaction effect and covariates.|Main effect for One-one sessions.|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||1.18|1.02|0.028
82482660|NCT04641221|164658450|SUPERIORITY|Interaction effect for one-on-one sessions and incentives for participation|incidence rate ratio|1.09||||0.039|TWO_SIDED|90.0|1.02|1.17|||zero-inflated negative binomial||Interaction effect for one-on-one sessions and incentives for participation|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||1.17|1.02|0.039
82482661|NCT04641221|164658450|SUPERIORITY||incident rate ratio|0.86||||0.001|TWO_SIDED|90.0|0.8|0.93||3-way interaction: study videos X one-on-one X incentives for class attendance|Zero-inflated negative binomial||3-way interaction: study videos X one-on-one X incentives for class attendance|There were four potential intervention components. This study used a 2x2x2x2 factorial design. Thus, we analyzed main and interaction effects for the four potential intervention components.||0.93|0.80|0.001
82482662|NCT00773838|164658451|OTHER|||||||0.419|||||||Exact Test for Binomial Parameter|||||||0.419
82482663|NCT02502006|164658459|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82482664|NCT02502006|164658460|SUPERIORITY|||||||0.0004|||||||ANOVA|||||||0.0004
82482665|NCT02502006|164658461|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82482666|NCT02502006|164658462|SUPERIORITY|||||||0.2217|||||||ANOVA|||||||0.2217
82482667|NCT02502006|164658463|SUPERIORITY|||||||0.77||||||Adjusted for multiple comparisons|ANOVA|||||||0.77
82554793|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-5.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|90.0|-7.0|-3.0|||Linear mixed-effects model||Day 14 Change from Day -1|||-3.0|-7.0|<0.0001
82482668|NCT02502006|164658463|SUPERIORITY|||||||0.18||||||Adjusted for multiple comparisons|ANOVA|||||||0.18
82482669|NCT02502006|164658464|SUPERIORITY|||||||0.57||||||Adjusted for multiple comparisons|ANOVA|||||||0.57
82482670|NCT02502006|164658464|SUPERIORITY|||||||0.07||||||Adjusted for multiple comparisons|ANOVA|||||||0.07
82554794|NCT02865538|164816141|OTHER|Descriptive Analysis|LS means difference|-3.4|STANDARD_ERROR_OF_MEAN|1.25||0.008|TWO_SIDED|90.0|-5.5|-1.3|||Linear mixed-effects model||Day 14 Change from Day -1|||-1.3|-5.5|0.0080
82554795|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|0.84|STANDARD_ERROR_OF_MEAN|0.574||0.1482|TWO_SIDED|90.0|-0.12|1.8|||Linear mixed-effects model||Change from Week -1 to Week 1|||1.80|-0.12|0.1482
82482671|NCT02502006|164658465|SUPERIORITY|||||||0.88||||||Adjusted for multiple comparisons|ANOVA|||||||0.88
82554796|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|-1.04|STANDARD_ERROR_OF_MEAN|0.571||0.0734|TWO_SIDED|90.0|-1.99|-0.09|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.09|-1.99|0.0734
82554797|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|0.565||0.0022|TWO_SIDED|90.0|-2.74|-0.86|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.86|-2.74|0.0022
82482672|NCT02502006|164658465|SUPERIORITY||||||<|0.05||||||Adjusted for multiple comparisons|ANOVA|||||||<0.05
82482673|NCT00997113|164658468|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of the change in serum catecholamines from one minute before the procedure to one minute after. In order to detect a 20% difference in mean catecholamine values between groups, assuming a 30% standard deviation, with an alpha of 0.05 and a beta of 0.2 (80% power), power analysis indicated that 10 patients per group were required.||||0.940
82482674|NCT01101191|164658473|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|103.0|||||TWO_SIDED|90.0|98.67|106.66|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||106.66|98.67|
82482675|NCT01101191|164658474|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|97.0|||||TWO_SIDED|90.0|94.2|99.81|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||99.81|94.20|
82482676|NCT01101191|164658475|NON_INFERIORITY_OR_EQUIVALENCE|A mixed-model analysis of variance was used to compare (test vs reference) and the 90% confidence intervals were estimated for the ratios (test/reference)|Geometric Test/Ref Ratio x 100|97.1|||||TWO_SIDED|90.0|94.41|99.94|||ANOVA||Bioequivalence is established when 90% Confidence Interval falls within 80%-125%.|||99.94|94.41|
82482677|NCT02751931|164658477|OTHER||Mean Difference (Net)|72.09|||<|0.001|TWO_SIDED|95.0|45.28|98.89||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||98.89|45.28|<0.001
82482678|NCT02751931|164658477|OTHER||Mean Difference (Net)|113.21|||<|0.001|TWO_SIDED|95.0|78.95|147.47||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||147.47|78.95|<0.001
82482679|NCT02751931|164658478|OTHER||Mean Difference (Net)|-4.09||||0.618|TWO_SIDED|95.0|-20.55|12.38||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||12.38|-20.55|0.618
82482680|NCT02751931|164658478|OTHER||Mean Difference (Net)|15.16||||0.005|TWO_SIDED|95.0|5.1|25.22||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||25.22|5.10|0.005
82482681|NCT02751931|164658478|OTHER||Mean Difference (Net)|14.62||||0.055|TWO_SIDED|95.0|-0.31|29.54||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||29.54|-0.31|0.055
82482682|NCT02751931|164658478|OTHER||Mean Difference (Net)|13.59|||<|0.001|TWO_SIDED|95.0|6.75|20.42||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||20.42|6.75|<0.001
82554798|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.589||0.066|TWO_SIDED|90.0|-2.08|-0.12|||Linear mixed-effects model||Change from Week -1 to Week 1|||-0.12|-2.08|0.0660
82554799|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|1.18|STANDARD_ERROR_OF_MEAN|0.613||0.0593|TWO_SIDED|90.0|0.15|2.2|||Linear mixed-effects model||||Change from Week -1 to Week 2|2.20|0.15|0.0593
82554800|NCT02865538|164816142|OTHER||LS means difference|-0.93|STANDARD_ERROR_OF_MEAN|0.614||0.1354|TWO_SIDED|90.0|-1.95|0.1|||Linear mixed-effects model||Change from Week -1 to Week 2|||0.10|-1.95|0.1354
82482683|NCT02751931|164658479|OTHER||Mean Difference (Net)|41.36|||<|0.001|TWO_SIDED|95.0|18.75|63.97||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change from Baseline at week 4 - Children.||63.97|18.75|<0.001
82482684|NCT02751931|164658479|OTHER||Mean Difference (Net)|80.78|||<|0.001|TWO_SIDED|95.0|39.2|122.36||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||122.36|39.20|<0.001
82482685|NCT02751931|164658480|OTHER||Mean Difference (Net)|0.44||||0.632|TWO_SIDED|95.0|-1.4|2.28||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||2.28|-1.40|0.632
82482686|NCT02751931|164658480|OTHER||Mean Difference (Net)|-0.64||||0.321|TWO_SIDED|95.0|-1.94|0.67|||t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||0.67|-1.94|0.321
82482687|NCT02751931|164658480|OTHER||Mean Difference (Net)|-1.86||||0.011|TWO_SIDED|95.0|-3.27|-0.45||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||-0.45|-3.27|0.011
82482688|NCT02751931|164658480|OTHER||Mean Difference (Net)|-0.77||||0.359|TWO_SIDED|95.0|-2.49|0.94||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||0.94|-2.49|0.359
82482689|NCT02751931|164658481|OTHER||Mean Difference (Net)|-12.38|||<|0.001|TWO_SIDED|95.0|-18.56|-6.21||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||-6.21|-18.56|<0.001
82482690|NCT02751931|164658481|OTHER||Mean Difference (Net)|-6.48||||0.334|TWO_SIDED|95.0|-20.09|7.13||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||7.13|-20.09|0.334
82482691|NCT02751931|164658481|OTHER||Mean Difference (Net)|-18.11|||<|0.001|TWO_SIDED|95.0|-24.87|-11.35||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||-11.35|-24.87|<0.001
82482692|NCT02751931|164658481|OTHER||Mean Difference (Net)|-13.19||||0.005||95.0|-22.02|-4.36||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||-4.36|-22.02|0.005
82482693|NCT02751931|164658482|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Children||||<0.001
82482694|NCT02751931|164658482|OTHER|||||||0.148||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Adolescents||||0.148
82482695|NCT02751931|164658482|OTHER|||||||0.002||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Children||||0.002
82482696|NCT02751931|164658482|OTHER|||||||0.039||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Adolescents||||0.039
82482697|NCT02751931|164658483|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Children||||<0.001
82482698|NCT02751931|164658483|OTHER|||||||0.007||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 4 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 4 - Adolescents||||0.007
82554801|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|0.603||0.0005|TWO_SIDED|90.0|-3.21|-1.2|||Linear mixed-effects model||Change from Week -1 to Week 2|||-1.20|-3.21|0.0005
82554802|NCT02865538|164816142|OTHER|Descriptive Analysis|LS means difference|-1.38|STANDARD_ERROR_OF_MEAN|0.628||0.0309|TWO_SIDED|90.0|-2.43|-0.34|||Linear mixed-effects model||Change from Week -1 to Week 2|||-0.34|-2.43|0.0309
82581713|NCT01942590|164875215|OTHER|||||||0.0371|||||||t-test, 1 sided|||Baseline, Week 52||||0.0371
82482699|NCT02751931|164658483|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Children||||< 0.001
82482700|NCT02751931|164658483|OTHER||||||<|0.001||||||From a Wilcoxon signed-rank test, testing the null hypothesis that week 24 median is equal to baseline median.|Wilcoxon signed-rank test|||Change From Baseline at Week 24 - Adolescents||||< 0.001
82482701|NCT02751931|164658484|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||||<0.001
82482702|NCT02751931|164658484|OTHER|||||||0.006||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||||0.006
82482703|NCT02751931|164658484|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||||< 0.001
82482704|NCT02751931|164658484|OTHER|||||||0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline was equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||||0.001
82482705|NCT02751931|164658485|OTHER||Mean Difference (Net)|14.58||||0.035|TWO_SIDED|95.0|1.0|28.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||28.1|1.0|0.035
82482706|NCT02751931|164658485|OTHER||Mean Difference (Net)|35.99||||0.003|TWO_SIDED|95.0|13.1|58.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||58.9|13.1|0.003
82581714|NCT01942590|164875216|OTHER|||||||0.268|||||||t-test, 1 sided|||Baseline, Week 18||||0.268
82581715|NCT01942590|164875216|OTHER|||||||0.0036|||||||t-test, 1 sided|||Baseline, Week 52||||0.0036
82482707|NCT02751931|164658485|OTHER||Mean Difference (Net)|30.08|||<|0.001|TWO_SIDED|95.0|14.7|45.5||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||45.5|14.7|<0.001
82482708|NCT02751931|164658485|OTHER||Mean Difference (Net)|51.96|||<|0.001|TWO_SIDED|95.0|24.6|79.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||79.3|24.6|<0.001
82482709|NCT02751931|164658485|OTHER||Mean Difference (Net)|36.9|||<|0.001|TWO_SIDED|95.0|22.7|51.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||51.1|22.7|<0.001
82482710|NCT02751931|164658485|OTHER||Mean Difference (Net)|45.1|||<|0.001|TWO_SIDED|95.0|21.3|68.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||68.9|21.3|<0.001
82482711|NCT02751931|164658485|OTHER||Mean Difference (Net)|32.25|||<|0.001|TWO_SIDED|95.0|18.2|46.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||46.3|18.2|<0.001
82482712|NCT02751931|164658485|OTHER||Mean Difference (Net)|43.94||||0.001|TWO_SIDED|95.0|19.2|68.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||68.6|19.2|0.001
82482713|NCT02751931|164658485|OTHER||Mean Difference (Net)|41.63|||<|0.001|TWO_SIDED|95.0|23.3|60.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||60.0|23.3|<0.001
82482714|NCT02751931|164658485|OTHER||Mean Difference (Net)|59.31||||0.002|TWO_SIDED|95.0|23.8|94.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||94.9|23.8|0.002
82482715|NCT02751931|164658485|OTHER||Mean Difference (Net)|53.87|||<|0.001|TWO_SIDED|95.0|24.5|83.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||83.2|24.5|<0.001
82482716|NCT02751931|164658485|OTHER||Mean Difference (Net)|52.14||||0.002|TWO_SIDED|95.0|20.5|83.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||83.8|20.5|0.002
82482717|NCT02751931|164658485|OTHER||Mean Difference (Net)|42.84|||<|0.001|TWO_SIDED|95.0|22.0|63.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||63.7|22.0|<0.001
82482718|NCT02751931|164658485|OTHER||Mean Difference (Net)|42.4||||0.008|TWO_SIDED|95.0|12.5|72.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||72.3|12.5|0.008
82482719|NCT02751931|164658486|OTHER||Mean Difference (Net)|17.5||||0.126|TWO_SIDED|95.0|-5.1|40.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.1|-5.1|0.126
82482720|NCT02751931|164658486|OTHER||Mean Difference (Net)|42.38||||0.014|TWO_SIDED|95.0|9.3|75.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||75.4|9.3|0.014
82554803|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-9.7|STANDARD_ERROR_OF_MEAN|10.88||0.3768|TWO_SIDED|90.0|-27.8|8.5|||Linear mixed-effects model||Change from Day -1 to Day 1|||8.5|-27.8|0.3768
82554804|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-25.0|STANDARD_ERROR_OF_MEAN|10.89||0.0248|TWO_SIDED|90.0|-43.1|-6.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-6.8|-43.1|0.0248
82554805|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-43.9|STANDARD_ERROR_OF_MEAN|10.9||0.0001|TWO_SIDED|90.0|-62.1|-25.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-25.8|-62.1|0.0001
82554806|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-42.9|STANDARD_ERROR_OF_MEAN|11.43||0.0004|TWO_SIDED|90.0|-61.9|-23.8|||Linear mixed-effects model||Change from Day -1 to Day 1|||-23.8|-61.9|0.0004
82554807|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|10.4|STANDARD_ERROR_OF_MEAN|14.76||0.4819|TWO_SIDED|90.0|-14.2|35.1|||Linear mixed-effects model||Change from Day -1 to Day 7|||35.1|-14.2|0.4819
82581716|NCT01942590|164875216|OTHER|||||||0.286|||||||t-test, 1 sided|||Baseline, Week 18||||0.286
82482721|NCT02751931|164658486|OTHER||Mean Difference (Net)|46.69|||<|0.001|TWO_SIDED|95.0|21.7|71.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||71.7|21.7|<0.001
82482722|NCT02751931|164658486|OTHER||Mean Difference (Net)|73.25||||0.002|TWO_SIDED|95.0|29.3|117.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||117.2|29.3|0.002
82482723|NCT02751931|164658486|OTHER|Pre-Specified|Mean Difference (Net)|45.27|||<|0.001|TWO_SIDED|95.0|22.1|68.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||68.4|22.1|<0.001
82482724|NCT02751931|164658486|OTHER||Mean Difference (Net)|42.86||||0.02|TWO_SIDED|95.0|7.4|78.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||78.3|7.4|0.020
82482725|NCT02751931|164658486|OTHER||Mean Difference (Net)|33.23||||0.003|TWO_SIDED|95.0|12.2|54.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||54.3|12.2|0.003
82482726|NCT02751931|164658486|OTHER||Mean Difference (Net)|47.29||||0.003|TWO_SIDED|95.0|17.8|76.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||76.8|17.8|0.003
82554808|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|14.77||0.8694|TWO_SIDED|90.0|-27.1|22.2|||Linear mixed-effects model||Change from Day -1 to Day 7|||22.2|-27.1|0.8694
82581717|NCT01942590|164875216|OTHER|||||||0.279|||||||t-test, 1 sided|||Baseline, Week 52||||0.279
82581718|NCT01942590|164875217|OTHER|||||||0.479|||||||t-test, 1 sided|||Baseline, Week 18||||0.479
82482727|NCT02751931|164658486|OTHER||Mean Difference (Net)|49.88||||0.004|TWO_SIDED|95.0|17.1|82.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||82.6|17.1|0.004
82482728|NCT02751931|164658486|OTHER||Mean Difference (Net)|84.39||||0.003|TWO_SIDED|95.0|31.6|137.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||137.1|31.6|0.003
82482729|NCT02751931|164658486|OTHER||Mean Difference (Net)|60.09||||0.003|TWO_SIDED|95.0|21.2|99.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||99.0|21.2|0.003
82482730|NCT02751931|164658486|OTHER||Mean Difference (Net)|54.78||||0.017|TWO_SIDED|95.0|10.6|98.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||98.9|10.6|0.017
82482731|NCT02751931|164658486|OTHER||Mean Difference (Net)|53.51||||0.001|TWO_SIDED|95.0|22.6|84.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||84.4|22.6|0.001
82482732|NCT02751931|164658486|OTHER||Mean Difference (Net)|54.3||||0.021|TWO_SIDED|95.0|9.0|99.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||99.6|9.0|0.021
82482733|NCT02751931|164658487|OTHER||Mean Difference (Net)|18.13||||0.113|TWO_SIDED|95.0|-4.5|40.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.7|-4.5|0.113
82482734|NCT02751931|164658487|OTHER||Mean Difference (Net)|35.58||||0.056|TWO_SIDED|95.0|-1.1|72.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||72.2|-1.1|0.056
82482735|NCT02751931|164658487|OTHER||Mean Difference (Net)|37.71||||0.005|TWO_SIDED|95.0|11.7|63.7|||t-test, 2 sided|From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.||Change From Baseline at Week 4 - Children||63.7|11.7|0.005
82482736|NCT02751931|164658487|OTHER||Mean Difference (Net)|70.35||||0.006|TWO_SIDED|95.0|22.2|118.5||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||118.5|22.2|0.006
82554809|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-23.9|STANDARD_ERROR_OF_MEAN|14.79||0.1105|TWO_SIDED|90.0|-48.6|0.7|||Linear mixed-effects model||Change from Day -1 to Day 7|||0.7|-48.6|0.1105
82554810|NCT02865538|164816143|OTHER|Descriptive analysis|LS means difference|-18.4|STANDARD_ERROR_OF_MEAN|15.5||0.239|TWO_SIDED|90.0|-44.2|7.4|||Linear mixed-effects model||Change from Day -1 to Day 7|||7.4|-44.2|0.2390
82554811|NCT02278211|164816192|OTHER||Hazard Ratio (HR)|1.25||||0.2|TWO_SIDED|95.0|0.89|1.76|||Log Rank|||||1.76|0.89|0.20
82482737|NCT02751931|164658487|OTHER||Mean Difference (Net)|43.91|||<|0.001|TWO_SIDED|95.0|21.0|66.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||66.8|21.0|<0.001
82482738|NCT02751931|164658487|OTHER||Mean Difference (Net)|38.11||||0.063|TWO_SIDED|95.0|-2.2|78.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||78.4|-2.2|0.063
82482739|NCT02751931|164658487|OTHER||Mean Difference (Net)|29.05||||0.008|TWO_SIDED|95.0|8.2|49.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||49.9|8.2|0.008
82482740|NCT02751931|164658487|OTHER||Mean Difference (Net)|43.04||||0.009|TWO_SIDED|95.0|11.9|74.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||74.2|11.9|0.009
82482741|NCT02751931|164658487|OTHER||Mean Difference (Net)|44.2||||0.006|TWO_SIDED|95.0|13.2|75.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||75.2|13.2|0.006
82482742|NCT02751931|164658487|OTHER||Mean Difference (Net)|81.37||||0.003|TWO_SIDED|95.0|30.4|132.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||132.3|30.4|0.003
82482743|NCT02751931|164658487|OTHER||Mean Difference (Net)|58.49||||0.004|TWO_SIDED|95.0|19.8|97.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||97.2|19.8|0.004
82482744|NCT02751931|164658487|OTHER||Mean Difference (Net)|50.9||||0.039|TWO_SIDED|95.0|2.7|99.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||99.1|2.7|0.039
82482745|NCT02751931|164658487|OTHER||Mean Difference (Net)|53.76||||0.002|TWO_SIDED|95.0|21.7|85.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||85.8|21.7|0.002
82482746|NCT02751931|164658487|OTHER||Mean Difference (Net)|49.13||||0.057|TWO_SIDED|95.0|-1.6|99.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||99.8|-1.6|0.057
82482747|NCT02751931|164658488|OTHER||Mean Difference (Net)|7.98||||0.617|TWO_SIDED|95.0|-24.0|40.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||40.0|-24.0|0.617
82482748|NCT02751931|164658488|OTHER||Mean Difference (Net)|39.52||||0.035|TWO_SIDED|95.0|3.0|76.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||76.0|3.0|0.035
82482749|NCT02751931|164658488|OTHER||Mean Difference (Net)|19.81||||0.167|TWO_SIDED|95.0|-8.7|48.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||48.3|-8.7|0.167
82554812|NCT02278211|164816193|OTHER||Hazard Ratio (HR)|2.43||||0.02|TWO_SIDED|95.0|1.15|5.12|||Log Rank|||||5.12|1.15|0.02
82554813|NCT06037668|164816198|SUPERIORITY|||||||0.1134||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1134
82376770|NCT03888066|164459895|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.006|TWO_SIDED|95.0|0.45|0.87||Threshold for statistical significance = 0.05|Regression, Cox|||"Hazard Ratio patiromer vs placebo.~The HR for the time to first hyperkalemia event for patiromer vs placebo was calculated. HR and p-value come from a Cox proportional regression model adjusted for geographic region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR.~HR = Hazard Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.87|0.45|= 0.006
82554814|NCT06037668|164816199|SUPERIORITY|||||||0.0031||||||p-values are calculated by independent t-test|Independent t-test|||||||0.003100
82554815|NCT06037668|164816200|SUPERIORITY|||||||0.0503||||||p-values are calculated by independent t-test|Independent t-test|||||||0.050300
82554816|NCT06037668|164816201|SUPERIORITY|||||||0.1178||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1178
82554817|NCT06037668|164816202|SUPERIORITY|||||||0.1003||||||p-values are calculated by independent t-test|Independent t-test|||||||0.1003
82554818|NCT06037668|164816203|SUPERIORITY|||||||0.4832||||||p-values are calculated by independent t-test|Independent t-test|||||||0.4832
82554819|NCT04881461|164816222|SUPERIORITY||Mean Difference (Final Values)|1.88||||0.0036|TWO_SIDED|95.0|0.6|3.17||Adjusted P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The endpoint analysis was based on a 5% significance level. The trial was designed to have 86% power for the primary endpoint using the primary (trial product) estimand."||3.17|0.60|0.0036
82554820|NCT04881461|164816223|SUPERIORITY||Mean Difference (Final Values)|0.17||||0.1111|TWO_SIDED|95.0|-0.04|0.39||Adjusted P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction.|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The endpoint analysis was based on a 5% significance level. The trial was designed to have 95% power for this key secondary endpoint using the primary (trial product) estimand."||0.39|-0.04|0.1111
82554821|NCT04881461|164816224|SUPERIORITY||Mean Difference (Final Values)|1.33||||0.0417|TWO_SIDED|95.0|-0.01|2.67||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||2.67|-0.01|0.0417
82554822|NCT04881461|164816225|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.4984|TWO_SIDED|95.0|-0.15|0.3||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass SLIT drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.30|-0.15|0.4984
82482750|NCT02751931|164658488|OTHER||Mean Difference (Net)|75.25||||0.005|TWO_SIDED|95.0|25.8|124.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||124.7|25.8|0.005
82482751|NCT02751931|164658488|OTHER||Mean Difference (Net)|34.01||||0.02|TWO_SIDED|95.0|5.7|62.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||62.3|5.7|0.020
82482752|NCT02751931|164658488|OTHER||Mean Difference (Net)|44.43||||0.033|TWO_SIDED|95.0|3.9|84.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||84.9|3.9|0.033
82482753|NCT02751931|164658488|OTHER||Mean Difference (Net)|8.68||||0.503|TWO_SIDED|95.0|-17.3|34.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0|t-test, 2 sided|||Change From Baseline at Week 12 - Children||34.7|-17.3|0.503
82482754|NCT02751931|164658488|OTHER||Mean Difference (Net)|38.23||||0.016|TWO_SIDED|95.0|7.8|68.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||68.6|7.8|0.016
82482755|NCT02751931|164658488|OTHER||Mean Difference (Net)|40.76||||0.043|TWO_SIDED|95.0|1.4|80.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||80.2|1.4|0.043
82482756|NCT02751931|164658488|OTHER||Mean Difference (Net)|86.66|||<|0.001|TWO_SIDED|95.0|41.5|131.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||131.8|41.5|<0.001
82482757|NCT02751931|164658488|OTHER||Mean Difference (Net)|31.08||||0.203|TWO_SIDED|95.0|-17.5|79.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||79.6|-17.5|0.203
82482758|NCT02751931|164658488|OTHER||Mean Difference (Net)|68.47||||0.019|TWO_SIDED|95.0|12.7|124.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||124.2|12.7|0.019
82482759|NCT02751931|164658488|OTHER||Mean Difference (Net)|31.83||||0.042|TWO_SIDED|95.0|1.3|62.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||62.4|1.3|0.042
82482760|NCT02751931|164658488|OTHER||Mean Difference (Net)|38.14||||0.121|TWO_SIDED|95.0|-11.0|87.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||87.3|-11.0|0.121
82482761|NCT02751931|164658489|OTHER||Mean Difference (Net)|0.35||||0.818|TWO_SIDED|95.0|-2.7|3.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||3.4|-2.7|0.818
82482762|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.53||||0.114|TWO_SIDED|95.0|-1.2|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||0.1|-1.2|0.114
82482763|NCT02751931|164658489|OTHER||Mean Difference (Net)|-1.14||||0.052|TWO_SIDED|95.0|-2.3|0.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||0.0|-2.3|0.052
82554823|NCT04881461|164816226|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.4438|TWO_SIDED|95.0|-0.12|0.27||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.27|-0.12|0.4438
82554824|NCT04881461|164816227|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.0363|TWO_SIDED|95.0|0.01|0.38||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.38|0.01|0.0363
82554825|NCT04881461|164816228|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.0329|TWO_SIDED|95.0|0.06|2.31||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand.."||2.31|0.06|0.0329
82554826|NCT04881461|164816229|SUPERIORITY||Mean Difference (Final Values)|1.73||||0.0016|TWO_SIDED|95.0|0.66|2.79||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||2.79|0.66|0.0016
82554827|NCT04881461|164816230|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.4502|TWO_SIDED|95.0|-0.42|0.92||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.92|-0.42|0.4502
82554828|NCT04881461|164816231|SUPERIORITY||Mean Difference (Final Values)|0.55||||0.1177|TWO_SIDED|95.0|-0.14|1.23||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.23|-0.14|0.1177
82554829|NCT04881461|164816232|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.4604|TWO_SIDED|95.0|-0.37|0.79||Observed P-value|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||0.79|-0.37|0.4604
82554830|NCT04881461|164816233|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.0549|TWO_SIDED|95.0|-0.01|1.15||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.15|-0.01|0.0549
82554831|NCT04881461|164816234|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.0049|TWO_SIDED|95.0|0.3|1.93||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.93|0.30|0.0049
82482764|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.87||||0.066|TWO_SIDED|95.0|-1.8|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||0.1|-1.8|0.066
82482765|NCT02751931|164658489|OTHER||Mean Difference (Net)|1.16||||0.674|TWO_SIDED|95.0|-4.4|6.7||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||6.7|-4.4|0.674
82554832|NCT04881461|164816235|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.0004|TWO_SIDED|95.0|0.54|1.95||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.95|0.54|0.0004
82554833|NCT04881461|164816236|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.0054|TWO_SIDED|95.0|0.25|1.63||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.63|0.25|0.0054
82581719|NCT01942590|164875217|OTHER|||||||0.059|||||||t-test, 1 sided|||Baseline, Week 52||||0.059
82581720|NCT01942590|164875217|OTHER|||||||0.152|||||||t-test, 1 sided|||Baseline, Week 18||||0.152
82581721|NCT01942590|164875217|OTHER|||||||0.118|||||||t-test, 1 sided|||Baseline, Week 52||||0.118
82581722|NCT03748992|164875232|OTHER|Since no hypothesis testing was planned, no power analysis was required||||||||||||Non Applicable||Non Applicable||This was a single arm trial. there is no comparator group.|The overall response rates were calculated, and exact binomial confidence intervals was constructed.|||
82482766|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.65||||0.278|TWO_SIDED|95.0|-1.9|0.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||0.6|-1.9|0.278
82482767|NCT02751931|164658489|OTHER||Mean Difference (Net)|0.37||||0.871|TWO_SIDED|95.0|-4.2|5.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||5.0|-4.2|0.871
82482768|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.65||||0.153|TWO_SIDED|95.0|-1.6|0.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||0.3|-1.6|0.153
82482769|NCT02751931|164658489|OTHER||Mean Difference (Net)|0.18||||0.922|TWO_SIDED|95.0|-3.5|3.9||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||3.9|-3.5|0.922
82554834|NCT04881461|164816237|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.0002|TWO_SIDED|95.0|0.52|1.71||Observed P-value.|Mixed Models Analysis|Covariates in the model: treatment, season and their interaction, ongoing asthma status, and country and season interaction|Placebo vs 5-grass mix SLIT-drops|"The null hypothesis was defined as no difference in means between treatment arms. The analysis was based on a 5% significance level. The endpoint was analysed using primary (trial product) estimand."||1.71|0.52|0.0002
82554835|NCT02997202|164816238|SUPERIORITY||Hazard Ratio (HR)|0.679||||0.0518|TWO_SIDED|95.0|0.459|1.005|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.005|0.459|0.0518
82554836|NCT02997202|164816239|SUPERIORITY||Hazard Ratio (HR)|0.846||||0.4394|TWO_SIDED|95.0|0.554|1.293|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.293|0.554|0.4394
82554837|NCT02997202|164816242|SUPERIORITY||Hazard Ratio (HR)|2.308||||0.0209|TWO_SIDED|95.0|1.1352|4.6922|||Fine-Grays Model|||Based on Fine \& Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||4.6922|1.1352|0.0209
82554838|NCT02997202|164816243|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.6417|TWO_SIDED|95.0|0.686|1.261|||Log Rank|||Stratification factors were conditioning regimen intensity MAC vs RIC/NMA, time from transplant to randomization (30 to 60 days vs 61 to 90 days), and the presence of MRD (present vs absent/unknown) based on the pre-transplant BM aspirate.||1.261|0.686|0.6417
82554839|NCT02997202|164816244|SUPERIORITY||Hazard Ratio (HR)|0.8938||||0.641|TWO_SIDED|95.0|0.5574|1.433|||Fine-Grays model|||"aGVHD II to IV:~Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate."||1.4330|0.5574|0.6410
82554840|NCT02997202|164816244|SUPERIORITY||Hazard Ratio (HR)|1.4254||||0.4128|TWO_SIDED|95.0|0.6103|3.3289|||Fine-Grays model|||"aGVHD III to IV:~Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate."||3.3289|0.6103|0.4128
82554841|NCT02997202|164816245|SUPERIORITY||Hazard Ratio (HR)|1.236||||0.1725|TWO_SIDED|95.0|0.9116|1.6757|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||1.6757|0.9116|0.1725
82554842|NCT02997202|164816246|SUPERIORITY||Hazard Ratio (HR)|1.236||||0.1725|TWO_SIDED|95.0|0.9116|1.6757|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||1.6757|0.9116|0.1725
82554843|NCT02997202|164816247|SUPERIORITY||Hazard Ratio (HR)|3.4537||||0.2029|TWO_SIDED|95.0|0.5126|23.2687|||Fine-Grays Model|||MRD Eradication||23.2687|0.5126|0.2029
82554844|NCT02997202|164816247|SUPERIORITY||Hazard Ratio (HR)|0.7073||||0.4077|TWO_SIDED|95.0|0.3116|1.6055|||Fine-Grays Model|||MRD 10\^-4 Detection||1.6055|0.3116|0.4077
82482770|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.75||||0.047|TWO_SIDED|95.0|-1.5|0.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||0.0|-1.5|0.047
82482771|NCT02751931|164658489|OTHER||Mean Difference (Net)|-1.98||||0.018|TWO_SIDED|95.0|-3.6|-0.4||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||-0.4|-3.6|0.018
82482772|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.81||||0.07|TWO_SIDED|95.0|-1.7|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||0.1|-1.7|0.070
82482773|NCT02751931|164658489|OTHER||Mean Difference (Net)|-0.94||||0.083|TWO_SIDED|95.0|-2.0|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||0.1|-2.0|0.083
82554845|NCT02997202|164816248|SUPERIORITY||Hazard Ratio (HR)|0.3729|||<|0.001|TWO_SIDED|95.0|0.2243|0.6199|||Fine-Grays Model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||0.6199|0.2243|<0.001
82554846|NCT02997202|164816249|SUPERIORITY||Hazard Ratio (HR)|1.4848||||0.0568|TWO_SIDED|95.0|0.9886|2.23|||Fine-Grays model|||Based on Fine and Gray's model adjusting for conditioning regimen intensity (MAC vs RIC/NMA), time from transplant to randomization (30-60 days vs 61-90 days) \& presence of MRD (present vs absent/indeterminate) based on the pre-transplant BM aspirate.||2.2300|0.9886|0.0568
82586121|NCT02254278|164884175|SUPERIORITY|||||||0.02||||||Two-sided significance level = 0.05|Fisher Exact|||||||0.02
82482774|NCT02751931|164658489|OTHER||Mean Difference (Net)|-1.12||||0.064|TWO_SIDED|95.0|-2.3|0.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||0.1|-2.3|0.064
82482775|NCT02751931|164658490|OTHER|||||||0.692||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||||0.692
82482776|NCT02751931|164658490|OTHER|||||||0.018||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||||0.018
82554847|NCT02326974|164816284|SUPERIORITY||||||<|0.001|||||||Mantel Haenszel|||By estimating that the overall pCR with T-DM1 plus pertuzumab would be approximately 40%, and 20% of the population classified as heterogeneous, the study would have 80% power with 136 evaluable patients to detect a difference in pCR of 44.9% in the non-heterogenous versus 20.3% in the heterogenous subgroup. The study had a 90% power to detect difference in pCR of 43.4% in the non-heterogenous versus 8.8% in the heterogenous subgroup if the observed prevalence of HER2 heterogeneity was 10%.||||<0.001
82554848|NCT04214834|164816297|SUPERIORITY||Mean Difference (Final Values)|2.96|||<|0.001|TWO_SIDED|95.0|1.7|4.29|||Mixed Models Analysis||Given that the model was on the log scale, mean difference and 95% confidence interval were derived from 1,000 bootstrap resamples.|A logarithmic transformation was applied to the outcome, centers were added as random effects to account for variation between them.||4.29|1.70|<0.001
82554849|NCT03812614|164816324|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.07|TWO_SIDED|95.0|-0.05|1.14|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Linear mixed model with random intercept and slope was used to compare the change in HbA1c as a function of time (included using restricted cubic splines), the interaction between time and intervention arm, baseline A1c and whether PT-SP live together (stratification variables), baseline insulin use, age, vital hunger, and preferred language.||1.14|-0.05|0.07
82554850|NCT03812614|164816325|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.96|TWO_SIDED|95.0|-0.67|0.64|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Linear mixed model with random intercept and slope was used to compare the change in A1c as a function of time (included using restricted cubic splines), the interaction between time and intervention arm, baseline A1c and whether PT-SP live together (stratification variables), baseline insulin use, age, vital hunger, and preferred language||0.64|-0.67|0.96
82554851|NCT03812614|164816326|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.55|TWO_SIDED|95.0|-6.4|3.38|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient SBP was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||3.38|-6.40|0.55
82554852|NCT03812614|164816327|SUPERIORITY||Mean Difference (Final Values)|5.74||||0.03|TWO_SIDED|95.0|0.57|10.91|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient SBP was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||10.91|0.57|0.03
82554853|NCT03812614|164816328|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.76|TWO_SIDED|95.0|-2.15|1.58|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient diabetes distress was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.58|-2.15|0.76
82554854|NCT03812614|164816329|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.72|TWO_SIDED|95.0|-2.11|1.46|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient diabetes distress was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.46|-2.11|0.72
82554855|NCT03812614|164816330|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.38|TWO_SIDED|95.0|-0.76|0.29|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Change in patient health eating was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.29|-0.76|0.38
82554856|NCT03812614|164816331|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.7|TWO_SIDED|95.0|-1.11|0.74|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient physical activity was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.74|-1.11|0.70
82554857|NCT03812614|164816332|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.75|TWO_SIDED|95.0|-0.53|0.74|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient diabetes medication adherence was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.74|-0.53|0.75
82554858|NCT03812614|164816332|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.94|TWO_SIDED|95.0|-0.98|0.91|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient blood pressure medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.91|-0.98|0.94
82554859|NCT03812614|164816332|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.42|TWO_SIDED|95.0|-1.46|0.61|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient cholesterol medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.61|-1.46|0.42
82554860|NCT03812614|164816333|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.96|TWO_SIDED|95.0|-0.54|0.52|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient self-efficacy was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.52|-0.54|0.96
82581723|NCT03748992|164875234|OTHER|Since no hypothesis testing was planned, no power analysis was required||||||||||||||||This was a single arm trial. there is no comparator group.|The overall response rates were calculated, and exact binomial confidence intervals was constructed.|||
82581724|NCT03924765|164875235|OTHER|A one-way repeated measures analysis of variance (ANOVA) was performed on different exoskeleton assistance strategies (including the baseline of not wearing the exoskeleton) on the subject's overground self-selected walking speed by setting an alpha value to 0.05.||||||5e-06|||||||ANOVA|||Primary Outcome Measure - Arm/Group 1||||0.000005
82554861|NCT03812614|164816334|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.4|TWO_SIDED|95.0|-3.92|9.78|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient activation was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||9.78|-3.92|0.40
82554862|NCT03812614|164816335|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.11|TWO_SIDED|95.0|-0.18|1.68|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient satisfaction with SP support was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.68|-0.18|0.11
82482777|NCT02751931|164658490|OTHER|||||||0.061||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||||0.061
82554863|NCT03812614|164816336|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.34|TWO_SIDED|95.0|-0.19|0.55|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient perception of supportive and non-supportive behaviors was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.55|-0.19|0.34
82482778|NCT02751931|164658490|OTHER|||||||0.008||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||||0.008
82482779|NCT02751931|164658490|OTHER|||||||0.612||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||||0.612
82482780|NCT02751931|164658490|OTHER|||||||0.018||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||||0.018
82482781|NCT02751931|164658490|OTHER|||||||0.858||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||||0.858
82482782|NCT02751931|164658490|OTHER|||||||0.004||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||||0.004
82482783|NCT02751931|164658490|OTHER|||||||0.003||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||||0.003
82482784|NCT02751931|164658490|OTHER||||||<|0.001||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||||< 0.001
82482785|NCT02751931|164658490|OTHER|||||||0.045||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||||0.045
82482786|NCT02751931|164658490|OTHER|||||||0.002||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||||0.002
82482787|NCT02751931|164658490|OTHER|||||||0.006||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||||0.006
82482788|NCT02751931|164658490|OTHER|||||||0.007||||||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||||0.007
82554864|NCT03812614|164816338|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.47|TWO_SIDED|95.0|-2.67|1.23|||Mixed Models Analysis||Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||1.23|-2.67|0.47
82482789|NCT02751931|164658491|OTHER||Mean Difference (Net)|0.34||||0.018|TWO_SIDED|95.0|0.1|0.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Children||0.6|0.1|0.018
82482790|NCT02751931|164658491|OTHER||Mean Difference (Net)|0.82||||0.045|TWO_SIDED|95.0|0.0|1.6||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 2 - Adolescents||1.6|0.0|0.045
82482791|NCT02751931|164658491|OTHER||Mean Difference (Net)|0.68||||0.013|TWO_SIDED|95.0|0.1|1.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Children||1.2|0.1|0.013
82482792|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.36||||0.002|TWO_SIDED|95.0|0.6|2.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 4 - Adolescents||2.2|0.6|0.002
82482793|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.14||||0.001|TWO_SIDED|95.0|0.5|1.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Children||1.8|0.5|0.001
82482794|NCT02751931|164658491|OTHER||Mean Difference (Net)|2.26|||<|0.001|TWO_SIDED|95.0|1.2|3.3||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 8 - Adolescents||3.3|1.2|<0.001
82482795|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.31||||0.001|TWO_SIDED|95.0|0.5|2.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Children||2.1|0.5|0.001
82482796|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.93|||<|0.001|TWO_SIDED|95.0|0.9|3.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 12 - Adolescents||3.0|0.9|<0.001
82482797|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.34|||<|0.001|TWO_SIDED|95.0|0.7|2.0||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||2.0|0.7|<0.001
82482798|NCT02751931|164658491|OTHER||Mean Difference (Net)|2.17|||<|0.001|TWO_SIDED|95.0|1.2|3.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||3.2|1.2|<0.001
82482799|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.33||||0.002|TWO_SIDED|95.0|0.5|2.1||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Children||2.1|0.5|0.002
82482800|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.88|||<|0.001|TWO_SIDED|95.0|1.0|2.8||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 36 - Adolescents||2.8|1.0|<0.001
82482801|NCT02751931|164658491|OTHER||Mean Difference (Net)|1.38||||0.002|TWO_SIDED|95.0|0.5|2.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||2.2|0.5|0.002
82482802|NCT02751931|164658491|OTHER||Mean Difference (Net)|2.14|||<|0.001|TWO_SIDED|95.0|1.1|3.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||3.2|1.1|<0.001
82482803|NCT02751931|164658492|OTHER||Mean Difference (Net)|2.04||||0.352|TWO_SIDED|95.0|-2.4|6.49||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||6.49|-2.40|0.352
82482804|NCT02751931|164658492|OTHER||Mean Difference (Net)|-4.9||||0.127|TWO_SIDED|95.0|-11.34|1.53||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||1.53|-11.34|0.127
82482805|NCT02751931|164658492|OTHER||Mean Difference (Net)|1.3||||0.613|TWO_SIDED|95.0|-3.96|6.57||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||6.57|-3.96|0.613
82482806|NCT02751931|164658492|OTHER||Mean Difference (Net)|-6.79||||0.056|TWO_SIDED|95.0|-13.78|0.2||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||0.20|-13.78|0.056
82554865|NCT03812614|164816339|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.35|TWO_SIDED|95.0|-0.78|0.27|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||0.27|-0.78|0.35
82554866|NCT03812614|164816340|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.06|TWO_SIDED|95.0|-1.0|0.01|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient healthy eating was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.01|-1.00|0.06
82482807|NCT02751931|164658493|OTHER||Mean Difference (Net)|0.36||||0.153|TWO_SIDED|95.0|-0.14|0.86||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Children||0.86|-0.14|0.153
82482808|NCT02751931|164658493|OTHER||Mean Difference (Net)|0.64||||0.007|TWO_SIDED|95.0|0.19|1.08||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 24 - Adolescents||1.08|0.19|0.007
82482809|NCT02751931|164658493|OTHER||Mean Difference (Net)|0.42||||0.106|TWO_SIDED|95.0|-0.1|0.93||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Children||0.93|-0.10|0.106
82482810|NCT02751931|164658493|OTHER||Mean Difference (Net)|0.95||||0.003|TWO_SIDED|95.0|0.38|1.51||From a 2-sided paired t-test, testing the null hypothesis that change from baseline is equal to 0.|t-test, 2 sided|||Change From Baseline at Week 52 - Adolescents||1.51|0.38|0.003
82554867|NCT03812614|164816341|SUPERIORITY||Median Difference (Final Values)|-0.34||||0.45|TWO_SIDED|95.0|-1.22|0.54|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|||0.54|-1.22|0.45
82554868|NCT03812614|164816342|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.4|TWO_SIDED|95.0|-0.86|0.35|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient diabetes medication adherence was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.35|-0.86|0.40
82554869|NCT03812614|164816342|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.98|TWO_SIDED|95.0|-0.9|0.88|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient blood pressure medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.88|-0.90|0.98
82482811|NCT00562627|164658531|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
82482812|NCT00562627|164658532|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
82482813|NCT00562627|164658533|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82482814|NCT01155479|164658534|SUPERIORITY_OR_OTHER||Difference in Estimated Means|2.6||||0.0033|TWO_SIDED|95.0|0.86|4.3|||constrained longitudinal analysis|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||4.30|0.86|0.0033
82482815|NCT01155479|164658534|SUPERIORITY_OR_OTHER||Difference in Estimated Means|1.3||||0.1382|TWO_SIDED|95.0|-0.41|2.94|||constrained longitudinal analysis|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||2.94|-0.41|0.1382
82482816|NCT01155479|164658534|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.4||||0.6378|TWO_SIDED|95.0|-1.29|2.11|||constrained longitudinal analysis|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||2.11|-1.29|0.6378
82482817|NCT01155479|164658534|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.3||||0.6923|TWO_SIDED|95.0|-1.35|2.03|||constrained longitudinal analysis|||Rasagiline (Part 1) vs Placebo (Part 1)||2.03|-1.35|0.6923
82482818|NCT01155479|164658535|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-9.7||||0.0785|TWO_SIDED|95.0|-21.0|1.82||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||1.82|-21.0|0.0785
82482819|NCT01155479|164658535|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-6.3||||0.2735|TWO_SIDED|95.0|-17.6|5.05||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||5.05|-17.6|0.2735
82482820|NCT01155479|164658535|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-3.7||||0.4823|TWO_SIDED|95.0|-15.2|7.99||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||7.99|-15.2|0.4823
82482821|NCT01155479|164658535|SUPERIORITY_OR_OTHER||Difference vs Placebo (%)|-2.3||||0.6827|TWO_SIDED|95.0|-13.9|9.24||p-value is for the estimated Odds Ratio based on a generalized linear mixed model with baseline UPDRS2+3 as a covariate and treatment-by-time interaction as fixed effect and participant as random effect.|generalized linear mixed model|||Rasagiline (Part 1) vs Placebo (Part 1)||9.24|-13.9|0.6827
82482822|NCT01155479|164658536|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.7||||0.0235|TWO_SIDED|95.0|0.09|1.27|||constrained longitudinal analysis|||Preladenant 2 mg (Part 1) vs Placebo (Part 1)||1.27|0.09|0.0235
82482823|NCT01155479|164658536|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.5||||0.1093|TWO_SIDED|95.0|-0.11|1.04|||constrained longitudinal analysis|||Preladenant 5 mg (Part 1) vs Placebo (Part 1)||1.04|-0.11|0.1093
82482824|NCT01155479|164658536|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.2||||0.5756|TWO_SIDED|95.0|-0.42|0.75|||constrained longitudinal analysis|||Preladenant 10 mg (Part 1) vs Placebo (Part 1)||0.75|-0.42|0.5756
82482825|NCT01155479|164658536|SUPERIORITY_OR_OTHER||Difference in Estimated Means|0.1||||0.6657|TWO_SIDED|95.0|-0.45|0.7|||constrained longitudinal analysis|||Rasagiline (Part 1) vs Placebo (Part 1)||0.70|-0.45|0.6657
82482826|NCT02360605|164658541|SUPERIORITY|||||||0.61||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||FIT completion rates were defined as the percentage of FIT tests returned. Screening ratios were defined as the PC to AC ratio of FIT completion rates. Multivariate analyses adjusting for age, race, gender, and literacy level were done using generalized linear models. Multivariate analyses adjusting for age, race, gender, and literacy level were done using generalized linear models. A test for interaction between literacy level and study arm were assessed.||||0.61
82482827|NCT02360605|164658542|SUPERIORITY|||||||0.3||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Multivariate analyses adjusting for age, race, gender, and health literacy level were done using generalized linear models. A test for interaction between study arm and each of literacy level, age, gender and race was performed to determine whether treatment effect differed by levels of these factors. An unadjusted test for the main effect of each of health literacy level, age, gender, race and study arm was performed to determine whether screening rates differed by levels of these factors.||||0.30
82482828|NCT02360605|164658543|SUPERIORITY|||||||0.97||||||p-values control for age (in years), race (African American vs Caucasian and Hispanic), gender, and literacy (2 categories) The a priori threshold for statistical significance was p\<0.05|Mixed Models Analysis|||Multivariate analyses adjusting for age, race, gender, and health literacy level were done using generalized linear models. A test for interaction between study arm and each of literacy level, age, gender and race was performed to determine whether treatment effect differed by levels of these factors. An unadjusted test for the main effect of each of health literacy level, age, gender, race and study arm was performed to determine whether screening rates differed by levels of these factors.||||0.97
82482829|NCT02524977|164658571|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
82482830|NCT03977454|164658577|SUPERIORITY||Mean Difference (Net)|1.2||||0.69|TWO_SIDED||||||t-test, 2 sided|||The primary endpoint was a comparison between groups at 24 hours.||||0.69
82482831|NCT03977454|164658578|SUPERIORITY||Mean Difference (Net)|0.1||||0.92|TWO_SIDED||||||t-test, 2 sided|||Scores were compared at 2 days post operation.||||0.92
82482832|NCT03977454|164658579|SUPERIORITY||Mean Difference (Net)|0.5||||0.91|TWO_SIDED||||||t-test, 2 sided|||||||0.91
82482833|NCT03977454|164658581|SUPERIORITY||Mean Difference (Net)|0.0||||0.85|TWO_SIDED||||||t-test, 2 sided|||Scores were compared at 2 weeks.||||0.85
82482834|NCT01112683|164658584|SUPERIORITY_OR_OTHER|||||||0.403|ONE_SIDED|90.0|||||Mixed Models Analysis|An alpha level of 0.05 or lower represents statistical significance, no correction was made for multiple comparisons to minimize type II errors.||20 subjects per group were expected to provide 60% power to detect a between-group mean difference of 1.2 correct patterns (change from baseline to week 16) on the Paired Associates Learning and to provide 40% power to detect a between-group mean difference of 1.2 patterns recognized on the Pattern Recognition Memory. A two-sided test at type I error rate of 5% was used. Sample size incorporated an inflation factor of 20% to account for ineligibility of 10% of randomized participants.||||0.403
82482835|NCT01112683|164658585|SUPERIORITY_OR_OTHER|||||||0.371|ONE_SIDED|90.0||||This P-Value refers to the SIB-R Broad independence score.|Mixed Models Analysis|An alpha level of 0.05 or lower represents statistical significance, no correction was made for multiple comparisons to minimize type II errors.||No power calculations were performed for the secondary measures.||||0.371
82482836|NCT02398227|164658663|SUPERIORITY|||||||0.968|||||||ANCOVA|p value reported for overall effect across all-time points between treatment arms||||||.968
82482837|NCT02398227|164658664|SUPERIORITY|||||||0.56|||||||ANCOVA|p value reported for overall effect across all-time points between treatment arms||||||.560
82482838|NCT02674854|164658676|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. netarsudil||||||<0.0001
82482839|NCT02674854|164658676|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|PG324 vs. latanoprost||||||<0.0001
82482840|NCT02635646|164658680|OTHER|T test for mean comparisons between independent groups||||||0.844||||||Significant p value less than 0.05|t-test, 2 sided|||||||0.844
82482841|NCT02635646|164658681|OTHER|||||||0.624|||||||t-test, 2 sided|||||||0.624
82482842|NCT02635646|164658682|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82482843|NCT02635646|164658683|OTHER|||||||0.516|||||||t-test, 2 sided|||||||0.516
82482844|NCT02635646|164658684|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82554870|NCT03812614|164816342|SUPERIORITY||Mean Difference (Final Values)|-0.41||||0.43|TWO_SIDED|95.0|-1.42|0.61|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient cholesterol medication adherence (days/week meds were taken) was analyzed in a manner similar to that described for the primary outcome (6month change in patient A1c). Analyses were ITT and thus based on data from all enrolled patients.||0.61|-1.42|0.43
82482845|NCT02387476|164658693|NON_INFERIORITY|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.|Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|1.13|<|0.001|TWO_SIDED|95.0|-1.7|2.9||The p-value to test non-inferiority of FRESCA Mask compared with CPAP Mask (FRESCA-CPAP\<5 units) assumes a 1-sided test using a level of significance of 2.5% and NI margin of 5 units.|t-test, 1 sided||The mean AHI is rounded to a single decimal point in the text of the report (3.0 and 2.4, respectively), in order to be consistent with standard reporting of AHI.|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.||2.9|-1.7|<0.001
82482846|NCT02387476|164658694|NON_INFERIORITY|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.|Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.36|<|0.001|TWO_SIDED|95.0|-0.4|1.0||The p-value to test non-inferiority of FRESCA Mask compared with CPAP Mask (FRESCA-CPAP\<5 units) assumes a 1-sided test using a level of significance of 2.5% and NI margin of 5 units.|t-test, 1 sided||The mean ODI values are rounded to a single decimal point value in the text of the table (1.4 and 1.1, respectively) to ensure consistency with ODI reporting standards.|This analysis was planned to assume a non-inferiority (NI) margin of 5 units and a 1-sided alpha level of 2.5%. A 2-sided 95% confidence interval (CI) was also planned to be provided around the difference between treatments, where non-inferiority would also be demonstrated if the upper bound of the 95% CI is less than or equal to the NI margin of 5 units. In this scenario, the 2-sided 95% CI equates to testing the 1-sided non-inferiority hypothesis.||1.0|-0.4|<0.001
82482847|NCT00645788|164658711|SUPERIORITY_OR_OTHER|||||||0.076|||||||ANCOVA|||"Ho: \|Cipro 32.5 mg - matching placebo\|=0 and \|Cipro 48.75 mg - matching placebo\|=0"||||0.076
82482848|NCT00645788|164658713|SUPERIORITY_OR_OTHER|||||||0.068|||||||ANCOVA|||"At visit 7 (End of treatment) Ho: \|Cipro 32.5 - matching placebo\| =0 and~\|Cipro 48.75 - matching placebo\| =0"||||0.068
82482849|NCT03149848|164658727|OTHER||Ratio|0.786|||||TWO_SIDED|90.0|0.743|0.831||||||||0.831|0.743|
82482850|NCT03149848|164658728|OTHER||Ratio|0.825|||||TWO_SIDED|90.0|0.761|0.895||||||||0.895|0.761|
82482851|NCT03149848|164658729|OTHER||Ratio|0.738|||||TWO_SIDED|90.0|0.702|0.776||||||||0.776|0.702|
82554871|NCT03812614|164816343|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.06|TWO_SIDED|95.0|-1.0|0.01|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|||0.01|-1.00|0.06
82554872|NCT03812614|164816344|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.92|TWO_SIDED|95.0|-7.22|6.49|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient activation was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||6.49|-7.22|0.92
82482852|NCT03149848|164658732|OTHER||Ratio|1.272|||||TWO_SIDED|90.0|1.204|1.345||||||||1.345|1.204|
82482853|NCT00400153|164658750|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.05 liter|Mean Difference (Final Values)|-0.0035|STANDARD_ERROR_OF_MEAN|0.0095||0.7135||95.0|-0.0222|0.0152|||ANCOVA|||||0.0152|-0.0222|0.7135
82482854|NCT00400153|164658751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.028|0.066|||ANCOVA|||||0.066|0.028|< 0.0001
82482855|NCT00400153|164658752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 0.05 liters|Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.011||0.1389||95.0|-0.039|0.005|||ANCOVA|||||0.005|-0.039|0.1389
82554873|NCT03812614|164816345|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.02|TWO_SIDED|95.0|0.21|1.99|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient satisfaction with SP support was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||1.99|0.21|0.02
82581725|NCT03924765|164875236|OTHER|A one-way repeated measures analysis of variance (ANOVA) was performed on different exoskeleton assistance strategies (including the baseline of not wearing the exoskeleton) on the subject's step length asymmetry by setting an alpha value to 0.05.||||||0.131|||||||ANOVA|||Secondary Outcome Measure - Arm/Group 1||||0.131
82581726|NCT04548544|164875248|OTHER|||||||0.38|||||||ANOVA|||timepoint × group interaction|timepoint × group interaction F = 0.77, p = 0.38|||0.38
82482856|NCT00400153|164658753|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.016|STANDARD_ERROR_OF_MEAN|0.01||0.124||95.0|-0.036|0.004|||ANCOVA|||||0.004|-0.036|0.124
82482857|NCT00400153|164658754|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.01||0.4888||95.0|-0.026|0.013|||ANCOVA|||||0.013|-0.026|0.4888
82554874|NCT03812614|164816346|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.06|TWO_SIDED|95.0|-0.01|0.7|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Change in patient perception of supportive and non-supportive behaviors was analyzed in a manner similar to that described for the primary outcome (6-month change in patient A1c).||0.70|-0.01|0.06
82581727|NCT00935818|164875265|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.03|TWO_SIDED|95.0|1.05|2.12|||Regression, Logistic|||Logistic regression with covariate included for study site.||2.12|1.05|0.03
82581728|NCT00935818|164875266|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.03|TWO_SIDED|95.0|1.04|2.22|||Regression, Logistic|||Logistic Regression - adjusting for study site||2.22|1.04|0.03
82581729|NCT00935818|164875267|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||< 0.001
82581730|NCT00935818|164875268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.93|||Regression, Logistic|||Logistic regression adjusted for study site||1.93|0.95|0.09
82482858|NCT00400153|164658755|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established for this comparison.|Mean Difference (Final Values)|-0.014||||0.1433||95.0|-0.033|0.005|||ANCOVA|||||0.005|-0.033|0.1433
82482859|NCT00400153|164658756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.04|0.083|||ANCOVA|||This analysis is purely exploratory.||0.083|0.04|< 0.0001
82482860|NCT00400153|164658757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.024|0.065|||ANCOVA|||This analysis is purely exploratory.||0.065|0.024|< 0.0001
82482861|NCT00400153|164658758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001||95.0|0.027|0.067|||ANCOVA|||This analysis is purely exploratory.||0.067|0.027|< 0.0001
82482862|NCT00400153|164658759|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.012||0.0258||95.0|0.003|0.049|||ANCOVA|||||0.049|0.003|0.0258
82482863|NCT00400153|164658760|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.011||0.3749||95.0|-0.032|0.012|||ANCOVA|||||0.012|-0.032|0.3749
82482864|NCT00400153|164658761|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.011||0.3355||95.0|-0.033|0.011|||ANCOVA|||||0.011|-0.033|0.3355
82482865|NCT00400153|164658762|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.011||0.0743||95.0|-0.042|0.002|||ANCOVA|||||0.002|-0.042|0.0743
82482866|NCT00400153|164658763|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.011||0.5711||95.0|-0.015|0.028|||ANCOVA|||||0.028|-0.015|0.5711
82482867|NCT00400153|164658764|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.011||0.2274||95.0|-0.033|0.008|||ANCOVA|||||0.008|-0.033|0.2274
82482868|NCT00400153|164658765|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.003|STANDARD_ERROR_OF_MEAN|0.011||0.8065||95.0|-0.018|0.024|||ANCOVA|||||0.024|-0.018|0.8065
82482869|NCT00400153|164658766|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.043|0.087|||ANCOVA|||This analysis is purely exploratory.||0.087|0.043|< 0.0001
82482870|NCT00400153|164658767|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.044|0.087|||ANCOVA|||This analysis is purely exploratory.||0.087|0.044|< 0.0001
82482871|NCT00400153|164658768|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.04|0.081|||ANCOVA|||This analysis is purely exploratory.||0.081|0.04|< 0.0001
82482872|NCT00400153|164658769|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001||95.0|0.047|0.089|||ANCOVA|||This analysis is purely exploratory.||0.089|0.047|< 0.0001
82482873|NCT00400153|164658782|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.021||0.417||95.0|-0.058|0.024|||ANCOVA|||||0.024|-0.058|0.417
82482874|NCT00400153|164658783|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02||0.3505||95.0|-0.059|0.021|||ANCOVA|||||0.021|-0.059|0.3505
82482875|NCT00400153|164658784|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.02||0.3499||95.0|-0.058|0.021|||ANCOVA|||||0.021|-0.058|0.3499
82482876|NCT00400153|164658785|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.004|STANDARD_ERROR_OF_MEAN|0.02||0.8288||95.0|-0.044|0.035|||ANCOVA|||||0.035|-0.044|0.8288
82482877|NCT00400153|164658786|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001||95.0|0.069|0.154|||ANCOVA|||This analysis is purely exploratory.||0.154|0.069|< 0.0001
82482878|NCT00400153|164658787|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.049|0.132|||ANCOVA|||This analysis is purely exploratory.||0.132|0.049|< 0.0001
82482879|NCT00400153|164658788|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.056|0.138|||ANCOVA|||This analysis is purely exploratory.||0.138|0.056|< 0.0001
82482880|NCT00400153|164658789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001||95.0|0.054|0.135|||ANCOVA|||This analysis is purely exploratory.||0.135|0.054|< 0.0001
82482881|NCT00400153|164658790|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.043|STANDARD_ERROR_OF_MEAN|0.024||0.0688||95.0|-0.003|0.09|||ANCOVA|||||0.09|-0.003|0.0688
82482882|NCT00400153|164658791|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.023||0.3895||95.0|-0.064|0.025|||ANCOVA|||||0.025|-0.064|0.3895
82482883|NCT00400153|164658792|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.022||0.959||95.0|-0.045|0.042|||ANCOVA|||||0.042|-0.045|0.959
82482884|NCT00400153|164658793|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.007|STANDARD_ERROR_OF_MEAN|0.023||0.7652||95.0|-0.053|0.039|||ANCOVA|||||0.039|-0.053|0.7652
82482885|NCT00400153|164658794|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.011|STANDARD_ERROR_OF_MEAN|0.023||0.6244||95.0|-0.057|0.034|||ANCOVA|||||0.034|-0.057|0.6244
82581731|NCT00935818|164875269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.14|TWO_SIDED|95.0|0.91|1.91|||Regression, Logistic|||Logistic Regression adjusting for study site||1.91|0.91|0.14
82554875|NCT03812614|164816347|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.49|TWO_SIDED|95.0|-2.19|4.57|||Mixed Models Analysis|||Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.|Positive coefficient favors I-DSMES; negative coefficient favors FAM-ACT|4.57|-2.19|0.49
82554876|NCT03812614|164816348|SUPERIORITY||Mean Difference (Final Values)|0.78||||0.08|TWO_SIDED|95.0|-0.09|1.66|||Mixed Models Analysis||Positive coefficient favors FAM-ACT; negative coefficient favors I-DSMES|Support Persons (SPs) were surveyed twice, once at baseline and again at the end of their participation in the study. For SPs enrolled before the start of the COVID-19 pandemic (n=77), the follow-up survey was conducted at 12 months. Due to factors related to the pandemic, the length of the protocol was reduced from 12 to 6 months. Thus, SPs enrolled after the pandemic started (n=145) received their follow-up survey at 6 months, and 6-month change was used for predetermined SP outcomes.||1.66|-0.09|0.08
82554877|NCT05652010|164816363|OTHER|Comparative study|Odds Ratio (OR)|0.576||||0.164|TWO_SIDED|95.0|0.2634|1.2659||P=0.164 for testing the hypothesis that OR=1|Mixed Models Analysis|Generalized linear mixed model. As it was an exploratory study no adjustment for multiple comparison was performed.|P=0.164 for testing the hypothesis that OR=1|||1.2659|0.2634|0.164
82554878|NCT05652010|164816364|OTHER||Binominal|0.9|||<|0.0001|TWO_SIDED|95.0|0.75|0.97|||Exact test in the binomial distribution|Exact test in the binomial distribution tested if the proportion of very satisfied/satisfied was sign. different from 50% when using a 5% test level|The binomial proportion is based on subjects that have answered the questions. Exact test in the binomial distribution.|||0.97|0.75|<0.0001
82482886|NCT00400153|164658795|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.023||0.873||95.0|-0.041|0.049|||ANCOVA|||||0.049|-0.041|0.873
82482887|NCT00400153|164658796|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.023||0.5294||95.0|-0.06|0.031|||ANCOVA|||||0.031|-0.06|0.5294
82482888|NCT00400153|164658797|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.013|STANDARD_ERROR_OF_MEAN|0.023||0.563||95.0|-0.032|0.058|||ANCOVA|||||0.058|-0.032|0.563
82554879|NCT05652010|164816365|OTHER|The binomial proportion is based on subjects that have answered the questions. Exact test in the binomial distribution.|Binominal|0.82|||<|0.0001|TWO_SIDED|95.0|0.66|0.92|||Exact test in the binominal distribution|Exact test in the binomial distribution tested if the proportion of YES was significantly different from 50% when using a 5% test level||||0.92|0.66|<0.0001
82554880|NCT05652010|164816366|OTHER||Odds Ratio (OR)|0.259||||0.027|TWO_SIDED|95.0|0.078|0.855||P=0.027 for testing the hypothesis that OR=1|Mixed Models Analysis|Generalized linear mixed model|P=0.027 for testing the hypothesis that OR=1|||0.855|0.078|0.027
82554881|NCT04704869|164816400|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.81|1.17||||||||1.17|0.81|
82554882|NCT02510235|164816431|NON_INFERIORITY|"To declare non-inferiority between treatments, a change in the SANDE overall score of 12 mm was required, with an estimated standard deviation of 13 (approximately 70% of the mean at 28 ± 4 days after treatment).~The left inferior limits of confidence interval were determined and compared with the non-inferiority limit defined in the testing hypothesis.~Testing Hypothesis:~H0: meanHyaluronic - meanLubricin ≤ - 12~/ H1: meanHyaluronic - meanLubricin \> - 12"|Mean Difference (Final Values)|1.5|||||ONE_SIDED|95.0|-8.87||||Student t-test for unpaired data.|||Values at Day 28 ± 4 (end of treatment) for the SANDE overall VAS score were compared between treatment groups using a Student's t-test for unpaired data.|||-8.87|
82554883|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.8226|TWO_SIDED|95.0|-7.66|6.11|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score||Foreign Body Sensation in the Study Eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||6.11|-7.66|0.8226
82554884|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.3178|TWO_SIDED|95.0|-3.13|9.44|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Burning/Stinging in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||9.44|-3.13|0.3178
82482889|NCT00400153|164658798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.075|0.167|||ANCOVA|||This analysis is purely exploratory.||0.167|0.075|< 0.0001
82482890|NCT00400153|164658799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.084|0.174|||ANCOVA|||This analysis is purely exploratory.||0.174|0.084|< 0.0001
82482891|NCT00400153|164658800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.072|0.163|||ANCOVA|||This analysis is purely exploratory.||0.163|0.072|< 0.0001
82482892|NCT00400153|164658801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001||95.0|0.081|0.171|||ANCOVA|||This analysis is purely exploratory.||0.171|0.081|< 0.0001
82554885|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|6.52||||0.0085|TWO_SIDED|95.0|1.74|11.3|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Itching in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||11.30|1.74|0.0085
82482893|NCT00400153|164658806|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|-0.00045|STANDARD_ERROR_OF_MEAN|0.06396||0.9943||95.0|-0.1259|0.125|||ANCOVA|||||0.125|-0.1259|0.9943
82482894|NCT00400153|164658806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01995|STANDARD_ERROR_OF_MEAN|0.06441||0.7569|TWO_SIDED|95.0|-0.1463|0.1064|||ANCOVA|||This analysis is purely exploratory.||0.1064|-0.1463|0.7569
82482895|NCT00400153|164658807|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.1091|STANDARD_ERROR_OF_MEAN|0.1206||0.3659||95.0|-0.1276|0.3458|||ANCOVA|||||0.3458|-0.1276|0.3659
82482896|NCT00400153|164658807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1554|STANDARD_ERROR_OF_MEAN|0.122||0.203|TWO_SIDED|95.0|-0.3947|0.08395|||ANCOVA|||This analysis is purely exploratory.||0.08395|-0.3947|0.203
82482897|NCT00400153|164658808|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.007734|STANDARD_ERROR_OF_MEAN|0.03199||0.809||95.0|-0.05503|0.0705|||ANCOVA|||||0.0705|-0.05503|0.809
82482898|NCT00400153|164658808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06501|STANDARD_ERROR_OF_MEAN|0.03225||0.044|TWO_SIDED|95.0|0.001746|0.1283|||ANCOVA|||This analysis is purely exploratory.||0.1283|0.001746|0.044
82482899|NCT00400153|164658809|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.0129|STANDARD_ERROR_OF_MEAN|0.03002||0.6674||95.0|-0.04598|0.07179|||ANCOVA|||||0.07179|-0.04598|0.6674
82482900|NCT00400153|164658809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01573|STANDARD_ERROR_OF_MEAN|0.03033||0.604|TWO_SIDED|95.0|-0.04376|0.07523|||ANCOVA|||This analysis is purely exploratory.||0.07523|-0.04376|0.604
82482901|NCT00400153|164658810|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|1.6526|STANDARD_ERROR_OF_MEAN|2.0653||0.4238||95.0|-2.3995|5.7047|||ANCOVA|||||5.7047|-2.3995|0.4238
82482902|NCT00400153|164658810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4376|STANDARD_ERROR_OF_MEAN|2.0874||0.2431|TWO_SIDED|95.0|-1.6578|6.533|||ANCOVA|||This analysis is purely exploratory.||6.533|-1.6578|0.2431
82482903|NCT00400153|164658811|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.056||0.173||95.0|-0.034|0.187|||ANCOVA|||||0.187|-0.034|0.173
82482904|NCT00400153|164658811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.056||0.336|TWO_SIDED|95.0|-0.165|0.056|||ANCOVA|||This analysis is purely exploratory.||0.056|-0.165|0.336
82482905|NCT00400153|164658812|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.006|STANDARD_ERROR_OF_MEAN|0.062||0.924||95.0|-0.115|0.127|||ANCOVA|||||0.127|-0.115|0.924
82482906|NCT00400153|164658812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.069|STANDARD_ERROR_OF_MEAN|0.062||0.266|TWO_SIDED|95.0|-0.19|0.053|||ANCOVA|||This analysis is purely exploratory.||0.053|-0.19|0.266
82482907|NCT00400153|164658813|NON_INFERIORITY_OR_EQUIVALENCE|This analysis is purely exploratory. Non-inferiority margin is not established.|Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.065||0.139||95.0|-0.031|0.225|||ANCOVA|||||0.225|-0.031|0.139
82581732|NCT00935818|164875270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.11|TWO_SIDED|95.0|0.93|2.07|||Regression, Logistic|||Logistic Regression - adjusting for study site||2.07|0.93|0.11
82482908|NCT00400153|164658813|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.018|STANDARD_ERROR_OF_MEAN|0.066||0.788|TWO_SIDED|95.0|-0.111|0.146|||ANCOVA|||This analysis is purely exploratory.||0.146|-0.111|0.788
82482909|NCT00400153|164658818|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482910|NCT00400153|164658819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.482|STANDARD_ERROR_OF_MEAN|0.065|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
82482911|NCT00400153|164658820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.612|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
82482912|NCT00400153|164658821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.508|STANDARD_ERROR_OF_MEAN|0.058|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||<0.0001
82482913|NCT00400153|164658822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.421|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482914|NCT00400153|164658823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482915|NCT00400153|164658824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482916|NCT00400153|164658825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.378|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482917|NCT00400153|164658826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.062|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482918|NCT00400153|164658827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.464|STANDARD_ERROR_OF_MEAN|0.063|<|0.0001||95.0|||||ANOVA|||Difference: Respimat - MDI||||< 0.0001
82482919|NCT00971620|164658837|SUPERIORITY_OR_OTHER||Hodges-Lehmann|0.0||||0.7|TWO_SIDED|95.0|-2.0|4.0|||Wilcoxon rank sum test|||||4.00|-2.00|.70
82482920|NCT00971620|164658839|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon rank sum test|||||||.06
82482921|NCT00971620|164658840|SUPERIORITY_OR_OTHER|||||||0.007|||||||WIlcoxon rank sum test|||||||.007
82482922|NCT00971620|164658841|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon rank sum test|||||||0.48
82482923|NCT00971620|164658842|SUPERIORITY_OR_OTHER|||||||0.04|||||||Wilcoxon rank sum test|||||||.04
82482924|NCT00971620|164658844|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon rank sum test|||||||.07
82482925|NCT02197234|164658874|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|77.08|||||TWO_SIDED|90.0|63.41|93.7|||||Simvastatin + AZD9291 / Simvastatin alone. Based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AUC9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 45%. No change in exposure was also assumed.||93.70|63.41|
82482926|NCT02197234|164658875|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CIs being within 70% to 143%.|Geometric mean ratio|91.46|||||TWO_SIDED|90.0|77.16|108.41|||||Simvastatin + AZD9291 / Simvastatin alone. Based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AUC9291 being within 70-143% was 90% (95% for each parameter). Within patient CV assumed to be 45%. No change in exposure was also assumed.||108.41|77.16|
82482927|NCT02233478|164658886|OTHER||Mean Difference (Final Values)|0.001||||0.82|TWO_SIDED||||||t-test, 2 sided|||"Comparison of ellagic acid concentration 0 to 24 hours post-dose area under the curve was made to PJ alone vs. PJ with soy protein after intervention.~Due to the quality issue of soybean flour, data from this intervention group was not analyzed."||||0.82
82482928|NCT04030026|164658900|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.208|0.431||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.431|0.208|< 0.0001
82482929|NCT04030026|164658902|SUPERIORITY||Geometric Mean Ratio|0.32|||<|0.0001|TWO_SIDED|95.0|0.208|0.431||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.431|0.208|<0.0001
82482930|NCT04030026|164658903|SUPERIORITY||Geometric Mean Ratio|0.47||||0.0087|TWO_SIDED|95.0|0.23|0.717||Mixed-effects model: unstructured, heterogeneous toeplitz and autoregressive covariance matrices. Dependent variable: change from baseline in log-transformed scale of Daytime Cough Frequency. Fixed effects: sequence (arm), period and treatment.|Mixed-effects model|||||0.717|0.230|0.0087
82482931|NCT04030026|164658904|SUPERIORITY|||||||0.0014||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0014
82554886|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|3.41||||0.3124|TWO_SIDED|95.0|-3.31|10.13|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Pain in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||10.13|-3.31|0.3124
82482932|NCT04030026|164658904|SUPERIORITY|||||||0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 16||||0.0001
82482933|NCT04030026|164658904|SUPERIORITY|||||||0.001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.001
82482934|NCT04030026|164658905|SUPERIORITY|||||||0.0198||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0198
82482935|NCT04030026|164658905|SUPERIORITY|||||||0.0374||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 16||||0.0374
82482936|NCT04030026|164658905|SUPERIORITY|||||||0.2982||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.2982
82482937|NCT04030026|164658906|SUPERIORITY|||||||0.0054||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo)|Student's T-test|||Change from baseline at Day 8||||0.0054
82482938|NCT04030026|164658906|SUPERIORITY||||||<|0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 15||||<0.0001
82482939|NCT04030026|164658906|SUPERIORITY|||||||0.0001||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 21||||0.0001
82581733|NCT00935818|164875271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.08|TWO_SIDED|95.0|0.96|2.05|||Regression, Logistic|||Logistic Regression - adjusting for site||2.05|0.96|0.08
82581734|NCT01846494|164875273|OTHER|||||||0.6173|||||||Log Rank|||||||0.6173
82482940|NCT04030026|164658907|SUPERIORITY|||||||0.0107||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 9||||0.0107
82482941|NCT04030026|164658907|SUPERIORITY|||||||0.0051||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change for baseline at Day 16||||0.0051
82482942|NCT04030026|164658907|SUPERIORITY|||||||0.1513||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||Change from baseline at Day 22||||0.1513
82482943|NCT04030026|164658908|SUPERIORITY|||||||0.3601||||||Student's T-test was used to evaluate if the difference in mean change from baseline is different between planned treatments (NAL ER vs placebo).|Student's T-test|||||||0.3601
82482944|NCT04445792|164658971|SUPERIORITY|||||||0.7195|||||||Wilcoxon (Mann-Whitney)|||||||0.7195
82482945|NCT04445792|164658971|SUPERIORITY|||||||0.8054|||||||Wilcoxon (Mann-Whitney)|||||||0.8054
82482946|NCT04445792|164658971|SUPERIORITY|||||||0.861|||||||Wilcoxon (Mann-Whitney)|||||||0.861
82482947|NCT04445792|164658972|SUPERIORITY|||||||0.4385|||||||Wilcoxon (Mann-Whitney)|||||||0.4385
82482948|NCT04445792|164658972|SUPERIORITY|||||||0.7185|||||||Wilcoxon (Mann-Whitney)|||||||0.7185
82581735|NCT00604825|164875284|SUPERIORITY||Adjusted Mean Difference|0.75||||0.215|TWO_SIDED|95.0|-0.44|1.93||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 25 mg||1.93|-0.44|0.215
82482949|NCT04445792|164658972|SUPERIORITY|||||||0.431|||||||Wilcoxon (Mann-Whitney)|||||||0.431
82482950|NCT04445792|164658973|SUPERIORITY|||||||0.9222|||||||Wilcoxon (Mann-Whitney)|||||||0.9222
82482951|NCT04445792|164658973|SUPERIORITY|||||||0.1918|||||||Wilcoxon (Mann-Whitney)|||||||0.1918
82482952|NCT04445792|164658973|SUPERIORITY|||||||0.0119|||||||Wilcoxon (Mann-Whitney)|||||||0.0119
82482953|NCT04445792|164658974|SUPERIORITY|||||||0.6971|||||||Wilcoxon (Mann-Whitney)|||||||0.6971
82482954|NCT04445792|164658974|SUPERIORITY|||||||0.2309|||||||Wilcoxon (Mann-Whitney)|||||||0.2309
82554887|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|6.76||||0.0377|TWO_SIDED|95.0|0.4|13.12|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Sticky feeling in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||13.12|0.40|0.0377
82554888|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.5321|TWO_SIDED|95.0|-4.62|8.83|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Blurred vision in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||8.83|-4.62|0.5321
82581736|NCT00604825|164875284|SUPERIORITY||Adjusted Mean Difference|1.21||||0.041|TWO_SIDED|95.0|0.05|2.37||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 75 mg||2.37|0.05|0.041
82482955|NCT04445792|164658974|SUPERIORITY|||||||0.0441|||||||Wilcoxon (Mann-Whitney)|||||||0.0441
82482956|NCT04445792|164658975|SUPERIORITY|||||||0.7988|||||||Wilcoxon (Mann-Whitney)|||||||0.7988
82482957|NCT04445792|164658975|SUPERIORITY|||||||0.0483|||||||Wilcoxon (Mann-Whitney)|||||||0.0483
82482958|NCT04445792|164658975|SUPERIORITY|||||||0.0104|||||||Wilcoxon (Mann-Whitney)|||||||0.0104
82554889|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|2.32||||0.579|TWO_SIDED|95.0|-6.04|10.68|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Photophobia in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||10.68|-6.04|0.5790
82554890|NCT02510235|164816433|SUPERIORITY||Mean Difference (Final Values)|16.13||||0.3383|TWO_SIDED|95.0|-17.41|49.68|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Total ocular tolerability score in Study eye was analyzed using a repeated measures ANOVA, which evaluates changes from baseline across all time points in a single analysis. This method provides one overall value for comparison, as it incorporates all time points into a unified analysis. Consequently, the reported value represents the global outcome across time points, consistent with the repeated measures ANOVA methodology.||49.68|-17.41|0.3383
82581737|NCT00604825|164875284|SUPERIORITY||Adjusted Mean Difference|-2.06|||<|0.001|TWO_SIDED|95.0|-3.2|-0.92||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. Premarin 0.3 mg||-0.92|-3.20|<0.001
82581738|NCT00604825|164875285|SUPERIORITY||Adjusted Mean Difference|0.15||||0.202|TWO_SIDED|95.0|-0.08|0.38||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 25 mg||0.38|-0.08|0.202
82482959|NCT04445792|164658976|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
82482960|NCT04445792|164658976|SUPERIORITY|||||||0.2348|||||||Wilcoxon (Mann-Whitney)|||||||0.2348
82482961|NCT04445792|164658976|SUPERIORITY|||||||0.0517|||||||Wilcoxon (Mann-Whitney)|||||||0.0517
82482962|NCT04445792|164658977|SUPERIORITY|||||||0.6835|||||||Wilcoxon (Mann-Whitney)|||||||0.6835
82482963|NCT04445792|164658977|SUPERIORITY|||||||0.0205|||||||Wilcoxon (Mann-Whitney)|||||||0.0205
82482964|NCT04445792|164658977|SUPERIORITY|||||||0.0036|||||||Wilcoxon (Mann-Whitney)|||||||0.0036
82482965|NCT04445792|164658978|SUPERIORITY|||||||0.5878|||||||Wilcoxon (Mann-Whitney)|||||||0.5878
82482966|NCT04445792|164658978|SUPERIORITY|||||||0.1051|||||||Wilcoxon (Mann-Whitney)|||||||0.1051
82482967|NCT04445792|164658978|SUPERIORITY|||||||0.0292|||||||Wilcoxon (Mann-Whitney)|||||||0.0292
82482968|NCT04445792|164658979|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82482969|NCT04445792|164658979|SUPERIORITY|||||||0.5973|||||||Chi-squared|||||||0.5973
82482970|NCT04445792|164658979|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
82482971|NCT04102189|164658993|SUPERIORITY||Treatment difference|-16.75|||<|0.0001|TWO_SIDED|95.0|-20.27|-13.23|||ANCOVA|||Responses were analyzed using an analysis of covariance model with randomized treatment, stratification groups (sex and Tanner stage at baseline) and the interaction between stratification groups as factors and baseline BMI as covariate.||-13.23|-20.27|<.0001
82482972|NCT02038829|164659041|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0126|STANDARD_ERROR_OF_MEAN|0.0225||0.973|TWO_SIDED|95.0|-0.0318|0.0569||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.0569|-0.0318|0.9730
82581739|NCT00604825|164875285|SUPERIORITY||Adjusted Mean Difference|0.31||||0.008|TWO_SIDED|95.0|0.08|0.54||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. GSK232802 75 mg||0.54|0.08|0.008
82482973|NCT02038829|164659041|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0822|STANDARD_ERROR_OF_MEAN|0.0225||0.0014|TWO_SIDED|95.0|0.038|0.1264||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1264|0.0380|0.0014
82482974|NCT02038829|164659041|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1088|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.0644|0.1532||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1532|0.0644|<0.0001
82482975|NCT02038829|164659041|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1375|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.0931|0.1818||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation||0.1818|0.0931|<0.0001
82482976|NCT02038829|164659041|SUPERIORITY|A sample size of 66 subjects (rounding to 72 for using Williams squares and 96 with dropouts) provides \~90% power to detect a 100 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in trough FEV1 of 176 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1567|STANDARD_ERROR_OF_MEAN|0.0226|<|0.0001|TWO_SIDED|95.0|0.1121|0.2012||P-values were adjusted using Dunnett's method for comparing the multiple treatments to placebo. The comparison of aclidinium to placebo was performed at the 0.05 significance level to establish assay sensitivity.|LS Mean (SE)|||An mixed effects model was used with mean change from baseline in trough FEV1 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2012|0.1121|<0.0001
82482977|NCT02038829|164659042|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0526|STANDARD_ERROR_OF_MEAN|0.0184||0.0046|TWO_SIDED|95.0|0.0163|0.0888|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.0888|0.0163|0.0046
82482978|NCT02038829|164659042|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.0842|STANDARD_ERROR_OF_MEAN|0.0185|<|0.0001|TWO_SIDED|95.0|0.0478|0.1206|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1206|0.0478|<0.0001
82482979|NCT02038829|164659042|NON_INFERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1255|STANDARD_ERROR_OF_MEAN|0.0186|<|0.0001|TWO_SIDED|95.0|0.089|0.1621|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.1621|0.0890|<0.0001
82581740|NCT00604825|164875285|SUPERIORITY||Adjusted Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.75|-0.3||Analysis included the terms for: Treatment + Baseline + country + uterine strata.|General linear model|||Placebo vs. Premarin 0.3 mg||-0.30|-0.75|<0.001
82581741|NCT05593445|164875322|SUPERIORITY||Odds Ratio (OR)|0.83||||0.737|TWO_SIDED|95.0|0.29|2.41|||Chi-squared|||||2.41|0.29|0.737
82482980|NCT02038829|164659042|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1963|STANDARD_ERROR_OF_MEAN|0.0184|<|0.0001|TWO_SIDED|95.0|0.1601|0.2325|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2325|0.1601|<0.0001
82482981|NCT02038829|164659042|SUPERIORITY|A sample size of 78 subjects (rounding to 84 for using Williams squares) provides \~80% power to detect a 55 mL treatment difference in mean change trough FEV1 between SUN-101 and placebo at a Bonferroni-adjusted significance level of 0.0125 using a 2-tailed paired t-test and assuming a within-subject standard deviation for change in AUC(0-12) of 143 and a within-subject correlation of 0.3.|LS Mean (SE)|0.1902|STANDARD_ERROR_OF_MEAN|0.0186|<|0.0001|TWO_SIDED|95.0|0.1537|0.2268|||LS Mean (SE)|||An mixed effects model was used with standardized FEV1 AUC(0-12) on Day 7 as the response, with factors for treatment, period, sequence, baseline FEV1 as a covariate and a random effect for subject nested within sequence. The Kenward and Roger correction to the degrees of freedom was used. An unstructured covariance model was used to model intrasubject correlation.||0.2268|0.1537|<0.0001
82482982|NCT05128929|164659075|SUPERIORITY||Mean Difference (Final Values)|0.614||||0.541|TWO_SIDED|95.0|-1.47|2.79|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||"Null: There is no significant difference in the mean primary endpoint (PVR) at 24 weeks between the treatment (H01) and placebo group.~The following analysis utilizes PVR determined by TD."||2.79|-1.47|0.541
82482983|NCT05128929|164659077|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.599|TWO_SIDED|95.0|-4.34|7.27|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (mPAP) at 24 weeks between the treatment (H01) and placebo group.||7.27|-4.34|0.599
82482984|NCT05128929|164659078|SUPERIORITY||Mean Difference (Final Values)|47.26||||0.166|TWO_SIDED|95.0|-21.43|115.95|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (6MWT distance) at 24 weeks between the treatment (H01) and placebo group.||115.95|-21.43|0.166
82482985|NCT05128929|164659079|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.975|TWO_SIDED|95.0|-8.22|7.98|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (emPHasis-10 score) at 24 weeks between the treatment (H01) and placebo group.||7.98|-8.22|0.975
82482986|NCT05128929|164659080|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.086|TWO_SIDED|95.0|-19.4|1.4|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (SGRQ Score) at 24 weeks between the treatment (H01) and placebo group.||1.4|-19.40|0.086
82482987|NCT05128929|164659081|SUPERIORITY||Mean Difference (Final Values)|73.92||||0.215|TWO_SIDED|95.0|-45.61|193.46|||Mixed Models Analysis|Analysis was adjusted for the randomization stratum of PAH Group.||Null: There is no significant difference in the mean secondary endpoint (serum HA) at 24 weeks between the treatment (H01) and placebo group.||193.46|-45.61|0.215
82482988|NCT05128929|164659082|SUPERIORITY||Mean Difference (Final Values)|231.47||||0.442|TWO_SIDED|95.0|-377.26|840.2|||Mixed Models Analysis|||There is no significant difference in the mean secondary endpoint (NT-proBNP) at 24 weeks between the treatment (H01) and placebo group.||840.20|-377.26|0.442
82482989|NCT05007717|164659096|SUPERIORITY||Risk Ratio (RR)|1.04||||0.631|TWO_SIDED|95.0|0.89|1.2|||Mixed Models Analysis|Adjusted for ever missing a visit during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.20|0.89|0.631
82482990|NCT05007717|164659097|SUPERIORITY||Risk Ratio (RR)|0.79||||0.237|TWO_SIDED|95.0|0.54|1.16|||Mixed Models Analysis|Adjusted for ever being virally unsuppressed during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.16|0.54|0.237
82482991|NCT05007717|164659098|SUPERIORITY||Risk Ratio (RR)|0.98||||0.386|TWO_SIDED|95.0|0.94|1.02|||Mixed Models Analysis|Adjusted for always having \>80% coverage during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.02|0.94|0.386
82554891|NCT02510235|164816434|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.6484|TWO_SIDED|95.0|-5.07|3.19|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||3.19|-5.07|0.6484
82554892|NCT02510235|164816435|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.7408|TWO_SIDED|95.0|-0.71|0.51|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.51|-0.71|0.7408
82554893|NCT02510235|164816436|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.8596|TWO_SIDED|95.0|-0.78|0.87|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study Eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.87|-0.78|0.8596
82581742|NCT05593445|164875322|SUPERIORITY||response rate difference|-4.3|STANDARD_ERROR_OF_MEAN|12.73|||TWO_SIDED|95.0|-29.2|20.7|||||The 95% confidence interval for the response rate difference was constructed from approximately normal distribution.|||20.7|-29.2|
82482992|NCT05007717|164659099|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.991|TWO_SIDED|95.0|0.71|1.41|||Regression, Cox|Adjusted for always coming to clinic by yourself.||||1.41|0.71|0.991
82581743|NCT05593445|164875323|SUPERIORITY||least squares mean difference|-2.76|STANDARD_ERROR_OF_MEAN|1.14||0.0188|TWO_SIDED|95.0|-5.05|-0.47|||Mixed Model Repeated Measures (MMRM)|||||-0.47|-5.05|0.0188
82482993|NCT05007717|164659100|SUPERIORITY||Risk Ratio (RR)|1.21||||0.037|TWO_SIDED|95.0|1.01|1.46|||Mixed Models Analysis|Adjusted for having been given fast track visits during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.46|1.01|0.037
82482994|NCT05007717|164659101|SUPERIORITY||Risk Ratio (RR)|1.04||||0.276|TWO_SIDED|95.0|0.97|1.12|||Mixed Models Analysis|Adjusted for having been given long intervals during a 6 months pre-enrollment period and always coming to clinic by yourself.||||1.12|0.97|0.276
82482995|NCT03553836|164659102|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.00046|TWO_SIDED|95.0|0.45|0.82||One-sided p-value based on log-rank test stratified by melanoma T Stage (T3b, T4a, T4b).|Log Rank||Hazard Ratio based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by melanoma T Stage (T3b, T4a, T4b).|||0.82|0.45|0.00046
82482996|NCT03553836|164659105|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in Percentage|4.1|||||TWO_SIDED|95.0|1.0|7.3||||||||7.3|1.0|
82482997|NCT03553836|164659106|OTHER|Difference in percentage based on Miettinen \& Nurminen method.|Difference in percentage|12.9|||||TWO_SIDED|95.0|9.1|16.9||||||||16.9|9.1|
82554894|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.7891|TWO_SIDED|95.0|-0.16|0.2|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Meibomian glands in Study eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.20|-0.16|0.7891
82554895|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.6075|TWO_SIDED|95.0|-0.24|0.14|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Erythema in Study eye analytic statistic is presented. The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.14|-0.24|0.6075
82554896|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.6639|TWO_SIDED|95.0|-0.14|0.21|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Eyelid - Oedema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.21|-0.14|0.6639
82554897|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.3482|TWO_SIDED|95.0|-0.1|0.29|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Conjunctiva - Erythema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value is not duplicated or triplicated, reflecting the global outcome consistent with repeated measures ANOVA methodology.||0.29|-0.10|0.3482
82554898|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.2422|TWO_SIDED|95.0|-0.34|0.09|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Conjunctiva - Oedema in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.09|-0.34|0.2422
82554899|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.8645|TWO_SIDED|95.0|-0.11|0.14|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Lens in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.14|-0.11|0.8645
82581744|NCT05593445|164875324|SUPERIORITY||least squares mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.72||0.4674|TWO_SIDED|95.0|-1.96|0.91|||MMRM|||||0.91|-1.96|0.4674
82581745|NCT05593445|164875325|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9072|TWO_SIDED|95.0|0.503|1.869|||Log Rank||Cox regression model was conducted to compare the difference in hazard rate.|||1.869|0.503|0.9072
82581746|NCT00153062|164875401|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin of 1.075|Hazard Ratio (HR)|1.01||||0.783|TWO_SIDED|95.0|0.92|1.11|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates||ASA+ER-DP vs clopidogrel||1.11|0.92|0.7830
82482998|NCT04626310|164659117|SUPERIORITY||Linear slope difference DBT-ER-IP|0.096|STANDARD_ERROR_OF_MEAN|0.08||0.8|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.8
82482999|NCT04626310|164659117|SUPERIORITY||Linear Slope difference DBT-IE-IP|-0.234|STANDARD_ERROR_OF_MEAN|0.385||0.544|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.544
82483000|NCT04626310|164659117|SUPERIORITY||Linear Slope difference DBT-ER-DBT-IE|0.329|STANDARD_ERROR_OF_MEAN|0.429||0.442|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.442
82554900|NCT02510235|164816437|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.379|TWO_SIDED|95.0|-0.11|0.04|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Cornea transparency in Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.04|-0.11|0.3790
82483001|NCT04626310|164659118|SUPERIORITY||Linear slope difference DBT-ER-IP|1.951|STANDARD_ERROR_OF_MEAN|1.15||0.09|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.09
82483002|NCT04626310|164659118|SUPERIORITY||Linear slope difference DBT-IE-IP|0.1|STANDARD_ERROR_OF_MEAN|1.228||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
82483003|NCT04626310|164659118|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|1.851|STANDARD_ERROR_OF_MEAN|1.103||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Linear Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
82483004|NCT04626310|164659118|SUPERIORITY||Quad slope difference DBT-ER-IP|-0.028|STANDARD_ERROR_OF_MEAN|0.15||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
82483005|NCT04626310|164659118|SUPERIORITY||Quad slope difference DBT-IE-IP|-0.029|STANDARD_ERROR_OF_MEAN|0.145||0.836|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.836
82483006|NCT04626310|164659118|SUPERIORITY||Quad slope difference DBT-ER-DBT-IE|0.001|STANDARD_ERROR_OF_MEAN|0.145||0.994|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.994
82483007|NCT04626310|164659119|SUPERIORITY||Linear slope difference DBT-ER-IP|0.059|STANDARD_ERROR_OF_MEAN|0.083||0.475|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.475
82483008|NCT04626310|164659119|SUPERIORITY||Linear slope difference DBT-IE-IP|0.037|STANDARD_ERROR_OF_MEAN|0.082||0.654|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.654
82483009|NCT04626310|164659119|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|0.022|STANDARD_ERROR_OF_MEAN|0.085||0.791|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The slopes of the difference between neutral and negative-maintain were regressed on time (weeks, centered around the start of treatment) and calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.791
82483010|NCT04626310|164659120|SUPERIORITY||Linear slope difference DBT-ER-IP|-0.332|STANDARD_ERROR_OF_MEAN|0.095||0.001|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.001
82483011|NCT04626310|164659120|SUPERIORITY||Linear slope difference DBT-IE-IP|-0.165|STANDARD_ERROR_OF_MEAN|0.094||0.078|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.078
82483012|NCT04626310|164659120|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.167|STANDARD_ERROR_OF_MEAN|0.095||0.08|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. We examined the effect of Negative Decrease vs. Negative Maintain over time per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.080
82483013|NCT04626310|164659121|SUPERIORITY||Linear Slope Diff DBT-ER-IP|0.091|STANDARD_ERROR_OF_MEAN|0.06||0.13|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.13
82483014|NCT04626310|164659121|SUPERIORITY||Linear slope difference DBT-IE-IP|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.046|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.046
82554901|NCT02510235|164816438|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8363|TWO_SIDED|95.0|-0.26|0.21|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.21|-0.26|0.8363
82581747|NCT00153062|164875402|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8292|TWO_SIDED|95.0|0.92|1.07|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates||ASA+ER-DP vs Clopidogrel||1.07|0.92|0.8292
82554902|NCT02510235|164816439|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.6248|TWO_SIDED|95.0|-0.62|1.02|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||1.02|-0.62|0.6248
82554903|NCT02510235|164816440|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.6153|TWO_SIDED|95.0|-0.82|0.49|||ANOVA|The analysis of variance included as sources of variability treatment, site and baseline tolerability score.||Study eye analytic statistic is presented.The Statistical Analysis section reports results from a repeated measures ANOVA, which analyzes changes from baseline (Visit 2 - Day 1) across all time points in a single unified analysis. This approach provides one overall comparison value by incorporating all time points. Consequently, the reported value represents the global outcome, consistently with repeated measures ANOVA methodology.||0.49|-0.82|0.6153
82554904|NCT03735979|164816469|SUPERIORITY||Posterior Mean Difference (Final Values)|-1.51|STANDARD_DEVIATION|0.51||0.002|TWO_SIDED|||||"The P-value is the posterior probability that study drug has a higher benefit than control. The a priori threshold for a successful trial is 0.985.~The posterior probability that argatroban was better than placebo was 0.002."|Bayesian|Primary analysis compared treatment group with placebo, with adjustment for baseline NIHSS score in a Bayesian normal dynamic linear model.|The posterior mean of study treatment minus placebo.|||||0.002
82554905|NCT03735979|164816469|SUPERIORITY||Posterior Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|0.29||0.04|TWO_SIDED|||||"The P-value is the posterior probability that study drug has a higher benefit than control. The a priori threshold for a successful trial is 0.985.~The posterior probability that eptifibitide was better than placebo was 0.04."|Bayesian|Primary analysis compared treatment group with placebo, with adjustment for baseline NIHSS score in a Bayesian normal dynamic linear model.|The posterior mean of study treatment minus placebo.|||||0.04
82554906|NCT02994927|164816530|NON_INFERIORITY|The proportion of subjects achieving disease remission at Week 26 and the two-sided 95% confidence intervals (CIs) for the difference in proportions was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|3.4|||<|0.0001|TWO_SIDED|95.0|-6.0|12.8|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||12.8|-6.0|< 0.0001
82554907|NCT02994927|164816530|SUPERIORITY|The proportion of subjects achieving disease remission at Week 26 and the two-sided 95% confidence intervals (CIs) for the difference in proportions was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|3.4|||=|0.2387|TWO_SIDED|95.0|-6.0|12.8|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||12.8|-6.0|= 0.2387
82554908|NCT02994927|164816531|NON_INFERIORITY|The proportion of subjects achieving sustained disease remission at Week 52, and the two-sided 95% confidence intervals (CIs) for the difference in proportions (avacopan minus prednisone) was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|12.5|||<|0.0001|TWO_SIDED|95.0|2.6|22.3|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||22.3|2.6|< 0.0001
82554909|NCT02994927|164816531|SUPERIORITY|The proportion of subjects achieving sustained disease remission at Week 52, and the two-sided 95% confidence intervals (CIs) for the difference in proportions (avacopan minus prednisone) was estimated for the comparison between the avacopan group and the prednisone group. For both the noninferiority and superiority tests, the one-sided P-values are presented. Statistical significance was claimed based on the one-sided type-I error of 0.025.|Common difference in remission rates|12.5|||=|0.0066|TWO_SIDED|95.0|2.6|22.3|||Summary score test||Summary Score estimate of the common difference and Miettinen-Nurminen (score) confidence limits for the common difference|||22.3|2.6|= 0.0066
82554910|NCT00626795|164816558|NON_INFERIORITY|The lower confidence limit greater or equal to -12.5% indicates non-inferiority.|Difference in percentage|4.56|||||TWO_SIDED|95.0|-1.59|10.71|||||Estimated using a Cochran-Mantel-Haenszel approach, stratifying by country and disease (impetigo/SITL).|||10.71|-1.59|
82554911|NCT00626795|164816558|NON_INFERIORITY|The lower confidence limit greater or equal to -12.5% indicates non-inferiority.|Difference in percentage|-3.35|||||TWO_SIDED|95.0|-10.28|3.57|||||Estimated using a Cochran-Mantel-Haenszel approach, stratifying by country and disease (impetigo/SITL).|||3.57|-10.28|
82554912|NCT03533257|164816566|SUPERIORITY|||||||0.3654|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3654
82554913|NCT03533257|164816567|SUPERIORITY|||||||0.6698|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.6698
82554914|NCT03533257|164816568|SUPERIORITY|||||||0.3086|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3086
82554915|NCT03533257|164816569|SUPERIORITY|||||||0.5552|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.5552
82554916|NCT03533257|164816570|SUPERIORITY|||||||0.0361|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.0361
82554917|NCT03533257|164816571|SUPERIORITY|||||||0.3585|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.3585
82483015|NCT04626310|164659121|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.028|STANDARD_ERROR_OF_MEAN|0.057||0.617|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. The Negative x Novel x time (weeks, centered around the start of treatment) slopes were calculated per condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.617
82483016|NCT04626310|164659122|SUPERIORITY||Linear slope difference DBT-ER-IP|-0.29|STANDARD_ERROR_OF_MEAN|0.103||0.005|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.005
82483017|NCT04626310|164659122|SUPERIORITY||Linear slope difference DBT-IE-IP|-0.111|STANDARD_ERROR_OF_MEAN|0.103||0.281|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.281
82483018|NCT04626310|164659122|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|-0.18|STANDARD_ERROR_OF_MEAN|0.098||0.066|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of change in this interaction effect were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.066
82483019|NCT04626310|164659123|SUPERIORITY||Linear slope difference DBT-ER-IP|1.049|STANDARD_ERROR_OF_MEAN|0.653||0.108|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.108
82483020|NCT04626310|164659123|SUPERIORITY||Linear slope difference DBT-IE-IP|-1.21|STANDARD_ERROR_OF_MEAN|0.454||0.014|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.014
82554918|NCT03533257|164816572|SUPERIORITY|||||||0.8996|||||||Mixed Models Analysis|The analysis assessed the difference in estimated change-from-baseline values at the 24-week model estimate using LS means estimates from the MMRM.||||||0.8996
82554919|NCT05525104|164816573|SUPERIORITY|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||||||0.041
82581748|NCT00153062|164875403|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.1073|TWO_SIDED|95.0|0.87|1.01|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline modified Rankin score as covariates.||Telmisartan vs Placebo||1.01|0.87|0.1073
82483021|NCT04626310|164659123|SUPERIORITY||Linear slope difference DBT-ER-DBT-IE|2.17|STANDARD_ERROR_OF_MEAN|0.631||0.001|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. neutral images on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.001
82554920|NCT05525104|164816574|SUPERIORITY|||||||0.066|||||||Wilcoxon (Mann-Whitney)|||||||0.066
82554921|NCT05525104|164816578|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82554922|NCT03364127|164816589|SUPERIORITY||Mean Difference (Net)|-0.12||||0.702|TWO_SIDED|95.0|-0.76|0.51|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||.51|-.76|0.702
82581749|NCT00153062|164875404|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.1007|TWO_SIDED|95.0|0.65|1.04|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline ACE-I use, and baseline modified Rankin score as covariates||Telmisartan vs Placebo||1.04|0.65|0.1007
82483022|NCT04626310|164659124|OTHER||Linear Slope difference DBT-ER-IP|0.17|STANDARD_ERROR_OF_MEAN|0.136||0.211|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.211
82483023|NCT04626310|164659124|SUPERIORITY||Linear Slope difference DBT-IE-IP|-0.195|STANDARD_ERROR_OF_MEAN|0.135||0.148|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.148
82483024|NCT04626310|164659124|SUPERIORITY||Linear Slope difference DBT-ER-DBT-IE|-0.025|STANDARD_ERROR_OF_MEAN|0.137||0.857|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of the effect of negative maintain vs. negative decrease on weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.857
82554923|NCT03364127|164816590|SUPERIORITY||Mean Difference (Net)|0.1||||0.77|TWO_SIDED|95.0|-0.58|0.79|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||.79|-.58|0.77
82554924|NCT03364127|164816591|SUPERIORITY||Mean Difference (Net)|1.16||||0.436|TWO_SIDED|95.0|-1.76|4.09|||ANCOVA|Full information maximum likelihood for missing data and to retain participants for intention to treat model. Adjusted for baseline value.||||4.09|-1.76|0.436
82554925|NCT03364127|164816592|SUPERIORITY||Hazard Ratio (HR)|2.72||||0.017|TWO_SIDED|95.0|1.13|6.54||Kaplan-Meier curves by treatment arm were examined to determine the rates of return to baseline over the 12-week follow-up period .|Log Rank|||Goal was to assess duration of effect among those who showed a response to the intervention (1.5 or greater decrease in PIN).||6.54|1.13|0.017
82581750|NCT00153062|164875405|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.2312|TWO_SIDED|95.0|0.86|1.04|||Cox Proportional Hazard model|Cox proportional hazards model with age, baseline diabetes status, baseline ACE-I use, and baseline Modified Rankin score as covariates||Telmisartan vs placebo||1.04|0.86|0.2312
82483025|NCT04626310|164659125|SUPERIORITY||Linear Slope Difference in DSS DBT-ER-IP|-0.313|STANDARD_ERROR_OF_MEAN|0.794||0.693|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.693
82554926|NCT01474122|164816624|SUPERIORITY_OR_OTHER_LEGACY||NB-2 estimate of new DUs per patient|1.194||||0.434|TWO_SIDED|95.0|0.766|1.861|||negative binomial-2 regression (NB-2)||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in macitentan 3 mg and in placebo|||1.861|0.766|0.434
82554927|NCT01474122|164816624|SUPERIORITY_OR_OTHER_LEGACY||NB-2 estimate of new DUs per patient|1.208||||0.407|TWO_SIDED|95.0|0.773|1.886|||NB-2||The estimated value corresponds to the treatment effect i.e. the ratio between the estimated number of new DUs in macitentan 10 mg and in placebo|||1.886|0.773|0.407
82554928|NCT01474122|164816625|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.831||||0.5668|TWO_SIDED|95.0|0.442|1.564|||Chi-squared|||||1.564|0.442|0.5668
82554929|NCT01474122|164816625|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.789||||0.4624|TWO_SIDED|95.0|0.42|1.484|||Chi-squared|||||1.484|0.420|0.4624
82554930|NCT01474122|164816626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.216||||0.6117|TWO_SIDED|95.0|0.572|2.582|||Chi-squared|||||2.582|0.572|0.6117
82554931|NCT01474122|164816626|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.048||||0.9047|TWO_SIDED|95.0|0.485|2.264|||Chi-squared|||||2.264|0.485|0.9047
82554932|NCT01474122|164816627|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.347|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.347
82554933|NCT01474122|164816627|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.165|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA|||||0.0|-0.3|0.165
82554934|NCT01474122|164816628|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.339|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.339
82554935|NCT01474122|164816628|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.312|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||||0.1|-0.2|0.312
82554936|NCT01474122|164816629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.319|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.319
82554937|NCT01474122|164816629|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.2||||0.221|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||||0.1|-0.4|0.221
82554938|NCT06097494|164816636|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|1.01|1.15|||||Calculated as the odds of a person diagnosed with vitiligo having with depression versus people not diagnosed with vitiligo|||1.15|1.01|
82554939|NCT06097494|164816637|SUPERIORITY||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|1.09|1.3|||||Calculated as the odds of people diagnosed with vitiligo having anxiety compared to people not diagnosed with vitilligo.|||1.30|1.09|
82554940|NCT06097494|164816638|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|1.03|1.17|||||Calculated as the odds of people diagnosed with vitiligo having anxiety or depression compared to people not diagnosed with vitilligo.|||1.17|1.03|
82554941|NCT06097494|164816639|SUPERIORITY||Incidence rate ratio|1.29|||||TWO_SIDED|95.0|1.26|1.32|||||Adjusted incident rate ratio for increased primary care use was calculated by comparing patients with vitiligo versus matched controls not having vitiligo,using negative binomial regression.|||1.32|1.26|
82554942|NCT06097494|164816641|OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.93|1.2|||||Hazard ratios for mental health referrals was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.20|0.93|
82554943|NCT06097494|164816642|OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.76|1.15|||||Hazard ratios for unemployment was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.15|0.76|
82554944|NCT06097494|164816643|OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.06|1.24|||||Hazard ratios for time off work was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.24|1.06|
82554945|NCT06097494|164816644|OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|1.02|1.31|||||Hazard ratios for sleep disturbance was calculated using Cox proportional hazards regression model and reflect a comparison of the incidence rates between people diagnosed with vitiligo and people not diagnosed with vitiligo.|||1.31|1.02|
82554946|NCT05683158|164816666|OTHER||Mean Difference (Net)|1.71|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED||||||ANOVA||Mean difference between two groups of movement unit in forward direction|To determine the sample size, the G\*Power software was utilized, incorporating an effect size (d) of 1.9, alpha level of 0.05, and power of 0.8. A sample size of six individuals per group was considered sufficient to achieve adequate statistical power, which are α ≤ 0.05, power = 0.8, and β = 0.2.||||<.001
82554947|NCT05683158|164816666|OTHER||Mean Difference (Net)|0.44|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED||||||ANOVA||Statistics difference among forward, ipsilateral and contralateral directions in within group|To determine the sample size, the G\*Power software was utilized, incorporating an effect size (d) of 1.9, alpha level of 0.05, and power of 0.8. A sample size of six individuals per group was considered sufficient to achieve adequate statistical power, which are α ≤ 0.05, power = 0.8, and β = 0.2.||||<.001
82586122|NCT06609135|164884179|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.045
82554948|NCT04631016|164816680|OTHER||LS Mean Difference|0.024||||0.216|TWO_SIDED|80.0|-0.015|0.063|||Mixed Models Analysis|||||0.063|-0.015|0.216
82554949|NCT04631016|164816683|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.186|TWO_SIDED|80.0|0.57|1.11|||Regression, Cox|||||1.11|0.57|0.186
82554950|NCT04631016|164816704|SUPERIORITY||Least square mean difference|0.067||||0.044|TWO_SIDED|80.0|0.017|0.116||One-sided p-value|Mixed Models Analysis|Kenward-Roger correction has been used for degrees of freedom approximation in the generation of model.||Results are based on the mixed model for repeated measures (MMRM) analysis at Week 12.||0.116|0.017|0.044
82586123|NCT06609135|164884180|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.045
82554951|NCT04631016|164816704|SUPERIORITY||Least square mean difference|0.07||||0.036|TWO_SIDED|80.0|0.02|0.12||One-sided p-value|Mixed Models Analysis|Kenward-Roger correction has been used for degrees of freedom approximation in the generation of model.||Results are based on the MMRM analysis at Week 28.||0.120|0.020|0.036
82554952|NCT04490109|164816705|SUPERIORITY|The ANCOVA model for primary endpoint change from Baseline to Week 4 in average WI-NRS will have treatment group and Baseline weekly average WI-NRS as explanatory variables. Hypothesis will be tested using a Dunnett Testing Method, applying pairwise comparisons of each group to vehicle using a one-sided familywise error rate of 0.10. Treatment effect will be estimated as least squares means using vehicle as reference and adjusted using Dunnett Testing Method and presented with one-sided 90% CI.||||||0.0148|||||||ANCOVA|||Approximately 576 subjects may be enrolled to account for 16.7% drop out rate prior to completing the study. A total of 160 evaluable subjects per group are required to achieve at least 80% power to detect a difference of 0.65 in mean WI-NRS change from Baseline to Week 4 between one of two active doses of B244 and vehicle control when assuming a standard deviation of 2.5 and applying a Dunnett Testing Method at a one-sided familywise error rate of 0.10.||||0.0148
82554953|NCT04490109|164816705|SUPERIORITY|The ANCOVA model for primary endpoint change from Baseline to Week 4 in average WI-NRS will have treatment group and Baseline weekly average WI-NRS as explanatory variables. Hypothesis will be tested using a Dunnett Testing Method, applying pairwise comparisons of each group to vehicle using a one-sided familywise error rate of 0.10. Treatment effect will be estimated as least squares means using vehicle as reference and adjusted using Dunnett Testing Method and presented with one-sided 90% CI.||||||0.0143|||||||ANCOVA|||Approximately 576 subjects may be enrolled to account for 16.7% drop out rate prior to completing the study. A total of 160 evaluable subjects per group are required to achieve at least 80% power to detect a difference of 0.65 in mean WI-NRS change from Baseline to Week 4 between one of two active doses of B244 and vehicle control when assuming a standard deviation of 2.5 and applying a Dunnett Testing Method at a one-sided familywise error rate of 0.10.||||0.0143
82554954|NCT04490109|164816707|SUPERIORITY|||||||0.0205|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0205
82554955|NCT04490109|164816708|SUPERIORITY|||||||0.0044|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0044
82554956|NCT04490109|164816708|SUPERIORITY|||||||0.0077|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0077
82554957|NCT04490109|164816709|SUPERIORITY|||||||0.04|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0400
82554958|NCT04490109|164816709|SUPERIORITY|||||||0.0486|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0486
82554959|NCT04490109|164816711|SUPERIORITY|||||||0.0246|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0246
82554960|NCT04490109|164816711|SUPERIORITY|||||||0.0366|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0366
82554961|NCT04490109|164816712|SUPERIORITY|||||||0.0467|||||||Regression, Logistic|||The frequency and rate of WI-NRS and AI-NRS responders will be reported and compared between treatment groups using a logistic regression model. Generalized estimating equations to account for repeated measures and within-subject variability may also be applied.||||0.0467
82554962|NCT04490109|164816713|SUPERIORITY|||||||0.0293|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0293
82554963|NCT04490109|164816714|SUPERIORITY|||||||0.0045|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0045
82554964|NCT04490109|164816714|SUPERIORITY|||||||0.0043|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0043
82554965|NCT04490109|164816715|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0026
82554966|NCT04490109|164816715|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0005
82554967|NCT04490109|164816716|SUPERIORITY|||||||0.0348|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0348
82554968|NCT04490109|164816716|SUPERIORITY|||||||0.0173|||||||Mixed Models Analysis|||The difference in treatment groups in change from Baseline values at post-baseline visits will be analyzed using a mixed model with repeated measures.||||0.0173
82554969|NCT04490109|164816717|SUPERIORITY|||||||0.0228|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0228
82554970|NCT04490109|164816717|SUPERIORITY|||||||0.0015|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0015
82554971|NCT04490109|164816718|SUPERIORITY|||||||0.0003|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0003
82483026|NCT04626310|164659125|SUPERIORITY||Linear Slope Difference in DSS DBT-IE-IP|0.002|STANDARD_ERROR_OF_MEAN|0.767||0.998|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.998
82483027|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DSS DBT-ER-DBT-IE|-0.315|STANDARD_ERROR_OF_MEAN|0.765||0.68|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DSS over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to DBT-IE.||||.680
82483028|NCT04626310|164659125|SUPERIORITY||Linear Slope Difference in DC1 DBT-ER-IP|0.098|STANDARD_ERROR_OF_MEAN|0.101||0.333|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-ER to IP.||||.333
82483029|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DC1 DBT-IE-IP|-0.046|STANDARD_ERROR_OF_MEAN|0.097||0.632|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to IP.||||.632
82554972|NCT04490109|164816719|SUPERIORITY|||||||0.0195|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0195
82483030|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DC1 DBT-ER-DBT-IE|0.144|STANDARD_ERROR_OF_MEAN|0.107||0.178|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared DBT-IE to DBT-ER.||||.178
82483031|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DC2 DBT-ER-IP|0.045|STANDARD_ERROR_OF_MEAN|0.112||0.689|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-ER to IP.||||.689
82483032|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DC2 DBT-IE-IP|-0.011|STANDARD_ERROR_OF_MEAN|0.109||0.917|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-IE to IP.||||.917
82554973|NCT04490109|164816720|SUPERIORITY|||||||0.0365|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0365
82554974|NCT04490109|164816721|SUPERIORITY|||||||0.0086|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0086
82554975|NCT04490109|164816721|SUPERIORITY|||||||0.0035|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0035
82586124|NCT06609135|164884181|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.49
82586125|NCT06609135|164884182|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.49
82483033|NCT04626310|164659125|SUPERIORITY||Linear Slope Diff in DC2 DBT-ER-DBT-IE|0.056|STANDARD_ERROR_OF_MEAN|0.108||0.603|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC2 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the slope differences DBT-ER to DBT-IE.||||.603
82483034|NCT04626310|164659126|SUPERIORITY||Other[Quad Slope difference DBT-ER-IP]|0.013|STANDARD_ERROR_OF_MEAN|0.044||0.762|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.762
82483035|NCT04626310|164659126|SUPERIORITY||Quad Slope difference DBT-IE-IP|0.034|STANDARD_ERROR_OF_MEAN|0.047||0.478|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.478
82483036|NCT04626310|164659126|SUPERIORITY||Quad Slope difference DBT-ER-DBT-IE|-0.089|STANDARD_ERROR_OF_MEAN|0.054||0.705|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. DBT-IE) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.705
82483037|NCT04626310|164659127|SUPERIORITY||Quad slope difference DBT-ER-IP|-0.028|STANDARD_ERROR_OF_MEAN|0.15||0.93|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-ER vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.93
82483038|NCT04626310|164659127|SUPERIORITY||Quad slope difference DBT-IE-IP|-0.029|STANDARD_ERROR_OF_MEAN|0.145||0.836|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.836
82554976|NCT04490109|164816722|SUPERIORITY|||||||0.0074|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0074
82554977|NCT04490109|164816722|SUPERIORITY|||||||0.0008|||||||Regression, Logistic|||Responder rates for IGA and EASI will be summarized using descriptive statistics and analyzed using a logistic regression model at each respective timepoints.||||0.0008
82483039|NCT04626310|164659127|SUPERIORITY||Quad slope difference DBT-ER-DBT-IE|0.001|STANDARD_ERROR_OF_MEAN|0.145||0.994|TWO_SIDED||||||Mixed Models Analysis|||Comparisons of Quadratic Slopes (DBT-IE vs. IP) in latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) with quadratic effects.||||.994
82483040|NCT04626310|164659128|SUPERIORITY||Quad slope diff in DC1 DBT-ER-IP|0.013|STANDARD_ERROR_OF_MEAN|0.013||0.313|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-ER to IP.||||.313
82483041|NCT04626310|164659128|SUPERIORITY||Quad Slope in DC1 DBT-IE-IP|0.003|STANDARD_ERROR_OF_MEAN|0.01||0.747|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-IE to IP.||||.747
82483042|NCT04626310|164659128|SUPERIORITY||Quad slope diff in DC1 DBT-ER-DBT-IE|0.009|STANDARD_ERROR_OF_MEAN|0.012||0.444|TWO_SIDED||||||Mixed Models Analysis|||Latent growth curve models (in multilevel/mixed effects framework, Mplus v8.1) were estimated with maximum likelihood. Simple slopes of DC1 over weeks were calculated for each condition. Models tested whether these slopes differed by condition. This test compared the quadratic effects differed DBT-ER to DBT-IE.||||.444
82483043|NCT02278341|164659129|NON_INFERIORITY|Non Inferiority, Margin = -0.75|LSM Difference|0.235|||<|0.001|TWO_SIDED|95.0|0.132|0.339||p-value for non-inferiority test based on 1-sided significance level.|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb and baseline Hb by visit as continuous variable.||0.339|0.132|<0.001
82483044|NCT02278341|164659130|NON_INFERIORITY|Non-Inferiority, Margin = -0.75|LSM Difference|0.171|||<|0.001|TWO_SIDED|95.0|0.082|0.261||p-value for non-inferiority test based on 1-sided significance level.|ANCOVA|||The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable. Statistical analysis used was ANCOVA model with multiple imputations (MI). Missing hemoglobin data was imputed for each treatment relying on non-missing data from all participants within each treatment group using the MCMC imputation model.||0.261|0.082|<0.001
82483045|NCT02278341|164659131|NON_INFERIORITY|Non-inferiority of roxadustat versus ESA (the non-inferiority margin for the difference between groups is -15%).|Difference of Percentages|2.3|||<|0.05|TWO_SIDED|95.0|-2.9|7.6||p-value for non-inferiority test based on 1-sided significance level.|Miettinen and Nurminen|||A generalized linear model was used to estimate the difference in response rates between the arms, as an approximation for the Miettinen and Nurminen method, adjusting for following covariates: region, previous ESA treatment, cardiovascular history and baseline Hb as categorical variables.||7.6|-2.9|<0.05
82483046|NCT02278341|164659132|SUPERIORITY||LSM Difference|-0.377|||<|0.001|TWO_SIDED|95.0|-0.451|-0.304||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline LDL, baseline Hb as continuous variables.||-0.304|-0.451|<0.001
82483047|NCT02278341|164659133|SUPERIORITY||LSM Difference|-31.9|||<|0.001|TWO_SIDED|95.0|-41.4|-22.4||p-value for superiority test based on 2-sided significance level|ANCOVA|||The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-22.4|-41.4|<0.001
82483048|NCT02278341|164659134|NON_INFERIORITY|The margin for non-inferiority was -3.|LSM Difference|0.205|||<|0.05|TWO_SIDED|95.0|-0.649|1.059||p-value for non-inferiority test based on 1-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits (week 8, week 12, week 28) and visit by treatment as categorical variables, and baseline SF-36 PF, baseline Hb as continuous variables.||1.059|-0.649|<0.05
82483049|NCT02278341|164659135|NON_INFERIORITY|The margin for non-inferiority was -3.|LSM Difference|0.856|||<|0.05|TWO_SIDED|95.0|-0.115|1.828|||Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits (week 8, week 12, week 28) and visit by treatment as categorical variables, and baseline SF-36 VT, baseline Hb as continuous variables.||1.828|-0.115|<0.05
82483050|NCT02278341|164659136|NON_INFERIORITY|The margin for non-inferiority was 1.|LSM Difference|-0.849|||<|0.05|TWO_SIDED|95.0|-1.971|0.273||p-value for non-inferiority test based on 1-sided significance level|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables, and baseline MAP, baseline Hb as continuous variables.||0.273|-1.971|<0.05
82483051|NCT02278341|164659137|NON_INFERIORITY|Non-inferiority (hazard ratio margin of 1.3).|Hazard Ratio (HR)|0.924|||<|0.05|TWO_SIDED|95.0|0.669|1.276||p-value for non-inferiority test based on 1-sided significance level.|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Non-inferiority was declared if the upper bound of the 95% CI is below 1.3.||1.276|0.669|<0.05
82554978|NCT04163991|164816723|SUPERIORITY||Least Squares (LS) Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.38||0.0296|TWO_SIDED|90.0|-1.47|-0.21||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.21|-1.47|0.0296
82554979|NCT04163991|164816723|SUPERIORITY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.38||0.0355|TWO_SIDED|90.0|-1.44|-0.18||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.18|-1.44|0.0355
82586126|NCT06609135|164884183|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.56
82483052|NCT02278341|164659138|SUPERIORITY||LSM Difference|-0.579|||=|0.308|TWO_SIDED|95.0|-1.694|0.536||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables, and baseline MAP, baseline Hb as continuous variables.||0.536|-1.694|=0.308
82483053|NCT02278341|164659139|SUPERIORITY||Hazard Ratio (HR)|0.915|||=|0.582|TWO_SIDED|95.0|0.668|1.254||p-value for superiority test based on 2-sided significance level.|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI is lower than 1.||1.254|0.668|=0.582
82483054|NCT02278341|164659140|SUPERIORITY||Difference of Percentages|1.4|||=|0.609|TWO_SIDED|95.0|-3.8|6.5||p-value for superiority test based on 2-sided significance level|Miettinen and Nurminen method|||A generalized linear model was used to estimate the difference in response rates between the arms, as an approximation for the Miettinen and Nurminen method, adjusting for following covariates: region, previous ESA treatment, cardiovascular history and baseline Hb as categorical variables.||6.5|-3.8|=0.609
82483055|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.164|||<|0.001|TWO_SIDED|95.0|0.072|0.256||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 1- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.256|0.072|<0.001
82483056|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.443|||<|0.001|TWO_SIDED|95.0|0.339|0.546||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 2- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.546|0.339|<0.001
82483057|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.561|||<|0.001|TWO_SIDED|95.0|0.451|0.672||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 3 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.672|0.451|<0.001
82483058|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.708|||<|0.001||95.0|0.588|0.828||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 4 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.828|0.588|<0.001
82483059|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.768|||<|0.001|TWO_SIDED|95.0|0.645|0.89||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 5 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.890|0.645|<0.001
82483060|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.729|||<|0.001|TWO_SIDED|95.0|0.604|0.855||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 6 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.855|0.604|<0.001
82483061|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.729|||<|0.001|TWO_SIDED|95.0|0.603|0.856||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 7 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.856|0.603|<0.001
82483062|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.574|0.826||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 8 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.826|0.574|<0.001
82483063|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.659|||<|0.001|TWO_SIDED|95.0|0.53|0.788||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 10 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.788|0.530|<0.001
82483064|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.593|||<|0.001|TWO_SIDED|95.0|0.459|0.727||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 12 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.727|0.459|<0.001
82483065|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.503|||<|0.001|TWO_SIDED|95.0|0.366|0.64||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 14 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.640|0.366|<0.001
82483066|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.369|||<|0.001|TWO_SIDED|95.0|0.229|0.51||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 16 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.510|0.229|<0.001
82554980|NCT04163991|164816723|SUPERIORITY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.38||0.0364|TWO_SIDED|90.0|-1.44|-0.18||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.18|-1.44|0.0364
82554981|NCT04163991|164816723|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.38||0.0478|TWO_SIDED|90.0|-1.41|-0.13||Results are from MMRM analysis with treatment, visit, visit by treatment interaction, and baseline DAS28-CRP score included in the model.|MMRM||LS Mean difference is VIB4920 minus placebo. Differences less than 0 favor VIB4920.|||-0.13|-1.41|0.0478
82483067|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.363|||<|0.001|TWO_SIDED|95.0|0.23|0.496||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 18 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.496|0.230|<0.001
82483068|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.284|||<|0.001|TWO_SIDED|95.0|0.154|0.414||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 20 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.414|0.154|<0.001
82483069|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.197|||=|0.003|TWO_SIDED|95.0|0.065|0.329||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 22 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.329|0.065|=0.003
82483070|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.187|||=|0.004|TWO_SIDED|95.0|0.059|0.316||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 24 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.316|0.059|=0.004
82483071|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.243|||<|0.001|TWO_SIDED|95.0|0.113|0.373||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 26 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.373|0.113|<0.001
82483072|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.207|||=|0.002|TWO_SIDED|95.0|0.074|0.34||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 28 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.340|0.074|=0.002
82483073|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.227|||<|0.001|TWO_SIDED|95.0|0.096|0.358||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 30 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.358|0.096|<0.001
82483074|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.199|||=|0.004|TWO_SIDED|95.0|0.064|0.334|||Mixed Models Analysis|p-value for superiority test based on 2-sided significance level.||Week 32 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.334|0.064|=0.004
82483075|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.279|||<|0.001||95.0|0.15|0.409||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 34 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.409|0.150|<0.001
82483076|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.256|||<|0.001|TWO_SIDED|95.0|0.121|0.391||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 36- The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.391|0.121|<0.001
82554982|NCT04163991|164816734|SUPERIORITY||Ratio of geometric mean versus placebo|0.64||||0.0584|TWO_SIDED|90.0|0.43|0.94||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.94|0.43|0.0584
82554983|NCT04163991|164816734|OTHER||Ratio of geometric mean versus placebo|0.76||||0.2274|TWO_SIDED|90.0|0.51|1.11||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||1.11|0.51|0.2274
82554984|NCT04163991|164816734|SUPERIORITY||Ratio of geometric mean versus placebo|0.77||||0.2794|TWO_SIDED|90.0|0.52|1.14||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||1.14|0.52|0.2794
82554985|NCT04163991|164816734|SUPERIORITY||Ratio of geometric mean versus placebo|0.57||||0.0199|TWO_SIDED|90.0|0.39|0.85||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.85|0.39|0.0199
82554986|NCT04163991|164816735|SUPERIORITY||Ratio of geometric mean versus placebo|0.64||||0.0007|TWO_SIDED|90.0|0.52|0.79||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.79|0.52|0.0007
82554987|NCT04163991|164816735|SUPERIORITY||Ratio of geometric mean versus placebo|0.62||||0.0003|TWO_SIDED|90.0|0.5|0.76||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.76|0.50|0.0003
82554988|NCT04163991|164816735|SUPERIORITY||Ratio of geometric mean versus placebo|0.6||||0.0001|TWO_SIDED|90.0|0.48|0.74||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.74|0.48|0.0001
82554989|NCT04163991|164816735|SUPERIORITY||Ratio of geometric mean versus placebo|0.47|||<|0.0001|TWO_SIDED|90.0|0.38|0.59||Results are from MMRM analysis on log(ratio to baseline) with treatment, visit, visit by treatment interaction, and log(baseline) included in the model.|MMRM||Ratio of geometric mean is for VIB4920:placebo. Ratios less than 1 indicate a decrease.|||0.59|0.38|< 0.0001
82586127|NCT06609135|164884184|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.56
82483077|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.136|||=|0.06|TWO_SIDED|95.0|-0.006|0.277||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 40 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.277|-0.006|=0.060
82483078|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.082|||=|0.293|TWO_SIDED|95.0|-0.071|0.236||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 44 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.236|-0.071|=0.293
82483079|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.027|||=|0.723|TWO_SIDED|95.0|-0.123|0.177||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 48 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.177|-0.123|=0.723
82483080|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.199|||=|0.009|TWO_SIDED|95.0|0.049|0.348||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 52 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.348|0.049|=0.009
82483081|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.147|||=|0.056|TWO_SIDED|95.0|-0.004|0.298||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 56 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.298|-0.004|=0.056
82483082|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.196|||=|0.01|TWO_SIDED|95.0|0.047|0.346||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 60 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.346|0.047|=0.010
82483083|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.275|||<|0.001|TWO_SIDED|95.0|0.123|0.427||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 64 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.427|0.123|<0.001
82554990|NCT04163991|164816736|SUPERIORITY||Odds Ratio (OR)|1.4||||0.775|TWO_SIDED|90.0|0.2|8.0||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||8.0|0.2|0.7750
82554991|NCT04163991|164816736|SUPERIORITY||Odds Ratio (OR)|0.6||||0.6974|TWO_SIDED|90.0|0.1|5.5||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||(Lower limit of 90% CI is \< 0.1.) Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.5|0.1|0.6974
82581751|NCT00910689|164875440|SUPERIORITY_OR_OTHER||||||<|0.01||||||Post tests consisted of 6 pair wise contrasts: The first 3 contrasts compared each of the 3 additive treatments (Trial Arms 2, 3, 4) to OAT + PL (Trial arm 1); 3 additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure was used to control the family-wise type I error for the 6 post test contrasts at .05. Adjusted p =.0083.||Omnibus Test: A mixed model with fixed effects for treatment,natural time(defined as natural log of months) and treatment-by-time interaction was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects(using the PROC MIXED procedure in SAS statistical software,version 9;www.sas.com). A significant treatment by time interaction(p \< .05, 2-tailed) was followed by post-tests (see below). Details of significant post tests are reported as separate analyses.||||< .01
82483084|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.206|||=|0.006|TWO_SIDED|95.0|0.059|0.353||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 68 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.353|0.059|=0.006
82483085|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.118|||=|0.127|TWO_SIDED|95.0|-0.033|0.269||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 72 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.269|-0.033|=0.127
82554992|NCT04163991|164816736|SUPERIORITY||Odds Ratio (OR)|0.9||||0.9318|TWO_SIDED|90.0|0.1|5.7||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.7|0.1|0.9318
82554993|NCT04163991|164816736|SUPERIORITY||Odds Ratio (OR)|0.9||||0.9108|TWO_SIDED|90.0|0.2|5.1||Results are from logistic regression analysis with treatment and baseline DAS28-CRP score included in the model.|Regression, Logistic||Odds ratio is VIB4920/placebo, with associated 90% CI and p-value. Odds ratios greater than 1 favor VIB4920.|||5.1|0.2|0.9108
82483086|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.211|||=|0.01|TWO_SIDED|95.0|0.051|0.371||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 76 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.371|0.051|=0.010
82483087|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.102|||=|0.191|TWO_SIDED|95.0|-0.051|0.255||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 80 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.255|-0.051|=0.191
82554994|NCT04163991|164816737|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
82554995|NCT04163991|164816737|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
82554996|NCT04163991|164816737|SUPERIORITY||Hazard Ratio (HR)|3.01||||0.3407|TWO_SIDED|90.0|0.45|20.09||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||20.09|0.45|0.3407
82554997|NCT04163991|164816737|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9805|TWO_SIDED|90.0|0.1|10.6||Based on Cox regression method with treatment group included in the model.|Regression, Cox||Hazard ratio is VIB4920/placebo. Hazard ratios less than 1 favor VIB4920.|||10.60|0.10|0.9805
82581752|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_DEVIATION|0.57|<|0.001||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483088|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.192|||=|0.018|TWO_SIDED|95.0|0.033|0.351||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 84 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.351|0.033|=0.018
82483089|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.044|||=|0.576|TWO_SIDED|95.0|-0.111|0.2||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 88 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.200|-0.111|=0.576
82483090|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.203|||=|0.017|TWO_SIDED|95.0|0.037|0.369||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 92 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.369|0.037|=0.017
82483091|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.184|||=|0.019|TWO_SIDED|95.0|0.031|0.338||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 96 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.338|0.031|=0.019
82483092|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.164|||=|0.056||95.0|-0.004|0.333||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 100 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.333|-0.004|=0.056
82483093|NCT02278341|164659141|SUPERIORITY||LSM Difference|0.099|||=|0.267|TWO_SIDED|95.0|-0.076|0.273||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Week 104 - The model included treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline Hb as continuous covariates.||0.273|-0.076|=0.267
82483094|NCT02278341|164659142|SUPERIORITY||LSM Difference|0.237|||<|0.001|TWO_SIDED|95.0|0.127|0.347||p-value for superiority test based on 2-sided significance level.|Mixed Models Analysis|||Weeks 28-36 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.347|0.127|<0.001
82483095|NCT02278341|164659142|SUPERIORITY||LSM Difference|0.105|||=|0.086|TWO_SIDED|95.0|-0.015|0.225||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||Weeks 44-52 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.225|-0.015|=0.086
82554998|NCT00450216|164816815|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8|||<|0.0001|TWO_SIDED|95.0|4.4|15.3||CMH test stratified by use of low-dose aspirin (yes/no) and prior upper gastrointestinal (UGI) ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The primary efficacy endpoint was the number of participants developing gastric ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of gastric ulcers at 24 weeks. The cumulative number of participants developing gastric ulcers at 24 weeks was analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by use of low-dose aspirin and prior UGI ulcer history.||15.3|4.4|<0.0001
82581753|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.68|>|0.25|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||> .25
82581754|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.59|>|0.98|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .98
82581755|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.69|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483096|NCT02278341|164659142|SUPERIORITY||LSM Difference|0.149|||=|0.031|TWO_SIDED|95.0|0.014|0.284||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||Weeks 96-104 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.284|0.014|=0.031
82483097|NCT02278341|164659143|SUPERIORITY||LSM Difference|0.235|||<|0.001|TWO_SIDED|95.0|0.125|0.346|||Mixed Models Analysis|||Weeks 28-36 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.346|0.125|<0.001
82483098|NCT02278341|164659143|SUPERIORITY||LSM Difference|0.104|||=|0.11|TWO_SIDED|95.0|-0.024|0.232|||Mixed Models Analysis|||Weeks 44-52 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.232|-0.024|=0.110
82581756|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.61|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
82581757|NCT00910689|164875440|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|0.72|>|0.29|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.29
82483099|NCT02278341|164659143|SUPERIORITY||LSM Difference|0.149|||=|0.036|TWO_SIDED|95.0|0.01|0.288|||Mixed Models Analysis|||Weeks 96-104 - The model includes treatment arm, region, CV History, previous ESA treatment, visits and visit by treatment as categorical variables and baseline Hb as continuous variable.||0.288|0.010|=0.036
82483100|NCT02278341|164659148|SUPERIORITY||Hazard Ratio (HR)|1.154|||=|0.164|TWO_SIDED|95.0|0.943|1.411||p-value for superiority test based on 2-sided significance level|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.411|0.943|=0.164
82483101|NCT02278341|164659149|SUPERIORITY||Hazard Ratio (HR)|0.979|||=|0.917|TWO_SIDED|95.0|0.656|1.462|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.462|0.656|=0.917
82483102|NCT02278341|164659150|SUPERIORITY||Hazard Ratio (HR)|0.867|||=|0.501|TWO_SIDED|95.0|0.573|1.313||p-value for superiority test based on 2-sided significance level|Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment, and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||1.313|0.573|=0.501
82483103|NCT02278341|164659151|SUPERIORITY||LSM Difference|-0.006|||=|0.507|TWO_SIDED|95.0|-0.02|0.01||p-value for superiority test based on 2-sided significance level|ANCOVA|||The model included treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||0.01|-0.02|=0.507
82483104|NCT02278341|164659152|SUPERIORITY||LSM Difference|0.132|||=|0.949|TWO_SIDED|95.0|-3.9|4.16|||ANCOVA|||The model included treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||4.16|-3.90|=0.949
82483105|NCT02278341|164659153|SUPERIORITY||Hazard Ratio (HR)|0.368|||<|0.001|TWO_SIDED|95.0|0.291|0.465|||Regression, Cox|||Hazard Ratio was calculated using stratified Cox Proportional Hazards regression stratifying on region, CV history, previous ESA treatment and adjusting on Hb at baseline as continuous covariate. Superiority was declared if the upper bound of the 95% CI was below 1.0.||0.465|0.291|<0.001
82483106|NCT02278341|164659154|SUPERIORITY||LSM Difference|-35.1|||<|0.001|TWO_SIDED|95.0|-51.8|-18.4|||ANCOVA|||Weeks 37-52 - Participants with no or missing medication records of IV Iron had their monthly IV Iron use set to 0 mg. The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-18.4|-51.8|<0.001
82581758|NCT00910689|164875441|SUPERIORITY_OR_OTHER||||||<|0.03|TWO_SIDED|95.0||||6 pair wise contrasts were conducted: The first 3 contrasts compared each of the 3 additive treatments to OAT + PL. The 3 additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure was used to control the family wise type I error for the 6 post test contrasts at .05. Adjusted p =.0083.||Omnibus test:A mixed model with fixed effects for treatment, time (defined as the natural log of months), and the treatment-by-time interaction was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects (PROC MIXED, SAS 9).When the treatment by time interaction was significant (p \< .05, 2-tailed)post-tests were conducted (see below).Details of significant post tests are reported as separate analyses.||||< .03
82483107|NCT02278341|164659154|SUPERIORITY||LSM Difference|-48.7|||<|0.001|TWO_SIDED|95.0|-70.3|-27.0|||ANCOVA|||Weeks 53-104 - Participants with no or missing medication records of IV Iron had their monthly IV Iron use set to 0 mg. The model includes treatment arm, region, CV History, previous ESA treatment as categorical variables and baseline Hb as continuous variable.||-27.0|-70.3|<0.001
82483108|NCT02278341|164659164|SUPERIORITY||LSM Difference|0.521|||=|0.161|TWO_SIDED|95.0|-0.208|1.25||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline SF-36 PCS, baseline Hb, as continuous covariates.||1.250|-0.208|=0.161
82483109|NCT02278341|164659165|SUPERIORITY||LSM Difference|0.126|||=|0.845|TWO_SIDED|95.0|-1.135|1.387||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, as continuous covariates.||1.387|-1.135|=0.845
82483110|NCT02278341|164659166|SUPERIORITY||LSM Difference|-0.128|||=|0.922|TWO_SIDED|95.0|-2.703|2.447||p-value for superiority test based on 2-sided significance level|Mixed Models Analysis|||The model includes treatment, visit, visit by treatment interaction, Previous ESA Treatment, region and history of CV disease as fixed class factors and baseline FACT-An Ans, baseline Hb, as continuous covariates.||2.447|-2.703|=0.922
82483111|NCT04902326|164659174|SUPERIORITY|||||||0.78|||||||Regression, Linear|||Compare the mean decrease of HbA1c of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.78
82483112|NCT04902326|164659175|SUPERIORITY|||||||0.64|||||||Regression, Linear|||Compare the mean decrease of HbA1c of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.64
82483113|NCT04902326|164659176|SUPERIORITY|||||||0.87|||||||Regression, Linear|||Compare the mean decrease of weight of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.87
82483114|NCT04902326|164659177|SUPERIORITY|||||||0.87|||||||Regression, Linear|||Compare the mean decrease of weight of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||0.87
82581759|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.03|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82581760|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|1.12|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82581761|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.1|STANDARD_DEVIATION|1.26|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483115|NCT04902326|164659178|SUPERIORITY||||||<|0.0001|||||||Regression, Linear|||Compare the mean months engaged (with DPP or metformin) of the Combo Arm, Financial Incentives arm, and the Tailored Messages arm each with the EUC arm.||||<0.0001
82483116|NCT02397564|164659179|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||0.019
82483117|NCT02604017|164659181|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 12-week treatment group as compared with the historical rate was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR12 must exceed 91% to achieve noninferiority.|Percentage of Participants|99.7|||||TWO_SIDED|95.0|99.1|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥97% in the 12-week arm, 270 participants provides \>90% power to demonstrate noninferiority of the 12-week arm to the historical control rate for HCV GT1 subjects who are treatment-naïve or treated with pegIFN/RBV (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|99.1|
82483118|NCT02604017|164659182|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 8-week treatment group as compared with the 12-week treatment group was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the difference in percentage of participants with SVR12 (8-week group minus 12-week group) must be above -5% to achieve noninferiority.|Difference in Percentage of Participants|0.0|||||TWO_SIDED|95.0|-1.1|1.1||||||Based on a 2-sided significance level of 0.05 and an -5% noninferiority margin and an underlying rate of ≥97% in the 8-week arm (270 participants) and ≥97% in the 12-week arm (270 participants) provides \>90% power to demonstrate noninferiority of the 8-week arm to the 12-week arm.||1.1|-1.1|
82483119|NCT02604017|164659183|NON_INFERIORITY|The noninferiority of the rate of SVR12 for the 8-week treatment group as compared with the 12-week treatment group was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the difference in percentage of participants with SVR12 must be above -5% to achieve noninferiority.|Difference in Percentage of Participants|-0.6|||||TWO_SIDED|95.0|-1.8|0.6||||||Based on a 2-sided significance level of 0.05 and a -5% noninferiority margin, and an underlying rate of ≥97% in the 8-week arm (270 participants) and ≥97% in the 12-week arm (270 participants) provides \>90% power to demonstrate noninferiority of the 8-week arm to the 12-week arm.||0.6|-1.8|
82483120|NCT01041495|164659192|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.869||||0.869|TWO_SIDED|95.0||||P values below 0.05 were considered statistically significant|t-test, 2 sided|||||||.869
82483121|NCT01041495|164659193|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0||||0.486|TWO_SIDED||||||t-test, 2 sided|||Visual Analogue Pain Scale (VAPS). The final visit VAPS at 8th week will be compared against baseline VAPS scores for both treatment groups||||.486
82483122|NCT01041495|164659193|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.486|TWO_SIDED||||||t-test, 1 sided|||||||.486
82483123|NCT01041495|164659194|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|17.0||||0.869|TWO_SIDED||||||t-test, 2 sided||As above- this was the difference between the groups on mean avg, it was used here|||||.869
82483124|NCT01041495|164659194|SUPERIORITY||Mean Difference (Final Values)|17.0||||0.275|TWO_SIDED||||||t-test, 1 sided|||||||.275
82483125|NCT01850602|164659225|NON_INFERIORITY|"Non-Inferiority margin: 1.0 mg/dL~Non-Inferiority was considerd to be confirmed if the upper limit of two-sided confidence interval became 1.0 mg/dL or less."|Mean Difference (Final Values)|-0.34||||0.02|TWO_SIDED|95.0|-0.63|-0.05|||ANCOVA|||||-0.05|-0.63|0.020
82581762|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.2|>|0.02|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .02
82581763|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.35|>|0.79||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>.79
82483126|NCT01634178|164659235|OTHER|Food was considered to have no effect on the PK of apremilast if the 90% confidence interval (CI) of the geometric least squares (LS) mean ratios for AUC0-t and Cmax were completely contained within the range of 80% to 125%.|Ratio of Geometric Least Squares Means|98.3|||||TWO_SIDED|90.0|90.7|106.6|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an analysis of variance model (ANOVA) with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed Cmax of apremilast.||106.6|90.7|
82483127|NCT01634178|164659237|OTHER||Median Difference|0.75||||0.0077|TWO_SIDED|90.0|0.25|1.25|||Wilcoxon signed-rank test||Median difference (Fed - Fasted) calculated from the Hodges-Lehmann estimate.|Tmax was analyzed by nonparametric methods. The median difference and 90% CI of the median difference were calculated from the Hodges-Lehrmann estimate.||1.25|0.25|0.0077
82483128|NCT01634178|164659238|OTHER|Food was considered to have no effect on the PK of apremilast if the 90% CI of the geometric LS mean ratios for AUC0-t and Cmax were completely contained within the range of 80% to 125%.|Ratio of Geometric LS Means|112.4|||||TWO_SIDED|90.0|109.3|115.6|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an analysis of variance model (ANOVA) with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-t of apremilast.||115.6|109.3|
82483129|NCT01634178|164659239|OTHER||Ratio of Geometric Least Squares Means|112.0|||||TWO_SIDED|90.0|108.9|115.1|||||Ratio of the geometric LS means (Fed/Fasted), reported as percentages.|To assess the food effect, an ANOVA with treatment, sequence, and period as fixed effects, and subject nested within sequence as a random effect, was performed on the natural log-transformed AUC0-∞ of apremilast.||115.1|108.9|
82483130|NCT00740051|164659281|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.86|-0.29||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo||-0.29|-0.86|<0.0001
82483131|NCT00740051|164659282|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.88|-0.32||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo. The primary analysis performed at the interim was re-run at the end of the study to accommodate changes made to the final study database.||-0.32|-0.88|<0.0001
82581764|NCT00910689|164875441|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.43|>|0.02||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|||Post-test contrast. Mean difference in change.||||>.02
82483132|NCT00740051|164659283|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.5|STANDARD_ERROR_OF_MEAN|5.4||0.0002||95.0|-31.1|-9.9||No adjustment of p-values|ANCOVA|||Linagliptin versus Placebo||-9.9|-31.1|0.0002
82483133|NCT00740051|164659284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.576||||0.0374||95.0|1.057|6.279||No adjustment of p-values|Regression, Logistic|||Linagliptin versus Placebo||6.279|1.057|0.0374
82483134|NCT00740051|164659285|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.285||||0.1281||95.0|0.71|15.196||No adjustment of p-values|Regression, Logistic|||Linagliptin vs. Placebo||15.196|0.710|0.1281
82483135|NCT00740051|164659286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.801||||0.0046||95.0|1.374|5.711||No adjustment of p-values|Regression, Logistic|||Linagliptin versus Placebo||5.711|1.374|0.0046
82483136|NCT00930982|164659289|SUPERIORITY_OR_OTHER||Difference in Least square means|-2.368|STANDARD_ERROR_OF_MEAN|2.674|<|0.001||||||p-value should be \< 0.023 (one-sided) for a significant result as an interim analysis was performed. Results based on the no-interaction model which was defined as primary analysis.|ANCOVA|Baseline cfu was covariate, treatment and pooled centers factors. As the p-value for interaction was 0.214, the no-interaction model is appropriate.|Least square mean Ciprofloxacin minus placebo|"Ho: CFU(EOT\|Cipro) - CFU(baseline\|Cipro) \> CFU(EOT\|Placebo) - CFU(baseline\|Placebo) CFU = colony forming units EOT=End of treatment (Day 29) Sample size was based a difference of 1.2 log10 CFU/g between placebo and Ciprofloxacin and a standard deviation of 2 log10 CFU/g"||||< 0.001
82483137|NCT03160859|164659317|SUPERIORITY|||||||0.62|||||||Chi-squared|||Chi Square||||0.62
82483138|NCT00509262|164659321|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%; i.e., non-inferiority required that the upper boundary of the 95% confidence interval for the treatment difference (sitagliptin minus glipizide) to be less than 0.4%.|Difference in least squares mean|-0.11|STANDARD_DEVIATION|0.74|||TWO_SIDED|95.0|-0.29|0.06|||ANCOVA||Based on analysis of covariance with terms for treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate, or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline A1C.|||0.06|-0.29|
82483139|NCT00509262|164659322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8||||0.001|TWO_SIDED|95.0|-17.1|-4.8|||Miettirnen& Nurminen method||Miettirnen \& Nurminen method stratified by renal insufficiency stratum at Visit 4/Week -2 (moderate or severe) \& prior diabetes pharmacotherapy|||-4.8|-17.1|0.001
82483140|NCT00509262|164659323|SUPERIORITY_OR_OTHER||Difference in least squares mean|7.1|STANDARD_DEVIATION|38.3|||TWO_SIDED|95.0|-1.9|16.1|||ANCOVA||Analysis of covariance with terms for treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline Fasting Plasma Glucose.|||16.1|-1.9|
82483141|NCT00509262|164659324|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.8|STANDARD_DEVIATION|3.8|<|0.001|TWO_SIDED|95.0|-2.6|-1.0|||ANCOVA||Analysis of covariance with terms of treatment, renal insufficiency stratum at Visit 4/Week -2 (moderate or severe), prior diabetes pharmacotherapy (on or not on oral antihyperglycemic agent), and a covariate for baseline body weight.|||-1.0|-2.6|<0.001
82483142|NCT01423604|164659346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.733||||0.0494|TWO_SIDED|95.0|0.506|1.061||One-sided p-value.|Log Rank|||||1.061|0.506|0.0494
82483143|NCT01423604|164659346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.502||||0.0081|TWO_SIDED|95.0|0.281|0.888||One-sided p-value.|Log Rank|||Cox Regression Analysis of Overall Survival: C-reactive protein (CRP) \> 13 μg/ml; Statistical analysis plan (SAP) specified subgroup analysis||0.888|0.281|0.0081
82554999|NCT00450216|164816816|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.8|||<|0.0001|TWO_SIDED|95.0|6.1|17.6||CMH test stratified by use of low-dose aspirin (yes/no) and prior UGI ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The secondary efficacy endpoint was the number of participants developing UGI (i.e., gastric and/or duodenal) ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of UGI ulcers at 24 weeks. The cumulative number of participants developing UGI ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prior UGI ulcer history.||17.6|6.1|<0.0001
82555000|NCT00450216|164816817|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|3.8||||0.0006|TWO_SIDED|95.0|1.0|6.8||CMH test stratified by use of low-dose aspirin (yes/no) and prior UGI ulcer history (yes/no) at randomization.|Cochran-Mantel-Haenszel|||The secondary efficacy endpoint was the number of participants developing duodenal ulcers throughout 24 weeks of treatment. A summary, including cumulative frequency and percentage with associated 95% confidence intervals was produced for the observational incidences of duodenal ulcers at 24 weeks. The cumulative number of participants developing duodenal ulcers at 24 weeks was analyzed using the CMH test stratified by use of low-dose aspirin and prio UGI ulcer history at randomization.||6.8|1.0|0.0006
82483144|NCT01423604|164659347|SUPERIORITY_OR_OTHER||Efron approximation of hazard ratio|0.75||||0.134|TWO_SIDED|95.0|0.513|1.094||Two-sided p-value.|Cox proportional hazards model|||||1.094|0.513|0.1340
82483145|NCT01423604|164659349|SUPERIORITY_OR_OTHER|||||||0.0236|||||||Pearson's chi-square test|||||||0.0236
82483146|NCT02581943|164659357|OTHER|||||||0.366|||||||Log Rank|||||||0.366
82483147|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.327|||||||Wilcoxon (Mann-Whitney)|test for CD4+FoxP3||||||0.327
82483148|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.142|||||||Wilcoxon (Mann-Whitney)|test for MDSC||||||0.142
82483149|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.462||||||test for CD4+ICOS+|Wilcoxon (Mann-Whitney)|||||||0.462
82483150|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.87||||||test for CD8+ICOS+|Wilcoxon (Mann-Whitney)|||||||0.870
82483151|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.414||||||test for Plamacytoid DC|Wilcoxon (Mann-Whitney)|||||||0.414
82483152|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.121||||||test for Monocytes|Wilcoxon (Mann-Whitney)|||||||0.121
82483153|NCT02581943|164659358|EQUIVALENCE|Null hypothesis: no difference between treatment arms in the post-pre difference in cell counts.||||||0.624||||||test for T cells (CD3+)|Wilcoxon (Mann-Whitney)|||||||0.624
82483154|NCT02581943|164659359|OTHER|||||||0.348|||||||Fisher Exact|||||||0.348
82483155|NCT02581943|164659360|OTHER|||||||0.63|||||||Log Rank|||||||0.63
82483156|NCT02581943|164659361|OTHER|||||||0.692|||||||Log Rank|||||||0.692
82483157|NCT02581943|164659362|OTHER|||||||0.345|||||||Fisher Exact|||||||0.345
82483158|NCT02581943|164659363|OTHER|||||||0.917|||||||Kruskal-Wallis|Test for CD8+ICOS||||||0.917
82483159|NCT02581943|164659363|OTHER|||||||0.746|||||||Kruskal-Wallis|test for MDSC||||||0.746
82483160|NCT02581943|164659363|OTHER|||||||0.302||||||test for CD4+ICOS|Kruskal-Wallis|||||||0.302
82483161|NCT02581943|164659363|OTHER|||||||0.13|||||||Kruskal-Wallis|test for CD8+ICOS+||||||0.130
82483162|NCT02581943|164659363|OTHER|||||||0.628||||||test for Plamacytoid DC|Kruskal-Wallis|||||||0.628
82483163|NCT02581943|164659363|OTHER|||||||0.567||||||test for Monocytes|Kruskal-Wallis|||||||0.567
82483164|NCT02581943|164659363|OTHER|||||||0.311||||||test for T cells (CD3+)|Kruskal-Wallis|||||||0.311
82483165|NCT02290431|164659369|SUPERIORITY||||||<|0.0001|||||||single-sample binomial test|||||||< 0.0001
82483166|NCT00829985|164659386|SUPERIORITY_OR_OTHER||Risk Ratio, log|1.92|||<|0.0001|TWO_SIDED|95.0|1.51|2.45|||Mixed Models Analysis||The estimated value and associated confidence interval represent the ratio of baseline-to-post-baseline change in the placebo group (denominator = 1.12) vs. the extract group (numerator = 2.16).|||2.45|1.51|<0.0001
82483167|NCT00829985|164659387|SUPERIORITY_OR_OTHER||Risk Ratio, log|1.13||||0.088|TWO_SIDED|95.0|0.98|1.32|||Mixed Models Analysis||The estimated value and associated confidence interval represent the ratio of baseline-to-post-baseline change in the placebo group (denominator = 0.93) vs. the extract group (numerator = 1.06).|||1.32|0.98|0.088
82483168|NCT00829985|164659388|SUPERIORITY_OR_OTHER||Treatment Effect|0.37||||0.37|TWO_SIDED|95.0|-4.89|12.99|||Mixed Models Analysis||Estimated value and associated confidence interval represent the treatment effect: change in the extract group (4.7) minus change in the placebo group (0.7).|||12.99|-4.89|0.37
82483169|NCT00829985|164659389|SUPERIORITY_OR_OTHER||Treatment Effect|5.4||||0.09|TWO_SIDED|95.0|-0.77|11.51|||Mixed Models Analysis||Estimated value and associated confidence interval represent the treatment effect: change in the extract group (4.0) minus change in the placebo group (-1.3).|||11.51|-0.77|0.09
82483170|NCT04473482|164659424|SUPERIORITY|Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals and conversion to odds ratios|Odds Ratio (OR)|2.25|||||TWO_SIDED|95.0|||||||Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals and conversion to odds ratios||Generalized estimating equations with robust sandwich estimators used with Wald 95% confidence intervals|||
82483171|NCT04473482|164659425|SUPERIORITY||Odds Ratio (OR)|2.31|||||TWO_SIDED|95.0|||||||GEEs with robust sandwich estimators and Wald 95% CIs with conversion to Odds Ratios|||||
82483172|NCT01076075|164659445|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.68|||<|0.001|TWO_SIDED|95.0|-0.87|-0.5|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, using the difference in the Least Squares Means.||-0.50|-0.87|<0.001
82483173|NCT01076075|164659446|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-33.5|||<|0.001|TWO_SIDED|95.0|-45.3|-21.7|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, difference in the Least Squares Means.||-21.7|-45.3|<0.001
82483174|NCT01076075|164659447|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-18.6|||<|0.001|TWO_SIDED|95.0|-26.4|-10.7|||ANCOVA|Based on an ANCOVA model controlling for treatment, stratum (type of sulfonylurea) and baseline value.||Pairwise comparison - Sitagliptin vs. Placebo, using the difference in the Least Squares Means.||-10.7|-26.4|<0.001
82483175|NCT05038904|164659463|SUPERIORITY|We estimated that 10 subjects allowed for 80% power to detect a 3-fold increase (1.1 natural log units; i.e. 1 food dose escalation) in the threshold food dose using a paired t test with p\<0.05. For this sample size determination, the primary endpoint was assumed to be normally distributed with a standard deviation of 1.1 natural log units.||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82483176|NCT05038904|164659464|SUPERIORITY|||||||0.0014|||||||t-test, 2 sided|||||||0.0014
82483177|NCT05038904|164659465|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82483178|NCT05038904|164659466|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||Participants' ex vivo basophil activation during acalabrutinib treatment was compared to their own baseline level.||||0.002
82483179|NCT04721067|164659492|SUPERIORITY||Mean Difference (Net)|-2.27||||0.607|TWO_SIDED|95.0|-15.14|10.6|||Regression, Logistic|Adjusted for baseline values||||10.60|-15.14|0.607
82483180|NCT04721067|164659493|SUPERIORITY||Mean Difference (Net)|-2.99||||0.766|TWO_SIDED|95.0|-10.74|4.76|||ANCOVA|||||4.76|-10.74|0.766
82483181|NCT04721067|164659494|SUPERIORITY||Mean Difference (Net)|145.54||||0.465|TWO_SIDED|95.0|-264.05|555.14|||ANCOVA|||||555.14|-264.05|0.465
82483182|NCT04721067|164659495|SUPERIORITY||Mean Difference (Net)|137.79||||0.178|TWO_SIDED|95.0|-68.71|344.3|||ANCOVA|||||344.30|-68.71|0.178
82483183|NCT04721067|164659496|SUPERIORITY||Mean Difference (Net)|1.87||||0.548|TWO_SIDED|95.0|-4.58|8.31|||ANCOVA|||||8.31|-4.58|0.548
82483184|NCT04721067|164659497|SUPERIORITY||Mean Difference (Net)|-0.67||||0.579|TWO_SIDED|95.0|-3.14|1.8|||ANCOVA|||||1.80|-3.14|0.579
82483185|NCT04721067|164659498|SUPERIORITY||Mean Difference (Net)|-0.63||||0.766|TWO_SIDED|95.0|-5.0|3.74|||ANCOVA|||||3.74|-5.00|0.766
82483186|NCT04721067|164659499|SUPERIORITY||Mean Difference (Net)|-1.23||||0.42|TWO_SIDED|95.0|-4.39|1.93|||ANCOVA|||||1.93|-4.39|0.42
82483187|NCT04721067|164659500|SUPERIORITY||Mean Difference (Net)|-0.07||||0.91|TWO_SIDED|95.0|-1.34|1.2|||ANCOVA|||||1.20|-1.34|0.91
82483188|NCT04721067|164659501|SUPERIORITY||Mean Difference (Net)|0.79||||0.73|TWO_SIDED|95.0|-4.03|5.6|||ANCOVA|||||5.60|-4.03|0.73
82483189|NCT04721067|164659502|SUPERIORITY||Mean Difference (Net)|0.19||||0.42|TWO_SIDED|95.0|-0.3|0.68|||ANCOVA|||||0.68|-0.30|0.42
82483190|NCT04721067|164659503|SUPERIORITY||Mean Difference (Net)|1.79||||0.18|TWO_SIDED|95.0|-0.9|4.48|||ANCOVA|||||4.48|-0.90|0.18
82483191|NCT04721067|164659504|SUPERIORITY||Mean Difference (Net)|-2.03||||0.48|TWO_SIDED|95.0|-7.97|3.9|||ANCOVA|||||3.90|-7.97|0.48
82483192|NCT04721067|164659505|SUPERIORITY||Mean Difference (Net)|1.42||||0.08|TWO_SIDED|95.0|-0.24|3.08|||ANCOVA|||||3.08|-0.24|0.08
82586128|NCT06609135|164884185|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.09
82555001|NCT04499521|164816853|OTHER||Median Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.27|0.5||||||Mean difference between Gauze and Gel ARM A Bladder D2cc||0.50|-0.27|
82555002|NCT04499521|164816853|OTHER||Median Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.94|0.96||||||Mean difference between Gauze and Gel ARM B Bladder D2cc||0.96|-0.94|
82555003|NCT04499521|164816853|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.54|0.16||||||Mean difference between Gauze and Gel ARM A Rectum D2cc||0.16|-0.54|
82555004|NCT04499521|164816853|OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.67|0.29||||||Mean difference between Gauze and Gel ARM B Rectum D2cc||0.29|-0.67|
82555005|NCT03734029|164816856|SUPERIORITY||Cox Proportional Hazard|0.5085|||<|0.0001|TWO_SIDED|95.0|0.4012|0.6444||Two-sided p-value from stratified log-rank test, Hazard ratio and 95% CI from stratified Cox proportional hazards model using stratification factors: HER2 status, number of prior lines of chemotherapy, hormone Receptor/CDK status, as defined by IXRS.|Log Rank|||||0.6444|0.4012|<0.0001
82555006|NCT04244175|164816874|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|0.11|||=|0.986|TWO_SIDED|90.0|-10.38|10.61|||ANCOVA||CVL-865 25 mg BID - Placebo|CVL-865 25 mg BID vs Placebo||10.61|-10.38|=0.986
82483193|NCT04721067|164659506|SUPERIORITY||Mean Difference (Net)|0.51||||0.94|TWO_SIDED|95.0|-13.5|14.52|||ANCOVA|||||14.52|-13.50|0.94
82483194|NCT04721067|164659509|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.32|TWO_SIDED|95.0|-0.45|1.32|||t-test, 2 sided|||||1.32|-0.45|0.32
82555007|NCT04244175|164816874|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|1.42|||=|0.823|TWO_SIDED|90.0|-9.04|11.87|||ANCOVA||CVL-865 7.5 mg BID - Placebo|CVL-865 7.5 mg BID vs Placebo||11.87|-9.04|=0.823
82483195|NCT04721067|164659510|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.61|TWO_SIDED|95.0|-0.75|1.25|||t-test, 2 sided|||||1.25|-0.75|0.61
82483196|NCT04721067|164659511|SUPERIORITY||Mean Difference (Net)|-1.05||||0.52|TWO_SIDED|95.0|-4.42|2.31|||ANCOVA|||||2.31|-4.42|0.52
82483197|NCT04721067|164659512|SUPERIORITY||Mean Difference (Net)|-0.44||||0.61|TWO_SIDED|95.0|-2.2|1.32|||ANCOVA|||||1.32|-2.20|0.61
82483198|NCT04721067|164659513|SUPERIORITY||Mean Difference (Net)|3.68||||0.16|TWO_SIDED|95.0|-1.61|8.97|||ANCOVA|||||8.97|-1.61|0.16
82555008|NCT04244175|164816874|SUPERIORITY|RRatio was analyzed using an analysis of covariance (ANCOVA) model including treatment and the Baseline seizure frequency per week as a covariate.|LS Mean Difference|0.76|||=|0.888|TWO_SIDED|90.0|-8.23|9.76|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo|CVL-865 7.5 mg BID / 25 mg BID vs Placebo||9.76|-8.23|=0.888
82555009|NCT04244175|164816875|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|4.9|||||TWO_SIDED|90.0|-12.0|19.3||||||CVL-865 25 mg BID vs Placebo||19.3|-12.0|
82555010|NCT04244175|164816875|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|1.4|||||TWO_SIDED|90.0|-16.1|16.2||||||CVL-865 7.5 mg BID vs Placebo||16.2|-16.1|
82555011|NCT04244175|164816875|SUPERIORITY|The percent reduction relative to Placebo was calculated.|Percent reduction relative to Placebo|3.2|||||TWO_SIDED|90.0|-11.4|15.8||||||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||15.8|-11.4|
82555012|NCT04244175|164816876|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.27|||=|0.587|TWO_SIDED|90.0|0.616|2.618|||Regression, Logistic|||CVL-865 25 mg BID vs Placebo||2.618|0.616|=0.587
82555013|NCT04244175|164816876|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.303|||=|0.554|TWO_SIDED|90.0|0.624|2.723|||Regression, Logistic|||CVL-865 7.5 mg BID vs Placebo||2.723|0.624|=0.554
82483199|NCT04721067|164659514|SUPERIORITY||Mean Difference (Net)|0.43||||0.13|TWO_SIDED|95.0|-0.13|1.0|||ANCOVA|||||1.00|-0.13|0.13
82483200|NCT04721067|164659515|SUPERIORITY||Mean Difference (Net)|3.88||||0.03|TWO_SIDED|95.0|0.35|7.41|||ANCOVA|||||7.41|0.35|0.03
82483201|NCT04721067|164659516|SUPERIORITY||Mean Difference (Net)|-3.2||||0.41|TWO_SIDED|95.0|-11.07|4.66|||ANCOVA|||||4.66|-11.07|0.41
82483202|NCT04721067|164659517|SUPERIORITY||Mean Difference (Net)|1.7||||0.17|TWO_SIDED|95.0|-0.83|4.22|||ANCOVA|||||4.22|-0.83|0.17
82483203|NCT04721067|164659518|SUPERIORITY||Mean Difference (Net)|3.49||||0.58|TWO_SIDED|95.0|-9.58|16.55|||ANCOVA|||||16.55|-9.58|0.58
82483204|NCT04721067|164659519|SUPERIORITY||Mean Difference (Net)|0.15||||0.74|TWO_SIDED|95.0|-0.79|1.1|||ANCOVA|||||1.10|-0.79|0.74
82483205|NCT04721067|164659520|SUPERIORITY||Mean Difference (Net)|129.077||||0.17|TWO_SIDED|95.0|-57.78|315.92|||ANCOVA|||||315.92|-57.78|0.17
82483206|NCT04721067|164659521|SUPERIORITY||Mean Difference (Net)|109.71||||0.31|TWO_SIDED|95.0|-108.37|327.78|||ANCOVA|||||327.78|-108.37|0.31
82483207|NCT04721067|164659522|SUPERIORITY||Mean Difference (Net)|0.24||||0.92|TWO_SIDED|95.0|-4.52|5.0|||ANCOVA|||||5.00|-4.52|0.92
82555014|NCT04244175|164816876|SUPERIORITY|A logistic regression with treatment group and Baseline seizure frequency as covariates was used to calculate the Odds ratio, 90% confidence interval, and p-value.|Odds Ratio (OR)|1.286|||=|0.513|TWO_SIDED|90.0|0.684|2.42|||Regression, Logistic|||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||2.420|0.684|=0.513
82555015|NCT04244175|164816877|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||>|0.999|||||||Fisher's exact test|||CVL-865 25 mg BID vs Placebo||||>0.999
82586129|NCT06609135|164884186|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 31 weeks between participants that were successful in discontinuation of non-invasive ventilation at 32 weeks postmenstrual age and those that were unsuccessful.||||0.09
82483208|NCT04721067|164659523|SUPERIORITY||Mean Difference (Net)|-1.11||||0.66|TWO_SIDED|95.0|-6.28|4.06|||ANCOVA|||||4.06|-6.28|0.66
82483209|NCT01986933|164659525|SUPERIORITY||Mean Difference (Final Values)|-21.39|STANDARD_ERROR_OF_MEAN|7.02||0.0027|TWO_SIDED|95.0|-35.25|-7.53||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-7.53|-35.25|0.0027
82483210|NCT01986933|164659525|SUPERIORITY||Mean Difference (Final Values)|-41.16|STANDARD_ERROR_OF_MEAN|7.1|<|0.0001|TWO_SIDED|95.0|-55.17|-27.15||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-27.15|-55.17|<0.0001
82555016|NCT04244175|164816877|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||=|0.618|||||||Fisher's exact test|||CVL-865 7.5 mg BID vs Placebo||||=0.618
82555017|NCT04244175|164816877|SUPERIORITY|The p-value is from Fisher's exact test for number of responders.|||||=|0.422|||||||Fisher's exact test|||CVL-865 7.5 mg BID / 25 mg BID vs Placebo||||=0.422
82555018|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.5|||=|0.021|TWO_SIDED|90.0|-0.8|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||-0.1|-0.8|=0.021
82555019|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.2|||=|0.342|TWO_SIDED|90.0|-0.5|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.1|-0.5|=0.342
82555020|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.059|TWO_SIDED|90.0|-0.6|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||0.0|-0.6|=0.059
82555021|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.5|||=|0.04|TWO_SIDED|90.0|-0.9|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||-0.1|-0.9|=0.040
82555022|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.152|TWO_SIDED|90.0|-0.8|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.1|-0.8|=0.152
82555023|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.044|TWO_SIDED|90.0|-0.8|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||-0.1|-0.8|=0.044
82483211|NCT01986933|164659525|SUPERIORITY||Mean Difference (Final Values)|-40.39|STANDARD_ERROR_OF_MEAN|6.95|<|0.0001|TWO_SIDED|95.0|-54.11|-26.67||Since a hierarchical decision procedure can be regarded as a closed testing procedure, no inflation of the alpha level due to multiple comparisons was necessary, and the global 1-sided significance alpha level of 0.025 was maintained.|ANCOVA|||||-26.67|-54.11|<0.0001
82555024|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.199|TWO_SIDED|90.0|-0.7|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||0.1|-0.7|=0.199
82555025|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.171|TWO_SIDED|90.0|-0.7|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.1|-0.7|=0.171
82555026|NCT04244175|164816879|SUPERIORITY|The PGI-C score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.125|TWO_SIDED|90.0|-0.7|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||0.0|-0.7|=0.125
82483212|NCT05985980|164659535|EQUIVALENCE|The null hypothesis is true that the ST/HR index (μV/bpm) ıs similar between the early and late follicular phases||||||0.521|||||||t-test, 2 sided|||||||0.521
82483213|NCT05985980|164659536|EQUIVALENCE|High-sensitive cardiac troponin T (hs-cTnT) levels before and after ETT at the early and late follicular phases are compared.||||||0.109|||||||ANOVA|||High-sensitive cardiac troponin T (hs-cTnT) levels before and after ETT at the early and late follicular phases are compared.||||0.109
82483214|NCT05985980|164659537|EQUIVALENCE|ETT maximal exercise capacity (METs score) is compared between the early and late follicular phases of menstrual cycle||||||0.111|||||||t-test, 2 sided|||ETT maximal exercise capacity (METs score) is compared between the early and late follicular phases of menstrual cycle||||0.111
82555027|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.0|||=|0.767|TWO_SIDED|90.0|-0.3|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||0.2|-0.3|=0.767
82555028|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.2|||=|0.178|TWO_SIDED|90.0|0.0|0.5|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.5|0.0|=0.178
82555029|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.1|||=|0.542|TWO_SIDED|90.0|-0.1|0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||0.3|-0.1|=0.542
82555030|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.106|TWO_SIDED|90.0|-0.6|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||0.0|-0.6|=0.106
82555031|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.1|||=|0.663|TWO_SIDED|90.0|-0.2|0.4|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.4|-0.2|=0.663
82483215|NCT05985980|164659538|EQUIVALENCE|ETT ST/HR slope (μV/bpm) is compared between the early and late follicular phases of menstrual cycle||||||0.414|||||||t-test, 2 sided|||ETT ST/HR slope (μV/bpm) is compared between the early and late follicular phases of menstrual cycle||||0.414
82483216|NCT05985980|164659539|EQUIVALENCE|Maximal horizontal or down slope ST segment depression (mm) during exercise treadmill test is compared between the early and late follicular phases of menstrual cycle||||||0.062|||||||t-test, 2 sided|||Maximal horizontal or down slope ST segment depression (mm) during exercise treadmill test is compared between the early and late follicular phases of menstrual cycle||||0.062
82483217|NCT05985980|164659540|EQUIVALENCE|Estrogen levels increase at the late follicular phase.|||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82555032|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.488|TWO_SIDED|90.0|-0.4|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||0.2|-0.4|=0.488
82555033|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.1|TWO_SIDED|90.0|-0.7|0.0|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||0.0|-0.7|=0.100
82581765|NCT00910689|164875442|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED|95.0||||Post tests consisted of 6 pair wise contrasts: The first 3 contrasts compared each of the 3 additive treatments (Trial Arms 2, 3, 4) to OAT + PL (Trial arm 1); three additional contrasts compared the 3 additive treatments to one another.|Mixed Models Analysis|A Bonferoni procedure controlled the familywise type I error for the 6 contrasts at .05. Adjusted p=.0083.||Omnibus test:A mixed model with fixed effects for treatment, time (defined as the natural log of months), and the treatment-by-time interaction and pretreatment Migraine Specific Quality of Life scores as covariate was used to obtain maximum likelihood estimates of missing values and to evaluate treatment effects (using the PROC MIXED procedure in SAS statistical software, version 9; www. sas.com).A significant treatment by time interaction (p \< .05, 2-tailed) was followed by post-tests||||<.005
82483218|NCT04854642|164659550|OTHER||Least square mean difference|71.62|||<|0.0001|TWO_SIDED|90.0|68.13|75.29|||ANOVA|||||75.29|68.13|<0.0001
82483219|NCT04854642|164659551|OTHER||Least square mean difference|90.93||||0.017|TWO_SIDED|90.0|85.3|96.93|||ANOVA|||||96.93|85.30|0.0170
82483220|NCT04854642|164659552|OTHER||Least square mean difference|90.9||||0.0213|TWO_SIDED|90.0|85.04|97.16|||ANOVA|||||97.16|85.04|0.0213
82483221|NCT04854642|164659553|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82483222|NCT00472459|164659658|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.514||||0.012|TWO_SIDED|95.0|0.116|0.911|||t-test, 2 sided||The 95 % confidence intervals for the lesion complete response rates and lesion recurrence rates were estimated using the method of Clopper and Pearson.|||0.911|0.116|0.0120
82483223|NCT00472459|164659659|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.413||||0.1761|TWO_SIDED|95.0|-0.19|1.016|||t-test, 2 sided|||||1.016|-0.190|0.1761
82483224|NCT00472459|164659660|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.6||||0.1183|TWO_SIDED|95.0|-0.156|1.357|||t-test, 2 sided|||||1.357|-0.156|0.1183
82483225|NCT00472459|164659661|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.493||||0.2322|TWO_SIDED|95.0|-0.323|1.309|||t-test, 2 sided|||||1.309|-0.323|0.2322
82483226|NCT00472459|164659662|NON_INFERIORITY|Participant's number of new skin lesions between treated and contralateral control area were evaluated using a paired t-test for lesions of any type as well as stratified by lesion type.|Mean Difference (Final Values)|0.68||||0.1286|TWO_SIDED|95.0|-0.202|1.562|||t-test, 2 sided|||||1.562|-0.202|0.1286
82483227|NCT02186301|164659694|OTHER||Kaplan-Meier Median|274.0|||||TWO_SIDED|95.0|109.0||Upper Confidence Limit is not available because it cannot be calculated||||||||109|
82483228|NCT02186301|164659694|OTHER||Kaplan-Meier Median|207.0|||||TWO_SIDED|95.0|112.0|260.0||||||||260.0|112.0|
82483229|NCT02186301|164659694|OTHER||Kaplan Meier Median|390.0|||||TWO_SIDED|95.0|282.0|499.0||||||||499.0|282.0|
82483230|NCT02186301|164659695|OTHER||Percentage|25.0|||||TWO_SIDED|95.0|8.7|49.1||||||||49.1|8.7|
82483231|NCT02186301|164659695|OTHER||Percentage|40.0|||||TWO_SIDED|95.0|22.7|59.4||||||||59.4|22.7|
82483232|NCT02186301|164659695|OTHER||Percentage|78.0|||||TWO_SIDED|95.0|64.0|88.5||||||||88.5|64.0|
82555034|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|0.0|||=|0.969|TWO_SIDED|90.0|-0.3|0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.3|-0.3|=0.969
82483233|NCT02186301|164659696|OTHER||Kaplan Meier Median|225.0|||||TWO_SIDED|95.0|113.0||Upper Confidence Limit is not available because it cannot be calculated.||||||||113|
82483234|NCT02186301|164659696|OTHER||Kaplan Meier Median|195.5|||||TWO_SIDED|95.0|143.0|617.0||||||||617.0|143.0|
82483235|NCT02186301|164659696|OTHER||Kaplan Meier Median|335.0|||||TWO_SIDED|95.0|282.0|480.0||||||||480.0|282.0|
82555035|NCT04244175|164816880|SUPERIORITY|The CGI-S score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.2|||=|0.344|TWO_SIDED|90.0|-0.4|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||0.1|-0.4|=0.344
82483236|NCT03560739|164659699|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 1.|Geo-mean ratio|1.03|||||TWO_SIDED|90.0|0.8|1.25|||||The confidence interval reported in the Point Estimate section below is the one from the criterion, not the estimated confidence interval.|Criteria 1 for bioequivalence testing of AUCtau||1.25|.8|
82483237|NCT03560739|164659699|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 2.|95% upper bound of the linearized criter|-0.3131|||||ONE_SIDED|95.0||0.0|||||The upper limit reported in the Point Estimate section below is the limit on the 95% upper bound from the criterion, not the estimated upper limit of the 95% upper bound of the linearized criterion|Criteria 2 for bioequivalence testing of AUCtau||0||
82483238|NCT03560739|164659700|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 1.|geo-mean ratio|1.0|||||TWO_SIDED|90.0|0.8|1.25|||||The confidence interval reported in the Point Estimate section below is the one from the criterion, not the estimated confidence interval.|Criteria 1 for bioequivalence testing of Cmax||1.25|.8|
82483239|NCT03560739|164659700|EQUIVALENCE|For reference-scaled average bioequivalence testing, both criteria have to be met: 1) geo-mean ratio needs to fall in \[0.8, 1.25\]; 2) 95% upper bound of the linearized criterion needs to be \<= 0. This part is regarding criterion 2.|95% upper bound of the linearized criter|-0.2446|||||ONE_SIDED|95.0||0.0|||||The upper limit reported in the Point Estimate section below is the limit on the 95% upper bound from the criterion, not the estimated upper limit of the 95% upper bound of the linearized criterion.|Criteria 2 for bioequivalence testing of Cmax||0||
82483240|NCT04243421|164659706|OTHER||Median Difference (Final Values)|6.0||||0.0007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0007
82483241|NCT04243421|164659707|OTHER||Median Difference (Final Values)|1.25||||0.0005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82483242|NCT04243421|164659707|OTHER||Median Difference (Final Values)|1.0||||0.0034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0034
82483243|NCT04243421|164659708|OTHER|||||||0.39|||||||Wilcoxon (Mann-Whitney)|||||||0.39
82483244|NCT00095238|164659715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.8|1.3|||Mixed Models Analysis|baseline score used as covariate; treatment, visit, treatment-by-visit, \& baseline angiotensin-converting enzyme (ACE) inhibitors used as predictors||Comparison of 2 treatment arms at Month 6 (first 2 columns)||1.3|-0.8|
82483245|NCT00095238|164659715|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.5|1.7|||Mixed Models Analysis|baseline score used as covariate; treatment, visit, treatment-by-visit, \& baseline angiotensin-converting enzyme (ACE) inhibitors used as predictors||comparison of 2 treatment arms at Month 14 (columns 3 and 4)||1.7|-0.5|
82483246|NCT03505671|164659732|OTHER|||||||0.61|||||||ANCOVA|||||||0.61
82483247|NCT03505671|164659732|OTHER||Correlation Coefficient|0.15|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (overall, N=20)|||||
82483248|NCT03505671|164659732|OTHER||Correlation coefficient|0.25|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (intervention, N=9)|||||
82483249|NCT03505671|164659732|OTHER||Correlation coefficient|0.09|||||TWO_SIDED||||||||Correlation between EORTC Sensory Subscale baseline and 12 weeks (Usual Care, N=11)|||||
82483250|NCT03505671|164659733|OTHER|||||||0.91||||||P value for the motor subscale|ANCOVA|||||||0.91
82483251|NCT03505671|164659733|OTHER|||||||0.55||||||P value for autonomic subscale|ANCOVA|||||||0.55
82555036|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.01|TWO_SIDED|90.0|-0.7|-0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 15)|CVL-865 25 mg BID vs Placebo (Day 15)||-0.2|-0.7|=0.010
82555037|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.376|TWO_SIDED|90.0|-0.4|0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID vs Placebo (Day 15)||0.1|-0.4|=0.376
82555038|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.3|||=|0.044|TWO_SIDED|90.0|-0.5|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 15)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 15)||-0.1|-0.5|=0.044
82555039|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.6|||=|0.005|TWO_SIDED|90.0|-1.0|-0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 43)|CVL-865 25 mg BID vs Placebo (Day 43)||-0.3|-1.0|=0.005
82555040|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.549|TWO_SIDED|90.0|-0.5|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID vs Placebo (Day 43)||0.2|-0.5|=0.549
82555041|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.048|TWO_SIDED|90.0|-0.7|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 43)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 43)||-0.1|-0.7|=0.048
82555042|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.6|||=|0.005|TWO_SIDED|90.0|-1.0|-0.3|||Mixed Model for Repeated Measures (MMRM)||CVL-865 25 mg BID - Placebo (Day 71)|CVL-865 25 mg BID vs Placebo (Day 71)||-0.3|-1.0|=0.005
82555043|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.1|||=|0.549|TWO_SIDED|90.0|-0.5|0.2|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID vs Placebo (Day 71)||0.2|-0.5|=0.549
82483252|NCT03505671|164659734|OTHER|||||||0.41||||||P value for baseline numbness or tingling severity data|Fisher Exact|||||||0.41
82555044|NCT04244175|164816881|SUPERIORITY|The CGI-I score over time was analyzed using a Mixed Model for Repeated Measures (MMRM) analysis. Treatment group, visit, and the interaction between treatment group and visit was included as fixed factors in the MMRM. Participant was included as a random effect, and an unstructured covariance structure was used for the repeated measures.|LS Mean Difference|-0.4|||=|0.048|TWO_SIDED|90.0|-0.7|-0.1|||Mixed Model for Repeated Measures (MMRM)||CVL-865 7.5 mg BID / 25 mg BID - Placebo (Day 71)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (Day 71)||-0.1|-0.7|=0.048
82483253|NCT03505671|164659734|OTHER|||||||0.22||||||P value for baseline numbness or tingling interference data|Fisher Exact|||||||0.22
82483254|NCT03505671|164659734|OTHER|||||||0.58||||||Week 12 p value for numbness or tingling severity data|Fisher Exact|||||||0.58
82483255|NCT03505671|164659734|OTHER|||||||0.12||||||P value for Week 12 numbness or tingling interference data|Fisher Exact|||||||0.12
82483256|NCT03505671|164659734|OTHER|||||||0.57||||||Week 12 - Baseline p value for numbness or tingling severity data|Fisher Exact|||||||0.57
82483257|NCT03505671|164659734|OTHER|||||||0.55||||||Week 12 - Baseline p value for numbness or tingling interference|Fisher Exact|||||||0.55
82483258|NCT03505671|164659735|OTHER|||||||0.99||||||P value for baseline numbness or tingling severity Grade 1-3|Fisher Exact|||||||0.99
82483259|NCT03505671|164659735|OTHER|||||||0.99||||||P value for 12 weeks numbness or tingling severity Grade 1-3|Fisher Exact|||||||0.99
82483260|NCT03505671|164659735|OTHER|||||||0.99||||||P value for week 12 - baseline change in numbness or tingling severity|Fisher Exact|||||||0.99
82483261|NCT03505671|164659736|OTHER|||||||0.99|||||||Fisher Exact|||||||0.99
82483262|NCT03505671|164659737|OTHER|||||||0.69|||||||t-test, 2 sided|||||||0.69
82483263|NCT03505671|164659738|OTHER|||||||0.46||||||P value for cross sectional area sural data|ANCOVA|||||||0.46
82483264|NCT03505671|164659738|OTHER|||||||0.22||||||P value for cross sectional area for median data|ANCOVA|||||||0.22
82483265|NCT03505671|164659739|OTHER|||||||0.2||||||P value for amplitude - sural data|ANCOVA|||||||0.20
82483266|NCT03505671|164659739|OTHER|||||||0.28||||||P value for amplitude - tibial, ankle|ANCOVA|||||||0.28
82483267|NCT03505671|164659739|OTHER|||||||0.13||||||P value for amplitude tibial, pop fossa|ANCOVA|||||||0.13
82483268|NCT03505671|164659739|OTHER|||||||0.71||||||P value for amplitude median, wrist|ANCOVA|||||||0.71
82483269|NCT03505671|164659739|OTHER|||||||0.46||||||P value for amplitude, median, elbow|ANCOVA|||||||0.46
82483270|NCT03505671|164659740|OTHER|||||||0.81||||||P value for latency sural data|ANCOVA|||||||0.81
82483271|NCT03505671|164659740|OTHER|||||||0.76||||||P value for latency tibial, ankle data|ANCOVA|||||||0.76
82483272|NCT03505671|164659740|OTHER|||||||0.24||||||P value for latency tibial, pop fossa|ANCOVA|||||||0.24
82483273|NCT03505671|164659740|OTHER|||||||0.2||||||P value for latency median wrist data|ANCOVA|||||||0.20
82483274|NCT03505671|164659740|OTHER|||||||0.51||||||P value for latency median elbow data|ANCOVA|||||||0.51
82483275|NCT03505671|164659741|OTHER|||||||0.98||||||P value for velocity sural data|ANCOVA|||||||0.98
82483276|NCT03505671|164659741|OTHER|||||||0.03||||||P value for velocity tibial data|ANCOVA|||||||0.03
82483277|NCT03505671|164659741|OTHER|||||||0.81||||||P value for velocity median data|ANCOVA|||||||0.81
82483278|NCT05803603|164659791|SUPERIORITY||Odds Ratio (OR)|2.0||||0.125|TWO_SIDED|95.0|0.37|10.92|||McNemar|||We recruited 8 homeless individuals and followed them for 12 months. 4 individuals (50%) were housed at 6 months and 3 (37.5) were housed at 12 months.|See results above|10.92|.37|.125
82483279|NCT06460493|164659795|OTHER|The proportion of subjects classified as responders at week 12, standard errors, and corresponding 95% CI was estimated by negative binomial regression with background therapy (LABA/LAMA or LABA/LAMA/ICS) included as a fixed effect, and with baseline CAT score included as a covariate. The scale parameter in the negative binomial model was held fixed by specifying a noscale option.|Negative binomial regression|67.0|||||TWO_SIDED|95.0|38.0|100.0|||||A two-sided unadjusted 95% confidence interval for the proportion was used to determine study success with the lower bound of the CI \> 0 indicating success.|||100.0|38.0|
82483280|NCT06460493|164659796|OTHER|The proportion of subjects classified as responders at week 6, standard errors, and corresponding 95% CI was estimated by negative binomial regression with background therapy (LABA/LAMA or LABA/LAMA/ICS) included as a fixed effect, and with baseline CAT score included as a covariate. The scale parameter in the negative binomial model was held fixed by specifying a noscale option.|Negative binomial regression|44.4|||||TWO_SIDED|95.0|22.0|89.5|||||A two-sided unadjusted 95% confidence interval for the proportion was used to determine study success with the lower bound of the CI \> 0 indicating success.|||89.5|22.0|
82483281|NCT01117051|164659852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305||95.0|||||Cochran-Mantel-Haenszel|||||||0.305
82555045|NCT04244175|164816882|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.49|||=|0.829|TWO_SIDED|90.0|-4.23|3.26|||ANCOVA||CVL-865 25 mg BID - Placebo|CVL-865 25 mg BID vs Placebo||3.26|-4.23|=0.829
82483282|NCT03584373|164659855|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.14||||0.7|TWO_SIDED|95.0|-0.89|0.6|||t-test, 2 sided|||||0.60|-0.89|0.70
82483283|NCT03584373|164659856|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.23||||0.58|TWO_SIDED|95.0|-1.08|0.61|||t-test, 2 sided|||||0.61|-1.08|0.58
82483284|NCT03584373|164659857|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-1.91||||0.006|TWO_SIDED|95.0|-3.25|-0.56|||t-test, 2 sided|||||-0.56|-3.25|0.006
82483285|NCT03584373|164659858|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-1.16||||0.04|TWO_SIDED|95.0|-2.26|-0.06|||t-test, 2 sided|||||-0.06|-2.26|0.04
82555046|NCT04244175|164816882|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.2|||=|0.927|TWO_SIDED|90.0|-3.87|3.46|||ANCOVA||CVL-865 7.5 mg BID - Placebo|CVL-865 7.5 mg BID vs Placebo||3.46|-3.87|=0.927
82483286|NCT03584373|164659859|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|-0.55||||0.33|TWO_SIDED|95.0|-1.67|0.56|||t-test, 2 sided|||||0.56|-1.67|0.33
82483287|NCT03584373|164659860|NON_INFERIORITY|Non-inferiority margin of 1.3|Mean Difference (Net)|0.06||||0.47|TWO_SIDED|95.0|-0.1|0.21|||t-test, 2 sided|||||0.21|-0.10|0.47
82483288|NCT03780400|164659871|OTHER|test for within group change from baseline to 4 month follow-up||||||0.5145|||||||t-test, 2 sided|||||||0.5145
82483289|NCT03780400|164659872|OTHER|test for within group change from baseline to 4 month follow-up||||||0.3683|||||||t-test, 2 sided|||||||0.3683
82483290|NCT03780400|164659873|OTHER|test for within group change from baseline to 4 month follow-up||||||0.9858|||||||t-test, 2 sided|||||||0.9858
82483291|NCT03780400|164659874|OTHER|test for within group change from baseline to 4 month follow-up|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82483292|NCT03780400|164659875|OTHER|test for within group change from baseline to 4 month follow-up|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82483293|NCT01315236|164659876|SUPERIORITY|||||||0.072||||||Conducted in the mITT population using a stratified Wilcoxon rank sum test, to compare the treatment arms at a 2-sided significance level of 0.05, adjusting for the randomization strata (presence/absence of CF and MAC versus Mycobacterium abscessus).|Wilcoxon rank sum test|||"The primary efficacy analysis tested the following hypotheses:~* H0: There is no difference at Day 84 between the LAI arm and the placebo arm~* Ha: There is a difference at Day 84 between the LAI arm and the placebo arm~Statistical analysis applies to all day 84 rows."||||0.072
82483294|NCT01315236|164659877|SUPERIORITY|||||||0.003|||||||Cochran-Mantel-Haenszel|||stratified Cochran-Mantel-Haenszel test||||0.003
82483295|NCT01315236|164659878|SUPERIORITY||Cox Proportional Hazard|5.68||||0.0129|TWO_SIDED|95.0|1.25|25.79|||Regression, Cox|||Cox proportional hazard model||25.79|1.25|0.0129
82483296|NCT01315236|164659879|SUPERIORITY|||||||0.077|||||||Regression, Logistic|||Ordinal Logistic Regressions Model||||0.077
82483297|NCT01315236|164659880|SUPERIORITY|||||||0.4545|||||||Wilcoxon (Mann-Whitney)|||Stratified Wilcoxon-rank sum||||0.4545
82483298|NCT01315236|164659882|SUPERIORITY||Cox Proportional Hazard|2.69||||0.0076|TWO_SIDED|95.0|1.28|5.64|||Regression, Cox|||Cox Proportional Hazard Model||5.64|1.28|0.0076
82483299|NCT02011893|164659899|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 7.5 points, where the Visual Analog Scale (VAS) scores were measured on a scale of 0 to 100. Testing was carried out at a 5% significance level.|||||<|0.001|||||||t-distribution|95% UCB and p-value for non-inferiority are based on t-distribution with n1 + n2-2 degrees of freedom where n1 and n2 are number of subjects per arm.||||||<0.001
82581766|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.18|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||< .001
82581767|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.0|STANDARD_DEVIATION|2.41|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483300|NCT02011893|164659900|SUPERIORITY_OR_OTHER|||||||0.083||||||Superiority analysis performed|McNemar|||||||0.083
82555047|NCT04244175|164816882|SUPERIORITY|Changes from Baseline in QOLIE-31 Overall Scores was compared using an ANCOVA model with the Baseline score as a covariate and treatment group included in the model as fixed effects in the mITT population. This estimand included available post-Baseline response data that occurred before discontinuation of treatment or the addition of rescue medication.|LS Mean Difference|-0.35|||=|0.859|TWO_SIDED|90.0|-3.57|2.88|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo|CVL-865 7.5 mg BID / 25 mg BID vs Placebo||2.88|-3.57|=0.859
82555048|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|-0.013|||=|0.788|TWO_SIDED|90.0|-0.096|0.069|||ANCOVA||CVL-865 25 mg BID - Placebo (HUI-2)|CVL-865 25 mg BID vs Placebo (HUI-2)||0.069|-0.096|=0.788
82555049|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.077|||=|0.126|TWO_SIDED|90.0|-0.006|0.16|||ANCOVA||CVL-865 7.5 mg BID - Placebo (HUI-2)|CVL-865 7.5 mg BID vs Placebo (HUI-2)||0.160|-0.006|=0.126
82581768|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4|STANDARD_DEVIATION|1.67|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||< .001
82483301|NCT02011893|164659902|SUPERIORITY_OR_OTHER|||||||0.017||||||Superiority analysis performed|t-distribution|95% UCB and p-value for superiority are based on t-distribution with n1 + n2-2 degrees of freedom where n1 and n2 are number of subjects per arm.||||||0.017
82555050|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.032|||=|0.461|TWO_SIDED|90.0|-0.039|0.103|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo (HUI-2)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (HUI-2)||0.103|-0.039|=0.461
82581769|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.9|STANDARD_DEVIATION|2.03|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
82483302|NCT00518973|164659903|SUPERIORITY|||||||0.15||||||t = 2.8|t-test, 2 sided|Hours occupied by preoccupations.||||||.15
82483303|NCT00518973|164659903|SUPERIORITY|||||||0.4||||||t = .56|t-test, 2 sided|Hours of rituals||||||.40
82483304|NCT00518973|164659904|SUPERIORITY|||||||0.72||||||t = .13|t-test, 2 sided|||||||.72
82483305|NCT00518973|164659905|SUPERIORITY|||||||0.48||||||t = .52|t-test, 2 sided|Reporting for Trait||||||.48
82555051|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|-0.032|||=|0.661|TWO_SIDED|90.0|-0.154|0.089|||ANCOVA||CVL-865 25 mg BID - Placebo (HUI-3)|CVL-865 25 mg BID vs Placebo (HUI-3)||0.089|-0.154|=0.661
82581770|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.5|STANDARD_DEVIATION|1.83|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82581771|NCT00910689|164875442|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_DEVIATION|2.38|>|0.87||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.87
82581772|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.77|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||<.001
82483306|NCT00518973|164659905|SUPERIORITY|||||||0.77||||||t = .09|t-test, 2 sided|Reporting for State||||||.77
82483307|NCT00518973|164659906|SUPERIORITY|||||||0.83||||||t = .05|t-test, 2 sided|||||||.83
82483308|NCT00518973|164659907|SUPERIORITY|||||||0.4||||||t = .78|t-test, 2 sided|Positive Scale||||||.40
82483309|NCT00518973|164659907|SUPERIORITY|||||||0.11||||||t=3.0|t-test, 2 sided|Negative Scale||||||.11
82483310|NCT00518973|164659907|SUPERIORITY|||||||0.9||||||t = .02|t-test, 2 sided|General Scale||||||.90
82483311|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0081||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from baseline to post intervention||||0.0081
82581773|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.79|>|0.83|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .83
82483312|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0243||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from baseline to post intervention||||0.0243
82483313|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.071||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from baseline to post intervention||||0.0710
82483314|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0008||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from baseline to post intervention||||0.0008
82483315|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1094||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from baseline to one-month follow-up||||0.1094
82483316|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2029||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from baseline to one-month follow-up||||0.2029
82483317|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.8599||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from baseline to one-month follow-up||||0.8599
82483318|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0007||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from baseline to one-month follow-up||||0.0007
82555052|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.115|||=|0.124|TWO_SIDED|90.0|-0.008|0.237|||ANCOVA||CVL-865 7.5 mg BID - Placebo (HUI-3)|CVL-865 7.5 mg BID vs Placebo (HUI-3)||0.237|-0.008|=0.124
82555053|NCT04244175|164816883|SUPERIORITY|The Least Square Means (LS Means), difference in LS Means, 90% confidence interval for the difference, and the p-value for the difference are from an analysis of covariance (ANCOVA) model with fixed effects for treatment and Baseline score.|LS Mean Difference|0.041|||=|0.518|TWO_SIDED|90.0|-0.064|0.146|||ANCOVA||CVL-865 7.5 mg BID / 25 mg BID - Placebo (HUI-3)|CVL-865 7.5 mg BID / 25 mg BID vs Placebo (HUI-3)||0.146|-0.064|=0.518
82483319|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0246||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing total knowledge score change between groups from post-intervention to one-month follow-up||||0.0246
82483320|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.078||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing zoster knowledge score change between groups from post-intervention to one-month follow-up||||0.0780
82483321|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0167||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing pneumonia knowledge score change between groups from post-intervention to one-month follow-up||||0.0167
82483322|NCT03239665|164659917|EQUIVALENCE|Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.9417||||||Two-sided Wilcoxon Rank-Sum test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Wilcoxon (Mann-Whitney)|||Testing influenza knowledge score change between groups from post-intervention to one-month follow-up||||0.9417
82483323|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0011||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to post-intervention"||||0.0011
82483324|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to post-intervention"||||<0.0001
82555054|NCT04734197|164816896|SUPERIORITY|||||||0.004||||||The threshold for statistical significance is p=0.05.|Fisher Exact|||Exploratory Phase 2 Study; the sample size of approximately 280-350 subjects (between 40 and 50 subjects per each of the 7 treatment groups) was based on medical judgement.||||0.0040
82555055|NCT04734197|164816897|SUPERIORITY|||||||0.3111|||||||Fisher Exact|The threshold for statistical significance is p=0.05.||"Mixed Model for Repeated Measures (MMRM) analysis included fixed effects of baseline TBUT, age, treatment, visit, and treatment by visit interaction.~Least squares means (LSMs) of the absolute TBUT change from baseline and their 95% CIs were estimated from the MMRM model for each treatment group."||||0.3111
82555056|NCT04734197|164816898|SUPERIORITY|||||||0.2027||||||The threshold for statistical significance is p=0.05.|Fisher Exact|||"MMRM analysis included fixed effects of baseline Schirmer test score, age, treatment, visit, and treatment by visit interaction.~LSMs of the absolute change from baseline in Schirmer test score and their 95% CIs were estimated from the MMRM model for each treatment group."||||0.2027
82483325|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0028||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to one-month follow-up"||||0.0028
82483326|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from baseline to one-month follow-up"||||<0.0001
82555057|NCT04173247|164816975|OTHER|A t-test with 180 degrees of freedom to compare the mean DLQI score over the 6 weeks in arm1 to the mean DLQI score over six weeks in arm2.||||||0.28|||||||t-test, 1 sided|||||||0.28
82555058|NCT02163694|164816977|SUPERIORITY|||||||0.003|||||||Log-rank test|||PFS was compared between the treatment groups using the log-rank test, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor \[ER\] and/or progesterone receptor \[PgR\] positive versus ER/PgR negative).||||0.003
82555059|NCT02163694|164816977|SUPERIORITY||Stratified Cox proportional hazards|0.728||||0.003|TWO_SIDED|95.0|0.59|0.9|||Stratified Cox proportional hazards|||A Cox proportional hazards model, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor (ER) and/or progesterone receptor (PgR) positive versus ER/PgR negative) was used to estimate the hazard ratio and 95% confidence interval comparing the two treatment arms.||0.900|0.590|0.003
82555060|NCT02163694|164816978|SUPERIORITY|||||||0.41|||||||Log Rank|||||||0.410
82555061|NCT02163694|164816978|SUPERIORITY||Stratified Cox proportional hazards|0.914||||0.41|TWO_SIDED|95.0|0.737|1.333|||Stratified Cox proportional hazards|||A Cox proportional hazards model, stratified by prior platinum therapy (Yes versus No) and receptor status (estrogen receptor (ER) and/or progesterone receptor (PgR) positive versus ER/PgR negative) was used to estimate the hazard ratio and 95% confidence interval comparing the two treatment arms.||1.333|0.737|0.410
82581774|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.67|>|0.05|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||> .05
82581775|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|0.86|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Significant post-test contrast. Mean difference in change.||||< .001
82581776|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|0.95|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
82581777|NCT00910689|164875443|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|0.89|>|0.2|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||> .20
82555062|NCT02163694|164816979|SUPERIORITY|||||||0.202||||||Nominal P value is from Cochran-Mantel-Haenszel test stratified by ER/PgR status and prior platinum therapy use.|Cochran-Mantel-Haenszel|||||||0.202
82555063|NCT02163694|164816980|SUPERIORITY|||||||0.715||||||Nominal P value is from Cochran-Mantel-Haenszel test stratified by ER/PgR status and prior platinum therapy use.|Cochran-Mantel-Haenszel|||||||0.715
82555064|NCT02163694|164816981|SUPERIORITY|||||||0.004|||||||Log Rank|||||||0.004
82555065|NCT02163694|164816981|SUPERIORITY||Stratified Cox proportional hazards|0.737||||0.004|TWO_SIDED|95.0|0.597|0.908|||Stratified Cox proportional hazards|Stratified by prior platinum therapy (yes vs no) and receptor status (ER and/or PgR positive vs ER/PgR negative).||||0.908|0.597|0.004
82555066|NCT03884101|164816982|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5550121|TWO_SIDED|95.0|0.83|1.24|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.24|0.83|0.5550121
82581778|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_DEVIATION|1.7|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||<.001
82581779|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6|STANDARD_DEVIATION|1.96|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 120.||Post-test contrast. Mean difference in change.||||<.001
82581780|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_DEVIATION|1.69|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82555067|NCT03884101|164816983|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1792058|TWO_SIDED|95.0|0.77|1.1|||Log Rank|One-sided p-value based on log-rank test and stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||1.10|0.77|0.1792058
82581781|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.69|>|0.04||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>.04
82581782|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.34|>|0.33||95.0||||Bonerfoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>0.33
82581783|NCT00910689|164875444|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.68|>|0.21||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.21
82581784|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.4|STANDARD_DEVIATION|3.0|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483327|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||1||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from post-intervention to one-month follow-up"||||1.0
82483328|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.643||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations is important to my health from post-intervention to one-month follow-up"||||0.6430
82483329|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1193||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to post-intervention"||||0.1193
82483330|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|||||<|0.0001||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to post-intervention"||||<0.0001
82483331|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4861||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to one-month follow-up"||||0.4861
82483332|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0002||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from baseline to one-month follow-up"||||0.0002
82483333|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.3247||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from post-intervention to one-month follow-up"||||0.3247
82483334|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4627||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement Getting vaccinations can be harmful to my health from post-intervention to one-month follow-up"||||0.4627
82483335|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1244||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.1244
82555068|NCT03884101|164816984|NON_INFERIORITY|The null hypothesis for the non-inferiority test was that the hazard ratio was equal to 1.1.|Hazard Ratio (HR)|1.02||||0.2459875|TWO_SIDED|95.0|0.83|1.26|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.26|0.83|0.2459875
82483336|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0575||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.0575
82483337|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7489||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.7489
82483338|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0098||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0098
82555069|NCT03884101|164816984|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.5875597|TWO_SIDED|95.0|0.83|1.26|||Log Rank|One-sided p-value based on log-rank test and stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||1.26|0.83|0.5875597
82555070|NCT03884101|164816985|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.21552|TWO_SIDED|95.0|0.77|1.12|||Log Rank|One-sided p-value based on log-rank test and stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||1.12|0.77|0.21552
82555071|NCT03884101|164816986|OTHER||Difference in Percentage|-4.2||||0.8569|TWO_SIDED|95.0|-11.9|3.5|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by ECOG performance status and prior chemotherapy and/or chemoradiation.|||3.5|-11.9|0.8569
82581785|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|3.29|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82483339|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1797||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.1797
82483340|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.3613||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my doctor to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.3613
82483341|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.5972||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.5972
82483342|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.024||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.0240
82483343|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2437||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.2437
82483344|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0631||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0631
82483345|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.054||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.0540
82483346|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7298||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust my pharmacist to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.7298
82483347|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.4218||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.4218
82483348|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.2282||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to post-intervention"||||0.2282
82483349|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.8711||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.8711
82483350|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.0027||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from baseline to one-month follow-up"||||0.0027
82483351|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.7579||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.7579
82483352|NCT03239665|164659918|EQUIVALENCE|Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)||||||0.1299||||||Wilcoxon Signed-Rank test with a Bonferroni-corrected significance threshold of alpha = 0.0167 (3 comparisons)|Sign test|||"Testing within-group changes in beliefs for the statement I trust a peer educator to give me information about vaccines and the diseases they prevent from post-intervention to one-month follow-up"||||0.1299
82483353|NCT03239665|164659920|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||1||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous engagement in the program immediately post-intervention via Fisher's Exact test||||1.0
82483354|NCT03239665|164659920|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||0.6806||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous engagement in the program at the one-month follow-up via Fisher's Exact test||||0.6806
82555072|NCT03884101|164816987|OTHER||Difference in Percentage|0.0||||0.4999|TWO_SIDED|95.0|-6.7|6.7|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Based on Miettinen \& Nurminen method stratified by MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|||6.7|-6.7|0.4999
82555073|NCT03884101|164816988|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors ECOG performance status, and prior chemotherapy and/or chemoradiation.|Difference in Least Square Means|-3.77||||0.0302|TWO_SIDED|95.0|-7.17|-0.36|||cLDA model|||||-0.36|-7.17|0.0302
82555074|NCT03884101|164816989|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors MMR status, ECOG performance status, and prior chemotherapy and/or chemoradiation.|Difference in Least Square Means|-2.29||||0.1355|TWO_SIDED|95.0|-5.31|0.72|||cLDA model|||||0.72|-5.31|0.1355
82555075|NCT03370913|164816994|SUPERIORITY||% Reduction from Baseline|-77.0|||<|0.0001|TWO_SIDED|||||P-values were for 2-sided test against 0.|t-test, 2 sided|Superiority was tested by1-sample t-test to test null hypothesis that change is \>=0. Only negative changes represent efficacy.|77% reduction|Change from baseline in the ABR for all bleeds (post-baseline EEP value - baseline value)||||<0.0001
82555076|NCT04967599|164817004|SUPERIORITY|||||||0.81|||||||Kruskal-Wallis|||||||.81
82483355|NCT03239665|164659920|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||1||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous satisfaction with the program's content immediately post-intervention via Fisher's Exact test||||1.0
82483356|NCT03239665|164659920|EQUIVALENCE|Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.||||||0.4908||||||Fisher's Exact test was used (2 x 2) with a significance threshold of 0.05.|Fisher Exact|||Testing between-group differences in dichotomous satisfaction with the program's content at the one-month follow-up via Fisher's Exact test||||0.4908
82483357|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7728|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine at baseline via Chi-squared test||||0.7728
82555077|NCT04967599|164817005|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||||||.46
82555078|NCT04967599|164817006|SUPERIORITY|||||||0.49|||||||Kruskal-Wallis|||||||.49
82555079|NCT04967599|164817007|SUPERIORITY|||||||0.59|||||||Kruskal-Wallis|||||||.59
82581786|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6|STANDARD_DEVIATION|2.99|<|0.001|TWO_SIDED|95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 122.||Post-test contrast. Mean difference in change.||||< .001
82555080|NCT04967599|164817008|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||.29
82555081|NCT04967599|164817009|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||.49
82555082|NCT04099732|164817018|OTHER||Ratio of geometric means (T/R) %|183.36|||||TWO_SIDED|90.0|164.35|204.56|||||Geometric coefficient of variation (gCV) = 16.5.|Relative bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||204.56|164.35|
82555083|NCT04099732|164817019|OTHER||Ratio of geometric means (T/R) %|174.01|||||TWO_SIDED|90.0|154.73|195.68|||||Geometric coefficient of variation (gCV) = 17.7|Relative bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||195.68|154.73|
82555084|NCT04099732|164817020|OTHER||Ratio of geometric means (T/R) %|119.1|||||TWO_SIDED|90.0|109.84|129.15|||||Geometric coefficient of variation (gCV) = 11.1.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||129.15|109.84|
82555085|NCT04099732|164817021|OTHER||Ratio of geometric means (T/R) %|119.2|||||TWO_SIDED|90.0|107.68|131.94|||||Geometric coefficient of variation (gCV) = 13.9.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||131.94|107.68|
82581787|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_DEVIATION|2.85|>|0.56||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.56
82581788|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|2.45|>|0.08||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 108.||Post-test contrast. Mean difference in change.||||>0.08
82483358|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6871|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine post-intervention via Chi-squared test||||0.6871
82483359|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8259|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive zoster vaccine at one-month follow-up via Chi-squared test||||0.8259
82483360|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8868|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine at baseline via Chi-squared test||||0.8868
82483361|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8069|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine post-intervention via Chi-squared test||||0.8069
82555086|NCT04099732|164817022|OTHER||Ratio of geometric means (T/R) %|186.38|||||TWO_SIDED|90.0|169.7|204.71|||||Geometric coefficient of variation (gCV) = 14.1.|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||204.71|169.70|
82555087|NCT04099732|164817023|OTHER||Ratio of geometric means (T/R) %|120.11|||||TWO_SIDED|90.0|110.78|130.23|||||Geometric coefficient of variation (gCV) = 11.1|Relative Bioavailability. The statistical model was an ANOVA model on the logarithmic scale, considering the effects 'subjects' as random and 'treatment' as fixed.||130.23|110.78|
82555088|NCT02624050|164817024|SUPERIORITY||Risk Ratio (RR)|1.0||||0.01|TWO_SIDED|||||Threshold for significance was p\<0.05.|log-binomial regression|||||||0.01
82555089|NCT02624050|164817025|SUPERIORITY||Risk Ratio (RR)|1.0||||0.37|TWO_SIDED|||||Threshold of significance was \<0.05|log binomial regression|||||||0.37
82555090|NCT02624050|164817030|SUPERIORITY|||||||0.277||||||"Because the data were skewed, the natural logarithmic transformation was used prior to analysis for inference.~Threshold for statistical significance was \<0.05"|Ratio of Geometric Means|This p-value is for 15 min after induction of anesthesia||||||0.277
82555091|NCT03279978|164817039|OTHER||Slope|0.7124|STANDARD_ERROR_OF_MEAN|0.0694|||TWO_SIDED|95.0|0.5702|0.8546||||||Dose proportionality for AUC0-24 of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data). In this study AUCtau,1 = AUC0-24|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.8546|0.5702|
82555092|NCT03279978|164817039|OTHER||Slope|0.5964|STANDARD_ERROR_OF_MEAN|0.0575|||TWO_SIDED|95.0|0.4777|0.7151||||||Dose proportionality for AUC0-24 of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data). In this study AUCtau,1 = AUC0-24|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7151|0.4777|
82555093|NCT03279978|164817040|OTHER||Slope|0.6445|STANDARD_ERROR_OF_MEAN|0.0649|||TWO_SIDED|95.0|0.5124|0.7766||||||Dose proportionality for Cmax of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7766|0.5124|
82555094|NCT03279978|164817040|OTHER||Slope|0.6223|STANDARD_ERROR_OF_MEAN|0.0715|||TWO_SIDED|95.0|0.4747|0.7699||||||Dose proportionality for Cmax of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7699|0.4747|
82555095|NCT03279978|164817041|OTHER||Slope|0.6401|STANDARD_ERROR_OF_MEAN|0.0909|||TWO_SIDED|95.0|0.4545|0.8258||||||Dose proportionality for AUCτ,ss of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.8258|0.4545|
82555096|NCT03279978|164817041|OTHER||Slope|0.5811|STANDARD_ERROR_OF_MEAN|0.0864|||TWO_SIDED|95.0|0.4013|0.7609||||||Dose proportionality for AUCτ,ss of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7609|0.4013|
82555097|NCT03279978|164817042|OTHER||Slope|0.6005|STANDARD_ERROR_OF_MEAN|0.0722|||TWO_SIDED|95.0|0.4534|0.7477||||||Dose proportionality for Cmax,ss of BI 730357 in plasma - fasted groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7477|0.4534|
82555098|NCT03279978|164817042|OTHER||Slope|0.5799|STANDARD_ERROR_OF_MEAN|0.0656|||TWO_SIDED|95.0|0.4441|0.7156||||||Dose proportionality for Cmax,ss of BI 730357 in plasma - fed groups was assessed using a power model (regression model applied to log-transformed data).|Standard error of the mean is actually standard error of the slope. Based on the estimate for the slope parameter, a two sided 95% confidence interval for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|0.7156|0.4441|
82555099|NCT03493542|164817043|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.42|||<|0.0001|TWO_SIDED|95.0|1.28|1.58|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 6||1.58|1.28|<0.0001
82555100|NCT03493542|164817043|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.39|||<|0.0001|TWO_SIDED|95.0|1.25|1.55|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 11||1.55|1.25|<0.0001
82555101|NCT03493542|164817043|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.53|||<|0.0001|TWO_SIDED|95.0|1.37|1.7|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 16||1.70|1.37|<0.0001
82555102|NCT03493542|164817043|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval of GMT ratio (9 to 19 years old/20 to 26 years old) was greater than 0.67 for each HPV type.|GMT Ratio|1.66|||<|0.0001|TWO_SIDED|95.0|1.45|1.9|||ANOVA||GMT Ratio = GMT (9-19 yr)/GMT(20-26 yr)|Anti-HPV 18||1.90|1.45|<0.0001
82555103|NCT03493542|164817064|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 6||1.2|-1.1|<0.0001
82555104|NCT03493542|164817064|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 11||1.2|-1.1|<0.0001
82581789|NCT00910689|164875445|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.1|STANDARD_DEVIATION|2.83|>|0.03||95.0||||Bonferoni adjusted critical value p = .0083.|t-test, 2 sided|Degrees of freedom = 1 and 106.||Post-test contrast. Mean difference in change.||||>0.03
82483362|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8489|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive influenza vaccine at one-month follow-up via Chi-squared test||||0.8489
82483363|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3985|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine at baseline via Chi-squared test||||0.3985
82483364|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.1722|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine post-intervention via Chi-squared test||||0.1722
82483365|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7318|||||||Chi-squared|||Testing between-group differences in number of participants planning to receive pneumonia vaccine at one-month follow-up via Chi-squared test||||0.7318
82483366|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6309|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive zoster vaccine post-intervention via Chi-squared test||||0.6309
82483367|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7881|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive zoster vaccine at one-month follow-up via Chi-squared test||||0.7881
82483368|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6798|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive influenza vaccine post-intervention via Chi-squared test||||0.6798
82483369|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8548|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive influenza vaccine at one-month follow-up via Chi-squared test||||0.8548
82555105|NCT03493542|164817064|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 16||1.2|-1.1|<0.0001
82555106|NCT03493542|164817064|NON_INFERIORITY|The statistical criterion for non-inferiority required that the lower bound of two-sided 95% confidence interval for the difference (9 to 19 years old minus 20 to 26 years old) in seroconversion percentages being greater than -5 percentage points for each HPV type.|Difference in percentages (%)|0.0|||<|0.0001|TWO_SIDED|95.0|-1.1|1.2|||Miettinen & Nurminen method|||Difference of Seroconversion percentage HPV 18||1.2|-1.1|<0.0001
82483370|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3182|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive pneumonia vaccine post-intervention via Chi-squared test||||0.3182
82555107|NCT01223352|164817122|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.85|||||TWO_SIDED|95.0|0.61|1.2||No statistical test of hypothesis was set for this study. The analysis of PK data was carried out descriptively|||b.i.d. bosentan regimen was taken as reference|||1.20|0.61|
82555108|NCT01223352|164817123|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.71|||||TWO_SIDED|95.0|0.48|1.05||No statistical hypothesis tests were set for this study. The analysis of PK data was carried out descriptively.|||b.i.d. bosentan regimen was taken as reference|||1.05|0.48|
82555109|NCT05061017|164817165|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.0000
82555110|NCT05061017|164817166|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1.0000
82555111|NCT05541484|164817217|OTHER|Spearman's ρ given non-normal variable distributions|||||<|0.0001||||||Spearman's ρ given non-normal variable distributions|Wilcoxon (Mann-Whitney)|||||||< 0.0001
82555112|NCT02911805|164817220|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82555113|NCT05785130|164817223|SUPERIORITY|T0|Mean Difference (Final Values)|-25.07||||0.74|TWO_SIDED|||||T0|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||0.74
82483371|NCT03239665|164659921|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.7986|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants planning to receive pneumonia vaccine at one-month follow-up via Chi-squared test||||0.7986
82483372|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0163|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine at baseline via Chi-squared test||||0.0163
82483373|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0028|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine post-intervention via Chi-squared test||||0.0028
82483374|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0433|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of zoster vaccine at one-month follow-up via Chi-squared test||||0.0433
82483375|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0592|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine at baseline via Chi-squared test||||0.0592
82483376|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.1843|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine post-intervention via Chi-squared test||||0.1843
82555114|NCT05785130|164817223|SUPERIORITY||Median Difference (Final Values)|133.57||||0.75|TWO_SIDED|||||T1|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||0.75
82555115|NCT05785130|164817223|SUPERIORITY|T|Median Difference (Final Values)|235.93|||<|0.01|TWO_SIDED|||||T2|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||<0.01
82555116|NCT05785130|164817223|SUPERIORITY|T3|Median Difference (Final Values)|214.18|||<|0.01|TWO_SIDED|||||T3|t-test, 2 sided|||It was calculated that 58 participants were randomized in a 1:1 between two arms on baseline, the first intervention day(T1), the third intervention day(T2), and follow up two days later after intervention (T3) . Sample size was determoned using G-power repeated measures, between factors(α = 0.05, power = 0.8). Assumption a discontinution rate of 10%.||||<0.01
82555117|NCT04159519|164817259|OTHER|Mixed model for repeated measure (MMRM) with fixed effects for treatment arm, visit, baseline value, and treatment-by-visit interaction with an unstructured covariance structure.|Least square mean difference|0.1062|||||TWO_SIDED|95.0|-0.0485|0.2609||||||Comparison with reference arm||0.2609|-0.0485|
82555118|NCT04159519|164817260|OTHER|Comparison|Least square mean difference|-0.0343|||||TWO_SIDED|95.0|-0.2527|0.1841|||Mixed model for repeated measure (MMRM)|MMRM with fixed effects for treatment arm, visit, baseline value, and treatment-by-visit interaction with an unstructured covariance structure.||Comparison with reference arm||0.1841|-0.2527|
82555119|NCT04780581|164817276|EQUIVALENCE|log-rank statistic test.|Odds Ratio (OR)|1.0||||0.984|TWO_SIDED|95.0|0.2|5.1|||Log Rank|||Null hypothesis of equal survival curves. Estimates of rate and risk ratios are shown with 95% confidence intervals. All the p-values are 2-sided and shown without adjustment for multiple testing, and p \< 0.05 was considered statistically significant. The analyses were performed using IBM SPSS Statistics for Windows, Version 26.0 (Armonk, NY, USA: IBM Corp.).||5.1|0.2|0.984
82555120|NCT04780581|164817276|EQUIVALENCE|Log-rank method|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-8.8|9.1||||||||9.1|-8.8|
82555121|NCT04780581|164817277|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.1||||0.833|TWO_SIDED|95.0|0.4|3.0|||Chi-squared|||||3.0|0.4|0.833
82555122|NCT04780581|164817277|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-14.2|11.5||||||||11.5|-14.2|
82555123|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.5||||0.661|TWO_SIDED|95.0|0.2|9.3|||Chi-squared|||non-invasive mechanical ventilation||9.3|0.2|0.661
82555124|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|1.5|||||TWO_SIDED|95.0|-10.2|6.9||||||non-invasive mechanical ventilation||6.9|-10.2|
82555125|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|0.7||||0.549|TWO_SIDED|95.0|0.2|2.2|||Chi-squared|||high-flow oxygen requirements||2.2|0.2|0.549
82555126|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|-8.2|15.1||||||high-flow oxygen requirements||15.1|-8.2|
82555127|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.1||||0.809|TWO_SIDED|95.0|0.4|3.3|||Chi-squared|||Invasive mechanical ventilation or intubation requirements analysis||3.3|0.4|0.809
82555128|NCT04780581|164817278|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-13.0|11.1||||||Invasive mechanical ventilation or intubation requirements analysis||11.1|-13.0|
82555129|NCT04780581|164817279|EQUIVALENCE|T-test|Risk Difference (RD)|-0.3||||0.908|TWO_SIDED|95.0|-5.0|5.0|||t-test, 1 sided|||||5|-5|0.908
82555130|NCT04780581|164817280|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|0.8||||0.758|TWO_SIDED|95.0|0.3|2.5|||Chi-squared|||Secondary infections||2.5|0.3|0.758
82555131|NCT04780581|164817280|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-10.1|13.7||||||Secondary infections||13.7|-10.1|
82555132|NCT04780581|164817280|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|4.2||||0.007|TWO_SIDED|95.0|1.4|12.3|||Chi-squared|||Hyperglycaemia||12.3|1.4|0.007
82555133|NCT04780581|164817280|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-18.9|||||TWO_SIDED|95.0|-31.8|-5.6||||||Hyperglycaemia||-5.6|-31.8|
82555134|NCT04780581|164817280|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|-1.6||||0.319|TWO_SIDED|95.0|-8.5|4.4|||Chi-squared|||Psychotic states||4.4|-8.5|0.319
82555135|NCT04780581|164817281|EQUIVALENCE|Cochran-Mantel-Haenszel test|Odds Ratio (OR)|1.0||||0.962|TWO_SIDED|95.0|0.4|2.3|||Chi-squared|||||2.3|0.4|0.962
82555136|NCT04780581|164817281|EQUIVALENCE|Cochran-Mantel-Haenszel test|Risk Difference (RD)|0.4|||||TWO_SIDED|95.0|-14.2|14.9||||||||14.9|-14.2|
82555137|NCT01651000|164817283|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82555138|NCT01651000|164817284|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82555139|NCT01651000|164817285|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82555140|NCT02765412|164817287|OTHER|multilevel model|Odds Ratio (OR)|0.67||||0.081|TWO_SIDED|95.0|0.58|0.78||Two-sided test; the a priori threshold being 0.05|Regression, Logistic|Adjusts for age, gender, race, comorbidities, implementation group, travel distance, and VAMC indicator|OR corresponding to the interaction between implementation group and lung cancer risk, a ratio of odds ratios. The OR for screening based on lung cancer risk in the SI group versus the OR for screening based on lung cancer risk in the II group|||0.78|0.58|0.081
82555141|NCT02765412|164817288|OTHER||Median Difference (Net)|-0.15||||0.35|TWO_SIDED|95.0|-0.16|0.46||Two-sided test; the a priori threshold being 0.05|t-test, 2 sided||Satisfaction rating on a scale of 0 to 10; Difference is Arm 1 - Arm 2|Simple t-test comparing mean satisfaction ratings between arms||0.46|-0.16|0.35
82555142|NCT03781089|164817292|OTHER|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82555143|NCT03781089|164817293|OTHER|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||||||0.024
82586130|NCT06609135|164884187|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.44
82555144|NCT03636490|164817308|OTHER|We tested an association between change in urinary sodium excretion rate with stress and ratio of awake-to-asleep urinary sodium excretion rate.|unstandardized B coefficients|0.0021||||0.0032||95.0|0.0007|0.0034|||Regression, Linear|Adjusted for age, sex, race, ethnicity, body mass index, mean DBP during the baseline period, and 24-hour creatinine clearance.||||0.0034|0.0007|0.0032
82555145|NCT03636490|164817309|OTHER|We tested an association between ratio of awake-to-asleep urinary sodium excretion rate and SBP dipping.|unstandardized B coefficients|0.8244||||0.037||95.0|0.0487|1.6|||Regression, Linear|Adjusted for age, sex, race, ethnicity, BMI, smoking, alcohol use, glucose, 24-hr sodium and potassium excretion, 24-hr creat clear, and FENa|Data are unstandardized B coefficients (95% CI)|||1.6000|0.0487|0.037
82555146|NCT02246127|164817323|SUPERIORITY||Odds Ratio (OR)|0.65||||0.229|TWO_SIDED|95.0|0.32|1.32|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||1.32|0.32|0.229
82555147|NCT02246127|164817324|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.135|TWO_SIDED|95.0|0.9|2.19|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||2.19|0.90|0.135
82555148|NCT02246127|164817325|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.474|TWO_SIDED|95.0|0.77|1.75|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||1.75|0.77|0.474
82555149|NCT02246127|164817327|SUPERIORITY|||||||0.001|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.001
82555150|NCT02246127|164817329|SUPERIORITY|||||||0.012|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.012
82581790|NCT00645801|164875446|SUPERIORITY|||||||0.05||||||A 2-sided 2 sample t test was used to compare the overall cleanliness score between the 2 treatment groups.|t-test, 2 sided|||Based on the assumption that 70% of patients using PEG plus placebo (group 2) will have good results, by allocating 100 cases in each group, we will have 84% power to detect a difference of 18% or more in the effectiveness of PEG plus lubiprostone combination (group 1) (eg, 70% in group 2 vs. 88% in group 1) at the alpha level of significancelevel of significance.||||0.05
82581791|NCT00645801|164875447|SUPERIORITY||||||<|0.05|||||||2 sided Cochran-Armitage trend test|||||||<0.05
82483377|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.5933|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of influenza vaccine at one-month follow-up via Chi-squared test||||0.5933
82555151|NCT02246127|164817330|SUPERIORITY|||||||0.001|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.001
82581792|NCT00645801|164875448|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82555152|NCT02246127|164817331|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.168|TWO_SIDED|95.0|0.86|2.37|||Regression, Cox|||significant differences between both arms is assumed in case p-val \< 0.05||2.37|0.86|0.168
82555153|NCT02246127|164817333|SUPERIORITY|||||||0.072|||||||Fisher Exact|||significant differences between both arms is assumed in case p-val \< 0.05||||0.072
82555154|NCT02246127|164817335|SUPERIORITY||Hazard Ratio (HR)|1.6||||0.079|TWO_SIDED|95.0|0.94|2.73|||Log Rank|||significant differences between both arms is assumed in case p-val \< 0.05||2.73|0.94|0.079
82555155|NCT03635567|164817336|OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.47|0.71||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (hazard ratio \[HR\]) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.71|0.47|<0.0001
82555156|NCT03635567|164817337|OTHER||Hazard Ratio (HR)|0.61|||<|0.0001|TWO_SIDED|95.0|0.5|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.50|<0.0001
82581793|NCT00007345|164875488|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||An exact Cochran-Armitage trend test was used to compare the distributions. In view of the large number of tests performed, we only refer to those with P-values \<0.01 as statistically significant, with those for which 0.01 \<P\< 0.05 considered trends.|Cochran-Armitage trend test|||||||<0.01
82581794|NCT04433585|164875493|SUPERIORITY||Odds Ratio (OR)|1.46||||0.309|TWO_SIDED|95.0|0.7|3.04|||Regression, Logistic|||||3.04|0.70|0.309
82581795|NCT04433585|164875493|SUPERIORITY||Odds Ratio (OR)|0.97||||0.944|TWO_SIDED|95.0|0.47|2.03|||Regression, Logistic|||||2.03|0.47|0.944
82581796|NCT04433585|164875493|SUPERIORITY||Odds Ratio (OR)|0.84||||0.649|TWO_SIDED|95.0|0.4|1.78|||Regression, Logistic|||||1.78|0.40|0.649
82581797|NCT04433585|164875494|SUPERIORITY||Odds Ratio (OR)|1.89||||0.131|TWO_SIDED|95.0|0.83|4.3|||Regression, Logistic|||||4.30|0.83|0.131
82581798|NCT04433585|164875494|SUPERIORITY||Odds Ratio (OR)|1.09||||0.844|TWO_SIDED|95.0|0.47|2.5|||Regression, Logistic|||||2.50|0.47|0.844
82581799|NCT04433585|164875494|SUPERIORITY||Odds Ratio (OR)|0.57||||0.218|TWO_SIDED|95.0|0.24|1.39|||Regression, Logistic|||||1.39|0.24|0.218
82581800|NCT04433585|164875495|SUPERIORITY||Odds Ratio (OR)|0.97||||0.944|TWO_SIDED|95.0|0.47|2.03|||Regression, Logistic|||||2.03|0.47|0.944
82581801|NCT04433585|164875495|SUPERIORITY||Odds Ratio (OR)|1.46||||0.309|TWO_SIDED|95.0|0.7|3.04|||Regression, Logistic|||||3.04|0.70|0.309
82483378|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3942|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine at baseline via Chi-squared test||||0.3942
82483379|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9062|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine post-intervention via Chi-squared test||||0.9062
82483380|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9618|||||||Chi-squared|||Testing between-group differences in number of participants reporting positive history of pneumonia vaccine at one-month follow-up via Chi-squared test||||0.9618
82483381|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.114|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of zoster vaccine at one-month follow-up via Chi-squared test||||0.1140
82483382|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0141|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of influenza vaccine at one-month follow-up via Chi-squared test||||0.0141
82483383|NCT03239665|164659922|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0457|||||||Chi-squared|||Among those without positive vaccination history at post-test, testing between-group differences in number of participants reporting positive history of pneumonia vaccine at one-month follow-up via Chi-squared test||||0.0457
82483384|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6153|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor at baseline via Chi-squared test||||0.6153
82483385|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.8299|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor post-intervention via Chi-squared test||||0.8299
82483386|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0405|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their doctor at one-month follow-up via Chi-squared test||||0.0405
82483387|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.3776|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist at baseline via Chi-squared test||||0.3776
82483388|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.2856|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist post-intervention via Chi-squared test||||0.2856
82555157|NCT03635567|164817338|OTHER||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.4|0.68||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.68|0.40|<0.0001
82581802|NCT04433585|164875495|SUPERIORITY||Odds Ratio (OR)|0.84||||0.649|TWO_SIDED|95.0|0.4|1.78|||Regression, Logistic|||||1.78|0.40|0.649
82483389|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0016|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their pharmacist at one-month follow-up via Chi-squared test||||0.0016
82483390|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.9449|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends at baseline via Chi-squared test||||0.9449
82483391|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.6143|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends post-intervention via Chi-squared test||||0.6143
82483392|NCT03239665|164659923|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0036|||||||Chi-squared|||Testing between-group differences in number of participants planning to discuss vaccines with their family/friends at one-month follow-up via Chi-squared test||||0.0036
82581803|NCT04433585|164875496|SUPERIORITY||Odds Ratio (OR)|1.91||||0.203|TWO_SIDED|95.0|0.71|5.2|||Regression, Logistic|||||5.20|0.71|0.203
82483393|NCT03239665|164659924|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.|||||<|0.0001|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their doctor at one-month follow-up via Chi-squared test||||<0.0001
82483394|NCT03239665|164659924|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0012|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their pharmacist at one-month follow-up via Chi-squared test||||0.0012
82483395|NCT03239665|164659924|EQUIVALENCE|Chi-squared test was used with a significance threshold of 0.05.||||||0.0034|||||||Chi-squared|||Testing between-group differences in number of participants having discussed vaccines with their family/friends at one-month follow-up via Chi-squared test||||0.0034
82483396|NCT02129777|164659925|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.008||||0.925|TWO_SIDED|95.0|-0.162|0.179|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Cochran-Mantel-Haenszel (CMH) P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.179|-0.162|0.925
82483397|NCT02129777|164659925|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.087||||0.162|TWO_SIDED|95.0|-0.202|0.028|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.028|-0.202|0.162
82483398|NCT02129777|164659925|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.034||||0.671|TWO_SIDED|95.0|-0.187|0.118|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.118|-0.187|0.671
82483399|NCT02129777|164659925|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.087||||0.182|TWO_SIDED|95.0|-0.202|0.028|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.028|-0.202|0.182
82581804|NCT04433585|164875496|SUPERIORITY||Odds Ratio (OR)|1.1||||0.865|TWO_SIDED|95.0|0.38|3.16|||Regression, Logistic|||||3.16|0.38|0.865
82581805|NCT04433585|164875496|SUPERIORITY||Odds Ratio (OR)|1.07||||0.896|TWO_SIDED|95.0|0.38|3.05|||Regression, Logistic|||||3.05|0.38|0.896
82483400|NCT02129777|164659927|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.75||0.435|TWO_SIDED|95.0|-2.1|4.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||4.9|-2.1|0.435
82483401|NCT02129777|164659927|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|1.74||0.279|TWO_SIDED|95.0|-1.6|5.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||5.4|-1.6|0.279
82483402|NCT02129777|164659927|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.74||0.085|TWO_SIDED|95.0|-0.4|6.5|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||6.5|-0.4|0.085
82483403|NCT02129777|164659927|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|1.76||0.11|TWO_SIDED|95.0|-0.7|6.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure.||6.3|-0.7|0.110
82483404|NCT02129777|164659928|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.027||||0.827|TWO_SIDED|95.0|-0.265|0.211|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.211|-0.265|0.827
82483405|NCT02129777|164659928|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.036||||0.768|TWO_SIDED|95.0|-0.269|0.198|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.198|-0.269|0.768
82483406|NCT02129777|164659928|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.112||||0.338|TWO_SIDED|95.0|-0.33|0.106|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.106|-0.330|0.338
82483407|NCT02129777|164659928|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.017||||0.89|TWO_SIDED|95.0|-0.261|0.226|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.226|-0.261|0.890
82483408|NCT02129777|164659929|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.048||||0.295|TWO_SIDED|95.0|-0.043|0.139|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12:CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and responder status controlling for visit.||0.139|-0.043|0.295
82483409|NCT02129777|164659930|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.012||||0.906|TWO_SIDED|95.0|-0.191|0.216|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.216|-0.191|0.906
82483410|NCT02129777|164659930|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.04||||0.677|TWO_SIDED|95.0|-0.222|0.143|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.143|-0.222|0.677
82483411|NCT02129777|164659930|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.13||||0.107|TWO_SIDED|95.0|-0.268|0.007|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.007|-0.268|0.107
82483412|NCT02129777|164659930|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.08||||0.371|TWO_SIDED|95.0|-0.248|0.087|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.087|-0.248|0.371
82483413|NCT02129777|164659931|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.095||||0.134|TWO_SIDED|95.0|-0.03|0.221|||Cochran-Mantel-Haenszel||Risk difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: CMH P-values are from a CMH Chi-Square test using a 2\*2 contingency table of treatment and sPGA response category controlling for visit.||0.221|-0.030|0.134
82483414|NCT02129777|164659932|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.258|TWO_SIDED|95.0|-0.6|0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an analysis of variance (ANOVA) model with terms for treatment and study site.||0.2|-0.6|0.258
82555158|NCT03635567|164817339|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.49|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.49|<0.0001
82581806|NCT02342743|164875501|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82555159|NCT03635567|164817340|OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.52|0.77||No formal hypothesis testing performed; nominal p-value based on log-rank test provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.77|0.52|<0.0001
82555160|NCT03635567|164817341|OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.44|0.78||No formal hypothesis testing performed; nominal p-value provided for treatment comparison.|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.78|0.44|<0.0001
82555161|NCT03635567|164817342|OTHER||Difference in Percentage|14.9||||0.0001|TWO_SIDED|95.0|7.4|22.3||No formal hypothesis testing performed; nominal p-value provided for treatment comparison|Miettinen & Nurminen method|||Treatment comparison was based on Miettinen \& Nurminen method stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||22.3|7.4|0.0001
82555162|NCT03635567|164817345|OTHER||Hazard Ratio (HR)|0.6|||<|0.0001|TWO_SIDED|95.0|0.49|0.74||No formal hypothesis testing performed; nominal p-value provided for treatment comparison|Stratified Log-Rank|Nominal p-value based on log-rank test stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB), bevacizumab use, and PD-L1 status.||Treatment comparison (HR) was based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by metastatic at initial diagnosis (FIGO \[2009\] stage IVB) (yes or no), bevacizumab use (yes or no), and PD-L1 status (CPS\<1, CPS 1 to \<10, or CPS ≥10).||0.74|0.49|<0.0001
82555163|NCT06603766|164817360|SUPERIORITY|||||||0.83|||||||Chi-squared|||||||0.83
82555164|NCT06603766|164817361|SUPERIORITY|||||||0.46|||||||Chi-squared|||||||0.46
82555165|NCT06603766|164817362|SUPERIORITY|||||||0.008|||||||Chi-squared|||||||0.008
82555166|NCT06603766|164817363|SUPERIORITY|||||||0.032|||||||Chi-squared|||||||0.032
82555167|NCT06603766|164817364|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82555168|NCT06603766|164817365|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82555169|NCT03662022|164817379|SUPERIORITY||incidence rate ratio|0.95|||<|0.017|TWO_SIDED|98.3|0.4|2.23||The significance level was determined at 0.017, to account for the fact that we made three comparisons, thus conclusions can be drawn by examining if the 98.3% CI for the incidence rate ratio (IRR) contains the critical value of 1.|Mixed Models Analysis|||||2.23|0.40|<0.017
82555170|NCT03662022|164817379|SUPERIORITY||incidence rate ratio|0.8||||0.017|TWO_SIDED|98.3|0.34|1.87|||Mixed Models Analysis|||||1.87|0.34|0.017
82555171|NCT03662022|164817379|SUPERIORITY||incidence rate ratio|0.58|||<|0.017|TWO_SIDED|98.3|0.22|1.56|||Mixed Models Analysis|||||1.56|0.22|<0.017
82555172|NCT04679389|164817399|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82555173|NCT04679389|164817400|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
82555174|NCT04679389|164817401|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
82555175|NCT04679389|164817402|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82555176|NCT04679389|164817405|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
82555177|NCT04679389|164817406|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82555178|NCT05257603|164817407|OTHER||Mean Difference (Net)|4.82|STANDARD_ERROR_OF_MEAN|0.615|<|0.99|TWO_SIDED|95.0|3.24|5.72|||ANOVA|||||5.72|3.24|<0.99
82555179|NCT05257603|164817408|OTHER||||||<|0.29|||||||Chi-squared|||||||<.29
82555180|NCT05257603|164817409|OTHER||||||<|0.99|||||||ANOVA|||A one-way ANOVA was used to compare the mean difference in key presses from time 1 to time 2 between the intervention (RPCW) and Control conditions.||||<0.99
82555181|NCT05257603|164817410|OTHER||||||<|0.45|||||||ANOVA|||||||<0.45
82555182|NCT05257603|164817411|OTHER||||||<|0.1||||||Given the exploratory nature of the analysis we were looking for a trend in improvement in emotion regulation (i.e., p\<.10) following the intervention condition compared to control.|ANOVA|||||||<.10
82555183|NCT05257603|164817412|OTHER||||||<|0.1|||||||ANOVA|||Repeated measure ANOVA was used to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial. The current pilot RCT was not powered to find significant effects.||||<.10
82555184|NCT05257603|164817413|OTHER||||||<|0.1||||||A priori threshold for a trend set at p\<.10 for condition effect (intervention v control).|ANOVA|||An exploratory repeated measures ANOVA with time (4) as the within-subjects variable and condition (2) as the between-subjects variable was conducted to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial. The current pilot RCT was not powered to find significant effects.||||<.10
82555185|NCT05257603|164817414|OTHER||||||<|0.098|||||||ANOVA|||An exploratory repeated measures ANOVA with time (4) as the within-subjects variable and condition (2) as the between-subjects variable was conducted to provide preliminary information for estimating sample sizes needed for a larger Stage II efficacy trial.||||<.098
82555186|NCT04024059|164817415|SUPERIORITY||Odds Ratio (OR)|1.737|||=|0.22|TWO_SIDED|95.0|0.719|4.195|||Regression, Logistic|||||4.195|0.719|=0.22
82555187|NCT04024059|164817415|SUPERIORITY||Odds Ratio (OR)|1.035|||=|0.938|TWO_SIDED|95.0|0.435|2.461|||Regression, Logistic|||||2.461|0.435|=0.938
82555188|NCT04024059|164817416|SUPERIORITY||Odds Ratio (OR)|1.783|||=|0.202|TWO_SIDED|95.0|0.733|4.336|||Regression, Logistic|||||4.336|0.733|=0.202
82555189|NCT04024059|164817416|SUPERIORITY||Odds Ratio (OR)|1.38|||=|0.474|TWO_SIDED|95.0|0.571|3.336|||Regression, Logistic|||||3.336|0.571|=.474
82555190|NCT04024059|164817417|SUPERIORITY||Odds Ratio (OR)|0.669|||=|0.328|TWO_SIDED|95.0|0.299|1.497|||Regression, Logistic|||||1.497|0.299|=0.328
82555191|NCT04024059|164817417|SUPERIORITY||Odds Ratio (OR)|0.724|||=|0.435|TWO_SIDED|95.0|0.322|1.627|||Regression, Logistic|||||1.627|0.322|=0.435
82555192|NCT04835363|164817434|SUPERIORITY|||||||0.029|||||||ANOVA|||||||0.029
82555193|NCT04835363|164817435|SUPERIORITY|||||||0.148|||||||ANOVA|||||||0.148
82555194|NCT04835363|164817436|SUPERIORITY|||||||0.012|||||||ANOVA|||||||0.012
82483415|NCT02129777|164659932|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.365|TWO_SIDED|95.0|-0.5|0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.2|-0.5|0.365
82483416|NCT02129777|164659932|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.757|TWO_SIDED|95.0|-0.3|0.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.4|-0.3|0.757
82483417|NCT02129777|164659932|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.825|TWO_SIDED|95.0|-0.4|0.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.3|-0.4|0.825
82555195|NCT04835363|164817437|SUPERIORITY|||||||0.078|||||||ANOVA|||||||0.078
82555196|NCT04835363|164817438|SUPERIORITY|||||||0.011|||||||ANOVA|||||||0.011
82555197|NCT04835363|164817439|SUPERIORITY|||||||0.797|||||||ANOVA|||||||0.797
82555198|NCT04835363|164817440|SUPERIORITY|||||||0.358|||||||ANOVA|||||||0.358
82555199|NCT04835363|164817441|SUPERIORITY|||||||0.055|||||||ANOVA|||||||0.055
82483418|NCT02129777|164659933|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|2.163||0.931|TWO_SIDED|95.0|-4.48|4.1|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.10|-4.48|0.931
82483419|NCT02129777|164659933|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|STANDARD_ERROR_OF_MEAN|2.143||0.459|TWO_SIDED|95.0|-2.65|5.84|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.84|-2.65|0.459
82483420|NCT02129777|164659933|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.161||0.094|TWO_SIDED|95.0|-0.63|7.93|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.93|-0.63|0.094
82555200|NCT04835363|164817442|SUPERIORITY|||||||0.496|||||||ANOVA|||||||0.496
82555201|NCT04835363|164817443|SUPERIORITY|||||||0.241|||||||ANOVA|||||||0.241
82555202|NCT04835363|164817444|SUPERIORITY|||||||0.004|||||||ANOVA|||||||0.004
82555203|NCT04835363|164817445|SUPERIORITY|||||||0.019|||||||ANOVA|||||||0.019
82555204|NCT04835363|164817446|SUPERIORITY|||||||0.141|||||||ANOVA|||ENGAGEMENT STRATEGIES||||0.141
82555205|NCT04835363|164817446|SUPERIORITY|||||||0.496|||||||ANOVA|||DISENGAGEMENT STRATEGIES||||0.496
82555206|NCT04881110|164817462|SUPERIORITY||Mean Difference (Final Values)|11.2|||<|0.001|TWO_SIDED|95.0|8.0|14.5|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|14.5|8.0|<0.001
82555207|NCT04881110|164817462|SUPERIORITY||Risk Ratio (RR)|1.91|||<|0.001|TWO_SIDED|95.0|1.26|2.9|||Chi-squared||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.90|1.26|<0.001
82555208|NCT04881110|164817463|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.06|TWO_SIDED|95.0|-0.8|0.01|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.01|-0.8|0.06
82555209|NCT04881110|164817464|SUPERIORITY||Mean Difference (Final Values)|-3.4||||0.52|TWO_SIDED|95.0|-14.3|7.4|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|7.4|-14.3|0.52
82555210|NCT04881110|164817465|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.33|TWO_SIDED|95.0|-3.6|1.2|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|1.2|-3.6|0.33
82483421|NCT02129777|164659933|SUPERIORITY_OR_OTHER||LS Mean Difference|2.78|STANDARD_ERROR_OF_MEAN|2.173||0.203|TWO_SIDED|95.0|-1.52|7.09|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.09|-1.52|0.203
82483422|NCT02129777|164659934|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.7||0.448|TWO_SIDED|95.0|-1.92|0.86|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.86|-1.92|0.448
82483423|NCT02129777|164659934|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.692||0.099|TWO_SIDED|95.0|-2.53|0.22|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.22|-2.53|0.099
82555211|NCT04881110|164817466|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.1|TWO_SIDED|95.0|-1.7|0.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.1|-1.7|0.10
82555212|NCT04881110|164817467|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.81|TWO_SIDED|95.0|-2.8|3.5|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|3.5|-2.8|0.81
82555213|NCT04881110|164817468|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.99|TWO_SIDED|95.0|-5.8|5.8|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|5.8|-5.8|0.99
82555214|NCT04881110|164817469|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.72|TWO_SIDED|95.0|-32.6|22.9|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|22.9|-32.6|0.72
82555215|NCT04881110|164817470|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.02|TWO_SIDED|95.0|-0.7|-0.07|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|-0.07|-0.7|0.02
82555216|NCT04881110|164817471|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.12|TWO_SIDED|95.0|-0.04|0.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.3|-0.04|0.12
82483424|NCT02129777|164659934|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.69||0.396|TWO_SIDED|95.0|-1.96|0.78|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.78|-1.96|0.396
82581807|NCT02342743|164875502|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82581808|NCT02342743|164875503|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82581809|NCT02342743|164875504|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82555217|NCT04881110|164817472|SUPERIORITY||Mean Difference (Final Values)|-3.09||||0.25|TWO_SIDED|95.0|-8.5|2.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.3|-8.5|0.25
82555218|NCT04881110|164817473|SUPERIORITY||Mean Difference (Final Values)|87.4|||<|0.001|TWO_SIDED|95.0|59.9|115.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|115.1|59.9|<0.001
82555219|NCT04881110|164817474|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.18|TWO_SIDED|95.0|-0.09|0.01|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|0.01|-0.09|0.18
82555220|NCT04881110|164817475|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.06|TWO_SIDED|95.0|-0.6|18.1|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|18.1|-0.6|0.06
82555221|NCT04881110|164817476|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.06|TWO_SIDED|95.0|-0.09|2.6|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|2.6|-0.09|0.06
82555222|NCT04881110|164817478|SUPERIORITY||Mean Difference (Final Values)|25.1|||<|0.001|TWO_SIDED|95.0|21.8|28.3|||t-test, 2 sided||||To evaluate the change of variables over time, we subtracted the values at the start from values at the end. A 2-sample t test was used to compare differences between the interventions. The χ2 test was used for comparing proportions of participants in the 2 groups who reached the primary end point after the intervention. Relative risks (RRs) and 95%Cis were calculated to demonstrate the relationship between the intervention and the achievement of the primary end point. A 2-sided P \< .05 was considered statistically significant.|28.3|21.8|<0.001
82555223|NCT05215054|164817479|NON_INFERIORITY|Non-inferiority will be demonstrated if the upper limit of the two-sided 95%CI of the difference of changes from baseline between test device and control is inferior or equal to 0.5.||||||||||||||||Difference of changes from baseline in WSRS score for Gana V versus Sculptra|Non-inferiority will be demonstrated if the upper limit of the two-sided 95%CI of the difference of changes from baseline between test device and control is inferior or equal to 0.5.To assess assay sensitivity, the proportion of responders with Gana V®, defined as improvement of ≥1-grade in the WSRS when compared to D0 pre-injection must be ≥50% at the 6 months visit after baseline.|||
82555224|NCT04310423|164817508|OTHER|||||||0.036|||||||Mixed Models Analysis|||Treatment x Time interaction for alcohol cue-induced alcohol craving.||||0.036
82581810|NCT02342743|164875505|SUPERIORITY|||||||0.012||||||Threshold for statistical significance set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.012
82483425|NCT02129777|164659934|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.697||0.102|TWO_SIDED|95.0|-2.54|0.23|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.23|-2.54|0.102
82483426|NCT02129777|164659935|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.626||0.099|TWO_SIDED|95.0|-2.29|-0.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||-0.20|-2.29|0.099
82555225|NCT04310423|164817509|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Two-way Treatment x Time interaction||||>0.05
82555226|NCT04310423|164817510|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Treatment x Time interactions||||>0.05
82555227|NCT04310423|164817511|OTHER||||||>|0.05|||||||Mixed Models Analysis|||Treatment x Time interactions||||>0.05
82555228|NCT04310423|164817512|OTHER||||||<|0.001|||||||ANCOVA|||Main effect of treatment on alcohol cue-elicited brain activation||||<0.001
82581811|NCT02342743|164875506|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82581812|NCT02342743|164875508|SUPERIORITY|||||||0.03||||||Threshold for statistical significance set to 0.05|Wilcoxon (Mann-Whitney)|||||||0.030
82581813|NCT01346475|164875533|SUPERIORITY_OR_OTHER||Incident Risk Ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.44|0.66|||Incident risk ratio|The model is adjusted for period effects.||This study had 80% power to detect a 50% reduction in HSV genital shedding rates for high-dose valacyclovir compared to standard dose valacyclovir.||0.66|0.44|<0.001
82555229|NCT04496752|164817598|EQUIVALENCE|Weighted Cohen's kappa statistics were computed between DCTClock-pen and MMSE, and between DCTClock-tablet and MMSE. A TOST (two one-sided test) of equivalence was planned, with a difference in kappa of 0.2 specified a priori as significant.|Difference in Cohen's Kappa|0.07|||||TWO_SIDED|90.0|-0.05|0.19|||||The difference is Cohen's kappa is (tablet - pen). The confidence interval is estimated with a nonparametric bootstrap (5000 samples).|||0.19|-0.05|
82555230|NCT04675034|164817601|SUPERIORITY||Combined estimate for LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.416||0.36|TWO_SIDED|95.0|-0.968|0.67|||ANCOVA|Least Square (LS) mean and treatment group difference with associated 95% confidence intervals (CIs) are modelled using ANCOVA on imputed data.||||0.670|-0.968|0.360
82555231|NCT04675034|164817601|SUPERIORITY||Combined estimate for LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.418||0.029|TWO_SIDED|95.0|-1.619|0.027|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.027|-1.619|0.029
82555232|NCT04675034|164817601|SUPERIORITY||Combined estimate for LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.413||0.026|TWO_SIDED|95.0|-1.618|0.009|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.009|-1.618|0.026
82555233|NCT04675034|164817601|SUPERIORITY||Combined estimate for LS mean|-0.59|STANDARD_ERROR_OF_MEAN|0.424||0.083|TWO_SIDED|95.0|-1.423|0.245|||ANCOVA|Least Square mean and treatment group difference with associated 95% CIs are modelled using ANCOVA on imputed data.||||0.245|-1.423|0.083
82555234|NCT05275556|164817631|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.0002|TWO_SIDED|95.0|0.07|0.23||Threshold for significance is 0.025.|Poisson Regression|||||0.23|0.07|0.0002
82555235|NCT05275556|164817632|NON_INFERIORITY|Non-inferiority margin is -10%.|Mean Difference (Final Values)|-0.06||||0.09|TWO_SIDED|95.0|-0.15|0.03||Threshold for significance is 0.025.|Resampling based|||||0.03|-0.15|0.09
82555236|NCT05275556|164817633|SUPERIORITY||Difference in percentage|5.5||||0.031|TWO_SIDED|95.0|-0.3|11.2|||Cochran-Mantel-Haenszel|Threshold for significance is 0.025.||||11.2|-0.3|0.031
82555237|NCT05275556|164817634|OTHER||rate|0.58|||||TWO_SIDED|||||||||||||
82555238|NCT05275556|164817635|OTHER|2 sided test for differences between arms|Mean Difference (Final Values)|0.58||||0.169|TWO_SIDED||||||Permutation test|||||||0.169
82555239|NCT05275556|164817636|OTHER||||||||||||||||||Descriptive analysis: 52.4 in Colonoscopy (Standard of Care), 59.6 in CAD-e Device|||
82555240|NCT05275556|164817637|SUPERIORITY||Mean Difference (Net)|4.6||||0.0578|TWO_SIDED|95.0|-0.2|9.4||Nominal p-value.|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.4|-0.2|0.0578
82555241|NCT05275556|164817638|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.7813|TWO_SIDED|95.0|-1.5|2.0||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||2.0|-1.5|0.7813
82555242|NCT05275556|164817639|SUPERIORITY||Least-squares means|0.11|||||TWO_SIDED|95.0|0.05|0.17||||||||0.17|0.05|
82555243|NCT05275556|164817640|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.0004|TWO_SIDED|95.0|3.7|12.9||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||12.9|3.7|0.0004
82555244|NCT05275556|164817641|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1185|TWO_SIDED|95.0|-1.0|9.1||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.1|-1|0.1185
82555245|NCT05275556|164817642|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.0752|TWO_SIDED|95.0|-0.4|9.2||nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||9.2|-0.4|0.0752
82555246|NCT05275556|164817644|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.8194|TWO_SIDED|95.0|-3.2|2.6||Nominal p-value|Cochran-Mantel-Haenszel|||Difference in percentage between both arms is reported. H0: Colonoscopy (Standard of Care) percentage \<= CADe Device percentage (i.e. test of superiority)||2.6|-3.2|0.8194
82555247|NCT05275556|164817645|OTHER|Test for difference|Incidence Rate Ratio|1.39||||0.0008|TWO_SIDED|95.0|1.14|1.69||Nominal p-value|Exact poisson|||||1.69|1.14|0.0008
82555248|NCT05954546|164817653|OTHER||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.62|1.72|||||Hazard ratio (HR) was estimated using multivariable Cox proportional hazard models.|Statistical analysis data is presented for Encorafenib+Binimetinib (RWD) relative to Encorafenib+Binimetinib (CTD) (reference).||1.72|0.62|
82555249|NCT03547271|164817654|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) was \>1/1.5 for all 4 serogroups.|GMT ratio|0.69|||||TWO_SIDED|95.0|0.565|0.842|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup A||0.842|0.565|
82555250|NCT03547271|164817654|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|GMT ratio|4.73|||||TWO_SIDED|95.0|4.0|5.58|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup C||5.58|4.00|
82555251|NCT03547271|164817654|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|Slope|1.54|||||TWO_SIDED|95.0|1.33|1.78|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup W||1.78|1.33|
82555252|NCT03547271|164817654|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>1/1.5 for all 4 serogroups.|GMT ratio|1.78|||||TWO_SIDED|95.0|1.55|2.04|||||95% CI of the GMT ratio was calculated using a normal approximation of log-transformed titers.|Statistical analysis for Serogroup Y||2.04|1.55|
82581814|NCT00618618|164875540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.005|TWO_SIDED|95.0|-1.0|-0.2|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||-0.2|-1.0|0.005
82555253|NCT03547271|164817655|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|-12.2|||||TWO_SIDED|95.0|-17.74|-6.56|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup A||-6.56|-17.74|
82555254|NCT03547271|164817655|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|6.89|||||TWO_SIDED|95.0|4.44|9.62|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup C||9.62|4.44|
82483427|NCT02129777|164659935|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.619||0.045|TWO_SIDED|95.0|-2.49|-0.03|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||-0.03|-2.49|0.045
82483428|NCT02129777|164659935|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.62||0.118|TWO_SIDED|95.0|-2.21|0.25|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.25|-2.21|0.118
82483429|NCT02129777|164659935|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.616||0.05|TWO_SIDED|95.0|-2.44|0.0|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.00|-2.44|0.050
82483430|NCT02129777|164659936|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.503||0.211|TWO_SIDED|95.0|-1.63|0.36|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.36|-1.63|0.211
82483431|NCT02129777|164659936|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.497||0.087|TWO_SIDED|95.0|-1.85|0.13|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.13|-1.85|0.087
82483432|NCT02129777|164659936|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.494||0.58|TWO_SIDED|95.0|-1.26|0.71|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.71|-1.26|0.580
82483433|NCT02129777|164659936|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.496||0.873|TWO_SIDED|95.0|-1.06|0.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.90|-1.06|0.873
82483434|NCT02129777|164659937|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|6.7||0.803|TWO_SIDED|95.0|-15.2|11.8|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||11.8|-15.2|0.803
82483435|NCT02129777|164659937|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|6.73||0.248|TWO_SIDED|95.0|-5.7|21.4|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||21.4|-5.7|0.248
82555255|NCT03547271|164817655|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|2.07|||||TWO_SIDED|95.0|-0.49|4.7|||||95% CI of the difference was calculated from the Wilson score method without continuity correction|Statistical analysis for Serogroup W||4.70|-0.49|
82555256|NCT03547271|164817655|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for all 4 serogroups.|Difference in percentage of participants|3.01|||||TWO_SIDED|95.0|0.34|5.77|||||95% CI of the difference was calculated from the Wilson score method without continuity correction.|Statistical analysis for Serogroup Y||5.77|0.34|
82555257|NCT03904576|164817692|OTHER||Difference of least squares means (T-R)|-7.305|STANDARD_ERROR_OF_MEAN|2.082|||TWO_SIDED|90.0|-10.949|-3.661||||||Mixed effects model including effects for 'treatment', 'period' and 'subject' as well as covariates 'period baseline' and 'subject baseline'.||-3.661|-10.949|
82581815|NCT00618618|164875540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9||||0.001|TWO_SIDED|95.0|-1.4|-0.4|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||-0.4|-1.4|0.001
82483436|NCT02129777|164659937|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|6.67||0.914|TWO_SIDED|95.0|-12.7|14.2|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||14.2|-12.7|0.914
82483437|NCT02129777|164659937|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|6.74||0.523|TWO_SIDED|95.0|-9.2|17.9|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site, treatment, visit and interaction between visit and treatment as fixed effects, baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||17.9|-9.2|0.523
82483438|NCT02129777|164659938|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.37||0.978|TWO_SIDED|95.0|-2.7|2.8|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an Analysis of covariance (ANCOVA) model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||2.8|-2.7|0.978
82555258|NCT03904576|164817692|OTHER||Difference in %|-24.396|||||||||||||Difference of least squares means in % (ratio to Placebo) (T-R)/R\*100%|Mixed effects model including effects for 'treatment', 'period' and 'subject' as well as covariates 'period baseline' and 'subject baseline'.||||
82555259|NCT01499368|164817819|NON_INFERIORITY|Non-inferiority: The Lower limit is not lower than -15%||||||0.05|||||||Chi-squared|||||||0.05
82555260|NCT01499368|164817820|NON_INFERIORITY|Non-Inferiority||||||0.05|||||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test||||||0.05
82483439|NCT02129777|164659938|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.36||0.389|TWO_SIDED|95.0|-3.9|1.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.5|-3.9|0.389
82483440|NCT02129777|164659938|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.39||0.316|TWO_SIDED|95.0|-4.2|1.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.4|-4.2|0.316
82483441|NCT02129777|164659938|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.41||0.142|TWO_SIDED|95.0|-4.9|0.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.7|-4.9|0.142
82555261|NCT03990883|164817823|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|0.37|||<|0.0001|TWO_SIDED|95.0|-2.96|3.7|||McNemar|||||3.7|-2.96|<0.0001
82555262|NCT03990883|164817824|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|0.0|||<|0.0001|TWO_SIDED|95.0|-3.71|3.71||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.71|-3.71|<0.0001
82555263|NCT03990883|164817825|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-2.96||||0.025|TWO_SIDED|95.0|-9.99|4.07||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||4.07|-9.99|0.025
82581816|NCT00618618|164875540|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.069|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||0.0|-0.8|0.069
82581817|NCT00618618|164875541|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.005|TWO_SIDED|95.0|0.6|3.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||3.0|0.6|0.005
82555264|NCT03990883|164817826|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.45||||0.009|TWO_SIDED|95.0|-8.42|7.52||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||7.52|-8.42|0.009
82555265|NCT03990883|164817827|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.37|||<|0.0001|TWO_SIDED|95.0|-3.85|3.11||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.11|-3.85|<0.0001
82555266|NCT03990883|164817828|NON_INFERIORITY|"The hypothesis to be tested was: H0: pA-pB ≤ d0 versus H1: pA-pB \> d0 where, pA is the response rate for Princess® FILLER Lidocaine, pB is the response rate for the Comparator, and d0 is the non-inferiority margin set at -10%. The hypothesis was tested using a 1-sided, McNemar type test at an alpha of 0.025 with a delta of 0.10 (10%).~Assuming pA to be 87% and pB to be 88% a sample size of 222 subjects had been calculated to be sufficient to achieve a power of 90%."|Risk Difference (RD)|-0.45|||<|0.0001|TWO_SIDED|95.0|-4.05|3.16||The threshold for statistical significance is 0.025. A hierarchical approach is used and results are confirmative if all tests previously performed within the hierarchy achieve significance at a one-sided significance level of 0.025.|McNemar|||||3.16|-4.05|<0.0001
82555267|NCT00412607|164817909|SUPERIORITY_OR_OTHER_LEGACY||Percentage of mortality|13.3|||||ONE_SIDED|95.0||17.5|||Fisher Exact||The 95% confidence interval is a one-sided with upper confidence level = 17.5% computed using the exact binomial test.|"Assumptions for sample size calculation: 10% attrition rate, Type I error of 0.05, anticipated 12-month mortality rate is 0.19, a region of indifference of 0.07, power of 0.8; the required sample size is 249 per nQuery Exact test for single proportion method.~The null hypothesis is that the 12-month mortality rate is greater than or equal to 0.26; the alternative is that the rate is less than 0.26. This hypothesis is evaluated with one-sided exact binomial test at α= 0.05."||17.5||
82555268|NCT04602611|164817921|SUPERIORITY||Coefficient of negative binomial model|0.0547||||0.8|TWO_SIDED|95.0|-0.368|0.4773||The a priori threshold for statistical significance was 0.025.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|The study was designed with co-primary objectives evaluating acute care utilization (ACU) and 6-month OS rate. Power/sample size were calculated based on the OS objective. The overall type I error rate was alpha=0.05; the co-primary objectives were powered at the 2-sided alpha=0.025 significance level. Three hundred evaluable subjects would have provided \>=93% power to detect a 20% reduction in ACU (assuming there were 6 ACUs per year in SOC arm). The study did not achieve targeted enrollment.||0.4773|-0.3680|0.80
82555269|NCT04602611|164817922|SUPERIORITY|||||||0.88||||||The a priori threshold for statistical significance was 0.025.|Fisher Exact|No adjustments were made in this analysis.||The study was designed with co-primary objectives evaluating acute care utilization (ACU) and 6-month OS rate. Power/sample size were calculated based on the OS objective. The overall type I error rate was alpha=0.05; the co-primary objectives were powered at the 2-sided alpha=0.025 significance level. Three hundred evaluable subjects would have provided \>=93% power to detect a 20% reduction in ACU (assuming there were 6 ACUs per year in SOC arm). The study did not achieve targeted enrollment.|The proportions of evaluable subjects surviving at 6 months were analyzed in a 2x2 contingency table using Fisher's Exact test. In the SOC arm, 52/87(60%) evaluable subjects were alive at 6 months and 35/87 (40%) were not. In the ONN + SOC arm, 58/95 (61%) evaluable subjects were alive at 6 months and 37/95 (39%) were not. The p-value estimated using Fisher's Exact test on this 2x2 contingency table was p=0.88.|||0.88
82555270|NCT04602611|164817923|SUPERIORITY|||||||0.74||||||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Fisher Exact|No adjustments were made in this analysis.|||The proportions of evaluable subjects surviving at 12 months were analyzed in a 2x2 contingency table using Fisher's Exact test. In the SOC arm, 23/87(26%) evaluable subjects were alive at 12 months and 64/87(74%) were not. In the ONN + SOC arm, 28/95 (29%) evaluable subjects were alive at 6 months and 67/95 (71%) were not. The p-value estimated using Fisher's Exact test on this 2x2 contingency table was p=0.74.|||0.74
82555271|NCT04602611|164817924|SUPERIORITY||Coefficient of negative binomial model|0.1574||||0.57|TWO_SIDED|95.0|-0.3905|0.7054||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.7054|-0.3905|0.57
82555272|NCT04602611|164817925|SUPERIORITY||Hazard Ratio (HR)|0.864||||0.45|TWO_SIDED|95.0|0.57|1.309||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Log Rank|Unadjusted log-rank test|The estimated hazard ratio was associated with Oncology Nurse Navigation with reference to Standard of Care; the model was estimated without adjustments (the sole covariate was treatment).|||1.309|0.570|0.45
82555273|NCT04602611|164817926|SUPERIORITY||Coefficient of negative binomial model|-0.4194||||0.21|TWO_SIDED|95.0|-1.0763|0.2374||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Negative binomial|Model was estimated without adjustments (sole covariate was treatment; coefficient was the estimated treatment effect) using 180 degrees of freedom.|The estimated coefficient was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.2374|-1.0763|0.21
82483442|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.73||0.229|TWO_SIDED|95.0|-5.6|1.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||1.4|-5.6|0.229
82483443|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.65||0.863|TWO_SIDED|95.0|-3.6|3.0|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||3.0|-3.6|0.863
82483444|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.403|TWO_SIDED|95.0|-1.9|4.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.7|-1.9|0.403
82483445|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.74||0.597|TWO_SIDED|95.0|-2.5|4.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Physical Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.4|-2.5|0.597
82483446|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.32||0.416|TWO_SIDED|95.0|-2.7|6.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||6.5|-2.7|0.416
82555274|NCT04602611|164817927|SUPERIORITY||Odds Ratio (OR)|3.28|||<|0.01|TWO_SIDED|95.0|1.75|6.15||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Logistic|Model was estimated without adjustments (the sole covariate was treatment).|The estimated odds ratio was associated with Oncology Nurse Navigation with reference to Standard of Care.|||6.15|1.75|<0.01
82555275|NCT04602611|164817928|SUPERIORITY||Slope|-2.6939||||0.11|TWO_SIDED|95.0|-5.9538|0.5659||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Linear|Model was estimated without adjustments (sole covariate was treatment; slope was the estimated treatment effect) using 180 degrees of freedom.|The estimated slope was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.5659|-5.9538|0.11
82483447|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.24||0.77|TWO_SIDED|95.0|-3.8|5.1|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.1|-3.8|0.770
82483448|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.31||0.798|TWO_SIDED|95.0|-4.0|5.2|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.2|-4.0|0.798
82483449|NCT02129777|164659939|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|2.4||0.767|TWO_SIDED|95.0|-4.1|5.5|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Mental Health Summary Score: Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.5|-4.1|0.767
82483450|NCT02129777|164659940|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.043||0.57|TWO_SIDED|95.0|-0.11|0.06|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.06|-0.11|0.570
82483451|NCT02129777|164659940|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.042||0.619|TWO_SIDED|95.0|-0.1|0.06|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.06|-0.10|0.619
82555276|NCT04602611|164817929|SUPERIORITY||Slope|0.1197||||0.09|TWO_SIDED|95.0|-0.0315|0.4378||This p-value was not adjusted for multiple comparisons; the a priori threshold for statistical significance was p=0.05.|Regression, Linear|This univariate model was not adjusted for other covariates; this model was estimated using 84 degrees of freedom.|The estimated slope was associated with Oncology Nurse Navigation with reference to Standard of Care.|||0.4378|-0.0315|0.09
82581818|NCT00618618|164875541|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5||||0.001|TWO_SIDED|95.0|1.0|4.0|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||4.0|1.0|0.001
82483452|NCT02129777|164659940|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.043||0.597|TWO_SIDED|95.0|-0.06|0.11|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.11|-0.06|0.597
82483453|NCT02129777|164659940|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.044||0.509|TWO_SIDED|95.0|-0.06|0.12|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||0.12|-0.06|0.509
82483454|NCT02129777|164659941|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|5.32||0.845|TWO_SIDED|95.0|-11.7|9.6|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||9.6|-11.7|0.845
82483455|NCT02129777|164659941|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8|STANDARD_ERROR_OF_MEAN|4.8||0.323|TWO_SIDED|95.0|-4.8|14.4|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||14.4|-4.8|0.323
82555277|NCT02777593|164818018|OTHER|Performance goal tested using Exact method calculation to estimate the 95% one-sided lower confidence level (95% LCL) on the proportion of participants with primary endpoint success. If the 95% LCL exceeded 0.64, then the the null hypothesis was to be rejected and the PG was met.|95% Exact Lower Confidence Limit|0.751|||||ONE_SIDED|||||||||"Primary endpoint success was defined as the proportion of analysis-eligible participants without a primary endpoint event and with 12-Month imaging performed.~Results were tested against a performance goal (PG) of 0.64 (i.e. 64%), derived from historical GORE TAG® and Conformable TAG® data.~Additionally, using a one-sided alpha of 0.05 and Exact Test, minimum power of 80%, the sample needed was 70 patients. With attrition, 85 patients were required."||||
82555278|NCT02532621|164818027|NON_INFERIORITY|"Cumulative patency at 6 months was evaluated using the estimated patency from a Kaplan Meier survival analysis. The test statistic took the following form:~Z-test statistic = (P - 0.75) / SE (P) Where, (P) represents the Kaplan Meier estimate of cumulative patency at 6 months, and the standard error SE (P) is estimated using the method of Peto et al (1977)."|Cumulative patency|92.1|||<|0.001|ONE_SIDED|95.0||||A one-sided p-value of 0.025 was considered evidence of statistical significance for the primary study endpoint.|one-sided binomial exact test|||"The primary endpoint was evaluated by comparison with a performance goal of 75% that was determined from medical literature.~The sample size of 158 patients was estimated as follows:~* Kaplan-Meier estimate of cumulative patency rate at 6 months (exact binomial estimation for sample size)~* Type I error (alpha): 0.025 (one-sided)~* 80% Statistical power~* 8% Lost-to-follow up rate"||||<0.001
82555279|NCT01992913|164818034|SUPERIORITY||||||<|0.05||||||"Fisher's exact Test, right-sided probability based on a directional hypothesis."|Fisher Exact|||We conducted a 2 X 2 chi-square analysis of differences in proportion.||||<.05
82483456|NCT02129777|164659941|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|4.89||0.697|TWO_SIDED|95.0|-11.7|7.8|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.8|-11.7|0.697
82483457|NCT02129777|164659941|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.1||0.633|TWO_SIDED|95.0|-12.6|7.7|||ANCOVA||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Post-baseline least squares means and p-values were from an ANCOVA model with main effect of study site and treatment with baseline value as a covariate. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.7|-12.6|0.633
82555280|NCT01992913|164818034|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.06|TWO_SIDED|95.0|0.97|7.13|||Chi-squared|ChiSq = 3.6562, df = 1|OR, iCBT / TAU in job attainment|Chis Sq: group (iCBT/TAU) X Job attained (Yes/No)||7.13|0.97|<.06
82555281|NCT01992913|164818035|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|-0.9|STANDARD_ERROR_OF_MEAN|0.91|<|0.33|TWO_SIDED|95.0|-2.67|0.89|||Mixed Models Analysis|df (1, 30) for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 6 month assessment points.||.89|-2.67|<0.33
82555282|NCT01992913|164818035|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|0.52|STANDARD_ERROR_OF_MEAN|0.85|<|0.54|TWO_SIDED|95.0|-1.14|2.19|||Mixed Models Analysis|F (1, 130) = 1.0, p\<0.37, for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 12 month assessment points.||2.19|-1.14|<.54
82483458|NCT02129777|164659942|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.64||0.537|TWO_SIDED|95.0|-2.2|4.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||4.3|-2.2|0.537
82483459|NCT02129777|164659942|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|1.62||0.142|TWO_SIDED|95.0|-0.8|5.6|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.6|-0.8|0.142
82483460|NCT02129777|164659942|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.63||0.015|TWO_SIDED|95.0|0.8|7.3|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||7.3|0.8|0.015
82483461|NCT02129777|164659942|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.64||0.121|TWO_SIDED|95.0|-0.7|5.8|||MMRM||LS mean difference (namilumab - placebo) and corresponding 95% confidence interval were reported.|Week 12: Post-baseline least squares means and p-values were from a MMRM model with main effect of study site,treatment,visit and interaction between visit and treatment as fixed effects,baseline value as a covariate with an unstructured covariance structure. Baseline least squares means and p-values were obtained using an ANOVA model with terms for treatment and study site.||5.8|-0.7|0.121
82483462|NCT01923168|164659963|OTHER|Bayesian double criteria|Mean Difference (Final Values)|-1.3||||0.282|TWO_SIDED|80.0|-4.5|1.7|||Posterior mean diff. & credible interval|||||1.7|-4.5|0.282
82483463|NCT01923168|164659964|OTHER|Bayesian double criteria|Mean Difference (Final Values)|1.1||||0.697|TWO_SIDED|80.0|-1.9|4.2|||Posterior mean difference|Posterior mean difference||||4.2|-1.9|0.697
82555283|NCT01992913|164818035|SUPERIORITY|A mixed effects logistic regression model was conducted on a binary work variable, with a random intercept, using the baseline measure as a binary covariate.|Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|0.83|<|0.71|TWO_SIDED|95.0|-1.32|1.73|||Mixed Models Analysis|F (1, 130) = 1.0, p\<0.37, for the group X assessment interaction, adjusting for baseline differences in hours worked at the start of the intervention.||Compare the groups on proportions in employment at the 18 month assessment point.||1.73|-1.32|<0.71
82555284|NCT01992913|164818037|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the baseline assessment.|Mean Difference (Final Values)|-5.03|STANDARD_ERROR_OF_MEAN|3.82|<|0.19|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.19
82483464|NCT01923168|164659965|OTHER|Bayesian double criteria|Mean Difference (Final Values)|-1.4||||0.435|TWO_SIDED|80.0|-12.5|9.7|||Posterior mean diff. & credible interval|||||9.7|-12.5|0.435
82483465|NCT01923168|164659966|OTHER|Bayesian double criteria|Mean Difference (Final Values)|2.4||||0.611|TWO_SIDED|80.0|-8.4|13.2|||Posterior mean diff. & credible interval|||||13.2|-8.4|0.611
82483466|NCT01255787|164660036|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|1.123||0.907|TWO_SIDED|95.0|-3.258|2.035||Adjustment for multiplicity for the comparisons was based on the Dunnett-Hsu procedure.|ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance.||2.035|-3.258|0.9070
82483467|NCT01255787|164660036|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|1.114||0.3006|TWO_SIDED|95.0|-4.31|0.938|||ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||||0.938|-4.310|0.3006
82483468|NCT01255787|164660036|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|1.11||0.2399|TWO_SIDED|95.0|-4.436|0.794|||ANCOVA|Analysis of covariance (ANCOVA), with treatment as a fixed factors and baseline MADRS as a covariate.||||0.794|-4.436|0.2399
82483469|NCT03170232|164660045|OTHER||Mean Difference (Final Values)|-67.2|STANDARD_ERROR_OF_MEAN|159.7||0.679|TWO_SIDED|95.0|-400.6|266.2|||Repeated measures random coefficient|||||266.2|-400.6|0.679
82483470|NCT01582854|164660088|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.82||0.005|TWO_SIDED|95.0|-3.9|-0.7|||ANCOVA|||||-0.7|-3.9|0.005
82483471|NCT01582854|164660089|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.74||0.122|TWO_SIDED|95.0|-2.6|0.3|||ANCOVA|||Month 3||0.3|-2.6|0.122
82483472|NCT01582854|164660089|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|0.93|<|0.001|TWO_SIDED|95.0|-5.5|-1.9|||ANCOVA|||Month 12||-1.9|-5.5|<0.001
82483473|NCT01582854|164660090|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.111|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||End of Infusion Period||0.7|-0.1|0.111
82483474|NCT01582854|164660090|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.27||0.016|TWO_SIDED|95.0|0.1|1.2|||ANCOVA|||Month 3||1.2|0.1|0.016
82483475|NCT01582854|164660090|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.29||0.013|TWO_SIDED|95.0|0.2|1.3|||ANCOVA|||Month 6||1.3|0.2|0.013
82483476|NCT01582854|164660090|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.34||0.003|TWO_SIDED|95.0|0.3|1.7|||ANCOVA|||Month 12||1.7|0.3|0.003
82483477|NCT01582854|164660091|SUPERIORITY_OR_OTHER||Percent Difference|10.2||||0.032|TWO_SIDED|95.0|0.9|19.5|||Chi-squared|||Month 3||19.5|0.9|0.032
82555285|NCT01992913|164818037|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the 6 month assessment.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|4.42|<|0.99|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.99
82581819|NCT00618618|164875541|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.122|TWO_SIDED|95.0|-0.3|2.2|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||2.2|-0.3|0.122
82555286|NCT01992913|164818037|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the 12 month assessment.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|4.54|<|0.94|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.94
82555287|NCT01992913|164818037|SUPERIORITY|This is mixed model analysis of the group X assessment interaction. This analysis is the test of mean differences in level of functioning at the baseline assessment.|Mean Difference (Final Values)|-6.67|STANDARD_ERROR_OF_MEAN|4.52|<|0.14|TWO_SIDED||||||Fisher Exact|df (1, 114)||||||<0.14
82555288|NCT02933489|164818038|EQUIVALENCE|H0: DBT = AB-MR|Wald interval with Bonett-Price Laplace|0.007||||0.002|TWO_SIDED|95.0|0.0022|0.0116|||McNemar||"Wald interval with Bonett-Price Laplace, described in :~Fagerland MW, Lydersen S, Laake P. Recommended tests and confidence intervals for paired binomial proportions. Statist. Med. 2014; 33:2850-75."|The proportion of participants who had an invasive cancer, verified by pathology, detected by each modality (the invasive cancer detection rates) will be made using exact McNemar's test.||0.0116|0.0022|0.002
82555289|NCT02933489|164818039|EQUIVALENCE|PPV DBT = PPV AB-MR||||||0.15||||||"Generalized estimating equation (GEE) regression with the p-value from the resulting score test.~5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance"|Leisenring|Leisenring W, Alonzo T, Pepe MS. Comparisons of predictive values of binary medical diagnostic tests for paired designs. Biometrics. 2000;56:345-351||Positive Predictive Value (PPV)||||0.15
82555290|NCT02933489|164818040|EQUIVALENCE|H0: DBT short term follow-up rate = AB-MR short term follow-up rate|||||<|0.0001||||||To adjust for multiplicity, using the Bonferroni correction, secondary comparisons are compared against an adjusted alpha level of 0.05/5=0.01 corresponding to the 5 secondary comparisons outlined in the Statistical Analysis Plan (SAP)|McNemar|exact p-value||The exact p-value from McNemar's test is reported for for comparing the DBT against the AB-MR short term follow-up rates||||<0.0001
82555291|NCT02933489|164818040|EQUIVALENCE|H0: DBT additional imaging rate =AB-MR additional imaging rate||||||0.02||||||To adjust for multiplicity, using the Bonferroni correction, secondary comparisons are compared against an adjusted alpha level of 0.05/5 = 0.01, corresponding to the 5 secondary comparisons outlined in the SAP|McNemar|exact p-values||The exact p-value from McNemar's test is reported for for comparing the DBT against the AB-MR additional imaging rates||||0.02
82555292|NCT02933489|164818041|EQUIVALENCE|Sensitivity DBT = Sensitivity AB-MR||||||0.001||||||The comparison of the sensitivity of AB-MR and DBT uses a two-sided exact McNemar's test to account for the paired design 5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance|McNemar|||||||0.001
82555293|NCT02933489|164818041|EQUIVALENCE|Specificity DBT = Specificity AB-MR|||||<|0.001||||||The comparison of the Specificity of AB-MR and DBT uses a two-sided exact McNemar's test to account for the paired design 5 secondary comparisons were planned: alpha level of 0.05/5 = 0.01 for p-value significance|McNemar|||||||<0.001
82581820|NCT00618618|164875542|SUPERIORITY_OR_OTHER||Difference from Placebo|38.3||||0.008|TWO_SIDED|95.0|11.0|65.7|||Fisher Exact|||||65.7|11.0|0.008
82483478|NCT01582854|164660091|SUPERIORITY_OR_OTHER||Percent Difference|10.2||||0.034|TWO_SIDED|95.0|0.8|19.5|||Chi-squared|||Month 6||19.5|0.8|0.034
82483479|NCT01582854|164660091|SUPERIORITY_OR_OTHER||Percent Difference|10.1||||0.035|TWO_SIDED|95.0|0.8|19.3|||Chi-squared|||Month 12||19.3|0.8|0.035
82555294|NCT05485935|164818048|SUPERIORITY||Mean Difference (Final Values)|45.94||||0.001|TWO_SIDED|95.0|19.24|72.64||The pass criteria were based on results analysing the 2 primary endpoints in a hierarchical fashion: rejecting the H0 on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||72.64|19.24|0.001
82555295|NCT05485935|164818049|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.15|||<|0.001|TWO_SIDED|95.0|0.07|0.35|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.35|0.07|<0.001
82555296|NCT05485935|164818050|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Risk Ratio (RR)|0.13|||<|0.001|TWO_SIDED|95.0|0.04|0.4|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||0.40|0.04|<0.001
82555297|NCT05485935|164818051|SUPERIORITY|The pass criteria were based on the results analysing the two primary endpoints in a hierarchical fashion: rejecting the null hypothesis on the first endpoint (Residual urine at first flow-stop) before continuing to the second (Number of flow-stop episodes).|Mean Difference (Final Values)|28.5||||0.004|TWO_SIDED|95.0|9.5|47.6|||Mixed Models Analysis|||This was a superiority investigation in which the null hypothesis of the primary endpoints was to be rejected, at a 5% significance (alpha 0.05), to demonstrate the superiority of the investigational device.||47.6|9.5|0.004
82555298|NCT04093869|164818057|SUPERIORITY||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|5.1||0.4|TWO_SIDED|95.0|-6.0|14.0||Not adjusted for multiple comparisons. Full alpha of 0.05 was allocated to this as the sole primary outcome.|Regression, Linear||A negative mean difference would represent a better outcome in the CSTEX arm compared to the SOC-ED arm.|||14|-6|0.40
82555299|NCT04093869|164818058|SUPERIORITY||Mean Difference (Net)|20.7|STANDARD_ERROR_OF_MEAN|32.6|||TWO_SIDED|95.0|-44.0|85.0|||||A positive value for the estimate represents a greater distance walked for the CSTEX arm compared to the SOC-ED arm.|||85|-44|
82581821|NCT00618618|164875542|SUPERIORITY_OR_OTHER||Difference from Placebo|32.9||||0.172|TWO_SIDED|95.0|1.0|64.8|||Fisher Exact|||||64.8|1.0|0.172
82581822|NCT00618618|164875542|SUPERIORITY_OR_OTHER||Difference from Placebo|22.9||||0.252|TWO_SIDED|95.0|-8.4|54.2|||Fisher Exact|||||54.2|-8.4|0.252
82581823|NCT00618618|164875543|SUPERIORITY_OR_OTHER||Difference from Placebo|46.1||||0.011|TWO_SIDED|95.0|16.3|75.9|||Fisher Exact|||||75.9|16.3|0.011
82581824|NCT00618618|164875543|SUPERIORITY_OR_OTHER||Difference from Placebo|54.3||||0.013|TWO_SIDED|95.0|23.0|85.5|||Fisher Exact|||||85.5|23.0|0.013
82555300|NCT04093869|164818059|SUPERIORITY||Median Difference (Net)|-316.0|STANDARD_ERROR_OF_MEAN|336.0|||TWO_SIDED|95.0|-979.0|346.0|||||A positive value for the estimate would represent more steps per day for the CSTEX arm compared to the SOC-ED arm.|||346|-979|
82555301|NCT04093869|164818060|SUPERIORITY||Mean Difference (Net)|14.7|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-5.0|34.0||||||||34|-5|
82555302|NCT04093869|164818061|SUPERIORITY||Mean Difference (Net)|0.0034|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.1|0.11|||||A negative value for the estimate would represent a better QOL survey score for the CSTEX arm compared to the SOC-ED arm.|||0.11|-0.1|
82555303|NCT04093869|164818062|SUPERIORITY||Mean Difference (Net)|0.041|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|95.0|-0.22|0.3|||||A negative value for the estimate would represent a better Frailty index score for the CSTEX arm compared to the SOC-ED arm.|||0.30|-0.22|
82555304|NCT04093869|164818063|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.17||||||||0.17|-0.20|
82555305|NCT04093869|164818064|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.13|0.1||||||||0.10|-0.13|
82555306|NCT04093869|164818065|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.12|0.07||||||||0.07|-0.12|
82555307|NCT04093869|164818066|SUPERIORITY||Mean Difference (Net)|0.39|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-0.83|1.6|||||A positive value for the estimate represents better self-efficacy for the CSTEX arm compared to the SOC-ED arm.|||1.60|-0.83|
82555308|NCT05412004|164818157|SUPERIORITY||LS Mean Change difference|-20.01|||<|0.001|TWO_SIDED|95.0|-25.82|-14.2|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-14.20|-25.82|<0.001
82651433|NCT03529955|165017567|EQUIVALENCE|The student t test (paired) and ANOVA analysis of variance were used to assess the mean change in CDASI, MMT-8, DLQI and to compare the positive cell detection on immunohistochemistry for CCL5, pSTAT1 and pSTAT3 at baseline and 3 months post apremilast. All p values were two-sided, and values \<0.05 were considered statistically significant. Analyses were performed using GraphPad Prism 8 (GraphPad Software Inc.). The last observation carried forward approach was used for missing values.||||||0.01||||||The investigators hypothesized that genes identified as significantly differentially expressed between the two groups will have ≥2-fold change at p\<0.01.|ANOVA|||The student t test (paired) and ANOVA analysis of variance were used to assess the mean change in CDASI, MMT-8, DLQI and to compare the positive cell detection on immunohistochemistry for CCL5, pSTAT1 and pSTAT3 at baseline and 3 months post apremilast. All p values were two-sided, and values \<0.05 were considered statistically significant. Analyses were performed using GraphPad Prism 8 (GraphPad Software Inc.). The last observation carried forward approach was used for missing values.||||0.01
82555309|NCT05412004|164818157|SUPERIORITY||LS Mean Change difference|-23.77|||<|0.001|TWO_SIDED|95.0|-29.61|-17.93|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-17.93|-29.61|<0.001
82555310|NCT05412004|164818158|SUPERIORITY||LS Mean Change difference|-47.65|||<|0.001|TWO_SIDED|95.0|-65.76|-29.55|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-29.55|-65.76|<0.001
82555311|NCT05412004|164818158|SUPERIORITY||LS Mean Change difference|-56.21|||<|0.001|TWO_SIDED|95.0|-73.73|-38.7|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, treatment (Type III sum of squares) as covariates.||||-38.70|-73.73|<0.001
82555312|NCT05412004|164818159|SUPERIORITY||Risk Difference (RD)|42.77|||<|0.001|TWO_SIDED|95.0|30.76|54.79|||Regression, Logistic|||||54.79|30.76|<0.001
82555313|NCT05412004|164818159|SUPERIORITY||Risk Difference (RD)|48.6|||<|0.001|TWO_SIDED|95.0|36.55|60.65|||Regression, Logistic|||||60.65|36.55|<0.001
82555314|NCT05412004|164818160|SUPERIORITY||Risk Difference (RD)|28.74|||<|0.001|TWO_SIDED|95.0|18.27|39.22|||Regression, Logistic|||||39.22|18.27|<.001
82555315|NCT05412004|164818160|SUPERIORITY||Risk Difference (RD)|33.22|||<|0.001|TWO_SIDED|95.0|22.12|44.31|||Regression, Logistic|||||44.31|22.12|<0.001
82555316|NCT05412004|164818161|SUPERIORITY||Median Difference (Net)|-70.13|STANDARD_ERROR_OF_MEAN|10.619|||TWO_SIDED|95.0|-90.94|-49.31||||||||-49.31|-90.94|
82555317|NCT05412004|164818161|SUPERIORITY||Median Difference (Net)|-61.29|STANDARD_ERROR_OF_MEAN|11.921|||TWO_SIDED|95.0|-84.66|-37.93||||||||-37.93|-84.66|
82555318|NCT05412004|164818162|SUPERIORITY||LS Mean Change difference|-2.03||||0.037|TWO_SIDED|95.0|-3.95|-0.12|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Disturbance||-0.12|-3.95|0.037
82555319|NCT05412004|164818162|SUPERIORITY||LS Mean Change difference|-3.43||||0.003|TWO_SIDED|95.0|-5.69|-1.17|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Related Impairment||-1.17|-5.69|0.003
82555320|NCT05412004|164818162|SUPERIORITY||LS Mean Change difference|-3.9|||<|0.001|TWO_SIDED|95.0|-6.21|-1.58|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep Disturbance||-1.58|-6.21|<0.001
82555321|NCT05412004|164818162|SUPERIORITY||LS Mean Change difference|-4.26||||0.002|TWO_SIDED|95.0|-6.97|-1.56|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||Sleep-Related Impairment||-1.56|-6.97|0.002
82555322|NCT05412004|164818163|SUPERIORITY||LS Mean Change difference|-16.09|||<|0.001|TWO_SIDED|95.0|-17.99|-14.19|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-14.19|-17.99|<0.001
82555323|NCT05412004|164818163|SUPERIORITY||LS Mean Change difference|-17.28|||<|0.001|TWO_SIDED|95.0|-19.29|-15.28|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-15.28|-19.29|<.001
82555324|NCT05412004|164818164|SUPERIORITY||LS Mean Change difference|-0.71|STANDARD_ERROR_OF_MEAN|0.253||0.752|TWO_SIDED|95.0|-1.21|-0.22||ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.|ANCOVA|||||-0.22|-1.21|0.752
82555325|NCT05412004|164818164|SUPERIORITY||LS Mean Change difference|-1.04|STANDARD_ERROR_OF_MEAN|0.269||0.35|TWO_SIDED|95.0|-1.57|-0.51||ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.|ANCOVA|||||-0.51|-1.57|0.350
82581825|NCT00618618|164875543|SUPERIORITY_OR_OTHER||Difference from Placebo|24.3||||0.296|TWO_SIDED|95.0|-8.7|57.3|||Fisher Exact|||||57.3|-8.7|0.296
82483480|NCT01582854|164660092|SUPERIORITY_OR_OTHER||Percent Difference|-3.2||||0.251|TWO_SIDED|95.0|-8.5|2.1|||Fisher Exact|||Month 6||2.1|-8.5|0.251
82483481|NCT01582854|164660092|SUPERIORITY_OR_OTHER||Percent Difference|-4.0||||0.221|TWO_SIDED|95.0|-9.7|1.7|||Fisher Exact|||Month 12||1.7|-9.7|0.221
82483482|NCT01582854|164660093|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|||End of Infusion Period||0.1|-0.4|0.239
82483483|NCT01582854|164660093|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.136|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||Month 3||0.1|-0.5|0.136
82483484|NCT01582854|164660093|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.89|TWO_SIDED|95.0|-0.3|0.2|||ANCOVA|||Month 6||0.2|-0.3|0.890
82483485|NCT01582854|164660093|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.455|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Month 12||0.2|-0.4|0.455
82555326|NCT05412004|164818165|SUPERIORITY||LS Mean Change difference|-7.62|||<|0.001|TWO_SIDED|95.0|-10.48|-4.77|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-4.77|-10.48|<0.001
82483486|NCT03070444|164660167|OTHER|GEE analysis|GEE analysis|0.99||||0.0002|TWO_SIDED|95.0|0.48|1.51|||GEE analysis|||||1.51|0.48|0.0002
82483487|NCT03070444|164660168|OTHER|Mann-Whitney U test||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||0.55
82483488|NCT01373489|164660169|SUPERIORITY||Mean Difference (Final Values)|10.0|||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82483489|NCT00988325|164660205|SUPERIORITY_OR_OTHER||Median time to cessation of viral sheddi|119.0|||=|0.166|TWO_SIDED|95.0|113.0|230.0||p-value is for the comparison of the age cohorts (treatment groups)|Wilcoxon (Mann-Whitney)|Wilcoxon Test was used for testing homogeneity of survival curves|Median time was estimated from the Kaplan-Meier curve (unstratified)|||230|113|=0.166
82483490|NCT00988325|164660207|SUPERIORITY_OR_OTHER||Time to Resolution of Fever in Patients|14.5|||=|0.059|TWO_SIDED|95.0|12.0|20.0||The p-value is for the comparison of the age cohorts (not including Total)|Wilcoxon (Mann-Whitney)||Median time was estimated from the Kaplan-Meier curve (unstratified)|||20|12|=0.059
82483491|NCT01155219|164660211|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||< 0.001
82483492|NCT01362595|164660259|OTHER||||||||||||||||||Due to the small sample size, the statistical approach is primarily descriptive in nature.|||
82483493|NCT00749580|164660284|SUPERIORITY_OR_OTHER|||||||0.935|||||||Fisher Exact|||||||0.935
82483494|NCT02522871|164660334|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.132|||<|0.0001|ONE_SIDED|95.0||-0.049|||one-sided Farrington and Manning|||||-0.049||<0.0001
82483495|NCT02522871|164660334|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.145|||<|0.0001|ONE_SIDED|95.0||-0.062|||one-sided Farrington and Manning|||||-0.062||<0.0001
82483496|NCT02522871|164660335|NON_INFERIORITY|non-inferiority margin of 1.0|Mean Difference (Final Values)|-0.03|||<|0.0001|TWO_SIDED|95.0|-0.084|0.025|||t-test, 1 sided|||||0.025|-0.084|<0.0001
82651434|NCT01070394|165017599|SUPERIORITY_OR_OTHER||||||<|0.001|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||<.001
82483497|NCT02522871|164660336|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|0.0||||0.0004|ONE_SIDED|95.0||0.036|||one-sided Farrington and Manning|||||0.036||0.0004
82483498|NCT02522871|164660336|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|0.0||||0.0004|ONE_SIDED|95.0||0.036|||one-sided Farrington and Manning|||||0.036||0.0004
82483499|NCT02522871|164660337|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.001||||0.0006|ONE_SIDED|95.0||0.038|||one-sided Farrington and Manning|||||0.038||0.0006
82483500|NCT02522871|164660337|NON_INFERIORITY|non-inferiority margin = 0.075|Difference of Proportion|-0.001||||0.0006|ONE_SIDED|95.0||0.038|||one-sided Farrington and Manning|||||0.038||0.0006
82483501|NCT00718237|164660352|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|80.2|||<|0.001|TWO_SIDED|95.0|47.4|94.1||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||94.1|47.4|<0.001
82483502|NCT00718237|164660353|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|74.5|||<|0.001|TWO_SIDED|95.0|39.9|90.6||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||90.6|39.9|<0.001
82483503|NCT00718237|164660354|SUPERIORITY_OR_OTHER||Vaccine Efficacy (1-Relative Risk [RR])|100.0|||<|0.001|TWO_SIDED|95.0|55.4|100.0||Hypothesis: Efficacy \>0%. Based on p\< 1/(1+k); p = proportion of participants with outcome in vaccine group relative to total number of subjects with outcome; k = ratio of follow-up time; placebo/vaccine. Based on conditional binomial approach.|Exact Conditional Test|Exact Conditional Test based on Binomial Distribution|Efficacy = 1-RR, expressed as a percentage; the RR is the incidence in the vaccine group / the incidence in the placebo group, adjusted for the ratio of the follow-up period in each group.|||100.0|55.4|<0.001
82483504|NCT01262352|164660362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.069||||0.0004|TWO_SIDED|95.0|-2.98|-1.15|||Mixed Models Analysis|||The primary analysis for the primary efficacy variable was based on a mixed effect model. The model included the absolute change from the baseline in each period as the dependent variable, sequence, treatment, and period as fixed effects, study baseline LCI as the covariate, and subject nested within sequence as the random effect.||-1.15|-2.98|0.0004
82555327|NCT05412004|164818165|SUPERIORITY||LS Mean difference|-3.7||||0.017|TWO_SIDED|95.0|-6.75|-0.65|||ANCOVA|ANCOVA model was used with baseline, geographic region, sex, baseline OSA severity Group, treatment (Type III sum of squares) as covariates.||||-0.65|-6.75|0.017
82651435|NCT01070394|165017600|SUPERIORITY_OR_OTHER|||||||0.569|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||.569
82651436|NCT01070394|165017600|SUPERIORITY_OR_OTHER|||||||0.827|||||||Generalized Estimating Equation|||The following p-value is for AMSES In-Clinic, a subset of the overall AMSES||||.827
82483505|NCT01262352|164660363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.007||||0.0117|TWO_SIDED|95.0|1.8|12.21||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||Analysis for this efficacy variable was performed in a similar way as the analysis for the primary efficacy variable.||12.21|1.80|0.0117
82483506|NCT01262352|164660364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-45.848|||<|0.0001|TWO_SIDED|95.0|-53.54|-38.16||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||Analysis for change from baseline in average sweat chloride was similar to the analysis of the primary efficacy variable.||-38.16|-53.54|<0.0001
82483507|NCT01262352|164660365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.991||||0.3796|TWO_SIDED|95.0|-5.4|13.39||P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|||The raw scores in CFQ-R were summarized into different domains of health (12 domains for adolescents and adults 14 years of age and older, 8 domains for children ages 12 and 13 years, 8 domains for children ages 6 to 11 years, and 11 domains for parents/caregivers). Each domain was analyzed in a similar way as for the primary efficacy variable. The primary analytical focus was the respiratory health domain which was analyzed by combining all self-response questionnaire versions.||13.39|-5.40|0.3796
82483508|NCT00251004|164660387|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|2.2||||0.001|TWO_SIDED|95.0|-2.9|7.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to mycophenolic acid (MPA) if the upper limit of the 95% confidence interval for the difference in combined graft loss, death or loss to follow-up rates is \<10%.||7.3|-2.9|0.001
82483509|NCT00251004|164660387|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in Percentage|0.3|||<|0.001|TWO_SIDED|95.0|-4.6|5.2||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to MPA if the upper limit of the 95% confidence interval for the difference in combined graft loss, death or loss to follow-up rates is \<10%.||5.2|-4.6|<0.001
82483510|NCT00251004|164660388|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|1.8||||0.014|TWO_SIDED|95.0|-5.5|9.1||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z - test|||Everolimus is non-inferior to mycophenolic acid (MPA) if the upper limit of the 95% confidence interval for the difference in percentage of participants composite efficacy failure is \<10%.||9.1|-5.5|0.014
82555328|NCT03952520|164818205|SUPERIORITY||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|26.5|48.1|||||This generalized linear model was adjusted for engagement of site leadership. The Standard Approach is the referent.|||48.1|26.5|
82651437|NCT01070394|165017600|SUPERIORITY_OR_OTHER|||||||0.569|||||||Generalized Estimating Equation|||The following p-value is for AMSES, Evening, a subset of the AMSES||||.569
82483511|NCT00251004|164660388|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%.|Difference in percentage|-3.8|||<|0.001|TWO_SIDED|95.0|-10.8|3.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|Z-test|||Everolimus is non-inferior to MPA if the upper limit of the 95% confidence interval for the difference in composite efficacy failure rates is \<10%.||3.3|-10.8|<0.001
82483512|NCT00251004|164660389|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at -8 mL/min/1.73m\^2.|Mean Difference (Net)|2.42|||<|0.001|TWO_SIDED|95.0|-1.6|6.5||To control for multiple comparisons, the two-sided significance level was set at 0.025.|t-test, 2 sided|||The null hypothesis: the mean GFR of the everolimus arm is lower (worse) than that of the MPA arm by 8 mL/min/1.73m\^2 or more.||6.5|-1.6|<0.001
82483513|NCT00251004|164660389|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at -8 mL/min/1.73m\^2.|Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-4.9|3.3||To control for multiple comparisons, the two-sided significance level was set at 0.025.|t-test, 2 sided|||The null hypothesis: the mean GFR of the everolimus arm is lower (worse) than that of the MPA arm by 8 mL/min/1.73m\^2 or more.||3.3|-4.9|<0.001
82483514|NCT02925793|164660405|SUPERIORITY||Mean Difference|-2.9||||0.0106|TWO_SIDED||||||SAS Proc Mixed||For each subject, change in NRS score from baseline to week 8 was calculated as Week 8 NRS value minus Baseline NRS value. Mean change in NRS score from baseline to week 8 for each group was then calculated using a Generalized Linear Mixed Model.|Both 1% and 5% groups (statistical analysis 2) produced the same estimated value (-2.9)||||0.0106
82483515|NCT02925793|164660405|SUPERIORITY||Mean Difference|-2.9||||0.0483|TWO_SIDED||||||SAS Proc Mixed||For each subject, change in NRS score from baseline to week 8 was calculated as Week 8 NRS value minus Baseline NRS value. Mean change in NRS score from baseline to week 8 for each group was then calculated using a Generalized Linear Mixed Model.|Both 1%(statistical analysis 1) and 5% groups produced the same estimated value (-2.9)||||0.0483
82483516|NCT01244490|164660413|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-8.9|||<|0.001|TWO_SIDED|95.0|-11.9|-5.8|||ANCOVA|||||-5.8|-11.9|<0.001
82483517|NCT01244490|164660413|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-3.8||||0.017|TWO_SIDED|95.0|-6.8|-0.7|||ANCOVA|||||-0.7|-6.8|0.017
82483518|NCT01244490|164660414|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage Improvement|23.7|||<|0.001|TWO_SIDED|95.0|11.1|36.4|||Cochran-Mantel-Haenszel|||||36.4|11.1|<0.001
82483519|NCT01244490|164660414|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage Improvement|12.1||||0.024|TWO_SIDED|95.0|-0.9|25.1|||Cochran-Mantel-Haenszel|||||25.1|-0.9|0.024
82483520|NCT01244490|164660415|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.217||||0.003|TWO_SIDED|95.0|-0.358|-0.076|||ANCOVA|||||-0.076|-0.358|0.003
82483521|NCT01244490|164660415|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.162||||0.026|TWO_SIDED|95.0|-0.305|-0.019|||ANCOVA|||||-0.019|-0.305|0.026
82483522|NCT01244490|164660416|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.209||||0.006|TWO_SIDED|95.0|-0.358|-0.059|||ANCOVA|||||-0.059|-0.358|0.006
82483523|NCT01244490|164660416|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.09||||0.242|TWO_SIDED|95.0|-0.241|0.061|||ANCOVA|||||0.061|-0.241|0.242
82483524|NCT01244490|164660417|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||||<0.001
82651438|NCT01070394|165017601|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||GEE regression model|Generalized Estimating Equation (GEE)||||||.001
82651439|NCT01070394|165017602|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||GEE regression model|||||||<.001
82651440|NCT01070394|165017603|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||GEE regression model|Generalized Estimating Equation (GEE)||||||<.0001
82483525|NCT01244490|164660417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.196||||||Nominal p-value uncorrected for multiplicity.|Cochran-Mantel-Haenszel|||||||0.196
82581826|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.46|TWO_SIDED|95.0|-0.5|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.5|0.460
82651441|NCT01070394|165017604|SUPERIORITY_OR_OTHER|||||||0.001|||||||GEE regression model|Generalized Estimating Equation (GEE)||||||0.001
82483526|NCT01244490|164660419|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.165||||0.001|TWO_SIDED|95.0|-0.266|-0.064||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.064|-0.266|0.001
82483527|NCT01244490|164660419|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.104||||0.048|TWO_SIDED|95.0|-0.207|-0.001||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.001|-0.207|0.048
82483528|NCT01244490|164660420|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.211||||0.043|TWO_SIDED|95.0|-0.416|-0.007||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.007|-0.416|0.043
82483529|NCT01244490|164660420|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.125||||0.231|TWO_SIDED|95.0|-0.331|0.08||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.080|-0.331|0.231
82483530|NCT01244490|164660421|SUPERIORITY_OR_OTHER_LEGACY||Diiference in Least Squares Mean|-0.229|||<|0.001|TWO_SIDED|95.0|-0.364|-0.094||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.094|-0.364|<0.001
82483531|NCT01244490|164660421|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.181||||0.009|TWO_SIDED|95.0|-0.317|-0.045||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.045|-0.317|0.009
82483532|NCT01244490|164660422|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.094||||0.096|TWO_SIDED|95.0|-0.204|0.017||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.017|-0.204|0.096
82483533|NCT01244490|164660422|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.067||||0.242|TWO_SIDED|95.0|-0.18|0.046||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.046|-0.180|0.242
82483534|NCT01244490|164660423|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.049||||0.5|TWO_SIDED|95.0|-0.191|0.094||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.094|-0.191|0.500
82483535|NCT01244490|164660423|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.078||||0.288|TWO_SIDED|95.0|-0.222|0.066||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.066|-0.222|0.288
82483536|NCT01244490|164660424|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.233||||0.001|TWO_SIDED|95.0|-0.374|-0.092||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||-0.092|-0.374|0.001
82483537|NCT01244490|164660424|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.111||||0.124|TWO_SIDED|95.0|-0.253|0.031||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.031|-0.253|0.124
82483538|NCT01244490|164660425|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.056||||0.139|TWO_SIDED|95.0|-0.131|0.018||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.018|-0.131|0.139
82651442|NCT00634283|165017607|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82483539|NCT01244490|164660425|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-0.039||||0.315|TWO_SIDED|95.0|-0.115|0.037||Nominal p-value uncorrected for multiplicity.|ANCOVA|||||0.037|-0.115|0.315
82483540|NCT03324581|164660445|SUPERIORITY||Difference|0.81|||=|0.7554|TWO_SIDED|95.0|-4.3|5.92||The change from baseline in CAARS-O:SV was analyzed using a Mixed-effect Model Repeated Measures (MMRM) methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||5.92|-4.30|=0.7554
82483541|NCT03324581|164660445|SUPERIORITY||Difference|-6.61|||=|0.0101|TWO_SIDED|95.0|-11.6|-1.6||The change from baseline in CAARS-O:SV was analyzed using a MMRM methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||-1.60|-11.6|=0.0101
82483542|NCT03324581|164660445|SUPERIORITY||Difference|-7.42|||=|0.0033|TWO_SIDED|95.0|-12.3|-2.5||The change from baseline in CAARS-O:SV was analyzed using a MMRM methodology with the unstructured variance covariance matrix.|Mixed-effect Model Repeated Measures|It included fixed class-effect terms: treatment,trial site,visit week, interaction term: treatment by visit week, Baseline CAARS-O:SV as a covariate.||||-2.50|-12.3|=0.0033
82483543|NCT00495131|164660474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||Null hypothesis: no difference between 2 groups SVR estimation: 24 weeks (60%), 48 weeks (75%) alfa erros: 0.05, power: 0.80||||< 0.001
82483544|NCT00829933|164660480|SUPERIORITY_OR_OTHER|||||||0.429|TWO_SIDED||||||Chi-squared|||For the incidence of bleeding events, paired comparison between the DU-176b groups was performed using the χ2 test.||||0.429
82483545|NCT00829933|164660480|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED||||||Chi-squared|||||||0.077
82483546|NCT00829933|164660480|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.5|||||TWO_SIDED|95.0|-11.2|8.1|||Wilcoxon (Mann-Whitney)|||||8.1|-11.2|
82483547|NCT00829933|164660480|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Chi-squared|||||||0.320
82483548|NCT00829933|164660480|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|2.4|||||TWO_SIDED|95.0|-7.6|12.3|||Wilcoxon (Mann-Whitney)|||||12.3|-7.6|
82483549|NCT00829933|164660480|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|7.7|||||TWO_SIDED|95.0|-2.7|18.1|||Wilcoxon (Mann-Whitney)|||||18.1|-2.7|
82483550|NCT02582255|164660505|OTHER|||||||0.05|||||||Clopper-Pearson|||||||0.05
82581827|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.906|TWO_SIDED|95.0|-0.5|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.5|0.906
82555329|NCT03952520|164818206|SUPERIORITY||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|2.0|2.1|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||2.1|2.0|
82555330|NCT03952520|164818208|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.2|0.4|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||0.4|-0.2|
82555331|NCT03952520|164818209|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.1|2.0|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||2.0|-3.1|
82555332|NCT03952520|164818210|SUPERIORITY||Prevalence Difference|15.8|||||TWO_SIDED|95.0|5.0|26.5|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||26.5|5.0|
82581828|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.404|TWO_SIDED|95.0|-0.6|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.6|0.404
82581829|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.791|TWO_SIDED|95.0|-0.5|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.3|-0.5|0.791
82581830|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.41|TWO_SIDED|95.0|-0.3|0.6|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.6|-0.3|0.410
82581831|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.733|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.5|-0.3|0.733
82581832|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.542|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.5|-0.3|0.542
82581833|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.882|TWO_SIDED|95.0|-0.4|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.5|-0.4|0.882
82581834|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.934|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.4|-0.4|0.934
82483551|NCT02582255|164660506|OTHER|||||||0.025|||||||Clopper-Pearson|||||||0.025
82483552|NCT02582255|164660507|OTHER|||||||0.025|||||||Clopper-Pearson|||||||0.025
82555333|NCT03952520|164818211|SUPERIORITY||Prevalence Difference|1.6|||||TWO_SIDED|95.0|-6.9|10.0|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||10.0|-6.9|
82555334|NCT03952520|164818213|SUPERIORITY||Prevalence Difference|6.2|||||TWO_SIDED|95.0|-1.5|13.8|||||This generalized linear model was adjusted for engagement of site leadership and used generalized estimating equations to account for clustering by HIV test site. The Standard Approach is the referent.|||13.8|-1.5|
82483553|NCT02582255|164660508|OTHER|||||||0.05|||||||Clopper-Pearson|||||||0.05
82555335|NCT04243759|164818253|SUPERIORITY|||||||0.97|||||||ANOVA|||||||0.97
82555336|NCT04243759|164818254|SUPERIORITY||Mean Difference (Final Values)|0.36|STANDARD_DEVIATION|2.09||0.232|TWO_SIDED|95.0|-0.24|0.95|||t-test, 2 sided|||Within subjects comparison of drinks per drinking day with full intervention app access versus daily assessment via the app only||0.95|-0.24|.232
82581835|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.838|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.4|0.838
82581836|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.777|TWO_SIDED|95.0|-0.5|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.5|0.777
82581837|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.795|TWO_SIDED|95.0|-0.4|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.5|-0.4|0.795
82581838|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS mean Difference|0.0||||0.852|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.4|-0.4|0.852
82581839|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.444|TWO_SIDED|95.0|-0.6|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.3|-0.6|0.444
82581840|NCT00618618|164875544|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.724|TWO_SIDED|95.0|-0.3|0.5|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.5|-0.3|0.724
82581841|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.934|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.4|0.934
82581842|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.286|TWO_SIDED|95.0|-0.7|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.2|-0.7|0.286
82581843|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.19|TWO_SIDED|95.0|-0.1|0.7|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.7|-0.1|0.190
82555337|NCT03816397|164818284|SUPERIORITY|A sample size of 118 subjects (59 in each group) provides 88% power to detect a hazard ratio of 2.0 for the time to treatment failure comparing the group randomized to discontinue adalimumab to the group randomized to continue using adalimumab, assuming a median time until treatment failure of 10 weeks in the group that discontinues adalimumab (Arm 1) and of 20 weeks in the group that continues on adalimumab (Arm 2), an equal allocation between groups, and a 10% total loss to follow-up.|Hazard Ratio (HR)|8.7|||<|0.0001|TWO_SIDED|95.0|3.6|21.2||A priori threshold for statistical significance was \<0.05.|Log Rank||For the HR, the numerator is the placebo group (stop adalimumab) and the denominator is the adalimumab group (continue adalimumab).|A Cox proportional hazards regression was used to compare time to treatment failure between the adalimumab and placebo groups up to the primary endpoint of 48 weeks, with country and conventional DMARD use included as fixed effects in the model. The null hypothesis was an hazard ratio (HR) of 1. Hypothesis testing was based on a permutation test of the log hazard ratio (100,000 replicates). The model was checked for the assumption of proportional hazards by assessing Schoenfeld residuals.||21.2|3.6|<0.0001
82555338|NCT03351998|164818303|SUPERIORITY||Mean Difference (Net)|36.02|STANDARD_DEVIATION|365.55||0.6051|TWO_SIDED||||||signed rank test|This is within group 12 month change.||||||0.6051
82555339|NCT03351998|164818303|SUPERIORITY||Mean Difference (Net)|31.89|STANDARD_DEVIATION|213.0||0.9434|TWO_SIDED||||||signed rank test|This is within group 12 month change.||||||0.9434
82555340|NCT03351998|164818303|SUPERIORITY||Mean Difference (Net)|-3.39|STANDARD_DEVIATION|179.54||0.9408|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.9408
82555341|NCT03351998|164818304|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.23||0.7458|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.7458
82555342|NCT03351998|164818304|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|0.16||0.4056|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.4056
82555343|NCT03351998|164818304|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|0.18||0.1932|TWO_SIDED||||||t-test, 2 sided|This is within group 12 month change.||||||0.1932
82555344|NCT02360371|164818320|SUPERIORITY|||||||0.567|||||||Mixed methods|||||||0.567
82555345|NCT02360371|164818321|SUPERIORITY|||||||0.805|||||||Mixed Model|||||||0.805
82555346|NCT01527188|164818337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-198.18||||0.0427|TWO_SIDED|95.0|-389.82|-6.55|||ANCOVA|||||-6.55|-389.82|0.0427
82555347|NCT01527188|164818337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-171.82||||0.0793||95.0|-363.87|20.24|||ANCOVA|||||20.24|-363.87|0.0793
82555348|NCT01527188|164818337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-118.43|||||TWO_SIDED|95.0|-305.9|69.04|||ANCOVA|||The statistical test is not applicable due to the step-down approach performed to address the multiplicity issue.||69.04|-305.90|
82555349|NCT01527188|164818338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-125.61||||0.0323||95.0|-240.53|-10.69|||ANCOVA|||||-10.69|-240.53|0.0323
82555350|NCT01527188|164818338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-122.23||||0.0376||95.0|-237.38|-7.08|||ANCOVA|||||-7.08|-237.38|0.0376
82555351|NCT01527188|164818338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-91.18||||0.1119||95.0|-203.74|21.38|||ANCOVA|||||21.38|-203.74|0.1119
82555352|NCT03982186|164818346|SUPERIORITY||Difference of proportions|-2.3|||=|0.848|TWO_SIDED|90.0|-5.97|1.38|||Mantel Haenszel|||||1.38|-5.97|= 0.848
82555353|NCT03982186|164818346|SUPERIORITY||Difference of proportions|7.4|||=|0.027|TWO_SIDED|90.0|1.07|13.68|||Mantel Haenszel|||||13.68|1.07|= 0.027
82555354|NCT03982186|164818346|SUPERIORITY||Difference of proportions|9.1|||=|0.917|TWO_SIDED|90.0|4.16|14.07|||Mantel Haenszel|||||14.07|4.16|= 0.917
82555355|NCT03982186|164818346|SUPERIORITY||Difference of proportions|-6.7|||=|0.917|TWO_SIDED|90.0|-14.67|1.25|||Mantel Haenszel|||||1.25|-14.67|= 0.917
82555356|NCT03512301|164818403|OTHER||Accuracy|0.6587|||||TWO_SIDED|95.0|0.569|0.7408||||||||0.7408|0.5690|
82555357|NCT03512301|164818403|OTHER||Sensitivity|0.8736|||||TWO_SIDED|||||||||||||
82555358|NCT03512301|164818403|OTHER||Specificity|0.4872|||||TWO_SIDED|||||||||||||
82555359|NCT03512301|164818403|OTHER||Positive Predictive Value|0.7917|||||TWO_SIDED|||||||||||||
82555360|NCT03512301|164818403|OTHER||Negative Predictive Value|0.6333|||||TWO_SIDED|||||||||||||
82555361|NCT03512301|164818403|OTHER||Sensitivity|0.1212|||||TWO_SIDED|||||||||||||
82555362|NCT03512301|164818403|OTHER||Specificity|0.9032|||||TWO_SIDED|||||||||||||
82555363|NCT03512301|164818403|OTHER||Positive Predictive Value|0.3077|||||TWO_SIDED|||||||||||||
82555364|NCT03512301|164818403|OTHER||Negative Predictive Value|0.7434|||||TWO_SIDED|||||||||||||
82555365|NCT03512301|164818403|OTHER||Sensitivity|0.5|||||TWO_SIDED|||||||||||||
82555366|NCT03512301|164818403|OTHER||Specificity|0.8833|||||TWO_SIDED|||||||||||||
82555367|NCT03512301|164818403|OTHER||Positive Predictive Value|0.1765|||||TWO_SIDED|||||||||||||
82555368|NCT03512301|164818403|OTHER||Negative Predictive Value|0.9725|||||TWO_SIDED|||||||||||||
82555369|NCT03512301|164818403|OTHER||Quadratic Weighted Kappa|0.4446|||||TWO_SIDED|95.0|0.2791|0.6101||||||||0.6101|0.2791|
82555370|NCT03512301|164818404|OTHER|Linear Regression. Power calculations for linear regression between CAMCI and MoCA were found to be sufficiently powered with a Pearson's R of at least 0.3 at 80% power and that equated to a test-set size of 98.|Pearson Correlation|0.5073|||||TWO_SIDED|95.0|0.3892|0.6091|||||Linear Regression Equation: \[CAMCI Score\] = -5.42 + 1.40 X \[MoCA Score\]|||0.6091|0.3892|
82555371|NCT03512301|164818404|OTHER||Accuracy|0.5556|||||TWO_SIDED|95.0|0.4644|0.644||||||||0.6440|0.4644|
82555372|NCT03512301|164818404|OTHER||Sensitivity|0.9747|||||TWO_SIDED|||||||||||||
82555373|NCT03512301|164818404|OTHER||Specificity|0.3913|||||TWO_SIDED|||||||||||||
82555374|NCT03512301|164818404|OTHER||Positive Predictive Value|0.5625|||||TWO_SIDED|||||||||||||
82555375|NCT03512301|164818404|OTHER||Negative Predictive Value|0.9|||||TWO_SIDED|||||||||||||
82555376|NCT03512301|164818404|OTHER||Sensitivity|0.1905|||||TWO_SIDED|||||||||||||
82555377|NCT03512301|164818404|OTHER||Specificity|0.9841|||||TWO_SIDED|||||||||||||
82555378|NCT03512301|164818404|OTHER||Positive Predictive Value|0.9231|||||TWO_SIDED|||||||||||||
82555379|NCT03512301|164818404|OTHER||Negative Predictive Value|0.5487|||||TWO_SIDED|||||||||||||
82555380|NCT03512301|164818404|OTHER||Sensitivity|0.6667|||||TWO_SIDED|||||||||||||
82555381|NCT03512301|164818404|OTHER||Specificity|0.8917|||||TWO_SIDED|||||||||||||
82555382|NCT03512301|164818404|OTHER||Positive Predictive Value|0.2353|||||TWO_SIDED|||||||||||||
82555383|NCT03512301|164818404|OTHER||Negative Predictive Value|0.9817|||||TWO_SIDED|||||||||||||
82555384|NCT03512301|164818404|OTHER||Quadratic Weighted Kappa|0.3931|||||TWO_SIDED|95.0|0.2401|0.5461||||||||0.5461|0.2401|
82483554|NCT01709578|164660510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.711|||<|0.0001|TWO_SIDED|95.0|1.73|4.247||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|A hierarchical testing procedure was used to control type I error rate at 0.05 and handle multiple endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||4.247|1.730|<0.0001
82483555|NCT01709578|164660510|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.284|||<|0.0001|TWO_SIDED|95.0|2.108|5.115||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.115|2.108|<0.0001
82483556|NCT01709578|164660511|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.202||||0.0007|TWO_SIDED|95.0|-0.318|-0.086||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.086|-0.318|0.0007
82483557|NCT01709578|164660511|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21||||0.0004|TWO_SIDED|95.0|-0.325|-0.095||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.095|-0.325|0.0004
82483558|NCT01709578|164660512|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.971|||<|0.0001|TWO_SIDED|95.0|-1.283|-0.658||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.658|-1.283|<0.0001
82483559|NCT01709578|164660512|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.444|||<|0.0001|TWO_SIDED|95.0|-1.752|-1.135||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.135|-1.752|<0.0001
82483560|NCT01709578|164660513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.958|||<|0.0001|TWO_SIDED|95.0|1.764|4.959||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.959|1.764|<0.0001
82483561|NCT01709578|164660513|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.374|||<|0.0001|TWO_SIDED|95.0|2.045|5.566||Threshold for significance was 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.566|2.045|<0.0001
82483562|NCT01709578|164660514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.607||||0.0002|TWO_SIDED|95.0|1.774|7.332||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||7.332|1.774|0.0002
82483563|NCT01709578|164660514|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.653||||0.0056|TWO_SIDED|95.0|1.308|5.383||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.383|1.308|0.0056
82555385|NCT05157841|164818435|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL and bupivacaine HCI|Mean Difference (Final Values)|-164.0|STANDARD_ERROR_OF_MEAN|27.74|<|1e-05|TWO_SIDED|95.0|-218.3|-109.6|||ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||The superiority of EXPAREL to bupivacaine hydrochloric acid (HCI) was evaluated using the Efficacy Analysis Set.||-109.6|-218.3|<0.00001
82483564|NCT01709578|164660515|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.622|||<|0.0001|TWO_SIDED|95.0|2.339|9.132||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||9.132|2.339|<0.0001
82483565|NCT01709578|164660515|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.801|||<|0.0001|TWO_SIDED|95.0|2.948|11.413||Threshold for significance at 0.025 level|Mantel Haenszel||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||11.413|2.948|<0.0001
82483566|NCT01709578|164660516|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.306|||<|0.0001|TWO_SIDED|95.0|-10.444|-4.167||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.167|-10.444|<0.0001
82483567|NCT01709578|164660516|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.727|||<|0.0001|TWO_SIDED|95.0|-12.833|-6.622||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.622|-12.833|<0.0001
82483568|NCT01709578|164660517|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.183||||0.0078|TWO_SIDED|95.0|-0.318|-0.048||Threshold for significance was 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.048|-0.318|0.0078
82483569|NCT01709578|164660517|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.242||||0.0004|TWO_SIDED|95.0|-0.376|-0.109||Threshold for significance was 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.109|-0.376|0.0004
82483570|NCT01709578|164660518|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25||||0.0004|TWO_SIDED|95.0|1.45|5.049||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.049|1.450|0.0004
82483571|NCT01709578|164660518|SUPERIORITY_OR_OTHER||LS Mean Difference|4.075|||<|0.0001|TWO_SIDED|95.0|2.305|5.846||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.846|2.305|<0.0001
82581844|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.402|TWO_SIDED|95.0|-0.5|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.2|-0.5|0.402
82581845|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.29|TWO_SIDED|95.0|-0.7|0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.2|-0.7|0.290
82581846|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.863|TWO_SIDED|95.0|-0.4|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.4|-0.4|0.863
82555386|NCT05157841|164818436|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL and bupivacaine HCI|Least square mean difference|0.39|||<|1e-05|TWO_SIDED|95.0|0.28|0.55|||ANCOVA|||The superiority of EXPAREL to bupivacaine hydrochloric acid (HCI) was evaluated using the Efficacy Analysis Set.||0.55|0.28|<0.00001
82555387|NCT05157841|164818437|SUPERIORITY||Odds Ratio (OR)|5.04||||0.0003|TWO_SIDED|95.0|2.01|12.62|||ANCOVA|||||12.62|2.01|0.0003
82555388|NCT05157841|164818438|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0089|TWO_SIDED|95.0|0.45|0.93|||Cox proportional hazards model|Cox proportional hazards model with treatment as main effect and site as categorical and age as continuous covariates.||||0.93|0.45|0.0089
82555389|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.44||0.0296|TWO_SIDED|95.0|-1.7|0.0||Worst pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariate of age.||||0.0|-1.7|0.0296
82555390|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-2.9|STANDARD_ERROR_OF_MEAN|0.4|<|1e-05|TWO_SIDED|95.0|-3.6|-2.1||Worst pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-2.1|-3.6|<0.00001
82555391|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-3.3|STANDARD_ERROR_OF_MEAN|0.41|<|1e-05|TWO_SIDED|95.0|-4.1|-2.5||Worst pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-2.5|-4.1|<0.00001
82581847|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.128|TWO_SIDED|95.0|-0.7|0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.1|-0.7|0.128
82581848|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.018|TWO_SIDED|95.0|-0.9|-0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||-0.1|-0.9|0.018
82555392|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.43|<|1e-05|TWO_SIDED|95.0|-3.0|-1.3||Worst pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.3|-3.0|<0.00001
82555393|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.3419|TWO_SIDED|95.0|-0.9|0.6||Average pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.6|-0.9|0.3419
82555394|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-1.9|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.5|-1.3||Average pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.3|-2.5|<0.00001
82555395|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.8|-1.6||Average pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-1.6|-2.8|<0.00001
82555396|NCT05157841|164818439|SUPERIORITY||Least square mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.31|<|1e-05|TWO_SIDED|95.0|-2.1|-0.9||Average pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.9|-2.1|<0.00001
82555397|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0||||0.8842|TWO_SIDED|95.0|-7.0|8.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||8|-7|0.8842
82555398|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|18.0|||<|0.0001|TWO_SIDED|95.0|10.0|27.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||27|10|<0.0001
82555399|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|47.0|||<|0.0001||95.0|38.0|56.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||56|38|<0.0001
82581849|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.489|TWO_SIDED|95.0|-0.5|0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.3|-0.5|0.489
82581850|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5||||0.007|TWO_SIDED|95.0|-0.9|-0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||-0.1|-0.9|0.007
82581851|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.3|-0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||-0.4|-1.3|<0.001
82581852|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.122|TWO_SIDED|95.0|-0.7|0.1|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.1|-0.7|0.122
82555400|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|58.0|||<|0.0001|TWO_SIDED|95.0|46.0|70.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||70|46|<0.0001
82555401|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|59.0|||<|0.0001|TWO_SIDED|95.0|47.0|72.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||72|47|<0.0001
82555402|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|80.0|||<|0.0001|TWO_SIDED|95.0|71.0|89.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||89|71|<0.0001
82555403|NCT00624442|164818448|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis based on the following model: Change from baseline = Concentration + Baseline + Error, treating patients as random effect||"All available concentration data are used in the model as a continuous variable.~p-value based on individual plasma concentration of CK-1827452 vs. corresponding systolic ejection time PD assessment (not binned based on plasma concentration)"||||<0.0001
82555404|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0||||0.3665|TWO_SIDED|95.0|-1.0|2.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||2|-1|0.3665
82555405|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|1.0|||<|0.0357|TWO_SIDED|95.0|0.0|3.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||3|0|<0.0357
82555406|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|3.0||||0.0004|TWO_SIDED|95.0|1.0|5.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||5|1|0.0004
82555407|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|3.0||||0.0086|TWO_SIDED|95.0|1.0|4.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||4|1|0.0086
82555408|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|2.0||||0.032|TWO_SIDED|95.0|0.0|5.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||5|0|0.032
82555409|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||LSM placebo corrected diff from baseline|5.0|||<|0.0001|TWO_SIDED|95.0|3.0|6.0||p-value is not adjusted for multiple comparison Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis is based on the following model: CFB Parameter = Bin Group + Baseline + Error, treating patients as a random effect.||Placebo corrected change from baseline least squares mean +/- the standard error of the mean||6|3|<0.0001
82555410|NCT00624442|164818449|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance: p\<0.05|ANCOVA|ANCOVA analysis based on the following model: Change from baseline = Concentration + Baseline + Error, treating patients as random effect||"All available concentration data are used in the model as a continuous variable.~p-value based on individual plasma concentration of CK-1827452 vs. corresponding fractional shortening PD assessment (not binned based on plasma concentration)"||||<0.0001
82555411|NCT04933474|164818452|OTHER|||||||0.088|||||||Chi-squared|||The primary outcome will be the baseline vs. week 8 difference-in-difference in 7-day average NRS pain intensity scores, dichotomized into if the MCID of 2 is achieved. The between arm difference of achieving the MCID of 2 will be tested using Chi-squared test.||||0.088
82555412|NCT04933474|164818453|OTHER|||||||0.103|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.103
82555413|NCT04933474|164818454|OTHER|||||||0.774|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.774
82555414|NCT04933474|164818455|OTHER|||||||0.005|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.005
82555415|NCT04933474|164818456|OTHER|||||||0.831|||||||t-test, 2 sided|||A two-sample t-test will be used to compare differences-in-differences between the arms.||||0.831
82555416|NCT04933474|164818457|OTHER||Common Odds Ratio|1.44||||0.031|TWO_SIDED|95.0|1.03|2.02||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and week 8) and opioid use (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||2.02|1.03|0.031
82581853|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.005|TWO_SIDED|95.0|-0.9|-0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.2|-0.9|0.005
82581854|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.3|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.3|-1.2|<0.001
82555417|NCT04174170|164818481|SUPERIORITY||Treatment Difference|1.03||||0.5165|TWO_SIDED|95.0|-2.09|4.16|||MMRM|||||4.16|-2.09|0.5165
82555418|NCT04174170|164818481|SUPERIORITY||Treatment Difference|-0.71||||0.6593|TWO_SIDED|95.0|-3.88|2.46|||MMRM|||||2.46|-3.88|0.6593
82555419|NCT04174170|164818482|SUPERIORITY||Treatment Difference|0.03||||0.8215|TWO_SIDED|95.0|-0.25|0.31||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||0.31|-0.25|0.8215
82555420|NCT04174170|164818482|SUPERIORITY||Treatment Difference|-0.03||||0.8584|TWO_SIDED|95.0|-0.31|0.26||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||0.26|-0.31|0.8584
82555421|NCT04174170|164818483|SUPERIORITY||Treatment Difference|-4.16||||0.2331|TWO_SIDED|95.0|-11.0|2.69||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||2.69|-11.00|0.2331
82555422|NCT04174170|164818483|SUPERIORITY||Treatment Difference|-8.83||||0.0134|TWO_SIDED|95.0|-15.82|-1.85||MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|MMRM|||||-1.85|-15.82|0.0134
82555423|NCT04664881|164818486|SUPERIORITY|||||||0.71|||||||Chi-squared, Corrected|||||||0.71
82555424|NCT04664881|164818487|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||Cardiovascular Death||||0.99
82555425|NCT04664881|164818487|SUPERIORITY|||||||0.36|||||||Chi-squared, Corrected|||Hospitalization for Myocardial Infarction||||0.36
82555426|NCT04664881|164818487|SUPERIORITY|||||||0.13|||||||Chi-squared, Corrected|||Arrhythmias||||0.13
82555427|NCT04664881|164818487|SUPERIORITY|||||||0.99|||||||Chi-squared, Corrected|||Cardiac Arrest||||0.99
82555428|NCT00709956|164818651|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-1.5||||0.7883|TWO_SIDED|95.0|-12.3|9.4||If the primary endpoint reaches significance, treatment effect of the secondary endpoint is determined at a 2-sided nominal of 0.05. Since hierarchy of the endpoints to be tested has been predefined, no correction for multiple testing will be applied|Generalized linear model|Subject (sequence), treatment, and period as fixed effect||With a sample size of at least 63 patients and based on the assumptions on the primary endpoint (normal distribution, SD of the difference of 30 m) the study was designed to detect a significant treatment effect with 90% power, assuming a difference exceeding 12.5 m between the mean values of the 6MWD following the iloprost power 15 treatment and the one following the placebo treatment.||9.4|-12.3|0.7883
82555429|NCT03215706|164818663|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.69||||0.0006|TWO_SIDED|95.0|0.56|0.86|||Log-rank test stratified|||||0.86|0.56|0.0006
82555430|NCT03215706|164818664|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.7||||0.0001|TWO_SIDED|95.0|0.58|0.84|||Log-rank test stratified|||||0.84|0.58|0.0001
82555431|NCT03215706|164818665|SUPERIORITY|Treatment A over Treatment B|Odds Ratio (OR)|1.81||||0.0003|TWO_SIDED|95.0|1.31|2.5|||Mantel Haenszel|||||2.50|1.31|0.0003
82555432|NCT02720068|164818686|OTHER|Difference in Percentage|Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|-7.3|22.9|||||Confidence interval based on Miettinen \& Nurminen method|||22.9|-7.3|
82555433|NCT03142009|164818760|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.021|TWO_SIDED|95.0|-0.45|-0.04|||Mixed Models Analysis|||||-.04|-.45|.021
82555434|NCT03142009|164818761|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.075|TWO_SIDED|95.0|-0.01|0.15|||Mixed Models Analysis|||||0.15|-.01|.075
82555435|NCT04518943|164818801|SUPERIORITY||Mean Difference (Net)|-634.0||||0.418|TWO_SIDED|90.0|-1924.0|655.0|||linear mixed model|||This is the results of financial vs non-financial reward factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignment, linear week with a spline at week 12, and interactions between factors and weeks.||655|-1924|0.418
82555436|NCT04518943|164818801|SUPERIORITY||Mean Difference (Net)|-1697.0||||0.033|TWO_SIDED|90.0|-3000.0|-385.0|||Mixed Models Analysis||Positive values represent a positive effect of lottery based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||-385|-3000|0.033
82555437|NCT04518943|164818801|SUPERIORITY||Mean Difference (Net)|820.0||||0.248|TWO_SIDED|90.0|-347.0|1988.0|||Mixed Models Analysis|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive a request for PC compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1988|-347|0.248
82555438|NCT04518943|164818801|SUPERIORITY||Mean Difference (Net)|1121.0||||0.125|TWO_SIDED|90.0|82.0|2323.0|||Mixed Models Analysis|||This is the results of advice vs no advice factor at week 12. It compares change in steps from baseline to week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.|Positive values represent a positive effect of requests for advice on steps compared to no request for advice.|2323|82|0.125
82555439|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|-0.18|STANDARD_ERROR_OF_MEAN|0.53||0.739|TWO_SIDED|90.0|-1.05|0.7|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares change in efficacy from baseline to week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.|Positive values represent a positive effect of financial rewards compared to non-financial rewards.|0.70|-1.05|0.739
82483572|NCT01709578|164660519|SUPERIORITY_OR_OTHER||LS Mean Difference|1.515||||0.2026|TWO_SIDED|95.0|-0.818|3.848||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 150 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||3.848|-0.818|0.2026
82483573|NCT01709578|164660519|SUPERIORITY_OR_OTHER||LS Mean Difference|2.013||||0.0854|TWO_SIDED|95.0|-0.282|4.309||Threshold for significance at 0.025 level|Mixed Models Analysis||Sarilumab 200 mg q2w vs Placebo q2w|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.309|-0.282|0.0854
82483574|NCT01314911|164660552|SUPERIORITY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|4.6||0.0097|TWO_SIDED|95.0|-21.4|-3.0||P-value was not adjusted for multiple interim analyses.|Z-test, 2-sided|Comparison of randomized arms was based on the normal approximation to the binomial distribution.|The difference in percents was calculated as the percent detectable in the Oseltamivir arm minus the percent detectable in the Placebo arm.|Assuming that pooled percentage of participants with virus detectable by PCR at Day 3 is 50%, assuming that the Oseltamivir arm was better than the placebo arm and that the detectable rate in the Oseltamivir arm was 42.5% compared to 57.5% in the placebo arm (a 15% reduction), and assuming 10% subjects with missing qPCR at Day 3, in a two-sided, two-sample 0.05-level t- test with 546 participants combined across both arms, there was 90% power.||-3.0|-21.4|0.0097
82483575|NCT01314911|164660555|SUPERIORITY|||||||0.0243||||||P-value was not adjusted for multiple interim analyses.|Wilcoxon (Mann-Whitney)|||||||0.0243
82483576|NCT01314911|164660556|SUPERIORITY|||||||0.41||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.41
82483577|NCT01314911|164660557|SUPERIORITY|||||||0.88||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.88
82555440|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|-0.51||||0.347|TWO_SIDED|90.0|-1.42|0.39|||Mixed Models Analysis||Positive values represent a positive effect of financial rewards compared to non-financial rewards.|This is the results of financial vs non-financial reward factor at week 24. It compares change in efficacy from baseline to week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.39|-1.42|0.347
82581855|NCT00618618|164875545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6||||0.007|TWO_SIDED|95.0|-1.0|-0.2|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||-0.2|-1.0|0.007
82483578|NCT01314911|164660558|SUPERIORITY|||||||0.7461||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.7461
82483579|NCT01314911|164660559|SUPERIORITY|||||||0.1501||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.1501
82581856|NCT00618618|164875547|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9||||0.573|TWO_SIDED|95.0|-8.6|4.8|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||4.8|-8.6|0.573
82483580|NCT01314911|164660560|SUPERIORITY|||||||0.3025||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.3025
82483581|NCT01314911|164660561|SUPERIORITY|||||||0.5466||||||P-value was not adjusted for multiple interim analyses.|Log Rank|||||||0.5466
82483582|NCT01314911|164660563|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5311|TWO_SIDED|95.0|-1.4|3.0||P-value was not adjusted for multiple interim analyses.|two-sample binomial exact test|The two-sample binomial exact test was performed in PROC STATXACT.|The difference in percents was calculated as the percent in the Oseltamivir arm minus the percent in the placebo arm.|||3.0|-1.4|0.5311
82483583|NCT01314911|164660564|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8498|TWO_SIDED|95.0|-3.8|4.7||P-value was not adjusted for multiple interim analyses.|Z test||The difference in percents was calculated as the percent in the Oseltamivir arm minus the percent in the placebo arm.|This test compared the difference in percentages of participants with at least one complication between two randomized arms.||4.7|-3.8|0.8498
82483584|NCT01314911|164660566|SUPERIORITY||Mean Difference (Final Values)|-13.6||||0.0021|TWO_SIDED|95.0|-22.2|-5.1||P-value was not adjusted for multiple interim analyses.|Z test||||The difference in percents was calculated as the percent with detectable in the Oseltamivir arm minus the percent with detectable in the placebo arm.|-5.1|-22.2|0.0021
82483585|NCT01314911|164660569|SUPERIORITY|||||||0.022||||||P-value was not adjusted for multiple interim analyses.|Wilcoxon (Mann-Whitney)|||||||0.022
82483586|NCT03150485|164660570|SUPERIORITY|Superiority was established is the lower limit of the 95% confidence interval was above 50%.|Estimated Proportion|77.27|||||TWO_SIDED|95.0|56.15|90.29|||Agresti-Coull|||The Agresti-Coull method was used to estimate the confidence interval of the binomial proportions of subjects with less than 2 lens modifications.||90.29|56.15|
82483587|NCT00403403|164660616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528||||0.0097||95.0|0.323|0.862|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||0.862|0.323|0.0097
82483588|NCT00403403|164660617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.6054|TWO_SIDED|95.0|0.66|2.039|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||2.039|0.660|0.6054
82483589|NCT00403403|164660618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.3269||95.0|-9.6|29.0|||Chi-squared|||||29.0|-9.6|0.3269
82483590|NCT00403403|164660620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.305||||0.0011|TWO_SIDED|95.0|0.144|0.644|||Log Rank||HR estimated from a stratified Cox regression model, stratified for ECOG performance (0-1 vs. 2) and chemotherapy type (cisplatin vs. carboplatin)|||0.644|0.144|0.0011
82555441|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|0.61||||0.293|TWO_SIDED|90.0|-0.35|1.57|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 12. It compares change in efficacy from baseline to week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.57|-0.35|0.293
82555442|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|0.31||||0.599|TWO_SIDED|90.0|-0.67|1.3|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 24. It compares efficacy at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.30|-0.67|0.599
82555443|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|1.49||||0.007|TWO_SIDED|90.0|0.58|2.4|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares efficacy at week 12 between subjects randomized to receive a request for PC to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.40|0.58|0.007
82555444|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|1.78||||0.002|TWO_SIDED|90.0|0.86|2.7|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for PC compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.70|0.86|0.002
82555445|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|1.02||||0.068|TWO_SIDED|90.0|0.1|1.94|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares efficacy at week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.94|0.10|0.068
82555446|NCT04518943|164818802|SUPERIORITY||Mean Difference (Net)|0.19||||0.74|TWO_SIDED|90.0|-0.76|1.14|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.14|-0.76|0.740
82555447|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|0.14||||0.481|TWO_SIDED|90.0|-0.19|0.47|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares intrinsic motivation in week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator..||0.47|-0.19|0.481
82555448|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|0.18||||0.388|TWO_SIDED|90.0|-0.16|0.52|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 24. It compares intrinsic motivation in week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.52|-0.16|0.388
82555449|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|-0.02||||0.926|TWO_SIDED|90.0|-0.38|0.34|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.34|-0.38|0.926
82555450|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|-0.17||||0.446|TWO_SIDED|90.0|-0.54|0.2|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 24. It compares intrinsic motivation at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.20|-0.54|0.446
82555451|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|0.08||||0.711|TWO_SIDED|90.0|-0.27|0.42|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.42|-0.27|0.711
82555452|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|-0.2||||0.345|TWO_SIDED|90.0|-0.55|0.15|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares efficacy at week 24 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.15|-0.55|0.345
82555453|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|0.02||||0.928|TWO_SIDED|90.0|-0.33|0.36|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares intrinsic motivation at week 12 between subjects randomized to receive a request for advice compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.36|-0.33|0.928
82555454|NCT04518943|164818803|SUPERIORITY||Mean Difference (Net)|-0.19||||0.372|TWO_SIDED|90.0|-0.55|0.16|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares intrinsic motivation at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and survey-based outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.16|-0.55|0.372
82555455|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|0.35||||0.767|TWO_SIDED|90.0|-1.6|2.3|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 12. It compares phq8 mental health scores in week 12 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.3|-1.60|0.767
82555456|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|0.78||||0.5|TWO_SIDED|90.0|-1.12|2.69|||Regression, Linear|||This is the results of financial vs non-financial reward factor at week 24. It compares phq8 mental health scores in week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.69|-1.12|0.500
82555457|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|0.59||||0.631|TWO_SIDED|90.0|-1.43|2.61|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 12. It compares phq8 mental health scores at week 12 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24, and interactions between factors and weeks.||2.61|-1.43|0.631
82555458|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|-0.62||||0.62|TWO_SIDED|90.0|-2.69|1.44|||Regression, Linear|||This is the results of lottery vs loss-framed reward factor at week 24. It compares phq8 mental health scores at week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24, and interactions between factors and weeks.||1.44|-2.69|0.620
82555459|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|0.17||||0.886|TWO_SIDED|90.0|-1.77|2.12|||Regression, Linear|||This is the results of pre-commitment (PC) vs no PC factor at week 12. It compares phq8 mental health scores at week 12 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||2.12|-1.77|0.886
82555460|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|-0.07||||0.95|TWO_SIDED|-2.03|-2.03|1.88|||Regression, Linear|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares phq8 mental health scores at week 24 between subjects randomized to receive a request for PC to compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||1.88|-2.03|0.950
82555461|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|-1.45||||0.248|TWO_SIDED|90.0|-3.51|0.61|||Regression, Linear|||This is the results of advice vs no-advice factor at week 12. It compares phq mental health scores at week 12 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.61|-3.51|0.248
82555462|NCT04518943|164818804|SUPERIORITY||Mean Difference (Net)|-1.23||||0.317|TWO_SIDED|90.0|-3.25|0.79|||Regression, Linear|||This is the results of advice vs no-advice factor at week 24. It compares phq mental health scores at week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, indicator for week 12 or 24 week, and interactions between factors and week indicator.||0.79|-3.25|0.317
82555463|NCT04518943|164818805|SUPERIORITY||Mean Difference (Net)|-35.0||||0.972|TWO_SIDED|90.0|-1685.0|1616.0|||Mixed Models Analysis|||This is the results of financial vs non-financial reward factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive financial rewards compared to those who received nonfinancial rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1616|-1685|0.972
82581857|NCT00618618|164875547|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.653|TWO_SIDED|95.0|-6.3|9.9|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||9.9|-6.3|0.653
82483591|NCT01966692|164660693|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|106.0||||0.4132|TWO_SIDED|90.0|99.0|114.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 2 (B-3.8 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||114|99|0.4132
82483592|NCT01966692|164660693|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|109.0||||0.1295|TWO_SIDED|90.0|102.0|116.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||116|102|0.1295
82483593|NCT01966692|164660693|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for AUC0-last fell completely within (80%, 125%).|ratio (%) of geometric means|114.0||||0.0078|TWO_SIDED|90.0|106.0|122.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm)\*; Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed AUC0-last: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||122|106|0.0078
82483594|NCT01966692|164660694|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|182.0|||<|0.001|TWO_SIDED|90.0|159.0|208.0||The threshold for statistical significane was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 2 (B-3.8 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||208|159|<0.001
82483595|NCT01966692|164660694|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|190.0|||<|0.001|TWO_SIDED|90.0|166.0|217.0||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm); Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||217|166|<0.001
82483596|NCT01966692|164660694|EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of geometric means for Cmax fell completely within (80%, 125%).|ratio (%) of geometric means|213.0|||<|0.001|TWO_SIDED|90.0|186.0|244.0||The threshold for statistical significance was p=0.05.|Mixed Models Analysis||Mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Test: Fluticasone Propionate Formulation 3 (C-3.7 µm)\*; Reference: Fluticasone Propionate Formulation 1 (A-4.5 µm); Natural log transformed Cmax: mixed models analysis with sequence, period, treatment as fixed effects and subject within sequence as a random effect.~All reported p-values are Bonferroni adjusted p-values."||244|186|<0.001
82483597|NCT05523323|164660702|OTHER||Estimate difference|29.5||||0.0002014|TWO_SIDED|95.0|14.0|43.9|||Unstratified Miettinen & Nurminen method|One-sided p-value was calculated using the unstratified Miettinen \& Nurminen method.|The exact binomial method by Clopper and Pearson was used to generate the estimate difference and the associated 95% confidence intervals (CIs).|||43.9|14.0|0.0002014
82483598|NCT05523323|164660703|OTHER||Hazard Ratio (HR)|0.34||||3.7e-06|TWO_SIDED|95.0|0.21|0.55|||unstratified Log-rank test.|One-sided p-value was calculated using unstratified Log-rank test.|The unstratified Cox-Regression model with Efron's method of tie handling with treatment as covariate was used to generate Hazard Ratio (HR) and the associated 95%CI.|||0.55|0.21|0.0000037
82555464|NCT04518943|164818805|SUPERIORITY||Mean Difference (Net)|-2428.0||||0.019|TWO_SIDED|90.0|-4134.0|-722.0|||Mixed Models Analysis||Positive values represent a positive effect of lottery-based rewards compared to loss-based rewards.|This is the results of lottery vs loss-framed reward factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive lottery-based rewards compared to those who received loss-based rewards. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||-722|-4134|0.019
82555465|NCT04518943|164818805|SUPERIORITY||Mean Difference (Net)|418.0||||0.627|TWO_SIDED|90.0|-999.0|1836.0|||Mixed Models Analysis|||This is the results of precommitment (PC) vs no PC factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive a request for PC compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1836|-999|0.627
82581858|NCT00618618|164875547|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.688|TWO_SIDED|95.0|-5.4|8.1|||ANCOVA|Based on an ANCOVA model with treatment as the main effect and baseline SMF Rating Scale score as a covariate.||||8.1|-5.4|0.688
82581859|NCT00955253|164875555|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||between the placebo and guanfacine conditions||||0.013
82483599|NCT05523323|164660704|OTHER||Hazard Ratio (HR)|0.86||||0.30933|TWO_SIDED|95.0|0.49|1.54|||Unstratified Log-rank test|One-sided p-value was calculated using unstratified Log-rank test.|The unstratified Cox-Regression model with Efron's method of tie handling with treatment as covariate was used to generate Hazard Ratio (HR) and the associated 95%CI.|||1.54|0.49|0.30933
82483600|NCT00920829|164660747|SUPERIORITY|||||||0.724|||||||Mixed Models Analysis|||A linear mixed model with unstructured variance/covariance matrices was used to evaluate the primary outcome measure.||||0.724
82483601|NCT00920829|164660747|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||This is a test of the main effect of medication, with a null hypothesis of no difference between Naltrexone and Placebo groups.||||0.023
82483602|NCT05654441|164660751|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82483603|NCT05654441|164660752|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82483604|NCT05654441|164660753|OTHER|||||||0.007|||||||ANOVA|||||||0.007
82483605|NCT05654441|164660754|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82483606|NCT05654441|164660755|OTHER|||||||0.886|||||||t-test, 2 sided|||||||0.886
82483607|NCT05654441|164660756|OTHER|||||||0.666|||||||t-test, 2 sided|||||||.666
82483608|NCT05654441|164660757|OTHER|||||||0.522|||||||t-test, 2 sided|||||||.522
82483609|NCT05654441|164660758|OTHER|||||||0.438|||||||t-test, 2 sided|||||||.438
82651443|NCT00634283|165017607|SUPERIORITY|||||||0.32||||||The a priori threshold was set at 0.05, 2-tailed, without adjustment for multiple comparisons.|t-test, 2 sided|||Change in PFC over the one-week placebo lead-in period was compared between antidepressant-experienced and antidepressant-naive groups using a between groups t-test.|"Group differences in PFC changes over time during administration of venlafaxine were assessed using mixed-model analysis.~we compared brain functional changes over the course of venlafaxine treatment between antidepressant-experienced and antidepressant-naïve subjects using linear mixed model analysis (random intercept model) conducted using full maximum likelihood estimation (MLE). Changes in PFC were calculated from the end of placebo lead-in to 48 hours, and 1, 2, and 4 weeks, yielding a within-group factor of time with four levels. We employed a first-order autoregressive covariance structure to reflect our assumption that PFC measurements closer together in time would be more highly correlated."|||0.32
82483610|NCT05654441|164660759|OTHER|||||||0.181|||||||t-test, 2 sided|||||||.181
82483611|NCT05654441|164660760|OTHER|||||||0.833|||||||t-test, 2 sided|||||||.833
82483612|NCT05654441|164660761|OTHER|||||||0.455|||||||t-test, 2 sided|||||||.455
82483613|NCT02284178|164660762|SUPERIORITY|||||||0.432|||||||GEE analysis|||||||0.432
82483614|NCT02284178|164660763|SUPERIORITY|||||||0.684|||||||GEE|||||||0.684
82483615|NCT02284178|164660764|SUPERIORITY|||||||0.858|||||||Chi-squared|||||||0.858
82483616|NCT02284178|164660766|SUPERIORITY|||||||0.46|||||||GEE analysis|||||||0.460
82483617|NCT02284178|164660767|SUPERIORITY|||||||0.214|||||||t-test, 2 sided|||||||0.214
82483618|NCT02284178|164660768|SUPERIORITY|||||||0.155|||||||t-test, 2 sided|||||||0.155
82483619|NCT02284178|164660769|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.050
82483620|NCT04123665|164660770|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.0001|TWO_SIDED|95.0|-0.11|-0.04|||ANCOVA|Analysis of Covariance (ANCOVA) with factors for treatment group and gender, and the baseline whole mouth mean BI and whole mouth MGI as covariates.|Difference is first named treatment (experimental) minus second named treatment (control).|||-0.04|-0.11|<0.0001
82483621|NCT00958789|164660820|NON_INFERIORITY|"For the primary efficacy hypothesis, H0, the total KSS change from preoperative to 2 years postoperative will be less than or equal to delta. The alternative hypothesis, Ha, will be that the total KSS change from preop to 2 years postoperative is greater than delta. When delta=63, the hypothesis will test for non-inferiority. When delta=70, the hypothesis will test for superiority.~H0: mean 2-year - mean preop less than or equal to delta. Ha: mean 2-year - mean preop greater than delta."|Mean Difference (Final Values)|70.7|||||ONE_SIDED|95.0|64.43||||||||||64.43|
82483622|NCT00478881|164660870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.045||||0.5293||95.0|-33.194|17.104||Bladder volume (mL) at first detrusor contraction tested first. If significant, the change in the average number of daily micturitions was to be tested using a P\<0.05.|ANCOVA||Placebo-Vardenafil|Countries were pooled into 2 clusters, which allowed for testing of Treatment by Center interaction. An ANCOVA including Baseline (Visit 2) as a covariate with main effects for treatment and country (see pooling above) was used to test treatment difference for the primary variable and co-primary variable.||17.104|-33.194|0.5293
82483623|NCT00478881|164660871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.668||||0.0575||95.0|-0.021|1.358||Bladder volume (mL) at first detrusor contraction tested first. If significant, the change in the average number of daily micturitions was to be tested using a P \<0.05.|ANCOVA||Placebo - Vardenafil|Countries were pooled into 2 clusters, which allowed for testing of Treatment by Center interaction. An ANCOVA including Baseline (Visit 2) as a covariate with main effects for treatment and country (see pooling above) was used to test treatment difference for the primary variable and co-primary variable.||1.358|-0.021|0.0575
82483624|NCT00478881|164660872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.657||||0.8533||95.0|-6.335|7.65||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||Placebo- Vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||7.650|-6.335|0.8533
82483625|NCT00478881|164660873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.59||||0.1539||95.0|-37.057|5.876||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||Placebo- Vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||5.876|-37.057|0.1539
82483626|NCT00478881|164660874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.374||||0.2348||95.0|-32.834|8.087||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||8.087|-32.834|0.2348
82483627|NCT00478881|164660875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.195||||0.3289||95.0|-24.692|8.303||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||8.303|-24.692|0.3289
82483628|NCT00478881|164660876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.721||||0.0609||95.0|-0.033|1.476||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||1.476|-0.033|0.0609
82483629|NCT00478881|164660877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118||||0.4928||95.0|-0.22|0.456||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||0.456|-0.220|0.4928
82483630|NCT00478881|164660878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.823||||0.3248||95.0|-2.476|0.829||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA||placebo - vardenafil|ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||0.829|-2.476|0.3248
82483631|NCT00478881|164660879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.095||||0.5312||95.0|-4.533|2.342||P-values were reported as nominal values and without any adjustments for multiplicity.|ANCOVA|||ANCOVA models used for the secondary efficacy variables were the models determined for the primary efficacy variable or co-primary efficacy variable depending on the type of variable.||2.342|-4.533|0.5312
82483632|NCT01083173|164660907|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||CD4 cell counts at 24 weeks as compared to baseline||||< 0.0001
82483633|NCT01083173|164660907|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||CD4 cell counts at 48 weeks as compared to baseline||||< 0.0001
82483634|NCT03139604|164660916|OTHER||Odds Ratio (OR)|1.45||||0.0782|TWO_SIDED|95.0|0.959|2.204||Not adjusted for multiplicity with interim and final analyses|Cochran-Mantel-Haenszel|||binomial distribution||2.204|0.959|0.0782
82483635|NCT02882074|164660936|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.158|TWO_SIDED|95.0|-0.11|0.64|||Regression, Linear|||||0.64|-0.11|0.158
82483636|NCT02882074|164660937|SUPERIORITY||Ratio of geometric means|0.86||||0.388|TWO_SIDED|97.5|0.57|1.28||The significance criterion is p-value \< 0.025 (i.e. 0.05/2), corrected for multiple comparisons.|Mixed Models Analysis||Syndecan values were all log-transformed to meet the linearity requirement. Thus the treatment effect was presented as the ratio of geometric means.|||1.28|0.57|0.388
82483637|NCT02882074|164660938|SUPERIORITY||Ratio of geometric means|1.19||||0.257|TWO_SIDED|97.5|0.84|1.68||The significance criterion is p-value \< 0.025 (i.e. 0.05/2), corrected for multiple comparisons.|Mixed Models Analysis||Endocan values were all log-transformed to meet the linearity requirement. Thus the treatment effect was presented as the ratio of geometric means.|||1.68|0.84|0.257
82555466|NCT04518943|164818805|SUPERIORITY||Mean Difference (Net)|195.0||||0.842|TWO_SIDED|90.0|-1417.0|1807.0|||Mixed Models Analysis|||This is the results of advice vs no advice factor at week 24. It compares change in steps from baseline to week 24 between subjects randomized to receive a request for advice to other subjects compared to those who received no request. A linear mixed-effect model was estimated with independent variables of demographics, steps and outcomes at baseline, indicators for each of the four factor assignments, linear week with a spline at week 12, and interactions between factors and weeks.||1807|-1417|0.842
82555467|NCT04757753|164818814|NON_INFERIORITY|"πN = 2-year successful treatment rate of PA1704 πR = 2-year successful treatment rate of BioRoot™ RCS Δ = πN - πR ΔL = non-inferiority margin fixed to 13% or 0.13~Hypotheses are :~H0 : Δ ≤ -ΔL H1 : Δ \> -ΔL The χ2 of Dunnett \& Gent is used to assess the non-inferiority"|Mean Difference (Final Values)|0.006||||0.03|TWO_SIDED|90.0|-0.0074|0.0087||A priori threshold for statistical significance was \< 0.05|Chi-squared, Corrected|||The statistical analysis was done on the proportion difference of the treatment efficacy, defined on loose criteria, at 24 months, in PP population.||0.0087|-0.0074|0.03
82555468|NCT04868656|164818820|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.15|TWO_SIDED|95.0|-5.0|0.8|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); adjusted length of stay (greater than or equal to 4.7 days versus less than 4.7 days); prior implementation of STRIDE (yes vs. no).||0.8|-5.0|0.15
82651444|NCT01743677|165017618|SUPERIORITY||Least Squares Mean Difference|-1.29|||||TWO_SIDED|90.0|-3.15|0.56||||||||0.56|-3.15|
82483638|NCT02882074|164660939|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.003|TWO_SIDED|95.0|0.23|1.01|||Regression, Linear|||||1.01|0.23|0.003
82483639|NCT04218123|164660995|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||<|0.001|||||||ANOVA|||||||<0.001
82483640|NCT04218123|164660995|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||<|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||<0.05
82483641|NCT04218123|164660995|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||<|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||<0.05
82483642|NCT04218123|164660995|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent|||||>|0.05|||||||ANOVA|Anova Post Hoc Analysis||||||>0.05
82483643|NCT04218123|164660997|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.31|||||||ANOVA|||SF20 Physical Functioning||||=0.31
82483644|NCT04218123|164660997|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.633|||||||ANOVA|||SF20 Role Functioning||||0.633
82483645|NCT04218123|164660997|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.424|||||||ANOVA|||SF20 Mental Health||||0.424
82483646|NCT04218123|164660997|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.057|||||||ANOVA|||SF20 Social Functioning||||0.057
82483647|NCT04218123|164660997|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.296|||||||ANOVA|||SF20 Health Perceptions||||0.296
82483648|NCT04218123|164660997|EQUIVALENCE|p value of \<0.05 required for result to be considered nonequivalent||||||0.872|||||||ANOVA|||SF20 Pain||||0.872
82483649|NCT04218123|164660998|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.538|||||||ANOVA|||||||=0.538
82483650|NCT04218123|164660999|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.686|||||||ANOVA|||||||=0.686
82483651|NCT04218123|164661000|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.167|||||||ANOVA|||||||=0.167
82651445|NCT01743677|165017619|SUPERIORITY||Least Squares Mean Difference|-1.42|||||TWO_SIDED|90.0|-3.28|0.43||||||||0.43|-3.28|
82483652|NCT04218123|164661001|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.8|||||||ANOVA|||||||=0.8
82483653|NCT04218123|164661002|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent|||||=|0.425|||||||ANOVA|||||||=0.425
82483654|NCT04218123|164661003|EQUIVALENCE|p value \<0.05 required to be considered nonequivalent.|||||=|0.054|||||||ANOVA|||||||=0.054
82483655|NCT03190369|164661022|SUPERIORITY||LS Mean difference|0.125|STANDARD_ERROR_OF_MEAN|0.137||0.361|TWO_SIDED|95.0|-0.144|0.395||Threshold for significance at 0.05 level.|ANCOVA|Least-square (LS) means, standard errors (SE) were analyzed from repeated measures ANCOVA.||Least-square (LS) means, standard errors (SE) were analyzed from repeated measures analysis of covariance (ANCOVA). The model included treatment groups (Hylan G-F 20 and placebo), site, visit and visit by treatment interaction, as well as the baseline WOMAC A1 score as a covariate).||0.395|-0.144|0.3610
82483656|NCT04543409|164661048|SUPERIORITY||Odds Ratio (OR)|117.49|||<|0.0001|TWO_SIDED|95.0|38.17|361.64|||Cochran-Mantel-Haenszel||The OR estimate and p-value was obtained from the CMH test controlling for region (North America and Rest of the world), baseline steroid use, and presence of strictures at baseline. Odds ratio values \>1 favor Benra 30 mg treatment group.|Analysis completed at Week 24.||361.64|38.17|<0.0001
82483657|NCT04543409|164661049|SUPERIORITY|For any patients with intercurrent events, the DSQ scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR). Analysis was repeated on 100 imputed datasets, and results were combined using Rubin's formula.|Difference in Least Squares Means|2.999||||0.177|TWO_SIDED|95.0|-1.36|7.35|||ANCOVA|Model: Change from baseline in DSQ = Treatment + baseline DSQ + Region + Baseline steroid use + Presence of strictures at baseline.||Analysis completed at Week 24.||7.35|-1.36|0.1770
82483658|NCT04543409|164661050|SUPERIORITY|For any patients with intercurrent events, the Peak Esophageal intraepithelial eosinophil (eos) counts after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-96.2|||<|0.0001|TWO_SIDED|95.0|-114.53|-77.85|||ANCOVA|Model: Percent change from baseline in Peak Esophageal intraepithelial eos counts = Treatment + baseline Peak Esophageal intraepithelial eos counts.||Analysis completed at Week 24.||-77.85|-114.53|<0.0001
82483659|NCT04543409|164661051|SUPERIORITY|For any patients with intercurrent events, the EoE-HSS total grade score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.175|||<|0.0001|TWO_SIDED|95.0|-0.21|-0.14|||ANCOVA|Change from baseline in EoE-HSS TGS = Treatment + baseline EoE-HSS grade score + Region + Baseline steroid use + Presence of strictures at baseline||||-0.14|-0.21|<0.0001
82483660|NCT04543409|164661052|SUPERIORITY|For any patients with intercurrent events, the EoE-HSS total stage score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.122|||<|0.0001|TWO_SIDED|95.0|-0.16|-0.09|||ANCOVA|Change from baseline in EoE-HSS TSS = Treatment + baseline EoE-HSS stage score + Region + Baseline steroid use + Presence of strictures at baseline||||-0.09|-0.16|<0.0001
82483661|NCT04543409|164661053|SUPERIORITY|For any patients with intercurrent events, the centrally-read EREFS total score after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.1||||0.7322|TWO_SIDED|95.0|-0.52|0.32|||ANCOVA|Model: Change from baseline in EREFS TS = Treatment + baseline EREFS TS + Region + Baseline steroid use + Presence of strictures at baseline||Analysis completed at Week 24.||0.32|-0.52|0.7322
82483662|NCT04543409|164661054|SUPERIORITY||Odds Ratio (OR)|15.86|||<|0.0001|TWO_SIDED|95.0|5.79|43.47|||Cochran-Mantel-Haenszel||Controlling for region (North America and Rest of the world), baseline steroid use, and presence of strictures at baseline. OR values \>1 would favor Benra 30 mg treatment group.|||43.47|5.79|<0.0001
82483663|NCT04543409|164661058|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.04||||0.8656|TWO_SIDED|95.0|-0.5|0.42|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Dysphagia-related pain.||0.42|-0.50|0.8656
82483664|NCT04543409|164661058|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.181||||0.3926|TWO_SIDED|95.0|-0.6|0.23|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Dysphagia-related discomfort.||0.23|-0.60|0.3926
82483665|NCT04543409|164661058|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.344||||0.0867|TWO_SIDED|95.0|-0.74|0.05|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Overall episode severity.||0.05|-0.74|0.0867
82651446|NCT01743677|165017620|SUPERIORITY||Least Squares Mean Difference|-2.29|||||TWO_SIDED|90.0|-4.15|-0.44||||||||-0.44|-4.15|
82483666|NCT04543409|164661060|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.267||||0.2248|TWO_SIDED|95.0|-0.16|0.7|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Abdominal pain severity||0.70|-0.16|0.2248
82581860|NCT04797650|164875557|SUPERIORITY||Risk Difference (RD)|0.31|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.25|0.37||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.37|0.25|<0.0001
82651447|NCT01743677|165017621|SUPERIORITY||Least Squares Mean Difference|-1.35|||||TWO_SIDED|90.0|-3.21|0.5||||||||0.50|-3.21|
82651448|NCT01743677|165017622|SUPERIORITY||Least Squares Mean Difference|1.08|||||TWO_SIDED|90.0|-0.78|2.93||||||||2.93|-0.78|
82651449|NCT01743677|165017623|SUPERIORITY||Least Squares Mean Difference|0.86|||||TWO_SIDED|90.0|-1.0|2.71||||||||2.71|-1.00|
82555469|NCT04868656|164818821|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.34|TWO_SIDED|95.0|-6.0|16.6|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); adjusted length of stay (greater than or equal to 4.7 days versus less than 4.7 days); prior implementation of STRIDE (yes vs. no).||16.6|-6.0|0.34
82555470|NCT04868656|164818822|SUPERIORITY||Odds Ratio (OR)|0.6||||0.23|TWO_SIDED|95.0|0.1|2.5|||Regression, Logistic|||Model includes the arm indicator variable only; model does not include stratification variables due to potential for overfitting.||2.5|0.1|0.23
82581861|NCT04797650|164875557|SUPERIORITY||Risk Difference (RD)|0.36|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.27|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.45|0.27|<0.0001
82581862|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.38|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.31|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.46|0.31|<0.0001
82581863|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.36|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.26|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.45|0.26|<0.0001
82651450|NCT01743677|165017624|SUPERIORITY||Least Squares Mean Difference|1.15|||||TWO_SIDED|90.0|-0.71|3.0||||||||3.00|-0.71|
82483667|NCT04543409|164661060|SUPERIORITY|For any patients with intercurrent events, the EoE-3D scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.296||||0.1575|TWO_SIDED|95.0|-0.11|0.71|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Nausea severity.||0.71|-0.11|0.1575
82483668|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.202||||0.8239|TWO_SIDED|95.0|-1.57|1.98|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Eating/Diet Impact||1.98|-1.57|0.8239
82483669|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.147||||0.7623|TWO_SIDED|95.0|-0.8|1.1|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Social Impact||1.10|-0.80|0.7623
82483670|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference of Least Squares Means|0.01||||0.9898|TWO_SIDED|95.0|-1.47|1.49|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Emotional Impact||1.49|-1.47|0.9898
82483671|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.386||||0.4603|TWO_SIDED|95.0|-0.64|1.41|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Disease Anxiety||1.41|-0.64|0.4603
82483672|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.162||||0.6613|TWO_SIDED|95.0|-0.89|0.56|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Swallowing Anxiety||0.56|-0.89|0.6613
82483673|NCT04543409|164661063|SUPERIORITY|For any patients with intercurrent events, the EoE-QoL-A scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|1.017||||0.6965|TWO_SIDED|95.0|-4.09|6.13|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Total Score||6.13|-4.09|0.6965
82555471|NCT03839446|164818862|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.777|TWO_SIDED|95.0|0.18|3.65|||Regression, Cox||Intermediate / Favorable vs Poor|Cytogenetic status||3.65|0.18|0.777
82581864|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.3|0.45||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.45|0.30|<0.0001
82555472|NCT03839446|164818862|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.2|TWO_SIDED|95.0|0.96|1.01|||Regression, Cox|||Percent of blasts present in the bone marrow.||1.01|0.96|0.200
82555473|NCT03839446|164818862|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.014|TWO_SIDED|95.0|0.94|0.99|||Regression, Cox|||% CD33 expression in leukemia blasts||0.99|0.94|0.014
82555474|NCT03839446|164818863|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.801|TWO_SIDED|95.0|0.17|3.86|||Regression, Cox||Intermediate / Favorable vs Poor|Cytogenetic status||3.86|0.17|0.801
82581865|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001|TWO_SIDED|95.0|0.31|0.5||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.50|0.31|<0.0001
82586131|NCT06609135|164884188|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 32 weeks between participants that were successful in discontinuation of non-invasive ventilation at 33 weeks postmenstrual age and those that were unsuccessful.||||0.44
82651451|NCT01743677|165017625|SUPERIORITY||Least Squares Mean Difference|2.15|||||TWO_SIDED|90.0|0.29|4.0||||||||4.00|0.29|
82483674|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.3||||0.6852|TWO_SIDED|95.0|-1.93|1.27|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Physical functioning (PF)||1.27|-1.93|0.6852
82483675|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.9||||0.2685|TWO_SIDED|95.0|-2.57|0.72|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Role limitations due to physical health (RP)||0.72|-2.57|0.2685
82483676|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.8||||0.538|TWO_SIDED|95.0|-3.27|1.71|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Bodily pain (BP)||1.71|-3.27|0.5380
82483677|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.0||||0.9734|TWO_SIDED|95.0|-1.81|1.75|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||General health perceptions (GH)||1.75|-1.81|0.9734
82483678|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|0.0||||0.9653|TWO_SIDED|95.0|-2.09|2.19|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Vitality (VT)||2.19|-2.09|0.9653
82483679|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-1.5||||0.2326|TWO_SIDED|95.0|-4.04|0.98|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Social functioning (SF)||0.98|-4.04|0.2326
82483680|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.7||||0.6274|TWO_SIDED|95.0|-3.44|2.08|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Role limitations due to emotional problems (RE)||2.08|-3.44|0.6274
82483681|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.9||||0.4599|TWO_SIDED|95.0|-3.14|1.42|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Mental health (MH)||1.42|-3.14|0.4599
82483682|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.4||||0.6456|TWO_SIDED|95.0|-2.07|1.28|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline||Psychometrically-based physical summary score (PCS)||1.28|-2.07|0.6456
82483683|NCT04543409|164661065|SUPERIORITY|For any patients with intercurrent events, the SF-36 domain scores after the occurrence of those events were imputed using return-to-baseline MI. Missing data not due to intercurrent events were imputed using MI (MAR).|Difference in Least Squares Means|-0.6||||0.6206|TWO_SIDED|95.0|-3.08|1.84|||ANCOVA|Model: Change from baseline item score = Treatment + baseline item score + Region + Baseline steroid use + Presence of strictures at baseline.||Mental health component summary scores (MCS)||1.84|-3.08|0.6206
82483684|NCT01289782|164661077|SUPERIORITY_OR_OTHER||Difference in proportions of SVR12|29.3|||<|0.001|TWO_SIDED|95.0|20.1|38.6|||Cochran-Mantel-Haenszel|||Null hypothesis: There is no difference in proportions of SVR12 between the treatment groups.||38.6|20.1|<0.001
82483685|NCT01289782|164661078|SUPERIORITY_OR_OTHER||Difference in proportions of SVRW72|28.9|||<|0.001|TWO_SIDED|95.0|19.6|38.2|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVRW72 between the treatment groups.||38.2|19.6|<0.001
82483686|NCT01289782|164661079|SUPERIORITY_OR_OTHER||Difference in proportions of SVR24|30.1|||<|0.001|TWO_SIDED|95.0|20.8|39.3|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR24 between the treatment groups.||39.3|20.8|<0.001
82555475|NCT03839446|164818863|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.168|TWO_SIDED|95.0|0.95|1.01|||Regression, Cox|||% bone marrow blasts||1.01|0.95|0.168
82555476|NCT03839446|164818863|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.015|TWO_SIDED|95.0|0.94|0.99|||Regression, Cox|||% CD33 expression in leukemia blasts||0.99|0.94|0.015
82483687|NCT01289782|164661080|SUPERIORITY_OR_OTHER||Difference in proportions of SVR4|25.8|||<|0.001|TWO_SIDED|95.0|16.8|34.8|||Cochran-Mantel-Haenszel|||There is no difference in proportions of SVR4 between the treatment groups.||34.8|16.8|<0.001
82483688|NCT01289782|164661107|SUPERIORITY_OR_OTHER||Mean differences|-20.679|STANDARD_ERROR_OF_MEAN|6.0979|<|0.001|TWO_SIDED|95.0|-32.6399|-8.7181|||Piecewise-Linear Model Approach|||Fatigue Severity Score AUC60||-8.7181|-32.6399|<0.001
82581866|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.39|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.32|0.46||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.46|0.32|<0.0001
82651452|NCT01743677|165017626|SUPERIORITY||Least Squares Mean Difference|1.35|||||TWO_SIDED|90.0|-0.5|3.21||||||||3.21|-0.50|
82483689|NCT01289782|164661107|SUPERIORITY_OR_OTHER||Mean differences|-23.8|STANDARD_ERROR_OF_MEAN|7.2358|<|0.001|TWO_SIDED|95.0|-37.9931|-9.6064|||Piecewise Linear Model|||Fatigue Severity Score AUC72||-9.6064|-37.9931|<0.001
82483690|NCT01289782|164661108|SUPERIORITY_OR_OTHER||Mean differences|-230.464|STANDARD_ERROR_OF_MEAN|105.9203||0.03|TWO_SIDED|95.0|-438.2662|-22.6626|||Piecewise Linear Model|||Impairment in Work Productivity AUC60||-22.6626|-438.2662|0.030
82483691|NCT01289782|164661108|SUPERIORITY_OR_OTHER||Mean differences|-248.208|STANDARD_ERROR_OF_MEAN|124.6753||0.047|TWO_SIDED|95.0|-492.8253|-3.5916|||Piecewise Linear Model|||Impairment in Work Productivity AUC72||-3.5916|-492.8253|0.047
82483692|NCT01289782|164661109|SUPERIORITY_OR_OTHER||Mean Differences|-278.06|STANDARD_ERROR_OF_MEAN|105.6088||0.009|TWO_SIDED|95.0|-485.2529|-70.8668|||Piecewise linear model|||Impairment in Daily Activities AUC60||-70.8668|-485.2529|0.009
82483693|NCT01289782|164661109|SUPERIORITY_OR_OTHER||Mean differences|-307.722|STANDARD_ERROR_OF_MEAN|124.1956||0.013|TWO_SIDED|95.0|-551.4006|-64.0429|||Piecewise Linear Model|||Impairment in Daily Activities AUC72||-64.0429|-551.4006|0.013
82483694|NCT01289782|164661110|SUPERIORITY_OR_OTHER||Mean differences|46.399|STANDARD_ERROR_OF_MEAN|99.7966||0.642|TWO_SIDED|95.0|-149.6374|242.436|||Piecewise linear model|||Time Missed from Work AUC60||242.4360|-149.6374|0.642
82483695|NCT01289782|164661110|SUPERIORITY_OR_OTHER||Mean differences|57.164|STANDARD_ERROR_OF_MEAN|115.1548||0.62|TWO_SIDED|95.0|-169.1143|283.4414|||Piecewise Linear Model|||Time Missed from Work AUC72||283.4414|-169.1143|0.620
82483696|NCT02131532|164661111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.25|STANDARD_ERROR_OF_MEAN|3.321||0.03|TWO_SIDED|95.0|1.398|17.102|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in fatigue scores between baseline and three-month assessments||17.102|1.398|0.03
82483697|NCT02131532|164661112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.625|STANDARD_ERROR_OF_MEAN|1.401||0.1|TWO_SIDED|95.0|-0.687|5.937|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in depression scores between baseline and three-month assessments||5.937|-0.687|0.10
82483698|NCT02131532|164661113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.313||0.45|TWO_SIDED|95.0|-0.991|0.491|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in independence scores between baseline and three-month assessments||0.491|-0.991|0.45
82483699|NCT02131532|164661114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.875|STANDARD_ERROR_OF_MEAN|5.03||0.03|TWO_SIDED|95.0|-25.769|-1.981|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in scores of general rating of recovery between baseline and three-month assessments||-1.981|-25.769|0.03
82483700|NCT02131532|164661115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.781|STANDARD_ERROR_OF_MEAN|5.594||0.89|TWO_SIDED|95.0|-14.01|12.448|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in physical strength scores between baseline and three-month assessments||12.448|-14.010|0.89
82483701|NCT02131532|164661116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.105|STANDARD_ERROR_OF_MEAN|2.378||0.009|TWO_SIDED|95.0|-7.729|3.519|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in memory and thinking scores between baseline and three-month assessments||3.519|-7.729|0.009
82555477|NCT04079517|164818928|NON_INFERIORITY|Comparing mean difference in symptom score (95% confidence intervals). Post hoc analysis. Not powered, but to give an indication of differences between standard dose (20mg) and the non-approved dose (10mg).|Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|||||||Post hoc analysis. Not powered, but to give an indication on differences in symptom score between standard dose (20mg) and the non-approved dose (10mg).||Post hoc analysis. Not powered, but to give an indication on differences between standard dose (20mg) and the non-approved dose (10mg).|||
82483702|NCT02131532|164661117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.403|STANDARD_ERROR_OF_MEAN|5.168||0.009|TWO_SIDED|95.0|-30.624|-6.183|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in emotion scores between baseline and three-month assessments||-6.183|-30.624|0.009
82651453|NCT01743677|165017627|SUPERIORITY||Least Squares Mean Difference|11.29|||||TWO_SIDED|90.0|9.62|12.96||||||||12.96|9.62|
82483703|NCT02131532|164661118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.142|STANDARD_ERROR_OF_MEAN|3.696||0.1|TWO_SIDED|95.0|-15.883|1.598|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in communication scores between baseline and three-month assessments||1.598|-15.883|0.10
82483704|NCT02131532|164661119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|STANDARD_ERROR_OF_MEAN|1.25||0.09|TWO_SIDED|95.0|-5.455|0.455|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in daily activities scores between baseline and three-month assessments||0.455|-5.455|0.09
82483705|NCT02131532|164661120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.821|STANDARD_ERROR_OF_MEAN|1.382||0.03|TWO_SIDED|95.0|-7.091|-0.551|||t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in mobility scores between baseline and three-month assessments||-0.551|-7.091|0.03
82483706|NCT02131532|164661121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.875|STANDARD_ERROR_OF_MEAN|3.264||0.58|TWO_SIDED|95.0|-9.594|5.844||The critical level was adjusted for the multiple comparisons for the eight subscales of the Stroke Impact Scale|t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in hand function scores between baseline and three-month assessments||5.844|-9.594|0.58
82483707|NCT02131532|164661122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.576|STANDARD_ERROR_OF_MEAN|3.691||0.006|TWO_SIDED|95.0|-23.304|-5.847||The critical level was adjusted for the multiple comparisons for the eight subscales of the Stroke Impact Scale|t-test, 2 sided|Paired t-test|P values below 0.05 are considered statistically significant in this study.|Null hypothesis: there was no difference in social activity scores between baseline and three-month assessments||-5.847|-23.304|0.006
82483708|NCT00450112|164661226|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Fisher Exact|||||||>0.1
82483709|NCT00450112|164661227|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
82555478|NCT04940624|164818929|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-15.64|||=|0.061|TWO_SIDED|95.0|-31.3|0.24||The p-value was calculated by Rank Analysis of Covariance (ANCOVA) model using treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% confidence interval (CI) were based on the Hodges-Lehmann estimation.|||0.24|-31.30|=0.061
82483710|NCT00450112|164661227|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483711|NCT00450112|164661228|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
82483712|NCT00450112|164661228|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483713|NCT00450112|164661229|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
82483714|NCT00450112|164661229|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483715|NCT00450112|164661230|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed..||||<0.0001
82555479|NCT04940624|164818930|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-14.29|||=|0.089|TWO_SIDED|95.0|-30.51|1.53||The p-value was calculated by the Rank ANCOVA model using treatment group, age stratum (≤6 years, \>6 years), and rank of baseline seizure frequency per 28 days as predictors.|ANCOVA||The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||1.53|-30.51|=0.089
82483716|NCT00450112|164661230|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483717|NCT00450112|164661232|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
82483718|NCT00450112|164661232|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483719|NCT00450112|164661233|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 2Gel-200 group; no between-group test was performed.||||<0.0001
82483720|NCT00450112|164661233|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||One-sample 2 sided t-test of change from baseline within 1PBS1Gel-200 group; no between-group test was performed.||||<0.0001
82483721|NCT00076024|164661295|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.237||||0.156|TWO_SIDED|95.0|0.819|1.867|||Log Rank|One-sided log-rank test at alpha = 0.1 significance level was used.||P-value was calculated using one-sided Log rank test, stratified for estrogen receptor (ER) status (ER-positive or ER-negative/unknown), prior adjuvant chemotherapy (yes or no), and Eastern Cooperative Oncology Group (ECOG) performance status (less than or equal to \[=\<1\] or 2). The stratified Cox proportional hazards model was fitted, using the same stratification variables as above.||1.867|0.819|0.156
82483722|NCT00076024|164661296|SUPERIORITY_OR_OTHER||Difference in response rates|17.4||||0.038|TWO_SIDED|95.0|3.0|31.9|||Fisher Exact|||||31.9|3.0|0.038
82483723|NCT02417844|164661301|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.66|STANDARD_DEVIATION|19.15|||TWO_SIDED|90.0|92.19|107.74|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||107.74|92.19|
82483724|NCT02417844|164661302|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.58|STANDARD_DEVIATION|13.51|||TWO_SIDED|90.0|94.23|105.24|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||105.24|94.23|
82483725|NCT02417844|164661303|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Geometric mean ratio (%)|99.48|STANDARD_DEVIATION|14.12|||TWO_SIDED|90.0|93.9|105.39|||||"The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation.~Ratio calculated as test divided by reference."|||105.39|93.90|
82483726|NCT00902161|164661307|SUPERIORITY_OR_OTHER||Least Squared Mean Treatment Difference|32.0||||0.005|TWO_SIDED|95.0|15.0|49.0||There was only 1 primary hypothesis, so no multiplicity adjustment was required.|A linear mixed effect (LME) model|||The p-value is for testing the null hypothesis that the difference on Rt(65) between the \[MK-0893 1g + Propranolol\] vs. \[PBO + Propranolol\] \>=60 min. If p-value \< 0.05, then the null hypothesis is rejected at the significance level of 0.05, thus supporting the primary hypothesis that the treatment difference is less than 60 minutes.||49|15|0.005
82483727|NCT03052764|164661324|SUPERIORITY||Least Squares Mean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.561|<|0.0001|TWO_SIDED|95.0|-3.68|-1.46|||ANCOVA|||||-1.46|-3.68|<.0001
82555480|NCT04940624|164818931|SUPERIORITY||Odds Ratio (OR)|3.22|||=|0.01|TWO_SIDED|95.0|1.3|7.96|||Cochran-Mantel-Haenszel|The p-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by age stratum (≤6 years, \>6 years).||||7.96|1.30|=0.010
82483728|NCT03052764|164661325|SUPERIORITY||Odds Ratio (OR)|6.15|||||TWO_SIDED|95.0|0.75|50.37|||||Values obtained were from a Cochran Mantel-Haenszel test adjusting for the number of UUI episodes reported at Baseline (\<= 9 versus \> 9 daily episodes)at each scheduled visit.|||50.37|0.75|
82483729|NCT03052764|164661326|SUPERIORITY||Least Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|0.534|<|0.0001|TWO_SIDED|95.0|-3.3|-1.18|||ANCOVA|||||-1.18|-3.30|<.0001
82555481|NCT04940624|164818932|SUPERIORITY||Odds Ratio (OR)|3.59|||=|0.008|TWO_SIDED|95.0|1.36|9.49|||Cochran-Mantel-Haenszel|The p-value was based on CMH test stratified by age stratum (≤6 years, \>6 years).||||9.49|1.36|=0.008
82555482|NCT04940624|164818934|SUPERIORITY||Odds Ratio (OR)|2.51|||=|0.004|TWO_SIDED|95.0|1.33|4.72|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||4.72|1.33|=0.004
82555483|NCT04940624|164818935|SUPERIORITY||Odds Ratio (OR)|2.58|||=|0.003|TWO_SIDED|95.0|1.37|4.87|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||4.87|1.37|=0.003
82555484|NCT04940624|164818936|SUPERIORITY||Odds Ratio (OR)|1.12|||=|0.741|TWO_SIDED|95.0|0.56|2.26|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Alertness||2.26|0.56|=0.741
82555485|NCT04940624|164818936|SUPERIORITY||Odds Ratio (OR)|1.04|||=|0.901|TWO_SIDED|95.0|0.54|2.02|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Communication||2.02|0.54|=0.901
82555486|NCT04940624|164818936|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.693|TWO_SIDED|95.0|0.58|2.28|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||Disruptive Behaviors||2.28|0.58|=0.693
82483730|NCT03052764|164661327|SUPERIORITY||Least Squares Mean Difference|-2.56|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-3.73|-1.39|||ANCOVA|||||-1.39|-3.73|<.0001
82581867|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.5|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|0.41|0.59||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.59|0.41|<0.0001
82483731|NCT03052764|164661328|SUPERIORITY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.192||0.0004|TWO_SIDED|95.0|-1.09|-0.32|||ANCOVA|||||-0.32|-1.09|0.0004
82483732|NCT03052764|164661329|SUPERIORITY||Odds Ratio (OR)|13.03|||||TWO_SIDED|95.0|3.23|52.57|||||Values were obtained from a Cochran Mantel-Haenszel test adjusting for the number of UUI episodes reported at Baseline (\<= 9 versus \> 9 daily episodes) at each scheduled visit.|||52.57|3.23|
82483733|NCT03332771|164661336|NON_INFERIORITY|The non-inferiority hypothesis was declared significant if the upper bound of the 2-sided 95% confidence interval (CI) for the adjusted mean difference is \<0.3.|Difference in Least Squares (LS) Mean|0.12|STANDARD_ERROR_OF_MEAN|0.122||0.3306|TWO_SIDED|95.0|-0.12|0.357|||ANCOVA|||The change from baseline to Week 52 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.357|-0.120|0.3306
82483734|NCT03332771|164661336|NON_INFERIORITY|The non-inferiority hypothesis was declared significant if the upper bound of the 2-sided 95% CI for the adjusted mean difference is \<0.3.|Difference in LS Mean|-0.04|STANDARD_ERROR_OF_MEAN|0.114||0.7112|TWO_SIDED|95.0|-0.265|0.181|||ANCOVA|||The change from baseline to Week 52 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.181|-0.265|0.7112
82483735|NCT03332771|164661337|SUPERIORITY||Difference in LS Mean|-0.21|STANDARD_ERROR_OF_MEAN|0.119||0.0827|TWO_SIDED|95.0|-0.44|0.027|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||0.027|-0.440|0.0827
82581868|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.45|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.38|0.52||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.52|0.38|<0.0001
82483736|NCT03332771|164661337|SUPERIORITY||Difference in LS Mean|-0.37|STANDARD_ERROR_OF_MEAN|0.103||0.0003|TWO_SIDED|95.0|-0.571|-0.167|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.167|-0.571|0.0003
82483737|NCT03332771|164661338|SUPERIORITY||Difference in LS Mean|-1.49|STANDARD_ERROR_OF_MEAN|0.349|<|0.0001|TWO_SIDED|95.0|-2.173|-0.803|||ANCOVA|||The change from baseline to Week 26 is analyzed using ANCOVA model with treatment groups (placebo, sotagliflozin 200 mg, sotagliflozin 400 mg, glimepiride), randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, randomization strata of SBP (\<130,≥ 130 mmHg) at screening, and country as fixed effects, and baseline body weight as a covariate.||-0.803|-2.173|<0.0001
82483738|NCT03332771|164661338|SUPERIORITY||Difference in LS Mean|-3.58|STANDARD_ERROR_OF_MEAN|0.544|<|0.0001|TWO_SIDED|95.0|-4.651|-2.517|||ANCOVA|||The change from baseline to Week 52 is analyzed using analysis of ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, randomization strata of SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects and baseline body weight as a covariate.||-2.517|-4.651|< 0.0001
82483739|NCT03332771|164661339|SUPERIORITY||Difference in LS Mean|-4.18|STANDARD_ERROR_OF_MEAN|1.288||0.0012|TWO_SIDED|95.0|-6.701|-1.65|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.650|-6.701|0.0012
82555487|NCT04940624|164818937|SUPERIORITY||Least Square Mean Difference|-3.03|||=|0.189|TWO_SIDED|95.0|-7.59|1.52||P-value was based on MMRM analysis with change from baseline as outcome and baseline score as fixed continuous effect; treatment group, age stratum, analysis visit, and analysis visit by treatment group interaction as fixed categorical effects.|MMRM|||||1.52|-7.59|=0.189
82555488|NCT04940624|164818938|SUPERIORITY||Odds Ratio (OR)|3.65|||<|0.001|TWO_SIDED|95.0|1.87|7.13|||Cumulative Logit Model|P-value was calculated using the Cumulative Logit model including treatment and age group as factors.||||7.13|1.87|<0.001
82555489|NCT04940624|164818939|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-9.97|||=|0.565|TWO_SIDED|95.0|-29.01|7.87|||ANCOVA|The Rank ANCOVA model used treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||7.87|-29.01|=0.565
82581869|NCT04797650|164875558|SUPERIORITY||Risk Difference (RD)|0.49|STANDARD_ERROR_OF_MEAN|0.047|<|0.0001|TWO_SIDED|95.0|0.4|0.58||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.58|0.40|<0.0001
82651454|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|0.16|||||TWO_SIDED|90.0|-2.11|2.44||||||0.25 hour post-dose||2.44|-2.11|
82483740|NCT03332771|164661339|SUPERIORITY||Difference in LS Mean|-2.7|STANDARD_ERROR_OF_MEAN|0.0973||0.0973|TWO_SIDED|95.0|-5.89|0.491|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||0.491|-5.890|0.0973
82555490|NCT04940624|164818940|SUPERIORITY||Hodges-Lehmann Location Shift Estimate|-8.13|||=|0.637|TWO_SIDED|94.0|-26.31|10.13|||ANCOVA|The Rank ANCOVA model used treatment group, age stratum (≤6 years, \>6 years), and rank of Baseline seizure frequency per 28 days as predictors.|The location shift between soticlestat and placebo (soticlestat - placebo) and its asymptotic 95% CI were based on the Hodges-Lehmann estimation.|||10.13|-26.31|=0.637
82555491|NCT04940624|164818941|SUPERIORITY||Least Square Mean Difference|0.79|||||TWO_SIDED|95.0|-3.81|5.4|||||A linear model with treatment group and age stratum as factors and baseline percentage as a covariate was used for analysis.|||5.40|-3.81|
82555492|NCT04940624|164818942|SUPERIORITY||Least Square Mean Difference|5.6|||||TWO_SIDED|95.0|0.1|11.2||||||||11.2|0.1|
82555493|NCT04940624|164818943|SUPERIORITY||Least Square Mean Difference|-1.1|||||TWO_SIDED|95.0|-3.1|1.0|||||Least square mean difference was estimated using a linear model with treatment group and age stratum as factors.|||1.0|-3.1|
82651455|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|1.78|||||TWO_SIDED|90.0|-0.49|4.06||||||0.5 hour post-dose||4.06|-0.49|
82483741|NCT03332771|164661340|SUPERIORITY||Difference in LS Mean|-4.02|STANDARD_ERROR_OF_MEAN|0.87|<|0.0001|TWO_SIDED|95.0|-5.73|-2.319|||ANCOVA|||The change from baseline to Week 12 is analyzed using ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.5, \>8.5%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-2.319|-5.730|<0.0001
82483742|NCT03332771|164661341|SUPERIORITY||Percentage difference|-15.4|||<|0.0001|TWO_SIDED|95.0|-19.67|-11.12|||Cochran-Mantel-Haenszel|||Weighted average of percentage difference between treatment groups from each stratum \[randomization strata of HbA1c \[≤8.5%, \>8.5%\] at screening, randomization strata of mean SBP \[\<130, ≥130 mmHg\] at screening using Cochran-Mantel-Haenszel weights.||-11.12|-19.67|<0.0001
82483743|NCT00737464|164661366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|||||TWO_SIDED|||||||||||||
82483744|NCT00509392|164661384|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82483745|NCT00509392|164661385|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82483746|NCT00509392|164661386|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82483747|NCT00509392|164661387|SUPERIORITY_OR_OTHER|||||||0.2962||95.0|||||t-test, 2 sided|||||||0.2962
82483748|NCT00509392|164661388|SUPERIORITY_OR_OTHER|||||||0.0048||95.0|||||t-test, 2 sided|||||||0.0048
82483749|NCT00509392|164661389|SUPERIORITY_OR_OTHER|||||||0.0036||95.0|||||t-test, 2 sided|||||||0.0036
82555494|NCT02231749|164818984|SUPERIORITY||Stratified Difference|16.0|||<|0.0001|TWO_SIDED|95.0|9.8|22.2|||DerSimonian and Laird Test|||||22.2|9.8|<0.0001
82555495|NCT02231749|164818985|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|99.8|0.44|0.89|||Log Rank|||||0.89|0.44|<0.0001
82483750|NCT00509392|164661390|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||t-test, 2 sided|||||||0.0005
82483751|NCT00509392|164661391|SUPERIORITY_OR_OTHER|||||||0.5761||95.0|||||t-test, 2 sided|||||||0.5761
82483752|NCT00509392|164661392|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82483753|NCT00509392|164661393|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82483754|NCT00509392|164661394|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82483755|NCT00509392|164661395|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Fisher Exact|||||||0.0050
82483756|NCT00509392|164661397|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||t-test, 2 sided|||||||0.0009
82483757|NCT00509392|164661398|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||t-test, 2 sided|||||||0.0002
82483758|NCT00509392|164661399|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||t-test, 2 sided|||||||0.0035
82483759|NCT00509392|164661400|SUPERIORITY_OR_OTHER|||||||0.2825||95.0|||||t-test, 2 sided|||||||0.2825
82483760|NCT00509392|164661401|SUPERIORITY_OR_OTHER|||||||0.0854||95.0|||||t-test, 2 sided|||||||0.0854
82483761|NCT00509392|164661402|SUPERIORITY_OR_OTHER|||||||0.0044||95.0|||||t-test, 2 sided|||||||0.0044
82483762|NCT00509392|164661403|SUPERIORITY_OR_OTHER|||||||0.0457||95.0|||||t-test, 2 sided|||||||0.0457
82483763|NCT00509392|164661404|SUPERIORITY_OR_OTHER|||||||0.9463||95.0|||||t-test, 2 sided|||||||0.9463
82555496|NCT02231749|164818986|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0331|TWO_SIDED|99.1|0.64|1.05|||Log Rank|||||1.05|0.64|0.0331
82555497|NCT02231749|164818987|SUPERIORITY||Stratified Difference|7.2||||0.0191|TWO_SIDED|95.0|1.8|12.7|||DerSimonian and Laird Test|||||12.7|1.8|0.0191
82555498|NCT02231749|164818988|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0003|TWO_SIDED|99.8|0.49|0.95|||Log Rank|||||0.95|0.49|0.0003
82555499|NCT02231749|164818989|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8498|TWO_SIDED|99.1|0.79|1.23|||Log Rank|||||1.23|0.79|0.8498
82555500|NCT00357682|164819032|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.24||||0.068|TWO_SIDED|95.0|0.98|1.57|||Accelerated Failure Time|||Accelerated Failure Time (AFT) analysis comparing time to primary event in low dose PPI (20mg) patients to high dose PPI (80mg) patients. Included in AFT model are stratification factors (Barrett's length, age group and presence of baseline intestinal metaplasia) and aspirin randomisation group.||1.57|0.98|0.068
82555501|NCT00357682|164819032|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.27||||0.037|TWO_SIDED|95.0|1.01|1.58|||Accelerated Failure Time|||Accelerated Failure Time (AFT) analysis comparing time to primary event in aspirin patients to non-aspirin patients. Included in AFT model are stratification factors (Barrett's length, age group and presence of baseline intestinal metaplasia) and PPI randomisation group.||1.58|1.01|0.037
82555502|NCT00357682|164819033|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.36||||0.039|TWO_SIDED|95.0|1.01|1.82|||Accelerated Failure Time|||All recordings of death, regardless of the cause are used in this analysis and both PPI groups are compared.||1.82|1.01|0.039
82651456|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|2.99|||||TWO_SIDED|90.0|0.71|5.26||||||1 hour post-dose||5.26|0.71|
82651457|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|1.08|||||TWO_SIDED|90.0|-1.19|3.36||||||2 hours post-dose||3.36|-1.19|
82651458|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|2.16|||||TWO_SIDED|90.0|-0.11|4.44||||||4 hours post-dose||4.44|-0.11|
82483764|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-2.5|2.6||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.6|-2.5|
82483765|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-9.6|||||TWO_SIDED|95.0|-16.0|-3.3||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-3.3|-16.0|
82483766|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|2.2|||||TWO_SIDED|95.0|-0.4|5.2||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||5.2|-0.4|
82483767|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|1.5|||||TWO_SIDED|95.0|-0.9|4.1||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.1|-0.9|
82483768|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.4|||||TWO_SIDED|95.0|-4.2|1.2||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-4.2|
82483769|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.3|||||TWO_SIDED|95.0|-3.8|3.3||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.3|-3.8|
82483770|NCT00366340|164661422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8|||||TWO_SIDED|95.0|-6.0|4.5||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.5|-6.0|
82483771|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.84||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||0.84|0.63|
82483772|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.65|||||TWO_SIDED|95.0|0.52|0.82||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||0.82|0.52|
82483773|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.84|||||TWO_SIDED|95.0|0.74|0.96||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.74|
82483774|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.9|||||TWO_SIDED|95.0|0.76|1.07||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.76|
82483775|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|2.25|||||TWO_SIDED|95.0|2.04|2.49||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||2.49|2.04|
82483776|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.6|||||TWO_SIDED|95.0|0.51|0.71||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||0.71|0.51|
82483777|NCT00366340|164661423|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Ratio|0.88|||||TWO_SIDED|95.0|0.73|1.06||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||1.06|0.73|
82483778|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|2.6|||||TWO_SIDED|95.0|-3.0|8.3||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||8.3|-3.0|
82483779|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|4.5|||||TWO_SIDED|95.0|-4.1|13.0||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||13.0|-4.1|
82483780|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.5||||||For diphtheria toxoid the difference in percentages between the two groups(13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.5|-1.4|
82483781|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-4.5||||||95.0|-9.3|0.3||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||0.3|-9.3|
82483782|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Haemophilus Influenzae Type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 µg/mL threshold was calculated||1.5|-1.5|
82483783|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.3||||||95.0|-5.0|2.3||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 10.0 mIU/mL threshold was calculated||2.3|-5.0|
82651459|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|0.05|||||TWO_SIDED|90.0|-2.22|2.33||||||8 hours post-dose||2.33|-2.22|
82483784|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.7|||||TWO_SIDED|95.0|-0.4|4.4||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 µg/mL threshold was calculated||4.4|-0.4|
82483785|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.4|-1.4|
82483786|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For diphtheria toxoid the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||1.4|-1.4|
82483787|NCT00366340|164661426|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.8||||||95.0|-1.3|3.3||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥ 10.0 mIU/mL threshold was calculated||3.3|-1.3|
82483788|NCT00366340|164661427|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.23|||||TWO_SIDED|95.0|0.96|1.58||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.58|0.96|
82483789|NCT00366340|164661427|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.15|||||TWO_SIDED|95.0|0.95|1.39||||||For Haemophilus influenzae type b µg/mL the GMC ratio (13vPnC/7vPnC) was calculated||1.39|0.95|
82483790|NCT00366340|164661428|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.68|||||TWO_SIDED|95.0|0.57|0.8||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.80|0.57|
82483791|NCT00366340|164661428|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87|||||TWO_SIDED|95.0|0.75|1.01||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.01|0.75|
82483792|NCT00366340|164661429|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88|||||TWO_SIDED|95.0|0.69|1.11||||||For hepatitis B the GMC ratio (13vPnC/7vPnC) was calculated.||1.11|0.69|
82483793|NCT00366340|164661429|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for the concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.93|||||TWO_SIDED|95.0|0.71|1.22||||||For hepatitis B the GMC ratio (13vPnC/7vPnC) was calculated||1.22|0.71|
82483794|NCT01754909|164661443|SUPERIORITY|Occurrence rates, comparison by t test||||||0.05|||||||t-test, 2 sided|||||||0.05
82483795|NCT03595774|164661455|SUPERIORITY|||||||0.0833||||||a priori threshold for statistical significance of P\<0.05|ANOVA|One-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.0833
82483796|NCT03595774|164661456|SUPERIORITY|||||||0.0131||||||a priori threshold for statistical significance of P\<0.05|ANOVA|One-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.0131
82651460|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|0.49|||||TWO_SIDED|90.0|-1.79|2.76||||||12 hours post-dose||2.76|-1.79|
82483797|NCT03595774|164661457|SUPERIORITY|||||||0.012728||||||a prior threshold for significant of P\<0.05|ANOVA|Two-way ANOVA for repeated measured followed by Holm-Šídák's multiple comparisons test||||||0.012728
82651461|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|2.1|||||TWO_SIDED|90.0|-0.17|4.38||||||16 hours post-dose||4.38|-0.17|
82483798|NCT03595774|164661458|SUPERIORITY|||||||2e-08||||||a priori threshold for statistical significance of P\<0.05|ANOVA|Two-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.00000002
82483799|NCT03595774|164661459|SUPERIORITY|||||||0.017215||||||a priori threshold for statistical significance of P\<0.05|ANOVA|Two-way ANOVA for repeated measures followed by Holm-Šídák's multiple comparisons test||||||0.017215
82483800|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs. Timolol|Mean Difference (Final Values)|-0.79|||||TWO_SIDED|95.0|-1.45|-0.13||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 8AM Difference between Implant Group 2 and timolol||-0.13|-1.45|
82483801|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.24|||||TWO_SIDED|95.0|-1.92|-0.56||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 10AM Difference between Implant Group 2 and timolol||-0.56|-1.92|
82555503|NCT00357682|164819033|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.25||||0.159|TWO_SIDED|95.0|0.92|1.7|||Accelerated Failure Time|||There are 163 deaths in the aspirin comparison with all-cause mortality as the endpoint. Median follow-up is 8.9 years IQR: (8.2 , 10.0) Range: (0 , 11.5)||1.70|0.92|0.159
82651462|NCT01743677|165017628|SUPERIORITY||Least Squares Mean Difference|0.79|||||TWO_SIDED|90.0|-1.49|3.06||||||24 hours post-dose||3.06|-1.49|
82483802|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.18|||||TWO_SIDED|95.0|-0.86|0.51||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 8AM Difference between Implant Group 2 and timolol||0.51|-0.86|
82483803|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-1.43|-0.11||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 10AM Difference between Implant Group 2 and timolol||-0.11|-1.43|
82483804|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.63|0.82||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 8AM Difference between Implant Group 2 and timolol||0.82|-0.63|
82483805|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.16|||||TWO_SIDED|95.0|-0.89|0.57||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 10AM Difference between Implant Group 2 and timolol||0.57|-0.89|
82483806|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-0.72|||||TWO_SIDED|95.0|-1.38|-0.06||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 8AM Difference between Implant Group 1 vs. Timolol||-0.06|-1.38|
82483807|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-1.83|-0.48||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Day 10, 10AM Difference between Implant Group 1 vs. Timolol||-0.48|-1.83|
82483808|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.93|0.43||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 8AM Difference between Implant Group 1 and timolol||0.43|-0.93|
82483809|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-0.74|||||TWO_SIDED|95.0|-1.4|-0.08||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Week 6, 10AM Difference between Implant Group 1 and timolol||-0.08|-1.40|
82483810|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.62|0.83||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 8AM Difference between Implant Group 1 and timolol||0.83|-0.62|
82483811|NCT03519386|164661460|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.77|0.69||"Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group~1 to timolol"||||Month 3, 10AM Difference between Implant Group 1 and timolol||0.69|-0.77|
82483812|NCT03101267|164661463|SUPERIORITY||Adjusted mean difference|0.09||||0.777|TWO_SIDED|95.0|-0.52|0.69|||Mixed model for repeated measures (MMRM)|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||3TNSS treatment comparison||0.69|-0.52|0.777
82483813|NCT03101267|164661463|SUPERIORITY||Adjusted mean difference|-0.01||||0.983||95.0|-0.61|0.59|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||3TNSS treatment comparison||0.59|-0.61|0.983
82483814|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|0.17||||0.71|TWO_SIDED|95.0|-0.75|1.1|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 127||1.10|-0.75|0.710
82555504|NCT00357682|164819034|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.04||||0.864|TWO_SIDED|95.0|0.67|1.61|||Accelerated Failure Time|||There are 81 diagnoses in the PPI dose comparison with adenocarcinoma oesophageal cancer as the endpoint. Median follow-up is 8.7 years IQR: (8.1 , 9.9)||1.61|0.67|0.864
82555505|NCT00357682|164819034|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.02||||0.921|TWO_SIDED|95.0|0.64|1.64|||Accelerated Failure Time|||There are 70 diagnoses of adenocarcinoma in the aspirin comparison. Median follow-up is 8.8 years, IQR: (8.1 , 10), Range: (0 , 11.5)||1.64|0.64|0.921
82555506|NCT00357682|164819035|SUPERIORITY|5% significance level is considered statistically significant.|Time Ratio|1.36||||0.119|TWO_SIDED|95.0|0.92|2.02|||Accelerated Failure Time|||There are 103 such diagnoses in the PPI dose comparison. Median follow-up is 8.7 years IQR: (8.1 , 9.9) Range: (0 , 11.48)||2.02|0.92|0.119
82555507|NCT00357682|164819035|SUPERIORITY|5% significance level is considered statistically significant|Time Ratio|1.51||||0.053|TWO_SIDED|95.0|1.0|2.29|||Accelerated Failure Time|||There are a total of 92 conversions to HGD in the aspirin comparison. Median follow-up is 8.8 years IQR (8.1 , 10.0) Range (0 , 11.5)||2.29|1.00|0.053
82555508|NCT04955431|164819122|OTHER|We performed a 2-way Repeated Measures ANOVA to compare changes in blood IL-6 levels from baseline to post simulated firefighting on control days (Normal Sleep) and experimental days (Sleep Restriction).|||||<|0.05|||||||ANOVA|||||||<0.05
82555509|NCT04955431|164819123|OTHER|RM-ANOVA|||||>|0.05|||||||ANOVA|||||||>0.05
82555510|NCT04319887|164819151|OTHER||||||||||||||||||statistical analysis section may be deleted|||
82555511|NCT05495945|164819165|SUPERIORITY|||||||0.62|||||||Wilcoxon (Mann-Whitney)|||||||0.62
82555512|NCT05495945|164819166|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82483815|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|0.07||||0.872|TWO_SIDED|95.0|-0.84|0.99|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 127||0.99|-0.84|0.872
82555513|NCT05495945|164819167|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.20
82555514|NCT05495945|164819168|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82555515|NCT05648890|164819169|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between MMSE and TEGEST test before operation.||||<0.0001
82555516|NCT05648890|164819170|OTHER|Spearman's ran correlation coefficient was used .|||||<|0.001|||||||Spearman's ran correlation coefficient|Spearman's ran correlation coefficient was used for correlation between two quantities.||Correlation between MMSE and TEGEST after operation||||< .001
82555517|NCT05648890|164819171|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between TEGEST and Clock drawing test before operation.|Spearman's rank correlation coefficient was used.|||<0.0001
82555518|NCT05648890|164819172|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.001|||||||Spearman's rank correlation coefficient|||Correlation between TEGEST and clock drawing test after operation.||||<0.001
82555519|NCT05648890|164819173|OTHER|Spearman's rank correlation coefficient.|||||<|0.001|||||||Spearman's rank correlation coefficien|||Correlation between MMSE and Clock drawing test before operation.||||<0.001
82555520|NCT05648890|164819173|OTHER|Mann-Whitney U test before operation.||||||0.023|||||||Wilcoxon (Mann-Whitney)|||Clock drawing before operation.||||0.023
82555521|NCT05648890|164819174|OTHER|Spearman's rank correlation coefficient|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation between Clock drawing test and MMSE after operation.||||<0.0001
82555522|NCT05648890|164819175|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with MMSE before operation.||||<0.0001
82555523|NCT05648890|164819175|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with TEGEST before operation.||||<0.0001
82555524|NCT05648890|164819175|OTHER|Spearman's rank correlation coefficient was used.|||||<|0.0001|||||||Spearman's rank correlation coefficient|||Correlation of Clinical frailty scale with Clock drawing test before operation.||||<0.0001
82555525|NCT05648890|164819176|OTHER|Mann-Whitney U test.||||||0.562|||||||Wilcoxon (Mann-Whitney)|||Respondents living at a house or in apartment and relationships with Clinical frailty scale.||||.562
82555526|NCT05648890|164819177|OTHER|Mann-Whitney test was used.||||||0.129|||||||Wilcoxon (Mann-Whitney)|||Respondents living with with family or alone and relationship with Clinical frailty scale.||||0.129
82555527|NCT05648890|164819178|OTHER|Mann-Whintney test was used.||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Relationship between respondents living at home with stairs and respondents living at home with an elevator and Clinical frailty scale.||||0.019
82555528|NCT04039113|164819205|SUPERIORITY||Rate Ratio|0.83||||0.1042|TWO_SIDED|90.0|0.64|1.06||1-sided p-value|Negative Binomial|||||1.06|0.64|0.1042
82555529|NCT04039113|164819205|SUPERIORITY||Rate Ratio|0.83||||0.2085|TWO_SIDED|95.0|0.61|1.11||2-sided p-value|Negative Binomial|||||1.11|0.61|0.2085
82555530|NCT00353496|164819217|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47|||<|0.001|TWO_SIDED|95.0|0.3|0.73||No p-value adjustment for multiple comparisons.|Log Rank|The log rank test was stratified according to progression status at baseline and prior therapy.||||0.73|0.30|<0.001
82555531|NCT02379351|164819223|OTHER|This pilot study is primarily descriptive statistics||||||0.1|||||||Chi-squared|Data analysis will use mostly descriptive statistics - parametric and nonparametric statistics will be used as indicated (Chi-squared)||||||.1
82555532|NCT02379351|164819224|NON_INFERIORITY|Likert Scale of Provider Satisfaction|||||<|0.01|||||||Chi-squared|Data analysis will use mostly descriptive statistics: parametric and nonparametric statistics will be used as indicated.|||Likert Scale of Provider Satisfaction|||<0.01
82555533|NCT00195403|164819257|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline in PGA at Month 3 was evaluated using paired t-test.||||<0.0001
82555534|NCT00195403|164819258|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Change from baseline in number of joints with tenderness, pain, and limitation of motion or swelling at Month 3 were evaluated using paired t-test.||||<0.0001
82555535|NCT05934292|164819319|OTHER||Geometric Mean Ratio|1.5|||||TWO_SIDED|90.0|0.98|2.31|||||Geometric mean ratio (GMR) and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||2.31|0.98|
82555536|NCT05934292|164819319|OTHER||Geometric Mean Ratio|1.14|||||TWO_SIDED|90.0|0.74|1.74|||Geometric Mean Ratio||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.74|0.74|
82483816|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|0.18||||0.701|TWO_SIDED|95.0|-0.73|1.08|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 155||1.08|-0.73|0.701
82483817|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|-0.04||||0.925||95.0|-0.95|0.86|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 155||0.86|-0.95|0.925
82483818|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|0.16||||0.69|TWO_SIDED|95.0|-0.64|0.97|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 183||0.97|-0.64|0.690
82483819|NCT03101267|164661464|SUPERIORITY||Adjusted mean difference|0.07||||0.868|TWO_SIDED|95.0|-0.73|0.87|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||4TNSS treatment comparison at day 183||0.87|-0.73|0.868
82483820|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|0.07||||0.502|TWO_SIDED|95.0|-0.14|0.29|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 127||0.29|-0.14|0.502
82483821|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|-0.02||||0.879|TWO_SIDED|95.0|-0.23|0.2|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 127||0.20|-0.23|0.879
82483822|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|0.06||||0.444|TWO_SIDED|95.0|-0.1|0.22|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 155||0.22|-0.10|0.444
82483823|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|0.0||||0.987|TWO_SIDED|95.0|-0.16|0.16|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 155||0.16|-0.16|0.987
82555537|NCT05934292|164819319|OTHER||Geometric Mean Ratio|1.75|||||TWO_SIDED|90.0|1.1|2.78|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||2.78|1.10|
82555538|NCT05934292|164819319|OTHER||Geometric Mean Ratio|1.17|||||TWO_SIDED|90.0|0.77|1.77|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.77|0.77|
82581870|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.0|STANDARD_ERROR_OF_MEAN|0.004||0.3175|TWO_SIDED|95.0|0.0|0.01||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 4||0.01|-0.00|0.3175
82483824|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|0.03||||0.645|TWO_SIDED|95.0|-0.12|0.18|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 183||0.18|-0.12|0.645
82483825|NCT03101267|164661465|SUPERIORITY||Adjusted mean difference|-0.07||||0.357|TWO_SIDED|95.0|-0.22|0.08|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Sneezing score treatment comparison at day 183||0.08|-0.22|0.357
82483826|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|0.12||||0.472|TWO_SIDED|95.0|-0.2|0.44|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 127||0.44|-0.20|0.472
82483827|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|-0.11||||0.497|TWO_SIDED|95.0|-0.43|0.21|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 127||0.21|-0.43|0.497
82483828|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|0.04||||0.821|TWO_SIDED|95.0|-0.28|0.36|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 155||0.36|-0.28|0.821
82483829|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|-0.13||||0.414|TWO_SIDED|95.0|-0.45|0.19|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 155||0.19|-0.45|0.414
82483830|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|0.12||||0.414|TWO_SIDED|95.0|-0.17|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 183||0.41|-0.17|0.414
82483831|NCT03101267|164661466|SUPERIORITY||Adjusted mean difference|0.08||||0.566|TWO_SIDED|95.0|-0.2|0.37|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal discharge score treatment comparison at day 183||0.37|-0.20|0.566
82555539|NCT05934292|164819320|OTHER||Geometric Mean Ratio|1.61|||||TWO_SIDED|90.0|1.05|2.46|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||2.46|1.05|
82555540|NCT05934292|164819320|OTHER||Geometric Mean ratio|0.79|||||TWO_SIDED|90.0|0.37|1.72|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.72|0.37|
82555541|NCT05934292|164819320|OTHER||Geometric Mean Ratio|1.42|||||TWO_SIDED|90.0|0.8|2.54|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||2.54|0.80|
82555542|NCT05934292|164819320|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.78|1.78|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.78|0.78|
82581871|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.102|TWO_SIDED|95.0|0.0|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|-0.00|0.1020
82581872|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.016||0.3103|TWO_SIDED|95.0|-0.01|0.05||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 8||0.05|-0.01|0.3103
82581873|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.1|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.06|0.14||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.14|0.06|<0.0001
82581874|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.06|0.17||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.17|0.06|<0.0001
82581875|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.19|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.14|0.24||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.24|0.14|<0.0001
82581876|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.2|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED|95.0|0.13|0.27||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.27|0.13|<0.0001
82581877|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.23|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.18|0.29||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo|Mantel Haenszel|||Week 20||0.29|0.18|<0.0001
82581878|NCT04797650|164875559|SUPERIORITY||Risk Difference (RD)|0.27|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.19|0.35||P-value was calculated by Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.35|0.19|<0.0001
82581879|NCT04797650|164875560|SUPERIORITY||Least Square (LS) Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|0.97||0.0039|TWO_SIDED|95.0|-4.7|-0.9||P-value was calculated by mixed model repeated measures (MMRM) analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-0.9|-4.7|0.0039
82581880|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.12||0.0027|TWO_SIDED|95.0|-5.6|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 4||-1.2|-5.6|0.0027
82581881|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|2.15|<|0.0001|TWO_SIDED|95.0|-13.6|-5.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-5.1|-13.6|<0.0001
82581882|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|2.47|<|0.0001|TWO_SIDED|95.0|-19.0|-9.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 8||-9.3|-19|<0.0001
82581883|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|2.92|<|0.0001|TWO_SIDED|95.0|-28.8|-17.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-17.3|-28.8|<0.0001
82581884|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-29.3|STANDARD_ERROR_OF_MEAN|3.36|<|0.0001|TWO_SIDED|95.0|-35.9|-22.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-22.7|-35.9|< 0.0001
82581885|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-34.8|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|95.0|-41.4|-28.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-28.2|-41.4|< 0.0001
82581886|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|3.86|<|0.0001|TWO_SIDED|95.0|-47.8|-32.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-32.6|-47.8|< 0.0001
82581887|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-38.7|STANDARD_ERROR_OF_MEAN|3.63|<|0.0001|TWO_SIDED|95.0|-45.9|-31.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-31.6|-45.9|< 0.0001
82581888|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-46.6|STANDARD_ERROR_OF_MEAN|4.17|<|0.0001|TWO_SIDED|95.0|-54.8|-38.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-38.4|-54.8|< 0.0001
82581889|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-45.9|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-53.4|-38.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-38.5|-53.4|< 0.0001
82581890|NCT04797650|164875560|SUPERIORITY||LS Mean Difference|-52.8|STANDARD_ERROR_OF_MEAN|4.36|<|0.0001|TWO_SIDED|95.0|-61.4|-44.2|||MMRM|||Week 24||-44.2|-61.4|< 0.0001
82581891|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by cochran mantel haenszel (CMH) test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
82581892|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
82581893|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
82581894|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
82483832|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|-0.04||||0.822||95.0|-0.37|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 127||0.30|-0.37|0.822
82483833|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|0.09||||0.587|TWO_SIDED|95.0|-0.24|0.42|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 127||0.42|-0.24|0.587
82483834|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|0.0||||0.975|TWO_SIDED|95.0|-0.3|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 155||0.31|-0.30|0.975
82483835|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|0.0||||0.98|TWO_SIDED|95.0|-0.31|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 155||0.31|-0.31|0.980
82483836|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|-0.07||||0.621|TWO_SIDED|95.0|-0.35|0.21|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 183||0.21|-0.35|0.621
82483837|NCT03101267|164661467|SUPERIORITY||Adjusted mean difference|-0.03||||0.831|TWO_SIDED|95.0|-0.31|0.25|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Nasal congestion score treatment comparison at day 183||0.25|-0.31|0.831
82483838|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.03||||0.864|TWO_SIDED|95.0|-0.29|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 127||0.35|-0.29|0.864
82555543|NCT05934292|164819321|OTHER||Geometric Mean Ratio|0.98|||||TWO_SIDED|90.0|0.71|1.37|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls.|||1.37|0.71|
82555544|NCT05934292|164819321|OTHER||Geometric Mean Ratio|0.6|||||TWO_SIDED|90.0|0.34|1.04|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls.|||1.04|0.34|
82555545|NCT05934292|164819321|OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|90.0|0.64|1.27|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls.|||1.27|0.64|
82581895|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
82483839|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.11||||0.502|TWO_SIDED|95.0|-0.21|0.43|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 127||0.43|-0.21|0.502
82483840|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.07||||0.652|TWO_SIDED|95.0|-0.25|0.4|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 155||0.40|-0.25|0.652
82483841|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.08||||0.633|TWO_SIDED|95.0|-0.25|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 155||0.41|-0.25|0.633
82555546|NCT05934292|164819321|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.78|1.78|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls.|||1.78|0.78|
82555547|NCT05934292|164819324|OTHER||Geometric Mean Ratio|0.67|||||TWO_SIDED|90.0|0.43|1.02|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||1.02|0.43|
82555548|NCT05934292|164819324|OTHER||Geometric Mean Ratio|0.88|||||TWO_SIDED|90.0|0.58|1.35|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.35|0.58|
82483842|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.07||||0.596|TWO_SIDED|95.0|-0.2|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 183||0.35|-0.20|0.596
82483843|NCT03101267|164661468|SUPERIORITY||Adjusted mean difference|0.07||||0.621|TWO_SIDED|95.0|-0.21|0.34|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy nose score treatment comparison at day 183||0.34|-0.21|0.621
82483844|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.21||||0.336|TWO_SIDED|95.0|-0.22|0.65|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 127||0.65|-0.22|0.336
82483845|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.36||||0.102|TWO_SIDED|95.0|-0.07|0.8|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 127||0.80|-0.07|0.102
82555549|NCT05934292|164819324|OTHER||Geomtric Mean ratio|0.57|||||TWO_SIDED|90.0|0.36|0.91|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||0.91|0.36|
82581896|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
82581897|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
82483846|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.11||||0.625|TWO_SIDED|95.0|-0.34|0.56|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 155||0.56|-0.34|0.625
82483847|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.33||||0.145|TWO_SIDED|95.0|-0.12|0.78|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 155||0.78|-0.12|0.145
82483848|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.19||||0.364|TWO_SIDED|95.0|-0.22|0.59|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 183||0.59|-0.22|0.364
82483849|NCT03101267|164661469|SUPERIORITY||Adjusted mean difference|0.35||||0.082|TWO_SIDED|95.0|-0.05|0.76|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||TNNSS treatment comparison at day 183||0.76|-0.05|0.082
82483850|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.07||||0.623|TWO_SIDED|95.0|-0.21|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 127||0.35|-0.21|0.623
82555550|NCT05934292|164819324|OTHER||Geomtric Mean Ratio|0.86|||||TWO_SIDED|90.0|0.57|1.29|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.29|0.57|
82555551|NCT05934292|164819325|OTHER||Geometric Mean Ratio|1.18|||||TWO_SIDED|90.0|0.83|1.67|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||1.67|0.83|
82555552|NCT05934292|164819325|OTHER||Geometric Mean ratio|1.08|||||TWO_SIDED|90.0|0.78|1.5|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||1.50|0.78|
82555553|NCT05934292|164819325|OTHER||Geometric Mean Ratio|0.66|||||TWO_SIDED|90.0|0.5|0.89|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Pre-Hemodialysis/ Panel D-Healthy Controls|||0.89|0.50|
82555554|NCT05934292|164819325|OTHER||Geometric Mean Ratio|1.4|||||TWO_SIDED|90.0|1.0|1.97|||||GMR and 90% CI for AUC0-inf were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel C-ESRD Enlicitide Decanoate Post-Hemodialysis/ Panel D-Healthy Controls|||1.97|1.00|
82483851|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.15||||0.288|TWO_SIDED|95.0|-0.13|0.43|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 127||0.43|-0.13|0.288
82483852|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.03||||0.83|TWO_SIDED|95.0|-0.24|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 155||0.30|-0.24|0.830
82483853|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.17||||0.208|TWO_SIDED|95.0|-0.1|0.44|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 155||0.44|-0.10|0.208
82555555|NCT05934292|164819330|OTHER||Geometric Mean Ratio|0.32|||||TWO_SIDED|90.0|0.14|0.74|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.74|0.14|
82555556|NCT05934292|164819330|OTHER||Geometric Mean Ratio|0.09|||||TWO_SIDED|90.0|0.04|0.22|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.22|0.04|
82483854|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.06||||0.616|TWO_SIDED|95.0|-0.19|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 183||0.31|-0.19|0.616
82483855|NCT03101267|164661470|SUPERIORITY||Adjusted mean difference|0.16||||0.207|TWO_SIDED|95.0|-0.09|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Itchy eyes treatment comparison at day 183||0.41|-0.09|0.207
82555557|NCT05934292|164819331|OTHER||Geometric Mean Ratio|0.32|||||TWO_SIDED|90.0|0.14|0.74|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.74|0.14|
82555558|NCT05934292|164819331|OTHER||Geometric Mean Ratio|0.09|||||TWO_SIDED|90.0|0.04|0.22|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.22|0.04|
82555559|NCT05934292|164819332|OTHER||Geometric Mean Ratio|0.29|||||TWO_SIDED|90.0|0.16|0.55|||||GMR and 90% CI were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel A-Moderate Renal Impairment (RI)/Panel D-Healthy controls|||0.55|0.16|
82555560|NCT05934292|164819332|OTHER||Geometric Mean Ratio|0.14|||||TWO_SIDED|90.0|0.06|0.36|||||GMR and 90% confidence interval (CI) were calculated using a linear fixed effects model performed on natural log-transformed values. GMR: Panel B-Severe RI/Panel D-Healthy controls|||0.36|0.06|
82555561|NCT04479787|164819336|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
82555562|NCT04479787|164819337|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||< 0.0001
82555563|NCT04479787|164819338|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
82555564|NCT04479787|164819339|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
82555565|NCT04479787|164819340|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
82555566|NCT04479787|164819341|OTHER||||||<|0.0001|||||||Two-sided Z-Test|||||||<0.0001
82555567|NCT04479787|164819342|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
82555568|NCT04479787|164819343|OTHER||||||<|0.0001|||||||Two-sample t-test.|||||||<0.0001
82581898|NCT04797650|164875561|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
82483856|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.15||||0.157|TWO_SIDED|95.0|-0.06|0.35|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 127||0.35|-0.06|0.157
82483857|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.21||||0.039|TWO_SIDED|95.0|0.01|0.41|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 127||0.41|0.01|0.039
82483858|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.08||||0.459|TWO_SIDED|95.0|-0.14|0.3|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 155||0.30|-0.14|0.459
82483859|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.16||||0.153|TWO_SIDED|95.0|-0.06|0.38|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 155||0.38|-0.06|0.153
82483860|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.12||||0.195|TWO_SIDED|95.0|-0.06|0.31|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 183||0.31|-0.06|0.195
82483861|NCT03101267|164661471|SUPERIORITY||Adjusted mean difference|0.2||||0.038|TWO_SIDED|95.0|0.01|0.38|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||Watery eyes treatment comparison at day 183||0.38|0.01|0.038
82483862|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.37||||0.433|TWO_SIDED|95.0|-0.56|1.29|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 127||1.29|-0.56|0.433
82483863|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.33||||0.479|TWO_SIDED|95.0|-0.59|1.24|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 127||1.24|-0.59|0.479
82483864|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.22||||0.648|TWO_SIDED|95.0|-0.71|1.14|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 155||1.14|-0.71|0.648
82483865|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.21||||0.654|TWO_SIDED|95.0|-0.72|1.14|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 155||1.14|-0.72|0.654
82483866|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.27||||0.514|TWO_SIDED|95.0|-0.55|1.09|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 183||1.09|-0.55|0.514
82483867|NCT03101267|164661472|SUPERIORITY||Adjusted mean difference|0.35||||0.4|TWO_SIDED|95.0|-0.47|1.17|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||5TSS treatment comparison at day 183||1.17|-0.47|0.400
82483868|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.39||||0.505|TWO_SIDED|95.0|-0.76|1.54||The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.|MMRM|||6TSS treatment comparison at day 127||1.54|-0.76|0.505
82483869|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.44||||0.451|TWO_SIDED|95.0|-0.71|1.58|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 127||1.58|-0.71|0.451
82483870|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.29||||0.623|TWO_SIDED|95.0|-0.88|1.46|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 155||1.46|-0.88|0.623
82483871|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.29||||0.62|TWO_SIDED|95.0|-0.87|1.46|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 155||1.46|-0.87|0.620
82483872|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.35||||0.504|TWO_SIDED|95.0|-0.68|1.37|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 183||1.37|-0.68|0.504
82483873|NCT03101267|164661473|SUPERIORITY||Adjusted mean difference,|0.42||||0.414|TWO_SIDED|95.0|-0.6|1.45|||MMRM|The MMRM model included treatment group, stratification factors, analysis visit and interaction of treatment group and analysis visit.||6TSS treatment comparison at day 183||1.45|-0.60|0.414
82483874|NCT00107952|164661479|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 20% was specified based on historical regulatory precedent.|Risk Difference (RD)|-1.6||||||95.0|-8.6|5.5||p-values were not calculated in deference to confidence intervals.|||"Statistical analysis applies to cure"|||5.5|-8.6|
82483875|NCT01856023|164661560|SUPERIORITY|one -sample binomial test - 1-year estimated OS for these 28 patients was 75% (95%CI: 51%, 88%)||||||0.001||||||compared to the historical control rate of 46% one year survival|Log Rank|||OS rates of the Evaluable population in entire cohort was compared with the historical control rate of 46% (Hodi, et al NEJM 2010) using a one-sample binomial test due to early termination of enrollment without reaching target accrual; planned analysis to be the difference between treatment arms using log-rank test. One year OS along with 95% CI estimated for entire population and each treatment arm separately.||||.001
82483876|NCT00424255|164661564|SUPERIORITY_OR_OTHER|||||||0.2251||95.0||||The one-sided p-value is unstratified as there are too few events per stratum to perform a stratified test.|Non-stratified log-rank test|||||||0.2251
82483877|NCT00424255|164661564|SUPERIORITY_OR_OTHER|||||||0.4502||95.0||||The two-sided p-value is unstratified as there are too few events per stratum to perform a stratified test.|Non-stratified log-rank test|||||||0.4502
82483878|NCT00424255|164661564|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.85|1.43|||||Hazard Ratios were estimated using a Pike estimator.|||1.43|0.85|
82483879|NCT02431247|164661587|NON_INFERIORITY|One-sided p-value for non-inferiority of Test versus Control arm. The non-|Difference in percentage|2.7|||<|0.001|TWO_SIDED|95.0|-1.6|7.1||inferiority margin is 10%.|Mantel Haenszel|||||7.1|-1.6|< 0.001
82483880|NCT02431247|164661590|OTHER||Least square mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.063|=|0.437|TWO_SIDED|95.0|-0.171|0.074|||ANCOVA|||||0.074|-0.171|= 0.437
82483881|NCT02431247|164661591|OTHER||LS mean difference|18.48|STANDARD_ERROR_OF_MEAN|14.808|=|0.213|TWO_SIDED|95.0|-10.595|47.55|||ANCOVA|||||47.550|-10.595|= 0.213
82483882|NCT02431247|164661592|OTHER||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.008|<|0.001|TWO_SIDED|95.0|-0.05|-0.02|||ANCOVA|||||-0.02|-0.05|< 0.001
82483883|NCT02431247|164661593|OTHER||LS mean difference|3.12|STANDARD_ERROR_OF_MEAN|0.786|<|0.001|TWO_SIDED|95.0|1.57|4.66|||ANCOVA|||||4.66|1.57|< 0.001
82483884|NCT02431247|164661594|OTHER||LS mean difference|6.04|STANDARD_ERROR_OF_MEAN|1.126|<|0.001|TWO_SIDED|95.0|3.83|8.25|||ANCOVA|||||8.25|3.83|< 0.001
82483885|NCT02431247|164661595|OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.747|=|0.001|TWO_SIDED|95.0|0.93|3.87|||ANCOVA|||||3.87|0.93|= 0.001
82483886|NCT02431247|164661597|OTHER||||||=|0.033|||||||Wilcoxon rank sum test|||||||= 0.033
82483887|NCT02431247|164661598|OTHER||||||=|0.033|||||||Wilcoxon rank sum test|||||||= 0.033
82555569|NCT05714059|164819348|NON_INFERIORITY|The overall mean change in HbA1c, from baseline to end of 3-month study period was estimated and compared by a non-inferiority test to the threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.3|-0.6|<0.001
82555570|NCT05714059|164819348|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period was estimated and compared by a non-inferiority test to the threshold of -0.50% with a margin of 0.4%. A significance level of 0.025 (one-sided) was used|Mean difference from baseline to exit|-0.7|||<|0.001|TWO_SIDED|95.0|-0.8|-0.6|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.6|-0.8|<0.001
82581899|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
82581900|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 12||||< 0.0001
82483888|NCT02431247|164661599|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||< 0.001
82483889|NCT02431247|164661600|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||< 0.001
82483890|NCT02431247|164661601|OTHER||||||=|0.147|||||||Wilcoxon rank sum test|||||||= 0.147
82483891|NCT02431247|164661606|OTHER||LS mean difference|1.95|STANDARD_ERROR_OF_MEAN|0.368|<|0.001|TWO_SIDED|95.0|1.227|2.678|||ANCOVA|||Hip region BMD (Week 24)||2.678|1.227|< 0.001
82483892|NCT02431247|164661606|OTHER||LS mean difference|2.86|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|1.934|3.791|||ANCOVA|||Hip region BMD (Week 48)||3.791|1.934|< 0.001
82483893|NCT02431247|164661606|OTHER||LS mean difference|2.09|STANDARD_ERROR_OF_MEAN|0.421|<|0.001|TWO_SIDED|95.0|1.259|2.919|||ANCOVA|||Spine region BMD (Week 24)||2.919|1.259|< 0.001
82483894|NCT02431247|164661606|OTHER||LS mean difference|1.7|STANDARD_ERROR_OF_MEAN|0.588|=|0.004|TWO_SIDED|95.0|0.539|2.858|||ANCOVA|||Spine region BMD (Week 48)||2.858|0.539|= 0.004
82483895|NCT00322153|164661653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.001|TWO_SIDED|95.0|1.0|4.2|||ANCOVA|Least-squares mean (-0.4 in placebo and 2.2 in memantine ER) are controlled for center and adjusted for SIB baseline value.||The co-primary efficacy parameter was change from Baseline to Week 24 in SIB total score. Missing SIB total scores at Week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||4.2|1.0|0.001
82483896|NCT00322153|164661654|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|||The co-primary efficacy parameter was CIBIC-Plus total score at week 24. Missing CIBIC-Plus total scores at Week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||||0.008
82555571|NCT05714059|164819349|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 65.3% with a margin of 7.5%.|Mean value (Final Values)|71.4|||<|0.001|TWO_SIDED|95.0|69.5|73.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||73.3|69.5|<0.001
82581901|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
82581902|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 16||||< 0.0001
82581903|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
82483897|NCT00322153|164661655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.177|TWO_SIDED|95.0|-0.3|1.8|||ANCOVA|Least-squares mean (-1.7 in placebo and -1.0 in memantine ER) are controlled for center and adjusted for ADCS-ADL19 baseline value.||The secondary efficacy parameter was change from Baseline at Week 24 in the total score of the 19-Item Alzheimer's Disease Cooperative Study-Activities of Daily Living Inventory (ADCS-ADL19). Missing scores at week 24 were imputed using the last-observation-carried-forward (LOCF) approach.||1.8|-0.3|0.177
82483898|NCT00591578|164661679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.64|||<|0.001|TWO_SIDED|95.0|-5.59|-1.69||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-1.69|-5.59|<0.001
82483899|NCT00591578|164661679|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.03|||<|0.001|TWO_SIDED|95.0|-6.01|-2.06||Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-2.06|-6.01|<0.001
82483900|NCT00591578|164661680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.27||||0.015|TWO_SIDED|95.0|-5.9|-0.63||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.63|-5.90|0.015
82555572|NCT05714059|164819349|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 73.7% with a margin of 7.5%.|Mean value (Final Values)|80.2|||<|0.001|TWO_SIDED|95.0|78.7|81.8|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||81.8|78.7|<0.001
82555573|NCT05714059|164819350|NON_INFERIORITY|The mean % time in hypoglycemia (\< 54 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 0.71% with a margin of 2%.|Mean value (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from last 6-7 weeks of 3 month study period was estimated for this endpoint.|||0.4|0.3|<0.001
82555574|NCT05714059|164819350|NON_INFERIORITY|The mean % time in hypoglycemia (\< 54 mg/dL) was estimated and compared by a non-inferiority test to the threshold of 0.86% with a margin of 2%.|Mean value (Final Values)|0.2|||<|0.001|TWO_SIDED|95.0|0.1|0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) were summarized from last 6-7 weeks of 3 month study period for this endpoint|||0.3|0.1|<0.001
82555575|NCT05714059|164819351|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared to a threshold of 65.3% by a simple superiority test|Mean value (Final Values)|71.4|||<|0.001|TWO_SIDED|95.0|69.5|73.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||73.3|69.5|<0.001
82555576|NCT05714059|164819351|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) was estimated and compared to a threshold of 73.7% by a simple superiority test|Mean value (Final Values)|80.2|||<|0.001|TWO_SIDED|95.0|78.7|81.8|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||81.8|78.7|<0.001
82555577|NCT04899674|164819352|OTHER||Ratio of gMeans [%]|94.6|||||TWO_SIDED|90.0|86.3|103.8|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone). Intra-individual geometric coefficient of variation (gCV \[%\])=13.9."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA) model. The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||103.8|86.3|
82555578|NCT04899674|164819353|OTHER||Ratio of gMeans[%]|90.7|||||TWO_SIDED|90.0|74.3|110.7|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone).~Intra-individual geometric coefficient of variation (gCV \[%\])=31.5."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA) model. The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||110.7|74.3|
82555579|NCT04899674|164819354|OTHER||Ratio of gMeans [%]|95.1|||||TWO_SIDED|90.0|86.7|104.3|||||"Ratio of Geometric Least Squares Means (gMeans) was calculated as (gMean of BI 1358894 + bupropion)/(gMean of bupropion alone).~Standard deviation is actually intra-individual geometric coefficient of variation (gCV \[%\])=13.9."|The statistical model used for the analysis of the primary endpoints was an Analysis of Variance (ANOVA). The model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||104.3|86.7|
82555580|NCT05441449|164819461|SUPERIORITY|||||||0.002|||||||ANOVA|||||||0.002
82555581|NCT05441449|164819461|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82555582|NCT05441449|164819461|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82555583|NCT05441449|164819462|SUPERIORITY|||||||0.043|||||||ANOVA|||||||0.043
82555584|NCT05441449|164819462|SUPERIORITY|||||||0.281|||||||ANOVA|||||||0.281
82555585|NCT05441449|164819462|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82555586|NCT05441449|164819463|SUPERIORITY|||||||0.352|||||||ANOVA|||||||0.352
82555587|NCT05441449|164819463|SUPERIORITY|||||||0.001|||||||ANOVA|||||||0.001
82555588|NCT05441449|164819464|SUPERIORITY|||||||0.374|||||||ANOVA|||||||0.374
82555589|NCT05441449|164819464|SUPERIORITY|||||||0.045|||||||ANOVA|||||||0.045
82555590|NCT05441449|164819464|SUPERIORITY|||||||0.196|||||||ANOVA|||||||0.196
82555591|NCT02879318|164819478|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.72|TWO_SIDED|90.0|0.71|1.25||a priori threshold for statistical significance was 0.1.|Log Rank|stratified by ECOG performance status and prior adjuvant therapy.||||1.25|0.71|0.72
82555592|NCT02879318|164819479|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.91|TWO_SIDED|90.0|0.75|1.29|||Log Rank|||||1.29|0.75|0.91
82555593|NCT02879318|164819480|SUPERIORITY||Odds Ratio (OR)|1.49||||0.28|TWO_SIDED|90.0|0.81|2.72|||Cochran-Mantel-Haenszel|stratified by ECOG performance status and prior adjuvant chemotherapy||||2.72|0.81|0.28
82555594|NCT00220805|164819515|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|95.0|||||ANOVA|||The primary efficacy comparison for the change in LogMAR from baseline to endpoint was a two-way analysis of variance (ANOVA) with treatment group and center as fixed factors (main effect model).||||0.49
82555595|NCT00220805|164819516|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|||||Adjusted for centers (including a Breslow-Day test for homogeneity of odd ratios across centers)|Cochran-Mantel-Haenszel|||||||0.76
82555596|NCT00220805|164819517|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Cochran-Mantel-Haenszel|Adjusted for centers (including a Breslow-Day test for homogeneity of odd ratios across centers)||||||0.13
82555597|NCT00220805|164819518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9|TWO_SIDED|95.0|-0.21|0.19|||ANOVA|||||0.19|-0.21|0.90
82555598|NCT00220805|164819520|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Cochran-Mantel-Haenszel|Adjusted to centers||||||0.74
82555599|NCT04098575|164819574|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82555600|NCT04098575|164819575|OTHER|||||||0.835|||||||Chi-squared|||||||0.835
82555601|NCT04098575|164819576|OTHER||||||<|0.001|||||||Chi-squared|||Antihypertensive drugs||||<0.001
82555602|NCT04098575|164819576|OTHER||||||<|0.001|||||||Chi-squared|||Lipid-lowering agents||||<0.001
82555603|NCT04098575|164819576|OTHER||||||<|0.001|||||||Chi-squared|||Antiplatelet, anticoagulant drugs||||<0.001
82555604|NCT04098575|164819576|OTHER||||||<|0.001|||||||Chi-squared|||Glucose-lowering therapies||||<0.001
82555605|NCT04098575|164819577|OTHER||||||<|0.001|||||||Chi-squared|||Group: \< 65||||<0.001
82483901|NCT00591578|164661680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.34|||<|0.001|TWO_SIDED|95.0|-8.0|-2.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-2.68|-8.00|<0.001
82483902|NCT00591578|164661681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16|||<|0.001|TWO_SIDED|95.0|-3.44|-0.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.88|-3.44|<0.001
82483903|NCT00591578|164661681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||<|0.001|TWO_SIDED|95.0|-3.99|-1.4||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.40|-3.99|<0.001
82483904|NCT00591578|164661682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52||||0.001|TWO_SIDED|95.0|-4.06|-0.98||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.98|-4.06|0.001
82483905|NCT00591578|164661682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76|||<|0.001|TWO_SIDED|95.0|-4.32|-1.21||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.21|-4.32|<0.001
82483906|NCT00591578|164661683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49|||<|0.001|TWO_SIDED|95.0|-5.53|-1.44||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.44|-5.53|<0.001
82483907|NCT00591578|164661683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.96|-1.83||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.83|-5.96|<0.001
82483908|NCT00591578|164661684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17||||0.002|TWO_SIDED|95.0|-3.54|-0.79||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.79|-3.54|0.002
82483909|NCT00591578|164661684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.67|||<|0.001|TWO_SIDED|95.0|-4.06|-1.28||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.28|-4.06|<0.001
82483910|NCT00591578|164661685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.79|||<|0.001|TWO_SIDED|95.0|-5.96|-1.62||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.62|-5.96|<0.001
82483911|NCT00591578|164661685|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||<|0.001|TWO_SIDED|95.0|-6.63|-2.24||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-2.24|-6.63|<0.001
82483912|NCT00591578|164661686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.008|TWO_SIDED|95.0|-3.48|-0.53||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.53|-3.48|0.008
82483913|NCT00591578|164661686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.84|||<|0.001|TWO_SIDED|95.0|-4.33|-1.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.35|-4.33|<0.001
82483914|NCT00591578|164661687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.44||||0.002|TWO_SIDED|95.0|-5.57|-1.3||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.30|-5.57|0.002
82483915|NCT00591578|164661687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.01|||<|0.001|TWO_SIDED|95.0|-6.16|-1.85||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.85|-6.16|<0.001
82483916|NCT00591578|164661688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18||||0.003|TWO_SIDED|95.0|-3.63|-0.72||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.72|-3.63|0.003
82483917|NCT00591578|164661688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.73|||<|0.001|TWO_SIDED|95.0|-4.2|-1.25||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.25|-4.20|<0.001
82483918|NCT00591578|164661689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.38||||0.005|TWO_SIDED|95.0|-5.76|-1.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.00|-5.76|0.005
82483919|NCT00591578|164661689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47||||0.005|TWO_SIDED|95.0|-5.87|-1.06||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-1.06|-5.87|0.005
82483920|NCT00591578|164661690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.009|TWO_SIDED|95.0|-4.04|-0.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.59|-4.04|0.009
82483921|NCT00591578|164661690|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.004|TWO_SIDED|95.0|-4.34|-0.84||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). The unadjusted p-value is presented.|ANCOVA|||||-0.84|-4.34|0.004
82555606|NCT04098575|164819577|OTHER|||||||0.001|||||||Chi-squared|||Group: 65 ≤ 75||||0.001
82555607|NCT04098575|164819577|OTHER||||||<|0.001|||||||Chi-squared|||Group: 75 - 80||||<0.001
82555608|NCT04098575|164819577|OTHER||||||<|0.002|||||||Chi-squared|||Group: \> 80||||<0.002
82555609|NCT04098575|164819578|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82555610|NCT04098575|164819579|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82555611|NCT04098575|164819580|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82555612|NCT04098575|164819581|OTHER|||||||0.475|||||||Wilcoxon rank sum test|||||||0.475
82555613|NCT04098575|164819582|OTHER|||||||0.475|||||||Wilcoxon rank sum test|||||||0.475
82555614|NCT04098575|164819583|OTHER||||||<|0.001|||||||Chi-squared|||Insulin||||<0.001
82581904|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 20||||< 0.0001
82581905|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
82581906|NCT04797650|164875562|SUPERIORITY||||||<|0.0001||||||P-value was calculated by CMH test stratified by baseline scalp hair loss (partial vs complete/near-complete) for responders in each treatment group compared to placebo.|Cochran-Mantel-Haenszel|||Week 24||||< 0.0001
82581907|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1|-1.5|< 0.0001
82483922|NCT00591578|164661691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.016|TWO_SIDED|95.0|1.07|2.0||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.00|1.07|0.016
82483923|NCT00591578|164661691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63||||0.002|TWO_SIDED|95.0|1.19|2.23||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.23|1.19|0.002
82483924|NCT00591578|164661692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.041|TWO_SIDED|95.0|1.02|2.1||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.10|1.02|0.041
82555615|NCT04098575|164819583|OTHER||||||<|0.001|||||||Chi-squared|||Metformin||||<0.001
82555616|NCT04098575|164819583|OTHER|||||||0.157|||||||Chi-squared|||Acarbose||||0.157
82555617|NCT04098575|164819583|OTHER||||||<|0.001|||||||Chi-squared|||Sulfonylurea||||<0.001
82581908|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1.1|-1.7|< 0.0001
82581909|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.3|-1.9|< 0.0001
82581910|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.2|-1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.5|-2.2|< 0.0001
82581911|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-2.0|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.3|-2|< 0.0001
82581912|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.7|-2.5|< 0.0001
82581913|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-2.5|-1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.5|< 0.0001
82555618|NCT04098575|164819583|OTHER|||||||0.071|||||||Chi-squared|||Dipeptidyl peptidase-4 (DPP-4) inhibitors||||0.071
82555619|NCT04098575|164819583|OTHER|||||||0.317|||||||Chi-squared|||Glucagon-like peptide-1 (GLP-1) agonists||||0.317
82555620|NCT04098575|164819583|OTHER||||||<|0.001|||||||Chi-squared|||Sodium-glucose transport protein-2 (SGLT2) inhibitors other than empagliflozin||||<0.001
82555621|NCT04098575|164819584|OTHER||||||<|0.002|||||||Chi-squared|||||||<0.002
82555622|NCT04098575|164819587|OTHER|||||||1|||||||Wilcoxon rank sum test|||||||1.000
82555623|NCT05274321|164819588|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.22||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.22
82555624|NCT05274321|164819589|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval. .||||||0.02||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.02
82555625|NCT05274321|164819590|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.03||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.03
82555626|NCT05274321|164819591|NON_INFERIORITY|The noninferiority margin was determined by taking 10% of the standard of care change score. Noninferiority was determined for each outcome if the noninferiority margin did not overlap with the regression coefficient's 95% confidence interval.||||||0.25||||||Wald P values were calculated by testing whether the regression coefficient met or exceeded the noninferiority margin.|Regression, Linear|The threshold for significance is 0.0167.||Absolute between-eye differences were calculated for each participant by subtracting the standard of care (SOC) change score from the Nanodropper change score. The confidence interval (CI) is 95%.||||0.25
82555627|NCT05288348|164819650|SUPERIORITY||Mean Difference (Final Values)|2.57||||0.56|TWO_SIDED|95.0|-6.19|11.33||unadjusted|Mixed Models Analysis|Mixed methods ANOVA||||11.33|-6.19|0.56
82555628|NCT05288348|164819650|SUPERIORITY||Mean Difference (Final Values)|-0.51||||0.92|TWO_SIDED|95.0|-10.5|9.48|||Mixed Models Analysis|Mixed methods ANOVA||Adjusted for age, sex, respiratory rate and injury type||9.48|-10.5|0.92
82555629|NCT05288348|164819651|SUPERIORITY||Mean Difference (Final Values)|-7.14||||0.18|TWO_SIDED|95.0|-17.66|3.37|||Mixed Models Analysis|Mixed effects ANOVA||VNRS @ 60min||3.37|-17.66|0.18
82555630|NCT05288348|164819651|SUPERIORITY||Median Difference (Final Values)|2.92||||0.63|TWO_SIDED|95.0|-9.3|15.1|||Mixed Models Analysis|Mixed effects ANOVA||VNRS @ 60 min Adjusted for sex and injury type||15.10|-9.30|0.63
82555631|NCT05288348|164819651|SUPERIORITY||Mean Difference (Final Values)|-10.59||||0.08|TWO_SIDED|95.0|-22.39|1.21||Unadjusted|Mixed Models Analysis|||VNRS @ 90 min||1.21|-22.39|0.08
82555632|NCT05288348|164819651|SUPERIORITY||Mean Difference (Final Values)|7.36||||0.28|TWO_SIDED|95.0|-6.13|20.8|||Mixed Models Analysis|Mixed Method ANOVA|Adjusted for ISS|VNRS @90min adjusted||20.80|-6.13|0.28
82555633|NCT05288348|164819651|SUPERIORITY||Mean Difference (Final Values)|-9.52||||0.18|TWO_SIDED|95.0|-23.6|4.56|||Mixed Models Analysis|||VNRS @ 120 min||4.56|-23.60|0.18
82555634|NCT05288348|164819651|SUPERIORITY||Mean Difference (Final Values)|-5.24||||0.5|TWO_SIDED|95.0|-20.7|10.2|||Mixed Models Analysis|Mixed Method ANOVA||VNRS @ 120min adjusted for sex, HR, RR, and injury type||10.20|-20.70|0.50
82555635|NCT05288348|164819652|SUPERIORITY|||||||0.005||||||PGA @ 30 min|Chi-squared|||||||0.005
82581914|NCT04797650|164875563|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001|TWO_SIDED|95.0|-2.8|-2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-2|-2.8|< 0.0001
82555636|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|1.45||||0.39|TWO_SIDED|95.0|-4.77|1.89|||General Addative Model|||"SPID 30~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||1.89|-4.77|0.39
82555637|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|1.72||||0.29|TWO_SIDED|95.0|-1.5|4.95|||General Additive Model|||"SPID 30, Adjusted Analysis~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||4.95|-1.50|0.29
82555638|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|0.08||||0.98|TWO_SIDED|95.0|-6.63|6.47|||Generalized Additive Model|||SPID @ 60min last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||6.47|-6.63|0.98
82555639|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|0.61||||0.85|TWO_SIDED|95.0|-5.76|6.98|||Generalized Additive Model|||"SPID 60 Adjusted~Last observed carried forward to address missingness"||6.98|-5.76|0.85
82555640|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|-1.26||||0.8|TWO_SIDED|95.0|-8.75|11.28|||Generalized Additive Model|||SPID @ 90 mn last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||11.28|-8.75|0.8
82555641|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|-0.44||||0.92|TWO_SIDED|95.0|-10.2|9.92|||Generalized Additive Model|||"SPID 90 min Adjusted~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||9.92|-10.2|0.92
82555642|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|-3.18||||0.64|TWO_SIDED|95.0|-10.45|16.9|||Generalized Additive Model|||SPID @ 120 min last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value||16.90|-10.45|0.64
82555643|NCT05288348|164819653|SUPERIORITY||Odds Ratio (OR)|-2.15||||0.75|TWO_SIDED|95.0|-15.6|11.3|||Generalized Additive Model|||"SPID 120 Adjusted~last observation carried forward (LOCF) imputation technique to fill out the missing values by carrying forward the last observed value"||11.30|-15.60|0.75
82555644|NCT05288348|164819654|SUPERIORITY||z statistic|0.46||||0.64|TWO_SIDED|95.0|-1.96|1.96|||two sided test of proportion|||||1.96|-1.96|0.64
82555645|NCT05288348|164819655|SUPERIORITY||Odds Ratio (OR)|-0.22||||0.61|TWO_SIDED|95.0|-1.11|0.66|||General Additive Models|||||0.66|-1.11|0.61
82555646|NCT05288348|164819655|SUPERIORITY||Odds Ratio (OR)|-0.28||||0.54|TWO_SIDED|95.0|-1.23|0.65|||General Additive Model|||6 item screener adjusted analysis||0.65|-1.23|0.54
82555647|NCT05288348|164819656|SUPERIORITY||Odds Ratio (OR)|2.35||||0.009|TWO_SIDED|95.0|1.24|4.46|||Ordinal Polytomous Logisitic Regression|||Healthcare Professional Global Assessment of method of pain control at 30 min.||4.46|1.24|0.009
82555648|NCT05288348|164819656|SUPERIORITY||Odds Ratio (OR)|2.24||||0.01|TWO_SIDED|95.0|1.18|4.29|||Ordinal polytomous logistic regression|||Healthcare Professional Global Assessment of method of pain control at 30 min. adjusted for ISS and Race||4.29|1.18|0.01
82555649|NCT05288348|164819657|SUPERIORITY||Odds Ratio (OR)|0.97||||0.96|TWO_SIDED|95.0|0.22|4.26|||Regression, Logistic|||||4.26|0.22|0.96
82555650|NCT05288348|164819657|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.17|5.04|||||Adjusted for age, sex and SpO2|||5.04|0.17|
82555651|NCT05288348|164819658|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.04|24.92||||||||24.92|0.04|
82555652|NCT05288348|164819658|SUPERIORITY||Odds Ratio (OR)|0.2|||||TWO_SIDED|95.0|0.0|14.28|||||Adjusted for Heart Rate and Injury Severity Score|||14.28|0|
82555653|NCT05288348|164819659|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|0.39|8.37||||||||8.37|0.39|
82555654|NCT05288348|164819659|SUPERIORITY||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|0.39|8.6|||||Adjusted for SpO2|||8.60|0.39|
82555655|NCT05288348|164819661|SUPERIORITY||Odds Ratio (OR)|0.48|||||TWO_SIDED|95.0|0.02|5.12||||||||5.12|0.02|
82555656|NCT05288348|164819661|SUPERIORITY||Odds Ratio (OR)|0.41|||||TWO_SIDED|95.0|0.02|4.56|||||Adjusted for heart rate|||4.56|0.02|
82555657|NCT05288348|164819662|SUPERIORITY||difference of proportion|0.135|||>|0.99|TWO_SIDED||||||Chi-squared|||||||>0.99
82483925|NCT00591578|164661692|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58||||0.015|TWO_SIDED|95.0|1.09|2.28||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.28|1.09|0.015
82483926|NCT00591578|164661693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.018|TWO_SIDED|95.0|1.07|1.99||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||1.99|1.07|0.018
82483927|NCT00591578|164661693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.24|2.33||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|Includes only those participants with a baseline and at least one post-baseline value.||||2.33|1.24|<0.001
82483928|NCT02797054|164661765|OTHER|||||||0.069|||||||Chi-squared|||||||0.069
82483929|NCT02797054|164661766|OTHER|||||||0.303|||||||Chi-squared|||||||0.303
82555658|NCT05288348|164819663|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.9|TWO_SIDED|95.0|0.69|1.61|||Regression, Cox|||||1.61|0.69|0.90
82555659|NCT05288348|164819663|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.48|TWO_SIDED|95.0|0.75|1.81|||Regression, Cox|||Adjusted for Race and ISS||1.81|0.75|0.48
82483930|NCT02797054|164661767|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
82483931|NCT02797054|164661768|OTHER|||||||0.895|||||||Chi-squared|||||||0.895
82483932|NCT02797054|164661769|OTHER|||||||0.58|||||||Chi-squared|||||||0.58
82483933|NCT02797054|164661770|OTHER|||||||0.0015|||||||Chi-squared|||||||0.0015
82483934|NCT02797054|164661771|OTHER|||||||0.0056|||||||Chi-squared|||||||0.0056
82581915|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.8|-1.0||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1|-1.8|< 0.0001
82483935|NCT02797054|164661772|OTHER|||||||0.21|||||||Chi-squared|||||||0.21
82483936|NCT04644783|164661773|SUPERIORITY||||||<|0.0001|||||||Regression, non-linear mixed effects|||||||<0.0001
82483937|NCT04644783|164661774|SUPERIORITY||||||<|0.0001|||||||Regression, non-linear mixed effects|||||||<0.0001
82483938|NCT01723696|164661775|SUPERIORITY||Mean Difference (Final Values)|12.1||||0.19|TWO_SIDED|95.0|-6.1|30.3||P-value adjusted for design factors of site, gestational age at randomization and covariates of length, race, and sex of infant.|ANCOVA|||Our targeted sample size of 218 infants with successful FEFs at 3 months of age was determined to detect with 90% power, at a significance level of 0.05, increases of 15% in mean FEF75 in the vitamin C group compared to the placebo group.||30.3|-6.1|0.19
82483939|NCT01306877|164661788|NON_INFERIORITY_OR_EQUIVALENCE|The objective is to reject H0 at the 0.05 significance level. A one-sided 95% confidence upper limit for PC - PE will be constructed by Newcombe's generalized Wilson score method (Newcombe 1998). H0 will be rejected at the 0.05 significance level if this upper limit is \<7%.|Risk Difference (RD)|-0.314||||0.0001|ONE_SIDED|95.0||-0.18||P-value calculated from per protocol analysis set|Chi-squared|||||-0.18||0.0001
82483940|NCT01306877|164661792|SUPERIORITY_OR_OTHER|||||||0.1844|||||||Wilcoxon (Mann-Whitney)|||||||0.1844
82483941|NCT01306877|164661793|SUPERIORITY_OR_OTHER|||||||0.5647|||||||Wilcoxon (Mann-Whitney)|||||||0.5647
82483942|NCT01306877|164661794|SUPERIORITY_OR_OTHER|||||||0.9062|||||||Wilcoxon (Mann-Whitney)|||||||0.9062
82483943|NCT02376283|164661815|OTHER|A p value \< 0.05 was considered to be statistically significant.Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic,rows of STEMI vs NSTEMI/UA and different time points.P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||Continuous variables expressed as mean ± SD (standard deviation) and categorical variables as frequencies (%).Continuous variables analysed individually using student's independent sample t-tests. Categorical variables assessed using separate Fisher's exact (Chi-square) test.||||<0.05
82483944|NCT02376283|164661815|OTHER|Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001|||||||ANOVA|ANOVA F(3,36) = 12.282||STEMI- clop vs prasl vs tic||||< 0.0001
82483945|NCT02376283|164661815|OTHER|Comparison of means between groups assessed using ANOVA allowing comparison of more than 2 means and enabled assessment made of the relationship between different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001||||||Assessment made of relationship between groups-clop vs pras vs tic,rows of STEMI vs NSTEMI/UA and different time points.P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|ANOVA F(2,40) = 29.097||NSTEMI- clopidogrel vs prasugrel vs ticagrelor||||< 0.0001
82555660|NCT05288348|164819665|SUPERIORITY||Odds Ratio (OR)|0.0||||0.99|TWO_SIDED|95.0|-0.15|0.15|||Non parametric General Addative Model|||||0.15|-0.15|0.99
82555661|NCT05288348|164819665|SUPERIORITY||Odds Ratio (OR)|0.01||||0.96|TWO_SIDED|95.0|-0.16|0.15|||Non Parametric General Additive Model|||Adjusted||0.15|-0.16|0.96
82555662|NCT05288348|164819666|SUPERIORITY||Odds Ratio (OR)|0.01||||0.84|TWO_SIDED|95.0|-0.17|0.16|||Non Parametric General Additive Model|||||0.16|-0.17|0.84
82555663|NCT05288348|164819666|SUPERIORITY||Odds Ratio (OR)|0.02||||0.84|TWO_SIDED|95.0|-0.19|0.16|||Non Parametric Generalized Additive Mode|||Adjusted||0.16|-0.19|0.84
82555664|NCT05288348|164819667|SUPERIORITY||Odds Ratio (OR)|0.02||||0.81|TWO_SIDED|95.0|-0.17|0.22|||Non Parametric Generalized Additive Mode|||||0.22|-0.17|0.81
82555665|NCT05288348|164819667|SUPERIORITY||Odds Ratio (OR)|0.01||||0.91|TWO_SIDED|95.0|-0.2|0.22|||Non Parametric Generalized Additive Mode|||Adjusted||0.22|-0.20|0.91
82483946|NCT02376283|164661816|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||"Continuous variables were expressed as mean ± SEM (Standard Error of Measurement) and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||<0.05
82483947|NCT02376283|164661816|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||=|0.123|||||||ANOVA|ANOVA F(6,56)=1.707||STEMI- different drugs (as stated above)||||=0.123
82483948|NCT02376283|164661816|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel active metabolite vs prasugrel active metabolite vs ticagrelor parent compound and active metabolite), different clinical states (STEMI vs NSTEMI/UA (Unstable angina)) and different time points.|||||<|0.0001||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|ANOVA F(4,62)=18.932||NSTEMI- different drugs (as stated above)||||<0.0001
82483949|NCT02376283|164661817|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||<|0.05||||||Assessment made of relationship between groups-clop vs pras vs tic, rows of STEMI vs NSTEMI/UA and different time points. P-values reported are calculated values based on data collated during sample collection and review of clinical characteristics.|ANOVA|||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||<0.05
82483950|NCT02376283|164661817|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||=|0.81||||||STEMI- clopidogrel vs prasugrel vs ticagrelor|ANOVA|ANOVA F(3,17) = 0.321||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||=0.810
82483951|NCT02376283|164661817|OTHER|Comparison of means between groups was assessed using analysis of variance (ANOVA) technique. ANOVA allowed for a comparison of more than two means and enabled an assessment to be made of the relationship between, different drugs (clopidogrel vs prasugrel vs ticagrelor), different clinical states (STEMI vs NSTEMI/UA) and different time points.|||||<|0.0001||||||NSTEMI- clopi vs pras vs tic|ANOVA|ANOVA F(2,25) = 14.103||"Continuous variables were expressed as mean ± SD and categorical variables as frequencies (%).~Continuous variables were analysed individually using student's independent sample t-tests. Categorical variables were assessed using separate Fisher's exact (Chi-square) test."||||< 0.0001
82483952|NCT02380690|164661843|SUPERIORITY|ECLIPSE was powered to detect an effect size of 0.45.||||||0.981||||||Statistical significance was set at p\<0.05|Regression, Linear|||||||0.981
82483953|NCT02380690|164661844|SUPERIORITY|||||||0.774|||||||Regression, Linear|||||||0.774
82483954|NCT02380690|164661845|SUPERIORITY|Power was based on primary outcome.||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.546.|Regression, Linear|||||||0.999
82483955|NCT02380690|164661846|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.403.|Regression, Linear|||||||0.999
82483956|NCT02380690|164661847|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.452.|Regression, Linear|||||||0.999
82483957|NCT02380690|164661848|SUPERIORITY|||||||0.98||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.243.|Regression, Linear|||||||0.980
82483958|NCT02380690|164661849|SUPERIORITY|||||||0.864||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.133.|Regression, Linear|||||||0.864
82483959|NCT02380690|164661850|SUPERIORITY|||||||0.78||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.102.|Regression, Linear|||||||0.780
82483960|NCT02380690|164661851|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.536.|Regression, Linear|||||||0.999
82483961|NCT02380690|164661852|SUPERIORITY|||||||0.997||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.340.|Regression, Linear|||||||0.997
82555666|NCT05288348|164819668|SUPERIORITY||Odds Ratio (OR)|0.03||||0.74|TWO_SIDED|95.0|-0.25|0.18|||Non Parametric Generalized Additive Mode|||||0.18|-0.25|0.74
82555667|NCT05288348|164819668|SUPERIORITY||Odds Ratio (OR)|0.05||||0.63|TWO_SIDED|95.0|-0.3|0.18|||Non Parametric Generalized Additive Mode|||Adjusted||0.18|-0.30|0.63
82555668|NCT01260896|164819676|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.84|||||TWO_SIDED|90.0|100.54|113.54|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||113.54|100.54|
82555669|NCT01260896|164819677|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.34|||||TWO_SIDED|90.0|100.37|110.55|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||110.55|100.37|
82555670|NCT01260896|164819678|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.12|||||TWO_SIDED|90.0|97.8|108.73|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.73|97.80|
82555671|NCT01260896|164819679|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|114.21|||||TWO_SIDED|90.0|109.29|119.35|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||119.35|109.29|
82555672|NCT01260896|164819680|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|108.26|||||TWO_SIDED|90.0|104.84|111.79|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||111.79|104.84|
82555673|NCT01260896|164819681|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|97.75|||||TWO_SIDED|90.0|92.92|102.85|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||102.85|92.92|
82555674|NCT00003222|164819721|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Chi-squared|||This is a test for differences between the response rates of the two arms. The null hypothesis is that the arms have equal response rates and the alternative hypothesis is that they are different.||||0.13
82555675|NCT00003222|164819722|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||This is a test for differences between the response rates of the two arms. The null hypothesis is that the arms have equal response rates and the alternative hypothesis is that they are different.||||0.004
82555676|NCT04612244|164819734|NON_INFERIORITY|"PT will be deemed to be non-inferior to PC if it can be established that the posterior probability Pr(HA \| data) \> Ψeff, where Ψeff is a pre-specified threshold value that controls the one-sided type I error rate (under simulation) at level 0.05. In the absence of missing data, the posterior distributions for PT and PC would be conjugate Beta distributions."||||||0.05|||||||t-test, 1 sided|||"The primary effectiveness endpoint for this study is Treatment Success, which will be analyzed as a test of non-inferiority of the event rate at 12 months using a noninferiority margin of 15%.~The null and alternative hypotheses are:~H0: PT ≤ PC - 0.15 versus HA: PT \> PC - 0.15 where PT is the Treatment Success rate at 12 months in the Pulsed Field Group and PC is the Treatment Success rate at 12 months in the Thermal (Control) Group."||||0.05
82555677|NCT04612244|164819736|SUPERIORITY|"The null and alternative hypotheses are provided below. H0: PT ≤ PC versus HA: PT \> PC where PT is the Treatment Success rate at 12 months in the Pulsed Field Group, and PC is the Treatment Success rate at 12 months in the Thermal Group.~Modeling will be identical primary endpoint and superiority concluded if the posterior probability Pr(HA \| data) \> Ψeff, sup, where the threshold Ψeff,sup is a pre-specified threshold value that controls the one-sided type I error rate at level 0.025."|Median Difference (Final Values)|0.708||||0.025|ONE_SIDED|97.5|||||t-test, 1 sided|||The secondary effectiveness endpoint for the ADVENT Trial is Treatment Superiority uses the same definition as the primary effectiveness endpoint for Treatment Success, but the test is for superiority between MITT subjects in the PFA and Thermal Groups.||||0.025
82555678|NCT03213457|164819774|SUPERIORITY||Odds Ratio (OR)|5.51|||<|0.001|TWO_SIDED|95.0|3.711|8.176||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||8.176|3.711|< 0.001
82555679|NCT03213457|164819774|SUPERIORITY||Odds Ratio (OR)|4.33|||<|0.001|TWO_SIDED|95.0|2.968|6.331||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 12||6.331|2.968|< 0.001
82555680|NCT03213457|164819775|SUPERIORITY||Odds Ratio (OR)|1.82|||<|0.001|TWO_SIDED|95.0|1.275|2.605||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||2.605|1.275|< 0.001
82555681|NCT03213457|164819775|SUPERIORITY||Odds Ratio (OR)|1.63||||0.007|TWO_SIDED|95.0|1.146|2.326||P-value for test of difference is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 12||2.326|1.146|0.007
82581916|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-2.0|-1.1||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||-1.1|-2|< 0.0001
82483962|NCT02380690|164661853|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.384.|Regression, Linear|||||||0.999
82483963|NCT02380690|164661854|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.730.|Regression, Linear|||||||0.999
82483964|NCT02380690|164661855|SUPERIORITY|||||||0.914||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.161.|Regression, Linear|||||||0.914
82483965|NCT02380690|164661856|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.930.|Regression, Linear|||||||0.999
82483966|NCT02380690|164661857|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.379.|Regression, Linear|||||||0.999
82483967|NCT02380690|164661858|SUPERIORITY|||||||0.999||||||Statistical significance was set at p\<0.05. A Sidak adjustment was used to account for multiple comparisons. Unadjusted p-value = 0.969.|Regression, Linear|||||||0.999
82483968|NCT00266864|164661859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4|STANDARD_DEVIATION|2.7|<|0.01|TWO_SIDED|95.0||||One sample t -tests were performed on the percent change from baseline to month 12 \[(month 12- baseline)/baseline\*100\] for comparison to the null hypothesis. An a priori level of significance was set at p ≤ 0.05.|ANOVA|||Separate 2 factor (group: treatment, control) analysis of variance (ANOVA) with repeated measures on visit (baseline, month 12) were performed to identify changes in lean tissue mass across time. To further characterize significant main and interaction effects, post-hoc paired t -tests were performed within group.||||<0.01
82483969|NCT00266864|164661860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|101.0|STANDARD_DEVIATION|103.0||0.051|TWO_SIDED|95.0||||One sample t -tests were performed on the percent change from baseline to month 12 \[(month 12- baseline)/baseline\*100\] for comparison to the null hypothesis. An a priori level of significance was set at p ≤ 0.05.|ANOVA|||Separate 2 factor (group: treatment, control) analysis of variance (ANOVA) with repeated measures on visit (baseline, month 12) were performed to identify changes in resting energy expenditure across time. To further characterize significant main and interaction effects, post-hoc paired t -tests were performed within group.||||0.051
82555682|NCT03213457|164819776|SUPERIORITY||Least Squares (LS) Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.094|<|0.001|TWO_SIDED|95.0|-1.18|-0.809||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|mixed model repeated measures (MMRM)|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.809|-1.180|< 0.001
82555683|NCT03213457|164819777|SUPERIORITY||LS Mean of Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.088|<|0.001|TWO_SIDED|95.0|-1.19|-0.845||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.845|-1.190|< 0.001
82581917|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-2.0|-1.2||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.2|-2|< 0.0001
82581918|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-2.3|-1.4||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 16||-1.4|-2.3|< 0.0001
82483970|NCT02338336|164661861|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82483971|NCT03687970|164661875|OTHER|Multivariable logistic regression was applied to predict binary outcome while controlling for other potential confounding factors (age, cumulative chemotherapy dose, chemotherapy group).|Slope|-0.13||||0.05|TWO_SIDED|||||threshold for p value is 0.05.|Regression, Logistic|||||||0.05
82483972|NCT03687970|164661876|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|0.22||||0.7525|TWO_SIDED|||||The thrshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.7525
82483973|NCT03687970|164661876|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for Control group patients without painful CIPN was calculated.|rho coefficient|0.32||||0.1876|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficien|||||||0.1876
82483974|NCT03687970|164661876|OTHER|Spearman correlation coefficient between the Aδ:C fiber pain threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|0.13||||0.61|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.61
82483975|NCT03687970|164661876|OTHER|Spearman correlation coefficient between the Aδ:C fiber detection threshold ratio and the severity of painful CIPN on NPSI scale for patients with painful CIPN was calculated.|rho coefficient|-0.2812205||||0.2914|TWO_SIDED|||||The threshold for p value is 0.05.|Spearman's correlation coefficient|||||||0.2914
82483976|NCT03119701|164661878|SUPERIORITY||Odds Ratio (OR)|1.3||||0.78|TWO_SIDED|95.0|0.21|8.19||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||8.19|0.21|0.78
82483977|NCT03119701|164661879|SUPERIORITY||Odds Ratio (OR)|1.7||||0.57|TWO_SIDED|95.0|0.28|10.52||The threshold for statistical significance was p = 0.05.|Regression, Logistic|||||10.52|0.28|0.57
82483978|NCT03119701|164661880|SUPERIORITY|||||||0.08||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||0.08
82483979|NCT03119701|164661882|SUPERIORITY||||||>|0.999||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||>0.999
82483980|NCT03119701|164661885|SUPERIORITY|||||||0.362||||||The threshold for statistical significance was p = 0.05.|Mantel Haenszel|Exact Mantel-Haenszel Chi-Square Test||||||0.3620
82483981|NCT03119701|164661888|SUPERIORITY||||||<|0.0001||||||Day 2, Day 3, Day 4, Day 5, and Day 6.|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||<.0001
82483982|NCT03119701|164661888|SUPERIORITY|||||||0.13||||||Baseline visit|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.13
82483983|NCT03119701|164661888|SUPERIORITY|||||||0.0035||||||Day 1|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.0035
82483984|NCT03119701|164661888|SUPERIORITY|||||||0.009||||||Day 9|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.009
82483985|NCT03119701|164661888|SUPERIORITY|||||||0.1||||||Day 13|ANOVA|Repeated measures ANOVA||The lower limit of quantification (LLOQ) is equal 5 ng/ml. Values below the LLOQ were set to LLOQ/2 = 2.5 ng/ml. Values over the upper limit of quantitation (ULOQ) were set to 320 ng/ml.||||0.10
82483986|NCT03119701|164661889|SUPERIORITY|||||||0.66||||||The threshold for statistical significance was p = 0.05.|ANOVA|Repeated measures ANOVA||Patients with an observation below the lower limit of quantification (LLOQ) value at baseline for CD73 were set to have the LLOQ value (LLOQ = 4 ng/ml) at baseline for subgroup determination purposes (2-fold increase in CD73 from baseline). Values below the LLOQ were set to LLOQ/2 = 2 ng/mL.||||0.66
82483987|NCT03119701|164661890|SUPERIORITY|||||||0.3||||||The threshold for statistical significance was p = 0.05.|ANOVA|Repeated measures ANOVA||Observations of zero were imputed as 1 pg/ml before logarithmic transformation.||||0.3
82581919|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-2.2|-1.3||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.3|-2.2|< 0.0001
82483988|NCT03607422|164661892|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|59.6|||<|0.001|TWO_SIDED|95.0|53.1|66.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||66.2|53.1|<0.001
82581920|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.4|-1.5||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 20||-1.5|-2.4|< 0.0001
82483989|NCT03607422|164661892|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|46.9|||<|0.001|TWO_SIDED|95.0|39.9|53.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.9|39.9|<0.001
82483990|NCT03607422|164661893|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|47.4|||<|0.001|TWO_SIDED|95.0|41.0|53.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||53.7|41.0|<0.001
82483991|NCT03607422|164661893|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|34.0|||<|0.001|TWO_SIDED|95.0|27.8|40.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||40.2|27.8|<0.001
82483992|NCT03607422|164661894|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.4|||<|0.001|TWO_SIDED|95.0|43.8|57.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.1|43.8|<0.001
82483993|NCT03607422|164661894|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|32.6|||<|0.001|TWO_SIDED|95.0|25.8|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||39.4|25.8|<0.001
82483994|NCT03607422|164661895|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|46.7|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.4|46.7|<0.001
82483995|NCT03607422|164661895|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|36.9|||<|0.001|TWO_SIDED|95.0|30.6|43.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.3|30.6|<0.001
82483996|NCT03607422|164661896|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|57.0|||<|0.001|TWO_SIDED|95.0|50.9|63.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||63.0|50.9|<0.001
82483997|NCT03607422|164661896|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|38.9|51.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||51.4|38.9|<0.001
82483998|NCT03607422|164661897|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.4|||<|0.001|TWO_SIDED|95.0|34.2|46.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.5|34.2|<0.001
82483999|NCT03607422|164661897|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|29.4|||<|0.001|TWO_SIDED|95.0|23.5|35.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||35.3|23.5|<0.001
82484000|NCT03607422|164661898|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|14.9|||<|0.001|TWO_SIDED|95.0|10.6|19.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||19.3|10.6|<0.001
82484001|NCT03607422|164661898|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|6.7|||<|0.001|TWO_SIDED|95.0|3.4|10.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||10.0|3.4|<0.001
82484002|NCT03607422|164661899|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|7.2|||<|0.001|TWO_SIDED|95.0|3.8|10.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||10.5|3.8|<0.001
82555684|NCT03213457|164819778|SUPERIORITY||LS Mean of Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.085|<|0.001|TWO_SIDED|95.0|-1.156|-0.823||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.823|-1.156|< 0.001
82555685|NCT03213457|164819779|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.073||0.002|TWO_SIDED|95.0|-0.367|-0.08||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.080|-0.367|0.002
82581921|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-2.5|-1.7||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.7|-2.5|< 0.0001
82484003|NCT03607422|164661900|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|8.6|||<|0.001|TWO_SIDED|95.0|4.3|12.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||12.9|4.3|<0.001
82484004|NCT03607422|164661901|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-23.1|||<|0.001|TWO_SIDED|95.0|-28.4|-17.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-17.8|-28.4|<0.001
82484005|NCT03607422|164661901|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|-22.4|||<|0.001|TWO_SIDED|95.0|-27.8|-16.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||-16.9|-27.8|<0.001
82484006|NCT03607422|164661902|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|49.8|||<|0.001|TWO_SIDED|95.0|42.2|57.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||57.3|42.2|<0.001
82555686|NCT03213457|164819780|SUPERIORITY||LS Mean of Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.062|<|0.001|TWO_SIDED|95.0|-0.329|-0.085||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.085|-0.329|< 0.001
82555687|NCT03213457|164819781|SUPERIORITY||LS Mean of Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.056||0.004|TWO_SIDED|95.0|-0.27|-0.05||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.050|-0.270|0.004
82555688|NCT03213457|164819782|SUPERIORITY||LS Mean of Difference|-2.51|STANDARD_ERROR_OF_MEAN|0.9||0.005|TWO_SIDED|95.0|-4.283|-0.746||P-value for test of difference at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.746|-4.283|0.005
82555689|NCT03213457|164819783|SUPERIORITY||LS Mean of Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.098||0.284|TWO_SIDED|95.0|-0.298|0.088||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||0.088|-0.298|0.284
82581922|NCT04797650|164875564|SUPERIORITY||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|-2.8|-1.8||P-value was calculated by MMRM with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||-1.8|-2.8|< 0.0001
82484007|NCT03607422|164661902|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|30.1|45.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||45.8|30.1|<0.001
82555690|NCT03213457|164819784|SUPERIORITY||LS Mean of Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.092||0.286|TWO_SIDED|95.0|-0.279|0.083||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||0.083|-0.279|0.286
82555691|NCT03213457|164819785|SUPERIORITY||LS Mean of Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.079||0.005|TWO_SIDED|95.0|-0.375|-0.066||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.066|-0.375|0.005
82555692|NCT03213457|164819786|SUPERIORITY||LS Mean of Difference|-2.49|STANDARD_ERROR_OF_MEAN|1.158||0.032|TWO_SIDED|95.0|-4.773|-0.216||P-value for test of difference at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.216|-4.773|0.032
82555693|NCT03213457|164819787|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.322|<|0.001|TWO_SIDED|95.0|-1.774|-0.508||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.508|-1.774|< 0.001
82555694|NCT03213457|164819788|SUPERIORITY||LS Mean of Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.303|<|0.001|TWO_SIDED|95.0|-1.978|-0.788||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.788|-1.978|< 0.001
82555695|NCT03213457|164819789|SUPERIORITY||LS Mean of Difference|-1.46|STANDARD_ERROR_OF_MEAN|0.276|<|0.001|TWO_SIDED|95.0|-2.002|-0.915||P value for the test of the difference is from an MMRM with the fixed categorical effects of treatment, visit, and treatment-by-visit interaction, and the continuous fixed covariate of baseline pain score, and random effect for participant.|MMRM|||Ranked secondary endpoints were tested following a fixed-sequence testing procedure. Testing began with testing each of the co-primary endpoints using alpha of 0.05 (2-sided) for elagolix plus E2/NETA compared to placebo. If both co-primary endpoints achieved statistical significance with elagolix plus E2/NETA as compared to placebo, continued testing was performed for the ranked secondary endpoints following a fixed-sequence testing procedure in the order of endpoints presented.||-0.915|-2.002|< 0.001
82555696|NCT02951052|164819790|NON_INFERIORITY|Non-inferiority in the proportion of participants with virologic failure at Week 48 (per FDA's snapshot algorithm for assessing HIV-1 RNA \>=50 copies/mL) can be concluded if the upper bound of a two-sided 95% confidence interval for the difference in failure rates between the two treatment arms (CAB - current ART) is not more than 6%.|Adjusted difference in proportion|0.6|||||TWO_SIDED|95.0|-1.2|2.5|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Baseline third agent (PI, NNRTI, INI).|||2.5|-1.2|
82555697|NCT02951052|164819791|NON_INFERIORITY|Non-inferiority in the proportion of participants with HIV-1 RNA\<50 c/mL at Week 48 (per FDA's snapshot algorithm) can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in success rates between the two treatment arms (CAB - current ART) is more than -10%.|Adjusted difference in proportion|-3.0|||||TWO_SIDED|95.0|-6.7|0.7|||||Adjusted difference in proportion was based on Cochran-Mantel Haenszel stratified analysis adjusting for the following baseline stratification factors: sex at birth (Male, Female) and Baseline third agent (PI, NNRTI, INI).|||0.7|-6.7|
82555698|NCT02951052|164819865|OTHER||Adjusted difference|-0.1||||0.944|TWO_SIDED|95.0|-2.4|2.2|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||2.2|-2.4|0.944
82555699|NCT02951052|164819865|OTHER||Adjusted difference|1.0||||0.385|TWO_SIDED|95.0|-1.3|3.4|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||3.4|-1.3|0.385
82555700|NCT02951052|164819866|OTHER||Adjusted difference|4.9|||<|0.001|TWO_SIDED|95.0|2.8|7.1|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||7.1|2.8|<0.001
82555701|NCT02951052|164819866|OTHER||Adjusted difference|6.4|||<|0.001|TWO_SIDED|95.0|4.0|8.8|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||8.8|4.0|<0.001
82555702|NCT02951052|164819867|OTHER||Adjusted difference|5.3||||0.008|TWO_SIDED|95.0|1.4|9.1|||ANCOVA||Treatment comparison at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||9.1|1.4|0.008
82484008|NCT03607422|164661903|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|51.8|||<|0.001|TWO_SIDED|95.0|44.4|59.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||59.1|44.4|<0.001
82484009|NCT03607422|164661903|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|35.9|||<|0.001|TWO_SIDED|95.0|28.2|43.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||43.5|28.2|<0.001
82484010|NCT03607422|164661904|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|53.3|||<|0.001|TWO_SIDED|95.0|46.0|60.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||60.6|46.0|<0.001
82484011|NCT03607422|164661904|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.3|||<|0.001|TWO_SIDED|95.0|32.7|48.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||48.0|32.7|<0.001
82484012|NCT03607422|164661905|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|54.8|||<|0.001|TWO_SIDED|95.0|47.2|62.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||62.3|47.2|<0.001
82484013|NCT03607422|164661905|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|40.3|||<|0.001|TWO_SIDED|95.0|32.3|48.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||48.3|32.3|<0.001
82484014|NCT03607422|164661906|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|50.6|||<|0.001|TWO_SIDED|95.0|42.8|58.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||58.5|42.8|<0.001
82484015|NCT03607422|164661906|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|37.9|||<|0.001|TWO_SIDED|95.0|29.5|46.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||46.3|29.5|<0.001
82484016|NCT03607422|164661907|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|18.1|||<|0.0001|TWO_SIDED|95.0|13.5|22.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||22.7|13.5|<0.0001
82484017|NCT03607422|164661907|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer.|Adjusted Response Rate Difference|13.4|||<|0.001|TWO_SIDED|95.0|9.2|17.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||17.6|9.2|<0.001
82555703|NCT02951052|164819867|OTHER||Adjusted difference|2.0||||0.347|TWO_SIDED|95.0|-2.2|6.2|||ANCOVA||||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|6.2|-2.2|0.347
82555704|NCT02951052|164819868|OTHER||Adjusted difference|0.2||||0.344|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA||Treatment comparison of SF-12 total scores at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||0.7|-0.2|0.344
82555705|NCT02951052|164819868|OTHER||Adjusted difference|-0.1||||0.785|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA||Treatment comparison of SF-12 total scores at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||0.4|-0.6|0.785
82555706|NCT02951052|164819868|OTHER||Adjusted difference|0.676||||0.282|TWO_SIDED|95.0|-0.557|1.909|||ANCOVA||Treatment comparison of SF-12 MCS at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||1.909|-0.557|0.282
82484018|NCT03607422|164661908|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for European Union (EU)/European Medicines Agency (EMA) regulatory purposes only.|Least Squares (LS) Mean Difference|-49.45|STANDARD_ERROR_OF_MEAN|3.364|<|0.001|TWO_SIDED|95.0|-56.05|-42.84|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-42.84|-56.05|<0.001
82484019|NCT03607422|164661908|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-34.16|STANDARD_ERROR_OF_MEAN|3.386|<|0.001|TWO_SIDED|95.0|-40.81|-27.51|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-27.51|-40.81|<0.001
82484020|NCT03607422|164661909|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-50.14|STANDARD_ERROR_OF_MEAN|3.127|<|0.001|TWO_SIDED|95.0|-56.28|-44.0|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-44.00|-56.28|<0.001
82484021|NCT03607422|164661909|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-39.62|STANDARD_ERROR_OF_MEAN|3.139|<|0.001|TWO_SIDED|95.0|-45.79|-33.46|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-33.46|-45.79|<0.001
82484022|NCT03607422|164661910|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|54.7|||<|0.001|TWO_SIDED|95.0|47.7|61.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||61.7|47.7|<0.001
82484023|NCT03607422|164661910|SUPERIORITY||Adjusted Response Rate Difference|42.1|||<|0.001|TWO_SIDED|95.0|34.5|49.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.||49.8|34.5|<0.001
82484024|NCT03607422|164661911|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|49.0|||<|0.001|TWO_SIDED|95.0|41.4|56.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||56.5|41.4|<0.001
82555707|NCT02951052|164819868|OTHER||Adjusted difference|0.635||||0.327|TWO_SIDED|95.0|-0.637|1.907|||ANCOVA||Treatment comparison of SF-12 MCS at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||1.907|-0.637|0.327
82555708|NCT02951052|164819868|OTHER||Adjusted difference|0.697||||0.086|TWO_SIDED|95.0|-0.1|1.494|||ANCOVA||Treatment comparison of SF-12 PCS at Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||1.494|-0.100|0.086
82555709|NCT02951052|164819868|OTHER||Adjusted difference|0.696||||0.092|TWO_SIDED|95.0|-0.113|1.505|||ANCOVA||Treatment comparison of SF-12 PCS at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||1.505|-0.113|0.092
82555710|NCT02951052|164819871|OTHER||Adjusted difference|7.9|||<|0.001|TWO_SIDED|95.0|4.1|11.7|||ANCOVA||Treatment comparison at Week 8 for the groups CAB LA+ RPV LA and current ART is presented.|||11.7|4.1|<0.001
82555711|NCT02951052|164819871|OTHER||Adjusted difference|6.9|||<|0.001|TWO_SIDED|95.0|3.3|10.4|||ANCOVA||Treatment comparison Week 24 for the groups CAB LA+ RPV LA and current ART is presented.|||10.4|3.3|<0.001
82555712|NCT02951052|164819871|OTHER||Adjusted difference|10.7|||<|0.001|TWO_SIDED|95.0|7.1|14.4|||ANCOVA||Treatment comparison at Week 48 for the groups CAB LA+ RPV LA and current ART is presented.|||14.4|7.1|<0.001
82555713|NCT03473223|164819901|SUPERIORITY||Hazard Ratio (HR)|0.925||||0.121|TWO_SIDED|95.0|0.8126|1.0538||1-sided p-value.|Cox proportional hazards regression|||||1.0538|0.8126|0.121
82555714|NCT03473223|164819902|SUPERIORITY||Rate ratio|0.971||||0.341|TWO_SIDED|95.0|0.8442|1.1171||1-sided p-value|Negative binomial regression model|||||1.1171|0.8442|0.341
82555715|NCT03473223|164819903|SUPERIORITY||Hazard Ratio (HR)|0.907||||0.038|TWO_SIDED|95.0|0.8132|1.0106||1-sided p-value.|Cox proportional hazards regression|||||1.0106|0.8132|0.038
82484025|NCT03607422|164661911|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|42.8||||0.002|TWO_SIDED|95.0|35.0|50.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||50.6|35.0|0.002
82484026|NCT03607422|164661912|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-40.01|STANDARD_ERROR_OF_MEAN|2.949|<|0.001|TWO_SIDED|95.0|-45.8|-34.22|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.|Difference = Upadacitinib - Placebo|||-34.22|-45.80|<0.001
82484027|NCT03607422|164661912|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|LS Mean Difference|-29.47|STANDARD_ERROR_OF_MEAN|2.941|<|0.001|TWO_SIDED|95.0|-35.24|-23.69|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, Baseline vIGA-AD category and age in the model.||||-23.69|-35.24|<0.001
82484028|NCT03607422|164661913|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|44.5|||<|0.001|TWO_SIDED|95.0|35.0|54.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||54.1|35.0|<0.001
82484029|NCT03607422|164661913|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|34.4|||<|0.001|TWO_SIDED|95.0|24.7|44.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||44.2|24.7|<0.001
82484030|NCT03607422|164661914|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 30 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|33.3|||<|0.001|TWO_SIDED|95.0|26.9|39.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||39.8|26.9|<0.001
82484031|NCT03607422|164661914|SUPERIORITY|The overall type I error rate of the primary and secondary endpoints for upadacitinib 15 mg was strongly controlled using a graphical multiple testing procedure at the two-sided 0.05 level following a pre-specified α transfer path which includes downstream transfer along the endpoints sequence within each dose as well as cross-dose transfer. This endpoint was a multiplicity-controlled key secondary endpoint for EU/EMA regulatory purposes only.|Adjusted Response Rate Difference|19.1|||<|0.001|TWO_SIDED|95.0|13.3|24.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for strata (Baseline vIGA-AD categories and age \[adolescent vs. adult\])|Response Rate Difference = Upadacitinib - Placebo|||24.9|13.3|<0.001
82484032|NCT03607422|164661915|SUPERIORITY||Adjusted Response Rate Difference|59.9|||<|0.001|TWO_SIDED|95.0|45.9|73.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||73.8|45.9|<0.001
82484033|NCT03607422|164661915|SUPERIORITY||Adjusted Response Rate Difference|55.8|||<|0.001|TWO_SIDED|95.0|41.1|70.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.4|41.1|<0.001
82484034|NCT03607422|164661916|SUPERIORITY||Adjusted Response Rate Difference|53.9|||<|0.001|TWO_SIDED|95.0|40.6|67.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||67.3|40.6|<0.001
82484035|NCT03607422|164661916|SUPERIORITY||Adjusted Response Rate Difference|39.4|||<|0.001|TWO_SIDED|95.0|25.7|53.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.1|25.7|<0.001
82484036|NCT03607422|164661917|SUPERIORITY||Adjusted Response Rate Difference|53.1|||<|0.001|TWO_SIDED|95.0|40.0|66.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||66.1|40.0|<0.001
82484037|NCT03607422|164661917|SUPERIORITY||Adjusted Response Rate Difference|35.0|||<|0.001|TWO_SIDED|95.0|21.8|48.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.2|21.8|<0.001
82555716|NCT03473223|164819904|SUPERIORITY||Hazard Ratio (HR)|0.933||||0.069|TWO_SIDED|95.0|0.8511|1.0224||1-sided p-value.|Cox proportional hazards regression|||||1.0224|0.8511|0.069
82555717|NCT03473223|164819905|SUPERIORITY||Hazard Ratio (HR)|0.827||||0.074|TWO_SIDED|95.0|0.6399|1.0695||1-sided p-value.|Cox proportional hazards regression|||||1.0695|0.6399|0.074
82484038|NCT03607422|164661918|SUPERIORITY||Adjusted Response Rate Difference|60.2|||<|0.001|TWO_SIDED|95.0|47.5|72.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.9|47.5|<0.001
82484039|NCT03607422|164661918|SUPERIORITY||Adjusted Response Rate Difference|46.7|||<|0.001|TWO_SIDED|95.0|33.4|59.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.9|33.4|<0.001
82484040|NCT03607422|164661919|SUPERIORITY||Adjusted Response Rate Difference|46.4|||<|0.001|TWO_SIDED|95.0|33.2|59.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.6|33.2|<0.001
82484041|NCT03607422|164661919|SUPERIORITY||Adjusted Response Rate Difference|34.9|||<|0.001|TWO_SIDED|95.0|21.4|48.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.4|21.4|<0.001
82484042|NCT03607422|164661920|SUPERIORITY||Adjusted Response Rate Difference|46.2|||<|0.001|TWO_SIDED|95.0|32.4|60.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||60.0|32.4|<0.001
82484043|NCT03607422|164661920|SUPERIORITY||Adjusted Response Rate Difference|31.3|||<|0.001|TWO_SIDED|95.0|17.3|45.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||45.3|17.3|<0.001
82484044|NCT03607422|164661921|SUPERIORITY||Adjusted Response Rate Difference|5.0||||0.075|TWO_SIDED|95.0|-0.5|10.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||10.6|-0.5|0.075
82484045|NCT03607422|164661921|SUPERIORITY||Adjusted Response Rate Difference|12.7||||0.005|TWO_SIDED|95.0|3.9|21.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||21.5|3.9|0.005
82484046|NCT03607422|164661922|SUPERIORITY||Adjusted Response Rate Difference|3.2||||0.151|TWO_SIDED|95.0|-1.2|7.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||7.6|-1.2|0.151
82484047|NCT03607422|164661923|SUPERIORITY||Adjusted Response Rate Difference|12.9||||0.008|TWO_SIDED|95.0|3.4|22.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||22.3|3.4|0.008
82484048|NCT03607422|164661924|SUPERIORITY||Adjusted Response Rate Difference|-18.0|||<|0.001|TWO_SIDED|95.0|-28.0|-8.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-8.0|-28.0|<0.001
82555718|NCT03473223|164819906|SUPERIORITY||Hazard Ratio (HR)|0.909||||0.113|TWO_SIDED|95.0|0.7801|1.0603||1-sided p-value.|Cox proportional hazards regression|||||1.0603|0.7801|0.113
82484049|NCT03607422|164661924|SUPERIORITY||Adjusted Response Rate Difference|-17.9||||0.001|TWO_SIDED|95.0|-28.1|-7.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||-7.7|-28.1|0.001
82484050|NCT03607422|164661925|SUPERIORITY||Adjusted Response Rate Difference|51.5|||<|0.001|TWO_SIDED|95.0|34.8|68.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.3|34.8|<0.001
82484051|NCT03607422|164661925|SUPERIORITY||Adjusted Response Rate Difference|29.2||||0.001|TWO_SIDED|95.0|11.8|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||46.6|11.8|0.001
82484052|NCT03607422|164661926|SUPERIORITY||Adjusted Response Rate Difference|53.2|||<|0.001|TWO_SIDED|95.0|38.4|68.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.0|38.4|<0.001
82484053|NCT03607422|164661926|SUPERIORITY||Adjusted Response Rate Difference|31.8|||<|0.001|TWO_SIDED|95.0|16.5|47.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||47.1|16.5|<0.001
82484054|NCT03607422|164661927|SUPERIORITY||Adjusted Response Rate Difference|48.9|||<|0.001|TWO_SIDED|95.0|33.8|64.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||64.1|33.8|<0.001
82484055|NCT03607422|164661927|SUPERIORITY||Adjusted Response Rate Difference|37.3|||<|0.001|TWO_SIDED|95.0|21.1|53.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||53.6|21.1|<0.001
82484056|NCT03607422|164661928|SUPERIORITY||Adjusted Response Rate Difference|53.8|||<|0.001|TWO_SIDED|95.0|37.4|70.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||70.2|37.4|<0.001
82484057|NCT03607422|164661928|SUPERIORITY||Adjusted Response Rate Difference|42.0|||<|0.001|TWO_SIDED|95.0|24.3|59.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.7|24.3|<0.001
82484058|NCT03607422|164661929|SUPERIORITY||Adjusted Response Rate Difference|45.3|||<|0.001|TWO_SIDED|95.0|28.0|62.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||62.7|28.0|<0.001
82484059|NCT03607422|164661929|SUPERIORITY||Adjusted Response Rate Difference|29.8||||0.002|TWO_SIDED|95.0|10.7|48.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||48.8|10.7|0.002
82555719|NCT03473223|164819907|SUPERIORITY||Hazard Ratio (HR)|1.153||||0.767|TWO_SIDED|95.0|0.7867|1.6886||1-sided p-value.|Cox proportional hazards regression|||||1.6886|0.7867|0.767
82555720|NCT03373916|164819959|OTHER|||||||0.58|||||||Chi-squared|||||||0.58
82484060|NCT03607422|164661930|SUPERIORITY||Adjusted Response Rate Difference|17.1|||<|0.001|TWO_SIDED|95.0|7.5|26.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||26.7|7.5|<0.001
82484061|NCT03607422|164661930|SUPERIORITY||Adjusted Response Rate Difference|13.7||||0.006|TWO_SIDED|95.0|3.9|23.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||23.5|3.9|0.006
82484062|NCT03607422|164661931|SUPERIORITY||LS Mean Difference|-55.93|STANDARD_ERROR_OF_MEAN|7.284|<|0.001|TWO_SIDED|95.0|-70.32|-41.55|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-41.55|-70.32|<0.001
82484063|NCT03607422|164661931|SUPERIORITY||LS Mean Difference|-36.54|STANDARD_ERROR_OF_MEAN|7.384|<|0.001|TWO_SIDED|95.0|-51.12|-21.96|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-21.96|-51.12|<0.001
82484064|NCT03607422|164661932|SUPERIORITY||LS Mean Difference|-42.62|STANDARD_ERROR_OF_MEAN|6.432|<|0.001|TWO_SIDED|95.0|-55.34|-29.9|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-29.90|-55.34|<0.001
82484065|NCT03607422|164661932|SUPERIORITY||LS Mean Difference|-35.66|STANDARD_ERROR_OF_MEAN|6.447|<|0.001|TWO_SIDED|95.0|-48.41|-22.9|||Mixed Effect Model Repeated Measurement|Mixed-Effect Model Repeat Measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category in the model.|Difference = Upadacitinib - Placebo|||-22.90|-48.41|<0.001
82484066|NCT03607422|164661933|SUPERIORITY||Adjusted Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|36.9|68.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||68.1|36.9|<0.001
82484067|NCT03607422|164661933|SUPERIORITY||Adjusted Response Rate Difference|38.1|||<|0.001|TWO_SIDED|95.0|21.2|54.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||54.9|21.2|<0.001
82484068|NCT03607422|164661934|SUPERIORITY||Adjusted Response Rate Difference|55.9|||<|0.001|TWO_SIDED|95.0|35.5|76.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||76.3|35.5|<0.001
82484069|NCT03607422|164661934|SUPERIORITY||Adjusted Response Rate Difference|49.6|||<|0.001|TWO_SIDED|95.0|26.3|72.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||72.9|26.3|<0.001
82555721|NCT03373916|164819960|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82555722|NCT03373916|164819961|OTHER|||||||0.18|||||||Chi-squared|||||||0.18
82484070|NCT03607422|164661935|SUPERIORITY||LS Mean Difference|-44.9|STANDARD_ERROR_OF_MEAN|6.492|<|0.001|TWO_SIDED|95.0|-57.74|-32.06|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-32.06|-57.74|<0.001
82484071|NCT03607422|164661935|SUPERIORITY||LS Mean Difference|-29.98|STANDARD_ERROR_OF_MEAN|6.383|<|0.001|TWO_SIDED|95.0|-42.6|-17.36|||Mixed Effect Model Repeated Measurement|Mixed-effect model repeat measurement with Baseline, treatment, visit, treatment by visit interaction, and Baseline vIGA-AD category|Difference = Upadacitinib - Placebo|||-17.36|-42.60|<0.001
82484072|NCT03607422|164661936|SUPERIORITY||Adjusted Response Rate Difference|27.8||||0.016|TWO_SIDED|95.0|5.2|50.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||50.4|5.2|0.016
82484073|NCT03607422|164661936|SUPERIORITY||Adjusted Response Rate Difference|22.3||||0.062|TWO_SIDED|95.0|-1.1|45.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||45.7|-1.1|0.062
82484074|NCT03607422|164661937|SUPERIORITY||Adjusted Response Rate Difference|38.9|||<|0.001|TWO_SIDED|95.0|18.4|59.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||59.4|18.4|<0.001
82484075|NCT03607422|164661937|SUPERIORITY||Adjusted Response Rate Difference|5.9||||0.51|TWO_SIDED|95.0|-11.7|23.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (Baseline vIGA-AD categories)|Response Rate Difference = Upadacitinib - Placebo|||23.6|-11.7|0.510
82484076|NCT03718871|164661941|SUPERIORITY||intracluster correlation coefficient|0.086|||<|0.001|TWO_SIDED|95.0|0.015|0.363||The threshold for significance was set at p \< 0.05.|Fisher Exact|||Given that the intervention arm showed 100% uptake, a multi-level regression model could not be created with a zero in the denominator in the intervention group. We therefore used Fisher's exact test to assess for significant differences in proportion of HIV testing between study arms.||0.363|0.015|<0.001
82484077|NCT03718871|164661942|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82484078|NCT03718871|164661943|SUPERIORITY|||||||0.015|||||||Fisher Exact|||||||0.015
82555723|NCT03373916|164819962|OTHER|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82555724|NCT03373916|164819963|OTHER|||||||0.35|||||||Wilcoxon (Mann-Whitney)|||||||0.35
82555725|NCT01288443|164819982|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||"Each treatment group was compared to placebo using ANCOVA-derived contrasts.~A hierarchical testing procedure was applied to ensure strong control of overall Type-I error rate at 0.05 level. Order was following:~1. Alirocumab 150 mg Q2W versus placebo~2. Alirocumab 300 mg Q4W versus placebo~3. Alirocumab 100 mg Q2W versus placebo~4. Alirocumab 200 mg Q4W versus placebo~5. Alirocumab 50 mg Q2W versus placebo~Testing continued only when high-order test was statistically significant at 5% level"||||<0.0001
82555726|NCT01288443|164819982|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
82555727|NCT01288443|164819982|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
82555728|NCT01288443|164819982|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
82484079|NCT03718871|164661944|OTHER|No comparison between study arm groups was made in this analysis, as it was limited to control arm only.|Odds Ratio (OR)|1.04|STANDARD_DEVIATION|0.039|<|0.01|TWO_SIDED|95.0|1.02|1.06||Significance threshold two-sided alpha = 0.05|Regression, Linear|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.06|1.02|<0.01
82484080|NCT03718871|164661945|OTHER|No comparison was made with the intervention arm|Odds Ratio (OR)|0.56||||0.07|TWO_SIDED|95.0|0.3|1.04||Univariate analysis|Fisher Exact|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.04|0.30|0.07
82484081|NCT03718871|164661946|OTHER|Comparison between study arms was not performed|Odds Ratio (OR)|0.43||||0.09|TWO_SIDED|95.0|0.16|1.18|||Fisher Exact|||We considered variables that predicted the primary outcome of receiving an HIV test among control arm only, as uptake was 100% in the intervention. First we identified variables that were significant (two-sided p-value\<0.05) in univariate analysis and creating multivariate mixed-effects logistic regression model accounting for covariates and intercorrelation between participants from the same healer by including healers as random effects.||1.18|0.16|0.09
82484082|NCT01885871|164661953|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82484083|NCT00905827|164661971|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|||Pairwise comparisons (ANOVA simple effect comparisons) adjusted for baseline scores||||<0.01
82484084|NCT00905827|164661971|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANOVA|||Pairwise comparisons (ANOVA simple effect comparisons) adjusted for baseline scores||||0.01
82484085|NCT03228420|164661977|SUPERIORITY||||||<|0.001||||||2-sided alpha level of 0.05|Fisher Exact|||||||<0.001
82484086|NCT03954041|164661987|SUPERIORITY||LS mean difference|4.62|||=|0.3752|TWO_SIDED|95.0|-5.74|14.98||P-value was analyzed by ANCOVA model with covariates: treatment, interactive response technology (IRT) stratification factors at randomization, baseline total contusion volume based on central read, imaging modality at Hour 96 (MRI vs NCCT).|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||14.98|-5.74|= 0.3752
82484087|NCT03954041|164661988|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.4|3.36||||||Statistical analysis of combined BIIB093 vs placebo||3.36|0.40|
82484088|NCT03954041|164661989|SUPERIORITY||Odds Ratio (OR)|1.47|||=|0.4306|TWO_SIDED|95.0|0.56|3.86||P-value was analyzed by ordinal logistic regression on mRS adjusting for covariates: treatment, IRT stratification factors at randomization, baseline mRS score, and baseline total contusion volume based on central read.|Regression, Logistic|||Statistical analysis of combined BIIB093 vs placebo||3.86|0.56|=0.4306
82484089|NCT03954041|164661991|SUPERIORITY||LS Mean difference|-1.53|||=|0.6478|TWO_SIDED|95.0|-8.19|5.13||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline total contusion volume based on central read.|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||5.13|-8.19|= 0.6478
82484090|NCT03954041|164661992|SUPERIORITY||LS Mean Difference|-0.09|||=|0.9314|TWO_SIDED|95.0|-2.2|2.02||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline Glasgow Coma Scale (GCS) based on eCRF, and baseline absolute hematoma volume based on central read.|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||2.02|-2.20|=0.9314
82484091|NCT03954041|164661993|SUPERIORITY||LS Mean difference|2.18|||=|0.6569|TWO_SIDED|95.0|-7.61|11.98||P-value was analyzed by ANCOVA model with covariates: treatment, IRT stratification factors at randomization, baseline absolute edema volume based on central read, baseline GCS based on eCRF, and imaging modality at Hour 96 (MRI vs NCCT).|ANCOVA|||Statistical analysis of combined BIIB093 vs placebo||11.98|-7.61|= 0.6569
82484092|NCT03981822|164661995|SUPERIORITY|||||||0.0048||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Part B summary is pooled with its respective treatments from Part A.||||0.0048
82484093|NCT03981822|164661995|SUPERIORITY|||||||0.0075||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Part B summary is pooled with its respective treatments from Part A.||||0.0075
82484094|NCT03981822|164661996|SUPERIORITY|||||||0.3642||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2 - Part B summary is pooled with its respective treatments from Part A.||||0.3642
82484095|NCT03981822|164661996|SUPERIORITY|||||||0.0967||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0967
82484096|NCT03981822|164661996|SUPERIORITY|||||||0.0648||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0648
82484097|NCT03981822|164661996|SUPERIORITY|||||||0.1357||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.1357
82484098|NCT03981822|164661996|SUPERIORITY|||||||0.019||||||P-value is based on the CMH test stratified by gender. Part B summary is pooled with its respective treatments from|Cochran-Mantel-Haenszel|||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0190
82555729|NCT01288443|164819982|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Threshold for significance ≤ 0.05.|ANCOVA|||||||<0.0001
82555730|NCT04327843|164819994|OTHER|This is a prospective study with a repeated measures design.||||||0.001||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed||||||0.001
82555731|NCT04327843|164819995|OTHER|This is a prospective study with a repeated measures design.||||||0.43||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.43
82555732|NCT04327843|164819996|OTHER|This is a prospective study with a repeated measures design.||||||0.07||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.07
82581923|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.09|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.05|0.12||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.12|0.05|< 0.0001
82484099|NCT03981822|164661996|SUPERIORITY|||||||0.0184||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0184
82555733|NCT04327843|164819997|OTHER|This is a prospective study with a repeated measures design.||||||0.1||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.10
82555734|NCT04327843|164819998|OTHER|This is a prospective study with a repeated measures design.||||||0.75||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.75
82555735|NCT04327843|164819999|OTHER|This is a prospective study with a repeated measures design.||||||1||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||1.00
82581924|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.12|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.06|0.17||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 12||0.17|0.06|< 0.0001
82581925|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.33|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.27|0.38||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.38|0.27|< 0.0001
82555736|NCT04327843|164820001|OTHER|This is a prospective study with a repeated measures design.||||||0.75||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.75
82555737|NCT04327843|164820002|OTHER|This is a prospective study with a repeated measures design.||||||0.14||||||The threshold for statistical significance was p\<0.05.|t-test, 2 sided|It was dependent sample pairwise t-tests, two tailed.||||||0.14
82555738|NCT03260569|164820027|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82555739|NCT00391443|164820062|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.85||||0.211|TWO_SIDED|95.0|0.658|1.097|||Log Rank|||||1.097|0.658|0.2110
82555740|NCT00391443|164820063|SUPERIORITY_OR_OTHER_LEGACY||Relative risk reduction|0.17||||0.2542|TWO_SIDED|95.0|-0.13|0.39|||Fisher Exact|||||0.39|-0.13|0.2542
82555741|NCT02382003|164820064|SUPERIORITY||Mean Difference (Net)|10.73||||0.005|TWO_SIDED|||||=Positive\~No-training, 0.030=Positive\~50/50 training, 0.833=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 7.053=Positive\~50/50 training, 0.366=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.005
82555742|NCT02382003|164820064|SUPERIORITY||Mean Difference (Net)|0.449||||0.799|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.799
82581926|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.37|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.28|0.45||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||75% Relative Reduction: Week 24||0.45|0.28|< 0.0001
82581927|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.02|STANDARD_ERROR_OF_MEAN|0.009||0.0409|TWO_SIDED|95.0|0.0|0.03||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.03|0.00|0.0409
82484100|NCT03981822|164661996|SUPERIORITY|||||||0.0048||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit - Part B summary is pooled with its respective treatments from Part A.||||0.0048
82484101|NCT03981822|164661996|SUPERIORITY|||||||0.0075||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit - Part B summary is pooled with its respective treatments from Part A.||||0.0075
82581928|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.012|TWO_SIDED|95.0|0.01|0.09||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 12||0.09|0.01|0.012
82581929|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.21|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.16|0.26||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.26|0.16|< 0.0001
82484102|NCT03981822|164661996|SUPERIORITY|||||||0.0539||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112 - Part B summary is pooled with its respective treatments from Part A.||||0.0539
82484103|NCT03981822|164661996|SUPERIORITY|||||||0.1638||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112 - Part B summary is pooled with its respective treatments from Part A.||||0.1638
82484104|NCT03981822|164661996|SUPERIORITY|||||||0.4766||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS - Part B summary is pooled with its respective treatments from Part A.||||0.4766
82484105|NCT03981822|164661996|SUPERIORITY|||||||0.1588||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS - Part B summary is pooled with its respective treatments from Part A.||||0.1588
82484106|NCT03981822|164661997|SUPERIORITY|||||||0.3642||||||P-value is based on the CMH test stratified by gender. Part B summary is pooled with its respective treatments from Part A.|Cochran-Mantel-Haenszel|||Treatment Visit 2 Part B summary is pooled with its respective treatments from Part A.||||0.3642
82484107|NCT03981822|164661997|SUPERIORITY|||||||0.0356|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3 Part B summary is pooled with its respective treatments from Part A.||||0.0356
82484108|NCT03981822|164661997|SUPERIORITY|||||||0.0118|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0118
82484109|NCT03981822|164661997|SUPERIORITY|||||||0.0026||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day84 EOT Part B summary is pooled with its respective treatments from Part A.||||0.0026
82484110|NCT03981822|164661997|SUPERIORITY|||||||0.0174|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 112 Part B summary is pooled with its respective treatments from Part A.||||0.0174
82484111|NCT03981822|164661997|SUPERIORITY|||||||0.1311|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 147 EOS Part B summary is pooled with its respective treatments from Part A.||||0.1311
82484112|NCT03981822|164661997|SUPERIORITY|||||||0.0967|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2 Part B summary is pooled with its respective treatments from Part A.||||0.0967
82484113|NCT03981822|164661997|SUPERIORITY|||||||0.1357|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3 Part B summary is pooled with its respective treatments from Part A.||||0.1357
82484114|NCT03981822|164661997|SUPERIORITY|||||||0.0184|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4 Part B summary is pooled with its respective treatments from Part A.||||0.0184
82484115|NCT03981822|164661997|SUPERIORITY|||||||0.0024|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 EOT Visit Part B summary is pooled with its respective treatments from Part A.||||0.0024
82484116|NCT03981822|164661997|SUPERIORITY|||||||0.1034|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 112 Part B summary is pooled with its respective treatments from Part A.||||0.1034
82484117|NCT03981822|164661997|SUPERIORITY|||||||0.1029|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up Visit Day 147 EOS Part B summary is pooled with its respective treatments from Part A.||||0.1029
82484118|NCT03981822|164661998|SUPERIORITY|||||||0.0356|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0356
82484119|NCT03981822|164661998|SUPERIORITY|||||||0.1477|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.1477
82484120|NCT03981822|164661998|SUPERIORITY|||||||0.0062|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0062
82484121|NCT03981822|164661998|SUPERIORITY|||||||0.0046|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0046
82484122|NCT03981822|164661998|SUPERIORITY|||||||0.0177|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0177
82484123|NCT03981822|164661998|SUPERIORITY|||||||0.0054|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0054
82484124|NCT03981822|164661998|SUPERIORITY|||||||0.0013|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 (EOT) visit: Part B summary is pooled with its respective treatments from Part A.||||0.0013
82484125|NCT03981822|164661998|SUPERIORITY|||||||0.0034|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Study Day 84 (EOT) Visit: Part B summary is pooled with its respective treatments from Part A.||||0.0034
82484126|NCT03981822|164661998|SUPERIORITY|||||||0.0156|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0156
82484127|NCT03981822|164661998|SUPERIORITY|||||||0.0367|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0367
82484128|NCT03981822|164661998|SUPERIORITY|||||||0.1746|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||||0.1746
82484129|NCT03981822|164661998|SUPERIORITY|||||||0.0123|||||||Cochran-Mantel-Haenszel|P-value is based on the CMH test stratified by gender.||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||||0.0123
82484130|NCT03981822|164661999|SUPERIORITY||LS mean difference|-3.96||||0.0021|TWO_SIDED|95.0|-5.41|-1.24||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, Tx by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-1.24|-5.41|0.0021
82484131|NCT03981822|164661999|SUPERIORITY||LS mean difference|-4.72||||0.015|TWO_SIDED|95.0|-5.95|-0.66|||Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-0.66|-5.95|0.0150
82586132|NCT06609135|164884189|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of FLS values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.59
82555743|NCT02382003|164820064|SUPERIORITY||Mean Difference (Net)|9.085||||0.011|TWO_SIDED|||||=No-train+Neut\~Pos+Anx, 0.026=No-train+Neut\~Pos+Neut, 0.094=No-train+Anx\~Pos+Anx, 0.170=No-train+Anx\~Pos+Neut, No-train(all)\~50/50(all)≥ 0.136|Likelihood Ratio Tests|2=all df|=No-train+Neut\~Pos+Anx, 7.328=No-train+Neut\~Pos+Neut, 4.722=No-train+Anx\~Pos+Anx, 3.547=No-train+Anx\~Pos+Neut, No-train(all)\~50/50(all)≤3.988|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.011
82555744|NCT02382003|164820065|SUPERIORITY||Mean Difference (Net)|11.551||||0.003|TWO_SIDED|||||"=Positive\~No-training, 0.130=Positive\~50/50 training, 0.269=50/50\~No-training~Alpha = .05"|Likelihood Ratio Tests|2=Positive\~No-training, 2=Positive\~50/50 training, 2=50/50\~No-training|=Positive\~No-training, 4.075=Positive\~50/50 training, 2.630=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.003
82555745|NCT02382003|164820065|SUPERIORITY||Mean Difference (Net)|3.933||||0.14|TWO_SIDED|||||Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime||Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.140
82555746|NCT02382003|164820065|SUPERIORITY||Mean Difference (Net)|6.018||||0.049|TWO_SIDED|||||=No-train+Neut\~Pos+Anx,0.049=No-train+Neut\~Pos+Neut,Positive(all)\~No-train+Anx≥0.198,50/50(all)\~No-train+Anx≥0.104,0.014=No-train+Neut\~50/50+Neut,0.627=No-train+Neut\~50/50+Anx,0.021=Pos+Anx\~50/50+Anx,0.764=Pos+Anx\~50/50+Neut,Pos+Neut\~50/50(all)≥0.067|Likelihood Ratio Tests|2=all df|=No-train+Neut\~Pos+Anx,6.041=No-train+Neut\~Pos+Neut,Positive(all)\~No-train+Anx≤3.240,50/50(all)\~No-train+Anx≤4.534,8.525=No-train+Neut\~50/50+Neut,0.933=No-train+Neut\~50/50+Anx,7.686=Pos+Anx\~50/50+Anx,0.537=Pos+Anx\~50/50+Neut,Pos+Neut\~50/50(all)≤5.395|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.049
82555747|NCT02382003|164820066|SUPERIORITY||Mean Difference (Net)|17.42|||<|0.001|TWO_SIDED|||||=Positive\~No-training, Positive\~50/50 training\<0.001, 0.124=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 31.921=Positive\~50/50 training, 4.175=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||<0.001
82555748|NCT02382003|164820066|SUPERIORITY||Mean Difference (Net)|0.634||||0.728|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.728
82555749|NCT02382003|164820066|SUPERIORITY||Mean Difference (Net)|15.034|||<|0.001|TWO_SIDED|||||=Pos+Anx\~No-train+Neut, 0.026=Pos+Anx\~No-train+Anx, 0.002=Pos+Neut\~No-train+Neut, 0.091=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train(all)≥ 0.081, Positive(all)\~50/50(all)\< 0.001|Likelihood Ratio Tests|2=all df|=Pos+Anx\~No-train+Neut, 7.306=Pos+Anx\~No-train+Anx, 12.672=Pos+Neut\~No-train+Neut, 4.802=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train(all)≤5.037, Positive(all)\~50/50(all)≥16.239|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||<0.001
82555750|NCT02382003|164820067|SUPERIORITY||Mean Difference (Net)|13.924|||<|0.001|TWO_SIDED|||||=Positive\~No-training, Positive\~50/50 training\< 0.001, 0.100=50/50\~No-training Alpha = .05|Likelihood Ratio Tests|2=df Positive\~No-training, 2=df Positive\~50/50 training, 2=df 50/50\~No-training|=Positive\~No-training, 15.288=Positive\~50/50 training, 4.605=50/50\~No-training|Effect of CBM-I condition: The main effect of CBM-I was represented by three binary variables in the main effect models (Positive vs. No-training control; 50/50 vs. No- training control; Positive vs. 50/50). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||< 0.001
82555751|NCT02382003|164820067|SUPERIORITY||Mean Difference (Net)|4.011||||0.135|TWO_SIDED|||||=Neutral\~Anxiety prime Alpha = .05|Likelihood Ratio Tests|2=df Neutral\~Anxiety prime|=Neutral\~Anxiety prime|Effect of Imagery Prime Type: The main effect of imagery prime was represented by one binary variable (neutral vs. anxiety imagery). Due to high attrition, latent growth curve modeling was used instead of the planned approach (mixed effects models with multiple imputation of missing values) to minimize bias due to missing data estimation. Because omnibus tests were not run, results for all comparisons are listed below.||||0.135
82484132|NCT03981822|164661999|SUPERIORITY||LS mean difference|-5.31||||0.0011|TWO_SIDED|95.0|-6.54|-1.69||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-1.69|-6.54|0.0011
82484133|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.5||||0.0007|TWO_SIDED|95.0|-8.25|-2.32||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 EOT Visit: Part B summary is pooled with its respective treatments from Part A.||-2.32|-8.25|0.0007
82484134|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.15||||0.0012|TWO_SIDED|95.0|-7.5|-1.91||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up day 112: Part B summary is pooled with its respective treatments from Part A.||-1.91|-7.50|0.0012
82484135|NCT03981822|164661999|SUPERIORITY||LS mean difference|-5.02||||0.0349|TWO_SIDED|95.0|-6.78|-0.26||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up visit day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-0.26|-6.78|0.0349
82484136|NCT03981822|164661999|SUPERIORITY||LS mean difference|-4.76|||<|0.0001|TWO_SIDED|95.0|-7.47|-2.85||P-value is based on MMRM mode|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment visit 2: Part B summary is pooled with its respective treatments from Part A.||-2.85|-7.47|<0.0001
82484137|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.0||||0.0005|TWO_SIDED|95.0|-8.37|-2.43||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Degrees of freedom associated with the error term were computed using Kenward-Rogers method.||-2.43|-8.37|0.0005
82484138|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.64|||<|0.0001|TWO_SIDED|95.0|-9.65|-4.12||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment visit 4: Part B summary is pooled with its respective treatments from Part A.||-4.12|-9.65|<0.0001
82484139|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.49||||0.0004|TWO_SIDED|95.0|-9.67|-2.92||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||-2.92|-9.67|0.0004
82484140|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.96|||<|0.0001|TWO_SIDED|95.0|-9.89|-3.57||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up day 112: Part B summary is pooled with its respective treatments from Part A.||-3.57|-9.89|<0.0001
82484141|NCT03981822|164661999|SUPERIORITY||LS mean difference|-6.99||||0.0005|TWO_SIDED|95.0|-10.2|-2.94||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-2.94|-10.20|0.0005
82484142|NCT03981822|164662000|SUPERIORITY||LS mean difference|-41.47|||<|0.0001|TWO_SIDED|95.0|-51.31|-20.87||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-20.87|-51.31|<0.0001
82484143|NCT03981822|164662000|SUPERIORITY||LS mean difference|-50.95||||0.0004|TWO_SIDED|95.0|-66.18|-19.56||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-19.56|-66.18|0.0004
82484144|NCT03981822|164662000|SUPERIORITY||LS mean difference|-66.21|||<|0.0001|TWO_SIDED|95.0|-88.15|-35.87||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-35.87|-88.15|<0.0001
82484145|NCT03981822|164662000|SUPERIORITY||LS mean difference|-79.37|||<|0.0001|TWO_SIDED|95.0|-111.44|-49.77||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 End of Treatment Visit: Part B summary is pooled with its respective treatments from Part A.||-49.77|-111.44|<0.0001
82581930|NCT04797650|164875565|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|0.16|0.31||P-value was calculated by mantel-haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||90% Relative Reduction: Week 24||0.31|0.16|< 0.0001
82581931|NCT04797650|164875566|SUPERIORITY||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|0.7|1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.4|0.7|< 0.0001
82484146|NCT03981822|164662000|SUPERIORITY||LS mean difference|-69.79||||0.0001|TWO_SIDED|95.0|-103.17|-35.25||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up Day 112: Part B summary is pooled with its respective treatments from Part A.||-35.25|-103.17|0.0001
82484147|NCT03981822|164662000|SUPERIORITY||LS mean difference|-41.22||||0.1033|TWO_SIDED|95.0|-90.61|8.56||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||8.56|-90.61|0.1033
82484148|NCT03981822|164662000|SUPERIORITY||LS mean difference|-58.43|||<|0.0001|TWO_SIDED|95.0|-73.26|-39.39||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||-39.39|-73.26|<0.0001
82484149|NCT03981822|164662000|SUPERIORITY||LS mean difference|-69.86|||<|0.0001|TWO_SIDED|95.0|-81.61|-28.8||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||-28.80|-81.61|<0.0001
82484150|NCT03981822|164662000|SUPERIORITY||LS mean difference|-76.55|||<|0.0001|TWO_SIDED|95.0|-107.19|-45.61||P-value is based on MMRM model with gender, treatment, visit, treatment by visit interaction, and baseline wart count as factors.|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||-45.61|-107.19|<0.0001
82484151|NCT03981822|164662000|SUPERIORITY||LS mean difference|-74.29||||0.0003|TWO_SIDED|95.0|-102.96|-31.55||P-value is based on MMRM model with gender, treatment, visit, treatment by visit interaction, and baseline wart count as factors.|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Study Day 84 End of Treatment Visit: Part B summary is pooled with its respective treatments from Part A.||-31.55|-102.96|0.0003
82484152|NCT03981822|164662000|SUPERIORITY||LS mean difference|-77.1||||0.0004|TWO_SIDED|95.0|-110.32|-32.78||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||-32.78|-110.32|0.0004
82484153|NCT03981822|164662000|SUPERIORITY||LS mean difference|-77.52||||0.0178|TWO_SIDED|95.0|-120.82|-11.88||P-value is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart count as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||-11.88|-120.82|0.0178
82555752|NCT02382003|164820067|SUPERIORITY||Mean Difference (Net)|9.402||||0.009|TWO_SIDED|||||=Pos+Anx\~No-train+Neut, Pos+Anx\~No-train+Anx\<0.048, Pos+Neut\~No-train+Neut\<0.001, 0.055=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train+Anx≥0.139, 0.034=No-train+Neut\~50/50+Neut, 0.340=No-train+Neut\~50/50+Anx, Pos(all)\~50/50(all)≥ 0.087|Likelihood Ratio Tests|2=all df|=Pos+Anx\~No-train+Neut, 6.076=Pos+Anx\~No-train+Anx, 14.525=Pos+Neut\~No-train+Neut, 5.811=Pos+Neut\~No-train+Anx, 50/50(all)\~No-train+Anx≤3.950, 6.770=No-train+Neut\~50/50+Neut, 2.158=No-train+Neut\~50/50+Anx, Pos(all)\~50/50(all)≤4.876|Effect of CBM-I condition and Imagery Prime Type interaction: Each cell of the interaction was represented by one of 5 binary variables, set to 1 if a participant was in that group, and 0 otherwise; the sixth group (No-training + neutral prime) was considered a reference group, and was represented by all variables being 0. Due to high attrition, latent growth curve modeling was used instead of the planned approach. Because omnibus tests were not run, results for all comparisons are listed below.||||0.009
82555753|NCT05155306|164820077|OTHER||Geometric mean ratio [%]|89.1|||||TWO_SIDED|90.0|79.5|99.7|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.067.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||99.7|79.5|
82555754|NCT05155306|164820077|OTHER||Geometric mean ratio [%]|98.1|||||TWO_SIDED|90.0|94.4|101.9|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.022.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||101.9|94.4|
82555755|NCT05155306|164820077|OTHER||Geometric mean ratio [%]|202.4|||||TWO_SIDED|90.0|180.1|227.5|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.069.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||227.5|180.1|
82555756|NCT05155306|164820077|OTHER||Geometric mean ratio [%]|173.8|||||TWO_SIDED|90.0|158.3|190.8|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.055.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||190.8|158.3|
82581932|NCT04797650|164875566|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.7|1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.5|0.7|< 0.0001
82484154|NCT03981822|164662001|SUPERIORITY|||||||0.0004||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0004
82484155|NCT03981822|164662001|SUPERIORITY|||||||0.0005||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 2: Part B summary is pooled with its respective treatments from Part A.||||0.0005
82484156|NCT03981822|164662001|SUPERIORITY|||||||0.0698||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0698
82484157|NCT03981822|164662001|SUPERIORITY|||||||0.01||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 3: Part B summary is pooled with its respective treatments from Part A.||||0.0100
82651463|NCT01715415|165017639|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic peg-interferon/ribavirin (pegIFN/RBV) treatment-experienced subjects administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 60% to achieve noninferiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV, and the LCB of the 95% CI must have exceeded 70% to achieve superiority.|Percentage of Participants with SVR12|96.3|||||TWO_SIDED|95.0|94.1|98.4|||||95% CI calculated using the normal approximation to the binomial distribution. In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure was used to proceed through the primary and numbered secondary efficacy endpoints.|With a sample size of 300 subjects and assuming that 85% of the subjects in Arm A will achieve sustained virologic response (SVR) 12, this study has greater than 90% power to demonstrate non-inferiority with a 2-sided 95% lower confidence bound greater than 60% and greater than 90% power to demonstrate superiority with a 2-sided 95% lower confidence bound greater than 70% (based on the normal approximation of a single binomial proportion).||98.4|94.1|
82651464|NCT01715415|165017640|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||In order to control the Type I error rate at 0.05, a fixed-sequence testing procedure will be used to proceed through the primary and the first 3 secondary endpoints in the order numbered below.|Fisher Exact|||||||<0.001
82484158|NCT03981822|164662001|SUPERIORITY|||||||0.0101||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0101
82484159|NCT03981822|164662001|SUPERIORITY|||||||0.0077||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Treatment Visit 4: Part B summary is pooled with its respective treatments from Part A.||||0.0077
82484160|NCT03981822|164662001|SUPERIORITY|||||||0.064||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT Visit: Part B summary is pooled with its respective treatments from Part A.||||0.0640
82484161|NCT03981822|164662001|SUPERIORITY|||||||0.0045||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Study Day 84 EOT: Part B summary is pooled with its respective treatments from Part A.||||0.0045
82484162|NCT03981822|164662001|SUPERIORITY|||||||0.284||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||||0.2840
82484163|NCT03981822|164662001|SUPERIORITY|||||||0.0132||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||||0.0132
82484164|NCT03981822|164662001|SUPERIORITY|||||||0.4668||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS: Part B summary is pooled with its respective treatments from Part A.||||0.4668
82484165|NCT03981822|164662001|SUPERIORITY|||||||0.0064||||||P-value is based on the CMH test stratified by gender.|Cochran-Mantel-Haenszel|||Follow-up Visit Day 147 EOS: Part B summary is pooled with its respective treatments from Part A.||||0.0064
82484166|NCT03981822|164662002|SUPERIORITY|||||||0.0364|||||||Mantel Haenszel|Stratified by gender||Part B summary is pooled with its respective treatments from Part A.||||0.0364
82484167|NCT03981822|164662002|SUPERIORITY|||||||0.0215|||||||Cochran-Mantel-Haenszel|Stratified by gender||Part B summary is pooled with its respective treatments from Part A.||||0.0215
82484168|NCT03981822|164662003|SUPERIORITY||LS mean difference|-59.63||||0.1222|TWO_SIDED|95.0|-76.1|9.23||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT: Part B summary is pooled with its respective treatments from Part A.||9.23|-76.10|0.1222
82484169|NCT03981822|164662003|SUPERIORITY||LS mean difference|-69.51||||0.0403|TWO_SIDED|95.0|-81.3|-1.9||Analysis based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 112 (EOT: Part B summary is pooled with its respective treatments from Part A.||-1.90|-81.30|0.0403
82484170|NCT03981822|164662003|SUPERIORITY||LS mean difference|-58.88||||0.0863|TWO_SIDED|95.0|-77.79|5.33||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||5.33|-77.79|0.0863
82484171|NCT03981822|164662003|SUPERIORITY||LS mean difference|-62.13||||0.0428|TWO_SIDED|95.0|-100.76|-1.73||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||-1.73|-100.76|0.0428
82484172|NCT03981822|164662003|SUPERIORITY||LS mean difference|-71.93||||0.0084|TWO_SIDED|95.0|-110.46|-17.0||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||-17.00|-110.46|0.0084
82484173|NCT03981822|164662003|SUPERIORITY||LS mean difference|-63.11||||0.0273|TWO_SIDED|95.0|-103.08|-6.35||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 (EOS): Part B summary is pooled with its respective treatments from Part A.||-6.35|-103.08|0.0273
82484174|NCT03981822|164662004|SUPERIORITY|Analysis is based on MMRM model|LS mean difference|-44.65||||0.3083|TWO_SIDED|95.0|-69.96|22.47|||Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||22.47|-69.96|0.3083
82484175|NCT03981822|164662004|SUPERIORITY||LS mean difference|-55.8||||0.1686|TWO_SIDED|95.0|-86.93|15.56||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Day 112: Part B summary is pooled with its respective treatments from Part A.||15.56|-86.93|0.1686
82484176|NCT03981822|164662004|SUPERIORITY||LS mean difference|-38.06||||0.2384|TWO_SIDED|95.0|-87.04|22.1||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||22.10|-87.04|0.2384
82484177|NCT03981822|164662004|SUPERIORITY||LS mean difference|-61.96||||0.0603|TWO_SIDED|95.0|-103.37|2.27||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Study Day 84 (EOT): Part B summary is pooled with its respective treatments from Part A.||2.27|-103.37|0.0603
82484178|NCT03981822|164662004|SUPERIORITY||LS mean difference|-74.87||||0.0109|TWO_SIDED|95.0|-138.71|-18.83||Analysis is based on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 112: Part B summary is pooled with its respective treatments from Part A.||-18.83|-138.71|0.0109
82484179|NCT03981822|164662004|SUPERIORITY||LS mean difference|-66.62||||0.0467|TWO_SIDED|95.0|-127.64|-0.99||Analysis is base on MMRM model|Mixed Models Analysis|"MMRM model with gender, Tx, visit, treatment by visit interaction, and baseline wart area as factors.~An unstructured covariance model was used."||Follow-up Visit Day 147 End of Study: Part B summary is pooled with its respective treatments from Part A.||-0.99|-127.64|0.0467
82484180|NCT02742246|164662005|SUPERIORITY|||||||0.11||||||Group by Time interaction.|Regression, Linear|||||||0.11
82484181|NCT02742246|164662006|SUPERIORITY|||||||0.14||||||Group by time interaction.|Regression, Linear|||||||0.14
82484182|NCT00054717|164662008|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484183|NCT00054717|164662009|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82484184|NCT00054717|164662010|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484185|NCT00054717|164662011|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82555757|NCT05155306|164820078|OTHER||Geometric mean ratio [%]|83.0|||||TWO_SIDED|90.0|69.6|99.0|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.106.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||99.0|69.6|
82581933|NCT04797650|164875566|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|1.1|1.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||1.8|1.1|< 0.0001
82581934|NCT04797650|164875566|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|1.3|2.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.2|1.3|< 0.0001
82484186|NCT00054717|164662012|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484187|NCT00054717|164662013|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484188|NCT00054717|164662014|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484189|NCT00054717|164662015|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484190|NCT00054717|164662016|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484191|NCT00054717|164662017|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484192|NCT00054717|164662018|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484193|NCT00054717|164662019|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484194|NCT00054717|164662020|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484195|NCT00054717|164662021|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484196|NCT00054717|164662022|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484197|NCT00054717|164662023|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484198|NCT00054717|164662024|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||||0.0001
82484199|NCT00054717|164662025|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82484200|NCT00054717|164662026|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82484201|NCT00054717|164662027|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82484202|NCT00054717|164662067|SUPERIORITY_OR_OTHER|||||||0.9894||95.0|||||Log Rank|||||||0.9894
82484203|NCT01896479|164662099|NON_INFERIORITY|The non-inferiority margin used was 1.58.|Cox Proportional Hazard|1.24||||0.1916|TWO_SIDED|95.0|0.9|1.7||Stratification factors comprised RET M918T mutational status (positive, negative, and unknown).|Log Rank|||||1.70|0.90|0.1916
82484204|NCT01896479|164662100|OTHER|Descriptive statistical analysis.|Odds Ratio (OR)|1.0195||||0.9437|TWO_SIDED|95.0|0.6|1.7|||Cochran-Mantel-Haenszel|Stratification factors comprised RET M918T mutational status (positive, negative, and unknown).||||1.7|0.6|0.9437
82484205|NCT03355664|164662115|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.38|TWO_SIDED|95.0|0.2|1.9|||Regression, Cox|||||1.9|0.2|0.38
82581935|NCT04797650|164875567|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|0.7|1.5||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.5|0.7|< 0.0001
82581936|NCT04797650|164875567|SUPERIORITY||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|0.7|1.6||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 12||1.6|0.7|< 0.0001
82581937|NCT04797650|164875567|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.24|<|0.0001|TWO_SIDED|95.0|1.0|2.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2|1|< 0.0001
82581938|NCT04797650|164875567|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|1.0|2.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Week 24||2.1|1|< 0.0001
82581939|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.9|-1.4|< 0.0001
82581940|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.5|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 12||-0.9|-1.5|< 0.0001
82581941|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.1|-1.6|< 0.0001
82581942|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 16||-1.2|-1.8|< 0.0001
82581943|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.1|-1.6|< 0.0001
82581944|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-2.0|-1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 20||-1.4|-2|< 0.0001
82581945|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.3|-1.8|< 0.0001
82581946|NCT04797650|164875568|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-2.1|-1.4||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, and baseline value.|MMRM|||Week 24||-1.4|-2.1|< 0.0001
82581947|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.34|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|95.0|0.25|0.43||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.43|0.25|< 0.0001
82581948|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.055|<|0.0001|TWO_SIDED|95.0|0.33|0.54||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 12||0.54|0.33|< 0.0001
82581949|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.43|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.35|0.51||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.51|0.35|< 0.0001
82581950|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.47|STANDARD_ERROR_OF_MEAN|0.052|<|0.0001|TWO_SIDED|95.0|0.37|0.57||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 16||0.57|0.37|< 0.0001
82581951|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.42|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.34|0.5||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.5|0.34|< 0.0001
82484206|NCT01466595|164662156|SUPERIORITY_OR_OTHER|||||||0.028||||||not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|no other adjustments||"Null hypothesis:~There is no difference between the two arms in the change in T-cell activation from baseline to week 4"||||0.028
82581952|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.54|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|0.44|0.63||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 20||0.63|0.44|< 0.0001
82581953|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.44|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.36|0.52||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.52|0.36|< 0.0001
82581954|NCT04797650|164875569|SUPERIORITY||Risk Difference (RD)|0.52|STANDARD_ERROR_OF_MEAN|0.051|<|0.0001|TWO_SIDED|95.0|0.42|0.62||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||Week 24||0.62|0.42|< 0.0001
82581955|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.8|-1.2|< 0.0001
82484207|NCT02313454|164662199|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|0.8||0.008|TWO_SIDED|95.0|-1.0|-0.19|||Paired t-test||Intranasal Application relative to the Extranasal Application|||-0.19|-1.0|0.008
82484208|NCT02313454|164662200|SUPERIORITY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|15.7||0.004|TWO_SIDED|95.0|-19.0|-3.4|||Paired t-test||Intranasal application relative to Extranasal application|||-3.4|-19.0|0.004
82484209|NCT00744471|164662287|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.87|-0.69||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.69|-1.87|<0.001
82484210|NCT00744471|164662287|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.28|-1.1||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.10|-2.28|<0.001
82484211|NCT00744471|164662287|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.34|-1.16||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.16|-2.34|<0.001
82484212|NCT00744471|164662288|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.74|-0.61||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value, as a covariate, and study site as a random effect.||-0.61|-1.74|<0.001
82484213|NCT00744471|164662288|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.06|-0.92||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.92|-2.06|<0.001
82484214|NCT00744471|164662288|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.17|-1.04||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.04|-2.17|<0.001
82484215|NCT00744471|164662289|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.51|-0.13||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.13|-0.51|0.001
82484216|NCT00744471|164662289|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.64|-0.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.25|-0.64|<0.001
82484217|NCT00744471|164662289|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.28||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA model includes treatment as main effect, baseline value as a covariate, and study site as a random effect.||-0.28|-0.66|<0.001
82484218|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.93|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-1.93|<0.001
82484219|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.2||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.20|-2.26|<0.001
82484220|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.85|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA model includes treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.80|-1.85|<0.001
82484221|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.11|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.11|<0.001
82651465|NCT01715415|165017641|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic pegIFN/RBV treatment-experienced subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 65% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|96.0|||||TWO_SIDED|95.0|93.0|98.9|||||95% CI calculated using the normal approximation to the binomial distribution.|||98.9|93.0|
82484222|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.03|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.57|-1.48||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.48|-2.57|<0.001
82484223|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.5|-1.41||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.41|-2.50|<0.001
82484224|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.65|-0.53||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.53|-1.65|<0.001
82484225|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.2|-1.08||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.08|-2.20|<0.001
82555758|NCT05155306|164820078|OTHER||Geometric mean ratio [%]|99.7|||||TWO_SIDED|90.0|88.7|112.0|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.070.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.0|88.7|
82484226|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.56|-1.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.45|-2.56|<0.001
82555759|NCT05155306|164820078|OTHER||Geometric mean ratio [%]|153.6|||||TWO_SIDED|90.0|126.0|187.3|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.121.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||187.3|126.0|
82555760|NCT05155306|164820078|OTHER||Geometric mean ratio [%]|121.4|||||TWO_SIDED|90.0|99.6|147.8|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.120.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||147.8|99.6|
82555761|NCT05155306|164820079|OTHER||Geometric mean ratio [%]|89.9|||||TWO_SIDED|90.0|80.4|100.4|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.066.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.4|80.4|
82555762|NCT05155306|164820079|OTHER||Geometric mean ratio [%]|100.4|||||TWO_SIDED|90.0|96.8|104.1|||||Ratio is calculated as test/reference. Geometric Standard Error = 1.021.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.1|96.8|
82555763|NCT05155306|164820079|OTHER||Geometric mean ratio [%]|202.6|||||TWO_SIDED|90.0|179.6|228.5|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.072.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||228.5|179.6|
82555764|NCT05155306|164820079|OTHER||Geometric mean ratio [%]|172.3|||||TWO_SIDED|90.0|158.2|187.7|||||Ratio is calculated as fed/fasted. Geometric Standard Error = 1.050.|Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||187.7|158.2|
82555765|NCT04121741|164820089|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.42||0.864|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for FMD% (singing video intervention compared to control) is shown. Estimates of FMD% for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.864
82555766|NCT04121741|164820089|SUPERIORITY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.42||0.913|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for FMD% (singing coach intervention compared to control) is shown. Estimates of FMD% for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.913
82555767|NCT04121741|164820090|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.13||0.29|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for RHI (singing video intervention compared to control) is shown. Estimates of RHI for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.290
82484227|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.49|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.1|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-2.10|<0.001
82484228|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.85|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.46|-1.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.25|-2.46|<0.001
82484229|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-2.57|-1.37||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.37|-2.57|<0.001
82484230|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.75|-0.56||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.56|-1.75|<0.001
82484231|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.52|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.12|-0.92||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.92|-2.12|<0.001
82484232|NCT00744471|164662290|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.2|-1.01||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA model was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.01|-2.20|<0.001
82555768|NCT04121741|164820090|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.462|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for RHI (singing coach intervention compared to control) is shown. Estimates of RHI for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.462
82555769|NCT04121741|164820091|SUPERIORITY||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for fRHI (singing video intervention compared to control) is shown. Estimates of fRHI for singing coach intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.005
82555770|NCT04121741|164820091|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.18||0.57|TWO_SIDED|||||Using Bonferroni correction for 3 primary outcomes (FMD, RHI, fRHI), a priori threshold for statistical significance was p\<0.0167.|Regression, Linear|Included outlier detection and removal with estimation of standard models for a three-treatment, cross-over design.|Estimated mean difference for fRHI (singing coach intervention compared to control) is shown. Estimates of fRHI for singing video intervention compared to control also performed.||"Please reference the following pre-print manuscript for additional statistical analyses.~Bagherimohamadipour M, Hammad M, Visotcky A, Sparapani R, Kulinski J. Effects of Singing on Vascular Health in Older Adults with Coronary Artery Disease: A Randomized Trial. medRxiv \[Preprint\]. 2024 Jul 27:2024.07.25.24311033. doi: 10.1101/2024.07.25.24311033. PMID: 39108506; PMCID: PMC11302710."|||0.570
82555771|NCT01084863|164820101|EQUIVALENCE|Pharmacokinetic equivalence was predefined based on acceptance criteria, 80% to 125%.|Geometric Mean Ratio|104.57|||||TWO_SIDED|90.0|93.64|116.78||||||||116.78|93.64|
82555772|NCT04977583|164820158|SUPERIORITY||Odds Ratio (OR)|1.138|STANDARD_ERROR_OF_MEAN|0.2625||0.6243|TWO_SIDED|95.0|0.679|1.904|||Mixed Models Analysis|||This test is comparing Arm 1 (screening) to Arm 2 (awareness)||1.904|0.679|0.6243
82555773|NCT04977583|164820158|SUPERIORITY||Odds Ratio (OR)|1.497|STANDARD_ERROR_OF_MEAN|0.2553||0.1146|TWO_SIDED|95.0|0.908|2.469|||Mixed Models Analysis|||This test compares Arm 1 (screening) to arm 3 (assistance)||2.469|0.908|0.1146
82555774|NCT04977583|164820159|SUPERIORITY||Risk Ratio (RR)|0.963|STANDARD_ERROR_OF_MEAN|0.2078||0.856|TWO_SIDED|95.0|0.641|1.447|||Poisson|We used total needs as an offset||This test is comparing Arm 1 (screening) to Arm 2 (awareness)||1.447|0.641|0.856
82555775|NCT04977583|164820159|SUPERIORITY||Risk Ratio (RR)|1.136|STANDARD_ERROR_OF_MEAN|0.1999||0.5248|TWO_SIDED|95.0|0.768|1.681|||Poisson|||This test is comparing Arm 1 (screening) to Arm 3 (assistance)||1.681|0.768|0.5248
82555776|NCT04977583|164820160|SUPERIORITY||Odds Ratio (OR)|0.866|STANDARD_ERROR_OF_MEAN|0.22||0.5582|TWO_SIDED|95.0|0.536|1.4|||Regression, Logistic|||This is Arm 1 compared to Arm 2||1.400|0.536|.5582
82555777|NCT04977583|164820160|SUPERIORITY||Odds Ratio (OR)|0.854|STANDARD_ERROR_OF_MEAN|0.217||0.5196|TWO_SIDED|95.0|0.528|1.381|||Regression, Logistic|||This is Arm 1 compared to Arm 3||1.381|0.528|0.5196
82555778|NCT04977583|164820161|SUPERIORITY||Odds Ratio (OR)|1.42|STANDARD_ERROR_OF_MEAN|0.2794||0.2105|TWO_SIDED|95.0|0.821|2.454|||ANOVA|||This is arm 1 compared to arm 2||2.454|0.821|0.2105
82555779|NCT04977583|164820161|SUPERIORITY||Odds Ratio (OR)|0.7944|STANDARD_ERROR_OF_MEAN|0.2816||0.4143|TWO_SIDED|95.0|0.4574|1.379|||ANOVA|||This is arm 1 compared to arm 3||1.379|0.4574|.4143
82555780|NCT04977583|164820162|SUPERIORITY||Odds Ratio (OR)|0.9995|STANDARD_ERROR_OF_MEAN|0.0171||0.9775|TWO_SIDED|95.0|0.9665|1.0336|||ANOVA|||This arm 1 compared to arm 2||1.0336|0.9665|0.9775
82555781|NCT04977583|164820162|SUPERIORITY||Odds Ratio (OR)|1.017|STANDARD_ERROR_OF_MEAN|0.0176||0.3194|TWO_SIDED|95.0|0.9832|1.0534|||ANOVA|||This arm 1 compared to arm 3||1.0534|0.9832|0.3194
82555782|NCT04977583|164820163|SUPERIORITY||Odds Ratio (OR)|1.0284|STANDARD_ERROR_OF_MEAN|0.1613||0.8623|TWO_SIDED|95.0|0.7497|1.4107|||ANOVA|||This is arm 1 compared to arm 2||1.4107|0.7497|0.8623
82484233|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.41|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.93|-0.88||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.88|-1.93|<0.001
82484234|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.73|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.2||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.20|-2.26|<0.001
82484235|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.85|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.80|-1.85|<0.001
82484236|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.08|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.08|<0.001
82484237|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.52|-1.46||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.46|-2.52|<0.001
82484238|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.01|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.54|-1.48||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.48|-2.54|<0.001
82484239|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.71|-0.63||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.63|-1.71|<0.001
82484240|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.21|-1.12||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.12|-2.21|<0.001
82484241|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.06|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.6|-1.52||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.52|-2.60|<0.001
82484242|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.11|-0.99||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.99|-2.11|<0.001
82484243|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.88|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.45|-1.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.32|-2.45|<0.001
82484244|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.82|-1.7||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.70|-2.82|<0.001
82484245|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.27|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.82|-0.71||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.71|-1.82|<0.001
82484246|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.15|-1.03||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.03|-2.15|<0.001
82484247|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.51|-1.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.40|-2.51|<0.001
82555783|NCT04977583|164820163|SUPERIORITY||Odds Ratio (OR)|1.3701|STANDARD_ERROR_OF_MEAN|0.1626||0.0534|TWO_SIDED|95.0|0.9962|1.8844|||ANOVA|||This is arm 1 compared to arm 3||1.8844|0.9962|0.0534
82581956|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 12||-0.8|-1.4|< 0.0001
82484248|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.85|-0.72||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.72|-1.85|<0.001
82484249|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.58|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.15|-1.01||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.01|-2.15|<0.001
82484250|NCT00744471|164662291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.4|-1.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.27|-2.40|<0.001
82555784|NCT04977583|164820164|SUPERIORITY||Odds Ratio (OR)|2.298|STANDARD_ERROR_OF_MEAN|1.464||0.5701|TWO_SIDED|95.0|0.1304|40.5121|||ANOVA|||This is arm 1 compared to arm 2||40.5121|0.1304|0.5701
82555785|NCT04977583|164820164|SUPERIORITY||Odds Ratio (OR)|4.56|STANDARD_ERROR_OF_MEAN|1.467||0.3016|TWO_SIDED|95.0|0.2571|80.8746|||ANOVA|||This is arm 1 compared to arm 3||80.8746|0.2571|0.3016
82555786|NCT04977583|164820165|SUPERIORITY||Odds Ratio (OR)|1.522|STANDARD_ERROR_OF_MEAN|0.2438||0.087|TWO_SIDED|95.0|0.944|2.454|||ANOVA|||This is arm 1 compared to arm 2||2.454|0.944|0.0870
82555787|NCT04977583|164820165|SUPERIORITY||Odds Ratio (OR)|1.85|STANDARD_ERROR_OF_MEAN|0.2897||0.0354|TWO_SIDED|95.0|1.048|3.264|||ANOVA|||This is arm 1 compared to arm 3||3.264|1.048|0.0354
82484251|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
82484252|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.23|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.23|<0.001
82484253|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
82484254|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.12|-1.08||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.08|-2.12|<0.001
82484255|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.12|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.64|-1.6||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.60|-2.64|<0.001
82484256|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.46|-1.43||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.43|-2.46|<0.001
82484257|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.72|-0.64||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.64|-1.72|<0.001
82484258|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.18|-1.09||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.09|-2.18|<0.001
82484259|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.43|-1.35||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.35|-2.43|<0.001
82484260|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.93|-0.77||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.77|-1.93|<0.001
82484261|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.73|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.31|-1.15||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.15|-2.31|<0.001
82484262|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.47|-1.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.32|-2.47|<0.001
82484263|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.52|-0.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 : ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.40|-1.52|<0.001
82484264|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.91|-0.78||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.78|-1.91|<0.001
82555788|NCT04977583|164820166|SUPERIORITY||Odds Ratio (OR)|0.618|STANDARD_ERROR_OF_MEAN|0.333||0.3063|TWO_SIDED|95.0|0.246|1.553|||ANOVA|||This is arm 1 compared to arm 2||1.553|0.246|0.3063
82586133|NCT06609135|164884190|SUPERIORITY|||||||0.59|||||||t-test, 2 sided|||Statistical Analysis assessed correlation of GI values at 34 weeks between participants that were successful in discontinuation of non-invasive ventilation by 36 weeks postmenstrual age and those that were unsuccessful.||||0.59
82484265|NCT00744471|164662292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.09|-0.97||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24 :Analysis of Covariance (ANCOVA) was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.97|-2.09|<0.001
82484266|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
82484267|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.71|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.23|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.23|<0.001
82555789|NCT04977583|164820166|SUPERIORITY||Odds Ratio (OR)|0.679|STANDARD_ERROR_OF_MEAN|0.3946||0.4378|TWO_SIDED|95.0|0.256|1.803|||ANOVA|||This is arm 1 compared to arm 3||1.803|.256|.4378
82555790|NCT04977583|164820167|SUPERIORITY||Odds Ratio (OR)|0.5083|STANDARD_ERROR_OF_MEAN|0.8265||0.4134|TWO_SIDED|95.0|0.1006|2.5687|||ANOVA|||This is arm 1 compared to arm 2||2.5687|0.1006|0.4134
82484268|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.83|-0.8||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.80|-1.83|<0.001
82484269|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.59|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.1|-1.08|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.08|-2.10|<0.001
82484270|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.61|-1.59||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.59|-2.61|<0.001
82555791|NCT04977583|164820167|SUPERIORITY||Odds Ratio (OR)|1.819|STANDARD_ERROR_OF_MEAN|0.8283||0.4705|TWO_SIDED|95.0|0.3588|9.223|||ANOVA|||This is arm 1 compared to arm 3||9.2230|0.3588|0.4705
82484271|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.51|-1.49||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.49|-2.51|<0.001
82484272|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.83|-0.76||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.76|-1.83|<0.001
82484273|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.26|-1.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.19|-2.26|<0.001
82484274|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.53|-1.46||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.46|-2.53|<0.001
82555792|NCT04977583|164820168|SUPERIORITY||Odds Ratio (OR)|1.765|STANDARD_ERROR_OF_MEAN|0.2684||0.0347|TWO_SIDED|95.0|1.044|2.987|||Mixed Models Analysis||This analysis is arm 1 compared to arm 3. Arm 3 is the numerator and arm 1 is the denominator.|||2.987|1.044|0.0347
82555793|NCT04977583|164820169|SUPERIORITY||Odds Ratio (OR)|1.734|STANDARD_ERROR_OF_MEAN|0.3489||0.116|TWO_SIDED|95.0|0.875|3.436|||Mixed Models Analysis||This analysis compares arm 1 to arm 2. Arm 2 is the numerator and Arm 1 is the denominator|||3.436|0.875|0.1160
82555794|NCT04977583|164820169|SUPERIORITY||Odds Ratio (OR)|2.376|STANDARD_ERROR_OF_MEAN|0.3475||0.0134|TWO_SIDED|95.0|1.202|4.695|||Mixed Models Analysis|||||4.695|1.202|0.0134
82581957|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-0.9|-1.3|< 0.0001
82484275|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.56|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.11|-1.0||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.00|-2.11|<0.001
82484276|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.93|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.49|-1.37||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.37|-2.49|<0.001
82555795|NCT04977583|164820170|SUPERIORITY||Odds Ratio (OR)|5.006|STANDARD_ERROR_OF_MEAN|0.617||0.0094|TWO_SIDED|95.0|1.512|16.57|||Mixed Models Analysis||This analysis is arm 1 compared to compared to arm 3. Arm 3 is the numerator and arm 1 is denominator.|||16.570|1.512|0.0094
82581958|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 16||-1.1|-1.6|< 0.0001
82581959|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1|-1.5|< 0.0001
82484277|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.28|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.83|-1.72||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.72|-2.83|<0.001
82484278|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.31|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.87|-0.75||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.75|-1.87|<0.001
82555796|NCT04977583|164820170|SUPERIORITY||Odds Ratio (OR)|1.875|STANDARD_ERROR_OF_MEAN|0.6532||0.3377|TWO_SIDED|95.0|0.521|6.746|||Mixed Models Analysis||This is a comparison of arm 1 and arm 2. Arm 2 is the numerator and arm 1 is the denominator.|||6.746|0.521|0.3377
82555797|NCT01371994|164820260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1745|TWO_SIDED||||||Log Rank|Based on a Log-rank test stratified by (pooled) center and Baseline daily pad usage (≤ 3 and \> 3).||The treatment difference in the primary efficacy variable was tested using a log-rank test stratified by (pooled) center and by Baseline daily pad usage (≤3 and \>3) at a 2-sided significance level of 0.05.||||0.1745
82555798|NCT01371994|164820261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4833|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 4||||0.4833
82484279|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.58|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-2.14|-1.02||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.02|-2.14|<0.001
82484280|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.92|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.47|-1.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.36|-2.47|<0.001
82484281|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.86|-0.74||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.74|-1.86|<0.001
82484282|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.17|-1.05||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.05|-2.17|<0.001
82484283|NCT00744471|164662293|SUPERIORITY_OR_OTHER_LEGACY||Slope|-1.91|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-2.47|-1.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-1.36|-2.47|<0.001
82484284|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.18||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
82484285|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.83|-0.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.45|-0.83|<0.001
82484286|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
82484287|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.65|<0.001
82484288|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.88|-0.5||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.50|-0.88|<0.001
82484289|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.73|-0.36||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.36|-0.73|<0.001
82484290|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.054|TWO_SIDED|95.0|-0.39|0.0||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||0.00|-0.39|0.054
82484291|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.68|-0.29||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.29|-0.68|<0.001
82484292|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.26||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.26|-0.65|<0.001
82484293|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.15||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.15|-0.55|<0.001
82555799|NCT01371994|164820261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5761|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 8||||0.5761
82484294|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.81|-0.4||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.40|-0.81|<0.001
82484295|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.73|-0.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.32|-0.73|<0.001
82484296|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|-0.45|-0.07||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.07|-0.45|0.008
82555800|NCT01371994|164820261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0592|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison at Week 12||||0.0592
82484297|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
82484298|NCT00744471|164662294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED|95.0|-0.43|-0.05||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.05|-0.43|0.012
82484299|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.18||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
82484300|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.83|-0.45||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.45|-0.83|<0.001
82484301|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.6|-0.22||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.22|-0.60|<0.001
82484302|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.65|<0.001
82484303|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.87|-0.5||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.50|-0.87|<0.001
82484304|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.76|-0.39||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.39|-0.76|<0.001
82484305|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.43|-0.03||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.03|-0.43|0.022
82484306|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.67|-0.27||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.27|-0.67|<0.001
82484307|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.65|-0.26||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.26|-0.65|<0.001
82484308|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.19||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.19|-0.60|<0.001
82484309|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.88|-0.47||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.47|-0.88|<0.001
82484310|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.79|-0.39||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.39|-0.79|<0.001
82555801|NCT01371994|164820261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Cochran-Mantel-Haenszel|Cochran-Mental-Haenszel test stratified by (pooled) center||Comparison of end of treatment analysis||||0.0390
82555802|NCT01371994|164820263|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.3604|TWO_SIDED|95.0|-0.14|0.38|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 4||0.38|-0.14|0.3604
82484311|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.14||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.14|-0.53|<0.001
82484312|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.68|-0.28||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.28|-0.68|<0.001
82484313|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.71|-0.32||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.32|-0.71|<0.001
82484314|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.1||0.01|TWO_SIDED|95.0|-0.47|-0.06||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.06|-0.47|0.010
82555803|NCT01371994|164820263|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.0761|TWO_SIDED|95.0|-0.03|0.52|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 8||0.52|-0.03|0.0761
82484315|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.66|-0.25||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.25|-0.66|<0.001
82484316|NCT00744471|164662295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.53|-0.13||P-value is based on ANCOVA from pairwise comparisons.|ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effect, baseline value, as a covariate, and study site as a random effect.||-0.13|-0.53|0.001
82484317|NCT04706416|164662317|SUPERIORITY||Odds Ratio (OR)|0.6||||0.297|TWO_SIDED|95.0|0.26|1.48|||Fisher Exact|||||1.48|0.26|0.297
82484318|NCT04706416|164662317|SUPERIORITY||Odds Ratio (OR)|0.68||||0.541|TWO_SIDED|95.0|0.19|2.3|||Regression, Logistic|||||2.30|0.19|0.541
82484319|NCT04706416|164662318|SUPERIORITY||Odds Ratio (OR)|0.37||||0.039|TWO_SIDED|95.0|0.15|0.91|||Fisher Exact|||||0.91|0.15|0.039
82484320|NCT04706416|164662318|SUPERIORITY||Odds Ratio (OR)|0.34||||0.081|TWO_SIDED|95.0|0.09|1.07|||Regression, Logistic|||||1.07|0.09|0.081
82484321|NCT04706416|164662319|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.643|TWO_SIDED|95.0|-1.0|3.0|||Wilcoxon (Mann-Whitney)|||||3.0|-1.0|0.643
82484322|NCT04706416|164662319|SUPERIORITY||β-coefficient|-4.27||||0.001|TWO_SIDED|95.0|-5.67|-2.87|||Regression, Linear|||||-2.87|-5.67|0.001
82484323|NCT04706416|164662320|SUPERIORITY||Odds Ratio (OR)|0.53||||0.133|TWO_SIDED|95.0|0.25|1.19|||Fisher Exact|||||1.19|0.25|0.133
82484324|NCT04706416|164662321|SUPERIORITY||Hodges-Lehmann estimator|4.0||||0.092|TWO_SIDED|95.0|-1.0|12.0|||Wilcoxon (Mann-Whitney)|||||12.0|-1.0|0.092
82484325|NCT04706416|164662322|SUPERIORITY||Hodges-Lehmann estimator|0.0||||0.834|TWO_SIDED|95.0|-2.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.0|-2.0|0.834
82484326|NCT04706416|164662323|SUPERIORITY||Odds Ratio (OR)|0.001||||0.149|TWO_SIDED|95.0|0.0|1.52|||Fisher Exact|||||1.52|0|0.149
82484327|NCT04706416|164662324|SUPERIORITY||Odds Ratio (OR)|0.3||||0.015|TWO_SIDED|95.0|0.12|0.8|||Fisher Exact|||||0.80|0.12|0.015
82555804|NCT01371994|164820263|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0149|TWO_SIDED|95.0|0.07|0.64|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison at Week 12||0.64|0.07|0.0149
82555805|NCT01371994|164820263|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0325|TWO_SIDED|95.0|0.02|0.52|||ANCOVA|Based on an analysis of variance model including treatment and (pooled) center as fixed factors.||Comparison of end of treatment analysis||0.52|0.02|0.0325
82484328|NCT02730208|164662339|OTHER|Treatment effect outcomes are estimates.|Least Squares (LS) Mean Difference|-1.48|||||TWO_SIDED|95.0|-7.47|4.52||||||||4.52|-7.47|
82484329|NCT00410202|164662352|SUPERIORITY_OR_OTHER||Difference Estimate|8.9||||0.1336|TWO_SIDED|95.0|-2.0|19.9|||Hochberg procedure|||||19.9|-2.0|0.1336
82484330|NCT00410202|164662352|SUPERIORITY_OR_OTHER||Difference Estimate|5.7||||0.2619|TWO_SIDED|95.0|-4.2|15.5|||Hochberg procedure|||||15.5|-4.2|0.2619
82484331|NCT00410202|164662353|SUPERIORITY_OR_OTHER||Difference estimate|15.0||||0.0095|TWO_SIDED|95.0|3.7|26.4|||Hochberg procedure|||||26.4|3.7|0.0095
82484332|NCT00410202|164662354|SUPERIORITY_OR_OTHER||Difference Estimate|11.8|||||TWO_SIDED|95.0|2.5|21.1||||||||21.1|2.5|
82484333|NCT00410202|164662354|SUPERIORITY_OR_OTHER||Difference Estimate|8.6|||||TWO_SIDED|95.0|-1.1|18.2||||||||18.2|-1.1|
82484334|NCT00410202|164662355|SUPERIORITY_OR_OTHER||Difference estimate|12.9|||||TWO_SIDED|95.0|1.8|23.9||||||||23.9|1.8|
82484335|NCT00410202|164662356|SUPERIORITY_OR_OTHER||Difference Estimate|8.9|||||TWO_SIDED|95.0|0.3|17.4||||||||17.4|0.3|
82484336|NCT00410202|164662356|SUPERIORITY_OR_OTHER||Difference Estimate|8.6|||||TWO_SIDED|95.0|-0.1|17.3||||||||17.3|-0.1|
82484337|NCT00410202|164662357|SUPERIORITY_OR_OTHER||Difference estimate|12.9|||||TWO_SIDED|95.0|2.4|23.4||||||||23.4|2.4|
82484338|NCT00410202|164662360|SUPERIORITY_OR_OTHER||Difference Estimate|-1.26|||||TWO_SIDED|95.0|-1.534|-0.994|||Regression, Linear|||||-0.994|-1.534|
82484339|NCT00410202|164662360|SUPERIORITY_OR_OTHER||Difference Estimate|-0.55|||||TWO_SIDED|95.0|-0.824|-0.281|||Regression, Linear|||||-0.281|-0.824|
82484340|NCT00410202|164662362|SUPERIORITY_OR_OTHER||Difference Estimate|-2.4|||||TWO_SIDED|95.0|-15.5|10.7||||||||10.7|-15.5|
82484341|NCT00410202|164662362|SUPERIORITY_OR_OTHER||Difference Estimate|-1.2|||||TWO_SIDED|95.0|-15.0|12.6||||||||12.6|-15.0|
82484342|NCT00410202|164662363|SUPERIORITY_OR_OTHER||Difference Estimate|-2.8|||||TWO_SIDED|95.0|-16.2|10.6||||||||10.6|-16.2|
82484343|NCT00410202|164662364|SUPERIORITY_OR_OTHER||Difference Estimate|0.8|||||TWO_SIDED|95.0|-5.2|6.7||||||||6.7|-5.2|
82484344|NCT00410202|164662364|SUPERIORITY_OR_OTHER||Difference Estimate|1.3|||||TWO_SIDED|95.0|-4.6|7.2||||||||7.2|-4.6|
82484345|NCT00410202|164662365|SUPERIORITY_OR_OTHER||Difference Estimate|-1.5|||||TWO_SIDED|95.0|-9.5|6.4||||||||6.4|-9.5|
82484346|NCT00410202|164662366|SUPERIORITY_OR_OTHER||Difference Estimate|2.2|||||TWO_SIDED|95.0|-2.4|6.8||||||||6.8|-2.4|
82484347|NCT00410202|164662366|SUPERIORITY_OR_OTHER||Difference Estimate|1.4|||||TWO_SIDED|95.0|-3.5|6.2||||||||6.2|-3.5|
82484348|NCT00410202|164662367|SUPERIORITY_OR_OTHER||Difference Estimate|2.1|||||TWO_SIDED|95.0|-3.6|7.8||||||||7.8|-3.6|
82484349|NCT00410202|164662368|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
82484350|NCT00410202|164662368|SUPERIORITY_OR_OTHER||Difference Estimate|0.0|||||TWO_SIDED|95.0|-2.0|2.0||||||||2.0|-2.0|
82484351|NCT00410202|164662370|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
82484352|NCT00410202|164662370|SUPERIORITY_OR_OTHER||Difference Estimate|0.7|||||TWO_SIDED|95.0|-0.7|2.1||||||||2.1|-0.7|
82484353|NCT00144027|164662377|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.57||||0.03|TWO_SIDED|95.0|1.21|47.53|||Regression, Logistic|logistic regression predicting 6-month adherence, controling for baseline depression, extrapyramidal side effects, and baseline adherence.||||47.53|1.21|0.03
82484354|NCT05080660|164662378|SUPERIORITY||Posterior Mean Difference|0.23|||||TWO_SIDED|95.0|-0.26|0.73|||||Posterior mean difference with 95% credible interval is reported.|||0.73|-0.26|
82484355|NCT05080660|164662379|SUPERIORITY||Posterior Mean Difference|0.19|||||TWO_SIDED|95.0|-0.39|0.76|||||Posterior mean difference with 95% credible interval is reported.|||0.76|-0.39|
82484356|NCT05080660|164662380|SUPERIORITY||Posterior Mean Difference|0.62|||||TWO_SIDED|95.0|-0.23|1.47|||||Posterior mean difference with 95% credible interval is reported.|||1.47|-0.23|
82484357|NCT05080660|164662381|SUPERIORITY||Posterior Mean Difference|0.34|||||TWO_SIDED|95.0|-0.67|1.34|||||Posterior mean difference with 95% credible interval is reported.|||1.34|-0.67|
82484358|NCT05080660|164662382|SUPERIORITY||Posterior Mean Difference|0.08|||||TWO_SIDED|95.0|-0.35|0.5|||||Posterior mean difference with 95% credible interval is reported.|||0.50|-0.35|
82484359|NCT05080660|164662383|SUPERIORITY||Posterior Mean Difference|0.1|||||TWO_SIDED|95.0|-0.35|0.55|||||Posterior mean difference with 95% credible interval is reported.|||0.55|-0.35|
82484360|NCT05080660|164662384|SUPERIORITY||Posterior Mean Difference|1.98|||||TWO_SIDED|95.0|-0.88|4.88|||||Posterior mean difference with 95% credible interval is reported.|||4.88|-0.88|
82484361|NCT05080660|164662385|SUPERIORITY||Posterior Mean Difference|3.05|||||TWO_SIDED|95.0|-0.29|6.38|||||Posterior mean difference with 95% credible interval is reported.|||6.38|-0.29|
82484362|NCT05080660|164662386|SUPERIORITY||Posterior Mean Difference|0.13|||||TWO_SIDED|95.0|-0.23|0.5|||||Posterior mean difference with 95% credible interval is reported.|||0.50|-0.23|
82484363|NCT05080660|164662387|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.39|0.37|||||Posterior mean difference with 95% credible interval is reported.|||0.37|-0.39|
82484364|NCT05080660|164662388|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.21|0.81|||||Posterior mean difference with 95% credible interval is reported.|||0.81|-0.21|
82484365|NCT05080660|164662389|SUPERIORITY||Posterior Mean Difference|0.29|||||TWO_SIDED|95.0|-0.31|0.9|||||Posterior mean difference with 95% credible interval is reported.|||0.90|-0.31|
82484366|NCT05080660|164662390|SUPERIORITY||Posterior Mean Difference|6.14|||||TWO_SIDED|95.0|-0.24|12.52|||||Posterior mean difference with 95% credible interval is reported.|||12.52|-0.24|
82484367|NCT05080660|164662391|SUPERIORITY||Posterior Mean Difference|5.15|||||TWO_SIDED|95.0|-1.9|12.18|||||Posterior mean difference with 95% credible interval is reported.|||12.18|-1.90|
82555806|NCT01371994|164820265|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.46||0.5186|TWO_SIDED|95.0|-0.6|1.19|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||1.19|-0.60|0.5186
82555807|NCT01371994|164820265|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.43||0.4521|TWO_SIDED|95.0|-0.52|1.17|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||1.17|-0.52|0.4521
82555808|NCT01371994|164820267|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1493|TWO_SIDED|95.0|-0.07|0.47|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||0.47|-0.07|0.1493
82484368|NCT05080660|164662392|SUPERIORITY||Posterior Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.32|0.27|||||Posterior mean difference with 95% credible interval is reported.|||0.27|-0.32|
82484369|NCT05080660|164662393|SUPERIORITY||Posterior Mean Difference|-0.2|||||TWO_SIDED|95.0|-0.52|0.13|||||Posterior mean difference with 95% credible interval is reported.|||0.13|-0.52|
82484370|NCT05080660|164662394|SUPERIORITY||Posterior Mean Difference|98.35|||||TWO_SIDED|95.0|-51.95|250.88|||||Posterior mean difference with 95% credible interval is reported.|||250.88|-51.95|
82484371|NCT05080660|164662395|SUPERIORITY||Posterior Mean Difference|123.36|||||TWO_SIDED|95.0|-46.51|293.69|||||Posterior mean difference with 95% credible interval is reported.|||293.69|-46.51|
82484372|NCT05080660|164662396|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.06|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.06|
82484373|NCT05080660|164662397|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.07|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.07|
82484374|NCT00282347|164662425|SUPERIORITY_OR_OTHER|||||||0.5538|TWO_SIDED||||||Stratified Wilcoxon-Rank Sum Test|||||||0.5538
82484375|NCT04340063|164662445|OTHER||Odds Ratio, log|0.4|||<|0.001|TWO_SIDED|95.0|0.25|0.55||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant was used and fixed effects were time (assessment order) and a time by group interaction (Treadmill or Movement Amplification). A binomial distribution was used for this model.||0.55|0.25|<0.001
82484376|NCT04340063|164662445|OTHER||Odds Ratio, log|-0.03||||0.8|TWO_SIDED|95.0|-0.22|0.16||Interaction effect for time (pre-, mid-, and post- assessments) by group (Movement Amplification)|Mixed Models Analysis|||||0.16|-0.22|0.8
82484377|NCT04340063|164662445|OTHER||Odds Ratio, log|0.09||||0.5|TWO_SIDED|95.0|-0.18|0.36||Effect of time (post-training and follow-up assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used. A binomial distribution was used for this model.||0.36|-0.18|0.5
82484378|NCT04340063|164662445|OTHER||Odds Ratio, log|-0.07||||0.6|TWO_SIDED|95.0|-0.31|0.17||Interaction effect of time (post-training and follow-up assessments) by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used. A binomial distribution was used for this model.||0.17|-0.31|0.6
82484379|NCT04340063|164662446|OTHER||Slope|0.06||||0.8|TWO_SIDED|95.0|-0.5|0.62||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and time by group (Treadmill or Movement Amplification) interaction were used||0.62|-0.50|0.8
82484380|NCT04340063|164662446|OTHER||Slope|-0.7||||0.012|TWO_SIDED|95.0|-1.2|-0.16||Interaction effect of time by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||-0.16|-1.2|0.012
82651466|NCT01715415|165017642|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical SVR rates for noncirrhotic pegIFN/RBV treatment-experienced subjects of the appropriate HCV genotype 1 subtype administered telaprevir plus pegIFN/RBV, the lower confidence bound (LCB) of the 95% confidence interval (CI) must have exceeded 77% to achieve superiority of the ABT-450/r/ABT-267 and ABT-333, plus RBV treatment group as compared with the historical rate for telaprevir plus pegIFN and RBV.|Percentage of Participants with SVR12|96.7|||||TWO_SIDED|95.0|93.6|99.9||||||||99.9|93.6|
82484381|NCT04340063|164662446|OTHER||Slope|0.26||||0.3|TWO_SIDED|95.0|-0.22|0.75||Effect of time (post-training to follow-up)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||0.75|-0.22|0.3
82484382|NCT04340063|164662446|OTHER||Slope|-0.2||||0.4|TWO_SIDED|95.0|-0.69|0.29||Interaction effect of time (post-training to follow-up) by group|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the post-training and follow-up assessments if an effect was found during training. Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||0.29|-0.69|0.4
82484383|NCT04340063|164662447|OTHER||Slope|-52.0||||0.9|TWO_SIDED|95.0|-651.0|456.0||Effect of time (pre-, mid-, and post- assessments)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||456|-651|0.9
82484384|NCT04340063|164662447|OTHER||Slope|79.0||||0.8|TWO_SIDED|95.0|-622.0|780.0||Interaction effect of time by group (Movement Amplification)|Mixed Models Analysis|||A linear mixed-effects model (LMM) evaluated the effect of training (pre-, mid-, and post- assessments). Random effect of participant and fixed effects of time (assessment order) and the time by group (Treadmill or Movement Amplification) interaction were used.||780|-622|0.8
82484385|NCT00491556|164662470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.08|STANDARD_DEVIATION|5.13|<|0.0001|TWO_SIDED|95.0|-12.2|-7.97|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||-7.97|-12.20|<0.0001
82484386|NCT00491556|164662471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_DEVIATION|5.0||0.0834|TWO_SIDED|95.0|-3.87|0.26|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||0.26|-3.87|0.0834
82484387|NCT00491556|164662472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-317.36|STANDARD_DEVIATION|176.07|<|0.0001|TWO_SIDED|95.0|-390.04|-244.68|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||-244.68|-390.04|<0.0001
82484388|NCT00491556|164662473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.2|STANDARD_DEVIATION|242.38||0.6222|TWO_SIDED|95.0|-124.25|75.85|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||75.85|-124.25|0.6222
82484389|NCT00491556|164662474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.79|STANDARD_DEVIATION|152.57||0.0781|TWO_SIDED|95.0|-124.77|7.18|||t-test, 2 sided|||Null hypothesis is no changes between Baseline and Week 48.||7.18|-124.77|0.0781
82484390|NCT00491556|164662475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-103.53|STANDARD_DEVIATION|176.61||0.0102|TWO_SIDED|95.0|-179.9|-27.16|||t-test, 2 sided|||Null hypothesis is no changes between Week 48 and Week 152||-27.16|-179.90|0.0102
82484391|NCT00491556|164662476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.13|STANDARD_DEVIATION|56.72||0.1616|TWO_SIDED|95.0|-41.66|7.4|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Baseline and Week 48.||7.40|-41.66|0.1616
82555809|NCT01371994|164820267|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1499|TWO_SIDED|95.0|-0.07|0.44|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||0.44|-0.07|0.1499
82555810|NCT01371994|164820269|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.5|STANDARD_ERROR_OF_MEAN|0.35||0.1279|TWO_SIDED|95.0|-0.16|1.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||1.23|-0.16|0.1279
82555811|NCT01371994|164820269|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.6|STANDARD_ERROR_OF_MEAN|0.34||0.1038|TWO_SIDED|95.0|-0.11|1.23|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||1.23|-0.11|0.1038
82484392|NCT00491556|164662477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.08|STANDARD_DEVIATION|75.17||0.0117|TWO_SIDED|95.0|-75.59|-10.58|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||-10.58|-75.59|0.0117
82484393|NCT00491556|164662478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-76.92|STANDARD_DEVIATION|56.31|<|0.0001|TWO_SIDED|95.0|-101.27|-52.57|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48|Null hypothesis is no changes between Week 48 and Week 152||-52.57|-101.27|< 0.0001
82484394|NCT00491556|164662479|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.87|STANDARD_DEVIATION|68.75||0.2519|TWO_SIDED|95.0|-12.86|46.6|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152|Null hypothesis is no changes between Week 48 and Week 152||46.60|-12.86|0.2519
82484395|NCT00491556|164662480|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-126.79|STANDARD_DEVIATION|105.61|<|0.0001|TWO_SIDED|95.0|-172.46|-81.12|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-81.12|-172.46|< 0.0001
82484396|NCT00491556|164662481|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|87.64|STANDARD_DEVIATION|97.71||0.0003|TWO_SIDED|95.0|45.39|129.9|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||129.90|45.39|0.0003
82484397|NCT00491556|164662482|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.46|STANDARD_DEVIATION|213.77||0.3739|TWO_SIDED|95.0|-51.98|132.9|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||132.90|-51.98|0.3739
82484398|NCT00491556|164662483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-91.86|STANDARD_DEVIATION|166.4||0.0147|TWO_SIDED|95.0|-163.82|-19.9|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-19.90|-163.82|0.0147
82484399|NCT00491556|164662484|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.81|STANDARD_DEVIATION|76.07|<|0.0001|TWO_SIDED|95.0|46.92|112.71|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||112.71|46.92|< 0.0001
82484400|NCT00491556|164662485|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|STANDARD_DEVIATION|58.18||0.1067|TWO_SIDED|95.0|-45.56|4.76|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||4.76|-45.56|0.1067
82555812|NCT01371994|164820271|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.98||0.8876|TWO_SIDED|95.0|-4.19|3.63|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||3.63|-4.19|0.8876
82555813|NCT01371994|164820271|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.86||0.395|TWO_SIDED|95.0|-8.1|3.21|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||3.21|-8.10|0.3950
82555814|NCT01371994|164820273|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.0|STANDARD_ERROR_OF_MEAN|2.43||0.4126|TWO_SIDED|95.0|-2.82|6.81|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||6.81|-2.82|0.4126
82484401|NCT00491556|164662486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|90.82|STANDARD_DEVIATION|107.8||0.0005|TWO_SIDED|95.0|44.2|137.43|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||137.43|44.20|0.0005
82484402|NCT00491556|164662487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.49|STANDARD_DEVIATION|64.41||0.0207|TWO_SIDED|95.0|5.64|61.34|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||61.34|5.64|0.0207
82484403|NCT00491556|164662488|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.37|STANDARD_DEVIATION|145.62||0.2082|TWO_SIDED|95.0|-102.34|23.6|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Week 48 and Week 152.||23.60|-102.34|0.2082
82484404|NCT00491556|164662489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|86.98|STANDARD_DEVIATION|139.33||0.0067|TWO_SIDED|95.0|26.73|147.23|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||147.23|26.73|0.0067
82484405|NCT00491556|164662490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.07|STANDARD_DEVIATION|13.2|<|0.0001|TWO_SIDED|95.0|-23.78|-12.36|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-12.36|-23.78|< 0.0001
82484406|NCT00491556|164662491|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_DEVIATION|14.2||0.5815|TWO_SIDED|95.0|-4.48|7.8|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||7.80|-4.48|0.5815
82484407|NCT00491556|164662492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.24|STANDARD_DEVIATION|7.82|<|0.0001|TWO_SIDED|95.0|7.85|14.62|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||14.62|7.85|< 0.0001
82555815|NCT01371994|164820273|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.0|STANDARD_ERROR_OF_MEAN|2.47||0.6959|TWO_SIDED|95.0|-3.92|5.85|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||5.85|-3.92|0.6959
82555816|NCT01371994|164820275|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|3.3|STANDARD_ERROR_OF_MEAN|2.81||0.2402|TWO_SIDED|95.0|-2.26|8.91|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||8.91|-2.26|0.2402
82555817|NCT01371994|164820275|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.1|STANDARD_ERROR_OF_MEAN|2.83||0.698|TWO_SIDED|95.0|-4.5|6.7|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||6.70|-4.50|0.6980
82484408|NCT00491556|164662493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.87|STANDARD_DEVIATION|6.93||0.0594|TWO_SIDED|95.0|-5.87|0.12|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.12|-5.87|0.0594
82484409|NCT00491556|164662494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.58|STANDARD_DEVIATION|10.24||0.0001|TWO_SIDED|95.0|8.15|17.01|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.01|8.15|0.0001
82484410|NCT00491556|164662495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93|STANDARD_DEVIATION|10.95||0.0995|TWO_SIDED|95.0|-0.81|8.66|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||8.66|-0.81|0.0995
82484411|NCT00491556|164662496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_DEVIATION|2.07||0.0002|TWO_SIDED|95.0|1.05|2.84|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||2.84|1.05|0.0002
82484412|NCT00491556|164662497|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|1.49||0.915|TWO_SIDED|95.0|-0.61|0.68|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.68|-0.61|0.9150
82484413|NCT00491556|164662498|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.52|STANDARD_DEVIATION|13.79|<|0.0001|TWO_SIDED|95.0|-29.48|-17.55|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-17.55|-29.48|< 0.0001
82555818|NCT01371994|164820277|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|2.0|STANDARD_ERROR_OF_MEAN|2.46||0.4067|TWO_SIDED|95.0|-2.8|6.89|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison at Week 12||6.89|-2.80|0.4067
82484414|NCT00491556|164662499|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|STANDARD_DEVIATION|16.96||0.5864|TWO_SIDED|95.0|-5.38|9.28|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||9.28|-5.38|0.5864
82484415|NCT00491556|164662500|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.98|STANDARD_DEVIATION|8.48|<|0.0001|TWO_SIDED|95.0|18.31|25.65|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||25.65|18.31|< 0.0001
82484416|NCT00491556|164662501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|7.25||0.1592|TWO_SIDED|95.0|-5.34|0.93|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.93|-5.34|0.1592
82484417|NCT00491556|164662502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.97|STANDARD_DEVIATION|11.04||0.042|TWO_SIDED|95.0|0.2|9.74|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||9.74|0.20|0.0420
82484418|NCT00491556|164662503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_DEVIATION|12.39||0.4029|TWO_SIDED|95.0|-7.56|3.16|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||3.16|-7.56|0.4029
82484419|NCT00491556|164662504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|STANDARD_DEVIATION|6.03|<|0.0001|TWO_SIDED|95.0|11.99|17.21|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.21|11.99|< 0.0001
82484420|NCT00491556|164662505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.14|STANDARD_DEVIATION|6.2||0.0239|TWO_SIDED|95.0|-5.81|-0.46|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.46|-5.81|0.0239
82484421|NCT00491556|164662506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.35|STANDARD_DEVIATION|10.26|<|0.0001|TWO_SIDED|95.0|-23.79|-14.91|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-14.91|-23.79|< 0.0001
82484422|NCT00491556|164662507|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.45|STANDARD_DEVIATION|13.6||0.2363|TWO_SIDED|95.0|-9.33|2.43|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||2.43|-9.33|0.2363
82484423|NCT00491556|164662508|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.69|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.0|15.93|23.45|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||23.45|15.93|< 0.0001
82484424|NCT00491556|164662509|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.03|STANDARD_ERROR_OF_MEAN|5.55||0.0929|TWO_SIDED|95.0|-4.43|0.37|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.37|-4.43|0.0929
82555819|NCT01371994|164820277|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.4|STANDARD_ERROR_OF_MEAN|2.36||0.8507|TWO_SIDED|95.0|-4.21|5.1|||ANCOVA|Based on an analysis of covariance (ANCOVA) model including Baseline value as a covariates and fixed effects for (pooled) center and treatment.||Comparison of end of treatment analysis||5.10|-4.21|0.8507
82555820|NCT01371994|164820278|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|||||||Log Rank|Based on a Log-rank test stratified by (pooled) center.||||||0.2700
82651467|NCT03586830|165017652|SUPERIORITY||Difference of least square (LS) means|-4.56|STANDARD_ERROR_OF_MEAN|0.757|<|0.001|TWO_SIDED|95.0|-6.05|-3.06|||Hochberg Approach|||||-3.06|-6.05|<.001
82651468|NCT03586830|165017652|SUPERIORITY||Difference of LS Means|-5.85|STANDARD_ERROR_OF_MEAN|0.755|<|0.001|TWO_SIDED|95.0|-7.34|-4.36|||Hochberg Approach|||||-4.36|-7.34|<.001
82484425|NCT00491556|164662510|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.53|STANDARD_DEVIATION|8.94||0.1886|TWO_SIDED|95.0|-6.4|1.34|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||1.34|-6.40|0.1886
82484426|NCT00491556|164662511|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.87|STANDARD_DEVIATION|8.13||0.2831|TWO_SIDED|95.0|-1.65|5.38|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||5.38|-1.65|0.2831
82484427|NCT00491556|164662512|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.52|STANDARD_DEVIATION|5.59|<|0.0001|TWO_SIDED|95.0|9.1|13.94|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||13.94|9.10|< 0.0001
82484428|NCT00491556|164662513|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.21|STANDARD_DEVIATION|5.88||0.0157|TWO_SIDED|95.0|-5.75|-0.67|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.67|-5.75|0.0157
82484429|NCT00491556|164662514|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.65|STANDARD_DEVIATION|12.93|<|0.0001|TWO_SIDED|95.0|-28.24|-17.06|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||-17.06|-28.24|< 0.0001
82484430|NCT00491556|164662515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.23|STANDARD_DEVIATION|15.37||0.1999|TWO_SIDED|95.0|-2.41|10.88|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||10.88|-2.41|0.1999
82484431|NCT00491556|164662516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.47|STANDARD_DEVIATION|6.81|<|0.0001|TWO_SIDED|95.0|9.52|15.41|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||15.41|9.52|< 0.0001
82581960|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.9|-1.3||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 20||-1.3|-1.9|< 0.0001
82651469|NCT03586830|165017652|SUPERIORITY||Difference of LS Means|-7.23|STANDARD_ERROR_OF_MEAN|0.748|<|0.001|TWO_SIDED|95.0|-8.7|-5.75|||Hochberg Approach|||||-5.75|-8.70|<.001
82484432|NCT00491556|164662517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_DEVIATION|5.12||0.0808|TWO_SIDED|95.0|-4.17|0.26|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||0.26|-4.17|0.0808
82484433|NCT00491556|164662518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7|STANDARD_DEVIATION|13.83||0.0005|TWO_SIDED|95.0|5.72|17.69|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||17.69|5.72|0.0005
82484434|NCT00491556|164662519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|14.12||0.9198|TWO_SIDED|95.0|-6.41|5.81|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||5.81|-6.41|0.9198
82484435|NCT00491556|164662520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69|STANDARD_DEVIATION|2.97|<|0.0001|TWO_SIDED|95.0|2.4|4.97|||t-test, 2 sided||Difference was calculated as Baseline minus Week 48.|Null hypothesis is no changes between Baseline and Week 48.||4.97|2.40|< 0.0001
82484436|NCT00491556|164662521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31|STANDARD_DEVIATION|2.54||0.0215|TWO_SIDED|95.0|-2.41|-0.21|||t-test, 2 sided||Difference was calculated as Week 48 minus Week 152.|Null hypothesis is no changes between Week 48 and Week 152.||-0.21|-2.41|0.0215
82484437|NCT04480424|164662536|SUPERIORITY||Risk Difference|-4.0||||0.8275|TWO_SIDED|95.0|-22.3|14.5||p-value was calculated using Fisher's exact method with 5% level of significance to test the null hypothesis of no difference in mortality rate between the two treatment groups.|Fisher Exact|||||14.5|-22.3|0.8275
82484438|NCT04480424|164662537|SUPERIORITY|||||||0.8599||||||p-value was calculated using Gray's test for equality of the Cumulative Incidence Function (CIF) between treatment groups.|Gray's test|||||||0.8599
82484439|NCT04480424|164662538|SUPERIORITY||Least Square Mean (LSM) Difference|2.58||||0.2626|TWO_SIDED|95.0|-1.96|7.12||p-value was calculated using an Analysis of Variance (ANOVA) model, including the number of days on mechanical ventilation as a dependent variable and treatment group as a fixed effect.|ANOVA|||||7.12|-1.96|0.2626
82484440|NCT04480424|164662539|SUPERIORITY|||||||0.6854||||||p-value was calculated using Gray's test for equality of the CIF between treatment groups.|Gray's test|||||||0.6854
82484441|NCT04480424|164662540|SUPERIORITY||LSM Difference|-0.02||||0.9917|TWO_SIDED|95.0|-3.82|3.78||95% CI for difference in least square mean (LSM) between treatment groups and the associated p-value were calculated using an ANOVA model, including the number of days on oxygen as a dependent variable and treatment group as a fixed effect.|ANOVA|||||3.78|-3.82|0.9917
82651470|NCT04192799|165017656|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|0.74|||<|0.001|TWO_SIDED|95.0|0.65|0.85||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||0.85|0.65|<0.001
82484442|NCT04480424|164662541|SUPERIORITY||LSM Difference|0.05||||0.7557|TWO_SIDED|95.0|-0.29|0.4|||Kenward-Roger|p-value were calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.||||0.40|-0.29|0.7557
82484443|NCT04480424|164662542|SUPERIORITY||LSM Difference|0.4||||0.0922|TWO_SIDED|95.0|-0.07|0.86||p-value were calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Kenward-Roger|||||0.86|-0.07|0.0922
82484444|NCT04480424|164662546|SUPERIORITY||Kenward-Roger|0.4||||0.3611|TWO_SIDED|95.0|-0.47|1.28||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.28|-0.47|0.3611
82484445|NCT04480424|164662546|SUPERIORITY||Kenward-Roger|-0.1||||0.9238|TWO_SIDED|95.0|-2.13|1.94||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.94|-2.13|0.9238
82484446|NCT04480424|164662546|SUPERIORITY||Kenward-Roger|0.08||||0.9541|TWO_SIDED|95.0|-2.58|2.73||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||2.73|-2.58|0.9541
82484447|NCT04480424|164662547|SUPERIORITY||LSM Difference|0.06||||0.9366|TWO_SIDED|95.0|-1.42|1.53||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|LSM Difference|||||1.53|-1.42|0.9366
82484448|NCT04894916|164662574|OTHER|single group|mean|81.9|||<|0.001|TWO_SIDED||||||t-test, 2 sided|||"One-sample t-test comparing the sample mean to the threshold value of 71 indicative of good usability. The null hypothesis: true mean is equal to 71."||||<0.001
82484449|NCT04894916|164662577|SUPERIORITY||Mean Difference (Net)|0.73|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82484450|NCT04894916|164662578|OTHER||Mean Difference (Net)|1.17||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
82484451|NCT04894916|164662579|OTHER|||||||0.68|||||||McNemar|||Analysis for pre-post change in knowledge of definition of A1C||||0.68
82484452|NCT04894916|164662579|OTHER|||||||0.18|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for hemoglobin A1c.||||0.18
82484453|NCT04894916|164662579|OTHER|||||||0.18|||||||McNemar|||Analysis for pre-post change in knowledge of definition of systolic blood pressure||||0.18
82484454|NCT04894916|164662579|OTHER|||||||0.17|||||||McNemar|||Analysis of pre-post change in knowledge of goal range for systolic blood pressure||||0.17
82484455|NCT04894916|164662579|OTHER|||||||0.33|||||||McNemar|||Analysis of pre-post change in knowledge of definition of LDL cholesterol||||0.33
82484456|NCT04894916|164662579|OTHER|||||||0.4|||||||McNemar|||Analysis for pre-post change in knowledge of goal range for LDL cholesterol||||0.40
82484457|NCT04894916|164662579|OTHER|||||||1|||||||McNemar|||Analysis of pre-post change in knowledge of definition of flu vaccine||||1.00
82484458|NCT04894916|164662579|OTHER|||||||0.37|||||||McNemar|||Analysis of pre-post change in knowledge of recommended frequency of flu vaccination||||0.37
82484459|NCT04894916|164662580|OTHER||Mean Difference (Net)|-0.71||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
82484460|NCT04894916|164662581|OTHER|||||||0.03|||||||McNemar|||Analysis of pre-post change in interest in information about how my diabetes health data compares to other patients like me (i.e., social comparison information)||||0.03
82651471|NCT04192799|165017657|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|1.12|||<|0.001|TWO_SIDED|95.0|1.06|1.19||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||1.19|1.06|<0.001
82484461|NCT04894916|164662581|OTHER|||||||0.45|||||||McNemar|||Analysis of pre-post change in interest in information about how their diabetes health data compares to the goal range (i.e., goal-based comparison information)||||0.45
82484462|NCT04894916|164662581|OTHER|||||||0.17|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to other patients like me \[social comparison information\] is useful.||||0.17
82484463|NCT04894916|164662581|OTHER|||||||0.62|||||||McNemar|||Analysis of pre-post change in agreement with statement: 'Information about how my diabetes health data compares to the goals range \[goal-based comparison information\] is useful.||||0.62
82484464|NCT04894916|164662583|OTHER||Mean Difference (Net)|0.09||||0.53|TWO_SIDED||||||t-test, 2 sided|||||||0.53
82484465|NCT04894916|164662584|OTHER||Mean Difference (Net)|0.03||||0.86|TWO_SIDED||||||t-test, 2 sided|||||||0.86
82484466|NCT04894916|164662585|OTHER||Mean Difference (Net)|0.28||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
82484467|NCT04894916|164662586|OTHER||Mean Difference (Net)|0.25||||0.21|TWO_SIDED||||||t-test, 2 sided|||||||0.21
82484468|NCT04894916|164662587|OTHER||Mean Difference (Net)|-0.39||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
82484469|NCT00734747|164662590|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<.001
82484470|NCT00396032|164662618|SUPERIORITY_OR_OTHER|||||||0.0044||95.0||||Stratified by baseline BFR: 0-199 mL/min, 200-274 mL/min, and 275-299 mL/min.|Cochran-Mantel-Haenszel|||||||0.0044
82484471|NCT00396032|164662618|SUPERIORITY_OR_OTHER|||||||0.0035||95.0|||||Chi-squared|||||||0.0035
82484472|NCT00396032|164662620|SUPERIORITY_OR_OTHER|||||||0.0396||95.0||||Stratified by baseline BFR: 0-199 mL/min, 200-274 mL/min, and 275-299 mL/min.|Cochran-Mantel-Haenszel|||||||0.0396
82484473|NCT03437512|164662632|SUPERIORITY||||||<|0.001||||||familywise error rate (FWE) corrected to .05 with cluster threshold of 80 voxels.|t-test, 2 sided|||||||<.001
82555821|NCT03275285|164820296|SUPERIORITY|For PFS, the nominal significance levels at primary analysis was determined using alpha-spending function in order to control overall 1-sided type 1 error at 2.5%. The 1-sided nominal significance level to declare overwhelming efficacy at primary analysis (103 PFS events) was 0.005. Because the median PFS was not reached at the primary analysis, it was described at the final analysis.|Hazard Ratio (HR)|0.531||||0.0007|TWO_SIDED|99.0|0.318|0.889||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.005.|Stratified Log-Rank test|Stratified on number of prior lines of therapy (1 vs \>1) \& revised international staging system stage (I/II vs III vs not classified) as per IRT.|Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|Statistical analysis for comparison of PFS between the Kd and IKd arms based on primary analysis.||0.889|0.318|0.0007
82484474|NCT03437512|164662633|SUPERIORITY|||||||0.936||||||Interaction between visit and group.|ANOVA|||Analyses conduced with a mixed ANOVA, with between-subjects factor of group (active, sham) and two within-subjects factors: time (post, follow up) and speech task (reading, conversation).||||.936
82484475|NCT03437512|164662634|SUPERIORITY|||||||0.619||||||Interaction between visit and group.|ANOVA|||||||.619
82484476|NCT03693170|164662651|OTHER|||||||||||||||||"The null hypothesis that the true response rate is 30% will be tested against a one-sided alternative.~The cORR will be provided with a corresponding Clopper-Pearson (exact) binomial 95% CI for the Efficacy Set.~This design yields a 1-sided type I error rate equal to 1.6% and power of 80% when the true response rate is 45%."|If 37 or more confirmed responses were observed in the 90 treated subjects with a centrally confirmed BRAFV600E mutation, corresponding to a lower limit of Clopper-Pearson (exact) binomial 95% CI exceeding 30%, the study was considered to have met its primary endpoint. If more than 90 subjects were enrolled, the lower limit of Clopper-Pearson was to be used for decision.|||
82484477|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.25|||||TWO_SIDED|95.0|-1.99|-0.5||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.50|-1.99|
82484478|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.88|-0.52||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.52|-1.88|
82484479|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.76|0.69||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.69|-0.76|
82484480|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|-0.37|1.01||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 10AM Difference between Implant Group 2 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.01|-0.37|
82484481|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|-0.59|0.91||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 8AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.91|-0.59|
82484482|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 2 vs Timolol|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.77|0.71||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 2 and timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.71|-0.77|
82484483|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs. Timolol|Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.84|-0.36||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 8AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.36|-1.84|
82484484|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|-1.13|||||TWO_SIDED|95.0|-1.81|-0.45||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Day 10, 10AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||-0.45|-1.81|
82484485|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.33|||||TWO_SIDED|95.0|-0.39|1.06||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 8AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.06|-0.39|
82484486|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|-0.46|0.93||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Week 6, 10AM Difference between Implant Group 1 vs. Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||0.93|-0.46|
82484487|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.53|||||TWO_SIDED|95.0|-0.23|1.28||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 8AM Difference between Implant Group 1 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.28|-0.23|
82555822|NCT03275285|164820297|SUPERIORITY|The 1-sided nominal significance level to declare overwhelming efficacy at primary analysis was 0.004. Because the median PFS was not reached at the primary analysis, it was described at the final analysis.|Hazard Ratio (HR)|0.548||||0.0016|TWO_SIDED|99.2|0.317|0.948||One-sided p-value based on Stratified log-rank test. Threshold for statistical significance at 0.004.|Stratified Log-Rank test|Stratified on number of prior lines of therapy (1 vs \>1) \& revised international staging system stage (I/II vs III vs not classified) as per IRT.|Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|Statistical analysis for comparison of PFS between the Kd and IKd arm based on primary analysis.||0.948|0.317|0.0016
82555823|NCT03275285|164820298|SUPERIORITY||Hazard Ratio (HR)|0.576|||||TWO_SIDED|95.4|0.418|0.792|||||Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.792|0.418|
82555824|NCT03275285|164820299|SUPERIORITY||Hazard Ratio (HR)|0.594|||||TWO_SIDED|95.4|0.424|0.832|||||Hazard Ratio was stratified on number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.832|0.424|
82555825|NCT03275285|164820300|SUPERIORITY|A closed test procedure was used to control the Type I error rate from the primary efficacy endpoints sequentially through the secondary efficacy endpoints. No further testing would be performed unless the significance level had been reached on PFS and testing on subsequent endpoints were continued only if the null hypothesis for the previously tested endpoint was rejected.||||||0.193||||||One-sided p-value based on Stratified Cochran-Mantel-Haenszel test. Threshold for statistical significance level at 0.025.|Cochran-Mantel-Haenszel|One sided p-value was stratified based on randomization factors according to IRT.||Statistical analysis for comparison of Overall Response between the Kd and IKd arms based on primary analysis.||||0.1930
82484488|NCT03868124|164662670|NON_INFERIORITY|criteria for statistical and clinical non-inferiority: upper limit of the 95% CI of the difference between the implant group and the timolol group was \< 1.5 mmHg and also \< 1 mmHg for all 6 timepoints for Implant Group 1 vs Timolol|Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-0.19|1.29||Fixed sequence hierarchical testing procedure was used, first testing for non-inferiority of Implant Group 2 to timolol at all 6 timepoints before testing non-inferiority of Implant Group 1 to timolol||||"Month 3, 10AM Difference between Implant Group 1 and Timolol~Note: Multiple imputation techniques were used to account for missing data such that the sample size at each visit /timepoint was the same for purposes of statistical analyses"||1.29|-0.19|
82555826|NCT03275285|164820307|SUPERIORITY||Stratified Hazard Ratio|0.425|||||TWO_SIDED|95.0|0.269|0.672|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.672|0.269|
82555827|NCT03275285|164820308|SUPERIORITY||Stratified Hazard Ratio|0.495|||||TWO_SIDED|95.0|0.324|0.757|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||0.757|0.324|
82555828|NCT03275285|164820309|SUPERIORITY||Stratified Hazard Ratio|1.143|||||TWO_SIDED|95.0|0.888|1.471|||||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|1.471|0.888|
82555829|NCT03275285|164820310|SUPERIORITY||Stratified Hazard Ratio|0.955|||||TWO_SIDED|95.0|0.74|1.233|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|||1.233|0.740|
82555830|NCT03275285|164820311|SUPERIORITY|\[Not specified\]|[Stratified Hazard Ratio]|0.683|||||TWO_SIDED|95.0|0.496|0.941|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|\[Not specified\]||0.941|0.496|
82555831|NCT03275285|164820312|SUPERIORITY|\[Not specified\]|Stratified Hazard Ratio|0.663|||||TWO_SIDED|95.0|0.491|0.895|||||Stratification was done on the number of prior lines of therapy (1 vs. \>1) and R-ISS stage (I or II vs. III vs. not classified) according to IRT.|\[Not specified\]||0.895|0.491|
82555832|NCT01983683|164820370|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-4.7|||||TWO_SIDED|95.0|-10.7|1.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|||1.3|-10.7|
82555833|NCT01983683|164820370|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-3.6|||||TWO_SIDED|95.0|-9.6|2.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Sensitivity analysis with imputation for a single day with missing UBM data between one day before end-of-treatment (EOT) and 2 days after EOT||2.3|-9.6|
82555834|NCT01983683|164820371|NON_INFERIORITY|Non-inferiority of CCR for cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above -10%|Difference between 2 proportions|-4.9|||||TWO_SIDED|95.0|-10.4|0.6|||||CI for the difference between two proportions are estimated using the Wilson' score method|||0.6|-10.4|
82581961|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.1|-1.6|< 0.0001
82484489|NCT00423670|164662687|SUPERIORITY_OR_OTHER||Percent difference in SVR|16.7||||0.0126|TWO_SIDED|95.0|3.5|30.0|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||30|3.5|0.0126
82581962|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied Thickness Hair Coverage: Week 24||-1.2|-1.8|< 0.0001
82581963|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 12||-0.7|-1.1|< 0.0001
82581964|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 12||-0.8|-1.3|< 0.0001
82555835|NCT01983683|164820372|SUPERIORITY|Superiority of cadazolid versus vancomycin is demonstrated if the lower limit of the 95% confidence interval (CI) is above zero|Difference between 2 proportions|1.7|||||TWO_SIDED|95.0|-6.1|9.4|||||CI for the difference between two proportions are estimated using the Wilson's score method|||9.4|-6.1|
82555836|NCT01983683|164820373|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.7794|TWO_SIDED|95.0|0.86|1.24||two-sided p-value (alpha 5%) based on log-rank test stratified by first occurrence / first recurrence and geographical region.|Log Rank|||||1.24|0.86|0.7794
82555837|NCT01983683|164820374|SUPERIORITY||Least Square Mean difference|-0.044||||0.6871|TWO_SIDED|95.0|-0.26|0.17||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the diarrhea domain scores||0.17|-0.26|0.6871
82581965|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 16||-0.7|-1.2|< 0.0001
82484490|NCT00423670|164662687|SUPERIORITY_OR_OTHER||Percent difference in SVR|18.8||||0.0048|TWO_SIDED|95.0|5.5|32.2|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||32.2|5.5|0.0048
82484491|NCT00423670|164662687|SUPERIORITY_OR_OTHER||Percent difference in SVR|29.5|||<|0.0001|TWO_SIDED|95.0|16.5|42.5|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||42.5|16.5|<0.0001
82484492|NCT00423670|164662687|SUPERIORITY_OR_OTHER||Percent difference in SVR|37.3|||<|0.0001|TWO_SIDED|95.0|24.7|49.8|||Cochran-Mantel Haenszel Chi-square test|Adjusted for baseline stratification factors: black versus non-black, and cirrhosis versus no cirrhosis.||||49.8|24.7|<0.0001
82484493|NCT00423670|164662688|SUPERIORITY_OR_OTHER||Percent difference in SVR rates|5.1||||0.2864|TWO_SIDED|95.0|-4.2|14.3|||Cochran-Mantel-Haenszel Chi-Square Test|Adjusted for baseline stratification factors: black versus non black, and cirrhosis versus no cirrhosis.||||14.3|-4.2|0.2864
82484494|NCT00423670|164662689|SUPERIORITY_OR_OTHER||Percent difference in SVR rates|15.6||||0.0009|TWO_SIDED|95.0|6.5|24.8|||Cochran-Mantel-Haenszel Chi-Square Test|Adjusted for the baseline stratification factors: black versus non black, and cirrhosis versus no cirrhosis.||||24.8|6.5|0.0009
82555838|NCT01983683|164820374|SUPERIORITY||Least Square Mean difference|0.025||||0.7833|TWO_SIDED|95.0|-0.15|0.2||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the abdominal symptoms domain scores||0.20|-0.15|0.7833
82555839|NCT01983683|164820374|SUPERIORITY||Least Square Mean difference|0.061||||0.4145|TWO_SIDED|95.0|-0.09|0.21||Two-sided 5% alpha level was used|ANOVA|ANOVA model for repeated measurements was fitted using all values from Day 1 (baseline) to Day 12.|The Least Square Means of the treatments differences for the changes from baseline at Day 3 were obtained using estimate statements|Comparison of the other symptoms domain scores||0.21|-0.09|0.4145
82555840|NCT01983683|164820375|OTHER||Difference between 2 proportions|-1.1|||||TWO_SIDED|95.0|-6.5|4.2|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||4.2|-6.5|
82555841|NCT01983683|164820376|OTHER||Difference between 2 proportions|-1.6|||||TWO_SIDED|95.0|-6.5|3.3|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||3.3|-6.5|
82555842|NCT01983683|164820377|OTHER||Difference between 2 proportions|8.8|||||TWO_SIDED|95.0|1.1|16.4|||||CI for the difference between two proportions are estimated using the Wilson's score method|Exploratory analysis||16.4|1.1|
82555843|NCT01983683|164820378|SUPERIORITY|Sensitivity analysis|Difference between 2 proportions|2.7|||||TWO_SIDED|95.0|-5.5|10.9|||||CI for the difference between two proportions are estimated using the Wilson's score method|||10.9|-5.5|
82581966|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 16||-0.9|-1.4|< 0.0001
82651472|NCT04192799|165017658|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Mean Ratio|0.93||||0.37|TWO_SIDED|95.0|0.8|1.09||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Gamma Regression with Log Link Function|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||1.09|0.80|0.37
82484495|NCT01052844|164662739|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||Complete protection from nausea and vomiting (CP) was defined as the absence of any episode of nausea or vomiting and no use of rescue medication. CP was further defined as either acute (ACP), when occurring during the first 24 hours after chemotherapy; delayed (DCP), when occurring during the period from days 2 through 5 after chemotherapy; or overall, when occurring over the entire period of the study (first 120 hours).||||0.04
82484496|NCT01052844|164662740|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||We evaluated associations between categorical variables using the Chi-Square test||||0.06
82484497|NCT01369485|164662799|SUPERIORITY_OR_OTHER|||||||0.3636|||||||Chi-squared|||The sample size calculation was determined using the 2-sided Chi-square test with a significance level of 5% and 80% power based upon the following assumptions: (1) proportion of responders at end of 12 weeks of treatment would be 50% in the active (test) group and 25% in the inactive (control) group; (2) a responder was defined as a subject who experienced decrease of ≥50% in mean urgency urinary incontinence episodes (leaks) between baseline and Week 12 of the study; (3) 20 % dropout rate.||||0.3636
82484498|NCT01369485|164662799|SUPERIORITY_OR_OTHER|||||||0.4849|||||||Chi-squared|||||||0.4849
82484499|NCT01369485|164662800|SUPERIORITY_OR_OTHER|||||||0.2893|||||||Wilcoxon (Mann-Whitney)|||||||0.2893
82555844|NCT02278185|164820427|SUPERIORITY|||||||0.46|||||||Chi-squared|||The difference between metabolic syndrome and treatment were evaluated with the Chi-square test|This study did not meet it's target accrual goal and thus is underpowered to detect a statistically significant difference between the two groups.|||0.46
82581967|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 20||-0.9|-1.3|< 0.0001
82581968|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 20||-1.1|-1.6|< 0.0001
82581969|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 24||-1.0|-1.5|< 0.0001
82555845|NCT02278185|164820427|SUPERIORITY|||||||0.46|||||||Chi-squared|||Cohort characteristics for Metabolic Syndrome were summarized by event and arm using counts and percentages for categorical variables and the mean, standard deviation, median, and quartiles for continuous variables. The difference between metabolic syndrome and treatment were evaluated with the Chi-square test. P-values are reported based on a null hypothesis of no difference against a two-sided alternative. Analyses were performed using SAS 9.4 (SAS Inst|Cohort characteristics for Metabolic Syndrome, the SPPB, the SHIM/FACT-P, and PSA were summarized by event and arm using counts and percentages for categorical variables and the mean, standard deviation, median, and quartiles for continuous variables. The difference between metabolic syndrome and treatment were evaluated with the Chi-square test. The Wilcoxon signed-rank test was utilized to examine the difference between Month 1 and Month 12 SPPB scores. The Wilcoxon rank-sum test was used to assess the difference of SHIM/FACT-P scores and PSA between arms. These tests were chosen to account for the non-normal distributions of the continuous variables. The difference between PSA progression between arms was examined using the Fisher Exact Test. A heat map of scores ordered by the highest average score was also created. P-values are reported based on a null hypothesis of no difference against a two-sided alternative. Analyses were performed using SAS 9.4 (SAS Inst|||0.46
82555846|NCT02278185|164820438|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||The results are presented in the following format: N Mean (Std Dev) Median (Q1, Q3). In all cases (Overall, Arm 1, and Arm 2) we fail to reject the null hypothesis that the samples come from the same population of scores at Month 1 versus Month 12 at the 0.05 significance level.||||0.5
82555847|NCT01617369|164820440|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||Paired t-test performed. Null hypothesis is that no difference in clearance 30 min and 4 hr after HS inhalation exists||||<.05
82555848|NCT01574716|164820441|SUPERIORITY||Hazard Ratio (HR)|1.08|||=|0.6562|TWO_SIDED|95.0|0.77|1.5|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.50|0.77|= 0.6562
82651473|NCT04192799|165017659|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Odds Ratio (OR)|1.31||||0.81|TWO_SIDED|95.0|0.14|12.27||Testing was two-sided and p-values \<0.05 were considered statistically significant, not adjusted for multiple comparison.|Regression, Logistic|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||12.27|0.14|0.81
82651474|NCT04192799|165017660|EQUIVALENCE|Testing was two-sided and p-values \<0.05 were considered statistically significant.|Slope|0.05||||0.12|TWO_SIDED|95.0|-0.01|0.11|||Regression, Linear|Adjusted for demographics, clinical characteristics, time period; interaction term for hospital and time period, random effect for practice group.||||0.11|-0.01|0.12
82484500|NCT01369485|164662800|SUPERIORITY_OR_OTHER|||||||0.3223|||||||Wilcoxon (Mann-Whitney)|||||||0.3223
82484501|NCT01369485|164662801|SUPERIORITY_OR_OTHER|||||||0.3387|||||||Wilcoxon (Mann-Whitney)|||||||0.3387
82484502|NCT01369485|164662802|SUPERIORITY_OR_OTHER|||||||0.6557|||||||Wilcoxon (Mann-Whitney)|||||||0.6557
82484503|NCT01369485|164662803|SUPERIORITY_OR_OTHER|||||||0.4354|||||||Wilcoxon (Mann-Whitney)|||||||0.4354
82555849|NCT01574716|164820442|SUPERIORITY||Hazard Ratio (HR)|1.13|||=|0.4469|TWO_SIDED|95.0|0.82|1.57|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.57|0.82|=0.4469
82484504|NCT01369485|164662804|SUPERIORITY_OR_OTHER|||||||0.9918|||||||Wilcoxon (Mann-Whitney)|||||||0.9918
82555850|NCT01574716|164820443|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.3153|TWO_SIDED|95.0|0.82|1.83|||Log Rank|Two-sided log-rank test|Based on Cox PH model|||1.83|0.82|0.3153
82555851|NCT01574716|164820444|SUPERIORITY||Difference|-0.6|||=|1|TWO_SIDED|95.0|-12.0|10.9|||Log Rank|Two-sided log-rank test|Based on Cox PH model|Difference equal to (=) (MORAb 8.0 mg/kg + Gemcitabine/Docetaxel) minus (Placebo + Gemcitabine/Docetaxel). Confidence interval based on a normal approximation to the binomial distribution.||10.9|-12.0|= 1.000
82555852|NCT01105975|164820453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|78.5|||<|0.001|TWO_SIDED|90.0|64.9|92.1|||mixed model repeated measures (MMRM)|||||92.1|64.9|<0.001
82484505|NCT01369485|164662804|SUPERIORITY_OR_OTHER|||||||0.377|||||||Wilcoxon (Mann-Whitney)|||||||0.3770
82484506|NCT01369485|164662805|SUPERIORITY_OR_OTHER|||||||0.4147|||||||Fisher Exact|||||||0.4147
82484507|NCT01369485|164662805|SUPERIORITY_OR_OTHER|||||||0.0877|||||||Fisher Exact|||||||0.0877
82484508|NCT01369485|164662806|SUPERIORITY_OR_OTHER|||||||0.2032|||||||Fisher Exact|||||||0.2032
82484509|NCT01369485|164662807|SUPERIORITY_OR_OTHER|||||||0.4151||||||Calculated for only those patients who had prior OAB treatment only.|Wilcoxon (Mann-Whitney)|||||||0.4151
82484510|NCT01369485|164662808|SUPERIORITY_OR_OTHER|||||||0.9814|||||||Fisher Exact|||"Endpoint defined as percentage of patients that much improved or very much improved following treatment."||||0.9814
82484511|NCT01369485|164662808|SUPERIORITY_OR_OTHER|||||||0.7305|||||||Fisher Exact|||||||0.7305
82484512|NCT01369485|164662809|SUPERIORITY_OR_OTHER|||||||0.2191|||||||Wilcoxon (Mann-Whitney)|||||||0.2191
82484513|NCT01369485|164662809|SUPERIORITY_OR_OTHER|||||||0.5357|||||||Wilcoxon (Mann-Whitney)|||||||0.5357
82484514|NCT00873860|164662810|SUPERIORITY_OR_OTHER|||||||0.573||||||Change at Day 92: p-value was based on analysis of variance (ANOVA).|ANOVA|||||||0.573
82484515|NCT00873860|164662810|SUPERIORITY_OR_OTHER|||||||0.64||||||Change at Day 92: p-value was based on ANOVA.|ANOVA|||||||0.640
82484516|NCT00873860|164662810|SUPERIORITY_OR_OTHER|||||||0.224||||||Change at Day 92: p-value was based on ANOVA.|ANOVA|||||||0.224
82484517|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.4686||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.4686
82555853|NCT01105975|164820454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9||||0.002|TWO_SIDED|90.0|-21.2|-6.7|||mixed model repeated measures (MMRM)|||||-6.7|-21.2|0.002
82484518|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.317||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3170
82484519|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.1664||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.1664
82484520|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.3234||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3234
82484521|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.3133||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.3133
82484522|NCT00873860|164662811|SUPERIORITY_OR_OTHER|||||||0.2108||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||P-value were calculated with log-rank test, which was constructed by computing the observed and expected number of events (defined as achieving improvement from baseline in mean ACQ-6 score \>= 0.5) at each observed event time and added to obtain an overall summary across all-time points where there was an event. Number of events was different for data through Day 92 comparing with data through Day 169. Therefore, the p-values were different for data through Day 92 and Day 169.||||0.2108
82484523|NCT00873860|164662818|SUPERIORITY_OR_OTHER|||||||0.934||||||ACQ score \<=0.75, Day 92: Fisher exact test was used to compare all arms.|Fisher Exact|||||||0.934
82484524|NCT00873860|164662818|SUPERIORITY_OR_OTHER|||||||0.592||||||ACQ score \<=0.75, Day 169: Fisher exact test was used to compare all arms.|Fisher Exact|||||||0.592
82484525|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||1||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
82484526|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||0.6022||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||0.6022
82484527|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||1||||||Day 92: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
82555854|NCT01105975|164820455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|56.7|||<|0.001|TWO_SIDED|90.0|43.6|69.8|||mixed model repeated measures (MMRM)|||||69.8|43.6|<0.001
82555855|NCT01105975|164820455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|97.6|||<|0.001||90.0|84.5|110.8|||mixed model repeated measures (MMRM)|||||110.8|84.5|<0.001
82484528|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
82484529|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
82484530|NCT00873860|164662823|SUPERIORITY_OR_OTHER|||||||1||||||Day 169: Fisher exact test was used for the analysis.|Fisher Exact|||||||1.0000
82484531|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.551||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.551
82484532|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.492||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.492
82484533|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.983||||||Day 1 to 92: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.983
82484534|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.991||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.991
82484535|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.9||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.900
82484536|NCT00873860|164662824|SUPERIORITY_OR_OTHER|||||||0.673||||||Day 1 to 169: P-value was calculated against placebo group from Van Elteren Test.|Van Elteren Test|||||||0.673
82484537|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.546||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.546
82555856|NCT01105975|164820455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|131.9|||<|0.001|TWO_SIDED|90.0|118.5|145.2|||mixed model repeated measures (MMRM)|||||145.2|118.5|<0.001
82555857|NCT01105975|164820456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|90.0|-24.6|-10.5|||mixed model repeated measures (MMRM)|||||-10.5|-24.6|<0.001
82555858|NCT01105975|164820456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.2|||<|0.001|TWO_SIDED|90.0|-33.2|-19.2|||mixed model repeated measures (MMRM)|||||-19.2|-33.2|<0.001
82651475|NCT00789802|165017708|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.03
82484538|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.534||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.534
82484539|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.847||||||Day 1 to 92: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.847
82484540|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.987||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.987
82484541|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.992||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.992
82555859|NCT01105975|164820456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.8|||<|0.001|TWO_SIDED|90.0|-47.0|-32.7|||mixed model repeated measures (MMRM)|||||-32.7|-47.0|<0.001
82555860|NCT01105975|164820457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|79.3|||<|0.001||90.0|66.2|92.4|||mixed model repeated measures (MMRM)|||||92.4|66.2|<0.001
82555861|NCT01105975|164820457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|88.5|||<|0.001|TWO_SIDED|90.0|75.2|101.8|||mixed model repeated measures (MMRM)|||||101.8|75.2|<0.001
82555862|NCT01105975|164820458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2||||0.009|TWO_SIDED|90.0|-18.3|-4.2|||mixed model repeated measures (MMRM)|||||-4.2|-18.3|0.009
82555863|NCT01105975|164820458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.5||||0.002|TWO_SIDED|90.0|-20.6|-6.4|||mixed model repeated measures (MMRM)|||||-6.4|-20.6|0.002
82555864|NCT04868617|164820470|SUPERIORITY||Mean Difference (Final Values)|-0.2|||=|0.015|TWO_SIDED|95.0|-0.3|-0.03|||Mixed Models Analysis|||||-0.03|-0.3|=0.015
82555865|NCT04868617|164820471|SUPERIORITY||Mean Difference (Final Values)|-0.8|||=|0.035|TWO_SIDED|95.0|-1.5|-0.1|||Mixed Models Analysis|||||-0.1|-1.5|=0.035
82555866|NCT02502526|164820479|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
82555867|NCT02502526|164820480|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
82555868|NCT02502526|164820480|SUPERIORITY|||||||0.605|||||||ANCOVA|||||||0.605
82555869|NCT02502526|164820481|SUPERIORITY|||||||0.52|||||||ANCOVA|||||||0.520
82555870|NCT02502526|164820481|SUPERIORITY|||||||0.817|||||||ANCOVA|||||||0.817
82555871|NCT00112359|164820489|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.98||||0.0006|TWO_SIDED|95.0|3.5|12.47||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 14.||12.47|3.50|0.0006
82555872|NCT00112359|164820490|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.33||||0.0154|TWO_SIDED|95.0|1.22|11.43||No adjustments were made for multiple comparisons.|ANCOVA|ANCOVA model included treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 42.||11.43|1.22|0.0154
82555873|NCT00112359|164820493|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|10.294|||<|0.0001|TWO_SIDED|95.0|6.288|14.299||Analysis based on two-sided test with an 0.025 a priori threshold for statistical significance as part of the methods used to control the family-wise type 1 error.|ANCOVA|ANCOVA model included treatment, disease severity (FEV1 \>50% or \<=50% pred.), and Day 0 FEV1. Treatment differences: AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in percent change in FEV1 at Day 28.||14.299|6.288|<0.0001
82555874|NCT00112359|164820494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.453|||<|0.0001|TWO_SIDED|95.0|-2.115|-0.791||Analysis based on 2-sided test with an 0.025 a priori threshold for statistical significance as part of methods used to control family-wise type 1 error.|ANCOVA|ANCOVA model included terms for treatment and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences calculated as AZLI-placebo.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change in log10 PA CFUs in sputum at Day 28.||-0.791|-2.115|< 0.0001
82555875|NCT00112359|164820495|SUPERIORITY_OR_OTHER|||||||0.2364||95.0||||Analysis based on 2-sided test with an 0.025 a priori threshold for statistical significance as part of methods used to control family-wise type 1 error.|Fisher Exact|Comparison by treatment for proportion of subjects using additional (nonprotocol-specified) antipseudomonal antibiotics at least once during study.||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants using additional (nonprotocol-specified) antipseudomonal antibiotics during study.||||0.2364
82555876|NCT00112359|164820496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.71||||0.0005|TWO_SIDED|95.0|4.31|15.11||"Primary endpoint analysis based on 2-sided test with an 0.05 a priori threshold for statistical significance.~A gate-keeping procedure to control family-wise Type 1 error was established a priori for primary and key secondary endpoints."|ANCOVA|ANCOVA model includes treatment, baseline CFQ-R RSS, and disease severity (FEV1 \>50% or \<=50% pred.). Treatment differences: AZLI-placebo.||"Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in change from baseline in CFQ-R RSS score at Day 28.~A sample size of 70 participants per treatment group provided approximately 77% power to detect an 8-point difference in CFQ-R RSS score between treatment groups, assuming a standard deviation (SD) of 20 and a Type I error rate of 0.05."||15.11|4.31|0.0005
82555877|NCT00112359|164820497|SUPERIORITY_OR_OTHER|||||||0.064||0.0||||No adjustments were made for multiple comparisons.|Fisher Exact|Comparison by treatment group for proportion of participants hospitalized at least once between Day 0 and Day 42 (or 14 days after last study dose).||Null hypothesis was there was no difference between 75 mg AZLI TID and placebo treatment groups in number of participants hospitalized at least once during the study.||||0.0640
82651476|NCT00789802|165017708|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.02
82651477|NCT02410252|165017712|OTHER||%|100.0|||||TWO_SIDED|||||There was no statistical analysis conducted on demographic characteristics or baseline surveys|descriptive analysis|||Descriptive statistics were used to characterize the study sample, and survey responses.||||
82651478|NCT02410252|165017712|OTHER|Only percents were calculated, no formal statistical analysis was completed.||||||||||||Statistical analysis was not completed. This was a feasibility study with small n and was not powered to determine statistical significance.||||Only percent will be calculated. No statistical analysis will be conducted.|No statistical analysis was conducted as part of this study.|||
82651479|NCT02410252|165017713|OTHER||%|0.29||||0.13|TWO_SIDED|||||Significance was set at p\<0.05|Cochran-Mantel-Haenszel|||"GAD-7 scores were coded as a categorical variable as follows: mild anxiety (total score 0 to 5) and moderate/ severe anxiety (total score 6-15).~Proportion of participants with mild and moderate/ severe anxiety at enrollment and closeout was compared using Cochran's Q test."||||0.13
82651480|NCT02410252|165017714|OTHER||%|84.0||||0.05|TWO_SIDED||||||descriptive analysis|||Descriptive statistics were used to characterize the study sample, and survey responses. All analysis was conducted using STATA version 14.2 with an alpha of 0.05 set a priori. Since this was an exploratory study with descriptive statistics, a complete case analysis approach was adopted for this study||||0.05
82651481|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.74|||||ONE_SIDED||||||||GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"||||
82651482|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.76|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651483|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|2.15|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651484|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.0|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651485|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.52|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651486|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.48|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651487|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|2.48|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484542|NCT00873860|164662825|SUPERIORITY_OR_OTHER|||||||0.688||||||Day 1 to 169: P-value was calculated against placebo group from a stratified log-rank test with atopic asthma status and tertile of baseline mean ACQ score as the stratification factors.|Log Rank|||||||0.688
82581970|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||Satisfied evenness hair coverage: Week 24||-1.2|-1.8|< 0.0001
82651488|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.0|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~QUADRIVALENT~Male and female, all age groups:~Merck Pub 9883616 (Gardasil Package Insert, April 2011, pp 24-26)"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82651489|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI GMT ratio|1.23|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484543|NCT00633867|164662839|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Log Rank|||||||<0.01
82484544|NCT05308290|164662841|OTHER|||||||0.6||||||the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.60
82484545|NCT05308290|164662842|OTHER|||||||0.6||||||the a priori threshold for statistical significance was \<0.05|t-test, 2 sided|||||||0.60
82484546|NCT05308290|164662843|OTHER|||||||1||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||1.0
82484547|NCT05308290|164662844|OTHER|||||||1||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||1.0
82484548|NCT05308290|164662845|OTHER|||||||0.28||||||the a priori threshold for statistical significance was \<0.05|Fisher Exact|||||||0.28
82484549|NCT04533685|164662898|SUPERIORITY||Adjusted Risk Ratio|1.01|||||TWO_SIDED|95.0|1.0|1.02|||||Adjusted risk ratio. These results compare arms which received reminder letters to the arm receiving no reminder letter (control)|Comparing the risk of receiving an influenza vaccination||1.02|1.00|
82484550|NCT04533685|164662898|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.98|1.01|||||These results compare arms which received direct appointment scheduling to the arms not receiving direct appointment scheduling.|Comparing the risk of receiving an influenza vaccination||1.01|0.98|
82484551|NCT04533685|164662898|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|1.0|1.01|||||These results compare arms which received pre-commitment reminders to the arms not receiving pre-commitment reminders.|Comparing the risk of receiving an influenza vaccination||1.01|1.00|
82555878|NCT04191824|164820508|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.7769|TWO_SIDED|95.0|-2.7|2.1||In order to maintain an overall alpha of 0.05 and account for two interim analyses, a two-sided alpha of 0.0492 was used for assessing the statistical significance in the final analysis of this primary endpoint.|t-test, 2 sided|||||2.1|-2.7|0.7769
82581971|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 12||-0.8|-1.3|< 0.0001
82581972|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.4|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 12||-0.8|-1.4|< 0.0001
82581973|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 16||-0.8|-1.3|< 0.0001
82484552|NCT04533685|164662898|SUPERIORITY||Adjusted Risk Ratio|1.0|||||TWO_SIDED|95.0|0.99|1.01|||||These results compare arms which received pre-appointment reminder to the arms not receiving pre-appointment reminder.|Comparing the risk of receiving an influenza vaccination||1.01|0.99|
82484553|NCT02021656|164662916|SUPERIORITY||||||<|0.001|||||||Binomial Exact Test|||A sample size of 100 Chinese participants in the treatment naive group provided at least 90% power to detect a 17% improvement in SVR12 rate from the historical control rate of 57% using 2-sided exact one-sample binomial test at significant level of 0.05.||||<0.001
82555879|NCT04191824|164820509|SUPERIORITY||Risk Difference (RD)|0.106|||<|0.0001|TWO_SIDED|95.0|0.061|0.151|||Chi-squared|||||0.151|0.061|<0.0001
82555880|NCT04191824|164820510|SUPERIORITY||Risk Difference (RD)|0.057||||0.0753|TWO_SIDED|95.0|-0.006|0.12|||Chi-squared|||||0.120|-0.006|0.0753
82555881|NCT04191824|164820511|SUPERIORITY||Risk Difference (RD)|0.002||||0.8044|TWO_SIDED|95.0|-0.013|0.016|||Chi-squared|||||0.016|-0.013|0.8044
82555882|NCT04191824|164820512|SUPERIORITY||Risk Difference (RD)|-0.052||||0.057|TWO_SIDED|95.0|-0.105|0.002|||Chi-squared|||||0.002|-0.105|0.0570
82581974|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 16||-1|-1.6|< 0.0001
82581975|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 20||-1.0|-1.5|< 0.0001
82581976|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.7|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 20||-1.1|-1.7|< 0.0001
82484554|NCT01827358|164662925|OTHER|For strong control of the family-wise error rate at the 0.05 confidence level, the Holm procedure (Holm 1979) is used. Under this procedure, the p-values from the two tests are sorted as p\_((1)) (smaller p-value) and p\_((2)) (larger p-value). If p\_((1))=0.025 and p\_((2))=0.05, then the null hypotheses for both tests are rejected. If p\_((1))=0.025 and p\_((2))\>0.05, then only the null hypothesis associated with the smaller p-value is rejected. In any other case, neither null hypothesis is rejected|Odds Ratio (OR)|315.2|||<|0.001|TWO_SIDED|97.5|49.6|2698.8|||Fisher Exact|||||2698.8|49.6|<0.001
82484555|NCT01827358|164662926|OTHER|For strong control of the family-wise error rate at the 0.05 confidence level, the Holm procedure (Holm 1979) is used. Under this procedure, the p-values from the two tests are sorted as p\_((1)) (smaller p-value) and p\_((2)) (larger p-value). If p\_((1))=0.025 and p\_((2))=0.05, then the null hypotheses for both tests are rejected. If p\_((1))=0.025 and p\_((2))\>0.05, then only the null hypothesis associated with the smaller p-value is rejected. In any other case, neither null hypothesis is rejected|Odds Ratio (OR)|39.5|||<|0.001|TWO_SIDED|95.0|5.5|1666.3|||Fisher Exact|||||1666.3|5.5|<0.001
82484556|NCT01827358|164662927|OTHER||Hazard Ratio (HR)|1.0||||0.997|TWO_SIDED|95.0|0.3|3.28|||Cox proportional hazards model|||The association between mupirocin treatment and non-clinical SA Infection on or before Day 85 was assessed via a Cox Proportional Hazards Model. Onset time was defined as the first day of non-SA infection. Infants were right-censored at the time of discharge from the hospital or at Day 85, whichever came first.||3.28|0.30|0.997
82555883|NCT04191824|164820513|SUPERIORITY||Risk Difference (RD)|0.045||||0.0012|TWO_SIDED|95.0|0.018|0.072|||Chi-squared|||||0.072|0.018|0.0012
82555884|NCT04191824|164820514|SUPERIORITY||Risk Difference (RD)|-0.006||||0.8483|TWO_SIDED|95.0|-0.066|0.055|||Chi-squared|||||0.055|-0.066|0.8483
82581977|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 24||-1.0|-1.5|< 0.0001
82581978|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.8|-1.2||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyebrows: Week 24||-1.2|-1.8|< 0.0001
82484557|NCT01827358|164662928|OTHER||Hazard Ratio (HR)|1.33||||0.656|TWO_SIDED|95.0|0.37|4.76|||Cox proportional hazards model|||The association between mupirocin treatment and non-clinical SA Infection on or before Day 85 was assessed via a Cox Proportional Hazards Model. Onset time was defined as the first day of non-SA infection. Infants were right-censored at the time of discharge from the hospital or at Day 85, whichever came first.||4.76|0.37|0.656
82484558|NCT01827358|164662930|OTHER||Hazard Ratio (HR)|0.23||||0.182|TWO_SIDED|95.0|0.03|2.01|||Cox proportional hazards models|||The time to clinical infection with SA on or prior to Day 22 was analyzed using Kaplan-Meier estimates of the survival curve and Cox proportional hazards models (with treatment as the only independent variable). Infants were censored at Day 22 or completion or early termination from the study. Estimates of the hazard ratio (values less than one indicating a treatment benefit) with Wald 95% confidence intervals and accompanying p-values were calculated.||2.01|0.03|0.182
82484559|NCT01827358|164662931|OTHER||Hazard Ratio (HR)|0.24||||0.198|TWO_SIDED|95.0|0.03|2.12|||Cox proportional hazards model|||The time to clinical infection with SA on or prior to Day 22 was analyzed using Kaplan-Meier estimates of the survival curve and Cox proportional hazards models (with treatment as the only independent variable). Infants were censored at Day 22 or completion or early termination from the study. Estimates of the hazard ratio (values less than one indicating a treatment benefit) with Wald 95% confidence intervals and accompanying p-values were calculated.||2.12|0.03|0.198
82484560|NCT00510952|164662936|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin was 0.4%.|Mean Difference (Net)|-0.05||||0.551||95.0|-0.21|0.11||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: Basal analog insulin lispro protamine suspension, injected once or twice daily is noninferior to basal analog insulin glargine, injected once a day, with regard to glycemic control as measured by change in HbA1c from baseline to 24 week endpoint (last observation carried forward).||0.11|-0.21|0.551
82484561|NCT00510952|164662937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.427||95.0|-0.21|0.09||P-value for Week 12 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.09|-0.21|0.427
82484562|NCT00510952|164662937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.427||95.0|-0.21|0.09||P-value for Week 12 Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.09|-0.21|0.427
82484563|NCT00510952|164662937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.254||95.0|-0.25|0.07||P-value for Week 24 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.07|-0.25|0.254
82484564|NCT00510952|164662937|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.254||95.0|-0.25|0.07||P-value for Week 24 Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|||0.07|-0.25|0.254
82484565|NCT00510952|164662938|SUPERIORITY_OR_OTHER|||||||0.634||95.0||||P-value for HbA1c \<7.0%.|Fisher Exact|||||||0.634
82484566|NCT00510952|164662938|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||P-value for HbA1c ≤6.5%.|Fisher Exact|||||||0.504
82484567|NCT00510952|164662939|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.8 millimoles per liter (mmol/L).|Mean Difference (Net)|0.06||||0.323||95.0|-0.06|0.19|||ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatment groups (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: Insulin lispro protamine suspension is noninferior to glargine at actual morning pre-meal at endpoint.||0.19|-0.06|0.323
82484568|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||P-value for Actual Morning Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.302
82484569|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||P-value for Actual Morning Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.144
82484570|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.279||95.0||||P-value for Actual Midday Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.279
82484571|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.928||95.0||||P-value for Actual Midday Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.928
82484572|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-value for Actual Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.918
82484573|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-value for Actual Evening Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.875
82484574|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.316||95.0||||P-value for Actual 0300 Hours.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.316
82484575|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.389||95.0||||P-value for Daily Mean 7-Point SMBG.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.389
82484576|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.836||95.0||||P-value for Daily Mean Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.836
82484577|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.394||95.0||||P-value for Daily Mean Postprandial Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.394
82484578|NCT00510952|164662940|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for Daily Mean Morning+Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.609
82484579|NCT00510952|164662941|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||P-value for All Hypoglycemic Episodes.|Fisher Exact|||||||0.468
82484580|NCT00510952|164662941|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for Nocturnal Hypoglycemic Episodes.|Fisher Exact|||||||0.011
82484581|NCT00510952|164662941|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||P-value for Severe Hypoglycemic Episodes.|Fisher Exact|||||||0.036
82484582|NCT00510952|164662942|SUPERIORITY_OR_OTHER|||||||0.316||95.0||||P-value for Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||0.316
82484583|NCT00510952|164662942|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Nocturnal Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||<0.001
82484584|NCT00510952|164662942|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||P-value for Severe Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group. Hypoglycemic Rate (1 year) was used.||||||0.102
82484585|NCT00510952|164662944|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 1.5 kilograms (kg).|Mean Difference (Net)|-0.01||||0.975||95.0|-0.61|0.59||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Glargine).|Hypothesis: insulin lispro protamine suspension is noninferior to glargine with regard to change in absolute body weight from baseline to endpoint.||0.59|-0.61|0.975
82484586|NCT00510952|164662945|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|ANCOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.031
82484587|NCT00510952|164662946|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANCOVA|ANCOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.015
82484588|NCT02043379|164662955|NON_INFERIORITY_OR_EQUIVALENCE|We used alpha level of 0.05 and power of 0.8 to calculate the sample size necessary to detect a meaningful clinical difference for our primary endpoint.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
82484589|NCT02043379|164662956|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
82484590|NCT02043379|164662957|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||0.38
82484591|NCT02043379|164662958|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.26||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||0.26
82484592|NCT02043379|164662959|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42|TWO_SIDED|95.0||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||24 hour post-CPB albumin||||0.42
82484593|NCT02043379|164662959|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||a p-value of \<0.05 represents the threshold for test signficance|t-test, 2 sided|||48 hour post CPB albumin||||0.06
82484594|NCT02043379|164662960|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.52||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.52
82484595|NCT02043379|164662961|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.81||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||Admit Inotrope Score||||0.81
82484596|NCT02043379|164662961|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.82||||||a p value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative inotrope score||||0.82
82484597|NCT02043379|164662961|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.9||||||a p value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hours post-operative inotrope score||||0.9
82484598|NCT02043379|164662961|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.23||||||a p-value of \<0.05 represents the threshold for statistical signficance|Wilcoxon (Mann-Whitney)|||48 hours post-operative inotrope score||||0.23
82484599|NCT02043379|164662962|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.49||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.49
82484600|NCT02043379|164662963|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.79
82484601|NCT02043379|164662964|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.32||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative IgG level||||0.32
82555885|NCT01324310|164820522|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geometric Mean|124.4|||||TWO_SIDED|90.0|110.2|140.5|||ANOVA||"Geometric means ratio (Romidepsin + Ketoconazole/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||140.5|110.2|
82555886|NCT01324310|164820523|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|123.7|||||TWO_SIDED|90.0|109.6|139.6|||ANOVA|||||139.6|109.6|
82555887|NCT01324310|164820524|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|124.6|||||TWO_SIDED|90.0|109.0|142.4|||ANOVA|||||142.4|109.0|
82555888|NCT01324310|164820525|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|109.5|||||TWO_SIDED|90.0|94.9|126.4|||ANOVA|||||126.4|94.9|
82555889|NCT01324310|164820526|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.7422|TWO_SIDED|90.0|-0.485|0.095|||Wilcoxon signed- rank|||"Note: The median, median difference (romidepsin + ketoconazole minus romidepsin) and 90% CI of the median difference are from Hodges-Lehmann Estimate. The P-value is from Wilcoxon signed-rank test."||0.095|-0.485|0.7422
82484602|NCT02043379|164662964|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation||||||0.36||||||a p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative IgG level||||0.36
82484603|NCT02043379|164662964|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation|||||<|0.01||||||p-value of \<0.05 represents the threshold for statistical signficance|Wilcoxon (Mann-Whitney)|||post-operative day 3 (72 hours) IgG level||||<0.01
82555890|NCT03170882|164820531|SUPERIORITY||Hazard Ratio (HR)|0.847|||=|0.477|TWO_SIDED|95.0|0.535|1.341|||Log Rank||HR obtained by unadjusted Cox's proportional hazard regression model stratified by age,international staging system(ISS),prior lines of therapy. HR\<1 was deemed to indicate better PFS in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.341|0.535|=0.477
82555891|NCT03170882|164820532|SUPERIORITY||Hazard Ratio (HR)|1.427|||=|0.265|TWO_SIDED|95.0|0.761|2.677|||Log Rank||HR obtained by unadjusted Cox's proportional hazard regression model stratified by age, ISS and prior lines of therapy. HR \<1 was deemed to indicate longer survival time in Ixazomib + Dexamethasone arm as compared to Pomalidomide + Dexamethasone arm.|||2.677|0.761|=0.265
82555892|NCT03170882|164820533|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.634|TWO_SIDED|95.0|0.43|1.9|||Cochran-Mantel-Haenszel||OR was based on logistic regression model with treatment group as categorical predictor variable and age, ISS and prior lines of therapy. OR \>1 was deemed to indicate better response in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.90|0.43|=0.634
82581979|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 12||-0.7|-1.1|< 0.0001
82581980|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 12||-0.7|-1.2|< 0.0001
82581981|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.2|-0.7||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 16||-0.7|-1.2|< 0.0001
82581982|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 16||-0.8|-1.3|< 0.0001
82555893|NCT03170882|164820535|SUPERIORITY||Hazard Ratio (HR)|0.556|||||TWO_SIDED|95.0|0.288|1.073|||||HR was obtained by unadjusted Cox's proportional hazard regression model stratified by age, ISS, prior lines of therapy. HR \>1 was deemed to indicate quicker response time in Ixazomib + Dexamethasone arm over Pomalidomide + Dexamethasone arm.|||1.073|0.288|
82555894|NCT03170882|164820536|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.459|TWO_SIDED|95.0|0.506|1.361|||Log Rank||HR: obtained by unadjusted Cox's proportional hazard regression model stratified by age,ISS,prior lines of therapy. HR\<1 was deemed to indicate better disease progression prevention in Ixazomib+Dexamethasone arm over Pomalidomide+Dexamethasone arm.|||1.361|0.506|=0.459
82555895|NCT01830595|164820545|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82555896|NCT01830595|164820547|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82555897|NCT01830595|164820548|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.10
82555898|NCT03593356|164820567|SUPERIORITY||Slope|-0.427|STANDARD_ERROR_OF_MEAN|1.179||0.717|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.717
82555899|NCT03593356|164820570|SUPERIORITY||Slope|-0.012|STANDARD_ERROR_OF_MEAN|0.043||0.784|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.789.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.784
82555900|NCT03593356|164820571|SUPERIORITY||Slope|0.578|STANDARD_ERROR_OF_MEAN|0.807||0.474|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.474
82581983|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 20||-0.8|-1.3|< 0.0001
82651490|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.12|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484604|NCT02043379|164662964|NON_INFERIORITY_OR_EQUIVALENCE|power calculations were not performed on this statistical calculation|||||<|0.01||||||p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||post-operative day 5 (120 hours) IgG level||||<0.01
82484605|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.6||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.60
82484606|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.06
82555901|NCT03593356|164820578|SUPERIORITY||Slope|0.234|STANDARD_ERROR_OF_MEAN|0.882||0.871|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.791.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.871
82484607|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.06||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.06
82484608|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.33||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hours post-operative||||0.33
82484609|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.05||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hours post-operative||||0.05
82484610|NCT02043379|164662965|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.83||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hours post-operative||||0.83
82484611|NCT02043379|164662966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.27||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0 hour levels||||0.27
82484612|NCT02043379|164662966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||4 hour level||||0.34
82484613|NCT02043379|164662966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.14||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||8 hour level||||0.14
82484614|NCT02043379|164662966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.13||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||12 hour level||||0.13
82484615|NCT02043379|164662966|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.02||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||24 hour level||||0.02
82484616|NCT02043379|164662967|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Chi-squared|||||||1
82484617|NCT02043379|164662968|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.4||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.4
82484618|NCT02043379|164662969|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.09||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0-48 hours post-CPB||||0.09
82555902|NCT03593356|164820579|SUPERIORITY||Slope|0.021|STANDARD_ERROR_OF_MEAN|0.046||0.871|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.646.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.871
82555903|NCT03593356|164820580|SUPERIORITY||Slope|0.139|STANDARD_ERROR_OF_MEAN|0.86||0.872|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.872
82484619|NCT02043379|164662969|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.52||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0-24 hours post CPB||||0.52
82484620|NCT02043379|164662970|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.72||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.72
82484621|NCT02043379|164662971|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.63||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||||||0.63
82484622|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.41||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.41
82484623|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.34
82484624|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.47
82484625|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.42
82484626|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.82||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.82
82484627|NCT02043379|164662972|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.44||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.44
82484628|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.28||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.28
82484629|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.37||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.37
82484630|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.42||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.42
82555904|NCT03593356|164820583|SUPERIORITY||Slope|0.133|STANDARD_ERROR_OF_MEAN|0.1||0.184|TWO_SIDED|||||We use OLS regression with site fixed effects and baseline covariates. We report unadjusted p-values.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.184
82555905|NCT03593356|164820586|SUPERIORITY||Slope|0.138|STANDARD_ERROR_OF_MEAN|0.173||0.415|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.427.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.415
82555906|NCT03593356|164820587|SUPERIORITY||Slope|0.086|STANDARD_ERROR_OF_MEAN|0.14||0.567|TWO_SIDED|||||We reported the Westfall-Young adjusted p-value, using OLS regression with site fixed effects and baseline covariates. The unadjusted p-value was 0.541.|Regression, Linear||Positive (negative) estimates indicate the high cash gift group had a higher (lower) mean than the low cash gift group. Our measure of dispersion of parameter estimates is the standard error of estimate as described in our analysis plan.|||||0.567
82555907|NCT00115934|164820835|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-10.1||||0.013||95.0|-17.8|-2.4|||Fisher Exact||The risk difference is defined as the percent of subjects with events in the RVPAS group minus the percent of subjects with events in the MBTS group.|The original sample size of 456 was based on 85% power, with a two-sided, two sample test of proportions (anticipating 28% MBTS subjects with events, 16% RVPAS subjects with events), and an alpha of 0.05. The critical p-value was 0.044 because four interim analyses were performed. The target trial size was increased from 466 to 554 to account for crossovers. The stopping boundary was crossed at the 4th interim look; however, the trial was not halted, because all subjects were enrolled.||-2.4|-17.8|0.013
82555908|NCT00115934|164820836|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||Log Rank|||||||0.06
82555909|NCT00115934|164820837|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.09
82555910|NCT00115934|164820838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.009
82555911|NCT00115934|164820839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.07
82555912|NCT00115934|164820840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
82555913|NCT00115934|164820841|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test||||0.004
82555914|NCT00115934|164820842|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.10
82555915|NCT00115934|164820843|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82555916|NCT00115934|164820844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
82555917|NCT00115934|164820845|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||95.0|||||t-test, 2 sided|||||||0.97
82651491|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.46|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Men 16-26:~Castellsague X, Giuliano AR, Goldstone S, et al. Immunogenicity and safety of the 9-valent HPV vaccine in men. Vaccine. 2015;33(48):6892-6901. (HM data)."|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484631|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.31||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.31
82484632|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.38
82484633|NCT02043379|164662973|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.4||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.4
82484634|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.1
82555918|NCT00115934|164820846|SUPERIORITY_OR_OTHER_LEGACY|||||||0.54||95.0|||||t-test, 2 sided|||||||0.54
82555919|NCT00115934|164820847|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82555920|NCT00115934|164820848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0|||||Poisson regression|The offset parameter used in the poisson regression was the log of the number of patients in each treatment arm.||||||0.003
82555921|NCT00115934|164820849|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0|||||Poisson Regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.20
82555922|NCT00115934|164820850|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Poisson Regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.002
82555923|NCT00115934|164820851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Poisson regression|The offset parameter used in this analysis was the log of the number of patients per treatment arm.||||||0.03
82555924|NCT00747565|164820853|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||t-test, 2 sided|||ETDRS line scores used for statistical comparisons with mean Snellen values reported above.||||<0.0001
82555925|NCT03400150|164820858|OTHER|||||||0.025|TWO_SIDED|95.0|||||Farrington-Manning|||||||0.025
82484635|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.12||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.12
82484636|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.51||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.51
82484637|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.27||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.27
82484638|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.88||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.88
82484639|NCT02043379|164662974|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.38
82484640|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.35||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.35
82484641|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.39||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.39
82484642|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.58||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.58
82484643|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.36||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.36
82484644|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.61||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.61
82484645|NCT02043379|164662975|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.38||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.38
82484646|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.1||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.1
82484647|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.02||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.02
82555926|NCT00227266|164820884|SUPERIORITY_OR_OTHER_LEGACY||Spearman's correlation|0.93|||<|0.001|||||||Spearman's correlation|||MHFMS-Extend was not normally distributed at p=0.048. Test-retest reliability of MHFMS-Extend measurements from the first (S1) to the second (S2) screening visit was analyzed using Spearman's correlation.||||<0.001
82484648|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.34||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.34
82484649|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.35||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.35
82484650|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.67||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.67
82555927|NCT00650078|164820889|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.001|TWO_SIDED|95.0|1.39|3.64||The p-value was based on logistic regression with treatment, geographic region, gender, and median age class as factors.|Regression, Logistic|||||3.64|1.39|0.0010
82484651|NCT02043379|164662976|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.47
82484652|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.46||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||pre-operative||||0.46
82484653|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.04||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||0 hour post-operative||||0.04
82484654|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.14||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||4 hour post-operative||||0.14
82484655|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.82||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||12 hour post-operative||||0.82
82555928|NCT00650078|164820890|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-19.6||||0.0015|TWO_SIDED|95.0|-31.7|-6.1||Wilcoxon Rank Sum Test p-value|Hodges-Lehman method|The difference between the treatment groups was assessed using the median and the 95% CI of the median computed using the Hodges Lehmann method.||||-6.1|-31.7|0.0015
82555929|NCT00979459|164820927|NON_INFERIORITY_OR_EQUIVALENCE|Administration of a single dose of two 40 mg MK-1006 FCT is similar to a single dose of four 20 mg MK-1006 DFC will be satisfied if the 90% confidence interval for the AUC(0 to infinity) geometric mean ratio (FCT/DCF) is contained within (0.70, 1.43).|Geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.86|0.99||||||||0.99|0.86|
82555930|NCT00979459|164820928|NON_INFERIORITY_OR_EQUIVALENCE|Administration of a single dose of two 40 mg MK-1006 FCT is similar to a single dose of four 20 mg MK-1006 DFC will be satisfied if the 90% confidence interval for the Cmax geometric mean ratio (FCT/DCF) is contained within (0.70, 1.43).|Geometric mean ratio|1.07|||||TWO_SIDED|90.0|0.92|1.24||||||||1.24|0.92|
82651492|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.61|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484656|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.9||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||24 hour post-operative||||0.9
82484657|NCT02043379|164662977|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.78||||||A p-value of \<0.05 represents the threshold for statistical significance|Wilcoxon (Mann-Whitney)|||48 hour post-operative||||0.78
82484658|NCT02043379|164662978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.37||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||0 hour level||||0.37
82484659|NCT02043379|164662978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||4 hour level||||0.47
82484660|NCT02043379|164662978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.47||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||8 hour level||||0.47
82484661|NCT02043379|164662978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||12 hour level||||0.79
82484662|NCT02043379|164662978|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.04||||||A p-value of \<0.05 represents the threshold for statistical significance.|Wilcoxon (Mann-Whitney)|||24 hour level||||0.04
82484663|NCT02043379|164662979|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.43||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative||||0.43
82484664|NCT02043379|164662979|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.68||||||A p-value of \<0.05 represents the threshold for statistical significance|t-test, 2 sided|||max||||0.68
82484665|NCT02043379|164662980|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation.||||||0.87||||||A p-value of \<0.05 represents the threshold for statistical significance.|t-test, 2 sided|||pre-operative||||0.87
82484666|NCT02043379|164662980|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations were not performed on this statistical calculation||||||0.79||||||A p-value of \<0.05 represents the threshold for statistical significance|t-test, 2 sided|||24 hour post-operative max||||0.79
82484667|NCT02101112|164663007|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.054|||||TWO_SIDED|90.0|0.994|1.118||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.118|0.994|
82484668|NCT02101112|164663007|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.788|||||TWO_SIDED|90.0|0.741|0.839||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.839|0.741|
82484669|NCT02101112|164663008|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.027|||||TWO_SIDED|90.0|0.981|1.076||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.076|0.981|
82484670|NCT02101112|164663008|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.835|||||TWO_SIDED|90.0|0.797|0.875||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.875|0.797|
82651493|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.39|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484671|NCT02101112|164663009|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|1.027|||||TWO_SIDED|90.0|0.981|1.075||||||Apixaban, 10 mg (crushed and suspended in water) vs. Apixaban, 10 mg (whole tablets)||1.075|0.981|
82484672|NCT02101112|164663009|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|0.832|||||TWO_SIDED|90.0|0.794|0.871||||||Apixaban, 10 mg (crushed and mixed with applesauce) vs. Apixaban, 10 mg (whole tablets)||0.871|0.794|
82484673|NCT05063318|164663048|SUPERIORITY||Least-squares geometric mean ratio|272.73|||||TWO_SIDED|90.0|213.22|348.86|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||348.86|213.22|
82484674|NCT05063318|164663049|SUPERIORITY||Least-squares geometric mean ratio|236.73|||||TWO_SIDED|90.0|177.35|316.0|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||316.00|177.35|
82484675|NCT05063318|164663050|SUPERIORITY||least-squares geometric mean ratio.|115.51|||||TWO_SIDED|90.0|100.07|133.33|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||133.33|100.07|
82484676|NCT05063318|164663051|SUPERIORITY||Least-squares geometric mean ratio.|217.57|||||TWO_SIDED|90.0|151.81|311.82|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence (TR or RT) as fixed effects, and patient (sequence) as a random effect.||||311.82|151.81|
82484677|NCT05063318|164663052|SUPERIORITY||Least-squares geometric mean ratio|36.67|||||TWO_SIDED|90.0|28.66|46.9|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||46.9|28.66|
82484678|NCT05063318|164663053|SUPERIORITY||Least-squares geometric mean ratio|99.89|||||TWO_SIDED|90.0|65.76|151.74|||ANOVA|ANOVA mixed-effects model included treatment, period and sequence as fixed effects, and patient (sequence) as a random effect||||151.74|65.76|
82555931|NCT02422615|164820967|SUPERIORITY||Cox Proportional Hazard|0.593||||4.1e-07|TWO_SIDED|95.0|0.48|0.732|||Log Rank|||||0.732|0.480|0.00000041
82484679|NCT02840240|164663148|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Mean Difference (Final Values)|-0.19||||0.003|TWO_SIDED|95.0|-1.07|0.69|||Regression, Linear|||||0.69|-1.07|0.003
82484680|NCT02840240|164663149|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Ratio of geometric means|2.12||||0.77|TWO_SIDED|95.0|0.21|18.54|||Regression, Linear|||Comparisons of opioid consumption were conducted independently for each study site. This analysis is for patients at the Cleveland Clinic main campus.||18.54|0.21|0.77
82484681|NCT02840240|164663149|NON_INFERIORITY|Noninferiority deltas were defined a priori as 1.1 for the ratio in geometric means of opioid consumption converted to IV morphine equivalents (ie, no more than 10% difference between group's median doses) and 1 point for pain score (ie, no more than 1 point worse).|Ratio of geometric means|0.32||||0.09|TWO_SIDED|95.0|0.03|3.16|||Regression, Linear|||Comparisons of opioid consumption were conducted independently for each study site. This analysis is for patients at the Cleveland Clinic Fairview hospital.||3.16|0.03|0.09
82484682|NCT02840240|164663150|SUPERIORITY||Odds Ratio (OR)|3.5||||0.11|TWO_SIDED|98.75|0.5|24.3|||Regression, Logistic|||||24.3|0.5|0.11
82484683|NCT02840240|164663151|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6|TWO_SIDED|98.75|0.2|3.1|||Regression, Logistic|||||3.1|0.2|0.60
82484684|NCT01617148|164663179|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82484685|NCT01617148|164663180|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82484686|NCT01617148|164663181|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||||||0.038
82484687|NCT01617148|164663182|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||||||0.038
82484688|NCT02821910|164663191|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.7|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|92.89|100.66|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.66|92.89|
82555932|NCT02422615|164820968|SUPERIORITY||Cox Proportional Hazard|0.724||||0.00455|TWO_SIDED|95.0|0.568|0.924|||Log Rank|||||0.924|0.568|0.00455
82555933|NCT02422615|164820969|SUPERIORITY||Cox Proportional Hazard|0.492|||||TWO_SIDED|95.0|0.345|0.703||||||||0.703|0.345|
82555934|NCT02438137|164820985|SUPERIORITY|In multiple linear regression models, the effect of DMF treatment on mean RDI change (beta-coefficient) was -11.3 respiratory events per hour (p=0.0124).|beta-coefficient for treatment effect|-11.3|STANDARD_ERROR_OF_MEAN|4.3||0.0124|TWO_SIDED||||||Regression, Linear|||Multiple linear regression models were used to calculate treatment effect (DMF or placebo) on mean RDI change, controlling for change in age, gender, BMI, time spent in supine sleep, and time spent in REM sleep.|A mixed effects model, which treated RDI as a repeated measure and used individual ID as random effect, adjusted for age, gender, BMI, time spent in supine sleep, was also conducted. In this model, the effect of DMF compared to placebo, controlling for all other covariates, is a 28% decrease in Month 4 RDI (p=0.033).|||0.0124
82555935|NCT00945321|164820987|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|0.93||||0.001|TWO_SIDED|95.0|0.84|1.02||Hochberg's step-up procedure was applied to preserve the overall alpha level for the primary hypothesis that involved comparison at two oral dose levels.|two one-sided tests|The P-value obtained was the maximum of two P-values from two one-sided tests (GMR (Oral/IV) ≤0.80 vs. GMR\>0.80 and GMR≥1.25 vs. GMR\<1.25).||||1.02|0.84|0.001
82555936|NCT00945321|164820987|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Bounds of (0.80, 1.25).|Least-Squares Mean Ratio|1.05|||<|0.001|TWO_SIDED|95.0|0.96|1.15||Hochberg's step-up procedure was applied to preserve the overall alpha level for the primary hypothesis that involved comparison at two oral dose levels|two one-sided tests|The P-value obtained was the maximum of two P-values from two one-sided tests (GMR (Oral/IV) ≤0.80 vs. GMR\>0.80 and GMR≥1.25 vs. GMR\<1.25).||||1.15|0.96|<0.001
82651494|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.1|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484689|NCT02821910|164663191|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.8|STANDARD_DEVIATION|4.8|||TWO_SIDED|90.0|97.99|103.7|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.70|97.99|
82484690|NCT02821910|164663191|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|99.83|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|95.96|103.85|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.85|95.96|
82555937|NCT00945321|164820987|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.47|||||TWO_SIDED|90.0|1.23|1.76||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.76|1.23|
82484691|NCT02821910|164663192|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.82|STANDARD_DEVIATION|9.7|||TWO_SIDED|90.0|90.65|103.42|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.42|90.65|
82484692|NCT02821910|164663192|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.67|STANDARD_DEVIATION|15.5|||TWO_SIDED|90.0|87.44|104.68|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.68|87.44|
82484693|NCT02821910|164663192|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|98.47|STANDARD_DEVIATION|9.9|||TWO_SIDED|90.0|92.12|105.25|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.25|92.12|
82484694|NCT02821910|164663193|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|94.94|STANDARD_DEVIATION|13.8|||TWO_SIDED|90.0|86.6|104.08|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.08|86.60|
82484695|NCT02821910|164663193|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|106.63|STANDARD_DEVIATION|9.9|||TWO_SIDED|90.0|100.65|112.96|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.96|100.65|
82484696|NCT02821910|164663193|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.41|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|94.54|106.64|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.64|94.54|
82484697|NCT02821910|164663194|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|97.97|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|91.46|104.94|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.94|91.46|
82484698|NCT02821910|164663194|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.04|STANDARD_DEVIATION|17.9|||TWO_SIDED|90.0|90.23|110.91|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.91|90.23|
82484699|NCT02821910|164663194|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|101.24|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|94.58|108.38|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||108.38|94.58|
82484700|NCT02821910|164663195|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|97.5|STANDARD_DEVIATION|12.0|||TWO_SIDED|90.0|89.94|105.71|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||105.71|89.94|
82555938|NCT00945321|164820987|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.08|||||TWO_SIDED|90.0|0.88|1.32||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.32|0.88|
82555939|NCT00945321|164820987|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.22|||||TWO_SIDED|90.0|1.01|1.46||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.46|1.01|
82484701|NCT02821910|164663195|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|117.31|STANDARD_DEVIATION|22.0|||TWO_SIDED|90.0|103.41|133.07|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||133.07|103.41|
82484702|NCT02821910|164663195|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|102.74|STANDARD_DEVIATION|6.2|||TWO_SIDED|90.0|98.56|107.1|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||107.10|98.56|
82484703|NCT02821910|164663196|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.34|STANDARD_DEVIATION|6.6|||TWO_SIDED|90.0|92.13|100.75|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.75|92.13|
82484704|NCT02821910|164663196|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|105.07|STANDARD_DEVIATION|8.6|||TWO_SIDED|90.0|99.95|110.45|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||110.45|99.95|
82484705|NCT02821910|164663196|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.31|STANDARD_DEVIATION|5.9|||TWO_SIDED|90.0|96.41|104.38|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.38|96.41|
82484706|NCT02821910|164663197|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.63|STANDARD_DEVIATION|5.8|||TWO_SIDED|90.0|92.86|100.54|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||100.54|92.86|
82484707|NCT02821910|164663197|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|100.87|STANDARD_DEVIATION|5.0|||TWO_SIDED|90.0|97.96|103.86|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.86|97.96|
82555940|NCT00945321|164820987|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.43|||||TWO_SIDED|90.0|1.16|1.75||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.75|1.16|
82555941|NCT00945321|164820988|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.33|||||TWO_SIDED|90.0|1.13|1.56||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.56|1.13|
82555942|NCT00945321|164820988|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.04|||||TWO_SIDED|95.0|0.86|1.25||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.25|0.86|
82555943|NCT00945321|164820988|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.14|||||TWO_SIDED|90.0|0.96|1.34||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.34|0.96|
82651495|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|1.65|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Men 16-26:~Castellsague X, Giuliano AR, Goldstone S, et al. Immunogenicity and safety of the 9-valent HPV vaccine in men. Vaccine. 2015;33(48):6892-6901. (HM data)."|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484708|NCT02821910|164663197|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|99.75|STANDARD_DEVIATION|6.0|||TWO_SIDED|90.0|95.81|103.86|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.86|95.81|
82484709|NCT02821910|164663198|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|96.57|STANDARD_DEVIATION|8.9|||TWO_SIDED|90.0|90.94|102.56|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||102.56|90.94|
82555944|NCT00945321|164820988|SUPERIORITY_OR_OTHER||Least-Squares Mean Ratio|1.4|||||TWO_SIDED|90.0|1.16|1.68||||||The effect of a standard high-fat breakfast and a standard light breakfast on aprepitant plasma pharmacokinetics (AUC0-∞ and Cmax) following a single 165 mg oral dose of aprepitant and following a single 185 mg oral dose of aprepitant will be estimated in healthy young adult subjects||1.68|1.16|
82555945|NCT00692913|164820989|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.2|||<|0.001||95.0|0.12|0.35|||Regression, Logistic|The logistic regression model was adjusted by baseline 25-hydroxyvitamin D (25(OH)D) level stratum, age, and region.||||0.35|0.12|<0.001
82555946|NCT00692913|164820990|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares means|-9.7|||<|0.001||95.0|-14.49|-4.93|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-4.93|-14.49|<0.001
82555947|NCT00692913|164820991|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|-7.07|||<|0.001||95.0|-10.95|-3.2|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-3.20|-10.95|<0.001
82555948|NCT00692913|164820992|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.21|||<|0.001||95.0|0.13|0.35|||Regression, Logistic|The logistic regression model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||0.35|0.13|<0.001
82555949|NCT00692913|164820993|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.01||||0.047||95.0|0.01|2.0|||Traditional Longitudinal data analysis|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.|FOSAVANCE minus Referred-Care. Analysis was for Lumbar Spine.|||2.00|0.01|0.047
82581984|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.5|-1.0||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 20||-1.0|-1.5|< 0.0001
82555950|NCT00692913|164820993|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.82||||0.035||95.0|0.06|1.58|||Traditional Longitudinal data analysis|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.|FOSAVANCE minus Referred-Care. Analysis was for Total Hip.|||1.58|0.06|0.035
82555951|NCT00692913|164820994|SUPERIORITY_OR_OTHER_LEGACY||Difference of falls (falls/patient-year)|0.03|STANDARD_ERROR_OF_MEAN|0.08||0.675||95.0|-0.12|0.19|||Zero-Inflated Poisson Regression|Adjusted by the terms for treatment, baseline 25(OH) D level stratum, age, and region and offset variable of log (total patient-years in the study).||||0.19|-0.12|0.675
82555952|NCT00692913|164820995|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-8.35||||0.001||95.0|-13.19|-3.54|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-3.54|-13.19|0.001
82555953|NCT00692913|164820996|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Mean|-8.07|||<|0.001||95.0|-11.94|-4.21|||Longitudinal Data Analysis Model|The model was adjusted by baseline 25-hydroxyvitamin D level stratum, age, and region.||||-4.21|-11.94|<0.001
82555954|NCT01074294|164821041|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.5845|TWO_SIDED|95.0|-1.8|3.19||The p-value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between Least Squares (LS) means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||3.19|-1.80|0.5845
82581985|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 24||-0.9|-1.4|< 0.0001
82581986|NCT04797650|164875570|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.6|-1.1||P-value was calculated by MMRM analysis with effects for treatment, visit, treatment-by-visit interaction, baseline value, and baseline SALT score.|MMRM|||How satisfied with your eyelashes: Week 24||-1.1|-1.6|< 0.0001
82555955|NCT01074294|164821042|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8832|TWO_SIDED|95.0|-1.37|1.18||The p-value was derived using ANCOVA model with treatment and trial center as main effects and Week 5 value as covariate.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.18|-1.37|0.8832
82555956|NCT01074294|164821043|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.3864|TWO_SIDED|95.0|-0.72|1.86||The p-value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.86|-0.72|0.3864
82555957|NCT01074294|164821044|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.0061|TWO_SIDED|95.0|0.1|0.58||The p value was derived using MMRM method with treatment, trial center, visit week, and treatment by visit week interaction as class effects and Week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.58|0.10|0.0061
82581987|NCT04797650|164875571|SUPERIORITY||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.29||0.1206|TWO_SIDED|95.0|-0.1|1.0||P-value was calculated by analysis of covariance (ANCOVA) analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||1.0|-0.1|0.1206
82581988|NCT04797650|164875571|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.34||0.5367|TWO_SIDED|95.0|-0.5|0.9||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Anxiety||0.9|-0.5|0.5367
82484710|NCT02821910|164663198|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.4|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|87.5|104.01|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.01|87.50|
82484711|NCT02821910|164663198|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|98.45|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|92.44|104.85|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||104.85|92.44|
82484712|NCT02821910|164663199|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|95.08|STANDARD_DEVIATION|12.6|||TWO_SIDED|90.0|87.36|103.48|||||Relative bioavailability was estimated by the adjusted gMean ratio of T1 divided by R1. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||103.48|87.36|
82484713|NCT02821910|164663199|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|105.72|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|98.78|113.15|||||Relative bioavailability was estimated by the adjusted gMean ratio of T2 divided by R2. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||113.15|98.78|
82484714|NCT02821910|164663199|SUPERIORITY_OR_OTHER_LEGACY||ratio (%)|101.61|STANDARD_DEVIATION|14.9|||TWO_SIDED|90.0|92.0|112.22|||||Relative bioavailability was estimated by the adjusted gMean ratio of T3 divided by R3. Standard deviation is actually intra-individual geometric coefficient variation (gCV).|The statistical model used was an Analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||112.22|92.00|
82484715|NCT01082640|164663203|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.134||0.459|TWO_SIDED|95.0|-0.37|0.17||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||All statistical tests were two sided and conducted at the 0.05 significance level.||0.17|-0.37|0.459
82555958|NCT01074294|164821045|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.6932|TWO_SIDED|95.0|-1.64|2.46||The p-value was derived from ANCOVA model, with treatment and trial center as main effects and Week 5 value as covariate.|ANCOVA||This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||2.46|-1.64|0.6932
82555959|NCT01074294|164821046|SUPERIORITY||Mean Difference (Final Values)|0.81||||0.2781|TWO_SIDED|95.0|-0.66|2.28||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||2.28|-0.66|0.2781
82555960|NCT01074294|164821046|SUPERIORITY||Mean Difference (Final Values)|0.67||||0.4673|TWO_SIDED|95.0|-1.15|2.49||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||2.49|-1.15|0.4673
82555961|NCT01074294|164821046|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.5719|TWO_SIDED|95.0|-1.54|2.79||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||2.79|-1.54|0.5719
82484716|NCT01082640|164663203|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.133||0.789|TWO_SIDED|95.0|-0.23|0.3||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||All statistical tests were two sided and conducted at the 0.05 significance level.||0.30|-0.23|0.789
82484717|NCT01082640|164663204|SUPERIORITY_OR_OTHER||LS mean difference|2.38|STANDARD_ERROR_OF_MEAN|1.687||0.162|TWO_SIDED|95.0|-0.97|5.73||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||||5.73|-0.97|0.162
82484718|NCT01082640|164663204|SUPERIORITY_OR_OTHER||LS mean difference|1.19|STANDARD_ERROR_OF_MEAN|1.698||0.485|TWO_SIDED|95.0|-2.18|4.57||No adjustment for multiplicity was made.|ANCOVA|The model included treatment as a factor, and the baseline value and prior use of an ARB or an ACEi or none as covariates.||||4.57|-2.18|0.485
82484719|NCT01082640|164663205|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||<0.001
82484720|NCT01082640|164663205|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||<0.001
82581989|NCT04797650|164875571|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.29||0.0064|TWO_SIDED|95.0|0.2|1.3||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||1.3|0.2|0.0064
82484721|NCT01082640|164663205|SUPERIORITY_OR_OTHER|||||||0.062|||||||Cochran-Mantel-Haenszel|Prior use of an ARB, ACEi, or none was a stratification variable.||||||0.062
82484722|NCT03577171|164663217|OTHER||LS Mean Difference|-1.154||||0.0077|TWO_SIDED|95.0|-1.986|-0.322|||Repeated measures analysis|||Least Squares (LS) Mean Difference ABI-H0731 + SOC ETV minus Placebo + SOC ETV at Week 12||-0.322|-1.986|0.0077
82484723|NCT03577171|164663217|OTHER||LS Mean Difference|-1.141||||0.0084|TWO_SIDED|95.0|-1.973|-0.309|||Repeated measures analysis|||Least Squares Mean Difference ABI-H0731 + SOC ETV minus Placebo + SOC ETV at Week 24||-0.309|-1.973|0.0084
82484724|NCT00701376|164663233|SUPERIORITY||Mean Difference (Net)|-6.32||||0.03|TWO_SIDED|99.8|-15.6|2.94|||paired t-test|||||2.94|-15.6|0.03
82484725|NCT00701376|164663234|SUPERIORITY||Mean Difference (Net)|-7.56||||0.08|TWO_SIDED|99.8|-22.0|6.83|||Wilcoxon (Mann-Whitney)|||||6.83|-22.0|0.08
82484726|NCT00701376|164663235|SUPERIORITY||Mean Difference (Net)|5.84||||0.14|TWO_SIDED|99.8|-7.55|19.2|||paired t-test|||||19.2|-7.55|0.14
82484727|NCT00701376|164663237|SUPERIORITY||Mean Difference (Net)|-0.2|||<|0.001|TWO_SIDED|99.8|-0.38|-0.02|||paired t-test|||||-0.02|-0.38|<0.001
82484728|NCT00701376|164663238|SUPERIORITY||Mean Difference (Net)|-0.23||||0.1|TWO_SIDED|99.8|-0.68|0.23|||paired t-test|||||0.23|-0.68|0.10
82484729|NCT00701376|164663239|SUPERIORITY||Mean Difference (Net)|-1.72||||0.21|TWO_SIDED|99.8|-8.68|5.25|||paired t-test|||||5.25|-8.68|0.21
82484730|NCT00701376|164663241|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test|||||||0.002
82484731|NCT00701376|164663242|SUPERIORITY|||||||0.04|||||||Wilcoxon signed-rank test|||||||0.04
82581990|NCT04797650|164875571|SUPERIORITY||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.33||0.0011|TWO_SIDED|95.0|0.4|1.7||P-value was calculated by ANCOVA analysis with effects for treatment, visit, baseline SALT score, and baseline HADS value.|ANCOVA|||Depression||1.7|0.4|0.0011
82581991|NCT04797650|164875572|SUPERIORITY||Risk Difference (RD)|0.24|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.19|0.3||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.3|0.19|< 0.0001
82581992|NCT04797650|164875572|SUPERIORITY||Risk Difference (RD)|0.25|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|0.18|0.33||P-value was calculated by the Mantel-Haenszel estimate stratified by baseline scalp hair loss (partial vs complete/near-complete) for each treatment group compared to placebo.|Mantel Haenszel|||||0.33|0.18|< 0.0001
82484732|NCT00701376|164663243|SUPERIORITY|||||||0.005|||||||Wilcoxon signed-rank test|||||||0.005
82484733|NCT00701376|164663244|SUPERIORITY|||||||0.001|||||||Wilcoxon signed-rank test|||||||0.001
82484734|NCT02788474|164663258|OTHER||Adjusted mean difference|-0.00066|STANDARD_ERROR_OF_MEAN|0.00282||0.8146|TWO_SIDED|95.0|-0.00621|0.00488||random coefficient regression (random slopes and intercepts) model including sex, age and height as covariates (Due to the low number of measurements per patient, baseline CRPM was included as a response rather than as a covariate in the analysis)|random coefficient regression|The Kenward-Roger approximation was used to estimate denominators degrees of freedom.|Difference calculated as Nintedanib minus Placebo|"The rate of change (slope) in blood CRPM was assumed to be linear in each subject over the 12 weeks of treatment. The intercepts and slopes were assumed to be normally distributed with arbitrary covariance matrix.~Since the distribution of the data was not normal, a log10 transformation was performed before conducting the statistical analyses.~Significance tests were based on least-square means using 2-sided 95% confidence intervals (2-sided α=0.05)."||0.00488|-0.00621|0.8146
82484735|NCT02788474|164663259|OTHER||slope estimate|22.001||||0.2084|TWO_SIDED|95.0|-11.83|57.58|||Regression, Logistic||Slope estimate is the monthly rate of change in CRPM up to week 12|To assess the association between disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death) and the change in the Extracellular matrix (ECM) biomarker CRPM in the first 12 weeks, a logistic regression analysis including baseline blood CRPM and the monthly rate of change (slope) in blood CRPM in the first 12 weeks as covariates was applied for placebo-treated patients only to evaluate the potential of CRPM as a prognostic biomarker.||57.58|-11.83|0.2084
82484736|NCT02788474|164663259|OTHER||slope estimate|-45.566||||0.1537|TWO_SIDED|95.0|-109.55|16.37|||Regression, Logistic||Slope estimate is the monthly rate of change in CRPM up to week 12|To assess how nintedanib treatment affected the association between disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death) and the change in CRPM in the first 12 weeks, a logistic regression analysis including baseline blood CRPM, the monthly rate of change (slope) in blood CRPM up to Week 12, treatment and treatment-CRPM slope interaction as covariates was applied.||16.37|-109.55|0.1537
82484737|NCT02788474|164663259|OTHER||Odds Ratio (OR)|0.769||||0.3116|TWO_SIDED|95.0|0.46|1.27|||Regression, Logistic|||To assess whether the overall treatment regimen affected disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death), a logistic regression analysis including baseline blood CRPM and randomised treatment as covariates was applied.||1.27|0.46|0.3116
82484738|NCT02788474|164663259|OTHER||Odds Ratio (OR)|0.772||||0.3175|TWO_SIDED|95.0|0.46|1.27|||Regression, Logistic|||To assess whether the monthly rate of change (slope) in blood CRPM in the first 12 weeks could explain the effect of treatment on disease progression (as defined by absolute forced vital capacity (FVC) decline \>=10% or death), a logistic regression analysis including baseline blood CRPM, the rate of change (slope) in blood CRPM in the first 12 weeks and randomised treatment as covariates was applied.||1.27|0.46|0.3175
82484739|NCT02788474|164663260|OTHER||Adjusted mean difference|0.00121|STANDARD_ERROR_OF_MEAN|0.002||0.5469|TWO_SIDED|95.0|-0.00273|0.00515||random coefficient regression model (C1M (negative reciprocal root-transformed)) with fixed effects for gender, age, height and random effect of patient specific intercept and time.|random coefficient regression||Difference calculated as Nintedanib minus Placebo. Inter-individual variability is modelled by a Variance-Components variance-covariance matrix.|"The rate of change (slope) in blood C1M was assumed to be linear in each subject over the 12 weeks of treatment.~Within-patient errors are modelled by an Unstructured variance-covariance matrix."||0.00515|-0.00273|0.5469
82581993|NCT01183234|164875574|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals for the ratio of the treatment regimen means were provided by back-transformation on to the linear scale and were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of geometric LS means|0.953|||||TWO_SIDED|90.0|0.915|0.993|||Mixed Models Analysis|||||0.993|0.915|
82484740|NCT02788474|164663261|OTHER||Adjusted mean difference|-0.00307|STANDARD_ERROR_OF_MEAN|0.00262||0.2429|TWO_SIDED|95.0|-0.00823|0.00209||random coefficient regression model (C3M (log10-transformed)) with fixed effects for gender, age, height and random effect of patient specific intercept and time.|random coefficient regression||Difference calculated as Nintedanib minus Placebo. Inter-individual variability is modelled by a Variance-Components variance-covariance matrix.|"The rate of change (slope) in blood C3M was assumed to be linear in each subject over the 12 weeks of treatment.~Within-patient errors are modelled by an Unstructured variance-covariance matrix."||0.00209|-0.00823|0.2429
82484741|NCT00048061|164663262|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 50/50 mg monthly) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|0.615||||0.045|TWO_SIDED|95.0|0.013|1.216|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 50/50) and the active-control.|||1.216|0.013|0.045
82484742|NCT00048061|164663262|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 100 mg) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|0.297||||0.338|TWO_SIDED|95.0|-0.312|0.906|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 100 mg) and the active-control|||0.906|-0.312|0.338
82484743|NCT00048061|164663262|NON_INFERIORITY_OR_EQUIVALENCE|The monthly dosing regimen (Ibandronate 150 mg) was considered non-inferior to the 2.5 mg daily regimen if the lower bound of the two-sided 95% CI on the difference in mean percent change in BMD was greater or equal to -1 percentage point.|Mean Difference (Final Values)|1.0||||0.001|TWO_SIDED|95.0|0.395|1.605|||ANOVA||Treatment effect is the difference in the mean values of the monthly oral dose regimens (Ibandronate 150 mg) and the active-control.|||1.605|0.395|0.001
82484744|NCT01058265|164663288|SUPERIORITY_OR_OTHER|||||||0.487||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in PCS between two groups.||||0.487
82484745|NCT01058265|164663289|SUPERIORITY_OR_OTHER|||||||0.817||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no difference in MCS between two groups.||||0.817
82484746|NCT02869438|164663290|SUPERIORITY||Mean Difference (Final Values)|0.077||||0.0707|TWO_SIDED|95.0|-0.007|0.161|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 28|||0.161|-0.007|0.0707
82555962|NCT01074294|164821046|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.6262|TWO_SIDED|95.0|-1.7|2.83||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||2.83|-1.70|0.6262
82555963|NCT01074294|164821046|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.2638|TWO_SIDED|95.0|-1.06|3.87||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||3.87|-1.06|0.2638
82484747|NCT02869438|164663290|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.7747|TWO_SIDED|95.0|-0.077|0.104|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 56|||0.104|-0.077|0.7747
82484748|NCT02869438|164663290|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.0969|TWO_SIDED|95.0|-0.014|0.173|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 84|||0.173|-0.014|0.0969
82484749|NCT02869438|164663290|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.1558|TWO_SIDED|95.0|-0.022|0.135|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For average over Day 28, 56, and 84|||0.135|-0.022|0.1558
82484750|NCT02869438|164663291|SUPERIORITY||Mean Difference (Final Values)|-0.176||||0.2847|TWO_SIDED|95.0|-0.505|0.153|||Mixed Models Analysis|Model includes covariates of treatment, baseline RV, region, visit, treatment by visit interaction.||||0.153|-0.505|0.2847
82484751|NCT02869438|164663292|SUPERIORITY||Mean Difference (Final Values)|-101.0|||<|0.0001|TWO_SIDED|95.0|-118.9|-83.06|||Mixed Models Analysis|Model includes covariates of treatment, baseline eosinophils counts, region, visit, treatment by visit interaction.||||-83.06|-118.9|<0.0001
82484752|NCT02869438|164663293|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.6384|TWO_SIDED|95.0|-0.049|0.08|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 3|||0.08|-0.049|0.6384
82484753|NCT02869438|164663293|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.148|TWO_SIDED|95.0|-0.016|0.109|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 7|||0.109|-0.016|0.148
82484754|NCT02869438|164663293|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.4959|TWO_SIDED|95.0|-0.049|0.101|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 14|||0.101|-0.049|0.4959
82484755|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.006||||0.8667|TWO_SIDED|95.0|-0.062|0.073|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 3|||0.073|-0.062|0.8667
82581994|NCT01183234|164875575|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Point estimates and 90% confidence intervals for the ratio of the treatment regimen means were provided by back-transformation on to the linear scale and were assessed against the currently accepted bioequivalence criteria for log-transformed data (0.80, 1.25).|Ratio of geometric LS means|0.988|||||TWO_SIDED|90.0|0.931|1.05|||Mixed Models Analysis|||||1.05|0.931|
82581995|NCT01183234|164875576|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0|||||TWO_SIDED|90.0|-0.15|0.492|||Wilcoxon (Hodges-Lehmann)|||||0.492|-0.150|
82581996|NCT01156792|164875599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|||=|0.268|TWO_SIDED|95.0|-0.02|0.07|||Mixed Models Analysis|||||0.07|-0.02|=0.268
82581997|NCT01156792|164875599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|||=|0.08|TWO_SIDED|95.0|0.0|0.09|||Mixed Models Analysis|||||0.09|-0.00|=0.080
82484756|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.041||||0.2734|TWO_SIDED|95.0|-0.033|0.115|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 7|||0.115|-0.033|0.2734
82484757|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.015||||0.7252|TWO_SIDED|95.0|-0.068|0.098|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 14|||0.098|-0.068|0.7252
82484758|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.0976|TWO_SIDED|95.0|-0.014|0.164|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 28|||0.164|-0.014|0.0976
82484759|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.6536|TWO_SIDED|95.0|-0.077|0.122|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 56|||0.122|-0.077|0.6536
82484760|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.092||||0.0595|TWO_SIDED|95.0|-0.004|0.188|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For Day 84|||0.188|-0.004|0.0595
82484761|NCT02869438|164663294|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.1377|TWO_SIDED|95.0|-0.02|0.147|||Mixed Models Analysis|Model includes covariates of treatment, baseline pre-BD FVC, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||0.147|-0.02|0.1377
82484762|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1604|TWO_SIDED|95.0|0.85|2.58|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 3|||2.58|0.85|0.1604
82484763|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.29||||0.34|TWO_SIDED|95.0|0.76|2.19|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 7|||2.19|0.76|0.3400
82484764|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0924|TWO_SIDED|95.0|0.93|2.7|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 14|||2.70|0.93|0.0924
82484765|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.57||||0.1052|TWO_SIDED|95.0|0.91|2.71|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 28|||2.71|0.91|0.1052
82484766|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3271|TWO_SIDED|95.0|0.77|2.21|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 56|||2.21|0.77|0.3271
82484767|NCT02869438|164663295|SUPERIORITY||Odds Ratio (OR)|1.33||||0.3017|TWO_SIDED|95.0|0.77|2.29|||Regression, Logistic|Model includes covariates of treatment, baseline pre-BD FEV1, region, visit, treatment by visit interaction.|For Day 84|||2.29|0.77|0.3017
82484768|NCT02869438|164663296|SUPERIORITY||Mean Difference (Final Values)|-0.293||||0.0024|TWO_SIDED|95.0|-0.481|-0.105|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 14|||-0.105|-0.481|0.0024
82484769|NCT02869438|164663296|SUPERIORITY||Mean Difference (Final Values)|-0.402||||0.0002|TWO_SIDED|95.0|-0.609|-0.195|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 28|||-0.195|-0.609|0.0002
82484770|NCT02869438|164663296|SUPERIORITY||Mean Difference (Final Values)|-0.312||||0.0117|TWO_SIDED|95.0|-0.554|-0.07|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 56|||-0.07|-0.554|0.0117
82484771|NCT02869438|164663296|SUPERIORITY||Mean Difference (Final Values)|-0.472||||0.0004|TWO_SIDED|95.0|-0.731|-0.213|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For Day 84|||-0.213|-0.731|0.0004
82484772|NCT02869438|164663296|SUPERIORITY||Mean Difference (Final Values)|-0.395||||0.0002|TWO_SIDED|95.0|-0.603|-0.188|||Mixed Models Analysis|Model includes covariates of treatment, baseline ACQ-6 score, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||-0.188|-0.603|0.0002
82484773|NCT02869438|164663297|SUPERIORITY||Mean Difference (Final Values)|-7.229||||0.0001|TWO_SIDED|95.0|-10.832|-3.626|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 28|||-3.626|-10.832|0.0001
82581998|NCT01156792|164875599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|||=|0.017|TWO_SIDED|95.0|0.01|0.1|||Mixed Models Analysis|||||0.10|0.01|=0.017
82484774|NCT02869438|164663297|SUPERIORITY||Mean Difference (Final Values)|-5.942||||0.0115|TWO_SIDED|95.0|-10.538|-1.346|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 56|||-1.346|-10.538|0.0115
82484775|NCT02869438|164663297|SUPERIORITY||Mean Difference (Final Values)|-8.599||||0.0004|TWO_SIDED|95.0|-13.3|-3.898|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For Day 84|||-3.898|-13.3|0.0004
82484776|NCT02869438|164663297|SUPERIORITY||Mean Difference (Final Values)|-7.257||||0.0003|TWO_SIDED|95.0|-11.133|-3.38|||Mixed Models Analysis|Model includes covariates of treatment, baseline SGRQ score, region, visit, treatment by visit interaction.|For average of Day 28, 56, 84.|||-3.38|-11.133|0.0003
82484777|NCT02869438|164663298|SUPERIORITY||Mean Difference (Final Values)|5.414||||0.2825|TWO_SIDED|95.0|-4.492|15.321|||Mixed Models Analysis|Model includes covariates of treatment, baseline FeNO value, region, visit, treatment by visit interaction.||||15.321|-4.492|0.2825
82484778|NCT02869438|164663308|SUPERIORITY||Mean Difference (Final Values)|-0.365||||0.012|TWO_SIDED|95.0|-0.649|-0.081|||Mixed Models Analysis|Model includes covariates of treatment, baseline PGI-S score, region, visit, treatment by visit interaction.|For Day 84|||-0.081|-0.649|0.0120
82484779|NCT02869438|164663309|SUPERIORITY||Odds Ratio (OR)|2.97||||0.0018|TWO_SIDED|95.0|1.5|5.88|||Regression, Logistic|Model includes covariates of treatment, region.|For Day 84|Responder analysis: responder is defined as Very much improved, improved, and minimally improved.||5.88|1.50|0.0018
82484780|NCT02869438|164663310|SUPERIORITY||Odds Ratio (OR)|2.51||||0.0107|TWO_SIDED|95.0|1.24|5.09|||Regression, Logistic|Model includes covariates of treatment, region.|For Day 84|Responder analysis: responder is defined as Very much improved, improved, and minimally improved.||5.09|1.24|0.0107
82581999|NCT01156792|164875599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|||=|0.002|TWO_SIDED|95.0|0.03|0.12|||Mixed Models Analysis|||||0.12|0.03|=0.002
82555964|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.3804|TWO_SIDED|95.0|-0.52|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.37|-0.52|0.3804
82555965|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.6422|TWO_SIDED|95.0|-0.86|1.39||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.39|-0.86|0.6422
82582000|NCT01156792|164875600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.946|||=|0.751|TWO_SIDED|95.0|-4.91|6.81|||Mixed Models Analysis|||||6.81|-4.91|=0.751
82484781|NCT02325791|164663367|SUPERIORITY||percentage treatment difference|1.15||||0.5773|TWO_SIDED|95.0|-2.898|5.201|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||5.201|-2.898|0.5773
82484782|NCT02325791|164663367|SUPERIORITY||percentage treatment difference|-0.44|||||TWO_SIDED|95.0|-4.318|3.438||Analysis performed using CMH statistics with randomization stratum adjusted using Mantel-Haenzel (MH) method to assess pairwise treatment difference (i.e. absolute risk reduction of each suptavumab arm compared to placebo.|Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each Suptavumab dose regimen to placebo. Missing values were imputed to Kaplan-Meier (KM) estimate from the placebo group. Randomization strata adjusted in Cochran-Mantel-Haenszel (CMH) test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||3.438|-4.318|
82484783|NCT02325791|164663371|SUPERIORITY||percentage treatment difference|-0.67|||||TWO_SIDED|95.0|-5.291|3.959|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||3.959|-5.291|
82484784|NCT02325791|164663371|SUPERIORITY||percentage treatment difference|2.02|||||TWO_SIDED|95.0|-2.836|6.867|||Cochran-Mantel-Haenszel|||A hierarchical inferential approach was used to control Type-1 error at 0.05 for pairwise comparisons of each suptavumab dose regimen to placebo. Missing values were imputed to KM estimate from the placebo group. Randomization strata adjusted in CMH test include region (North America vs. Rest of World) \& gestational age category (\<= 31 weeks 6 days GA vs \>= 32 weeks 0 days and \<= 35 weeks 6 days GA). Threshold for significance at 0.05 level.||6.867|-2.836|
82484785|NCT03614975|164663392|OTHER|||||||0.28||||||A/H1N1|Chi-squared|||||||0.28
82484786|NCT03614975|164663392|OTHER|||||||0.64||||||A/H3N2|Chi-squared|||||||0.64
82484787|NCT03614975|164663392|OTHER|||||||0.64||||||B/Colorado|Chi-squared|||||||0.64
82484788|NCT03614975|164663392|OTHER|||||||0.23||||||B/Phuket|Chi-squared|||||||0.23
82484789|NCT03614975|164663393|OTHER|||||||0.42||||||Vaccine Strain: A/H1N1:Day 0|Chi-squared|||||||0.42
82484790|NCT03614975|164663393|OTHER|||||||0.16||||||Vaccine Strain: A/H1N1: Day 21|Chi-squared|||||||0.16
82484791|NCT03614975|164663393|OTHER|||||||0.42||||||Vaccine Strain: A/H3N2: Day 0|Chi-squared|||||||0.42
82484792|NCT03614975|164663393|OTHER|||||||0.94||||||Vaccine Strain: A/H3N2: Day 21|Chi-squared|||||||0.94
82484793|NCT03614975|164663393|OTHER|||||||0.87||||||Vaccine Strain: B/Colorado :Day 0|Chi-squared|||||||0.87
82484794|NCT03614975|164663393|OTHER|||||||0.77||||||Vaccine Strain: B/Colorado : Day 21|Chi-squared|||||||0.77
82484795|NCT03614975|164663393|OTHER|||||||0.33||||||Vaccine Strain: B/Phuket: Day 0|Chi-squared|||||||0.33
82555966|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.6707|TWO_SIDED|95.0|-1.0|1.55||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.55|-1.00|0.6707
82582001|NCT01156792|164875600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.771|||=|0.049|TWO_SIDED|95.0|0.03|11.51|||Mixed Models Analysis|||||11.51|0.03|=0.049
82484796|NCT03614975|164663393|OTHER|||||||0.21||||||Vaccine Strain: B/Phuket: Day 21|Chi-squared|||||||0.21
82484797|NCT03614975|164663394|OTHER|||||||0.49||||||Vaccine Strain: A/H1N1: Day 0|Kruskal-Wallis|||||||0.49
82484798|NCT03614975|164663394|OTHER|||||||0.23||||||Vaccine Strain: A/H1N1: Day 21|Kruskal-Wallis|||||||0.23
82484799|NCT03614975|164663394|OTHER|||||||0.1||||||Vaccine Strain: A/H3N2: Day 0|Kruskal-Wallis|||||||0.10
82484800|NCT03614975|164663394|OTHER|||||||0.86||||||Vaccine Strain: A/H3N2: Day 21|Kruskal-Wallis|||||||0.86
82484801|NCT03614975|164663394|OTHER|||||||0.73||||||Vaccine Strain: B/Colorado: Day 0|Kruskal-Wallis|||||||0.73
82484802|NCT03614975|164663394|OTHER|||||||0.67||||||Vaccine Strain: B/Colorado: Day 21|Kruskal-Wallis|||||||0.67
82582002|NCT01156792|164875600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.983|||=|0.123|TWO_SIDED|95.0|-1.35|11.32|||Mixed Models Analysis|||||11.32|-1.35|=0.123
82582003|NCT01156792|164875600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.14|||<|0.001|TWO_SIDED|95.0|5.93|18.35|||Mixed Models Analysis|||||18.35|5.93|<0.001
82582004|NCT01156792|164875601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.651|||=|0.563|TWO_SIDED|95.0|-3.97|7.27|||Mixed Models Analysis|||||7.27|-3.97|=0.563
82582005|NCT01156792|164875601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||=|0.072|TWO_SIDED|95.0|-0.47|10.67|||Mixed Models Analysis|||||10.67|-0.47|=0.072
82582006|NCT01156792|164875601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.822|||=|0.126|TWO_SIDED|95.0|-1.37|11.02|||Mixed Models Analysis|||||11.02|-1.37|=0.126
82484803|NCT03614975|164663394|OTHER|||||||0.36||||||Vaccine Strain: B/Phuket: Day 0|Kruskal-Wallis|||||||0.36
82484804|NCT03614975|164663394|OTHER|||||||0.65||||||Vaccine Strain: B/Phuket: Day 21|Kruskal-Wallis|||||||0.65
82484805|NCT01569464|164663395|SUPERIORITY_OR_OTHER||LS Mean|-0.27|STANDARD_ERROR_OF_MEAN|1.36||0.8451|TWO_SIDED|95.0|-2.96|2.42||A hierarchical test procedure was done for the primary efficacy variables at an α-level of 5 %. If a test was statistically significant, a test for the next variable was performed. If a test was not statistically significant the procedure stopped.|ANCOVA|||ANCOVA model was used for analysis with fixed effects for treatment assignment (main factor) and the subject's investigational center (stratifying factor) and a covariate for the Baseline Visit value of the IRLS sum score.||2.42|-2.96|0.8451
82484806|NCT01569464|164663396|SUPERIORITY_OR_OTHER||LS Mean|0.07|STANDARD_ERROR_OF_MEAN|0.34||0.8336|TWO_SIDED|95.0|-0.61|0.75||A hierarchical test procedure was done for the primary efficacy variables at an α-level of 5 %. If a test was statistically significant, a test for the next variable was performed. If a test was not statistically significant the procedure stopped.|ANCOVA|||ANCOVA model was used for analysis with fixed effects for treatment assignment (main factor) and the subject's investigational center (stratifying factor) and a covariate for the Baseline Visit value of the IRLS sum score.||0.75|-0.61|0.8336
82484807|NCT03475875|164663411|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-7.7|-0.9|||Linear Mixed Model|Kenward and Roger Method was used for the Degrees of Freedom|Mean difference was calculated as Test - Control|It was calculated that 80 participants randomized in a 1:1 fashion between the two sequences would have at least 90% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||-0.9|-7.7|
82484808|NCT03475875|164663412|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.43|||TWO_SIDED|95.0|-4.7|1.0|||Linear Mixed Model|Kenward and Roger Method was used for the Degrees of Freedom|Mean difference was calculated as Test - Control|It was calculated that 80 participants randomized in a 1:1 fashion between the two sequences would have at least 90% power to detect a 5 points difference in mean overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||1.0|-4.7|
82555967|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.6638|TWO_SIDED|95.0|-1.04|1.64||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.64|-1.04|0.6638
82582007|NCT01156792|164875601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.292|||=|0.001|TWO_SIDED|95.0|4.21|16.38|||Mixed Models Analysis|||||16.38|4.21|=0.001
82484809|NCT01390220|164663413|SUPERIORITY|||||||0.0109|||||||Fisher Exact|2-sided||||||0.0109
82484810|NCT01390220|164663414|SUPERIORITY|||||||0.0043|||||||Fisher Exact|2-sided||||||0.0043
82484811|NCT01390220|164663415|SUPERIORITY|||||||0.0124|||||||Log Rank|||||||0.0124
82484812|NCT01390220|164663416|SUPERIORITY|||||||0.0124|||||||Log Rank|||Kaplan-Meier estimates.||||0.0124
82484813|NCT04025710|164663417|OTHER|single arm design|SADE-free rate|0.97||||0.05|TWO_SIDED|95.0|0.9|1.0|||t-test, 2 sided|||The primary hypothesis evaluates the SADE free rate (pSADE\_free) at 3 months. Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%||1|0.9|0.05
82484814|NCT04718103|164663453|SUPERIORITY|Analysis performed using a generalized linear model assuming a negative binomial distribution and covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region and baseline pre-bronchodilator percent predicted Forced Expiratory Volume in one second (FEV1) and offset of log (total time in the study in years).|Rate Ratio|0.52|||<|0.001|TWO_SIDED|95.0|0.36|0.73|||Negative Binomial Distribution|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by the annualized rate of clinically significant exacerbations measured over the study intervention period of 52 weeks.||0.73|0.36|<0.001
82484815|NCT04718103|164663454|SUPERIORITY||Least-square (LS) means|-2.31||||0.2|TWO_SIDED|95.0|-5.84|1.23|||Mixed Models Repeated Measures (MMRM)|||To demonstrate the superiority of GSK3511294 100 mg SC + SoC following two doses (at Week 0 and at Week 26) compared with placebo + SoC, assessed by SGRQ Total Score measured over the study intervention period of 52 weeks.||1.23|-5.84|0.200
82484816|NCT04718103|164663455|SUPERIORITY||Difference in Least-Square Mean|-0.11||||0.333|TWO_SIDED|95.0|-0.33|0.11|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ACQ-5 score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ACQ-5 score and visit by treatment group.||0.11|-0.33|0.333
82484817|NCT04718103|164663456|SUPERIORITY||Difference in Least-Square Means|0.056||||0.267|TWO_SIDED|95.0|-0.043|0.154|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline pre-bronchodilator FEV1, visit, visit by baseline pre-bronchodilator FEV1 and visit by treatment group.||0.154|-0.043|0.267
82484818|NCT04718103|164663457|SUPERIORITY||Difference in Least square means|-0.21||||0.173|TWO_SIDED|95.0|-0.52|0.09|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ANSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ANSD weekly mean score and visit by treatment group.||0.09|-0.52|0.173
82582008|NCT01156792|164875602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.154|||||TWO_SIDED|95.0|-9.36|1.06||||||||1.06|-9.36|
82582009|NCT01156792|164875602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.364|||||TWO_SIDED|95.0|-6.22|5.5||||||||5.50|-6.22|
82651496|NCT01492582|165017728|NON_INFERIORITY|Non-inferiority required that the lower bound of the one-sided 99.688% confidence interval (CI) of the geometric mean titer (GMT) ratio was \>0.5.|lower bound one-sided CI of GMT ratio|-0.44|||||TWO_SIDED|||||||||"Historical Healthy Population Reference:~NONAVALENT~Girls 9-15, Boys 9-15, Women 16-26:~Petersen LK, Restrepo J, Moreira ED, Jr., et al. Impact of baseline covariates on the immunogenicity of the 9-valent HPV vaccine - A combined analysis of five phase III clinical trials. Papillomavirus Res. 2017;3:105-115;"|GMT ratio = GMT (cancer survivor) / GMT (historical healthy population)|||
82484819|NCT04718103|164663458|SUPERIORITY||Difference in Least square means|-0.21||||0.138|TWO_SIDED|95.0|-0.48|0.07|||Mixed Models Repeated Measures (MMRM)|||Analysis performed using a repeated measures model with covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region, baseline ADSD weekly mean score, baseline pre-bronchodilator percent predicted FEV1, visit, visit by baseline ADSD weekly mean score and visit by treatment group.||0.07|-0.48|0.138
82484820|NCT04718103|164663459|SUPERIORITY|Analysis performed using a generalized linear model assuming a negative binomial distribution and covariates of treatment group, baseline ICS dose (medium or high), exacerbation history (2, 3, 4+), geographical region and baseline pre-bronchodilator percent predicted FEV1.|Rate Ratio|0.42||||0.087|TWO_SIDED|95.0|0.16|1.13|||Negative binomial distribution|||||1.13|0.16|0.087
82484821|NCT00945854|164663480|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
82484822|NCT01858636|164663512|SUPERIORITY_OR_OTHER|||||||0.0029|TWO_SIDED||||||Fisher Exact|A one-sided Fisher's exact test was performed with a 95% upper confidence bound of 5.5%||Ho: Pt ≥ 8% Ha: Pt \< 8%, where Pt is the proportion of deployed subjects with a protocol-defined vascular complication.||||0.0029
82484823|NCT01858636|164663513|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|A one-sided Fisher's exact test was performed with a 95% lower confidence bound of 96.4%||Ho: St ≤ 90% Ha: St \> 90%, where St is the proportion of deployed subjects achieving hemostasis within 5 minutes.||||<0.0001
82555968|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.2252|TWO_SIDED|95.0|-0.56|2.36||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.36|-0.56|0.2252
82555969|NCT01074294|164821047|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.697|TWO_SIDED|95.0|-1.14|1.7||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.70|-1.14|0.6970
82582010|NCT01156792|164875603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|||=|0.957|TWO_SIDED|95.0|-0.18|0.17|||Mixed Models Analysis|||||0.17|-0.18|=0.957
82651497|NCT01492582|165017729|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Injection site - Pain, any; Injection site - Swelling, any; Injection site - Erythema, any; Systemic - Nausea Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||<0.001
82484824|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.9538|TWO_SIDED|95.0|-0.075|0.071||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.071|-0.075|0.9538
82484825|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.006||||0.8787|TWO_SIDED|95.0|-0.07|0.081||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.081|-0.070|0.8787
82484826|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002||||0.9544|TWO_SIDED|95.0|-0.062|0.066||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 52.||0.066|-0.062|0.9544
82582011|NCT01156792|164875603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108|||=|0.213|TWO_SIDED|95.0|-0.28|0.06|||Mixed Models Analysis|||||0.06|-0.28|=0.213
82582012|NCT01156792|164875603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|||=|0.647|TWO_SIDED|95.0|-0.2|0.12|||Mixed Models Analysis|||||0.12|-0.20|=0.647
82582013|NCT01156792|164875603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011|||=|0.894|TWO_SIDED|95.0|-0.17|0.15|||Mixed Models Analysis|||||0.15|-0.17|=0.894
82582014|NCT01156792|164875604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025|||=|0.811|TWO_SIDED|95.0|-0.23|0.18|||Mixed Models Analysis|||||0.18|-0.23|=0.811
82582015|NCT01156792|164875604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.133|||=|0.2|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|||||0.07|-0.34|=0.200
82555970|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.6008|TWO_SIDED|95.0|-0.64|1.11||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.11|-0.64|0.6008
82555971|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.5859|TWO_SIDED|95.0|-0.72|1.27||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.27|-0.72|0.5859
82555972|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.7406|TWO_SIDED|95.0|-0.96|1.34||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.34|-0.96|0.7406
82582016|NCT01156792|164875604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.076|||=|0.415|TWO_SIDED|95.0|-0.26|0.11|||Mixed Models Analysis|||||0.11|-0.26|=0.415
82582017|NCT01156792|164875604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||=|0.358|TWO_SIDED|95.0|-0.26|0.1|||Mixed Models Analysis|||||0.10|-0.26|=0.358
82582018|NCT01156792|164875605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.666|||=|0.285|TWO_SIDED|95.0|-2.24|7.57|||Mixed Models Analysis|||||7.57|-2.24|=0.285
82582019|NCT01156792|164875605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.3|||=|0.035|TWO_SIDED|95.0|0.38|10.22|||Mixed Models Analysis|||||10.22|0.38|=0.035
82582020|NCT01156792|164875605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.036|||=|0.09|TWO_SIDED|95.0|-0.63|8.7|||Mixed Models Analysis|||||8.70|-0.63|=0.090
82582021|NCT01156792|164875605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.602|||=|0.047|TWO_SIDED|95.0|0.06|9.14|||Mixed Models Analysis|||||9.14|0.06|=0.047
82484827|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.955|TWO_SIDED|95.0|-0.106|0.112||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.112|-0.106|0.9550
82582022|NCT01156792|164875606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.014|||=|0.668|TWO_SIDED|95.0|-3.64|5.67|||Mixed Models Analysis|||||5.67|-3.64|=0.668
82582023|NCT01156792|164875606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.349|||=|0.156|TWO_SIDED|95.0|-1.29|7.98|||Mixed Models Analysis|||||7.98|-1.29|=0.156
82582024|NCT01156792|164875606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.496|||=|0.822|TWO_SIDED|95.0|-3.83|4.82|||Mixed Models Analysis|||||4.82|-3.83|=0.822
82582025|NCT01156792|164875606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||=|0.555|TWO_SIDED|95.0|-2.94|5.46|||Mixed Models Analysis|||||5.46|-2.94|=0.555
82582026|NCT01156792|164875607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.992|||=|0.367|TWO_SIDED|95.0|-2.35|6.33|||Mixed Models Analysis|||||6.33|-2.35|=0.367
82582027|NCT01156792|164875607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.147|||=|0.332|TWO_SIDED|95.0|-2.2|6.49|||Mixed Models Analysis|||||6.49|-2.20|=0.332
82582028|NCT01156792|164875607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.331|||=|0.277|TWO_SIDED|95.0|-1.88|6.55|||Mixed Models Analysis|||||6.55|-1.88|=0.277
82582029|NCT01156792|164875607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.521|||=|0.467|TWO_SIDED|95.0|-2.59|5.63|||Mixed Models Analysis|||||5.63|-2.59|=0.467
82582030|NCT01156792|164875608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.575|||=|0.789|TWO_SIDED|95.0|-3.65|4.8|||Mixed Models Analysis|||||4.80|-3.65|=0.789
82582031|NCT01156792|164875608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.669|||=|0.087|TWO_SIDED|95.0|-0.54|7.87|||Mixed Models Analysis|||||7.87|-0.54|=0.087
82582032|NCT01156792|164875608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||=|0.923|TWO_SIDED|95.0|-3.84|4.24|||Mixed Models Analysis|||||4.24|-3.84|=0.923
82582033|NCT01156792|164875608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.137|||=|0.571|TWO_SIDED|95.0|-5.08|2.81|||Mixed Models Analysis|||||2.81|-5.08|=0.571
82582034|NCT01156792|164875609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.014|||=|0.668|TWO_SIDED|95.0|-3.64|5.67|||Mixed Models Analysis|||||5.67|-3.64|=0.668
82582035|NCT01156792|164875609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.349|||=|0.156|TWO_SIDED|95.0|-1.29|7.98|||Mixed Models Analysis|||||7.98|-1.29|=0.156
82582036|NCT01156792|164875609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.496|||=|0.822|TWO_SIDED|95.0|-3.83|4.82|||Mixed Models Analysis|||||4.82|-3.83|=0.822
82582037|NCT01156792|164875609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||=|0.555|TWO_SIDED|95.0|-2.94|5.46|||Mixed Models Analysis|||||5.46|-2.94|=0.555
82582038|NCT01156792|164875610|SUPERIORITY_OR_OTHER||||||=|0.408||95.0|||||Fisher Exact|||||||=0.408
82582039|NCT01156792|164875610|SUPERIORITY_OR_OTHER||||||=|0.138||95.0|||||Fisher Exact|||||||=0.138
82582040|NCT01156792|164875610|SUPERIORITY_OR_OTHER||||||=|0.797||95.0|||||Fisher Exact|||||||=0.797
82582041|NCT01156792|164875610|SUPERIORITY_OR_OTHER||||||=|0.408||95.0|||||Fisher Exact|||||||=0.408
82582042|NCT02029872|164875635|OTHER|The study was powered for enrollment of 100 subjects with MRSA colonization at baseline. Despite substantial screening, we were unable to enroll enough subjects to meet the necessary sample size.||||||||||||||||Due to low enrollment in the intervention, statistical analysis was not possible.|The study was powered for enrollment of 100 subjects with MRSA colonization at baseline. Despite substantial screening, we were unable to enroll enough subjects to meet the necessary sample size.|||
82484828|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.8874|TWO_SIDED|95.0|-0.121|0.105||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.105|-0.121|0.8874
82484829|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002||||0.9595|TWO_SIDED|95.0|-0.099|0.095||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 78.||0.095|-0.099|0.9595
82484830|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.3826|TWO_SIDED|95.0|-0.164|0.064||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.064|-0.164|0.3826
82484831|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049||||0.3912|TWO_SIDED|95.0|-0.164|0.065||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 10 µg+QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.065|-0.164|0.3912
82484832|NCT01227564|164663551|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.3221|TWO_SIDED|95.0|-0.149|0.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed-effect model repeated measures was used, with the baseline measure of average SUVRs over ROIs and Apo E4 Status (Carrier or Non-carrier) as covariates, time, treatment, and treatment\*time as fixed effects. Estimates of the adjusted mean differences (test-reference) and corresponding 95% confidence intervals were obtained from the model. ACC 3 µg or ACC 10 µg + QS-21 50 µg was the test treatment and placebo was the reference treatment. Statistical analysis presented above for Week 104.||0.050|-0.149|0.3221
82484833|NCT01227564|164663552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|48.18||||0.9384|TWO_SIDED|95.0|-1197.07|1293.42||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||Analysis of Covariance (ANCOVA) was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1293.42|-1197.07|0.9384
82484834|NCT01227564|164663552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|581.98||||0.3945|TWO_SIDED|95.0|-778.17|1942.13||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1942.13|-778.17|0.3945
82484835|NCT01227564|164663552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|315.08||||0.5773|TWO_SIDED|95.0|-812.15|1442.3||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1442.30|-812.15|0.5773
82555973|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.8568|TWO_SIDED|95.0|-1.14|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.37|-1.14|0.8568
82555974|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.6044|TWO_SIDED|95.0|-0.96|1.64||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.64|-0.96|0.6044
82582043|NCT00324116|164875656|SUPERIORITY_OR_OTHER||percent responders|85.0||||||95.0|76.0|95.0|||||Proportion of responders estimated by Kaplan-Meier analysis. Proportion of responders along with 95% CI calculated directly from estimate of survival distribution function. Percentage denominator = total number of subjects without missing data.|||95|76|
82484836|NCT01227564|164663553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.16||||0.5818|TWO_SIDED|95.0|-63.31|111.62||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||111.62|-63.31|0.5818
82555975|NCT01074294|164821048|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.6772|TWO_SIDED|95.0|-1.08|1.66||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.66|-1.08|0.6772
82555976|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.7881|TWO_SIDED|95.0|-0.87|1.15||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.15|-0.87|0.7881
82555977|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8841|TWO_SIDED|95.0|-1.38|1.19||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.19|-1.38|0.8841
82555978|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.7589|TWO_SIDED|95.0|-1.61|1.17||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.17|-1.61|0.7589
82555979|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.5375|TWO_SIDED|95.0|-1.01|1.93||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.93|-1.01|0.5375
82651498|NCT01492582|165017729|SUPERIORITY|||||||0.03|||||||Chi-squared, Corrected|||Systemic - Fever Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||0.03
82484837|NCT01227564|164663553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|84.42||||0.0648|TWO_SIDED|95.0|-5.37|174.21||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||174.21|-5.37|0.0648
82484838|NCT01227564|164663553|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|54.29||||0.1672|TWO_SIDED|95.0|-23.47|132.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||132.05|-23.47|0.1672
82484839|NCT01227564|164663554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36||||0.3106|TWO_SIDED|95.0|-9.94|3.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||3.22|-9.94|0.3106
82555980|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|0.58||||0.4456|TWO_SIDED|95.0|-0.92|2.08||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.08|-0.92|0.4456
82555981|NCT01074294|164821049|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.667|TWO_SIDED|95.0|-1.21|1.89||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.89|-1.21|0.6670
82555982|NCT01074294|164821050|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.9708|TWO_SIDED|95.0|-0.97|1.01||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.01|-0.97|0.9708
82555983|NCT01074294|164821050|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.397|TWO_SIDED|95.0|-0.65|1.63||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.63|-0.65|0.3970
82555984|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9568|TWO_SIDED|95.0|0.68|1.5||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 7||1.50|0.68|0.9568
82651499|NCT01492582|165017729|SUPERIORITY|||||||0.48|||||||Chi-squared, Corrected|||Systemic - Dizziness Historical Healthy Population: Reported from Gardasil Package Insert 04/2015, Tables 1, 2, 5, and 6||||0.48
82484840|NCT01227564|164663554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.51||||0.1876|TWO_SIDED|95.0|-11.28|2.27||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||2.27|-11.28|0.1876
82484841|NCT01227564|164663554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.93||||0.1742|TWO_SIDED|95.0|-9.66|1.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||1.79|-9.66|0.1742
82484842|NCT01227564|164663555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.36||||0.4089|TWO_SIDED|95.0|-103.52|42.81||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||42.81|-103.52|0.4089
82484843|NCT01227564|164663555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.4||||0.0327|TWO_SIDED|95.0|-159.69|-7.11||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||-7.11|-159.69|0.0327
82484844|NCT01227564|164663555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.88||||0.0801|TWO_SIDED|95.0|-120.82|7.06||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|ANCOVA|||ANCOVA was used with baseline assessment and ApoE4 status as covariates, in addition to treatment included in the ANCOVA model.||7.06|-120.82|0.0801
82484845|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.78||||0.4892|TWO_SIDED|95.0|-37.15|76.71||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||76.71|-37.15|0.4892
82484846|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.06||||0.0915|TWO_SIDED|95.0|-8.51|110.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||110.63|-8.51|0.0915
82484847|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.42||||0.1638|TWO_SIDED|95.0|-14.88|85.72||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 12.||85.72|-14.88|0.1638
82582044|NCT00324116|164875657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.29||||||95.0|-6.83|-1.75|||||95% CI for the change in mean value obtained from one sample t-test.|6 weeks||-1.75|-6.83|
82484848|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|99.29||||0.2006|TWO_SIDED|95.0|-54.28|252.86||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||252.86|-54.28|0.2006
82484849|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|225.63||||0.0067|TWO_SIDED|95.0|65.18|386.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||386.09|65.18|0.0067
82582045|NCT00324116|164875657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.86||||||95.0|-9.06|-2.67|||||95% CI for the change in mean value obtained from one sample t-test.|12 weeks||-2.67|-9.06|
82582046|NCT00324116|164875657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.12||||||95.0|-16.28|-5.96|||||95% CI for the change in mean value obtained from one sample t-test.|54 weeks||-5.96|-16.28|
82582047|NCT00324116|164875658|SUPERIORITY_OR_OTHER||percentage of subjects|5.0||||||95.0|1.61|11.32|||||Proportion of subjects gaining vision was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations|||11.32|1.61|
82582048|NCT00324116|164875659|SUPERIORITY_OR_OTHER||percentage of subjects|22.5||||||95.0|14.22|32.11|||||Proportion of subjects maintaining vision was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||32.11|14.22|
82555985|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|0.91||||0.6308|TWO_SIDED|95.0|0.63|1.31||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 9||1.31|0.63|0.6308
82555986|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|0.92||||0.6698|TWO_SIDED|95.0|0.64|1.32||The p-value was derived from CMH general association test controlling for study center|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Falling Asleep: Week 11||1.32|0.64|0.6698
82555987|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|0.76||||0.2012|TWO_SIDED|95.0|0.5|1.15||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 7||1.15|0.50|0.2012
82555988|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|0.78||||0.2365|TWO_SIDED|95.0|0.52|1.16||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 9||1.16|0.52|0.2365
82555989|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|0.65||||0.0312|TWO_SIDED|95.0|0.44|0.96||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Difficulty Staying Asleep: Week 11||0.96|0.44|0.0312
82555990|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|1.12||||0.6408|TWO_SIDED|95.0|0.69|1.81||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 7||1.81|0.69|0.6408
82555991|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|1.24||||0.3467|TWO_SIDED|95.0|0.79|1.96||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 9||1.96|0.79|0.3467
82484850|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|162.46||||0.0204|TWO_SIDED|95.0|26.05|298.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||298.87|26.05|0.0204
82484851|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|114.13||||0.0766|TWO_SIDED|95.0|-12.63|240.89||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||240.89|-12.63|0.0766
82555992|NCT01074294|164821051|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9437|TWO_SIDED|95.0|0.65|1.59||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the Cochran-Mantel-Haenszel (CMH) model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Waking Up Too Early: Week 11||1.59|0.65|0.9437
82555993|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.6357|TWO_SIDED|95.0|-1.3|2.12||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||2.12|-1.30|0.6357
82555994|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.6536|TWO_SIDED|95.0|-1.56|2.48||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||2.48|-1.56|0.6536
82555995|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.9475|TWO_SIDED|95.0|-2.2|2.06||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||2.06|-2.20|0.9475
82555996|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|0.99||||0.3973|TWO_SIDED|95.0|-1.31|3.29||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||3.29|-1.31|0.3973
82582049|NCT00324116|164875660|SUPERIORITY_OR_OTHER||percentage of subjects|13.75||||||95.0|7.39|22.24|||||Proportion of subjects with severe visual loss was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||22.24|7.39|
82484852|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.82||||0.0181|TWO_SIDED|95.0|40.23|413.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||413.41|40.23|0.0181
82555997|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|1.47||||0.2336|TWO_SIDED|95.0|-0.96|3.91||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||3.91|-0.96|0.2336
82555998|NCT01074294|164821052|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.4553|TWO_SIDED|95.0|-1.55|3.44||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||3.44|-1.55|0.4553
82555999|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|0.29||||0.5647|TWO_SIDED|95.0|-0.7|1.27||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.27|-0.70|0.5647
82556000|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.9739|TWO_SIDED|95.0|-1.15|1.12||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.12|-1.15|0.9739
82484853|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|167.33||||0.0387|TWO_SIDED|95.0|9.03|325.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||325.63|9.03|0.0387
82484854|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|107.84||||0.2277|TWO_SIDED|95.0|-69.29|284.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||284.97|-69.29|0.2277
82484855|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|226.82||||0.0181|TWO_SIDED|95.0|40.23|413.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||413.41|40.23|0.0181
82556001|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.8077|TWO_SIDED|95.0|-1.4|1.09||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.09|-1.40|0.8077
82556002|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.6119|TWO_SIDED|95.0|-0.98|1.65||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.65|-0.98|0.6119
82556003|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.5513|TWO_SIDED|95.0|-0.94|1.76||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.76|-0.94|0.5513
82582050|NCT00324116|164875661|SUPERIORITY_OR_OTHER||percentage of subjects|25.97||||||95.0|16.28|34.81|||||Proportion of subjects progressing to \<=20/200 was estimated on an observed case basis. Percentage denominator = total number of subjects in the FAS. 95% confidence intervals were calculated from Fleiss quadratic equations.|||34.81|16.28|
82582051|NCT01642251|164875671|SUPERIORITY||Hazard Ratio (HR)|0.34|||<|0.001|TWO_SIDED|80.0|0.22|0.51||one-sided p value|Regression, Cox|adjusted for ECOG performance status, abnormal protein in the Cox proportional hazard model||The significance test reported here was for treatment arms comparison in patients within the male/abnormal LDH stratum||0.51|0.22|<0.001
82484856|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|167.33||||0.0387|TWO_SIDED|95.0|9.03|325.63||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||325.63|9.03|0.0387
82484857|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|141.92||||0.0747|TWO_SIDED|95.0|-14.62|298.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||298.45|-14.62|0.0747
82484858|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|204.4||||0.0151|TWO_SIDED|95.0|41.02|367.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||367.79|41.02|0.0151
82484859|NCT01227564|164663556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|173.16||||0.0161|TWO_SIDED|95.0|33.25|313.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||313.07|33.25|0.0161
82484860|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.652||||0.1807|TWO_SIDED|95.0|-6.57|1.267||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||1.267|-6.570|0.1807
82484861|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.497||||0.8051|TWO_SIDED|95.0|-3.515|4.508||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||4.508|-3.515|0.8051
82484862|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.078||||0.5331|TWO_SIDED|95.0|-4.519|2.364||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||2.364|-4.519|0.5331
82556004|NCT01074294|164821053|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.4185|TWO_SIDED|95.0|-0.81|1.95||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.95|-0.81|0.4185
82651500|NCT01492582|165017729|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||Injection site - Pain, any; Injection site - Swelling, any; Injection site - Erythema, any; Systemic - Nausea; Systemic - Fatigue Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||<0.001
82484863|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174||||0.9274|TWO_SIDED|95.0|-3.99|3.641||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||3.641|-3.990|0.9274
82556005|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.7556|TWO_SIDED|95.0|-0.8|1.09||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.09|-0.80|0.7556
82651501|NCT01492582|165017729|SUPERIORITY|||||||0.07|||||||Chi-squared, Corrected|||Systemic - Headache Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.07
82484864|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.549||||0.0743|TWO_SIDED|95.0|-0.36|7.458||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||7.458|-0.360|0.0743
82484865|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.687||||0.3163|TWO_SIDED|95.0|-1.656|5.031||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||5.031|-1.656|0.3163
82484866|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.645||||0.519|TWO_SIDED|95.0|-6.721|3.43||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||3.430|-6.721|0.5190
82484867|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.758||||0.074|TWO_SIDED|95.0|-0.476|9.991||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||9.991|-0.476|0.0740
82484868|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.394||||0.4909|TWO_SIDED|95.0|-2.937|6.049||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||6.049|-2.937|0.4909
82484869|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.383||||0.9151|TWO_SIDED|95.0|-7.549|6.783||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||6.783|-7.549|0.9151
82484870|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.394||||0.1533|TWO_SIDED|95.0|-2.069|12.857||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||12.857|-2.069|0.1533
82484871|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.506||||0.4371|TWO_SIDED|95.0|-3.904|8.915||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||8.915|-3.904|0.4371
82484872|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.21||||0.6167|TWO_SIDED|95.0|-10.999|6.579||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||6.579|-10.999|0.6167
82484873|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.11||||0.1844|TWO_SIDED|95.0|-2.993|15.212||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||15.212|-2.993|0.1844
82484874|NCT01227564|164663557|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95||||0.6205|TWO_SIDED|95.0|-5.888|9.878||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline total brain volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||9.878|-5.888|0.6205
82556006|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.371|TWO_SIDED|95.0|-0.6|1.59||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.59|-0.60|0.3710
82484875|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.418||||0.1695|TWO_SIDED|95.0|-0.183|1.018||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||1.018|-0.183|0.1695
82484876|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147||||0.6331|TWO_SIDED|95.0|-0.465|0.759||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.759|-0.465|0.6331
82484877|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282||||0.2907|TWO_SIDED|95.0|-0.247|0.812||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.812|-0.247|0.2907
82484878|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.007||||0.9846|TWO_SIDED|95.0|-0.675|0.688||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.688|-0.675|0.9846
82484879|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.304||||0.3845|TWO_SIDED|95.0|-1.0|0.392||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.392|-1.000|0.3845
82484880|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.149||||0.6204|TWO_SIDED|95.0|-0.748|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.450|-0.748|0.6204
82484881|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014||||0.981|TWO_SIDED|95.0|-1.221|1.192||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||1.192|-1.221|0.9810
82556007|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.8464|TWO_SIDED|95.0|-0.99|1.21||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.21|-0.99|0.8464
82556008|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|0.69||||0.2664|TWO_SIDED|95.0|-0.53|1.91||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.91|-0.53|0.2664
82484882|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.796||||0.2034|TWO_SIDED|95.0|-2.034|0.443||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.443|-2.034|0.2034
82484883|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.405||||0.4491|TWO_SIDED|95.0|-1.469|0.659||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.659|-1.469|0.4491
82484884|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.255||||0.8074|TWO_SIDED|95.0|-1.827|2.337||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||2.337|-1.827|0.8074
82484885|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.029||||0.3444|TWO_SIDED|95.0|-3.189|1.131||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||1.131|-3.189|0.3444
82484886|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.387||||0.6772|TWO_SIDED|95.0|-2.239|1.464||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||1.464|-2.239|0.6772
82484887|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.652||||0.6325|TWO_SIDED|95.0|-2.063|3.367||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.367|-2.063|0.6325
82484888|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.5706|TWO_SIDED|95.0|-3.606|2.007||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.007|-3.606|0.5706
82484889|NCT01227564|164663558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.074||||0.9513|TWO_SIDED|95.0|-2.485|2.337||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline ventricular volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.337|-2.485|0.9513
82556009|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|1.13||||0.0876|TWO_SIDED|95.0|-0.17|2.42||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||2.42|-0.17|0.0876
82556010|NCT01074294|164821054|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.5119|TWO_SIDED|95.0|-0.89|1.77||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.77|-0.89|0.5119
82582052|NCT01642251|164875671|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.18|TWO_SIDED|80.0|0.6|1.09||one-sided p value|Regression, Cox|adjusted for ECOG performance status, abnormal protein in the Cox proportional hazard model||The significance test reported here was for treatment arms comparison in patients not in the male/abnormal LDH stratum.||1.09|0.60|0.18
82484890|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.6054|TWO_SIDED|95.0|-0.074|0.043||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.043|-0.074|0.6054
82556011|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.8986|TWO_SIDED|95.0|-1.03|1.18||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||1.18|-1.03|0.8986
82556012|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.685|TWO_SIDED|95.0|-1.02|1.55||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||1.55|-1.02|0.6850
82556013|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.7108|TWO_SIDED|95.0|-1.61|1.1||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||1.10|-1.61|0.7108
82582053|NCT01642251|164875671|SUPERIORITY|||||||0.028||||||p value for the interaction by treatment and stratification factor|Regression, Cox|||If there was a significant treatment-by-stratification factor interaction, the results would be reported separately for each stratum. Significance was defined as the p value was less than 0.05.||||0.028
82484891|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.4087|TWO_SIDED|95.0|-0.035|0.084||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.084|-0.035|0.4087
82484892|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.8518|TWO_SIDED|95.0|-0.046|0.056||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.056|-0.046|0.8518
82484893|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.025||||0.4216|TWO_SIDED|95.0|-0.085|0.036||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.036|-0.085|0.4216
82582054|NCT01642251|164875672|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.17|TWO_SIDED|80.0|0.64|1.07|||Regression, Cox|stratified on the stratification factors used for randomization||||1.07|0.64|0.17
82582055|NCT01642251|164875674|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||0.13
82556014|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.9236|TWO_SIDED|95.0|-1.5|1.36||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||1.36|-1.50|0.9236
82582056|NCT01237587|164875688|SUPERIORITY||LS mean change difference|-0.65|STANDARD_ERROR_OF_MEAN|0.33||0.052|TWO_SIDED|95.0|-1.3|0.0|||Repeated Measures|||||0.00|-1.30|0.052
82582057|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.36||0.059|TWO_SIDED|95.0|-1.4|0.03|||Mixed Models Analysis|||Worst Pain||0.03|-1.40|.059
82582058|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.319||0.059|TWO_SIDED|95.0|-1.24|0.02|||Mixed Models Analysis|||Least Pain||0.02|-1.24|0.059
82582059|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.365||0.165|TWO_SIDED|95.0|-1.23|0.21|||Mixed Models Analysis|||Pain Right Now||0.21|-1.23|.165
82582060|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.97|STANDARD_ERROR_OF_MEAN|0.344||0.005|TWO_SIDED|95.0|-1.65|-0.3|||Mixed Models Analysis|||General Activity||-0.30|-1.65|0.005
82582061|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.356||0.128|TWO_SIDED|95.0|-1.25|0.16|||Mixed Models Analysis|||Mood||0.16|-1.25|.128
82582062|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.352||0.56|TWO_SIDED|95.0|-0.9|0.49|||Mixed Models Analysis|||Walking ability||0.49|-0.90|.560
82582063|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.371||0.448|TWO_SIDED|95.0|-1.01|0.45|||Mixed Models Analysis|||Normal Work||0.45|-1.01|0.448
82484894|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.034||||0.273|TWO_SIDED|95.0|-0.028|0.097||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.097|-0.028|0.2730
82484895|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.8549|TWO_SIDED|95.0|-0.048|0.058||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.058|-0.048|0.8549
82484896|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.026||||0.5847|TWO_SIDED|95.0|-0.12|0.068||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.068|-0.120|0.5847
82484897|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.067||||0.174|TWO_SIDED|95.0|-0.03|0.163||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.163|-0.030|0.1740
82484898|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.6255|TWO_SIDED|95.0|-0.063|0.103||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.103|-0.063|0.6255
82484899|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.023||||0.7658|TWO_SIDED|95.0|-0.177|0.131||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.131|-0.177|0.7658
82484900|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.3309|TWO_SIDED|95.0|-0.082|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.240|-0.082|0.3309
82484901|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028||||0.6872|TWO_SIDED|95.0|-0.11|0.166||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.166|-0.110|0.6872
82556015|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.8576|TWO_SIDED|95.0|-1.35|1.61||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||1.61|-1.35|0.8576
82556016|NCT01074294|164821055|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.8483|TWO_SIDED|95.0|-1.67|1.37||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||1.37|-1.67|0.8483
82582064|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.312||0.011|TWO_SIDED|95.0|-1.42|-0.19|||Mixed Models Analysis|||Relations With Other||-0.19|-1.42|.011
82582065|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.454||0.443|TWO_SIDED|95.0|-1.25|0.55|||Mixed Models Analysis|||Sleep||0.55|-1.25|.443
82484902|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.9752|TWO_SIDED|95.0|-0.196|0.202||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.202|-0.196|0.9752
82484903|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143||||0.1715|TWO_SIDED|95.0|-0.064|0.349||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.349|-0.064|0.1715
82484904|NCT01227564|164663559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073||||0.4145|TWO_SIDED|95.0|-0.105|0.25||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.250|-0.105|0.4145
82484905|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.011||||0.5134|TWO_SIDED|95.0|-0.043|0.022||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.022|-0.043|0.5134
82484906|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.6083|TWO_SIDED|95.0|-0.024|0.041||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.041|-0.024|0.6083
82484907|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001||||0.9401|TWO_SIDED|95.0|-0.029|0.027||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.027|-0.029|0.9401
82484908|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.018||||0.295|TWO_SIDED|95.0|-0.051|0.016||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.016|-0.051|0.2950
82484909|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.003||||0.8817|TWO_SIDED|95.0|-0.031|0.037||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.037|-0.031|0.8817
82556017|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6976|TWO_SIDED|95.0|-0.22|0.15||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 6||0.15|-0.22|0.6976
82556018|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.6986|TWO_SIDED|95.0|-0.25|0.17||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 7||0.17|-0.25|0.6986
82556019|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.6507|TWO_SIDED|95.0|-0.3|0.19||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 8||0.19|-0.30|0.6507
82484910|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.6072|TWO_SIDED|95.0|-0.037|0.022||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.022|-0.037|0.6072
82484911|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.6259|TWO_SIDED|95.0|-0.06|0.036||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.036|-0.060|0.6259
82484912|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027||||0.2807|TWO_SIDED|95.0|-0.023|0.076||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.076|-0.023|0.2807
82651502|NCT01492582|165017729|SUPERIORITY|||||||0.28|||||||Chi-squared, Corrected|||Systemic - Fever Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.28
82484913|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.008||||0.7224|TWO_SIDED|95.0|-0.035|0.05||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.050|-0.035|0.7224
82484914|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.007||||0.8532|TWO_SIDED|95.0|-0.08|0.067||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.067|-0.080|0.8532
82484915|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039||||0.3116|TWO_SIDED|95.0|-0.038|0.116||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.116|-0.038|0.3116
82484916|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.6246|TWO_SIDED|95.0|-0.049|0.082||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.082|-0.049|0.6246
82484917|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.008||||0.8697|TWO_SIDED|95.0|-0.092|0.108||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.108|-0.092|0.8697
82556020|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.655|TWO_SIDED|95.0|-0.32|0.2||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 9||0.20|-0.32|0.6550
82556021|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.3959|TWO_SIDED|95.0|-0.15|0.38||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 10||0.38|-0.15|0.3959
82651503|NCT01492582|165017729|SUPERIORITY|||||||0.45|||||||Fisher Exact|||Systemic - Dizziness Historical Healthy Population - As reported by Moreira et. al, 2016, Pediatrics, Table 5||||0.45
82651504|NCT02322879|165017753|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
82556022|NCT01074294|164821056|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.6763|TWO_SIDED|95.0|-0.23|0.35||The p-value was derived using MMRM method with treatment, study center, visit week, and treatment by visit week interaction as class effects, and week 5 value as covariate.|Mixed Models Analysis||The difference between LS means derived from the MMRM model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Change at Week 11||0.35|-0.23|0.6763
82556023|NCT01074294|164821057|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.4089|TWO_SIDED|95.0|-0.37|0.91||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.91|-0.37|0.4089
82556024|NCT01074294|164821058|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.2331|TWO_SIDED|95.0|-0.8|0.2||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||Week 11 data is included here. The planned sample size of 225 participants (150 in brexipiprazole arm and 75 in the placebo arm) yielded at least 80% power to detect effects at a 2-tailed significance level of 0.05 using a two-sided z-test.|||0.20|-0.80|0.2331
82556025|NCT01074294|164821059|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.067|TWO_SIDED|95.0|-0.01|0.0||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.00|-0.01|0.0670
82556026|NCT01074294|164821060|SUPERIORITY||Mean Difference (Final Values)|-14.3||||0.0849|TWO_SIDED|95.0|-30.5|1.98||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||1.98|-30.5|0.0849
82556027|NCT01074294|164821061|SUPERIORITY||Mean Difference (Final Values)|-0.46||||0.7663|TWO_SIDED|95.0|-3.52|2.6||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||2.60|-3.52|0.7663
82556028|NCT01074294|164821062|SUPERIORITY||Mean Difference (Final Values)|17.51||||0.0298|TWO_SIDED|95.0|1.73|33.29||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||33.29|1.73|0.0298
82556029|NCT01074294|164821063|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.2563|TWO_SIDED|95.0|-0.05|0.01||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.01|-0.05|0.2563
82556030|NCT01074294|164821064|SUPERIORITY||Mean Difference (Final Values)|-5.67||||0.6644|TWO_SIDED|95.0|-31.4|20.06||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||20.06|-31.4|0.6644
82556031|NCT01074294|164821065|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.8418|TWO_SIDED|95.0|-0.56|0.45||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.45|-0.56|0.8418
82556032|NCT01074294|164821066|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.2513|TWO_SIDED|95.0|-0.69|0.18||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.18|-0.69|0.2513
82556033|NCT01074294|164821067|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.7037|TWO_SIDED|95.0|-0.48|0.71||The p-value was derived from ANCOVA model, with treatment and study center as main effects and week 5 value as covariate, is used for change from week 5 comparisons.|ANCOVA||The difference between LS means derived from the ANCOVA model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|||0.71|-0.48|0.7037
82556034|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.7572|TWO_SIDED|95.0|-0.17|0.23||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||0.23|-0.17|0.7572
82556035|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.6132|TWO_SIDED|95.0|-0.28|0.17||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||0.17|-0.28|0.6132
82556036|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9312|TWO_SIDED|95.0|-0.25|0.27||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||0.27|-0.25|0.9312
82651505|NCT01633827|165017761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82651506|NCT01633827|165017762|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.025||||0.025|TWO_SIDED||||||t-test, 2 sided|||||||0.025
82651507|NCT01633827|165017763|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82484918|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072||||0.1707|TWO_SIDED|95.0|-0.032|0.176||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.176|-0.032|0.1707
82484919|NCT01227564|164663560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.3732|TWO_SIDED|95.0|-0.049|0.129||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline left hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.129|-0.049|0.3732
82484920|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.7259|TWO_SIDED|95.0|-0.04|0.028||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.028|-0.040|0.7259
82484921|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.016||||0.3517|TWO_SIDED|95.0|-0.018|0.051||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.051|-0.018|0.3517
82484922|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.7311|TWO_SIDED|95.0|-0.024|0.035||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 10.||0.035|-0.024|0.7311
82484923|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.008||||0.6446|TWO_SIDED|95.0|-0.041|0.026||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.026|-0.041|0.6446
82484924|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.064|TWO_SIDED|95.0|-0.002|0.066||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.066|-0.002|0.0640
82484925|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012||||0.4057|TWO_SIDED|95.0|-0.017|0.041||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 24.||0.041|-0.017|0.4057
82484926|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.5742|TWO_SIDED|95.0|-0.066|0.037||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.037|-0.066|0.5742
82556037|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.8073|TWO_SIDED|95.0|-0.3|0.24||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||0.24|-0.30|0.8073
82582066|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.338||0.39|TWO_SIDED|95.0|-0.96|0.38|||Mixed Models Analysis|||Enjoyment of Life||0.38|-0.96|.390
82484927|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.1336|TWO_SIDED|95.0|-0.013|0.093||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.093|-0.013|0.1336
82484928|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.013||||0.5734|TWO_SIDED|95.0|-0.033|0.058||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 50.||0.058|-0.033|0.5734
82484929|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.016||||0.7067|TWO_SIDED|95.0|-0.104|0.071||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.071|-0.104|0.7067
82484930|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.36|TWO_SIDED|95.0|-0.049|0.132||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.132|-0.049|0.3600
82484931|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013||||0.7454|TWO_SIDED|95.0|-0.065|0.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 76.||0.090|-0.065|0.7454
82484932|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006||||0.9037|TWO_SIDED|95.0|-0.113|0.1||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.100|-0.113|0.9037
82484933|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.2082|TWO_SIDED|95.0|-0.04|0.181||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.181|-0.040|0.2082
82484934|NCT01227564|164663561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032||||0.5044|TWO_SIDED|95.0|-0.063|0.127||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with baseline right hippocampal volume and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.127|-0.063|0.5044
82484935|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.7687|TWO_SIDED|95.0|-0.23|0.17||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.17|-0.23|0.7687
82484936|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.6804|TWO_SIDED|95.0|-0.16|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.24|-0.16|0.6804
82556038|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9168|TWO_SIDED|95.0|-0.26|0.29||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||0.29|-0.26|0.9168
82651508|NCT01633827|165017764|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82484937|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9452|TWO_SIDED|95.0|-0.17|0.18||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.18|-0.17|0.9452
82484938|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8825|TWO_SIDED|95.0|-0.27|0.23||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.23|-0.27|0.8825
82484939|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8791|TWO_SIDED|95.0|-0.28|0.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.24|-0.28|0.8791
82484940|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.02||||0.8628|TWO_SIDED|95.0|-0.24|0.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.20|-0.24|0.8628
82484941|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.7843|TWO_SIDED|95.0|-0.35|0.26||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.26|-0.35|0.7843
82484942|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.0857|TWO_SIDED|95.0|-0.04|0.6||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.60|-0.04|0.0857
82484943|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.3878|TWO_SIDED|95.0|-0.15|0.39||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.39|-0.15|0.3878
82651509|NCT01633827|165017765|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||0.001
82556039|NCT01074294|164821068|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.7432|TWO_SIDED|95.0|-0.34|0.25||The p-value was derived from CMH row mean scores differ test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||0.25|-0.34|0.7432
82582067|NCT01237587|164875689|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.424||0.16|TWO_SIDED|95.0|-1.44|0.24|||Mixed Models Analysis|||School Work||0.24|-1.44|.160
82582068|NCT01237587|164875691|SUPERIORITY|||||||0.051|||||||Fisher Exact|||||||.051
82582069|NCT01237587|164875692|SUPERIORITY|||||||0.038|||||||Fisher Exact|||||||.038
82582070|NCT01237587|164875693|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.669|TWO_SIDED|95.0|-9.1|5.86|||ANCOVA|||Average Pain Score||5.86|-9.10|.669
82651510|NCT01625377|165017793|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.34|||<|0.0001|TWO_SIDED|95.0|-21.34|-7.34|||ANCOVA|||||-7.34|-21.34|<0.0001
82484944|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8918|TWO_SIDED|95.0|-0.39|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.45|-0.39|0.8918
82484945|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33||||0.1233|TWO_SIDED|95.0|-0.09|0.76||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.76|-0.09|0.1233
82484946|NCT01227564|164663562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.3302|TWO_SIDED|95.0|-0.19|0.55||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||0.55|-0.19|0.3302
82484947|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.65||||0.1597|TWO_SIDED|95.0|-0.67|3.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||3.97|-0.67|0.1597
82484948|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.213|TWO_SIDED|95.0|-4.01|0.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.91|-4.01|0.2130
82484949|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9616|TWO_SIDED|95.0|-2.06|2.16||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||2.16|-2.06|0.9616
82484950|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.2143|TWO_SIDED|95.0|-1.06|4.62||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||4.62|-1.06|0.2143
82484951|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.87||||0.2151|TWO_SIDED|95.0|-4.87|1.12||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.12|-4.87|0.2151
82484952|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.05||||0.9704|TWO_SIDED|95.0|-2.61|2.51||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.51|-2.61|0.9704
82582071|NCT01237587|164875693|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.169|TWO_SIDED|95.0|-14.32|2.53|||ANCOVA|||Worst Pain Score||2.53|-14.32|.169
82484953|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.7857|TWO_SIDED|95.0|-3.0|3.95||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||3.95|-3.00|0.7857
82484954|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.79||||0.1323|TWO_SIDED|95.0|-6.45|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.87|-6.45|0.1323
82484955|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.4618|TWO_SIDED|95.0|-4.29|1.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.97|-4.29|0.4618
82484956|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.24||||0.2622|TWO_SIDED|95.0|-1.74|6.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||6.22|-1.74|0.2622
82484957|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.55||||0.4499|TWO_SIDED|95.0|-5.64|2.55||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.55|-5.64|0.4499
82484958|NCT01227564|164663563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35||||0.8454|TWO_SIDED|95.0|-3.21|3.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.91|-3.21|0.8454
82484959|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.1796|TWO_SIDED|95.0|-0.18|0.96||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.96|-0.18|0.1796
82556040|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|1.2||||0.6014|TWO_SIDED|95.0|0.6|2.42||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.42|0.60|0.6014
82556041|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9225|TWO_SIDED|95.0|0.64|1.63||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||1.63|0.64|0.9225
82556042|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|0.86||||0.4803|TWO_SIDED|95.0|0.58|1.3||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.30|0.58|0.4803
82556043|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|0.91||||0.5876|TWO_SIDED|95.0|0.65|1.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.27|0.65|0.5876
82556044|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|0.87||||0.3727|TWO_SIDED|95.0|0.64|1.18||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.18|0.64|0.3727
82582072|NCT01237587|164875693|SUPERIORITY||Mean Difference (Final Values)|-1.79||||0.647|TWO_SIDED|95.0|-9.53|5.94|||ANCOVA|||Pain Score Right Now||5.94|-9.53|.647
82582073|NCT01237587|164875694|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.146|TWO_SIDED|95.0|-0.52|0.08|||ANCOVA|||||0.08|-0.52|.146
82484960|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.7281|TWO_SIDED|95.0|-0.49|0.69||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.69|-0.49|0.7281
82484961|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.3347|TWO_SIDED|95.0|-0.26|0.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.75|-0.26|0.3347
82484962|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.3425|TWO_SIDED|95.0|-0.43|1.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.20|-0.43|0.3425
82484963|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.4501|TWO_SIDED|95.0|-1.16|0.52||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.52|-1.16|0.4501
82484964|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.9227|TWO_SIDED|95.0|-0.68|0.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.75|-0.68|0.9227
82484965|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.345|TWO_SIDED|95.0|-0.51|1.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.45|-0.51|0.3450
82484966|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.274|TWO_SIDED|95.0|-1.58|0.45||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.45|-1.58|0.2740
82484967|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.914|TWO_SIDED|95.0|-0.92|0.82||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.82|-0.92|0.9140
82484968|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03||||0.0923|TWO_SIDED|95.0|-0.18|2.24||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.24|-0.18|0.0923
82582074|NCT01237587|164875695|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.927|TWO_SIDED|95.0|-0.23|0.21|||ANCOVA|||||0.21|-0.23|.927
82582075|NCT01237587|164875696|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.431|TWO_SIDED|95.0|-1.54|3.59|||ANCOVA|||||3.59|-1.54|.431
82582076|NCT01237587|164875697|SUPERIORITY||Mean Difference (Final Values)|0.92||||0.529|TWO_SIDED|95.0|-1.95|3.79|||ANCOVA|||||3.79|-1.95|.529
82582077|NCT01237587|164875698|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.335|TWO_SIDED|95.0|-2.52|0.86|||ANCOVA|||||0.86|-2.52|.335
82582078|NCT01237587|164875699|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.955|TWO_SIDED|95.0|-1.59|1.68|||ANCOVA|||Physical Symptoms Score||1.68|-1.59|.955
82484969|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.8482|TWO_SIDED|95.0|-1.11|1.35||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.35|-1.11|0.8482
82484970|NCT01227564|164663564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.284|TWO_SIDED|95.0|-0.49|1.64||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.64|-0.49|0.2840
82484971|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.1767|TWO_SIDED|95.0|-4.9|0.92||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.92|-4.90|0.1767
82484972|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26||||0.0057|TWO_SIDED|95.0|-7.23|-1.29||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||-1.29|-7.23|0.0057
82484973|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.13||||0.0176|TWO_SIDED|95.0|-5.69|-0.57||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||-0.57|-5.69|0.0176
82484974|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.679|TWO_SIDED|95.0|-3.98|2.61||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.61|-3.98|0.6790
82484975|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.9028|TWO_SIDED|95.0|-3.62|3.2||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||3.20|-3.62|0.9028
82484976|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.45||||0.76|TWO_SIDED|95.0|-3.36|2.47||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||2.47|-3.36|0.7600
82484977|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.4089|TWO_SIDED|95.0|-4.51|1.86||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.86|-4.51|0.4089
82556045|NCT01074294|164821069|SUPERIORITY||Risk Ratio (RR)|0.93||||0.6265|TWO_SIDED|95.0|0.71|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.23|0.71|0.6265
82556046|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|1.1||||0.8586|TWO_SIDED|95.0|0.4|3.03||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||3.03|0.40|0.8586
82484978|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.17||||0.1964|TWO_SIDED|95.0|-5.49|1.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.15|-5.49|0.1964
82484979|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.2234|TWO_SIDED|95.0|-4.58|1.09||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.09|-4.58|0.2234
82484980|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.6186|TWO_SIDED|95.0|-3.52|2.12||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.12|-3.52|0.6186
82484981|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77||||0.5853|TWO_SIDED|95.0|-3.6|2.06||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.06|-3.60|0.5853
82556047|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|0.95||||0.8984|TWO_SIDED|95.0|0.46|1.99||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||1.99|0.46|0.8984
82556048|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|0.99||||0.9778|TWO_SIDED|95.0|0.57|1.74||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.74|0.57|0.9778
82484982|NCT01227564|164663565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.5541|TWO_SIDED|95.0|-3.23|1.75||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.75|-3.23|0.5541
82484983|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.937|TWO_SIDED|95.0|-2.09|1.93||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.93|-2.09|0.9370
82556049|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|0.92||||0.7315|TWO_SIDED|95.0|0.56|1.5||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.50|0.56|0.7315
82556050|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|0.9||||0.6518|TWO_SIDED|95.0|0.57|1.42||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.42|0.57|0.6518
82556051|NCT01074294|164821070|SUPERIORITY||Risk Ratio (RR)|0.82||||0.3472|TWO_SIDED|95.0|0.55|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.23|0.55|0.3472
82556052|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|0.98||||0.9577|TWO_SIDED|95.0|0.44|2.16||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.16|0.44|0.9577
82556053|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|1.19||||0.5864|TWO_SIDED|95.0|0.63|2.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.27|0.63|0.5864
82582079|NCT01237587|164875699|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.381|TWO_SIDED|95.0|-1.82|0.7|||ANCOVA|||Harm Avoidance||0.70|-1.82|.381
82484984|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.2597|TWO_SIDED|95.0|-3.19|0.88||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||0.88|-3.19|0.2597
82484985|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.4852|TWO_SIDED|95.0|-2.38|1.14||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.14|-2.38|0.4852
82484986|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.4542|TWO_SIDED|95.0|-2.69|1.22||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.22|-2.69|0.4542
82484987|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.3061|TWO_SIDED|95.0|-3.04|0.97||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.97|-3.04|0.3061
82484988|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.88||||0.3082|TWO_SIDED|95.0|-2.61|0.84||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.84|-2.61|0.3082
82484989|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.2672|TWO_SIDED|95.0|-3.09|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.87|-3.09|0.2672
82484990|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.11||||0.0427|TWO_SIDED|95.0|-4.15|-0.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||-0.07|-4.15|0.0427
82484991|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.0716|TWO_SIDED|95.0|-3.37|0.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||0.15|-3.37|0.0716
82484992|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.7184|TWO_SIDED|95.0|-2.09|3.0||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.00|-2.09|0.7184
82556054|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|0.96||||0.8723|TWO_SIDED|95.0|0.57|1.6||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.60|0.57|0.8723
82556055|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|1.0||||0.9872|TWO_SIDED|95.0|0.65|1.52||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.52|0.65|0.9872
82484993|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49||||0.7004|TWO_SIDED|95.0|-2.06|3.03||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||3.03|-2.06|0.7004
82484994|NCT01227564|164663566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.6723|TWO_SIDED|95.0|-1.77|2.71||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.71|-1.77|0.6723
82484995|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.9535|TWO_SIDED|95.0|-1.58|1.68||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.68|-1.58|0.9535
82484996|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9914|TWO_SIDED|95.0|-1.63|1.65||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.65|-1.63|0.9914
82484997|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9682|TWO_SIDED|95.0|-1.39|1.44||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||1.44|-1.39|0.9682
82484998|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.2008|TWO_SIDED|95.0|-2.96|0.64||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.64|-2.96|0.2008
82484999|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.7988|TWO_SIDED|95.0|-2.07|1.6||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||1.60|-2.07|0.7988
82485000|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.7||||0.3764|TWO_SIDED|95.0|-2.27|0.87||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||0.87|-2.27|0.3764
82485001|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.86||||0.4177|TWO_SIDED|95.0|-2.98|1.25||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.25|-2.98|0.4177
82556056|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|0.8||||0.3171|TWO_SIDED|95.0|0.52|1.23||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.23|0.52|0.3171
82582080|NCT01237587|164875699|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.486|TWO_SIDED|95.0|-1.66|0.79|||ANCOVA|||Social Anxiety||0.79|-1.66|.486
82582081|NCT01237587|164875699|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.7|TWO_SIDED|95.0|-1.17|0.79|||ANCOVA|||Separation/Panic||0.79|-1.17|.700
82485002|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.6494|TWO_SIDED|95.0|-2.67|1.68||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.68|-2.67|0.6494
82485003|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.4674|TWO_SIDED|95.0|-2.54|1.18||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||1.18|-2.54|0.4674
82485004|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.4709|TWO_SIDED|95.0|-3.85|1.81||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||1.81|-3.85|0.4709
82485005|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.19||||0.4128|TWO_SIDED|95.0|-1.7|4.07||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||4.07|-1.70|0.4128
82485006|NCT01227564|164663567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.9478|TWO_SIDED|95.0|-2.41|2.58||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||2.58|-2.41|0.9478
82485007|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.7146|TWO_SIDED|95.0|-3.4|2.35||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||2.35|-3.40|0.7146
82485008|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||0.2733|TWO_SIDED|95.0|-4.6|1.33||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||1.33|-4.60|0.2733
82556057|NCT01074294|164821071|SUPERIORITY||Risk Ratio (RR)|0.87||||0.4782|TWO_SIDED|95.0|0.6|1.27||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.27|0.60|0.4782
82556058|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|1.19||||0.7232|TWO_SIDED|95.0|0.45|3.19||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||3.19|0.45|0.7232
82556059|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|0.99||||0.986|TWO_SIDED|95.0|0.46|2.13||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.13|0.46|0.9860
82582082|NCT01237587|164875699|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.54|TWO_SIDED|95.0|-5.12|2.69|||ANCOVA|||Total Score||2.69|-5.12|.540
82582083|NCT01226095|164875708|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||||||<0.0001
82582084|NCT01285609|164875727|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.907||||0.2517|TWO_SIDED|95.0|0.767|1.072|||Log Rank|p-value based on an unstratified 2-sided log rank test|Hazard of Ipilimumab over Hazard of Placebo with 2-sided 95% confidence intervals are based on an unstratified Cox proportional hazards model with treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.072|0.767|0.2517
82485009|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.3969|TWO_SIDED|95.0|-3.62|1.46||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 54.||1.46|-3.62|0.3969
82485010|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.8566|TWO_SIDED|95.0|-2.43|2.92||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||2.92|-2.43|0.8566
82582085|NCT01285609|164875728|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.917||||0.2421|TWO_SIDED|95.0|0.792|1.061||p-value based on stratified 2-sided log-rank test|Log Rank||Hazard of Ipilimumab over Placebo with 2-sided 95% confidence intervals based on a stratified Cox proportional hazards model with several stratification factors and treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.061|0.792|0.2421
82582086|NCT01285609|164875729|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.869||||0.0678|TWO_SIDED|95.0|0.749|1.009|||Log Rank|p-value based on an unstratified 2-sided log rank test|Hazard of Ipilimumab over Hazard of Placebo with 2-sided 95% confidence intervals are based on an unstratified Cox proportional hazards model with treatment as the single covariate|Hazard ratio = Ipilimumab with Paclitaxel/Carboplatin over Placebo with Paclitaxel/Carboplatin||1.009|0.749|0.0678
82485011|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.346|TWO_SIDED|95.0|-3.98|1.42||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||1.42|-3.98|0.3460
82485012|NCT01227564|164663568|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.52||||0.6582|TWO_SIDED|95.0|-2.86|1.82||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 86.||1.82|-2.86|0.6582
82485013|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.7537|TWO_SIDED|95.0|-18.36|13.36||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||13.36|-18.36|0.7537
82556060|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9858|TWO_SIDED|95.0|0.52|1.95||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.95|0.52|0.9858
82556061|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|1.02||||0.9466|TWO_SIDED|95.0|0.58|1.78||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.78|0.58|0.9466
82556062|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|1.12||||0.6962|TWO_SIDED|95.0|0.63|2.0||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||2.00|0.63|0.6962
82556063|NCT01074294|164821072|SUPERIORITY||Risk Ratio (RR)|0.93||||0.7637|TWO_SIDED|95.0|0.57|1.51||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.51|0.57|0.7637
82582087|NCT03283072|164875744|SUPERIORITY|||||||0.592|||||||ANCOVA|Within, within repeated measures ANCOVA (gender as co-variate).||||||0.592
82582088|NCT03283072|164875745|SUPERIORITY|||||||0.721|||||||ANCOVA|Within, within repeated measures ANCOVA (gender as co-variate).||||||0.721
82582089|NCT03283072|164875746|SUPERIORITY|||||||0.553|||||||ANCOVA|Within, within repeated measures ANVOA (gender as covariate)||||||0.553
82582090|NCT00911768|164875747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.416|<|0.05||95.0|-0.647|1.008|||t-test, 2 sided|||||1.008|-0.647|<0.05
82582091|NCT00911768|164875748|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was conducted. We just compared the difference of stimulated salivary rates between both groups at 8 weeks, because there were no definition of the effective margin.|Mean Difference (Final Values)|-0.346|STANDARD_ERROR_OF_MEAN|0.116|<|0.05||95.0|-0.576|-0.115|||t-test, 2 sided|||||-0.115|-0.576|<0.05
82485014|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.51||||0.1266|TWO_SIDED|95.0|-28.86|3.65||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||3.65|-28.86|0.1266
82485015|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.96||||0.6724|TWO_SIDED|95.0|-28.34|18.41||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||18.41|-28.34|0.6724
82485016|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7||||0.017|TWO_SIDED|95.0|-53.89|-5.5||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||-5.50|-53.89|0.0170
82485017|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.94||||0.3196|TWO_SIDED|95.0|-92.67|30.78||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||30.78|-92.67|0.3196
82485018|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-64.97||||0.049|TWO_SIDED|95.0|-129.64|-0.31||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||-0.31|-129.64|0.0490
82485019|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.04||||0.2969|TWO_SIDED|95.0|-14.7|46.79||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||46.79|-14.70|0.2969
82485020|NCT01227564|164663570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.2||||0.0973|TWO_SIDED|95.0|-57.42|5.03||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||5.03|-57.42|0.0973
82485021|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.6653|TWO_SIDED|95.0|-7.94|5.1||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||5.10|-7.94|0.6653
82485022|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48||||0.4613|TWO_SIDED|95.0|-4.2|9.15||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 26.||9.15|-4.20|0.4613
82485023|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.771|TWO_SIDED|95.0|-4.18|5.61||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||5.61|-4.18|0.7710
82485024|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.02||||0.2328|TWO_SIDED|95.0|-1.99|8.04||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 52.||8.04|-1.99|0.2328
82485025|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8||||0.3693|TWO_SIDED|95.0|-0.97|2.58||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||2.58|-0.97|0.3693
82485026|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74||||0.422|TWO_SIDED|95.0|-1.09|2.56||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 78.||2.56|-1.09|0.4220
82485027|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51||||0.3728|TWO_SIDED|95.0|-24.25|9.23||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||9.23|-24.25|0.3728
82485028|NCT01227564|164663571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.07||||0.3452|TWO_SIDED|95.0|-25.05|8.91||Analysis was two-sided and performed at the 0.05 significance level. No multiplicity adjustments due to multiple endpoints or multiple assessments were applied. Nominal p-values were reported in the analysis.|Mixed-Effects Model Repeated Measures|Kenward-Roger was used to estimate the denominator degrees of freedom.||A mixed effects model for repeated measures analysis was used, with the baseline assessment and ApoE4 status as covariates, and visit, treatment and visit by treatment interaction as fixed effects, with variance-covariance structure set to unstructured. Statistical analysis presented above for Week 104.||8.91|-25.05|0.3452
82485029|NCT02378025|164663610|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||.25
82485030|NCT02378025|164663611|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||.08
82485031|NCT02378025|164663612|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
82485032|NCT02378025|164663613|SUPERIORITY|||||||0.25|||||||Regression, Logistic|||||||.25
82485033|NCT02378025|164663614|SUPERIORITY|||||||0.22|||||||Regression, Logistic|||||||.22
82485034|NCT02378025|164663615|SUPERIORITY|||||||0.41|||||||Regression, Logistic|||||||.41
82485035|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.291|STANDARD_ERROR_OF_MEAN|0.2838|||TWO_SIDED|90.0|-0.195|0.777|||mixed model repeated measures|||Week 12||0.777|-0.195|
82485036|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.282|STANDARD_ERROR_OF_MEAN|0.2843|||TWO_SIDED|90.0|-0.206|0.769|||mixed model repeated measures|||Week 12||0.769|-0.206|
82485037|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.658|STANDARD_ERROR_OF_MEAN|0.373|||TWO_SIDED|90.0|0.017|1.299|||mixed model repeated measures|||Week 24||1.299|0.017|
82485038|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.84|STANDARD_ERROR_OF_MEAN|0.3791|||TWO_SIDED|90.0|0.189|1.49|||mixed model repeated measures|||Week 24||1.490|0.189|
82582092|NCT00911768|164875749|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority analysis was conducted. We just compared the difference of unstimulated salivary rates between both groups at 8 weeks, because there were no definition of the effective margin.|Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.035|<|0.05||95.0|-0.155|-0.017|||t-test, 2 sided|||||-0.017|-0.155|<0.05
82582093|NCT00515853|164875762|SUPERIORITY|||||||0.54|||||||Regression, Linear|||CCI final||||0.54
82485039|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.668|STANDARD_ERROR_OF_MEAN|0.4954|||TWO_SIDED|90.0|-0.177|1.512|||mixed model repeated measures|||Week 36||1.512|-0.177|
82485040|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.912|STANDARD_ERROR_OF_MEAN|0.4887|||TWO_SIDED|90.0|0.078|1.746|||mixed model repeated measures|||Week 36||1.746|0.078|
82485041|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|0.976|STANDARD_ERROR_OF_MEAN|0.4813|||TWO_SIDED|90.0|0.15|1.803|||mixed model repeated measures|||Week 48||1.803|0.150|
82485042|NCT04437368|164663645|SUPERIORITY||LS Mean Difference|1.233|STANDARD_ERROR_OF_MEAN|0.4573|||TWO_SIDED|90.0|0.445|2.022|||mixed model repeated measures|||Week 48||2.022|0.445|
82485043|NCT04437368|164663646|SUPERIORITY||LS Mean Difference|1.769|STANDARD_ERROR_OF_MEAN|1.2808|||TWO_SIDED|90.0|-0.441|3.979|||mixed model repeated measures|||Week 72||3.979|-0.441|
82485044|NCT04437368|164663646|SUPERIORITY||LS Mean Difference|1.274|STANDARD_ERROR_OF_MEAN|1.2349|||TWO_SIDED|90.0|-0.863|3.412|||mixed model repeated measures|||Week 72||3.412|-0.863|
82485045|NCT04437368|164663646|SUPERIORITY||LS Mean Difference|2.041|STANDARD_ERROR_OF_MEAN|1.4177|||TWO_SIDED|90.0|-0.386|4.468|||mixed model repeated measures|||Week 96||4.468|-0.386|
82485046|NCT04437368|164663646|SUPERIORITY||LS Mean|1.278|STANDARD_ERROR_OF_MEAN|1.3857|||TWO_SIDED|90.0|-1.099|3.655|||mixed model repeated measures|||Week 96||3.655|-1.099|
82485047|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.49|||TWO_SIDED|90.0|-10.3|8.1|||mixed model repeated measures|||Week 12||8.1|-10.3|
82582094|NCT00932113|164875842|OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82556064|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|1.3||||0.3631|TWO_SIDED|95.0|0.73|2.33||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 6||2.33|0.73|0.3631
82556065|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|1.35||||0.2786|TWO_SIDED|95.0|0.78|2.35||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 7||2.35|0.78|0.2786
82556066|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|1.08||||0.7062|TWO_SIDED|95.0|0.72|1.62||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 8||1.62|0.72|0.7062
82556067|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|0.95||||0.7844|TWO_SIDED|95.0|0.67|1.35||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 9||1.35|0.67|0.7844
82556068|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|1.07||||0.694|TWO_SIDED|95.0|0.77|1.48||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 10||1.48|0.77|0.6940
82556069|NCT01074294|164821073|SUPERIORITY||Risk Ratio (RR)|1.03||||0.8697|TWO_SIDED|95.0|0.76|1.39||The p-value was derived from CMH general association test controlling for study center.|Cochran-Mantel-Haenszel||The difference between LS means derived from the CMH model. This comparison was tested for statistical significance at a 0.05 (two-sided) significance level.|Week 11||1.39|0.76|0.8697
82556070|NCT00312208|164821074|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.978||95.0|0.86|1.16||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates.|Log Rank|||||1.16|0.86|0.978
82556071|NCT00312208|164821075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.371||95.0|0.75|1.11||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates.|Log Rank|||||1.11|0.75|0.371
82485048|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|5.96|||TWO_SIDED|90.0|-16.3|3.7|||mixed model repeated measures|||Week 12||3.7|-16.3|
82485049|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|5.54|||TWO_SIDED|90.0|-14.5|4.1|||mixed model repeated measures|||Week 24||4.1|-14.5|
82556072|NCT04027439|164821086|OTHER||Contrast Ratio|1.186|||<|0.0001|TWO_SIDED|95.0|1.138|1.235|||ANCOVA|||||1.235|1.138|<0.0001
82556073|NCT04027439|164821086|OTHER||Contrast Ratio|1.134|||<|0.0001|TWO_SIDED|95.0|1.088|1.181|||ANCOVA|||||1.181|1.088|<0.0001
82556074|NCT04027439|164821086|OTHER||Contrast Ratio|1.134|||<|0.0001|TWO_SIDED|95.0|1.089|1.181|||ANCOVA|||||1.181|1.089|<0.0001
82556075|NCT04027439|164821086|OTHER||Contrast Ratio|1.084||||0.0001|TWO_SIDED|95.0|1.041|1.128|||ANCOVA|||||1.128|1.041|0.0001
82485050|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-11.7|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|90.0|-21.7|-1.6|||mixed model repeated measures|||Week 24||-1.6|-21.7|
82485051|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|5.63|||TWO_SIDED|90.0|-18.4|0.5|||mixed model repeated measures|||Week 36||0.5|-18.4|
82556076|NCT04027439|164821087|OTHER||Contrast Ratio|1.228||||0.0004|TWO_SIDED|95.0|1.105|1.365|||ANCOVA|||||1.365|1.105|0.0004
82556077|NCT04027439|164821087|OTHER||Contrast Ratio|1.228||||0.0004|TWO_SIDED|95.0|1.104|1.365|||ANCOVA|||||1.365|1.104|0.0004
82556078|NCT04027439|164821087|OTHER||Contrast Ratio|1.196||||0.0012|TWO_SIDED|95.0|1.08|1.326|||ANCOVA|||||1.326|1.080|0.0012
82556079|NCT04027439|164821087|OTHER||Contrast Ratio|1.121||||0.0348|TWO_SIDED|95.0|1.009|1.246|||ANCOVA|||||1.246|1.009|0.0348
82556080|NCT04027439|164821087|OTHER||Contrast Ratio|1.055||||0.3106|TWO_SIDED|95.0|0.949|1.172|||ANCOVA|||||1.172|0.949|0.3106
82556081|NCT04027439|164821088|OTHER||Contrast Ratio|1.154||||0.0208|TWO_SIDED|95.0|1.024|1.301|||ANCOVA|||||1.301|1.024|0.0208
82556082|NCT04027439|164821088|OTHER||Contrast Ratio|1.2||||0.0041|TWO_SIDED|95.0|1.064|1.353|||ANCOVA|||||1.353|1.064|0.0041
82556083|NCT04027439|164821088|OTHER||Contrast Ratio|1.167||||0.0108|TWO_SIDED|95.0|1.039|1.311|||ANCOVA|||||1.311|1.039|0.0108
82556084|NCT04027439|164821088|OTHER||Contrast Ratio|1.087||||0.1641|TWO_SIDED|95.0|0.965|1.225|||ANCOVA|||||1.225|0.965|0.1641
82556085|NCT04027439|164821089|OTHER||Contrast Ratio|1.229||||0.0005|TWO_SIDED|95.0|1.102|1.369|||ANCOVA|||||1.369|1.102|0.0005
82556086|NCT04027439|164821089|OTHER||Contrast Ratio|1.231||||0.0005|TWO_SIDED|95.0|1.104|1.372|||ANCOVA|||||1.372|1.104|0.0005
82556087|NCT04027439|164821089|OTHER||Contrast Ratio|1.188||||0.0022|TWO_SIDED|95.0|1.07|1.32|||ANCOVA|||||1.320|1.070|0.0022
82556088|NCT04027439|164821089|OTHER||Contrast Ratio|1.106||||0.0658|TWO_SIDED|95.0|0.993|1.233|||ANCOVA|||||1.233|0.993|0.0658
82556089|NCT04027439|164821097|OTHER||Contrast Ratio|1.183|||<|0.0001|TWO_SIDED|95.0|1.134|1.234|||ANCOVA|||||1.234|1.134|<0.0001
82556090|NCT04027439|164821097|OTHER||Contrast Ratio|1.14|||<|0.0001|TWO_SIDED|95.0|1.092|1.19|||ANCOVA|||||1.190|1.092|<0.0001
82556091|NCT04027439|164821097|OTHER||Contrast Ratio|1.131|||<|0.0001|TWO_SIDED|95.0|1.084|1.18|||ANCOVA|||||1.180|1.084|<0.0001
82556092|NCT04027439|164821097|OTHER||Contrast Ratio|1.08||||0.0004|TWO_SIDED|95.0|1.036|1.126|||ANCOVA|||||1.126|1.036|0.0004
82556093|NCT04027439|164821098|OTHER||Contrast Ratio|1.123|||<|0.0001|TWO_SIDED|95.0|1.078|1.169|||ANCOVA|||||1.169|1.078|<0.0001
82485052|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|90.0|-22.1|-1.7|||mixed model repeated measures|||Week 36||-1.7|-22.1|
82485053|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|5.88|||TWO_SIDED|90.0|-12.7|6.9|||mixed model repeated measures|||Week 48||6.9|-12.7|
82485054|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|6.14|||TWO_SIDED|90.0|-17.9|2.7|||mixed model repeated measures|||Week 48||2.7|-17.9|
82485055|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|5.96|||TWO_SIDED|90.0|-7.4|12.5|||mixed model repeated measures|||Week 72||12.5|-7.4|
82485056|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|6.18|||TWO_SIDED|90.0|-11.1|9.6|||mixed model repeated measures|||Week 72||9.6|-11.1|
82485057|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|90.0|-8.7|11.5|||mixed model repeated measures|||Week 96||11.5|-8.7|
82485058|NCT04437368|164663652|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|6.47|||TWO_SIDED|90.0|-13.8|7.8|||mixed model repeated measures|||Week 96||7.8|-13.8|
82485059|NCT01484054|164663697|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|1.0|STANDARD_ERROR_OF_MEAN|2.117|||TWO_SIDED|95.0|-3.2|5.2|||Mixed Models Analysis|||The alternative hypothesis is that etafilcon A with PVP lenses is non-inferior to etafilcon A control lenses for the Overall Quality of Lens Vision at 7-9 days of follow-up.||5.20|-3.20|
82485060|NCT01484054|164663698|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|4.7|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-0.79|10.19|||Mixed Models Analysis|||The alternative hypothesis is that etafilcon A with PVP lenses is non-inferior to etafilcon A control lenses for the Overall Lens Comfort at 7-9 days of follow-up.||10.19|-0.79|
82485061|NCT01484054|164663699|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -5 points(CLUE) was used.|Least square mean difference|9.44|STANDARD_ERROR_OF_MEAN|1.829|||TWO_SIDED|95.0|5.81|13.07|||Mixed Models Analysis|||Ho: The test lens is non-inferior to the active comparator lens for Handling at 7-9 days follow-up.||13.07|5.81|
82485062|NCT01539317|164663700|SUPERIORITY_OR_OTHER|||||||0.0149|||||||Wilcoxon (Mann-Whitney)|||Phase II: During Blinded 4 weeks||||0.0149
82485063|NCT01539317|164663700|SUPERIORITY_OR_OTHER|||||||0.412|||||||Wilcoxon (Mann-Whitney)|||Phase III||||0.412
82485064|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Desire||||0.66
82556094|NCT04027439|164821098|OTHER||Contrast Ratio|1.078||||0.0004|TWO_SIDED|95.0|1.035|1.122|||ANCOVA|||||1.122|1.035|0.0004
82556095|NCT04027439|164821098|OTHER||Contrast Ratio|1.081||||0.0002|TWO_SIDED|95.0|1.039|1.125|||ANCOVA|||||1.125|1.039|0.0002
82556096|NCT04027439|164821098|OTHER||Contrast Ratio|1.041||||0.0437|TWO_SIDED|95.0|1.001|1.083|||ANCOVA|||||1.083|1.001|0.0437
82556097|NCT04027439|164821099|OTHER||Contrast Ratio|1.087||||0.0006|TWO_SIDED|95.0|1.038|1.139|||ANCOVA|||||1.139|1.038|0.0006
82485065|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||Arousal (S)||||0.11
82485066|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Arousal (L)||||0.15
82485067|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Arousal (C)||||0.28
82556098|NCT04027439|164821099|OTHER||Contrast Ratio|1.083||||0.001|TWO_SIDED|95.0|1.034|1.135|||ANCOVA|||||1.135|1.034|0.0010
82556099|NCT04027439|164821099|OTHER||Contrast Ratio|1.096||||0.0002|TWO_SIDED|95.0|1.047|1.149|||ANCOVA|||||1.149|1.047|0.0002
82556100|NCT04027439|164821099|OTHER||Contrast Ratio|1.039||||0.0971|TWO_SIDED|95.0|0.993|1.088|||ANCOVA|||||1.088|0.993|0.0971
82556101|NCT04027439|164821100|OTHER||Contrast Ratio|1.145|||<|0.0001|TWO_SIDED|95.0|1.106|1.185|||ANCOVA|||||1.185|1.106|<0.0001
82556102|NCT04027439|164821100|OTHER||Contrast Ratio|1.148|||<|0.0001|TWO_SIDED|95.0|1.109|1.189|||ANCOVA|||||1.189|1.109|<0.0001
82556103|NCT04027439|164821100|OTHER||Contrast Ratio|1.099|||<|0.0001|TWO_SIDED|95.0|1.062|1.137|||ANCOVA|||||1.137|1.062|<0.0001
82556104|NCT04027439|164821100|OTHER||Contrast Ratio|1.088|||<|0.0001|TWO_SIDED|95.0|1.052|1.126|||ANCOVA|||||1.126|1.052|<0.0001
82586134|NCT06729593|164884191|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.45|2.11||Proportional odds model stratified by disease severity (high flow nasal canula(HFNC)/non-invasive ventilation(NIV) or invasive mechanical ventiliation(IMV)/ECMO) at study entry to determine the odds of being in a better category at day 90.|Proportional odds model||Summary odds ratio for being in a better category, active/placebo (95% confidence interval); pvalue|||2.11|0.45|0.96
82485068|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Orgasm||||0.07
82485069|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||Pain||||0.004
82485070|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||Enjoyment||||0.54
82485071|NCT01539317|164663701|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||Partner||||0.92
82485072|NCT01539317|164663702|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Each of 8 site comparisons had its own P-value and a value of \<0.001 was the difference at the most tender sites|Wilcoxon (Mann-Whitney)|||||||<0.001
82485073|NCT00364130|164663705|SUPERIORITY_OR_OTHER|||||||0.38||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.38
82485074|NCT00364130|164663706|SUPERIORITY_OR_OTHER|||||||0.8||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.80
82485075|NCT00364130|164663707|SUPERIORITY_OR_OTHER|||||||0.02||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.02
82485076|NCT00364130|164663708|SUPERIORITY_OR_OTHER|||||||0.27||||||The outcome was not adjusted for multiple comparisons|Regression, Linear|||||||0.27
82485077|NCT00364130|164663709|SUPERIORITY_OR_OTHER|||||||0.84||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.84
82485078|NCT00364130|164663710|SUPERIORITY_OR_OTHER|||||||0.66||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.66
82485079|NCT00364130|164663711|SUPERIORITY_OR_OTHER|||||||0.7||||||The outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.70
82485080|NCT00364130|164663712|SUPERIORITY_OR_OTHER|||||||0.98||||||Outcome is not adjusted for multiple comparisons|Regression, Linear|||||||0.98
82556105|NCT04027439|164821101|OTHER||Contrast Ratio|1.15|||<|0.0001|TWO_SIDED|95.0|1.113|1.189|||ANCOVA|||||1.189|1.113|<0.0001
82556106|NCT04027439|164821101|OTHER||Contrast Ratio|1.146|||<|0.0001|TWO_SIDED|95.0|1.109|1.185|||ANCOVA|||||1.185|1.109|<0.0001
82556107|NCT04027439|164821101|OTHER||Contrast Ratio|1.107|||<|0.0001|TWO_SIDED|95.0|1.071|1.144|||ANCOVA|||||1.144|1.071|<0.0001
82485081|NCT04221230|164663769|OTHER||Least square mean difference|-1.7|STANDARD_ERROR_OF_MEAN|1.08||0.121|TWO_SIDED|95.0|-3.8|0.4|||Mixed Model Repeated Measures|||||0.4|-3.8|0.121
82485082|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.071|TWO_SIDED|98.3|-4.9|0.7|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.7|-4.9|0.071
82485083|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.074|TWO_SIDED|98.3|-5.0|0.7|||Mixed Models Analysis|||Contrasts from a linear mixed models analysis at 6 months adjusted by baseline age, gender, BMI, WOMAC-PF, knee flexion.||0.7|-5.0|0.074
82485084|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.93|TWO_SIDED|98.3|-2.7|2.9|||Mixed Models Analysis|||Contrasts from a linear mixed models analysis at 3 months adjusted by baseline age, gender, BMI, WOMAC-PF, knee flexion.||2.9|-2.7|0.930
82485085|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.491|TWO_SIDED|98.3|-3.7|2.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||2.0|-3.7|0.491
82556108|NCT04027439|164821101|OTHER||Contrast Ratio|1.094|||<|0.0001|TWO_SIDED|95.0|1.059|1.13|||ANCOVA|||||1.130|1.059|<0.0001
82556109|NCT04027439|164821102|OTHER||Contrast Ratio|1.103|||<|0.0001|TWO_SIDED|95.0|1.066|1.141|||ANCOVA|||||1.141|1.066|<0.0001
82556110|NCT04027439|164821102|OTHER||Contrast Ratio|1.078|||<|0.0001|TWO_SIDED|95.0|1.042|1.116|||ANCOVA|||||1.116|1.042|<0.0001
82485086|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.021|TWO_SIDED|98.3|-4.5|0.1|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.1|-4.5|0.021
82485087|NCT02237911|164663810|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.179|TWO_SIDED|98.3|-3.6|1.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||1.0|-3.6|0.179
82485088|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.0001|TWO_SIDED|98.3|0.1|0.4|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.4|0.1|<0.0001
82556111|NCT04027439|164821102|OTHER||Contrast Ratio|1.067||||0.0002|TWO_SIDED|95.0|1.032|1.104|||ANCOVA|||||1.104|1.032|0.0002
82556112|NCT04027439|164821102|OTHER||Contrast Ratio|1.048||||0.0066|TWO_SIDED|95.0|1.013|1.084|||ANCOVA|||||1.084|1.013|0.0066
82582095|NCT01190514|164875850|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|95.56|||||TWO_SIDED|90.0|86.94|105.04|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fasted (test); DVS SR 50 mg fasted (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||105.04|86.94|
82582096|NCT01190514|164875850|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|101.31|||||TWO_SIDED|90.0|97.17|105.64|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fed (test); DVS SR 50 mg fed (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||105.64|97.17|
82556113|NCT05601882|164821120|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|11.0|||<|0.0001|TWO_SIDED|95.0|6.6|15.5|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||15.5|6.6|<0.0001
82556114|NCT05601882|164821121|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|18.4|||<|0.0001|TWO_SIDED|95.0|12.5|24.2|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||24.2|12.5|<0.0001
82556115|NCT05601882|164821122|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|14.7|||<|0.0001|TWO_SIDED|95.0|9.4|20.0|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||20.0|9.4|<0.0001
82586135|NCT06729593|164884192|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.37|TWO_SIDED|95.0|0.39|1.42|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.42|0.39|0.37
82586136|NCT06729593|164884193|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8|TWO_SIDED|95.0|0.37|2.14|||Regression, Logistic||Odds ratio for active/placebo (95% confidence interval); pvalue|||2.14|0.37|0.80
82485089|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.012|TWO_SIDED|98.3|0.01|0.4|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.4|0.01|0.012
82485090|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.005|TWO_SIDED|98.3|0.02|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|0.02|0.005
82485091|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.052|TWO_SIDED|98.3|-0.003|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|-0.003|0.052
82485092|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.015|TWO_SIDED|98.3|0.02|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|0.02|0.015
82485093|NCT02237911|164663811|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.489|TWO_SIDED|98.3|-0.003|0.3|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||0.3|-0.003|0.489
82485094|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.943|TWO_SIDED|95.0|-106.0|114.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||114|-106|0.943
82485095|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|15.0||||0.814|TWO_SIDED|95.0|-112.0|142.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||142|-112|0.814
82485096|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|-15.0||||0.787|TWO_SIDED|95.0|-125.0|95.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||95|-125|0.787
82485097|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|-36.0||||0.581|TWO_SIDED|95.0|-164.0|92.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||92|-164|0.581
82485098|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.676|TWO_SIDED|95.0|-71.0|109.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 3 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||109|-71|0.676
82485099|NCT02237911|164663812|SUPERIORITY||Mean Difference (Final Values)|51.0||||0.33|TWO_SIDED|95.0|-52.0|154.0|||Mixed Models Analysis|Contrasts from a linear mixed models analysis at 6 months adjusted for randomization factors (age, gender, BMI, WOMAC-PF, knee flexion).||||154|-52|0.330
82485100|NCT04824365|164663856|SUPERIORITY||Mean Difference (Final Values)|-0.3379|STANDARD_ERROR_OF_MEAN|0.1438||0.0197|TWO_SIDED|95.0|-0.6213|-0.0545|||ANOVA|two-way ANOVA||||-0.0545|-0.6213|0.0197
82485101|NCT04824365|164663857|SUPERIORITY||Mean Difference (Final Values)|0.0381|STANDARD_ERROR_OF_MEAN|0.1129||0.736|TWO_SIDED|95.0|-0.1843|0.2605|||ANOVA|Two-way ANOVA||||0.2605|-0.1843|0.736
82485102|NCT04824365|164663858|SUPERIORITY||Mean Difference (Final Values)|0.3131|STANDARD_ERROR_OF_MEAN|0.1049||0.003|TWO_SIDED|95.0|0.1069|0.5193|||ANOVA|Two-way ANOVA||||0.5193|0.1069|0.0030
82485103|NCT04824365|164663859|SUPERIORITY||Mean Difference (Final Values)|1.704|STANDARD_ERROR_OF_MEAN|0.3035|<|0.0001|TWO_SIDED|95.0|1.105|2.302|||ANOVA|Two-way ANOVA||||2.302|1.105|<0.0001
82485104|NCT04824365|164663860|SUPERIORITY||Mean Difference (Final Values)|1.633|STANDARD_ERROR_OF_MEAN|0.3362|<|0.0001|TWO_SIDED|95.0|0.9672|2.298|||ANOVA|Two-way ANOVA||||2.298|0.9672|<0.0001
82485105|NCT04824365|164663861|SUPERIORITY||Mean Difference (Final Values)|1.964|STANDARD_ERROR_OF_MEAN|0.2473|<|0.0001|TWO_SIDED|95.0|1.477|2.452|||ANOVA|Two-way ANOVA||||2.452|1.477|<0.0001
82485106|NCT04824365|164663862|SUPERIORITY||Mean Difference (Final Values)|-0.4831|STANDARD_ERROR_OF_MEAN|0.2382||0.0435|TWO_SIDED|95.0|-0.9521|-0.01413|||ANOVA|Two-way ANOVA||||-0.01413|-0.9521|0.0435
82485107|NCT04824365|164663863|SUPERIORITY||Mean Difference (Final Values)|-0.05102|STANDARD_ERROR_OF_MEAN|0.2711||0.8509|TWO_SIDED|95.0|-0.5862|0.4841|||ANOVA|Two-way ANOVA||||0.4841|-0.5862|0.8509
82485108|NCT04824365|164663864|SUPERIORITY||Mean Difference (Final Values)|0.1339|STANDARD_ERROR_OF_MEAN|0.3177||0.6738|TWO_SIDED|95.0|-0.4921|0.76|||ANOVA|Two-way ANOVA||||0.7600|-0.4921|0.6738
82556116|NCT05601882|164821123|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|16.6|||<|0.0001|TWO_SIDED|95.0|10.2|23.0|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||23.0|10.2|<0.0001
82586137|NCT06729593|164884194|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.88|TWO_SIDED|95.0|0.64|1.67|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.67|0.64|0.88
82485109|NCT04824365|164663865|SUPERIORITY||Mean Difference (Final Values)|0.3095|STANDARD_ERROR_OF_MEAN|0.2832||0.2753|TWO_SIDED|95.0|-0.2478|0.8669|||ANOVA|Two-way ANOVA||||0.8669|-0.2478|0.2753
82485110|NCT04824365|164663866|SUPERIORITY||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.2636|<|0.0001|TWO_SIDED|95.0|-1.948|-0.9043|||ANOVA|Two-way ANOVA||||-0.9043|-1.948|<0.0001
82586138|NCT06729593|164884195|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.5|TWO_SIDED|95.0|0.43|1.5|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.50|0.43|0.50
82485111|NCT03463031|164663889|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.001|TWO_SIDED|95.0|-0.9|-0.2|||Mixed Models Analysis|||||-0.2|-0.9|0.001
82485112|NCT03463031|164663890|SUPERIORITY||Least Square Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||Mixed Models Analysis|||||-0.3|-1.0|<0.001
82485113|NCT03463031|164663891|SUPERIORITY||Least Square Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.5|-0.1|||ANCOVA|||||-0.1|-0.5|< 0.001
82485114|NCT03463031|164663892|SUPERIORITY||Least Square Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.233|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||||0.1|-0.6|0.233
82485115|NCT00559754|164663902|SUPERIORITY_OR_OTHER|||||||0.4915|||||||Fisher Exact|||||||0.4915
82485116|NCT00559754|164663903|SUPERIORITY_OR_OTHER|||||||0.4864|||||||Chi-squared|||||||0.4864
82485117|NCT00559754|164663904|SUPERIORITY_OR_OTHER|||||||0.3613|||||||Fisher Exact|||||||0.3613
82485118|NCT00559754|164663905|SUPERIORITY_OR_OTHER|||||||0.6605|||||||Fisher Exact|||||||0.6605
82485119|NCT00559754|164663906|SUPERIORITY_OR_OTHER|||||||0.8311|||||||Fisher Exact|||||||0.8311
82485120|NCT00559754|164663907|SUPERIORITY_OR_OTHER|||||||0.223|||||||Fisher Exact|||||||0.2230
82485121|NCT00559754|164663908|SUPERIORITY_OR_OTHER|||||||0.8696|||||||Fisher Exact|||||||0.8696
82485122|NCT00559754|164663909|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Fisher Exact|||||||0.0074
82485123|NCT00559754|164663910|SUPERIORITY_OR_OTHER|||||||0.3235|||||||Fisher Exact|||||||0.3235
82582097|NCT01190514|164875850|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for AUC48 fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|108.76|||||TWO_SIDED|90.0|101.1|117.01|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Food effect DVS SR 50 mg fed (test) versus DVS SR 50 mg fasted (reference).~Natural log transformed AUC48: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||117.01|101.10|
82485124|NCT00559754|164663911|SUPERIORITY_OR_OTHER|||||||0.0693|||||||Fisher Exact|||||||0.0693
82485125|NCT00559754|164663913|SUPERIORITY_OR_OTHER|||||||0.4254|||||||Fisher Exact|||||||0.4254
82485126|NCT00559754|164663915|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82485127|NCT00559754|164663916|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82485128|NCT00559754|164663918|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82485129|NCT02117414|164663934|SUPERIORITY_OR_OTHER||Percentage|100.0|||<|0.0001|ONE_SIDED|95.0|97.75|||A priori threshold for statistical significance was 0.025.|one-proportion binomial exact test|||The alternative hypothesis is that the MRI-related event-free rate between the MRI procedure and one month post-MRI is greater than 90%. The null hypothesis will be rejected if the one-sided 97.5% lower confidence bound is greater than 90% or, equivalently, if the p-value is less than 0.025. Assuming type I error rate 0.025, even-free rate under null hypothesis 90% and true even-free rate 0.995, the minimum required sample size is 54 MRI scanned subjects in order to obtain 90% power.|||97.75|<0.0001
82485130|NCT02117414|164663935|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 10%.|Difference in percentages|1.2|||<|0.0001|ONE_SIDED|95.0|-3.8|||A priori threshold for statistical significance was 0.025.|Farrington-Manning non-inferiority test|||"The percentage of subjects who experience a VPCT increase less than or equal to 0.5V from the pre-MRI/waiting period to one month post-MRI/waiting period in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-3.8|<0.0001
82485131|NCT02117414|164663936|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 8%.|Difference in percentages|0.6||||0.0001|ONE_SIDED|95.0|-4.1|||A priori threshold for statistical significance was 0.025.|Farrington-Manning non-inferiority test|||"The percentage of subjects who do not experience a significant decrease in ventricular sensing amplitude from the pre-MRI/waiting period to one month post-MRI/waiting period is greater than that in the Control group minus 8%.~H0: % successes MRI group ≤ % successes Control group - 8% HA: % successes MRI group \> % successes Control group - 8%"|||-4.1|0.0001
82485132|NCT02117414|164663937|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis will be rejected if the one-sided 95% log-log transformed lower confidence bound at 120 days post-implant calculated using Kaplan-Meier (K-M) method is greater than 80%.|Complication-free rate|95.9|||<|0.0001|ONE_SIDED|95.0|93.0|||A priori threshold for statistical significance was 0.05.|Kaplan-Meier method|||"The system-related complication-free rate between the implant procedure and the one month post-MRI/waiting period is greater than 80%.~H0: p ≤ 0.80 HA: p \> 0.80 where p is the system-related complication-free rate between the implant procedure and 120 days (the approximate time of the one month post-MRI/waiting period visit)."|||93.0|<0.0001
82485133|NCT02117414|164663938|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|1.2|||<|1e-05|ONE_SIDED|90.0|-3.1|||A priori threshold for statistical significance was 0.05.|Farrington-Manning non-inferiority test|||"The percentage of subjects who have a defibrillation impedance between 20 and 100 ohms at the one month post-MRI/waiting period visit in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10% Where % successes means the % of subjects whose defibrillation impedance at the one month post-MRI/waiting period visit is between 20 and 100 ohms."|||-3.1|<0.00001
82485134|NCT02117414|164663939|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%|Difference in percentages|0.0|||||TWO_SIDED|||||A priori threshold for statistical significance was 0.05. Because the success rate was 100% in each group, a p-value could not be calculated.|Farrington-Manning non-inferiority test|||"The percentage of subjects who have a SVC defibrillation impedance between 20 and 100 ohms at the one month post-MRI/waiting period visit in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10% Where % successes means the % of subjects whose SVC defibrillation impedance at the one month post-MRI/waiting period visit is between 20 and 100 ohms."||||
82485135|NCT02117414|164663940|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|-1.3||||0.006|ONE_SIDED|90.0|-7.0||||Farrington-Manning non-inferiority test|||"The percentage of subjects who experience an APCT increase less than or equal to 0.5V from the pre-MRI/waiting period to one month post-MRI/waiting period in the MRI group is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-7.0|0.006
82485136|NCT02117414|164663941|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin is 10%.|Difference in percentages|0.3||||0.005|ONE_SIDED|90.0|-6.2|||A priori threshold for statistical significance was 0.05|Farrington-Manning non-inferiority test|||"The percentage of subjects who do not experience a 50% decrease in atrial sensing amplitude from the pre-MRI/waiting period to one month post-MRI/waiting period is greater than that in the Control group minus 10%.~H0: % successes MRI group ≤ % successes Control group - 10% HA: % successes MRI group \> % successes Control group - 10%"|||-6.2|0.005
82485137|NCT02537574|164663942|SUPERIORITY||Odds Ratio (OR)|1.02|STANDARD_ERROR_OF_MEAN|0.264||0.94|TWO_SIDED|95.0|0.61|1.7|||Regression, Logistic|||||1.70|0.61|0.940
82485138|NCT02537574|164663942|SUPERIORITY||Odds Ratio (OR)|0.8|STANDARD_ERROR_OF_MEAN|0.207||0.383|TWO_SIDED|95.0|0.48|1.33|||Regression, Logistic|||||1.33|0.48|0.383
82485139|NCT01593722|164663961|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.68
82485140|NCT03739840|164664006|SUPERIORITY||Percent reduction|-5.6|||=|0.687|TWO_SIDED|95.0|-38.1|19.2||Adjusted p-values are from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||19.2|-38.1|=0.687
82485141|NCT03739840|164664006|SUPERIORITY||Percent reduction|6.5|||=|0.687|TWO_SIDED|95.0|-22.7|28.7||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||28.7|-22.7|=0.687
82485142|NCT03739840|164664006|SUPERIORITY||Percent reduction|6.3|||=|0.687|TWO_SIDED|95.0|-22.9|28.6||Adjusted p-values were from the Hochberg step-up procedure within SAS® Proc Multtest to control Type I error.|ANCOVA|||Percent reduction over placebo was calculated as 100\*(1-exp(diff)), where diff was the model estimate of the log ratio between each PSL group and placebo group.||28.6|-22.9|=0.687
82485143|NCT03739840|164664010|SUPERIORITY||Odds Ratio (OR)|1.15|||=|0.803|TWO_SIDED|95.0|0.39|3.38||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.38|0.39|=0.803
82485144|NCT03739840|164664010|SUPERIORITY||Odds Ratio (OR)|0.84|||=|0.772|TWO_SIDED|95.0|0.27|2.65||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||2.65|0.27|=0.772
82485145|NCT03739840|164664010|SUPERIORITY||Odds Ratio (OR)|1.01|||=|0.989|TWO_SIDED|95.0|0.33|3.08||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.08|0.33|=0.989
82485146|NCT03739840|164664011|SUPERIORITY||Odds Ratio (OR)|1.4|||=|0.425|TWO_SIDED|95.0|0.61|3.18||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate.||3.18|0.61|=0.425
82485147|NCT03739840|164664011|SUPERIORITY||Odds Ratio (OR)|1.23|||=|0.625|TWO_SIDED|95.0|0.53|2.85||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate||2.85|0.53|=0.625
82485148|NCT03739840|164664011|SUPERIORITY||Odds Ratio (OR)|1.9|||=|0.125|TWO_SIDED|95.0|0.84|4.34||Nominal p-values were not adjusted for multiplicity.|Regression, Logistic|||PSL dose/Placebo calculated using logistic regression with categorical factors for treatment group (each PSL dose group referenced to the placebo group), Region (Europe, non-Europe), Baseline SV2A use (Yes, No) and log-transformed Baseline seizure frequency as a continuous covariate||4.34|0.84|=0.125
82556117|NCT05601882|164821124|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|13.2|||<|0.0001|TWO_SIDED|95.0|9.6|16.9|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||16.9|9.6|<0.0001
82556118|NCT05601882|164821125|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|6.4|||<|0.0001|TWO_SIDED|95.0|3.8|9.1|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||9.1|3.8|<0.0001
82485149|NCT03739840|164664012|SUPERIORITY||Median Difference (Final Values)|3.25|||=|0.737|TWO_SIDED|95.0|-17.08|20.36||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||20.36|-17.08|=0.737
82485150|NCT03739840|164664012|SUPERIORITY||Median Difference (Net)|6.17|||=|0.458|TWO_SIDED|95.0|-10.0|21.91||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||21.91|-10.00|=0.458
82485151|NCT03739840|164664012|SUPERIORITY||Median Difference (Net)|9.31|||=|0.341|TWO_SIDED|95.0|-10.92|28.21||Nominal p-values were not adjusted for multiplicity.|Wilcoxon (Mann-Whitney)|||Dose group comparisons to Placebo p-value are based on the Wilcoxon-Mann-Whitney test. Hodges Lehmann nonparametric effect estimates and corresponding two-sided 95% asymptotic confidence intervals are provided for the effect difference between each PSL dose and placebo.||28.21|-10.92|=0.341
82485152|NCT02343081|164664065|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the ratio of the mean for Cmax for Temozolomide reference and test to fall within the 80-125% confidence range.|Cmax|94.37|||<|0.05|TWO_SIDED|90.0|82.69|107.69|||ANOVA|Primary parameters were analyzed using ANOVA. A linear, mixed model for crossover designs (two-period, two-sequence, two-treatment) was used.|Cmax Test/Reference Ratio|Bioequivalence assessment was made for the 90% CI for the ratio of log transformed pharmacokinetic parameters μT / μR and with the two one-sided Schuirmann T-test procedure under the null hypothesis||107.69|82.69|<0.05
82485153|NCT02343081|164664069|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the means ratio for AUC0-t for Temozolomide reference and test to fall within the 80-125% confidence range.|AUC0-t|100.99|||<|0.05|TWO_SIDED|90.0|97.81|104.28|||ANOVA||AUC0-t Test/Reference Ratio|||104.28|97.81|<0.05
82485154|NCT02343081|164664070|NON_INFERIORITY_OR_EQUIVALENCE|Assuming an intrasubject CV of 15%, an enrollment of 16 subjects was selected to provide a minimum of 80% power for the 90% CI of the means ratio for AUC0-inf for Temozolomide reference and test to fall within the 80-125% confidence range.|AUC0-inf|101.53|||<|0.05|TWO_SIDED|90.0|98.6|104.54|||ANOVA||AUC0-inf Test/Reference Ratio|||104.54|98.60|<0.05
82485155|NCT02169284|164664091|OTHER|||||||0.208|||||||Wilcoxon rank-sum test|||Nucleus P-EGFR in benign tissue between erlotinib and placebo||||0.208
82485156|NCT02169284|164664091|OTHER|||||||0.208|||||||Wilcoxon rank-sum test|||Cytoplasm P-EGFR in benign tissue between erlotinib and placebo||||0.208
82485157|NCT02169284|164664091|OTHER|||||||0.272|||||||Wilcoxon rank-sum test|||Membrane P-EGFR in benign tissue between erlotinib and placebo||||0.272
82485158|NCT02169284|164664091|OTHER|||||||0.22|||||||Wilcoxon rank-sum test|||Entire Cell P-EGFR in benign tissue between erlotinib and placebo||||0.220
82485159|NCT02169284|164664092|OTHER|||||||0.361|||||||Wilcoxon rank-sum test|||Nucleus P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.361
82485160|NCT02169284|164664092|OTHER|||||||0.383|||||||Wilcoxon rank-sum test|||Cytoplasm P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.383
82485161|NCT02169284|164664092|OTHER|||||||0.427|||||||Wilcoxon rank-sum test|||Membrane P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.427
82485162|NCT02169284|164664092|OTHER|||||||0.416|||||||Wilcoxon rank-sum test|||Entire Cell P-EGFR in Tumor Tissue, p-value between placebo and Erlotinib||||0.416
82556119|NCT05601882|164821126|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|14.1|||<|0.0001|TWO_SIDED|95.0|9.4|18.8|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||18.8|9.4|<0.0001
82586139|NCT05437510|164884196|SUPERIORITY||Efficacy|84.04|||<|0.0001|TWO_SIDED|95.0|69.493|92.411|||Exact method using binomial distribution|||The 2-sided 95% confidence interval (CI) for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization.||92.411|69.493|<0.0001
82485163|NCT02169284|164664093|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Baseline visit - p-value between erlotinib and placebo arms||||1.000
82485164|NCT02169284|164664093|OTHER|||||||0.199|||||||Wilcoxon rank-sum test|||Day 8 - p-value between erlotinib and placebo arms||||0.199
82485165|NCT02169284|164664093|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Surgery visit - p-value between erlotinib and placebo arms||||<0.001
82485166|NCT02169284|164664094|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Baseline visit - p-value between erlotinib and placebo arms||||1.000
82485167|NCT02169284|164664094|OTHER|||||||0.288|||||||Wilcoxon rank-sum test|||Day 8 - p-value between erlotinib and placebo arms||||0.288
82485168|NCT02169284|164664094|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Surgery visit - p-value between erlotinib and placebo arms||||<0.001
82485169|NCT02169284|164664095|OTHER|||||||0.792|||||||Wilcoxon rank-sum test|||P-value between groups at Baseline||||0.792
82485170|NCT02169284|164664095|OTHER|||||||0.261|||||||Wilcoxon rank-sum test|||P-value between groups at surgery visit||||0.261
82485171|NCT02169284|164664096|OTHER|||||||0.721|||||||Wilcoxon rank-sum test|||Expression of e-cadherin in Benign Tissue, P-Value between arms||||0.721
82485172|NCT02169284|164664096|OTHER|||||||0.108|||||||Wilcoxon rank-sum test|||Expression of e-cadherin in Tumor Tissue, P-Value between arms||||0.108
82485173|NCT02169284|164664097|OTHER|||||||0.444|||||||Wilcoxon rank-sum test|||Expression of KI-67 in Benign Tissue, P-Value between arms||||0.444
82485174|NCT02169284|164664097|OTHER|||||||0.663|||||||Wilcoxon rank-sum test|||Expression of KI-67 in Tumor Tissue, P-Value between arms||||0.663
82485175|NCT02169284|164664098|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Difference in p-ERK between Normal and Tumor Tissue, P-Value between arms||||1.000
82485176|NCT02169284|164664098|OTHER|||||||0.792|||||||Wilcoxon rank-sum test|||Difference in Cytoplasm p-ERK between Normal and Tumor Tissue, P-Value between arms||||0.792
82485177|NCT02169284|164664098|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Difference in Entire Cell p-ERK between Normal and Tumor Tissue, p-value between arms||||1.000
82485178|NCT02169284|164664099|OTHER|||||||0.772|||||||Wilcoxon rank-sum test|||||||0.772
82485179|NCT03583073|164664101|SUPERIORITY|||||||0.053|||||||Chi-squared, Corrected|DF = 1||||||.053
82485180|NCT03583073|164664102|SUPERIORITY||Mean Difference (Final Values)|1.94||||0.072|TWO_SIDED|95.0|-0.18|4.06|||Chi-squared, Corrected|||||4.06|-0.18|.072
82485181|NCT05323656|164664109|SUPERIORITY||LS Mean Difference|5.05|STANDARD_ERROR_OF_MEAN|13.077||0.7008|TWO_SIDED|80.0|-11.98|22.0|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group|Null hypothesis: the mean best percentage change in the tumour size between the treatment groups are the same. With 25 patients per treatment group, using a 2-sided t-test, there will be 85% power to detect a 20% mean difference between the treatment groups in best percentage change in tumour size, with an estimated standard deviation of 30% and a 2 sided alpha of 20%.||22.0|-11.98|0.7008
82485182|NCT05323656|164664110|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.1023|TWO_SIDED|80.0|0.38|0.89|||Regression, Cox|||Null hypothesis: The risk for progression, as defined by RECIST v1.1, is the same between treatment groups. If the true hazard ratio is 0.5, approximately 38 progression events as defined by RECIST v1.1 will be required to have \> 80% power to demonstrate a statistically significant difference in PFS with 2-sided p\<0.2||0.89|0.38|.1023
82485183|NCT05323656|164664111|SUPERIORITY||LS Mean Difference|9.5|STANDARD_ERROR_OF_MEAN|8.89||0.2986|TWO_SIDED|80.0|-2.3|21.3||a priori threshold for significance (0.2) not met.|ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline CAF levels does not differ between treatment groups. ANCOVA model is on postbaseline CAFs level with a fixed factor for treatment and a covariate for baseline.||21.3|-2.3|0.2986
82485184|NCT05323656|164664112|SUPERIORITY||LS Mean Difference|6.83|STANDARD_ERROR_OF_MEAN|12.48||0.5918|TWO_SIDED|80.0|-9.86|23.52|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline CD8+ TILs does not differ between treatment groups. ANCOVA model is on postbaseline CD8+ TILs level with a fixed factor for treatment and a covariate for baseline.||23.52|-9.86|0.5918
82485185|NCT05323656|164664113|SUPERIORITY||LS Mean Difference|10.84|STANDARD_ERROR_OF_MEAN|8.37||0.2135|TWO_SIDED|80.0|-0.34|22.02|||ANCOVA||The LS Mean difference is for the Setanaxib Group minus the Placebo Group.|Null Hypothesis: Mean difference in postbaseline number of regulatory T-cells in tumour tissue does not differ between treatment groups. ANCOVA model is on postbaseline number of regulatory T-cells in tumour tissue level with a fixed factor for treatment and a covariate for baseline.||22.02|-0.34|0.2135
82485186|NCT05323656|164664117|SUPERIORITY||Hazard Ratio (HR)|0.448|||||TWO_SIDED|80.0|0.24|0.85||||||No formal test of significance undertaken.||0.85|0.24|
82485187|NCT05323656|164664120|SUPERIORITY||Mean Difference (Final Values)|17.76|STANDARD_ERROR_OF_MEAN|9.4||0.0782|TWO_SIDED|80.0|5.17|30.36|||ANCOVA|The LS Mean difference is for the Setanaxib Group minus the Placebo Group.||Null Hypothesis: Mean difference in postbaseline PD-L1 combined positive score (CPS) does not differ between treatment groups. ANCOVA model is on postbaseline PD-L1 CPS with a fixed factor for treatment and a covariate for baseline. Threshold for statistical significance = 0.2.||30.36|5.17|0.0782
82485188|NCT05323656|164664121|OTHER||Mean Difference (Net)|0.11|STANDARD_DEVIATION|0.578||0.22|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.22
82485189|NCT05323656|164664121|OTHER||Mean Difference (Net)|-0.18|STANDARD_DEVIATION|0.395||0.2|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.20
82485190|NCT05323656|164664122|OTHER||Mean Difference (Net)|0.05|STANDARD_DEVIATION|0.069||0.037|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.037
82485191|NCT05323656|164664122|OTHER||Mean Difference (Net)|-0.02|STANDARD_DEVIATION|0.039||0.123|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.123
82485192|NCT05323656|164664123|OTHER||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.017||0.41|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.41
82485193|NCT05323656|164664123|OTHER||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.023||0.11|TWO_SIDED||||||Wilcoxon signed rank test|||Within group test of hypothesis that screening and week 9 values are equal.||||0.11
82485194|NCT05014490|164664130|EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. The level of significance was set to the standard value of 5% (0.05) for all statistical tests.|Ratio of the T/R geometric mean x 100|102.15|||||TWO_SIDED|90.0|94.54|110.37|||||The ratio of geometric LSmeans with corresponding 90% CI calculated from the exponential of the difference between the test and reference products for the ln-transformed parameters should be within the acceptance interval of 80.00 - 125.00%.|||110.37|94.54|
82556120|NCT05601882|164821127|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|18.6|||<|0.0001|TWO_SIDED|95.0|13.9|23.3|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||23.3|13.9|<0.0001
82485195|NCT05014490|164664131|EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. The level of significance was set to the standard value of 5% (0.05) for all statistical tests.|Ratio of the T/R geometric mean x 100|99.23|||||TWO_SIDED|90.0|96.97|101.54|||||The ratio of geometric LSmeans with corresponding 90% CI calculated from the exponential of the difference between the test and reference products for the ln-transformed parameters should be within the acceptance interval of 80.00 - 125.00%.|||101.54|96.97|
82485196|NCT03880461|164664146|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||||||0.014
82485197|NCT03880461|164664147|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82485198|NCT03880461|164664148|SUPERIORITY|||||||0.108|||||||ANOVA|||||||0.108
82485199|NCT00136604|164664189|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the standardized asymptotic 95% confidence interval (CI) on the difference in the percentage of subjects with SBA-MenC titre ≥ 1:128 between the Tritanrix-Hepb/Hib-MenAC-TT Group and (minus) the TRITANRIX-HEPB+Mencevax + Meningitec control group was above -10%.|Difference in percentage of subjects|0.0|||||TWO_SIDED|95.0|-1.53|3.05||||||Demonstration of non-inferiority of a fourth dose of the Tritanrix-HepB/Hib-MenAC-TT vaccine versus a fourth dose of the Tritanrix-HepB/Hiberix and Meningitec vaccine given concomitantly in terms of the percentage of subjects with an SBA-MenC titre ≥ 1:128.||3.05|-1.53|
82485200|NCT00136604|164664191|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the standardized asymptotic 95% CI on the difference in seroprotection (anti-PRP concentration ≥ 1.0 µg/mL) between the Tritanrix-Hepb/Hib-MenAC-TT Group and (minus) the Tritanrix-Hepb/Mencevax+Tritanrix-HepB/Hiberix Group was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.53|3.05||||||Demonstration of non-inferiority of the Tritanrix-HepB/Hib-MenAC-TT vaccine versus the Tritanrix-HepB/Hiberix vaccine when used as a booster vaccine in Tritanrix-HepB/Hib-MenAC-TT primed subjects in terms of the percentage of subjects with an anti-PRP concentration ≥ 1.0 µg/mL.||3.05|-1.53|
82485201|NCT02017171|164664214|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.999|TWO_SIDED|95.0|-1.9|1.9||p value is not adjusted for multiple comparisons, a priori threshold for statistical significance: p\<0.05|linear model for correlated errors||Treatment difference = Allopurinol-Placebo|||1.9|-1.9|0.999
82485202|NCT02017171|164664215|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.6|2.2||For secondary outcomes, 95% confidence intervals are reported, without P values. The confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||Treatment difference = Allopurinol - Placebo|||2.2|-1.6|
82485203|NCT02017171|164664216|SUPERIORITY||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.7|2.3||For secondary outcomes, 95% confidence intervals are reported, without P values. The confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||Treatment difference = Allopurinol - Placebo|||2.3|-1.7|
82485204|NCT02017171|164664217|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-1.5|0.4||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Treatment difference = Allopurinol - Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||0.4|-1.5|
82485205|NCT02017171|164664218|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.0|0.5||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Treatment difference = Allopurinol - Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||0.5|-1.0|
82556121|NCT05601882|164821128|SUPERIORITY|Analyzed using Cochran-Mantel-Haenszel (CMH) test stratified by Validated Investigator's Global Assessment for Atopic Dermatitis categories \[(vIGA-AD (moderate \[3\] versus severe \[4\])\] and age (12 to \< 18; 18 to \< 40; ≥40 to \< 64 years)|Adjusted Response Rate Difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.4|13.1|||Cochran-Mantel-Haenszel||Response rate difference = Upadacitinib (Period 1) - Dupilumab (Period 1)|Upadacitinib (Period 1) vs Dupilumab (Period 1)||13.1|5.4|<0.0001
82556122|NCT05501600|164821163|SUPERIORITY|||||||0.004|||||||Regression, Linear|||||||0.004
82556123|NCT05501600|164821164|SUPERIORITY|||||||0.081616|||||||t-test, 2 sided|||||||0.081616
82556124|NCT02722434|164821189|SUPERIORITY|||||||0.1228|||||||Chi-squared|||||||0.1228
82556125|NCT02722434|164821190|SUPERIORITY|||||||0.004|||||||Fisher Exact|||||||0.004
82556126|NCT02722434|164821191|SUPERIORITY|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||Sensory Subscale||||0.79
82556127|NCT02722434|164821191|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||Motor Subscale||||0.43
82556128|NCT02722434|164821191|SUPERIORITY|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||Autonomic Subscale||||0.97
82556129|NCT00786864|164821245|SUPERIORITY_OR_OTHER||||||p=|0||95.0|||||ANCOVA|||||||p=0.001
82556130|NCT00786864|164821246|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.001
82556131|NCT00786864|164821247|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.001
82556132|NCT00786864|164821248|SUPERIORITY_OR_OTHER||||||p<|0||95.0|||||ANCOVA|||||||p<0.01
82556133|NCT00712179|164821249|SUPERIORITY_OR_OTHER|||||||0.981|||||||Mixed Models Analysis|||Null Hypothesis: Walking at different speeds with 15% body weight support will have no effect on EMG pattern.||||0.981
82556134|NCT00712179|164821249|SUPERIORITY_OR_OTHER|||||||0.84|||||||Mixed Models Analysis|||Null Hypothesis: Walking at self selected speed at 0%, 15% and 30% of body weight support will have no effect on EMG pattern||||0.84
82582098|NCT01190514|164875852|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|Ratio (%) of adjusted geometric means|95.1|||||TWO_SIDED|90.0|89.37|101.2|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fasted (test); DVS SR 50 mg fasted (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||101.20|89.37|
82556135|NCT00712179|164821249|SUPERIORITY_OR_OTHER|||||||0.16|||||||Mixed Models Analysis|||Null Hypothesis: Walking at different speeds with 30% body weight support will have no effect on EMG pattern.||||0.16
82556136|NCT00712179|164821249|SUPERIORITY_OR_OTHER|||||||0.073|||||||Mixed Models Analysis|||Null Hypothesis: Walking at fastest comfortable speeds with different amount of body weight supports will not affect the EMG pattern.||||0.073
82556137|NCT00712179|164821249|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|||Null Hypothesis: Modification of non-paretic leg loading and movement by the therapist will have no effect on EMG pattern of paretic leg.||||<0.001
82556138|NCT00712179|164821249|SUPERIORITY_OR_OTHER|||||||0.94|||||||Mixed Models Analysis|||Null Hypothesis: Modification of paretic leg loading and movement by the therapist will have significant effect on EMG pattern of non-paretic leg.||||0.94
82556139|NCT03614663|164821286|SUPERIORITY|||||||0.321|||||||MMRM - Mixed model for repeated measures|||||||0.321
82556140|NCT03614663|164821287|SUPERIORITY|||||||0.149|||||||MMRM - Mixed model for repeated measures|||||||0.149
82556141|NCT03614663|164821288|SUPERIORITY|||||||0.607|||||||MMRM - Mixed model for repeated measures|||||||0.607
82556142|NCT03614663|164821289|SUPERIORITY|||||||0.426|||||||ANOVA|||||||0.426
82556143|NCT03614663|164821290|SUPERIORITY|||||||0.02|||||||MMRM - Mixed model for repeated measures|||||||0.02
82556144|NCT03614663|164821291|SUPERIORITY|||||||0.091|||||||MMRM - Mixed model for repeated measures|||||||0.091
82556145|NCT03614663|164821292|SUPERIORITY|||||||0.135|||||||MMRM - Mixed model for repeated measures|||||||0.135
82556146|NCT03614663|164821293|SUPERIORITY|||||||0.056|||||||MMRM - Mixed model for repeated measures|||||||0.056
82556147|NCT01500200|164821294|SUPERIORITY|||||||0.014||||||Hypothesis tests were two-sided with an alpha of 0.5.|Mixed Models Analysis|ALKS 5461 was compared to PBO using stage-specific MMRM for change from Baseline. Model-derived estimates were combined using pre-specified weights.||Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified weights (0.6/0.4 for Stage 1/Stage 2). Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2.||||0.014
82556148|NCT01500200|164821294|SUPERIORITY|||||||0.699||||||Hypothesis tests were two-sided with an alpha of 0.05.|Mixed Models Analysis|ALKS 5461 was compared to PBO using stage-specific MMRM for change from Baseline. Model-derived estimates were combined using pre-specified weights.||Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified weights (0.6/0.4 for Stage 1/Stage 2). Within each stage ALKS 5461 8mg/8mg was compared to placebo (i.e., ALKS 5461 8mg/8mg S1 vs Placebo S1; and ALKS 5461 8mg/8mg S2 vs Placebo S2.||||0.699
82556149|NCT00857766|164821323|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.42||||0.065||95.0|-0.88|0.03|||ANCOVA||LS mean difference is calculated as FSC 250/50 minus Placebo and is adjusted for treatment, investigator, sex, smoking status, age, body mass index (BMI), waist circumference, treatment by sex interaction, age by BMI interaction, and baseline value.|||0.03|-0.88|0.065
82556150|NCT00857766|164821324|SUPERIORITY_OR_OTHER||Least squares analysis|-0.6|STANDARD_ERROR_OF_MEAN|0.86||0.469||95.0|-2.3|1.1|||ANCOVA|||||1.1|-2.3|0.469
82556151|NCT00857766|164821325|SUPERIORITY_OR_OTHER||Least squares analysis|127.0|STANDARD_ERROR_OF_MEAN|35.5|<|0.001||95.0|57.0|197.0|||ANCOVA|||||197|57|<0.001
82556152|NCT01961609|164821326|SUPERIORITY_OR_OTHER||Percentage|65.3|||<|0.0001|TWO_SIDED|99.375|52.4|76.7|||two-sided binomial exact test||A Bonferroni adjustment adjusting for 8 analyses have been applied.|||76.7|52.4|<0.0001
82556153|NCT01988402|164821343|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5
82556154|NCT00571649|164821373|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.771||||0.0211||95.0|0.618|0.962||Hochberg procedure: A 2-sided p-value of less than 0.05 would be considered significant, if the 1-sided p-value of the other primary efficacy outcome measure was less than 0.025, elsewise a p-value of less than 0.025 would be considered significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||A sample size of 2876 valid patients per group was estimated to obtain a joint power of at least 90% for both primary endpoints (91.4% for superiority) with 4% event rate at day 35 for comparator and 40% relative risk reduction.||0.962|0.618|0.0211
82556155|NCT00571649|164821374|NON_INFERIORITY_OR_EQUIVALENCE|Rivaroxaban would be considered at least as effective as the comparator if the upper limit of the CI (Confidence Interval) was less than 1.5|Risk Ratio (RR)|0.968||||0.0025||95.0|0.713|1.314||Hochberg procedure: A 1-sided p-value of less than 0.025 would be considered significant, if the 2-sided p-value of the other primary efficacy outcome measure was less than 0.05, elsewise a p-value of less than 0.0125 would be considered significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||A sample size of 2876 valid patients per group was estimated to obtain a joint power of at least 90% for both primary endpoints (98.6% power for non-inferiority) with 1.8% event rate at day 10 for comparator and 35% relative risk reduction.||1.314|0.713|0.0025
82556156|NCT00571649|164821375|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.931||||0.3758||95.0|0.795|1.091||Test hierarchy: A p-value of less than 0.05 would be considered significant, if the tests for the two primary efficacy outcome measures were significant.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||||1.091|0.795|0.3758
82582099|NCT01190514|164875852|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|Ratio (%) of adjusted geometric means|101.3|||||TWO_SIDED|90.0|94.66|108.4|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"DVS SR 25 mg\*2 fed (test); DVS SR 50 mg fed (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||108.40|94.66|
82582100|NCT01190514|164875852|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence of the two treatments was to be concluded if the 90% CIs for the ratio of adjusted geometric means for Cmax fell wholly within (80%, 125%).|ratio (%) of adjusted geometric means|115.54|||||TWO_SIDED|90.0|108.59|122.94|||Mixed Models Analysis||Adjusted mean difference and the 90% CI for the difference were exponentiated to provide an estimate of the ratio of adjusted geometric means (test/reference).|"Food effect DVS SR 50 mg fed (test) versus DVS SR 50 mg fasted (reference).~Natural log transformed Cmax: mixed models analysis with sequence, period, treatment (formulation by food status) as fixed effects and subject within sequence as a random effect."||122.94|108.59|
82485206|NCT02017171|164664219|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.5|2.9||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Hazard ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||2.9|0.5|
82485207|NCT02017171|164664220|SUPERIORITY||Ratio (Final Values)|1.4|||||TWO_SIDED|95.0|1.0|1.8||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||1.8|1.0|
82582101|NCT00896051|164875882|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.82|||||TWO_SIDED|90.0|0.55|1.22|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: minimum plasma concentration (Cmin)||1.22|0.55|
82485208|NCT02017171|164664221|SUPERIORITY||Ratio (Final Values)|1.3|||||TWO_SIDED|95.0|1.0|1.6||For secondary outcomes, 95% confidence intervals are reported, without P values.|||||Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|1.6|1.0|
82485209|NCT02017171|164664222|SUPERIORITY||Hazard Ratio (HR)|1.9|||||TWO_SIDED|95.0|0.8|4.5||For secondary outcomes, 95% confidence intervals are reported, without P values.|||Hazard Ratio = Allopurinol / Placebo. Confidence intervals are not adjusted for multiplicity and should not be used to infer treatment effects.|||4.5|0.8|
82485210|NCT02536833|164664227|SUPERIORITY||Mean Difference (Final Values)|-1.46||||0.575|TWO_SIDED|95.0|-6.57|3.65|||ANCOVA|||||3.65|-6.57|0.575
82485211|NCT02536833|164664227|SUPERIORITY||Mean Difference (Final Values)|-1.27||||0.643|TWO_SIDED|95.0|-6.63|4.09|||ANCOVA|||||4.09|-6.63|0.643
82485212|NCT02536833|164664227|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.901|TWO_SIDED|95.0|-5.07|5.75|||ANCOVA|||||5.75|-5.07|0.901
82556157|NCT00571649|164821376|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.991||||0.9473||95.0|0.753|1.304||"Test hierarchy: A p-value of less than 0.05 would be considered significant, if the tests for the 2 primary efficacy outcomes and for Composite endpoint of VTE (any DVT, non fatal PE) and all-cause mortality up to Day 35 + 6 days were significant."|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||||1.304|0.753|0.9473
82556158|NCT00571649|164821385|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.455|||<|0.0001|TWO_SIDED|95.0|1.854|3.251||2-sided p-value. No adjustment for multiple testing.|Cochran-Mantel-Haenszel|Weighted relative risks were calculated using asymptotic methods, with weights based upon sample sizes per strata (geographic region).||There was no sample size estimation as this was not planed as confirmatory analysis||3.251|1.854|<0.0001
82485213|NCT02536833|164664228|SUPERIORITY||Mean Difference (Final Values)|-2.99||||0.271|TWO_SIDED|95.0|-8.31|2.33|||ANCOVA|||||2.33|-8.31|0.271
82582102|NCT00896051|164875882|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Ratio|0.96|||||TWO_SIDED|90.0|0.8|1.16|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: maximum plasma concentration (Cmax)||1.16|0.80|
82485214|NCT02536833|164664228|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.898|TWO_SIDED|95.0|-6.06|5.32|||ANCOVA|||||5.32|-6.06|0.898
82485215|NCT02536833|164664228|SUPERIORITY||Mean Difference (Final Values)|0.72||||0.795|TWO_SIDED|95.0|-4.74|6.18|||ANCOVA|||||6.18|-4.74|0.795
82485216|NCT02536833|164664229|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.283|TWO_SIDED|95.0|-7.74|2.26|||ANCOVA|||||2.26|-7.74|0.283
82485217|NCT02536833|164664229|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.588|TWO_SIDED|95.0|-6.82|3.86|||ANCOVA|||||3.86|-6.82|0.588
82485218|NCT02536833|164664229|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.853|TWO_SIDED|95.0|-5.76|4.76|||ANCOVA|||||4.76|-5.76|0.853
82485219|NCT02536833|164664230|SUPERIORITY||Mean Difference (Final Values)|-2.89||||0.292|TWO_SIDED|95.0|-8.26|2.49|||ANCOVA|||||2.49|-8.26|0.292
82485220|NCT02536833|164664230|SUPERIORITY||Mean Difference (Final Values)|0.25||||0.931|TWO_SIDED|95.0|-5.34|5.83|||ANCOVA|||||5.83|-5.34|0.931
82485221|NCT02536833|164664230|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.878|TWO_SIDED|95.0|-4.92|5.76|||ANCOVA|||||5.76|-4.92|0.878
82485222|NCT02536833|164664231|SUPERIORITY||Mean Difference (Final Values)|1.16||||0.648|TWO_SIDED|95.0|-3.83|6.16|||ANCOVA|||||6.16|-3.83|0.648
82485223|NCT02536833|164664231|SUPERIORITY||Mean Difference (Final Values)|-3.14||||0.209|TWO_SIDED|95.0|-8.02|1.75|||ANCOVA|||||1.75|-8.02|0.209
82485224|NCT02536833|164664231|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.915|TWO_SIDED|95.0|-4.78|5.33|||ANCOVA|||||5.33|-4.78|0.915
82485225|NCT02536833|164664232|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.969|TWO_SIDED|95.0|-5.16|5.36|||ANCOVA|||||5.36|-5.16|0.969
82485226|NCT02536833|164664232|SUPERIORITY||Mean Difference (Final Values)|-3.64||||0.174|TWO_SIDED|95.0|-8.89|1.61|||ANCOVA|||||1.61|-8.89|0.174
82485227|NCT02536833|164664232|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.908|TWO_SIDED|95.0|-4.97|5.59|||ANCOVA|||||5.59|-4.97|0.908
82485228|NCT02536833|164664233|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.334|TWO_SIDED|95.0|-0.1|0.29|||ANCOVA|||||0.29|-0.10|0.334
82485229|NCT02536833|164664233|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.124|TWO_SIDED|95.0|-0.04|0.3|||ANCOVA|||||0.30|-0.04|0.124
82485230|NCT02536833|164664233|SUPERIORITY||Mean Difference (Final Values)|0.19||||0.032|TWO_SIDED|95.0|0.02|0.36|||ANCOVA|||||0.36|0.02|0.032
82485231|NCT02536833|164664234|SUPERIORITY||Mean Difference (Final Values)|-2.38||||0.405|TWO_SIDED|95.0|-8.0|3.24|||ANCOVA|||||3.24|-8.00|0.405
82485232|NCT02536833|164664234|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.552|TWO_SIDED|95.0|-4.37|8.16|||ANCOVA|||||8.16|-4.37|0.552
82485233|NCT02536833|164664234|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.763|TWO_SIDED|95.0|-4.91|6.68|||ANCOVA|||||6.68|-4.91|0.763
82485234|NCT02536833|164664235|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.173|TWO_SIDED|95.0|-9.5|1.71|||ANCOVA|||||1.71|-9.50|0.173
82485235|NCT02536833|164664235|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.724|TWO_SIDED|95.0|-5.12|7.36|||ANCOVA|||||7.36|-5.12|0.724
82485236|NCT02536833|164664235|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.914|TWO_SIDED|95.0|-6.17|5.53|||ANCOVA|||||5.53|-6.17|0.914
82485237|NCT02536833|164664236|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.529|TWO_SIDED|95.0|-0.12|0.24|||ANCOVA|||||0.24|-0.12|0.529
82485238|NCT02536833|164664236|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.259|TWO_SIDED|95.0|-0.08|0.28|||ANCOVA|||||0.28|-0.08|0.259
82485239|NCT02536833|164664236|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.807|TWO_SIDED|95.0|-0.21|0.16|||ANCOVA|||||0.16|-0.21|0.807
82485240|NCT02536833|164664237|SUPERIORITY||Mean Difference (Final Values)|-8.73||||0.049|TWO_SIDED|95.0|-17.44|-0.03|||ANCOVA|||||-0.03|-17.44|0.049
82485241|NCT02536833|164664237|SUPERIORITY||Mean Difference (Final Values)|-6.03||||0.211|TWO_SIDED|95.0|-15.49|3.43|||ANCOVA|||||3.43|-15.49|0.211
82485242|NCT02536833|164664237|SUPERIORITY||Mean Difference (Final Values)|-5.23||||0.254|TWO_SIDED|95.0|-14.24|3.78|||ANCOVA|||||3.78|-14.24|0.254
82485243|NCT02536833|164664238|SUPERIORITY||Mean Difference (Final Values)|-10.26||||0.036|TWO_SIDED|95.0|-19.82|-0.69|||ANCOVA|||||-0.69|-19.82|0.036
82485244|NCT02536833|164664238|SUPERIORITY||Mean Difference (Final Values)|-7.07||||0.17|TWO_SIDED|95.0|-17.18|3.05|||ANCOVA|||||3.05|-17.18|0.170
82485245|NCT02536833|164664238|SUPERIORITY||Mean Difference (Final Values)|-6.29||||0.171|TWO_SIDED|95.0|-15.33|2.74|||ANCOVA|||||2.74|-15.33|0.171
82485246|NCT02536833|164664239|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.021|TWO_SIDED|95.0|0.06|0.72|||ANCOVA|||||0.72|0.06|0.021
82485247|NCT02536833|164664239|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.131|TWO_SIDED|95.0|-0.07|0.55|||ANCOVA|||||0.55|-0.07|0.131
82485248|NCT02536833|164664239|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.789|TWO_SIDED|95.0|-0.35|0.26|||ANCOVA|||||0.26|-0.35|0.789
82485249|NCT02220998|164664255|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 120 per treatment group provided 90% power to establish non-inferiority in the SVR12 rates between the SOF/VEL group and the SOF+RBV group. It was based on the assumptions that the non-inferiority margin is 10%, both groups have a SVR12 rate of 94%, and the significance level is 0.025 one-sided.|Difference in proportions|5.2|||||TWO_SIDED|95.0|0.2|10.3|||||Difference in proportions between treatment groups and associated 95% confidence intervals (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|||10.3|0.2|
82485250|NCT02220998|164664255|SUPERIORITY_OR_OTHER|||||||0.018||||||P-value was stratified by cirrhosis status and prior treatment experience.|Cochran-Mantel-Haenszel|||The superiority of SOF/VEL for 12 weeks over SOF+RBV for 12 weeks was to be tested if the efficacy of SOF/VEL for 12 weeks was demonstrated to be statistically noninferior to SOF+RBV for 12 weeks (ie, if the lower bound of the 95% CI for the strata-adjusted difference in the proportions between groups was greater than the prespecified noninferiority margin of -10%).||||0.018
82582103|NCT00896051|164875883|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.96|||||TWO_SIDED|90.0|0.76|1.22|||Linear mixed effects model|linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: area under the plasma concentration-time curve from time of intake to 24 hours after dosing (AUC24hr)||1.22|0.76|
82485251|NCT00708071|164664316|SUPERIORITY_OR_OTHER||Difference in Proportions|0.25||||0.143||95.0|-0.04|0.49|||McNemar||Difference in Proportions = SoC - FS VH S/D 4|||0.49|-0.04|0.143
82485252|NCT00708071|164664317|SUPERIORITY_OR_OTHER||Difference in proportions|0.31|||||TWO_SIDED|90.0|0.12|0.48|||||Difference in proportions = SoC - FS VH S/D 4|||0.48|0.12|
82485253|NCT00708071|164664318|SUPERIORITY_OR_OTHER||Difference in proportions|0.111|||||TWO_SIDED|90.0|-0.11|0.32|||||Difference in proportions = SoC - FS VH S/D 4|||0.32|-0.11|
82556159|NCT00571649|164821386|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.272|||<|0.0001|TWO_SIDED|95.0|1.628|3.171||2-sided p-value. No adjustment for multiple testing.|Cochran-Mantel-Haenszel|||There was no sample size estimation as this was not planed as confirmatory analysis||3.171|1.628|<0.0001
82556160|NCT00811941|164821392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|STANDARD_ERROR_OF_MEAN|0.62||0.16|TWO_SIDED|95.0|-2.1|0.35|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 110 participants in the placebo group and 320 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. Null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||0.35|-2.10|0.160
82556161|NCT00811941|164821393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|STANDARD_ERROR_OF_MEAN|2.9||0.232|TWO_SIDED|95.0|-9.17|2.23|||Adjusted change from Baseline to Month 6||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 110 participants in the placebo group and 320 participants in the nalmefene group.|"The primary hypothesis concerned the treatment effect at Month 6. The null hypothesis of no difference in treatment effect was tested against the alternative hypothesis that there was a difference in treatment effect.~MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used."||2.23|-9.17|0.232
82556162|NCT00811941|164821394|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.689|TWO_SIDED|95.0|0.59|1.41|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.41|0.59|0.689
82485254|NCT00708071|164664319|SUPERIORITY_OR_OTHER||Difference in proportions|-0.032|||||TWO_SIDED|90.0|-0.24|0.18|||||Difference in proportions = SoC - FS VH S/D 4|||0.18|-0.24|
82556163|NCT00811941|164821395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.09||0.046|TWO_SIDED|95.0|-0.37|0.0|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 104 participants in the placebo group and 306 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||-0.00|-0.37|0.046
82582104|NCT00896051|164875884|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.91|||||TWO_SIDED|90.0|0.63|1.33|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: Minimum plasma concentration (Cmin)||1.33|0.63|
82485255|NCT00708071|164664320|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|90.0|-0.21|0.21|||||Difference in proportions = SoC - FS VH S/D 4|||0.21|-0.21|
82485256|NCT00708071|164664321|SUPERIORITY_OR_OTHER||Difference in proportions|0.038|||||TWO_SIDED|90.0|-0.17|0.24|||||Difference in proportions = SoC - FS VH S/D 4|||0.24|-0.17|
82485257|NCT00708071|164664322|SUPERIORITY_OR_OTHER|||||||0.645|||||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.645
82485258|NCT00708071|164664323|SUPERIORITY_OR_OTHER|||||||0.103||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.103
82485259|NCT00708071|164664324|SUPERIORITY_OR_OTHER|||||||0.833||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.833
82485260|NCT00708071|164664325|SUPERIORITY_OR_OTHER|||||||0.501||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.501
82485261|NCT00708071|164664326|SUPERIORITY_OR_OTHER|||||||0.247||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.247
82485262|NCT00708071|164664327|SUPERIORITY_OR_OTHER|||||||0.715||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.715
82485263|NCT00708071|164664329|SUPERIORITY_OR_OTHER|||||||0.754||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.754
82582105|NCT00896051|164875884|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|1.05|||||TWO_SIDED|90.0|0.86|1.27|||Linear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: maximum plasma concentration (Cmax)||1.27|0.86|
82582106|NCT00896051|164875885|SUPERIORITY_OR_OTHER||Least Squares (LS) Means Ratio|0.99|||||TWO_SIDED|90.0|0.81|1.21|||Llinear mixed effects model|A linear mixed effects model was used controlling for treatment as fixed effect, and participant as a random effect.||Parameter: area under the plasma concentration-time curve from time of intake to 24 hours after dosing (AUC24hr)||1.21|0.81|
82485264|NCT00708071|164664330|SUPERIORITY_OR_OTHER|||||||0.388||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.388
82485265|NCT00708071|164664331|SUPERIORITY_OR_OTHER|||||||0.234||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.234
82485266|NCT00708071|164664332|SUPERIORITY_OR_OTHER|||||||0.688||90.0||||Two-sided Wilcoxon paired sample tests|Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.688
82485267|NCT00708071|164664333|SUPERIORITY_OR_OTHER|||||||0.625||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.625
82485268|NCT00708071|164664334|SUPERIORITY_OR_OTHER|||||||0.688||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.688
82485269|NCT00708071|164664335|SUPERIORITY_OR_OTHER|||||||1||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||1.000
82485270|NCT00708071|164664336|SUPERIORITY_OR_OTHER|||||||0.521||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.521
82485271|NCT00708071|164664337|SUPERIORITY_OR_OTHER|||||||0.324||90.0||||alpha = 10%|Two-sided Wilcoxon paired sample tests|||||||0.324
82485272|NCT00708071|164664338|SUPERIORITY_OR_OTHER|||||||0.661||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.661
82485273|NCT00708071|164664339|SUPERIORITY_OR_OTHER|||||||1||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||1.000
82485274|NCT00708071|164664340|SUPERIORITY_OR_OTHER|||||||0.699||90.0|||||Two-sided Wilcoxon paired sample tests|alpha = 10%||||||0.699
82582107|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|100.5|||||TWO_SIDED|90.0|93.14|108.44|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% confidence interval (CI).||108.44|93.14|
82485275|NCT00708071|164664343|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||two-sided paired t-test|alpha = 5%||||||0.0010
82485276|NCT00708071|164664345|SUPERIORITY_OR_OTHER||Difference in proportions|0.182||||0.014|TWO_SIDED|95.0|0.04|0.34|||McNemar's test of paired proportions|Alpha = 5%|Difference in Proportions = (Number of SoC Participants with Hematoma/Seroma) - (Number of FS VH S/D 4 Participants with Hematoma/Seroma)|||0.34|0.04|0.014
82485277|NCT02140775|164664351|SUPERIORITY|||||||0.602|||||||Chi-squared|degrees of freedom = 1||A Chi-Square test was conducted between the treatment groups and the dichotomous outcome of successful achievement of employment goal.||||.602
82485278|NCT02140775|164664352|SUPERIORITY||Mean Difference (Final Values)|-3.74|STANDARD_ERROR_OF_MEAN|2.0||0.066|TWO_SIDED|95.0|-7.75|0.26|||t-test, 2 sided|||||0.26|-7.75|.066
82485279|NCT02140775|164664353|SUPERIORITY||Mean Difference (Final Values)|-3.25|STANDARD_ERROR_OF_MEAN|7.68||0.674|TWO_SIDED|95.0|-18.59|12.09|||t-test, 2 sided|||||12.09|-18.59|.674
82485280|NCT00586196|164664354|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.3|||GEE|||||2.3|0.4|
82485281|NCT00586196|164664355|SUPERIORITY_OR_OTHER||Effect Size|-0.2|||||TWO_SIDED|95.0|-1.5|1.2|||GEE|||||1.2|-1.5|
82485282|NCT04616027|164664393|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|99.67|||||TWO_SIDED|90.0|70.15|141.6||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||141.60|70.15|
82485283|NCT04616027|164664393|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.34|||||TWO_SIDED|90.0|70.51|145.63||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||145.63|70.51|
82485284|NCT04616027|164664393|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|146.56|||||TWO_SIDED|90.0|103.16|208.22||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||208.22|103.16|
82485285|NCT04616027|164664393|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.31|||||TWO_SIDED|90.0|71.31|143.92||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||143.92|71.31|
82485286|NCT04616027|164664394|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|111.71|||||TWO_SIDED|90.0|79.52|156.93||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||156.93|79.52|
82485287|NCT04616027|164664394|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|120.31|||||TWO_SIDED|90.0|83.49|173.38||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||173.38|83.49|
82582108|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|97.82|||||TWO_SIDED|90.0|90.71|105.48|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||105.48|90.71|
82485288|NCT04616027|164664394|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|134.18|||||TWO_SIDED|90.0|94.46|190.62||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||190.62|94.46|
82485289|NCT04616027|164664394|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|100.99|||||TWO_SIDED|90.0|71.89|141.87||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||141.87|71.89|
82485290|NCT04616027|164664395|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|111.02|||||TWO_SIDED|90.0|79.6|154.86||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||154.86|79.60|
82485291|NCT04616027|164664395|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|116.7|||||TWO_SIDED|90.0|82.76|164.56||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||164.56|82.76|
82485292|NCT04616027|164664395|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|134.68|||||TWO_SIDED|90.0|96.56|187.85||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||187.85|96.56|
82485293|NCT04616027|164664395|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.31|||||TWO_SIDED|90.0|72.63|141.3||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||141.30|72.63|
82485294|NCT04616027|164664396|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|101.52|||||TWO_SIDED|90.0|88.89|115.94||||||"T2DM Normal Renal Function was test, Healthy and Normal Renal Function was reference."||115.94|88.89|
82485295|NCT04616027|164664396|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|110.17|||||TWO_SIDED|90.0|96.05|126.37||||||"T2DM Mild Renal Impairment was test, T2DM Normal Renal Function was reference."||126.37|96.05|
82485296|NCT04616027|164664396|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|120.63|||||TWO_SIDED|90.0|105.63|137.77||||||"T2DM Moderate Renal Impairment was test, T2DM Normal Renal Function was reference."||137.77|105.63|
82485297|NCT04616027|164664396|OTHER|ANOVA|Ratio (Test/Reference) of Adjusted Means|127.06|||||TWO_SIDED|90.0|111.26|145.12||||||"T2DM Severe Renal Impairment was test, T2DM Normal Renal Function was reference."||145.12|111.26|
82485298|NCT03737851|164664439|OTHER|a statistical test was not performed|Odds Ratio (OR)|1.202|||||TWO_SIDED|95.0|0.559|2.584||||||Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||2.584|0.559|
82485299|NCT03737851|164664439|OTHER|a statistical test was not performed|Odds Ratio (OR)|0.615|||||TWO_SIDED|95.0|0.266|1.421||||||Logistic regression model for EDSS+ includes baseline values for EDSS, Timed 25-Foot Walk, 9-Hole Peg Test-dominant, 9-Hole Peg Test-nondominant, and treatment as a main effect. Subjects with missing values were imputed as non-responders.||1.421|0.266|
82485300|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485301|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82556164|NCT00811941|164821396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.217|TWO_SIDED|95.0|-0.36|0.08|||Adjusted change from Baseline to Week 24||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 104 participants in the placebo group and 306 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment by- time interactions were also included in the model. An unstructured covariance matrix was used.||0.08|-0.36|0.217
82556165|NCT00811941|164821397|SUPERIORITY_OR_OTHER||Ratio to placebo|0.93||||0.273|TWO_SIDED|95.0|0.83|1.05|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 108 participants in the placebo group and 319 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||1.05|0.83|0.273
82556166|NCT00811941|164821398|SUPERIORITY_OR_OTHER||Ratio to placebo|0.99||||0.916|TWO_SIDED|95.0|0.9|1.1|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 108 participants in the placebo group and 318 participants in the nalmefene group.|Log-transformed ALAT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time and treatment-by-time interactions were included in the model. An unstructured covariance matrix was used.||1.10|0.90|0.916
82556167|NCT00811941|164821399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57|STANDARD_ERROR_OF_MEAN|0.65||0.017|TWO_SIDED|95.0|-2.85|-0.29|||Adjusted change from Baseline - Month 13||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.29|-2.85|0.017
82582109|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|86.66|||||TWO_SIDED|90.0|80.32|93.5|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||93.5|80.32|
82582110|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.62|||||TWO_SIDED|90.0|85.15|92.24|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||92.24|85.15|
82582111|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|80.17|||||TWO_SIDED|90.0|77.08|83.39|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||83.39|77.08|
82485302|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82556168|NCT00811941|164821400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47|STANDARD_ERROR_OF_MEAN|3.07||0.036|TWO_SIDED|95.0|-12.53|-0.42|||Adjusted change from Baseline - Month 13||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate; site, sex, time in months (Month 1-13); and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model. An unstructured covariance matrix was used.||-0.42|-12.53|0.036
82556169|NCT00811941|164821401|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01||||0.976|TWO_SIDED|95.0|0.67|1.52|||Adjusted Odds Ratio (OR) response|||The analysis of RSDRL used a logistic regression (LREG) model, with country, sex, Baseline DRL, and treatment as fixed effects, and missing values were imputed using individual-patient predicted values of TAC derived from the MMRM model.||1.52|0.67|0.976
82485303|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485304|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485305|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485306|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485307|NCT00245219|164664453|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485308|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485309|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485310|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485311|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485312|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485313|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and breast cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485314|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82586140|NCT05437510|164884197|SUPERIORITY||Efficacy|77.71||||0.0014|TWO_SIDED|95.0|39.249|93.432|||Exact method using binomial distribution|||The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization.||93.432|39.249|0.0014
82485315|NCT00245219|164664454|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Linear|||The interaction between the peer support condition and breast cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485316|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485317|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the education condition and the control condition at Time 2. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485318|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485319|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the education condition and the control condition at Time 3. The full regression model included 2 dummy coded variables, 1 contrasting the education and control condition, and 1 contrasting the peer support and control condition. The baseline measure of the outcome variable was included, in order to examine changes in the outcomes over time. This model tested the main effects of the conditions among patients with early stage cancer, late stage patients were excluded.||||>0.05
82485320|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and control condition at Time 2, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485321|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The interaction between the peer support condition and breast cancer stage at Time 2. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485322|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The comparison between the peer support condition and control condition at Time 3, among both late and early stage patients. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485323|NCT00245219|164664455|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Regression, Logistic|||The interaction between the peer support condition and breast cancer stage at Time 3. The full regression model consisted of 3 steps: The 1st step contained the baseline measure of the dependent variable. The 2nd step contained two dummy coded variables contrasting each condition with control. The 3rd step contained the interaction between the peer support condition and cancer stage. Patients in the education condition were excluded from this analysis.||||>0.05
82485324|NCT04233034|164664458|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.89|TWO_SIDED|95.0|-0.11|0.1|||Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.10|-0.11|0.89
82556170|NCT00811941|164821402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.11||0.056|TWO_SIDED|95.0|-0.44|0.01|||Adjusted change from Baseline to Week 52||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 95 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline score-by-time and treatment-by-time interactions were also included in the model; an unstructured covariance matrix was used.||0.01|-0.44|0.056
82582112|NCT02074553|164875904|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|79.95|||||TWO_SIDED|90.0|76.84|83.19|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||83.19|76.84|
82485325|NCT04233034|164664458|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.04|TWO_SIDED|95.0|0.01|0.27|||Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.27|0.01|0.04
82485326|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.8|TWO_SIDED|95.0|-0.1|0.08||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 13 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.08|-0.10|0.80
82485327|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.8|TWO_SIDED|95.0|-0.08|0.13||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 26 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.13|-0.08|0.80
82485328|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.8|TWO_SIDED|95.0|-0.13|0.09||P-value was adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and drug group as fixed effects and clinical site as a random effect.|Mean difference (HCL - Non-HCL) at 39 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.09|-0.13|0.80
82485329|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.69|TWO_SIDED|95.0|-0.09|0.13||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 13 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.13|-0.09|0.69
82485330|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.08|TWO_SIDED|95.0|-0.02|0.25||P-value was adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 26 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.25|-0.02|0.08
82485331|NCT04233034|164664459|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.08|TWO_SIDED|95.0|-0.01|0.28||P-value adjusted for multiplicity using the Benjamini-Hochberg procedure.|Mixed Models Analysis|The model included age, days from T1D diagnosis to randomization, and Intensive group as fixed effects and clinical site as a random effect.|Mean difference (Verapamil - Placebo) at 39 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.28|-0.01|0.08
82485332|NCT04233034|164664462|SUPERIORITY||Mean Difference (Final Values)|-25.0|||<|0.001|TWO_SIDED|95.0|-37.0|-14.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-14|-37|<0.001
82485333|NCT04233034|164664462|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.74|TWO_SIDED|95.0|-25.0|16.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||16|-25|0.74
82556171|NCT00811941|164821403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.029||95.0|-0.5|-0.03|||Adjusted change from Baseline to Week 52||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 95 participants in the placebo group and 258 participants in the nalmefene group.|MMRM model with the Baseline CGI-S score as a covariate, and site, sex, time in weeks, and treatment as fixed effects. The Baseline CGI-S score-by-time and treatment by- time interactions were also included in the model. An unstructured covariance matrix was used.||-0.03|-0.50|0.029
82556172|NCT00811941|164821404|SUPERIORITY_OR_OTHER||Ratio to placebo|0.78||||0.001|TWO_SIDED|95.0|0.67|0.9|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 98 participants in the placebo group and 259 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.90|0.67|0.001
82556173|NCT00811941|164821405|SUPERIORITY_OR_OTHER||Ratio to placebo|0.88||||0.037|TWO_SIDED|95.0|0.79|0.99|||Adjusted values||The Number of Participants Analyzed is participants with efficacy measurement available at this endpoint, that is, 97 participants in the placebo group and 259 participants in the nalmefene group.|Log-transformed GGT values were analysed using an MMRM model with the logtransformed Baseline value as a covariate, and site, sex, time in weeks, and treatment as fixed effects. Log-transformed Baseline value-by-time interaction and treatment-by-time interaction were included in the model. An unstructured covariance matrix was used.||0.99|0.79|0.037
82556174|NCT03885232|164821406|SUPERIORITY|We applied a mixed zero-inflated beta regression model that included a fixed binary factor for treatment arm, a random effect for clinic to account for correlation within clinics, and unbalanced parent demographics across study arms.|Incidence Rate Ratio (IRR)|1.04||||0.9|TWO_SIDED|95.0|0.68|1.6|||Generalized linear mixed effects regress|Generalized linear mixed effects regression models||||1.60|0.68|0.9
82556175|NCT03885232|164821407|SUPERIORITY||Other|1.0|||<|0.05|TWO_SIDED||||||Chi-squared|||Calculated individual survey means for vaccine hesitant parents who participated in the survey. Survey consisted of 15 questions with a 7-point Likert scale. We then created a dichotomous variable where 1 = mean \> or equal to 6; 0 = mean \< 6.||||<0.05
82556176|NCT03885232|164821408|SUPERIORITY||Odds Ratio (OR)|1.92|||<|0.05|TWO_SIDED|95.0|0.66|5.64|||Generalized linear mixed effects regress|Adjusted for: study arm, study period (pre vs. post), years in practice, provider type, interaction between study arm and study period||"1. Ho: No difference in the proportion of clinicians using presumptive and Motivational Interviewing techniques between intervention and control.~2. Ho: No difference in the proportion of clinicians time spent talking to vaccine hesitant parents between intervention and control."||5.64|0.66|<0.05
82485334|NCT04233034|164664463|SUPERIORITY||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|10.0|22.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||22|10|<0.001
82485335|NCT04233034|164664463|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.74|TWO_SIDED|95.0|-9.0|13.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||13|-9|0.74
82485336|NCT04233034|164664464|SUPERIORITY||Mean Difference (Final Values)|16.0|||<|0.001|TWO_SIDED|95.0|10.0|22.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||22|10|<0.001
82485337|NCT04233034|164664464|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.95|TWO_SIDED|95.0|-8.0|14.0|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||14|-8|0.95
82556177|NCT02397096|164821409|NON_INFERIORITY|Doravirine/Lamivudine/Tenofovir Disoproxil Fumarate (DOR/3TC/TDF) once daily (QD) ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -8 percentage points.|Treatment Difference|-3.784|||||TWO_SIDED|95.0|-7.877|0.31|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.||Superiority of an immediate switch to DOR/3TC/TDF over continuation of the baseline regimen was defined by a lower bound of the two-sided 95% CI for the difference in response rates being greater than zero (contingent upon satisfying the multiplicity criteria).|0.310|-7.877|
82556178|NCT02397096|164821410|OTHER||Treatment Difference|-14.65|||<|0.0001|TWO_SIDED|95.0|-18.92|-10.38|||ANCOVA||95% CIs and 2-sided p-values were calculated from an ANCOVA model with terms for baseline lipid level, use of lipid-lowering therapy at Study Day 1 and treatment.|||-10.38|-18.92|<0.0001
82556179|NCT02397096|164821411|OTHER||Treatment Difference|-23.03|||<|0.0001|TWO_SIDED|95.0|-28.0|-18.05|||ANCOVA||95% CIs and 2-sided p-values were calculated from an ANCOVA model with terms for baseline lipid level, use of lipid-lowering therapy at Study Day 1 and treatment.|||-18.05|-28.00|<0.0001
82582113|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|99.12|||||TWO_SIDED|90.0|91.83|106.99|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||106.99|91.83|
82582114|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|93.79|||||TWO_SIDED|90.0|86.94|101.17|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||101.17|86.94|
82582115|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|80.32|||||TWO_SIDED|90.0|74.41|86.7|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||86.7|74.41|
82582116|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|87.42|||||TWO_SIDED|90.0|83.92|91.07|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.07|83.92|
82582117|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.87|||||TWO_SIDED|90.0|75.76|82.11|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||82.11|75.76|
82485338|NCT04233034|164664465|SUPERIORITY||Risk Difference (RD)|0.38|||<|0.001|TWO_SIDED|95.0|0.21|0.53|||Regression, Logistic|||||0.53|0.21|<0.001
82485339|NCT04233034|164664465|SUPERIORITY||Risk Difference (RD)|0.03||||0.79|TWO_SIDED|95.0|-0.26|0.32|||Regression, Logistic|||||0.32|-0.26|0.79
82485340|NCT04233034|164664467|SUPERIORITY||Mean Difference (Final Values)|-16.0|||<|0.001|TWO_SIDED|95.0|-22.0|-9.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-9|-22|<0.001
82485341|NCT04233034|164664467|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.74|TWO_SIDED|95.0|-13.0|9.0|||Mixed Models Analysis||Mean difference at 52 weeks (verapamil - placebo) adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||9|-13|0.74
82485342|NCT04233034|164664468|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.003|TWO_SIDED|95.0|-7.0|-1.0|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-1|-7|0.003
82485343|NCT04233034|164664468|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.74|TWO_SIDED|95.0|-6.0|4.0|||Mixed Models Analysis||Mean difference (verapamil - placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||4|-6|0.74
82485344|NCT04233034|164664469|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.23|TWO_SIDED|95.0|-0.04|0.17|||Regression, Linear||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.17|-0.04|0.23
82485345|NCT04233034|164664469|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.79|TWO_SIDED|95.0|-1.0|0.6|||Regression, Linear||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.6|-1.0|0.79
82485346|NCT04233034|164664470|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.39|TWO_SIDED|95.0|-0.3|0.7|||Regression, Linear||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.7|-0.3|0.39
82485347|NCT04233034|164664470|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.74|TWO_SIDED|95.0|-1.0|0.6|||Regression, Linear||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.6|-1.0|0.74
82485348|NCT04233034|164664472|SUPERIORITY||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.1|-0.3|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||-0.3|-1.1|<0.001
82485349|NCT04233034|164664472|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.65|TWO_SIDED|95.0|-1.0|0.4|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.4|-1.0|0.65
82485350|NCT04233034|164664475|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.07|TWO_SIDED|95.0|-0.01|0.2|||Mixed Models Analysis||Mean difference (HCL - Non-HCL) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT drug group, and clinical site.|||0.20|-0.01|0.07
82485351|NCT04233034|164664475|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.52|TWO_SIDED|95.0|-0.3|0.05|||Mixed Models Analysis||Mean difference (Verapamil - Placebo) at 52 weeks adjusted for age, days from T1D diagnosis to randomization, RCT intensive/standard care group, and clinical site.|||0.05|-0.30|0.52
82485352|NCT01865084|164664501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.307||||||The p-value is based on the treatment difference LS Mean changes from baseline between tadalafil and placebo.|Mixed Models Analysis|||||||0.307
82485353|NCT01865084|164664501|SUPERIORITY_OR_OTHER_LEGACY|||||||0.538||||||The p-value is based on the treatment difference LS Mean changes from baseline between tadalafil and placebo.|Mixed Models Analysis|||||||0.538
82485354|NCT02247531|164664512|SUPERIORITY||Difference in Adjusted Means|0.157||||0.0479|TWO_SIDED|95.0|0.001|0.313|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.313|0.001|0.0479
82485355|NCT02247531|164664512|SUPERIORITY||Difference in Adjusted Means|0.087||||0.2739|TWO_SIDED|95.0|-0.069|0.243|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.243|-0.069|0.2739
82485356|NCT02247531|164664513|SUPERIORITY||Difference in Adjusted Means|-0.4||||0.84|TWO_SIDED|95.0|-4.8|3.9|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||3.9|-4.8|0.8400
82582118|NCT02074553|164875905|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.66|||||TWO_SIDED|90.0|75.53|81.92|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||81.92|75.53|
82582119|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.34|||||TWO_SIDED|90.0|82.33|99.12|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||99.12|82.33|
82485357|NCT02247531|164664513|SUPERIORITY||Difference in Adjusted Means|1.3||||0.5587|TWO_SIDED|95.0|-3.1|5.7|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||5.7|-3.1|0.5587
82485358|NCT02247531|164664514|SUPERIORITY||Difference in Adjusted Means|0.1||||0.8358|TWO_SIDED|95.0|-0.88|1.09|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||1.09|-0.88|0.8358
82485359|NCT02247531|164664514|SUPERIORITY||Difference in Adjusted Means|-0.26||||0.6117|TWO_SIDED|95.0|-1.25|0.74|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.74|-1.25|0.6117
82485360|NCT02247531|164664515|SUPERIORITY||Difference in Adjusted Means|0.7||||0.4651|TWO_SIDED|95.0|-1.2|2.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.5|-1.2|0.4651
82485361|NCT02247531|164664515|SUPERIORITY||Difference in Adjusted Means|0.3||||0.7885|TWO_SIDED|95.0|-1.6|2.1|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.1|-1.6|0.7885
82485362|NCT02247531|164664516|SUPERIORITY||Odds Ratio (OR)|1.1||||0.6892|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||||1.8|0.7|0.6892
82485363|NCT02247531|164664516|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9104|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.9104
82485364|NCT02247531|164664517|SUPERIORITY||Difference in Adjusted Means|-0.1||||0.8931|TWO_SIDED|95.0|-1.8|1.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.5|-1.8|0.8931
82485365|NCT02247531|164664517|SUPERIORITY||Difference in Adjusted Means|-1.1||||0.1754|TWO_SIDED|95.0|-2.8|0.5|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||0.5|-2.8|0.1754
82485366|NCT02247531|164664518|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3707|TWO_SIDED|95.0|0.7|2.2|||Regression, Logistic|||||2.2|0.7|0.3707
82485367|NCT02247531|164664518|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8382|TWO_SIDED|95.0|0.6|1.6|||Regression, Logistic|||||1.6|0.6|0.8382
82485368|NCT02247531|164664519|SUPERIORITY||Difference in Adjusted Means|1.35||||0.6841|TWO_SIDED|95.0|-5.16|7.85|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||7.85|-5.16|0.6841
82485369|NCT02247531|164664519|SUPERIORITY||Difference in Adjusted Means|1.07||||0.7443|TWO_SIDED|95.0|-5.37|7.52|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||7.52|-5.37|0.7443
82485370|NCT02247531|164664520|SUPERIORITY||Difference in Adjusted Means|0.12||||0.9713|TWO_SIDED|95.0|-6.28|6.52|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, biomarker status, modified baseline BCVA, and sex.||6.52|-6.28|0.9713
82485371|NCT02247531|164664520|SUPERIORITY||Difference in Adjusted Means|-1.72||||0.5945|TWO_SIDED|95.0|-8.08|4.63|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, biomarker status, modified baseline BCVA, and sex.||4.63|-8.08|0.5945
82485372|NCT02247531|164664521|SUPERIORITY||Difference in Adjusted Means|1.22||||0.2438|TWO_SIDED|95.0|-0.83|3.27|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.27|-0.83|0.2438
82485373|NCT02247531|164664521|SUPERIORITY||Difference in Adjusted Means|1.03||||0.3202|TWO_SIDED|95.0|-1.01|3.07|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.07|-1.01|0.3202
82485374|NCT02247531|164664522|SUPERIORITY||Difference in Adjusted Means|2.64||||0.0388|TWO_SIDED|95.0|0.14|5.14|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||5.14|0.14|0.0388
82485375|NCT02247531|164664522|SUPERIORITY||Difference in Adjusted Means|2.2||||0.0833|TWO_SIDED|95.0|-0.29|4.68|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||4.68|-0.29|0.0833
82485376|NCT02247531|164664523|SUPERIORITY||Difference in Adjusted Means|1.04||||0.4795|TWO_SIDED|95.0|-1.84|3.91|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.91|-1.84|0.4795
82485377|NCT02247531|164664523|SUPERIORITY||Difference in Adjusted Means|0.6||||0.6822|TWO_SIDED|95.0|-2.26|3.45|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.45|-2.26|0.6822
82485378|NCT02247531|164664524|SUPERIORITY||Difference in Adjusted Means|0.04||||0.5227|TWO_SIDED|95.0|-0.07|0.14|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.14|-0.07|0.5227
82485379|NCT02247531|164664524|SUPERIORITY||Difference in Adjusted Means|0.02||||0.7475|TWO_SIDED|95.0|-0.09|0.13|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.13|-0.09|0.7475
82485380|NCT02247531|164664525|SUPERIORITY||Difference in Adjusted Means|0.049||||0.6333|TWO_SIDED|95.0|-0.153|0.252|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.252|-0.153|0.6333
82556180|NCT02397096|164821412|NON_INFERIORITY|DOR/3TC/TDF QD ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -8 percentage points.|Treatment Difference|-0.877|||||TWO_SIDED|95.0|-4.706|2.952|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.||Superiority of an immediate switch to DOR/3TC/TDF over continuation of the baseline regimen was defined by a lower bound of the two-sided 95% CI for the difference in response rates being greater than zero (contingent upon satisfying the multiplicity criteria).|2.952|-4.706|
82485381|NCT02247531|164664525|SUPERIORITY||Difference in Adjusted Means|0.025||||0.8105|TWO_SIDED|95.0|-0.18|0.23|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.230|-0.180|0.8105
82485382|NCT02247531|164664525|SUPERIORITY||Difference in Adjusted Means|0.34||||0.0063|TWO_SIDED|95.0|0.097|0.584|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.584|0.097|0.0063
82485383|NCT02247531|164664525|SUPERIORITY||Difference in Adjusted Means|0.182||||0.1359|TWO_SIDED|95.0|-0.058|0.422|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.422|-0.058|0.1359
82485384|NCT02675231|164664582|SUPERIORITY|The abemaciclib plus trastuzumab plus fulvestrant arm will be compared to the standard of care (SOC) chemotherapy plus trastuzumab arm first, and the abemaciclib doublet arm will be compared to the SOC chemotherapy plus trastuzumab arm only if the test for the triplet vs the SOC chemotherapy plus trastuzumab arm is significant.||||||0.0506|||||||Log Rank|Stratified by number of prior systemic regimens for advanced breast cancer (2 to 3 versus(vs) \>3) and status of disease(measurable vs non-measurable).||PFS analysis was planned after approximately 165 PFS events occurred in the enrolled population, yielding greater than or equal to (≥) 80% power assuming a Hazard ration (HR) of 0·667 at an experiment-wise 2-sided alpha level of 0·2.||||0.0506
82485385|NCT02675231|164664582|SUPERIORITY|The abemaciclib plus trastuzumab plus fulvestrant arm will be compared to the standard of care (SOC) chemotherapy plus trastuzumab arm first, and the abemaciclib doublet arm will be compared to the SOC chemotherapy plus trastuzumab arm only if the test for the triplet vs the SOC chemotherapy plus trastuzumab arm is significant.||||||0.7695|||||||Log Rank|Stratified by number of prior systemic regimens for advanced breast cancer (2 to 3 versus(vs) \>3) and status of disease(measurable vs non-measurable).||PFS analysis was planned after approximately 165 PFS events occurred in the enrolled population, yielding greater than or equal to (≥) 80% power assuming a Hazard ration (HR) of 0·667 at an experiment-wise 2-sided alpha level of 0·2.||||0.7695
82485386|NCT02675231|164664583|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.241|TWO_SIDED|95.0|0.36|1.3|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.30|0.36|0.241
82485387|NCT02675231|164664583|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.313|TWO_SIDED|95.0|0.38|1.36|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.36|0.38|0.313
82485388|NCT02675231|164664584|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.104|TWO_SIDED|95.0|0.42|1.08|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.08|0.42|0.104
82485389|NCT02675231|164664584|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.12|TWO_SIDED|95.0|0.43|1.1|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.10|0.43|0.120
82485390|NCT02675231|164664585|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.049|TWO_SIDED|95.0|0.42|1.0|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.00|0.42|0.049
82485391|NCT02675231|164664585|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.153|TWO_SIDED|95.0|0.48|1.12|||Log Rank||Stratified by the number of previous regimens (excluding single-agent endocrine therapy) for advanced breast cancer and the status of disease (measurable vs. non-measurable).|||1.12|0.48|0.153
82485392|NCT02675231|164664590|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.232|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.232
82485393|NCT02675231|164664591|SUPERIORITY||Least Square (LS) Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|2.4||0.689|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Global health status||||0.689
82485394|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.3||0.141|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scales: Physical functioning||||0.141
82485395|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.3||0.095|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Role functioning||||0.095
82485396|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.5||0.591|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Emotional functioning||||0.591
82556181|NCT02397096|164821413|OTHER||Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-31.6|23.5|||||95% CIs were calculated based on t-distribution.|||23.5|-31.6|
82556182|NCT02397096|164821414|SUPERIORITY||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-41.1|15.4|||||95% Confidence Intervals were based on t-distribution.|||15.4|-41.1|
82556183|NCT02397096|164821415|OTHER||Treatment Difference|-3.556|||||TWO_SIDED|95.0|-7.977|0.864|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||0.864|-7.977|
82582120|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|66.28|||||TWO_SIDED|90.0|60.45|72.68|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.68|60.45|
82556184|NCT02397096|164821416|OTHER||Treatment Difference|-0.427|||||TWO_SIDED|95.0|-4.591|3.738|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||3.738|-4.591|
82485397|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|2.1||0.935|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Cognitive functioning||||0.935
82485398|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|2.7||0.578|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Functional scale: Social functioning||||0.578
82485399|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.8||0.308|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Fatigue||||0.308
82556185|NCT02397096|164821417|NON_INFERIORITY|DOR/3TC/TDF QD ISG is concluded to be non-inferior to baseline regimen DSG if the lower bound of the 95% CI for the difference in percent response is above -4 percentage points.|Treatment Difference|-0.232|||||TWO_SIDED|95.0|-2.529|2.064|||||Stratum-adjusted Mantel-Haenszel method with the difference weighted by the harmonic mean of sample size per arm for each stratum.|||2.064|-2.529|
82556186|NCT06688357|164821435|SUPERIORITY||Cohen's d|0.99||||0.077|TWO_SIDED|||||t (13) = 1.920. Only 1 comparison with 2 means, thus no adjustment necessary|t-test, 2 sided|||Independent sample t-test conducted to examine difference in pre-post intervention change scores for the active vs sham intervention groups. Cohen's d was calculated to determine effect size.||||.077
82556187|NCT06688357|164821436|SUPERIORITY||Cohen's D|0.779||||0.159|TWO_SIDED|||||t(13) = 1.504; only 1 comparison of 2 values, thus no adjustment is necessary|t-test, 2 sided|||independent sample t-test; Cohen's d effect size||||.159
82556188|NCT06688357|164821437|SUPERIORITY||Cohen's D|0.356||||0.503|TWO_SIDED|||||t (13) = 0.688; only 1 comparison, adjustment not necessary|t-test, 2 sided|df = 13||independent samples t-test, cohen's d effect size||||.503
82485400|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|4.1|STANDARD_ERROR_OF_MEAN|2.0||0.043|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Nausea and vomiting||||0.043
82485401|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|3.0||0.026|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Pain||||0.026
82485402|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.8||0.276|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Dyspnoea||||0.276
82485403|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|3.1||0.041|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Insomnia||||0.041
82485404|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|3.4||0.262|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Appetite loss||||0.262
82485405|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|2.7||0.285|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Constipation||||0.285
82485406|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|19.3|STANDARD_ERROR_OF_MEAN|3.2|<|0.001|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Diarrhoea||||< 0.001
82485407|NCT02675231|164664591|SUPERIORITY||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|3.0||0.18|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model (MMRM): Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||Symptom scale: Financial difficulties||||0.180
82485408|NCT02675231|164664592|SUPERIORITY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.02||0.033|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model: Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.033
82485409|NCT02675231|164664592|SUPERIORITY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.275|TWO_SIDED|||||p-values are from Type 3 sums of squares mixed models repeated measures model: Change from baseline = Treatment + Visit + Treatment\*Visit + Baseline.|MMRM Model|||||||0.275
82556189|NCT06688357|164821438|SUPERIORITY||Cohen's D|-0.922||||0.08|TWO_SIDED|||||t(13) = 1.893; only one comparison of 2 scores, thus no adjustment for multiple comparisons was necessary|t-test, 2 sided|df = 13||Independent sample t-test used to examine pre-post intervention change scores in active vs sham groups; Cohen's d was calculated to estimate effect size||||0.08
82556190|NCT06688357|164821439|SUPERIORITY||Cohen's D|0.793||||0.149|TWO_SIDED|||||t (13) = 1.533; only 1 comparison, no adjustment necessary|t-test, 2 sided|||independent sample t-test, Cohen d effect size||||.149
82485410|NCT02675231|164664593|SUPERIORITY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|2.02||0.546|TWO_SIDED||||||MMRM Model|||||||0.546
82485411|NCT02675231|164664593|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|2.1||0.62|TWO_SIDED||||||MMRM Model|||||||0.620
82485412|NCT02652767|164664595|SUPERIORITY||Mean Difference (Net)|-0.012||||0.889|TWO_SIDED|95.0|-0.182|0.158|||ANCOVA|||A mixed model of analysis of covariance (ANCOVA) was used with change from baseline at Week 48 as the response, and participants, eyes of the participant as random factor, treatment and baseline LogMAR value as covariates in the model. P-value is used to assess the significance of the difference between All-GS010 and All-Sham with respect to change of LogMAR from baseline.||0.158|-0.182|0.8890
82485413|NCT01610271|164664615|SUPERIORITY|ABS was expected to be superior to Control.|Odds Ratio (OR)|0.11|STANDARD_ERROR_OF_MEAN|0.16||0.067|TWO_SIDED|95.0|0.01|2.05||a priori threshold was 0.05|Regression, Logistic|penalized maximum likelihood (Firth) logistic regression, because infection rate was very low (\<3%), as expected|The dispersion is the SE of the OR. ABS was the numerator group, Control was the denominator.|A sample size of 150 per group provided a power of 80% to detect a statistically significant (α≤0.05) 3% difference in SSI rate based on a historical infection rate of 6% in the facility where operations were performed.||2.05|0.01|0.067
82485414|NCT04105543|164664627|OTHER|nonparametric rank test|Median Difference (Final Values)|-4.22||||0.173|TWO_SIDED|95.0|-12.64|4.24|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for MDADI Composite Baseline to 3 months (n=9)||4.24|-12.64|0.173
82556191|NCT06688357|164821440|SUPERIORITY||Cohen's D|0.905||||0.104|TWO_SIDED|||||t(13) = 1.749; only 1 comparison with 2 values, thus no adjustment for multiple comparisons|t-test, 2 sided|df = 13||independent sample t-test was used to examine difference in Post-Pre intervention change in the Active vs the Sham groups; Effect size was estimated using Cohen's d.||||.104
82556192|NCT06688357|164821441|SUPERIORITY||Cohen's D|-0.267||||0.614|TWO_SIDED|||||t(13) = -.516; only 1 comparison of 2 means, no adjustment needed|t-test, 2 sided|||independent sample t-tests examining Post-Baseline differences for the Active vs the Sham groups; Effect size computed using Cohen's d score||||.614
82556193|NCT06688357|164821442|SUPERIORITY||Cohen's D|0.652||||0.23|TWO_SIDED|||||t(13) = -1.260; only 1 comparison of 2 values, no need for adjustment|t-test, 2 sided|||independent samples t-test, effect size computation (cohen's d)||||.230
82485415|NCT04105543|164664627|OTHER|nonparametric rank test|Median Difference (Final Values)|-9.998||||0.225|TWO_SIDED|95.0|-28.43|7.39|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for MDADI Composite Baseline to 6 months (n=5)||7.39|-28.43|0.225
82485416|NCT04105543|164664628|OTHER|nonparametric rank test|Median Difference (Final Values)|-0.037||||0.779|TWO_SIDED|95.0|-0.246|0.09|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for Stimulated Saliva Flow Baseline to 3 months (n=8)||0.09|-0.246|0.779
82556194|NCT03777657|164821469|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0056|TWO_SIDED|95.0|0.59|0.94||The superiority boundary at the primary overall survival analysis was predefined using the O'Brien-Fleming boundary approximated using the Hwang-Shih-DeCani spending function at 0.0092.|One-sided Log Rank Test|One-Sided Log-Rank Test stratified by regions (Asia versus Europe/North America) and presence of peritoneal metastasis (yes vs no).|The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region and presence of peritoneal metastasis as strata.|||0.94|0.59|0.0056
82556195|NCT03777657|164821470|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0011|TWO_SIDED|95.0|0.7|0.92||The one sided P value boundary for superiority of overall survival in all randomized participants at final analysis was 0.0226 based on 776 actual observed deaths.|One-Sided Log-Rank Test|One-Sided Log-Rank test stratified by region (Asia vs Europe/North America), PD-L1 expression (\<5% vs ≥5%), and presence of peritoneal metastasis.|The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region, PD-L1 expression, and presence of peritoneal metastasis as strata.|||0.92|0.70|0.0011
82556196|NCT03777657|164821471|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.56|0.83|||||The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region and presence of peritoneal metastasis as strata.|||0.83|0.56|
82556197|NCT03777657|164821472|OTHER||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.03|2.04|||||Odds ratio between arms weas calculated using the Cochran-Mantel-Haenszel method, stratified by regions (Asia versus Europe/North America) and presence of peritoneal metastasis.|||2.04|1.03|
82556198|NCT03777657|164821473|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.67|0.9|||||The stratified hazard ratio and two-sided 95% confidence interval were estimated using a Cox proportional hazard regression model, including treatment arm as a covariate, and region, PD-L1 expression, and presence of peritoneal metastasis as strata.|||0.90|0.67|
82556199|NCT03777657|164821474|OTHER||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|1.03|1.72|||||Odds ratio between arms were calculated using the Cochran-Mantel-Haenszel method, stratified by regions (Asia versus Europe/North America), PD-L1 expression and presence of peritoneal metastasis.|||1.72|1.03|
82556200|NCT03777657|164821477|OTHER||Least Squares (LS) Mean Difference|1.8|||||TWO_SIDED|95.0|-0.33|3.94|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 4||3.94|-0.33|
82556201|NCT03777657|164821477|OTHER||LS Mean Difference|2.52|||||TWO_SIDED|95.0|0.29|4.74|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 6||4.74|0.29|
82556202|NCT03777657|164821477|OTHER||LS Mean Difference|1.44|||||TWO_SIDED|95.0|-0.27|3.16||||||Analysis of Change from Baseline in Physical Functioning at Cycle 4||3.16|-0.27|
82556203|NCT03777657|164821477|OTHER||LS Mean Difference|2.46|||||TWO_SIDED|95.0|0.49|4.43|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Physical Functioning at Cycle 6||4.43|0.49|
82556204|NCT03777657|164821478|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|95.0|-3.79|1.15|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Fatigue at Cycle 4||1.15|-3.79|
82556205|NCT03777657|164821478|OTHER||LS Mean Difference|-3.01|||||TWO_SIDED|95.0|-5.78|-0.24|||||Mixed effect model analysis with QLQ-C30 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in Fatigue at Cycle 6||-0.24|-5.78|
82556206|NCT03777657|164821479|OTHER||LS Mean Difference|-1.11|||||TWO_SIDED|95.0|-2.53|0.31|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Index-Score at Cycle 4||0.31|-2.53|
82556207|NCT03777657|164821479|OTHER||LS Mean Difference|-1.62|||||TWO_SIDED|95.0|-3.12|-0.12|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Index-Score at Cycle 6||-0.12|-3.12|
82485417|NCT04105543|164664628|OTHER|nonparametric rank test|Median Difference (Final Values)|-0.049||||0.465|TWO_SIDED|95.0|-0.218|0.12|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for Stimulated Saliva Flow Baseline to 6 months (n=4)||0.12|-0.218|0.465
82485418|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|-4.444||||0.213|TWO_SIDED|95.0|-14.4|4.4|||Wilcoxon Signed Rank Tests|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Functional Score Baseline to 3 months (n=9)||4.4|-14.4|0.213
82556208|NCT03777657|164821479|OTHER||LS Mean Difference|-1.51|||||TWO_SIDED|95.0|-3.13|0.11|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dysphagia/Odynophagia Scale at Cycle 4||0.11|-3.13|
82556209|NCT03777657|164821479|OTHER||LS Mean Difference|-0.77|||||TWO_SIDED|95.0|-2.31|0.76|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dysphagia/Odynophagia Scale at Cycle 6||0.76|-2.31|
82485419|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|-6.667||||0.686|TWO_SIDED|95.0|-17.8|20.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Functional Scores Baseline to 6 months (n=5)||20|-17.8|0.686
82485420|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|3.846||||0.498|TWO_SIDED|95.0|-0.769|12.82|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Symptom Score Baseline to 3 months (n=9)||12.82|-0.769|0.498
82485421|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|10.256||||0.416|TWO_SIDED|95.0|-15.39|35.89|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Symptom Scores Baseline to 6 months (n=5)||35.89|-15.39|0.416
82485422|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|-8.33||||0.778|TWO_SIDED|95.0|-20.84|16.67|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for EORTC QLQ-C30 Global Health Status Score Baseline to 3 months (n=9)||16.67|-20.84|0.778
82485423|NCT04105543|164664629|OTHER|nonparametric rank test|Median Difference (Final Values)|0.0||||0.89|TWO_SIDED|95.0|-25.0|25.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for EORTC QLQ-C30 Global Health Status Scores Baseline to 6 months (n=5)||25|-25|0.89
82485424|NCT04105543|164664630|OTHER|nonparametric rank test|Median Difference (Final Values)|3.5||||0.138|TWO_SIDED|95.0|-2.0|9.5|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for XeQOL Baseline to 3 months (n=9)||9.5|-2|0.138
82485425|NCT04105543|164664630|OTHER|nonparametric rank test|Median Difference (Final Values)|6.0||||0.225|TWO_SIDED|95.0|-10.0|16.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for XeQOL Baseline to 6 months (n=5)||16|-10|0.225
82485426|NCT04105543|164664631|OTHER|nonparametric rank test|Median Difference (Final Values)|0.5||||0.674|TWO_SIDED|95.0|-3.0|5.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Tests for Xerostomia Inventory Baseline to 3 months (n=9)||5|-3|0.674
82485427|NCT04105543|164664631|OTHER|nonparametric rank test|Median Difference (Final Values)|0.0||||0.892|TWO_SIDED|95.0|-6.0|6.0|||Wilcoxon Signed Rank Test|||Wilcoxon Signed Rank Test for Xerostomia Inventory Baseline to 6 months (n=5)||6|-6|0.892
82485428|NCT02961218|164664632|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_DEVIATION|0.57||0.55|TWO_SIDED|90.0|-1.03|0.85||probability reduction of average pain score in ACZ885 \> Placebo|Bayesian model for repeated measures||Lower limit and upper limit represents the credibility interval from the Bayesian analysis.|||0.85|-1.03|0.55
82485429|NCT02961218|164664634|SUPERIORITY||Ratio|0.408||||0.002|TWO_SIDED|90.0|0.253|0.658|||Mixed-effect Model for Repeated Measures|||||0.658|0.253|0.002
82485430|NCT02961218|164664635|SUPERIORITY||Ratio|0.752|||<|0.001|TWO_SIDED|90.0|0.657|0.862|||Mixed-effect Model for Repeated Measures|||||0.862|0.657|<.001
82485431|NCT02961218|164664636|SUPERIORITY||Ratio|0.682||||0.004|TWO_SIDED|90.0|0.547|0.849|||Mixed-effect Model for Repeated Measures|||||0.849|0.547|0.004
82556210|NCT03777657|164821479|OTHER||LS Mean Difference|-2.23|||||TWO_SIDED|95.0|-4.26|-0.2|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Pain/Discomfort Scale at Cycle 4||-0.20|-4.26|
82556211|NCT03777657|164821479|OTHER||LS Mean Difference|-1.88|||||TWO_SIDED|95.0|-4.03|0.27|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Pain/Discomfort Scale at Cycle 6||0.27|-4.03|
82485432|NCT02961218|164664637|SUPERIORITY||Ratio|0.718||||0.032|TWO_SIDED|90.0|0.556|0.925|||Mixed-effect Model for Repeated Measures|||||0.925|0.556|0.032
82485433|NCT02961218|164664644|SUPERIORITY||Ratio|1.4|STANDARD_ERROR_OF_MEAN|0.45||0.455|TWO_SIDED|90.0|0.58|3.4|||Generalized Linear Model (GLM)|||||3.40|0.58|0.455
82485434|NCT00591266|164664653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.19|||<|0.001|TWO_SIDED|95.0|-13.29|-9.09||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-9.09|-13.29|<0.001
82485435|NCT00591266|164664653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.91|||<|0.001|TWO_SIDED|95.0|-13.0|-8.81||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-8.81|-13.00|<0.001
82485436|NCT00591266|164664654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02|||<|0.001|TWO_SIDED|95.0|-13.93|-8.1||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-8.10|-13.93|<0.001
82485437|NCT00591266|164664654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.56|||<|0.001|TWO_SIDED|95.0|-12.48|-6.63||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented. Overall 0.05 level of significance for multiple comparisons controlled using closed testing procedure.|ANCOVA|||||-6.63|-12.48|<0.001
82485438|NCT00591266|164664655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.48|||<|0.001|TWO_SIDED|95.0|-8.84|-6.11||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.11|-8.84|<0.001
82485439|NCT00591266|164664655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.65|||<|0.001|TWO_SIDED|95.0|-9.01|-6.28||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.28|-9.01|<0.001
82485440|NCT00591266|164664656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.93|||<|0.001|TWO_SIDED|95.0|-6.62|-3.23||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.23|-6.62|<0.001
82485441|NCT00591266|164664656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.58|||<|0.001|TWO_SIDED|95.0|-7.28|-3.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-3.88|-7.28|<0.001
82485442|NCT00591266|164664657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.64|||<|0.001|TWO_SIDED|95.0|-13.86|-9.41||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.41|-13.86|<0.001
82485443|NCT00591266|164664657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.17|||<|0.001|TWO_SIDED|95.0|-13.39|-8.95||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-8.95|-13.39|<0.001
82485444|NCT00591266|164664658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.99|||<|0.001|TWO_SIDED|95.0|-9.47|-6.5||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.50|-9.47|<0.001
82485445|NCT00591266|164664658|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.04|||<|0.001|TWO_SIDED|95.0|-9.52|-6.55||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.55|-9.52|<0.001
82485446|NCT00591266|164664659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.7|||<|0.001|TWO_SIDED|95.0|-12.07|-7.34||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.34|-12.07|<0.001
82485447|NCT00591266|164664659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.67|||<|0.001|TWO_SIDED|95.0|-12.03|-7.31||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-7.31|-12.03|<0.001
82485448|NCT00591266|164664660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.26|||<|0.001|TWO_SIDED|95.0|-7.94|-4.57||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.57|-7.94|<0.001
82485449|NCT00591266|164664660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.28|||<|0.001|TWO_SIDED|95.0|-7.96|-4.6||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.60|-7.96|<0.001
82485450|NCT00591266|164664661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.27|||<|0.001|TWO_SIDED|95.0|-14.63|-9.92||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.92|-14.63|<0.001
82485451|NCT00591266|164664661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.58|||<|0.001|TWO_SIDED|95.0|-13.93|-9.23||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-9.23|-13.93|<0.001
82556212|NCT03777657|164821479|OTHER||LS Mean Difference|-0.93|||||TWO_SIDED|95.0|-2.85|0.99|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dietary Restrictions Scale at Cycle 4||0.99|-2.85|
82556213|NCT03777657|164821479|OTHER||LS Mean Difference|-1.32|||||TWO_SIDED|95.0|-3.42|0.77|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Dietary Restrictions Scale at Cycle 6||0.77|-3.42|
82556214|NCT03777657|164821479|OTHER||LS Mean Difference|-1.59|||||TWO_SIDED|95.0|-3.28|0.09|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Upper Gastro-Intestinal Symptoms at Cycle 4||0.09|-3.28|
82556215|NCT03777657|164821479|OTHER||LS Mean Difference|-1.74|||||TWO_SIDED|95.0|-3.55|0.06|||||Mixed effect model analysis with QLQ-STO22 scores from cycle 1 to 6 as the response variable, and treatment by study visit interaction, baseline mean score and randomization stratification factors as covariates.|Analysis of Change from Baseline in QLQ-STO22 Upper Gastro-Intestinal Symptoms at Cycle 6||0.06|-3.55|
82485452|NCT00591266|164664662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.39|||<|0.001|TWO_SIDED|95.0|-9.98|-6.79||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.79|-9.98|<0.001
82485453|NCT00591266|164664662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.23|||<|0.001|TWO_SIDED|95.0|-9.82|-6.64||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.64|-9.82|<0.001
82485454|NCT00591266|164664663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83|||<|0.001|TWO_SIDED|95.0|-11.45|-6.22||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.22|-11.45|<0.001
82485455|NCT00591266|164664663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.91|||<|0.001|TWO_SIDED|95.0|-11.51|-6.3||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-6.30|-11.51|<0.001
82485456|NCT00591266|164664664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94|||<|0.001|TWO_SIDED|95.0|-7.88|-4.0||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.00|-7.88|<0.001
82485457|NCT00591266|164664664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.54|||<|0.001|TWO_SIDED|95.0|-8.47|-4.61||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value is presented.|ANCOVA|||||-4.61|-8.47|<0.001
82485458|NCT00591266|164664665|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.37|||<|0.001|TWO_SIDED|95.0|2.15|5.26||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.26|2.15|<0.001
82485459|NCT00591266|164664665|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.21|||<|0.001|TWO_SIDED|95.0|2.05|5.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||5.03|2.05|<0.001
82485460|NCT00591266|164664666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.54|||<|0.001|TWO_SIDED|95.0|2.08|6.02||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.02|2.08|<0.001
82485461|NCT00591266|164664666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.25|6.75||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||6.75|2.25|<0.001
82485462|NCT00591266|164664667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.001|TWO_SIDED|95.0|1.71|4.02||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.02|1.71|<0.001
82485463|NCT00591266|164664667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12|||<|0.001|TWO_SIDED|95.0|2.01|4.82||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value is presented.|Regression, Logistic|||||4.82|2.01|<0.001
82485464|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.25||||0.5196|TWO_SIDED|95.0|-1.02|0.52||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 0.25 hours||0.52|-1.02|0.5196
82485465|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.32||||0.3983|TWO_SIDED|95.0|-1.09|0.44||No adjustment for multiple comparisons has been made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change in VAS score from baseline at 0.5 hours||0.44|-1.09|0.3983
82485466|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.26||||0.489|TWO_SIDED|95.0|-1.03|0.5||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 0.75 hours||0.5|-1.03|0.4890
82485467|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.21||||0.5903|TWO_SIDED|95.0|-0.97|0.56||No adjustment for multiple comparisons was made due to the exploratory nature of the study|Mixed Models Analysis||Difference is LAT8881 minus placebo|Change from baseline VAS score at 1 hour||0.56|-0.97|0.5903
82485468|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.13||||0.7352|TWO_SIDED|95.0|-0.9|0.64||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 1.5 hours||0.64|-0.90|0.7352
82556216|NCT02678689|164821499|SUPERIORITY|The two-sample T-test with unequal variance was conducted at a significance level of 0.05|||||<|0.0001|||||||t-test, unequal variance|||||||< 0.0001
82556217|NCT02678689|164821500|SUPERIORITY||Hazard Ratio (HR)|0.091|||<|0.0001|TWO_SIDED|95.0|0.021|0.393|||Cox Model Wald Test||Hazard ratio is based on Cox proportional hazards model with a factor of study group|||0.393|0.021|<.0001
82556218|NCT02678689|164821501|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.0032|TWO_SIDED|95.0|0.0|0.0|||Cox Model Wald Test||Hazard ratio is based on Cox proportional hazards model with a factor of study group|||0.000|0.000|0.0032
82556219|NCT02678689|164821502|SUPERIORITY||||||<|0.0001|||||||t-test, unequal variance|||||||<.0001
82556220|NCT02678689|164821503|SUPERIORITY||||||<|0.0001|||||||t-test, unequal variance|||||||<.0001
82556221|NCT02678689|164821504|SUPERIORITY||Hazard Ratio (HR)|0.209||||0.0081|TWO_SIDED|95.0|0.059|0.735|||Cox Model Wald Test|The p value is a test that the hazard ratio equal to 1.|"Hazard ratio is based on Cox proportional hazards model with a factor of study group.~Hazard Ratio (HR) 190-203 vs DEM-CHILD."|||0.735|0.059|0.0081
82556222|NCT02549352|164821513|SUPERIORITY||Ratio of clearance rates|7.83|||<|0.001|TWO_SIDED|95.0|2.58|23.71|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|||23.71|2.58|<0.001
82556223|NCT02549352|164821514|SUPERIORITY||Ratio of clearance rates|5.91|||<|0.001|TWO_SIDED|95.0|3.32|10.51|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||10.51|3.32|<0.001
82485469|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.6892|TWO_SIDED|95.0|-0.92|0.61||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 2 hours||0.61|-0.92|0.6892
82485470|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.01||||0.9767|TWO_SIDED|95.0|-0.78|0.76||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 2.5 hours||0.76|-0.78|0.9767
82485471|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Median Difference (Net)|0.32||||0.3964|TWO_SIDED|95.0|-0.44|1.09||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 3 hours||1.09|-0.44|0.3964
82485472|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|0.22||||0.5669|TWO_SIDED|95.0|-0.55|0.98||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 3.5 hours||0.98|-0.55|0.5669
82485473|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.7006|TWO_SIDED|95.0|-0.91|0.62||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 4 hours||0.62|-0.91|0.7006
82556224|NCT02549352|164821515|SUPERIORITY||Ratio of clearance rates|7.59|||<|0.001|TWO_SIDED|95.0|3.7|15.61|||Mantel Haenszel||Mantel-Haenszel estimate (0.037% relative to vehicle), adjusted for pooled sites.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||15.61|3.70|<0.001
82556225|NCT02549352|164821516|SUPERIORITY||Week 8 AK count ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.25|0.36||Negative binominal regression with treatment group and pooled site as factors and log baseline count as offset variable.|Mantel Haenszel||0.037% relative to vehicle.|The p-values for secondary endpoints have been corrected by the Holm-Bonferroni method to account for multiplicity. The prespecified multiplicity adjustment by the Holm-Bonferroni method requires the ordering of the p-values for the secondary endpoints by size.||0.36|0.25|<0.001
82556226|NCT04503681|164821547|SUPERIORITY||Median Difference (Final Values)|0.0||||0.473|TWO_SIDED|95.0|-1.1|1.1|||Wilcoxon (Mann-Whitney)|||||1.1|-1.1|0.473
82556227|NCT04503681|164821548|SUPERIORITY||Median Difference (Final Values)|0.0||||0.338|TWO_SIDED|95.0|-0.8|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|-0.8|0.338
82556228|NCT02760654|164821556|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82556229|NCT02760654|164821557|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556230|NCT02760654|164821558|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556231|NCT02760654|164821559|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556232|NCT02760654|164821560|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556233|NCT02760654|164821561|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82556234|NCT02760654|164821562|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556235|NCT02760654|164821563|EQUIVALENCE|Descriptive statistics (Mean, SD) were calculated for the 7 items of the Adapted Acceptability E-Scale|Calculated Mean and Standard Deviation|0.05|||||TWO_SIDED|||||||||||||
82556236|NCT02760654|164821564|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556237|NCT02760654|164821565|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82556238|NCT01128595|164821572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.515|||||TWO_SIDED|95.0|0.33|0.701||||||||0.701|0.330|
82556239|NCT01128595|164821572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.543|||||TWO_SIDED|95.0|0.355|0.73||||||||0.730|0.355|
82556240|NCT01128595|164821572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.195|||||TWO_SIDED|95.0|0.001|0.388||||||||0.388|0.001|
82556241|NCT01128595|164821572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.027|||||TWO_SIDED|95.0|-0.198|0.143||||||||0.143|-0.198|
82556242|NCT01128595|164821572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|95.0|0.14|0.501||||||||0.501|0.140|
82556243|NCT01128595|164821575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|||||TWO_SIDED|95.0|0.332|0.636||||||||0.636|0.332|
82556244|NCT01128595|164821575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.484|||||TWO_SIDED|95.0|0.33|0.638||||||||0.638|0.330|
82556245|NCT01128595|164821575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|||||TWO_SIDED|95.0|0.009|0.327||||||||0.327|0.009|
82556246|NCT01128595|164821575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.14|0.14||||||||0.140|-0.140|
82556247|NCT01128595|164821575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.316|||||TWO_SIDED|95.0|0.168|0.464||||||||0.464|0.168|
82556248|NCT01128595|164821576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|||||TWO_SIDED|95.0|0.031|0.393||||||||0.393|0.031|
82556249|NCT01128595|164821576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.341|||||TWO_SIDED|95.0|0.147|0.536||||||||0.536|0.147|
82556250|NCT01128595|164821576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.477|||||TWO_SIDED|95.0|0.282|0.672||||||||0.672|0.282|
82556251|NCT01128595|164821576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|||||TWO_SIDED|95.0|0.066|0.463||||||||0.463|0.066|
82556252|NCT01128595|164821576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|||||TWO_SIDED|95.0|-0.072|0.343||||||||0.343|-0.072|
82556253|NCT01128595|164821577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|||||TWO_SIDED|95.0|-0.037|0.215||||||||0.215|-0.037|
82556254|NCT01128595|164821577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.236|||||TWO_SIDED|95.0|0.101|0.371||||||||0.371|0.101|
82556255|NCT01128595|164821577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|||||TWO_SIDED|95.0|0.127|0.398||||||||0.398|0.127|
82556256|NCT01128595|164821577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|||||TWO_SIDED|95.0|0.036|0.312||||||||0.312|0.036|
82556257|NCT01128595|164821577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.026|||||TWO_SIDED|95.0|-0.118|0.171||||||||0.171|-0.118|
82556258|NCT00372775|164821585|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|1.6|||||TWO_SIDED|95.0|0.0|8.8|||||Two-Sided Confidence Interval (CI) from Exact Method using the F Distribution|||8.8|0.0|
82556259|NCT00372775|164821587|SUPERIORITY_OR_OTHER||ORR (percent)|4.3|||||TWO_SIDED|95.0|0.1|21.9|||||Two-Sided CI from Exact Method using the F Distribution|||21.9|0.1|
82556260|NCT00372775|164821590|SUPERIORITY_OR_OTHER||Percentage|23.4|||||TWO_SIDED|95.0|14.0|34.3|||||Probability of survival along with the corresponding 2-sided confidence interval for the log \[-log(one-year survival rate)\] calculated using a normal approximation and then back transformed to give a confidence interval for the one-year survival|||34.3|14.0|
82556261|NCT00336505|164821619|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|2.0||||0.5667|TWO_SIDED|95.0|-4.8|8.9|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||8.9|-4.8|0.5667
82556262|NCT00336505|164821621|NON_INFERIORITY_OR_EQUIVALENCE|Delta will be determined by the highest clinical cure-rate between the Cethromycin treatment group and the Clarithromycin treatment group, as follows: Greater than or equal to 90%, delta = -10%; Greater than or equal to 80% and less than 90%, delta = -15%, Greater than or equal to 70% and less than 80%, -20%)|Mean Difference (Net)|0.3|||>|0.9999||95.0|-4.5|5.1|||Fisher Exact|||The rate of clinical cure in each treatment group was calculated (number of cures/number of patient eligible for analysis). Non-inferiority will be demonstrated when the lower limit of the two-sided 95% confidence interval for the difference in the clinical cure rate at the Test-of-Cure visit between treatment groups (Cethromycin -Clarithromycin) is greater than delta, and includes zero, for both Per-Protocol (PP) and Intent-to-Treat (ITT) analyses.||5.1|-4.5|>0.9999
82556263|NCT00366249|164821628|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railker|-5.5||||||95.0|-11.0|0.1|||||Adjusted for Perfusion, Extent, Depth/tissue loss, Infection, and Sensation (PEDIS) score|Analysis provided for Cure||0.1|-11.0|
82556264|NCT00366249|164821630|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railkar|-6.7||||||95.0|-12.3|-1.1|||||Adjusted for PEDIS score|Analysis provided for Cure||-1.1|-12.3|
82556265|NCT00366249|164821632|NON_INFERIORITY_OR_EQUIVALENCE|Statistical analysis tested for non-inferiority. Non-inferiority margin is -10%.|Mehrotra and Railkar|-6.3||||||95.0|-13.6|1.0|||||Adjusted for PEDIS score|||1.0|-13.6|
82582121|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|41.04|||||TWO_SIDED|90.0|37.4|45.03|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||45.03|37.40|
82556266|NCT01561300|164821633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.09|TWO_SIDED|95.0|-2.16|0.17|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Tea-placebo|Null hypothesis: no difference between Tea and Control.||0.17|-2.16|0.09
82556267|NCT01561300|164821634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.7|TWO_SIDED|95.0|-2.44|1.66|||Mixed Models Analysis|Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Tea- Control|Null hypothesis: no difference between Tea and Control.||1.66|-2.44|0.70
82556268|NCT01561300|164821635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.66|TWO_SIDED|95.0|-1.15|0.75||Subject as random factor, baseline same period and mean baseline in both periods as covariates, and treatment, operator, and period as fixed effects.|Mixed Models Analysis||Tea-placebo|Null hypothesis: no difference between Tea and Control.||0.75|-1.15|0.66
82556269|NCT00246805|164821641|SUPERIORITY_OR_OTHER||Proportions|48.0|||<|0.0001|TWO_SIDED|95.0|36.0|61.0|||Z-test for proportions|||VRS ON vs. VRS OFF||61|36|<0.0001
82556270|NCT01185600|164821663|SUPERIORITY_OR_OTHER|||||||0.142|||||||Fisher Exact|||||||0.142
82556271|NCT01185600|164821664|SUPERIORITY_OR_OTHER|||||||0.0391|||||||Fisher Exact|||||||0.0391
82556272|NCT01185600|164821665|SUPERIORITY_OR_OTHER|||||||0.372|||||||Fisher Exact|||||||0.372
82556273|NCT01185600|164821666|SUPERIORITY_OR_OTHER|||||||0.1007|||||||t-test, 2 sided|||||||0.1007
82556274|NCT01185600|164821667|SUPERIORITY_OR_OTHER|||||||0.0964|||||||t-test, 2 sided|||||||0.0964
82556275|NCT01185600|164821668|SUPERIORITY_OR_OTHER|||||||0.1739|||||||t-test, 2 sided|||||||0.1739
82556276|NCT01185600|164821669|SUPERIORITY_OR_OTHER|||||||0.7205|||||||t-test, 1 sided|||||||0.7205
82556277|NCT01185600|164821670|SUPERIORITY_OR_OTHER||Negative Binomial|1.64||||0.0176|TWO_SIDED|95.0|1.06|2.55|||t-test, 2 sided||"Using Negative Binomial Regression the following ratio and corresponding 95% CI were obtained:~(# of AE's, Unwashed Group / (# of AE's, Washed Group) = 1.64 95% C.I. = \[1.06 - 2.55\]"|||2.55|1.06|0.0176
82556278|NCT00724126|164821674|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.03
82485474|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.1||||0.794|TWO_SIDED|95.0|-0.87|0.67||No adjustment for multiple comparisons was made due to the exploratory nature of the study.|Mixed Models Analysis||Difference is LAT8881 minus placebo.|Change from baseline VAS score at 5 hours||0.67|-0.87|0.7940
82485475|NCT05298306|164664674|SUPERIORITY|No formal sample size estimation was undertaken due to the exploratory nature of the study. Analysis was based a mixed model repeated measures model, with fixed-effects including treatment, time point and period factors. Baseline was included as a covariate. Random effects for participants and participant by period were also included.|Mean Difference (Net)|-0.15||||0.6892|TWO_SIDED|95.0|-0.92|0.61|||Mixed Models Analysis|No adjustment for multiple comparisons was made due to the exploratory nature of the study.||Change from baseline VAS score at 6 hours|Difference is LAT8881 minus placebo.|0.61|-0.92|0.6892
82582122|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|86.3|||||TWO_SIDED|90.0|81.77|91.09|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.09|81.77|
82582123|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|77.0|||||TWO_SIDED|90.0|73.01|81.2|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||81.20|73.01|
82485476|NCT01178073|164664682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.502||||0.0002|TWO_SIDED|95.0|0.348|0.724|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.724|0.348|0.0002
82485477|NCT01178073|164664682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.477||||0.0004|TWO_SIDED|95.0|0.314|0.723|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Ambrisentan Monotherapy.|||0.723|0.314|0.0004
82485478|NCT01178073|164664682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.528||||0.0045|TWO_SIDED|95.0|0.338|0.827|||Stratified Log Rank||Analysis of time to first adjudicated clinical failure event through FAV. HR is calculated using the Cox proportional hazards model. HR is for Combination Therapy: Ambrisentan + Tadalafil / Tadalafil Monotherapy.|||0.827|0.338|0.0045
82485479|NCT01178073|164664683|SUPERIORITY_OR_OTHER||Mean Percent Difference|-33.81|||<|0.0001|TWO_SIDED|95.0|-44.78|-20.66|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||-20.66|-44.78|<0.0001
82485480|NCT01178073|164664683|SUPERIORITY_OR_OTHER||Mean Percent Difference|-25.09||||0.0111|TWO_SIDED|95.0|-40.04|-6.4|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||-6.40|-40.04|0.0111
82485481|NCT01178073|164664683|SUPERIORITY_OR_OTHER||Mean Percent Difference|-41.51|||<|0.0001|TWO_SIDED|95.0|-53.16|-26.97|||ANCOVA||Mean percent difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||-26.97|-53.16|<0.0001
82485482|NCT01178073|164664684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.563||||0.0264|TWO_SIDED|95.0|1.054|2.319|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Monotherapy Pooled: Ambrisentan or Tadalafil.|||2.319|1.054|0.0264
82485483|NCT01178073|164664684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.424||||0.1518|TWO_SIDED|95.0|0.878|2.308|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Ambrisentan Monotherapy.|||2.308|0.878|0.1518
82485484|NCT01178073|164664684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.723||||0.0321|TWO_SIDED|95.0|1.047|2.833|||Regression, Logistic||Odds ratio is for Combination Therapy: Ambrisentan + Tadalafil / Tadalafil Monotherapy.|||2.833|1.047|0.0321
82582124|NCT02074553|164875906|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.65|||||TWO_SIDED|90.0|71.71|79.82|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.82|71.71|
82582125|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|91.67|||||TWO_SIDED|90.0|82.34|102.05|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||102.05|82.34|
82485485|NCT01178073|164664685|SUPERIORITY_OR_OTHER||Median Difference|22.75|||<|0.0001|TWO_SIDED|95.0|12.0|33.5|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||33.50|12.00|<0.0001
82485486|NCT01178073|164664685|SUPERIORITY_OR_OTHER||Median Difference|24.75||||0.0005|TWO_SIDED|95.0|11.0|38.5|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||38.50|11.00|0.0005
82485487|NCT01178073|164664685|SUPERIORITY_OR_OTHER||Median Difference|20.85||||0.003|TWO_SIDED|95.0|8.0|33.7|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||33.70|8.00|0.0030
82485488|NCT01178073|164664686|SUPERIORITY_OR_OTHER||Median Difference|0.0||||0.2287|TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test||Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.0|0.0|0.2287
82556279|NCT00724126|164821675|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Regression, Logistic|The p-value was obtained from a logistic regression model with fixed effects for treatment arm and analysis center.||||||0.02
82556280|NCT03455985|164821692|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.4||0.09|TWO_SIDED||||||Regression, Linear|||||||0.09
82556281|NCT03455985|164821693|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.2|TWO_SIDED||||||Regression, Linear|||||||0.20
82556282|NCT03455985|164821694|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82556283|NCT03455985|164821695|SUPERIORITY||Mean Difference (Final Values)|-26.5|STANDARD_ERROR_OF_MEAN|30.3||0.39|TWO_SIDED||||||Regression, Linear|||||||0.39
82556284|NCT03066609|164821708|SUPERIORITY||Odds Ratio (OR)|153.94|||<|0.0001|TWO_SIDED|95.0|54.02|438.67|||Regression, Logistic|||PASI 75||438.67|54.02|<0.0001
82556285|NCT03066609|164821708|SUPERIORITY||Odds Ratio (OR)|557.98|||<|0.0001|TWO_SIDED|95.0|187.2|1663.4|||Regression, Logistic|||PASI 75||1663.4|187.2|<0.0001
82556286|NCT03066609|164821709|SUPERIORITY||Odds Ratio (OR)|75.82|||<|0.0001|TWO_SIDED|95.0|25.81|222.72|||Regression, Logistic|||IGA||222.72|25.81|<0.0001
82556287|NCT03066609|164821709|SUPERIORITY||Odds Ratio (OR)|149.71|||<|0.0001|TWO_SIDED|95.0|51.83|432.42|||Regression, Logistic|||IGA||432.42|51.83|<0.0001
82556288|NCT03066609|164821710|SUPERIORITY||Odds Ratio (OR)|114.85|||<|0.0001|TWO_SIDED|95.0|26.94|489.59|||Regression, Logistic|||PASI 90||489.59|26.94|<0.0001
82582126|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.24|||||TWO_SIDED|90.0|60.44|74.79|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||74.79|60.44|
82556289|NCT03066609|164821710|SUPERIORITY||Odds Ratio (OR)|246.12|||<|0.0001|TWO_SIDED|95.0|58.41|1037.1|||Regression, Logistic|||PASI 90||1037.1|58.41|<0.0001
82556290|NCT03983434|164821727|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.62|||||||Kruskal-Wallis|||||||.62
82556291|NCT03983434|164821728|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.17|||||||Kruskal-Wallis|||||||0.17
82556292|NCT03983434|164821729|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.17|||||||Kruskal-Wallis|||||||0.17
82556293|NCT03983434|164821730|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.079|||||||Kruskal-Wallis|||||||0.079
82556294|NCT03983434|164821731|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.47|||||||Kruskal-Wallis|||||||0.47
82556295|NCT03983434|164821733|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.03|||||||Kruskal-Wallis|||||||0.03
82556296|NCT03983434|164821734|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.14|||||||Kruskal-Wallis|||||||0.14
82556297|NCT03983434|164821735|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.074|||||||Kruskal-Wallis|||||||0.074
82556298|NCT03983434|164821736|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82556299|NCT03983434|164821737|OTHER|||||||0.17|||||||Kruskal-Wallis|||||||0.17
82556300|NCT03983434|164821738|OTHER|Due to the skewness of the data, outcome measures were summarized using median and interquartile range.||||||0.98|||||||Kruskal-Wallis|||||||0.98
82556301|NCT03802994|164821799|EQUIVALENCE|Differences between groups were compared using the paired t test|||||<|0.05|TWO_SIDED|80.0|||||t-test, 2 sided|||Differences between groups were compared using the paired t test||||<0.05
82556302|NCT03802994|164821799|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82556303|NCT03802994|164821799|SUPERIORITY||||||<|0.05|TWO_SIDED|80.0|||||t-test, 2 sided|||||||<0.05
82556304|NCT03802994|164821800|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82556305|NCT03802994|164821800|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82556306|NCT03802994|164821801|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82556307|NCT03802994|164821802|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82556308|NCT02646618|164821804|NON_INFERIORITY|We set δ=2% as a relative margin to the 5% weight loss as clinically meaningful cut point and because 2% is not so small a difference in average weight loss between study conditions that we would have to recruit a prohibitively large sample.|Mean Difference (Net)|2.0||||0.0038|TWO_SIDED|95.0|0.6|3.3|||Mixed Models Analysis|||||3.3|0.6|0.0038
82556309|NCT02646618|164821805|NON_INFERIORITY|We set δ=2% as a relative margin to the 5% weight loss as clinically meaningful cut point and because 2% is not so small a difference in average weight loss between study conditions that we would have to recruit a prohibitively large sample.|Mean Difference (Net)|1.2||||0.1485|TWO_SIDED|95.0|-0.4|2.8|||Mixed Models Analysis|||||2.8|-0.4|0.1485
82556310|NCT02646618|164821807|SUPERIORITY|||||||0.248|||||||t-test, 2 sided|||||||0.2480
82556311|NCT02646618|164821812|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in energy (kcal/day) intake, the study is powered at 90% to detect whether the Get Social condition is not inferior to the Traditional condition with a noninferiority margin of 182 kcal/day (SD=500 kcal/day)|Mean Difference (Net)|93.0||||0.2025|TWO_SIDED|95.0|-50.0|237.0|||Mixed Models Analysis|||||237|-50|0.2025
82556312|NCT02646618|164821813|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in energy (kcal/day) intake, the study is powered at 90% to detect whether the Get Social condition is not inferior to the Traditional condition with a noninferiority margin of 182 kcal/day (SD=500 kcal/day)|Mean Difference (Net)|-75.0||||0.3323|TWO_SIDED|95.0|-226.0|77.0|||Mixed Models Analysis|||||77|-226|0.3323
82556313|NCT02646618|164821815|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in moderate to vigorous intensity physical activity minutes per day at 12 months, the noninferiority margin is 9.2 min/day(SD=25 min/day). However, we could not analyze the data in that manner and used the test described above.||||||0.3905|||||||Generalized estimating equation|||We examined the proportion of participants engaging in 150+ minutes/week of moderate/vigorous intensity physical activity (MVPA) using generalized estimating equations with a logit link function and incorporating repeated measures over time. For participants missing MVPA at either follow-up timepoint, we used a baseline observation carried forward approach to impute their activity level (150+ vs \<150 MVPA mins/week) at that timepoint.||||0.3905
82556314|NCT02646618|164821816|NON_INFERIORITY|For secondary noninferiority outcomes, we used 90% power to calculate noninferiority margins given N=131 per arm, setting alpha=.05 and using observed SDs from the literature. For change in moderate to vigorous intensity physical activity minutes per day at 12 months, the noninferiority margin is 9.2 min/day(SD=25 min/day). However, we could not analyze the data in that manner and used the test described above.||||||0.4741|||||||Generalized estimating equation|||We examined the proportion of participants engaging in 150+ minutes/week of moderate/vigorous intensity physical activity (MVPA) using generalized estimating equations with a logit link function and incorporating repeated measures over time. For participants missing MVPA at either follow-up timepoint, we used a baseline observation carried forward approach to impute their activity level (150+ vs \<150 MVPA mins/week) at that timepoint.||||0.4741
82556315|NCT00918203|164821870|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.2133|TWO_SIDED|95.0|0.86|1.93|||Log Rank|||||1.93|0.86|0.2133
82556316|NCT00918203|164821873|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.8731|TWO_SIDED|95.0|0.68|1.57|||Log Rank|||||1.57|0.68|0.8731
82582127|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|34.32|||||TWO_SIDED|90.0|30.83|38.21|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||38.21|30.83|
82582128|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|95.15|||||TWO_SIDED|90.0|89.1|101.62|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||101.62|89.10|
82582129|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.26|||||TWO_SIDED|90.0|68.67|78.16|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||78.16|68.67|
82582130|NCT02074553|164875908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.76|||||TWO_SIDED|90.0|63.48|72.33|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.33|63.48|
82582131|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|95.77|||||TWO_SIDED|90.0|87.54|104.79|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||104.79|87.54|
82556317|NCT00918203|164821874|SUPERIORITY_OR_OTHER|||||||0.4721|||||||Fisher Exact|||||||0.4721
82556318|NCT01447706|164821885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.37||||0.007|TWO_SIDED|95.0|0.18|0.76|||Log Rank|||||0.76|0.18|0.007
82556319|NCT01447706|164821885|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.8||||0.023|TWO_SIDED|95.0|1.08|2.98|||Log Rank|||||2.98|1.08|0.023
82556320|NCT00859781|164821899|SUPERIORITY||proportion difference|0.26||||0.08|TWO_SIDED|95.0|0.008|0.52|||Fisher Exact||Direction = 177Lu-J591 + Ketoconazole proportion free of radiographically evident metastases minus 111ln-J591 + Ketoconazole proportion free of radiographically evident metastases.|||0.52|0.008|0.08
82556321|NCT04057820|164821907|SUPERIORITY||Incidence rate ratio (IRR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.46|0.65|||Mixed Models Analysis|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.65|0.46|<0.0001
82556322|NCT04057820|164821908|SUPERIORITY||Risk Ratio (RR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.3|0.47|||Mixed-effect Poisson w/ robust err var|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.47|0.30|<0.0001
82556323|NCT04057820|164821909|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|-0.4|4.9||||||||4.9|-0.4|
82556324|NCT04057820|164821910|SUPERIORITY||Mean Difference (Final Values)|23.0|||||TWO_SIDED|95.0|8.1|37.9||||||||37.9|8.1|
82556325|NCT04057820|164821911|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.37|1.76||||||||1.76|0.37|
82556326|NCT04057820|164821912|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.3|1.0|||Mixed Models Analysis|||||1.0|-0.3|
82556327|NCT04057820|164821913|SUPERIORITY||Risk Ratio (RR)|1.94|||||TWO_SIDED|95.0|0.94|3.99||||||||3.99|0.94|
82556328|NCT04057820|164821914|SUPERIORITY||Risk Ratio (RR)|1.68|||||TWO_SIDED|95.0|1.13|2.48||||||||2.48|1.13|
82485489|NCT01178073|164664686|SUPERIORITY_OR_OTHER||Median Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test|This comparison was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||0.0|0.0|
82485490|NCT01178073|164664686|SUPERIORITY_OR_OTHER||Median Difference|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Stratified Wilcoxon Rank Sum Test|This comparison was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||0.0|0.0|
82485491|NCT01178073|164664687|SUPERIORITY_OR_OTHER||Median Difference|-0.38|||||TWO_SIDED|95.0|-0.75|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Monotherapy Pooled: Ambrisentan or Tadalafil.|||0.00|-0.75|
82485492|NCT01178073|164664687|SUPERIORITY_OR_OTHER||Median Difference|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Ambrisentan Monotherapy.|||0.00|-1.00|
82485493|NCT01178073|164664687|SUPERIORITY_OR_OTHER||Median Difference|-0.5|||||TWO_SIDED|95.0|-1.0|0.0|||Stratified Wilcoxon Rank Sum Test|This endpoint was not formally tested according to the pre-defined hierarchical testing procedure.|Median difference is for Combination Therapy: Ambrisentan + Tadalafil - Tadalafil Monotherapy.|||0.00|-1.00|
82485494|NCT01352468|164664688|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|Controlling for baseline scores||||||.35
82485495|NCT01352468|164664689|SUPERIORITY_OR_OTHER|||||||0.68|||||||ANCOVA|Controlling for baseline scores||||||.68
82485496|NCT01352468|164664690|SUPERIORITY_OR_OTHER|||||||0.57|||||||ANCOVA|Controlling for baseline scores||||||.57
82485497|NCT03496571|164664691|SUPERIORITY||LSM Difference from Placebo|-95.0|||<|0.001|TWO_SIDED|95.0|-122.0|-68.0|||ANCOVA|||||-68|-122|<0.001
82485498|NCT03496571|164664691|SUPERIORITY||LSM Difference from Placebo|-102.0|||<|0.001|TWO_SIDED|95.0|-128.0|-76.0|||ANCOVA|||||-76|-128|<0.001
82485499|NCT03496571|164664691|SUPERIORITY||LSM Difference from Placebo|-98.0|||<|0.001|TWO_SIDED|95.0|-121.0|-76.0|||ANCOVA|||||-76|-121|<0.001
82485500|NCT03496571|164664692|SUPERIORITY||Percent Difference from Placebo|55.0|||<|0.001|TWO_SIDED|95.0|27.0|76.0|||Fisher Exact|||||76|27|<0.001
82556329|NCT04057820|164821915|SUPERIORITY||Incidence ratio ratio (IRR)|0.56|||||TWO_SIDED|95.0|0.49|0.64|||Mixed Models Analysis|The model adjusted for study design (i.e., fixed time effect and random site effect) and randomization scheme stratification indicator.||||0.64|0.49|
82485501|NCT03496571|164664692|SUPERIORITY||Percent Difference from Placebo|62.0|||<|0.001|TWO_SIDED|95.0|34.0|82.0|||Fisher Exact|||||82|34|<0.001
82485502|NCT03496571|164664692|SUPERIORITY||Percent Difference from Placebo|58.0|||<|0.001|TWO_SIDED|95.0|36.0|74.0|||Fisher Exact|||||74|36|<0.001
82485503|NCT03496571|164664693|SUPERIORITY||LSM Difference from Placebo|-20.0||||0.05|TWO_SIDED|95.0|-40.0|0.0|||ANCOVA|||||0|-40|0.05
82485504|NCT03496571|164664693|SUPERIORITY||LSM Difference from Placebo|-33.0||||0.002|TWO_SIDED|95.0|-53.0|-13.0|||ANCOVA|||||-13|-53|0.002
82485505|NCT03496571|164664693|SUPERIORITY||LSM Difference from Placebo|-26.0||||0.004|TWO_SIDED|95.0|-44.0|-9.0|||ANCOVA|||||-9|-44|0.004
82485506|NCT01226043|164664708|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|2.15|2.44|||ANOVA|The last observation carried forward (LOCF) method was applied to impute missing Week 4 overall patient preference values for ANOVA analysis.||The hypothesis was to determine whether patients have higher preference score for Lantus® SoloSTAR® pen compared to Lantus® vial/syringe. Differences of patient preference score greater than 0.5 were considered clinically meaningful. The power for detecting a true difference of 0.5 considering a standard deviation from 1.6 to 2.5, assuming 130 evaluable patients per arm and a two-sided test at 0.05 significance level ranged from 89% to more than 99%.||2.44|2.15|<0.0001
82485507|NCT00910988|164664731|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||This p-value corresponds to the two way interaction between time and order and is not adjusted for multiple comparisons. The a priori threshold for statistical significance is alpha equal to 0.05. There was no 3 way interaction.|ANCOVA|Repeated measures ANCOVA with time as the repeated measure, drug assignment as a fixed factor, and order as a fixed factor.||The hypothesis being tested is whether there is a significant effect of one or both antipsychotics on whole body insulin sensitivity. Sample size was calculated using power calculations to detect significant effects of treatment on insulin sensitivity. Drug assignment is a 2-level fixed factor (olanzapine vs ziprasidone) as is order (drug first vs placebo first). Baseline of the dependent variable as well as baseline DEXA total fat were entered into the model as covariates.||||0.001
82485508|NCT00910988|164664734|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED|95.0||||This p-value corresponds to the 3 way interaction between time, drug (olanzapine vs ziprasidone), and order (drug first vs placebo first) and is not adjusted for multiple comparisons.|ANCOVA|||The null hypothesis is that olanzapine and ziprasidone would result in acute decreases in insulin sensitivity compared to placebo at adipose tissue, which was measured by evaluating the rate of appearance of labeled glycerol. The alternative hypothesis is that olanzapine, but not ziprasidone, would result in acute decreases in insulin sensitivity compared to placebo at adipose tissue.||||0.57
82556330|NCT04057820|164821917|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.71|1.47||||||||1.47|0.71|
82556331|NCT02415127|164821940|SUPERIORITY|||||||0.5442||||||From a repeated-measures ANCOVA with fixed effects of treatment, visit, and treatment\*visit with baseline score and investigative site as covariates using an unstructured covariance matrix, testing ACTIMMUNE® vs placebo.|ANCOVA|||The primary and secondary efficacy endpoints were tested in a hierarchical manner. Each endpoint was tested in sequential order and the current endpoint must have shown statistical significance (p \< 0.05) prior to performing testing the next endpoint. The primary endpoint, FARS-mNeuro, was to be tested first, followed by the key secondary endpoint, ADL, followed by the other secondary endpoints, T25FW, FARS-mNeuro responder rate, and FARStot.||||0.5442
82556332|NCT03801148|164822004|EQUIVALENCE|Natural log (ln)-transformed-Cmax, was analyzed using an analysis of variance (ANOVA) model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric least square mean (LSM) ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed Cmax.|Geometric LSM ratio|0.98|||||TWO_SIDED|90.0|0.9171|1.0473||||||||1.0473|0.9171|
82485509|NCT01977937|164664736|OTHER|Differences in average pre-operative \& total post-operative average VAS scores were compared between groups using an unpaired Mann-Whitney rank sum test. Hospitalization outcomes including number of days to transition off PCA, number of days with Foley catheter, \& episodes of nausea, emesis, or POSS \> 3 were compared between groups using an unpaired two-tailed Student's t-test. Statistical significance was defined as p\<0.05 for all unpaired parametric and non-parametric comparisons.||||||0.07|||||||t-test, 2 sided|||D'Agostino \& Pearson normality test was used to assess for normal distribution. Experimental \& control groups were assessed for significant differences in age, hospital days, \& spinal levels fused using unpaired two-tailed Student's t-test. Differences in weight \& BMI were assessed using unpaired Mann-Whitney rank sum test. Differences in average VAS scores on the operative day, each post-operative day, and average total daily opioid were compared using an unpaired two-tailed Student's t-test.||||0.07
82485510|NCT01977937|164664737|OTHER|||||||0.02|||||||t-test, 2 sided|||Differences in the average total daily opioid were compared between groups using an unpaired two-tailed Student's t-test||||0.02
82485511|NCT00191646|164664812|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||Log Rank|||Using a two-sided log-rank test with a Type I error of 0.05, 636 events for PFS out of the 919 patients would give an 80% statistical power under the alternative hypothesis that the hazard ratio of the G/C arm versus the P/C arm was 0.08.||||0.199
82556333|NCT03801148|164822004|EQUIVALENCE|ln-transformed-Cmax, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed Cmax.|Geometric LSM ratio|1.0737|||||TWO_SIDED|90.0|1.0025|1.1501||||||||1.1501|1.0025|
82556334|NCT03801148|164822005|EQUIVALENCE|ln-transformed- AUClast, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUClast.|Geometric LSM ratio|1.0455|||||TWO_SIDED|90.0|1.007|1.0855||||||||1.0855|1.0070|
82556335|NCT03801148|164822005|EQUIVALENCE|ln-transformed- AUClast, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUClast.|Geometric LSM ratio|1.061|||||TWO_SIDED|90.0|1.0192|1.1046||||||||1.1046|1.0192|
82556336|NCT03801148|164822006|EQUIVALENCE|ln-transformed- AUC0\_infobs, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infobs.|Geometric LSM ratio|1.0553|||||TWO_SIDED|90.0|1.0186|1.0933||||||||1.0933|1.0186|
82556337|NCT03801148|164822006|EQUIVALENCE|ln-transformed- AUC0\_infobs, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infobs.|GMR|1.0468|||||TWO_SIDED|90.0|1.0027|1.0929||||||||1.0929|1.0027|
82485512|NCT00191646|164664813|SUPERIORITY_OR_OTHER|||||||0.771||95.0|||||Fisher Exact|||||||0.771
82556338|NCT03801148|164822007|EQUIVALENCE|ln-transformed- AUC0\_infpred, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 30 mg capsule manufactured at TOB compared with dexlansoprazole 30 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infpred.|Geometric LSM ratio|1.0555|||||TWO_SIDED|90.0|1.0188|1.0935||||||||1.0935|1.0188|
82556339|NCT03801148|164822007|EQUIVALENCE|ln-transformed- AUC0\_infpred, was analyzed using an ANOVA model to assess the relative bioavailability of dexlansoprazole 60 mg capsule manufactured at TOB compared with dexlansoprazole 60 mg capsule manufactured at TPC. Geometric LSM ratios were calculated using the exponentiation of the difference between treatment LSM from the analyses on the ln-transformed AUC0\_infpred.|Geometric LSM ratio|1.0472|||||TWO_SIDED|90.0|1.0029|1.0934||||||||1.0934|1.0029|
82556340|NCT05405244|164822056|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|||Snack intake||||0.45
82556341|NCT05405244|164822056|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Milkshake intake||||0.28
82556342|NCT05405244|164822057|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||Pleasantness||||0.89
82556343|NCT05405244|164822057|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Desire to consume||||<0.001
82556344|NCT03577106|164822084|OTHER||||||<|0.005||||||t(20)=3.3, p\<0.005|paired t-test|||Mean difference using a paired t-test||||<0.005
82485513|NCT00191646|164664813|SUPERIORITY_OR_OTHER|||||||0.784||95.0|||||Fisher Exact|||||||0.784
82556345|NCT03601715|164822088|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
82556346|NCT03601715|164822089|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
82485514|NCT00191646|164664814|SUPERIORITY_OR_OTHER|||||||0.621||95.0|||||Log Rank|||||||0.621
82485515|NCT00191646|164664815|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||Log Rank|||||||0.013
82556347|NCT03601715|164822090|SUPERIORITY||||||<|0.05||||||Bonferroni post-hoc tests.|ANOVA|||Based on a pilot test with eight subjects, we calculated that we would need 18 subjects to give 90% power to detect the most efficient arrangement with a α level of .05. Considering losses to follow up , we increased the sample size by 10%.|Effect size was calculated through partial eta squared and correlated using Cohen index (.1 to .3 as small, .3 to .5 as medium, and over .5 as large).|||<0.05
82556348|NCT02347332|164822091|SUPERIORITY|||||||0.8329|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.8329
82556349|NCT02347332|164822092|SUPERIORITY|||||||0.3576|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.3576
82556350|NCT02347332|164822093|SUPERIORITY|||||||0.467|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.467
82556351|NCT02347332|164822094|SUPERIORITY|||||||0.243|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.243
82556352|NCT02347332|164822095|SUPERIORITY|||||||0.6289|TWO_SIDED|95.0||||Threshold significance value p\<0.05|Log Rank|||||||0.6289
82556353|NCT01478594|164822099|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.091||||0.706|TWO_SIDED|95.0|0.693|1.718|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|An interim futility analysis was to be performed when approximately 83 PFS events (50% of the total PFS events) were observed. The Lans DeMets beta spending function with an O'Brien-Fleming boundary was used to derive the futility boundary. If the hazard ratio (HR) for PFS was greater than 1.0581, enrollment was to be stopped. With this futility stopping rule, the adjusted study power was 78.6%.||1.718|0.693|0.706
82556354|NCT01478594|164822101|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.116||||0.754|TWO_SIDED|95.0|0.561|2.218|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||2.218|0.561|0.754
82556355|NCT01478594|164822102|SUPERIORITY_OR_OTHER|||||||0.718|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).||||||0.718
82582132|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|78.69|||||TWO_SIDED|90.0|71.97|86.04|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||86.04|71.97|
82582133|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|53.91|||||TWO_SIDED|90.0|49.27|58.98|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||58.98|49.27|
82556356|NCT01478594|164822103|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.389||||0.437|TWO_SIDED|95.0|0.604|3.194|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||3.194|0.604|0.437
82556357|NCT01478594|164822104|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.006||||0.967|TWO_SIDED|95.0|0.746|1.358|||Log Rank|Stratification factors were LDH status (\< 1.5 x ULN or ≥ 1.5 x ULN), origin of cancer (rectal or colon) and number of metastatic sites (1 or ≥ 2).|HR presented for the stratified analysis, which was based on the Cox proportional hazards model. Assuming proportional hazards, an HR \< 1 indicates a reduction in the HR in favor of tivozanib.|||1.358|0.746|0.967
82556358|NCT01478594|164822107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.331|||||TWO_SIDED|95.0|0.746|2.375|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.375|0.746|
82556359|NCT01478594|164822107|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.575|||||TWO_SIDED|95.0|0.285|1.16|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.160|0.285|
82556360|NCT01478594|164822108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.608|||||TWO_SIDED|95.0|0.635|4.073|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.073|0.635|
82582134|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.16|||||TWO_SIDED|90.0|86.14|94.37|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.37|86.14|
82556361|NCT01478594|164822108|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.755|||||TWO_SIDED|95.0|0.375|1.521|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.521|0.375|
82556362|NCT01478594|164822109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.877|||||TWO_SIDED|95.0|0.366|2.1|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.100|0.366|
82485516|NCT01505647|164664843|NON_INFERIORITY_OR_EQUIVALENCE|The GMT induced by ZOSTAVAX™ (AMP) vaccine is statistically non-inferior to that induced by the current process vaccine if the lower bound of the 95% confidence interval of the GMT ratio is \>0.67.|GMT Ratio|1.08|||<|0.001|TWO_SIDED|95.0|0.98|1.2||The threshold for statistical significance is 0.025 (1-sided). The P-value was not adjusted.|Longitudinal regression model|The analyzed GMT ratio, 95% confidence interval, and P-value were based on a longitudinal regression model adjusting for age and vaccination group||The hypothesis tested is that the GMT at Week 6 postvaccination with ZOSTAVAX™ (AMP) vaccine is non-inferior to that with the current process vaccine||1.20|0.98|<0.001
82485517|NCT01505647|164664844|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The threshold for statistical significance is 0.025 (1-sided). The P-value was not adjusted.|t-test, 1 sided|||The hypothesis tested was that ZOSTAVAX™ (AMP) induces an acceptable GMFR in VZV antibody titer from prevaccination to 6 weeks postvaccination||||<0.001
82556363|NCT01478594|164822109|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.275|||||TWO_SIDED|95.0|0.614|2.646|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.646|0.614|
82556364|NCT01478594|164822110|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.721|||||TWO_SIDED|95.0|0.345|1.507|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.507|0.345|
82556365|NCT01478594|164822110|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.597|||||TWO_SIDED|95.0|0.672|3.795|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.795|0.672|
82556366|NCT01478594|164822111|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.627|||||TWO_SIDED|95.0|0.58|4.564|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.564|0.580|
82556367|NCT01478594|164822111|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.779|||||TWO_SIDED|95.0|0.397|1.531|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.531|0.397|
82556368|NCT01478594|164822112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.946|||||TWO_SIDED|95.0|0.636|5.956|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||5.956|0.636|
82556369|NCT01478594|164822112|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.806|||||TWO_SIDED|95.0|0.422|1.538|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.538|0.422|
82556370|NCT01478594|164822113|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.776|||||TWO_SIDED|95.0|0.303|1.991|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.991|0.303|
82582135|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.76|||||TWO_SIDED|90.0|70.52|77.15|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||77.15|70.52|
82582136|NCT02074553|164875910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|70.94|||||TWO_SIDED|90.0|67.8|74.22|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||74.22|67.80|
82485518|NCT01436162|164664855|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.92||0.583|TWO_SIDED|95.0|-2.3|1.3|||Mixed-effects Model for Repeat Measures|||||1.3|-2.3|0.583
82556371|NCT01478594|164822113|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|||||TWO_SIDED|95.0|0.615|2.501|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.501|0.615|
82556372|NCT01478594|164822114|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.343|2.63|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.630|0.343|
82556373|NCT01478594|164822114|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.983|||||TWO_SIDED|95.0|0.503|1.918|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.918|0.503|
82556374|NCT01478594|164822115|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.226|||||TWO_SIDED|95.0|0.468|3.214|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.214|0.468|
82582137|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|93.05|||||TWO_SIDED|90.0|84.24|102.78|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||102.78|84.24|
82485519|NCT01436162|164664856|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.65||0.354|TWO_SIDED|95.0|-1.9|0.7|||Mixed-effects Model for Repeat Measures|||||0.7|-1.9|0.354
82485520|NCT05032859|164664880|SUPERIORITY||Risk Ratio, log|2.27|||<|0.0001|TWO_SIDED|95.0|1.54|3.32|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|H0: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is equal between tapinarof cream, 1% and vehicle cream; H1: The proportion of subjects who achieve a vIGA-AD score of clear (0) or almost clear (1) and at least a 2-grade reduction from Baseline at Week 8 is different between the tapinarof cream, 1% and vehicle cream.||3.32|1.54|<0.0001
82485521|NCT05032859|164664881|SUPERIORITY||Risk Ratio, log|2.14|||<|0.0001|TWO_SIDED|95.0|1.53|3.0|||Cochran-Mantel-Haenszel|Stratified by vIGA-AD score at Baseline (vIGA-AD scores of 3 or 4) and age group (2-6 yrs, 7-11 yrs, 12-17 yrs, 18+ yrs)|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.00|1.53|<0.0001
82485522|NCT05032859|164664882|SUPERIORITY||Least squares mean difference|-6.6|STANDARD_ERROR_OF_MEAN|0.803|<|0.0001|TWO_SIDED|95.0|-8.17|-5.02|||ANCOVA|age\*vIGA cohort and treatment as categorical covariates, and baseline %BSA as a continuous covariate||||-5.02|-8.17|<0.0001
82485523|NCT05032859|164664883|SUPERIORITY||Risk Ratio, log|2.34||||0.0013|TWO_SIDED|95.0|1.39|3.94|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.||Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|3.94|1.39|0.0013
82485524|NCT05032859|164664884|SUPERIORITY||Risk Ratio, log|2.17||||0.0015|TWO_SIDED|95.0|1.34|3.5|||Cochran-Mantel-Haenszel|Stratified by Baseline vIGA-AD Score and Age Group|Adjusted logit-based estimate of the common relative risk of success (Tapinarof Cream 1%/Vehicle Cream) over all strata. Multiple imputation p-value is for null hypothesis that the log (Relative Risk) equals 0.|||3.50|1.34|0.0015
82485525|NCT01535664|164664885|SUPERIORITY_OR_OTHER||Difference in least square means|4.04|STANDARD_ERROR_OF_MEAN|1.51||0.015|TWO_SIDED|95.0|0.87|7.2||A step-down procedure using the primary statistical analysis was followed. If the p-value for the overall gait was less than 0.05, then overall balance was tested in the same manner. Otherwise, the testing procedure was stopped.|Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment.||The co-primary efficacy variable was overall gait. This novel composite score was created from standardized individual NeuroCom test results (Z-scores). Overall gait was the average of WA, TW, and SQT; a higher score is indicative of better performance.||7.20|0.87|0.015
82485526|NCT01535664|164664886|SUPERIORITY_OR_OTHER||Difference in least square means|1.7|STANDARD_ERROR_OF_MEAN|0.5||0.003|TWO_SIDED|95.0|0.7|2.8|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||2.8|0.7|0.003
82556375|NCT01478594|164822115|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232|||||TWO_SIDED|95.0|0.447|3.396|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.396|0.447|
82556376|NCT01478594|164822116|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.803|||||TWO_SIDED|95.0|0.307|2.1|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.100|0.307|
82556377|NCT01478594|164822116|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.505|||||TWO_SIDED|95.0|0.585|3.873|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.873|0.585|
82556378|NCT01478594|164822117|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.921|||||TWO_SIDED|95.0|0.356|2.385|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.385|0.356|
82556379|NCT01478594|164822117|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|0.462|3.22|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.220|0.462|
82556380|NCT01478594|164822118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.915|||||TWO_SIDED|95.0|0.334|2.512|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||2.512|0.334|
82556381|NCT01478594|164822118|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.384|||||TWO_SIDED|95.0|0.554|3.455|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||3.455|0.554|
82556382|NCT01478594|164822119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.538|||||TWO_SIDED|95.0|0.548|4.32|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||4.320|0.548|
82556383|NCT01478594|164822119|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.744|||||TWO_SIDED|95.0|0.299|1.85|||||The hazard ratio was calculated using an unadjusted Cox proportional hazard model including treatment arms as the covariate. Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of Tivozanib arm.|||1.850|0.299|
82556384|NCT01970007|164822130|OTHER||Freedom from MAE rate (%)|96.7|||<|0.0001|TWO_SIDED|95.0|93.5|98.6|||One-sided Exact binomial test||One-sided Exact binomial test|||98.6|93.5|<0.0001
82556385|NCT01970007|164822131|OTHER||12-month quantitative patency rate (%)|89.9|||<|0.0001|TWO_SIDED|95.0|85.1|93.4|||Binomial test for one proportion||Binomial test for one proportion|||93.4|85.1|<0.0001
82556386|NCT01970007|164822132|OTHER||Change from Baseline Mean|-3.0|||<|0.0001|TWO_SIDED|95.0|-3.5|-2.6||P-value is adjusted for multiplicity|paired t-test|A paired t-test with p-values adjusted for multiple comparisons using the Holm's procedure to control for a family-wise Type I error rate of 0.05.||||-2.6|-3.5|<0.0001
82556387|NCT01970007|164822133|OTHER||Change from Baseline Mean|-4.2|||<|0.0001|TWO_SIDED|95.0|-4.7|-3.7||p-value is adjusted for multiplicity.|pair t-test|A paired t-test with p-values adjusted for multiple comparisons using the Holm's procedure to control for a family-wise Type I error rate of 0.05||||-3.7|-4.7|<0.0001
82556388|NCT04250194|164822145|NON_INFERIORITY|The noninferiority margin was 10%.|absolute difference in percentage points|5.4||||0.003|TWO_SIDED|95.0|-6.5|17.2||The threshold for statistical significance was p = 0.05. The p value was not adjusted for multiple comparisons.|One-sided two-sample z-test||Difference in diagnostic accuracy = navigational bronchoscopy % - transthoracic biopsy %|||17.2|-6.5|0.003
82556389|NCT01499849|164822164|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.3|2.7||To control for multiplicity, analyses were performed hierarchically. For the CR delayed the threshold for statistical significance was 0.05; no further adjustment for multiplicity were required for the primary endpoint.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.7|1.3|<0.001
82556390|NCT01499849|164822165|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.005|TWO_SIDED|95.0|1.2|2.8||To control for multiplicity, analyses were performed hierarchically. CR-acute was tested only if the result for the primary endpoint, CR delayed, was statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.8|1.2|0.005
82556391|NCT01499849|164822166|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.001|TWO_SIDED|95.0|1.3|2.6||To control for multiplicity, analyses were performed hierarchically. CR overall was tested only if both CR delayed and CR acute were statistically significant.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test was stratified by sex. Missing data were imputed as treatment failures.||||2.6|1.3|0.001
82556392|NCT00174252|164822168|SUPERIORITY_OR_OTHER||Percentage|86.0|||||TWO_SIDED|95.0|74.2|93.7|||||95% CI was estimated using the F-distribution.|"Applies to no."||93.7|74.2|
82556393|NCT00174252|164822168|SUPERIORITY_OR_OTHER||Percentage|14.0||||||95.0|6.3|25.8|||||95% confidence interval (CI) was estimated using the F-distribution.|"Applies to yes."||25.8|6.3|
82582138|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|74.35|||||TWO_SIDED|90.0|67.37|82.06|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||82.06|67.37|
82556394|NCT00174252|164822182|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.002||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.002
82582139|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|43.94|||||TWO_SIDED|90.0|39.78|48.53|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||48.53|39.78|
82556395|NCT00174252|164822183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.023||95.0||||Bilateral test multiple comparison threshold for statistical significance = 0.05|ANCOVA|Adjusted for height SD at baseline.||||||0.023
82556396|NCT00174252|164822184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.708||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.708
82556397|NCT00174252|164822185|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.325||95.0|||||ANCOVA|Adjusted for height SD at baseline.||||||0.325
82556398|NCT00622700|164822208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.0087|TWO_SIDED|95.0|0.379|0.869||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure, starting with the test of teriflunomide 14 mg versus placebo was used. Time to conversion to CDMS was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.869|0.379|0.0087
82556399|NCT00622700|164822208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.628||||0.0271|TWO_SIDED|95.0|0.416|0.949||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The second step was the test of teriflunomide 7 mg versus placebo for time to conversion to CDMS. Time to conversion to CDMS was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.949|0.416|0.0271
82556400|NCT00622700|164822209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.651||||0.0003|TWO_SIDED|95.0|0.515|0.822||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The third step was the test of teriflunomide 14 mg versus placebo for time to conversion to DMS. This was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.822|0.515|0.0003
82556401|NCT00622700|164822209|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.686||||0.002|TWO_SIDED|95.0|0.54|0.871||P value was derived using Wald chi-squared test in the Cox proportional hazard model.|Wald chi-squared|||A step-down hierarchical testing procedure was used. The fourth step was the test of teriflunomide 7 mg versus placebo for time to conversion to DMS. This was analyzed using the Cox proportional hazard model with treatment, region, and baseline monofocal/multifocal status as covariates.||0.871|0.540|0.0020
82556402|NCT03611556|164822236|SUPERIORITY||Rate difference|-8.0||||0.3614|TWO_SIDED|95.0|-27.6|12.1||Nominal P-value for comparison of treatment groups obtained from Cochran-Mantel-Haenszel-test was stratified by cluster of differentiation 73 (CD73) level.|Cochran-Mantel-Haenszel||||80% Confidence Interval 2-Sided: -20.9 to 5.2|12.1|-27.6|0.3614
82485527|NCT01535664|164664887|SUPERIORITY_OR_OTHER||Difference in least square means|7.729|STANDARD_ERROR_OF_MEAN|2.495||0.006|TWO_SIDED|95.0|2.507|12.95|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||12.950|2.507|0.006
82485528|NCT01535664|164664888|SUPERIORITY_OR_OTHER||Difference in least square means|0.36|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.19|0.54|||Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||||0.54|0.19|<.001
82485529|NCT01535664|164664889|SUPERIORITY_OR_OTHER||Difference in least square means|-2.38|STANDARD_ERROR_OF_MEAN|2.97||0.434|TWO_SIDED|95.0|-8.6|3.84||A step-down procedure using the primary statistical analysis was followed. If the p-value for the overall gait was less than 0.05, then overall balance was tested in the same manner. Otherwise, the testing procedure was stopped.|Mixed Models Analysis|P-value is based on a mixed model ANOVA with a fixed effect for treatment||The co-primary efficacy variable was overall balance. This novel composite score was created from standardized individual NeuroCom test results (Z-scores). Overall balance was a weighted average of SOT, LOS, and ADT.||3.84|-8.60|0.434
82485530|NCT01876810|164664912|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1|TWO_SIDED|95.0||||For all analyses, results are considered significant at p\<.05.|t-test, 2 sided|||||||0.1
82556403|NCT03611556|164822236|SUPERIORITY||Rate difference|3.8||||0.6503|TWO_SIDED|95.0|-13.2|20.7||Nominal P-value for comparison of treatment groups obtained from Cochran-Mantel-Haenszel-test was stratified by CD73 level.|Cochran-Mantel-Haenszel||||80% Confidence Interval 2-Sided: -7.4 to 15.0|20.7|-13.2|0.6503
82556404|NCT03611556|164822243|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.79|1.983|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.983|0.790|
82556405|NCT03611556|164822243|SUPERIORITY||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.498|1.131|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.131|0.498|
82556406|NCT03611556|164822245|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.726|1.837|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.837|0.726|
82582140|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|90.21|||||TWO_SIDED|90.0|86.12|94.49|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.49|86.12|
82485531|NCT01876810|164664912|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.1|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.1
82485532|NCT01876810|164664913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.034||0.9|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.9
82485533|NCT01876810|164664913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|0.05||0.9|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|t-test, 2 sided|||||||0.9
82485534|NCT01876810|164664914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.3|STANDARD_ERROR_OF_MEAN|31.7||0.4|TWO_SIDED|95.0|||||ANOVA|Repeated-measures ANOVA on Drug X Cue X Time were used|participants self-reportd VAS craving at the time of neutral cue presentation|||||0.4
82485535|NCT01876810|164664914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.7|STANDARD_ERROR_OF_MEAN|26.5||0.4|TWO_SIDED|95.0||||For all analyses, results were considered significant at p\< 0.05|ANOVA|Repeated-measures ANOVA on Drug X Cue X Time were used||||||0.4
82485536|NCT01948310|164664931|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
82485537|NCT01948310|164664931|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||0-14 weeks||||0.03
82485538|NCT01948310|164664931|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
82485539|NCT01948310|164664931|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||14-0 weeks||||0.005
82485540|NCT01948310|164664932|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
82485541|NCT01948310|164664932|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||14-0 weeks||||>0.05
82485542|NCT01948310|164664932|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||2-0 weeks||||0.03
82485543|NCT01948310|164664932|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||14-0 weeks||||>0.05
82485544|NCT01948310|164664933|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
82485545|NCT01948310|164664933|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||0-14 weeks||||0.13
82485546|NCT01948310|164664933|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||2-0 weeks||||>0.05
82485547|NCT01948310|164664933|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||14-0 weeks||||0.013
82485548|NCT01557894|164664934|SUPERIORITY_OR_OTHER||||||<|0.01|ONE_SIDED|95.0||||The a priori threshold for statistical significance was set at .05|ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor||||||<0.01
82485549|NCT01557894|164664935|SUPERIORITY_OR_OTHER||||||<|0.01|ONE_SIDED|95.0||||The a priori threshold for statistical significance was set at .05|ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor||||||<0.01
82485550|NCT01557894|164664936|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Changes in primary outcome measures were evaluated using univariate ANCOVA, with pre-intervention scores as covariates, and group as a fixed factor.||||||<0.01
82485551|NCT01557894|164664937|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
82556407|NCT03611556|164822245|SUPERIORITY||Hazard Ratio (HR)|0.719|||||TWO_SIDED|95.0|0.468|1.105|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model stratified by CD73 level with ties handled by the Efron method.|||1.105|0.468|
82485552|NCT01557894|164664938|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|||||||<0.01
82556408|NCT03611556|164822249|SUPERIORITY||Rate difference|-1.7|||||TWO_SIDED|95.0|-25.2|21.9||||||||21.9|-25.2|
82556409|NCT03611556|164822249|SUPERIORITY||Rate difference|7.5|||||TWO_SIDED|95.0|-12.6|27.0||||||||27.0|-12.6|
82556410|NCT03611556|164822249|SUPERIORITY||Rate difference|-25.6|||||TWO_SIDED|95.0|-58.3|13.9||||||||13.9|-58.3|
82556411|NCT03611556|164822249|SUPERIORITY||Rate difference|-6.9|||||TWO_SIDED|95.0|-39.1|26.6||||||||26.6|-39.1|
82556412|NCT03611556|164822250|SUPERIORITY||Hazard Ratio (HR)|1.173|||||TWO_SIDED|95.0|0.676|1.985|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||1.985|0.676|
82556413|NCT03611556|164822250|SUPERIORITY||Hazard Ratio (HR)|0.605|||||TWO_SIDED|95.0|0.377|0.968|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||0.968|0.377|
82556414|NCT03611556|164822250|SUPERIORITY||Hazard Ratio (HR)|1.549|||||TWO_SIDED|95.0|0.622|3.917|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.917|0.622|
82556415|NCT03611556|164822250|SUPERIORITY||Hazard Ratio (HR)|1.472|||||TWO_SIDED|95.0|0.638|3.576|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.576|0.638|
82582141|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|72.72|||||TWO_SIDED|90.0|69.48|76.12|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||76.12|69.48|
82556416|NCT03611556|164822252|SUPERIORITY||Hazard Ratio (HR)|1.004|||||TWO_SIDED|95.0|0.584|1.693|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||1.693|0.584|
82556417|NCT03611556|164822252|SUPERIORITY||Hazard Ratio (HR)|0.598|||||TWO_SIDED|95.0|0.366|0.973|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||0.973|0.366|
82556418|NCT03611556|164822252|SUPERIORITY||Hazard Ratio (HR)|1.933|||||TWO_SIDED|95.0|0.716|5.437|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||5.437|0.716|
82556419|NCT03611556|164822252|SUPERIORITY||Hazard Ratio (HR)|1.374|||||TWO_SIDED|95.0|0.55|3.707|||||Hazard ratio for comparison between treatment groups obtained from Cox Proportional Hazards model with ties handled by the Efron method.|||3.707|0.550|
82556420|NCT05580003|164822305|OTHER||Ratio of Adjusted Geometric Means|101.29|||||TWO_SIDED|90.0|95.71|107.18|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUCinf||107.18|95.71|
82556421|NCT05580003|164822305|OTHER||Ratio of Adjusted Geometric Means|102.74|||||TWO_SIDED|90.0|97.28|108.5|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUCinf||108.50|97.28|
82556422|NCT05580003|164822305|OTHER||Ratio of Adjusted Geometric Means|97.83|||||TWO_SIDED|90.0|91.32|104.8|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUClast||104.80|91.32|
82485553|NCT03402659|164664939|OTHER||Mean Difference (Final Values)|-0.06098|STANDARD_ERROR_OF_MEAN|0.105548||0.564|TWO_SIDED|95.0|-0.26973|0.14777|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||0.14777|-0.26973|0.564
82485554|NCT03402659|164664940|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.72||0.823|TWO_SIDED|95.0|-6.0|4.8|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||4.8|-6.0|0.823
82485555|NCT03402659|164664941|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.806|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Mean change from baseline neflamapimod vs placebo||0.6|-0.4|0.806
82485556|NCT03402659|164664942|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.39||0.489|TWO_SIDED|95.0|-1.0|0.5|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||0.5|-1.0|0.489
82485557|NCT03402659|164664943|OTHER||Mean Difference (Final Values)|-18.8|STANDARD_ERROR_OF_MEAN|8.6||0.031|TWO_SIDED|95.0|-35.8|-1.8|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||-1.8|-35.8|0.031
82556423|NCT05580003|164822305|OTHER||Ratio of Adjusted Geometric Means|102.41|||||TWO_SIDED|90.0|95.6|109.7|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|AUClast||109.70|95.60|
82556424|NCT05580003|164822306|OTHER||Ratio of Adjusted Geometric Means|67.18|||||TWO_SIDED|90.0|58.13|77.65|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|||77.65|58.13|
82556425|NCT05580003|164822306|OTHER||Ratio of Adjusted Geometric Means|74.12|||||TWO_SIDED|90.0|64.14|85.67|||||A mixed effect model was used with sequence, period and treatment as fixed effect and participant nested within sequence as random effect. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages.|||85.67|64.14|
82556426|NCT05580003|164822342|OTHER||Ratio of Adjusted Geometric Means|72.87|||||TWO_SIDED|90.0|60.98|87.09|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUCinf||87.09|60.98|
82556427|NCT05580003|164822342|OTHER||Ratio of Adjusted Geometric Means|76.45|||||TWO_SIDED|90.0|68.35|85.52|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUCinf||85.52|68.35|
82485558|NCT03402659|164664944|OTHER||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.79||0.012|TWO_SIDED|95.0|-3.6|-0.5|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||-0.5|-3.6|0.012
82556428|NCT05580003|164822342|OTHER||Ratio of Adjusted Geometric Means|73.52|||||TWO_SIDED|90.0|65.7|82.27|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUClast||82.27|65.70|
82485559|NCT03402659|164664945|OTHER||Mean Difference (Final Values)|-117.4|STANDARD_ERROR_OF_MEAN|314.0||0.709|TWO_SIDED|95.0|-738.9|504.2|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||504.2|-738.9|0.709
82556429|NCT05580003|164822342|OTHER||Ratio of Adjusted Geometric Means|75.16|||||TWO_SIDED|90.0|66.36|85.13|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|AUClast||85.13|66.36|
82556430|NCT05580003|164822343|OTHER||Ratio of Adjusted Geometric Means|76.72|||||TWO_SIDED|90.0|60.21|97.75|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|||97.75|60.21|
82556431|NCT05580003|164822343|OTHER||Ratio of Adjusted Geometric Means|70.92|||||TWO_SIDED|90.0|53.7|93.67|||||A paired t-test was used. Values had been back-transformed from natural log scale. Ratios (and 90% CIs) were expressed as percentages|||93.67|53.70|
82556432|NCT03500549|164822380|SUPERIORITY|The primary endpoint analysis was a between-treatment-group comparison using a mixed effect model for repeated measures (MMRM). The difference between pegcetacoplan and eculizumab LS mean Hb changes from Baseline at Week 16 was calculated along with its 2-sided 95% confidence interval (CI) and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|3.84|||<|0.0001|TWO_SIDED|95.0|2.33|5.34||Superiority was tested at the 5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||5.34|2.33|<0.0001
82582142|NCT02074553|164875911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|69.34|||||TWO_SIDED|90.0|66.23|72.61|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||72.61|66.23|
82485560|NCT03402659|164664946|OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|16.03||0.192|TWO_SIDED|95.0|-52.7|10.7|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||10.7|-52.7|0.192
82485561|NCT03402659|164664947|OTHER||Mean Difference (Final Values)|-21.0|STANDARD_ERROR_OF_MEAN|11.43||0.068|TWO_SIDED|95.0|-43.6|1.6|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||1.6|-43.6|0.068
82485562|NCT03402659|164664948|OTHER||Mean Difference (Final Values)|-110.1|STANDARD_ERROR_OF_MEAN|77.11||0.156|TWO_SIDED|95.0|-262.7|42.4|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||42.4|-262.7|0.156
82485563|NCT03402659|164664949|OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.59|TWO_SIDED|95.0|0.0|0.0|||ANCOVA|||Mean change from baseline neflamapimod vs placebo||0.0|-0.0|0.590
82556433|NCT03500549|164822381|NON_INFERIORITY|Analysis was based on prespecified non-inferiority margins (NIM) and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of -20%. Stratified Cochran-Mantel Haenszel (CMH) chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified (Miettinen-Nurminen) method.|Risk Difference (RD)|0.6253|||<|0.0001|TWO_SIDED|95.0|0.483|0.7677||Non-inferiority was tested at the 2.5% level.|Miettinen-Nurminen|||||0.7677|0.4830|<0.0001
82556434|NCT03500549|164822382|NON_INFERIORITY|Analysis was based on prespecified NIM and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of 10.|LS mean difference|-163.61|||<|0.0001|TWO_SIDED|95.0|-189.91|-137.3||Non-inferiority was tested at the 2.5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-137.30|-189.91|<0.0001
82556435|NCT03500549|164822383|NON_INFERIORITY|Analysis was based on prespecified NIM and non-inferiority was achieved if the lower confidence limit or upper confidence limit of the 95% CI of the treatment difference met the prespecified NIM of 20.|LS mean difference|-4.63||||0.9557|TWO_SIDED|95.0|-181.3|172.04||Non-inferiority was tested at the 2.5% level. MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||172.04|-181.30|0.9557
82556436|NCT03500549|164822384|OTHER|Non-inferiority was not assessed because of the prespecified hierarchical testing. Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|11.87||||0.0005|TWO_SIDED|95.0|5.49|18.25||MRMM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||18.25|5.49|0.0005
82556437|NCT03500549|164822385|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.6745|||||TWO_SIDED|95.0|0.5452|0.8039|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.8039|0.5452|
82485564|NCT01442038|164664951|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.948||||0.48|TWO_SIDED|95.0|0.818|1.099||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying percutaneous coronary intervention (PCI): acute coronary syndrome (ACS) versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.099|0.818|0.48
82485565|NCT01442038|164664952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.4|TWO_SIDED|95.0|0.244|1.691||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.691|0.244|0.40
82485566|NCT01442038|164664953|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.82|TWO_SIDED|95.0|0.579|1.994||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.994|0.579|0.82
82485567|NCT01442038|164664954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.968||||0.81|TWO_SIDED|95.0|0.745|1.256||The p-value and hazard ratio are from Cox proportional hazards model stratifying by reason for qualifying PCI: ACS versus non-ACS indication, and history of diabetes (yes versus no).|Cox Proportional Hazards Model|||||1.256|0.745|0.81
82485568|NCT02128828|164664960|SUPERIORITY|||||||0.0079|||||||Wilcoxon (Mann-Whitney)|||||||0.0079
82485569|NCT01068652|164665017|NON_INFERIORITY_OR_EQUIVALENCE|The treatment comparison was based on a non-inferiority criterion and the following hypotheses were tested: H0: μDetemir - μBIAsp 30 ≥0.4% against the alternative hypothesis (Detemir non-inferior to BIAsp 30) HA: μDetemir - μBIAsp 30 \<0.4% where μBIAsp 30 and μDetemir are the mean HbA1c after 50 weeks of treatment with the two treatment regimens.|Mean Difference (Final Values)|0.11||||0.3406||95.0|-0.12|0.34|||ANCOVA|||To investigate the effect of different treatments, an analysis of covariance (ANCOVA) model was used to analyse HbA1c at week 50 with treatment group (2 categories: insulin detemir and aspart; BIAsp 30), country and pre-trial OAD(s) treatment (one OAD vs. more OADs) as factors and HbA1c at baseline (week 0) as a covariate. The treatment difference was estimated and a 95% confidence interval (CI) for the difference was calculated.||0.34|-0.12|0.3406
82485570|NCT00417482|164665043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.94||||0.02|TWO_SIDED|95.0|1.09|3.45|||Stratified Cox analysis|||The primary hypothesis of a difference in survival functions between the initial Phase B placebo (Arm 3) and risperidone continuation (Arms 1+2) conditions was tested in the primary analysis using the stratified Cox analysis. For descriptive purposes, the overall rate of relapse was assessed as the number of follow-up or for secondary interpretative support, as a simple proportion of patients entering a 16-week period.||3.45|1.09|0.02
82485571|NCT00417482|164665044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.88||||0.02|TWO_SIDED|95.0|1.08|21.98|||stratified cox analyses|||Similar analyses were used to test the secondary hypothesis in the relapse risk in weeks 17 to 32 of Phase B between the patients who continued to receive risperidone (Arm 1) \& the patients who discontinued risperidone at week 16 \& were switched to placebo (Arm 2). Patients who died \& those in whom a relapse was considered to be imminent before they were dropped out in Phase B were classified as having relapse.||21.98|1.08|0.02
82556438|NCT03500549|164822386|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.6639|||||TWO_SIDED|95.0|0.5309|0.7968|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.7968|0.5309|
82556439|NCT03500549|164822387|OTHER|Stratified CMH chi-square test was used for treatment comparison and the 95% CI for difference in percentage between treatments is constructed using the stratified Miettinen-Nurminen method.|Difference in percentage|0.3043|||||TWO_SIDED|95.0|0.1493|0.4593|||||The difference in percentage and 95% CI is calculated based on stratified Miettinen-Nurminen method stratified by randomization factor so it it is not a direct difference of two reporting groups.|||0.4593|0.1493|
82556440|NCT03500549|164822388|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-21.93||||0.0002|TWO_SIDED|95.0|-32.49|-11.36||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-11.36|-32.49|0.0002
82556441|NCT03500549|164822389|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-0.14||||0.0369|TWO_SIDED|95.0|-0.28|-0.01||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||-0.01|-0.28|0.0369
82582143|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|98.79|||||TWO_SIDED|90.0|91.25|106.95|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||106.95|91.25|
82582144|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|91.58|||||TWO_SIDED|90.0|84.65|99.08|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||99.08|84.65|
82582145|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.41|||||TWO_SIDED|90.0|67.81|79.47|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.47|67.81|
82582146|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.81|||||TWO_SIDED|90.0|85.62|92.13|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||92.13|85.62|
82485572|NCT00417482|164665045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_ERROR_OF_MEAN|0.36||0.08|TWO_SIDED|95.0|-0.08|1.35|||t-test, 2 sided|||The null hypothesis is that there is no difference between the risperidone and placebo groups over the 16 week period post randomization, with respect to change in MMSE.||1.35|-0.08|0.08
82485573|NCT00417482|164665046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.49||0.94||95.0|-1.01|0.93|||t-test, 2 sided|||The null hypothesis is that there is no difference between the risperidone and placebo groups over the 16 week period post randomization, with respect to change in TESS.||0.93|-1.01|0.94
82485574|NCT00417482|164665047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.48||0.26|TWO_SIDED|95.0|-1.5|0.41|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in EPS, between randomization and week 16, is zero.||0.41|-1.50|0.26
82485575|NCT00417482|164665048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.14||0.13|TWO_SIDED|95.0|-0.5|0.07|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in AIMS, between randomization and week 16, is zero.||0.07|-0.50|0.13
82485576|NCT00417482|164665049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.43||0.149|TWO_SIDED|95.0|-1.47|0.23|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in PSMS, between randomization and week 16, is zero.||0.23|-1.47|0.149
82485577|NCT00417482|164665050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|1.69||0.81|TWO_SIDED|95.0|-3.77|2.95|||t-test, 2 sided|||The null hypothesis is that the difference between placebo and risperidone groups in terms of mean change in weight, between randomization and week 16, is zero.||2.95|-3.77|0.81
82485578|NCT06400979|164665051|SUPERIORITY|||||||0.008|||||||ANCOVA|||||||0.008
82485579|NCT06400979|164665052|SUPERIORITY|To assess the reduction of nausea following aromatherapy, pre- and post- aromatherapy scores were compared using paired t-tests||||||0.13|||||||ANCOVA|||||||0.13
82556442|NCT03500549|164822390|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|59.1||||0.0069|TWO_SIDED|95.0|16.88|101.32||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||||101.32|16.88|0.0069
82485580|NCT06400979|164665053|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82485581|NCT06400979|164665054|OTHER|Perceived effectiveness of aromatherapy for patient satisfaction were compared with respect to post-aromatherapy scores and pre-post changes in scores using two-sample t-tests||||||0.02|TWO_SIDED|73.4|||||t-test, 2 sided|||||||0.02
82485582|NCT06400979|164665055|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
82485583|NCT06400979|164665056|SUPERIORITY|||||||0.02|||||||ANCOVA|||||||0.02
82485584|NCT01367119|164665073|SUPERIORITY_OR_OTHER|||||||0.171||95.0|||||t-test, 2 sided|||P-values take into account variability across treatments and within subject.||||0.171
82485585|NCT01367119|164665074|SUPERIORITY_OR_OTHER|||||||0.258||95.0|||||t-test, 2 sided|||P-values take into account variability across treatments and within subject.||||0.258
82485586|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||t-test, 2 sided|||Comparison between groups for nausea||||0.091
82485587|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||t-test, 2 sided|||Comparison between groups for headache||||0.763
82485588|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.356||95.0|||||t-test, 2 sided|||Comparison between groups for myalgia||||0.356
82485589|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||t-test, 2 sided|||Comparison between groups for visual disturbance||||0.093
82485590|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||t-test, 2 sided|||Comparison between groups for confusion||||0.003
82485591|NCT01367119|164665075|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||Comparison between groups for recovery room agitation||||0.860
82485592|NCT02398409|164665092|SUPERIORITY||Mean Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.117||0.8407|TWO_SIDED|||||Adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression.|Mixed Models Analysis|||12 weeks compared to Baseline (BL)||||.8407
82485593|NCT02398409|164665092|SUPERIORITY||Median Difference (Net)|0.201|STANDARD_ERROR_OF_MEAN|0.12||0.015|TWO_SIDED|||||Adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression.|Mixed Models Analysis|||At 6 months compared to BL||||.0150
82485594|NCT02398409|164665092|SUPERIORITY||Median Difference (Net)|0.114|STANDARD_ERROR_OF_MEAN|0.188||0.8373|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared BL||||.8373
82485595|NCT02398409|164665093|SUPERIORITY||Median Difference (Net)|0.016|STANDARD_ERROR_OF_MEAN|0.173||0.6445|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||12 weeks compared to BL||||.6445
82485596|NCT02398409|164665093|SUPERIORITY||Median Difference (Net)|0.033|STANDARD_ERROR_OF_MEAN|0.158||0.5247|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||6 months compared to BL||||.5247
82485597|NCT02398409|164665093|SUPERIORITY||Median Difference (Net)|0.1224|STANDARD_ERROR_OF_MEAN|0.187||0.9974|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.9974
82485598|NCT02398409|164665094|SUPERIORITY||Median Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.087||0.1918|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||12 weeks compared to BL||||.1918
82485599|NCT02398409|164665094|SUPERIORITY||Median Difference (Net)|0.046|STANDARD_ERROR_OF_MEAN|0.078||0.9212|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||6 months compared to BL||||.9212
82485600|NCT02398409|164665094|SUPERIORITY||Median Difference (Net)|0.026|STANDARD_ERROR_OF_MEAN|0.083||0.2358|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.2358
82485601|NCT02398409|164665095|SUPERIORITY|adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Median Difference (Net)|0.008|STANDARD_ERROR_OF_MEAN|0.168||0.1107|TWO_SIDED||||||Mixed Models Analysis|||12 weeks compared to BL||||.1107
82485602|NCT02398409|164665095|SUPERIORITY|adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Median Difference (Net)|0.251|STANDARD_ERROR_OF_MEAN|0.211||0.0562|TWO_SIDED||||||Mixed Models Analysis|||6 months compared to BL||||.0562
82485603|NCT02398409|164665095|SUPERIORITY||Median Difference (Net)|0.226|STANDARD_ERROR_OF_MEAN|0.218||0.8579|TWO_SIDED|||||adjusting for the covariates of diagnosis and baseline mean value in caregivers' depression|Mixed Models Analysis|||1 year compared to BL||||.8579
82485604|NCT02314143|164665098|OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.224|4.459|||Cochran-Mantel-Haenszel||The odds ratio for dabrafenib followed by combination therapy versus combination therapy has been presented.|||4.459|0.224|1.0000
82485605|NCT02314143|164665098|OTHER||Odds Ratio (OR)|1.97||||0.4216|TWO_SIDED|95.0|0.382|10.166|||Cochran-Mantel-Haenszel||The odds ratio for trametinib followed by combination therapy versus combination therapy has been presented.|||10.166|0.382|0.4216
82485606|NCT00089674|164665112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||<|0.0001||95.0|6.2|7.1|||ANCOVA|||||7.1|6.2|<0.0001
82485607|NCT00089674|164665113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||<|0.0001||95.0|3.5|4.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||4.4|3.5|<0.0001
82485608|NCT00089674|164665114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|||<|0.0001||95.0|4.4|5.1||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||5.1|4.4|<0.0001
82485609|NCT00089674|164665115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||<|0.0001||95.0|7.4|8.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||8.4|7.4|<0.0001
82485610|NCT00089674|164665116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|||<|0.0001||95.0|4.4|5.4||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||5.4|4.4|<0.0001
82485611|NCT00089674|164665117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|||<|0.0001||95.0|5.4|6.1||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|ANCOVA|||||6.1|5.4|<0.0001
82485612|NCT00089674|164665118|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.1048||95.0|0.46|1.08||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||1.08|0.46|0.1048
82485613|NCT00089674|164665119|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.0125||95.0|0.18|0.78||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||0.78|0.18|0.0125
82485614|NCT00089674|164665120|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.7961||95.0|0.57|1.55||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Cox|||||1.55|0.57|0.7961
82485615|NCT00089674|164665121|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.7961||95.0|0.44|1.11||Adjusted for multiplicity using the prespecified hierarchical analysis strategy and Hochberg procedure|Regression, Logistic|||||1.11|0.44|0.7961
82485616|NCT03963401|164665122|SUPERIORITY||Mean Difference (Final Values)|21.23|STANDARD_ERROR_OF_MEAN|10.51||0.1172|TWO_SIDED|90.0|3.94|38.52|||Normal approximation, Dunnett's method|||||38.52|3.94|0.1172
82485617|NCT03963401|164665122|SUPERIORITY||Median Difference (Final Values)|23.38|STANDARD_ERROR_OF_MEAN|8.58||0.0197|TWO_SIDED|90.0|9.26|37.5|||Normal approximation, Dunnett's Method|||||37.50|9.26|0.0197
82556443|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|18.62||||0.0486|TWO_SIDED|95.0|0.12|37.13||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Global Health Status/QoL: Difference in LS mean||37.13|0.12|0.0486
82556444|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|12.86||||0.0023|TWO_SIDED|95.0|4.86|20.86||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Physical functioning: Difference in LS mean||20.86|4.86|0.0023
82556445|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|24.43||||0.0027|TWO_SIDED|95.0|8.84|40.01||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Role functioning: Difference in LS mean||40.01|8.84|0.0027
82485618|NCT03963401|164665122|SUPERIORITY||Median Difference (Final Values)|31.29|STANDARD_ERROR_OF_MEAN|8.29||0.0006|TWO_SIDED|90.0|17.65|44.93|||Normal approximation, Dunnett's Method|||||44.93|17.65|0.0006
82485619|NCT03963401|164665123|SUPERIORITY||Mean Difference (Final Values)|20.95|STANDARD_ERROR_OF_MEAN|11.09||0.0588|TWO_SIDED|90.0|2.72|39.19|||Normal approximation method|||||39.19|2.72|0.0588
82485620|NCT03963401|164665123|SUPERIORITY||Median Difference (Final Values)|26.31|STANDARD_ERROR_OF_MEAN|8.87||0.003|TWO_SIDED|90.0|11.72|40.9|||Normal approximation method|||||40.90|11.72|0.0030
82485621|NCT03963401|164665123|SUPERIORITY||Median Difference (Final Values)|31.21|STANDARD_ERROR_OF_MEAN|8.68||0.0003|TWO_SIDED|90.0|16.93|45.5|||Normal approximation method|||||45.50|16.93|0.0003
82556446|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|4.11||||0.6013|TWO_SIDED|95.0|-11.58|19.8||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Emotional functioning: Difference in LS mean||19.80|-11.58|0.6013
82556447|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|9.56||||0.1792|TWO_SIDED|95.0|-4.52|23.64||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Cognitive functioning: Difference in LS mean||23.64|-4.52|0.1792
82556448|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|11.27||||0.1039|TWO_SIDED|95.0|-2.38|24.92||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Functional Scales - Social functioning: Difference in LS mean||24.92|-2.38|0.1039
82556449|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-20.74||||0.0062|TWO_SIDED|95.0|-35.29|-6.19||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Fatigue: Difference in LS mean||-6.19|-35.29|0.0062
82582147|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|77.74|||||TWO_SIDED|90.0|74.99|80.6|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||80.60|74.99|
82582148|NCT02074553|164875914|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|76.65|||||TWO_SIDED|90.0|73.92|79.49|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.49|73.92|
82582149|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|89.41|||||TWO_SIDED|90.0|81.7|97.84|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||97.84|81.7|
82582150|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|66.84|||||TWO_SIDED|90.0|61.12|73.1|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||73.1|61.12|
82582151|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|42.32|||||TWO_SIDED|90.0|38.68|46.32|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||46.32|38.68|
82582152|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.76|||||TWO_SIDED|90.0|84.21|93.56|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||93.56|84.21|
82556450|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-0.01||||0.9975|TWO_SIDED|95.0|-8.38|8.35||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Nausea and vomiting: Difference in LS mean||8.35|-8.38|0.9975
82485622|NCT00252629|164665267|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||t-test, 2 sided|||The change of fatigue complaint from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.0002
82485623|NCT00252629|164665268|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||t-test, 2 sided|||The change of pain symptom from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.0008
82485624|NCT00252629|164665269|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||The change of cognitive dysfunction complaint from baseline (before treatment) to post treatment ( after 3 weeks treatment) on either therapeutic CPAP or sham CPAP was compared with student t-test.||||0.004
82485625|NCT00252629|164665270|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||t-test, 2 sided|||The p value was based on t-test||||0.0001
82485626|NCT03911843|164665272|SUPERIORITY||Mean Difference (Net)|-0.14|||<|0.05|TWO_SIDED|95.0||||the p-value of significance was calculated using the analysis system|Wilcoxon (Mann-Whitney)|||||||<0.05
82485627|NCT03911843|164665272|SUPERIORITY||Mean Difference (Net)|-0.14|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82485628|NCT03911843|164665273|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82485629|NCT03911843|164665274|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82485630|NCT02819518|164665277|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.012|TWO_SIDED|95.0|0.7|0.98||One-sided p-value based on log-rank test stratified by chemotherapy (taxane versus \[vs\] gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs. no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, tumor PD-L1 status, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.98|0.70|0.0120
82485631|NCT02819518|164665278|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0016|TWO_SIDED|95.0|0.62|0.91||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.91|0.62|0.0016
82485632|NCT02819518|164665279|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0018|TWO_SIDED|95.0|0.5|0.88||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.88|0.50|0.0018
82485633|NCT02819518|164665280|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0797|TWO_SIDED|95.0|0.76|1.05||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, tumor PD-L1 status, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||1.05|0.76|0.0797
82485634|NCT02819518|164665281|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0563|TWO_SIDED|95.0|0.72|1.04||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||1.04|0.72|0.0563
82485635|NCT02819518|164665282|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0093|TWO_SIDED|95.0|0.55|0.95||One-sided p-value based on log-rank test stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|Log Rank||Based on Cox regression model with treatment as a covariate stratified by chemotherapy on study, and prior treatment with same class of chemotherapy in the (neo)adjuvant setting.|||0.95|0.55|0.0093
82485636|NCT02819518|164665283|SUPERIORITY||Difference in ORR (%) vs. Control|3.8||||0.1413|TWO_SIDED|95.0|-3.2|10.6|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||10.6|-3.2|0.1413
82485637|NCT02819518|164665284|SUPERIORITY||Difference in ORR (%) vs. Control|6.1||||0.0725|TWO_SIDED|95.0|-2.1|14.0|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||14.0|-2.1|0.0725
82582153|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.82|||||TWO_SIDED|90.0|71.99|79.86|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.86|71.99|
82651511|NCT01412541|165017813|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The evaluable sample size required for 90% power is 150 (50 Control plus 100 Test). This endpoint is not the sample-size driver of the study. Randomization of 476 subjects is expected to provide at least 405 evaluable subjects, after adjustment for up to 15% censoring) and approximately 99% power.||||||0.025|||||||Farrington and Manning|||"To assess if proportion of subjects with at least one safety event\* in the Test group is inferior or not inferior to that of Control group through 12-months Post index procedure (PPI) H0: The proportion of subjects with safety events in the Test group through 12-months PPI is clinically inferior to that of the Control group.~H1: The proportion of subjects with safety events in the Test group through 12-months PPI is clinically non-inferior to that of the Control group."||||0.025
82485638|NCT02819518|164665285|SUPERIORITY||Difference in ORR(%) vs. Control|12.1||||0.0213|TWO_SIDED|95.0|0.4|23.4|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo)adjuvant setting (yes vs no).|||23.4|0.4|0.0213
82485639|NCT02819518|164665289|SUPERIORITY||Difference in DCR (%) vs. control|4.7||||0.0966|TWO_SIDED|95.0|-2.4|11.8|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin), tumor PD-L1 status (CPS ≥1 vs CPS \<1) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||11.8|-2.4|0.0966
82485640|NCT02819518|164665290|SUPERIORITY||Difference in DCR (%) vs. Control|5.0||||0.1164|TWO_SIDED|95.0|-3.2|13.1|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||13.1|-3.2|0.1164
82485641|NCT02819518|164665291|SUPERIORITY||Difference in DCR (%) vs. Control|10.8||||0.0327|TWO_SIDED|95.0|-0.7|22.3|||Cochran-Mantel-Haenszel||Based on Miettinen \& Nurminen method stratified by chemotherapy on study (taxane vs gemcitabine/carboplatin) and prior treatment with same class of chemotherapy in the (neo) adjuvant setting (yes vs no).|||22.3|-0.7|0.0327
82485642|NCT01907100|164665303|OTHER||Hazard Ratio (HR)|0.555||||0.0174|TWO_SIDED|95.0|0.34|0.907|||Proportional hazards mode||Hazard ratio, confidence interval and p-value obtained from proportional hazards model stratified by tumour histology (epithelioid vs. biphasic).|Phase II Part||0.907|0.340|0.0174
82485643|NCT01907100|164665303|OTHER||Hazard Ratio (HR)|1.01||||0.543|TWO_SIDED|95.0|0.79|1.3||one-sided p-value|Proportional hazards model||Hazard ratio, confidence interval and p-value obtained from a non-stratified proportional hazards model.|"Phase III part:~A Cox proportional hazards model was fitted to estimate hazard ratios (HRs) and corresponding 95% confidence intervals (CIs) for the comparison of treatment arms (Nintedanib vs Placebo).~If the hazard ratio is below 1 then it favours nintedanib."||1.30|0.79|0.5430
82485644|NCT01907100|164665304|OTHER||Hazard Ratio (HR)|0.782||||0.4132|TWO_SIDED|95.0|0.433|1.412|||Proportional hazards mode||Hazard ratio, confidence interval and p-value obtained from proportional hazards model stratified by tumour histology (epithelioid vs. biphasic).|Phase II||1.412|0.433|0.4132
82485645|NCT01907100|164665304|OTHER||Hazard Ratio (HR)|1.12||||0.7306|TWO_SIDED|95.0|0.79|1.58||one-sided p-value|Proportional hazards model||Hazard ratio, confidence interval and p-value obtained from a non-stratified proportional hazards model.|"Phase III:~A Cox proportional hazards model was fitted to estimate hazard ratios (HRs) and corresponding 95% confidence intervals (CIs) for the comparison of treatment arms (Nintedanib vs Placebo).~If the hazard ratio is below 1 then it favours nintedanib."||1.58|0.79|0.7306
82485646|NCT01907100|164665305|OTHER||Odds Ratio (OR)|1.09||||0.3189|TWO_SIDED|95.0|0.76|1.58||one-sided p-value|Regression, Logistic|Odds ratio and one-sided p-value are obtained from an un-adjusted logistic regression model (Nintedanib vs Placebo).|Odds ratio above 1 favours nintedanib.||Exact 95% CI by Clopper and Pearson.|1.58|0.76|0.3189
82485647|NCT01907100|164665306|OTHER||Odds Ratio (OR)|0.79||||0.7512|TWO_SIDED|95.0|0.4|1.55||one-sided p-value|Regression, Logistic|Odds ratio and one-sided p-value are obtained from an un-adjusted logistic regression model (Nintedanib vs Placebo).|Odds ratio above 1 favours nintedanib.|||1.55|0.40|0.7512
82485648|NCT00667602|164665317|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Percentage Difference|-8.0|||||TWO_SIDED|95.0|-15.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||The primary criterion for immunogenicity was that the lower limit of the two-sided 95% confidence interval (CI) for the difference between one dose of MenACWY-CRM197 and MenC in the percentage of subjects with hSBA ≥1:8 for serogroup C at 1 month following the 12 months vaccination was greater than -10% .||-1|-15|
82485649|NCT00667602|164665318|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Percentage difference|-7.0|||||TWO_SIDED|95.0|-13.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||The primary criterion for immunogenicity was that the lower limit of the two-sided 95% confidence interval (CI) for the difference between one dose of MenACWY-CRM197 and MenC in the percentage of subjects with hSBA ≥ 1:4 for serogroup C at 1 month following the 12 months vaccination was greater than -10%.||-2|-13|
82485650|NCT00667602|164665319|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|72.0|||||TWO_SIDED|95.0|64.0|79.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:8, prevaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||79|64|
82485651|NCT00667602|164665319|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Net)|7.0|||||TWO_SIDED|95.0|3.0|13.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:8, one month postvaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||13|3|
82485652|NCT00667602|164665319|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|80.0|||||TWO_SIDED|95.0|73.0|86.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:4, prevaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||86|73|
82556451|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-2.76||||0.7554|TWO_SIDED|95.0|-20.36|14.85||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Pain: Difference in LS mean||14.85|-20.36|0.7554
82556452|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-14.57||||0.062|TWO_SIDED|95.0|-29.9|0.76||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Dyspnoea: Difference in LS mean||0.76|-29.90|0.0620
82556453|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|0.32||||0.9686|TWO_SIDED|95.0|-15.67|16.3||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Insomnia: Difference in LS mean||16.30|-15.67|0.9686
82556454|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-7.95||||0.3002|TWO_SIDED|95.0|-23.23|7.33||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Appetite loss: Difference in LS mean||7.33|-23.23|0.3002
82556455|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|1.79||||0.8374|TWO_SIDED|95.0|-15.7|19.29||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Constipation: Difference in LS mean||19.29|-15.70|0.8374
82556456|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-1.38||||0.8775|TWO_SIDED|95.0|-19.28|16.52||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Diarrhoea: Difference in LS mean||16.52|-19.28|0.8775
82556457|NCT03500549|164822391|OTHER|Analysis was a between-treatment-group comparison using an MMRM. The difference between pegcetacoplan and eculizumab LS mean changes from Baseline at Week 16 was calculated along with its 2-sided 95% CI and associated P-value from the MMRM model for the ITT set, censored for transfusions.|LS mean difference|-7.4||||0.3066|TWO_SIDED|95.0|-21.76|6.95||MMRM includes treatment + baseline value + analysis visit + strata + analysis visit × treatment, where strata is the combination of randomization stratification factors.|MMRM|||Symptom Scales - Financial difficulties: Difference in LS mean||6.95|-21.76|0.3066
82556458|NCT03500549|164822392|OTHER|Wilcoxon rank-sum test P-value for the comparison between treatments is based on median using stratified non-parametric analysis. The 95% CI is constructed using Hodges-Lehmann Estimation of Location Shift.|Median Difference (Final Values)|3.0|||<|0.0001|TWO_SIDED|95.0|2.0|4.0|||Wilcoxon rank-sum test|||||4.0|2.0|<0.0001
82582154|NCT02074553|164875915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|73.26|||||TWO_SIDED|90.0|69.53|77.19|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||77.19|69.53|
82651512|NCT01412541|165017814|EQUIVALENCE|The statistical analysis is a likelihood ratio chi-square test for inequality of binomial proportions; the test is a two-sided test at α=0.05. The response variable in each subject will be the presence or absence of at least one efficacy event from the time following the index procedure through 12 months. The study evaluable sample size required for 90% power is approximately 405 subjects. After adjustment for 15% censoring through 12 months, the study size is 476.||||||0.05|||||||Chi-squared|The statistical analysis is a likelihood ratio chi-square test for inequality of binomial proportions; the test is a two-sided test.||"To assess whether the proportion of subjects with at least one efficacy event\* in the Test group is equal or not to that of Control group through 12-months post-index procedure.~H0: The proportion of subjects with efficacy events in the Control group through 12-months post-index procedure is equal to that of the Test group.~H1: The proportion of subjects with efficacy events in the Control group through 12-months post-index procedure is not equal to that of the Test group."||||0.05
82556459|NCT00979121|164822406|SUPERIORITY_OR_OTHER||difference in % of pts alive at 60 days|4.0||||0.21|TWO_SIDED|95.0|-2.3|10.2||The monitoring boundaries were designed to have a low probability of stopping for futility before 750 patients. The maximum sample size was 1000 patients. Efficacy stopping was based on mortality; futility stopping was based on mortality and VFDs.|Proc lifetest|Proc lifetest was used to calculate mortality mean and variance due to one subject lost to follow up who was censored.||Hospital mortality to day 60 was estimated using the Kaplan Meier estimate, with patients discharged home before day 60 considered alive at day 60. The analysis was stratified by co-enrolled treatment assignments for 81 patients also enrolled in a randomized clinical trial of two different nutritional strategies. A maximum of 1000 patients were to be enrolled, providing a 92% probability of rejecting the null hypothesis for the effect on mortality if a true difference in mortality was 9%.||10.2|-2.3|0.21
82556460|NCT00979121|164822407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.96||95.0|-1.6|1.5|||ANCOVA|||Ventilator, ICU free, and organ failure free days were analyzed by analysis of variance, utilizing treatment assignment where applicable.||1.5|-1.6|0.96
82556461|NCT01532999|164822439|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks. Data structure involved repeated measures over time nested within participant, who in turn, was nested within a therapy group. Models included a random intercept, a random slope, and fixed effects for treatment condition, time, and the stratification variable (site). Rejection of the null hypothesis of no treatment effect if this interaction was statistically significant (two-tailed α = .05).||||0.5
82556462|NCT01532999|164822440|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.57
82485653|NCT00667602|164665319|NON_INFERIORITY_OR_EQUIVALENCE|(PMenACWY - PMenC \> -10%).|Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.0|5.0|||Percentage difference|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Comparisons to MenC were based on the percentages of subjects with response (hSBA ≥1:4, one month postvaccination) to serogroup C. MenACWY was determined to be noninferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY and MenC in the percentage of subjects with response towards serogroup C was greater than -10%.||5|-2|
82485654|NCT00667602|164665321|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenC \> 0.5).|Ratio|0.92|||||TWO_SIDED|95.0|0.76|1.12|||ANOVA|||For comparison of the Geometric Mean Titers, prevaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||1.12|0.76|
82485655|NCT00667602|164665321|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenC \> 0.5).|Ratio|0.73|||||TWO_SIDED|95.0|0.57|0.93|||ANOVA|||For comparison of the Geometric Mean Titers, one month postvaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||0.93|0.57|
82485656|NCT00667602|164665323|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenjugate \> 0.5).|Ratio|10.0|||||TWO_SIDED|95.0|8.43|13.0|||ANOVA|||For comparison of the GMTs (prevaccination), MenACWY was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the ratio of the MenACWY to MenC GMTs for serogroup C was greater than 0.5 .||13|8.43|
82485657|NCT00667602|164665323|NON_INFERIORITY_OR_EQUIVALENCE|(GMTMenACWY/GMTMenjugate \> 0.5).|Ratio|8.1|||||TWO_SIDED|95.0|6.35|10.0|||ANOVA|||For comparison of the GMTs (one month postvaccination), MenACWY was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the ratio of the MenACWY to MenC GMTs for serogroup C was greater than 0.5.||10|6.35|
82485658|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥0.1 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82485659|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥0.1 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82485660|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-3.0|5.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥1.0 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||5|-3|
82485661|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Diptheria Toxin ≥1.0 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-3|
82485662|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 0.1 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82556463|NCT01532999|164822442|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.4
82556464|NCT01532999|164822443|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.8
82556465|NCT01532999|164822444|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.4
82556466|NCT01532999|164822445|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Regression, Linear|||Three-level mixed-effects linear regression analysis comparing MBSR and PCGT groups over 9 weeks.||||0.35
82556467|NCT01532999|164822446|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Regression, Logistic|||Mixed effects logistic regression analysis.||||0.3
82556468|NCT01532999|164822447|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Regression, Logistic|||Mixed effects logistic regression analysis.||||0.7
82556469|NCT03280030|164822452|OTHER|Success criteria is considered based on point estimated Hazard ratio|Hazard Ratio, log|1.326|||||TWO_SIDED|95.0|0.624|2.818||||||||2.818|0.624|
82485663|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 0.1 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, for any of the antigens, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82582155|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|97.23|||||TWO_SIDED|90.0|89.85|105.21|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||105.21|89.85|
82485664|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-2.0|||||TWO_SIDED|95.0|-6.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 1.0 IU/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-6|
82485665|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti-Tetanus Toxin ≥ 1.0 IU/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-6|
82485666|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 1, one month postvaccination), given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
82485667|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 1, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
82485668|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-2.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 2, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-2|
82485669|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-3.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 2, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-3|
82485670|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (polio 3, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
82556470|NCT03211247|164822465|OTHER||Proportion difference|33.4|||<|0.001|TWO_SIDED|95.0|22.36|44.49|||Wald test||The 2-sided Farrington-Manning 95% confidence interval for the difference in response rates was calculated.|Analysis of the difference in response rates between DBV712 250 μg group and Placebo group and 2-sided Farrington-Manning 95% confidence interval (CI). P-value was obtained from a 2-sided 5% test to evaluate the null hypothesis of no difference in response rates between treatment groups using the Wald method. Clinical relevance was evaluated based on the lower bound of the Farrignton-Manning 95% CI of the difference in response rates ≥15%.||44.49|22.36|<0.001
82651513|NCT00782509|165017847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.116|0.185|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.185|0.116|<0.0001
82556471|NCT04538352|164822535|OTHER|p value of contrast difference compared from MDI to Semaglutide group at specific time point, testing whether contrast difference is equal to 0, which means there is no difference between two groups. The determination of statistical significance was made using Bonferroni-adjusted p-value, setting the significance threshold at 0.01 after multiplicity correction.||||||0.009||||||p value is adjusted for the multiple comparison. The significance threshold is set to 0.01.|Bonferroni-adjusted p-value|||"Linear mixed effect model was conducted for each endpoint to assess mean change at each time point, with time, treatment groups, the interaction of treatment groups and time, and baseline variables included and adjusted in each model.~Mean change difference between patients with MDI and those with Semaglutide (MDI - Semaglutide)"||||0.009
82556472|NCT04538352|164822536|OTHER|p value of contrast difference compared from MDI to Semaglutide group at specific time point, testing whether contrast difference is equal to 0, which means there is no difference between two groups. The determination of statistical significance was made using Bonferroni-adjusted p-value, setting the significance threshold at 0.01 after multiplicity correction.|||||<|0.001||||||p value is adjusted for the multiple comparison. The significance threshold is set to 0.01.|Bonferroni-adjusted p-value|||"Linear mixed effect model was conducted for each endpoint to assess mean change at each time point, with time, treatment groups, the interaction of treatment groups and time, and baseline variables included and adjusted in each model.~Mean change difference between patients with MDI and those with Semaglutide (MDI - Semaglutide)"||||<0.001
82556473|NCT05630833|164822541|OTHER||Lower 10th percentile (%)|48.2|||||||||||||Lower 10th percentile of therapeutic successes was calculated from the predictive distribution.|As defined in Statistical Analysis Plan, consistency with the global studies is demonstrated if the success criterion for gepotidacin is set to require a therapeutic response rate greater than lower 10th percentile value of the predictive distribution.||||
82556474|NCT03905694|164822576|OTHER|Not applied|Least Squares (LS) Mean|-71.97|||||TWO_SIDED|95.0|-77.52|-66.42|||Mixed model for repeated measures (MMRM)|||Mixed-effect Model Repeated Measures (MMRM) includes scheduled visits (months 3, 4, 5, and 6) and baseline spot urinary oxalate:creatine ratio as fixed effects. Autoregressive (1) was used to model the within-patient error.||-66.42|-77.52|
82556475|NCT05048394|164822600|EQUIVALENCE|Equivalence is defined as a difference of 0.|||||<|0.001||||||Threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82556476|NCT05048394|164822601|EQUIVALENCE|Equivalence is defined as a difference of 0.||||||0.14||||||Threshold for significance was p = 0.05.|Wilcoxon (Mann-Whitney)|||||||0.14
82556477|NCT02798471|164822602|NON_INFERIORITY|The edoxaban-to-comparator hazard ratio will be computed with 95% confidence interval (CI) (two-sided) based on this model. Edoxaban will be considered non-inferior to comparator if the upper limit of the 95% CI is ≤1.5.|Hazard Ratio (HR)|1.01||||0.9694|TWO_SIDED|95.0|0.594|1.719|||Regression, Cox|||Statistical analysis for the composite primary efficacy endpoint||1.719|0.594|0.9694
82582156|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|87.16|||||TWO_SIDED|90.0|80.59|94.26|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||94.26|80.59|
82556478|NCT00065182|164822648|SUPERIORITY||Hazard Ratio (HR)|1.007||||0.946|TWO_SIDED|95.0|0.813|1.248|||Log Rank||Unadjusted hazard ratio.|||1.248|0.813|0.9460
82556479|NCT00065182|164822648|SUPERIORITY||Hazard Ratio (HR)|0.977|||||TWO_SIDED|95.0|0.788|1.21|||||Adjusted hazard ratio.|||1.210|0.788|
82556480|NCT03442777|164822669|SUPERIORITY||Risk Ratio (RR)|0.64||||0.04|TWO_SIDED|95.0|0.41|0.99||controlled for type of ward (ICU/Non-ICU)|Cochran-Mantel-Haenszel|||||0.99|0.41|0.04
82556481|NCT05230433|164822713|OTHER||Percent Consumed|86.0||||0.15|TWO_SIDED|||||p-value was not adjusted for multiple comparisons|Chi-squared|||High fat agents were weighed pre- and post- providing the shake to the participant. All containers were tared to take into account straw, lid, and glass weight. Percentage of high-fat challenge consumed was calculated by post-shake weight / pre-shake weight. 13 out of 15 partcipants drank \>75% of the shake.||||0.15
82556482|NCT05230433|164822714|OTHER|No test vs. control groups.||||||0.65||||||This p-value is not adjusted for multiple comparisons.|Pearson Correlation|||Fold change from 60 to 180 minutes of average medium chain acylcarnitine was calculated for each participant. Pearson correlation between BMI percentile and fold change was calculated.|Pearson Correlation between both secondary outcomes reported: BMI percentile and fold change between acylcarnitine at 60 minutes and 180 minutes post the high fat challenge.|||0.65
82556483|NCT04732000|164822723|OTHER||Median Difference (Final Values)|-0.1373||||0.549|TWO_SIDED|||||The a priori threshold for statistical significance is \< 0.05.|Mann Whitney test, 2-sided|||||||0.5490
82556484|NCT00754065|164822726|SUPERIORITY_OR_OTHER_LEGACY||F-statistic|9.3218||||0.0024||||||Comparison of EV/DNG vs. EE/NGM|ANOVA|||2-way ANOVA model with treatment and pain strata (headache and pelvic pain) as factors||||0.0024
82556485|NCT04033445|164822843|SUPERIORITY||Adjusted treatment difference|33.6|||<|0.001|TWO_SIDED|95.0|20.9|46.3|||Cochran-Mantel-Haenszel (CMH) chi-square||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||46.3|20.9|< 0.001
82556486|NCT04033445|164822843|SUPERIORITY||Adjusted treatment difference|33.1|||<|0.001|TWO_SIDED|95.0|20.8|45.4|||CMH chi-square test||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||45.4|20.8|< 0.001
82556487|NCT04033445|164822844|SUPERIORITY||Adjusted treatment difference|14.9|||<|0.001|TWO_SIDED|95.0|9.9|19.9|||CMH chi-square test||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||19.9|9.9|< 0.001
82556488|NCT04033445|164822845|SUPERIORITY||Adjusted treatment difference|25.2|||<|0.001|TWO_SIDED|95.0|16.4|33.9|||Cochran-Mantel-Haenszel||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||33.9|16.4|< 0.001
82556489|NCT04033445|164822845|SUPERIORITY||Adjusted treatment difference|29.5|||<|0.001|TWO_SIDED|95.0|20.9|38.1|||Cochran-Mantel-Haenszel||Treatment difference between guselkumab group and placebo group was adjusted with CMH weight.|||38.1|20.9|< 0.001
82556490|NCT04353492|164822871|OTHER|tested by a lower tailed test at 0.05 significance level|||||<|0.0001|||||||negative binomial regresion|||The null hypothesis (H0): ARR \>= 0.18||||<0.0001
82556491|NCT02195232|164822911|OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
82556492|NCT04035447|164822920|SUPERIORITY|||||||0.519|||||||t-test, 2 sided|||Satisfaction with Therapy (ST)||||0.519
82556493|NCT04035447|164822920|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|||Satisfaction with Therapist (SWT)||||0.150
82556494|NCT04035447|164822920|SUPERIORITY|||||||0.309|||||||t-test, 2 sided|||Global Improvement (Item 13)||||0.309
82556495|NCT04035447|164822922|SUPERIORITY|||||||0.696|||||||t-test, 2 sided|||||||0.696
82556496|NCT04035447|164822923|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.350
82556497|NCT04035447|164822924|SUPERIORITY|||||||0.274|||||||Fisher Exact|||Outcomes were compared at post-intervention visit: 3-month (A2) for intervention participants, 9-month (A4) for waitlist control participants.||||0.274
82582157|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|67.86|||||TWO_SIDED|90.0|62.71|73.43|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||73.43|62.71|
82556498|NCT04035447|164822925|SUPERIORITY|||||||0.6|||||||Fisher Exact|||Outcomes were compared at post-intervention visit: 3-month (A2) for intervention participants, 9-month (A4) for waitlist control participants.||||0.600
82556499|NCT04035447|164822926|SUPERIORITY||Mean Difference (Net)|1.5|STANDARD_DEVIATION|8.4||0.1848|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.18||||||0.1848
82556500|NCT04035447|164822927|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|8.4||0.6153|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.07||||||0.6153
82556501|NCT04035447|164822928|SUPERIORITY||Mean Difference (Net)|4.6|STANDARD_DEVIATION|16.1||0.0563|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.28||||||0.0563
82651514|NCT00782509|165017847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.11|0.177|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.177|0.110|<0.0001
82556502|NCT04035447|164822929|SUPERIORITY||Mean Difference (Net)|0.6|STANDARD_DEVIATION|1.8||0.0265|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.31||||||0.0265
82556503|NCT04035447|164822929|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_DEVIATION|2.6||0.2084|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of 0.18||||||0.2084
82556504|NCT04035447|164822930|SUPERIORITY||Mean Difference (Net)|-1.2|STANDARD_DEVIATION|9.4||0.3512|||||||Wilcoxon (Mann-Whitney)|Effect size (Hedges' g) of -0.13||||||0.3512
82556505|NCT02029235|164822968|OTHER|||||||0.24|||||||t-test, 2 sided|||"Null hypothesis: No difference between groups~Power analysis: A sample size of 16 in each group had an 80% power to detect a difference in means of 10 mm."||||0.24
82556506|NCT02029235|164822969|OTHER|||||||0.06|||||||t-test, 2 sided|||Null hypothesis: No difference between groups||||0.06
82556507|NCT03333109|164822999|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|0.34||0.002|TWO_SIDED|95.0|-1.77|-0.42|||Mixed Models Analysis|||||-0.42|-1.77|0.002
82556508|NCT03333109|164822999|SUPERIORITY||Median Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.45|-0.93|||Mixed Models Analysis|||||-0.93|-2.45|<0.001
82556509|NCT03333109|164823000|SUPERIORITY||Odds Ratio (OR)|1.52||||0.007|TWO_SIDED|95.0|1.12|2.07|||Cochran-Mantel-Haenszel|Haenszel (CMH) test adjusted for stratification factor after missing data were imputed as non-response (NRI).||||2.07|1.12|0.007
82556510|NCT03333109|164823000|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.001|TWO_SIDED|95.0|1.55|3.15|||Cochran-Mantel-Haenszel|Haenszel (CMH) test adjusted for stratification factor after missing data were imputed as non-response (NRI).||||3.15|1.55|<0.001
82556511|NCT03333109|164823001|SUPERIORITY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.36|<|0.001|TWO_SIDED|95.0|-2.07|-0.64|||Mixed Models Analysis|||||-0.64|-2.07|<0.001
82556512|NCT03333109|164823001|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.71|-1.09|||Mixed Models Analysis|||||-1.09|-2.71|<0.001
82556513|NCT03333109|164823002|SUPERIORITY||Mean Difference (Final Values)|-1.77|STANDARD_ERROR_OF_MEAN|0.62||0.004|TWO_SIDED|95.0|-2.99|-0.56|||Mixed Models Analysis|||||-0.56|-2.99|0.004
82556514|NCT03333109|164823002|SUPERIORITY||Mean Difference (Final Values)|-2.71|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-4.07|-1.36|||Mixed Models Analysis|||||-1.36|-4.07|<0.001
82556515|NCT05120856|164823004|SUPERIORITY||Slope|-1.106369|STANDARD_ERROR_OF_MEAN|0.4985347||0.026|TWO_SIDED|95.0|-2.083479|-0.129259||This is the p value for the overall group x time interaction.|Mixed Models Analysis|The model compared groups' change across all time points Time was coded as a continuous variable (i.e., 0, 4, 8, and 16).|This is the effect estimate for the group x time interaction.|||-0.129259|-2.083479|.026
82556516|NCT05120856|164823004|SUPERIORITY||Mean Difference (Final Values)|5.025|STANDARD_ERROR_OF_MEAN|8.737||0.565|TWO_SIDED|95.0|-12.098|22.149|||t-test, 2 sided|||planned between-group post-hoc comparison at 4-week follow-up||22.149|-12.098|.565
82556517|NCT05120856|164823004|SUPERIORITY||Mean Difference (Final Values)|-3.349|STANDARD_ERROR_OF_MEAN|8.891||0.706|TWO_SIDED|95.0|-20.774|14.077|||t-test, 2 sided|||Planned post-hoc comparison between groups at 8-week follow-up||14.077|-20.774|.706
82556518|NCT05120856|164823004|SUPERIORITY||Mean Difference (Final Values)|-6.921|STANDARD_ERROR_OF_MEAN|9.394||0.461|TWO_SIDED|95.0|-25.332|11.491|||t-test, 2 sided|||Planned post-hoc comparison between groups at 16-week follow-up||11.491|-25.332|.461
82556519|NCT05120856|164823004|SUPERIORITY||Slope|-1.0838|STANDARD_ERROR_OF_MEAN|0.4798||0.0252|TWO_SIDED|95.0|-2.0229626|-0.1419329||This is the p value for the group x time interaction|Mixed Models Analysis|||In an additional sensitivity analysis, past-week alcohol use data was excluded if a participant reported having been in residential/inpatient treatment where they could not access alcohol for the whole of the past week at the time of follow-up. This resulted in data for one participant in the ApBM group being excluded at week 8, and 1 control being excluded at week 16.||-0.1419329|-2.0229626|.0252
82556520|NCT05120856|164823005|SUPERIORITY||Slope|-0.016|STANDARD_ERROR_OF_MEAN|0.033||0.633|TWO_SIDED|95.0|-0.08|0.05||This is the p value for the time x group interaction.|Mixed Models Analysis|||This is the test for the overall CEQ-F scores||0.05|-0.08|.633
82485671|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|3.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Polio 3, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-2|
82485672|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 0.15 μg/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82485673|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 0.15 μg/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-2|
82485674|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0||Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.|Miettinen and Nurminen|||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 1.0 μg/mL, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-2|
82485675|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-4.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Anti- PRP ≥ 1.0 μg/mL, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||2|-4|
82485676|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage Difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Hep B, one month postvaccination) given concomitantly with two dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
82485677|NCT00667602|164665324|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC)|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of DTPa-IPV-HepB-Hib (Hep B, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to DTPa-IPV-HepB-Hib given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-4|
82556521|NCT05120856|164823005|SUPERIORITY||Slope|-0.033|STANDARD_ERROR_OF_MEAN|0.041||0.411|TWO_SIDED|95.0|-0.11|0.05||This is for the time x group interaction for the intensity subscale|Mixed Models Analysis|||This is for the test of the CEQ-F Intensity subscale score||0.05|-0.11|.411
82556522|NCT05120856|164823005|SUPERIORITY||Slope|-0.009|STANDARD_ERROR_OF_MEAN|0.036||0.808|TWO_SIDED|95.0|-0.08|0.06||p value for the time x group interaction for Imagery subscale|Mixed Models Analysis|||Analysis of CEQ-F Imagery subscale score||0.06|-0.08|.808
82556523|NCT05120856|164823005|SUPERIORITY||Slope|-0.006|STANDARD_ERROR_OF_MEAN|0.041||0.886|TWO_SIDED|95.0|-0.09|0.08||This is the p value for the time x group interaction for the Intrusiveness subscale score|Mixed Models Analysis|||This is for the analysis of the CEQ-F Intrusiveness subscale score||0.08|-0.09|.886
82556524|NCT05120856|164823006|SUPERIORITY||Slope|0.083|STANDARD_ERROR_OF_MEAN|0.066||0.207|TWO_SIDED|95.0|-0.046|0.212||This is the p value for the time x group interaction|Mixed Models Analysis|||||0.212|-0.046|.207
82556525|NCT05120856|164823007|SUPERIORITY||Slope|-0.026|STANDARD_ERROR_OF_MEAN|0.166||0.876|TWO_SIDED|95.0|-0.352|0.3||This is the p value for the group x time interaction.|Mixed Models Analysis|||||0.300|-0.352|.876
82651515|NCT00782509|165017848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.047|STANDARD_ERROR_OF_MEAN|0.019||0.0116||95.0|0.011|0.084|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.084|0.011|0.0116
82556526|NCT05120856|164823008|SUPERIORITY||Slope|-0.069|STANDARD_ERROR_OF_MEAN|0.037||0.064|TWO_SIDED|95.0|-0.142|0.004||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.004|-0.142|.064
82556527|NCT05120856|164823009|SUPERIORITY||Slope|-0.059|STANDARD_ERROR_OF_MEAN|0.143||0.679|TWO_SIDED|95.0|-0.338|0.22||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.220|-0.338|.679
82556528|NCT05120856|164823011|SUPERIORITY||Slope|0.072|STANDARD_ERROR_OF_MEAN|0.086||0.403|TWO_SIDED|95.0|-0.097|0.24||This is the p value for the group x time interaction|Mixed Models Analysis|||||0.240|-0.097|.403
82485678|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-13.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC4, one month postvaccination)given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-13|
82485679|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-6.0|||||TWO_SIDED|95.0|-12.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7(PNC 6B, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-1|-12|
82485680|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7(PnC 9V, one month postvaccination) given concomitantly with MenACWY-CRM197 or MenC was considered non-inferior, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than -10%.||2|-11|
82485681|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|0.0|||||TWO_SIDED|95.0|-3.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 14, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-3|
82485682|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-10.0|||||TWO_SIDED|95.0|-19.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7( PNC 18C, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-2|-19|
82485683|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-10.0|||||TWO_SIDED|95.0|-17.0|-2.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 19F, one month postvaccination), given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-2|-17|
82485684|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-12.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 23F, one month postvaccination) given concomitantly with one dose of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||1|-12|
82485685|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-12.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC4, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||4|-12|
82485686|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|0.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC6B, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||0|-11|
82556529|NCT05120856|164823012|SUPERIORITY||Slope|-0.052|STANDARD_ERROR_OF_MEAN|0.037||0.161|TWO_SIDED|95.0|-0.126|0.021||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of psychological well-being ratings.||0.021|-0.126|.161
82556530|NCT05120856|164823012|SUPERIORITY||Slope|-0.029|STANDARD_ERROR_OF_MEAN|0.036||0.425|TWO_SIDED|95.0|-0.099|0.042||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of physical well-being ratings||0.042|-0.099|.425
82556531|NCT05120856|164823012|SUPERIORITY||Slope|-0.039|STANDARD_ERROR_OF_MEAN|0.034||0.247|TWO_SIDED|95.0|-0.106|0.027||This is the p value for the group x time interaction|Mixed Models Analysis|||Linear mixed-effects model analysis of quality of life ratings||0.027|-0.106|.247
82582158|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|88.28|||||TWO_SIDED|90.0|85.06|91.63|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||91.63|85.06|
82485687|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-3.0|||||TWO_SIDED|95.0|-10.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC 9V, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-10|
82485688|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-1.0|||||TWO_SIDED|95.0|-4.0|3.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC14, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||3|-4|
82485689|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-15.0|||||TWO_SIDED|95.0|-24.0|-6.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC18C, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-6|-24|
82485690|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-9.0|||||TWO_SIDED|95.0|-17.0|-1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC19F, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||-1|-17|
82485691|NCT00667602|164665325|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY - PConcomitant Vaccine+MenC).|Percentage difference|-6.0|||||TWO_SIDED|95.0|-13.0|0.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||Immunogenicity of PCV7 (PNC23F, one month postvaccination) given concomitantly with two doses of MenACWY was considered non-inferior to PCV7 given concomitantly with one dose of MenC, if the lower limit of the two-sided 95% CI for the difference in the percentage of subjects with antibody response was greater than the cut-off level specified for that antigen was greater than -10%.||0|-13|
82485692|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|71.0|||||TWO_SIDED|95.0|63.0|78.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||78|63|
82485693|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|2.0|||||TWO_SIDED|95.0|-3.0|6.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||6|-3|
82485694|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|2.0|||||TWO_SIDED|95.0|-2.0|7.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||7|-2|
82485695|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:8, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||1|-11|
82485696|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|31.0|||||TWO_SIDED|95.0|24.0|39.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||39|24|
82485697|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage difference|1.0|||||TWO_SIDED|95.0|-2.0|4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||4|-2|
82485698|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|4.0|||||TWO_SIDED|95.0|-3.0|11.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, prevaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||11|-3|
82485699|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-13.0|||||TWO_SIDED|95.0|-22.0|-5.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (rSBA ≥1:128, one month postvaccination), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||-5|-22|
82485700|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-10.0|||||TWO_SIDED|95.0|-17.0|-4.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (four-fold rise in titers), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||-4|-17|
82485701|NCT00667602|164665330|NON_INFERIORITY_OR_EQUIVALENCE|PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC).|Percentage Difference|-5.0|||||TWO_SIDED|95.0|-11.0|1.0|||Miettinen and Nurminen|Difference between the two groups and the associated 95% CIs were computed using the Miettinen and Nurminen method.||For the comparisons to MenC based on percentages of subjects with response (four-fold rise in titers), MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the two-sided 95% CI for the difference between MenACWY-CRM197 and MenC in the percentage of subjects with response against serogroup C was greater than -10%.||1|-11|
82485702|NCT00667602|164665332|NON_INFERIORITY_OR_EQUIVALENCE|(PConcomitant Vaccine + MenACWY-CRM - PConcomitant Vaccine + MenC)|Ratio|1.33|||||TWO_SIDED|95.0|0.96|1.83|||ANOVA|||For comparison of the Geometric Mean Titers at one month postvaccination at 12 months of age, MenACWY-CRM197 was determined to be non-inferior to MenC if the lower limit of the 2-sided 95% CI for the ratio of the MenACWY-CRM197 to MenC Geometric Mean Titers for serogroup C was greater than 0.5.||1.83|0.96|
82485703|NCT02750943|164665349|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-25.34|||<|0.0001|TWO_SIDED|95.0|-30.682|-19.998||From ANCOVA analysis with treatment group, gender and baseline MGI stratification as factors baseline as covariates.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-19.998|-30.682|<0.0001
82485704|NCT00395538|164665354|OTHER|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the baseline and the year 1 biopsy.||||||0.015||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BV/TV at biopsy baseline, year 1, 2 \& 4 combined as the dependent variable; biopsy year as the independent variable, covariate for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2. No bone biopsy baseline covariate was included because it would over-parameterize the model.||||0.015
82556532|NCT05120856|164823013|SUPERIORITY||Slope|3.645|STANDARD_ERROR_OF_MEAN|10.369||0.725|TWO_SIDED|95.0|-16.68|23.97||This is the p value for the group x time interaction|Mixed Models Analysis|||||23.97|-16.68|.725
82556533|NCT03160885|164823014|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|11.1|||<|0.001|TWO_SIDED|95.0|5.8|16.4||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||16.4|5.8|<0.001
82582159|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|76.79|||||TWO_SIDED|90.0|74.03|79.65|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||79.65|74.03|
82582160|NCT02074553|164875916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence of the test formulation was concluded if its 90% CI was included in the bioequivalence range of 80% to 125%.|Geometric Least Square Mean Ratio|75.43|||||TWO_SIDED|90.0|72.7|78.27|||||The reported values are percentages of geometric least square mean ratio.|ANOVA (fixed factors: treatment, period, and treatment sequence; and random factor: participant) was applied to the log-transformed PK parameter, and then back transformed to provide geometric least square mean ratio (Test/Reference) and 90% CI.||78.27|72.70|
82556534|NCT03160885|164823015|SUPERIORITY|Primary endpoints tested sequentially at a 5% significance level.|Risk Difference (RD)|21.6|||<|0.001|TWO_SIDED|95.0|15.8|27.3||Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.|Cochran-Mantel-Haenszel|Primary endpoints tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.The null hypothesis of no difference in response rates between tralokinumab and placebo were tested against the 2-sided alternative that there is a difference.||27.3|15.8|<0.001
82485705|NCT00395538|164665354|OTHER|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the baseline and the years 2 and 4 (combined) biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, because the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BV/TV at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2. No bone biopsy baseline covariate included because it would over-parameterize the model.||||0.002
82485706|NCT00395538|164665354|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the cn.BV/TV between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.649||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Cn.BV/TV change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Cn.BV/TV, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.649
82485707|NCT00395538|164665355|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Po.N values for both their baseline and year 1 biopsies.||||||0.371||||||No adjustments were made for multiple comparisons, because the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.N at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.371
82485708|NCT00395538|164665355|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the baseline and the years 2 and 4 (combined) biopsy.||||||0.129||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Ct.Po.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Ct.Po.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.129
82485709|NCT00395538|164665355|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.N between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.538||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.N at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.538
82556535|NCT03160885|164823016|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.001|TWO_SIDED|95.0|10.3|20.9||Based on the primary analysis of the primary estimand 'Composite', subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders'.|Cochran-Mantel-Haenszel|Tested sequentially at a 5% significance level.|Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|Reduction of Worst Daily Pruritus NRS weekly average ≥4 at Week 16 was tested after the sequential testing of IGA 0/1 and EASI75 if these tests showed statistical significance||20.9|10.3|<0.001
82556536|NCT03160885|164823017|SUPERIORITY|Multiplicity adjustment using the Holm method.|Difference of least square means|-14.0|||<|0.001|TWO_SIDED|95.0|-18.0|-10.1||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-10.1|-18.0|<0.001
82582161|NCT00717067|164875967|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|129.17||||||90.0|92.16|181.04|||ANOVA|||Ratio (%) test (mild) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||181.04|92.16|
82582162|NCT00717067|164875967|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|88.31||||||90.0|61.97|125.83|||ANOVA|||Ratio (%) test (moderate) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||125.83|61.97|
82651516|NCT00782509|165017848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.019||0.0095||95.0|0.012|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.085|0.012|0.0095
82651517|NCT00782509|165017849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001||95.0|0.057|0.162|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.162|0.057|<0.0001
82651518|NCT00782509|165017849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.027||0.0011||95.0|0.036|0.143|||Mixed Models Analysis|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.143|0.036|0.0011
82651519|NCT00782509|165017850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.131|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.131|<0.0001
82485710|NCT00395538|164665356|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the baseline and the year 1 biopsy.||||||0.009||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|A baseline covariate not added to model since it would over-parameterize the model.||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.009
82485711|NCT00395538|164665356|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485712|NCT00395538|164665356|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Cn.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.374||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.374
82485713|NCT00395538|164665357|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
82485714|NCT00395538|164665357|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485715|NCT00395538|164665357|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Cn.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.168||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.168
82485716|NCT00395538|164665358|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.BFR/BS values for both their baseline and year 1 biopsies.||||||0.083||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.083
82556537|NCT03160885|164823018|SUPERIORITY|Multiplicity adjustment using Holm method.|Difference of least square means|-3.9|||<|0.001|TWO_SIDED|95.0|-5.2|-2.6||Based on the primary analysis of the primary estimand 'hypothetical'. Repeated measurements model on post-baseline data. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change was imputed as 0.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included.||-2.6|-5.2|<0.001
82582163|NCT00717067|164875967|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|322.23||||||90.0|171.97|603.78|||ANOVA|||Ratio (%) test (severe) / reference (normal). AUClast was calculated using the log-linear trapezoidal method.||603.78|171.97|
82582164|NCT00717067|164875968|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|151.99||||||90.0|109.53|210.92|||ANOVA|||Ratio (%) test (mild) / reference (normal).||210.92|109.53|
82485717|NCT00395538|164665358|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485718|NCT00395538|164665358|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ec.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.164||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.164
82485719|NCT00395538|164665359|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.MS/BS values for both their baseline and year 1 biopsies.||||||0.031||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.031
82485720|NCT00395538|164665359|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485721|NCT00395538|164665359|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ec.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.178||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.178
82499107|NCT05355805|164689214|SUPERIORITY||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.775||0.4068|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Non-response imputation was used for participants with missing HiSCR50."||||0.4068
82582165|NCT00717067|164875968|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|115.95||||||90.0|82.23|163.5|||ANOVA|||Ratio (%) test (moderate) / reference (normal).||163.50|82.23|
82582166|NCT00717067|164875969|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|121.01||||||90.0|83.15|176.13|||ANOVA|||Ratio (%) test (mild) / reference (normal).||176.13|83.15|
82582167|NCT00717067|164875969|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|70.9||||||90.0|47.83|105.1|||ANOVA|||Ratio (%) test (moderate) / reference (normal).||105.10|47.83|
82582168|NCT00717067|164875969|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|238.73||||||90.0|106.83|533.48|||ANOVA|||Ratio (%) test (severe) / reference (normal).||533.48|106.83|
82582169|NCT00717067|164875971|SUPERIORITY_OR_OTHER||ratio of adjusted geometric means|323.91||||||90.0|174.32|601.88|||ANOVA|||Ratio (%) test (severe) / reference (normal).||601.88|174.32|
82582170|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||ANOVA|||Region of Interest is left anterior insula.||||0.2960
82582171|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||ANOVA|||Region of interest is left anterior insula.||||0.3450
82582172|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.1192||95.0|||||ANOVA|||Region of interest is left anterior putamen.||||0.1192
82582173|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.6639||95.0|||||ANOVA|||Region of interest is left anterior putamen.||||0.6639
82582174|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.8295||95.0|||||ANOVA|||Region of interest is left dorsal anterior cingulate cortex.||||0.8295
82582175|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.0078||95.0|||||ANOVA|||Region of interest is left dorsal anterior cingulate cortex.||||0.0078
82582176|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.7153||95.0|||||ANOVA|||Region of interest is left dorsolateral pre-frontal cortex.||||0.7153
82582177|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.8511||95.0|||||ANOVA|||Region of interest is left dorsolateral pre-frontal cortex||||0.8511
82485722|NCT00395538|164665360|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.BFR/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485723|NCT00395538|164665360|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.022||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.022
82485724|NCT00395538|164665360|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.BFR/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.172||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.BFR/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.172
82485725|NCT00395538|164665361|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.MS/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485726|NCT00395538|164665361|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.018||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.018
82556538|NCT03160885|164823019|SUPERIORITY||Risk Difference (RD)|34.1||||0.004|TWO_SIDED|95.0|13.4|54.9||Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||54.9|13.4|0.004
82556539|NCT03160885|164823019|SUPERIORITY||Risk Difference (RD)|19.9||||0.084|TWO_SIDED|95.0|-1.2|40.9||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.~P value was considered non-significant"|Cochran-Mantel-Haenszel|This test was not statistically significant and hence next maintenance endpoint in the sequential testing procedure was not evaluated|Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||40.9|-1.2|0.084
82556540|NCT03160885|164823020|SUPERIORITY||Risk Difference (RD)|33.7|||<|0.001|TWO_SIDED|95.0|17.3|50.0||Based on the primary analysis of the primary estimand 'composite'. Subjects who received rescue medication or were transferred to open-label treatment are considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||50.0|17.3|<0.001
82556541|NCT03160885|164823020|SUPERIORITY||Risk Difference (RD)|30.0||||0.001|TWO_SIDED|95.0|13.7|46.4||Test not evaluated for statistical significance. Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication or were transferred to open-label treatment were considered non-responders.|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference compared to placebo, stratified by region.|"Testing according to the hierarchical testing procedure in the order:~IGA 0/1 at Week 52 between Q2W vs Placebo, EASI75 at Week 52 between Q2W vs Placebo, IGA 0/1 at Week 52 between Q4W vs Placebo, and EASI75 at Week 52 between Q4W vs Placebo"||46.4|13.7|0.001
82485727|NCT00395538|164665361|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.MS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.155||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.155
82485728|NCT00395538|164665362|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the baseline and the year 1 biopsy.||||||0.72||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.720
82485729|NCT00395538|164665362|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.944||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.944
82485730|NCT00395538|164665362|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.73||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.730
82485731|NCT00395538|164665363|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the baseline and the year 1 biopsy.||||||0.019||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.019
82485732|NCT00395538|164665363|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the baseline and the years 2 and 4 (combined) biopsy.||||||0.017||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.017
82556542|NCT03160885|164823023|SUPERIORITY||Risk Difference (RD)|29.3|||<|0.001|TWO_SIDED|95.0|22.5|36.1||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||36.1|22.5|<0.001
82556543|NCT03160885|164823024|SUPERIORITY||Risk Difference (RD)|12.7|||<|0.001|TWO_SIDED|95.0|8.3|17.0||"Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data or subjects who received rescue medication prior to Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and disease severity.|||17.0|8.3|<0.001
82556544|NCT03160885|164823025|SUPERIORITY||Difference of least square means|-9.9|||<|0.001|TWO_SIDED|95.0|-12.2|-7.5||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 2 change will be imputed as 0.||-7.5|-12.2|<0.001
82556545|NCT03160885|164823026|SUPERIORITY||Risk Difference (RD)|8.0|||<|0.001|TWO_SIDED|95.0|4.4|11.6||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||11.6|4.4|<0.001
82556546|NCT03160885|164823027|SUPERIORITY||Risk Difference (RD)|18.9|||<|0.001|TWO_SIDED|95.0|12.8|25.1||"Based on the primary analysis of the 'composite' estimand. Subjects who received rescue medication prior to Week 16 or with missing data at Week 16 were considered non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference stratified by region and disease severity.|||25.1|12.8|<0.001
82485733|NCT00395538|164665363|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.N between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.843||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Tb.N change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Tb.N, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.843
82485734|NCT00395538|164665364|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the baseline and the year 1 biopsy.||||||0.013||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.013
82485735|NCT00395538|164665364|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the baseline and the years 2 and 4 (combined) biopsy.||||||0.025||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.025
82485736|NCT00395538|164665364|OTHER|A contrast statement within the mixed models analysis tested for differences in the Tb.Sp between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.608||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Tb.Sp at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.608
82485737|NCT00395538|164665365|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Th values for both their baseline and year 1 biopsies.||||||0.043||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.043
82485738|NCT00395538|164665365|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.334||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.334
82485739|NCT00395538|164665365|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.269||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with: Ct.Th change from baseline at biopsy year 1 or years 2 and 4 combined as the dependent variable; biopsy year, and baseline Ct.Th, as model covariates; and a random effect for participant. Since Cohort 2 had a time delay of 30 to 31 months from the baseline biopsy to start of HPTH therapy, this time delay (centered to stabilize variance) was added as a covariate to the model for Cohort 2 only (using a Cohort 2 indicator variable).||||0.269
82485740|NCT00395538|164665366|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Ar values for both their baseline and year 1 biopsies.||||||0.358||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.358
82582178|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.4228||95.0|||||ANOVA|||Region of interest is left parietal cortex||||0.4228
82582179|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.0611||95.0|||||ANOVA|||Region of interest is left parietal cortex||||0.0611
82556547|NCT03160885|164823028|SUPERIORITY||Difference of least square means|-1.3|||<|0.001|TWO_SIDED|95.0|-1.7|-0.8||The statistical test was not controlled for multiplicity.|Repeated measurements model|||Data collected after permanent discontinuation of IMP or initiation of rescue medication not included. In case of no post-baseline assessments before initiation of rescue medication, the Week 1 change will be imputed as 0.||-0.8|-1.7|<0.001
82556548|NCT03160885|164823029|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.001|TWO_SIDED|95.0|13.9|26.2||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||26.2|13.9|<0.001
82556549|NCT03160885|164823030|SUPERIORITY||Risk Difference (RD)|28.9|||<|0.001|TWO_SIDED|95.0|21.4|36.3||"Subjects who received rescue medication prior to Week 16 or have missing data at Week 16 were considered as non-responders.~The statistical test was not controlled for multiplicity."|Cochran-Mantel-Haenszel||Mantel-Haenszel risk difference, stratified by region and baseline disease severity.|||36.3|21.4|<0.001
82556550|NCT05890794|164823031|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|40.85||||0.0005|TWO_SIDED|95.0|22.842|58.858||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PPi.||58.858|22.842|0.0005
82556551|NCT05890794|164823031|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error|Difference in LS Means|-11.17|STANDARD_ERROR_OF_MEAN|2.681|<|0.0001|TWO_SIDED|95.0|-16.52|-5.82||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by a mixed model repeated measures (MMRM) analysis for PPi.||-5.82|-16.52|<0.0001
82556552|NCT05890794|164823032|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|30.89|||<|0.0001|TWO_SIDED|95.0|20.831|40.941||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PLP.||40.941|20.831|<0.0001
82556553|NCT05890794|164823032|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-22.51|STANDARD_ERROR_OF_MEAN|6.289||0.0024|TWO_SIDED|95.0|-35.81|-9.2||Significant test: two-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for PLP.||-9.20|-35.81|0.0024
82556554|NCT05890794|164823033|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|-4335.66||||0.0019|TWO_SIDED|95.0|-6652.753|-2018.576||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for ALP activity.||-2018.576|-6652.753|0.0019
82556555|NCT05890794|164823034|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|23.25||||0.0693|TWO_SIDED|95.0|-2.319|48.812||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for urine PEA.||48.812|-2.319|0.0693
82556556|NCT05890794|164823034|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-8.76|STANDARD_ERROR_OF_MEAN|22.986||0.7086|TWO_SIDED|95.0|-57.88|40.35||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for urine PEA.||40.35|-57.88|0.7086
82556557|NCT05890794|164823035|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|187.43||||0.0199|TWO_SIDED|95.0|36.516|338.344||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in relative maximum change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PL.||338.344|36.516|0.0199
82556558|NCT05890794|164823035|OTHER|The difference between LS Means of change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|-12.51|STANDARD_ERROR_OF_MEAN|9.767||0.2034|TWO_SIDED|95.0|-31.92|6.89||Significant test: 2-sided; significance level 5%|Mixed Models Analysis|||Analysis of the difference in relative maximum change from baseline (LS Means) between dose groups of ilofotase alfa by an MMRM analysis for PL.||6.89|-31.92|0.2034
82556559|NCT05890794|164823036|OTHER|The difference in dose group means (0.8 mg/kg - 3.2 mg/kg) was calculated.|Mean Difference (Final Values)|-0.89||||0.5195|TWO_SIDED|95.0|-3.868|2.084||Significant test: 2-sided; significance level 5%.|t-test, 2 sided|A 2-sided t-test was carried out to determine whether there is a difference in means between the 0.8 mg/kg and 3.2 mg/kg dose groups.||Analysis of the difference in fold change from baseline between dose groups of ilofotase alfa by a 2-sided t-test for PL/PLP ratio.||2.084|-3.868|0.5195
82582180|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.9879||95.0|||||ANOVA|||Region of interest is left premotor cortex||||0.9879
82582181|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.2065||95.0|||||ANOVA|||Region of interest is left premotor cortex||||0.2065
82485741|NCT00395538|164665366|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the baseline and the years 2 and 4 (combined) biopsy.||||||0.76||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.760
82485742|NCT00395538|164665366|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Ar between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.57||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.570
82485743|NCT00395538|164665367|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ct.Po.Ar values for both their baseline and year 1 biopsies.||||||0.166||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.166
82485744|NCT00395538|164665367|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the baseline and the years 2 and 4 (combined) biopsy.||||||0.895||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.895
82485745|NCT00395538|164665367|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ct.Po.Ar between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.282||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ct.Po.Ar at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.282
82556560|NCT05890794|164823036|OTHER|The difference between LS Means of fold change from baseline between dose groups was calculated. The analysis was performed using an MMRM model with fixed effects for baseline value, dose group, timepoint, interaction between dose group and timepoint, as well as random effects for patient and error.|Difference in LS Means|1.01|STANDARD_ERROR_OF_MEAN|0.161|<|0.0001|TWO_SIDED|95.0|0.69|1.33||Significant test: 2-sided; significance level 5%.|Mixed Models Analysis|||Analysis of the difference in fold change form baseline (LS Means) between dose levels of ilofotase alfa by an MMRM analysis for PL/PLP ratio.||1.33|0.69|<0.0001
82556561|NCT05485805|164823038|OTHER||Geometric LS means|-5.95|||=|0.004|TWO_SIDED|95.0|-9.946|-1.954|||ANCOVA|||||-1.954|-9.946|= 0.004
82582182|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.1837||95.0|||||ANOVA|||Region of interest is left substantia nigra/ventral tegmental area||||0.1837
82582183|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.8195||95.0|||||ANOVA|||Region of interest is left substantia nigra/ventral tegmental area||||0.8195
82582184|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.642||95.0|||||ANOVA|||Region of interest is left thalamus||||0.6420
82582185|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.7475||95.0|||||ANOVA|||Region of interest is left thalamus||||0.7475
82582186|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.9049||95.0|||||ANOVA|||Region of interest is left visual cortex||||0.9049
82582187|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||ANOVA|||Region of interest is left visual cortex||||0.1830
82582188|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.5318||95.0|||||ANOVA|||Region of interest is right anterior insula||||0.5318
82582189|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.9588||95.0|||||ANOVA|||Region of interest is right anterior insula||||0.9588
82582190|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.7551||95.0|||||ANOVA|||Region of interest is right dorsal anterior cingulate cortex||||0.7551
82582191|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.7895||95.0|||||ANOVA|||Region of interest is right dorsal anterior cingulate cortex||||0.7895
82582192|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.9494||95.0|||||ANOVA|||Region of interest is right dorsolateral pre-frontal cortex||||0.9494
82582193|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.4482||95.0|||||ANOVA|||Region of interest is right dorsolateral pre-frontal cortex||||0.4482
82582194|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.9343||95.0|||||ANOVA|||Region of interest is right parietal cortex||||0.9343
82582195|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.7711||95.0|||||ANOVA|||Region of interest is right parietal cortex||||0.7711
82556562|NCT05485805|164823038|OTHER||Geometric LS means|6.161|||=|0.003|TWO_SIDED|95.0|2.161|10.161|||ANCOVA|||||10.161|2.161|= 0.003
82556563|NCT05485805|164823038|OTHER||Geometric LS means|25.936|||<|0.001|TWO_SIDED|95.0|20.317|31.556|||ANCOVA|||||31.556|20.317|< 0.001
82582196|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.4755||95.0|||||ANOVA|||Region of interest is right premotor cortex||||0.4755
82582197|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.3982||95.0|||||ANOVA|||Region of interest is right premotor cortex||||0.3982
82582198|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.4622||95.0|||||ANOVA|||Region of interest is right thalamus||||0.4622
82582199|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.4604||95.0|||||ANOVA|||Region of interest is right thalamus||||0.4604
82582200|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.2485||95.0|||||ANOVA|||Region of interest is right visual cortex||||0.2485
82582201|NCT00657020|164875980|SUPERIORITY_OR_OTHER|||||||0.1931||95.0|||||ANOVA|||Region of interest is right visual cortex||||0.1931
82556564|NCT05485805|164823038|OTHER||Geometric LS means|-3.476|||=|0.325|TWO_SIDED|95.0|-10.41|3.457|||ANCOVA|||||3.457|-10.41|= 0.325
82556565|NCT05485805|164823038|OTHER||Geometric LS means|0.211|||=|0.918|TWO_SIDED|95.0|-3.798|4.22|||ANCOVA|||||4.22|-3.798|= 0.918
82556566|NCT05485805|164823038|OTHER||Geometric LS means|32.097|||<|0.001|TWO_SIDED|95.0|26.484|37.71|||ANCOVA|||||37.71|26.484|< 0.001
82556567|NCT05485805|164823038|OTHER||Geometric LS means|22.46|||<|0.001|TWO_SIDED|95.0|16.753|28.166|||ANCOVA|||||28.166|16.753|< 0.001
82582202|NCT00657020|164875981|SUPERIORITY_OR_OTHER|||||||0.4535||95.0|||||ANOVA|||Null hypothesis considered the response time of treatments in comparison to be equal.||||0.4535
82582203|NCT00657020|164875981|SUPERIORITY_OR_OTHER|||||||0.1811||95.0|||||ANOVA|||Null hypothesis considered the response time of treatments in comparison to be equal.||||0.1811
82582204|NCT00657020|164875982|SUPERIORITY_OR_OTHER|||||||0.6261||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.6261
82582205|NCT00657020|164875982|SUPERIORITY_OR_OTHER|||||||0.0106||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.0106
82582206|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||ANOVA|||Region of interest is left parietal cortex.||||0.5544
82582207|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.6716||95.0|||||ANOVA|||Region of interest is left parietal cortex.||||0.6716
82582208|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.7511||95.0|||||ANOVA|||Region of interest is left superior occipital cortex.||||0.7511
82582209|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.7959||95.0|||||ANOVA|||Region of interest is left superior occipital cortex.||||0.7959
82582210|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.6418||95.0|||||ANOVA|||Region of interest is left visual cortex.||||0.6418
82582211|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.2205||95.0|||||ANOVA|||Region of interest is left visual cortex.||||0.2205
82582212|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.5135||95.0|||||ANOVA|||Region of interest is right parietal cortex.||||0.5135
82556568|NCT05485805|164823038|OTHER||Geometric LS means|26.147|||<|0.001|TWO_SIDED|95.0|20.529|31.765|||ANCOVA|||||31.765|20.529|< 0.001
82556569|NCT05485805|164823038|OTHER||Geometric LS means|28.62|||<|0.001|TWO_SIDED|95.0|22.921|34.32|||ANCOVA|||||34.32|22.921|< 0.001
82556570|NCT05485805|164823038|OTHER||Geometric LS means|22.671|||<|0.001|TWO_SIDED|95.0|16.966|28.375|||ANCOVA|||||28.375|16.966|< 0.001
82556571|NCT05485805|164823039|OTHER||Geometric LS means|-1.602|||<|0.001|TWO_SIDED|95.0|-2.548|-0.656|||ANCOVA|||0-2 hours post-dose||-0.656|-2.548|< 0.001
82556572|NCT05485805|164823039|OTHER||Geometric LS means|0.976|||=|0.043|TWO_SIDED|95.0|0.029|1.923|||ANCOVA|||0-2 hours post-dose||1.923|0.029|= 0.043
82556573|NCT05485805|164823039|OTHER||Geometric LS means|6.097|||<|0.001|TWO_SIDED|95.0|4.766|7.427|||ANCOVA|||0-2 hours post-dose||7.427|4.766|< 0.001
82556574|NCT05485805|164823039|OTHER||Geometric LS means|0.31|||=|0.711|TWO_SIDED|95.0|-1.332|1.951|||ANCOVA|||0-2 hours post-dose||1.951|-1.332|= 0.711
82556575|NCT05485805|164823039|OTHER||Geometric LS means|-0.626|||=|0.196|TWO_SIDED|95.0|-1.575|0.323|||ANCOVA|||0-2 hours post-dose||0.323|-1.575|= 0.196
82582213|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.9781||95.0|||||ANOVA|||Region of interest is right parietal cortex.||||0.9781
82582214|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.3755||95.0|||||ANOVA|||Region of interest is right premotor cortex.||||0.3755
82582215|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.2612||95.0|||||ANOVA|||Region of interest is right premotor cortex.||||0.2612
82582216|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.8486||95.0|||||ANOVA|||Region of interest is right superior occipital cortex.||||0.8486
82582217|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.8318||95.0|||||ANOVA|||Region of interest is right superior occipital cortex.||||0.8318
82582218|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.7554||95.0|||||ANOVA|||Region of interest is right visual cortex.||||0.7554
82582219|NCT00657020|164875983|SUPERIORITY_OR_OTHER|||||||0.5421||95.0|||||ANOVA|||Region of interest is right visual cortex.||||0.5421
82582220|NCT00657020|164875984|SUPERIORITY_OR_OTHER|||||||0.1963||95.0|||||ANOVA|||Null hypothesis considered response time of treatments in comparison to be equal.||||0.1963
82582221|NCT00657020|164875984|SUPERIORITY_OR_OTHER|||||||0.0959||95.0|||||ANOVA|||Null hypothesis considered response time of treatments in comparison to be equal.||||0.0959
82582222|NCT00657020|164875985|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||ANOVA|||Null hypothesis considered treatments in comparison to be equal.||||0.5400
82582223|NCT00657020|164875985|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||Null hypothesis considered the treatments in comparison to be equal.||||0.1800
82582224|NCT00822172|164875991|SUPERIORITY|||||||0.076|||||||two-sample equal-variances t-test|||||||0.076
82582225|NCT00822172|164875992|SUPERIORITY|||||||0.048|||||||two-sample equal-variances t-test|||||||0.048
82582226|NCT00822172|164875993|SUPERIORITY|||||||0.65|||||||two-sample equal-variances t-test|||||||0.650
82582227|NCT00370331|164876016|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.2|||<|0.001||99.0|3.59|18.73|||Repeated measures model for binary data|Repeated measures model for binary data using Generalized Estimating Equations (GEE)||||18.73|3.59|<0.001
82582228|NCT02937454|164876026|OTHER||Annualised event rate ratio (RR)|0.79||||0.059|TWO_SIDED|95.0|0.62|1.01|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||1.01|0.62|0.059
82582229|NCT02937454|164876026|OTHER||Annualised event rate ratio (RR)|0.75||||0.024|TWO_SIDED|95.0|0.59|0.96|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Covid-19 Sensitivity Analysis||0.96|0.59|0.024
82556576|NCT05485805|164823039|OTHER||Geometric LS means|7.073|||<|0.001|TWO_SIDED|95.0|5.744|8.402|||ANCOVA|||0-2 hours post-dose||8.402|5.744|< 0.001
82556577|NCT05485805|164823039|OTHER||Geometric LS means|6.406|||<|0.001|TWO_SIDED|95.0|5.055|7.757|||ANCOVA|||0-2 hours post-dose||7.757|5.055|< 0.001
82556578|NCT05485805|164823039|OTHER||Geometric LS means|5.471|||<|0.001|TWO_SIDED|95.0|4.141|6.801|||ANCOVA|||0-2 hours post-dose||6.801|4.141|< 0.001
82556579|NCT05485805|164823039|OTHER||Geometric LS means|7.383|||<|0.001|TWO_SIDED|95.0|6.033|8.732|||ANCOVA|||0-2 hours post-dose||8.732|6.033|< 0.001
82556580|NCT05485805|164823039|OTHER||Geometric LS means|5.78|||<|0.001|TWO_SIDED|95.0|4.43|7.131|||ANCOVA|||0-2 hours post-dose||7.131|4.43|< 0.001
82556581|NCT05485805|164823040|OTHER||Geometric LS means|-0.586|||<|0.001|TWO_SIDED|95.0|-0.903|-0.269|||ANCOVA|||0-2 hours post-dose||-0.269|-0.903|< 0.001
82556582|NCT05485805|164823040|OTHER||Geometric LS means|0.454|||=|0.005|TWO_SIDED|95.0|0.136|0.771|||ANCOVA|||0-2 hours post-dose||0.771|0.136|= 0.005
82556583|NCT05485805|164823040|OTHER||Geometric LS means|2.369|||<|0.001|TWO_SIDED|95.0|1.923|2.815|||ANCOVA|||0-2 hours post-dose||2.815|1.923|< 0.001
82556584|NCT05485805|164823040|OTHER||Geometric LS means|-0.169|||=|0.548|TWO_SIDED|95.0|-0.719|0.382|||ANCOVA|||0-2 hours post-dose||0.382|-0.719|= 0.548
82556585|NCT05485805|164823040|OTHER||Geometric LS means|-0.132|||=|0.415|TWO_SIDED|95.0|-0.451|0.186|||ANCOVA|||0-2 hours post-dose||0.186|-0.451|= 0.415
82556586|NCT05485805|164823040|OTHER||Geometric LS means|2.823|||<|0.001|TWO_SIDED|95.0|2.377|3.268|||ANCOVA|||0-2 hours post-dose||3.268|2.377|< 0.001
82556587|NCT05485805|164823040|OTHER||Geometric LS means|2.201|||<|0.001|TWO_SIDED|95.0|1.748|2.654|||ANCOVA|||0-2 hours post-dose||2.654|1.748|< 0.001
82556588|NCT05485805|164823040|OTHER||Geometric LS means|2.237|||<|0.001|TWO_SIDED|95.0|1.791|2.683|||ANCOVA|||0-2 hours post-dose||2.683|1.791|< 0.001
82556589|NCT05485805|164823040|OTHER||Geometric LS means|2.654|||<|0.001|TWO_SIDED|95.0|2.202|3.106|||ANCOVA|||0-2 hours post-dose||3.106|2.202|< 0.001
82556590|NCT05485805|164823040|OTHER||Geometric LS means|2.068|||<|0.001|TWO_SIDED|95.0|1.615|2.521|||ANCOVA|||0-2 hours post-dose||2.521|1.615|< 0.001
82556591|NCT05485805|164823040|OTHER||Geometric LS means|-1.338|||<|0.001|TWO_SIDED|95.0|-2.133|-0.542|||ANCOVA|||0-4 hours post-dose||-0.542|-2.133|< 0.001
82556592|NCT05485805|164823040|OTHER||Geometric LS means|1.016|||=|0.012|TWO_SIDED|95.0|0.22|1.813|||ANCOVA|||0-4 hours post-dose||1.813|0.22|= 0.012
82556593|NCT05485805|164823040|OTHER||Geometric LS means|5.982|||<|0.001|TWO_SIDED|95.0|4.864|7.101|||ANCOVA|||0-4 hours post-dose||7.101|4.864|< 0.001
82556594|NCT05485805|164823040|OTHER||Geometric LS means|-1.048|||=|0.136|TWO_SIDED|95.0|-2.428|0.332|||ANCOVA|||0-4 hours post-dose||0.332|-2.428|= 0.136
82556595|NCT05485805|164823040|OTHER||Geometric LS means|-0.321|||=|0.43|TWO_SIDED|95.0|-1.119|0.477|||ANCOVA|||0-4 hours post-dose||0.477|-1.119|= 0.43
82556596|NCT05485805|164823040|OTHER||Geometric LS means|6.999|||<|0.001|TWO_SIDED|95.0|5.881|8.116|||ANCOVA|||0-4 hours post-dose||8.116|5.881|< 0.001
82556597|NCT05485805|164823040|OTHER||Geometric LS means|4.934|||<|0.001|TWO_SIDED|95.0|3.798|6.07|||ANCOVA|||0-4 hours post-dose||6.07|3.798|< 0.001
82556598|NCT05485805|164823040|OTHER||Geometric LS means|5.661|||<|0.001|TWO_SIDED|95.0|4.543|6.779|||ANCOVA|||0-4 hours post-dose||6.779|4.543|< 0.001
82556599|NCT05485805|164823040|OTHER||Geometric LS means|5.951|||<|0.001|TWO_SIDED|95.0|4.816|7.085|||ANCOVA|||0-4 hours post-dose||7.085|4.816|< 0.001
82556600|NCT05485805|164823040|OTHER||Geometric LS means|4.613|||<|0.001|TWO_SIDED|95.0|3.478|5.749|||ANCOVA|||0-4 hours post-dose||5.749|3.478|< 0.001
82556601|NCT05485805|164823040|OTHER||Geometric LS means|-1.963|||=|0.003|TWO_SIDED|95.0|-3.254|-0.673|||ANCOVA|||0-6 hours post-dose||-0.673|-3.254|= 0.003
82556602|NCT05485805|164823040|OTHER||Geometric LS means|1.641|||=|0.013|TWO_SIDED|95.0|0.35|2.933|||ANCOVA|||0-6 hours post-dose||2.933|0.35|= 0.013
82556603|NCT05485805|164823040|OTHER||Geometric LS means|9.191|||<|0.001|TWO_SIDED|95.0|7.377|11.006|||ANCOVA|||0-6 hours post-dose||11.006|7.377|< 0.001
82556604|NCT05485805|164823040|OTHER||Geometric LS means|-1.642|||=|0.15|TWO_SIDED|95.0|-3.881|0.597|||ANCOVA|||0-6 hours post-dose||0.597|-3.881|= 0.15
82556605|NCT05485805|164823040|OTHER||Geometric LS means|-0.322|||=|0.625|TWO_SIDED|95.0|-1.617|0.972|||ANCOVA|||0-6 hours post-dose||0.972|-1.617|= 0.625
82556606|NCT05485805|164823040|OTHER||Geometric LS means|10.833|||<|0.001|TWO_SIDED|95.0|9.02|12.645|||ANCOVA|||0-6 hours post-dose||12.645|9.02|< 0.001
82556607|NCT05485805|164823040|OTHER||Geometric LS means|7.55|||<|0.001|TWO_SIDED|95.0|5.707|9.392|||ANCOVA|||0-6 hours post-dose||9.392|5.707|< 0.001
82556608|NCT05485805|164823040|OTHER||Geometric LS means|8.869|||<|0.001|TWO_SIDED|95.0|7.055|10.683|||ANCOVA|||0-6 hours post-dose||10.683|7.055|< 0.001
82556609|NCT05485805|164823040|OTHER||Geometric LS means|9.191|||<|0.001|TWO_SIDED|95.0|7.351|11.031|||ANCOVA|||0-6 hours post-dose||11.031|7.351|< 0.001
82556610|NCT05485805|164823040|OTHER||Geometric LS means|7.228|||<|0.001|TWO_SIDED|95.0|5.386|9.07|||ANCOVA|||0-6 hours post-dose||9.07|5.386|< 0.001
82556611|NCT05485805|164823040|OTHER||Geometric LS means|-2.398|||=|0.009|TWO_SIDED|95.0|-4.185|-0.61|||ANCOVA|||0-8 hours post-dose||-0.61|-4.185|= 0.009
82556612|NCT05485805|164823040|OTHER||Geometric LS means|2.4|||=|0.009|TWO_SIDED|95.0|0.61|4.189|||ANCOVA|||0-8 hours post-dose||4.189|0.61|= 0.009
82556613|NCT05485805|164823040|OTHER||Geometric LS means|11.898|||<|0.001|TWO_SIDED|95.0|9.384|14.412|||ANCOVA|||0-8 hours post-dose||14.412|9.384|< 0.001
82556614|NCT05485805|164823040|OTHER||Geometric LS means|-2.225|||=|0.159|TWO_SIDED|95.0|-5.327|0.877|||ANCOVA|||0-8 hours post-dose||0.877|-5.327|= 0.159
82556615|NCT05485805|164823040|OTHER||Geometric LS means|0.002|||=|0.998|TWO_SIDED|95.0|-1.792|1.795|||ANCOVA|||0-8 hours post-dose||1.795|-1.792|= 0.998
82556616|NCT05485805|164823040|OTHER||Geometric LS means|14.298|||<|0.001|TWO_SIDED|95.0|11.787|16.809|||ANCOVA|||0-8 hours post-dose||16.809|11.787|< 0.001
82556617|NCT05485805|164823040|OTHER||Geometric LS means|9.673|||<|0.001|TWO_SIDED|95.0|7.12|12.226|||ANCOVA|||0-8 hours post-dose||12.226|7.12|< 0.001
82556618|NCT05485805|164823040|OTHER||Geometric LS means|11.9|||<|0.001|TWO_SIDED|95.0|9.387|14.413|||ANCOVA|||0-8 hours post-dose||14.413|9.387|< 0.001
82556619|NCT05485805|164823040|OTHER||Geometric LS means|12.073|||<|0.001|TWO_SIDED|95.0|9.523|14.623|||ANCOVA|||0-8 hours post-dose||14.623|9.523|< 0.001
82582230|NCT02937454|164876027|OTHER||Annualised event rate ratio (RR)|0.8||||0.05|TWO_SIDED|95.0|0.64|1.0|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||1.0|0.64|0.050
82556620|NCT05485805|164823040|OTHER||Geometric LS means|9.675|||<|0.001|TWO_SIDED|95.0|7.123|12.227|||ANCOVA|||0-8 hours post-dose||12.227|7.123|< 0.001
82556621|NCT05485805|164823040|OTHER||Geometric LS means|-2.949|||=|0.043|TWO_SIDED|95.0|-5.803|-0.095|||ANCOVA|||0-12 hours post-dose||-0.095|-5.803|= 0.043
82556622|NCT05485805|164823040|OTHER||Geometric LS means|3.694|||=|0.011|TWO_SIDED|95.0|0.837|6.55|||ANCOVA|||0-12 hours post-dose||6.55|0.837|= 0.011
82556623|NCT05485805|164823040|OTHER||Geometric LS means|16.504|||<|0.001|TWO_SIDED|95.0|12.49|20.517|||ANCOVA|||0-12 hours post-dose||20.517|12.49|< 0.001
82556624|NCT05485805|164823040|OTHER||Geometric LS means|-3.437|||=|0.173|TWO_SIDED|95.0|-8.389|1.515|||ANCOVA|||0-12 hours post-dose||1.515|-8.389|= 0.173
82556625|NCT05485805|164823040|OTHER||Geometric LS means|0.744|||=|0.61|TWO_SIDED|95.0|-2.119|3.608|||ANCOVA|||0-12 hours post-dose||3.608|-2.119|= 0.61
82556626|NCT05485805|164823040|OTHER||Geometric LS means|20.197|||<|0.001|TWO_SIDED|95.0|16.189|24.206|||ANCOVA|||0-12 hours post-dose||24.206|16.189|< 0.001
82582231|NCT02937454|164876027|OTHER||Annualised event rate ratio (RR)|0.77||||0.024|TWO_SIDED|95.0|0.62|0.97|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||COVID-19 sensitivity analyses||0.97|0.62|0.024
82556627|NCT05485805|164823040|OTHER||Geometric LS means|13.067|||<|0.001|TWO_SIDED|95.0|8.992|17.143|||ANCOVA|||0-12 hours post-dose||17.143|8.992|< 0.001
82556628|NCT05485805|164823040|OTHER||Geometric LS means|17.248|||<|0.001|TWO_SIDED|95.0|13.236|21.261|||ANCOVA|||0-12 hours post-dose||21.261|13.236|< 0.001
82556629|NCT05485805|164823040|OTHER||Geometric LS means|16.761|||<|0.001|TWO_SIDED|95.0|12.69|20.831|||ANCOVA|||0-12 hours post-dose||20.831|12.69|< 0.001
82556630|NCT05485805|164823040|OTHER||Geometric LS means|13.812|||<|0.001|TWO_SIDED|95.0|9.738|17.886|||ANCOVA|||0-12 hours post-dose||17.886|9.738|< 0.001
82556631|NCT05485805|164823040|OTHER||Geometric LS means|-2.312|||=|0.473|TWO_SIDED|95.0|-8.635|4.011|||ANCOVA|||0-24 hours post-dose||4.011|-8.635|= 0.473
82556632|NCT05485805|164823040|OTHER||Geometric LS means|27.08|||<|0.001|TWO_SIDED|95.0|18.188|35.973|||ANCOVA|||0-24 hours post-dose||35.973|18.188|< 0.001
82556633|NCT05485805|164823040|OTHER||Geometric LS means|-6.928|||=|0.215|TWO_SIDED|95.0|-17.9|4.044|||ANCOVA|||0-24 hours post-dose||4.044|-17.9|= 0.215
82556634|NCT05485805|164823040|OTHER||Geometric LS means|2.468|||=|0.445|TWO_SIDED|95.0|-3.876|8.813|||ANCOVA|||0-24 hours post-dose||8.813|-3.876|= 0.445
82556635|NCT05485805|164823040|OTHER||Geometric LS means|20.152|||<|0.001|TWO_SIDED|95.0|11.122|29.183|||ANCOVA|||0-24 hours post-dose||29.183|11.122|< 0.001
82556636|NCT05485805|164823040|OTHER||Geometric LS means|24.933|||<|0.001|TWO_SIDED|95.0|15.914|33.952|||ANCOVA|||0-24 hours post-dose||33.952|15.914|< 0.001
82582232|NCT02937454|164876028|OTHER||Annualised event rate ratio (RR)|0.74||||0.013|TWO_SIDED|95.0|0.58|0.94|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||0.94|0.58|0.013
82582233|NCT02937454|164876028|OTHER||Annualised event rate ratio (RR)|0.7||||0.005|TWO_SIDED|95.0|0.55|0.9|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||COVID-19 sensitivity analyses||0.90|0.55|0.005
82582234|NCT02937454|164876029|OTHER||Hazard Ratio (HR)|0.96||||0.809|TWO_SIDED|95.0|0.7|1.32|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||1.32|0.70|0.809
82582235|NCT02937454|164876029|OTHER||Hazard Ratio (HR)|0.94||||0.687|TWO_SIDED|95.0|0.68|1.29|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Covid-19 Sensitivity Analysis||1.29|0.68|0.687
82582236|NCT02937454|164876030|OTHER||Hazard Ratio (HR)|0.8||||0.03|TWO_SIDED|95.0|0.66|0.98|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Full Analysis Set (FAS)||0.98|0.66|0.030
82556637|NCT05485805|164823040|OTHER||Geometric LS means|22.621|||<|0.001|TWO_SIDED|95.0|13.594|31.648|||ANCOVA|||0-24 hours post-dose||31.648|13.594|< 0.001
82556638|NCT05485805|164823041|OTHER||||||=|0.963|||||||ANCOVA|||||||= 0.963
82556639|NCT05485805|164823041|OTHER||||||=|0.118|||||||ANCOVA|||||||= 0.118
82556640|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556641|NCT05485805|164823041|OTHER||||||=|0.244|||||||ANCOVA|||||||= 0.244
82556642|NCT05485805|164823041|OTHER||||||=|0.139|||||||ANCOVA|||||||= 0.139
82556643|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556644|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556645|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556646|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556647|NCT05485805|164823041|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556648|NCT05485805|164823043|OTHER||||||=|0.647|||||||ANCOVA|||||||= 0.647
82556649|NCT05485805|164823043|OTHER||||||=|0.714|||||||ANCOVA|||||||= 0.714
82556650|NCT05485805|164823043|OTHER||||||=|0.065|||||||ANCOVA|||||||= 0.065
82556651|NCT05485805|164823043|OTHER||||||=|0.742|||||||ANCOVA|||||||= 0.742
82556652|NCT05485805|164823043|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556653|NCT05485805|164823043|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556654|NCT05485805|164823043|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556655|NCT05485805|164823043|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556656|NCT05485805|164823043|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556657|NCT05485805|164823044|OTHER||||||=|0.162|||||||ANCOVA|||||||= 0.162
82556658|NCT05485805|164823044|OTHER||||||=|0.319|||||||ANCOVA|||||||= 0.319
82556659|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556660|NCT05485805|164823044|OTHER||||||=|0.343|||||||ANCOVA|||||||= 0.343
82556661|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556662|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556663|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556664|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82485746|NCT00395538|164665368|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the baseline and the year 1 biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
82485747|NCT00395538|164665368|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485748|NCT00395538|164665368|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.68||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.680
82485749|NCT00395538|164665369|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the baseline and the year 1 biopsy.||||||0.006||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.006
82556665|NCT05485805|164823044|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556666|NCT05485805|164823045|OTHER||||||=|0.162|||||||ANCOVA|||||||= 0.162
82556667|NCT05485805|164823045|OTHER||||||=|0.319|||||||ANCOVA|||||||= 0.319
82556668|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556669|NCT05485805|164823045|OTHER||||||=|0.343|||||||ANCOVA|||||||= 0.343
82556670|NCT05485805|164823045|OTHER||||||=|0.772|||||||ANCOVA|||||||= 0.772
82556671|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556672|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556673|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556674|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556675|NCT05485805|164823045|OTHER||||||<|0.001|||||||ANCOVA|||||||< 0.001
82556676|NCT05485805|164823048|OTHER||geometric LS mean square|-0.14|||=|0.334|TWO_SIDED|95.0|-0.44|0.15|||ANCOVA|||||0.15|-0.44|= 0.334
82556677|NCT05485805|164823048|OTHER||geometric LS mean square|0.04|||=|0.783|TWO_SIDED|95.0|-0.25|0.33|||ANCOVA|||||0.33|-0.25|= 0.783
82556678|NCT05485805|164823048|OTHER||geometric LS mean square|-0.08|||=|0.687|TWO_SIDED|95.0|-0.5|0.33|||ANCOVA|||||0.33|-0.5|= 0.687
82556679|NCT05485805|164823048|OTHER||geometric LS mean square|-0.02|||=|0.927|TWO_SIDED|95.0|-0.53|0.49|||ANCOVA|||||0.49|-0.53|= 0.927
82556680|NCT05485805|164823048|OTHER||geometric LS mean square|-0.1|||=|0.492|TWO_SIDED|95.0|-0.4|0.19|||ANCOVA|||||0.19|-0.4|= 0.492
82556681|NCT05485805|164823048|OTHER||geometric LS mean square|-0.04|||=|0.836|TWO_SIDED|95.0|-0.46|0.37|||ANCOVA|||||0.37|-0.46|= 0.836
82556682|NCT05485805|164823048|OTHER||geometric LS mean square|-0.11|||=|0.611|TWO_SIDED|95.0|-0.53|0.31|||ANCOVA|||||0.31|-0.53|= 0.611
82556683|NCT05485805|164823048|OTHER||geometric LS mean square|-0.19|||=|0.371|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||||0.22|-0.6|= 0.371
82556684|NCT05485805|164823048|OTHER||geometric LS mean square|-0.07|||=|0.752|TWO_SIDED|95.0|-0.49|0.35|||ANCOVA|||||0.35|-0.49|= 0.752
82556685|NCT05485805|164823048|OTHER||geometric LS mean square|-0.21|||=|0.321|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||||0.21|-0.63|= 0.321
82556686|NCT00490139|164823054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.048|TWO_SIDED|95.0|0.71|1.0|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.00|0.71|0.048
82556687|NCT00490139|164823054|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.61|TWO_SIDED|95.0|0.81|1.13|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.13|0.81|0.610
82556688|NCT00490139|164823055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.887|||||TWO_SIDED|95.0|0.77|1.02|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.02|0.77|
82582237|NCT02937454|164876030|OTHER||Hazard Ratio (HR)|0.79||||0.023|TWO_SIDED|95.0|0.65|0.97|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Covid-19 Sensitivity Analysis||0.97|0.65|0.023
82582238|NCT02937454|164876031|OTHER||Annualised event rate ratio (RR)|0.67||||0.035|TWO_SIDED|95.0|0.47|0.97|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country.||Full Analysis Set (FAS)||0.97|0.47|0.035
82582239|NCT02937454|164876031|OTHER||Annualised event rate ratio (RR)|0.61||||0.009|TWO_SIDED|95.0|0.42|0.88|||Negative binomial model|Negative binomial model adjusted for baseline covariates: sex, age, HF aetiology, HF duration, and country||Covid-19 Sensitivity Analysis||0.88|0.42|0.009
82582240|NCT02937454|164876032|OTHER||Hazard Ratio (HR)|0.73||||0.006|TWO_SIDED|95.0|0.59|0.92|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||0.92|0.59|0.006
82582241|NCT02937454|164876033|OTHER||Hazard Ratio (HR)|0.77||||0.009|TWO_SIDED|95.0|0.63|0.94|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline.||Full Analysis Set (FAS)||0.94|0.63|0.009
82582242|NCT02937454|164876034|OTHER||Hazard Ratio (HR)|0.99||||0.944|TWO_SIDED|95.0|0.75|1.31|||Regression, Cox|Cox regression adjusted for sex, age, HF aetiology, HF duration, and country at baseline||Full Analysis Set (FAS)||1.31|0.75|0.944
82582243|NCT02937454|164876035|OTHER||Odds Ratio (OR)|1.14||||0.196|TWO_SIDED|95.0|0.93|1.39|||Generalised Estimating Equations (GEE)|The following variables are included in the GEE model: treatment, visit, baseline NYHA class, sex, age, HF aetiology, HF duration, and country||Full Analysis Set (FAS)||1.39|0.93|0.196
82485750|NCT00395538|164665369|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
82485751|NCT00395538|164665369|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.904||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.904
82582244|NCT02937454|164876036|OTHER|||||||0.208|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 6||||0.208
82582245|NCT02937454|164876036|OTHER|||||||0.408|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 24||||0.408
82582246|NCT02937454|164876036|OTHER|||||||0.999|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 52||||0.999
82582247|NCT02937454|164876037|OTHER|||||||0.227|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 2||||0.227
82582248|NCT02937454|164876037|OTHER|||||||0.018|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 4||||0.018
82582249|NCT02937454|164876037|OTHER|||||||0.005|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 6||||0.005
82582250|NCT02937454|164876037|OTHER|||||||0.006|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 12||||0.006
82582251|NCT02937454|164876037|OTHER|||||||0.028|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 24||||0.028
82582252|NCT02937454|164876037|OTHER|||||||0.136|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 36||||0.136
82582253|NCT02937454|164876037|OTHER|||||||0.329|||||||Mixed-effect model of repeated measures|MMRM using unstructured covariance matrix: Change score = Baseline score + Treatment + Visit + Treatment\*Visit + Baseline covariates.||Week 52||||0.329
82582254|NCT01160289|164876038|SUPERIORITY_OR_OTHER|||||||0.5||95.0||||The p-value was 1-sided and adjusted for multiple comparisons. The level of significance was 1-sided of 0.04.|ANCOVA|Treatment group (tx grp), baseline IIEF EF domain score, baseline testosterone level, tx grp\*baseline IIEF, tx grp\*testosterone level interactions.||Only the treatment effects of 1 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil and the treatment effects of 5 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil were analyzed.||||0.5
82582255|NCT01160289|164876038|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||The p-value was 1-sided and adjusted for multiple comparisons. The level of significance was 1-sided of 0.04.|ANCOVA|The model included tx grp, baseline IIEF EF domain score, baseline testosterone level, tx grp\*baseline IIEF, tx grp\*testosterone level interactions.||Only the treatment effects of the treatment effects of 5 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil and 1 mg LY2452473 and 5 mg tadalafil versus 5 mg tadalafil were analyzed.||||0.498
82485752|NCT00395538|164665370|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
82485753|NCT00395538|164665370|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82499211|NCT03590041|164689392|SUPERIORITY|||||||0.04||||||Linear Mixed Model adjusted for a priori patient covariates: Race/Ethnicity, Gender, Health Literacy, Food Availability, Charlson Score, Mental Illness, Substance use. Adjusted P-value represents the significance test for the time x group interaction|Mixed Models Analysis|||We hypothesized that patients in Patient-Driven SMAs would have greater reductions in Diabetes Distress than those in Standardized SMAs. We expected seeing an effect size of a .6 unit decrease (.30) in Standardized SMAs and 1.2 unit decrease (.60) in Patient-Driven SMAs. We estimate we have \>80% power to detect effect sizes between .29 (ICC=3%) and .34 (ICC=5%).||||0.04
82556689|NCT00490139|164823055|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.914|||||TWO_SIDED|95.0|0.8|1.05|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.05|0.80|
82556690|NCT00490139|164823056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.078|TWO_SIDED|95.0|0.62|1.03|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.03|0.62|0.078
82556691|NCT00490139|164823056|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.433|TWO_SIDED|95.0|0.71|1.16|||Log Rank|Stratification was by chemotherapy timing, hormone receptor status, and axillary lymph node status.|The estimate of the treatment hazard ratio (tras followed by lap versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.16|0.71|0.433
82556692|NCT00490139|164823057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.853|||||TWO_SIDED|95.0|0.7|1.03|||||The estimate of the treatment hazard ratio (lap plus tras versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.03|0.70|
82556693|NCT00490139|164823057|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.863|||||TWO_SIDED|95.0|0.71|1.04|||||The estimate of the treatment hazard ratio (tras followed by lap versus tras) was based on the Cox proportional hazards model adjusting for the stratification factors of chemotherapy timing, hormone receptor status, and axillary lymph node status.|||1.04|0.71|
82556694|NCT00490139|164823058|SUPERIORITY_OR_OTHER_LEGACY|Time to recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.811|||||TWO_SIDED|95.0|0.68|0.96||||||||0.96|0.68|
82556695|NCT00490139|164823058|SUPERIORITY_OR_OTHER_LEGACY|Time to recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.79|1.1||||||||1.10|0.79|
82582256|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.178|STANDARD_ERROR_OF_MEAN|3.312||0.722||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.722
82556696|NCT00490139|164823059|SUPERIORITY_OR_OTHER_LEGACY|Time to distant recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.852|||||TWO_SIDED|95.0|0.71|1.02||||||||1.02|0.71|
82556697|NCT00490139|164823059|SUPERIORITY_OR_OTHER_LEGACY|Time to distant recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.968|||||TWO_SIDED|95.0|0.81|1.16||||||||1.16|0.81|
82556698|NCT00490139|164823060|SUPERIORITY_OR_OTHER_LEGACY|Time to CNS recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.986|||||TWO_SIDED|95.0|0.74|1.31||||||||1.31|0.74|
82556699|NCT00490139|164823060|SUPERIORITY_OR_OTHER_LEGACY|Time to CNS recurrence was analyzed using competing risks methodology with death (without event) as a competing risk.|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.74|1.31||||||||1.31|0.74|
82582257|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.552|STANDARD_ERROR_OF_MEAN|3.253||0.634||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.634
82582258|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-4.674|STANDARD_ERROR_OF_MEAN|3.218||0.147||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.147
82582259|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.404|STANDARD_ERROR_OF_MEAN|3.157||0.02||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q1; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.020
82485754|NCT00395538|164665370|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.01||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.010
82485755|NCT00395538|164665371|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the baseline and the year 1 biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485756|NCT00395538|164665371|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485757|NCT00395538|164665371|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.02||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.020
82485758|NCT00395538|164665372|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the baseline and the year 1 biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
82485759|NCT00395538|164665372|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.022||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.022
82499212|NCT03590041|164689393|SUPERIORITY|||||||0.82||||||Linear Mixed Model adjusted for a priori patient covariates: Race/Ethnicity, Gender, Health Literacy, Food Availability, Charlson Score, Mental Illness, Substance use. Adjusted P-value represents the significance test for the time x group interaction|Mixed Models Analysis|||We hypothesized that patients in the Patient-Driven condition would have a greater reduction in HbA1c than patients in the Standardized condition. We estimate we have \>80% power to detect effect sizes between .29 (ICC=3%) and .34 (ICC=5%).||||0.82
82499213|NCT02692703|164689394|NON_INFERIORITY|The noninferiority of the rate of sustained virologic response at 12 weeks after treatment as compared with the historical rate for the current standard of care regimens (SOF/LDV + RBV or SOF + DCV + RBV) was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 86% to achieve noninferiority.|Percentage of Participants|98.0|||||TWO_SIDED|95.0|95.3|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of ≥96%, 90 participants provides \>90% power to demonstrate noninferiority of the regimen to the historical rate for current standard of care regimens (SOF/LDV + RBV OR SOF + DCV + RBV) (94%) (based on the normal approximation of a single binomial proportion in a one-sample test for superiority).||100.0|95.3|
82499214|NCT02533427|164689417|OTHER||% Geometric Least Square Mean(GLSM)Ratio|107.36|||||TWO_SIDED|90.0|103.19|111.69|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||111.69|103.19|
82499215|NCT02533427|164689418|OTHER||% GLSM Ratio|115.14|||||TWO_SIDED|90.0|106.49|124.5|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||124.50|106.49|
82499216|NCT02533427|164689419|OTHER||% GLSM Ratio|105.43|||||TWO_SIDED|90.0|96.95|114.66|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||114.66|96.95|
82499217|NCT02533427|164689420|OTHER||% GLSM Ratio|248.89|||||TWO_SIDED|90.0|33.11|1870.81|||||Test/Reference: Norgestimate Part B/Part A|Norgestimate Part B/Part A||1870.81|33.11|
82582260|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.33|STANDARD_ERROR_OF_MEAN|4.658||0.775||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.775
82485760|NCT00395538|164665372|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cn.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.228||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Cn.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.228
82485761|NCT00395538|164665373|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.O.Th values for both their baseline and year 1 biopsies.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
82485762|NCT00395538|164665373|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.006||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.006
82499218|NCT02533427|164689421|OTHER||% GLSM Ratio|107.71|||||TWO_SIDED|90.0|97.78|118.65|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||118.65|97.78|
82499219|NCT02533427|164689422|OTHER||% GLSM Ratio|115.02|||||TWO_SIDED|90.0|108.12|122.37|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||122.37|108.12|
82499220|NCT02533427|164689423|OTHER||% GLSM Ratio|121.06|||||TWO_SIDED|90.0|106.1|138.12|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||138.12|106.10|
82556700|NCT06140290|164823097|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|108.32|||||TWO_SIDED|90.0|101.2|115.94|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||115.94|101.20|
82556701|NCT06140290|164823098|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|120.41|||||TWO_SIDED|90.0|108.02|134.22|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||134.22|108.02|
82556702|NCT06140290|164823099|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|115.29|||||TWO_SIDED|90.0|105.17|126.38|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||126.38|105.17|
82582261|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|1.844|STANDARD_ERROR_OF_MEAN|4.573||0.687||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.687
82582262|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.092|STANDARD_ERROR_OF_MEAN|4.535||0.119||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.119
82499221|NCT02533427|164689424|OTHER||% GLSM Ratio|112.11|||||TWO_SIDED|90.0|87.19|144.14|||||Test/Reference: Norgestimate Part B/Part A|Norgestimate Part B/Part A||144.14|87.19|
82582263|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-6.578|STANDARD_ERROR_OF_MEAN|4.45||0.14||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q2; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.140
82651520|NCT00782509|165017850|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.138|0.204|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.204|0.138|<0.0001
82556703|NCT06140290|164823100|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the reference treatment, while Etrasimod 2mg (Treatment G) without practice session was the test treatment.|Ratio of Adjusted Geometric Means|106.75|||||TWO_SIDED|90.0|99.33|114.73|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using a mixed effect model, with treatment as a fixed effect and participant as a random effect.||114.73|99.33|
82556704|NCT06140290|164823101|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|91.8|||||TWO_SIDED|90.0|77.76|108.38|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA (Analysis of variance) model with treatment as a fixed effect.||108.38|77.76|
82556705|NCT06140290|164823101|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|102.71|||||TWO_SIDED|90.0|86.33|122.19|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||122.19|86.33|
82556706|NCT06140290|164823102|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|86.34|||||TWO_SIDED|90.0|69.42|107.37|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||107.37|69.42|
82556707|NCT06140290|164823102|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|97.98|||||TWO_SIDED|90.0|76.99|124.7|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||124.70|76.99|
82556708|NCT06140290|164823103|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|88.72|||||TWO_SIDED|90.0|73.1|107.68|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||107.68|73.10|
82556709|NCT06140290|164823103|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|97.54|||||TWO_SIDED|90.0|78.74|120.83|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||120.83|78.74|
82582264|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|6.703|STANDARD_ERROR_OF_MEAN|5.302||0.207||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.207
82582265|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|9.159|STANDARD_ERROR_OF_MEAN|5.206||0.079||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.079
82582266|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-5.349|STANDARD_ERROR_OF_MEAN|5.165||0.301||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.301
82499222|NCT02533427|164689425|OTHER||% GLSM Ratio|114.19|||||TWO_SIDED|90.0|107.4|121.39|||||Test/Reference: Norelgestromin Part B/Part A|Norelgestromin Part B/Part A||121.39|107.40|
82582267|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-2.893|STANDARD_ERROR_OF_MEAN|5.067||0.568||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q3; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.568
82582268|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|4.079|STANDARD_ERROR_OF_MEAN|5.566||0.464||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.464
82651521|NCT00782509|165017851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.13|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.130|<0.0001
82499223|NCT02533427|164689426|OTHER||% GLSM Ratio|121.62|||||TWO_SIDED|90.0|110.85|133.44|||||Test/Reference: Norgestrel Part B/Part A|Norgestrel Part B/Part A||133.44|110.85|
82499224|NCT02533427|164689427|OTHER||% GLSM Ratio|92.86|||||TWO_SIDED|90.0|82.55|104.45|||||Test/Reference: Ethinyl estradiol Part B/Part A|Ethinyl estradiol Part B/Part A||104.45|82.55|
82499225|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|2.11|||||TWO_SIDED|95.0|-3.48|7.7||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 1.||7.70|-3.48|
82499226|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|5.33|||||TWO_SIDED|95.0|-0.41|11.07||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 1.||11.07|-0.41|
82499227|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|2.49|||||TWO_SIDED|95.0|-3.35|8.33||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 1.||8.33|-3.35|
82499228|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-6.11|5.36||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 2.||5.36|-6.11|
82499229|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|4.36|||||TWO_SIDED|95.0|-1.57|10.29||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 2.||10.29|-1.57|
82499230|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|4.6|||||TWO_SIDED|95.0|-1.45|10.65||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 2.||10.65|-1.45|
82499231|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-4.25|||||TWO_SIDED|95.0|-10.44|1.93||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 7.||1.93|-10.44|
82499232|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-0.45|||||TWO_SIDED|95.0|-7.22|6.32||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 7.||6.32|-7.22|
82499233|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-1.46|||||TWO_SIDED|95.0|-8.25|5.33||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 7.||5.33|-8.25|
82499234|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-5.98|6.29||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 8.||6.29|-5.98|
82499235|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|8.3|||||TWO_SIDED|95.0|1.52|15.08||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 8.||15.08|1.52|
82499236|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|3.82|||||TWO_SIDED|95.0|-2.85|10.5||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 8.||10.50|-2.85|
82499237|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-1.09|||||TWO_SIDED|95.0|-7.16|4.97||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 14.||4.97|-7.16|
82499238|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|6.78|||||TWO_SIDED|95.0|-0.11|13.66||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 14.||13.66|-0.11|
82499239|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|3.29|||||TWO_SIDED|95.0|-3.58|10.15||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 14.||10.15|-3.58|
82499240|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|-1.12|||||TWO_SIDED|95.0|-7.64|5.4||||||Placebo versus GW642444 100 mcg once daily for 0-4 h at Day 15.||5.40|-7.64|
82499241|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|3.59|||||TWO_SIDED|95.0|-3.71|10.89||||||Placebo versus GW642444 400 mcg once daily for 0-4 h at Day 15.||10.89|-3.71|
82499242|NCT00372112|164689462|SUPERIORITY||Mean Difference (Net)|2.11|||||TWO_SIDED|95.0|-4.96|9.18||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h at Day 15.||9.18|-4.96|
82499243|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|2.1|||||TWO_SIDED|95.0|-7.7|12.0||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 1.||12.0|-7.7|
82499244|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-7.2|13.1||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 1.||13.1|-7.2|
82499245|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-10.2|10.1||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 1.||10.1|-10.2|
82499246|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|2.2|||||TWO_SIDED|95.0|-6.1|10.4||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 2.||10.4|-6.1|
82499247|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|5.8|||||TWO_SIDED|95.0|-2.8|14.3||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 2.||14.3|-2.8|
82499248|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-6.9|10.1||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 2.||10.1|-6.9|
82499249|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|-4.9|||||TWO_SIDED|95.0|-16.1|6.2||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 7.||6.2|-16.1|
82499250|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-14.0|10.2||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 7.||10.2|-14.0|
82499251|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|-4.8|||||TWO_SIDED|95.0|-17.1|7.5||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 7.||7.5|-17.1|
82499252|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|3.4|||||TWO_SIDED|95.0|-4.1|10.9||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 8.||10.9|-4.1|
82499253|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|10.8|||||TWO_SIDED|95.0|2.6|19.0||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 8.||19.0|2.6|
82499254|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|3.1|||||TWO_SIDED|95.0|-5.2|11.4||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 8.||11.4|-5.2|
82499255|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|-7.2|||||TWO_SIDED|95.0|-17.0|2.7||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 14.||2.7|-17.0|
82499256|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|5.4|||||TWO_SIDED|95.0|-6.0|16.8||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 14.||16.8|-6.0|
82499257|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|-2.9|||||TWO_SIDED|95.0|-13.8|8.0||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 14.||8.0|-13.8|
82499258|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-7.8|8.3||||||Placebo versus GW642444 100 mcg once daily for 0-4 h maximum HR at Day 15.||8.3|-7.8|
82499259|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|6.8|||||TWO_SIDED|95.0|-2.1|15.6||||||Placebo versus GW642444 400 mcg once daily for 0-4 h maximum HR at Day 15.||15.6|-2.1|
82499260|NCT00372112|164689464|SUPERIORITY||Mean Difference (Net)|4.4|||||TWO_SIDED|95.0|-4.5|13.3||||||Placebo versus Salmeterol 50 mcg BD for 0-4 h maximum HR at Day 15.||13.3|-4.5|
82499261|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.1131|||||TWO_SIDED|95.0|-0.0031|0.2293|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 1.||0.2293|-0.0031|
82499262|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.159|||||TWO_SIDED|95.0|0.0408|0.2771|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 1.||0.2771|0.0408|
82556710|NCT06140290|164823104|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment F) with practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|94.14|||||TWO_SIDED|90.0|79.01|112.17|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||112.17|79.01|
82556711|NCT06140290|164823104|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Here, Etrasimod 2mg (Treatment G) without practice session was the test treatment, while Etrasimod 2mg IR tablet (Treatment A) was the reference treatment.|Ratio of Adjusted Geometric Means|103.36|||||TWO_SIDED|90.0|86.04|124.16|||||Ratio (Test/Reference) and its associated 90% CI were expressed as percentages.|Analysis was performed using ANOVA model with treatment as a fixed effect.||124.16|86.04|
82556712|NCT03301467|164823112|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.967|TWO_SIDED|95.0|-1.9|1.8|||ANCOVA|||||1.8|-1.9|0.9670
82556713|NCT03301467|164823113|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.3083|TWO_SIDED||||||Van Elteren's Test||"Test for normality showed that mean change and mean percent change were not normally distributed. As per SAP, Van Elteren's test was then applied to test mean percent change.~SAP=Statistical Analysis Protocol"|||||0.3083
82556714|NCT03301467|164823114|SUPERIORITY|||||||0.4591|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi square general association statistic||||||0.4591
82556715|NCT03301467|164823115|SUPERIORITY|||||||0.3106|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel chi square general association statistic||||||0.3106
82556716|NCT03301467|164823116|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.3368|TWO_SIDED|95.0|-1.5|0.5|||ANCOVA|||||0.5|-1.5|0.3368
82556717|NCT03301467|164823117|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0401|TWO_SIDED|95.0|-1.7|0.0|||ANCOVA|||||-0.0|-1.7|0.0401
82556718|NCT03301467|164823118|SUPERIORITY||Mean Difference (Final Values)|10.84||||0.0534|TWO_SIDED|95.0|-0.16|21.85|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||21.85|-0.16|0.0534
82556719|NCT03301467|164823119|SUPERIORITY||Mean Difference (Final Values)|10.67||||0.0221|TWO_SIDED|95.0|1.56|19.78|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||19.78|1.56|0.0221
82556720|NCT03301467|164823120|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.2638|TWO_SIDED|95.0|-3.08|11.08|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||11.08|-3.08|0.2638
82556721|NCT03301467|164823121|SUPERIORITY||Mean Difference (Final Values)|3.82||||0.2069|TWO_SIDED|95.0|-2.14|9.77|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||||9.77|-2.14|0.2069
82556722|NCT03301467|164823122|SUPERIORITY||LSM UPCR Ratio|0.98||||0.9284|TWO_SIDED|95.0|0.67|1.45|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM UPCR Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.45|0.67|0.9284
82556723|NCT03301467|164823123|SUPERIORITY||LSM UPCR Ratio|0.86||||0.3778|TWO_SIDED|95.0|0.6|1.21|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM UPCR Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.21|0.60|0.3778
82556724|NCT03301467|164823124|SUPERIORITY||LSM MCP-1 Ratio|0.76||||0.081|TWO_SIDED|95.0|0.55|1.04|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM MCP-1 Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.04|0.55|0.0810
82556725|NCT03301467|164823125|SUPERIORITY||LSM MCP-1 Ratio|0.87||||0.3233|TWO_SIDED|95.0|0.66|1.15|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.|LSM MCP-1 Ratio Week 26 vs Baseline, Avacopan:Placebo|||1.15|0.66|0.3233
82556726|NCT03301467|164823126|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.6025|TWO_SIDED|95.0|-4.6|7.9|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L VAS Score||7.9|-4.6|0.6025
82556727|NCT03301467|164823126|SUPERIORITY||Mean Difference (Final Values)|-0.0422||||0.1797|TWO_SIDED|95.0|-0.1043|0.0198|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L Index Score||0.0198|-0.1043|0.1797
82556728|NCT03301467|164823127|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.4898|TWO_SIDED|95.0|-7.9|3.8|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L VAS Score||3.8|-7.9|0.4898
82556729|NCT03301467|164823127|SUPERIORITY||Mean Difference (Final Values)|-0.0199||||0.4826|TWO_SIDED|95.0|-0.0757|0.036|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||EQ-5D-5L Index Score||0.0360|-0.0757|0.4826
82556730|NCT03301467|164823128|SUPERIORITY||Mean Difference (Final Values)|0.4019||||0.8161|TWO_SIDED|95.0|-3.0402|3.844|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Physical Component Score||3.8440|-3.0402|0.8161
82556731|NCT03301467|164823128|SUPERIORITY||Mean Difference (Final Values)|0.0052||||0.9982|TWO_SIDED|95.0|-4.5994|4.6099|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Mental Component Score||4.6099|-4.5994|0.9982
82556732|NCT03301467|164823129|SUPERIORITY||Mean Difference (Final Values)|-0.1518||||0.9242|TWO_SIDED|95.0|-3.3192|3.0156|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Physical Component Score||3.0156|-3.3192|0.9242
82485763|NCT00395538|164665373|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.67||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.670
82485764|NCT00395538|164665374|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.MAR values for both their baseline and year 1 biopsies.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
82485765|NCT00395538|164665374|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485766|NCT00395538|164665374|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.712||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.712
82485767|NCT00395538|164665375|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.OS/BS values for both their baseline and year 1 biopsies.||||||0.029||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.029
82556733|NCT03301467|164823129|SUPERIORITY||Mean Difference (Final Values)|1.0283||||0.6534|TWO_SIDED|95.0|-3.4972|5.5537|||Mixed Models Analysis|Mixed model repeated measures models with treatment group, visit, and treatment-by-visit interaction as factors and baseline as a covariate.||SF-36v2: Mental Component Score||5.5537|-3.4972|0.6534
82556734|NCT03660826|164823132|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.93|TWO_SIDED|95.0|0.91|2.3||Comparing Arm II vs Arm I (reference group)|Log Rank||||Comparing Arm II vs Arm I (reference group)|2.30|0.91|0.93
82556735|NCT03660826|164823132|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.06|TWO_SIDED|95.0|0.43|1.14|||Log Rank|||Comparing Arm III vs Arm I||1.14|0.43|0.06
82556736|NCT03660826|164823132|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.62|TWO_SIDED|95.0|0.67|1.7|||Log Rank|||Comparing Arm IV vs Arm VII||1.70|0.67|0.62
82556737|NCT03660826|164823132|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.36|TWO_SIDED|95.0|0.58|1.46|||Log Rank|||Comparing Arm V vs Arm VII||1.46|0.58|0.36
82556738|NCT03660826|164823132|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.14|TWO_SIDED|95.0|0.49|1.25|||Log Rank|||Comparing Arm VI vs VII||1.25|0.49|0.14
82556739|NCT03244800|164823198|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82556740|NCT03244800|164823199|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82556741|NCT03244800|164823200|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82556742|NCT03244800|164823201|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82651522|NCT00782509|165017851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.152|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.119|0.186|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.186|0.119|<0.0001
82556743|NCT03244800|164823202|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.002
82556744|NCT03244800|164823203|SUPERIORITY||Odds Ratio (OR)|10.76||||0.04|TWO_SIDED|90.0|1.61|72.03|||Regression, Logistic|||||72.03|1.61|0.040
82556745|NCT02941549|164823223|SUPERIORITY||LS Mean Difference|-6.9||||0.5946|TWO_SIDED|95.0|-34.5|20.7|||ANCOVA|||||20.7|-34.5|0.5946
82556746|NCT02941549|164823223|SUPERIORITY||LS Mean Difference|-10.1||||0.7309|TWO_SIDED|95.0|-36.9|16.8|||ANCOVA|||||16.8|-36.9|0.7309
82556747|NCT02941549|164823224|SUPERIORITY||LS Mean Difference|-1.308||||0.0763|TWO_SIDED|95.0|-2.11|-0.51|||ANCOVA|||||-0.51|-2.11|0.0763
82556748|NCT02941549|164823224|SUPERIORITY||LS Mean Difference|-0.727||||0.0058|TWO_SIDED|95.0|-1.554|0.1|||ANCOVA|||||0.100|-1.554|0.0058
82556749|NCT00918333|164823244|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|40.0|||||TWO_SIDED|||||||||||||
82556750|NCT01759862|164823258|SUPERIORITY|Our calculations showed that by enrolling 50 patients we will be able to detect a 25cc/min absolute difference in eGFR between the two arms with power above 80%, and a two-sided Type I probability error of \<0.05.||||||0.32|||||||t-test, 2 sided|||Intention to treat analysis||||0.32
82556751|NCT01759862|164823259|SUPERIORITY|Enrolling 25 patients in each group will allow us to detect a difference of 200ng/mg cr in urinary NGAL levels between the two groups with a power of 80% and a two-sided type I probability error of 0.05.||||||0.95|||||||Kruskal-Wallis|||||||0.95
82556752|NCT01759862|164823260|SUPERIORITY|||||||0.67|||||||Chi-squared|||||||0.67
82556753|NCT00980954|164823290|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.56|TWO_SIDED|90.0|0.65|1.68||One-sided significance level = 0.05.|Log Rank||Reference level = Arm I|Sample size calculations are based on the primary hypothesis that 4 additional cycles of carboplatin and paclitaxel following concurrent radiation and weekly cisplatin will increase 4-year DFS from 80% to 90% for patients with cervical carcinoma with positive nodes and/or positive margins after a radical hysterectomy. One-sided alpha=0.05, statistical power=80%, 5.5 years of accrual with 4 years of follow-up, 2 interim significance tests. 50 DFS events are required to trigger this analysis.||1.68|0.65|0.56
82556754|NCT00980954|164823291|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.4|TWO_SIDED|90.0|0.49|1.69||One-sided significance level = 0.05.|Log Rank|||The 4-year overall survival rate for the control arm is expected to be approximately 85%. The overall survival will be compared between the two arms. The final targeted sample size of 235 patients with the longer accrual time, will provide 64% and 78% power to detect an increase in overall survival to 92% and 93% respectively, with a 1- sided alpha of 0.05.||1.69|0.49|0.40
82556755|NCT03375320|164823316|SUPERIORITY||||||<|0.0001|||||||One-sided unstratified log-rank|||||||<0.0001
82556756|NCT03375320|164823316|SUPERIORITY||||||<|0.0001|||||||One-sided unstratified log-rank|||||||<0.0001
82556757|NCT03375320|164823317|SUPERIORITY|||||||0.2438|||||||One-sided stratified log-rank|||||||0.2438
82556758|NCT03375320|164823317|SUPERIORITY|||||||0.4426|||||||One-sided stratified log-rank|||||||0.4426
82556759|NCT03375320|164823319|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82556760|NCT03375320|164823319|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82556761|NCT02392234|164823334|SUPERIORITY||Least Squares (LS) Mean Difference|4.7|||<|0.0001|TWO_SIDED|95.0|3.7|5.8|||Linear Mixed Effects Model|||||5.8|3.7|< 0.0001
82556762|NCT02392234|164823334|SUPERIORITY||LS Mean Difference|6.8|||<|0.0001|TWO_SIDED|95.0|5.7|7.8|||Linear Mixed Effects Model|||||7.8|5.7|< 0.0001
82556763|NCT02392234|164823335|SUPERIORITY||LS Mean Difference|9.7|||<|0.0001|TWO_SIDED|95.0|7.2|12.2|||Linear Mixed Effects Model|||||12.2|7.2|<0.0001
82556764|NCT02392234|164823335|SUPERIORITY||LS Mean Difference|11.1|||<|0.0001|TWO_SIDED|95.0|8.7|13.6|||Linear Mixed Effects Model|||||13.6|8.7|<0.0001
82556765|NCT02392234|164823337|SUPERIORITY||LS Mean Difference|8.1|||<|0.0001|TWO_SIDED|95.0|6.3|9.9|||Linear Mixed Effects Model|||||9.9|6.3|<0.0001
82556766|NCT02392234|164823337|SUPERIORITY||LS Mean Difference|11.4|||<|0.0001|TWO_SIDED|95.0|9.6|13.2|||Linear Mixed Effects Model|||||13.2|9.6|<0.0001
82556767|NCT02392234|164823338|SUPERIORITY||LS Mean Difference|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.7|-2.3|||Linear Mixed Effects Model|||||-2.3|-6.7|<0.0001
82556768|NCT02392234|164823338|SUPERIORITY||LS Mean Difference|-9.5|||<|0.0001|TWO_SIDED|95.0|-11.7|-7.3|||Linear Mixed Effects Model|||||-7.3|-11.7|<0.0001
82556769|NCT03170648|164823353|OTHER|||||||0.02||||||T2 (post) vs.T1(pre)|t-test, 2 sided|||||||0.02
82556770|NCT03509909|164823359|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
82556771|NCT05509816|164823375|SUPERIORITY||Ratio of Geometric least squares mean|0.929|||||TWO_SIDED|90.0|0.849|1.02|||Mixed Models Analysis||The least square means (LSMs) and differences in LSMs were back transformed to produce the geometric least square means (GLSMs) and ratio between GLSMs. These were reported along with the 90% confidence interval (CI) for the ratio.|A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.02|0.849|
82556772|NCT05509816|164823376|SUPERIORITY||Ratio of Geometric least squares mean|1.07|||||TWO_SIDED|90.0|0.989|1.16|||Mixed Models Analysis||The LSMs and differences in LSMs were back transformed to produce the GLSMs and ratio between GLSMs. These were reported along with the 90% CI for the ratio.|A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.16|0.989|
82556773|NCT05509816|164823377|SUPERIORITY||Ratio of Geometric least squares mean|0.821|||||TWO_SIDED|90.0|0.777|0.868|||Mixed Models Analysis|||A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||0.868|0.777|
82556774|NCT05509816|164823378|SUPERIORITY||Ratio of Geometric least squares mean|0.964|||||TWO_SIDED|90.0|0.828|1.12|||Mixed Models Analysis|||A mixed effects model was used to estimate drug-drug interaction using the Model: Log(PK) = Treatment + Participant + Random Error, where Participant is fitted as a random effect.||1.12|0.828|
82556775|NCT02130557|164823381|SUPERIORITY||Odds Ratio (OR)|1.547||||0.01|TWO_SIDED|95.0|1.072|2.233||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.025.|Cochran-Mantel-Haenszel||95% Confidence Interval (CI) for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|A total sample size of 500 Ph+ participants is required for the study to provide \>= 90% power to detect at least 15% difference (assuming 25% in the imatinib vs 40% in the bosutinib arm) in the MMR rates at 12 months (48 weeks) with a 1-sided alpha of 2.5%, and 2 interim futility analyses at 33% and 66% of patients with adequate follow-up with early stopping for futility only (non-binding, O'Brien-Fleming analog beta spending function).||2.233|1.072|0.0100
82582269|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|5.054|STANDARD_ERROR_OF_MEAN|5.463||0.356||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.356
82485768|NCT00395538|164665375|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485769|NCT00395538|164665375|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.104||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.104
82485770|NCT00395538|164665376|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ec.ES/BS values for both their baseline and year 1 biopsies.||||||0.088||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.088
82485771|NCT00395538|164665376|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.009||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.009
82485772|NCT00395538|164665376|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.325||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.325
82485773|NCT00395538|164665377|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 3 participants with non-missing Ec.AjAR values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485774|NCT00395538|164665377|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82499263|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.0764|||||TWO_SIDED|95.0|-0.0375|0.1903|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 1.||0.1903|-0.0375|
82582270|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-11.266|STANDARD_ERROR_OF_MEAN|5.418||0.038||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.038
82582271|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-10.292|STANDARD_ERROR_OF_MEAN|5.312||0.054||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q4; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.054
82582272|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|4.202|STANDARD_ERROR_OF_MEAN|5.603||0.454||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.454
82485775|NCT00395538|164665377|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ec.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.974||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ec.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.974
82499264|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.1741|||||TWO_SIDED|95.0|0.0178|0.3305|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 7.||0.3305|0.0178|
82499265|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.1713|||||TWO_SIDED|95.0|0.006|0.3365|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 7.||0.3365|0.0060|
82582273|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|5.796|STANDARD_ERROR_OF_MEAN|5.499||0.293||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.293
82499266|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.1377|||||TWO_SIDED|95.0|-0.0233|0.2987|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 7.||0.2987|-0.0233|
82499267|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.139|||||TWO_SIDED|95.0|-0.0266|0.3046|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for FEV1 over 22-24 h at Day 14.||0.3046|-0.0266|
82499268|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.1906|||||TWO_SIDED|95.0|0.0177|0.3635|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for FEV1 over 22-24 h at Day 14.||0.3635|0.0177|
82499269|NCT00372112|164689479|SUPERIORITY||Mean Difference (Net)|0.0956|||||TWO_SIDED|95.0|-0.0686|0.2599|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline FEV1, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for FEV1 over 22-24 h at Day 14.||0.2599|-0.0686|
82499270|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.009|||||TWO_SIDED|95.0|-0.59|0.608|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 1.||0.608|-0.590|
82499271|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.237|||||TWO_SIDED|95.0|-0.354|0.829|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 1.||0.829|-0.354|
82499272|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.093|||||TWO_SIDED|95.0|-0.469|0.654|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 1.||0.654|-0.469|
82499273|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.199|||||TWO_SIDED|95.0|-0.591|0.988|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 2.||0.988|-0.591|
82499274|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.633|||||TWO_SIDED|95.0|-0.152|1.418|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 2.||1.418|-0.152|
82499275|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.065|||||TWO_SIDED|95.0|-0.667|0.797|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 2.||0.797|-0.667|
82499276|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.097|||||TWO_SIDED|95.0|-0.476|0.67|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 7.||0.670|-0.476|
82499277|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.408|||||TWO_SIDED|95.0|-0.208|1.024|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 7.||1.024|-0.208|
82499278|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.471|0.631|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 7.||0.631|-0.471|
82499279|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.245|||||TWO_SIDED|95.0|-0.66|1.149|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 8.||1.149|-0.660|
82499280|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.796|||||TWO_SIDED|95.0|-0.174|1.766|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 8.||1.766|-0.174|
82499281|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.144|||||TWO_SIDED|95.0|-0.742|1.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 8.||1.030|-0.742|
82485776|NCT00395538|164665378|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.O.Th values for both their baseline and year 1 biopsies.||||||0.004||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.004
82485777|NCT00395538|164665378|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the baseline and the years 2 and 4 (combined) biopsy.||||||0.023||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.023
82485778|NCT00395538|164665378|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.O.Th between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.288||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.O.Th at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.288
82499282|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.056|||||TWO_SIDED|95.0|-0.556|0.669|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 14.||0.669|-0.556|
82499283|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.138|||||TWO_SIDED|95.0|-0.767|0.491|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 14.||0.491|-0.767|
82556776|NCT02130557|164823382|SUPERIORITY||Odds Ratio (OR)|1.418||||0.0303|TWO_SIDED|95.0|0.986|2.037||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.0125.|Cochran-Mantel-Haenszel||95% CI for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|If the primary analysis was significant, each member of the short-term family (CCyR by Month 12, MMR by Month 18) was tested via Bonferroni's procedure at the 1-sided level of 0.0125.||2.037|0.986|0.0303
82556777|NCT02130557|164823383|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.49|2.44|||||Hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|The medians have not been reached in either arm, as such, the premature estimated hazard ratio is provided.||2.44|0.49|
82556778|NCT02130557|164823384|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0037|TWO_SIDED|95.0|1.16|2.61||1-sided p-value based on CMH test for general association between treatment and response with stratification by sokal risk group (low, intermediate, high) and region (1-3) at time of randomization. Statistical significance threshold: 1-sided 0.0125.|Cochran-Mantel-Haenszel||95% CI for the odds ratio adjusted for sokal risk group and region are based on Mantel-Haenszel confidence limits.|If the primary analysis was significant, each member of the short-term family (CCyR by Month 12, MMR by Month 18) was tested via Bonferroni's procedure at the 1-sided level of 0.0125.||2.610|1.160|0.0037
82556779|NCT02130557|164823385|SUPERIORITY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|95.0|0.14|1.13|||||Hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|The medians have not been reached in either arm, as such, the premature estimated hazard ratio is provided.||1.13|0.14|
82556780|NCT02130557|164823386|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0749|TWO_SIDED|95.0|0.35|1.17||1-sided p-value based on Gray's test for comparing cumulative incidence function between treatment arms stratified by sokal risk group (low, intermediate, high) and region (1-3). Statistical significance threshold: 1-sided 0.0125.|Gray's test||The hazard ratio (95% CIs) are based on the proportional subdistribution hazards model stratified by Sokal risk group and region.|If each member of the short-term family (CCyR by Month 12, MMR by Month 18) was significant, EFS and OS were tested sequentially via the Holm's testing procedure at the 1-sided family wise level of 0.025. If one member of the short-term family was significant, EFS and OS were tested sequentially at 1-sided 0.0125.||1.17|0.35|0.0749
82582274|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-8.808|STANDARD_ERROR_OF_MEAN|5.457||0.107||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.107
82651523|NCT00782509|165017852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.135|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.135|<0.0001
82485779|NCT00395538|164665379|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.MAR values for both their baseline and year 1 biopsies.||||||0.202||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.202
82485780|NCT00395538|164665379|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.486||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.486
82485781|NCT00395538|164665379|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.MAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.535||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.MAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.535
82485782|NCT00395538|164665380|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.OS/BS values for both their baseline and year 1 biopsies.||||||0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.001
82485783|NCT00395538|164665380|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the baseline and the years 2 and 4 (combined) biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
82485784|NCT00395538|164665380|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.OS/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.328||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.OS/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.328
82499284|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.187|||||TWO_SIDED|95.0|-0.765|0.391|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 14.||0.391|-0.765|
82499285|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.094|||||TWO_SIDED|95.0|-0.619|0.806|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean glucose 0-4 h at Day 15.||0.806|-0.619|
82499286|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.358|||||TWO_SIDED|95.0|-0.39|1.105|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean glucose 0-4 h at Day 15.||1.105|-0.390|
82499287|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.178|||||TWO_SIDED|95.0|-0.522|0.877|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean glucose 0-4 h at Day 15.||0.877|-0.522|
82651524|NCT00782509|165017852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.127|0.195|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.195|0.127|<0.0001
82485785|NCT00395538|164665381|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.ES/BS values for both their baseline and year 1 biopsies.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
82485786|NCT00395538|164665381|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the baseline and the years 2 and 4 (combined) biopsy.|||||<|0.001||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||<0.001
82485787|NCT00395538|164665381|EQUIVALENCE|A contrast statement within the mixed models analysis tested for differences in the Ic.ES/BS between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.789||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.ES/BS at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.789
82485788|NCT00395538|164665382|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the baseline and the year 1 biopsy. P-value interpretation is questionable since there were only 4 participants with non-missing Ic.AjAR values for both their baseline and year 1 biopsies.||||||0.651||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.651
82485789|NCT00395538|164665382|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the baseline and the years 2 and 4 (combined) biopsy.||||||0.58||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.580
82485790|NCT00395538|164665382|OTHER|A contrast statement within the mixed models analysis tested for differences in the Ic.AjAR between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.338||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis: Ic.AjAR at biopsy baseline, year 1, and years 2 and 4 combined as the dependent variable; biopsy year as the independent variable, model covariates for Cohort; and a random effect for participant. Since Cohort 2 had a time delay from the baseline biopsy to start of HPTH therapy, this time delay (centered) was added as a covariate for Cohort 2 (using a Cohort 2 indicator variable). No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.338
82651525|NCT00782509|165017853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.165|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.131|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.200|0.131|<0.0001
82651526|NCT00782509|165017853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.102|0.171|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.171|0.102|<0.0001
82499288|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.294|||||TWO_SIDED|95.0|-0.586|-0.001|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 1.||-0.001|-0.586|
82499289|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.371|||||TWO_SIDED|95.0|-0.657|-0.085|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 1.||-0.085|-0.657|
82499290|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.153|||||TWO_SIDED|95.0|-0.44|0.133|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 1.||0.133|-0.440|
82485791|NCT00395538|164665383|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the baseline and the year 1 biopsy.||||||0.02||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.020
82485792|NCT00395538|164665383|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the baseline and the years 2 and 4 (combined) biopsy.||||||0.11||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.110
82485793|NCT00395538|164665383|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Mean between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.764||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Mean as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.764
82485794|NCT00395538|164665384|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the baseline and the year 1 biopsy.||||||0.227||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.227
82485795|NCT00395538|164665384|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the baseline and the years 2 and 4 (combined) biopsy.||||||0.194||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.194
82485796|NCT00395538|164665384|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Peak between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.434||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Peak as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.434
82485797|NCT00395538|164665385|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the baseline and the year 1 biopsy.||||||0.003||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.003
82485798|NCT00395538|164665385|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the baseline and the years 2 and 4 (combined) biopsy.||||||0.002||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.002
82556781|NCT02130557|164823387|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.2827|TWO_SIDED|95.0|0.37|1.73||1-sided p-value based on log-rank test for comparing survival curves between treatment arms stratified by sokal risk group and region. OS was not tested as EFS was not significant.|Log Rank||The hazard ratio (95% CIs) are based on the treatment effect (Bosutinib compared with Imatinib) in a stratified (by Sokal risk group at randomization and region) Cox proportional hazards model for the hazard of the respective event.|If each member of the short-term family (CCyR by Month 12, MMR by Month 18) was significant, EFS and OS were tested sequentially via the Holm's testing procedure at the 1-sided family wise level of 0.025. If one member of the short-term family was significant, EFS and OS were tested sequentially at 1-sided 0.0125.||1.73|0.37|0.2827
82556782|NCT04066075|164823397|SUPERIORITY|||||||0.73||||||The p-value represents the difference between telerehabilitation and usual care.|Multilevel linear regression model|||Multilevel modeling in linear regression analyses accounted for within-patient correlations for the 3 assessments at baseline, 1-month and 4-months. Rasch analysis using the method of successive dichotomizations was applied to estimate person measures. Power calculation: a matched pairs t-test revealed 18 subjects per group would detect a within-subject mean improvement of 0.14-logits with 0.17-logits standard deviation for the differences, 0.80 power and 0.05 type 1 error probability.||||0.73
82485799|NCT00395538|164665385|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Width between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.787||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Width as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.787
82485800|NCT00395538|164665386|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the baseline and the year 1 biopsy.||||||0.082||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.082
82485801|NCT00395538|164665386|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the baseline and the years 2 and 4 (combined) biopsy.||||||0.057||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.057
82499291|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.216|||||TWO_SIDED|95.0|-0.679|0.247|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 2.||0.247|-0.679|
82651527|NCT00782509|165017854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.127|0.196|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.196|0.127|<0.0001
82651528|NCT00782509|165017854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.158|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001||95.0|0.123|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.123|<0.0001
82499292|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.536|||||TWO_SIDED|95.0|-0.998|-0.074|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 2.||-0.074|-0.998|
82499293|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.018|||||TWO_SIDED|95.0|-0.452|0.416|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 2.||0.416|-0.452|
82499294|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.486|||||TWO_SIDED|95.0|-0.878|-0.095|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 7.||-0.095|-0.878|
82499295|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.562|||||TWO_SIDED|95.0|-0.99|-0.135|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 7.||-0.135|-0.990|
82499296|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.575|0.196|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 7.||0.196|-0.575|
82499297|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.075|||||TWO_SIDED|95.0|-0.235|0.385|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 8.||0.385|-0.235|
82499298|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.275|||||TWO_SIDED|95.0|-0.623|0.073|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 8.||0.073|-0.623|
82499299|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.103|||||TWO_SIDED|95.0|-0.213|0.418|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 8.||0.418|-0.213|
82499300|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.299|||||TWO_SIDED|95.0|-0.64|0.042|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 14.||0.042|-0.640|
82499301|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.271|||||TWO_SIDED|95.0|-0.621|0.079|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 14.||0.079|-0.621|
82499302|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.095|||||TWO_SIDED|95.0|-0.432|0.243|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 14.||0.243|-0.432|
82499303|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.173|||||TWO_SIDED|95.0|-0.158|0.505|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for weighted mean potassium 0-4 h at Day 15.||0.505|-0.158|
82485802|NCT00395538|164665386|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium Low between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.547||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium Low as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.547
82582275|NCT01160289|164876039|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-7.214|STANDARD_ERROR_OF_MEAN|5.349||0.178||95.0||||"The p-value is for the change from baseline to Week 12 in the percentage of Yes responses on the SEP diary, Q5; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity."|Mixed model repeated measures analysis|||||||0.178
82485803|NCT00395538|164665387|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the baseline and the year 1 biopsy.||||||0.922||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.922
82485804|NCT00395538|164665387|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the year 1 and the years 2 and 4 (combined) biopsy.||||||0.342||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.342
82485805|NCT00395538|164665387|OTHER|A contrast statement within the mixed models analysis tested for differences in the Cortex 1 Spectral Calcium High between the year 1 biopsy and the years 2 and 4 (combined) biopsy.||||||0.449||||||No adjustments were made for multiple comparisons, since the study was terminated early resulting in only 5, 5, and 2 participants having their biopsies at 1, 2, and 4 years respectively.|Mixed Models Analysis|||Mixed models analysis was performed with Cortex 1 Spectral Calcium High as the dependent variable; biopsy year (baseline, year 1, and years 2 and 4 combined) as the independent variable; study cohort as a covariate; and a random effect for participant. No bone biopsy baseline covariate included since it would over-parameterize the model.||||0.449
82485806|NCT01857583|164665420|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|12.6|||||TWO_SIDED|95.0|-10.0|33.6|||ANCOVA|||||33.6|-10.0|
82485807|NCT01857583|164665420|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|17.3|||||TWO_SIDED|95.0|-10.2|42.1|||ANCOVA|||||42.1|-10.2|
82485808|NCT00859027|164665470|OTHER|||||||0.004|||||||One way ANOVA|||Percent change in femoral neck BMD from baseline||||0.004
82485809|NCT00859027|164665470|OTHER|||||||0.001|||||||One way ANOVA|||Percent change in total hip BMD from baseline||||0.001
82485810|NCT00859027|164665470|OTHER|||||||0.04|||||||One way ANOVA|||Percent change in lumbar spine BMD from baseline||||0.04
82485811|NCT00859027|164665470|OTHER||||||<|0.01|||||||ANOVA|||Between group difference of percent change for the femoral neck BMD||||<0.01
82485812|NCT00859027|164665470|OTHER||||||<|0.01|||||||ANOVA|||Between group difference of percent change for total hip BMD||||<0.01
82485813|NCT00859027|164665471|OTHER|||||||0.015|||||||ANOVA|||Between group difference of percent change for NTX||||0.015
82485814|NCT00859027|164665471|OTHER|||||||0.01|||||||ANOVA|||Between group difference of percent change for CTX||||0.01
82485815|NCT02775903|164665504|SUPERIORITY|||||||0.1838|||||||Wald asymptotic two-sided test|||||||0.1838
82485816|NCT02775903|164665505|SUPERIORITY|||||||0.618|||||||Wald asymptotic two-sided test|||||||0.6180
82485817|NCT02775903|164665506|OTHER|P-values were not part of the formal testing.||||||0.7016|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor)||||||0.7016
82485818|NCT02775903|164665507|OTHER|P-values were not part of the formal testing.||||||0.6076|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.6076
82485819|NCT02775903|164665508|OTHER|P-values were not part of the formal testing.||||||0.384|||||||Wald asymptotic two-sided test|||||||0.3840
82485820|NCT02775903|164665509|OTHER|P-values were not part of the formal testing.||||||0.8961|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.8961
82485821|NCT02775903|164665510|OTHER|P-values were not part of the formal testing.||||||0.3591|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.3591
82651529|NCT00782509|165017855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.018||0.0043||95.0|0.017|0.089|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.089|0.017|0.0043
82485822|NCT02775903|164665511|OTHER|P-values were not part of the formal testing.||||||0.9031|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.9031
82485823|NCT02775903|164665513|OTHER|P-values were not part of the formal testing.||||||0.2409|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very intermediate vs poor).||||||0.2409
82485824|NCT02775903|164665514|OTHER|P-values were not part of the formal testing.||||||0.0688|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0688
82485825|NCT02775903|164665515|OTHER|P-values were not part of the formal testing.||||||0.4894|||||||Wald asymptotic two-sided test|||||||0.4894
82485826|NCT02775903|164665517|OTHER|P-values were not part of the formal testing.||||||0.0381|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0381
82556783|NCT03907488|164823445|SUPERIORITY||||||<|0.005||||||One sided P-value|Log Rank|||The primary analysis of PFS used a stratified log rank test statistic and is reported as two-sided test. Stratified Cox regression was used to estimate treatment hazard ratios for treatment effect. 95% two-sided intervals are reported. The Kaplan-Meier method was used to estimate PFS curves.||||<0.005
82556784|NCT04218357|164823454|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||GEE|Generalized Estimating Equation with standard errors, and an unstructured correlation matrix with medication and time as within-subject factors.||All outcomes were assessed in real-time in the laboratory testing probenecid compared to placebo condition during the alcohol administration procedure.||||0.05
82556785|NCT04640974|164823487|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82556786|NCT04640974|164823488|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82556787|NCT04640974|164823489|OTHER||||||<|0.0001||||||P-Value was calculated|ANOVA|||||||<0.0001
82556788|NCT04484623|164823492|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.37|0.73||P-Value presented to 3 decimal places from one-sided stratified Log-Rank test adjusting for the number of lines of prior therapy (1 vs. 2/3 vs. \>=4) and prior bortezomib (yes or no) according to IVRS strata.|Log Rank||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy (1 vs. 2/3 vs. \>=4) and prior bortezomib (yes or no) according to IVRS strata with a covariate of treatment.|||0.73|0.37|<0.001
82582276|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.079|STANDARD_ERROR_OF_MEAN|0.472||0.867||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.867
82582277|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.039|STANDARD_ERROR_OF_MEAN|0.458||0.931||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.931
82485827|NCT02775903|164665519|OTHER|P-values were not part of the formal testing.||||||0.8973|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (very good, good and intermediate vs poor and very poor).||||||0.8973
82651530|NCT00782509|165017855|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.018||0.0005||95.0|0.028|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.101|0.028|0.0005
82485828|NCT02775903|164665519|OTHER|P-values were not part of the formal testing.||||||0.0691|||||||Log Rank|Log-rank test stratified according to the cytogenetic risk at time of randomization (intermediate vs poor).||||||0.0691
82485829|NCT04571515|164665571|SUPERIORITY||Mean Difference (Final Values)|28.3|STANDARD_ERROR_OF_MEAN|9.25||0.003|TWO_SIDED|95.0|9.9|46.6|||Emax|||||46.6|9.9|0.003
82485830|NCT04571515|164665571|SUPERIORITY||Mean Difference (Final Values)|29.6|STANDARD_ERROR_OF_MEAN|7.94|<|0.001|TWO_SIDED|95.0|13.8|45.3|||Emax|||||45.3|13.8|<0.001
82485831|NCT04571515|164665571|SUPERIORITY||Mean Difference (Final Values)|30.3|STANDARD_ERROR_OF_MEAN|8.04|<|0.001|TWO_SIDED|95.0|14.4|46.2|||Emax|||||46.2|14.4|<0.001
82485832|NCT04571515|164665571|SUPERIORITY||Mean Difference (Final Values)|31.1|STANDARD_ERROR_OF_MEAN|8.87|<|0.001|TWO_SIDED|95.0|13.5|48.6|||Emax|||||48.6|13.5|<0.001
82485833|NCT04571515|164665572|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.62|||TWO_SIDED|95.0|-1.4|1.1||||||||1.1|-1.4|
82485834|NCT04571515|164665572|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.6|||TWO_SIDED|95.0|-1.5|0.9||||||||0.9|-1.5|
82485835|NCT04571515|164665572|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.8|0.6||||||||0.6|-1.8|
82485836|NCT04571515|164665572|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-1.1|1.3||||||||1.3|-1.1|
82556789|NCT00092534|164823524|SUPERIORITY_OR_OTHER_LEGACY||Percent relative risk reduction|96.6||||||95.0|88.2|99.6|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter|||99.6|88.2|
82556790|NCT04440228|164823555|SUPERIORITY|||||||0.088||||||Assumptions of ANOVA were violated, so we conducted a Related-Samples Friedman's Two-Way Analysis of Variance by Ranks|ANOVA|F=6.54, df=3||Repeated measures ANOVA examining change over time across the three partner school districts.||||0.088
82556791|NCT04440228|164823556|SUPERIORITY||Mean Difference (Final Values)|0.204|||<|0.05|TWO_SIDED|95.0|0.036|0.373|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.373|0.036|<0.05
82556792|NCT04440228|164823557|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.277|TWO_SIDED|95.0|-0.064|0.219|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.219|-0.064|.277
82582278|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.652|STANDARD_ERROR_OF_MEAN|0.46||0.158||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.158
82582279|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.612|STANDARD_ERROR_OF_MEAN|0.447||0.172||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF IS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.172
82485837|NCT04571515|164665573|SUPERIORITY||Mean Difference (Final Values)|15.2|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|7.3|23.1|||Emax|||||23.1|7.3|<0.001
82485838|NCT04571515|164665573|SUPERIORITY||Mean Difference (Final Values)|16.1|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|9.3|22.9|||Emax|||||22.9|9.3|<0.001
82485839|NCT04571515|164665573|SUPERIORITY||Mean Difference (Final Values)|16.5|STANDARD_ERROR_OF_MEAN|3.47|<|0.001|TWO_SIDED|95.0|9.7|23.4|||Emax|||||23.4|9.7|<0.001
82556793|NCT04440228|164823558|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.996|TWO_SIDED|95.0|-0.082|0.083|||Regression, Linear|||We conducted paired t-tests to evaluate simple pre-to-post changes in the primary outcome measures. We fitted linear mixed-effects regression models for each outcome variable, specifying random intercepts for participant ID to account for repeated measures and within-individual clustering. The core model included a binary post-training indicator as the primary predictor, along with the baseline value of the corresponding outcome as a covariate.||0.083|-0.082|0.996
82556794|NCT02036970|164823559|SUPERIORITY||Mean Difference (Net)|-1.74||||0.8133|TWO_SIDED|95.0|-16.22|12.74||The p-value comparison is for the difference in the change in 6WMD from baseline at Week 16 for bardoxolone methyl relative to placebo in participants with pulmonary arterial hypertension (PAH).|Mixed Models Analysis||Mean difference (Net) = Bardoxolone methyl - Placebo.|Overall treatment effect in participants with PAH. Mean overall treatment effect across all visits for change from baseline in 6MWD was estimated and compared with placebo through 16 weeks of treatment using mixed-model repeated measures (MMRM), with treatment group, visit, and the interaction between treatment and visit as fixed factors. A compound symmetry covariance matrix was assumed. Data from Wks 4, 8, 12, and 16 used in the model with the change from baseline at Wk16 as primary endpoint.||12.74|-16.22|0.8133
82556795|NCT02036970|164823559|SUPERIORITY||Mean Difference (Net)|-3.17||||0.759|TWO_SIDED|95.0|-23.54|17.2||The p-value comparison is for the difference in the change in 6WMD from baseline at Week 16 for bardoxolone methyl relative to placebo in participants with pulmonary hypertension (PH)|Mixed Models Analysis||Mean difference (Net) = Bardoxolone methyl - Placebo.|Overall treatment effect in participants with PH. Mean overall treatment effect across all visits for change from baseline in 6MWD was estimated \& compared with placebo through 16 wks of treatment using mixed-model repeated measures (MMRM), with treatment group, visit, and the interaction between treatment \& visit as fixed factors. Compound symmetry covariance matrix was assumed. Data from Wks 4, 8, 12, and 16 were used in the model with the change from baseline at Wk 16 as the primary endpoint||17.20|-23.54|0.759
82582280|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.223|STANDARD_ERROR_OF_MEAN|0.401||0.579||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.579
82582281|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.616|STANDARD_ERROR_OF_MEAN|0.39||0.115||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.115
82582282|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.168|STANDARD_ERROR_OF_MEAN|0.392||0.668||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.668
82582283|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.561|STANDARD_ERROR_OF_MEAN|0.38||0.141||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OF domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.141
82582284|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.088|STANDARD_ERROR_OF_MEAN|0.258||0.734||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.734
82485840|NCT04571515|164665573|SUPERIORITY||Mean Difference (Final Values)|17.1|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|9.4|24.7|||Emax|||||24.7|9.4|<0.001
82485841|NCT04571515|164665574|SUPERIORITY|||||||0.208|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.208
82582285|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.179|STANDARD_ERROR_OF_MEAN|0.251||0.477||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.477
82582286|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.3|STANDARD_ERROR_OF_MEAN|0.252||0.235||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.235
82485842|NCT04571515|164665574|SUPERIORITY|||||||0.005|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.005
82485843|NCT04571515|164665574|SUPERIORITY|||||||0.192|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.192
82485844|NCT04571515|164665574|SUPERIORITY|||||||0.067|||||||Log Rank|||Time to Perceptible Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.067
82485845|NCT04571515|164665574|SUPERIORITY|||||||0.059|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.059
82485846|NCT04571515|164665574|SUPERIORITY||||||<|0.001|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||<0.001
82485847|NCT04571515|164665574|SUPERIORITY|||||||0.017|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.017
82485848|NCT04571515|164665574|SUPERIORITY|||||||0.002|||||||Log Rank|||Time to Meaningful Pain Relief Subjects are censored at 24 hours if they do not report relief.||||0.002
82485849|NCT04571515|164665575|SUPERIORITY|||||||0.051|||||||Regression, Logistic|||||||0.051
82582287|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.391|STANDARD_ERROR_OF_MEAN|0.245||0.111||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF SD domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.111
82485850|NCT04571515|164665575|SUPERIORITY|||||||0.035|||||||Regression, Logistic|||||||0.035
82485851|NCT04571515|164665575|SUPERIORITY|||||||0.016|||||||Regression, Logistic|||||||0.016
82485852|NCT04571515|164665575|SUPERIORITY|||||||0.18|||||||Regression, Logistic|||||||0.180
82485853|NCT04571515|164665576|SUPERIORITY|||||||0.022|||||||Wilcoxon Rank Sum|||||||0.022
82485854|NCT04571515|164665576|SUPERIORITY|||||||0.028|||||||Wilcoxon Rank Sum|||||||0.028
82485855|NCT04571515|164665576|SUPERIORITY|||||||0.007|||||||Wilcoxon Rank Sum|||||||0.007
82485856|NCT04571515|164665576|SUPERIORITY|||||||0.005|||||||Wilcoxon Rank Sum|||||||0.005
82556796|NCT02298842|164823560|NON_INFERIORITY|The sample size of 60 was chosen to meet the FDA pH requirements that the lower 95% confidence limit on the proportion of platelet test units with pH\> 6.2 will be at least 95%. This will be achieved if zero failures (pH\<=6.2) is seen.|Simple sample proportion|100.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|95.1||||Exact Binomial Confidence Interval||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"A success is defined as pH22°C at Day 5 and Day 7 being at least 6.2. A one-sided 95% lower confidence limit will be used to assess the proportion of successes at Day 5 and Day 7. If the lower limit of the one-sided 95% confidence interval exceeds 0.95, the Test product will meet the FDA acceptance criteria."|||95.1|
82556797|NCT02298842|164823561|NON_INFERIORITY|The sample size of 60 was chosen to meet the FDA pH requirements that the lower 95% confidence limit on the proportion of platelet test units with pH\> 6.2 will be at least 95%. This will be achieved if zero failures (pH\<=6.2) is seen.|Simple sample proportion|100.0|STANDARD_DEVIATION|0.0|||ONE_SIDED|95.0|95.1||||Exact Bionomial Confidence Interval||Estimated proportion is 100%. Hence standard deviation is estimated as 0.|"A success is defined as pH22°C at Day 5 and Day 7 being at least 6.2. A one-sided 95% lower confidence limit will be used to assess the proportion of successes at Day 5 and Day 7. If the lower limit of the one-sided 95% confidence interval exceeds 0.95, the Test product will meet the FDA acceptance criteria."|||95.1|
82556798|NCT02298842|164823562|NON_INFERIORITY|If the 97.5% upper limit of the confidence interval is less than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|15.099|STANDARD_DEVIATION|5.6367|||ONE_SIDED|97.5||16.738|||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that P-selectin's mean difference, Test - 1.25 \* Control, is greater than or equal to 0, and the alternative is that the mean difference is less than 0.||16.738||
82556799|NCT02298842|164823563|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Median Difference (Final Values)|-0.418|STANDARD_DEVIATION|4.5531|||ONE_SIDED|97.5|-1.544||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that ESC's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-1.544|
82485857|NCT01711372|164665577|OTHER||||||||||||||Chi-squared|||AUC or ROC for Groundskeeper Game|AUC of ROC is 0.78|||
82485858|NCT01711372|164665578|OTHER||||||||||||||||||AUC of ROC. Proportion of accurate ADHD diagnoses is 0.76|||
82485859|NCT01711372|164665579|OTHER|AUC of ROC|||||||||||||||||AUC of ROC. Proportion of accurate ADHD diagnosis is 0.62|||
82485860|NCT00729924|164665580|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The hypothesis was that the ratio of the 4-hour CSF concentration value to the partial plasma area-under-the-curve 0-4h value would differ between participants with ABCB1 C/C and T/T genotypes.||||0.43
82485861|NCT00729924|164665581|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||We explored post-hoc whether the ratio of the 4-hour CSF concentration value to the 2-hour plasma concentration differs between participants with ABCB1 C/C and T/T genotypes.||||0.43
82485862|NCT01659658|164665591|SUPERIORITY||Odds Ratio (OR)|1.1|||=|0.7623|TWO_SIDED|95.0|0.6|2.01||P-value was calculated from the unstratified Cochran-Mantel-Haenszel (CMH) test to compare hematologic response rate between the treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was derived from a logistic regression model with treatment and 95% confidence interval (CI) for the odds ratio was based on the Wald approximation.|Statistical analysis was planned to be collected and analyzed in a combined manner for the non-ixazomib arm groups versus ixazomib group in this outcome measure.||2.01|0.60|=0.7623
82485863|NCT01659658|164665592|SUPERIORITY||Odds Ratio (OR)|0.75|||=|0.351|TWO_SIDED|95.0|0.41|1.38||P-value was calculated from the unstratified CMH test to make comparisons between the 2 treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was derived from a logistic regression model with treatment and 95% CI for the odds ratio was based on the Wald approximation.|||1.38|0.41|=0.3510
82485864|NCT01659658|164665594|SUPERIORITY||Hazard Ratio (HR)|0.82|||=|0.389|TWO_SIDED|95.0|0.52|1.29||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.29|0.52|=0.389
82485865|NCT01659658|164665595|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.135|TWO_SIDED|95.0|0.52|1.09||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.09|0.52|=0.135
82485866|NCT01659658|164665596|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2421|TWO_SIDED|95.0|0.48|1.21||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|1.21|0.48|0.2421
82485867|NCT01659658|164665597|SUPERIORITY||Hazard Ratio (HR)|0.62|||=|0.036|TWO_SIDED|95.0|0.39|0.97||P-value was calculated using log-rank test stratified by the stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.97|0.39|=0.036
82485868|NCT01659658|164665598|SUPERIORITY||Odds Ratio (OR)|1.69|||=|0.226|TWO_SIDED|95.0|0.72|3.99||P-value was calculated from the unstratified CMH test to compare vital organ response rate between the 2 treatment arms.|Cochran-Mantel-Haenszel||Odds ratio was calculated from a logistic regression model with treatment and 95% CI for the odds ratio was based on the Wald approximation.|||3.99|0.72|=0.2260
82651531|NCT00782509|165017856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.037|0.11|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.110|0.037|<0.0001
82485869|NCT01659658|164665599|SUPERIORITY||Hazard Ratio (HR)|0.76|||=|0.163|TWO_SIDED|95.0|0.52|1.12||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|||1.12|0.52|=0.163
82485870|NCT01659658|164665602|SUPERIORITY||Hazard Ratio (HR)|0.68|||=|0.025|TWO_SIDED|95.0|0.49|0.96||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.96|0.49|=0.025
82485871|NCT01659658|164665603|SUPERIORITY||Hazard Ratio (HR)|0.58|||=|0.01|TWO_SIDED|95.0|0.38|0.88||P-value was calculated using stratified log-rank test with stratification factors.|Log Rank||||Unadjusted stratified Cox regression model was used to estimate the hazard ratio and its 95% CIs for the treatment effect using the stratification factors.|0.88|0.38|=0.010
82485872|NCT00090051|164665639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.0218|TWO_SIDED|95.0|0.6|0.96|||Log Rank|non-stratified|The hazard ratio was estimated using Cox regression. The hazard ratio is relative to the fludarabine+cyclophosphamide(FC) group.|The null hypothesis was that there was no difference between the 2 treatment groups. The alternative hypothesis was that progression-free survival was longer in the fludarabine+cyclophosphamide+rituximab (FCR) group.||0.96|0.60|0.0218
82485873|NCT00090051|164665640|SUPERIORITY_OR_OTHER|||||||0.2874||95.0|||||Log Rank|non-stratified||||||0.2874
82485874|NCT00090051|164665642|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Log Rank|non-stratified||||||0.0002
82485875|NCT00090051|164665645|SUPERIORITY_OR_OTHER|||||||0.8842||95.0|||||Log Rank|non-stratified||||||0.8842
82485876|NCT00090051|164665647|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.8|||Log Rank|||||0.80|0.54|<.0001
82485877|NCT00090051|164665648|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.5976|TWO_SIDED|95.0|0.74|1.19|||Log Rank|||||1.19|0.74|0.5976
82485878|NCT00090051|164665649|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.54|0.79|||Log Rank|||||0.79|0.54|<.0001
82485879|NCT00090051|164665650|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.15||||0.0005|TWO_SIDED|95.0|1.39|3.35|||Chi-squared|||||3.35|1.39|0.0005
82485880|NCT00090051|164665651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.3085|TWO_SIDED|95.0|0.46|1.28|||Log Rank|||||1.28|0.46|0.3085
82485881|NCT00090051|164665652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0007|TWO_SIDED|95.0|0.51|0.84|||Log Rank|||||0.84|0.51|0.0007
82485882|NCT00090051|164665653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0002|TWO_SIDED|95.0|0.55|0.84|||Log Rank|||||0.84|0.55|0.0002
82485883|NCT01298531|164665654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.27||||0.0019|TWO_SIDED|95.0|-44.17|-10.38|||ANCOVA|Not specifed.||The primary analysis of the primary endpoint was an Analysis of covariance (ANCOVA)with Baseline NSAID score and treatment as explanatory variables. The hypothesis tested for the primary endpoint was as follows: H0: ΔETN = ΔPlacebo; H1: ΔETN ≠ ΔPlacebo.||-10.38|-44.17|0.0019
82485884|NCT01298531|164665655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.78||||0.0115|TWO_SIDED|95.0|-34.99|-4.57|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model and using the repeated measures for the changes from Baseline in each outcome at Week 8.||-4.57|-34.99|0.0115
82485885|NCT01298531|164665656|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93||||0.0153|TWO_SIDED|95.0|-1.68|-0.18|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model as detailed for the primary endpoint and using the repeated measures for the changes from Baseline in each outcome at Week 4.||-0.18|-1.68|0.0153
82485886|NCT01298531|164665657|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.051|TWO_SIDED|95.0|-1.76|0.0|||ANCOVA|||The analysis of secondary endpoints was an ANCOVA using linear regression with Baseline NSAID score and MMRM was run using the model as detailed for the primary endpoint and using the repeated measures for the changes from Baseline in each outcome at Week 8.||0.00|-1.76|0.0510
82485887|NCT01298531|164665659|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.209||||0.0066|TWO_SIDED|95.0|0.07|0.65|||Regression, Logistic|||Logistic regression with baseline score and treatment group included as covariates.||0.65|0.07|0.0066
82485888|NCT01298531|164665660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-53.7||||0.0053|TWO_SIDED|95.0|-91.01|-16.38|||ANCOVA|||The changes from baseline in the continuous endpoints of mini BASDAI was analyzed using ANCOVA. The total NSAID score for the first 8 weeks of randomized treatment was calculated as an AUC using the linear trapezoidal rule.||-16.38|-91.01|0.0053
82485889|NCT01298531|164665661|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.963||||0.0324|TWO_SIDED|95.0|1.1|8.01|||Regression, Logistic|||Logistic regression with baseline morning stiffness score and treatment group included as covariates.||8.01|1.10|0.0324
82485890|NCT01298531|164665664|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.696||||0.0501|TWO_SIDED|95.0|1.0|7.27|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||7.27|1.00|0.0501
82485891|NCT01298531|164665666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.103||||0.0284|TWO_SIDED|95.0|1.13|8.54|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||8.54|1.13|0.0284
82485892|NCT01298531|164665668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.3291|TWO_SIDED|95.0|0.47|9.72|||Regression, Logistic|||Week 8 was analyzed using a logistic regression to assess treatment effect. Logistic regression with baseline morning stiffness score and treatment group included as covariates.||9.72|0.47|0.3291
82485893|NCT01298531|164665669|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.78|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.44|||ANCOVA|||ANCOVA model on change from baseline ASDAS CRP score fitting baseline ASDAS CRP score as a covariate, plus treatment as a factor.||-0.44|-1.11|<0.0001
82582288|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.349|STANDARD_ERROR_OF_MEAN|0.343||0.31||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.310
82556800|NCT02298842|164823564|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-0.667|STANDARD_DEVIATION|6.7882|||ONE_SIDED|97.5|-2.499||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that HSR's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-2.499|
82556801|NCT02298842|164823565|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|46.1|STANDARD_DEVIATION|23.056|||ONE_SIDED|97.5|40.02||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that Morphology's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||40.020|
82556802|NCT02298842|164823566|NON_INFERIORITY|Lower value is considered to indicate better platelet quality. If the 97.5% upper limit of the confidence interval is less than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|12.314|STANDARD_DEVIATION|6.0422|||ONE_SIDED|97.5||13.981|||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that P-selection's mean difference, Test - 1.25 \* Control, is greater or equal to 0, and the alternative is that the mean difference is less than 0.||13.981||
82556803|NCT02298842|164823567|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-3.042|STANDARD_DEVIATION|5.422|||ONE_SIDED|97.5|-4.407||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that ESC's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-4.407|
82556804|NCT02298842|164823568|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|-2.389|STANDARD_DEVIATION|9.0544|||ONE_SIDED|97.5|-4.915||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that HSR's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||-4.915|
82556805|NCT02298842|164823569|NON_INFERIORITY|Higher value is considered to indicate better platelet quality. If the 97.5% lower limit of the confidence interval is greater than 0, the null hypothesis will be rejected in favor of the alternative suggesting the Test product is not inferior to the Control product.|Mean Difference (Final Values)|43.8|STANDARD_DEVIATION|26.05|||ONE_SIDED|97.5|36.821||||||Estimated from an ANCOVA with effects of treatment and subject nested within sequence.|The null hypothesis is that Morphology's mean difference, Test - 0.8 \* Control, is less than or equal to 0, and the alternative is that the mean difference is greater than 0.|||36.821|
82556806|NCT02232737|164823627|SUPERIORITY||Mean Difference (Net)|-5.33|STANDARD_ERROR_OF_MEAN|1.06|<|0.0001|TWO_SIDED|95.0|-7.41|-3.26||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.12 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-3.26|-7.41|<0.0001
82556807|NCT02232737|164823627|SUPERIORITY||Mean Difference (Net)|-7.54|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-9.51|-5.57||The p-value is Bonferroni-corrected for multiple comparisons with a priori threshold of significance P \< 0.0167|ANCOVA||Group difference = 0.03 mg nicotine - 0.8 mg nicotine|The statistical analysis method was ANCOVA, in order to test for statistically significant differences between group means, while controlling for covariates of interest. It was calculated that 207 subjects per group would be required to have at least 90% power to detect a mean difference of 4.52 CPD between the 0.8 mg and 0.12 mg groups at week 12, with significance level alpha of 0.0167. The significance level reflects the Bonferroni correction needed for testing of all pairwise comparisons.||-5.57|-9.51|<0.0001
82556808|NCT03849937|164823628|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82556809|NCT03849937|164823628|SUPERIORITY|||||||0.091||||||Time 1 to Time 2|t-test, 2 sided|||||||.091
82556810|NCT03849937|164823628|SUPERIORITY||||||<|0.001||||||Time 2 to Time 3|t-test, 2 sided|||||||<.001
82556811|NCT03849937|164823629|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Effective Communication||||<.001
82556812|NCT03849937|164823629|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Appropriate Communication||||<.001
82556813|NCT03849937|164823629|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Recognizes elderspeak||||<.001
82556814|NCT03849937|164823629|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Recognizes person-centered communication||||<.001
82556815|NCT02866942|164823668|OTHER|||||||0.26|||||||McNemar|||||||0.26
82582289|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.568|STANDARD_ERROR_OF_MEAN|0.334||0.09||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.090
82582290|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.729|STANDARD_ERROR_OF_MEAN|0.335||0.03||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.030
82485894|NCT01298531|164665670|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.0011|TWO_SIDED|95.0|-1.09|-0.28|||ANCOVA|||ANCOVA model on change from baseline ASDAS CRP score fitting baseline ASDAS CRP score as a covariate, plus treatment as a factor.||-0.28|-1.09|0.0011
82485895|NCT01298531|164665672|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0011|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||ANCOVA model on change from baseline ASDAS ESR score fitting baseline ASDAS ESR score as a covariate, plus treatment as a factor.||-0.24|-0.90|0.0011
82485896|NCT01298531|164665673|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.0037|TWO_SIDED|95.0|-1.11|-0.22|||ANCOVA|||ANCOVA model on change from baseline ASDAS ESR score fitting baseline ASDAS ESR score as a covariate, plus treatment as a factor.||-0.22|-1.11|0.0037
82485897|NCT01298531|164665677|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.005|TWO_SIDED|95.0|-2.2|-0.4|||ANCOVA|||ANCOVA model on change from baseline BAS-G score fitting baseline BAS-G score as a covariate, plus treatment as a factor.||-0.40|-2.20|0.0050
82485898|NCT01298531|164665678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.24||||0.0256|TWO_SIDED|95.0|-2.33|-0.16|||ANCOVA|||ANCOVA model on change from baseline BAS-G score fitting baseline BAS-G score as a covariate, plus treatment as a factor.||-0.16|-2.33|0.0256
82485899|NCT01298531|164665680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.0474|TWO_SIDED|95.0|-2.0|-0.01|||ANCOVA|||ANCOVA model on change from baseline total back pain fitting baseline total back pain as a covariate, plus treatment as a factor.||-0.01|-2.00|0.0474
82582291|NCT01160289|164876040|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.948|STANDARD_ERROR_OF_MEAN|0.326||0.004||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF OS domain score; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.004
82485900|NCT01298531|164665681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0212|TWO_SIDED|95.0|-2.36|-0.2|||ANCOVA|||ANCOVA model on change from baseline total back pain fitting baseline total back pain as a covariate, plus treatment as a factor||-0.20|-2.36|0.0212
82485901|NCT01298531|164665683|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0198|TWO_SIDED|95.0|-2.4|-0.21|||ANCOVA|||ANCOVA model on change from baseline nocturnal back pain fitting baseline nocturnal back pain as a covariate, plus treatment as a factor||-0.21|-2.40|0.0198
82485902|NCT01298531|164665684|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.51||||0.0132|TWO_SIDED|95.0|-2.69|-0.32|||ANCOVA|||ANCOVA model on change from baseline nocturnal back pain fitting baseline nocturnal back pain as a covariate, plus treatment as a factor||-0.32|-2.69|0.0132
82485903|NCT01298531|164665686|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81||||0.0237|TWO_SIDED|95.0|-1.5|-0.11|||ANCOVA|||ANCOVA model on change from baseline BASFI score fitting baseline BASFI score as a covariate, plus treatment as a factor.||-0.11|-1.50|0.0237
82485904|NCT01298531|164665687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.0297|TWO_SIDED|95.0|-1.74|-0.09|||ANCOVA|||ANCOVA model on change from baseline BASFI score fitting baseline BASFI score as a covariate, plus treatment as a factor.||-0.09|-1.74|0.0297
82485905|NCT01298531|164665688|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.0152|TWO_SIDED|95.0|-2.09|-0.23|||ANCOVA|||ANCOVA model on change from each baseline BASDAI component score fitting each baseline component score as a covariate, plus treatment as a factor.||-0.23|-2.09|0.0152
82485906|NCT01298531|164665689|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.0344|TWO_SIDED|95.0|-2.22|-0.09|||ANCOVA|||ANCOVA model on change from each baseline BASDAI component score fitting each baseline component score as a covariate, plus treatment as a factor.||-0.09|-2.22|0.0344
82485907|NCT01298531|164665691|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.0017|TWO_SIDED|95.0|-2.16|-0.52|||ANCOVA|||ANCOVA model on change from baseline PGA score fitting baseline PGA score as a covariate, plus treatment as a factor||-0.52|-2.16|0.0017
82485908|NCT01298531|164665692|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.0233|TWO_SIDED|95.0|-2.07|-0.16|||ANCOVA|||ANCOVA model on change from baseline PGA score fitting baseline PGA score as a covariate, plus treatment as a factor.||-0.16|-2.07|0.0233
82485909|NCT01298531|164665701|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01||||0.126|TWO_SIDED|95.0|0.822|4.901|||Regression, Logistic|||Week 8 was analyzed using logistic regression with baseline score and treatment group included as covariates.||4.901|0.822|0.1260
82582292|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.656||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.656
82485910|NCT01298531|164665704|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.0498|TWO_SIDED|95.0|1.0|6.08|||Regression, Logistic|||Logistic regression with baseline morning stiffness score and treatment group included as covariates. Week 8 was analyzed using a logistic regression to assess treatment effect.||6.08|1.00|0.0498
82485911|NCT01298531|164665706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.1601|TWO_SIDED|95.0|-0.87|0.15|||ANCOVA|||ANCOVA model on change from baseline BASMI score fitting baseline BASMI score as a covariate, plus treatment as a factor||0.15|-0.87|0.1601
82485912|NCT01298531|164665707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.2967|TWO_SIDED|95.0|-0.86|0.27|||ANCOVA|||ANCOVA model on change from baseline BASMI score fitting baseline BASMI score as a covariate, plus treatment as a factor||0.27|-0.86|0.2967
82485913|NCT01298531|164665713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41||||0.2735|TWO_SIDED|95.0|-1.94|6.75|||ANCOVA|||ANCOVA model on change from baseline in chest expansion mobility score fitting baseline chest expansion mobility score as a covariate, plus treatment as a factor.||6.75|-1.94|0.2735
82582293|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.46||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.460
82485914|NCT01298531|164665714|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.68||||0.0422|TWO_SIDED|95.0|0.02|1.34|||ANCOVA|||ANCOVA model on change from baseline in chest expansion mobility score fitting baseline chest expansion mobility score as a covariate, plus treatment as a factor.||1.34|0.02|0.0422
82499304|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.196|||||TWO_SIDED|95.0|-0.535|0.143|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for weighted mean potassium 0-4 h at Day 15.||0.143|-0.535|
82485915|NCT03646643|164665716|SUPERIORITY||Hazard Ratio (HR)|0.12||||0.047|TWO_SIDED|95.0|0.02|0.97||A priori threshold \<0.05. Multiple comparisons adjustments: not needed.|Log Rank||The distal CS to LA connection elimination group had fewer recurrences (6.7%) compared with the standard group (46.7%), which translated to an 88% lower hazard of recurrence compared with the standard group.|Power calculation: assuming alpha 0.05, power 0.8, 1:1 randomization, and estimated relative risk of 14.4 for AF susceptibility with rate-dependent CS-LA conduction block, we anticipated a minimum sample size of 6 patients per group would be necessary to detect a difference using the log-rank test. Additional patients were recruited to account for potential losses to follow-up and a smaller detectable difference.||0.97|0.02|0.047
82485916|NCT00145600|164665735|SUPERIORITY_OR_OTHER_LEGACY||KM Event-free survival estimate|0.886|||||TWO_SIDED|95.0|0.82|0.953||||||||0.953|0.820|
82485917|NCT00145600|164665735|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.844|||||TWO_SIDED|95.0|0.739|0.95||||||||0.950|0.739|
82556816|NCT06212752|164823671|NON_INFERIORITY|Non-inferiority margin is 0.8.|Geometric Mean Ratio (GMR)|1.1|||||TWO_SIDED|95.0|0.95|1.27|||||GMR and associated 96% confidence interval (Cl) were calculated using the Welch's t test. GMR was calculated as geometric mean (GM) of Pembrolizumab Formulated with Berahyaluronidase Alfa to GM of Pembrolizumab.|||1.27|0.95|
82485918|NCT00145600|164665735|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.667|||||TWO_SIDED|95.0|0.4|0.933||||||||0.933|0.400|
82485919|NCT00145600|164665735|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.793|||||TWO_SIDED|95.0|0.726|0.86||||||||0.860|0.726|
82485920|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3097||95.0|||||Wilcoxon signed rank test|||||||0.3097
82556817|NCT06212752|164823672|NON_INFERIORITY|Non-inferiority margin is 0.8.|GMR|1.46|||||TWO_SIDED|95.0|1.14|1.88|||||GMR and associated 95% CI were calculated using the Welch's t test. GMR was calculated as geometric mean (GM) of Pembrolizumab Formulated with Berahyaluronidase Alfa to GM of Pembrolizumab.|||1.88|1.14|
82556818|NCT04162210|164823683|OTHER||Stratified Hazard Ratio (HR)|1.03||||0.558|TWO_SIDED|95.0|0.72|1.47|||Log Rank|One-sided p-value from stratified log-rank test were adjusted for previous treatment with anti-CD38, ISS staging and number of prior lines of therapy.|HR was estimated using the Cox Proportional Hazards. HR stratified log-rank test were adjusted for previous treatment with anti-CD38, international staging system (ISS) staging and number of prior lines of therapy.|||1.47|0.72|0.558
82556819|NCT02568215|164823729|OTHER||Prevention Efficacy (PE)|8.8||||0.7|TWO_SIDED|95.0|-45.1|42.6||The threshold for statistical significance was p = 0.05.|wald|||The primary PE analysis tests the null hypothesis PE equal to zero versus the alternative hypothesis PE not equal to zero using a 2-sided alpha equal 0.05 level Wald test of the equality of log cumulative hazard functions at the week 80 visit for the pooled VRC01 group versus the placebo group.||42.6|-45.1|0.70
82556820|NCT02568215|164823729|OTHER||Prevention Efficacy (PE)|-9.3|||||TWO_SIDED|95.0|-85.3|35.5||||||A secondary analysis assesses the overall PE of the low-dose VRC01 group versus the placebo group.||35.5|-85.3|
82556821|NCT02568215|164823729|OTHER||Prevention Efficacy (PE)|27.0|||||TWO_SIDED|95.0|-30.7|59.3||||||A secondary analysis assesses the overall PE of the high-dose VRC01 group versus the placebo group.||59.3|-30.7|
82556822|NCT02568215|164823731|OTHER||Prevention Efficacy (PE)|78.6|||||TWO_SIDED|95.0|17.3|94.4||||||PE against IC80 of least sensitive variant less than 1||94.4|17.3|
82556823|NCT02568215|164823731|OTHER||Prevention Efficacy (PE)|7.4|||||TWO_SIDED|95.0|-187.5|70.2||||||PE against IC80 of least sensitive variant 1-3||70.2|-187.5|
82651532|NCT00782509|165017856|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.049|0.121|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.121|0.049|<0.0001
82485921|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485922|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485923|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485924|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485925|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485926|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0197||95.0|||||Wilcoxon signed rank test|||||||0.0197
82485927|NCT00145600|164665736|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.51|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485928|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485929|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.46|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82556824|NCT02568215|164823731|OTHER||Prevention Efficacy (PE)|-1.9|||||TWO_SIDED|95.0|-83.1|43.3||||||PE against IC80 of least sensitive variant \> 3||43.3|-83.1|
82556825|NCT01536093|164823799|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82556826|NCT01536093|164823800|SUPERIORITY_OR_OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||||||0.043
82556827|NCT01536093|164823801|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82556828|NCT01536093|164823802|SUPERIORITY_OR_OTHER|||||||0.038|||||||Wilcoxon (Mann-Whitney)|||||||0.038
82556829|NCT01536093|164823803|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.010
82556830|NCT01536093|164823804|SUPERIORITY_OR_OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82556831|NCT05966155|164823862|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.677|TWO_SIDED|95.0|-1.54|1.0|||t-test, 2 sided|||||1.00|-1.54|0.677
82556832|NCT05966155|164823863|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.1264|TWO_SIDED|95.0|-1.4|0.2|||t-test, 2 sided|||||0.2|-1.4|0.1264
82556833|NCT05966155|164823864|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.3692|TWO_SIDED|95.0|-0.4|1.1|||t-test, 2 sided||The by-group means and the estimated mean difference are independently rounded to the nearest tenth. As a result, the mean difference it not exactly equivalent to the difference in the two reported means.|||1.1|-0.4|0.3692
82556834|NCT05966155|164823865|SUPERIORITY|||||||0.8492|||||||Chi-squared|||||||0.8492
82556835|NCT05966155|164823866|SUPERIORITY|||||||0.0246|||||||Chi-squared|||||||0.0246
82485930|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||95.0|||||Wilcoxon signed rank test|||||||0.0001
82485931|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.41|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485932|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485933|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485934|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3624||95.0|||||Wilcoxon signed rank test|||||||0.3624
82485935|NCT00145600|164665737|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.52|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485936|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0254||95.0|||||Wilcoxon signed rank test|||||||0.0254
82485937|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.44|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485938|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0|||||Wilcoxon signed rank test|||||||0.0004
82582294|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.198||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level \<340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.198
82582295|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.009
82582296|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.671||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.671
82582297|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.259||||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.259
82582298|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.441||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.441
82582299|NCT01160289|164876042|SUPERIORITY_OR_OTHER|||||||0.433||95.0||||The p-value is for the change from baseline to Week 12 in the IIEF EF domain scores reported by optimal testosterone level ≥340 ng/dL; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|ANCOVA|||||||0.433
82582300|NCT01160289|164876043|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.13||||0.423||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.423
82582301|NCT01160289|164876043|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.12||||0.443||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.443
82582302|NCT01160289|164876043|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.084||||0.599||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.599
82582303|NCT01160289|164876043|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.334||||0.029||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.029
82582304|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-0.152||||0.148||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.148
82582305|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.216||||0.033||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.033
82582306|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.124||||0.224||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.224
82485939|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.32||||0.0001||95.0|||||Spearman Correlation Coefficients|||||||0.0001
82485940|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon Correlation Coefficients|||||||<0.0001
82485941|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.39|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485942|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
82485943|NCT00145600|164665738|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.26||||0.0061||95.0|||||Spearman Correlation Coefficients|||||||0.0061
82485944|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0687||95.0|||||Wilcoxon signed rank test|||||||0.0687
82485945|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.65|||<|0.0001||95.0|||||Spearman Correlation Coefficient|||||||<0.0001
82485946|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9478||95.0|||||Wilcoxon signed rank test|||||||0.9478
82485947|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485948|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2999||95.0|||||Wilcoxon signed rank test|||||||0.2999
82485949|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.49|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485950|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3121||95.0|||||Wilcoxon signed rank test|||||||0.3121
82485951|NCT00145600|164665739|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.52|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485952|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
82485953|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.57|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485954|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0282||95.0|||||Wilcoxon signed rank test|||||||0.0282
82556836|NCT05966155|164823867|SUPERIORITY|||||||0.0111|||||||Chi-squared|||||||0.0111
82556837|NCT05966155|164823868|SUPERIORITY|||||||0.0776|||||||Chi-squared|||||||0.0776
82485955|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.35||||0.0002||95.0|||||Spearman Correlation Coefficients|||||||0.0002
82485956|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0038||95.0|||||Wilcoxon signed rank test|||||||0.0038
82485957|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485958|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1474||95.0|||||Wilcoxon signed rank test|||||||0.1474
82485959|NCT00145600|164665740|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.49|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485960|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0281||95.0|||||Wilcoxon signed rank test|||||||0.0281
82556838|NCT05966155|164823869|SUPERIORITY|||||||0.0014|||||||Chi-squared|||||||0.0014
82485961|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.63|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485962|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Wilcoxon signed rank test|||||||0.0050
82485963|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.45|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485964|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005||95.0|||||Wilcoxon signed rank test|||||||0.0005
82485965|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37||||0.0001||95.0|||||Spearman Correlation Coefficients|||||||0.0001
82556839|NCT01946204|164823906|SUPERIORITY||Hazard Ratio (HR)|0.271|||<|0.0001|TWO_SIDED|95.0|0.219|0.335|||Log Rank|||Statistical Analysis for TTM by BICR (US Regulatory)||0.335|0.219|<0.0001
82485966|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552||95.0|||||Wilcoxon signed rank test|||||||0.0552
82485967|NCT00145600|164665741|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485968|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485969|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.53|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485970|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxan signed rank test|||||||<0.0001
82485971|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.68|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485972|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017||95.0|||||Wilcoxon signed rank test|||||||0.0017
82485973|NCT00145600|164665742|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485974|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2758||95.0|||||Wilcoxon signed rank test|||||||0.2758
82485975|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485976|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1731||95.0|||||Wilcoxon signed rank test|||||||0.1731
82485977|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.6|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485978|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846||95.0|||||Wilcoxon signed rank test|||||||0.0846
82485979|NCT00145600|164665743|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.46|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485980|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4263||95.0|||||Wilcoxon signed rank test|||||||0.4263
82485981|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.51|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485982|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485983|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485984|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0468||95.0|||||Wilcoxon signed rank test|||||||0.0468
82485985|NCT00145600|164665744|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.55|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82556840|NCT01946204|164823906|SUPERIORITY||Hazard Ratio (HR)|0.279|||<|0.0001|TWO_SIDED|95.0|0.227|0.342|||Log Rank|||Statistical Analysis for TTM by BICR (Ex-US Regulatory)||0.342|0.227|<0.0001
82556841|NCT01946204|164823907|SUPERIORITY||Hazard Ratio (HR)|0.291|||<|0.0001|TWO_SIDED|95.0|0.238|0.356|||Log Rank|||Statistical Analysis for PFS by BICR (US Regulatory)||0.356|0.238|<0.0001
82556842|NCT01946204|164823907|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.247|0.364|||Log Rank|||Statistical Analysis for PFS by BICR (EX-US Regulatory)||0.364|0.247|<0.0001
82556843|NCT01946204|164823908|SUPERIORITY||Hazard Ratio (HR)|0.447|||<|0.0001|TWO_SIDED|95.0|0.315|0.634|||Log Rank|||Statistical Analysis for Time to Symptomatic Progression||0.634|0.315|<0.0001
82556844|NCT01946204|164823911|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.227|0.346|||Log Rank|||Statistical Analysis for MFS by BICR (US Regulatory)||0.346|0.227|<0.0001
82556845|NCT01946204|164823911|SUPERIORITY||Hazard Ratio (HR)|0.297|||<|0.0001|TWO_SIDED|95.0|0.244|0.362|||Log Rank|||Statistical Analysis for MFS by BICR (Ex-US Regulatory)||0.362|0.244|<0.0001
82556846|NCT03466411|164823912|SUPERIORITY||Least Square (LS) Mean Difference|124.2|||<|0.001|TWO_SIDED|95.0|89.8|158.7|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||158.7|89.8|<0.001
82556847|NCT03466411|164823912|SUPERIORITY||LS Mean Difference|102.7|||<|0.001|TWO_SIDED|95.0|68.5|136.9|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||136.9|68.5|<0.001
82485986|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485987|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.26||||0.0019||95.0|||||Spearman Correlation Coefficients|||||||0.0019
82485988|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed rank test|||||||<0.0001
82485989|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.16||||0.0704||95.0|||||Spearman Correlation Coefficients|||||||0.0704
82485990|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon signed rank test|||||||0.0200
82485991|NCT00145600|164665745|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485992|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7192||95.0|||||Wilcoxon signed rank test|||||||0.7192
82485993|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.42|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82556848|NCT03466411|164823912|SUPERIORITY||LS Mean Difference|108.7|||<|0.001|TWO_SIDED|95.0|73.9|143.5|||Mixed Model for Repeated Measure||LS Mean difference between the treatment groups and p-values for the comparisons of each guselkumab treatment group with the placebo group were based on MMRM analysis.|||143.5|73.9|<0.001
82556849|NCT03466411|164823913|SUPERIORITY||Adjusted treatment difference|38.1|||<|0.001|TWO_SIDED|95.0|27.3|48.9|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||48.9|27.3|<0.001
82485994|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8663||95.0|||||Wilcoxon signed rank test|||||||0.8663
82485995|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.41|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485996|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7626||95.0|||||Wilcoxon signed rank test|||||||0.7626
82485997|NCT00145600|164665746|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.58|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82485998|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4807||95.0|||||Wilcoxon signed rank test|||||||0.4807
82485999|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.36|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486000|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0824||95.0|||||Wilcoxon signed rank test|||||||0.0824
82486001|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.39|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486002|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0496||95.0|||||Wilcoxon signed rank test|||||||0.0496
82582307|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.189||||0.056||95.0||||The p-value is for the change from baseline to Week 12 in total cholesterol; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.056
82486003|NCT00145600|164665747|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.5|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486004|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0157||95.0|||||Wilcoxon signed rank test|||||||0.0157
82486005|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.37|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486006|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Wilcoxon signed rank test|||||||0.0014
82486007|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486008|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1478||95.0|||||Wilcoxon signed rank test|||||||0.1478
82486009|NCT00145600|164665748|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.56|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486010|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0831||95.0|||||Wilcoxon signed rank test|||||||0.0831
82486011|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.25||||0.0027||95.0|||||Spearman Correlation Coefficients|||||||0.0027
82486012|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0135||95.0|||||Wilcoxon signed rank test|||||||0.0135
82486013|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.27||||0.0024||95.0|||||Spearman Correlation Coefficients|||||||0.0024
82486014|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9848||95.0|||||Wilcoxon signed rank test|||||||0.9848
82486015|NCT00145600|164665749|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.16||||0.0974||95.0|||||Spearman Correlation Coefficients|||||||0.0974
82486016|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||Wilcoxon signed rank test|||||||0.0040
82486017|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.43|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486018|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0|||||Wilcoxon signed rank test|||||||0.0012
82486019|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.54|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486020|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8108||95.0|||||Wilcoxon signed rank test|||||||0.8108
82486021|NCT00145600|164665750|SUPERIORITY_OR_OTHER_LEGACY||Spearman Correlation Coefficients|0.55|||<|0.0001||95.0|||||Spearman Correlation Coefficients|||||||<0.0001
82486022|NCT00145600|164665751|SUPERIORITY_OR_OTHER_LEGACY||KM Event-free survival estimate|0.874|||||TWO_SIDED|95.0|0.805|0.944||||||||0.944|0.805|
82486023|NCT00145600|164665751|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.844|||||TWO_SIDED|95.0|0.739|0.95||||||||0.950|0.739|
82486024|NCT00145600|164665751|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.667|||||TWO_SIDED|95.0|0.4|0.933||||||||0.933|0.400|
82486025|NCT00145600|164665751|SUPERIORITY_OR_OTHER_LEGACY||KM event-free survival estimate|0.785|||||TWO_SIDED|95.0|0.716|0.853||||||||0.853|0.716|
82556850|NCT03466411|164823913|SUPERIORITY||Adjusted treatment difference|42.8|||<|0.001|TWO_SIDED|95.0|31.6|53.9|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||53.9|31.6|<0.001
82486026|NCT02545075|164665788|SUPERIORITY|||||||0.5059|||||||Chi-squared|One-sided p-value based on unstratified chi-square test||||||0.5059
82486027|NCT02545075|164665789|SUPERIORITY|||||||0.6202|||||||Chi-squared|One-sided unstratified chi-square||||||0.6202
82486028|NCT02545075|164665790|SUPERIORITY||Stratified cox proportional hazard model|1.13||||0.7267|TWO_SIDED|80.0|0.87|1.45|||Log Rank|One-sided p-value from Log-rank Test stratified by M substage (M1a+M1b vs. M1c)||||1.45|0.87|0.7267
82486029|NCT02545075|164665791|SUPERIORITY||Stratified Cox proportional hazard|0.9||||0.2503|TWO_SIDED|80.0|0.71|1.15|||Log Rank|One-sided p-value from Log-rank Test stratified by M substage (M1a+M1b vs. M1c) and BRAF mutation status as entered into the IVRS||||1.15|0.71|0.2503
82486030|NCT02545075|164665792|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9932|TWO_SIDED|80.0|0.64|1.55|||Cochran-Mantel-Haenszel|||||1.55|0.64|0.9932
82486031|NCT02545075|164665793|SUPERIORITY||Odds Ratio (OR)|0.98||||0.9738|TWO_SIDED|80.0|0.48|2.03|||Cochran-Mantel-Haenszel|||||2.03|0.48|0.9738
82486032|NCT05402020|164665856|OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.87|1.15|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (first moderate or severe COPD exacerbations) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||1.15|0.87|
82486033|NCT05402020|164665857|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.53|0.85|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (triple therapy escalation) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||0.85|0.53|
82486034|NCT05402020|164665858|OTHER||Incidence difference|-37.9|||||TWO_SIDED|95.0|-60.1|-15.8|||||Incidence difference calculated as \[incidence rate of Tio/Olo\]-\[incidence rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||-15.8|-60.1|
82486035|NCT05402020|164665858|OTHER||Incidence Rate Ratio|0.66|||||TWO_SIDED|95.0|0.51|0.85|||||Ratio calculated as \[incidence rate of Tio/Olo\]/\[incidence rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||0.85|0.51|
82486036|NCT05402020|164665859|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.36|1.93|||||Ratio calculated as \[Tio/Olo\]/\[ICS/LABA\]|Univariate proportional hazards regression was used to compare the time to event (first hospitalization for community-acquired pneumonia after initiation of study drug) between the two treatment groups. In the event that there were baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) were included in a multiple regression model in addition to the exposure status (Tio/Olo or ICS/LABA).||1.93|0.36|
82486037|NCT05402020|164665860|OTHER||Annualized rate ratio|0.92|||||TWO_SIDED|95.0|0.81|1.03|||||Annualized rate ratio calculated as \[annualized rate of Tio/Olo\]/\[annualized rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||1.03|0.81|
82486038|NCT05402020|164665861|OTHER||Annualized rate ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18|||||Annualized rate ratio calculated as \[annualized rate of Tio/Olo\]/\[annualized rate of ICS/LABA\].|The rate ratio of Tio+Olo - exposed group relative to LABA/ICS group, along with 95% CIs were derived using a univariate negative binomial model. In the event that there are baseline covariates with unequal distribution between the treatment groups, defined as absolute standardized difference larger than 0.1, the covariate(s) will be included in a multiple regression model in addition to the exposure status (Tio/Olo or LABA/ICS).||1.18|0.87|
82486039|NCT01272284|164665862|SUPERIORITY_OR_OTHER_LEGACY||Proportion successful|85.4|||<|0.0001|ONE_SIDED|95.81|78.1||||Fisher Exact|||The final significance level is 0.04191 accounting for one interim analysis conducted at 80% of final information, thus a 95.81% Confidence Limit (CL) was used.|||78.1|<0.0001
82486040|NCT02694523|164665882|OTHER||difference in percentage of participants|24.9|||<|0.001|TWO_SIDED|95.0|17.5|32.4|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to tumor necrosis factor (TNF) antagonists (0 vs ≥1).||32.4|17.5|<0.001
82486041|NCT02694523|164665883|OTHER||difference in percentage of participants|23.3|||<|0.001|TWO_SIDED|95.0|16.6|30.1|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||30.1|16.6|<0.001
82486042|NCT02694523|164665884|OTHER||difference in percentage of participants|45.0|||<|0.001|TWO_SIDED|95.0|28.9|61.1|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||61.1|28.9|<0.001
82486043|NCT02694523|164665885|OTHER||difference in percentage of participants|18.9|||<|0.001|TWO_SIDED|95.0|13.0|24.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||24.9|13.0|<0.001
82486044|NCT02694523|164665886|OTHER||difference in percentage of participants|16.7|||<|0.001|TWO_SIDED|95.0|9.5|23.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||23.9|9.5|<0.001
82486045|NCT02694523|164665887|OTHER||difference in percentage of participants|32.8|||<|0.001|TWO_SIDED|95.0|18.8|46.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||46.9|18.8|<0.001
82486046|NCT02694523|164665888|OTHER||difference in percentage of participants|32.8|||<|0.001|TWO_SIDED|95.0|18.8|46.9|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||46.9|18.8|<0.001
82486047|NCT02694523|164665889|OTHER||difference in percentage of participants|38.9|||<|0.001|TWO_SIDED|95.0|22.0|55.8|||Cochran-Mantel-Haenszel|||P-value calculated according to the Cochran-Mantel-Haenszel test adjusted for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||55.8|22.0|<0.001
82582308|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.211||||0.031||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.031
82486048|NCT01086423|164665890|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The upper limit (UL) of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.68|||||TWO_SIDED|95.0|-1.88|3.76||||||To demonstrate that the immunogenicity of Infanrix™ -IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-D, one month after the third vaccine dose.||3.76|-1.88|
82486049|NCT01086423|164665890|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.56|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-T, one month after the third vaccine dose.||2.56|-2.56|
82486050|NCT01086423|164665891|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-7.93|||||TWO_SIDED|95.0|-14.44|-2.13||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PRP antibodies, one month after the third vaccine dose.||-2.13|-14.44|
82486051|NCT01086423|164665892|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 1 antibodies, one month after the third vaccine dose.||2.56|-2.51|
82486052|NCT01086423|164665892|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 2 antibodies, one month after the third vaccine dose.||2.56|-2.51|
82486053|NCT01086423|164665892|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-2.51|2.56||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-Polio type 3 antibodies, one month after the third vaccine dose.||2.56|-2.51|
82486054|NCT01086423|164665893|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-0.68|||||TWO_SIDED|95.0|-3.74|1.89||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PT antigens, one month after the third vaccine dose.||1.89|-3.74|
82499305|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.139|||||TWO_SIDED|95.0|-0.198|0.475|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for weighted mean potassium 0-4 h at Day 15.||0.475|-0.198|
82499306|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-1.18|0.9|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 1.||0.90|-1.18|
82499307|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.29|||||TWO_SIDED|95.0|-0.72|1.3|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 1.||1.30|-0.72|
82499308|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.17|||||TWO_SIDED|95.0|-1.15|0.8|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 1.||0.80|-1.15|
82582309|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.227||||0.017||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.017
82582310|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.016||||0.866||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.866
82486055|NCT01086423|164665893|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% CI on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-2.7|||||TWO_SIDED|95.0|-6.75|-0.11||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-FHA antigens, one month after the third vaccine dose.||-0.11|-6.75|
82486056|NCT01086423|164665893|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: The UL of the standardized asymptotic 95% confidence interval (CI) on the group difference \[Infanrix-Hib + Poliorix Group minus Infanrix-IPV+Hib 1 Group\] in percentage of seroprotected subjects ≤ 10%.|Difference in seroprotection rate|-0.67|||||TWO_SIDED|95.0|-4.6|3.04||||||To demonstrate that the immunogenicity of Infanrix™-IPV+Hib vaccine administered at 2, 3 and 4 months of age was non-inferior to that of the concomitant administration of Infanrix™-Hib and Poliorix™ vaccines at the same age, in terms of immune response to anti-PRN antigens, one month after the third vaccine dose.||3.04|-4.6|
82486057|NCT03091777|164665927|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82486058|NCT03091777|164665927|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82486059|NCT01476644|164665954|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|||||||Regression, Linear|||||||<0.01
82486060|NCT02393690|164665955|SUPERIORITY|||||||0.0787|||||||Fisher Exact|||||||0.0787
82486061|NCT02393690|164665956|SUPERIORITY|||||||0.0787|||||||Fisher Exact|||||||0.0787
82486062|NCT02393690|164665957|SUPERIORITY|||||||0.1764|||||||Log Rank|||||||0.1764
82486063|NCT02393690|164665958|SUPERIORITY|||||||0.0756|||||||Wilcoxon (Mann-Whitney)|||||||0.0756
82486064|NCT03552965|164665975|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=1.14, SD=0.378, Range=1, 25th percentile=1, Median=1, 75th percentile=1, n=7 Robust: Mean=1.17, SD=0.577, Range=2, 25th percentile=1, Median=1, 75th percentile=1, n=12"|||
82486065|NCT03552965|164665976|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2, SD=0.894, Range=2, 25th percentile=1, Median=2, 75th percentile=3, n=6 Robust: Mean=2.91, SD=1.136, Range=3, 25th percentile=2, Median=3, 75th percentile=4, n=11"|||
82486066|NCT03552965|164665977|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2.5, SD=0.577, Range=1, 25th percentile=2, Median=2.5, 75th percentile=3, n=4 Robust: Mean=2.33, SD=1.225, Range=3, 25th percentile=1, Median=2, 75th percentile=3.5, n=9"|||
82486067|NCT03552965|164665978|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=1.83, SD=0.753, Range=2, 25th percentile=1, Median=2, 75th percentile=2.25, n=6 Robust: Mean=2.33, SD=1, Range=3, 25th percentile=1.5, Median=2, 75th percentile=3, n=9"|||
82486068|NCT03552965|164665979|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=2, SD=0.707, Range=2, 25th percentile=1.5, Median=2, 75th percentile=2.5, n=5 Robust: Mean=2.38, SD=1.188, Range=3, 25th percentile=1.25, Median=2, 75th percentile=3.75, n=8"|||
82486069|NCT03552965|164665980|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=15.5, SD=23.76242, Range=75, 25th percentile=0, Median=5, 75th percentile=21.25, n=10 Robust: Mean=14.1346, SD=17.87095, Range=52.5, 25th percentile=0, Median=6.25, 75th percentile=27.5, n=13"|||
82486070|NCT03552965|164665981|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=45.625, SD=30.68744, Range=71.25, 25th percentile=11.25, Median=58.125, 75th percentile=71.25, n=6 Robust: Mean=64.3182, SD=15.0142, Range=48.75, 25th percentile=66.25, Median=70, 75th percentile=71.25, n=11"|||
82486071|NCT03552965|164665982|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=60, SD=23.68412, Range=60, 25th percentile=38.125, Median=68.75, 75th percentile=77.5, n=5 Robust: Mean=54.8611, SD=29.91815, Range=80, 25th percentile=24.375, Median=66.25, 75th percentile=80, n=9"|||
82486072|NCT03552965|164665983|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=31.67, SD=31.38139, Range=85, 25th percentile=5.625, Median=25, 75th percentile=56.875, n=6 Robust: Mean=54.0278, SD=24.57274, Range=67.5, 25th percentile=33.75, Median=62.5, 75th percentile=72.5, n=9"|||
82486073|NCT03552965|164665984|OTHER||||||||||||||||||"Descriptive statistics were used to evaluate the prevalence and grade of xerostomia over time.~Margin-based: Mean=50.75, SD=30.29284, Range=72.5, 25th percentile=21.875, Median=48.75, 75th percentile=80.625, n=5 Robust: Mean=38.4375, SD=26.69897, Range=66.25, 25th percentile=15, Median=29.375, 75th percentile=68.75, n=8"|||
82582311|NCT01160289|164876044|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.032||||0.726||95.0||||The p-value is for the change from baseline to Week 12 in triglycerides; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.726
82582312|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-9.014|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
82582313|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-18.547|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
82582314|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-9.216|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
82486074|NCT00518687|164666040|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|18.5||||0.584|TWO_SIDED|95.0|-48.6|55.8||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significantly greater than 20%|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||55.8|-48.6|0.584
82486075|NCT00518687|164666041|SUPERIORITY_OR_OTHER||Estimated rate difference|0.0||||0.997|TWO_SIDED|95.0|-0.1|0.1|||Miettinen and Nurminen|||||0.1|-0.1|0.997
82486076|NCT00518687|164666042|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|12.9||||0.347|TWO_SIDED|95.0|-50.8|50.0||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significant|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||50.0|-50.8|0.347
82486077|NCT00518687|164666043|SUPERIORITY_OR_OTHER||Vaccine Efficacy (VE)|29.3||||0.032|TWO_SIDED|95.0|-1.8|51.2||A 1-sided p-value \<0.025 implies that the V710 vaccine efficacy is statistically significant|Exact 1-sided binomial test||VE = 1 - Relative Risk of V710 compared with placebo|||51.2|-1.8|0.032
82486078|NCT03347188|164666108|SUPERIORITY||LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.11||0.1876|TWO_SIDED|95.0|-0.73|3.67||Threshold for significance at 0.05 level.|ANCOVA|||||3.67|-0.73|0.1876
82582315|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-18.75|||<|0.001||95.0||||The p-value is for the percent change from baseline to Week 12 in HDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||<0.001
82486079|NCT04622735|164666165|SUPERIORITY|||||||0.0031|||||||Mixed Models Analysis|||||||0.0031
82486080|NCT04622735|164666165|SUPERIORITY|||||||0.6787|||||||Mixed Models Analysis|||||||0.6787
82556851|NCT03466411|164823914|SUPERIORITY||Adjusted treatment difference|33.7|||<|0.001|TWO_SIDED|95.0|24.1|43.2|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||43.2|24.1|<0.001
82556852|NCT03466411|164823914|SUPERIORITY||Adjusted treatment difference|32.9|||<|0.001|TWO_SIDED|95.0|23.5|42.4|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||42.4|23.5|<0.001
82486081|NCT02007512|164666188|OTHER||Hazard Ratio (HR)|0.82||||0.3631|TWO_SIDED|95.0|0.535|1.257|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.257|0.535|0.3631
82486082|NCT02007512|164666188|OTHER||Hazard Ratio (HR)|1.022||||0.9212|TWO_SIDED|95.0|0.659|1.586|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.586|0.659|0.9212
82486083|NCT02007512|164666189|OTHER||Hazard Ratio (HR)|0.442||||0.0335|TWO_SIDED|95.0|0.205|0.955|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||0.955|0.205|0.0335
82486084|NCT02007512|164666189|OTHER||Hazard Ratio (HR)|0.554||||0.1936|TWO_SIDED|95.0|0.225|1.363|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.363|0.225|0.1936
82486085|NCT02007512|164666206|OTHER||Hazard Ratio (HR)|0.928||||0.7378|TWO_SIDED|95.0|0.599|1.438|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.438|0.599|0.7378
82556853|NCT03466411|164823915|SUPERIORITY||Adjusted treatment difference|34.2|||<|0.001|TWO_SIDED|95.0|23.2|45.3|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||45.3|23.2|<0.001
82651533|NCT00782509|165017857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.032|0.0002
82486086|NCT02007512|164666206|OTHER||Hazard Ratio (HR)|0.968||||0.8817|TWO_SIDED|95.0|0.632|1.483|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.483|0.632|0.8817
82486087|NCT02007512|164666207|OTHER||Hazard Ratio (HR)|0.522||||0.127|TWO_SIDED|95.0|0.224|1.217|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||1.217|0.224|0.1270
82486088|NCT02007512|164666207|OTHER||Hazard Ratio (HR)|0.37||||0.0359|TWO_SIDED|95.0|0.143|0.961|||Stratified log-rank|||Hazard ratio was based on stratified Cox regression model.||0.961|0.143|0.0359
82556854|NCT03466411|164823915|SUPERIORITY||Adjusted treatment difference|35.0|||<|0.001|TWO_SIDED|95.0|23.5|46.5|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||46.5|23.5|<0.001
82486089|NCT00736879|164666233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.1672|<|0.0001|TWO_SIDED|95.0|-1.02|-0.37||Tested at alpha=0.019 applying Dunnett's adjustment|ANCOVA|||||-0.37|-1.02|<0.0001
82486090|NCT00736879|164666233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.1679|<|0.0001|TWO_SIDED|95.0|-1.07|-0.41|||ANCOVA|Tested at alpha=0.019 applying Dunnett's adjustment.||||-0.41|-1.07|<0.0001
82486091|NCT00736879|164666233|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|0.171|<|0.0001|TWO_SIDED|95.0|-1.17|-0.5|||ANCOVA|Tested at alpha=0.019 applying Dunnett's adjustment.||||-0.50|-1.17|<0.0001
82486092|NCT00736879|164666234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.5481||0.0018|TWO_SIDED|95.0|-2.81|-0.65||Test was performed at alpha=0.05.|ANCOVA|||By applying sequential testing procedure, the testing was performed since the primary endpoint was significant.||-0.65|-2.81|0.0018
82486093|NCT00736879|164666234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.68|STANDARD_ERROR_OF_MEAN|0.5474||0.0024|TWO_SIDED|95.0|-2.76|-0.6||Test was performed at alpha=0.05.|ANCOVA|||||-0.60|-2.76|0.0024
82486094|NCT00736879|164666234|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.5598||0.0022|TWO_SIDED|95.0|-2.83|-0.63||Test was performed at alpha=0.05.|ANCOVA|||||-0.63|-2.83|0.0022
82582316|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.977||||0.776||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.776
82582317|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.78||||0.814||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.814
82486095|NCT00736879|164666235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.1|STANDARD_ERROR_OF_MEAN|5.859||0.0103|TWO_SIDED|95.0|-26.7|-3.6||Test was performed at alpha=0.05.|ANCOVA|||||-3.6|-26.7|0.0103
82486096|NCT00736879|164666235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|5.816|<|0.0001|TWO_SIDED|95.0|-37.2|-14.3||Test was performed at alpha=0.05.|ANCOVA|||||-14.3|-37.2|<0.0001
82486097|NCT00736879|164666235|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.6|STANDARD_ERROR_OF_MEAN|5.962|<|0.0001|TWO_SIDED|95.0|-44.3|-20.8||Test was performed at alpha=0.05.|ANCOVA|||||-20.8|-44.3|<0.0001
82486098|NCT00736879|164666236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.1|STANDARD_ERROR_OF_MEAN|8.8681|<|0.0001|TWO_SIDED|95.0|-59.56|-24.61||Test was performed at alpha=0.05.|ANCOVA|||||-24.61|-59.56|<0.0001
82486099|NCT00736879|164666236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-48.1|STANDARD_ERROR_OF_MEAN|9.1963|<|0.0001|TWO_SIDED|95.0|-66.27|-30.03||Test was performed at alpha=0.05.|ANCOVA|||||-30.03|-66.27|<0.0001
82486100|NCT00736879|164666236|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.6|STANDARD_ERROR_OF_MEAN|9.1796|<|0.0001|TWO_SIDED|95.0|-78.67|-42.5||Test was performed at alpha=0.05.|ANCOVA|||||-42.50|-78.67|<0.0001
82486101|NCT00736879|164666237|SUPERIORITY_OR_OTHER||percent difference|18.9|STANDARD_ERROR_OF_MEAN|7.38||0.0157|TWO_SIDED|95.0|3.6|34.3||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||34.3|3.6|0.0157
82486102|NCT00736879|164666237|SUPERIORITY_OR_OTHER||Percent Difference|8.8|STANDARD_ERROR_OF_MEAN|7.65||0.2512|TWO_SIDED|95.0|-6.2|23.8||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||23.8|-6.2|0.2512
82556855|NCT03466411|164823916|SUPERIORITY||Adjusted treatment difference|27.9|||<|0.001|TWO_SIDED|95.0|18.7|37.1|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||37.1|18.7|<0.001
82486103|NCT00736879|164666237|SUPERIORITY_OR_OTHER||Percent Difference|14.5|STANDARD_ERROR_OF_MEAN|8.069||0.0726|TWO_SIDED|95.0|-1.3|30.3||Test was performed at alpha=0.05.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||30.3|-1.3|0.0726
82486104|NCT00736879|164666238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.7954||0.3163|TWO_SIDED|95.0|-2.37|0.77||Test was performed at alpha=0.05.|ANCOVA|||||0.77|-2.37|0.3163
82486105|NCT00736879|164666238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.8154|||TWO_SIDED|95.0|-2.22|0.99|||ANCOVA|||Following a sequential testing procedure, this comparison was not statistically tested, ie, the previous comparison did not meet the criterion for statistical significance.||0.99|-2.22|
82486106|NCT00736879|164666238|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|0.8238|||TWO_SIDED|95.0|-3.09|0.16|||ANCOVA|||Following a sequential testing procedure, this comparison was not statistically tested, ie, the previous comparison did not meet the criterion for statistical significance.||0.16|-3.09|
82486107|NCT00573248|164666270|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
82486108|NCT00573248|164666271|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED||||||ANOVA|||2 (nicotine versus placebo) x 2 (smoker versus nonsmoker) ANOVA||||<0.025
82556856|NCT03466411|164823916|SUPERIORITY||Adjusted treatment difference|30.8|||<|0.001|TWO_SIDED|95.0|21.3|40.3|||Mantel Haenszel||Treatment difference between guselkumab group and placebo group was based on the common risk difference by use of Mantel-Haenszel stratum weights and the Sato variance estimator.|||40.3|21.3|<0.001
82651534|NCT00782509|165017857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.019||0.0186||95.0|0.007|0.081|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.081|0.007|0.0186
82486109|NCT00573248|164666272|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
82486110|NCT00573248|164666273|SUPERIORITY_OR_OTHER||||||<|0.025|ONE_SIDED|||||Adjusted for multiple comparisons|ANOVA|||2 (nicotine versus placebo) x 2 (smokers versus nonsmokers) ANOVA for each diary item||||<0.025
82486111|NCT03180684|164666319|SUPERIORITY|||||||0.0071|||||||Clopper Pearson|A 1-sided p-value was calculated to prove superiority over historical control of 2%. Superiority of VGX-3100 alone was declared if p-value is \<0.025.||||||0.0071
82486112|NCT03180684|164666319|SUPERIORITY|||||||0.0004|||||||Clopper Pearson|1-sided p-value was calculated to prove superiority over historical control of 2%.Superiority of VGX-3100+imiquimod was declared if p-value is \<0.025.||||||0.0004
82486113|NCT05896748|164666336|OTHER||Ratio of geometric least square mean|0.948|||||TWO_SIDED|90.0|0.901|0.998|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||0.998|0.901|
82486114|NCT05896748|164666336|OTHER||Ratio of geometric least square mean|0.935|||||TWO_SIDED|90.0|0.877|0.995|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||0.995|0.877|
82556857|NCT03466411|164823917|SUPERIORITY||Adjusted treatment difference|25.1|||<|0.001|TWO_SIDED|95.0|14.1|36.2|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||36.2|14.1|<0.001
82556858|NCT03466411|164823918|SUPERIORITY||Adjusted treatment difference|27.7|||<|0.001|TWO_SIDED|95.0|19.3|36.1|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||36.1|19.3|<0.001
82556859|NCT03466411|164823919|SUPERIORITY||Adjusted treatment difference|31.2|||<|0.001|TWO_SIDED|95.0|21.1|41.3|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||41.3|21.1|<0.001
82556860|NCT03466411|164823920|SUPERIORITY||Adjusted treatment difference|22.1|||<|0.001|TWO_SIDED|95.0|12.2|31.9|||Mantel Haenszel||Treatment difference between combined guselkumab group and placebo group was based on the common risk difference by use of Mantel- Haenszel stratum weights and the Sato variance estimator.|||31.9|12.2|<0.001
82556861|NCT03414684|164824017|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.88|TWO_SIDED|95.0|0.49|1.84|||Log Rank|stratified log rank test|Reference level is Arm B, such that hazard ratio corresponds to the effect of treatment on Arm A|||1.84|0.49|0.88
82556862|NCT03414684|164824018|SUPERIORITY||Odds Ratio (OR)|1.09||||1|TWO_SIDED|95.0|0.29|4.18|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to the effect of treatment on Arm A|||4.18|0.29|1
82556863|NCT03414684|164824020|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.49|TWO_SIDED|95.0|0.43|1.5|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||1.50|0.43|0.49
82556864|NCT03414684|164824021|SUPERIORITY||Odds Ratio (OR)|1.05||||1|TWO_SIDED|95.0|0.32|3.43|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||3.43|0.32|1
82556865|NCT03414684|164824022|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.36|TWO_SIDED|95.0|0.13|2.12|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||2.12|0.13|0.36
82582318|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.629||||0.627||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.627
82582319|NCT01160289|164876045|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.128||||0.968||95.0||||The p-value is for the percent change from baseline to Week 12 in LDL-C; Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.968
82556866|NCT03414684|164824023|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.68|TWO_SIDED|95.0|0.43|3.43|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||3.43|0.43|0.68
82556867|NCT03414684|164824024|SUPERIORITY||Hazard Ratio (HR)|0.54||||0.27|TWO_SIDED|95.0|0.18|1.62|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||1.62|0.18|0.27
82556868|NCT03414684|164824025|SUPERIORITY||Odds Ratio (OR)|0.81||||1|TWO_SIDED|95.0|0.08|7.78|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||7.78|0.08|1
82556869|NCT03414684|164824027|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.61|TWO_SIDED|95.0|0.26|2.16|||Log Rank|stratified log rank test|Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||2.16|0.26|0.61
82556870|NCT03414684|164824028|SUPERIORITY||Odds Ratio (OR)|0.79||||1|TWO_SIDED|95.0|0.1|5.93|||Fisher Exact||Reference level is Arm B, such that the odds ratio corresponds to treatment on Arm A|||5.93|0.10|1
82556871|NCT03414684|164824030|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.73|TWO_SIDED|95.0|0.14|3.89|||Log Rank||Reference level is Arm B, such that the hazard ratio corresponds to treatment on Arm A|||3.89|0.14|0.73
82556872|NCT03367156|164824207|OTHER||Mean Difference (Final Values)|0.0||||0.48|TWO_SIDED|95.0|-0.8|0.7|||Linear Model|||||0.7|-0.8|0.48
82556873|NCT03367156|164824208|OTHER||Mean Difference (Final Values)|0.2|||>|0.99|TWO_SIDED|95.0|-0.7|1.0|||Linear Model|||||1|-0.7|>0.99
82556874|NCT03367156|164824209|OTHER||Mean Difference (Final Values)|0.4||||0.97|TWO_SIDED|95.0|-0.7|1.6|||Linear Model|||||1.6|-0.7|0.97
82556875|NCT03367156|164824210|OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|-0.8|1.0|||Linear Model|||||1.0|-0.8|0.78
82556876|NCT03367156|164824211|OTHER||Mean Difference (Final Values)|-0.5||||0.93|TWO_SIDED|95.0|-10.6|9.6|||Linear Model|||||9.6|-10.6|0.93
82556877|NCT03367156|164824212|OTHER||Mean Difference (Final Values)|0.6||||0.93|TWO_SIDED|95.0|-0.6|1.8|||Linear Model|||||1.8|-0.6|0.93
82556878|NCT03367156|164824213|OTHER||Mean Difference (Final Values)|0.1||||0.82|TWO_SIDED|95.0|-0.9|1.1|||Linear Model|||||1.1|-0.9|0.82
82556879|NCT03367156|164824214|OTHER||Mean Difference (Final Values)|-5.5||||0.38|TWO_SIDED|95.0|-17.9|6.9|||Linear Model|||||6.9|-17.9|0.38
82556880|NCT03762850|164824215|OTHER||Geometric Mean Ratio|0.59|||<|0.0001|TWO_SIDED|95.0|0.51|0.69|||Mixed Models Analysis|||||0.69|0.51|<0.0001
82556881|NCT03762850|164824216|OTHER||Slope difference|1.0|STANDARD_ERROR_OF_MEAN|0.5||0.0582|TWO_SIDED|95.0|-0.03|1.94|||Mixed Models Analysis|||||1.94|-0.03|0.0582
82556882|NCT03762850|164824217|OTHER||Slope difference|1.1|STANDARD_ERROR_OF_MEAN|0.52||0.0369|TWO_SIDED|95.0|0.07|2.12|||Mixed Models Analysis|||||2.12|0.07|0.0369
82556883|NCT03683576|164824292|SUPERIORITY||Odds Ratio (OR)|0.674||||0.1425|TWO_SIDED|95.0|0.398|1.142|||Regression, Logistic||GB001 20 mg vs. Placebo|||1.142|0.398|0.1425
82556884|NCT03683576|164824292|SUPERIORITY||Odds Ratio (OR)|0.677||||0.1482|TWO_SIDED|95.0|0.399|1.149|||Regression, Logistic||GB001 40 mg vs. Placebo|||1.149|0.399|0.1482
82556885|NCT03683576|164824292|SUPERIORITY||Odds Ratio (OR)|0.651||||0.1086|TWO_SIDED|95.0|0.385|1.1|||Regression, Logistic||GB001 60 mg vs. Placebo|||1.100|0.385|0.1086
82582320|NCT01160289|164876046|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|-0.006||||0.984||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.984
82582321|NCT01160289|164876046|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.465||||0.076||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.076
82582322|NCT01160289|164876046|SUPERIORITY_OR_OTHER||LS mean of treatment difference|0.387||||0.142||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.142
82582323|NCT01160289|164876046|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-0.072||||0.776||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.776
82582324|NCT01160289|164876047|SUPERIORITY_OR_OTHER||LS Mean of treatment difference|5.031||||0.103||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.103
82582325|NCT01160289|164876047|SUPERIORITY_OR_OTHER||LS mean treatment difference|-3.225||||0.277||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.277
82582326|NCT01160289|164876047|SUPERIORITY_OR_OTHER||LS mean of treatment difference|7.056||||0.019||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.019
82486115|NCT05896748|164666336|OTHER||Ratio of geometric least square mean|0.934|||||TWO_SIDED|90.0|0.872|1.0|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within CAB||1.000|0.872|
82486116|NCT05896748|164666336|OTHER||Ratio of geometric least square mean|0.999|||||TWO_SIDED|90.0|0.943|1.059|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Ctau within CAB||1.059|0.943|
82486117|NCT05896748|164666337|OTHER||Ratio of geometric least square mean|1.002|||||TWO_SIDED|90.0|0.952|1.056|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||1.056|0.952|
82486118|NCT05896748|164666337|OTHER||Ratio of geometric least square mean|0.961|||||TWO_SIDED|90.0|0.921|1.002|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||1.002|0.921|
82486119|NCT05896748|164666337|OTHER||Ratio of geometric least square mean|0.928|||||TWO_SIDED|90.0|0.885|0.973|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Ctau within RPV||0.973|0.885|
82486120|NCT05896748|164666337|OTHER||Ratio of geometric least square mean|1.003|||||TWO_SIDED|90.0|0.955|1.053|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Ctau within RPV||1.053|0.955|
82486121|NCT05896748|164666338|OTHER||Ratio of geometric least square mean|0.942|||||TWO_SIDED|90.0|0.897|0.99|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.990|0.897|
82486122|NCT05896748|164666338|OTHER||Ratio of geometric least square mean|0.911|||||TWO_SIDED|90.0|0.86|0.965|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.965|0.860|
82486123|NCT05896748|164666338|OTHER||Ratio of geometric least square mean|0.91|||||TWO_SIDED|90.0|0.857|0.966|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within CAB||0.966|0.857|
82486124|NCT05896748|164666338|OTHER||Ratio of geometric least square mean|1.003|||||TWO_SIDED|90.0|0.938|1.074|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Cmax within CAB||1.074|0.938|
82486125|NCT05896748|164666339|OTHER||Ratio of geometric least square mean|0.938|||||TWO_SIDED|90.0|0.895|0.982|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.982|0.895|
82582327|NCT01160289|164876047|SUPERIORITY_OR_OTHER||LS mean of treatment difference|-1.201||||0.676||95.0||||Conducted at a 2-sided alpha level of 0.10 without adjustment for multiplicity.|Mixed model repeated measures analysis|||||||0.676
82651535|NCT00782509|165017858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0003||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.032|0.0003
82486126|NCT05896748|164666339|OTHER||Ratio of geometric least square mean|0.918|||||TWO_SIDED|90.0|0.876|0.963|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.963|0.876|
82486127|NCT05896748|164666339|OTHER||Ratio of geometric least square mean|0.905|||||TWO_SIDED|90.0|0.861|0.952|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for Cmax within RPV||0.952|0.861|
82486128|NCT05896748|164666339|OTHER||Ratio of geometric least square mean|0.937|||||TWO_SIDED|90.0|0.891|0.986|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for Cmax within RPV||0.986|0.891|
82486129|NCT05896748|164666340|OTHER||Ratio of geometric least square mean|0.944|||||TWO_SIDED|90.0|0.906|0.983|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.983|0.906|
82486130|NCT05896748|164666340|OTHER||Ratio of geometric least square mean|0.944|||||TWO_SIDED|90.0|0.895|0.995|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.995|0.895|
82486131|NCT05896748|164666340|OTHER||Ratio of geometric least square mean|0.933|||||TWO_SIDED|90.0|0.876|0.994|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within CAB||0.994|0.876|
82486132|NCT05896748|164666340|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.979|1.105|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for AUC\[0-tau\] within CAB||1.105|0.979|
82486133|NCT05896748|164666341|OTHER||Ratio of geometric least square mean|0.966|||||TWO_SIDED|90.0|0.932|1.002|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||1.002|0.932|
82486134|NCT05896748|164666341|OTHER||Ratio of geometric least square mean|0.955|||||TWO_SIDED|90.0|0.922|0.989|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||0.989|0.922|
82582328|NCT01014143|164876072|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82582329|NCT03699085|164876078|EQUIVALENCE|A p value of \< 0.05 suggests the groups are different.||||||0.38||||||A p value of \< 0.05 suggests the groups are different.|Wilcoxon (Mann-Whitney)|||Wilcoxon rank-sum test is used, which ranks the values in each group, sums the ranks and determines the probability that they are the same. The probability p-value is reported.||||0.38
82586141|NCT05437510|164884198|SUPERIORITY||Efficacy|90.7|||<|0.0001|TWO_SIDED|95.0|63.676|98.813||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for France: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||98.813|63.676|<0.0001
82486135|NCT05896748|164666341|OTHER||Ratio of geometric least square mean|0.948|||||TWO_SIDED|90.0|0.907|0.991|||Mixed effect analysisofcovariance(ANCOVA|||To compare the abdominal SC injection with gluteal IM injection for AUC\[0-tau\] within RPV||0.991|0.907|
82486136|NCT05896748|164666341|OTHER||Ratio of geometric least square mean|1.014|||||TWO_SIDED|90.0|0.972|1.058|||Mixed effect analysisofcovariance(ANCOVA|||To compare the IM gluteal injections for AUC\[0-tau\] within RPV||1.058|0.972|
82486137|NCT06138145|164666397|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82486138|NCT06138145|164666397|OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mann-Whitney U test|||||||<0.05
82486139|NCT06138145|164666397|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82486140|NCT00857415|164666398|SUPERIORITY_OR_OTHER||Correlation coefficient|0.78|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|0.58|0.89||A one-sided test (rho \> 0) was performed with a significance level of alpha=0.05 to assess a significant correlation.|Spearman's Rank Correlation test||Asymptotic standard error and 95 percent CI used Fisher z-transformation.|Spearman's Rank Order Correlation of the median semiquantitative read (three readers) and the quantitative IHC measurement of cortical amyloid plaque density averaged across six brain regions.||0.89|0.58|<0.0001
82486141|NCT00857415|164666399|SUPERIORITY_OR_OTHER||Specificity|100.0|||||TWO_SIDED|95.0|91.0|100.0|||||95% CI calculated by Wilson score method|Proportion of subjects who had a negative scan based on majority of 3 blinded readers||100|91|
82486142|NCT01130103|164666409|SUPERIORITY_OR_OTHER||incident rate ratio|0.5||||0.01|TWO_SIDED|95.0|0.3|0.85|||Mixed Models Analysis|||caps total score at weeks 5 and 10||.85|.30|.01
82486143|NCT01130103|164666409|SUPERIORITY_OR_OTHER||incident rate ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.43|0.74|||Mixed Models Analysis|||rate of change in CAPS total from week 5 to week 10||.74|.43|<.001
82486144|NCT01130103|164666413|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.6||||0.03|TWO_SIDED|95.0|1.23|129.0|||Mixed Models Analysis|||treatment group effect: remission rate at weeks 5 and 10||129|1.23|.03
82486145|NCT01130103|164666413|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.8||||0.007|TWO_SIDED|95.0|2.44|176.0|||Mixed Models Analysis|||rate of change over time in remission rate from week 5 to 10||176|2.44|0.007
82486146|NCT04795622|164666429|SUPERIORITY||Odds Ratio (OR)|1.3545|||||TWO_SIDED|95.0|0.753|2.4365||||||||2.4365|0.7530|
82486147|NCT04795622|164666430|SUPERIORITY||Point Estimate|-0.0856|||||TWO_SIDED|95.0|-0.2395|0.0683||||||X-axis||0.0683|-0.2395|
82486148|NCT04795622|164666430|SUPERIORITY||Point Estimate|-0.033|||||TWO_SIDED|95.0|-0.2268|0.1608||||||Y-axis||0.1608|-0.2268|
82486149|NCT04795622|164666430|SUPERIORITY||Point Estimate|0.1791|||||TWO_SIDED|95.0|-0.1551|0.5133||||||Z-axis||0.5133|-0.1551|
82486150|NCT01302379|164666442|SUPERIORITY||Mean Difference (Final Values)|1.0|||<|0.05|TWO_SIDED|95.0|-97.5|97.5||No adjustment for multiple comparisons|Mixed Models Analysis|||||97.5|-97.5|<0.05
82486151|NCT02103218|164666446|SUPERIORITY|||||||0.62|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.62
82486152|NCT02103218|164666447|SUPERIORITY|||||||0.15|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.15
82486153|NCT02103218|164666448|SUPERIORITY|||||||0.47|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.47
82486154|NCT02103218|164666449|SUPERIORITY|||||||0.29|||||||logistic GEE|||Results from logistic GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares predicted probabilities converted to %, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.29
82486155|NCT02103218|164666450|SUPERIORITY||||||<|0.001|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||<0.001
82486156|NCT02103218|164666451|SUPERIORITY|||||||0.02||||||Omnibus overall test for any group x time interaction was p = 0.77.|linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.02
82486157|NCT02103218|164666452|SUPERIORITY|||||||0.67|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.67
82486158|NCT02103218|164666453|SUPERIORITY|||||||0.45|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.45
82486159|NCT02103218|164666454|SUPERIORITY|||||||0.7|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.70
82486160|NCT02103218|164666455|SUPERIORITY|||||||0.42|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.42
82486161|NCT02103218|164666456|SUPERIORITY|||||||0.63|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.63
82486162|NCT02103218|164666457|SUPERIORITY|||||||0.05||||||Omnibus overall test for any group x time interaction was p = 0.78.|count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.05
82486163|NCT02103218|164666458|SUPERIORITY|||||||0.5|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.50
82486164|NCT02103218|164666460|SUPERIORITY|||||||0.86|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.86
82486165|NCT02103218|164666461|SUPERIORITY|||||||0.46|||||||count GEE|||Results from count GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.46
82486166|NCT02103218|164666462|SUPERIORITY|||||||0.7|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.70
82486167|NCT02103218|164666463|SUPERIORITY|||||||0.29|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.29
82486168|NCT02103218|164666464|SUPERIORITY|||||||0.43|||||||linear GEE|||Results from linear GEE models for outcome with IPW propensity score adjustment and multiple imputation for missing data. Numbers presented above are model-based least-squares means, (SE). Overall p-values from omnibus test (group by time interaction) for any differences in change over time between groups as well as p-values from testing difference in least-square mean estimates in post-hoc pairwise comparisons with pre-intervention were estimated.||||0.43
82486169|NCT02301988|164666484|SUPERIORITY||Difference in Response Rates|3.77||||0.519||95.0|-8.99|16.54|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified Analysis||16.54|-8.99|0.519
82486170|NCT02301988|164666485|SUPERIORITY||Difference in response rates|3.29||||0.7817|TWO_SIDED|95.0|-25.52|32.1|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||32.10|-25.52|0.7817
82486171|NCT02301988|164666486|SUPERIORITY||Difference in Response Rates|7.7||||0.2234|TWO_SIDED|95.0|-5.95|21.35|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||21.35|-5.95|0.2234
82486172|NCT02301988|164666487|SUPERIORITY||Difference in response rates|-2.96||||0.8169|TWO_SIDED|95.0|-33.91|27.99|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||27.99|-33.91|0.8169
82486173|NCT02301988|164666488|SUPERIORITY||Difference in response rate|11.11||||0.1607||95.0|-5.64|27.85|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified analysis||27.85|-5.64|0.1607
82486174|NCT02301988|164666489|SUPERIORITY||Difference in Response Rates|23.68||||0.1486|TWO_SIDED|95.0|-13.57|60.94|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction.|Unstratified Analysis||60.94|-13.57|0.1486
82486175|NCT02301988|164666490|SUPERIORITY||Difference in Response Rates|6.09||||0.498|TWO_SIDED|95.0|-15.01|27.2|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||27.20|-15.01|0.4980
82486176|NCT02301988|164666491|SUPERIORITY||Difference in Response Rates|9.66||||0.3032||95.0|-12.25|31.58|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||31.58|-12.25|0.3032
82486177|NCT02301988|164666493|SUPERIORITY||Difference in Response Rates|4.2||||0.628|TWO_SIDED|95.0|-14.37|22.76|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||22.76|-14.37|0.6280
82486178|NCT02301988|164666494|SUPERIORITY||Difference in Response Rates|8.33||||0.6291|TWO_SIDED|95.0|-33.04|49.71|||Chi-squared||95% CI for difference in rates were constructed using normal approximation (Wald) with continuity correction method.|||49.71|-33.04|0.6291
82486179|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.68|||||TWO_SIDED|95.0|0.48|0.94|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 4||0.94|0.48|
82486180|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.81|||||TWO_SIDED|95.0|0.64|1.04|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 6B||1.04|0.64|
82486181|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.95|||||TWO_SIDED|95.0|0.74|1.23|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 9V||1.23|0.74|
82486182|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.67|||||TWO_SIDED|95.0|0.45|1.01|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 14||1.01|0.45|
82486183|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.96|||||TWO_SIDED|95.0|0.7|1.31|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 18C||1.31|0.70|
82556886|NCT03683576|164824293|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1647|TWO_SIDED|95.0|-0.36|0.06|||ANCOVA||GB001 20 mg vs. Placebo|||0.06|-0.36|0.1647
82651536|NCT00782509|165017858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.019||0.002||95.0|0.021|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.095|0.021|0.0020
82651537|NCT00782509|165017859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.058|STANDARD_ERROR_OF_MEAN|0.019||0.0024||95.0|0.02|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.095|0.020|0.0024
82556887|NCT03683576|164824293|SUPERIORITY||Mean Difference (Net)|-0.15||||0.1737|TWO_SIDED|95.0|-0.37|0.07|||ANCOVA||GB001 40 mg vs. Placebo|||0.07|-0.37|0.1737
82486184|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.56|||||TWO_SIDED|95.0|0.4|0.77|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 19F||0.77|0.40|
82486185|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|0.82|||||TWO_SIDED|95.0|0.64|1.05|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Group 2-Group 1).|Serotype 23F||1.05|0.64|
82486186|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|1.97|||||TWO_SIDED|95.0|1.39|2.8|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 4||2.80|1.39|
82486187|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|3.04|||||TWO_SIDED|95.0|2.41|3.84|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 6B||3.84|2.41|
82556888|NCT03683576|164824293|SUPERIORITY||Mean Difference (Net)|-0.19||||0.0879|TWO_SIDED|95.0|-0.4|0.03|||ANCOVA||GB001 60 mg vs. Placebo|||0.03|-0.40|0.0879
82486188|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|1.26|||||TWO_SIDED|95.0|0.98|1.62|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 9V||1.62|0.98|
82486189|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|6.66|||||TWO_SIDED|95.0|4.53|9.79|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 14||9.79|4.53|
82486190|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|2.34|||||TWO_SIDED|95.0|1.68|3.24|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 18C||3.24|1.68|
82556889|NCT03683576|164824294|SUPERIORITY||Mean Difference (Net)|0.016||||0.7718|TWO_SIDED|95.0|-0.091|0.123|||ANCOVA||GB001 20 mg vs. Placebo|||0.123|-0.091|0.7718
82556890|NCT03683576|164824294|SUPERIORITY||Mean Difference (Net)|0.041||||0.4562|TWO_SIDED|95.0|-0.067|0.149|||ANCOVA||GB001 40 mg vs. Placebo|||0.149|-0.067|0.4562
82556891|NCT03683576|164824294|SUPERIORITY||Mean Difference (Net)|0.075||||0.1631|TWO_SIDED|95.0|-0.03|0.18|||ANCOVA||GB001 60 mg vs. Placebo|||0.180|-0.030|0.1631
82556892|NCT03683576|164824295|SUPERIORITY||Hazard Ratio (HR)|0.719||||0.0466|TWO_SIDED|95.0|0.519|0.995|||Regression, Cox||GB001 20 mg vs. Placebo|||0.995|0.519|0.0466
82556893|NCT03683576|164824295|SUPERIORITY||Hazard Ratio (HR)|0.773||||0.1222|TWO_SIDED|95.0|0.558|1.071|||Regression, Cox||GB001 40 mg vs. Placebo|||1.071|0.558|0.1222
82556894|NCT03683576|164824295|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.0304|TWO_SIDED|95.0|0.505|0.967|||Regression, Cox||GB001 60 mg vs. Placebo|||0.967|0.505|0.0304
82556895|NCT03683576|164824296|SUPERIORITY||Rate ratio|0.797||||0.3382|TWO_SIDED|95.0|0.501|1.268|||Negative binomial regression model||GB001 20 mg vs. Placebo|||1.268|0.501|0.3382
82582330|NCT03699085|164876079|SUPERIORITY|Adjusted mixed effects regression models were used to determine whether patients in the intervention and control group manifested different patterns of change in days of heroin use in the past 30 days in terms of incidence-rate ratio. We applied a negative binomial distribution to help account for overdispersion of outcome data.|Incidence rate ratio|1.29||||0.68|TWO_SIDED|95.0|0.38|4.37||A p value of \< 0.05 suggests the groups are different.|Regression, Cox||A number greater than 1.0 indicates a higher incidence rate of heroin use in past 30 days for intervention group compared to control group|Comparison of control and intervention populations based on substance use measured utilizing a time-line follow back (TLFB) calendar administered by the research assistant to for past 30-day heroin use. This is a covariate-adjusted mixed effects regression model at TLFB timepoint of 6 months. A number greater than 1.0 indicates a higher incidence of heroin use in the past 30 days at the 6 month timepoint for intervention group compared to control group.||4.37|0.38|0.68
82582331|NCT02313233|164876116|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82582332|NCT02313233|164876117|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82556896|NCT03683576|164824296|SUPERIORITY||Rate ratio|0.748||||0.2248|TWO_SIDED|95.0|0.469|1.195|||Negative binomial regression model||GB001 40 mg vs. Placebo|||1.195|0.469|0.2248
82556897|NCT03683576|164824296|SUPERIORITY||Rate ratio|0.889||||0.609|TWO_SIDED|95.0|0.565|1.397|||Negative binomial regression model||GB001 60 mg vs. Placebo|||1.397|0.565|0.6090
82556898|NCT03683576|164824297|SUPERIORITY||Mean Difference (Net)|-0.023||||0.6645|TWO_SIDED|95.0|-0.127|0.081|||ANCOVA||GB001 20 mg vs. Placebo|||0.081|-0.127|0.6645
82556899|NCT03683576|164824297|SUPERIORITY||Mean Difference (Net)|0.035||||0.5288|TWO_SIDED|95.0|-0.074|0.144|||ANCOVA||GB001 40 mg vs. Placebo|||0.144|-0.074|0.5288
82556900|NCT03683576|164824297|SUPERIORITY||Mean Difference (Net)|0.079||||0.1362|TWO_SIDED|95.0|-0.025|0.182|||ANCOVA||GB001 60 mg vs. Placebo|||0.182|-0.025|0.1362
82556901|NCT03683576|164824298|SUPERIORITY||Mean Difference (Net)|6.122||||0.3957|TWO_SIDED|95.0|-8.007|20.251|||ANCOVA||GB001 20 mg vs. Placebo|||20.251|-8.007|0.3957
82556902|NCT03683576|164824298|SUPERIORITY||Mean Difference (Net)|13.948||||0.0598|TWO_SIDED|95.0|-0.578|28.474|||ANCOVA||GB001 40 mg vs. Placebo|||28.474|-0.578|0.0598
82556903|NCT03683576|164824298|SUPERIORITY||Mean Difference (Net)|5.588||||0.4376|TWO_SIDED|95.0|-8.522|19.698|||ANCOVA||GB001 60 mg vs. Placebo|||19.698|-8.522|0.4376
82556904|NCT02628626|164824316|SUPERIORITY|||||||0.85|||||||ANCOVA|||||||0.85
82556905|NCT02628626|164824317|SUPERIORITY|||||||0.24|||||||ANCOVA|||Approximately 4 weeks||||0.24
82486191|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|4.47|||||TWO_SIDED|95.0|3.29|6.07|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 19F||6.07|3.29|
82556906|NCT02628626|164824318|SUPERIORITY|||||||0.44|||||||ANCOVA|||Approximately 4 weeks||||0.44
82556907|NCT02628626|164824319|SUPERIORITY|||||||0.35|||||||ANCOVA|||||||0.35
82556908|NCT02628626|164824320|SUPERIORITY|||||||0.56|||||||ANCOVA|||Approximately 4 weeks||||0.56
82556909|NCT02628626|164824321|SUPERIORITY|||||||0.55|||||||ANCOVA|||||||0.55
82556910|NCT02628626|164824322|SUPERIORITY|||||||0.11|||||||ANCOVA|||Small (staining only)||||0.11
82556911|NCT02628626|164824322|SUPERIORITY|||||||0.06|||||||ANCOVA|||Moderate (requires change of underwear)||||0.06
82556912|NCT02628626|164824322|SUPERIORITY|||||||0.36|||||||ANCOVA|||Large (requires complete change of clothes)||||0.36
82556913|NCT02628626|164824323|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
82556914|NCT02628626|164824324|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
82556915|NCT02628626|164824325|SUPERIORITY|||||||0.29|||||||ANCOVA|||||||0.29
82556916|NCT02628626|164824326|SUPERIORITY|||||||0.39|||||||ANCOVA|||||||0.39
82556917|NCT02628626|164824327|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
82556918|NCT02628626|164824328|SUPERIORITY|approximately 4 weeks post-treatment||||||0.12|||||||ANCOVA|||||||0.12
82556919|NCT02628626|164824329|SUPERIORITY|||||||0.67|||||||ANCOVA|||Lifestyle Score||||0.67
82556920|NCT02628626|164824329|SUPERIORITY|||||||0.8|||||||ANCOVA|||Coping Score||||0.80
82556921|NCT02628626|164824329|SUPERIORITY|||||||0.49|||||||ANCOVA|||Depression Score||||0.49
82556922|NCT02628626|164824329|SUPERIORITY|||||||0.6|||||||ANCOVA|||Embarrassment Score||||0.60
82556923|NCT02628626|164824330|SUPERIORITY|||||||0.78|||||||ANCOVA|||Approximately 4 weeks post-treatment||||0.78
82556924|NCT03102034|164824412|OTHER||% vaccine recipients with solicited AEs|76.0|||||TWO_SIDED|90.0|56.0|90.0|||||Confidence intervals were Exact Clopper-Pearson.|||90|56|
82556925|NCT03102034|164824412|OTHER||% placebo recipients with solicited AEs|18.0|||||TWO_SIDED|90.0|3.0|47.0|||||Confidence intervals were Exact Clopper-Pearson.|||47|3|
82556926|NCT03102034|164824413|OTHER||% vaccinees with unsolicited AEs|24.0|||||TWO_SIDED|90.0|10.0|44.0|||||Confidence intervals were Exact Clopper-Pearson.|||44|10|
82556927|NCT03102034|164824413|OTHER||% placebo with unsolicited AEs|9.0|||||TWO_SIDED|90.0|0.0|36.0|||||Confidence intervals were Exact Clopper-Pearson.|||36|0|
82556928|NCT03102034|164824418|SUPERIORITY||||||<|0.001||||||Due to unequal sample sizes, a 1-sided Fisher's exact test was used to test the hypothesis that proportions of greater than or equal to 4-fold rises were higher in the vaccinated than in the placebo group. Statistical significance level was 0.05.|Fisher Exact|||||||<0.001
82556929|NCT03102034|164824419|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance is 0.05.|Log Rank|||||||<0.001
82556930|NCT02307682|164824480|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.98||0.0003|TWO_SIDED|95.0|-2.5|1.3||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||1.3|-2.5|0.0003
82582333|NCT02313233|164876120|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82582334|NCT02313233|164876121|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82582335|NCT05383508|164876134|OTHER||Geometric LS Mean Ratio (%)|17.05|||||TWO_SIDED|95.0|10.69|27.19||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the Cmax ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||27.19|10.69|
82582336|NCT05383508|164876134|OTHER||Geometric LS Mean Ratio (%)|19.47|||||TWO_SIDED|95.0|11.89|31.87||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the Cmax ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||31.87|11.89|
82582337|NCT05383508|164876135|OTHER||Median Difference (Net)|3.0|||||TWO_SIDED|95.0|0.0|11.0||95% confidence intervals are provided for this analysis.|Wilcoxon signed rank test||Hodges-Lehmann estimator of location shift and Moses 95% CI|The objective of this study was to determine the Tmax difference of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||11.00|0.00|
82582338|NCT05383508|164876135|OTHER||Mean Difference (Net)|2.0|||||TWO_SIDED|95.0|0.0|4.0||95% confidence intervals are provided for this analysis.|Wilcoxon signed rank test||Hodges-Lehmann estimator of location shift and Moses 95% CI|The objective of this study was to determine the Tmax difference of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||4.00|0.00|
82582339|NCT05383508|164876136|OTHER||Geometric LS Mean Ratio (%)|28.29|||||TWO_SIDED|95.0|16.0|50.04||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the AUC0-infinity ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||50.04|16.00|
82582340|NCT05383508|164876136|OTHER||Geometric LS Mean Ratio (%)|26.16|||||TWO_SIDED|95.0|12.74|53.69||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the AUC0-infinity ratio of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||53.69|12.74|
82582341|NCT05383508|164876137|OTHER||Geometric LS Mean Ratio (%)|10.84|||||TWO_SIDED|95.0|5.57|21.1||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the maximum ratio of background-corrected concentration over time of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||21.10|5.57|
82582342|NCT05383508|164876137|OTHER||Geometric LS Mean Ratio (%)|16.83|||||TWO_SIDED|95.0|9.93|28.53||95% confidence intervals are provided for this analysis.|Mixed Models Analysis|The model included terms for sequence, period, and product exposure as fixed effects and subject as a categorical random effect.|Analysis was performed on log transformed data with Kenward Roger degrees of freedom approximation. Ratio and related 95% CI were derived by exponentiating the estimates obtained on the log scale.|The objective of this study was to determine the maximum ratio of background-corrected concentration over time of P4M3 variants:Cigarettes along with the corresponding 95% confidence intervals||28.53|9.93|
82582343|NCT01859988|164876154|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-55.7|STANDARD_ERROR_OF_MEAN|6.74|<|0.0001|TWO_SIDED|95.0|-68.9|-42.4||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|LS mean and standard error were obtained using analysis of covariance (ANCOVA) model with treatment and randomization strata (moderate vs severe;Japan vs rest of world) and relevant baseline values as covariates. Multiplicity was controlled using hierarchical testing procedure:highest dose vs. placebo was tested first. Comparison order was 300 mg qw,300 mg q2w,200 mg q2w,300 mg q4w \& 100 mg q4w, vs placebo respectively. Testing continues only if previous comparison was statistically significant.||-42.4|-68.9|<0.0001
82582344|NCT01859988|164876154|SUPERIORITY_OR_OTHER||LS mean difference|-50.1|STANDARD_ERROR_OF_MEAN|6.67|<|0.0001|TWO_SIDED|95.0|-63.3|-37.0||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-37.0|-63.3|<0.0001
82582345|NCT01859988|164876154|SUPERIORITY_OR_OTHER||LS mean difference|-47.4|STANDARD_ERROR_OF_MEAN|6.76|<|0.0001|TWO_SIDED|95.0|-60.6|-34.1||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 200 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-34.1|-60.6|<0.0001
82582346|NCT01859988|164876154|SUPERIORITY_OR_OTHER||LS mean difference|-45.4|STANDARD_ERROR_OF_MEAN|6.66|<|0.0001|TWO_SIDED|95.0|-58.5|-32.3||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q4w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.3|-58.5|<0.0001
82582347|NCT01859988|164876154|SUPERIORITY_OR_OTHER||LS mean difference|-26.8|STANDARD_ERROR_OF_MEAN|6.65|<|0.0001|TWO_SIDED|95.0|-39.8|-13.7||Threshold for significance at 0.05 level.|ANCOVA||Dupilumab 100 mg q4w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.7|-39.8|<0.0001
82499309|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.64|1.44|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 2.||1.44|-0.64|
82486192|NCT01298544|164666510|SUPERIORITY_OR_OTHER||Ratio of GMCs|2.08|||||TWO_SIDED|95.0|1.65|2.63|||||Calculated by back transforming the ratio difference between vaccine groups on logarithmic scale. Back transformations of CIs based on Student t distribution for ratio difference of the logarithms of the measures (Groups 1 and 2 combined-Group 3).|Serotype 23F||2.63|1.65|
82582348|NCT02081417|164876168|NON_INFERIORITY|Based on the PCL-C if the interventions fell within 2.5 points of each other|Mean Difference (Net)|0.18||||0.01|TWO_SIDED|95.0|-3.4|3.8|||Mixed Models Analysis|||||3.8|-3.4|0.01
82582349|NCT00682890|164876197|SUPERIORITY_OR_OTHER|||||||0.63|||||||ANOVA|||P value on change at 3 months for placebo group||||0.63
82582350|NCT00682890|164876197|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANOVA|||||||0.42
82582351|NCT00682890|164876198|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||||||0.51
82582352|NCT00682890|164876198|SUPERIORITY_OR_OTHER|||||||0.03|||||||ANOVA|||||||0.03
82582353|NCT03028220|164876203|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82582354|NCT03028220|164876204|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82486193|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|-18.5|||||TWO_SIDED|95.0|-29.4|-7.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 4||-7.3|-29.4|
82486194|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-3.1|3.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 6B||3.0|-3.1|
82486195|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-5.9|7.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 9V||7.3|-5.9|
82582355|NCT03028220|164876205|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82582356|NCT03028220|164876206|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82582357|NCT03028220|164876207|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82582358|NCT03028220|164876208|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
82582359|NCT03028220|164876209|OTHER|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||||||0.820
82582360|NCT03028220|164876210|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.570
82582361|NCT03028220|164876211|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82582362|NCT03028220|164876212|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.910
82582363|NCT03028220|164876213|OTHER|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.460
82486196|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-10.3|3.1|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 14||3.1|-10.3|
82486197|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|-11.9|||||TWO_SIDED|95.0|-22.7|-1.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 18C||-1.0|-22.7|
82582364|NCT03028220|164876214|OTHER|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
82582365|NCT01506609|164876215|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.227|TWO_SIDED|95.0|0.536|1.162|||Log Rank|||||1.162|0.536|0.227
82582366|NCT01506609|164876215|SUPERIORITY||Hazard Ratio (HR)|1.858||||0.001|TWO_SIDED|95.0|1.278|2.702|||Log Rank|||||2.702|1.278|0.001
82582367|NCT01506609|164876216|SUPERIORITY||Hazard Ratio (HR)|0.848||||0.368|TWO_SIDED|95.0|0.59|1.218|||Log Rank|||||1.218|0.590|0.368
82582368|NCT01506609|164876216|SUPERIORITY||Hazard Ratio (HR)|1.512||||0.017|TWO_SIDED|95.0|1.074|2.127|||Log Rank|||||2.127|1.074|0.017
82582369|NCT01506609|164876217|SUPERIORITY|||||||0.434||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.434
82582370|NCT01506609|164876217|SUPERIORITY|||||||0.019||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.019
82582371|NCT01506609|164876218|SUPERIORITY|||||||0.027||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||0.027
82582372|NCT01506609|164876218|SUPERIORITY||||||<|0.001||||||P-value is from Cochran-Mantel-Haenszel test stratified by estrogen receptor/progesterone receptor status and prior cytotoxic therapy use.|Cochran-Mantel-Haenszel|||||||< 0.001
82582373|NCT01506609|164876219|SUPERIORITY||Least Squares (LS) Mean of Difference|-2.302|STANDARD_ERROR_OF_MEAN|2.476||0.354|TWO_SIDED|95.0|-7.2|2.6||ANCOVA with treatment arm and baseline value as covariate.|ANCOVA|||||2.60|-7.20|0.354
82582374|NCT00577473|164876230|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0455||||0.4411|TWO_SIDED|95.0|-7.01|16.11||4.8 g/day compared to 2.4 g/day|Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||16.11|-7.01|0.4411
82582375|NCT00577473|164876231|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0331||||0.5677|TWO_SIDED|95.0|-14.67|8.04|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||8.04|-14.67|0.5677
82582376|NCT00577473|164876232|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.0445||||0.473|TWO_SIDED|95.0|-16.6|7.7|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||7.7|-16.6|0.4730
82582377|NCT00577473|164876233|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0339||||0.5761|TWO_SIDED|95.0|-8.48|15.26|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||15.26|-8.48|0.5761
82582378|NCT00577473|164876234|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0766||||0.215|TWO_SIDED|95.0|-4.41|19.74|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||19.74|-4.41|0.2150
82582379|NCT00577473|164876235|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0351||||0.5569|TWO_SIDED|95.0|-8.18|15.2|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||15.20|-8.18|0.5569
82582380|NCT00577473|164876236|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1091||||0.0769|TWO_SIDED|95.0|-1.1|22.91|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||22.91|-1.10|0.0769
82582381|NCT00577473|164876237|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.1139||||0.0551|TWO_SIDED|95.0|-0.13|22.92|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||22.92|-0.13|0.0551
82582382|NCT00577473|164876238|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0738||||0.2306|TWO_SIDED|95.0|-4.66|19.43|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||19.43|-4.66|0.2306
82582383|NCT00577473|164876239|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0652||||0.2931|TWO_SIDED|95.0|-5.6|18.64|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||18.64|-5.60|0.2931
82582384|NCT00577473|164876240|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0051||||0.9349|TWO_SIDED|95.0|-11.67|12.69|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||12.69|-11.67|0.9349
82582385|NCT00577473|164876241|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.065||||0.2583|TWO_SIDED|95.0|-4.72|17.73|||Chi-squared|||It was assumed that the true rate of improvement for the 2.4 g/day treatment group is 40% and for the 4.8 g/day group is 60%. To detect a true difference of 20% between these 2 groups with a 2-sided test, type I error of 0.05 (α = 0.05), and power of 90%, 140 patients were required per group to complete the study. To account for a 10% dropout/withdrawal rate, approximately 308 patients were to be enrolled in the study.||17.73|-4.72|0.2583
82582386|NCT02595073|164876245|SUPERIORITY|||||||0.3353|||||||z-test, 2-tailed|||||||0.3353
82582387|NCT02595073|164876246|SUPERIORITY|||||||0.619|||||||ANCOVA|||||||0.6190
82582388|NCT02884908|164876273|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.8|||||||Mixed Models Analysis|||||||0.80
82582389|NCT02884908|164876274|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.9|||||||Mixed Models Analysis|||||||0.90
82651538|NCT00782509|165017859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.027|STANDARD_ERROR_OF_MEAN|0.019||0.1614||95.0|-0.011|0.064|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.064|-0.011|0.1614
82582390|NCT02884908|164876275|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at baseline (any difference was assumed due to random sampling error).||||||0.38|||||||Mixed Models Analysis|||||||0.38
82582391|NCT01856868|164876296|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0434|||||||t-test, 2 sided|||||||0.0434
82582392|NCT01856868|164876297|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0185|||||||t-test, 2 sided|||||||0.0185
82582393|NCT01856868|164876298|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0434|||||||t-test, 2 sided|||||||0.0434
82582394|NCT01856868|164876299|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0078|||||||t-test, 2 sided|||||||0.0078
82582395|NCT01856868|164876300|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0025|||||||t-test, 2 sided|||||||0.0025
82582396|NCT01856868|164876301|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0082|||||||t-test, 2 sided|||||||0.0082
82486198|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-7.1|0.6|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 19F||0.6|-7.1|
82486199|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-4.5|2.3|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 2-Group 1), expressed as a percentage.|Serotype 23F||2.3|-4.5|
82486200|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|25.0|||||TWO_SIDED|95.0|12.7|37.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 4||37.0|12.7|
82486201|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-0.011|7.715|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 6B||7.715|-0.011|
82486202|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|10.3|||||TWO_SIDED|95.0|1.9|19.6|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 9V||19.6|1.9|
82486203|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|29.7|||||TWO_SIDED|95.0|19.4|40.5|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 14||40.5|19.4|
82486204|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|30.0|||||TWO_SIDED|95.0|17.9|41.5|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 18C||41.5|17.9|
82486205|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|6.5|||||TWO_SIDED|95.0|1.2|13.9|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 19F||13.9|1.2|
82486206|NCT01298544|164666511|SUPERIORITY_OR_OTHER||Difference in proportions|6.2|||||TWO_SIDED|95.0|1.8|13.0|||||Difference in proportions, expressed as a percentage. Exact 2 sided CI for the difference in proportions (Group 1 and 2 combined-Group 3), expressed as a percentage.|Serotype 23F||13.0|1.8|
82486207|NCT05169567|164666512|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.02|TWO_SIDED|95.0|0.57|0.95|||Log Rank|||||0.95|0.57|0.02
82486208|NCT05419908|164666515|SUPERIORITY||LSMean Difference|-12.34|||<|0.001|TWO_SIDED|95.0|-16.89|-7.79||Least square (LS) mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|Analysis of Covariance (ANCOVA)||||-7.79|-16.89|<0.001
82486209|NCT05419908|164666516|SUPERIORITY||LSMean Difference|-1.134|||<|0.001|TWO_SIDED|95.0|-1.466|-0.802||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-0.802|-1.466|<0.001
82486210|NCT05419908|164666516|SUPERIORITY||LSMean Difference|-0.948|||<|0.001||95.0|-1.362|-0.535||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-0.535|-1.362|<0.001
82486211|NCT05419908|164666516|SUPERIORITY||LSMean Difference|-1.122|||<|0.001|TWO_SIDED|95.0|-1.504|-0.741||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-0.741|-1.504|<0.001
82486212|NCT05419908|164666517|SUPERIORITY||LSMean Difference|-13.28|||<|0.001||95.0|-17.02|-9.54||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-9.54|-17.02|<0.001
82486213|NCT05419908|164666517|SUPERIORITY||LSMean Difference|-11.78|||<|0.001|TWO_SIDED|95.0|-16.3|-7.27||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-7.27|-16.30|<0.001
82486214|NCT05419908|164666517|SUPERIORITY||LSMean Difference|-12.42|||<|0.001||95.0|-17.0|-7.83||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hot flash score as covariate. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-7.83|-17.00|<0.001
82486215|NCT05419908|164666518|SUPERIORITY||LSMean Difference|-39.8|||<|0.001|TWO_SIDED|95.0|-50.5|-29.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 4||-29.1|-50.5|<0.001
82486216|NCT05419908|164666518|SUPERIORITY||LSMean Difference|-35.5|||<|0.001|TWO_SIDED|95.0|-47.9|-23.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 8||-23.0|-47.9|<0.001
82486217|NCT05419908|164666518|SUPERIORITY||LSMean Difference|-35.0|||<|0.001||95.0|-47.9|-22.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as factor. P-value of the t-statistic testing whether there is a treatment difference.|ANCOVA|||Week 12||-22.1|-47.9|<0.001
82486218|NCT05419908|164666519|SUPERIORITY||Percentage Difference|65.1|||<|0.001|TWO_SIDED|95.0|49.15|81.0||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||81.00|49.15|<0.001
82486219|NCT05419908|164666519|SUPERIORITY||Percentage Difference|48.5|||<|0.001||95.0|30.37|66.59||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||66.59|30.37|<0.001
82486220|NCT05419908|164666519|SUPERIORITY||Percentage Difference|52.5|||<|0.001|TWO_SIDED|95.0|35.76|69.24||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||69.24|35.76|<0.001
82582397|NCT01856868|164876302|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.031|||||||t-test, 2 sided|||||||0.031
82486221|NCT05419908|164666520|SUPERIORITY||Percentage Difference|69.0|||<|0.001|TWO_SIDED|95.0|53.7|84.21||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||84.21|53.70|<0.001
82486222|NCT05419908|164666520|SUPERIORITY||Percentage Difference|50.7|||<|0.001||95.0|31.93|69.42||Likelihood-ratio test based 95% confidence interval of the percentage difference|Likelihood-Ratio Chi-Square Test|||Week 8||69.42|31.93|<0.001
82486223|NCT05419908|164666520|SUPERIORITY||Percentage Difference|57.5|||<|0.001|TWO_SIDED|95.0|39.99|75.01||Likelihood-ratio test based 95% confidence interval of the percentage difference|Likelihood-Ratio Chi-Square Test|||Week 12||75.01|39.99|<0.001
82486224|NCT05419908|164666521|SUPERIORITY||Percentage Difference|54.2|||<|0.001|TWO_SIDED|95.0|37.47|70.84||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||70.84|37.47|<0.001
82486225|NCT05419908|164666521|SUPERIORITY||Percentage Difference|47.8|||<|0.001||95.0|29.62|65.99||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||65.99|29.62|<0.001
82486226|NCT05419908|164666521|SUPERIORITY||Percentage Difference|47.5|||<|0.001||95.0|28.86|66.14||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||66.14|28.86|<0.001
82486227|NCT05419908|164666522|SUPERIORITY||Percentage Difference|49.7|||<|0.001||95.0|33.54|65.79||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||65.79|33.54|<0.001
82486228|NCT05419908|164666522|SUPERIORITY||Percentage Difference|43.8|||<|0.001|TWO_SIDED|95.0|27.83|59.85||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||59.85|27.83|<0.001
82582398|NCT01856868|164876303|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0238|||||||Wilcoxon (Mann-Whitney)|||||||0.0238
82582399|NCT01856868|164876304|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0321|||||||t-test, 2 sided|||||||0.0321
82582400|NCT01856868|164876305|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0182|||||||t-test, 2 sided|||||||0.0182
82582401|NCT01856868|164876306|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0371|||||||t-test, 2 sided|||||||0.0371
82486229|NCT05419908|164666522|SUPERIORITY||Percentage Difference|42.5|||<|0.001||95.0|26.34|58.66||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||58.66|26.34|<0.001
82486230|NCT05419908|164666523|SUPERIORITY||Percentage Difference|62.8|||<|0.001|TWO_SIDED|95.0|46.56|79.05||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||79.05|46.56|<0.001
82486231|NCT05419908|164666523|SUPERIORITY||Percentage Difference|46.2|||<|0.001|TWO_SIDED|95.0|28.85|63.47||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||63.47|28.85|<0.001
82582402|NCT01856868|164876307|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a paired t-test analysis.||||||0.0257|||||||t-test, 2 sided|||||||0.0257
82486232|NCT05419908|164666523|SUPERIORITY||Percentage Difference|57.5|||<|0.001|TWO_SIDED|95.0|41.57|73.43||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||73.43|41.57|<0.001
82486233|NCT05419908|164666524|SUPERIORITY||Percentage Difference|61.5|||<|0.001||95.0|45.4|77.55||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 4||77.55|45.40|<0.001
82486234|NCT05419908|164666524|SUPERIORITY||Percentage Difference|43.1|||<|0.001|TWO_SIDED|95.0|23.53|62.69||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 8||62.69|23.53|<0.001
82486235|NCT05419908|164666524|SUPERIORITY||Percentage Difference|52.5|||<|0.001||95.0|33.92|71.08||Likelihood-ratio test based 95% confidence interval of the percentage difference.|Likelihood-Ratio Chi-Square Test|||Week 12||71.08|33.92|<0.001
82486236|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.53|||<|0.001|TWO_SIDED|95.0|-3.45|-1.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Work||-1.60|-3.45|<0.001
82486237|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.29|||<|0.001|TWO_SIDED|95.0|-3.15|-1.42||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Work||-1.42|-3.15|<0.001
82486238|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.11|||<|0.001|TWO_SIDED|95.0|-3.03|-1.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Work||-1.20|-3.03|<0.001
82582403|NCT01856868|164876310|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height and weight using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|-1.82|STANDARD_ERROR_OF_MEAN|2.51||0.47|TWO_SIDED||||||Mixed Models Analysis|||||||0.47
82582404|NCT01856868|164876311|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height, weight and knee extension strength using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|11.2|STANDARD_ERROR_OF_MEAN|16.6||0.5|TWO_SIDED||||||Mixed Models Analysis|||||||0.50
82582405|NCT01856868|164876313|EQUIVALENCE|Difference in baseline and 8 week scores was evaluated using a mixed model regression analysis, including fixed effects for height, weight and knee extension strength using patient identity as source of random variation. As a pilot study, these measures were not subject to a formal power analysis but will be used in future sample size calculations.|Mean Difference (Net)|5.33|STANDARD_ERROR_OF_MEAN|3.79||0.159|TWO_SIDED||||||Mixed Models Analysis|||||||0.159
82582406|NCT04493502|164876321|SUPERIORITY||Mean Difference (Final Values)|17.1||||0.189|TWO_SIDED|95.0|-7.3|41.4|||Regression, Logistic|||||41.4|-7.3|0.189
82582407|NCT04493502|164876322|SUPERIORITY||Mean Difference (Final Values)|-4.67||||0.024|TWO_SIDED|95.0|-8.69|-0.64|||ANCOVA|||||-0.64|-8.69|0.024
82486239|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.33|||<|0.001|TWO_SIDED|95.0|-3.19|-1.46||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Social Activities||-1.46|-3.19|<0.001
82486240|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.34|||<|0.001|TWO_SIDED|95.0|-3.21|-1.47||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Social Activties||-1.47|-3.21|<0.001
82486241|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.19|||<|0.001|TWO_SIDED|95.0|-3.09|-1.29||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Social Activties||-1.29|-3.09|<0.001
82486242|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.15|||<|0.001|TWO_SIDED|95.0|-2.99|-1.31||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Leisure Activities||-1.31|-2.99|<0.001
82486243|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.37|||<|0.001|TWO_SIDED|95.0|-3.19|-1.55||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Leisure Activties||-1.55|-3.19|<0.001
82486244|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.64||||0.002|TWO_SIDED|95.0|-2.66|-0.62||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Leisure Activties||-0.62|-2.66|0.002
82486245|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.93|||<|0.001|TWO_SIDED|95.0|-4.08|-1.78||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Sleep||-1.78|-4.08|<0.001
82486246|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.71|||<|0.001|TWO_SIDED|95.0|-3.86|-1.57||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Sleep||-1.57|-3.86|<0.001
82582408|NCT04493502|164876323|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.949|TWO_SIDED|95.0|-1.44|1.53|||ANCOVA|||||1.53|-1.44|0.949
82582409|NCT02552368|164876339|SUPERIORITY|||||||0.002|||||||Paired t-Test|||||||0.002
82486247|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.61|||<|0.001|TWO_SIDED|95.0|-3.67|-1.54||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Sleep||-1.54|-3.67|<0.001
82486248|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.74|||<|0.001|TWO_SIDED|95.0|-2.67|-0.81||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Mood||-0.81|-2.67|<0.001
82486249|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.12|||<|0.001|TWO_SIDED|95.0|-3.09|-1.16||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Mood||-1.16|-3.09|<0.001
82486250|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.79|||<|0.001|TWO_SIDED|95.0|-2.69|-0.88||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Mood||-0.88|-2.69|<0.001
82486251|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.86|-0.97||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Concentration||-0.97|-2.86|<0.001
82582410|NCT02552368|164876340|SUPERIORITY|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||Signed-Rank Test for Performance COPM between Baseline and 12 weeks||||0.022
82486252|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.23|||<|0.001|TWO_SIDED|94.0|-3.21|-1.25||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Concentration||-1.25|-3.21|<0.001
82486253|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.91|-0.88||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Concentration||-0.88|-2.91|<0.001
82486254|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.33||||0.003|TWO_SIDED|95.0|-2.2|-0.46||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Relations With Others||-0.46|-2.20|0.003
82486255|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.85|||<|0.001|TWO_SIDED|95.0|-2.8|-0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Relations With others||-0.90|-2.80|<0.001
82486256|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.72|||<|0.001|TWO_SIDED|95.0|-2.66|-0.77||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Relations With Others||-0.77|-2.66|<0.001
82582411|NCT02552368|164876340|SUPERIORITY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Signed-Rank Test for Satisfaction COPM between Baseline and 12 weeks||||0.031
82582412|NCT01143038|164876369|SUPERIORITY_OR_OTHER_LEGACY||Mean|9.2|||||TWO_SIDED|95.0|8.3|10.1|||||Based on the t-distribution|||10.1|8.3|
82582413|NCT01143038|164876369|SUPERIORITY_OR_OTHER_LEGACY||Bootstrap mean|9.1|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|8.3|10.0|||||Estimates are based on bootstrap method with 1000 samples with replacement.|Bootstrap analysis||10.0|8.3|
82582414|NCT03310268|164876388|OTHER||Difference of Least Square mean|0.19|STANDARD_ERROR_OF_MEAN|0.094||0.0476|TWO_SIDED|95.0|0.002|0.374|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.374|0.002|0.0476
82582415|NCT03310268|164876388|OTHER||Difference of Least Square mean|-0.02|STANDARD_ERROR_OF_MEAN|0.093||0.8411|TWO_SIDED|95.0|-0.202|0.164|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.164|-0.202|0.8411
82651539|NCT00782509|165017860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0012||95.0|0.025|0.099|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.099|0.025|0.0012
82486257|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.06||||0.081|TWO_SIDED|95.0|-2.25|0.13||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Sexuality||0.13|-2.25|0.081
82486258|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.4||||0.05|TWO_SIDED|95.0|-2.8|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Sexuality||0.00|-2.80|0.050
82486259|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.51||||0.026|TWO_SIDED|95.0|-2.84|-0.19||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Sexuality||-0.19|-2.84|0.026
82486260|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.51|-0.79||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Enjoyment of Life||-0.79|-2.51|<0.001
82486261|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.07|||<|0.001|TWO_SIDED|95.0|-2.97|-1.18||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Enjoyment of Life||-1.18|-2.97|<0.001
82651540|NCT00782509|165017860|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.072|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.034|0.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.109|0.034|0.0002
82486262|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.83|||<|0.001|TWO_SIDED|95.0|-2.88|-0.78||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Enjoyment of Life||-0.78|-2.88|<0.001
82486263|NCT05419908|164666525|SUPERIORITY||LSMean difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.86|-0.97||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week4: Overall Quality of Life||-0.97|-2.86|<0.001
82486264|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.51|||<|0.001|TWO_SIDED|95.0|-3.41|-1.61||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Overall Quality of Life||-1.61|-3.41|<0.001
82486265|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.36|||<|0.001|TWO_SIDED|95.0|-3.31|-1.41||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Overall Quality of Life||-1.41|-3.31|<0.001
82486266|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.98|||<|0.001|TWO_SIDED|95.0|-2.73|-1.23||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 4: Overall Mean Score||-1.23|-2.73|<0.001
82486267|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-2.21|||<|0.001|TWO_SIDED|95.0|-3.02|-1.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 8: Overall Mean Score||-1.40|-3.02|<0.001
82486268|NCT05419908|164666525|SUPERIORITY||LSMean Difference|-1.98|||<|0.001|TWO_SIDED|95.0|-2.83|-1.13||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline weekly hfrdis as covariate.|ANCOVA|||Week 12: Overall Mean Score||-1.13|-2.83|<0.001
82486269|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.375|||<|0.001|TWO_SIDED|95.0|0.651|2.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Getting to Sleep||2.100|0.651|<0.001
82486270|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.166|||<|0.001|TWO_SIDED|95.0|0.505|1.827||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Getting to Sleep||1.827|0.505|<0.001
82486271|NCT05419908|164666526|SUPERIORITY||LSMean Difference|0.895||||0.014|TWO_SIDED|95.0|0.19|1.599||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Getting to Sleep||1.599|0.190|0.014
82486272|NCT05419908|164666526|SUPERIORITY||LSMean Difference|2.423|||<|0.001|TWO_SIDED|95.0|1.308|3.539||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Quality of Sleep||3.539|1.308|<0.001
82486273|NCT05419908|164666526|SUPERIORITY||LSMean Difference|2.291|||<|0.001|TWO_SIDED|95.0|1.31|3.251||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Quality of Sleep||3.251|1.31|<0.001
82486274|NCT05419908|164666526|SUPERIORITY||LSMean Difference|2.433|||<|0.001|TWO_SIDED|95.0|1.334|3.532||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Quality of Sleep||3.532|1.334|<0.001
82486275|NCT05419908|164666526|SUPERIORITY||LSMean Difference|0.877||||0.059|TWO_SIDED|95.0|-0.034|1.789||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Awake Following Sleep||1.789|-0.034|0.059
82486276|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.457||||0.001|TWO_SIDED|95.0|0.579|2.335||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Awake Following Sleep||2.335|0.579|0.001
82486277|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.113||||0.031|TWO_SIDED|95.0|0.107|2.12||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Awake Following Sleep||2.120|0.107|0.031
82486278|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.203||||0.008|TWO_SIDED|95.0|0.317|2.088||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 4: Behaviour Following Wakening||2.088|0.317|0.008
82651541|NCT00782509|165017861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068|STANDARD_ERROR_OF_MEAN|0.019||0.0004||95.0|0.031|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.106|0.031|0.0004
82556931|NCT02307682|164824480|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0|<|0.0001|TWO_SIDED|95.0|-2.1|1.8||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.8|-2.1|<0.0001
82556932|NCT02307682|164824481|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.95||0.0001|TWO_SIDED|95.0|-2.4|1.3||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||1.3|-2.4|0.0001
82556933|NCT02307682|164824481|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-1.9|1.9||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.9|-1.9|<0.0001
82556934|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-1.4|0.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||0.9|-1.4|
82556935|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.64|||TWO_SIDED|95.0|-1.4|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.1|-1.4|
82582416|NCT03310268|164876388|OTHER||Difference of Least Square mean|0.21|STANDARD_ERROR_OF_MEAN|0.094||0.0298|TWO_SIDED|95.0|0.02|0.393|||ANCOVA|From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.393|0.020|0.0298
82582417|NCT03310268|164876389|OTHER||Difference of Least Square mean|-7.2|STANDARD_ERROR_OF_MEAN|4.649||0.1232|TWO_SIDED|95.0|-16.376|1.975|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||1.975|-16.376|0.1232
82582418|NCT03310268|164876389|OTHER||Difference of Least Square mean|-4.04|STANDARD_ERROR_OF_MEAN|4.588||0.3793|TWO_SIDED|95.0|-13.099|5.011|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||5.011|-13.099|0.3793
82486279|NCT05419908|164666526|SUPERIORITY||LSMean Difference|1.597||||0.001|TWO_SIDED|95.0|0.639|2.556||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 8: Behaviour Following Wakening||2.556|0.639|0.001
82651542|NCT00782509|165017861|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.071|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.033|0.108|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.108|0.033|0.0002
82486280|NCT05419908|164666526|SUPERIORITY||LSMean Difference|0.842||||0.084|TWO_SIDED|95.0|-0.116|1.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline LSEQ as covariate.|ANCOVA|||Week 12: Behaviour Following Sleep||1.800|-0.116|0.084
82486281|NCT05419908|164666527|SUPERIORITY||LSMean Difference|0.0||||0.881|TWO_SIDED|95.0|-0.3|0.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Loss of Interest in Sex||0.3|-0.3|0.881
82556936|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|-1.4|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||1.2|-1.4|
82556937|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-1.7|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||1.2|-1.7|
82556938|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.8|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||1.2|-1.8|
82582419|NCT03310268|164876389|OTHER||Difference of Least Square mean|-3.16|STANDARD_ERROR_OF_MEAN|4.648||0.4979|TWO_SIDED|95.0|-12.33|6.017|||ANCOVA|From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline tactile threshold as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||6.017|-12.330|0.4979
82486282|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-0.2||||0.383|TWO_SIDED|95.0|-0.6|0.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Loss of Interest in Sex||0.2|-0.6|0.383
82486283|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-0.2||||0.301|TWO_SIDED|95.0|-0.6|0.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Loss of Interest in Sex||0.2|-0.6|0.301
82486284|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-2.5||||0.02|TWO_SIDED|95.0|-4.5|-0.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Psychological||-0.4|-4.5|0.020
82486285|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-3.3||||0.003|TWO_SIDED|95.0|-5.4|-1.2||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Psychological||-1.2|-5.4|0.003
82486286|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-3.1||||0.005|TWO_SIDED|95.0|-5.2|-1.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Psychological||-1.0|-5.2|0.005
82486287|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-0.2||||0.732|TWO_SIDED|95.0|-1.2|0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Physical||0.9|-1.2|0.732
82486288|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-0.7||||0.282|TWO_SIDED|95.0|-1.9|0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Physical||0.6|-1.9|0.282
82486289|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-0.6||||0.254|TWO_SIDED|95.0|-1.7|0.5||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Physical||0.5|-1.7|0.254
82486290|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.7|-1.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Vasomotor||-1.4|-2.7|<0.001
82486291|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-1.8|||<|0.001|TWO_SIDED|95.0|-2.4|-1.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Vasomotor||-1.1|-2.4|<0.001
82486292|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.6|-1.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Vasomotor||-1.3|-2.6|<0.001
82486293|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-4.6||||0.013|TWO_SIDED|95.0|-8.2|-1.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 4: Total Symptom Score||-1.0|-8.2|0.013
82486294|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-6.9|||<|0.001|TWO_SIDED|95.0|-10.7|-3.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 8: Total Symptom Score||-3.1|-10.7|<0.001
82486295|NCT05419908|164666527|SUPERIORITY||LSMean Difference|-6.3|||<|0.001|TWO_SIDED|95.0|-9.9|-2.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline GCS as covariate.|ANCOVA|||Week 12: Total Symptom Score||-2.8|-9.9|<0.001
82486296|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.7|-0.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Work/School||-0.8|-2.7|<0.001
82486297|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.8|-1.3||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Work/School||-1.3|-2.8|<0.001
82486298|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.5|-0.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Work/School||-0.8|-2.5|<0.001
82486299|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.4|||<|0.001|TWO_SIDED|95.0|-2.2|-0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Social Life||-0.6|-2.2|<0.001
82486300|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.9|||<|0.001|TWO_SIDED|95.0|-2.7|-1.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Social Life||-1.1|-2.7|<0.001
82486301|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.4|-0.7||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Social Life||-0.7|-2.4|<0.001
82486302|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.3||||0.005|TWO_SIDED|95.0|-2.2|-0.4||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Family Life/Home Responsibilities||-0.4|-2.2|0.005
82486303|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.5|-0.9||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Family Life/Home Responsibilities||-0.9|-2.5|<0.001
82486304|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-2.4|-0.7||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Family Life/Home Responsibilities||-0.7|-2.4|<0.001
82486305|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-4.4|||<|0.001|TWO_SIDED|95.0|-6.9|-2.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Global Functional Impairment||-2.0|-6.9|<0.001
82486306|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-5.8|||<|0.001|TWO_SIDED|95.0|-8.0|-3.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Global Functional Impairment||-3.6|-8.0|<0.001
82486307|NCT05419908|164666528|SUPERIORITY||LSMean Difference|-5.3|||<|0.001|TWO_SIDED|95.0|-7.8|-2.8||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Global Functional Impairment||-2.8|-7.8|<0.001
82486308|NCT05419908|164666529|SUPERIORITY||LSMean difference|0.0||||0.936|TWO_SIDED|95.0|-0.5|0.6||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Days Lost||0.6|-0.5|0.936
82486309|NCT05419908|164666529|SUPERIORITY||LSMean difference|0.0||||0.884|TWO_SIDED|95.0|-0.1|0.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Days Lost||0.1|-0.1|0.884
82486310|NCT05419908|164666529|SUPERIORITY||LSMean difference|-0.2||||0.124|TWO_SIDED|95.0|-0.4|0.1||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Days Lost||0.1|-0.4|0.124
82486311|NCT05419908|164666529|SUPERIORITY||LSMean difference|-0.9||||0.052|TWO_SIDED|95.0|-1.8|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 4: Days Unproductive||0.0|-1.8|0.052
82651543|NCT00782509|165017862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.132|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.203|0.132|<0.0001
82486312|NCT05419908|164666529|SUPERIORITY||LSMean difference|-0.9||||0.06||95.0|-1.7|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 8: Days Unproductive||0.0|-1.7|0.060
82556939|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||1.6|-1.5|
82651544|NCT00782509|165017862|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.142|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.142|<0.0001
82486313|NCT05419908|164666529|SUPERIORITY||LSMean difference|-0.8||||0.049|TWO_SIDED|95.0|-1.7|0.0||Least square mean difference versus placebo, obtained from an ANCOVA model with treatment group as fixed effect and baseline SDS as covariate.|ANCOVA|||Week 12: Days Unproductive||0.0|-1.7|0.049
82486314|NCT01828320|164666600|SUPERIORITY||d (effect size)|-0.08||||0.34|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.34
82486315|NCT01828320|164666601|SUPERIORITY||d (effect size)|-0.06||||0.93|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.93
82486316|NCT01828320|164666602|SUPERIORITY||d (effect size)|-0.5||||0.01|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.01
82486317|NCT01828320|164666603|SUPERIORITY||d (effect size)|0.18||||0.17|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.17
82486318|NCT01828320|164666604|SUPERIORITY||d (effect size)|0.07||||0.31|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.31
82486319|NCT01828320|164666605|SUPERIORITY||d (effect size)|0.001||||0.8|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.80
82486320|NCT01828320|164666606|SUPERIORITY||d (effect size)|0.04||||0.96|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.96
82486321|NCT01828320|164666607|SUPERIORITY||d (effect size)|-0.05||||0.83|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.83
82486322|NCT01828320|164666608|SUPERIORITY||d (effect size)|0.35||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
82486323|NCT01828320|164666609|SUPERIORITY||d (effect size)|0.28||||0.04|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.04
82486324|NCT01828320|164666610|SUPERIORITY||d (effect size)|0.29||||0.04|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.04
82556940|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-1.8|1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||1.5|-1.8|
82582420|NCT00706433|164876392|SUPERIORITY_OR_OTHER|||||||0.768||95.0|||||ANCOVA|Rank ANCOVA with baseline total inflammatory lesion counts serving as the covariate.||Null hypothesis: equal median changes from baseline in total inflammatory lesion counts among the treatments||||0.7680
82486325|NCT01828320|164666611|SUPERIORITY||d (effect size)|-0.44||||0.03|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.03
82486326|NCT01828320|164666612|SUPERIORITY||d (effect size)|0.07||||0.71|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.71
82486327|NCT01828320|164666613|SUPERIORITY||d (effect size)|0.02||||0.83|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.83
82486328|NCT01828320|164666614|SUPERIORITY||d (effect size)|-0.11||||0.85|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.85
82486329|NCT01828320|164666615|SUPERIORITY||d (effect size)|-0.55||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
82486330|NCT01828320|164666616|SUPERIORITY||d (effect size)|-0.33||||0.05|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.05
82486331|NCT01828320|164666617|SUPERIORITY||d (effect size)|0.04||||0.88|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.88
82486332|NCT01828320|164666618|SUPERIORITY||d (effect size)|0.04||||0.97|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.97
82486333|NCT01828320|164666619|SUPERIORITY||d (effect size)|0.01||||0.88|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: Alone"||||0.88
82486334|NCT01828320|164666619|SUPERIORITY||d (effect size)|-0.18||||0.43|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: With a family member"||||0.43
82486335|NCT01828320|164666619|SUPERIORITY||d (effect size)|0.21||||0.37|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||"Composite Risk Score of Functioning in Social Domain measured via Ecological Momentary Assessment: With a peer"||||0.37
82486336|NCT01828320|164666620|SUPERIORITY||d (effect size)|0.29||||0.02|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.02
82486337|NCT01828320|164666621|SUPERIORITY||d (effect size)|0.07||||0.49|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|intent-to-treat, multilevel modeling|||||||0.49
82486338|NCT01828320|164666622|SUPERIORITY||d (effect size)|0.11||||0.6|TWO_SIDED||||||intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.60
82486339|NCT01828320|164666623|SUPERIORITY||d (effect size)|0.08||||0.42|TWO_SIDED|||||Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random was used to examine continuous outcomes.|Intent-to-treat, multilevel modeling|||||||0.42
82486340|NCT01828320|164666624|SUPERIORITY||d (effect size)|0.4||||0.01|TWO_SIDED||||||Intent-to-treat, multilevel modeling|Using intent-to-treat, multilevel modeling with maximum likelihood estimation with the assumption of missing at random, to examine continuous outcomes||||||0.01
82582421|NCT00706433|164876393|SUPERIORITY_OR_OTHER|||||||0.7975||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Null hypothesis: equal success rates.||||0.7975
82582422|NCT00706433|164876394|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||ANOVA|Rank transformed data.||Null hypothesis: equal median percent changes from baseline in total inflammatory lesion counts among the treatments||||>0.10
82582423|NCT00706433|164876395|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||ANOVA|Rank transformed data.||Null hypothesis: equal median percent changes from baseline in total inflammatory lesion counts among the treatments||||>0.10
82582424|NCT00706433|164876397|SUPERIORITY_OR_OTHER|||||||0.1103||95.0|||||ANCOVA|Rank ANCOVA with baseline total inflammatory lesion counts serving as the covariate.||Null hypothesis: equal median changes from baseline in total inflammatory lesion counts among the treatments||||0.1103
82582425|NCT00706433|164876398|SUPERIORITY_OR_OTHER|||||||0.7228||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Null hypothesis: equal success rates.||||0.7228
82582426|NCT00706433|164876399|SUPERIORITY_OR_OTHER|||||||0.3416||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates||||0.3416
82582427|NCT00706433|164876400|SUPERIORITY_OR_OTHER|||||||0.5759||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5759
82582428|NCT00706433|164876401|SUPERIORITY_OR_OTHER|||||||0.4754||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4754
82582429|NCT00706433|164876402|SUPERIORITY_OR_OTHER|||||||0.4096||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4096
82582430|NCT00706433|164876403|SUPERIORITY_OR_OTHER|||||||0.5812||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5812
82582431|NCT00706433|164876404|SUPERIORITY_OR_OTHER|||||||0.8679||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8679
82582432|NCT00706433|164876405|SUPERIORITY_OR_OTHER|||||||0.3666||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3666
82582433|NCT00706433|164876406|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3080
82582434|NCT00706433|164876407|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582435|NCT00706433|164876408|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582436|NCT00706433|164876409|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582437|NCT00706433|164876410|SUPERIORITY_OR_OTHER|||||||0.3916||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3916
82582438|NCT00706433|164876411|SUPERIORITY_OR_OTHER|||||||0.8387||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8387
82582439|NCT00706433|164876412|SUPERIORITY_OR_OTHER|||||||0.1489||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1489
82582440|NCT00706433|164876413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
82582441|NCT00706433|164876413|SUPERIORITY_OR_OTHER|||||||0.4143||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4143
82582442|NCT00706433|164876413|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0005
82582443|NCT00706433|164876413|SUPERIORITY_OR_OTHER|||||||0.0003||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0003
82582444|NCT00706433|164876413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
82582445|NCT00706433|164876413|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
82582446|NCT00706433|164876413|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9700
82582447|NCT00706433|164876414|SUPERIORITY_OR_OTHER|||||||0.2544||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2544
82582448|NCT00706433|164876415|SUPERIORITY_OR_OTHER|||||||0.4321||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4321
82582449|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.0317||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0317
82582450|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.5818||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5818
82582451|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.0395||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0395
82582452|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.7426||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7426
82582453|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.0029||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0029
82582454|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.2142||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2142
82582455|NCT00706433|164876416|SUPERIORITY_OR_OTHER|||||||0.0781||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0781
82582456|NCT00706433|164876417|SUPERIORITY_OR_OTHER|||||||0.9886||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9886
82582457|NCT00706433|164876418|SUPERIORITY_OR_OTHER|||||||0.6907||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6907
82582458|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0047
82486341|NCT02160782|164666658|EQUIVALENCE|The P-value for testing if the treatment group least squares (LS) means were equal was calculated to determine if the change in sBA levels between the treatment groups was statistically significant.|Mean Difference (Net)|-117.28|STANDARD_ERROR_OF_MEAN|52.828||0.0464|TWO_SIDED|95.0|-232.38|-2.18|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in fasting sBA levels was evaluated using an analysis of covariance (ANCOVA) model with treatment group as a factor, and Week 18 sBA as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the MITT population, which included all participants who were enrolled, received study drug through Week 18, and had a reduction from baseline in sBA of ≥50% at the Week 12 or Week 18 measurement.||-2.18|-232.38|0.0464
82556941|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-1.1|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||2.1|-1.1|
82556942|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-2.2|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||1.0|-2.2|
82556943|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.2|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||1.2|-2.2|
82556944|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-2.1|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||1.3|-2.1|
82582459|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.6116||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6116
82582460|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.0209||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0209
82651545|NCT00782509|165017863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.119|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.190|0.119|<0.0001
82651546|NCT00782509|165017863|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.111|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.182|0.111|<0.0001
82486342|NCT02160782|164666659|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in sBA levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-87.73|STANDARD_DEVIATION|119.979||0.0005|TWO_SIDED|95.0|-133.37|-42.09||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in sBA levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||-42.09|-133.37|0.0005
82556945|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-1.9|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||1.6|-1.9|
82556946|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||1.7|-1.9|
82556947|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.4|2.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||2.2|-1.4|
82556948|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-2.4|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||1.3|-2.4|
82556949|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-1.2|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||2.5|-1.2|
82556950|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.94|||TWO_SIDED|95.0|-2.9|0.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||0.8|-2.9|
82582461|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.0513||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0513
82486343|NCT02160782|164666660|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Obs) scores between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-1.704|STANDARD_DEVIATION|0.9114|<|0.0001|TWO_SIDED|95.0|-2.051|-1.357|||Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Obs) score was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population. ItchRO scores range from 0 to 4; the higher score indicates increasing itch severity.||-1.357|-2.051|< 0.0001
82486344|NCT02160782|164666661|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ItchRO(Pt) scores between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-2.072|STANDARD_DEVIATION|0.9931|<|0.0001|TWO_SIDED|95.0|-2.645|-1.498|||Student's t-test|||This analysis investigated whether a statistically significant change in ItchRO(Pt) score was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population. ItchRO scores range from 0 to 4; the higher score indicates increasing itch severity.||-1.498|-2.645|< 0.0001
82486345|NCT02160782|164666662|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ItchRO(Obs) between the treatment groups was statistically significant.|Mean Difference (Net)|-1.483|STANDARD_ERROR_OF_MEAN|0.3103|<|0.0001|TWO_SIDED|95.0|-2.122|-0.844|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ItchRO(Obs) was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ItchRO(Obs) as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||-0.844|-2.122|< 0.0001
82486346|NCT02160782|164666663|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ItchRO(Pt) between the treatment groups was statistically significant. While the number of participants included in analysis for the end point indicates 28, there were only 14; n = 5 for ItchRO(Pt): MRX and n = 9 for ItchRO(Pt): placebo.|Mean Difference (Net)|-1.988|STANDARD_ERROR_OF_MEAN|0.4641||0.0013|TWO_SIDED|95.0|-3.009|-0.967|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ItchRO (Pt) was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ItchRO(Pt) as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||-0.967|-3.009|0.0013
82499310|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.69|||||TWO_SIDED|95.0|-0.32|1.7|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 2.||1.70|-0.32|
82499311|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|-0.74|1.2|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 2.||1.20|-0.74|
82499312|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-1.11|1.01|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 7.||1.01|-1.11|
82582462|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0019
82499313|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.53|||||TWO_SIDED|95.0|-0.57|1.62|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 7.||1.62|-0.57|
82582463|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.0089||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0089
82582464|NCT00706433|164876419|SUPERIORITY_OR_OTHER|||||||0.526||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5260
82499314|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.89|1.15|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 7.||1.15|-0.89|
82499315|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.26|||||TWO_SIDED|95.0|-0.98|1.5|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 8.||1.50|-0.98|
82499316|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.86|||||TWO_SIDED|95.0|-0.42|2.14|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 8.||2.14|-0.42|
82499317|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|-0.9|1.54|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 8.||1.54|-0.90|
82499318|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-1.2|1.3|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 14.||1.30|-1.20|
82499319|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.75|||||TWO_SIDED|95.0|-0.53|2.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 14.||2.03|-0.53|
82499320|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-1.23|1.23|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 14.||1.23|-1.23|
82486347|NCT02160782|164666664|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALP levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-27.8|STANDARD_DEVIATION|118.33||0.2163|TWO_SIDED|95.0|-72.8|17.2||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALP levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||17.2|-72.8|0.2163
82486348|NCT02160782|164666665|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ALP levels between the treatment groups was statistically significant.|Mean Difference (Net)|10.0|STANDARD_ERROR_OF_MEAN|30.44||0.7455|TWO_SIDED|95.0|-52.6|72.6|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ALP levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ALP as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||72.6|-52.6|0.7455
82556951|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-2.1|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||1.6|-2.1|
82556952|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.2|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||1.6|-2.2|
82556953|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-1.9|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||2.1|-1.9|
82556954|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.1|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||1.9|-2.1|
82556955|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-1.8|2.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||2.2|-1.8|
82556956|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.5|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||1.3|-2.5|
82556957|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.1|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.8|-2.1|
82556958|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.2|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||1.8|-2.2|
82651547|NCT00782509|165017864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.136|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.136|<0.0001
82486349|NCT02160782|164666666|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in ALT levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-1.3|STANDARD_DEVIATION|84.54||0.9358|TWO_SIDED|95.0|-33.4|30.9||Data for this analysis were obtained from 31 participants at baseline; 29 of those participants contributed Week 18 data.|Student's t-test|||This analysis investigated whether a statistically significant change in ALT levels was observed when comparing baseline to Week 18 (the open-label period, during which all participants received MRX). The analysis was based on the ITT population.||30.9|-33.4|0.9358
82556959|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||1.9|-2.2|
82556960|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.5|1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||1.5|-2.5|
82556961|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.7|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||1.4|-2.7|
82556962|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-2.1|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||1.9|-2.1|
82486350|NCT02160782|164666667|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in ALT levels between the treatment groups was statistically significant.|Mean Difference (Net)|15.1|STANDARD_ERROR_OF_MEAN|19.53||0.4472|TWO_SIDED|95.0|-25.1|55.2|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in ALT levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 ALT as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||55.2|-25.1|0.4472
82486351|NCT02160782|164666668|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in total bilirubin levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-0.47|STANDARD_DEVIATION|1.424||0.0893|TWO_SIDED|95.0|-1.01|0.08|||Student's t-test|||||0.08|-1.01|0.0893
82486352|NCT02160782|164666669|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in total bilirubin between the treatment groups was statistically significant.|Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.361||0.7|TWO_SIDED|95.0|-0.88|0.6|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in total bilirubin was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 total bilirubin as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||0.6|-0.88|0.7
82486353|NCT02160782|164666670|EQUIVALENCE|The null hypothesis that the mean change was equal to zero was tested using the Student's t-test to determine if the mean change in direct bilirubin levels between baseline and Week 18 (the open-label period) was statistically significant.|Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.012||0.0139|TWO_SIDED|95.0|-0.9|-0.11|||Student's t-test|||||-0.11|-0.9|0.0139
82486354|NCT02160782|164666671|EQUIVALENCE|The P-value for testing if the treatment group LS means were equal was calculated to determine if the change in direct bilirubin between the treatment groups was statistically significant.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.265||0.9517|TWO_SIDED|95.0|-0.56|0.53|||ANCOVA|||The difference between treatment groups in change from Week 18 to Week 22 in direct bilirubin levels was evaluated using an ANCOVA model with treatment group as a factor, and Week 18 direct bilirubin as a covariate. The analysis used a tabulation of fitted summary statistics from ANCOVA in the intent-to-treat population, which included all participants who were enrolled, and received at least one dose of study drug.||0.53|-0.56|0.9517
82486355|NCT00413400|164666672|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||ANCOVA|||treatment effect (etanercept vs. placebo) using ANCOVA including baseline CRP, age, and race||||0.20
82486356|NCT00413400|164666673|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Repeated Measures ANCOVA|||within subject percent changes calculated for each timepoint and repeated measures ANCOVA controlling for age and race performed||||0.92
82651548|NCT00782509|165017864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.13|0.202|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.202|0.130|<0.0001
82486357|NCT00413400|164666674|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Repeated Measures ANCOVA|||within subject percent changes were calculated for each time point, then repeated measures ANCOVA controlling for age and race performed||||0.02
82486358|NCT00413400|164666675|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||repeated measures ANCOVA|||percent change calculated then repeated measures ANCOVA performed controlling for age and race||||0.02
82486359|NCT00413400|164666676|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, race||||0.46
82486360|NCT00413400|164666677|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||t-test, 2 sided|||||||0.78
82486361|NCT00413400|164666678|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
82486362|NCT00413400|164666679|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, race||||0.59
82486363|NCT00413400|164666680|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Repeated measures ANCOVA|||within subject percent changes calculated then repeated measures ANCOVA controlling for age and race performed||||<0.0001
82486364|NCT00413400|164666681|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Repeated Measures ANCOVA|||within subject percent changes calculated then repeated measures ANCOVA performed controlling for age and race||||0.08
82486365|NCT00413400|164666682|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANCOVA|||ANCOVA controlling for baseline value, age, and race||||0.55
82556963|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||1.9|-2.2|
82486366|NCT00891462|164666684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.086|||<|0.0001|TWO_SIDED|95.0|0.05|0.13|||ANCOVA|||||0.13|0.05|<0.0001
82486367|NCT00891462|164666684|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.124|||<|0.0001|TWO_SIDED|95.0|0.08|0.16|||ANCOVA|||||0.16|0.08|<0.0001
82486368|NCT01083485|164666697|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||A P value was not part of the analysis plan. A within SD 1.7, and expected treatment difference of 0 and a non-inferiority margin was -1.0 meaning that OXN PR can be one unit inferior to OXY PR and still be considered non-inferior.|ANCOVA|The primary efficacy endpoint was analysed on the PP data using a mixed-model repeat measure analysis of covariance RMANCOVA.||The sample size was calculated for a significance level of 2.5% (1 sided) with 90% power. A within SD 1.7, and expected treatment difference of 0 and a non-inferiority margin of 1.0 were assumed.||0.3|-0.5|
82486369|NCT02791399|164666706|EQUIVALENCE|Our analysis examined the estimated averages for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-1.12|||<|0.05|TWO_SIDED|95.0|-2.45|0.2|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||0.20|-2.45|<0.05
82486370|NCT02791399|164666707|EQUIVALENCE|Our analysis examined the estimated probabilities for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-0.04|||<|0.05|TWO_SIDED|95.0|-0.15|0.06|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||0.06|-0.15|<0.05
82486371|NCT02791399|164666708|NON_INFERIORITY|Pain intensity and pain-related function were tested in non-inferiority analyses, as we hypothesized that the ISOT intervention would not negatively impact pain or function. One-half SD difference in change was considered the appropriate non-inferiority limit.|Non-inferiority analysis|1.6|||||TWO_SIDED|||||||||||||
82486372|NCT02791399|164666709|EQUIVALENCE|This analysis is comparing estimated averages and probabilities for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|-1.99|||<|0.05|TWO_SIDED|95.0|-5.83|1.85|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||1.85|-5.83|<0.05
82486373|NCT02791399|164666710|EQUIVALENCE|Our analysis examined the estimated averages for each group at each time point after accounting for covariates.|Mean Difference (Final Values)|1.03|||<|0.05|TWO_SIDED|95.0|-6.73|8.8|||Mixed Models Analysis|Models controlled for age, gender, depression severity, pain intensity, clinician type, and proportion of clinician panel prescribed opioids.||||8.80|-6.73|<0.05
82486374|NCT00674973|164666711|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1909|TWO_SIDED|95.0|0.63|1.1|||Log Rank|||Cox proportional hazards model was used to estimate the Hazard Ratio (erlotinib compared with placebo), including 95 percent (%) confidence intervals (CIs).||1.10|0.63|0.1909
82486375|NCT00763048|164666721|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
82486376|NCT00763048|164666722|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
82486377|NCT00763048|164666723|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||<0.05
82486378|NCT00763048|164666724|SUPERIORITY_OR_OTHER|||||||0.05|ONE_SIDED|95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82486379|NCT00763048|164666725|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82486380|NCT00763048|164666726|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82486381|NCT00763048|164666727|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82556964|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.3|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||1.7|-2.3|
82556965|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||1.9|-2.2|
82556966|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.1|2.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||2.0|-2.1|
82556967|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.05|||TWO_SIDED|95.0|-2.2|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||1.9|-2.2|
82651549|NCT00782509|165017865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.108|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.180|0.108|<0.0001
82486382|NCT00763048|164666728|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82486383|NCT00763048|164666729|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 1 sided|||The null hypothesis states that there is no difference between groups.||||0.05
82486384|NCT02360995|164666812|SUPERIORITY_OR_OTHER|||||||0.652|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.652
82486385|NCT02360995|164666813|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82486386|NCT02360995|164666814|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82486387|NCT02360995|164666815|SUPERIORITY_OR_OTHER|||||||0.533|TWO_SIDED||||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.533
82486388|NCT02360995|164666816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82486389|NCT02360995|164666817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||<0.001
82486390|NCT01051466|164666818|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||The significance level was 0.05 for a 2-sided test.|Mixed Models Analysis|||||||0.457
82486391|NCT01051466|164666819|SUPERIORITY_OR_OTHER|||||||0.627||||||The p-value is for change from baseline activation (BOLD response) in the anterior cingulate.|Mixed Models Analysis|||||||0.627
82486392|NCT01051466|164666819|SUPERIORITY_OR_OTHER|||||||0.338||||||The p-value is for change from baseline activation (BOLD response) in the left amygdala.|Mixed Models Analysis|||||||0.338
82556968|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-2.0|2.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||2.3|-2.0|
82486393|NCT01051466|164666819|SUPERIORITY_OR_OTHER|||||||0.518||||||The p-value is for change from baseline activation (BOLD response) in the right amygdala.|Mixed Models Analysis|||||||0.518
82486394|NCT01051466|164666820|SUPERIORITY_OR_OTHER|||||||0.03||||||The p-value is for change from baseline volume in the subgenual anterior cingulate.|Mixed Models Analysis|||||||0.030
82556969|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-2.4|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.8|-2.4|
82651550|NCT00782509|165017865|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.094|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.166|0.094|<0.0001
82486395|NCT01051466|164666820|SUPERIORITY_OR_OTHER|||||||0.208||||||The p-value is for change from baseline volume in the left amygdalae.|Mixed Models Analysis|||||||0.208
82486396|NCT01051466|164666820|SUPERIORITY_OR_OTHER|||||||0.031||||||The p-value is for change from baseline volume in the right amygdalae.|Mixed Models Analysis|||||||0.031
82486397|NCT01051466|164666820|SUPERIORITY_OR_OTHER|||||||0.35||||||The p-value is for change from baseline volume in the left hippocampus.|Mixed Models Analysis|||||||0.350
82486398|NCT01051466|164666820|SUPERIORITY_OR_OTHER|||||||0.191||||||The p-value is for change from baseline volume in the right hippocampus.|Mixed Models Analysis|||||||0.191
82486399|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.174||||||The p-value is for Gsα translocation in RBCs at Week 1.|Mixed Models Analysis|||||||0.174
82486400|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.488||||||The p-value is for Gsα translocation in RBCs at Week 8.|Mixed Models Analysis|||||||0.488
82486401|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.48||||||The p-value is for Gsα translocation in RBCs at Week 12.|Mixed Models Analysis|||||||0.480
82486402|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.925||||||The p-value is for Gsα translocation in platelets at Week 1.|Mixed Models Analysis|||||||0.925
82486403|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.697||||||The p-value is for Gsα translocation in platelets at Week 8.|Mixed Models Analysis|||||||0.697
82486404|NCT01051466|164666821|SUPERIORITY_OR_OTHER|||||||0.276||||||The p-value is for Gsα translocation in platelets at Week 12.|Mixed Models Analysis|||||||0.276
82486405|NCT01051466|164666823|SUPERIORITY_OR_OTHER|||||||0.904||||||The p-value is for change from baseline BDNF.|Mixed Models Analysis|||||||0.904
82486406|NCT01051466|164666823|SUPERIORITY_OR_OTHER|||||||0.819||||||The p-value is for change from baseline proBDNF.|Mixed Models Analysis|||||||0.819
82486407|NCT01051466|164666824|SUPERIORITY_OR_OTHER|||||||0.273||||||The p-value is for change from baseline trkB.|Mixed Models Analysis|||||||0.273
82486408|NCT01051466|164666825|SUPERIORITY_OR_OTHER|||||||0.797||||||The p-value is for change from baseline cytokine TNFα.|Mixed Models Analysis|||||||0.797
82486409|NCT01051466|164666825|SUPERIORITY_OR_OTHER|||||||0.269||||||The p-value is for change from baseline cytokine IL-1.|Mixed Models Analysis|||||||0.269
82486410|NCT01051466|164666825|SUPERIORITY_OR_OTHER|||||||0.925||||||The p-value is for change from baseline cytokine IL-6.|Mixed Models Analysis|||||||0.925
82486411|NCT02611960|164666876|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.2262|TWO_SIDED|95.0|0.67|1.19||One-sided p-value based on log-rank test stratified by presence of liver metastasis.|Stratified Log-Rank Test|||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis.||1.19|0.67|0.2262
82486412|NCT02611960|164666877|SUPERIORITY||Hazard Ratio (HR)|1.28||||0.9419|TWO_SIDED|95.0|0.94|1.75||One-sided p-value based on log-rank test stratified by presence of liver metastasis.|Stratified Log-Rank Test|||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis.||1.75|0.94|0.9419
82486413|NCT02611960|164666878|SUPERIORITY||Difference in Percentage|-1.9||||0.63479|TWO_SIDED|95.0|-12.7|8.9||One-sided p-value for testing. H0: difference in percentage = 0 versus H1: difference in percentage \> 0.|Stratified Miettinen and Nurminen Method|||Comparison based on Miettinen \& Nurminen method stratified by presence of liver metastasis.||8.9|-12.7|0.63479
82486414|NCT00137631|164666886|SUPERIORITY_OR_OTHER||Rate Ratio|0.58|||<|0.05||95.0|0.33|1.01|||negative binomial regression|||||1.01|0.33|< 0.05
82486415|NCT00137631|164666887|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.33|||<|0.05||95.0|1.05|1.68|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||1.68|1.05|< 0.05
82486416|NCT00137631|164666888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17|||<|0.05||95.0|0.69|1.98|||Mixed Models Analysis|||||1.98|0.69|< 0.05
82486417|NCT00137631|164666889|SUPERIORITY_OR_OTHER||Rate Ratio|0.49|||<|0.05||95.0|0.28|0.87|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||0.87|0.28|< 0.05
82486418|NCT00137631|164666890|SUPERIORITY_OR_OTHER||Rate Ratio|0.8|||<|0.05||95.0|0.42|1.53|||generalized estimating equations|Tests intervention efficacy over all study periods (baseline, 3-months, and 6-months)||||1.53|0.42|< 0.05
82486419|NCT00085709|164666894|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Cox|The interim analysis only reported a p-value for testing whether the hazard ratio was not equal to 1.5.||Interim futility analysis of the alternative hypothesis for disease-free survival. The design specified a hazard ratio of (observation: GO) of 1.5.||||<0.001
82486420|NCT00085709|164666895|SUPERIORITY_OR_OTHER||||||<|0.0025||95.0|||||Test of difference of proportions|||Interim futility analysis alternative hypothesis based on the design specification that the 7+3+GO arm would have a 12% increase in CR rate.||||<0.0025
82486421|NCT04131556|164666905|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least square means|67.76|||||TWO_SIDED|90.0|59.5|77.16|||ANOVA|||||77.16|59.50|
82486422|NCT04131556|164666905|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|62.29|||||TWO_SIDED|90.0|54.73|70.9|||ANOVA|||||70.90|54.73|
82486423|NCT04131556|164666906|OTHER||Median Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|90.0|0.75|1.75|||Wilcoxon signed rank test|||Statistical analysis of tmax was performed using a nonparametric test. The median difference of tmax between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||1.75|0.75|<.001
82486424|NCT04131556|164666906|OTHER||Median Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|90.0|0.75|1.25|||Wilcoxon signed rank test|||Statistical analysis of tmax was performed using a nonparametric test. The median difference of tmax between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||1.25|0.75|<.001
82486425|NCT04131556|164666907|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|81.27|||||TWO_SIDED|90.0|73.88|89.4|||ANOVA|||||89.40|73.88|
82486426|NCT04131556|164666907|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|78.0|||||TWO_SIDED|90.0|70.92|85.79|||ANOVA|||||85.79|70.92|
82486427|NCT04131556|164666908|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|83.52|||||TWO_SIDED|90.0|76.12|91.64|||ANOVA|||||91.64|76.12|
82486428|NCT04131556|164666908|EQUIVALENCE|Equivalence analysis based on confidence intervals (CIs). If the 90% CIs of the geometric mean ratios were within (0.8, 1.25), bioequivalence between the two formulations (test powder for oral suspension versus reference tablet) was to be claimed. A linear mixed effect ANOVA model with treatment, period, sequence as fixed effects and participant within sequence as a random effect was used to fit to ln-transformed PK parameters.|% Ratio of Geometric least squares means|80.36|||||TWO_SIDED|90.0|73.26|88.16|||ANOVA|||||88.16|73.26|
82486429|NCT04131556|164666911|OTHER||Median Difference (Final Values)|0.13||||0.006|TWO_SIDED|90.0|0.13|0.25|||Wilcoxon signed rank test|||Statistical analysis of Tlag was performed using a nonparametric test. The median difference of Tlag between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||0.25|0.13|0.006
82486430|NCT04131556|164666911|OTHER||Median Difference (Final Values)|0.13||||0.011|TWO_SIDED|90.0|0.13|0.25|||Wilcoxon signed rank test|||Statistical analysis of Tlag was performed using a nonparametric test. The median difference of Tlag between treatments and 90% CIs of the median differences were calculated from Hodges-Lehman estimate, and p-value was produced from Wilcoxon signed rank test.||0.25|0.13|0.011
82486431|NCT01288027|164666933|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||one sample t-test|||Statistical significance for change from Baseline was measured using one sample t-test||||0.1860
82486432|NCT00760214|164666940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||<|0.001|TWO_SIDED|95.0|-11.04|-5.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-5.78|-11.04|<.001
82486433|NCT00760214|164666940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.03|||<|0.001|TWO_SIDED|95.0|-11.66|-6.39||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented. Overall 0.05 level of significance for multiple comparisons controlled using stepwise testing procedure.|ANCOVA|||||-6.39|-11.66|<.001
82486434|NCT00760214|164666941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.31|||<|0.001|TWO_SIDED|95.0|-6.85|-3.78||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-3.78|-6.85|<.001
82486435|NCT00760214|164666941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.66|||<|0.001|TWO_SIDED|95.0|-7.21|-4.12||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-4.12|-7.21|<.001
82486436|NCT00760214|164666942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.82|||<|0.001|TWO_SIDED|95.0|-7.64|-2.01||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.01|-7.64|<.001
82486437|NCT00760214|164666942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.47||||0.002|TWO_SIDED|95.0|-7.27|-1.66||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.66|-7.27|0.002
82486438|NCT00760214|164666943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.77||||0.003|TWO_SIDED|95.0|-4.61|-0.94||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.94|-4.61|0.003
82486439|NCT00760214|164666943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.06||||0.001|TWO_SIDED|95.0|-4.89|-1.24||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.24|-4.89|0.001
82486440|NCT00760214|164666944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77||||0.017|TWO_SIDED|95.0|-6.87|-0.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.68|-6.87|0.017
82486441|NCT00760214|164666944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.43||||0.029|TWO_SIDED|95.0|-6.5|-0.36||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.36|-6.50|0.029
82486442|NCT00760214|164666945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06||||0.052|TWO_SIDED|95.0|-4.15|0.02||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||0.02|-4.15|0.052
82486443|NCT00760214|164666945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42||||0.022|TWO_SIDED|95.0|-4.49|-0.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.35|-4.49|0.022
82556970|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-1.8|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||2.4|-1.8|
82556971|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-2.1|2.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||2.1|-2.1|
82556972|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|95.0|-1.5|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||2.7|-1.5|
82556973|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.4|2.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||2.8|-1.4|
82556974|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.5|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||2.7|-1.5|
82556975|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-1.8|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||2.4|-1.8|
82556976|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.8|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||2.5|-1.8|
82556977|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.9|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||2.4|-1.9|
82556978|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.9|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||2.5|-1.9|
82556979|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|95.0|-1.8|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||2.5|-1.8|
82556980|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.12|||TWO_SIDED|95.0|-1.9|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||2.5|-1.9|
82556981|NCT02307682|164824486|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.1|||TWO_SIDED|95.0|-1.6|2.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||2.7|-1.6|
82556982|NCT02307682|164824487|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-1.9|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 48||1.1|-1.9|
82582465|NCT00706433|164876420|SUPERIORITY_OR_OTHER|||||||0.782||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7820
82486444|NCT00760214|164666946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.53||||0.003|TWO_SIDED|95.0|-7.46|-1.59||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.59|-7.46|0.003
82486445|NCT00760214|164666946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26||||0.004|TWO_SIDED|95.0|-7.18|-1.35||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.35|-7.18|0.004
82486446|NCT00760214|164666947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.64||||0.008|TWO_SIDED|95.0|-4.6|-0.68||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.68|-4.60|0.008
82486447|NCT00760214|164666947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.98||||0.003|TWO_SIDED|95.0|-4.93|-1.04||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.04|-4.93|0.003
82582466|NCT00706433|164876421|SUPERIORITY_OR_OTHER|||||||0.4965||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4965
82651551|NCT00782509|165017866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.128|0.201|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.201|0.128|<0.0001
82651552|NCT00782509|165017866|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.098|0.171|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.171|0.098|<0.0001
82556983|NCT02307682|164824487|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8|||TWO_SIDED|95.0|-1.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||1.6|-1.5|
82556984|NCT02307682|164824487|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.87|||TWO_SIDED|95.0|-1.8|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 96||1.6|-1.8|
82556985|NCT02307682|164824487|OTHER|Treatment difference|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.88|||TWO_SIDED|95.0|-1.7|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||1.8|-1.7|
82556986|NCT02307682|164824488|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.83|||TWO_SIDED|95.0|-2.0|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12 to Week 48||1.2|-2.0|
82556987|NCT02307682|164824488|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.6|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 48||1.8|-1.6|
82556988|NCT02307682|164824488|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12 to Week 96||1.7|-1.9|
82556989|NCT02307682|164824488|OTHER|Treatment difference|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-1.7|1.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 96||1.9|-1.7|
82556990|NCT02307682|164824489|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.08|||TWO_SIDED|95.0|-1.7|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||2.5|-1.7|
82556991|NCT02307682|164824489|OTHER|Treatment difference|Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.06|||TWO_SIDED|95.0|-1.7|2.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||2.5|-1.7|
82651553|NCT00782509|165017867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.118|0.192|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.192|0.118|<0.0001
82651554|NCT00782509|165017867|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.157|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.12|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.194|0.120|<0.0001
82486448|NCT00760214|164666948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.95|||<|0.001|TWO_SIDED|95.0|-9.12|-2.77||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.77|-9.12|<.001
82486449|NCT00760214|164666948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.82|||<|0.001|TWO_SIDED|95.0|-8.96|-2.67||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.67|-8.96|<.001
82556992|NCT02307682|164824490|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||4.2|-4.2|
82582467|NCT00706433|164876422|SUPERIORITY_OR_OTHER|||||||0.0728||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0728
82582468|NCT00706433|164876423|SUPERIORITY_OR_OTHER|||||||0.548||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5480
82651555|NCT00782509|165017868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.263|0.399|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.399|0.263|<0.0001
82486450|NCT00760214|164666949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.01||||0.006|TWO_SIDED|95.0|-5.15|-0.88||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-0.88|-5.15|0.006
82486451|NCT00760214|164666949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77|||<|0.001|TWO_SIDED|95.0|-5.89|-1.65||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-1.65|-5.89|<.001
82486452|NCT00760214|164666950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.87|||<|0.001|TWO_SIDED|95.0|-12.15|-5.6||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-5.60|-12.15|<.001
82486453|NCT00760214|164666950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2|||<|0.001|TWO_SIDED|95.0|-11.46|-4.95||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-4.95|-11.46|<.001
82486454|NCT00760214|164666951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.68|||<|0.001|TWO_SIDED|95.0|-8.19|-3.17||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-3.17|-8.19|<.001
82486455|NCT00760214|164666951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.32|||<|0.001|TWO_SIDED|95.0|-7.81|-2.82||Postbaseline P-value was from ANCOVA with terms for treatment (as a factor) and baseline value (as a covariate). Unadjusted p-value presented.|ANCOVA|||||-2.82|-7.81|<.001
82486456|NCT00994318|164666952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.026|TWO_SIDED|95.0|0.44|0.95|||Log Rank|||"FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily).~Three primary comparisons using a hierarchical step-down procedure on the log-rank test to preserve the overall alpha level of 0.05, performed in the following order:~1. FCM (high ferritin target) compared with oral iron.~2. FCM (high ferritin target) compared with FCM (low ferritin target).~3. FCM (low ferritin target) compared with oral iron."||0.95|0.44|0.026
82486457|NCT00994318|164666952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.082|TWO_SIDED|95.0|0.45|1.05|||Log Rank|||"FCM (Ferinject / Injectafer) targeting high ferritin level (400-600mcg/L) compared with FCM targeting low ferritin level (100 - 200 mcg/L).~Three primary comparisons using a hierarchical step-down procedure on the log-rank test to preserve the overall alpha level of 0.05, performed in the following order:~1. FCM (high ferritin target) compared with oral iron.~2. FCM (high ferritin target) compared with FCM (low ferritin target).~3. FCM (low ferritin target) compared with oral iron."||1.05|0.45|0.082
82486458|NCT00994318|164666952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.02|TWO_SIDED|95.0|0.39|0.93|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management without taking into account the Hb trigger.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)."||0.93|0.39|0.020
82556993|NCT02307682|164824490|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.8|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.8|-2.8|
82486459|NCT00994318|164666952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.008|TWO_SIDED|95.0|0.43|0.88|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management taking into account the Hb trigger based on local laboratory data, instead of central laboratory data.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)."||0.88|0.43|0.008
82486460|NCT00994318|164666952|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.12|TWO_SIDED|95.0|0.45|1.1|||Log Rank|||"Sensitivity analysis of the primary endpoint. Time to initiation of additional or alternative anaemia management taking into account the Hb trigger based on subjects with a complete set of Hb values from central laboratory.~FCM (Ferinject / Injectafer) targeting high ferritin level (400 - 600 mcg/L) compared with Oral Iron (Ferrous sulphate 100 mg iron twice daily)"||1.10|0.45|0.12
82486461|NCT02035475|164667053|SUPERIORITY_OR_OTHER|||||||0.412|||||||McNemar|||The null hypothesis is that there is no difference in the incidence of detected lymphoceles whether the EndoWrist 1 Vessel Sealer or the Fenestrated Maryland BiPolar Instrument were used.||||0.412
82556994|NCT02307682|164824490|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.4|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||5.9|-4.4|
82486462|NCT02047227|164667055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.235||||0.054|TWO_SIDED|95.0|-0.4741|0.003|||Poisson Regression Model|||||0.003|-0.4741|0.054
82486463|NCT02567552|164667069|OTHER|||||||0.3395|||||||Chi-squared|||||||0.3395
82486464|NCT02567552|164667070|OTHER|||||||0.1523|||||||Chi-squared|||||||0.1523
82486465|NCT02567552|164667071|OTHER|||||||0.1189|||||||t-test, 2 sided|||comparison between groups||||0.1189
82486466|NCT02567552|164667073|OTHER|||||||0.2042|||||||t-test, 2 sided|||||||0.2042
82486467|NCT02567552|164667074|OTHER|||||||0.6262|||||||t-test, 2 sided|||||||0.6262
82486468|NCT02567552|164667075|OTHER|||||||0.2301|||||||t-test, 2 sided|||||||0.2301
82486469|NCT02567552|164667076|OTHER|||||||0.5118|||||||t-test, 2 sided|||||||0.5118
82486470|NCT02567552|164667077|OTHER|||||||0.8371|||||||t-test, 2 sided|||||||0.8371
82486471|NCT02567552|164667078|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82486472|NCT02567552|164667079|OTHER|||||||0.3107|||||||t-test, 2 sided|||||||0.3107
82486473|NCT02567552|164667080|OTHER|||||||0.5|||||||Fisher Exact|||||||0.5
82486474|NCT01074047|164667097|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0829|TWO_SIDED|95.0|0.69|1.02|||Log Rank|The p-value is two-sided from an unstratified log-rank test|The hazard ratio is from a Cox proportional hazards model stratified by ECOG performance status and cytogenetic risk status.|||1.02|0.69|0.0829
82486475|NCT01074047|164667097|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.1009|TWO_SIDED|95.0|0.69|1.03|||Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by ECOG performance status and cytogenetic risk status.|||1.03|0.69|0.1009
82486476|NCT01074047|164667098|SUPERIORITY_OR_OTHER||Difference|12.26|||||TWO_SIDED|95.0|3.5|21.0|||||Estimates of the 1-year (365 day) survival probabilities and corresponding 95% confidence intervals (CI) were presented by treatment group. The CI for the difference in the 1-year survival probabilities was derived using Greenwoods variance estimate.|||21.0|3.5|
82486477|NCT01074047|164667099|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1495|TWO_SIDED|95.0|0.72|1.05|||Log Rank|2 sided unstratified|The hazard ratio is from an unstratified Cox proportional hazards model.|Median is estimated from a Kaplan-Meier distribution of EFS||1.05|0.72|0.1495
82486478|NCT01074047|164667100|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.5832|TWO_SIDED|95.0|0.75|1.66|||Log Rank|2 sided unstratified|The hazard ratio is from an unstratified Cox proportional hazards model.|Median is estimated from a Kaplan-Meier distribution of RFS||1.66|0.75|0.5832
82486479|NCT01074047|164667101|SUPERIORITY_OR_OTHER|||||||0.5384|||||||Fisher Exact|P-value is from Fishers exact test||||||0.5384
82486480|NCT01074047|164667103|SUPERIORITY_OR_OTHER|||||||0.0376|||||||Fisher Exact|P-value is from Fishers exact test||||||0.0376
82556995|NCT02307682|164824490|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-1.2|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||10.0|-1.2|
82556996|NCT02307682|164824490|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.9|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.9|-5.9|
82556997|NCT02307682|164824490|OTHER||Difference in proportions|4.9|||||TWO_SIDED|95.0|-0.5|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||11.0|-0.5|
82556998|NCT02307682|164824490|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.7|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.0|-3.7|
82556999|NCT02307682|164824490|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.8|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.3|-3.8|
82557000|NCT02307682|164824490|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.9|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.1|-5.9|
82557001|NCT02307682|164824490|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-2.4|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.9|-2.4|
82557002|NCT02307682|164824490|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-4.2|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||7.3|-4.2|
82486481|NCT01074047|164667127|SUPERIORITY_OR_OTHER||Relative Ratio|0.79||||0.0721|TWO_SIDED|95.0|0.62|1.02|||negative binomial regression analysis|||||1.02|0.62|0.0721
82486482|NCT05108922|164667147|SUPERIORITY||Odds Ratio (OR)|29.26|||<|0.001|TWO_SIDED|95.0|5.3|100.0|||Regression, Logistic|||Analysis was based on logistic regression model with treatment, Apolipoprotein (ApoE) ε4 Carrier Status, baseline amyloid Level, baseline age as factors.||100.0|5.30|<0.001
82486483|NCT05108922|164667148|SUPERIORITY||Odds Ratio (OR)|15.18||||0.008|TWO_SIDED|95.0|2.04|100.0|||Regression, Logistic|||Analysis was based on logistic regression model with treatment, ApoE ε4 Carrier Status, baseline amyloid Level, baseline age as factors.||100.0|2.04|0.008
82486484|NCT05108922|164667149|SUPERIORITY||LS Mean difference (Final Values)|-45.691|STANDARD_ERROR_OF_MEAN|4.6132|<|0.001|TWO_SIDED|95.0|-54.84|-36.54||Analysis between treatment group comparison p-value using analysis of covariance (ANCOVA) model for endpoint measures: Change (CHG) = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-36.54|-54.84|<0.001
82486485|NCT05108922|164667150|SUPERIORITY||LS Mean difference (Final Values)|-48.213|STANDARD_ERROR_OF_MEAN|4.9276|<|0.001|TWO_SIDED|95.0|-57.99|-38.44||Analysis between treatment group comparison p-value using ANCOVA model for endpoint measures: Percent change (PCHG) = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-38.44|-57.99|<0.001
82486486|NCT05108922|164667151|SUPERIORITY||LS Mean difference (Final Values)|-40.252|STANDARD_ERROR_OF_MEAN|10.551|<|0.001|TWO_SIDED|95.0|-61.87|-18.64||Analysis between treatment group comparison p-value using ANCOVA model for endpoint measures: CHG = Baseline + ApoE ε4 Carrier Status + Baseline Age + Treatment|ANCOVA|||||-18.64|-61.87|<0.001
82486487|NCT05108922|164667152|SUPERIORITY||LS Mean difference (Final Values)|-23.97|STANDARD_ERROR_OF_MEAN|4.231|<|0.001|TWO_SIDED|95.0|-32.35|-15.6||Analysis between treatment group comparison p-value using mixed model for repeated measures (MMRM) model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-15.60|-32.35|<0.001
82486488|NCT05108922|164667153|SUPERIORITY||LS Mean difference (Final Values)|-25.82|STANDARD_ERROR_OF_MEAN|4.381|<|0.001|TWO_SIDED|95.0|-34.49|-17.15||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-17.15|-34.49|<0.001
82486489|NCT05108922|164667154|SUPERIORITY||Odds Ratio (OR)|8.38|||<|0.001|TWO_SIDED|95.0|3.37|20.81||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured|Regression, Logistic|||||20.81|3.37|<0.001
82486490|NCT05108922|164667155|SUPERIORITY||Odds Ratio (OR)|37.73|||<|0.001|TWO_SIDED|95.0|5.71|99.99||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Regression, Logistic|||||99.99|5.71|<.001
82486491|NCT05108922|164667156|SUPERIORITY||LS Mean difference (Final Values)|-26.75|STANDARD_ERROR_OF_MEAN|6.479|<|0.001|TWO_SIDED|95.0|-39.78|-13.73||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-13.73|-39.78|<0.001
82486492|NCT05108922|164667157|SUPERIORITY||LS Mean difference (Final Values)|-7.931|STANDARD_ERROR_OF_MEAN|4.1187||0.0558|TWO_SIDED|95.0|-16.06|0.199||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||0.199|-16.060|0.0558
82486493|NCT05108922|164667158|NON_INFERIORITY|Non-inferiority margin of interest: 5 Centiloids|LS Mean difference (Final Values)|-7.931|STANDARD_ERROR_OF_MEAN|4.1187|||TWO_SIDED|95.0|-16.06|0.199||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||0.199|-16.060|
82486494|NCT05108922|164667159|SUPERIORITY||LS Mean difference (Final Values)|-12.04|STANDARD_ERROR_OF_MEAN|4.12||0.004|TWO_SIDED|95.0|-20.19|-3.88||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-3.88|-20.19|0.004
82486495|NCT05108922|164667160|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82486496|NCT05108922|164667161|SUPERIORITY||LS Mean difference (Final Values)|-13.45|STANDARD_ERROR_OF_MEAN|4.3||0.002|TWO_SIDED|95.0|-21.96|-4.93||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-4.93|-21.96|0.002
82557003|NCT02307682|164824490|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|0.8|13.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||13.4|0.8|
82557004|NCT02307682|164824490|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.3|8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.5|-4.3|
82486497|NCT05108922|164667162|SUPERIORITY||Odds Ratio (OR)|4.68|||<|0.001|TWO_SIDED|95.0|1.93|11.34||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured.|Regression, Logistic|||||11.34|1.93|<0.001
82486498|NCT05108922|164667163|SUPERIORITY||Odds Ratio (OR)|6.34||||0.022|TWO_SIDED|95.0|1.32|30.54||Analysis was based on logistic regression model with 1 (Screening) value, ApoE4 Status, Age, Treatment, Time, and Treatment-by-time interaction as factors. Variance-Covariance structure = Unstructured.|Regression, Logistic|||||30.54|1.32|0.022
82486499|NCT05108922|164667164|SUPERIORITY||LS Mean difference (Final Values)|-14.33|STANDARD_ERROR_OF_MEAN|6.333||0.028|TWO_SIDED|95.0|-27.07|-1.59||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||-1.59|-27.07|0.028
82486500|NCT05108922|164667165|NON_INFERIORITY|Non-inferiority margin of interest: 5 Centiloids.|LS Mean difference (Final Values)|7.831|STANDARD_ERROR_OF_MEAN|4.087|||TWO_SIDED|95.0|-0.226|15.889||Analysis between treatment group comparison p-value using MMRM model for Treatment + Visit + Treatment\*Visit + ApoE4 Carrier Status + Baseline Brain Amyloid Level + Baseline Age.|Mixed Models Analysis|||||15.889|-0.226|
82486501|NCT00704912|164667166|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.5||||0.06|TWO_SIDED|95.0|1.0|6.6|||Log-binomial model|||||6.6|1.0|0.06
82486502|NCT00704912|164667166|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3||||0.08|TWO_SIDED|95.0|0.9|6.1|||Log-binomial model|||||6.1|0.9|0.08
82486503|NCT00704912|164667166|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.82|TWO_SIDED|95.0|0.5|2.1|||Log-binomial model|||||2.1|0.5|0.82
82486504|NCT00704912|164667167|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.06|TWO_SIDED|95.0|1.0|1.7|||Log-binomial model|||||1.7|1.0|0.06
82486505|NCT00704912|164667167|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.5||||0.002|TWO_SIDED|95.0|1.1|1.9|||Log-binomial model|||||1.9|1.1|0.002
82486506|NCT00704912|164667167|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9||||0.28|TWO_SIDED|95.0|0.7|1.1|||Log-binomial model|||||1.1|0.7|0.28
82486507|NCT00704912|164667168|SUPERIORITY_OR_OTHER||Difference in Mean Change|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.3|-3.8|||Mixed Models Analysis||Lifestyle vs. OCP|||-3.8|-6.3|<.0001
82486508|NCT00704912|164667168|SUPERIORITY_OR_OTHER||Difference in Mean Change|-5.0|||<|0.0001|TWO_SIDED|95.0|-6.2|-3.7|||Mixed Models Analysis||Combined vs. OCP|||-3.7|-6.2|<.0001
82486509|NCT00704912|164667168|SUPERIORITY_OR_OTHER||Difference in Mean Change|-0.1||||0.92|TWO_SIDED|95.0|-1.3|1.2|||Mixed Models Analysis||Lifestyle vs. Combined|||1.2|-1.3|0.92
82486510|NCT00704912|164667169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.6|TWO_SIDED|95.0|0.6|2.2|||GEE||End of intervention compared to baseline.|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||2.2|0.6|0.60
82486511|NCT00704912|164667169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.001|TWO_SIDED|95.0|1.4|4.3|||GEE||End of intervention compared to baseline|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||4.3|1.4|0.001
82486512|NCT00704912|164667169|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.18|TWO_SIDED|95.0|0.4|1.2|||GEE||End of intervention compared to baseline|Comparing change in prevalence of metabolic syndrome from baseline to the end of intervention.||1.2|0.4|0.18
82486513|NCT00704912|164667169|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||GEE|||||||0.08
82486514|NCT00704912|164667169|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||GEE|||||||0.001
82486515|NCT00704912|164667169|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||GEE|||||||0.22
82486516|NCT00810108|164667173|NON_INFERIORITY_OR_EQUIVALENCE|The geometric mean and 90% confidence interval assessed whether the crushed and whole tablet administration AUCs were equivalent.|Ratio of Crushed/Whole Tablet AUC|0.55|||<|0.05|TWO_SIDED|90.0|0.45|0.69|||t-test, 2 sided|||Lopinavir AUC was compared between whole tablet and crushed tablet administration by using a ratio of crushed/whole AUC.||0.69|0.45|<0.05
82486517|NCT00351000|164667181|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||t-test, 2 sided|||||||0.956
82651556|NCT00782509|165017868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001||95.0|0.265|0.4|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.400|0.265|<0.0001
82486518|NCT00351000|164667182|SUPERIORITY_OR_OTHER|||||||0.988||95.0|||||t-test, 2 sided|||||||0.988
82486519|NCT05015530|164667183|SUPERIORITY|||||||0.908|||||||Kruskal-Wallis|||α-diversity assessed using the Kruskal-Wallis test||||0.908
82486520|NCT02476422|164667204|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2||||0.211|TWO_SIDED|95.0|-1.8|8.3|||ANCOVA|||||8.3|-1.8|0.211
82486521|NCT01859143|164667217|NON_INFERIORITY_OR_EQUIVALENCE|Pre-specified equivalence criterion for fever within 7 days of vaccination mentioned that the upper limit of 95 percent (%) confidence interval (CI) for difference in percentage of participants with fever \>=101 degrees F should be less than 5 percentage points.|Percent difference|0.4|||||TWO_SIDED|95.0|-5.3|2.6|||||A two-sided 95% CI was constructed using the exact method based on the score statistic proposed by Chan and Zhang.|||2.6|-5.3|
82486522|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|11.9|||||TWO_SIDED|95.0|-1.9|23.9|||||Any symptom within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||23.9|-1.9|
82486523|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.8|||||TWO_SIDED|95.0|-4.9|3.3|||||Fever \>100 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.3|-4.9|
82486524|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>102 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
82486525|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>103 degrees F within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
82486526|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|8.9|||||TWO_SIDED|95.0|-2.6|17.7|||||Runny nose within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||17.7|-2.6|
82486527|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|6.2|||||TWO_SIDED|95.0|-2.2|11.6|||||Sore throat within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.6|-2.2|
82486528|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|-0.5|||||TWO_SIDED|95.0|-9.3|4.7|||||Cough within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.7|-9.3|
82486529|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Vomiting within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
82486530|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|-0.1|||||TWO_SIDED|95.0|-8.0|4.3|||||Muscle aches within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.3|-8.0|
82557005|NCT02307682|164824490|OTHER||Difference in proportions|3.2|||||TWO_SIDED|95.0|-3.4|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||9.4|-3.4|
82557006|NCT02307682|164824490|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.0|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||7.2|-5.0|
82486531|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|1.7|||||TWO_SIDED|95.0|-4.1|4.4|||||Chills within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.4|-4.1|
82486532|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|3.2|||||TWO_SIDED|95.0|-6.5|9.8|||||Decreased activity (tiredness) within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||9.8|-6.5|
82486533|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|3.5|||||TWO_SIDED|95.0|-7.8|11.9|||||Headache within 7 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.9|-7.8|
82486534|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|12.3|||||TWO_SIDED|95.0|-1.6|24.4|||||Any symptom within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||24.4|-1.6|
82486535|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|1.2|||||TWO_SIDED|95.0|-4.5|3.9|||||Fever \>100 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.9|-4.5|
82486536|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.8|||||TWO_SIDED|95.0|-4.9|3.3|||||Fever \>=101 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||3.3|-4.9|
82486537|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>102 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
82486538|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-6.1|1.8|||||Fever \>103 degrees F within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||1.8|-6.1|
82486539|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|9.7|||||TWO_SIDED|95.0|-1.8|18.6|||||Runny nose within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||18.6|-1.8|
82486540|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|4.4|||||TWO_SIDED|95.0|-5.3|11.2|||||Sore throat within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.2|-5.3|
82486541|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.3|||||TWO_SIDED|95.0|-8.6|5.7|||||Cough within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||5.7|-8.6|
82486542|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.4|||||TWO_SIDED|95.0|-5.3|2.6|||||Vomiting within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||2.6|-5.3|
82486543|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|0.3|||||TWO_SIDED|95.0|-7.8|4.8|||||Muscle aches within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||4.8|-7.8|
82486544|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|2.5|||||TWO_SIDED|95.0|-3.3|5.5|||||Chills within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||5.5|-3.3|
82557007|NCT02307682|164824490|OTHER||Difference in proportions|7.9|||||TWO_SIDED|95.0|1.5|14.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||14.4|1.5|
82557008|NCT02307682|164824490|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.4|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||7.0|-5.4|
82651557|NCT00782509|165017869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.242|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.174|0.31|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.310|0.174|<0.0001
82557009|NCT02307682|164824490|OTHER||Difference in proportions|8.1|||||TWO_SIDED|95.0|2.1|14.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||14.5|2.1|
82582469|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.0301||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0301
82651558|NCT00782509|165017869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.159|0.294|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.294|0.159|<0.0001
82486545|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|4.4|||||TWO_SIDED|95.0|-5.3|11.2|||||Decreased activity (tiredness) within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||11.2|-5.3|
82486546|NCT01859143|164667218|SUPERIORITY_OR_OTHER||Percent difference|3.0|||||TWO_SIDED|95.0|-8.7|12.0|||||Headache within 14 days of vaccination: Difference in percentage of participants and 95% CI were constructed based on Chan and Zhang's method.|||12.0|-8.7|
82486547|NCT00438451|164667222|SUPERIORITY_OR_OTHER|||||||0.0201||95.0|||||Fisher Exact|||||||0.0201
82486548|NCT00438451|164667222|SUPERIORITY_OR_OTHER|||||||0.1536||95.0|||||Fisher Exact|||||||0.1536
82486549|NCT00438451|164667222|SUPERIORITY_OR_OTHER|||||||0.3615||95.0|||||Fisher Exact|||||||0.3615
82486550|NCT00438451|164667222|SUPERIORITY_OR_OTHER|||||||0.0478||95.0|||||Fisher Exact|||||||0.0478
82486551|NCT00438451|164667222|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.838||||0.0578|TWO_SIDED|95.0|1.092|3.093|||Regression, Logistic|adjusted for treatment (p=0.0578), country (p=0.4649), pooled sites (p=0.4420) and number of concurrent diseases (p=0.0192)|"Odds ratio given here is for comparison LEV vs CBZ: OR=1.838 KI=(1.092-3.093) LEV vs LTG: OR=1.169 KI=(0.689-1.984) CBZ vs LTG: OR=0.636 KI=(0.377-1.073) Number of concurrent diseases: OR=0.921 KI=(0.859-0.987)"|||3.093|1.092|0.0578
82486552|NCT00438451|164667223|SUPERIORITY_OR_OTHER|||||||0.0596||95.0|||||Log Rank|||||||0.0596
82651559|NCT00782509|165017870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.263|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.195|0.332|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.332|0.195|<0.0001
82486553|NCT00438451|164667224|SUPERIORITY_OR_OTHER|||||||0.2517||95.0|||||Fisher Exact|||||||0.2517
82486554|NCT00438451|164667225|SUPERIORITY_OR_OTHER|||||||0.3303||95.0|||||Fisher Exact|||||||0.3303
82486555|NCT00438451|164667226|SUPERIORITY_OR_OTHER|||||||0.5022||95.0|||||Log Rank|||||||0.5022
82486556|NCT02413372|164667234|SUPERIORITY||Mean Difference (Final Values)|-7.17|||||TWO_SIDED|90.0|-9.09|-5.26|||||mean difference in adjusted change from baseline vs placebo|Day 57||-5.26|-9.09|
82486557|NCT02413372|164667234|SUPERIORITY||Mean Difference (Final Values)|-5.19|||||TWO_SIDED|90.0|-7.14|-3.25|||||mean difference in adjusted change from baseline vs placebo|Day 57||-3.25|-7.14|
82486558|NCT02413372|164667234|SUPERIORITY||Mean Difference (Final Values)|-5.43||||0.0004|TWO_SIDED|90.0|-8.01|-2.84|||t-test, 1 sided||mean difference in adjusted change from baseline vs placebo|Day 112||-2.84|-8.01|0.0004
82486559|NCT02413372|164667234|SUPERIORITY||Mean Difference (Final Values)|-3.85||||0.0084|TWO_SIDED|90.0|-6.47|-1.23|||t-test, 1 sided||mean difference in adjusted change from baseline vs placebo|Day 112||-1.23|-6.47|0.0084
82486560|NCT00749515|164667369|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82486561|NCT00749515|164667370|OTHER|||||||0.275|||||||t-test, 2 sided|||||||.275
82486562|NCT00749515|164667371|OTHER|||||||0.178|||||||t-test, 2 sided|||||||.178
82486563|NCT00749515|164667372|OTHER|||||||0.062|||||||t-test, 2 sided|||||||.062
82486564|NCT00749515|164667373|OTHER|||||||0.104|||||||t-test, 2 sided|||||||.104
82486565|NCT00277446|164667399|SUPERIORITY_OR_OTHER||||||<|0.03||95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||<0.03
82486566|NCT00277446|164667400|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||0.02
82486567|NCT00277446|164667401|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||t-test, 2 sided|||"The two groups tested were baseline and after 4 weeks of treatment with the soy isoflavone supplement."||||0.88
82486568|NCT01680887|164667402|SUPERIORITY|||||||0.403|||||||Chi-squared|||||||.403
82486569|NCT04010539|164667470|NON_INFERIORITY|The difference in microbiological success rates between treatment groups (Gepotidacin - Ceftriaxone plus azithromycin) was calculated using the Miettinen-Nurminen Summary Score Method adjusted for sex and sexual orientation combination. Non-inferiority was declared if the lower limit of the 2-sided 95% confidence interval for the difference was above -10.0%.|Adjusted Difference in Percent|-0.1|||||TWO_SIDED|95.0|-5.6|5.5||||||||5.5|-5.6|
82486570|NCT04010539|164667470|SUPERIORITY|The difference in microbiological success rates between treatment groups (Gepotidacin - Ceftriaxone plus azithromycin) was calculated using the Miettinen-Nurminen Summary Score Method adjusted for sex and sexual orientation combination. Superiority was declared if the lower limit of the 2-sided 95% confidence interval for the difference was above 0.0%.|Adjusted Difference in Percent|-0.1||||0.5072|TWO_SIDED|95.0|-5.6|5.5|||1-sided p-value for Test of Superiority|||||5.5|-5.6|0.5072
82557010|NCT02307682|164824490|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-4.4|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||8.1|-4.4|
82557011|NCT02307682|164824490|OTHER||Difference in proportions|8.3|||||TWO_SIDED|95.0|2.0|15.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||15.1|2.0|
82557012|NCT02307682|164824490|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.2|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.1|-5.2|
82557013|NCT02307682|164824490|OTHER||Difference in proportions|7.6|||||TWO_SIDED|95.0|0.7|13.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||13.8|0.7|
82557014|NCT02307682|164824490|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-6.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-6.8|
82557015|NCT02307682|164824490|OTHER||Difference in proportions|8.2|||||TWO_SIDED|95.0|2.2|15.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||15.0|2.2|
82557016|NCT02307682|164824490|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-3.9|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||9.2|-3.9|
82557017|NCT02307682|164824490|OTHER||Difference in proportions|4.8|||||TWO_SIDED|95.0|-1.5|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||11.4|-1.5|
82557018|NCT02307682|164824490|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-5.9|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||7.1|-5.9|
82557019|NCT02307682|164824490|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-3.1|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||9.7|-3.1|
82557020|NCT02307682|164824490|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-6.5|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.5|-6.5|
82557021|NCT02307682|164824490|OTHER||Difference in proportions|4.9|||||TWO_SIDED|95.0|-1.3|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||11.4|-1.3|
82557022|NCT02307682|164824490|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-2.9|10.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||10.2|-2.9|
82582470|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.0564||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0564
82486571|NCT03194503|164667511|SUPERIORITY||Odds Ratio (OR)|0.65||||0.015|TWO_SIDED|95.0|0.47|0.92|||t-test, 2 sided|||This statistical analysis applies to all three rows in the post-intervention column. ITT analysis: Multivariable analysis for Any TIAEs, Severe TIAEs, and Severe desaturation(\>20%)||0.92|0.47|0.015
82486572|NCT03194503|164667512|SUPERIORITY||Odds Ratio (OR)|0.77||||0.25|TWO_SIDED|95.0|0.5|1.2|||t-test, 2 sided|||This statistical analysis applies to all three rows and is a per-protocol analysis: Multivariable analysis for Any TIAEs, Severe TIAEs, and Severe desaturation(\>20%)||1.20|0.50|0.250
82486573|NCT00337350|164667513|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||ANCOVA|||||||0.08
82486574|NCT00337350|164667514|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||||||.05
82486575|NCT00337350|164667515|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||ANCOVA|||||||0.21
82486576|NCT02001181|164667523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.8|STANDARD_ERROR_OF_MEAN|8.48|<|0.0001|TWO_SIDED|80.0|-62.8|-40.8|||Mixed Models Analysis|The mixed model for repeated measures analysis included all the participants in FAS.||||-40.8|-62.8|<0.0001
82557023|NCT02307682|164824490|OTHER||Difference in proportions|5.8|||||TWO_SIDED|95.0|-0.4|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||12.3|-0.4|
82582471|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.447||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4470
82557024|NCT02307682|164824490|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-4.2|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.0|-4.2|
82557025|NCT02307682|164824490|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-0.2|11.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||11.9|-0.2|
82582472|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.2804||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2804
82486577|NCT01483807|164667533|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.254|ONE_SIDED||||||t-test, 1 sided|||Comparison of performance (change in articulation accuracy) with SPT-R versus SPT-B items. Based on the existing literature, it was predicted that the mean effect size associated with SPT-R would be greater than that for SPT-B.||||.254
82557026|NCT02307682|164824490|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-3.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||9.9|-3.0|
82557027|NCT02307682|164824490|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.1|11.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||11.4|-1.1|
82582473|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.1835||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1835
82582474|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.0103||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0103
82582475|NCT00706433|164876424|SUPERIORITY_OR_OTHER|||||||0.1319||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1319
82582476|NCT00706433|164876425|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82486578|NCT01483807|164667534|SUPERIORITY||Mean Difference (Final Values)|8.25||||0.043|ONE_SIDED||||||t-test, 1 sided|||On the basis of existing literature. SPT-R was predicted to be associated with greater increase in articulatory accuracy over baseline levels than SPT-B.||||.043
82486579|NCT01483807|164667535|SUPERIORITY|||||||0.396|||||||t-test, 1 sided|||Comparison of change in accuracy of articulation of untreated items: SPT-R versus SPT-B items. It was predicted that there would be a greater increase in accuracy for SPT-R items.||||.396
82486580|NCT01483807|164667536|SUPERIORITY|||||||0.212|||||||t-test, 1 sided|||Comparison of effect sizes obtained for untreated SPT-R versus untreated SPT-B items. It was predicted that effect sizes would be greater for SPT-R untreated items.||||.212
82486581|NCT02766465|164667538|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing severe vaso-occlusive pain (VOC) with hospitalization or parenteral opioid drugs in outpatient setting between two biologically assigned arms during the first year after biologic assignment. The null hypothesis is that there is no difference in biologically assigned arms during the first year after assignment.||||<0.001
82486582|NCT02766465|164667538|SUPERIORITY|||||||0.027||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing significant cerebrovascular event between two biologically assigned arms during the first year after biologic assignment. Significant cerebrovascular event includes stroke, transient ischemic attack, and seizure. The null hypothesis is that there is no difference in biologically assigned arms during the first year after assignment.||||0.027
82582477|NCT00706433|164876426|SUPERIORITY_OR_OTHER|||||||0.4378||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4378
82486583|NCT02766465|164667538|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing severe Vaso-occlusive pain (VOC) with hospitalization or parenteral opioid drugs in outpatient setting between two biologically assigned arms during the second year after biologic assignment. The null hypothesis is that there is no difference in biologically assigned arms during the second year after assignment.||||< 0.001
82486584|NCT02766465|164667539|SUPERIORITY|||||||0.869||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing 6MWD from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.869
82557028|NCT02307682|164824490|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-1.5|12.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||12.8|-1.5|
82557029|NCT02307682|164824490|OTHER||Difference in proportions|5.0|||||TWO_SIDED|95.0|-1.0|11.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||11.6|-1.0|
82557030|NCT02307682|164824490|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.1|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.6|-5.1|
82557031|NCT02307682|164824490|OTHER||Difference in proportions|8.8|||||TWO_SIDED|95.0|2.7|15.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||15.4|2.7|
82557032|NCT02307682|164824490|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.7|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.4|-3.7|
82557033|NCT02307682|164824490|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-2.2|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||10.3|-2.2|
82557034|NCT02307682|164824490|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-3.0|10.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||10.9|-3.0|
82582478|NCT00706433|164876427|SUPERIORITY_OR_OTHER|||||||0.343||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3430
82582479|NCT00706433|164876428|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82557035|NCT02307682|164824490|OTHER||Difference in proportions|8.0|||||TWO_SIDED|95.0|1.9|14.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||14.6|1.9|
82557036|NCT02307682|164824490|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-5.1|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.3|-5.1|
82557037|NCT02307682|164824490|OTHER||Difference in proportions|5.9|||||TWO_SIDED|95.0|0.0|12.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||12.5|-0.0|
82582480|NCT00706433|164876429|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582481|NCT00706433|164876430|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582482|NCT00706433|164876431|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582483|NCT00706433|164876432|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582484|NCT00706433|164876433|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82486585|NCT02766465|164667540|SUPERIORITY|||||||0.636||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing TRJV from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.636
82486586|NCT02766465|164667542|SUPERIORITY|||||||0.242||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Physical Function changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.242
82486587|NCT02766465|164667543|SUPERIORITY|||||||0.343||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Anxiety changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.343
82486588|NCT02766465|164667544|SUPERIORITY|||||||0.491||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Depression changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.491
82486589|NCT02766465|164667545|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing fatigue score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.003
82486590|NCT02766465|164667546|SUPERIORITY|||||||0.594||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Sleep Disturbance changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.594
82486591|NCT02766465|164667547|SUPERIORITY|||||||0.003||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing social roles score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.003
82486592|NCT02766465|164667548|SUPERIORITY|||||||0.071||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing pain interference score changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.071
82486593|NCT02766465|164667549|SUPERIORITY|||||||0.146||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing Pain Intensity changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.146
82486594|NCT02766465|164667550|SUPERIORITY|||||||0.649||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing 28-Day Pain Diary Average Pain Intensity changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.649
82486595|NCT02766465|164667551|SUPERIORITY|||||||0.207||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing ASCQ-Me Stiffness changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.207
82486596|NCT02766465|164667552|SUPERIORITY|||||||0.596||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FEV1 changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.596
82486597|NCT02766465|164667553|SUPERIORITY|||||||0.684||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FVC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.684
82582485|NCT00706433|164876434|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82651560|NCT00782509|165017870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.246|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.178|0.315|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.315|0.178|<0.0001
82486598|NCT02766465|164667554|SUPERIORITY|||||||0.863||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FEV1/FVC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.863
82486599|NCT02766465|164667555|SUPERIORITY|||||||0.455||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing VC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.455
82486600|NCT02766465|164667556|SUPERIORITY|||||||0.767||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing TLC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.767
82486601|NCT02766465|164667557|SUPERIORITY|||||||0.241||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing RV changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.241
82499321|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.22|||||TWO_SIDED|95.0|-0.78|1.23|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for maximum glucose 0-4 h at Day 15.||1.23|-0.78|
82582486|NCT00706433|164876435|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582487|NCT00706433|164876436|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82651561|NCT00782509|165017871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.17|0.308|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.308|0.170|<0.0001
82651562|NCT00782509|165017871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.176|0.314|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.314|0.176|<0.0001
82651563|NCT00782509|165017872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.171|0.311|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.311|0.171|<0.0001
82651564|NCT00782509|165017872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.15|0.289|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.289|0.150|<0.0001
82651565|NCT00782509|165017873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.217|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.147|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.288|0.147|<0.0001
82651566|NCT00782509|165017873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.148|0.288|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.288|0.148|<0.0001
82651567|NCT00782509|165017874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.037||0.104||95.0|-0.012|0.131|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.131|-0.012|0.1040
82651568|NCT00782509|165017874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.036||0.0172||95.0|0.015|0.158|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.158|0.015|0.0172
82651569|NCT00782509|165017875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|STANDARD_ERROR_OF_MEAN|0.037||0.0106||95.0|0.022|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.166|0.022|0.0106
82486602|NCT02766465|164667558|SUPERIORITY|||||||0.268||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing ERV changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.268
82582488|NCT00706433|164876437|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82651570|NCT00782509|165017875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.046|0.19|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.190|0.046|0.0013
82486603|NCT02766465|164667559|SUPERIORITY||||||>|0.999||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing IC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||>0.999
82582489|NCT00706433|164876438|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582490|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.0165||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0165
82582491|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.2252||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2252
82582492|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.0179||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0179
82582493|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.0233||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0233
82651571|NCT00782509|165017876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.037||0.3821||95.0|-0.04|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|-0.040|0.3821
82651572|NCT00782509|165017876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.037||0.1917||95.0|-0.024|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.120|-0.024|0.1917
82486604|NCT02766465|164667560|SUPERIORITY|||||||0.832||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing FRC changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.832
82486605|NCT02766465|164667561|SUPERIORITY|||||||0.37||||||Statistical significance was determined using a pre-specified threshold of 0.05|Wilcoxon (Mann-Whitney)|||This is the result comparing DLCO changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.370
82486606|NCT02766465|164667562|SUPERIORITY|||||||0.094||||||Statistical significance was determined using a pre-specified threshold of 0.05;|Wilcoxon (Mann-Whitney)|||This is the result comparing oxygen saturation changes from 2 years after biologic assignment to baseline between two biologically assigned arms. The null hypothesis is that there is no difference between biologically assigned arms||||0.094
82486607|NCT02766465|164667564|SUPERIORITY|||||||0.313||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of grade II-IV acute GVHD in patients who received different donor type at transplant||||0.313
82486608|NCT02766465|164667565|SUPERIORITY|||||||0.233||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of chronic GVHD in patients who received different donor type at transplant||||0.233
82557038|NCT02307682|164824490|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|-1.2|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.3|-1.2|
82557039|NCT02307682|164824490|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|1.4|13.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||13.8|1.4|
82557040|NCT02307682|164824491|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-4.3|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.9|-4.3|
82582494|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.1573||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1573
82486609|NCT02435069|164667568|SUPERIORITY|||||||0.069751||||||significance level set at \<0.05 a priori|two-sample pooled variance t-test|Two-tailed||"Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.~Power analysis conducted using data from this study with α = 0.5, power of .80, correlation between two means of .598, and effect size of 1.554 estimated a sample size of 11 would be needed to minimize the risk of a Type II error to (20%)."||||0.069751
82486610|NCT02435069|164667569|SUPERIORITY|||||||0.172|||||||two-sample pooled variance t-test|two tailed||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.||||0.172
82486611|NCT02435069|164667572|SUPERIORITY|||||||0.8028|||||||two-sample pooled variance t-test|two-sided||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the difference in calprotectin levels between samples obtained at baseline and samples obtained following the completion of the NS and USP Glycerin flush in the dosing phase of the study.||||0.8028
82557041|NCT02307682|164824491|OTHER||Difference in proportions|6.3|||||TWO_SIDED|95.0|0.6|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||12.2|0.6|
82557042|NCT02307682|164824491|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-6.6|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.7|-6.6|
82582495|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||0.2039||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2039
82582496|NCT00706433|164876439|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582497|NCT00706433|164876440|SUPERIORITY_OR_OTHER|||||||0.1594||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1594
82582498|NCT00706433|164876441|SUPERIORITY_OR_OTHER|||||||0.5838||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5838
82486612|NCT02435069|164667573|SUPERIORITY|||||||0.346594|||||||two-sample pooled variance t test|two tailed||Inferential statistical analysis was accomplished using a two-tailed, two-sample pooled variance t test with a significance level set at 0.05. and calculated on the data from the last day of the completed NS and USP Glycerin phases of the study.||||0.346594
82582499|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0064
82486613|NCT02520661|164667580|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.62|1.22||||||treatment relevant change in number of ED visits by 14 days||1.22|0.62|
82486614|NCT02520661|164667580|SUPERIORITY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.72|1.3||||||treatment relevant change in number of ED visits by 30 days||1.30|0.72|
82486615|NCT02443519|164667593|SUPERIORITY||Slope|1.6||||0.027|TWO_SIDED|95.0|-0.7|3.9||Significance threshold set a priori at .025 to adjust for two co-primary outcomes.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates greater reduction in the proportino of people with Severe MIDAS scores (Score \>=21) in the MBCT-M group vs. the WL/TAU group.|||3.9|-0.7|.027
82486616|NCT02443519|164667594|SUPERIORITY||Slope|14.1|||<|0.004|TWO_SIDED|95.0|0.8|21.8||Significance threshold set a priori at .025 to account for two co-primary outcomes.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|Positive slope indicated larger reductions in HDI in the MBCT-M group compared to the WL/TAU group.|||21.8|0.8|<.004
82486617|NCT02443519|164667595|SUPERIORITY||Slope|-0.05||||0.773|TWO_SIDED|95.0|-3.7|2.8||Threshold for statistical significance set a priori at .05.|Mixed Models Analysis|Key test was the Treatment (MBCT-M vs. WL/TAU) X Time (Month 1 vs. 4) interaction with Treatment and Time in the model|A positive slope indicates greater reduction in headache days in the MBCT-M group vs. the WL/TAU group.|||2.8|-3.7|.773
82486618|NCT02443519|164667596|SUPERIORITY||Slope|0.01||||0.888|TWO_SIDED|95.0|-0.14|0.16||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in headache attack pain intensity in the MBCT-M group vs. WL/TAU.|||0.16|-0.14|.888
82486619|NCT02443519|164667597|SUPERIORITY||Slope|7.45||||0.035|TWO_SIDED|95.0|2.48|12.42|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in Pain Catastrophizing Scale in the MBCT-M group vs. WL/TAU.|||12.42|2.48|.035
82486620|NCT02443519|164667598|SUPERIORITY||Slope|-3.05||||0.572|TWO_SIDED|95.0|-10.83|4.74|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a greater improvement in Chronic Pain Acceptance in the MBCT-M group vs. WL/TAU.|||4.74|-10.83|.572
82557043|NCT02307682|164824491|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.7|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||8.0|-4.7|
82486621|NCT02443519|164667599|SUPERIORITY||Slope|-2.65||||0.609|TWO_SIDED|95.0|-11.76|6.46||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a smaller decrease in the Five Factor Mindfulness Questionnaire in the MBCT-M group vs. WL/TAU.|||6.46|-11.76|.609
82486622|NCT02443519|164667600|SUPERIORITY||Slope|8.45||||0.022|TWO_SIDED|95.0|2.99|13.91||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in Headache Specific Locus of Control Scale score in the MBCT-M group vs. WL/TAU.|||13.91|2.99|.022
82486623|NCT02443519|164667601|SUPERIORITY||Slope|-2.01||||0.124|TWO_SIDED|95.0|-7.56|3.53||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A negative slope indicates a greater improvement in Headache Management Self-Efficacy Scale score in the MBCT-M group vs. WL/TAU.|||3.53|-7.56|.124
82486624|NCT02443519|164667602|SUPERIORITY||Slope|3.48||||0.017|TWO_SIDED|95.0|0.63|6.33||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in PROMIS-Depression score in the MBCT-M group vs. WL/TAU.|||6.33|0.63|.017
82486625|NCT02443519|164667603|SUPERIORITY||Slope|2.82||||0.259|TWO_SIDED|95.0|-0.03|5.68||Threshold for significance set a priori at .05.|Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL.TAU) X Time (Month 1 vs 4) interaction with both Treatment and Time in the model.|A positive slope indicates a greater reduction in PROMIS-Anxiety score in the MBCT-M group vs. WL/TAU.|||5.68|-0.03|.259
82486626|NCT02443519|164667604|SUPERIORITY||Slope|-1.0||||0.007|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|The key test was the Treatment (MBCT-M vs. WL/TAU) X Time (Month 1 vs. 4) interaction with both Treatment and Time in the model.|A negative slope indicated a larger decrease in MIDI scores in the MBCT-M group vs. WL/TAU|||-0.3|-1.6|.007
82486627|NCT03635788|164667613|SUPERIORITY|The study had approximately 80% power to show superiority of the LA ART compared to daily SOC with respect to the Step 2, week 48, cumulative probability of regimen failure|Cumulative probability difference|-18.4|||||TWO_SIDED|98.4|-32.4|-4.3|||||Treatment difference was calculated as LA-ART minus SOC. 98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of regimen failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||-4.3|-32.4|
82557044|NCT02307682|164824491|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.2|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||7.1|-6.2|
82557045|NCT02307682|164824491|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-0.8|12.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||12.7|-0.8|
82486628|NCT03635788|164667614|SUPERIORITY|The study had at least 80% power to show superiority of the LA ART compared to daily SOC with respect to the Step 2, week 48, cumulative probability of virologic failure|cumulative probability difference|-21.4|||||TWO_SIDED|98.4|-33.5|-9.3|||||Treatment difference was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of virologic failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||-9.3|-33.5|
82486629|NCT03635788|164667615|SUPERIORITY||cumulative probability diffeence|-19.2|||||TWO_SIDED|98.4|-31.6|-6.9||||||Treatment comparison was conducted by cumulative probability of treatment-related failure in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.|Treatment difference was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|-6.9|-31.6|
82486630|NCT03635788|164667616|SUPERIORITY|The proportions of participants with HIV-1 RNA ≥ 50 copies/ml was compared by Fisher's Exact Test.|Mean Difference (Final Values)|-21.8|||<|0.001|TWO_SIDED|95.0|-35.6|-8.1|||Fisher Exact||||Treatment difference in the proportions of participants with HIV-1 RNA ≥ 50 copies/ml was calculated as LA-ART minus SOC.|-8.1|-35.6|<0.001
82486631|NCT03635788|164667617|SUPERIORITY||Mean Difference (Final Values)|-24.5|||<|0.001|TWO_SIDED|95.0|-36.1|-12.8|||Fisher Exact||Difference in the proportions of participants with HIV-1 RNA ≥ 200 copies was calculated as LA-ART minus SOC.|The proportions of participants with HIV-1 RNA ≥ 200 copies/ml was compared by Fisher's Exact Test.||-12.8|-36.1|<0.001
82486632|NCT03635788|164667622|SUPERIORITY||Cumulative probability difference|-8.4|||||TWO_SIDED|98.4|-21.3|4.5|||||Treatment difference in cumulative of permanent treatment discontinuation was calculated as LA-ART minus SOC.98.4% is nominal confidence interval.|Treatment comparison was conducted by cumulative probability of permanent treatment discontinuation in Step 2 up to Step 2 Week 48 visit by treatment arm. The treatment difference was assessed using the 95% repeated confidence interval adjusted for interim efficacy analyses, i.e., a nominal 98.4% confidence interval.||4.5|-21.3|
82486633|NCT01015131|164667634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1521|||<|0.01|TWO_SIDED|90.0|0.0932|0.2111|||paired t-test|||||0.2111|0.0932|<0.01
82486634|NCT04191187|164667648|SUPERIORITY||PFS at 18 Months|70.8||||0.002|ONE_SIDED|90.0|59.2|||One sided log rank test|Log Rank||||||59.2|0.002
82486635|NCT02349061|164667683|SUPERIORITY||Odds Ratio (OR)|3.28||||0.0057|TWO_SIDED|95.0|1.41|7.63|||Regression, Logistic|||||7.63|1.41|0.0057
82486636|NCT02349061|164667684|SUPERIORITY||Least Squares (LS) Mean Difference|-1.36||||0.0929|TWO_SIDED|95.0|-2.94|0.23|||Mixed model repeated measures model|||||0.23|-2.94|0.0929
82486637|NCT02349061|164667685|SUPERIORITY||LS Means Difference|-0.383||||0.3944|TWO_SIDED|95.0|-1.271|0.506|||Mixed model repeated measures model|||||0.506|-1.271|0.3944
82486638|NCT02349061|164667686|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9939|TWO_SIDED|95.0|0.43|2.34|||Regression, Logistic|||||2.34|0.43|0.9939
82486639|NCT02349061|164667687|SUPERIORITY||LS Means Difference|-2.17||||0.1032|TWO_SIDED|95.0|-4.78|0.45|||Mixed model repeated measures model|||||0.45|-4.78|0.1032
82486640|NCT02339285|164667688|OTHER|F-test; Treatment effect|||||>|0.1|||||||ANOVA|F(2, 29)||"Null hypothesis: There is no difference baseline and the 4 week follow up in MADRS score between treatment groups.~Alternative hypothesis: There is a difference between baseline and the 4 week follow up MADRS score between treatment groups."||||>0.10
82486641|NCT02339285|164667688|OTHER|F-test; Session effect|||||<|0.001|||||||ANOVA|F(1, 31)||"Null hypothesis: There is no difference baseline and the 4 week follow up in MADRS score between treatment groups.~Alternative hypothesis: There is a difference between baseline and the 4 week follow up MADRS score between treatment groups."||||<0.001
82557046|NCT02307682|164824491|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-6.0|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||7.7|-6.0|
82557047|NCT02307682|164824491|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-1.5|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||12.2|-1.5|
82582500|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.0939||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0939
82486642|NCT02339285|164667688|OTHER|F-test; Interaction effect (session x treatment)|||||>|0.1|||||||ANOVA|F(2,29)||||||>0.10
82486643|NCT02339285|164667689|OTHER|F-test; Condition effect|||||<|0.05|||||||ANOVA|F(2,21.595)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||<0.05
82486644|NCT02339285|164667689|OTHER|F-test; Region effect (region defined as region of brain - frontal, parietal, occipital temporal)|||||<|0.001|||||||ANOVA|F(3, 79.358)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||<0.001
82486645|NCT02339285|164667689|OTHER|F-test; Interaction effect (region x condition)|||||>|0.1|||||||ANOVA|F(6, 68.284)||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG on Day 5 of Stimulation between treatment groups."||||>0.10
82486646|NCT02339285|164667690|OTHER||||||>|0.1|||||||ANOVA|||"Null hypothesis: There is no difference in changes of alpha frequency power between baseline EEG and EEG 4 weeks after completion of the intervention between treatment groups.~Alternative hypothesis: There is a difference in changes of alpha frequency power between baseline EEG and EEG 4 weeks after completion of the intervention between treatment groups."||||>0.10
82486647|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-3.18||||0.14|TWO_SIDED|95.0|-5.93|-0.43||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.43|-5.93|0.14
82486648|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.79|TWO_SIDED|95.0|-3.75|1.49||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.49|-3.75|0.79
82486649|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-4.79|||<|0.01|TWO_SIDED|95.0|-7.35|-2.24||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-2.24|-7.35|<0.01
82486650|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-3.76||||0.04|TWO_SIDED|95.0|-6.37|-1.15|||Mixed Models Analysis|||"Ketamine 1.0mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-1.15|-6.37|0.04
82486651|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-2.04||||0.72|TWO_SIDED|95.0|-5.04|0.95||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.95|-5.04|0.72
82486652|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.8|TWO_SIDED|95.0|-3.18|2.46||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.46|-3.18|0.80
82486653|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-3.12||||0.14|TWO_SIDED|95.0|-5.97|-0.44||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.44|-5.97|0.14
82486654|NCT01920555|164667715|SUPERIORITY||Mean Difference (Final Values)|-1.84||||0.72|TWO_SIDED|95.0|-4.65|0.96||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.96|-4.65|0.72
82486655|NCT01920555|164667716|SUPERIORITY||Mean Difference (Final Values)|-5.15||||0.33|TWO_SIDED|95.0|-12.44|2.14||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.14|-12.44|0.33
82557048|NCT02307682|164824491|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-6.5|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.0|-6.5|
82651573|NCT00782509|165017877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.037||0.1808||95.0|-0.023|0.123|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.123|-0.023|0.1808
82557049|NCT02307682|164824491|OTHER||Difference in proportions|5.2|||||TWO_SIDED|95.0|-1.8|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||12.2|-1.8|
82582501|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.3173||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3173
82582502|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.2207||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2207
82651574|NCT00782509|165017877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.037||0.37||95.0|-0.039|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.106|-0.039|0.3700
82486656|NCT01920555|164667716|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.53|TWO_SIDED|95.0|-9.03|4.72||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||4.72|-9.03|0.53
82486657|NCT01920555|164667716|SUPERIORITY||Mean Difference (Final Values)|-9.85||||0.02|TWO_SIDED|95.0|-16.56|-3.15||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-3.15|-16.56|0.02
82499322|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.84|||||TWO_SIDED|95.0|-0.21|1.89|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for maximum glucose 0-4 h at Day 15.||1.89|-0.21|
82499323|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.49|||||TWO_SIDED|95.0|-0.5|1.48|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline glucose, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for maximum glucose 0-4 h at Day 15.||1.48|-0.50|
82582503|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.0183||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0183
82582504|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0254
82651575|NCT00782509|165017878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.045|STANDARD_ERROR_OF_MEAN|0.037||0.2312||95.0|-0.029|0.118|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.118|-0.029|0.2312
82499324|NCT00372112|164689484|SUPERIORITY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.47|0.09|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 1.||0.09|-0.47|
82499325|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.49|0.04|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 1.||0.04|-0.49|
82499326|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.19|||||TWO_SIDED|95.0|-0.46|0.07|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 1.||0.07|-0.46|
82499327|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.47|0.27|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 2.||0.27|-0.47|
82499328|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.38|||||TWO_SIDED|95.0|-0.73|-0.03|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 2.||-0.03|-0.73|
82499329|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.37|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 2.||0.34|-0.37|
82499330|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.54|||||TWO_SIDED|95.0|-0.97|-0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 7.||-0.12|-0.97|
82499331|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.55|||||TWO_SIDED|95.0|-0.98|-0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 7.||-0.12|-0.98|
82499332|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.34|||||TWO_SIDED|95.0|-0.76|0.08|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 7.||0.08|-0.76|
82499333|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.26|0.33|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 8.||0.33|-0.26|
82582505|NCT00706433|164876442|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582506|NCT00706433|164876443|SUPERIORITY_OR_OTHER|||||||0.4753||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4753
82651576|NCT00782509|165017878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.037||0.0596||95.0|-0.003|0.144|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.144|-0.003|0.0596
82499334|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-0.7|-0.1|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 8.||-0.10|-0.70|
82582507|NCT00706433|164876444|SUPERIORITY_OR_OTHER|||||||0.1728||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1728
82582508|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0002
82582509|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.5313||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.5313
82499335|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 8.||0.34|-0.26|
82499336|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.42|0.12|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 14.||0.12|-0.42|
82499337|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.51|0.04|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 14.||0.04|-0.51|
82499338|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.34|0.21|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 14.||0.21|-0.34|
82499339|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.25|0.35|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus GW642444 100 mcg once daily for minimum potassium 0-4 h at Day 15.||0.35|-0.25|
82499340|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|-0.35|||||TWO_SIDED|95.0|-0.66|-0.05|||Regression, Linear|||Placebo versus GW642444 400 mcg once daily for minimum potassium 0-4 h at Day 15.||-0.05|-0.66|
82499341|NCT00372112|164689484|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||Regression, Linear|Analysis performed using linear regression ANCOVA with covariates of Baseline potassium, gender, age and treatment.||Placebo versus Salmeterol 50 mcg BD for minimum potassium 0-4 h at Day 15.||0.34|-0.26|
82499342|NCT00356369|164689502|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was greater than (\>) -15%.|Difference in % for rSBA-MenA antibodies|13.0|||||TWO_SIDED|95.0|3.52|23.5||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||23.5|3.52|
82499343|NCT00356369|164689502|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in % for rSBA-MenC antibodies|4.18|||||TWO_SIDED|95.0|-1.03|11.36||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||11.36|-1.03|
82499344|NCT00356369|164689502|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in%for rSBA-MenW-135 antibody|4.58|||||TWO_SIDED|95.0|-0.07|11.49||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||11.49|-0.07|
82499345|NCT00356369|164689502|NON_INFERIORITY|Criterion indicative of non-inferiority: Lower limit of the standardized asymptotic 95% confidence interval (CI) for the difference between MenACWY-TT and (minus) MenACWY in the percentage of subjects with bactericidal vaccine response was ≥ -12%.|Difference in % for rSBA-MenY antibodies|8.05|||||TWO_SIDED|95.0|1.72|16.17||||||To evaluate the non-inferiority of the vaccine response\* induced by the MenACWY-TT vaccine when compared to the licensed MenACWY vaccine.||16.17|1.72|
82499346|NCT00356369|164689503|NON_INFERIORITY|Criterion indicative of non-inferiority: Upper limit of the standardized asymptotic 95% CI on the difference between MenACWY- TT and (minus) MenACWY in the incidence of Grade 3 systemic symptoms was below 5%.|Difference in % Grade 3 general symptoms|1.34|||||TWO_SIDED|95.0|-1.64|3.09||||||To evaluate the non-inferiority of the MenACWY-TT conjugate vaccine when compared to the licensed MenACWY vaccine in terms of the incidence of any Grade 3 systemic symptom within 4 days after vaccination.||3.09|-1.64|
82499347|NCT02408315|164689534|NON_INFERIORITY|Estimates obtained from Kaplan-Meier method and results of Log-rank test. P-value for non-inferiority hypothesis based on Cox proportional hazards model (H0: HR ≤ 0.74 vs. HA: HR \> .74), p-value \< .05 provides evidence to reject inferiority and conclude BM is non-inferior to VM.||||||0.663|||||||Cox proportional|||||||0.663
82499348|NCT01985867|164689545|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.19||||0.399|TWO_SIDED|95.0|0.24|1.5|||risk analysis (prospective)|||||1.5|0.24|0.399
82499349|NCT01985867|164689546|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.2||||0.589|TWO_SIDED|95.0|-0.6|0.7|||Wilcoxon (Mann-Whitney)|||||0.7|-0.6|0.589
82651577|NCT00782509|165017879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.037||0.311||95.0|-0.036|0.111|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.111|-0.036|0.3110
82582510|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.0045||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0045
82582511|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.0045||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0045
82582512|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0012
82582513|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||0.0015||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0015
82582514|NCT00706433|164876445|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82651578|NCT00782509|165017879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.038||0.9426||95.0|-0.076|0.071|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.071|-0.076|0.9426
82651579|NCT00782509|165017880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.038||0.268||95.0|-0.032|0.115|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.115|-0.032|0.2680
82486658|NCT01920555|164667716|SUPERIORITY||Mean Difference (Final Values)|-7.72||||0.08|TWO_SIDED|95.0|-14.52|-0.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were four pairwise comparisons of interest (see Analysis 1-4), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.93|-14.52|0.08
82486659|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.08|TWO_SIDED|95.0|-1.83|-0.22|||Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.22|-1.83|0.08
82582515|NCT00706433|164876446|SUPERIORITY_OR_OTHER|||||||0.0892||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0892
82651580|NCT00782509|165017880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.038||0.0662||95.0|-0.005|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.005|0.0662
82582516|NCT00706433|164876447|SUPERIORITY_OR_OTHER|||||||0.4575||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4575
82582517|NCT00706433|164876448|SUPERIORITY_OR_OTHER|||||||0.8848||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8848
82582518|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0008
82582519|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.4091||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4091
82582520|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.0176||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0176
82582521|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.0245||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0245
82582522|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0020
82582523|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.0022||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0022
82582524|NCT00706433|164876449|SUPERIORITY_OR_OTHER|||||||0.9372||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.9372
82582525|NCT00706433|164876450|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2390
82651581|NCT00782509|165017881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.046|STANDARD_ERROR_OF_MEAN|0.038||0.2249||95.0|-0.028|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.120|-0.028|0.2249
82486660|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.82|TWO_SIDED|95.0|-1.02|0.51||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.51|-1.02|0.82
82486661|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-1.28||||0.0072|TWO_SIDED|95.0|-2.02|-0.54||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.54|-2.02|0.00720
82486662|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.04884|TWO_SIDED|95.0|-1.81|-0.29||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.29|-1.81|0.04884
82486663|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.48|TWO_SIDED|95.0|-1.7|0.28||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.28|-1.70|0.48
82486664|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.82|TWO_SIDED|95.0|-1.32|0.55||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.55|-1.32|0.82
82486665|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.16|TWO_SIDED|95.0|-1.91|-0.09||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.09|-1.91|0.16
82486666|NCT01920555|164667717|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.27|TWO_SIDED|95.0|-1.78|0.07||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.07|-1.78|0.27
82486667|NCT01920555|164667718|SUPERIORITY||Mean Difference (Net)|-0.54||||0.54|TWO_SIDED|95.0|-1.25|0.17||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.17|-1.25|0.54
82557050|NCT02307682|164824491|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.0|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||9.5|-4.0|
82557051|NCT02307682|164824491|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-3.5|11.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||11.3|-3.5|
82557052|NCT02307682|164824491|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.9|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.2|-5.9|
82582526|NCT00706433|164876451|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582527|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||0.0463||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0463
82582528|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||0.1261||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.1261
82582529|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582530|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582531|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||0.0947||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0947
82582532|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||0.0886||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0886
82582533|NCT00706433|164876452|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582534|NCT00706433|164876453|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||<0.0001
82582535|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||0.0255||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0255
82582536|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||0.0576||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0576
82582537|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||0.0686||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0686
82582538|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0004
82582539|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||0.0005||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0005
82582540|NCT00706433|164876453|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582541|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0006
82582542|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||0.0245||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0245
82582543|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82499350|NCT01985867|164689547|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.0||||0.005|TWO_SIDED|95.0|0.5|4.0|||Wilcoxon (Mann-Whitney)|||||4.0|0.5|0.005
82582544|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582545|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||0.0097||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0097
82582546|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||0.0146||95.0||||Not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0146
82582547|NCT00706433|164876454|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582548|NCT00706433|164876455|SUPERIORITY_OR_OTHER|||||||0.4235||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4235
82582549|NCT00706433|164876456|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582550|NCT00706433|164876457|SUPERIORITY_OR_OTHER|||||||0.0865||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0865
82582551|NCT00706433|164876458|SUPERIORITY_OR_OTHER|||||||0.623||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.6230
82582552|NCT00706433|164876459|SUPERIORITY_OR_OTHER|||||||0.0963||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.0963
82582553|NCT00706433|164876460|SUPERIORITY_OR_OTHER|||||||0.4814||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.4814
82582554|NCT00706433|164876461|SUPERIORITY_OR_OTHER|||||||0.7153||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.7153
82582555|NCT00706433|164876462|SUPERIORITY_OR_OTHER|||||||0.3832||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3832
82582556|NCT00706433|164876463|SUPERIORITY_OR_OTHER|||||||0.2908||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.2908
82582557|NCT00706433|164876464|SUPERIORITY_OR_OTHER|||||||0.8096||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.8096
82582558|NCT00706433|164876465|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3080
82582559|NCT00706433|164876466|SUPERIORITY_OR_OTHER|||||||0.3208||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||0.3208
82582560|NCT00706433|164876467|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582561|NCT00706433|164876468|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Cochran-Mantel-Haenszel|Stratified by study center.||Dichotomized grade as less than or equal to one and greater than one. Null hypothesis: equal response rates.||||1.0
82582562|NCT01236365|164876471|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Change in LDL-C between Atorvastatin and Placebo|Mixed Models Analysis|||||||<0.0001
82582563|NCT01236365|164876472|SUPERIORITY_OR_OTHER|||||||0.913|TWO_SIDED|||||Change in hsCRP (6months minus 0months) between Atorvastatin and Placebo|Wilcoxon (Mann-Whitney)|||||||0.913
82582564|NCT01236365|164876475|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
82582565|NCT00545051|164876476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.25|||<|0.001|TWO_SIDED|95.0|2.09|4.41|||ANCOVA|||||4.41|2.09|<0.001
82582566|NCT00545051|164876477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.22|3.23|||ANCOVA|||||3.23|1.22|<0.001
82582567|NCT00545051|164876478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55||||0.122|TWO_SIDED|95.0|-0.15|1.25|||ANCOVA|||Month 6||1.25|-0.15|0.122
82582568|NCT00545051|164876478|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|||<|0.001|TWO_SIDED|95.0|0.96|2.66|||ANCOVA|||Month 12||2.66|0.96|<0.001
82582569|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 1||||<0.001
82582570|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 6||||<0.001
82582571|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||sCTX at Month 12||||<0.001
82582572|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 1||||<0.001
82582573|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 6||||<0.001
82582574|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||P1NP at Month 12||||<0.001
82582575|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 1||||<0.001
82582576|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 6||||<0.001
82582577|NCT00545051|164876479|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||TRACP at Month 12||||<0.001
82582578|NCT00495586|164876530|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence.|Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|9.5|<|0.05|TWO_SIDED|95.0|3.7|24.3|||Chi-squared|||For the comparison of the efficacy of antibiotic versus placebo, we accepted a null hypothesis if the cure rate in the intervention group was the same or ±7% as that observed in the placebo arm. Based on previous studies, the expected rate of cure among patients assigned to antibiotic therapy was 90%. For an alpha of 0.05 and a beta of 0.2 and accepting possible losses of 15%, we calculated that the sample size is 677 patients in total.||24.3|3.7|<0.05
82582579|NCT03038438|164876532|OTHER|Single arm study with a hypothesis test comparing to performance goal|Proportion|88.0|||<|0.0001|ONE_SIDED|97.5|82.5||||Fisher Exact|||"The primary effectiveness endpoint, primary patency at 12 months, was tested against a PG of 75%. The null and alternative hypotheses tested appear below:~H0: π ≤ PG vs. HA: π \> PG where π is the primary patency rate at 12 months in the study population and PG is the performance goal of 75%. The primary effectiveness objective will be met if the lower limit of the 97.5% one-sided confidence interval is above 75%."|||82.5|<0.0001
82582580|NCT03038438|164876533|OTHER|Single-arm study with a hypothesis test comparing to performance goal|Proportion|2.0|||<|0.0001|ONE_SIDED|97.5||5.0|||Fisher Exact|||"The primary safety endpoint, major adverse events at 30 days post-procedure, was tested against a performance goal of 12.5%. The null and alternative hypotheses tested appear below:~H0: P ≥ PG vs. HA: P \< PG where P is the primary safety endpoint at 30 days in the study population and PG is the performance goal.~The primary safety objective will be met if the upper limit of the 97.5% one-sided confidence interval is below 12.5%."||5.0||<0.0001
82582581|NCT03406260|164876567|NON_INFERIORITY|A p-value \< 0.05 indicates lasmiditan can be declared noninferior to placebo with noninferiority margin of 10 mmHg, i.e. the difference lasmiditan mean minus placebo mean is less than 10 mmHg.|LS Mean Difference (Final Vaules)|-1.63|||<|0.0001|TWO_SIDED|95.0|-1000.0|1.81|||Linear Mixed Effects Model|||||1.81|-1000|<0.0001
82582582|NCT03406260|164876567|NON_INFERIORITY|A p-value \< 0.05 indicates lasmiditan can be declared noninferior to placebo with noninferiority margin of 10 mmHg, i.e. the difference lasmiditan mean minus placebo mean is less than 10 mmHg.|LS Mean Difference (Final Vaules)|-1.35|||<|0.0001|TWO_SIDED|95.0|-1000.0|2.06|||Linear Mixed Effects Model|||||2.06|-1000|<0.0001
82582583|NCT02318992|164876573|OTHER|||||||0.157|||||||Chi-squared, Corrected|||||||0.157
82582584|NCT02318992|164876574|OTHER|||||||0.041|||||||Chi-squared, Corrected|||||||0.041
82582585|NCT03618823|164876575|EQUIVALENCE|All pain scores were included due to the sample size. Alpha =.05 Power = .80 Desired effect size of 0.30 Size of n=145 in each group was determined, however this was not reached for sufficient power.||||||0.912|||||||Mixed Models Analysis|Two-way mixed-model analysis of variance||There will be no difference in pain scores between opioid and non-opioid groups from before medication to after while controlling for total duration of mediation use (duration mean=10.11 days).||||.912
82499351|NCT01985867|164689548|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.659|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.659
82499352|NCT01985867|164689549|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.79|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.790
82486668|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-0.78|0.58||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.58|-0.78|1.00
82557053|NCT02307682|164824491|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-3.4|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||11.2|-3.4|
82557054|NCT02307682|164824491|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-8.2|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.9|-8.2|
82557055|NCT02307682|164824491|OTHER||Difference in proportions|3.6|||||TWO_SIDED|95.0|-3.2|10.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||10.5|-3.2|
82557056|NCT02307682|164824491|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-7.3|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.8|-7.3|
82557057|NCT02307682|164824491|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.2|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||8.6|-5.2|
82557058|NCT02307682|164824491|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-7.8|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.6|-7.8|
82557059|NCT02307682|164824491|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.8|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||10.0|-4.8|
82582586|NCT03618823|164876576|SUPERIORITY||Odds Ratio (OR)|1.311||||0.63|TWO_SIDED|95.0|0.494|3.478|||Fisher Exact|||There will be no difference in ED (Emergency Department) or urgent care visits between opioid and non-opioid pain control groups.||3.478|.494|.630
82582587|NCT02926898|164876589|SUPERIORITY||Percent difference|-54.0|||<|0.001|TWO_SIDED|95.0|-67.2|-35.6||Analysis of covariance (ANCOVA) model with treatment group (ZX008 or placebo) and age group (\< 6 years, ≥ 6 years) as factors, and with log baseline frequency as a covariate, and log CSF as the outcome variable.|ANCOVA|||||-35.6|-67.2|<0.001
82651582|NCT00782509|165017881|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.038||0.0994||95.0|-0.012|0.136|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.136|-0.012|0.0994
82557060|NCT02307682|164824491|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-4.4|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||9.2|-4.4|
82557061|NCT02307682|164824491|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-7.1|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.2|-7.1|
82557062|NCT02307682|164824491|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-7.9|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.2|-7.9|
82557063|NCT02307682|164824491|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-4.5|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||9.2|-4.5|
82582588|NCT02926898|164876590|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|A logistic regression model using a categorical response variable as a function of Treatment group, Baseline seizure frequency, and age group.||||||<0.001
82582589|NCT02926898|164876591|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82582590|NCT00141219|164876608|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.115||||0.289||95.0|0.785|1.583||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|P-value in above table was from Cochran-Mantel-Haenszel test comparing Pregabalin and Placebo adjusted for center.|RR estimates relative responder rate between Pregabalin and Placebo (the ratio of the former responder rate to the latter). Estimated RR was center-adjusted ie, assumed common RR in all centers, then a weighted average of center specific RRs computed|Null hypothesis of no treatment difference in each of the centers.||1.583|0.785|0.289
82486669|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.03|TWO_SIDED|95.0|-1.64|-0.31||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.31|-1.64|0.03
82486670|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.54|TWO_SIDED|95.0|-1.24|0.11||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.11|-1.24|0.54
82486671|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.19||||1|TWO_SIDED|95.0|-0.96|0.57||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.57|-0.96|1.00
82486672|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.21||||1|TWO_SIDED|95.0|-0.93|0.51||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.51|-0.93|1.00
82486673|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.64||||0.52|TWO_SIDED|95.0|-1.35|0.06||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.06|-1.35|0.52
82486674|NCT01920555|164667718|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.54|TWO_SIDED|95.0|-1.33|0.1||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.10|-1.33|0.54
82486675|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.74|TWO_SIDED|95.0|-0.79|0.08||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.08|-0.79|0.74
82486676|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|0.04||||1|TWO_SIDED|95.0|-0.37|0.45||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.45|-0.37|1.00
82499353|NCT01985867|164689550|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.698|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.698
82499354|NCT01985867|164689551|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|2.3||||0.12|TWO_SIDED|95.0|0.9|6.2|||risk analysis (prospective)|||||6.2|0.9|0.120
82499355|NCT01985867|164689552|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||||||0.116
82499356|NCT01985867|164689553|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.5||||0.612|TWO_SIDED|95.0|-0.6|0.8|||Wilcoxon (Mann-Whitney)|||||0.8|-0.6|0.612
82499357|NCT01985867|164689554|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.0||||0.004|TWO_SIDED|95.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2.0|0.0|0.004
82651583|NCT00782509|165017882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.332|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.261|0.403|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.403|0.261|<0.0001
82499358|NCT01985867|164689555|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.708|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.708
82499359|NCT01985867|164689556|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.522|TWO_SIDED|95.0|-1.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|-1.0|0.522
82499360|NCT01985867|164689557|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.185|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)|||||1.0|0.0|0.185
82582591|NCT00141219|164876609|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.644||||0.041||95.0|0.915|2.954||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|P-value in above table was from Cochran-Mantel-Haenszel test comparing Pregabalin and Placebo adjusted for center.|RR estimates relative responder rate between Pregabalin and Placebo (the ratio of the former responder rate to the latter). Estimated RR was center-adjusted ie, assumed common RR in all centers, then a weighted average of center specific RRs computed|Null hypothesis of no treatment difference in each of the centers.||2.954|0.915|0.041
82582592|NCT00141219|164876610|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.252||0.049||95.0|-1.0|0.0||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from the general linear model with treatment and center fitted as factors and the baseline value as a covariate.||Null hypotheses stated there was no difference in pregabalin and placebo in the primary endpoint versus the alternative that there was. The target sample size was 234 subjects (156 and 78 respectively pregabalin vs placebo using a 2:1 ratio). The calculations assumed a 2-sided comparison at 0.05 alpha, 80% power and 3% dropout. Also, a treatment difference of 1 point and a standard deviation for endpoint mean pain scores of 2.5 were assumed based on previous studies.||-0.00|-1.00|0.049
82582593|NCT00141219|164876610|SUPERIORITY_OR_OTHER_LEGACY|||||||0.729||95.0||||Interaction p-value based on adding interaction term to the main model.|General Linear Model|"In supportive model 1, a treatment by center independent variable added to the main model."||This was a supportive analysis of the primary endpoint to determine if the main results were generalizable across centers.||||0.729
82582594|NCT00141219|164876610|SUPERIORITY_OR_OTHER_LEGACY|||||||0.979||95.0||||Interaction p-value based on adding interaction term to the main model.|General Linear Model|"In supportive model 2, a treatment by baseline mean pain independent variable added to the main model."||This was a supportive analysis of the primary endpoint to determine if the main results were generalizable across different baseline values.||||0.979
82582595|NCT00141219|164876611|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.267||0.077||95.0|-1.0|0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center fitted as factors and the baseline value as a covariate.||"Endpoint Mean Pain Score~Pregabalin minus Placebo"||0.05|-1.00|0.077
82582596|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.186||0.042||95.0|-0.75|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center, and treatment by week interaction as factors and baseline value as a covariate.||"Mean Pain Score Weeks 1 to 8~Overall Comparison (8-week average)~Pregabalin minus Placebo"||-0.01|-0.75|0.042
82582597|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.071||95.0|-0.79|0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 1 Mean Pain Score~Pregabalin minus Placebo"||0.03|-0.79|0.071
82651584|NCT00782509|165017882|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.263|0.403|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.403|0.263|<0.0001
82486677|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.61||||0.02|TWO_SIDED|95.0|-1.01|-0.21||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.21|-1.01|0.02
82499361|NCT01985867|164689558|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.973|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.973
82499362|NCT01985867|164689559|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.642|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0.0|0.0|0.642
82582598|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.212||0.149||95.0|-0.72|0.11||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 2 Mean Pain Score~Pregabalin minus Placebo"||0.11|-0.72|0.149
82582599|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.213||0.057||95.0|-0.82|0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 3 Mean Pain Score~Pregabalin minus Placebo"||0.01|-0.82|0.057
82582600|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.215||0.044||95.0|-0.85|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 4 Mean Pain Score~Pregabalin minus Placebo"||-0.01|-0.85|0.044
82651585|NCT00782509|165017883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.153|0.296|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.296|0.153|<0.0001
82651586|NCT00782509|165017883|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.139|0.281|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.281|0.139|<0.0001
82486678|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.8|TWO_SIDED|95.0|-0.72|0.1||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.10|-0.72|0.80
82486679|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.88|TWO_SIDED|95.0|-0.83|0.18||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.18|-0.83|0.88
82486680|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.05||||1|TWO_SIDED|95.0|-0.53|0.44||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.44|-0.53|1.00
82486681|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.88|TWO_SIDED|95.0|-0.79|0.15||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.15|-0.79|0.88
82486682|NCT01920555|164667719|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.88|TWO_SIDED|95.0|-0.76|0.19||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||0.19|-0.76|0.88
82486683|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|11.18||||0.49|TWO_SIDED|95.0|-0.94|23.29||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||23.29|-0.94|0.49
82486684|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|1.37||||1|TWO_SIDED|95.0|-10.19|12.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||12.93|-10.19|1.00
82557064|NCT02307682|164824491|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.8|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.1|-6.8|
82557065|NCT02307682|164824491|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.8|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.4|-5.8|
82557066|NCT02307682|164824491|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-6.1|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||8.2|-6.1|
82557067|NCT02307682|164824491|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.6|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.6|-8.6|
82582601|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.216||0.051||95.0|-0.85|0.0||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 5 Mean Pain Score~Pregabalin minus Placebo"||0.00|-0.85|0.051
82651587|NCT00782509|165017884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.268|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.196|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.340|0.196|<0.0001
82557068|NCT02307682|164824491|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.0|7.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||7.1|-7.0|
82557069|NCT02307682|164824491|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-3.5|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||11.0|-3.5|
82557070|NCT02307682|164824491|OTHER||Difference in proportions|4.0|||||TWO_SIDED|95.0|-3.0|10.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||10.8|-3.0|
82557071|NCT02307682|164824491|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|-1.4|13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||13.0|-1.4|
82557072|NCT02307682|164824491|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-4.1|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.5|-4.1|
82557073|NCT02307682|164824491|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.8|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||9.7|-4.8|
82557074|NCT02307682|164824491|OTHER||Difference in proportions|5.2|||||TWO_SIDED|95.0|-1.6|12.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||12.3|-1.6|
82557075|NCT02307682|164824491|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-5.4|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||8.6|-5.4|
82557076|NCT02307682|164824491|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.8|9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||9.4|-4.8|
82557077|NCT02307682|164824491|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-5.0|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.2|-5.0|
82582602|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.216||0.178||95.0|-0.72|0.13||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 6 Mean Pain Score~Pregabalin minus Placebo"||0.13|-0.72|0.178
82582603|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.218||0.104||95.0|-0.78|0.07||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 7 Mean Pain Score~Pregabalin minus Placebo"||0.07|-0.78|0.104
82557078|NCT02307682|164824491|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.9|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||7.4|-6.9|
82651588|NCT00782509|165017884|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.179|0.323|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.323|0.179|<0.0001
82557079|NCT02307682|164824491|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.1|8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.5|-5.1|
82651589|NCT00782509|165017885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.154|0.298|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.298|0.154|<0.0001
82557080|NCT02307682|164824491|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-3.9|10.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||10.1|-3.9|
82557081|NCT02307682|164824491|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-5.0|9.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.1|-5.0|
82557082|NCT02307682|164824491|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-2.5|11.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||11.8|-2.5|
82557083|NCT02307682|164824491|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.4|10.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||10.6|-3.4|
82557084|NCT02307682|164824491|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.6|12.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||12.2|-1.6|
82557085|NCT02307682|164824491|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-3.0|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||11.2|-3.0|
82557086|NCT02307682|164824491|OTHER||Difference in proportions|5.6|||||TWO_SIDED|95.0|-1.9|12.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.7|-1.9|
82557087|NCT02307682|164824491|OTHER||Difference in proportions|5.7|||||TWO_SIDED|95.0|-1.0|12.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||12.6|-1.0|
82557088|NCT02307682|164824492|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-7.7|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.0|-7.7|
82557089|NCT02307682|164824492|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.3|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||8.7|-5.3|
82557090|NCT02307682|164824492|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.4|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.8|-7.4|
82557091|NCT02307682|164824492|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-8.9|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||5.3|-8.9|
82557092|NCT02307682|164824492|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-8.1|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.9|-8.1|
82557093|NCT02307682|164824492|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.8|8.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||8.8|-4.8|
82557094|NCT02307682|164824492|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-9.8|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.7|-9.8|
82557095|NCT02307682|164824492|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-5.3|8.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||8.6|-5.3|
82557096|NCT02307682|164824492|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.6|-9.7|
82557097|NCT02307682|164824492|OTHER||Difference in proportions|-4.1|||||TWO_SIDED|95.0|-11.4|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-11.4|
82557098|NCT02307682|164824492|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-7.6|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.1|-7.6|
82557099|NCT02307682|164824492|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-4.4|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||10.0|-4.4|
82582604|NCT00141219|164876612|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.218||0.039||95.0|-0.88|-0.02||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 8 Mean Pain Score~Pregabalin minus Placebo"||-0.02|-0.88|0.039
82557100|NCT02307682|164824492|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-7.2|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.9|-7.2|
82582605|NCT00141219|164876613|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.186||0.044||95.0|-0.74|-0.01||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Duration Adjusted Average Change (DAAC)~Pregabalin minus Placebo"||-0.01|-0.74|0.044
82557101|NCT02307682|164824492|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-6.3|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.8|-6.3|
82557102|NCT02307682|164824492|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.7|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||9.2|-4.7|
82557103|NCT02307682|164824492|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-3.9|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||10.3|-3.9|
82557104|NCT02307682|164824492|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-12.6|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.3|-12.6|
82582606|NCT00141219|164876614|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.272||0.018||95.0|-1.19|-0.11||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Sleep Interference Score~Pregabalin minus Placebo"||-0.11|-1.19|0.018
82582607|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.226||0.024||95.0|-0.96|-0.07||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Weeks 1 to 8 Mean Sleep Score~Overall Comparison (8-week average)~Pregabalin minus Placebo"||-0.07|-0.96|0.024
82582608|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.245||0.12||95.0|-0.86|0.1||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 1 Sleep Interference Score~Pregabalin minus Placebo"||0.10|-0.86|0.120
82557105|NCT02307682|164824492|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-12.7|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.9|-12.7|
82557106|NCT02307682|164824492|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-8.1|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-8.1|
82557107|NCT02307682|164824492|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-6.2|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||7.9|-6.2|
82557108|NCT02307682|164824492|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.9|-9.6|
82557109|NCT02307682|164824492|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-9.1|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.4|-9.1|
82582609|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.246||0.041||95.0|-0.99|-0.02||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 2 Sleep Interference Score~Pregabalin minus Placebo"||-0.02|-0.99|0.041
82651590|NCT00782509|165017885|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.137|0.281|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.281|0.137|<0.0001
82557110|NCT02307682|164824492|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.1|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.1|-11.1|
82557111|NCT02307682|164824492|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.5|-10.4|
82557112|NCT02307682|164824492|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-8.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.7|-8.0|
82557113|NCT02307682|164824492|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-9.7|
82557114|NCT02307682|164824492|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-5.5|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||7.9|-5.5|
82557115|NCT02307682|164824492|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.5|-7.2|
82557116|NCT02307682|164824492|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.8|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||8.4|-5.8|
82557117|NCT02307682|164824492|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-7.2|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.9|-7.2|
82582610|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.248||0.017||95.0|-1.07|-0.1||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 3 Sleep Interference Score~Pregabalin minus Placebo"||-0.10|-1.07|0.017
82557118|NCT02307682|164824492|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-7.9|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.5|-7.9|
82557119|NCT02307682|164824492|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.6|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.9|-6.6|
82557120|NCT02307682|164824492|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-9.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.2|-9.4|
82557121|NCT02307682|164824492|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-10.0|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.0|-10.0|
82557122|NCT02307682|164824492|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-6.2|8.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||8.2|-6.2|
82557123|NCT02307682|164824492|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-5.5|9.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||9.3|-5.5|
82651591|NCT00782509|165017886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.153|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.153|<0.0001
82651592|NCT00782509|165017886|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.206|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.133|0.279|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.279|0.133|<0.0001
82557124|NCT02307682|164824492|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-5.1|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||9.6|-5.1|
82486685|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|16.54||||0.03|TWO_SIDED|95.0|5.31|27.77||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||27.77|5.31|0.03
82486686|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|8.68||||0.82|TWO_SIDED|95.0|-2.81|20.16||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||20.16|-2.81|0.82
82486687|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|5.11||||1|TWO_SIDED|95.0|-8.83|19.05||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||19.05|-8.83|1.00
82486688|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|-6.64||||1|TWO_SIDED|95.0|-19.87|6.59||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||6.59|-19.87|1.00
82486689|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|7.64||||1|TWO_SIDED|95.0|-5.26|20.53||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||20.53|-5.26|1.00
82486690|NCT01920555|164667720|SUPERIORITY||Mean Difference (Final Values)|4.8||||1|TWO_SIDED|95.0|-8.31|17.91||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||17.91|-8.31|1.00
82486691|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-1.21||||1|TWO_SIDED|95.0|-3.99|1.56||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.56|-3.99|1.00
82486692|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.17|TWO_SIDED|95.0|-1.9|3.43||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||3.43|-1.90|0.17
82557125|NCT02307682|164824492|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.0|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.9|-5.0|
82557126|NCT02307682|164824492|OTHER||Difference in proportions|3.2|||||TWO_SIDED|95.0|-3.9|10.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||10.3|-3.9|
82557127|NCT02307682|164824492|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-6.1|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||8.1|-6.1|
82582611|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.249||0.033||95.0|-1.02|-0.04||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 4 Sleep Interference Score~Pregabalin minus Placebo"||-0.04|-1.02|0.033
82557128|NCT02307682|164824492|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.1|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.9|-5.1|
82557129|NCT02307682|164824492|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-5.9|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.4|-5.9|
82557130|NCT02307682|164824492|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-8.5|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||5.8|-8.5|
82557131|NCT02307682|164824492|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-9.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.7|-9.7|
82557132|NCT02307682|164824492|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-7.9|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.5|-7.9|
82557133|NCT02307682|164824492|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-9.1|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.5|-9.1|
82557134|NCT02307682|164824492|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-2.9|11.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||11.2|-2.9|
82557135|NCT02307682|164824492|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-6.6|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||8.0|-6.6|
82582612|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.25||0.078||95.0|-0.93|0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 5 Sleep Interference Score~Pregabalin minus Placebo"||0.05|-0.93|0.078
82557136|NCT02307682|164824493|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-1.4|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.2|-1.4|
82557137|NCT02307682|164824493|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-0.5|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||4.0|-0.5|
82557138|NCT02307682|164824493|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-2.6|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.5|-2.6|
82557139|NCT02307682|164824493|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-1.7|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.9|-1.7|
82557140|NCT02307682|164824493|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-3.3|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-3.3|
82557141|NCT02307682|164824493|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-3.2|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.7|-3.2|
82651593|NCT00782509|165017887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.133|0.28|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.280|0.133|<0.0001
82557142|NCT02307682|164824493|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-3.0|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.4|-3.0|
82557143|NCT02307682|164824493|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.4|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.1|-2.4|
82486693|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-2.74||||0.3|TWO_SIDED|95.0|-5.32|-0.16||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||-0.16|-5.32|0.30
82486694|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-0.71||||1|TWO_SIDED|95.0|-3.35|1.93||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 1:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.93|-3.35|1.00
82486695|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-0.29||||1|TWO_SIDED|95.0|-3.25|2.66||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.1 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.66|-3.25|1.00
82486696|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|2.76||||0.39|TWO_SIDED|95.0|-0.06|5.59||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.2 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||5.59|-0.06|0.39
82486697|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-1.17||||1|TWO_SIDED|95.0|-3.91|1.58||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 0.5 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||1.58|-3.91|1.00
82486698|NCT01920555|164667721|SUPERIORITY||Mean Difference (Final Values)|-0.43||||1|TWO_SIDED|95.0|-3.22|2.35||Holm's method was applied to the model-produced differences of least squares for the eight a priori identified contrasts of interest, that is, the difference between each ketamine group vs. placebo at Days 1 and 3.|Mixed Models Analysis|||"Ketamine 1.0 mg/kg vs. midazolam at Day 3:~As estimated by the repeated measures fixed effects model with DAY (0, 1, 3), GROUP (5 groups as specified above), and the DAY\*GROUP interaction effect. Because there were eight pairwise comparisons of interest (see Analysis 1-8), we used Holm's method to protect family-wise error rate in the presence of multiple testing."||2.35|-3.22|1.00
82486699|NCT00195273|164667747|SUPERIORITY_OR_OTHER|||||||0.6081||||||Calculated for 12 month analysis|ANOVA|Analysis of variance with treatment group and center as factors||||||0.6081
82486700|NCT00195273|164667750|SUPERIORITY_OR_OTHER|||||||0.4662|||||||ANOVA|Calculated for 3 month analysis||||||0.4662
82486701|NCT02595970|164667754|SUPERIORITY|adjusted for multiplicity using the Hochberg procedure.|Mean Difference (Net)|-22.6|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-24.52|20.59|||t-test, 2 sided|||||20.59|-24.52|<0.0001
82486702|NCT02595970|164667764|SUPERIORITY|adjusted|Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|95.0|-23.52|19.58|||t-test, 2 sided|||||19.58|-23.52|<0.0001
82557144|NCT02307682|164824493|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.2|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.4|-2.2|
82557145|NCT02307682|164824493|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-0.3|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||5.3|-0.3|
82557146|NCT02307682|164824493|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.6|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.2|-2.6|
82557147|NCT02307682|164824493|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-1.8|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||4.6|-1.8|
82557148|NCT02307682|164824493|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-2.9|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.3|-2.9|
82486703|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.375|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.375
82486704|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||0.156
82486705|NCT01325623|164667808|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 months||||>0.999
82486706|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.906
82486707|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.188
82486708|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.906|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.906
82486709|NCT01325623|164667808|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||<0.001
82651594|NCT00782509|165017887|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.138|0.285|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.285|0.138|<0.0001
82651595|NCT00782509|165017888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.047||0.0028||95.0|0.049|0.235|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 5 mcg qd minus Placebo|||0.235|0.049|0.0028
82557149|NCT02307682|164824493|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.3|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.6|-2.3|
82651596|NCT00782509|165017888|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.048||0.0013||95.0|0.061|0.25|||ANCOVA|Treatment, tiotropium stratum and baseline as fixed effects|Olo 10 mcg qd minus Placebo|||0.250|0.061|0.0013
82486710|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||0.106
82486711|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||0.012
82557150|NCT02307682|164824493|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-2.0|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.1|-2.0|
82651597|NCT00782509|165017889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.36|STANDARD_ERROR_OF_MEAN|4.959||0.0072|TWO_SIDED|95.0|3.622|23.099|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||23.099|3.622|0.0072
82651598|NCT00782509|165017889|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.934|STANDARD_ERROR_OF_MEAN|4.894|<|0.0001|TWO_SIDED|95.0|11.323|30.545|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||30.545|11.323|<0.0001
82486712|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.008
82486713|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.009
82486714|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.029
82486715|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.500
82486716|NCT01325623|164667808|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||>0.999
82486717|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||0.500
82486718|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.500
82486719|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.188|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.188
82486720|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.500
82651599|NCT00782509|165017890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.456|STANDARD_ERROR_OF_MEAN|5.201||0.0169|TWO_SIDED|95.0|2.242|22.67|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||22.670|2.242|0.0169
82486721|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to EMU Discharge||||0.500
82486722|NCT01325623|164667808|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 3 Months||||>0.999
82486723|NCT01325623|164667808|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 6 Months||||>0.999
82486724|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.125|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 12 Months||||0.125
82486725|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 18 Months||||0.500
82557151|NCT02307682|164824493|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-1.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.7|-1.0|
82557152|NCT02307682|164824493|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-1.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.4|-1.5|
82582613|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.25||0.038||95.0|-1.01|-0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 6 Sleep Interference Score~Pregabalin minus Placebo"||-0.03|-1.01|0.038
82582614|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.252||0.037||95.0|-1.02|-0.03||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 7 Sleep Interference Score~Pregabalin minus Placebo"||-0.03|-1.02|0.037
82486726|NCT01325623|164667808|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero||Baseline to 24 Months||||0.500
82486727|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1529|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.1529
82486728|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0942|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0942
82486729|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.2831|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.2831
82486730|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.3639|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.3639
82486731|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.447|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.4470
82486732|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1311|TWO_SIDED||||||s|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.1311
82486733|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.3898|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.3898
82486734|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0511
82486735|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0019
82486736|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1106|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.1106
82557153|NCT02307682|164824493|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|0.0|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.5|0.0|
82582615|NCT00141219|164876615|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.252||0.015||95.0|-1.11|-0.12||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Linear Mixed Model|Estimated from a linear mixed model with treatment, week, center and treatment by week interaction as factors and baseline value as a covariate.||"Week 8 Sleep Interference Score~Pregabalin minus Placebo"||-0.12|-1.11|0.015
82582616|NCT00141219|164876616|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.62|STANDARD_ERROR_OF_MEAN|2.639||0.034||95.0|-10.82|-0.42||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Disturbance~Pregabalin minus Placebo"||-0.42|-10.82|0.034
82651600|NCT00782509|165017890|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.653|STANDARD_ERROR_OF_MEAN|5.132|<|0.0001|TWO_SIDED|95.0|10.574|30.731|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||30.731|10.574|<0.0001
82651601|NCT00782509|165017891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.416|STANDARD_ERROR_OF_MEAN|0.127||0.0011|TWO_SIDED|95.0|-0.665|-0.167|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.167|-0.665|0.0011
82651602|NCT00782509|165017891|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.513|STANDARD_ERROR_OF_MEAN|0.125|<|0.0001|TWO_SIDED|95.0|-0.76|-0.267|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.267|-0.760|<0.0001
82651603|NCT00782509|165017892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.157||0.0077|TWO_SIDED|95.0|-0.729|-0.111|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.111|-0.729|0.0077
82651604|NCT00782509|165017892|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|0.155|<|0.0001||95.0|-1.065|-0.456|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.456|-1.065|<0.0001
82651605|NCT00782509|165017893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.837|STANDARD_ERROR_OF_MEAN|0.252||0.001|TWO_SIDED|95.0|-1.333|-0.342|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.342|-1.333|0.0010
82651606|NCT00782509|165017893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.278|STANDARD_ERROR_OF_MEAN|0.249|<|0.0001|TWO_SIDED|95.0|-1.767|-0.789|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||||-0.789|-1.767|<0.0001
82651607|NCT00782509|165017894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0122||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0122
82651608|NCT00782509|165017894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0008||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0008
82651609|NCT00782509|165017895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0028||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.1|-0.5|0.0028
82651610|NCT00782509|165017895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0169||95.0|-0.5|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.0|-0.5|0.0169
82651611|NCT00782509|165017896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.018||95.0|-0.5|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||-0.0|-0.5|0.0180
82651612|NCT00782509|165017896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0015||95.0|-0.6|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum, visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.6|0.0015
82651613|NCT00782509|165017897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1313||95.0|-0.4|0.0|||Mixed Models Analysis|Model included treatment, tiotropium stratum,visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 5 mcg qd minus Placebo|||0.0|-0.4|0.1313
82651614|NCT00782509|165017897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0089||95.0|-0.5|-0.1|||Mixed Models Analysis|Model included treatment, tiotropium stratum visit and treatment-by-visit interaction as fixed effects, patient as random.|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0089
82651615|NCT00782509|165017898|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.993|STANDARD_ERROR_OF_MEAN|0.187||0.9853|TWO_SIDED|95.0|0.687|1.436|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.436|0.687|0.9853
82651616|NCT00782509|165017898|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|STANDARD_ERROR_OF_MEAN|0.222||0.2344|TWO_SIDED|95.0|0.873|1.763|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.763|0.873|0.2344
82486737|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1273|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.1273
82651617|NCT00782509|165017899|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|STANDARD_ERROR_OF_MEAN|0.438||0.9035|TWO_SIDED|95.0|0.463|2.38|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||2.380|0.463|0.9035
82651618|NCT00782509|165017899|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.958|STANDARD_ERROR_OF_MEAN|0.408||0.9304|TWO_SIDED|95.0|0.415|2.209|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||2.209|0.415|0.9304
82651619|NCT00782509|165017900|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|STANDARD_ERROR_OF_MEAN|0.233||0.669|TWO_SIDED|95.0|0.717|1.657|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.657|0.717|0.6690
82651620|NCT00782509|165017900|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.344|STANDARD_ERROR_OF_MEAN|0.273||0.1437|TWO_SIDED|95.0|0.902|2.002|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||2.002|0.902|0.1437
82651621|NCT00782509|165017901|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.188|STANDARD_ERROR_OF_MEAN|0.2251||0.3637|TWO_SIDED|95.0|0.8188|1.7234|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.7234|0.8188|0.3637
82486738|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1305|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.1305
82557154|NCT02307682|164824493|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.1|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.9|-2.1|
82557155|NCT02307682|164824493|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-0.7|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.3|-0.7|
82557156|NCT02307682|164824493|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-2.2|
82557157|NCT02307682|164824493|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-1.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.2|-1.4|
82557158|NCT02307682|164824493|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.2|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.9|-3.2|
82557159|NCT02307682|164824493|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.7|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||4.3|-2.7|
82557160|NCT02307682|164824493|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.3|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.0|-3.3|
82557161|NCT02307682|164824493|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.5|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-2.5|
82557162|NCT02307682|164824493|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.4|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.6|-2.4|
82557163|NCT02307682|164824493|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.5|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.3|-1.5|
82557164|NCT02307682|164824493|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.6|-3.5|
82557165|NCT02307682|164824493|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.9|-2.9|
82557166|NCT02307682|164824493|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.1|-2.4|
82557167|NCT02307682|164824493|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.3|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||6.7|-1.3|
82557168|NCT02307682|164824493|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-3.1|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.5|-3.1|
82557169|NCT02307682|164824493|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.9|-2.9|
82557170|NCT02307682|164824493|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.6|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.7|-2.6|
82557171|NCT02307682|164824493|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.7|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.3|-2.7|
82557172|NCT02307682|164824493|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.1|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.2|-3.1|
82557173|NCT02307682|164824493|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.1|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.0|-2.1|
82557174|NCT02307682|164824493|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-4.8|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.1|-4.8|
82557175|NCT02307682|164824493|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.9|-4.6|
82557176|NCT02307682|164824493|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-2.6|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.4|-2.6|
82557177|NCT02307682|164824493|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.4|-3.7|
82557178|NCT02307682|164824493|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.4|-3.7|
82557179|NCT02307682|164824493|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-4.1|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.2|-4.1|
82651622|NCT00782509|165017901|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2822|STANDARD_ERROR_OF_MEAN|0.2403||0.1853|TWO_SIDED|95.0|0.8874|1.8527|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.8527|0.8874|0.1853
82486739|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1123|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.1123
82557180|NCT02307682|164824493|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-2.2|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.5|-2.2|
82557181|NCT02307682|164824493|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.0|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.1|-3.0|
82557182|NCT02307682|164824493|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.9|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.9|-2.9|
82557183|NCT02307682|164824493|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-3.6|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.6|-3.6|
82557184|NCT02307682|164824494|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.7|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.2|-3.7|
82557185|NCT02307682|164824494|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-2.6|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.4|-2.6|
82557186|NCT02307682|164824494|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-3.3|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.3|-3.3|
82486740|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.2309|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.2309
82486741|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.3191|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.3191
82486742|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0679|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0679
82486743|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.2082|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.2082
82486744|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.1790
82486745|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.6869|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.6869
82486746|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.6094|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.6094
82486747|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.1530
82486748|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.3339|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.3339
82557187|NCT02307682|164824494|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-3.0|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.9|-3.0|
82486749|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.1473|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.1473
82486750|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.5035|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.5035
82486751|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.6653|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.6653
82486752|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.8622
82486753|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.4456|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.4456
82486754|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.6876|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.6876
82486755|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0328|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||SSQ Total Score||||0.0328
82486756|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Activity During Seizures Score||||0.0067
82486757|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.5928|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Recovery Score||||0.5928
82486758|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.7179|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Severity Score||||0.7179
82486759|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.5014|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Emotional Recovery Score||||0.5014
82486760|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.964|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Physical Recovery Score||||0.9640
82651623|NCT00782509|165017902|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0314|STANDARD_ERROR_OF_MEAN|0.4664||0.9455|TWO_SIDED|95.0|0.4244|2.5063|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||2.5063|0.4244|0.9455
82486761|NCT01325623|164667809|SUPERIORITY_OR_OTHER|||||||0.8537|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Postictal Cognitive Recovery Score||||0.8537
82486762|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.2079|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total||||0.2079
82557188|NCT02307682|164824494|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-4.6|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-4.6|
82486763|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.6562|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.6562
82486764|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.9376|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.9376
82486765|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0100
82486766|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.8532|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.8532
82486767|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.4954|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.4954
82557189|NCT02307682|164824494|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.6|-3.5|
82557190|NCT02307682|164824494|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.2|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.9|-4.2|
82557191|NCT02307682|164824494|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-5.0|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.0|-5.0|
82582617|NCT00141219|164876617|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.05|STANDARD_ERROR_OF_MEAN|3.309||0.128||95.0|-1.47|11.58||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Snoring Score~Pregabalin minus Placebo"||11.58|-1.47|0.128
82486768|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.1877|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.1877
82486769|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.4189|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.4189
82486770|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.2365|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.2365
82582618|NCT00141219|164876618|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|1.887||0.103||95.0|-6.81|0.63||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Awaken Short of Breath or Headache~Pregabalin minus Placebo"||0.63|-6.81|0.103
82582619|NCT00141219|164876619|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.182||0.018||95.0|0.08|0.8||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Quantity~Pregabalin minus Placebo"||0.80|0.08|0.018
82486771|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.4138|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.4138
82486772|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.8701|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.8701
82486773|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0527|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0527
82486774|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.1353|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.1353
82586142|NCT05437510|164884198|SUPERIORITY||Efficacy|83.2||||0.0036|TWO_SIDED|95.0|33.589|97.593||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for UK: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||97.593|33.589|0.0036
82486775|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.6927|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.6927
82557192|NCT02307682|164824494|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-4.1|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.4|-4.1|
82557193|NCT02307682|164824494|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-2.3|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.7|-2.3|
82557194|NCT02307682|164824494|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.1|-3.9|
82557195|NCT02307682|164824494|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-1.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.2|-1.8|
82557196|NCT02307682|164824494|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-3.5|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.7|-3.5|
82557197|NCT02307682|164824494|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.6|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.4|-3.6|
82557198|NCT02307682|164824494|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.2|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.6|-3.2|
82557199|NCT02307682|164824494|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.2|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.5|-3.2|
82557200|NCT02307682|164824494|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.6|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||5.3|-2.6|
82582620|NCT00141219|164876620|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23|STANDARD_ERROR_OF_MEAN|0.37||0.504||95.0|0.67|2.24||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Regression, Logistic|OR estimated from model with Optimal sleep status (Yes/No) as response variable, and treatment, baseline Optimal sleep status as explanatory variables|"The OR estimates ratio of Odds of optimal sleep between Pregabalin and Placebo (ie, the former to the latter). Odds of optimal sleep in treatment group is ratio of Probability of having optimal sleep vs Probability of Not having optimal sleep"|"Week 8 Optimal Sleep~Optimal Sleep is a binary outcome derived from Sleep Quantity (SQ): the response is YES (or 1) if SQ = 7 or 8 hours per night.~Odds ratio measured the odds of optimal sleep in pregabalin to that in placebo.~Standard Error of the Mean equals Standard Error of the Odds Ratio (OR)."||2.24|0.67|.504
82582621|NCT00141219|164876621|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|3.796||0.571||95.0|-5.33|9.63||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Sleep Adequacy~Pregabalin minus Placebo"||9.63|-5.33|0.571
82582622|NCT00141219|164876622|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.71|STANDARD_ERROR_OF_MEAN|2.349||0.046||95.0|0.08|9.34||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Somnolence~Pregabalin minus Placebo"||9.34|0.08|0.046
82557201|NCT02307682|164824494|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-2.1|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||5.9|-2.1|
82582623|NCT00141219|164876623|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.12|STANDARD_ERROR_OF_MEAN|2.044||0.3||95.0|-6.15|1.91||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Week 8 Overall Sleep Problem~Pregabalin minus Placebo"||1.91|-6.15|0.300
82486776|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.4964|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.4964
82557202|NCT02307682|164824494|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.3|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.9|-4.3|
82557203|NCT02307682|164824494|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-3.6|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.8|-3.6|
82557204|NCT02307682|164824494|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.8|-3.7|
82557205|NCT02307682|164824494|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-3.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.7|-3.7|
82557206|NCT02307682|164824494|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-2.2|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-2.2|
82557207|NCT02307682|164824494|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-2.9|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.3|-2.9|
82557208|NCT02307682|164824494|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-3.5|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.8|-3.5|
82557209|NCT02307682|164824494|OTHER||Difference in proportions|3.0|||||TWO_SIDED|95.0|-1.6|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||7.3|-1.6|
82557210|NCT02307682|164824494|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.3|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.2|-2.3|
82557211|NCT02307682|164824494|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-2.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.7|-2.2|
82582624|NCT00141219|164876624|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.026|STANDARD_ERROR_OF_MEAN|0.0325||0.429||95.0|-0.038|0.09||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Utility Score~Pregabalin minus Placebo"||0.090|-0.038|0.429
82582625|NCT00141219|164876625|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.5|STANDARD_ERROR_OF_MEAN|2.375||0.142||95.0|-1.18|8.18||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint VAS Score~Pregabalin minus Placebo"||8.18|-1.18|0.142
82582626|NCT00141219|164876626|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85|STANDARD_ERROR_OF_MEAN|0.409||0.038||95.0|-1.66|-0.05||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Anxiety Score~Pregabalin minus Placebo"||-0.05|-1.66|0.038
82651624|NCT00782509|165017902|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.1273|STANDARD_ERROR_OF_MEAN|0.5028||0.7883|TWO_SIDED|95.0|0.4696|2.7064|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.7064|0.4696|0.7883
82557212|NCT02307682|164824494|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-4.8|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.8|-4.8|
82557213|NCT02307682|164824494|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.8|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.9|-3.8|
82557214|NCT02307682|164824494|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-3.1|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.7|-3.1|
82557215|NCT02307682|164824494|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||6.4|-2.8|
82557216|NCT02307682|164824494|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-3.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.2|-3.4|
82557217|NCT02307682|164824494|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-2.8|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.6|-2.8|
82582627|NCT00141219|164876627|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.438||0.664||95.0|-1.05|0.67||All statistical testing was 2-sided and was conducted at the 5% level of significance.|General Linear Model|Estimated from general linear model with treatment and center as factors and baseline value as a covariate.||"Endpoint Depression Score~Pregabalin minus Placebo"||0.67|-1.05|0.664
82651625|NCT00782509|165017903|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.2846|STANDARD_ERROR_OF_MEAN|0.2803||0.2514|TWO_SIDED|95.0|0.837|1.9717|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.9717|0.8370|0.2514
82557218|NCT02307682|164824494|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-6.6|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.5|-6.6|
82557219|NCT02307682|164824494|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.1|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||3.8|-6.1|
82557220|NCT02307682|164824494|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-5.6|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||3.1|-5.6|
82557221|NCT02307682|164824494|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-2.9|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.9|-2.9|
82557222|NCT02307682|164824494|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.8|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.1|-5.8|
82557223|NCT02307682|164824494|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-3.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.5|-3.2|
82582628|NCT00141219|164876628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.473||95.0||||All statistical testing was 2-sided and was conducted at the 5% level of significance. p-value is from comparing Pregabalin versus Placebo.|Cochran-Mantel-Haenszel|"To apply CMH, each category is given a numerical score; the method of modified rdit used to assign numeric scores."||Cochran-Mantel-Haenszel (CMH) test on the null hypothesis of no treatment difference in all centers. CMH test comparing Pregabalin to Placebo adjusted for center.||||0.473
82486777|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0238|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0238
82486778|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0139|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0139
82486779|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.2822|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.2822
82486780|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.1363|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.1363
82486781|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0019
82486782|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.1293|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive functioning Final Score||||0.1293
82557224|NCT02307682|164824494|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.2|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.0|-4.2|
82557225|NCT02307682|164824494|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||6.7|-3.2|
82557226|NCT02307682|164824494|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.8|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.2|-5.8|
82557227|NCT02307682|164824494|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-5.2|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.6|-5.2|
82651626|NCT00782509|165017903|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.3373|STANDARD_ERROR_OF_MEAN|0.2901||0.1807|TWO_SIDED|95.0|0.8735|2.0474|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.0474|0.8735|0.1807
82486783|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.5252|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.5252
82486784|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0642|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0642
82486785|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0025
82486786|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0024
82486787|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.4464|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.4464
82557228|NCT02307682|164824494|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-5.5|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.1|-5.5|
82557229|NCT02307682|164824494|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-5.3|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.4|-5.3|
82486788|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0511|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.0511
82486789|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.0002
82486790|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0296|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final Score||||0.0296
82486791|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.3115|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Medication Effects Final Score||||0.3115
82486792|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0270
82486793|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0008
82486794|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0683|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||QOLIE Overall Total Score||||0.0683
82557230|NCT02307682|164824494|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.7|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.4|-5.7|
82557231|NCT02307682|164824494|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.4|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.3|-3.4|
82557232|NCT02307682|164824495|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-2.4|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.5|-2.4|
82557233|NCT02307682|164824495|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-1.8|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||6.8|-1.8|
82557234|NCT02307682|164824495|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-4.1|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.8|-4.1|
82557235|NCT02307682|164824495|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-1.7|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||6.8|-1.7|
82557236|NCT02307682|164824495|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.3|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||6.5|-2.3|
82486795|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.2226|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Energy/Fatigue Final Score||||0.2226
82486796|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0823|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Emotional well being Final Score||||0.0823
82486797|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.1459|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Social Functioning Final Score||||0.1459
82486798|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.261|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Cognitive Functioning Final Score||||0.2610
82486799|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.9119|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||||||0.9119
82486800|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0826|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Seizure Worry Final Score||||0.0826
82486801|NCT01325623|164667813|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||Signed Rank Test|Null hypothesis: change from the baseline is equal to zero. The alternative hypothesis: change from the baseline is not equal to zero.||Overall Quality of Life Final Score||||0.0036
82486802|NCT01539642|164667817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.02|STANDARD_ERROR_OF_MEAN|15.25||0.001|TWO_SIDED|95.0|19.89|80.14|||ANCOVA|||||80.14|19.89|0.001
82486803|NCT02600351|164667825|NON_INFERIORITY|With a 10% non-inferiority margin, a sample size of 90 participants per treatment group was required to provide at least 90% power to establish non-inferiority at the 1-sided 0.025 level, assuming the SVR12 rates were 98% for both groups.|Difference in percentages|-18.8||||0.065|TWO_SIDED|95.0|-40.7|3.2|||Cochran-Mantel-Haenszel|||||3.2|-40.7|0.065
82486804|NCT02600351|164667825|NON_INFERIORITY|With a 10% non-inferiority margin, a sample size of 125 participants per treatment group was required to provide at least 90% power to establish non-inferiority at the 1-sided 0.025 level, assuming the SVR12 rates were 95% for both groups.|Difference in percentages|-11.7||||0.25|TWO_SIDED|95.0|-32.1|8.8|||Cochran-Mantel-Haenszel|||||8.8|-32.1|0.25
82486805|NCT00567593|164667831|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test||||||.01
82486806|NCT00700570|164667857|SUPERIORITY_OR_OTHER|||||||0.1341|TWO_SIDED||||||Log Rank|||||||0.1341
82582629|NCT00141219|164876629|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119||95.0||||All statistical testing was 2-sided and was conducted at the 5% level of significance.|Cochran-Mantel-Haenszel|"To apply CMH, each category is given a numerical score; the method of modified rdit used to assign numeric scores."||Cochran-Mantel-Haenszel (CMH) test on the null hypothesis of no treatment difference in all centers. CMH test comparing Pregabalin to Placebo adjusted for center.||||0.119
82486807|NCT00700570|164667859|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Fisher Exact|||||||0.0010
82486808|NCT02556203|164667860|NON_INFERIORITY|1-sided Confidence interval|Hazard Ratio (HR)|1.2089302|||||ONE_SIDED|97.5||1.7040824||||||"H0: HR(t)\>=1.20 for all time points t\>=0, (i.e. the hazard for the primary efficacy endpoint in the rivaroxaban-based treatment group is more than 20% larger than that in the antiplatelet-based control group)"||1.7040824||
82486809|NCT02556203|164667861|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.35|||=|0.04223|TWO_SIDED|95.0|1.01|1.81|||Log Rank|||||1.81|1.01|= 0.04223
82486810|NCT02556203|164667862|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.5|||=|0.07745|TWO_SIDED|95.0|0.95|2.37|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.37|0.95|= 0.07745
82486811|NCT02556203|164667863|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.39|||=|0.01156|TWO_SIDED|95.0|1.08|1.8|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||1.80|1.08|= 0.01156
82486812|NCT02556203|164667864|SUPERIORITY|2-sided Log Rank test|Hazard Ratio (HR)|1.22|||=|0.21595|TWO_SIDED|95.0|0.89|1.69|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||1.69|0.89|= 0.21595
82486813|NCT02556203|164667865|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.78|||=|0.02216|TWO_SIDED|95.0|1.08|2.94|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.94|1.08|= 0.02216
82486814|NCT02556203|164667866|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.66|||=|0.02702|TWO_SIDED|95.0|1.05|2.62|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.62|1.05|= 0.02702
82486815|NCT02556203|164667867|OTHER|Descriptive. 2-sided Log Rank test.|Hazard Ratio (HR)|1.84|||=|1e-05|TWO_SIDED|95.0|1.41|2.41|||Log Rank||Estimates for HRs are based on Cox proportional hazards model. HRs \>1 indicate a higher hazard rate in the rivaroxaban arm compared with the antiplatelet arm.|||2.41|1.41|= 0.00001
82486816|NCT03875768|164667896|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_DEVIATION|1.72||0.89|TWO_SIDED|95.0|-0.44|0.5||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size is 0.5. The investigators hypothesize that the intervention will lead to an increase in average DASH score of 2 units. The investigators used a standard deviation for 2 units for both intervention and attention control groups since higher variability may be observed with a bigger sample size than the pilot study.||0.50|-0.44|0.89
82486817|NCT03875768|164667897|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|13.0||0.26|TWO_SIDED|95.0|-5.3|1.4||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size for change in systolic blood pressure (SBP) between intervention and control group is 0.6 based on the pilot study. With a 90% power and a type I error rate (alpha) of .01, the investigators can detect the expected effect size with the proposed sample size of 121 per study arm.||1.4|-5.3|0.26
82582630|NCT02054741|164876633|SUPERIORITY||Risk Ratio (RR)|0.74||||0.0001|TWO_SIDED|95.0|0.64|0.86|||Mixed Models Analysis|Generalized Linear Mixed Model||||0.86|0.64|0.0001
82557237|NCT02307682|164824495|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-0.9|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||7.9|-0.9|
82557238|NCT02307682|164824495|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.4|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.0|-5.4|
82557239|NCT02307682|164824495|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.2|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.2|-6.2|
82557240|NCT02307682|164824495|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-5.4|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-5.4|
82557241|NCT02307682|164824495|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-2.9|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.4|-2.9|
82557242|NCT02307682|164824495|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.2|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.9|-5.2|
82557243|NCT02307682|164824495|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-1.4|8.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||8.8|-1.4|
82582631|NCT02054741|164876634|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.39|TWO_SIDED|95.0|0.85|1.5|||Regression, Cox|||||1.50|0.85|0.39
82582632|NCT02054741|164876635|SUPERIORITY||Risk Ratio (RR)|1.38||||0.015|TWO_SIDED|95.0|1.06|1.78|||Mixed Models Analysis|Generalized Linear Mixed Model||||1.78|1.06|0.015
82557244|NCT02307682|164824495|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-6.8|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-6.8|
82557245|NCT02307682|164824495|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.7|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.8|-4.7|
82557246|NCT02307682|164824495|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.0|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.4|-5.0|
82557247|NCT02307682|164824495|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-6.1|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.0|-6.1|
82557248|NCT02307682|164824495|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.8|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||7.7|-1.8|
82557249|NCT02307682|164824495|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.7|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.8|-2.7|
82557250|NCT02307682|164824495|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-5.9|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.0|-5.9|
82582633|NCT02084056|164876658|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|103.68|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|100.703|106.747|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||106.747|100.703|<0.0001
82582634|NCT02084056|164876658|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.63|STANDARD_ERROR_OF_MEAN|1.047||0.0003|TWO_SIDED|90.0|93.721|110.202|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||110.202|93.721|0.0003
82557251|NCT02307682|164824495|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-4.7|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.9|-4.7|
82486818|NCT03875768|164667898|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|8.3||0.39|TWO_SIDED|95.0|-3.1|1.2||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Results presented are unadjusted.||The expected effect size for change in diastolic blood pressure (DBP) between intervention and control group is 0.75 based on the pilot study. With a 90% power and a type I error rate (alpha) of .01, the investigators can detect the expected effect size with the proposed sample size of 121 per study arm.||1.2|-3.1|0.39
82486819|NCT01925274|164667901|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.71||||0.164|TWO_SIDED|95.0|-83.4|12.0|||Chi-squared|||||12.0|-83.4|0.164
82486820|NCT00568685|164667968|SUPERIORITY_OR_OTHER|||||||0.0048||95.0||||This is the p value for CGI-ADHD-S score change at endpoint|Mixed Models Analysis|||||||0.0048
82486821|NCT00568685|164667969|SUPERIORITY_OR_OTHER|||||||0.0153||95.0||||This is the p value for CGI-ADHD-I score change at endpoint|Mixed Models Analysis|||||||0.0153
82486822|NCT00568685|164667970|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P-value relates to the sum of adverse events leading to discontinuation.|Fisher Exact|||||||.4500
82486823|NCT00568685|164667971|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|||||||0.0240
82486824|NCT00568685|164667973|SUPERIORITY_OR_OTHER|||||||0.8005||95.0||||This is the p value for heart rate change at endpoint|ANOVA|||||||0.8005
82486825|NCT00568685|164667974|SUPERIORITY_OR_OTHER|||||||0.4128||95.0||||This is the p value for temperature change at endpoint|ANOVA|||||||0.4128
82557252|NCT02307682|164824495|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.5|-5.7|
82582635|NCT02084056|164876659|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|114.58|STANDARD_ERROR_OF_MEAN|1.038||0.0113|TWO_SIDED|90.0|107.687|121.908|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||121.908|107.687|0.0113
82582636|NCT02084056|164876659|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.28|STANDARD_ERROR_OF_MEAN|1.075||0.0064|TWO_SIDED|90.0|86.543|111.609|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||111.609|86.543|0.0064
82486826|NCT00568685|164667975|SUPERIORITY_OR_OTHER|||||||0.9761||95.0||||This is the p value for systolic change at endpoint|ANOVA|||||||0.9761
82486827|NCT00568685|164667975|SUPERIORITY_OR_OTHER|||||||0.6419||95.0||||This is the p value for diastolic change at endpoint|ANOVA|||||||0.6419
82486828|NCT00568685|164667976|SUPERIORITY_OR_OTHER|||||||0.2213||95.0||||This is the p value for weight change at endpoint|ANOVA|||||||0.2213
82486829|NCT01231230|164667977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|||<|0.001|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||< 0.001
82486830|NCT01231230|164667977|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||<0.001
82486831|NCT01231230|164667977|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||mean difference from baseline relative to placebo||||>0.05
82486832|NCT00471146|164667982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.014||||0.5436|TWO_SIDED|95.0|0.786|1.309||One-sided log-rank test at alpha = 0.025 significance level was used.|Log Rank|||Differences in OS between treatment arms was analyzed by 1-sided log rank test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||1.309|0.786|0.5436
82486833|NCT00471146|164667983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.006||||0.5203|TWO_SIDED|95.0|0.779|1.298||One-sided log-rank test at alpha = 0.025 significance level was used.The p-value was not adjusted for multiple testing.|Log Rank|||Differences in PFS between treatment arms was analyzed by 1-sided log rank test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||1.298|0.779|0.5203
82486834|NCT00471146|164667984|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.2||||0.038|TWO_SIDED|95.0|1.0|10.1|||Cochran-Mantel-Haenszel|||Differences in OR between treatment arms was analyzed by 1-sided Cochran-Mantel-Haenszel (CMH) test, stratified for extent of disease (locally advanced cancer versus metastatic cancer).||10.1|1.0|0.038
82486835|NCT03438383|164667997|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.88||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.88
82486836|NCT03438383|164667997|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.23||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.23
82486837|NCT03438383|164667997|SUPERIORITY|We checked for equivalence of the pre-op (baseline) values between the two groups. We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.008||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 hours post-operatively||||0.008
82582637|NCT02084056|164876660|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|96.45|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|91.23|101.97|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||101.97|91.23|<0.0001
82557253|NCT02307682|164824495|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.5|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.3|-6.5|
82557254|NCT02307682|164824495|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.7|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.9|-2.7|
82557255|NCT02307682|164824495|OTHER||Difference in proportions|0.8|||||TWO_SIDED|95.0|-4.3|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.4|-4.3|
82557256|NCT02307682|164824495|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.6|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.3|-4.6|
82557257|NCT02307682|164824495|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-3.9|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.6|-3.9|
82582638|NCT02084056|164876660|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.75|STANDARD_ERROR_OF_MEAN|1.04||0.0002|TWO_SIDED|90.0|90.47|105.63|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||105.63|90.47|0.0002
82582639|NCT02084056|164876661|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|97.96|STANDARD_ERROR_OF_MEAN|1.038|<|0.0001|TWO_SIDED|90.0|92.046|104.257|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||104.257|92.046|<0.0001
82651627|NCT03151499|165017943|OTHER||Geometric mean (gMean) ratio (%)|7.8|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|90.0|5.74|10.601|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|The main focus is on estimation, therefore no hypothesis was tested. The statistical analysis model for the primary endpoints is an ANOVA (analysis of variance). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||10.601|5.740|
82651628|NCT03151499|165017944|OTHER||Geometric mean (gMean) ratio (%)|9.77|STANDARD_ERROR_OF_MEAN|1.232|||TWO_SIDED|90.0|6.767|14.098|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|The main focus is on estimation, therefore no hypothesis was tested. The statistical analysis model for the primary endpoints is an ANOVA (analysis of variance). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||14.098|6.767|
82557258|NCT02307682|164824495|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.0|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.1|-4.0|
82557259|NCT02307682|164824495|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-3.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.2|-3.8|
82557260|NCT02307682|164824495|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-4.5|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.6|-4.5|
82557261|NCT02307682|164824495|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-3.8|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.8|-3.8|
82582640|NCT02084056|164876661|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|105.85|STANDARD_ERROR_OF_MEAN|1.053||0.003|TWO_SIDED|90.0|96.705|115.861|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||115.861|96.705|0.0030
82557262|NCT02307682|164824495|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-2.9|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.3|-2.9|
82557263|NCT02307682|164824495|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-2.8|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||7.9|-2.8|
82557264|NCT02307682|164824495|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.5|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.5|-5.5|
82557265|NCT02307682|164824495|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.1|5.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.3|-5.1|
82557266|NCT02307682|164824495|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-4.3|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||6.7|-4.3|
82557267|NCT02307682|164824495|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.6|-5.2|
82557268|NCT02307682|164824495|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.6|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.4|-4.6|
82557269|NCT02307682|164824495|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-4.7|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.3|-4.7|
82557270|NCT02307682|164824495|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.2|-4.8|
82557271|NCT02307682|164824495|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.8|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.2|-4.8|
82557272|NCT02307682|164824495|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-3.1|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||7.7|-3.1|
82557273|NCT02307682|164824495|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-2.9|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||8.7|-2.9|
82557274|NCT02307682|164824495|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.5|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.4|-4.5|
82557275|NCT02307682|164824495|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-4.6|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.4|-4.6|
82557276|NCT02307682|164824495|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-4.5|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.9|-4.5|
82557277|NCT02307682|164824495|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-4.5|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.4|-4.5|
82557278|NCT02307682|164824495|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-3.1|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||8.7|-3.1|
82557279|NCT02307682|164824495|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-4.7|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.2|-4.7|
82557280|NCT02307682|164824496|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.7|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.5|-7.7|
82557281|NCT02307682|164824496|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-8.5|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.8|-8.5|
82557282|NCT02307682|164824496|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-8.9|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.6|-8.9|
82557283|NCT02307682|164824496|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.6|-7.7|
82557284|NCT02307682|164824496|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.9|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-8.9|
82557285|NCT02307682|164824496|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-10.0|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.0|-10.0|
82557286|NCT02307682|164824496|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.3|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||5.5|-6.3|
82582641|NCT02084056|164876662|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|103.48|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|98.426|108.79|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||108.790|98.426|<0.0001
82582642|NCT02084056|164876662|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|101.35|STANDARD_ERROR_OF_MEAN|1.062||0.0019|TWO_SIDED|90.0|91.13|112.708|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||112.708|91.130|0.0019
82651629|NCT03151499|165017945|OTHER||Geometric mean (gMean) ratio (%)|8.23|STANDARD_ERROR_OF_MEAN|1.187|||TWO_SIDED|90.0|6.081|11.126|||||gMean ratio = BI 409306 + Rifampicin pretreatment (T) / BI 409306 (R). Standard Error of the mean is actually the Geometric Standard Error.|Since the main focus is on estimation and not testing, therefore no hypothesis was tested.The statistical analysis model is an ANOVA (analysis of variance) model on the logarithmic scale. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' will be considered as random, whereas the treatment effect will be considered as fixed. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.||11.126|6.081|
82557287|NCT02307682|164824496|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-6.2|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.4|-6.2|
82557288|NCT02307682|164824496|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-10.4|2.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.0|-10.4|
82557289|NCT02307682|164824496|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.4|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.8|-9.4|
82557290|NCT02307682|164824496|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.6|6.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.9|-4.6|
82557291|NCT02307682|164824496|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||5.7|-6.6|
82557292|NCT02307682|164824496|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.5|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.7|-6.5|
82651630|NCT00415532|165017946|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.172|||<|0.0001||95.0|0.084|0.352||Significant level is set at 0.05|Cochran-Mantel-Haenszel|||||0.352|0.084|<0.0001
82557293|NCT02307682|164824496|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.9|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.4|-4.9|
82557294|NCT02307682|164824496|OTHER||Difference in proportions|1.6|||||TWO_SIDED|95.0|-3.9|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||7.5|-3.9|
82557295|NCT02307682|164824496|OTHER||Difference in proportions|5.1|||||TWO_SIDED|95.0|-1.0|11.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||11.5|-1.0|
82557296|NCT02307682|164824496|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.4|-8.5|
82557297|NCT02307682|164824496|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-6.0|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||6.4|-6.0|
82557298|NCT02307682|164824496|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.2|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||6.4|-5.2|
82557299|NCT02307682|164824496|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-7.4|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.0|-7.4|
82557300|NCT02307682|164824496|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.5|-8.8|
82557301|NCT02307682|164824496|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.4|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-8.4|
82557302|NCT02307682|164824496|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-9.5|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.3|-9.5|
82557303|NCT02307682|164824496|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.6|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.6|-8.6|
82557304|NCT02307682|164824496|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.2|-8.8|
82557305|NCT02307682|164824496|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.1|-6.8|
82557306|NCT02307682|164824496|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.9|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.1|-5.9|
82557307|NCT02307682|164824496|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.0|-6.6|
82557308|NCT02307682|164824496|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-5.7|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.4|-5.7|
82557309|NCT02307682|164824496|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.1|-9.0|
82557310|NCT02307682|164824496|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-7.2|5.5||Hypothesis testing not pre-specified.|Regression, Logistic|||Week 64||5.5|-7.2|
82651631|NCT00415532|165017947|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.307||||0.0005||95.0|0.154|0.611||Significant level is set at 0.05|Cochran-Mantel-Haenszel|||||0.611|0.154|0.0005
82651632|NCT00415532|165017950|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0133||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0133
82651633|NCT00415532|165017951|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3434||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.3434
82651634|NCT00415532|165017952|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0076||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0076
82557311|NCT02307682|164824496|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.6|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.7|-6.6|
82557312|NCT02307682|164824496|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-4.3|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.3|-4.3|
82557313|NCT02307682|164824496|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.3|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.1|-6.3|
82557314|NCT02307682|164824496|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-7.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.6|-7.2|
82557315|NCT02307682|164824496|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.5|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.3|-8.5|
82557316|NCT02307682|164824496|OTHER||Difference in proportions|4.0|||||TWO_SIDED|95.0|-2.4|10.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||10.2|-2.4|
82557317|NCT02307682|164824496|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-5.1|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.8|-5.1|
82557318|NCT02307682|164824496|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-2.5|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||9.6|-2.5|
82557319|NCT02307682|164824496|OTHER||Difference in proportions|2.4|||||TWO_SIDED|95.0|-3.5|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||9.0|-3.5|
82557320|NCT02307682|164824496|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-3.0|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||9.0|-3.0|
82557321|NCT02307682|164824496|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||6.4|-5.8|
82557322|NCT02307682|164824496|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-6.6|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.5|-6.6|
82557323|NCT02307682|164824496|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-6.0|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||6.1|-6.0|
82557324|NCT02307682|164824496|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-2.8|9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||9.5|-2.8|
82557325|NCT02307682|164824496|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-4.3|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.0|-4.3|
82651635|NCT00415532|165017953|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0246||||||Significant level is set at 0.05|Mixed Models Analysis|||||||0.0246
82651636|NCT01798485|165017954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111||||0.3293|TWO_SIDED|95.0|0.899|1.372|||Log Rank|P-value was from stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||Primary study hypothesis was tested at a 2-sided, 0.05 significance level using a stratified log-rank test.||1.372|0.899|0.3293
82557326|NCT02307682|164824496|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.7|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||7.8|-4.7|
82557327|NCT02307682|164824496|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.8|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||9.0|-3.8|
82557328|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|95.0|-24.2|8.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||8.4|-24.2|
82557329|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-16.5|STANDARD_ERROR_OF_MEAN|7.86|||TWO_SIDED|95.0|-31.9|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||-1.1|-31.9|
82557330|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-13.7|STANDARD_ERROR_OF_MEAN|8.51|||TWO_SIDED|95.0|-30.4|3.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||3.0|-30.4|
82557331|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-19.0|STANDARD_ERROR_OF_MEAN|8.16|||TWO_SIDED|95.0|-35.0|-2.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||-2.9|-35.0|
82557332|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-19.7|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-36.3|-3.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||-3.1|-36.3|
82557333|NCT02307682|164824497|OTHER||Least Squares Mean Difference|-24.5|STANDARD_ERROR_OF_MEAN|8.24|||TWO_SIDED|95.0|-40.7|-8.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-8.3|-40.7|
82557334|NCT02307682|164824497|SUPERIORITY||Least Squares Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|9.24||0.0159|TWO_SIDED|95.0|-38.0|-1.7||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||-1.7|-38.0|0.0159
82582643|NCT02084056|164876663|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|95.49|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|89.73|101.62|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'|Ratio of (FDC 2000 fasted/ L+M 2000 fasted)|||101.62|89.73|<0.0001
82582644|NCT02084056|164876663|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratios of the geometric means (FDC/free combination) using an acceptance range of 80.00 to 125.00%.|Adjusted Geometric Means ratio|98.19|STANDARD_ERROR_OF_MEAN|1.05||0.0002|TWO_SIDED|90.0|90.73|106.27|||ANOVA|ANOVA on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|Ratio of (FDC 2000 fed/ L+M 2000 fed)|||106.27|90.73|0.0002
82557335|NCT02307682|164824497|SUPERIORITY||Least Squares Mean Difference|-27.8|STANDARD_ERROR_OF_MEAN|8.8||0.0008|TWO_SIDED|95.0|-45.1|-10.5||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||-10.5|-45.1|0.0008
82557336|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|8.69|||TWO_SIDED|95.0|-11.8|22.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||22.3|-11.8|
82557337|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|8.8|||TWO_SIDED|95.0|-14.1|20.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||20.5|-14.1|
82557338|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-25.8|STANDARD_ERROR_OF_MEAN|9.44|||TWO_SIDED|95.0|-44.3|-7.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||-7.2|-44.3|
82557339|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-29.6|STANDARD_ERROR_OF_MEAN|9.13|||TWO_SIDED|95.0|-47.5|-11.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||-11.6|-47.5|
82582645|NCT01445301|164876712|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.0|||<|0.001|TWO_SIDED|95.0|-15.0|-7.0|||ANCOVA|||||-7.0|-15.0|<0.001
82582646|NCT01445301|164876712|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-8.2|||<|0.001|TWO_SIDED|95.0|-12.9|-3.6|||ANCOVA|||||-3.6|-12.9|<0.001
82651637|NCT01798485|165017954|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.111|||||TWO_SIDED|99.5|0.821|1.503||||||"Futility analysis for the first Interim Analysis which had a database cutoff of 19 October 2015. For the first interim analysis, if the lower limit of the 2-sided 99.5% confidence interval (CI) for the Hazard Ratio was greater than 0.75, then the study could be stopped for futility, based on Data Monitoring Committee recommendation.~Hazard ratio and 99.5% CI were calculated using the stratified Cox Proportional Hazards model (strata: screening LDH, screening ECOG and geographic region)."||1.503|0.821|
82651638|NCT01798485|165017955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.161||||0.118|TWO_SIDED|95.0|0.961|1.403||Significance level of 0.05.|Log Rank|Stratified log-rank test with stratification variables, ECOG, screening total LDH levels, and geographic region, used to compare the treatment groups.||||1.403|0.961|0.1180
82651639|NCT01798485|165017956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.232||||0.2506|TWO_SIDED|95.0|0.865|1.754||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening ECOG and geographic region).||||1.754|0.865|0.2506
82557340|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-11.6|STANDARD_ERROR_OF_MEAN|8.96|||TWO_SIDED|95.0|-29.2|5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||5.9|-29.2|
82557341|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-12.1|STANDARD_ERROR_OF_MEAN|8.98|||TWO_SIDED|95.0|-29.8|5.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||5.5|-29.8|
82557342|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-20.1|STANDARD_ERROR_OF_MEAN|9.91|||TWO_SIDED|95.0|-39.6|-0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||-0.7|-39.6|
82557343|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|9.64|||TWO_SIDED|95.0|-42.1|-4.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||-4.2|-42.1|
82557344|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|9.24|||TWO_SIDED|95.0|-35.5|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||0.7|-35.5|
82557345|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-19.6|STANDARD_ERROR_OF_MEAN|9.14|||TWO_SIDED|95.0|-37.6|-1.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||-1.7|-37.6|
82557346|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|9.83|||TWO_SIDED|95.0|-46.6|-8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||-8.0|-46.6|
82557347|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-29.5|STANDARD_ERROR_OF_MEAN|9.5|||TWO_SIDED|95.0|-48.2|-10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||-10.9|-48.2|
82557348|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-9.3|STANDARD_ERROR_OF_MEAN|9.27|||TWO_SIDED|95.0|-27.5|8.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||8.9|-27.5|
82557349|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-11.4|STANDARD_ERROR_OF_MEAN|9.64|||TWO_SIDED|95.0|-30.3|7.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||7.5|-30.3|
82557350|NCT02307682|164824497|SUPERIORITY||Least Squares Mean Difference|-23.9|STANDARD_ERROR_OF_MEAN|9.79||0.0075|TWO_SIDED|95.0|-43.1|-4.6||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||-4.6|-43.1|0.0075
82557351|NCT02307682|164824497|SUPERIORITY||Least Squares Mean Difference|-29.0|STANDARD_ERROR_OF_MEAN|9.47||0.0012|TWO_SIDED|95.0|-47.6|-10.4||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||-10.4|-47.6|0.0012
82557352|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-15.6|STANDARD_ERROR_OF_MEAN|9.17|||TWO_SIDED|95.0|-33.6|2.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||2.4|-33.6|
82557353|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-15.1|STANDARD_ERROR_OF_MEAN|9.35|||TWO_SIDED|95.0|-33.4|3.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||3.3|-33.4|
82557354|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|9.62|||TWO_SIDED|95.0|-38.9|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||-1.1|-38.9|
82651640|NCT01798485|165017957|SUPERIORITY_OR_OTHER|||||||0.448|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||||||0.448
82651641|NCT01798485|165017958|SUPERIORITY_OR_OTHER|||||||0.339|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||\>= 6 weeks||||0.339
82486838|NCT03438383|164667997|SUPERIORITY|We checked for equivalence of the pre-op (baseline) values between the two groups. We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.001||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.001
82557355|NCT02307682|164824497|OTHER||Least Squares Mean Difference|-20.0|STANDARD_ERROR_OF_MEAN|9.86|||TWO_SIDED|95.0|-39.4|-0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||-0.7|-39.4|
82557356|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-18.8|STANDARD_ERROR_OF_MEAN|9.3|||TWO_SIDED|95.0|-37.0|-0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||-0.5|-37.0|
82557357|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-12.7|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-31.4|6.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||6.1|-31.4|
82557358|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|9.96|||TWO_SIDED|95.0|-46.7|-7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||-7.6|-46.7|
82557359|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-22.5|STANDARD_ERROR_OF_MEAN|9.73|||TWO_SIDED|95.0|-41.6|-3.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||-3.4|-41.6|
82557360|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-14.9|STANDARD_ERROR_OF_MEAN|9.6|||TWO_SIDED|95.0|-33.8|3.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||3.9|-33.8|
82557361|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-13.2|STANDARD_ERROR_OF_MEAN|9.88|||TWO_SIDED|95.0|-32.6|6.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||6.2|-32.6|
82557362|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|9.89|||TWO_SIDED|95.0|-49.3|-10.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||-10.5|-49.3|
82557363|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-26.4|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-46.0|-6.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||-6.8|-46.0|
82557364|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|9.62|||TWO_SIDED|95.0|-38.2|-0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||-0.4|-38.2|
82557365|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-15.7|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-35.0|3.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||3.7|-35.0|
82557366|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-24.8|STANDARD_ERROR_OF_MEAN|10.34|||TWO_SIDED|95.0|-45.0|-4.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||-4.5|-45.0|
82557367|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|10.32|||TWO_SIDED|95.0|-43.9|-3.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||-3.4|-43.9|
82557368|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|9.65|||TWO_SIDED|95.0|-38.4|-0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||-0.5|-38.4|
82557369|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-11.8|STANDARD_ERROR_OF_MEAN|10.05|||TWO_SIDED|95.0|-31.5|8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||8.0|-31.5|
82557370|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-27.3|STANDARD_ERROR_OF_MEAN|10.16|||TWO_SIDED|95.0|-47.3|-7.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||-7.4|-47.3|
82557371|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-24.2|STANDARD_ERROR_OF_MEAN|10.22|||TWO_SIDED|95.0|-44.3|-4.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||-4.2|-44.3|
82651642|NCT01798485|165017958|SUPERIORITY_OR_OTHER|||||||0.817|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||\>= 12 weeks||||0.817
82557372|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-15.1|STANDARD_ERROR_OF_MEAN|9.7|||TWO_SIDED|95.0|-34.2|3.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||3.9|-34.2|
82557373|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-12.5|STANDARD_ERROR_OF_MEAN|9.99|||TWO_SIDED|95.0|-32.1|7.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||7.1|-32.1|
82557374|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-30.9|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-50.6|-11.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||-11.3|-50.6|
82557375|NCT02307682|164824497|OTHER|Treatment difference|Least Squares Mean Difference|-26.0|STANDARD_ERROR_OF_MEAN|10.28|||TWO_SIDED|95.0|-46.2|-5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-5.9|-46.2|
82557376|NCT02307682|164824498|SUPERIORITY||Least Squares Mean Difference|-19.5|STANDARD_ERROR_OF_MEAN|9.29||0.0183|TWO_SIDED|95.0|-37.7|-1.2||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||-1.2|-37.7|0.0183
82557377|NCT02307682|164824498|SUPERIORITY||Least Squares Mean Difference|-22.4|STANDARD_ERROR_OF_MEAN|9.19||0.0075|TWO_SIDED|95.0|-40.4|-4.4||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-4.4|-40.4|0.0075
82557378|NCT02307682|164824499|OTHER|Treatment difference|Least Squares Mean Difference|-23.2|STANDARD_ERROR_OF_MEAN|9.76|||TWO_SIDED|95.0|-42.4|-4.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|||-4.1|-42.4|
82557379|NCT02307682|164824499|OTHER|Treatment difference|Least Squares Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|10.0|||TWO_SIDED|95.0|-38.3|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.0|-38.3|
82557380|NCT02307682|164824500|OTHER|Treatment difference|Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|8.5|||TWO_SIDED|95.0|-32.6|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 48||0.7|-32.6|
82557381|NCT02307682|164824500|OTHER|Treatment difference|Least Squares Mean Difference|-19.9|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-36.5|-3.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||-3.3|-36.5|
82557382|NCT02307682|164824500|OTHER|Treatment difference|Least Squares Mean Difference|-18.9|STANDARD_ERROR_OF_MEAN|8.87|||TWO_SIDED|95.0|-36.4|-1.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4 to Week 96||-1.5|-36.4|
82557383|NCT02307682|164824500|OTHER|Treatment difference|Least Squares Mean Difference|-19.3|STANDARD_ERROR_OF_MEAN|8.93|||TWO_SIDED|95.0|-36.9|-1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||-1.8|-36.9|
82557384|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-0.8|0.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||0.1|-0.8|
82557385|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|95.0|-1.0|-0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-0.2|-1.0|
82557386|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|-1.1|-0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||-0.2|-1.1|
82557387|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.9|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||0.0|-0.9|
82557388|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|95.0|-1.3|-0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||-0.3|-1.3|
82557389|NCT02307682|164824501|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|-1.1|-0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-0.3|-1.1|
82651643|NCT01798485|165017959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.344||||0.0111|TWO_SIDED|95.0|1.207|4.551||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||||4.551|1.207|0.0111
82486839|NCT03438383|164667998|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.75||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.75
82486840|NCT03438383|164667998|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.09||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.09
82486841|NCT03438383|164667998|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.008||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 h post-operatively||||0.008
82486842|NCT03438383|164667998|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.013||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.013
82486843|NCT03438383|164667999|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.05||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.05
82486844|NCT03438383|164667999|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.55||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.55
82486845|NCT03438383|164667999|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.13||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48h post-operatively||||0.13
82486846|NCT03438383|164667999|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.011||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.011
82486847|NCT03438383|164668000|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) quantitative research sample size calculator (available online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.83||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h before surgery (pre-operative or baseline values)||||0.83
82486848|NCT03438383|164668000|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.37||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||24 h post-operatively||||0.37
82557390|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.31|||TWO_SIDED|95.0|-3.3|17.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 4||17.5|-3.3|
82557391|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|5.37|||TWO_SIDED|95.0|-10.2|10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||10.9|-10.2|
82557392|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|5.35|||TWO_SIDED|95.0|-8.4|12.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 8||12.6|-8.4|
82651644|NCT01798485|165017960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.112||||0.5191|TWO_SIDED|95.0|0.797|1.551||Significance level of 0.05.|Log Rank|P-value was from stratified log-rank test (strata: screening ECOG and geographic region).||||1.551|0.797|0.5191
82651645|NCT01798485|165017963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.233||||0.1343|TWO_SIDED|95.0|0.937|1.621||Significance level of 0.05.|Log Rank|Stratified log-rank test (strata: screening LDH, screening ECOG and geographic region).||||1.621|0.937|0.1343
82651646|NCT01798485|165017964|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|||||Significance level of 0.05.|Fisher Exact|||||||0.250
82651647|NCT01945138|165018090|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82557393|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|5.52|||TWO_SIDED|95.0|-12.5|9.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||9.2|-12.5|
82557394|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.38|||TWO_SIDED|95.0|-11.2|10.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 12||10.0|-11.2|
82557395|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|5.55|||TWO_SIDED|95.0|-13.9|7.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||7.9|-13.9|
82557396|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-11.1|11.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 16||11.4|-11.1|
82557397|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-16.1|6.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||6.5|-16.1|
82557398|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|9.3|STANDARD_ERROR_OF_MEAN|5.56|||TWO_SIDED|95.0|-1.6|20.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 20||20.3|-1.6|
82557399|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|5.58|||TWO_SIDED|95.0|-3.4|18.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||18.5|-3.4|
82557400|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|5.68|||TWO_SIDED|95.0|-14.7|7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||7.6|-14.7|
82557401|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-17.9|5.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||5.3|-17.9|
82557402|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|5.51|||TWO_SIDED|95.0|-8.8|12.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 28||12.9|-8.8|
82557403|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-8.7|13.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||13.8|-8.7|
82557404|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|5.73|||TWO_SIDED|95.0|-8.4|14.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 32||14.1|-8.4|
82557405|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|5.92|||TWO_SIDED|95.0|-11.7|11.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||11.5|-11.7|
82557406|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|5.7|||TWO_SIDED|95.0|-8.8|13.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 36||13.6|-8.8|
82557407|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-12.2|10.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||10.9|-12.2|
82557408|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|5.71|||TWO_SIDED|95.0|-10.7|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 40||11.7|-10.7|
82582647|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-3.0|||<|0.001|TWO_SIDED|95.0|-4.4|-1.5|||ANCOVA|||WEEK 1||-1.5|-4.4|<0.001
82651648|NCT01945138|165018091|SUPERIORITY_OR_OTHER|||||||0.115|TWO_SIDED||||||t-test, 2 sided|||||||0.115
82651649|NCT01945138|165018092|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||t-test, 2 sided|||||||0.193
82651650|NCT01945138|165018093|SUPERIORITY_OR_OTHER|||||||0.848|TWO_SIDED||||||t-test, 2 sided|||||||0.848
82651651|NCT01945138|165018094|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||t-test, 2 sided|||||||0.074
82651652|NCT01945138|165018095|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED||||||t-test, 2 sided|||||||0.38
82651653|NCT01945138|165018096|SUPERIORITY_OR_OTHER|||||||0.461|TWO_SIDED||||||t-test, 2 sided|||||||0.461
82557409|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|5.83|||TWO_SIDED|95.0|-15.0|7.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||7.8|-15.0|
82557410|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|5.62|||TWO_SIDED|95.0|-6.1|15.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 44||15.9|-6.1|
82557411|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-10.0|13.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||13.1|-10.0|
82557412|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|5.76|||TWO_SIDED|95.0|-10.5|12.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||12.1|-10.5|
82557413|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.93|||TWO_SIDED|95.0|-12.2|11.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||11.1|-12.2|
82557414|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|5.77|||TWO_SIDED|95.0|-9.5|13.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 52||13.2|-9.5|
82557415|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|6.04|||TWO_SIDED|95.0|-10.6|13.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||13.1|-10.6|
82557416|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-10.6|12.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 56||12.4|-10.6|
82557417|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-10.4|13.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||13.5|-10.4|
82557418|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-11.9|11.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 60||11.2|-11.9|
82557419|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|6.17|||TWO_SIDED|95.0|-9.7|14.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||14.6|-9.7|
82557420|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-11.7|11.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 64||11.3|-11.7|
82557421|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|6.09|||TWO_SIDED|95.0|-12.2|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||11.7|-12.2|
82557422|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-9.3|13.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 68||13.9|-9.3|
82557423|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|6.08|||TWO_SIDED|95.0|-9.8|14.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||14.0|-9.8|
82557424|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-14.5|8.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||8.7|-14.5|
82557425|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|6.06|||TWO_SIDED|95.0|-13.7|10.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||10.1|-13.7|
82557426|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|-10.0|13.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 76||13.7|-10.0|
82651654|NCT01945138|165018097|SUPERIORITY_OR_OTHER|||||||0.205|TWO_SIDED||||||t-test, 2 sided|||||||0.205
82651655|NCT01945138|165018098|SUPERIORITY_OR_OTHER|||||||0.157|TWO_SIDED||||||t-test, 2 sided|||||||0.157
82651656|NCT01945138|165018099|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED||||||t-test, 2 sided|||||||0.443
82557427|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|6.13|||TWO_SIDED|95.0|-12.2|11.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||11.8|-12.2|
82557428|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|6.05|||TWO_SIDED|95.0|-9.1|14.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 80||14.7|-9.1|
82557429|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|6.01|||TWO_SIDED|95.0|-11.3|12.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||12.3|-11.3|
82557430|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|5.95|||TWO_SIDED|95.0|-11.9|11.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 84||11.5|-11.9|
82557431|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|6.04|||TWO_SIDED|95.0|-12.0|11.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||11.7|-12.0|
82557432|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|5.86|||TWO_SIDED|95.0|-13.2|9.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 88||9.8|-13.2|
82557433|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|95.0|-12.6|11.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||11.0|-12.6|
82557434|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|5.87|||TWO_SIDED|95.0|-9.8|13.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 92||13.3|-9.8|
82557435|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|6.09|||TWO_SIDED|95.0|-11.1|12.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||12.8|-11.1|
82557436|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|5.91|||TWO_SIDED|95.0|-15.6|7.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||7.6|-15.6|
82557437|NCT02307682|164824502|OTHER|Treatment difference|Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|6.07|||TWO_SIDED|95.0|-15.8|8.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFTns categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||8.0|-15.8|
82557438|NCT02307682|164824503|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-16.4|-3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-3.3|-16.4|
82557439|NCT02307682|164824503|OTHER||Difference in proportions|-14.2|||||TWO_SIDED|95.0|-21.3|-7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-7.3|-21.3|
82557440|NCT02307682|164824503|OTHER||Difference in proportions|-8.4|||||TWO_SIDED|95.0|-14.6|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.2|-14.6|
82557441|NCT02307682|164824503|OTHER||Difference in proportions|-15.0|||||TWO_SIDED|95.0|-20.9|-9.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-9.5|-20.9|
82557442|NCT02307682|164824503|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-13.8|-2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.4|-13.8|
82557443|NCT02307682|164824503|OTHER||Difference in proportions|-14.0|||||TWO_SIDED|95.0|-18.9|-8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-8.7|-18.9|
82651657|NCT01945138|165018100|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.04
82651658|NCT01945138|165018101|SUPERIORITY_OR_OTHER|||||||0.401|TWO_SIDED||||||t-test, 2 sided|||||||0.401
82651659|NCT01945138|165018102|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||t-test, 2 sided|||||||0.22
82651660|NCT01945138|165018103|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||t-test, 2 sided|||||||0.325
82486849|NCT03438383|164668000|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||0.0035||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||48 h post-operatively||||0.0035
82486850|NCT03438383|164668000|SUPERIORITY|We computed (post-hoc) the observed power of the performed tests (ANOVA for repeated measures). We confirmed that the specific sample size, as calculated using the Do-it-Yourself (DiY) sample size calculator (online at: https://blog.exmr.net/ sample-size-calculator) by considering a confidence level of 95% and a 10% margin of error, yielded adequate statistical power (\> 80%) for each of the examined variables.||||||1.5e-05||||||The a priori threshold for statistical significance was set at \<0.05|ANOVA|||72 h post-operatively||||0.000015
82486851|NCT05098938|164668039|SUPERIORITY|||||||0.716|||||||Log Rank|||||||0.716
82486852|NCT05098938|164668040|SUPERIORITY|||||||0.102|||||||Chi-squared|||||||0.102
82486853|NCT05098938|164668041|SUPERIORITY|||||||0.712|||||||Chi-squared|||||||0.712
82486854|NCT05098938|164668042|SUPERIORITY|||||||0.575|||||||Log Rank|||||||0.575
82486855|NCT02053051|164668059|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82486856|NCT00537238|164668062|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the difference in proportion (Pregabalin - Levetiracetam) was greater than -0.12.|Difference in Proportion|0.0|||||TWO_SIDED|90.0|-0.08|0.09||||||||0.09|-0.08|
82486857|NCT00537238|164668063|SUPERIORITY_OR_OTHER_LEGACY||Median difference|4.1||||0.3571|TWO_SIDED|95.0|-2.6|10.9|||Ranked ANCOVA|||Rank analysis of covariance (ANCOVA) model was used to derive p-value with treatment as main effect and cluster as cofactor, percent change in 28-day seizure counts between baseline and treatment periods as dependent variable. Median differences and 95% confidence interval (CI) were based on Hodges-Lehmann estimation.||10.9|-2.6|0.3571
82486858|NCT00537238|164668065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0822|TWO_SIDED||||||Fisher Exact|||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.0822
82486859|NCT00537238|164668065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9175|TWO_SIDED||||||Fisher Exact|||Simple partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.9175
82486860|NCT00537238|164668065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0483|TWO_SIDED||||||Fisher Exact|||Complex partial seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.0483
82486861|NCT00537238|164668065|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7139|TWO_SIDED||||||Fisher Exact|||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.||||0.7139
82486862|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|1.17|STANDARD_ERROR_OF_MEAN|0.78||0.1334|TWO_SIDED|95.0|-0.36|2.69|||ANCOVA|||Baseline, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||2.69|-0.36|0.1334
82486863|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.17|STANDARD_ERROR_OF_MEAN|0.18||0.3551|TWO_SIDED|95.0|-0.19|0.52|||ANCOVA|||Baseline, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.52|-0.19|0.3551
82486864|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.46|STANDARD_ERROR_OF_MEAN|0.5||0.3638|TWO_SIDED|95.0|-1.45|0.53|||ANCOVA|||Change at Week 7, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.53|-1.45|0.3638
82486865|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.2457|TWO_SIDED|95.0|-0.34|0.09|||ANCOVA|||Change at Week 7, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.09|-0.34|0.2457
82486866|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.23|STANDARD_ERROR_OF_MEAN|0.53||0.664|TWO_SIDED|95.0|-1.26|0.81|||ANCOVA|||Change at Week 10, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.81|-1.26|0.6640
82486867|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.06|STANDARD_ERROR_OF_MEAN|0.12||0.595|TWO_SIDED|95.0|-0.3|0.17|||ANCOVA|||Change at Week 10, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.17|-0.30|0.5950
82486868|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.31|STANDARD_ERROR_OF_MEAN|0.55||0.5701|TWO_SIDED|95.0|-1.38|0.76|||ANCOVA|||Change at Week 13, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.76|-1.38|0.5701
82486869|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.12|STANDARD_ERROR_OF_MEAN|0.1||0.2452|TWO_SIDED|95.0|-0.33|0.08|||ANCOVA|||Change at Week 13, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.08|-0.33|0.2452
82486870|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.77|STANDARD_ERROR_OF_MEAN|0.56||0.1697|TWO_SIDED|95.0|-1.88|0.33|||ANCOVA|||Change at Week 16, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.33|-1.88|0.1697
82486871|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.14|STANDARD_ERROR_OF_MEAN|0.11||0.2283|TWO_SIDED|95.0|-0.36|0.09|||ANCOVA|||Change at Week 16, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.09|-0.36|0.2283
82651661|NCT01945138|165018104|SUPERIORITY_OR_OTHER|||||||0.311|TWO_SIDED||||||t-test, 2 sided|||||||0.311
82486872|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.35|STANDARD_ERROR_OF_MEAN|0.61||0.0262|TWO_SIDED|95.0|-2.54|-0.16|||ANCOVA|||Change at Follow-up, total BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||-0.16|-2.54|0.0262
82486873|NCT00537238|164668066|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.26|STANDARD_ERROR_OF_MEAN|0.13||0.0495|TWO_SIDED|95.0|-0.52|0.0|||ANCOVA|||Change at Follow-up, core BPRS score: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.00|-0.52|0.0495
82486874|NCT00537238|164668067|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.09|STANDARD_ERROR_OF_MEAN|0.37||0.8084|TWO_SIDED|95.0|-0.82|0.64|||ANCOVA|||Baseline, HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.64|-0.82|0.8084
82486875|NCT00537238|164668067|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.22|STANDARD_ERROR_OF_MEAN|0.35||0.5263|TWO_SIDED|95.0|-0.47|0.91|||ANCOVA|||Baseline, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.91|-0.47|0.5263
82486876|NCT00537238|164668067|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.25|STANDARD_ERROR_OF_MEAN|0.3||0.4008|TWO_SIDED|95.0|-0.34|0.85|||ANCOVA|||Week 16, HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.85|-0.34|0.4008
82486877|NCT00537238|164668067|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.01|STANDARD_ERROR_OF_MEAN|0.3||0.9749|TWO_SIDED|95.0|-0.61|0.59|||ANCOVA|||Week 16, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.59|-0.61|0.9749
82486878|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.03|STANDARD_ERROR_OF_MEAN|2.06||0.6161|TWO_SIDED|95.0|-5.08|3.01|||ANCOVA|||Baseline sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.01|-5.08|0.6161
82486879|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.63|STANDARD_ERROR_OF_MEAN|1.62||0.3154|TWO_SIDED|95.0|-4.83|1.56|||ANCOVA|||Week 16 sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||1.56|-4.83|0.3154
82486880|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.7|STANDARD_ERROR_OF_MEAN|3.18||0.593|TWO_SIDED|95.0|-7.94|4.54|||ANCOVA|||Baseline snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||4.54|-7.94|0.5930
82486881|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|10.02|STANDARD_ERROR_OF_MEAN|2.42|<|0.0001|TWO_SIDED|95.0|5.27|14.76|||ANCOVA|||Week 16 snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||14.76|5.27|<0.0001
82557444|NCT02307682|164824503|OTHER||Difference in proportions|-10.4|||||TWO_SIDED|95.0|-16.8|-3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-3.7|-16.8|
82557445|NCT02307682|164824503|OTHER||Difference in proportions|-19.7|||||TWO_SIDED|95.0|-25.8|-13.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-13.4|-25.8|
82557446|NCT02307682|164824503|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-2.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.9|-2.0|
82557447|NCT02307682|164824503|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-4.3|7.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.9|-4.3|
82557448|NCT02307682|164824503|OTHER||Difference in proportions|-12.7|||||TWO_SIDED|95.0|-19.1|-6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-6.0|-19.1|
82582648|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-1.8||||0.113|TWO_SIDED|95.0|-4.0|0.4|||ANCOVA|||WEEK 2||0.4|-4.0|0.113
82582649|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.0||||0.084|TWO_SIDED|95.0|-4.2|0.3|||ANCOVA|||WEEK 4||0.3|-4.2|0.084
82651662|NCT00602030|165018115|SUPERIORITY||Adjusted Odds Ratio|0.72||||0.505|TWO_SIDED|95.0|0.27|1.89|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel estimation of odds ratio adjusted for the smoking history stratification factor, using placebo as reference group.|||1.89|0.27|0.505
82486882|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.54|STANDARD_ERROR_OF_MEAN|2.18||0.4807|TWO_SIDED|95.0|-5.83|2.75|||ANCOVA|||Baseline awaken short of breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||2.75|-5.83|0.4807
82557449|NCT02307682|164824503|OTHER||Difference in proportions|-23.4|||||TWO_SIDED|95.0|-29.7|-17.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-17.6|-29.7|
82557450|NCT02307682|164824503|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-8.7|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.4|-8.7|
82557451|NCT02307682|164824503|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-11.2|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||0.4|-11.2|
82557452|NCT02307682|164824503|OTHER||Difference in proportions|-7.7|||||TWO_SIDED|95.0|-14.3|-1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-1.0|-14.3|
82557453|NCT02307682|164824503|OTHER||Difference in proportions|-12.4|||||TWO_SIDED|95.0|-19.3|-6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-6.2|-19.3|
82557454|NCT02307682|164824503|OTHER||Difference in proportions|-7.8|||||TWO_SIDED|95.0|-13.2|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.2|-13.2|
82557455|NCT02307682|164824503|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-15.9|-4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-4.9|-15.9|
82557456|NCT02307682|164824503|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-11.5|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||0.9|-11.5|
82557457|NCT02307682|164824503|OTHER||Difference in proportions|-11.4|||||TWO_SIDED|95.0|-17.7|-5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-5.6|-17.7|
82557458|NCT02307682|164824503|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.1|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.7|-5.1|
82557459|NCT02307682|164824503|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.7|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||2.4|-8.7|
82557460|NCT02307682|164824503|OTHER||Difference in proportions|-11.6|||||TWO_SIDED|95.0|-17.8|-5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-5.5|-17.8|
82557461|NCT02307682|164824503|OTHER||Difference in proportions|-15.6|||||TWO_SIDED|95.0|-21.2|-9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-9.7|-21.2|
82557462|NCT02307682|164824503|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-8.0|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.0|-8.0|
82651663|NCT00602030|165018116|SUPERIORITY||Adjusted Odds Ratio|0.31||||0.13|TWO_SIDED|95.0|0.06|1.54|||Cochran-Mantel-Haenszel||Estimation of odds ratio was adjusted for the smoking history stratification factor, using placebo as reference group .|||1.54|0.06|0.13
82486883|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.88|STANDARD_ERROR_OF_MEAN|2.07||0.6708|TWO_SIDED|95.0|-3.18|4.94|||ANCOVA|||Week 16 awaken short of breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||4.94|-3.18|0.6708
82486884|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.04|STANDARD_ERROR_OF_MEAN|0.14||0.7574|TWO_SIDED|95.0|-0.32|0.24|||ANCOVA|||Baseline quantity of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||0.24|-0.32|0.7574
82486885|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.14|STANDARD_ERROR_OF_MEAN|0.12||0.2615|TWO_SIDED|95.0|-0.1|0.38|||ANCOVA|||Week 16 quantity of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||0.38|-0.10|0.2615
82486886|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-1.44|STANDARD_ERROR_OF_MEAN|2.53||0.5703|TWO_SIDED|95.0|-6.42|3.54|||ANCOVA|||Baseline adequacy of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.54|-6.42|0.5703
82486887|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-2.99|STANDARD_ERROR_OF_MEAN|2.41||0.216|TWO_SIDED|95.0|-7.74|1.75|||ANCOVA|||Week 16 adequacy of sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||1.75|-7.74|0.2160
82486888|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|1.07|STANDARD_ERROR_OF_MEAN|2.02||0.5952|TWO_SIDED|95.0|-2.89|5.03|||ANCOVA|||Baseline somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||5.03|-2.89|0.5952
82486889|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|-0.72|STANDARD_ERROR_OF_MEAN|1.87||0.6984|TWO_SIDED|95.0|-4.4|2.95|||ANCOVA|||Week 16 somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||2.95|-4.40|0.6984
82486890|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.13|STANDARD_ERROR_OF_MEAN|1.64||0.9389|TWO_SIDED|95.0|-3.09|3.34|||ANCOVA|||Baseline sleep problem index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.34|-3.09|0.9389
82486891|NCT00537238|164668068|SUPERIORITY_OR_OTHER_LEGACY||LS mean differences|0.64|STANDARD_ERROR_OF_MEAN|1.34||0.6344|TWO_SIDED|95.0|-2.0|3.27|||ANCOVA|||Week 16 sleep problem index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, for post-baseline assessments baseline was included as a covariate.||3.27|-2.00|0.6344
82486892|NCT00537238|164668069|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.016||||0.9285|TWO_SIDED|95.0|0.715|1.444|||Regression, Logistic|||Baseline: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||1.444|0.715|0.9285
82486893|NCT00537238|164668069|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.432||||0.0696|TWO_SIDED|95.0|0.972|2.11|||Regression, Logistic|||Week 16: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||2.110|0.972|0.0696
82557463|NCT02307682|164824503|OTHER||Difference in proportions|-8.6|||||TWO_SIDED|95.0|-13.7|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||-3.4|-13.7|
82557464|NCT02307682|164824503|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.6|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-0.7|-12.6|
82486894|NCT01193660|164668076|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|2.59|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486895|NCT01193660|164668077|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|3.94|||<|0.05||95.0|||||Repeated Measure ANOVA|||The null hypothesis is that in terms of K-BSID-II MENTAL Scale, the effects of 3 groups are same, and the alternative one is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486896|NCT01193660|164668078|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|2.7|||<|0.05||95.0|||||Repeated Measure ANOVA|||The null hypothesis is that in terms of K-BSID-II MOTOR Scale, the effects of 3 groups are same, and the alternative one is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486897|NCT01193660|164668080|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||95.0||||The baseline and post-therapy data of each group were compared using paired t-test statistics.|t-test, 2 sided|Voxels with an uncorrected p-value of \<0.05 were considered significant, and an extent threshold Ke of 100 voxels was set by SPM implanted in Matlab.||In our analysis, the null hypothesis is that the effects of three experimental groups are same each other, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) has much higher than that of either Erythropoietin + Rehabilitation Group or Rehabilitation Group. This study is a pilot study and therefore, power calculation was not applicable in our study. The sample size of each group is more than 30.||||0.05
82557465|NCT02307682|164824503|OTHER||Difference in proportions|-9.6|||||TWO_SIDED|95.0|-16.0|-3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-3.8|-16.0|
82557466|NCT02307682|164824503|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-9.9|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||0.7|-9.9|
82557467|NCT02307682|164824503|OTHER||Difference in proportions|-8.5|||||TWO_SIDED|95.0|-13.9|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-3.4|-13.9|
82557468|NCT02307682|164824503|OTHER||Difference in proportions|-7.4|||||TWO_SIDED|95.0|-13.1|-1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-1.2|-13.1|
82557469|NCT02307682|164824503|OTHER||Difference in proportions|-12.0|||||TWO_SIDED|95.0|-17.8|-6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-6.0|-17.8|
82557470|NCT02307682|164824503|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-2.5|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.4|-2.5|
82557471|NCT02307682|164824503|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-6.7|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.7|-6.7|
82557472|NCT02307682|164824503|OTHER||Difference in proportions|-7.5|||||TWO_SIDED|95.0|-12.8|-1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.6|-12.8|
82557473|NCT02307682|164824503|OTHER||Difference in proportions|-12.5|||||TWO_SIDED|95.0|-18.2|-7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-7.0|-18.2|
82582650|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.7||||0.026|TWO_SIDED|95.0|-5.1|-0.3|||ANCOVA|||WEEK 8||-0.3|-5.1|0.026
82582651|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-2.6||||0.03|TWO_SIDED|95.0|-5.0|-0.3|||ANCOVA|||WEEK 12||-0.3|-5.0|0.030
82582652|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-3.4||||0.028|TWO_SIDED|95.0|-6.5|-0.4|||ANCOVA|||WEEK 1||-0.4|-6.5|0.028
82557474|NCT02307682|164824503|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.0|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.5|-7.0|
82557475|NCT02307682|164824503|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.4|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||-0.7|-11.4|
82557476|NCT02307682|164824503|OTHER||Difference in proportions|-6.1|||||TWO_SIDED|95.0|-11.8|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-0.1|-11.8|
82582653|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.4||||0.004|TWO_SIDED|95.0|-9.1|-1.7|||ANCOVA|||WEEK 2||-1.7|-9.1|0.004
82582654|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Odds Ratio (OR)|-5.8||||0.003|TWO_SIDED|95.0|-9.6|-1.9|||ANCOVA|||WEEK 4||-1.9|-9.6|0.003
82582655|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.5||||0.006|TWO_SIDED|95.0|-9.4|-1.6|||ANCOVA|||WEEK 8||-1.6|-9.4|0.006
82582656|NCT01445301|164876714|NON_INFERIORITY|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-5.6||||0.005|TWO_SIDED|95.0|-9.5|-1.7|||ANCOVA|||WEEK 12||-1.7|-9.5|0.005
82486898|NCT01193660|164668082|SUPERIORITY_OR_OTHER_LEGACY||interaction of group and visit|0.9|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486899|NCT01193660|164668083|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|1.279|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486900|NCT01193660|164668084|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|0.996|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486901|NCT01193660|164668085|SUPERIORITY_OR_OTHER_LEGACY||Wilks' Lambda (group*visit effect)|0.56|||<|0.05||95.0|||||Repeated Measure ANOVA|||In our analysis, the null hypothesis is that the effects of 3 experimental groups are same, and the alternative hypothesis is that the therapeutic effect of combination intervention Group (Umbilical Cord Blood + Erythropoietin + Rehabilitation) is higher than that of either Erythropoietin + Rehabilitation or Rehabilitation Group. This is a pilot study and power calculation was not applicable. The sample size of each group is over 30 and is considered to follow approximately normal distribution.||||<0.05
82486902|NCT01193660|164668086|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Fisher Exact|We compared the ratio of participants with a certain adverse event (AE) and without the AE between three groups using Fisher Exact test.||||||<0.05
82486903|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.0018
82486904|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.2289|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.2289
82486905|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.1112|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.1112
82486906|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.4681|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.4681
82486907|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.4828|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.4828
82486908|NCT01675427|164668102|SUPERIORITY_OR_OTHER|||||||0.2702|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.2702
82486909|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.4133|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.4133
82486910|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.4400
82486911|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.8597|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.8597
82486912|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.3975|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.3975
82486913|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.1781|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.1781
82557477|NCT02307682|164824503|OTHER||Difference in proportions|-11.7|||||TWO_SIDED|95.0|-17.0|-6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-6.4|-17.0|
82486914|NCT01675427|164668103|SUPERIORITY_OR_OTHER|||||||0.3159|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.3159
82486915|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.0126|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.0126
82486916|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.7174|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.7174
82486917|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.138|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.1380
82486918|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.6258|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.6258
82486919|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.5751|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.5751
82582657|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-2.5|||<|0.001|TWO_SIDED|95.0|-3.9|-1.1|||ANCOVA|||WEEK 1||-1.1|-3.9|<0.001
82582658|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-3.2|||<|0.001|TWO_SIDED|95.0|-4.7|-1.6|||ANCOVA|||WEEK 2||-1.6|-4.7|<0.001
82486920|NCT01675427|164668104|SUPERIORITY_OR_OTHER|||||||0.1681|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.1681
82486921|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.2693|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||0.2693
82486922|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.324|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.3240
82486923|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.7006|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7006
82486924|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.0403|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.0403
82486925|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.1075|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.1075
82486926|NCT01675427|164668105|SUPERIORITY_OR_OTHER|||||||0.3295|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.3295
82486927|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.9859|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.9859
82486928|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.7055|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.7055
82486929|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0920
82486930|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.0781|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0781
82486931|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.4795|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4795
82486932|NCT01675427|164668106|SUPERIORITY_OR_OTHER|||||||0.3069|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.3069
82486933|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.5216|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.5216
82486934|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.3419|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.3419
82486935|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.7586|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.7586
82486936|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.1351|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1351
82486937|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2386
82486938|NCT01675427|164668107|SUPERIORITY_OR_OTHER|||||||0.3921|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.3921
82486939|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.8537|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8537
82486940|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.0763|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0763
82486941|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.2432|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2432
82486942|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.4247|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4247
82486943|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.4884|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4884
82486944|NCT01675427|164668108|SUPERIORITY_OR_OTHER|||||||0.6119|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.6119
82486945|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.2416|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.2416
82486946|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.2671|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2671
82486947|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.4619|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.4619
82486948|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.8364|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.8364
82486949|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.2386|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2386
82486950|NCT01675427|164668109|SUPERIORITY_OR_OTHER|||||||0.2887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2887
82486951|NCT01675427|164668110|SUPERIORITY_OR_OTHER|||||||0.0049|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.0049
82486952|NCT01675427|164668111|SUPERIORITY_OR_OTHER|||||||0.5651|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.5651
82486953|NCT01675427|164668112|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.0420
82486954|NCT01675427|164668113|SUPERIORITY_OR_OTHER|||||||0.4545|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||||||0.4545
82486955|NCT01675427|164668114|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486956|NCT01675427|164668115|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486957|NCT01675427|164668116|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486958|NCT01675427|164668117|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486959|NCT01675427|164668118|SUPERIORITY_OR_OTHER|||||||0.5468|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.5468
82486960|NCT01675427|164668119|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0020
82486961|NCT01675427|164668120|SUPERIORITY_OR_OTHER|||||||0.1623|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.1623
82486962|NCT01675427|164668121|SUPERIORITY_OR_OTHER|||||||0.0663|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0663
82486963|NCT01675427|164668122|SUPERIORITY_OR_OTHER|||||||0.2617|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.2617
82486964|NCT01675427|164668123|SUPERIORITY_OR_OTHER|||||||0.0526|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0526
82486965|NCT01675427|164668124|SUPERIORITY_OR_OTHER|||||||0.7918|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.7918
82486966|NCT01675427|164668125|SUPERIORITY_OR_OTHER|||||||0.0842|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||||||0.0842
82486967|NCT01675427|164668126|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486968|NCT01675427|164668127|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486969|NCT01675427|164668128|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82486970|NCT01675427|164668129|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82557478|NCT02307682|164824503|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.1|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.1|-10.1|
82582659|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-2.5||||0.002|TWO_SIDED|95.0|-4.1|-0.9|||ANCOVA|||WEEK 4||-0.9|-4.1|0.002
82486971|NCT01675427|164668130|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82486972|NCT01675427|164668130|SUPERIORITY_OR_OTHER|||||||0.2887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2887
82486973|NCT01675427|164668130|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
82486974|NCT01675427|164668130|SUPERIORITY_OR_OTHER|||||||0.1634|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1634
82486975|NCT01675427|164668130|SUPERIORITY_OR_OTHER|||||||0.8956|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.8956
82486976|NCT01675427|164668130|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82486977|NCT01675427|164668131|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82486978|NCT01675427|164668131|SUPERIORITY_OR_OTHER|||||||0.0145|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0145
82486979|NCT01675427|164668131|SUPERIORITY_OR_OTHER|||||||0.1027|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1027
82486980|NCT01675427|164668131|SUPERIORITY_OR_OTHER|||||||0.5998|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5998
82557479|NCT02307682|164824503|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.0|0.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||-0.0|-10.0|
82582660|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-2.7||||0.003|TWO_SIDED|95.0|-4.5|-0.9|||ANCOVA|||WEEK 8||-0.9|-4.5|0.003
82582661|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-2.8||||0.002|TWO_SIDED|95.0|-4.6|-1.0|||ANCOVA|||WEEK 12||-1.0|-4.6|0.002
82582662|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-6.0|||<|0.001|TWO_SIDED|95.0|-8.8|-3.2|||ANCOVA|||WEEK 1||-3.2|-8.8|<0.001
82582663|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-8.1|||<|0.001|TWO_SIDED|95.0|-11.4|-4.7|||ANCOVA|||WEEK 2||-4.7|-11.4|<0.001
82582664|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-9.7|||<|0.001|TWO_SIDED|95.0|-13.1|-6.2|||ANCOVA|||WEEK 4||-6.2|-13.1|<0.001
82582665|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-8.6|||<|0.001|TWO_SIDED|95.0|-12.1|-5.1|||ANCOVA|||WEEK 8||-5.1|-12.1|<0.001
82582666|NCT01445301|164876714|SUPERIORITY||Mean Difference (Net)|-8.2|||<|0.001|TWO_SIDED|95.0|-11.6|-4.8|||ANCOVA|||WEEK 12||-4.8|-11.6|<0.001
82582667|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-7.71|||<|0.001|TWO_SIDED|95.0|-11.3|-4.12|||ANCOVA|||Total Lesion Counts, WEEK 1||-4.12|-11.30|<0.001
82582668|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-8.51|||<|0.001|TWO_SIDED|95.0|-13.24|-3.77|||ANCOVA|||Total Lesion Counts, WEEK 2||-3.77|-13.24|<0.001
82582669|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.89|||<|0.001|TWO_SIDED|95.0|-13.37|-4.41|||ANCOVA|||Total Lesion Counts, WEEK 4||-4.41|-13.37|<0.001
82582670|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.12|||<|0.001|TWO_SIDED|95.0|-13.82|-4.43|||ANCOVA|||Total Lesion Counts, WEEK 8||-4.43|-13.82|<0.001
82486981|NCT01675427|164668131|SUPERIORITY_OR_OTHER|||||||0.2935|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2935
82582671|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.43|||<|0.001|TWO_SIDED|95.0|-14.11|-4.75|||ANCOVA|||Total Lesion Counts, WEEK 12||-4.75|-14.11|<0.001
82582672|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-10.54|||<|0.001|TWO_SIDED|95.0|-15.12|-5.97|||ANCOVA|||Inflammatory Lesion Counts, WEEK 1||-5.97|-15.12|<0.001
82582673|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established|Mean Difference (Net)|-7.21||||0.011|TWO_SIDED|95.0|-12.73|-1.69|||ANCOVA|||Inflammatory Lesion Counts, WEEK 2||-1.69|-12.73|0.011
82582674|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-7.64||||0.005|TWO_SIDED|95.0|-12.93|-2.35|||ANCOVA|||Inflammatory Lesion Counts, WEEK 4||-2.35|-12.93|0.005
82582675|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.73||||0.002|TWO_SIDED|95.0|-14.2|-3.26|||ANCOVA|||Inflammatory Lesion Counts, WEEK 8||-3.26|-14.20|0.002
82582676|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.2||||0.002|TWO_SIDED|95.0|-13.34|-3.06|||ANCOVA|||Inflammatory Lesion Counts, WEEK 12||-3.06|-13.34|0.002
82582677|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-5.8||||0.011|TWO_SIDED|95.0|-10.29|-1.32|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 1||-1.32|-10.29|0.011
82582678|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.3||||0.005|TWO_SIDED|95.0|-14.1|-2.5|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 2||-2.50|-14.10|0.005
82486982|NCT01675427|164668131|SUPERIORITY_OR_OTHER|||||||0.0039|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0039
82486983|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.1981|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.1981
82582679|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.27|||<|0.001|TWO_SIDED|95.0|-14.72|-3.83|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 4||-3.83|-14.72|<0.001
82582680|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-8.84||||0.002|TWO_SIDED|95.0|-14.28|-3.39|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 8||-3.39|-14.28|0.002
82582681|NCT01445301|164876715|NON_INFERIORITY_OR_EQUIVALENCE|If the upper 95% confidence was less than the pre-defined threshold (-Δ \[non-inferiority margin, -3.8\]) of 3.8, non-inferiority of GSK2585823 once daily to CLDM twice daily would be established.|Mean Difference (Net)|-9.68|||<|0.001|TWO_SIDED|95.0|-15.06|-4.3|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 12||-4.30|-15.06|<0.001
82486984|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.1616|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1616
82486985|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.1192|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1192
82486986|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.4485|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4485
82486987|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.1525|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1525
82486988|NCT01675427|164668132|SUPERIORITY_OR_OTHER|||||||0.7262|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.7262
82486989|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.0911|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0911
82486990|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.4674|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.4674
82486991|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.1604|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1604
82486992|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.5937|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5937
82486993|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3830
82486994|NCT01675427|164668133|SUPERIORITY_OR_OTHER|||||||0.0507|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0507
82486995|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.8686|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8686
82486996|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.3135|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.3135
82486997|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.0578|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0578
82486998|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.5833|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5833
82557480|NCT02307682|164824503|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-11.7|0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||0.5|-11.7|
82557481|NCT02307682|164824503|OTHER||Difference in proportions|-11.7|||||TWO_SIDED|95.0|-17.3|-6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-6.3|-17.3|
82582682|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-12.32|-5.48|||ANCOVA|||Total Lesion Counts, WEEK 1||-5.48|-12.32|<0.001
82486999|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1610
82487000|NCT01675427|164668134|SUPERIORITY_OR_OTHER|||||||0.2925|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2925
82487001|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.3709|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.3709
82487002|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.2054|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2054
82487003|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.8457|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.8457
82487004|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.3492|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3492
82487005|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.2846|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2846
82487006|NCT01675427|164668135|SUPERIORITY_OR_OTHER|||||||0.2646|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.2646
82487007|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.5348|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.5348
82487008|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.5469|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.5469
82487009|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.0463|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0463
82487010|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.9393|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.9393
82487011|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.3404|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3404
82557482|NCT02307682|164824503|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.0|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.5|-4.0|
82557483|NCT02307682|164824503|OTHER||Difference in proportions|-5.0|||||TWO_SIDED|95.0|-9.7|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||-0.3|-9.7|
82557484|NCT02307682|164824503|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-11.4|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-0.1|-11.4|
82557485|NCT02307682|164824503|OTHER||Difference in proportions|-11.1|||||TWO_SIDED|95.0|-16.4|-6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-6.2|-16.4|
82557486|NCT02307682|164824504|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-7.9|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-7.9|
82557487|NCT02307682|164824504|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.1|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||7.4|-4.1|
82557488|NCT02307682|164824504|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-10.0|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.3|-10.0|
82557489|NCT02307682|164824504|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-7.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||4.5|-7.7|
82557490|NCT02307682|164824504|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-7.6|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.3|-7.6|
82557491|NCT02307682|164824504|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.4|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||5.8|-5.4|
82487012|NCT01675427|164668136|SUPERIORITY_OR_OTHER|||||||0.4237|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.4237
82557492|NCT02307682|164824504|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.3|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.6|-8.3|
82487013|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.251|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.2510
82557493|NCT02307682|164824504|OTHER||Difference in proportions|-4.3|||||TWO_SIDED|95.0|-10.0|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||1.9|-10.0|
82557494|NCT02307682|164824504|OTHER||Difference in proportions|10.6|||||TWO_SIDED|95.0|5.0|16.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||16.2|5.0|
82557495|NCT02307682|164824504|OTHER||Difference in proportions|10.0|||||TWO_SIDED|95.0|4.7|15.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||15.4|4.7|
82557496|NCT02307682|164824504|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.8|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||1.7|-9.8|
82557497|NCT02307682|164824504|OTHER||Difference in proportions|-9.0|||||TWO_SIDED|95.0|-14.9|-3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.0|-14.9|
82582683|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-11.17|||<|0.001|TWO_SIDED|95.0|-15.18|-7.16|||ANCOVA|||Total Lesion Counts, WEEK 2||-7.16|-15.18|<0.001
82557498|NCT02307682|164824504|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-2.1|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||8.4|-2.1|
82557499|NCT02307682|164824504|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.3|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||5.1|-6.3|
82557500|NCT02307682|164824504|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-5.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||6.1|-5.8|
82557501|NCT02307682|164824504|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.5|-8.4|
82557502|NCT02307682|164824504|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-6.4|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.4|-6.4|
82557503|NCT02307682|164824504|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.8|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.0|-7.8|
82557504|NCT02307682|164824504|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.6|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.7|-9.6|
82557505|NCT02307682|164824504|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-10.2|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.9|-10.2|
82557506|NCT02307682|164824504|OTHER||Difference in proportions|4.6|||||TWO_SIDED|95.0|-1.0|9.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||9.9|-1.0|
82557507|NCT02307682|164824504|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.3|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.5|-3.3|
82557508|NCT02307682|164824504|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-6.2|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.1|-6.2|
82557509|NCT02307682|164824504|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.4|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.5|-6.4|
82557510|NCT02307682|164824504|OTHER||Difference in proportions|3.3|||||TWO_SIDED|95.0|-2.2|8.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.7|-2.2|
82487014|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.2943|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2943
82557511|NCT02307682|164824504|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-3.2|7.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||7.4|-3.2|
82557512|NCT02307682|164824504|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-3.5|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||8.1|-3.5|
82557513|NCT02307682|164824504|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-5.8|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.8|-5.8|
82557514|NCT02307682|164824504|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-6.6|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.8|-6.6|
82557515|NCT02307682|164824504|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.8|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.1|-5.8|
82557516|NCT02307682|164824504|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-6.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.1|-6.4|
82557517|NCT02307682|164824504|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-8.7|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||2.6|-8.7|
82557518|NCT02307682|164824504|OTHER||Difference in proportions|5.5|||||TWO_SIDED|95.0|0.3|10.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||10.7|0.3|
82557519|NCT02307682|164824504|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-3.2|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||7.2|-3.2|
82557520|NCT02307682|164824504|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.1|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.7|-6.1|
82582684|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-12.12|||<|0.001|TWO_SIDED|95.0|-15.9|-8.35|||ANCOVA|||Total Lesion Counts, WEEK 4||-8.35|-15.90|<0.001
82582685|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-11.33|||<|0.001|TWO_SIDED|95.0|-15.37|-7.3|||ANCOVA|||Total Lesion Counts, WEEK 8||-7.30|-15.37|<0.001
82557521|NCT02307682|164824504|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.0|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||1.9|-9.0|
82557522|NCT02307682|164824504|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-1.9|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.1|-1.9|
82557523|NCT02307682|164824504|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-3.9|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||6.4|-3.9|
82557524|NCT02307682|164824504|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.7|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.6|-4.7|
82557525|NCT02307682|164824504|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-5.2|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.1|-5.2|
82557526|NCT02307682|164824504|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.3|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||7.3|-3.3|
82557527|NCT02307682|164824504|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-5.7|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.8|-5.7|
82557528|NCT02307682|164824504|OTHER||Difference in proportions|3.9|||||TWO_SIDED|95.0|-1.7|9.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||9.7|-1.7|
82557529|NCT02307682|164824504|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-5.3|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||5.6|-5.3|
82582686|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-11.18|||<|0.001|TWO_SIDED|95.0|-15.11|-7.25|||ANCOVA|||Total Lesion Counts, WEEK 12||-7.25|-15.11|<0.001
82582687|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-8.32|||<|0.001|TWO_SIDED|95.0|-12.76|-3.88|||ANCOVA|||Inflammatory Lesion Counts, WEEK 1||-3.88|-12.76|<0.001
82582688|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-9.57|||<|0.001|TWO_SIDED|95.0|-13.83|-5.3|||ANCOVA|||Inflammatory Lesion Counts, WEEK 2||-5.30|-13.83|<0.001
82582689|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-7.83|||<|0.001|TWO_SIDED|95.0|-12.03|-3.62|||ANCOVA|||Inflammatory Lesion Counts, WEEK 4||-3.62|-12.03|<0.001
82582690|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-8.08|||<|0.001|TWO_SIDED|95.0|-12.63|-3.53|||ANCOVA|||Inflammatory Lesion Counts, WEEK 8||-3.53|-12.63|<0.001
82582691|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-8.56|||<|0.001|TWO_SIDED|95.0|-12.71|-4.41|||ANCOVA|||Inflammatory Lesion Counts, WEEK 12||-4.41|-12.71|<0.001
82582692|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-9.11|||<|0.001|TWO_SIDED|95.0|-13.53|-4.68|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 1||-4.68|-13.53|<0.001
82582693|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-11.05|||<|0.001|TWO_SIDED|95.0|-16.3|-5.8|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 2||-5.80|-16.30|<0.001
82582694|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-14.17|||<|0.001|TWO_SIDED|95.0|-18.97|-9.37|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 4||-9.37|-18.97|<0.001
82582695|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-13.04|||<|0.001|TWO_SIDED|95.0|-17.83|-8.25|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 8||-8.25|-17.83|<0.001
82582696|NCT01445301|164876715|SUPERIORITY||Mean Difference (Net)|-12.37|||<|0.001|TWO_SIDED|95.0|-17.05|-7.68|||ANCOVA|||Non-Inflammatory Lesion Counts, WEEK 12||-7.68|-17.05|<0.001
82651664|NCT00602030|165018117|SUPERIORITY||Adjusted Odds Ratio|1.06||||0.918|TWO_SIDED|95.0|0.34|3.27|||Cochran-Mantel-Haenszel||Estimation of odds ratio was adjusted for the smoking history stratification factor, using placebo as reference group.|||3.27|0.34|0.918
82651665|NCT01261325|165018164|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over PBO|22.8|||<|0.001|TWO_SIDED|95.0|13.3|31.2||"Type I error rate of 0.05 based on a Hochberg multiple comparison procedure would be considered statistically significant or similar, as accurate and appropriate."|ANCOVA|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||31.2|13.3|<0.001
82582697|NCT01445301|164876716|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82582698|NCT01445301|164876716|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82582699|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 1||||0.470
82582700|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 2||||0.844
82582701|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 4||||0.022
82582702|NCT01445301|164876717|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 8||||<0.001
82582703|NCT01445301|164876717|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 twice daily and CLDM twice daily at Week 12||||<0.001
82651666|NCT01261325|165018164|SUPERIORITY_OR_OTHER_LEGACY||Percent reduction over PBO|23.2|||<|0.001|TWO_SIDED|95.0|13.8|31.6||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|ANCOVA|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||31.6|13.8|<0.001
82651667|NCT01261325|165018165|SUPERIORITY_OR_OTHER_LEGACY||Odds ratio (BRV versus PBO)|2.39|||<|0.001|TWO_SIDED|95.0|1.6|3.6||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|Regression, Logistic|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||3.6|1.6|<0.001
82582704|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.572||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 1||||0.572
82582705|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.335||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 2||||0.335
82582706|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.187||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 4||||0.187
82582707|NCT01445301|164876717|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 8||||<0.001
82582708|NCT01445301|164876717|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Cochran-Mantel-Haenszel|||Comparison of ISGA Score of 0 or 1 between GSK2585823 once daily and CLDM twice daily at Week 12||||0.006
82582709|NCT01445301|164876718|SUPERIORITY_OR_OTHER|||||||0.002|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 1||||0.002
82582710|NCT01445301|164876718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 2||||<0.001
82582711|NCT01445301|164876718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 4||||<0.001
82582712|NCT01445301|164876718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 8||||<0.001
82582713|NCT01445301|164876718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 twice daily and CLDM twice daily at Week 12||||<0.001
82582714|NCT01445301|164876718|SUPERIORITY_OR_OTHER|||||||0.48|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 1||||0.480
82582715|NCT01445301|164876718|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 2||||<0.001
82582716|NCT01445301|164876718|SUPERIORITY_OR_OTHER|||||||0.009|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 4||||0.009
82582717|NCT01445301|164876718|SUPERIORITY_OR_OTHER|||||||0.008|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 8||||0.008
82582718|NCT01445301|164876718|SUPERIORITY_OR_OTHER|||||||0.065|||||||Cochran-Mantel-Haenszel|||Comparison of GSK2585823 once daily and CLDM twice daily at Week 12||||0.065
82582719|NCT00190749|164876729|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value for change to last observation|t-test, 2 sided|||||||0.226
82582720|NCT00190749|164876729|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value is change to last observation|t-test, 2 sided|||||||0.030
82487015|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.0478|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0478
82487016|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.5387|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5387
82487017|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.3878|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3878
82487018|NCT01675427|164668137|SUPERIORITY_OR_OTHER|||||||0.0748|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0748
82487019|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.9887|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.9887
82487020|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.5507|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.5507
82487021|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.0175|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0175
82487022|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.2246|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.2246
82487023|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.3519|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3519
82487024|NCT01675427|164668138|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.7140
82487025|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.8622
82487026|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.1622|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1622
82487027|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.2566|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2566
82487028|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.1574|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1574
82487029|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.5784|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5784
82487030|NCT01675427|164668139|SUPERIORITY_OR_OTHER|||||||0.6603|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.6603
82487031|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.0605|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0605
82487032|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0899
82487033|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.0634|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0634
82487034|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.6165|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.6165
82487035|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.1649|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.1649
82487036|NCT01675427|164668140|SUPERIORITY_OR_OTHER|||||||0.9159|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.9159
82487037|NCT01675427|164668141|SUPERIORITY_OR_OTHER|||||||0.7454|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.7454
82487038|NCT01675427|164668141|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0016
82487039|NCT01675427|164668141|SUPERIORITY_OR_OTHER|||||||0.5261|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5261
82487040|NCT01675427|164668141|SUPERIORITY_OR_OTHER|||||||0.3422|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3422
82487041|NCT01675427|164668141|SUPERIORITY_OR_OTHER|||||||0.9026|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.9026
82487042|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0017
82487043|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||0.8864|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.8864
82487044|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||0.0291|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0291
82487045|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||0.5472|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5472
82487046|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||1.000
82582721|NCT00190749|164876729|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||P-value for change to last observation.|ANCOVA|||||||0.204
82582722|NCT00190749|164876730|SUPERIORITY_OR_OTHER|||||||0.184||95.0|||||Pearson's correlation coefficient|||||||0.184
82582723|NCT00190749|164876730|SUPERIORITY_OR_OTHER|||||||0.295||95.0|||||Pearson's correlation coefficient|||||||0.295
82582724|NCT00190749|164876731|SUPERIORITY_OR_OTHER|||||||0.256||95.0|||||Pearson's correlation coefficient|||||||0.256
82582725|NCT00190749|164876731|SUPERIORITY_OR_OTHER|||||||0.277||95.0|||||Pearson's correlation coefficient|||||||0.277
82582726|NCT00190749|164876732|SUPERIORITY_OR_OTHER|||||||0.766||95.0|||||Pearson's correlation coefficient|||||||0.766
82582727|NCT00190749|164876732|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Pearson's correlation coefficient|||||||0.622
82582728|NCT00190749|164876733|SUPERIORITY_OR_OTHER|||||||0.829||95.0|||||Pearson's correlation coefficient|||||||0.829
82582729|NCT00190749|164876733|SUPERIORITY_OR_OTHER|||||||0.714||95.0|||||Pearson's correlation coefficient|||||||0.714
82582730|NCT00190749|164876734|SUPERIORITY_OR_OTHER|||||||0.672||95.0|||||Pearson's correlation coefficient|||||||0.672
82582731|NCT00190749|164876734|SUPERIORITY_OR_OTHER|||||||0.191||95.0|||||Pearson's correlation coefficient|||||||0.191
82582732|NCT00190749|164876735|SUPERIORITY_OR_OTHER|||||||0.994||95.0|||||Pearson's correlation coefficient|||||||0.994
82582733|NCT00190749|164876735|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||Pearson's correlation coefficient|||||||0.456
82582734|NCT00190749|164876736|SUPERIORITY_OR_OTHER|||||||0.454||95.0|||||Pearson's correlation coefficient|||||||0.454
82582735|NCT00190749|164876736|SUPERIORITY_OR_OTHER|||||||0.974||95.0|||||Pearson's correlation coefficient|||||||0.974
82582736|NCT00190749|164876737|SUPERIORITY_OR_OTHER|||||||0.249||95.0|||||Pearson's correlation coefficient|||||||0.249
82582737|NCT00190749|164876737|SUPERIORITY_OR_OTHER|||||||0.163||95.0|||||Pearson's correlation coefficient|||||||0.163
82582738|NCT00190749|164876738|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||Pearson's correlation coefficient|||||||0.201
82582739|NCT00190749|164876738|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||Pearson's correlation coefficient|||||||0.168
82582740|NCT00190749|164876739|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||Pearson's correlation coefficient|||||||0.793
82582741|NCT00190749|164876739|SUPERIORITY_OR_OTHER|||||||0.777||95.0|||||Pearson's correlation coefficient|||||||0.777
82582742|NCT00190749|164876740|SUPERIORITY_OR_OTHER|||||||0.815||95.0|||||Pearson's correlation coefficient|||||||0.815
82582743|NCT00190749|164876740|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Pearson's correlation coefficient|||||||0.675
82582744|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.393||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 1||||0.393
82582745|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 1||||0.033
82582746|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.392||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 2||||0.392
82582747|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.129||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 2||||0.129
82582748|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.956||95.0|||||Pearson's correlation coefficient|||Change in Eating Bahavior Item 3||||0.956
82582749|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 3||||0.846
82582750|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.675||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 4||||0.675
82582751|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.306||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 4||||0.306
82582752|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 5||||0.468
82582753|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.739||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 5||||0.739
82582754|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.404||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 6||||0.404
82582755|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.711||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 6||||0.711
82582756|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 7||||0.281
82582757|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 7||||0.805
82582758|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.844||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 8||||0.844
82582759|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||Pearson's correlation coefficient|||Change in Eating Bahavior Item 8||||0.359
82582760|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.642||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 9||||0.642
82582761|NCT00190749|164876741|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||Pearson's correlation coefficient|||Change in Eating Behavior Item 9||||0.043
82582762|NCT00190749|164876742|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on Least Squares Mean (LSMean) change||||||<.001
82582763|NCT00190749|164876742|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.019
82582764|NCT00190749|164876742|SUPERIORITY_OR_OTHER|||||||0.065||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||||||0.065
82582765|NCT00190749|164876743|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||||||<.001
82582766|NCT00190749|164876743|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.013
82582767|NCT00190749|164876743|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change = Baseline Treatment Pooled Investigator||||||0.076
82582768|NCT00190749|164876744|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.007
82582769|NCT00190749|164876744|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.266
82582770|NCT00190749|164876744|SUPERIORITY_OR_OTHER|||||||0.239||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change = Baseline Treatment Pooled Investigator||||||0.239
82582771|NCT00190749|164876745|SUPERIORITY_OR_OTHER|||||||0.274||95.0|||||t-test, 2 sided|Within group p-vales are from t-tests on LSMean change||||||0.274
82557530|NCT02307682|164824504|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-1.3|8.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.9|-1.3|
82557531|NCT02307682|164824504|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-4.3|6.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||6.0|-4.3|
82557532|NCT02307682|164824504|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-6.4|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||5.2|-6.4|
82557533|NCT02307682|164824504|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-10.8|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.9|-10.8|
82557534|NCT02307682|164824505|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-7.7|
82557535|NCT02307682|164824505|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-11.4|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.4|-11.4|
82557536|NCT02307682|164824505|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.3|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.2|-9.3|
82557537|NCT02307682|164824505|OTHER||Difference in proportions|-4.4|||||TWO_SIDED|95.0|-9.8|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.2|-9.8|
82557538|NCT02307682|164824505|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-11.5|-1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.5|-11.5|
82557539|NCT02307682|164824505|OTHER||Difference in proportions|-7.6|||||TWO_SIDED|95.0|-12.8|-2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.3|-12.8|
82557540|NCT02307682|164824505|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-11.8|-1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-1.1|-11.8|
82557541|NCT02307682|164824505|OTHER||Difference in proportions|-8.6|||||TWO_SIDED|95.0|-14.4|-2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.9|-14.4|
82582772|NCT00190749|164876745|SUPERIORITY_OR_OTHER|||||||0.105||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change.||||||0.105
82582773|NCT00190749|164876745|SUPERIORITY_OR_OTHER|||||||0.609||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change= Baseline Treatment Pooled Investigator||||||0.609
82582774|NCT00190749|164876746|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||||||0.406
82582775|NCT00190749|164876746|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.011
82582776|NCT00190749|164876746|SUPERIORITY_OR_OTHER|||||||0.076||95.0|||||ANCOVA|Overall group p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.076
82582777|NCT00190749|164876747|SUPERIORITY_OR_OTHER|||||||0.456||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.456
82582778|NCT00190749|164876747|SUPERIORITY_OR_OTHER|||||||0.712||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.712
82582779|NCT00190749|164876747|SUPERIORITY_OR_OTHER|||||||0.689||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change= Baseline Treatment Pooled Investigator||||||0.689
82582780|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean||Total Score||||0.111
82582781|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean changes||Total Score||||0.159
82582782|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.951||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||Total Score||||0.951
82582783|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Positive Subscale||||0.012
82582784|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean||Positive subscale||||0.002
82487047|NCT01675427|164668142|SUPERIORITY_OR_OTHER|||||||0.1148|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.1148
82557542|NCT02307682|164824505|OTHER||Difference in proportions|2.7|||||TWO_SIDED|95.0|-2.8|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||8.3|-2.8|
82582785|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.467||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change =Baseline Treatment Pooled Investigator||Positive subscale||||0.467
82651668|NCT01261325|165018165|SUPERIORITY_OR_OTHER_LEGACY||Odds ratio (BRV versus PBO)|2.19|||<|0.001|TWO_SIDED|95.0|1.5|3.3||Statistically significant with control of Type I error rate based on a Hochberg multiple comparison procedure.|Regression, Logistic|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||3.3|1.5|<0.001
82487048|NCT01675427|164668143|SUPERIORITY_OR_OTHER|||||||0.4207|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.4207
82487049|NCT01675427|164668143|SUPERIORITY_OR_OTHER|||||||0.0566|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0566
82487050|NCT01675427|164668143|SUPERIORITY_OR_OTHER|||||||0.1211|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1211
82487051|NCT01675427|164668143|SUPERIORITY_OR_OTHER|||||||0.3772|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3772
82487052|NCT01675427|164668143|SUPERIORITY_OR_OTHER|||||||0.4023|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.4023
82487053|NCT01675427|164668144|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82487054|NCT01675427|164668144|SUPERIORITY_OR_OTHER|||||||0.2132|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2132
82487055|NCT01675427|164668144|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
82487056|NCT01675427|164668144|SUPERIORITY_OR_OTHER|||||||0.3031|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3031
82487057|NCT01675427|164668144|SUPERIORITY_OR_OTHER|||||||0.955|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9550
82487058|NCT01675427|164668144|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82557543|NCT02307682|164824505|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-3.4|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.5|-3.4|
82487059|NCT01675427|164668145|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82557544|NCT02307682|164824505|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-9.7|0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||0.9|-9.7|
82582786|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.365||95.0|||||t-test, 2 sided|With group p-values are from t-tests on LSMean change||Negative subscale||||0.365
82487060|NCT01675427|164668145|SUPERIORITY_OR_OTHER|||||||0.189|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1890
82487061|NCT01675427|164668145|SUPERIORITY_OR_OTHER|||||||0.5793|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5793
82487062|NCT01675427|164668145|SUPERIORITY_OR_OTHER|||||||0.0847|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0847
82487063|NCT01675427|164668145|SUPERIORITY_OR_OTHER|||||||0.5506|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5506
82487064|NCT01675427|164668145|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0020
82487065|NCT01675427|164668146|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0007
82487066|NCT01675427|164668146|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0061
82487067|NCT01675427|164668146|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
82487068|NCT01675427|164668146|SUPERIORITY_OR_OTHER|||||||0.3885|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3885
82582787|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.846||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Negative subscale||||0.846
82557545|NCT02307682|164824505|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-12.3|-1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-1.3|-12.3|
82557546|NCT02307682|164824505|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-4.2|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.2|-4.2|
82557547|NCT02307682|164824505|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-8.4|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||1.7|-8.4|
82557548|NCT02307682|164824505|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-6.2|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.2|-6.2|
82557549|NCT02307682|164824505|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-7.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.4|-7.5|
82557550|NCT02307682|164824505|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-9.5|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||0.7|-9.5|
82557551|NCT02307682|164824505|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.6|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-0.6|-10.6|
82582788|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.559||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Negative subscale||||0.559
82582789|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Anxiety-Depression subscale||||0.150
82651669|NCT01261325|165018166|SUPERIORITY_OR_OTHER_LEGACY||Median difference vs placebo|15.8|||<|0.001|TWO_SIDED|95.0|7.6|24.2||Statistically significant at a nominal 0.050 significance level.|Wilcoxon (Mann-Whitney)||Hodges-Lehmann non-parametric effect estimates and corresponding two-sided 95% confidence intervals are provided above.|||24.2|7.6|<0.001
82557552|NCT02307682|164824505|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-10.2|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.3|-10.2|
82651670|NCT01261325|165018166|SUPERIORITY_OR_OTHER_LEGACY||Median difference vs placebo|18.1|||<|0.001|TWO_SIDED|95.0|10.4|26.4||Statistically significant at a nominal 0.050 significance level.|Wilcoxon (Mann-Whitney)||Hodges-Lehmann non-parametric effect estimates and corresponding two-sided 95% confidence intervals are provided above.|||26.4|10.4|<0.001
82557553|NCT02307682|164824505|OTHER||Difference in proportions|-6.3|||||TWO_SIDED|95.0|-12.2|-0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.8|-12.2|
82557554|NCT02307682|164824505|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-6.6|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.3|-6.6|
82582790|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.612||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Anxiety-Depression subscale||||0.612
82582791|NCT00190749|164876748|SUPERIORITY_OR_OTHER|||||||0.475||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Anxiety-Depression subscale||||0.475
82582792|NCT00190749|164876749|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Within group p-values are from t-tests on LSMean change|t-test, 2 sided|||||||.012
82582793|NCT00190749|164876749|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.010
82487069|NCT01675427|164668146|SUPERIORITY_OR_OTHER|||||||0.3597|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3597
82582794|NCT00190749|164876749|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of square ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.760
82582795|NCT00190749|164876750|SUPERIORITY_OR_OTHER|||||||0.943||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.943
82582796|NCT00190749|164876750|SUPERIORITY_OR_OTHER|||||||0.763||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.763
82651671|NCT01261325|165018170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.56|0.82||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.82|0.56|<0.001
82651672|NCT01261325|165018170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.54|0.79||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.79|0.54|<0.001
82557555|NCT02307682|164824505|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-10.0|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||0.1|-10.0|
82557556|NCT02307682|164824505|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.4|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||1.4|-9.4|
82557557|NCT02307682|164824505|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-13.6|-2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-2.7|-13.6|
82557558|NCT02307682|164824505|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-5.1|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.5|-5.1|
82557559|NCT02307682|164824505|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.2|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||2.8|-6.2|
82557560|NCT02307682|164824505|OTHER||Difference in proportions|-4.2|||||TWO_SIDED|95.0|-9.4|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||1.2|-9.4|
82557561|NCT02307682|164824505|OTHER||Difference in proportions|-6.2|||||TWO_SIDED|95.0|-11.5|-0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-0.8|-11.5|
82557562|NCT02307682|164824505|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.3|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.0|-7.3|
82557563|NCT02307682|164824505|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-7.9|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||2.1|-7.9|
82557564|NCT02307682|164824505|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-10.5|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||0.7|-10.5|
82557565|NCT02307682|164824505|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-12.5|-1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-1.8|-12.5|
82557566|NCT02307682|164824505|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-6.0|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.0|-6.0|
82557567|NCT02307682|164824505|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-6.3|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.9|-6.3|
82557568|NCT02307682|164824505|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.1|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-0.4|-10.1|
82557569|NCT02307682|164824505|OTHER||Difference in proportions|-7.3|||||TWO_SIDED|95.0|-12.2|-2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-2.3|-12.2|
82582797|NCT00190749|164876750|SUPERIORITY_OR_OTHER|||||||0.832||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.832
82487070|NCT01675427|164668146|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82487071|NCT01675427|164668147|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82582798|NCT00190749|164876751|SUPERIORITY_OR_OTHER|||||||0.623||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.623
82582799|NCT00190749|164876751|SUPERIORITY_OR_OTHER|||||||0.853||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.853
82582800|NCT00190749|164876751|SUPERIORITY_OR_OTHER|||||||0.591||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.591
82582801|NCT00190749|164876752|SUPERIORITY_OR_OTHER|||||||0.302||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.302
82582802|NCT00190749|164876752|SUPERIORITY_OR_OTHER|||||||0.922||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.922
82582803|NCT00190749|164876752|SUPERIORITY_OR_OTHER|||||||0.479||95.0|||||ANCOVA|Overall group p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.479
82582804|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 1||||0.004
82651673|NCT01261325|165018171|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.65|||<|0.001|TWO_SIDED|95.0|0.53|0.8||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.80|0.53|<0.001
82651674|NCT01261325|165018171|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.47|0.71||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.|Hazard ratio is Brivaracetam versus Placebo.|||0.71|0.47|<0.001
82487072|NCT01675427|164668147|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0005
82582805|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 1||||0.001
82582806|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.549||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares, ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 1||||0.549
82582807|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 2||||0.011
82582808|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 2||||0.009
82582809|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 2||||0.793
82582810|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 3||||0.045
82582811|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 3||||0.027
82582812|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.699||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 3||||0.699
82651675|NCT01261325|165018172|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75||||0.009|TWO_SIDED|95.0|0.6|0.93||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||0.93|0.60|0.009
82651676|NCT01261325|165018172|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.68|||<|0.001|TWO_SIDED|95.0|0.55|0.85||Statistically significant at a nominal 0.050 significance level.|Semi-parametric hazards regression model|Effects of treatment, country, combination of LEV status and number of previous AEDs, and log-transformed baseline seizure frequency are in the model.||||0.85|0.55|<0.001
82582813|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 4||||0.002
82582814|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||ITem 4||||0.019
82582815|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.733||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 4||||0.733
82582816|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 5||||0.034
82582817|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.235||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 5||||0.235
82582818|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.532||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 5||||0.532
82582819|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.242||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 6||||0.242
82582820|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 6||||0.186
82582821|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 6||||0.799
82582822|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 7||||0.097
82582823|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.214||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 7||||0.214
82582824|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.827||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 7||||0.827
82582825|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.151||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 8||||0.151
82582826|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.071||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 8||||0.071
82582827|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.629||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 8||||0.629
82651677|NCT01033864|165018173|SUPERIORITY_OR_OTHER|||||||0.8055|||||||Wilcoxon (Mann-Whitney)|||||||0.8055
82651678|NCT01033864|165018174|SUPERIORITY_OR_OTHER|||||||0.2548|||||||Wilcoxon (Mann-Whitney)|||||||0.2548
82557570|NCT02307682|164824505|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-5.2|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.3|-5.2|
82557571|NCT02307682|164824505|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-5.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||3.5|-5.8|
82557572|NCT02307682|164824505|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-8.4|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||1.8|-8.4|
82557573|NCT02307682|164824505|OTHER||Difference in proportions|-3.3|||||TWO_SIDED|95.0|-8.5|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||1.5|-8.5|
82557574|NCT02307682|164824505|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-9.8|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.2|-9.8|
82557575|NCT02307682|164824505|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-10.4|-0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||-0.7|-10.4|
82557576|NCT02307682|164824505|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-7.4|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.0|-7.4|
82557577|NCT02307682|164824505|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-11.0|-1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-1.1|-11.0|
82557578|NCT02307682|164824505|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.9|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.1|-4.9|
82557579|NCT02307682|164824505|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-7.6|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||1.4|-7.6|
82557580|NCT02307682|164824505|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-5.3|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||5.1|-5.3|
82557581|NCT02307682|164824505|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-8.5|0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.8|-8.5|
82651679|NCT01033864|165018175|SUPERIORITY_OR_OTHER|||||||0.4417|||||||Wilcoxon (Mann-Whitney)|||||||0.4417
82557582|NCT02307682|164824506|OTHER||Difference in proportions|-6.7|||||TWO_SIDED|95.0|-14.1|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.2|-14.1|
82557583|NCT02307682|164824506|OTHER||Difference in proportions|-7.4|||||TWO_SIDED|95.0|-15.3|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-0.3|-15.3|
82557584|NCT02307682|164824506|OTHER||Difference in proportions|-9.3|||||TWO_SIDED|95.0|-16.6|-2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.2|-16.6|
82651680|NCT01033864|165018176|SUPERIORITY_OR_OTHER|||||||0.0455|||||||Wilcoxon (Mann-Whitney)|||||||0.0455
82651681|NCT01033864|165018177|SUPERIORITY_OR_OTHER|||||||0.23|||||||Wilcoxon (Mann-Whitney)|||||||0.2300
82487073|NCT01675427|164668147|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0110
82651682|NCT01033864|165018178|SUPERIORITY_OR_OTHER|||||||0.0106|||||||Wilcoxon (Mann-Whitney)|||||||0.0106
82651683|NCT01033864|165018179|SUPERIORITY_OR_OTHER|||||||0.3401|||||||Wilcoxon (Mann-Whitney)|||||||0.3401
82651684|NCT01033864|165018180|SUPERIORITY_OR_OTHER|||||||0.0074|||||||Wilcoxon (Mann-Whitney)|||||||0.0074
82651685|NCT01033864|165018181|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon (Mann-Whitney)|||||||0.0002
82582828|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 9||||0.036
82582829|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.112||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Item 9||||0.112
82582830|NCT00190749|164876753|SUPERIORITY_OR_OTHER|||||||0.806||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Item 9||||0.806
82582831|NCT00190749|164876754|SUPERIORITY_OR_OTHER|||||||0.156||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.156
82582832|NCT00190749|164876754|SUPERIORITY_OR_OTHER|||||||0.829||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.829
82582833|NCT00190749|164876754|SUPERIORITY_OR_OTHER|||||||0.352||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.352
82582834|NCT00190749|164876755|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.740
82582835|NCT00190749|164876755|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||t-test, 2 sided|Within group p-values are frm t-tests on LSMean change||||||0.760
82651686|NCT02330081|165018191|NON_INFERIORITY|The FDA validation level requirements for test platelet quality is that the lower 1-sided 95% confidence limit of platelet recovery must be ≥ 66% of fresh control platelet values|Risk Ratio (RR)|83.3|STANDARD_ERROR_OF_MEAN|4.97|||ONE_SIDED|95.0|76.2||||||Estimate is the ratio of the mean platelet recovery of treatment over control||||76.2|
82651687|NCT02330081|165018192|NON_INFERIORITY|One of the FDA validation level requirements for test platelet quality is that the lower 1-sided 95% confidence limit of the mean platelet survival time must be ≥58% of fresh control platelet mean survival time|Mean Ratio Survival Time|81.0|STANDARD_ERROR_OF_MEAN|2.0|||ONE_SIDED|95.0|77.0||||||Estimate is the ratio of the mean platelet survival time of treatment over control||||77.0|
82582836|NCT00190749|164876755|SUPERIORITY_OR_OTHER|||||||0.997||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.997
82582837|NCT00190749|164876756|SUPERIORITY_OR_OTHER|||||||0.176||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.176
82582838|NCT00190749|164876756|SUPERIORITY_OR_OTHER|||||||0.237||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.237
82582839|NCT00190749|164876756|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.996
82582840|NCT00190749|164876757|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.027
82582841|NCT00190749|164876757|SUPERIORITY_OR_OTHER|||||||0.545||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||||||0.545
82582842|NCT00190749|164876757|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||||||0.024
82582843|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||HDL particles, total||||0.009
82582844|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||HDL particles, total||||0.959
82582845|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline TReatment Pooled Investigator|ANCOVA|||HDL particles, total||||0.038
82582846|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||IDL||||0.013
82582847|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.928||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||IDL||||0.928
82582848|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||IDL||||0.049
82582849|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Medium small LDL||||0.009
82582850|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.662||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Medium small LDL||||0.662
82582851|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Medium small LDL||||0.12
82582852|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.099||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Small LDL||||0.099
82582853|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.304||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Small LDL||||0.304
82582854|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||Small LDL||||0.024
82582855|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.176||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||Very small LDL||||0.176
82582856|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.246||95.0|||||t-test, 2 sided|Withn group p-values are from t-tests on LSMean change||Very small LDL||||0.246
82582857|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator|ANCOVA|||Very small LDL||||0.033
82582858|NCT00190749|164876758|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||VLDL mean particle size||||<0.001
82582859|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||t-test, 2 sided|Within group p-values are from t-tests on LSMean change||VLDL mean particle size||||0.047
82582860|NCT00190749|164876758|SUPERIORITY_OR_OTHER|||||||0.221||95.0|||||ANCOVA|Overall p-values are from Type 3 sums of squares ANCOVA, Model: Change=Baseline Treatment Pooled Investigator||VLDL mean particle size||||0.221
82582861|NCT03988920|164876759|SUPERIORITY||Odds Ratio (OR)|0.9||||0.7439|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.7439
82582862|NCT02891837|164876781|OTHER|||||||0.493|||||||Wilcoxon (Mann-Whitney)|||||||0.4930
82582863|NCT02891837|164876783|OTHER|||||||0.1924|||||||Wilcoxon (Mann-Whitney)|||||||0.1924
82582864|NCT02891837|164876784|OTHER|||||||0.8678|||||||Wilcoxon (Mann-Whitney)|||||||0.8678
82582865|NCT02891837|164876791|OTHER|||||||0.6422|||||||Wilcoxon (Mann-Whitney)|||||||0.6422
82487074|NCT01675427|164668147|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0980
82487075|NCT01675427|164668147|SUPERIORITY_OR_OTHER|||||||0.2264|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2264
82557585|NCT02307682|164824506|OTHER||Difference in proportions|-12.1|||||TWO_SIDED|95.0|-19.7|-5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-5.4|-19.7|
82557586|NCT02307682|164824506|OTHER||Difference in proportions|-8.2|||||TWO_SIDED|95.0|-14.8|-1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.6|-14.8|
82582866|NCT02891837|164876792|OTHER|||||||0.7572|||||||Wilcoxon (Mann-Whitney)|||||||0.7572
82582867|NCT02891837|164876794|OTHER|||||||0.3681|||||||Wilcoxon (Mann-Whitney)|||||||0.3681
82582868|NCT02891837|164876798|OTHER|"Sample size calculated with nQuery 7.0. Assumed standard deviation = 50 h, \& mean values of 44 h (placebo) \& 14 h (L-citrulline group), estimated effect size = 0.600, yielding a sample size N=92/group (two-sided Wilcoxon-rank-sum test with 0.01 significance level and 90% power). Assumptions for standard deviation \& mean based on Study CIT-002-01 results.~To allow for subjects being enrolled but not assigned to the full analysis set (FAS), an overall N=95 subjects per group were to be enrolled."|Location shift|219.0||||0.156|TWO_SIDED|95.0|-88.0|626.0||The threshold for statistical significance was p = 0.05|Wilcoxon (Mann-Whitney)||Treatment difference = L-citrulline - placebo For the mean and median values, that the estimated values are given in minutes \[min\]|H0: Composite endpoint in L-citrulline group = placebo group H1: Composite endpoint in L-citrulline group ≠ placebo group H0 tested using Wilcoxon-rank-sum test. Significance level = 1% (2-sided).||626.0|-88.0|0.1560
82582869|NCT02891837|164876798|OTHER||Location shift|813.1||||0.1627|TWO_SIDED|95.0|-335.5|1961.6||The threshold for statistical significance was 0.05.|t-test, 2 sided|The results of the T-test should be interpreted with caution since the endpoint is not normally distributed.|Treatment difference = L-citrulline - placebo. For the mean and median values, the estimated values are given in minutes|Post hoc analyses were done for US patients on mechanical ventilation for \<=48 hours. For all post hoc analyses a significance level of 5% was applied.||1961.6|-335.5|0.1627
82582870|NCT02891837|164876806|OTHER|||||||0.0326||||||The threshold for statistical significance was 0.05.|ANOVA|||"Values at 48 hours post-surgery start for all US patients on ventilation for ≤48 hours are presented.~Treatment group, baseline values and site were included as fixed factors, site\*treatment as interaction terms in this ANOVA. The normality assumption of residuals is critical for all considered timepoints. Please interpret results with caution."||||0.0326
82487076|NCT01675427|164668147|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82557587|NCT02307682|164824506|OTHER||Difference in proportions|-10.2|||||TWO_SIDED|95.0|-17.4|-3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-3.9|-17.4|
82557588|NCT02307682|164824506|SUPERIORITY||Difference in proportions|-10.2||||0.003|TWO_SIDED|95.0|-17.3|-2.5||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.5|-17.3|0.0030
82582871|NCT02891837|164876806|OTHER|||||||0.0026||||||The threshold for statistical significance was 0.05.|ANOVA|||"Values at 48 hours post-surgery start for ALL patients on ventilation for ≤48 hours are presented.~Treatment group, baseline values and site were included as fixed factors, site\*treatment as interaction terms in this ANOVA. The normality assumption of residuals is critical for all considered timepoints. Please interpret results with caution."||||0.0026
82582872|NCT03954392|164876815|OTHER||||||<|0.05|||||||ANCOVA|Only one statistical test was conducted, therefore no adjustments for multiple comparisons was needed.||Statistical analysis will compare the post-intervention scores on the primary outcome (Faux Pas Recognition Test scores), controlling for pre-intervention scores.||||< 0.05
82582873|NCT03954392|164876816|OTHER||||||<|0.05|||||||ANCOVA|||||||< 0.05
82582874|NCT00467350|164876818|SUPERIORITY_OR_OTHER_LEGACY|"Similar to previous studies, the main outcome measure was the change in the child's main symptom. Changes were determined by the question Has your child's main symptom improved, stayed the same or gotten worse? The main symptom was defined as the chief complaint identified during the triage process. For analysis, responses were dichotomized into 2 groups: improved/better versus worse/same."|||||||||||||||||A χ2 test was used to examine the difference in probabilities of experiencing an outcome between treatment arms and differences were expressed by Mantel-Haenszel common OR estimate with 95% confidence interval (CI).|||
82582875|NCT03538301|164876820|SUPERIORITY||Slope|-0.004153||||0.049|TWO_SIDED|95.0|-0.008284|-0.000021|||random coefficient model|||Slope in FVC (L/week) in the 45 mg cohort versus placebo||-0.000021|-0.008284|0.049
82651688|NCT02668302|165018221|SUPERIORITY|||||||0.4709|||||||t-test, 2 sided|P-values from two-sample T-test with equal variance assumption||||||0.4709
82487077|NCT01675427|164668148|SUPERIORITY_OR_OTHER|||||||0.0098|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0098
82487078|NCT01675427|164668148|SUPERIORITY_OR_OTHER|||||||0.6291|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.6291
82487079|NCT01675427|164668148|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0013
82487080|NCT01675427|164668148|SUPERIORITY_OR_OTHER|||||||0.5588|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5588
82557589|NCT02307682|164824506|SUPERIORITY||Difference in proportions|-18.2|||<|0.0001|TWO_SIDED|95.0|-25.3|-10.9||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-10.9|-25.3|<0.0001
82557590|NCT02307682|164824506|OTHER||Difference in proportions|12.0|||||TWO_SIDED|95.0|5.2|19.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||19.0|5.2|
82487081|NCT01675427|164668148|SUPERIORITY_OR_OTHER|||||||0.9932|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9932
82487082|NCT01675427|164668148|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82487083|NCT01675427|164668149|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0007
82487084|NCT01675427|164668149|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0020
82487085|NCT01675427|164668149|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0013
82487086|NCT01675427|164668149|SUPERIORITY_OR_OTHER|||||||0.7166|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7166
82487087|NCT01675427|164668149|SUPERIORITY_OR_OTHER|||||||0.3217|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3217
82487088|NCT01675427|164668149|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82557591|NCT02307682|164824506|OTHER||Difference in proportions|11.1|||||TWO_SIDED|95.0|3.8|18.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||18.2|3.8|
82582876|NCT03538301|164876820|SUPERIORITY||Slope|-0.002112||||0.316|TWO_SIDED|95.0|-0.00626|0.002036|||random coefficient model|||Slope in FVC (L/week) in the 90 mg cohort versus placebo||0.002036|-0.006260|0.316
82582877|NCT03538301|164876821|SUPERIORITY||Slope|-0.091238||||0.098|TWO_SIDED|95.0|-0.199456|0.016979|||random coefficient model|||||0.016979|-0.199456|0.098
82487089|NCT01675427|164668150|SUPERIORITY_OR_OTHER|||||||0.1894|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.1894
82487090|NCT01675427|164668150|SUPERIORITY_OR_OTHER|||||||0.0054|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0054
82487091|NCT01675427|164668150|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
82487092|NCT01675427|164668150|SUPERIORITY_OR_OTHER|||||||0.536|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.5360
82557592|NCT02307682|164824506|OTHER||Difference in proportions|-10.6|||||TWO_SIDED|95.0|-17.7|-3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.1|-17.7|
82487093|NCT01675427|164668150|SUPERIORITY_OR_OTHER|||||||0.2185|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2185
82487094|NCT01675427|164668150|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82487095|NCT01675427|164668151|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0002
82487096|NCT01675427|164668151|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0003
82582878|NCT03538301|164876821|SUPERIORITY||Slope|-0.039596||||0.473|TWO_SIDED|95.0|-0.148248|0.069056|||random coefficient model|||||0.069056|-0.148248|0.473
82582879|NCT03538301|164876822|SUPERIORITY||Mean Difference (Final Values)|-0.0997||||0.049|TWO_SIDED|95.0|-0.1988|-0.0005|||random coefficient model|||Change from Baseline to Week 24 in FVC (L) in the 45 mg cohort versus placebo||-0.0005|-0.1988|0.049
82582880|NCT03538301|164876822|SUPERIORITY||Mean Difference (Final Values)|-0.0507||||0.316|TWO_SIDED|95.0|-0.1502|0.0489|||random coefficient model|||Change from Baseline to Week 24 in FVC (L) in the 90 mg cohort versus placebo||0.0489|-0.1502|0.316
82487097|NCT01675427|164668151|SUPERIORITY_OR_OTHER|||||||0.0106|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0106
82487098|NCT01675427|164668151|SUPERIORITY_OR_OTHER|||||||0.7821|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7821
82487099|NCT01675427|164668151|SUPERIORITY_OR_OTHER|||||||0.2372|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2372
82487100|NCT01675427|164668151|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82557593|NCT02307682|164824506|OTHER||Difference in proportions|-23.2|||||TWO_SIDED|95.0|-30.5|-16.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-16.1|-30.5|
82557594|NCT02307682|164824506|OTHER||Difference in proportions|1.7|||||TWO_SIDED|95.0|-4.8|9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||9.0|-4.8|
82557595|NCT02307682|164824506|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-11.8|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.5|-11.8|
82557596|NCT02307682|164824506|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-12.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.1|-12.0|
82557597|NCT02307682|164824506|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-18.0|-3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-3.2|-18.0|
82557598|NCT02307682|164824506|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-12.5|0.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||0.8|-12.5|
82557599|NCT02307682|164824506|OTHER||Difference in proportions|-9.2|||||TWO_SIDED|95.0|-16.2|-2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.4|-16.2|
82557600|NCT02307682|164824506|OTHER||Difference in proportions|-8.2|||||TWO_SIDED|95.0|-15.7|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.6|-15.7|
82557601|NCT02307682|164824506|OTHER||Difference in proportions|-13.0|||||TWO_SIDED|95.0|-20.5|-5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-5.5|-20.5|
82557602|NCT02307682|164824506|OTHER||Difference in proportions|6.0|||||TWO_SIDED|95.0|-0.8|13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||13.0|-0.8|
82557603|NCT02307682|164824506|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-7.5|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.6|-7.5|
82557604|NCT02307682|164824506|SUPERIORITY||Difference in proportions|-10.5||||0.002|TWO_SIDED|95.0|-17.4|-3.3||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-3.3|-17.4|0.0020
82557605|NCT02307682|164824506|SUPERIORITY||Difference in proportions|-13.5||||0.0001|TWO_SIDED|95.0|-20.7|-6.1||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-6.1|-20.7|0.0001
82557606|NCT02307682|164824506|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-5.4|8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||8.1|-5.4|
82557607|NCT02307682|164824506|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-11.8|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||1.2|-11.8|
82557608|NCT02307682|164824506|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-10.3|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.7|-10.3|
82582881|NCT03538301|164876823|SUPERIORITY||Median Difference (Final Values)|-3.16||||0.668|TWO_SIDED|95.0|-17.59|11.28|||random coefficient model|||||11.28|-17.59|0.668
82582882|NCT03538301|164876823|SUPERIORITY||Median Difference (Final Values)|-1.72||||0.821|TWO_SIDED|95.0|-16.57|13.13|||random coefficient model|||||13.13|-16.57|0.821
82487101|NCT01675427|164668152|SUPERIORITY_OR_OTHER|||||||0.0688|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0688
82557609|NCT02307682|164824506|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-14.1|0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||0.4|-14.1|
82557610|NCT02307682|164824506|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.1|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.3|-10.1|
82557611|NCT02307682|164824506|OTHER||Difference in proportions|-7.1|||||TWO_SIDED|95.0|-14.0|-0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-0.6|-14.0|
82557612|NCT02307682|164824506|OTHER||Difference in proportions|-7.6|||||TWO_SIDED|95.0|-14.7|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-0.1|-14.7|
82557613|NCT02307682|164824506|OTHER||Difference in proportions|-12.1|||||TWO_SIDED|95.0|-19.5|-5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-5.4|-19.5|
82557614|NCT02307682|164824506|OTHER||Difference in proportions|7.2|||||TWO_SIDED|95.0|0.3|13.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||13.5|0.3|
82557615|NCT02307682|164824506|OTHER||Difference in proportions|2.2|||||TWO_SIDED|95.0|-4.9|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||8.4|-4.9|
82557616|NCT02307682|164824506|OTHER||Difference in proportions|-8.9|||||TWO_SIDED|95.0|-15.7|-1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.7|-15.7|
82557617|NCT02307682|164824506|OTHER||Difference in proportions|-12.5|||||TWO_SIDED|95.0|-19.8|-5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-5.6|-19.8|
82557618|NCT02307682|164824506|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.9|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.2|-5.9|
82582883|NCT03538301|164876824|SUPERIORITY||Median Difference (Final Values)|-2.1897||||0.098|TWO_SIDED|95.0|-4.7869|0.4075|||random coefficient model|||Change from baseline to Week 24 in ppFVC||0.4075|-4.7869|0.098
82557619|NCT02307682|164824506|OTHER||Difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.8|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||2.6|-9.8|
82557620|NCT02307682|164824506|OTHER||Difference in proportions|-4.4|||||TWO_SIDED|95.0|-11.2|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||2.5|-11.2|
82582884|NCT03538301|164876824|SUPERIORITY||Median Difference (Final Values)|-0.9503||||0.473|TWO_SIDED|95.0|-3.5579|1.6573|||random coefficient model|||Change from Baseline to Week 24 in ppFVC||1.6573|-3.5579|0.473
82557621|NCT02307682|164824506|OTHER||Difference in proportions|-8.1|||||TWO_SIDED|95.0|-15.3|-1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-1.0|-15.3|
82582885|NCT03538301|164876825|SUPERIORITY||Median Difference (Final Values)|-2.53||||0.7|TWO_SIDED|95.0|-15.4|10.34|||random coefficient model|||||10.34|-15.40|0.700
82582886|NCT03538301|164876825|SUPERIORITY||Median Difference (Final Values)|-1.12||||0.867|TWO_SIDED|95.0|-14.31|12.07|||random coefficient model|||||12.07|-14.31|0.867
82582887|NCT03538301|164876828|SUPERIORITY||Mean Difference (Final Values)|0.146||||0.708|TWO_SIDED|95.0|-0.6226|0.9147|||random coefficient|||Change from Baseline to Week 24 in DLCO Corrected for Hemoglobin (mL/min/mmHg) in the 45 mg cohort versus placebo||0.9147|-0.6226|0.708
82582888|NCT03538301|164876828|SUPERIORITY||Mean Difference (Final Values)|0.7038||||0.074|TWO_SIDED|95.0|-0.0695|1.4771|||random coefficient|||Change from Baseline to Week 24 in DLCO Corrected for Hemoglobin (mL/min/mmHg) in the 90 mg cohort versus placebo||1.4771|-0.0695|0.074
82582889|NCT03538301|164876828|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.765|TWO_SIDED|95.0|-0.6362|0.8641|||random coefficient model|||Change from Baseline to Week 24 in DLCO Not Corrected for Hemoglobin (mL/min/mmHg) in the 45 mg cohort versus placebo||0.8641|-0.6362|0.765
82582890|NCT03538301|164876828|SUPERIORITY||Mean Difference (Final Values)|0.556||||0.148|TWO_SIDED|95.0|-0.1986|1.3107|||random coefficient model|||Change from Baseline to Week 24 in DLCO Not Corrected for Hemoglobin (mL/min/mmHg) in the 90 mg cohort versus placebo||1.3107|-0.1986|0.148
82557622|NCT02307682|164824506|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.9|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.6|-8.9|
82557623|NCT02307682|164824506|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-11.2|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||1.7|-11.2|
82557624|NCT02307682|164824506|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.8|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.7|-10.8|
82557625|NCT02307682|164824506|OTHER||Difference in proportions|-10.3|||||TWO_SIDED|95.0|-17.3|-3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-3.5|-17.3|
82557626|NCT02307682|164824506|OTHER||Difference in proportions|4.1|||||TWO_SIDED|95.0|-2.3|11.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||11.0|-2.3|
82557627|NCT02307682|164824506|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.8|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||2.6|-9.8|
82557628|NCT02307682|164824506|OTHER||Difference in proportions|-6.4|||||TWO_SIDED|95.0|-13.2|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 3mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||0.7|-13.2|
82557629|NCT02307682|164824506|OTHER||Difference in proportions|-12.9|||||TWO_SIDED|95.0|-19.7|-6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-6.6|-19.7|
82557630|NCT02307682|164824507|SUPERIORITY|||||||0.0574||||||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Cochran-Mantel-Haenszel|CMH-test row mean score (scores=table) stratified by age categories (\<75, ≥75 years) and baseline fluid status)||||||0.0574
82557631|NCT02307682|164824507|SUPERIORITY|||||||0.0012||||||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Cochran-Mantel-Haenszel|CMH-test row mean score (scores=table) stratified by age categories (\<75, ≥75 years) and baseline fluid status)||||||0.0012
82582891|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-0.48||||0.765|TWO_SIDED|95.0|-3.68|2.71|||random coefficient model|||Change from Baseline to Week 24 in QLF Score (% of whole lung field volume) in the 45 mg cohort versus placebo||2.71|-3.68|0.765
82582892|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.37|TWO_SIDED|95.0|-1.68|4.47|||random coefficient model|||Change from Baseline to Week 24 in QLF Score (% of whole lung field volume) in the 90 mg cohort versus placebo||4.47|-1.68|0.370
82582893|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.499|TWO_SIDED|95.0|-0.7|0.34|||random coefficient model|||Change from Baseline to Week 24 in Ground Glass Opacity (% of whole lung field volume) in the 45 mg cohort versus placebo||0.34|-0.70|0.499
82582894|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.901|TWO_SIDED|95.0|-0.47|0.54|||random coefficient model|||Change from Baseline to Week 24 in Ground Glass Opacity (% of whole lung field volume) in the 90 mg cohort versus placebo||0.54|-0.47|0.901
82487102|NCT01675427|164668152|SUPERIORITY_OR_OTHER|||||||0.4367|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.4367
82557632|NCT02307682|164824508|SUPERIORITY||difference in proportions|-6.5||||0.0331|TWO_SIDED|95.0|-13.2|0.3||1-sided testing for superiority of brolucizumab 3 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for age categories (\<75, \>=75 years) and treatment as fixed effect factors. 95% CI for the treatment difference estimated using bootstrap method.|||0.3|-13.2|0.0331
82557633|NCT02307682|164824508|SUPERIORITY||difference in proportions|-10.5||||0.0013|TWO_SIDED|95.0|-17.1|-3.5||1-sided testing for superiority of brolucizumab 6 mg versus aflibercept 2 mg|Regression, Logistic||Statistical model used logistic regression adjusting for age categories (\<75, \>=75 years) and treatment as fixed effect factors. 95% CI for the treatment difference estimated using bootstrap method.|||-3.5|-17.1|0.0013
82557634|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|0.9|||||TWO_SIDED|95.0|-0.5|2.3||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 24||2.3|-0.5|
82557635|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|0.63|||||TWO_SIDED|95.0|-0.9|2.1||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||2.1|-0.9|
82582895|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.676|TWO_SIDED|95.0|-2.25|3.46|||random coefficient model|||Change from Baseline to Week 24 in Reticulation (% of whole lung field volume) in the 45 mg cohort versus placebo||3.46|-2.25|0.676
82582896|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|1.64||||0.242|TWO_SIDED|95.0|-1.13|4.42|||random coefficient model|||Change from Baseline to Week 24 in Reticulation (% of whole lung field volume) in the 90 mg cohort versus placebo||4.42|-1.13|0.242
82557636|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|-0.2|||||TWO_SIDED|95.0|-1.8|1.4||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 48||1.4|-1.8|
82557637|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|-0.26|||||TWO_SIDED|95.0|-1.9|1.4||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.4|-1.9|
82557638|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|0.18|||||TWO_SIDED|95.0|-1.6|1.9||Hypothesis testing not pre-specified.|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 72||1.9|-1.6|
82557639|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|-0.12|||||TWO_SIDED|95.0|-1.9|1.7||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.7|-1.9|
82557640|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|0.75|||||TWO_SIDED|95.0|-1.2|2.7||Hypothesis testing not pre-specified|ANCOVA|Analyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 3mg - Aflibercept 2mg)|Week 96||2.7|-1.2|
82557641|NCT02307682|164824509|OTHER|Treatment difference|Least squares mean difference|1.05|||||TWO_SIDED|95.0|-0.9|3.0||Hypothesis testing not pre-specified.|ANCOVA|nalyzed using pairwise ANCOVA model with treatment as a fixed effect factor and corresponding baseline value of the endpoint as a covariate.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||3.0|-0.9|
82557642|NCT03044158|164824564|SUPERIORITY||Rate Ratio (adjusted)|1.56|||||TWO_SIDED|95.0|1.21|2.01||||||||2.01|1.21|
82557643|NCT03044158|164824565|SUPERIORITY||Rate Ratio (adjusted)|1.28|||||TWO_SIDED|95.0|0.99|1.66||||||||1.66|0.99|
82582897|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-1.21||||0.14|TWO_SIDED|95.0|-2.82|0.4|||random coefficient model|||Change from Baseline to Week 24 in Honeycombing (% of whole lung field volume) in the 45 mg cohort versus placebo||0.40|-2.82|0.140
82557644|NCT03044158|164824566|SUPERIORITY||Geometric Mean Ratio (adjusted)|0.49|||||TWO_SIDED|95.0|0.39|0.62||||||||0.62|0.39|
82582898|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.211|TWO_SIDED|95.0|-2.53|0.56|||random coefficient model|||Change from Baseline to Week 24 in Honeycombing (% of whole lung field volume) in the 90 mg cohort versus placebo||0.56|-2.53|0.211
82582899|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.568|TWO_SIDED|95.0|-2.16|3.91|||random coefficient model|||Change from Baseline to Week 24 in Normal Lung (% of whole lung field volume) in the 45 mg cohort versus placebo||3.91|-2.16|0.568
82582900|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.573|TWO_SIDED|95.0|-3.76|2.09|||random coefficient model|||Change from Baseline to Week 24 in Normal Lung (% of whole lung field volume) in the 90 mg cohort versus placebo||2.09|-3.76|0.573
82557645|NCT03044158|164824567|SUPERIORITY||Rate Ratio (adjusted)|1.48|||||TWO_SIDED|95.0|1.04|2.12||||||||2.12|1.04|
82557646|NCT03044158|164824568|SUPERIORITY||Geometric Mean Ratio (adjusted)|0.35|||||TWO_SIDED|95.0|0.21|0.56||||||||0.56|0.21|
82557647|NCT03044158|164824569|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.44|1.35||||||||1.35|0.44|
82557648|NCT01958021|164824594|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.556||||3.29e-06|TWO_SIDED|95.0|0.429|0.72|||Log Rank|||||0.720|0.429|0.00000329
82557649|NCT01958021|164824595|SUPERIORITY||Hazard Ratio (HR)|0.765||||0.004|TWO_SIDED|95.0|0.628|0.932|||Log Rank|||||0.932|0.628|0.004
82557650|NCT01958021|164824596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.000155|||||||Cochran-Mantel-Haenszel|||||||0.000155
82557651|NCT01958021|164824597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Cochran-Mantel-Haenszel|||||||0.018
82557652|NCT04649047|164824608|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-2.92||||0.036|TWO_SIDED|95.0|-5.6|-0.23|||t-test, 2 sided|||||-0.23|-5.6|0.036
82557653|NCT04649047|164824609|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-0.56||||-0.77|TWO_SIDED|95.0|-1.02|-0.1|||t-test, 2 sided|||||-0.10|-1.02|-0.77
82557654|NCT04649047|164824610|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-3.42||||-0.51|TWO_SIDED|95.0|-7.69|0.85|||t-test, 2 sided|||||0.85|-7.69|-0.51
82557655|NCT04649047|164824611|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|0.85||||0.49|TWO_SIDED|95.0|-0.32|2.03|||t-test, 2 sided|||||2.03|-0.32|0.49
82557656|NCT04649047|164824612|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-8.54||||-0.48|TWO_SIDED|95.0|-19.9|2.82|||t-test, 2 sided|||||2.82|-19.9|-0.48
82557657|NCT04649047|164824613|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|64.46||||0.13|TWO_SIDED|95.0|-256.0|384.7|||t-test, 2 sided|||||384.7|-256|0.13
82557658|NCT04649047|164824614|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.5||||0.88|TWO_SIDED|95.0|0.98|6.02|||t-test, 2 sided|||||6.02|0.98|0.88
82557659|NCT04649047|164824615|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|2.67||||0.61|TWO_SIDED|95.0|-0.1|4.94|||t-test, 2 sided|||||4.94|-0.10|0.61
82557660|NCT04649047|164824616|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|4.5||||0.78|TWO_SIDED|95.0|0.82|8.18|||t-test, 2 sided|||||8.18|0.82|0.78
82582901|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-3.58||||0.012|TWO_SIDED|95.0|-6.35|-0.81|||random coefficient model|||Change from Baseline to Week 24 in Emphysema (% of whole lung field volume) in the 45 mg cohort versus placebo||-0.81|-6.35|0.012
82582902|NCT03538301|164876829|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.112|TWO_SIDED|95.0|-4.82|0.51|||random coefficient model|||Change from Baseline to Week 24 in Emphysema (% of whole lung field volume) in the 90 mg cohort versus placebo||0.51|-4.82|0.112
82557661|NCT04649047|164824617|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.42||||0.58|TWO_SIDED|95.0|-0.32|7.16|||t-test, 2 sided|||||7.16|-0.32|0.58
82557662|NCT04649047|164824618|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|2.42||||0.61|TWO_SIDED|95.0|-0.1|4.94|||t-test, 2 sided|||||4.94|-0.10|0.61
82557663|NCT04649047|164824619|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|3.83||||0.46|TWO_SIDED|95.0|-1.5|9.16|||t-test, 2 sided|||||9.16|-1.50|0.46
82557664|NCT04649047|164824620|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|4.08||||0.71|TWO_SIDED|95.0|0.43|7.73|||t-test, 2 sided|||||7.73|0.43|0.71
82557665|NCT04649047|164824621|NON_INFERIORITY|Paired T test (pre- post-)|Mean Difference (Final Values)|-3.67||||-0.52|TWO_SIDED|95.0|-8.12|0.79|||t-test, 2 sided|||||0.79|-8.12|-0.52
82557666|NCT05886777|164824626|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 4, respectively.|Geometric mean ratio|0.99|||||TWO_SIDED|97.5|0.782|1.249|||||GMRs and 2-sided confidence intervals (CIs) were calculated by exponentiating mean differences of logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 4\]) and corresponding CIs (based on the Student t distribution).|||1.249|0.782|
82582903|NCT03538301|164876830|SUPERIORITY|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||||||0.256
82582904|NCT03538301|164876830|SUPERIORITY|||||||0.241|||||||Wilcoxon (Mann-Whitney)|||||||0.241
82582905|NCT03538301|164876831|SUPERIORITY||Hazard Ratio (HR)|0.649||||0.517|TWO_SIDED|95.0|0.189|2.225|||Log Rank|||Time to First IPF Exacerbation or Death (weeks) in the 45 mg cohort versus placebo||2.225|0.189|0.517
82582906|NCT03538301|164876831|SUPERIORITY||Hazard Ratio (HR)|0.678||||0.506|TWO_SIDED|95.0|0.198|2.324|||Log Rank|||Time to First IPF Exacerbation or Death (weeks) in the 90 mg cohort versus placebo||2.324|0.198|0.506
82487103|NCT01675427|164668152|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||< 0.0001
82557667|NCT05886777|164824627|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 4, respectively.|Geometric mean ratio|0.9|||||TWO_SIDED|97.5|0.697|1.162|||||GMRs and 2-sided CIs were calculated by exponentiating mean differences of the logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 4\]) and corresponding CIs (based on the Student t distribution).|||1.162|0.697|
82557668|NCT05886777|164824628|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.605|1.168|||||GMRs and 2-sided CIs were calculated by exponentiating mean differences of the logarithms of titers (Intervention Group \[Group 1\] minus Reference Group \[Group 3\]) and corresponding CIs (based on the Student t distribution).|||1.168|0.605|
82557669|NCT05886777|164824629|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 1, 3, respectively.|Geometric mean ratio|0.79|||||TWO_SIDED|97.5|0.618|1.014|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.014|0.618|
82557670|NCT05886777|164824630|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.06|||||TWO_SIDED|97.5|0.785|1.423|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.423|0.785|
82557671|NCT05886777|164824631|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.13|||||TWO_SIDED|97.5|0.909|1.402|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.402|0.909|
82582907|NCT03538301|164876831|SUPERIORITY||Proportion Difference (Final Values)|-9.3||||0.313|TWO_SIDED|95.0|-25.2|5.5|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of First IPF Exacerbation (%) in the 45 mg cohort versus placebo||5.5|-25.2|0.313
82582908|NCT03538301|164876831|SUPERIORITY|The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Proportion Difference (Final Values)|-6.7||||0.376|TWO_SIDED|95.0|-22.6|9.2|||Chi-squared|||Rate of First IPF Exacerbation (%) in the 90 mg cohort versus placebo||9.2|-22.6|0.376
82582909|NCT03538301|164876832|SUPERIORITY||Proportion Difference (Final Values)|-4.6||||0.713|TWO_SIDED|95.0|-19.2|9.6|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Hospitalization for Respiratory Ailments (%) in the 45 mg cohort versus placebo||9.6|-19.2|0.713
82582910|NCT03538301|164876832|SUPERIORITY||Proportion Difference (Final Values)|-4.4||||0.713|TWO_SIDED|95.0|-19.2|10.7|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Hospitalization for Respiratory Ailments (%) in the 90 mg cohort versus placebo||10.7|-19.2|0.713
82487104|NCT01675427|164668152|SUPERIORITY_OR_OTHER|||||||0.1951|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1951
82487105|NCT01675427|164668152|SUPERIORITY_OR_OTHER|||||||0.2927|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.2927
82487106|NCT01675427|164668152|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0013
82557672|NCT05886777|164824632|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.05|||||TWO_SIDED|97.5|0.773|1.434|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.434|0.773|
82557673|NCT05886777|164824633|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 1,5, respectively.|Geometric mean ratio|1.11|||||TWO_SIDED|97.5|0.807|1.515|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 1\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.515|0.807|
82557674|NCT05886777|164824634|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A, RSV B as measured by NT:H0: ln(μ2)- ln(μ4) \<=ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 2, 4, respectively.|Geometric mean ratio|1.0|||||TWO_SIDED|97.5|0.769|1.288|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.288|0.769|
82582911|NCT03538301|164876833|SUPERIORITY|||||||0.937|||||||Log Rank|||Overall Survival (weeks) in the 45 mg cohort versus placebo||||0.937
82582912|NCT03538301|164876833|SUPERIORITY|||||||0.414|||||||Log Rank|||Overall Survival (weeks) in the 90 mg cohort versus placebo||||0.414
82582913|NCT03538301|164876833|SUPERIORITY||Proportion Difference (Final Values)|0.1|||>|0.999|TWO_SIDED|95.0|-10.4|10.9|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Mortality (%) in the 45 mg cohort versus placebo||10.9|-10.4|>0.999
82582914|NCT03538301|164876833|SUPERIORITY||Proportion Difference (Final Values)|-2.4|||>|0.999|TWO_SIDED|95.0|-13.1|6.8|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Mortality (%) in the 90 mg cohort versus placebo||6.8|-13.1|>0.999
82582915|NCT03538301|164876834|SUPERIORITY||Proportion Difference (Final Values)|-4.8||||0.494|TWO_SIDED|95.0|-16.6|4.6|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Deterioration of IPF Resulting in Lung Transplantation (%) in the 45 mg cohort versus placebo||4.6|-16.6|0.494
82651689|NCT03558997|165018222|SUPERIORITY||Least Square (LS) Mean Difference|4.73||||0.7185|TWO_SIDED|95.0|-21.023|30.487|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs SCIT) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||30.487|-21.023|0.7185
82651690|NCT03558997|165018223|SUPERIORITY||Least Square (LS) Mean Difference|0.3||||0.5438|TWO_SIDED|95.0|-0.661|1.254|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs SCIT) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||1.254|-0.661|0.5438
82487107|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.0247|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0247
82487108|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.0034|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0034
82487109|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0017
82487110|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.3346|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.3346
82487111|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.3215|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.3215
82487112|NCT01675427|164668153|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0003
82582916|NCT03538301|164876834|SUPERIORITY||Proportion Difference (Final Values)|-4.8||||0.494|TWO_SIDED|95.0|-16.2|4.5|||Fisher Exact||The 95% Confidence Interval for difference in proportions are based on the Chan-Zhang method.|Rate of Deterioration of IPF Resulting in Lung Transplantation (%) in the 90 mg cohort versus placebo||4.5|-16.2|0.494
82582917|NCT03616977|164876835|EQUIVALENCE|Bioequivalence will be concluded if the 2-sided 90% Confidence Interval is completely contained within the interval (0.80, 1.25).|Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.961|1.06||||||||1.06|0.961|
82582918|NCT05326815|164876869|OTHER|Spearman Correlation.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82582919|NCT04617275|164876876|SUPERIORITY||Mean Difference (Final Values)|2.31||||0.5863|TWO_SIDED|90.0|-15.23|19.85||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||19.85|-15.23|0.5863
82487113|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.3609|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.3609
82487114|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0018
82487115|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.0356|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0356
82487116|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.7044|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.7044
82487117|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.8578|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.8578
82487118|NCT01675427|164668154|SUPERIORITY_OR_OTHER|||||||0.0076|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0076
82487119|NCT01675427|164668155|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0002
82487120|NCT01675427|164668155|SUPERIORITY_OR_OTHER|||||||0.2017|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2017
82487121|NCT01675427|164668155|SUPERIORITY_OR_OTHER|||||||0.5878|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.5878
82487122|NCT01675427|164668155|SUPERIORITY_OR_OTHER|||||||0.4144|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4144
82487123|NCT01675427|164668155|SUPERIORITY_OR_OTHER|||||||0.4492|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.4492
82487124|NCT01675427|164668155|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||< 0.0001
82487125|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.0671|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0671
82487126|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.1009|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.1009
82487127|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.0635|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0635
82487128|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.4162|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.4162
82487129|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.9305|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.9305
82487130|NCT01675427|164668156|SUPERIORITY_OR_OTHER|||||||0.0041|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0041
82557675|NCT05886777|164824635|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A, RSV B as measured by NT:H0: ln(μ2)- ln(μ4) \<=ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 2, 4, respectively.|Geometric mean ratio|1.09|||||TWO_SIDED|97.5|0.836|1.429|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.429|0.836|
82557676|NCT05886777|164824636|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 2,3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.594|1.19|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.190|0.594|
82487131|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.0059|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||0.0059
82487132|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.2808|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.2808
82487133|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.2401|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.2401
82487134|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.2993|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.2993
82487135|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.5529|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Other genotypes||||0.5529
82487136|NCT01675427|164668157|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of a continuous variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||Total genotypes||||0.0005
82487137|NCT01675427|164668158|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487138|NCT01675427|164668158|SUPERIORITY_OR_OTHER|||||||0.3572|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.3572
82651691|NCT03558997|165018224|SUPERIORITY||Least Square (LS) Mean Difference|0.03||||0.9559|TWO_SIDED|95.0|-0.877|0.928|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab vs Placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||0.928|-0.877|0.9559
82557677|NCT05886777|164824637|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 2,3, respectively.|Geometric mean ratio|0.84|||||TWO_SIDED|97.5|0.632|1.125|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 2\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.125|0.632|
82557678|NCT05886777|164824638|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 4, respectively.|Geometric mean ratio|1.42|||||TWO_SIDED|97.5|1.123|1.801|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.801|1.123|
82557679|NCT05886777|164824639|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 4, respectively.|Geometric mean ratio|1.27|||||TWO_SIDED|97.5|0.977|1.651|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.651|0.977|
82557680|NCT05886777|164824640|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 7,3, respectively.|Geometric mean ratio|0.86|||||TWO_SIDED|97.5|0.61|1.208|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.208|0.610|
82557681|NCT05886777|164824641|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 was evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT: H0: ln(μ1)- ln(μ3) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 7, 3, respectively.|Geometric mean ratio|1.01|||||TWO_SIDED|97.5|0.764|1.34|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.340|0.764|
82557682|NCT05886777|164824642|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|2.49|||||TWO_SIDED|97.5|1.914|3.232|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||3.232|1.914|
82557683|NCT05886777|164824643|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|1.3|||||TWO_SIDED|97.5|1.049|1.612|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||1.612|1.049|
82557684|NCT05886777|164824644|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|1.58|||||TWO_SIDED|97.5|1.155|2.165|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||2.165|1.155|
82582920|NCT04617275|164876876|SUPERIORITY||Mean Difference (Final Values)|-17.41||||0.0494|TWO_SIDED|90.0|-34.75|-0.06||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.06|-34.75|0.0494
82487139|NCT01675427|164668158|SUPERIORITY_OR_OTHER|||||||0.2041|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.2041
82487140|NCT01675427|164668158|SUPERIORITY_OR_OTHER|||||||0.0467|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.0467
82487141|NCT01675427|164668158|SUPERIORITY_OR_OTHER|||||||0.0525|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0525
82582921|NCT04617275|164876876|SUPERIORITY||Mean Difference (Final Values)|-30.85||||0.0019|TWO_SIDED|90.0|-48.09|-13.61||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-13.61|-48.09|0.0019
82582922|NCT04617275|164876876|SUPERIORITY||Mean Difference (Final Values)|-33.66||||0.0009|TWO_SIDED|90.0|-51.0|-16.32||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-16.32|-51.00|0.0009
82582923|NCT04617275|164876876|SUPERIORITY||Mean Difference (Final Values)|-19.52||||0.0343|TWO_SIDED|90.0|-37.12|-1.92||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.92|-37.12|0.0343
82582924|NCT04617275|164876877|SUPERIORITY||Mean Difference (Final Values)|-3.33||||0.3804|TWO_SIDED|90.0|-21.41|14.76||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||14.76|-21.41|0.3804
82582925|NCT04617275|164876877|SUPERIORITY||Mean Difference (Final Values)|-19.65||||0.0348|TWO_SIDED|90.0|-37.44|-1.87||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.87|-37.44|0.0348
82582926|NCT04617275|164876877|SUPERIORITY||Mean Difference (Final Values)|-32.8||||0.0014|TWO_SIDED|90.0|-50.54|-15.05||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-15.05|-50.54|0.0014
82582927|NCT04617275|164876877|SUPERIORITY||Mean Difference (Final Values)|-35.85||||0.0007|TWO_SIDED|90.0|-53.9|-17.81||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-17.81|-53.90|0.0007
82651692|NCT03558997|165018225|SUPERIORITY||Least Square (LS) Mean Difference|7.25||||0.5416|TWO_SIDED|95.0|-16.028|30.53|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab vs Placebo) of the LS mean using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||30.530|-16.028|0.5416
82487142|NCT01675427|164668158|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487143|NCT01675427|164668159|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82582928|NCT04617275|164876877|SUPERIORITY||Mean Difference (Final Values)|-28.49||||0.0052|TWO_SIDED|90.0|-46.6|-10.37||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-10.37|-46.60|0.0052
82582929|NCT04617275|164876878|SUPERIORITY||Mean Difference (Final Values)|-25.58||||0.025|TWO_SIDED|90.0|-46.97|-4.18||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.18|-46.97|0.0250
82582930|NCT04617275|164876878|SUPERIORITY||Mean Difference (Final Values)|-32.95||||0.0053|TWO_SIDED|90.0|-53.95|-11.95||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-11.95|-53.95|0.0053
82582931|NCT04617275|164876878|SUPERIORITY||Mean Difference (Final Values)|-40.07||||0.0012|TWO_SIDED|90.0|-61.41|-18.73|||Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-18.73|-61.41|0.0012
82582932|NCT04617275|164876878|SUPERIORITY||Mean Difference (Final Values)|-45.47||||0.0003|TWO_SIDED|90.0|-66.85|-24.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-24.10|-66.85|0.0003
82582933|NCT04617275|164876878|SUPERIORITY||Mean Difference (Final Values)|-33.63||||0.0055|TWO_SIDED|90.0|-55.19|-12.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-12.08|-55.19|0.0055
82487144|NCT01675427|164668159|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
82487145|NCT01675427|164668159|SUPERIORITY_OR_OTHER|||||||0.5275|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5275
82487146|NCT01675427|164668159|SUPERIORITY_OR_OTHER|||||||0.6593|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.6593
82487147|NCT01675427|164668159|SUPERIORITY_OR_OTHER|||||||0.0372|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0372
82582934|NCT04617275|164876879|SUPERIORITY||Mean Difference (Final Values)|-27.79||||0.0127|TWO_SIDED|90.0|-48.12|-7.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-7.47|-48.12|0.0127
82582935|NCT04617275|164876879|SUPERIORITY||Mean Difference (Final Values)|-25.67||||0.0171|TWO_SIDED|90.0|-45.51|-5.83||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-5.83|-45.51|0.0171
82582936|NCT04617275|164876879|SUPERIORITY||Mean Difference (Final Values)|-46.94||||0.0001|TWO_SIDED|90.0|-67.16|-26.72||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-26.72|-67.16|0.0001
82582937|NCT04617275|164876879|SUPERIORITY||Mean Difference (Final Values)|-33.79||||0.0037|TWO_SIDED|90.0|-54.32|-13.27||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-13.27|-54.32|0.0037
82582938|NCT04617275|164876879|SUPERIORITY||Mean Difference (Final Values)|-42.13||||0.0005|TWO_SIDED|90.0|-62.85|-21.4||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-21.40|-62.85|0.0005
82582939|NCT04617275|164876880|SUPERIORITY||Mean Difference (Final Values)|-12.85||||0.1678|TWO_SIDED|90.0|-34.9|9.21||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||9.21|-34.90|0.1678
82582940|NCT04617275|164876880|SUPERIORITY||Mean Difference (Final Values)|-14.82||||0.1223|TWO_SIDED|90.0|-35.85|6.21||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||6.21|-35.85|0.1223
82582941|NCT04617275|164876880|SUPERIORITY||Mean Difference (Final Values)|-33.97||||0.0054|TWO_SIDED|90.0|-55.66|-12.28||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-12.28|-55.66|0.0054
82582942|NCT04617275|164876880|SUPERIORITY||Mean Difference (Final Values)|1.31||||0.5398|TWO_SIDED|90.0|-20.38|22.99||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||22.99|-20.38|0.5398
82582943|NCT04617275|164876880|SUPERIORITY||Mean Difference (Final Values)|-14.42||||0.1409|TWO_SIDED|90.0|-36.56|7.72||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||7.72|-36.56|0.1409
82582944|NCT04617275|164876881|SUPERIORITY||Mean Difference (Final Values)|-28.65||||0.0236|TWO_SIDED|90.0|-52.31|-4.99||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.99|-52.31|0.0236
82651693|NCT03558997|165018226|SUPERIORITY||Least Square (LS) Mean Difference|-0.94||||0.0414|TWO_SIDED|95.0|-1.848|-0.037|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs Dupilumab) of LS mean difference using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-0.037|-1.848|0.0414
82651694|NCT03558997|165018227|SUPERIORITY||Least Square (LS) Mean Difference|-30.45||||0.0108|TWO_SIDED|95.0|-53.874|-7.034|||ANCOVA|A Multiple imputation (MI) method addressed missing values in AUC (percent change from baseline) - Seeds: 16115 and 51161 with imputation size 40.|The confidence interval (CI) with p-value was based on treatment difference (Dupilumab + SCIT vs Dupilumab) of LS mean difference using analysis of covariance (ANCOVA) model with baseline measurement as covariate and the treatment as fixed factor.|||-7.034|-53.874|0.0108
82557685|NCT05886777|164824645|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to QIV was evaluated by following hypothesis for each of 4 strains included in QIV as measured by HAI titer: H0: ln(μ1)- ln(μ5) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, and ln(μ1) and ln(μ5) are natural log of the geometric mean of HAI titers 1 month after vaccination for Group 7,5, respectively.|Geometric mean ratio|3.49|||||TWO_SIDED|97.5|2.64|4.604|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 7\] minus Reference Group \[Group 5\]) and the corresponding CIs (based on the Student t distribution).|||4.604|2.640|
82557686|NCT05886777|164824646|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 6, 4, respectively.|Geometric mean ratio|1.43|||||TWO_SIDED|97.5|1.131|1.808|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.808|1.131|
82557687|NCT05886777|164824647|NON_INFERIORITY|Null hypothesis(H0) to assess noninferiority with respect to RSVpreF was evaluated by following hypothesis for both RSV A and B as measured by NT: H0: ln(μ1)- ln(μ4) \<= ln(0.5) where ln(0.5) corresponds to a 2-fold margin for noninferiority, ln(μ1), ln(μ4) are natural log of geometric mean of NT 1 month after vaccination for Group 6, 4, respectively.|Geometric mean ratio|1.37|||||TWO_SIDED|97.5|1.06|1.773|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 4\]) and the corresponding CIs (based on the Student t distribution).|||1.773|1.060|
82557688|NCT05886777|164824648|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 6,3, respectively.|Geometric mean ratio|0.94|||||TWO_SIDED|97.5|0.673|1.3|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.300|0.673|
82557689|NCT05886777|164824649|NON_INFERIORITY|Null hypothesis (H0) to assess noninferiority with respect to BNT162b2 will be evaluated by following hypothesis for both SARS-CoV-2 Omicron BA.4/BA.5 strain and reference strain as measured by NT:H0: ln(μ2)- ln(μ3) \<= ln(0.5)where ln(0.5) corresponds to a 2-fold margin for noninferiority and ln(μ2) and ln(μ3) are natural log of geometric mean of NT 1 month after vaccination for Group 6,3, respectively.|Geometric mean ratio|0.97|||||TWO_SIDED|97.5|0.74|1.281|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Intervention Group \[Group 6\] minus Reference Group \[Group 3\]) and the corresponding CIs (based on the Student t distribution).|||1.281|0.740|
82557690|NCT00705406|164824710|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.927||||0.222|TWO_SIDED|95.0|0.723|1.188|||Wilcoxon-Gehan test statistic|P-value is from a Wilcoxon-Gehan test statistic controlling for smoking status and hemisphere of enrollment.|Hazard Ratio and corresponding 95% CI are based the Cox Regression Model including parameters for treatment, controlling for smoking status and hemisphere of enrollment.|||1.188|0.723|0.222
82557691|NCT00705406|164824711|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||van Elteren test|P-value for comparisons at all time points. P-value was based on the van Elteren test controlling for smoking status and hemisphere of enrollment.||||||>0.05
82557692|NCT00705406|164824712|SUPERIORITY_OR_OTHER|||||||0.421|TWO_SIDED||||||van Elteren test|P-value is based on van Elteren test controlling for smoking status and hemisphere of enrollment.||||||0.421
82557693|NCT00705406|164824713|SUPERIORITY_OR_OTHER|||||||0.885|TWO_SIDED||||||Wilcoxon-Gehan test statistic|P-values are from a Wilcoxon-Gehan test statistic controlling for smoking status and hemisphere of enrollment.||||||0.885
82557694|NCT00705406|164824714|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value is based on the Cochran-Mantel-Haenszel general association test controlling for smoking status and hemisphere of enrollment.||||||0.306
82557695|NCT00683800|164824773|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.89|||<|0.001|TWO_SIDED|95.0|-3.8|-1.98|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-1.98|-3.80|<0.001
82557696|NCT00683800|164824774|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.79|||<|0.001|TWO_SIDED|95.0|-3.77|-1.82|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-1.82|-3.77|<0.001
82557697|NCT00683800|164824775|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28|||<|0.001|TWO_SIDED|95.0|-0.4|-0.16|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-0.16|-0.40|<0.001
82651695|NCT03558997|165018228|SUPERIORITY||Median Difference|0.665||||0.1449|TWO_SIDED|95.0|-0.77|3.21|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||3.2100|-0.770|0.1449
82651696|NCT03558997|165018229|SUPERIORITY||Median Difference|335.3||||0.1231|TWO_SIDED|95.0|-551.47|1746.55|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||1746.55|-551.47|0.1231
82651697|NCT03558997|165018230|SUPERIORITY||Median Difference|-13.325|||<|0.0001|TWO_SIDED|95.0|-23.94|-8.36|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||-8.3600|-23.9400|<0.0001
82487148|NCT01675427|164668159|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487149|NCT01675427|164668160|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487150|NCT01675427|164668160|SUPERIORITY_OR_OTHER|||||||0.3857|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.3857
82487151|NCT01675427|164668160|SUPERIORITY_OR_OTHER|||||||0.2356|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.2356
82487152|NCT01675427|164668160|SUPERIORITY_OR_OTHER|||||||0.7993|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.7993
82487153|NCT01675427|164668160|SUPERIORITY_OR_OTHER|||||||0.2164|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.2164
82487154|NCT01675427|164668160|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487155|NCT01675427|164668161|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487156|NCT01675427|164668161|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.0001
82487157|NCT01675427|164668161|SUPERIORITY_OR_OTHER|||||||0.482|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.4820
82487158|NCT01675427|164668161|SUPERIORITY_OR_OTHER|||||||0.8668|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.8668
82487159|NCT01675427|164668161|SUPERIORITY_OR_OTHER|||||||0.2032|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.2032
82487160|NCT01675427|164668161|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487161|NCT01675427|164668162|SUPERIORITY_OR_OTHER|||||||0.0103|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||0.0103
82487162|NCT01675427|164668162|SUPERIORITY_OR_OTHER|||||||0.8373|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.8373
82557698|NCT00683800|164824776|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.44|-0.18|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided).||-0.18|-0.44|<0.001
82557699|NCT00683800|164824777|SUPERIORITY_OR_OTHER||Wald Formula|-1.07|||||TWO_SIDED|90.0|-2.86|0.72|||||The 90% CI for excess risk was obtained using the Wald Formula.|Excess risk of DVS SR 100 mg over placebo per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||0.72|-2.86|
82651698|NCT03558997|165018231|SUPERIORITY||Median Difference|-134.6|||<|0.0001|TWO_SIDED|95.0|-205.51|-94.98|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||-94.98|-205.51|<0.0001
82487163|NCT01675427|164668162|SUPERIORITY_OR_OTHER|||||||0.3672|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.3672
82487164|NCT01675427|164668163|SUPERIORITY_OR_OTHER|||||||0.0637|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.0637
82487165|NCT01675427|164668163|SUPERIORITY_OR_OTHER|||||||0.0474|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.0474
82487166|NCT01675427|164668163|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487167|NCT01675427|164668164|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487168|NCT01675427|164668164|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
82487169|NCT01675427|164668164|SUPERIORITY_OR_OTHER|||||||0.5522|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5522
82487170|NCT01675427|164668165|SUPERIORITY_OR_OTHER|||||||0.5117|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.5117
82487171|NCT01675427|164668165|SUPERIORITY_OR_OTHER|||||||0.3437|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.3437
82487172|NCT01675427|164668165|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82651699|NCT03558997|165018232|SUPERIORITY||Median Difference|0.84|||<|0.0001|TWO_SIDED|95.0|0.45|1.27|||ANCOVA||P-value was based on treatment differences of median change using rank based ANCOVA model with baseline measurement as covariate \& treatment as fixed factors. Median difference \& its 95% CI estimated with Hodges-Lehmann method.|||1.2700|0.4500|<0.0001
82651700|NCT01149616|165018234|SUPERIORITY|||||||0.007|||||||ANOVA|||||||0.007
82651701|NCT01149616|165018235|SUPERIORITY|||||||0.006|||||||ANOVA|||||||0.006
82487173|NCT01675427|164668166|SUPERIORITY_OR_OTHER|||||||0.0381|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||0.0381
82487174|NCT01675427|164668166|SUPERIORITY_OR_OTHER|||||||0.6852|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.6852
82487175|NCT01675427|164668166|SUPERIORITY_OR_OTHER|||||||0.1185|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.1185
82487176|NCT01675427|164668167|SUPERIORITY_OR_OTHER|||||||0.2611|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.2611
82487177|NCT01675427|164668167|SUPERIORITY_OR_OTHER|||||||0.6059|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.6059
82487178|NCT01675427|164668167|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0001
82557700|NCT00683800|164824778|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||The proportion of participants achieving a response as defined by minimal clinically important difference (MCID) at week 12 was compared between DVS and placebo treatment groups with a Cochran-Mantel-Haenszel test.||||<0.001
82557701|NCT00683800|164824779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.47|||<|0.001|TWO_SIDED|95.0|2.24|5.36|||Regression, Logistic|||The proportion of participants achieving at least 50% hot flush reduction from baseline at 4-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||5.36|2.24|<0.001
82651702|NCT01149616|165018236|SUPERIORITY|||||||0.05||||||P value was calculated, and threshold for significance calculated at less than or equal to 0.05|ANOVA|||||||0.05
82651703|NCT01688037|165018237|OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.8||0.2966|TWO_SIDED|95.0|-2.3|0.7|||ANCOVA|||||0.7|-2.3|0.2966
82487179|NCT01675427|164668168|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487180|NCT01675427|164668168|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G2||||0.0048
82487181|NCT01675427|164668168|SUPERIORITY_OR_OTHER|||||||0.5127|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G3||||0.5127
82487182|NCT01675427|164668169|SUPERIORITY_OR_OTHER|||||||0.3465|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||G4||||0.3465
82487183|NCT01675427|164668169|SUPERIORITY_OR_OTHER|||||||0.7358|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7358
82487184|NCT01675427|164668169|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the IL28B distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487185|NCT01675427|164668170|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82487186|NCT01675427|164668171|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82487187|NCT01675427|164668172|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||< 0.0001
82487188|NCT01675427|164668173|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED|||||Pearson Chi-Square Tests for association between the two variables|Chi-squared|||||||0.0066
82487189|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0018
82487190|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.0425|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.0425
82487191|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.9829|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.9829
82487192|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.6700
82487193|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.7672|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7672
82487194|NCT01675427|164668174|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0067
82487195|NCT01675427|164668175|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0003
82487196|NCT01675427|164668175|SUPERIORITY_OR_OTHER|||||||0.1637|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.1637
82487197|NCT01675427|164668175|SUPERIORITY_OR_OTHER|||||||0.8579|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.8579
82651704|NCT01688037|165018238|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.743|TWO_SIDED|95.0|-0.3|0.4|||ANOVA|||||0.4|-0.3|0.743
82651705|NCT01688037|165018239|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1151|TWO_SIDED|95.0|-0.7|0.1|||ANOVA|||||0.1|-0.7|0.1151
82582945|NCT04617275|164876881|SUPERIORITY||Mean Difference (Final Values)|-27.32||||0.0226|TWO_SIDED|90.0|-49.67|-4.97||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-4.97|-49.67|0.0226
82582946|NCT04617275|164876881|SUPERIORITY||Mean Difference (Final Values)|-40.85||||0.0022|TWO_SIDED|90.0|-64.11|-17.59||1-Sided|Mixed Models Analysis|MMRM|Test = PF06882961 Reference = Placebo|||-17.59|-64.11|0.0022
82582947|NCT04617275|164876881|SUPERIORITY||Mean Difference (Final Values)|-10.25||||0.2335|TWO_SIDED|90.0|-33.59|13.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||13.08|-33.59|0.2335
82582948|NCT04617275|164876881|SUPERIORITY||Mean Difference (Final Values)|-24.38||||0.0494|TWO_SIDED|90.0|-48.69|-0.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.08|-48.69|0.0494
82582949|NCT04617275|164876882|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.2485|TWO_SIDED|90.0|-0.31|0.13||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.13|-0.31|0.2485
82582950|NCT04617275|164876882|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.0252|TWO_SIDED|90.0|-0.48|-0.04||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.04|-0.48|0.0252
82582951|NCT04617275|164876882|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0053|TWO_SIDED|90.0|-0.56|-0.12||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.12|-0.56|0.0053
82582952|NCT04617275|164876882|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.009|TWO_SIDED|90.0|-0.54|-0.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.10|-0.54|0.0090
82651706|NCT01688037|165018239|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0277|TWO_SIDED|95.0|-0.8|0.0|||ANOVA|||||0.0|-0.8|0.0277
82651707|NCT02100956|165018240|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Null hypothesis was that there was no difference in VAS pain scale scores after intrathecal study drug injection between oxytocin and placebo. To account for repeated measures across time and drug conditions, VAS apin scale scores were analyzed using a linear mixed-effects model with random intercepts at the level of participant. Each outcome was regressed on fixed-effects for order of study day, study drug, time after injection, and drug x time interaction.||||<0.05
82651708|NCT01016652|165018242|NON_INFERIORITY_OR_EQUIVALENCE|This is a non-inferiority analysis, with \>=5 CLUE points being the non-inferiority margin.|Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|0.12|||TWO_SIDED|95.0|-9.86|1.59|||Mixed Models Analysis|||"Ho: There are not significant differences between the two lenses (etafilcon A multifocal (test) vs. etafilcon A sphere (control)for Vision quality.~Ha: The test lens is greater than or equal by 5 CLUE points than the control lense."||1.59|-9.86|
82582953|NCT04617275|164876882|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.1066|TWO_SIDED|90.0|-0.39|0.05||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.05|-0.39|0.1066
82582954|NCT04617275|164876883|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.274|TWO_SIDED|90.0|-0.4|0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.19|-0.40|0.2740
82582955|NCT04617275|164876883|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.0196|TWO_SIDED|90.0|-0.66|-0.08||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.08|-0.66|0.0196
82582956|NCT04617275|164876883|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.0006|TWO_SIDED|90.0|-0.88|-0.3|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.30|-0.88|0.0006
82582957|NCT04617275|164876883|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.0019|TWO_SIDED|90.0|-0.82|-0.23||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.23|-0.82|0.0019
82582958|NCT04617275|164876883|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0243|TWO_SIDED|90.0|-0.66|-0.06||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.06|-0.66|0.0243
82582959|NCT04617275|164876884|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.1587|TWO_SIDED|90.0|-0.62|0.15||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.15|-0.62|0.1587
82582960|NCT04617275|164876884|SUPERIORITY||Mean Difference (Final Values)|-0.66||||0.0027|TWO_SIDED|90.0|-1.04|-0.27||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.27|-1.04|0.0027
82582961|NCT04617275|164876884|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.0002|TWO_SIDED|90.0|-1.24|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-1.24|0.0002
82582962|NCT04617275|164876884|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.0016|TWO_SIDED|90.0|-1.1|-0.32||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.32|-1.10|0.0016
82582963|NCT04617275|164876884|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.0027|TWO_SIDED|90.0|-1.07|-0.28||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.28|-1.07|0.0027
82582964|NCT04617275|164876885|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.0472|TWO_SIDED|90.0|-0.86|-0.01||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.01|-0.86|0.0472
82582965|NCT04617275|164876885|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.0004|TWO_SIDED|90.0|-1.29|-0.45||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.45|-1.29|0.0004
82582966|NCT04617275|164876885|SUPERIORITY||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|90.0|-1.53|-0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.68|-1.53|<0.0001
82582967|NCT04617275|164876885|SUPERIORITY||Mean Difference (Final Values)|-0.93||||0.0003|TWO_SIDED|90.0|-1.36|-0.5||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.50|-1.36|0.0003
82582968|NCT04617275|164876885|SUPERIORITY||Mean Difference (Final Values)|-0.91||||0.0004|TWO_SIDED|90.0|-1.34|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-1.34|0.0004
82582969|NCT04617275|164876886|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.0116|TWO_SIDED|90.0|-1.18|-0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.19|-1.18|0.0116
82582970|NCT04617275|164876886|SUPERIORITY||Mean Difference (Final Values)|-0.94||||0.0008|TWO_SIDED|90.0|-1.43|-0.46|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.46|-1.43|0.0008
82582971|NCT04617275|164876886|SUPERIORITY||Mean Difference (Final Values)|-1.16|||<|0.0001|TWO_SIDED|90.0|-1.66|-0.67||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.67|-1.66|<0.0001
82582972|NCT04617275|164876886|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0017|TWO_SIDED|90.0|-1.4|-0.4||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.40|-1.40|0.0017
82582973|NCT04617275|164876886|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.0004|TWO_SIDED|90.0|-1.55|-0.55||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.55|-1.55|0.0004
82582974|NCT04617275|164876887|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.0132|TWO_SIDED|90.0|-1.32|-0.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.20|-1.32|0.0132
82582975|NCT04617275|164876887|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.0014|TWO_SIDED|90.0|-1.55|-0.46||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.46|-1.55|0.0014
82582976|NCT04617275|164876887|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0002|TWO_SIDED|90.0|-1.8|-0.69||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.69|-1.80|0.0002
82582977|NCT04617275|164876887|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.0174|TWO_SIDED|90.0|-1.29|-0.16|||Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.16|-1.29|0.0174
82582978|NCT04617275|164876887|SUPERIORITY||Mean Difference (Final Values)|-1.25||||0.0002|TWO_SIDED|90.0|-1.82|-0.69||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.69|-1.82|0.0002
82582979|NCT04617275|164876888|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.2843|TWO_SIDED|90.0|-1.02|0.5||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.50|-1.02|0.2843
82582980|NCT04617275|164876888|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.431|TWO_SIDED|90.0|-0.84|0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.68|-0.84|0.4310
82651709|NCT01016652|165018243|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin will be exceeded if the test lens is greater than or equal to 0.25D over the control lens.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.09|0.1|||Mixed Models Analysis|||"Ho: There is not a difference between the test lens and the control lens for amplitude of accommodation.~Ha: Monocular amplitude of accommodation of the test lens is significantly better than the control lens"||0.10|-0.09|
82651710|NCT02034799|165018248|NON_INFERIORITY_OR_EQUIVALENCE|The assumed proportion of success for SOC is 0.95 and the proportion of success for the Bioseal group at which the power is calculated is 0.95. A sample size of 112 subjects per group achieves 80% power to detect the non-inferiority margin difference between the group proportions of -0.10. One-sided significance level of 0.025 was used. Using drop-out rate of 10%, 125 subjects per treatment group were randomized for a total of 250 subjects.|Risk Difference (RD)|0.0781|||||TWO_SIDED|95.0|-0.048|0.199||||||H0: Delta \</= -0.1 HA: Delta \> -0.1 Delta is difference in proportion of successes between Bioseal and SOC gropus (Bioseal minus SOC). Success is defined as hemostasis at the TBS at 6 minutes following treatment application||0.199|-0.048|
82651711|NCT03273387|165018273|SUPERIORITY|||||||0.008||||||95% Confidence interval 1.97 - 11.3 statistical significant if p\<0.05|t-test, 2 sided|t=2.988 df=18||||||0.008
82582981|NCT04617275|164876888|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.2402|TWO_SIDED|90.0|-1.07|0.43||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.43|-1.07|0.2402
82582982|NCT04617275|164876888|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.1397|TWO_SIDED|90.0|-1.24|0.26||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.26|-1.24|0.1397
82582983|NCT04617275|164876888|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.4393|TWO_SIDED|90.0|-0.85|0.71||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.71|-0.85|0.4393
82582984|NCT04617275|164876889|SUPERIORITY||Mean Difference (Final Values)|-0.77||||0.1491|TWO_SIDED|90.0|-2.0|0.45||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.45|-2.00|0.1491
82582985|NCT04617275|164876889|SUPERIORITY||Median Difference (Final Values)|0.12||||0.5664|TWO_SIDED|90.0|-1.09|1.34||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.34|-1.09|0.5664
82582986|NCT04617275|164876889|SUPERIORITY||Median Difference (Final Values)|-1.12||||0.0632|TWO_SIDED|90.0|-2.33|0.09||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.09|-2.33|0.0632
82651712|NCT03273387|165018274|SUPERIORITY|||||||0.33||||||statistical significant if p \<0.05|two-way ANOVA|DF=3||||||0.33
82582987|NCT04617275|164876889|SUPERIORITY||Median Difference (Final Values)|-1.01||||0.0847|TWO_SIDED|90.0|-2.23|0.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.20|-2.23|0.0847
82582988|NCT04617275|164876889|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.5264|TWO_SIDED|90.0|-1.2|1.3||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.30|-1.20|0.5264
82582989|NCT04617275|164876890|SUPERIORITY||Mean Difference (Final Values)|-1.48||||0.0395|TWO_SIDED|90.0|-2.86|-0.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.10|-2.86|0.0395
82582990|NCT04617275|164876890|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.3726|TWO_SIDED|90.0|-1.63|1.1||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.10|-1.63|0.3726
82582991|NCT04617275|164876890|SUPERIORITY||Mean Difference (Final Values)|-2.36||||0.0028|TWO_SIDED|90.0|-3.74|-0.98||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.98|-3.74|0.0028
82582992|NCT04617275|164876890|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.0139|TWO_SIDED|90.0|-3.23|-0.47||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.47|-3.23|0.0139
82582993|NCT04617275|164876890|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.1815|TWO_SIDED|90.0|-2.19|0.64||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.64|-2.19|0.1815
82582994|NCT04617275|164876891|SUPERIORITY||Mean Difference (Final Values)|-2.16||||0.0112|TWO_SIDED|90.0|-3.71|-0.61||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.61|-3.71|0.0112
82582995|NCT04617275|164876891|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.2161|TWO_SIDED|90.0|-2.24|0.8||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.80|-2.24|0.2161
82582996|NCT04617275|164876891|SUPERIORITY||Mean Difference (Final Values)|-3.47||||0.0002|TWO_SIDED|90.0|-5.02|-1.92||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.92|-5.02|0.0002
82582997|NCT04617275|164876891|SUPERIORITY||Mean Difference (Final Values)|-2.05||||0.0147|TWO_SIDED|90.0|-3.59|-0.51||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.51|-3.59|0.0147
82582998|NCT04617275|164876891|SUPERIORITY||Mean Difference (Final Values)|-2.97||||0.0013|TWO_SIDED|90.0|-4.56|-1.37||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.37|-4.56|0.0013
82651713|NCT03273387|165018275|SUPERIORITY|||||||0.0002||||||95% Confidence interval 15.92 to 42.53 statistical significant if p \<0.05|t-test, 2 sided|t=4.598 df=19||||||0.0002
82487198|NCT01675427|164668175|SUPERIORITY_OR_OTHER|||||||0.6935|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.6935
82487199|NCT01675427|164668175|SUPERIORITY_OR_OTHER|||||||0.8124|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.8124
82487200|NCT01675427|164668175|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487201|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.1834|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.1834
82487202|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.8543|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.8543
82487203|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.1485|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.1485
82557702|NCT00683800|164824779|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67|||<|0.001|TWO_SIDED|95.0|1.75|4.1|||Regression, Logistic|||The proportion of participants achieving at least 50% hot flush reduction from baseline at 12-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||4.10|1.75|<0.001
82557703|NCT00683800|164824780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.39|||<|0.001|TWO_SIDED|95.0|2.47|7.81|||Regression, Logistic|||The proportion of participants achieving at least 75% hot flush reduction from baseline at 4-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||7.81|2.47|<0.001
82557704|NCT00683800|164824780|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.96|5.09|||Regression, Logistic|||The proportion of participants achieving at least 75% hot flush reduction from baseline at 12-week was compared between DVS and placebo treatment groups with a logistic regression model with treatment as factor and baseline value as a covariate.||5.09|1.96|<0.001
82557705|NCT00683800|164824781|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Log Rank|||A log-rank test was used to compare the treatment groups.||||<0.001
82557706|NCT00683800|164824782|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.04|||<|0.001|TWO_SIDED|95.0|-3.07|-1.0|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 6)||-1.00|-3.07|<0.001
82557707|NCT00683800|164824782|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.81|||<|0.001|TWO_SIDED|95.0|-4.12|-1.51|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 12)||-1.51|-4.12|<0.001
82557708|NCT00683800|164824783|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.31||||0.002|TWO_SIDED|95.0|-0.51|-0.12|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 6)||-0.12|-0.51|0.002
82487204|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.0260
82487205|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.5317|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.5317
82487206|NCT01675427|164668176|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0005
82487207|NCT01675427|164668177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487208|NCT01675427|164668177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
82487209|NCT01675427|164668177|SUPERIORITY_OR_OTHER|||||||0.4423|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.4423
82487210|NCT01675427|164668177|SUPERIORITY_OR_OTHER|||||||0.3824|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.3824
82487211|NCT01675427|164668177|SUPERIORITY_OR_OTHER|||||||0.5246|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.5246
82487212|NCT01675427|164668177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487213|NCT01675427|164668178|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||< 0.0001
82487214|NCT01675427|164668178|SUPERIORITY_OR_OTHER|||||||0.1947|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.1947
82487215|NCT01675427|164668178|SUPERIORITY_OR_OTHER|||||||0.0226|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.0226
82487216|NCT01675427|164668179|SUPERIORITY_OR_OTHER|||||||0.1158|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.1158
82487217|NCT01675427|164668179|SUPERIORITY_OR_OTHER|||||||0.3675|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.3675
82487218|NCT01675427|164668179|SUPERIORITY_OR_OTHER|||||||0.0948|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0948
82487219|NCT01675427|164668180|SUPERIORITY_OR_OTHER|||||||0.1236|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.1236
82582999|NCT04617275|164876892|SUPERIORITY||Mean Difference (Final Values)|-2.46||||0.0111|TWO_SIDED|90.0|-4.22|-0.7||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.70|-4.22|0.0111
82583000|NCT04617275|164876892|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.16|TWO_SIDED|90.0|-2.75|0.68||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.68|-2.75|0.1600
82583001|NCT04617275|164876892|SUPERIORITY||Mean Difference (Final Values)|-4.27|||<|0.0001|TWO_SIDED|90.0|-6.03|-2.52||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.52|-6.03|<0.0001
82583002|NCT04617275|164876892|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0061|TWO_SIDED|90.0|-4.42|-0.94||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.94|-4.42|0.0061
82583003|NCT04617275|164876892|SUPERIORITY||Mean Difference (Final Values)|-3.71||||0.0005|TWO_SIDED|90.0|-5.52|-1.89||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.89|-5.52|0.0005
82583004|NCT04617275|164876893|SUPERIORITY||Mean Difference (Final Values)|-3.21||||0.0047|TWO_SIDED|90.0|-5.22|-1.2||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-1.20|-5.22|0.0047
82583005|NCT04617275|164876893|SUPERIORITY||Mean Difference (Final Values)|-1.51||||0.1003|TWO_SIDED|90.0|-3.45|0.44||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.44|-3.45|0.1003
82583006|NCT04617275|164876893|SUPERIORITY||Mean Difference (Final Values)|-4.95|||<|0.0001|TWO_SIDED|90.0|-6.96|-2.95||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.95|-6.96|<0.0001
82583007|NCT04617275|164876893|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.0197|TWO_SIDED|90.0|-4.49|-0.51||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.51|-4.49|0.0197
82583008|NCT04617275|164876893|SUPERIORITY||Mean Difference (Final Values)|-4.94|||<|0.0001|TWO_SIDED|90.0|-7.03|-2.85||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-2.85|-7.03|<0.0001
82583009|NCT04617275|164876894|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.0836|TWO_SIDED|90.0|-2.12|0.19||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.19|-2.12|0.0836
82583010|NCT04617275|164876895|SUPERIORITY||Mean Difference (Final Values)|-1.59||||0.0386|TWO_SIDED|90.0|-3.07|-0.12||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||-0.12|-3.07|0.0386
82583011|NCT04617275|164876896|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.1566|TWO_SIDED|90.0|-3.99|1.0||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||1.00|-3.99|0.1566
82583012|NCT04617275|164876897|SUPERIORITY||Mean Difference (Final Values)|-2.62||||0.0916|TWO_SIDED|90.0|-5.91|0.67||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.67|-5.91|0.0916
82583013|NCT04617275|164876898|SUPERIORITY||Mean Difference (Final Values)|-3.07||||0.059|TWO_SIDED|90.0|-6.31|0.17||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.17|-6.31|0.0590
82583014|NCT04617275|164876899|SUPERIORITY||Mean Difference (Final Values)|-3.74||||0.0826|TWO_SIDED|90.0|-8.23|0.75||1-Sided|Mixed Models Analysis|MMRM|Test = PF-06882961 Reference = Placebo|||0.75|-8.23|0.0826
82583015|NCT00189488|164876920|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-17.9||||0.034|TWO_SIDED|95.0|-33.4|-2.4|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with Grade 2 to 4 acute GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||-2.4|-33.4|0.034
82583016|NCT00189488|164876921|SUPERIORITY_OR_OTHER||Adjusted Difference (%)|0.5||||0.929|TWO_SIDED|95.0|-11.0|12.1|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with severe GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||12.1|-11.0|0.929
82583017|NCT00189488|164876922|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-6.5||||0.352|TWO_SIDED|95.0|-19.4|6.4|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|The difference between treatment groups in the percentage of participants with Day 11 Methotrexate GVHD, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||6.4|-19.4|0.352
82583018|NCT00189488|164876923|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|-2.6||||0.675|TWO_SIDED|95.0|-14.2|9.0|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Difference between treatment groups in the percentage of participants with severe oral mucositis, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|"Participants with Unknown incidence are treated as Yes when constructing the differences, 95% confidence intervals and p-value."||9.0|-14.2|0.675
82583019|NCT00189488|164876924|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|0.5||||0.953|TWO_SIDED|95.0|-1.5|2.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||2.5|-1.5|0.953
82583020|NCT00189488|164876925|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference (%)|2.0||||0.797|TWO_SIDED|95.0|-12.5|16.5|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Difference between treatment groups in the percentage of participants with opioid analgesic use, adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||16.5|-12.5|0.797
82583021|NCT00189488|164876926|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-5.5||||0.186|TWO_SIDED|95.0|-12.7|1.8|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||1.8|-12.7|0.186
82651714|NCT02058628|165018291|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||Data is represented as per CTR.|Wilcoxon (Mann-Whitney)|DUAC versus SKINOREN with a nominal alpha level of 5%, without adjustment for multiple comparisons.||||||0.0004
82583022|NCT00189488|164876927|SUPERIORITY_OR_OTHER||Adjusted Treatment Difference|-4.1||||0.219|TWO_SIDED|5.0|-12.2|4.0|||Cochran-Mantel-Haenszel|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|Adjusted for the stratification factors (TBI use, matched donor type, and source of donor cells) using the Cochran-Mantel-Haenszel weights.|||4.0|-12.2|0.219
82583023|NCT02349425|164876928|SUPERIORITY||Estimated percent change|-41.222||||0.0055|TWO_SIDED|95.0|-59.294|-15.127|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-15.127|-59.294|0.0055
82583024|NCT02349425|164876928|SUPERIORITY||Estimated percent change|-51.973||||0.0008|TWO_SIDED|95.0|-68.23|-27.397|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-27.397|-68.230|0.0008
82583025|NCT02349425|164876928|SUPERIORITY||Estimated percent change|-46.853||||0.0075|TWO_SIDED|95.0|-66.291|-16.206|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-16.206|-66.291|0.0075
82583026|NCT02349425|164876928|SUPERIORITY||Estimated percent change|-57.067||||0.0009|TWO_SIDED|95.0|-73.375|-30.771|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-30.771|-73.375|0.0009
82583027|NCT02349425|164876929|SUPERIORITY||Estimated percent change|-14.691||||0.2542|TWO_SIDED|95.0|-35.307|12.493|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||12.493|-35.307|0.2542
82583028|NCT02349425|164876929|SUPERIORITY||Estimated percent change|-25.165||||0.0267|TWO_SIDED|95.0|-42.014|-3.421|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-3.4210|-42.014|0.0267
82583029|NCT02349425|164876929|SUPERIORITY||Estimated percent change|-37.146||||0.0198|TWO_SIDED|95.0|-57.345|-7.3821|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-7.3821|-57.345|0.0198
82651715|NCT03551730|165018309|SUPERIORITY||Least Squares Means (Difference)|-0.23|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82651716|NCT03551730|165018309|SUPERIORITY||Least Squares Means (Difference)|-0.2|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82651717|NCT03551730|165018309|SUPERIORITY||Least Squares Means (Difference)|-0.23|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82651718|NCT03551730|165018310|SUPERIORITY||Least Squares Means (Difference)|53922.58||||0.1529|TWO_SIDED||||||ANCOVA|||||||0.1529
82583030|NCT02349425|164876929|SUPERIORITY||Estimated percent change|-55.92||||0.0006|TWO_SIDED|95.0|-71.923|-30.797|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model which uses log-transformation.|Percent change difference between Gefapixant and placebo was estimated by 100 x \[e\^diff - 1\] where e=exponent of difference; and diff = the treatment mean difference from mixed model of change from baseline based on log-transformed data.|||-30.797|-71.923|0.0006
82583031|NCT02349425|164876934|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.003|TWO_SIDED|95.0|-31.2|-6.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.8|-31.2|0.003
82583032|NCT02349425|164876934|SUPERIORITY||Mean Difference (Final Values)|-24.4|||<|0.001|TWO_SIDED|95.0|-36.7|-12.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-12.1|-36.7|<0.001
82583033|NCT02349425|164876934|SUPERIORITY||Mean Difference (Final Values)|-29.3||||0.005|TWO_SIDED|95.0|-49.0|-9.5|||Mixed Models Analysis|Per protocol, statistical analysis follows a Mixed Model.||||-9.5|-49.0|0.005
82583034|NCT02349425|164876934|SUPERIORITY||Mean Difference (Final Values)|-29.6|||<|0.001|TWO_SIDED|95.0|-44.6|-14.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-14.7|-44.6|<0.001
82583035|NCT02349425|164876935|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.332|TWO_SIDED|95.0|-21.0|7.2|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||7.2|-21.0|0.332
82583036|NCT02349425|164876935|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.008|TWO_SIDED|95.0|-23.3|-3.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-3.6|-23.3|0.008
82583037|NCT02349425|164876935|SUPERIORITY||Mean Difference (Final Values)|-30.2|||<|0.001|TWO_SIDED|95.0|-44.7|-15.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-15.7|-44.7|<0.001
82651719|NCT03551730|165018310|SUPERIORITY||Least Squares Means (Difference)|124993.1|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82651720|NCT03551730|165018310|SUPERIORITY||Least Squares Means (Difference)|96385.09||||0.0032|TWO_SIDED||||||ANCOVA|||||||0.0032
82651721|NCT04527471|165018331|OTHER|||||||1|TWO_SIDED|95.0|||||Fisher Exact|||||||1
82651722|NCT02891200|165018332|SUPERIORITY||Predicted Mean Difference|1.46||||0.467|TWO_SIDED|95.0|-2.47|5.38|||Mixed Models Analysis|Mixed effects linear model with study site and setting as fixed effects, and adjusted for baseline SGRQ domain scores.||||5.38|-2.47|0.467
82651723|NCT01172600|165018343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.84|TWO_SIDED|95.0|-1.43|1.17|||Regression, Linear|The analysis adjusted for VAS at baseline (before 1st block), number of epidural blocks received, and imbalanced baseline variables.|This is an intention- to-treat analysis. We assigned missing outcomes to 10 patients.|||1.17|-1.43|0.84
82557709|NCT00683800|164824783|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.33||||0.003|TWO_SIDED|95.0|-0.54|-0.11|||ANCOVA|||An analysis of covariance with treatment as factor and baseline value as a covariate was used to compare DVS SR 100 mg with matching placebo. The comparison was performed at significance level of p=0.05 (two sided). (At month 12)||-0.11|-0.54|0.003
82583038|NCT02349425|164876935|SUPERIORITY||Mean Difference (Final Values)|-26.7||||0.001|TWO_SIDED|95.0|-42.3|-11.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-11.0|-42.3|0.001
82651724|NCT01172600|165018343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.12|TWO_SIDED|95.0|-2.34|0.28|||Regression, Linear||This is a per-protocol analysis, using 68 patients with completed data.|||0.28|-2.34|0.12
82557710|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.34|||<|0.001|TWO_SIDED|95.0|-3.05|-1.64|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.64|-3.05|<0.001
82557711|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.51|-0.99|<0.001
82557712|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.89|-0.45|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.45|-0.89|<0.001
82557713|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.05||||0.162|TWO_SIDED|95.0|-0.13|0.02|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.02|-0.13|0.162
82557714|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.42|||<|0.001|TWO_SIDED|95.0|-1.84|-1.0|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 was outcome variable, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.00|-1.84|<0.001
82583039|NCT02349425|164876936|SUPERIORITY||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-23.5|-6.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.8|-23.5|<0.001
82583040|NCT02349425|164876936|SUPERIORITY||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-26.1|-7.4|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-7.4|-26.1|<0.001
82583041|NCT02349425|164876936|SUPERIORITY||Mean Difference (Final Values)|-19.5||||0.002|TWO_SIDED|95.0|-31.1|-7.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-7.8|-31.1|0.002
82651725|NCT01172600|165018344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29||||0.63|TWO_SIDED|98.3|-1.8|1.21|||Mixed Models Analysis|Mixed model with repeated measures, adjusting for VAS pain score at baseline, number of epidural blocks received, and imbalanced baseline variables.|This analysis was per-protocol, using only patients with completed data.|||1.21|-1.80|0.63
82651726|NCT01172600|165018345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.16|TWO_SIDED|98.3|-3.05|0.82|||Mixed Models Analysis|Mixed model with repeated measures, adjusting for VAS pain score at baseline, number of epidural blocks received, and imbalanced baseline variables.|This analysis was per-protocol, using only patients with completed data.|||0.82|-3.05|0.16
82583042|NCT02349425|164876936|SUPERIORITY||Mean Difference (Final Values)|-20.5|||<|0.001|TWO_SIDED|95.0|-31.8|-9.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.3|-31.8|<0.001
82583043|NCT02349425|164876937|SUPERIORITY||Mean Difference (Final Values)|-4.1||||0.315|TWO_SIDED|95.0|-12.3|4.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||4.0|-12.3|0.315
82583044|NCT02349425|164876937|SUPERIORITY||Mean Difference (Final Values)|-7.2||||0.03|TWO_SIDED|95.0|-13.7|-0.7|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.7|-13.7|0.030
82583045|NCT02349425|164876937|SUPERIORITY||Mean Difference (Final Values)|-18.2|||<|0.001|TWO_SIDED|95.0|-27.4|-9.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.1|-27.4|<0.001
82583046|NCT02349425|164876937|SUPERIORITY||Mean Difference (Final Values)|-17.6|||<|0.001|TWO_SIDED|95.0|-26.3|-9.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-9.0|-26.3|<0.001
82583047|NCT02349425|164876938|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.169|TWO_SIDED|95.0|-8.6|1.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.6|-8.6|0.169
82583048|NCT02349425|164876938|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.341|TWO_SIDED|95.0|-7.5|2.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.6|-7.5|0.341
82583049|NCT02349425|164876938|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.311|TWO_SIDED|95.0|-5.8|1.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.9|-5.8|0.311
82583050|NCT02349425|164876938|SUPERIORITY||Mean Difference (Final Values)|-3.7||||0.128|TWO_SIDED|95.0|-8.6|1.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.1|-8.6|0.128
82583051|NCT02349425|164876939|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.613|TWO_SIDED|95.0|-3.5|5.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.9|-3.5|0.613
82651727|NCT02637076|165018358|OTHER|||||||0.31|||||||repeated measures ANOVA|F(2,36)=1.26||||||0.31
82651728|NCT02637076|165018363|OTHER|||||||0.748|||||||repeated measures ANOVA|||||||0.748
82583052|NCT02349425|164876939|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.743|TWO_SIDED|95.0|-4.3|3.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||3.1|-4.3|.743
82583053|NCT02349425|164876939|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.589|TWO_SIDED|95.0|-4.1|2.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.3|-4.1|0.589
82583054|NCT02349425|164876939|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.205|TWO_SIDED|95.0|-13.2|2.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||2.9|-13.2|0.205
82583055|NCT02349425|164876940|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.0811|TWO_SIDED|95.0|-1.4|0.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||0.1|-1.4|0.0811
82583056|NCT02349425|164876940|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.0097|TWO_SIDED|95.0|-2.2|-0.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.3|-2.2|0.0097
82583057|NCT02349425|164876940|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.0025|TWO_SIDED|95.0|-2.6|-0.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.6|-2.6|0.0025
82583058|NCT02349425|164876940|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.005|TWO_SIDED|95.0|-2.8|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-2.8|0.0050
82583059|NCT02349425|164876941|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.0506|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||0.0|-1.4|0.0506
82583060|NCT02349425|164876941|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.0447|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.0|-1.7|0.0447
82583061|NCT02349425|164876941|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.0026|TWO_SIDED|95.0|-2.2|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-2.2|0.0026
82583062|NCT02349425|164876941|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.0405|TWO_SIDED|95.0|-2.2|0.0|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.0|-2.2|0.0405
82583063|NCT02349425|164876942|SUPERIORITY||Mean Difference (Final Values)|3.84|||<|0.001|TWO_SIDED|95.0|1.88|5.8|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.80|1.88|<0.001
82583064|NCT02349425|164876942|SUPERIORITY||Mean Difference (Final Values)|3.52|||<|0.001|TWO_SIDED|95.0|1.66|5.38|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||5.38|1.66|<0.001
82583065|NCT02349425|164876943|SUPERIORITY||Mean Difference (Final Values)|-10.6||||0.096|TWO_SIDED|95.0|-23.2|1.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||1.9|-23.2|0.096
82583066|NCT02349425|164876943|SUPERIORITY||Mean Difference (Final Values)|-20.0||||0.005|TWO_SIDED|95.0|-33.6|-6.3|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-6.3|-33.6|0.005
82583067|NCT02349425|164876943|SUPERIORITY||Mean Difference (Final Values)|-26.1|||<|0.001|TWO_SIDED|95.0|-40.7|-11.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-11.6|-40.7|<0.001
82583068|NCT02349425|164876943|SUPERIORITY||Mean Difference (Final Values)|-33.8|||<|0.001|TWO_SIDED|95.0|-48.4|-19.1|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-19.1|-48.4|<0.001
82583069|NCT02349425|164876944|SUPERIORITY||Mean Difference (Final Values)|-6.4||||0.311|TWO_SIDED|95.0|-19.1|6.2|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||6.2|-19.1|0.311
82583070|NCT02349425|164876944|SUPERIORITY||Mean Difference (Final Values)|-7.4||||0.232|TWO_SIDED|95.0|-19.7|4.9|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||4.9|-19.7|0.232
82583071|NCT02349425|164876944|SUPERIORITY||Mean Difference (Final Values)|-15.6||||0.012|TWO_SIDED|95.0|-27.6|-3.6|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-3.6|-27.6|0.012
82583072|NCT02349425|164876944|SUPERIORITY||Mean Difference (Final Values)|-15.4||||0.043|TWO_SIDED|95.0|-30.4|-0.5|||Mixed Models Analysis|Per Protocol, statistical analysis follows a Mixed Model.||||-0.5|-30.4|0.043
82583073|NCT00522873|164877000|SUPERIORITY_OR_OTHER||proportion|0.0|||||TWO_SIDED|95.0|0.0|0.0119|||||The number of women who had a biopsy classified as 'hyperplasia or worse' was divided by the number of women with an evaluable biopsy (i.e. classified as 'normal' after 1 year of treatment or as 'hyperplasia or worse' at any time during the study).|Exact 95% confidence interval for proportion of participants with hyperplasia or worse at EoS||0.0119|0.0000|
82583074|NCT00522873|164877001|SUPERIORITY_OR_OTHER||proportion|0.687|||||TWO_SIDED|95.0|0.637|0.734||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.734|0.637|
82583075|NCT00522873|164877001|SUPERIORITY_OR_OTHER||proportion|0.593|||||TWO_SIDED|95.0|0.496|0.684||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.684|0.496|
82583076|NCT00522873|164877002|SUPERIORITY_OR_OTHER||proportion|0.789|||||TWO_SIDED|95.0|0.743|0.83||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.830|0.743|
82583077|NCT00522873|164877002|SUPERIORITY_OR_OTHER||proportion|0.84|||||TWO_SIDED|95.0|0.756|0.904||||||exact 95% confidence intervall (Clopper-Pearson) for proportion of participants with amenorrhea||0.904|0.756|
82583078|NCT01874431|164877008|OTHER||Least square mean ratio|0.926||||0.1973|TWO_SIDED|90.0|0.799|1.074|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an analysis of covariance (ANCOVA) with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a last-observation carried-forward (LOCF) method for missing observations.||1.074|0.799|0.1973
82583079|NCT01874431|164877008|OTHER||Least square mean ratio|0.949||||0.2808|TWO_SIDED|90.0|0.818|1.101|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||1.101|0.818|0.2808
82583080|NCT01874431|164877008|OTHER||Least square mean ratio|0.878||||0.0723|TWO_SIDED|90.0|0.758|1.017|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||1.017|0.758|0.0723
82557715|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.22||||0.066|TWO_SIDED|95.0|-0.46|0.01|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.01|-0.46|0.066
82557716|NCT00683800|164824784|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.64|||<|0.001|TWO_SIDED|95.0|-0.79|-0.5|||Mixed Models Analysis|||For Week 12: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.50|-0.79|<0.001
82557717|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.87|||<|0.001|TWO_SIDED|95.0|-2.57|-1.18|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.18|-2.57|<0.001
82557718|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.65|||<|0.001|TWO_SIDED|95.0|-0.9|-0.41|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.41|-0.90|<0.001
82557719|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.58|||<|0.001|TWO_SIDED|95.0|-0.8|-0.37|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.37|-0.80|<0.001
82557720|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.04||||0.282|TWO_SIDED|95.0|-0.13|0.04|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.04|-0.13|0.282
82557721|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.24|||<|0.001|TWO_SIDED|95.0|-1.66|-0.82|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.82|-1.66|<0.001
82557722|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.17||||0.14|TWO_SIDED|95.0|-0.41|0.06|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.06|-0.41|0.140
82557723|NCT00683800|164824785|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.41|||<|0.001|TWO_SIDED|95.0|-0.56|-0.26|||Mixed Models Analysis|||For Month 6: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6, and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.26|-0.56|<0.001
82557724|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.71|||<|0.001|TWO_SIDED|95.0|-2.42|-1.0|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Total score was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-1.00|-2.42|<0.001
82557725|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.56|||<|0.001|TWO_SIDED|95.0|-0.81|-0.3|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Anxiety scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.30|-0.81|<0.001
82583081|NCT01874431|164877008|OTHER||Least square mean ratio|0.787||||0.0039|TWO_SIDED|90.0|0.68|0.912|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.912|0.68|0.0039
82583082|NCT01874431|164877008|OTHER||Least square mean ratio|0.755||||0.0009|TWO_SIDED|90.0|0.651|0.875|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.875|0.651|0.0009
82557726|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.62|||<|0.001|TWO_SIDED|95.0|-0.83|-0.4|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Depression scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.40|-0.83|<0.001
82557727|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08||||0.082|TWO_SIDED|95.0|-0.17|0.01|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Sexual Dysfunction scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.01|-0.17|0.082
82557728|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.61|-0.75|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Psychological scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.75|-1.61|<0.001
82557729|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.02||||0.865|TWO_SIDED|95.0|-0.25|0.21|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Somatic scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||0.21|-0.25|0.865
82557730|NCT00683800|164824786|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.61|-0.29|||Mixed Models Analysis|||For Month 12: Change from baseline of the GCS Vasomotor scale subscore was analyzed using a Mixed-effects model repeated measures (MMRM), for which changes from baseline at week 12, month 6 and month 12 were outcome variables, with treatment, week, and interaction between treatment and week as fixed effects with participant as a random effect, and with the baseline score as covariate.||-0.29|-0.61|<0.001
82557731|NCT00683800|164824787|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557732|NCT00683800|164824788|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557733|NCT00683800|164824789|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557734|NCT00683800|164824790|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557735|NCT00683800|164824791|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557736|NCT00683800|164824792|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557737|NCT00683800|164824793|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557738|NCT00683800|164824794|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557739|NCT00683800|164824795|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557740|NCT00683800|164824796|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82583083|NCT01874431|164877008|OTHER||Least square mean ratio|0.671|||<|0.0001|TWO_SIDED|90.0|0.584|0.772|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.772|0.584|< 0.0001
82557741|NCT00683800|164824797|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557742|NCT00683800|164824798|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel row mean score test was used to compare the treatment groups.||||<0.001
82557743|NCT00683800|164824799|SUPERIORITY_OR_OTHER||Wald Formula|1.11|||||TWO_SIDED|90.0|-0.68|2.9|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||2.9|-0.68|
82557744|NCT00683800|164824801|SUPERIORITY_OR_OTHER||Wald Formula|2.31|||||TWO_SIDED|90.0|-2.08|6.71|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||6.71|-2.08|
82557745|NCT00683800|164824802|SUPERIORITY_OR_OTHER||Wald Formula|0.08|||||TWO_SIDED|90.0|-3.51|3.67|||||The 90% CI for excess risk is obtained using the Wald Formula.|Excess risk over placebo of DVS SR 100 mg per 1000 woman-years of exposure, defined as the difference in the exposure adjusted rates between the treatment groups, was obtained.||3.67|-3.51|
82557746|NCT00291694|164824812|SUPERIORITY_OR_OTHER|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
82557747|NCT00291694|164824813|SUPERIORITY_OR_OTHER|||||||0.053||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||Difference between groups, two-sided. Endpoint not specifically powered for effect.||||0.053
82583084|NCT01874431|164877008|OTHER||Least square mean ratio|0.624|||<|0.0001|TWO_SIDED|90.0|0.542|0.718|||t-test, 1 sided|||To demonstrate a dose-dependent effect of finerenone, an ANCOVA with factors treatment group, type of albuminuria at screening and region, and log-transformed baseline value as covariate nested within type of albuminuria at screening was performed in the FAS using a LOCF method for missing observations.||0.718|0.542|< 0.0001
82583085|NCT01874431|164877009|OTHER||Least squares mean difference|0.107||||0.0428|TWO_SIDED|95.0|0.003|0.21|||t-test, 2 sided|||||0.21|0.003|0.0428
82583086|NCT01874431|164877009|OTHER||Least squares mean difference|0.121||||0.0223|TWO_SIDED|95.0|0.017|0.225|||t-test, 2 sided|||||0.225|0.017|0.0223
82583087|NCT01874431|164877009|OTHER||Least squares mean difference|0.2||||0.0002|TWO_SIDED|95.0|0.096|0.305|||t-test, 2 sided|||||0.305|0.096|0.0002
82583088|NCT01874431|164877009|OTHER||Least squares mean difference|0.125||||0.0181|TWO_SIDED|95.0|0.021|0.229|||t-test, 2 sided|||||0.229|0.021|0.0181
82557748|NCT00291694|164824814|SUPERIORITY_OR_OTHER|||||||0.37||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.37
82557749|NCT00291694|164824815|SUPERIORITY_OR_OTHER|||||||0.39||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.39
82557750|NCT00291694|164824816|SUPERIORITY_OR_OTHER|||||||0.37||||||Not adjusted for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.37
82557751|NCT02350634|164824836|OTHER||Correlation coefficient|0.429|||<|0.001|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||<0.001
82557752|NCT02350634|164824837|OTHER||Correlation coefficient|0.681|||<|0.001|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||<0.001
82557753|NCT02350634|164824838|OTHER||Correlation coefficient|0.644||||0.00278|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.00278
82557754|NCT02350634|164824839|OTHER||Correlation coefficient|0.437||||0.12|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.12
82557755|NCT02350634|164824840|OTHER||Correlation coefficient|0.324||||0.0712|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.0712
82557756|NCT02350634|164824841|OTHER||Correlation coefficient|0.564||||0.0958|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.0958
82583089|NCT01874431|164877009|OTHER||Least squares mean difference|0.166||||0.0019|TWO_SIDED|95.0|0.061|0.27|||t-test, 2 sided|||||0.27|0.061|0.0019
82583090|NCT01874431|164877009|OTHER||Least squares mean difference|0.236|||<|0.0001|TWO_SIDED|95.0|0.137|0.334|||t-test, 2 sided|||||0.334|0.137|< 0.0001
82583091|NCT01874431|164877009|OTHER||Least squares mean difference|0.186||||0.0002|TWO_SIDED|95.0|0.088|0.284|||t-test, 2 sided|||||0.284|0.088|0.0002
82583092|NCT01874431|164877010|OTHER||Least squares mean difference|-0.786||||0.5454|TWO_SIDED|95.0|-3.337|1.765|||t-test, 2 sided|||||1.765|-3.337|0.5454
82583093|NCT01874431|164877010|OTHER||Least squares mean difference|-1.61||||0.2186|TWO_SIDED|95.0|-4.177|0.957|||t-test, 2 sided|||||0.957|-4.177|0.2186
82583094|NCT01874431|164877010|OTHER||Least squares mean difference|-0.918||||0.4859|TWO_SIDED|95.0|-3.503|1.667|||t-test, 2 sided|||||1.667|-3.503|0.4859
82583095|NCT01874431|164877010|OTHER||Least squares mean difference|-1.8||||0.1677|TWO_SIDED|95.0|-4.358|0.759|||t-test, 2 sided|||||0.759|-4.358|0.1677
82583096|NCT01874431|164877010|OTHER||Least squares mean difference|-2.613||||0.0462|TWO_SIDED|95.0|-5.183|-0.044|||t-test, 2 sided|||||-0.044|-5.183|0.0462
82557757|NCT02350634|164824842|OTHER||Correlation coefficient|-0.189||||0.558|TWO_SIDED|||||A two-sided correlation test (rho ≠ 0) was performed with a significance level of alpha = 0.05 to assess a significant correlation.|Spearman's Rank Order Correlation test|||Null hypothesis is no correlation (correlation coefficient = 0)||||0.558
82557758|NCT04241848|164824848|SUPERIORITY||||||=|0.007|||||||ANOVA|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.007
82557759|NCT04241848|164824848|SUPERIORITY||||||=|0.24|||||||ANOVA|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.240
82557760|NCT04241848|164824848|SUPERIORITY||||||=|0.04|||||||t-test, 2 sided|||Within-group comparison of Five Times Sit to Stand Test (5xSTS), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.04
82557761|NCT04241848|164824851|SUPERIORITY|||||||0.129|||||||ANOVA|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.129
82557762|NCT04241848|164824851|SUPERIORITY|||||||0.25|||||||ANOVA|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.250
82583097|NCT01874431|164877010|OTHER||Least squares mean difference|-2.228||||0.0705|TWO_SIDED|95.0|-4.643|0.187|||t-test, 2 sided|||||0.187|-4.643|0.0705
82583098|NCT01874431|164877010|OTHER||Least squares mean difference|-2.446||||0.048|TWO_SIDED|95.0|-4.869|-0.022|||t-test, 2 sided|||||-0.022|-4.869|0.048
82583099|NCT01874431|164877011|OTHER||Least square mean difference|-2.863||||0.0757|TWO_SIDED|95.0|-6.022|0.297|||t-test, 2 sided|||||0.297|-6.022|0.0757
82583100|NCT01874431|164877011|OTHER||Least square mean difference|-0.643||||0.6941|TWO_SIDED|95.0|-3.851|2.565|||t-test, 2 sided|||||2.565|-3.851|0.6941
82583101|NCT01874431|164877011|OTHER||Least square mean difference|-1.976||||0.2228|TWO_SIDED|95.0|-5.155|1.203|||t-test, 2 sided|||||1.203|-5.155|0.2228
82583102|NCT01874431|164877011|OTHER||Least square mean difference|-1.932||||0.2313|TWO_SIDED|95.0|-5.098|1.234|||t-test, 2 sided|||||1.234|-5.098|0.2313
82583103|NCT01874431|164877011|OTHER||Least square mean difference|-3.342||||0.0386|TWO_SIDED|95.0|-6.509|-0.176|||t-test, 2 sided|||||-0.176|-6.509|0.0386
82583104|NCT01874431|164877011|OTHER||Least square mean difference|-0.634||||0.677|TWO_SIDED|95.0|-3.624|2.355|||t-test, 2 sided|||||2.355|-3.624|0.677
82583105|NCT01874431|164877011|OTHER||Least square mean difference|-0.688||||0.6536|TWO_SIDED|95.0|-3.699|2.322|||t-test, 2 sided|||||2.322|-3.699|0.6536
82557763|NCT04241848|164824851|SUPERIORITY||||||=|0.073|||||||t-test, 2 sided|||Within-group comparison of Six Minute Walk Test (6MWT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.073
82557764|NCT04241848|164824852|SUPERIORITY||||||=|0.091|||||||ANOVA|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.091
82557765|NCT04241848|164824852|SUPERIORITY|||||||0.296|||||||ANOVA|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.296
82557766|NCT04241848|164824852|SUPERIORITY|||||||0.427|||||||t-test, 2 sided|||Within-group comparison of Ten Meter Walk Test (10MWT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.427
82557767|NCT04241848|164824853|SUPERIORITY|||||||0.063|||||||ANOVA|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.063
82557768|NCT04241848|164824853|SUPERIORITY|||||||0.447|||||||ANOVA|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.447
82557769|NCT04241848|164824853|SUPERIORITY|||||||0.096|||||||t-test, 2 sided|||Within-group comparison of Timed Up and Go (TUG) Test, from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.096
82557770|NCT04241848|164824854|SUPERIORITY|||||||0.035|||||||ANOVA|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.035
82557771|NCT04241848|164824854|SUPERIORITY||||||=|0.677|||||||ANOVA|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.677
82557772|NCT04241848|164824854|SUPERIORITY||||||=|0.022|||||||t-test, 2 sided|||Within-group comparison of Step Length of Paretic (Pa) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.022
82557773|NCT04241848|164824855|SUPERIORITY||||||=|0.098|||||||ANOVA|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.098
82583106|NCT01874431|164877012|OTHER||Least square mean difference|-3.044||||0.0816|TWO_SIDED|95.0|-6.471|0.383|||t-test, 2 sided|||||0.383|-6.471|0.0816
82583107|NCT01874431|164877012|OTHER||Least square mean difference|-0.537||||0.7625|TWO_SIDED|95.0|-4.027|2.953|||t-test, 2 sided|||||2.953|-4.027|0.7625
82557774|NCT04241848|164824855|SUPERIORITY|||||||0.666|||||||ANOVA|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||0.666
82487220|NCT01675427|164668180|SUPERIORITY_OR_OTHER|||||||0.0119|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.0119
82557775|NCT04241848|164824855|SUPERIORITY||||||=|0.007|||||||t-test, 2 sided|||Within-group comparison of Step lengths of the non-paretic (NP) Lower Extremities (LE), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||=0.007
82557776|NCT04241848|164824856|SUPERIORITY||||||=|0.001|||||||ANOVA|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.001
82557777|NCT04241848|164824856|SUPERIORITY||||||=|0.009|||||||ANOVA|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while not wearing the Powered Exoskeleton.||||=0.009
82557778|NCT04241848|164824856|SUPERIORITY|||||||0.018|||||||t-test, 2 sided|||Within-group comparison of the Stair Climb Power Test (SCPT), from Baseline to after completing 36 training sessions. Assessed while wearing the Powered Exoskeleton.||||0.018
82557779|NCT02063659|164824878|SUPERIORITY||Hodges-Lehman estimator of difference|-53.955|||<|0.001|TWO_SIDED|95.0|-84.955|-25.119|||Wilcoxon rank sum|||The primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the u5-HIAA at randomization.|Mean difference is calculated as LX1606-Placebo.|-25.119|-84.955|< 0.001
82557780|NCT02063659|164824878|SUPERIORITY||Hodges-Lehman estimator of difference|-89.662|||<|0.001|TWO_SIDED|95.0|-113.104|-63.863|||Wilcoxon rank sum|||The primary analysis used a blocked 2-sample Wilcoxon rank sum statistic stratified by the u5-HIAA at randomization.|Mean difference is calculated as LX1606-Placebo.|-63.863|-113.104|< 0.001
82557781|NCT03371017|164824919|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.5891|TWO_SIDED|95.0|0.73|1.2|||Log Rank|||||1.20|0.73|0.5891
82557782|NCT03371017|164824920|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.6139|TWO_SIDED|95.0|0.76|1.18|||Log Rank|||||1.18|0.76|0.6139
82557783|NCT03371017|164824921|SUPERIORITY||Difference in Event Free Rate|2.69||||0.6264|TWO_SIDED|95.0|-8.14|13.51|||Z-test|||||13.51|-8.14|0.6264
82557784|NCT03371017|164824922|SUPERIORITY||Difference in Event Free Rate|3.76||||0.475|TWO_SIDED|95.0|-6.55|14.07|||Z-test|||||14.07|-6.55|0.4750
82557785|NCT03371017|164824923|SUPERIORITY||Difference in Event Free Rate|1.15||||0.8315|TWO_SIDED|95.0|-9.45|11.75|||Z-test|||||11.75|-9.45|0.8315
82557786|NCT03371017|164824924|SUPERIORITY||Difference in Event Free Rate|1.37||||0.7738|TWO_SIDED|95.0|-7.96|10.69|||Z-test|||||10.69|-7.96|0.7738
82583108|NCT01874431|164877012|OTHER||Least square mean difference|-1.301|||=|0.4603|TWO_SIDED|95.0|-4.759|2.157|||t-test, 2 sided|||||2.157|-4.759|= 0.4603
82583109|NCT01874431|164877012|OTHER||Least square mean difference|-1.574||||0.3678|TWO_SIDED|95.0|-5.004|1.855|||t-test, 2 sided|||||1.855|-5.004|0.3678
82583110|NCT01874431|164877012|OTHER||Least square mean difference|-1.727||||0.3279|TWO_SIDED|95.0|-5.191|1.736|||t-test, 2 sided|||||1.736|-5.191|0.3279
82583111|NCT01874431|164877012|OTHER||Least square mean difference|-1.682||||0.3102|TWO_SIDED|95.0|-4.935|1.57|||t-test, 2 sided|||||1.57|-4.935|0.3102
82583112|NCT01874431|164877012|OTHER||Least square mean difference|-2.511||||0.1317|TWO_SIDED|95.0|-5.778|0.755|||t-test, 2 sided|||||0.755|-5.778|0.1317
82583113|NCT00952120|164877016|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Regression, Logistic|robust standard errors were used to account for the multiple observations per patient||||||0.80
82583114|NCT00523640|164877055|SUPERIORITY_OR_OTHER||Proportion responding|0.24|||||TWO_SIDED|95.0|0.1|0.44||||||||0.44|0.10|
82557787|NCT03371017|164824925|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1387|TWO_SIDED|95.0|0.67|1.06|||Log Rank|||||1.06|0.67|0.1387
82557788|NCT03371017|164824926|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.7317|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7317
82557789|NCT03371017|164824927|SUPERIORITY||Difference in ORR|11.31||||0.0337|TWO_SIDED|95.0|0.24|22.37|||Cochran-Mantel-Haenszel|||||22.37|0.24|0.0337
82557790|NCT03371017|164824928|SUPERIORITY||Difference in ORR|-1.15||||0.9755|TWO_SIDED|95.0|-11.63|9.34|||Cochran-Mantel-Haenszel|||||9.34|-11.63|0.9755
82557791|NCT03371017|164824929|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1359|TWO_SIDED|95.0|0.48|1.11|||Log Rank|||||1.11|0.48|0.1359
82557792|NCT03371017|164824930|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8225|TWO_SIDED|95.0|0.63|1.43|||Log Rank|||||1.43|0.63|0.8225
82557793|NCT03371017|164824933|SUPERIORITY||Difference in ORR|11.67||||0.0172|TWO_SIDED|95.0|1.47|21.87|||Cochran-Mantel-Haenszel|||||21.87|1.47|0.0172
82557794|NCT03371017|164824934|SUPERIORITY||Difference in ORR|0.18||||0.8679|TWO_SIDED|95.0|-9.41|9.77|||Cochran-Mantel-Haenszel|||Stratified Analysis||9.77|-9.41|0.8679
82557795|NCT03371017|164824935|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.2846|TWO_SIDED|95.0|0.46|1.26|||Log Rank|||||1.26|0.46|0.2846
82557796|NCT03371017|164824936|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9853|TWO_SIDED|95.0|0.61|1.61|||Log Rank|||||1.61|0.61|0.9853
82557797|NCT03371017|164824937|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4117|TWO_SIDED|95.0|0.63|1.21|||Log Rank|||Stratified Analysis||1.21|0.63|0.4117
82557798|NCT03371017|164824938|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.7215|TWO_SIDED|95.0|0.68|1.3|||Log Rank|||Stratified Analysis||1.30|0.68|0.7215
82487221|NCT01675427|164668180|SUPERIORITY_OR_OTHER|||||||0.7472|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.7472
82557799|NCT01855750|164824953|SUPERIORITY||Hazard Ratio (HR)|0.922||||0.5167|TWO_SIDED|95.0|0.72|1.18|||Log Rank|||||1.180|0.720|0.5167
82557800|NCT01855750|164824954|SUPERIORITY||Hazard Ratio (HR)|0.949||||0.7311|TWO_SIDED|95.0|0.704|1.279|||Log Rank|||||1.279|0.704|0.7311
82557801|NCT01855750|164824955|SUPERIORITY||Hazard Ratio (HR)|0.917||||0.5027|TWO_SIDED|95.0|0.71|1.183|||Log Rank|||||1.183|0.710|0.5027
82557802|NCT01855750|164824956|SUPERIORITY||Odds Ratio (OR)|0.967||||0.8229|TWO_SIDED|95.0|0.722|1.296|||Cochran-Mantel-Haenszel (CMH) Chi-square|||||1.296|0.722|0.8229
82557803|NCT01855750|164824957|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.8549|TWO_SIDED|95.0|0.754|1.407|||Log Rank|||||1.407|0.754|0.8549
82557804|NCT01855750|164824958|SUPERIORITY||Hazard Ratio (HR)|1.358||||0.0021|TWO_SIDED|95.0|1.115|1.654|||Log Rank|||||1.654|1.115|0.0021
82557805|NCT05116163|164824972|SUPERIORITY||Mean Difference (Final Values)|7.83|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED||||||t-test, 2 sided||Difference in the mean of percent of quality metrics achieved in the intervention arm minus the control arm.|||||<0.001
82557806|NCT05116163|164824973|SUPERIORITY||Mean Difference (Final Values)|4.1||||0.1164|TWO_SIDED||||||t-test, 2 sided|||||||0.1164
82557807|NCT05116163|164824974|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.6781|TWO_SIDED||||||t-test, 2 sided||Intervention group mean - control group mean|||||0.6781
82557808|NCT05116163|164824975|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.4795|TWO_SIDED||||||t-test, 2 sided||Intervention group mean - control group mean|||||0.4795
82557809|NCT05116163|164824976|SUPERIORITY|||||||0.056|||||||Regression, Linear|||Comparison of 3-month vs. baseline adherence scores in patients of providers in the intervention arm vs. control||||0.056
82557810|NCT05116163|164824977|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.017|TWO_SIDED||||||t-test, 2 sided|||||||0.017
82557811|NCT05116163|164824978|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.3957|TWO_SIDED||||||t-test, 2 sided||Mean from intervention arm - control arm.|||||0.3957
82557812|NCT05116163|164824979|SUPERIORITY||Incidence Rate Ratio|1.02|||||TWO_SIDED|95.0|0.63|1.64||||||Comparing the incidence rate of ED visits for the intervention vs. control arms.||1.64|0.63|
82557813|NCT05116163|164824980|SUPERIORITY||Incidence Rate Ratio|1.21|||||TWO_SIDED|95.0|1.07|1.36||||||Incidence rate ratio comparing incidence rates of outpatient visits in the intervention vs. control arms.||1.36|1.07|
82557814|NCT05116163|164824981|SUPERIORITY||Incidence Rate Ratio|4.06|||||TWO_SIDED|95.0|1.69|9.73||||||Incidence rate ratio comparing the incidence rates of hospitalizations in the intervention vs. control arm patients.||9.73|1.69|
82557815|NCT05116163|164824982|SUPERIORITY|||||||0.3882|||||||t-test, 2 sided|||Post vs. pre IAT d-scores comparing the intervention vs. control arms.||||0.3882
82557816|NCT05116163|164824983|SUPERIORITY|||||||0.3615|||||||t-test, 2 sided|||Comparing post vs. pre IAT d-scores between the intervention and control groups.||||0.3615
82557817|NCT05116163|164824984|SUPERIORITY|||||||0.9432|||||||t-test, 2 sided|||Comparing post vs pre IAT d-scores in the intervention vs. control arms.||||0.9432
82557818|NCT05116163|164824985|SUPERIORITY|||||||0.1453|||||||t-test, 2 sided|||Post vs pre IAT d-scores for the intervention vs. control arms.||||0.1453
82557819|NCT05251363|164824989|SUPERIORITY||||||<|0.0001|||||||Exact binomial test|||Ho: SADE-free rate ≤ 87.5% Ha: SADE-free rate \> 87.5% Used an exact binomial test comparing the observed proportion (overall SADE-free rate through 3 months) to the performance goal of 87.5%. The lower, two-sided 95% confidence bound for the overall SADE-free rate must be greater than 87.5% to reject the null hypothesis (Ho), which would demonstrate evidence that the SADE-free rate is significantly higher than 87.5%.||||<0.0001
82557820|NCT05251363|164824990|SUPERIORITY||||||<|0.0001|||||||Exact binomial test|||H0: Implant Success Rate ≤ 80% Ha: Implant Success Rate \> 80% Used an exact binomial test comparing the observed proportion (implant success rate) to the performance goal of 80%. The lower, two-sided 95% confidence bound for the overall implant success rate must be greater than 80% to reject the null hypothesis (Ho), which would demonstrate evidence that the rate of successful Solia S LBBA implants is significantly higher than 80.0%.||||< 0.0001
82557821|NCT05251363|164824991|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||H0: Improvement in QOL Physical Function Scale ≤ 2.8 Ha: Improvement in QOL Physical Function Scale \> 2.8 Exact one-sample t-test comparing mean improvement in QOL from baseline to 12-mo post-implant to a goal of +2.8. The lower, two-sided 95% confidence bound for the improvement in QOL must be \> +2.8 to reject H0.||||<0.001
82557822|NCT05256797|164825020|SUPERIORITY||Cox Proportional Hazard|0.69|||||TWO_SIDED|95.0|0.66|0.71||||||Hazard ratio||0.71|0.66|
82557823|NCT05037513|164825053|SUPERIORITY||Odds Ratio (OR)|7.06|||<|0.05|TWO_SIDED|95.0|0.8|62.2|||Regression, Logistic|||||62.2|0.8|<0.05
82557824|NCT05037513|164825054|SUPERIORITY||Odds Ratio (OR)|7.06|||<|0.05|TWO_SIDED|95.0|0.8|62.2|||Regression, Logistic|||||62.2|0.8|<0.05
82557825|NCT03861052|164825091|SUPERIORITY||Least Squares Mean Difference|-1.09|||<|0.001|TWO_SIDED|95.0|-1.27|-0.9|||Mixed Models Analysis|||||-0.90|-1.27|<0.001
82557826|NCT03861052|164825091|SUPERIORITY||Least Squares Mean Difference|-1.27|||<|0.001|TWO_SIDED|95.0|-1.45|-1.08|||Mixed Models Analysis|||||-1.08|-1.45|<0.001
82557827|NCT03861052|164825091|SUPERIORITY||Least Squares Mean Difference|-1.53|||<|0.001|TWO_SIDED|95.0|-1.71|-1.35|||Mixed Models Analysis|||||-1.35|-1.71|<0.001
82557828|NCT03861052|164825092|SUPERIORITY||Odds Ratio (OR)|9.89|||<|0.001|TWO_SIDED|95.0|4.53|21.55|||Regression, Logistic|||||21.55|4.53|<0.001
82557829|NCT03861052|164825092|SUPERIORITY||Odds Ratio (OR)|20.57|||<|0.001|TWO_SIDED|95.0|7.73|54.71|||Regression, Logistic|||||54.71|7.73|<0.001
82557830|NCT03861052|164825092|SUPERIORITY||Odds Ratio (OR)|85.31|||<|0.001|TWO_SIDED|95.0|15.8|460.58|||Regression, Logistic|||||460.58|15.80|<0.001
82557831|NCT03861052|164825093|SUPERIORITY||Least Squares Mean Difference|-25.9|||<|0.001|TWO_SIDED|95.0|-30.7|-21.1|||Mixed Models Analysis|||||-21.1|-30.7|<0.001
82557832|NCT03861052|164825093|SUPERIORITY||Least Squares Mean Difference|-32.7|||<|0.001|TWO_SIDED|95.0|-37.5|-27.8|||Mixed Models Analysis|||||-27.8|-37.5|<0.001
82557833|NCT03861052|164825093|SUPERIORITY||Least Squares Mean Difference|-35.7|||<|0.001|TWO_SIDED|95.0|-40.6|30.9|||Mixed Models Analysis|||||30.9|-40.6|<0.001
82557834|NCT03861052|164825094|SUPERIORITY||Least Squares Mean Difference|-17.3|||<|0.001|TWO_SIDED|95.0|-21.4|-13.2|||ANCOVA|||||-13.2|-21.4|<0.001
82557835|NCT03861052|164825094|SUPERIORITY||Least Squares Mean Difference|-22.0|||<|0.001|TWO_SIDED|95.0|-26.1|-17.9|||ANCOVA|||||-17.9|-26.1|<0.001
82557836|NCT03861052|164825094|SUPERIORITY||Least Squares Mean Difference|-26.4|||<|0.001|TWO_SIDED|95.0|-30.5|-22.2|||ANCOVA|||||-22.2|-30.5|<0.001
82557837|NCT03861052|164825095|SUPERIORITY||Least Squares Mean Difference|-5.2|||<|0.001|TWO_SIDED|95.0|-6.4|-4.1|||Mixed Models Analysis|||||-4.1|-6.4|<0.001
82583115|NCT00652327|164877071|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||Wilcoxon rank sum test|||||||.0026
82557838|NCT03861052|164825095|SUPERIORITY||Least Squares Mean Difference|-7.9|||<|0.001|TWO_SIDED|95.0|-9.1|-6.8|||Mixed Models Analysis|||||-6.8|-9.1|<0.001
82557839|NCT03861052|164825095|SUPERIORITY||Least Squares Mean Difference|-10.1|||<|0.001|TWO_SIDED|95.0|-11.3|-9.0|||Mixed Models Analysis|||||-9.0|-11.3|<0.001
82557840|NCT03861052|164825096|SUPERIORITY||Odds Ratio (OR)|14.44|||<|0.001|TWO_SIDED|95.0|7.88|26.46|||Regression, Logistic|||||26.46|7.88|<0.001
82557841|NCT03861052|164825096|SUPERIORITY||Odds Ratio (OR)|44.96|||<|0.001|TWO_SIDED|95.0|23.12|87.45|||Regression, Logistic|||||87.45|23.12|<0.001
82557842|NCT03861052|164825096|SUPERIORITY||Odds Ratio (OR)|82.67|||<|0.001|TWO_SIDED|95.0|39.84|171.52|||Regression, Logistic|||||171.52|39.84|<0.001
82557843|NCT03861052|164825097|SUPERIORITY||Least Squares Mean Difference|-2.47|STANDARD_ERROR_OF_MEAN|0.61|<|0.001|TWO_SIDED|95.0|-3.67|-1.28|||Mixed Models Analysis|||||-1.28|-3.67|<0.001
82557844|NCT03861052|164825097|SUPERIORITY||Least Squares Mean Difference|-3.27|STANDARD_ERROR_OF_MEAN|0.592|<|0.001|TWO_SIDED|95.0|-4.43|-2.11|||Mixed Models Analysis|||||-2.11|-4.43|<0.001
82557845|NCT03861052|164825097|SUPERIORITY||Least Squares Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.587|<|0.001|TWO_SIDED|95.0|-4.55|-2.25|||Mixed Models Analysis|||||-2.25|-4.55|<0.001
82557846|NCT03861052|164825098|SUPERIORITY||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.069|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||Mixed Models Analysis|||||-0.13|-0.40|<0.001
82557847|NCT03861052|164825098|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|95.0|-0.53|-0.27|||Mixed Models Analysis|||||-0.27|-0.53|<0.001
82583116|NCT02224690|164877101|SUPERIORITY||Median Difference (Final Values)|-17.21||||0.0135|TWO_SIDED|95.0|-30.32|-4.09|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-4.09|-30.32|0.0135
82557848|NCT03861052|164825098|SUPERIORITY||Least Squares Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.067|<|0.001|TWO_SIDED|95.0|-0.51|-0.25|||Mixed Models Analysis|||||-0.25|-0.51|<0.001
82557849|NCT03861052|164825099|SUPERIORITY||Least Squares Mean Difference|16.1|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|10.7|21.4|||Mixed Models Analysis|||||21.4|10.7|<0.001
82557850|NCT03861052|164825099|SUPERIORITY||Least Squares Mean Difference|20.6|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|14.9|26.3|||Mixed Models Analysis|||||26.3|14.9|<0.001
82557851|NCT03861052|164825099|SUPERIORITY||Least Squares Mean Difference|23.9|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|18.1|29.7|||Mixed Models Analysis|||||29.7|18.1|<0.001
82557852|NCT03861052|164825100|SUPERIORITY||Least Squares Mean Difference|19.9|STANDARD_ERROR_OF_MEAN|4.22|<|0.001|TWO_SIDED|95.0|11.7|28.2|||Mixed Models Analysis|||||28.2|11.7|<0.001
82557853|NCT03861052|164825100|SUPERIORITY||Least Squares Mean Difference|27.0|STANDARD_ERROR_OF_MEAN|4.59|<|0.001|TWO_SIDED|95.0|18.0|36.0|||Mixed Models Analysis|||||36.0|18.0|<0.001
82557854|NCT03861052|164825100|SUPERIORITY||Least Squares Mean Difference|31.2|STANDARD_ERROR_OF_MEAN|4.68|<|0.001|TWO_SIDED|95.0|22.0|40.4|||Mixed Models Analysis|||||40.4|22.0|<0.001
82557855|NCT02927249|164825126|SUPERIORITY||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.91|1.56||||||||1.56|0.91|
82557856|NCT02927249|164825127|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.74|1.69||||||||1.69|0.74|
82557857|NCT02927249|164825128|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.83|1.52||||||||1.52|0.83|
82583117|NCT02224690|164877102|SUPERIORITY||Odds Ratio (OR)|2.57||||0.0043|TWO_SIDED|95.0|1.33|4.97|||Cochran-Mantel-Haenszel|Calculated using a Cochran-Mantel-Haenszel test stratified by age group (2-5, 6-11, 12-17 and 18-55 years)||||4.97|1.33|0.0043
82583118|NCT02224690|164877103|SUPERIORITY||Mean Difference (Final Values)|-21.13||||0.0005|TWO_SIDED|95.0|-33.26|-9.37|||Wilcoxon rank-sum test||Calculated using the Hodges-Lehmann approach|||-9.37|-33.26|0.0005
82557858|NCT00975585|164825207|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|97.46|-0.058|0.031|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis is adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have non-inferior (less than or equal to) average corneal staining than lotrafilcon B after two weeks of wear.||0.031|-0.058|
82557859|NCT00975585|164825208|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.25|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.005|||TWO_SIDED|97.46|-0.021|-0.01|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior (less than or equal to)in visual acuity to lotrafilcon B contact lenses after two weeks of wear.||-0.010|-0.021|
82557860|NCT00975585|164825209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.127|||TWO_SIDED|97.46|0.117|0.402|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have a higher rating of overall comfort than lotrafilcon B after two weeks of wear.||0.402|0.117|
82557861|NCT00975585|164825210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|97.46|-0.218|0.098|||Mixed Models Analysis||The mean difference is lotrafilcon B at 2 weeks minus lotrafilcon B at 4 weeks. Analysis adjusted for duration of wear, stie, duration of wear by site interaction as fixed effects, subject as random effects.|The alternative hypothesis is that lotrafilcon B contact lenses have a lower rating of overall comfort after 4 weeks of wear compared to after 2 weeks of wear.||0.098|-0.218|
82557862|NCT00975585|164825211|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.123|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|98.2|-0.123|-0.051|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior in limbal redness 5 to lotrafilcon B contact lenses after two weeks of wear.||-0.051|-0.123|
82557863|NCT00975585|164825212|NON_INFERIORITY_OR_EQUIVALENCE|Margin = 0.5|Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|98.2|-0.068|0.008|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by site interaction as fixed effects, subject and eye nested within subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses are non-inferior in bulbar redness to lotrafilcon B contact lenses after two weeks of wear.||0.008|-0.068|
82557864|NCT00975585|164825213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.411|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|98.2|-0.411|-0.117|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus lotrafilcon B. Analysis adjusted for lens type, site, lens type by stie interaction as fixed effects, subject as random effects.|The alternative hypothesis is that senofilcon A contact lenses have less frequency of dryness than lotrafilcon B contact lenes after two weeks of wear.||-0.117|-0.411|
82557865|NCT01767467|164825272|NON_INFERIORITY|The objective was met if the lower limit of the 95% CI of the Geometric Mean (GM) ratio (GSK1437173A vaccine over placebo) for anti-gE ELISA antibody concentrations at Month 2 was greater than (\>) 3.|Adjusted Geometric Mean Concentration|29.75|||<|0.0001|TWO_SIDED|95.0|21.09|41.96||The p-value is relative to the null hypothesis Ho: Vaccine / Placebo = 1|Repeated measurement model|||The objective aimed to evaluate anti-gE humoral immune responses at Month 2 following a two-dose administration of the GSK1437173A vaccine, as compared to placebo, in subjects with haematologic malignancies excluding subjects with Non-Hodgkin B-cell Lymphoma and Chronic Lymphocytic Leukaemia.||41.96|21.09|<0.0001
82557866|NCT01787032|164825302|SUPERIORITY_OR_OTHER||Ratio|373.66|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|346.029|403.507|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||403.507|346.029|
82557867|NCT01787032|164825302|SUPERIORITY_OR_OTHER||Ratio|266.94|STANDARD_DEVIATION|16.0|||TWO_SIDED|90.0|243.267|292.914|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||292.914|243.267|
82557868|NCT01787032|164825303|SUPERIORITY_OR_OTHER||Ratio|261.34|STANDARD_DEVIATION|37.3|||TWO_SIDED|90.0|211.692|322.633|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||322.633|211.692|
82557869|NCT01787032|164825303|SUPERIORITY_OR_OTHER||Ratio|213.39|STANDARD_DEVIATION|34.1|||TWO_SIDED|90.0|175.783|259.051|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||259.051|175.783|
82583119|NCT02224690|164877104|SUPERIORITY||Odds Ratio (OR)|2.54||||0.0012|TWO_SIDED|95.0|1.45|4.47|||Regression, Logistic|Ordinal logistic regression model with treatment group as a fixed factor.|Odds of participants recording a lower score (improvement) on a continuous scale|||4.47|1.45|0.0012
82583120|NCT00122460|164877124|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.797||||0.036|TWO_SIDED|95.0|0.644|0.986|||Stratified Log Rank|||"The primary analysis tested the equality of OS between treatment groups applying a 2-sided stratified log-rank test (α=5%), taking into account the strata used for randomization (previous chemotherapy (CTX) \[no vs. yes\] and Karnofsky Performance Status (KPS) \[\<80 vs. ≥80\]).~Median overall survival was estimated using the Kaplan-Meier method. The Hazard Ratio (HR) of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.986|0.644|0.036
82487222|NCT01675427|164668181|SUPERIORITY_OR_OTHER|||||||0.9734|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.9734
82487223|NCT01675427|164668181|SUPERIORITY_OR_OTHER|||||||0.8303|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.8303
82487224|NCT01675427|164668181|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0006
82487225|NCT01675427|164668182|SUPERIORITY_OR_OTHER|||||||0.0065|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0065
82487226|NCT01675427|164668182|SUPERIORITY_OR_OTHER|||||||0.9999|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||0.9999
82487227|NCT01675427|164668182|SUPERIORITY_OR_OTHER|||||||0.3472|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.3472
82487228|NCT01675427|164668183|SUPERIORITY_OR_OTHER|||||||0.2564|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.2564
82487229|NCT01675427|164668183|SUPERIORITY_OR_OTHER|||||||0.7361|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.7361
82487230|NCT01675427|164668183|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||< 0.0001
82487231|NCT01675427|164668184|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G1||||0.0097
82487232|NCT01675427|164668184|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G2||||< 0.0001
82557870|NCT01787032|164825304|SUPERIORITY_OR_OTHER||Ratio|372.88|STANDARD_DEVIATION|13.1|||TWO_SIDED|90.0|345.456|402.477|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||402.477|345.456|
82557871|NCT01787032|164825304|SUPERIORITY_OR_OTHER||Ratio|266.56|STANDARD_DEVIATION|16.0|||TWO_SIDED|90.0|242.955|292.456|||ANOVA|A bioequivalence acceptance range was not specified and no hypothesis was tested as the main focus was on estimation.|ANOVA model on the logarithmic scale: included effects accounting for following sources of variation: 'sequence', 'patients within sequence', 'period' and 'treatment'. Random effect: 'patients within sequences', others considered as fixed effects.|||292.456|242.955|
82651729|NCT02295774|165018369|SUPERIORITY_OR_OTHER||Mc Nemar's χ2 test|0.0|||||TWO_SIDED|||||||Mc Nemar's χ2 test was not applicable because there is no change between visits.|Mc Nemar's χ2 test was not applicable because there is no change between visits.|"The results of the γH2AX analysis were listed and summarised by frequency tables by visit and colonic region.~The results were compared between Visit 2 and Visit 1 for each colonic region and overall using the Mc Nemar's χ2 test.~In case of the presence of at least one positive colonic region, that visit was to be considered as 'Positive' for the overall γH2AX analysis."||||
82487233|NCT01675427|164668184|SUPERIORITY_OR_OTHER|||||||0.9778|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G3||||0.9778
82487234|NCT01675427|164668185|SUPERIORITY_OR_OTHER|||||||0.0151|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||G4||||0.0151
82487235|NCT01675427|164668185|SUPERIORITY_OR_OTHER|||||||0.1052|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Other genotypes||||0.1052
82487236|NCT01675427|164668185|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Pearson Chi-Square Test for differences in the ITPA distribution between the nominal categories of interest|Chi-squared|||Total genotypes||||0.0007
82487237|NCT01675427|164668186|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82487238|NCT01675427|164668186|SUPERIORITY_OR_OTHER|||||||0.0012|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0012
82487239|NCT01675427|164668186|SUPERIORITY_OR_OTHER|||||||0.1717|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1717
82487240|NCT01675427|164668186|SUPERIORITY_OR_OTHER|||||||0.0253|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0253
82487241|NCT01675427|164668187|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82487242|NCT01675427|164668187|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0330
82487243|NCT01675427|164668187|SUPERIORITY_OR_OTHER|||||||0.1595|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.1595
82487244|NCT01675427|164668187|SUPERIORITY_OR_OTHER|||||||0.0412|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0412
82487245|NCT01675427|164668188|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||< 0.0001
82487246|NCT01675427|164668188|SUPERIORITY_OR_OTHER|||||||0.0421|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.0421
82487247|NCT01675427|164668188|SUPERIORITY_OR_OTHER|||||||0.7658|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7658
82557872|NCT00853593|164825337|SUPERIORITY_OR_OTHER||One sample proportion|0.951|||||ONE_SIDED|95.0|0.906||||||The Model 4396 lead will be considered safe if the proportion of subjects free of Model 4396 lead-related complications at one month post-implant is greater than 80% (i.e. the one sided 95% lower confidence bound must be at least 80%).||||.906|
82557873|NCT00853593|164825338|SUPERIORITY_OR_OTHER||One sample mean|1.6|STANDARD_DEVIATION|1.4|||ONE_SIDED|95.0||1.8||||||||1.8||
82557874|NCT00853593|164825339|SUPERIORITY_OR_OTHER||One sample mean|2.3|STANDARD_DEVIATION|2.0|||ONE_SIDED|97.5||2.7||||||||2.7||
82557875|NCT00853593|164825340|SUPERIORITY_OR_OTHER||One sample proportion|0.927|||||TWO_SIDED|95.0|0.887|0.967||||||||.967|.887|
82557876|NCT00853593|164825341|SUPERIORITY_OR_OTHER||One sample proportion|0.969|||||TWO_SIDED|95.0|0.944|0.993||||||||.993|.944|
82557877|NCT00853593|164825342|SUPERIORITY_OR_OTHER||One sample proportion|0.959|||||TWO_SIDED|95.0|0.93|0.987||||||||.987|.930|
82557878|NCT00853593|164825343|SUPERIORITY_OR_OTHER||One sample proportion|0.948|||||TWO_SIDED|95.0|0.917|0.979||||||||.979|.917|
82557879|NCT00853593|164825349|SUPERIORITY_OR_OTHER||One sample mean|2.4|STANDARD_DEVIATION|1.9|||ONE_SIDED|95.0||2.7||||||||2.7||
82557880|NCT01367236|164825389|SUPERIORITY|||||||0.68|||||||Regression, Linear|||24 weeks||||0.68
82557881|NCT01367236|164825389|SUPERIORITY|||||||0.43|||||||Regression, Linear|||48 weeks||||0.43
82557882|NCT01367236|164825390|SUPERIORITY|||||||0.0009|||||||Regression, Linear|||||||0.0009
82583121|NCT00122460|164877125|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.538|||<|0.0001|TWO_SIDED|95.0|0.431|0.672|||Stratified Log Rank|||"To test the equality of PFS between treatment groups, a two-sided stratified log-rank test (α=5%)was used, taking into account strata used for randomization (previous CTX \[yes/no\] and KPS \[\<80 vs. ≥80\]).~Median PFS time was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.672|0.431|<0.0001
82583122|NCT00122460|164877126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.326||||0.0001|TWO_SIDED|95.0|1.504|3.6|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was performed using the randomization strata previous CTX (no vs. yes) and KPS (\<80 vs. ≥80). Treatment group comparisons were performed two-sided with α=5%.||3.600|1.504|0.0001
82487248|NCT01675427|164668188|SUPERIORITY_OR_OTHER|||||||0.295|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.2950
82557883|NCT02823028|164825415|SUPERIORITY||Odds Ratio (OR)|0.931||||0.779|TWO_SIDED||||||Chi-squared|||||||.779
82557884|NCT05785832|164825425|SUPERIORITY||Mean Difference (Net)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.8|-0.4|||Regression, Linear|||Adjusted Difference Between Groups||-0.4|-0.8|<0.001
82557885|NCT05785832|164825426|SUPERIORITY||Mean Difference (Net)|14.0|||<|0.001|TWO_SIDED|95.0|11.0|17.0|||Regression, Linear|||Adjusted Difference Between Groups||17|11|<0.001
82557886|NCT05785832|164825427|SUPERIORITY||Mean Difference (Net)|-21.0|||<|0.001|TWO_SIDED|95.0|-26.0|-15.0|||Regression, Linear|||Adjusted Difference Between Groups||-15|-26|<0.001
82557887|NCT05785832|164825428|SUPERIORITY||Mean Difference (Net)|-14.0|||<|0.001|TWO_SIDED|95.0|-17.0|-11.0|||Regression, Linear|||Adjusted Difference Between Groups||-11|-17|<0.001
82557888|NCT05785832|164825429|SUPERIORITY||Mean Difference (Net)|-9.1|||<|0.001|TWO_SIDED|95.0|-11.7|-6.6|||Regression, Linear|||Adjusted Difference Between Groups||-6.6|-11.7|<0.001
82557889|NCT05785832|164825430|SUPERIORITY||Mean Difference (Net)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.0|-0.4|||Regression, Linear|||Adjusted Difference Between Groups||-0.4|-1.0|<0.001
82557890|NCT05785832|164825431|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.4|0.1||A hierarchical procedure was used to control for the overall type I error. Since the P value for this outcome was more than 0.05, no additional P values are provided for subsequent secondary outcomes.|Regression, Linear|||Adjusted Difference Between Groups||0.1|-0.4|
82557891|NCT05785832|164825432|SUPERIORITY||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.09|0.04|||Regression, Linear|||Adjusted Difference Between Groups||0.04|-0.09|
82557892|NCT05785832|164825433|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.0|||Regression, Linear|||Adjusted Difference Between Groups||0.0|-0.1|
82557893|NCT05785832|164825434|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||Regression, Linear|||Adjusted Difference Between Groups||1.2|-0.5|
82557894|NCT05785832|164825435|SUPERIORITY||Difference in percent of participants.|12.0|||||TWO_SIDED|95.0|1.0|21.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||21|1|
82557895|NCT05785832|164825436|SUPERIORITY||Difference in percent of participants.|18.0|||||TWO_SIDED|95.0|2.0|32.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||32|2|
82557896|NCT05785832|164825437|SUPERIORITY||Difference in percent of participants.|23.0|||||TWO_SIDED|95.0|12.0|33.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||33|12|
82557897|NCT05785832|164825438|SUPERIORITY||Difference in percent of participants.|25.0|||||TWO_SIDED|95.0|11.0|38.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||38|11|
82557898|NCT05785832|164825439|SUPERIORITY||Difference in percent of participants.|22.0|||||TWO_SIDED|95.0|11.0|33.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||33|11|
82557899|NCT05785832|164825440|SUPERIORITY||Difference in percent of participants.|21.0|||||TWO_SIDED|95.0|10.0|32.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||32|10|
82557900|NCT05785832|164825441|SUPERIORITY||Difference in percent of participants.|21.0|||||TWO_SIDED|95.0|9.0|31.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||31|9|
82557901|NCT05785832|164825442|SUPERIORITY||Median Difference (Net)|10.0|||||TWO_SIDED|95.0|7.0|12.0||||||Adjusted Difference Between Groups||12|7|
82557902|NCT05785832|164825443|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.02|0.01||||||||0.01|-0.02|
82557903|NCT05785832|164825444|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.07|0.01||||||Adjusted Difference Between Groups||0.01|-0.07|
82557904|NCT05785832|164825445|SUPERIORITY||Mean Difference (Net)|-4.4|||||TWO_SIDED|95.0|-6.0|-2.7||||||Adjusted Difference Between Groups||-2.7|-6.0|
82557905|NCT05785832|164825446|SUPERIORITY||Mean Difference (Net)|-14.0|||||TWO_SIDED|95.0|-18.0|-10.0||||||Adjusted Difference Between Groups||-10|-18|
82557906|NCT05785832|164825447|SUPERIORITY||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-5.2|-2.7||||||Adjusted Difference Between Groups||-2.7|-5.2|
82583123|NCT00122460|164877127|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.881|||<|0.0001|TWO_SIDED|95.0|1.87|4.441|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was performed using the randomization strata previous CTX (no vs. yes) and KPS (\<80 vs. ≥80). Treatment group comparisons were performed two-sided with α=5%.||4.441|1.870|<0.0001
82583124|NCT00122460|164877128|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.593|||<|0.0001|TWO_SIDED|95.0|0.484|0.727|||Stratified Log Rank|||"Treatment groups were compared applying a two-sided stratified log-rank test (α=5%), taking into account strata used for randomization (previous CTX \[yes/no\] and KPS \[\<80 vs. ≥80\]).~Median time to treatment failure was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||0.727|0.484|<0.0001
82583125|NCT00122460|164877129|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.762||||0.21|TWO_SIDED|95.0|0.497|1.168|||Stratified Log Rank|||"To test the equality of duration of response between treatment groups, the two-sided stratified log-rank test (α=5%) was used taking strata used for randomization into account (previous CTX \[no vs. yes\] and KPS \[\<80 vs. ≥80\]).~Median duration of response was estimated using the Kaplan-Meier method. The HR of cetuximab + CTX over CTX alone was calculated using the Cox proportional hazards model stratified by randomization strata."||1.168|0.497|0.21
82583126|NCT00825916|164877133|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.078
82583127|NCT00825916|164877133|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.086
82583128|NCT00825916|164877133|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.92
82583129|NCT00825916|164877133|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.49
82583130|NCT00825916|164877134|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.74
82583131|NCT00825916|164877134|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.59
82487249|NCT01675427|164668189|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G1||||< 0.0001
82583132|NCT00825916|164877134|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.69
82583133|NCT00825916|164877134|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||1.00
82583134|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.34
82583135|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.98
82651730|NCT03513497|165018384|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.3
82487250|NCT01675427|164668189|SUPERIORITY_OR_OTHER|||||||0.0827|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G2||||0.0827
82487251|NCT01675427|164668189|SUPERIORITY_OR_OTHER|||||||0.7817|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G3||||0.7817
82583136|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.15
82583137|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.83
82583138|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.95
82583139|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.59
82583140|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.76
82583141|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.63
82583142|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.92
82583143|NCT00825916|164877135|SUPERIORITY_OR_OTHER|||||||0.69||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.69
82583144|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustment was used.||||||0.95
82583145|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.76
82583146|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.60
82583147|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.44
82583148|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.85
82583149|NCT00825916|164877136|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.83
82583150|NCT02344004|164877165|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||The proportion of participants achieving culture conversion by Month 6 was analyzed using the Cochran-Mantel-Haenszel test, stratified by smoking status and prior multi-drug regimen. The treatment comparison was tested at two-sided significance level of 0.05. The null hypothesis assumed that culture conversion by Month 6 is independent of treatment, and the alternative hypothesis assumed that culture conversion by Month 6 is associated with treatment.|The final analysis of the primary endpoint, the number of participants achieving culture conversion at by Month 6, was performed after the last participants completed Month 6 and his/her Month 6 sputum culture result was available.|||<0.0001
82583151|NCT02344004|164877166|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82651731|NCT03513497|165018385|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82651732|NCT03513497|165018386|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.6
82651733|NCT03513497|165018387|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|||||||0.5
82487252|NCT01675427|164668189|SUPERIORITY_OR_OTHER|||||||0.1986|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three IL28B genotype categories|Cochran-Armitage Trend Test|||G4||||0.1986
82487253|NCT01675427|164668190|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82487254|NCT01675427|164668190|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0002
82487255|NCT01675427|164668190|SUPERIORITY_OR_OTHER|||||||0.0394|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.0394
82557907|NCT05785832|164825448|SUPERIORITY||Difference in percent of participants.|16.0|||||TWO_SIDED|95.0|8.0|24.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||24|8|
82557908|NCT05785832|164825449|SUPERIORITY||Difference in percent of participants.|26.0|||||TWO_SIDED|95.0|12.0|41.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||41|12|
82557909|NCT05785832|164825450|SUPERIORITY||Difference in percent of participants.|34.0|||||TWO_SIDED|95.0|21.0|45.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||45|21|
82557910|NCT05785832|164825453|SUPERIORITY||Difference in percent of participants.|15.0|||||TWO_SIDED|95.0|8.0|22.0|||||Estimation represents the difference in percent of participants in each arm who achieved the outcome.|||22|8|
82557911|NCT05785832|164825454|SUPERIORITY||Mean Difference (Net)|-10.0|||||TWO_SIDED|95.0|-20.0|0.0||||||Adjusted Difference Between Groups.||0|-20|
82557912|NCT05785832|164825455|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-4.4|3.4||||||Adjusted Difference Between Groups.||3.4|-4.4|
82557913|NCT05785832|164825456|SUPERIORITY||Median Difference (Net)|1.5|||||TWO_SIDED|95.0|0.5|2.5||||||Adjusted Difference Between Groups.||2.5|0.5|
82557914|NCT05785832|164825457|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-2.5|4.7||||||Adjusted Difference Between Groups.||4.7|-2.5|
82487256|NCT01675427|164668190|SUPERIORITY_OR_OTHER|||||||0.0493|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.0493
82487257|NCT01675427|164668191|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G1||||< 0.0001
82487258|NCT01675427|164668191|SUPERIORITY_OR_OTHER|||||||0.0196|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G2||||0.0196
82487259|NCT01675427|164668191|SUPERIORITY_OR_OTHER|||||||0.3268|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G3||||0.3268
82487260|NCT01675427|164668191|SUPERIORITY_OR_OTHER|||||||0.1667|TWO_SIDED|||||Jonckheere-Terpstra Test for a trend of an ordinal variable across the three IL28B genotype categories|Jonckheere-Terpstra Test|||G4||||0.1667
82487261|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0021
82487262|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.5319|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.5319
82487263|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.0114|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.0114
82557915|NCT05785832|164825458|SUPERIORITY||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-3.4|0.7||||||Adjusted Difference Between Groups.||0.7|-3.4|
82557916|NCT05785832|164825459|SUPERIORITY||Median Difference (Net)|2.1|||||TWO_SIDED|95.0|0.5|3.7||||||Adjusted Difference Between Groups.||3.7|0.5|
82557917|NCT05785832|164825460|SUPERIORITY||Mean Difference (Net)|4.9|||||TWO_SIDED|95.0|-1.4|11.1||||||Adjusted Difference Between Groups.||11.1|-1.4|
82557918|NCT05785832|164825461|SUPERIORITY||Mean Difference (Net)|-20.0|||||TWO_SIDED|95.0|-45.0|4.0||||||Adjusted Difference Between Groups.||4|-45|
82557919|NCT04038580|164825469|SUPERIORITY|||||||0.553||||||Statistical significance was set a-priori at p\<0.05|ANOVA|||The null hypothesis was that all sockets would have the same SCS||||0.553
82557920|NCT04038580|164825470|SUPERIORITY|Frustration sub-scale||||||0.536|||||||ANOVA|||The null hypothesis was that all sockets would be the same||||0.536
82557921|NCT04038580|164825470|SUPERIORITY|Perceived Response||||||0.598|||||||ANOVA|||||||0.598
82557922|NCT04038580|164825470|SUPERIORITY|Social Burden||||||0.072|||||||ANOVA|||||||0.072
82557923|NCT04038580|164825470|SUPERIORITY|Ambulation Sub-scale||||||0.018|||||||ANOVA|||||||0.018
82557924|NCT04038580|164825470|SUPERIORITY|Prosthesis Utility||||||0.037|||||||ANOVA|||||||0.037
82557925|NCT04038580|164825470|SUPERIORITY|Residual Limb Health||||||0.254|||||||ANOVA|||||||0.254
82557926|NCT04038580|164825470|SUPERIORITY|Appearance||||||0.032|||||||ANOVA|||||||0.032
82557927|NCT04038580|164825470|SUPERIORITY|Sounds||||||0.352|||||||ANOVA|||||||0.352
82557928|NCT04038580|164825470|SUPERIORITY|Well-being||||||0.077|||||||ANOVA|||||||.077
82557929|NCT04038580|164825471|SUPERIORITY|||||||0.95|||||||ANOVA|general linear model with socket as fixed factor and participant as random factor||||||0.95
82557930|NCT04038580|164825472|SUPERIORITY|||||||0.853|||||||ANOVA|general linear model with sockets as fixed effect and subjects as random effect||||||.853
82557931|NCT04038580|164825473|SUPERIORITY|||||||0.565|||||||ANOVA|general linear model with socket as a fixed factor and subjects as a random factor||||||0.565
82557932|NCT04038580|164825475|SUPERIORITY|||||||0.374|||||||ANOVA|general linear model with socket as fixed factor and subjects as random factor||||||.374
82557933|NCT04038580|164825477|SUPERIORITY|||||||0.574|||||||ANOVA|general linear model with socket as a fixed factor and subjects as a random factor||||||.574
82557934|NCT00853580|164825501|SUPERIORITY|||||||0.51|||||||ANCOVA|||||||0.51
82557935|NCT00853580|164825502|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
82487264|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.2293|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.2293
82557936|NCT00853580|164825503|SUPERIORITY|||||||0.86|||||||ANCOVA|||||||0.86
82557937|NCT00853580|164825504|SUPERIORITY|||||||0.04|||||||ANCOVA|||||||0.04
82557938|NCT00853580|164825505|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
82557939|NCT00853580|164825506|SUPERIORITY|||||||0.99|||||||ANCOVA|||||||0.99
82557940|NCT00853580|164825507|SUPERIORITY|||||||0.9|||||||ANCOVA|||||||0.90
82557941|NCT00853580|164825508|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
82557942|NCT00853580|164825509|SUPERIORITY|||||||0.49|||||||ANCOVA|||||||0.49
82557943|NCT00853580|164825510|SUPERIORITY|||||||0.86|||||||ANCOVA|||||||0.86
82557944|NCT00853580|164825511|SUPERIORITY|||||||0.09|||||||ANCOVA|||||||0.09
82557945|NCT00853580|164825512|SUPERIORITY|||||||0.37|||||||ANCOVA|||||||0.37
82557946|NCT00853580|164825513|SUPERIORITY|||||||0.18|||||||ANCOVA|||||||0.18
82557947|NCT00853580|164825514|SUPERIORITY|||||||0.88|||||||ANCOVA|||||||0.88
82557948|NCT00853580|164825515|SUPERIORITY|||||||0.25|||||||ANCOVA|||||||0.25
82557949|NCT00853580|164825516|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.20
82557950|NCT00853580|164825517|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||0.50
82557951|NCT00853580|164825518|SUPERIORITY|||||||0.33|||||||ANCOVA|||||||0.33
82557952|NCT00853580|164825519|SUPERIORITY|||||||0.3|||||||ANCOVA|||||||0.30
82557953|NCT00853580|164825520|SUPERIORITY|||||||0.73|||||||ANCOVA|||||||0.73
82557954|NCT01700205|164825521|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos).|Slope|-0.018|||<|0.05|TWO_SIDED|95.0|-0.0363|-0.0002|||Generalized Estimating Equation|GEE analysis conducted with group (CMF, EHF), time (infant age, 0.5-12.5 months) and their interaction.||||-0.0002|-0.0363|<0.05
82557955|NCT01700205|164825522|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos). We provide below the parameter estimates for WLZ scores only.|Slope|-0.023||||0.001|TWO_SIDED|95.0|-0.0362|-0.0093|||Generalized Estimating Equations|GEE analysis conducted on each type of Z score separately with group (CMF, EHF), time (infant age; 0.5-12.5 months) and their interaction.||||-0.0093|-0.0362|0.001
82557956|NCT01700205|164825523|OTHER|A priori power analyses determined that a sample size of 94 is required to detect a difference of 0.67 with 90% power and a 5% type 1 error rate. We conducted an intention-to-treat (ITT) analyses on the 113 infants using separate generalized estimating equations that included treatment group (CMF, EHF), time (infant age), and group × time interaction for each type of Z score (0.5-12.5 mos).|Slope|-0.02||||0.32|TWO_SIDED|95.0|-0.058|0.019|||Generalized Estimating Equation|GEE analysis conducted with group (CMF, EHF), time (infant age, 0.5-12.5 months) and their interaction||||0.019|-0.058|0.32
82557957|NCT01700205|164825524|OTHER|ANOVA with group (CMF, EHF) as between-subjects factor were conducted on intent-to-treat sample|||||<|0.05|||||||Repeated Measures ANOVA|We conducted a ANOVA with group (CMF, EHF) as between-subject factor.||ANOVAs were conducted with group (CMF, EHF) as the between-subjects factor.||||<0.05
82557958|NCT01700205|164825525|OTHER|ANOVA was conducted with group (CMF, EHF) as between-subjects factor on the intent-to-treat sample.||||||0.72|||||||Repeated Measure ANOVA|ANOVA was conducted with group (CMF, EHF) as between-subjects factor on the intent-to-treat sample.||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor||||0.72
82557959|NCT01700205|164825526|OTHER|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||||0.72|||||||Repeated Measure ANOVA|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||0.72
82557960|NCT01700205|164825527|OTHER|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||||0.02|||||||Repeated Measure ANOVA|Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||Repeated Measures ANOVA conducted with group (CMF, EHF) as between-subjects factor on intent-to-treat sample||||0.02
82557961|NCT01728324|164825529|SUPERIORITY_OR_OTHER||Adjusted response rate|81.1|||<|0.0001|TWO_SIDED|95.0|76.34|85.87|||z-test|A stratified one sample z-test with 50% reference for PegIFN-ineligible and 71% for PegIFN-eligible patients was performed.|The adjusted response rate was tested against the historical control SVR rate of 68% (95% Confidence Interval (CI): 76.3, 85.9).|The proportion of patients achieving SVR12 achieved with 24 weeks of treatment with DBV/FDV/RBV in cirrhotic and non-cirrhotic patients was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with PegIFN from historical data. The acceptable minimum SVR rate was an average of 71% (reference for PegIFN-eligible) and 50% (for PegIFN-ineligible patients), weighted by the sample size in each stratum.||85.87|76.34|<0.0001
82557962|NCT01728324|164825529|SUPERIORITY_OR_OTHER||Adjusted response rate|75.89||||0.002|TWO_SIDED|95.0|70.63|81.14|||z-test|A stratified one sample z-test with 50% reference for PegIFN-ineligible and 71% for PegIFN-eligible patients was performed.||The proportion of patients achieving SVR12 achieved with 16 weeks of treatment of non-cirrhotic and 24 weeks of treatment of cirrhotic patients was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with PegIFN from historical data. The acceptable minimum SVR rate was an average of 71% (reference for PegIFN-eligible) and 50% (for PegIFN-ineligible patients), weighted by the sample size in each stratum.||81.14|70.63|0.0020
82557963|NCT01728324|164825530|SUPERIORITY_OR_OTHER||SVR12 Rates difference|6.4||||0.0532|TWO_SIDED|95.0|-1.4|14.2|||Koch's method|Adjusted for PegIFN eligibility using Koch's method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||14.2|-1.4|0.0532
82557964|NCT01728324|164825531|SUPERIORITY_OR_OTHER||SVR4 Rates difference|3.6||||0.1671|TWO_SIDED|95.0|-3.7|10.9|||Koch´s method|Adjusted for PegIFN eligibility using Koch´s method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||10.9|-3.7|0.1671
82557965|NCT01728324|164825532|SUPERIORITY_OR_OTHER||SVR24 Rates difference|-6.9||||0.0447|TWO_SIDED|95.0|-14.8|1.1|||Koch´s method|Adjusted for PegIFN eligibility using Koch´s method, with continuity correction.||Koch's stratum-adjusted Mantel Haenszel methods were used to compare durations, adjusting for stratification factors.||1.1|-14.8|0.0447
82557966|NCT03335488|164825551|SUPERIORITY||Odds Ratio (OR)|1.1||||1|TWO_SIDED|95.0|0.0|28.1|||Fisher Exact|||||28.1|0.0|1.0000
82557967|NCT03335488|164825553|SUPERIORITY|||||||0.8464|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 1||||0.8464
82557968|NCT03335488|164825553|SUPERIORITY|||||||0.104|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 2||||0.1040
82557969|NCT03335488|164825553|SUPERIORITY|||||||0.0979|||||||Wilcoxon rank sum test|||Initial Treatment Period Week 3||||0.0979
82557970|NCT03335488|164825553|SUPERIORITY|||||||0.9808|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 0 Hr||||0.9808
82557971|NCT03335488|164825553|SUPERIORITY|||||||0.8329|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 4 Hr||||0.8329
82557972|NCT03335488|164825553|SUPERIORITY|||||||0.2544|||||||Wilcoxon rank sum test|||End of Initial Treatment Period Week 4 - 8 Hr||||0.2544
82557973|NCT03335488|164825554|SUPERIORITY|||||||0.8579||||||P-value is from a t-test comparing log-transformed RAVICTI vs NaPBA values.|t-test|||||||0.8579
82557974|NCT03335488|164825555|SUPERIORITY|||||||0.7155||||||P-value is from a t-test comparing log-transformed RAVICTI vs NaPBA values.|t-test|||||||0.7155
82557975|NCT04941482|164825601|SUPERIORITY||Median Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|1.3|<|0.05|TWO_SIDED|95.0|-1.9|3.2||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Patient Health Questionnaire-9 score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|3.2|-1.9|<0.05
82557976|NCT04941482|164825602|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.05|TWO_SIDED|95.0|-7.6|2.5||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Fatigue Severity Scale score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|2.5|-7.6|<0.05
82557977|NCT04941482|164825603|SUPERIORITY||Mean Difference (Net)|-2.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|95.0|-5.4|1.3||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Mini-Mental State Examinationscore before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|1.3|-5.4|<0.05
82586143|NCT05437510|164884198|SUPERIORITY||Efficacy|74.62||||0.0051|TWO_SIDED|95.0|29.74|92.595||Adjusted p-value is reported.|Exact method using binomial distribution|||Statistical analysis for Germany: The adjusted 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization. Adjustment based on Bonferroni-Holm procedure.||92.595|29.740|0.0051
82557978|NCT04941482|164825604|SUPERIORITY|Over 6 months, the number of patients who losted to follow-up of intervention and control group were respectively 9:0 (after 1 month), 9:0 (after 3 months), and 9:3 (after 6 months).|Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|7.4|<|0.05|TWO_SIDED|95.0|-14.5|14.7|||t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Barthel Index score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|14.7|-14.5|<0.05
82583152|NCT02344004|164877167|SUPERIORITY|||||||0.7804|||||||Mixed Model Repeated Measures (MMRM)|||This was analyzed using a mixed model repeated measures (MMRM) analysis of change from Baseline at Months 4\&6. MMRM included treatment, month, treatment-by-month interaction, combination of smoking status \& prior MDR (4 levels: Yes/Yes, Yes/No, No/Yes, and No/No) as fixed factors, baseline 6MWD as a covariate \& baseline 6MWD-by-month interaction. An unstructured covariance matrix was used for the MMRM.|"* Baseline is defined as the last non-missing value prior to first dose of study drug.~* Statistics were obtained from an mixed-effects model repeated measures (MMRM) model with pattern-mixture modeling of missing values due to dropout, which included treatment, month, the treatment-by-month interaction, and the combination of smoking status and prior multidrug regimen as fixed factors, the baseline 6MWT distance as a covariate and baseline 6MWT distance-by-month interaction. MMRM included postbaseline data through Month 6.~* For baseline, n is the number of participants with a baseline score and at least 1 postbaseline score. For Month 6, n is the number of participants with a baseline score and a postbaseline score at the summarized visit."|||0.7804
82583153|NCT02344004|164877168|SUPERIORITY||Cox Proportional Hazard|3.92|||<|0.0001|TWO_SIDED|95.0|2.01|7.63|||Regression, Cox|||Kaplan Meier estimates for the distribution of time to culture conversion were constructed for treatment arms. The treatment comparison was made using the stratified log rank test for the ITT population. The estimated median time to culture conversion for each treatment arm was not estimable. The time to culture conversion was analyzed using Cox regression model to estimate hazards ratio.||7.63|2.01|<0.0001
82583154|NCT01502631|164877172|SUPERIORITY||Least Squares (LS) Mean|5.61|STANDARD_ERROR_OF_MEAN|4.497||0.2182|TWO_SIDED|90.0|-1.93|13.14|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 2||13.14|-1.93|0.2182
82583155|NCT01502631|164877172|SUPERIORITY||Least Squares (LS) Mean|6.87|STANDARD_ERROR_OF_MEAN|5.583||0.226|TWO_SIDED|90.0|-2.54|16.27|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 4||16.27|-2.54|0.2260
82583156|NCT01502631|164877172|SUPERIORITY||Least Squares (LS) Mean|3.03|STANDARD_ERROR_OF_MEAN|6.023||0.6184|TWO_SIDED|90.0|-7.15|13.21|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 8||13.21|-7.15|0.6184
82583157|NCT01502631|164877172|SUPERIORITY||Least Squares (LS) Mean|4.54|STANDARD_ERROR_OF_MEAN|6.524||0.4912|TWO_SIDED|90.0|-6.48|15.56|||Mixed Model Repeated Measures (MMRM)|||Difference (SUN13837 - Placebo) at Week 16||15.56|-6.48|0.4912
82583158|NCT00395460|164877180|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was performed by means of a Confidence Interval (CI) approach: noninferiority of Gadavist was assumed if the one-sided 95% CI for pGadavist-pMagnevist was lying entirely to the right of the value -delta, where p is the estimated change in CNR and with pre-defined non-inferiority margin delta of 15% (=6.52 or 15% of 43.467).|Mean Difference (Final Values)|6.939|STANDARD_DEVIATION|38.83|||ONE_SIDED|95.0|-3.897||||non-inferiority||||||-3.897|
82583159|NCT01451827|164877238|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0127|TWO_SIDED|95.0|0.96|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.00|0.96|0.0127
82651734|NCT03294538|165018390|EQUIVALENCE|If the adjusted 90% confidence interval on the difference between proportions of participants considered Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group was contained within the equivalence range \[-0.20, +0.20\], then treatment with generic estradiol vaginal cream and treatment with Estrace Vaginal Cream were considered therapeutically equivalent.|Odds Ratio (OR)|0.7|||||TWO_SIDED|90.0|-5.8|7.2||||||Therapeutic equivalence of the generic estradiol vaginal cream group to the Estrace Vaginal Cream group based on the primary endpoint was evaluated in the PP population.||7.2|-5.8|
82487265|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.2857|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.2857
82583160|NCT01451827|164877238|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97||||0.0108|TWO_SIDED|95.0|0.95|0.99|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||0.99|0.95|0.0108
82583161|NCT01451827|164877238|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.0155|TWO_SIDED|95.0|0.96|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.00|0.96|0.0155
82583162|NCT01451827|164877238|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.99||||0.2417|TWO_SIDED|95.0|0.97|1.01|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||1.01|0.97|0.2417
82583163|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.0002|TWO_SIDED|95.0|0.31|0.99|||ANCOVA|||Urinary Frequency||0.99|0.31|0.0002
82583164|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|||<|0.0001|TWO_SIDED|95.0|0.4|1.08|||ANCOVA|||Urinary Frequency||1.08|0.40|< 0.0001
82583165|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.92|||<|0.0001|TWO_SIDED|95.0|0.58|1.25|||ANCOVA|||Urinary Frequency||1.25|0.58|< 0.0001
82583166|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66||||0.0004|TWO_SIDED|95.0|0.3|1.01|||ANCOVA|||Urinary Urgency||1.01|0.30|0.0004
82583167|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.0004|TWO_SIDED|95.0|0.29|1.01|||ANCOVA|||Urinary Urgency||1.01|0.29|0.0004
82583168|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|||<|0.0001|TWO_SIDED|95.0|0.63|1.34|||ANCOVA|||Urinary Urgency||1.34|0.63|< 0.0001
82487266|NCT01675427|164668192|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.0001
82487267|NCT01675427|164668193|SUPERIORITY_OR_OTHER|||||||0.0081|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0081
82487268|NCT01675427|164668193|SUPERIORITY_OR_OTHER|||||||0.0563|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.0563
82487269|NCT01675427|164668193|SUPERIORITY_OR_OTHER|||||||0.3516|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.3516
82487270|NCT01675427|164668193|SUPERIORITY_OR_OTHER|||||||0.0064|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.0064
82487271|NCT01675427|164668193|SUPERIORITY_OR_OTHER|||||||0.2707|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.2707
82557979|NCT04941482|164825605|SUPERIORITY||Mean Difference (Net)|-7.6|STANDARD_ERROR_OF_MEAN|5.6|<|0.05|TWO_SIDED|95.0|-18.8|3.7||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Physical domain score of Stroke Impact Scale before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|3.7|-18.8|<0.05
82557980|NCT04941482|164825606|SUPERIORITY||Mean Difference (Net)|-7.8|STANDARD_ERROR_OF_MEAN|-3.7|<|0.05|TWO_SIDED|95.0|-15.2|-0.3||The threshold for statistical significance was p = 0.05.|t-test, 2 sided||Treatment Difference = Intervention group - Control group|We calculated that 92 participants randomized in a 1:1 fashion between the 2 groups would have at least 80% power to detect a difference of 3.43 points in mean score in improving physical and mental health after stroke (based on J.Sims et al in 2008) between intervention and control groups from baseline to the 6th month. The sample size was determined using a 2-sided 2-sample t-test (a=0.05). Assumptions included a common standard deviation of 5.49 and a discontinuation rate of 10%.|(1) Variables with multiple measurements over time were compared using the repeated measures ANOVA test to assess changes in Stroke Impact Scale score before and after intervention in two groups, calculating the time\*group interaction; (2) Effect sizes after intervention are measured using Cohen's D, with values indicating small (d = 0.2), medium (d = 0.5), and large (d ≥ 0.8) effects.|-0.3|-15.2|<0.05
82557981|NCT03229408|164825607|SUPERIORITY||||||<|0.004|||||||Unpaired t-test, 2-Sided|||||||<0.004
82557982|NCT03229408|164825608|SUPERIORITY||||||<|0.03|||||||Unpaired T-test, 2-Sided|||||||<0.03
82557983|NCT03229408|164825609|SUPERIORITY|||||||0.18|||||||Unpaired t-test, 2-Sided|||||||0.180
82583169|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86||||0.0002|TWO_SIDED|95.0|0.42|1.3|||ANCOVA|||Nocturia||1.30|0.42|0.0002
82487272|NCT01675427|164668193|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||< 0.0001
82487273|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.0634|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.0634
82487274|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.7176|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.7176
82487275|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.3944|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.3944
82487276|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.861|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.8610
82487277|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.4543|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.4543
82487278|NCT01675427|164668194|SUPERIORITY_OR_OTHER|||||||0.0406|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.0406
82487279|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.8234|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G1||||0.8234
82487280|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.2427|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G2||||0.2427
82487281|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.4805|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G3||||0.4805
82487282|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.2901|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||G4||||0.2901
82487283|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.3927|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Other genotypes||||0.3927
82487284|NCT01675427|164668195|SUPERIORITY_OR_OTHER|||||||0.5769|TWO_SIDED|||||Cochran-Armitage Trend Test for a trend in binomial proportions across the three ITPA genotype categories|Cochran-Armitage Trend Test|||Total genotypes||||0.5769
82487285|NCT00100178|164668225|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||||0.47
82487286|NCT01480089|164668226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.308|STANDARD_ERROR_OF_MEAN|0.777||0.098|TWO_SIDED|95.0|-2.83|0.214|||t-test, 2 sided|||The null hypothesis is that the mean VAS score 2 hours post surgery is equivalent for individuals randomized to Intraperitoneal Ropivacaine(AIR) and those randomized to Atomized Intraperitoneal Saline (AIS).||0.214|-2.830|.098
82487287|NCT01480089|164668227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.065|STANDARD_ERROR_OF_MEAN|0.53||0.9|TWO_SIDED|95.0|-1.103|0.973|||t-test, 2 sided|||The null hypothesis is that the mean VAS score 12 hours post surgery is equivalent for individuals randomized to Intraperitoneal Ropivacaine(AIR) and those randomized to Atomized Intraperitoneal Saline (AIS).||0.973|-1.103|.90
82583170|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.07|||<|0.0001|TWO_SIDED|95.0|0.63|1.51|||ANCOVA|||Nocturia||1.51|0.63|< 0.0001
82583171|NCT01451827|164877239|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.0001|TWO_SIDED|95.0|0.8|1.66|||ANCOVA|||Nocturia||1.66|0.80|< 0.0001
82583172|NCT01451827|164877240|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.97||||0.0209|TWO_SIDED|95.0|0.94|0.99|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo.||0.99|0.94|0.0209
82583173|NCT01451827|164877240|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.96||||0.0287|TWO_SIDED|95.0|0.93|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.00|0.93|0.0287
82583174|NCT01451827|164877240|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.96||||0.0298|TWO_SIDED|95.0|0.93|1.0|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.00|0.93|0.0298
82487288|NCT00631696|164668236|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A non-inferiority margin of 20% was used to test the hypothesis. The null hypothesis is that the difference (PGB - PBO) in the proportion of participants with ≥50% reduction in sperm concentration is ≥20% and the alternative hypothesis is that the difference in proportion of participant with ≥50% reduction in sperm concentration is \<20%.|percentage difference|6.0|||||TWO_SIDED|95.0|-2.29|14.3|||Confidence Interval Approach||The confidence interval was based on asymptotic normal distribution.|Study powered to show non-inferiority (NI) of pregabalin (PGB) to placebo (PBO) on the percentage of participants (N) with a ≥50% reduction in MSC from Bsl to end of washout (Week (Wk) 26, or last assessment on or after Wk 12 if Wk 26 not done). NI to be declared if upper bound of 95% CI for difference between PGB and PBO not \>20%. Assuming proportion of N with 50% reduction to be 6% for both groups, sample size N=65 per group would provide \>90% power to show NI of PGB to PBO.||14.30|-2.29|
82487289|NCT00631696|164668237|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12||||0.3462|TWO_SIDED|95.0|-0.385|0.136||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.136|-0.385|0.3462
82487290|NCT00631696|164668238|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13||||0.3652|TWO_SIDED|95.0|-0.42|0.156||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.156|-0.420|0.3652
82583175|NCT01451827|164877240|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.98||||0.2306|TWO_SIDED|95.0|0.94|1.01|||ANCOVA|||Hierarchical tests were used to control the type I error in the primary analysis. They are given in the following order: 1. Pooled tolvaptan treatment groups (IR and MR) versus placebo; 2. Tolvaptan MR 80 mg versus placebo; 3. Tolvaptan MR 50 mg versus placebo; 4. Tolvaptan IR 60/30 mg versus placebo||1.01|0.94|0.2306
82583176|NCT01090427|164877282|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583177|NCT01090427|164877282|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583178|NCT01090427|164877283|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583179|NCT01090427|164877283|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583180|NCT01090427|164877284|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] will be used as factors in the model.||||||0.003
82583181|NCT01090427|164877284|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] will be used as factors in the model.||||||<0.001
82583182|NCT01090427|164877285|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583183|NCT01090427|164877285|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583184|NCT01090427|164877286|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0||||<0.001
82487291|NCT00631696|164668239|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.1204|TWO_SIDED|95.0|-0.464|0.054||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||0.054|-0.464|0.1204
82487292|NCT00631696|164668240|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|24.65||||0.2875|TWO_SIDED|95.0|-20.999|70.302||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||70.302|-20.999|0.2875
82487293|NCT00631696|164668241|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|32.93||||0.1699|TWO_SIDED|95.0|-14.292|80.158||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||80.158|-14.292|0.1699
82487294|NCT00631696|164668242|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-6.12||||0.7958|TWO_SIDED|95.0|-52.804|40.558||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||40.558|-52.804|0.7958
82487295|NCT00631696|164668243|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08||||0.4094|TWO_SIDED|95.0|-3.645|1.494||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||1.494|-3.645|0.4094
82487296|NCT00631696|164668244|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15||||0.9064|TWO_SIDED|95.0|-2.649|2.352||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||2.352|-2.649|0.9064
82487297|NCT00631696|164668245|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.86||||0.4666|TWO_SIDED|95.0|-3.207|1.477||p-value from analysis of covariance (ANCOVA) with treatment and center as main effects and baseline value as covariate in the model.|ANCOVA||Least Squares Mean (LS Mean) and 95% CI from ANCOVA with treatment and center as main effects and baseline value as covariate in the model. LS Mean Difference calculated as (Pregabalin - Placebo).|||1.477|-3.207|0.4666
82487298|NCT01439568|164668251|SUPERIORITY||Hazard Ratio (HR)|1.0608||||0.8072|TWO_SIDED|95.0|0.6598|1.7055|||Logrank Test|||||1.7055|0.6598|0.8072
82487299|NCT02439879|164668270|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||paired t test|||All data were analyzed using the SPSS v16 statistical package software. To compare categorical variables, the chi2 test was used, and, for continuous variables,the T-test for independent or paired samples was applied.Data are expressed as percent values with 95% confidence intervals (CI) or mean ± SD or mean ± SEM||||< 0.05
82487300|NCT02448810|164668285|OTHER||Hazard Ratio (HR)|0.8||||0.246|TWO_SIDED|70.0|0.5|1.1||P-value is based on a one-sided log-rank test.|Log Rank||||Hazard Ratio and 70% CI are based on a Cox proportional hazards model with a covariate for treatment (imalumab vs SoC).|1.1|0.5|0.246
82487301|NCT02448810|164668285|OTHER||Hazard Ratio (HR)|0.8||||0.354|TWO_SIDED|70.0|0.5|1.4||P-value is based on a one-sided log-rank test.|Log Rank||||Hazard Ratio and 70% CI are based on a Cox proportional hazards model with a covariate for treatment (imalumab vs SoC).|1.4|0.5|0.354
82557984|NCT03229408|164825610|SUPERIORITY||||||<|0.002|||||||Unpaired T-test, 2-Sided|||||||<0.002
82487302|NCT04231318|164668293|SUPERIORITY|||||||0.0406|||||||ANOVA|||||||0.0406
82557985|NCT03229408|164825611|SUPERIORITY||||||<|0.04|||||||Unpaired t-test, 2-Sided|||||||<0.04
82487303|NCT04231318|164668293|SUPERIORITY|||||||0.0795|||||||ANOVA|||||||0.0795
82487304|NCT04231318|164668293|SUPERIORITY|||||||0.7601|||||||ANOVA|||||||0.7601
82487305|NCT04231318|164668294|SUPERIORITY|||||||0.1942|||||||ANOVA|||||||0.1942
82487306|NCT04231318|164668294|SUPERIORITY|||||||0.0957|||||||ANOVA|||||||0.0957
82487307|NCT04231318|164668294|SUPERIORITY|||||||0.4526|||||||ANOVA|||||||0.4526
82487308|NCT04231318|164668295|SUPERIORITY|||||||0.1309|||||||ANOVA|||||||0.1309
82487309|NCT04231318|164668295|SUPERIORITY|||||||0.17|||||||ANOVA|||||||0.1700
82487310|NCT04231318|164668295|SUPERIORITY|||||||0.7609|||||||ANOVA|||||||0.7609
82487311|NCT04231318|164668296|SUPERIORITY|||||||0.1|||||||ANOVA|||||||0.1000
82487312|NCT04231318|164668296|SUPERIORITY|||||||0.0423|||||||ANOVA|||||||0.0423
82487313|NCT04231318|164668296|SUPERIORITY|||||||0.383|||||||ANOVA|||||||0.3830
82487314|NCT04231318|164668297|SUPERIORITY|||||||0.0298|||||||ANOVA|||||||0.0298
82557986|NCT03229408|164825612|SUPERIORITY||||||<|0.003|||||||Unpaired t-test, 2-Sided|||||||<0.003
82557987|NCT03229408|164825613|SUPERIORITY||||||<|0.0004|||||||Unpaired t-test, 2-Sided|||||||<0.0004
82557988|NCT03229408|164825614|SUPERIORITY||||||<|0.007|||||||Unpaired t-test, 2-Sided|||||||<0.007
82557989|NCT04200664|164825622|OTHER|Kendall tau b correlation analysis test was performed between the number of cognitive domains affected and the both ears 3-frequency pure tone average (at 0.5/1/2kHz) or both ears 4-frequency pure tone average (at 0.5/1/2/4kHz).|Kendall Tau-b|0.462||||0.176|TWO_SIDED||||||Kendall tau-b|Kendall tau b non-parametric correlation analysis was performed.||||||0.176
82557990|NCT06193590|164825625|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
82557991|NCT06193590|164825626|SUPERIORITY|||||||0.1|||||||Fisher Exact|||||||0.1
82487315|NCT04231318|164668297|SUPERIORITY|||||||0.0217|||||||ANOVA|||||||0.0217
82487316|NCT04231318|164668297|SUPERIORITY|||||||0.4451|||||||ANOVA|||||||0.4451
82487317|NCT04231318|164668298|SUPERIORITY|||||||0.1197|||||||ANOVA|||||||0.1197
82557992|NCT06193590|164825628|SUPERIORITY|||||||0.001|||||||Fisher Exact|||||||0.001
82557993|NCT01701401|164825661|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82487318|NCT04231318|164668298|SUPERIORITY|||||||0.0008|||||||ANOVA|||||||0.0008
82487319|NCT04231318|164668298|SUPERIORITY|||||||0.0223|||||||ANOVA|||||||0.0223
82583185|NCT01090427|164877286|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0||||<0.001
82583186|NCT01090427|164877286|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0, 1, or 2||||<0.001
82583187|NCT01090427|164877286|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PGA of 0, 1, or 2||||<0.001
82376771|NCT03888066|164459896|SUPERIORITY||Annualized event rate ratio|0.658|||<|0.001|TWO_SIDED|95.0|0.534|0.81|||Negative binomial model adjusted for cov|||"NBMAC Annualized event RR patiromer vs placebo.~NBMAC adjusted for geographical region, sex, Baseline T2DM status, Baseline K+ value, and Baseline eGFR. Rate ratio less than 1 favors patiromer.~NBMAC=Negative binomial model adjusted for covariates; RR=Rate Ratio; T2DM=Type 2 diabetes mellitus; eGFR=Estimated glomerular filtration rate"||0.81|0.534|< 0.001
82557994|NCT01701401|164825661|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 12 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82557995|NCT01701401|164825661|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF 24 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82557996|NCT01701401|164825661|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||The p-value for the comparison of the LDV/SOF+RBV 24 week group against the adjusted historical null rate (60%) was based on a 2-sided 1-sample binomial test.|Binomial test|||||||<0.001
82557997|NCT02962102|164825671|SUPERIORITY|||||||0.52|||||||Fisher Exact|||||||0.52
82557998|NCT02962102|164825671|SUPERIORITY|||||||0.58|||||||Fisher Exact|||||||0.58
82557999|NCT02962102|164825672|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
82583188|NCT01090427|164877287|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PASI 50 responders||||<0.001
82583189|NCT01090427|164877287|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||PASI 50 responders||||<0.001
82583190|NCT01090427|164877287|SUPERIORITY_OR_OTHER|||||||0.014|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||Participants with PASI score of 0||||0.014
82583191|NCT01090427|164877287|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||Participants with PASI score of 0||||<0.001
82487320|NCT04231318|164668299|SUPERIORITY|||||||0.1067|||||||ANOVA|||||||0.1067
82487321|NCT04231318|164668300|SUPERIORITY|||||||0.1715|||||||ANOVA|||||||0.1715
82487322|NCT04231318|164668300|SUPERIORITY|||||||0.0736|||||||ANOVA|||||||0.0736
82487323|NCT04231318|164668300|SUPERIORITY|||||||0.4098|||||||ANOVA|||||||0.4098
82487324|NCT04231318|164668301|SUPERIORITY|||||||0.2718|||||||ANOVA|||||||0.2718
82487325|NCT04231318|164668301|SUPERIORITY|||||||0.0182|||||||ANOVA|||||||0.0182
82558000|NCT02962102|164825672|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
82558001|NCT02962102|164825673|SUPERIORITY|||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82558002|NCT02962102|164825673|SUPERIORITY|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||||||0.29
82558003|NCT03835754|164825714|OTHER|Confidence internal is 88.8%, upper bound limit 99.2%|Clopper Pearson exact confidence interva|96.0|||||TWO_SIDED|95.0|88.8|99.2||||||||99.2|88.8|
82558004|NCT02921555|164825721|SUPERIORITY||Mean Difference (Final Values)|16.2||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
82558005|NCT02921555|164825721|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82558006|NCT05613907|164825748|SUPERIORITY||Mean Difference (Net)|-21.6|STANDARD_ERROR_OF_MEAN|5.885||0.005|TWO_SIDED|95.0|-37.05|-6.15|||ANOVA|||||-6.150|-37.050|0.005
82558007|NCT05613907|164825748|SUPERIORITY||Mean Difference (Net)|-17.8|STANDARD_ERROR_OF_MEAN|6.512||0.04|TWO_SIDED|95.0|-34.895|-0.705|||ANOVA|||||-0.705|-34.895|0.040
82558008|NCT05613907|164825748|SUPERIORITY||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|3.668||0.94|TWO_SIDED|95.0|-5.829|13.429|||ANOVA|||||13.429|-5.829|0.940
82558009|NCT05613907|164825749|SUPERIORITY||Z statistic|-0.862||||0.388|TWO_SIDED||||||Wilcoxon Signed Ranks|||The null hypothesis is that there will be no significant difference in the EuroQol 5-D domains at 1 year compared to baseline.||||0.388
82558010|NCT05613907|164825750|SUPERIORITY||Z statistic|-0.033||||0.974|TWO_SIDED||||||Wilcoxon signed rank|||The null hypothesis is that there will be no statistical difference in patient self-reported ability to perform basic self-care||||0.974
82583192|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Total Scale Score||||0.003
82487326|NCT04231318|164668301|SUPERIORITY|||||||0.1131|||||||ANOVA|||||||0.1131
82487327|NCT04231318|164668302|SUPERIORITY|||||||0.2143|||||||ANOVA|||||||0.2143
82487328|NCT04231318|164668302|SUPERIORITY|||||||0.1628|||||||ANOVA|||||||0.1628
82487329|NCT04231318|164668302|SUPERIORITY|||||||0.6036|||||||ANOVA|||||||0.6036
82487330|NCT04231318|164668303|SUPERIORITY|||||||0.222|||||||ANOVA|||||||0.2220
82487331|NCT04231318|164668303|SUPERIORITY|||||||0.141|||||||ANOVA|||||||0.1410
82487332|NCT04231318|164668303|SUPERIORITY|||||||0.5418|||||||ANOVA|||||||0.5418
82487333|NCT04231318|164668304|SUPERIORITY|||||||0.1619|||||||ANOVA|||||||0.1619
82487334|NCT04231318|164668304|SUPERIORITY|||||||0.1683|||||||ANOVA|||||||0.1683
82583193|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.028|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Total Scale Score||||0.028
82583194|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.005|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Psychosocial health summary score||||0.005
82583195|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Psychosocial health summary score||||0.063
82487335|NCT04231318|164668304|SUPERIORITY|||||||0.6969|||||||ANOVA|||||||0.6969
82487336|NCT04231318|164668305|SUPERIORITY|||||||0.0701|||||||ANOVA|||||||0.0701
82487337|NCT04231318|164668305|SUPERIORITY|||||||0.0925|||||||ANOVA|||||||0.0925
82487338|NCT04231318|164668305|SUPERIORITY|||||||0.6981|||||||ANOVA|||||||0.6981
82487339|NCT04231318|164668306|SUPERIORITY|||||||0.0275|||||||ANOVA|||||||0.0275
82487340|NCT04231318|164668306|SUPERIORITY|||||||0.1738|||||||ANOVA|||||||0.1738
82487341|NCT04231318|164668306|SUPERIORITY|||||||0.8364|||||||ANOVA|||||||0.8364
82487342|NCT04231318|164668307|SUPERIORITY|||||||0.2227|||||||ANOVA|||||||0.2227
82487343|NCT04231318|164668307|SUPERIORITY|||||||0.1114|||||||ANOVA|||||||0.1114
82558011|NCT05613907|164825751|SUPERIORITY||Z statistic|-1.564||||0.118|TWO_SIDED||||||Wilcoxon signed rank|||The null hypothesis is no improvement in ability to perform usual activities at 1 year.||||0.118
82558012|NCT05613907|164825752|SUPERIORITY||Z statistic|-2.364||||0.018|TWO_SIDED||||||Wilcoxon signed rank|||||||0.018
82651735|NCT03294538|165018391|SUPERIORITY|The proportion of participants considered as Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Responders in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Responders than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|19.9|||<|0.0001|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||<0.0001
82487344|NCT04231318|164668307|SUPERIORITY|||||||0.4635|||||||ANOVA|||||||0.4635
82487345|NCT01916967|164668308|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-1.17|||<|0.001|TWO_SIDED|95.0|-1.69|-0.65|||Constrained Longitudinal Data Analysis|Model with terms of visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable||Difference in least squares (LS) means of Desloratadine 5 mg and Placebo||-0.65|-1.69|<0.001
82487346|NCT01916967|164668308|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-1.13|||<|0.001|TWO_SIDED|95.0|-1.66|-0.61|||Constrained Longitudinal Data Analysis|Model with terms of visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable||Difference in LS means of Desloratadine 10 mg and Placebo||-0.61|-1.66|<0.001
82487347|NCT00620464|164668319|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05||90.0||||Applies to all parameters.|Bioequivalence Testing|||||||0.05
82487348|NCT00620464|164668320|SUPERIORITY_OR_OTHER_LEGACY||||||<=|0.05||95.0|||||Bioequivalence Testing|||||||<=0.05
82487349|NCT03911154|164668324|OTHER|We used linear mixed effect models (in SAS version 9.4, SAS Institute, Cary, NC) with random subject intercept to account for the clustered nature of the data. The model included factors for stimulus modality (4 levels), sleep restriction night (4 levels), and their interaction.|Mean Difference (Net)|0.329|STANDARD_ERROR_OF_MEAN|0.353||0.36|TWO_SIDED|95.0|-0.403|1.06|||Mixed Models Analysis|||Number of lapses of attention were averaged across assessments within each day and the statistical analysis adjusted for baseline.||1.060|-0.403|0.36
82487350|NCT03911154|164668324|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.307|STANDARD_ERROR_OF_MEAN|0.441||0.49|TWO_SIDED|95.0|-1.222|0.608|||Mixed Models Analysis|||Number of lapses of attention upon emergent awakening||0.608|-1.222|0.49
82487351|NCT03911154|164668325|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|0.455|STANDARD_ERROR_OF_MEAN|2.797||0.87|TWO_SIDED|95.0|-5.4|6.31|||Mixed Models Analysis|||||6.310|-5.400|0.87
82487352|NCT03911154|164668326|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.112|STANDARD_ERROR_OF_MEAN|0.798||0.89|TWO_SIDED|95.0|-1.767|1.543|||Mixed Models Analysis|||Number correct on the DSST was averaged across DSST administrations within each day and was adjusted for baseline performance.||1.543|-1.767|0.89
82487353|NCT03911154|164668327|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.381||0.76|TWO_SIDED|95.0|-0.919|0.678|||Mixed Models Analysis|||Number correct on the DST was averaged across DST administrations within each day and adjusted for baseline.||0.678|-0.919|0.76
82487354|NCT03911154|164668328|OTHER|Linear mixed effects model with a random subject intercept.|Mean Difference (Net)|0.085|STANDARD_ERROR_OF_MEAN|0.179||0.64|TWO_SIDED|95.0|-0.286|0.456|||Mixed Models Analysis|||The mean weighted score on the ROBoT was adjusted for baseline.||0.456|-0.286|0.64
82487355|NCT00406354|164668329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-1.5||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-1.5|-5.0|<.001
82487356|NCT00406354|164668330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.4|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-11.0|-3.8||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-3.8|-11.0|<.001
82487357|NCT00406354|164668331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.3|-1.8||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-1.8|-5.3|<.001
82487358|NCT00406354|164668332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|1.0|<|0.001|TWO_SIDED|95.0|-5.8|-2.0||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-2.0|-5.8|<.001
82487359|NCT00406354|164668333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.6|-0.2||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.2|-0.6|<.001
82558013|NCT05613907|164825753|SUPERIORITY||Z statistic|-1.311||||0.19|TWO_SIDED|||||The null hypothesis is that there will be no difference in anxiety and/or depression compared to the initial visit.|Wilcoxon signed rank|||||||0.190
82558014|NCT05613907|164825754|SUPERIORITY||Mean Difference (Net)|-26.846|STANDARD_ERROR_OF_MEAN|8.604||0.027|TWO_SIDED|95.0|-50.762|-2.39|||ANOVA|||||-2.390|-50.762|0.027
82558015|NCT05613907|164825754|SUPERIORITY||Mean Difference (Net)|-27.615|STANDARD_ERROR_OF_MEAN|8.715||0.024|TWO_SIDED|95.0|-51.837|-3.394|||ANOVA|||||-3.394|-51.837|0.024
82558016|NCT05613907|164825754|SUPERIORITY||Mean Difference (Net)|-0.769|STANDARD_ERROR_OF_MEAN|4.535||1|TWO_SIDED|95.0|-13.374|11.836|||ANOVA|||||11.836|-13.374|1.000
82558017|NCT05613907|164825755|SUPERIORITY||Mean Difference (Net)|-14.27|STANDARD_ERROR_OF_MEAN|4.052||0.048|TWO_SIDED|95.0|-37.05|-6.15|||ANOVA|||||-6.150|-37.050|0.048
82558018|NCT05613907|164825755|SUPERIORITY||Median Difference (Final Values)|-3.12|STANDARD_ERROR_OF_MEAN|3.751||1|TWO_SIDED|95.0|-12.893|13.751|||ANOVA|||||13.751|-12.893|1.000
82558019|NCT05613907|164825755|SUPERIORITY||Mean Difference (Net)|12.26|STANDARD_ERROR_OF_MEAN|5.186||0.163|TWO_SIDED|95.0|-4.762|29.333|||ANOVA|||||29.333|-4.762|0.163
82558020|NCT05080777|164825760|EQUIVALENCE|Group, Time, and Group x Time effect tests were performed using MLM.||||||0.295||||||.P-value shown is based on the Group x Time F statistic used in multilevel modeling (MLM)|Multilevel modeling (MLM)|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.295
82558021|NCT05080777|164825761|EQUIVALENCE|Group, time, and group x time effect tests were performed using multilevel modeling (MLM).||||||0.57||||||P-value shown is based on the group x time F statistic used in MLM.|MLM|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.570
82558022|NCT05080777|164825762|EQUIVALENCE|Group, time, and time x group effect tests were performed using multilevel modeling (MLM).||||||0.461||||||P-value shown is based on the group x time F statistic used in MLM.|MLM|||Null hypothesis was that there would be no group differences, no time differences, and no group x time differences, in changes over time between the two treatment groups. Because this was a pilot and feasibility study, no power calculations were conducted.||||0.461
82558023|NCT01586104|164825798|OTHER|With 20 patients, there is 80% power to detect a difference of 100% with Standard lung RT versus 93% with IMRT assuming a standard deviation of 8 (as seen for the whole heart), a one tailed test and a Bonferroni correction for 4 statistical tests so that each test is done at p\<0.0125.|||||<|0.0125||||||The reported p value was calculated. The statistical analysis performed is attached to the outcome measure reported.|Bonferroni corrected at p<0.0125|||Feasibility will be defined as an enrolled patient receiving the IMRT treatment as planned. It is expected that the treatment will be feasible in at least 90% of patients. If the treatment is feasible in 16 or more out of 20 patients, then the treatment will be declared feasible. If the true feasibility rate is 90%, then there is a 4.3% chance that 15 or fewer feasible patients will be observed.|Lung-metastases-free survival will be estimated using Kaplan-Meier survival curves (minimum period of six months).|||<0.0125
82558024|NCT04701203|164825803|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||For the primary efficacy endpoint, the Cochran-Mantel Haenszel test stratified by etiology of hypoparathyroidism (postsurgical or other) was used to compare the proportion of participants meeting the composite primary endpoint in the TransCon PTH versus placebo groups. Participants without week 26 albumin-adjusted serum calcium or with \>25% (ie, \>7 days) missing diary data of active vitamin D or elemental calcium during the 4 weeks before week 26 were considered non-responders.||||<0.0001
82558025|NCT04701203|164825804|SUPERIORITY||||||=|0.0038|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0038
82558026|NCT04701203|164825805|SUPERIORITY||||||=|0.0055|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0055
82558027|NCT04701203|164825806|SUPERIORITY||||||=|0.0046|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0046
82558028|NCT04701203|164825807|SUPERIORITY||||||=|0.0061|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0061
82558029|NCT04701203|164825808|SUPERIORITY||||||=|0.0347|||||||t-test, 2 sided|||ANCOVA model with unequal variance was used to analyze the key secondary Endpoints. The change from baseline is variable of interest at week 26 and was included in the model as response variables. Treatment assignment and etiology of hypoparathyroidism were entered as fixed effects and baseline value of the variable of interest was entered as a covariate.||||= 0.0347
82583196|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Physical health summary score||||0.007
82583197|NCT01090427|164877288|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA on van der Waerden normal Score|Treatment and baseline weight \[less than or equal to 60 kg vs greater than 60 kg\] were used as factors in the model.||PedsQL Physical health summary score||||0.020
82583198|NCT01090427|164877289|SUPERIORITY_OR_OTHER|||||||0.027|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||0.027
82487360|NCT00406354|164668334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.006|TWO_SIDED|95.0|-0.4|-0.1||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.1|-0.4|0.006
82487361|NCT00406354|164668335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.4||0.01|TWO_SIDED|95.0|-6.2|-0.9||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.9|-6.2|0.010
82487362|NCT00406354|164668336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.7||0.01|TWO_SIDED|95.0|-3.2|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-3.2|0.010
82487363|NCT00406354|164668337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.7||0.406|TWO_SIDED|95.0|-4.9|2.0||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Negative values are in favor of the atomoxetine arms.|||2.0|-4.9|0.406
82487364|NCT00406354|164668338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
82487365|NCT00406354|164668339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
82487366|NCT00406354|164668340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Mixed Models Analysis||Negative values are in favor of the atomoxetine arms.|||-0.4|-1.1|<.001
82487367|NCT00406354|164668341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.2||0.021|TWO_SIDED|95.0|0.8|9.3||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||9.3|0.8|0.021
82487368|NCT00406354|164668342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.6|STANDARD_ERROR_OF_MEAN|3.1||0.017|TWO_SIDED|95.0|-13.8|-1.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||-1.4|-13.8|0.017
82487369|NCT00406354|164668343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_ERROR_OF_MEAN|2.8||0.05|TWO_SIDED|95.0|0.0|10.9||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||10.9|-0.0|0.050
82487370|NCT00406354|164668344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|4.9|16.4||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||16.4|4.9|<.001
82487371|NCT00406354|164668345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|3.3||0.015|TWO_SIDED|95.0|1.6|14.6||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||14.6|1.6|0.015
82487372|NCT00406354|164668346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.0|STANDARD_ERROR_OF_MEAN|3.4||0.018|TWO_SIDED|95.0|1.4|14.7||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive results are in favor of the atomoxetine arms.|||14.7|1.4|0.018
82487373|NCT00406354|164668347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9|STANDARD_ERROR_OF_MEAN|3.3||0.138|TWO_SIDED|95.0|-1.6|11.5||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|ANCOVA||Positive values are in favor of the atomoxetine arms.|||11.5|-1.6|0.138
82487374|NCT00406354|164668348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.193||||0.016||95.0|1.16|4.146||p-value is from comparison of combined atomoxetine fast group plus atomoxetine slow group versus placebo group at Week 9.|Log Rank|||||4.146|1.160|0.016
82487375|NCT00406354|164668349|SUPERIORITY_OR_OTHER|||||||0.102||95.0||||p-value is from comparison of atomoxetine fast group versus atomoxetine slow group for any clinically relevant categories of adverse events during the initial three weeks of study treatment|Fisher Exact|||||||0.102
82487376|NCT00406354|164668350|SUPERIORITY_OR_OTHER|||||||0.101||95.0||||p-value is from comparison of atomoxetine fast group versus atomoxetine slow group for any clinically relevant categories of adverse events during the nine-week study treatment period.|Fisher Exact|||||||0.101
82487377|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|||||TWO_SIDED|90.0|-1.38|2.63|||||Treatment comparison at 2 hours.|||2.63|-1.38|
82583199|NCT01090427|164877289|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|Stratified by body weight (less than or equal to 60 kg vs greater than 60 kg).||||||<0.001
82583200|NCT00709852|164877310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|0.61|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82487378|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Means Difference|3.69|||||TWO_SIDED|90.0|1.67|5.71|||||Treatment comparison at 4 hours.|||5.71|1.67|
82487379|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Means Difference|9.14|||||TWO_SIDED|90.0|7.12|11.16|||||Treatment comparison at 6 hours.|||11.16|7.12|
82487380|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Means Difference|9.08|||||TWO_SIDED|90.0|7.1|11.07|||||Treatment comparison at 8 hours.|||11.07|7.10|
82487381|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-0.15|||||TWO_SIDED|90.0|-2.14|1.85|||||Treatment comparison at 12 hours.|||1.85|-2.14|
82558030|NCT05293717|164825837|OTHER|This is an open-label study. No power calculation was performed.|||||<|0.001|||||||ANOVA|||||||<0.001
82583201|NCT00709852|164877310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_DEVIATION|0.66|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
82583202|NCT00709852|164877310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|0.47|<|0.0001||||||for internal morphology|paired t-test|||||||< 0.0001
82583203|NCT00709852|164877311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|STANDARD_DEVIATION|0.77|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583204|NCT00709852|164877311|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.72|STANDARD_DEVIATION|0.78|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583205|NCT00709852|164877311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_DEVIATION|0.61|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583206|NCT00709852|164877312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|STANDARD_DEVIATION|0.51|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583207|NCT00709852|164877312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_DEVIATION|0.5|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583208|NCT00709852|164877312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_DEVIATION|0.52|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583209|NCT00709852|164877313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|STANDARD_DEVIATION|0.56|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583210|NCT00709852|164877313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_DEVIATION|0.53|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583211|NCT00709852|164877313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_DEVIATION|0.42|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583212|NCT00709852|164877314|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|5.51|||TWO_SIDED|95.0|-0.199|0.984|||confidence interval for paired means|lower limit of interval is compared to noninferiority margin||BR 1||0.984|-0.199|
82651736|NCT03294538|165018391|SUPERIORITY|The proportion of participants considered as Responders in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Responders in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Responders than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|20.2|||<|0.0001|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||<0.0001
82583213|NCT00709852|164877314|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|-0.44|STANDARD_DEVIATION|12.38|||TWO_SIDED|95.0|-1.772|0.885|||confidence interval for paired means|lower limit of confidence interval (CI) is compared to noninferiority margin||BR 2||0.885|-1.772|
82583214|NCT00709852|164877314|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|4.07|||TWO_SIDED|95.0|0.125|1.0|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||BR 3||1.000|0.125|
82583215|NCT00709852|164877314|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.17|STANDARD_DEVIATION|5.68|||TWO_SIDED|95.0|-0.439|0.78|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||AR||0.780|-0.439|
82583216|NCT00709852|164877315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.62|STANDARD_DEVIATION|0.3|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583217|NCT00709852|164877315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|STANDARD_DEVIATION|0.37|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583218|NCT00709852|164877315|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.38|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583219|NCT00709852|164877316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|STANDARD_DEVIATION|0.62|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583220|NCT00709852|164877316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_DEVIATION|0.46|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583221|NCT00709852|164877316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|STANDARD_DEVIATION|0.39|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583222|NCT00709852|164877317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_DEVIATION|0.33|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583223|NCT00709852|164877317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.33|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583224|NCT00709852|164877317|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|STANDARD_DEVIATION|0.32|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583225|NCT00709852|164877318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|0.3|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583226|NCT00709852|164877318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.23|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583227|NCT00709852|164877318|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.22|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583228|NCT00709852|164877319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83|STANDARD_DEVIATION|1.16|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583229|NCT00709852|164877319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52|STANDARD_DEVIATION|1.26|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583230|NCT00709852|164877319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|0.82|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583231|NCT00709852|164877320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_DEVIATION|1.29|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583232|NCT00709852|164877320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|STANDARD_DEVIATION|1.44|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583233|NCT00709852|164877320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48|STANDARD_DEVIATION|1.11|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583234|NCT00709852|164877321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_DEVIATION|0.95|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82558031|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.1491|STANDARD_ERROR_OF_MEAN|0.51||0.7695||95.0|-0.856|1.15||Alpha for significance=0.05 for all tests.|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the physician treatment arm."||1.15|-.856|.7695
82558032|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|0.5077||0.0878||95.0|-1.88|0.13||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister treatment arm."||.13|-1.88|.0878
82558033|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.2414|STANDARD_ERROR_OF_MEAN|0.5077||0.635||95.0|-0.76|1.25||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/physician treatment arm."||1.25|-.76|.635
82558034|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.06574|STANDARD_ERROR_OF_MEAN|0.5077||0.897||95.0|-1.0709|0.9394||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the older adult treatment arm."||.9394|-1.0709|.897
82558035|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.01126|STANDARD_ERROR_OF_MEAN|0.5077||0.9823||95.0|-1.0164|0.9939||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the physician/older adult treatment arm."||.9939|-1.0164|.9823
82558036|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.4928|STANDARD_ERROR_OF_MEAN|0.5077||0.3337||95.0|-1.4979|0.5124||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult treatment arm."||.5124|-1.4979|.3337
82558037|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.2002|STANDARD_ERROR_OF_MEAN|0.5077||0.694||95.0|-0.8049|1.2054||ALPHA=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult/physician treatment arm."||1.2054|-.8049|.694
82558038|NCT04837937|164825838|SUPERIORITY||Actual Intercept value|54.9056|STANDARD_ERROR_OF_MEAN|0.5077|<|0.0001||95.0|53.9003|55.9109||this is the Intercept value for the GLMM evaluating all combinations of treatment and time- in other words, this is the mean well-being t-score across all combinations of tx and time. Estimates in these analyses are deviations from this intercept.|Mixed Models Analysis|||Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the intercept (all tx=0).||55.9109|53.9003|<.0001
82583235|NCT00709852|164877321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|STANDARD_DEVIATION|0.97|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583236|NCT00709852|164877321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|STANDARD_DEVIATION|0.96|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583237|NCT00709852|164877322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|1.06|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82583238|NCT00709852|164877322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|1.07|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583239|NCT00709852|164877322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|STANDARD_DEVIATION|0.83|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583240|NCT00709852|164877323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|STANDARD_DEVIATION|0.53|<|0.0001||||||for contrast enhancement|paired t test|||||||< 0.0001
82487382|NCT01460368|164668352|SUPERIORITY_OR_OTHER||Least Squares Means Difference|3.63|||||TWO_SIDED|90.0|1.63|5.63|||||Treatment comparison at 24 hours.|||5.63|1.63|
82583241|NCT00709852|164877323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.48|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82558039|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.05579|STANDARD_ERROR_OF_MEAN|0.03516||0.1152||95.0|-0.1254|0.01383||alpha=0.05|Mixed Models Analysis|||Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This test evaluates the effect of time (measured as weeks since baseline).||.01383|-.1254|.1152
82583242|NCT00709852|164877323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_DEVIATION|0.41|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583243|NCT00709852|164877324|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|6.44|||TWO_SIDED|95.0|-0.532|0.851|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.851|-0.532|
82583244|NCT00709852|164877325|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.33||||95.0|0.0004|0.078|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.078|0.0004|
82487383|NCT01460368|164668353|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|8.07|||||TWO_SIDED|90.0|5.21|10.94|||||Treatment comparison at 2 hours.|||10.94|5.21|
82487384|NCT01460368|164668353|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|10.56|||||TWO_SIDED|90.0|7.69|13.43|||||Treatment comparison at 4 hours.|||13.43|7.69|
82487385|NCT01385371|164668379|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.98|||<|0.001||95.0|-1.2|-0.4|||Wilcoxon Rank Sum Test|||||-0.4|-1.2|<0.001
82487386|NCT01385371|164668380|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64||||0.001|TWO_SIDED|95.0|-0.7|-0.2|||Wilcoxon Rank Sum Test|||||-0.2|-0.7|0.001
82558040|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.03261|STANDARD_ERROR_OF_MEAN|0.03516||0.3555||95.0|-0.1022|0.03699|||Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Physician treatment arm\*time."||.03699|-.1022|.3555
82558041|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.06825|STANDARD_ERROR_OF_MEAN|0.03516||0.0546||95.0|-0.00136|0.1379||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister treatment arm\*time."||.1379|-.00136|.0546
82558042|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.02597|STANDARD_ERROR_OF_MEAN|0.03516||0.4616||95.0|-0.04364|0.09557||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Sister/Physician treatment arm\*time."||.09557|-.04364|.4616
82558043|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.0498|STANDARD_ERROR_OF_MEAN|0.03516||0.1592||95.0|-0.0198|0.1194||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Older Adult treatment arm\*time."||.1194|-.0198|.1592
82558044|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.02435|STANDARD_ERROR_OF_MEAN|0.03516||0.4899||95.0|-0.09396|0.04526|||Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Physician/Older Adult treatment arm\*time."||.04526|-.09396|.4899
82558045|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|0.000697|STANDARD_ERROR_OF_MEAN|0.03516||0.9842||95.0|-0.06891|0.0703||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the sister/older adult treatment arm\*time."||.0703|-.06891|.9842
82558046|NCT04837937|164825838|SUPERIORITY||Mean Difference (Final Values)|-0.01255|STANDARD_ERROR_OF_MEAN|0.03516||0.7217||95.0|-0.08216|0.05705||alpha=0.05|Mixed Models Analysis|||"Generalized Linear Mixed Model (all models evaluated in SAS 9.4) testing all levels and combinations of treatments and time as fixed effects, controlling for repeated assessments within-subjects, for effect on the outcome of change in Neuro-QoL positive affect and well being score. This result is for the Sister/Older Adult/Physician treatment arm\*time."||.05705|-.08216|.7217
82487387|NCT01385371|164668381|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.33|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5|||Wilcoxon Rank Sum Test|||||-0.5|-1.4|<0.001
82487388|NCT01385371|164668382|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.13||||0.027||95.0|-0.2|0.0|||Wilcoxon Rank Sum Test|||||0.0|-0.2|0.027
82487389|NCT01385371|164668383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.0003|TWO_SIDED|95.0|-0.73|-0.22||A zero-inflated log-normal mixed distribution model was used with treatment, baseline asthma status, age category (\<18 or \>=18 years) and pollen region as covariates.|Zero-Inflated Log-Normal Model|||||-0.22|-0.73|0.0003
82487390|NCT01385371|164668384|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||Wilcoxon Rank Sum Test|||||-0.2|-0.9|<0.001
82487391|NCT01385371|164668385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0001|TWO_SIDED|95.0|-0.94|-0.31||A zero-inflated log-normal mixed distribution model was used with treatment, baseline asthma status, age category (\<18 or \>=18 years) and pollen region as covariates.|Zero-Inflated Log-Normal Model|||||-0.31|-0.94|0.0001
82487392|NCT01385371|164668386|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.15||||0.644|TWO_SIDED|95.0|-0.4|0.6|||Wilcoxon Rank Sum Test|||||0.6|-0.4|0.644
82558047|NCT04837937|164825839|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_DEVIATION|6.55||0.21||95.0|-1.9|0.42||Threshold for statistical significance was alpha=0.05.|2-sided paired t-Test|||Univariate ANOVA- analytic variable is change in PROMIS Anxiety score from baseline to T3. Test is a paired T-Test.||.42|-1.90|.21
82558048|NCT04837937|164825840|SUPERIORITY||Mean Difference (Final Values)|-3.24|STANDARD_DEVIATION|11.54||0.0021||95.0|-5.28|-1.2||Threshold for significance was 0.05.|2-sided dependent sample t-test|||Univariate ANOVA on change in Zarit Caregiver Burden Score, Baseline to 1-month post-intervention. Test was a 2-sided dependent samples t-test.||-1.20|-5.28|.0021
82487393|NCT01224665|164668387|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.45|TWO_SIDED|95.0|0.86|1.4||Using an intention-to-treat analysis, we specified a stratified log-rank test with a one-sided alpha of 0.025.|Log Rank|Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|3-year DFS estimates of 55% among participants undergoing SLND and 65% undergoing ELND were used to estimate the target HR. Assuming exponential DFS distribution, 5 years of enrollment, 3 years of follow-up, and 564 eligible participants, the trial would have 85% power to detect a 28% lower risk of recurrence or death with ELND than SLND.||1.40|0.86|0.45
82487394|NCT01224665|164668388|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.88|1.45|||||Adjustments were made for the following stratification factors: neoadjuvant chemotherapy, clinical T stage, and Zubrod performance score.|We assumed that the standard lymphadenectomy arm has 5-year survival of 55%, so we had 83% statistical power to detect a hazard ratio of 0.72 (55% vs. 65% survival at 5 years).||1.45|0.88|
82558049|NCT04837937|164825841|SUPERIORITY||Mean Difference (Final Values)|-1.19|STANDARD_DEVIATION|8.1||0.1||95.0|-2.62|0.25||Alpha for statistical significance was 0.05|2-Sided Paired T Test|||Univariate ANOVA- analytic variable is change in PROMIS Fatigue score from baseline to T3. Test is a paired T-Test.||.25|-2.62|.10
82558050|NCT04837937|164825842|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|7.83||0.9754||95.0|-1.36|1.41|||2-sided paired (dependent sample) t-test|||Univariate ANOVA on change in PROMIS short form General Self Efficacy T-Score, baseline to one month post-intervention. Test is a 2-sided paired (dependent sample) t-test.||1.41|-1.36|.9754
82558051|NCT04837937|164825844|SUPERIORITY||Mean Difference (Final Values)|0.1296|STANDARD_DEVIATION|4.91||0.77||95.0|-0.74|1.0||Threshold for significance is 0.05|2-sided Paired T-Test|||Univariate ANOVA on change in T-Score between baseline and 1 month post-intervention. Test is a 2-sided paired t-test.||1.00|-.74|.77
82558052|NCT04837937|164825845|SUPERIORITY||Mean Difference (Final Values)|0.7618|STANDARD_DEVIATION|6.16||0.1694||95.0|-0.33|1.85||alpha threshold for significance was 0.05.|two-sided paired T-Test|||Univariate ANOVA on change in T-score between baseline and one month post-intervention. Test is a two-sided paired t-test.||1.85|-.33|.1694
82558053|NCT04837937|164825850|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_DEVIATION|16.44||0.76||||||Alpha for Significance=0.05|ANOVA|||Univariate ANOVA on change in Avoiding Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.76
82558054|NCT04837937|164825850|SUPERIORITY||Mean Difference (Final Values)|2.25|STANDARD_DEVIATION|16.33||0.13||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Compromising Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.13
82583245|NCT00709852|164877325|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.41||||95.0|-0.009|0.082|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.082|-0.009|
82583246|NCT00709852|164877325|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|0.29||||95.0|-0.006|0.059|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.059|-0.006|
82583247|NCT00709852|164877326|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|5.7||||95.0|-0.601|0.622|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.622|-0.601|
82583248|NCT00709852|164877327|SUPERIORITY_OR_OTHER||Difference in percentages|8.3|||||||||||||for BR1|||||
82583249|NCT00709852|164877327|SUPERIORITY_OR_OTHER||Difference in percentages|-0.9|||||||||||||for BR2|||||
82583250|NCT00709852|164877327|SUPERIORITY_OR_OTHER||Difference in percentages|15.8|||||||||||||for BR3|||||
82583251|NCT00709852|164877327|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|8.9|||||TWO_SIDED|95.0|-0.5|18.4|||CI for paired percentages|confidence interval is given for AR; lower limit is compared to the noninferiority margin||||18.4|-0.5|
82583252|NCT00709852|164877328|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|3.6||||||95.0|-5.9|13.1|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||13.1|-5.9|
82583253|NCT00709852|164877329|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|8.3||||||95.0|-0.9|17.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||17.6|-0.9|
82583254|NCT00709852|164877330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|0.78|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82558055|NCT04837937|164825850|SUPERIORITY||Mean Difference (Final Values)|-6.85|STANDARD_DEVIATION|18.76|<|0.0001||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Forcing Score (out of 100) between Baseline and 1 Month Post-Intervention.||||<.0001
82558056|NCT04837937|164825850|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|15.62||0.86||||||Alpha for Significance=0.05|ANOVA|||Univariate ANOVA on change in Problem Solving Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.86
82558057|NCT04837937|164825850|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|12.3||0.32||||||Alpha for significance=0.05|ANOVA|||Univariate ANOVA on change in Yielding Score (out of 100) between Baseline and 1 Month Post-Intervention.||||.32
82558058|NCT04837937|164825851|SUPERIORITY||Mean Difference (Final Values)|3.09|STANDARD_DEVIATION|13.18||0.0012||95.0|||||ANOVA|||Univariate ANOVA on change in total Negotiation Knowledge score, Baseline 1-month. Threshold for significance was alpha=0.05.||||.0012
82558059|NCT04837937|164825851|SUPERIORITY||Mean Difference (Final Values)|4.933|STANDARD_DEVIATION|17.33||0.0018||||||alpha=0.05|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Interests score, Baseline 1-month. Threshold for significance was alpha=0.05.||||.0018
82558060|NCT04837937|164825851|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|19.69||0.91||||||Threshold for significance was alpha=0.05.|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Power score, Baseline 1-month.||||.91
82558061|NCT04837937|164825851|SUPERIORITY||Mean Difference (Final Values)|3.2|STANDARD_DEVIATION|22.35||0.11||||||Threshold for significance was alpha=0.05.|ANOVA|||Univariate ANOVA on change in Negotiation Knowledge Rights score, Baseline 1-month.||||.11
82558062|NCT04837937|164825853|SUPERIORITY||Mean Difference (Final Values)|-2.08|STANDARD_DEVIATION|5.73|<|0.0001||95.0|-3.09|-1.07||Threshold for significance is alpha=0.05.|2-sided dependent sample t-test|||Univariate ANOVA on change in negative affect score, baseline-1 month post-intervention. Test is a 2 sided dependent sample t-test.||-1.07|-3.09|<.0001
82558063|NCT04837937|164825853|SUPERIORITY||Mean Difference (Final Values)|0.344|STANDARD_DEVIATION|4.86||0.4305||95.0|-0.52|1.21|||2-sided dependent sample t-test|||Univariate ANOVA of change in positive affect score between baseline-1 month post-intervention. Test is a 2-sided dependent sample t-test.||1.21|-.52|.4305
82583255|NCT00709852|164877330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61|STANDARD_DEVIATION|0.61|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583256|NCT00709852|164877331|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.29|STANDARD_DEVIATION|3.21||||95.0|-0.053|0.636|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.636|-0.053|
82583257|NCT00709852|164877332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.64|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82487395|NCT01842815|164668411|SUPERIORITY|||||||0.0077||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.0077
82487396|NCT01842815|164668412|SUPERIORITY|||||||0.00012||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.00012
82487397|NCT01842815|164668413|SUPERIORITY|||||||0.0034||||||The value looked at for statistical significance is if p\<.05.|t-test, 2 sided|t-tailed, paired t-test||This t-test is to test the statistical significance of the right side of the tattoo clearance vs. the left side of the tattoo clearance. It tests if there is a difference between the tattoo being treated twice per visit (right side) vs. being treated once per visit (left side).||||.0034
82487398|NCT01278160|164668433|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.12||||95.0|-0.24|0.22|||ANCOVA|The estimates were from a normal linear regression model with treatment and previous insulin as factors, and baseline value as a covariate.||The null hypothesis is H0: μBIAsp 30 (2:1) - μBIAsp 30 (1:1) = 0 against the alternative hypothesis HA: μBIAsp 30 (2:1) - μBIAsp 30 (1:1) ≠ 0. This trial is an extension to BIAsp-3756 (NCT01123980), hence no particular sample size calculation was made.||0.22|-0.24|
82487399|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed models analysis|0.2||||0.2569||95.0|-0.15|0.56||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before breakfast profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.56|-0.15|0.2569
82487400|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed models analysis|0.09||||0.812||95.0|-0.63|0.8||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after breakfast profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.80|-0.63|0.8120
82487401|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|0.35||||0.2843||95.0|-0.29|0.99||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before lunch profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.99|-0.29|0.2843
82583258|NCT00709852|164877332|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64|STANDARD_DEVIATION|0.5|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583259|NCT00709852|164877333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|1.26|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583260|NCT00709852|164877333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.97|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583261|NCT00709852|164877334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_DEVIATION|0.76|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583262|NCT00709852|164877334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|STANDARD_DEVIATION|0.63|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82487402|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|0.3||||0.4614||95.0|-0.5|1.11||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after lunch profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||1.11|-0.50|0.4614
82487403|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|0.44||||0.1591||95.0|-0.17|1.04||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is before dinner profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||1.04|-0.17|0.1591
82583263|NCT00709852|164877335|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.28|STANDARD_DEVIATION|3.39||||95.0|-0.087|0.641|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.641|-0.087|
82583264|NCT00709852|164877336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|0.61|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82558064|NCT04172675|164825858|SUPERIORITY||Hazard Ratio (HR)|0.28|||=|0.0007|TWO_SIDED|95.0|0.13|0.61|||Unstratified Log rank||Hazard ratio and 95% CI were estimated using a Cox proportional hazards regression model.|||0.61|0.13|=0.0007
82558065|NCT06072170|164825865|OTHER|Proportionality analysis was done using a power model.|Slope|0.829|||||TWO_SIDED|90.0|0.659|0.998||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.998|0.659|
82558066|NCT06072170|164825865|OTHER|Proportionality analysis was done using a power model.|Slope|0.843|||||TWO_SIDED|90.0|0.713|0.973||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.973|0.713|
82558067|NCT06072170|164825865|OTHER|Proportionality analysis was done using a power model.|Slope|0.811|||||TWO_SIDED|90.0|0.637|0.984||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.984|0.637|
82558068|NCT06072170|164825865|OTHER|Proportionality analysis was done using a power model.|Slope|0.814|||||TWO_SIDED|90.0|0.633|0.994||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||0.994|0.633|
82558069|NCT06072170|164825865|OTHER|Proportionality analysis was done using a power model.|Slope|0.88|||||TWO_SIDED|90.0|0.72|1.039||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.039|0.720|
82558070|NCT06072170|164825867|OTHER|Proportionality analysis was done using a power model.|Slope|0.946|||||TWO_SIDED|90.0|0.768|1.123||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.123|0.768|
82558071|NCT06072170|164825867|OTHER|Proportionality analysis was done using a power model.|Slope|0.978|||||TWO_SIDED|90.0|0.821|1.134||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.134|0.821|
82558072|NCT06072170|164825867|OTHER|Proportionality analysis was done using a power model.|Slope|1.075|||||TWO_SIDED|90.0|0.901|1.249||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.249|0.901|
82583265|NCT00709852|164877336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_DEVIATION|0.49|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583266|NCT00709852|164877337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|1.27|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82583267|NCT00709852|164877337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|STANDARD_DEVIATION|1.01|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82583268|NCT00709852|164877338|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.06||||||95.0|0.03|0.096|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.096|0.030|
82583269|NCT00709852|164877338|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.04||||||95.0|0.003|0.071|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.071|0.003|
82583270|NCT00709852|164877338|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03||||||95.0|0.003|0.055|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.055|0.003|
82583271|NCT00709852|164877339|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01|STANDARD_DEVIATION|0.59||||95.0|-0.049|0.078|||confidence interval for paired means|lower limit of confidence interval is compared to noninferiority margin||||0.078|-0.049|
82558073|NCT06072170|164825867|OTHER|Proportionality analysis was done using a power model.|Slope|1.046|||||TWO_SIDED|90.0|0.87|1.222||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.222|0.870|
82558074|NCT06072170|164825867|OTHER|Proportionality analysis was done using a power model.|Slope|1.011|||||TWO_SIDED|90.0|0.844|1.178||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.178|0.844|
82558075|NCT06072170|164825868|OTHER|Proportionality analysis was done using a power model.|Slope|0.959|||||TWO_SIDED|90.0|0.775|1.143||||||Statistical Analysis for Dose-Proportionality of Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.143|0.775|
82558076|NCT06072170|164825868|OTHER|Proportionality analysis was done using a power model.|Slope|0.974|||||TWO_SIDED|90.0|0.815|1.134||||||Statistical Analysis for Dose-Proportionality of 7-Hydroxy-Mitragynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.134|0.815|
82558077|NCT06072170|164825868|OTHER|Proportionality analysis was done using a power model.|Slope|1.036|||||TWO_SIDED|90.0|0.866|1.207||||||Statistical Analysis for Dose-Proportionality of Paynantheine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.207|0.866|
82558078|NCT06072170|164825868|OTHER|Proportionality analysis was done using a power model.|Slope|0.967|||||TWO_SIDED|90.0|0.79|1.145||||||Statistical Analysis for Dose-Proportionality of Speciogynine Pharmacokinetic Parameters (Pharmacokinetic Population)||1.145|0.790|
82558079|NCT06072170|164825868|OTHER|Proportionality analysis was done using a power model.|Slope|1.025|||||TWO_SIDED|90.0|0.859|1.191||||||Statistical Analysis for Dose-Proportionality of Speciociliatine Dose Adjusted Pharmacokinetic Parameters (Pharmacokinetic Population)||1.191|0.859|
82558080|NCT06072170|164825872|SUPERIORITY||Least-Square Mean|18.5|STANDARD_ERROR_OF_MEAN|6.06|||TWO_SIDED|95.0|6.16|30.78||||||||30.78|6.16|
82558081|NCT06072170|164825875|SUPERIORITY||Least-Squared Mean|45.9|STANDARD_ERROR_OF_MEAN|7.74|<|0.001|TWO_SIDED|95.0|30.2|61.67|||ANOVA|||Statistical Analysis for High Visual Analog Scale (Emax)||61.67|30.20|<0.001
82558082|NCT03070392|164825881|SUPERIORITY||Hazard Ratio (HR)|0.51|||<|0.0001|TWO_SIDED|95.0|0.37|0.71|||Log Rank|||||0.71|0.37|<0.0001
82558083|NCT03070392|164825883|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0139|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||||0.94|0.58|0.0139
82558084|NCT00378898|164825926|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
82558085|NCT02949297|164825942|OTHER|One-sided Clopper-Pearson 95% confidence interval|Clopper-Pearson|80.0|||||ONE_SIDED|95.0||95.0|||||One-sided Clopper-Pearson 95% confidence interval|||95||
82558086|NCT00458783|164825957|SUPERIORITY||Odds Ratio (OR)|0.77||||0.08|TWO_SIDED|95.0|0.5|1.2|||generalized estimating equation (GEE)|Generalized estimating equation (GEE) distinct-effects model||||1.2|0.50|0.08
82558087|NCT00458783|164825958|SUPERIORITY||Odds Ratio, log|0.64|||||TWO_SIDED|95.0|0.25|1.6||||||||1.6|0.25|
82487404|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|0.03||||0.9327||95.0|-0.63|0.69||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is two hours after dinner profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.69|-0.63|0.9327
82487405|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|-0.25||||0.4063||95.0|-0.84|0.34||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is bedtime profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.34|-0.84|0.4063
82487406|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|0.3||||0.2198||95.0|-0.18|0.79||P-value for parallelism was overall test for parallel time profiles between treatment groups, i.e. time by treatment group interaction effect.|Mixed Models Analysis||Confidence interval is 2.00 - 4.00 a.m. profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.79|-0.18|0.2198
82487407|NCT01278160|164668434|SUPERIORITY_OR_OTHER||Mixed model analysis|-0.04||||0.8424||95.0|-0.47|0.38|||Mixed Models Analysis||Confidence interval is before breakfast the following day profile|A mixed effect model was fitted to the 9-point SMPG profile data. The model included treatment, time, interaction between treatment and time and previous therapy (BIAsp-30 once daily (OD)/insulin glargine OD) as factors and subject as random effect. From the model, mean profile by treatment and relevant treatment differences was estimated and explored.||0.38|-0.47|0.8424
82487408|NCT01278160|164668435|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.7312||95.0|0.36|2.06|||Regression, Logistic||The odds ratio and 95% confidence interval for the HbA1c below 7% treatment target were included.|Responder analyses were based on logistics regression model using treatment and previous therapy (BIAsp 30 OD or insulin glargine OD) as factors and baseline HbA1c as covariate.||2.06|0.36|0.7312
82487409|NCT01278160|164668436|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.27||||0.1257||95.0|0.05|1.44|||Regression, Logistic|The estimates were from a normal linear regression model with treatment and previous insulin as factors, and baseline value as a covariate|The odds ratio and 95% confidence interval for the HbA1c below or equal to 6.5% treatment target were included.|Responder analyses were based on logistics regression model using treatment and previous therapy (BIAsp 30 OD or insulin glargine OD) as factors and baseline HbA1c as covariate.||1.44|0.05|0.1257
82558088|NCT00458783|164825959|SUPERIORITY||Odds Ratio, log|0.72|||||TWO_SIDED|95.0|0.26|2.0||||||||2.0|0.26|
82558089|NCT00458783|164825960|SUPERIORITY||Odds Ratio, log|0.9|||||TWO_SIDED|95.0|0.59|1.4||||||||1.4|0.59|
82558090|NCT00458783|164825961|SUPERIORITY||Odds Ratio, log|0.86|||||TWO_SIDED|95.0|0.43|1.8||||||||1.8|0.43|
82583272|NCT00709852|164877340|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.03||||||95.0|-0.009|0.065|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.065|-0.009|
82558091|NCT00458783|164825962|SUPERIORITY||Risk Ratio, log|0.81|||||TWO_SIDED|95.0|0.24|2.8||||||||2.8|0.24|
82558092|NCT00458783|164825963|SUPERIORITY||Odds Ratio, log|1.1|||||TWO_SIDED|95.0|0.8|1.5||||||||1.5|0.80|
82583273|NCT00709852|164877340|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|-0.01||||||95.0|-0.04|0.02|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.020|-0.040|
82558093|NCT00458783|164825964|SUPERIORITY||Odds Ratio, log|0.43|||||TWO_SIDED|95.0|0.16|1.1||||||||1.1|0.16|
82558094|NCT00458783|164825965|SUPERIORITY||Odds Ratio, log|0.82|||||TWO_SIDED|95.0|0.39|1.7||||||||1.7|0.39|
82558095|NCT00458783|164825966|SUPERIORITY||Odds Ratio, log|0.82|||||TWO_SIDED|95.0|0.5|1.3||||||||1.3|0.50|
82558096|NCT00458783|164825967|SUPERIORITY||Odds Ratio, log|0.76|||||TWO_SIDED|95.0|0.18|3.2||||||||3.2|0.18|
82558097|NCT00458783|164825968|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.9|TWO_SIDED|95.0|0.94|1.29|||Regression, Cox||The 95%CI is interim adjusted.|||1.29|0.94|0.9
82558098|NCT00458783|164825969|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.07|TWO_SIDED|95.0|0.85|1.18|||Regression, Cox||The 95%CI is interim adjusted.|||1.18|0.85|0.07
82558099|NCT01737398|164825970|OTHER||Least Square Mean Difference|-19.73||||4e-08|TWO_SIDED|95.0|-26.43|-13.03|||MMRM|||||-13.03|-26.43|0.00000004
82558100|NCT01737398|164825971|OTHER||Least Square Mean Difference|-11.68||||0.0006|TWO_SIDED|95.0|-18.29|-5.06|||MMRM|||||-5.06|-18.29|0.0006
82558101|NCT06307457|164825991|OTHER|||||||0.031|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all age groups.||||0.031
82558102|NCT06307457|164825992|OTHER|||||||0.012|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all age groups.||||0.012
82558103|NCT06307457|164825993|OTHER|||||||0.061|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all CCI scores.||||0.061
82558104|NCT06307457|164825994|OTHER|||||||0.08|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all CCI scores.||||0.080
82558105|NCT06307457|164825995|OTHER|||||||0.2|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all number of comorbidities.||||0.2
82558106|NCT06307457|164825996|OTHER|||||||0.093|||||||Log Rank|||Statistical data for this outcome measure is provided combined for all number of comorbidities.||||0.093
82558107|NCT06307457|164825997|OTHER||||||>|0.9|||||||Log Rank|||Statistical data for participants with cardiac disease comorbidity reported.||||>0.9
82583274|NCT00709852|164877340|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.01||||||95.0|-0.015|0.035|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.035|-0.015|
82558108|NCT06307457|164825997|OTHER|||||||0.9|||||||Log Rank|||Statistical data for participants with vascular disease comorbidity reported.||||0.9
82558109|NCT06307457|164825997|OTHER|||||||0.4|||||||Log Rank|||Statistical data for participants with metabolic disease comorbidity reported.||||0.4
82558110|NCT06307457|164825998|OTHER|||||||0.7|||||||Log Rank|||Statistical data for participants cardiac disease comorbidity reported.||||0.7
82558111|NCT06307457|164825998|OTHER|||||||0.3|||||||Log Rank|||Statistical data for participants with vascular disease comorbidity reported.||||0.3
82558112|NCT06307457|164825998|OTHER|||||||0.7|||||||Log Rank|||Statistical data for participants with metabolic disease comorbidity reported.||||0.7
82558113|NCT06307457|164825999|OTHER|||||||0.005|||||||Log Rank|||Statistical data for this outcome measure is provided combined for visceral disease status.||||0.005
82558114|NCT06307457|164826000|OTHER|||||||0.005|||||||Log Rank|||Statistical data for this outcome measure is provided combined for visceral disease status.||||0.005
82558115|NCT06307457|164826001|OTHER|||||||0.14|||||||Log Rank|||Statistical data for this outcome measure is provided combined for bone disease status.||||0.14
82558116|NCT06307457|164826002|OTHER|||||||0.2|||||||Log Rank|||Statistical data for this outcome measure is provided combined for bone disease status.||||0.2
82558117|NCT06307457|164826003|OTHER|||||||0.047|||||||Log Rank|||Statistical data for this outcome measure is provided combined for endocrine status.||||0.047
82558118|NCT06307457|164826004|OTHER|||||||0.041|||||||Log Rank|||Statistical data for this outcome measure is provided combined for endocrine status.||||0.041
82583275|NCT00709852|164877341|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.1||||||95.0|0.042|0.153|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for contrast enhancement||0.153|0.042|
82558119|NCT01354444|164826005|OTHER||Coefficient|1.48||||0.565|TWO_SIDED|95.0|-3.796|6.761|||Regression, Linear|||This analysis compares immediate recall before and after 6 months between the treatment and placebo group.||6.761|-3.796|0.565
82558120|NCT01354444|164826006|OTHER|||||||0.481|||||||Rank sum test|||This analysis compares the change in total Tau between the treatment and placebo group from baseline to 6 months later.||||0.481
82558121|NCT01354444|164826006|OTHER|||||||0.0562|||||||Rank sum test|||This analysis compares the change in Abeta42 between the treatment and placebo group from baseline to 6 months later.||||0.0562
82558122|NCT01354444|164826006|OTHER|||||||0.314|||||||Rank sum test|||This analysis compares the change in p-tau between the treatment and placebo group from baseline to 6 months later.||||0.314
82558123|NCT01354444|164826006|OTHER|||||||0.438|||||||Rank sum test|||This analysis compares the change in oligomeric Abeta between the treatment and placebo group from baseline to 6 months later.||||0.438
82558124|NCT03542305|164826141|OTHER||Ratio (%) of Adjusted Geometric Means|104.25|||||TWO_SIDED|90.0|79.73|136.31|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Mild renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||136.31|79.73|
82558125|NCT03542305|164826141|OTHER||Ratio (%) of Adjusted Geometric Means|118.75|||||TWO_SIDED|90.0|91.43|154.24|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Moderate renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||154.24|91.43|
82558126|NCT03542305|164826141|OTHER||Ratio (%) of Adjusted Geometric Means|141.14|||||TWO_SIDED|90.0|97.82|203.66|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Severe renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||203.66|97.82|
82558127|NCT03542305|164826142|OTHER||Ratio (%) of Adjusted Geometric Means|100.53|||||TWO_SIDED|90.0|66.48|152.02|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Mild renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||152.02|66.48|
82558128|NCT03542305|164826142|OTHER||Slope|88.87|||||TWO_SIDED|90.0|64.18|123.06|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Moderate renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||123.06|64.18|
82558129|NCT03542305|164826142|OTHER||Ratio (%) of Adjusted Geometric Means|92.32|||||TWO_SIDED|90.0|56.58|150.63|||ANOVA|The natural log transformed parameter was used.|Normal renal function was the reference group. Severe renal impairment was test group. The estimate was derived from ratio (%) of adjusted geometric means of Test and Reference.|||150.63|56.58|
82558130|NCT01335867|164826153|SUPERIORITY|||||||0.14|||||||Chi-squared|||||||.14
82558131|NCT01335867|164826155|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||.24
82558132|NCT01335867|164826156|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||.20
82558133|NCT01335867|164826157|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||||||.64
82558134|NCT01619059|164826158|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.087|<|0.0001|TWO_SIDED|95.0|-0.52|-0.18||Tested at alpha=0.05|Mixed Models Analysis|||||-0.18|-0.52|<0.0001
82558135|NCT01619059|164826159|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|4.576||0.2014|TWO_SIDED|95.0|-14.9|3.1||Secondary endpoints were tested at alpha=0.05, applying the hierarchical order for the sequential testing procedure|Mixed Models Analysis|||||3.1|-14.9|0.2014
82558136|NCT01619059|164826160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|3.713|||TWO_SIDED|95.0|-11.0|3.6||||||||3.6|-11.0|
82558137|NCT01619059|164826161|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.2|STANDARD_ERROR_OF_MEAN|4.504|||TWO_SIDED|95.0|3.4|21.0||||||||21.0|3.4|
82558138|NCT00176202|164826168|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
82558139|NCT00176202|164826168|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
82558140|NCT00176202|164826169|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<.01
82558141|NCT00176202|164826169|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Chi-squared|||||||0.01
82583276|NCT00709852|164877341|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.1||||||95.0|0.03|0.161|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for border delineation||0.161|0.030|
82583277|NCT00709852|164877341|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.05||||||95.0|0.006|0.098|||CI for paired means|lower limit of confidence interval is compared to noninferiority margin||analysis for internal morphology||0.098|0.006|
82583278|NCT00709852|164877342|SUPERIORITY_OR_OTHER||Difference|6.2||||0.0082|||||||McNemar|||||||0.0082
82583279|NCT00709852|164877343|SUPERIORITY_OR_OTHER||Difference|9.9|||<|0.0001|||||||McNemar|||||||< 0.0001
82583280|NCT00709852|164877344|SUPERIORITY_OR_OTHER||Difference|6.8||||0.0039|||||||McNemar|||||||0.0039
82583281|NCT00709852|164877345|SUPERIORITY_OR_OTHER||Difference|9.2|||<|0.0001|||||||McNemar|||||||< 0.0001
82651737|NCT03294538|165018392|EQUIVALENCE|If the adjusted 90% confidence interval on the difference between proportions of participants considered Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group was contained within the equivalence range \[-0.20, +0.20\], then treatment with generic estradiol vaginal cream and treatment with Estrace Vaginal Cream were considered therapeutically equivalent.|Odds Ratio (OR)|-1.4|||||TWO_SIDED|90.0|-9.0|6.2||||||Therapeutic equivalence of the generic estradiol vaginal cream group to the Estrace Vaginal Cream group based on the secondary endpoint was evaluated in the PP population.||6.2|-9.0|
82558142|NCT00176202|164826170|SUPERIORITY_OR_OTHER||effect size|-1.59|||<|0.01|TWO_SIDED|||||In case of both risperidone and divalproex sodium.|Chi-squared|||||||<0.01
82558143|NCT00176202|164826170|SUPERIORITY_OR_OTHER||Effect size|-1.33|||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
82583282|NCT00709852|164877346|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|-0.4||||||95.0|-3.8|2.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||2.9|-3.8|
82583283|NCT00709852|164877347|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.7||||||95.0|-0.3|1.6|||CI for paired percentages|lower limit of interval is compared to noninferiority margin||||1.6|-0.3|
82583284|NCT00709852|164877348|SUPERIORITY_OR_OTHER||Difference|10.5||||0.0002|||||||McNemar|||||||0.0002
82583285|NCT00709852|164877349|SUPERIORITY_OR_OTHER||Difference|13.6|||<|0.0001|||||||McNemar|||||||< 0.0001
82583286|NCT00709852|164877350|SUPERIORITY_OR_OTHER||Difference|0.0||||1|||||||McNemar|||||||1.0000
82583287|NCT00709852|164877351|SUPERIORITY_OR_OTHER||Difference|10.5||||0.0002|||||||McNemar|||||||0.0002
82583288|NCT00709852|164877352|SUPERIORITY_OR_OTHER||Difference|13.1||||0.0001|||||||McNemar|||||||0.0001
82558144|NCT00176202|164826171|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||baseline is compared to LOCF to determine the p value.||||<0.01
82558145|NCT00176202|164826171|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared|||||||<0.01
82558146|NCT00731614|164826172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.322|||||||Repeated Measure ANOVA|||Conducted a repeated measures ANOVA comparing CBT+mirror retraining with Supportive Therapy across 11 time points. The primary hypothesis was a group by time interaction. Due to missing data, a total of 9 and 14 participants, respectively could be included in analyses.||||.322
82558147|NCT03758742|164826177|SUPERIORITY||||||<|0.0001|||||||Binomial Test|||||||<0.0001
82558148|NCT01706159|164826229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.16||||0.3056||90.0|0.01|3.05||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||A sample size of 90 subjects, with a 2:1 (active:placebo) randomization ratio, would ensure 80% power to detect a difference between active treatment and placebo at Week 8 with a 2-sided significance level of 10% based on a Fisher's exact test.||3.05|0.01|0.3056
82558149|NCT04119063|164826234|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.204|||||||t-test, 2 sided|||||||0.204
82583289|NCT00709852|164877353|SUPERIORITY_OR_OTHER||Difference|1.6||||0.763|||||||McNemar|||||||0.7630
82583290|NCT00709852|164877354|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.0||||||95.0|-3.1|3.1|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.1|-3.1|
82583291|NCT00709852|164877355|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.5||||||95.0|-2.7|3.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.6|-2.7|
82583292|NCT00709852|164877356|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|-1.6||||||95.0|-10.1|6.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||6.9|-10.1|
82583293|NCT00709852|164877357|SUPERIORITY_OR_OTHER||Difference|6.5||||0.0006|||||||McNemar|||||||0.0006
82583294|NCT00709852|164877358|SUPERIORITY_OR_OTHER||Difference|19.4||||0.0004|||||||McNemar|||||||0.0004
82583295|NCT00709852|164877359|SUPERIORITY_OR_OTHER||Difference|0.5||||0.6547|||||||McNemar|||||||0.6547
82583296|NCT00709852|164877360|SUPERIORITY_OR_OTHER||Difference|7.9|||<|0.0001|||||||McNemar|||||||< 0.0001
82583297|NCT00709852|164877361|SUPERIORITY_OR_OTHER||Difference|21.5|||<|0.0001|||||||McNemar|||||||< 0.0001
82583298|NCT00709852|164877362|SUPERIORITY_OR_OTHER||Difference|1.5||||0.0833|||||||McNemar|||||||0.0833
82583299|NCT00709852|164877363|SUPERIORITY_OR_OTHER||Difference|4.5||||0.0236|||||||McNemar|||||||0.0236
82583300|NCT00709852|164877364|SUPERIORITY_OR_OTHER||Difference|12.9||||0.0186|||||||McNemar|||||||0.0186
82583301|NCT00709852|164877365|SUPERIORITY_OR_OTHER||Difference|0.5||||0.7055|||||||McNemar|||||||0.7055
82583302|NCT00709852|164877366|SUPERIORITY_OR_OTHER||Difference|7.2|||<|0.0001|||||||McNemar|||||||< 0.0001
82583303|NCT00709852|164877367|SUPERIORITY_OR_OTHER||Difference|20.4|||<|0.0001|||||||McNemar|||||||< 0.0001
82583304|NCT00709852|164877368|SUPERIORITY_OR_OTHER||Difference|1.0||||0.1573|||||||McNemar|||||||0.1573
82583305|NCT00709852|164877369|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|2.1||||||95.0|0.2|3.9|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.9|0.2|
82583306|NCT00709852|164877370|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|6.5||||||95.0|1.5|11.4|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||11.4|1.5|
82558150|NCT04119063|164826235|OTHER|Paired t-test||||||0.049|||||||t-test, 2 sided|||||||0.049
82558151|NCT04119063|164826236|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.039|||||||t-test, 2 sided|||||||0.039
82558152|NCT04119063|164826237|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.242|||||||t-test, 2 sided|||||||0.242
82558153|NCT04119063|164826238|OTHER|Paired t-tests comparing change in % difference following high vs low frequency gait training.||||||0.014|||||||t-test, 2 sided|||||||.014
82583307|NCT00709852|164877371|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.0||||||95.0|-1.4|1.4|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.4|-1.4|
82583308|NCT00709852|164877372|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.7||||||95.0|-0.3|1.6|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.6|-0.3|
82583309|NCT00709852|164877373|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|1.1||||||95.0|-1.0|3.2|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||3.2|-1.0|
82583310|NCT00709852|164877374|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -10%|Difference in percentages|0.5||||||95.0|-0.5|1.5|||CI for paired percentages|lower limit of confidence interval is compared to noninferiority margin||||1.5|-0.5|
82583311|NCT00709852|164877375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_DEVIATION|0.56|<|0.0001|||||||paired t test|||||||< 0.0001
82583312|NCT00709852|164877376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57|STANDARD_DEVIATION|0.58|<|0.0001|||||||paired t test|||||||< 0.0001
82558154|NCT00989196|164826246|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|For the comparison of the PK profile of Human-cl rhFVIII with Kogenate, the 90% confidence intervals for the ratio or log-ratio of Human-cl rhFVIII over Kogenate for selected, dose independent or dose adjusted, PK parameters will be presented. In addition a formal statistical procedure will test whether the ratio of mean AUCs is within a 80 to 125% range to show bioequivalence.|Ratio|0.98|||||TWO_SIDED|90.0|0.874|1.107||||||||1.107|0.874|
82558155|NCT02409680|164826255|SUPERIORITY||Risk Ratio (RR)|0.89||||0.012|TWO_SIDED|95.0|0.81|0.98||A-priori threshold for statistical significance at 0.05 was specified.|Cochran-Mantel-Haenszel|||The null hypothesis is there is no treatment effect on preterm delivery.||0.98|0.81|0.012
82558156|NCT02409680|164826256|SUPERIORITY||Risk Ratio (RR)|1.08||||0.299|TWO_SIDED|95.0|0.94|1.25|||Cochran-Mantel-Haenszel|||||1.25|0.94|0.299
82558157|NCT02409680|164826257|SUPERIORITY||Risk Ratio (RR)|0.95||||0.171|TWO_SIDED|95.0|0.9|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.90|0.171
82558158|NCT02409680|164826258|SUPERIORITY||Risk Ratio (RR)|0.86||||0.048|TWO_SIDED|95.0|0.73|1.0|||Cochran-Mantel-Haenszel|||||1.00|0.73|0.048
82558159|NCT02409680|164826259|SUPERIORITY||Risk Ratio (RR)|0.87||||0.125|TWO_SIDED|95.0|0.73|1.04|||Cochran-Mantel-Haenszel|||||1.04|0.73|0.125
82558160|NCT02409680|164826260|SUPERIORITY||Risk Ratio (RR)|1.03||||0.9|TWO_SIDED|95.0|0.6|1.79|||Cochran-Mantel-Haenszel|||||1.79|0.60|0.900
82558161|NCT02409680|164826261|SUPERIORITY||Risk Ratio (RR)|1.25||||0.274|TWO_SIDED|95.0|0.84|1.86|||Cochran-Mantel-Haenszel|||||1.86|0.84|0.274
82558162|NCT02409680|164826262|SUPERIORITY||Risk Ratio (RR)|0.75||||0.512|TWO_SIDED|95.0|0.32|1.78|||Cochran-Mantel-Haenszel|||||1.78|0.32|0.512
82558163|NCT02409680|164826263|SUPERIORITY||Risk Ratio (RR)|0.77||||0.331|TWO_SIDED|95.0|0.45|1.31|||Cochran-Mantel-Haenszel|||||1.31|0.45|0.331
82558164|NCT02409680|164826265|SUPERIORITY||Risk Ratio (RR)|0.38||||0.015|TWO_SIDED|95.0|0.17|0.85|||Cochran-Mantel-Haenszel|||||0.85|0.17|0.015
82558165|NCT02409680|164826266|SUPERIORITY||Risk Ratio (RR)|0.75||||0.039|TWO_SIDED|95.0|0.61|0.93|||Cochran-Mantel-Haenszel|||||0.93|0.61|0.039
82558166|NCT02409680|164826267|SUPERIORITY||Risk Ratio (RR)|0.93||||0.073|TWO_SIDED|95.0|0.87|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.87|0.073
82558167|NCT02409680|164826268|SUPERIORITY||Risk Ratio (RR)|0.87||||0.084|TWO_SIDED|95.0|0.57|1.33|||Cochran-Mantel-Haenszel|||||1.33|0.57|0.084
82558168|NCT02409680|164826269|SUPERIORITY||Risk Ratio (RR)|0.86||||0.039|TWO_SIDED|95.0|0.73|1.0|||Cochran-Mantel-Haenszel|||||1.00|0.73|0.039
82558169|NCT02409680|164826270|SUPERIORITY||Risk Ratio (RR)|0.88||||0.261|TWO_SIDED|95.0|0.7|1.1|||Cochran-Mantel-Haenszel|||||1.10|0.70|0.261
82558170|NCT02409680|164826271|SUPERIORITY||Risk Ratio (RR)|0.85||||0.141|TWO_SIDED|95.0|0.68|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.68|0.141
82558171|NCT02409680|164826272|SUPERIORITY||Risk Ratio (RR)|1.4||||0.157|TWO_SIDED|95.0|0.88|2.23|||Cochran-Mantel-Haenszel|||||2.23|0.88|0.157
82558172|NCT03789656|164826273|OTHER|||||||0.6285|||||||Wilcoxon Signed Rank test|||The primary efficacy endpoint was completed with the Efficacy Analysis Set (EAS), which included all treated subjects in Group 1. The median (Interquartile range) for change from baseline in IGF-1xULN to Week 13/EoT and p-value from the Wilcoxon signed rank test were presented. Baseline was defined as the mean of all IGF-1xULN values prior to first dose. Last on treatment assessment was used for EoT if subject discontinued before Week 13.||||0.6285
82558173|NCT03789656|164826274|OTHER|||||||0.3877|||||||exact binomial test assuming the null pr|Null proportion = 0.5||||||0.3877
82558174|NCT06214052|164826289|OTHER||Emax|-2.69|STANDARD_ERROR_OF_MEAN|5.0||||||||||||||||
82558175|NCT06214052|164826289|OTHER||EC50|1.88|STANDARD_ERROR_OF_MEAN|26.0||||||||||||||||
82558176|NCT05325294|164826293|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.1||||0.133|TWO_SIDED|95.0|-0.2|0.1|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||0.1|-0.2|0.133
82583313|NCT00709852|164877377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|0.48||||||||||||||||
82583314|NCT00709852|164877378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.76|STANDARD_DEVIATION|0.93|<|0.0001|||||||paired t test|||||||< 0.0001
82583315|NCT00709852|164877379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.73|STANDARD_DEVIATION|0.89|<|0.0001|||||||paired t test|||||||< 0.0001
82583316|NCT00709852|164877380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.39||||||||||||||||
82583317|NCT00709852|164877381|SUPERIORITY_OR_OTHER||||||<|0.0001||||||for all three readers|t-test, 2 sided|||||||< 0.0001
82583318|NCT00709852|164877383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_DEVIATION|1.06||||||||||||||||
82583319|NCT00709852|164877384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|26.6||||||||||||||||
82583320|NCT02632526|164877386|SUPERIORITY_OR_OTHER||Slope|1.24|STANDARD_ERROR_OF_MEAN|0.0433|||TWO_SIDED|90.0|1.17|1.31||||||||1.31|1.17|
82583321|NCT02632526|164877386|SUPERIORITY_OR_OTHER||Slope|0.322|STANDARD_ERROR_OF_MEAN|0.182|||TWO_SIDED|90.0|-0.0124|0.656||||||||0.656|-0.0124|
82583322|NCT02632526|164877387|SUPERIORITY_OR_OTHER||Slope|1.22|STANDARD_ERROR_OF_MEAN|0.0813|||TWO_SIDED|90.0|1.08|1.36||||||Day 1||1.36|1.08|
82583323|NCT02632526|164877389|SUPERIORITY_OR_OTHER||Slope|1.23|STANDARD_ERROR_OF_MEAN|0.0851|||TWO_SIDED|90.0|1.08|1.38||||||Day 10||1.38|1.08|
82583324|NCT02632526|164877390|SUPERIORITY_OR_OTHER||Slope|1.55|STANDARD_ERROR_OF_MEAN|0.0692|||TWO_SIDED|90.0|1.43|1.66||||||||1.66|1.43|
82583325|NCT02632526|164877390|SUPERIORITY_OR_OTHER||Slope|0.35|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|0.0315|0.669||||||||0.669|0.0315|
82583326|NCT02632526|164877391|SUPERIORITY_OR_OTHER||Slope|1.48|STANDARD_ERROR_OF_MEAN|0.0839|||TWO_SIDED|90.0|1.34|1.63||||||For Day 1||1.63|1.34|
82583327|NCT02632526|164877391|SUPERIORITY_OR_OTHER||Slope|1.43|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|1.25|1.6||||||Day 10||1.60|1.25|
82583328|NCT02632526|164877404|SUPERIORITY_OR_OTHER||Ratio|28.13|||||TWO_SIDED|90.0|20.98|37.73||||||Cmax||37.73|20.98|
82583329|NCT02632526|164877405|SUPERIORITY_OR_OTHER||Ratio|64.58|||||TWO_SIDED|90.0|54.34|76.74||||||AUC(0-τ)||76.74|54.34|
82583330|NCT00857272|164877700|NON_INFERIORITY_OR_EQUIVALENCE|Fifteen percent has been established as an acceptable non-inferiority margin for evaluation of investigational bowel preparations in previous studies of FDA approved preparations (e.g. NuLytely, MoviPrep).|Difference in success rates|-2.5||||0.005|TWO_SIDED|95.0|-11.9|6.8|||Chi-squared|||"The primary endpoint of preparation success was tested using a non-inferiority test based upon the difference D=P1-P2,~Null Hypothesis H0: P1-P2\<=D0 versus Alternative Hypothesis H1: P1-P2=D1\>D0,~Where P1 is the % of patients with successful preps in the HalfLytely 5mg group and P2 is the % of patients with successful preps in the HalfLytely 10mg group and D0 is the acceptable margin of equivalence equal to an absolute margin of 15%."||6.8|-11.9|0.005
82583331|NCT03143166|164877741|OTHER||Adjusted gMean ratio Test/Reference (%)|28.85|STANDARD_ERROR_OF_MEAN|86.7|||TWO_SIDED|90.0|21.346|38.996|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||38.996|21.346|
82583332|NCT03143166|164877742|OTHER||Adjusted gMean ratio Test/Reference (%)|26.37|STANDARD_ERROR_OF_MEAN|76.6|||TWO_SIDED|90.0|20.066|34.665|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||34.665|20.066|
82651738|NCT03294538|165018393|SUPERIORITY|The proportion of participants considered as Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Treatment Success in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Treatment Success than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|4.9||||0.2897|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the secondary endpoint was evaluated in the mITT population.||||0.2897
82583333|NCT03143166|164877743|OTHER||Adjusted gMean ratio Test/Reference (%)|28.02|STANDARD_ERROR_OF_MEAN|83.4|||TWO_SIDED|90.0|20.914|37.537|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||37.537|20.914|
82583334|NCT03143166|164877744|OTHER||Adjusted gMean ratio Test/Reference (%)|27.56|STANDARD_ERROR_OF_MEAN|75.6|||TWO_SIDED|90.0|21.023|36.118|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||36.118|21.023|
82583335|NCT03143166|164877745|OTHER||Adjusted gMean ratio Test/Reference (%)|30.59|STANDARD_ERROR_OF_MEAN|76.8|||TWO_SIDED|90.0|23.26|40.234|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||40.234|23.260|
82583336|NCT03143166|164877746|OTHER||Adjusted gMean ratio Test/Reference (%)|30.61|STANDARD_ERROR_OF_MEAN|74.9|||TWO_SIDED|90.0|23.404|40.037|||ANOVA|An analysis of variance (ANOVA) was used on the logarithmic scale including effects for 'subjects' and 'treatment'.|The dispersion value standard error of the mean is actually intra individual geometric coefficient of variation (gCV) (%).|||40.037|23.404|
82583337|NCT00589121|164877753|SUPERIORITY_OR_OTHER|The fixed rate of 37% comes from the published National Cancer Institute of Canada trial SR2 (CAN-NCIC-SR2: Phase III Randomized Study of Pre- vs Postoperative Radiotherapy in Curable Extremity Soft Tissue Sarcoma) receiving preoperative radiation therapy without image-guided radiation therapy (IGRT).||||||0.0005|||||||Fisher Exact|||Initially designed to test for a 20% absolute improvement from 37% (fixed rate) to 17% using Fisher's exact test, requiring 41 patients per cohort (51 with 20% ineligibility) with 5% type I error and 90% statistical power. During accrual, the sample size for cohort B was increased to 66 (83 with 20% ineligibility) to test for a 15% improvement with 5% type I error and 85% power.||||0.0005
82583338|NCT02545933|164877786|SUPERIORITY||least square mean difference|27.0||||0.011|TWO_SIDED|95.0|19.0|34.0|||ANOVA||DAPT group vs DAPT plus vorapaxar group|We hypothesized that adjunctive vorapaxar would result in a significant reduction of CAT-induced platelet aggregation. Assuming a 10% absolute reduction in CAT-induced maximal platelet aggregation with a common standard deviation of 13%, 37 patients per group with valid primary endpoint data were required to detect a significant difference with a 90% power and 2-sided alpha=0.05.||34|19|0.011
82586144|NCT05437510|164884199|SUPERIORITY||Efficacy|57.97|||<|0.0001|TWO_SIDED|95.0|40.36|70.76|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||70.760|40.360|<0.0001
82651739|NCT03294538|165018393|SUPERIORITY|The proportion of participants considered as Treatment Success in the generic estradiol vaginal cream group and the Estrace Vaginal Cream group were each compared to the proportion of Treatment Success in the vehicle vaginal cream group. If both the generic estradiol vaginal cream group and the Estrace Vaginal Cream group demonstrated a statistically significant greater proportion of Treatment Success than the vehicle vaginal cream group, then superiority was concluded.|Odds Ratio (OR)|3.9||||0.4949|||||||Cochran-Mantel-Haenszel|||Superiority of the generic estradiol vaginal cream group and the Estrace Vaginal Cream group to the vehicle vaginal cream group based on the primary endpoint was evaluated in the mITT population.||||0.4949
82651740|NCT01992107|165018447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.03|||||TWO_SIDED|95.0|0.93|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain A/H1N1||1.14|0.93|
82558177|NCT05325294|164826293|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.5% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.6|-0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.3|-0.6|<0.001
82558178|NCT05325294|164826294|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 65.3% with a margin of -7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|68.6|||<|0.001|TWO_SIDED|95.0|66.6|70.7|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||70.7|66.6|<0.001
82558179|NCT05325294|164826294|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 73.7% with a margin of -7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.6|||<|0.001|TWO_SIDED|95.0|75.7|79.4|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||79.4|75.7|<0.001
82487410|NCT01278160|164668437|SUPERIORITY_OR_OTHER||Rate ratio|0.72||||0.1911||95.0|0.43|1.18|||Negative binomial regression model||For all episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.18|0.43|0.1911
82487411|NCT01278160|164668437|SUPERIORITY_OR_OTHER||Rate ratio|1.61||||0.2949||95.0|0.66|3.92|||Negative binomial regression model||For nocturnal episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||3.92|0.66|0.2949
82487412|NCT01278160|164668437|SUPERIORITY_OR_OTHER||Rate ratio|0.63||||0.077||95.0|0.38|1.05|||Negative binomial regression model||For diurnal episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.05|0.38|0.0770
82558180|NCT05325294|164826295|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL) will be estimated and compared to a threshold of 0.71% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.4|||<|0.001|TWO_SIDED|95.0|0.3|0.5|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.5|0.3|<0.001
82558181|NCT05325294|164826295|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL) will be estimated and compared to a threshold of 0.86% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.2|||<|0.001|TWO_SIDED|95.0|0.2|0.3|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.3|0.2|<0.001
82558182|NCT05325294|164826296|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 65.3% and a significance level of 0.025 (one-sided).|Mean of Final Value|68.6|||<|0.001|TWO_SIDED|95.0|66.6|70.7|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||70.7|66.6|<0.001
82558183|NCT05325294|164826296|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL) will be estimated and compared to a threshold of 73.7% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.6|||<|0.001|TWO_SIDED|95.0|75.7|79.4|||t-test, 1 sided||This is one arm study, the Percent of Time in Range (TIR70-180 mg/dL) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||79.4|75.7|<0.001
82558184|NCT02434328|164826298|NON_INFERIORITY|The noninferiority margin was 4 letters.|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86|<|0.0001|TWO_SIDED|95.0|-2.4|1.0||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.0|-2.4|<0.0001
82558185|NCT02434328|164826299|NON_INFERIORITY|The non-inferiority margin was 4 letters.|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.82||0.0003|TWO_SIDED|95.0|-2.8|0.5||1-sided p-value reported. Hypothesis tested according to the pre-specified hierarchical testing that ensures the global type I error rate at 0.05.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||0.5|-2.8|0.0003
82558186|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|95.0|-2.0|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||0.0|-2.0|
82558187|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-2.2|0.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||0.2|-2.2|
82558188|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.71|||TWO_SIDED|95.0|-2.4|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||0.4|-2.4|
82558189|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.73|||TWO_SIDED|95.0|-2.3|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||0.6|-2.3|
82558190|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|-3.0|0.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||0.0|-3.0|
82558191|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.79|||TWO_SIDED|95.0|-2.5|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||0.6|-2.5|
82558192|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.7|0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||0.5|-2.7|
82558193|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|-2.5|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||0.7|-2.5|
82558194|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|95.0|-2.9|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||0.4|-2.9|
82558195|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-2.9|0.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||0.5|-2.9|
82558196|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-3.2|0.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||0.1|-3.2|
82558197|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|95.0|-2.4|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||1.0|-2.4|
82558198|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.0|-2.5|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||1.1|-2.5|
82558199|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.92|||TWO_SIDED|95.0|-2.5|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||1.1|-2.5|
82558200|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-2.7|1.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||1.0|-2.7|
82558201|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.95|||TWO_SIDED|95.0|-2.5|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||1.2|-2.5|
82558202|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-2.5|1.2||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||1.2|-2.5|
82558203|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.8|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||1.1|-2.8|
82558204|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|-2.5|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||1.4|-2.5|
82558205|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.1|1.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||1.8|-2.1|
82487413|NCT01278160|164668437|SUPERIORITY_OR_OTHER||Rate ratio|0.56||||0.1687||95.0|0.25|1.27|||Negative binomial regression model||For minor episodes.|The number of hypos was analysed using a negative binomial regression model with a log-link function and the logarithm of the time period in which a hypo is considered emergent as offset. The model included treatment and previous therapy (BIAsp 30 OD/insulin glargine OD) as factors. The rate ratio was estimated and 95% confidence intervals were calculated accordingly.||1.27|0.25|0.1687
82487414|NCT02979197|164668442|NON_INFERIORITY|A two-sample t-test was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib (arm 1) was non-inferior to half of the effect achieved with Amlodipine+Placebo (arm 2). The primary efficacy endpoint was considered met if the lower limits of the 97.5% one-side confidence interval (CI) for the difference in SBPday change in arm 1 and 50% of the mean change in arm 2 was less than 0.||||||0.024|||||||t-test, 2 sided|||LOCF method was used. Primary efficacy analysis was based on the difference between the Amlodipine+Celecoxib and Amlodipine+Placebo (arms 1 and 2, respectively) in the mean change in SBPday from Baseline to final (Day 13), where a subject completed the 14-day treatment plan, or to Day 6, where a subject was withdrawn from treatment before the Day 13 dose but after the Day 6 dose, or to baseline, where a subject was withdrawn before the Day 6 dose.||||0.024
82487415|NCT02979197|164668443|OTHER|ANOVA F-test was used to compare the mean changes in body weight from baseline to end of treatment among the three treatment arms. The omni-bus test was to conclude if any differences existed.||||||0.006|||||||ANOVA|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in body weight was the 1st of the four secondary efficacy endpoints.||||0.006
82487416|NCT02979197|164668444|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib lowered SBP24h to a greater degree than Amlodipine+Placebo.||||||0.826|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in SBP24h was the 2nd of the four secondary efficacy endpoints.||||0.826
82487417|NCT02979197|164668445|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib lowered DBP24h to a greater degree than Amlodipine+Placebo.||||||0.5|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in DBP24h was the 3rd of the 4 secondary efficacy endpoints.||||0.500
82558206|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-2.9|1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||1.1|-2.9|
82558207|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.6|1.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||1.3|-2.6|
82558208|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-2.4|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||1.6|-2.4|
82558209|NCT02434328|164826304|OTHER|Treatment difference|Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|95.0|-2.5|1.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||1.6|-2.5|
82558210|NCT02434328|164826305|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69|||TWO_SIDED|95.0|-2.4|0.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||0.3|-2.4|
82558211|NCT02434328|164826305|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|95.0|-2.4|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||0.7|-2.4|
82558212|NCT02434328|164826306|OTHER|Treatment difference|Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-2.5|0.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12 to Week 48||0.4|-2.5|
82558213|NCT02434328|164826306|OTHER|Treatment difference|Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|95.0|-2.4|0.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.||Week 12 to Week 96|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|0.8|-2.4|
82558214|NCT02434328|164826307|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|95.0|-2.5|1.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline BCVA categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||1.4|-2.5|
82558215|NCT02434328|164826308|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-5.1|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||2.9|-5.1|
82487418|NCT02979197|164668446|SUPERIORITY|A two-sample t-test for superiority was used to test the one-sided hypothesis that treatment with Amlodipine+Celecoxib improved creatinine clearance to a greater degree than Amlodipine+Placebo.||||||0.668|||||||t-test, 2 sided|||A serial gatekeeping strategy was used for secondary efficacy analyses. If, and only if, statistical significance was achieved for the primary endpoint (SBPday), a secondary hierarchical analysis was to be used to evaluate secondary efficacy endpoints and was only to proceed from one to the next if the alpha was met for the prior; if the alpha was not met, analysis was performed for informational purposes only. Mean change in creatinine clearance was the 4th of 4 secondary efficacy endpoints.||||0.668
82487419|NCT02979197|164668447|SUPERIORITY|Differences in the occurrence of TEAEs between treatment arms were evaluated using Chi-square test.||||||0.675|||||||Chi-squared|Computed on the number of subjects who had at least one TEAE.||||||0.675
82487420|NCT02979197|164668447|SUPERIORITY|||||||0.555|||||||Regression, Logistic|TEAE (1=at least one TEAE occurred for the subject; 0=otherwise) as dependent variable and treatment as fixed effect.||||||0.555
82487421|NCT02979197|164668448|SUPERIORITY|||||||0.226|||||||t-test, 2 sided|||For this analysis, all values below the limit of quantification were treated as 0.||||0.226
82487422|NCT02979197|164668449|SUPERIORITY|||||||0.215|||||||t-test, 2 sided|||For this analysis, all values below the limit of quantification (BLQ) were treated as 0.04 ng/mL. Assignment of BLQ values to a nonzero number allowed computation of the log transformation. The selection of 0.04 ng/mL was based on the lower limit of quantification of the validated bioanalytical method (0.05 ng/mL) and selecting the next lowest number at the hundredth decimal place.||||0.215
82487423|NCT02979197|164668450|SUPERIORITY|||||||0.0005|||||||ANCOVA|Adjusted mean = -3.48 μmol/L; 95% confidence interval = -5.4 to -1.6||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Amlodipine+Celecoxib arm from baseline to Day 14.||||0.0005
82487424|NCT02979197|164668450|SUPERIORITY|||||||0.075|||||||ANCOVA|Adjusted mean = -1.72 μmol/L; 95% confidence interval = -3.6 to 0.2||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Amlodipine+Placebo arm from baseline to Day 14.||||0.0750
82487425|NCT02979197|164668450|SUPERIORITY|||||||0.4184|||||||ANCOVA|Adjusted mean = -1.92 μmol/L; 95% confidence interval = -6.6 to 2.8||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the Placebo+Placebo arm from baseline to Day 14.||||0.4184
82487426|NCT02979197|164668450|SUPERIORITY|||||||0.2022|||||||ANCOVA|Adjusted mean = -1.76 μmol/L; 95% confidence interval = -4.5 to 1.0||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Celecoxib and Amlodipine+Placebo arms.||||0.2022
82487427|NCT02979197|164668450|SUPERIORITY|||||||0.541|||||||ANCOVA|Adjusted mean = -1.56 μmol/L; 95% confidence interval = -6.6 to 3.5||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Celecoxib and Placebo+Placebo arms.||||0.5410
82487428|NCT02979197|164668450|SUPERIORITY|||||||0.9397|||||||ANCOVA|Adjusted mean = 0.19 μmol/L; 95% confidence interval = -4.9 to 5.2||Renal function was analyzed by evaluating the decreases in serum creatinine from baseline to Day 14 for each treatment arm and between treatment arms by ANCOVA. This analysis was for the comparison between the Amlodipine+Placebo and Placebo+Placebo arms.||||0.9397
82558216|NCT02434328|164826308|OTHER||Difference in proportions|-4.3|||||TWO_SIDED|95.0|-9.5|1.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.0|-9.5|
82558217|NCT02434328|164826308|OTHER||Difference in proportions|-5.0|||||TWO_SIDED|95.0|-10.5|0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||0.3|-10.5|
82487429|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.265|||||TWO_SIDED|95.0|0.998|1.603|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.603|0.998|
82558218|NCT02434328|164826308|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-8.4|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||3.7|-8.4|
82558219|NCT02434328|164826308|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-8.8|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.8|-8.8|
82487430|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.999|||||TWO_SIDED|95.0|0.791|1.262|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.262|0.791|
82487431|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.708|||||TWO_SIDED|95.0|0.558|0.897|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.897|0.558|
82487432|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.861|||||TWO_SIDED|95.0|0.681|1.089|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.089|0.681|
82487433|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.754|||||TWO_SIDED|95.0|0.596|0.956|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.956|0.596|
82487434|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.548|||||TWO_SIDED|95.0|0.434|0.693|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.693|0.434|
82487435|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.646|||||TWO_SIDED|95.0|0.51|0.817|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.817|0.510|
82558220|NCT02434328|164826308|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.2|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||6.7|-5.2|
82487436|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at 43|0.79|||||TWO_SIDED|95.0|0.625|1.0|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.000|0.625|
82558221|NCT02434328|164826308|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-9.9|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-9.9|
82558222|NCT02434328|164826308|OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.5|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.7|-10.5|
82558223|NCT02434328|164826308|OTHER||Difference in proportions|-4.9|||||TWO_SIDED|95.0|-11.6|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.3|-11.6|
82558224|NCT02434328|164826308|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-11.5|1.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||1.9|-11.5|
82558225|NCT02434328|164826308|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.3|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||1.8|-11.3|
82558226|NCT02434328|164826308|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.1|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||5.8|-7.1|
82558227|NCT02434328|164826308|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-7.0|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.5|-7.0|
82558228|NCT02434328|164826308|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-7.7|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.4|-7.7|
82558229|NCT02434328|164826308|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.3|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-8.3|
82558230|NCT02434328|164826308|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.9|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-7.9|
82558231|NCT02434328|164826308|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-9.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.1|-9.9|
82558232|NCT02434328|164826308|OTHER||Difference in proportions|-4.1|||||TWO_SIDED|95.0|-10.2|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.3|-10.2|
82487437|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at 43|0.56|||||TWO_SIDED|95.0|0.441|0.71|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.710|0.441|
82651741|NCT01992107|165018447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.05|||||TWO_SIDED|95.0|0.97|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain A/H3N2||1.14|0.97|
82651742|NCT01992107|165018447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV1c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|0.99|||||TWO_SIDED|95.0|0.89|1.1|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c, assessed in terms of ratios of GMT against influenza strain B1||1.1|0.89|
82487438|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at 43|0.681|||||TWO_SIDED|95.0|0.538|0.862|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.862|0.538|
82487439|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at 43|0.597|||||TWO_SIDED|95.0|0.47|0.757|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.757|0.470|
82487440|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.434|||||TWO_SIDED|95.0|0.342|0.549|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.549|0.342|
82487441|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.511|||||TWO_SIDED|95.0|0.403|0.647|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.647|0.403|
82487442|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.708|||||TWO_SIDED|95.0|0.56|0.896|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.896|0.560|
82487443|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.862|||||TWO_SIDED|95.0|0.683|1.088|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.088|0.683|
82487444|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.755|||||TWO_SIDED|95.0|0.597|0.954|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.954|0.597|
82487445|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.549|||||TWO_SIDED|95.0|0.435|0.692|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.692|0.435|
82487446|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.646|||||TWO_SIDED|95.0|0.511|0.817|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.817|0.511|
82487447|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.217|||||TWO_SIDED|95.0|0.961|1.541|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.541|0.961|
82487448|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.066|||||TWO_SIDED|95.0|0.841|1.352|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.352|0.841|
82487449|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.775|||||TWO_SIDED|95.0|0.612|0.981|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.981|0.612|
82487450|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67.|Geometric mean ratio at day 43|0.912|||||TWO_SIDED|95.0|0.719|1.157|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.157|0.719|
82487451|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.876|||||TWO_SIDED|95.0|0.692|1.109|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.109|0.692|
82558233|NCT02434328|164826308|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.0|-8.8|
82558234|NCT02434328|164826308|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-9.0|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.5|-9.0|
82487452|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.637|||||TWO_SIDED|95.0|0.504|0.804|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.804|0.504|
82487453|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.75|||||TWO_SIDED|95.0|0.593|0.949|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||0.949|0.593|
82487454|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.727|||||TWO_SIDED|95.0|0.574|0.919|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||0.919|0.574|
82487455|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|0.856|||||TWO_SIDED|95.0|0.675|1.084|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint||1.084|0.675|
82487456|NCT00973349|164668466|NON_INFERIORITY_OR_EQUIVALENCE|The 2-sided CIs were examined against a non-inferiority margin of 0.67|Geometric mean ratio at day 43|1.178|||||TWO_SIDED|95.0|0.931|1.489|||||Pairwise Comparisons of GMTs (95% CI) Between Vaccination Groups at Day 43, on the pooled age groups.|Two-sided 95% CI around the point estimates were to be presented for each endpoint.||1.489|0.931|
82487457|NCT05597020|164668486|SUPERIORITY||Least Square mean difference vs placebo|20.9||||0.002|TWO_SIDED|95.0|8.0|33.7|||Mixed Models Analysis|Treatment, period, week within period, and interaction of treatment and week were factors; baseline sTST assessment was covariate.||||33.7|8.0|0.002
82487458|NCT03029702|164668490|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
82487459|NCT03029702|164668491|SUPERIORITY|||||||0.8|||||||Fisher Exact|||||||0.8
82487460|NCT03029702|164668492|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
82487461|NCT03029702|164668493|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
82487462|NCT03029702|164668494|SUPERIORITY|||||||0.8|||||||Fisher Exact|||||||0.8
82487463|NCT03029702|164668495|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
82487464|NCT03029702|164668496|SUPERIORITY|||||||0.8|||||||Chi-squared|||||||0.8
82487465|NCT03029702|164668497|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||0.7
82558235|NCT02434328|164826308|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-9.9|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||2.8|-9.9|
82558236|NCT02434328|164826308|OTHER||Difference in proportions|-5.8|||||TWO_SIDED|95.0|-11.8|0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||0.3|-11.8|
82586145|NCT05437510|164884199|SUPERIORITY||Efficacy|52.48||||0.0039|TWO_SIDED|95.0|20.121|72.36|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||72.360|20.121|0.0039
82487466|NCT02718300|164668503|SUPERIORITY|||||||0.4046|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.4046
82487467|NCT02718300|164668505|SUPERIORITY|||||||0.7802|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.7802
82558237|NCT02434328|164826308|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-7.9|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||4.5|-7.9|
82487468|NCT02718300|164668507|SUPERIORITY|||||||0.6856|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.6856
82487469|NCT02718300|164668509|SUPERIORITY|||||||0.3385|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.3385
82487470|NCT02718300|164668511|SUPERIORITY|||||||0.4005|||||||Van Elteren test|stratified by Easter Cooperative Oncology Group (ECOG) Performance Status at Screening (0 or 1 versus 2)||||||0.4005
82487471|NCT02718300|164668513|SUPERIORITY|||||||0.3138|||||||Van Elteren test|stratified by ECOG Performance Status at Screening (0 or 1 versus 2)||||||0.3138
82487472|NCT02718300|164668519|SUPERIORITY|||||||0.3577|||||||ANOVA|||Week 2||||0.3577
82487473|NCT02718300|164668519|SUPERIORITY||Geometric Mean Ratio (GMR)|1.048|||||TWO_SIDED|95.0|0.791|1.388|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.388|0.791|
82487474|NCT02718300|164668519|SUPERIORITY||GMR|1.159|||||TWO_SIDED|95.0|0.936|1.435|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.435|0.936|
82487475|NCT02718300|164668519|SUPERIORITY|||||||0.1709|||||||ANOVA|||Week 4||||0.1709
82487476|NCT02718300|164668519|SUPERIORITY||GMR|1.0|||||TWO_SIDED|95.0|0.78|1.281|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.281|0.780|
82487477|NCT02718300|164668519|SUPERIORITY||GMR|1.176|||||TWO_SIDED|95.0|0.955|1.448|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.448|0.955|
82487478|NCT02718300|164668520|SUPERIORITY|||||||0.6693|||||||Kruskal-Wallis|||Week 2||||0.6693
82487479|NCT02718300|164668520|SUPERIORITY|||||||0.1521|||||||Kruskal-Wallis|||Week 4||||0.1521
82487480|NCT02718300|164668521|SUPERIORITY|||||||0.0809|||||||ANOVA|||Week 2||||0.0809
82487481|NCT02718300|164668521|SUPERIORITY||GMR|0.583|||||TWO_SIDED|95.0|0.342|0.994|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||0.994|0.342|
82583339|NCT01370590|164877787|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Ezetimibe/atorvastatin 10 mg/20 mg combination tablet was considered equivalent to co-administration of ezetimibe 10 mg and atorvastatin 20 mg, if the two-sided 97.5% expanded confidence intervals of the treatment difference in least squares means for percent change in LDL-C from baseline after 6 weeks of treatment (combination minus co-administration) was contained within -4% and 4% (equivalence margins).|Difference in Least-square Means|-0.2|||||TWO_SIDED|97.5|-1.7|3.3|||ANCOVA|||It was anticipated that 85% of the enrolled participants would be evaluable to achieve 95% power in order to establish equivalence between the Ezetimibe/Atorvastatin Fixed Dose Combination and the co-administration of Ezetimibe and Atorvastatin with respect to percent change from baseline in LDL-C after 6 weeks of treatment using two one-sided tests each at 2.5% α-level, assuming the underlying true treatment difference is ±1.4% and that the standard deviation of the difference is 12.8%.||3.3|-1.7|
82583340|NCT01370590|164877788|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-square means|0.3|||||TWO_SIDED|97.5|-0.8|1.4|||ANCOVA|||||1.4|-0.8|
82583341|NCT01370590|164877789|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-squares mean|0.8|||||TWO_SIDED|97.5|-0.6|2.2|||ANCOVA|||||2.2|-0.6|
82583342|NCT01370590|164877790|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.0|||||TWO_SIDED|97.5|-1.3|1.4|||ANCOVA|||||1.4|-1.3|
82583343|NCT01370590|164877791|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|0.7|||||TWO_SIDED|97.5|-0.6|1.9|||ANCOVA|||||1.9|-0.6|
82583344|NCT01370590|164877792|SUPERIORITY_OR_OTHER_LEGACY||Difference in least-squares means|1.6|||||TWO_SIDED|97.5|-3.2|6.3|||Constrained Longitudinal Data Analysis|||Analyses were based on log-transformed data.||6.3|-3.2|
82651743|NCT01992107|165018447|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% confidence interval (CI) for the ratio of GMTs (GMT TIV2c/GMT QIVc) for HI antibody does not exceed the non-inferiority margin of 1.5|Ratios of GMT (Day 22/Day 50)|1.0|||||TWO_SIDED|95.0|0.87|1.14|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c, assessed in terms of ratios of GMT against influenza strain B2||1.14|0.87|
82651744|NCT01992107|165018448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|2.0|||||TWO_SIDED|95.0|-2.5|6.9|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain A/H1N1||6.9|-2.5|
82558238|NCT02434328|164826308|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.1|-8.8|
82558239|NCT02434328|164826309|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-7.6|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.8|-7.6|
82583345|NCT05172050|164877793|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Odds Ratio (OR)|9.99||||0.0109|TWO_SIDED|95.0|1.781||Upper limit is not estimable (NE) due to the low number of events||Regression, Logistic||||||1.781|0.0109
82583346|NCT05172050|164877793|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Odds Ratio (OR)|5.414||||0.0673|TWO_SIDED|95.0|0.858||The upper limit is not estimable (NE), due to the low number of events||Regression, Logistic||||||0.858|0.0673
82583347|NCT05172050|164877793|SUPERIORITY||Odds Ratio (OR)|12.186||||0.0061|TWO_SIDED|95.0|2.147||The upper limit was not estimable due to the low number of events|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm.|||2.147|0.0061
82583348|NCT05172050|164877793|SUPERIORITY||Odds Ratio (OR)|5.936||||0.0567|TWO_SIDED|95.0|0.938||The upper limit was not estimable due to the low number of events|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm|||0.938|0.0567
82583349|NCT05172050|164877794|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects|Odds Ratio (OR)|1.663||||0.7121|TWO_SIDED|95.0|0.337|9.053|||Regression, Logistic|||||9.053|0.337|0.7121
82583350|NCT05172050|164877794|SUPERIORITY|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects|Odds Ratio (OR)|0.963|||>|0.999|TWO_SIDED|95.0|0.185|4.977|||Regression, Logistic|||||4.977|0.185|>0.999
82583351|NCT05172050|164877794|SUPERIORITY||Odds Ratio (OR)|2.34||||0.5378|TWO_SIDED|95.0|0.35|20.153||Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm||20.153|0.350|0.5378
82583352|NCT05172050|164877794|SUPERIORITY||Odds Ratio (OR)|1.209|||>|0.999|TWO_SIDED|95.0|0.185|8.589||Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.|Regression, Logistic|||This sensitivity analysis is conducted on the per protocol (PP) population: n=18 in the Raloxifene 60 mg arm; n=17 in the Raloxifene 120 mg arm; and n=17 in the Placebo arm||8.589|0.185|>0.999
82583353|NCT05172050|164877795|SUPERIORITY||Odds Ratio (OR)|1.114|||>|0.999|TWO_SIDED|95.0|0.219|5.708|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 14||5.708|0.219|>0.999
82583354|NCT05172050|164877795|SUPERIORITY||Odds Ratio (OR)|3.202||||0.2553|TWO_SIDED|95.0|0.541|22.116|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||At day 14||22.116|0.541|0.2553
82651745|NCT01992107|165018448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|4.0|||||TWO_SIDED|95.0|-1.4|9.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain A/H3N2||9.2|-1.4|
82487482|NCT02718300|164668521|SUPERIORITY||GMR|0.986|||||TWO_SIDED|95.0|0.658|1.477|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.477|0.658|
82487483|NCT02718300|164668521|SUPERIORITY|||||||0.1525|||||||ANOVA|||Week 4||||0.1525
82487484|NCT02718300|164668521|SUPERIORITY||GMR|1.062|||||TWO_SIDED|95.0|0.604|1.867|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.867|0.604|
82487485|NCT02718300|164668521|SUPERIORITY||GMR|1.504|||||TWO_SIDED|95.0|0.937|2.414|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||2.414|0.937|
82487486|NCT02718300|164668522|SUPERIORITY|||||||0.2873|||||||ANOVA|||Week 2||||0.2873
82487487|NCT02718300|164668522|SUPERIORITY||GMR|1.016|||||TWO_SIDED|95.0|0.773|1.336|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.336|0.773|
82487488|NCT02718300|164668522|SUPERIORITY||GMR|1.161|||||TWO_SIDED|95.0|0.943|1.429|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 2||1.429|0.943|
82487489|NCT02718300|164668522|SUPERIORITY|||||||0.1601|||||||ANOVA|||Week 4||||0.1601
82487490|NCT02718300|164668522|SUPERIORITY||GMR|0.992|||||TWO_SIDED|95.0|0.773|1.274|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.274|0.773|
82487491|NCT02718300|164668522|SUPERIORITY||GMR|1.177|||||TWO_SIDED|95.0|0.955|1.452|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.452|0.955|
82487492|NCT02718300|164668526|SUPERIORITY|||||||0.083|||||||ANOVA|||Day 1||||0.0830
82487493|NCT02718300|164668526|SUPERIORITY||GMR|1.218|||||TWO_SIDED|95.0|0.846|1.753|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.753|0.846|
82487494|NCT02718300|164668526|SUPERIORITY||GMR|0.957|||||TWO_SIDED|95.0|0.654|1.399|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.399|0.654|
82487495|NCT02718300|164668526|SUPERIORITY||GMR|0.943|||||TWO_SIDED|95.0|0.656|1.354|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.354|0.656|
82487496|NCT02718300|164668526|SUPERIORITY||GMR|0.867|||||TWO_SIDED|95.0|0.579|1.298|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.298|0.579|
82487497|NCT02718300|164668526|SUPERIORITY|||||||0.2402|||||||ANOVA|||Week 4||||0.2402
82487498|NCT02718300|164668526|SUPERIORITY||GMR|0.702|||||TWO_SIDED|95.0|0.461|1.069|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.069|0.461|
82487499|NCT02718300|164668526|SUPERIORITY||GMR|0.7|||||TWO_SIDED|95.0|0.456|1.073|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.073|0.456|
82487500|NCT02718300|164668526|SUPERIORITY||GMR|0.638|||||TWO_SIDED|95.0|0.428|0.951|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||0.951|0.428|
82487501|NCT02718300|164668526|SUPERIORITY||GMR|0.627|||||TWO_SIDED|95.0|0.397|0.99|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||0.990|0.397|
82487502|NCT02718300|164668527|SUPERIORITY|||||||0.0756|||||||Kruskal-Wallis|||Day 1||||0.0756
82487503|NCT02718300|164668527|SUPERIORITY|||||||0.0866|||||||Kruskal-Wallis|||Week 4||||0.0866
82487504|NCT02718300|164668528|SUPERIORITY|||||||0.4287|||||||ANOVA|||Day 1||||0.4287
82487505|NCT02718300|164668528|SUPERIORITY||GMR|1.272|||||TWO_SIDED|95.0|0.329|4.914|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||4.914|0.329|
82487506|NCT02718300|164668528|SUPERIORITY||GMR|1.036|||||TWO_SIDED|95.0|0.252|4.251|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||4.251|0.252|
82487507|NCT02718300|164668528|SUPERIORITY||GMR|0.702|||||TWO_SIDED|95.0|0.18|2.731|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||2.731|0.180|
82487508|NCT02718300|164668528|SUPERIORITY||GMR|0.525|||||TWO_SIDED|95.0|0.118|2.348|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||2.348|0.118|
82487509|NCT02718300|164668528|SUPERIORITY|||||||0.9788|||||||ANOVA|||Week 4||||0.9788
82487510|NCT02718300|164668528|SUPERIORITY||GMR|0.879|||||TWO_SIDED|95.0|0.198|3.896|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||3.896|0.198|
82487511|NCT02718300|164668528|SUPERIORITY||GMR|1.225|||||TWO_SIDED|95.0|0.27|5.56|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||5.560|0.270|
82487512|NCT02718300|164668528|SUPERIORITY||GMR|0.918|||||TWO_SIDED|95.0|0.221|3.821|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||3.821|0.221|
82487513|NCT02718300|164668528|SUPERIORITY||GMR|0.853|||||TWO_SIDED|95.0|0.169|4.299|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||4.299|0.169|
82487514|NCT02718300|164668529|SUPERIORITY|||||||0.1208|||||||ANOVA|||Day 1||||0.1208
82487515|NCT02718300|164668529|SUPERIORITY||GMR|1.251|||||TWO_SIDED|95.0|0.832|1.879|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.879|0.832|
82487516|NCT02718300|164668529|SUPERIORITY||GMR|0.992|||||TWO_SIDED|95.0|0.649|1.518|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.518|0.649|
82487517|NCT02718300|164668529|SUPERIORITY||GMR|0.967|||||TWO_SIDED|95.0|0.645|1.45|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.450|0.645|
82487518|NCT02718300|164668529|SUPERIORITY||GMR|0.86|||||TWO_SIDED|95.0|0.548|1.35|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Day 1||1.350|0.548|
82487519|NCT02718300|164668529|SUPERIORITY|||||||0.3218|||||||ANOVA|||Week 4||||0.3218
82558240|NCT02434328|164826309|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-13.0|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||0.1|-13.0|
82558241|NCT02434328|164826309|OTHER||Difference in proportions|-3.8|||||TWO_SIDED|95.0|-10.1|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.4|-10.1|
82558242|NCT02434328|164826309|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-7.3|6.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.3|-7.3|
82558243|NCT02434328|164826309|OTHER||Difference in proportions|-4.6|||||TWO_SIDED|95.0|-11.2|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||2.2|-11.2|
82558244|NCT02434328|164826309|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-10.7|3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.0|-10.7|
82558245|NCT02434328|164826309|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-9.6|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||4.0|-9.6|
82558246|NCT02434328|164826309|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-9.4|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.5|-9.4|
82558247|NCT02434328|164826309|OTHER||Difference in proportions|-5.4|||||TWO_SIDED|95.0|-12.1|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.1|-12.1|
82558248|NCT02434328|164826309|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.9|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.5|-9.9|
82583355|NCT05172050|164877795|SUPERIORITY||Odds Ratio (OR)|2.16||||0.6189|TWO_SIDED|95.0|0.294|18.532|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 28||18.532|0.294|0.6189
82583356|NCT05172050|164877795|SUPERIORITY||Odds Ratio (OR)|7.22||||0.1662|TWO_SIDED|95.0|0.586|413.499|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects.||at Day 28||413.499|0.586|0.1662
82558249|NCT02434328|164826309|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-10.3|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||4.2|-10.3|
82583357|NCT05172050|164877796|SUPERIORITY||Odds Ratio (OR)|0.972|||>|0.999|TWO_SIDED|95.0|0.193|4.906|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 7||4.906|0.193|>0.999
82558250|NCT02434328|164826309|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-8.7|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||4.7|-8.7|
82558251|NCT02434328|164826309|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.0|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.7|-8.0|
82583358|NCT05172050|164877796|SUPERIORITY||Odds Ratio (OR)|1.156|||>|0.999|TWO_SIDED|95.0|0.2|6.822|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 7||6.822|0.200|>0.999
82583359|NCT05172050|164877796|SUPERIORITY||Odds Ratio (OR)|1.066|||>|0.999|TWO_SIDED|95.0|0.208|5.478|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 28||5.478|0.208|>0.999
82583360|NCT05172050|164877796|SUPERIORITY||Odds Ratio (OR)|2.068||||0.5465|TWO_SIDED|95.0|0.369|12.58|||Regression, Logistic|Analysis is based on Exact Binary logistic regression model with treatment group, age group and status as main effects||at Day 28||12.580|0.369|0.5465
82583361|NCT05172050|164877799|SUPERIORITY|||||||0.3899||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 7 R60 vs Placebo||||0.3899
82487520|NCT02718300|164668529|SUPERIORITY||GMR|0.761|||||TWO_SIDED|95.0|0.482|1.2|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.200|0.482|
82558252|NCT02434328|164826309|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-9.8|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.3|-9.8|
82583362|NCT05172050|164877799|SUPERIORITY|||||||0.4075||||||P-Value comparing % among treatment groups Raloxifene 120 mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 7 R120 vs placebo||||0.4075
82651746|NCT01992107|165018448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|0.0|||||TWO_SIDED|95.0|-5.5|4.5|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV1c in terms of differences in seroconversion rates against influenza strain B1||4.5|-5.5|
82651747|NCT01992107|165018448|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was established if the upper bound of the two-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV2c - % seroconversion QIVc) for HI antibody does not exceed the margin of 10%|Difference b/w SC rates (Day 22/Day 50)|-2.0|||||TWO_SIDED|95.0|-6.5|3.2|||ANCOVA|||Non-inferiority of immune responses of QIVc to TIV2c in terms of differences in seroconversion rates against influenza strain B2||3.2|-6.5|
82487521|NCT02718300|164668529|SUPERIORITY||GMR|0.803|||||TWO_SIDED|95.0|0.506|1.277|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.277|0.506|
82487522|NCT02718300|164668529|SUPERIORITY||GMR|0.667|||||TWO_SIDED|95.0|0.432|1.028|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.028|0.432|
82558253|NCT02434328|164826309|OTHER|Hypothesis testing not pre-specified.|Difference in proportions|-2.8|||||TWO_SIDED|95.0|-9.6|4.2|||Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-9.6|
82558254|NCT02434328|164826309|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.8|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-8.8|
82558255|NCT02434328|164826309|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.4|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||5.0|-8.4|
82558256|NCT02434328|164826309|OTHER||Difference in proportions|-3.6|||||TWO_SIDED|95.0|-10.4|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||2.9|-10.4|
82558257|NCT02434328|164826309|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-6.5|7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||7.2|-6.5|
82558258|NCT02434328|164826309|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-7.5|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.1|-7.5|
82558259|NCT02434328|164826309|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||3.1|-10.4|
82558260|NCT02434328|164826309|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-9.6|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.9|-9.6|
82558261|NCT02434328|164826309|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-5.0|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.3|-5.0|
82487523|NCT02718300|164668529|SUPERIORITY||GMR|0.64|||||TWO_SIDED|95.0|0.39|1.051|||||ANOVA was performed on dose-normalized PK parameters per dose level. The reference group was 5 mg QD.|Week 4||1.051|0.390|
82487524|NCT02452697|164668533|SUPERIORITY|||||||0.4|||||||Log Rank|||||||0.40
82558262|NCT02434328|164826309|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-7.0|6.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||6.8|-7.0|
82558263|NCT02434328|164826310|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-10.4|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.6|-10.4|
82583363|NCT05172050|164877799|SUPERIORITY|||||||0.3899||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 14 R60 vs placebo||||0.3899
82583364|NCT05172050|164877799|SUPERIORITY|||||||0.4075|||||||Fisher Exact|P-Value comparing % among treatment groups Raloxifene 120mg versus Placebo using Fisher's Exact test.||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 14 R120 vs placebo||||0.4075
82583365|NCT05172050|164877799|SUPERIORITY|||||||0.6846||||||P-Value comparing % among treatment groups Raloxifene 60mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 28 R60 vs placebo||||0.6846
82583366|NCT05172050|164877799|SUPERIORITY|||||||0.6614||||||P-Value comparing % among treatment groups Raloxifene 120mg versus Placebo using Fisher's Exact test.|Fisher Exact|||The proportion of hospitalized participants who at the beginning of the study were at domicile isolation at Day 7, Day 14 and Day 28 after randomization was analysed using comparison of proportions (i.e. comparisons of each active treatment group versus placebo at each assessment day) through Fisher's exact test and was summarized using frequency and percent by treatment and visit. Herein Day 28 R120 vs placebo||||0.6614
82583367|NCT05172050|164877801|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|1.0|1.0|||Log Rank|||||1.00|1.00|
82583368|NCT05172050|164877801|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|1.0|1.0||p value= not estimable|Log Rank|||||1.00|1.00|
82583369|NCT05180500|164877804|OTHER|||||||0.7|||||||Fisher Exact|||||||.70
82583370|NCT05180500|164877805|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
82558264|NCT02434328|164826310|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-10.2|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.7|-10.2|
82651748|NCT01992107|165018454|SUPERIORITY_OR_OTHER||Ratios of GMT (Day 22/Day 50)|0.25|||||TWO_SIDED|95.0|0.22|0.29||||||Superiority of immune responses of QIVc to TIV1c in terms of ratios of GMT against influenza strain B2.The upper bound of the two-sided 95% CI for the ratio of GMTs (GMT TIV1c/GMTQIVc) for HI antibody should not exceed the superiority margin of 1 met.||0.29|0.22|
82651749|NCT01992107|165018455|SUPERIORITY_OR_OTHER||Difference b/w SC rates(Day 22/Day 50)|-47.0|||||TWO_SIDED|95.0|-51.1|-42.1||||||Superiority of immune responses of QIVc to TIV1c in terms of seroconversion rates against influenza strain B2.The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points met.||-42.1|-51.1|
82558265|NCT02434328|164826310|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-10.7|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.3|-10.7|
82583371|NCT05180500|164877808|OTHER|||||||0.28|||||||Fisher Exact|||||||0.28
82583372|NCT05180500|164877809|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
82583373|NCT05180500|164877810|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
82583374|NCT05180500|164877811|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
82583375|NCT05180500|164877812|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Concentrations that were below the lower limit of quantification (\<15 ng/mL) were set to 7.5 ng/mL for analyses.||||<.001
82583376|NCT05180500|164877813|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82583377|NCT03992846|164877814|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 1.10 or greater from baseline pain for Dysmenorrhea (DYS).|Odds Ratio (OR)|2.56|||<|0.001|TWO_SIDED|97.5|1.46|4.49|||Bonferroni-corrected p-value|||||4.49|1.46|<0.001
82583378|NCT03992846|164877814|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 1.10 or greater from baseline pain for Dysmenorrhea (DYS).|Odds Ratio (OR)|8.8|||<|0.001|TWO_SIDED|97.5|4.86|15.91|||Bonferroni-corrected p-value|||||15.91|4.86|<0.001
82583379|NCT03992846|164877815|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 0.80 or greater from baseline pain for Non-Menstrual Pelvic Pain (NMPP).|Odds Ratio (OR)|1.43||||0.279|TWO_SIDED|97.5|0.83|2.45|||Bonferroni-corrected p-value|||||2.45|0.83|0.279
82583380|NCT03992846|164877815|OTHER|The criterion for defining a subject as a responder over the last 28 days of randomized treatment up to Month 3 was a reduction of 0.80 or greater from baseline pain for Non-Menstrual Pelvic Pain (NMPP).|Odds Ratio (OR)|2.01||||0.007|TWO_SIDED|97.5|1.18|3.42|||Bonferroni-corrected p-value|||||3.42|1.18|0.007
82583381|NCT04101318|164877828|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.625|TWO_SIDED|95.0|-0.38|0.62||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.62|-0.38|0.625
82558266|NCT02434328|164826310|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-8.4|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||5.7|-8.4|
82558267|NCT02434328|164826310|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-12.3|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||1.5|-12.3|
82558268|NCT02434328|164826310|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-9.9|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.7|-9.9|
82558269|NCT02434328|164826310|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-12.8|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||0.7|-12.8|
82558270|NCT02434328|164826310|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-8.2|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.8|-8.2|
82558271|NCT02434328|164826310|OTHER||Difference in proportions|-2.3|||||TWO_SIDED|95.0|-9.2|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.2|-9.2|
82558272|NCT02434328|164826310|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-8.2|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-8.2|
82558273|NCT02434328|164826310|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-8.5|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.0|-8.5|
82558274|NCT02434328|164826310|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-7.4|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.2|-7.4|
82558275|NCT02434328|164826310|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.8|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.0|-9.8|
82558276|NCT02434328|164826310|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-8.6|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.8|-8.6|
82558277|NCT02434328|164826310|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-7.8|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||6.1|-7.8|
82558278|NCT02434328|164826310|OTHER||Difference in proportions|2.3|||||TWO_SIDED|95.0|-4.5|9.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||9.2|-4.5|
82558279|NCT02434328|164826310|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-8.6|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||4.9|-8.6|
82558280|NCT02434328|164826310|OTHER||Difference in proportions|1.1|||||TWO_SIDED|95.0|-5.8|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||7.5|-5.8|
82558281|NCT02434328|164826310|OTHER||Difference in proportions|2.0|||||TWO_SIDED|95.0|-5.1|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||8.4|-5.1|
82558282|NCT02434328|164826310|OTHER||Difference in proportions|4.2|||||TWO_SIDED|95.0|-2.8|10.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||10.9|-2.8|
82558283|NCT02434328|164826310|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-9.3|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.1|-9.3|
82651750|NCT01992107|165018456|SUPERIORITY_OR_OTHER||Ratios of GMT (Day 22/Day 50)|0.38|||||TWO_SIDED|95.0|0.35|0.42||||||Superiority of immune responses of QIVc to TIV2c in terms of ratios of GMT against influenza strain B1.The upper bound of the 2-sided 95% CI for the ratio of GMTs (GMT TIV2c /GMTQIVc) for HI antibody should not exceed the superiority margin of 1 met.||0.42|0.35|
82558284|NCT02434328|164826310|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-6.1|7.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||7.7|-6.1|
82558285|NCT02434328|164826310|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-3.0|10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||10.4|-3.0|
82558286|NCT02434328|164826310|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-3.9|10.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||10.0|-3.9|
82558287|NCT02434328|164826311|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.6|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.4|-1.6|
82558288|NCT02434328|164826311|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-2.3|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.1|-2.3|
82558289|NCT02434328|164826311|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-1.9|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2 mg) was estimated using a bootstrap method.|Week 12||2.2|-1.9|
82558290|NCT02434328|164826311|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.1|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||2.3|-2.1|
82583382|NCT04101318|164877829|SUPERIORITY||Odds Ratio (OR)|1.737||||0.036|TWO_SIDED|95.0|1.038|2.908||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for itching evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.908|1.038|0.036
82558291|NCT02434328|164826311|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||3.3|-2.0|
82558292|NCT02434328|164826311|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.0|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||2.2|-3.0|
82558293|NCT02434328|164826311|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.0|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.3|-3.0|
82558294|NCT02434328|164826311|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-3.2|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.5|-3.2|
82558295|NCT02434328|164826311|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-2.3|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||3.3|-2.3|
82558296|NCT02434328|164826311|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-1.7|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.6|-1.7|
82558297|NCT02434328|164826311|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-2.7|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||3.4|-2.7|
82558298|NCT02434328|164826311|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-3.9|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.2|-3.9|
82558299|NCT02434328|164826311|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-4.3|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||2.3|-4.3|
82558300|NCT02434328|164826311|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.8|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.9|-2.8|
82558301|NCT02434328|164826311|OTHER||Difference in proportions|0.6|||||TWO_SIDED|95.0|-2.5|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.2|-2.5|
82558302|NCT02434328|164826311|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-2.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||4.5|-2.7|
82558303|NCT02434328|164826311|OTHER||Difference in proportions|-0.9|||||TWO_SIDED|95.0|-4.2|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||2.6|-4.2|
82558304|NCT02434328|164826311|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.5|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.5|-2.5|
82558305|NCT02434328|164826311|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-2.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.4|-2.5|
82651751|NCT01992107|165018457|SUPERIORITY_OR_OTHER||Difference b/w SC rates(Day 22/Day 50)|-34.0|||||TWO_SIDED|95.0|-38.8|-29.3||||||Superiority of immune responses of QIVc to TIV2c in terms of seroconversion rates against influenza strain B1.The upper bound of the 2-sided 95% CI for the difference between seroconversion rates (% seroconversion TIV1c or TIV2c - %seroconversion QIVc) for HI antibody should not exceed the margin of 0 points met.||-29.3|-38.8|
82558306|NCT02434328|164826311|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.4|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||4.6|-2.4|
82558307|NCT02434328|164826311|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-3.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.1|-3.1|
82558308|NCT02434328|164826311|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-3.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-3.5|
82558309|NCT02434328|164826311|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.8|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.3|-3.8|
82558310|NCT02434328|164826311|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-3.8|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||3.3|-3.8|
82558311|NCT02434328|164826312|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-2.6|1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.6|-2.6|
82558312|NCT02434328|164826312|OTHER||Difference in proportions|0.0|||||TWO_SIDED|95.0|-2.2|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.1|-2.2|
82558313|NCT02434328|164826312|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-2.8|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-2.8|
82558314|NCT02434328|164826312|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-4.4|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||1.7|-4.4|
82651752|NCT02022007|165018460|SUPERIORITY_OR_OTHER|||||||0.007|||||||McNemar|||Study change from dysglycemia to normal glucose state||||.007
82651753|NCT02022007|165018461|SUPERIORITY_OR_OTHER|||||||0.02|||||||ANOVA|||This was a Subjects (SS)/Groups repeated measures design||||.02
82651754|NCT02022007|165018462|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|n||Pretreatment fasting glucose levels were compared with post-treatment levels||||<0.0001
82651755|NCT02022007|165018463|SUPERIORITY_OR_OTHER|||||||0.038|||||||ANOVA|||||||.038
82558315|NCT02434328|164826312|OTHER||Difference in proportions|1.4|||||TWO_SIDED|95.0|-1.7|4.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.9|-1.7|
82558316|NCT02434328|164826312|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-3.9|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||2.8|-3.9|
82558317|NCT02434328|164826312|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.2|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||3.8|-3.2|
82558318|NCT02434328|164826312|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-3.8|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||3.5|-3.8|
82558319|NCT02434328|164826312|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-3.0|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||4.2|-3.0|
82558320|NCT02434328|164826312|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.4|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.1|-2.4|
82558321|NCT02434328|164826312|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-1.1|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||6.5|-1.1|
82558322|NCT02434328|164826312|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-4.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.3|-4.0|
82558323|NCT02434328|164826312|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-2.8|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.7|-2.8|
82558324|NCT02434328|164826312|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.8|5.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||5.5|-2.8|
82558325|NCT02434328|164826312|OTHER||Difference of proportions|1.0|||||TWO_SIDED|95.0|-2.6|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||4.7|-2.6|
82558326|NCT02434328|164826312|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.0|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||4.3|-4.0|
82558327|NCT02434328|164826312|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.2|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||3.6|-4.2|
82558328|NCT02434328|164826312|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.0|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||3.7|-4.0|
82558329|NCT02434328|164826312|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-3.5|4.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.7|-3.5|
82583383|NCT04101318|164877830|SUPERIORITY||Mean Difference (Final Values)|-0.35||||0.202|TWO_SIDED|95.0|-0.9|0.2||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|The mode had following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.20|-0.90|0.202
82651756|NCT02022007|165018464|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|||||||0.003
82651757|NCT02022007|165018465|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANOVA|||||||.025
82651758|NCT02022007|165018466|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||0.006
82651759|NCT02022007|165018467|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
82651760|NCT02022007|165018468|SUPERIORITY_OR_OTHER|||||||0.026|||||||ANOVA|||||||.026
82487525|NCT05595382|164668540|SUPERIORITY|Repeated measures of likelihood to enroll (on a 1 to 7 scale with higher numbers indicating a greater likelihood) pre/post intervention||||||0.001|||||||ANOVA|Degrees of freedom (1, 359)||||||.001
82583384|NCT04101318|164877831|SUPERIORITY||Odds Ratio (OR)|1.369||||0.267|TWO_SIDED|95.0|0.781|2.401||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for pain evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.401|0.781|0.267
82487526|NCT05595382|164668541|SUPERIORITY|||||||0.357|||||||ANOVA|Degrees of freedom (1, 358)||Repeated measures ANOVA comparing mood (rated on a 1-10 scale with higher scores indicating better mood) given to participants before and after the study manipulation by group||||.357
82487527|NCT05595382|164668542|SUPERIORITY|||||||0.102|||||||ANOVA|||||||.102
82487528|NCT06624449|164668565|SUPERIORITY||Mean Difference (Final Values)|0.09|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.05
82487529|NCT00257608|164668567|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.708||||0.0006|TWO_SIDED|95.0|0.58|0.864|||Log Rank|||||0.864|0.580|0.0006
82487530|NCT00257608|164668573|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.917||||0.5341|TWO_SIDED|95.0|0.698|1.205|||Log Rank|||||1.205|0.698|0.5341
82487531|NCT00866788|164668574|SUPERIORITY_OR_OTHER|||||||0.1601||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1601
82487532|NCT00866788|164668574|SUPERIORITY_OR_OTHER|||||||0.0003||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0003
82487533|NCT00866788|164668574|SUPERIORITY_OR_OTHER|||||||0.0473||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0473
82487534|NCT00866788|164668575|SUPERIORITY_OR_OTHER|||||||0.164||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1640
82487535|NCT00866788|164668575|SUPERIORITY_OR_OTHER|||||||0.0005||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0005
82487536|NCT00866788|164668575|SUPERIORITY_OR_OTHER|||||||0.0558||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0558
82487537|NCT00866788|164668576|SUPERIORITY_OR_OTHER|||||||0.1411||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1411
82487538|NCT00866788|164668576|SUPERIORITY_OR_OTHER|||||||0.0003||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0003
82583385|NCT04101318|164877832|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.545|TWO_SIDED|95.0|-0.57|0.3||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.30|-0.57|0.545
82487539|NCT00866788|164668576|SUPERIORITY_OR_OTHER|||||||0.0248||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0248
82651761|NCT02022007|165018469|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
82651762|NCT02022007|165018470|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||||||.006
82651763|NCT02022007|165018471|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
82487540|NCT00866788|164668577|SUPERIORITY_OR_OTHER|||||||0.5507||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.5507
82487541|NCT00866788|164668577|SUPERIORITY_OR_OTHER|||||||0.1525||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.1525
82487542|NCT00866788|164668577|SUPERIORITY_OR_OTHER|||||||0.0449||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.0449
82487543|NCT00866788|164668578|SUPERIORITY_OR_OTHER|||||||0.7261||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.7261
82487544|NCT00866788|164668578|SUPERIORITY_OR_OTHER|||||||0.162||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.162
82487545|NCT00866788|164668578|SUPERIORITY_OR_OTHER|||||||0.6504||||||The p-value was based on the van Elteren test (stratified by baseline weight ≥ 80 or \< 80 kg).|van Elteren test|||||||0.6504
82487546|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82487547|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82487548|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82487549|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82487550|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82487551|NCT01854658|164668590|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82487552|NCT01973569|164668677|SUPERIORITY|||||||0.0235||||||The hierarchical testing procedure was applied for multiple comparisons of the primary endpoint. First, comparison between AMG 162 60mg Q3M vs placebo is tested. Only if it is rejected, comparison of AMG 162 60mg Q6M vs placebo is formally tested.|van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0235
82487553|NCT01973569|164668678|SUPERIORITY|||||||0.036|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0360
82487554|NCT01973569|164668679|SUPERIORITY|||||||0.1323|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.1323
82487555|NCT01973569|164668680|SUPERIORITY|||||||0.0448|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0448
82487556|NCT01973569|164668681|SUPERIORITY|||||||0.0104|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.0104
82558330|NCT02434328|164826312|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-4.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.4|-4.5|
82583386|NCT04101318|164877833|SUPERIORITY||Odds Ratio (OR)|1.316||||0.293|TWO_SIDED|95.0|0.783|2.211||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Proportional odds ratio model|Ordinal regression model for burning evaluated on a 5 point scale. Product and period are fixed effects and subject is a random effect.|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||2.211|0.783|0.293
82558331|NCT02434328|164826312|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-3.6|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.5|-3.6|
82558332|NCT02434328|164826312|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-4.5|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-4.5|
82558333|NCT02434328|164826312|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-5.7|2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||2.6|-5.7|
82558334|NCT02434328|164826312|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-4.9|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||3.2|-4.9|
82558335|NCT02434328|164826313|OTHER||Difference in proportions|-0.2|||||TWO_SIDED|95.0|-3.5|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||3.5|-3.5|
82583387|NCT04101318|164877834|SUPERIORITY||Odds Ratio (OR)|0.82||||0.375|TWO_SIDED|95.0|0.53|1.27||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects|Odds ratio, marginal= Arm1/Arm2|There is no difference between the two arms.||1.27|0.53|0.375
82583388|NCT04101318|164877835|SUPERIORITY||Odds Ratio (OR)|0.83||||0.482|TWO_SIDED|95.0|0.49|1.4||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects|Odds ratio, marginal= Arm1/Arm2|Null hypothesis: There is no difference between the two arms.||1.40|0.49|0.482
82583389|NCT04101318|164877836|SUPERIORITY||Odds Ratio (OR)|0.7||||0.151|TWO_SIDED|95.0|0.43|1.14||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|generalized linear mixed repeated model with fixed effects||Null hypothesis: There is no difference between the two arms.|Odds ratio, marginal= Arm1/Arm2|1.14|0.43|0.151
82558336|NCT02434328|164826313|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-4.4|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.4|-4.4|
82558337|NCT02434328|164826313|OTHER||Difference in proportions|-1.0|||||TWO_SIDED|95.0|-5.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.1|-5.0|
82558338|NCT02434328|164826313|OTHER||Difference in proportions|1.9|||||TWO_SIDED|95.0|-1.9|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.2|-1.9|
82558339|NCT02434328|164826313|OTHER||Difference in proportions|3.7|||||TWO_SIDED|95.0|-0.4|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||7.8|-0.4|
82558340|NCT02434328|164826313|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-1.3|7.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Number of subjects with \>=5 letter loss from baseline in BCVA (letters read) at each post-baseline visit - Week 24||7.8|-1.3|
82558341|NCT02434328|164826313|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.7|7.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||7.3|-1.7|
82558342|NCT02434328|164826313|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.2|5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||5.9|-3.2|
82651764|NCT00617461|165018509|SUPERIORITY_OR_OTHER||Adjusted mean difference versus placebo|-0.29||||0.013|TWO_SIDED|90.0|-0.48|-0.1|||ANCOVA|An ANCOVA (repeated measures mixed model) with body mass index, baseline 24-hr average pain intensity, and grouped center as covariates was used.||||-0.10|-0.48|0.013
82487557|NCT01973569|164668682|SUPERIORITY|||||||0.257|||||||van Elteren stratified rank test|van Elteren stratified rank test adjusting for baseline use of glucocorticoid was used.||||||0.2570
82487558|NCT01973569|164668683|SUPERIORITY||Mean Difference (Net)|5.02|||<|0.0001|TWO_SIDED|95.0|4.41|5.63|||Regression, Cox|ANCOVA model adjusting for treatment, baseline (BL) value, machine type, BL value-by-machine type interaction, and BL use of glucocorticoid was used.||||5.63|4.41|<0.0001
82487559|NCT03793556|164668684|OTHER||Mean Difference (Final Values)|-2.5|STANDARD_DEVIATION|9.27||0.276|TWO_SIDED|95.0|-7.03|2.04|||Unpaired t test|||||2.04|-7.03|0.276
82487560|NCT03793556|164668685|OTHER|||||||0.0157|||||||ANOVA|The ANOVA model examined the entire curve profile.||||||0.0157
82487561|NCT03793556|164668695|OTHER|||||||0.0496|||||||Chi-squared|||||||0.0496
82487562|NCT03793556|164668697|OTHER|||||||0.0065|||||||ANOVA|||||||0.0065
82487563|NCT00739999|164668724|SUPERIORITY_OR_OTHER_LEGACY||Atorvastatin CL/F based on 70 kg BW|699.0|||||TWO_SIDED|95.0|570.0|881.0|||non-linear mixed-effects model|Measures of parameter estimation uncertainty (95% CI) were determined by non-parametric bootstrap analysis.||Atorvastatin apparent clearance (CL/F) was described as a function of body weight using an allometric equation. The estimated parameter given is an extrapolation of the model for participants who weigh 70 kg.||881|570|
82583390|NCT04101318|164877837|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.725|TWO_SIDED|95.0|-0.39|0.56||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.56|-0.39|0.725
82487564|NCT01461980|164668742|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.86|1.03||||||Diphtheria: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Diphtheria antigens).||1.03|0.86|
82487565|NCT01461980|164668742|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.85|0.99||||||Tetanus: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Tetanus antigens).||0.99|0.85|
82487566|NCT01461980|164668743|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.85|1.02||||||Pertussis toxoid: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Pertussis toxoid).||1.02|0.85|
82487567|NCT01461980|164668743|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.84|0.98||||||Pertussis filamentous hemagglutinin: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis filamentous hemagglutinin antigens).||0.98|0.84|
82487568|NCT01461980|164668743|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.8|0.98||||||Pertussis pertactin: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis pertactin antigens).||0.98|0.80|
82558343|NCT02434328|164826313|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-0.7|8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||8.3|-0.7|
82558344|NCT02434328|164826313|OTHER||Difference in proportions|1.0|||||TWO_SIDED|95.0|-3.8|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||5.6|-3.8|
82558345|NCT02434328|164826313|OTHER||Difference in proportions|2.9|||||TWO_SIDED|95.0|-1.4|7.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||7.0|-1.4|
82558346|NCT02434328|164826313|OTHER||Difference in proportions|-0.7|||||TWO_SIDED|95.0|-5.1|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||3.7|-5.1|
82558347|NCT02434328|164826313|OTHER||Difference in proportions|2.1|||||TWO_SIDED|95.0|-2.5|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||6.7|-2.5|
82583391|NCT04101318|164877838|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.721|TWO_SIDED|95.0|-0.39|0.56||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.56|-0.39|0.721
82558348|NCT02434328|164826313|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||6.4|-2.8|
82558349|NCT02434328|164826313|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-3.6|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||5.8|-3.6|
82583392|NCT04101318|164877839|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.753|TWO_SIDED|95.0|-0.38|0.28||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.28|-0.38|0.753
82583393|NCT04101318|164877840|SUPERIORITY||Mean Difference (Final Values)|1.37||||0.331|TWO_SIDED|95.0|-1.43|4.18||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||4.18|-1.43|0.331
82583394|NCT04101318|164877841|SUPERIORITY||Mean Difference (Final Values)|11.68||||0.239|TWO_SIDED|95.0|-7.98|31.34||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject and the interaction between product and subject were random effects.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||31.34|-7.98|0.239
82583395|NCT04101318|164877842|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.322|TWO_SIDED|95.0|-0.91|0.31||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.31|-0.91|0.322
82583396|NCT04101318|164877843|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.343|TWO_SIDED|95.0|-0.44|0.15||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.15|-0.44|0.343
82583397|NCT04101318|164877844|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.387|TWO_SIDED|95.0|-0.53|0.21||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.21|-0.53|0.387
82583398|NCT04101318|164877845|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.899|TWO_SIDED|95.0|-0.18|0.16||The threshold for statistical significance was p=0.05. Furthermore, p-value was not adjusted for multiple comparisons|Mixed Models Analysis|Model was with the following fixed effects: product and period. Subject was a random effect.|Difference between Arm 1 and Arm 2= Mean (Arm 1) - Mean (Arm 2)|Null hypothesis: There is no difference between the two arms.||0.16|-0.18|0.899
82583399|NCT01375114|164877858|OTHER|||||||0.67|||||||Chi-squared|||||||0.67
82583400|NCT01375114|164877859|OTHER|||||||0.71|||||||Chi-squared|||||||0.71
82583401|NCT01375114|164877860|OTHER|||||||0.34|||||||Chi-squared|||||||0.34
82583402|NCT01375114|164877861|OTHER|||||||0.36|||||||Chi-squared|||||||0.36
82583403|NCT01375114|164877862|OTHER|||||||0.56|||||||Chi-squared|||||||0.56
82558350|NCT02434328|164826313|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.0|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||5.4|-4.0|
82558351|NCT02434328|164826313|OTHER||Difference in proportions|1.8|||||TWO_SIDED|95.0|-2.8|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.4|-2.8|
82583404|NCT01415531|164877901|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.3|||<|0.0001|TWO_SIDED|95.0|-7.7|-4.8|||ANCOVA|||||-4.8|-7.7|<0.0001
82583405|NCT02319525|164877903|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 2 sided|||||||0.005
82583406|NCT02319525|164877904|SUPERIORITY_OR_OTHER|||||||0.08||||||We compared informed choice vs. no informed choice made between the decision aid and the pamphlet groups.|Chi-squared|||||||0.08
82583407|NCT02319525|164877905|SUPERIORITY_OR_OTHER|||||||0.252|||||||Chi-squared|||We compared concordance between preferred and actual roles vs. no concordance between roles between decision aid and pamphlet.||||0.252
82583408|NCT02319525|164877906|SUPERIORITY_OR_OTHER|||||||0.504|||||||t-test, 2 sided|||||||0.504
82583409|NCT02319525|164877907|SUPERIORITY_OR_OTHER|||||||0.06|||||||t-test, 2 sided|||||||0.06
82583410|NCT02319525|164877908|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the Impact of lupus nephritis"||||0.006
82583411|NCT02319525|164877908|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the Risk factors"||||0.006
82583412|NCT02319525|164877908|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the medication options"||||0.003
82558352|NCT02434328|164826313|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.3|5.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||5.7|-4.3|
82558353|NCT02434328|164826313|OTHER||Difference in proportions|0.7|||||TWO_SIDED|95.0|-4.4|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.8|-4.4|
82558354|NCT02434328|164826313|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-6.0|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||3.6|-6.0|
82558355|NCT02434328|164826313|OTHER||Difference in proportions|-0.4|||||TWO_SIDED|95.0|-5.2|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.5|-5.2|
82558356|NCT02434328|164826313|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.7|3.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.6|-5.7|
82558357|NCT02434328|164826313|OTHER||Difference in proportions|-1.5|||||TWO_SIDED|95.0|-6.5|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.4|-6.5|
82558358|NCT02434328|164826313|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-5.1|4.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.8|-5.1|
82558359|NCT02434328|164826314|OTHER||Difference in proportions|-4.0|||||TWO_SIDED|95.0|-9.2|1.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.6|-9.2|
82558360|NCT02434328|164826314|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-8.1|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||3.7|-8.1|
82558361|NCT02434328|164826314|OTHER||Difference in proportions|-2.5|||||TWO_SIDED|95.0|-8.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.5|-8.4|
82558362|NCT02434328|164826314|OTHER||Difference in proportions|0.3|||||TWO_SIDED|95.0|-5.4|6.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||6.7|-5.4|
82558363|NCT02434328|164826314|OTHER||Difference in proportions|-2.2|||||TWO_SIDED|95.0|-8.2|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||4.0|-8.2|
82558364|NCT02434328|164826314|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.0|3.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||3.3|-9.0|
82558365|NCT02434328|164826314|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-9.3|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.5|-9.3|
82558366|NCT02434328|164826314|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.6|2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||2.8|-9.6|
82558367|NCT02434328|164826314|OTHER||Difference in proportions|-3.7|||||TWO_SIDED|95.0|-9.6|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||2.2|-9.6|
82558368|NCT02434328|164826314|OTHER||Difference in proportions|-1.7|||||TWO_SIDED|95.0|-7.6|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||4.2|-7.6|
82558369|NCT02434328|164826314|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.5|5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.0|-7.5|
82487569|NCT01461980|164668743|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMC ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMC ratios after vaccination 1 was greater than 0.67.|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.08||||||Pertussis fimbriae agglutinogens types 2 + 3: CIs for GMC ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for pertussis fimbriae agglutinogens types 2 + 3 antigens).||1.08|0.74|
82487570|NCT01461980|164668744|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67|GMT Ratio|0.91|||||TWO_SIDED|95.0|0.82|1.01||||||Serogroup A: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup A antigens).||1.01|0.82|
82558370|NCT02434328|164826314|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-5.4|6.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||6.1|-5.4|
82558371|NCT02434328|164826314|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-7.7|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||4.5|-7.7|
82558372|NCT02434328|164826314|OTHER||Difference in proportions|-1.9|||||TWO_SIDED|95.0|-7.7|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||4.0|-7.7|
82583413|NCT02319525|164877908|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the evidence about medications"||||<0.001
82583414|NCT02319525|164877908|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||"statistical analysis comparing the decision-aid vs. pamphlet for patient rating of acceptability of information and presentation related to the study about other patients"||||<0.001
82583415|NCT02319525|164877909|SUPERIORITY_OR_OTHER|||||||0.006|||||||Chi-squared|||The test of significance compared all the rows, i.e., all response options for the statement.||||0.006
82651765|NCT00358826|165018527|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82487571|NCT01461980|164668744|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.9|1.15||||||Serogroup C: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup C antigens).||1.15|0.90|
82487572|NCT01461980|164668744|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.99|||||TWO_SIDED|95.0|0.89|1.09||||||Serogroup Y: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup Y antigens).||1.09|0.89|
82558373|NCT02434328|164826314|OTHER||Difference in proportions|-4.7|||||TWO_SIDED|95.0|-10.8|1.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||1.4|-10.8|
82558374|NCT02434328|164826314|OTHER||Difference in proportions|-2.8|||||TWO_SIDED|95.0|-8.9|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||3.2|-8.9|
82558375|NCT02434328|164826314|OTHER||Difference in proportions|-3.1|||||TWO_SIDED|95.0|-9.5|2.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||2.9|-9.5|
82583416|NCT01200589|164877910|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.89|1.49||||||||1.49|0.89|
82583417|NCT00825825|164877931|SUPERIORITY_OR_OTHER|||||||0.000704||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.000704
82651766|NCT00358826|165018527|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82583418|NCT00825825|164877932|SUPERIORITY_OR_OTHER|||||||1.62e-05||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.0000162
82583419|NCT00825825|164877933|SUPERIORITY_OR_OTHER|||||||9.36e-06||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the citalopram and placebo medication periods.||||0.00000936
82583420|NCT00825825|164877934|SUPERIORITY_OR_OTHER|||||||0.0279||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the citalopram and placebo medication periods.||||0.0279
82583421|NCT00825825|164877935|SUPERIORITY_OR_OTHER|||||||0.00124||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and placebo medication periods.||||0.00124
82583422|NCT00825825|164877936|SUPERIORITY_OR_OTHER|||||||6.33e-05||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the placebo and citalopram medication periods.||||0.0000633
82583423|NCT00825825|164877937|SUPERIORITY_OR_OTHER|||||||0.0241||95.0|||||Mixed Models Analysis|||This analysis is a comparison between the escitalopram and citalopram medication periods.||||0.0241
82487573|NCT01461980|164668744|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.83|1.04||||||Serogroup W-135: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for Serogroup W-135 antigens).||1.04|0.83|
82558376|NCT02434328|164826314|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-7.9|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.5|-7.9|
82558377|NCT02434328|164826314|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-8.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.1|-8.1|
82558378|NCT02434328|164826314|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-5.6|6.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||6.6|-5.6|
82558379|NCT02434328|164826314|OTHER||Difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.3|3.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||3.8|-8.3|
82583424|NCT01043393|164877962|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.779|||||TWO_SIDED|95.0|0.055|11.126||||||||11.126|0.055|
82583425|NCT02673515|164878000|OTHER|||||||0.797|||||||t-test, 2 sided|||Comparison of changes from baseline to 4 weeks between groups was tested with student´s t-test or Mann Whitney-U-Test||||0.797
82487574|NCT01461980|164668745|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.92|||||TWO_SIDED|95.0|0.84|1.02||||||PMB80 \[A22\]: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for hSBA strain titers).||1.02|0.84|
82487575|NCT01461980|164668745|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority criteria margin was 1.5-fold and statistical inference was based on the CIs of the GMT ratios. Non-inferiority was achieved when the lower limit of the 2-sided 95% CI for the GMT ratios after vaccination 1 was greater than 0.67.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.82|1.0||||||PMB2948 \[B24\]: CIs for GMT ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures (Group 1 - Group 2 for hSBA strain titers).||1.00|0.82|
82487576|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.28|-0.57|||ANCOVA|||Analysis was based on analysis of co-variance (ANCOVA) model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.28|<0.001
82487577|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
82487578|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|-0.94|-0.23|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.94|0.001
82558380|NCT02434328|164826314|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-7.4|4.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||4.5|-7.4|
82558381|NCT02434328|164826314|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-6.5|5.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||5.8|-6.5|
82558382|NCT02434328|164826314|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-8.1|4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for BCVA categories, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.1|-8.1|
82558383|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-17.7|STANDARD_ERROR_OF_MEAN|7.57|||TWO_SIDED|95.0|-32.6|-2.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||-2.9|-32.6|
82558384|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-29.5|STANDARD_ERROR_OF_MEAN|8.18|||TWO_SIDED|95.0|-45.6|-13.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||-13.4|-45.6|
82583426|NCT01323972|164878019|OTHER||GMT ratio|1.32|||||TWO_SIDED|95.0|1.06|1.65|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 1 and GSK 257049-Lot 2 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.65|1.06|
82583427|NCT01323972|164878019|OTHER||GMT ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 1 and GSK 257049-Lot 3 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.32|0.85|
82487579|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.015|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.81|0.015
82487580|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.453|TWO_SIDED|95.0|-0.49|0.22|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.49|0.453
82487581|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.18||0.177|TWO_SIDED|95.0|-0.61|0.11|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.61|0.177
82487582|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.062|TWO_SIDED|95.0|-0.7|0.02|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.70|0.062
82487583|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.212|TWO_SIDED|95.0|-0.59|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.59|0.212
82487584|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.34|-0.54|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.54|-1.34|<0.001
82487585|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.15|-0.35|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.35|-1.15|<0.001
82487586|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.2||0.004|TWO_SIDED|95.0|-0.98|-0.18|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.98|0.004
82487587|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.2||0.007|TWO_SIDED|95.0|-0.95|-0.15|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.95|0.007
82487588|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.2||0.879|TWO_SIDED|95.0|-0.43|0.37|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.37|-0.43|0.879
82487589|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.33|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.60|0.330
82487590|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.083|TWO_SIDED|95.0|-0.75|0.05|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.75|0.083
82487591|NCT00809354|164668770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.36|TWO_SIDED|95.0|-0.59|0.21|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.59|0.360
82558385|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-30.3|STANDARD_ERROR_OF_MEAN|8.45|||TWO_SIDED|95.0|-46.9|-13.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||-13.7|-46.9|
82558386|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-40.2|STANDARD_ERROR_OF_MEAN|9.51|||TWO_SIDED|95.0|-58.9|-21.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||-21.6|-58.9|
82558387|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|9.12|||TWO_SIDED|95.0|-20.9|15.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||15.0|-20.9|
82487592|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.23|-0.53|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.23|<0.001
82487593|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.13|-0.43|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.13|<0.001
82487594|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.003|TWO_SIDED|95.0|-0.87|-0.17|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.87|0.003
82487595|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.007|TWO_SIDED|95.0|-0.83|-0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.83|0.007
82558388|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-47.8|STANDARD_ERROR_OF_MEAN|9.42|||TWO_SIDED|95.0|-66.3|-29.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||-29.3|-66.3|
82651767|NCT00358826|165018527|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82487596|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.18||0.824|TWO_SIDED|95.0|-0.39|0.31|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.39|0.824
82487597|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.18||0.1|TWO_SIDED|95.0|-0.64|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.64|0.100
82487598|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.044|TWO_SIDED|95.0|-0.7|-0.01|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.70|0.044
82487599|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.565|TWO_SIDED|95.0|-0.45|0.25|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.45|0.565
82651768|NCT00358826|165018528|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82651769|NCT00358826|165018528|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82487600|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.4|-0.62|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.62|-1.40|<0.001
82487601|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.2|-0.42|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.20|<0.001
82487602|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.02|-0.24|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-1.02|0.002
82487603|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.02|-0.24|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-1.02|0.002
82487604|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.2||0.98|TWO_SIDED|95.0|-0.39|0.4|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.40|-0.39|0.980
82487605|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.383|TWO_SIDED|95.0|-0.56|0.22|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.56|0.383
82487606|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.2||0.057|TWO_SIDED|95.0|-0.77|0.01|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.77|0.057
82558389|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|9.34|||TWO_SIDED|95.0|-42.0|-5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||-5.4|-42.0|
82558390|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-33.7|STANDARD_ERROR_OF_MEAN|9.54|||TWO_SIDED|95.0|-52.4|-15.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||-15.0|-52.4|
82558391|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-30.4|STANDARD_ERROR_OF_MEAN|8.94|||TWO_SIDED|95.0|-48.0|-12.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||-12.9|-48.0|
82558392|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-44.7|STANDARD_ERROR_OF_MEAN|9.57|||TWO_SIDED|95.0|-63.5|-25.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||-25.9|-63.5|
82558393|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-19.2|STANDARD_ERROR_OF_MEAN|9.24|||TWO_SIDED|95.0|-37.3|-1.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||-1.1|-37.3|
82651770|NCT00358826|165018528|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANCOVA|The model included treatment effect, with baseline value as a covariate.||||||<0.001
82651771|NCT00358826|165018529|SUPERIORITY_OR_OTHER|||||||0.656||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.656
82651772|NCT00358826|165018529|SUPERIORITY_OR_OTHER|||||||0.863||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.863
82651773|NCT00358826|165018529|SUPERIORITY_OR_OTHER|||||||0.996||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.996
82651774|NCT00358826|165018530|SUPERIORITY_OR_OTHER|||||||0.331||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.331
82651775|NCT00358826|165018530|SUPERIORITY_OR_OTHER|||||||0.606||||||Adjusted using Dunnett's method.|ANCOVA|||||||0.606
82487607|NCT00809354|164668771|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.312|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.59|0.312
82487608|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.008|TWO_SIDED|95.0|-0.32|-0.05|||ANCOVA|||Analysis was based on analysis of co-variance (ANCOVA) model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.32|0.008
82487609|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.251|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.22|0.251
82487610|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.251|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.22|0.251
82487611|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.961|TWO_SIDED|95.0|-0.14|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.14|0.961
82487612|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.272|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.272
82487613|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.271|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.271
82487614|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.128
82583428|NCT01323972|164878019|OTHER||GMT ratio|0.8||||||95.0|0.64|1.0|||||Consistency was demonstrated if one month post Dose 3, the 2-sided 95% confidence interval (CI) of the geometric mean titer (GMT) ratio between all pairs of lots were within \[0.5, 2\].|Demonstration of the lot-to-lot consistency between GSK 257049-Lot 2 and GSK 257049-Lot 3 in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1|0.64|
82583429|NCT01323972|164878019|NON_INFERIORITY|Non-inferiority was demonstrated if one month post Dose 3, the upper limit (UL) of the 2-sided 95% CI of the GMT ratio of the pilot scale lot (Control Group) over the pooled commercial scale lots (Pooled Log Group) was below 2.|GMT ratio|0.95||||||95.0|0.79|1.15||||||Demonstration of non-inferiority of the commercial scale lots of GSK 257049 to the pilot scale lot in terms of anti-Circumsporozoite (anti-CS) immunogenicity.||1.15|0.79|
82487615|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.133|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.133
82487616|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.35|0.002
82487617|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.34|-0.06|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.34|0.004
82487618|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.414|TWO_SIDED|95.0|-0.2|0.08|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.20|0.414
82583430|NCT00943111|164878052|NON_INFERIORITY_OR_EQUIVALENCE|The sample size for study was based on expected stability rates of 95% for the Imiglucerase group and 85% for the Eliglustat group, power of 85%, a one-sided significance level of 0.025, a non-inferiority margin of 25%, and a 20% non-evaluable/drop-out rate. Eliglustat was declared non-inferior to Imiglucerase if the lower-bound of the 95% confidence interval for the difference was within the non-inferiority margin of 25%.|Difference in Percentage Stable|-8.8|||||TWO_SIDED|95.0|-17.6|4.2||||||||4.2|-17.6|
82487619|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.057|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.057
82487620|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.277|TWO_SIDED|95.0|-0.06|0.21|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.06|0.277
82487621|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.328|TWO_SIDED|95.0|-0.21|0.07|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.21|0.328
82487622|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.026|TWO_SIDED|95.0|-0.3|-0.02|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.30|0.026
82487623|NCT00809354|164668772|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.864|TWO_SIDED|95.0|-0.15|0.13|||ANCOVA|||Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.15|0.864
82583431|NCT01049217|164878090|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.191||0.709|TWO_SIDED|95.0|-0.3|0.45|||ANCOVA|||Analysis of covariance (ANCOVA) model was used with terms of treatment, pooled site, dideoxynucleoside analogue (D-drug) anti-retroviral agent (ART) use and baseline score.||0.45|-0.30|0.7090
82651776|NCT00358826|165018530|SUPERIORITY_OR_OTHER||||||<|0.001||||||Adjusted using Dunnett's method.|ANOVA|||||||<0.001
82487624|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.16||0.927|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.31|0.927
82487625|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.057|TWO_SIDED|95.0|-0.64|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.64|0.057
82487626|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.779|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.37|0.779
82487627|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.16||0.798|TWO_SIDED|95.0|-0.36|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.36|0.798
82487628|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.98|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.980
82487629|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.16||0.098|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.60|0.098
82487630|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.26|0.709
82487631|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.045|TWO_SIDED|95.0|0.01|0.65|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.65|0.01|0.045
82487632|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.71|TWO_SIDED|95.0|-0.28|0.41|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.41|-0.28|0.710
82558394|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-49.9|STANDARD_ERROR_OF_MEAN|9.68|||TWO_SIDED|95.0|-68.9|-30.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||-30.9|-68.9|
82558395|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-28.1|STANDARD_ERROR_OF_MEAN|9.01|||TWO_SIDED|95.0|-45.8|-10.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||-10.4|-45.8|
82558396|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-43.1|STANDARD_ERROR_OF_MEAN|9.86|||TWO_SIDED|95.0|-62.4|-23.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||-23.7|-62.4|
82558397|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|9.34|||TWO_SIDED|95.0|-49.5|-12.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||-12.8|-49.5|
82558398|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-45.8|STANDARD_ERROR_OF_MEAN|9.7|||TWO_SIDED|95.0|-64.9|-26.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||-26.8|-64.9|
82558399|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-23.7|STANDARD_ERROR_OF_MEAN|9.31|||TWO_SIDED|95.0|-42.0|-5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||-5.4|-42.0|
82558400|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-47.3|STANDARD_ERROR_OF_MEAN|9.69|||TWO_SIDED|95.0|-66.4|-28.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||-28.3|-66.4|
82558401|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-28.0|STANDARD_ERROR_OF_MEAN|9.43|||TWO_SIDED|95.0|-46.5|-9.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||-9.5|-46.5|
82558402|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-40.9|STANDARD_ERROR_OF_MEAN|9.94|||TWO_SIDED|95.0|-60.4|-21.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||-21.4|-60.4|
82558403|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-31.0|STANDARD_ERROR_OF_MEAN|9.48|||TWO_SIDED|95.0|-49.6|-12.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||-12.4|-49.6|
82558404|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|9.84|||TWO_SIDED|95.0|-61.9|-23.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||-23.3|-61.9|
82558405|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-29.1|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-47.9|-10.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||-10.3|-47.9|
82558406|NCT02434328|164826315|OTHER|Treatment difference|Least Squares Mean Difference|-42.6|STANDARD_ERROR_OF_MEAN|9.87|||TWO_SIDED|95.0|-62.0|-23.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||-23.3|-62.0|
82558407|NCT02434328|164826316|OTHER|Treatment difference|Least Squares Mean Difference|-36.1|STANDARD_ERROR_OF_MEAN|9.13|||TWO_SIDED|95.0|-54.0|-18.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-18.1|-54.0|
82558408|NCT02434328|164826317|OTHER|Treatment difference|Least Squares Mean Difference|-36.3|STANDARD_ERROR_OF_MEAN|9.56|||TWO_SIDED|95.0|-55.1|-17.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|||-17.6|-55.1|
82558409|NCT02434328|164826318|OTHER|Treatment difference|Least Squares Mean Difference|-30.8|STANDARD_ERROR_OF_MEAN|8.53|||TWO_SIDED|95.0|-47.6|-14.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 48||-14.1|-47.6|
82558410|NCT02434328|164826318|OTHER|Treatment difference|Least Squares Mean Difference|-33.5|STANDARD_ERROR_OF_MEAN|8.84|||TWO_SIDED|95.0|-50.8|-16.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-total categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4 to Week 96||-16.1|-50.8|
82558411|NCT02434328|164826319|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|0.0|0.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||0.7|0.0|
82651777|NCT00358826|165018531|SUPERIORITY_OR_OTHER|||||||0.22||||||Dunnett test compared with Placebo|ANCOVA|||||||0.22
82651778|NCT00358826|165018531|SUPERIORITY_OR_OTHER||||||<|0.005||||||Dunnett test compared with Placebo|ANCOVA|||||||<0.005
82651779|NCT00358826|165018531|SUPERIORITY_OR_OTHER|||||||0.6||||||Dunnett test compared with Placebo|ANCOVA|||||||0.60
82558412|NCT02434328|164826319|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|-0.1|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||0.6|-0.1|
82558413|NCT02434328|164826319|OTHER|Treatment difference|Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.0|0.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline lesion size categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||0.6|0.0|
82558414|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|4.8|||TWO_SIDED|95.0|-11.6|7.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 4||7.3|-11.6|
82558415|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|95.0|-13.6|6.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 8||6.0|-13.6|
82558416|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|4.98|||TWO_SIDED|95.0|-14.3|5.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 12||5.3|-14.3|
82558417|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|5.12|||TWO_SIDED|95.0|-13.7|6.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 16||6.4|-13.7|
82558418|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|5.11|||TWO_SIDED|95.0|-5.5|14.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 20||14.6|-5.5|
82558419|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|5.35|||TWO_SIDED|95.0|-16.3|4.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 24||4.7|-16.3|
82651780|NCT00358826|165018532|SUPERIORITY_OR_OTHER|||||||0.92||||||Dunnett test compared with Placebo|ANCOVA|||||||0.92
82558420|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.13|||TWO_SIDED|95.0|-13.1|7.0||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 28||7.0|-13.1|
82558421|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|5.37|||TWO_SIDED|95.0|-12.6|8.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 32||8.5|-12.6|
82558422|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|5.15|||TWO_SIDED|95.0|-15.2|5.1||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 36||5.1|-15.2|
82558423|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-17.0|3.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 40||3.8|-17.0|
82558424|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-13.4|7.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 44||7.9|-13.4|
82558425|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|5.4|||TWO_SIDED|95.0|-17.6|3.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 48||3.7|-17.6|
82558426|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|95.0|-12.9|7.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 52||7.5|-12.9|
82558427|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|5.31|||TWO_SIDED|95.0|-15.4|5.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 56||5.4|-15.4|
82558428|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|5.15|||TWO_SIDED|95.0|-14.3|5.9||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 60||5.9|-14.3|
82651781|NCT00358826|165018532|SUPERIORITY_OR_OTHER|||||||0.96||||||Dunnett test compared with Placebo|ANCOVA|||||||0.96
82651782|NCT00358826|165018532|SUPERIORITY_OR_OTHER|||||||1||||||Dunnett test compared with Placebo|ANCOVA|||||||1.00
82651783|NCT00358826|165018533|SUPERIORITY_OR_OTHER|||||||0.99||||||Dunnett test compared with Placebo|ANCOVA|||||||0.99
82558429|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|5.24|||TWO_SIDED|95.0|-14.2|6.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 64||6.4|-14.2|
82558430|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.17|||TWO_SIDED|95.0|-10.7|9.6||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 68||9.6|-10.7|
82558431|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|5.24|||TWO_SIDED|95.0|-14.8|5.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 72||5.7|-14.8|
82558432|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|5.23|||TWO_SIDED|95.0|-13.1|7.4||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 76||7.4|-13.1|
82558433|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|5.33|||TWO_SIDED|95.0|-14.1|6.8||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 80||6.8|-14.1|
82558434|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.3|||TWO_SIDED|95.0|-13.5|7.3||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 84||7.3|-13.5|
82558435|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|5.39|||TWO_SIDED|95.0|-14.6|6.5||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 88||6.5|-14.6|
82558436|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|5.25|||TWO_SIDED|95.0|-12.6|8.0|||ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 92||8.0|-12.6|
82651784|NCT00358826|165018533|SUPERIORITY_OR_OTHER|||||||0.11||||||Dunnett test compared with Placebo|ANCOVA|||||||0.11
82558437|NCT02434328|164826320|OTHER|Treatment difference|Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|5.42|||TWO_SIDED|95.0|-13.6|7.7||Hypothesis testing not pre-specified.|ANOVA|Analyzed using ANOVA model with baseline CSFT-neurosensory retina categories, age categories, and treatment as fixed effect factors.|Least squares mean difference (Brolucizumab 6mg - Aflibercept 2mg)|Week 96||7.7|-13.6|
82558438|NCT02434328|164826321|OTHER||Difference in proportions|-6.6|||||TWO_SIDED|95.0|-13.2|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||-0.3|-13.2|
82558439|NCT02434328|164826321|OTHER||Difference in proportions|-8.5|||||TWO_SIDED|95.0|-13.8|-3.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-3.0|-13.8|
82558440|NCT02434328|164826321|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.2|-1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-1.7|-12.2|
82558441|NCT02434328|164826321|OTHER||Difference in proportions|-14.2|||||TWO_SIDED|95.0|-20.8|-8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-8.3|-20.8|
82558442|NCT02434328|164826321|OTHER||Difference in proportions|3.1|||||TWO_SIDED|95.0|-2.9|9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||9.6|-2.9|
82558443|NCT02434328|164826321|OTHER||Difference in proportions|-19.2|||||TWO_SIDED|95.0|-25.5|-13.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-13.0|-25.5|
82558444|NCT02434328|164826321|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.6|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||-0.4|-11.6|
82651785|NCT00358826|165018533|SUPERIORITY_OR_OTHER|||||||0.99||||||Dunnett test compared with Placebo|ANCOVA|||||||0.99
82651786|NCT00321711|165018562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.032||||||95.0|0.153|6.95||||||||6.950|0.153|
82651787|NCT00321711|165018562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.333||||||95.0|0.028|3.926||||||||3.926|0.028|
82651788|NCT00321711|165018562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.118||||||95.0|0.007|1.882|||||Adjusted by the stratification factor|||1.882|0.007|
82651789|NCT00321711|165018563|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||||95.0|0.063|15.988|||||Romiplostim/placebo|||15.988|0.063|
82487633|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.504|TWO_SIDED|95.0|-0.46|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.46|0.504
82558445|NCT02434328|164826321|OTHER||Difference in proportions|-9.8|||||TWO_SIDED|95.0|-16.5|-3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-3.5|-16.5|
82558446|NCT02434328|164826321|OTHER||Difference in proportions|-8.0|||||TWO_SIDED|95.0|-13.6|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-2.5|-13.6|
82558447|NCT02434328|164826321|OTHER||Difference in proportions|-15.4|||||TWO_SIDED|95.0|-21.5|-9.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-9.4|-21.5|
82558448|NCT02434328|164826321|OTHER||Difference in proportions|2.5|||||TWO_SIDED|95.0|-3.2|8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||8.4|-3.2|
82558449|NCT02434328|164826321|OTHER||Difference in proportions|-15.9|||||TWO_SIDED|95.0|-22.4|-10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-10.4|-22.4|
82558450|NCT02434328|164826321|OTHER||Difference in proportions|-2.7|||||TWO_SIDED|95.0|-8.5|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.1|-8.5|
82558451|NCT02434328|164826321|OTHER||Difference in proportions|-9.0|||||TWO_SIDED|95.0|-15.7|-2.9|||Regression, Logistic|Hypothesis testing not pre-specified.|Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-2.9|-15.7|
82558452|NCT02434328|164826321|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-9.8|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||2.2|-9.8|
82558453|NCT02434328|164826321|OTHER||Difference in proportions|-15.1|||||TWO_SIDED|95.0|-21.3|-8.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-8.4|-21.3|
82558454|NCT02434328|164826321|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-6.1|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.2|-6.1|
82558455|NCT02434328|164826321|OTHER||Difference in proportions|-16.6|||||TWO_SIDED|95.0|-22.6|-10.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-10.5|-22.6|
82558456|NCT02434328|164826321|OTHER||Difference in proportions|-1.1|||||TWO_SIDED|95.0|-7.0|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.1|-7.0|
82558457|NCT02434328|164826321|OTHER||Difference in proportions|-11.0|||||TWO_SIDED|95.0|-17.4|-5.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-5.0|-17.4|
82558458|NCT02434328|164826321|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-11.3|0.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||0.7|-11.3|
82558459|NCT02434328|164826321|OTHER||Difference in proportions|-12.0|||||TWO_SIDED|95.0|-18.9|-5.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-5.9|-18.9|
82558460|NCT02434328|164826321|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-11.4|0.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||0.0|-11.4|
82558461|NCT02434328|164826321|OTHER||Difference in proportions|-14.5|||||TWO_SIDED|95.0|-20.3|-8.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-8.3|-20.3|
82558462|NCT02434328|164826322|OTHER||Difference in proportions|1.5|||||TWO_SIDED|95.0|-2.5|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||5.4|-2.5|
82558463|NCT02434328|164826322|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-6.1|1.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||1.7|-6.1|
82558464|NCT02434328|164826322|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-5.3|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||2.2|-5.3|
82558465|NCT02434328|164826322|OTHER||Difference in proportions|0.1|||||TWO_SIDED|95.0|-4.5|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||4.4|-4.5|
82558466|NCT02434328|164826322|OTHER||Difference in proportions|8.2|||||TWO_SIDED|95.0|3.9|12.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||12.8|3.9|
82558467|NCT02434328|164826322|OTHER||Difference in proportions|-3.2|||||TWO_SIDED|95.0|-7.9|1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||1.2|-7.9|
82558468|NCT02434328|164826322|OTHER||Difference in proportions|2.8|||||TWO_SIDED|95.0|-1.0|6.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||6.4|-1.0|
82558469|NCT02434328|164826322|OTHER||Difference in proportions|-0.5|||||TWO_SIDED|95.0|-5.5|4.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||4.0|-5.5|
82558470|NCT02434328|164826322|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-5.6|1.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||1.8|-5.6|
82558471|NCT02434328|164826322|OTHER||Difference in proportions|-1.3|||||TWO_SIDED|95.0|-6.0|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||3.1|-6.0|
82558472|NCT02434328|164826322|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-0.5|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||8.0|-0.5|
82558473|NCT02434328|164826322|OTHER||Difference in proportions|-2.0|||||TWO_SIDED|95.0|-6.2|2.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||2.2|-6.2|
82558474|NCT02434328|164826322|OTHER||Difference in proportions|1.2|||||TWO_SIDED|95.0|-2.5|5.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||5.1|-2.5|
82558475|NCT02434328|164826322|OTHER||Difference in proportions|-1.2|||||TWO_SIDED|95.0|-5.9|3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||3.1|-5.9|
82558476|NCT02434328|164826322|OTHER||Difference in proportions|-0.6|||||TWO_SIDED|95.0|-4.4|3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||3.4|-4.4|
82558477|NCT02434328|164826322|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-6.2|2.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||2.1|-6.2|
82583432|NCT01049217|164878091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5049|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Overall p-value was derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.5049
82583433|NCT01049217|164878092|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4271|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Overall p-value was derived from Cochran-Mantel-Haenszel (CMH) test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.4271
82651790|NCT00321711|165018564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.827||||||95.0|0.347|9.618|||||Romiplostim/placebo|||9.618|0.347|
82487634|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.183|TWO_SIDED|95.0|-0.11|0.58|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.58|-0.11|0.183
82487635|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.919|TWO_SIDED|95.0|-0.36|0.33|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.36|0.919
82487636|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|95.0|-0.09|0.59|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.59|-0.09|0.152
82558478|NCT02434328|164826322|OTHER||Difference in proportions|2.6|||||TWO_SIDED|95.0|-1.2|6.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||6.5|-1.2|
82558479|NCT02434328|164826322|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.2|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||4.3|-4.2|
82558480|NCT02434328|164826322|OTHER||Difference in proportions|0.4|||||TWO_SIDED|95.0|-3.5|4.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||4.2|-3.5|
82558481|NCT02434328|164826322|OTHER||Difference in proportions|-0.3|||||TWO_SIDED|95.0|-4.8|4.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||4.3|-4.8|
82558482|NCT02434328|164826322|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-3.3|5.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||5.2|-3.3|
82558483|NCT02434328|164826322|OTHER||Difference in proportions|-0.1|||||TWO_SIDED|95.0|-4.5|3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||3.9|-4.5|
82558484|NCT02434328|164826322|OTHER||Difference in proportions|3.8|||||TWO_SIDED|95.0|-0.1|8.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||8.0|-0.1|
82558485|NCT02434328|164826322|OTHER||Difference in proportions|0.2|||||TWO_SIDED|95.0|-4.3|4.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||4.6|-4.3|
82558486|NCT02434328|164826323|OTHER||Difference in proportions|-3.5|||||TWO_SIDED|95.0|-8.9|1.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||1.5|-8.9|
82583434|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.095||0.2084|TWO_SIDED|95.0|-0.31|0.07|||ANCOVA|||Change at Week 1: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.31|0.2084
82487637|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.572|TWO_SIDED|95.0|-0.44|0.24|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.24|-0.44|0.572
82487638|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.337|TWO_SIDED|95.0|-0.51|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.51|0.337
82487639|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.17||0.299|TWO_SIDED|95.0|-0.16|0.52|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.52|-0.16|0.299
82487640|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.17|-0.5|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.50|-1.17|<0.001
82487641|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.22|-0.55|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.22|<0.001
82487642|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.01|-0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.01|<0.001
82487643|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.85|-0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.85|0.003
82487644|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.341|TWO_SIDED|95.0|-0.5|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.50|0.341
82487645|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.031|TWO_SIDED|95.0|-0.71|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.71|0.031
82487646|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.17||0.349|TWO_SIDED|95.0|-0.49|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.49|0.349
82487647|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.17||0.78|TWO_SIDED|95.0|-0.29|0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.29|0.780
82487648|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.31|-0.58|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.31|<0.001
82487649|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.29|<0.001
82487650|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-0.99|-0.26|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-0.99|<0.001
82487651|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.005|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.88|0.005
82558487|NCT02434328|164826323|OTHER||Difference in proportions|-2.6|||||TWO_SIDED|95.0|-7.6|2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||2.5|-7.6|
82558488|NCT02434328|164826323|OTHER||Difference in proportions|-1.6|||||TWO_SIDED|95.0|-6.9|3.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||3.7|-6.9|
82583435|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.126||0.1516|TWO_SIDED|95.0|-0.43|0.07|||ANCOVA|||Change at Week 2: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.43|0.1516
82487652|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.19||0.562|TWO_SIDED|95.0|-0.47|0.26|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.26|-0.47|0.562
82487653|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.028|TWO_SIDED|95.0|-0.77|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.77|0.028
82487654|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.19||0.084|TWO_SIDED|95.0|-0.68|0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.68|0.084
82487655|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.19||0.91|TWO_SIDED|95.0|-0.38|0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.38|0.910
82487656|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.69|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.40|<0.001
82487657|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.27|-0.56|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.27|<0.001
82487658|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.25|-0.55|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.25|<0.001
82487659|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.18||0.003|TWO_SIDED|95.0|-0.88|-0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.88|0.003
82487660|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.18||0.039|TWO_SIDED|95.0|-0.72|-0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.72|0.039
82487661|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.18||0.032|TWO_SIDED|95.0|-0.74|-0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.74|0.032
82487662|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.409|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.50|0.409
82487663|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.18||0.461|TWO_SIDED|95.0|-0.49|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.49|0.461
82487664|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.21|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.59|-0.84|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.84|-1.59|<0.001
82487665|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.4|-0.65|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.40|<0.001
82487666|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.17|-0.43|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.17|<0.001
82558489|NCT02434328|164826323|OTHER||Difference in proportions|-7.8|||||TWO_SIDED|95.0|-13.0|-2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-2.7|-13.0|
82558490|NCT02434328|164826323|OTHER||Difference in proportions|1.3|||||TWO_SIDED|95.0|-3.6|6.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||6.2|-3.6|
82558491|NCT02434328|164826323|OTHER||Difference in proportions|-7.9|||||TWO_SIDED|95.0|-12.6|-3.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-3.1|-12.6|
82487667|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.97|-0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.22|-0.97|0.002
82487668|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.19||0.281|TWO_SIDED|95.0|-0.58|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.58|0.281
82487669|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.023|TWO_SIDED|95.0|-0.81|-0.06|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.81|0.023
82487670|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.19||0.031|TWO_SIDED|95.0|-0.79|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.79|0.031
82487671|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.19||0.331|TWO_SIDED|95.0|-0.56|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.56|0.331
82487672|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.11|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.47|-0.75|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.75|-1.47|<0.001
82558492|NCT02434328|164826323|OTHER||Difference in proportions|-2.1|||||TWO_SIDED|95.0|-6.8|2.7||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.7|-6.8|
82558493|NCT02434328|164826323|OTHER||Difference in proportions|-5.3|||||TWO_SIDED|95.0|-10.5|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-0.3|-10.5|
82558494|NCT02434328|164826323|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-10.3|-0.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-0.4|-10.3|
82487673|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.33|-0.6|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.60|-1.33|<0.001
82487674|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.03|-0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.31|-1.03|<0.001
82487675|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.98|-0.26|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-0.98|<0.001
82487676|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.18||0.781|TWO_SIDED|95.0|-0.41|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.41|0.781
82487677|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.057|TWO_SIDED|95.0|-0.71|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.71|0.057
82487678|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.016|TWO_SIDED|95.0|-0.8|-0.08|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.80|0.016
82487679|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.18||0.45|TWO_SIDED|95.0|-0.5|0.22|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.50|0.450
82487680|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.47|-0.69|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.47|<0.001
82487681|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.2|-0.42|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.20|<0.001
82558495|NCT02434328|164826323|OTHER||Difference in proportions|-6.0|||||TWO_SIDED|95.0|-11.2|-0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-0.5|-11.2|
82558496|NCT02434328|164826323|OTHER||Difference in proportions|0.5|||||TWO_SIDED|95.0|-4.8|5.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||5.6|-4.8|
82487682|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.12|-0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.12|<0.001
82487683|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.04|-0.26|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.26|-1.04|0.001
82487684|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.2||0.699|TWO_SIDED|95.0|-0.47|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.47|0.699
82487685|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2||0.408|TWO_SIDED|95.0|-0.55|0.22|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.55|0.408
82487686|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.077|TWO_SIDED|95.0|-0.74|0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.74|0.077
82487687|NCT00809354|164668773|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.2||0.182|TWO_SIDED|95.0|-0.65|0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.65|0.182
82487688|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.16||0.798|TWO_SIDED|95.0|-0.36|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.36|0.798
82487689|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.16||0.779|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.37|0.779
82487690|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.057|TWO_SIDED|95.0|-0.64|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.64|0.057
82487691|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.16||0.927|TWO_SIDED|95.0|-0.31|0.34|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.31|0.927
82558497|NCT02434328|164826323|OTHER||Difference in proportions|-9.1|||||TWO_SIDED|95.0|-13.8|-3.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-3.9|-13.8|
82583436|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.142||0.0468|TWO_SIDED|95.0|-0.56|0.0|||ANCOVA|||Change at Week 3: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||-0.00|-0.56|0.0468
82651791|NCT00321711|165018564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.445||||||95.0|0.037|5.325|||||Romiplostim/placebo|||5.325|0.037|
82651792|NCT00321711|165018564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.444||||||95.0|0.032|6.08|||||Romiplostim/placebo|||6.080|0.032|
82651793|NCT00321711|165018565|SUPERIORITY_OR_OTHER||Difference in incidence rate|-33.5||||||95.0|-69.0|2.0|||||Romiplostim - placebo|||2.0|-69.0|
82651794|NCT00321711|165018565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.315||||||95.0|0.029|3.412||||||||3.412|0.029|
82487692|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.98|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.980
82487693|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.16||0.098|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.60|0.098
82487694|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.16||0.709|TWO_SIDED|95.0|-0.26|0.38|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.26|0.709
82487695|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.16||0.045|TWO_SIDED|95.0|0.01|0.65|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.65|0.01|0.045
82487696|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.17||0.919|TWO_SIDED|95.0|-0.36|0.33|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.36|0.919
82487697|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.17||0.183|TWO_SIDED|95.0|-0.11|0.58|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.58|-0.11|0.183
82487698|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.504|TWO_SIDED|95.0|-0.46|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.46|0.504
82487699|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.71|TWO_SIDED|95.0|-0.28|0.41|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.41|-0.28|0.710
82558498|NCT02434328|164826323|OTHER||Difference in proportions|-1.8|||||TWO_SIDED|95.0|-7.1|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.5|-7.1|
82487700|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.17||0.152|TWO_SIDED|95.0|-0.09|0.59|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.59|-0.09|0.152
82558499|NCT02434328|164826323|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-11.1|0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||0.1|-11.1|
82558500|NCT02434328|164826323|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-10.9|-0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||-0.5|-10.9|
82558501|NCT02434328|164826323|OTHER||Difference in proportions|-5.1|||||TWO_SIDED|95.0|-10.9|0.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||0.6|-10.9|
82558502|NCT02434328|164826323|OTHER||Difference in proportions|-5.2|||||TWO_SIDED|95.0|-11.0|-0.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||-0.1|-11.0|
82558503|NCT02434328|164826323|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-12.5|-1.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-1.2|-12.5|
82558504|NCT02434328|164826323|OTHER||Difference in proportions|-5.5|||||TWO_SIDED|95.0|-10.7|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||-0.3|-10.7|
82558505|NCT02434328|164826323|OTHER||Difference in proportions|-6.5|||||TWO_SIDED|95.0|-12.4|-0.9||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-0.9|-12.4|
82558506|NCT02434328|164826323|OTHER||Difference in proportions|-1.4|||||TWO_SIDED|95.0|-7.0|4.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||4.4|-7.0|
82558507|NCT02434328|164826323|OTHER||Difference in proportions|-4.8|||||TWO_SIDED|95.0|-10.5|1.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||1.3|-10.5|
82558508|NCT02434328|164826323|OTHER||Difference in proportions|-5.6|||||TWO_SIDED|95.0|-11.4|0.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||0.5|-11.4|
82558509|NCT02434328|164826323|OTHER||Difference in proportions|-5.9|||||TWO_SIDED|95.0|-11.5|-0.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-0.3|-11.5|
82558510|NCT02434328|164826324|OTHER||Difference in proportions|-6.9|||||TWO_SIDED|95.0|-14.2|0.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 4||0.2|-14.2|
82558511|NCT02434328|164826324|OTHER||Difference in proportions|-9.2|||||TWO_SIDED|95.0|-15.5|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 8||-2.5|-15.5|
82558512|NCT02434328|164826324|OTHER||Difference in proportions|-8.7|||||TWO_SIDED|95.0|-15.0|-2.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 12||-2.6|-15.0|
82558513|NCT02434328|164826324|OTHER||Difference in proportions|-15.7|||||TWO_SIDED|95.0|-22.9|-9.0||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 16||-9.0|-22.9|
82651795|NCT00321711|165018565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.211||||||95.0|0.021|2.082||||||||2.082|0.021|
82487701|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17||0.572|TWO_SIDED|95.0|-0.44|0.24|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.24|-0.44|0.572
82487702|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.337|TWO_SIDED|95.0|-0.51|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.51|0.337
82651796|NCT01227668|165018570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.097|TWO_SIDED|95.0|0.28|1.12|||Stratified log rank|||||1.12|0.28|0.097
82487703|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.17||0.299|TWO_SIDED|95.0|-0.16|0.52|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.52|-0.16|0.299
82487704|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.17||0.005|TWO_SIDED|95.0|-0.82|-0.14|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.82|0.005
82487705|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.05|-0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.38|-1.05|<0.001
82558514|NCT02434328|164826324|OTHER||Difference in proportions|7.7|||||TWO_SIDED|95.0|0.9|14.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 20||14.8|0.9|
82558515|NCT02434328|164826324|OTHER||Difference in proportions|-20.0|||||TWO_SIDED|95.0|-27.3|-13.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 24||-13.1|-27.3|
82558516|NCT02434328|164826324|OTHER||Difference in proportions|-3.9|||||TWO_SIDED|95.0|-10.4|2.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 28||2.4|-10.4|
82558517|NCT02434328|164826324|OTHER||Difference in proportions|-9.7|||||TWO_SIDED|95.0|-16.7|-2.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 32||-2.5|-16.7|
82558518|NCT02434328|164826324|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-15.8|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 36||-3.4|-15.8|
82558519|NCT02434328|164826324|OTHER||Difference in proportions|-16.5|||||TWO_SIDED|95.0|-23.4|-9.6||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 40||-9.6|-23.4|
82558520|NCT02434328|164826324|OTHER||Difference in proportions|3.4|||||TWO_SIDED|95.0|-3.3|10.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 44||10.4|-3.3|
82558521|NCT02434328|164826324|OTHER||Difference in proportions|-18.1|||||TWO_SIDED|95.0|-24.9|-11.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 48||-11.8|-24.9|
82558522|NCT02434328|164826324|OTHER||Difference in proportions|-3.0|||||TWO_SIDED|95.0|-9.2|3.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 52||3.2|-9.2|
82558523|NCT02434328|164826324|OTHER||Difference in proportions|-9.4|||||TWO_SIDED|95.0|-16.3|-2.8||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 56||-2.8|-16.3|
82558524|NCT02434328|164826324|OTHER||Difference in proportions|-5.7|||||TWO_SIDED|95.0|-12.5|1.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 60||1.1|-12.5|
82558525|NCT02434328|164826324|OTHER||Difference in proportions|-15.5|||||TWO_SIDED|95.0|-21.9|-8.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 64||-8.5|-21.9|
82558526|NCT02434328|164826324|OTHER||Difference in proportions|0.9|||||TWO_SIDED|95.0|-5.9|7.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 68||7.5|-5.9|
82558527|NCT02434328|164826324|OTHER||Difference in proportions|-14.9|||||TWO_SIDED|95.0|-21.4|-8.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 72||-8.1|-21.4|
82583437|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.177||0.1224|TWO_SIDED|95.0|-0.62|0.07|||ANCOVA|||Change at Week 4: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.07|-0.62|0.1224
82583438|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.184||0.0373|TWO_SIDED|95.0|-0.75|-0.02|||ANCOVA|||Change at Week 5: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||-0.02|-0.75|0.0373
82583439|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.199||0.166|TWO_SIDED|95.0|-0.67|0.12|||ANCOVA|||Change at Week 6: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.12|-0.67|0.1660
82583440|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.214||0.3246|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||Change at Week 7: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.21|-0.63|0.3246
82583441|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.219||0.4879|TWO_SIDED|95.0|-0.58|0.28|||ANCOVA|||Change at Week 8: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.28|-0.58|0.4879
82583442|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.223||0.2669|TWO_SIDED|95.0|-0.69|0.19|||ANCOVA|||Change at Week 9: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.19|-0.69|0.2669
82583443|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.219||0.5452|TWO_SIDED|95.0|-0.56|0.3|||ANCOVA|||Change at Week 10: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.30|-0.56|0.5452
82583444|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.229||0.5469|TWO_SIDED|95.0|-0.59|0.31|||ANCOVA|||Change at Week 11: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.31|-0.59|0.5469
82651797|NCT01227668|165018571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4||||0.051|TWO_SIDED|95.0|-8.82|0.02||For secondary endpoints, hierarchical testing aimed to keep the overall experiment-wise type I error rate to \<=0.05. Difference in chg from BL was tested at 0.05 significance only if APR arm significantly differed vs placebo from primary analysis.|ANCOVA|||||0.02|-8.82|0.051
82487706|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.25|-0.57|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.25|<0.001
82583445|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.24||0.7843|TWO_SIDED|95.0|-0.54|0.41|||ANCOVA|||Change at Week 12: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.41|-0.54|0.7843
82583446|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.24||0.9008|TWO_SIDED|95.0|-0.5|0.44|||ANCOVA|||Change at Week 13: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.44|-0.50|0.9008
82583447|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.24||0.9064|TWO_SIDED|95.0|-0.45|0.5|||ANCOVA|||Change at Week 14: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.45|0.9064
82651798|NCT01227668|165018572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.09|TWO_SIDED|95.0|-1.3|0.1||Treatment diff in chg from BL to endpnt in IS score was tested at 0.05 signif only if ARP arm signif differed vs pb from PA. Thus, if ARP arm signif differed vs pb in IS score, treatment diff in mean CGI-I score at endpnt was tested at 0.05 signfnce.|ANCOVA|||||0.1|-1.3|0.090
82583448|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.243||0.7205|TWO_SIDED|95.0|-0.57|0.39|||ANCOVA|||Change at Week 15: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.39|-0.57|0.7205
82583449|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.259||0.4334|TWO_SIDED|95.0|-0.71|0.31|||ANCOVA|||Change at Week 16: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.31|-0.71|0.4334
82583450|NCT01049217|164878093|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.199||0.8402|TWO_SIDED|95.0|-0.43|0.35|||ANCOVA|||Change at Endpoint: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.35|-0.43|0.8402
82583451|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.085||0.3098|TWO_SIDED|95.0|-0.25|0.08|||ANCOVA|||Change at Week 1: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.08|-0.25|0.3098
82651799|NCT01360450|165018579|OTHER||Mean Difference (Final Values)|0.05|||>|0.05|TWO_SIDED|||||yes the P value was adjusted for multiple comparisons.|ANOVA|2 sided ANOVA|Mean difference between the two treatment arms|||||>0.05
82651800|NCT02826603|165018595|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.72|2.84|||Regression, Logistic|||||2.84|1.72|<0.0001
82651801|NCT02826603|165018596|SUPERIORITY||Odds Ratio (OR)|2.1|||<|0.0001|TWO_SIDED|95.0|1.63|2.72|||Regression, Logistic|||||2.72|1.63|<0.0001
82487707|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.23|-0.56|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.23|<0.001
82583452|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.118||0.2429|TWO_SIDED|95.0|-0.37|0.09|||ANCOVA|||Change at Week 2: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.09|-0.37|0.2429
82583453|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.137||0.0504|TWO_SIDED|95.0|-0.54|0.0|||ANCOVA|||Change at Week 3: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.00|-0.54|0.0504
82583454|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.164||0.1141|TWO_SIDED|95.0|-0.58|0.06|||ANCOVA|||Change at Week 4: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.06|-0.58|0.1141
82583455|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.173||0.0667|TWO_SIDED|95.0|-0.66|0.02|||ANCOVA|||Change at Week 5: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.02|-0.66|0.0667
82558528|NCT02434328|164826324|OTHER||Difference in proportions|-0.8|||||TWO_SIDED|95.0|-7.5|5.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 76||5.4|-7.5|
82558529|NCT02434328|164826324|OTHER||Difference in proportions|-10.4|||||TWO_SIDED|95.0|-17.2|-3.4||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 80||-3.4|-17.2|
82558530|NCT02434328|164826324|OTHER||Difference in proportions|-4.5|||||TWO_SIDED|95.0|-11.4|2.3||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 84||2.3|-11.4|
82558531|NCT02434328|164826324|OTHER||Difference in proportions|-11.0|||||TWO_SIDED|95.0|-18.2|-4.1||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 88||-4.1|-18.2|
82558532|NCT02434328|164826324|OTHER||Difference in proportions|-2.9|||||TWO_SIDED|95.0|-9.4|3.5||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 92||3.5|-9.4|
82558533|NCT02434328|164826324|OTHER||Difference in proportions|-14.1|||||TWO_SIDED|95.0|-21.3|-7.2||Hypothesis testing not pre-specified.|Regression, Logistic||Statistical model used logistic regression adjusting for baseline fluid status, age categories, and treatment as fixed effect factors. 95% CI for difference in proportions (Brolucizumab 6mg - Aflibercept 2mg) was estimated using a bootstrap method.|Week 96||-7.2|-21.3|
82558534|NCT03147287|164826330|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.62|TWO_SIDED|90.0|0.79|1.55||We reported two-sided p-values corresponding to two-sided α level of 0.10. The test statistic and p-value were taken from the Cox proportional hazards model score test.|Log Rank|The SAP intended stratified tests and models, however one stratum was only 9 patients making implementation of stratification questionable.|We checked the proportional hazards assumption by visually assessing the plot of log( log(survival)) vs log of survival times according to treatment assignment for parallelism. This was done overall and according to stratum.|The primary objective was investigated by comparing the PFS distributions between two treatment arms using a logrank test with one-sided α level of 0.05 (H0: PFS1≤PFS2; HA: PFS1\>PFS2). Hazard ratios were estimated from a Cox PH model (F+P / F, so that HR\<1 indicates reduced hazard of PFS event with F+P), with two sided 90% CIs (Wald) to align with the design and testing.||1.55|0.79|0.62
82558535|NCT03147287|164826331|SUPERIORITY|||||||1||||||P-value is two sided, for hypothesis test with two-sided α=0.10|Fisher Exact|||The objective response was reported with two-sided 90% CI and compared between two treatment arms using a (unstratified) Fisher's exact test;||||1.000
82558536|NCT02962284|164826363|SUPERIORITY||||||>|0.1|||||||ANCOVA|||||||>0.1
82558537|NCT02372799|164826389|SUPERIORITY||LSMD|-0.4||||0.7662|TWO_SIDED|95.0|-3.08|2.27|||MMRM|||||2.27|-3.08|0.7662
82558538|NCT02372799|164826389|SUPERIORITY||LSMD|-2.39||||0.1433|TWO_SIDED|95.0|-5.6|0.81|||MMRM|||||0.81|-5.60|0.1433
82558539|NCT02372799|164826390|SUPERIORITY||LSMD|-0.04||||0.7387|TWO_SIDED|95.0|-0.31|0.22|||MMRM|||||0.22|-0.31|0.7387
82558540|NCT02372799|164826390|SUPERIORITY||LSMD|-0.2||||0.2158|TWO_SIDED|95.0|-0.52|0.12|||MMRM|||||0.12|-0.52|0.2158
82558541|NCT00089609|164826398|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||.02
82558542|NCT00357994|164826438|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.91|STANDARD_ERROR_OF_MEAN|0.57||0.0015|TWO_SIDED|95.0|-3.05|-0.76||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline and the natural logarithm of the mean daily dose of rescue medication on valid symptom diary days as covariates.|ANCOVA|||||-0.76|-3.05|0.0015
82558543|NCT00357994|164826439|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.86|STANDARD_ERROR_OF_MEAN|0.65||0.0059|TWO_SIDED|95.0|0.56|3.17|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||3.17|0.56|0.0059
82558544|NCT00357994|164826440|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-7.0|STANDARD_ERROR_OF_MEAN|2.8||0.0155|TWO_SIDED|95.0|-12.6|-1.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-1.4|-12.6|0.0155
82558545|NCT00357994|164826441|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0258|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the baseline CGI-S as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.1|-1.4|0.0258
82651802|NCT02826603|165018597|SUPERIORITY||Odds Ratio (OR)|2.62|||<|0.0001|TWO_SIDED|95.0|1.89|3.62|||Regression, Logistic|||||3.62|1.89|<0.0001
82651803|NCT02826603|165018598|SUPERIORITY||Odds Ratio (OR)|3.53|||<|0.0001|TWO_SIDED|95.0|2.65|4.71|||Regression, Logistic|||||4.71|2.65|<0.0001
82651804|NCT02826603|165018599|SUPERIORITY||Odds Ratio (OR)|2.33|||<|0.0001|TWO_SIDED|95.0|1.8|3.01|||Regression, Logistic|||||3.01|1.80|<0.0001
82651805|NCT02826603|165018600|SUPERIORITY||Odds Ratio (OR)|2.57|||<|0.0001|TWO_SIDED|95.0|1.96|3.37|||Regression, Logistic|||||3.37|1.96|<0.0001
82583456|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.189||0.2104|TWO_SIDED|95.0|-0.61|0.13|||ANCOVA|||Change at Week 6: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.13|-0.61|0.2104
82583457|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.197||0.483|TWO_SIDED|95.0|-0.53|0.25|||ANCOVA|||Change at Week 7: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.25|-0.53|0.4830
82583458|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.203||0.5757|TWO_SIDED|95.0|-0.51|0.29|||ANCOVA|||Change at Week 8: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.29|-0.51|0.5757
82583459|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.208||0.3231|TWO_SIDED|95.0|-0.62|0.2|||ANCOVA|||Change at Week 9: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.20|-0.62|0.3231
82583460|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.212||0.3143|TWO_SIDED|95.0|-0.63|0.2|||ANCOVA|||Change at Week 10: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.20|-0.63|0.3143
82583461|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.222||0.63|TWO_SIDED|95.0|-0.54|0.33|||ANCOVA|||Change at Week 11: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.33|-0.54|0.6300
82583462|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.227||0.5752|TWO_SIDED|95.0|-0.57|0.32|||ANCOVA|||Change at Week 12: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.32|-0.57|0.5752
82651806|NCT02826603|165018601|SUPERIORITY||Odds Ratio (OR)|2.5|||<|0.0001|TWO_SIDED|95.0|1.89|3.31|||Regression, Logistic|||||3.31|1.89|<0.0001
82651807|NCT02826603|165018602|SUPERIORITY||Odds Ratio (OR)|2.86|||<|0.0001|TWO_SIDED|95.0|1.96|4.17|||Regression, Logistic|||||4.17|1.96|<0.0001
82651808|NCT02826603|165018603|SUPERIORITY||Odds Ratio (OR)|2.85|||<|0.0001|TWO_SIDED|95.0|2.19|3.71|||Regression, Logistic|||||3.71|2.19|<0.0001
82651809|NCT02826603|165018604|SUPERIORITY||Odds Ratio (OR)|1.84|||<|0.0001|TWO_SIDED|95.0|1.41|2.41|||Regression, Logistic|||||2.41|1.41|<0.0001
82651810|NCT00905489|165018605|SUPERIORITY_OR_OTHER||Ratio NVP XR: NVP IR (%)|91.2|STANDARD_ERROR_OF_MEAN|1.05||0.008|TWO_SIDED|90.0|83.47|99.64|||Mixed Models Analysis|Adjusted geometric means are estimated from the mixed model for intra-individual comparison.||||99.64|83.47|0.0080
82651811|NCT00526890|165018675|OTHER|||||||0.3149|||||||Wilcoxon (Mann-Whitney)|||Mann-Whitney-Wilcoxon test was used to test the correlation between selenium levels and serious adverse events.||||0.3149
82583463|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.219||0.8905|TWO_SIDED|95.0|-0.46|0.4|||ANCOVA|||Change at Week 13: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.40|-0.46|0.8905
82583464|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.228||0.9991|TWO_SIDED|95.0|-0.45|0.45|||ANCOVA|||Change at Week 14: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.45|-0.45|0.9991
82583465|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.228||0.8927|TWO_SIDED|95.0|-0.48|0.42|||ANCOVA|||Change at Week 15: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.42|-0.48|0.8927
82583466|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.245||0.8067|TWO_SIDED|95.0|-0.54|0.42|||ANCOVA|||Change at Week 16: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.42|-0.54|0.8067
82583467|NCT01049217|164878094|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.19||0.9009|TWO_SIDED|95.0|-0.35|0.4|||ANCOVA|||Change at Endpoint: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.40|-0.35|0.9009
82583468|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.177||0.0948|TWO_SIDED|95.0|-0.64|0.05|||ANCOVA|||Change at Week 4, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.64|0.0948
82583469|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.203||0.4167|TWO_SIDED|95.0|-0.57|0.23|||ANCOVA|||Change at Week 8, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.23|-0.57|0.4167
82583470|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.226||0.8179|TWO_SIDED|95.0|-0.39|0.5|||ANCOVA|||Change at Week 12, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.39|0.8179
82583471|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.209||0.6913|TWO_SIDED|95.0|-0.33|0.5|||ANCOVA|||Change at Week 16, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.50|-0.33|0.6913
82583472|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.203||0.9475|TWO_SIDED|95.0|-0.39|0.41|||ANCOVA|||Change at Endpoint, PSI: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.41|-0.39|0.9475
82583473|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.204||0.7412|TWO_SIDED|95.0|-0.47|0.33|||ANCOVA|||Change at Week 4, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.33|-0.47|0.7412
82583474|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.213||0.9715|TWO_SIDED|95.0|-0.41|0.43|||ANCOVA|||Change at Week 8, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.43|-0.41|0.9715
82583475|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.218||0.8163|TWO_SIDED|95.0|-0.38|0.48|||ANCOVA|||Change at Week 12, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.48|-0.38|0.8163
82583476|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.204||0.3682|TWO_SIDED|95.0|-0.22|0.58|||ANCOVA|||Change at Week 16, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.58|-0.22|0.3682
82583477|NCT01049217|164878095|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.199||0.3511|TWO_SIDED|95.0|-0.21|0.58|||ANCOVA|||Change at Endpoint, PII: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.58|-0.21|0.3511
82583478|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9686|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Burning: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9686
82583479|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.4476|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Change at Endpoint, Squeezing: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.3|-0.6|0.4476
82583480|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.563|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Change at Endpoint, Pressure: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.3|-0.6|0.5630
82583481|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9937|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Electric Shocks: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9937
82583482|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.8718|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Stabbing: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.8718
82583483|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.8241|TWO_SIDED|95.0|-0.5|0.4|||ANCOVA|||Change at Endpoint, Light Touching: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.4|-0.5|0.8241
82487708|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.177|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.177
82583484|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.25||0.3164|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Change at Endpoint, Pressure of Area: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.2|-0.7|0.3164
82583485|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.8996|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Cold of Area: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.8996
82583486|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9676|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Pins and Needles: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9676
82583487|NCT01049217|164878096|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25||0.9091|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Change at Endpoint, Tingling: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.5|-0.5|0.9091
82583488|NCT01049217|164878097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Duration of Spontaneous Pain: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.7300
82583489|NCT01049217|164878097|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0559|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Number of Pain Attacks: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.0559
82487709|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.17||0.014|TWO_SIDED|95.0|-0.76|-0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.76|0.014
82583490|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.025||0.9686|TWO_SIDED|95.0|-0.05|0.05|||ANCOVA|||Change at Endpoint, Burning Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.05|0.9686
82583491|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.022||0.4711|TWO_SIDED|95.0|-0.06|0.03|||ANCOVA|||Change at Endpoint, Pressing Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.06|0.4711
82583492|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.023||0.9215|TWO_SIDED|95.0|-0.04|0.05|||ANCOVA|||Change at Endpoint, Paroxysmal Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.05|-0.04|0.9215
82583493|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.021||0.6042|TWO_SIDED|95.0|-0.05|0.03|||ANCOVA|||Change at Endpoint, Evoked Pain: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.05|0.6042
82583494|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.024||0.9394|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||Change at Endpoint, P/D: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.04|-0.05|0.9394
82583495|NCT01049217|164878098|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.7801|TWO_SIDED|95.0|-0.04|0.03|||ANCOVA|||Change at Endpoint, Total Score: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.03|-0.04|0.7801
82583496|NCT01049217|164878099|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.44|STANDARD_ERROR_OF_MEAN|6.58||0.6012|TWO_SIDED||||||ANCOVA|||Endpoint TST: ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.6012
82583497|NCT01049217|164878099|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|1.89||0.0534|TWO_SIDED||||||ANCOVA|||Endpoint MIS: ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0534
82583498|NCT01049217|164878100|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.62||0.0966|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0966
82583499|NCT01049217|164878101|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|0.51||0.0611|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.0611
82583500|NCT01049217|164878102|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8436.0|STANDARD_ERROR_OF_MEAN|6855.2||0.2195|TWO_SIDED||||||ANCOVA|||ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.||||0.2195
82583501|NCT01049217|164878103|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANCOVA model was used with treatment as a fixed effect and D-drug ART, pooled site value, baseline value as covariates.|LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.66||0.8241|TWO_SIDED||||||ANCOVA|||||||0.8241
82651812|NCT03280537|165018707|SUPERIORITY||Difference in Least Squares Means|-0.59|STANDARD_ERROR_OF_MEAN|0.23||0.014|TWO_SIDED|95.0|-1.05|-0.12||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NPS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.12|-1.05|0.0140
82583502|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|2.052||0.8528|TWO_SIDED|95.0|-4.42|3.66|||ANCOVA|||Change at Endpoint, Sleep Disturbance: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.66|-4.42|0.8528
82583503|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.88|STANDARD_ERROR_OF_MEAN|3.179||0.365|TWO_SIDED|95.0|-3.37|9.14|||ANCOVA|||Change at Endpoint, Snoring: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||9.14|-3.37|0.3650
82583504|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.89|STANDARD_ERROR_OF_MEAN|2.525||0.7237|TWO_SIDED|95.0|-4.07|5.86|||ANCOVA|||Change at Endpoint, SOB: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.86|-4.07|0.7237
82583505|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.165||0.2783|TWO_SIDED|95.0|-0.5|0.15|||ANCOVA|||Change at Endpoint, Quantity: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.15|-0.50|0.2783
82583506|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.02|STANDARD_ERROR_OF_MEAN|2.611||0.2475|TWO_SIDED|95.0|-2.11|8.16|||ANCOVA|||Change at Endpoint, Adequacy: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||8.16|-2.11|0.2475
82583507|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.16|STANDARD_ERROR_OF_MEAN|1.933||0.5492|TWO_SIDED|95.0|-2.64|4.96|||ANCOVA|||Change at Endpoint, Somnolence: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.96|-2.64|0.5492
82583508|NCT01049217|164878104|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|1.614||0.9113|TWO_SIDED|95.0|-3.0|3.36|||ANCOVA|||Change at Endpoint, Sleep Problems Index: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.36|-3.00|0.9113
82583509|NCT01049217|164878105|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7399|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Endpoint: Overall p-value was derived from CMH test adjusted for pooled site and D-drug ART use using modified ridit scores.||||0.7399
82583510|NCT01049217|164878106|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.386||0.8258|TWO_SIDED|95.0|-0.67|0.84|||ANCOVA|||Change at Endpoint, HADS-A: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||0.84|-0.67|0.8258
82583511|NCT01049217|164878106|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.372||0.084|TWO_SIDED|95.0|-0.09|1.38|||ANCOVA|||Change at Endpoint, HADS-D: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.38|-0.09|0.0840
82583512|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|2.393||0.6114|TWO_SIDED|95.0|-3.49|5.92|||ANCOVA|||Change at Endpoint, Ph Fn: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.92|-3.49|0.6114
82583513|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|2.522||0.8209|TWO_SIDED|95.0|-4.39|5.53|||ANCOVA|||Change at Endpoint, R-P: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||5.53|-4.39|0.8209
82583514|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|2.335||0.9737|TWO_SIDED|95.0|-4.52|4.67|||ANCOVA|||Change at Endpoint, BP: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.67|-4.52|0.9737
82583515|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.76|STANDARD_ERROR_OF_MEAN|1.937||0.6966|TWO_SIDED|95.0|-3.05|4.57|||ANCOVA|||Change at Endpoint, GH: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||4.57|-3.05|0.6966
82583516|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.807||0.8569|TWO_SIDED|95.0|-1.44|1.73|||ANCOVA|||Change at Endpoint, Ph C: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.73|-1.44|0.8569
82583517|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|1.847||0.4734|TWO_SIDED|95.0|-4.96|2.31|||ANCOVA|||Change at Endpoint, Vit: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||2.31|-4.96|0.4734
82583518|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.97|STANDARD_ERROR_OF_MEAN|2.159||0.3625|TWO_SIDED|95.0|-6.22|2.28|||ANCOVA|||Change at Endpoint, So Fn: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||2.28|-6.22|0.3625
82583519|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.79|STANDARD_ERROR_OF_MEAN|2.543||0.2736|TWO_SIDED|95.0|-2.21|7.79|||ANCOVA|||Change at Endpoint, R-E: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||7.79|-2.21|0.2736
82583520|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|1.811||0.8199|TWO_SIDED|95.0|-3.98|3.15|||ANCOVA|||Change at Endpoint, MnH: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||3.15|-3.98|0.8199
82583521|NCT01049217|164878107|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.967||0.9361|TWO_SIDED|95.0|-1.82|1.98|||ANCOVA|||Change at Endpoint, Mn C: ANCOVA model was used with terms of treatment, pooled site, D-drug ART use and baseline score.||1.98|-1.82|0.9361
82583522|NCT00998335|164878133|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANOVA|||Baseline versus 3 months||||0.03
82583523|NCT02909764|164878178|OTHER|||||||0.3|||||||ANOVA|||||||0.30
82583524|NCT02909764|164878179|OTHER|Yates's chi-square analyses were used to determine which of the two cereals children in each group preferred at baseline and after the 8-week exposure period, and whether the number of children who shifted preference from the regular cereal at baseline to the low salt cereal after the exposure period differed between groups.|||||<|0.05|||||||Chi-squared|||Yates's chi-square analyses were used to determine which of the two cereals children in each group preferred at baseline and after the 8-week exposure period, and whether the number of children who shifted preference from the regular cereal at baseline to the low salt cereal after the exposure period differed between groups.||||<0.05
82651813|NCT03280537|165018708|SUPERIORITY||Difference in Least Squares Means|-0.5|STANDARD_ERROR_OF_MEAN|0.15||0.0017|TWO_SIDED|95.0|-0.8|-0.19||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NCS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.19|-0.80|0.0017
82583525|NCT02909764|164878180|OTHER|||||||0.32|||||||ANOVA|||||||0.32
82487710|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.286|TWO_SIDED|95.0|-0.52|0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.52|0.286
82487711|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.952|TWO_SIDED|95.0|-0.33|0.35|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.33|0.952
82487712|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.19||0.002|TWO_SIDED|95.0|-0.95|-0.21|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.21|-0.95|0.002
82583526|NCT02909764|164878181|OTHER|||||||0.77|||||||ANOVA|||||||0.77
82583527|NCT02909764|164878182|OTHER|General estimating equations (GEE)|||||<|0.05|||||||GEE|||Generalized estimating equations (GEE) were conducted on the amount of cereal in grams ingested during 28 days home-exposure period. The GEE approach accounts for the repeated measurements of outcomes over time for each child and examines whether the slopes of the lines created differ between the treatment groups.||||<0.05
82583528|NCT02909764|164878183|OTHER|T-tests were conducted to determine whether differences in baseline blood pressure between groups|||||>|0.4|||||||t-test, 2 sided|||T-tests were conducted to determine whether differences in baseline blood pressure between the two groups.||||>0.40
82583529|NCT04227704|164878221|SUPERIORITY|||||||0.09|||||||ANOVA|||||||0.09
82583530|NCT04227704|164878222|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
82583531|NCT04227704|164878229|SUPERIORITY|||||||0.44|||||||ANOVA|||||||0.44
82583532|NCT01775124|164878239|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-2.95|-0.2|||ANOVA|||Descriptive, no hypothesis||-0.2|-2.95|
82583533|NCT02317432|164878252|SUPERIORITY||Slope|-0.12|||<|0.01|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||<0.01
82583534|NCT02317432|164878253|SUPERIORITY||Slope|0.6||||0.03|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.03
82583535|NCT02317432|164878254|SUPERIORITY||Slope|6.0||||0.02|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.02
82583536|NCT02317432|164878255|SUPERIORITY||Slope|-1.24||||0.15|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.15
82583537|NCT02317432|164878256|SUPERIORITY||Slope|-0.49||||0.35|TWO_SIDED|||||Threshold for statistical significance was p\<0.05|Mixed Models Analysis|||||||0.35
82583538|NCT00252733|164878290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.821||||0.0508|TWO_SIDED|95.0|0.673|1.001|||Log Rank|Generalized||||1.001|0.673|0.0508
82586146|NCT05437510|164884199|SUPERIORITY||Efficacy|58.62||||0.0024|TWO_SIDED|95.0|25.115|78.049|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||78.049|25.115|0.0024
82558546|NCT00357994|164826442|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.0086|TWO_SIDED|95.0|-5.3|-0.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.8|-5.3|0.0086
82558547|NCT00357994|164826443|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.502|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||5.6|-2.8|0.5020
82558548|NCT00357994|164826444|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.07|STANDARD_ERROR_OF_MEAN|0.038||0.067|TWO_SIDED|95.0|-0.005|0.146|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding Baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||0.146|-0.005|0.0670
82558549|NCT00357994|164826445|SUPERIORITY_OR_OTHER||Treament Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.1||0.1501|TWO_SIDED|95.0|-10.7|1.7|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||1.7|-10.7|0.1501
82558550|NCT00357994|164826446|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.08|STANDARD_ERROR_OF_MEAN|0.45||0.8574|TWO_SIDED|95.0|-0.98|0.82|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.82|-0.98|0.8574
82558551|NCT00357994|164826447|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-10.4|STANDARD_ERROR_OF_MEAN|4.3||0.0184|TWO_SIDED|95.0|-19.1|-1.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-1.8|-19.1|0.0184
82558552|NCT00357994|164826448|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-11.6|STANDARD_ERROR_OF_MEAN|4.5||0.0129|TWO_SIDED|95.0|-20.6|-2.5|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-2.5|-20.6|0.0129
82558553|NCT00357994|164826449|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-2.2|STANDARD_ERROR_OF_MEAN|3.4||0.5246|TWO_SIDED|95.0|-9.0|4.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.6|-9.0|0.5246
82558554|NCT00357994|164826450|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.2423|TWO_SIDED|95.0|-12.0|3.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||3.1|-12.0|0.2423
82558555|NCT00357994|164826451|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.8|STANDARD_ERROR_OF_MEAN|3.1||0.2243|TWO_SIDED|95.0|-9.9|2.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.4|-9.9|0.2243
82558556|NCT00357994|164826452|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.0|STANDARD_ERROR_OF_MEAN|3.4||0.2407|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.8|-10.8|0.2407
82558557|NCT00357994|164826453|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-13.8|STANDARD_ERROR_OF_MEAN|3.5||0.0002|TWO_SIDED|95.0|-20.8|-6.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-6.8|-20.8|0.0002
82558558|NCT00357994|164826454|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.3|STANDARD_ERROR_OF_MEAN|5.1||0.5213|TWO_SIDED|95.0|-13.6|6.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||6.9|-13.6|0.5213
82558559|NCT00357994|164826455|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3741|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.9|-0.4|0.3741
82558560|NCT00357994|164826456|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0361|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-0.1|-2.4|0.0361
82558561|NCT00357994|164826457|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3578|TWO_SIDED|95.0|-1.1|0.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.4|-1.1|0.3578
82558562|NCT00357994|164826458|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.5|STANDARD_ERROR_OF_MEAN|2.9||0.6088|TWO_SIDED|95.0|-7.4|4.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.4|-7.4|0.6088
82558563|NCT00357994|164826459|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|11.4|STANDARD_ERROR_OF_MEAN|3.7||0.0033|TWO_SIDED|95.0|4.0|18.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||18.9|4.0|0.0033
82487713|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|-0.94|-0.2|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.20|-0.94|0.003
82583539|NCT00876928|164878292|SUPERIORITY_OR_OTHER||Percent of patients developing diabetes|10.0||||0.61|TWO_SIDED|95.0|8.0|12.0||A chi square test was used for the number of participants developing diabetes and a 2-way repeated measures ANOVA for the disposition index|Chi-squared||Primary outcome compared the number of participants developing diabetes after receiving vitamin D or placebo for one year. Secondary outcome compared changes in 2-way repeated measures ANOVA; therefore,no confidence intervals/dispersion parameters|Null hypothesis is that there is no effect of vitamin D on the development of diabetes in people with pre-diabetes and hypovitaminosis D. There were no published data when this trial was started on the effect of vitamin D in pre-diabetes making a power calculation difficult.||12|8|0.61
82583540|NCT00876928|164878293|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||ANOVA|||The null hypothesis is that there would be no difference in the changes in the Disposition Index between the 2 groups over the year.||||0.39
82583541|NCT00558259|164878296|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.08|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.02|0.25|||Regression, Cox|||Dabigatran vs placebo||0.25|0.02|<0.0001
82583542|NCT00558259|164878297|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.08|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001||95.0|0.03|0.27|||Regression, Cox|||Dabigatran vs placebo||0.27|0.03|<0.0001
82583543|NCT00558259|164878298|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||< 0.0001
82583544|NCT00558259|164878298|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.06|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing DVT in Dabigatran group.|||1.06|0.04|
82583545|NCT00558259|164878298|SUPERIORITY_OR_OTHER||Percentage of participants with events|3.5|||||TWO_SIDED|95.0|2.21|5.17|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing DVT in placebo group.|||5.17|2.21|
82583546|NCT00558259|164878299|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Fisher Exact|||Dabigatran vs. Placebo||||0.0004
82583547|NCT00558259|164878299|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.1|||||TWO_SIDED|95.0|0.0|0.82|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing PE in Dabigatran group.|||0.82|0.00|
82583548|NCT00558259|164878299|SUPERIORITY_OR_OTHER||Percentage of participants with events|2.1|||||TWO_SIDED|95.0|1.16|3.52|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing PE in placebo group.|||3.52|1.16|
82583549|NCT00558259|164878300|SUPERIORITY_OR_OTHER|||||||0.2428|||||||Fisher Exact|||Dabigatran vs. Placebo||||0.2428
82583550|NCT00558259|164878300|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.0|||||TWO_SIDED|95.0|0.0|0.54|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants with unexplained death in Dabigatran group.|||0.54|0.00|
82583551|NCT00558259|164878300|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.09|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants with unexplained death in placebo group.|||1.09|0.04|
82583552|NCT00558259|164878301|SUPERIORITY_OR_OTHER|||||||0.4998||||||As the Cox model did not converge due to too few events, hazard ratios are not estimable.|Fisher Exact|||Dabigatran vs. Placebo - Analysis of time to first occurrence of an MBE during the treatment period - FAS - as treated.||||0.4998
82583553|NCT00558259|164878301|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.3|||||TWO_SIDED|95.0|0.04|1.05|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing MBE in Dabigatran group.|||1.05|0.04|
82583554|NCT00558259|164878301|SUPERIORITY_OR_OTHER||Percentage of participants with events|0.0|||||TWO_SIDED|95.0|0.0|0.56|||||The confidence interval (Clopper-Pearson method) was calculated for the percentage of participants experiencing MBE in placebo group.|||0.56|0.00|
82583555|NCT00558259|164878301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.92|STANDARD_ERROR_OF_MEAN|0.97||0.0013|TWO_SIDED|95.0|1.52|5.6|||Regression, Cox|||Dabigatran vs. Placebo- Analysis of time to first occurrence of a MBE or CRBE during the treatment period - FAS - as treated.||5.60|1.52|0.0013
82583556|NCT00558259|164878301|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.82|STANDARD_ERROR_OF_MEAN|0.36||0.0027|TWO_SIDED|95.0|1.23|2.68|||Regression, Cox|||Dabigatran vs. Placebo- Analysis of time to first occurrence of any bleeding event during the treatment period - FAS - as treated||2.68|1.23|0.0027
82583557|NCT02874924|164878304|EQUIVALENCE|Pilot study, therefore, no power calculation available.|Mean Difference (Net)|-1.81||||0.56|TWO_SIDED|95.0|-8.48|4.86|||t-test, 2 sided|||Null hypothesis||4.86|-8.48|0.56
82583558|NCT04601870|164878344|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4137|TWO_SIDED|95.0|0.566|3.973|||Chi-squared|Chi squared equals 0.668 with 1 degrees of freedom|Odds ratio for completing counseling in $50 arm vs. $0 arm|||3.973|.566|0.4137
82583559|NCT04601870|164878344|SUPERIORITY||Odds Ratio (OR)|1.5||||0.4137|TWO_SIDED|95.0|0.566|3.973|||Chi-squared|Chi squared equals 0.668 with 1 degrees of freedom|Odds ratio for completing counseling in $100 arm vs. $0 arm|||3.973|.566|0.4137
82583560|NCT04601870|164878344|SUPERIORITY||Odds Ratio (OR)|1.5||||0.3383|TWO_SIDED|95.0|0.653|3.446|||Chi-squared|Chi squared equals 0.917 with 1 degrees of freedom|Odds ratio for completing counseling in $50 or $100 arm vs. $0 arm|$0 vs. $50 or $100||3.446|.653|.3383
82487714|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.26|-0.52|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.52|-1.26|<0.001
82583561|NCT04601870|164878345|SUPERIORITY||Odds Ratio (OR)|2.333||||0.265|TWO_SIDED|95.0|0.51|10.6751|||Chi-squared|Chi squared equals 1.243 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $50 arm vs. $0 arm|||10.6751|.5100|.2650
82583562|NCT04601870|164878345|SUPERIORITY||Odds Ratio (OR)|0.8333||||0.8472|TWO_SIDED|95.0|0.1301|5.3369|||Chi-squared|Chi squared equals 0.037 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $100 arm vs. $0 arm|||5.3369|.1301|.8472
82583563|NCT04601870|164878345|SUPERIORITY||Odds Ratio (OR)|1.541||||0.5478|TWO_SIDED|95.0|0.3731|6.364|||Chi-squared|Chi squared equals 0.361 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $50 or $100 arms vs. $0 arm|$0 vs. $50 or $100||6.3640|.3731|.5478
82583564|NCT04601870|164878345|SUPERIORITY||Odds Ratio (OR)|0.3571||||0.2276|TWO_SIDED|95.0|0.06355|2.007|||Chi-squared|Chi squared equals 1.456 with 1 degrees of freedom|Odds ratio for achieving confirmed abstinence at 6 months post-tqd in $100 arm vs. $50 arm|||2.0070|.06355|.2276
82583565|NCT00477334|164878399|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.26||||0.4161|TWO_SIDED|95.0|-0.4|0.98|||Hodges-Lehman Shift Model||Difference in time to healing= time to healing for Famciclovir-time to healing for Placebo. Hodges-Lehman shift model is used to estimate the difference in treatment effect. P-value is from the Wilcoxon rank-sum test.|Participants who discontinued from the study before healing of non-aborted lesions was confirmed and participants who completed the study 21 days since treatment initiation without non-aborted lesion stages and without a final assessment on aborted lesion status are imputed according to the distribution of the time to healing among the subjects in the placebo group whose time to healing is greater than or equal to the observed discontinuation time. (Censor time)||0.98|-0.40|0.4161
82583566|NCT00477334|164878399|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.01||||0.9372|TWO_SIDED|95.0|0.74|1.39|||Kaplan-Meier & Cox Regression||"Hazard ratio in time to healing=hazard rate of Famciclovir/hazard rate of Placebo.~Based on Cox proportional hazards model with treatment, pooled center and gender as explanatory variables."|Participants who discontinued from the study before healing of non-aborted lesions was confirmed and participants who completed the study after 21 days since treatment initiation without non-aborted lesion stages and without a final assessment on aborted lesion status were censored at the time of the last clinical lesion observation.||1.39|0.74|0.9372
82583567|NCT01288521|164878417|SUPERIORITY|The null hypothesis is that the tacrolimus biovailability alone is equal to the tacrolimus bioavailability when given with ketoconazole.||||||0.006|||||||Regression, Linear|The bioavailability with Tac alone vs. Tac +keto was compared using linear model adjusting for sex and creatinine clearance.||The bioavailability of Tac alone vs. Tac +keto was compared using a general linear model including sex and creatinine clearance as covariates.||||0.006
82583568|NCT00552240|164878418|NON_INFERIORITY_OR_EQUIVALENCE|A point estimate of -6.5% or higher for the diff. in the prop. of responders (NVP - ATV/r) was to be considered consistent with a successful ArTEN study. In the worst case for both studies, if the 2 studies were to be pooled, the non-inferiority margin of -12% would then be outside the 95% confidence interval (CI).|Difference in proportion of responders|-0.041||||0.7142||95.0|-0.183|0.101|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||With 75 evaluable patients per treatment group, this study had 80% power to observe a difference no lower than -6.5% assuming the true proportions of responders are both 65%.||0.101|-0.183|0.7142
82583569|NCT00552240|164878419|NON_INFERIORITY_OR_EQUIVALENCE|Same as for the primary analysis|Difference in proportion of responders|-0.027||||0.6479||95.0|-0.167|0.113|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.113|-0.167|0.6479
82583570|NCT00552240|164878420|NON_INFERIORITY_OR_EQUIVALENCE|Same as for primary analysis|Difference in proportion of responders|0.084||||0.1477||95.0|-0.03|0.197|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.197|-0.030|0.1477
82583571|NCT00552240|164878421|NON_INFERIORITY_OR_EQUIVALENCE|Same as for primary analysis|Difference in proportion of responders|-0.067||||0.3703||95.0|-0.215|0.08|||Cochran-Mantel-Haenszel|Controlling for screening viral load and CD4+ categories||||0.080|-0.215|0.3703
82583572|NCT00552240|164878422|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.0314||95.0|0.46|0.964|||Regression, Cox|Controlling for screening viral load and CD4+ categories.||Hazard ratio Atazanavir plus ritonavir / Nevirapine. Values \< 1 indicate faster response in nevirapine.||0.964|0.460|0.0314
82583573|NCT00552240|164878423|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.628||||0.0172||95.0|0.428|0.921|||Regression, Cox|Controlling for screening viral load and CD4+ categories||"Responders only~Hazard ratio Atazanavir plus ritonavir / Nevirapine. Values \< 1 indicate faster response in nevirapine."||0.921|0.428|0.0172
82583574|NCT00552240|164878451|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.8||||0.7315||95.0|-8.4|11.9|||ANCOVA|Controlling for screening viral load and CD4+ categories||||11.9|-8.4|0.7315
82583575|NCT00552240|164878452|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-10.6||||0.3625||95.0|-33.4|12.3|||ANCOVA|Controlling for screening viral load and CD4+ categories||||12.3|-33.4|0.3625
82583576|NCT00552240|164878453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8||||0.0164||95.0|0.9|8.8|||ANCOVA|Controlling for screening viral load and CD4+ categories||||8.8|0.9|0.0164
82583577|NCT00552240|164878454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.9257||95.0|-8.4|9.3|||ANCOVA|Controlling for screening viral load and CD4+ categories||||9.3|-8.4|0.9257
82651814|NCT03280537|165018709|SUPERIORITY||Difference in Least Squares Means|-0.45|STANDARD_ERROR_OF_MEAN|0.14||0.0024|TWO_SIDED|95.0|-0.73|-0.16||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline SSS, treatment and baseline SSS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Sense of Smell Score (SSS) at Week 24.||-0.16|-0.73|0.0024
82583578|NCT00552240|164878455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0375||95.0|-0.64|-0.02|||ANCOVA|Controlling for screening viral load and CD4+ categories||||-0.02|-0.64|0.0375
82583579|NCT00552240|164878456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.4645||95.0|-1.02|0.47|||ANCOVA|Controlling for screening viral load and CD4+ categories||||0.47|-1.02|0.4645
82586147|NCT05437510|164884199|SUPERIORITY||Efficacy|70.74||||0.0037|TWO_SIDED|95.0|29.567|89.396|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of all-cause LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||89.396|29.567|0.0037
82487715|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.29|-0.55|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.55|-1.29|<0.001
82487716|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.19||0.972|TWO_SIDED|95.0|-0.36|0.38|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.38|-0.36|0.972
82583580|NCT02679573|164878466|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|-0.2|||||TWO_SIDED|95.0|-4.4|4.1|||||Difference = Difference in responder rates (Delafloxacin treatment group minus Moxifloxacin treatment group). Confidence intervals are calculated using Miettinen and Nurminen method without stratification.|"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125 where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) were presented, and the Miettinen-Nurminen test, without stratification, was used for the 2 sided 95% CI on the difference in response rate."||4.1|-4.4|
82583581|NCT02679573|164878467|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|9.7|||||TWO_SIDED|95.0|3.0|16.3||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||16.3|3.0|
82583582|NCT02679573|164878468|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.8|||||TWO_SIDED|95.0|-3.3|4.8||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||4.8|-3.3|
82583583|NCT02679573|164878469|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.8|||||TWO_SIDED|95.0|-3.0|4.6||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||4.6|-3.0|
82586148|NCT05437510|164884200|SUPERIORITY||Efficacy|82.44|||<|0.0001|TWO_SIDED|95.0|67.271|91.357|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.357|67.271|<0.0001
82558564|NCT03559205|164826466|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.96|TWO_SIDED|95.0|-0.74|0.7|||t-test, 2 sided|||2 Week Analysis||0.70|-0.74|0.96
82558565|NCT03559205|164826467|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.9|TWO_SIDED|95.0|-2.31|2.04|||t-test, 2 sided|||Baseline||2.04|-2.31|0.90
82558566|NCT03559205|164826467|SUPERIORITY||Mean Difference (Final Values)|2.01||||0.21|TWO_SIDED|95.0|-1.17|5.19|||t-test, 2 sided|||2 Week Analysis||5.19|-1.17|0.21
82558567|NCT03559205|164826467|SUPERIORITY||Mean Difference (Final Values)|0.94||||0.63|TWO_SIDED|95.0|-2.95|4.83|||t-test, 2 sided|||3-Month||4.83|-2.95|0.63
82558568|NCT03559205|164826468|SUPERIORITY||Mean Difference (Final Values)|2.63||||0.15|TWO_SIDED|95.0|-1.0|6.26|||t-test, 2 sided|||Baseline||6.26|-1.00|0.15
82558569|NCT03559205|164826468|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.3|TWO_SIDED|95.0|-2.02|6.45|||t-test, 2 sided|||Week 2 analysis||6.45|-2.02|0.30
82558570|NCT03559205|164826468|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.85|TWO_SIDED|95.0|-4.89|5.9|||t-test, 2 sided|||3-Month||5.90|-4.89|0.85
82558571|NCT03559205|164826469|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.72|TWO_SIDED|95.0|-0.51|0.74|||t-test, 2 sided|||Care and respect||0.74|-0.51|0.72
82558572|NCT03559205|164826469|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.46|TWO_SIDED|95.0|-0.38|0.83|||t-test, 2 sided|||Understanding \& engagement||0.83|-0.38|0.46
82558573|NCT03559205|164826470|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.3|TWO_SIDED|95.0|-0.13|0.42|||t-test, 2 sided|||2-weeks||0.42|-0.13|0.30
82558574|NCT03559205|164826470|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.38|TWO_SIDED|95.0|-0.2|0.52|||t-test, 2 sided|||3-months||0.52|-0.20|0.38
82558575|NCT03559205|164826471|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.61|TWO_SIDED|95.0|-1.48|0.88|||t-test, 2 sided|||||0.88|-1.48|0.61
82558576|NCT01613417|164826510|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.5||||0.8516|TWO_SIDED|95.0|-4.6|5.6||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||5.6|-4.6|0.8516
82583584|NCT02679573|164878470|NON_INFERIORITY|Used on a normal approximation approach (Miettinen and Nurminen's Likelihood Score Test), 860 subjects in the ITT population provided a 90% power to assess non-inferiority of delafloxacin vs. moxifloxacin based on the following assumptions: (1) a rate of ECR for moxifloxacin therapy and delafloxacin of 77% and 74%, respectively; (2) 1 sided type I error (α) of 0.025; and (3) a non-inferiority margin of 12.5%.|Difference in responder rates|0.5|||||TWO_SIDED|95.0|-4.8|5.9||||||"The null (H0) and alternative (Ha) hypotheses to be tested to establish the noninferiority of delafloxacin were:~H0: Pd - Pm ≤ -0.125 Ha: Pd - Pm \> -0.125~where Pd and Pm are the probabilities of the ECR for delafloxacin and moxifloxacin, respectively.~The treatment difference (delafloxacin - moxifloxacin) was presented, and the Miettinen-Nurminen test without stratification was used for the 2 sided 95% CI on the difference in response rate."||5.9|-4.8|
82583585|NCT02679573|164878471|OTHER|||||||0.5951||||||The log-rank test was used to compare the time to all-cause mortality between the 2 treatment groups.|Log Rank|||||||0.5951
82583586|NCT02483585|164878477|SUPERIORITY|A sequential testing procedure, specifically, the hierarchical gate-keeping procedures and Hochberg method, was used to maintain the 2-sided study-wise type I error at 0.05 between the primary and efficacy secondary endpoints.|LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.61|-0.47|||Generalized Linear Mixed Model|||The primary endpoint was analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and prior/current treatment with migraine prophylactic medication), scheduled visit, and the interaction of treatment group with scheduled visit.||-0.47|-1.61|< 0.001
82583587|NCT02483585|164878478|SUPERIORITY||Odds Ratio (OR)|1.59||||0.01|TWO_SIDED|95.0|1.12|2.27|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||2.27|1.12|0.010
82583588|NCT02483585|164878479|SUPERIORITY||LS Mean Difference|-0.59||||0.002|TWO_SIDED|95.0|-0.96|-0.21|||Generalized Linear Mixed Model|||Analyzed using a linear mixed effects model including treatment group, baseline value, stratification factors (region and prior/current treatment with migraine prophylactic medication), scheduled visit, and the interaction of treatment group with scheduled visit.||-0.21|-0.96|0.002
82583589|NCT02483585|164878480|SUPERIORITY||Odds Ratio (OR)|1.22||||0.26|TWO_SIDED|95.0|0.87|1.71|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||1.71|0.87|0.26
82583590|NCT02483585|164878481|SUPERIORITY||Odds Ratio (OR)|1.33||||0.13|TWO_SIDED|95.0|0.92|1.9|||Cochran-Mantel-Haenszel|||Analyzed using a Cochran-Mantel-Haenszel (CMH) test after the missing data were imputed as nonresponse, stratified by stratification factors (region and prior/current treatment with migraine prophylactic medication).||1.90|0.92|0.13
82583591|NCT00912301|164878494|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Dunnett's test|pairwise comparison low dose NaCDC against placebo||||||0.031
82583592|NCT00912301|164878494|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Dunnett's test|pairwise comparison high dose NaCDC against placebo||||||0.010
82583593|NCT02943226|164878534|SUPERIORITY|||||||0.4487|||||||two sample t-test|||||||0.4487
82583594|NCT02943226|164878535|SUPERIORITY|||||||0.0112|||||||Wilcoxon (Mann-Whitney)|||||||0.0112
82558577|NCT01613417|164826510|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.0||||1|TWO_SIDED|95.0|-3.8|3.8||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||3.8|-3.8|1.0
82558578|NCT01613417|164826510|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation was based on primary endpoint. 185 patients were deemed necessary for the lower limit of the observed 2-sided 95% confidence interval for the difference to exceed -5% with 85% power.|Percentage PH better minus GV better|0.5||||1|TWO_SIDED|95.0|-0.5|1.5||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)||Difference in percentage ProHance better minus percentage Gadovist/Gadavist better (%)|||1.5|-0.5|1.0
82558579|NCT01613417|164826511|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82583595|NCT02943226|164878536|SUPERIORITY|||||||0.0784|||||||two sample t-test|||||||0.0784
82583596|NCT00116753|164878600|SUPERIORITY_OR_OTHER||Percentage of partcipants|78.3|||||TWO_SIDED|96.5|69.0|86.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||86|69|
82583597|NCT00116753|164878600|SUPERIORITY_OR_OTHER||Percentage of participants|79.5|||||TWO_SIDED|96.5|71.0|87.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||87|71|
82583598|NCT00116753|164878600|SUPERIORITY_OR_OTHER||Percentage of participants|85.3|||||TWO_SIDED|96.5|77.0|91.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||91|77|
82583599|NCT00116753|164878600|SUPERIORITY_OR_OTHER|||||||0.3022||95.0|||||Mantel Haenszel|||||||0.3022
82583600|NCT00116753|164878600|SUPERIORITY_OR_OTHER|||||||0.7797||95.0|||||Mantel Haenszel|||||||0.7797
82583601|NCT00116753|164878600|SUPERIORITY_OR_OTHER|||||||0.1557||95.0|||||Mantel Haenszel|||||||0.1557
82558580|NCT01613417|164826511|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558581|NCT01613417|164826511|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558582|NCT01613417|164826512|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558583|NCT01613417|164826512|SUPERIORITY_OR_OTHER|||||||0.6875|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||0.6875
82558584|NCT01613417|164826512|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558585|NCT01613417|164826513|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82583602|NCT00116753|164878600|SUPERIORITY_OR_OTHER|||||||0.2208||95.0|||||Mantel Haenszel|||||||0.2208
82583603|NCT00116753|164878601|SUPERIORITY_OR_OTHER||Percentage of participants|80.7|||||TWO_SIDED|96.5|72.0|88.0|||||Estimated value is the percentage of participants with all testosterone values from after Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||88|72|
82583604|NCT00116753|164878601|SUPERIORITY_OR_OTHER||Percentage of participants|80.2|||||TWO_SIDED|96.5|72.0|87.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||87|72|
82583605|NCT00116753|164878601|SUPERIORITY_OR_OTHER||Percentage of participants|86.0|||||TWO_SIDED|96.5|78.0|92.0|||||Estimated value is the percentage of participants with all testosterone values from Day 28 to end of study \<=0.5 ng/mL. Measure dispersion is the 96.5% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||92|78|
82583606|NCT00116753|164878601|SUPERIORITY_OR_OTHER|||||||0.383||95.0|||||Mantel Haenszel|||||||0.3830
82583607|NCT00116753|164878601|SUPERIORITY_OR_OTHER|||||||0.9587||95.0|||||Mantel Haenszel|||||||0.9587
82583608|NCT00116753|164878601|SUPERIORITY_OR_OTHER|||||||0.2579||95.0|||||Mantel Haenszel|||||||0.2579
82583609|NCT00116753|164878601|SUPERIORITY_OR_OTHER|||||||0.2072||95.0|||||Mantel Haenszel|||||||0.2072
82583610|NCT00116753|164878602|SUPERIORITY_OR_OTHER||Percentage of participants|97.3|||||TWO_SIDED|95.0|93.0|99.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||99|93|
82558586|NCT01613417|164826513|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82583611|NCT00116753|164878602|SUPERIORITY_OR_OTHER||Percentage of participants|97.9|||||TWO_SIDED|95.0|94.0|100.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||100|94|
82583612|NCT00116753|164878602|SUPERIORITY_OR_OTHER||Percentage of participants|97.9|||||TWO_SIDED|95.0|94.0|100.0|||||Estimated value is the percentage of participants with testosterone \<=0.5 ng/mL at Day 28. Measure dispersion is the 95% two-sided confidence interval which was calculated by the Clopper-Pearson method.|||100|94|
82558587|NCT01613417|164826513|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558588|NCT01613417|164826514|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558589|NCT01613417|164826514|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82583613|NCT02891408|164878620|OTHER||Geometric least-square mean (GLSM) ratio|181.0|||||TWO_SIDED|90.0|98.0|332.0||||||AUClast of Firsocostat||332|98|
82583614|NCT02891408|164878620|OTHER||GLSM ratio|881.0|||||TWO_SIDED|90.0|488.0|1589.0||||||AUClast of Firsocostat||1589|488|
82583615|NCT02891408|164878620|OTHER||GLSM ratio|3081.0|||||TWO_SIDED|90.0|2446.0|3881.0||||||AUClast of Firsocostat||3881|2446|
82583616|NCT02891408|164878620|OTHER||GLSM ratio|430.0|||||TWO_SIDED|90.0|185.0|998.0||||||AUClast of GS-834773||998|185|
82583617|NCT02891408|164878620|OTHER||GLSM ratio|4417.0|||||TWO_SIDED|90.0|1867.0|10449.0||||||AUClast of GS-834773||10449|1867|
82583618|NCT02891408|164878620|OTHER||GLSM ratio|14676.0|||||TWO_SIDED|90.0|7932.0|27153.0||||||AUClast of GS-834773||27153|7932|
82583619|NCT02891408|164878620|OTHER||GLSM ratio|122.0|||||TWO_SIDED|90.0|86.0|173.0||||||AUClast of Fenofibric Acid||173|86|
82583620|NCT02891408|164878621|OTHER||GLSM ratio|183.0|||||TWO_SIDED|90.0|100.0|337.0||||||AUCinf of Firsocostat||337|100|
82583621|NCT02891408|164878621|OTHER||GLSM ratio|869.0|||||TWO_SIDED|90.0|482.0|1568.0||||||AUCinf of Firsocostat||1568|482|
82583622|NCT02891408|164878621|OTHER||GLSM ratio|2976.0|||||TWO_SIDED|90.0|2389.0|3708.0||||||AUCinf of Firsocostat||3708|2389|
82583623|NCT02891408|164878621|OTHER||GLSM ratio|399.0|||||TWO_SIDED|90.0|179.0|892.0||||||AUCinf of GS-834773||892|179|
82583624|NCT02891408|164878621|OTHER||GLSM ratio|3843.0|||||TWO_SIDED|90.0|1641.0|9000.0||||||AUCinf of GS-834773||9000|1641|
82583625|NCT02891408|164878621|OTHER||GLSM ratio|10712.0|||||TWO_SIDED|90.0|6525.0|17585.0||||||AUCinf of GS-834773||17585|6525|
82583626|NCT02891408|164878621|OTHER||GLSM ratio|125.0|||||TWO_SIDED|90.0|89.0|174.0||||||AUCinf of Fenofibric Acid||174|89|
82583627|NCT02891408|164878622|OTHER||GLSM ratio|169.0|||||TWO_SIDED|90.0|87.0|326.0||||||Cmax of Firsocostat||326|87|
82583628|NCT02891408|164878622|OTHER||GLSM ratio|905.0|||||TWO_SIDED|90.0|537.0|1526.0||||||Cmax of Firsocostat||1526|537|
82583629|NCT02891408|164878622|OTHER||GLSM ratio|2719.0|||||TWO_SIDED|90.0|1994.0|3708.0||||||Cmax of Firsocostat||3708|1994|
82583630|NCT02891408|164878622|OTHER||GLSM ratio|391.0|||||TWO_SIDED|90.0|163.0|942.0||||||Cmax of GS-834773||942|163|
82583631|NCT02891408|164878622|OTHER||GLSM ratio|4470.0|||||TWO_SIDED|90.0|2170.0|9207.0||||||Cmax of GS-834773||9207|2170|
82583632|NCT02891408|164878622|OTHER||GLSM ratio|9278.0|||||TWO_SIDED|90.0|4945.0|17407.0||||||Cmax of GS-834773||17407|4945|
82583633|NCT02891408|164878622|OTHER||GLSM ratio|109.0|||||TWO_SIDED|90.0|81.0|146.0||||||Cmax of Fenofibric Acid||146|81|
82651815|NCT03280537|165018710|SUPERIORITY||Difference in Least Squares Means|-0.54|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.81|-0.27||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline PRS, treatment and baseline PRS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Posterior Rhinorrhea Score (PRS) at Week 24.||-0.27|-0.81|0.0001
82558590|NCT01613417|164826514|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||P-value from Wilcoxon signed-rank test|Wilcoxon (Mann-Whitney)|||||||1.0
82558591|NCT01613417|164826515|SUPERIORITY_OR_OTHER|||||||0.2758|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.2758
82558592|NCT01613417|164826515|SUPERIORITY_OR_OTHER|||||||0.0676|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.0676
82583634|NCT02697292|164878676|SUPERIORITY||Odds Ratio (OR)|10.5||||0.044|TWO_SIDED|95.0|1.1|98.9|||t-test, 1 sided|||||98.9|1.1|0.044
82583635|NCT02697292|164878677|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
82487717|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.096|TWO_SIDED|95.0|-0.69|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.69|0.096
82487718|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.19||0.069|TWO_SIDED|95.0|-0.72|0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.72|0.069
82487719|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.19||0.902|TWO_SIDED|95.0|-0.39|0.35|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.39|0.902
82487720|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.93|-0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.22|-0.93|0.002
82487721|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.33|-0.61|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.61|-1.33|<0.001
82487722|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.38|-0.66|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.66|-1.38|<0.001
82487723|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.55|-0.84|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.84|-1.55|<0.001
82487724|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.028|TWO_SIDED|95.0|-0.75|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.75|0.028
82487725|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.013|TWO_SIDED|95.0|-0.81|-0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.81|0.013
82487726|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.18||0.217|TWO_SIDED|95.0|-0.58|0.13|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.58|0.217
82487727|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.18||0.351|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.53|0.351
82487728|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.28|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.28|-1.05|<0.001
82586149|NCT05437510|164884200|SUPERIORITY||Efficacy|86.11|||<|0.0001|TWO_SIDED|95.0|60.283|96.459|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||96.459|60.283|<0.0001
82487729|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.22|-0.45|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.45|-1.22|<0.001
82487730|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.38|-0.62|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.62|-1.38|<0.001
82487731|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.57|-0.8|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.80|-1.57|<0.001
82487732|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.389|TWO_SIDED|95.0|-0.55|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.55|0.389
82487733|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.087|TWO_SIDED|95.0|-0.72|0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.72|0.087
82487734|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.072|TWO_SIDED|95.0|-0.74|0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.74|0.072
82487735|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.34|TWO_SIDED|95.0|-0.57|0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.20|-0.57|0.340
82487736|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
82487737|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.11|-0.39|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.39|-1.11|<0.001
82487738|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.42|-0.69|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.69|-1.42|<0.001
82558593|NCT01613417|164826515|SUPERIORITY_OR_OTHER|||||||0.5267|TWO_SIDED||||||Mixed Models Analysis|Mixed effect model with period, sequence, and IP and fixed effect and subject nested within sequence as random effect||||||0.5267
82558594|NCT01613417|164826516|SUPERIORITY_OR_OTHER|||||||0.6201|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.6201
82558595|NCT01613417|164826516|SUPERIORITY_OR_OTHER|||||||0.4514|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.4514
82558596|NCT01613417|164826516|SUPERIORITY_OR_OTHER|||||||0.7722|TWO_SIDED||||||Mixed Models Analysis|Investigation product (IP) effect from mixed model with period, sequence, and IP as fixed effects and subject nested within sequence as random effect.||||||0.7722
82558597|NCT01613417|164826517|SUPERIORITY_OR_OTHER|||||||0.3173|TWO_SIDED||||||McNemar|||||||0.3173
82558598|NCT01613417|164826517|SUPERIORITY_OR_OTHER|||||||0.5637|TWO_SIDED||||||McNemar|||||||0.5637
82558599|NCT01613417|164826517|SUPERIORITY_OR_OTHER|||||||0.0455|TWO_SIDED||||||McNemar|||||||0.0455
82558600|NCT01613417|164826518|SUPERIORITY_OR_OTHER|||||||0.6949|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.6949
82558601|NCT01613417|164826518|SUPERIORITY_OR_OTHER|||||||0.1317|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.1317
82558602|NCT01613417|164826518|SUPERIORITY_OR_OTHER|||||||0.0124|TWO_SIDED||||||McNemar|||McNemar test of difference (ProHance minus Gadovist/Gadavist) in accuracy for tumor characterization||||0.0124
82586150|NCT05437510|164884200|SUPERIORITY||Efficacy|85.2||||0.0004|TWO_SIDED|95.0|50.084|97.183|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.183|50.084|0.0004
82558603|NCT03732807|164826524|SUPERIORITY||Estimate of difference|29.11|||<|1e-06|TWO_SIDED|95.0|21.17|37.91|||Miettinen and Nurminen method|||||37.91|21.17|<0.000001
82558604|NCT03732807|164826524|SUPERIORITY||Estimate of difference|20.78|||<|1e-06|TWO_SIDED|95.0|13.65|29.18|||Miettinen and Nurminen method|||||29.18|13.65|<0.000001
82558605|NCT03732807|164826524|SUPERIORITY||Estimate of difference|21.85|||<|1e-06|TWO_SIDED|95.0|14.65|30.23|||Miettinen and Nurminen method|||||30.23|14.65|<0.000001
82558606|NCT03732807|164826524|SUPERIORITY||Estimate of difference|12.75||||0.000154|TWO_SIDED|95.0|6.69|20.36|||Miettinen and Nurminen method|||||20.36|6.69|0.000154
82558607|NCT03732807|164826525|SUPERIORITY||Estimate of difference|19.75|||<|1e-06|TWO_SIDED|95.0|11.91|27.59|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||27.59|11.91|<0.000001
82558608|NCT03732807|164826525|SUPERIORITY||Estimate of difference|11.33||||0.000526||95.0|4.93|17.74|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||17.74|4.93|0.000526
82558609|NCT03732807|164826525|SUPERIORITY||Estimate of difference|11.88||||0.000311||95.0|5.42|18.33|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||18.33|5.42|0.000311
82558610|NCT03732807|164826525|SUPERIORITY||Estimate of difference|9.09||||0.002922||95.0|3.1|15.07|||Miettinen and Nurminen method|||A generalized linear mixed effect model without imputation using observed data up to Week 24 was used as the imputation model. A single complete imputed data set for Week 24 was analyzed using the Miettinen and Nurminen method as the analysis model.||15.07|3.10|0.002922
82558611|NCT03732807|164826526|SUPERIORITY||Estimate of difference|20.24|||<|1e-06||95.0|13.23|28.49|||Miettinen and Nurminen method|||||28.49|13.23|<0.000001
82558612|NCT03732807|164826526|SUPERIORITY||Estimate of difference|11.68||||0.000337||95.0|5.82|19.07|||Miettinen and Nurminen method|||||19.07|5.82|0.000337
82558613|NCT03732807|164826526|SUPERIORITY||Estimate of difference|12.17||||0.000228||95.0|6.27|19.53|||Miettinen and Nurminen method|||||19.53|6.27|0.000228
82558614|NCT03732807|164826526|SUPERIORITY||Estimate of difference|9.39||||0.001875|TWO_SIDED|95.0|3.86|16.46|||Miettinen and Nurminen method|||||16.46|3.86|0.001875
82558615|NCT03732807|164826527|SUPERIORITY||Estimate of difference|42.96|||<|1e-06|TWO_SIDED|95.0|31.68|54.25|||Miettinen and Nurminen method|||||54.25|31.68|<0.000001
82558616|NCT03732807|164826527|SUPERIORITY||Estimate of difference|36.18|||<|1e-06|TWO_SIDED|95.0|25.22|47.14|||Miettinen and Nurminen method|||||47.14|25.22|<0.000001
82558617|NCT03732807|164826527|SUPERIORITY||Estimate of difference|39.96|||<|1e-06|TWO_SIDED|95.0|28.85|51.06|||Miettinen and Nurminen method|||||51.06|28.85|<0.000001
82558618|NCT03732807|164826527|SUPERIORITY||Estimate of difference|32.72|||<|1e-06|TWO_SIDED|95.0|21.95|43.5|||Miettinen and Nurminen method|||||43.50|21.95|<0.000001
82558619|NCT03274076|164826553|SUPERIORITY||Rate ratio|1.25|||||TWO_SIDED|90.0|0.19|8.33|||||Tofacitinib represents the numerator, and placebo represents the denominator.|H0: Rate of grade 3 (severe) or higher adverse events that occur throughout week 48 in Placebo = Rate of grade 3 (severe) or higher adverse events that occur throughout week 48 in Tofacitinib.||8.33|0.19|
82558620|NCT03274076|164826554|SUPERIORITY||Rate ratio|0.65|||||TWO_SIDED|90.0|0.25|1.71|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 12 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 12 in Tofacitinib||1.71|0.25|
82558621|NCT03274076|164826554|SUPERIORITY||Rate ratio|0.53|||||TWO_SIDED|90.0|0.26|1.07|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 24 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 24 in Tofacitinib||1.07|0.26|
82651816|NCT03280537|165018711|SUPERIORITY||Difference in Least Squares Means|-0.91|STANDARD_ERROR_OF_MEAN|0.24||0.0002|TWO_SIDED|95.0|-1.39|-0.44||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the NPS at Week 16.||-0.44|-1.39|0.0002
82487739|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.59|-0.87|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.87|-1.59|<0.001
82487740|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.762|TWO_SIDED|95.0|-0.42|0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.42|0.762
82487741|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.19||0.056|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.72|0.056
82487742|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.01|TWO_SIDED|95.0|-0.84|-0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.84|0.010
82487743|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.19||0.335|TWO_SIDED|95.0|-0.54|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.54|0.335
82487744|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.18|-0.38|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.38|-1.18|<0.001
82487745|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.24|-0.44|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.44|-1.24|<0.001
82487746|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.25|-0.46|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.46|-1.25|<0.001
82487747|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.52|-0.73|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.73|-1.52|<0.001
82487748|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.782|TWO_SIDED|95.0|-0.46|0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.34|-0.46|0.782
82487749|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.719|TWO_SIDED|95.0|-0.47|0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.47|0.719
82487750|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.2||0.158|TWO_SIDED|95.0|-0.69|0.11|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.69|0.158
82487751|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.183|TWO_SIDED|95.0|-0.67|0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.67|0.183
82487752|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.004|TWO_SIDED|95.0|-0.9|-0.18|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.90|0.004
82487753|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.05|-0.33|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.05|<0.001
82487754|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.2|0.48|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.48|-1.20|<0.001
82487755|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.48|-0.76|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.76|-1.48|<0.001
82487756|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.18||0.408|TWO_SIDED|95.0|-0.51|0.21|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.21|-0.51|0.408
82487757|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.097|TWO_SIDED|95.0|-0.67|0.06|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.67|0.097
82487758|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.018|TWO_SIDED|95.0|-0.79|-0.07|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.79|0.018
82558622|NCT03274076|164826554|SUPERIORITY||Rate ratio|0.85|||||TWO_SIDED|90.0|0.49|1.49|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 36 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 36 in Tofacitinib||1.49|0.49|
82583636|NCT01809002|164878712|NON_INFERIORITY|The primary endpoint tested non-inferiority as compared to collagen nerve cuff and superior to no treatment. Non-inferiority is defined as the lower limit of the 95% CI about the difference of \> -2 and the upper limit of the 95% CI for s2PD for Avance of \< 13 in ITT table.|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-1.087|1.574|||ANCOVA|||The analysis was performed using a pre-defined standard statistical analysis with a non-response/failure assigned a worst-case scenario value of 16mm.||1.574|-1.087|
82487759|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.132|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.64|0.132
82558623|NCT03274076|164826554|SUPERIORITY||Rate ratio|0.89|||||TWO_SIDED|90.0|0.52|1.52|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of grade 2 (moderate) or higher adverse events that occur throughout week 48 in Placebo = Rate of grade 2 (moderate) or higher adverse events that occur throughout week 48 in Tofacitinib||1.52|0.52|
82558624|NCT03274076|164826555|SUPERIORITY||Rate ratio|3.85|||||TWO_SIDED|90.0|0.68|21.77|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of adverse events of special interest throughout week 36 in Placebo = Rate of adverse events of special interest throughout week 36 in Tofacitinib||21.77|0.68|
82558625|NCT03274076|164826555|SUPERIORITY||Rate ratio|1.87|||||TWO_SIDED|90.0|0.5169|6.7652|||||Tofacitinib represents the numerator, and Placebo represents the denominator.|H0: Rate of adverse events of special interest throughout week 48 in Placebo = Rate of adverse events of special interest throughout week 48 in Tofacitinib||6.7652|0.5169|
82558626|NCT03274076|164826556|SUPERIORITY|||||||0.1978|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 12 in placebo = The absolute change in mRSS from week 0 to week 12 in Tofacitinib.||||0.1978
82558627|NCT03274076|164826556|SUPERIORITY|||||||0.4665|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 24 in placebo = The absolute change in mRSS from week 0 to week 24 in Tofacitinib.||||0.4665
82558628|NCT03274076|164826556|SUPERIORITY|||||||0.3063|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 36 in placebo = The absolute change in mRSS from week 0 to week 36 in Tofacitinib.||||0.3063
82558629|NCT03274076|164826556|SUPERIORITY|||||||0.6|||||||Exact Wilcoxon|||H0: The absolute change in mRSS from week 0 to week 48 in placebo = The absolute change in mRSS from week 0 to week 48 in Tofacitinib.||||0.6000
82558630|NCT03274076|164826557|SUPERIORITY|||||||0.4535|||||||Exact Wilcoxon|||H0: The CRISS score at week 12 in placebo = The CRISS score at week 12 in Tofacitinib.||||0.4535
82558631|NCT03274076|164826557|SUPERIORITY|||||||0.8392|||||||Exact Wilcoxon|||H0: The CRISS score at week 24 in placebo = The CRISS score at week 24 in Tofacitinib.||||0.8392
82558632|NCT03274076|164826557|SUPERIORITY|||||||0.9212|||||||Exact Wilcoxon|||H0: The CRISS score at week 48 in placebo = The CRISS score at week 48 in Tofacitinib.||||0.9212
82558633|NCT03387189|164826624|SUPERIORITY|Alpha - 0.05|Odds Ratio (OR)|0.39||||0.031|TWO_SIDED|95.0|0.17|0.91|||Regression, Logistic|Adjusted for length of second stage cesarean section, fetal station, delivery method, use of instrumentation , parity, and gestational age|Y = Intervention + Time + Intervention\*Time + Covariates. Provided estimation parameter is the OR from the interaction term and can be interpreted as the differential change in odds of outcome from pre to post period associated with the intervention.|||0.91|0.17|0.031
82558634|NCT03387189|164826625|SUPERIORITY|Alpha - 0.05|Odds Ratio (OR)|1.46||||0.465|TWO_SIDED|95.0|0.53|4.03|||Regression, Logistic|Adjusted for length of second stage cesarean section, fetal station, delivery method, use of instrumentation , parity, and gestational age|Y = Intervention + Time + Intervention\*Time + Covariates. Provided estimation parameter is the OR from the interaction term and can be interpreted as the differential change in odds of outcome from pre to post period associated with the intervention.|||4.03|0.53|0.465
82558635|NCT03387189|164826626|SUPERIORITY|alpha - 0.05|Mean Difference (Final Values)|-11.4||||0.01|TWO_SIDED|95.0|-20.4|-2.5|||t-test, 2 sided|||||-2.5|-20.4|0.01
82558636|NCT03387189|164826627|SUPERIORITY|Alpha - 0.05|Mean Difference (Final Values)|-1.0||||0.75|TWO_SIDED|95.0|-76.0|5.5|||t-test, 2 sided|||||5.5|-76.0|0.75
82558637|NCT03387189|164826628|SUPERIORITY|Alpha - 0.05|Mean Difference (Final Values)|-0.5||||0.02|TWO_SIDED|95.0|-1.0|-0.1|||t-test, 2 sided|||||-0.1|-1.0|0.02
82558638|NCT03387189|164826631|SUPERIORITY|Alpha - 0.05|Risk Difference (RD)|0.116||||0.1|TWO_SIDED|95.0|-0.01|0.24|||Fisher Exact|||||0.24|-0.01|0.10
82558639|NCT03387189|164826633|SUPERIORITY|Alpha - 0.05|Risk Difference (RD)|0.028||||0.81|TWO_SIDED|95.0|-0.12|17.8|||Fisher Exact|||||17.8|-0.12|0.81
82558640|NCT03387189|164826634|SUPERIORITY|Alpha - 0.05|Risk Ratio (RR)|0.01||||1|TWO_SIDED|95.0|-0.11|0.13|||Fisher Exact|||||0.13|-0.11|1.0
82558641|NCT03924869|164826675|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2932|TWO_SIDED|95.0|0.69|1.24||1-sided p-value based on log-rank test stratified by Disease Stage, ECOG Performance Status, Geographic Region of Enrollment Site, and Reason For Not Receiving Surgery.|Log Rank|||"Hazard ratio and 95% confidence intervals (CIs) were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery)."||1.24|0.69|0.29320
82558642|NCT03924869|164826676|OTHER||Hazard Ratio (HR)|1.33||||0.93971|TWO_SIDED|95.0|0.93|1.9||1-sided p-value based on log-rank test stratified by Disease Stage, ECOG Performance Status, Geographic Region of Enrollment Site, and Reason For Not Receiving Surgery.|Log Rank|Per protocol, since the EFS null hypothesis was not rejected, the OS hypothesis was not formally tested and the p-value should be considered nominal.||"Hazard ratio and 95% CIs were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason for Not Receiving Surgery (medically inoperable versus refused surgery)."||1.90|0.93|0.93971
82583637|NCT01809002|164878713|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||||||0.035
82583638|NCT01809002|164878713|SUPERIORITY|||||||0.365|||||||Wilcoxon (Mann-Whitney)|||||||0.365
82487760|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.21||0.001|TWO_SIDED|95.0|-1.08|-0.26|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.26|-1.08|0.001
82487761|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.21||0.002|TWO_SIDED|95.0|-1.07|-0.25|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.25|-1.07|0.002
82487762|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.19|-0.37|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.37|-1.19|<0.001
82487763|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.21|<|0.001|TWO_SIDED|95.0|-1.37|-0.55|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||-0.55|-1.37|<0.001
82487764|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.21||0.959|TWO_SIDED|95.0|-0.4|0.42|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.42|-0.40|0.959
82487765|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.618|TWO_SIDED|95.0|-0.51|0.31|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.31|-0.51|0.618
82487766|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.149|TWO_SIDED|95.0|-0.71|0.11|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.11|-0.71|0.149
82487767|NCT00809354|164668774|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.21||0.37|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||Change at Week 16: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates||0.22|-0.60|0.370
82487768|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.887|TWO_SIDED|95.0|-0.33|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.33|0.887
82558643|NCT03924869|164826677|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.74|1.42||Per protocol, there was no hypothesis pre-specified for TDDM to be formally tested.||||"Hazard ratio and 95% CIs were based on Cox regression model with Efron's method of tie handling with treatment as a covariate, stratified by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason for Not Receiving Surgery (medically inoperable versus refused surgery)."||1.42|0.74|
82487769|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.046|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.62|0.046
82487770|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.16||0.771|TWO_SIDED|95.0|-0.26|0.35|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.26|0.771
82487771|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.16||0.032|TWO_SIDED|95.0|0.03|0.64|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.64|0.03|0.032
82487772|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.13|0.54|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.54|-0.13|0.223
82487773|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.718|TWO_SIDED|95.0|-0.39|0.27|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.39|0.718
82487774|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.495|TWO_SIDED|95.0|-0.45|0.22|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.45|0.495
82487775|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.17||0.371|TWO_SIDED|95.0|-0.18|0.49|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.49|-0.18|0.371
82487776|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.16||0.647|TWO_SIDED|95.0|-0.4|0.25|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.40|0.647
82487777|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.073|TWO_SIDED|95.0|-0.62|0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.62|0.073
82487778|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.161|TWO_SIDED|95.0|-0.55|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.55|0.161
82487779|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.16||0.961|TWO_SIDED|95.0|-0.33|0.32|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.33|0.961
82487780|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.18||0.697|TWO_SIDED|95.0|-0.42|0.28|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.42|0.697
82487781|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.18||0.139|TWO_SIDED|95.0|-0.62|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.62|0.139
82487782|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.12|TWO_SIDED|95.0|-0.64|0.07|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.64|0.120
82487783|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.637|TWO_SIDED|95.0|-0.44|0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.44|0.637
82487784|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.17||0.028|TWO_SIDED|95.0|-0.72|-0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.72|0.028
82487785|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.17||0.024|TWO_SIDED|95.0|-0.74|-0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.74|0.024
82487786|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.339|TWO_SIDED|95.0|-0.51|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.51|0.339
82487787|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.381|TWO_SIDED|95.0|-0.5|0.19|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.50|0.381
82487788|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.19||0.438|TWO_SIDED|95.0|-0.51|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.51|0.438
82487789|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.111|TWO_SIDED|95.0|-0.66|0.07|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.66|0.111
82487790|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.059|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.72|0.059
82487791|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.282|TWO_SIDED|95.0|-0.57|0.17|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.57|0.282
82487792|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.18||0.927|TWO_SIDED|95.0|-0.37|0.33|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.33|-0.37|0.927
82558644|NCT03924869|164826680|OTHER||Mean Difference (Final Values)|-1.21||||0.5187|TWO_SIDED|95.0|-4.9|2.48|||cLDA model|||"Stats:~LS Mean change and 95% CIs were based on a constrained longitudinal data analysis (cLDA) model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery)."||2.48|-4.90|0.5187
82651817|NCT03280537|165018712|SUPERIORITY||Difference in Least Squares Means|-0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.3||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily NCS at Week 16.||-0.30|-0.87|<0.0001
82487793|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.094|TWO_SIDED|95.0|-0.65|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.65|0.094
82487794|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.012|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.80|0.012
82487795|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.363|TWO_SIDED|95.0|-0.51|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.51|0.363
82487796|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.2||0.742|TWO_SIDED|95.0|-0.32|0.45|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.45|-0.32|0.742
82487797|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.19||0.436|TWO_SIDED|95.0|-0.53|0.23|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.53|0.436
82487798|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.2||0.038|TWO_SIDED|95.0|-0.79|-0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.79|0.038
82487799|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.332|TWO_SIDED|95.0|-0.57|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.57|0.332
82487800|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.284|TWO_SIDED|95.0|-0.47|0.14|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.47|0.284
82487801|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.224|TWO_SIDED|95.0|-0.5|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.50|0.224
82487802|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.79|-0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.79|0.002
82651818|NCT03280537|165018713|SUPERIORITY||Difference in Least Squares Means|-15.04|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001|TWO_SIDED|95.0|-21.26|-8.82||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the SNOT-22 score at Week 24.||-8.82|-21.26|<0.0001
82651819|NCT03280537|165018714|SUPERIORITY||Difference in Least Squares Means|-0.63|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.35||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline ARS, treatment and baseline ARS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Anterior Rhinorrhea Score (ARS) at Week 24.||-0.35|-0.90|<0.0001
82651820|NCT03280537|165018715|SUPERIORITY||Odds Ratio (OR)|0.2||||0.1594|TWO_SIDED|95.0|0.02|1.89||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue medication through Week 24.||1.89|0.02|0.1594
82651821|NCT03280537|165018716|SUPERIORITY||Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0|20.61||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for having had surgery for nasal polyps through Week 24.||20.61|0.00|1.0000
82651822|NCT03280537|165018717|SUPERIORITY||Odds Ratio (OR)|4.04||||0.0396|TWO_SIDED|95.0|1.07|15.25|||Wald Chi-Square|Adjusted for Baseline AQLQ, geographic region, and aspirin sensitivity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for number of participants with a change from baseline in AQLQ score of ≥0.5 at Week 24.||15.25|1.07|0.0396
82651823|NCT03280537|165018718|SUPERIORITY||Odds Ratio (OR)|0.2||||0.1594|TWO_SIDED|95.0|0.02|1.89||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue treatment through Week 24.||1.89|0.02|0.1594
82651824|NCT03280537|165018719|SUPERIORITY||Odds Ratio (OR)|6.22||||0.0139|TWO_SIDED|95.0|1.23|60.23||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in reduction in the need for surgery for nasal polyps by Week 24.||60.23|1.23|0.0139
82558645|NCT03924869|164826681|OTHER||Mean Difference (Final Values)|-4.34||||0.0906|TWO_SIDED|95.0|-9.38|0.69|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-LC13 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||0.69|-9.38|0.0906
82558646|NCT03924869|164826682|OTHER||Mean Difference (Final Values)|1.24||||0.5482|TWO_SIDED|95.0|-2.83|5.31|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-LC13 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||5.31|-2.83|0.5482
82558647|NCT03924869|164826683|OTHER||Mean Difference (Final Values)|-0.99||||0.7253|TWO_SIDED|95.0|-6.5|4.53|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||4.53|-6.50|0.7253
82558648|NCT03924869|164826684|OTHER||Mean Difference (Final Values)|-0.21||||0.9055|TWO_SIDED|95.0|-3.7|3.28|||cLDA model|||LS Mean change and 95% CIs were based on a cLDA model with the EORTC QLQ-C30 scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by Disease Stage (Stage I versus Stage II), ECOG Performance Status (0 or 1 versus 2), Geographic Region of Enrollment Site (East Asia versus non-East Asia), and Reason For Not Receiving Surgery (medically inoperable versus refused surgery).||3.28|-3.70|0.9055
82558649|NCT04762277|164826698|OTHER||Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-31.7|23.4|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||23.4|-31.7|
82651825|NCT03280537|165018720|SUPERIORITY||Difference in Least Squares Means|-2.09|STANDARD_ERROR_OF_MEAN|0.46|<|0.0001|TWO_SIDED|95.0|-3.0|-1.18||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline TNSS, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Total Nasal Symptom Score (TNSS) at Week 24.||-1.18|-3.00|<0.0001
82651826|NCT03280537|165018721|SUPERIORITY||Difference in Least Squares Means|3.86|STANDARD_ERROR_OF_MEAN|1.16||0.0011|TWO_SIDED|95.0|1.57|6.15||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline UPSIT, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the UPSIT score at Week 24.||6.15|1.57|0.0011
82487803|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.355|TWO_SIDED|95.0|-0.45|0.16|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.16|-0.45|0.355
82487804|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.172|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.172
82487805|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.882|TWO_SIDED|95.0|-0.36|0.31|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.36|0.882
82558650|NCT04762277|164826699|OTHER||Mean Difference (Net)|-96.6|||||TWO_SIDED|95.0|-154.5|-38.8|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-38.8|-154.5|
82558651|NCT04762277|164826700|OTHER||Risk Difference (RD)|0.138|||||TWO_SIDED|95.0|-0.129|0.339|||||Risk difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference is calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.339|-0.129|
82487806|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.63|0.04|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.63|0.084
82558652|NCT04762277|164826701|OTHER||Mean Difference (Net)|-13.9|||||TWO_SIDED|95.0|-25.6|-2.3|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-2.3|-25.6|
82558653|NCT04762277|164826702|OTHER||Mean Difference (Net)|-19.8|||||TWO_SIDED|95.0|-36.9|-2.7|||||Difference of Least Squares Means was calculated as : Spesolimab- Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||-2.7|-36.9|
82558654|NCT04762277|164826703|OTHER||Risk Difference (RD)|0.057|||||TWO_SIDED|95.0|-0.132|0.186|||||Risk difference was calculated as: Spesolimab-Placebo. 95% Confidence Interval (CI) for treatment difference is calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.186|-0.132|
82558655|NCT04762277|164826704|OTHER||Risk Difference (RD)|0.17|||||TWO_SIDED|95.0|-0.067|0.338|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.338|-0.067|
82558656|NCT04762277|164826705|OTHER||Risk Difference (RD)|0.183|||||TWO_SIDED|95.0|-0.079|0.375|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.375|-0.079|
82558657|NCT04762277|164826706|OTHER||Risk Difference (RD)|-0.091|||||TWO_SIDED|95.0|-0.331|0.089|||||Risk Difference was calculated as: Spesolimab - Placebo. 95% Confidence Interval (CI) for treatment difference was calculated by Chan and Zhang method.|The difference in the proportion of patients with a response between Spesolimab and placebo was analysed using a logistic regression model. The model included treatment and stratification factor (tumor necrosis factor inhibitor (TNFi)-naive population versus TNFi-failure population) as two categorical variables.||0.089|-0.331|
82583639|NCT01809002|164878714|SUPERIORITY|||||||0.915||||||The number and percentage of all treated subjects who recovered s2PD in the target repair at Month 12 (i.e., s2PD of 2 - 15 mm) were summarized by repair type. Differences between the repair types were assessed using a logistic regression analysis.|Regression, Logistic|||Responders were defined as subjects achieving s2PD of 2-15 mm on the target nerve repair.||||0.915
82487807|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.405|TWO_SIDED|95.0|-0.47|0.19|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.47|0.405
82487808|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-0.99|-0.34|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-0.99|<0.001
82487809|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.06|-0.42|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.42|-1.06|<0.001
82487810|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.29|-0.64|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.64|-1.29|<0.001
82558658|NCT04762277|164826707|OTHER||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-4.4|4.3|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||4.3|-4.4|
82558659|NCT04762277|164826708|OTHER||Mean Difference (Net)|-1.3|||||TWO_SIDED|95.0|-9.5|6.9|||||Difference of Least Squares Means was calculated as: Spesolimab-Placebo.|MMRM accounting for the following sources of variation: fixed, categorical effects of treatment at each visit, the effect of stratum (stratification according to TNFi-naive population vs. TNFi-failure population) and the fixed continuous effects of baseline at each visit. The unstructured covariance structure was used to model the within patient measurements. To estimate denominator degrees of freedom the Kenward-Roger approximation was used.||6.9|-9.5|
82558660|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.689|||||TWO_SIDED|95.0|0.485|0.939|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.939|0.485|
82558661|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.689|||||TWO_SIDED|95.0|0.467|0.911|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.911|0.467|
82558662|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.759|||||TWO_SIDED|95.0|0.517|1.051|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||1.051|0.517|
82558663|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.759|||||TWO_SIDED|95.0|0.497|1.02|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||1.020|0.497|
82558664|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.745|||||TWO_SIDED|95.0|0.567|0.973|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.973|0.567|
82558665|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.745|||||TWO_SIDED|95.0|0.547|0.943|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.943|0.547|
82558666|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.605|||||TWO_SIDED|95.0|0.353|0.896|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||0.896|0.353|
82558667|NCT03678688|164826779|SUPERIORITY||EBA Ratio|0.605|||||TWO_SIDED|95.0|0.338|0.871|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||0.871|0.338|
82558668|NCT03678688|164826819|SUPERIORITY||EBA Ratio|1.256|||||TWO_SIDED|95.0|0.626|3.175|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||3.175|0.626|
82558669|NCT03678688|164826819|SUPERIORITY||EBA Ratio|1.256|||||TWO_SIDED|95.0|0.362|2.151|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||2.151|0.362|
82558670|NCT03678688|164826819|SUPERIORITY||EBA Ratio|1.385|||||TWO_SIDED|95.0|0.736|2.656|||||The confidence interval for the EBA ratio is estimated using Fieller's method.|||2.656|0.736|
82558671|NCT03678688|164826819|SUPERIORITY||EBA Ratio|1.385|||||TWO_SIDED|95.0|0.564|2.206|||||The confidence interval for the EBA ratio is estimated using Taylor's method.|||2.206|0.564|
82558672|NCT00982072|164826835|OTHER|||||||0.12|||||||Fisher Exact|||||||0.12
82558673|NCT01583166|164826841|OTHER|||||||0.837|||||||Fisher Exact|||||||0.837
82558674|NCT01429454|164826844|SUPERIORITY||Cox Proportional Hazard|0.36||||0.51|TWO_SIDED||||||Chi-squared|||||||.51
82558675|NCT01429454|164826845|SUPERIORITY||||||>|0.1|||||||Mixed Models Analysis|||||||>0.10
82558676|NCT02000752|164826846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.98|||<|0.001|ONE_SIDED|95.0|7.59||||t-test, 1 sided||||||7.59|<0.001
82558677|NCT02000752|164826847|SUPERIORITY_OR_OTHER||difference in percentage|0.0||||1|TWO_SIDED|95.0|||||t-test, 2 sided|||||||1
82558678|NCT02000752|164826848|SUPERIORITY_OR_OTHER||difference in percentages|2.13||||0.16|ONE_SIDED|95.0|1.01||||t-test, 1 sided||||||1.01|0.16
82558679|NCT02000752|164826849|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84||||0.2|ONE_SIDED|95.0|0.84||||t-test, 2 sided||||||0.84|0.2
82558680|NCT00790699|164826851|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||RM-ANOVA|||The results were evaluated to determine if any statistically significant changes in any of these measures between the first and final visit occurred and if these changes were associated with membership in the treatment or control group.||||>.05
82558681|NCT01079806|164826852|SUPERIORITY||Difference estimate|20.2||||0.0049|TWO_SIDED|95.0|9.1|31.4|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||31.4|9.1|0.0049
82558682|NCT01079806|164826853|SUPERIORITY||Difference estimate|41.8|||<|0.0001|TWO_SIDED|95.0|29.4|54.2|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||54.2|29.4|<0.0001
82558683|NCT01079806|164826854|SUPERIORITY||Difference estimate|45.2|||<|0.0001||95.0|29.2|61.2|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||61.2|29.2|<0.0001
82558684|NCT01079806|164826855|SUPERIORITY||Difference estimate|38.2|||<|0.0001|TWO_SIDED|95.0|25.9|50.5|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||50.5|25.9|<0.0001
82558685|NCT01079806|164826856|SUPERIORITY||Difference estimate|12.1||||0.11|TWO_SIDED|95.0|-1.5|25.7|||Normal approximation||Difference estimate is stratified by age randomization strata, using Cochran-Mantel-Haenszel weighting.|||25.7|-1.5|0.11
82558686|NCT00047385|164826871|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.004|TWO_SIDED|95.0|0.733|0.932||P-value is adjusted for multiple comparisons.|Weighted log-rank (details below)|Weights in weighted log-rank statistic increased linearly from zero at randomization to full weight at 4 years and thereafter.||"Alternative hypothesis: LDCT screening reduces lung cancer mortality relative to chest x-ray.~Power: 90% for a 20% reduction in lung cancer mortality."||0.932|0.733|0.004
82487811|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.16|<|0.001|TWO_SIDED|95.0|-1.29|-0.65|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.29|<0.001
82487812|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.95|-0.25|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.25|-0.95|<0.001
82487813|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.32|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.32|-1.02|<0.001
82487814|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.22|-0.51|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.22|<0.001
82487815|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.31|-0.6|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.60|-1.31|<0.001
82487816|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.86|-0.18|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.86|0.003
82487817|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.24|-0.56|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.24|<0.001
82487818|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.26|-0.57|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.26|<0.001
82487819|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.41|-0.73|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.73|-1.41|<0.001
82487820|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.06|-0.33|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.33|-1.06|<0.001
82487821|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.21|-0.47|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.47|-1.21|<0.001
82487822|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.36|-0.63|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.63|-1.36|<0.001
82487823|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.56|-0.83|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.83|-1.56|<0.001
82487824|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.001|TWO_SIDED|95.0|-0.93|-0.23|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.93|0.001
82487825|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.24|-0.53|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.24|<0.001
82487826|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.24|-0.53|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.24|<0.001
82487827|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.05|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.4|-0.7|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.70|-1.40|<0.001
82487828|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.17|-0.4|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.40|-1.17|<0.001
82487829|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.11|-0.34|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.34|-1.11|<0.001
82487830|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.32|-0.56|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.56|-1.32|<0.001
82487831|NCT00809354|164668775|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.51|-0.75|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.75|-1.51|<0.001
82487832|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.16||0.887|TWO_SIDED|95.0|-0.33|0.28|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.33|0.887
82487833|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.046|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.62|0.046
82487834|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.16||0.771|TWO_SIDED|95.0|-0.26|0.35|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.35|-0.26|0.771
82583640|NCT01809002|164878715|SUPERIORITY||LS Means difference|-2.84|||||TWO_SIDED|95.0|-11.6316|5.9541||Pre-injury baseline was defined as s2PD in the contralateral digit associated with the target digit.|ANCOVA|This analysis was assessed in the ITT population, at Month 12 using the LS Mean differences from a repeated measures ANCOVA model.||||5.9541|-11.6316|
82558687|NCT00047385|164826872|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.02|TWO_SIDED|95.0|0.864|0.988||No adjustment for multiple comparisons. Only one analysis performed.|Weighted log-rank (details below)|Weights in weighted log-rank statistic increased linearly from zero at randomization to full weight at 4 years and thereafter.||Alternative hypothesis: LDCT screening reduced all-cause mortality relative to chest x-ray.||0.988|0.864|0.02
82558688|NCT00047385|164826873|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|1.03|1.23|||||Denominator: LDCT Group Numerator: CXR Group|||1.23|1.03|
82558689|NCT03392194|164826881|OTHER|The purpose of this small pilot randomized control trial (RCT) was to assess feasibility and acceptability of conducting community based sleep hygiene and yoga interventions, to be scaled and tested in a future, larger RCT.|Mean Difference (Net)|-2.02||||0.932|TWO_SIDED|95.0|-46.35|50.39|||t-test, 2 sided|Due to main findings, analysis to explore potential mediators of effect were not pursued, despite original plan to explore explanatory variables.||Null hypothesis: There is no difference in change in sleep duration between the two intervention arms.||50.39|-46.35|0.932
82558690|NCT01009645|164826890|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The first contrast assessed whether or not the three newly created messages (Fact Only (FO), Fact/Myth (FM), and Fact/Myth/Refutation (FMR)) were as a group significantly different than the control message.||||<0.05
82558691|NCT01009645|164826890|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The second contrast assessed whether the FO and FMR conditions were significantly different from the FM message.||||<0.05
82558692|NCT01009645|164826890|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|ONE_SIDED|95.0||||The a priori threshold for statistical significance was p \<0.0167 as the p-value was adjusted for multiple comparisons (three planned contrasts).|Contrast Analysis|Bonferroni correction used (3 planned contrasts)||Contrast analysis was used to assess difference in vaccination status. The third contrast assessed whether the FO and the FMR message conditions were significantly different.||||<0.05
82558693|NCT01009645|164826891|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||ANOVA|used Scheffe's post-hoc analysis||||||<0.05
82558694|NCT03345979|164826897|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82558695|NCT03345979|164826897|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<.001
82558696|NCT00734578|164826904|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-4.5||||0.002||95.0|-7.5|-1.4||Both SPD503 groups were compared with placebo using Dunnett's adjustment. Each treatment comparison was evaluated at the 0.05 significance level (Dunnett's adjusted).|ANCOVA|||The null hypothesis stated that there was no difference between SPD503 AM or placebo and that there was no difference between SPD503 PM or placebo. 90% power was needed to detect an effect size of at least 0.4 between either SPD503 group and placebo.||-1.4|-7.5|0.002
82558697|NCT00734578|164826904|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-5.3|||<|0.001||95.0|-8.3|-2.3||Both SPD503 groups were compared with placebo using Dunnett's adjustment. Each treatment comparison was evaluated at the 0.05 significance level (Dunnett's adjusted).|ANCOVA|||The null hypothesis stated that there was no difference between SPD503 AM or placebo and that there was no difference between SPD503 PM or placebo. 90% power was needed to detect an effect size of at least 0.4 between either SPD503 group and placebo.||-2.3|-8.3|<0.001
82558698|NCT00734578|164826905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.024||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.024
82558699|NCT00734578|164826905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.003
82558700|NCT00734578|164826906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.013
82558701|NCT00734578|164826906|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
82558702|NCT00734578|164826907|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-1.7||||0.019||95.0|-3.2|-0.3||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.3|-3.2|0.019
82558703|NCT00734578|164826907|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.6|||<|0.001||95.0|-4.0|-1.1||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.1|-4.0|<0.001
82558704|NCT00734578|164826908|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.4||||0.002||95.0|-4.0|-0.9||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.9|-4.0|0.002
82558705|NCT00734578|164826908|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-3.0|||<|0.001||95.0|-4.5|-1.5||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.5|-4.5|<0.001
82558706|NCT00734578|164826909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
82558707|NCT00734578|164826909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||<0.001
82583641|NCT01809002|164878716|SUPERIORITY|||||||0.792|||||||Kaplan-Meier median and 95% CI|Differences between the repair types were assessed with a KM log-rank test that was appropriate for the handing of interval-censored data.||||||0.792
82583642|NCT01809002|164878717|SUPERIORITY|||||||0.526|||||||Wilcoxon (Mann-Whitney)|This analysis was completed to detect a distribution shift of the MRCC score between repairs with PNA and repairs with nerve cuff at Month 12.||||||0.526
82583643|NCT01809002|164878718|OTHER||Mean Difference (Final Values)|-24.09|||||TWO_SIDED|||||||||"This analysis compares the change in 12 Month Pain VAS scores from Baseline. Missing or incomplete data was extrapolated using a pre-defined repeated measures modeling approach for calculations in this analysis.~This analysis assesses each treatment group for clinically meaningful improvement in VAS from Baseline assuming a Meaningful Clinically Important Difference delta of 20 points (mm)."||||
82583644|NCT01809002|164878720|SUPERIORITY|||||||0.012|||||||Wilcoxon (Mann-Whitney)|||||||0.012
82583645|NCT01809002|164878721|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|This analysis was completed utilizing a one-sided Wilcoxon Rank Sum test.||||||0.037
82583646|NCT01809002|164878722|SUPERIORITY|||||||0.021|||||||Wilcoxon (Mann-Whitney)|One-sided Wilcoxon Rank Sum test was utilized for this analysis.||||||0.021
82583647|NCT01586910|164878841|NON_INFERIORITY|Non-inferiority margin was 0.07. Posterior threshold for non-inferiority was 0.971|Posterior Median of the Difference|-1.4|||||TWO_SIDED|||||The posterior probability of non-inferiority is \> 0.9999. The posterior probability is the probability of the event rate by updating the prior probability distribution with observed data using Bayes' Theorem.|Bayesian||95% Bayesian credible interval for the difference (TAVR-SAVR) was (-5.2%, 2.3%). The 95% credible interval is the 2.5th and 97.5th percentiles of the posterior distribution.|Primary Hypothesis: TAVR with the Medtronic TAVR is non-inferior to SAVR for all-cause mortality or disabling stroke rate during a fixed follow-up of 24 months.||||
82583648|NCT00346268|164878867|SUPERIORITY_OR_OTHER||least square (LS) mean difference (net)|-7.58|STANDARD_ERROR_OF_MEAN|3.55||0.035|TWO_SIDED|95.0|-14.63|-0.53||Adjusted for treatment group and center|ANOVA|||||-0.53|-14.63|0.035
82583649|NCT00346268|164878868|SUPERIORITY_OR_OTHER||least square (LS) mean difference (net)|-15.16|STANDARD_ERROR_OF_MEAN|5.2||0.004|TWO_SIDED|95.0|-25.47|-4.85||Adjusted for treatment group and center|ANOVA|||||-4.85|-25.47|0.004
82487835|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.16||0.032|TWO_SIDED|95.0|0.03|0.64|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.64|0.03|0.032
82558708|NCT00734578|164826910|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.4||||0.001||95.0|-3.9|-0.9||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.9|-3.9|0.001
82583650|NCT00346268|164878869|SUPERIORITY_OR_OTHER|||||||0.257||95.0|||||Log Rank|Stratified by center||||||0.257
82583651|NCT00346268|164878870|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.07|STANDARD_ERROR_OF_MEAN|0.3||0.81|TWO_SIDED|95.0|-0.68|0.53||Adjusted for treatment group and center|ANCOVA|Covariates:Total RBCUs and RBCUs substituted during surgery, baseline hemoglobin, swab and lavage weights, intraoperative blood loss fluid volume||||0.53|-0.68|0.810
82583652|NCT00346268|164878872|SUPERIORITY_OR_OTHER||Least squares mean difference (net)|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.07|TWO_SIDED|95.0|-0.01|0.35|||ANOVA|||The difference in pain at rest prior to administration and pain at rest post administration compared between treatments at 48 hours post surgery.||0.35|-0.01|0.070
82583653|NCT00346268|164878872|SUPERIORITY_OR_OTHER||LS Mean Difference (net)|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.074|TWO_SIDED|95.0|-0.02|0.33|||ANOVA|||The difference in pain at movement prior to administration and pain at movement post administration compared between treatments at 48 hours post surgery.||0.33|-0.02|0.074
82558709|NCT00734578|164826910|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-2.2||||0.003||95.0|-3.6|-0.7||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-0.7|-3.6|0.003
82583654|NCT00346268|164878873|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.71|STANDARD_ERROR_OF_MEAN|0.23||0.002|TWO_SIDED|95.0|-1.16|-0.26||Adjusted for treatment group and center|ANOVA|||24 hours post surgery||-0.26|-1.16|0.002
82583655|NCT00346268|164878873|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.73|STANDARD_ERROR_OF_MEAN|0.25||0.004|TWO_SIDED|95.0|-1.22|-0.23||Adjusted for treatment group and center|ANOVA|||48 hours post surgery||-0.23|-1.22|0.004
82583656|NCT00346268|164878874|SUPERIORITY_OR_OTHER||LS mean difference (net)|-1.16|STANDARD_ERROR_OF_MEAN|0.3||0.001|TWO_SIDED|95.0|-1.77|-0.56||Adjusted for treatment group and center|ANOVA|||24 hours post surgery||-0.56|-1.77|0.001
82583657|NCT00346268|164878874|SUPERIORITY_OR_OTHER||LS mean difference (net)|-0.83|STANDARD_ERROR_OF_MEAN|0.3||0.006|TWO_SIDED|95.0|-1.41|-0.24||Adjusted for treatment group and center|ANOVA|||48 hours post surgery||-0.24|-1.41|0.006
82558710|NCT00734578|164826911|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-5.1|||<|0.001||95.0|-8.0|-2.2||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-2.2|-8.0|<0.001
82558711|NCT00734578|164826911|SUPERIORITY_OR_OTHER_LEGACY||Placebo-adjusted difference in LS mean|-4.7||||0.002||95.0|-7.6|-1.7||No adjustments for multiple comparisons.|ANCOVA|||Not powered for secondary outcome measures.||-1.7|-7.6|0.002
82558712|NCT00734578|164826912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.971||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.971
82487836|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.17||0.223|TWO_SIDED|95.0|-0.13|0.54|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.54|-0.13|0.223
82487837|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.17||0.718|TWO_SIDED|95.0|-0.39|0.27|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.39|0.718
82558713|NCT00734578|164826912|SUPERIORITY_OR_OTHER_LEGACY|||||||0.502||95.0||||No adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||Not powered for secondary outcome measures.||||0.502
82558714|NCT02095145|164826914|OTHER|||||||0.19|||||||Wilcoxon rank-sum test|||||||0.190
82558715|NCT02095145|164826914|OTHER|||||||0.211|||||||t-test, 2 sided|||||||0.211
82558716|NCT02095145|164826917|OTHER|||||||0.948|||||||Wilcoxon rank-sum test|||Baseline to Week 13 p-value||||0.948
82558717|NCT02095145|164826917|OTHER|||||||0.711|||||||Wilcoxon rank-sum test|||Baseline to Week 26 p-value||||0.711
82558718|NCT02095145|164826917|OTHER|||||||0.038|||||||Wilcoxon rank-sum test|||Baseline to Week 39 p-value||||0.038
82558719|NCT02095145|164826917|OTHER|||||||0.445|||||||Wilcoxon rank-sum test|||Baseline to Week 52 p-value||||0.445
82558720|NCT02095145|164826918|OTHER|||||||0.743|||||||Wilcoxon rank-sum test|||Baseline to Week 13 p-value||||0.743
82558721|NCT02095145|164826918|OTHER|||||||0.305|||||||Wilcoxon rank-sum test|||Baseline to Week 26 p-value||||0.305
82558722|NCT02095145|164826918|OTHER|||||||0.111|||||||Wilcoxon rank-sum test|||Baseline to Week 39 p-value||||0.111
82558723|NCT02095145|164826918|OTHER|||||||0.395|||||||Wilcoxon rank-sum test|||Baseline to Week 52 p-value||||0.395
82558724|NCT02095145|164826919|OTHER|||||||0.743|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 13||||0.743
82558725|NCT02095145|164826919|OTHER|||||||0.527|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 26||||0.527
82558726|NCT02095145|164826919|OTHER|||||||0.879|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 39||||0.879
82558727|NCT02095145|164826919|OTHER|||||||0.81|||||||Wilcoxon rank-sum test|||Change from Baseline PSA to Week 52||||0.810
82558728|NCT02095145|164826920|OTHER|||||||0.556|||||||Wilcoxon rank-sum test|||Comparison of both arms at baseline||||0.556
82558729|NCT02095145|164826920|OTHER|||||||0.647|||||||Wilcoxon rank-sum test|||comparison of both arms at Week 26||||0.647
82558730|NCT02095145|164826920|OTHER|||||||0.948|||||||Wilcoxon rank-sum test|||comparison of both arms at end of study, week 52||||0.948
82558731|NCT02095145|164826921|OTHER|||||||0.58|||||||Wilcoxon rank-sum test|||||||0.580
82558732|NCT02095145|164826922|OTHER|||||||0.344|||||||Wilcoxon rank-sum test|||Benign core p-value||||0.344
82558733|NCT02095145|164826922|OTHER|||||||0.371|||||||Wilcoxon rank-sum test|||Adjacent core p-value||||0.371
82558734|NCT02095145|164826922|OTHER|||||||0.766|||||||Wilcoxon rank-sum test|||Tumor core p-value||||0.766
82558735|NCT02095145|164826923|OTHER|||||||0.304|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Nuc)||||0.304
82558736|NCT02095145|164826923|OTHER|||||||0.23|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Nuc)||||0.230
82558737|NCT02095145|164826923|OTHER|||||||0.298|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Nuc)||||0.298
82558738|NCT02095145|164826923|OTHER|||||||0.247|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Cyt)||||0.247
82558739|NCT02095145|164826923|OTHER|||||||0.093|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Cyt)||||0.093
82558740|NCT02095145|164826923|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Cyt)||||0.066
82558741|NCT02095145|164826923|OTHER|||||||0.247|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Benign (Cell)||||0.247
82558742|NCT02095145|164826923|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Adjacent (Cell)||||0.128
82558743|NCT02095145|164826923|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change from Baseline: IGF-1 Tumor (Cell)||||0.128
82558744|NCT02095145|164826924|OTHER|||||||0.297|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.297
82558745|NCT02095145|164826924|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.233
82558746|NCT02095145|164826924|OTHER|||||||0.371|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.371
82558747|NCT02095145|164826924|OTHER|||||||0.198|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.198
82558748|NCT02095145|164826924|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.233
82558749|NCT02095145|164826924|OTHER|||||||0.074|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.074
82558750|NCT02095145|164826924|OTHER|||||||0.234|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.234
82558751|NCT02095145|164826924|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.233
82558752|NCT02095145|164826924|OTHER|||||||0.233|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.233
82558753|NCT02095145|164826925|OTHER|||||||0.167|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.167
82558754|NCT02095145|164826925|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.391
82487838|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.17||0.495|TWO_SIDED|95.0|-0.45|0.22|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.45|0.495
82558755|NCT02095145|164826925|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.713
82558756|NCT02095145|164826925|OTHER|||||||0.452|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.452
82558757|NCT02095145|164826925|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.391
82558758|NCT02095145|164826925|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.713
82558759|NCT02095145|164826925|OTHER|||||||0.344|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.344
82558760|NCT02095145|164826925|OTHER|||||||0.391|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.391
82558761|NCT02095145|164826925|OTHER|||||||0.713|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.713
82558762|NCT02095145|164826926|OTHER|||||||0.865|||||||Wilcoxon rank-sum test|||Change from Baseline: Benign p-value||||0.865
82558763|NCT02095145|164826926|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Adjacent p-value||||1.000
82558764|NCT02095145|164826926|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: Tumor p-value||||0.066
82558765|NCT02095145|164826927|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Benign p-value||||1.000
82558766|NCT02095145|164826927|OTHER|||||||0.903|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Adjacent p-value||||0.903
82558767|NCT02095145|164826927|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Nuc Tumor p-value||||1.000
82558768|NCT02095145|164826927|OTHER|||||||0.269|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Benign p-value||||0.269
82558769|NCT02095145|164826927|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Adjacent p-value||||0.066
82558770|NCT02095145|164826927|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Cyt Tumor p-value||||1.000
82558771|NCT02095145|164826927|OTHER|||||||0.425|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Benign p-value||||0.425
82487839|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.389|TWO_SIDED|95.0|-0.47|0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.47|0.389
82487840|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.17||0.035|TWO_SIDED|95.0|-0.68|-0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.68|0.035
82487841|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.155|TWO_SIDED|95.0|-0.56|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.56|0.155
82487842|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.876|TWO_SIDED|95.0|-0.35|0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.30|-0.35|0.876
82487843|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.864|TWO_SIDED|95.0|-0.33|0.39|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.39|-0.33|0.864
82487844|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.18||0.338|TWO_SIDED|95.0|-0.54|0.18|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.54|0.338
82487845|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.101|TWO_SIDED|95.0|-0.66|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.66|0.101
82487846|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.18||0.605|TWO_SIDED|95.0|-0.46|0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.27|-0.46|0.605
82487847|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.013|TWO_SIDED|95.0|-0.78|-0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.78|0.013
82487848|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.84|0.005
82558772|NCT02095145|164826927|OTHER|||||||0.27|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Adjacent p-value||||0.270
82487849|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.199|TWO_SIDED|95.0|-0.57|0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.57|0.199
82487850|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.363|TWO_SIDED|95.0|-0.5|0.18|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.50|0.363
82487851|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.613|TWO_SIDED|95.0|-0.47|0.28|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.28|-0.47|0.613
82487852|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.19||0.416|TWO_SIDED|95.0|-0.53|0.22|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.22|-0.53|0.416
82487853|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.143|TWO_SIDED|95.0|-0.66|0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.66|0.143
82558773|NCT02095145|164826927|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline: Cell Tumor p-value||||1.000
82487854|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.19||0.245|TWO_SIDED|95.0|-0.6|0.15|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.60|0.245
82487855|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.18||0.745|TWO_SIDED|95.0|-0.41|0.29|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|-0.41|0.745
82487856|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.18||0.062|TWO_SIDED|95.0|-0.69|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.69|0.062
82487857|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.014|TWO_SIDED|95.0|-0.8|-0.09|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.80|0.014
82487858|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.367|TWO_SIDED|95.0|-0.52|0.19|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.52|0.367
82487859|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.995|TWO_SIDED|95.0|-0.39|0.39|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.39|-0.39|0.995
82487860|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.2||0.735|TWO_SIDED|95.0|-0.46|0.32|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.32|-0.46|0.735
82558774|NCT02095145|164826928|OTHER|||||||0.625|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Benign p-value||||0.625
82558775|NCT02095145|164826928|OTHER|||||||0.128|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Adjacent p-value||||0.128
82558776|NCT02095145|164826928|OTHER|||||||0.045|||||||Wilcoxon rank-sum test|||Change From Baseline: Nuc Tumor p-value||||0.045
82558777|NCT02095145|164826928|OTHER|||||||0.105|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Benign p-value||||0.105
82558778|NCT02095145|164826928|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Adjacent p-value||||0.066
82558779|NCT02095145|164826928|OTHER|||||||0.005|||||||Wilcoxon rank-sum test|||Change From Baseline: Cyt Tumor p-value||||0.005
82558780|NCT02095145|164826928|OTHER|||||||0.129|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Benign p-value||||0.129
82558781|NCT02095145|164826928|OTHER|||||||0.066|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Adjacent p-value||||0.066
82558782|NCT02095145|164826928|OTHER|||||||0.013|||||||Wilcoxon rank-sum test|||Change From Baseline: Cell Tumor p-value||||0.013
82558783|NCT02095145|164826929|OTHER|||||||0.143|||||||Wilcoxon rank-sum test|||Change from Baseline: Benign p-value||||0.143
82558784|NCT02095145|164826929|OTHER|||||||0.037|||||||Wilcoxon rank-sum test|||Change from Baseline: Adjacent p-value||||0.037
82558785|NCT02095145|164826929|OTHER|||||||0.111|||||||Wilcoxon rank-sum test|||Change from Baseline: Tumor p-value||||0.111
82558786|NCT02095145|164826930|OTHER|||||||0.068|||||||Wilcoxon rank-sum test|||Change from Baseline Week 13||||0.068
82558787|NCT02095145|164826930|OTHER|||||||0.004|||||||Wilcoxon rank-sum test|||Change from Baseline Week 26||||0.004
82558788|NCT02095145|164826930|OTHER|||||||0.002|||||||Wilcoxon rank-sum test|||Change from Baseline Week 39||||0.002
82558789|NCT02095145|164826930|OTHER||||||<|0.001|||||||Wilcoxon rank-sum test|||Change from Baseline Week 52||||<0.001
82558790|NCT02095145|164826931|OTHER|||||||1|||||||Wilcoxon rank-sum test|||Change from Baseline Week 13||||1.000
82558791|NCT02095145|164826931|OTHER|||||||0.18|||||||Wilcoxon rank-sum test|||Change from Baseline Week 26||||0.180
82558792|NCT02095145|164826931|OTHER|||||||0.62|||||||Wilcoxon rank-sum test|||Change from Baseline Week 39||||0.620
82558793|NCT02095145|164826931|OTHER|||||||0.536|||||||Wilcoxon rank-sum test|||Change from Baseline Week 52||||0.536
82558794|NCT02095145|164826933|OTHER|||||||0.231|||||||Wilcoxon rank-sum test|||Change in Tumor Volume from baseline to end of study per arm||||0.231
82558795|NCT03883724|164826953|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||||0.3|||||||ANCOVA|between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||Change in NPi pre- vs post-intervention comparing between group analysis||||0.3
82558796|NCT03883724|164826954|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome|||||<|0.01||||||Change in nocturia frequency pre- vs post-intervention comparing between groups BBTI vs IC|ANCOVA|between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||Change in nocturia frequency pre- vs post-intervention comparing between group analysis||||<.01
82558797|NCT03883724|164826955|OTHER|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||||0.3|||||||ANCOVA|ANCOVA between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||between-group analysis was completed comparing of Pre- to Post-Intervention change adjusting for baseline value of the outcome||||0.3
82558798|NCT02909959|164826975|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.96|STANDARD_ERROR_OF_MEAN|3.03||0.331|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.331
82558799|NCT02909959|164826976|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|2.99||0.98|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.98
82558800|NCT02909959|164826977|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|-0.774|STANDARD_ERROR_OF_MEAN|2.99||0.797|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.797
82558801|NCT02909959|164826978|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|3.01||0.442|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.442
82583658|NCT02164383|164878885|SUPERIORITY||Mean Difference (Final Values)|1.82||||0.85|TWO_SIDED||||||ANOVA||ANOVA results: F(1,28)=.04, p=.85, partial eta-squared (as a measure of effect size) = .001|||||.85
82583659|NCT04487834|164878896|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82583660|NCT04487834|164878897|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||||||0.0001
82583661|NCT04487834|164878898|SUPERIORITY|||||||0.4852|||||||Fisher Exact|||||||0.4852
82487861|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.2||0.169|TWO_SIDED|95.0|-0.67|0.12|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.67|0.169
82487862|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.295|TWO_SIDED|95.0|-0.6|0.18|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.18|-0.60|0.295
82558802|NCT02909959|164826979|EQUIVALENCE|Statistical significance was measured at the 0.05 alpha level for a two-sided test, so the rejection region for a normally distributed T-score was +/-1.96\*SE(Diff), where SE(Diff) is the estimated standard error of the difference between the LS mean of sulforaphane and LS mean of the placebo group.|Mean Difference (Final Values)|2.72|STANDARD_ERROR_OF_MEAN|3.05||0.373|TWO_SIDED|||||The test was considered statistically significant if the p-value \< 0.05.|Mixed Models Analysis|Mixed-effects model with random intercept and unstructured covariance matrix from baseline to week 16.|This analysis compares LS Mean Sulforaphane - LS Mean Placebo.|The null hypothesis is that the least-square mean of sulforaphane's SRS-2 T-score minus the least-square mean of placebo group's T-score is 0.||||0.373
82558803|NCT00229970|164827022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.09||||0.022||95.0|0.01|0.16|||ANCOVA|The model included a factor for treatment and using the baseline Forced Expiratory Volume in One Second (FEV1) as a covariate.||||0.16|0.01|0.022
82558804|NCT00229970|164827022|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|||<|0.001||95.0|0.09|0.24|||ANCOVA|The model included a factor for treatment and using the baseline Forced Expiratory Volume in One Second (FEV1) as a covariate.||||0.24|0.09|<0.001
82558805|NCT03739866|164827026|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82558806|NCT03739866|164827026|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82558807|NCT03739866|164827026|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82583662|NCT02831387|164878927|SUPERIORITY||Mean Difference (Net)|-1.88||||0.749|TWO_SIDED|95.0|-13.696|9.936|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in the Subject Reported Dry Eye Questionnaire||9.936|-13.696|0.749
82583663|NCT02831387|164878928|SUPERIORITY||Mean Difference (Net)|-6.6||||0.267|TWO_SIDED|95.0|-18.4|5.3|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 29 in Frequency Scores||5.3|-18.4|0.267
82558808|NCT03739866|164827026|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82558809|NCT03739866|164827026|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82583664|NCT02831387|164878929|SUPERIORITY||Mean Difference (Net)|3.9||||0.495|TWO_SIDED|95.0|-7.6|15.4|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 29 in Severity Scores||15.4|-7.6|0.495
82487863|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.284|TWO_SIDED|95.0|-0.47|0.14|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.47|0.284
82487864|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.16||0.224|TWO_SIDED|95.0|-0.5|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.50|0.224
82487865|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.79|-0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.17|-0.79|0.002
82487866|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.16||0.355|TWO_SIDED|95.0|-0.45|0.16|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.16|-0.45|0.355
82487867|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.17||0.172|TWO_SIDED|95.0|-0.57|0.1|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.57|0.172
82558810|NCT03057600|164827040|SUPERIORITY|||||||0.2252|||||||exact one-sample binomial tests|||||||0.2252
82558811|NCT03057600|164827040|SUPERIORITY|||||||0.9437|||||||exact one-sample binomial tests|||||||0.9437
82558812|NCT03057600|164827040|SUPERIORITY|||||||0.5797|||||||exact one-sample binomial tests|||||||0.5797
82558813|NCT03057600|164827040|SUPERIORITY|||||||0.0243|||||||exact one-sample binomial tests|||||||0.0243
82558814|NCT01953692|164827051|SUPERIORITY||||||>|0.9999||||||one-sided p value|exact binomial distribution|||Comparison to a fixed efficacy target of 10%. H0: p ≤ 0.10 versus H1: p \> 0.10||||>0.9999
82558815|NCT01953692|164827052|SUPERIORITY||||||>|0.9999||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 25%. H0: p ≤ 0.25 versus H1: p \> 0.25||||>0.9999
82558816|NCT01953692|164827053|SUPERIORITY|||||||0.0306||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 10%. H0: p ≤ 0.10 versus H1: p \> 0.10||||0.0306
82558817|NCT01953692|164827054|SUPERIORITY|||||||0.7696||||||one-sided p-value|exact binomial distribution|||Comparison to a fixed efficacy target of 25%. H0: p ≤ 0.25 versus H1: p \> 0.25||||0.7696
82558818|NCT02502461|164827145|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.04|TWO_SIDED|95.0|0.1|1.7||Bonferroni correction|t-test, 2 sided|||||1.7|0.1|0.04
82558819|NCT03697603|164827147|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.0312|TWO_SIDED|95.0|-2.7|-0.1|||MMRM|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 6.||-0.1|-2.7|0.0312
82583665|NCT02831387|164878930|SUPERIORITY||Mean Difference (Net)|0.6||||0.316|TWO_SIDED|95.0|-0.6|1.9|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in Fluorescein Staining of the Cornea||1.9|-0.6|0.316
82583666|NCT02831387|164878931|SUPERIORITY||Mean Difference (Net)|-0.2||||0.823|TWO_SIDED|95.0|-1.9|1.5|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline to Day 29 in Lissamine Green Staining of the Conjunctiva||1.5|-1.9|0.823
82487868|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.17||0.882|TWO_SIDED|95.0|-0.36|0.31|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.31|-0.36|0.882
82487869|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.17||0.084|TWO_SIDED|95.0|-0.63|0.04|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.63|0.084
82558820|NCT03697603|164827147|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.0089|TWO_SIDED|95.0|-3.0|-0.4|||MMRM|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 6.||-0.4|-3.0|0.0089
82558821|NCT03697603|164827148|OTHER||Diff|5.5||||0.1964|TWO_SIDED|95.0|-2.8|13.8|||Chi-squared|||Statistical analysis to compare brexpiprazole 2 mg/day and placebo was performed at Week 6.||13.8|-2.8|0.1964
82558822|NCT03697603|164827148|OTHER||Diff|5.5||||0.1969|TWO_SIDED|95.0|-2.8|13.7|||Chi-squared|||Statistical analysis to compare brexpiprazole 1 mg/day and placebo was performed at Week 6.||13.7|-2.8|0.1969
82558823|NCT04218864|164827162|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Linear Mixed regression models (LMM) have been used to identify any difference between the intervention and the control groups over time with regards to the continuous outcomes. Group (intervention vs. control), a 5-category time (baseline, 6 week, 3 month, 6 month, 12 month) and group-by-time interaction are covariates in the model. A random subject intercept is used to account for clustering within subject.||||>0.05
82558824|NCT04218864|164827163|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for the primary outcome.||||>0.05
82583667|NCT02831387|164878932|SUPERIORITY||Odds Ratio (OR)|1.923|||||TWO_SIDED|95.0|0.515|7.184||||||Statistical Analysis 1 for the Number of participants with at least 20% improvement in symptoms from baseline to Day 29||7.184|0.515|
82487870|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.17||0.405|TWO_SIDED|95.0|-0.47|0.19|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.47|0.405
82487871|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.94|-0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.30|-0.94|<0.001
82487872|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.09|-0.44|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.44|-1.09|<0.001
82487873|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.3|-0.64|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.64|-1.30|<0.001
82487874|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.32|-0.67|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.67|-1.32|<0.001
82558825|NCT04218864|164827164|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for the primary outcome.||||>0.05
82558826|NCT04218864|164827165|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical analysis strategy is identical to that for primary outcome.||||>0.05
82558827|NCT04218864|164827166|SUPERIORITY||||||>|0.05||||||Threshold for statistical significance = 0.05|Regression, Linear|Results presented are unadjusted for any covariates.||Statistical Analysis strategy is identical to that for primary outcome measure.||||>0.05
82558828|NCT00145470|164827191|SUPERIORITY|||||||0.0257||||||P-value based on the difference in the least squares (LS) means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0257
82558829|NCT00145470|164827194|SUPERIORITY|||||||0.021||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 42||||0.0210
82558830|NCT00145470|164827195|SUPERIORITY|||||||0.0073||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0073
82558831|NCT00145470|164827196|SUPERIORITY|||||||0.3928|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 3||||0.3928
82558832|NCT00145470|164827196|SUPERIORITY|||||||0.7923|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 7||||0.7923
82558833|NCT00145470|164827196|SUPERIORITY|||||||0.0701|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 14||||0.0701
82558834|NCT00145470|164827196|SUPERIORITY|||||||0.1634|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 21||||0.1634
82558835|NCT00145470|164827196|SUPERIORITY|||||||0.037|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 42||||0.0370
82558836|NCT00145470|164827196|SUPERIORITY|||||||0.0488|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 63||||0.0488
82558837|NCT00145470|164827196|SUPERIORITY|||||||0.0152|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 84||||0.0152
82558838|NCT00145470|164827197|SUPERIORITY|||||||0.3709|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 3||||0.3709
82558839|NCT00145470|164827197|SUPERIORITY|||||||0.8837|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 7||||0.8837
82558840|NCT00145470|164827197|SUPERIORITY|||||||0.1153|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 14||||0.1153
82558841|NCT00145470|164827197|SUPERIORITY|||||||0.0158|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 21||||0.0158
82558842|NCT00145470|164827197|SUPERIORITY|||||||0.0143|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 42||||0.0143
82558843|NCT00145470|164827197|SUPERIORITY|||||||0.0196|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 63||||0.0196
82558844|NCT00145470|164827197|SUPERIORITY|||||||0.0148|||||||Chi-squared|Based on Pearson's chi-squared test.||Day 84||||0.0148
82558845|NCT00145470|164827198|SUPERIORITY|||||||0.0046||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0046
82558846|NCT00145470|164827199|SUPERIORITY|||||||0.0006||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0006
82558847|NCT00145470|164827200|SUPERIORITY|||||||0.3497||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.3497
82558848|NCT00145470|164827201|SUPERIORITY|||||||0.7753||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.7753
82558849|NCT00145470|164827202|SUPERIORITY|||||||0.0073||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.0073
82558850|NCT00145470|164827203|SUPERIORITY|||||||0.0102||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.0102
82558851|NCT00145470|164827204|SUPERIORITY|||||||0.3684||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.3684
82558852|NCT00145470|164827205|SUPERIORITY|||||||0.937||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.9370
82558853|NCT00145470|164827206|SUPERIORITY|||||||0.2492||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.2492
82558854|NCT00145470|164827207|SUPERIORITY|||||||0.4683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.4683
82558855|NCT00145470|164827208|SUPERIORITY|||||||0.5683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.5683
82487875|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.3|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.30|-1.02|<0.001
82558856|NCT00145470|164827209|SUPERIORITY|||||||0.9693||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.9693
82558857|NCT00145470|164827210|SUPERIORITY|||||||0.6136||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.6136
82558858|NCT00145470|164827211|SUPERIORITY|||||||0.1586||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.1586
82558859|NCT00145470|164827212|SUPERIORITY|||||||0.055||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Verbal Memory - CFB at Day 21||||0.0550
82558860|NCT00145470|164827212|SUPERIORITY|||||||0.7469||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Visual Memory - CFB at Day 21||||0.7469
82558861|NCT00145470|164827212|SUPERIORITY|||||||0.3253||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Processing Speed - CFB at Day 21||||0.3253
82583668|NCT02831387|164878933|SUPERIORITY||Mean Difference (Net)|1.666||||0.723|TWO_SIDED|95.0|-7.759|11.092|||Mixed Models Analysis|||Statistical Analysis 1 for Change From Baseline (Visit 2) to Day 15 (Visit 3) in the Subject-reported Dry Eye Symptom Score||11.092|-7.759|0.723
82583669|NCT00192647|164878934|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.2893|TWO_SIDED|95.0|0.88|1.52|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by viral load and country||||1.52|0.88|0.2893
82558862|NCT00145470|164827212|SUPERIORITY|||||||0.3885||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Social Acuity - CFB at Day 21||||0.3885
82558863|NCT00145470|164827212|SUPERIORITY|||||||0.5975||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Reasoning - CFB at Day 21||||0.5975
82558864|NCT00145470|164827212|SUPERIORITY|||||||0.069||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Executive Functioning - CFB at Day 21||||0.0690
82558865|NCT00145470|164827212|SUPERIORITY|||||||0.797||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Working Memory - CFB at Day 21||||0.7970
82583670|NCT00192647|164878935|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.91|1.63||||||||1.63|0.91|
82583671|NCT00192647|164878936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68|||||TWO_SIDED|95.0|1.24|2.27||||||Week 4||2.27|1.24|
82558866|NCT00145470|164827212|SUPERIORITY|||||||0.8339||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Sustained Attention - CFB at Day 21||||0.8339
82558867|NCT00145470|164827212|SUPERIORITY|||||||0.2101||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Composite Memory - CFB at Day 21||||0.2101
82558868|NCT00145470|164827213|SUPERIORITY|||||||0.6914||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Verbal Memory - CFB at Day 84||||0.6914
82558869|NCT00145470|164827213|SUPERIORITY|||||||0.8805||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Visual Memory - CFB at Day 84||||0.8805
82558870|NCT00145470|164827213|SUPERIORITY|||||||0.4878||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Processing Speed - CFB at Day 84||||0.4878
82583672|NCT00192647|164878936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.24|2.17||||||Week 8||2.17|1.24|
82583673|NCT00192647|164878936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.4|2.53||||||Week 12||2.53|1.40|
82583674|NCT00192647|164878936|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.08|1.98||||||Week 24||1.98|1.08|
82583675|NCT01828073|164878942|OTHER||Clopper-Pearson Confidence Interval (CI)|31.82|||||TWO_SIDED|90.0|16.0|51.5|||||With the small sample size, the CI estimate tend to be wide.|Point and 90% CI estimates of percentage of full term infants meeting the composite safety endpoint (grade 3/4 adverse event, adverse birth outcome, death)||51.50|16.00|
82583676|NCT01828073|164878942|OTHER||Clopper-Pearson Confidence Interval (CI)|50.0|||||TWO_SIDED|90.0|29.1|70.9|||||With the small sample size, the CI estimate tend to be wide.|Point and 90% CI estimates of percentage of full term infants meeting the composite safety endpoint (grade 3/4 adverse event, death)||70.90|29.10|
82583677|NCT01828073|164878946|OTHER|||||||0.747||||||The study was not powered to do the comparison. This was an exploratory analysis.|Wilcoxon (Mann-Whitney)|||To investigate the relationship between neonatal RAL elimination and UGT1A1 genotype in full term infants.||||0.747
82583678|NCT01828073|164878946|OTHER|||||||0.341||||||The study was not powered to do the comparison. This was an exploratory analysis.|Wilcoxon (Mann-Whitney)|||To investigate the relationship between neonatal RAL elimination and UGT1A1 genotype in LBW infants.||||0.341
82558871|NCT00145470|164827213|SUPERIORITY|||||||0.8051||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Social Acuity - CFB at Day 84||||0.8051
82558872|NCT00145470|164827213|SUPERIORITY|||||||0.1925||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Reasoning - CFB at Day 84||||0.1925
82558873|NCT00145470|164827213|SUPERIORITY|||||||0.0514||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Executive Functioning - CFB at Day 84||||0.0514
82558874|NCT00145470|164827213|SUPERIORITY|||||||0.9898||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Working Memory - CFB at Day 84||||0.9898
82558875|NCT00145470|164827213|SUPERIORITY|||||||0.5683||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Sustained Attention - CFB at Day 84||||0.5683
82558876|NCT00145470|164827213|SUPERIORITY|||||||0.8907||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Composite Memory - CFB at Day 84||||0.8907
82558877|NCT00145470|164827214|SUPERIORITY|||||||0.0613|||||||Log Rank|||||||0.0613
82558878|NCT00145470|164827215|SUPERIORITY|||||||0.7493||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 21||||0.7493
82558879|NCT00145470|164827216|SUPERIORITY|||||||0.4884||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||Change from Baseline at Day 84||||0.4884
82558880|NCT00145470|164827217|SUPERIORITY|||||||0.128||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||PCS - Change from Baseline at Day 21||||0.1280
82558881|NCT00145470|164827217|SUPERIORITY|||||||0.0215||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||MCS - Change from Baseline at Day 21||||0.0215
82558882|NCT00145470|164827218|SUPERIORITY|||||||0.1331||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||PCS - Change from Baseline at Day 84||||0.1331
82583679|NCT03057977|164878953|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.75|||<|0.0001|TWO_SIDED|95.04|0.65|0.86|||Regression, Cox||Comparison vs. Placebo \[T/P\]|"Model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.~alpha = 0.0496 (resulting from interim analysis) eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction."||0.86|0.65|<0.0001
82558883|NCT00145470|164827218|SUPERIORITY|||||||0.2024||||||P-value based on the difference in the LS means for asenapine versus placebo.|ANCOVA|Based on an ANCOVA model with treatment and pooled investigative site as fixed effects and baseline as a covariate.||MCS - Change from Baseline at Day 84||||0.2024
82558884|NCT05349721|164827361|OTHER||Treatment Difference|6.86||||0.516|TWO_SIDED|95.0|-13.86|27.59|||ANCOVA|Estimates were derived from the ANCOVA model (following multiple imputation), where participant ranks served as the response variable.||||27.59|-13.86|0.516
82558885|NCT03137459|164827387|SUPERIORITY||Risk Difference (RD)|0.059|||||TWO_SIDED|95.0|0.014|0.105|||||Analysis performed using GEE to account for clustering of participants within practices.|||.105|.014|
82558886|NCT03137459|164827387|SUPERIORITY||Odds Ratio (OR)|1.83|||||TWO_SIDED|95.0|1.14|2.93|||||Determined using mixed effects models, accounting for clustering of participants in practices and adjusting for unbalanced covariates: education, employment, stage of change for each ACP behavior|||2.93|1.14|
82558887|NCT03137459|164827388|SUPERIORITY||Risk Difference (RD)|0.082|||||TWO_SIDED|95.0|0.014|0.15|||||Adjusted for clustering|||.150|.014|
82558888|NCT03137459|164827388|SUPERIORITY||Odds Ratio (OR)|1.39|||||TWO_SIDED|95.0|0.96|2.0|||||Accounting for clustering and adjusted for covariates as described in primary outcome|||2.0|.96|
82558889|NCT03137459|164827389|SUPERIORITY||Risk Difference (RD)|0.133|||||TWO_SIDED|95.0|0.066|0.201|||||Accounting for clustering|||.201|.066|
82583680|NCT03057977|164878954|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.7||||0.0003|TWO_SIDED|95.04|0.58|0.85|||Joint frailty model||HR vs placebo of recurrent HFF|"Model accounts for dependence between recurrent HHF and cardiovascular death, with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.~eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction."||0.85|0.58|0.0003
82583681|NCT03057977|164878955|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Treatment by time interaction|1.733|||<|0.0001|TWO_SIDED|99.9|0.669|2.796|||Random intercept random coef. model||Empa vs Placebo slope \[/year\]|"Random coefficient model allowing for random intercept and random slope per patient, with the same factors used for the primary endpoint (age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment) and additional factors time, treatment-by-time interaction, and baseline eGFR (CKD-EPI)cr-by-time interaction. Only on-treatment data from treated patients were used.~alpha=0.001"||2.796|0.669|<0.0001
82583682|NCT03057977|164878956|OTHER||Hazard Ratio (HR)|0.5||||0.0019|TWO_SIDED|95.0|0.32|0.77|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.|Comparison vs. Placebo|||0.77|0.32|0.0019
82583683|NCT03057977|164878957|OTHER||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.81|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPK)cr, region, baseline diabetes status, sex, baseline LVEF, and treatment.|Comparison vs Placebo|||0.81|0.59|<0.0001
82558890|NCT03137459|164827389|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|1.22|2.47|||||Accounting for clustering and adjusted for covariates as presenting for primary outcome|||2.47|1.22|
82558891|NCT03137459|164827390|SUPERIORITY||Risk Difference (RD)|0.07|||||TWO_SIDED|95.0|-0.05|0.188||||||||.188|-.05|
82558892|NCT03137459|164827390|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.72|1.85|||||Accounting for clustering and adjusting for covariates as described for primary outcome|||1.85|.72|
82558893|NCT00887224|164827453|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Significance declared if p-value ≤0.05. The estimated probability obtained via Kaplan-Meier estimate.|Log Rank|||||||<0.001
82558894|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9627|TWO_SIDED|95.0|-0.09|0.08||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.08|-0.09|0.9627
82558895|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.1046|TWO_SIDED|95.0|-0.02|0.21||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||0.21|-0.02|0.1046
82558896|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.0228|TWO_SIDED|95.0|0.02|0.25||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||0.25|0.02|0.0228
82558897|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.0064|TWO_SIDED|95.0|0.05|0.29||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||0.29|0.05|0.0064
82558898|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.001|TWO_SIDED|95.0|0.11|0.39||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||0.39|0.11|<0.001
82558899|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|||<|0.001|TWO_SIDED|95.0|0.12|0.43||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||0.43|0.12|<0.001
82558900|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001|TWO_SIDED|95.0|0.19|0.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||0.47|0.19|<0.001
82558901|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001|TWO_SIDED|95.0|0.17|0.49||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||0.49|0.17|<0.001
82558902|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43|||<|0.001|TWO_SIDED|95.0|0.25|0.62||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||0.62|0.25|<0.001
82558903|NCT00887224|164827455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|||<|0.001|TWO_SIDED|95.0|0.28|0.61||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||0.61|0.28|<0.001
82558904|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.8853|TWO_SIDED|95.0|-0.41|0.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.47|-0.41|0.8853
82558905|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.0081|TWO_SIDED|95.0|0.23|1.52||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||1.52|0.23|0.0081
82558906|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88||||0.0038|TWO_SIDED|95.0|0.28|1.47||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||1.47|0.28|0.0038
82558907|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.76|2.03||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||2.03|0.76|<0.001
82558908|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|0.86|2.39||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||2.39|0.86|<0.001
82558909|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|0.83|2.54||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||2.54|0.83|<0.001
82558910|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.04|||<|0.001|TWO_SIDED|95.0|1.23|2.86||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||2.86|1.23|<0.001
82487876|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-0.99|-0.27|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.27|-0.99|<0.001
82487877|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.19|-0.48|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.48|-1.19|<0.001
82558911|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.95|||<|0.001|TWO_SIDED|95.0|1.06|2.84||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||2.84|1.06|<0.001
82558912|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.31|3.3||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||3.30|1.31|<0.001
82558913|NCT00887224|164827456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|||<|0.001|TWO_SIDED|95.0|1.39|3.32||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||3.32|1.39|<0.001
82558914|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.9142|TWO_SIDED|95.0|-0.24|0.27||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 1||0.27|-0.24|0.9142
82558915|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.0069|TWO_SIDED|95.0|0.15|0.91||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 2||0.91|0.15|0.0069
82583684|NCT03057977|164878958|OTHER||Hazard Ratio (HR)|0.92||||0.4133|TWO_SIDED|95.0|0.75|1.12|||Regression, Cox|Model with terms for age, baseline eGFR (CKD-EPI), region, baseline diabetes status, sex, baseline LVEF and treatment.|Comparison vs. Placebo|||1.12|0.75|0.4133
82583685|NCT03057977|164878959|OTHER||Hazard Ratio (HR)|0.92||||0.3536|TWO_SIDED|95.0|0.77|1.1|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CKD-EPI), region, baseline diabetes status, sex, baseline LVEF and treatment.|Comparison vs. placebo|||1.10|0.77|0.3536
82583686|NCT03057977|164878960|OTHER||Hazard Ratio (HR)|0.86||||0.3576|TWO_SIDED|95.0|0.62|1.19|||Regression, Cox|Cox regression model with terms for age, baseline eGFR (CDK-EPI), region, sex, baseline LVEF and treatment.|Comparison vs. placebo|||1.19|0.62|0.3576
82583687|NCT03057977|164878961|OTHER||Difference of adjusted means|2.06|STANDARD_ERROR_OF_MEAN|0.97||0.034|TWO_SIDED|95.0|0.16|3.96|||Mixed Model|Mixed model for repeated measures (MMRM)|Comparison vs. placebo|Mixed model with age, baseline eGFR (CKD-EPI) as linear covariate(s) and region, baseline diabetes status, sex, baseline LVEF, week reachable, treatment by visit interaction, baseline KCCQ - Clinical Summary Score by Visit interaction as fixed effects. An unstructured covariance structure has been used.||3.96|0.16|0.0340
82583688|NCT03057977|164878962|OTHER||Hazard Ratio (HR)|0.85||||0.0065|TWO_SIDED|95.0|0.75|0.95|||Joint frailty model||Comparison vs. placebo|Joint frailty model with terms for age, baseline eGFR (CDK-EPI), region, sex, baseline diabetes status and baseline LVEF. Model accounts for dependence between recurrent all-cause hospitalizations and all-cause mortality.||0.95|0.75|0.0065
82583689|NCT02502097|164878964|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.5||||0.5096|TWO_SIDED|95.0|-10.1|5.1|||Mixed Models Analysis||LS mean difference Day 7|||5.1|-10.1|0.5096
82583690|NCT02502097|164878964|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-0.8||||0.8983|TWO_SIDED|95.0|-13.4|11.8|||Mixed Models Analysis||LS mean difference Day 14|||11.8|-13.4|0.8983
82583691|NCT02502097|164878968|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-3.7||||0.5005|TWO_SIDED|95.0|-14.6|7.2|||Mixed Models Analysis||LS means difference Day 7|||7.2|-14.6|0.5005
82583692|NCT02502097|164878968|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.8||||0.8382|TWO_SIDED|95.0|-19.8|16.1|||Mixed Models Analysis||LS means difference Day 14|||16.1|-19.8|0.8382
82583693|NCT02502097|164878969|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.3||||0.8008|TWO_SIDED|95.0|-11.9|9.2|||Mixed Models Analysis||LS means difference Day 7|||9.2|-11.9|0.8008
82583694|NCT02502097|164878969|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|0.2||||0.9805|TWO_SIDED|95.0|-17.6|18.0|||Mixed Models Analysis||LS means difference Day 14|||18.0|-17.6|0.9805
82583695|NCT02502097|164878972|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.4||||0.3279|TWO_SIDED|95.0|-7.1|2.4|||Mixed Models Analysis||LS means difference Day 7|||2.4|-7.1|0.3279
82583696|NCT02502097|164878972|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|1.5||||0.7772|TWO_SIDED|95.0|-9.2|12.3|||Mixed Models Analysis||LS means difference Day 14|||12.3|-9.2|0.7772
82487878|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.29|-0.57|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.57|-1.29|<0.001
82583697|NCT02502097|164878973|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-3.2||||0.3493|TWO_SIDED|95.0|-10.1|3.6|||Mixed Models Analysis||LS means difference Day 7|||3.6|-10.1|0.3493
82583698|NCT02502097|164878973|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|1.0||||0.8952|TWO_SIDED|95.0|-14.3|16.3|||Mixed Models Analysis||LS means difference Day 14|||16.3|-14.3|0.8952
82583699|NCT02502097|164878974|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.5||||0.6597|TWO_SIDED|95.0|-8.1|5.2|||Mixed Models Analysis||LS means difference Day 7|||5.2|-8.1|0.6597
82583700|NCT02502097|164878974|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|2.1||||0.788|TWO_SIDED|95.0|-13.1|17.2|||Mixed Models Analysis||LS means difference Day 14|||17.2|-13.1|0.7880
82487879|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.89|-0.2|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.20|-0.89|0.002
82487880|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.32|-0.63|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.63|-1.32|<0.001
82487881|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.39|-0.7|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.70|-1.39|<0.001
82487882|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.55|-0.86|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.86|-1.55|<0.001
82487883|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.18|-0.43|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.43|-1.18|<0.001
82487884|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.28|-0.53|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.53|-1.28|<0.001
82487885|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.33|-0.58|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.33|<0.001
82487886|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.56|-0.81|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.81|-1.56|<0.001
82583701|NCT02502097|164878978|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.5||||0.1856|TWO_SIDED|95.0|-6.3|1.3|||Mixed Models Analysis||LS mean difference Day 7|||1.3|-6.3|0.1856
82487887|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.02|-0.31|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.31|-1.02|<0.001
82487888|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.08|-0.37|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.37|-1.08|<0.001
82487889|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.36|-0.65|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.65|-1.36|<0.001
82487890|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.52|-0.81|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.81|-1.52|<0.001
82487891|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.29|-0.51|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.29|<0.001
82487892|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.3|-0.51|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.51|-1.30|<0.001
82487893|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.36|-0.58|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.58|-1.36|<0.001
82487894|NCT00809354|164668776|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.2|<|0.01|TWO_SIDED|95.0|-1.57|-0.79|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.79|-1.57|<0.01
82487895|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.469|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.469
82487896|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.387|TWO_SIDED|95.0|-0.18|0.07|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.18|0.387
82487897|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.887|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.11|0.887
82487898|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.01|0.084
82487899|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.018
82487900|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.783
82487901|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.762|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.762
82487902|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.017
82487903|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.06||0.207|TWO_SIDED|95.0|-0.2|0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.20|0.207
82487904|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.02|TWO_SIDED|95.0|-0.27|-0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.27|0.020
82558916|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58||||0.0023|TWO_SIDED|95.0|0.21|0.95||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 3||0.95|0.21|0.0023
82487905|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.941|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.13|0.941
82487906|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.494|TWO_SIDED|95.0|-0.18|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.18|0.494
82487907|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.089|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.089
82487908|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.467|TWO_SIDED|95.0|-0.18|0.08|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.18|0.467
82487909|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.774|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.774
82487910|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.06||0.315|TWO_SIDED|95.0|-0.06|0.19|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.19|-0.06|0.315
82487911|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.088|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.088
82487912|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.084|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.084
82487913|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.066|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.066
82558917|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|||<|0.001|TWO_SIDED|95.0|0.49|1.28||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 4||1.28|0.49|<0.001
82558918|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88|||<|0.001|TWO_SIDED|95.0|0.43|1.32||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 6||1.32|0.43|<0.001
82558919|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.58|1.58||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 10||1.58|0.58|<0.001
82487914|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.073|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.073
82487915|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.682|TWO_SIDED|95.0|-0.16|0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.16|0.682
82487916|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.014|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.014
82487917|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.027|TWO_SIDED|95.0|-0.28|-0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.02|-0.28|0.027
82487918|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.871|TWO_SIDED|95.0|-0.14|0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.14|0.871
82558920|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.66|1.58||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||1.58|0.66|<0.001
82558921|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|||<|0.001|TWO_SIDED|95.0|0.76|1.83||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 18||1.83|0.76|<0.001
82558922|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.23|||<|0.001|TWO_SIDED|95.0|0.7|1.76||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 22||1.76|0.70|<0.001
82558923|NCT00887224|164827457|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|||<|0.001|TWO_SIDED|95.0|0.75|1.79||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||1.79|0.75|<0.001
82558924|NCT00887224|164827458|SUPERIORITY_OR_OTHER||Adjusted odds ratio|2.85|||<|0.0001|TWO_SIDED|95.0|1.93|4.2||Obtained from logistic regression analysis using Remission (Yes/No) at each time point as a response variable; logistic model with treatment and sites as factors and baseline HAM-D17 total score as covariate.|Regression, Logistic|||Wald 95% CI for adjusted odds ratio.||4.20|1.93|<0.0001
82558925|NCT00887224|164827459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.14|||<|0.001|TWO_SIDED|95.0|-3.03|-1.24||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14||-1.24|-3.03|<0.001
82558926|NCT00887224|164827459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|||<|0.001|TWO_SIDED|95.0|-3.29|-1.34||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26||-1.34|-3.29|<0.001
82558927|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02||||0.6772|TWO_SIDED|95.0|-3.82|5.87||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Absenteeism||5.87|-3.82|0.6772
82558928|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.9059|TWO_SIDED|95.0|-5.91|5.24||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Absenteeism||5.24|-5.91|0.9059
82558929|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.91||||0.0414|TWO_SIDED|95.0|0.27|13.55||"P-value obtained from mixed model: change from baseline = baseline + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Presenteeism||13.55|0.27|0.0414
82558930|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.24||||0.0129|TWO_SIDED|95.0|1.77|14.71||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Presenteeism||14.71|1.77|0.0129
82558931|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.48||||0.0402|TWO_SIDED|95.0|0.34|14.61||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Work Productivity Loss||14.61|0.34|0.0402
82558932|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.48||||0.0187|TWO_SIDED|95.0|1.43|15.53||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Work Productivity Loss||15.53|1.43|0.0187
82558933|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.57|||<|0.001|TWO_SIDED|95.0|3.33|11.8||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 14 Activity Impairment||11.80|3.33|<0.001
82558934|NCT00887224|164827460|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.62|||<|0.001|TWO_SIDED|95.0|3.14|12.1||"P-value obtained from mixed model: change from baseline = baseline + site + treatment + visit + treatment\*visit with Unstructured covariance structure."|Mixed Models Analysis|Mixed-effects model for repeated measures (MMRM).||Adjusted difference from placebo: Week 26 Activity Impairment||12.10|3.14|<0.001
82558935|NCT05553366|164827510|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82558936|NCT05553366|164827511|SUPERIORITY|||||||0.0016|||||||ANCOVA|||||||0.0016
82558937|NCT05553366|164827512|SUPERIORITY|||||||0.0016|||||||Log Rank|||||||0.0016
82558938|NCT05553366|164827513|SUPERIORITY|||||||0.1315|||||||Log Rank|||||||0.1315
82558939|NCT05553366|164827514|SUPERIORITY|||||||0.0343|||||||Cochran-Mantel-Haenszel|||||||0.0343
82558940|NCT05553366|164827515|SUPERIORITY|||||||0.0014|||||||Pearson's chi-squared test|||||||0.0014
82558941|NCT05553366|164827516|SUPERIORITY|||||||0.0032|||||||ANCOVA|||||||0.0032
82558942|NCT05553366|164827517|SUPERIORITY|||||||0.8592|||||||Log Rank|||||||0.8592
82558943|NCT05553366|164827518|SUPERIORITY|||||||0.9143|||||||Cochran-Mantel-Haenszel|||||||0.9143
82558944|NCT05553366|164827519|SUPERIORITY|||||||0.0205|||||||Wilcoxon rank-sum|||||||0.0205
82558945|NCT01034306|164827551|SUPERIORITY|||||||0.0352||||||normal approximation to the binomial test|t-test, 2 sided|||||||0.0352
82558946|NCT01034306|164827552|SUPERIORITY|||||||0.2472|||||||t-test, 2 sided|||||||.2472
82558947|NCT01034306|164827553|SUPERIORITY|||||||0.1972|||||||t-test, 2 sided|||||||0.1972
82487919|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.301|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.301
82558948|NCT01968967|164827567|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.2|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-58.3|-54.0|||MMRM|||Least square (LS) mean difference and associated 95 percent (%) confidence interval (CI), and p-value were derived from mixed effect model repeat measurement (MMRM) model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-54.0|-58.3|<0.001
82487920|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.181|TWO_SIDED|95.0|-0.23|0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.23|0.181
82487921|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.3|-0.04|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.30|0.013
82487922|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.031|TWO_SIDED|95.0|-0.28|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.28|0.031
82487923|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.874|TWO_SIDED|95.0|-0.15|0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.15|0.874
82487924|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.447|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.447
82558949|NCT01968967|164827568|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|STANDARD_ERROR_OF_MEAN|0.76|<|0.001|TWO_SIDED|95.0|-36.5|-33.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.5|-36.5|<0.001
82558950|NCT01968967|164827568|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.6|STANDARD_ERROR_OF_MEAN|0.89|||TWO_SIDED|95.0|-33.3|-29.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-29.8|-33.3|
82558951|NCT01968967|164827568|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.7|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|-26.6|-22.8||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-22.8|-26.6|
82558952|NCT01968967|164827569|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.8|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-52.9|-48.8|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.8|-52.9|<0.001
82558953|NCT01968967|164827569|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.1|STANDARD_ERROR_OF_MEAN|1.19|||TWO_SIDED|95.0|-48.5|-43.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.8|-48.5|
82487925|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.059|TWO_SIDED|95.0|-0.27|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.27|0.059
82558954|NCT01968967|164827569|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.1|STANDARD_ERROR_OF_MEAN|1.28|||TWO_SIDED|95.0|-38.6|-33.6||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.6|-38.6|
82558955|NCT01968967|164827570|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.1|STANDARD_ERROR_OF_MEAN|1.04|<|0.001|TWO_SIDED|95.0|-52.1|-48.0|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.0|-52.1|<0.001
82487926|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.196|TWO_SIDED|95.0|-0.23|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.23|0.196
82583702|NCT02502097|164878978|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|2.7||||0.5658|TWO_SIDED|95.0|-6.6|12.1|||Mixed Models Analysis||LS mean difference Day 14|||12.1|-6.6|0.5658
82558956|NCT01968967|164827570|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.5|STANDARD_ERROR_OF_MEAN|1.22|||TWO_SIDED|95.0|-47.9|-43.1||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.1|-47.9|
82558957|NCT01968967|164827570|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.9|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|-38.5|-33.3||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-33.3|-38.5|
82558958|NCT01968967|164827571|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.7|STANDARD_ERROR_OF_MEAN|1.29|<|0.001|TWO_SIDED|95.0|-60.2|-55.2|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-55.2|-60.2|<0.001
82558959|NCT01968967|164827571|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.1|STANDARD_ERROR_OF_MEAN|1.55|||TWO_SIDED|95.0|-56.1|-50.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-50.0|-56.1|
82558960|NCT01968967|164827571|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.8|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|-46.2|-39.5||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-39.5|-46.2|
82558961|NCT01968967|164827572|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.8|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-55.9|-47.7|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-47.7|-55.9|<0.001
82558962|NCT01968967|164827572|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.0|STANDARD_ERROR_OF_MEAN|2.61|||TWO_SIDED|95.0|-49.1|-38.8||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-38.8|-49.1|
82558963|NCT01968967|164827572|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.6|STANDARD_ERROR_OF_MEAN|2.83|||TWO_SIDED|95.0|-40.2|-29.0||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-29.0|-40.2|
82583703|NCT02502097|164878979|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-8.0||||0.0847|TWO_SIDED|95.0|-17.2|1.1|||Mixed Models Analysis||LS mean difference Day 7|||1.1|-17.2|0.0847
82583704|NCT02502097|164878979|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-5.8||||0.3083|TWO_SIDED|95.0|-17.0|5.4|||Mixed Models Analysis||LS mean difference Day 14|||5.4|-17.0|0.3083
82583705|NCT02502097|164878980|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.0||||0.229|TWO_SIDED|95.0|-5.3|1.3|||Mixed Models Analysis||LS mean difference Day 7|||1.3|-5.3|0.2290
82583706|NCT02502097|164878980|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|0.0||||0.9794|TWO_SIDED|95.0|-3.5|3.4|||Mixed Models Analysis||LS mean difference Day 14|||3.4|-3.5|0.9794
82583707|NCT02502097|164878981|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.0||||0.0009|TWO_SIDED|95.0|-1.5|-0.4|||Mixed Models Analysis||LS mean difference Week 1|||-0.4|-1.5|0.0009
82583708|NCT02502097|164878981|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-1.0||||0.005|TWO_SIDED|95.0|-1.7|-0.3|||Mixed Models Analysis||LS mean difference Week 2|||-0.3|-1.7|0.0050
82487927|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.36|TWO_SIDED|95.0|-0.18|0.06|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.18|0.360
82558964|NCT01968967|164827573|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.5|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-34.4|-22.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-22.5|-34.4|<0.001
82558965|NCT01968967|164827573|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|4.86|||TWO_SIDED|95.0|-40.6|-21.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-21.5|-40.6|
82558966|NCT01968967|164827573|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.3|STANDARD_ERROR_OF_MEAN|5.89|||TWO_SIDED|95.0|-36.8|-13.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.7|-36.8|
82558967|NCT01968967|164827574|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.001|TWO_SIDED|95.0|4.5|7.0|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.0|4.5|<0.001
82558968|NCT01968967|164827574|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|95.0|4.2|6.8||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.8|4.2|
82558969|NCT01968967|164827574|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|95.0|3.7|6.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.7|3.7|
82558970|NCT01968967|164827575|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.7|STANDARD_ERROR_OF_MEAN|1.34|||TWO_SIDED|95.0|-53.3|-48.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-48.0|-53.3|
82558971|NCT01968967|164827575|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.7|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-43.5|-37.8||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-37.8|-43.5|
82558972|NCT01968967|164827576|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-20.0|-13.2||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.2|-20.0|
82558973|NCT01968967|164827576|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-20.7|-12.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-12.6|-20.7|
82558974|NCT01968967|164827576|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-16.5|-9.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.0|-16.5|
82558975|NCT01968967|164827577|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.49|||TWO_SIDED|95.0|2.4|4.3||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.3|2.4|
82558976|NCT01968967|164827577|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|0.51|||TWO_SIDED|95.0|2.5|4.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.5|2.5|
82583709|NCT02502097|164878982|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-2.8||||0.2938|TWO_SIDED|95.0|-8.2|2.5|||Mixed Models Analysis||LS mean difference Day 7|||2.5|-8.2|0.2938
82558977|NCT01968967|164827577|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|95.0|2.7|4.9||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||4.9|2.7|
82583710|NCT02502097|164878982|SUPERIORITY|MMRM model uses the change from baseline as the dependent variable and includes the period, treatment group (Gefapixant 50 mg, Placebo), visit (Day 7 and Day 14 at each Period), all interactions terms as fixed factors, and baseline as a covariate.|Mean Difference (Final Values)|-4.0||||0.1319|TWO_SIDED|95.0|-9.2|1.2|||Mixed Models Analysis||LS mean difference Day 14|||1.2|-9.2|0.1319
82583711|NCT02502097|164878983|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.2175|TWO_SIDED|95.0|-1.5|0.4|||Mixed Models Analysis||LS mean difference Day 7|||0.4|-1.5|0.2175
82487928|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.845|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.845
82487929|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.076|TWO_SIDED|95.0|-0.23|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.23|0.076
82487930|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.957|TWO_SIDED|95.0|-0.12|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.12|0.957
82487931|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.404|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.404
82487932|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.03|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.03|0.128
82487933|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.577|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.577
82487934|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED|95.0|-0.01|0.25|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.01|0.068
82487935|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.011|TWO_SIDED|95.0|-0.28|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.28|0.011
82487936|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.36|<0.001
82487937|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.43|-0.18|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.18|-0.43|<0.001
82487938|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.36|-0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.36|<0.001
82487939|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.043|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.27|0.043
82487940|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.31|-0.05|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.31|0.007
82487941|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.38|-0.12|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.38|<0.001
82487942|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.36|-0.1|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.36|<0.001
82487943|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.074|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.074
82583712|NCT02502097|164878983|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.5312|TWO_SIDED|95.0|-1.4|0.7|||Mixed Models Analysis||LS mean difference Day 14|||0.7|-1.4|0.5312
82487944|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.37|<0.001
82487945|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.10|-0.37|<0.001
82487946|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.49|-0.23|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.23|-0.49|<0.001
82487947|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.236|TWO_SIDED|95.0|-0.21|0.05|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.21|0.236
82487948|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.112|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.24|0.112
82487949|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.38|-0.11|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.38|<0.001
82487950|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.39|-0.12|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.12|-0.39|<0.001
82487951|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.059|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.26|0.059
82487952|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.33|-0.07|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.33|0.003
82487953|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.001|TWO_SIDED|95.0|-0.36|-0.09|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.09|-0.36|0.001
82487954|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.51|-0.24|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-0.51|<0.001
82487955|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.055|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.055
82487956|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.038|TWO_SIDED|95.0|-0.28|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.28|0.038
82487957|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.007|TWO_SIDED|95.0|-0.33|-0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.33|0.007
82487958|NCT00809354|164668777|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.42|-0.14|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.42|<0.001
82583713|NCT01350336|164879000|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 2 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.038|||||TWO_SIDED|95.0|-0.1251|0.0497||||||Comparison of Years 1 and 2||0.0497|-0.1251|
82487959|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.06||0.469|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.469
82487960|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.06||0.387|TWO_SIDED|95.0|-0.18|0.07|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.18|0.387
82487961|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.887|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.13|-0.11|0.887
82487962|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.06||0.084|TWO_SIDED|95.0|-0.01|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.01|0.084
82487963|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.018
82487964|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.783|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.783
82487965|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.762|TWO_SIDED|95.0|-0.11|0.15|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.15|-0.11|0.762
82487966|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.017|TWO_SIDED|95.0|0.03|0.29|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.29|0.03|0.017
82487967|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.091|TWO_SIDED|95.0|-0.23|0.02|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.23|0.091
82487968|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.009|TWO_SIDED|95.0|-0.29|-0.04|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.04|-0.29|0.009
82487969|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.835|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.835
82487970|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.06||0.463|TWO_SIDED|95.0|-0.08|0.17|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.17|-0.08|0.463
82487971|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.713|TWO_SIDED|95.0|-0.16|0.11|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.16|0.713
82487972|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.267|TWO_SIDED|95.0|-0.21|0.06|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.21|0.267
82558978|NCT01968967|164827578|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-0.9|1.4||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||1.4|-0.9|
82558979|NCT01968967|164827578|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|-0.1|2.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.3|-0.1|
82558980|NCT01968967|164827578|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.61|||TWO_SIDED|95.0|0.3|2.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.7|0.3|
82558981|NCT01968967|164827579|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.6|STANDARD_ERROR_OF_MEAN|1.73|||TWO_SIDED|95.0|-20.0|-13.2||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.2|-20.0|
82558982|NCT01968967|164827579|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-20.7|-12.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-12.6|-20.7|
82558983|NCT01968967|164827579|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.8|STANDARD_ERROR_OF_MEAN|1.91|||TWO_SIDED|95.0|-16.5|-9.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.0|-16.5|
82558984|NCT01968967|164827580|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.4|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|95.0|-63.1|-57.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-57.6|-63.1|
82558985|NCT01968967|164827581|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.8|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-68.3|-57.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-57.3|-68.3|
82558986|NCT01968967|164827582|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.0|STANDARD_ERROR_OF_MEAN|1.27|||TWO_SIDED|95.0|-63.5|-58.5||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-58.5|-63.5|
82558987|NCT01968967|164827583|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.7|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-66.6|-60.9||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-60.9|-66.6|
82558988|NCT01968967|164827584|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.4|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-69.3|-63.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-63.6|-69.3|
82558989|NCT01968967|164827585|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.8|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|95.0|-47.7|-43.9||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.9|-47.7|
82558990|NCT01968967|164827586|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|95.0|-11.8|-9.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-9.3|-11.8|
82583714|NCT01350336|164879000|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 3 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0325|||||TWO_SIDED|95.0|-0.1197|0.0565||||||Comparison of Years 1 and 3||0.0565|-0.1197|
82558991|NCT01968967|164827587|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.31|||TWO_SIDED|95.0|2.1|3.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.3|2.1|
82583715|NCT01350336|164879000|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 4 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0566|||||TWO_SIDED|95.0|-0.1444|0.0329||||||Comparison of Years 1 and 4||0.0329|-0.1444|
82487973|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.552|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.552
82487974|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.07||0.885|TWO_SIDED|95.0|-0.12|0.14|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.14|-0.12|0.885
82487975|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.47|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.26|0.47
82487976|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.056|TWO_SIDED|95.0|-0.26|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.26|0.056
82487977|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.117|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.117
82487978|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.106|TWO_SIDED|95.0|-0.24|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.24|0.106
82487979|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.673|TWO_SIDED|95.0|-0.16|0.1|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.16|0.673
82487980|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.089|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.089
82487981|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.065|TWO_SIDED|95.0|-0.26|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.26|0.065
82487982|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.567|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.567
82487983|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.135|TWO_SIDED|95.0|-0.24|0.03|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.03|-0.24|0.135
82487984|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.094|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.094
82487985|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.055|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.00|-0.27|0.055
82487986|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.087|TWO_SIDED|95.0|-0.25|0.02|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.02|-0.25|0.087
82558992|NCT01968967|164827588|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|-1.6|-1.5||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.5|-1.6|
82558993|NCT01968967|164827588|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-1.5|-1.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.3|-1.5|
82558994|NCT01968967|164827588|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-1.2|-1.0||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.0|-1.2|
82558995|NCT01968967|164827589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.3||||||Week 12: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
82558996|NCT01968967|164827589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.3||||||Week 24: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
82558997|NCT01968967|164827589|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.3|-0.2||||||Week 52: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-0.3|
82558998|NCT01968967|164827590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.0|||||TWO_SIDED|95.0|19.21|38.02||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||38.02|19.21|
82651827|NCT00458302|165018746|NON_INFERIORITY_OR_EQUIVALENCE|The primary comparison was performed at Week 48. If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/r and DRV/r+2NRTIs exceeds -12%, non-inferiority of the DRV/r 800/100 once a day (O.D) monotherapy versus the DRV/r 800/100 mg O.D. plus two NRTIs triple combination therapy was concluded.|Difference in proportion of response|-1.6|||||TWO_SIDED|95.0|-10.1|6.8|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|Assuming a virologic response rate of 90% at 48 weeks for both treatment arms, 111 patients were required per treatment arm to establish non-inferiority of DRV/r versus triple regimen with a maximum allowable difference of 12%, with a one-sided significance level of p=0.025 and 80% power. To account for a maximum of 10% major protocol violations that would be excluded from the on-protocol analysis, 125 patients were recruited in each treatment arm, so 250 patients in total.||6.8|-10.1|
82651828|NCT00458302|165018747|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/r and DRV/r+2NRTIs exceeds -12%, non-inferiority of the DRV/r 800/100 once a day (O.D) monotherapy versus the DRV/r 800/100 mg O.D. plus two NRTIs triple combination therapy was concluded.|Difference in proportion of response|-1.0|||||TWO_SIDED|95.0|-9.9|7.8|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|Assuming a virologic response rate of 90% at 48 weeks for both treatment arms, 111 patients were required per treatment arm to establish non-inferiority of DRV/r versus triple regimen with a maximum allowable difference of 12%, with a one-sided significance level of p=0.025 and 80% power. To account for a maximum of 10% major protocol violations that would be excluded from the on-protocol analysis, 125 patients were recruited in each treatment are, so 250 patients in total.||7.8|-9.9|
82651829|NCT00458302|165018749|SUPERIORITY_OR_OTHER||Difference in proportion of response|1.29|||||TWO_SIDED|95.0|-7.99|10.58|||||Difference in proportion of response DRV/r minus DRV/r+2NRTIs.|||10.58|-7.99|
82651830|NCT01379781|165018790|SUPERIORITY||Slope|-6.54||||0.01|TWO_SIDED||||||Mixed Models Analysis|||Mixed effect model was used to compare Hamilton Rating Scales of Depression (HRSD) for women who received the PREPP intervention between the pre-randomization assessment and the 6 weeks postpartum session.||||.01
82651831|NCT00006170|165018825|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.001|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.001
82651832|NCT00006170|165018825|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.25||95.0|||||Regression, Logistic|||||||0.25
82651833|NCT00006170|165018825|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.07||95.0|||||Regression, Logistic|||||||0.07
82487987|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.542|TWO_SIDED|95.0|-0.18|0.1|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.10|-0.18|0.542
82487988|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.07||0.643|TWO_SIDED|95.0|-0.17|0.11|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.17|0.643
82558999|NCT01968967|164827590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.9|||||TWO_SIDED|95.0|9.84|16.86||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||16.86|9.84|
82559000|NCT01968967|164827590|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.3|||||TWO_SIDED|95.0|4.99|8.06||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||8.06|4.99|
82651834|NCT00006170|165018826|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.|||||<|0.001||95.0|||||Regression, Logistic|||||||<0.001
82651835|NCT00006170|165018826|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.053||95.0|||||Regression, Logistic|||||||0.053
82651836|NCT00006170|165018826|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.08||95.0|||||Regression, Logistic|||||||0.08
82651837|NCT00006170|165018827|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.006||95.0|||||Regression, Logistic|||||||0.006
82651838|NCT00006170|165018827|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.45||95.0|||||Regression, Logistic|||||||0.45
82487989|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.07||0.301|TWO_SIDED|95.0|-0.21|0.07|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.07|-0.21|0.301
82487990|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.237|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.05|-0.22|0.237
82487991|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.06||0.36|TWO_SIDED|95.0|-0.18|0.06|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.06|-0.18|0.360
82487992|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.06||0.854|TWO_SIDED|95.0|-0.13|0.11|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.11|-0.13|0.854
82487993|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.076|TWO_SIDED|95.0|-0.23|0.01|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.23|0.076
82559001|NCT01968967|164827591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|86.5|||||TWO_SIDED|95.0|61.74|121.25||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||121.25|61.74|
82559002|NCT01968967|164827591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|35.9|||||TWO_SIDED|95.0|26.83|47.96||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||47.96|26.83|
82559003|NCT01968967|164827591|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.5|||||TWO_SIDED|95.0|18.9|34.47||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||34.47|18.90|
82559004|NCT02157948|164827660|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority Testing: The lower bound of the 2-sided 95% CI of the between-group difference (denosumab CP4 - denosumab CP2) in percent change from baseline in lumbar spine BMD at 12 months was compared with the non-inferiority margin of -1.44% for assessing non-inferiority.|Difference from CP2|-0.07|||<|0.001|TWO_SIDED|95.0|-0.72|0.57||One-sided p-value based on the prespecified non-inferiority margin of -1.44% for lumbar spine.|ANCOVA|||The treatment comparison was analyzed using the analysis of covariance (ANCOVA) model including treatment, baseline BMD value, machine type, and machine type-by-baseline BMD value interaction. The effect of denosumab CP4 on lumbar spine BMD at 12 months relative to the effect of denosumab CP2 was estimated by the least-squares mean of the treatment difference (denosumab CP4 - denosumab CP2) and the corresponding 2-sided 95% confidence interval (CI).||0.57|-0.72|< 0.001
82559005|NCT02157948|164827660|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Testing: The lower and upper bounds of the same 2-sided 95% CI of the between-group difference were compared with the equivalence margin of ±1.44% for assessing equivalence.|Difference from CP2|-0.07|||<|0.001|TWO_SIDED|95.0|-0.72|0.57||Two-sided p-value based on the prespecified equivalence margin of ±1.44% for lumbar spine.|ANCOVA|||The treatment comparison was analyzed using the analysis of covariance (ANCOVA) model including treatment, baseline BMD value, machine type, and machine type-by-baseline BMD value interaction. The effect of denosumab CP4 on lumbar spine BMD at 12 months relative to the effect of denosumab CP2 was estimated by the least-squares mean of the treatment difference (denosumab CP4 - denosumab CP2) and the corresponding 2-sided 95% confidence interval (CI).||0.57|-0.72|< 0.001
82559006|NCT01604824|164827665|SUPERIORITY||LS Mean Difference|-53.72|STANDARD_ERROR_OF_MEAN|11.486|=|0.0009|TWO_SIDED|95.0|-79.31|-28.12||Threshold for significance ≤ 0.05|ANCOVA|||||-28.12|-79.31|= 0.0009
82559007|NCT01604824|164827665|SUPERIORITY||LS Mean Difference|-43.28|STANDARD_ERROR_OF_MEAN|10.965|=|0.0056|TWO_SIDED|95.0|-69.21|17.35||Threshold for significance ≤ 0.05|ANCOVA|||||17.35|-69.21|= 0.0056
82559008|NCT01604824|164827666|SUPERIORITY||LS Mean Difference|-49.55|STANDARD_ERROR_OF_MEAN|12.05|=|0.0021|TWO_SIDED|95.0|-76.39|-22.7||Threshold for significance ≤ 0.05|ANCOVA|||LS means (SE), mean difference, 95% CI, and p-values were derived from ANCOVA with treatment group as factor and baseline as covariate.||-22.7|-76.39|= 0.0021
82559009|NCT01604824|164827666|SUPERIORITY||LS Mean Difference|-44.64|STANDARD_ERROR_OF_MEAN|10.876|=|0.0045|TWO_SIDED|95.0|-70.36|18.92||Threshold for significance ≤ 0.05|ANCOVA|||LS means (SE), mean difference, 95% CI, and p-values were derived from ANCOVA with treatment group as factor and baseline as covariate.||18.92|-70.36|= 0.0045
82559010|NCT01604824|164827667|SUPERIORITY||LS Mean Difference|-49.37|STANDARD_ERROR_OF_MEAN|11.487|=|0.0016|TWO_SIDED|95.0|-74.96|-23.77||Threshold for significance ≤ 0.05|ANCOVA|||||-23.77|-74.96|= 0.0016
82559011|NCT01604824|164827667|SUPERIORITY||LS Mean Difference|-40.36|STANDARD_ERROR_OF_MEAN|10.471|=|0.0063|TWO_SIDED|95.0|-65.12|15.6||Threshold for significance ≤ 0.05|ANCOVA|||||15.60|-65.12|= 0.0063
82559012|NCT01604824|164827668|SUPERIORITY||LS Mean Difference|-30.75|STANDARD_ERROR_OF_MEAN|7.224|=|0.0017|TWO_SIDED|95.0|-46.85|-14.66||Threshold for significance ≤ 0.05|ANCOVA|||||-14.66|-46.85|= 0.0017
82559013|NCT01604824|164827668|SUPERIORITY||LS Mean Difference|-22.23|STANDARD_ERROR_OF_MEAN|6.294|=|0.0096|TWO_SIDED|95.0|-37.11|-7.34||Threshold for significance ≤ 0.05|ANCOVA|||||-7.34|-37.11|= 0.0096
82559014|NCT01604824|164827669|SUPERIORITY||LS Mean Difference|-49.72|STANDARD_ERROR_OF_MEAN|9.867|=|0.0005|TWO_SIDED|95.0|-71.71|-27.74||Threshold for significance ≤ 0.05|ANCOVA|||||-27.74|-71.71|= 0.0005
82583716|NCT01350336|164879000|NON_INFERIORITY|An upper 95% confidence limit of the difference between Year 5 compared to the first 12-month proportion is less than 20% will demonstrate that the proportions are not substantially worse during each of the subsequent evaluation periods.|Difference of proportions|-0.0765|||||TWO_SIDED|95.0|-0.1661|0.013||||||Comparison of Years 1 and 5||0.0130|-0.1661|
82583717|NCT00118755|164879012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3883|TWO_SIDED|95.0|0.67|1.17|||Log Rank|||||1.17|0.67|0.3883
82651839|NCT00006170|165018827|NON_INFERIORITY_OR_EQUIVALENCE|Power was determined using a log-rank statistic for comparing 2 survival curves, with a 2-sided alpha level of 0.05 and 40% as the reference from which differences were computed.||||||0.046||95.0|||||Regression, Logistic|||||||0.046
82559015|NCT01604824|164827669|SUPERIORITY||LS Mean Difference|-49.33|STANDARD_ERROR_OF_MEAN|11.545|=|0.0037|TWO_SIDED|95.0|-76.63|-22.03||Threshold for significance ≤ 0.05|ANCOVA|||||-22.03|-76.63|= 0.0037
82559016|NCT03617835|164827676|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|93.67|||||TWO_SIDED|90.0|78.48|111.8|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||111.80|78.48|
82583718|NCT00118755|164879013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2458|TWO_SIDED|95.0|0.64|1.12|||Log Rank|||||1.12|0.64|0.2458
82583719|NCT00118755|164879014|SUPERIORITY_OR_OTHER||Difference in Response Rate|9.8||||||95.0|0.9|18.7|||||95% Wald asymptotic CI using normal approximation (continuity corrected)|||18.7|0.9|
82583720|NCT00118755|164879015|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.6294||95.0|0.66|1.97|||Log Rank|||||1.97|0.66|0.6294
82583721|NCT01016977|164879028|SUPERIORITY_OR_OTHER|||||||0.9597||95.0||||Week 1|ANCOVA|||||||0.9597
82583722|NCT01016977|164879028|SUPERIORITY_OR_OTHER|||||||0.5538||95.0||||Week 2|ANCOVA|||||||0.5538
82583723|NCT01016977|164879028|SUPERIORITY_OR_OTHER|||||||0.6315||95.0||||Week 4|ANCOVA|||||||0.6315
82559017|NCT03617835|164827676|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|139.95|||||TWO_SIDED|90.0|117.26|167.03|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||167.03|117.26|
82559018|NCT03617835|164827677|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|121.84|||||TWO_SIDED|90.0|102.08|145.41|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.0.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||145.41|102.08|
82559019|NCT03617835|164827678|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|99.17|||||TWO_SIDED|90.0|83.77|117.39|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||117.39|83.77|
82559020|NCT03617835|164827678|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|156.2|||||TWO_SIDED|90.0|131.95|184.9|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||184.90|131.95|
82559021|NCT03617835|164827679|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|138.34|||||TWO_SIDED|90.0|116.87|163.77|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 24.8.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||163.77|116.87|
82559022|NCT03617835|164827680|OTHER|Relative bioavailability|Ratio of the geometric means (T1/R) [%]|93.58|||||TWO_SIDED|90.0|78.11|112.11|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||112.11|78.11|
82559023|NCT03617835|164827680|OTHER|Relative bioavailability|Ratio of the geometric means (T2/R) [%]|139.73|||||TWO_SIDED|90.0|116.64|167.4|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||167.40|116.64|
82559024|NCT03617835|164827681|OTHER|Relative bioavailability|Ratio of the geometric means (T3/R) [%]|121.34|||||TWO_SIDED|90.0|101.28|145.37|||||The geometric means are adjusted by treatment. The geometric Coefficient of (within matched pair) Variation (gCV) \[%\] = 26.6.|Exploratory trial, no formal hypotheses were tested. Analysis of Variance (ANOVA) model on the logarithmic scale was used which included effects accounting for sources of variation: 'treatment' (fixed effect), 'matched pair' (random effect). For each matched pair in the study (participant in test treatment group matched to participant in reference treatment group), a pair number was assigned for analysis purpose.||145.37|101.28|
82559025|NCT03822832|164827682|OTHER||Mean Difference (Final Values)|-25.6|STANDARD_ERROR_OF_MEAN|17.4||0.1492|TWO_SIDED|90.0|-54.9|3.7|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||3.7|-54.9|0.1492
82559026|NCT03822832|164827684|OTHER||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|3.8||0.8613|TWO_SIDED|90.0|-5.7|7.0|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||7.0|-5.7|0.8613
82559027|NCT03822832|164827685|OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|14.0||0.8754|TWO_SIDED|90.0|-25.8|21.4|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||21.4|-25.8|0.8754
82559028|NCT03822832|164827686|OTHER||Risk Difference (RD)|-0.03|||||TWO_SIDED|90.0|-0.254|0.176||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.176|-0.254|
82559029|NCT03822832|164827686|OTHER||Risk Difference (RD)|0.247|||||TWO_SIDED|90.0|0.053|0.396||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 16||0.396|0.053|
82559030|NCT03822832|164827687|OTHER||Risk Difference (RD)|-0.02|||||TWO_SIDED|90.0|-0.204|0.117||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.117|-0.204|
82559031|NCT03822832|164827687|OTHER||Risk Difference (RD)|0.096|||||TWO_SIDED|90.0|-0.08|0.232||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Pl|Risk difference at week 16||0.232|-0.080|
82559032|NCT03822832|164827688|OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|8.7||0.99|TWO_SIDED|90.0|-14.6|14.8|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||14.8|-14.6|0.9900
82487994|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.957|TWO_SIDED|95.0|-0.12|0.12|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.12|-0.12|0.957
82487995|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.404|TWO_SIDED|95.0|-0.19|0.08|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.08|-0.19|0.404
82487996|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.128|TWO_SIDED|95.0|-0.03|0.23|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.23|-0.03|0.128
82487997|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.577|TWO_SIDED|95.0|-0.17|0.09|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.09|-0.17|0.577
82487998|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.068|TWO_SIDED|95.0|-0.01|0.25|||ANCOVA|||Change at Week 2: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.25|-0.01|0.068
82487999|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.016|TWO_SIDED|95.0|-0.27|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.27|0.016
82488000|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.38|<0.001
82488001|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.44|-0.19|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.19|-0.44|<0.001
82488002|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.39|-0.15|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.39|<0.001
82488003|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.037|TWO_SIDED|95.0|-0.27|-0.01|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.27|0.037
82488004|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.015|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.015
82488005|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||0.07|-0.22||||0.001|TWO_SIDED|95.0|-0.35|-0.08|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.08|-0.35|0.001
82488006|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.34|-0.07|||ANCOVA|||Change at Week 4: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.34|0.002
82488007|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.07||0.042|TWO_SIDED|95.0|-0.27|0.0|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.00|-0.27|0.042
82488008|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.14|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.14|-0.40|<0.001
82488009|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.40|<0.001
82488010|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.5|-0.24|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.24|-0.50|<0.001
82488011|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.182|TWO_SIDED|95.0|-0.22|0.04|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.04|-0.22|0.182
82488012|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.08|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||0.01|-0.25|0.080
82488013|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.34|-0.07|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.07|-0.34|0.002
82583724|NCT01016977|164879028|SUPERIORITY_OR_OTHER|||||||0.5655||95.0||||Week 8|ANCOVA|||||||0.5655
82488014|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11|||ANCOVA|||Change at Week 8: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.11|-0.37|<0.001
82488015|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.016|TWO_SIDED|95.0|-0.3|-0.03|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.03|-0.30|0.016
82488016|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.4|-0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.40|<0.001
82583725|NCT01016977|164879028|SUPERIORITY_OR_OTHER|||||||0.7917||95.0||||Week 12|ANCOVA|||||||0.7917
82583726|NCT01016977|164879029|SUPERIORITY_OR_OTHER|||||||0.5961||95.0||||Week 1|ANCOVA|||||||0.5961
82583727|NCT01016977|164879029|SUPERIORITY_OR_OTHER|||||||0.2293||95.0||||Week 2|ANCOVA|||||||0.2293
82583728|NCT01016977|164879029|SUPERIORITY_OR_OTHER|||||||0.9852||95.0||||Week 4|ANCOVA|||||||0.9852
82583729|NCT01016977|164879029|SUPERIORITY_OR_OTHER|||||||0.5538||95.0||||Week 8|ANCOVA|||||||0.5538
82583730|NCT01016977|164879029|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||Week 12|ANCOVA|||||||0.6540
82583731|NCT01016977|164879030|SUPERIORITY_OR_OTHER|||||||0.8545||95.0||||Week 1|ANCOVA|||||||0.8545
82583732|NCT01016977|164879030|SUPERIORITY_OR_OTHER|||||||0.2895||95.0||||Week 2|ANCOVA|||||||0.2895
82583733|NCT01016977|164879030|SUPERIORITY_OR_OTHER|||||||0.8234||95.0||||Week 4|ANCOVA|||||||0.8234
82583734|NCT01016977|164879030|SUPERIORITY_OR_OTHER|||||||0.3644||95.0||||Week 8|ANCOVA|||||||0.3644
82583735|NCT01016977|164879030|SUPERIORITY_OR_OTHER|||||||0.654||95.0||||Week 12|ANCOVA|||||||0.6540
82583736|NCT01016977|164879031|SUPERIORITY_OR_OTHER|||||||0.7546||95.0||||Week 1|ANCOVA|||||||0.7546
82583737|NCT01016977|164879031|SUPERIORITY_OR_OTHER|||||||0.7705||95.0||||Week 2|ANCOVA|||||||0.7705
82583738|NCT01016977|164879031|SUPERIORITY_OR_OTHER|||||||0.0259||95.0||||Week 4|ANCOVA|||||||0.0259
82583739|NCT01016977|164879031|SUPERIORITY_OR_OTHER|||||||0.9252||95.0||||Week 8|ANCOVA|||||||0.9252
82583740|NCT01016977|164879031|SUPERIORITY_OR_OTHER|||||||0.2927||95.0||||Week 12|ANCOVA|||||||0.2927
82583741|NCT01016977|164879032|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||Week 1|ANCOVA|||||||0.4010
82583742|NCT01016977|164879032|SUPERIORITY_OR_OTHER|||||||0.0963||95.0||||Week 2|ANCOVA|||||||0.0963
82583743|NCT01016977|164879032|SUPERIORITY_OR_OTHER|||||||0.9291||95.0||||Week 4|ANCOVA|||||||0.9291
82583744|NCT01016977|164879032|SUPERIORITY_OR_OTHER|||||||0.5523||95.0||||Week 8|ANCOVA|||||||0.5523
82583745|NCT01016977|164879032|SUPERIORITY_OR_OTHER|||||||0.2556||95.0||||Week 12|ANCOVA|||||||0.2556
82583746|NCT01016977|164879033|SUPERIORITY_OR_OTHER|||||||0.4037||95.0||||Week 1|ANCOVA|||||||0.4037
82583747|NCT01016977|164879033|SUPERIORITY_OR_OTHER|||||||0.8662||95.0||||Week 2|ANCOVA|||||||0.8662
82583748|NCT01016977|164879033|SUPERIORITY_OR_OTHER|||||||0.5951||95.0||||Week 4|ANCOVA|||||||0.5951
82583749|NCT01016977|164879033|SUPERIORITY_OR_OTHER|||||||0.2349||95.0||||Week 8|ANCOVA|||||||0.2349
82583750|NCT01016977|164879033|SUPERIORITY_OR_OTHER|||||||0.3461||95.0||||Week 12|ANCOVA|||||||0.3461
82583751|NCT01016977|164879034|SUPERIORITY_OR_OTHER|||||||0.725||95.0||||Week 1|ANCOVA|||||||0.7250
82583752|NCT01016977|164879034|SUPERIORITY_OR_OTHER|||||||0.9743||95.0||||Week 2|ANCOVA|||||||0.9743
82583753|NCT01016977|164879034|SUPERIORITY_OR_OTHER|||||||0.9816||95.0||||Week 4|ANCOVA|||||||0.9816
82583754|NCT01016977|164879034|SUPERIORITY_OR_OTHER|||||||0.8809||95.0||||Week 8|ANCOVA|||||||0.8809
82583755|NCT01016977|164879034|SUPERIORITY_OR_OTHER|||||||0.1679||95.0||||Week 12|ANCOVA|||||||0.1679
82583756|NCT01171807|164879089|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82583757|NCT01981473|164879113|SUPERIORITY_OR_OTHER||||||<|0.0001||||||As there was only one primary endpoint, no adjustment was made for multiple comparisons.|Fisher Exact|Logistic regression was to be used but the model was not fit as there were no antibodies in the etanercept group. Fisher's exact test was used.||This sample was to provide \>95% power to detect a difference of 12% in the proportion of participants positive for antidrug antibodies between the group of participants treated with a soluble receptor TNF inhibitor (etanercept) and the group of participants treated with mAB TNF inhibitors (adalimumab and infliximab) (5% vs 17%, respectively), using a Chi square test with continuity correction, an alpha of 0.05, and attrition rate of 15%.||||<0.0001
82583758|NCT00757588|164879133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.089|<|0.0001|TWO_SIDED|95.0|-0.59|-0.24||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-0.24|-0.59|<0.0001
82583759|NCT00757588|164879134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3829.8|STANDARD_ERROR_OF_MEAN|1165.99||0.0011|TWO_SIDED|95.0|-6122.4|-1537.1||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-1537.1|-6122.4|0.0011
82583760|NCT00757588|164879135|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.0|STANDARD_ERROR_OF_MEAN|7.24||0.0016|TWO_SIDED|95.0|-37.2|-8.7||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-8.7|-37.2|0.0016
82583761|NCT00757588|164879136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02|STANDARD_ERROR_OF_MEAN|4.732||0.3958|TWO_SIDED|95.0|-13.32|5.28||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||5.28|-13.32|0.3958
82583762|NCT00757588|164879138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.16|||TWO_SIDED|95.0|-5.6|-1.1||Significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted mean difference for saxagliptin groups vs placebo in Week 24 (LOCF). Adjusted for baseline.|ANCOVA model: difference between week t and baseline values = baseline values + treatment + metformin use|||-1.1|-5.6|
82583763|NCT05398237|164879213|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0122||||||Change in pathway from baseline to 1 hour post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK).|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study||||0.0122
82586151|NCT05437510|164884200|SUPERIORITY||Efficacy|74.36||||0.0055|TWO_SIDED|95.0|29.006|92.518|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||92.518|29.006|0.0055
82651840|NCT00096265|165018917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.93|TWO_SIDED|95.0|0.89|2.31||One-sided|Log Rank||WBRT + SRS is the denominator of the hazard ratio.|120 patients per arm required to detect a 33% reduction in hazard rate corresponding to improvement in MST of 5.9 (null hypothesis) to 8.9 months with a one-sided type I error rate of 0.025 and 85% power.||2.31|0.89|0.93
82488017|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.42|-0.15|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.15|-0.42|<0.001
82488018|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.53|-0.27|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.27|-0.53|<0.001
82488019|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.032|TWO_SIDED|95.0|-0.29|-0.01|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.01|-0.29|0.032
82488020|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.07||0.006|TWO_SIDED|95.0|-0.33|-0.06|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.06|-0.33|0.006
82488021|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.07||0.009|TWO_SIDED|95.0|-0.32|-0.05|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.05|-0.32|0.009
82488022|NCT00809354|164668778|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.13|||ANCOVA|||Change at Week 12: Analysis was based on ANCOVA model with treatment, baseline value, index joint (knee or hip) as covariates.||-0.13|-0.41|<0.001
82488023|NCT02477839|164668838|OTHER||Mean Difference (Final Values)|0.97|||||TWO_SIDED|95.0|0.83|1.14|||ANCOVA|||Difference ratio in LS Mean was calculated as the exp \[LSMLCM-LSMplacebo\].||1.14|0.83|
82488024|NCT02477839|164668838|OTHER||Percent reduction|3.19|||=|0.6895|TWO_SIDED|95.0|-13.59|17.5|||ANCOVA|||Percent reduction over placebo was estimated as 100 x (1-exp \[LSMLCM-LSMPBO\]).||17.50|-13.59|=0.6895
82559033|NCT03822832|164827689|OTHER||Mean Difference (Final Values)|-14.9|STANDARD_ERROR_OF_MEAN|12.1||0.2266|TWO_SIDED|90.0|-35.2|5.5|||Mixed Models Analysis|See endpoint description for model description.|Difference calculated as Spesolimab - Placebo.|||5.5|-35.2|0.2266
82559034|NCT03822832|164827690|OTHER||Risk Difference (RD)|0.005|||||TWO_SIDED|90.0|-0.159|0.12||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 4||0.120|-0.159|
82559035|NCT03822832|164827690|OTHER||Risk Difference (RD)|0.091|||||TWO_SIDED|90.0|-0.05|0.207||||CIs are calculated using the method of Wilson and Newcombe.|Difference calculated as Spesolimab - Placebo|Risk difference at week 16||0.207|-0.050|
82559036|NCT04248803|164827699|NON_INFERIORITY|From the above mentioned non inferiority clinical trial it is hypothesized that GLUMA application will reduce postoperative sensitivity during dental restorative procedures.||||||0.05|||||||Kruskal-Wallis|||The sample size was estimated to be 504 using G Power software with 95% power and alpha value set to 0.05. The participants were randomly divided to 6 groups with randomizer.org. The statistical analysis was carried out using SPSS 23 software to compare the mean pain scores between the six study groups using kruskal Wallis test.||||0.05
82559037|NCT04399837|164827727|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.041||||0.002|||||||MCP-Mod linear model fit|Model assumption: Dose effect is linear with the increase of dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
82559038|NCT04399837|164827727|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.033||||0.002|||||||MCP-Mod Emax2 model fit|Model assumption: 95% of the maximum effect is achieved at low dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
82488025|NCT02607930|164668850|NON_INFERIORITY|A sample of approximately 600 participants randomized 1:1 achieves at least 95% power using a non-inferiority margin of 12% assuming a response rate in both groups of 91% (Reference Genvoya studies) and a one-sided alpha level of 0.025.|Difference in Percentages|-0.6|||||TWO_SIDED|95.002|-4.8|3.6|||||Differences in percentages of participants between groups and their 95.002% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.6|-4.8|
82488026|NCT02607930|164668850|SUPERIORITY|||||||0.78|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.78
82488027|NCT02607930|164668851|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-6.9|3.1|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.1|-6.9|
82488028|NCT02607930|164668851|OTHER|||||||0.45|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.45
82488029|NCT02607930|164668852|OTHER||Difference in Percentages|-2.6|||||TWO_SIDED|95.0|-8.5|3.4|||||Differences in percentages of participants between groups and their 95% CIs were calculated based on MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||3.4|-8.5|
82488030|NCT02607930|164668852|OTHER|||||||0.39|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.39
82488031|NCT02607930|164668853|OTHER||Difference in Percentages|0.4|||||TWO_SIDED|95.0|-4.8|5.6|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||5.6|-4.8|
82488032|NCT02607930|164668853|OTHER|||||||0.87|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.87
82559039|NCT04399837|164827727|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|3.088||||0.002|||||||MCP-Mod Emax1 model fit|Model assumption: 70% of the maximum effect is achieved at low dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.002
82559040|NCT04399837|164827727|OTHER|The generalized MCP-Mod procedure for time to event endpoints is based on the log hazard ratio of the active doses vs. placebo obtained via a Cox regression model on the time to first GPP flare.|Multiple contrast test|2.977||||0.003|||||||MCP-Mod exponential model fit|Model assumption: 35% of the maximum effect is achieved at medium dose.||A flat vs. non-flat dose-response relationship across the 3 doses of spesolimab and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 4 different plausible dose-response patterns (linear, Emax 1, Emax 2 and exponential) while protecting the overall probability of type I error (one-sided alpha of 0.05).||||0.003
82559041|NCT04399837|164827727|SUPERIORITY|Null hypothesis: Effect of spesolimab 300 mg every 12 weeks on prolonging the time to the first GPP flare up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.468||||0.0269|TWO_SIDED|95.0|0.206|1.064||"One-sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~Threshold for statistical significance: one-sided p-value ≤ 0.01875."|Log Rank||Hazard ratio and its 95% Confidence Interval are from Cox regression model stratified by use of systemic GPP medication at randomisation.|||1.064|0.206|0.0269
82559042|NCT04399837|164827727|SUPERIORITY|Null hypothesis: Effect of spesolimab 300 mg every 4 weeks on prolonging the time to the first GPP flare up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.157||||0.0005|TWO_SIDED|95.0|0.046|0.541||"One-sided p-value is computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~Threshold for statistical significance: One-sided p-value ≤0.0125."|Log Rank||Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.|||0.541|0.046|0.0005
82559043|NCT04399837|164827728|SUPERIORITY|Null hypothesis: The proportion of patients who do not experience a GPP flare up to week 48 on BI 655130 300 mg every 4 weeks ≤ Placebo.|Risk Difference (RD)|-0.39||||0.0013|TWO_SIDED|95.0|-0.621|-0.159||"One-sided p-value was computed from the Cochran-Mantel-Haenszel test stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"|Cochran-Mantel-Haenszel||Risk difference=Spesolimab high dose-Placebo.|||-0.159|-0.621|0.0013
82559044|NCT04399837|164827729|SUPERIORITY|Null hypothesis: Effect of BI 655130 300 mg every 4 weeks on prolonging the time to first worsening of PSS up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.424||||0.0134|TWO_SIDED|95.0|0.197|0.914||"One-sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"|Log Rank||spesolimab high dose vs. Placebo|Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.||0.914|0.197|0.0134
82583764|NCT05398237|164879213|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.009||||||Change in pathway from baseline to 24 hours post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study.||||0.009
82488033|NCT02607930|164668854|OTHER||Difference in Percentages|-1.2|||||TWO_SIDED|95.0|-6.9|4.6|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||4.6|-6.9|
82559045|NCT04399837|164827730|SUPERIORITY|Null hypothesis: Effect of BI 655130 300 mg every 4 weeks on prolonging the time to the first worsening of DLQI up to week 48 ≤ Placebo.|Hazard Ratio (HR)|0.259||||0.001|TWO_SIDED|95.0|0.109|0.62||One sided p-value was computed from the log-rank test stratified by use of systemic GPP medication at randomisation.|Log Rank||spesolimab high dose vs. Placebo|"Hazard ratio and its 95% CI (confidence interval) are from Cox regression model stratified by use of systemic GPP medication at randomisation.~one-sided alpha= 0.00625"||0.620|0.109|0.0010
82559046|NCT02222493|164827793|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence test|Proportion Difference|-2.39|||||TWO_SIDED|95.0|-9.92|5.11||||||Score statistic method||5.11|-9.92|
82559047|NCT02222493|164827793|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence test|Proportion Difference|-2.39|||||TWO_SIDED|90.0|-8.75|4.02||||||Score statistic method||4.02|-8.75|
82559048|NCT01000805|164827846|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.33||This p-value is for the main effect of treatment.|Mixed Models Analysis|||||-0.33|-0.90|<0.001
82488034|NCT02607930|164668854|OTHER|||||||0.69|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.69
82488035|NCT02607930|164668855|OTHER||Difference in Percentages|-4.2|||||TWO_SIDED|95.0|-10.5|2.1|||||The differences in percentages of participants between treatment groups and their 95% CIs were calculated based on the MH proportions adjusted by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).|||2.1|-10.5|
82488036|NCT02607930|164668855|OTHER|||||||0.19|||||||Cochran-Mantel-Haenszel|p-value was calculated from CMH test stratified by baseline HIV-1 RNA stratum (≤ 100,000 vs. \> 100,000 copies/mL) and region stratum (US vs. Ex-US).||||||0.19
82488037|NCT02607930|164668856|OTHER||Difference in LSM|-0.03||||0.48|TWO_SIDED|95.0|-0.12|0.06|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in least-squares mean (LSM), and its 95% confidence interval (CI) were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.06|-0.12|0.48
82488038|NCT02607930|164668857|OTHER||Difference in LSM|0.0||||0.99|TWO_SIDED|95.0|-0.09|0.09|||ANOVA||Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.09|-0.09|0.99
82488039|NCT02607930|164668858|OTHER||Difference in LSM|0.01||||0.88|TWO_SIDED|95.0|-0.08|0.1|||ANOVA||Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||0.10|-0.08|0.88
82488040|NCT02607930|164668859|OTHER||Difference in LSM|6.0||||0.69|TWO_SIDED|95.0|-24.0|36.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||36|-24|0.69
82488041|NCT02607930|164668860|OTHER||Difference in LSM|-1.0||||0.94|TWO_SIDED|95.0|-39.0|36.0|||ANOVA|P-value was adjusted by the baseline HIV-1 RNA and region stratum.|Difference in LSM, and its 95% CI were adjusted by the baseline HIV-1 RNA and region stratum.|||36|-39|0.94
82559049|NCT01000805|164827847|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04|||<|0.001|TWO_SIDED|95.0|-5.83|-2.24|||Mixed Models Analysis|||||-2.24|-5.83|<0.001
82559050|NCT01000805|164827848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.112|TWO_SIDED|95.0|-1.03|0.11||This is the p-value for the Disrupt Work/School Work score.|Mixed Models Analysis|||||0.11|-1.03|0.112
82583765|NCT05398237|164879214|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0063||||||Change in pathway from baseline to 1 hour post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study||||0.0063
82651841|NCT00096265|165018917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.47||||0.95|TWO_SIDED|95.0|0.92|2.36||One-sided|Log Rank||WBRT + SRS is the denominator of the hazard ratio.|120 patients per arm required to detect a 33% reduction in hazard rate corresponding to improvement in MST of 5.9 (null hypothesis) to 8.9 months with a one-sided type I error rate of 0.025 and 85% power.||2.36|0.92|0.95
82488042|NCT02607930|164668861|OTHER||Difference in LSM|-20.0||||0.3|TWO_SIDED|95.0|-59.0|18.0|||ANOVA|p-value was adjusted by baseline HIV-1 RNA stratum and region stratum.|Difference in LSM, and its 95% CI were adjusted by baseline HIV-1 RNA stratum and region stratum.|||18|-59|0.30
82488043|NCT02607930|164668862|OTHER||Difference in LSM|0.346||||0.092|TWO_SIDED|95.0|-0.057|0.748|||ANOVA|||||0.748|-0.057|0.092
82488044|NCT02607930|164668863|OTHER||Difference in LSM|0.135||||0.59|TWO_SIDED|95.0|-0.356|0.625|||ANOVA|||||0.625|-0.356|0.59
82559051|NCT01000805|164827848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73||||0.005|TWO_SIDED|95.0|-1.24|-0.22||This the p-value for the Disrupt Social Life/Leisure score.|Mixed Models Analysis|||||-0.22|-1.24|0.005
82559052|NCT01000805|164827848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.04|TWO_SIDED|95.0|-1.04|-0.02||This is the p-value for the Disrupt Family Life/Home score.|Mixed Models Analysis|||||-0.02|-1.04|0.040
82559053|NCT01000805|164827848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.019|TWO_SIDED|95.0|-3.2|-0.29||P-value for the SDS Total score. First gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 5 secondary outcomes with stepwise comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-0.29|-3.20|0.019
82559054|NCT01000805|164827849|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||This is the second gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||0.001
82559055|NCT01000805|164827850|SUPERIORITY_OR_OTHER|||||||0.0082||95.0||||This is the third gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||0.0082
82488045|NCT02607930|164668864|OTHER||Difference in LSM|0.271||||0.39|TWO_SIDED|95.0|-0.351|0.893|||ANOVA|||||0.893|-0.351|0.39
82488046|NCT02607930|164668865|OTHER||Difference in LSM|-0.221||||0.41|TWO_SIDED|95.0|-0.741|0.3|||ANOVA|||||0.300|-0.741|0.41
82488047|NCT02607930|164668866|OTHER||Difference in LSM|-0.485||||0.14|TWO_SIDED|95.0|-1.126|0.155|||ANOVA|||||0.155|-1.126|0.14
82488048|NCT02607930|164668867|OTHER||Difference in LSM|-0.406||||0.26|TWO_SIDED|95.0|-1.119|0.307|||ANOVA|||||0.307|-1.119|0.26
82488049|NCT01050543|164668893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1|||<|0.0001|TWO_SIDED|95.0|6.8|9.6|||ANOVA|||To evaluate the efficacy of sugammadex compared to the efficacy of neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.9 was calculated using a 2-way ANOVA model adjusted for trial site.||9.6|6.8|<0.0001
82488050|NCT03053271|164668896|OTHER|No statistical test was done as only 4 subjects could be enrolled, none met criteria for randomization, and the study was discontinued by the Sponsor.|||||||||||||||||No statistical test was done as only 4 subjects could be enrolled, none met criteria for randomization, and the study was discontinued by the Sponsor.|||
82488051|NCT00570765|164668901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment arms compared using 2-sided Wilcoxon-Mann-Whitney test at 5% significance level. Treatment groups were pairwise compared versus placebo.||Hierarchical testing strategy was proposed to account for multiple comparisons. Statistical significance was evaluated as follows: if statistical significance at alpha=0.05 is shown for the 10 mg OCA versus placebo, then the statistical significance at alpha=0.05 for the 50 mg OCA versus placebo was evaluated. If no statistical significance was shown at alpha=0.05 at the first step, then the subsequent comparison was not considered statistically significant.||||<0.0001
82488052|NCT00570765|164668902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Treatment arms compared using 2-sided Wilcoxon-Mann-Whitney test at 5% significance level. Treatment groups were pairwise compared versus placebo.||||||<0.0001
82488053|NCT00570765|164668903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|Tx arms will be compared using the 2-sided Wilcoxon-Mann-Whitney test, at 5% significance level. Tx groups will be pairwise compared vs. placebo.||||||<0.01
82488054|NCT03711266|164668945|OTHER||Mean Difference (Final Values)|31.4|||<|0.001|TWO_SIDED|95.0|18.5|44.3|||t-test, 2 sided|||Thirty patients were included in the final analysis. The analysis strategy was intent-to-treat, and multiple imputation was used to impute missing follow-up data. We included auxiliary variables that were correlated with the missing variables at r \> 0.4 (Enders, 2010).||44.3|18.5|<.001
82488055|NCT00057876|164669008|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|ONE_SIDED|95.0|||||Log Rank|||Log rank test is conducted for OS to see whether the two treatment arms are different in their overall survival probabilities.||||0.017
82488056|NCT00057876|164669009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|ONE_SIDED|95.0|||||Log Rank|||||||0.25
82488057|NCT00057876|164669010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Fisher Exact|||Compare objective response rate (CR+PR) between two treatment groups||||0.99
82488058|NCT02758171|164669014|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|101.71|STANDARD_DEVIATION|5.8|<|0.0001|TWO_SIDED|90.0|99.818|103.644|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.644|99.818|<0.0001
82488059|NCT02758171|164669015|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|99.39|STANDARD_DEVIATION|13.1|<|0.0001|TWO_SIDED|90.0|95.29|103.672|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.672|95.290|<0.0001
82488060|NCT02758171|164669016|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|102.33|STANDARD_DEVIATION|13.6|<|0.0001|TWO_SIDED|90.0|97.945|106.91|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||106.910|97.945|<0.0001
82488061|NCT02758171|164669017|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence acceptable range of 80.00% to 125.00%.|Adjusted geometric mean (gMean) ratio|107.51|STANDARD_DEVIATION|27.4||0.0027|TWO_SIDED|90.0|98.561|117.282|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||117.282|98.561|0.0027
82488062|NCT02758171|164669018|SUPERIORITY_OR_OTHER||Adjusted geometric mean (gMean) ratio|101.44|STANDARD_DEVIATION|5.7|||TWO_SIDED|90.0|99.574|103.336|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.336|99.574|
82559056|NCT01000805|164827851|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|||<|0.001|TWO_SIDED|95.0|-5.2|-2.11||This is the fourth gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-2.11|-5.20|<0.001
82559057|NCT01000805|164827852|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19||||0.001|TWO_SIDED|95.0|-3.5|-0.89||This is the fifth gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-0.89|-3.50|0.001
82559058|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.97|-0.32||This is the p-value for the main effect of treatment for the BPI Severity for Worst Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.32|-0.97|<0.001
82559059|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.34||This is the p-value for main effect of treatment for the BPI Severity for Least Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.34|-0.90|<0.001
82559060|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|||<|0.001|TWO_SIDED|95.0|-0.9|-0.33||This is the p-value for the main effect of treatment for the BPI Severity for Average Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.33|-0.90|<0.001
82651842|NCT00096265|165018918|SUPERIORITY|||||||0.3|||||||Gray's test|||||||0.30
82651843|NCT00096265|165018918|SUPERIORITY|||||||0.48|||||||Gray's test|||||||0.48
82583766|NCT05398237|164879214|OTHER|A self-contained, subject-level permutation test for changes of all analytes in a pathway, assuming all analyte levels increasing after SSL exposure.||||||0.0056||||||Change in pathway from baseline to 24 hours post-SSL. Threshold for p-value of each test is 0.05/4=0.0125 based on Bonferroni adjustment for four tests, with two time points and two pathways (TLR4 and TOPK/PRPK)|Permutation test|The self-contained, subject-level permutation test comparing the pre- and post-SSL levels of all analytes in the pathway.||This is a single-arm study.||||0.0056
82583767|NCT04193436|164879223|OTHER||Ratio (%) of Adjusted Means|92.89|||||TWO_SIDED|90.0|68.15|126.6||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way analysis of variance (ANOVA) model based on natural log transformed data.||126.60|68.15|
82583768|NCT04193436|164879223|OTHER||Ratio (%) of Adjusted Means|134.4|||||TWO_SIDED|90.0|98.61|183.17||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||183.17|98.61|
82583769|NCT04193436|164879223|OTHER||Ratio (%) of Adjusted Means|139.33|||||TWO_SIDED|90.0|100.69|192.78||||||The effect of the hepatic impairment on PK parameter AUCinf were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||192.78|100.69|
82583770|NCT04193436|164879224|OTHER||Ratio (%) of Adjusted Means|87.2|||||TWO_SIDED|90.0|63.61|119.53||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||119.53|63.61|
82583771|NCT04193436|164879224|OTHER||Ratio (%) of Adjusted Means|102.24|||||TWO_SIDED|90.0|74.59|140.15||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||140.15|74.59|
82583772|NCT04193436|164879224|OTHER||Ratio (%) of Adjusted Means|83.78|||||TWO_SIDED|90.0|60.18|116.62||||||The effect of the hepatic impairment on PK parameter Cmax were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||116.62|60.18|
82583773|NCT04193436|164879225|OTHER||Ratio (%) of Adjusted Means|121.81|||||TWO_SIDED|90.0|88.69|167.31||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||167.31|88.69|
82583774|NCT04193436|164879225|OTHER||Ratio (%) of Adjusted Means|178.5|||||TWO_SIDED|90.0|129.96|245.18||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||245.18|129.96|
82583775|NCT04193436|164879225|OTHER||Ratio (%) of Adjusted Means|195.73|||||TWO_SIDED|90.0|140.31|273.03||||||The effect of the hepatic impairment on PK parameter AUCinf,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||273.03|140.31|
82583776|NCT04193436|164879226|OTHER||Ratio (%) of Adjusted Means|114.45|||||TWO_SIDED|90.0|88.13|148.63||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||148.63|88.13|
82583777|NCT04193436|164879226|OTHER||Ratio (%) of Adjusted Means|136.04|||||TWO_SIDED|90.0|104.75|176.67||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||176.67|104.75|
82583778|NCT04193436|164879226|OTHER||Ratio (%) of Adjusted Means|117.87|||||TWO_SIDED|90.0|89.61|155.03||||||The effect of the hepatic impairment on PK parameter Cmax,u were assessed by constructing 90% confidence intervals around the estimated difference between each of the Test (impaired) cohorts and the Reference (without hepatic impairment) cohort using a one-way ANOVA model based on natural log transformed data.||155.03|89.61|
82583779|NCT01749904|164879254|NON_INFERIORITY|The 2 treatments were compared for each time point by visit. LS mean of each treatment group, the difference in the LS mean, and the 2-sided 95% CI for the difference were obtained. Noninferiority could be claimed if the upper limit of the CIs \<1.5 mmHg at all time points of each visit and \<1.00 mmHg for at least 5 out of the 9 time points. If noninferiority was determined, superiority at each time point could be claimed if the upper limit of the 95% CI\<0 mmHg at all time points of each visit.|||||<|0.01||||||The ANCOVA results for the comparison of LS means of mean IOP between treatment groups demonstrated noninferiority of BOL-303259-X to timolol and also superiority of BOL-303259-X to timolol|ANCOVA|||||||<0.01
82583780|NCT01749904|164879255|OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82583781|NCT01749904|164879256|OTHER|||||||0.001|||||||Chi-squared|||||||0.001
82583782|NCT01749904|164879257|OTHER||||||||||||||||||No statistical analysis was performed on these proportions.|||
82586152|NCT05437510|164884201|SUPERIORITY||Efficacy|75.31||||0.0013|TWO_SIDED|95.0|38.012|91.747|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.747|38.012|0.0013
82583783|NCT02469389|164879277|SUPERIORITY|Based on randomization to treatment condition, the model assumed no differences at BL (any difference was assumed due to random sampling error).||||||0.295|||||||Mixed Models Analysis|Post-hoc mixed effects model analyses of all outcomes were performed adjusting for BL CAINS MAP score.||Analyses of the primary and secondary outcomes utilized a linear mixed effects model accounting for random therapy group effects and included all available data at baseline (BL), post-treatment (PT; 12-week), and follow-up (FU; 24-week) timepoints (TPs). Error terms across TPs were assumed correlated with unstructured correlation matrix. To test time specific hypotheses, terms in the mean model included separate indicators for PT \& FU \& interaction terms between these indicators and conditions.||||0.295
82583784|NCT02469389|164879278|SUPERIORITY|||||||0.182|||||||Mixed Models Analysis|||||||0.182
82583785|NCT02469389|164879279|SUPERIORITY|||||||0.114|||||||Mixed Models Analysis|||||||0.114
82583786|NCT02469389|164879280|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||||||0.220
82583787|NCT02469389|164879281|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82583788|NCT02469389|164879282|SUPERIORITY|||||||0.903|||||||Mixed Models Analysis|||||||0.903
82583789|NCT02469389|164879283|SUPERIORITY|||||||0.535|||||||Mixed Models Analysis|||||||0.535
82583790|NCT02469389|164879284|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
82583791|NCT02469389|164879285|SUPERIORITY|||||||0.692|||||||Mixed Models Analysis|||||||0.692
82583792|NCT02469389|164879286|SUPERIORITY|||||||0.498|||||||Mixed Models Analysis|||||||0.498
82583793|NCT02469389|164879287|SUPERIORITY|||||||0.079|||||||Mixed Models Analysis|||||||0.079
82583794|NCT02469389|164879288|SUPERIORITY|||||||0.539|||||||Mixed Models Analysis|||||||0.539
82583795|NCT02585232|164879319|SUPERIORITY|||||||0.483|||||||ANCOVA|Caregiver education, cognitive status of the person with dementia, and baseline caregiver burden scores were included in the model as covariates.||||||.483
82583796|NCT02585232|164879320|SUPERIORITY|||||||0.169|||||||ANCOVA|Caregiver education, cognitive status of the person with dementia, and baseline Dyadic Adjustment Scale scores were included as covariates.||Only caregivers that were currently or previously in a romantic relationship (e.g., spouses, partners) with the person with dementia reported on the Dyadic Adjustment Scale (i.e., N = 20, n = 9 in CC group and n = 11 in CC+C group).||||0.169
82583797|NCT02585232|164879321|SUPERIORITY|||||||0.763|||||||ANCOVA|Baseline quality of life scores, education, and cognitive status were included as covariates in the model.||||||0.763
82583798|NCT02585232|164879322|SUPERIORITY|||||||0.78|||||||ANCOVA|Baseline depression scores, cognitive status scores (i.e., MoCA), and education were included in the model as covariates.||||||0.780
82583799|NCT02257567|164879356|SUPERIORITY||Difference in Response Rates|5.82||||0.5353|TWO_SIDED|95.0|-14.53|25.38|||Cochran-Mantel-Haenszel|||||25.38|-14.53|0.5353
82583800|NCT02257567|164879356|SUPERIORITY||Difference in Response Rates (4.89|25.0||||0.0128|TWO_SIDED|95.0|4.89|42.63|||Cochran-Mantel-Haenszel|||||42.63|4.89|0.0128
82583801|NCT02257567|164879365|SUPERIORITY||Difference in Response Rates|0.69||||0.8817|TWO_SIDED|95.0|-19.68|20.86|||Cochran-Mantel-Haenszel|||||20.86|-19.68|0.8817
82583802|NCT02257567|164879365|SUPERIORITY||Difference in Response Rates|27.5||||0.0061|TWO_SIDED|95.0|7.66|44.74|||Cochran-Mantel-Haenszel|||||44.74|7.66|0.0061
82583803|NCT02257567|164879367|SUPERIORITY||Difference in Response Rates|-1.0||||0.9523|TWO_SIDED|95.0|-18.66|16.46|||Cochran-Mantel-Haenszel|||||16.46|-18.66|0.9523
82583804|NCT02257567|164879367|SUPERIORITY||Difference in Response Rates|30.0||||0.0036|TWO_SIDED|95.0|9.48|47.37|||Cochran-Mantel-Haenszel|||||47.37|9.48|0.0036
82583805|NCT02257567|164879368|SUPERIORITY||Difference in Response Rates|3.75||||0.6574|TWO_SIDED|95.0|-15.14|22.11|||Cochran-Mantel-Haenszel|||||22.11|-15.14|0.6574
82583806|NCT02257567|164879368|SUPERIORITY||Difference in Response Rates|25.0||||0.0128|TWO_SIDED|95.0|4.89|42.63|||Cochran-Mantel-Haenszel|||||42.63|4.89|0.0128
82583807|NCT02257567|164879371|SUPERIORITY||Difference in Response Rates|3.88||||0.6225|TWO_SIDED|95.0|-14.49|21.72|||Cochran-Mantel-Haenszel|||||21.72|-14.49|0.6225
82583808|NCT02257567|164879371|SUPERIORITY||Difference in Response Rates|30.0||||0.0032|TWO_SIDED|95.0|9.94|47.12|||Cochran-Mantel-Haenszel|||||47.12|9.94|0.0032
82583809|NCT02257567|164879372|SUPERIORITY||Difference in Response Rates|-6.13||||0.4835|TWO_SIDED|95.0|-24.14|12.12|||Cochran-Mantel-Haenszel|||||12.12|-24.14|0.4835
82583810|NCT02257567|164879372|SUPERIORITY||Difference in Response Rates|25.0||||0.0096|TWO_SIDED|95.0|5.39|42.33|||Cochran-Mantel-Haenszel|||||42.33|5.39|0.0096
82583811|NCT02257567|164879373|SUPERIORITY||Difference in Response Rates|-0.5||||0.939|TWO_SIDED|95.0|-15.07|13.71|||Cochran-Mantel-Haenszel|||||13.71|-15.07|0.9390
82583812|NCT02257567|164879373|SUPERIORITY||Difference in Response Rates|37.5||||0.0006|TWO_SIDED|95.0|15.64|54.71|||Cochran-Mantel-Haenszel|||||54.71|15.64|0.0006
82583813|NCT02257567|164879374|SUPERIORITY||Difference in Response Rates|37.5||||0.0005|TWO_SIDED|95.0|15.82|54.62|||Cochran-Mantel-Haenszel|||||54.62|15.82|0.0005
82583814|NCT02257567|164879375|SUPERIORITY||Hazard Ratio (HR)|0.42||||0.0245|TWO_SIDED|95.0|0.19|0.91|||Log Rank|||||0.91|0.19|0.0245
82583815|NCT02257567|164879376|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.2451|TWO_SIDED|95.0|0.25|1.43|||Log Rank|||||1.43|0.25|0.2451
82583816|NCT02257567|164879377|SUPERIORITY||Hazard Ratio (HR)|0.33|||<|0.0001|TWO_SIDED|95.0|0.2|0.56|||Log Rank|||||0.56|0.20|<.0001
82583817|NCT02257567|164879378|SUPERIORITY||Hazard Ratio (HR)|0.39||||0.0003|TWO_SIDED|95.0|0.23|0.66|||Log Rank|||||0.66|0.23|0.0003
82583818|NCT00871780|164879430|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Wilcoxon signed rank test|||Baseline, Week 24||||0.0003
82583819|NCT00871780|164879430|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0002
82583820|NCT00871780|164879431|SUPERIORITY_OR_OTHER|||||||0.0148|||||||Wilcoxon signed rank test|||Baseline, Week 24||||0.0148
82583821|NCT00871780|164879431|SUPERIORITY_OR_OTHER|||||||0.0119|||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0119
82583822|NCT00871780|164879432|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 24||||<0.0001
82583823|NCT00871780|164879432|SUPERIORITY_OR_OTHER|||||||0.0157|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 48||||0.0157
82583824|NCT00871780|164879433|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 24||||<0.0001
82583825|NCT00871780|164879433|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon signed rank test|||Baseline, Week 48||||<0.0001
82583826|NCT00871780|164879434|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
82583827|NCT00871780|164879434|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
82583828|NCT00871780|164879434|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
82583829|NCT00871780|164879435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
82583830|NCT00871780|164879435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
82583831|NCT00871780|164879435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
82583832|NCT00871780|164879436|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
82583833|NCT00871780|164879436|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
82583834|NCT00871780|164879436|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
82583835|NCT00871780|164879437|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
82583836|NCT00871780|164879437|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
82583837|NCT00871780|164879437|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
82583838|NCT00871780|164879438|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
82583839|NCT00871780|164879438|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||<0.0001
82583840|NCT00871780|164879438|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||<0.0001
82583841|NCT00871780|164879439|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
82583842|NCT00871780|164879439|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
82583843|NCT00871780|164879439|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
82583844|NCT00871780|164879440|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Pearson Correlation|||Baseline||||<0.0001
82583845|NCT00871780|164879440|SUPERIORITY_OR_OTHER|||||||0.0016|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 24||||0.0016
82583846|NCT00871780|164879440|SUPERIORITY_OR_OTHER|||||||0.0866|TWO_SIDED||||||Pearson Correlation|||Change from Baseline at Week 48||||0.0866
82583847|NCT00871780|164879441|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Baseline||||<0.0001
82583848|NCT00871780|164879441|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 24||||<0.0001
82583849|NCT00871780|164879441|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Spearman correlation|||Change from Baseline at Week 48||||<0.0001
82583850|NCT06377488|164879454|SUPERIORITY||least-square mean estimate|-0.085|STANDARD_ERROR_OF_MEAN|0.0139|||TWO_SIDED|95.0|-0.115|-0.056|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at distance was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||-0.056|-0.115|
82583851|NCT06377488|164879454|SUPERIORITY||least-square mean estimate|-0.023|STANDARD_ERROR_OF_MEAN|0.0131|||TWO_SIDED|95.0|-0.05|0.005|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at intermediate was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||0.005|-0.050|
82583852|NCT06377488|164879454|SUPERIORITY||least-square mean estimate|0.083|STANDARD_ERROR_OF_MEAN|0.0152|||TWO_SIDED|95.0|0.051|0.116|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Visual Acuity scores at near was estimated using 95% confidence intervals (CI) constructed for the least-square mean (LSM).|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 9, 6 and 29 subjects were required to test the primary hypotheses for distance, intermediate and near, respectively.||0.116|0.051|
82583853|NCT06377488|164879455|SUPERIORITY||Mean Population Estimate|62.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|56.7|67.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes only using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 29 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||67.5|56.7|
82583854|NCT06377488|164879455|SUPERIORITY||Mean Population Estimate|57.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|51.7|64.0|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes only using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a 1-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 29 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||64.0|51.7|
82583855|NCT06377488|164879456|SUPERIORITY||Central Posterior Mean Estimate|0.943|STANDARD_DEVIATION|0.0155|||TWO_SIDED|95.0|0.908|0.968|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.902 and an intraclass correlation of 0.70, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 96% with 95% central posterior credible interval.||0.968|0.908|
82651844|NCT00096265|165018920|SUPERIORITY|||||||0.39|||||||Chi-squared|||With 70 patients per arm, a 0.05 level chi-square test would have 80% power to distinguish between two groups when the proportions in the three categories are as follows for standard vs. experimental arm, respectively: 25% vs. 50% improvement, 55% vs. 40% stable, and 20% vs. 10% deterioration, or any distribution that corresponds to an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0702.||||0.39
82488063|NCT02758171|164669019|SUPERIORITY_OR_OTHER||Adjusted geometric mean (gMean) ratio|98.15|STANDARD_DEVIATION|15.2|||TWO_SIDED|90.0|93.456|103.082|||ANOVA||"The ratio \[%\] calculated as T \[FDC (10 mg Empagliflozin and 5 mg Linagliptin)\]/R \[Empagliflozin (10 mg) + Linagliptin (5 mg) Single Tablets\].~Standard deviation is actually intra-individual geometric coefficient of variation (gCV) \[%\]."|The statistical model used was an Analysis of Variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: Sequence, subjects within sequences, period, and treatment. The effect subjects within sequences was considered as random, whereas the other effects were considered as fixed.||103.082|93.456|
82559061|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|||<|0.001|TWO_SIDED|95.0|-1.06|-0.42||This is the p-value for the main effect of treatment for the BPI Severity for Pain Right Now score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.42|-1.06|<0.001
82559062|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||<|0.001|TWO_SIDED|95.0|-1.03|-0.33||This is the p-value for the main effect of treatment for the BPI Pain Interference with General Activity score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.33|-1.03|<0.001
82559063|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.09|-0.37||This is the p-value for the main effect of treatment for the BPI Pain Interference with Mood score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.37|-1.09|<0.001
82559064|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.009|TWO_SIDED|95.0|-0.79|-0.11||This is the p-value for the main effect of treatment for the BPI Pain Interference with Walking Ability score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.11|-0.79|0.009
82559065|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.002|TWO_SIDED|95.0|-0.91|-0.21||This is the p-value for the main effect of treatment for the BPI Pain Interference with Normal Work score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.21|-0.91|0.002
82488064|NCT02437383|164669034|SUPERIORITY||LSM Difference (Final Values)|-1.8||||0.414|TWO_SIDED|95.0|-6.2|2.6||P-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|Covariates for site, baseline value, sex, race, treatment, visit, a treatment\*visit interaction, and an unstructured covariance structure.||||2.6|-6.2|0.414
82488065|NCT00943124|164669081|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.14||||||90.0|1.09|1.2||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.20|1.09|
82559066|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-1.06|-0.35||This is the p-value for the main effect of treatment for the BPI Pain Interference with Relations with Others score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.35|-1.06|<0.001
82559067|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.042|TWO_SIDED|95.0|-0.76|-0.01||This is the p-value for the main effect of treatment for the BPI Pain Interference with Sleep score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.01|-0.76|0.042
82559068|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67|||<|0.001|TWO_SIDED|95.0|-1.03|-0.31||This is the p-value for the main effect of treatment for the BPI Pain Interference with Enjoyment of Life score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.31|-1.03|<0.001
82559069|NCT01000805|164827853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|||<|0.001|TWO_SIDED|95.0|-0.88|-0.25||This is the p-value for the main effect of treatment for the BPI Mean Pain Interference score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.25|-0.88|<0.001
82559070|NCT01000805|164827854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|||<|0.001|TWO_SIDED|95.0|-0.71|-0.26||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.26|-0.71|<0.001
82559071|NCT01000805|164827855|SUPERIORITY_OR_OTHER|||||||0.293||95.0||||This is the p-value for suicidal ideation. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.293
82488066|NCT00943124|164669082|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.11||||||90.0|1.05|1.16||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.16|1.05|
82559072|NCT01000805|164827856|SUPERIORITY_OR_OTHER|||||||0.033||95.0||||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.033
82651845|NCT00096265|165018920|SUPERIORITY|||||||0.28|||||||Chi-squared|||With 70 patients per arm, a 0.05 level chi-square test would have 80% power to distinguish between two groups when the proportions in the three categories are as follows for standard vs. experimental arm, respectively: 25% vs. 50% improvement, 55% vs. 40% stable, and 20% vs. 10% deterioration, or any distribution that corresponds to an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0702.||||0.28
82488067|NCT00943124|164669083|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.97||||||90.0|0.93|1.0||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.00|0.93|
82559073|NCT01000805|164827857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.92|||<|0.001|TWO_SIDED|95.0|1.34|4.51||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||4.51|1.34|<0.001
82488068|NCT00943124|164669084|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.92||||||90.0|0.87|0.97||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.97|0.87|
82488069|NCT00943124|164669085|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.02||||||90.0|0.99|1.04||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.04|0.99|
82488070|NCT00943124|164669086|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|1.08||||||90.0|1.02|1.14||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||1.14|1.02|
82488071|NCT00943124|164669087|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.77||||||90.0|0.72|0.82||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.82|0.72|
82488072|NCT00943124|164669088|NON_INFERIORITY_OR_EQUIVALENCE|Power: If the true geometric mean ratio (GMR MK0524B/Simvastatin + MK0524A) is 1.00 for all the eight primary endpoints, then a sample size of N=220 subjects provides this study with greater than 99.2% probability of observing the 90% confidence intervals (CIs) of all the eight endpoints to be contained within \[0.80, 1.25\], assuming nonnegative associations among the 8 endpoints.|Least-Squares Mean Ratio|0.92||||||90.0|0.89|0.94||||||Least-Squares Mean Ratio (Fixed Dose Combination (FDC)/Co-administration)||0.94|0.89|
82488073|NCT02992132|164669089|SUPERIORITY||Difference in LSM|5.1|STANDARD_ERROR_OF_MEAN|5.0|||TWO_SIDED|95.0|-4.8|15.0||||||Mixed-effect model repeated measures (MMRM), with the dependent variable being the change from Baseline in CMAI total score.||15.0|-4.8|
82488074|NCT02992132|164669089|SUPERIORITY||Difference in LSM|1.0|STANDARD_ERROR_OF_MEAN|4.8|||TWO_SIDED|95.0|-8.5|10.5||||||Mixed-effect model repeated measures (MMRM), with the dependent variable being the change from Baseline in CMAI total score.||10.5|-8.5|
82488075|NCT00457366|164669107|OTHER|We used an analysis of covariance (ANCOVA) with baseline as the covariate to analyze the PANSS-EC at hour 2.|||||>|0.05|||||||ANCOVA|||||||>0.05
82488076|NCT01104155|164669119|SUPERIORITY_OR_OTHER_LEGACY|||||||0.204|||||||1-sided exact binomial|Based on a one-sided exact binomial test compared to 9%.||||||0.204
82488077|NCT01104155|164669119|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|||||||1-sided exact binomial|||||||0.041
82488078|NCT02787551|164669126|SUPERIORITY||Least square (LS) mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.067|<|0.0001|TWO_SIDED|95.0|-0.77|-0.508||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), GLP-1 RA subtype at screening, visits, treatment-by-visit interaction, world region as fixed effects, baseline HbA1c value-by-visit interaction as a covariate. Analysis included all scheduled measurements obtained during 26-week randomized treatment period, including those obtained after IMP discontinuation/introduction of rescue medication.||-0.508|-0.770|<0.0001
82488079|NCT02787551|164669128|SUPERIORITY||Difference in percentage|36.05|||<|0.0001|TWO_SIDED|95.0|28.11|43.99||Threshold for significance \<=0.05|Cochran-Mantel-Haenszel|||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs GLP-1 Receptor Agonist. Analysis was performed using Cochran-Mantel-Haenszel method method stratified on randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), and randomization strata of GLP-1 receptor agonist subtype at screening. Hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially per pre-specified order (only HbA1c \< 7% was part of testing).||43.99|28.11|<.0001
82488080|NCT02787551|164669130|SUPERIORITY||LS Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.168|<|0.0001|TWO_SIDED|95.0|-2.001|-1.341||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype at screening, scheduled visit, treatment-by-visit interaction, and world region as fixed effects, and and baseline FPG value-by visit interaction as a covariate. Testing according to the hierarchical testing procedure (continued only if previous outcome measures were statistically significant).||-1.341|-2.001|<0.0001
82559074|NCT01000805|164827857|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4||||0.001|TWO_SIDED|95.0|0.97|3.83||This is the p-value for the Change up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.83|0.97|0.001
82559075|NCT01000805|164827858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.083|TWO_SIDED|95.0|-0.25|4.04||This is the p-value for the Change from Baseline in SBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||4.04|-0.25|0.083
82488081|NCT02787551|164669132|SUPERIORITY||LS Mean Difference|-1.02|STANDARD_ERROR_OF_MEAN|0.157|<|0.0001|TWO_SIDED|95.0|-1.325|-0.708||Threshold for significance at 0.05 level.|Mixed Models Analysis|||Analysis was performed using MMRM with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype at screening, scheduled visit, treatment-by-visit interaction, and world region as fixed effects, and baseline average SMPG value-by-visit interaction as a covariate. Testing according to the hierarchical testing procedure (continued only if previous outcome measures were statistically significant).||-0.708|-1.325|<0.0001
82488082|NCT02787551|164669134|SUPERIORITY||LS Mean Difference|-2.85|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-3.42|-2.279||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 RA subtype (once/twice daily formulations, once weekly formulations) at screening, and world region as fixed effects and baseline 2-hour PPG value as a covariate. Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).||-2.279|-3.420|<0.0001
82488083|NCT02787551|164669136|SUPERIORITY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.244|<|0.0001|TWO_SIDED|95.0|-1.468|-0.508||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -2 HbA1c (\<8.0%, \>=8.0%), randomization strata of GLP-1 receptor agonist subtype (once/twice daily formulations, once weekly formulations) at screening, and world region as fixed effects and baseline 2-hour plasma glucose excursion value as a covariate. Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant).||-0.508|-1.468|<0.0001
82488084|NCT02038452|164669168|SUPERIORITY||Mean Difference (Final Values)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.48|-0.16|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.16|-0.48|<0.001
82488085|NCT02038452|164669169|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.001|TWO_SIDED|95.0|-0.53|-0.17|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.17|-0.53|<0.001
82488086|NCT02038452|164669170|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.003|TWO_SIDED|95.0|-0.43|-0.09|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.09|-0.43|0.003
82488087|NCT02038452|164669171|SUPERIORITY||Mean Difference (Final Values)|-0.97||||0.005|TWO_SIDED|95.0|-1.64|-0.3|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||-0.30|-1.64|0.005
82488088|NCT02038452|164669172|SUPERIORITY||Odds Ratio (OR)|0.44||||0.018|TWO_SIDED|95.0|0.22|0.87|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.87|0.22|0.018
82488089|NCT02038452|164669175|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.5|TWO_SIDED|95.0|-0.11|0.23|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.23|-0.11|0.500
82488090|NCT02038452|164669176|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.21|TWO_SIDED|95.0|-0.07|0.33|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms||The main treatment analyses were based on intention to treat approach||0.33|-0.07|0.21
82559076|NCT01000805|164827858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||0.513|TWO_SIDED|95.0|-0.95|1.9||This is the p-value for the Change from Baseline in DBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||1.90|-0.95|0.513
82559077|NCT01000805|164827858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.124|TWO_SIDED|95.0|-0.42|3.47||This is the p-value for the Change from Baseline in SBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.47|-0.42|0.124
82559078|NCT01000805|164827858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.638|TWO_SIDED|95.0|-0.98|1.6||This is the p-value for the Change from Baseline in DBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||1.60|-0.98|0.638
82488091|NCT02038452|164669177|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.96|TWO_SIDED|95.0|-0.175|0.166|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||0.166|-0.175|0.96
82488092|NCT02038452|164669178|SUPERIORITY||Mean Difference (Final Values)|0.79||||0.055|TWO_SIDED|95.0|-0.02|1.59|||Regression, Linear|Multiple imputation for missing data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||1.59|-0.02|0.055
82488093|NCT02038452|164669179|SUPERIORITY||Odds Ratio (OR)|1.12||||0.76|TWO_SIDED|95.0|0.55|2.2|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||2.20|0.55|0.76
82488094|NCT02038452|164669180|SUPERIORITY||Odds Ratio (OR)|1.66||||0.23|TWO_SIDED|95.0|0.73|3.77|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.77|0.73|0.23
82488095|NCT02038452|164669181|SUPERIORITY||Odds Ratio (OR)|1.28||||0.66|TWO_SIDED|95.0|0.41|3.98|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.98|0.41|0.66
82583856|NCT06377488|164879457|SUPERIORITY||Central Posterior Mean Estimate|0.988|STANDARD_DEVIATION|0.0058|||TWO_SIDED|95.0|0.974|0.997|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 96% with 95% central posterior credible interval.||0.997|0.974|
82583857|NCT06377488|164879458|SUPERIORITY||Central Posterior Mean Estimate|0.006|STANDARD_DEVIATION|0.0047|||TWO_SIDED|95.0|0.0|0.017|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.017|0.000|
82583858|NCT06377488|164879459|SUPERIORITY||Central Posterior Mean Estimate|0.003|STANDARD_DEVIATION|0.0029|||TWO_SIDED|95.0|0.0|0.011|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data||It was calculated that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.011|0.000|
82583859|NCT06377488|164879460|SUPERIORITY||Least-square mean estimate|57.8|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|51.7|64.0|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|This is the analysis for hyperopes only. Mean estimates were conducted using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 42 and 55 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||64.0|51.7|
82583860|NCT06377488|164879460|SUPERIORITY||Least-square mean estimate|62.1|STANDARD_ERROR_OF_MEAN|2.6|||TWO_SIDED|95.0|56.7|67.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|This is the analysis for myopes only. Mean estimates were conducted using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 42 and 55 subjects were required to test for superiority for CLUE vision scores for hyperopes and myopes, respectively.||67.5|56.7|
82583861|NCT06377488|164879461|SUPERIORITY||Mean Population Estimate|64.7|STANDARD_ERROR_OF_MEAN|3.02|||TWO_SIDED|95.0|58.6|70.8|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 46 subjects were required to test for superiority for CLUE comfort scores for hyperopes and myopes, respectively.||70.8|58.6|
82583862|NCT06377488|164879461|SUPERIORITY||Mean Population Estimate|64.2|STANDARD_ERROR_OF_MEAN|2.54|||TWO_SIDED|95.0|59.0|69.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 23 and 46 subjects were required to test for superiority for CLUE comfort scores for hyperopes and myopes, respectively.||69.5|59.0|
82583863|NCT06377488|164879462|SUPERIORITY||Mean Population Estimate|67.9|STANDARD_ERROR_OF_MEAN|2.79|||TWO_SIDED|95.0|62.2|73.5|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for hyperopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 15 and 26 subjects were required to test for superiority for CLUE handling scores for hyperopes and myopes, respectively.||73.5|62.2|
82583864|NCT06377488|164879462|SUPERIORITY||Mean Population Estimate|67.0|STANDARD_ERROR_OF_MEAN|2.32|||TWO_SIDED|95.0|62.2|71.8|||Mixed Model Analysis|The Satterthwaite Method was used for the calculation of the denominator degrees of freedom.|Mean estimates were conducted for myopes using two-sided confidence intervals (CI) constructed for the least square mean.|It was calculated using a one-sided one-sample mean t-test with a family wise type I error rate of 5% with at least 99% statistical power, that 15 and 26 subjects were required to test for superiority for CLUE handling scores for hyperopes and myopes, respectively.||71.8|62.2|
82583865|NCT06377488|164879463|SUPERIORITY||Central Posterior Mean Estimate|0.966|STANDARD_DEVIATION|0.0135|||TWO_SIDED|95.0|0.933|0.988|||Bayesian beta-binomial model|Bayesian beta-binomial model with correlated binary data.||It was calculated using a Bayesian beta-binomial model for correlated data with a reference rate of 0.99 and an intraclass correlation of 0.70 with 5000 replicating trials, that 140 subjects were required to test for superiority to achieve a minimum statistical power of 99% with 95% central posterior credible.||0.988|0.933|
82583866|NCT02751320|164879535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.7603|TWO_SIDED|95.0|-8.11|5.94||From ANCOVA: Participant (random), treatment \& period (fixed), subject-level baseline SMH, period-level baseline SMH, subject-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates).|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||5.94|-8.11|0.7603
82583867|NCT02751320|164879535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3||||0.3555|TWO_SIDED|95.0|-10.34|3.74||From ANCOVA: Participant (random), treatment \& period (fixed), subject-level baseline SMH, period-level baseline SMH, subject-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates).|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||3.74|-10.34|0.3555
82583868|NCT02751320|164879535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.21||||0.5335|TWO_SIDED|95.0|-4.81|9.23||ANCOVA: Participant (random), treatment \& period (fixed), Participant-level baseline SMH, period-level baseline SMH, Participant-level pre-treatment acid challenge SMH and period-level pre-treatment acid challenge SMH (covariates)|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|||9.23|-4.81|0.5335
82651846|NCT00096265|165018921|SUPERIORITY|||||||0.002|||||||Chi-squared|||108 with three month performance status data, per arm, would result in a 0.050 level chi-square test with 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0586.||||0.002
82559079|NCT01000805|164827859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|||<|0.001|TWO_SIDED|95.0|-1.37|-0.54||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.54|-1.37|<0.001
82559080|NCT01000805|164827859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88|||<|0.001|TWO_SIDED|95.0|-1.24|-0.51||This is the p-value for the Change from Baseline up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||-0.51|-1.24|<0.001
82559081|NCT04921358|164827908|OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.75|1.39|||||Hazard ratio and 95% confidence intervals (CIs) were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% Tumor Cells (TC) vs \>=1% TC).|||1.39|0.75|
82559082|NCT04921358|164827909|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.62|1.07|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% TC vs \>=1% TC).|||1.07|0.62|
82559083|NCT04921358|164827910|OTHER||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.5|0.83|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by histological subtype (nonsquamous vs squamous), race (Asian vs Non-Asian) and PD-L1 expression (\<1% TC vs \>=1% TC).|||0.83|0.50|
82559084|NCT01767688|164827926|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.94|||||TWO_SIDED|95.0|0.79|1.11|||Geometric least-squares mean ratio (GMR)|||||1.11|0.79|
82559085|NCT01767688|164827927|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.94|||||TWO_SIDED|95.0|0.81|1.1|||Geometric least-squares mean ratio (GMR)|||||1.10|0.81|
82559086|NCT01767688|164827928|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|0.81|||||TWO_SIDED|95.0|0.51|1.28|||Geometric least-squares mean ratio (GMR)|||||1.28|0.51|
82559087|NCT01767688|164827929|SUPERIORITY_OR_OTHER||Geometric least-squares mean ratio (GMR)|1.03|||||TWO_SIDED|95.0|0.93|1.15|||Geometric least-squares mean ratio (GMR)|||||1.15|0.93|
82559088|NCT02310581|164827960|OTHER||LS Mean Difference|104.973|STANDARD_ERROR_OF_MEAN|39.2433||0.012|TWO_SIDED|95.0|25.13|184.81|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||184.81|25.13|0.012
82559089|NCT02310581|164827960|OTHER||LS Mean Difference|86.316|STANDARD_ERROR_OF_MEAN|37.5385||0.028|TWO_SIDED|95.0|9.94|162.69|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||162.69|9.94|0.028
82559090|NCT02310581|164827960|OTHER||LS Mean Difference|64.485|STANDARD_ERROR_OF_MEAN|39.2459||0.11|TWO_SIDED|95.0|-15.36|144.33|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||144.33|-15.36|0.110
82559091|NCT02310581|164827963|OTHER||LS Mean Difference|14.398|STANDARD_ERROR_OF_MEAN|4.739||0.005|TWO_SIDED|95.0|4.76|24.04|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||24.04|4.76|0.005
82559092|NCT02310581|164827963|OTHER||LS Mean Difference|8.056|STANDARD_ERROR_OF_MEAN|4.5331||0.085|TWO_SIDED|95.0|-1.17|17.28|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||17.28|-1.17|0.085
82559093|NCT02310581|164827963|OTHER||LS Mean Difference|10.063|STANDARD_ERROR_OF_MEAN|4.7393||0.041|TWO_SIDED|95.0|0.42|19.7|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||19.70|0.42|0.041
82559094|NCT02310581|164827964|OTHER||LS Mean Difference|26.665|STANDARD_ERROR_OF_MEAN|8.1991||3|TWO_SIDED|95.0|9.98|43.35|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||43.35|9.98|0003
82559095|NCT02310581|164827964|OTHER||LS Mean Difference|21.605|STANDARD_ERROR_OF_MEAN|7.8429||0.009|TWO_SIDED|95.0|5.65|37.56|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||37.56|5.65|0.009
82559096|NCT02310581|164827964|OTHER||LS Mean Difference|22.143|STANDARD_ERROR_OF_MEAN|8.1997||0.011|TWO_SIDED|95.0|5.46|38.83|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||38.83|5.46|0.011
82559097|NCT02310581|164827965|OTHER||LS Mean Difference|63.881|STANDARD_ERROR_OF_MEAN|18.3971||0.001|TWO_SIDED|95.0|26.45|101.31|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||101.31|26.45|0.001
82559098|NCT02310581|164827965|OTHER||LS Mean Difference|50.284|STANDARD_ERROR_OF_MEAN|17.5979||0.007|TWO_SIDED|95.0|14.48|86.09|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||86.09|14.48|0.007
82559099|NCT02310581|164827965|OTHER||LS Mean Difference|56.879|STANDARD_ERROR_OF_MEAN|18.3984||0.004|TWO_SIDED|95.0|19.45|94.31|||ANCOVA|The analysis included treatment and site as main effects and Baseline pain intensity as the covariate.||||94.31|19.45|0.004
82559100|NCT02824198|164827967|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% Confidence Interval (CI) of the Geometric mean of titer ratios (GMTRs) (booster vs post-dose 3) was greater than (\>) 1/2 for each serotype.|Geometric mean of titer ratio|1.34|||||TWO_SIDED|95.0|0.998|1.79||||||Dengue Virus Serotype 1||1.79|0.998|
82559101|NCT02824198|164827967|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|0.603|||||TWO_SIDED|95.0|0.439|0.829||||||Dengue Virus Serotype 2||0.829|0.439|
82559102|NCT02824198|164827967|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|0.979|||||TWO_SIDED|95.0|0.746|1.28||||||Dengue Virus Serotype 3||1.28|0.746|
82559103|NCT02824198|164827967|NON_INFERIORITY|The overall non-inferiority of the booster dose was to be demonstrated if the lower limit of the two-sided 95% CI of the GMTRs (booster vs post-dose 3) was \> 1/2 for each serotype.|Geometric mean of titer ratio|1.27|||||TWO_SIDED|95.0|0.918|1.75||||||Dengue Virus Serotype 4||1.75|0.918|
82559104|NCT03883828|164827980|SUPERIORITY||Multivariable Linear Regression|-0.45||||0.004|TWO_SIDED|95.0|-0.75|-0.15||Two-sided p-values equal to or less than 0.05 were considered statistically significant|Fisher Exact|||||-0.15|-0.75|0.004
82559105|NCT03883828|164827981|SUPERIORITY|||||||0.2||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Symptoms Domain||||||0.20
82583869|NCT02751320|164879535|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.96|||<|0.0001|TWO_SIDED|95.0|16.02|29.9||From ANCOVA: Participant (random), treatment \& period (fixed), Participant -level baseline SMH, period-level baseline SMH, Participant -level pre-treatment acidchallenge SMH and period-level pre-treatment acid challenge SMH (covariates) .|ANCOVA||Difference is first named treatment minus second named treatment such that positive difference favors the first named treatment.|Treatment comparison corresponding to qualifying criteria for the analysis||29.90|16.02|<.0001
82559106|NCT03883828|164827981|SUPERIORITY|||||||0.05||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Emotions Domain||||||0.05
82583870|NCT05249829|164879541|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.73|||||TWO_SIDED|99.0|1.493|2.005||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||2.005|1.493|
82583871|NCT05249829|164879542|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 96% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.763|||||TWO_SIDED|96.0|1.546|2.01||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration.||2.010|1.546|
82583872|NCT05249829|164879543|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667. Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.535|||||TWO_SIDED|99.0|1.409|1.672||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||1.672|1.409|
82559107|NCT03883828|164827981|SUPERIORITY|||||||0.73||||||A 2-sided P ≤ .05 was considered statistically significant|Wilcoxon (Mann-Whitney)|Functioning Domain||||||0.73
82559108|NCT01256359|164827982|SUPERIORITY||Hazard Ratio (HR)|0.753||||0.13|TWO_SIDED|90.0|0.498|1.138||p value \< 0.1 one-sided considered to be significant.|Regression, Cox||HR is Adjusted for M status, performance status|||1.138|0.498|0.130
82559109|NCT01256359|164827982|SUPERIORITY||Hazard Ratio (HR)|0.723||||0.113|TWO_SIDED|90.0|0.465|1.123|||Regression, Cox||This includes all 83 patients but the analysis additionally adjusted for LDH, target lesion sum and time interval between randomisation and baseline CT scan as well as mstatus, performance status|This is a sensitivity analysis of the primary outcome. This includes all 83 patients but the analysis additionally adjusted for LDH, target lesion sum and time interval between randomisation and baseline CT scan as well as mstatus, performance status||1.123|0.465|0.113
82559110|NCT01256359|164827982|SUPERIORITY|||||||0.3016||||||This analysis assesses if allowing for interval censoring is consistent with the primary outcome results.|Generalised log-rank|Generalised log-rank taking into account interval censoring, analysed using SAS package version 9.2. Method by Zhao and Sun, 2004||This is a sensitivity analysis, including all 83 randomised patients. Patients are assessed periodically for the response (progression), the time when the event occurred is not directly observed but is known to take place within some time interval. Progression is known only to have occurred at some time between visits, the exact time is not known. We carried out interval censored analysis to demonstrate if allowing for interval censoring gives a different interpretation of the primary outcome.||||0.3016
82559111|NCT01256359|164827982|SUPERIORITY||Hazard Ratio (HR)|1.348||||0.305|TWO_SIDED|90.0|0.602|3.016|||Regression, Cox||Adjusted for centre|Sensitivity analysis adjusting for centre. All 83 randomised patients were included in analysis. Centres were the three biggest recruiters and all other 13 centres are combined.||3.016|0.602|0.305
82559112|NCT01256359|164827983|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.187|TWO_SIDED|90.0|-3.4|31.4|||Log Rank||This is the estimated difference in PFS rate i.e. % difference between arms|||31.4|-3.4|0.187
82559113|NCT01256359|164827984|SUPERIORITY||Hazard Ratio (HR)|1.373||||0.169|TWO_SIDED|90.0|0.797|2.369|||Regression, Cox|p value \< 0.1 one-sided considered to be significant.||||2.369|0.797|0.169
82559114|NCT01256359|164827985|SUPERIORITY|||||||0.059|||||||Chi-squared|||Objective response rate calculated as number of patients with CR or PR over all patients randomised.||||0.059
82559115|NCT01256359|164827986|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.318|TWO_SIDED|90.0|0.71|1.84|||Regression, Cox|||Analysis adjusted for with Mstatus and Performance Score||1.84|0.71|0.318
82559116|NCT01256359|164828024|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.468|TWO_SIDED|90.0|0.649|1.612|||Regression, Cox||Analysis Adjusted for M status, performance status|This is a sensitivity analysis of the primary outcome.||1.612|0.649|0.468
82559117|NCT01256359|164828025|SUPERIORITY||Hazard Ratio (HR)|0.721||||0.106|TWO_SIDED|90.0|0.468|1.109|||Regression, Cox||Analysis was adjusted for mstatus, performance status|This is the per-protocol analysis of the primary outcome.||1.109|0.468|0.106
82559118|NCT01256359|164828026|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.824|TWO_SIDED|95.0|0.25|1.53||p-value is for the interaction term|Regression, Cox||HRs (95% CI) between treatment groups are given for Wild type and NRAS mutated separately. The above HR is for WT.|Model with interaction term between NRAS status and treatment group and stratification variables||1.53|0.25|0.824
82559119|NCT01256359|164828027|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.072|TWO_SIDED|95.0|0.16|1.6||p-value is for interaction term.|Regression, Cox|Model includes interaction term between NRAS status and treatment group and stratification variables|"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.60|0.16|0.072
82559120|NCT01256359|164828027|SUPERIORITY||Hazard Ratio (HR)|1.97|||||TWO_SIDED|95.0|0.73|5.33|||||HR for NRAS mutated patients|||5.33|0.73|
82559121|NCT01256359|164828029|SUPERIORITY|Adjusted for with Mstatus and Performance Score|Hazard Ratio (HR)|1.12||||0.348|TWO_SIDED|90.0|0.68|1.87|||Regression, Cox|||||1.87|0.68|0.348
82559122|NCT01256359|164828030|SUPERIORITY||Hazard Ratio (HR)|0.61||||0.797|TWO_SIDED|90.0|0.24|1.58||p-value is for interaction term.|Regression, Cox|Model includes interaction term between NRAS status and treatment group and stratification variables|"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.58|0.24|0.797
82559123|NCT01256359|164828030|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.35|1.45|||||HR for NRAS mutated patients|||1.45|0.350|
82559124|NCT01256359|164828031|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.12|TWO_SIDED|95.0|0.18|1.97||Model includes interaction term between NRAS status and treatment group and stratification variables. p-value is for interaction term.|Regression, Cox||"HRs for treatment effect (AZD6244 vs Placebo ) are estimated for NRAS WT and NRAS mutated patients separately.~Hazard ratios (95%CI) given above are for NRAS WT patients."|||1.97|0.18|0.120
82559125|NCT01256359|164828031|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|0.73|5.38|||||HR for NRAS mutated patients|||5.38|0.73|
82559126|NCT00487240|164828033|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority limit of 0.4% using the upper limit of a two-sided test at a significance level of 0.05 with 90% power assuming a 1.1 Standard Deviations (SD)|Mean Difference (Net)|-0.1||||0.332||95.0|-0.29|0.1|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country.|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|Hypothesis: basal analog insulin lispro protamine suspension (ILPS), is inferior to basal analog insulin detemir, as measured by change in HbA1c from baseline to endpoint.||0.10|-0.29|0.332
82559127|NCT00487240|164828034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.718||95.0|-0.22|0.15||P-value for 8 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country.|Least Squares Mean Difference=Insulin Lispro Protamine Suspension minus Detemir.|||0.15|-0.22|0.718
82559128|NCT00487240|164828034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14||||0.187||95.0|-0.34|0.07||P-value for 16 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.07|-0.34|0.187
82559129|NCT00487240|164828034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.704||95.0|-0.25|0.17||P-value for 24 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.17|-0.25|0.704
82559130|NCT00487240|164828034|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.599||95.0|-0.27|0.15||P-value for 32 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|||0.15|-0.27|0.599
82559131|NCT00487240|164828035|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for With HbA1c ≤7.0%.|Fisher Exact|||||||1.000
82559132|NCT00487240|164828035|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value for With HbA1c \<7.0%|Fisher Exact|||||||1.000
82559133|NCT00487240|164828035|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-value for With HbA1c ≤6.5%|Fisher Exact|||||||0.722
82559134|NCT00487240|164828035|SUPERIORITY_OR_OTHER|||||||0.699||95.0||||P-value for With HbA1c \<6.5%|Fisher Exact|||||||0.699
82583873|NCT05249829|164879544|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667. Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.713|||||TWO_SIDED|96.0|1.583|1.853||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration.||1.853|1.583|
82559135|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.259||95.0||||P-value for Daily Mean 7-Point SMBG.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.259
82559136|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.468||95.0||||P-value for Daily Mean Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.468
82559137|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.395||95.0||||P-value for Daily Mean Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.395
82559138|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.414||95.0||||P-value for Daily Mean Morning and Evening Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.414
82559139|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.275||95.0||||P-value for Actual Morning Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.275
82559140|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.611||95.0||||P-value for Actual Morning Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.611
82559141|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.763||95.0||||P-value for Actual Midday Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.763
82559142|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.977||95.0||||P-value for Actual Midday Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.977
82559143|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.586||95.0||||P-value for Actual Evening Pre-Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.586
82559144|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.093||95.0||||P-value for Actual Evening Postprandial Meal|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.093
82559145|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.516||95.0||||P-value for Actual 0300 Hours|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.516
82559146|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.576||95.0||||P-value for Actual Morning SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.576
82559147|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.876||95.0||||P-value for Midday SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.876
82559148|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value for Evening SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.261
82559149|NCT00487240|164828036|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-value for Daily Mean SMBG Excursion|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.567
82559150|NCT00487240|164828037|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 0.8 mmol/L was chosen to prove noninferiority of ILPS to detemir.|Mean Difference (Net)|0.36||||||95.0|-0.03|0.75|||||Least Squares Mean difference = Insulin Lispro Protamine Suspension - Detemir|If the primary analysis achieves statistical significance at a 0.05 level (that is, the null hypothesis for the primary analysis \[primary outcome measure\] is rejected), then the first secondary hypothesis (glycemic variability) is tested at an error rate of 0.05.||0.75|-0.03|
82559151|NCT00487240|164828037|SUPERIORITY_OR_OTHER|||||||0.132||95.0||||P-value for M-Value|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.132
82559152|NCT00487240|164828037|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||P-value for MODD|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country||||||0.179
82488096|NCT02038452|164669182|SUPERIORITY||Odds Ratio (OR)|1.43||||0.66|TWO_SIDED|95.0|0.28|7.34|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||7.34|0.28|0.66
82488097|NCT02038452|164669183|SUPERIORITY||Odds Ratio (OR)|1.42||||0.4|TWO_SIDED|95.0|0.63|3.18|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||3.18|0.63|0.40
82488098|NCT02038452|164669184|SUPERIORITY||Odds Ratio (OR)|1.99||||0.2|TWO_SIDED|95.0|0.7|5.66|||Regression, Logistic|Multiple imputation for missing data was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||The main treatment analyses were based on intention to treat approach||5.66|0.70|0.20
82488099|NCT02038452|164669185|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.001|TWO_SIDED|95.0|-0.53|-0.14||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||-0.14|-0.53|0.001
82488100|NCT02038452|164669186|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.74|TWO_SIDED|95.0|-0.17|0.24||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.24|-0.17|0.74
82488101|NCT02038452|164669187|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.41|TWO_SIDED|95.0|-0.3|0.12||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.12|-0.30|0.41
82488102|NCT02038452|164669188|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.58|TWO_SIDED|95.0|-0.16|0.28||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.28|-0.16|0.58
82488103|NCT02038452|164669189|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.009|TWO_SIDED|95.0|-1.72|-0.24||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||-0.24|-1.72|0.009
82488104|NCT02038452|164669190|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.058|TWO_SIDED|95.0|-0.02|1.54||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||1.54|-0.02|0.058
82488105|NCT02038452|164669191|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.95|TWO_SIDED|95.0|-0.79|0.85||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||0.85|-0.79|0.95
82488106|NCT02038452|164669192|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.35|TWO_SIDED|95.0|-0.45|1.26||Participants with relevant outcomes reported on at least one follow-up time point were included in the analyses. Adjustment was made for baseline score, age, duration of symptoms, interaction term between treatment and follow-up.|Mixed Models Analysis|||||1.26|-0.45|0.35
82488107|NCT02038452|164669193|SUPERIORITY||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.54|-0.19|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.19|-0.54|<0.001
82488108|NCT02038452|164669194|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.59|-0.21|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.21|-0.59|<0.001
82559153|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for Endpoint Hypoglycemic Episodes|Fisher Exact|||||||0.737
82559154|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.724||95.0||||P-value for Overall Hypoglycemic Episodes|Fisher Exact|||||||0.724
82559155|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.157||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.157
82559156|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||P-value for Overall Nocturnal Episodes|Fisher Exact|||||||0.287
82583874|NCT05249829|164879545|NON_INFERIORITY|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.048|||||TWO_SIDED|99.0|0.958|1.147||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the ancestral strain at Day 29 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=1818).||1.147|0.958|
82651847|NCT00096265|165018921|SUPERIORITY||||||<|0.001|||||||Chi-squared|||108 cases with three month performance status data, per arm, would result in a 0.050 level chi-square test with 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.0586.||||< 0.001
82488109|NCT02038452|164669195|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.005|TWO_SIDED|95.0|-0.44|-0.08|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.08|-0.44|0.005
82488110|NCT02038452|164669196|SUPERIORITY||Mean Difference (Final Values)|-1.05||||0.002|TWO_SIDED|95.0|-1.72|-0.38|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.38|-1.72|0.002
82488111|NCT02038452|164669197|SUPERIORITY||Odds Ratio (OR)|0.35||||0.006|TWO_SIDED|95.0|0.17|0.74|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.74|0.17|0.006
82559157|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.664
82559158|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Episodes|Fisher Exact|||||||0.730
82559159|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for Endpoint Severe Hypoglycemic Episodes|Fisher Exact|||||||0.053
82559160|NCT00487240|164828038|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-value for Overall Severe Hypoglycemic Episodes|Fisher Exact|||||||0.081
82559161|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-value for Endpoint Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.280
82559162|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.193||95.0||||P-value for Overall Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.193
82559163|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.042||95.0||||P-value for Endpoint Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.042
82559164|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Overall Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.001
82559165|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||P-value for Endpoint Non-Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.579
82559166|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.531||95.0||||P-value for Overall Non-Nocturnal Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.531
82559167|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Endpoint Severe Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.017
82559168|NCT00487240|164828039|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Overall Severe Hypoglycemic Rate|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country. Hypoglycemic Rate (Adjusted for 1 year) was used in the analysis.||||||0.038
82559169|NCT00487240|164828041|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 1.5 kg was chosen to prove noninferiority of ILPS to detemir.|Mean Difference (Net)|0.97||||0.003||95.0|0.34|1.6||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment+Baseline+Country.|Least Squares Mean Difference = Insulin Lispro Protamine Suspension minus Detemir.|If the first secondary null hypothesis (glycemic variability) is rejected, then the second secondary hypothesis (weight change) is tested at an error rate of 0.05.||1.60|0.34|0.003
82559170|NCT00487240|164828042|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Total Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.023
82559171|NCT00487240|164828042|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Total Bolus Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.004
82559172|NCT00487240|164828042|SUPERIORITY_OR_OTHER|||||||0.282||95.0||||P-value for Total Basal Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.282
82559173|NCT00487240|164828043|SUPERIORITY_OR_OTHER|||||||0.82||95.0||||P-value for Total Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.82
82559174|NCT00487240|164828043|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-value for Total Bolus Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.19
82559175|NCT00487240|164828043|SUPERIORITY_OR_OTHER|||||||0.416||95.0||||P-value for Total Basal Insulin|ANOVA|ANOVA Model: Variable=Treatment+Country||||||0.416
82559176|NCT04237792|164828054|OTHER||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.03|0.29|||Cochran-Mantel-Haenszel|||||0.29|0.03|<0.001
82559177|NCT04237792|164828055|OTHER||Odds Ratio (OR)|0.18||||0.022|TWO_SIDED|95.0|0.04|0.82|||Mantel Haenszel|||||0.82|0.04|0.022
82559178|NCT04237792|164828055|OTHER||Odds Ratio (OR)|0.05|||<|0.001|TWO_SIDED|95.0|0.01|0.26|||Mantel Haenszel|||||0.26|0.01|<0.001
82559179|NCT04237792|164828056|OTHER||Odds Ratio (OR)|0.11||||0.006|TWO_SIDED|95.0|0.02|0.59|||Mantel Haenszel|||||0.59|0.02|0.006
82559180|NCT04237792|164828056|OTHER||Odds Ratio (OR)|1.68||||0.597|TWO_SIDED|95.0|0.25|11.27|||Mantel Haenszel|||||11.27|0.25|0.597
82559181|NCT04237792|164828056|OTHER||Odds Ratio (OR)|0.54||||0.374|TWO_SIDED|95.0|0.14|2.07|||Mantel Haenszel|||||2.07|0.14|0.374
82559182|NCT04237792|164828056|OTHER||Odds Ratio (OR)|0.1||||0.001|TWO_SIDED|95.0|0.02|0.44|||Mantel Haenszel|||||0.44|0.02|0.001
82559183|NCT04237792|164828056|OTHER||Odds Ratio (OR)|0.32||||0.015|TWO_SIDED|95.0|0.13|0.81|||Mantel Haenszel|||||0.81|0.13|0.015
82559184|NCT04237792|164828056|OTHER||Odds Ratio (OR)|0.3||||0.024|TWO_SIDED|95.0|0.1|0.87|||Mantel Haenszel|||||0.87|0.10|0.024
82559185|NCT04237792|164828057|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82559186|NCT04237792|164828057|OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82559187|NCT04237792|164828057|OTHER|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
82559188|NCT04237792|164828057|OTHER|||||||0.213|||||||Wilcoxon (Mann-Whitney)|||||||0.213
82559189|NCT04237792|164828057|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82559190|NCT04237792|164828057|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||||||0.006
82559191|NCT04237792|164828057|OTHER|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82559192|NCT04237792|164828057|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82559193|NCT04237792|164828057|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82559194|NCT04237792|164828058|OTHER|||||||0.016|||||||Log Rank|||||||0.016
82559195|NCT04237792|164828058|OTHER|||||||0.005|||||||Log Rank|||||||0.005
82559196|NCT04237792|164828058|OTHER|||||||0.368|||||||Log Rank|||||||0.368
82559197|NCT04237792|164828058|OTHER|||||||0.358|||||||Log Rank|||||||0.358
82559198|NCT04237792|164828058|OTHER|||||||0|||||||Log Rank|||||||0.000
82559199|NCT04237792|164828058|OTHER|||||||0.001|||||||Log Rank|||||||0.001
82559200|NCT04237792|164828058|OTHER|||||||0.02|||||||Log Rank|||||||0.020
82559201|NCT04237792|164828058|OTHER|||||||0|||||||Log Rank|||||||0.000
82559202|NCT04237792|164828058|OTHER|||||||0.005|||||||Log Rank|||||||0.005
82559203|NCT04237792|164828059|OTHER|||||||0.884|||||||Log Rank|||||||0.884
82559204|NCT04237792|164828059|OTHER|||||||0.662|||||||Log Rank|||||||0.662
82559205|NCT04237792|164828059|OTHER|||||||0.236|||||||Log Rank|||||||0.236
82559206|NCT04237792|164828059|OTHER|||||||0.733|||||||Log Rank|||||||0.733
82559207|NCT04237792|164828059|OTHER|||||||0.128|||||||Log Rank|||||||0.128
82559208|NCT04237792|164828059|OTHER|||||||0.165|||||||Log Rank|||||||0.165
82488112|NCT02038452|164669198|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.58|TWO_SIDED|95.0|-0.13|0.24|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.24|-0.13|0.58
82559209|NCT04237792|164828059|OTHER|||||||0.752|||||||Log Rank|||||||0.752
82488113|NCT02038452|164669199|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.25|TWO_SIDED|95.0|-0.09|0.35|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.35|-0.09|0.25
82488114|NCT02038452|164669200|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.93|TWO_SIDED|95.0|-0.17|0.18|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.18|-0.17|0.93
82488115|NCT02038452|164669201|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.052|TWO_SIDED|95.0|-0.01|1.61|||Regression, Linear|Complete case analysis as a sensitivity analysis was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||1.61|-0.01|0.052
82488116|NCT02038452|164669202|SUPERIORITY||Odds Ratio (OR)|1.29||||0.53|TWO_SIDED|95.0|0.58|2.88|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||2.88|0.58|0.53
82488117|NCT02038452|164669203|SUPERIORITY||Odds Ratio (OR)|1.43||||0.41|TWO_SIDED|95.0|0.61|3.34|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.34|0.61|0.41
82488118|NCT02038452|164669205|SUPERIORITY||Odds Ratio (OR)|1.32||||0.52|TWO_SIDED|95.0|0.57|3.06|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.06|0.57|0.52
82559210|NCT04237792|164828059|OTHER|||||||0.139|||||||Log Rank|||||||0.139
82488119|NCT02038452|164669206|SUPERIORITY||Odds Ratio (OR)|2.05||||0.18|TWO_SIDED|95.0|0.72|5.78|||Regression, Logistic|Complete case analysis as a sensitivity analysis was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||5.78|0.72|0.18
82488120|NCT02038452|164669207|SUPERIORITY||Mean Difference (Final Values)|-0.36|||<|0.001|TWO_SIDED|95.0|-0.55|-0.18|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.18|-0.55|<0.001
82488121|NCT02038452|164669208|SUPERIORITY||Mean Difference (Final Values)|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.19|-0.59|<0.001
82488122|NCT02038452|164669209|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.003|TWO_SIDED|95.0|-0.46|-0.09|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.09|-0.46|0.003
82488123|NCT02038452|164669210|SUPERIORITY||Mean Difference (Final Values)|-1.16||||0.001|TWO_SIDED|95.0|-1.85|-0.48|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.48|-1.85|0.001
82488124|NCT02038452|164669211|SUPERIORITY||Odds Ratio (OR)|0.34||||0.007|TWO_SIDED|95.0|0.16|0.74|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.74|0.16|0.007
82488125|NCT02038452|164669212|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.63|TWO_SIDED|95.0|-0.15|0.25|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.25|-0.15|0.63
82488126|NCT02038452|164669213|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.28|TWO_SIDED|95.0|-0.1|0.35|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.35|-0.10|0.28
82488127|NCT02038452|164669214|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.9|TWO_SIDED|95.0|-0.18|0.2|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.20|-0.18|0.900
82488128|NCT02038452|164669215|SUPERIORITY||Mean Difference (Final Values)|0.74||||0.09|TWO_SIDED|95.0|-0.11|1.59|||Regression, Linear|Per protocol analysis on complete date was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||1.59|-0.11|0.09
82488129|NCT02038452|164669216|SUPERIORITY||Odds Ratio (OR)|1.26||||0.58|TWO_SIDED|95.0|0.56|2.85|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for baseline score, sex, age, and duration of symptoms.||||2.85|0.56|0.58
82488130|NCT02038452|164669217|SUPERIORITY||Odds Ratio (OR)|1.31||||0.52|TWO_SIDED|95.0|0.57|3.01|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||3.01|0.57|0.52
82559211|NCT04237792|164828059|OTHER|||||||0.051|||||||Log Rank|||||||0.051
82488131|NCT02038452|164669219|SUPERIORITY||Odds Ratio (OR)|1.25||||0.61|TWO_SIDED|95.0|0.53|2.95|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||2.95|0.53|0.61
82559212|NCT04237792|164828061|OTHER|||||||0.124|||||||ANOVA|||||||0.124
82559213|NCT04237792|164828061|OTHER|||||||0.186|||||||ANOVA|||||||0.186
82559214|NCT04237792|164828061|OTHER|||||||0.47|||||||ANOVA|||||||0.470
82559215|NCT04237792|164828061|OTHER|||||||0.845|||||||ANOVA|||||||0.845
82559216|NCT04237792|164828061|OTHER|||||||0.621|||||||ANOVA|||||||0.621
82559217|NCT04237792|164828061|OTHER|||||||0.747|||||||ANOVA|||||||0.747
82559218|NCT04237792|164828061|OTHER|||||||0.218|||||||ANOVA|||||||0.218
82559219|NCT04237792|164828061|OTHER|||||||0.181|||||||ANOVA|||||||0.181
82559220|NCT04237792|164828061|OTHER|||||||0.984|||||||ANOVA|||||||0.984
82559221|NCT04237792|164828062|OTHER|||||||0.048|||||||ANOVA|||||||0.048
82559222|NCT04237792|164828062|OTHER|||||||0.106|||||||ANOVA|||||||0.106
82559223|NCT04237792|164828062|OTHER|||||||0.196|||||||ANOVA|||||||0.196
82559224|NCT04237792|164828062|OTHER|||||||0.94|||||||ANOVA|||||||0.940
82559225|NCT04237792|164828062|OTHER|||||||0.824|||||||ANOVA|||||||0.824
82559226|NCT04237792|164828062|OTHER|||||||0.678|||||||ANOVA|||||||0.678
82559227|NCT04237792|164828062|OTHER|||||||0.129|||||||ANOVA|||||||0.129
82559228|NCT04237792|164828062|OTHER|||||||0.16|||||||ANOVA|||||||0.160
82488132|NCT02038452|164669220|SUPERIORITY||Odds Ratio (OR)|2.24||||0.14|TWO_SIDED|95.0|0.77|6.58|||Regression, Logistic|Per protocol analysis on complete date was performed. Logistic regression adjusted for sex, age, and duration of symptoms.||||6.58|0.77|0.14
82488133|NCT02038452|164669221|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.014|TWO_SIDED|95.0|-0.93|-0.12|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.12|-0.93|0.014
82488134|NCT02038452|164669222|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.53|TWO_SIDED|95.0|-0.5|0.26|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.26|-0.50|0.53
82488135|NCT02038452|164669223|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.015|TWO_SIDED|95.0|-0.44|-0.05|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.05|-0.44|0.015
82488136|NCT02038452|164669224|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.002|TWO_SIDED|95.0|-0.97|-0.23|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||-0.23|-0.97|0.002
82488137|NCT02038452|164669225|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.25|TWO_SIDED|95.0|-0.6|0.16|||Regression, Linear|Sub group analysis on complete data was performed. Linear regression adjusted for baseline score, sex, age, and duration of symptoms.||||0.16|-0.60|0.25
82488138|NCT02038452|164669226|SUPERIORITY||Mean Difference (Final Values)|33.54|||||TWO_SIDED|95.0|-94.57|145.59|||Regression, Linear|Comparison of outcome between treatment groups performed on multiply imputed data||||145.59|-94.57|
82488139|NCT02038452|164669227|SUPERIORITY||Mean Difference (Final Values)|47.06|||||TWO_SIDED|95.0|-104.84|187.31|||Regression, Linear|Comparison of outcome between treatment groups on complete data.||||187.31|-104.84|
82488140|NCT02038452|164669228|SUPERIORITY||Mean Difference (Final Values)|113.15|||||TWO_SIDED|95.0|-37.09|279.21|||Regression, Linear|Comparison of outcome between treatment groups||||279.21|-37.09|
82488141|NCT02038452|164669229|SUPERIORITY||Mean Difference (Final Values)|71.1|||||TWO_SIDED|95.0|-120.84|291.24|||Regression, Linear|Comparison of outcome between treatment groups||||291.24|-120.84|
82488142|NCT02038452|164669230|SUPERIORITY||Mean Difference (Final Values)|0.008|||||TWO_SIDED|95.0|-0.01|0.02|||Regression, Linear|||||0.02|-0.01|
82488143|NCT02038452|164669231|SUPERIORITY||Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-0.034|0.027|||Regression, Linear|||||0.027|-0.034|
82488144|NCT02038452|164669232|SUPERIORITY||Mean Difference (Final Values)|-0.022|||||TWO_SIDED|95.0|-0.093|0.045|||Regression, Linear|||||0.045|-0.093|
82488145|NCT02337738|164669244|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84||||0.0006|TWO_SIDED|95.0|-1.32|-0.364|||ANCOVA||Estimated Value was reported for the difference between TVP-1012 1mg and Placebo (TVP-1012 1mg - Placebo).|||-0.364|-1.320|0.0006
82488146|NCT02337738|164669244|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.014|TWO_SIDED|95.0|-1.07|-0.122|||ANCOVA||Estimated Value was reported for the difference between TVP-1012 0.5mg and Placebo (TVP-1012 0.5mg - Placebo).|||-0.122|-1.070|0.0140
82488147|NCT02436681|164669280|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82488148|NCT02436681|164669282|SUPERIORITY||||||=|0.0468|||||||t-test, 1 sided|||||||= 0.0468
82488149|NCT02436681|164669284|SUPERIORITY||||||=|0.014|||||||t-test, 1 sided|||||||=0.014
82488150|NCT02436681|164669285|SUPERIORITY||||||=|0.018|||||||t-test, 1 sided|||||||= 0.018
82488151|NCT00932737|164669296|OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.0156|TWO_SIDED|95.0|-1.3|-0.1|||Mixed effect model||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|A model included fixed, categorical effects of treatment group, episode, interval and center, as well as the treatment-by-episode interaction, with the covariate of baseline intensity of Abdominal pain associated with cramping . An unstructured covariance structure was used to model the within-patient errors.||-0.1|-1.3|0.0156
82488152|NCT00932737|164669297|OTHER||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.3||0.0512|TWO_SIDED|95.0|-1.2|0.0|||Mixed effect model||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|A model included fixed, categorical effects of treatment group, episode, interval and center, as well as the treatment-by-episode interaction, with the covariate of baseline intensity of Abdominal pain associated with cramping . An unstructured covariance structure was used to model the within-patient errors.||0.0|-1.2|0.0512
82488153|NCT00932737|164669298|OTHER||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.32||0.0351|TWO_SIDED|95.0|-1.3|0.0|||ANCOVA||The adjusted mean difference between Hyoscine butylbromide minus Placebo was calculated.|The analysis of covariance (ANCOVA) was performed on the change from baseline to the last recorded rating of intensity for each treated episode of Abdominal pain associated with cramping (APC). The statistical model included the main effects of treatment, episode, and center as well as terms for the treatment-by-episode interaction, with baseline intensity of APC for the respective episode as a covariate.||0.0|-1.3|0.0351
82488154|NCT00932737|164669299|OTHER||Adjusted mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3557|TWO_SIDED|95.0|-1.0|0.4|||ANCOVA||The adjusted mean difference between Hyoscine butylbromide and Placebo was calculated.|The analysis of covariance (ANCOVA) was performed on the change from baseline to the last recorded rating of intensity for each treated episode of Abdominal pain associated with cramping (APC). The statistical model included the main effects of treatment, episode, and center as well as terms for the treatment-by-episode interaction, with baseline intensity of APC for the respective episode as a covariate.||0.4|-1.0|0.3557
82488155|NCT00932737|164669300|OTHER||Odds Ratio (OR)|1.071||||0.831|TWO_SIDED|95.0|0.572|2.004|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.004|0.572|0.831
82488156|NCT00932737|164669301|OTHER||Odds Ratio (OR)|1.222||||0.557|TWO_SIDED|95.0|0.626|2.387|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.387|0.626|0.557
82488157|NCT00932737|164669302|OTHER||Odds Ratio (OR)|0.737||||0.396|TWO_SIDED|95.0|0.365|1.49|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||1.490|0.365|0.396
82488158|NCT00932737|164669303|OTHER||Odds Ratio (OR)|1.336||||0.448|TWO_SIDED|95.0|0.632|2.827|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||2.827|0.632|0.448
82488159|NCT00932737|164669304|OTHER||Odds Ratio (OR)|2.474||||0.03|TWO_SIDED|95.0|1.093|5.604|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||5.604|1.093|0.030
82488160|NCT00932737|164669305|OTHER||Odds Ratio (OR)|1.654||||0.167|TWO_SIDED|95.0|0.81|3.378|||Regression, Logistic|Logistic regression included the main effects of treatment group, episode, and center.||||3.378|0.810|0.167
82488161|NCT00932737|164669306|OTHER|||||||0.256|||||||Log Rank|Log rank test was used for comparison of Hyoscine butylbromide (Buscopan®) 20 mg group versus Placebo group.||||||0.2560
82488162|NCT00932737|164669307|OTHER|||||||0.5179|||||||Log Rank|Log rank test was used for comparison of Hyoscine butylbromide (Buscopan®) 20 mg group versus Placebo group.||||||0.5179
82488163|NCT01896050|164669341|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Compare difference in change in body mass index between baseline and 12 months between aromatase inhibitor- and tamoxifen-treated patients||||0.03
82488164|NCT01896050|164669341|SUPERIORITY_OR_OTHER||BMI squared|-0.01845|STANDARD_ERROR_OF_MEAN|0.02308||0.4262|TWO_SIDED||||||Regression, Linear|||Examine association between change in body mass index and change in grip strength with aromatase inhibitor therapy. For the primary outcome, linear regression was used for analysis with change of grip strength as response variable. In the original statistical analysis plan only aromatase inhibitor-treated patients were to be included in this analysis. This analysis was not performed on the tamoxifen group because it isn't clinically relevant.||||0.4262
82488165|NCT01896050|164669342|SUPERIORITY_OR_OTHER|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in maximum grip strength between baseline and 12 months for aromatase inhibitor-treated versus tamoxifen-treated patients||||0.032
82488166|NCT01896050|164669343|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.92|1.04||||||Association between baseline body mass index and discontinuation of aromatase inhibitor therapy. The original statistical analysis plan only called for analyzing the aromatase inhibitor-treated patients, not the tamoxifen-treated patients.||1.04|0.92|
82488167|NCT03693300|164669344|OTHER||Proportion (%)|6.1|||||TWO_SIDED|95.0|2.5|12.24|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||12.24|2.50|
82559229|NCT04237792|164828062|OTHER|||||||0.872|||||||ANOVA|||||||0.872
82488168|NCT03693300|164669344|OTHER||Proportion (%)|0.0|||||TWO_SIDED|95.0|0.0|70.76|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||70.76|0.00|
82488169|NCT03693300|164669344|OTHER||Proportion (%)|6.0|||||TWO_SIDED|95.0|2.44|11.94|||||95% CI were based on the Clopper-Pearson method.|Any possibly related adverse events of CTCAE Grade 3 or Grade 4||11.94|2.44|
82488170|NCT03693300|164669344|OTHER||Proportion (%)|4.4|||||TWO_SIDED|95.0|1.44|9.94|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||9.94|1.44|
82488171|NCT03693300|164669344|OTHER||Proportion (%)|0.0|||||TWO_SIDED|95.0|0.0|70.76|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||70.76|0.00|
82488172|NCT03693300|164669344|OTHER||Proportion (%)|4.3|||||TWO_SIDED|95.0|1.4|9.69|||||95% CI were based on the Clopper-Pearson method.|Any possibly related AEs of Grade 3 or Grade 4 with onset date within 6 months of the first dose||9.69|1.40|
82488173|NCT02203071|164669388|SUPERIORITY|||||||0.61|||||||Fisher Exact|||||||0.61
82488174|NCT02203071|164669389|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||.001
82488175|NCT02203071|164669390|SUPERIORITY||||||>|0.11|||||||t-test, 2 sided|||||||>0.11
82488176|NCT02203071|164669391|SUPERIORITY||||||<|0.007|||||||ANOVA|||||||<0.007
82488177|NCT02203071|164669392|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<0.001
82488178|NCT02203071|164669393|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82488179|NCT01886716|164669395|SUPERIORITY_OR_OTHER||Slope|-0.8|STANDARD_ERROR_OF_MEAN|0.95|=|0.4|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .71|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares anxiety vs. control training."||||=.40
82488180|NCT01886716|164669395|SUPERIORITY_OR_OTHER||Slope|0.27|STANDARD_ERROR_OF_MEAN|0.95|=|0.78|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .08|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares alcohol vs. control training."||||=.78
82488181|NCT01886716|164669396|SUPERIORITY_OR_OTHER||Slope|-0.03|STANDARD_ERROR_OF_MEAN|0.07|=|0.67|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = .18|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares alcohol vs. control training"||||=.67
82488182|NCT01886716|164669396|SUPERIORITY_OR_OTHER||Slope|0.07|STANDARD_ERROR_OF_MEAN|0.07|=|0.32|TWO_SIDED||||||Mixed Models Analysis||F(1,517) = 1.01|"The analyses used multilevel modeling to capture both the trajectories of symptoms within individuals (i.e., level 1) and the hypothesized between-subject moderators of these trajectories, alcohol and anxiety attention training (i.e., level 2) across all 7 time points.~Note, although all 4 groups are included in this analysis, this analysis specifically compares anxiety vs. control training"||||=.32
82559230|NCT00910962|164828074|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.411|TWO_SIDED|95.0|0.46|1.38|||Cox' proportional hazards model|||||1.38|0.46|0.4110
82559231|NCT00910962|164828074|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.9318|TWO_SIDED|95.0|0.6|1.74|||Cox' proportional hazards model|||||1.74|0.60|0.9318
82559232|NCT00910962|164828074|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6805|TWO_SIDED|95.0|0.56|1.46|||Cox' proportional hazards model|||||1.46|0.56|0.6805
82559233|NCT00910962|164828075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.299|TWO_SIDED|95.0|0.39|1.34|||Cox' proportional hazards model|||||1.34|0.39|0.2990
82559234|NCT00910962|164828075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.8235|TWO_SIDED|95.0|0.6|1.9|||Cox' proportional hazards model|||||1.90|0.60|0.8235
82559235|NCT00910962|164828075|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.659|TWO_SIDED|95.0|0.52|1.51|||Cox' proportional hazards model|||||1.51|0.52|0.6590
82559236|NCT00910962|164828081|SUPERIORITY||test to reference ratio|0.8||||0.151|TWO_SIDED|95.0|0.59|1.09|||Repeated measures ANCOVA|||||1.09|0.59|0.151
82559237|NCT00910962|164828081|SUPERIORITY||test to reference ratio|0.95||||0.744|TWO_SIDED|95.0|0.7|1.29|||Repeated measures ANCOVA|||||1.29|0.70|0.744
82559238|NCT00910962|164828081|SUPERIORITY||test to treatment ratio|0.87||||0.317|TWO_SIDED|95.0|0.66|1.14|||Repeated measures ANCOVA|||||1.14|0.66|0.317
82583875|NCT05249829|164879546|OTHER|Non-inferiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>0.667.|Geometric Mean Ratio|1.104|||||TWO_SIDED|96.0|1.032|1.18||||||Geometric Mean Ratio = GMCmRNA-1273.214/GMCmRNA-1273 against the ancestral strain at Day 85 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=1418).||1.180|1.032|
82583876|NCT05249829|164879553|SUPERIORITY|Superiority was demonstrated if the lower bound of the 99% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.73|||||TWO_SIDED|99.0|1.493|2.005||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 29 after study vaccine administration.||2.005|1.493|
82583877|NCT05249829|164879553|SUPERIORITY|Superiority was demonstrated if the lower bound of the 96% CI of the Geometric Mean Ratio was \>1.|Geometric Mean Ratio|1.763|||||TWO_SIDED|96.0|1.546|2.01||||||Geometric Mean Ratio = GMCmRNA-1273.529/GMCmRNA-1273 against the B.1.1.529 strain at Day 85 after study vaccine administration. Reported statistical analysis based upon the number of participants with non-missing data at baseline and the corresponding timepoint (N=460).||2.010|1.546|
82583878|NCT02842827|164879639|OTHER|||||||0.3868|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.3868
82559239|NCT00910962|164828082|SUPERIORITY||test to reference ratio|1.03||||0.83|TWO_SIDED|95.0|0.8|1.32|||ANCOVA|||||1.32|0.80|0.83
82559240|NCT00910962|164828082|SUPERIORITY||test to reference ratio|1.08||||0.56|TWO_SIDED|95.0|0.84|1.39|||ANCOVA|||||1.39|0.84|0.56
82559241|NCT00910962|164828082|SUPERIORITY||test to reference ratio|1.05||||0.65|TWO_SIDED|95.0|0.84|1.32|||ANCOVA|||||1.32|0.84|0.65
82583879|NCT02842827|164879640|OTHER|||||||0.7744|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.7744
82583880|NCT02842827|164879641|OTHER|||||||0.508|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.5080
82583881|NCT02842827|164879642|OTHER|||||||0.6109|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.6109
82559242|NCT00910962|164828083|SUPERIORITY||Test to reference ratio|0.77||||0.04|TWO_SIDED|95.0|0.6|0.99|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 24 hours||0.99|0.60|0.040
82559243|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.66||||0.001|TWO_SIDED|95.0|0.52|0.85|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 24 hours||0.85|0.52|0.001
82559244|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.71||||0.003|TWO_SIDED|95.0|0.57|0.89|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 24 hours||0.89|0.57|0.003
82559245|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.56|||<|0.001|TWO_SIDED|95.0|0.4|0.78|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 48 hours||0.78|0.40|<0.001
82559246|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.47|||<|0.001|TWO_SIDED|95.0|0.33|0.65|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 48 hours||0.65|0.33|<0.001
82559247|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.51|||<|0.001|TWO_SIDED|95.0|0.38|0.69|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 48 hours||0.69|0.38|<0.001
82559248|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.68||||0.059|TWO_SIDED|95.0|0.45|1.01|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 72 hours||1.01|0.45|0.059
82559249|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.6||||0.013|TWO_SIDED|95.0|0.4|0.9|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 72 hours||0.90|0.40|0.013
82559250|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.64||||0.015|TWO_SIDED|95.0|0.45|0.92|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 72 hours||0.92|0.45|0.015
82559251|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.7||||0.073|TWO_SIDED|95.0|0.48|1.03|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 2||1.03|0.48|0.073
82559252|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.7||||0.075|TWO_SIDED|95.0|0.48|1.04|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 2||1.04|0.48|0.075
82559253|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.7||||0.044|TWO_SIDED|95.0|0.5|0.99|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 2||0.99|0.50|0.044
82559254|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.78||||0.157|TWO_SIDED|95.0|0.55|1.1|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 4||1.10|0.55|0.157
82559255|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.9||||0.548|TWO_SIDED|95.0|0.63|1.28|||ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 4||1.28|0.63|0.548
82559256|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.83||||0.253|TWO_SIDED|95.0|0.61|1.14|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 4||1.14|0.61|0.253
82583882|NCT02842827|164879643|OTHER|||||||0.1151|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.1151
82583883|NCT02842827|164879644|OTHER|||||||0.0791|||||||Kruskal-Wallis|p-value of the treatment effect was calculated between all dose arms with ≥3 participants||||||0.0791
82583884|NCT00882687|164879645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3235|||||||Wilcoxon rank-sum test|||||||0.3235
82583885|NCT00882687|164879645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9144|||||||Wilcoxon rank-sum test|||||||0.9144
82583886|NCT00882687|164879645|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3324|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.3324
82583887|NCT00882687|164879646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5846|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.5846
82488183|NCT03894046|164669397|NON_INFERIORITY|"Non-inferiority was concluded if the upper limit of the 2-sided 95% CI was less than +20%.~Superiority was concluded if the upper limit of the 2-sided 95% CI was less than 0."|Mean Difference (Final Values)|-13.2|||||TWO_SIDED|95.0|-30.0|3.5||||||The non-inferiority assessment was based on the 2-sided 95% CIs computed using a continuity-corrected Z-statistic for the difference (\[sulbactam-durlobactam + imipenem/cilastatin\] - \[colistin + imipenem/cilastatin\]) in 28-day all-cause mortality rates between the treatment groups.||3.5|-30|
82488184|NCT03894046|164669398|OTHER|||||||0.0002||||||p-value was obtained based on a Chi-Square test for treatment group differences.|Chi-squared|||Analysis of patients with nephrotoxicity as measured by RIFLE criteria at any post-baseline visit based on the Investigator's opinion for the Safety Population for Part A, excluding patients with chronic hemodialysis at baseline baseline.||||0.0002
82488185|NCT04806503|164669410|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.006|STANDARD_ERROR_OF_MEAN|0.0258||0.817|TWO_SIDED|95.0|-0.045|0.056|||Mixed-effect Model for Repeated Measures|||||0.056|-0.045|0.817
82488186|NCT04806503|164669410|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.002|STANDARD_ERROR_OF_MEAN|0.0262||0.946|TWO_SIDED|95.0|-0.05|0.053|||Mixed-effect Model for Repeated Measures|||||0.053|-0.050|0.946
82488187|NCT04806503|164669410|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|-0.024|STANDARD_ERROR_OF_MEAN|0.027||0.38|TWO_SIDED|95.0|-0.077|0.029|||Mixed-effect Model for Repeated Measures|||||0.029|-0.077|0.380
82559257|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.8||||0.204|TWO_SIDED|95.0|0.58|1.13|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 8||1.13|0.58|0.204
82583888|NCT00882687|164879646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1493|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.1493
82651848|NCT00096265|165018922|SUPERIORITY|Assuming the survival rate of the standard arm (MST = 5.9 months), then 49% of patients were expected to be alive at six months. Assuming steroid data would be available for 90% of these patients, results in a projection of 52 cases/arm with steroid data at 6 months. With this sample size, a two-sided 0.050 alpha test will have 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.1217.||||||0.51|||||||Chi-squared|||||||0.51
82559258|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.99||||0.965|TWO_SIDED|95.0|0.71|1.39|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 8||1.39|0.71|0.965
82651849|NCT00096265|165018922|SUPERIORITY|||||||0.56|||||||Chi-squared|||Assuming the survival rate of the standard arm (MST = 5.9 months), then 49% of patients were expected to be alive at six months. Assuming steroid data would be available for 90% of these patients, results in a projection of 52 cases/arm with steroid data at 6 months. With this sample size, a two-sided 0.050 alpha test will have 90% power to distinguish between the groups when the proportions in the 3 categories are characterized by an effect size, Δ² = Σ(π2j-π1j)2/\[2(π2j-π1j)\], of 0.1217.||||0.56
82488188|NCT04806503|164669410|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.011|STANDARD_ERROR_OF_MEAN|0.0258||0.667|TWO_SIDED|95.0|-0.039|0.062|||Mixed-effect Model for Repeated Measures|||||0.062|-0.039|0.667
82583889|NCT00882687|164879646|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0404|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.0404
82583890|NCT00882687|164879647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0578|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.0578
82583891|NCT00882687|164879647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8988|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.8988
82651850|NCT00096265|165018923|SUPERIORITY|||||||0.78|||||||Chi-squared|||A two group chi-square test with a 0.05 two-sided significance level would have 89% power to detect the difference between a proportion of 0.50 and a proportion of 0.30, or equivalently, of 0.70, when the sample size in each group is 120.||||0.78
82488189|NCT04806503|164669411|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.022|STANDARD_ERROR_OF_MEAN|0.0304||0.474|TWO_SIDED|95.0|-0.038|0.081|||Mixed-effect Model for Repeated Measures|||||0.081|-0.038|0.474
82488190|NCT04806503|164669411|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.025|STANDARD_ERROR_OF_MEAN|0.0309||0.419|TWO_SIDED|95.0|-0.036|0.086|||Mixed-effect Model for Repeated Measures|||||0.086|-0.036|0.419
82488191|NCT04806503|164669411|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.003|STANDARD_ERROR_OF_MEAN|0.0322||0.914||95.0|-0.06|0.067|||Mixed-effect Model for Repeated Measures|||||0.067|-0.060|0.914
82488192|NCT04806503|164669411|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.034|STANDARD_ERROR_OF_MEAN|0.0305||0.263|TWO_SIDED|95.0|-0.026|0.094|||Mixed-effect Model for Repeated Measures|||||0.094|-0.026|0.263
82488193|NCT04806503|164669412|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.029|STANDARD_ERROR_OF_MEAN|0.0273||0.284|TWO_SIDED|95.0|-0.024|0.083|||Mixed-effect Model for Repeated Measures|||||0.083|-0.024|0.284
82488194|NCT04806503|164669412|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.01|STANDARD_ERROR_OF_MEAN|0.0278||0.711|TWO_SIDED|95.0|-0.044|0.065|||Mixed-effect Model for Repeated Measures|||||0.065|-0.044|0.711
82488195|NCT04806503|164669412|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.005|STANDARD_ERROR_OF_MEAN|0.0284||0.871|TWO_SIDED|95.0|-0.051|0.06|||Mixed-effect Model for Repeated Measures|||||0.060|-0.051|0.871
82559259|NCT00910962|164828083|SUPERIORITY||test to reference ratio|0.89||||0.457|TWO_SIDED|95.0|0.66|1.2|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 8||1.20|0.66|0.457
82559260|NCT00910962|164828083|SUPERIORITY||test to reference ratio|1.58||||0.008|TWO_SIDED|95.0|1.13|2.22|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 14||2.22|1.13|0.008
82583892|NCT00882687|164879647|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4709|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4709
82583893|NCT00882687|164879648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1773|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.1773
82583894|NCT00882687|164879648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4222|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4222
82583895|NCT00882687|164879648|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4326|TWO_SIDED||||||Wilcoxon rank-sum test|||||||0.4326
82651851|NCT00096265|165018923|SUPERIORITY|||||||0.8|||||||Chi-squared|||A two group chi-square test with a 0.05 two-sided significance level would have 89% power to detect the difference between a proportion of 0.50 and a proportion of 0.30, or equivalently, of 0.70, when the sample size in each group is 120.||||0.80
82488196|NCT04806503|164669412|OTHER|Mixed-effect Model for Repeated Measures model-based two-sided t-test|Least Squares Mean|0.027|STANDARD_ERROR_OF_MEAN|0.0273||0.329|TWO_SIDED|95.0|-0.027|0.08|||Mixed-effect Model for Repeated Measures|||||0.080|-0.027|0.329
82488197|NCT04806503|164669413|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.95||||0.516|TWO_SIDED|95.0|0.083|10.847|||Multiple Imputation, Logistic Regression|||||10.847|0.083|0.516
82488198|NCT04806503|164669413|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|2.45||||0.177|TWO_SIDED|95.0|0.367|16.398|||Multiple Imputation, Logistic Regression|||||16.398|0.367|0.177
82488199|NCT04806503|164669413|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|3.65||||0.079|TWO_SIDED|95.0|0.604|22.094|||Multiple Imputation, Logistic Regression|||||22.094|0.604|0.079
82488200|NCT04806503|164669413|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|1.07||||0.476|TWO_SIDED|95.0|0.136|8.381|||Multiple Imputation, Logistic Regression|||||8.381|0.136|0.476
82488201|NCT04806503|164669414|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.87||||0.577|TWO_SIDED|95.0|0.201|3.726|||Multiple Imputation, Logistic Regression|||||3.726|0.201|0.577
82488202|NCT04806503|164669414|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.52||||0.804|TWO_SIDED|95.0|0.113|2.353|||Multiple Imputation, Logistic Regression|||||2.353|0.113|0.804
82488203|NCT04806503|164669414|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.34||||0.85|TWO_SIDED|95.0|0.045|2.602|||Multiple Imputation, Logistic Regression|||||2.602|0.045|0.850
82488204|NCT04806503|164669414|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.69||||0.684|TWO_SIDED|95.0|0.157|3.08|||Multiple Imputation, Logistic Regression|||||3.080|0.157|0.684
82488205|NCT04806503|164669415|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.56||||0.728|TWO_SIDED|95.0|0.089|3.593|||Multiple Imputation, Logistic Regression|||||3.593|0.089|0.728
82559261|NCT00910962|164828083|SUPERIORITY||test to reference ratio|1.69||||0.002|TWO_SIDED|95.0|1.21|2.38|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 14||2.38|1.21|0.002
82488206|NCT04806503|164669415|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|1.16||||0.428|TWO_SIDED|95.0|0.242|5.529|||Multiple Imputation, Logistic Regression|||||5.529|0.242|0.428
82488207|NCT04806503|164669415|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.0||||0.5|TWO_SIDED|95.0|0.0||NA when n = 1.||Multiple Imputation, Logistic Regression||||||0.000|0.500
82488208|NCT04806503|164669415|OTHER|Logistic model-based one-sided t-test|Odds Ratio (OR)|0.28||||0.851|TWO_SIDED|95.0|0.026|3.07|||Multiple Imputation, Logistic Regression|||||3.070|0.026|0.851
82651852|NCT01506323|165018924|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|Mixed-effects, repeated measures models adjusting for demographic factors were implemented.||This analysis is from baseline (week 0) to post-treatment (week 8). Cronbach's alpha for this study was .92 at baseline.||||<.006
82488209|NCT00734474|164669518|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategies.|LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.87|-0.55||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||"Power was estimated at approximately 89% based on a simulation study using the most likely pharmacodynamic model, assuming a 20% drop out rate (missing completely at random) at 52 weeks and enrollment of 5 participants per week. A predictive power calculation was planned to select either 263 or 333 as the minimum total sample size needed (sum of Stage 1 and 2) per arm. If the predictive power of the higher LY2189265 dose based on 263 participants in total exceeded 85%, then 263 would be used."||-0.55|-0.87|<0.001
82488210|NCT00734474|164669518|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying a gatekeeping strategy.|LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.31||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||"Power was estimated at approximately 89% based on a simulation study using the most likely pharmacodynamic model, assuming a 20% drop out rate (missing completely at random) at 52 weeks and enrollment of 5 participants per week. A predictive power calculation was planned to select either 263 or 333 as the minimum total sample size needed (sum of Stage 1 and 2) per arm. If the predictive power of the higher LY2189265 dose based on 263 participants in total exceeded 85%, then 263 would be used."||-0.31|-0.63|<0.001
82488211|NCT00734474|164669518|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.71|||<|0.001|TWO_SIDED|95.0|-0.87|-0.55||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.55|-0.87|<0.001
82488212|NCT00734474|164669518|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.63|-0.31||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.31|-0.63|<0.001
82488213|NCT00734474|164669520|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.26|||<|0.001|TWO_SIDED|95.0|-1.42|-1.09||Comparison at 26 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-1.09|-1.42|<0.001
82488214|NCT00734474|164669520|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.21|-0.88||Comparison at 26 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.88|-1.21|<0.001
82488215|NCT00734474|164669520|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.64|||<|0.001|TWO_SIDED|95.0|-0.81|-0.48||Comparison at 26 weeks. One-sided raw p-value with no adjustment for multiplicity.|ANCOVA|||||-0.48|-0.81|<0.001
82559262|NCT00910962|164828083|SUPERIORITY||test to reference ratio|1.64||||0.001|TWO_SIDED|95.0|1.21|2.21|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 14||2.21|1.21|0.001
82559263|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.54|||<|0.001|TWO_SIDED|95.0|0.43|0.69|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 24 hours||0.69|0.43|<0.001
82488216|NCT00734474|164669520|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying a gatekeeping strategy.|LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.50|-0.84|<0.001
82651853|NCT01506323|165018924|SUPERIORITY_OR_OTHER||repeated measures||||<|0.031|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using false discovery rate.|Mixed Models Analysis|This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.||This analysis is from baseline (week 0) to 2 months follow-up.||||<.031
82651854|NCT01506323|165018925|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED|||||The p-value is based on false discovery rate adjustment for multiple comparisons.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .86 at baseline.||||0.82
82651855|NCT01506323|165018925|SUPERIORITY_OR_OTHER|||||||0.82|ONE_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2 months post-treatment.||||0.82
82488217|NCT00734474|164669520|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate controlled by applying gatekeeping strategy.|LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.56|-0.22||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.22|-0.56|<0.001
82488218|NCT00734474|164669520|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.67|||<|0.001|TWO_SIDED|95.0|-0.84|-0.5||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.50|-0.84|<0.001
82559264|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.5|0.82|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 24 hours||0.82|0.50|<0.001
82559265|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.59|||<|0.001|TWO_SIDED|95.0|0.48|0.73|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 24 hours||0.73|0.48|<0.001
82559266|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.76||||0.031|TWO_SIDED|95.0|0.59|0.98|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 2||0.98|0.59|0.031
82559267|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.88||||0.315|TWO_SIDED|95.0|0.68|1.13|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 2||1.13|0.68|0.315
82559268|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.82||||0.075|TWO_SIDED|95.0|0.65|1.02|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 2||1.02|0.65|0.075
82651856|NCT01506323|165018926|SUPERIORITY_OR_OTHER||||||<|0.008|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .85 at baseline.||||<0.008
82651857|NCT01506323|165018926|SUPERIORITY_OR_OTHER||||||<|0.09|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2 months post-treatment||||<0.09
82651858|NCT01506323|165018927|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .78 at baseline.||||<.006
82651859|NCT01506323|165018927|SUPERIORITY_OR_OTHER||||||<|0.03|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to 2 months post-treatment.||||<.03
82488219|NCT00734474|164669520|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|||<|0.001|TWO_SIDED|95.0|-0.56|-0.22||Comparison at 104 weeks. P-value adjusted for multiplicity based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis||-0.22|-0.56|<0.001
82488220|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.89|||<|0.001|TWO_SIDED|95.0|-2.27|-1.51|||Mixed Models Analysis|Comparison at 26 weeks.||||-1.51|-2.27|<0.001
82488221|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.48|||<|0.001|TWO_SIDED|95.0|-1.85|-1.1||Comparison at 26 weeks.|Mixed Models Analysis|||||-1.10|-1.85|<0.001
82559269|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.81||||0.068|TWO_SIDED|95.0|0.65|1.02|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||1.02|0.65|0.068
82559270|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.97||||0.824|TWO_SIDED|95.0|0.78|1.22|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||1.22|0.78|0.824
82559271|NCT00910962|164828084|SUPERIORITY||test to reference ratio|0.89||||0.246|TWO_SIDED|95.0|0.73|1.09|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||1.09|0.73|0.246
82559272|NCT00910962|164828085|SUPERIORITY||test to reference ratio|1.04||||0.66|TWO_SIDED|95.0|0.89|1.21|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For 72 hours||1.21|0.89|0.66
82559273|NCT00910962|164828085|SUPERIORITY||test to reference ratio|1.07||||0.39|TWO_SIDED|95.0|0.92|1.25|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For 72 hours||1.25|0.92|0.39
82559274|NCT00910962|164828085|SUPERIORITY||test to reference ratio|1.05||||0.47|TWO_SIDED|95.0|0.92|1.21|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For 72 hours||1.21|0.92|0.47
82559275|NCT00910962|164828086|SUPERIORITY||test to reference ratio|0.99||||0.92|TWO_SIDED|95.0|0.78|1.25|||Repeated measures ANCOVA|||||1.25|0.78|0.92
82559276|NCT00910962|164828086|SUPERIORITY||test to reference ratio|1.08||||0.52|TWO_SIDED|95.0|0.85|1.36|||Repeated measures ANCOVA|||||1.36|0.85|0.52
82559277|NCT00910962|164828086|SUPERIORITY||test to reference ratio|1.03||||0.76|TWO_SIDED|95.0|0.84|1.27|||Repeated measures ANCOVA|||||1.27|0.84|0.76
82651860|NCT01506323|165018928|SUPERIORITY_OR_OTHER||||||<|0.0008|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|repeated measures|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .89 at baseline.||||<0.0008
82651861|NCT01506323|165018928|SUPERIORITY_OR_OTHER||||||<|0.006|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Wilcoxon (Mann-Whitney)|||This analysis is from baseline to 2 months post-treatment.||||<0.006
82651862|NCT01506323|165018929|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing. Raw p-value was \<0.02.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for total score in this study was .86 at baseline.||||<0.10
82651863|NCT01506323|165018929|SUPERIORITY_OR_OTHER||||||<|0.49|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment.||||<0.49
82651864|NCT01506323|165018930|SUPERIORITY_OR_OTHER||||||<|0.78|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .96 at baseline.||||<0.78
82651865|NCT01506323|165018930|SUPERIORITY_OR_OTHER||||||<|0.99|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.99
82651866|NCT01506323|165018931|SUPERIORITY_OR_OTHER||||||<|0.04|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis was from baseline to post-treatment. Cronbach's alpha for this study was .92 at baseline.||||<0.04
82651867|NCT01506323|165018931|SUPERIORITY_OR_OTHER||||||<|0.25|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.25
82651868|NCT01506323|165018932|SUPERIORITY_OR_OTHER||||||<|0.99|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .89 at baseline.||||<0.99
82651869|NCT01506323|165018932|SUPERIORITY_OR_OTHER||||||<|0.94|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.94
82651870|NCT01506323|165018933|SUPERIORITY_OR_OTHER||||||<|0.12|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for this study was .88 at baseline.||||<0.12
82651871|NCT01506323|165018933|SUPERIORITY_OR_OTHER||||||<|0.49|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to 2-months post-treatment.||||<0.49
82651872|NCT01506323|165018934|SUPERIORITY_OR_OTHER||||||<|0.59|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|||This analysis is from baseline to post-treatment. Cronbach's alpha for total score was .89 at baseline.||||<0.59
82559278|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.93||||0.57|TWO_SIDED|95.0|0.72|1.2|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For discharge/early withdrawal||1.20|0.72|0.57
82559279|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.92||||0.52|TWO_SIDED|95.0|0.72|1.18|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For discharge/early withdrawal||1.18|0.72|0.52
82559280|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.92||||0.5|TWO_SIDED|95.0|0.74|1.16|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For discharge/early withdrawal||1.16|0.74|0.50
82651873|NCT01506323|165018934|SUPERIORITY_OR_OTHER||||||<|0.1|TWO_SIDED|||||This p-value is based on a false discovery rate adjustment for multiple hypothesis testing.|Mixed Models Analysis|Mixed-effects, repeated measures models adjusting for demographic factors were implemented.||This analysis is from baseline to 2-months post-treatment.||||<0.10
82651874|NCT01075763|165018950|SUPERIORITY_OR_OTHER|||||||0.64|||||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.64
82651875|NCT01075763|165018950|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.92
82651876|NCT01075763|165018951|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.63
82651877|NCT01075763|165018951|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.74
82651878|NCT01075763|165018952|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.45
82651879|NCT01075763|165018952|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.88
82651880|NCT01075763|165018952|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.68
82651881|NCT01075763|165018952|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.81
82651882|NCT01075763|165018953|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.29
82651883|NCT01075763|165018953|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||For Week 12: the difference between the two groups was analyzed using t-test.||||0.36
82559281|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.73||||0.03|TWO_SIDED|95.0|0.55|0.96|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||0.96|0.55|0.03
82559282|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.81||||0.14|TWO_SIDED|95.0|0.61|1.07|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||1.07|0.61|0.14
82559283|NCT00910962|164828087|SUPERIORITY||test to reference ratio|0.76||||0.04|TWO_SIDED|95.0|0.6|0.98|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||0.98|0.60|0.04
82559284|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-1.92||||0.254|TWO_SIDED|95.0|-5.25|1.41|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Day 3-5 (visit 1)||1.41|-5.25|0.254
82559285|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-2.84||||0.106|TWO_SIDED|95.0|-6.29|0.62|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Day 3-5 (visit 1)||0.62|-6.29|0.106
82559286|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-2.38||||0.126|TWO_SIDED|95.0|-5.44|0.69|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Day 3-5 (visit 1)||0.69|-5.44|0.126
82559287|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-1.91||||0.184|TWO_SIDED|95.0|-4.74|0.92|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For Week 12||0.92|-4.74|0.184
82559288|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-2.47||||0.093|TWO_SIDED|95.0|-5.37|0.43|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For Week 12||0.43|-5.37|0.093
82559289|NCT00910962|164828088|SUPERIORITY||Mean Difference (Final Values)|-2.19||||0.096|TWO_SIDED|95.0|-4.78|0.4|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For Week 12||0.40|-4.78|0.096
82559290|NCT00910962|164828089|SUPERIORITY||Mean Difference (Final Values)|4.22||||0.124|TWO_SIDED|95.0|-1.18|9.62|||Repeated measures ANCOVA|||||9.62|-1.18|0.124
82559291|NCT00910962|164828089|SUPERIORITY||Mean Difference (Final Values)|6.05||||0.029|TWO_SIDED|95.0|0.63|11.47|||Repeated measures ANCOVA|||||11.47|0.63|0.029
82559292|NCT00910962|164828089|SUPERIORITY||Mean Difference (Final Values)|5.14||||0.039|TWO_SIDED|95.0|0.28|10.0|||Repeated measures ANCOVA|||||10.00|0.28|0.039
82559293|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-21.53||||0.025|TWO_SIDED|95.0|-40.27|-2.79|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For LVEDV||-2.79|-40.27|0.025
82559294|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-18.65||||0.053|TWO_SIDED|95.0|-37.58|0.29|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For LVEDV||0.29|-37.58|0.053
82559295|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-20.09||||0.021|TWO_SIDED|95.0|-37.01|-3.18|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For LVEDV||-3.18|-37.01|0.021
82559296|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-15.82||||0.024|TWO_SIDED|95.0|-29.51|-2.14|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 7.5 mg (A): For LVESV||-2.14|-29.51|0.024
82559297|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-17.22||||0.016|TWO_SIDED|95.0|-31.14|-3.29|||Repeated measures ANCOVA|||Placebo (P) vs Losmapimod 15 mg followed by Losmapimod 7.5 mg (B): For LVESV||-3.29|-31.14|0.016
82583896|NCT02649946|164879652|SUPERIORITY|TLPP evaluated at 6 months post-index procedure to assess if TLPP of COVERA is superior to that of PTA alone, by direct comparison.|||||<|0.001||||||Test successful if the one-side p-value is less than 0.025 and the result is in favor of the COVERA Vascular Covered Stent.|Chi-squared|||"Hypothesis: The (survival) rate in subjects treated with the COVERA Vascular Covered Stent (following PTA) with respect to TLPP through 6 months is greater than that in subjects treated with PTA alone in the treatment of stenoses in the upper extremity venous outflow of subjects dializing with an AV fistula.~Sample size calculation: 238 randomized subjects \[214 evaluable\] will give 92% power with one-sided type 1 error = 0.025."||||<0.001
82651884|NCT01075763|165018953|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.68
82651885|NCT01075763|165018953|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.41
82559298|NCT00910962|164828090|SUPERIORITY||Mean Difference (Final Values)|-16.52||||0.01|TWO_SIDED|95.0|-28.91|-4.13|||Repeated measures ANCOVA|||Placebo (P) vs A and B Combined (C): For LVESV||-4.13|-28.91|0.010
82559299|NCT00910962|164828091|SUPERIORITY||Mean Difference (Final Values)|-22.21||||0.109|TWO_SIDED|95.0|-49.51|5.09|||Repeated measures ANCOVA|||||5.09|-49.51|0.109
82559300|NCT00910962|164828091|SUPERIORITY||Mean Difference (Final Values)|-7.13||||0.614|TWO_SIDED|95.0|-35.22|20.96|||Repeated measures ANCOVA|||||20.96|-35.22|0.614
82559301|NCT00910962|164828091|SUPERIORITY||Mean Difference (Final Values)|-14.67||||0.243|TWO_SIDED|95.0|-39.52|10.18|||Repeated measures ANCOVA|||||10.18|-39.52|0.243
82559302|NCT00910962|164828092|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.023|TWO_SIDED|95.0|-0.44|-0.03|||Repeated measures ANCOVA|||||-0.03|-0.44|0.023
82559303|NCT00910962|164828092|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.021|TWO_SIDED|95.0|-0.45|-0.04|||Repeated measures ANCOVA|||||-0.04|-0.45|0.021
82559304|NCT00910962|164828092|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.011|TWO_SIDED|95.0|-0.42|-0.06|||Repeated measures ANCOVA|||||-0.06|-0.42|0.011
82559305|NCT00910962|164828093|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.137|TWO_SIDED|95.0|-0.26|0.04|||Repeated measures ANCOVA|||||0.04|-0.26|0.137
82559306|NCT00910962|164828093|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.036|TWO_SIDED|95.0|-0.32|-0.01|||Repeated measures ANCOVA|||||-0.01|-0.32|0.036
82559307|NCT00910962|164828093|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.047|TWO_SIDED|95.0|-0.28|0.0|||Repeated measures ANCOVA|||||-0.00|-0.28|0.047
82559308|NCT02356198|164828199|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82559309|NCT02356198|164828200|SUPERIORITY|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||||||0.102
82559310|NCT02356198|164828201|SUPERIORITY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
82559311|NCT02356198|164828202|SUPERIORITY|||||||0.454|||||||Chi-squared|||||||0.454
82559312|NCT02356198|164828203|SUPERIORITY|||||||0.212|||||||Fisher Exact|||||||0.212
82559313|NCT00087022|164828205|SUPERIORITY|||||||0.737|||||||Log Rank|||||||0.737
82559314|NCT00087022|164828206|SUPERIORITY|||||||1.012|||||||Log Rank|||||||1.012
82559315|NCT00087022|164828209|SUPERIORITY|||||||0.022|||||||Log Rank|||||||0.022
82559316|NCT02060487|164828217|NON_INFERIORITY|Non-inferiority of sildenafil 20 mg TID versus sildenafil 5 mg TID was to be concluded if the upper limit of the 99.7% confidence interval (CI) for hazard ratio (HR) was less than 2.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|99.7|0.31|1.49|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.49|0.31|
82559317|NCT02060487|164828217|NON_INFERIORITY|Non-inferiority of sildenafil 80 mg TID vs. sildenafil 5 mg TID was to be concluded if the upper limit of the 99.7% CI for HR was less than 2.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|99.7|0.22|1.21|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.21|0.22|
82559318|NCT02060487|164828217|NON_INFERIORITY|Non-inferiority of sildenafil 80 mg TID vs. sildenafil 20 mg TID was to be concluded if the upper limit of the 99.7% CI for HR is less than 2.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|99.7|0.3|1.84|||||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.84|0.30|
82488222|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.48||||0.012|TWO_SIDED|95.0|-0.86|-0.11||Comparison at 26 weeks.|Mixed Models Analysis|||||-0.11|-0.86|0.012
82488223|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.47|||<|0.001|TWO_SIDED|95.0|-1.82|-1.13||Comparison at 52 weeks.|Mixed Models Analysis|||||-1.13|-1.82|<0.001
82488224|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73|||<|0.001|TWO_SIDED|95.0|-1.07|-0.39||Comparison at 52 weeks.|Mixed Models Analysis|||||-0.39|-1.07|<0.001
82488225|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.51|||<|0.001|TWO_SIDED|95.0|-1.93|-1.1||Comparison at 104 weeks.|Mixed Models Analysis|||||-1.10|-1.93|<0.001
82488226|NCT00734474|164669522|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.92|||<|0.001|TWO_SIDED|95.0|-1.33|-0.51||Comparison at 104 weeks.|Mixed Models Analysis|||||-0.51|-1.33|<0.001
82488227|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|18.51||||0.095|TWO_SIDED|95.0|-3.25|40.28||Comparison at 26 weeks.|Mixed Models Analysis|||||40.28|-3.25|0.095
82488228|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|17.08||||0.121|TWO_SIDED|95.0|-4.54|38.69||Comparison at 26 weeks.|Mixed Models Analysis|||||38.69|-4.54|0.121
82488229|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|15.41||||0.167|TWO_SIDED|95.0|-6.47|37.29||Comparison at 26 weeks.|Mixed Models Analysis|||||37.29|-6.47|0.167
82559319|NCT02060487|164828218|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.035|TWO_SIDED|99.7|0.33|1.21|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.21|0.33|0.035
82559320|NCT02060487|164828218|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|99.7|0.22|0.89|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||0.89|0.22|<0.001
82651886|NCT01075763|165018954|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.86
82651887|NCT01075763|165018954|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.62
82488230|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|6.38||||0.43|TWO_SIDED|95.0|-9.49|22.26||Comparison at 52 weeks.|Mixed Models Analysis|||||22.26|-9.49|0.430
82488231|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|8.77||||0.273|TWO_SIDED|95.0|-6.94|24.47||Comparison at 52 weeks.|Mixed Models Analysis|||||24.47|-6.94|0.273
82488232|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|11.07||||0.291|TWO_SIDED|95.0|-9.49|31.64||Comparison at 104 weeks.|Mixed Models Analysis|||||31.64|-9.49|0.291
82488233|NCT00734474|164669523|SUPERIORITY_OR_OTHER||LS Mean Difference|21.28||||0.039|TWO_SIDED|95.0|1.03|41.53||Comparison at 104 weeks.|Mixed Models Analysis|||||41.53|1.03|0.039
82559321|NCT02060487|164828218|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.195|TWO_SIDED|99.7|0.34|1.52|||Wald test||Hazard ratio estimated from the Proportional Hazards model, stratified by actual previous PAH treatment and etiology of PAH.|||1.52|0.34|0.195
82559322|NCT02060487|164828219|SUPERIORITY||Least-squares means difference|15.0||||0.0627|TWO_SIDED|95.0|-0.8|30.81|||MMRM|||||30.81|-0.80|0.0627
82559323|NCT02060487|164828219|SUPERIORITY||Least-squares means difference|18.9||||0.0201|TWO_SIDED|95.0|2.99|34.86|||MMRM|||||34.86|2.99|0.0201
82559324|NCT02060487|164828219|SUPERIORITY||Least-squares means difference|3.9||||0.6254|TWO_SIDED|95.0|-11.85|19.68|||MMRM|||||19.68|-11.85|0.6254
82559325|NCT02060487|164828220|SUPERIORITY||Least-squares means difference|21.3||||0.0286|TWO_SIDED|95.0|2.25|40.45|||MMRM|||||40.45|2.25|0.0286
82488234|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.27|-1.14||Comparison at 26 weeks.|ANCOVA|||||-1.14|-2.27|<0.001
82488235|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.16|||<|0.001|TWO_SIDED|95.0|-1.73|-0.6||Comparison at 26 weeks.|ANCOVA|||||-0.60|-1.73|<0.001
82488236|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.953|TWO_SIDED|95.0|-0.54|0.58||Comparison at 26 weeks.|ANCOVA|||||0.58|-0.54|0.953
82488237|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|||<|0.001|TWO_SIDED|95.0|-2.08|-0.92||Comparison at 52 weeks.|ANCOVA|||||-0.92|-2.08|<0.001
82488238|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.65|-0.48||Comparison at 52 weeks.|ANCOVA|||||-0.48|-1.65|<0.001
82488239|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.14|||<|0.001|TWO_SIDED|95.0|-1.78|-0.49||Comparison at 104 weeks.|ANCOVA|||||-0.49|-1.78|<0.001
82488240|NCT00734474|164669525|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.64||||0.054|TWO_SIDED|95.0|-1.29|0.01||Comparison at 104 weeks.|ANCOVA|||||0.01|-1.29|0.054
82488241|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.69|||<|0.001|TWO_SIDED|95.0|-2.45|-0.93||Comparison at 26 weeks.|Mixed Models Analysis|||||-0.93|-2.45|<0.001
82488242|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.58||||0.133|TWO_SIDED|95.0|-1.34|0.18||Comparison at 26 weeks.|Mixed Models Analysis|||||0.18|-1.34|0.133
82488243|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.512|TWO_SIDED|95.0|-1.01|0.5||Comparison at 26 weeks.|Mixed Models Analysis|||||0.50|-1.01|0.512
82488244|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.46|||<|0.001|TWO_SIDED|95.0|-2.23|-0.69||Comparison at 52 weeks.|Mixed Models Analysis|||||-0.69|-2.23|<0.001
82488245|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59||||0.128|TWO_SIDED|95.0|-1.36|0.17||Comparison at 52 weeks.|Mixed Models Analysis|||||0.17|-1.36|0.128
82488246|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.36||||0.005|TWO_SIDED|95.0|-2.3|-0.42||Comparison at 104 weeks.|Mixed Models Analysis|||||-0.42|-2.30|0.005
82488247|NCT00734474|164669527|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54||||0.256|TWO_SIDED|95.0|-1.48|0.4||Comparison at 104 weeks.|Mixed Models Analysis|||||0.40|-1.48|0.256
82488248|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.3|||<|0.001|TWO_SIDED|95.0|6.8|18.8||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||18.8|6.8|<0.001
82488249|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.6|||<|0.001|TWO_SIDED|95.0|5.2|14.3||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||14.3|5.2|<0.001
82488250|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|1.8|4.8||Comparison of HbA1c \<7.0% at 26 weeks.|Regression, Logistic|||||4.8|1.8|<0.001
82488251|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0|||<|0.001|TWO_SIDED|95.0|2.7|5.9||Comparison of HbA1c \<7.0% at 52 weeks.|Regression, Logistic|||||5.9|2.7|<0.001
82488252|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|95.0|1.8|3.9||Comparison of HbA1c \<7.0% at 52 weeks.|Regression, Logistic|||||3.9|1.8|<0.001
82488253|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.4|||<|0.001|TWO_SIDED|95.0|2.4|5.0||Comparison of HbA1c \<7.0% at 104 weeks.|Regression, Logistic|||||5.0|2.4|<0.001
82488254|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.6|3.3||Comparison of HbA1c \<7.0% at 104 weeks.|Regression, Logistic|||||3.3|1.6|<0.001
82488255|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.5|||<|0.001|TWO_SIDED|95.0|6.5|20.4||Comparison of HbA1c ≤6.5% at 26 weeks.|Regression, Logistic|||||20.4|6.5|<0.001
82488256|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.001|TWO_SIDED|95.0|2.8|8.8||Comparison of HbA1c ≤6.5% at 26 weeks.|Regression, Logistic|||||8.8|2.8|<0.001
82488257|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.005|TWO_SIDED|95.0|1.3|4.1||Comparison of HbA1c ≤6.5 at 26 weeks.|Regression, Logistic|||||4.1|1.3|0.005
82559326|NCT02060487|164828220|SUPERIORITY||Least-squares means difference|20.5||||0.0364|TWO_SIDED|95.0|1.3|39.65|||MMRM|||||39.65|1.30|0.0364
82559327|NCT02060487|164828220|SUPERIORITY||Least-squares means difference|-0.9||||0.9283|TWO_SIDED|95.0|-19.94|18.19|||MMRM|||||18.19|-19.94|0.9283
82559328|NCT02542943|164828256|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.13||||0.435|TWO_SIDED|95.0|-0.4|0.134||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. For the Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment. For Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|||0.134|-0.400|0.4350
82651888|NCT01075763|165018954|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.21
82651889|NCT01075763|165018955|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.95
82559329|NCT02542943|164828256|SUPERIORITY_OR_OTHER||LS mean difference|0.07||||0.7605|TWO_SIDED|95.0|-0.192|0.34||From ANCOVA model with treatment as factor and baseline Schiff score as covariate. For the Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment. For Week 8 comparisons of the two test groups against the control group, Dunnett's multiplicity adjustment is applied.|||0.340|-0.192|0.7605
82651890|NCT01075763|165018955|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.73
82651891|NCT01075763|165018955|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.30
82488258|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.001|TWO_SIDED|95.0|2.9|6.8||Comparison of HbA1c ≤6.5% at 52 weeks.|Regression, Logistic|||||6.8|2.9|<0.001
82488259|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.5|3.5||Comparison of HbA1c ≤6.5% at 52 weeks.|Regression, Logistic|||||3.5|1.5|<0.001
82488260|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.2|||<|0.001|TWO_SIDED|95.0|3.4|7.9||Comparison of HbA1c ≤6.5% at 104 weeks.|Regression, Logistic|||||7.9|3.4|<0.001
82488261|NCT00734474|164669528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.5|3.7||Comparison of HbA1c ≤6.5% at 104 weeks.|Regression, Logistic|||||3.7|1.5|<0.001
82488262|NCT00942448|164669571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.2|||<|0.001|||||||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||||< 0.001
82488263|NCT00942448|164669571|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1||||0.001|TWO_SIDED|95.0|18.4|31.7|||ANCOVA|||||31.7|18.4|0.001
82488264|NCT00942448|164669584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.2|||<|0.001|TWO_SIDED|95.0|17.6|30.8|||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||30.8|17.6|< 0.001
82488265|NCT00942448|164669584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.1|||<|0.001|TWO_SIDED|95.0|18.4|31.7|||ANCOVA|||"The sample size calculation was based on a hypothesis of superiority of diclofenac HPBCD s.c. 25mg/ml and 50 mg/ml compared to Placebo with regard to the primary efficacy variable (PID at 1.5 hours following drug administration).~A sample size of 60 in each group had 95% power to detect a difference between diclofenac HPBCD s.c. 25 mg/ml and placebo in means of 15 mm, assuming that the common standard deviation was 22.5 and using a two group t-test with a 0.05 two-sided significance level."||31.7|18.4|<0.001
82488266|NCT03089320|164669585|SUPERIORITY||posterior mean proportion of abstinence|9.12|||||TWO_SIDED|95.0|0.08|31.68|||||The lower and upper limits are credible intervals.|Bayesian analysis was performed, therefore p value is not reported. Bayes factor has been reported instead.||31.68|0.08|
82559330|NCT02542943|164828257|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.0873|TWO_SIDED|95.0|-0.445|0.031||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.031|-0.445|0.0873
82651892|NCT01075763|165018957|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.80
82488267|NCT03089320|164669586|SUPERIORITY||posterior mean proportion of abstinence|5.5|||||TWO_SIDED|95.0|0.17|18.23|||||The lower and upper limits are credible intervals.|Bayesian analysis was performed, therefore p value is not reported. Bayes factor has been reported instead.||18.23|0.17|
82488268|NCT03089320|164669587|SUPERIORITY||Mean Difference (Final Values)|-4.32|STANDARD_ERROR_OF_MEAN|2.84||0.05|TWO_SIDED|95.0|-9.97|1.34|||Mixed Models Analysis|||mixed effects model||1.34|-9.97|.05
82488269|NCT00785928|164669615|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||This is p-value for the fitted ACR50 response rate and is based on the dose-response regression model and comes from the joint test of linear and quadratic dose response (response=dose+dose\^2) from the likelihood ratio test.|Linear-quadratic regression model|||||||0.059
82488270|NCT00785928|164669615|SUPERIORITY_OR_OTHER||ED95|119.0||||0.042||95.0||||This is the p-value for the estimated dose level of the smallest dose, in milligrams (mg), that achieves at least 95% of the maximal efficacy (ED95) and is based on the comparisons that the ED95 yields a higher fitted response rate than placebo.|Linear-quadratic regression model|This is ED95 in mg.||||||0.042
82488271|NCT00785928|164669616|SUPERIORITY_OR_OTHER|||||||0.044||95.0||||This is the p-value for the fitted ACR20 response rate and is based on the dose-response regression model and comes from the joint test of linear and quadratic dose response (response=dose+dose\^2) from the likelihood ratio test.|Linear-quadratic regression model|||||||0.044
82488272|NCT00785928|164669616|SUPERIORITY_OR_OTHER||ED95|118.5||||0.005||95.0||||This p-value is for estimated dose level of the smallest dose, in milligrams (mg), that achieves at least 95% of the maximal efficacy (ED95) of the ACR20 and is based on the comparisons that the ED95 yields a higher fitted response rate than placebo.|Linear-quadratic regression model|This is the ED95 in mg.||||||0.005
82488273|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.623||95.0||||Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.623
82559331|NCT02542943|164828258|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.4921|TWO_SIDED|95.0|-0.27|0.13||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.130|-0.270|0.4921
82559332|NCT02542943|164828258|SUPERIORITY_OR_OTHER||LS mean difference|0.02||||0.8728|TWO_SIDED|95.0|-0.183|0.216||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.216|-0.183|0.8728
82559333|NCT02542943|164828258|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.4003|TWO_SIDED|95.0|-0.287|0.115||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.115|-0.287|0.4003
82651893|NCT01075763|165018957|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.74
82583897|NCT02649946|164879653|NON_INFERIORITY|Non-inferiority Farrington and Manning Exact Test is used to test the primary safety hypothesis. The test is successful if the one-sided p-value is less than 0.025.||||||0.0022|||||||Farrington and Manning|Non-inferiority test with non-inferiority margin of 10%.||"Hypothesis: The safety rate in subjects treated with the COVERA Vascular Covered Stent (following PTA) is non-inferior to the safety rate in subjects treated with PTA alone through 30 days in the treatment of stenotic lesions.~Sample size: 238 randomized subjects \[226 evaluable\] will give 85% power with one-sided type 1 error = 0.025."||||0.0022
82651894|NCT01075763|165018957|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.12
82488274|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.160
82488275|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.568
82488276|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.633||95.0||||Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.633
82488277|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.754||95.0||||Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.754
82488278|NCT00785928|164669617|SUPERIORITY_OR_OTHER|||||||0.289||95.0||||Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.289
82488279|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.671||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.671
82488280|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.696||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.696
82559334|NCT02542943|164828259|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.8106|TWO_SIDED|95.0|0.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|0.000|0.8106
82559335|NCT02542943|164828259|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1656|TWO_SIDED|95.0|-5.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|-5.000|0.1656
82651895|NCT01075763|165018958|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||t-test, 2 sided|||For baseline: the difference between the two groups was analyzed using t-test.||||0.53
82488281|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.367||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.367
82488282|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.645||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.645
82488283|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.944
82488284|NCT00785928|164669618|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.133
82488285|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||Pairwise comparison (1-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.457
82488286|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||Pairwise comparison (1-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.874
82488287|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||Pairwise comparison (1-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.278
82488288|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.357||95.0||||Pairwise comparison (1-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.357
82488289|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.271||95.0||||Pairwise comparison (1-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.271
82488290|NCT00785928|164669619|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||Pairwise comparison (1-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.048
82488291|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||This p-value is from 2-sided comparison of 1 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||0.875
82488292|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||1||95.0||||This p-value is from 2-sided comparison of 3 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||1.000
82559336|NCT02542943|164828259|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.1419|TWO_SIDED|95.0|0.0|5.0|||Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.1419
82488293|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||1||95.0||||This p-value is from 2-sided comparison of 10 mg LY2127399 versus placebo using Fisher's exact test for the 3 levels of EULAR response (good, moderate, no).|Fisher Exact|||||||1.000
82488294|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||This p-value is from a 2-sided comparison of 30 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.304
82488295|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||0.489||95.0||||This p-value is from a 2-sided comparison of 60 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.489
82488296|NCT00785928|164669620|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||This p-value is from a 2-sided comparison of 120 mg LY2127399 versus placebo using a Chi-square test for the 3 levels of EULAR response (good, moderate, no).|Chi-squared|||||||0.091
82488297|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.746
82488298|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.393
82488299|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.549||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.549
82488300|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.619||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.619
82488301|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.893||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.893
82488302|NCT00785928|164669621|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.066
82488303|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.583
82559337|NCT02542943|164828260|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.5631|TWO_SIDED|95.0|0.0|5.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.5631
82559338|NCT02542943|164828260|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.8423|TWO_SIDED|95.0|0.0|0.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||0.000|0.000|0.8423
82559339|NCT02542943|164828260|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.0||||0.439|TWO_SIDED|95.0|0.0|5.0||From Van Elteren test.|Van Elteren test||Median difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment. From non-parametric Hodges-Lehmann estimations.|||5.000|0.000|0.4390
82559340|NCT02542943|164828261|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.517|TWO_SIDED|95.0|-0.611|0.308||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.308|-0.611|0.5170
82559341|NCT02542943|164828261|SUPERIORITY_OR_OTHER||LS mean difference|0.17||||0.4538|TWO_SIDED|95.0|-0.284|0.633||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.633|-0.284|0.4538
82559342|NCT02542943|164828261|SUPERIORITY_OR_OTHER||LS mean difference|-0.33||||0.1663|TWO_SIDED|95.0|-0.788|0.136||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.136|-0.788|0.1663
82559343|NCT02542943|164828262|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.7137|TWO_SIDED|95.0|-0.661|0.453||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.453|-0.661|0.7137
82583898|NCT02079610|164879712|SUPERIORITY||Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|3.93|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82559344|NCT02542943|164828262|SUPERIORITY_OR_OTHER||LS mean difference|0.1||||0.7353|TWO_SIDED|95.0|-0.46|0.651||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.651|-0.460|0.7353
82559345|NCT02542943|164828262|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.4843|TWO_SIDED|95.0|-0.76|0.361||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate.|ANCOVA||From ANCOVA model with treatment and baseline Schiff stratification as factors and baseline VRS as covariate. Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.361|-0.760|0.4843
82559346|NCT05986617|164828308|SUPERIORITY|||||||0.06429||||||2-tail t-test with non-equivalent variances|t-test, 2 sided|||Power calculation: 2 factor (group, time) ANOVA design with a group\*time interaction term to estimate the proposed sample size. Using a Cohen's effect size estimate for 2 groups with 5 time-points, a sample size of 40 per group will provide \>90% to detect a moderate effect size (0.25) for group, for time and for the group\*time interaction.||||.06429
82559347|NCT00768716|164828388|OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82559348|NCT00768716|164828389|OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82559349|NCT00768716|164828390|OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||||||0.06
82583899|NCT02079610|164879713|SUPERIORITY||Mean Difference (Final Values)|8.2|STANDARD_DEVIATION|5.2||0.03|TWO_SIDED||||||Mixed Models Analysis|||||||0.03
82488304|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.311||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.311
82559350|NCT00768716|164828392|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82583900|NCT02079610|164879714|SUPERIORITY||Mean Difference (Final Values)|6.8|STANDARD_DEVIATION|3.5||0.01|TWO_SIDED||||||Mixed Models Analysis|||||||0.01
82583901|NCT01052103|164879719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.0|STANDARD_ERROR_OF_MEAN|1.6||0.732||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.732
82583902|NCT01052103|164879720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|2.2|STANDARD_ERROR_OF_MEAN|2.1||0.846||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.846
82559351|NCT00768716|164828393|OTHER||||||<|0.0001|||||||ANOVA|||||||<0.0001
82559352|NCT00768716|164828394|OTHER|||||||0.003|||||||ANOVA|||||||0.003
82559353|NCT00799409|164828401|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-35.0|-22.3||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score adjusted by Hochberg's step up procedure|Mixed Models Analysis||Placebo minus CONCERTA|||-22.3|-35.0|<0.0001
82559354|NCT00799409|164828402|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.3|||<|0.0001|TWO_SIDED|95.0|-34.4|-22.2||P-values were determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score adjusted by Hochberg's step up procedure|Mixed Models Analysis||Placebo minus CONCERTA|||-22.2|-34.4|<0.0001
82488305|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.752||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.752
82488306|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.737
82488307|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.522||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.522
82488308|NCT00785928|164669622|SUPERIORITY_OR_OTHER|||||||0.073||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.073
82488309|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.969||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.969
82488310|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.352
82488311|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.406||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.406
82488312|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.266
82488313|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.708
82583903|NCT01052103|164879721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.201||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.201
82488314|NCT00785928|164669623|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.012
82488315|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.88||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.880
82488316|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.575
82651896|NCT01075763|165018958|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||For Week 28: the difference between the two groups was analyzed using t-test.||||0.85
82488317|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.992
82488318|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.646||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.646
82488319|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.054
82488320|NCT00785928|164669624|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as a covariate.|ANCOVA|||||||0.472
82488321|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.952
82488322|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.085||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.085
82488323|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.143||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.143
82488324|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.242
82651897|NCT01075763|165018958|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||t-test, 2 sided|||For Week 52: the difference between the two groups was analyzed using t-test.||||0.85
82488325|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.317
82488326|NCT00785928|164669625|SUPERIORITY_OR_OTHER|||||||0.456||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable, treatment as the fixed factor, and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.456
82488327|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.833
82488328|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.826
82488329|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.091||95.0||||Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.091
82559355|NCT00799409|164828403|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9|||<|0.0001|TWO_SIDED|95.0|4.3|7.4||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||7.4|4.3|<0.0001
82559356|NCT00799409|164828404|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1|||<|0.0001|TWO_SIDED|95.0|3.8|6.5||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||6.5|3.8|<0.0001
82559357|NCT00799409|164828405|SUPERIORITY_OR_OTHER||LS Mean Difference|11.0|||<|0.0001|TWO_SIDED|95.0|8.7|13.3||P-Values are determined by using a repeated measures mixed model with actual value as the dependent variable with terms for treatment, time, treatment by time interaction, period, sequence, and baseline score.|Mixed Models Analysis|P-Values at each timepoint are determined by using contrast statements in the repeated measures mixed model.|Placebo minus CONCERTA|||13.3|8.7|<0.0001
82583904|NCT01052103|164879722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.4|STANDARD_ERROR_OF_MEAN|1.3||0.136||95.0||||One-sided p-value.|Type 3 Tests|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.136
82559358|NCT00799409|164828406|SUPERIORITY_OR_OTHER||LS Means Difference|-3.16|||<|0.0001|TWO_SIDED|95.0|-3.72|-2.59||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.59|-3.72|<0.0001
82559359|NCT00799409|164828407|SUPERIORITY_OR_OTHER||LS Means Difference|-16.03|||<|0.0001|TWO_SIDED|95.0|-19.99|-12.06||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-12.06|-19.99|<0.0001
82583905|NCT01052103|164879723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.5|STANDARD_ERROR_OF_MEAN|2.4||0.739||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.739
82376772|NCT03888066|164459897|SUPERIORITY||Win Ratio|1.526|||<|0.001|TWO_SIDED|95.0|1.231|1.906|||Win Ratio|||"Win ratio for composite.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers."||1.906|1.231|<0.001
82583906|NCT01052103|164879724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.19||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.190
82488330|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.127
82488331|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.243
82488332|NCT00785928|164669626|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and the baseline value as the covariate.|ANCOVA|||||||0.037
82488333|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.562||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.562
82559360|NCT00799409|164828408|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.45|||<|0.0001|TWO_SIDED|95.0|-27.43|-17.47||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-17.47|-27.43|<0.0001
82559361|NCT00799409|164828409|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.93||||0.18|TWO_SIDED|95.0|-1.69|-0.16||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.16|-1.69|0.1800
82559362|NCT00799409|164828410|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.32||||0.0057|TWO_SIDED|95.0|-2.25|-0.4||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.40|-2.25|0.0057
82583907|NCT01052103|164879725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.702||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.702
82583908|NCT01052103|164879726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.851||95.0|||||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.851
82488334|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.539||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.539
82559363|NCT00799409|164828411|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.1091|TWO_SIDED|95.0|-14.05|1.44||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||1.44|-14.05|0.1091
82559364|NCT00799409|164828412|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.2653|TWO_SIDED|95.0|-0.7|0.2||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.20|-0.70|0.2653
82559365|NCT00799409|164828413|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.49||||0.0038|TWO_SIDED|95.0|-10.81|-2.17||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.17|-10.81|0.0038
82559366|NCT00799409|164828414|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.75||||0.0001|TWO_SIDED|95.0|-6.96|-2.53||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-2.53|-6.96|0.0001
82559367|NCT00799409|164828415|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.76||||0.0092|TWO_SIDED|95.0|-10.04|-1.47||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-1.47|-10.04|0.0092
82559368|NCT00799409|164828416|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.9195|TWO_SIDED|95.0|-0.37|0.33||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.33|-0.37|0.9195
82559369|NCT00799409|164828417|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.55||||0.0002|TWO_SIDED|95.0|-59.7|-19.39||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-19.39|-59.70|0.0002
82583909|NCT01052103|164879730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.0||||0.999|TWO_SIDED|95.0|-4.3|4.3||P-value is for standing systolic BP.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||4.3|-4.3|0.999
82559370|NCT00799409|164828418|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08||||0.0002|TWO_SIDED|95.0|-0.13|-0.04||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.04|-0.13|0.0002
82559371|NCT00799409|164828419|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.4625|TWO_SIDED|95.0|-0.07|0.03||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.03|-0.07|0.4625
82583910|NCT01052103|164879730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|3.8||||0.009|TWO_SIDED|95.0|1.0|6.7||P-value is for standing diastolic BP.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||6.7|1.0|0.009
82583911|NCT01052103|164879731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5||||0.818|TWO_SIDED|95.0|-5.0|3.9|||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||3.9|-5.0|0.818
82559372|NCT00799409|164828420|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02||||0.6262|TWO_SIDED|95.0|-0.09|0.05||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.05|-0.09|0.6262
82559373|NCT00799409|164828421|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.998|TWO_SIDED|95.0|-0.08|0.08||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.08|-0.08|0.9980
82559374|NCT00799409|164828422|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.0151|TWO_SIDED|95.0|-0.19|-0.02||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.02|-0.19|0.0151
82559375|NCT00799409|164828423|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09||||0.0043|TWO_SIDED|95.0|-0.15|-0.03||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||-0.03|-0.15|0.0043
82559376|NCT00799409|164828424|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.0371|TWO_SIDED|95.0|-0.08|0.0||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.00|-0.08|0.0371
82559377|NCT00799409|164828425|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.0965|TWO_SIDED|95.0|-0.06|0.01||P-Values were determined by using a general linear mixed model.|ANCOVA||Placebo minus CONCERTA|||0.01|-0.06|0.0965
82559378|NCT04323800|164828430|SUPERIORITY||Risk Difference (RD)|0.01||||0.42|ONE_SIDED|95.0||||One-sided p-value|Restricted Mean Survival Test statistic|||||||0.42
82559379|NCT04323800|164828431|SUPERIORITY||Risk Difference (RD)|-5.0||||0.67|TWO_SIDED|95.0|-31.0|19.0|||Chi-squared|||||19|-31|0.67
82559380|NCT04323800|164828432|SUPERIORITY||Risk Difference (RD)|-47.0||||0.06|TWO_SIDED|95.0|-100.0|2.0|||Chi-squared|||||2|-100|0.06
82559381|NCT00731692|164828449|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.544|TWO_SIDED|95.0|0.8|1.12|||Regression, Cox|||||1.12|0.80|0.544
82559382|NCT03926026|164828481|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.0471|TWO_SIDED|95.0|-1.5|0.0|||t-test, 2 sided|||||0|-1.5|0.0471
82559383|NCT01214200|164828484|OTHER|For the analysis of differences between pre and post treatment a student's t-test was used and was checked with the Wilcoxon signed rank test. A p\<0.05 was considered statistically significant.||||||0.01|||||||Wilcoxon Signed Ranks Test|||||||0.01
82559384|NCT01823224|164828493|SUPERIORITY_OR_OTHER|||||||0.875|TWO_SIDED||||||Repeated analysis of variance|||||||0.875
82559385|NCT01823224|164828494|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Manova|||||||> 0.05
82559386|NCT03960645|164828505|OTHER||GLSM ratio (%)|41.24|||||TWO_SIDED|90.0|36.71|46.32||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio (%).||46.32|36.71|
82559387|NCT03960645|164828505|OTHER||GLSM ratio (%)|44.65|||||TWO_SIDED|90.0|40.04|49.79||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||49.79|40.04|
82559388|NCT03960645|164828505|OTHER||GLSM ratio (%)|40.57|||||TWO_SIDED|90.0|36.77|44.76||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||44.76|36.77|
82559389|NCT03960645|164828505|OTHER||GLSM ratio (%)|44.4|||||TWO_SIDED|90.0|39.95|49.34||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||49.34|39.95|
82559390|NCT03960645|164828506|OTHER||GLSM ratio (%)|67.38|||||TWO_SIDED|90.0|63.45|71.56||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||71.56|63.45|
82559391|NCT03960645|164828506|OTHER||GLSM ratio (%)|64.26|||||TWO_SIDED|90.0|60.95|67.75||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||67.75|60.95|
82559392|NCT03960645|164828506|OTHER||GLSM ratio (%)|69.19|||||TWO_SIDED|90.0|65.88|72.66||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||72.66|65.88|
82559393|NCT03960645|164828506|OTHER||GLSM ratio (%)|65.09|||||TWO_SIDED|90.0|61.79|68.57||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.57|61.79|
82559394|NCT03960645|164828506|OTHER||GLSM ratio (%)|77.62|||||TWO_SIDED|90.0|65.4|92.14||||||TAF: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||92.14|65.40|
82651898|NCT00586521|165018959|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The primary outcome measure was analyzed by paired t-test and Wilcoxon test (number of joint bleeds prophylaxis treatment compared to number of joint bleeds on-demand treatment) at 6 months of treatment.||||<0.001
82651899|NCT00586521|165018959|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||The maximum individual reduction in the actual number of joint bleeds after the switch to prophylactic treatment was analyzed by a paired t-test of the individual difference between prophylaxis treatment bleed compared to on-demand treatment bleeds.||||<0.001
82559395|NCT03960645|164828506|OTHER||GLSM ratio (%)|62.5|||||TWO_SIDED|90.0|50.76|76.96||||||TAF: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||76.96|50.76|
82559396|NCT03960645|164828506|OTHER||GLSM ratio (%)|69.67|||||TWO_SIDED|90.0|58.57|82.88||||||TAF: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||82.88|58.57|
82559397|NCT03960645|164828506|OTHER||GLSM ratio (%)|56.52|||||TWO_SIDED|90.0|46.32|68.96||||||TAF: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.96|46.32|
82559398|NCT03960645|164828508|OTHER||GLSM ratio (%)|51.91|||||TWO_SIDED|90.0|46.48|57.97||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||57.97|46.48|
82559399|NCT03960645|164828508|OTHER||GLSM ratio (%)|57.67|||||TWO_SIDED|90.0|52.48|63.36||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||63.36|52.48|
82559400|NCT03960645|164828508|OTHER||GLSM ratio (%)|48.18|||||TWO_SIDED|90.0|43.03|53.94||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||53.94|43.03|
82559401|NCT03960645|164828508|OTHER||GLSM ratio (%)|54.42|||||TWO_SIDED|90.0|48.39|61.21||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||61.21|48.39|
82559402|NCT03960645|164828508|OTHER||GLSM ratio (%)|75.61|||||TWO_SIDED|90.0|66.7|85.7||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.70|66.70|
82559403|NCT03960645|164828508|OTHER||GLSM ratio (%)|77.81|||||TWO_SIDED|90.0|68.76|88.05||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||88.05|68.76|
82559404|NCT03960645|164828508|OTHER||GLSM ratio (%)|77.45|||||TWO_SIDED|90.0|70.33|85.29||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.29|70.33|
82559405|NCT03960645|164828508|OTHER||GLSM ratio (%)|77.08|||||TWO_SIDED|90.0|69.78|85.15||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||85.15|69.78|
82559406|NCT03960645|164828508|OTHER||GLSM ratio (%)|69.9|||||TWO_SIDED|90.0|56.16|87.0||||||TAF: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||87.00|56.16|
82559407|NCT03960645|164828508|OTHER||GLSM ratio (%)|66.55|||||TWO_SIDED|90.0|53.79|82.34||||||TAF: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||82.34|53.79|
82559408|NCT03960645|164828508|OTHER||GLSM ratio (%)|57.14|||||TWO_SIDED|90.0|46.04|70.91||||||TAF: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||70.91|46.04|
82559409|NCT03960645|164828508|OTHER||GLSM ratio (%)|55.27|||||TWO_SIDED|90.0|44.65|68.42||||||TAF: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||68.42|44.65|
82559410|NCT03960645|164828509|OTHER||GLSM ratio (%)|26.17|||||TWO_SIDED|90.0|21.45|31.93||||||BIC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||31.93|21.45|
82559411|NCT03960645|164828509|OTHER||GLSM ratio (%)|26.99|||||TWO_SIDED|90.0|22.23|32.78||||||BIC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||32.78|22.23|
82651900|NCT00586521|165018960|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||paired t-test (prophylaxis compared to on-demand) at 6 months of treatment.||||<0.001
82559412|NCT03960645|164828509|OTHER||GLSM ratio (%)|29.03|||||TWO_SIDED|90.0|25.74|32.74||||||BIC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||32.74|25.74|
82559413|NCT03960645|164828509|OTHER||GLSM ratio (%)|29.97|||||TWO_SIDED|90.0|26.47|33.93||||||BIC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||33.93|26.47|
82559414|NCT03960645|164828509|OTHER||GLSM ratio (%)|64.22|||||TWO_SIDED|90.0|54.63|75.49||||||FTC: Second Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||75.49|54.63|
82559415|NCT03960645|164828509|OTHER||GLSM ratio (%)|42.89|||||TWO_SIDED|90.0|36.55|50.34||||||FTC: Second Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||50.34|36.55|
82559416|NCT03960645|164828509|OTHER||GLSM ratio (%)|64.71|||||TWO_SIDED|90.0|59.3|70.61||||||FTC: Third Trimester (Test) vs. Week 12 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||70.61|59.30|
82559417|NCT03960645|164828509|OTHER||GLSM ratio (%)|46.92|||||TWO_SIDED|90.0|39.57|55.64||||||FTC: Third Trimester (Test) vs. Week 6 Post-partum (Reference). A 90% CI was constructed for the GLSM ratio (%).||55.64|39.57|
82559418|NCT04938453|164828518|OTHER||Ratio of GLSMs (%)|98.47|STANDARD_ERROR_OF_MEAN|13.9|||TWO_SIDED|90.0|90.87|106.69|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||106.69|90.87|
82559419|NCT04938453|164828519|OTHER||Ratio of GLSMs (%)|100.29|STANDARD_ERROR_OF_MEAN|29.2|||TWO_SIDED|90.0|85.05|118.24|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||118.24|85.05|
82559420|NCT04938453|164828520|OTHER||Ratio of GLSMs (%)|98.92|STANDARD_ERROR_OF_MEAN|13.8|||TWO_SIDED|90.0|91.35|107.12|||||"Ratio of Geometric Least Squares Means (GLSMs) was calculated as (GLSM of nintedanib 4 X 25 mg)/(GLSM of nintedanib 1 X 100 mg).~Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV \[%\])."|The statistical model used for the analysis of this primary endpoint was an analysis of variance (ANOVA) model on the logarithmic scale. This model included effects accounting for the following sources of variation: sequence, subjects within sequences, period and treatment. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||107.12|91.35|
82559421|NCT00403494|164828557|SUPERIORITY|PWT was transformed to the log ratio at Week 24:Baseline for statistical analysis.|Mean Difference (Final Values)|-0.021|STANDARD_DEVIATION|0.379||0.727|TWO_SIDED|95.0|-0.138|0.097|||t-test, 2 sided||Mean difference represents the difference of the means of the natural log-transformed ratios between the 2 treatment groups.|||0.097|-0.138|0.727
82559422|NCT04658784|164828566|SUPERIORITY||Odds Ratio (OR)|0.51||||0.32|TWO_SIDED|95.0|0.13|1.92||OR, 95% CI, and p-values for outcomes adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery). P-value for VAS at 6-weeks was not adjusted for multiple comparisons.|Regression, Logistic|||OR calculated from logistic regression model, evaluating mean change in baseline VAS to 6-weeks.||1.92|0.13|0.32
82559423|NCT04658784|164828567|SUPERIORITY||Odds Ratio (OR)|0.48||||1|TWO_SIDED|95.0|0.04|5.65||OR, 95% CI, and p-values for outcomes adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery). P-value for VAS at 6-weeks was not adjusted for multiple comparisons.|Regression, Logistic|||OR calculated from logistic regression model, evaluating mean change in baseline VAS to 6-weeks.||5.65|0.04|1.0
82559424|NCT04658784|164828570|SUPERIORITY||Mean Difference (Net)|2.6||||1|TWO_SIDED|95.0|-3.5|8.7||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6- weeks.||8.7|-3.5|1.0
82559425|NCT04658784|164828570|SUPERIORITY||Mean Difference (Net)|-1.2|||||TWO_SIDED|95.0|-5.6|3.2||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6-months.||3.2|-5.6|
82559426|NCT04658784|164828571|SUPERIORITY||Mean Difference (Net)|0.2||||1|TWO_SIDED|95.0|-6.6|6.9||Adjust for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change in baseline to 6-weeks.||6.9|-6.6|1.0
82559427|NCT04658784|164828571|SUPERIORITY|Differences in mean change and 95% CI generated from general linear models. Change in baseline to 6-months.|Mean Difference (Net)|2.8||||1|TWO_SIDED|95.0|-3.1|8.6||Adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||||8.6|-3.1|1
82559428|NCT04658784|164828572|SUPERIORITY||Mean Difference (Net)|-1.6||||1|TWO_SIDED|95.0|-4.4|1.3||Adjusted for baseline value and type of surgery (vaginal or vaginal + minimally invasive surgery).|Regression, Linear|||Differences in mean change and 95% CI generated from general linear models. Change from baseline to 6 months.||1.3|-4.4|1.0
82559429|NCT00670488|164828595|OTHER||AUC0-48hr GMR|3.26||||||||||||||"The Last Day (Day 27)/Day 1 AUC 0-48 hr Geometric Mean Ratio (GMR) was calculated as follows: Last Day (Day 27) AUC 0-48hr Geometric Mean (GM) ÷ Day 1 AUC 0-48hr GM.~AUC 0-48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82559430|NCT00670488|164828595|OTHER||AUC 0-48hr GMR|3.18||||||||||||||"The Last Day (Day 27)/Day 1 AUC 0-48 hr GMR was calculated as follows: Last Day (Day 27) AUC 0-48hr GM ÷ Day 1 AUC 0-48hr GM.~AUC 0-48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82488335|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.304||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.304
82488336|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.832
82583912|NCT01052103|164879732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.44||||0.571|TWO_SIDED|95.0|-1.98|1.1|||Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||1.10|-1.98|0.571
82583913|NCT01052103|164879737|SUPERIORITY_OR_OTHER_LEGACY|||||||0.682||95.0||||P-value is for treatment-emergent suicidal ideation.|Fisher Exact|||||||0.682
82651901|NCT00586521|165018961|SUPERIORITY_OR_OTHER||||||<|0.001|||||||paired t-test|||The Gilbert Score was the sum of 3 scores: pain (0=no pain to 3=severe pain); bleeding score (0=none to 3=3 or more major bleeds or 7 or more minor bleeds); and physical score (based on swelling, muscle atrophy; and axial deformity (at knee or ankle), range of motion, crepitus on motion, flexion contracture, instability.||||<0.001
82488337|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.010
82651902|NCT00586521|165018962|SUPERIORITY_OR_OTHER|||||||0.314||||||The alpha level for a significant P-value was pre-defined at 5%.|paired t-test|||"The Haemo-QoL A questionnaire measures the subject's self-assessment of disease impact on physical functioning, role functioning, worry, consequences, positive affect, and treatment concern."||||0.314
82488338|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P-value for physical health component. Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.980
82488339|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 1 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.569
82559431|NCT00670488|164828596|OTHER||Cmax GMR|2.59||||||||||||||"The Last Day (Day 27)/Day 1 Cmax GMR was calculated as follows: Last Day (Day 27) Cmax GM ÷ Day 1 Cmax GM.~Cmax GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82559432|NCT00670488|164828596|OTHER||Cmax GMR|2.67||||||||||||||"The Last Day (Day 27)/Day 1 Cmax GMR was calculated as follows: Last Day (Day 27) Cmax GM ÷ Day 1 Cmax GM.~Cmax GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82583914|NCT01052103|164879738|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.0|STANDARD_ERROR_OF_MEAN|1.7||0.727||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.727
82583915|NCT01052103|164879742|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-1.7|STANDARD_ERROR_OF_MEAN|3.4||0.305||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.305
82583916|NCT01052103|164879743|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5|STANDARD_ERROR_OF_MEAN|2.5||0.42||95.0||||One-sided p-value.|Type 3 Sums of Squares|||Changes from baseline to all post-baseline visits were analyzed using a restricted maximum likelihood-based MMRM. Model terms included fixed class effects for visit, investigative site, treatment, SOC type, baseline positive symptom stratum, and treatment-by-visit interaction as well as the continuous, fixed covariates of baseline measurement and baseline-by-visit interaction.||||0.420
82651903|NCT03734237|165018973|EQUIVALENCE|Null Hypothesis: RR=1, Alternative hypothesis: RR not equal to 1|Risk Ratio (RR)|-26.7||||0.1412|TWO_SIDED|95.0|-73.7|7.6|||Chi-squared|||Relative vaccine effectiveness with the outcome laboratory confirmed influenza identified via surveillance and/or abstracted from clinical records.||7.6|-73.7|0.1412
82488340|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.953||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 3 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.953
82488341|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.647||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 10 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.647
82488342|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 30 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.507
82559433|NCT00670488|164828597|OTHER||C48hr GMR|4.33||||||||||||||"The Last Day (Day 27)/Day 1 C48hr GMR was calculated as follows: Last Day (Day 27) C48hr GM ÷ Day 1 C48hr GM.~C48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82488343|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.821||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 60 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.821
82488344|NCT00785928|164669627|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P-value for mental health component. Pairwise comparison (2-sided) of 120 mg LY2123799 versus placebo using contrast statements within an analysis of covariance (ANCOVA) model with treatment as the fixed factor and baseline value as the covariate.|ANCOVA|||||||0.045
82488345|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||Pairwise (2-sided) comparisons of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.236
82488346|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Pairwise (2-sided) comparisons of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.038
82488347|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||Pairwise (2-sided) comparisons of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.025
82488348|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Pairwise (2-sided) comparisons of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.005
82488349|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.734||95.0||||Pairwise (2-sided) comparisons of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.734
82559434|NCT00670488|164828597|OTHER||C48hr GMR|3.58||||||||||||||"The Last Day (Day 27)/Day 1 C48hr GMR was calculated as follows: Last Day (Day 27) C48hr GM ÷ Day 1 C48hr GM.~C48hr GMR for last dose (Day 27) calculated using only data from participants who completed cycle one dosing as scheduled and had sufficient data for calculation."||||
82559435|NCT00670488|164828600|OTHER||AUC0-168hr GMR|1.91||||||||||||||The Last Day/Day 1 AUC 0-168 hr GMR was calculated as follows: Last Day AUC 0-168hr GM ÷ Day 1 AUC 0-48hr GM.||||
82583917|NCT04874415|164879748|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-6.2|5.3|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||5.3|-6.2|
82488350|NCT00785928|164669630|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||Pairwise (2-sided) comparisons of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with the standardized rank outcome variable treatment as the fixed factor and the standardized rank baseline value as a covariate.|ANCOVA|||||||0.035
82488351|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.901||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.901
82651904|NCT03734237|165018973|EQUIVALENCE|Null Hypothesis: RR=1, Alternative hypothesis: RR not equal to 1.|Risk Ratio (RR)|-13.1||||0.4552|TWO_SIDED|95.0|-56.4|18.2|||Chi-squared|||Relative vaccine effectiveness with the outcome laboratory confirmed influenza identified via surveillance and/or abstracted from clinical records.||18.2|-56.4|0.4552
82488352|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.840
82488353|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.882||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.882
82559436|NCT00670488|164828600|OTHER||AUC 0-168hr GMR|1.54||||||||||||||The Last Day/Day 1 AUC 0-168 hr GMR was calculated as follows: Last Day AUC 0-168hr GM ÷ Day 1 AUC 0-48hr GM.||||
82488354|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.225
82488355|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.340
82488356|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||P-value for IgG. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.850
82559437|NCT00670488|164828601|OTHER||Cmax GMR|1.95||||||||||||||The Last Day/Day 1 Cmax GMR was calculated as follows: Last Day Cmax GM ÷ Day 1 Cmax GM.||||
82559438|NCT00670488|164828601|OTHER||Cmax GMR|1.33||||||||||||||The Last Day/Day 1 Cmax GMR was calculated as follows: Last Day Cmax GM ÷ Day 1 Cmax GM.||||
82651905|NCT00818623|165018988|SUPERIORITY_OR_OTHER_LEGACY|||||||5.86e-05||95.0|||||Log Rank|||||||0.0000586
82559439|NCT00670488|164828602|OTHER||C48hr GMR|1.61||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
82559440|NCT00670488|164828602|OTHER||C48hr GMR|1.86||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
82559441|NCT00670488|164828602|OTHER||C48hr GMR|1.49||||||||||||||The Last Day/Day 1 C48hr GMR was calculated as follows: Last Day C48hr GM ÷ Day 1 C48hr GM.||||
82559442|NCT00670488|164828605|OTHER||GMR|0.133|||||TWO_SIDED|95.0|0.051|0.347||||||"pAkt Geometric Mean Ratio (GMR)~= Day 15 Geometric Mean (GM) ÷ Baseline GM"||0.347|0.051|
82559443|NCT00195819|164828615|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.1||||0.06||95.0|-0.5|40.7|||Chi-squared|||||40.7|-0.5|0.060
82559444|NCT00195819|164828658|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|0.42||0.387||95.0|||||ANCOVA|||||||0.387
82559445|NCT00822900|164828685|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.95||||0.35|TWO_SIDED|95.0|0.85|1.06|||Regression, Generalized linear|Adjusting for injury severity, sex, and age. the binomial distribution with the log link is used to estimate treatment effect as relative risk.|A risk ratio (equivalent to the relative risk) of less than 1.00 indicating fewer favorable outcomes in the progesterone group than in the placebo group.|Test of null hypothesis (equal proportions of subjects with favorable outcome in progesterone and placebo arms) versus alternative hypothesis (unequal proportions of subjects with favorable outcome in progesterone and placebo arms). Standard multiple imputation methods are used to account for missing data. The primary outcome measure is based on the stratified dichotomy approach.||1.06|0.85|0.35
82559446|NCT00822900|164828686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.86|1.63|||||A hazard ratio of more than 1.00 indicating higher hazard of death from the progesterone group than in the placebo group.|The Cox proportional hazards model is used to compare these curves after adjustment for age, sex and injury severity.||1.63|0.86|
82559447|NCT00822900|164828688|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.03|||||TWO_SIDED|95.0|1.96|4.66|||||A risk ratio (equivalent to the relative risk) of more than 1.00 indicating more events in the progesterone group than in the placebo group.|||4.66|1.96|
82559448|NCT02234141|164828697|OTHER|Nonparametric pairwise comparison|||||=|0.214||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test).|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving {1, 2, or greater than or equal to \[≥\] 3}).||||= 0.214
82559449|NCT02234141|164828697|OTHER|Nonparametric pairwise comparison|||||=|0.27||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test).|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving \[1, 2, or ≥ 3\]).||||= 0.270
82559450|NCT02234141|164828697|OTHER|Nonparametric pairwise comparison|||||=|0.604||||||P-value was calculated using the generalized van Elteren test/van Elteren test (gvE/vE; stratified Wilcoxon rank sum test)|gvE/vE|||The protocol-specified primary analysis was to compare each selonsertib dose group with the placebo group, using Wilcoxon (van Elteren) test, with respect to change from baseline in PVR at Week 24, stratifying by randomization stratum (the underlying etiology of PAH idiopathic/heritable \[yes/no\] and the number of background PAH therapies they were receiving \[1, 2, or ≥ 3\]).||||= 0.604
82559451|NCT03418545|164828716|SUPERIORITY||Percentage difference|67.5|||<|0.0001|TWO_SIDED|95.0|52.9|82.0||The p-value and 95% CI are computed by pooling 5 imputed datasets using PROC MIANALYZE in SAS with normal approximation. The p-value and 95% CI for each imputed data set is based on the Fisher's exact test and the Wald test, respectively.|Fisher Exact|||||82.0|52.9|<0.0001
82559452|NCT03418545|164828717|SUPERIORITY||Percentage difference|73.5|||||TWO_SIDED|95.0|60.2|86.8|||||The 95% CI is based on the Wald test.|||86.8|60.2|
82559453|NCT03418545|164828719|SUPERIORITY||||||<|0.0001||||||A 2-sided paired t-test at the 5% level was performed to demonstrate that the mean overall satisfaction score at Month 3 was statistically greater than that at Baseline for the treatment group.|t-test, 2 sided|||||||<0.0001
82651906|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0014||95.0|||||Kruskal-Wallis|||||||0.0014
82559454|NCT01957163|164828732|SUPERIORITY_OR_OTHER||Least squared mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.093|0.154|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.154|0.093|< 0.001
82583918|NCT04874415|164879748|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-9.4|4.6|||||Fixed step count is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||4.6|-9.4|
82559455|NCT01957163|164828732|SUPERIORITY_OR_OTHER||Least squared mean difference|0.128|||<|0.001|TWO_SIDED|95.0|0.098|0.159|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.159|0.098|<0.001
82559456|NCT01957163|164828733|SUPERIORITY_OR_OTHER||Least squared mean difference|0.153|||<|0.001|TWO_SIDED|95.0|0.118|0.187|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.187|0.118|<0.001
82651907|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|87.5||||||95.0|66.1|95.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||95.8|66.1|
82651908|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|66.7||||||95.0|33.7|86.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||86|33.7|
82651909|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|54.5||||||95.0|22.9|78.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||78|22.9|
82559457|NCT01957163|164828733|SUPERIORITY_OR_OTHER||Least squared mean difference|0.14|||<|0.001|TWO_SIDED|95.0|0.106|0.175|||Mixed Model Repeated Measure|Restricted maximum likelihood (REM) - based repeated measure approach (MMRM)||||0.175|0.106|<0.001
82559458|NCT03212638|164828769|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|1.04|||||TWO_SIDED|95.0|0.946|1.15||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.15|0.946|
82559459|NCT03212638|164828769|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|1.04|||||TWO_SIDED|95.0|0.944|1.14||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation without (T2) water compared to the commercial tablet (R).||1.14|0.944|
82559460|NCT03212638|164828769|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.675|||||TWO_SIDED|95.0|0.617|0.74||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||0.740|0.617|
82559461|NCT03212638|164828770|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.996|||||TWO_SIDED|95.0|0.963|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.963|
82488357|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.447||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.447
82488358|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.909||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.909
82488359|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.152
82488360|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.023
82488361|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.004
82488362|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for IgM. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.017
82488363|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.944||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 1 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.944
82559462|NCT03212638|164828770|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.998|||||TWO_SIDED|95.0|0.995|1.03||||||Bioequivalence of s single 4 mg dose of baricitinib as the suspension formulation without (T2) water compared to the commercial tablet (R).||1.03|0.995|
82559463|NCT03212638|164828770|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|0.973|||||TWO_SIDED|95.0|0.936|1.01||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||1.01|0.936|
82559464|NCT03212638|164828771|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.999|||||TWO_SIDED|95.0|0.996|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.996|
82583919|NCT04874415|164879748|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-11.0|3.1|||||Loss framed incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.1|-11|
82488364|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 3 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.677
82488365|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 10 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.053
82488366|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.061||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 30 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.061
82488367|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 60 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as the fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.025
82488368|NCT00785928|164669631|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for IgA. Pairwise comparison (2-sided) of 120 mg LY2127399 versus placebo using ranked analysis of covariance (ANCOVA) with standardized rank outcome variable, treatment as fixed factor, and standardized rank baseline value as a covariate.|ANCOVA|||||||0.030
82559465|NCT03212638|164828771|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|Ratio|0.999|||||TWO_SIDED|95.0|0.966|1.03||||||Bioequivalence of single 4 mg dose of baricitinib as the suspension formulation with (T1) water compared to the commercial tablet (R).||1.03|0.966|
82559466|NCT03212638|164828771|EQUIVALENCE|0.80, 1.25 as the bioequivalence boundaries|ratio|0.978|||||TWO_SIDED|95.0|0.941|1.02||||||Bioequivalence of single 4 mg dose of baricitinib as fasted vs fed.||1.02|0.941|
82559467|NCT02831816|164828778|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 cfu/cm2 less than the active control.|Median Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.221|0.18||||||Groin 10 minutes Average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.180|-0.221|
82559468|NCT02831816|164828778|SUPERIORITY||Median Difference (Final Values)|2.45|||||TWO_SIDED|95.0|2.15|2.76||||||Groin 10 minutes Average Treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.76|2.15|
82559469|NCT02831816|164828779|NON_INFERIORITY|Investigational product cannot be more than 0.05 log10 cfu/cm2 less than the active control.|Mean Difference (Final Values)|-0.0435|||||TWO_SIDED|95.0|-0.2085|0.1215||||||Abdomen 10 minutes average treatment effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||0.1215|-0.2085|
82559470|NCT02831816|164828779|SUPERIORITY||Mean Difference (Final Values)|1.97|||||TWO_SIDED|95.0|1.7|2.25||||||Abdomen 10 minutes Average Treatment Effect, calculated using a linear regression model for each body site, was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.25|1.70|
82559471|NCT02686658|164828780|OTHER|Model for repeated measures (MRM) and square root transformation was used to compare the treatment groups.|Least Squares Mean Difference|0.11||||0.0072|TWO_SIDED|95.0|||||Model for repeated measures (MRM)|||Difference in least squares means between groups calculated as (Sham) minus (Zimura).||||0.0072
82583920|NCT04874415|164879748|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|4.4|||||TWO_SIDED|95.0|-1.0|9.8|||||Daily step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||9.8|-1.0|
82559472|NCT02686658|164828780|OTHER|Model for repeated measures (MRM) and square root transformation was used to compare treatment groups.|Least Squares Mean Difference|0.124||||0.0051|TWO_SIDED|95.0|||||Model for repeated measures (MRM)|||Difference in least squares means between groups calculated as (Sham) minus (Zimura).||||0.0051
82559473|NCT02686658|164828781|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|1.39||||0.3464|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.3464
82559474|NCT02686658|164828781|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|-0.28||||0.883|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.8830
82559475|NCT02686658|164828782|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|0.38||||0.8405|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.8405
82559476|NCT02686658|164828782|OTHER|Model for repeated measures (MRM) was used to compare the treatment groups.|Least Squares Mean Difference|-1.44||||0.5017|TWO_SIDED||||||Model for repeated measures (MRM)|||Difference in least squares mean between groups calculated as (Zimura) minus (Sham).||||0.5017
82559477|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Erythema||0.141|-0.216|
82559478|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Swelling||0.141|-0.216|
82583921|NCT04874415|164879749|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-686.0|||||TWO_SIDED|95.0|-2997.0|1626.0|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||1626|-2997|
82583922|NCT04874415|164879749|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-2340.0|||||TWO_SIDED|95.0|-4794.0|115.0|||||Fixed step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||115|-4794|
82651910|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|100.0||||||95.0|85.8|100.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||100|85.8|
82651911|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|75.0||||||95.0|52.6|87.9||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||87.9|52.6|
82559479|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.135|0.119|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|ALT Increased||0.119|-0.135|
82559480|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.135|0.119|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Hemoglobin Decreased||0.119|-0.135|
82559481|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.205|0.121|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Leukocytosis||0.121|-0.205|
82559482|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.024|||||TWO_SIDED|95.0|-0.127|0.111|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|PTT Prolonged||0.111|-0.127|
82559483|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.056|||||TWO_SIDED|95.0|0.022|0.134|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Thrombocytopenia||0.134|0.022|
82651912|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|95.7||||||95.0|72.9|99.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||99.4|72.9|
82651913|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|62.5||||||95.0|40.3|78.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||78.4|40.3|
82651914|NCT00818623|165018989|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|88.9||||||95.0|69.4|96.3||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 28 days.||96.3|69.4|
82559484|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.051|||||TWO_SIDED|95.0|0.018|0.118|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Fever||0.118|0.018|
82559485|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|-0.036|||||TWO_SIDED|95.0|-0.203|0.089|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Headache||0.089|-0.203|
82559486|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.166|||||TWO_SIDED|95.0|0.016|0.275|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Rash||0.275|0.016|
82559487|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.063|||||TWO_SIDED|95.0|0.03|0.126|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Arthralgia||0.126|0.030|
82559488|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.023|||||TWO_SIDED|95.0|-0.155|0.118|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Fatigue||0.118|-0.155|
82559489|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.041|||||TWO_SIDED|95.0|-0.105|0.105|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Myalgia||0.105|-0.105|
82559490|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.019|||||TWO_SIDED|95.0|-0.16|0.114|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Nausea||0.114|-0.160|
82559491|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Photophobia||0.141|-0.216|
82559492|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.024|||||TWO_SIDED|95.0|-0.142|0.088|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Retro-orbital Pain||0.088|-0.142|
82559493|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Decrease in Activity||0.141|-0.216|
82559494|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.216|0.141|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Loss of Appetite||0.141|-0.216|
82559495|NCT02678455|164828826|SUPERIORITY||Risk Difference (RD)|0.083|||||TWO_SIDED|95.0|-0.165|0.218|||||Adjusted proportion difference (TV005 minus Placebo) with inverse variance weighting and Newcombe Score confidence intervals.|Vomiting||0.218|-0.165|
82559496|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|76.0|88.0||||||All study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|76|
82559497|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|99.0|||||TWO_SIDED|95.0|96.0|100.0||||||All study participants seropositive to DENV-2 post TV005 Vaccination. There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|96|
82559498|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm|percentage seropositive|96.0|||||TWO_SIDED|95.0|92.0|98.0||||||All study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|92|
82559499|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|87.0|||||TWO_SIDED|95.0|81.0|92.0||||||All study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|81|
82559500|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82651915|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0031||95.0|||||Kruskal-Wallis|||||||0.0031
82559501|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559502|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559503|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559504|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adolescent study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
82559505|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Adolescent study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
82559506|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559507|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adolescent study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82583923|NCT04874415|164879749|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-1293.0|||||TWO_SIDED|95.0|-3477.0|890.0|||||||Loss framed incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|890|-3477|
82651916|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|45.8||||||95.0|25.6|64.0||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||64|25.6|
82488369|NCT05027464|164669633|SUPERIORITY||Odds Ratio (OR)|1.249||||0.202|TWO_SIDED|95.0|0.888|1.759||Not adjusted for multiple comparisons; a priori threshold was P \< 0.05.|Regression, Logistic|Patient demographics were fixed effects, and randomization units with clinics nested within randomization units were random effects.|An odds ratio above one indicates favoring the intervention arm over the usual care arm.|Generalized linear mixed model to account for patient demographics and hierarchical levels for clinics nested within VAHCS. Null hypothesis is that both arms perform equivalently in vaccine uptake after a year. Power was based on recruited VAHCSs and at least 1,000 Veterans per clinic. Using two-sided 0.05 type I error rate, 5-20% outcome rate in UC, we have 90% power to detect between a 9.6% and 14.6% difference with a total sample size of 90,000 to 100,000.||1.759|0.888|0.202
82559508|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|81.0|||||TWO_SIDED|95.0|65.0|90.0||||||Children study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|65|
82559509|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Children study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
82651917|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|38.1||||||95.0|12.1|64.3||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||64.3|12.1|
82559510|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Children study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
82559511|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||Children study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
82559512|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|68.0|92.0||||||Young Children study participants seropositive to DENV-1 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|68|
82559513|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Young Children study participants seropositive to DENV-2 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
82559514|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Young Children study participants seropositive to DENV-3 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559515|NCT02678455|164828827|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|82.0|98.0||||||Young Children study participants seropositive to DENV-4 post TV005 Vaccination There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|82|
82559516|NCT02678455|164828829|SUPERIORITY||||||<|0.001||||||Comparison between experienced vs dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-1 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||<0.001
82559517|NCT02678455|164828829|SUPERIORITY|||||||1||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-2 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||1.00
82559518|NCT02678455|164828829|SUPERIORITY|||||||0.07||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. Logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-3 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||0.070
82559519|NCT02678455|164828829|SUPERIORITY|||||||1||||||Comparison between experienced vs. dengue naive volunteers post TV005 vaccination. logistic model to adjust for age cohort provides unstable estimates due to quasi separation of data.|Fisher Exact|||DENV-4 percent seropositive post TV005 vaccination: difference between experienced at baseline and naive at baseline||||1.00
82651918|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|32.7||||||95.0|8.3|60.6||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||60.6|8.3|
82559520|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
82559521|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adult cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
82559522|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
82651919|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|83.3||||||95.0|61.5|93.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||93.4|61.5|
82651920|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|49.4||||||95.0|28.3|67.4||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||67.4|28.3|
82583924|NCT04874415|164879749|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-135.0|||||TWO_SIDED|95.0|-2424.0|2153.0|||||Daily step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2153|-2424|
82583925|NCT04874415|164879750|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.006|||||TWO_SIDED|95.0|-0.05|0.04|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.04|-0.05|
82583926|NCT04874415|164879750|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.07|0.02|||||Fixed step count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.02|-0.07|
82583927|NCT04874415|164879750|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.02|0.06|||||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|0.06|-0.02|
82583928|NCT04874415|164879750|SUPERIORITY|Main effects of each intervention factor were estimated using linear regression including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0006|||||TWO_SIDED|95.0|-0.04|0.04|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.04|-0.04|
82583929|NCT04874415|164879751|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.006|||||TWO_SIDED|95.0|-10.3|10.3|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||10.3|-10.3|
82583930|NCT04874415|164879751|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.00001|||||TWO_SIDED|95.0|-0.03|0.03|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
82583931|NCT04874415|164879751|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-12.7|12.7|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||12.7|-12.7|
82583932|NCT04874415|164879751|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
82583933|NCT04874415|164879752|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.00003|||||TWO_SIDED|95.0|-2311.0|2311.0|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2311|-2311|
82583934|NCT04874415|164879752|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.0000004|||||TWO_SIDED|95.0|-27.9|27.9|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||27.9|-27.9|
82583935|NCT04874415|164879752|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.005|||||TWO_SIDED|95.0|-6.9|6.8|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||6.8|-6.9|
82583936|NCT04874415|164879752|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-126.0|125.0|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||125|-126|
82583937|NCT04874415|164879753|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.003|||||TWO_SIDED|95.0|-3.9|3.9|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.9|-3.9|
82583938|NCT04874415|164879753|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-2.6|2.6|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.6|-2.6|
82583939|NCT04874415|164879753|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.00001|||||TWO_SIDED|95.0|-0.02|0.02|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.02|-0.02|
82583940|NCT04874415|164879753|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-22.8|22.8|||||Daily Step Count goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||22.8|-22.8|
82488370|NCT05027464|164669633|SUPERIORITY||Odds Ratio (OR)|1.228||||0.247|TWO_SIDED|95.0|0.867|1.738|||Regression, Logistic|||Sensitivity analysis, same null hypothesis and model as primary analysis but different pool of patients: Not constrained to Veterans with at least one primary care visit||1.738|0.867|0.247
82488371|NCT05027464|164669633|SUPERIORITY||Odds Ratio (OR)|1.263||||0.455|TWO_SIDED|95.0|0.684|2.334|||Regression, Logistic|||Sensitivity analysis; same model and null hypothesis but reassigning small clinics to their parent VAHCS facility, small meaning \< 100 participants. This data set uses the primary analysis data set with the primary visit constraint.||2.334|0.684|0.455
82488372|NCT05027464|164669633|SUPERIORITY||Odds Ratio (OR)|1.26||||0.364|TWO_SIDED|95.0|0.765|2.075|||Regression, Logistic|||Sensitivity Analysis: same model and null hypothesis as primary outcome but the source of vaccination records omits Medicare claims data. The primary data source had included Medicare claims data on vaccination records as a supplement to the VA data.||2.075|0.765|0.364
82488373|NCT05027464|164669633|SUPERIORITY||Odds Ratio (OR)|1.268||||0.168|TWO_SIDED|95.0|0.904|1.778|||Regression, Logistic|||"Sensitivity Analysis: same model and null hypothesis as primary analysis model but the source of data is supplemented by state level registries, named IZ Gateway, which was deployed summer of 2023 where Veteran records of vaccination could be updated at the VA from external vaccination facilities if the Veteran entered the VA in the same state as that vaccination facility. The primary analysis data contains Medicare claims data in this analysis, too."||1.778|0.904|0.168
82488374|NCT05027464|164669634|SUPERIORITY||Odds Ratio (OR)|0.993||||0.976|TWO_SIDED|95.0|0.643|1.535||P \< 0.05 and no multiple comparison adjustment|Regression, Logistic|We adjusted for patient demographics as fixed effects and randomization units and associated clinics as a three-level random effect.|An odds ratio above one indicates favoring the intervention arm over the usual care arm.|Power calculation is similar to the calculation for the primary outcome. Null hypothesis is described in the outcome comparison related to this statistical analysis plan.||1.535|0.643|.976
82488375|NCT05027464|164669634|SUPERIORITY||Odds Ratio (OR)|0.978||||0.893|TWO_SIDED|95.0|0.702|1.361|||Regression, Logistic|GLMM||Sensitivity analysis, same null hypothesis and model as primary analysis but different pool of patients: Not constrained to Veterans with at least one primary care visit||1.361|0.702|0.893
82488376|NCT05027464|164669634|SUPERIORITY||Odds Ratio (OR)|0.961||||0.863|TWO_SIDED|95.0|0.613|1.507|||Regression, Logistic|GLMM||Sensitivity Analysis: same model and null hypothesis as primary outcome but the source of vaccination records omits Medicare claims data. The primary data source had included Medicare claims data on vaccination records as a supplement to the VA data.||1.507|0.613|0.863
82488377|NCT05027464|164669634|SUPERIORITY||Odds Ratio (OR)|1.011||||0.963|TWO_SIDED|95.0|0.636|1.607|||Regression, Logistic|GLMM||"Sensitivity Analysis: same model and null hypothesis as primary analysis model but the source of data is supplemented by state level registries, named IZ Gateway, which was deployed summer of 2023 where Veteran records of vaccination could be updated at the VA from external vaccination facilities if the Veteran entered the VA in the same state as that vaccination facility. The primary analysis data contains Medicare claims data in this analysis, too."||1.607|0.636|0.963
82559523|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
82559524|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
82559525|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
82651921|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|82.0||||||95.0|58.8|92.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||92.8|58.8|
82488378|NCT05027464|164669635|SUPERIORITY||Odds Ratio (OR)|1.191||||0.395|TWO_SIDED|95.0|0.796|1.781||Threshold: P \< 0.05; not adjusted for multiple comparisons|Regression, Logistic|Generalized linear mixed modeling adjusted for baseline covariates and hierarchical levels for randomization units and clinics within them.|Odds ratio in favor of intervention arm (MI) has values higher than 1.|No power calculation for this exploratory outcome. Null hypothesis is that both arms will have equal uptake rates of the COVID-19 Booster vaccination during the study period.||1.781|0.796|0.395
82488379|NCT05027464|164669636|SUPERIORITY||Odds Ratio (OR)|1.128||||0.119|TWO_SIDED|95.0|0.97|1.311||P-value was not adjusted for multiple comparisons and the p-value threshold was \< 0.05.|Regression, Logistic|Generalized linear mixed model adjusting for baseline covariates and flu vaccine in prior year, with hierarchical random effects for ran. unit/site|Odds ratio in favor of novel intervention arm has values higher than 1|Null hypothesis is that both study arms will have equal rates of flu vaccination uptake during the study period. No power calculation since this outcome is exploratory.||1.311|0.97|0.119
82488380|NCT04066647|164669662|SUPERIORITY||Mean Difference (Final Values)|0.93928821||||0.9|TWO_SIDED||||||t-test, 2 sided|2 tailed, unpaired t test with Bonferroni correction||||||0.9
82500146|NCT01897402|164690892|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|0.6|||||TWO_SIDED|95.0|-7.9|9.1|||||Serogroup A|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||9.1|-7.9|
82559526|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
82488381|NCT05021081|164669663|OTHER|The least-square means (i.e., adjusted means) of photopic contrast sensitivity at 6 cpd was estimated separately under conditions with glare source and without glare source. This endpoint was not statistically tested, and consequentially statistical interferences was not made.|Least-square Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.114|||TWO_SIDED|95.0|-0.7|-0.21|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as With glare minus Without glare|The sample size was chosen based on resources in conjunction, subject matter experts, and any available literature. To help ensure the glare source intensity, a small pilot investigation per the ANSI Z80.12-2007 standard was interpreted to be about 20 subjects to complete Phase 1, which should be sufficient to evaluate the mean photopic contrast sensitivity with and without the glare source.||-0.21|-0.70|
82488382|NCT05021081|164669664|OTHER|The least-square means (i.e., adjusted means) of mesopic contrast sensitivity at 6 cpd was estimated separately under conditions with glare source and without glare source. This endpoint was not statistically tested, and consequentially statistical interferences was not made.|Least-square Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|95.0|-0.81|-0.36|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as With glare minus Without glare|The sample size was chosen based on resources in conjunction, subject matter experts, and any available literature. To help ensure the glare source intensity, a small pilot investigation per the ANSI Z80.12-2007 standard was interpreted to be about 20 subjects to complete Phase 1, which should be sufficient to evaluate the mean mesopic contrast sensitivity with and without the glare source.||-0.36|-0.81|
82488383|NCT05021081|164669665|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% confidence interval of the mean difference was below 0.|Least-square Mean Difference|0.019|STANDARD_ERROR_OF_MEAN|0.024|||TWO_SIDED|95.0|-0.029|0.068|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Given no historical data is available, the sample size was not determined based on any empirical sample size calculation. A power analysis was conducted using a paired sample t-test (exact method) with a 2-sided type I error rate 0.05 to estimate statistical power based on different assumptions. The power analysis showed that the statistical power for testing superiority would be approximately 80% or higher with the effect size of -0.05 (mean difference: Test minus Control).||0.068|-0.029|
82559527|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adult cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
82488384|NCT00369122|164669668|OTHER||||||||||||||||||Based on a report by Laciano, et al. an SAE rate of 5% and AE rate of 35% were considered tolerable and an SAE rate \>=20% and AE rate \>=55% excessive. If there were \>=6 pts with SAES or \>=22 pts with AEs then the treatment would be rejected. This study design provides alpha of 0.05 and power of 90%.|||
82488385|NCT02651467|164669672|SUPERIORITY_OR_OTHER||Difference of Least Square mean|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.181|-0.584||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|For the Week 8 comparisons of the two Treatments against the Placebo Control, Dunnett's multiplicity adjustment is applied.||-0.584|-1.181|<0.0001
82488386|NCT02651467|164669672|SUPERIORITY_OR_OTHER||Diference of Least Square mean|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.333|-0.738||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|For the Week 8 comparisons of the two Treatments against the control, Dunnett's multiplicity adjustment is applied.||-0.738|-1.333|<0.0001
82488387|NCT02651467|164669673|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.15||||0.2478||95.0|-0.107|0.413||From ANCOVA model with treatment as factor and baseline Schiff score as covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.413|-0.107|0.2478
82488388|NCT00408629|164669678|SUPERIORITY_OR_OTHER|||||||0.019||||||Testing for ranked co-primary endpoints occurred in hierarchical order to control for multiple testing. Week 8 remission rate was tested first. If a significant difference in group rates was found at alpha=0.05, Week 52 rate was tested at alpha=0.05.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||Assuming that 5% of the subjects in the placebo group achieve clinical remission at Week 52 or Week 8, a sample size of 250 in each treatment group will be adequate to detect a difference of at least 7 percentage points from the adalimumab group using Chi squared test with 80% power at a 0.05 two-sided significance level.||||0.019
82559528|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adult cohort: percent seropositive to DENV-2 at stud day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
82559529|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adult cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82583941|NCT04874415|164879754|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-38.3|38.2|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||38.2|-38.3|
82651922|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|50.0||||||95.0|29.1|67.8||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||67.8|29.1|
82559530|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-2 at study day 180. There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82651923|NCT00818623|165018990|SUPERIORITY_OR_OTHER_LEGACY||Percentage of participants castrated|70.4||||||95.0|49.4|83.9||||||Percentage of participants castrated (testosterone ≤0.5 ng/mL) for at least 84 days.||83.9|49.4|
82651924|NCT00818623|165018991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866||95.0|||||Log Rank|||||||0.0866
82488389|NCT00408629|164669679|SUPERIORITY_OR_OTHER|||||||0.004||||||Testing for ranked co-primary endpoints occurred in hierarchical order to control for multiple testing. Week 8 remission rate was tested first. If a significant difference in group rates was found at alpha=0.05, Week 52 rate was tested at alpha=0.05.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||Assuming that 5% of the subjects in the placebo group achieve clinical remission at Week 52 or Week 8, a sample size of 250 in each treatment group will be adequate to detect a difference of at least 7 percentage points from the adalimumab group using Chi squared test with 80% power at a 0.05 two-sided significance level.||||0.004
82488390|NCT00408629|164669680|SUPERIORITY_OR_OTHER|||||||0.047||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.047
82488391|NCT00408629|164669681|SUPERIORITY_OR_OTHER||||||<|0.001||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||<0.001
82488392|NCT00408629|164669682|SUPERIORITY_OR_OTHER|||||||0.002||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.002
82488393|NCT00408629|164669683|SUPERIORITY_OR_OTHER||||||<|0.001||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||<0.001
82488394|NCT00408629|164669684|SUPERIORITY_OR_OTHER|||||||0.032||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure were needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.032
82488395|NCT00408629|164669685|SUPERIORITY_OR_OTHER|||||||0.009||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.009
82488396|NCT00408629|164669686|SUPERIORITY_OR_OTHER|||||||0.013||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.013
82488397|NCT00408629|164669687|SUPERIORITY_OR_OTHER|||||||0.035||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.035
82488398|NCT00408629|164669688|SUPERIORITY_OR_OTHER|||||||0.058||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.058
82559531|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82651925|NCT00818623|165018992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033||95.0|||||Log Rank|||||||0.033
82651926|NCT00818623|165018993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131||95.0|||||Log Rank|||||||0.131
82651927|NCT00457665|165018996|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||||||0.94
82559532|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559533|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82559534|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adult cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
82559535|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adult cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
82559536|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|91.0|||||TWO_SIDED|95.0|78.0|97.0||||||Adult cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82583942|NCT04874415|164879754|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.0001|||||TWO_SIDED|95.0|-0.3|0.3|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.3|-0.3|
82583943|NCT04874415|164879754|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0006|||||TWO_SIDED|95.0|-0.8|0.8|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.8|-0.8|
82583944|NCT04874415|164879754|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0001|||||TWO_SIDED|95.0|-0.4|0.4|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.4|-0.4|
82583945|NCT04874415|164879755|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-31.4|31.5|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||31.5|-31.4|
82583946|NCT04874415|164879755|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-44.3|44.5|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||44.5|-44.3|
82583947|NCT04874415|164879755|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-2.7|14.2|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||14.2|-2.7|
82583948|NCT04874415|164879755|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-13.3|2.4|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.4|-13.3|
82583949|NCT04874415|164879756|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-3.1|3.1|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.1|-3.1|
82583950|NCT04874415|164879756|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0003|||||TWO_SIDED|95.0|-2.3|2.3|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||2.3|-2.3|
82559537|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82559538|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adult cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82583951|NCT04874415|164879756|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|0.003|||||TWO_SIDED|95.0|-3.4|3.4|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||3.4|-3.4|
82583952|NCT04874415|164879756|SUPERIORITY|Main effects of each intervention factor were estimated using generalized linear models with log link, including all prespecified two-way interactions.|Mean Difference (Final Values)|-0.0005|||||TWO_SIDED|95.0|-0.5|0.5|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.5|-0.5|
82583953|NCT04874415|164879757|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|0.00000001|||||TWO_SIDED|95.0|-0.00002|0.00002|||||Once daily text message is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.00002|-0.00002|
82583954|NCT04874415|164879757|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Fixed Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
82583955|NCT04874415|164879757|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).)|Mean Difference (Final Values)|0.00002|||||TWO_SIDED|95.0|-0.03|0.03|||||Loss Framed Incentive is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.03|-0.03|
82583956|NCT04874415|164879757|SUPERIORITY|Main effects were estimated using generalized linear models with log link. No interactions were included (failure to converge).|Mean Difference (Final Values)|-0.000003|||||TWO_SIDED|95.0|-0.004|0.004|||||Daily Step Count Goal is reference group. Least-squares means (marginal means) were calculated, averaging across levels of the other factors with equal weighting (asbalanced).|||0.004|-0.004|
82583957|NCT05062759|164879758|OTHER||Geometric Least square (LS) mean ratio|0.65|||||TWO_SIDED|90.0|0.43|0.98||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model.||0.98|0.43|
82583958|NCT05062759|164879758|OTHER||Geometeric LS mean ratio|0.83|||||TWO_SIDED|90.0|0.6|1.15||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.15|0.60|
82500161|NCT01702454|164691036|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|45.31|||||TWO_SIDED|95.0|36.58|53.3||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||53.3|36.58|
82500162|NCT01702454|164691036|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|37.86||||||95.0|28.83|46.26||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||46.26|28.83|
82583959|NCT05062759|164879758|OTHER||Geometric LS mean ratio|0.99|||||TWO_SIDED|90.0|0.71|1.37||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.37|0.71|
82583960|NCT05062759|164879759|OTHER||Geometeric LS mean ratio|0.73|||||TWO_SIDED|90.0|0.42|1.28||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.28|0.42|
82583961|NCT05062759|164879759|OTHER||Geometeric LS mean ratio|1.25|||||TWO_SIDED|90.0|0.72|2.17||||||Influenza A H3N2 Ratio of placebo over tezepelumab. Results based on ANCOVA model||2.17|0.72|
82583962|NCT05062759|164879759|OTHER||Geometric LS mean ratio|1.23|||||TWO_SIDED|90.0|0.73|2.07||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||2.07|0.73|
82583963|NCT05062759|164879759|OTHER||Geometeric LS mean ratio|0.89|||||TWO_SIDED|90.0|0.54|1.48||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.48|0.54|
82500163|NCT01702454|164691036|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion|Difference in percentages|56.0||||||95.0|48.32|63.04||||||"To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.~B/Hu-Wuj = B/Hubei-Wujiagang/158/2009 (Yamagata)"||63.04|48.32|
82500164|NCT01702454|164691038|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|62.43|||||TWO_SIDED|95.0|55.27|68.89||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains||68.89|55.27|
82500165|NCT01702454|164691038|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|47.4|||||TWO_SIDED|95.0|39.08|55.06||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||55.06|39.08|
82500166|NCT01702454|164691038|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion|Difference in SPR|56.68|||||TWO_SIDED|95.0|49.44|63.43||||||To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||63.43|49.44|
82500167|NCT01702454|164691038|NON_INFERIORITY_OR_EQUIVALENCE|SPR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in SPR|56.72|||||TWO_SIDED|95.0|49.41|63.49||||||"To assess the immune response in terms of SPR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.~B/Hu-Wuj = B/Hubei-Wujiagang/158/2009 (Yamagata)"||63.49|49.41|
82500168|NCT00710710|164691071|OTHER||Maximum likelihood estimation|0.0233||||0.7021|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.7021
82500169|NCT00710710|164691071|OTHER||Maximum likelihood estimation|0.0233||||0.9156|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.9156
82583964|NCT05062759|164879760|OTHER||Geometeric LS mean ratio|0.74|||||TWO_SIDED|90.0|0.52|1.04||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.04|0.52|
82488399|NCT00408629|164669689|SUPERIORITY_OR_OTHER|||||||0.028||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.028
82559539|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adult cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82559540|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
82583965|NCT05062759|164879760|OTHER||Geometeric LS mean ratio|0.96|||||TWO_SIDED|90.0|0.72|1.29||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.29|0.72|
82583966|NCT05062759|164879760|OTHER||Geometric LS mean ratio|1.03|||||TWO_SIDED|90.0|0.73|1.46||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.46|0.73|
82583967|NCT05062759|164879761|OTHER||Geometeric LS mean ratio|0.79|||||TWO_SIDED|90.0|0.51|1.25||||||Influenza A H1N1 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.25|0.51|
82583968|NCT05062759|164879761|OTHER||Geometeric LS mean ratio|0.76|||||TWO_SIDED|90.0|0.42|1.28||||||Influenza A H3N2 Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.28|0.42|
82583969|NCT05062759|164879761|OTHER||Geometric LS mean ratio|0.99|||||TWO_SIDED|90.0|0.49|1.99||||||Influenza B Victoria Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.99|0.49|
82583970|NCT05062759|164879761|OTHER||Geometeric LS mean ratio|1.03|||||TWO_SIDED|90.0|0.7|1.52||||||Influenza B Yamagata Lineage Ratio of placebo over tezepelumab. Results based on ANCOVA model||1.52|0.70|
82488400|NCT00408629|164669690|SUPERIORITY_OR_OTHER|||||||0.006||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.006
82500170|NCT00710710|164691071|OTHER||Maximum likelihood estimation|0.0233||||0.7021|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.7021
82500171|NCT00710710|164691071|OTHER||Maximum likelihood estimation|0.0233||||0.9156|TWO_SIDED|95.0|0.0006|0.1229||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.1229|0.0006|0.9156
82500172|NCT00710710|164691074|OTHER||Hazard Ratio (HR)|1.22||||0.38|TWO_SIDED|95.0|0.78|1.91|||Regression, Cox||if HR is below 1, then 60mg BI 2536 IV on day 1-3 is better.|||1.91|0.78|0.38
82500173|NCT00710710|164691075|OTHER||Hazard Ratio (HR)|1.1||||0.69|TWO_SIDED|95.0|0.68|1.78|||Regression, Cox||if HR is below 1, then 60mg BI 2536 IV on day 1-3 is better.|||1.78|0.68|0.69
82500174|NCT00710710|164691076|OTHER||Maximum likelihood estimation|0.0||||0.9161|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9161
82500175|NCT00710710|164691076|OTHER||Maximum likelihood estimation|0.0||||0.9842|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9842
82500176|NCT00710710|164691076|OTHER||Maximum likelihood estimation|0.0||||0.9161|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.056, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9161
82500177|NCT00710710|164691076|OTHER||Maximum likelihood estimation|0.0||||0.9842|TWO_SIDED|95.0|0.0|0.0822||p0 = 0.092, one sided exact binomial test with a 2.5% significance level|Exact binomial test|||Confirmed objective response, comparison with historical controls (Gemcitabine)||0.0822|0.0000|0.9842
82500178|NCT03510884|164691083|SUPERIORITY|Bonferroni adjustment was applied to handle multiplicity for the comparison of each alirocumab dosing regimen group versus its placebo group for the primary efficacy endpoint.|LS mean difference|-43.3|STANDARD_ERROR_OF_MEAN|5.5|<|0.0001|TWO_SIDED|97.5|-56.0|-30.7||The threshold for statistical significance was 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per interactive voice response system (IVRS), time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-30.7|-56.0|<0.0001
82500179|NCT03510884|164691083|SUPERIORITY|Bonferroni adjustment was applied to handle multiplicity for the comparison of each alirocumab dosing regimen group versus its placebo group for the primary efficacy endpoint.|LS mean difference|-33.8|STANDARD_ERROR_OF_MEAN|5.5|<|0.0001|TWO_SIDED|97.5|-46.4|-21.2||The threshold for statistical significance was 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-21.2|-46.4|<0.0001
82488401|NCT00408629|164669691|SUPERIORITY_OR_OTHER|||||||0.035||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.035
82488402|NCT00408629|164669692|SUPERIORITY_OR_OTHER|||||||0.002||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.002
82488403|NCT00408629|164669693|SUPERIORITY_OR_OTHER|||||||0.007||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.007
82488404|NCT00408629|164669694|SUPERIORITY_OR_OTHER|||||||0.006||||||Testing of ranked secondary measures was only started if significant group differences existed for both co-primary measures. Significant results for higher-ranked measure was needed to test next lower-ranked measure to control for multiple testing.|Cochran-Mantel-Haenszel|Stratification levels for Cochran-Mantel-Haenszel = prior anti-TNF versus anti-TNF-naive.||The Cochran-Mantel-Haenszel test was used to test the null hypothesis of no difference between adalimumab and placebo. Treatment differences were deemed statistically significant at a significance level of 0.05.||||0.006
82488405|NCT00191906|164669695|SUPERIORITY_OR_OTHER|||||||0.504||95.0||||P-value for Overall. No adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.504
82488406|NCT00191906|164669696|SUPERIORITY_OR_OTHER|||||||0.97||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C versus Normal controls.||||0.970
82488407|NCT00191906|164669697|SUPERIORITY_OR_OTHER|||||||0.579||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C+RD versus RD controls.||||0.579
82488408|NCT00191906|164669697|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests are performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for RD versus RD controls.||||0.144
82488409|NCT00191906|164669698|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment by study-arm-interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.005
82488410|NCT00191906|164669699|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.097
82488411|NCT00191906|164669700|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for study arm, treatment sequence, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||0.003
82488412|NCT00191906|164669701|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
82488413|NCT00191906|164669702|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
82559541|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|20.0|||||TWO_SIDED|95.0|10.0|36.0||||||Adult cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||36|10|
82559542|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|77.0|||||TWO_SIDED|95.0|61.0|88.0||||||Adult cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|61|
82488414|NCT00191906|164669703|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
82488415|NCT00191906|164669704|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||Least Squares Mean (LSMean) values were calculated from the measurements taken at baseline and at the end of each 4 week therapy period.||||<0.001
82488416|NCT00191906|164669705|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction.||||||0.094
82488417|NCT00191906|164669706|SUPERIORITY_OR_OTHER|||||||0.312||95.0||||P-value for Overall. There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|Repeated Measures|Repeated measures model including terms for baseline, study arm, treatment sequence, visit, treatment, and treatment-by-study-arm interaction||||||0.312
82488418|NCT00191906|164669707|SUPERIORITY_OR_OTHER|||||||0.508||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C versus normal controls.||||0.508
82488419|NCT00191906|164669708|SUPERIORITY_OR_OTHER|||||||0.769||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for ADHD-C versus normal controls||||0.769
82488420|NCT00191906|164669709|SUPERIORITY_OR_OTHER|||||||0.302||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariates for ADHD-C+RD versus RD controls.||||0.302
82488421|NCT00191906|164669709|SUPERIORITY_OR_OTHER|||||||0.663||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for RD versus RD controls.||||0.663
82488422|NCT00191906|164669710|SUPERIORITY_OR_OTHER|||||||0.07||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for ADHD-C+RD versus RD controls.||||0.070
82559543|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|80.0|||||TWO_SIDED|95.0|64.0|90.0||||||Adult cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|64|
82559544|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adult cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
82559545|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adult cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
82559546|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|60.0|||||TWO_SIDED|95.0|44.0|74.0||||||Adult cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||74|44|
82559547|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|63.0|||||TWO_SIDED|95.0|46.0|77.0||||||Adult cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||77|46|
82559548|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|26.0|||||TWO_SIDED|95.0|14.0|42.0||||||Adolescent cohort: percent seropositive to DENV-1 a study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||42|14|
82559549|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
82559550|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
82559551|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
82559552|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
82559553|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|43.0|||||TWO_SIDED|95.0|28.0|59.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||59|28|
82559554|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|46.0|||||TWO_SIDED|95.0|30.0|62.0||||||Adolescent cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||62|30|
82559555|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|34.0|||||TWO_SIDED|95.0|21.0|51.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||51|21|
82559556|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|100.0|||||TWO_SIDED|95.0|90.0|100.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|90|
82559557|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559558|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559559|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|85.0|||||TWO_SIDED|95.0|71.0|94.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82559560|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|74.0|||||TWO_SIDED|95.0|58.0|86.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||86|58|
82559561|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|52.0|81.0||||||Adolescent cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||81|52|
82583971|NCT03405792|164879770|OTHER|||||||||||||||||We will use one-sample log-rank test to compare PFS between the triple combination arm relative to the historical control arm.|We took a look at median survival time and CI of our population and we compared it to the median PFS and CI of the historical control descriptively. There is no yielded P value.|||
82583972|NCT03405792|164879771|OTHER||||||||||||||||||Every participant (26/26; 100%) experienced an adverse event.|||
82583973|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.023||0.0002|TWO_SIDED|95.0|0.042|0.132||First step of closed testing procedure, where the active treatments are compared to placebo. If this statistical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as random effect.||Tio R5 minus Placebo||0.132|0.042|0.0002
82583974|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.059|0.149||Second step of closed testing procedure. If this statistical test significant at the 0.05 alpha level then proceed to comparison of the next lower dose to placebo.|Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as random effect.||Tio R2.5 minus Placebo||0.149|0.059|<.0001
82583975|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.075|STANDARD_ERROR_OF_MEAN|0.023||0.0011|TWO_SIDED|95.0|0.03|0.12|||Mixed model repeated measures (MMRM)|This MMRM model includes treatment, period and baseline as fixed effects, and patient as a random effect.||Tio R1.25 minus Placebo||0.120|0.030|0.0011
82583976|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.034|0.057|||Mixed model repeated measures (MMRM)|||Tio R5 minus Tio R1.25||0.057|-0.034|
82488423|NCT00191906|164669710|SUPERIORITY_OR_OTHER|||||||0.179||95.0||||There were no adjustments for multiple comparisons - not applicable. All statistical tests were performed using a 0.05 significance level.|ANCOVA|||ANCOVA model with baseline value, study arm as covariate for RD versus RD controls.||||0.179
82559562|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|37.0|||||TWO_SIDED|95.0|23.0|54.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||54|23|
82559563|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82559564|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|94.0|||||TWO_SIDED|95.0|81.0|98.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||98|81|
82583977|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.017|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.063|0.028|||Mixed model repeated measures (MMRM)|||Tio R5 minus Tio R2.5||0.028|-0.063|
82583978|NCT01383499|164879774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029|STANDARD_ERROR_OF_MEAN|0.023|||TWO_SIDED|95.0|-0.016|0.074|||Mixed models repeated measures (MMRM)|||Tio R2.5 minus Tio R1.25||0.074|-0.016|
82583979|NCT01079663|164879800|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.1629|TWO_SIDED|95.0|-1.19|0.2|||Mixed Models Analysis|||||0.20|-1.19|0.1629
82488424|NCT00333801|164669713|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82583980|NCT01079663|164879801|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.0347|TWO_SIDED|95.0|-1.46|-0.06|||Mixed Models Analysis|||||-0.06|-1.46|0.0347
82583981|NCT00372229|164879807|SUPERIORITY_OR_OTHER_LEGACY||Difference|-28.5|STANDARD_ERROR_OF_MEAN|5.45|||TWO_SIDED|96.0|-39.7|-17.3||||||||-17.3|-39.7|
82488425|NCT00333801|164669714|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82583982|NCT00372229|164879808|SUPERIORITY_OR_OTHER_LEGACY||Difference|-11.3|STANDARD_ERROR_OF_MEAN|3.83|||TWO_SIDED|96.0|-19.2|-3.4||||||||-3.4|-19.2|
82583983|NCT00372229|164879809|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2509|STANDARD_ERROR_OF_MEAN|0.1838||0.1739|TWO_SIDED|99.0|-0.2271|0.7289|||F-test|||||0.7289|-0.2271|0.1739
82583984|NCT00372229|164879842|OTHER|Descriptive analysis|Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|8.71|||TWO_SIDED|95.0|-20.2|13.9||||||||13.9|-20.2|
82583985|NCT00372229|164879843|OTHER|Descriptive analysis|Mean Difference (Final Values)|12.1|STANDARD_ERROR_OF_MEAN|6.21|||TWO_SIDED|95.0|-0.1|24.2||||||||24.2|-0.1|
82488426|NCT00333801|164669715|SUPERIORITY_OR_OTHER_LEGACY||Cohen's d|0.93|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82559565|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|85.0|99.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||99|85|
82559566|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|74.0|95.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||95|74|
82559567|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|57.0|||||TWO_SIDED|95.0|41.0|72.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||72|41|
82583986|NCT03536143|164879852|SUPERIORITY|||||||0.0216|||||||Log Rank|||||||0.0216
82583987|NCT03536143|164879853|SUPERIORITY|||||||0.0009|||||||Log Rank|||||||0.0009
82583988|NCT01878214|164879854|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||||||0.76
82583989|NCT01878214|164879855|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Regression, Logistic|||||||0.79
82583990|NCT01878214|164879856|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Regression, Logistic|||Smoking frequency||||0.63
82488427|NCT03633617|164669720|SUPERIORITY||Difference in proportion|55.3|||<|0.0001|TWO_SIDED|95.0|39.58|71.04|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||71.04|39.58|<0.0001
82488428|NCT03633617|164669720|SUPERIORITY||Difference in proportion|56.0|||<|0.0001|TWO_SIDED|95.0|43.44|68.54|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||68.54|43.44|<0.0001
82583991|NCT01878214|164879856|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Regression, Logistic|||Smoking quantity||||0.30
82583992|NCT01878214|164879857|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Regression, Logistic|||||||0.28
82583993|NCT01878214|164879858|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Regression, Logistic|||Motivation to quit||||0.09
82583994|NCT01878214|164879858|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Regression, Logistic|||Thinking about quitting||||0.04
82583995|NCT02527343|164879862|SUPERIORITY||Difference in Least Square Mean|-66.83||||0.0009|TWO_SIDED|95.0|-104.17|-29.48|||ANCOVA|||||-29.48|-104.17|0.0009
82583996|NCT02527343|164879863|SUPERIORITY||Difference in Least Square Mean|-25.69||||0.0736|TWO_SIDED|95.0|-54.03|2.65|||ANCOVA|||Month 6||2.65|-54.03|0.0736
82583997|NCT02527343|164879863|SUPERIORITY||Difference in Least Square Mean|-53.33||||0.0039|TWO_SIDED|95.0|-87.71|-18.95|||ANCOVA|||Month 12||-18.95|-87.71|0.0039
82583998|NCT02527343|164879865|SUPERIORITY||Difference in Least Square Mean|0.3||||0.4108|TWO_SIDED|95.0|-0.43|1.03|||ANCOVA|||Month 3||1.03|-0.43|0.4108
82583999|NCT02527343|164879865|SUPERIORITY||Difference in Least Square Mean|0.19||||0.7308|TWO_SIDED|95.0|-0.95|1.34|||ANCOVA|||Month 6||1.34|-0.95|0.7308
82584000|NCT02527343|164879865|SUPERIORITY||Difference in Least Square Mean|-0.2||||0.7511|TWO_SIDED|95.0|-1.45|1.06|||ANCOVA|||Month 9||1.06|-1.45|0.7511
82488429|NCT03633617|164669720|SUPERIORITY||Difference in proportion|53.5|||<|0.0001|TWO_SIDED|95.0|41.2|65.79|||Cochran-Mantel-Haenszel||Difference is dupilumab minus placebo|||65.79|41.20|<0.0001
82488430|NCT03633617|164669721|SUPERIORITY||LS Mean Difference|-12.32||||0.0004|TWO_SIDED|95.0|-19.107|-5.537|||ANCOVA||Dupilumab group vs. Placebo|||-5.537|-19.107|0.0004
82488431|NCT03633617|164669721|SUPERIORITY||LS Mean Difference|-0.51||||0.8393|TWO_SIDED|95.0|-5.423|4.406|||ANCOVA||Dupilumab group vs. Placebo|||4.406|-5.423|0.8393
82488432|NCT03633617|164669721|SUPERIORITY||LS Mean Difference|-9.92|||<|0.0001|TWO_SIDED|95.0|-14.811|-5.022|||ANCOVA||Dupilumab group vs. Placebo|||-5.022|-14.811|<0.0001
82559568|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|57.0|||||TWO_SIDED|95.0|41.0|72.0||||||Adolescent cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||72|41|
82559569|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|0.0|||||TWO_SIDED|95.0|0.0|10.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||10|0|
82584001|NCT02527343|164879865|SUPERIORITY||Difference in Least Square Mean|-0.19||||0.7659|TWO_SIDED|95.0|-1.52|1.13|||ANCOVA|||Month 12||1.13|-1.52|0.7659
82584002|NCT02700945|164879882|SUPERIORITY|The 12-month Kaplan-Meier estimate will be reported for each arm. The hazard ratio estimate for the treatment effect with its 95% confidence interval will be reported.|Hazard Ratio (HR)|7.4|||<|0.001|TWO_SIDED|95.0|2.6|21.3||A priori threshold is .05|Log Rank||A hazard ratio of \> 1 indicates that continuous monitoring arm is superior to control arm in detecting AF.|H0: h(t) = hT(t) for t ≤ 12 months HA: hC(t) ≠ hT(t) for t ≤ 12 months where hT(t) and hC(t) are the hazard functions of first detected and adjudicated AF at time t for subjects with and without the Reveal LINQ diagnostics for AF, respectively. Hazard functions and survival functions are transformations of each other.||21.3|2.6|<0.001
82559570|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|67.0|92.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|67|
82559571|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|77.0|||||TWO_SIDED|95.0|61.0|88.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|61|
82559572|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|71.0|||||TWO_SIDED|95.0|55.0|84.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|55|
82559573|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|66.0|||||TWO_SIDED|95.0|49.0|79.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||79|49|
82559574|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|60.0|||||TWO_SIDED|95.0|44.0|74.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||74|44|
82559575|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|43.0|||||TWO_SIDED|95.0|28.0|59.0||||||Adolescent cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||59|28|
82559576|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|31.0|||||TWO_SIDED|95.0|18.0|47.0||||||Children cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||47|18|
82559577|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|53.0|82.0||||||Children cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||82|53|
82559578|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|61.0|||||TWO_SIDED|95.0|45.0|75.0||||||Children cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||75|45|
82559579|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|56.0|||||TWO_SIDED|95.0|40.0|70.0||||||Children cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||70|40|
82559580|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||Children cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
82559581|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||Children cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
82584003|NCT04018092|164879895|SUPERIORITY|||||||0.573||||||Only 2 values, thus not necessary to adjust.|Regression, Linear|The independent variable = intervention (active, sham); Covariates=baseline scores, site (Florida, Arizona), age (yrs), sex (m,f), and education (yrs)||linear regression was used to analyze pre-post intervention changes in the active vs sham group. Covariates in regression were baseline cognitive performance, site (University of Florida, University of Arizona), age (yrs), sex (F, M) and education (years)||||0.573
82584004|NCT04018092|164879896|SUPERIORITY|||||||0.043||||||Default Mode Network Analysis: Regression was performed using permutation tests with 5000 iterations for significance and to address multiple comparisons.|Regression, Linear|Covariates: Baseline network segregation values, Age, Sex, Education years, study site Baseline white matter hyperintensity volume. DOF = (1, 135)||||||0.043
82584005|NCT04018092|164879896|SUPERIORITY|||||||0.285||||||Frontoparietal Control Network Analysis: Regression was performed using permutation tests with 5000 iterations for significance and to address multiple comparisons.|Regression, Linear|Covariates: Baseline network segregation values, age, sex, education years, study site and baseline white matter hyperintensity volume. DOF = (1, 135)||||||0.285
82584006|NCT04745026|164879900|SUPERIORITY||Least square mean difference|3.37|STANDARD_ERROR_OF_MEAN|1.931|=|0.085|TWO_SIDED|95.0|-0.48|7.21||Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).|Mixed models for repeated measures|||Irritability (Week 12)||7.21|-0.48|=0.085
82559582|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|36.0|||||TWO_SIDED|95.0|22.0|54.0||||||Children cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||54|22|
82559583|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|33.0|||||TWO_SIDED|95.0|20.0|50.0||||||Children cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||50|20|
82559584|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559585|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|75.0|96.0||||||Children cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|75|
82559586|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559587|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||children cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
82559588|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||Children cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
82559589|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|58.0|||||TWO_SIDED|95.0|42.0|73.0||||||Children cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||73|42|
82559590|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|36.0|||||TWO_SIDED|95.0|22.0|52.0||||||Children cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||52|22|
82559591|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82584007|NCT04745026|164879900|SUPERIORITY||Least square mean difference|1.14|STANDARD_ERROR_OF_MEAN|1.16|=|0.3107|TWO_SIDED|95.0|-1.08|3.36|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Social Withdrawal Week 12)||3.36|-1.08|=0.3107
82584008|NCT04745026|164879900|SUPERIORITY||Least square mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.695|=|0.9513|TWO_SIDED|95.0|-1.34|1.42|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Stereotypic Behavior (Week 12)||1.42|-1.34|=0.9513
82584009|NCT04745026|164879900|SUPERIORITY||Least square mean difference|2.01|STANDARD_ERROR_OF_MEAN|1.943|=|0.305|TWO_SIDED|95.0|-1.86|5.88|||Mixed models repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Hyperactivity/Noncompliance (Week 12)||5.88|-1.86|=0.305
82584010|NCT04745026|164879900|SUPERIORITY||Least square mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.517|=|0.4754|TWO_SIDED|95.0|-1.4|0.66|||Mixed models repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Inappropriate Speech (Week 12)||0.66|-1.4|=0.4754
82584011|NCT04745026|164879901|SUPERIORITY||Least square mean difference|0.45|STANDARD_ERROR_OF_MEAN|2.36|=|0.8506|TWO_SIDED|95.0|-4.26|5.15|||Mixed models for repeated measures|Randomization factors, baseline score, visit, treatment arm, visit by treatment arm (fixed), and visit repeated within each patient (repeated).||Week 12||5.15|-4.26|=0.8506
82651928|NCT01620489|165019011|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.66|||<|0.0001||95.0|-0.9|-0.43||Adjustment for multiple comparisons was not used since there was only one primary endpoint.|Mixed Models Analysis|||The null hypothesis of no treatment difference was tested using a two-sided test based on a mixed model repeated measurement (MMRM) analysis. The model included treatment, country, stratification groups (6 groups from cross-classifying renal function category (2 levels: eGFR\<45 and ≥45 mL/min) and the background insulin treatment category (3 levels: basal, premix or no insulin)) as fixed effects factors and baseline HbA1c as a covariate, all nested within week.||-0.43|-0.90|<0.0001
82488433|NCT03633617|164669722|SUPERIORITY||LS Mean Difference|-68.26|||<|0.0001|TWO_SIDED|95.0|-86.896|-49.615|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-49.615|-86.896|<0.0001
82559592|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|92.0|||||TWO_SIDED|95.0|78.0|97.0||||||Children cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||97|78|
82559593|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|86.0|100.0||||||Children cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|86|
82584012|NCT04745026|164879902|SUPERIORITY||Odds Ratio (OR)|1.22|||=|0.7087|TWO_SIDED|95.0|0.43|3.51|||Regression, Logistic|Includes treatment arm, randomization variables and baseline score (CGI-S) covariates. Responders achieved a score of 1 or 2 at post-baseline visits.||Responders with 'Very Much Improved' or 'Much Improved' response at week 12||3.51|0.43|=0.7087
82584013|NCT04745026|164879903|SUPERIORITY||||||=|0.6108|||||||Cochran-Mantel-Haenszel|||Week 12||||=0.6108
82584014|NCT05478499|164879914|SUPERIORITY||Odds Ratio (OR)|6.2|||<|0.0001|TWO_SIDED|95.0|2.5|15.3|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Full Analysis Set||15.3|2.5|<0.0001
82584015|NCT05478499|164879914|SUPERIORITY||Odds Ratio (OR)|7.0|||<|0.0001|TWO_SIDED|95.0|2.7|18.4|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Patient sub-population (s-PGA ≥ 3)||18.4|2.7|<0.0001
82584016|NCT05478499|164879915|SUPERIORITY||Odds Ratio (OR)|40.2|||<|0.0001||95.0|4.6|352.0|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Full Analysis Set||352.0|4.6|<0.0001
82584017|NCT05478499|164879915|SUPERIORITY||Odds Ratio (OR)|37.3|||<|0.0001|TWO_SIDED|95.0|4.4|317.6|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|Patient sub-population (s-PGA ≥ 3)||317.6|4.4|<0.0001
82488434|NCT03633617|164669722|SUPERIORITY||LS Mean Difference|-79.22|||<|0.0001|TWO_SIDED|95.0|-103.098|-55.338|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-55.338|-103.098|<0.0001
82488435|NCT03633617|164669722|SUPERIORITY||LS Mean Difference|-88.62|||<|0.0001|TWO_SIDED|95.0|-112.194|-65.046|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-65.046|-112.194|<0.0001
82488436|NCT03633617|164669723|SUPERIORITY||LS Mean Difference|-37.48||||0.0002|TWO_SIDED|95.0|-57.222|-17.745|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-17.745|-57.222|0.0002
82488437|NCT03633617|164669723|SUPERIORITY||LS Mean Difference|-4.35||||0.5243|TWO_SIDED|95.0|-17.734|9.038|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||9.038|-17.734|0.5243
82559594|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
82559595|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
82584018|NCT05478499|164879916|SUPERIORITY||Adjusted mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-3.3|-1.6|||analysis of covariance model||analysis of covariance model|Full Analysis Set||-1.6|-3.3|<0.0001
82584019|NCT05478499|164879916|SUPERIORITY||Adjusted mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-3.3|-1.5|||analysis of covariance model||analysis of covariance model|Patient sub-population (s-PGA ≥ 3)||-1.5|-3.3|<0.0001
82488438|NCT03633617|164669723|SUPERIORITY||LS Mean Difference|-22.89||||0.0008|TWO_SIDED|95.0|-36.272|-9.513|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-9.513|-36.272|0.0008
82488439|NCT03633617|164669724|SUPERIORITY||LS Mean Difference|-0.759|||<|0.0001|TWO_SIDED|95.0|-0.9061|-0.6127|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.6127|-0.9061|<0.0001
82488440|NCT03633617|164669724|SUPERIORITY||LS Mean Difference|-0.666|||<|0.0001|TWO_SIDED|95.0|-0.7773|-0.5538|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-0.5538|-0.7773|<0.0001
82559596|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||Children cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
82488441|NCT03633617|164669724|SUPERIORITY||LS Mean Difference|-0.682|||<|0.0001|TWO_SIDED|95.0|-0.7929|-0.5707|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5707|-0.7929|<0.0001
82488442|NCT03633617|164669725|SUPERIORITY||LS Mean Difference|-0.741|||<|0.0001|TWO_SIDED|95.0|-0.8842|-0.5978|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5978|-0.8842|<0.0001
82559597|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Children cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
82559598|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||Children cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
82488443|NCT03633617|164669725|SUPERIORITY||LS Mean Difference|-0.661|||<|0.0001|TWO_SIDED|95.0|-0.7674|-0.554|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-0.5540|-0.7674|<0.0001
82488444|NCT03633617|164669725|SUPERIORITY||LS Mean Difference|-0.672|||<|0.0001|TWO_SIDED|95.0|-0.7778|-0.5655|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-0.5655|-0.7778|<0.0001
82488445|NCT03633617|164669726|SUPERIORITY||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.91|-1.84|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-1.84|-3.91|<0.0001
82584020|NCT05478499|164879917|SUPERIORITY||Odds Ratio (OR)|23.9|||<|0.0001|TWO_SIDED|95.0|5.4|105.6|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel|||105.6|5.4|<0.0001
82488446|NCT03633617|164669726|SUPERIORITY||LS Mean Difference|-3.9|||<|0.0001|TWO_SIDED|95.0|-4.86|-3.02|||ANCOVA||Dupilumab 300 mg Q2W vs Placebo|||-3.02|-4.86|<0.0001
82584021|NCT04426851|164879923|OTHER||Ratio of the geometric means (%)|45.9|||||TWO_SIDED|90.0|41.4|50.9|||||"Ratio was calculated as: BI 1358894 100 mg tablet fasted/BI 1358894 (C-14) 100 ug i.v.~Intra-individual geometric coefficient of variation (gCV)=14.3."|The Analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed.||50.9|41.4|
82584022|NCT04426851|164879924|OTHER||Ratio of the geometric means (%)|141.4|||||TWO_SIDED|90.0|129.3|154.6|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra -individual geometric coefficient of variation (gCV)=10.9.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||154.6|129.3|
82488447|NCT03633617|164669726|SUPERIORITY||LS Mean Difference|-3.8|||<|0.0001|TWO_SIDED|95.0|-4.77|-2.93|||ANCOVA||Dupilumab 300 mg QW vs Placebo|||-2.93|-4.77|<0.0001
82488448|NCT03633617|164669727|SUPERIORITY||Difference in proportion|57.5|||<|0.0001|TWO_SIDED|95.0|41.69|73.33|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||73.33|41.69|<0.0001
82488449|NCT03633617|164669727|SUPERIORITY||Difference in proportion|72.4|||<|0.0001|TWO_SIDED|95.0|61.05|83.7|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||83.70|61.05|<0.0001
82488450|NCT03633617|164669727|SUPERIORITY||Difference in proportion|74.9|||<|0.0001|TWO_SIDED|95.0|64.25|85.5|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||85.50|64.25|<0.0001
82488451|NCT03633617|164669728|SUPERIORITY||Hodges-Lehmann estimator|-2.25|||<|0.0001|TWO_SIDED|95.0|-2.72|-1.73|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.7300|-2.7200|<0.0001
82488452|NCT03633617|164669728|SUPERIORITY||Hodges-Lehmann estimator|-1.84|||<|0.0001|TWO_SIDED|95.0|-2.42|-1.11|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.1100|-2.4200|<0.0001
82488453|NCT03633617|164669728|SUPERIORITY||Hodges-Lehmann estimator|-1.85|||<|0.0001|TWO_SIDED|95.0|-2.44|-1.15|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.1500|-2.4400|<0.0001
82559599|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|56.0|||||TWO_SIDED|95.0|40.0|70.0||||||Children cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||70|40|
82559600|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|44.0|||||TWO_SIDED|95.0|30.0|60.0||||||children cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||60|30|
82559601|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Children cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82584023|NCT04426851|164879926|OTHER||Ratio of the geometric means (%)|65.3|||||TWO_SIDED|90.0|54.6|78.0|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra - individual geometric coefficient of variation (gCV)=22.5.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||78.0|54.6|
82584024|NCT04426851|164879927|OTHER||Ratio of the geometric means (%)|148.4|||||TWO_SIDED|90.0|138.1|159.5|||||Ratio was calculated as: BI 1358894 100 mg oral suspension fed/BI 1358894 100 mg oral suspension fasted. Intra - individual geometric coefficient of variation (gCV) =8.7.|The ANOVA model included effects accounting for the following sources of variation: 'sequence or block', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||159.5|138.1|
82584025|NCT00116337|164879938|OTHER|Statistical analyses was performed using a repeated measures analysis of variance and Paired t test. A p value of \< 0.05 was taken as indicating statistical significance.|||||<|0.05|||||||ANOVA|Statistical analyses will be performed using a repeated measures analysis of variance and Paired t test.||Each patient was served as their own control; comparisons was made at various points in the study. Clinical parameters was assessed before the study and also at several end points following the Reconditioning Phase.||||<0.05
82584026|NCT00116337|164879940|OTHER||||||<|0.05|||||||nonparametric analog (Freidman Test)|||The data prior to implantation were compared with data obtained after implantation of the cough system using a nonparametric analog (Freidman Test) to the standard repeated measures analysis of variance. Statistical significance was assumed at P\<0.05. This alpha level was chosen as a correlation for inflated type I error rates because of multiple comparisons. Results are reported as means ± SEs.||||<0.05
82584027|NCT01831856|164879951|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.5749|TWO_SIDED|95.0|0.71|1.85|||Log Rank|||The primary criterion, time to first Atrial Fibrillation (AF) recurrence or atrial flutter emergence, was described using survival curves according to the Kaplan-Meier method, reporting the first and third quartiles (Q1, Q3), median, and 95% confidence interval. The time to first AF recurrence or atrial flutter emergence was compared between treatment groups using the Log rank test. Hazard ratios and 95% confidence intervals were estimated with the Cox regression model.||1.85|0.71|0.5749
82584028|NCT00298090|164879960|SUPERIORITY_OR_OTHER||Other|0.0||||0.55|TWO_SIDED|95.0|-0.8|1.48|||repeated measures model||A repeated measures model was used to assess whether the one-minute average StO2 values differed systematically between pre and post arterial line placement.|||1.48|-0.80|0.55
82584029|NCT01708213|164879962|SUPERIORITY_OR_OTHER||Parametric Testing|0.05|||<|0.05|TWO_SIDED||||||Parametric testing|||||||<0.05
82584030|NCT02996565|164879964|SUPERIORITY||Mean Difference (Net)|-0.76||||0.45|TWO_SIDED|95.0|-2.84|1.33||The threshold for statistical significance was p = 0.05.|planned contrast|The planned contrast compares model-predicted change in SBP from index to 365 days in Telehealth Care vs. Best Practice Clinic-Based Care.|adjusted for baseline SBP, baseline DBP, baseline age, sex, Asian race|||1.33|-2.84|0.45
82584031|NCT02996565|164879965|SUPERIORITY|Random coefficients model predicted all EHR-documented DBPs from treatment group, days elapsed from index to each DBP (time) and treatment group by time with random clinic and patient intercepts.|Mean Difference (Net)|0.28||||0.64|TWO_SIDED|95.0|-0.95|1.51||The threshold for statistical significance was p\<0.05|planned contrast|The planned contrast compares the model-predicted change in DBP from index to 365 days in Telehealth care vs. index to 365 days in clinic based care.|adjusted for baseline SBP, baseline DBP, baseline age, sex, Asian race|||1.51|-0.95|0.64
82584032|NCT02996565|164879966|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.53|||<|0.001|TWO_SIDED|95.0|1.27|1.85||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood pf reporting high satisfaction at 6 months relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.85|1.27|<0.001
82584033|NCT02996565|164879967|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.25||||0.03|TWO_SIDED|95.0|1.02|1.52||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood pf reporting high satisfaction at 6 months relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.52|1.02|0.03
82584034|NCT02996565|164879968|SUPERIORITY|Random coefficients model predicted the likelihood that smoking was current 12 months by treatment group with random clinic intercept.|Risk Ratio (RR)|1.01||||0.73|TWO_SIDED|95.0|0.95|1.07||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The risk ratio compares the likelihood of current smoking at 12 months in Telehealth care vs. clinic based care|unadjusted|||1.07|0.95|0.73
82651929|NCT01620489|165019012|SUPERIORITY_OR_OTHER||Estimated odds ratio|4.48|||<|0.0001||95.0|2.46|8.18||Not adjusted for multiple comparisons|Regression, Logistic|||Analysed by a logistic regression model with treatment, country and stratification groups as fixed effects and HbA1c and body weight at baseline as covariates. No weight gain was defined as change from baseline to Week 26 in body weight ≤0 kg.||8.18|2.46|<0.0001
82559602|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||Children cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
82559603|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|19.0|||||TWO_SIDED|95.0|10.0|35.0||||||children cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||35|10|
82559604|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Young children cohort: percent seropositive to DENV-1 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
82559605|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|78.0|||||TWO_SIDED|95.0|62.0|88.0||||||Young children cohort: percent seropositive to DENV-1 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||88|62|
82559606|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|42.0|||||TWO_SIDED|95.0|27.0|58.0||||||young children cohort: percent seropositive to DENV-1 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||58|27|
82559607|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|53.0|||||TWO_SIDED|95.0|37.0|68.0||||||young children cohort: percent seropositive to DENV-1 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||68|37|
82559608|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Young children cohort: percent seropositive to DENV-1 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82559609|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-1 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82559610|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||Young children cohort: percent seropositive to DENV-1 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82559611|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|11.0|||||TWO_SIDED|95.0|4.0|25.0||||||Young children cohort: percent seropositive to DENV-2 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||25|4|
82559612|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|97.0|||||TWO_SIDED|95.0|86.0|100.0||||||Young children cohort: percent seropositive to DENV-2 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||100|86|
82559613|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||young children cohort: percent seropositive to DENV-2 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82584035|NCT02996565|164879969|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.17||||0.08|TWO_SIDED|95.0|0.98|1.4||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.4|.98|0.08
82584036|NCT02996565|164879970|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.11||||0.18|TWO_SIDED|95.0|0.95|1.29||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.29|0.95|0.18
82559614|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|81.0|||||TWO_SIDED|95.0|65.0|90.0||||||Young children cohort: percent seropositive to DENV-2 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||90|65|
82559615|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|83.0|||||TWO_SIDED|95.0|68.0|92.0||||||young children cohort: percent seropositive to DENV-2 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||92|68|
82559616|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|Slope|72.0|||||TWO_SIDED|95.0|56.0|84.0||||||young children cohort: percent seropositive to DENV-2 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||84|56|
82559617|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|69.0|||||TWO_SIDED|95.0|53.0|82.0||||||Young children cohort: percent seropositive to DENV-2 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||82|53|
82559618|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|8.0|||||TWO_SIDED|95.0|3.0|22.0||||||Young children cohort: percent seropositive to DENV-3 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||22|3|
82559619|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|86.0|||||TWO_SIDED|95.0|71.0|94.0||||||Young children cohort: percent seropositive to DENV-3 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||94|71|
82559620|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|67.0|||||TWO_SIDED|95.0|50.0|80.0||||||young children cohort: percent seropositive to DENV-3 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||80|50|
82559621|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|50.0|||||TWO_SIDED|95.0|34.0|66.0||||||young children cohort: percent seropositive to DENV-3 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||66|34|
82559622|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||young children cohort: percent seropositive to DENV-3 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
82559623|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|31.0|||||TWO_SIDED|95.0|18.0|47.0||||||young children cohort: percent seropositive to DENV-3 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||47|18|
82559624|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|25.0|||||TWO_SIDED|95.0|14.0|41.0||||||young children cohort: percent seropositive to DENV-3 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||41|14|
82559625|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|3.0|||||TWO_SIDED|95.0|0.0|14.0||||||young children cohort: percent seropositive to DENV-4 at study day 0 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||14|0|
82559626|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|89.0|||||TWO_SIDED|95.0|75.0|96.0||||||young children cohort: percent seropositive to DENV-4 at study day 28 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|75|
82559627|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|72.0|||||TWO_SIDED|95.0|56.0|96.0||||||young children cohort: percent seropositive to DENV-4 at study day 56 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||96|56|
82559628|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|47.0|||||TWO_SIDED|95.0|32.0|63.0||||||young children cohort: percent seropositive to DENV-4 at study day 180 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||63|32|
82559629|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-4 at study day 360 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82651930|NCT01620489|165019013|SUPERIORITY_OR_OTHER||Estimated odds ratio|3.94|||<|0.0001||95.0|2.12|7.3||Not adjusted for multiple comparisons|Regression, Logistic|||Analysed by a logistic regression model with treatment, country and stratification groups as fixed effects and HbA1c at baseline as covariates.||7.30|2.12|<0.0001
82559630|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|28.0|||||TWO_SIDED|95.0|16.0|44.0||||||young children cohort: percent seropositive to DENV-4 at study day 720 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||44|16|
82559631|NCT02678455|164828830|OTHER|Estimate of the percentage in each sub-group in the TV005 vaccine arm.|percentage seropositive|22.0|||||TWO_SIDED|95.0|12.0|38.0||||||young children cohort: percent seropositive to DENV-4 at study day 1080 There is no comparison between arms. Only the percentage seropositive in the TV005 vaccine arm is being estimated with confidence interval.||38|12|
82559632|NCT05643885|164828861|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
82559633|NCT05643885|164828862|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
82559634|NCT05643885|164828863|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
82559635|NCT05643885|164828864|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
82559636|NCT05643885|164828865|SUPERIORITY||||||=|0.2303|||||||Weighted t-test|||||||=0.2303
82559637|NCT05643885|164828866|SUPERIORITY||||||=|0.7403|||||||Weighted t-test|||||||=0.7403
82559638|NCT05643885|164828867|SUPERIORITY||||||=|0.2414|||||||Weighted t-test|||||||=0.2414
82559639|NCT05643885|164828868|SUPERIORITY||||||=|0.2592|||||||Weighted t-test|||||||=0.2592
82559640|NCT05643885|164828869|SUPERIORITY||||||=|0.4837|||||||Weighted t-test|||||||=0.4837
82559641|NCT05643885|164828870|SUPERIORITY||||||=|0.1355|||||||Weighted t-test|||||||=0.1355
82559642|NCT05643885|164828871|SUPERIORITY||||||=|0.6066|||||||Weighted t-test|||||||=0.6066
82559643|NCT05643885|164828872|SUPERIORITY||||||=|0.3795|||||||Weighted t-test|||||||=0.3795
82559644|NCT05643885|164828873|SUPERIORITY||||||=|0.6618|||||||Weighted t-test|||||||=0.6618
82559645|NCT05643885|164828874|SUPERIORITY||||||=|0.2337|||||||Weighted t-test|||||||=0.2337
82559646|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Physician office visits||||<0.0001
82488454|NCT03633617|164669729|SUPERIORITY||Hodges-Lehmann estimator|-1.59|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.27|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.2700|-1.7400|<0.0001
82488455|NCT03633617|164669729|SUPERIORITY||Hodges-Lehmann estimator|-1.255|||<|0.0001|TWO_SIDED|95.0|-1.73|-1.05|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.0500|-1.7300|<0.0001
82488456|NCT03633617|164669729|SUPERIORITY||Hodges-Lehmann estimator|-1.275|||<|0.0001|TWO_SIDED|95.0|-1.82|-1.07|||Wilcoxon rank-sum test||Median Difference is Dupilumab minus Placebo|||-1.0700|-1.8200|<0.0001
82488457|NCT03633617|164669730|SUPERIORITY||Difference in proportion|21.9||||0.0017|TWO_SIDED|95.0|9.42|34.38|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||34.38|9.42|0.0017
82488458|NCT03633617|164669730|SUPERIORITY||Difference in proportion|27.6|||<|0.0001|TWO_SIDED|95.0|17.2|38.09|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||38.09|17.20|<0.0001
82488459|NCT03633617|164669730|SUPERIORITY||Difference in proportion|28.9|||<|0.0001|TWO_SIDED|95.0|18.36|39.46|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||39.46|18.36|<0.0001
82488460|NCT03633617|164669731|SUPERIORITY||LS Mean Difference|-0.368||||0.0077|TWO_SIDED|95.0|-0.6388|-0.0975|||ANCOVA||Dupilumab group vs Placebo|||-0.0975|-0.6388|0.0077
82488461|NCT03633617|164669731|SUPERIORITY||LS Mean Difference|-0.015||||0.8586|TWO_SIDED|95.0|-0.1782|0.1485|||ANCOVA||Dupilumab group vs. Placebo|||0.1485|-0.1782|0.8586
82559647|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||ER only visits||||<0.0001
82559648|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||laboratory or pathology visits||||<0.0001
82488462|NCT03633617|164669731|SUPERIORITY||LS Mean Difference|-0.309||||0.0002|TWO_SIDED|95.0|-0.4703|-0.1471|||ANCOVA||Dupilumab group vs. Placebo|||-0.1471|-0.4703|0.0002
82488463|NCT03633617|164669732|SUPERIORITY||LS Mean Difference|-2.0||||0.0467|TWO_SIDED|95.0|-3.87|-0.03|||ANCOVA||Dupilumab group vs. Placebo|||-0.03|-3.87|0.0467
82488464|NCT03633617|164669732|SUPERIORITY||LS Mean Difference|-0.5||||0.5469||95.0|-2.03|1.08|||ANCOVA||Dupilumab group vs. Placebo|||1.08|-2.03|0.5469
82488465|NCT03633617|164669732|SUPERIORITY||LS Mean Difference|-1.5||||0.0718|TWO_SIDED|95.0|-3.0|0.13|||ANCOVA||Dupilumab group vs. Placebo|||0.13|-3.0|0.0718
82488466|NCT03633617|164669733|SUPERIORITY||LS Mean Difference|-1.7||||0.0051|TWO_SIDED|95.0|-2.93|-0.52|||ANCOVA||Dupilumab group vs. Placebo|||-0.52|-2.93|0.0051
82488467|NCT03633617|164669733|SUPERIORITY||LS Mean Difference|-0.5||||0.3152|TWO_SIDED|95.0|-1.38|0.44|||ANCOVA||Dupilumab group vs. Placebo|||0.44|-1.38|0.3152
82488468|NCT03633617|164669733|SUPERIORITY||LS Mean Difference|-1.4||||0.0037|TWO_SIDED|95.0|-2.3|0.45|||ANCOVA||Dupilumab group vs. Placebo|||0.45|-2.30|0.0037
82488469|NCT03633617|164669734|SUPERIORITY||Difference in proportion|-12.7||||0.017|TWO_SIDED|95.0|-23.21|-2.26|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||-2.26|-23.21|0.0170
82488470|NCT03633617|164669734|SUPERIORITY||Difference in proportion|-1.3||||0.5493|TWO_SIDED|95.0|-5.51|2.93|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||2.93|-5.51|0.5493
82488471|NCT03633617|164669734|SUPERIORITY||Difference in proportion|0.0||||0.9887|TWO_SIDED|95.0|-4.9|5.02|||Cochran-Mantel-Haenszel||Difference is Dupilumab minus Placebo|||5.02|-4.9|0.9887
82488472|NCT01890746|164669763|OTHER|Bioequivalence|Ratio of geometric means (%)|114.9|||||TWO_SIDED|90.0|99.5|132.7||||||||132.7|99.5|
82488473|NCT01890746|164669764|OTHER|Bioequivalence|Ratio of geometric means (%)|105.2|||||TWO_SIDED|90.0|97.1|114.0||||||||114.0|97.1|
82488474|NCT01890746|164669765|OTHER|Bioequivalence|Ratio of geometric means (%)|92.0|||||TWO_SIDED|90.0|76.8|110.2||||||||110.2|76.8|
82488475|NCT01890746|164669766|OTHER|Bioequivalence|Ratio of geometric means (%)|101.8|||||TWO_SIDED|90.0|92.9|111.7||||||||111.7|92.9|
82488476|NCT01890746|164669767|OTHER|Bioequivalence|Ratio of geometric means (%)|121.0|||||TWO_SIDED|90.0|102.5|142.8||||||||142.8|102.5|
82488477|NCT01890746|164669768|OTHER|Bioequivalence|Ratio of geometric means (%)|106.5|||||TWO_SIDED|90.0|95.0|119.4||||||||119.4|95.0|
82488478|NCT01890746|164669769|OTHER|Bioequivalence|Ratio of geometric means (%)|91.7|||||TWO_SIDED|90.0|76.5|110.0||||||||110.0|76.5|
82488479|NCT01890746|164669770|OTHER|Bioequivalence|Ratio of geometric means (%)|101.4|||||TWO_SIDED|90.0|92.4|111.2||||||||111.2|92.4|
82488480|NCT01890746|164669771|OTHER|Bioequivalence|Ratio of geometric means (%)|120.0|||||TWO_SIDED|90.0|100.7|142.6||||||||142.6|100.7|
82488481|NCT01890746|164669772|OTHER|Bioequivalence|Ratio of geometric means (%)|105.2|||||TWO_SIDED|90.0|93.6|118.3||||||||118.3|93.6|
82488482|NCT01890746|164669773|OTHER|Bioequivalence|Ratio of geometric means (%)|80.4|||||TWO_SIDED|90.0|57.2|113.0||||||||113.0|57.2|
82488483|NCT01890746|164669774|OTHER|Bioequivalence|Ratio of geometric means (%)|106.3|||||TWO_SIDED|90.0|87.6|129.0||||||||129.0|87.6|
82488484|NCT01890746|164669775|OTHER|Bioequivalence|Ratio of geometric means (%)|127.1|||||TWO_SIDED|90.0|84.2|191.9||||||||191.9|84.2|
82488485|NCT01890746|164669776|OTHER|Bioequivalence|Ratio of geometric means (%)|110.5|||||TWO_SIDED|90.0|83.9|145.7||||||||145.7|83.9|
82488486|NCT01890746|164669777|OTHER|Bioequivalence|Ratio of geometric means (%)|286.4|||||TWO_SIDED|90.0|90.1|910.7||||||||910.7|90.1|
82488487|NCT01890746|164669778|OTHER|Bioequivalence|Ratio of geometric means (%)|202.3|||||TWO_SIDED|90.0|131.3|311.8||||||||311.8|131.3|
82488488|NCT01890746|164669780|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.7461|TWO_SIDED|95.0|0.28|2.48|||Log Rank|||||2.48|0.28|0.7461
82488489|NCT01890746|164669781|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.6175|TWO_SIDED|95.0|0.74|1.63|||Log Rank|||||1.63|0.74|0.6175
82488490|NCT01890746|164669782|SUPERIORITY||Odds Ratio (OR)|0.5281||||0.3224|TWO_SIDED|95.0|0.1084|2.2086|||Cochran-Mantel-Haenszel|||||2.2086|0.1084|0.3224
82488491|NCT01890746|164669784|SUPERIORITY|||||||0.6942|||||||Wilcoxon rank-sum test|||||||0.6942
82488492|NCT01890746|164669785|SUPERIORITY||Odds Ratio (OR)|1.1151||||0.7397|TWO_SIDED|95.0|0.5585|2.229|||Cochran-Mantel-Haenszel|||||2.2290|0.5585|0.7397
82559649|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Radiology||||<0.0001
82559650|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Surgical services||||<0.0001
82559651|NCT05643885|164828875|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||Ancillary/other services||||<0.0001
82559652|NCT05643885|164828876|SUPERIORITY||||||<|0.0001|||||||Weighted t-test|||||||<0.0001
82559653|NCT05643885|164828877|SUPERIORITY||||||=|0.729|||||||Weighted t-test|||||||=0.7290
82559654|NCT05643885|164828878|SUPERIORITY||||||=|0.3686|||||||Weighted t-test|||Physician office visits||||=0.3686
82559655|NCT05643885|164828878|SUPERIORITY||||||=|0.2747|||||||Weighted t-test|||ER only visits||||=0.2747
82584037|NCT02996565|164879971|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.98||||0.77|TWO_SIDED|95.0|0.87|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|0.87|0.77
82584038|NCT02996565|164879972|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.93||||0.32|TWO_SIDED|95.0|0.8|1.08||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.08|0.80|0.32
82584039|NCT02996565|164879973|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.95||||0.62|TWO_SIDED|95.0|0.76|1.19||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.19|0.76|0.62
82584040|NCT02996565|164879974|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.99||||0.87|TWO_SIDED|95.0|0.91|1.08||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the side effect was a problem at 6m relative to baseline in Telehealth vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.08|0.91|0.87
82584041|NCT02996565|164879975|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.95||||0.51|TWO_SIDED|95.0|0.82|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|0.82|0.51
82584042|NCT02996565|164879976|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.09||||0.41|TWO_SIDED|95.0|0.87|1.37||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.37|0.87|0.41
82584043|NCT02996565|164879977|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.9||||0.18|TWO_SIDED|95.0|0.77|1.06||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity was helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.06|0.77|0.18
82584044|NCT02996565|164879978|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.92||||0.31|TWO_SIDED|95.0|0.78|1.09||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.09|0.78|0.31
82584045|NCT02996565|164879979|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.56|TWO_SIDED|95.0|0.89|1.22||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the activity is helpful at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.22|0.89|0.56
82559656|NCT05643885|164828878|SUPERIORITY||||||=|0.1049|||||||Weighted t-test|||Laboratory or pathology visits||||=0.1049
82559657|NCT05643885|164828878|SUPERIORITY||||||=|0.8425|||||||Weighted t-test|||Radiology||||=0.8425
82559658|NCT05643885|164828878|SUPERIORITY||||||=|0.9755|||||||Weighted t-test|||Surgical services||||=0.9755
82559659|NCT05643885|164828878|SUPERIORITY||||||=|0.0582|||||||Weighted t-test|||Ancillary or other services||||=0.0582
82559660|NCT05643885|164828879|SUPERIORITY||||||=|0.9796|||||||Weighted t-test|||||||=0.9796
82559661|NCT05643885|164828880|SUPERIORITY||||||=|0.0379|||||||Weighted t-test|||Physician office visits||||=0.0379
82559662|NCT05643885|164828880|SUPERIORITY||||||=|0.9034|||||||Weighted t-test|||ER only visits||||=0.9034
82559663|NCT05643885|164828880|SUPERIORITY||||||=|0.5452|||||||Weighted t-test|||Laboratory or pathology visits||||=0.5452
82559664|NCT05643885|164828880|SUPERIORITY||||||=|0.1644|||||||Weighted t-test|||Radiology||||=0.1644
82559665|NCT05643885|164828880|SUPERIORITY||||||=|0.065|||||||Weighted t-test|||Surgical services||||=0.0650
82559666|NCT05643885|164828880|SUPERIORITY||||||=|0.3866|||||||Weighted t-test|||Ancillary or other services||||=0.3866
82559667|NCT05643885|164828881|SUPERIORITY||||||=|0.566|||||||Weighted t-test|||||||=0.5660
82559668|NCT05643885|164828882|SUPERIORITY||||||=|0.0425|||||||Weighted t-test|||Physician office visits||||=0.0425
82559669|NCT05643885|164828882|SUPERIORITY||||||=|0.8634|||||||Weighted t-test|||ER only visits||||=0.8634
82559670|NCT05643885|164828882|SUPERIORITY||||||=|0.0399|||||||Weighted t-test|||Laboratory or pathology visits||||=0.0399
82559671|NCT05643885|164828882|SUPERIORITY||||||=|0.0996|||||||Weighted t-test|||Radiology||||=0.0996
82559672|NCT05643885|164828882|SUPERIORITY||||||=|0.7655|||||||Weighted t-test|||Surgical services||||=0.7655
82559673|NCT05643885|164828882|SUPERIORITY||||||=|0.1499|||||||Weighted t-test|||Ancillary or other services||||=0.1499
82559674|NCT00108355|164828895|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Log Rank|||Initial estimation: median time to recurrence of ascites of 38 days in the study group and 20 days in the control group in a fixed duration of 6 months (5% type-I error (2 sided) and an 80% power). However, due to low accrual and based on randomized trials using vasoconstrictors in the prevention of PCD and a study that showed that midodrine leads to a significant improvement in effective arterial blood volume, each of which had sample sizes of 24-25 patients,we decided on a sample size of 30.||||<0.05
82559675|NCT01303796|164828981|SUPERIORITY||Hazard Ratio (HR)|1.013|||<|0.0249|TWO_SIDED|95.0|0.837|1.226||one-sided|Kaplan-Meier|||The phase III part planned to randomize 485 patients, about 243 per arm (actual 241 patients per arm), over an estimated period of 24 months. Final analysis would occur at approximately 424 deaths, which was expected to be observed about 43 months after the accrual of the first patient. A stratified log rank analysis would have 90% power to detect a 27.5% reduction in the risk of death, i.e., a hazard ratio of 0.725, between Arm A and Arm C.||1.226|0.837|<0.0249
82559676|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|1.08|||<|0.0249|TWO_SIDED|95.0|0.86|1.35||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Presence of antecedent MDS or MPD (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: No (i.e., de novo) vs Presence of antecedent MDS or MPD"||1.35|0.86|<0.0249
82559677|NCT01303796|164828981|SUPERIORITY|Effects of treatments compared in AML patients with baseline WBC count ≥ 10 x 109/L vs WBC count ≤ 10 x 109/L|Cox Proportional Hazard|1.57|||<|0.0249|TWO_SIDED|95.0|1.12|2.19||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Baseline peripheral WBC count ≥ 10 x 109/L (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Baseline WBC count ≥ 10 x 109/L vs WBC count ≤ 10 x 109/L"||2.19|1.12|<0.0249
82559678|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|1.01|||<|0.0249|TWO_SIDED|95.0|0.77|1.32||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Baseline bone marrow blast percentage ≥ 50% (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Baseline bone marrow blast percentage ≥ 50% vs Blast percentage ≤ 50%"||1.32|0.77|<0.0249
82559679|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|1.27|||<|0.0249|TWO_SIDED|95.0|0.94|1.73|||Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (pre-specified): Unfavorable cytogenetics risk by SWOG (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: Unfavorable cytogenetics vs other"||1.73|0.94|<0.0249
82559680|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|1.222|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Region (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: EU vs US"||||<0.0249
82584046|NCT02996565|164879980|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.84||||0.08|TWO_SIDED|95.0|0.68|1.03||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.03|0.68|0.08
82559681|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|1.071|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Age (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: ≥ 75 years old vs ≤ 75 years old"||||<0.0249
82559682|NCT01303796|164828981|SUPERIORITY||Cox Proportional Hazard|0.956|||<|0.0249|TWO_SIDED|||||one-sided|Log Rank||Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.|"Subgroup analyses (post-hoc): Gender (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: Male vs Female"||||<0.0249
82559683|NCT01303796|164828981|SUPERIORITY||||||<|0.0249||||||one-sided|Log Rank|Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.||"Subgroup analyses (post-hoc): ECOG status (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment (Arm A) Levels: Status 2 vs \< 2"||||<0.0249
82584047|NCT02996565|164879981|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.9||||0.32|TWO_SIDED|95.0|0.73|1.11||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.11|.73|0.32
82559684|NCT01303796|164828981|SUPERIORITY||||||<|0.0249||||||one-sided|Log Rank|Predictive factor adjusted; when interaction term was not significant at 10% confidence level, the interaction term was removed from the model.||"Subgroup analyses (post-hoc): HCT-CI score (covariate)~Treatment covariate: alternating sapacitabine/decitabine treatment Levels: HCT-CI score 0-2 vs HCT-CI score \>2"||||<0.0249
82559685|NCT01303796|164828982|SUPERIORITY||Cox Proportional Hazard|1.34||||0.1468|TWO_SIDED|95.0|0.645|2.782|||Fisher Exact|||||2.782|0.645|0.1468
82559686|NCT01303796|164828987|SUPERIORITY|||||||0.0416|||||||Wilcoxon (Mann-Whitney)|||||||0.0416
82559687|NCT01303796|164828988|SUPERIORITY|||||||0.1568|||||||Wilcoxon (Mann-Whitney)|||||||0.1568
82559688|NCT01303796|164828989|SUPERIORITY||Cox Proportional Hazard|1.013|||<|0.0249|TWO_SIDED|95.0|0.837|1.226||one-sided|Log Rank|||||1.226|0.837|<0.0249
82559689|NCT02148705|164828995|SUPERIORITY||Odds Ratio (OR)|288.281|||<|0.0001|TWO_SIDED|95.0|35.549|13984.356|||Fisher Exact|||||13984.356|35.549|<0.0001
82559690|NCT02148705|164828996|SUPERIORITY||Odds Ratio (OR)|0.011|||<|0.0001|TWO_SIDED|95.0|0.003|0.044|||Chi-squared|||||0.044|0.003|<0.0001
82559691|NCT02148705|164828997|SUPERIORITY||Test Statistics|23.1429|||<|0.0001|TWO_SIDED||||||Generalized Wilcoxon-Gehan Test|Analysis is adjusted for Overall TW Depths, TBSA Group, Center Group, and Number of TWs||||||<0.0001
82559692|NCT02148705|164828998|SUPERIORITY||estimate|6505.8|STANDARD_ERROR_OF_MEAN|269.88|<|0.0001|TWO_SIDED|95.0|5974.41|7037.19|||Wilcoxon (Mann-Whitney)|Wilcoxon tests pooled using Rubin´s rule||||7037.19|5974.41|<0.0001
82559693|NCT01711294|164829006|SUPERIORITY|Sample sizes were calculated using two-sample t-test for the primary endpoint and z-test for the secondary endpoint with power of 80% and two-sided alpha of 0.05. Hochberg step up procedure was used to adjust for multiple comparison. A p-value \< 0.05 was considered statistically significant.||||||0.84||||||Hochberg step up procedure was used to adjust for multiple comparison.|Wilcoxon (Mann-Whitney)|Wilcoxon was used instead of t-test because the data was not normally distributed.||Study hypothesizes that aspiration % in the 19G Flex and 19G arms would be superior by at least 10% to 22G arm, and aspiration success rate of 19G Flex would be at least 16% greater than 22G and 19G arms. Sample size calculation was performed based on the above hypotheses reached by a consensus of all collaborators and adjusted a priori.||||0.84
82559694|NCT02605174|164829022|SUPERIORITY||Odds Ratio (OR)|1.5||||0.003|TWO_SIDED|95.0|1.1|1.9|||Regression, Logistic|||||1.9|1.1|0.003
82559695|NCT02605174|164829022|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
82559696|NCT02605174|164829022|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
82584048|NCT02996565|164879982|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.14||||0.09|TWO_SIDED|95.0|0.98|1.33||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.33|0.98|0.09
82584049|NCT02996565|164879983|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.98||||0.77|TWO_SIDED|95.0|0.83|1.16||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.16|0.83|0.77
82559697|NCT02605174|164829023|SUPERIORITY||Odds Ratio (OR)|1.4||||0.009|TWO_SIDED|95.0|1.1|1.8|||Regression, Logistic|||||1.8|1.1|0.009
82559698|NCT02605174|164829023|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0|||Regression, Logistic|||||2.0|1.2|<0.001
82559699|NCT02605174|164829023|SUPERIORITY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.4|2.4|||Regression, Logistic|||||2.4|1.4|<0.001
82559700|NCT02605174|164829024|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.2|||Regression, Logistic|||||2.2|1.3|<0.001
82559701|NCT02605174|164829024|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.7|2.9|||Regression, Logistic|||||2.9|1.7|<0.001
82559702|NCT02605174|164829024|SUPERIORITY||Odds Ratio (OR)|2.4|||<|0.001|TWO_SIDED|95.0|1.8|3.1|||Regression, Logistic|||||3.1|1.8|<0.001
82559703|NCT02605174|164829026|SUPERIORITY||Odds Ratio (OR)|0.7||||0.002|TWO_SIDED|95.0|0.5|0.9|||Regression, Logistic|||||0.9|0.5|0.002
82559704|NCT02605174|164829026|SUPERIORITY||Odds Ratio (OR)|0.5|||<|0.001|TWO_SIDED|95.0|0.4|0.7|||Regression, Logistic|||||0.7|0.4|<0.001
82559705|NCT02605174|164829026|SUPERIORITY||Odds Ratio (OR)|0.3|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Regression, Logistic|||||0.4|0.3|<0.001
82559706|NCT02605174|164829027|SUPERIORITY||Odds Ratio (OR)|1.0||||0.917|TWO_SIDED|95.0|0.7|1.5|||Regression, Logistic|||||1.5|0.7|0.917
82559707|NCT02605174|164829027|SUPERIORITY||Odds Ratio (OR)|0.7||||0.129|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|||||1.1|0.5|0.129
82559708|NCT02605174|164829027|SUPERIORITY||Odds Ratio (OR)|0.8||||0.456|TWO_SIDED|95.0|0.6|1.3|||Regression, Logistic|||||1.3|0.6|0.456
82559709|NCT02605174|164829029|SUPERIORITY||Odds Ratio (OR)|0.9||||0.522|TWO_SIDED|95.0|0.7|1.2|||Regression, Logistic|||||1.2|0.7|0.522
82559710|NCT02605174|164829029|SUPERIORITY||Odds Ratio (OR)|1.1||||0.622|TWO_SIDED|95.0|0.8|1.4|||Regression, Logistic|||||1.4|0.8|0.622
82559711|NCT02605174|164829029|SUPERIORITY||Odds Ratio (OR)|1.0||||0.992|TWO_SIDED|95.0|0.8|1.3|||Regression, Logistic|||||1.3|0.8|0.992
82559712|NCT02605174|164829030|SUPERIORITY||Odds Ratio (OR)|1.4||||0.008|TWO_SIDED|95.0|1.1|1.7|||Regression, Logistic|||||1.7|1.1|0.008
82559713|NCT02605174|164829030|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.0|||Regression, Logistic|||||2.0|1.3|<0.001
82559714|NCT02605174|164829030|SUPERIORITY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
82559715|NCT02605174|164829031|SUPERIORITY||Odds Ratio (OR)|1.4||||0.007|TWO_SIDED|95.0|1.1|1.7|||Regression, Logistic|||||1.7|1.1|0.007
82559716|NCT02605174|164829031|SUPERIORITY||Odds Ratio (OR)|1.7|||<|0.001|TWO_SIDED|95.0|1.3|2.1|||Regression, Logistic|||||2.1|1.3|<0.001
82559717|NCT02605174|164829031|SUPERIORITY||Odds Ratio (OR)|1.8|||<|0.001|TWO_SIDED|95.0|1.4|2.3|||Regression, Logistic|||||2.3|1.4|<0.001
82559718|NCT03737110|164829055|SUPERIORITY||Hazard Ratio (HR)|0.04|||<|0.0001|TWO_SIDED|95.0|0.01|0.18||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at Run-In Baseline.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.18|0.01|<0.0001
82488493|NCT01890746|164669786|SUPERIORITY||Hazard Ratio (HR)|2.46||||0.0781|TWO_SIDED|95.0|0.95|6.38|||Log Rank|||||6.38|0.95|0.0781
82488494|NCT01890746|164669790|SUPERIORITY||Odds Ratio (OR)|0.8749||||0.7122|TWO_SIDED|95.0|0.4023|1.8943|||Cochran-Mantel-Haenszel|||||1.8943|0.4023|0.7122
82488495|NCT01890746|164669791|SUPERIORITY||Hazard Ratio (HR)|1.54||||0.0688|TWO_SIDED|95.0|0.96|2.47|||Log Rank|||||2.47|0.96|0.0688
82488496|NCT00777205|164669794|SUPERIORITY_OR_OTHER||Slope|0.22|||<|0.05|TWO_SIDED|95.0|-1.57|2.01|||Mixed Models Analysis|||||2.01|-1.57|<0.05
82488497|NCT00777205|164669795|SUPERIORITY_OR_OTHER||Slope|-0.39|||<|0.05|TWO_SIDED|95.0|-2.03|1.24|||Mixed Models Analysis|||||1.24|-2.03|<0.05
82488498|NCT00777205|164669796|SUPERIORITY_OR_OTHER||Slope|0.81|||<|0.05|TWO_SIDED|95.0|-0.93|2.55|||Mixed Models Analysis|||||2.55|-0.93|<0.05
82559719|NCT03737110|164829056|SUPERIORITY||Odds Ratio (OR)|12.727||||0.0002|TWO_SIDED|95.0|2.438|66.428||95% confidence interval (CI) and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||66.428|2.438|0.0002
82559720|NCT03737110|164829056|SUPERIORITY||Difference in percentages|61.0|||||TWO_SIDED|95.0|36.7|85.2|||||Differences between percentages are reported in percentage points. The 95% confidence intervals for the differences in percentages were based on a normal approximation.|||85.2|36.7|
82584050|NCT02996565|164879984|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.21||||0.09|TWO_SIDED|95.0|0.97|1.5||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.5|.97|0.09
82559721|NCT03737110|164829057|SUPERIORITY||Least squares (LS) mean difference|51.2|||<|0.0001|TWO_SIDED|95.0|34.5|68.0||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||68.0|34.5|< 0.0001
82559722|NCT03737110|164829058|SUPERIORITY||Odds Ratio (OR)|10.0||||0.0006|TWO_SIDED|95.0|2.136|46.826||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at RI baseline.|Cochran-Mantel-Haenszel|||||46.826|2.136|0.0006
82559723|NCT03737110|164829058|SUPERIORITY||Difference in percentages|56.0|||||TWO_SIDED|95.0|30.6|81.3|||||Differences between percentages are reported in percentage points. The 95% confidence intervals for the differences in percentages were based on a normal approximation.|||81.3|30.6|
82559724|NCT03737110|164829059|SUPERIORITY||Odds Ratio (OR)|8.37||||0.0022|TWO_SIDED|95.0|1.317|53.188||95% CI and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||53.188|1.317|0.0022
82488499|NCT00777205|164669797|SUPERIORITY_OR_OTHER||Slope|-0.039|||<|0.05|TWO_SIDED|95.0|-2.66|1.89|||Mixed Models Analysis|||||1.89|-2.66|<0.05
82488500|NCT00777205|164669798|SUPERIORITY_OR_OTHER||Slope|-0.08|||||TWO_SIDED|95.0|-3.31|3.16||||||||3.16|-3.31|
82488501|NCT03198078|164669812|SUPERIORITY||LS mean difference|-5.33||||0.0136|TWO_SIDED|95.0|-9.55|-1.1||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||-1.10|-9.55|0.0136
82488502|NCT03198078|164669812|SUPERIORITY||LS mean difference|-6.53||||0.0032|TWO_SIDED|95.0|-10.8|-2.21||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||-2.21|-10.8|0.0032
82488503|NCT03198078|164669813|SUPERIORITY||LS mean difference|-1.44||||0.0205|TWO_SIDED|95.0|-2.65|-0.22||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Positive Sub-scale Score||-0.22|-2.65|0.0205
82488504|NCT03198078|164669813|SUPERIORITY||LS mean difference|-2.15||||0.0008|TWO_SIDED|95.0|-3.4|-0.91||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Positive Sub-scale Score||-0.91|-3.40|0.0008
82488505|NCT03198078|164669813|SUPERIORITY||LS mean difference|-0.88||||0.136|TWO_SIDED|95.0|-2.04|0.28||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Negative Sub-scale Score||0.28|-2.04|0.1360
82488506|NCT03198078|164669813|SUPERIORITY||LS mean difference|-0.95||||0.1158|TWO_SIDED|95.0|-2.14|0.24||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||Change From Baseline to Week 6 in PANSS Negative Sub-scale Score||0.24|-2.14|0.1158
82488507|NCT03198078|164669814|SUPERIORITY||Ratio of Response Rate|1.55||||0.0111|TWO_SIDED|95.0|1.09|2.2|||Cochran-Mantel-Haenszel|P-value was analyzed by Cochran-Mantel-Haenszel (CMH) general association test controlling for (pooled) centers.||||2.20|1.09|0.0111
82488508|NCT03198078|164669814|SUPERIORITY||Ratio of Response Rate|1.51||||0.0224|TWO_SIDED|95.0|1.06|2.16|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||2.16|1.06|0.0224
82488509|NCT03198078|164669815|SUPERIORITY||Ratio of Remission Rate|1.18||||0.4415|TWO_SIDED|95.0|0.77|1.81|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||1.81|0.77|0.4415
82488510|NCT03198078|164669815|SUPERIORITY||Ratio of Remission Rate|1.48||||0.0472|TWO_SIDED|95.0|1.01|2.16|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH general association test controlling for (pooled) centers.||||2.16|1.01|0.0472
82559725|NCT03737110|164829060|SUPERIORITY||Odds Ratio (OR)|10.906|||<|0.0001|TWO_SIDED|95.0|3.051|38.981||95% CI and p-value were analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at run-in baseline.|Cochran-Mantel-Haenszel|||||38.981|3.051|< 0.0001
82559726|NCT03737110|164829061|SUPERIORITY||LS mean difference|51.9|||<|0.0001|TWO_SIDED|95.0|33.8|70.1||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||70.1|33.8|< 0.0001
82488511|NCT03198078|164669816|SUPERIORITY||LS mean difference|2.48||||0.0854|TWO_SIDED|95.0|-0.35|5.31||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||5.31|-0.35|0.0854
82559727|NCT03737110|164829062|SUPERIORITY||LS mean difference|40.5|||<|0.0001|TWO_SIDED|95.0|25.3|55.8||Two-sided p-value calculated using analysis of covariance with treatment, randomization strata and run-in baseline NRS weekly average category (NRS ≤ 2 versus NRS \>2) as covariates.|ANCOVA||Least squares mean difference (rilonacept - placebo)|||55.8|25.3|< 0.0001
82559728|NCT03737110|164829063|SUPERIORITY||Odds Ratio (OR)|30.522||||0.0002|TWO_SIDED|95.0|4.262|218.552||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel (CMH) test adjusted by oral corticosteroid use at RI baseline.|Cochran-Mantel-Haenszel|||||218.552|4.262|0.0002
82559729|NCT03737110|164829064|SUPERIORITY||Odds Ratio (OR)|14.432|||<|0.0001|TWO_SIDED|95.0|3.439|60.574||95% CI and p-value are analyzed using a Cochran-Mantel-Haenszel test adjusted by oral corticosteroid use and diagnosis of recurrent idiopathic pericarditis at RI baseline.|Cochran-Mantel-Haenszel|||||60.574|3.439|< 0.0001
82559730|NCT03737110|164829065|SUPERIORITY||Difference|75.7|||<|0.0001|TWO_SIDED|95.0|56.8|94.6|||normal approximation|||||94.6|56.8|< 0.0001
82559731|NCT03737110|164829066|SUPERIORITY||Hazard Ratio (HR)|0.13|||<|0.0001|TWO_SIDED|95.0|0.05|0.32||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at run-in baseline.|Log Rank||Calculated based on a Cox proportional hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.32|0.05|< 0.0001
82559732|NCT03737110|164829067|SUPERIORITY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.02|0.22||Two-sided p-value is from the log-rank test stratified by oral corticosteroid use at run-in baseline.|Log Rank||Calculated based on a Cox proportional hazards model with treatment as covariate and stratified by oral corticosteroid use at run-in baseline.|||0.22|0.02|< 0.0001
82584051|NCT02996565|164879985|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.64||||0.02|TWO_SIDED|95.0|0.45|0.92||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||0.92|0.45|0.02
82584052|NCT02996565|164879986|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.7||||0.006|TWO_SIDED|95.0|0.55|0.89||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||.89|.55|0.006
82559733|NCT03737110|164829068|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.7447|TWO_SIDED|95.0|0.12|4.46||Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and without stratification by randomization strata.|||4.46|0.12|0.7447
82559734|NCT03737110|164829069|SUPERIORITY||Hazard Ratio (HR)|0.36||||0.2066|TWO_SIDED|95.0|0.07|1.87||Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||Calculated based on a Cox proportional-hazards model with treatment as covariate and without stratification by randomization strata.|||1.87|0.07|0.2066
82559735|NCT03737110|164829070|SUPERIORITY||Hazard Ratio (HR)|0.0||||0.0059|TWO_SIDED|95.0|0.0||Not estimable due to low number of participants with an event.|Two-sided p-value is from the log-rank test without stratification by randomization strata.|Log Rank||||||0.00|0.0059
82559736|NCT03737110|164829082|SUPERIORITY||Odds Ratio (OR)|0.015|||<|0.0001|TWO_SIDED|95.0|0.002|0.108||Two-sided p value calculated using a Cochran-Mantel-Haenszel test adjudicated by randomization strata.|Cochran-Mantel-Haenszel|||Participants who used ORT, corticosteroids or bailout rilonacept during the RW Period||0.108|0.002|< 0.0001
82559737|NCT03052517|164829121|OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.74|1.0|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.00|0.74|
82559738|NCT03052517|164829121|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.72|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.72|
82559739|NCT03052517|164829121|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.87|1.09|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.09|0.87|
82559740|NCT03052517|164829122|OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.76|1.02|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.02|0.76|
82559741|NCT03052517|164829122|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.73|0.99|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.99|0.73|
82488512|NCT03198078|164669816|SUPERIORITY||LS mean difference|3.99||||0.0072|TWO_SIDED|95.0|1.09|6.88||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||6.88|1.09|0.0072
82488513|NCT03198078|164669817|SUPERIORITY||LS mean difference|-0.11||||0.3589|TWO_SIDED|95.0|-0.36|0.13||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||0.13|-0.36|0.3589
82488514|NCT03198078|164669817|SUPERIORITY||LS mean difference|-0.2||||0.1118|TWO_SIDED|95.0|-0.45|0.05||P-value was analyzed by MMRM method with fixed effect of treatment, (pooled) clinical center visit, treatment visit interaction, baseline value, and baseline visit interaction as a covariate, and with an unstructured covariance.|MMRM|||||0.05|-0.45|0.1118
82488515|NCT03198078|164669818|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.0287|TWO_SIDED|95.0|-0.56|-0.03|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH row mean scores differ test controlling for study center.||||-0.03|-0.56|0.0287
82488516|NCT03198078|164669818|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0184|TWO_SIDED|95.0|-0.62|-0.06|||Cochran-Mantel-Haenszel|P-value was analyzed by CMH row mean scores differ test controlling for study center.||||-0.06|-0.62|0.0184
82559742|NCT03052517|164829122|OTHER||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.86|1.08|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.08|0.86|
82559743|NCT03052517|164829123|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.51|1.22|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.22|0.51|
82559744|NCT03052517|164829123|OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.39|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.39|
82559745|NCT03052517|164829123|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.54|1.14|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.14|0.54|
82559746|NCT03052517|164829124|OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.54|1.22|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||1.22|0.54|
82559747|NCT03052517|164829124|OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.41|0.97|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||0.97|0.41|
82559748|NCT03052517|164829124|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.55|1.11|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.11|0.55|
82559749|NCT03052517|164829125|OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.47|2.23|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||2.23|0.47|
82488517|NCT03198078|164669829|SUPERIORITY||LS mean difference|0.07|||||TWO_SIDED|95.0|-0.24|0.39|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.39|-0.24|
82488518|NCT03198078|164669829|SUPERIORITY||LS mean difference|0.18|||||TWO_SIDED|95.0|-0.14|0.51|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.51|-0.14|
82488519|NCT03198078|164669830|SUPERIORITY||LS mean difference|-0.06|||||TWO_SIDED|95.0|-0.3|0.18|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.18|-0.30|
82488520|NCT03198078|164669830|SUPERIORITY||LS mean difference|0.11|||||TWO_SIDED|95.0|-0.13|0.36|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.36|-0.13|
82488521|NCT03198078|164669831|SUPERIORITY||LS mean difference|0.0|||||TWO_SIDED|95.0|-0.08|0.09|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.09|-0.08|
82488522|NCT03198078|164669831|SUPERIORITY||LS mean difference|0.05|||||TWO_SIDED|95.0|-0.04|0.14|||||LS mean difference was analyzed by ANCOVA model, with treatment and study center as main effects and baseline value as covariate.|||0.14|-0.04|
82488523|NCT00580970|164669836|SUPERIORITY_OR_OTHER|||||||0.9138||||||Considering all late rectal toxicities, 38% (20/53) of participants developed physician reported Grade 2 or higher GI toxicity during 2 year follow up. The threshold for significance was p \< 0.05.|t-test, 1 sided|A one sided t-test, with 5% level of significance, and 83% power was used which required 53 subjects.||||||0.9138
82488524|NCT03161093|164669841|SUPERIORITY||Least Squares Mean|-0.68|STANDARD_ERROR_OF_MEAN|0.18||0.0002|TWO_SIDED|95.0|-1.028|-0.324|||Mixed Models Analysis|||||-0.324|-1.028|0.0002
82488525|NCT03161093|164669842|SUPERIORITY||Least Squares Mean|-0.7|STANDARD_ERROR_OF_MEAN|0.178|<|0.0001|TWO_SIDED|95.0|-1.046|-0.346|||Mixed Models Analysis|||||-0.346|-1.046|<0.0001
82488526|NCT03161093|164669843|SUPERIORITY||Least Squares Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.254||0.7036|TWO_SIDED|95.0|-0.594|0.401|||Mixed Models Analysis|||||0.401|-0.594|0.7036
82488527|NCT03161093|164669844|SUPERIORITY||Least Squares Mean|-0.18|STANDARD_ERROR_OF_MEAN|0.243||0.4605|TWO_SIDED|95.0|-0.657|0.297|||Mixed Models Analysis|||||0.297|-0.657|0.4605
82559750|NCT03052517|164829125|OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.59|2.64|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||2.64|0.59|
82488528|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.12||||||Serotype 1: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.12|0.74|
82488529|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.7|0.98||||||Serotype 3: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.98|0.70|
82488530|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.55|0.91||||||Serotype 4: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.91|0.55|
82488531|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.78|1.18||||||Serotype 5: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.18|0.78|
82488532|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.53|0.85||||||Serotype 6A: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.85|0.53|
82559751|NCT03052517|164829125|OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|2.1|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||2.10|0.70|
82559752|NCT03052517|164829126|OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.56|2.56|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 150mg / Placebo||2.56|0.56|
82559753|NCT03052517|164829126|OTHER||Hazard Ratio (HR)|1.33|||||TWO_SIDED|95.0|0.67|2.95|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / Placebo||2.95|0.67|
82559754|NCT03052517|164829126|OTHER||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.7|1.96|||Regression, Cox|The Cox regression model = treatment group+ severity of asthma + region as fixed class effects, stratified by randomization stratum|A hazard ratio \< 1 favors the treatment group in the numerator of the ratio.|Hazard Ratio = QAW039 450mg / QAW039 150mg||1.96|0.70|
82559755|NCT03052517|164829127|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.626|1.047|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 150mg /Placebo||1.047|0.626|
82559756|NCT03052517|164829127|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.622|1.038|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /Placebo||1.038|0.622|
82559757|NCT03052517|164829127|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.821|1.2|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /QAW039 150mg||1.200|0.821|
82559758|NCT03052517|164829128|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.667|1.125|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 150mg /Placebo||1.125|0.667|
82584053|NCT02996565|164879987|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|0.78||||0.06|TWO_SIDED|95.0|0.6|1.01||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting the burden was a problem at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.01|0.60|0.06
82488533|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.08||||||Serotype 6B: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.08|0.64|
82488534|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.83|1.14||||||Serotype 7F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.14|0.83|
82488535|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.69|1.0||||||Serotype 9V: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.0|0.69|
82584054|NCT02996565|164879988|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.02||||0.65|TWO_SIDED|95.0|0.94|1.1||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.10|0.94|0.65
82584055|NCT02996565|164879989|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.02||||0.83|TWO_SIDED|95.0|0.83|1.25||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.25|0.83|0.83
82651931|NCT01620489|165019014|SUPERIORITY_OR_OTHER||Estimated treatment difference|-1.08|||<|0.0001||95.0|-1.58|-0.58||Not adjusted for multiple comparisons|Mixed Models Analysis|||Mean change from baseline in the 7-point profile (SMPG) after 26 weeks treatment was analysed using an MMRM model with treatment, country and stratification groups as fixed effects and baseline as a covariate, all nested within visit.||-0.58|-1.58|<0.0001
82559759|NCT03052517|164829128|SUPERIORITY||Odds Ratio (OR)|0.83|||||TWO_SIDED|95.0|0.643|1.082|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /Placebo||1.082|0.643|
82559760|NCT03052517|164829128|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.794|1.167|||Regression, Logistic|Logistic regression model: logit (proportion) = randomization stratum, treatment, severity of asthma, region as fixed effects||Statistical Analysis for Number of patients with at least one AE. Hazard Ratio = QAW039 450mg /QAW039 150mg||1.167|0.794|
82559761|NCT03162614|164829208|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|55.0|||<|0.001|TWO_SIDED|95.0|27.0|72.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full doses at Month 0 and Month 1 and 1/5th dose at Month 7 (AduFx Group versus Control Group).||72|27|<.001
82559762|NCT03162614|164829208|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|76.0|||<|0.001|TWO_SIDED|95.0|49.0|89.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01E administered as double full doses at Month 0 and Month 1 and 1/5th double dose at Month 7 (2Ped Fx Group versus Control Group).||89|49|<.001
82559763|NCT03162614|164829208|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|64.0|||<|0.001|TWO_SIDED|95.0|37.0|79.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01E administered as full doses at Month 0 and Month 1 and 1/5th dose at Month 7 (PedFx Group versus Control Group).||79|37|<.001
82559764|NCT03162614|164829208|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|55.0|||<|0.001|TWO_SIDED|95.0|27.0|72.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full dose at Month 0 and 1/5th dose at Month 1 and Month 7 (Adu2Fx Group versus Control Group).||72|27|<.001
82559765|NCT03162614|164829208|OTHER|Vaccine efficacy rate was calculated as 100\*(1-RR) with RR=relative risk of developing the disease for vaccinated people compared to unvaccinated people.|Vaccine efficacy rate|29.0||||0.009|TWO_SIDED|95.0|6.0|46.0|||Fisher Exact|||Efficacy analysis aimed at comparing RTS,S/AS01B administered as full dose at Month 0 and 1/5th dose at Month 7 (Adu1Fx Group versus Control Group).||46|6|0.009
82559766|NCT01321073|164829236|SUPERIORITY||||||<|0.0001|||||||1-sample exact test for Poisson rate|||The rate of catheter-related complications per 1000 patient-days was compared to a pre-specified value of 2.5 / 1000 days. This was calculated based on published complication rates in PAH that included central venous catheter systemic bloodstream infections (0.43-1.13), site infections (0.26-0.87), and complications from catheter thrombosis, mechanical dysfunction, or catheter dislocation in the general central venous catheter population (0.36-0.51). The sum of the upper rates is 2.5.||||<0.0001
82559767|NCT04278833|164829237|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||<0.001
82559768|NCT04278833|164829237|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||<0.001
82559769|NCT04278833|164829237|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||<0.001
82559770|NCT04278833|164829238|OTHER|||||||0.28||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at week 2||||0.280
82559771|NCT04278833|164829238|OTHER|||||||0.07||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at month 3||||0.070
82559772|NCT04278833|164829238|OTHER|||||||0.851||||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||Analysis of change at month 6||||0.851
82559773|NCT04278833|164829239|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||<0.001
82559774|NCT04278833|164829239|OTHER|||||||0.021||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||0.021
82559775|NCT04278833|164829239|OTHER|||||||0.044||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||0.044
82559776|NCT04278833|164829240|OTHER|||||||0.226||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||0.226
82559777|NCT04278833|164829240|OTHER|||||||0.071||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3||||0.071
82559778|NCT04278833|164829240|OTHER|||||||0.382||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6||||0.382
82559779|NCT04278833|164829241|OTHER|||||||0.152||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at week 2||||0.152
82559780|NCT04278833|164829241|OTHER|||||||0.261||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 3.||||0.261
82559781|NCT04278833|164829241|OTHER|||||||0.437||||||The a priori threshold for statistical significance was \<0.05.|paired t-tests|||Analysis of change at month 6.||||0.437
82559782|NCT04278833|164829242|OTHER|||||||0.128||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.128
82584056|NCT02996565|164879990|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.41|TWO_SIDED|95.0|0.95|1.13||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.13|0.95|0.41
82584057|NCT02996565|164879991|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.04||||0.4|TWO_SIDED|95.0|0.94|1.16||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.16|0.94|0.40
82584058|NCT02996565|164879992|SUPERIORITY|Random coefficients model predicted baseline and 6 month patient-reported outcome from treatment group, time point and treatment group by time with random clinic intercept and patient scale parameter.|Risk Ratio (RR)|1.01||||0.74|TWO_SIDED|95.0|0.95|1.07||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The interaction RR compares the likelihood of reporting very/extremely confident at 6m relative to baseline in Telehealth care vs. clinic based care|adjusted for baseline DBP, baseline age, sex|||1.07|0.95|0.74
82584059|NCT02996565|164879993|SUPERIORITY|Random coefficients model predicted the likelihood that a new statin was current at 12 months by treatment group with random clinic intercept.|Risk Ratio (RR)|1.05||||0.71|TWO_SIDED|95.0|0.81|1.37||The threshold for statistical significance was p\<0.05|Mixed Models Analysis|The risk ratio compares the likelihood of a new statin medication that is current at 12 months in Telehealth care vs. clinic based care|adjusted for baseline SBP , baseline DBP, baseline age, sex, Asian race|||1.37|0.81|0.71
82584060|NCT00968227|164880006|SUPERIORITY|Paired t-test||||||0.001|||||||t-test, 2 sided|||||||0.001
82584061|NCT00986973|164880028|SUPERIORITY_OR_OTHER||||||>|0.05|ONE_SIDED||||||t-test, 2 sided|||||||>0.05
82584062|NCT00986973|164880029|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.82
82584063|NCT00986973|164880030|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.46
82584064|NCT00986973|164880031|SUPERIORITY_OR_OTHER|||||||0.071|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.071
82559783|NCT04278833|164829242|OTHER||||||>|0.999||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||>0.999
82559784|NCT04278833|164829243|OTHER|||||||0.04||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||0.040
82559785|NCT04278833|164829243|OTHER||||||>|0.999||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||>0.999
82559786|NCT05200416|164829244|SUPERIORITY||Mean Difference (Final Values)|11.42|||<|0.001|TWO_SIDED|95.0|7.83|15.01|||Mixed Models Analysis|||||15.01|7.83|<0.001
82559787|NCT05200416|164829245|SUPERIORITY||Mean Difference (Final Values)|-4.16||||0.001|TWO_SIDED|95.0|-6.69|-1.63|||Mixed Models Analysis|||||-1.63|-6.69|0.001
82584065|NCT00986973|164880032|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.25
82584066|NCT00986973|164880033|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Friedman test|Non-parametric test was used to examine neuropsychological outcomes||||||0.050
82584067|NCT00986973|164880034|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.34
82584068|NCT00598273|164880035|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.099|||TWO_SIDED|97.5|-0.19|0.26|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.26|-0.19|
82584069|NCT00598273|164880035|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 97.5% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|0.26|STANDARD_ERROR_OF_MEAN|0.098|||TWO_SIDED|97.5|0.04|0.48|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two-group evaluation of non-inferiority in means with a non-inferiority margin (Δ) of -1.0 g/dL (one-sided significance level of 0.0125, or, comparably, a two-sided significance level of 0.025). A sample size of 450 (150 per treatment group) provided power greater than 99% for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a pooled standard deviation of 1.5 g/dL.||0.48|0.04|
82584070|NCT00598273|164880036|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.51|3.1|||Cochran-Mantel-Haenszel|||||3.10|0.51|
82584071|NCT00598273|164880036|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.48|||||TWO_SIDED|95.0|0.62|3.56|||Cochran-Mantel-Haenszel|||||3.56|0.62|
82651932|NCT01620489|165019015|SUPERIORITY_OR_OTHER||Estimated treatment difference|-0.51|||=|0.0022||95.0|-0.83|-0.18|||Mixed Models Analysis|Not adjusted for multiple comparisons||Change from baseline in BMI (kg/m˄2) after 26 weeks treatment was analysed separately using an MMRM analysis model with treatment, country and stratification groups as fixed effects and baseline as a covariate, all nested within visit.||-0.18|-0.83|= 0.0022
82488536|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.62|0.92||||||Serotype 14: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||0.92|0.62|
82488537|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.64|1.06||||||Serotype 18C: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.06|0.64|
82488538|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.72|1.04||||||Serotype 19A: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.04|0.72|
82488539|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.71|1.14||||||Serotype 19F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.14|0.71|
82488540|NCT02124161|164669892|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|0.8|||||TWO_SIDED|95.0|0.56|1.03||||||Serotype 23F: Confidence Intervals (CIs) for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.03|0.56|
82559788|NCT02609048|164829247|SUPERIORITY||Difference in LSM|-60.99|STANDARD_ERROR_OF_MEAN|5.814|<|0.0001|TWO_SIDED|95.0|-72.85|-49.13||Difference in mean,p-value, and CIs estimated by comparing Seladelpar level with placebo by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-49.13|-72.85|<0.0001
82559789|NCT02609048|164829247|SUPERIORITY||Difference in Least Squares Mean (LSM)|-51.37|STANDARD_ERROR_OF_MEAN|5.849|<|0.0001|TWO_SIDED|95.0|-63.3|-39.44||Difference in mean,p-value, and confidence intervals (CIs) estimated by comparing Seladelpar level with placebo by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-39.44|-63.30|<0.0001
82559790|NCT02609048|164829247|SUPERIORITY||Difference in Least Squares Mean (LSM)|-9.62|STANDARD_ERROR_OF_MEAN|5.963||0.1167|TWO_SIDED|95.0|-21.79|2.54||Difference in mean,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg by ANCOVA model.Treatment group as factor,baseline AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||2.54|-21.79|0.1167
82559791|NCT02609048|164829248|SUPERIORITY||||||<|0.0001||||||The p-values were calculated from Fisher's exact test comparing each Seladelpar group with Placebo separately.|Fisher Exact|||||||<0.0001
82559792|NCT02609048|164829248|SUPERIORITY|||||||0.0036||||||The p-values were calculated from Fisher's exact test comparing each Seladelpar group with Placebo separately.|Fisher Exact|||||||0.0036
82559793|NCT02609048|164829248|SUPERIORITY|||||||0.1045||||||The p-values were calculated from Fisher's exact test comparing Seladelpar 200mg versus 50 mg.|Fisher Exact|||||||0.1045
82559794|NCT02609048|164829249|SUPERIORITY||Difference in LSM|234.71|STANDARD_ERROR_OF_MEAN|104.647||0.0322|TWO_SIDED|95.0|21.28|448.14||Difference between means, p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate,and percent change from baseline in AST as response variable.|ANCOVA|||||448.14|21.28|0.0322
82488541|NCT02124161|164669893|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.88|1.18||||||Strain A/H1N1: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.18|0.88|
82559795|NCT02609048|164829249|SUPERIORITY||Difference in LSM|132.82|STANDARD_ERROR_OF_MEAN|96.015||0.1764|TWO_SIDED|95.0|-63.0|328.65||Difference between means, p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate,and percent change from baseline in AST as response variable.|ANCOVA|||||328.65|-63.00|0.1764
82559796|NCT02609048|164829249|SUPERIORITY||Difference in LSM|101.88|STANDARD_ERROR_OF_MEAN|103.504||0.3326|TWO_SIDED|95.0|-109.21|312.98||Difference between means, p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline AST assessment as covariate, and percent change from baseline in AST as response variable.|ANCOVA|||||312.98|-109.21|0.3326
82559797|NCT02609048|164829250|SUPERIORITY||Difference in LSM|185.78|STANDARD_ERROR_OF_MEAN|104.379||0.0849|TWO_SIDED|95.0|-27.1|398.66||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline ALT assessment as covariate,and percent change from baseline in ALT as response variable.|ANCOVA|||||398.66|-27.10|0.0849
82559798|NCT02609048|164829250|SUPERIORITY||Difference in LSM|116.5|STANDARD_ERROR_OF_MEAN|97.437||0.2409|TWO_SIDED|95.0|-82.22|315.23||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline ALT assessment as covariate, and percent change from baseline in ALT as response variable.|ANCOVA|||||315.23|-82.22|0.2409
82584072|NCT00598273|164880037|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.94|1.05|||Cochran-Mantel-Haenszel|||||1.05|0.94|
82559799|NCT02609048|164829250|SUPERIORITY||Difference in LSM|69.28|STANDARD_ERROR_OF_MEAN|105.295||0.5154|TWO_SIDED|95.0|-145.47|284.03||Difference between means,p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor,baseline ALT assessment as covariate, and percent change from baseline in ALT as response variable.|ANCOVA|||||284.03|-145.47|0.5154
82559800|NCT02609048|164829251|SUPERIORITY||Difference in LSM|-45.34|STANDARD_ERROR_OF_MEAN|12.112||0.0007|TWO_SIDED|95.0|-70.04|-20.64||Difference between means, p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||-20.64|-70.04|0.0007
82559801|NCT02609048|164829251|SUPERIORITY||Difference in LSM|-40.78|STANDARD_ERROR_OF_MEAN|11.033||0.0008|TWO_SIDED|95.0|-63.28|-18.28||Difference between means, p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||-18.28|-63.28|0.0008
82559802|NCT02609048|164829251|SUPERIORITY||Difference in LSM|-4.56|STANDARD_ERROR_OF_MEAN|12.401||0.7155|TWO_SIDED|95.0|-29.85|20.73||Difference between means, p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor, baseline GGT assessment as covariate,and percent change from baseline in GGT as response variable.|ANCOVA|||||20.73|-29.85|0.7155
82559803|NCT02609048|164829252|SUPERIORITY||Difference in LSM|-34.27|STANDARD_ERROR_OF_MEAN|11.342||0.005|TWO_SIDED|95.0|-57.4|-11.14||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||-11.14|-57.40|0.0050
82559804|NCT02609048|164829252|SUPERIORITY||Difference in LSM|-24.84|STANDARD_ERROR_OF_MEAN|10.116||0.0199|TWO_SIDED|95.0|-45.47|-4.21||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||-4.21|-45.47|0.0199
82559805|NCT02609048|164829252|SUPERIORITY||Difference in LSM|-9.43|STANDARD_ERROR_OF_MEAN|11.442||0.4161|TWO_SIDED|95.0|-32.77|13.9||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor, baseline 5NT assessment as covariate,and percent change from baseline in 5NT as response variable.|ANCOVA|||||13.90|-32.77|0.4161
82559806|NCT02609048|164829253|SUPERIORITY||Difference in LSM|6.2|STANDARD_ERROR_OF_MEAN|8.626||0.478|TWO_SIDED|95.0|-11.4|23.79||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||23.79|-11.40|0.4780
82559807|NCT02609048|164829253|SUPERIORITY||Difference in LSM|-12.0|STANDARD_ERROR_OF_MEAN|8.043||0.1459|TWO_SIDED|95.0|-28.4|4.41||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||4.41|-28.40|0.1459
82559808|NCT02609048|164829253|SUPERIORITY||Difference in LSM|18.19|STANDARD_ERROR_OF_MEAN|8.521||0.0407|TWO_SIDED|95.0|0.82|35.57||Difference between means,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg by ANCOVA model.Treatment group as factor, baseline assessment as covariate, and percent change from baseline in total bilirubin as response variable.|ANCOVA|||||35.57|0.82|0.0407
82559809|NCT02609048|164829254|SUPERIORITY||Difference in LSM|31.47|STANDARD_ERROR_OF_MEAN|13.831||0.03|TWO_SIDED|95.0|3.26|59.67||Difference between means,p-value,and CIs are estimated by each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||59.67|3.26|0.0300
82559810|NCT02609048|164829254|SUPERIORITY||Difference in LSM|-8.84|STANDARD_ERROR_OF_MEAN|12.883||0.4979|TWO_SIDED|95.0|-35.11|17.44||Difference between means,p-value,and CIs are estimated by each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||17.44|-35.11|0.4979
82559811|NCT02609048|164829254|SUPERIORITY||Difference in LSM|40.3|STANDARD_ERROR_OF_MEAN|13.591||0.0058|TWO_SIDED|95.0|12.58|68.02||Difference between means,p-value,and CIs are estimated for Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline assessment as covariate,and percent change from baseline in conjugated bilirubin as response variable.|ANCOVA|||||68.02|12.58|0.0058
82559812|NCT02609048|164829255|SUPERIORITY||Difference in LSM|-2.97|STANDARD_ERROR_OF_MEAN|8.362||0.7244|TWO_SIDED|95.0|-20.03|14.08||Difference between means,p-value, and CIs are estimated by comparing Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||14.08|-20.03|0.7244
82559813|NCT02609048|164829255|SUPERIORITY||Difference in LSM|-14.15|STANDARD_ERROR_OF_MEAN|7.819||0.08|TWO_SIDED|95.0|-30.1|1.8||Difference between means,p-value, and CIs are estimated by comparing Seladelpar level with placebo using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||1.80|-30.10|0.0800
82559814|NCT02609048|164829255|SUPERIORITY||Difference in LSM|11.18|STANDARD_ERROR_OF_MEAN|8.29||0.1874|TWO_SIDED|95.0|-5.73|28.08||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as a factor,baseline assessment as covariate, and percent change from baseline as the response variable.|ANCOVA|||||28.08|-5.73|0.1874
82559815|NCT02609048|164829256|SUPERIORITY||Difference in LSM|-45.96|STANDARD_ERROR_OF_MEAN|6.638|<|0.0001|TWO_SIDED|95.0|-59.5|-32.42||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-32.42|-59.50|<0.0001
82559816|NCT02609048|164829256|SUPERIORITY||Difference in LSM|-34.66|STANDARD_ERROR_OF_MEAN|6.46|<|0.0001|TWO_SIDED|95.0|-47.83|-21.48||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||-21.48|-47.83|<0.0001
82559817|NCT02609048|164829256|SUPERIORITY||Difference in LSM|-11.3|STANDARD_ERROR_OF_MEAN|6.508||0.0924|TWO_SIDED|95.0|-24.58|1.97||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline bone-specific AP assessment as covariate,and percent change from baseline as response variable.|ANCOVA|||||1.97|-24.58|0.0924
82559818|NCT02609048|164829257|SUPERIORITY||Difference in LSM|-14.15|STANDARD_ERROR_OF_MEAN|12.807||0.2777|TWO_SIDED|95.0|-40.27|11.97||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||11.97|-40.27|0.2777
82559819|NCT02609048|164829257|SUPERIORITY||Difference in LSM|-37.31|STANDARD_ERROR_OF_MEAN|11.946||0.0039|TWO_SIDED|95.0|-61.67|-12.95||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||-12.95|-61.67|0.0039
82559820|NCT02609048|164829257|SUPERIORITY||Difference in LSM|23.16|STANDARD_ERROR_OF_MEAN|12.498||0.0734|TWO_SIDED|95.0|-2.33|48.65||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline TG assessment as a covariate, and percent change from baseline in TG as response variable.|ANCOVA|||||48.65|-2.33|0.0734
82559821|NCT02609048|164829258|SUPERIORITY||Difference in LSM|-16.12|STANDARD_ERROR_OF_MEAN|4.433||0.001|TWO_SIDED|95.0|-25.16|-7.07||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||-7.07|-25.16|0.0010
82559822|NCT02609048|164829258|SUPERIORITY||Difference in LSM|-8.13|STANDARD_ERROR_OF_MEAN|3.992||0.0504|TWO_SIDED|95.0|-16.27|0.02||Difference between means,p-value,and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||0.02|-16.27|0.0504
82559823|NCT02609048|164829258|SUPERIORITY||Difference in LSM|-7.99|STANDARD_ERROR_OF_MEAN|4.317||0.0738|TWO_SIDED|95.0|-16.8|0.81||Difference between means,p-value,and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline TC assessment as covariate,and percent change from baseline in TC as the response variable.|ANCOVA|||||0.81|-16.80|0.0738
82559824|NCT02609048|164829259|SUPERIORITY||Difference in LSM|-17.39|STANDARD_ERROR_OF_MEAN|5.848||0.0057|TWO_SIDED|95.0|-29.32|-5.46||Difference between means,p-value,and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||-5.46|-29.32|0.0057
82559825|NCT02609048|164829259|SUPERIORITY||Difference in LSM|-0.89|STANDARD_ERROR_OF_MEAN|5.378||0.8703|TWO_SIDED|95.0|-11.85|10.08||Difference between means,p-value,and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||10.08|-11.85|0.8703
82559826|NCT02609048|164829259|SUPERIORITY||Difference in LSM|-16.51|STANDARD_ERROR_OF_MEAN|5.781||0.0076|TWO_SIDED|95.0|-28.3|-4.71||Difference between means,p-value,and CIs estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline HDL-C assessment as covariate,and percent change from baseline in HDL-C as response variable.|ANCOVA|||||-4.71|-28.30|0.0076
82559827|NCT02609048|164829260|SUPERIORITY||Difference in LSM|-14.85|STANDARD_ERROR_OF_MEAN|5.981||0.0186|TWO_SIDED|95.0|-27.05|-2.66||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||-2.66|-27.05|0.0186
82559828|NCT02609048|164829260|SUPERIORITY||Difference in LSM|-10.06|STANDARD_ERROR_OF_MEAN|5.448||0.0745|TWO_SIDED|95.0|-21.17|1.06||Difference between means,p-value, and CIs estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||1.06|-21.17|0.0745
82559829|NCT02609048|164829260|SUPERIORITY||Difference in LSM|-4.8|STANDARD_ERROR_OF_MEAN|5.785||0.4131|TWO_SIDED|95.0|-16.6|7.0||Difference between means,p-value, and CIs estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline LDL-C assessment as covariate,and percent change from baseline in LDL-C as response variable.|ANCOVA|||||7.00|-16.60|0.4131
82559830|NCT02609048|164829261|SUPERIORITY|||||||0.4667||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.4667
82559831|NCT02609048|164829261|SUPERIORITY|||||||0.4667||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||0.4667
82559832|NCT02609048|164829262|SUPERIORITY|||||||0.0824||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0824
82584073|NCT00598273|164880037|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.95|1.06|||Cochran-Mantel-Haenszel|||||1.06|0.95|
82559833|NCT02609048|164829262|SUPERIORITY|||||||0.0537||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0537
82559834|NCT02609048|164829262|SUPERIORITY|||||||1||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||1.0000
82584074|NCT03386110|164880045|SUPERIORITY||Risk Ratio, log|1.19||||0.08|TWO_SIDED|95.0|-0.15|2.54|||Mixed Models Analysis|Model testing whether condition predicted illicit drug use at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-month follow-up, and controlled for the nesting of participants within couples.||2.54|-0.15|0.08
82651933|NCT01620489|165019016|SUPERIORITY_OR_OTHER||Estimated treatment ratio|0.98|||=|0.3575||95.0|0.94|1.02||Not adjusted for multiple comparisons|Mixed Models Analysis|||The ratio to baseline in eGFR (mL/min/1.73m˄2) after 26 weeks treatment was estimated based on log-transformed data for changes from baseline. The responses were analysed using an MMRM model with treatment, country and stratification groups as fixed effects and log-transformed baseline as a covariate, all nested within visit. The resulting estimates were back-transformed to the original scale.||1.02|0.94|= 0.3575
82559835|NCT02609048|164829263|SUPERIORITY|||||||0.0101||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0101
82559836|NCT02609048|164829263|SUPERIORITY|||||||0.0198||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0198
82559837|NCT02609048|164829263|SUPERIORITY|||||||0.5165||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||0.5165
82559838|NCT02609048|164829264|SUPERIORITY|||||||0.0101||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0101
82559839|NCT02609048|164829264|SUPERIORITY|||||||0.0055||||||Fisher's exact test between each Seladelpar level compared with placebo was used to obtain the p-value.|Fisher Exact|||||||0.0055
82559840|NCT02609048|164829264|SUPERIORITY|||||||1||||||Fisher's exact test between Seladelpar 200 mg versus 50 mg was used to obtain the p-value.|Fisher Exact|||||||1.0000
82559841|NCT02609048|164829266|SUPERIORITY||Difference in LSM|-1.1|STANDARD_ERROR_OF_MEAN|1.82||0.5379|TWO_SIDED|95.0|-4.8|2.6||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||2.6|-4.8|0.5379
82559842|NCT02609048|164829266|SUPERIORITY||Difference in LSM|0.2|STANDARD_ERROR_OF_MEAN|1.7||0.8949|TWO_SIDED|95.0|-3.3|3.7||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||3.7|-3.3|0.8949
82559843|NCT02609048|164829266|SUPERIORITY||Difference in LSM|-1.4|STANDARD_ERROR_OF_MEAN|1.75||0.4431|TWO_SIDED|95.0|-4.9|2.2||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor, baseline score as covariate, and change from baseline score as the response variable.|ANCOVA|||||2.2|-4.9|0.4431
82559844|NCT02609048|164829267|SUPERIORITY||Difference in LSM|-7.4|STANDARD_ERROR_OF_MEAN|10.07||0.4674|TWO_SIDED|95.0|-28.0|13.2||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||13.2|-28.0|0.4674
82559845|NCT02609048|164829267|SUPERIORITY||Difference in LSM|-9.0|STANDARD_ERROR_OF_MEAN|8.99||0.3236|TWO_SIDED|95.0|-27.4|9.4||Difference between means,p-value, and CIs are estimated by comparing each Seladelpar level with placebo using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||9.4|-27.4|0.3236
82559846|NCT02609048|164829267|SUPERIORITY||Difference in LSM|1.6|STANDARD_ERROR_OF_MEAN|9.92||0.8723|TWO_SIDED|95.0|-18.7|21.9||Difference between means,p-value, and CIs are estimated by comparing Seladelpar 200 mg versus 50 mg using ANCOVA model. Treatment group as factor, baseline score as a covariate, and change from baseline score as the response variable.|ANCOVA|||||21.9|-18.7|0.8723
82559847|NCT02609048|164829268|SUPERIORITY||Difference in LSM|3.4|STANDARD_ERROR_OF_MEAN|1.25||0.0115|TWO_SIDED|95.0|0.8|6.0||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||6.0|0.8|0.0115
82559848|NCT02609048|164829268|SUPERIORITY||Difference in LSM|1.8|STANDARD_ERROR_OF_MEAN|1.1||0.1256|TWO_SIDED|95.0|-0.5|4.0||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||4.0|-0.5|0.1256
82559849|NCT02609048|164829268|SUPERIORITY||Difference in LSM|1.7|STANDARD_ERROR_OF_MEAN|1.22||0.1842|TWO_SIDED|95.0|-0.9|4.2||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Cognitive Domain Score||4.2|-0.9|0.1842
82559850|NCT02609048|164829268|SUPERIORITY||Difference in LSM|3.7|STANDARD_ERROR_OF_MEAN|1.7||0.042|TWO_SIDED|95.0|0.1|7.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||7.2|0.1|0.0420
82559851|NCT02609048|164829268|SUPERIORITY||Difference in LSM|0.7|STANDARD_ERROR_OF_MEAN|1.54||0.6384|TWO_SIDED|95.0|-2.4|3.9||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||3.9|-2.4|0.6384
82559852|NCT02609048|164829268|SUPERIORITY||Difference in LSM|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.1035|TWO_SIDED|95.0|-0.6|6.5||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Social Domain Score||6.5|-0.6|0.1035
82559853|NCT02609048|164829268|SUPERIORITY||Difference in LSM|0.4|STANDARD_ERROR_OF_MEAN|0.96||0.6967|TWO_SIDED|95.0|-1.6|2.4||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Emotional Function Domain Score||2.4|-1.6|0.6967
82584075|NCT03386110|164880045|SUPERIORITY||Risk Ratio, log|0.7||||0.25|TWO_SIDED|95.0|-0.49|1.89|||Mixed Models Analysis|Model testing whether condition predicted illicit drug use at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||1.89|-0.49|0.25
82559854|NCT02609048|164829268|SUPERIORITY||Difference in LSM|0.4|STANDARD_ERROR_OF_MEAN|0.85||0.6164|TWO_SIDED|95.0|-1.3|2.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Emotional Function Domain Score||2.2|-1.3|0.6164
82559855|NCT02609048|164829268|SUPERIORITY||Difference in LSM|-0.1|STANDARD_ERROR_OF_MEAN|0.93||0.9548|TWO_SIDED|95.0|-2.0|1.9|||ANCOVA|||Emotional Function Domain Score||1.9|-2.0|0.9548
82559856|NCT02609048|164829268|SUPERIORITY||Difference in LSM|-0.2|STANDARD_ERROR_OF_MEAN|1.04||0.8286|TWO_SIDED|95.0|-2.4|1.9||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||1.9|-2.4|0.8286
82559857|NCT02609048|164829268|SUPERIORITY||Difference in LSM|4.2|STANDARD_ERROR_OF_MEAN|1.74||0.0226|TWO_SIDED|95.0|0.6|7.8||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||7.8|0.6|0.0226
82559858|NCT02609048|164829268|SUPERIORITY||Difference in LSM|-2.6|STANDARD_ERROR_OF_MEAN|1.92||0.1861|TWO_SIDED|95.0|-6.6|1.4||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||1.4|-6.6|0.1861
82559859|NCT02609048|164829268|SUPERIORITY||Difference in LSM|1.6|STANDARD_ERROR_OF_MEAN|1.96||0.4159|TWO_SIDED|95.0|-2.4|5.7||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Fatigue Domain Score||5.7|-2.4|0.4159
82559860|NCT02609048|164829268|SUPERIORITY||Difference in LSM|0.7|STANDARD_ERROR_OF_MEAN|0.93||0.4848|TWO_SIDED|95.0|-1.3|2.6||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||2.6|-1.3|0.4848
82559861|NCT02609048|164829268|SUPERIORITY||Difference in LSM|-0.9|STANDARD_ERROR_OF_MEAN|1.05||0.4048|TWO_SIDED|95.0|-3.1|1.3||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Itch Domain Score||1.3|-3.1|0.4048
82559862|NCT02609048|164829268|SUPERIORITY||Difference in LSM|2.6|STANDARD_ERROR_OF_MEAN|1.0||0.0141|TWO_SIDED|95.0|0.6|4.7||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||4.7|0.6|0.0141
82559863|NCT02609048|164829268|SUPERIORITY||Difference in LSM|2.4|STANDARD_ERROR_OF_MEAN|0.9||0.0138|TWO_SIDED|95.0|0.5|4.2||Difference between means,p-value,and CIs are estimated comparing each Seladelpar level with placebo using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||4.2|0.5|0.0138
82559864|NCT02609048|164829268|SUPERIORITY||Difference in LSM|0.3|STANDARD_ERROR_OF_MEAN|0.98||0.7911|TWO_SIDED|95.0|-1.8|2.3||Difference between means,p-value,and CIs are estimated comparing Seladelpar 200 mg versus 50 mg using ANCOVA model.Treatment group as factor,baseline PBC 40 QoL domain score as covariate, change from baseline in domain score as response variable.|ANCOVA|||Symptoms Domain Score||2.3|-1.8|0.7911
82559865|NCT03769090|164829282|SUPERIORITY||Hazard Ratio (HR)|0.733|||<|0.001|TWO_SIDED|95.0|0.611|0.879|||Regression, Cox|||H0 = null hypothesis. Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, age group, region and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favours BDA MDI treatment.||0.879|0.611|<0.001
82559866|NCT03769090|164829282|SUPERIORITY||Hazard Ratio (HR)|0.835||||0.041|TWO_SIDED|95.0|0.702|0.992|||Regression, Cox|||H0 = Null hypothesis. Hazard ratios, 95% confidence intervals for hazard ratios and p-values are estimated using a Cox regression model with treatment group, age group, region and number of severe exacerbations in the last 12 months prior to randomization as factors. A hazard ratio less than 1 favours BDI MDI treatment.||0.992|0.702|0.041
82584076|NCT03386110|164880045|SUPERIORITY||Risk Ratio, log|1.79||||0.007|TWO_SIDED|95.0|0.49|3.09|||Mixed Models Analysis|Three-way interaction model testing whether baseline use (actor and partner) moderated the effect of condition on illicit drug use at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 3-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||3.09|0.49|0.007
82559867|NCT03769090|164829283|SUPERIORITY||Rate Ratio|0.76||||0.008|TWO_SIDED|95.0|0.62|0.93|||Negative binomial model|||Estimated from a negative binomial model with treatment, age group, region, and number of severe exacerbations in the last 12 months prior to randomization as categorical covariates. The logarithm of the time at risk is included as an offset variable. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||0.93|0.62|0.008
82584077|NCT03386110|164880045|SUPERIORITY||Risk Ratio, log|-0.36||||0.71|TWO_SIDED|95.0|-2.26|1.53|||Mixed Models Analysis|Three-way interaction model testing whether baseline use (actor and partner) moderated the effect of condition on illicit drug use at 6-months||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 6-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||1.53|-2.26|0.71
82559868|NCT03769090|164829283|SUPERIORITY||Rate Ratio|0.8||||0.028|TWO_SIDED|95.0|0.66|0.98|||Negative binomial model|||Estimated from a negative binomial model with treatment, age group, region, and number of severe exacerbations in the last 12 months prior to randomization as categorical covariates. The logarithm of the time at risk is included as an offset variable. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||0.98|0.66|0.028
82559869|NCT03769090|164829284|SUPERIORITY|||||||0.002|||||||Wilcoxon rank sum|||P-values are calculated via a Wilcoxon rank sum test. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||||0.002
82559870|NCT03769090|164829284|SUPERIORITY|||||||0.06|||||||Wilcoxon rank sum|||P-values are calculated via a Wilcoxon rank sum test. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||||0.06
82559871|NCT03769090|164829285|SUPERIORITY||Odds Ratio (OR)|1.221||||0.033|TWO_SIDED|95.0|1.016|1.467|||Regression, Logistic|||Logistic regression model with baseline ACQ-5 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.467|1.016|0.033
82559872|NCT03769090|164829285|SUPERIORITY||Odds Ratio (OR)|1.132||||0.175|TWO_SIDED|95.0|0.946|1.353|||Regression, Logistic|||Logistic regression model with baseline ACQ-5 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.353|0.946|0.175
82559873|NCT03769090|164829286|SUPERIORITY||Odds Ratio (OR)|1.228||||0.028|TWO_SIDED|95.0|1.022|1.475|||Regression, Logistic|||Logistic regression model with baseline AQLQ-12 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.475|1.022|0.028
82559874|NCT03769090|164829286|SUPERIORITY||Odds Ratio (OR)|1.111||||0.26|TWO_SIDED|95.0|0.925|1.335|||Regression, Logistic|||Logistic regression model with baseline AQLQ-12 as a continuous covariate and age group, region and number of severe exacerbations in the 12 months prior to randomization as categorical covariates. A sequential testing strategy is used for secondary endpoints. A null hypothesis can only be rejected if all preceding null hypotheses are also rejected.||1.335|0.925|0.26
82559875|NCT03964974|164829287|SUPERIORITY|2-sided hypothesis tests were utilized to compare ISI score over time in the two treatment conditions.|Median Difference (Final Values)|-4.307|STANDARD_ERROR_OF_MEAN|1.612||0.0041|TWO_SIDED|95.0|-7.51|-1.104||This is the calculated p-value. The threshold for statistical significance was 0.05.|Mixed Models Analysis|||Persons in the CBTI-CB condition were hypothesized as realizing greater reduction in insomnia severity as measured by the Insomnia Severity Index (ISI) over time compared to the Sleep Hygiene Education (SHE) condition. 80% power was estimated to detect a medium or larger effect size (d\>0.52) on sleep- and functioning-related outcomes, even with a more conservative alpha set at 0.017 (i.e., 0.05/3 for the 3 outcomes).|Parameter is estimated difference in final means, CBTi-CB - Control. Minus sign denotes greater decrease for CBTi-CB. Effect size for Time X Condition = 0.81|-1.104|-7.510|0.0041
82559876|NCT02713594|164829288|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-7.86|||<|0.0001|TWO_SIDED|95.0|-11.28|-4.5|||Abstinence Risk Difference|||||-4.5|-11.28|<.0001
82559877|NCT02713594|164829289|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|Chi-square test value = 196.1, with 5 degrees of freedom.||||||<.0001
82559878|NCT02660086|164829291|SUPERIORITY||Mean Difference (Net)|0.2||||0.7|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||||1.0|-0.6|0.70
82559879|NCT02660086|164829292|SUPERIORITY||Mean Difference (Net)|0.6||||0.2|TWO_SIDED|95.0|-0.3|1.4|||Mixed Models Analysis|||||1.4|-0.3|0.20
82559880|NCT02660086|164829293|SUPERIORITY||Mean Difference (Net)|-1.3||||0.24|TWO_SIDED|95.0|-3.6|0.9|||Mixed Models Analysis|||Change in systolic BP at 12 months||0.9|-3.6|0.24
82559881|NCT02660086|164829293|SUPERIORITY||Mean Difference (Net)|1.5||||0.19|TWO_SIDED|95.0|-0.7|3.7|||Mixed Models Analysis|||Change in systolic BP at 24 months||3.7|-0.7|0.19
82559882|NCT02660086|164829293|SUPERIORITY||Mean Difference (Net)|-1.6||||0.07|TWO_SIDED|95.0|-3.2|0.1|||Mixed Models Analysis|||Change in diastolic BP at 12 months||0.1|-3.2|0.07
82559883|NCT02660086|164829293|SUPERIORITY||Mean Difference (Net)|0.1||||0.94|TWO_SIDED|95.0|-1.5|1.6|||Mixed Models Analysis|||Change in diastolic BP at 24 months||1.6|-1.5|0.94
82559884|NCT02660086|164829294|SUPERIORITY||Mean Difference (Net)|-1.3||||0.54|TWO_SIDED|95.0|-5.6|2.9|||Mixed Models Analysis|||Change in total cholesterol at 12 months||2.9|-5.6|0.54
82559885|NCT02660086|164829294|SUPERIORITY||Mean Difference (Net)|1.6||||0.53|TWO_SIDED|95.0|-3.5|6.7|||Mixed Models Analysis|||Change in total cholesterol at 24 months||6.7|-3.5|0.53
82559886|NCT02660086|164829295|SUPERIORITY||Mean Difference (Net)|-1.2||||0.51|TWO_SIDED|95.0|-4.8|2.4|||Mixed Models Analysis|||Change in LDL at 12 months||2.4|-4.8|0.51
82559887|NCT02660086|164829295|SUPERIORITY||Mean Difference (Net)|1.2||||0.6|TWO_SIDED|95.0|-3.4|5.7|||Mixed Models Analysis|||Change in LDL at 24 months||5.7|-3.4|0.60
82559888|NCT02660086|164829296|SUPERIORITY||Mean Difference (Net)|-2.9||||0.48|TWO_SIDED|95.0|-10.8|5.1|||Mixed Models Analysis|||Change in triglycerides at 12 months||5.1|-10.8|0.48
82559889|NCT02660086|164829296|SUPERIORITY||Mean Difference (Net)|4.0||||0.29|TWO_SIDED|95.0|-3.4|11.5|||Mixed Models Analysis|||Change in triglycerides at 24 months||11.5|-3.4|0.29
82559890|NCT02660086|164829297|SUPERIORITY||Mean Difference (Net)|-0.2||||0.8|TWO_SIDED|95.0|-1.9|1.5|||Mixed Models Analysis|||Change in HDL at 12 months||1.5|-1.9|0.80
82559891|NCT02660086|164829297|SUPERIORITY||Mean Difference (Net)|-0.3||||0.72|TWO_SIDED|95.0|-1.9|1.3|||Mixed Models Analysis|||Change in HDL at 24 months||1.3|-1.9|0.72
82559892|NCT02660086|164829298|SUPERIORITY||Mean Difference (Net)|0.0||||0.62|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||Change in hemoglobin A1C at 12 months||0.1|-0.1|0.62
82559893|NCT02660086|164829298|SUPERIORITY||Mean Difference (Net)|0.0||||0.4|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||Change in hemoglobin A1C at 24 months||0.1|0.0|0.40
82559894|NCT02660086|164829299|SUPERIORITY||Mean Difference (Net)|7.3|||<|0.001|TWO_SIDED|95.0|5.4|9.3|||Mixed Models Analysis|||Change in green labeled purchases during 12 month intervention (months 1-12) compared to baseline 12 months||9.3|5.4|<0.001
82559895|NCT02660086|164829299|SUPERIORITY||Mean Difference (Net)|4.8|||<|0.001|TWO_SIDED|95.0|2.9|6.8|||Mixed Models Analysis|||Change in green-labeled purhases during 12 month follow-up (months 13-24) compared to 12 month baseline||6.8|2.9|<0.001
82559896|NCT02660086|164829300|SUPERIORITY||Mean Difference (Net)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.0|-2.7|||Mixed Models Analysis|||Change in red labeled purchases during 12 month intervention (months 1-12) compared to baseline 12 months||-2.7|-5.0|<0.001
82559897|NCT02660086|164829300|SUPERIORITY||Mean Difference (Net)|-3.1|||<|0.001|TWO_SIDED|95.0|-4.3|-2.0|||Mixed Models Analysis|||Change in red labeled purchases during 12-month follow up (months 13-24) compared to baseline 12 months||-2.0|-4.3|<0.001
82559898|NCT02660086|164829301|SUPERIORITY||Mean Difference (Net)|5.6|||<|0.001|TWO_SIDED|95.0|4.2|7.0|||Mixed Models Analysis|||Change in healthy purchasing score during 12 month intervention (months 1-12) compared to baseline 12 months||7.0|4.2|<0.001
82559899|NCT02660086|164829301|SUPERIORITY||Mean Difference (Net)|4.0|||<|0.001|TWO_SIDED|95.0|2.6|5.3|||Mixed Models Analysis|||Change in Healthy Purchasing Score during 12 month follow up (months 13-24) compared to baseline 12 months||5.3|2.6|<0.001
82559900|NCT02660086|164829302|SUPERIORITY||Mean Difference (Net)|1.8|||||TWO_SIDED|95.0|-0.6|4.1||||||Change in HEI scores at 12 months.||4.1|-0.6|
82559901|NCT02660086|164829302|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-0.7|3.8||||||Change in HEI scores at 24 months||3.8|-0.7|
82559902|NCT01653509|164829303|SUPERIORITY_OR_OTHER||Least square mean difference|-911.48||||0.3061|TWO_SIDED|95.0|-2712.65|889.69|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV.||889.69|-2712.65|0.3061
82559903|NCT01653509|164829303|SUPERIORITY_OR_OTHER||LS Mean Difference|-150.99||||0.4035|TWO_SIDED|95.0|-517.97|215.99|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between treatments for MEV.||215.99|-517.97|0.4035
82559904|NCT01653509|164829304|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48||||0.0486|TWO_SIDED|95.0|0.02|4.93|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV (Day 1 to day 10).||4.93|0.02|0.0486
82559905|NCT01653509|164829304|SUPERIORITY_OR_OTHER||LS Mean Difference|0.38||||0.0799|TWO_SIDED|95.0|-0.05|0.82|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for MEV.||0.82|-0.05|0.0799
82559906|NCT01653509|164829305|SUPERIORITY_OR_OTHER||LS mean difference|2.14||||0.179|TWO_SIDED|95.0|-1.06|5.35|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for TEV.||5.35|-1.06|0.1790
82559907|NCT01653509|164829305|SUPERIORITY_OR_OTHER||LS mean difference|0.37||||0.2446|TWO_SIDED|95.0|-0.27|1.0|||ANOVA|ANOVA model with a factor for treatment group.|Difference calculated as first named treatment minus second named treatment, such that a negative difference favours the first named treatment.|Null hypothesis considered no difference between study treatments for MEV.||1.00|-0.27|0.2446
82559908|NCT01450007|164829318|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
82559909|NCT01450007|164829319|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||||||0.001
82559910|NCT01450007|164829320|SUPERIORITY_OR_OTHER|||||||0.76|||||||ANOVA|||||||0.76
82559911|NCT01450007|164829321|SUPERIORITY_OR_OTHER|||||||0.61|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 24 hours.||||0.61
82559912|NCT01450007|164829321|SUPERIORITY_OR_OTHER|||||||0.13|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 48 hours.||||0.13
82559913|NCT01450007|164829321|SUPERIORITY_OR_OTHER|||||||0.25|||||||Kruskal-Wallis|||Comparison between the 3 groups for pain scores at 1 week.||||0.25
82559914|NCT03068312|164829365|OTHER||Least squares mean difference|-0.66|||||TWO_SIDED|95.0|-1.1|-0.21||||||||-0.21|-1.10|
82559915|NCT02224755|164829366|NON_INFERIORITY|Non-inferiority would be demonstrated if the 95% lower confidence boundary for the difference between treatment groups (HM3 - HMII) in the occurrence of the primary end point would be greater than -10 percentage points, at a one-sided alpha level of 0.025 or a two-tailed P value of less than 0.05.|Risk Difference (RD)|9.4|||<|0.001|ONE_SIDED|95.0|-2.1||||Farrington-Manning risk difference||||||-2.1|<0.001
82559916|NCT02224755|164829367|NON_INFERIORITY|Non-inferiority would be demonstrated if the 95% lower confidence boundary for the difference between treatment groups (HM3 - HMII) in the occurrence of the primary end point would be greater than -10 percentage points, at a one-sided alpha level of 0.025 or a two-tailed P value of less than 0.05.|Risk Difference (RD)|19.2|||<|0.001|ONE_SIDED|95.0|9.8||||Farrington-Manning risk difference||||||9.8|<0.001
82584078|NCT03386110|164880046|SUPERIORITY||Risk Ratio, log|0.36||||0.36|TWO_SIDED|95.0|-0.65|1.37|||Mixed Models Analysis|Model testing whether condition predicted CAS events at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-months, and controlled for the nesting of participants within couples.||1.37|-0.65|0.36
82488542|NCT02124161|164669893|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.2|||||TWO_SIDED|95.0|1.01|1.32||||||Strain A/H3N2: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.32|1.01|
82488543|NCT02124161|164669893|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.24||||||Strain B/Brisbane: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.24|0.95|
82488544|NCT02124161|164669893|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.9|1.21||||||Strain B/Massachusetts: CIs for the ratio were back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC+QIV/placebo - placebo+QIV/13vPnC).||1.21|0.90|
82488545|NCT02124161|164669896|SUPERIORITY_OR_OTHER||Percentage Difference|2.8|||||TWO_SIDED|95.0|-1.9|7.4||||||AE: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC+QIV /placebo - placebo+QIV/13vPnC, expressed as a percentage.||7.4|-1.9|
82488546|NCT02124161|164669896|SUPERIORITY_OR_OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||SAE: Exact 2-sided confidence interval (based on Chan and Zhang) for the difference in proportions, 13vPnC+QIV /placebo - placebo+QIV/13vPnC, expressed as a percentage.||1.7|-1.8|
82488547|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-2.8||||0.333|TWO_SIDED|95.0|-8.3|2.8|||Chan and Zhang method|||Serotype 1: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||2.8|-8.3|0.333
82488548|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-4.3||||0.105|TWO_SIDED|95.0|-9.6|0.9|||Chan and Zhang method|||Serotype 3: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.9|-9.6|0.105
82488549|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-3.5||||0.09|TWO_SIDED|95.0|-7.6|0.6|||Chan and Zhang method|||Serotype 4: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.6|-7.6|0.090
82559917|NCT02224755|164829368|SUPERIORITY||Risk Ratio (RR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.38|||Fisher Exact|||Based on data in the Sponsor's device tracking database, 7% of patients with the HeartMate II LVAS receive a pump replacement by 24 months. The expected proportion of patients with the HeartMate 3 LVAS to receive a pump replacement by 24 months was assumed to be 3%. We estimated that to demonstrate superiority of HeartMate 3 to HeartMate II with a power of 80% and α = 0.05 (2-sided), a total of 1028 patients (514 per arm) were required using the Fisher's exact test.||.38|.11|<0.001
82488550|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|1.8||||0.59|TWO_SIDED|95.0|-4.2|7.8|||Chan and Zhang method|||Serotype 5: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||7.8|-4.2|0.590
82488551|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-3.7||||0.044|TWO_SIDED|95.0|-7.5|-0.1|||Chan and Zhang method|||Serotype 6A: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||-0.1|-7.5|0.044
82559918|NCT00273052|164829376|SUPERIORITY_OR_OTHER||Median Difference (Net)|-8.026||||0.0141||95.0|-15.35|-0.67|||ANCOVA||Median difference = Coreg CR - Toprol XL|||-0.67|-15.35|0.0141
82488552|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-1.4||||0.574|TWO_SIDED|95.0|-6.2|3.4|||Chan and Zhang method|||Serotype 6B: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||3.4|-6.2|0.574
82488553|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-1.2||||0.648|TWO_SIDED|95.0|-6.3|3.9|||Chan and Zhang method|||Serotype 7F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||3.9|-6.3|0.648
82488554|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-6.2||||0.057|TWO_SIDED|95.0|-12.5|0.2|||Chan and Zhang method|||Serotype 9V: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.2|-12.5|0.057
82488555|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-3.7||||0.03|TWO_SIDED|95.0|-7.3|-0.3|||Chan and Zhang method|||Serotype 14: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||-0.3|-7.3|0.030
82488556|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-2.5||||0.233|TWO_SIDED|95.0|-6.6|1.6|||Chan and Zhang method|||Serotype 18C: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||1.6|-6.6|0.233
82488557|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-1.8||||0.152|TWO_SIDED|95.0|-4.5|0.7|||Chan and Zhang method|||Serotype 19A: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||0.7|-4.5|0.152
82488558|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.926|TWO_SIDED|95.0|-5.1|5.8|||Chan and Zhang method|||Serotype 19F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||5.8|-5.1|0.926
82559919|NCT00273052|164829377|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.6068||95.0|-2.4|3.9|||ANCOVA||Mean difference = Coreg CR - Toprol XL|||3.9|-2.4|0.6068
82488559|NCT02124161|164669898|SUPERIORITY_OR_OTHER||Percentage Difference|-3.9||||0.143|TWO_SIDED|95.0|-9.1|1.3|||Chan and Zhang method|||Serotype 23F: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||1.3|-9.1|0.143
82488560|NCT02124161|164669901|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|5.1||||0.094|TWO_SIDED|95.0|-0.9|11.0|||Chan and Zhang method|||Strain A/H1N1: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||11.0|-0.9|0.094
82488561|NCT02124161|164669901|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-3.8||||0.232|TWO_SIDED|95.0|-9.9|2.4|||Chan and Zhang method|||Strain A/H3N2: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||2.4|-9.9|0.232
82488562|NCT02124161|164669901|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-1.0||||0.734|TWO_SIDED|95.0|-6.6|4.5|||Chan and Zhang method|||Strain B/Brisbane: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||4.5|-6.6|0.734
82488563|NCT02124161|164669901|NON_INFERIORITY_OR_EQUIVALENCE|The criterion for noninferiority was the lower bound of the 2-sided 95% CI for the GMT ratio was greater than 0.5 (2-fold criterion).|Percentage Difference|-1.5||||0.627|TWO_SIDED|95.0|-7.2|4.3|||Chan and Zhang method|||Strain B/Massachusetts: Exact 2-sided CI and corresponding p-value (based on Chan and Zhang) for the difference in proportions, (13vPnC+QIV/placebo - placebo+QIV/13vPnC), expressed as a percentage.||4.3|-7.2|0.627
82488564|NCT02080637|164669924|OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|0.5||0.01|TWO_SIDED||||||Paired t-test|||Baseline versus 2 hours post-ambrisentan||||0.01
82559920|NCT01852045|164829390|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.276||0.9949|TWO_SIDED|95.0|-0.549|0.545|||ANCOVA||Least squares estimates and contrast t-test were based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||0.545|-0.549|0.9949
82559921|NCT01852045|164829390|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.321||0.9123|TWO_SIDED|95.0|-0.673|0.602|||ANCOVA||Least squares estimates and contrast t-test were based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||0.602|-0.673|0.9123
82559922|NCT01852045|164829392|SUPERIORITY||Least Squares Mean Difference|12.97|STANDARD_ERROR_OF_MEAN|19.694||0.5117|TWO_SIDED|95.0|-26.12|52.064|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||52.064|-26.120|0.5117
82584079|NCT03386110|164880046|SUPERIORITY||Risk Ratio, log|-0.18||||0.63|TWO_SIDED|95.0|-1.15|0.78|||Mixed Models Analysis|Model testing whether condition predicted CAS events at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||0.78|-1.15|0.63
82488565|NCT02080637|164669925|OTHER||Slope|-27.0||||0.94|TWO_SIDED|95.0|-775.0|723.0|||Regression, Linear|||||723|-775|0.94
82559923|NCT01852045|164829392|SUPERIORITY||Least Squares Mean Difference|65.57|STANDARD_ERROR_OF_MEAN|23.101||0.0055|TWO_SIDED|95.0|19.711|111.421|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||111.421|19.711|0.0055
82488566|NCT02080637|164669926|OTHER||Slope|1.2||||0.61|TWO_SIDED|95.0|-3.9|6.3|||Regression, Linear|||||6.3|-3.9|0.61
82488567|NCT01599832|164669935|OTHER|||||||0.083||||||P-value was from test of significance of log-transformed baseline K\^trans.|Regression, Cox|Multivariate model with adjustment for prior treatment, and clinical prognostic index (good/intermediate/poor) (n=16 had complete data)||||||0.083
82488568|NCT01881373|164669936|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-3.88||||0.02|TWO_SIDED|95.0|-7.29|-0.47|||Regression, Logistic|Hierarchical model.|Intervention vs control communities comparing 24 months to baseline|||-0.47|-7.29|0.02
82488569|NCT01881373|164669936|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-2.63||||0.28|TWO_SIDED|95.0|-8.58|3.32||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||3.32|-8.58|0.28
82488570|NCT01881373|164669937|SUPERIORITY|Hierarchical model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-1.64||||0.009|TWO_SIDED|95.0|-2.87|-0.41||Intervention vs control communities comparing 78 months to baseline.|Regression, Linear|Hierarchical model.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-0.41|-2.87|0.009
82586153|NCT05437510|164884201|SUPERIORITY||Efficacy|78.1||||0.062|TWO_SIDED|95.0|-5.823|97.697|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.697|-5.823|0.0620
82488571|NCT01881373|164669937|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|4.35||||0.49|TWO_SIDED|95.0|-8.5|17.24|||Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs temporal comparing 78 months to baseline.||17.24|-8.5|0.49
82488572|NCT01881373|164669938|SUPERIORITY|Hierarchical logistic model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Difference in prevalence|-3.6|||<|0.01|TWO_SIDED||||||Regression, Logistic|Hierarchical model||Intervention vs control comparing 24 months to baseline.||||<0.01
82488573|NCT01881373|164669939|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|change in prevalence between communities|-12.6||||0.003|TWO_SIDED|95.0|-20.92|-4.28||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-4.28|-20.92|0.003
82488574|NCT01881373|164669939|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-3.43||||0.33|TWO_SIDED|95.0|-10.36|3.5||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs. Temporal communities. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||3.50|-10.36|0.33
82488575|NCT01881373|164669940|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-0.71||||0.02|TWO_SIDED|95.0|-1.37|-0.05||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||-0.05|-1.37|0.02
82488576|NCT01881373|164669940|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|-0.65||||0.13|TWO_SIDED|95.0|-1.79|0.49||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||0.49|-1.79|0.13
82488577|NCT01881373|164669941|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.01||||0.86|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.86
82488578|NCT01881373|164669942|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-1.17||||0.68|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.68
82559924|NCT01852045|164829394|SUPERIORITY||Least Squares Mean Difference|-13.49|STANDARD_ERROR_OF_MEAN|19.673||0.4948|TWO_SIDED|95.0|-52.605|25.626|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||25.626|-52.605|0.4948
82559925|NCT01852045|164829394|SUPERIORITY||Least Squares Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|22.382||0.9471|TWO_SIDED|95.0|-43.012|45.991|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||45.991|-43.012|0.9471
82488579|NCT01881373|164669943|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|3.42||||0.55|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.55
82488580|NCT01881373|164669944|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.5||||0.11|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.11
82559926|NCT01852045|164829395|SUPERIORITY||Relative Risk|0.7||||0.2027|TWO_SIDED|95.0|0.45|1.14||P-values for pairwise comparisons are obtained from 2-sided CMH test, stratified by age (\<12 years or \>=12 years), baseline daytime urinary incontinence episodes (\<=6 or \>6) and anticholinergic therapy (yes/no).|Cochran-Mantel-Haenszel|||Week 6||1.14|0.45|0.2027
82488581|NCT01881373|164669945|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.7||||0.08|TWO_SIDED||||||Regression, Linear|||mixed model adjusting for age and sex and cluster of community and strata of jurisdiction; intervention vs control comparing 24 months to baseline||||0.08
82488582|NCT01881373|164669946|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.04||||0.71|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.71
82488583|NCT01881373|164669947|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.02||||0.54|TWO_SIDED||||||Regression, Linear|Hierarchical model.||Intervention vs control comparing 24 months to baseline.||||0.54
82488584|NCT01881373|164669948|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.01||||0.9|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.90
82488585|NCT01881373|164669949|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.05||||0.71|TWO_SIDED||||||Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.71
82488586|NCT01881373|164669950|SUPERIORITY|Hierarchical linear model accounting for randomization of communities and clustering of children within communities in strata of jurisdictions weighted for number of children less than age 10 in communities. Chi-square test accounts for degrees of freedom based on number of communities.|Mean Difference (Final Values)|-0.18||||0.48|TWO_SIDED|||||intervention vs control communities|Regression, Linear|||Intervention vs control comparing 24 months to baseline.||||0.48
82488587|NCT01881373|164669951|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|differences in prevalence|-3.6|||<|0.01|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Logistic|Hierarchical model||intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||<0.01
82488588|NCT01881373|164669952|SUPERIORITY|Hierarchical|Mean Difference (Final Values)|0.09||||0.44|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs Control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.44
82584080|NCT03386110|164880046|SUPERIORITY||Risk Ratio, log|-0.54||||0.42|TWO_SIDED|95.0|-1.85|0.77|||Mixed Models Analysis|Three-way interaction model testing whether baseline rates of CAS (actor and partner) moderated the effect of condition on CAS events at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 3-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.77|-1.85|0.42
82488589|NCT01881373|164669953|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.16||||0.81|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs. Control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.81
82488590|NCT01881373|164669954|SUPERIORITY|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.37||||0.68|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.68
82488591|NCT01881373|164669955|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.02||||0.69|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.69
82488592|NCT01881373|164669956|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.21||||0.11|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.11
82488593|NCT01881373|164669957|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.06||||0.4|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|||Intervention vs. control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.40
82488594|NCT01881373|164669958|SUPERIORITY|Hierarchical model. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.2||||0.37|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs control. The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.37
82488595|NCT01881373|164669958|SUPERIORITY|Hierarchical model.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Mean Difference (Final Values)|0.18||||0.51|TWO_SIDED|||||The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.|Regression, Linear|The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||Intervention vs temporal.The children from each community recruited each time were NOT the same children. The number of communities is consistent across time.||||0.51
82488596|NCT03387683|164669966|OTHER||Difference in LSM|0.31121|STANDARD_ERROR_OF_MEAN|0.46184||0.504|TWO_SIDED|95.0|-0.619|1.24141||Statistical significance was inferred at a (2-sided) 0.05 level.|ANCOVA|The LSM estimate and corresponding p-value were obtained from a linear model with treatment and baseline value of the endpoint as covariates.||Difference in LSM (Placebo-Dapagliflozin 10 mg)||1.24141|-0.61900|0.504
82488597|NCT03387683|164669967|OTHER||Difference in LSM|1.74969|STANDARD_ERROR_OF_MEAN|2.18363||0.427|TWO_SIDED|95.0|-2.64837|6.14775||Statistical significance was inferred at a (2-sided) 0.05 level.|ANCOVA|The LSM estimate and corresponding p-value were obtained from a linear model with treatment and baseline value of the endpoint as covariates.||Difference in LSM (Placebo - Dapagliflozin 10 mg)||6.14775|-2.64837|0.427
82559927|NCT01852045|164829395|SUPERIORITY||Relative Risk|0.8||||0.1564|TWO_SIDED|95.0|0.4|1.21||P-values for pairwise comparisons are obtained from a 2-sided CMH test, stratified by age (\< 12 years or \>= 12 years), baseline daytime urinary incontinence episodes (\<= 6 or \> 6) and anticholinergic therapy (yes/no).|Cochran-Mantel-Haenszel|||Week 6||1.21|0.40|0.1564
82559928|NCT01852045|164829396|SUPERIORITY||Least Squares Mean Difference|-4.49|STANDARD_ERROR_OF_MEAN|7.488||0.5524|TWO_SIDED|95.0|-19.648|10.669|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||10.669|-19.648|0.5524
82559929|NCT01852045|164829396|SUPERIORITY||Least Squares Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|10.181||0.8313|TWO_SIDED|95.0|-18.427|22.795|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||22.795|-18.427|0.8313
82559930|NCT01852045|164829397|SUPERIORITY||Least Squares Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|5.253||0.1737|TWO_SIDED|95.0|-17.653|3.238|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||3.238|-17.653|0.1737
82559931|NCT01852045|164829397|SUPERIORITY||Least Squares Mean Difference|-14.43|STANDARD_ERROR_OF_MEAN|5.85||0.0157|TWO_SIDED|95.0|-26.061|-2.793|||ANCOVA||Least squares estimates and contrast t-test are based on ANCOVA model with baseline value as covariate and treatment group, age, baseline daytime urinary incontinence episodes, anticholinergic therapy at baseline as factors.|||-2.793|-26.061|0.0157
82488598|NCT01950169|164669978|SUPERIORITY|||||||0.05|||||||ANCOVA|Covariates used were age, sex, total mass, and baseline BMD. Data were reported using complete-cases analysis and intention-to-treat (ITT) analysis.||||||0.05
82488599|NCT01950169|164669979|SUPERIORITY|||||||0.05|||||||ANCOVA|Covariates used were age, sex, total mass, and baseline BMD. Data were reported using complete-cases analysis and intention-to-treat (ITT) analysis.||||||0.05
82488600|NCT01950169|164669980|SUPERIORITY|||||||0.05|||||||ANCOVA|The analyses included exposure measures treatment groups and sex as fixed factors. Age and baseline values for FFMI, FMI were included as covariates.||||||0.05
82488601|NCT02617888|164669998|SUPERIORITY||Slope|0.08|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
82488602|NCT00178633|164670056|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
82488603|NCT03789214|164670093|OTHER|One-way ANOVA||||||0.95|||||||ANOVA|||||||.950
82488604|NCT03789214|164670094|OTHER|One-way ANOVA||||||0.048|||||||ANOVA|||||||.048
82488605|NCT03789214|164670095|OTHER|One-way ANOVA||||||0.691|||||||ANOVA|||||||.691
82559932|NCT02736188|164829410|SUPERIORITY||LS Mean Difference|0.8||||0.4287|TWO_SIDED|95.0|-1.17|2.77||Baseline is fit into the model as a covariate.|generalized estimating equation (GEE)|||Week 8||2.77|-1.17|0.4287
82559933|NCT02736188|164829410|SUPERIORITY||LS Mean Difference|0.36||||0.7031|TWO_SIDED|95.0|-1.49|2.21||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.21|-1.49|0.7031
82488606|NCT03789214|164670096|OTHER|One-way ANOVA||||||0.62|||||||ANOVA|||||||.620
82488607|NCT03789214|164670097|OTHER|One-way ANOVA||||||0.067|||||||ANOVA|||||||.067
82488608|NCT02907268|164670101|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82488609|NCT02907268|164670102|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82559934|NCT02736188|164829410|SUPERIORITY||LS Mean Difference|-0.91||||0.4253|TWO_SIDED|95.0|-3.14|1.32||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.32|-3.14|0.4253
82559935|NCT02736188|164829410|SUPERIORITY||LS Mean Difference|-0.06||||0.9747|TWO_SIDED|95.0|-3.49|3.38||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.38|-3.49|0.9747
82559936|NCT02736188|164829411|SUPERIORITY||LS Mean Difference|-0.27||||0.4721|TWO_SIDED|95.0|-1.01|0.47||Baseline is fit into the model as a covariate.|GEE model|||Week 8||0.47|-1.01|0.4721
82559937|NCT02736188|164829411|SUPERIORITY||LS Mean Difference|-0.19||||0.6611|TWO_SIDED|95.0|-1.02|0.64||Baseline is fit into the model as a covariate.|GEE model|||Week 16||0.64|-1.02|0.6611
82559938|NCT02736188|164829411|SUPERIORITY||LS Mean Difference|-0.44||||0.276|TWO_SIDED|95.0|-1.22|0.35|||GEE model|Baseline is fit into the model as a covariate.||Week 24||0.35|-1.22|0.2760
82559939|NCT02736188|164829411|SUPERIORITY||LS Mean Difference|-0.28||||0.6977|TWO_SIDED|95.0|-1.69|1.13||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.13|-1.69|0.6977
82559940|NCT02736188|164829412|SUPERIORITY||Difference in LS Means|0.7||||0.0648|TWO_SIDED|95.0|-0.04|1.45||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.45|-0.04|0.0648
82559941|NCT02736188|164829412|SUPERIORITY||difference in LS means|0.74||||0.0692|TWO_SIDED|95.0|-0.06|1.55||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.55|-0.06|0.0692
82488610|NCT02907268|164670103|EQUIVALENCE|"Each variable compared with the no change score. The no change score is 0 for wrinkles-related variables."|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82488611|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|-10.59|STANDARD_ERROR_OF_MEAN|2.0|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
82488612|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|2.18|STANDARD_ERROR_OF_MEAN|2.42||0.1858|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.1858
82488613|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|8.66|STANDARD_ERROR_OF_MEAN|2.55||0.0007|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.0007
82488614|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|14.45|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
82488615|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|-14.14|STANDARD_ERROR_OF_MEAN|4.55|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
82488616|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|1.91|STANDARD_ERROR_OF_MEAN|4.56||0.3384|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.3384
82488617|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|19.38|STANDARD_ERROR_OF_MEAN|3.94|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
82488618|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|38.37|STANDARD_ERROR_OF_MEAN|9.76||0.0002|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.0002
82488619|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|-23.96|STANDARD_ERROR_OF_MEAN|4.88|||TWO_SIDED|||||Testing procedure stopped|Mixed Models Analysis|||Holm's Step-Down Method||||
82488620|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|2.47|STANDARD_ERROR_OF_MEAN|5.4||0.3249|TWO_SIDED|||||Superiority not confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||0.3249
82488621|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|29.23|STANDARD_ERROR_OF_MEAN|6.53|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
82488622|NCT02633501|164670104|SUPERIORITY||Least Squares Mean|51.96|STANDARD_ERROR_OF_MEAN|10.68|<|0.0001|TWO_SIDED|||||Superiority confirmed|Mixed Models Analysis|||Holm's Step-Down Method||||<0.0001
82488623|NCT04856891|164670119|SUPERIORITY||Percent Difference from Placebo|78.4|||<|0.0001|TWO_SIDED|95.0|62.2|89.1|||Fisher Exact|||||89.1|62.2|<0.0001
82559942|NCT02736188|164829412|SUPERIORITY||difference in LS means|0.44||||0.4317|TWO_SIDED|95.0|-0.65|1.52||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.52|-0.65|0.4317
82559943|NCT02736188|164829412|SUPERIORITY||difference in LS means|-0.34||||0.6416|TWO_SIDED|95.0|-1.78|1.1||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.10|-1.78|0.6416
82559944|NCT02736188|164829413|SUPERIORITY||difference in LS means|0.78||||0.6546|TWO_SIDED|95.0|-2.65|4.22||Baseline is fit into the model as a covariate.|GEE model|||Week 8||4.22|-2.65|0.6546
82559945|NCT02736188|164829413|SUPERIORITY||difference in LS means|-0.64||||0.7054|TWO_SIDED|95.0|-3.97|2.69||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.69|-3.97|0.7054
82559946|NCT02736188|164829413|SUPERIORITY||difference in LS means|-0.5||||0.8441|TWO_SIDED|95.0|-5.45|4.45||Baseline is fit into the model as a covariate.|GEE model|||Week 24||4.45|-5.45|0.8441
82559947|NCT02736188|164829413|SUPERIORITY||difference in LS means|4.15||||0.0864|TWO_SIDED|95.0|-0.59|8.9||Baseline is fit into the model as a covariate.|GEE model|||Week 48||8.90|-0.59|0.0864
82559948|NCT02736188|164829414|SUPERIORITY||difference in LS means|0.06||||0.8603|TWO_SIDED|95.0|-0.65|0.78||Baseline is fit into the model as a covariate.|GEE model|||Week 8||0.78|-0.65|0.8603
82559949|NCT02736188|164829414|SUPERIORITY||difference in LS means|-0.18||||0.6154|TWO_SIDED|95.0|-0.86|0.51||Baseline is fit into the model as a covariate.|GEE model|||Week 16||0.51|-0.86|0.6154
82559950|NCT02736188|164829414|SUPERIORITY||difference in LS means|0.47||||0.1999|TWO_SIDED|95.0|-0.25|1.2||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.20|-0.25|0.1999
82559951|NCT02736188|164829414|SUPERIORITY||difference in LS means|-0.03||||0.9568|TWO_SIDED|95.0|-1.25|1.18||Baseline is fit into the model as a covariate.|GEE model|||Week 48||1.18|-1.25|0.9568
82559952|NCT02736188|164829415|SUPERIORITY||difference in LS means|0.45||||0.5447|TWO_SIDED|95.0|-1.0|1.9||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.90|-1.00|0.5447
82559953|NCT02736188|164829415|SUPERIORITY||difference in LS means|-0.56||||0.5051|TWO_SIDED|95.0|-2.22|1.09||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.09|-2.22|0.5051
82488624|NCT04856891|164670120|SUPERIORITY||LSM Difference from Placebo|0.3||||0.8822|TWO_SIDED|95.0|-4.0|4.7|||Mixed Models Analysis|||||4.7|-4.0|0.8822
82488625|NCT04856891|164670121|SUPERIORITY||LSM Difference from Placebo|-74.9|||<|0.0001|TWO_SIDED|95.0|-85.2|-64.7|||ANCOVA|||||-64.7|-85.2|<0.0001
82488626|NCT04856891|164670122|SUPERIORITY||Percent Difference from Placebo|80.4|||<|0.0001|TWO_SIDED|95.0|64.8|90.6|||Fisher Exact|||||90.6|64.8|<0.0001
82488627|NCT04856891|164670123|SUPERIORITY||Percent Difference from Placebo|43.5|||<|0.0001|TWO_SIDED|95.0|23.5|59.9|||Fisher Exact|||||59.9|23.5|<0.0001
82488628|NCT04856891|164670124|SUPERIORITY||Percent Difference from Placebo|-1.5||||1|TWO_SIDED|95.0|-22.2|18.0|||Fisher Exact|||||18.0|-22.2|1.0000
82559954|NCT02736188|164829415|SUPERIORITY||difference in LS means|0.27||||0.7478|TWO_SIDED|95.0|-1.36|1.9||Baseline is fit into the model as a covariate.|GEE model|||Week 24||1.90|-1.36|0.7478
82584081|NCT03386110|164880046|SUPERIORITY||Risk Ratio, log|-1.7||||0.02|TWO_SIDED|95.0|-3.14|-0.27|||Mixed Models Analysis|Three-way interaction model testing whether baseline rates of CAS (actor and partner) moderated the effect of condition on CAS events at 6-months||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment at 6-months was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||-0.27|-3.14|0.02
82584082|NCT03386110|164880047|SUPERIORITY||Risk Ratio, log|0.48||||0.15|TWO_SIDED|95.0|-0.18|1.44|||Mixed Models Analysis|Model testing whether condition predicted marijuana use at 3-months||Multi-level models tested whether treatment condition predicted outcome at 3-months, and controlled for the nesting of participants within couples.||1.44|-0.18|0.15
82584083|NCT03386110|164880047|SUPERIORITY||Risk Ratio, log|0.24||||0.5|TWO_SIDED|95.0|-0.44|0.92|||Mixed Models Analysis|Model testing whether condition predicted marijuana use at 6-months||Multi-level models tested whether treatment condition predicted outcome at 6-months, and controlled for the nesting of participants within couples.||0.92|-0.44|0.50
82584084|NCT03386110|164880047|SUPERIORITY||Risk Ratio, log|-0.02||||0.91|TWO_SIDED|95.0|-0.34|0.31|||Mixed Models Analysis|Three-way interaction model testing whether baseline use moderated the effect of condition on marijuana use at 3-months||"Moderation analysis in 3-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.31|-0.34|0.910
82488629|NCT04856891|164670125|SUPERIORITY||Percent Difference from Placebo|6.9||||0.4502|TWO_SIDED|95.0|-13.8|26.3|||Fisher Exact|||||26.3|-13.8|0.4502
82488630|NCT04856891|164670126|SUPERIORITY||LSM Difference from Placebo|-3.1||||0.6805|TWO_SIDED|95.0|-18.1|11.8|||Mixed Models Analysis|||Weeks 24 Percent Change from Baseline||11.8|-18.1|0.6805
82488631|NCT02963935|164670231|SUPERIORITY|The treatment policy estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) at week 56 for all randomised subjects regardless of premature discontinuation of trial product.|Treatment difference|-3.45||||0.0003|TWO_SIDED|95.0|-5.31|-1.59|||ANCOVA|Missing observations were imputed from the placebo arm based on a jump to reference (x100) multiple imputation approach.|Liraglutide 3.0 mg - placebo|Treatrment policy estimand. The hypothesis and the alternative are: H: μliraglutide ≥ μplacebo against the alternative HA: μliraglutide \< μplacebo. μliraglutide and μplacebo denote the true mean of % weight change for liraglutide 3.0 mg and placebo group, respectively. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline body weight as covariate.||-1.59|-5.31|0.0003
82488632|NCT02963935|164670231|OTHER|The hypothetical estimand evaluated the treatment effect (liraglutide 3.0 mg vs placebo) for all randomised subjects assuming that all subjects remained on trial product (on-treatment principle)|Treatment difference|-4.59||||0|TWO_SIDED|95.0|-6.54|-2.64|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug data before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit.||-2.64|-6.54|0.0000
82488633|NCT02963935|164670232|SUPERIORITY||Odds Ratio (OR)|2.51||||0.0003|TWO_SIDED|95.0|1.53|4.14|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach.||4.14|1.53|0.0003
82488634|NCT02963935|164670232|OTHER||Odds Ratio (OR)|2.84||||0|TWO_SIDED|95.0|1.75|4.61|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||4.61|1.75|0.0000
82559955|NCT02736188|164829415|SUPERIORITY||difference in LS means|-0.41||||0.7429|TWO_SIDED|95.0|-2.86|2.04||Baseline is fit into the model as a covariate.|GEE model|||Week 48||2.04|-2.86|0.7429
82559956|NCT02736188|164829416|SUPERIORITY||difference in LS means|2.0||||0.6434|TWO_SIDED|95.0|-6.48|10.49||Baseline is fit into the model as a covariate.|GEE model|||Week 8||10.49|-6.48|0.6434
82559957|NCT02736188|164829416|SUPERIORITY||difference in LS means|-1.99||||0.7118|TWO_SIDED|95.0|-12.53|8.55||Baseline is fit into the model as a covariate.|GEE model|||Week 16||8.55|-12.53|0.7118
82559958|NCT02736188|164829416|SUPERIORITY||difference in LS means|4.15||||0.4399|TWO_SIDED|95.0|-6.39|14.69||Baseline is fit into the model as a covariate.|GEE model|||Week 24||14.69|-6.39|0.4399
82584085|NCT03386110|164880047|SUPERIORITY||Risk Ratio, log|0.34||||0.11|TWO_SIDED|95.0|-0.07|0.75|||Mixed Models Analysis|||"Moderation analysis in 6-month follow-up data.~The hypothesis that baseline frequency may moderate the effects of treatment was evaluated using models incorporating participants' baseline report of the outcome (actor) as well as their partners' report (partner) at Level 1. Interactions among actor and partner baseline scores and treatment condition were also included at Level 1. Additionally, the model controlled for the nesting of participants within couples."||0.75|-0.07|0.11
82488635|NCT02963935|164670233|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0469|TWO_SIDED|95.0|1.01|3.14|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x10000) imputation approach.||3.14|1.01|0.0469
82488636|NCT02963935|164670233|OTHER||Odds Ratio (OR)|2.14||||0.0063|TWO_SIDED|95.0|1.24|3.69|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||3.69|1.24|0.0063
82488637|NCT02963935|164670234|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0311|TWO_SIDED|95.0|1.08|4.74|||Regression, Logistic||Liraglutide 3.0 mg/Placebo|Treatment policy estimand. Week 56 responses were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach.||4.74|1.08|0.0311
82488638|NCT02963935|164670234|OTHER||Odds Ratio (OR)|2.74||||0.006|TWO_SIDED|95.0|1.33|5.62|||Mixed models repeated measurement (MMRM)||Liraglutide 3.0 mg/placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline body weight as covariate, all nested within visit. The MMRM was used to classify responders and analysed with a logistic regression with treatment as the only factor.||5.62|1.33|0.0060
82488639|NCT02963935|164670235|SUPERIORITY||Odds Ratio (OR)|3.32|||<|0.0001|TWO_SIDED|95.0|1.93|5.72|||Regression, Logistic||Liraglutide 3.0 mg/placebo|"Treatment policy estimand. Week 16 responders were analysed using a logistic regression model with treatment, BMI groups, and sex as factors and baseline body weight as covariate.~Missing values are considered as non-responders."||5.72|1.93|<0.0001
82488640|NCT02963935|164670236|SUPERIORITY||treatment difference|-2.72||||0.0063|TWO_SIDED|95.0|-4.68|-0.77|||ANCOVA||Liraglutide 3.0 mg - placebo|Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||-0.77|-4.68|0.0063
82488641|NCT02963935|164670236|OTHER||Treatment difference|-3.45||||0.002|TWO_SIDED|95.0|-5.62|-1.28|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg - placebo|Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||-1.28|-5.62|0.0020
82488642|NCT02963935|164670237|SUPERIORITY||Treatment difference|0.16||||0.8137|TWO_SIDED|95.0|-1.19|1.52|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||1.52|-1.19|0.8137
82559959|NCT02736188|164829416|SUPERIORITY||difference in LS means|7.98||||0.443|TWO_SIDED|95.0|-12.41|28.37||Baseline is fit into the model as a covariate.|GEE model|||Week 48||28.37|-12.41|0.4430
82488643|NCT02963935|164670237|OTHER||Treatment difference|0.16||||0.8053|TWO_SIDED|95.0|-1.12|1.43|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg- placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||1.43|-1.12|0.8053
82488644|NCT02963935|164670238|SUPERIORITY|Superiority was not tested as part of confirmatory testing strategy.|Treatment difference|0.87||||0.6916|TWO_SIDED|95.0|-3.41|5.14|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||5.14|-3.41|0.6916
82488645|NCT02963935|164670238|OTHER||treatment difference|1.25||||0.5572|TWO_SIDED|95.0|-2.95|5.45|||Mixed models repeated measurements (MMRM||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||5.45|-2.95|0.5572
82488646|NCT02963935|164670239|SUPERIORITY|Superiority was not tested as part of confirmatory testing strategy.|Treatment difference|3.12||||0.6986|TWO_SIDED|95.0|-12.68|18.92|||ANCOVA||Liraglutide 3.0 mg - placebo|Treatment policy estimand. Analysis of in-trial data with missing observations imputed from the placebo arm based on a jump to reference multiple (x100) imputation approach. Week 56 responses were analysed using an analysis of covariance model with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate.||18.92|-12.68|0.6986
82488647|NCT02963935|164670239|OTHER||Treatment difference|7.66||||0.37|TWO_SIDED|95.0|-9.15|24.48|||Mixed model repeated measurements (MMRM)||Liraglutide 3.0 mg - placebo|Hypothetical estimand. Analysis of on-drug before first drug discontinuation date using a mixed model for repeated measurements with treatment, BMI groups, and sex as factors and baseline measurement of endpoint as covariate, all nested within visit.||24.48|-9.15|0.3700
82559960|NCT02736188|164829417|SUPERIORITY||difference in LS means|0.28||||0.6428|TWO_SIDED|95.0|-0.9|1.46||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.46|-0.90|0.6428
82559961|NCT02736188|164829417|SUPERIORITY||difference in LS means|-0.25||||0.7334|TWO_SIDED|95.0|-1.72|1.21||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.21|-1.72|0.7334
82488648|NCT00464269|164670282|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall significance level was controlled at 5 %. The 3 doses of Brivaracetam were tested at the 5 % level against Placebo starting from the 50 mg dose then the 20 mg dose and finally the 5 mg dose, only moving to the next test if the previous one is significant at the 5 % level.|% reduction over Placebo|12.8|||=|0.025|TWO_SIDED|95.0|1.7|22.6|||ANCOVA|Baseline and Treatment Period Partial Onset Seizure (POS) frequencies are standardized to a 7-day duration.|The log-transformed (log(x+1)) POS seizure frequency was analyzed using an ANCOVA model, including terms for treatment, stratification factors, and log-transformed Baseline POS seizure frequency per week as a covariate.|The treatment difference between each Brivaracetam (BRV) dose and Placebo (PBO) is reported as a percent reduction over Placebo. The treatment effect was estimated using the 95 % confidence intervals.||22.6|1.7|=0.025
82488649|NCT00464269|164670282|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall significance level was controlled at 5 %. The 3 doses of Brivaracetam were tested at the 5 % level against Placebo starting from the 50 mg dose then the 20 mg dose and finally the 5 mg dose, only moving to the next test if the previous one is significant at the 5 % level.|% reduction over Placebo|4.1|||=|0.492|TWO_SIDED|95.0|-8.1|15.0|||ANCOVA|Baseline and Treatment Period Partial Onset Seizure (POS) frequencies are standardized to 7-day duration.|The log-transformed (log(x+1)) POS seizure frequency was analyzed using an ANCOVA model, including terms for treatment, stratification factors, and log-transformed Baseline POS seizure frequency per week as a covariate.|The treatment difference between each Brivaracetam dose an Placebo is reported as a percent reduction over Placebo. The treatment effect was estimated using 95 % confidence intervals.||15.0|-8.1|=0.492
82488650|NCT05055453|164670309|OTHER|A Shapiro Wilks test was used to test for normal distribution of the data.|||||<|0.001||||||"Result for comparison between automatic only and preferred app settings."|Durbin-Conover Pairwise Comparison|||||||<0.001
82559962|NCT02736188|164829417|SUPERIORITY||difference in LS means|0.58||||0.4409|TWO_SIDED|95.0|-0.89|2.04||Baseline is fit into the model as a covariate.|GEE model|||Week 24||2.04|-0.89|0.4409
82559963|NCT02736188|164829417|SUPERIORITY||difference in LS means|0.99||||0.4687|TWO_SIDED|95.0|-1.69|3.68||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.68|-1.69|0.4687
82559964|NCT02736188|164829418|SUPERIORITY||difference in LS means|1.14||||0.1502|TWO_SIDED|95.0|-0.41|2.69||Baseline is fit into the model as a covariate.|GEE model|||Week 8||2.69|-0.41|0.1502
82559965|NCT02736188|164829418|SUPERIORITY||difference in LS means|-0.2||||0.8188|TWO_SIDED|-1.89|-1.89|1.49||Baseline is fit into the model as a covariate.|GEE model|||Week 16||1.49|-1.89|0.8188
82559966|NCT02736188|164829418|SUPERIORITY||difference in LS means|0.8||||0.5122|TWO_SIDED|95.0|-1.58|3.17||Baseline is fit into the model as a covariate.|GEE model|||Week 24||3.17|-1.58|0.5122
82559967|NCT02736188|164829418|SUPERIORITY||difference in LS means|0.72||||0.7022|TWO_SIDED|95.0|-2.96|4.4||Baseline is fit into the model as a covariate.|GEE model|||Week 48||4.40|-2.96|0.7022
82559968|NCT02736188|164829419|SUPERIORITY||difference in LS means|0.19||||0.7906|TWO_SIDED|95.0|-1.22|1.6||Baseline is fit into the model as a covariate.|GEE model|||Week 8||1.60|-1.22|0.7906
82559969|NCT02736188|164829419|SUPERIORITY||difference in LS means|0.66||||0.3531|TWO_SIDED|95.0|-0.74|2.07||Baseline is fit into the model as a covariate.|GEE model|||Week 16||2.07|-0.74|0.3531
82584086|NCT01815138|164880049|OTHER||Odds Ratio (OR)|0.05|||<|0.05|TWO_SIDED||||||Fisher Exact|||||||<0.05
82584087|NCT01815138|164880050|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82584088|NCT01588496|164880068|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-29.78|STANDARD_ERROR_OF_MEAN|5.54|<|0.001|TWO_SIDED|95.0|-40.94|-18.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-18.62|-40.94|<0.001
82559970|NCT02736188|164829419|SUPERIORITY||difference in LS means|0.15||||0.8846|TWO_SIDED|95.0|-1.92|2.23||Baseline is fit into the model as a covariate.|GEE model|||Week 24||2.23|-1.92|0.8846
82559971|NCT02736188|164829419|SUPERIORITY||difference in LS means|2.08||||0.0168|TWO_SIDED|95.0|0.38|3.79||Baseline is fit into the model as a covariate.|GEE model|||Week 48||3.79|0.38|0.0168
82559972|NCT00240994|164829420|SUPERIORITY_OR_OTHER||Proportion with graft loss or death|0.057|||||TWO_SIDED|95.0|0.007|0.192|||95% Confidence Interval|95% CI using an exact binomial method||The proportion of participants with graft loss or death within 12 months post kidney transplantation is descriptively summarized with a 95% confidence interval using an exact binomial method.||0.192|0.007|
82559973|NCT00768755|164829507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.831||||0.3037|TWO_SIDED|95.0|0.508|1.36|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by Eastern Cooperative Oncology Group (ECOG) performance status (0 or 1) and gender (male or female). Hazard ratio (HR): the stratified Cox model was fitted, using the same stratification variables as above.||1.360|0.508|0.3037
82584089|NCT01588496|164880069|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-23.14|STANDARD_ERROR_OF_MEAN|5.81|<|0.001|TWO_SIDED|95.0|-34.83|-11.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-11.45|-34.83|<0.001
82584090|NCT01588496|164880070|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.89|STANDARD_ERROR_OF_MEAN|5.38|<|0.001|TWO_SIDED|95.0|-33.72|-12.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||-12.05|-33.72|<0.001
82584091|NCT01588496|164880071|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.83|STANDARD_ERROR_OF_MEAN|6.77||0.088|TWO_SIDED|95.0|-25.48|1.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||1.82|-25.48|0.088
82488651|NCT05055453|164670309|OTHER||||||<|0.001||||||"Result of comparison between preferred app setting and extreme app setting"|Durbin-Conover Pairwise Comparison|||A Shapiro Wilks test was used to test for normal distribution of the data.||||< 0.001
82488652|NCT05055453|164670309|OTHER|"Result of comparison between automatic only and extreme app setting."||||||0.002|||||||Durbin-Conover Pairwise Comparison|||A Shapiro Wilks test was used to test for normal distribution of the data.||||0.002
82488653|NCT05055453|164670310|OTHER|Analysis of first home trial|||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82488654|NCT05055453|164670310|OTHER||||||<|0.001|||||||t-test, 2 sided|||Analysis of second home trial||||<.001
82488655|NCT01209923|164670320|OTHER|||||||0.001|||||||t-test, 2 sided|Independent t-test||Children BIA was compared to hydrostatic weighing; adults were compared to DEXA.||||0.001
82488656|NCT02955797|164670327|NON_INFERIORITY|95% confidence interval (CI) was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was greater than (\>) -10%.|Percentage difference|-2.03|||||TWO_SIDED|95.0|-5.84|1.78||||||Serogroup A||1.78|-5.84|
82488657|NCT02955797|164670327|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|12.1|||||TWO_SIDED|95.0|8.16|16.1||||||Serogroup C||16.1|8.16|
82488658|NCT02955797|164670327|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|2.42|||||TWO_SIDED|95.0|-1.34|6.19||||||Serogroup Y||6.19|-1.34|
82559974|NCT00768755|164829507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947||||0.3565|TWO_SIDED|95.0|0.58|1.546|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||1.546|0.580|0.3565
82559975|NCT00768755|164829508|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.046||||0.5785|TWO_SIDED|95.0|0.648|1.69|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||1.690|0.648|0.5785
82488659|NCT02955797|164670327|NON_INFERIORITY|95% CI was stratified on the priming status (meningococcal vaccine naïve or primed monovalent MenC vaccination during infancy) and calculated using the Wald method (normal approximation). Weighted average of the difference over strata was calculated using the Minimal Risk weights with the null variance method. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|0.458|||||TWO_SIDED|95.0|-4.37|5.28||||||Serogroup W||5.28|-4.37|
82488660|NCT02955797|164670328|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|1.3|||||TWO_SIDED|95.0|-3.6|6.2||||||Serogroup A||6.2|-3.6|
82488661|NCT02955797|164670328|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|18.0|||||TWO_SIDED|95.0|13.6|22.8||||||Serogroup C||22.8|13.6|
82488662|NCT02955797|164670328|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|1.6|||||TWO_SIDED|95.0|-2.76|6.03||||||Serogroup Y||6.03|-2.76|
82488663|NCT02955797|164670328|NON_INFERIORITY|95% CI of the difference in percentages was computed using the Wilson Score method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference between the 2 percentages was \> -10%.|Percentage difference|0.2|||||TWO_SIDED|95.0|-5.85|6.18||||||Serogroup W||6.18|-5.85|
82488664|NCT02955797|164670329|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an analysis of variance (ANOVA) model of log10-transformed titers.|GMT Ratio|0.819|||||TWO_SIDED|95.0|0.697|0.963||||||Serogroup A||0.963|0.697|
82488665|NCT02955797|164670329|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|7.59|||||TWO_SIDED|95.0|6.05|9.52||||||Serogroup C||9.52|6.05|
82488666|NCT02955797|164670329|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.09|1.51||||||Serogroup Y||1.51|1.09|
82488667|NCT02955797|164670329|OTHER|95% CI of the ratio of post-vaccination GMTs was stratified on the priming vaccination status (meningococcal vaccine naïve or primed monovalent MenC vaccination) and calculated using an ANOVA model of log10-transformed titers.|GMT Ratio|1.32|||||TWO_SIDED|95.0|1.12|1.56||||||Serogroup W||1.56|1.12|
82488668|NCT02955797|164670330|OTHER||GMT Ratio|1.03|||||TWO_SIDED|95.0|0.85|1.24||||||Serogroup A||1.24|0.85|
82488669|NCT02955797|164670330|OTHER||GMT Ratio|16.5|||||TWO_SIDED|95.0|13.4|20.4||||||Serogroup C||20.4|13.4|
82488670|NCT02955797|164670330|OTHER||GMT Ratio|1.18|||||TWO_SIDED|95.0|0.97|1.44||||||Serogroup Y||1.44|0.97|
82488671|NCT02955797|164670330|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.1|1.63||||||Serogroup W||1.63|1.1|
82488672|NCT02955797|164670331|OTHER||GMT Ratio|0.496|||||TWO_SIDED|95.0|0.367|0.672||||||Serogroup A||0.672|0.367|
82488673|NCT02955797|164670331|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|0.814|2.19||||||Serogroup C||2.19|0.814|
82488674|NCT02955797|164670331|OTHER||GMT Ratio|1.53|||||TWO_SIDED|95.0|1.15|2.04||||||Serogroup Y||2.04|1.15|
82488675|NCT02955797|164670331|OTHER||GMT Ratio|1.29|||||TWO_SIDED|95.0|0.944|1.75||||||Serogroup W||1.75|0.944|
82488676|NCT03950791|164670397|SUPERIORITY||Mann-Whitney U|3864.0|STANDARD_ERROR_OF_MEAN|302.0||0.89|TWO_SIDED|||||Not adjusted for multiple comparisons, p \< .05 used as threshold for statistical significance|Independent-samples Mann-Whitney U|No adjustments for multiple comparisons|Standardized Test Statistic = .139|Morphine equivalent dosage outcome variables were not normally distributed (skewness values between 4.5 and 4.8, kurtosis values between 25.7 and 30.0), which necessitated non-parametric analysis using independent-samples Mann-Whitney U Test||||.89
82488677|NCT03722173|164670406|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|141.62|STANDARD_ERROR_OF_MEAN|13.3|||TWO_SIDED|90.0|129.64|154.71|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the geometric means (gMeans) (T/R) for AUC0-tz and their 2-sided 90% confidence intervals (CIs) were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||154.71|129.64|
82488678|NCT03722173|164670407|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|113.32|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|90.0|102.47|125.32|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the gMeans (T/R) for Cmax and their 2-sided 90% CIs were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||125.32|102.47|
82559976|NCT00768755|164829508|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.449||||0.9392|TWO_SIDED|95.0|0.919|2.285|||Log Rank|One-sided log-rank test at alpha = 0.20 significance level was used.||P-value was calculated using 1-sided log rank test, stratified by ECOG performance status (0 or 1) and gender (male or female). HR: the stratified Cox model was fitted, using the same stratification variables as above.||2.285|0.919|0.9392
82488679|NCT03722173|164670408|OTHER|Since the main focus was on estimation and not testing, a formal hypothesis test and associated acceptance range was not specified; no hypothesis was tested.|gMeans ratio (T/R) %|142.54|STANDARD_ERROR_OF_MEAN|13.5|||TWO_SIDED|90.0|130.3|155.93|||ANOVA|Analysis of variance (ANOVA) model on the logarithmic scale including effects for 'subjects' and 'treatment' was used.|Standard error of the mean is actually an intra-individual coefficient variation (CV). Confidence intervals (CIs) were calculated based on the residual error from the ANOVA and quantiles from the t distribution.|Point estimates for the ratios of the gMeans (T/R) for AUC0-∞ and their 2-sided 90% CIs were provided. The difference between the expected means for log(T) - log(R) were estimated by the difference in the corresponding adjusted means (Least Squares Means).||155.93|130.30|
82488680|NCT02160990|164670439|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
82488681|NCT02160990|164670440|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<.001
82488682|NCT02160990|164670441|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||ANCOVA|||||||0.23
82488683|NCT04195906|164670446|SUPERIORITY||Least Squares Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|1.328||0.877|TWO_SIDED|96.0|-2.46|3.0||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline BWAT-CUA score and visit by randomized treatment interaction.|MMRM|MMRM=Mixed model for repeated measures Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||3.00|-2.46|0.877
82488684|NCT04195906|164670447|SUPERIORITY||Least Squares Mean Difference|11.49|STANDARD_ERROR_OF_MEAN|7.93||0.146|TWO_SIDED|96.0|-4.8|27.78||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||27.78|-4.80|0.146
82488685|NCT04195906|164670448|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.237||0.706|TWO_SIDED|96.0|-0.38|0.56||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||0.56|-0.38|0.706
82488686|NCT04195906|164670449|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|2.63||0.995|TWO_SIDED|96.0|-5.27|5.24||The MMRM model includes fixed effect terms for randomized treatment, visit, baseline sodium thiosulfate use, baseline Pain VAS and visit by randomized treatment interaction.|MMRM|MMRM: mixed model repeated measures. Participant is fitted as random effect and an unstructured variance-covariance matrix is used.||||5.24|-5.27|0.995
82488687|NCT04195906|164670450|SUPERIORITY||Odds Ratio, log|1.54|STANDARD_ERROR_OF_MEAN|0.498||0.384|TWO_SIDED|95.0|0.58|4.09||This model includes the stratification factor sodium thiosulfate use at baseline and the treatment as covariates|Regression, Logistic|As there is only a measure post-baseline, a logistic regression model was run instead of a generalized estimating equations model.|The odds ratio displayed is the odds ratio of having an improved result of SNF472 versus Placebo. The results 'Worsened', 'Equal', and 'Missing' are combined in one category and it is the reference for the odds ratio calculation.|||4.09|0.58|0.384
82559977|NCT00768755|164829509|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.753||||0.0143|TWO_SIDED|95.0|1.047|2.935|||Cochran-Mantel-Haenszel|||P-value was calculated using Cochran-Mantel-Haenszel (CMH) test stratified by ECOG performance status (0 or 1) and gender (male or female).||2.935|1.047|0.0143
82488688|NCT04195906|164670451|SUPERIORITY||Difference in slopes between arms|0.57|STANDARD_ERROR_OF_MEAN|0.68||0.406|TWO_SIDED|95.0|-0.79|1.93||MMRM model includes fixed effect terms for randomized treatment, continuous variables maintenance opioid dose, Week (1 to 12) and Week by randomized treatment interaction. The random coefficients are the intercept and Week as a continuous variable.|MMRM|MMRM: mixed model repeated measures. An unstructured variance-covariance matrix is used||||1.93|-0.79|0.406
82488689|NCT02899299|164670482|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.74||||0.002|TWO_SIDED|96.6|0.6|0.91||Boundary for statistical significance was a p-value \< 0.0345|Stratified Log Rank|This is 2 sided p-value from log-rank test stratified by histology and sex as entered in the IRT|Stratified Cox proportional hazard model|||0.91|0.60|0.0020
82488690|NCT02899299|164670485|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.77|1.13|||||Stratified Cox proportional hazard model|||1.13|0.77|
82488691|NCT02899299|164670486|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.64|1.32||||||\<1% PD-L1||1.32|0.64|
82488692|NCT02899299|164670486|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.59|0.88||||||≥1% PD-L1||0.88|0.59|
82559978|NCT00768755|164829509|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.512||||0.0665|TWO_SIDED|95.0|0.87|2.626|||Cochran-Mantel-Haenszel|||P-value was calculated using CMH test stratified by ECOG performance status (0 or 1) and gender (male or female).||2.626|0.870|0.0665
82559979|NCT01640288|164829574|OTHER|t-test|Mean Difference (Final Values)|-0.145|STANDARD_ERROR_OF_MEAN|0.0349|<|0.0001|TWO_SIDED|||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||<0.0001
82559980|NCT01640288|164829575|OTHER|t-test|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82559981|NCT05794191|164829580|SUPERIORITY||Vaccine effectiveness percentage|22.438|||||TWO_SIDED|95.0|5.425|36.391||||||||36.391|5.425|
82488693|NCT02899299|164670487|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|1.79|||||TWO_SIDED|95.0|1.22|2.63||||||\< 1% PD-L1||2.63|1.22|
82488694|NCT02899299|164670487|SUPERIORITY|Treatment A vs Treatment B|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.61|0.96||||||≥1% PD-L1||0.96|0.61|
82488695|NCT02899299|164670489|SUPERIORITY|Treatment A over Treatment B|Hazard Ratio (HR)|0.74||||0.0008|TWO_SIDED|95.0|0.62|0.88|||Stratified Log Rank|This is 2 sided p-value from log-rank test stratified by histology and sex as entered in the IRT|Stratified Cox proportional hazard model|||0.88|0.62|0.0008
82559982|NCT05794191|164829581|SUPERIORITY||Vaccine effectiveness percentage|34.985|||||TWO_SIDED|95.0|13.249|51.275||||||||51.275|13.249|
82559983|NCT05794191|164829582|SUPERIORITY||Vaccine effectiveness percentage|-5.284|||||TWO_SIDED|95.0|-50.408|26.302||||||||26.302|-50.408|
82559984|NCT05794191|164829583|SUPERIORITY||Vaccine effectiveness percentage|9.274|||||TWO_SIDED|95.0|-46.883|43.961||||||||43.961|-46.883|
82559985|NCT05794191|164829584|SUPERIORITY||Vaccine effectiveness percentage|17.169|||||TWO_SIDED|95.0|3.994|28.536||||||||28.536|3.994|
82559986|NCT05794191|164829585|SUPERIORITY||Vaccine effectiveness percentage|25.526|||||TWO_SIDED|95.0|9.4|38.781||||||||38.781|9.400|
82559987|NCT05794191|164829586|SUPERIORITY||Vaccine effectiveness percentage|-7.561|||||TWO_SIDED|95.0|-42.076|18.569||||||||18.569|-42.076|
82559988|NCT05794191|164829587|SUPERIORITY||Vaccine effectiveness percentage|11.442|||||TWO_SIDED|95.0|-34.916|41.871||||||||41.871|-34.916|
82559989|NCT05794191|164829588|SUPERIORITY||Vaccine effectiveness percentage|8.435|||||TWO_SIDED|95.0|5.705|11.086||||||||11.086|5.705|
82488696|NCT00313300|164670490|SUPERIORITY_OR_OTHER||Adjusted rate difference|2.2|||||TWO_SIDED|95.0|-1.0|5.4|||||adjusted difference of event rates takes into consideration stratification factors.|||5.4|-1.0|
82488697|NCT00313300|164670490|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|3.8|||||TWO_SIDED|95.0|0.4|7.3|||||adjusted difference of event rates takes into consideration stratification factors.|||7.3|0.4|
82488698|NCT00313300|164670491|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.44|1.19||||||||1.19|0.44|
82488699|NCT00313300|164670491|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.35|1.04||||||||1.04|0.35|
82488700|NCT00313300|164670492|SUPERIORITY_OR_OTHER||Adjusted rate difference|6.6|||||TWO_SIDED|95.0|1.8|11.3|||||adjusted difference of event rates takes into consideration stratification factors.|||11.3|1.8|
82488701|NCT00313300|164670492|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.0|||||TWO_SIDED|95.0|4.8|15.2|||||adjusted difference of event rates takes into consideration stratification factors.|||15.2|4.8|
82488702|NCT00313300|164670493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.44|1.17||||||||1.17|0.44|
82488703|NCT00313300|164670493|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.37|1.07||||||||1.07|0.37|
82488704|NCT00313300|164670494|SUPERIORITY_OR_OTHER||Adjusted rate difference|0.3|||||TWO_SIDED|95.0|-1.3|2.0|||||adjusted difference of event rates takes into consideration stratification factors.|||2.0|-1.3|
82559990|NCT05794191|164829589|SUPERIORITY||Vaccine effectiveness percentage|11.445|||||TWO_SIDED|95.0|8.089|14.679||||||||14.679|8.089|
82559991|NCT05794191|164829590|SUPERIORITY||Vaccine effectiveness percentage|7.125|||||TWO_SIDED|95.0|1.427|12.493||||||||12.493|1.427|
82559992|NCT05794191|164829591|SUPERIORITY||Vaccine effectiveness percentage|-3.716|||||TWO_SIDED|95.0|-12.626|4.488||||||||4.488|-12.626|
82559993|NCT05794191|164829592|SUPERIORITY||Vaccine effectiveness percentage|13.685|||||TWO_SIDED|95.0|10.213|17.022||||||IPTW\*IPCW + imbalanced variables: 0-3 years||17.022|10.213|
82559994|NCT05794191|164829592|SUPERIORITY||Vaccine effectiveness percentage|7.665|||||TWO_SIDED|95.0|1.707|13.261||||||IPTW\*IPCW + imbalanced variables: 3-5 years||13.261|1.707|
82559995|NCT05794191|164829592|SUPERIORITY||Vaccine effectiveness percentage|-5.792|||||TWO_SIDED|95.0|-15.691|3.26||||||IPTW\*IPCW + imbalanced variables: 5-7 years||3.260|-15.691|
82559996|NCT05794191|164829592|SUPERIORITY||Vaccine effectiveness percentage|9.902|||||TWO_SIDED|95.0|7.056|12.66||||||IPTW\*IPCW + imbalanced variables: overall follow up||12.660|7.056|
82559997|NCT05794191|164829593|SUPERIORITY||Vaccine effectiveness percentage|13.631|||||TWO_SIDED|95.0|10.149|16.978||||||IPTW\*IPCW + imbalanced variables: 0-3 years||16.978|10.149|
82559998|NCT05794191|164829593|SUPERIORITY||Vaccine effectiveness percentage|7.673|||||TWO_SIDED|95.0|1.708|13.276||||||IPTW\*IPCW + imbalanced variables: 3-5 years||13.276|1.708|
82559999|NCT05794191|164829593|SUPERIORITY||Vaccine effectiveness percentage|-5.897|||||TWO_SIDED|95.0|-15.809|3.166||||||IPTW\*IPCW + imbalanced variables: 5-7 years||3.166|-15.809|
82488705|NCT00313300|164670494|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|0.8|||||TWO_SIDED|95.0|-1.1|2.7|||||adjusted difference of event rates takes into consideration stratification factors.|||2.7|-1.1|
82488706|NCT00313300|164670495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.44|2.88||||||||2.88|0.44|
82488707|NCT00313300|164670495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.29|2.57||||||||2.57|0.29|
82488708|NCT00313300|164670495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.3|1.66||||||||1.66|0.30|
82488709|NCT00313300|164670495|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.3|1.74||||||||1.74|0.30|
82488710|NCT00313300|164670496|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.0|||||TWO_SIDED|95.0|0.0|8.1||||||||8.1|0.0|
82488711|NCT00313300|164670496|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.7|||||TWO_SIDED|95.0|0.0|9.3||||||||9.3|0.0|
82488712|NCT00313300|164670496|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|7.0|||||TWO_SIDED|95.0|3.4|10.5||||||||10.5|3.4|
82488713|NCT00313300|164670496|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.7|||||TWO_SIDED|95.0|1.4|8.0||||||||8.0|1.4|
82488714|NCT00313300|164670497|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|8.3|||||TWO_SIDED|95.0|1.8|14.9||||||||14.9|1.8|
82488715|NCT00313300|164670497|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.9|||||TWO_SIDED|95.0|3.4|18.4||||||||18.4|3.4|
82560000|NCT05794191|164829593|SUPERIORITY||Vaccine effectiveness percentage|9.853|||||TWO_SIDED|95.0|7.0|12.617||||||IPTW\*IPCW + imbalanced variables: overall follow up||12.617|7.000|
82560001|NCT02095678|164829610|OTHER|Significance (alpha) set to 0.05||||||0.211|||||||t-test, 2 sided|||||||0.211
82560002|NCT02095678|164829613|OTHER|Significance (alpha) set to 0.05|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82560003|NCT02095678|164829614|OTHER|Significance (alpha) set to 0.05|||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82560004|NCT04660799|164829619|NON_INFERIORITY|The lower limit of the two-sided 90% confidence interval (CI) should be above 0.80 in order to show non-inferiority of Ctrough SC versus Ctrough IV.|Ratio Ctrough SC/Ctrough IV|1.52|||||TWO_SIDED|90.0|1.28|1.79||||||Geometric mean ratio of Ctrough SC/Ctrough IV and 90% confidence interval were estimated based on an ANCOVA model adjusted for tumor load at baseline.||1.79|1.28|
82560005|NCT04660799|164829620|NON_INFERIORITY|The lower limit of the two-sided 90% confidence interval (CI) should be above 0.80 in order to show non-inferiority of AUCsc versus AUCiv.|Geometric mean ratio of AUCsc/AUCiv|1.25|||||TWO_SIDED|90.0|1.1|1.42||||||Geometric mean ratio of AUCsc/AUCiv and 90% confidence interval were estimated based on an ANCOVA model adjusted for tumor load at baseline.||1.42|1.10|
82488716|NCT00313300|164670497|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|17.4|||||TWO_SIDED|95.0|11.6|23.2||||||||23.2|11.6|
82488717|NCT00313300|164670497|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|10.4|||||TWO_SIDED|95.0|5.6|15.1||||||||15.1|5.6|
82488718|NCT00313300|164670498|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.13|||||TWO_SIDED|95.0|0.44|2.88||||||||2.88|0.44|
82488719|NCT00313300|164670498|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86|||||TWO_SIDED|95.0|0.29|2.57||||||||2.57|0.29|
82488720|NCT00313300|164670498|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.71|||||TWO_SIDED|95.0|0.3|1.66||||||||1.66|0.30|
82488721|NCT00313300|164670498|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.72|||||TWO_SIDED|95.0|0.3|1.74||||||||1.74|0.30|
82488722|NCT00313300|164670499|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|0.8|||||TWO_SIDED|95.0|-0.9|2.6||||||||2.6|-0.9|
82488723|NCT00313300|164670499|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|2.9|||||TWO_SIDED|95.0|0.6|5.1||||||||5.1|0.6|
82488724|NCT00313300|164670499|SUPERIORITY_OR_OTHER||Adjusted Rate Difference|4.1|||||TWO_SIDED|95.0|1.3|6.9||||||||6.9|1.3|
82488725|NCT03423641|164670567|SUPERIORITY||Odds Ratio (OR)|0.81||||0.68|TWO_SIDED|95.0|0.3|2.2|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||2.20|0.30|.68
82488726|NCT03423641|164670568|SUPERIORITY||Odds Ratio (OR)|0.71||||0.01|TWO_SIDED|95.0|0.56|0.91|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.91|0.56|0.01
82488727|NCT03423641|164670569|SUPERIORITY||Odds Ratio (OR)|0.92||||0.39|TWO_SIDED|95.0|0.75|1.12|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.12|0.75|0.39
82488728|NCT03423641|164670570|SUPERIORITY||Odds Ratio (OR)|0.67||||0.01|TWO_SIDED|95.0|0.49|0.9|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.90|0.49|0.01
82488729|NCT03423641|164670571|SUPERIORITY||Odds Ratio (OR)|0.42|||<|0.01|TWO_SIDED|95.0|0.3|0.59|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.59|0.30|<0.01
82488730|NCT03423641|164670572|SUPERIORITY||Odds Ratio (OR)|0.68||||0.12|TWO_SIDED|95.0|0.42|1.1|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.10|0.42|0.12
82488731|NCT03423641|164670573|SUPERIORITY||Odds Ratio (OR)|0.61||||0.34|TWO_SIDED|95.0|0.22|1.7|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.70|0.22|0.34
82488732|NCT03423641|164670574|SUPERIORITY||Marginal Structural Model|0.61|||<|0.01|TWO_SIDED|95.0|0.49|0.76|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.76|0.49|<0.01
82488733|NCT03423641|164670575|SUPERIORITY||Rate Ratio|0.71|||<|0.01|TWO_SIDED|95.0|0.6|0.84|||Poisson Regression||The numerator represents the DAA group while the denominator represents the comparison group for the rate ratio.|||0.84|0.60|<0.01
82488734|NCT03423641|164670576|SUPERIORITY||Rate Ratio|0.82|||<|0.01|TWO_SIDED|95.0|0.77|0.87|||Poisson Regression||The numerator represents the DAA group while the denominator represents the comparison group for the rate ratio.|||0.87|0.77|<0.01
82488735|NCT03423641|164670577|SUPERIORITY||Odds Ratio (OR)|0.47||||0.02|TWO_SIDED|95.0|0.25|0.88|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||0.88|0.25|0.02
82560006|NCT04660799|164829625|SUPERIORITY||Difference in CRR|18.27|||||TWO_SIDED|95.0|-8.92|45.45||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||45.45|-8.92|
82560007|NCT04660799|164829626|SUPERIORITY||Difference in ORR Investigator|17.63|||||TWO_SIDED|95.0|-6.86|42.11||||||Investigator; Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||42.11|-6.86|
82488736|NCT03423641|164670578|SUPERIORITY||Odds Ratio (OR)|0.62||||0.07|TWO_SIDED|95.0|0.37|1.03|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.03|0.37|0.07
82488737|NCT03423641|164670579|SUPERIORITY||Odds Ratio (OR)|0.81||||0.11|TWO_SIDED|95.0|0.63|1.05|||Marginal Structural Model||The numerator represents the DAA group while the denominator represents the comparison group for the odds ratio.|||1.05|0.63|0.11
82488738|NCT04612790|164670585|OTHER||Difference in percentage of responders|6.7||||0.509|TWO_SIDED|95.0|-10.9|24.29|||Logistic regression model with Firth adj|||Estimates were from a logistic regression model using the Firth adjustment (adj) that included treatment group, baseline disease severity (moderate, severe) and time of BP diagnosis (participants with newly diagnosed BP, participants with a previous diagnosis of BP who have relapsed) as categorical covariates.||24.29|-10.90|0.509
82488739|NCT01254292|164670640|SUPERIORITY_OR_OTHER||single proportion|82.1|||||TWO_SIDED|95.0|77.1|86.5|||||Clopper Pearson Confidence Interval|||86.5|77.1|
82488740|NCT01254292|164670640|SUPERIORITY_OR_OTHER||single proportion|81.9|||||TWO_SIDED|95.0|76.7|86.4|||||Clopper Pearson Confidence Interval|||86.4|76.7|
82488741|NCT01484132|164670671|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline to 6 months was different from 0.||||0.58
82488742|NCT01484132|164670671|SUPERIORITY_OR_OTHER||Slope|-0.061||||0.406|TWO_SIDED|95.0|-0.206|0.084||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 6 months after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 6 months, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.084|-0.206|0.406
82488743|NCT01484132|164670671|SUPERIORITY_OR_OTHER||Slope|-0.017||||0.693|TWO_SIDED|95.0|-0.101|0.067||P-value is to test the longitudinal association between composite exposure on all surfaces and change in BPA after adjusting for covariates.|Mixed Models Analysis|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the longitudinal association between composite exposure on all surfaces and change in BPA from baseline, the repeated measure model was used with all available follow-up BPA data. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.067|-0.101|0.693
82488744|NCT01484132|164670671|SUPERIORITY_OR_OTHER||Slope|-0.123||||0.16|TWO_SIDED|95.0|-0.296|0.05||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 6 months after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 6 months, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.050|-0.296|0.160
82488745|NCT01484132|164670671|SUPERIORITY_OR_OTHER||Slope|-0.029||||0.574|TWO_SIDED|95.0|-0.131|0.073||P-value is to test the longitudinal association between composite exposure on posterior occlusal surfaces and change in BPA after adjusting for covariates.|Mixed Models Analysis|Baseline BPA, season, household income, and canned food were used as covariates.||To see the longitudinal association between composite exposure on posterior occlusal surfaces and change in BPA from baseline, the repeated measure model was used with all available follow-up BPA data. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.073|-0.131|0.574
82560008|NCT04660799|164829626|SUPERIORITY||Difference in ORR IRC|14.1|||||TWO_SIDED|95.0|-12.68|40.88||||||IRC; Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||40.88|-12.68|
82488746|NCT01484132|164670672|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.11
82488747|NCT01484132|164670672|SUPERIORITY_OR_OTHER||Slope|0.299||||0.003|TWO_SIDED|95.0|0.105|0.494||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the first treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.494|0.105|0.003
82488748|NCT01484132|164670672|SUPERIORITY_OR_OTHER||Slope|0.365||||0.002|TWO_SIDED|95.0|0.145|0.585||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.585|0.145|0.002
82488749|NCT01484132|164670673|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.27
82560009|NCT04660799|164829627|SUPERIORITY||Difference in CRR|7.05|||||TWO_SIDED|95.0|-22.49|36.59||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||36.59|-22.49|
82560010|NCT04660799|164829628|SUPERIORITY||Difference in CRR|18.59|||||TWO_SIDED|95.0|-9.55|46.73||||||Stratified by IPI score: IPI 0-2 = low to low-intermediate risk versus IPI 3-5 = high-intermediate to high risk||46.73|-9.55|
82488750|NCT01484132|164670673|SUPERIORITY_OR_OTHER||Slope|-0.068||||0.48|TWO_SIDED|95.0|-0.258|0.123||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.123|-0.258|0.480
82488751|NCT01484132|164670673|SUPERIORITY_OR_OTHER||Slope|-0.074||||0.501|TWO_SIDED|95.0|-0.293|0.145||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the first treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the first treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.145|-0.293|0.501
82488752|NCT01484132|164670674|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.41
82488753|NCT01484132|164670674|SUPERIORITY_OR_OTHER||Slope|-0.082||||0.612|TWO_SIDED|95.0|-0.418|0.254||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the second treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 1 day after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||0.254|-0.418|0.612
82488754|NCT01484132|164670674|SUPERIORITY_OR_OTHER||Slope|0.078||||0.696|TWO_SIDED|95.0|-0.339|0.495||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the second treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 1 day after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.495|-0.339|0.696
82488755|NCT01484132|164670675|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||t-test, 2 sided|||One sample t-test was used to test whether the mean change from baseline was different from 0.||||0.76
82488756|NCT01484132|164670675|SUPERIORITY_OR_OTHER||Slope|-0.018||||0.968|TWO_SIDED|95.0|-1.061|1.025||P-value is to test the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the second treatment after adjusting for covariates.|Regression, Linear|Composite exposure on all surfaces was used as the main predictor and baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on all surfaces and change in BPA from baseline to 14 days after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on all surfaces was used as the main predictor.||1.025|-1.061|0.968
82488757|NCT01484132|164670675|SUPERIORITY_OR_OTHER||Slope|-0.083||||0.822|TWO_SIDED|95.0|-0.941|0.775||P-value is to test the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the second treatment after adjusting for covariates.|Regression, Linear|Baseline BPA, season, household income, and canned food were used as covariates.||To see the association between composite exposure on posterior occlusal surfaces and change in BPA from baseline to 14 days after the second treatment, the linear model was used with the change in BPA outcome. Log-transformed BPA was used for the analysis. Composite exposure on posterior occlusal surfaces was used as the main predictor.||0.775|-0.941|0.822
82488758|NCT01697358|164670679|SUPERIORITY|||||||0.036|||||||Z-test using unpooled standard deviation|||||||0.036
82584092|NCT01588496|164880072|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-11.27|STANDARD_ERROR_OF_MEAN|5.86||0.088|TWO_SIDED|95.0|-23.11|0.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|||0.56|-23.11|0.088
82651934|NCT01851590|165019019|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Proportions and 95% confidence intervals (CIs) were calculated for negative KOH staining, negative cultures, and a combination of these at 4- and 10-month time points. Cochran-Mantel-Haenszel and χ2-tests were used to analyse efficacy criteria.|Cochran-Mantel-Haenszel|||The sample size was estimated according to complete mycological cure at 10 months. Estimation was based on the design of a binary-outcome head-to-head superiority trial. Orally administered terbinafine treatment was considered the active control. Approximately 25 patients / arm were required to have 80% power (β=0.2) at a two-sided α=0.05 significance level to detect a decrease in primary outcome from 50% in the terbinafine arm to 15% in the amorolfine or resin lacquer treatment arms.||||<0.05
82488759|NCT01697358|164670680|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline NPRS, treatment group, and virtual center.||||||< 0.001
82488760|NCT01697358|164670681|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline NPRS, treatment group, and virtual center.||||||< 0.001
82488761|NCT01697358|164670682|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline ODI, treatment group, and virtual center.||||||< 0.001
82488762|NCT01697358|164670683|SUPERIORITY||||||<|0.001|||||||Regression, Linear|Variables included in the linear regression model are: baseline PCS, treatment group, and virtual center.||||||< 0.001
82488763|NCT01697358|164670684|SUPERIORITY||||||<|0.001|||||||Z-test using unpooled standard deviation|||||||< 0.001
82488764|NCT03467048|164670717|NON_INFERIORITY|Null hypothesis: McGrath Video Laryngoscopy is non-inferior to Macintosh direct laryngoscopy.|Odds Ratio (OR)|4.65|||<|0.01|TWO_SIDED|95.0|2.22|9.75|||t-test, 1 sided|||||9.75|2.22|<0.01
82488765|NCT03467048|164670718|NON_INFERIORITY|Null hypothesis: McGrath videolaryngoscopy is non-inferior to Direct laryngoscopy|Odds Ratio (OR)|0.3||||0.08|TWO_SIDED|0.975|0.04|2.28|||t-test, 1 sided|||||2.28|0.04|0.08
82488766|NCT03467048|164670719|NON_INFERIORITY|Null hypothesis: McGrath videolaryngoscopy is non-inferior to Direct laryngoscopy|Odds Ratio (OR)|0.87||||0.41|TWO_SIDED|97.5|0.1|7.77|||t-test, 1 sided|||||7.77|0.1|0.41
82488767|NCT03841448|164670720|SUPERIORITY||Placebo-adjusted GM Percent Change|-37.367||||0.1032|TWO_SIDED|90.0|-60.951|0.46|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS mean difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||0.460|-60.951|0.1032
82488768|NCT03841448|164670721|SUPERIORITY||Placebo-adjusted GM Percent Change|-36.167||||0.1432|TWO_SIDED|90.0|-61.552|5.978|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS mean difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||5.978|-61.552|0.1432
82488769|NCT03841448|164670722|SUPERIORITY||Odds Ratio (OR)|3.01||||0.1177|TWO_SIDED|90.0|0.43|21.27|||Cochran-Mantel-Haenszel|p-value was based on Cochran-Mantel-Haenszel test stratified by baseline 24-hour UP (≥1.0 g and \<2 g/day versus ≥2.0 g/day).|Odds ratio was estimated with logit method using a correction of 0.5 in every cell of the 2x2 table that contains a zero.|||21.27|0.43|0.1177
82488770|NCT03841448|164670722|SUPERIORITY||Difference in Proportions|0.23|||||TWO_SIDED|90.0|-0.13|0.42|||||Difference in proportions (cemdisiran - placebo) (90% CI) was based on the Wilson score method with continuity correction.|||0.42|-0.13|
82488771|NCT03841448|164670723|SUPERIORITY||Odds Ratio (OR)|3.02||||0.1533|TWO_SIDED|90.0|0.45|20.34|||Cochran-Mantel-Haenszel|p-value was based on Cochran-Mantel-Haenszel test stratified by baseline 24-hour UP (≥1.0 g and \<2 g/day versus ≥2.0 g/day).|Odds ratio was estimated with logit method using a correction of 0.5 in every cell of the 2x2 table that contains a zero.|||20.34|0.45|0.1533
82488772|NCT03841448|164670723|SUPERIORITY||Difference in Proportions|0.23|||||TWO_SIDED|90.0|-0.13|0.42|||||Difference in proportions (cemdisiran - placebo) (90% CI) was based on the Wilson score method with continuity correction.|||0.42|-0.13|
82488773|NCT03841448|164670724|SUPERIORITY||Placebo-adjusted GM Percent Change|-45.771||||0.0021|TWO_SIDED|90.0|-60.093|-26.309|||MMRM||Placebo-adjusted GM percent change, 90% CIs were calculated by exponentially back-transforming the model based LS means difference (cemdisiran - placebo) and the corresponding 90% CI then subtracting by 1.|||-26.309|-60.093|0.0021
82560011|NCT01638000|164829703|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was concluded if the lower limit of the 95% CI for difference of adjusted change from baseline between solifenacin 5 mg and mirabegron 50 mg was \> -0.20. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg. Overall power calculation was 80% for a 1-sided test and significance level of 0.025.|least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.124||0.15|TWO_SIDED|95.0|-0.42|0.06||If p\<0.05, this indicated superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||The non-inferiority of mirabegron vs. solifencacin on the change from baseline to final visit in the mean number of micturitions per 24 hours.||0.06|-0.42|0.15
82584093|NCT01588496|164880073|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-30.93|STANDARD_ERROR_OF_MEAN|6.42|<|0.001|TWO_SIDED|95.0|-43.86|-18.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, baseline LDL-C level (\< 420 vs ≥ 420 mg/dL), scheduled visit and the interaction of treatment with scheduled visit.|Placebo is the reference|LDL-C lowering was analyzed by comparing evolocumab and placebo. Statistical analysis was 2-sided with a significance level of 0.05.||-18.00|-43.86|<0.001
82488774|NCT00543543|164670727|SUPERIORITY_OR_OTHER||Vaccine efficacy|96.7|||<|0.0001|TWO_SIDED|95.0|80.9|99.8|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||99.8|80.9|<0.0001
82488775|NCT00543543|164670728|SUPERIORITY_OR_OTHER||Vaccine efficacy|97.4|||||TWO_SIDED|95.0|85.0|99.9|||Exact test, 1-sided||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||99.9|85.0|
82488776|NCT00543543|164670729|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided confidence interval (CI) of the GMT ratio was \>0.67|GMT ratio|1.02|||<|0.001|TWO_SIDED|95.0|0.99|1.06|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 6||1.06|0.99|<0.001
82488777|NCT00543543|164670729|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|0.8|||<|0.001|TWO_SIDED|95.0|0.77|0.83|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 11||0.83|0.77|<0.001
82488778|NCT00543543|164670729|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|0.99|||<|0.001|TWO_SIDED|95.0|0.96|1.03|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 16||1.03|0.96|<0.001
82488779|NCT00543543|164670729|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority required that the lower bound of the two-sided CI of the GMT ratio was \>0.67|GMT ratio|1.19|||<|0.001|TWO_SIDED|95.0|1.14|1.23|||ANOVA||GMT ratio = GMT (V503) / GMT (Gardasil)|Anti-HPV Type 18||1.23|1.14|<0.001
82488780|NCT00543543|164670736|SUPERIORITY_OR_OTHER||Vaccine efficacy|96.0|||||TWO_SIDED|95.0|94.6|97.1|||||Vaccine efficacy = 100 \* \[1 - (incidence rate with V503 / incidence rate with Gardasil)\]. The pre-specified success criterion was a lower bound of the 95% confidence interval of observed efficacy of \>25%.|||97.1|94.6|
82488781|NCT04308304|164670751|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.69|||||TWO_SIDED|90.0|0.55|0.86||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.86|0.55|
82488782|NCT04308304|164670751|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.66|||||TWO_SIDED|95.0|0.53|0.82||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.82|0.53|
82488783|NCT04308304|164670751|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.00|0.55|
82488784|NCT04308304|164670751|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.77|||||TWO_SIDED|95.0|0.56|1.05||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.05|0.56|
82488785|NCT04308304|164670752|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.69|||||TWO_SIDED|90.0|0.55|0.86||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.86|0.55|
82488786|NCT04308304|164670752|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.66|||||TWO_SIDED|95.0|0.53|0.82||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.82|0.53|
82488787|NCT04308304|164670752|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.74|||||TWO_SIDED|95.0|0.55|1.0||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.00|0.55|
82488788|NCT04308304|164670752|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.77|||||TWO_SIDED|95.0|0.56|1.05||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.05|0.56|
82488789|NCT04308304|164670753|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.67|||||TWO_SIDED|90.0|0.52|0.87||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.87|0.52|
82488790|NCT04308304|164670753|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.68|||||TWO_SIDED|95.0|0.52|0.87||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.87|0.52|
82488791|NCT04308304|164670753|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.79|||||TWO_SIDED|95.0|0.59|1.06||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.06|0.59|
82488792|NCT04308304|164670753|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.74|||||TWO_SIDED|95.0|0.51|1.08||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||1.08|0.51|
82560012|NCT01638000|164829704|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.53||||0.03|TWO_SIDED|95.0|1.04|2.25||If P \<0.05, this indicates superiority in favor of the treatment group with the smallest percentage of participants with at least 1 TEAE of dry mouth, constipation or blurred vision during the double-blind period at the final visit.|Regression, Logistic|Included treatment group, sex, age group (\< 65, ≥ 65), number of prior antimuscarinics (1, ≥ 2) and geographic region as factors.||Difference vs Mirabegron. Differences of the percentages were calculated by subtracting the percentage of mirabegron 50 mg group from the percentage of solifenacin 5 mg group.||2.25|1.04|0.030
82488793|NCT04308304|164670754|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|Geometric Mean Ratio (GMR)|0.62|||||TWO_SIDED|90.0|0.48|0.8||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.80|0.48|
82488794|NCT04308304|164670754|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.67|||||TWO_SIDED|95.0|0.55|0.81||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.81|0.55|
82560013|NCT01638000|164829705|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.117||0.71|TWO_SIDED|95.0|-0.19|0.27||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.27|-0.19|0.71
82584094|NCT01551212|164880074|SUPERIORITY||Mean Difference (Final Values)|4.09||||0.097|TWO_SIDED|95.0|-0.74|8.91|||ANCOVA|factors: treatment, center, HCV-Class (positive, negative) and lab MELD (≤ 30 vs \> 30) covariate: baseline value||||8.91|-0.74|0.097
82584095|NCT01551212|164880075|SUPERIORITY||Mean Difference (Final Values)|7.99||||0.0085|TWO_SIDED|95.0|2.06|13.92|||ANCOVA|factors: treatment, center, HCV-Class (positive, negative) and lab MELD (≤ 30 vs \> 30) covariate: baseline value||||13.92|2.06|0.0085
82488795|NCT04308304|164670754|OTHER|MK-1942 + Donepezil PK / MK-1942 Alone PK|GMR|0.68|||||TWO_SIDED|95.0|0.49|0.93||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.93|0.49|
82488796|NCT04308304|164670754|OTHER|MK-1942 + Donepezil PK / MK-1942 PK Alone|GMR|0.72|||||TWO_SIDED|95.0|0.54|0.98||||||'MK-1942 Alone PK' are unpublished data from MK-1942-004||0.98|0.54|
82488797|NCT04308304|164670759|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.34|STANDARD_ERROR_OF_MEAN|52.4||||||||||||||||
82488798|NCT04308304|164670760|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.22|STANDARD_ERROR_OF_MEAN|52.4||||||||||||||||
82488799|NCT04308304|164670761|OTHER|Donepezil Accumulation Ratio (Day 28/Day -1)|Geometric mean|1.46|STANDARD_ERROR_OF_MEAN|60.8||||||||||||||||
82488800|NCT04502979|164670780|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.21||0.07|TWO_SIDED|95.0|-0.11|0.73||One-sided p-value for directional hypothesis. The threshold for statistical significance is p \< 0.05.|Mixed Models Analysis|||||0.73|-0.11|0.07
82488801|NCT04502979|164670781|SUPERIORITY||Mean Difference (Net)|-121.16|STANDARD_ERROR_OF_MEAN|65.73||0.04|TWO_SIDED|95.0|-252.73|10.41||One-sided p-value for directional hypothesis. The threshold for statistical significance is p \< 0.05.|Mixed Models Analysis|||||10.41|-252.73|0.04
82488802|NCT00165984|164670787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.9||||0.003|TWO_SIDED|95.0|1.7|13.9|||Regression, Cox|||||13.9|1.7|0.003
82488803|NCT01686828|164670809|SUPERIORITY_OR_OTHER|||||||0.164||||||The a prior threshold for statistical significance was p\<0.05.|RM-ANOVA|||||||0.164
82488804|NCT01686828|164670810|SUPERIORITY_OR_OTHER|||||||0.003|||||||RM-ANOVA|||Time-by-group interaction for fat mass||||0.003
82488805|NCT01686828|164670810|SUPERIORITY_OR_OTHER|||||||0.03||||||Time-by-group interaction for lean mass|RM-ANOVA|||||||0.03
82488806|NCT01686828|164670811|OTHER||||||>|0.1|||||||ANOVA|||The null hypothesis was that short-term testosterone deprivation would not affect lipoprotein lipase expression in adipose tissue. Repeated measures ANOVA was used to determine if a time-by-group effect was apparent for lipoprotein lipase expression.||||>0.1
82488807|NCT01532973|164670825|SUPERIORITY_OR_OTHER||Difference in LS Means|4.26|||||TWO_SIDED|90.0|3.77|4.74||||||||4.74|3.77|
82488808|NCT01532973|164670825|SUPERIORITY_OR_OTHER||Difference in LS Means|4.41|||||TWO_SIDED|90.0|3.92|4.9||||||||4.90|3.92|
82488809|NCT01532973|164670825|SUPERIORITY_OR_OTHER||Difference in LS Means|3.56|||||TWO_SIDED|90.0|3.08|4.05||||||||4.05|3.08|
82488810|NCT01532973|164670826|SUPERIORITY_OR_OTHER||Difference in LS Means|1.02|||||TWO_SIDED|90.0|0.34|1.69||||||||1.69|0.34|
82488811|NCT01532973|164670826|SUPERIORITY_OR_OTHER||Difference in LS Means|2.07|||||TWO_SIDED|90.0|1.39|2.74||||||||2.74|1.39|
82488812|NCT01532973|164670826|SUPERIORITY_OR_OTHER||Difference in LS Means|2.72|||||TWO_SIDED|90.0|2.05|3.39||||||||3.39|2.05|
82488813|NCT01532973|164670827|SUPERIORITY_OR_OTHER||Difference in LS Means|3.2|||||TWO_SIDED|90.0|2.68|3.72||||||||3.72|2.68|
82488814|NCT01532973|164670827|SUPERIORITY_OR_OTHER||Difference in LS Means|3.95|||||TWO_SIDED|90.0|3.44|4.47||||||||4.47|3.44|
82560014|NCT01638000|164829705|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.119||0.053|TWO_SIDED|95.0|-0.47|0.0||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.00|-0.47|0.053
82560015|NCT01638000|164829705|SUPERIORITY_OR_OTHER_LEGACY||least squares mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.125||0.12|TWO_SIDED|95.0|-0.44|0.05||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.05|-0.44|0.12
82560016|NCT01638000|164829706|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.9||||0.33|TWO_SIDED|95.0|0.73|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron.||1.11|0.73|0.33
82560017|NCT01638000|164829706|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.84||||0.21|TWO_SIDED|95.0|0.64|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron.||1.10|0.64|0.21
82560018|NCT01638000|164829706|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.97||||0.83|TWO_SIDED|95.0|0.71|1.32||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 12 Rate Ratio vs. Mirabegron.||1.32|0.71|0.83
82560019|NCT01638000|164829706|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.92||||0.57|TWO_SIDED|95.0|0.68|1.24||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.24|0.68|0.57
82560020|NCT01638000|164829707|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.089||0.36|TWO_SIDED|95.0|-0.25|0.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From stratified rank ANCOVA analysis.||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.10|-0.25|0.36
82560021|NCT01638000|164829707|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.13||0.12|TWO_SIDED|95.0|-0.48|0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.03|-0.48|0.12
82560022|NCT01638000|164829707|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.163||0.47|TWO_SIDED|95.0|-0.57|0.07||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.07|-0.57|0.47
82560023|NCT01638000|164829708|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.92||||0.44|TWO_SIDED|95.0|0.74|1.14||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.14|0.74|0.44
82560024|NCT01638000|164829708|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.79||||0.11|TWO_SIDED|95.0|0.6|1.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 8 Rate Ratio vs. Mirabegron||1.06|0.60|0.11
82560025|NCT01638000|164829708|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.05||||0.78|TWO_SIDED|95.0|0.76|1.45||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Week 12 Rate Ratio vs. Mirabegron||1.45|0.76|0.78
82651935|NCT01851590|165019020|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
82560026|NCT01638000|164829708|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|0.97||||0.85|TWO_SIDED|95.0|0.71|1.33||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates||Final Visit Rate Ratio vs. Mirabegron||1.33|0.71|0.85
82584096|NCT01551212|164880076|SUPERIORITY|||||||0.699|||||||Fisher Exact|||||||0.699
82584097|NCT04217590|164880105|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|1.9|15.12|||Fisher Exact||The CI for OR is calculated as an exact CI. An OR \> 1 favours SZC.|||15.12|1.90|<0.001
82651936|NCT01851590|165019021|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
82651937|NCT01851590|165019022|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Differences between quantitative data were assessed with one-way analysis of variances, and pairwise comparisons were performed with Bonferroni's post hoc test.|ANOVA|||||||<0.05
82560027|NCT01638000|164829709|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.081||0.66|TWO_SIDED|95.0|-0.18|0.14||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From stratified rank ANCOVA analysis.||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.14|-0.18|0.66
82560028|NCT01638000|164829709|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.17|TWO_SIDED|95.0|-0.31|-0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||-0.03|-0.31|0.17
82584098|NCT04217590|164880106|SUPERIORITY||Odds Ratio (OR)|6.41|||<|0.001|TWO_SIDED|95.0|2.64|15.55|||Regression, Logistic|The OR, 95% CI and p-value are obtained from a pooled logistic regression model after multiple imputation (MI) of missing pre-dialysis S-K values.|An OR \> 1 favours SZC.|||15.55|2.64|<0.001
82488815|NCT01532973|164670828|SUPERIORITY_OR_OTHER||Difference in LS Means|3.89|||||TWO_SIDED|90.0|3.2|4.58||||||||4.58|3.20|
82488816|NCT01532973|164670828|SUPERIORITY_OR_OTHER||Difference in LS Means|4.67|||||TWO_SIDED|90.0|3.98|5.36||||||||5.36|3.98|
82488817|NCT01532973|164670828|SUPERIORITY_OR_OTHER||Difference in LS Means|3.61|||||TWO_SIDED|90.0|2.92|4.3||||||||4.30|2.92|
82488818|NCT01532973|164670829|SUPERIORITY_OR_OTHER||Difference in LS Means|0.72|||||TWO_SIDED|90.0|-0.09|1.54||||||||1.54|-0.09|
82488819|NCT01532973|164670829|SUPERIORITY_OR_OTHER||Difference in LS Means|2.57|||||TWO_SIDED|90.0|1.75|3.39||||||||3.39|1.75|
82488820|NCT01532973|164670829|SUPERIORITY_OR_OTHER||Difference in LS Means|2.84|||||TWO_SIDED|90.0|2.02|3.66||||||||3.66|2.02|
82560029|NCT01638000|164829709|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.066||0.66|TWO_SIDED|95.0|-0.24|0.02||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|From the stratified rank ANCOVA analysis.||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.02|-0.24|0.66
82560030|NCT01638000|164829710|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.43|TWO_SIDED|95.0|-0.44|0.19||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.19|-0.44|0.43
82560031|NCT01638000|164829710|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.157||0.027|TWO_SIDED|95.0|-0.66|-0.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||-0.04|-0.66|0.027
82584099|NCT04217590|164880107|SUPERIORITY||Odds Ratio (OR)|6.41|||<|0.001|TWO_SIDED|95.0|2.71|15.12|||Regression, Logistic|The OR, 95% CI and p-value are obtained from a pooled logistic regression model after multiple imputation (MI) of missing pre-dialysis S-K values.|An OR \> 1 favours SZC.|||15.12|2.71|<0.001
82651938|NCT01851590|165019023|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Qualitative data are expressed as frequencies and percentages, and differences between parallel groups were compared with the χ2-test or Fisher's exact test, as appropriate.|Chi-squared|||||||<0.05
82651939|NCT00696709|165019024|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
82488821|NCT01532973|164670830|SUPERIORITY_OR_OTHER||Difference in LS Means|3.17|||||TWO_SIDED|90.0|2.55|3.8||||||||3.80|2.55|
82488822|NCT01532973|164670830|SUPERIORITY_OR_OTHER||Difference in LS Means|3.63|||||TWO_SIDED|90.0|3.0|4.26||||||||4.26|3.00|
82488823|NCT03507400|164670891|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82488824|NCT03507400|164670891|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||pooled comparison of the participants of the non-waiting list and the waiting list before and after Introvision||||0.003
82488825|NCT03507400|164670893|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82488826|NCT03507400|164670894|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.003
82488827|NCT03507400|164670895|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.001
82488828|NCT03507400|164670896|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon paired test||||||0.001
82488829|NCT03507400|164670900|SUPERIORITY|Wilcoxon paired test||||||0.04|||||||Wilcoxon (Mann-Whitney)|||||||0.04
82488830|NCT03507400|164670900|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82488831|NCT03507400|164670900|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82488832|NCT06350474|164670906|NON_INFERIORITY|The non-inferiority margin is -3.|Mean Difference (Final Values)|0.346|||<|0.0001|TWO_SIDED|95.0|-0.5|1.1||One-sided test for non-inferiority.|ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|The non-inferiority test was a priori designed to be conducted on the per-protocol (PP) population.||1.1|-0.5|<0.0001
82488833|NCT06350474|164670907|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.414|TWO_SIDED|95.0|-0.4|0.2|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.2|-0.4|0.414
82488834|NCT06350474|164670908|SUPERIORITY||Mean Difference (Final Values)|0.95||||0.241|TWO_SIDED|95.0|-1.0|2.9|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||2.9|-1.0|0.241
82488835|NCT06350474|164670909|SUPERIORITY||Mean Difference (Final Values)|-0.92||||0.233|TWO_SIDED|95.0|-2.5|0.6|||ANOVA|Adjusted for four dichotomous randomization strata.|Direction of difference is Discontinue - Continue.|||0.6|-2.5|0.233
82488836|NCT06350474|164670910|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.42|TWO_SIDED|95.0|-0.4|0.97|||t-test, 2 sided||Direction of difference is Discontinue - Continue.|||0.97|-0.4|0.42
82488837|NCT06350474|164670911|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.69|TWO_SIDED|95.0|-0.92|0.61|||t-test, 2 sided||Direction of difference is Discontinue - Continue.|||0.61|-0.92|0.69
82488838|NCT06350474|164670912|SUPERIORITY||Difference in % Participants|2.5||||0.275|TWO_SIDED|95.0|-1.5|6.5|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|||6.5|-1.5|0.275
82488839|NCT06350474|164670914|SUPERIORITY||Difference in % Participants|0.8||||0.686|TWO_SIDED|95.0|-1.6|3.4|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|||3.4|-1.6|0.686
82488840|NCT06350474|164670915|SUPERIORITY||Difference in % Participants|13.9||||0.001|TWO_SIDED|95.0|5.6|21.8|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants with at least one AE is the same in Discontinue and Continue arms.||21.8|5.6|0.0010
82488841|NCT06350474|164670916|SUPERIORITY||Rate Ratio|1.95|||<|0.0001|TWO_SIDED|95.0|1.51|2.53|||Poisson Regression|||Rate ratio, confidence interval, and p-value calculated using Poisson Regression with an offset for the log of follow-up time in weeks. The total number of follow-up weeks in the DA-discontinue and DA-continue arms are 1486.3 and 1471.4 weeks, respectively. Ratio is Discontinue / Continue.||2.53|1.51|<0.0001
82488842|NCT06350474|164670917|SUPERIORITY||Difference in % Participants|2.03||||0.1758|TWO_SIDED|95.0|-0.6|5.0|||Fisher Exact||Confidence interval calculated using the Newcombe-Wilson method without continuity correction. Direction of difference is Discontinue - Continue.|Null hypothesis: proportion of participants changing assigned regimen is the same in Discontinue and Continue arms.||5.0|-0.6|0.1758
82488843|NCT03319173|164670918|OTHER||Mean Difference (Final Values)|8.24|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|7.79|8.7|||Regression, Linear|||||8.7|7.79|<0.0001
82488844|NCT03319173|164670919|OTHER||Estimate|0.35|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.31|0.39|||Regression, Linear|||||0.39|0.31|<0.0001
82488845|NCT03319173|164670920|OTHER||Estimate|0.46|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.41|0.52|||Regression, Linear|||||0.52|0.41|<0.0001
82488846|NCT03319173|164670921|OTHER||Estimate|0.514|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.47|0.56|||Regression, Linear|||||0.56|0.47|<0.0001
82488847|NCT03319173|164670922|OTHER||Estimate|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.4|0.49|||Regression, Linear|||||0.49|0.40|<0.0001
82488848|NCT03319173|164670923|OTHER||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.4|0.49|||Estimate|||||0.49|0.40|<0.0001
82560032|NCT01638000|164829710|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.164||0.053|TWO_SIDED|95.0|-0.64|0.0|||ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.00|-0.64|0.053
82560033|NCT01638000|164829710|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.163||0.16|TWO_SIDED|95.0|-0.55|0.09||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Final Visit Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.09|-0.55|0.16
82488849|NCT03319173|164670924|OTHER||Estimate|0.75|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.72|0.78|||Regression, Linear|||||0.78|0.72|<0.0001
82560034|NCT01638000|164829711|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.023||0.99|TWO_SIDED|95.0|-0.05|0.05||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.05|-0.05|0.99
82488850|NCT03319173|164670925|OTHER||Mean Difference (Final Values)|0.33|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.3|0.37|||Estimate|||||0.37|0.30|<0.0001
82488851|NCT03319173|164670926|OTHER||Estimate|0.87|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.85|0.88|||Regression, Linear|||||0.88|0.85|<0.0001
82488852|NCT03319173|164670927|OTHER||Estimate|0.87|STANDARD_ERROR_OF_MEAN|0.01|<|0.0001|TWO_SIDED|95.0|0.85|0.88|||Regression, Linear|||||0.88|0.85|<0.0001
82488853|NCT03319173|164670928|OTHER||Estimate|0.75|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.71|0.8|||Regression, Linear|||||0.80|0.71|<0.0001
82488854|NCT03319173|164670929|OTHER||Estimate|0.51|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.47|0.56|||Regression, Linear|||||0.56|0.47|<0.0001
82488855|NCT03319173|164670930|OTHER||Estimate|1.13|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|1.104|1.156|||Regression, Linear|||||1.156|1.104|<0.0001
82488856|NCT03319173|164670931|OTHER||Estimate|1.037|||<|0.0001|TWO_SIDED|95.0|1.025|1.049|||Regression, Linear|||||1.049|1.025|<0.0001
82488857|NCT03319173|164670932|OTHER||Estimate|0.93|STANDARD_ERROR_OF_MEAN|0.008|<|0.0001|TWO_SIDED|95.0|0.91|0.94|||Regression, Linear|||||0.94|0.91|<0.0001
82488858|NCT03319173|164670933|OTHER||Estimate|1.122|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|1.096|1.149|||Regression, Linear|||||1.149|1.096|<0.0001
82488859|NCT03673046|164670934|SUPERIORITY||Mean Difference (Final Values)|-10.1255|STANDARD_ERROR_OF_MEAN|1.5705|<|0.0001|TWO_SIDED|95.0|-13.2532|-6.9978||The p-value was not adjusted for multiple comparisons because this was the pre-specified primary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-eeek waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in BDD-YBOCS total scores between the treatment groups at endpoint (week 12).||-6.9978|-13.2532|<.0001
82488860|NCT03673046|164670935|SUPERIORITY||Mean Difference (Final Values)|-3.2648|STANDARD_ERROR_OF_MEAN|1.0346||0.0023|TWO_SIDED|95.0|-5.3275|-1.2022||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an auto-correlation with heterogeneous variance (ARH(1)) covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in QIDS-SR total scores between the treatment groups at endpoint (week 12).||-1.2022|-5.3275|0.0023
82560035|NCT01638000|164829711|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.027||0.47|TWO_SIDED|95.0|-0.07|0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.03|-0.07|0.47
82560036|NCT01638000|164829711|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.032||0.99|TWO_SIDED|95.0|-0.06|0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.06|-0.06|0.99
82560037|NCT01638000|164829711|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.031||0.74|TWO_SIDED|95.0|-0.05|0.07||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Final visit Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.07|-0.05|0.74
82560038|NCT01638000|164829712|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.03||||0.67|TWO_SIDED|95.0|0.89|1.2||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.20|0.89|0.67
82560039|NCT01638000|164829712|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.17||||0.073|TWO_SIDED|95.0|0.99|1.39||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron||1.39|0.99|0.073
82560040|NCT01638000|164829712|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.12||||0.25|TWO_SIDED|95.0|0.92|1.37||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 12 Rate Ratio vs. Mirabegron||1.37|0.92|0.25
82560041|NCT01638000|164829712|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.08||||0.4|TWO_SIDED|95.0|0.9|1.31||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.31|0.90|0.40
82560042|NCT01638000|164829713|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.115||0.84|TWO_SIDED|95.0|-0.25|0.2||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.20|-0.25|0.84
82560043|NCT01638000|164829713|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.099||0.63|TWO_SIDED|95.0|-0.24|0.15||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.15|-0.24|0.63
82560044|NCT01638000|164829713|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.111||0.59|TWO_SIDED|95.0|-0.28|0.16||if p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.16|-0.28|0.59
82560045|NCT01638000|164829714|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.05||||0.068|TWO_SIDED|95.0|1.0|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 4 Rate Ratio vs. Mirabegron||1.11|1.00|0.068
82560046|NCT01638000|164829714|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.04||||0.21|TWO_SIDED|95.0|0.98|1.11||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 8 Rate Ratio vs. Mirabegron||1.11|0.98|0.21
82651940|NCT00696709|165019025|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
82488861|NCT03673046|164670936|SUPERIORITY||Mean Difference (Final Values)|-4.8412|STANDARD_ERROR_OF_MEAN|1.1195|<|0.0001|TWO_SIDED|95.0|-7.0698|-2.6126||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in BABS total scores between the treatment groups at endpoint (week 12).||-2.6126|-7.0698|<.0001
82488862|NCT03673046|164670937|SUPERIORITY||Mean Difference (Final Values)|-5.8847|STANDARD_ERROR_OF_MEAN|1.676||0.0008|TWO_SIDED|95.0|-9.2237|-2.5458||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with an auto-correlation with heterogeneous variance (ARH(1)) covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in SDS total scores between the treatment groups at endpoint (week 12).||-2.5458|-9.2237|.0008
82488863|NCT03673046|164670938|SUPERIORITY||Mean Difference (Final Values)|11.7529|STANDARD_ERROR_OF_MEAN|3.4553||0.0011|TWO_SIDED|95.0|4.863|18.6428||The p-value was not adjusted for multiple comparisons because this was a pre-specified secondary endpoint comparison. The a priori threshold for statistical significance was alpha=.05.|Mixed Models Analysis|Repeated measures were modeled with a compound symmetry with heterogeneous variance covariance matrix.|The effect is presented as the Smartphone-delivered CBT for BDD group outcome compared to the 12-week waitlist control group outcome at the trial end-point (week 12).|Null hypothesis: there is no significant difference in Q-LESQ-SF total scores between the treatment groups at endpoint (week 12).||18.6428|4.8630|.0011
82488864|NCT00717093|164670963|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001|TWO_SIDED|95.0|1.59|3.58||p-values obtained from logistic regression model including main effects of treatment and center|Regression, Logistic|Missing salivary cotinine values imputed as negative|Odds ratio obtained from logistic regression model including main effects of treatment and center|||3.58|1.59|<0.0001
82488865|NCT00717093|164670964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.7||||0.0118|TWO_SIDED|95.0|1.12|2.58||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine values were imputed as negative|Odds Ratio obtained from a logistic regression model including the main effects of treatment and center|Week 26||2.58|1.12|0.0118
82488866|NCT00717093|164670965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.0063|TWO_SIDED|95.0|1.17|2.67|||Regression, Logistic|Missing salivary cotinine values were imputed as negative.||||2.67|1.17|0.0063
82488867|NCT00717093|164670966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.52|3.41||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine was imputed as negative|Odds ratio obtained from a logistic regression model including the main effects of treatment and center|Week 12||3.41|1.52|<0.0001
82488868|NCT00717093|164670966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.0919|TWO_SIDED|95.0|0.94|2.13||p-value obtained from a logistic regression model including the main effects of treatment and center|Regression, Logistic|Missing salivary cotinine was imputed as negative|Odds ratio obtained from a logistic regression model including the main effects of treatment and center|Week 26||2.13|0.94|0.0919
82488869|NCT00418015|164670995|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Log Rank|||Log rank test||||0.54
82488870|NCT00418015|164670996|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||Log Rank|||||||0.15
82488871|NCT00418015|164670997|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared, Corrected|||||||0.06
82488872|NCT00418015|164670998|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared, Corrected|||||||0.02
82560047|NCT01638000|164829714|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.02||||0.52|TWO_SIDED|95.0|0.95|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Week 12 Rate Ratio vs. Mirabegron||1.10|0.95|0.52
82560048|NCT01638000|164829714|SUPERIORITY_OR_OTHER_LEGACY||Rate ratio|1.03||||0.44|TWO_SIDED|95.0|0.96|1.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|Poisson regression|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline as covariates.||Final Visit Rate Ratio vs. Mirabegron||1.10|0.96|0.44
82584100|NCT04217590|164880108|SUPERIORITY||Odds Ratio (OR)|4.41|||<|0.001|TWO_SIDED|95.0|2.53|7.67|||Generalised linear mixed model (GLMM)|The p-value was obtained from a test of equality of odds ratios.|The OR was obtained from GLMM model with random intercept and logit link. Treatment, visit, visit by treatment interaction and baseline were specified as fixed effects. An OR \> 1 favours SZC.|||7.67|2.53|<0.001
82584101|NCT04217590|164880109|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|0.77|1.64|||||Endpoint analysed with Generalised linear mixed model. The CI for the mean difference was calculated by bootstrapping. A mean difference \> 0 favours SZC.|||1.64|0.77|
82651941|NCT00696709|165019026|OTHER||||||<|0.0001||||||The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|Longitudinal regression (LR)|Calculated based on LR model (adjusting for pre-vaccination immunogenicity level and incomplete data) with visit as covariate.||||||<0.0001
82488873|NCT00418015|164670999|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.23
82488874|NCT00418015|164670999|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
82488875|NCT02742441|164671003|SUPERIORITY||||||<|0.001||||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||||||<0.001
82488876|NCT02742441|164671004|SUPERIORITY||||||<|0.001||||||Statistical significance was achieved for each of the clinical signs of psoriasis.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (plaque elevation, scaling, and erythema).||||<0.001
82488877|NCT02742441|164671005|SUPERIORITY|||||||0.012|||||||Cochran-Mantel-Haenszel|||||||0.012
82488878|NCT02495831|164671021|SUPERIORITY_OR_OTHER||point estimate (ratio of geometric means|90.0||||0.1|TWO_SIDED|90.0|80.0|125.0||If the upper limit of the 90% confidence interval is \< 125.00%, no effect of safinamide on diclofenamic acid bioavailability is present (no interaction present).|ANOVA|||The PK parameters AUC0-t and Cmax were analysed using analysis of variance (ANOVA). Before analysis, the data were transformed using a neperian logarithmic transformation. ANOVA was performed taking into account treatment, period, sequence and subject (sequence) as fixed effects with a variance components structure of the covariance matrix.||125|80|0.1
82488879|NCT02495831|164671022|SUPERIORITY_OR_OTHER||geometric mean ratio|104.84|||||TWO_SIDED|90.0|96.4|114.02||||||||114.02|96.40|
82488880|NCT03789396|164671026|SUPERIORITY||Odds Ratio (OR)|0.74|STANDARD_ERROR_OF_MEAN|0.14||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Logistic|||Comparison of patient odds of being hyperoxic and not on room air pre- versus post-intervention||0.97|0.57|0.03
82488881|NCT00546104|164671047|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|9.0||0.3|TWO_SIDED|95.0|-30.0|9.0||The p-value is from a paired t-test to test the null hypothesis the mean relative change in Src from baseline to 4 weeks is equal to zero.|t-test, 2 sided|||The median change in SRC from baseline to 4 weeks was estimated.||9|-30|0.3
82488882|NCT00546104|164671048|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.1||0.3|TWO_SIDED|95.0|-0.3|0.1|||t-test, 1 sided|||||.10|-.30|0.3
82488883|NCT02281773|164671051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|0.79||0.1256|TWO_SIDED|95.0|-2.76|0.34||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||0.34|-2.76|0.1256
82488884|NCT02281773|164671051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.8||0.7337|TWO_SIDED|95.0|-1.3|1.84||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||1.84|-1.30|0.7337
82488885|NCT02281773|164671051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.83||0.6994|TWO_SIDED|95.0|-1.31|1.95||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||1.95|-1.31|0.6994
82560049|NCT01638000|164829715|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.047||0.058|TWO_SIDED|95.0|0.0|0.18||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 4 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.18|-0.00|0.058
82560050|NCT01638000|164829715|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.044||0.5|TWO_SIDED|95.0|-0.06|0.12||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 8 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.12|-0.06|0.50
82560051|NCT01638000|164829715|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.046||0.81|TWO_SIDED|95.0|-0.08|0.1||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as a covariate||Week 12 Difference vs. Mirabegron. Differences of adjusted means were calculated by subtracting the adjusted mean of mirabegron 50 mg from the adjusted mean of solifenacin 5 mg.||0.10|-0.08|0.81
82488886|NCT02281773|164671051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.79||0.427|TWO_SIDED|95.0|-2.19|0.93||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|Mixed Models Analysis|Unstructured covariance structure has been used to fit the mixed model. Kenward-Roger was used to model degrees of freedom.|Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|The restricted maximum likelihood (REML) based mixed effects model with repeated measurements (MMRM) was used with baseline value as fixed covariate and planned treatment, analysis visit, first test done, geographic region grouping 1, planned treatment by analysis visit and baseline value by analysis visit as fixed effects.||0.93|-2.19|0.4270
82488887|NCT02281773|164671056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.66||0.5972|TWO_SIDED|95.0|-0.9|1.6||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.6|-0.9|0.5972
82488888|NCT02281773|164671056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.68||0.3817|TWO_SIDED|95.0|-1.9|0.7||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.7|-1.9|0.3817
82488889|NCT02281773|164671056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.68||0.48|TWO_SIDED|95.0|-0.9|1.8||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.8|-0.9|0.4800
82488890|NCT02281773|164671056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.7507|TWO_SIDED|95.0|-1.1|1.5||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||1.5|-1.1|0.7507
82488891|NCT02281773|164671057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9399|TWO_SIDED|95.0|-0.1|0.1||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 10 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.1|-0.1|0.9399
82560052|NCT01638000|164829716|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.67|TWO_SIDED|95.0|0.85|1.28||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds ratio vs. Mirabegron||1.28|0.85|0.67
82560053|NCT01638000|164829716|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.026|TWO_SIDED|95.0|1.03|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds ratio vs. Mirabegron||1.53|1.03|0.026
82560054|NCT01638000|164829716|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.11|TWO_SIDED|95.0|0.97|1.44||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds ratio vs. Mirabegron||1.44|0.97|0.11
82560055|NCT01638000|164829716|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.093|TWO_SIDED|95.0|0.97|1.43||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final Visit Odds ratio vs. Mirabegron||1.43|0.97|0.093
82560056|NCT01638000|164829717|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.06||||0.74|TWO_SIDED|95.0|0.76|1.48||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds Ratio vs. Mirabegron||1.48|0.76|0.74
82560057|NCT01638000|164829717|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.74|TWO_SIDED|95.0|0.71|1.63||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds Ratio vs. Mirabegron||1.63|0.71|0.74
82560058|NCT01638000|164829717|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.29|TWO_SIDED|95.0|0.81|2.0||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||2.00|0.81|0.29
82488892|NCT02281773|164671057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9919|TWO_SIDED|95.0|-0.1|0.1||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 25 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.1|-0.1|0.9919
82488893|NCT02281773|164671057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.3027|TWO_SIDED|95.0|-0.1|0.2||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 50 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.2|-0.1|0.3027
82488894|NCT02281773|164671057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.3901|TWO_SIDED|95.0|-0.1|0.2||Due to the exploratory nature of this trial, no multiplicity adjustment was made. All statistical testing was performed using a two-sided, α=0.05 level of significance.|ANCOVA||Mean Difference (Final Values) is actually the Adjusted mean difference calculated as BI 409306 100 mg minus Placebo.|Analyses of covariance (ANCOVA) were used to assess between-group differences (BI 409306 group minus placebo group) in the modelled changes from baseline to Week 12. The dependent variable was the change from the baseline score at Week 12 during the treatment period adjusted for fixed categorical covariates of treatment as well as fixed continuous covariates of baseline score.||0.2|-0.1|0.3901
82488895|NCT01364649|164671069|SUPERIORITY_OR_OTHER||LS mean difference|2.2|STANDARD_ERROR_OF_MEAN|0.9||0.013|TWO_SIDED|95.0|0.48|4.02|||Mixed Model Repeated Measurements|The primary analysis was performed by using observed case data only.||||4.02|0.48|0.013
82488896|NCT01788046|164671075|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|30.8|||<|0.001|TWO_SIDED|95.0|18.18|52.17|||Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel test stratified by screening PTH category (\< 600, ≥ 600 to ≤ 1000, and \> 1000 pg/mL), recent cinacalcet use within 8 weeks before randomization (yes and no), and region (North America and non-North America) was used to compare the primary endpoint of percentage of participants with \> 30% reduction from baseline in PTH during the EAP between etelcalcetide and placebo.||52.17|18.18|< 0.001
82488897|NCT01788046|164671076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|33.92|||<|0.001|TWO_SIDED|95.0|16.35|70.37|||Cochran-Mantel-Haenszel|Stratified by screening PTH category, prior cinacalcet use within 8 weeks prior to randomization, and region.||||70.37|16.35|< 0.001
82488898|NCT01788046|164671077|SUPERIORITY_OR_OTHER||Mean Difference|-71.34|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-77.53|-65.14|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-65.14|-77.53|< 0.001
82560059|NCT01638000|164829717|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.29|TWO_SIDED|95.0|0.82|1.9||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.90|0.82|0.29
82560060|NCT01638000|164829718|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.2|TWO_SIDED|95.0|0.9|1.67||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 4 Odds Ratio vs. Mirabegron||1.67|0.90|0.20
82560061|NCT01638000|164829718|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91||||0.57|TWO_SIDED|95.0|0.65|1.26||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 8 Odds Ratio vs. Mirabegron||1.26|0.65|0.57
82560062|NCT01638000|164829718|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.98||||0.92|TWO_SIDED|95.0|0.69|1.39||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.39|0.69|0.92
82560063|NCT01638000|164829718|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.9|TWO_SIDED|95.0|0.73|1.42||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.42|0.73|0.90
82488899|NCT01788046|164671078|SUPERIORITY_OR_OTHER||Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-8.38|-6.03|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-6.03|-8.38|< 0.001
82488900|NCT01788046|164671079|SUPERIORITY_OR_OTHER||Mean Difference|-14.58|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-18.65|-10.51|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-10.51|-18.65|< 0.001
82488901|NCT01788046|164671080|SUPERIORITY_OR_OTHER||Mean Difference|-8.04|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-12.15|-3.92|||Repeated Measures Mixed Effects Model|Repeated measures mixed-effects model included treatment, stratification factors, visit, and treatment by visit interaction as covariates.|Etelcalcetide - Placebo|||-3.92|-12.15|< 0.001
82488902|NCT03840174|164671084|OTHER||GMT Ratio|77.7|||||TWO_SIDED|95.0|23.9|252.4|||||Geometric Mean Titer (GMT) ratio and 95% CI were estimated using an ANOVA model.|||252.4|23.9|
82488903|NCT02038881|164671131|OTHER||GMT Ratio (Group 1 / Group 2) at Week 4|0.851|||||TWO_SIDED|95.0|0.258|2.8||||||||2.800|0.258|
82488904|NCT02038881|164671131|OTHER||GMT Ratio (Group 1 / Group 2) at Week 6|0.653|||||TWO_SIDED|95.0|0.319|1.333||||||||1.333|0.319|
82488905|NCT02038881|164671131|OTHER||GMT Ratio (Group 1 / Group 2) at Week 30|1.126|||||TWO_SIDED|95.0|0.291|4.352||||||||4.352|0.291|
82488906|NCT02038881|164671131|OTHER||GMT Ratio (Group 1 / Group 2) at Week 56|0.916|||||TWO_SIDED|95.0|0.22|3.819||||||||3.819|0.220|
82488907|NCT02038881|164671131|OTHER||GMT Ratio (Group 3 / Group 1) at Week 4|1.045|||||TWO_SIDED|95.0|0.292|3.741||||||||3.741|0.292|
82488908|NCT02038881|164671131|OTHER||GMT Ratio (Group 3 / Group 1) at Week 6|1.315|||||TWO_SIDED|95.0|0.598|2.892||||||||2.892|0.598|
82488909|NCT02038881|164671132|OTHER||GMT Ratio (Group 1+3 [pooled] / Group 2)|0.762|||||TWO_SIDED|95.0|0.385|1.507||||||||1.507|0.385|
82488910|NCT02038881|164671133|OTHER||GMT Ratio (Group 1 [W6]/ Group 3 [W14)|0.347|||||TWO_SIDED|95.0|0.2|0.603||||||||0.603|0.200|
82488911|NCT02038881|164671133|OTHER||GMT ratio (Group 2 [W6]/ Group 3 [W14])|0.532|||||TWO_SIDED|95.0|0.285|0.992||||||||0.992|0.285|
82488912|NCT02038881|164671134|OTHER||GMT Ratio (Group 3 [W38]/ Group 1 [W30])|4.138|||||TWO_SIDED|95.0|1.241|13.793||||||||13.793|1.241|
82651942|NCT00696709|165019027|OTHER|The statistical criterion for significance requires that the lower bound of the 2-sided 95% confidence interval of the geometric mean fold rise in vaccine recipients is \>1.0.|||||<|0.0001|||||||Longitudinal data analysis (LDA)|LDA with log-transformed VZV responses at each visit as response variables and visit as covariate.||||||<0.0001
82488913|NCT02038881|164671134|OTHER||GMT Ratio (Group 3 [W64]/ Group 1 [W56])|4.608|||||TWO_SIDED|95.0|1.365|15.558||||||||15.558|1.365|
82488914|NCT02038881|164671134|OTHER||GMT Ratio (Group 2 [W30]/ Group 3 [W38])|0.215|||||TWO_SIDED|95.0|0.066|0.699||||||||0.699|0.066|
82488915|NCT02038881|164671134|OTHER||GMT Ratio (Group 2 [W56]/ Group 3 [W64])|0.237|||||TWO_SIDED|95.0|0.072|0.782||||||||0.782|0.072|
82488916|NCT02038881|164671135|OTHER||GMT Ratio (Group 1 / Group 2) at Week 4|0.823|||||TWO_SIDED|95.0|0.333|2.038||||||||2.038|0.333|
82488917|NCT02038881|164671135|OTHER||GMT Ratio (Group 1 / Group 2) at Week 6|0.787|||||TWO_SIDED|95.0|0.41|1.508||||||||1.508|0.410|
82488918|NCT02038881|164671135|OTHER||GMT Ratio (Group 1 / Group 2) at Week 30|0.535|||||TWO_SIDED|95.0|0.187|1.536||||||||1.536|0.187|
82488919|NCT02038881|164671135|OTHER||GMT Ratio (Group 1 / Group 2) at Week 56|0.59|||||TWO_SIDED|95.0|0.203|1.716||||||||1.716|0.203|
82488920|NCT02038881|164671135|OTHER||GMT Ratio (Group 3 / Group 1) at Week 4|2.557|||||TWO_SIDED|95.0|0.972|6.731||||||||6.731|0.972|
82488921|NCT02038881|164671135|OTHER||GMT Ratio (Group 3 / Group 1) at Week 6|1.215|||||TWO_SIDED|95.0|0.612|2.412||||||||2.412|0.612|
82488922|NCT02038881|164671136|OTHER||GMT Ratio (Group 1+3 [pooled] / Group 2)|0.878|||||TWO_SIDED|95.0|0.48|1.606||||||||1.606|0.480|
82488923|NCT02038881|164671137|OTHER||GMT ratio (Group 1 [W6]/ Group 3 [W14)|0.281|||||TWO_SIDED|95.0|0.146|0.542||||||||0.542|0.146|
82488924|NCT02038881|164671137|OTHER||GMT ratio (Group 2 [W6]/ Group 3 [W14])|0.357|||||TWO_SIDED|95.0|0.178|0.718||||||||0.718|0.178|
82488925|NCT02038881|164671138|OTHER||GMT Ratio (Group 3 [W38]/ Group 1 [W30])|6.727|||||TWO_SIDED|95.0|2.493|18.15||||||||18.150|2.493|
82488926|NCT02038881|164671138|OTHER||GMT Ratio (Group 3 [W64]/ Group 1 [W56])|7.275|||||TWO_SIDED|95.0|2.693|19.649||||||||19.649|2.693|
82488927|NCT02038881|164671138|OTHER||GMT Ratio (Group 2 [W30]/ Group 3 [W38])|0.278|||||TWO_SIDED|95.0|0.115|0.672||||||||0.672|0.115|
82488928|NCT02038881|164671138|OTHER||GMT Ratio (Group 2 [W56]/ Group 3 [W64])|0.233|||||TWO_SIDED|95.0|0.1|0.541||||||||0.541|0.100|
82488929|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 4|-7.6|||||TWO_SIDED|95.0|-34.1|17.9||||||||17.9|-34.1|
82488930|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 6|0.0|||||TWO_SIDED|95.0|-16.8|16.3||||||||16.3|-16.8|
82488931|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 30|5.1|||||TWO_SIDED|95.0|-24.5|32.6||||||||32.6|-24.5|
82488932|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 56|-1.5|||||TWO_SIDED|95.0|-31.5|29.2||||||||29.2|-31.5|
82488933|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 4|-5.8|||||TWO_SIDED|95.0|-32.8|22.2||||||||22.2|-32.8|
82488934|NCT02038881|164671139|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 6|-7.7|||||TWO_SIDED|95.0|-25.1|10.1||||||||10.1|-25.1|
82488935|NCT02038881|164671140|OTHER||Difference in seroconversion rates (%)|-4.3|||||TWO_SIDED|95.0|-15.2|11.6||||||||11.6|-15.2|
82488936|NCT02038881|164671141|OTHER||Diff in SC rate (Gr 1 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-17.1|13.4||||||||13.4|-17.1|
82488937|NCT02038881|164671141|OTHER||Diff in SC rate (Gr 2 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-16.2|13.4||||||||13.4|-16.2|
82488938|NCT02038881|164671142|OTHER||Diff in SC rate (Gr3 [W38] - Gr1 [W30])|5.6|||||TWO_SIDED|95.0|-19.6|33.0||||||||33.0|-19.6|
82488939|NCT02038881|164671142|OTHER||Diff in SC rate (Gr3 [W64] - Gr1 [W56])|16.7|||||TWO_SIDED|95.0|-11.0|44.4||||||||44.4|-11.0|
82488940|NCT02038881|164671142|OTHER||Diff in SC rate (Gr2 [W30] - Gr3 [W38])|-10.6|||||TWO_SIDED|95.0|-35.6|14.3||||||||14.3|-35.6|
82488941|NCT02038881|164671142|OTHER||Diff in SC rate (Gr2 [W56] - Gr3 [W64])|-15.2|||||TWO_SIDED|95.0|-40.5|10.5||||||||10.5|-40.5|
82488942|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 4|-9.6|||||TWO_SIDED|95.0|-38.4|20.3||||||||20.3|-38.4|
82488943|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 6|0.0|||||TWO_SIDED|95.0|-16.8|16.3||||||||16.3|-16.8|
82488944|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 30|-9.6|||||TWO_SIDED|95.0|-38.4|17.6||||||||17.6|-38.4|
82488945|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 1 - Gr 2) at Week 56|-6.1|||||TWO_SIDED|95.0|-35.6|23.7||||||||23.7|-35.6|
82488946|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 4|20.8|||||TWO_SIDED|95.0|-7.7|47.8||||||||47.8|-7.7|
82488947|NCT02038881|164671143|OTHER||Diff in SC rate (Gr 3 - Gr 1) at Week 6|-3.8|||||TWO_SIDED|95.0|-20.5|13.4||||||||13.4|-20.5|
82488948|NCT02038881|164671144|OTHER||Difference in seroconversion rates (%)|-2.2|||||TWO_SIDED|95.0|-12.0|13.2||||||||13.2|-12.0|
82488949|NCT02038881|164671145|OTHER||Diff in SC rate (Gr 1 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-17.1|13.4||||||||13.4|-17.1|
82488950|NCT02038881|164671145|OTHER||Diff in SC rate (Gr 2 [W6] - Gr 3 [W14])|0.0|||||TWO_SIDED|95.0|-16.2|13.4||||||||13.4|-16.2|
82488951|NCT02038881|164671146|OTHER||Diff in SC rate (Gr3 [W38] - Gr1 [W30])|19.4|||||TWO_SIDED|95.0|-4.5|45.8||||||||45.8|-4.5|
82651943|NCT00696709|165019028|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|5.7|||||Miettinen \& Nurminen|||5.7|-10.8|
82651944|NCT00696709|165019028|OTHER||Difference in Percentage|1.6|||||TWO_SIDED|95.0|-9.2|8.8|||||Miettinen \& Nurminen|||8.8|-9.2|
82488952|NCT02038881|164671146|OTHER||Diff in SC rate (Gr3 [W64] - Gr1 [W56])|29.2|||||TWO_SIDED|95.0|5.8|55.4||||||||55.4|5.8|
82488953|NCT02038881|164671146|OTHER||Diff in SC rate (Gr2 [W30] - Gr3 [W38])|-9.8|||||TWO_SIDED|95.0|-33.0|11.7||||||||11.7|-33.0|
82488954|NCT02038881|164671146|OTHER||Diff in SC rate (Gr2 [W56] - Gr3 [W64])|-23.1|||||TWO_SIDED|95.0|-46.7|-1.0||||||||-1.0|-46.7|
82488955|NCT01453725|164671157|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|31.2|||<|0.0001|TWO_SIDED|95.0|17.5|43.6||Stratification factors: Baseline evidence of sacroiliitis on magnetic resonance imaging (MRI) and Screening C-reactive protein (CRP) level|Stratified Miettinen and Nurminen Method|||||43.6|17.5|<0.0001
82488956|NCT01453725|164671158|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|33.8|||<|0.0001|TWO_SIDED|95.0|20.4|46.1||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||46.1|20.4|<0.0001
82488957|NCT01453725|164671159|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|28.0|||<|0.0001|TWO_SIDED|95.0|14.4|40.6||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||40.6|14.4|<0.0001
82488958|NCT01453725|164671160|SUPERIORITY_OR_OTHER||Difference in Percent vs Placebo|15.2||||0.0136|TWO_SIDED|95.0|3.2|27.1||Stratification factors: Baseline evidence of sacroiliitis on MRI and Screening CRP level|Stratified Miettinen and Nurminen Method|||||27.1|3.2|0.0136
82488959|NCT01453725|164671161|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Mann-Whitney Test|||||||<0.0001
82488960|NCT01436396|164671179|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 95% Confidence Interval (CI) was greater than -10. The difference in percentage of seroconversion rates between group 1 and 2 was based on the Wilson score (without continuity adjustment) 95% two-sided CI.|Difference in percentage|0.334|||||TWO_SIDED|95.0|-0.976|1.87||||||Non-inferiority of YF seroconversion rate was assessed 28 days post-Stamaril®/CYD dengue vaccine (CYD Dengue Vaccine Group) or post-Stamaril®/placebo (Placebo Group).||1.87|-0.976|
82560064|NCT01638000|164829739|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.69|STANDARD_ERROR_OF_MEAN|0.817||0.039|TWO_SIDED|95.0|-3.29|-0.08||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.08|-3.29|0.039
82488961|NCT01436396|164671180|NON_INFERIORITY|The non-inferiority was demonstrated if the lower limit of the 95% CI is greater than -10. The difference in percentage of seroconversion rates between group 1 and 2 was based on the Wilson score (without continuity adjustment) 95% two-sided CI.|Difference in percentage|-1.06|||||TWO_SIDED|95.0|-2.81|0.383||||||Non-inferiority of YF seroconversion rate was assessed 28 days post-Stamaril®/CYD dengue vaccine (CYD Dengue Vaccine Group) or post-Stamaril®/placebo (Placebo Group).||0.383|-2.81|
82488962|NCT02083081|164671213|SUPERIORITY|||||||0.38|||||||generalized estimating equations (GEE)|||||||0.38
82488963|NCT02083081|164671214|SUPERIORITY|||||||0.45|||||||generalized estimating equations (GEE)|||||||0.45
82488964|NCT02083081|164671215|SUPERIORITY|||||||0.96|||||||generalized estimating equations (GEE)|||||||0.96
82488965|NCT02927262|164671223|SUPERIORITY||Hazard Ratio (HR)|0.738||||0.163|TWO_SIDED|95.0|0.407|1.336|||Log Rank||HR \& 95% CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors:age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||1.336|0.407|0.163
82488966|NCT02927262|164671224|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.627||95.0|0.54|2.364|||Log Rank||HR \& 95%CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors: age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||2.364|0.540|0.627
82488967|NCT02927262|164671225|SUPERIORITY||Hazard Ratio (HR)|0.862||||0.296|TWO_SIDED|95.0|0.51|1.455|||Log Rank||HR \& 95%CI are based on CHM. Assuming proportional hazards, HR \< 1 indicates a reduction in hazard rate in favor of gilteritinib arm. Stratification factors: age, geographic region, presence of MRD at screening, use of FLT3 inhibiting agents per IRT.|||1.455|0.510|0.296
82488968|NCT02927262|164671226|SUPERIORITY|||||||0.97||||||2-sided P-value from analysis of covariance (ANCOVA) including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 3||||0.970
82488969|NCT02927262|164671226|SUPERIORITY|||||||0.415||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 6||||0.415
82488970|NCT02927262|164671226|SUPERIORITY|||||||0.271||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 12||||0.271
82488971|NCT02927262|164671226|SUPERIORITY|||||||0.179||||||2-sided P-value from ANCOVA including treatment, age group, geographic region and use of FLT3-inhibiting agents per IRT as fixed factors and baseline score as covariate.|ANCOVA|||Month 24/EoT||||0.179
82488972|NCT02130024|164671274|OTHER||Treatment Effect|0.08||||0.236|TWO_SIDED|95.0|-0.05|0.21|||Mixed Models Analysis|Fixed effects: Baseline GA area, treatment, visit, treatment by visit. Random effect: Subject||||0.21|-0.05|0.236
82488973|NCT02130024|164671275|OTHER||Treatment Effect|0.02||||0.769|TWO_SIDED|95.0|-0.11|0.15|||Mixed Models Analysis|Fixed effects: Baseline GA area, treatment, visit, treatment by visit. Random effect: Subject||||0.15|-0.11|0.769
82488974|NCT02130024|164671276|OTHER||Odds Ratio (OR)|0.84||||0.586|TWO_SIDED|95.0|0.44|1.59|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of 'Newly Developed GA (Yes)' at between the two treatment groups at study visit|Baseline to Month 12 Analysis||1.59|0.44|0.586
82488975|NCT02130024|164671276|OTHER||Odds Ratio (OR)|2.27||||0.11|TWO_SIDED|95.0|0.83|6.22|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of 'Newly Developed GA (Yes)' at between the two treatment groups at study visit|Month 12 to Month 24 Analysis||6.22|0.83|0.110
82488976|NCT02130024|164671276|OTHER||Odds Ratio (OR)|1.19||||0.554|TWO_SIDED|95.0|0.67|2.09|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment||Baseline to Month 24 Analysis||2.09|0.67|0.554
82488977|NCT02130024|164671277|OTHER||Treatment Effect|0.99||||0.733|TWO_SIDED|95.0|0.95|1.04|||Negative Binomial Regression Model|Log (number of injections) = treatment + log (year of follow-up) (offset)|Treatment effect: Injection frequency (rate) ratio of Ranibizumab vs. Aflibercept|Baseline to \<Month 12 Analysis||1.04|0.95|0.733
82488978|NCT02130024|164671277|OTHER||Treatment Effect|1.01||||0.745|TWO_SIDED|95.0|0.95|1.08|||Negative Binomial Regression Model|Log (number of injections) = treatment + log (year of follow-up) (offset)|Treatment effect: Injection frequency (rate) ratio of Ranibizumab vs. Aflibercept|Baseline to Month 24 Analysis||1.08|0.95|0.745
82560065|NCT01638000|164829739|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.8|STANDARD_ERROR_OF_MEAN|0.849||0.034|TWO_SIDED|95.0|-3.46|-0.13||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.13|-3.46|0.034
82560066|NCT01638000|164829739|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-2.1|STANDARD_ERROR_OF_MEAN|0.917||0.022|TWO_SIDED|95.0|-3.9|-0.3||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.30|-3.90|0.022
82560067|NCT01638000|164829739|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.87|STANDARD_ERROR_OF_MEAN|0.924||0.043|TWO_SIDED|95.0|-3.68|-0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.06|-3.68|0.043
82560068|NCT01638000|164829740|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.14|STANDARD_ERROR_OF_MEAN|0.77||0.14|TWO_SIDED|95.0|-0.37|2.65||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||2.65|-0.37|0.14
82560069|NCT01638000|164829740|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.55|STANDARD_ERROR_OF_MEAN|0.805||0.055|TWO_SIDED|95.0|-0.03|3.13||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.13|-0.03|0.055
82560070|NCT01638000|164829740|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.55|STANDARD_ERROR_OF_MEAN|0.866||0.074|TWO_SIDED|95.0|-0.15|3.25||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.25|-0.15|0.074
82560071|NCT01638000|164829740|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.41|STANDARD_ERROR_OF_MEAN|0.873||0.11|TWO_SIDED|95.0|-0.3|3.12||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariates.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||3.12|-0.30|0.11
82651945|NCT00696709|165019029|OTHER||Difference in Percentage|35.9|||<|0.001|TWO_SIDED|95.0|15.2|52.6|||Miettinen & Nurminen|||||52.6|15.2|<0.001
82651946|NCT00696709|165019029|OTHER||Difference in Percentage|40.4|||<|0.001|TWO_SIDED|95.0|19.6|57.0|||Miettinen & Nurminen|||||57.0|19.6|<0.001
82651947|NCT00696709|165019030|OTHER||Difference in Percentage|-4.7|||||TWO_SIDED|95.0|-25.3|16.1|||||Miettinen \& Nurminen|||16.1|-25.3|
82651948|NCT00696709|165019030|OTHER||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-16.9|24.9|||||Miettinen \& Nurminen|||24.9|-16.9|
82651949|NCT00696709|165019031|OTHER||Difference in Percentage|1.6||||0.48|TWO_SIDED|95.0|-9.3|8.4|||Miettinen & Nurminen|||||8.4|-9.3|0.480
82651950|NCT00696709|165019031|OTHER||Difference in Percentage|1.6||||0.469|TWO_SIDED|95.0|-9.2|8.8|||Miettinen & Nurminen|||||8.8|-9.2|0.469
82651951|NCT00696709|165019032|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|5.7|||||Miettinen \& Nurminen|||5.7|-10.8|
82651952|NCT00696709|165019032|OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-10.8|6.0|||||Miettinen \& Nurminen|||6.0|-10.8|
82488979|NCT02130024|164671278|OTHER||Treatment Effect|2.32||||0.079|TWO_SIDED|95.0|-0.27|4.92|||Mixed Models Analysis|Fixed effects: Baseline BCVA, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in BCVA|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 12 Analysis||4.92|-0.27|0.079
82488980|NCT02130024|164671278|OTHER||Treatment Effect|1.95||||0.151|TWO_SIDED|95.0|-0.71|4.61|||Mixed Models Analysis|Fixed effects: Baseline BCVA, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in BCVA|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 24 Analysis||4.61|-0.71|0.151
82488981|NCT02130024|164671279|OTHER||Treatment Effect|10.12||||0.294|TWO_SIDED|95.0|-8.82|29.06|||Mixed Models Analysis|Fixed effects: Baseline CSFT, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in CSFT|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 12 Analysis||29.06|-8.82|0.294
82488982|NCT02130024|164671279|OTHER||Treatment Effect|11.86||||0.225|TWO_SIDED|95.0|-7.35|31.07|||Mixed Models Analysis|Fixed effects: Baseline CSFT, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from baseline in CSFT|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Month 24 Analysis||31.07|-7.35|0.225
82488983|NCT02130024|164671280|OTHER||Odds Ratio (OR)|0.83||||0.461|TWO_SIDED|95.0|0.51|1.35|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 2 Analysis||1.35|0.51|0.461
82488984|NCT02130024|164671280|OTHER||Odds Ratio (OR)|0.72||||0.215|TWO_SIDED|95.0|0.44|1.21|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 12 Analysis||1.21|0.44|0.215
82488985|NCT02130024|164671280|OTHER||Odds Ratio (OR)|0.87||||0.616|TWO_SIDED|95.0|0.51|1.48|||Regression, Logistic|Includes treatment as factor. Model: log(p/1-p) =Treatment|Odds ratio of no IRF/SRF present between the two treatment groups at study visit|Month 24 Analysis||1.48|0.51|0.616
82488986|NCT02130024|164671281|OTHER||Odds Ratio (OR)|1.05||||0.891|TWO_SIDED|95.0|0.53|2.08|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥15 letters between the two treatment groups at study visit|Baseline to Month 12 Analysis||2.08|0.53|0.891
82560072|NCT01638000|164829741|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.05||0.07|TWO_SIDED|95.0|-0.19|0.01||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 4 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.01|-0.19|0.070
82560073|NCT01638000|164829741|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.054||0.003|TWO_SIDED|95.0|-0.27|-0.06||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 8 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.06|-0.27|0.003
82560074|NCT01638000|164829741|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.015|TWO_SIDED|95.0|-0.26|-0.03||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron.Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.03|-0.26|0.015
82584102|NCT04217590|164880110|SUPERIORITY||Odds Ratio (OR)|5.82|||<|0.001|TWO_SIDED|95.0|3.15|10.73|||Generalised linear mixed model (GLMM)|The p-value was obtained from a test of equality of odds ratios.|The OR was obtained from GLMM model with random intercept and logit link. Treatment, visit, visit by treatment interaction and baseline were specified as fixed effects. An OR \> 1 favours SZC.|||10.73|3.15|<0.001
82584103|NCT01413087|164880111|SUPERIORITY|||||||0.483|||||||Log Rank|P value by log-rank test for the difference between treatment groups||||||0.483
82584104|NCT01413087|164880112|SUPERIORITY|||||||0.992|||||||Log Rank|P value by log-rank test for the difference between treatment groups||||||0.992
82584105|NCT05026710|164880124|SUPERIORITY|||||||0.26|||||||Regression, Linear|||||||0.26
82584106|NCT05026710|164880125|SUPERIORITY|||||||0.57|||||||Regression, Linear|||||||0.57
82488987|NCT02130024|164671281|OTHER||Odds Ratio (OR)|1.61||||0.206|TWO_SIDED|95.0|0.77|3.35|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥15 letters between the two treatment groups at study visit|Baseline to Month 24 Analysis||3.35|0.77|0.206
82488988|NCT02130024|164671282|OTHER||Odds Ratio (OR)|1.63||||0.46|TWO_SIDED|95.0|0.45|5.93|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥ -15 letters between the two treatment groups at study visit|Baseline to Month 12 Analysis||5.93|0.45|0.460
82488989|NCT02130024|164671282|OTHER||Odds Ratio (OR)|0.94||||0.913|TWO_SIDED|95.0|0.3|2.9|||Regression, Logistic|Includes treatment as factor and baseline BCVA as covariate. Model: log(p/1-p) =Treatment|Odds ratio of BCVA change from baseline ≥ -15 letters between the two treatment groups at study visit|Baseline to Month 24 Analysis||2.90|0.30|0.913
82488990|NCT02130024|164671284|OTHER||Treatment Effect|27.2|||<|0.001|TWO_SIDED|95.0|21.44|32.95|||Mixed Models Analysis|Fixed: BL Plasma VEGF, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from BL in Plasma VEGF|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Week 5 Analysis||32.95|21.44|<0.001
82488991|NCT02130024|164671284|OTHER||Treatment Effect|28.88|||<|0.001|TWO_SIDED|95.0|23.08|34.68|||Mixed Models Analysis|Fixed: BL Plasma VEGF, treatment, visit, and treatment by visit. Random effect: Subject. Response variable: Change from BL in Plasma VEGF|Treatment Effect: Ranibizumab minus Aflibercept|Baseline to Week 9 Analysis||34.68|23.08|<0.001
82488992|NCT04916769|164671327|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of ajusted geometric means|106.27|||||TWO_SIDED|90.0|97.76|115.53||||||Natural logarithm-transformed bosutinib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% confidence intervals (CIs) were obtained from the model.||115.53|97.76|
82584107|NCT05026710|164880126|SUPERIORITY|||||||0.58|||||||Regression, Linear|||||||0.58
82584108|NCT05026710|164880127|SUPERIORITY|||||||0.72|||||||Regression, Linear|||||||0.72
82584109|NCT05026710|164880128|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.50
82560075|NCT01638000|164829741|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.059||0.021|TWO_SIDED|95.0|-0.25|-0.02||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||-0.02|-0.25|0.021
82560076|NCT01638000|164829742|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.43|STANDARD_ERROR_OF_MEAN|0.141||0.002|TWO_SIDED|95.0|0.15|0.7||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.70|0.15|0.002
82560077|NCT01638000|164829742|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.141||0.003|TWO_SIDED|95.0|0.14|0.7||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.70|0.14|0.003
82560078|NCT01638000|164829743|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean diffrence|0.16|STANDARD_ERROR_OF_MEAN|0.07||0.027|TWO_SIDED|95.0|0.02|0.29||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Week 12 Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.29|0.02|0.027
82560079|NCT01638000|164829743|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.071||0.034|TWO_SIDED|95.0|0.01|0.29||If p\<0.05, this indicates superiority in favor of the treatment group with the largest improvement at specified visit.|ANCOVA|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region as fixed factors and baseline as covariate.||Final Visit Difference vs. Mirabegron. Difference of the adjusted mean is calculated by subtracting the adjusted mean of mirabegron from the adjusted mean of solifenacin.||0.29|0.01|0.034
82560080|NCT01638000|164829744|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.4||||0.01|TWO_SIDED|95.0|1.08|1.81||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.81|1.08|0.010
82560081|NCT01638000|164829744|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.011|TWO_SIDED|95.0|1.07|1.75||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.75|1.07|0.011
82560082|NCT01638000|164829745|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.28||||0.037|TWO_SIDED|95.0|1.02|1.62||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.62|1.02|0.037
82560083|NCT01638000|164829745|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.26||||0.045|TWO_SIDED|95.0|1.01|1.57||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.57|1.01|0.045
82560084|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.51||||0.009|TWO_SIDED|95.0|1.11|2.06||Iif p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥1 point improvement) Odds Rato vs. Mirabegron||2.06|1.11|0.009
82560085|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.065|TWO_SIDED|95.0|0.99|1.65||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65,≥ 65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥2 point improvement) Odds Rato vs. Mirabegron||1.65|0.99|0.065
82560086|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.051|TWO_SIDED|95.0|1.0|1.55||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥3 point improvement) Odds Rato vs. Mirabegron||1.55|1.00|0.051
82560087|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.14|TWO_SIDED|95.0|0.95|1.47||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥4 point improvement) Odds Rato vs. Mirabegron||1.47|0.95|0.14
82560088|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.89|TWO_SIDED|95.0|0.75|1.4||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 (≥5 point improvement) Odds Rato vs. Mirabegron||1.40|0.75|0.89
82488993|NCT04916769|164671327|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|101.93|||||TWO_SIDED|90.0|93.97|110.56||||||Natural logarithm-transformed bosutinib AUCinf was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||110.56|93.97|
82488994|NCT04916769|164671328|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|96.82|||||TWO_SIDED|90.0|86.37|108.53||||||Natural logarithm-transformed bosutinib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||108.53|86.37|
82488995|NCT04916769|164671328|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|95.39|||||TWO_SIDED|90.0|85.34|106.61||||||Natural logarithm-transformed bosutinib Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||106.61|85.34|
82488996|NCT04916769|164671329|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|106.23|||||TWO_SIDED|90.0|97.54|115.68||||||Natural logarithm-transformed bosutinib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + applesauce 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||115.68|97.54|
82488997|NCT04916769|164671329|EQUIVALENCE|The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. The ratio of adjusted geometric means and 90% confidence interval were expressed as percentages.|ratio of adjusted geometric means|102.08|||||TWO_SIDED|90.0|93.95|110.91||||||Natural logarithm-transformed bosutinib AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. Estimates of the adjusted mean differences (Bosutinib 500 mg capsule contents + yogurt 45 mL \[Test\] - Bosutinib 500 mg intact capsule \[Reference\]) and corresponding 90% CIs were obtained from the model.||110.91|93.95|
82488998|NCT05736224|164671336|SUPERIORITY|||||||0.003||||||No sunscreen compared to test sunscreen|t-test, 2 sided|||||||0.003
82488999|NCT02719327|164671346|SUPERIORITY||Slope|-2.18||||0.17|TWO_SIDED|95.0|-5.36|0.99||ASL values at 18 months were regressed on treatment group (IPE vs placebo) statistically controlling for age at baseline visit and ASL measured at baseline visit.|Regression, Linear|||The proposed study aims to investigate the effects of 18 months of IPE vs. placebo on regional cerebral blood flow in the bilateral posterior cingulate gyrus as measured by arterial spin-labeling MRI . IPE was hypothesized to improve regional cerebral blood flow over placebo after 18 months.||0.99|-5.36|0.17
82560089|NCT01638000|164829746|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.66|TWO_SIDED|95.0|0.64|2.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.|Participants from Canada were therefore excluded from this analysis due to low participant numbers.|Week 12 (6 point improvement) Odds Rato vs. Mirabegron||2.04|0.64|0.66
82560090|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.016|TWO_SIDED|95.0|1.07|1.93||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥1 point improvement) Odds Rato vs. Mirabegron||1.93|1.07|0.016
82560091|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.27||||0.063|TWO_SIDED|95.0|0.99|1.62||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥2 point improvement) Odds Rato vs. Mirabegron||1.62|0.99|0.063
82560092|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.054|TWO_SIDED|95.0|1.0|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥3 point improvement) Odds Rato vs. Mirabegron||1.53|1.00|0.054
82584110|NCT05026710|164880129|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Linear mixed effects; covariates: days since URS, study arm, days\*arm, baseline LURN, stone location; random intercept with unstructured covariance||||||0.80
82584111|NCT05026710|164880130|SUPERIORITY|||||||0.25|||||||WinRatio, unmatched unstratified|WinRatio using unmatched method.||||||0.25
82489000|NCT02719327|164671347|SUPERIORITY||Slope|0.11||||0.12|TWO_SIDED|95.0|-0.04|0.25|||Regression, Linear|18 month Beta-amyloid(1-42) was regressed on group (IPE vs placebo) and covariates age at baseline visit and Beta-amyloid(1-42) at baseline visit.|Placebo group is the reference group.|Beta-amyloid(1-42) concentration in CSF was log-transformed prior to analysis to approximate a normal distribution.||0.25|-0.04|.12
82651953|NCT00543439|165019052|SUPERIORITY||Ratio of arithmetic means|0.03||||0.002|ONE_SIDED|95.0||0.08|||Paired t-test|||Ratio of the arithmetic means of the ABR for OD cohort: OD therapy to OD cohort: RP therapy 25 IU/kg was calculated. One-sided 95% CI for this ratio was reported.||0.08||0.0020
82651954|NCT00543439|165019053|EQUIVALENCE|90% 2-sided CI for the mean difference in ABRs for the 2 prophylaxis regimens for ITT participants was constructed using the t distribution with n-1 degrees of freedom (n equals the number of participants) to assess the equivalence of the 2 regimens. Equivalence was demonstrated and the null hypothesis rejected if the limits of the 90% CI fell wholly within the interval of (-4, 4) bleeds per year.|Mean Difference (Final Values)|1.1|||||TWO_SIDED|90.0|0.03|2.22||||||||2.22|0.03|
82560093|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.46||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥4 point improvement) Odds Rato vs. Mirabegron||1.46|0.95|0.15
82560094|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.75|TWO_SIDED|95.0|0.77|1.44||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit (≥5 point improvement) Odds Rato vs. Mirabegron||1.44|0.77|0.75
82560095|NCT01638000|164829747|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.66|TWO_SIDED|95.0|0.64|2.04||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.|Participants from Canada were therefore excluded from this analysis due to low participant numbers.|Final visit (6 point improvement) Odds Rato vs. Mirabegron||2.04|0.64|0.66
82560096|NCT01638000|164829748|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.082|TWO_SIDED|95.0|0.97|1.57||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.57|0.97|0.082
82560097|NCT01638000|164829748|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.18||||0.15|TWO_SIDED|95.0|0.94|1.49||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.49|0.94|0.15
82560098|NCT01638000|164829749|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.058|TWO_SIDED|95.0|0.99|1.53||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visit.|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Week 12 Odds Ratio vs. Mirabegron||1.53|0.99|0.058
82560099|NCT01638000|164829749|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.069|TWO_SIDED|95.0|0.99|1.5||If p\<0.05, this indicates superiority in favor of the treatment group with the largest percentage of responders at specified visitI|Regression, Logistic|Treatment group, gender, age group (\<65, ≥65), number of prior antimuscarinics (1, ≥2), geographic region and baseline value as factors.||Final visit Odds Ratio vs. Mirabegron||1.50|0.99|0.069
82560100|NCT03787628|164829752|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.703||||0.41|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of cue-induced craving.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on the measure of cue-induced craving (degrees of freedom = 1, 67).|||||0.41
82560101|NCT03787628|164829753|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.0||||0.99|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of spontaneous craving.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on spontaneous craving (degrees of freedom = 1, 550).|||||0.99
82560102|NCT03787628|164829754|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.04||||0.84|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of state anxiety.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on state anxiety (degrees of freedom = 1, 550)|||||0.84
82560103|NCT03787628|164829755|OTHER|Generalized linear mixed model (GLMM) testing the main effect of group and time, and the group X time interaction.|F-test|0.27||||0.6|TWO_SIDED|||||P-value reflects the test of the interaction between group and time on the measure of negative affect.|Mixed Models Analysis||Estimated value reflects the f test of the interaction between group and time on negative affect (degrees of freedom = 1, 550).|||||0.60
82560104|NCT02485925|164829777|OTHER||Proportion of participants|80.7|||||TWO_SIDED|95.0|73.9|86.4|||||||95% confidence interval is based on Clopper-Pearson confidence interval|86.4|73.9|
82560105|NCT02485925|164829778|OTHER||Proportion of participants|99.5|||||TWO_SIDED|95.0|97.2|100.0|||||||95% confidence interval is based on Clopper-Pearson confidence interval|100.0|97.2|
82560106|NCT06922643|164829782|OTHER||Odds Ratio (OR)|6.73||||0.008|TWO_SIDED|95.0|1.63|27.8|||Regression, Logistic|||||27.8|1.63|0.008
82560107|NCT04924608|164829787|SUPERIORITY|||||||0.0112|||||||Fisher Exact|The ORR will be compared at the end of Cycle 16 between selumetinib vs placebo with the 2-sided significance level 0.047.||||||0.0112
82560108|NCT04924608|164829788|SUPERIORITY||LS mean difference|-0.8|STANDARD_ERROR_OF_MEAN|0.41||0.07|TWO_SIDED|95.0|-1.6|0.1|||Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||||0.1|-1.6|0.070
82584112|NCT05026710|164880131|SUPERIORITY|||||||0.44|||||||Chi-squared|||||||0.44
82584113|NCT05026710|164880132|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||0.85
82651955|NCT01709383|165019076|SUPERIORITY_OR_OTHER|||||||0.57|||||||Mixed Models Analysis|||||||.57
82651956|NCT01709383|165019078|SUPERIORITY_OR_OTHER|||||||0.64|||||||Mixed Models Analysis|||||||.64
82560109|NCT04924608|164829789|SUPERIORITY||LS mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.024|TWO_SIDED|95.0|-1.3|-0.1||nominal|Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||supplementary analysis is not controlled for multiplicity.||-0.1|-1.3|0.024
82560110|NCT04924608|164829790|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.59||0.918|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|Analysis is based on a MMRM model for repeated measures, Kenward-Roger method is used to estimate the degrees of freedom.||||1.1|-1.2|0.918
82560111|NCT03928743|164829804|SUPERIORITY||Odds Ratio (OR)|2.88|||<|0.001|TWO_SIDED|95.0|1.71|4.87|||Regression, Logistic|||||4.87|1.71|<0.001
82560112|NCT03928743|164829805|SUPERIORITY||Odds Ratio (OR)|2.8|||<|0.001|TWO_SIDED|95.0|1.59|4.93|||Regression, Logistic|||||4.93|1.59|<0.001
82560113|NCT03928743|164829806|SUPERIORITY||Odds Ratio (OR)|2.66|||<|0.001|TWO_SIDED|95.0|1.65|4.28|||Regression, Logistic|||||4.28|1.65|<0.001
82560114|NCT03928743|164829807|SUPERIORITY||LS Mean difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.48|-0.59|||Regression, Logistic|||||-0.59|-1.48|<0.001
82560115|NCT03928743|164829808|SUPERIORITY||Odds Ratio (OR)|4.26|||<|0.001|TWO_SIDED|95.0|1.93|9.39|||Regression, Logistic|||||9.39|1.93|<0.001
82560116|NCT03928743|164829809|SUPERIORITY||Odds Ratio (OR)|6.47|||<|0.001|TWO_SIDED|95.0|2.67|15.65|||Regression, Logistic|||||15.65|2.67|<0.001
82560117|NCT03928743|164829810|SUPERIORITY||Odds Ratio (OR)|4.65|||<|0.001|TWO_SIDED|4.65|2.51|7.57|||Regression, Logistic|||||7.57|2.51|<0.001
82560118|NCT03928743|164829811|SUPERIORITY||LS Mean difference|-1.05|||<|0.001|TWO_SIDED|95.0|-1.48|-0.63|||Regression, Logistic|||||-0.63|-1.48|<0.001
82560119|NCT03928743|164829812|SUPERIORITY||LS Mean difference|-1.48|||<|0.001|TWO_SIDED|95.0|-2.0|-0.96|||Regression, Logistic|||||-0.96|-2.00|<0.001
82560120|NCT03928743|164829813|SUPERIORITY||LS Mean difference|-1.52|||<|0.001|TWO_SIDED|95.0|-2.36|-0.68|||Regression, Logistic|||||-0.68|-2.36|<0.001
82560121|NCT03928743|164829814|SUPERIORITY||LS Mean difference|3.38|||<|0.001|TWO_SIDED|95.0|1.67|5.09|||Regression, Logistic|||||5.09|1.67|<0.001
82560122|NCT03928743|164829815|SUPERIORITY||LS Mean difference|-0.28||||0.006|TWO_SIDED|95.0|-0.47|-0.08|||Regression, Logistic|||||-0.08|-0.47|0.006
82560123|NCT03928743|164829816|SUPERIORITY||LS Mean difference|-1.08||||0.003|TWO_SIDED|95.0|-1.79|-0.38|||Regression, Logistic|||||-0.38|-1.79|0.003
82560124|NCT03928743|164829817|SUPERIORITY||Odds Ratio (OR)|2.47||||0.006|TWO_SIDED|95.0|1.3|4.68|||Regression, Logistic|||||4.68|1.30|0.006
82560125|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PRP ≥ 1.0 μg/mL||||<0.001
82560126|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-HBsAg ≥10 mIU/mL||||<0.001
82560127|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-Diphtheria ≥0.1 IU/mL||||<0.001
82560128|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-Tetanus ≥0.1 IU/mL||||<0.001
82560129|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PT seroresponse||||<0.001
82560130|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-FHA seroresponse||||<0.001
82560131|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-FIM seroresponse||||<0.001
82560132|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-PRN seroresponse||||<0.001
82560133|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV1 ≥1:8 dilution||||<0.001
82560134|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV2 ≥1:8 dilution||||<0.001
82560135|NCT01480258|164829859|OTHER|The immune response to PR5I vaccine was considered as acceptable if the lower bounds of the 2-sided 95% CI for the response rates were greater than 75%.|||||<|0.001||||||One-sided p-value|Clopper and Pearson|||Anti-IPV3 ≥1:8 dilution||||<0.001
82560136|NCT01480258|164829860|NON_INFERIORITY|If the lower bound of the 95% confidence interval (CI) was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|41.05|51.06||Stratification by country.|Miettinen & Nurminen|||||51.06|41.05|<0.001
82560137|NCT01480258|164829861|SUPERIORITY|If the lower bound of the 95% CI was greater than 0, it was concluded that PR5I group response rate was superior to INFANRIX hexa group response rate.|Difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|41.05|51.06|||Miettinen & Nurminen|Stratification by country.||||51.06|41.05|<0.001
82584114|NCT03218397|164880153|SUPERIORITY||Difference in means|5.6||||0.013|TWO_SIDED|95.0|1.2|10.0||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic modification (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||10|1.2|0.013
82584115|NCT03218397|164880154|SUPERIORITY|||||||0.265||||||alpha = 0.05|Fisher Exact|||||||0.265
82560138|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in PRP response rate (based on Ab titre ≥1.0 μg/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.27|||<|0.001|TWO_SIDED|95.0|-5.13|2.52|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-inferiority for PRP||2.52|-5.13|<0.001
82560139|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in HBsAg response rate (based on Ab titre ≥10 mIU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|ifference in percentages|-0.59|||<|0.001|TWO_SIDED|95.0|-2.66|1.35|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for HBsAg||1.35|-2.66|<0.001
82560140|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in Diphtheria response rate (based on Ab titre ≥0.1 IU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.21|||<|0.001|TWO_SIDED|95.0|-2.54|-0.22|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for Diptheria||-0.22|-2.54|<0.001
82560141|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in Tetanus response rate (based on Ab titre ≥0.1 IU/mL) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.17|||<|0.001|TWO_SIDED|95.0|-0.95|0.5|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for Tetanus||0.50|-0.95|<0.001
82560142|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for PT was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.54|||<|0.001|TWO_SIDED|95.0|-1.75|0.49|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for PT||0.49|-1.75|<0.001
82560143|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for FHA was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.73|||<|0.001|TWO_SIDED|95.0|-3.47|-0.26|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for FHA||-0.26|-3.47|<0.001
82560144|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in the percentage of seroresponder participants for PRN was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-1.42|||<|0.001|TWO_SIDED|95.0|-3.42|0.39|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for PRN||0.39|-3.42|<0.001
82560145|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV1 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.51|||<|0.001|TWO_SIDED|95.0|-1.59|0.34|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV1||0.34|-1.59|<0.001
82560146|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV2 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.17|||<|0.001|TWO_SIDED|95.0|-0.96|0.49|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV2||0.49|-0.96|<0.001
82560147|NCT01480258|164829862|NON_INFERIORITY|The estimate of the difference between PR5I \& INFANRIX hexa groups in IPV3 response rate (based on Ab titre ≥8 (1/dil)) was calculated with its 1-sided P-value \& 2-sided 95% CI. If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.16|||<|0.001|TWO_SIDED|95.0|-1.2|0.82|||Miettinen & Nurminen with stratification|Statistical analysis was based on the Miettinen \& Nurminen method stratified by country.||Non-Inferiority for IPV3||0.82|-1.20|<0.001
82560148|NCT01480258|164829863|NON_INFERIORITY|The estimate for anti-rotavirus IgA GMT ratio (PR5I group/INFANRIX hexa group) was calculated with its 1-sided P-value and 2-sided 95% CI. If the lower bound of the 95% CI for GMT ratio was greater than 0.50 (non-inferiority margin), it was concluded that the Rotarix antigen response in the PR5I group was not inferior to the Rotarix antigen response in the INFANRIX hexa group.|Geometric Mean Titre (GMT) ratio|0.8||||0.011|TWO_SIDED|95.0|0.54|1.2|||ANCOVA|||||1.20|0.54|0.011
82584116|NCT03218397|164880155|SUPERIORITY|||||||0.093||||||alpha = 0.05|t-test, 2 sided|T-test for the difference in mean length of stay (days) between treatment arms among subjects alive at 30 days.||||||0.093
82651957|NCT01484028|165019094|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.05 LogMAR was used.|Least-square mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.0034|||TWO_SIDED|95.0|0.004|0.017|||Mixed Models Analysis|||The alternative hypothesis is the monocular distance Snellen VA (LogMAR scale) of etafilcon A with embedded print and PVP for dark/light eyes is non-inferior to that of etafilcon A control lenses.||0.017|0.004|
82651958|NCT01533428|165019109|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.6||||0.025|TWO_SIDED|95.0|-12.3|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level||-0.8|-12.3|0.025
82560149|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.7|1.4||||||ISR or systemic AE||1.4|-0.7|
82560150|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8||||||95.0|-0.3|2.0||||||ISR or V-related systemic AE||2.0|-0.3|
82560151|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-0.7|6.0||||||At least 1 ISR||6.0|-0.7|
82560152|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|2.5|||||TWO_SIDED|95.0|-0.9|5.9||||||At least 1 solicited ISR||5.9|-0.9|
82560153|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-1.1|1.4||||||At least 1 systemic AE||1.4|-1.1|
82560154|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-0.5|2.2||||||At least 1 vaccine-related systemic AE||2.2|-0.5|
82560155|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-0.5|2.2||||||At least 1 solicited systemic AE||2.2|-0.5|
82560156|NCT01480258|164829864|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.9||||||95.0|-0.4|2.3||||||At least 1 vaccine-related solicited systemic AE||2.3|-0.4|
82560157|NCT01480258|164829865|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|8.2|||||TWO_SIDED|95.0|3.0|13.3||||||Injection-site erythema||13.3|3.0|
82560158|NCT01480258|164829865|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|3.4|||||TWO_SIDED|95.0|-1.5|8.3||||||Injection-site pain||8.3|-1.5|
82560159|NCT01480258|164829865|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|7.5||||||95.0|2.1|12.9||||||Injection-site swelling||12.9|2.1|
82560160|NCT01480258|164829866|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-2.5|0.3||||||Injection-site bruising||0.3|-2.5|
82560161|NCT01480258|164829866|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.5|1.6||||||Injection-site haemorrhage||1.6|-1.5|
82560162|NCT01480258|164829866|OTHER||Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-1.2|6.4||||||Injection-site induration||6.4|-1.2|
82584117|NCT03218397|164880156|SUPERIORITY|||||||0.014||||||alpha = 0.05|Fisher Exact|||||||0.014
82584118|NCT03218397|164880157|SUPERIORITY||Difference in means|7.5||||0.009|TWO_SIDED|95.0|1.9|13.1||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||13.1|1.9|0.009
82584119|NCT03218397|164880158|SUPERIORITY||Difference in means|6.5||||0.022|TWO_SIDED|95.0|0.9|12.0||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-negative antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||12.0|0.9|0.022
82584120|NCT03218397|164880159|SUPERIORITY||Difference in means|0.7||||0.46|TWO_SIDED|95.0|-1.2|2.7||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-positive antibiotic escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||2.7|-1.2|0.46
82584121|NCT03218397|164880160|SUPERIORITY||Difference in means|4.6||||0.074|TWO_SIDED|95.0|-0.4|9.6||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||9.6|-0.4|0.074
82584122|NCT03218397|164880161|SUPERIORITY||Difference in means|6.5||||0.008|TWO_SIDED|95.0|1.7|11.2||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-negative antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||11.2|1.7|0.008
82584123|NCT03218397|164880162|SUPERIORITY||Difference in means|-1.9||||0.37|TWO_SIDED|95.0|-5.9|2.2||alpha = 0.05|t-test, 2 sided||Difference in mean hours to first gram-positive antibiotic de-escalation (Standard Blood Culture and AST minus Rapid Organism Identification and AST)|||2.2|-5.9|0.37
82584124|NCT02495792|164880195|OTHER||Risk Ratio (RR)|5.98|||||TWO_SIDED|95.0|1.6|21.7||||||||21.7|1.6|
82584125|NCT06729606|164880218|SUPERIORITY||Odds Ratio (OR)|1.11||||0.54|TWO_SIDED|95.0|0.8|1.55||Proportional odds model stratified by disease severity (high flow nasal canula \[HFNC\]/non-invasive ventilation \[NIV\] or invasive mechanical ventiliation \[IMV\]/ECMO) at study entry to determine the odds of being in a better category at day 90.|Proportional odds model||Summary odds ratio for being in a better category, active/placebo (95% confidence interval); pvalue|||1.55|0.80|0.54
82651959|NCT01533428|165019110|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.1||||0.018|TWO_SIDED|95.0|-12.9|-1.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-1.2|-12.9|0.018
82651960|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1||||0.208|TWO_SIDED|95.0|-10.4|2.3|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 2.||2.3|-10.4|0.208
82651961|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.7||||0.036|TWO_SIDED|95.0|-13.1|-0.4|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 3.||-0.4|-13.1|0.036
82560163|NCT01480258|164829866|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-0.8|1.5||||||Injection-site nodule||1.5|-0.8|
82560164|NCT01480258|164829866|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|1.1||||||95.0|-0.4|2.7||||||Injection-site warmth||2.7|-0.4|
82560165|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate whether an overall trend of risk differences existed. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-1.3|5.7||||||Crying||5.7|-1.3|
82560166|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|3.6|||||TWO_SIDED|95.0|-1.6|8.8||||||Decreased appetite||8.8|-1.6|
82560167|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-1.0|5.4||||||Irritability||5.4|-1.0|
82560168|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|6.4|||||TWO_SIDED|95.0|1.5|11.3||||||Pyrexia||11.3|1.5|
82560169|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. The aim of the 95% CI was to investigate an overall trend and not any specific difference. If 0.0 was excluded from the 95% CI, the trend could not be ruled out.|Risk Difference (RD)|5.8|||||TWO_SIDED|95.0|1.7|9.8||||||Somnolence||9.8|1.7|
82584126|NCT06729606|164880219|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.78|TWO_SIDED|95.0|0.77|1.41|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.41|0.77|0.78
82584127|NCT06729606|164880220|SUPERIORITY||Odds Ratio (OR)|1.4||||0.1|TWO_SIDED|95.0|0.94|2.08|||Regression, Logistic||Odds ratio for active/placebo (95% confidence interval); pvalue|||2.08|0.94|0.10
82584128|NCT06729606|164880221|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.15|TWO_SIDED|95.0|0.95|1.44|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.44|0.95|0.15
82584129|NCT06729606|164880222|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.71|TWO_SIDED|95.0|0.79|1.42|||Cox proportional hazards model||Hazard ratio for active/placebo (95% confidence interval); pvalue|||1.42|0.79|0.71
82584130|NCT03570892|164880223|SUPERIORITY||Unadjusted stratified cox model hazard r|1.07|||=|0.694|TWO_SIDED|95.0|0.82|1.4|||Stratified log-rank test one-sided|||||1.40|0.82|= 0.694
82584131|NCT02563522|164880256|OTHER||Mean Difference (Final Values)|18.7||||0.3455|TWO_SIDED|95.0|-12.37|45.81|||Fisher Exact|No imputation was performed for subjects with missing response data||The statistical hypotheses were H0: Pt = Pc versus Ha: Pt ≠ Pc, where Pt and Pc are the proportions of subjects with a confirmed target would closure by the 4-month follow-up for Active (Engensis) and Control (Placebo) groups, respectively. The hypothesis testing was a two-sided alpha of 0.05||45.81|-12.37|0.3455
82584132|NCT03486457|164880269|SUPERIORITY||Difference in percentage of participants|32.35|STANDARD_ERROR_OF_MEAN|5.05|<|0.0001|TWO_SIDED|95.0|22.45|42.25|||Normal approximation|||The normal approximation to the difference in binomial proportions was used to test the difference between tofacitinib 5 mg BID and placebo and to generate 95% CI and p-value for the difference in response rates.||42.25|22.45|<0.0001
82584133|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|15.44|STANDARD_ERROR_OF_MEAN|4.79||0.0013|TWO_SIDED|95.0|6.05|24.83|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.83|6.05|0.0013
82584134|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|30.15|STANDARD_ERROR_OF_MEAN|5.41|<|0.0001|TWO_SIDED|95.0|19.53|40.76|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.76|19.53|<0.0001
82651962|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2||||0.027|TWO_SIDED|95.0|-13.5|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 4.||-0.8|-13.5|0.027
82560170|NCT01480258|164829867|OTHER|The risk differences between groups (PR5I group - INFANRIX hexa group) and their 2-sided 95% CI were calculated for the above criteria based on the unstratified Miettinen \& Nurminen method. If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-3.2|6.9||||||Vomiting||6.9|-3.2|
82560171|NCT00659373|164829873|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.71
82560172|NCT01543204|164829891|SUPERIORITY_OR_OTHER||Difference|10.0||||0.4505|TWO_SIDED|95.0|-15.97|35.97|||Wald asymptotic test|||||35.97|-15.97|0.4505
82560173|NCT02037568|164829938|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||.96
82560174|NCT02037568|164829939|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82560175|NCT02037568|164829940|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82560176|NCT02037568|164829941|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82560177|NCT02037568|164829942|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||||||0.070
82560178|NCT02037568|164829943|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||||||0.96
82651963|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.3||||0.024|TWO_SIDED|95.0|-13.6|-1.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 5.||-1.0|-13.6|0.024
82651964|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3||||0.051|TWO_SIDED|95.0|-12.6|0.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 6.||0.0|-12.6|0.051
82560179|NCT02037568|164829944|SUPERIORITY|||||||0.74|||||||Mixed Models Analysis|||||||0.74
82560180|NCT02037568|164829945|SUPERIORITY|||||||0.79|||||||Mixed Models Analysis|||||||0.79
82584135|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|51.47|STANDARD_ERROR_OF_MEAN|5.56|<|0.0001|TWO_SIDED|95.0|40.57|62.37|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||62.37|40.57|<0.0001
82651965|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.1||||0.012|TWO_SIDED|95.0|-14.4|-1.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 7.||-1.8|-14.4|0.012
82560181|NCT02037568|164829946|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|||||||0.86
82560182|NCT02684136|164829947|SUPERIORITY||||||<|0.05|||||||ANCOVA|baseline used as covariate||||||<0.05
82560183|NCT02684136|164829948|SUPERIORITY||||||<|0.05||||||baseline used as covariate|ANCOVA|||||||<0.05
82560184|NCT00721734|164829949|SUPERIORITY_OR_OTHER||Slope|-0.607||||0.4114|TWO_SIDED|95.0|-2.129|0.914|||Regression, Linear|||"In order to estimate a possible effect of renal function, the relationship between the clearance of carfilzomib and creatinine clearance (CrCl) was explored using a mixed-effects model that included CrCl.~The slope of the regression of CL as a function of CrCL at Cycle 1, Day 1 was evaluated using a linear regression model that included CrCL as continuous variables (excluding the hemodialysis group)."||0.914|-2.129|0.4114
82560185|NCT01989793|164830000|EQUIVALENCE|Equivalence margin=0||||||0.97|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 8||||0.97
82560186|NCT01989793|164830001|EQUIVALENCE|Equivalence margin=0||||||0.48|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 16||||0.48
82560187|NCT01989793|164830002|EQUIVALENCE|Equivalence margin = 0||||||0.59|||||||t-test, 2 sided|||Two-sample T-test of between-arm difference of change in isokinetic knee strength from baseline to week 24||||0.59
82560188|NCT01989793|164830003|EQUIVALENCE|Equivalence margin=0||||||0.212|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 8||||0.212
82560189|NCT01989793|164830004|EQUIVALENCE|Equivalence margin=0||||||0.271|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 16||||0.271
82584136|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|36.76|STANDARD_ERROR_OF_MEAN|6.81|<|0.0001|TWO_SIDED|95.0|23.41|50.12|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||50.12|23.41|<0.0001
82651966|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2||||0.026|TWO_SIDED|95.0|-13.5|-0.8|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 8.||-0.8|-13.5|0.026
82560190|NCT01989793|164830005|EQUIVALENCE|Equivalence margin=0||||||0.203|||||||t-test, 2 sided|assuming unequal variance between arms||Two-sample T-test of between-arm difference in fatiguability at week 24||||0.203
82560191|NCT01989793|164830006|EQUIVALENCE|Equivalence margin = 0||||||0.82|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.82
82560192|NCT01989793|164830007|EQUIVALENCE|Equivalence margin = 0||||||0.73|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.73
82560193|NCT01989793|164830008|EQUIVALENCE|Equivalence margin = 0||||||0.73|||||||Fisher Exact|||Fisher's exact test of percentage of participants with improvement in frailty score from baseline between treatment and placebo arms||||0.73
82560194|NCT00849485|164830017|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|98.0||||||90.0|94.5|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.5|
82560195|NCT00849485|164830018|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|99.9||||||90.0|97.6|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|97.6|
82560196|NCT00849485|164830019|NON_INFERIORITY_OR_EQUIVALENCE|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|98.1|104.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104|98.1|
82560197|NCT00556478|164830020|SUPERIORITY_OR_OTHER||Ratio (over 3 months/Baseline)|3.05|||<|0.0001|TWO_SIDED|95.0|2.29|4.06|||ANCOVA|||||4.06|2.29|<0.0001
82560198|NCT00556478|164830021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|||<|0.0001|TWO_SIDED|95.0|3.61|6.34|||ANCOVA|||Analysis of IPE domain ejaculatory control||6.34|3.61|<0.0001
82560199|NCT00556478|164830021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6|||<|0.0001|TWO_SIDED|95.0|3.3|5.84|||ANCOVA|||IPE domain sexual satisfaction||5.84|3.30|<0.0001
82560200|NCT00556478|164830021|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|1.86|3.2|||ANCOVA|||IPE domain distress||3.20|1.86|<0.0001
82560201|NCT02833948|164830040|SUPERIORITY|||||||0.01|||||||Fisher Exact|The Fisher's exact probability test was used to compare the percentages of patients with the primary end point between the treatment groups.||||||0.01
82560202|NCT02833948|164830044|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
82560203|NCT02397707|164830050|OTHER||Geometric Least-Square Mean (GLSM)Ratio%|411.62|||||TWO_SIDED|90.0|214.72|789.08||||||An analysis of variance (ANOVA) appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% confidence interval (CI) was constructed for the geometric least squares mean (GLSM) ratio of AUClast for the comparison groups using two 1-sided tests.||789.08|214.72|
82560204|NCT02397707|164830050|OTHER||GLSM Ratio (%)|644.15|||||TWO_SIDED|90.0|364.67|1137.82||||||An ANOVA appropriate for a parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUClast. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||1137.82|364.67|
82560205|NCT02397707|164830051|OTHER||GLSM Ratio (%)|399.24|||||TWO_SIDED|90.0|210.89|755.81||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||755.81|210.89|
82560206|NCT02397707|164830051|OTHER||GLSM Ratio (%)|599.63|||||TWO_SIDED|90.0|342.36|1050.22||||||An ANOVA appropriate for parallel design was fitted to the natural logarithmic transformation of voxilaprevir AUCinf. A 90% CI was constructed for the GLSM ratio of AUCinf for the comparison groups using two 1-sided tests.||1050.22|342.36|
82560207|NCT02397707|164830052|OTHER||GLSM Ratio (%)|338.41|||||TWO_SIDED|90.0|168.96|677.79||||||An ANOVA appropriate was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||677.79|168.96|
82560208|NCT02397707|164830052|OTHER||GLSM Ratio (%)|713.92|||||TWO_SIDED|90.0|384.07|1327.06||||||An ANOVA appropriate was fitted to the natural logarithmic transformation of voxilaprevir Cmax. A 90% CI was constructed for the GLSM ratio of AUClast for the comparison groups using two 1-sided tests.||1327.06|384.07|
82560209|NCT03775213|164830076|SUPERIORITY||Risk Ratio (RR)|1.53|||||TWO_SIDED|95.0|0.91|2.58||||||||2.58|.91|
82560210|NCT03775213|164830077|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.49|1.88||||||Active Monitoring||1.88|.49|
82584137|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|24.26|STANDARD_ERROR_OF_MEAN|7.21||0.0008|TWO_SIDED|95.0|10.14|38.39|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||38.39|10.14|0.0008
82560211|NCT03775213|164830077|SUPERIORITY||Risk Ratio (RR)|1.06|||||TWO_SIDED|95.0|0.79|1.41||||||Lumpectomy||1.41|.79|
82560212|NCT03775213|164830077|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.62|1.3||||||Lumpectomy with Radiation||1.30|.62|
82560213|NCT03775213|164830077|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.48|1.47||||||Mastectomy||1.47|.48|
82560214|NCT03775213|164830078|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.59|1.98||||||||1.98|.59|
82560215|NCT03775213|164830079|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.65|1.45||||||||1.45|.65|
82489001|NCT02719327|164671347|SUPERIORITY||Slope|0.045||||0.05|TWO_SIDED|95.0|0.004|0.061|||Regression, Linear|log-transformed 18 month pTau181 was regressed on group (IPE vs placebo) and covariates age at baseline and log-transformed ptau181at baseline visit.|Placebo group is the reference group.|Phosphorylated tau (pTau181) measured in CSF was log-transformed prior to analysis to approximate a normal distribution.||0.061|0.004|0.05
82560216|NCT03775213|164830080|SUPERIORITY||Slope|0.09|||||TWO_SIDED|95.0|-0.2|0.38||||||||.38|-.20|
82560217|NCT00786188|164830097|SUPERIORITY_OR_OTHER|||||||0.0177||||||Week 4 frequency|Repeated measures analysis|||||||0.0177
82560218|NCT00786188|164830097|SUPERIORITY_OR_OTHER|||||||0.0541||||||Week 8 frequency|Reapeated measures analysis|||||||0.0541
82560219|NCT00786188|164830098|SUPERIORITY_OR_OTHER|||||||0.0644||||||Week 4 severity|Reapeated measures analysis|||||||0.0644
82560220|NCT00786188|164830098|SUPERIORITY_OR_OTHER|||||||0.0364||||||Week 8 severity|Reapeated measures analysis|||||||0.0364
82560221|NCT01742832|164830145|OTHER|Linear repeated measures regression models were constructed to assess trends over time between groups where the dependent variable was outcome measure (MADRS score) and independent variables included visit, treatment group, visit by treatment group interaction, and any baseline variables that were significant between groups.||||||0.342||||||P-value for linear regression assessing outcome measure (MADRS score) and treatment group.|Regression, Linear|||||||0.342
82560222|NCT05163353|164830146|SUPERIORITY||Difference in response rates|65.0|||||TWO_SIDED|95.0|45.6|74.4||||||||74.4|45.6|
82560223|NCT00824408|164830165|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.045||||0.003|TWO_SIDED|95.0|1.271|3.292|||Log Rank|||Hazard ratio and 95% confidence interval (CI) from Cox proportional-hazards regression model, stratified by histology (Nonsquamous vs. NOS). P-value from log-rank test stratified by histology (one-sided for volasertib 300 mg + pemetrexed 500 mg/m2 vs. pemetrexed 500 mg; two-sided for volasertib 300 mg vs. pemetrexed 500 mg/m2).||3.292|1.271|0.0030
82560224|NCT00824408|164830165|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.141||||0.2804|TWO_SIDED|95.0|0.735|1.771|||Log Rank|||Hazard ratio and 95% CI from Cox proportional-hazards regression model, stratified by histology (Nonsquamous vs. NOS). P-value from log-rank test stratified by histology (one-sided for volasertib 300 mg + pemetrexed 500 mg/m2 vs. pemetrexed 500 mg/m2; two-sided for volasertib 300 mg vs. pemetrexed 500 mg/m2).||1.771|0.735|0.2804
82560225|NCT00824408|164830166|SUPERIORITY_OR_OTHER||||||>|0.9999|||||||Fisher Exact|||||||>0.9999
82560226|NCT00824408|164830166|SUPERIORITY_OR_OTHER|||||||0.2596|||||||Fisher Exact|||||||0.2596
82560227|NCT00824408|164830167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||0.8406|TWO_SIDED|95.0|0.538|2.14|||Log Rank|||||2.140|0.538|0.8406
82560228|NCT00824408|164830167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.081||||0.396|TWO_SIDED|95.0|0.599|1.949|||Log Rank|||||1.949|0.599|0.3960
82560229|NCT04821271|164830178|OTHER|Treatment comparison||||||0.91|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.91
82489002|NCT02719327|164671347|SUPERIORITY||Slope|0.046||||0.07|TWO_SIDED|95.0|-0.0008|0.106||18 months total Tau was regressed on Group (IPE vs placebo) and covariates age at baseline and total Tau at baseline.|Regression, Linear||Placebo group was the reference group.|Total tau was log-transformed prior to analysis to better approximate a normal distribution.||0.106|-0.0008|.07
82560230|NCT04821271|164830179|OTHER|Treatment comparison||||||0.47|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.47
82560231|NCT04821271|164830180|OTHER|Treatment comparison||||||0.14|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.14
82560232|NCT04821271|164830181|OTHER|Treatment comparison||||||0.12|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.12
82560233|NCT04821271|164830182|OTHER|Treatment comparison||||||0.69|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.69
82560234|NCT04821271|164830183|OTHER|Treatment comparison||||||0.73|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.73
82584138|NCT03486457|164880270|SUPERIORITY||Difference in percentage of participants|13.97|STANDARD_ERROR_OF_MEAN|7.08||0.0486|TWO_SIDED|95.0|0.09|27.85|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||27.85|0.09|0.0486
82651967|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.9||||0.032|TWO_SIDED|95.0|-13.2|-0.6|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 9.||-0.6|-13.2|0.032
82651968|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.5||||0.02|TWO_SIDED|95.0|-13.9|-1.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 10.||-1.2|-13.9|0.020
82651969|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.4||||0.022|TWO_SIDED|95.0|-13.7|-1.1|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 11.||-1.1|-13.7|0.022
82651970|NCT01533428|165019111|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.0||||0.005|TWO_SIDED|95.0|-15.3|-2.7|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparison of capsaicin 8% and placebo for change from Baseline to Week 12.||-2.7|-15.3|0.005
82651971|NCT01533428|165019113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.108|TWO_SIDED|95.0|0.9|2.2|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 30% reduction in average daily pain score assessed in Weeks 2-8. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.2|0.9|0.108
82651972|NCT01533428|165019113|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.05|TWO_SIDED|95.0|1.0|2.4|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 30% reduction in average daily pain score assessed in Weeks 2-12. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.4|1.0|0.050
82560235|NCT04821271|164830184|OTHER|Treatment comparison||||||0.28|||||||T-test of estimated marginal means|||The null hypothesis was that there would not be treatment differences in mean MADRS total score. Linear mixed model regression using fixed effects of time, treatment, and a time-by-treatment allowed treatment effect estimates to vary by time. The model also included period specific baseline scores, average per person baseline scores (to avoid cross level bias), and period (first or second). All continuous covariates were mean centered. Alpha level of 0.05, and hypothesis was two-sided.||||0.28
82560236|NCT05640167|164830201|OTHER|||||||0.015|||||||t-test, 2 sided|Degrees of freedom 17||||||0.015
82560237|NCT05640167|164830202|OTHER|||||||0.114||||||Positive p = 0.114 Health-directed p = 0.028 Skill and Technique p = 0.013 Constructive attitudes p = 0.003 Self-monitoring \& insight p = 0.001 Health service navigation p = 0.077 Social Integration p = 0.126 Emotional well-being p = 0.093|t-test, 2 sided|||||||0.114
82560238|NCT05640167|164830203|OTHER|||||||0.59|||||||t-test, 2 sided|||||||0.59
82560239|NCT05640167|164830204|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.03
82560240|NCT05640167|164830205|OTHER|||||||0.309|||||||t-test, 2 sided|||||||0.309
82560241|NCT05640167|164830206|OTHER|||||||0.827|||||||t-test, 2 sided|||||||0.827
82560242|NCT04083781|164830217|SUPERIORITY|Analyses of count endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as an offset with randomised treatment regimen, type of haemophilia (HAwI or HBwI) and bleeding frequency (less than 9 or greater than or equal to 9 bleeding episodes during the past 24 weeks prior to screening) as factors comparing arm 1 (on-demand treatment) and arm 2.|Annualised bleeding rate ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.07|0.29|||Two-sided test of no difference from 1|||||0.29|0.07|<0.001
82560243|NCT00286325|164830240|SUPERIORITY_OR_OTHER||||||=|0.0156||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon comparing week zero antibody value in units to week 24 antibody value in units||||=0.0156
82560244|NCT00286325|164830241|SUPERIORITY_OR_OTHER||||||=|0.0078|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Comparison of B cell number at week 0 to b cell number in participants at week 24||||=0.0078
82560245|NCT02334215|164830242|SUPERIORITY|||||||0.32|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone arms compared to Enhanced Treatment as Usual||||.32
82560246|NCT02334215|164830242|SUPERIORITY|||||||0.32|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.32
82560247|NCT02334215|164830243|SUPERIORITY|||||||0.001|||||||Generalized Linear Mixed Model Analysis|||Contrast of Interest: Methadone plus Patient Navigation and Methadone Conditions combined vs. Enhanced Treatment as Usual Conditions||||.001
82560248|NCT02334215|164830243|SUPERIORITY|||||||0.84|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Enhanced Treatment as Usual||||.84
82560249|NCT02334215|164830244|SUPERIORITY|||||||0.11|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone Conditions combined vs. Enhanced Treatment as Usual||||0.11
82560250|NCT02334215|164830244|SUPERIORITY|||||||0.55|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.55
82560251|NCT02334215|164830245|SUPERIORITY|||||||0.55|||||||Regression, Logistic|||||||0.55
82560252|NCT02334215|164830245|SUPERIORITY|||||||0.57|||||||Regression, Logistic|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.57
82560253|NCT02334215|164830246|SUPERIORITY|||||||0.997|||||||Generalized Linear Mixed Model|||Contrast of interest: Methadone plus Patient Navigation and Methadone compared to Enhanced Treatment as Usual||||.997
82560254|NCT02334215|164830246|SUPERIORITY|||||||0.26|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.26
82560255|NCT02334215|164830247|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone compared to Enhanced Treatment as Usual||||||0.663|||||||Generalized Linear Mixed Model|||||||.663
82489003|NCT02719327|164671348|SUPERIORITY||Slope|0.006||||0.48|TWO_SIDED|95.0|-0.009|0.023|||Linear Mixed Effects model|Covariates included education level, gender, and age at baseline visit.|Placebo group was the reference group.|Four cognitive tests were standardized (baseline mean and standard deviation) prior to averaging to create the ADCS Preclinical Alzheimer Cognitive Composite (ADCS-PACC) score. The final composite score was standardized again using baseline mean and standard deviation (range -3.15 to 3.10). Higher scores indicate better cognitive performance. A linear mixed effects model was used to determine if change in ADCS-PACC composite scores was modified by treatment group.||0.023|-0.009|.48
82489004|NCT01470859|164671358|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed on the changes of PDRP Z score between levodopa and pramipexole groups.||||||0.84
82489005|NCT01470859|164671358|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed to compare the PDRP Z scores between levodopa and pramipexole groups at V1||||||0.93
82489006|NCT01470859|164671358|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|t-test, 2 sided|independent sample t-test The statistical analysis was performed to compare the PDRP Z scores between levodopa and pramipexole groups at V5||||||0.31
82489007|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.691|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V1 scores between the levodopa and pramipexole groups||||||0.691
82489008|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.706|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V2 scores between the levodopa and pramipexole groups||||||0.706
82489009|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS II scores at V5 scores between the levodopa and pramipexole groups||||||0.635
82489010|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.341|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V1 scores between the levodopa and pramipexole groups||||||0.341
82560256|NCT02334215|164830247|SUPERIORITY|||||||0.33|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs Methadone||||0.33
82584139|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|1.1|STANDARD_ERROR_OF_MEAN|1.53||0.473|TWO_SIDED|95.0|-1.9|4.1|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||4.10|-1.90|0.4730
82489011|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V2 scores between the levodopa and pramipexole groups||||||0.049
82489012|NCT01470859|164671359|SUPERIORITY_OR_OTHER|||||||0.874|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the UPDRS III scores at V5 scores between the levodopa and pramipexole groups||||||0.874
82489013|NCT01470859|164671360|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the PDQ39 scores between levodopa and pramipexole group at V1||||||0.720
82489014|NCT01470859|164671360|SUPERIORITY_OR_OTHER|||||||0.867|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the PDQ39 scores between levodopa and pramipexole group at V5||||||0.867
82489015|NCT01470859|164671361|SUPERIORITY_OR_OTHER|||||||0.793|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|indenpendent U test|independent U test The statistical analysis was performed to compare the H\&Y stages between levodopa and pramipexole group at V1||||||0.793
82489016|NCT01470859|164671361|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|independent U test|independent U test The statistical analysis was performed to compare the H\&Y stages between levodopa and pramipexole groups at V5||||||0.430
82489017|NCT01470859|164671362|SUPERIORITY_OR_OTHER|||||||0.345|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|Chi-squared|The statistical analysis was performed to compare the clinical improvement between levodopa and pramipexole groups at V2||||||0.345
82489018|NCT01470859|164671362|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED|||||"p\<0.05 is indicating the threshold for statistical significance for this comparison"|Chi-squared|The statistical analysis was performed to compare the clinical improvement between levodopa and pramipexole groups at V5||||||0.410
82489019|NCT05268055|164671394|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||Group comparison of all participants.||||0.525
82489020|NCT05268055|164671394|SUPERIORITY|||||||0.045|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.045
82489021|NCT05268055|164671394|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.046
82560257|NCT02334215|164830248|SUPERIORITY|||||||0.007|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone arms compared to Enhanced Treatment as Usual||||0.007
82560258|NCT02334215|164830248|SUPERIORITY|||||||0.76|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.76
82560259|NCT02334215|164830249|SUPERIORITY|||||||0.6|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Enhanced Treatment as Usual||||0.60
82651973|NCT01533428|165019114|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.403|TWO_SIDED|95.0|0.7|2.1|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 50% reduction in average daily pain score assessed in Weeks 2-8. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.1|0.7|0.403
82560260|NCT02334215|164830249|SUPERIORITY|||||||1|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||1.0
82560261|NCT02334215|164830250|SUPERIORITY|||||||0.09|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||.09
82560262|NCT02334215|164830250|SUPERIORITY|||||||0.74|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.74
82560263|NCT02334215|164830251|SUPERIORITY|||||||0.013|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||.013
82560264|NCT02334215|164830251|SUPERIORITY|||||||0.71|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.71
82560265|NCT02334215|164830252|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.32|||||||Generalized Linear Mixed Model Analysis|||||||.32
82560266|NCT02334215|164830252|SUPERIORITY|||||||0.85|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.85
82560267|NCT02334215|164830253|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.1|||||||Generalized Linear Mixed Model Analysis|||||||.10
82560268|NCT02334215|164830253|SUPERIORITY|||||||0.74|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.74
82560269|NCT02334215|164830254|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.42|||||||Generalized Linear Mixed Model Analysis|||||||.42
82560270|NCT02334215|164830254|SUPERIORITY|||||||0.42|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.42
82560271|NCT02334215|164830255|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.28|||||||Generalized Linear Mixed Model Analysis|||||||.28
82560272|NCT02334215|164830255|SUPERIORITY|||||||0.44|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.44
82560273|NCT02334215|164830256|SUPERIORITY|||||||0.61|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation and Methadone combined vs. Enhanced Treatment as Usual||||.61
82560274|NCT02334215|164830256|SUPERIORITY|||||||0.72|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||0.72
82560275|NCT02334215|164830257|SUPERIORITY|Contrast of interest: Methadone plus Patient Navigation and Methadone vs. Enhanced Treatment as Usual||||||0.71|||||||Generalized Linear Mixed Model Analysis|||||||.71
82560276|NCT02334215|164830257|SUPERIORITY|||||||0.86|||||||Generalized Linear Mixed Model Analysis|||Contrast of interest: Methadone plus Patient Navigation vs. Methadone||||.86
82560277|NCT01836445|164830272|SUPERIORITY||Prevalence Ratio|0.9||||0.2|TWO_SIDED|95.0|0.76|1.06|||Regression, Logistic|||||1.06|0.76|0.20
82560278|NCT01836445|164830273|SUPERIORITY||Prevalence Ratio|0.95||||0.6|TWO_SIDED|95.0|0.8|1.14|||Regression, Logistic|||||1.14|0.80|0.60
82560279|NCT01836445|164830274|SUPERIORITY||Prevalence Ratio|0.83||||0.04|TWO_SIDED|95.0|0.7|0.99|||Regression, Logistic|||||0.99|0.70|0.04
82560280|NCT01836445|164830276|SUPERIORITY||Risk Ratio (RR)|0.6||||0.01|TWO_SIDED|95.0|0.38|0.95|||Z-test|||||0.95|0.38|0.01
82560281|NCT01836445|164830277|OTHER|Generalized Linear Mixed Model statistical test used||||||0.15|||||||Regression, Linear|||||||0.150
82560282|NCT01836445|164830278|OTHER|Generalized Linear Mixed Model statistical test used||||||0.374|||||||Regression, Linear|||||||0.374
82560283|NCT01836445|164830279|OTHER|Generalized Linear Mixed Model statistical test used||||||0.919|||||||Regression, Linear|||Analysis for Motivation items||||0.919
82560284|NCT01836445|164830279|OTHER|Generalized Linear Mixed Model statistical test used||||||0.493|||||||Regression, Linear|||Analysis for Social Norms items||||0.493
82560285|NCT01836445|164830279|OTHER|Generalized Linear Mixed Model statistical test used||||||0.002|||||||Regression, Linear|||Analysis for Behavioral Skills items||||0.002
82560286|NCT01836445|164830280|OTHER|Generalized Linear Mixed Model statistical test used||||||0.067|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.067
82560287|NCT01836445|164830280|OTHER|Generalized Linear Mixed Model statistical test used||||||0.135|||||||Regression, Linear|||Analysis for Condom Use items||||0.135
82560288|NCT01836445|164830280|OTHER|Generalized Linear Mixed Model statistical test used||||||0.025|||||||Regression, Linear|||Analysis for HIV Testing items||||0.025
82560289|NCT01836445|164830281|OTHER|Generalized Linear Mixed Model statistical test used||||||0.138|||||||Regression, Logistic|||||||0.138
82560290|NCT01836445|164830282|OTHER|Generalized Linear Mixed Model statistical test used||||||0.173|||||||Regression, Linear|||||||0.173
82560291|NCT01836445|164830283|OTHER|Generalized Linear Mixed Model statistical test used||||||0.567|||||||Regression, Linear|||||||0.567
82560292|NCT01836445|164830284|OTHER|Generalized Linear Mixed Model statistical test used||||||0.861|||||||Regression, Linear|||Analysis for motivation items||||0.861
82560293|NCT01836445|164830284|OTHER|Generalized Linear Mixed Model statistical test used||||||0.628|||||||Regression, Linear|||Analysis for social norms items||||0.628
82560294|NCT01836445|164830284|OTHER|Generalized Linear Mixed Model statistical test used||||||0.151|||||||Regression, Linear|||Analysis for behavioral skills items||||0.151
82560295|NCT01836445|164830285|OTHER|Generalized Linear Mixed Model statistical test used||||||0.001|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.001
82560296|NCT01836445|164830285|OTHER|Generalized Linear Mixed Model statistical test used||||||0.067|||||||Regression, Linear|||Analysis for Condom Use items||||0.067
82560297|NCT01836445|164830285|OTHER|Generalized Linear Mixed Model statistical test used||||||0.637|||||||Regression, Linear|||Analysis for HIV Testing items||||0.637
82489022|NCT05268055|164671395|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Group comparison of all participants.||||0.200
82489023|NCT05268055|164671395|SUPERIORITY|||||||0.075|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.075
82489024|NCT05268055|164671395|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.015
82489025|NCT05268055|164671396|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||Group comparison of all participants.||||0.246
82489026|NCT05268055|164671396|SUPERIORITY|||||||0.151|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.151
82489027|NCT05268055|164671396|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.033
82489028|NCT05268055|164671397|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||Group comparison of all participants.||||0.212
82489029|NCT05268055|164671397|SUPERIORITY|||||||0.893|||||||t-test, 2 sided|||Group comparison of participants less than age 33.||||0.893
82489030|NCT05268055|164671397|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Group comparison of participants age 33 and greater.||||0.160
82560298|NCT01836445|164830286|OTHER|Generalized Linear Mixed Model statistical test used||||||0.862|||||||Regression, Linear|||||||0.862
82560299|NCT01836445|164830287|OTHER|Generalized Linear Mixed Model statistical test used||||||0.762|||||||Regression, Linear|||||||0.762
82489031|NCT05268055|164671398|SUPERIORITY|||||||0.752|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Healthcare Provider Cultural Competence measure.||||0.752
82489032|NCT05268055|164671398|SUPERIORITY|||||||0.493|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Ask, Understand, Remember Assessment.||||0.493
82489033|NCT05268055|164671398|SUPERIORITY|||||||0.085|||||||t-test, 2 sided|||Group comparison of self-rating scores on the Wake Forest Physician Trust Scale.||||0.085
82489034|NCT01555983|164671399|SUPERIORITY_OR_OTHER||Cochran-Armitage trend tes|0.0001|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||The number needed to treat (NNT) to achieve 30% pain reduction during the 8-hour period was 4 (95% CI: 2.1-25.3) for the lower dose vs. placebo, and 3 (95% CI: 1.6-4.2) for the higher dose versus placebo.||||<.05
82489035|NCT00573183|164671449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3404|STANDARD_ERROR_OF_MEAN|0.4134|<|0.05|TWO_SIDED|95.0|1.2019|9.2842||95% confidence interval|Mixed Models Analysis|A covariate adjustment was used: average number of days of stimulant use within a 30-day window of assessment from 90 days pre-baseline to baseline.|The STAGE-12 group represented the numerator and TAU represented the reference group/denominator|Mixture model with a logistic part for assessing zero-inflation and a negative binomial part for the over-dispersed count data, with corresponding 95% confidence intervals (CIs) of the odds ratios for logistic part and incidence rate ratios for negative binomial part.||9.2842|1.2019|<0.05
82489036|NCT00573183|164671449|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.4373|STANDARD_ERROR_OF_MEAN|0.4134|<|0.01|TWO_SIDED|95.0|1.0131|5.8637|||Mixed Models Analysis|||||5.8637|1.0131|<0.01
82489037|NCT00573183|164671450|SUPERIORITY_OR_OTHER||||||<|0.05||||||Statistical Model - zero-inflated negative binomial random-effects regression|Zero-inflated negative binomial random-e|Statistical Model - zero-inflated negative binomial random-effects regression adjusted for average number of days of pre-baseline attendance||Outcome measure: Number of days of self-reported Self-Help meeting attendance by the Substance Use Calendar (SUC) within a 30-day window of assessment at mid-treatment, end-of-treatment, first, second, third and last follow-ups||||<0.05
82489038|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Diphtheria Toxin \>=0.1 IU/mL||3.95|-3.99|<0.001
82489039|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Tetanus Toxin \>=0.01 IU/mL||3.95|-3.99|<0.001
82489040|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Pertussis Toxin \>=10 EU/mL||3.95|-3.99|<0.001
82489041|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Pertussis FHA \>=10 EU/mL||3.95|-3.99|<0.001
82489042|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 1 NA \>=8||3.95|-3.99|<0.001
82489043|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 2 NA \>=8||3.95|-3.99|<0.001
82560300|NCT01836445|164830288|SUPERIORITY|||||||0.043|||||||Regression, Linear|||Analysis for Motivation items||||0.043
82560301|NCT01836445|164830288|SUPERIORITY|||||||0.617|||||||Regression, Linear|||Analysis for Social Norm items||||0.617
82560302|NCT01836445|164830288|SUPERIORITY|||||||0.57|||||||Regression, Linear|||Analysis for Behavioral Skills items||||0.570
82560303|NCT01836445|164830289|SUPERIORITY|||||||0.036|||||||Regression, Linear|||Analysis for Relationship Maintenance items||||0.036
82560304|NCT01836445|164830289|SUPERIORITY|||||||0.837|||||||Regression, Linear|||Analysis for Condom Use items||||0.837
82560305|NCT01836445|164830289|SUPERIORITY|||||||0.953|||||||Regression, Linear|||Analysis for HIV Testing items||||0.953
82560306|NCT01836445|164830290|SUPERIORITY|||||||0.719|||||||Regression, Linear|||||||0.719
82560307|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.101|||||||ANOVA|||Baseline (AM)||||0.101
82560308|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.168|||||||ANOVA|||Change at Week 1 (AM)||||0.168
82560309|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||ANOVA|||Change at Week 2 (AM)||||0.930
82560310|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.487|||||||ANOVA|||Change at Week 3 (AM)||||0.487
82489044|NCT01926015|164671453|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower bound of the 95% confidence interval of the percentage difference, excluding a difference \>=10%, is \>=-0.10|Difference in percentage|0.0|||<|0.001|TWO_SIDED|95.0|-3.99|3.95|||Miettinen and Nurminen|||Poliovirus Type 3 NA \>=8||3.95|-3.99|<0.001
82489045|NCT01914757|164671466|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.002|TWO_SIDED|95.0|0.49|0.85|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.85|0.49|0.002
82560311|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.914|||||||ANOVA|||Change at Week 4 (AM)||||0.914
82560312|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.977|||||||ANOVA|||Change at Final Week (AM)||||0.977
82560313|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.109|||||||ANOVA|||Baseline (PM)||||0.109
82560314|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.291|||||||ANOVA|||Change at Week 1 (PM)||||0.291
82560315|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.984|||||||ANOVA|||Change at Week 2 (PM)||||0.984
82560316|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||ANOVA|||Change at Week 3 (PM)||||0.373
82560317|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.623|||||||ANOVA|||Change at Week 4 (PM)||||0.623
82560318|NCT00070707|164830410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.978|||||||ANOVA|||Change at Final Week (PM)||||0.978
82560319|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.023|||||||ANOVA|||Baseline (AM)||||0.023
82560320|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Change at Week 1 (AM)||||0.693
82560321|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|||||||ANOVA|||Change at Week 2 (AM)||||0.483
82560322|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.088|||||||ANOVA|||Change at Week 3 (AM)||||0.088
82560323|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||ANOVA|||Change at Week 4 (AM)||||0.210
82560324|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.178|||||||ANOVA|||Change at Final Week (AM)||||0.178
82560325|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055|||||||ANOVA|||Baseline (PM)||||0.055
82489046|NCT01914757|164671466|SUPERIORITY_OR_OTHER||Rate Ratio|0.72||||0.019|TWO_SIDED|95.0|0.54|0.95|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids.||||0.95|0.54|0.019
82489047|NCT01914757|164671467|SUPERIORITY_OR_OTHER||Rate Ratio|0.64||||0.015|TWO_SIDED|95.0|0.45|0.92|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids||||0.92|0.45|0.015
82560326|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.915|||||||ANOVA|||Change at Week 1 (PM)||||0.915
82560327|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.471|||||||ANOVA|||Change at Week 2 (PM)||||0.471
82560328|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11|||||||ANOVA|||Change at Week 3 (PM)||||0.110
82560329|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305|||||||ANOVA|||Change at Week 4 (PM)||||0.305
82560330|NCT00070707|164830411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.461|||||||ANOVA|||Change at Final Week (PM)||||0.461
82560331|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|||||||ANOVA|||Baseline (AM)||||0.068
82560332|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||ANOVA|||Change at Week 1 (AM)||||0.116
82560333|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.749|||||||ANOVA|||Change at Week 2 (AM)||||0.749
82560334|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.289|||||||ANOVA|||Change at Week 3 (AM)||||0.289
82560335|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.982|||||||ANOVA|||Change at Week 4 (AM)||||0.982
82560336|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.941|||||||ANOVA|||Change at Final Week (AM)||||0.941
82560337|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128|||||||ANOVA|||Baseline (PM)||||0.128
82560338|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484|||||||ANOVA|||Change at Week 1 (PM)||||0.484
82560339|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|||||||ANOVA|||Change at Week 2 (PM)||||0.673
82560340|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||ANOVA|||Change at Week 3 (PM)||||0.250
82560341|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||ANOVA|||Change at Week 4 (PM)||||0.450
82560342|NCT00070707|164830412|SUPERIORITY_OR_OTHER_LEGACY|||||||0.774|||||||ANOVA|||Change at Final Week (PM)||||0.774
82560343|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078|||||||ANOVA|||Baseline (AM)||||0.078
82560344|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.492|||||||ANOVA|||Change at Week 1 (AM)||||0.492
82560345|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.945|||||||ANOVA|||Change at Week 2 (AM)||||0.945
82560346|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|||||||ANOVA|||Change at Week 3 (AM)||||0.359
82560347|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.802|||||||ANOVA|||Change at Week 4 (AM)||||0.802
82560348|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.716|||||||ANOVA|||Change at Final Week (AM)||||0.716
82560349|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|||||||ANOVA|||Baseline (PM)||||0.158
82560350|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.281|||||||ANOVA|||Change at Week 1 (PM)||||0.281
82560351|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.901|||||||ANOVA|||Change at Week 2 (PM)||||0.901
82560352|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.433|||||||ANOVA|||Change at Week 3 (PM)||||0.433
82560353|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.73|||||||ANOVA|||Change at Week 4 (PM)||||0.730
82560354|NCT00070707|164830413|SUPERIORITY_OR_OTHER_LEGACY|||||||0.819|||||||ANOVA|||Change at Final Week (PM)||||0.819
82560355|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.629|||||||ANOVA|||Baseline (AM)||||0.629
82560356|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||ANOVA|||Change at Week 1 (AM)||||0.038
82560357|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.182|||||||ANOVA|||Change at Week 2 (AM)||||0.182
82560358|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.149|||||||ANOVA|||Change at Week 3 (AM)||||0.149
82560359|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||ANOVA|||Change at Week 4 (AM)||||0.035
82560360|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|||||||ANOVA|||Change at Final Week (AM)||||0.056
82560361|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.711|||||||ANOVA|||Baseline (PM)||||0.711
82560362|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098|||||||ANOVA|||Change at Week 1 (PM)||||0.098
82560363|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.356|||||||ANOVA|||Change at Week 2 (PM)||||0.356
82560364|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.529|||||||ANOVA|||Change at Week 3 (PM)||||0.529
82560365|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.617|||||||ANOVA|||Change at Week 4 (PM)||||0.617
82560366|NCT00070707|164830414|SUPERIORITY_OR_OTHER_LEGACY|||||||0.422|||||||ANOVA|||Change at Final Week (PM)||||0.422
82560367|NCT00070707|164830415|SUPERIORITY_OR_OTHER_LEGACY|Baseline||||||0.532|||||||Cochran-Mantel-Haenszel|||||||0.532
82560368|NCT00070707|164830415|SUPERIORITY_OR_OTHER_LEGACY|Day 15||||||0.739|||||||Cochran-Mantel-Haenszel|||||||0.739
82560369|NCT00070707|164830415|SUPERIORITY_OR_OTHER_LEGACY|Day 29||||||0.227|||||||Cochran-Mantel-Haenszel|||||||0.227
82560370|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|||||||ANOVA|||Baseline (AM)||||0.104
82560371|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||ANOVA|||Change at Week 1 (AM)||||0.022
82560372|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANOVA|||Change at Week 2 (AM)||||0.012
82560373|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Change at Week 3 (AM)||||0.001
82560374|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.033|||||||ANOVA|||Change at Week 4 (AM)||||0.033
82560375|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047|||||||ANOVA|||Change at Final Week (AM)||||0.047
82560376|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.269|||||||ANOVA|||Baseline (PM)||||0.269
82560377|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.308|||||||ANOVA|||Change at Week 1 (PM)||||0.308
82560378|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||ANOVA|||Change at Week 2 (PM)||||0.050
82560379|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 3 (PM)||||0.014
82560380|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||ANOVA|||Change at Week 4 (PM)||||0.100
82560381|NCT00070707|164830416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.139|||||||ANOVA|||Change at Final Week (PM)||||0.139
82560382|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136|||||||ANOVA|||Baseline (AM)||||0.136
82560383|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.126|||||||ANOVA|||Change at Week 1 (AM)||||0.126
82560384|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.107|||||||ANOVA|||Change at Week 2 (AM)||||0.107
82560385|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||ANOVA|||Change at Week 3 (AM)||||0.006
82560386|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||ANOVA|||Change at Week 4 (AM)||||0.030
82560387|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|||Change at Final Week (AM)||||0.037
82560388|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.146|||||||ANOVA|||Baseline (PM)||||0.146
82560389|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.426|||||||ANOVA|||Change at Week 1 (PM)||||0.426
82560390|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.259|||||||ANOVA|||Change at Week 2 (PM)||||0.259
82560391|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|||||||ANOVA|||Change at Week 3 (PM)||||0.026
82560392|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|||||||ANOVA|||Change at Week 4 (PM)||||0.022
82560393|NCT00070707|164830417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||ANOVA|||Change at Final Week (PM)||||0.043
82560394|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.181|||||||ANOVA|||Baseline (AM)||||0.181
82560395|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 1 (AM)||||0.014
82560396|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANOVA|||Change at Week 2 (AM)||||0.004
82560397|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||ANOVA|||Change at Week 3 (AM)||||0.002
82560398|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.027|||||||ANOVA|||Change at Week 4 (AM)||||0.027
82560399|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|||||||ANOVA|||Change at Final Week (AM)||||0.069
82560400|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.373|||||||ANOVA|||Baseline (PM)||||0.373
82560401|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.148|||||||ANOVA|||Change at Week 1 (PM)||||0.148
82560402|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||ANOVA|||Change at Week 2 (PM)||||0.009
82560403|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|||||||ANOVA|||Change at Week 3 (PM)||||0.016
82560404|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||ANOVA|||Change at Week 4 (PM)||||0.113
82560405|NCT00070707|164830418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.173|||||||ANOVA|||Change at Final Week (PM)||||0.173
82560406|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.089|||||||ANOVA|||Baseline (AM)||||0.089
82560407|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||ANOVA|||Change at Week 1 (AM)||||0.014
82560408|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANOVA|||Change at Week 2 (AM)||||0.004
82560409|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANOVA|||Change at Week 3 (AM)||||0.001
82560410|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.041|||||||ANOVA|||Change at Week 4 (AM)||||0.041
82560411|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|||||||ANOVA|||Change at Final Week (AM)||||0.036
82560412|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|||||||ANOVA|||Baseline (PM)||||0.170
82560413|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.237|||||||ANOVA|||Change at Week 1 (PM)||||0.237
82560414|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.019|||||||ANOVA|||Change at Week 2 (PM)||||0.019
82560415|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||ANOVA|||Change at Week 3 (PM)||||0.018
82560416|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.149|||||||ANOVA|||Change at Week 4 (PM)||||0.149
82560417|NCT00070707|164830419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|||||||ANOVA|||Change at Final Week (PM)||||0.231
82560418|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|||||||0.745|||||||ANOVA|||Baseline (AM)||||0.745
82651974|NCT01533428|165019114|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||0.446|TWO_SIDED|95.0|0.7|2.0|||Regression, Logistic|Analysis of regression logistics model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Percentage of participants with 50% reduction in average daily pain score assessed in Weeks 2-12. The comparison of the odds ratio of capsaicin 8% to placebo for percent change from baseline was performed using a logistic regression model.||2.0|0.7|0.446
82651975|NCT01533428|165019115|SUPERIORITY_OR_OTHER|||||||0.072|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.072
82651976|NCT01533428|165019116|SUPERIORITY_OR_OTHER|||||||0.075|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.075
82651977|NCT01533428|165019117|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Cochran-Mantel-Haenszel|Analysis of Cochran-Mantel-Haenszel test model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for counts by category using a Cochran-Mantel-Haenszel test.||||0.169
82651978|NCT01533428|165019118|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.32|TWO_SIDED|95.0|-1.6|5.0|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||The statistical comparison between Baseline and Week 8 was made using two-sided tests at the 5% significance level.||5.0|-1.6|0.320
82651979|NCT01533428|165019118|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2||||0.473|TWO_SIDED|95.0|-2.1|4.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||The statistical comparison between Baseline and Week 12 was made using two-sided tests at the 5% significance level.||4.5|-2.1|0.473
82651980|NCT01533428|165019118|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7||||0.514|TWO_SIDED|95.0|-4.4|2.2|||ANCOVA|||The statistical comparison between Baseline and Week 2 was made using two-sided tests at the 5% significance level.||2.2|-4.4|0.514
82651981|NCT01533428|165019119|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.719|TWO_SIDED|95.0|-0.5|0.7|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 2 was completed using ANCOVA model.||0.7|-0.5|0.719
82651982|NCT01533428|165019119|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.334|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 8 was completed using ANCOVA model.||0.3|-0.8|0.334
82560419|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25|||||||ANOVA|||Change at Week 1 (AM)||||0.250
82560420|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 2 (AM)||||||0.202|||||||ANOVA|||||||0.202
82560421|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 3 (AM)||||||0.104|||||||ANOVA|||||||0.104
82560422|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 4 (AM)||||||0.348|||||||ANOVA|||||||0.348
82560423|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Final Week (AM)||||||0.355|||||||ANOVA|||||||0.355
82560424|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Baseline (PM)||||||0.851|||||||ANOVA|||||||0.851
82560425|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 1 (PM)||||||0.993|||||||ANOVA|||||||0.993
82560426|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 2 (PM)||||||0.476|||||||ANOVA|||||||0.476
82560427|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 3 (PM)||||||0.149|||||||ANOVA|||||||0.149
82560428|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Week 4 (PM)||||||0.616|||||||ANOVA|||||||0.616
82560429|NCT00070707|164830420|SUPERIORITY_OR_OTHER_LEGACY|Change at Final Week (PM)||||||0.527|||||||ANOVA|||||||0.527
82560430|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.116|||||||ANOVA|||Baseline (AM)||||0.116
82560431|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994|||||||ANOVA|||Change at Week 1 (AM)||||0.994
82560432|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.961|||||||ANOVA|||Change at Week 2 (AM)||||0.961
82560433|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183|||||||ANOVA|||Change at Week 3 (AM)||||0.183
82560434|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.44|||||||ANOVA|||Change at Week 4 (AM)||||0.440
82560435|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.838|||||||ANOVA|||Change at Final Week (AM)||||0.838
82560436|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096|||||||ANOVA|||Baseline (PM)||||0.096
82560437|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.362|||||||ANOVA|||Change at Week 1 (PM)||||0.362
82560438|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Change at Week 2 (PM)||||0.693
82560439|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.603|||||||ANOVA|||Change at Week 3 (PM)||||0.603
82560440|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.579|||||||ANOVA|||Change at Week 4 (PM)||||0.579
82560441|NCT00070707|164830421|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|||||||ANOVA|||Change at Final Week (PM)||||0.413
82560442|NCT00070707|164830422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.823|||||||ANOVA|||Baseline||||0.823
82560443|NCT00070707|164830422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.744|||||||ANOVA|||Change at Day 15||||0.744
82560444|NCT00070707|164830422|SUPERIORITY_OR_OTHER_LEGACY|||||||0.675|||||||ANOVA|||Change at Day 29||||0.675
82560445|NCT00070707|164830423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.693|||||||ANOVA|||Baseline||||0.693
82560446|NCT00070707|164830423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.818|||||||ANOVA|||Change at Day 15||||0.818
82560447|NCT00070707|164830423|SUPERIORITY_OR_OTHER_LEGACY|||||||0.915|||||||ANOVA|||Change at Day 29||||0.915
82560448|NCT00070707|164830424|SUPERIORITY_OR_OTHER_LEGACY|||||||0.823|||||||ANOVA|||Baseline||||0.823
82560449|NCT00070707|164830424|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|||||||ANOVA|||Change at Day 15||||0.202
82489048|NCT01914757|164671467|SUPERIORITY_OR_OTHER||Rate Ratio|0.6||||0.005|TWO_SIDED|95.0|0.42|0.86|||Negative Binomial|Model includes covariates treatment group, region, number of exacerbations in the previous year, and use of maintenance oral corticosteroids.||||0.86|0.42|0.005
82560450|NCT00070707|164830424|SUPERIORITY_OR_OTHER_LEGACY|||||||0.199|||||||ANOVA|||Change at Day 29||||0.199
82560451|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.375|||||||ANOVA|||Baseline||||0.375
82560452|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.71|||||||ANOVA|||Change at Week 1||||0.710
82560453|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.597|||||||ANOVA|||Change at Week 2||||0.597
82560454|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||ANOVA|||Change at Week 3||||0.242
82560455|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.696|||||||ANOVA|||Change at Week 4||||0.696
82560456|NCT00070707|164830425|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|||||||ANOVA|||Change at Final Week||||0.670
82560457|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.865|||||||ANOVA|||Baseline||||0.865
82560458|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025|||||||ANOVA|||Change at Week 1||||0.025
82560459|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.288|||||||ANOVA|||Change at Week 2||||0.288
82560460|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79|||||||ANOVA|||Change at Week 3||||0.790
82584140|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|1.83|STANDARD_ERROR_OF_MEAN|1.69||0.2792|TWO_SIDED|95.0|-1.48|5.14|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||5.14|-1.48|0.2792
82651983|NCT01533428|165019119|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.726|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 12 was completed using ANCOVA model.||0.5|-0.7|0.726
82489049|NCT01914757|164671468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125||||0.005|TWO_SIDED|95.0|0.037|0.213|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.213|0.037|0.005
82560461|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.211|||||||ANOVA|||Change at Week 4||||0.211
82560462|NCT00070707|164830426|SUPERIORITY_OR_OTHER_LEGACY|||||||0.136|||||||ANOVA|||Change at Final Week||||0.136
82560463|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.667|||||||ANOVA|||Baseline||||0.667
82560464|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.656|||||||ANOVA|||Change at Week 1||||0.656
82560465|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458|||||||ANOVA|||Change at Week 2||||0.458
82560466|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||ANOVA|||Change at Week 3||||0.220
82560467|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.775|||||||ANOVA|||Change at Week 4||||0.775
82560468|NCT00070707|164830427|SUPERIORITY_OR_OTHER_LEGACY|||||||0.994|||||||ANOVA|||Change at Final Week||||0.994
82560469|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.363|||||||ANOVA|||Baseline||||0.363
82560470|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262|||||||ANOVA|||Change at Week 1||||0.262
82560471|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.386|||||||ANOVA|||Change at Week 2||||0.386
82560472|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.167|||||||ANOVA|||Change at Week 3||||0.167
82560473|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.505|||||||ANOVA|||Change at Week 4||||0.505
82560474|NCT00070707|164830428|SUPERIORITY_OR_OTHER_LEGACY|||||||0.725|||||||ANOVA|||Change at Final Week||||0.725
82560475|NCT00070707|164830429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.954|||||||Cochran-Mantel-Haenszel|Stratified by center||Asthma Symptoms: Day 15||||0.954
82560476|NCT00070707|164830429|SUPERIORITY_OR_OTHER_LEGACY|||||||0.295|||||||Cochran-Mantel-Haenszel|Stratified by center||Asthma Symptoms: Day 29||||0.295
82560477|NCT00070707|164830430|SUPERIORITY_OR_OTHER_LEGACY|||||||0.268|||||||Cochran-Mantel-Haenszel|Stratified by center||SAR Nasal Symptoms: Day 15||||0.268
82560478|NCT00070707|164830430|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|||||||Cochran-Mantel-Haenszel|Stratified by center||SAR Nasal Symptoms: Day 29||||0.154
82560479|NCT00413283|164830447|SUPERIORITY_OR_OTHER|||||||0.972|||||||Satterthwaite t-test|||||||0.972
82560480|NCT00413283|164830447|SUPERIORITY_OR_OTHER|||||||0.725|||||||Satterthwaite t-test|||||||0.725
82560481|NCT00413283|164830447|SUPERIORITY_OR_OTHER|||||||0.312|||||||Satterthwaite t-test|||||||0.312
82560482|NCT00413283|164830448|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560483|NCT00413283|164830448|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560484|NCT00413283|164830448|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560485|NCT00413283|164830449|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560486|NCT00413283|164830449|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560487|NCT00413283|164830449|SUPERIORITY_OR_OTHER|||||||0.342|||||||Fisher Exact|||||||0.342
82560488|NCT00413283|164830450|SUPERIORITY_OR_OTHER|||||||0.454|||||||Satterthwaite t-test|||||||0.454
82560489|NCT00413283|164830450|SUPERIORITY_OR_OTHER|||||||0.101|||||||Satterthwaite t-test|||||||0.101
82560490|NCT00413283|164830450|SUPERIORITY_OR_OTHER|||||||0.199|||||||Satterthwaite t-test|||||||0.199
82560491|NCT00413283|164830451|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
82560492|NCT00413283|164830451|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82560493|NCT00413283|164830451|SUPERIORITY_OR_OTHER|||||||0.662|||||||Fisher Exact|||||||0.662
82560494|NCT01928732|164830461|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|1.0|1.65|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Response Odds Ratio (OR). Response is defined as greater than or equal to 10 point improvement in severity.||1.65|1.00|
82489050|NCT01914757|164671468|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116||||0.01|TWO_SIDED|95.0|0.028|0.204|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.204|0.028|0.01
82489051|NCT01914757|164671469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.268|TWO_SIDED|95.0|-0.049|0.176|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.176|-0.049|0.268
82489052|NCT01914757|164671469|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015||||0.786|TWO_SIDED|95.0|-0.127|0.096|||Mixed Models Analysis|Model includes treatment, baseline pre-BD FEV1, region, use of OCS, visit, and treatment by visit||||0.096|-0.127|0.786
82489053|NCT01914757|164671470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.224|TWO_SIDED|95.0|-0.32|0.07|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.07|-0.32|0.224
82489054|NCT01914757|164671470|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.019|TWO_SIDED|95.0|-0.43|-0.04|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||-0.04|-0.43|0.019
82489055|NCT01914757|164671471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.287|TWO_SIDED|95.0|-0.44|0.13|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.13|-0.44|0.287
82489056|NCT01914757|164671471|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.966|TWO_SIDED|95.0|-0.28|0.29|||Mixed Models Analysis|Model includes treatment, baseline Asthma symptom score, region, use of OCS, visit, and visit by treatment.||||0.29|-0.28|0.966
82489057|NCT01914757|164671472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.603|TWO_SIDED|95.0|-0.58|0.99|||Mixed Models Analysis|Model includes treatment, baseline Asthma rescue medication use, region, use of OCS, visit, and visit by treatment.||||0.99|-0.58|0.603
82489058|NCT01914757|164671472|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.209|TWO_SIDED|95.0|-1.29|0.28|||Mixed Models Analysis|Model includes treatment, baseline Asthma medication use, region, use of OCS, visit, and visit by treatment.||||0.28|-1.29|0.209
82560495|NCT01928732|164830461|SUPERIORITY||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|1.12|1.74|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Loss of Diagnosis Odds Ratio (OR). Loss of Diagnosis is defined as Response, plus no longer meeting DSM-5 symptom criteria and severity less than 25.||1.74|1.12|
82560496|NCT01928732|164830461|SUPERIORITY||Odds Ratio (OR)|1.62|||||TWO_SIDED|95.0|1.24|2.0|||||Odds ratios were calculated with CPT as the reference group and reflect the overall main effect of treatment across all outcome assessments (post-treatment, 3-months, and 6-months)|Overall Treatment Effect Remission Odds Ratio (OR). Remission is defined as loss of diagnosis plus severity less than 12.||2.00|1.24|
82560497|NCT01185340|164830469|SUPERIORITY_OR_OTHER|||||||0.751|||||||Mixed Models Analysis|||||||0.751
82560498|NCT01719172|164830488|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The p-value from a one-sided exact test was based on the binomial distribution, testing that the true percent success rate was ≤ 50% versus the alternative hypothesis that the success rate was \> 50%.|t-test, 1 sided|||The primary effectiveness endpoint was the percent (%) success in obtaining hemostasis at the Target Bleeding Site (TBS) within 5 minutes following Veriset™ application. An exact (Clopper-Pearson) 95% confidence interval for the true success percentage was calculated. Subjects who received rescue therapy on the target bleeding site prior to obtaining hemostasis were considered failures.||||<0.0001
82560499|NCT01719172|164830489|SUPERIORITY_OR_OTHER|||||||0.0214||||||The p-value from a one-sided exact test was based on the binomial distribution, testing that the true percent success rate was ≤ 50% versus the alternative hypothesis that the success rate was \> 50%.|t-test, 1 sided|||The number and percentage of subjects who achieved hemostasis within 1 minute were presented. An exact (Clopper-Pearson) 95% confidence interval for the true percentage was calculated.||||0.0214
82560500|NCT01719172|164830490|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||||ONE_SIDED|95.0||1.0||||||Time to achieve hemostasis was analyzed using the Kaplan-Meier method to estimate the survival distribution and to obtain the estimated median time to hemostasis. Additionally, A 95% Brookmeyer-Crowley confidence interval for the median was computed based on the sign test.||1.0||
82560501|NCT01093690|164830514|SUPERIORITY_OR_OTHER|||||||0.41||||||No adjustment.|Chi-squared|1-sided test||the study had 80 percent power to detect an absolute difference of 20 percent in complete response (70% for metoclopramide group vs 50% for control group)||||0.41
82560502|NCT00246129|164830516|SUPERIORITY|||||||0.467|||||||Log Rank|||||||0.467
82560503|NCT00246129|164830517|SUPERIORITY|||||||0.138|||||||Log Rank|||||||0.138
82560504|NCT03740737|164830525|OTHER||Treatment difference|63.0|||<|0.001|TWO_SIDED|95.0|55.5|67.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|||67.1|55.5|<0.001
82560505|NCT03740737|164830526|OTHER||Treatment difference|29.5|||<|0.001|TWO_SIDED|95.0|22.5|33.7|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Ongoing Pregnancy Rate in the Fresh Cycle||33.7|22.5|<0.001
82560506|NCT03740737|164830530|OTHER||Treatment difference|31.8|||<|0.001|TWO_SIDED|95.0|24.7|36.0|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate in the fresh cycle||36.0|24.7|<0.001
82560507|NCT03740737|164830530|OTHER||Treatment difference|68.2|||<|0.001|TWO_SIDED|95.0|61.2|72.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Clinical pregnancy rate cumulatively||72.1|61.2|<0.001
82560508|NCT03740737|164830531|OTHER||Treatment difference|30.5|||<|0.001|TWO_SIDED|95.0|23.4|34.6|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate in the fresh cycle||34.6|23.4|<0.001
82560509|NCT03740737|164830531|OTHER||Treatment difference|65.1|||<|0.001|TWO_SIDED|95.0|57.5|69.1|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Vital pregnancy rate cumulatively||69.1|57.5|<0.001
82560510|NCT03740737|164830533|OTHER||Treatment difference|35.0|||<|0.001|TWO_SIDED|95.0|28.1|39.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate in the fresh cycle||39.2|28.1|<0.001
82560511|NCT03740737|164830533|OTHER||Treatment difference|72.4|||<|0.001|TWO_SIDED|95.0|65.3|76.2|||Fisher Exact||95% exact Agresti-Min confidence intervals.|Positive βhCG rate cumulatively||76.2|65.3|<0.001
82560512|NCT03740737|164830545|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82560513|NCT03740737|164830546|OTHER||||||<|0.001|||||||Wilcoxon rank sum test|||||||<0.001
82560514|NCT03740737|164830547|OTHER|||||||0.22|||||||Fisher Exact|||||||0.220
82560515|NCT03740737|164830548|OTHER|||||||0.588|||||||Fisher Exact|||||||0.588
82560516|NCT00770874|164830603|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.125|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||||1.05|0.67|0.125
82560517|NCT00770874|164830604|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.48|0.8|||Log Rank|||||0.80|0.48|<0.001
82560518|NCT02236611|164830605|NON_INFERIORITY_OR_EQUIVALENCE|Alternate hypothesis: the difference between the trt means (umeclidinium minus glycopyrronium) would be \> -50 milliliters (mL). If the lower CI (2.5% 1-sided significance level) of the statistical test should fall above -50 mL, then umeclidinium may be deemed statistically non-inferior to glycopyrronium. If the lower CI (2.5% 1-sided significance) of the statistical testing exceeded 0 then, umeclidinium may be deemed statistically superior to glycopyrronium.|Mean Difference (Final Values)|0.024||||0.1|TWO_SIDED|95.0|-0.005|0.054|||Mixed Models Analysis|||||0.054|-0.005|0.100
82560519|NCT01335061|164830639|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Paired t-test|||||||<0.0001
82560520|NCT00308308|164830663|NON_INFERIORITY_OR_EQUIVALENCE|Sample size was set to meet regulatory requirement of 250 subjects per arm with 52-week data, resulting in \> 90% power for a non-inferiority test of the difference in 12-month change of HbA1c scores between treatment groups with non-inferiority margin of 0.4%, standard deviation of 1.2 and 1-sided alpha of 0.025. Allowing for a 15% dropout rate, 589 subjects were randomized.|Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.082|||TWO_SIDED|95.0|0.08|0.4|||ANCOVA|||||0.40|0.08|
82560521|NCT00308308|164830664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-2.7|-1.0|||ANCOVA|||ANCOVA model with terms of pooled site and treatment as fixed effects and baseline weight as covariate||-1.0|-2.7|<0.0001
82560522|NCT00308308|164830665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.9|STANDARD_ERROR_OF_MEAN|7.41||0.0052|TWO_SIDED|95.0|-35.4|-6.3|||ANCOVA|||||-6.3|-35.4|0.0052
82560523|NCT00308308|164830666|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.941||||0.8311|TWO_SIDED|95.0|0.536|1.652|||Regression, Logistic|||logistic regression analysis with the terms of treatment and baseline HbA1c in the model||1.652|0.536|0.8311
82560524|NCT00308308|164830667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.488||||0.0124|TWO_SIDED|95.0|0.278|0.856|||Regression, Logistic||Model: Treatment + Site|||0.856|0.278|0.0124
82560525|NCT00308308|164830668|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.825||||0.2786|TWO_SIDED|95.0|0.582|1.169|||Regression, Logistic||Model: Treatment + Site|||1.169|0.582|0.2786
82560526|NCT00308308|164830669|SUPERIORITY_OR_OTHER|||||||0.1193|||||||Generalized Estimation Equation|"* Based on Poisson distribution~* Model: Treatment + Time Period"||||||0.1193
82560527|NCT00308308|164830670|SUPERIORITY_OR_OTHER|||||||0.2131|||||||Generalized Estimating Equation|"* Based on Poisson distribution~* Model: Treatment + Time Period"||||||0.2131
82560528|NCT02551224|164830671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75|||<|0.0001|TWO_SIDED|95.0|0.51|0.99|||Wilcoxon (Mann-Whitney)|||||0.99|0.51|<0.0001
82560529|NCT02551224|164830672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||<|0.0001|TWO_SIDED|95.0|0.21|0.61|||Wilcoxon (Mann-Whitney)|||||0.61|0.21|<0.0001
82560530|NCT01482091|164830705|SUPERIORITY_OR_OTHER|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
82560531|NCT01482091|164830707|SUPERIORITY_OR_OTHER||||||=|0.05|||||||Fisher Exact|||||||=0.05
82560532|NCT01482091|164830708|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82560533|NCT01482091|164830711|SUPERIORITY_OR_OTHER||||||=|0.68|||||||t-test, 2 sided|||||||=0.68
82560534|NCT01482091|164830712|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82560535|NCT01482091|164830713|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82560536|NCT01482091|164830717|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
82560537|NCT02935673|164830724|SUPERIORITY||AUC(1-7) difference vs (pooled) placebo|-0.32|||||TWO_SIDED|95.0|-0.89|0.24|||||||Mixed model for repeated measures, using all available viral load data of baseline and up to and including Day 7, taking missing data into account under the missing at random assumption.|0.24|-0.89|
82560538|NCT02935673|164830724|SUPERIORITY||AUC(1-7) difference vs (pooled) placebo|-0.36|||||TWO_SIDED|95.0|-1.33|0.62|||||||Mixed model for repeated measures, using all available viral load data of baseline and up to and including Day 7, taking missing data into account under the missing at random assumption.|0.62|-1.33|
82560539|NCT04679675|164830759|SUPERIORITY||Risk Ratio (RR)|1.3||||0.05|TWO_SIDED|95.0|1.23|1.36|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Adherent (population):Direct-Mail versus Education analysis.||1.36|1.23|0.05
82560540|NCT04679675|164830759|SUPERIORITY||Risk Ratio (RR)|1.07||||0.05|TWO_SIDED|95.0|1.02|1.12|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Adherent (population):Opt-In versus Education analysis.||1.12|1.02|.05
82560541|NCT04679675|164830759|SUPERIORITY||Risk Ratio (RR)|1.9||||0.05|TWO_SIDED|95.0|1.68|2.16|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Overdue (population):Direct-Mail versus Education analysis.||2.16|1.68|.05
82560542|NCT04679675|164830759|SUPERIORITY||Risk Ratio (RR)|1.14||||0.05|TWO_SIDED|95.0|1.03|1.25|||Poisson Regression with GEE|||Primary analysis stratified by screening history. These results are for Screening-Unknown (population):Opt-In versus Education analysis.||1.25|1.03|.05
82560543|NCT01702259|164830770|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82560544|NCT01702259|164830771|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82560545|NCT01702259|164830772|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82560546|NCT01702259|164830773|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82560547|NCT01228734|164830775|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.629|||<|0.001|TWO_SIDED|95.0|0.498|0.794|||Log Rank|||||0.794|0.498|<0.001
82560548|NCT00089791|164830780|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.32|||<|0.0001||95.0|0.26|0.41||Logistic regression was used to generate the p-value|Mantel Haenszel|||||0.41|0.26|<0.0001
82560549|NCT00089791|164830781|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.0106||95.0|0.67|0.95|||Regression, Cox|||||0.95|0.67|0.0106
82560550|NCT00089791|164830782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.6||||0.0362||95.0|0.37|0.97|||Regression, Cox|||||0.97|0.37|0.0362
82560551|NCT01934452|164830783|SUPERIORITY||Hodges Lehmann estimator|2.8|||<|0.001|TWO_SIDED|95.0|2.2|3.8|||Wilcoxon (Mann-Whitney)|||||3.8|2.2|<0.001
82560552|NCT01934452|164830784|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82584141|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|7.35|STANDARD_ERROR_OF_MEAN|2.84||0.0095|TWO_SIDED|95.0|1.79|12.91|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||12.91|1.79|0.0095
82584142|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|3.37|<|0.0001|TWO_SIDED|95.0|6.63|19.84|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||19.84|6.63|<0.0001
82584143|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|4.69||0.0048|TWO_SIDED|95.0|4.03|22.44|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.44|4.03|0.0048
82584144|NCT03486457|164880271|SUPERIORITY||Difference in percentage of participants|13.24|STANDARD_ERROR_OF_MEAN|6.6||0.0449|TWO_SIDED|95.0|0.3|26.17|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||26.17|0.30|0.0449
82584145|NCT03486457|164880272|SUPERIORITY||Difference in percentage of participants|2.94|STANDARD_ERROR_OF_MEAN|2.29||0.1985|TWO_SIDED|95.0|-1.54|7.42|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||7.42|-1.54|0.1985
82584146|NCT03486457|164880272|SUPERIORITY||Difference in percentage of participants|8.09|STANDARD_ERROR_OF_MEAN|2.91||0.0055|TWO_SIDED|95.0|2.38|13.8|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||13.80|2.38|0.0055
82584147|NCT03486457|164880272|SUPERIORITY||Difference in percentage of participants|27.21|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|18.51|35.9|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||35.90|18.51|<0.0001
82584148|NCT03486457|164880272|SUPERIORITY||Difference in percentage of participants|22.06|STANDARD_ERROR_OF_MEAN|6.37||0.0005|TWO_SIDED|95.0|9.58|34.54|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||34.54|9.58|0.0005
82584149|NCT03486457|164880272|SUPERIORITY||Difference in percentage of participants|18.38|STANDARD_ERROR_OF_MEAN|7.24||0.0111|TWO_SIDED|95.0|4.2|32.57|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.57|4.20|0.0111
82584150|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.044||0.0097|TWO_SIDED|95.0|-0.2|-0.03|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.03|-0.20|0.0097
82584151|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.045||0.0043|TWO_SIDED|95.0|-0.22|-0.04|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.04|-0.22|0.0043
82584152|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.3|-0.11|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.11|-0.30|<0.0001
82651984|NCT01533428|165019120|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.841|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 2 was completed using ANCOVA model.||0.5|-0.6|0.841
82584153|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.053|<|0.0001|TWO_SIDED|95.0|-0.32|-0.11|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.11|-0.32|<0.0001
82584154|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.046||0.0535|TWO_SIDED|95.0|-0.18|0.0|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.18|0.0535
82584155|NCT03486457|164880273|SUPERIORITY||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.044||0.094|TWO_SIDED|95.0|-0.16|0.01|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.16|0.0940
82584156|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|13.07|STANDARD_ERROR_OF_MEAN|8.56||0.127|TWO_SIDED|95.0|-3.72|29.85|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.85|-3.72|0.1270
82651985|NCT01533428|165019120|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.171|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 8 was completed using ANCOVA model.||0.2|-0.9|0.171
82651986|NCT01533428|165019120|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.595|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|Analysis of covariance model including treatment, gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||Comparing the difference between capsaicin 8% and placebo for change from Baseline at Week 12 was completed using ANCOVA model.||0.4|-0.7|0.595
82489059|NCT01914757|164671473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.86||||0.029|TWO_SIDED|95.0|1.59|30.12|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit, and visit by treatment.||Morning PEF Change from Baseline to Week 56||30.12|1.59|0.029
82489060|NCT01914757|164671473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.27||||0.037|TWO_SIDED|95.0|0.9|29.64|||Mixed Models Analysis|Model includes treatment, baseline morning PEF, region, use of OCS, visit, and visit by treatment.||Morning PEF Change from Baseline to Week 56||29.64|0.9|0.037
82489061|NCT01914757|164671473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.54||||0.018|TWO_SIDED|95.0|3.07|32.0|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit, and visit by treatment.||Evening PEF Change from Baseline to Week 56||32|3.07|0.018
82489062|NCT01914757|164671473|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.22||||0.004|TWO_SIDED|95.0|6.65|35.79|||Mixed Models Analysis|Model includes treatment, baseline evening PEF, region, use of OCS, visit, and visit by treatment.||Evening PEF Change from Baseline to Week 56||35.79|6.65|0.004
82489063|NCT01914757|164671474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.4|TWO_SIDED|95.0|-0.06|0.03|||Mixed Models Analysis|Model includes treatment, baseline prop of nights with nocturnal wakening, region, use of OCS, visit, and visit by treatment.||||0.03|-0.06|0.4
82584157|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|4.02|STANDARD_ERROR_OF_MEAN|9.23||0.6634|TWO_SIDED|95.0|-14.07|22.1|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.10|-14.07|0.6634
82584158|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|21.78|STANDARD_ERROR_OF_MEAN|9.46||0.0214|TWO_SIDED|95.0|3.23|40.33|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.33|3.23|0.0214
82584159|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|24.03|STANDARD_ERROR_OF_MEAN|9.46||0.011|TWO_SIDED|95.0|5.5|42.57|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||42.57|5.50|0.0110
82584160|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|12.57|STANDARD_ERROR_OF_MEAN|9.58||0.1896|TWO_SIDED|95.0|-6.21|31.36|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||31.36|-6.21|0.1896
82584161|NCT03486457|164880274|SUPERIORITY||Difference in percentage of participants|6.83|STANDARD_ERROR_OF_MEAN|8.97||0.4466|TWO_SIDED|95.0|-10.75|24.41|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.41|-10.75|0.4466
82489064|NCT01914757|164671474|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.146|TWO_SIDED|95.0|-0.08|0.01|||Mixed Models Analysis|Model includes treatment, baseline prop of nights with nocturnal wakening, region, use of OCS, visit, and visit by treatment.||||0.01|-0.08|0.146
82489065|NCT01914757|164671475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.043|TWO_SIDED|95.0|-0.38|-0.01|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||-0.01|-0.38|0.043
82489066|NCT01914757|164671475|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.008|TWO_SIDED|95.0|-0.44|-0.07|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||-0.07|-0.44|0.008
82489067|NCT01914757|164671476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.078|TWO_SIDED|95.0|-0.51|0.03|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||0.03|-0.51|0.078
82584162|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|13.07|STANDARD_ERROR_OF_MEAN|8.56||0.127|TWO_SIDED|95.0|-3.72|29.85|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.85|-3.72|0.1270
82489068|NCT01914757|164671476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.449|TWO_SIDED|95.0|-0.37|0.16|||Mixed Models Analysis|Model includes treatment, baseline ACQ-6 score, region, use of OCS, visit, and visit by treatment.||||0.16|-0.37|0.449
82489069|NCT01914757|164671477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.46|||<|0.001|TWO_SIDED|95.0|0.31|0.69|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.69|0.31|<0.001
82651987|NCT01533428|165019122|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.0||||0.03|TWO_SIDED|95.0|-17.2|-0.9|||ANCOVA|Analysis of covariance model including treatment,gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-0.9|-17.2|0.030
82489070|NCT01914757|164671477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||0.023|TWO_SIDED|95.0|0.45|0.95|||Cochran-Mantel-Haenszel|Controlling for region, number of exacerbations in the previous year, use of OCS||Proportion of patients with \>=1 asthma exacerbation||0.95|0.45|0.023
82489071|NCT01914757|164671478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.46|0.8|||Regression, Cox|Model includes treatment, region, number of exacerbations in the previous year, use of OCS||Time to first Exacerbation||0.80|0.46|<0.001
82584163|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|4.02|STANDARD_ERROR_OF_MEAN|9.23||0.6634|TWO_SIDED|95.0|-14.07|22.1|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||22.10|-14.07|0.6634
82584164|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|21.78|STANDARD_ERROR_OF_MEAN|9.46||0.0214|TWO_SIDED|95.0|3.23|40.33|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.33|3.23|0.0214
82560553|NCT01934452|164830785|SUPERIORITY|||||||1|||||||Fisher Exact|||Extended or partial nephrectomy||||1.000
82560554|NCT01934452|164830785|SUPERIORITY|||||||0.809|||||||Chi-squared|||Nephrectomy with or without adrenalectomy||||0.809
82560555|NCT01934452|164830785|SUPERIORITY|||||||0.019|||||||Chi-squared|||Nephrectomy with or without curettage||||0.019
82560556|NCT01934452|164830785|SUPERIORITY|||||||0.734|||||||Fisher Exact|||Open or laparoscopic nephrectomy||||0.734
82560557|NCT01934452|164830786|SUPERIORITY||Hodges Lehmann estimator|-3.7||||0.23|TWO_SIDED|95.0|-13.2|1.6|||Wilcoxon (Mann-Whitney)|||||1.6|-13.2|0.230
82560558|NCT01934452|164830787|SUPERIORITY|||||||0.695|||||||Fisher Exact|||Sarcomatoid contingent||||0.695
82560559|NCT01934452|164830788|SUPERIORITY|||||||0.316|||||||Chi-squared|||M class||||0.316
82560560|NCT01934452|164830789|SUPERIORITY||Hodges Lehmann estimator|-2.0||||0.778|TWO_SIDED|95.0|-22.0|18.0|||Wilcoxon (Mann-Whitney)|||||18.0|-22.0|0.778
82560561|NCT01934452|164830790|SUPERIORITY|||||||0.812|||||||Fisher Exact|||||||0.812
82560562|NCT01934452|164830791|SUPERIORITY||Odds Ratio (OR)|2.47||||0.077|TWO_SIDED|95.0|0.9|6.77|||Chi-squared|||Presence of necrosis||6.77|0.90|0.077
82560563|NCT01934452|164830791|SUPERIORITY||Odds Ratio (OR)|1.25||||0.673|TWO_SIDED|95.0|0.44|3.52|||Chi-squared|||Vascular embolism||3.52|0.44|0.673
82560564|NCT01934452|164830791|SUPERIORITY||Odds Ratio (OR)|1.04||||1|TWO_SIDED|95.0|0.27|3.97|||Fisher Exact|||Sarcomatoid component||3.97|0.27|1.000
82560565|NCT01934452|164830792|SUPERIORITY||Hodges Lehmann estimator|-0.2||||0.865|TWO_SIDED|95.0|-1.5|1.6|||Wilcoxon (Mann-Whitney)|||||1.6|-1.5|0.865
82560566|NCT01934452|164830793|SUPERIORITY|||||||0.011|||||||Chi-squared|||Lung||||0.011
82560567|NCT01934452|164830793|SUPERIORITY|||||||0.132|||||||Chi-squared|||Bones||||0.132
82560568|NCT01934452|164830793|SUPERIORITY|||||||0.473|||||||Chi-squared|||Liver||||0.473
82560569|NCT01934452|164830793|SUPERIORITY|||||||0.101|||||||Fisher Exact|||Adrenal glands||||0.101
82560570|NCT01934452|164830793|SUPERIORITY|||||||0.445|||||||Fisher Exact|||Pancreas||||0.445
82560571|NCT01934452|164830793|SUPERIORITY|||||||0.04|||||||Chi-squared|||Lymph nodes||||0.040
82560572|NCT01934452|164830794|SUPERIORITY|||||||1|||||||Fisher Exact|||Supradiaphragmatic||||1.000
82560573|NCT01934452|164830794|SUPERIORITY|||||||0.295|||||||Fisher Exact|||Infradiaphragmatic||||0.295
82560574|NCT01934452|164830795|SUPERIORITY|||||||0.042|||||||Fisher Exact|||||||0.042
82560575|NCT01934452|164830796|SUPERIORITY|||||||0.027|||||||Chi-squared|||||||0.027
82560576|NCT01934452|164830797|SUPERIORITY||Hodges Lehmann estimator|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|-1.0|||Wilcoxon (Mann-Whitney)|||||-1.0|-1.0|<0.001
82560577|NCT01934452|164830798|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
82560578|NCT02449902|164830844|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82560579|NCT02449902|164830845|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANOVA|||||||0.0002
82560580|NCT02449902|164830846|SUPERIORITY_OR_OTHER|||||||0.0017|TWO_SIDED||||||ANCOVA|||||||0.0017
82560581|NCT02449902|164830847|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
82560582|NCT02449902|164830848|SUPERIORITY_OR_OTHER|||||||0.9951|TWO_SIDED||||||ANOVA|||||||0.9951
82560583|NCT02449902|164830849|SUPERIORITY_OR_OTHER|||||||0.1429|TWO_SIDED||||||Fisher Exact|||||||0.1429
82560584|NCT02449902|164830850|SUPERIORITY_OR_OTHER|||||||0.1945|TWO_SIDED||||||ANCOVA|||||||0.1945
82560585|NCT02449902|164830851|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
82560586|NCT02449902|164830852|SUPERIORITY_OR_OTHER|||||||0.182|TWO_SIDED||||||ANCOVA|||||||0.1820
82560587|NCT02449902|164830853|SUPERIORITY_OR_OTHER|||||||0.0401|TWO_SIDED||||||ANCOVA|||||||0.0401
82560588|NCT02362789|164830857|SUPERIORITY||Mean Difference (Net)|-18.3||||0.0055|TWO_SIDED|95.0|-31.01|-5.59|||ANCOVA|||||-5.59|-31.01|0.0055
82560589|NCT00621842|164830871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.5|||<|0.01|TWO_SIDED|95.0|-18.0|-12.9|||t-test, 2 sided|df=53||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||-12.9|-18.0|<.01
82560590|NCT00621842|164830873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.2|||<|0.01|TWO_SIDED|95.0|-17.5|-12.9|||t-test, 2 sided|||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||-12.9|-17.5|<.01
82560591|NCT00621842|164830874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.49|TWO_SIDED|95.0|-1.82|0.88|||t-test, 2 sided|||The null hypothesis is that the mean difference score between the 12 week time point or LOCF and baseline is zero.||.88|-1.82|.49
82560592|NCT00621842|164830875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.01|TWO_SIDED|95.0|-2.43|-1.68|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||-1.68|-2.43|<.01
82560593|NCT00621842|164830876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.8|TWO_SIDED|95.0|-0.36|0.28|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||.28|-.36|.80
82560594|NCT00621842|164830877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.83||||0.36||95.0|-0.97|2.62|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||2.62|-.97|.36
82560595|NCT00621842|164830879|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.08|TWO_SIDED|95.0|-1.67|0.09|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||.09|-1.67|.08
82560596|NCT00621842|164830880|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.04||95.0|-1.03|-0.04|||t-test, 2 sided|||The null hypothesis is that the mean difference between the 12 week time point or LOCF and baseline is zero.||-.04|-1.03|.04
82560597|NCT05074433|164830884|SUPERIORITY||Hazard Ratio (HR)|0.563|||||TWO_SIDED|95.0|0.093|3.393|||Cox proportional hazard model|||||3.393|0.093|
82560598|NCT05074433|164830884|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.072|2.929|||Cox proportional hazard model|||||2.929|0.072|
82560599|NCT05074433|164830884|SUPERIORITY||Cox Proportional Hazard|0.609|||||TWO_SIDED|95.0|0.101|3.668|||Cox proportional hazard model|||||3.668|0.101|
82560600|NCT01235936|164830937|OTHER|The primary endpoint was compared using the Wilcoxon signed-rank test, with an alpha level of 0.05.||||||0.002|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||0.0020
82584165|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|24.03|STANDARD_ERROR_OF_MEAN|9.46||0.011|TWO_SIDED|95.0|5.5|42.57|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||42.57|5.50|0.0110
82584166|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|12.57|STANDARD_ERROR_OF_MEAN|9.58||0.1896|TWO_SIDED|95.0|-6.21|31.36|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||31.36|-6.21|0.1896
82584167|NCT03486457|164880275|SUPERIORITY||Difference in percentage of participants|6.83|STANDARD_ERROR_OF_MEAN|8.97||0.4466|TWO_SIDED|95.0|-10.75|24.41|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||24.41|-10.75|0.4466
82584168|NCT03486457|164880276|SUPERIORITY||LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|0.633|<|0.0001|TWO_SIDED|95.0|-3.95|-1.45|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.45|-3.95|<0.0001
82584169|NCT03486457|164880276|SUPERIORITY||LS mean difference|-3.79|STANDARD_ERROR_OF_MEAN|0.711|<|0.0001|TWO_SIDED|95.0|-5.2|-2.39|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.39|-5.20|<0.0001
82584170|NCT03486457|164880276|SUPERIORITY||LS mean difference|-4.89|STANDARD_ERROR_OF_MEAN|0.76|<|0.0001|TWO_SIDED|95.0|-6.39|-3.39|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.39|-6.39|<0.0001
82584171|NCT03486457|164880276|SUPERIORITY||LS mean difference|-5.85|STANDARD_ERROR_OF_MEAN|0.852|<|0.0001|TWO_SIDED|95.0|-7.53|-4.17|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.17|-7.53|<0.0001
82584172|NCT03486457|164880276|SUPERIORITY||LS mean difference|-3.2|STANDARD_ERROR_OF_MEAN|0.583|<|0.0001|TWO_SIDED|95.0|-4.35|-2.04|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.04|-4.35|<0.0001
82584173|NCT03486457|164880276|SUPERIORITY||LS mean difference|-2.59|STANDARD_ERROR_OF_MEAN|0.668||0.0002|TWO_SIDED|95.0|-3.91|-1.27|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.27|-3.91|0.0002
82584174|NCT03486457|164880277|SUPERIORITY||LS mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.012||0.001|TWO_SIDED|95.0|-5.4|-1.4|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.40|-5.40|0.0010
82584175|NCT03486457|164880277|SUPERIORITY||LS mean difference|-5.03|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|95.0|-7.05|-3.01|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.01|-7.05|<0.0001
82489072|NCT01914757|164671478|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.018|TWO_SIDED|95.0|0.55|0.95|||Regression, Cox|Model includes treatment, region, number of exacerbations in the previous year, use of OCS||Time to first asthma exacerbation||0.95|0.55|0.018
82584176|NCT03486457|164880277|SUPERIORITY||LS mean difference|-5.68|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|-7.7|-3.66|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.66|-7.70|<0.0001
82584177|NCT03486457|164880277|SUPERIORITY||LS mean difference|-7.01|STANDARD_ERROR_OF_MEAN|1.111|<|0.0001|TWO_SIDED|95.0|-9.2|-4.82|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.82|-9.20|<0.0001
82584178|NCT03486457|164880277|SUPERIORITY||LS mean difference|-3.95|STANDARD_ERROR_OF_MEAN|1.073||0.0003|TWO_SIDED|95.0|-6.07|-1.83|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.83|-6.07|0.0003
82584179|NCT03486457|164880277|SUPERIORITY||LS mean difference|-2.39|STANDARD_ERROR_OF_MEAN|1.108||0.0323|TWO_SIDED|95.0|-4.58|-0.2|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.20|-4.58|0.0323
82584180|NCT03486457|164880278|SUPERIORITY||LS mean difference|-6.57|STANDARD_ERROR_OF_MEAN|2.481||0.0087|TWO_SIDED|95.0|-11.46|-1.68|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.68|-11.46|0.0087
82584181|NCT03486457|164880278|SUPERIORITY||LS mean difference|-11.7|STANDARD_ERROR_OF_MEAN|2.487|<|0.0001|TWO_SIDED|95.0|-16.6|-6.79|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.79|-16.60|<0.0001
82584182|NCT03486457|164880278|SUPERIORITY||LS mean difference|-16.14|STANDARD_ERROR_OF_MEAN|2.796|<|0.0001|TWO_SIDED|95.0|-21.66|-10.63|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.63|-21.66|<0.0001
82584183|NCT03486457|164880278|SUPERIORITY||LS mean difference|-21.87|STANDARD_ERROR_OF_MEAN|3.027|<|0.0001|TWO_SIDED|95.0|-27.84|-15.9|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-15.90|-27.84|<0.0001
82584184|NCT03486457|164880278|SUPERIORITY||LS mean difference|-6.94|STANDARD_ERROR_OF_MEAN|2.865||0.0163|TWO_SIDED|95.0|-12.6|-1.29|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.29|-12.60|0.0163
82489073|NCT01914757|164671479|SUPERIORITY_OR_OTHER||Rate Ratio|0.93||||0.837|TWO_SIDED|95.0|0.48|1.82|||negative binomial|Model includes treatment, region, any prior exacerbation resulting ER/Hospitalization, use of OCS||||1.82|0.48|0.837
82584185|NCT03486457|164880278|SUPERIORITY||LS mean difference|-3.1|STANDARD_ERROR_OF_MEAN|2.967||0.2977|TWO_SIDED|95.0|-8.95|2.76|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.76|-8.95|0.2977
82584186|NCT03486457|164880279|SUPERIORITY||LS mean difference|-6.15|STANDARD_ERROR_OF_MEAN|2.646||0.0211|TWO_SIDED|95.0|-11.37|-0.93|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.93|-11.37|0.0211
82584187|NCT03486457|164880279|SUPERIORITY||LS mean difference|-13.08|STANDARD_ERROR_OF_MEAN|2.79|<|0.0001|TWO_SIDED|95.0|-18.59|-7.58|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-7.58|-18.59|<0.0001
82584188|NCT03486457|164880279|SUPERIORITY||LS mean difference|-13.16|STANDARD_ERROR_OF_MEAN|2.928|<|0.0001|TWO_SIDED|95.0|-18.93|-7.38|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-7.38|-18.93|<0.0001
82584189|NCT03486457|164880279|SUPERIORITY||LS mean difference|-18.77|STANDARD_ERROR_OF_MEAN|3.187|<|0.0001|TWO_SIDED|95.0|-25.06|-12.49|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.49|-25.06|<0.0001
82584190|NCT03486457|164880279|SUPERIORITY||LS mean difference|-7.01|STANDARD_ERROR_OF_MEAN|2.827||0.014|TWO_SIDED|95.0|-12.59|-1.43|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-1.43|-12.59|0.0140
82584191|NCT03486457|164880279|SUPERIORITY||LS mean difference|-5.14|STANDARD_ERROR_OF_MEAN|2.931||0.0811|TWO_SIDED|95.0|-10.93|0.64|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.64|-10.93|0.0811
82584192|NCT03486457|164880280|SUPERIORITY||LS mean difference|-9.64|STANDARD_ERROR_OF_MEAN|1.939|<|0.0001|TWO_SIDED|95.0|-13.46|-5.81|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.81|-13.46|<0.0001
82584193|NCT03486457|164880280|SUPERIORITY||LS mean difference|-9.52|STANDARD_ERROR_OF_MEAN|2.305|<|0.0001|TWO_SIDED|95.0|-14.07|-4.98|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-4.98|-14.07|<0.0001
82584194|NCT03486457|164880280|SUPERIORITY||LS mean difference|-16.97|STANDARD_ERROR_OF_MEAN|2.472|<|0.0001|TWO_SIDED|95.0|-21.85|-12.1|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.10|-21.85|<0.0001
82584195|NCT03486457|164880280|SUPERIORITY||LS mean difference|-18.42|STANDARD_ERROR_OF_MEAN|2.506|<|0.0001|TWO_SIDED|95.0|-23.36|-13.48|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-13.48|-23.36|<0.0001
82584196|NCT03486457|164880280|SUPERIORITY||LS mean difference|-7.22|STANDARD_ERROR_OF_MEAN|2.453||0.0037|TWO_SIDED|95.0|-12.06|-2.38|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.38|-12.06|0.0037
82584197|NCT03486457|164880280|SUPERIORITY||LS mean difference|-7.66|STANDARD_ERROR_OF_MEAN|2.267||0.0009|TWO_SIDED|95.0|-12.13|-3.18|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-3.18|-12.13|0.0009
82584198|NCT03486457|164880281|SUPERIORITY||LS mean difference|-7.2|STANDARD_ERROR_OF_MEAN|1.108|<|0.0001|TWO_SIDED|95.0|-9.39|-5.02|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.02|-9.39|<0.0001
82584199|NCT03486457|164880281|SUPERIORITY||LS mean difference|-7.87|STANDARD_ERROR_OF_MEAN|1.171|<|0.0001|TWO_SIDED|95.0|-10.18|-5.56|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.56|-10.18|<0.0001
82651988|NCT01533428|165019122|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.5||||0.02|TWO_SIDED|95.0|-17.4|-1.5|||ANCOVA|Analysis of covariance model including treatment,gender, pain score at baseline, HbA1c at screening and site as factors/covariates.||All statistical comparisons were made using two-sided tests at the 5% significance level.||-1.5|-17.4|0.020
82651989|NCT02473991|165019160|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||Null hypothesis In normal pregnant women, placental thickness during second trimesters may be correlated with birth weight at term.||||<0.01
82584200|NCT03486457|164880281|SUPERIORITY||LS mean difference|-7.41|STANDARD_ERROR_OF_MEAN|1.182|<|0.0001|TWO_SIDED|95.0|-9.74|-5.08|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.08|-9.74|<0.0001
82584201|NCT03486457|164880281|SUPERIORITY||LS mean difference|-7.8|STANDARD_ERROR_OF_MEAN|1.221|<|0.0001|TWO_SIDED|95.0|-10.21|-5.39|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.39|-10.21|<0.0001
82651990|NCT02473991|165019161|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Regression, Linear|||Null hypothesis In normal pregnant women, placental thickness during third trimesters may be correlated with birth weight at term.||||<0.01
82651991|NCT04345471|165019162|SUPERIORITY|To adjust for the multiplicity, only when the superiority of MD-120 50 mg to Placebo was verified, the superiority of MD-120 100 mg to Placebo was tested.|LS mean difference|-0.6||||0.509|TWO_SIDED|95.0|-2.5|1.2||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||1.2|-2.5|0.509
82489074|NCT01914757|164671479|SUPERIORITY_OR_OTHER||Rate Ratio|1.23||||0.538|TWO_SIDED|95.0|0.64|2.35|||negative binomial|Model includes treatment, region, any prior exacerbation resulting ER/Hospitalization, use of OCS||||2.35|0.64|0.538
82489075|NCT01914757|164671483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.119|TWO_SIDED|95.0|-0.04|0.37|||Mixed Models Analysis|Model includes treatment, baseline AQLQ score, region, use of OCS, visit, visit by treatment.||||0.37|-0.04|0.119
82489076|NCT01914757|164671483|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24||||0.019|TWO_SIDED|95.0|0.04|0.45|||Mixed Models Analysis|Model includes treatment, baseline AQLQ score, region, use of OCS, visit, visit by treatment.||||0.45|0.04|0.019
82489077|NCT01147640|164671493|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.4|||||TWO_SIDED|||||||||||||
82489078|NCT01147640|164671494|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.2|||||TWO_SIDED|95.0||||||||||||
82489079|NCT01856907|164671500|SUPERIORITY|||||||0.035|||||||McNemar|||Study change from dysglycemia to normal glucose state||||.035
82489080|NCT01856907|164671501|SUPERIORITY|||||||0.044|||||||ANOVA|||Subjects (SS)/ Treatment Group x repeated measures (visit) design||||0.044
82584202|NCT03486457|164880281|SUPERIORITY||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.615||0.6264|TWO_SIDED|95.0|-0.91|1.51|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||1.51|-0.91|0.6264
82651992|NCT04345471|165019162|SUPERIORITY|To adjust for the multiplicity, only when the superiority of MD-120 50 mg to Placebo was verified, the superiority of MD-120 100 mg to Placebo was tested.|LS mean difference|-1.4||||0.131|TWO_SIDED|95.0|-3.3|0.4||A priori threshold for statistical significance is p\<0.05, 2-sided. The value was based on the post-hoc analysis by not taking into account the multiplicity.|MMRM|||||0.4|-3.3|0.131
82651993|NCT04345471|165019164|SUPERIORITY||LS mean difference|-0.2||||0.811|TWO_SIDED|95.0|-1.5|1.2||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||1.2|-1.5|0.811
82489081|NCT01856907|164671502|SUPERIORITY|||||||0.034|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.034
82489082|NCT01856907|164671503|SUPERIORITY|||||||0.047|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||.047
82489083|NCT01856907|164671504|SUPERIORITY|||||||0.017|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.017
82489084|NCT01856907|164671505|SUPERIORITY|||||||0.014|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.014
82489085|NCT01856907|164671506|SUPERIORITY|||||||0.042|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.042
82489086|NCT01856907|164671507|SUPERIORITY|||||||0.002|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.002
82489087|NCT01856907|164671508|SUPERIORITY|||||||0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.004
82489088|NCT01856907|164671509|SUPERIORITY|||||||0.004|||||||ANOVA|||Factorial repeated measures ANOVA with Bonferroni contrast test||||0.004
82489089|NCT01856907|164671510|SUPERIORITY|||||||0.9|||||||Fisher Exact|||||||0.9
82489090|NCT00091442|164671514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.5988||95.0|0.86|1.3||Not adjusted for multiple comparison.|Log Rank|||Null Hypothesis: Designed to detect an improvement in median survival from 15 months to 19.5 months with 80% power.||1.3|0.86|0.5988
82489091|NCT00091442|164671515|SUPERIORITY_OR_OTHER|||||||0.0085||95.0||||Not adjusted for multiple comparison|Cochran-Mantel-Haenszel|||Null hypothesis - no difference in response rate between the two treatment groups.||||0.0085
82489092|NCT00091442|164671516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001||95.0|0.55|0.77|||Log Rank|||"Null hypothersis - no difference in Time to Progression (TTP) between the two treatment groups.~Designed to detect an improvement in median TTP from 6 months to 7.8 months with 80% power, assuming exponential survival distribution."||0.77|0.55|<0.0001
82489093|NCT00986830|164671538|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value of \<0.05 was considered statistically significant.|t-test, 2 sided||||A reduction in SNOT-20 score of 0.8 or more is considered clinically meaningful.|||<0.0001
82489094|NCT00986830|164671539|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82489095|NCT00986830|164671540|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82560601|NCT01235936|164830938|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0156|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0156
82560602|NCT01235936|164830939|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.||||||0.0098|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||0.0098
82560603|NCT01235936|164830940|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0195|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0195
82560604|NCT01235936|164830941|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.8262|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.8262
82489096|NCT00986830|164671541|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82489097|NCT00986830|164671542|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 is considered statistically significant.|t-test, 2 sided|||||||<0.0001
82489098|NCT00986830|164671543|SUPERIORITY|||||||0.009||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||0.009
82489099|NCT00986830|164671544|SUPERIORITY|||||||0.292||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||0.292
82584203|NCT03486457|164880281|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.778||0.1008|TWO_SIDED|95.0|-2.82|0.25|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.25|-2.82|0.1008
82584204|NCT03486457|164880282|SUPERIORITY||Difference in percentage of participants|0.44|STANDARD_ERROR_OF_MEAN|1.77||0.8032|TWO_SIDED|95.0|-3.02|3.9|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||3.90|-3.02|0.8032
82584205|NCT03486457|164880282|SUPERIORITY||Difference in percentage of participants|7.47|STANDARD_ERROR_OF_MEAN|3.44||0.0298|TWO_SIDED|95.0|0.73|14.21|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||14.21|0.73|0.0298
82584206|NCT03486457|164880282|SUPERIORITY||Difference in percentage of participants|-11.19|STANDARD_ERROR_OF_MEAN|6.48||0.084|TWO_SIDED|95.0|-23.88|1.5|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||1.50|-23.88|0.0840
82584207|NCT03486457|164880283|SUPERIORITY||LS mean difference|-0.35|STANDARD_ERROR_OF_MEAN|0.111||0.002|TWO_SIDED|95.0|-0.57|-0.13|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.13|-0.57|0.0020
82584208|NCT03486457|164880283|SUPERIORITY||LS mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.87|-0.32|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.32|-0.87|<0.0001
82584209|NCT03486457|164880283|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.156||0.9678|TWO_SIDED|95.0|-0.3|0.31|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.31|-0.30|0.9678
82584210|NCT03486457|164880284|SUPERIORITY||Difference in percentage of participants|14.96|STANDARD_ERROR_OF_MEAN|5.78||0.0097|TWO_SIDED|95.0|3.63|26.3|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||26.30|3.63|0.0097
82584211|NCT03486457|164880284|SUPERIORITY||Difference in percentage of participants|24.89|STANDARD_ERROR_OF_MEAN|8.2||0.0024|TWO_SIDED|95.0|8.81|40.97|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||40.97|8.81|0.0024
82584212|NCT03486457|164880284|SUPERIORITY||Difference in percentage of participants|-17.93|STANDARD_ERROR_OF_MEAN|11.03||0.1042|TWO_SIDED|95.0|-39.55|3.7|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||3.70|-39.55|0.1042
82584213|NCT03486457|164880285|SUPERIORITY||LS mean difference|-25.89|STANDARD_ERROR_OF_MEAN|7.858||0.0014|TWO_SIDED|95.0|-41.49|-10.29|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.29|-41.49|0.0014
82584214|NCT03486457|164880285|SUPERIORITY||LS mean difference|-34.91|STANDARD_ERROR_OF_MEAN|8.948||0.0002|TWO_SIDED|95.0|-52.69|-17.13|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-17.13|-52.69|0.0002
82584215|NCT03486457|164880285|SUPERIORITY||LS mean difference|5.31|STANDARD_ERROR_OF_MEAN|10.663||0.62|TWO_SIDED|95.0|-15.9|26.51|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||26.51|-15.90|0.6200
82584216|NCT03486457|164880286|SUPERIORITY||LS mean difference|-39.65|STANDARD_ERROR_OF_MEAN|10.862||0.0004|TWO_SIDED|95.0|-61.21|-18.08|||Mixed Models Analysis|||Month 1, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-18.08|-61.21|0.0004
82584217|NCT03486457|164880286|SUPERIORITY||LS mean difference|-25.18|STANDARD_ERROR_OF_MEAN|8.453||0.0037|TWO_SIDED|95.0|-41.97|-8.4|||Mixed Models Analysis|||Month 1, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-8.40|-41.97|0.0037
82584218|NCT03486457|164880286|SUPERIORITY||LS mean difference|-21.3|STANDARD_ERROR_OF_MEAN|10.423||0.0438|TWO_SIDED|95.0|-42.0|-0.61|||Mixed Models Analysis|||Month 1, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.61|-42.00|0.0438
82584219|NCT03486457|164880286|SUPERIORITY||LS mean difference|-49.11|STANDARD_ERROR_OF_MEAN|10.529|<|0.0001|TWO_SIDED|95.0|-70.03|-28.19|||Mixed Models Analysis|||Month 3, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-28.19|-70.03|<0.0001
82584220|NCT03486457|164880286|SUPERIORITY||LS mean difference|-29.71|STANDARD_ERROR_OF_MEAN|9.47||0.0023|TWO_SIDED|95.0|-48.52|-10.89|||Mixed Models Analysis|||Month 3, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-10.89|-48.52|0.0023
82584221|NCT03486457|164880286|SUPERIORITY||LS mean difference|-36.78|STANDARD_ERROR_OF_MEAN|10.72||0.0009|TWO_SIDED|95.0|-58.08|-15.49|||Mixed Models Analysis|||Month 3, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-15.49|-58.08|0.0009
82651994|NCT04345471|165019164|SUPERIORITY||LS mean difference|-0.5||||0.424|TWO_SIDED|95.0|-1.9|0.8||A priori threshold for statistical significance is p\<0.05, 2-sided.|MMRM|||||0.8|-1.9|0.424
82651995|NCT03118739|165019176|SUPERIORITY||Mean % Change from Baseline|-39.37|||||TWO_SIDED|90.0|-61.785|-3.814||||||||-3.814|-61.785|
82489100|NCT00986830|164671545|SUPERIORITY||||||<|0.0001||||||Paired t-tests were used to calculate the p-values and evaluate whether the change in outcomes from baseline to follow-up were statistically different from zero. A p value \<0.05 indicates statistical significance.|t-test, 2 sided|||||||<0.0001
82560605|NCT01235936|164830947|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.002|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0020
82560606|NCT01235936|164830948|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.2383|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.2383
82560607|NCT01235936|164830949|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0039|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0039
82560608|NCT01235936|164830950|OTHER|The test was based on Wilcoxon signed rank test, with an alpha level of 0.05.|||||=|0.0039|||||||Wilcoxon signed rank test|||Analysis of change from baseline on Day 29||||=0.0039
82560609|NCT05270460|164830972|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0||||Adjustment for multiple comparisons were made using Dunnett's test at the overall alpha = 0.05 significance level|ANCOVA|Fixed effects for treatment group (PCS12852 0.1 mg, PCS12852 0.5 mg, and Placebo) and type (IG or DG) and the baseline value as a continuous covariate||||||<0.05
82560610|NCT05270460|164830973|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|Fixed effects for treatment group (PCS12852 0.1 mg, PCS12852 0.5 mg, and Placebo) and type (IG or DG) and the baseline value as a continuous covariate||||||<0.05
82560611|NCT05270460|164830974|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82560612|NCT05270460|164830975|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82560613|NCT05270460|164830976|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82560614|NCT05270460|164830977|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82560615|NCT05270460|164830978|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82560616|NCT05270460|164830979|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82560617|NCT05270460|164830980|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82560618|NCT05270460|164830981|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82560619|NCT00380250|164830982|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117|||||||van Elteren nonparametric test|Adjusted for center||||||0.117
82560620|NCT00380250|164830983|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|||||||van Elteren nonparametric test|Adjusted for center||||||0.006
82560621|NCT00380250|164830984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||van Elteren nonparametric test|Adjusted for center||||||0.050
82560622|NCT00380250|164830985|SUPERIORITY_OR_OTHER_LEGACY|||||||0.159|||||||van Elteren nonparametric test|Adjusted for center||||||0.159
82560623|NCT00380250|164830986|SUPERIORITY_OR_OTHER_LEGACY|||||||0.378|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.378
82560624|NCT00380250|164830987|SUPERIORITY_OR_OTHER_LEGACY|||||||0.588|||||||ANCOVA|Adjusted for clinical site||||||0.588
82560625|NCT00380250|164830988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.029||||||No adjustment|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||90% statistical power to detect 70.6% improvement in response with lubiprostone||||0.029
82560626|NCT00380250|164830989|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.028
82560627|NCT00380250|164830990|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.069
82560628|NCT00380250|164830991|SUPERIORITY_OR_OTHER_LEGACY|||||||0.098||||||Sequential closed testing procedures were employed|Cochran-Mantel-Haenszel|Stratified by pooled center, used to test the null hypothesis of equal rates between the 2 groups vs. the alternate hypothesis of non-equality||||||0.098
82560629|NCT00380250|164830992|SUPERIORITY_OR_OTHER_LEGACY|||||||0.286|||||||van Elteren nonparametric test|Adjusted for center||||||0.286
82560630|NCT00380250|164830993|SUPERIORITY_OR_OTHER_LEGACY|||||||0.337|||||||van Elteren nonparametric test|Adjusted for center||||||0.337
82560631|NCT00380250|164830994|SUPERIORITY_OR_OTHER_LEGACY|||||||0.334|||||||van Elteren nonparametric test|Adjusted for center||||||0.334
82560632|NCT00380250|164830995|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||van Elteren nonparametric test|Adjusted for center||||||0.242
82560633|NCT00380250|164830996|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03|||||||van Elteren nonparametric test|Adjusted for center||||||0.030
82560634|NCT00380250|164830997|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||van Elteren nonparametric test|Adjusted for center||||||0.130
82560635|NCT00380250|164830998|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||van Elteren nonparametric test|Adjusted for center||||||0.049
82560636|NCT00380250|164830999|SUPERIORITY_OR_OTHER_LEGACY|||||||0.348|||||||van Elteren nonparametric test|Adjusted for center||||||0.348
82560637|NCT00380250|164831000|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064|||||||van Elteren nonparametric test|Adjusted for center||||||0.064
82560638|NCT00380250|164831001|SUPERIORITY_OR_OTHER_LEGACY|||||||0.111|||||||van Elteren nonparametric test|||||||0.111
82560639|NCT00380250|164831002|SUPERIORITY_OR_OTHER_LEGACY|||||||0.144|||||||Cochran-Mantel-Haenszel|Stratified by pooled center||||||0.144
82560640|NCT00380250|164831003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.168|||||||Cochran-Mantel-Haenszel|Adjusted by pooled center||||||0.168
82560641|NCT00380250|164831004|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615|||||||van Elteren nonparametic test|Adjusted for center||||||0.615
82560642|NCT00380250|164831005|SUPERIORITY_OR_OTHER_LEGACY|||||||0.108|||||||van Elteren nonparametric test|||||||0.108
82560643|NCT00380250|164831006|SUPERIORITY_OR_OTHER_LEGACY|||||||0.483|||||||van Elteren nonparametric test|||||||0.483
82560644|NCT00380250|164831007|SUPERIORITY_OR_OTHER_LEGACY|||||||0.491|||||||van Elteren nonparametric test|||||||0.491
82560645|NCT00380250|164831008|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
82489101|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.09||||0.42|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Total Score - Treatment Effect - Month 3||||0.42
82489102|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.32|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Emotional Burden Subscale - Treatment Effect - Month 3||||0.32
82489103|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.36|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physician-Related Distress Subscale - Treatment Effect - Month 3||||0.36
82489104|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.17||||0.23|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Regimen-Related Distress Subscale - Treatment Effect - Month 3||||0.23
82489105|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression model with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.18||||0.26|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Interpersonal Distress Subscale - Treatment Effect - Month 3||||0.26
82489106|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Treatment Effect|0.007||||0.95|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Total Score - Treatment Effect - Month 6||||0.95
82489107|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.01||||0.92|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Emotional Burden Subscale - Treatment Effect - Month 6||||0.92
82489108|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.07||||0.59|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physician-Related Distress Subscale - Treatment Effect - Month 6||||0.59
82489109|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.08||||0.54|TWO_SIDED|||||alpha = 0.05|Interaction Term|||Regimen-Related Distress Subscale - Treatment Effect - Month 6||||0.54
82560646|NCT00380250|164831009|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
82560647|NCT00380250|164831010|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||van Elteren nonparametric test|Adjusted for center||||||<0.001
82560648|NCT05613088|164831023|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.4063|TWO_SIDED|95.0|0.76|2.0|||Log Rank|||||2.00|0.76|0.4063
82560649|NCT03205488|164831036|SUPERIORITY|||||||0.3626|||||||Fisher Exact|One-sided Fisher's Exact tested the proportion of participants who met tolerability between the Nilotinib 150 group to the Placebo group.||||||0.3626
82560650|NCT03205488|164831036|SUPERIORITY|||||||0.3895|||||||Fisher Exact|One-sided Fisher's Exact tested the proportion of participants who met tolerability between the Nilotinib 300 group to the Placebo group.||||||0.3895
82560651|NCT03205488|164831037|EQUIVALENCE|H0 : p1 = p2, where p represents the proportion of SAEs for each group. HA : p1 ≠ p2||||||1|||||||Fisher Exact|Fisher's Exact test compared a proportion of participants who experienced any serious adverse event in the Nilotinib 150 group and the Placebo group.||||||1.00
82560652|NCT03205488|164831037|EQUIVALENCE|H0 : λ1 = λ2, where λ represents the rate of SAEs for each group. HA : λ1 ≠ λ2|Risk Ratio (RR)|0.4977||||0.5689|TWO_SIDED|95.0|0.0451|5.489|||Regression, Poisson|Rates of serious adverse event between the Nilotinib 150 group and the placebo were also compared using a Poisson regression model||||5.489|0.0451|0.5689
82489110|NCT04041375|164671563|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.3||||0.05|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Interpersonal Distress Subscale - Treatment Effect - Month 6||||0.05
82584222|NCT03486457|164880286|SUPERIORITY||LS mean difference|7.03|STANDARD_ERROR_OF_MEAN|10.495||0.5048|TWO_SIDED|95.0|-13.84|27.9|||Mixed Models Analysis|||Month 6, Erythema: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||27.90|-13.84|0.5048
82584223|NCT03486457|164880286|SUPERIORITY||LS mean difference|9.16|STANDARD_ERROR_OF_MEAN|12.273||0.4575|TWO_SIDED|95.0|-15.24|33.57|||Mixed Models Analysis|||Month 6, Induration: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||33.57|-15.24|0.4575
82584224|NCT03486457|164880286|SUPERIORITY||LS mean difference|0.69|STANDARD_ERROR_OF_MEAN|11.539||0.9523|TWO_SIDED|95.0|-22.26|23.65|||Mixed Models Analysis|||Month 6, Scaling: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||23.65|-22.26|0.9523
82584225|NCT03486457|164880287|SUPERIORITY||LS mean difference|-28.69|STANDARD_ERROR_OF_MEAN|8.386||0.0008|TWO_SIDED|95.0|-45.24|-12.15|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-12.15|-45.24|0.0008
82584226|NCT03486457|164880287|SUPERIORITY||LS mean difference|-46.47|STANDARD_ERROR_OF_MEAN|10.632|<|0.0001|TWO_SIDED|95.0|-67.45|-25.49|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-25.49|-67.45|<0.0001
82584227|NCT03486457|164880287|SUPERIORITY||LS mean difference|-26.76|STANDARD_ERROR_OF_MEAN|10.778||0.0141|TWO_SIDED|95.0|-48.05|-5.47|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-5.47|-48.05|0.0141
82584228|NCT03486457|164880288|SUPERIORITY||LS mean difference|-10.75|STANDARD_ERROR_OF_MEAN|2.399|<|0.0001|TWO_SIDED|95.0|-15.48|-6.02|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.02|-15.48|<0.0001
82584229|NCT03486457|164880288|SUPERIORITY||LS mean difference|-19.45|STANDARD_ERROR_OF_MEAN|2.575|<|0.0001|TWO_SIDED|95.0|-24.52|-14.37|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-14.37|-24.52|<0.0001
82584230|NCT03486457|164880288|SUPERIORITY||LS mean difference|-6.7|STANDARD_ERROR_OF_MEAN|2.289||0.0039|TWO_SIDED|95.0|-11.22|-2.18|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.18|-11.22|0.0039
82584231|NCT03486457|164880289|SUPERIORITY||Difference in percentage of participants|14.19|STANDARD_ERROR_OF_MEAN|5.89||0.016|TWO_SIDED|95.0|2.64|25.73|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||25.73|2.64|0.0160
82584232|NCT03486457|164880289|SUPERIORITY||Difference in percentage of participants|25.65|STANDARD_ERROR_OF_MEAN|8.06||0.0015|TWO_SIDED|95.0|9.86|41.44|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||41.44|9.86|0.0015
82584233|NCT03486457|164880289|SUPERIORITY||Difference in percentage of participants|23.05|STANDARD_ERROR_OF_MEAN|9.16||0.0118|TWO_SIDED|95.0|5.11|41.0|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||41.00|5.11|0.0118
82584234|NCT03486457|164880290|SUPERIORITY||LS mean difference|-3.09|STANDARD_ERROR_OF_MEAN|1.259||0.0156|TWO_SIDED|95.0|-5.58|-0.6|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.60|-5.58|0.0156
82584235|NCT03486457|164880290|SUPERIORITY||LS mean difference|-4.06|STANDARD_ERROR_OF_MEAN|0.989|<|0.0001|TWO_SIDED|95.0|-6.02|-2.1|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-2.10|-6.02|<0.0001
82584236|NCT03486457|164880290|SUPERIORITY||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.346||0.0061|TWO_SIDED|95.0|-1.65|-0.28|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.28|-1.65|0.0061
82584237|NCT03486457|164880291|SUPERIORITY||Difference in percentage of participants|13.03|STANDARD_ERROR_OF_MEAN|10.01||0.193|TWO_SIDED|95.0|-6.59|32.64|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.64|-6.59|0.1930
82584238|NCT03486457|164880291|SUPERIORITY||Difference in percentage of participants|24.3|STANDARD_ERROR_OF_MEAN|10.11||0.0162|TWO_SIDED|95.0|4.48|44.11|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||44.11|4.48|0.0162
82584239|NCT03486457|164880291|SUPERIORITY||Difference in percentage of participants|4.07|STANDARD_ERROR_OF_MEAN|10.83||0.7068|TWO_SIDED|95.0|-17.15|25.3|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||25.30|-17.15|0.7068
82584240|NCT03486457|164880292|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.271||0.2811|TWO_SIDED|95.0|-0.83|0.25|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.25|-0.83|0.2811
82584241|NCT03486457|164880292|SUPERIORITY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.295||0.214|TWO_SIDED|95.0|-0.96|0.22|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.22|-0.96|0.2140
82584242|NCT03486457|164880292|SUPERIORITY||LS mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.239||0.2817|TWO_SIDED|95.0|-0.74|0.22|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.22|-0.74|0.2817
82584243|NCT03486457|164880293|SUPERIORITY||LS mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.182||0.9407|TWO_SIDED|95.0|-0.37|0.35|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.35|-0.37|0.9407
82584244|NCT03486457|164880293|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.293||0.4295|TWO_SIDED|95.0|-0.81|0.35|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.35|-0.81|0.4295
82584245|NCT03486457|164880293|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.314||0.2946|TWO_SIDED|95.0|-0.95|0.29|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.29|-0.95|0.2946
82489111|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.58||||0.03|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||General Diet - Treatment Effect - Month 3||||0.03
82560653|NCT03205488|164831037|EQUIVALENCE|H0 : p1 = p3, where p represents the proportion of SAEs for each group. HA : p1 ≠ p3||||||0.61|||||||Fisher Exact|Fisher's Exact test compared a proportion of participants who experienced any serious adverse event in the Nilotinib 300 group and the Placebo group.||||||0.61
82560654|NCT03205488|164831037|EQUIVALENCE|H0 : λ1 = λ3, where λ represents the rate of SAEs for each group. HA : λ1 ≠ λ3|Risk Ratio (RR)|0.5206||||0.594|TWO_SIDED|95.0|0.0472|5.7409|||Regression, Poisson|Rates of serious adverse event between the Nilotinib 300 group and the placebo were also compared using a Poisson regression model||||5.7409|0.0472|0.5940
82560655|NCT03205488|164831038|NON_INFERIORITY|The hypotheses of interest (H0: δ ≤ -9.8 (7 x 1.4) vs. HA: δ \> -9.8) where δ represents the change from baseline to 6 months using the MDS-UPDRS Part III ON in the Nilotinib 150 mg treatment group. The hypotheses of interest were evaluated based on an assessment of parameter estimates from a non-linear mixed effects model, adjusted for a participant's Levodopa Equivalent Daily Dose (LEDD) at each time point.|Slope|1.05||||0.0001|ONE_SIDED|90.0|-0.78||||Mixed Models Analysis|||The key secondary objective is to conduct a futility analysis within each treatment group which examines the observed change in the MDS-UPDRS Part III ON within the two dose groups compared to previously reported changes from the Pagan et al (2016) study (NCT02281474).|||-0.78|0.0001
82560656|NCT03205488|164831038|NON_INFERIORITY|The hypotheses of interest (H0: δ ≤ -9.8 (7 x 1.4) vs. HA: δ \> -9.8) where δ represents the change from baseline to 6 months using the MDS-UPDRS Part III ON in the Nilotinib 300 mg treatment group. The hypotheses of interest were evaluated based on an assessment of parameter estimates from a non-linear mixed effects model, adjusted for a participant's Levodopa Equivalent Daily Dose (LEDD) at each time point.|Slope|0.93||||0.0001|ONE_SIDED|90.0|-0.89||||Mixed Models Analysis|||The key secondary objective is to conduct a futility analysis within each treatment group which examines the observed change in the MDS-UPDRS Part III ON within the two dose groups compared to previously reported changes from the Pagan et al (2016) study (NCT02281474).|||-0.89|0.0001
82560657|NCT03205488|164831038|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using the same LMM as in the key secondary analysis, a two degree of freedom test was used to test for any differences in the slopes from baseline to 1 month for the three treatment groups.||||||0.031|||||||Mixed Models Analysis|||Additional secondary objective #1 is to establish the degree of symptomatic effect of Nilotinib as measured by the change in the MDS\_UPDRS Part III ON score between baseline and 1 month.|In order to assess which group may be driving these findings, pairwise comparisons were also utilized (Nilotinib 150 vs PBO at 1 Month, Nilotinib 300 vs PBO at 1 month, Nilotinib 300 vs Nilotinib 150 at 1 month).|||0.031
82560658|NCT03205488|164831038|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. For this analysis, a separate LMM was constructed, modeling the change from final visit on study drug to the 30 and 60 day follow up visits, while adjusting for the MDS-UPDRS Part III ON scores at the final visit on study drug as well as the Levodopa Equivalent Daily Dose (LEDD) at each visit.||||||0.47|||||||Mixed Models Analysis|||Additional secondary objective #2 is to establish the degree of symptomatic effect of Nilotinib as measured by the change in the MDS\_UPDRS Part III ON score between the final visit on study drug and 30 days off study drug.||||0.47
82560659|NCT03205488|164831038|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using the same LMM as in the key secondary analysis, a two degree of freedom test was used to test for any differences in the slopes from baseline to 6 months for the three treatment groups.||||||0.077|||||||Mixed Models Analysis|||Additional secondary objective #3 is to assess the impact of Nilotinib on the progression of PD disability as measured by the change in the MDS\_UPDRS Part III ON score between baseline and 6 months.|Pairwise comparisons were also examined for trends (Active 150 vs PBO at 6 Months, Active 300 vs PBO at 6 months).|||0.077
82560660|NCT03205488|164831038|EQUIVALENCE|H0 : β1 = β 2 = β 3, where β represents the slope for each group. HA : at least one β i ≠ β j. Using a similar LMM as in the key secondary analysis, except simplified to only include baseline, month 3 and month 6, a two degree of freedom test was used to test for any differences in the slopes from baseline to 6 months for the three treatment groups.||||||0.17|||||||Mixed Models Analysis|||Additional secondary objective #3 is to assess the impact of Nilotinib on the progression of PD disability as measured by the change in the MDS\_UPDRS Part III OFF score between baseline and 6 months.||||0.17
82560661|NCT01450397|164831040|SUPERIORITY_OR_OTHER||||||<|0.0013|||||||t-test, 2 sided|||||||<0.0013
82560662|NCT02203032|164831041|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
82584246|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|21.32|STANDARD_ERROR_OF_MEAN|5.62||0.0001|TWO_SIDED|95.0|10.32|32.33|||Normal approximation|||Week 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.33|10.32|0.0001
82584247|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|36.03|STANDARD_ERROR_OF_MEAN|6.49|<|0.0001|TWO_SIDED|95.0|23.31|48.75|||Normal approximation|||Month 1: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||48.75|23.31|<0.0001
82584248|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|52.21|STANDARD_ERROR_OF_MEAN|5.79|<|0.0001|TWO_SIDED|95.0|40.86|63.55|||Normal approximation|||Month 2: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||63.55|40.86|<0.0001
82584249|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|39.71|STANDARD_ERROR_OF_MEAN|6.8|<|0.0001|TWO_SIDED|95.0|26.38|53.03|||Normal approximation|||Month 3: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||53.03|26.38|<0.0001
82584250|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|18.38|STANDARD_ERROR_OF_MEAN|7.23||0.011|TWO_SIDED|95.0|4.22|32.55|||Normal approximation|||Month 4: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||32.55|4.22|0.0110
82584251|NCT03486457|164880294|SUPERIORITY||Difference in percentage of participants|16.18|STANDARD_ERROR_OF_MEAN|6.8||0.0173|TWO_SIDED|95.0|2.85|29.5|||Normal approximation|||Month 6: The normal approximation to the difference in binomial proportions was used to test the difference between the two treatment arms and to generate 95% CI and p-value for the difference in response rates.||29.50|2.85|0.0173
82584252|NCT03486457|164880295|SUPERIORITY||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.79|-0.47|||Mixed Models Analysis|||Week 2: Analysis performed using mixed model for repeated measures (MMRM) which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.47|-0.79|<0.0001
82584253|NCT03486457|164880295|SUPERIORITY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.095|<|0.0001|TWO_SIDED|95.0|-0.99|-0.62|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.62|-0.99|<0.0001
82584254|NCT03486457|164880295|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.105|<|0.0001|TWO_SIDED|95.0|-1.08|-0.66|||Mixed Models Analysis|||Month 2: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.66|-1.08|<0.0001
82584255|NCT03486457|164880295|SUPERIORITY||LS mean difference|-1.04|STANDARD_ERROR_OF_MEAN|0.122|<|0.0001|TWO_SIDED|95.0|-1.28|-0.8|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.80|-1.28|<0.0001
82584256|NCT03486457|164880295|SUPERIORITY||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.129||0.0009|TWO_SIDED|95.0|-0.69|-0.18|||Mixed Models Analysis|||Month 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.18|-0.69|0.0009
82489112|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.07||||0.83|TWO_SIDED||||||Mixed Models Analysis|||Specific Diet (Fruits and Vegetables) - Treatment Effect - Month 3||||0.83
82489113|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.44||||0.12|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fat) - Treatment Effect - Month 3||||0.12
82489114|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.39||||0.17|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physical Activity - Treatment Effect - Month 3||||0.17
82584257|NCT03486457|164880295|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.145||0.1202|TWO_SIDED|95.0|-0.51|0.06|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.06|-0.51|0.1202
82584258|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.72|STANDARD_ERROR_OF_MEAN|0.998||0.0003|TWO_SIDED|95.0|1.76|5.69|||Mixed Models Analysis|||Month 1, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.69|1.76|0.0003
82584259|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.18|STANDARD_ERROR_OF_MEAN|1.102||0.0043|TWO_SIDED|95.0|1.01|5.35|||Mixed Models Analysis|||Month 1, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.35|1.01|0.0043
82584260|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.12|STANDARD_ERROR_OF_MEAN|0.861||0.0004|TWO_SIDED|95.0|1.42|4.82|||Mixed Models Analysis|||Month 1, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.82|1.42|0.0004
82651996|NCT00982410|165019300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6489|STANDARD_ERROR_OF_MEAN|0.29|<|0.05|TWO_SIDED|95.0|-1.2255|-0.0722|||Mixed Models Analysis|Adjusted for baseline NRS-1 pain level. Time interval and therapy session block were utilized to model the variance.|EUC (Arm 2) was referent. Estimation parameter = value for Cognitive Behavior Treatment group minus value for Educational Support group.|Ho: There was no difference in average pain level across the follow-up period, between CBT group and Educational support group.||-0.07220|-1.2255|<0.05
82651997|NCT00982410|165019301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.05|TWO_SIDED|95.0|0.034|0.466|||Mixed Models Analysis|Adjusted for baseline WHY MPI General Activity score. Time interval and therapy session block were utilized to model the variance.|Education Support group was referent. Mean difference = value for CBT group minus value for Educational Support group.|||0.466|0.034|<0.05
82651998|NCT00982410|165019302|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline #days of alcohol use. Time interval and therapy session block were utilized to model the variance.||||||<0.01
82489115|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.06||||0.85|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Blood Glucose Testing - Treatment Effect - Month 3||||0.85
82560663|NCT02203032|164831042|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
82560664|NCT02203032|164831043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Row mean score test|||||||< 0.001
82560665|NCT02203032|164831044|SUPERIORITY_OR_OTHER||||||=|0.001|||||||Cochran-Mantel-Haenszel|||||||= 0.001
82560666|NCT03365622|164831082|SUPERIORITY||Mean Difference (Final Values)|6.306|STANDARD_ERROR_OF_MEAN|7.379||0.3938|TWO_SIDED|95.0|-8.242|20.854|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the total opioid dose administered intraoperatively and postoperatively, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||20.854|-8.242|0.3938
82560667|NCT03365622|164831083|SUPERIORITY||Mean Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.283||0.7051|TWO_SIDED|95.0|-0.451|0.666|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op average surgical pain, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.666|-0.451|0.7051
82560668|NCT03365622|164831084|SUPERIORITY||Mean Difference (Final Values)|0.276|STANDARD_ERROR_OF_MEAN|0.317||0.3852|TWO_SIDED|95.0|-0.349|0.901|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op average surgical pain, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.901|-0.349|0.3852
82560669|NCT03365622|164831085|SUPERIORITY||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|2.816||0.8498|TWO_SIDED|95.0|-5.02|6.088|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op inspiratory capacity percentage, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||6.088|-5.02|0.8498
82560670|NCT03365622|164831086|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|3.007||0.5839|TWO_SIDED|95.0|-7.579|4.28|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op inspiratory capacity percentage, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||4.28|-7.579|0.5839
82560671|NCT03365622|164831087|SUPERIORITY||Mean Difference (Final Values)|0.399|STANDARD_ERROR_OF_MEAN|0.344||0.2479|TWO_SIDED|95.0|-0.28|1.078|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 1-2 hours post-op dynamic pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.078|-0.280|0.2479
82560672|NCT03365622|164831088|SUPERIORITY||Mean Difference (Final Values)|0.484|STANDARD_ERROR_OF_MEAN|0.335||0.1502|TWO_SIDED|95.0|-0.177|1.145|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op dynamic pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.145|-0.177|0.1502
82489116|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.02||||0.94|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Foot Care - Treatment Effect - Month 3||||0.94
82489117|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.19||||0.47|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||General Diet - Treatment Effect - Month 6||||0.47
82489118|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.08||||0.82|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fruits and Vegetables) - Treatment Effect - Month 6||||0.82
82489119|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.13||||0.66|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Specific Diet (Fat) - Treatment Effect - Month 6||||0.66
82489120|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.25||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Physical Activity - Treatment Effect - Month 6||||0.38
82489121|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.12||||0.68|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Blood Glucose Testing - Treatment Effect - Month 6||||0.68
82489122|NCT04041375|164671564|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.26||||0.4|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Foot Care - Treatment Effect - Month 6||||0.40
82489123|NCT04041375|164671566|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.06||||0.93|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.93
82489124|NCT04041375|164671566|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.63||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.38
82489125|NCT04041375|164671567|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.32||||0.66|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.66
82489126|NCT04041375|164671567|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.99||||0.18|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.18
82489127|NCT04041375|164671570|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|1.45||||0.38|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.38
82584261|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.54|STANDARD_ERROR_OF_MEAN|0.938||0.0002|TWO_SIDED|95.0|1.69|5.39|||Mixed Models Analysis|||Month 1, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.39|1.69|0.0002
82651999|NCT00982410|165019303|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline #days illicit drug use. Time interval and therapy session block were utilized to model the variance. EUC group was referent.||||||>0.05
82489128|NCT04041375|164671570|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|1.64||||0.68|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.68
82489129|NCT04041375|164671571|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.19||||0.74|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.74
82489130|NCT04041375|164671571|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.29||||0.62|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.62
82489131|NCT04041375|164671572|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.16||||0.72|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.72
82489132|NCT04041375|164671572|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|-0.24||||0.58|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.58
82489133|NCT04041375|164671573|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.36||||0.5|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 3||||0.50
82489134|NCT04041375|164671573|SUPERIORITY|Treatment effect was modeled via multilevel linear regression with random intercepts for participants. Outcome was regressed on dummy coded categorical indicators of study arm (usual care reference), time point (baseline reference), and arm x time point interaction. Test of the arm x time interaction terms were used to assess treatment effects at months 3 and 6. Models conditioned on race, education, and income as specified a priori.|Interaction Term|0.72||||0.18|TWO_SIDED|||||alpha = 0.05|Mixed Models Analysis|||Treatment Effect - Month 6||||0.18
82489135|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.268|STANDARD_ERROR_OF_MEAN|-0.193||0.165|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Usual Care between pre-treatment and 10-week post-treatment.||||.165
82489136|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245|STANDARD_ERROR_OF_MEAN|0.198||0.216|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Usual Care between post-treatment and 6-month follow-up.||||.216
82489137|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.052|STANDARD_ERROR_OF_MEAN|0.189|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within CBT group between the pre-treatment and 10-week post-treatment.||||< .001
82584262|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.04|STANDARD_ERROR_OF_MEAN|1.203||0.0123|TWO_SIDED|95.0|0.67|5.41|||Mixed Models Analysis|||Month 1, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.41|0.67|0.0123
82489138|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.361|STANDARD_ERROR_OF_MEAN|0.199||0.07|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within CBT group between the post-treatment and 6-month follow-up.||||.070
82489139|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.823|STANDARD_ERROR_OF_MEAN|0.191|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
82489140|NCT01967342|164671576|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.131|STANDARD_ERROR_OF_MEAN|0.203||0.519|TWO_SIDED||||||Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Intensity within Pain Ed group between the post-treatment and 6-month follow-up.||||.519
82489141|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.247||0.196|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Usual Care group between the pre-treatment and 10-week post-treatment.||||.196
82489142|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.182|STANDARD_ERROR_OF_MEAN|0.239||0.447|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Usual Care group between the post-treatment and 6-month follow-up.||||.447
82584263|NCT03486457|164880296|SUPERIORITY||LS mean difference|2.58|STANDARD_ERROR_OF_MEAN|1.115||0.0216|TWO_SIDED|95.0|0.38|4.78|||Mixed Models Analysis|||Month 1, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.78|0.38|0.0216
82584264|NCT03486457|164880296|SUPERIORITY||LS mean difference|2.04|STANDARD_ERROR_OF_MEAN|1.336||0.129|TWO_SIDED|95.0|-0.6|4.67|||Mixed Models Analysis|||Month 1, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.67|-0.60|0.1290
82584265|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.91|STANDARD_ERROR_OF_MEAN|1.172||0.1043|TWO_SIDED|95.0|-0.4|4.22|||Mixed Models Analysis|||Month 1, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.22|-0.40|0.1043
82560673|NCT03365622|164831089|SUPERIORITY||Mean Difference (Final Values)|0.339|STANDARD_ERROR_OF_MEAN|0.313||0.2797|TWO_SIDED|95.0|-0.278|0.955|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and the 20-24 hours post-op surgical pain score, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.955|-0.278|0.2797
82560674|NCT03365622|164831090|SUPERIORITY||Mean Difference (Final Values)|-0.333|STANDARD_ERROR_OF_MEAN|0.739||0.6527|TWO_SIDED|95.0|-1.792|1.125|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to first narcotic use, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.125|-1.792|0.6527
82560675|NCT03365622|164831091|SUPERIORITY||Odds Ratio (OR)|0.465||||0.0499|TWO_SIDED|95.0|0.217|1.0|||Regression, Logistic|Adjusted for age, sex, BMI, type of surgery and TAP block.||A logistic regression model was used to examine the association between treatment assignment and incidence of nausea, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||1.000|0.217|0.0499
82560676|NCT03365622|164831092|SUPERIORITY||Mean Difference (Final Values)|24.492|STANDARD_ERROR_OF_MEAN|18.165||0.179|TWO_SIDED|95.0|-11.321|60.304|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to discharge from PACU, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||60.304|-11.321|0.179
82560677|NCT03365622|164831093|SUPERIORITY||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.253||0.2811|TWO_SIDED|95.0|-0.226|0.773|||Regression, Linear|Adjusted for age, sex, BMI, type of surgery and TAP block.|"The estimate reflects the adjusted difference in mean outcome between arms/groups, with the placebo IV + oral acetaminophen serving as the reference group."|A multiple linear regression model was used to examine the association between treatment assignment and time to hospital discharge, adjusting for patient age, gender, body mass index (BMI), type of surgery (laparoscopic donor nephrectomy or laparoscopic nephrectomy for renal cancer), and whether the patient received a TAP block during surgery.||0.773|-0.226|0.2811
82560678|NCT00210236|164831099|EQUIVALENCE|The two groups will be considered equivalent if the 5-year survival rate for group B (without lymph node dissection) is not less than 92%. This corresponds to hazard ratio (HR) of less than 1.6.|Hazard Ratio (HR)|3.067||||0.013|TWO_SIDED|95.0|1.4|6.7|||Log Rank|||||6.7|1.4|0.013
82560679|NCT06943638|164831136|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82560680|NCT02786966|164831167|SUPERIORITY||Odds Ratio (OR)|0.4||||0.0007|TWO_SIDED|95.0|0.2|0.6|||Regression, Logistic|Adjusted for age and sex||||0.6|0.2|0.0007
82584266|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.77|STANDARD_ERROR_OF_MEAN|0.763|<|0.0001|TWO_SIDED|95.0|2.26|5.27|||Mixed Models Analysis|||Month 1, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.27|2.26|<0.0001
82560681|NCT02786966|164831168|SUPERIORITY||Odds Ratio (OR)|0.61||||0.0007|TWO_SIDED|95.0|0.47|0.8|||Regression, Logistic||||Adjusted for age and sex.|0.80|0.47|0.0007
82560682|NCT02786966|164831169|SUPERIORITY||Odds Ratio (OR)|0.69||||0.0093|TWO_SIDED|95.0|0.52|0.91|||Regression, Logistic|adjusted for age and sex||||0.91|0.52|0.0093
82560683|NCT01277302|164831180|SUPERIORITY_OR_OTHER||Estimated interaction effect|0.071|STANDARD_ERROR_OF_MEAN|0.107||0.5091||||||This is the p-value of the treatment by time interaction in the longitudinal model. Analysis was not adjusted for multiple comparisons as there was only 1 comparison. p \< 0.05 (2-sided) was required for significance.|Longitudinal mixed model|The analysis was stratified by disease (BRVO or CRVO), randomization month, and randomization BCVA score category (≤35, \>35 to ≤50, or \>50 letters).||The null hypothesis was that there was no difference in the trend of change from Baseline in the visual acuity scores from Month 7 to Month 15 between the 2 treatment groups as assessed by the interaction term of treatment by time in a longitudinal model.||||0.5091
82560684|NCT01190124|164831221|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning HIV-RNA levels at baseline||||<0.001
82584267|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.178||0.1318|TWO_SIDED|95.0|-0.54|4.1|||Mixed Models Analysis|||Month 1, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.10|-0.54|0.1318
82584268|NCT03486457|164880296|SUPERIORITY||LS mean difference|2.53|STANDARD_ERROR_OF_MEAN|1.225||0.0402|TWO_SIDED|95.0|0.11|4.95|||Mixed Models Analysis|||Month 3, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.95|0.11|0.0402
82652000|NCT00982410|165019304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.66|||>|0.05|TWO_SIDED|95.0|-5.0|14.32|||Mixed Models Analysis|Adjusted for baseline pain tolerance. Time interval and therapy session block were utilized to model the variance.|Educational Support group = referent. Estimation parameter = CBT group minus EUC group, adjusted for BL pain tolerance. Cold tolerance distribution had ceiling and floor effects; and, \~20% of participants refused cold tolerance task in follow-up.|||14.32|-5.00|>0.05
82652001|NCT00982410|165019305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.28|||<|0.005|TWO_SIDED|95.0|3.93|16.63|||Mixed Models Analysis|Adjusted for baseline CPSS PSE score. Time interval and therapy session block were utilized to model the variance. EUC group was referent.|Adjusted for baseline CPSS PSE score. EUC group was referent. Mean difference = value for CBT minus value for Educational Support group.|||16.63|3.93|<0.005
82560685|NCT01190124|164831224|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at baseline||||<0.001
82560686|NCT01190124|164831237|SUPERIORITY_OR_OTHER|||||||0.007|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at week 24||||0.007
82560687|NCT01190124|164831238|SUPERIORITY_OR_OTHER|||||||0.001|||||||Kruskal-Wallis|||Comparison between the 3 study groups, in order to determine if there are statistically significant differences concerning CD4 cells count at week 48||||0.001
82560688|NCT01523392|164831240|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.6|STANDARD_ERROR_OF_MEAN|14.68|<|0.001|TWO_SIDED|95.0|-213.9|-153.3||Model contained treatment group, period, and sequence as fixed effects and a random effect for patient within sequence|Mixed Models Analysis||Ticagrelor minus clopidogrel|||-153.3|-213.9|<0.001
82560689|NCT01523392|164831241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-103.8|STANDARD_ERROR_OF_MEAN|18.79|<|0.001|TWO_SIDED|95.0|-142.5|-65.0|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 0.5 hours after loading dose||-65.0|-142.5|<0.001
82560690|NCT01523392|164831241|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-165.3|STANDARD_ERROR_OF_MEAN|15.45|<|0.001|TWO_SIDED|95.0|-197.4|-133.3|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 8 hours after loading dose||-133.3|-197.4|<0.001
82560691|NCT01523392|164831242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-135.0|STANDARD_ERROR_OF_MEAN|12.35|<|0.001|TWO_SIDED|95.0|-160.4|-109.5|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 2 hours on Day 7 after multiple doses||-109.5|-160.4|<0.001
82560692|NCT01523392|164831242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-118.1|STANDARD_ERROR_OF_MEAN|12.55|<|0.001|TWO_SIDED|95.0|-143.9|-92.2|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at 8 hours on Day 7 after multiple doses||-92.2|-143.9|<0.001
82560693|NCT01523392|164831242|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-133.4|STANDARD_ERROR_OF_MEAN|12.77|<|0.001|TWO_SIDED|95.0|-159.7|-107.1|||Mixed Models Analysis|Model contained treatment group, period, and sequence as fixed effects, and a random effect for participant within sequence|Ticagrelor minus clopidogrel|Analysis at end of dosing interval on Day 8||-107.1|-159.7|<0.001
82560694|NCT02005172|164831245|EQUIVALENCE|The primary analysis used the TOST procedure for equivalence. A difference of less than 10% between devices on the proportion of diagnostic days during the monitoring period was considered to be equivalent. We hypothesized that the percentage of diagnostic days for the ELR and the KM would be 20% and 15%, respectively.||||||||||||||||For the primary endpoint, equivalence testing using the two one-sided test procedure was used to compare the proportion of (unpaired) days in which a diagnostic recording was made with each device during the monitoring period. For the purpose of this study, a difference of less than 10% between devices on the rate of detection of arrhythmias was taken to indicate equivalence.|"Descriptive statistics (means, standard deviation (SD), percentages) were used to summarize the demographic and clinical characteristics of the patients. The total number of tracings and the percentage of tracings with arrhythmias for each device were also calculated.~For the primary endpoint, equivalence testing using the two one-sided test (TOST) procedure was used to compare the proportion of (unpaired) days in which a diagnostic recording was made with each device during the monitoring period. Patients were asked to use both devices for the same duration. For the purpose of this study, a difference of less than 10% between devices on the rate of detection of arrhythmias was taken to indicate equivalence. The primary hypothesis was that the KM"|||
82560695|NCT01332266|164831261|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.46||||||||1.46|0.54|
82560696|NCT01332266|164831263|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.61|1.73||||||||1.73|0.61|
82560697|NCT01332266|164831264|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.37||||||||1.37|0.53|
82560698|NCT03302091|164831266|OTHER||Adjusted gMean ratio (T/R)%|198.5|STANDARD_DEVIATION|96.5|||TWO_SIDED|90.0|101.83|386.94|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||386.94|101.83|
82560699|NCT03302091|164831267|OTHER||Adjusted gMean ratio (T/R)%|198.42|STANDARD_DEVIATION|77.5|||TWO_SIDED|90.0|116.56|337.78|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||337.78|116.56|
82489143|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.643|STANDARD_ERROR_OF_MEAN|0.241|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within CBT for Pain group between the pre-treatment and 10-week post-treatment.||||<.001
82489144|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.548|STANDARD_ERROR_OF_MEAN|0.237||0.021|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within CBT for Pain group between the post-treatment and 6-month follow-up.||||.021
82489145|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.999|STANDARD_ERROR_OF_MEAN|0.244|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
82489146|NCT01967342|164671577|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.25|STANDARD_ERROR_OF_MEAN|0.243||0.305|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in BPI-Interference within Pain Ed group between the post-treatment and 6-month follow-up.||||.305
82489147|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.086|STANDARD_ERROR_OF_MEAN|0.623||0.082|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Usual Care group between the pre-treatment and 10-week post-treatment.||||.082
82489148|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24|STANDARD_ERROR_OF_MEAN|0.532||0.652|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Usual Care group between the post-treatment and 6-month follow-up.||||.652
82489149|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.416|STANDARD_ERROR_OF_MEAN|0.612|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within CBT for Pain group between the pre-treatment and 10-week post-treatment.||||< .001
82489150|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.619|STANDARD_ERROR_OF_MEAN|0.528||0.241|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within CBT for Pain group between the post-treatment and 6-month follow-up.||||.241
82489151|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.251|STANDARD_ERROR_OF_MEAN|0.617|<|0.001|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Pain Ed group between the pre-treatment and 10-week post-treatment.||||< .001
82489152|NCT01967342|164671578|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.434|STANDARD_ERROR_OF_MEAN|0.541||0.422|TWO_SIDED|||||To control for multiple comparisons in secondary outcomes, a corrected alpha level was calculated using the Benjamini-Hochberg correction method. Smallest p-value compared to .025; Largest p-value compared to .050.|Mixed Models Analysis|||A piecewise linear growth model examined changes in PHQ-9 within Pain Ed group between the post-treatment and 6-month follow-up.||||.422
82560700|NCT03302091|164831268|OTHER||Adjusted gMean ratio (T/R)%|226.29|STANDARD_DEVIATION|47.5|||TWO_SIDED|90.0|156.35|327.53|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||327.53|156.35|
82560701|NCT03302091|164831269|OTHER||Adjusted gMean ratio (T/R)%|140.4|STANDARD_DEVIATION|32.8|||TWO_SIDED|90.0|108.06|182.43|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||182.43|108.06|
82584269|NCT03486457|164880296|SUPERIORITY||LS mean difference|4.41|STANDARD_ERROR_OF_MEAN|1.227||0.0004|TWO_SIDED|95.0|1.99|6.83|||Mixed Models Analysis|||Month 3, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.83|1.99|0.0004
82489153|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.45|||<|0.001|TWO_SIDED||||||Mixed Models Analysis||CBT vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at post-treatment (6-months).||||<.001
82489154|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.53||||0.001|TWO_SIDED||||||Mixed Models Analysis||EDU vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at post-treatment (10-weeks).||||.001
82584270|NCT03486457|164880296|SUPERIORITY||LS mean difference|5.29|STANDARD_ERROR_OF_MEAN|1.069|<|0.0001|TWO_SIDED|95.0|3.18|7.4|||Mixed Models Analysis|||Month 3, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.40|3.18|<0.0001
82584271|NCT03486457|164880296|SUPERIORITY||LS mean difference|5.28|STANDARD_ERROR_OF_MEAN|1.261|<|0.0001|TWO_SIDED|95.0|2.79|7.76|||Mixed Models Analysis|||Month 3, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.76|2.79|<0.0001
82489155|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.217|TWO_SIDED||||||Mixed Models Analysis||CBT vs. EDU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at pre-treatment (10-weeks).||||.217
82560702|NCT03302091|164831270|OTHER||Adjusted gMean ratio (T/R)%|165.63|STANDARD_DEVIATION|56.6|||TWO_SIDED|90.0|107.51|255.17|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||255.17|107.51|
82560703|NCT03302091|164831271|OTHER||Adjusted gMean ratio (T/R)%|128.44|STANDARD_DEVIATION|31.7|||TWO_SIDED|90.0|99.64|165.57|||ANOVA||Standard deviation is actually intra individual geometric coefficient of variation (%).|"The statistical model used for the analyses of the primary endpoints was an ANOVA (analysis of variance) model on the logarithmic scale including the effect degree of renal impairment as a fixed effect as well as subject pair as a random effect."||165.57|99.64|
82560704|NCT01536704|164831272|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-t) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.91|||||TWO_SIDED|90.0|0.88|0.94|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.94|0.88|
82560705|NCT01536704|164831272|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-t) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.98|1.05|||Wilcoxon Signed Rank test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.05|0.98|
82560706|NCT01536704|164831273|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for Cmax lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.89|||||TWO_SIDED|90.0|0.85|0.94|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.94|0.85|
82560707|NCT01536704|164831273|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for Cmax lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.93|1.02|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.02|0.93|
82560708|NCT01536704|164831274|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-inf) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|0.92||||||90.0|0.88|0.95|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||0.95|0.88|
82560709|NCT01536704|164831274|NON_INFERIORITY_OR_EQUIVALENCE|Bio-equivalence between two dosage treatments was concluded if the 90% confidence interval for the ratio of the means for AUC (0-inf) lies within the interval 0.80 to 1.25.|Geometric Mean Ratio|1.02|||||TWO_SIDED|90.0|0.98|1.06|||Wilcoxon Signed Rank Test||Geometric mean ratio of Cherry and Mint lozenge was determined by exponentiating least-squares means of log-transformed value.|The value was log-transformed and a linear mixed effects model was applied to this value, as the dependent variable, treatment, and period as fixed effects and participants as random effect.||1.06|0.98|
82560710|NCT01536704|164831275|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0006||||0.1491||95.0|||||Wilcoxon Signed Rank Test|The value of Tmax was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.1491
82560711|NCT01536704|164831275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0005||||0.679||95.0|||||Wilcoxon Signed Rank Test|The value of Tmax was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.6790
82560712|NCT01536704|164831276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0641||||0.5619||95.0|||||Wilcoxon Signed Rank Test|The value of T (1/2) was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5619
82489156|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81||||0.009|TWO_SIDED||||||Mixed Models Analysis||CBT vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.009
82560713|NCT01536704|164831276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0538||||0.4523||95.0|||||Wilcoxon Signed Rank Test|The value of T (1/2) was adjusted for this non-parametric analysis.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.4523
82652002|NCT04014959|165019309|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|t(35)= -4.47||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Pre-tx/Pre-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||<0.001
82652003|NCT04014959|165019309|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|t(35)= -3.00||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Pre-tx/Post-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||0.005
82560714|NCT01536704|164831277|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0025||||0.5113||95.0|||||Wilcoxon Signed Rank Test|This non-parametric analysis was performed on the unadjusted values of parameters.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5113
82560715|NCT01536704|164831277|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.0042||||0.537||95.0|||||Wilcoxon Signed Rank Test|This non-parametric analysis was performed on the unadjusted values of parameters.|The median difference was calculated as Cherry minus Peppermint.|The null hypothesis considered that there is no median within-subject difference between two treatment groups.||||0.5370
82560716|NCT01802333|164831285|OTHER|||||||0.84|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm I was compared with Arm III using a two-sided test of the null hypothesis (HR=1) at the 0.045 level.||||0.84
82560717|NCT01802333|164831285|OTHER|||||||0.42|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm II was compared with Arm III using a two-sided test of the null hypothesis (HR=1) at the 0.045 level.||||0.42
82560718|NCT01802333|164831286|OTHER||||||<|0.0001|||||||Exact binomial test, 1-sided|||||||<0.0001
82560719|NCT01802333|164831288|OTHER|||||||0.52|||||||Regression, Cox|Adjusted for: Age (\< 40 vs. \>= 40) and Onset of AML (de novo vs. treatment related and/or AML arising from antecedent hematologic disease)||Arm I was compared with Arm II using a two-sided test of the null hypothesis (HR=1).||||0.52
82560720|NCT00486954|164831325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2088|TWO_SIDED|95.0|0.64|1.11|||Log Rank|||||1.11|0.64|0.2088
82560721|NCT01836523|164831418|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.2|||||TWO_SIDED|95.0|-0.32|-0.07||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-0.07|-0.32|
82560722|NCT01836523|164831418|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.15|||||TWO_SIDED|95.0|-0.27|-0.03||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-0.03|-0.27|
82560723|NCT01836523|164831418|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the upper bound of 95% confidence interval was \<0.3.|Treatment difference|-0.09|||||TWO_SIDED|95.0|-0.21|0.03||||||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||0.03|-0.21|
82560724|NCT01836523|164831419|SUPERIORITY_OR_OTHER||Treatment difference|-4.9|||<|0.0001|TWO_SIDED|95.0|-5.65|-4.16|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-4.16|-5.65|<0.0001
82560725|NCT01836523|164831419|SUPERIORITY_OR_OTHER||Treatment difference|-3.55|||<|0.0001|TWO_SIDED|95.0|-4.29|-2.81|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-2.81|-4.29|<0.0001
82560726|NCT01836523|164831419|SUPERIORITY_OR_OTHER||Treatment difference|-2.19|||<|0.0001|TWO_SIDED|95.0|-2.91|-1.47|||Mixed Models Analysis|||Analysis was performed using MMRMs where all post-baseline measurements for the specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as the dependent variable, and visit, treatment, country and the stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate.||-1.47|-2.91|<0.0001
82584272|NCT03486457|164880296|SUPERIORITY||LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|1.366||0.1254|TWO_SIDED|95.0|-0.59|4.8|||Mixed Models Analysis|||Month 3, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.80|-0.59|0.1254
82652004|NCT04014959|165019309|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|t(35)= -2.96||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Post-tx/Pre-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||0.005
82489157|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.32||||0.001|TWO_SIDED||||||Mixed Models Analysis||EDU vs. TAU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.001
82489158|NCT01967342|164671579|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.389|TWO_SIDED||||||Mixed Models Analysis||CBT vs. EDU|Odds ratios were computed to describe the likelihood of participants in each treatment condition reporting clinically meaningful improvement on the PGIC-pain intensity relative to the other groups at follow-up (6-months).||||.389
82489159|NCT02905149|164671607|SUPERIORITY||Median Difference (Final Values)|9.0|||<|0.05|TWO_SIDED|95.0|4.0|14.5||Not adjusted for multiple comparison|Wilcoxon (Mann-Whitney)||Generalized Hodges-Lehmann median difference is used. These are robust to the possibility that the population distributions in the two groups are different in ways other than location. It may not represent the raw median difference.|||14.5|4|< 0.05
82489160|NCT00395733|164671644|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for investigators only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.9736||||||90.0|0.9315|1.0168|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||1.0168|0.9315|
82489161|NCT00395733|164671644|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 1 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.954||||||90.0|0.9122|0.9965|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||0.9965|0.9122|
82489162|NCT00395733|164671644|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 2 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.9458||||||90.0|0.8776|1.024|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||1.0240|0.8776|
82560727|NCT01836523|164831420|SUPERIORITY_OR_OTHER||Treatment ratio|0.92|||<|0.0001|TWO_SIDED|95.0|0.88|0.96|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||0.96|0.88|<0.0001
82560728|NCT01836523|164831420|SUPERIORITY_OR_OTHER||Treatment ratio|0.95||||0.0148|TWO_SIDED|95.0|0.91|0.99|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||0.99|0.91|0.0148
82560729|NCT01836523|164831420|SUPERIORITY_OR_OTHER||Treatment ratio|1.0||||0.9615|TWO_SIDED|95.0|0.96|1.04|||Mixed Models Analysis|||Analysis was done using MMRMs where all post-baseline measurements for specific variable from planned visits up to week 52 and obtained no later than 1 day after withdrawal from treatment were entered as dependent variable, and visit, treatment, country and stratification variable (4 levels: HbA1c \< 8.5% and ≥8.5%, each intersected by BMI≤27 kg/m2 and \>27 kg/m2) were included as fixed factors and the corresponding baseline value as covariate. The measurements were log-transformed before analysis||1.04|0.96|0.9615
82560730|NCT01836523|164831421|SUPERIORITY_OR_OTHER||Rate ratio|1.31||||0.0081|TWO_SIDED|95.0|1.07|1.59|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.59|1.07|0.0081
82490407|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.09|||||TWO_SIDED|95.0|0.92|1.29|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H01 LotA ≠ LotB versus H1 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% confidence interval (CI) on the geometric mean titer (GMT) ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.29|0.92|
82560731|NCT01836523|164831421|SUPERIORITY_OR_OTHER||Rate ratio|1.27||||0.0219|TWO_SIDED|95.0|1.03|1.55|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.55|1.03|0.0219
82560732|NCT01836523|164831421|SUPERIORITY_OR_OTHER||Rate ratio|1.17||||0.1079|TWO_SIDED|95.0|0.97|1.43|||Negative binomial regression|||The endpoint was analysed using a negative binomial regression model with a log-link function and the log of the time period in which an occurrence of a hypoglycaemic episode was considered treatment emergent as offset. The model included fixed factors (treatment, country, stratification group) and a covariate (baseline HbA1c).||1.43|0.97|0.1079
82560733|NCT02233998|164831487|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.234|STANDARD_ERROR_OF_MEAN|0.0162|<|0.001|TWO_SIDED|95.0|-0.266|-0.202||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean modified gingival index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.202|-0.266|<0.001
82560734|NCT02233998|164831487|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.197|STANDARD_ERROR_OF_MEAN|0.0161|<|0.001|TWO_SIDED|95.0|-0.228|-0.165||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean modified gingival index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.165|-0.228|<0.001
82560735|NCT02233998|164831488|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.469|STANDARD_ERROR_OF_MEAN|0.0286|<|0.001|TWO_SIDED|95.0|-0.526|-0.413||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean plaque index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.413|-0.526|<0.001
82560736|NCT02233998|164831488|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.379|STANDARD_ERROR_OF_MEAN|0.0286|<|0.001|TWO_SIDED|95.0|-0.435|-0.322||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate Whole Mouth Mean MGI at Wk 3 and Whole Mouth Mean PI at Wk 3 for both Listerine rinses vs control. Family-wise error controlled at 0.05.|ANCOVA|Terms included treatment with baseline whole mouth mean plaque index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.322|-0.435|<0.001
82560737|NCT02233998|164831489|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.006|<|0.001|TWO_SIDED|95.0|-0.042|-0.019||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment with baseline whole mouth mean gingival bleeding index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.019|-0.042|<0.001
82560738|NCT02233998|164831489|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.026|STANDARD_ERROR_OF_MEAN|0.0059|<|0.001|TWO_SIDED|95.0|-0.038|-0.014||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment with baseline whole mouth mean gingival bleeding index as a covariate.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.014|-0.038|<0.001
82584273|NCT03486457|164880296|SUPERIORITY||LS mean difference|4.34|STANDARD_ERROR_OF_MEAN|1.186||0.0003|TWO_SIDED|95.0|2.0|6.68|||Mixed Models Analysis|||Month 3, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.68|2.00|0.0003
82584274|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.43|STANDARD_ERROR_OF_MEAN|1.384||0.014|TWO_SIDED|95.0|0.7|6.16|||Mixed Models Analysis|||Month 3, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.16|0.70|0.0140
82584275|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.47|STANDARD_ERROR_OF_MEAN|1.268||0.0067|TWO_SIDED|95.0|0.97|5.98|||Mixed Models Analysis|||Month 3, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.98|0.97|0.0067
82584276|NCT03486457|164880296|SUPERIORITY||LS mean difference|4.17|STANDARD_ERROR_OF_MEAN|0.986|<|0.0001|TWO_SIDED|95.0|2.23|6.12|||Mixed Models Analysis|||Month 3, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||6.12|2.23|<0.0001
82560739|NCT02233998|164831490|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|23.24|||<|0.001|TWO_SIDED|95.0|20.75|25.85||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||25.85|20.75|<0.001
82584277|NCT03486457|164880296|SUPERIORITY||LS mean difference|3.27|STANDARD_ERROR_OF_MEAN|1.248||0.0094|TWO_SIDED|95.0|0.81|5.73|||Mixed Models Analysis|||Month 3, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.73|0.81|0.0094
82560740|NCT02233998|164831490|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.444|||<|0.001|TWO_SIDED|95.0|17.09|22.22||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||22.22|17.09|<0.001
82560741|NCT02233998|164831491|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.048|||<|0.001|TWO_SIDED|95.0|15.94|21.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||21.73|15.94|<0.001
82560742|NCT02233998|164831491|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|15.939|||<|0.001|TWO_SIDED|95.0|12.5|18.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||18.67|12.50|<0.001
82560743|NCT02233998|164831492|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|2.05|||<|0.001|TWO_SIDED|95.0|1.3|2.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.78|1.30|<0.001
82560744|NCT02233998|164831492|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|1.19|||<|0.001|TWO_SIDED|95.0|0.93|2.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.06|0.93|<0.001
82560745|NCT02233998|164831493|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|1.316||||0.016|TWO_SIDED|95.0|0.0|2.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||2.78|0.00|0.016
82560746|NCT02233998|164831493|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|0.926||||0.197|TWO_SIDED|95.0|-0.16|1.85||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||1.85|-0.16|0.197
82560747|NCT02233998|164831494|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|23.214|||<|0.001|TWO_SIDED|95.0|18.21|28.77||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||28.77|18.21|<0.001
82560748|NCT02233998|164831494|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|18.59|||<|0.001|TWO_SIDED|95.0|13.69|23.81||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||23.81|13.69|<0.001
82560749|NCT02233998|164831495|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|19.048|||<|0.001|TWO_SIDED|95.0|15.94|21.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||21.73|15.94|<0.001
82560750|NCT02233998|164831495|SUPERIORITY_OR_OTHER||Hodges-Lehmann estimate of difference|15.939|||<|0.001|TWO_SIDED|95.0|12.5|18.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Wilcoxon Rank Sum Test|P-values were based on Wilcoxon Rank Sum Test on the change from baseline.|95% Confidence limits for the location shift.|The null hypothesis was no difference between treatment groups. The alternative hypothesis was a difference between treatment groups.||18.67|12.50|<0.001
82560751|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|-1.26|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|90.0|-63.09|60.57|||||Test (Melatonin 0.5 mg PM) Reference (Placebo)|||60.57|-63.09|
82376773|NCT03888066|164459897|SUPERIORITY||Win Ratio|0.914|||=|0.744|TWO_SIDED|95.0|0.526|1.578|||Win Ratio|||"Win ratio CV death and hospitalization.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers. Unmatched win ratio is presented for this endpoint. Win ratio above 1 favors patiromer."||1.578|0.526|= 0.744
82489163|NCT00395733|164671644|NON_INFERIORITY_OR_EQUIVALENCE|Estimates for blinded reader 3 only. A non-inferiority margin of 15% was assumed. Based on 60 pairs of observations in a crossover design (15 participants with 10 vessels segments, 15 participants with 6 vessels segments and 30 participants with 17 vessels segments to be visualized and assessed) and non-inferiority testing based the lower limit of Fieller's one-sided 95% confidence interval for the ratio Gadavist / Magnevist of the means, the power was at least 80% under realistic assumptions.|Ratio of means|0.8698||||||90.0|0.78|0.9657|||Fieller-type confidence interval||For the estimation, only vessel segments with vascular assessments available for both periods were considered. The lower limit of the 95% one-sided Fieller-type confidence interval was compared with the non-inferiority margin 0.85.|Non-inferiority analysis: The aim was to show that Gadavist is not inferior (i.e. similar or better) to Magnevist in visualizing different vascular regions of the body with diagnostic quality in contrast enhanced MRA. Gadavist was to be considered to be non-inferior to Magnevist if the mean number of vessel segments visualized with diagnostic quality of Gadavist enhanced-MRA images was higher than 85% of that of Magnevist enhanced-MRA images in a cross-over design.||0.9657|0.7800|
82489164|NCT03725852|164671653|SUPERIORITY||Least square (LS) mean difference|42.33|STANDARD_ERROR_OF_MEAN|61.483||0.495|TWO_SIDED|95.0|-81.84|166.49||P-value was based on an analysis of covariance (ANCOVA) model at each time point including treatment, sex, stratum (nintedanib, pirfenidone or neither), age, height, and baseline value as covariates.|ANCOVA|||Change at Week 26||166.49|-81.84|0.495
82489165|NCT03725852|164671654|SUPERIORITY||Difference in Percentage|1.7|||||TWO_SIDED|95.0|-17.3|24.5|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs||24.5|-17.3|
82489166|NCT03725852|164671654|SUPERIORITY||Difference in Percentage|15.7|||||TWO_SIDED|95.0|-3.0|30.7|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|Serious TEAEs||30.7|-3.0|
82489167|NCT03725852|164671654|SUPERIORITY||Difference in Percentage|31.4|||||TWO_SIDED|95.0|8.2|49.4|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs related to study drug||49.4|8.2|
82489168|NCT03725852|164671654|SUPERIORITY||Difference in Percentage|22.2|||||TWO_SIDED|95.0|6.7|36.4|||||95% CI for difference calculated using the method of Miettinen and Nurminen.|TEAEs leading to study drug discontinuation||36.4|6.7|
82489169|NCT03725852|164671655|SUPERIORITY|||||||0.397|||||||Log Rank|||All-cause deaths||||0.397
82489170|NCT03725852|164671655|SUPERIORITY|||||||0.397|||||||Log Rank|||Respiratory-related deaths||||0.397
82489171|NCT03725852|164671655|SUPERIORITY|||||||0.131|||||||Log Rank|||All-cause hospitalizations||||0.131
82489172|NCT03725852|164671655|SUPERIORITY|||||||0.762|||||||Log Rank|||Respiratory-related hospitalizations||||0.762
82489173|NCT03725852|164671656|SUPERIORITY||Weighted LS mean difference|-9.11|STANDARD_ERROR_OF_MEAN|15.713||0.565|TWO_SIDED|95.0|-40.87|22.64||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline 6MWT distance as covariates.|ANCOVA|||Change at Week 26||22.64|-40.87|0.565
82489174|NCT03725852|164671657|SUPERIORITY||Weighted LS mean difference.|-1.58|STANDARD_ERROR_OF_MEAN|3.71||0.673|TWO_SIDED|95.0|-9.06|5.91||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26||5.91|-9.06|0.673
82489175|NCT03725852|164671658|SUPERIORITY||Weighted LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|4.591||0.875|TWO_SIDED|95.0|-9.98|8.53||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Symptoms score||8.53|-9.98|0.875
82489176|NCT03725852|164671658|SUPERIORITY||Weighted LS mean difference|-4.14|STANDARD_ERROR_OF_MEAN|5.038||0.416|TWO_SIDED|95.0|-14.29|6.02||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Activity score||6.02|-14.29|0.416
82560752|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|-27.13|STANDARD_ERROR_OF_MEAN|38.61|||TWO_SIDED|90.0|-91.24|36.97|||||Test (PF-05251749 50 mg AM) Reference (Placebo)|||36.97|-91.24|
82560753|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|43.72|STANDARD_ERROR_OF_MEAN|45.72|||TWO_SIDED|90.0|-32.19|119.62|||||Test (PF-05251749 100 mg AM) Reference (Placebo)|||119.62|-32.19|
82584278|NCT03486457|164880296|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.049||0.7098|TWO_SIDED|95.0|-1.68|2.46|||Mixed Models Analysis|||Month 6, Physical Functioning Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.46|-1.68|0.7098
82489177|NCT03725852|164671658|SUPERIORITY||Weighted LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|4.029||0.961|TWO_SIDED|95.0|-8.32|7.92||P-value was based on an ANCOVA model at Week 26 including treatment, stratum (nintedanib, pirfenidone or neither) and baseline SGRQ value as covariates.|ANCOVA|||Change at Week 26: Impacts score||7.92|-8.32|0.961
82489178|NCT03725852|164671659|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82489179|NCT02913612|164671680|SUPERIORITY||Odds Ratio, log|2.65||||0.0205|TWO_SIDED|95.0|1.12|6.26|||Fisher Exact|||||6.26|1.12|0.0205
82489180|NCT02913612|164671680|SUPERIORITY||Odds Ratio, log|2.16||||0.0619|TWO_SIDED|95.0|0.91|5.14|||Fisher Exact|||||5.14|0.91|0.0619
82489181|NCT02913612|164671680|SUPERIORITY||Odds Ratio, log|1.23||||0.6281|TWO_SIDED|95.0|0.53|2.82|||Fisher Exact|||||2.82|0.53|0.6281
82489182|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Kruskal-Wallis|||For Vancomycin, all patients||||0.92
82489183|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin, organisms not requiring vancomycin.||||0.032
82489184|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin-susceptible enterococci||||0.037
82489185|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Kruskal-Wallis|||For vancomycin, methicillin-susceptible Staphylococcus aureus.||||0.2
82489186|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Kruskal-Wallis|||For nafcillin, oxacillin, or cefazolin.||||0.035
82489187|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Kruskal-Wallis|||For piperacillin-tazobactam.||||0.012
82560754|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|61.48|STANDARD_ERROR_OF_MEAN|40.88|||TWO_SIDED|90.0|-6.38|129.35|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||129.35|-6.38|
82560755|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|125.87|STANDARD_ERROR_OF_MEAN|39.37|||TWO_SIDED|90.0|60.51|191.23|||||Test (PF-05251749 400 mg AM) Reference (Placebo)|||191.23|60.51|
82560756|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|156.22|STANDARD_ERROR_OF_MEAN|42.91|||TWO_SIDED|90.0|84.99|227.45|||||Test (PF-05251749 750 mg AM) Reference (Placebo)|||227.45|84.99|
82560757|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|51.42|STANDARD_ERROR_OF_MEAN|33.12|||TWO_SIDED|90.0|-3.57|106.41|||||Test (PF-05251749 50 mg PM) Reference (Placebo)|||106.41|-3.57|
82560758|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|142.74|STANDARD_ERROR_OF_MEAN|36.13|||TWO_SIDED|90.0|82.76|202.72|||||Test (PF-05251749 200 mg PM) Reference (Placebo)|||202.72|82.76|
82560759|NCT02691702|164831534|OTHER|MMRM|Mean Difference (Final Values)|174.9|STANDARD_ERROR_OF_MEAN|36.01|||TWO_SIDED|90.0|115.11|234.69|||||Test (PF-05251749 500 mg PM) Reference (Placebo)|||234.69|115.11|
82560760|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|-71.26|STANDARD_ERROR_OF_MEAN|37.24|||TWO_SIDED|90.0|-133.09|-9.43|||||Test (Melatonin 0.5 mg PM) Reference (Placebo)|||-9.43|-133.09|
82560761|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|-12.13|STANDARD_ERROR_OF_MEAN|38.61|||TWO_SIDED|90.0|-76.24|51.97|||||Test (PF-05251749 50 mg AM) Reference (Placebo)|||51.97|-76.24|
82560762|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|88.72|STANDARD_ERROR_OF_MEAN|45.72|||TWO_SIDED|90.0|12.81|164.62|||||Test (PF-05251749 100 mg AM) Reference (Placebo)|||164.62|12.81|
82560763|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|46.48|STANDARD_ERROR_OF_MEAN|40.88|||TWO_SIDED|90.0|-21.38|114.35|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||114.35|-21.38|
82560764|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|87.3|STANDARD_ERROR_OF_MEAN|39.37|||TWO_SIDED|90.0|21.94|152.66|||||Test (PF-05251749 400 mg AM) Reference (Placebo)|||152.66|21.94|
82560765|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|126.22|STANDARD_ERROR_OF_MEAN|42.91|||TWO_SIDED|90.0|54.99|197.45|||||Test (PF-05251749 750 mg AM) Reference (Placebo)|||197.45|54.99|
82560766|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|92.36|STANDARD_ERROR_OF_MEAN|35.48|||TWO_SIDED|90.0|33.51|151.21|||||Test (PF-05251749 50 mg PM) Reference (Placebo)|||151.21|33.51|
82560767|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|107.29|STANDARD_ERROR_OF_MEAN|36.13|||TWO_SIDED|90.0|47.31|167.27|||||Test (PF-05251749 200 mg AM) Reference (Placebo)|||167.27|47.31|
82560768|NCT02691702|164831535|OTHER|MMRM|Mean Difference (Final Values)|140.61|STANDARD_ERROR_OF_MEAN|37.79|||TWO_SIDED|90.0|77.91|203.3|||||Test (PF-05251749 500 mg AM) Reference (Placebo)|||203.30|77.91|
82584279|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.04|STANDARD_ERROR_OF_MEAN|1.234||0.4019|TWO_SIDED|95.0|-1.4|3.47|||Mixed Models Analysis|||Month 6, Role - Physical Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.47|-1.40|0.4019
82584280|NCT03486457|164880296|SUPERIORITY||LS mean difference|0.37|STANDARD_ERROR_OF_MEAN|1.186||0.7537|TWO_SIDED|95.0|-1.97|2.71|||Mixed Models Analysis|||Month 6, Bodily Pain Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.71|-1.97|0.7537
82560769|NCT03652610|164831536|NON_INFERIORITY|Non-inferiority is concluded if the lower limit of the two sided 95% CI for the hSBA GMT ratio for serogroup A is \> 0.5|GMT ratio|0.88|||||TWO_SIDED|95.0|0.64|1.2|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To demonstrate non-inferiority of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) to that of currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted human serum bactericidal assay (hSBA) Geometric Mean Titers (GMTs) directed against N. meningitidis serogroup A at Day 29 after a single dose vaccination||1.20|0.64|
82560770|NCT03652610|164831537|OTHER||GMT ratio|1.19|||||TWO_SIDED|95.0|0.84|1.68|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup C at Day 29||1.68|0.84|
82584281|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.22|STANDARD_ERROR_OF_MEAN|1.33||0.3595|TWO_SIDED|95.0|-1.4|3.85|||Mixed Models Analysis|||Month 6, General Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.85|-1.40|0.3595
82489188|NCT01898208|164671707|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Kruskal-Wallis|||For cefepime.||||0.56
82489189|NCT01898208|164671708|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the 3 groups.||||0.55
82560771|NCT03652610|164831537|OTHER||GMT ratio|1.23|||||TWO_SIDED|95.0|0.96|1.58|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup W at Day 29||1.58|0.96|
82560772|NCT03652610|164831537|OTHER||GMT ratio|1.19|||||TWO_SIDED|95.0|0.9|1.58|||ANCOVA|Analysis of Covariance (ANCOVA) including pre-vaccination titer (Day 1) as a covariate and with vaccine group and country as factors.||To compare the immunogenicity of the investigational MenACWY liquid vaccine with approximately 30% Men A FS (GSK3536820A ACWY\_Liq Group) and the currently licensed MenACWY vaccine (ACWY Group), as measured by the adjusted hSBA GMTs directed against N. meningitidis serogroup Y at Day 29||1.58|0.90|
82560773|NCT03652610|164831539|OTHER||Difference in percentage of subjects|-3.87|||||TWO_SIDED|95.0|-9.3|1.52|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup A at Day 29.||1.52|-9.30|
82560774|NCT03652610|164831539|OTHER||Difference in percentage of subjects|1.87|||||TWO_SIDED|95.0|-4.7|8.43|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup C at Day 29.||8.43|-4.70|
82560775|NCT03652610|164831539|OTHER||Difference in percentage of subjects|4.54|||||TWO_SIDED|95.0|-1.97|11.01|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup W at Day 29.||11.01|-1.97|
82584282|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.99|STANDARD_ERROR_OF_MEAN|1.52||0.1919|TWO_SIDED|95.0|-1.01|4.99|||Mixed Models Analysis|||Month 6, Vitality Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.99|-1.01|0.1919
82584283|NCT03486457|164880296|SUPERIORITY||LS mean difference|0.28|STANDARD_ERROR_OF_MEAN|1.209||0.8163|TWO_SIDED|95.0|-2.1|2.67|||Mixed Models Analysis|||Month 6, Social Function Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.67|-2.10|0.8163
82489190|NCT01898208|164671709|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||For time to first appropriate de-escalation comparing the 3 groups.||||<0.0001
82489191|NCT01898208|164671709|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Kruskal-Wallis|||For time to first appropriate escalation comparing the 3 groups.||||0.04
82584284|NCT03486457|164880296|SUPERIORITY||LS mean difference|2.23|STANDARD_ERROR_OF_MEAN|1.368||0.1048|TWO_SIDED|95.0|-0.47|4.93|||Mixed Models Analysis|||Month 6, Role - Emotional Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.93|-0.47|0.1048
82584285|NCT03486457|164880296|SUPERIORITY||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.392||0.6118|TWO_SIDED|95.0|-2.04|3.45|||Mixed Models Analysis|||Month 6, Mental Health Domain: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.45|-2.04|0.6118
82584286|NCT03486457|164880296|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|1.014||0.6996|TWO_SIDED|95.0|-1.61|2.39|||Mixed Models Analysis|||Month 6, Physical Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.39|-1.61|0.6996
82584287|NCT03486457|164880296|SUPERIORITY||LS mean difference|1.78|STANDARD_ERROR_OF_MEAN|1.424||0.2122|TWO_SIDED|95.0|-1.03|4.59|||Mixed Models Analysis|||Month 6, Mental Component Summary: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.59|-1.03|0.2122
82584288|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.067||0.0722|TWO_SIDED|95.0|-0.25|0.01|||Mixed Models Analysis|||Month 1, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.25|0.0722
82584289|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.055||0.0035|TWO_SIDED|95.0|-0.27|-0.05|||Mixed Models Analysis|||Month 1, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.05|-0.27|0.0035
82584290|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.14|STANDARD_ERROR_OF_MEAN|0.069||0.0475|TWO_SIDED|95.0|-0.27|0.0|||Mixed Models Analysis|||Month 1, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.27|0.0475
82584291|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.066||0.0537|TWO_SIDED|95.0|-0.26|0.0|||Mixed Models Analysis|||Month 1, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.00|-0.26|0.0537
82584292|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.062||0.1977|TWO_SIDED|95.0|-0.2|0.04|||Mixed Models Analysis|||Month 1, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.04|-0.20|0.1977
82489192|NCT01898208|164671710|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||Chi-squared|||This analysis compares the 3 groups.||||0.015
82489193|NCT01898208|164671711|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the FilmArray test to control arm.||||<0.0001
82489194|NCT01898208|164671711|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares FilmArray plus antimicrobial stewardship to the control arm.||||<0.0001
82489195|NCT01898208|164671712|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||Kruskal-Wallis|||This analysis is to compare the three groups.||||0.79
82489196|NCT01898208|164671713|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Kruskal-Wallis|||||||0.90
82489197|NCT01898208|164671714|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Chi-squared|||This analysis is a comparison of the 3 groups.||||0.62
82489198|NCT01898208|164671715|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Kruskal-Wallis|||This analysis compares the three groups.||||0.60
82489199|NCT01898208|164671716|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Fisher Exact|||Comparison of the 3 groups for all-cause mortality.||||0.74
82584293|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.064||0.0001|TWO_SIDED|95.0|-0.38|-0.13|||Mixed Models Analysis|||Month 3, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.13|-0.38|0.0001
82584294|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.057||0.0018|TWO_SIDED|95.0|-0.29|-0.07|||Mixed Models Analysis|||Month 3, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.07|-0.29|0.0018
82584295|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.47|-0.19|||Mixed Models Analysis|||Month 3, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.19|-0.47|<0.0001
82584296|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.28|STANDARD_ERROR_OF_MEAN|0.073||0.0002|TWO_SIDED|95.0|-0.42|-0.14|||Mixed Models Analysis|||Month 3, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-0.14|-0.42|0.0002
82584297|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.063||0.0835|TWO_SIDED|95.0|-0.23|0.01|||Mixed Models Analysis|||Month 3, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.23|0.0835
82584298|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.056||0.0825|TWO_SIDED|95.0|-0.21|0.01|||Mixed Models Analysis|||Month 6, Mobility: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.21|0.0825
82584299|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.049||0.5616|TWO_SIDED|95.0|-0.13|0.07|||Mixed Models Analysis|||Month 6, Self-Care: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.07|-0.13|0.5616
82560776|NCT03652610|164831539|OTHER||Difference in percentage of subjects|5.25|||||TWO_SIDED|95.0|-1.11|11.57|||Miettinen and Nurminen score method|||Between-group difference in percentage of subjects with a ≥ 4-fold rise in post-vaccination hSBA for N. meningitidis serogroup Y at Day 29.||11.57|-1.11|
82560777|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-2.47|||||TWO_SIDED|95.0|-6.47|1.49|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A at Day 1||1.49|-6.47|
82560778|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-0.58|||||TWO_SIDED|95.0|-6.99|5.83|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C at Day 1||5.83|-6.99|
82560779|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-5.95|||||TWO_SIDED|95.0|-12.33|0.47|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W at Day 1||0.47|-12.33|
82560780|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-2.78|||||TWO_SIDED|95.0|-8.3|2.76|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y at Day 1||2.76|-8.30|
82560781|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-3.69|||||TWO_SIDED|95.0|-8.65|1.21|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup A at Day 29||1.21|-8.65|
82560782|NCT03652610|164831540|OTHER||Difference in percentage of subjects|-0.4|||||TWO_SIDED|95.0|-6.12|5.33|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup C at Day 29||5.33|-6.12|
82560783|NCT03652610|164831540|OTHER||Difference in percentage of subjects|0.26|||||TWO_SIDED|95.0|-5.49|6.02|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup W at Day 29||6.02|-5.49|
82584300|NCT03486457|164880297|SUPERIORITY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.065||0.0748|TWO_SIDED|95.0|-0.24|0.01|||Mixed Models Analysis|||Month 6, Usual Activities: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.01|-0.24|0.0748
82584301|NCT03486457|164880297|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.08||0.9477|TWO_SIDED|95.0|-0.15|0.16|||Mixed Models Analysis|||Month 6, Pain/Discomfort: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.16|-0.15|0.9477
82584302|NCT03486457|164880297|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.067||0.3829|TWO_SIDED|95.0|-0.07|0.19|||Mixed Models Analysis|||Month 6, Anxiety/Depression: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||0.19|-0.07|0.3829
82560784|NCT03652610|164831540|OTHER||Difference in percentage of subjects|1.15|||||TWO_SIDED|95.0|-4.33|6.62|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥8 for the N. meningitidis serogroup Y at Day 29||6.62|-4.33|
82560785|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-2.91|||||TWO_SIDED|95.0|-7.24|1.37|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 1||1.37|-7.24|
82560786|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-1.09|||||TWO_SIDED|95.0|-7.34|5.16|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 1||5.16|-7.34|
82560787|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-5.95|||||TWO_SIDED|95.0|-12.35|0.5|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 1||0.50|-12.35|
82560788|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-2.55|||||TWO_SIDED|95.0|-8.15|3.06|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 1||3.06|-8.15|
82560789|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-3.92|||||TWO_SIDED|95.0|-8.87|0.96|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup A at Day 29||0.96|-8.87|
82560790|NCT03652610|164831541|OTHER||Difference in percentage of subjects|0.07|||||TWO_SIDED|95.0|-5.52|5.65|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup C at Day 29||5.65|-5.52|
82560791|NCT03652610|164831541|OTHER||Difference in percentage of subjects|-0.17|||||TWO_SIDED|95.0|-5.92|5.57|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup W at Day 29||5.57|-5.92|
82560792|NCT03652610|164831541|OTHER||Difference in percentage of subjects|0.5|||||TWO_SIDED|95.0|-4.89|5.9|||Miettinen and Nurminen score method|||Between-group difference in percentages of subjects with hSBA titer ≥LLOQ for the N. meningitidis serogroup Y at Day 29||5.90|-4.89|
82560793|NCT01860079|164831547|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared, Corrected|||Categorical data were analyzed with χ2.Comparisons were also analyzed by χ2 between the early discharge and standard treatment arm for the primary outcomes.||||<0.05
82560794|NCT03292692|164831567|SUPERIORITY||Slope|0.372|||<|0.001|TWO_SIDED|95.0|0.279|0.465|||Regression, Linear|Multi-level regression|Slope of intervention group compared to slope of the control group|||0.465|0.279|<0.001
82560795|NCT03292692|164831568|SUPERIORITY||Slope|0.17|||<|0.001|TWO_SIDED|95.0|0.105|0.235|||Regression, Linear|Multilevel linear modeling|Slope of the intervention group compared to slope of the control group|||0.235|0.105|<0.001
82584303|NCT03486457|164880298|SUPERIORITY||LS mean difference|6.01|STANDARD_ERROR_OF_MEAN|2.084||0.0044|TWO_SIDED|95.0|1.9|10.12|||Mixed Models Analysis|||Month 1: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||10.12|1.90|0.0044
82489200|NCT01898208|164671716|SUPERIORITY_OR_OTHER|||||||0.42|TWO_SIDED||||||Fisher Exact|||Comparison of the 3 groups for attributable mortality.||||0.42
82489201|NCT01898208|164671717|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||Fisher Exact|||This analysis is a comparison across all three groups.||||0.82
82489202|NCT01898208|164671719|SUPERIORITY_OR_OTHER|||||||0.7789|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for total hospitalization costs.||||0.7789
82489203|NCT01898208|164671719|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for laboratory test cost.||||0.0006
82489204|NCT01898208|164671719|SUPERIORITY_OR_OTHER|||||||0.654|TWO_SIDED||||||Kruskal-Wallis|||Comparison between the 3 arms for antimicrobials costs.||||0.6540
82489205|NCT01498978|164671724|OTHER|Exact binomial test (two-sided).||||||0.754|||||||Exact Binomial Test|||Exact binomial test (two-sided). Null hypothesis: the proportion is equal to 0.5||||0.754
82489206|NCT01498978|164671725|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.19|||||||Fisher Exact|||||||0.190
82560796|NCT03292692|164831569|SUPERIORITY||Mean Difference (Final Values)|-2.149|||<|0.001|TWO_SIDED|95.0|-2.974|-1.324|||Regression, Linear|Multilevel linear regression|Multilevel linear modeling, with time modeled as change from pre-post.|||-1.324|-2.974|<0.001
82560797|NCT03292692|164831570|SUPERIORITY||Mean Difference (Final Values)|-1.144||||0.002|TWO_SIDED|95.0|-1.871|-0.417|||Regression, Linear||Multilevel linear modeling, with time modeled as change from pre to post.|||-0.417|-1.871|0.002
82560798|NCT01263496|164831592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.401|||||TWO_SIDED|95.0|-0.618|-0.184||||||||-0.184|-0.618|
82560799|NCT01263496|164831592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.548|||||TWO_SIDED|95.0|-0.739|-0.358||||||||-0.358|-0.739|
82560800|NCT01263496|164831592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-0.779|-0.401||||||||-0.401|-0.779|
82584304|NCT03486457|164880298|SUPERIORITY||LS mean difference|10.8|STANDARD_ERROR_OF_MEAN|2.578|<|0.0001|TWO_SIDED|95.0|5.71|15.88|||Mixed Models Analysis|||Month 3: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||15.88|5.71|<0.0001
82560801|NCT01263496|164831592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.708|||||TWO_SIDED|95.0|-0.894|-0.522||||||||-0.522|-0.894|
82489207|NCT01498978|164671728|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.5|||||||Fisher Exact|||||||0.500
82560802|NCT01263496|164831593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.316|||||TWO_SIDED|95.0|-0.538|-0.093||||||||-0.093|-0.538|
82584305|NCT03486457|164880298|SUPERIORITY||LS mean difference|0.92|STANDARD_ERROR_OF_MEAN|2.442||0.7062|TWO_SIDED|95.0|-3.9|5.74|||Mixed Models Analysis|||Month 6: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.74|-3.90|0.7062
82489208|NCT01498978|164671729|OTHER|Test of association (contingency) between the two kinds of classification.||||||1|||||||Fisher Exact|||||||1.000
82489209|NCT01498978|164671730|OTHER|Test of association (contingency) between the two kinds of classification.||||||0.524|||||||Fisher Exact|||||||0.524
82489210|NCT01011738|164671752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.349||||0.0022|TWO_SIDED|95.0|1.542|7.271||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Log10-drop HBsAg at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||7.271|1.542|0.0022
82489211|NCT01011738|164671752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.595||||0.0019|TWO_SIDED|95.0|1.603|8.063||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Log10-drop HBsAg at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis B.||8.063|1.603|0.0019
82489212|NCT01011738|164671752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.851||||0.0369|TWO_SIDED|95.0|0.732|0.99||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg positive participants, Weight in kg was analyzed as independent predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||0.990|0.732|0.0369
82560803|NCT01263496|164831593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.493|||||TWO_SIDED|95.0|-0.684|-0.302||||||||-0.302|-0.684|
82560804|NCT01263496|164831593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|||||TWO_SIDED|95.0|-0.706|-0.314||||||||-0.314|-0.706|
82560805|NCT01263496|164831593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.647|||||TWO_SIDED|95.0|-0.834|-0.461||||||||-0.461|-0.834|
82560806|NCT01263496|164831594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.263|||||TWO_SIDED|95.0|-0.479|-0.047||||||||-0.047|-0.479|
82560807|NCT01263496|164831594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.395|||||TWO_SIDED|95.0|-0.598|-0.192||||||||-0.192|-0.598|
82560808|NCT01263496|164831594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.405|||||TWO_SIDED|95.0|-0.616|-0.195||||||||-0.195|-0.616|
82560809|NCT01263496|164831594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.583|||||TWO_SIDED|95.0|-0.78|-0.386||||||||-0.386|-0.780|
82560810|NCT01263496|164831595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.172|||||TWO_SIDED|95.0|-0.41|0.065||||||||0.065|-0.410|
82560811|NCT01263496|164831595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.319|||||TWO_SIDED|95.0|-0.55|-0.088||||||||-0.088|-0.550|
82560812|NCT01263496|164831595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|||||TWO_SIDED|95.0|-0.601|-0.139||||||||-0.139|-0.601|
82560813|NCT01263496|164831595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.533|||||TWO_SIDED|95.0|-0.752|-0.314||||||||-0.314|-0.752|
82560814|NCT01263496|164831596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|||||TWO_SIDED|95.0|-0.323|0.166||||||||0.166|-0.323|
82560815|NCT01263496|164831596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.241|||||TWO_SIDED|95.0|-0.471|-0.011||||||||-0.011|-0.471|
82560816|NCT01263496|164831596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.357|||||TWO_SIDED|95.0|-0.59|-0.124||||||||-0.124|-0.590|
82489213|NCT01011738|164671756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.155||||0.0033|TWO_SIDED|95.0|0.045|0.539||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg negative participants, HBsAg in log10 IU/mL at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||0.539|0.045|0.0033
82489214|NCT01011738|164671756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.191||||0.0042|TWO_SIDED|95.0|0.062|0.594|||Wald-Chi-Square test|||In HBeAg negative participants, HBsAg in log10 IU/mL at Week 24 was analyzed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis B.||0.594|0.062|0.0042
82652005|NCT04014959|165019309|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|t(35)= -5.05||Statistical analysis of fMRI-guided TMS evoked subgenual anterior cingulate responses (fMRI BOLD) change at Post-tx/Post-iTBS. Statistics are from one-sample T-tests vs. 0, 2-tailed. Negative t-values represent negative mean fMRI BOLD percent signal change. Alternative hypothesis: true mean is not equal to 0.||||<0.001
82489215|NCT01011738|164671756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.528||||0.0149|TWO_SIDED|95.0|1.086|2.15||Multiple logistic regression were run in stepwise procedure with significance level of 0.05 to stay, considering all pre and on-treatment factors identified by univariate logistic regression to be associated with HBsAg clearance 3 yrs post-treatment.|Wald-Chi-Square test|||In HBeAg negative participants, ALT ratio was analysed as the predictor factor of HBsAg clearance at 3 years post-treatment in analysis A.||2.150|1.086|0.0149
82489216|NCT03181893|164671780|OTHER||Mean Difference (Final Values)|-14.82|STANDARD_ERROR_OF_MEAN|3.183|<|0.0001|TWO_SIDED|90.0|-20.26|-9.37|||LANCOVA-P model|||||-9.37|-20.26|<0.0001
82489217|NCT03181893|164671797|OTHER||Least Squares Mean Difference|10.83|STANDARD_ERROR_OF_MEAN|10.274||0.1537|TWO_SIDED|90.0|-7.1|28.77|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 4||28.77|-7.10|0.1537
82489218|NCT03181893|164671797|OTHER||Least Squares Mean Difference|12.5|STANDARD_ERROR_OF_MEAN|10.761||0.1312|TWO_SIDED|90.0|-6.29|31.29|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 8||31.29|-6.29|0.1312
82489219|NCT03181893|164671797|OTHER||Least Squares Mean Difference|19.44|STANDARD_ERROR_OF_MEAN|12.161||0.0647|TWO_SIDED|90.0|-1.79|40.68|||Mixed Models Analysis|||Difference of the active treatment from Placebo at Week 12||40.68|-1.79|0.0647
82489220|NCT01739361|164671810|SUPERIORITY_OR_OTHER|||||||0.353|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.353
82489221|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.38||1|TWO_SIDED|95.0|-0.8|0.8|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.8|-0.8|1.000
82489222|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.37||1|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.7|-0.7|1.000
82560817|NCT01263496|164831596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.467|||||TWO_SIDED|95.0|-0.692|-0.242||||||||-0.242|-0.692|
82560818|NCT01263496|164831597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|||||TWO_SIDED|95.0|-0.321|0.162||||||||0.162|-0.321|
82652006|NCT04014959|165019311|OTHER|Statistics are an unadjusted linear regression of change in DASS-21 depression score on the pre-intervention TMS/fMRI evoked brain response.||||||0.007|||||||Regression, Linear|β = -33.60||Analysis to investigate the correlation between changes in DASS-21 Scores (Secondary Outcome) and Evoked Functional Brain Activity (Other Pre-specified Outcome) pre and post the 3-Day TMS Intervention Regimen.||||0.007
82489223|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.36||0.391|TWO_SIDED|95.0|-1.0|0.4|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.4|-1.0|0.391
82489224|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.696|TWO_SIDED|95.0|-0.6|0.9|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||0.9|-0.6|0.696
82489225|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.921|TWO_SIDED|95.0|-0.7|0.8|||Mixed Models Analysis|||Relief: Intraparticipant analysis||0.8|-0.7|0.921
82489226|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.693|TWO_SIDED|95.0|-0.6|0.9|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.9|-0.6|0.693
82560819|NCT01263496|164831597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.294|||||TWO_SIDED|95.0|-0.542|-0.046||||||||-0.046|-0.542|
82560820|NCT01263496|164831597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.341|||||TWO_SIDED|95.0|-0.579|-0.103||||||||-0.103|-0.579|
82560821|NCT01263496|164831597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.487|||||TWO_SIDED|95.0|-0.722|-0.252||||||||-0.252|-0.722|
82560822|NCT01263496|164831598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.049|||||TWO_SIDED|95.0|-0.279|0.182||||||||0.182|-0.279|
82560823|NCT01263496|164831598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.234|||||TWO_SIDED|95.0|-0.491|0.023||||||||0.023|-0.491|
82560824|NCT01263496|164831598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.375|||||TWO_SIDED|95.0|-0.605|-0.145||||||||-0.145|-0.605|
82652007|NCT02004847|165019312|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to the end of treatment (week 12) of the target plaque compared to the control plaque.||||0.0005
82560825|NCT01263496|164831598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.488|||||TWO_SIDED|95.0|-0.724|-0.252||||||||-0.252|-0.724|
82560826|NCT01263496|164831599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.27|0.169||||||||0.169|-0.270|
82560827|NCT01263496|164831599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.193|||||TWO_SIDED|95.0|-0.453|0.067||||||||0.067|-0.453|
82560828|NCT01263496|164831599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.374|||||TWO_SIDED|95.0|-0.596|-0.152||||||||-0.152|-0.596|
82560829|NCT01263496|164831599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-0.723|-0.256||||||||-0.256|-0.723|
82560830|NCT01263496|164831600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|||||TWO_SIDED|95.0|-0.16|0.289||||||||0.289|-0.160|
82560831|NCT01263496|164831600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.236|||||TWO_SIDED|95.0|-0.477|0.005||||||||0.005|-0.477|
82560832|NCT01263496|164831600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|95.0|-0.608|-0.113||||||||-0.113|-0.608|
82560833|NCT01263496|164831600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.435|||||TWO_SIDED|95.0|-0.679|-0.191||||||||-0.191|-0.679|
82560834|NCT01263496|164831601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.033|||||TWO_SIDED|95.0|-0.262|0.196||||||||0.196|-0.262|
82560835|NCT01263496|164831601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.262|||||TWO_SIDED|95.0|-0.516|-0.008||||||||-0.008|-0.516|
82560836|NCT01263496|164831601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.358|||||TWO_SIDED|95.0|-0.614|-0.103||||||||-0.103|-0.614|
82560837|NCT01263496|164831601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.432|||||TWO_SIDED|95.0|-0.69|-0.174||||||||-0.174|-0.690|
82560838|NCT01263496|164831602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.118|||||TWO_SIDED|95.0|-0.346|0.11||||||||0.110|-0.346|
82584306|NCT03486457|164880299|SUPERIORITY||LS mean difference|0.86|STANDARD_ERROR_OF_MEAN|2.404||0.7228|TWO_SIDED|95.0|-3.92|5.63|||Mixed Models Analysis|||Month 3, Work Time Missed: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||5.63|-3.92|0.7228
82584307|NCT03486457|164880299|SUPERIORITY||LS mean difference|-6.34|STANDARD_ERROR_OF_MEAN|4.561||0.1682|TWO_SIDED|95.0|-15.39|2.72|||Mixed Models Analysis|||Month 3, Impairment While Working: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||2.72|-15.39|0.1682
82560839|NCT01263496|164831602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.277|||||TWO_SIDED|95.0|-0.539|-0.015||||||||-0.015|-0.539|
82584308|NCT03486457|164880299|SUPERIORITY||LS mean difference|-6.21|STANDARD_ERROR_OF_MEAN|4.707||0.19|TWO_SIDED|95.0|-15.56|3.13|||Mixed Models Analysis|||Month 3, Overall Work Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||3.13|-15.56|0.1900
82652008|NCT02004847|165019313|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to the end of treatment during the attack period (week 4) of the target plaque compared to the control plaque.||||0.0036
82560840|NCT01263496|164831602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.373|||||TWO_SIDED|95.0|-0.637|-0.109||||||||-0.109|-0.637|
82560841|NCT01263496|164831602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.477|||||TWO_SIDED|95.0|-0.741|-0.213||||||||-0.213|-0.741|
82560842|NCT01263496|164831603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.181|||||TWO_SIDED|95.0|-0.416|0.055||||||||0.055|-0.416|
82560843|NCT01263496|164831603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.245|||||TWO_SIDED|95.0|-0.492|0.003||||||||0.003|-0.492|
82560844|NCT01263496|164831603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.408|||||TWO_SIDED|95.0|-0.654|-0.161||||||||-0.161|-0.654|
82560845|NCT01263496|164831603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.638|||||TWO_SIDED|95.0|-0.874|-0.402||||||||-0.402|-0.874|
82560846|NCT01263496|164831604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.51|||||TWO_SIDED|95.0|-17.56|0.54||||||||0.54|-17.56|
82560847|NCT01263496|164831604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7|||||TWO_SIDED|95.0|-19.23|-4.18||||||||-4.18|-19.23|
82560848|NCT01263496|164831604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.41|||||TWO_SIDED|95.0|-20.68|-6.15||||||||-6.15|-20.68|
82560849|NCT01263496|164831604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.38|||||TWO_SIDED|95.0|-26.93|-11.83||||||||-11.83|-26.93|
82560850|NCT01263496|164831605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.44|||||TWO_SIDED|95.0|-12.67|3.8||||||||3.80|-12.67|
82560851|NCT01263496|164831605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.39|||||TWO_SIDED|95.0|-17.48|-1.3||||||||-1.30|-17.48|
82560852|NCT01263496|164831605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.56|||||TWO_SIDED|95.0|-18.58|-2.54||||||||-2.54|-18.58|
82560853|NCT01263496|164831605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.37|||||TWO_SIDED|95.0|-21.44|-3.31||||||||-3.31|-21.44|
82560854|NCT01263496|164831606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||||TWO_SIDED|95.0|-15.66|1.86||||||||1.86|-15.66|
82560855|NCT01263496|164831606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.73|||||TWO_SIDED|95.0|-18.97|-2.49||||||||-2.49|-18.97|
82560856|NCT01263496|164831606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.21|||||TWO_SIDED|95.0|-17.2|-1.23||||||||-1.23|-17.20|
82560857|NCT01263496|164831606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.49|||||TWO_SIDED|95.0|-24.27|-6.72||||||||-6.72|-24.27|
82560858|NCT01263496|164831607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.27|||||TWO_SIDED|95.0|-11.22|6.67||||||||6.67|-11.22|
82560859|NCT01263496|164831607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.36|||||TWO_SIDED|95.0|-12.16|5.44||||||||5.44|-12.16|
82560860|NCT01263496|164831607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.43|||||TWO_SIDED|95.0|-13.3|2.44||||||||2.44|-13.30|
82560861|NCT01263496|164831607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.9|||||TWO_SIDED|95.0|-20.74|-3.06||||||||-3.06|-20.74|
82560862|NCT01263496|164831608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.44|||||TWO_SIDED|95.0|-11.97|7.08||||||||7.08|-11.97|
82560863|NCT01263496|164831608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.25|||||TWO_SIDED|95.0|-15.84|3.35||||||||3.35|-15.84|
82560864|NCT01263496|164831608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.93|||||TWO_SIDED|95.0|-15.28|1.41||||||||1.41|-15.28|
82584309|NCT03486457|164880299|SUPERIORITY||LS mean difference|-1.08|STANDARD_ERROR_OF_MEAN|2.581||0.6757|TWO_SIDED|95.0|-6.22|4.05|||Mixed Models Analysis|||Month 6, Work Time Missed: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||4.05|-6.22|0.6757
82489227|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.1|STANDARD_ERROR_OF_MEAN|0.39||0.77|TWO_SIDED|95.0|-0.7|0.9|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||0.9|-0.7|0.770
82560865|NCT01263496|164831608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.73|||||TWO_SIDED|95.0|-22.67|-2.78||||||||-2.78|-22.67|
82560866|NCT01263496|164831609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-13.19|2.31||||||||2.31|-13.19|
82560867|NCT01263496|164831609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.77|||||TWO_SIDED|95.0|-13.53|5.99||||||||5.99|-13.53|
82560868|NCT01263496|164831609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.85|||||TWO_SIDED|95.0|-14.36|2.67||||||||2.67|-14.36|
82560869|NCT01263496|164831609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.22|||||TWO_SIDED|95.0|-20.72|-1.73||||||||-1.73|-20.72|
82560870|NCT01263496|164831610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.26|||||TWO_SIDED|95.0|-10.42|5.9||||||||5.90|-10.42|
82560871|NCT01263496|164831610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-15.64|3.84||||||||3.84|-15.64|
82560872|NCT01263496|164831610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.47|||||TWO_SIDED|95.0|-16.52|-0.42||||||||-0.42|-16.52|
82584310|NCT03486457|164880299|SUPERIORITY||LS mean difference|-2.38|STANDARD_ERROR_OF_MEAN|4.905||0.6285|TWO_SIDED|95.0|-12.13|7.37|||Mixed Models Analysis|||Month 6, Impairment While Working: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.37|-12.13|0.6285
82560873|NCT01263496|164831610|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.47|||||TWO_SIDED|95.0|-22.18|-2.76||||||||-2.76|-22.18|
82560874|NCT01263496|164831611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|||||TWO_SIDED|95.0|-7.1|7.77||||||||7.77|-7.10|
82560875|NCT01263496|164831611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98|||||TWO_SIDED|95.0|-10.16|8.21||||||||8.21|-10.16|
82560876|NCT01263496|164831611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.88|||||TWO_SIDED|95.0|-9.71|5.95||||||||5.95|-9.71|
82489228|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.98||0.938|TWO_SIDED|95.0|-3.7|4.0|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||4.0|-3.7|0.938
82560877|NCT01263496|164831611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.38|||||TWO_SIDED|95.0|-18.59|-0.18||||||||-0.18|-18.59|
82560878|NCT01263496|164831612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72|||||TWO_SIDED|95.0|-10.2|6.75||||||||6.75|-10.20|
82652009|NCT02004847|165019314|SUPERIORITY_OR_OTHER|||||||0.3075|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from end of treatment (week 12, visit 7) to end of follow up (week 16, visit 8) of the target plaque compared to the control plaque.||||0.3075
82560879|NCT01263496|164831612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||||TWO_SIDED|95.0|-13.1|5.7||||||||5.70|-13.10|
82560880|NCT01263496|164831612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.97|||||TWO_SIDED|95.0|-12.94|5.0||||||||5.00|-12.94|
82560881|NCT01263496|164831612|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.74|||||TWO_SIDED|95.0|-19.4|-0.08||||||||-0.08|-19.40|
82560882|NCT01263496|164831613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.43|||||TWO_SIDED|95.0|-11.0|6.15||||||||6.15|-11.00|
82560883|NCT01263496|164831613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.29|||||TWO_SIDED|95.0|-16.53|1.94||||||||1.94|-16.53|
82560884|NCT01263496|164831613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|||||TWO_SIDED|95.0|-17.93|-0.67||||||||-0.67|-17.93|
82560885|NCT01263496|164831613|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.88|||||TWO_SIDED|95.0|-21.83|-1.93||||||||-1.93|-21.83|
82560886|NCT01263496|164831614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-9.68|7.27||||||||7.27|-9.68|
82560887|NCT01263496|164831614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.05|||||TWO_SIDED|95.0|-16.34|2.24||||||||2.24|-16.34|
82560888|NCT01263496|164831614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.86|||||TWO_SIDED|95.0|-17.47|-0.26||||||||-0.26|-17.47|
82560889|NCT01263496|164831614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.51|||||TWO_SIDED|95.0|-23.12|-3.89||||||||-3.89|-23.12|
82560890|NCT01263496|164831615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.65|||||TWO_SIDED|95.0|-10.09|6.8||||||||6.80|-10.09|
82560891|NCT01263496|164831615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||||TWO_SIDED|95.0|-15.66|2.25||||||||2.25|-15.66|
82560892|NCT01263496|164831615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.28|||||TWO_SIDED|95.0|-16.64|0.07||||||||0.07|-16.64|
82560893|NCT01263496|164831615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.82|||||TWO_SIDED|95.0|-27.39|-10.24||||||||-10.24|-27.39|
82560894|NCT01263496|164831616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|||||TWO_SIDED|95.0|-0.219|0.254||||||||0.254|-0.219|
82560895|NCT01263496|164831616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|||||TWO_SIDED|95.0|0.002|0.451||||||||0.451|0.002|
82560896|NCT01263496|164831616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|0.008|0.453||||||||0.453|0.008|
82560897|NCT01263496|164831616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.282|||||TWO_SIDED|95.0|0.041|0.524||||||||0.524|0.041|
82560898|NCT01263496|164831617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-0.173|0.353||||||||0.353|-0.173|
82560899|NCT01263496|164831617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.228|||||TWO_SIDED|95.0|-0.01|0.467||||||||0.467|-0.010|
82560900|NCT01263496|164831617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.339|||||TWO_SIDED|95.0|0.095|0.584||||||||0.584|0.095|
82560901|NCT01263496|164831617|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.468|||||TWO_SIDED|95.0|0.184|0.752||||||||0.752|0.184|
82560902|NCT01263496|164831618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.317|||||TWO_SIDED|95.0|0.064|0.57||||||||0.570|0.064|
82560903|NCT01263496|164831618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.511|||||TWO_SIDED|95.0|0.236|0.786||||||||0.786|0.236|
82560904|NCT01263496|164831618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.437|||||TWO_SIDED|95.0|0.19|0.685||||||||0.685|0.190|
82560905|NCT01263496|164831618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.718|||||TWO_SIDED|95.0|0.413|1.022||||||||1.022|0.413|
82560906|NCT01263496|164831619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|||||TWO_SIDED|95.0|-0.029|0.481||||||||0.481|-0.029|
82560907|NCT01263496|164831619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.358|||||TWO_SIDED|95.0|0.104|0.612||||||||0.612|0.104|
82560908|NCT01263496|164831619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.308|||||TWO_SIDED|95.0|0.076|0.54||||||||0.540|0.076|
82560909|NCT01263496|164831619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|||||TWO_SIDED|95.0|0.098|0.565||||||||0.565|0.098|
82560910|NCT01263496|164831620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.13|0.41||||||||0.410|-0.130|
82560911|NCT01263496|164831620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.245|||||TWO_SIDED|95.0|-0.026|0.516||||||||0.516|-0.026|
82560912|NCT01263496|164831620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.294|||||TWO_SIDED|95.0|0.035|0.552||||||||0.552|0.035|
82560913|NCT01263496|164831620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|||||TWO_SIDED|95.0|0.032|0.626||||||||0.626|0.032|
82560914|NCT01263496|164831621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|||||TWO_SIDED|95.0|-0.252|0.349||||||||0.349|-0.252|
82560915|NCT01263496|164831621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|0.138|0.703||||||||0.703|0.138|
82560916|NCT01263496|164831621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46|||||TWO_SIDED|95.0|0.178|0.742||||||||0.742|0.178|
82560917|NCT01263496|164831621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.384|||||TWO_SIDED|95.0|0.085|0.683||||||||0.683|0.085|
82560918|NCT01263496|164831622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|||||TWO_SIDED|95.0|-0.257|0.326||||||||0.326|-0.257|
82560919|NCT01263496|164831622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|||||TWO_SIDED|95.0|-0.043|0.542||||||||0.542|-0.043|
82560920|NCT01263496|164831622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|||||TWO_SIDED|95.0|-0.196|0.417||||||||0.417|-0.196|
82560921|NCT01263496|164831622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.333|||||TWO_SIDED|95.0|0.01|0.656||||||||0.656|0.010|
82652010|NCT02004847|165019315|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 4 of the target plaque compared to the control plaque.||||0.0140
82560922|NCT01263496|164831623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.268|||||TWO_SIDED|95.0|-0.769|0.233||||||||0.233|-0.769|
82560923|NCT01263496|164831623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.349|||||TWO_SIDED|95.0|-0.156|0.855||||||||0.855|-0.156|
82560924|NCT01263496|164831623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.297|0.577||||||||0.577|-0.297|
82560925|NCT01263496|164831623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.308|||||TWO_SIDED|95.0|-0.075|0.69||||||||0.690|-0.075|
82560926|NCT01263496|164831624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|||||TWO_SIDED|95.0|-0.367|0.928||||||||0.928|-0.367|
82560927|NCT01263496|164831624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.579|||||TWO_SIDED|95.0|-0.035|1.194||||||||1.194|-0.035|
82560928|NCT01263496|164831624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.647|||||TWO_SIDED|95.0|0.054|1.241||||||||1.241|0.054|
82560929|NCT01263496|164831624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|||||TWO_SIDED|95.0|-0.28|0.785||||||||0.785|-0.280|
82560930|NCT01263496|164831625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.246|0.646||||||||0.646|-1.246|
82560931|NCT01263496|164831625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.643|||||TWO_SIDED|95.0|-0.305|1.591||||||||1.591|-0.305|
82560932|NCT01263496|164831625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|||||TWO_SIDED|95.0|-0.599|0.888||||||||0.888|-0.599|
82560933|NCT01263496|164831625|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|95.0|-0.673|1.173||||||||1.173|-0.673|
82560934|NCT01263496|164831626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||||TWO_SIDED|95.0|-4.462|2.562||||||||2.562|-4.462|
82560935|NCT01263496|164831626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|||||TWO_SIDED|95.0|-2.712|2.779||||||||2.779|-2.712|
82560936|NCT01263496|164831626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-3.273|2.073||||||||2.073|-3.273|
82560937|NCT01263496|164831626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.874|2.074||||||||2.074|-2.874|
82560938|NCT01263496|164831627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|||||TWO_SIDED|95.0|-0.14|0.458||||||||0.458|-0.140|
82560939|NCT01263496|164831627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.001|0.52||||||||0.520|-0.001|
82560940|NCT01263496|164831627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|||||TWO_SIDED|95.0|-0.126|0.398||||||||0.398|-0.126|
82560941|NCT01263496|164831627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.298|||||TWO_SIDED|95.0|0.042|0.553||||||||0.553|0.042|
82560942|NCT01263496|164831628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.92|||||TWO_SIDED|95.0|-11.82|7.99||||||||7.99|-11.82|
82560943|NCT01263496|164831628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.02|||||TWO_SIDED|95.0|-12.45|6.4||||||||6.40|-12.45|
82560944|NCT01263496|164831628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.41|||||TWO_SIDED|95.0|-18.77|1.96||||||||1.96|-18.77|
82560945|NCT01263496|164831628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.96|||||TWO_SIDED|95.0|-18.35|0.44||||||||0.44|-18.35|
82560946|NCT01263496|164831629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.66|||||TWO_SIDED|95.0|-3.88|19.19||||||||19.19|-3.88|
82560947|NCT01263496|164831629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-11.41|9.24||||||||9.24|-11.41|
82560948|NCT01263496|164831629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08|||||TWO_SIDED|95.0|-12.91|10.75||||||||10.75|-12.91|
82560949|NCT01263496|164831629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-11.32|9.99||||||||9.99|-11.32|
82560950|NCT01263496|164831630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7|||||TWO_SIDED|95.0|-7.09|16.49||||||||16.49|-7.09|
82560951|NCT01263496|164831630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||||TWO_SIDED|95.0|-8.63|11.89||||||||11.89|-8.63|
82560952|NCT01263496|164831630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.69|||||TWO_SIDED|95.0|-13.36|7.98||||||||7.98|-13.36|
82560953|NCT01263496|164831630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||||TWO_SIDED|95.0|-20.58|2.17||||||||2.17|-20.58|
82560954|NCT01263496|164831631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-11.44|9.84||||||||9.84|-11.44|
82560955|NCT01263496|164831631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04|||||TWO_SIDED|95.0|-11.74|7.66||||||||7.66|-11.74|
82652011|NCT02004847|165019315|SUPERIORITY_OR_OTHER|||||||0.0064|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 12 of the target plaque compared to the control plaque.||||0.0064
82560956|NCT01263496|164831631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.44|||||TWO_SIDED|95.0|-15.62|4.75||||||||4.75|-15.62|
82560957|NCT01263496|164831631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.28|||||TWO_SIDED|95.0|-23.83|-2.74||||||||-2.74|-23.83|
82560958|NCT01263496|164831632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.02|||||TWO_SIDED|95.0|-28.15|14.1||||||||14.10|-28.15|
82560959|NCT01263496|164831632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.45|||||TWO_SIDED|95.0|-23.93|13.02||||||||13.02|-23.93|
82560960|NCT01263496|164831632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||||TWO_SIDED|95.0|-35.46|-0.13||||||||-0.13|-35.46|
82560961|NCT01263496|164831632|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.58|||||TWO_SIDED|95.0|-47.75|-13.41||||||||-13.41|-47.75|
82560962|NCT01263496|164831633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.45|||||TWO_SIDED|95.0|-5.18|42.09||||||||42.09|-5.18|
82652012|NCT02004847|165019315|SUPERIORITY_OR_OTHER|||||||0.102|TWO_SIDED||||||t-test, 2 sided|||Statistically analysed were the difference in change from baseline to week 16 of the target plaque compared to the control plaque.||||0.1020
82560963|NCT01263496|164831633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.86|||||TWO_SIDED|95.0|-13.56|33.28||||||||33.28|-13.56|
82560964|NCT01263496|164831633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.44|||||TWO_SIDED|95.0|-30.25|15.37||||||||15.37|-30.25|
82560965|NCT01263496|164831633|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|||||TWO_SIDED|95.0|-34.75|9.15||||||||9.15|-34.75|
82560966|NCT01263496|164831634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.84|||||TWO_SIDED|95.0|-13.9|25.58||||||||25.58|-13.90|
82560967|NCT01263496|164831634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.35|||||TWO_SIDED|95.0|-18.2|24.9||||||||24.90|-18.20|
82560968|NCT01263496|164831634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.64|||||TWO_SIDED|95.0|-26.03|18.74||||||||18.74|-26.03|
82560969|NCT01263496|164831634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.37|||||TWO_SIDED|95.0|-47.08|0.34||||||||0.34|-47.08|
82560970|NCT01263496|164831635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.97|||||TWO_SIDED|95.0|-18.77|24.71||||||||24.71|-18.77|
82560971|NCT01263496|164831635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.37|||||TWO_SIDED|95.0|-21.21|23.94||||||||23.94|-21.21|
82560972|NCT01263496|164831635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.2|||||TWO_SIDED|95.0|-32.69|10.3||||||||10.30|-32.69|
82560973|NCT01263496|164831635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-34.9|||||TWO_SIDED|95.0|-56.85|-12.96||||||||-12.96|-56.85|
82560974|NCT01263496|164831636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.955|||||TWO_SIDED|95.0|0.375|1.535||||||||1.535|0.375|
82560975|NCT01263496|164831636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.358|||||TWO_SIDED|95.0|0.752|1.965||||||||1.965|0.752|
82560976|NCT01263496|164831636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||||TWO_SIDED|95.0|0.724|1.975||||||||1.975|0.724|
82560977|NCT01263496|164831636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||||TWO_SIDED|95.0|0.804|1.955||||||||1.955|0.804|
82652013|NCT05188521|165019356|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82652014|NCT05188521|165019357|SUPERIORITY|||||||0.593|||||||Wilcoxon (Mann-Whitney)|||||||0.593
82560978|NCT01263496|164831637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.034|||||TWO_SIDED|95.0|0.344|1.723||||||||1.723|0.344|
82560979|NCT01263496|164831637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.448|||||TWO_SIDED|95.0|0.78|2.115||||||||2.115|0.780|
82560980|NCT01263496|164831637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.243|||||TWO_SIDED|95.0|0.616|1.87||||||||1.870|0.616|
82560981|NCT01263496|164831637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.481|||||TWO_SIDED|95.0|0.827|2.136||||||||2.136|0.827|
82560982|NCT01263496|164831638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|||||TWO_SIDED|95.0|-4.088|4.188||||||||4.188|-4.088|
82560983|NCT01263496|164831638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.585|||||TWO_SIDED|95.0|-3.476|6.647||||||||6.647|-3.476|
82560984|NCT01263496|164831638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.517|||||TWO_SIDED|95.0|-8.151|9.184||||||||9.184|-8.151|
82560985|NCT01263496|164831638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.277|||||TWO_SIDED|95.0|-2.191|4.744||||||||4.744|-2.191|
82560986|NCT01263496|164831639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.841|||||TWO_SIDED|95.0|0.239|1.443||||||||1.443|0.239|
82560987|NCT01263496|164831639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.304|||||TWO_SIDED|95.0|0.679|1.93||||||||1.930|0.679|
82560988|NCT01263496|164831639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.992|||||TWO_SIDED|95.0|0.4|1.585||||||||1.585|0.400|
82560989|NCT01263496|164831639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263|||||TWO_SIDED|95.0|0.674|1.853||||||||1.853|0.674|
82560990|NCT01263496|164831640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.891|||||TWO_SIDED|95.0|9.597|22.184||||||||22.184|9.597|
82560991|NCT01263496|164831640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.026|||||TWO_SIDED|95.0|12.466|23.585||||||||23.585|12.466|
82560992|NCT01263496|164831640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.838|||||TWO_SIDED|95.0|14.379|25.297||||||||25.297|14.379|
82560993|NCT01263496|164831640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.368|||||TWO_SIDED|95.0|8.677|22.06||||||||22.060|8.677|
82560994|NCT01263496|164831641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.323|||||TWO_SIDED|95.0|6.567|22.079||||||||22.079|6.567|
82560995|NCT01263496|164831641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.714|||||TWO_SIDED|95.0|14.563|26.864||||||||26.864|14.563|
82560996|NCT01263496|164831641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.063|||||TWO_SIDED|95.0|13.125|25.002||||||||25.002|13.125|
82560997|NCT01263496|164831641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.233|||||TWO_SIDED|95.0|6.618|23.847||||||||23.847|6.618|
82652015|NCT05188521|165019358|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82652016|NCT05188521|165019359|SUPERIORITY|||||||0.138|||||||Wilcoxon (Mann-Whitney)|||||||0.138
82652017|NCT05188521|165019360|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82652018|NCT05188521|165019361|SUPERIORITY|||||||0.357|||||||Wilcoxon (Mann-Whitney)|||||||0.357
82652019|NCT05188521|165019362|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82489229|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.52||0.34|TWO_SIDED|95.0|-1.5|0.5|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.5|-1.5|0.340
82489230|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.5||0.258|TWO_SIDED|95.0|-1.6|0.4|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.4|-1.6|0.258
82489231|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.49||0.381|TWO_SIDED|95.0|-1.4|0.5|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.5|-1.4|0.381
82489232|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.54||0.287|TWO_SIDED|95.0|-1.6|0.5|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||0.5|-1.6|0.287
82489233|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.42|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Relief: Intraparticipant analysis||0.6|-1.5|0.420
82489234|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.6|STANDARD_ERROR_OF_MEAN|0.53||0.227|TWO_SIDED|95.0|-1.7|0.4|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.4|-1.7|0.227
82489235|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.54||0.427|TWO_SIDED|95.0|-1.5|0.6|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||0.6|-1.5|0.427
82489236|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-3.1|STANDARD_ERROR_OF_MEAN|2.7||0.256|TWO_SIDED|95.0|-8.4|2.2|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||2.2|-8.4|0.256
82489237|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.62||0.198|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||2.0|-0.4|0.198
82489238|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.9|STANDARD_ERROR_OF_MEAN|0.6||0.132|TWO_SIDED|95.0|-0.3|2.1|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||2.1|-0.3|0.132
82489239|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|0.58||0.227|TWO_SIDED|95.0|-0.4|1.8|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||1.8|-0.4|0.227
82489240|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.8|STANDARD_ERROR_OF_MEAN|0.63||0.208|TWO_SIDED|95.0|-0.4|2.0|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||2.0|-0.4|0.208
82560998|NCT01263496|164831642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.047|||||TWO_SIDED|95.0|1.169|14.924||||||||14.924|1.169|
82489241|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.7|STANDARD_ERROR_OF_MEAN|0.63||0.265|TWO_SIDED|95.0|-0.5|1.9|||Mixed Models Analysis|||Relief: Intraparticipant analysis||1.9|-0.5|0.265
82489242|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.63||0.34|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||1.8|-0.6|0.340
82489243|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|0.6|STANDARD_ERROR_OF_MEAN|0.64||0.347|TWO_SIDED|95.0|-0.7|1.9|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||1.9|-0.7|0.347
82489244|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|4.3|STANDARD_ERROR_OF_MEAN|3.19||0.179|TWO_SIDED|95.0|-2.0|10.6|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||10.6|-2.0|0.179
82560999|NCT01263496|164831642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.95|||||TWO_SIDED|95.0|7.767|20.133||||||||20.133|7.767|
82561000|NCT01263496|164831642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.221|||||TWO_SIDED|95.0|9.191|21.251||||||||21.251|9.191|
82652020|NCT05188521|165019363|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82652021|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|11.37|||<|0.001|TWO_SIDED|95.0|8.44|14.68||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PRP|PR5I minus INFANRIX™ hexa|14.68|8.44|< 0.001
82489245|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|Least Square (LS) Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.57||0.556|TWO_SIDED|95.0|-1.4|0.8|||Mixed Models Analysis|||Overall Opinion: Intraparticipant analysis||0.8|-1.4|0.556
82489246|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.54||0.76|TWO_SIDED|95.0|-1.2|0.9|||Mixed Models Analysis|||Vascularity: Intraparticipant analysis||0.9|-1.2|0.760
82489247|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.53||0.636|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||Pigmentation: Intraparticipant analysis||0.8|-1.3|0.636
82489248|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.774|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||Thickness: Intraparticipant analysis||1.0|-1.3|0.774
82489249|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.2|STANDARD_ERROR_OF_MEAN|0.57||0.771|TWO_SIDED|95.0|-1.3|1.0|||Mixed Models Analysis|||Relief: Intraparticipant analysis||1.0|-1.3|0.771
82489250|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|0.57||0.468|TWO_SIDED|95.0|-1.5|0.7|||Mixed Models Analysis|||Pliability: Intraparticipant analysis||0.7|-1.5|0.468
82489251|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.58||0.886|TWO_SIDED|95.0|-1.2|1.1|||Mixed Models Analysis|||Surface Area: Intraparticipant analysis||1.1|-1.2|0.886
82489252|NCT01346969|164671822|OTHER|LS Mean, SE, 95% confidence interval, and p-value were derived from MMRM model that includes fixed factors for treatment, pooled site, scheduled visit, an interaction for treatment by scheduled visit, and a covariate for Fitzpatrick category.|LS Mean|-1.3|STANDARD_ERROR_OF_MEAN|2.91||0.668|TWO_SIDED|95.0|-7.0|4.5|||Mixed Models Analysis|||Composite Score: Intraparticipant analysis||4.5|-7.0|0.668
82489253|NCT02484690|164671870|SUPERIORITY||Difference in Least Squares Means|1.57||||0.5244|TWO_SIDED|80.0|-1.6|4.74||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||4.74|-1.60|0.5244
82489254|NCT02484690|164671870|SUPERIORITY||Difference in Least Squares Means|-1.59||||0.5308|TWO_SIDED|80.0|-4.86|1.67||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||1.67|-4.86|0.5308
82489255|NCT02484690|164671870|SUPERIORITY||Difference in Least Squares Means|-1.51||||0.5309|TWO_SIDED|80.0|-4.62|1.59||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.59|-4.62|0.5309
82489256|NCT02484690|164671871|SUPERIORITY||Difference in Least Squares Means|-1.68||||0.3034|TWO_SIDED|80.0|-3.77|0.42||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: BCVA at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that the Arm E mean was different from Arm A mean.||0.42|-3.77|0.3034
82561001|NCT01263496|164831642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.366|||||TWO_SIDED|95.0|5.847|20.885||||||||20.885|5.847|
82489257|NCT02484690|164671872|SUPERIORITY||Difference in Least Squares Means|5.63||||0.5527|TWO_SIDED|80.0|-6.52|17.77||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||17.77|-6.52|0.5527
82489258|NCT02484690|164671872|SUPERIORITY||Difference in Least Squares Means|-3.09||||0.7382|TWO_SIDED|80.0|-14.95|8.76||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||8.76|-14.95|0.7382
82489259|NCT02484690|164671872|SUPERIORITY||Difference in Least Squares Means|-7.32||||0.3932|TWO_SIDED|80.0|-18.32|3.67||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||3.67|-18.32|0.3932
82489260|NCT02484690|164671873|SUPERIORITY||Difference in Percentage of Participants|-5.71||||0.2328|TWO_SIDED|80.0|-10.74|-0.69||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||-0.69|-10.74|0.2328
82489261|NCT02484690|164671874|SUPERIORITY||Difference in Least Squares Means|-0.52||||0.9581|TWO_SIDED|80.0|-13.26|12.22||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||12.22|-13.26|0.9581
82489262|NCT02484690|164671874|SUPERIORITY||Difference in Least Squares Means|-10.08||||0.3166|TWO_SIDED|80.0|-22.99|2.82||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.82|-22.99|0.3166
82489263|NCT02484690|164671874|SUPERIORITY||Difference in Least Squares Means|-7.68||||0.4244|TWO_SIDED|80.0|-20.01|4.64||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||4.64|-20.01|0.4244
82489264|NCT02484690|164671875|SUPERIORITY||Difference in Percentage of Participants|-6.64||||0.5586|TWO_SIDED|80.0|-18.6|5.32||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||5.32|-18.60|0.5586
82489265|NCT02484690|164671876|SUPERIORITY||Difference in Least Squares Means|1.0||||0.8536|TWO_SIDED|80.0|-5.93|7.93||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||7.93|-5.93|0.8536
82489266|NCT02484690|164671876|SUPERIORITY||Difference in Least Squares Means|8.14||||0.2303|TWO_SIDED|80.0|-0.56|16.83||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||16.83|-0.56|0.2303
82561002|NCT01263496|164831643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.719|||||TWO_SIDED|95.0|1.657|13.782||||||||13.782|1.657|
82561003|NCT01263496|164831643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.978|||||TWO_SIDED|95.0|7.556|18.399||||||||18.399|7.556|
82561004|NCT01263496|164831643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.076|||||TWO_SIDED|95.0|9.808|20.345||||||||20.345|9.808|
82561005|NCT01263496|164831643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.087|||||TWO_SIDED|95.0|6.561|19.614||||||||19.614|6.561|
82489267|NCT02484690|164671876|SUPERIORITY||Difference in Least Squares Means|1.08||||0.8406|TWO_SIDED|80.0|-5.79|7.95||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Generalized Estimating Equations Model|Categorical covariates: treatment group, visit, and visit by treatment group interaction. An AR(1) covariance structure was also used.|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||7.95|-5.79|0.8406
82489268|NCT02484690|164671877|SUPERIORITY||Difference in Percentage of Participants|-0.77||||1|TWO_SIDED|80.0|-11.23|9.68||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Fisher Exact||The difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||9.68|-11.23|1.0000
82489269|NCT02484690|164671878|SUPERIORITY||Difference in Least Squares Means|12.65||||0.3798|TWO_SIDED|80.0|-5.81|31.11||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||31.11|-5.81|0.3798
82489270|NCT02484690|164671878|SUPERIORITY||Difference in Least Squares Means|0.88||||0.9529|TWO_SIDED|80.0|-18.3|20.03||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||20.03|-18.3|0.9529
82489271|NCT02484690|164671878|SUPERIORITY||Difference in Least Squares Means|32.81||||0.0208|TWO_SIDED|80.0|14.65|50.96||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||50.96|14.65|0.0208
82489272|NCT02484690|164671879|SUPERIORITY||Difference in Least Squares Means|-6.35||||0.5185|TWO_SIDED|80.0|-19.0|6.27||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: FCPT at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||6.27|-19.0|0.5185
82489273|NCT02484690|164671880|SUPERIORITY||Difference in Least Squares Means|19.45||||0.1624|TWO_SIDED|80.0|1.61|37.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||37.29|1.61|0.1624
82561006|NCT01263496|164831644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.76|||||TWO_SIDED|95.0|-7.03|20.55||||||||20.55|-7.03|
82561007|NCT01263496|164831644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.85|||||TWO_SIDED|95.0|-1.49|25.19||||||||25.19|-1.49|
82561008|NCT01263496|164831644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.72|||||TWO_SIDED|95.0|-5.12|24.56||||||||24.56|-5.12|
82561009|NCT01263496|164831644|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|95.0|-13.26|14.9||||||||14.90|-13.26|
82561010|NCT01263496|164831645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9|||||TWO_SIDED|95.0|-11.11|22.91||||||||22.91|-11.11|
82561011|NCT01263496|164831645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57|||||TWO_SIDED|95.0|-7.21|28.35||||||||28.35|-7.21|
82561012|NCT01263496|164831645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.45|||||TWO_SIDED|95.0|-10.08|26.98||||||||26.98|-10.08|
82561013|NCT01263496|164831645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.82|||||TWO_SIDED|95.0|-10.67|24.3||||||||24.30|-10.67|
82561014|NCT01263496|164831646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||||TWO_SIDED|95.0|-14.95|21.13||||||||21.13|-14.95|
82561015|NCT01263496|164831646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||||TWO_SIDED|95.0|-15.61|20.57||||||||20.57|-15.61|
82561016|NCT01263496|164831646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||||TWO_SIDED|95.0|-21.0|19.68||||||||19.68|-21.00|
82561017|NCT01263496|164831646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|||||TWO_SIDED|95.0|-17.47|20.05||||||||20.05|-17.47|
82561018|NCT01263496|164831647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||||TWO_SIDED|95.0|-11.7|19.86||||||||19.86|-11.70|
82561019|NCT01263496|164831647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.94|||||TWO_SIDED|95.0|-11.14|21.03||||||||21.03|-11.14|
82561020|NCT01263496|164831647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||||TWO_SIDED|95.0|-14.42|21.73||||||||21.73|-14.42|
82561021|NCT01263496|164831647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|||||TWO_SIDED|95.0|-17.24|15.89||||||||15.89|-17.24|
82561022|NCT04181788|164831659|OTHER|Ratio of experimental vs control|Ratio of experimental vs control|231.2|||||TWO_SIDED|90.0|190.09|281.21||||||Phase 2 600 mg SC Q6W (experimental) vs. Phase 2 300 mg SC Q4W (control)||281.21|190.09|
82489274|NCT02484690|164671880|SUPERIORITY||Difference in Least Squares Means|2.79||||0.8475|TWO_SIDED|80.0|-15.8|21.37||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||21.37|-15.8|0.8475
82489275|NCT02484690|164671880|SUPERIORITY||Difference in Least Squares Means|28.52||||0.0381|TWO_SIDED|80.0|10.93|46.11||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||46.11|10.93|0.0381
82489276|NCT02484690|164671881|SUPERIORITY||Difference in Least Squares Means|-14.4||||0.2089|TWO_SIDED|80.0|-29.1|0.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CST at BL; Unstructured cov|The mean difference was calculated as Arm E minus Arm A.|The null hypothesis (Ho) was that there was no difference between the treatment group (Arm E) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm E was different from Arm A.||0.29|-29.1|0.2089
82489277|NCT02484690|164671884|SUPERIORITY||Difference in Least Squares Means|-0.4||||0.6717|TWO_SIDED|80.0|-1.61|0.81||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.81|-1.61|0.6717
82489278|NCT02484690|164671884|SUPERIORITY||Difference in Least Squares Means|0.23||||0.8131|TWO_SIDED|80.0|-1.01|1.47||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||1.47|-1.01|0.8131
82489279|NCT02484690|164671884|SUPERIORITY||Difference in Least Squares Means|0.11||||0.9069|TWO_SIDED|80.0|-1.07|1.29||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between each of the treatment groups (Arms B, C, or D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arms B, C, or D means were different from Arm A mean.||1.29|-1.07|0.9069
82561023|NCT04181788|164831660|OTHER|Ratio of experimental vs control|Ratio of experimental vs control|111.48|||||TWO_SIDED|90.0|86.31|143.99||||||Phase 2 600 mg SC Q6W (experimental) vs. Phase 2 300 mg SC Q4W (control)||143.99|86.31|
82561024|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.05|STANDARD_ERROR_OF_MEAN|0.121||0.3393|TWO_SIDED|90.0|-0.149|0.249|||Mixed Models Analysis|||Difference from placebo at Week 8||0.249|-0.149|0.3393
82561025|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.124|STANDARD_ERROR_OF_MEAN|0.117||0.1433|TWO_SIDED|90.0|-0.068|0.316|||Mixed Models Analysis|||Difference from placebo at Week 8||0.316|-0.068|0.1433
82561026|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.15|STANDARD_ERROR_OF_MEAN|0.113||0.0922|TWO_SIDED|90.0|-0.036|0.335|||Mixed Models Analysis|||Difference from placebo at Week 8||0.335|-0.036|0.0922
82561027|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.034|STANDARD_ERROR_OF_MEAN|0.117||0.3864|TWO_SIDED|90.0|-0.158|0.225|||Mixed Models Analysis|||Difference from placebo at Week 12||0.225|-0.158|0.3864
82561028|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.061|STANDARD_ERROR_OF_MEAN|0.117||0.3005|TWO_SIDED|90.0|-0.131|0.253|||Mixed Models Analysis|||Difference from placebo at Week 12||0.253|-0.131|0.3005
82561029|NCT01276509|164831690|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-0.011|STANDARD_ERROR_OF_MEAN|0.114||0.5385|TWO_SIDED|90.0|-0.198|0.176|||Mixed Models Analysis|||Difference from placebo at Week 12||0.176|-0.198|0.5385
82561030|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.124|STANDARD_ERROR_OF_MEAN|0.107||0.1234|TWO_SIDED|90.0|-0.052|0.299|||Mixed Models Analysis|||Difference from placebo at week 8||0.299|-0.052|0.1234
82561031|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.071|STANDARD_ERROR_OF_MEAN|0.099||0.2378|TWO_SIDED|90.0|-0.092|0.234|||Mixed Models Analysis|||Difference from placebo at week 8||0.234|-0.092|0.2378
82561032|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.102|STANDARD_ERROR_OF_MEAN|0.1||0.1529|TWO_SIDED|90.0|-0.062|0.266|||Mixed Models Analysis|||Difference from placebo at week 8||0.266|-0.062|0.1529
82561033|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.038|STANDARD_ERROR_OF_MEAN|0.112||0.3661|TWO_SIDED|90.0|-0.146|0.222|||Mixed Models Analysis|||Difference from placebo at week 12||0.222|-0.146|0.3661
82561034|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.055|STANDARD_ERROR_OF_MEAN|0.116||0.3169|TWO_SIDED|90.0|-0.136|0.246|||Mixed Models Analysis|||Difference from placebo at week 12||0.246|-0.136|0.3169
82561035|NCT01276509|164831693|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|0.066|STANDARD_ERROR_OF_MEAN|0.111||0.2755|TWO_SIDED|90.0|-0.116|0.248|||Mixed Models Analysis|||Difference from placebo at week 12||0.248|-0.116|0.2755
82489280|NCT02484690|164671886|SUPERIORITY||Difference in Least Squares Means|-0.96||||0.3189|TWO_SIDED|80.0|-2.2|0.28||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.28|-2.20|0.3189
82489281|NCT02484690|164671886|SUPERIORITY||Difference in Least Squares Means|1.22||||0.2256|TWO_SIDED|80.0|-0.07|2.52||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.52|-0.07|0.2256
82584311|NCT03486457|164880299|SUPERIORITY||LS mean difference|-2.63|STANDARD_ERROR_OF_MEAN|5.333||0.6228|TWO_SIDED|95.0|-13.23|7.97|||Mixed Models Analysis|||Month 6, Overall Work Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.97|-13.23|0.6228
82584312|NCT03486457|164880300|SUPERIORITY||LS mean difference|-12.81|STANDARD_ERROR_OF_MEAN|3.089|<|0.0001|TWO_SIDED|95.0|-18.9|-6.72|||Mixed Models Analysis|||Month 3, Activity Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||-6.72|-18.90|<0.0001
82584313|NCT03486457|164880300|SUPERIORITY||LS mean difference|1.06|STANDARD_ERROR_OF_MEAN|3.157||0.7384|TWO_SIDED|95.0|-5.17|7.28|||Mixed Models Analysis|||Month 6, Activity Impairment: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, and baseline value.||7.28|-5.17|0.7384
82584314|NCT00946101|164880301|NON_INFERIORITY_OR_EQUIVALENCE|For the calculation of the power to rule out a 10% increase of fever rate in vaccine recipients with 300 evaluable subjects (240 vaccine and 60 placebo recipients), it is assumed that the true fever rate in the monovalent vaccine group is 3.0% to 8.0%,and the true fever rate in placebo group is 0% to 3% lower than the fever rate in the vaccine group.|rate difference|0.0|||||TWO_SIDED|95.0|-6.4|3.1|||score|||The rate of subjects with fever between the two treatment groups was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo). The upper limit of the two-sided 95% confidence intervals was evaluated against the pre-specified equivalence criterion of 10% which corresponds to the following hypotheses: H0 (null): rate difference ≥ 10%, HA (alternative): rate difference \< 10%||3.1|-6.4|
82584315|NCT00946101|164880302|SUPERIORITY_OR_OTHER||rate difference|1.5|||||TWO_SIDED|95.0|-12.8|9.8|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||9.8|-12.8|
82584316|NCT00946101|164880303|SUPERIORITY_OR_OTHER||rate difference|4.9|||||TWO_SIDED|95.0|-9.6|13.8|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||13.8|-9.6|
82584317|NCT00946101|164880304|SUPERIORITY_OR_OTHER||rate difference|17.5|||||TWO_SIDED|95.0|5.5|27.1|||score|||The number of subjects who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||27.1|5.5|
82584318|NCT00946101|164880305|SUPERIORITY_OR_OTHER||rate difference|5.1|||||TWO_SIDED|95.0|-8.4|17.6|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compated following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||17.6|-8.4|
82584319|NCT00946101|164880308|SUPERIORITY_OR_OTHER||rate difference|13.3|||||TWO_SIDED|95.0|-0.4|25.7|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||25.7|-0.4|
82584320|NCT00946101|164880311|SUPERIORITY_OR_OTHER||rate difference|-6.3|||||TWO_SIDED|95.0|-19.7|6.1|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||6.1|-19.7|
82584321|NCT00946101|164880314|SUPERIORITY_OR_OTHER||rate difference|-6.4|||||TWO_SIDED|95.0|-20.3|7.1|||score|||Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% confidence intervals (Chan and Zhang, 1999) on the rate difference (Vaccine minus Placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.||7.1|-20.3|
82584322|NCT00946101|164880323|SUPERIORITY_OR_OTHER||rate difference|7.0|||||TWO_SIDED|95.0|-6.1|14.7|||score|||The number of subjects who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||14.7|-6.1|
82584323|NCT00946101|164880324|SUPERIORITY_OR_OTHER||rate difference|7.2|||||TWO_SIDED|95.0|-5.8|15.1|||score|||The number of subjects who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||15.1|-5.8|
82584324|NCT00946101|164880325|SUPERIORITY_OR_OTHER||rate difference|16.7|||||TWO_SIDED|95.0|5.9|25.2|||score|||The number of subjects who achieved a post Dose 2 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact confidence intervals for the rate difference (Vaccine minus Placebo).||25.2|5.9|
82584325|NCT00701220|164880339|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||ANOVA|||The data were analyzed using analysis of variance for repeated measures with two groups. The repeated measure was the proportion of circulating blood cells that were positive for aldehyde dehydrogenase using the commercially available Aldofluor assay. The two groups were those with ischemic and non-ischemic cardiomyopathy. This analysis permitted both intergroup and intragroup analysis of the change in aldehyde dehydrogenase positive cells.||||<0.05
82584326|NCT04055090|164880356|OTHER||Least Square Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.438||0.046|TWO_SIDED|95.0|-1.76|-0.02|||Mixed Models Analysis|Mixed-effects Model for Repeated Measures (MMRM) with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects|Mixed-effects Model for Repeated Measures with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects. The Baseline average 24-hour pain score was included as a covariate.|||-0.02|-1.76|0.0460
82584327|NCT04055090|164880358|OTHER|||||||0.219|||||||Cochran-Mantel-Haenszel|||||||0.2190
82584328|NCT04055090|164880359|OTHER||Least-Squares Mean Difference|-1.48||||0.0155|TWO_SIDED|95.0|-2.67|-0.29|||Mixed Models Analysis||Mixed-effects Model for Repeated Measures (MMRM) with treatment, visit, treatment-by-visit, and use of gabapentin/pregabalin as main fixed effects. Baseline average 24-hour pain score is included as a covariate.|||-0.29|-2.67|0.0155
82584329|NCT02476279|164880366|NON_INFERIORITY|To declare noninferiority, the upper bound of the two-sided 95% CI for the risk difference in post-ERCP pancreatitis (indomethacin alone minus indomethacin plus stent) needed to be less than 5% in both the intention-to-treat and per protocol analysis populations.|Risk Difference (RD)|0.036|||||TWO_SIDED|95.0|0.006|0.066|||||These numbers are in the intention-to-treat analysis population. Risk difference in post-ERCP pancreatitis (PEP) is calculated as risk of PEP in indomethacin alone arm minus risk of PEP in indomethacin plus stent arm.|||0.066|0.006|
82584330|NCT02476279|164880366|NON_INFERIORITY|To declare noninferiority, the upper bound of the two-sided 95% CI for the risk difference in post-ERCP pancreatitis (indomethacin alone minus indomethacin plus stent) needed to be less than 5% in both the intention-to-treat and per protocol analysis populations.|Risk Difference (RD)|0.028|||||TWO_SIDED|95.0|-0.003|0.06|||||These numbers are in the per protocol analysis population. Risk difference in post-ERCP pancreatitis (PEP) is calculated as risk of PEP in indomethacin alone arm minus risk of PEP in indomethacin plus stent arm.|||0.060|-0.003|
82584331|NCT02476279|164880367|OTHER||Risk Difference (RD)|0.021|||||TWO_SIDED|95.0|-0.002|0.043|||||These numbers are in the intention-to-treat analysis population. Risk difference is calculated as risk of moderate-severe PEP in indomethacin alone arm minus risk of moderate-severe PEP in indomethacin plus stent arm.|||0.043|-0.002|
82584332|NCT02476279|164880367|OTHER||Risk Difference (RD)|0.02|||||TWO_SIDED|95.0|-0.004|0.044|||||These numbers are in the per protocol analysis population. Risk difference is calculated as risk of moderate-severe PEP in indomethacin alone arm minus risk of moderate-severe PEP in indomethacin plus stent arm.|||0.044|-0.004|
82584333|NCT04494256|164880394|SUPERIORITY||Least square (LS) mean difference|-0.1|STANDARD_ERROR_OF_MEAN|7.84|=|0.9924|TWO_SIDED|95.0|-15.47|15.32||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||15.32|-15.47|=0.9924
82584334|NCT04494256|164880395|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|2.01|=|0.9203|TWO_SIDED|95.0|-4.14|3.74||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||3.74|-4.14|=0.9203
82561036|NCT00535626|164831714|OTHER|"To test if revision rate at 5 years is less than 10% (Ha - Alternative Hypothesis).~Note: All cases enrolled in the study had to undergo revision whether from their primary procedure or a previous revision. Based on literature, 10% is the expected rate of another revision occurring in this cohort of enrolled patients."|Revision or Pending Revision Rate|2.43|||||TWO_SIDED|90.0|1.07|5.46|||||The estimated 2.43% revision rate was obtained by the Kaplan-Meier method.|||5.46|1.07|
82561037|NCT00535626|164831715|OTHER|To test if the change from the pre-operative HHS compared to the post-operative HHS at all intervals is statistically significant.|||||<|0.0001||||||This p-value applies to all intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
82584335|NCT04494256|164880396|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12|=|0.1069|TWO_SIDED|95.0|-0.41|0.04||ANCOVA model included: treatment as a fixed effect and adjusted for the following covariates: baseline disease duration since symptom onset, baseline percent predicted SVC, baseline plasma NfL, and use of riluzole or edaravone.|ANCOVA|||||0.04|-0.41|=0.1069
82584336|NCT04494256|164880397|SUPERIORITY||Hazard Ratio (HR)|4.29|||=|0.1003|TWO_SIDED|95.0|0.433|42.587|||Log Rank|Log rank test stratified by median baseline plasma NfL||||42.587|0.433|=0.1003
82561038|NCT00535626|164831716|OTHER|To test whether the change from the pre-operative SF-36 Physical Score compared to each post-operative SF-36 Physical score is statistically significant.|||||<|0.0001||||||This p-value applies to all intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
82561039|NCT00535626|164831716|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 3 month SF-36 Mental Score is statistically significant.||||||0.0139|||||||t-test, 2 sided|Paired t-test||||||0.0139
82561040|NCT00535626|164831716|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 1 year SF-36 Mental Score is statistically significant.||||||0.0254|||||||t-test, 2 sided|Paired t-test||||||0.0254
82561041|NCT00535626|164831716|OTHER|To test whether the change from the SF-36 Mental Score compared to the 2 year SF-36 Mental Score is statistically significant.||||||0.1506|||||||t-test, 2 sided|Paired t-test||||||0.1506
82561042|NCT00535626|164831716|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 3 year SF-36 Mental Score is statistically significant.||||||0.0936|||||||t-test, 2 sided|Paired t-test||||||0.0936
82584337|NCT04494256|164880398|SUPERIORITY||||||=|0.1143|||||||Kaplan-Meier product limit method|||||||=0.1143
82584338|NCT01778023|164880407|SUPERIORITY_OR_OTHER||Treatment Difference|5.15|||<|0.0001|TWO_SIDED|95.0|4.09|6.21|||ANOVA|The HV after 6 months of treatment was analysed using an ANCOVA method with group and sex as fixed effects, and age as a covariate.||Let D be a mean difference of the primary endpoint between group A and group B. Null hypothesis H0: D = 0 vs. alternative H1: D ≠ 0 will be statistically tested by an ANOVA model.||6.21|4.09|<0.0001
82584339|NCT03086213|164880415|NON_INFERIORITY|the definition of non-inferiority analysis is that the new method is no less effective than standard interventions.|Mean Difference (Final Values)|10.0|STANDARD_DEVIATION|0.025||0.025|TWO_SIDED|95.0|5.0|95.0||whether or not the p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance|t-test, 2 sided|degrees of freedom|Paravertebral nerve block arm represents the numerator and intercostal block represents the denominator for relative risk|null hypothesis||95|5|0.025
82584340|NCT03086213|164880416|SUPERIORITY|During the calculation of sample size,a sample size of 24 patients per group was calculated as being required to ensure 90% power of detecting the difference-if any-as statistically significant at the 5% level|||||<|0.05||||||the p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance.|t-test, 2 sided|degrees of freedom is defined as sample size subtraction one.||null hypothesis||||<0.05
82584341|NCT03086213|164880419|SUPERIORITY|During the calculation of sample size,a sample size of 24 patients per group was calculated as being required to ensure 90% power of detecting the difference-if any-as statistically significant at the 5% level||||||0.05|||||||t-test, 2 sided|Degree of freedom is defined as sample size subtraction one.||null hypothesis||||0.05
82584342|NCT01616056|164880421|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82584343|NCT01616056|164880423|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82584344|NCT01616056|164880425|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82584345|NCT01616056|164880428|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82584346|NCT01249274|164880430|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19||||0.01|TWO_SIDED|95.0|1.04|1.36|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is the risk ratio estimate for the treatment x time interaction term. Time was treated as a continuous variable and progesterone was the reference group for the treatment variable.|||1.36|1.04|0.010
82584347|NCT01249274|164880431|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|30.39||||0.003|TWO_SIDED|95.0|3.18|290.04|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is RR for treatment\*time interaction for placebo at 3-mo post-trial follow-up. Time treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||290.04|3.18|0.003
82584348|NCT01249274|164880431|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|16.65||||0.038|TWO_SIDED|95.0|1.18|235.52|||Generalized Estimating Equation||Estimated value is RR for treatment\*time interaction term for placebo at week 12. Time was treated as a 3-level categorical variable; week 0 (ref), week 12 and 3-month post-trial follow-up. Treatment variable reference group was progesterone.|Negative binomial distribution, log link, and first-order autoregressive covariance structure||235.52|1.18|0.038
82584349|NCT01249274|164880432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.99|TWO_SIDED|95.0|0.87|1.15|||Generalized Estimating Equation||Estimated value is the risk ratio for the treatment x time interaction term. Time was treated as a continuous variable and progesterone was the reference group for treatment.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||1.15|0.87|0.99
82584350|NCT01249274|164880433|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.34||||0.75|TWO_SIDED|95.0|0.23|7.88|||Generalized Estimating Equation||Estimated value is RR for treatment\*time interaction for placebo at 3-mo post-trial follow-up. Time treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|We calculated that a sample size of 50 women would have 80% power to detect a significant (p\<0.05) difference between groups if the effect size for the primary outcome was large.||7.88|0.23|0.75
82584351|NCT01249274|164880433|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.84|TWO_SIDED|95.0|0.24|5.84|||Generalized Estimating Equation|Negative binomial distribution, log link, and first-order autoregressive covariance structure|Estimated value is RR for treatment\*time interaction for placebo at week 12. Time was treated as a 3-level categorical variable; week 0 (ref), week 12 \& 3-month post-trial follow-up. Treatment variable reference group was progesterone.|||5.84|0.24|0.84
82584352|NCT01249274|164880434|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED||||||Fisher Exact|||||||0.1030
82584353|NCT01249274|164880435|SUPERIORITY_OR_OTHER||Score Statistic For Type 3 GEE Analysis|0.01||||0.9116|TWO_SIDED||||||Generalized Estimating Equation|Gamma distribution, logit link, 1st-order autoregressive covariance structure; p-value is for chi-sq (df=1) for type 3 GEE analysis score statistic|Estimated value is chi-sq (df=1) for type 3 GEE analysis score statistic for week\*treatment interaction term.|||||0.9116
82584354|NCT01249274|164880438|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|4.71||||0.048|TWO_SIDED|95.0|1.09|20.5|||Regression, Cox||Ratio presented is for placebo versus progesterone|||20.50|1.09|0.048
82584355|NCT01249274|164880439|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|3.5||||0.06|TWO_SIDED|95.0|0.92|13.3|||Regression, Cox||Ratio presented is for placebo versus progesterone|||13.30|0.92|0.06
82584356|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||90.0|-0.17|0.36||||||Week 6||0.36|-0.17|
82584357|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||||90.0|-0.27|0.26||||||Week 12||0.26|-0.27|
82584358|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||||90.0|-0.29|0.26||||||Week 26||0.26|-0.29|
82584359|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||||90.0|-0.36|0.2||||||Week 39||0.20|-0.36|
82584360|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||||90.0|-0.23|0.35||||||Week 52||0.35|-0.23|
82584361|NCT00138671|164880453|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||||90.0|-0.29|0.31||||||Week 52 LOCF||0.31|-0.29|
82489282|NCT02484690|164671886|SUPERIORITY||Difference in Least Squares Means|0.35||||0.7086|TWO_SIDED|80.0|-0.86|1.57||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: CNV at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.57|-0.86|0.7086
82489283|NCT02484690|164671888|SUPERIORITY||Difference in Least Squares Means|-0.78||||0.4353|TWO_SIDED|80.0|-2.07|0.51||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm B minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm B) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm B mean was different from Arm A mean.||0.51|-2.07|0.4353
82489284|NCT02484690|164671888|SUPERIORITY||Difference in Least Squares Means|1.45||||0.1652|TWO_SIDED|80.0|0.11|2.78||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm C minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm C) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm C mean was different from Arm A mean.||2.78|0.11|0.1652
82489285|NCT02484690|164671888|SUPERIORITY||Difference in Least Squares Means|0.5||||0.61111|TWO_SIDED|80.0|-0.76|1.75||The threshold for statistical significance was an unadjusted 2-sided p-value \<0.2. There was no formal correction for multiple comparisons.|Mixed Model for Repeated Measures|Categorical covariates(cov): RAP/PCV at baseline(BL), treatment group, visit, \& visit by treatment group; Continuous cov: leak at BL; Unstructured cov|The mean difference was calculated as Arm D minus Arm A.|The null hypothesis (Ho) was that there was no difference in means between the treatment group (Arm D) and the control group (Arm A). The alternative hypothesis (Ha) was that Arm D mean was different from Arm A mean.||1.75|-0.76|0.61111
82489286|NCT02468232|164671950|SUPERIORITY||Hazard Ratio (HR)|1.0881||||0.626|TWO_SIDED|95.0|0.6501|1.8212|||Regression, Cox|||For Primary Composite||1.8212|0.6501|0.6260
82489287|NCT02468232|164671950|SUPERIORITY||Hazard Ratio (HR)|1.1701||||0.6493|TWO_SIDED|95.0|0.5242|2.6122|||Regression, Cox|||For CV Death||2.6122|0.5242|0.6493
82489288|NCT02468232|164671950|SUPERIORITY||Hazard Ratio (HR)|1.2673||||0.7851|TWO_SIDED|95.0|0.7039|2.2818|||Regression, Cox|||For 1st HF Hospitalization||2.2818|0.7039|0.7851
82489289|NCT02468232|164671951|SUPERIORITY||LSM of ratio|0.8657||||0.0326|TWO_SIDED|95.0|0.7585|0.988||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure ANCOVA model||Week 4 analysis||0.9880|0.7585|0.0326
82489290|NCT02468232|164671951|SUPERIORITY||LSM of ratio|0.8538||||0.0161|TWO_SIDED|95.0|0.7509|0.9708||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure ANCOVA model||Week 8 analysis||0.9708|0.7509|0.0161
82561043|NCT00535626|164831716|OTHER|To test if the change from the pre-operative SF-36 Mental Score compared to the 4 year SF-36 Mental Score is statistically significant.||||||0.0909|||||||t-test, 2 sided|Paired t-test||||||0.0909
82489291|NCT02468232|164671951|SUPERIORITY||LSM of ratio|0.8112||||0.0104|TWO_SIDED|95.0|0.6916|0.9514||Indicates statistical significance (2-sided) with an alpha level of 0.05|ANCOVA|Repeated measure of ANCOVA model||Month 6 analysis||0.9514|0.6916|0.0104
82489292|NCT02468232|164671953|SUPERIORITY||Hazard Ratio (HR)|1.024||||0.5406|TWO_SIDED|95.0|0.6492|1.6152|||Regression, Cox|||First triple composite endpoint||1.6152|0.6492|0.5406
82489293|NCT02468232|164671953|SUPERIORITY||Hazard Ratio (HR)|1.1701||||0.6493|TWO_SIDED|95.0|0.5242|2.6122|||Regression, Cox|||CV health||2.6122|0.5242|0.6493
82561044|NCT00535626|164831716|OTHER|To test whether the change from the pre-operative SF-36 Mental Score compared to the 5 year SF-36 Mental Score is statistically significant.||||||0.048|||||||t-test, 2 sided|Paired t-test||||||0.048
82561045|NCT00535626|164831719|OTHER|To test whether the change from the pre-operative LEAS Score compared to the 3 month LEAS Score is statistically significant.||||||0.0011|||||||t-test, 2 sided|Paired t-test||||||0.0011
82489294|NCT02468232|164671953|SUPERIORITY||Hazard Ratio (HR)|0.8546||||0.3448|TWO_SIDED|95.0|0.3952|1.8479|||Regression, Cox|||First worsening of HF in outpatient||1.8479|0.3952|0.3448
82489295|NCT02468232|164671954|SUPERIORITY|||||||0.7115|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Week 4 analysis||||0.7115
82489296|NCT02468232|164671954|SUPERIORITY|||||||0.1752|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Week 8 analysis||||0.1752
82489297|NCT02468232|164671954|SUPERIORITY|||||||0.2688|||||||Cochran-Mantel-Haenszel|based on modified ridit scores||Month 6 analysis||||0.2688
82489298|NCT02468232|164671955|SUPERIORITY||LSM of difference|2.5455||||0.1854|TWO_SIDED|95.0|-1.2306|6.3216|||ANCOVA|Repeated measure ANCOVA model||Week 8 analysis||6.3216|-1.2306|0.1854
82489299|NCT02468232|164671955|SUPERIORITY||LSM of difference|1.2695||||0.5737|TWO_SIDED|95.0|-3.1715|5.7104|||ANCOVA|Repeated measure ANCOVA model||Month 6 analysis||5.7104|-3.1715|0.5737
82489300|NCT02468232|164671956|SUPERIORITY||rate ratio|0.8699||||0.6501||95.0|0.4763|1.5887|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.5887|0.4763|0.6501
82489301|NCT02468232|164671957|SUPERIORITY|||||||0.6211|||||||Cochran-Mantel-Haenszel|||||||0.6211
82489302|NCT02468232|164671959|SUPERIORITY||Hazard Ratio (HR)|1.1895||||0.6955|TWO_SIDED|95.0|0.6116|2.3134|||Regression, Cox|||||2.3134|0.6116|0.6955
82561046|NCT00535626|164831719|OTHER|To test whether the change from the pre-operative LEAS compared to the 1, 2 and 3 year LEAS are statistically significant.|||||<|0.0001||||||This p-value applies to pre-op to 1, 2 and 3 year intervals.|t-test, 2 sided|Paired t-test||||||<0.0001
82561047|NCT00535626|164831719|OTHER|To test whether the change from the pre-operative LEAS compared to the 4 year LEAS is statistically significant.||||||0.0002|||||||t-test, 2 sided|Paired t-test||||||0.0002
82561048|NCT00535626|164831719|OTHER|To test whether the change from the pre-operative LEAS compared to the 5 year LEAS is statistically significant.||||||0.0009|||||||t-test, 2 sided|Paired t-test||||||0.0009
82584362|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.475||||||90.0|-23.47|14.518||||||Week 6||14.518|-23.47|
82584363|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.91||||||90.0|-30.04|8.232||||||Week 12||8.232|-30.04|
82584364|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.84||||||90.0|-42.51|-3.166||||||Week 26||-3.166|-42.51|
82584365|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.222||||||90.0|-28.52|12.075||||||Week 39||12.075|-28.52|
82584366|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.329||||||90.0|-29.27|12.616||||||Week 52||12.616|-29.27|
82584367|NCT00138671|164880454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.406||||||90.0|-13.7|16.514||||||Week 52 LOCF||16.514|-13.70|
82584368|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.884||||||90.0|-0.317|2.084||||||Week 1||2.084|-0.317|
82584369|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47||||||90.0|-0.728|1.668||||||Week 2||1.668|-0.728|
82584370|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.382||||||90.0|-0.815|1.579||||||Week 3||1.579|-0.815|
82584371|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.405||||||90.0|-0.793|1.602||||||Week 4||1.602|-0.793|
82584372|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.562||||||90.0|-0.642|1.766||||||Week 6||1.766|-0.642|
82584373|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.416||||||90.0|-0.809|1.641||||||Week 9||1.641|-0.809|
82584374|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.019||||||90.0|-1.416|1.454||||||Week 11||1.454|-1.416|
82584375|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091||||||90.0|-1.127|1.308||||||Week 12||1.308|-1.127|
82584376|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.309||||||90.0|-1.551|0.934||||||Week 18||0.934|-1.551|
82584377|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.869||||||90.0|-2.123|0.384||||||Week 26||0.384|-2.123|
82584378|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.664||||||90.0|-2.968|-0.36||||||Week 39||-0.360|-2.968|
82584379|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.116||||||90.0|-3.829|-0.403||||||Week 50||-0.403|-3.829|
82489303|NCT02468232|164671961|SUPERIORITY||Rate ratio|1.0192||||0.9233|TWO_SIDED|95.0|0.6925|1.4999|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.4999|0.6925|0.9233
82584380|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.801||||||90.0|-3.204|-0.397||||||Week 51||-0.397|-3.204|
82584381|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.026||||||90.0|-3.384|-0.668||||||Week 52||-0.668|-3.384|
82584382|NCT00138671|164880455|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.451||||||90.0|-3.003|0.101||||||Week 52 LOCF||0.101|-3.003|
82584383|NCT01270971|164880518|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82584384|NCT01270971|164880519|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82584385|NCT01270971|164880520|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82584386|NCT01270971|164880521|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82584387|NCT00803751|164880530|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Fisher Exact|||||||0.17
82584388|NCT00803751|164880531|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||Fisher Exact|||||||0.45
82584389|NCT00803751|164880532|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
82584390|NCT00803751|164880533|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||||||0.002
82584391|NCT00803751|164880534|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82584392|NCT00803751|164880535|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||t-test, 2 sided|||||||0.0004
82584393|NCT03102645|164880536|SUPERIORITY||Mean Difference (Final Values)|6.5||||0.07|TWO_SIDED|95.0|-0.5|13.5|||t-test, 2 sided|CROS. DF=14.||CROS test||13.5|-0.5|0.07
82584394|NCT03102645|164880537|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.03|TWO_SIDED|95.0|2.0|28.2|||t-test, 2 sided|CROS test||CROS test||28.2|2.0|0.03
82584395|NCT00704405|164880538|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|53.6|||<|0.001|TWO_SIDED|95.0|34.5|69.1|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||69.1|34.5|<0.001
82584396|NCT00704405|164880538|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|64.4|||<|0.001|TWO_SIDED|95.0|45.2|78.3|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||78.3|45.2|<0.001
82584397|NCT00704405|164880538|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|59.0|||<|0.001|TWO_SIDED|95.0|40.2|73.4|||Miettinen and Nurminen||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||73.4|40.2|<0.001
82584398|NCT00704405|164880541|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|47.3|||<|0.001|TWO_SIDED|95.0|29.2|63.2|||Miettinen and Nurminen||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 19.0%) that achieved SVR24 and stratifies by prior treatment response.|||63.2|29.2|<0.001
82584399|NCT00704405|164880542|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|82.6|||||TWO_SIDED|95.0|69.5|90.2|||||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 9.5%) that achieved cEVR and stratifies by prior treatment response.|||90.2|69.5|
82584400|NCT00704405|164880542|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|76.1|||||TWO_SIDED|95.0|60.1|86.7|||||Adjusted difference subtracts the percentage of PBO-treated participants (i.e., 9.5%) that achieved cEVR and stratifies by prior treatment response.|||86.7|60.1|
82584401|NCT00704405|164880543|SUPERIORITY_OR_OTHER||Adjusted difference in percentage|35.8|||||TWO_SIDED|95.0|15.5|53.4|||Miettinen and Nurminen method||Adjusted difference subtracts the percentage of PBO patients (36.6%) with undetectable HCV RNA at Week 48 and stratifies by prior treatment response.|||53.4|15.5|
82584402|NCT01395888|164880544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.259||||0.484|TWO_SIDED|95.0|-0.468|0.986|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)||||0.986|-0.468|0.484
82652022|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.95|0.96||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Diphtheria|PR5I minus INFANRIX™ hexa|0.96|-0.95|< 0.001
82561049|NCT01377844|164831785|SUPERIORITY||Difference of LS Means|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.53||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||||-0.53|-1.06|< 0.0001
82561050|NCT01377844|164831786|SUPERIORITY||Difference of LS Means|-5.53|||<|0.0001|TWO_SIDED|95.0|-8.02|-3.04||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline systolic BP, baseline HbA1c category, site, age category, gender and race||||-3.04|-8.02|< 0.0001
82561051|NCT01377844|164831786|SUPERIORITY||Difference of LS Means|-2.67||||0.0015|TWO_SIDED|95.0|-4.3|-1.04||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline diastolic BP, baseline HbA1c category, site, age category, gender and race||||-1.04|-4.30|0.0015
82561052|NCT01377844|164831787|SUPERIORITY||Difference of LS Means|-1.72|||<|0.0001|TWO_SIDED|95.0|-2.52|-0.93||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline weight, baseline HbA1c category, site, age category, gender and race||||-0.93|-2.52|< 0.0001
82561053|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.32|||<|0.0001|TWO_SIDED|95.0|-0.42|-0.21||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 2||-0.21|-0.42|< 0.0001
82652023|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.71|0.74|||Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Tetanus|PR5I minus INFANRIX™ hexa|0.74|-0.71|< 0.001
82561054|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.59|||<|0.0001|TWO_SIDED|95.0|-0.78|-0.41||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 6||-0.41|-0.78|< 0.0001
82561055|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.72|||<|0.0001|TWO_SIDED|95.0|-0.96|-0.48||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 12||-0.48|-0.96|< 0.0001
82561056|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.71|||<|0.0001|TWO_SIDED|95.0|-0.97|-0.44||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 18||-0.44|-0.97|< 0.0001
82561057|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.79|||<|0.0001|TWO_SIDED|95.0|-1.06|-0.53||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 24||-0.53|-1.06|< 0.0001
82561058|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.66||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 36||-0.66|-1.21|< 0.0001
82561059|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.99|||<|0.0001|TWO_SIDED|95.0|-1.28|-0.7||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 48||-0.70|-1.28|< 0.0001
82584403|NCT00903682|164880545|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||The hypothesis is that the proportion of patients with at least 1 treatment-emergent Grade 1-4 neuropsychiatric adverse event, observed between Baseline through Week 12 and judged to be at least possibly drug-related, is significantly lower in the ETR arm than in the EFV arm. Assuming a significance level of 5%, a sample size of 75 subjects per arm would provide over 90% power to detect a 29% difference in treatment-emergent, drug-related Grade 1-4 neuropsychiatric adverse events.||||<0.001
82561060|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.68||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 60||-0.68|-1.27|< 0.0001
82561061|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.93|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.64||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 72||-0.64|-1.22|< 0.0001
82489304|NCT02468232|164671962|SUPERIORITY||Rate ratio|1.0754||||0.9272|TWO_SIDED|95.0|0.2264|5.1067|||Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||5.1067|0.2264|0.9272
82489305|NCT02468232|164671964|SUPERIORITY||Rate ratio|0.4504||||0.0697|TWO_SIDED|95.0|0.1902|1.0665||Negative binomial (NB) regression model|Negative binomial (NB) regression model|adjusted for treatment and stratification of screening NT-proBNP||||1.0665|0.1902|0.0697
82561062|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.69||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 84||-0.69|-1.27|< 0.0001
82489306|NCT02024529|164671992|SUPERIORITY|||||||0.97||||||Adjusted for baseline WOMAC score|ANCOVA|||||||0.97
82489307|NCT02024529|164671993|SUPERIORITY|||||||0.75||||||Adjusted for baseline WOMAC score|ANCOVA|||||||0.75
82489308|NCT02024529|164671994|SUPERIORITY|||||||0.18|||||||ANCOVA|Adjusted for baseline WOMAC Score.||||||0.18
82489309|NCT02024529|164671995|SUPERIORITY|||||||0.81|||||||ANCOVA|Adjusted for baseline WOMAC Score.||||||0.81
82489310|NCT01426438|164672007|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Sign test|Stratified exact Wilcoxon signed rank test. Stratified by screening HDL-C level and statin use within 90 days prior to study entry.||||||0.28
82489311|NCT01426438|164672007|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Sign test|Stratified exact Wilcoxon signed rank test. Stratified by screening HDL-C level and statin use within 90 days prior to study entry.||||||0.19
82489312|NCT02122458|164672021|SUPERIORITY||Mean Difference (Net)|0.448||||0.05|TWO_SIDED|95.0|-8.66|9.56||Given the preliminary nature of this treatment study and the small number of participants the p-value was not adjusted for multiple comparisons.|Mixed Models Analysis|An Adjusted Rank Transform was applied to the data prior to applying the mixed model analyses.||The null hypothesis evaluated by the HHIA was that self-perceived hearing handicap would not reduce from baseline to 6-months post-fitting.||9.56|-8.66|.05
82489313|NCT02122458|164672022|SUPERIORITY|||||||0.05||||||Given the small sample size and the preliminary nature of this study, the p-value was not adjusted for multiple comparisons.|ANOVA|||||||.05
82561063|NCT01377844|164831788|SUPERIORITY||Difference of LS Means|-1.02|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.73||The p-value is from a 2-sided t-test for the difference in means of change from baseline. Statistical significant is set at 0.05 level.|ANCOVA|Based on analysis of covariance, including treatment group, baseline HbA1c, site, age category, gender and race||Change from baseline in HbA1c (%) at Week 96||-0.73|-1.31|< 0.0001
82489314|NCT02833350|164672026|SUPERIORITY||Weighted difference|8.0||||0.2503|TWO_SIDED|95.0|-5.64|21.64|||Cochran-Mantel-Haenszel|||||21.64|-5.64|0.2503
82489315|NCT02833350|164672026|SUPERIORITY||Weighted difference|12.93||||0.0164|TWO_SIDED|95.0|2.37|23.48|||Cochran-Mantel-Haenszel|||||23.48|2.37|0.0164
82489316|NCT02833350|164672026|SUPERIORITY||Weighted difference|20.0||||0.0003|TWO_SIDED|95.0|9.21|30.79|||Cochran-Mantel-Haenszel|||||30.79|9.21|0.0003
82489317|NCT02833350|164672028|SUPERIORITY||Weighted difference|-8.58||||0.1694|TWO_SIDED|95.0|-20.82|3.66|||Cochran-Mantel-Haenszel|||||3.66|-20.82|0.1694
82489318|NCT02833350|164672028|SUPERIORITY||Weighted difference|-1.5||||0.8132||95.0|-13.96|10.95|||Cochran-Mantel-Haenszel|||||10.95|-13.96|0.8132
82489319|NCT02833350|164672029|SUPERIORITY||Weighted difference|13.7||||0.0717|TWO_SIDED|95.0|-1.21|28.61|||Cochran-Mantel-Haenszel|||||28.61|-1.21|0.0717
82489320|NCT02833350|164672033|SUPERIORITY||adjusted difference|-0.11||||0.8504|TWO_SIDED|95.0|-0.45|0.23|||ANCOVA|||Week 1, Day 7||0.23|-0.45|0.8504
82489321|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.04||||0.9884|TWO_SIDED|95.0|-0.28|0.21|||ANCOVA|||At week 1, Day 7||0.21|-0.28|0.9884
82489322|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.06||||0.923|TWO_SIDED|95.0|-0.31|0.18|||ANCOVA|||Week 1 Day 7||0.18|-0.31|0.9230
82561064|NCT01377844|164831789|SUPERIORITY||Difference of LS Means|-2.24|||<|0.0001|TWO_SIDED|95.0|-2.79|-1.7||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 2, between EGT0001442 and Placebo group.||-1.70|-2.79|< 0.0001
82489323|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.06||||0.9853|TWO_SIDED|95.0|-0.43|0.31|||ANCOVA|||Week 2, Day 14||0.31|-0.43|0.9853
82489324|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.12||||0.6826|TWO_SIDED|95.0|-0.38|0.15|||ANCOVA|||Week 2, Day 14||0.15|-0.38|0.6826
82489325|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.18||||0.2634|TWO_SIDED|95.0|-0.45|0.08|||ANCOVA|||Week 2, Day 14||0.08|-0.45|0.2634
82489326|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.29||||0.2885|TWO_SIDED|95.0|-0.72|0.14|||ANCOVA|||Week 4, Day 28||0.14|-0.72|0.2885
82489327|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.3||||0.0598|TWO_SIDED|95.0|-0.61|0.01|||ANCOVA|||Week 4, Day 28||0.01|-0.61|0.0598
82489328|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.31||||0.044|TWO_SIDED|95.0|-0.62|-0.01|||ANCOVA|||Week 4, Day 28||-0.01|-0.62|0.0440
82489329|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.28||||0.4271|TWO_SIDED|95.0|-0.76|0.2|||ANCOVA|||Week 8, Day 56||0.20|-0.76|0.4271
82489330|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.31||||0.0969|TWO_SIDED|95.0|-0.66|0.04|||ANCOVA|||Week 8, Day 56||0.04|-0.66|0.0969
82489331|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.33||||0.0612|TWO_SIDED|95.0|-0.68|0.01|||ANCOVA|||Week 8, Day 56||0.01|-0.68|0.0612
82489332|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.36||||0.2079|TWO_SIDED|95.0|-0.84|0.12|||ANCOVA|||Week 12, Day 84||0.12|-0.84|0.2079
82489333|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.57||||0.0003|TWO_SIDED|95.0|-0.92|-0.22|||ANCOVA|||Week 12, Day 84||-0.22|-0.92|0.0003
82489334|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.57||||0.0003|TWO_SIDED|95.0|-0.92|-0.22|||ANCOVA|||Week 12, Day 84||-0.22|-0.92|0.0003
82561065|NCT01377844|164831789|SUPERIORITY||Difference of LS Means|-2.45|||<|0.0001|TWO_SIDED|95.0|-3.09|-1.81||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 6, between EGT0001442 and Placebo group.||-1.81|-3.09|< 0.0001
82489335|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.34|0.82|||ANCOVA|||Week 1, Day 7||0.82|0.34|<.0001
82489336|NCT02833350|164672033|SUPERIORITY||Mean Difference (Net)|0.55|||<|0.0001|TWO_SIDED|95.0|0.31|0.8|||ANCOVA|||Week 1, Day 7||0.80|0.31|<0.0001
82489337|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.47|||<|0.0001|TWO_SIDED|95.0|0.2|0.74|||ANCOVA|||Week 2, Day 14||0.74|0.20|<.0001
82489338|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.4||||0.0009|TWO_SIDED|95.0|0.13|0.66|||ANCOVA|||Week 2, Day 14||0.66|0.13|0.0009
82489339|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.56|||<|0.0001|TWO_SIDED|95.0|0.25|0.87|||ANCOVA|||Week 4, Day 28||0.87|0.25|<.0001
82489340|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.55|||<|0.0001|TWO_SIDED|95.0|0.24|0.85|||ANCOVA|||Week 4, Day 28||0.85|0.24|<.0001
82489341|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.42||||0.0095|TWO_SIDED|95.0|0.08|0.76|||ANCOVA|||Week 8, Day 56||0.76|0.08|0.0095
82489342|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.4||||0.0153|TWO_SIDED|95.0|0.06|0.74|||ANCOVA|||Week 8, Day 56||0.74|0.06|0.0153
82489343|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.19||||0.4839|TWO_SIDED|95.0|-0.16|0.54|||ANCOVA|||Week 12, Day 84||0.54|-0.16|0.4839
82489344|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|0.19||||0.5035|TWO_SIDED|95.0|-0.16|0.53|||ANCOVA|||Week 12, Day 84||0.53|-0.16|0.5035
82489345|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.11||||0.4286|TWO_SIDED|95.0|-0.38|0.16|||ANCOVA|||Week 1, Day 7||0.16|-0.38|0.4286
82561066|NCT01377844|164831789|SUPERIORITY||Difference of LS Means|-2.42|||<|0.0001|TWO_SIDED|95.0|-3.06|-1.77||The p-value is from a two-sided t-test for the difference in means of change from baseline|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 12, between EGT0001442 and Placebo group.||-1.77|-3.06|< 0.0001
82561067|NCT01377844|164831789|SUPERIORITY||Difference of LS Means|-2.71|||<|0.0001|TWO_SIDED|95.0|-3.3|-2.11||The p-value is from a two-sided t-test for the difference in means of change from baseline.|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 18, between EGT0001442 and Placebo group.||-2.11|-3.30|< 0.0001
82489346|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.2||||0.1831|TWO_SIDED|95.0|-0.5|0.1|||ANCOVA|||Week 2, Day 14||0.10|-0.50|0.1831
82489347|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.31||||0.0667|TWO_SIDED|95.0|-0.65|0.02|||ANCOVA|||Week 4, Day 28||0.02|-0.65|0.0667
82489348|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.77|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.42|||ANCOVA|||Week 8, Day 56||-0.42|-1.11|<0.0001
82489349|NCT02833350|164672033|SUPERIORITY||Adjusted Difference|-0.76||||0.0002|TWO_SIDED|95.0|-1.15|-0.38|||ANCOVA|||Week 12, Day 84||-0.38|-1.15|0.0002
82489350|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.18||||0.5807|TWO_SIDED|95.0|-0.55|0.19|||ANCOVA|||Week 1, Day 7||0.19|-0.55|0.5807
82489351|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.12||||0.627|TWO_SIDED|95.0|-0.39|0.14|||ANCOVA|||Week 1, Day 7||0.14|-0.39|0.6270
82489352|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.15||||0.4475|TWO_SIDED|95.0|-0.42|0.12|||ANCOVA|||Week 1, Day 7||0.12|-0.42|0.4475
82489353|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.06||||0.9891|TWO_SIDED|95.0|-0.47|0.35|||ANCOVA|||Week 2, Day 14||0.35|-0.47|0.9891
82489354|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.21||||0.2244|TWO_SIDED|95.0|-0.51|0.08|||ANCOVA|||Week 2, Day 14||0.08|-0.51|0.2244
82489355|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.28||||0.0586|TWO_SIDED|95.0|-0.58|0.01|||ANCOVA|||Week 2, Day 14||0.01|-0.58|0.0586
82489356|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.39||||0.1338|TWO_SIDED|95.0|-0.85|0.08|||ANCOVA|||Week 4, Day 28||0.08|-0.85|0.1338
82489357|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.4||||0.0119|TWO_SIDED|95.0|-0.74|-0.07|||ANCOVA|||Week 4, Day 28||-0.07|-0.74|0.0119
82489358|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.44||||0.0046|TWO_SIDED|95.0|-0.77|-0.11|||ANCOVA|||Week 4, Day 28||-0.11|-0.77|0.0046
82489359|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.31||||0.3943|TWO_SIDED|95.0|-0.82|0.2|||ANCOVA|||Week 8, Day 56||0.20|-0.82|0.3943
82489360|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.37||||0.0526|TWO_SIDED|95.0|-0.74|0.0|||ANCOVA|||Week 8, Day 56||0.00|-0.74|0.0526
82489361|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.39||||0.0365|TWO_SIDED|95.0|-0.76|-0.02|||ANCOVA|||Week 8, Day 56||-0.02|-0.76|0.0365
82489362|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.41||||0.1696|TWO_SIDED|95.0|-0.93|0.11|||ANCOVA|||Week 12, Day 84||0.11|-0.93|0.1696
82489363|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.63||||0.0002|TWO_SIDED|95.0|-1.01|-0.25|||ANCOVA|||Week 12, Day 84||-0.25|-1.01|0.0002
82489364|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.62||||0.0003|TWO_SIDED|95.0|-1.0|-0.24|||ANCOVA|||Week 12, Day 84||-0.24|-1.00|0.0003
82489365|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.64|||<|0.0001|TWO_SIDED|95.0|0.37|0.9|||ANCOVA|||Week 1, Day 7||0.90|0.37|<0.0001
82489366|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.61|||<|0.0001|TWO_SIDED|95.0|0.34|0.88|||ANCOVA|||Week 1, Day 7||0.88|0.34|<0.0001
82489367|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.5||||0.0001|TWO_SIDED|95.0|0.21|0.79|||ANCOVA|||Week 2, Day 14||0.79|0.21|0.0001
82489368|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.43||||0.0012|TWO_SIDED|95.0|0.14|0.72|||ANCOVA|||Week 2, Day 14||0.72|0.14|0.0012
82489369|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.58|||<|0.0001|TWO_SIDED|95.0|0.25|0.91|||ANCOVA|||Week 4, Day 28||0.91|0.25|<0.0001
82489370|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.54||||0.0002|TWO_SIDED|95.0|0.21|0.87|||ANCOVA|||Week 4, Day 28||0.87|0.21|0.0002
82489371|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.46||||0.0084|TWO_SIDED|95.0|0.09|0.82|||ANCOVA|||Week 8, Day 56||0.82|0.09|0.0084
82489372|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.44||||0.0124|TWO_SIDED|95.0|0.07|0.8|||ANCOVA|||Week 8, Day 56||0.80|0.07|0.0124
82489373|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.15||||0.7565|TWO_SIDED|95.0|-0.23|0.52|||ANCOVA|||Week 12, Day 84||0.52|-0.23|0.7565
82584404|NCT00903682|164880546|SUPERIORITY_OR_OTHER||Difference in proportion of response|1.61|||||TWO_SIDED|95.0|-12.0|15.23|||||Difference in proportion of response ETR minus EFV|||15.23|-12.00|
82584405|NCT00600886|164880554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.942||||0.007|TWO_SIDED|95.0|1.19|3.168|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel adjusting for randomization stratification factor||Overall - All patients||3.168|1.190|0.007
82584406|NCT00600886|164880554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.337|||||TWO_SIDED|95.0|1.14|4.79||||||Post surgery - patients with prior surgery but no previous medical treatment for acromegaly||4.790|1.140|
82584407|NCT00600886|164880554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.654|||||TWO_SIDED|95.0|0.846|3.234||||||De novo - patients with de novo disease who refused pituitary surgery or for whom pituitary surgery was contraindicated.||3.234|0.846|
82584408|NCT04546789|164880623|OTHER||Ratio of geometric least squares mean|1.25|||||TWO_SIDED|90.0|0.86|1.82||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.82|0.86|
82584409|NCT04546789|164880623|OTHER||Ratio of geometric least square mean|1.95|||||TWO_SIDED|90.0|1.6|2.38||||||Moderate hepatic impairment vs Normal hepatic impairment||2.38|1.60|
82584410|NCT04546789|164880624|OTHER||Ratio of geometric least square mean|1.24|||||TWO_SIDED|90.0|0.77|1.99||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.99|0.77|
82584411|NCT04546789|164880624|OTHER||Ratio of geometric least square mean|1.85|||||TWO_SIDED|90.0|1.51|2.26||||||Moderate Hepatic Impairment vs Normal Hepatic Function||2.26|1.51|
82489374|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|0.16||||0.7158|TWO_SIDED|95.0|-0.22|0.53|||ANCOVA|||Week 12, Day 84||0.53|-0.22|0.7158
82584412|NCT04546789|164880651|OTHER||Ratio of geometric least square mean|0.8|||||TWO_SIDED|90.0|0.55|1.17||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.17|0.55|
82584413|NCT04546789|164880651|OTHER||Ratio of geometric least square mean|0.51|||||TWO_SIDED|90.0|0.42|0.63||||||Moderate Hepatic Impairment vs Normal Hepatic Function||0.63|0.42|
82584414|NCT04546789|164880654|OTHER||Ratio of geometric least square mean|1.44|||||TWO_SIDED|90.0|0.93|2.25||||||Mild Hepatic Impairment vs Normal Hepatic Function||2.25|0.93|
82584415|NCT04546789|164880654|OTHER||Ratio of geometric least square mean|2.55|||||TWO_SIDED|90.0|1.98|3.29||||||Moderate Hepatic Impairment vs Normal Hepatic Function||3.29|1.98|
82652024|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.19|||<|0.001|TWO_SIDED|95.0|-0.51|1.07||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV1|PR5I minus INFANRIX™ hexa|1.07|-0.51|< 0.001
82584416|NCT04546789|164880655|OTHER||Ratio of geometric least square mean|1.43|||||TWO_SIDED|90.0|0.86|2.39||||||Mild Hepatic Impairment vs Normal Hepatic Function||2.39|0.86|
82584417|NCT04546789|164880655|OTHER||Ratio of geometric least square mean|2.42|||||TWO_SIDED|90.0|1.87|3.14||||||Moderate Hepatic Impairment vs Normal Hepatic Function||3.14|1.87|
82652025|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.19|||<|0.001|TWO_SIDED|95.0|-0.69|1.21||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV2|PR5I minus INFANRIX™ hexa|1.21|-0.69|< 0.001
82584418|NCT04546789|164880656|OTHER||Ratio of geometric least square mean|0.69|||||TWO_SIDED|90.0|0.45|1.08||||||Mild Hepatic Impairment vs Normal Hepatic Function||1.08|0.45|
82489375|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.22||||0.1368|TWO_SIDED|95.0|-0.52|0.07|||ANCOVA|||Week 1, Day 7||0.07|-0.52|0.1368
82584419|NCT04546789|164880656|OTHER||Ratio of geometric least square mean|0.39|||||TWO_SIDED|90.0|0.3|0.5||||||Moderate Hepatic Impairment vs Normal Hepatic Function||0.50|0.30|
82584420|NCT04428151|164880670|SUPERIORITY||Hazard Ratio (HR)|1.48||||0.9963|TWO_SIDED|95.0|1.11|1.97||One-sided p-value based on log-rank test stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1). The reported p-value is nominal.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||1.97|1.11|0.9963
82584421|NCT04428151|164880671|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.4181|TWO_SIDED|95.0|0.74|1.28||One-sided p-value based on log-rank test stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1). The reported p-value is nominal.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||1.28|0.74|0.4181
82584422|NCT04428151|164880672|SUPERIORITY||Difference in Percentage|-6.5||||0.9266219|TWO_SIDED|95.0|-15.4|2.3|||Miettinen & Nurminen|One-sided p-value for testing H0: difference in % = 0 versus H1: difference in % \> 0. The reported p-value is nominal.|Based on Miettinen \& Nurminen method stratified by baseline PD-L1 TPS (\<50% versus ≥50%) and baseline ECOG performance status (0 versus 1).|||2.3|-15.4|0.9266219
82584423|NCT04976621|164880676|OTHER|Because this was a feasibility study, we did not compute inferential statistics and did not include a power calculation.||||||||||||Because this was a feasibility study, inferential statistics were not computed.||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
82489376|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.28||||0.0974|TWO_SIDED|95.0|-0.62|0.05|||ANCOVA|||Week 2, Day 14||0.05|-0.62|0.0974
82489377|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.38||||0.0479|TWO_SIDED|95.0|-0.76|0.0|||ANCOVA|||Week 4, Day 28||-0.00|-0.76|0.0479
82584424|NCT04976621|164880677|OTHER|||||||||||||||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
82584425|NCT04976621|164880678|OTHER|||||||||||||||||This feasibility study assessed preliminary evidence of treatment response. We have reported only descriptive statistics for quantitative findings. We have not reported inferential statistics, in keeping with the purpose of the VA SPiRE grant mechanism through which the study was funded. We assessed change in participant response by comparing the mean change in the outcome from baseline to follow-up in Group 1 (BA) and Group 2 (TAU). We inspected trends and directions of change in both groups.|Because this is a feasibility study, inferential statistics were not computed. We examined the trends and direction of change in the baseline mean score and follow-up mean score between the two groups.|||
82584426|NCT04976621|164880679|OTHER||||||||||||||||||This analysis involved examination of the percentage that scored above a mean of 3.0 (our criteria for acceptability in this feasibility study).|||
82584427|NCT04976621|164880680|OTHER|||||||||||||||||Descriptive statistics are used to describe acceptability/satisfaction for those who received the BA intervention. This tool is completed after the last intervention session when the qualitative interview is also conducted.|Descriptive statistics are used in this feasibility study. We are not using inferential statistics to test for statistical significance.|||
82584428|NCT04976621|164880681|OTHER||||||||||||||||||Descriptive statistics are used to describe recruitment.|||
82584429|NCT04976621|164880682|OTHER||||||||||||||||||One measure of retention was the percent in each group who completed the study, meaning completed the Time 2 follow-up interview (that occurred 3-4 months after the baseline interview). Another measure of retention was the percent in the treatment group that completed four or more treatment sessions.|||
82584430|NCT04976621|164880683|OTHER||||||||||||||||||For each of five participants who received the intervention, we reviewed a transcript of 1 intervention session for treatment fidelity. The criterion is that no more than 15% of sessions observed or audiotaped will have a mean less than 2.0.|||
82584431|NCT03519971|164880721|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.247|TWO_SIDED|95.0|0.647|1.123|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||The hazard ratio (HR) and confidence intervals (CIs) were calculated using a stratified Cox proportional hazards model, adjusting for age \[\< 65 versus (vs.) \>= 65 years\] and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.||1.123|0.647|0.247
82584432|NCT03519971|164880722|SUPERIORITY||Difference in percentages|0.2||||0.976|TWO_SIDED|99.5|-15.2|16.3|||Cochran-Mantel-Haenszel|The analysis was performed using a Cochran-Mantel-Haenszel (CMH) test, stratified by age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).|The CIs for difference in percentages were estimated using Miettinen and Nurminen's method.|||16.3|-15.2|0.976
82652026|NCT01341639|165019366|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.0|||<|0.001|TWO_SIDED|95.0|-0.7|0.73||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for IPV3|PR5I minus INFANRIX™ hexa|0.73|-0.7|< 0.001
82652027|NCT01341639|165019367|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.58|||<|0.001|TWO_SIDED|95.0|-0.49|1.85||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for HBsAg|PR5I minus INFANRIX™ hexa|1.85|-0.49|< 0.001
82489378|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.46|||ANCOVA|||Week 8, Day 56||-0.46|-1.22|<0.0001
82584433|NCT03519971|164880723|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|1.03||||0.823|TWO_SIDED|95.0|0.778|1.386|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.386|0.778|0.823
82584434|NCT03519971|164880724|SUPERIORITY|For the comparison between treatments, the Kaplan-Meier estimator of survival at 24 months for each treatment was used to obtain the HR and the test is based on the method described in Klein 2007. To account for the stratification factors, the estimates and test statistics in each strata were combined by weighting inversely proportionately according to each within stratum variance.|Hazard Ratio (HR)|1.04||||0.847|TWO_SIDED|95.0|0.716|1.502|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.502|0.716|0.847
82489379|NCT02833350|164672034|SUPERIORITY||Adjusted Difference|-0.83||||0.0001|TWO_SIDED|95.0|-1.24|-0.42|||ANCOVA|||Week 12, Day 84||-0.42|-1.24|0.0001
82489380|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.09||||0.9193|TWO_SIDED|95.0|-0.41|0.24|||ANCOVA|||Week 1, Day 7||0.24|-0.41|0.9193
82489381|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.1||||0.7062|TWO_SIDED|95.0|-0.33|0.14|||ANCOVA|||Week 1, Day 7||0.14|-0.33|0.7062
82489382|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.08||||0.8542|TWO_SIDED|95.0|-0.31|0.16|||ANCOVA|||Week 1, Day 7||0.16|-0.31|0.8542
82489383|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.13||||0.8095|TWO_SIDED|95.0|-0.51|0.24|||ANCOVA|||Week 2, Day 14||0.24|-0.51|0.8095
82489384|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.17||||0.3862|TWO_SIDED|95.0|-0.44|0.11|||ANCOVA|||Week 2, Day 14||0.11|-0.44|0.3862
82489385|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.16||||0.4328|TWO_SIDED|95.0|-0.43|0.12|||ANCOVA|||Week 2, Day 14||0.12|-0.43|0.4328
82489386|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.24||||0.4915|TWO_SIDED|95.0|-0.68|0.2|||ANCOVA|||Week 4, Day 28||0.20|-0.68|0.4915
82489387|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.26||||0.1441|TWO_SIDED|95.0|-0.58|0.06|||ANCOVA|||Week 4, Day 28||0.06|-0.58|0.1441
82489388|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.24||||0.189|TWO_SIDED|95.0|-0.56|0.07|||ANCOVA|||Week 4, Day 28||0.07|-0.56|0.1890
82489389|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.25||||0.5566|TWO_SIDED|95.0|-0.74|-0.24|||ANCOVA|||Week 8, Day 56||-0.24|-0.74|0.5566
82489390|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.32||||0.092|TWO_SIDED|95.0|-0.68|0.04|||ANCOVA|||Week 8, Day 56||0.04|-0.68|0.0920
82489391|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.29||||0.1391|TWO_SIDED|95.0|-0.65|0.06|||ANCOVA|||Week 8, Day 56||0.06|-0.65|0.1391
82489392|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.35||||0.2873|TWO_SIDED|95.0|-0.86|0.17|||ANCOVA|||Week 12, Day 84||0.17|-0.86|0.2873
82489393|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.54||||0.002|TWO_SIDED|95.0|-0.91|-0.16|||ANCOVA|||Week 12, Day 84||-0.16|-0.91|0.0020
82489394|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.54||||0.0016|TWO_SIDED|95.0|-0.92|-0.17|||ANCOVA|||Week 12, Day 84||-0.17|-0.92|0.0016
82489395|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.31||||0.005|TWO_SIDED|95.0|0.07|0.55|||ANCOVA|||Week 1, Day 7||0.55|0.07|0.0050
82489396|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.33||||0.002|TWO_SIDED|95.0|0.1|0.57|||ANCOVA|||Week 1, Day 7||0.57|0.10|0.0020
82489397|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.35||||0.0082|TWO_SIDED|95.0|0.07|0.62|||ANCOVA|||Week 2, Day 14||0.62|0.07|0.0082
82489398|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.35||||0.0056|TWO_SIDED|95.0|0.08|0.63|||ANCOVA|||Week 2, Day 14||0.63|0.08|0.0056
82489399|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.5||||0.0004|TWO_SIDED|95.0|0.19|0.82|||ANCOVA|||Week 4, Day 28||0.82|0.19|0.0004
82489400|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.52||||0.0002|TWO_SIDED|95.0|0.21|0.84|||ANCOVA|||Week 4, Day 28||0.84|0.21|0.0002
82489401|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.34||||0.065|TWO_SIDED|95.0|-0.01|0.69|||ANCOVA|||Week 8, Day 56||0.69|-0.01|0.0650
82489402|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.37||||0.0365|TWO_SIDED|95.0|0.02|0.72|||ANCOVA|||Week 8, Day 56||0.72|0.02|0.0365
82489403|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.09||||0.9338|TWO_SIDED|95.0|-0.28|0.47|||ANCOVA|||Week 12, Day 84||0.47|-0.28|0.9338
82489404|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|0.09||||0.952|TWO_SIDED|95.0|-0.29|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.29|0.9520
82489405|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.19||||0.1496|TWO_SIDED|95.0|-0.45|0.07|||ANCOVA|||Week 1, Day 7||0.07|-0.45|0.1496
82489406|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.13||||0.3936|TWO_SIDED|95.0|-0.43|0.17|||ANCOVA|||Week 2, Day 14||0.17|-0.43|0.3936
82489407|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.35||||0.0346|TWO_SIDED|95.0|-0.68|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.68|0.0346
82489408|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.68||||0.0004|TWO_SIDED|95.0|-1.04|-0.31|||ANCOVA|||Week 8, Day 56||-0.31|-1.04|0.0004
82489409|NCT02833350|164672035|SUPERIORITY||Adjusted Difference|-0.73||||0.0003|TWO_SIDED|95.0|-1.11|-0.34|||ANCOVA|||Week 12, Day 84||-0.34|-1.11|0.0003
82489410|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.17||||0.6083|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|||Week 1, Day 7||0.19|-0.53|0.6083
82489411|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.18||||0.2672|TWO_SIDED|95.0|-0.44|0.08|||ANCOVA|||Week 1, Day 7||0.08|-0.44|0.2672
82489412|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.17||||0.3158|TWO_SIDED|95.0|-0.43|0.09|||ANCOVA|||Week 1, Day 7||0.09|-0.43|0.3158
82489413|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.14||||0.8495|TWO_SIDED|95.0|-0.55|0.28|||ANCOVA|||Week 2, Day 14||0.28|-0.55|0.8495
82489414|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.28||||0.0856|TWO_SIDED|95.0|-0.58|0.03|||ANCOVA|||Week 2, Day 14||0.03|-0.58|0.0856
82489415|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.27||||0.1021|TWO_SIDED|95.0|-0.57|0.04|||ANCOVA|||Week 2, Day 14||0.04|-0.57|0.1021
82489416|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.33||||0.2762|TWO_SIDED|95.0|-0.82|0.15|||ANCOVA|||Week 4, Day 28||0.15|-0.82|0.2762
82489417|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.38||||0.0286|TWO_SIDED|95.0|-0.73|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.73|0.0286
82489418|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.38||||0.0274|TWO_SIDED|95.0|-0.73|-0.03|||ANCOVA|||Week 4, Day 28||-0.03|-0.73|0.0274
82489419|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.28||||0.4981|TWO_SIDED|95.0|-0.81|0.24|||ANCOVA|||Week 8, Day 56||0.24|-0.81|0.4981
82489420|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.39||||0.0472|TWO_SIDED|95.0|-0.78|0.0|||ANCOVA|||Week 8, Day 56||-0.00|-0.78|0.0472
82489421|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.36||||0.0753|TWO_SIDED|95.0|-0.75|0.03|||ANCOVA|||Week 8, Day 56||0.03|-0.75|0.0753
82489422|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.43||||0.1853|TWO_SIDED|95.0|-0.99|0.13|||ANCOVA|||Week 12, Day 84||0.13|-0.99|0.1853
82489423|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.62||||0.0009|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|||Week 12, Day 84||-0.21|-1.03|0.0009
82489424|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.62||||0.0008|TWO_SIDED|95.0|-1.03|-0.21|||ANCOVA|||Week 12, Day 84||-0.21|-1.03|0.0008
82489425|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.41||||0.0005|TWO_SIDED|95.0|0.15|0.67|||ANCOVA|||Week 1, Day 7||0.67|0.15|0.0005
82489426|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.42||||0.0003|TWO_SIDED|95.0|0.16|0.68|||ANCOVA|||Week 1, Day 7||0.68|0.16|0.0003
82489427|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.39||||0.006|TWO_SIDED|95.0|0.09|0.69|||ANCOVA|||Week 2, Day 14||0.69|0.09|0.0060
82489428|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.4||||0.0039|TWO_SIDED|95.0|0.1|0.7|||ANCOVA|||Week 2, Day 14||0.70|0.10|0.0039
82584435|NCT03519971|164880725|SUPERIORITY|The analysis was performed using a CMH test, stratified by age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).|Difference in percentages|0.0|||||TWO_SIDED|95.0|-4.8|3.0|||||The CIs for difference in percentages was calculated using Miettinen and Nurminen's method.|||3.0|-4.8|
82561068|NCT01377844|164831789|SUPERIORITY||Difference of LS Means|-2.63|||<|0.0001|TWO_SIDED|95.0|-3.24|-2.02||The p-value is from a two-sided t-test for the difference in means of change from baseline.|ANCOVA|Based on analysis of covariance, including treatment group, baseline FPG, baseline HbA1c category, site, age category, gender and race||Difference of mean-adjusted change from baseline in FPG (mmol/L) at Week 24, between EGT0001442 and Placebo group.||-2.02|-3.24|< 0.0001
82561069|NCT00569166|164831814|SUPERIORITY_OR_OTHER|||||||0.3679||95.0|||||Wilcoxon rank-sum|||Treatment effectiveness was measured using pairwise comparisons of hot flash score change from baseline in each paced breathing arm.||||0.3679
82561070|NCT00569166|164831814|SUPERIORITY_OR_OTHER|||||||0.4715||95.0|||||Wilcoxon rank-sum|||Treatment effectiveness was measured using pairwise comparisons of hot flash score change from baseline in each paced breathing arm.||||0.4715
82561071|NCT02746107|164831823|NON_INFERIORITY_OR_EQUIVALENCE|details provided in the protocol. Noninferiority margin=+/-5%|Risk Difference (RD)|0.5||||0.83|TWO_SIDED|95.0|-4.0|5.4|||Chi-squared|||||5.4|-4|0.83
82561072|NCT02746107|164831824|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.4||||0.187|TWO_SIDED|95.0|-1.3|8.1|||Chi-squared||(risk on 5y) - (risk on 1y)|details provided in protocol;||8.1|-1.3|0.187
82561073|NCT02746107|164831825|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.4|||<|0.001|TWO_SIDED|95.0|10.8|20.0|||Chi-squared||patient - (physicians themselves)|||20|10.8|<0.001
82561074|NCT02746107|164831825|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.28|||<|0.001|TWO_SIDED|95.0|2.25|4.78|||Regression, Logistic|adjustment for age, gender, CHA2D2s-VASC score, nr of diagrams, nr of years, presence of someone close with stroke, graduation year, speciality||||4.78|2.25|<0.001
82561075|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.3||||0.034|TWO_SIDED|95.0|1.2|17.0|||Chi-squared|CHA2D2S-VASC risk score 1 was reference|positive value means higher proportion of prescription, CHA2D2S-VASC risk score 1 was reference|CHA2D2S-VASC risk score 1 was the reference||17|1.2|0.034
82561076|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.2||||0.033|TWO_SIDED|95.0|1.2|17.0|||Chi-squared|||||17|1.2|0.033
82561077|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.4||||0.003|TWO_SIDED|95.0|4.7|20.1|||Chi-squared|||||20.1|4.7|0.003
82561078|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.1||||0.009|TWO_SIDED|95.0|3.2|18.8|||Chi-squared|||||18.8|3.2|0.009
82561079|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.024|TWO_SIDED|95.0|1.08|3.07|||Regression, Logistic|CHA2D2S-VASC risk score 1 was the reference, adjusted for nr diagrams, nr years, age, gender, smb close with stroke, speciality, professional degree||CHA2D2S-VASC risk score 1 was the reference||3.07|1.08|0.024
82561080|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77||||0.03|TWO_SIDED|95.0|1.06|2.98|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator: CHADS-VASC 1|||2.98|1.06|0.03
82561081|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.002|TWO_SIDED|95.0|1.37|4.09|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator = CHADS-VASC 1|||4.09|1.37|0.002
82561082|NCT02746107|164831826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.004|TWO_SIDED|95.0|1.14|2.56|||Regression, Logistic|Adjusted for age, gender, medical and academic degrees, someone close with stroke, speciality, period of risk estimation, number of figures.|numerator=CHADS-VASC 1|||2.56|1.14|0.004
82561083|NCT01853384|164831850|SUPERIORITY_OR_OTHER|||||||0.5348||||||Analysis adjusted for sites, with significance being at P \< 0.05|Cochran-Mantel-Haenszel|||||||.5348
82561084|NCT01853384|164831851|SUPERIORITY_OR_OTHER|||||||0.9456|||||||Regression, Cox|||||||.9456
82561085|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.6194||||||Treatment Week 01|Cochran-Mantel-Haenszel|||||||.6194
82561086|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.793||||||Treatment Week 02|Cochran-Mantel-Haenszel|||||||.7930
82561087|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.3362||||||Treatment Week 03|Cochran-Mantel-Haenszel|||||||0.3362
82561088|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.5263||||||Treatment Week 04|Cochran-Mantel-Haenszel|||||||0.5263
82561089|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.1997||||||Treatment Week 05|Cochran-Mantel-Haenszel|||||||0.1997
82561090|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.1617||||||Treatment Week 06|Cochran-Mantel-Haenszel|||||||0.1617
82561091|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.2611||||||Treatment Week 07|Cochran-Mantel-Haenszel|||||||0.2611
82561092|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.7232||||||Treatment Week 08|Cochran-Mantel-Haenszel|||||||0.7232
82561093|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.4405||||||Treatment Week 09|Cochran-Mantel-Haenszel|||||||0.4405
82561094|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.3516||||||Treatment Week 10|Cochran-Mantel-Haenszel|||||||0.3516
82561095|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.2821||||||Treatment Week 11|Cochran-Mantel-Haenszel|||||||0.2821
82561096|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.3722||||||Treatment Week 12|Cochran-Mantel-Haenszel|||||||0.3722
82561097|NCT01853384|164831853|SUPERIORITY_OR_OTHER|||||||0.5348||||||Week 12 - Primary Endpoint|Cochran-Mantel-Haenszel|||||||0.5348
82561098|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.5909||||||Week 01|ANCOVA|||||||0.5909
82561099|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.8234||||||Week 02|ANCOVA|||||||0.8234
82561100|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.1556||||||Week 03|ANCOVA|||||||0.1556
82561101|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.3487||||||Week 04|ANCOVA|||||||0.3487
82561102|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.1064||||||Week 05|ANCOVA|||||||0.1064
82561103|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.2888||||||Week 06|ANCOVA|||||||0.2888
82561104|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.6095||||||Week 07|ANCOVA|||||||0.6095
82561105|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.1566||||||Week 08|ANCOVA|||||||0.1566
82561106|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.4216||||||Week 09|ANCOVA|||||||0.4216
82584436|NCT03519971|164880728|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|0.95||||0.79|TWO_SIDED|95.0|0.649|1.413|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.413|0.649|0.790
82584437|NCT03519971|164880729|SUPERIORITY|The HR and CIs were calculated using a stratified Cox proportional hazards model, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C), with treatment as the only covariate and ties handled by Efron approach.|Hazard Ratio (HR)|0.81||||0.132|TWO_SIDED|95.0|0.614|1.071|||Log Rank|The analysis was performed using the stratified log-rank test, adjusting for age (\< 65 vs. \>= 65 years) and stage (IIIA vs. IIIB/C).||||1.071|0.614|0.132
82584438|NCT04118374|164880734|SUPERIORITY||Median Difference (Final Values)|0.2|||<|0.01|TWO_SIDED|95.0|-0.5|1.8|||ANOVA|||||1.8|-0.5|<0.01
82584439|NCT05227703|164880743|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.3||0.2925|TWO_SIDED|95.0|-7.0|2.1||Emraclidine 15 mg versus Placebo|Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|||2.1|-7.0|0.2925
82584440|NCT05227703|164880743|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.27||0.3914|TWO_SIDED|95.0|-2.5|6.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||6.4|-2.5|0.3914
82584441|NCT05227703|164880744|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.1165|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Emraclidine 15 mg versus Placebo||0.05|-0.48|0.1165
82584442|NCT05227703|164880744|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.134||0.8265|TWO_SIDED|95.0|-0.23|0.29|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||0.29|-0.23|0.8265
82489429|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.53||||0.0007|TWO_SIDED|95.0|0.18|0.88|||ANCOVA|||Week 4, Day 28||0.88|0.18|0.0007
82489430|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.53||||0.0007|TWO_SIDED|95.0|0.19|0.88|||ANCOVA|||Week 4, Day 28||0.88|0.19|0.0007
82584443|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.14||0.1167|TWO_SIDED|95.0|-4.0|0.5|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 1-- Emraclidine 15 mg versus Placebo||0.5|-4.0|0.1167
82584444|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.14||0.9254|TWO_SIDED|95.0|-2.1|2.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||2.3|-2.1|0.9254
82652028|NCT01341639|165019367|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|1.33|||<|0.001|TWO_SIDED|95.0|0.32|2.86||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PT|PR5I minus INFANRIX™ hexa|2.86|0.32|< 0.001
82489431|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.39||||0.045|TWO_SIDED|95.0|0.01|0.77|||ANCOVA|||Week 8, Day 56||0.77|0.01|0.0450
82489432|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.42||||0.0259|TWO_SIDED|95.0|0.04|0.8|||ANCOVA|||Week 8, Day 56||0.80|0.04|0.0259
82489433|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.06||||0.9881|TWO_SIDED|95.0|-0.34|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.34|0.9881
82489434|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|0.06||||0.9891|TWO_SIDED|95.0|-0.34|0.46|||ANCOVA|||Week 12, Day 84||0.46|-0.34|0.9891
82489435|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.29||||0.0463|TWO_SIDED|95.0|-0.57|0.0|||ANCOVA|||Week 1, Day 7||-0.00|-0.57|0.0463
82489436|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.23||||0.1867|TWO_SIDED|95.0|-0.56|0.11|||ANCOVA|||Week 2, Day 14||0.11|-0.56|0.1867
82489437|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.44||||0.0213|TWO_SIDED|95.0|-0.81|-0.07|||ANCOVA|||Week 4, Day 28||-0.07|-0.81|0.0213
82489438|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.78||||0.0003|TWO_SIDED|95.0|-1.19|-0.37|||ANCOVA|||Week 8. Day 56||-0.37|-1.19|0.0003
82489439|NCT02833350|164672036|SUPERIORITY||Adjusted Difference|-0.82||||0.0002|TWO_SIDED|95.0|-1.24|-0.4|||ANCOVA|||Week 12, Day 84||-0.40|-1.24|0.0002
82489440|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
82489441|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
82489442|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|1.82||||0.3482|TWO_SIDED|95.0|-1.98|5.62|||Cochran-Mantel-Haenszel|||Week 1, Day 7||5.62|-1.98|0.3482
82489443|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 2, Day 14||5.71|-6.51|0.8979
82489444|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|-0.91||||0.5976|TWO_SIDED|95.0|-4.3|2.48|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.48|-4.30|0.5976
82489445|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.91||||0.6546|TWO_SIDED|95.0|-3.07|4.89|||Cochran-Mantel-Haenszel|||Week 2, Day 14||4.89|-3.07|0.6546
82489446|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|-0.8||||0.7988|TWO_SIDED|95.0|-6.95|5.35|||Cochran-Mantel-Haenszel|||Week 4 Day 28||5.35|-6.95|0.7988
82489447|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.01||||0.9975|TWO_SIDED|95.0|-4.35|4.36|||Cochran-Mantel-Haenszel|||Week 4 Day 28||4.36|-4.35|0.9975
82489448|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|4.55||||0.1185|TWO_SIDED|95.0|-1.16|10.25|||Cochran-Mantel-Haenszel|||Week 4, Day 28||10.25|-1.16|0.1185
82489449|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|-2.4||||0.4765|TWO_SIDED|95.0|-9.01|4.21|||Cochran-Mantel-Haenszel|||Week 8, Day 56||4.21|-9.01|0.4765
82489450|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|4.61||||0.1655|TWO_SIDED|95.0|-1.9|11.12|||Cochran-Mantel-Haenszel|||Week 8, Day 56||11.12|-1.90|0.1655
82489451|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|8.18||||0.0234|TWO_SIDED|95.0|1.11|15.26|||Cochran-Mantel-Haenszel|||Week 8, Day 56||15.26|1.11|0.0234
82489452|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|3.2||||0.549|TWO_SIDED|95.0|-7.27|13.67|||Cochran-Mantel-Haenszel|||Week 12, Day 84||13.67|-7.27|0.5490
82489453|NCT02833350|164672037|SUPERIORITY||Mean Difference (Net)|15.62||||0.0003|TWO_SIDED|95.0|7.22|24.03|||Cochran-Mantel-Haenszel|||Week 12, Day 84||24.03|7.22|0.0003
82489454|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|10.91||||0.0044|TWO_SIDED|95.0|3.39|18.43|||Cochran-Mantel-Haenszel|||Week 12, Day 84||18.43|3.39|0.0044
82489455|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|2.05||||0.6588|TWO_SIDED|95.0|-7.07|11.18|||Cochran-Mantel-Haenszel|||Week 1, Day 7||11.18|-7.07|0.6588
82489456|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.68||||0.8853|TWO_SIDED|95.0|-8.62|9.99|||Cochran-Mantel-Haenszel|||Week 2, Day 14||9.99|-8.62|0.8853
82489457|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
82489458|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|0.68||||0.8853|TWO_SIDED|95.0|-8.62|9.99|||Cochran-Mantel-Haenszel|||Week 8, Day 56||9.99|-8.62|0.8853
82489459|NCT02833350|164672037|SUPERIORITY||Adjusted Difference|11.64||||0.0584|TWO_SIDED|95.0|-0.41|23.7|||Cochran-Mantel-Haenszel|||Week 12, Day 84||23.70|-0.41|0.0584
82489460|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
82489461|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.92|-2.92|1.0000
82489462|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.91|-2.91|1.0000
82489463|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
82489464|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
82489465|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 2, Day 14||4.28|-2.47|0.5976
82489466|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.71|-6.51|0.8979
82489467|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|-0.91||||0.5976|TWO_SIDED|95.0|-4.3|2.48|||Cochran-Mantel-Haenszel|||Week 4 Day 28||2.48|-4.30|0.5976
82489468|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.91||||0.6669|TWO_SIDED|95.0|-3.23|5.05|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.05|-3.23|0.6669
82489469|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|-1.6||||0.6309|TWO_SIDED|95.0|-8.13|4.93|||Cochran-Mantel-Haenszel|||Week 8, Day 56||4.93|-8.13|0.6309
82489470|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|1.83||||0.4473|TWO_SIDED|95.0|-2.9|6.56|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.56|-2.90|0.4473
82489471|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|2.73||||0.3021|TWO_SIDED|95.0|-2.45|7.91|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.91|-2.45|0.3021
82489472|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|-1.6||||0.7134|TWO_SIDED|95.0|-10.14|6.94|||Cochran-Mantel-Haenszel|||Week 12, Day 84||6.94|-10.14|0.7134
82489473|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|3.7||||0.2635|TWO_SIDED|95.0|-2.79|10.19|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.19|-2.79|0.2635
82489474|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|4.55||||0.1749|TWO_SIDED|95.0|-2.02|11.11|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.11|-2.02|0.1749
82489475|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|2.05||||0.6588|TWO_SIDED|95.0|-7.07|11.18|||Cochran-Mantel-Haenszel|||Week 1, Day 7||11.18|-7.07|0.6588
82489476|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2 Day 14||8.31|-8.31|1.0000
82489477|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.31|-8.31|1.0000
82489478|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.31|-8.31|1.0000
82489479|NCT02833350|164672038|SUPERIORITY||Adjusted Difference|1.37||||0.7848|TWO_SIDED|95.0|-8.46|11.2|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.20|-8.46|0.7848
82489480|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.28|6.28|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.28|-6.28|1.0000
82652029|NCT01341639|165019367|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-2.59|||<|0.001|TWO_SIDED|95.0|-4.39|-1.29||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for FHA|PR5I minus INFANRIX™ hexa|-1.29|-4.39|< 0.001
82489481|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.93||||0.5941|TWO_SIDED|95.0|-2.5|4.37|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.37|-2.50|0.5941
82489482|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.93|2.93|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.93|-2.93|1.0000
82561107|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.8166||||||Week10|ANCOVA|||||||0.8166
82489483|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.17|6.17|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.17|-6.17|1.0000
82489484|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.95|2.95|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.95|-2.95|1.0000
82489485|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
82561108|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.9114||||||Week 11|ANCOVA|||||||0.9114
82561109|NCT01853384|164831855|SUPERIORITY_OR_OTHER|||||||0.9733||||||Week 12|ANCOVA|||||||0.9733
82561110|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.7439||||||Week 01|ANCOVA|||||||0.7439
82561111|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.6992||||||Week 02|ANCOVA|||||||0.6992
82561112|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.0867||||||Week 03|ANCOVA|||||||0.0867
82561113|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.5739||||||Week 04|ANCOVA|||||||0.5739
82561114|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.6497||||||Week 05|ANCOVA|||||||0.6497
82561115|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.1427||||||Week 06|ANCOVA|||||||0.1427
82561116|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.0682||||||Week 07|ANCOVA|||||||0.0682
82561117|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.0161||||||Week 08|ANCOVA|||||||0.0161
82561118|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.0973||||||Week 09|ANCOVA|||||||0.0973
82561119|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.4661||||||Week 10|ANCOVA|||||||0.4661
82561120|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.601||||||Week 11|ANCOVA|||||||0.6010
82561121|NCT01853384|164831856|SUPERIORITY_OR_OTHER|||||||0.3369||||||Week 12|ANCOVA|||||||0.3369
82561122|NCT01947491|164831857|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82561123|NCT00704340|164831858|SUPERIORITY_OR_OTHER|||||||0.613|||||||t-test, 2 sided|||The sample size was selected to provide sufficient precision for 95% confidence intervals for the incidence of neurosurgical complications in each arm. The sample size was selected so that the half-width of the normal approximation-based intervals would be no more than 0.05 percentage points. This requires a sample size of 114 evaluable patients in each arm. To allow for loss to follow-up, the sample size was increased to 125 randomized patients in each treatment arm, or a total of 250 patients.||||.613
82561124|NCT00704340|164831859|SUPERIORITY_OR_OTHER|||||||0.681|||||||t-test, 2 sided|||||||.681
82561125|NCT00704340|164831860|SUPERIORITY_OR_OTHER|||||||0.619|||||||t-test, 2 sided|||||||.619
82561126|NCT03316170|164831882|SUPERIORITY||Mean Difference (Final Values)|-0.86|STANDARD_ERROR_OF_MEAN|0.44||0.06|TWO_SIDED|95.0|-1.75|0.3|||t-test, 2 sided|||||0.30|-1.75|.06
82561127|NCT00321971|164831894|SUPERIORITY||Mean Difference (Final Values)|0.421|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|0.208|0.657|||Mixed Models Analysis|Intention-to-treat model|The CES-D data were log-transformed for analysis|Hypothesis: The experimental intervention group will endorse lower mean levels of depressive symptoms during follow-up than the study group receiving the comparison intervention.||0.657|0.208|<.05
82561128|NCT04803734|164831897|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed Cmax.|Ratio of geometric least square mean|0.862||||0.0328|TWO_SIDED|90.0|0.807|0.922|||ANOVA|||||0.922|0.807|0.0328
82561129|NCT04803734|164831898|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed AUC(0-t).|Ratio of geometric least square mean|0.941|||<|0.0001|TWO_SIDED|90.0|0.909|0.976|||ANOVA|||||0.976|0.909|<0.0001
82561130|NCT04803734|164831899|EQUIVALENCE|To establish bioequivalence of albuterol under fasting conditions, the 90% confidence interval for the ratio of the geometric means between the products should fall within the FDA defined acceptance range of 80.00%-125.00% interval for ln-transformed AUC(0-inf).|Ratio of geometric least square mean|0.942|||<|0.0001|TWO_SIDED|90.0|0.91|0.975|||ANOVA|||||0.975|0.910|<0.0001
82561131|NCT00854594|164831913|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: pre-intervention efficacies will be equal in the two study arms.||||0.26
82561132|NCT00854594|164831914|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: post-intervention efficacies will be equal in the two study arms.||||0.74
82561133|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.72|||||TWO_SIDED|95.0|-0.33|1.77||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.77|-0.33|
82561134|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.46|||||TWO_SIDED|95.0|-0.5|1.43||||||Period AC: Difference varenicline versus placebo.||1.43|-0.50|
82561135|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.92|||||TWO_SIDED|95.0|-0.27|2.11||||||Period AD: Difference varenicline versus placebo.||2.11|-0.27|
82561136|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-0.52|1.53||||||Period AE: Difference varenicline versus placebo.||1.53|-0.52|
82561137|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.35|0.5|||||Mixed Models Analysis|Period BC: Difference varenicline versus placebo.||0.50|-1.35|
82561138|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-1.18|1.24||||||Period BD: Difference varenicline versus placebo.||1.24|-1.18|
82561139|NCT00749944|164831922|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.37|||||TWO_SIDED|95.0|-1.37|0.63|||||Mixed Models Analysis|Period BE: Difference varenicline versus placebo.||0.63|-1.37|
82561140|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.62|||||TWO_SIDED|95.0|-0.15|1.39||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.39|-0.15|
82561141|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.41|||||TWO_SIDED|95.0|-0.24|1.07||||||Period AC: Difference varenicline versus placebo.||1.07|-0.24|
82561142|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.48|||||TWO_SIDED|95.0|-0.26|1.22||||||Period AD: Difference varenicline versus placebo.||1.22|-0.26|
82561143|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.44|||||TWO_SIDED|95.0|-0.18|1.06||||||Period AE: Difference varenicline versus placebo.||1.06|-0.18|
82561144|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.58|0.78||||||Period BC: Difference varenicline versus placebo.||0.78|-0.58|
82561145|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.22|||||TWO_SIDED|95.0|-0.48|0.92||||||Period BD: Difference varenicline versus placebo.||0.92|-0.48|
82561146|NCT00749944|164831923|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.23|||||TWO_SIDED|95.0|-0.26|0.72||||||Period BE: Difference varenicline versus placebo.||0.72|-0.26|
82561147|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.62|||||TWO_SIDED|95.0|0.0|1.24||||||There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.24|-0.00|
82561148|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.73|||||TWO_SIDED|95.0|0.18|1.29||||||Period AC: Difference varenicline versus placebo.||1.29|0.18|
82561149|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.66|||||TWO_SIDED|95.0|0.02|1.3||||||Period AD: Difference varenicline versus placebo.||1.30|0.02|
82561150|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.43|||||TWO_SIDED|95.0|-0.19|1.05||||||Period AE: Difference varenicline versus placebo.||1.05|-0.19|
82561151|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.48|||||TWO_SIDED|95.0|-0.09|1.05||||||Period BC: Difference varenicline versus placebo.||1.05|-0.09|
82561152|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.39|||||TWO_SIDED|95.0|-0.28|1.06||||||Period BD: Difference varenicline versus placebo.||1.06|-0.28|
82561153|NCT00749944|164831924|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-0.47|0.65||||||Period BE: Difference varenicline versus placebo.||0.65|-0.47|
82561154|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.85|||||TWO_SIDED|95.0|-0.02|1.72|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.72|-0.02|
82561155|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.85|||||TWO_SIDED|95.0|0.16|1.54|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||1.54|0.16|
82561156|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.24|||||TWO_SIDED|95.0|0.39|2.08|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||2.08|0.39|
82561157|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.83|||||TWO_SIDED|95.0|0.14|1.52|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||1.52|0.14|
82561158|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.52|||||TWO_SIDED|95.0|-0.06|1.09|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||1.09|-0.06|
82561159|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.88|||||TWO_SIDED|95.0|0.05|1.7|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||1.70|0.05|
82561160|NCT00749944|164831925|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.38|||||TWO_SIDED|95.0|-0.12|0.88|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.88|-0.12|
82561161|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.82|||||TWO_SIDED|95.0|-3.07|1.43|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.43|-3.07|
82561162|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.19|||||TWO_SIDED|95.0|-2.47|2.08|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||2.08|-2.47|
82561163|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-2.15|||||TWO_SIDED|95.0|-5.19|0.89|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.89|-5.19|
82561164|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.98|||||TWO_SIDED|95.0|-3.67|1.7|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||1.70|-3.67|
82561165|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.95|||||TWO_SIDED|95.0|-0.36|4.26|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||4.26|-0.36|
82561166|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-3.32|3.3|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||3.30|-3.32|
82489486|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|-0.43||||0.8929|TWO_SIDED|95.0|-6.62|5.77|||Cochran-Mantel-Haenszel|||Week 4, Day 28||5.77|-6.62|0.8929
82652030|NCT01341639|165019367|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.03|||<|0.001|TWO_SIDED|95.0|-1.4|1.52||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for PRN|PR5I minus INFANRIX™ hexa|1.52|-1.4|< 0.001
82489487|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|-0.13||||0.9424|TWO_SIDED|95.0|-3.78|3.51|||Cochran-Mantel-Haenszel|||Week 4, Day 28||3.51|-3.78|0.9424
82489488|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|-0.94||||0.5927|TWO_SIDED|95.0|-4.4|2.51|||Cochran-Mantel-Haenszel|||Week 4, Day 28||2.51|-4.40|0.5927
82561167|NCT00749944|164831926|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.09|||||TWO_SIDED|95.0|-1.8|3.97|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||3.97|-1.80|
82561168|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.52|||||TWO_SIDED|95.0|-0.29|1.32|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.32|-0.29|
82561169|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.54|||||TWO_SIDED|95.0|-0.17|1.25|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||1.25|-0.17|
82561170|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.18|||||TWO_SIDED|95.0|-0.55|0.92|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.92|-0.55|
82561171|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.26|||||TWO_SIDED|95.0|-0.46|0.99|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||0.99|-0.46|
82584445|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.55||0.8792|TWO_SIDED|95.0|-3.3|2.8|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 2-- Emraclidine 15 mg versus Placebo||2.8|-3.3|0.8792
82561172|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.59|||||TWO_SIDED|95.0|-0.19|1.37|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||1.37|-0.19|
82561173|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.91|0.76|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||0.76|-0.91|
82561174|NCT00749944|164831927|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.65|0.85|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.85|-0.65|
82561175|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.23|||||TWO_SIDED|95.0|-0.2|0.65|||||Mixed Models Analysis included baseline, treatment (t; fixed), subject (random), day (d; fixed), and interaction for t-by-d.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.65|-0.20|
82561176|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.21|||||TWO_SIDED|95.0|-0.17|0.58|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AC: Difference varenicline versus placebo.||0.58|-0.17|
82561177|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.21|||||TWO_SIDED|95.0|-0.23|0.65|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AD: Difference varenicline versus placebo.||0.65|-0.23|
82561178|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.37|0.41|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period AE: Difference varenicline versus placebo.||0.41|-0.37|
82489489|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|-0.46||||0.8788|TWO_SIDED|95.0|-6.31|5.4|||Cochran-Mantel-Haenszel|||Week 8, Day 56||5.40|-6.31|0.8788
82489490|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.87||||0.6876|TWO_SIDED|95.0|-3.36|5.09|||Cochran-Mantel-Haenszel|||Week 8 Day 56||5.09|-3.36|0.6876
82489491|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.97||||0.6656|TWO_SIDED|95.0|-3.42|5.35|||Cochran-Mantel-Haenszel|||Week 8, Day 56||5.35|-3.42|0.6656
82561179|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-0.41|0.59|||||Mixed Models Analysis included baseline, t (fixed), subject (random), time (fixed), d (fixed), and interactions for t-by-time, t-by-d, time-by-d and t-by-time-by-d.|Period BC: Difference varenicline versus placebo.||0.59|-0.41|
82561180|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.44|0.63|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BD: Difference varenicline versus placebo.||0.63|-0.44|
82561181|NCT00749944|164831928|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.12|||||TWO_SIDED|95.0|-0.58|0.34|||||Mixed Models Analysis included baseline, t (fixed), subject (random), d (fixed), and interaction for t-by-d.|Period BE: Difference varenicline versus placebo.||0.34|-0.58|
82561182|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.22|||||TWO_SIDED|95.0|-0.66|1.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.10|-0.66|
82561183|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.44|||||TWO_SIDED|95.0|-0.46|1.35|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.35|-0.46|
82561184|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.22|||||TWO_SIDED|95.0|-1.16|0.71|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.71|-1.16|
82561185|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-0.68|0.73|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.73|-0.68|
82561186|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.58|||||TWO_SIDED|95.0|-0.79|1.96|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||1.96|-0.79|
82561187|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.69|0.82|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.82|-1.69|
82584446|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.52||0.5094|TWO_SIDED|95.0|-2.0|4.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||4.0|-2.0|0.5094
82584447|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.76||0.4487|TWO_SIDED|95.0|-4.8|2.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||2.1|-4.8|0.4487
82561188|NCT00749944|164831929|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.09|||||TWO_SIDED|95.0|-0.86|0.68|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.68|-0.86|
82561189|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.27|||||TWO_SIDED|95.0|-0.55|1.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.08|-0.55|
82561190|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.53|||||TWO_SIDED|95.0|-0.39|1.46|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.46|-0.39|
82561191|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.09|||||TWO_SIDED|95.0|-1.08|1.25|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||1.25|-1.08|
82561192|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.14|||||TWO_SIDED|95.0|-0.62|0.9|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.90|-0.62|
82561193|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-0.94|1.95|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||1.95|-0.94|
82561194|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.03|||||TWO_SIDED|95.0|-1.57|1.51|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||1.51|-1.57|
82489492|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|-0.46||||0.8787|TWO_SIDED|95.0|-6.34|5.42|||Cochran-Mantel-Haenszel|||Week 12 Day 84||5.42|-6.34|0.8787
82561195|NCT00749944|164831930|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.91|0.75|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.75|-0.91|
82561196|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.35|||||TWO_SIDED|95.0|-1.76|1.06|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.06|-1.76|
82561197|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.11|||||TWO_SIDED|95.0|-0.96|1.17|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.17|-0.96|
82561198|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.49|||||TWO_SIDED|95.0|-1.94|4.91|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||4.91|-1.94|
82489493|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.74||||0.7101|TWO_SIDED|95.0|-3.17|4.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.66|-3.17|0.7101
82489494|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|3.2||||0.2425|TWO_SIDED|95.0|-2.16|8.55|||Cochran-Mantel-Haenszel|||Week 12, Day 84||8.55|-2.16|0.2425
82489495|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.68|8.68|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.68|-8.68|1.0000
82489496|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.39|8.39|||Cochran-Mantel-Haenszel|||Week 2 Day 14||8.39|-8.39|1.0000
82489497|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|2.03||||0.6658|TWO_SIDED|95.0|-7.17|11.22|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.22|-7.17|0.6658
82489498|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.77|8.77|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.77|-8.77|1.0000
82489499|NCT02833350|164672039|SUPERIORITY||Adjusted Difference|6.57||||0.2457|TWO_SIDED|95.0|-4.52|17.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||17.66|-4.52|0.2457
82489500|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.36||||0.496|TWO_SIDED|95.0|-6.73|2.02|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.02|-6.73|0.4960
82489501|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.18||||0.2736|TWO_SIDED|95.0|-5.34|0.98|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.98|-5.34|0.2736
82489502|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-3.08||||0.0608|TWO_SIDED|95.0|-6.26|0.1|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.10|-6.26|0.0608
82489503|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-1.25||||0.9237|TWO_SIDED|95.0|-6.02|3.52|||Cochran-Mantel-Haenszel|||Week 2, Day 14||3.52|-6.02|0.9237
82489504|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-3.14||||0.0893|TWO_SIDED|95.0|-6.6|0.33|||Cochran-Mantel-Haenszel|||Week 2, Day 14||0.33|-6.60|0.0893
82489505|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-4.07||||0.0138|TWO_SIDED|95.0|-7.51|-0.63|||Cochran-Mantel-Haenszel|||Week 2, Day 14||-0.63|-7.51|0.0138
82489506|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-3.22||||0.3358|TWO_SIDED|95.0|-8.24|1.8|||Cochran-Mantel-Haenszel|||Week 4, Day 28||1.80|-8.24|0.3358
82489507|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-4.57||||0.0078|TWO_SIDED|95.0|-8.2|-0.94|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-0.94|-8.20|0.0078
82489508|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-4.68||||0.0059|TWO_SIDED|95.0|-8.3|-1.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.06|-8.30|0.0059
82489509|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.29||||0.6503|TWO_SIDED|95.0|-7.39|2.8|||Cochran-Mantel-Haenszel|||Week 8, Day 56||2.80|-7.39|0.6503
82489510|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-3.12||||0.1282|TWO_SIDED|95.0|-6.84|0.59|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.59|-6.84|0.1282
82489511|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.94||||0.1675|TWO_SIDED|95.0|-6.65|0.78|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.78|-6.65|0.1675
82489512|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.94||||0.422|TWO_SIDED|95.0|-7.96|2.09|||Cochran-Mantel-Haenszel|||Week 12, Day 84||2.09|-7.96|0.4220
82489513|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-5.1||||0.0027|TWO_SIDED|95.0|-8.77|-1.42|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.42|-8.77|0.0027
82489514|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-5.47||||0.0011|TWO_SIDED|95.0|-9.15|-1.78|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.78|-9.15|0.0011
82489515|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|3.21||||0.0455|TWO_SIDED|95.0|0.05|6.37|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.37|0.05|0.0455
82489516|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|2.31||||0.2309|TWO_SIDED|95.0|-0.87|5.48|||Cochran-Mantel-Haenszel|||Week 1, Day 7||5.48|-0.87|0.2309
82489517|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|3.27||||0.0698|TWO_SIDED|95.0|-0.18|6.72|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.72|-0.18|0.0698
82489518|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|2.33||||0.2851|TWO_SIDED|95.0|-1.09|5.76|||Cochran-Mantel-Haenszel|||Week 2, Day 14||5.76|-1.09|0.2851
82489519|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|4.29||||0.0131|TWO_SIDED|95.0|0.69|7.9|||Cochran-Mantel-Haenszel|||Week 4, Day 28||7.90|0.69|0.0131
82489520|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|4.18||||0.0161|TWO_SIDED|95.0|0.59|7.78|||Cochran-Mantel-Haenszel|||Week 4, Day 28||7.78|0.59|0.0161
82489521|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|3.85||||0.036|TWO_SIDED|95.0|0.18|7.51|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.51|0.18|0.0360
82489522|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|4.04||||0.0252|TWO_SIDED|95.0|0.37|7.7|||Cochran-Mantel-Haenszel|||Week 8, Day 56||7.70|0.37|0.0252
82489523|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|1.03||||0.9032|TWO_SIDED|95.0|-2.59|4.66|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.66|-2.59|0.9032
82489524|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|0.66||||0.9791|TWO_SIDED|95.0|-2.97|4.3|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.30|-2.97|0.9791
82489525|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-3.22||||0.0927|TWO_SIDED|95.0|-6.98|0.54|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.54|-6.98|0.0927
82489526|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-2.12||||0.3202|TWO_SIDED|95.0|-6.33|2.09|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.09|-6.33|0.3202
82489527|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-4.2||||0.0476|TWO_SIDED|95.0|-8.36|-0.04|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-0.04|-8.36|0.0476
82489528|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-9.93|||<|0.0001|TWO_SIDED|95.0|-14.31|-5.55|||Cochran-Mantel-Haenszel|||Week 8, Day 54||-5.55|-14.31|<0.0001
82489529|NCT02833350|164672040|SUPERIORITY||Adjusted Difference|-8.23||||0.0003|TWO_SIDED|95.0|-12.56|-3.9|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-3.90|-12.56|0.0003
82489530|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
82489531|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
82584448|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.72||0.4852|TWO_SIDED|95.0|-2.2|4.6|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||4.6|-2.2|0.4852
82584449|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.86||0.7593|TWO_SIDED|95.0|-4.2|3.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 4-- Emraclidine 15 mg versus Placebo||3.1|-4.2|0.7593
82584450|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.82||0.6792|TWO_SIDED|95.0|-2.8|4.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||4.3|-2.8|0.6792
82584451|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|2.1||0.3983|TWO_SIDED|95.0|-5.9|2.4|||Mixed Model for Repeated Measures (MMRM)|||Week 5-- Emraclidine 15 mg versus Placebo||2.4|-5.9|0.3983
82584452|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|2.07||0.3859|TWO_SIDED|95.0|-2.3|5.9|||Mixed Model for Repeated Measures (MMRM)|||Week 5-- Emraclidine 30 mg versus Placebo||5.9|-2.3|0.3859
82584453|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|2.3||0.2925|TWO_SIDED|95.0|-7.0|2.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||2.1|-7.0|0.2925
82584454|NCT05227703|164880745|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|2.27||0.3914|TWO_SIDED|95.0|-2.5|6.4|||Mixed Model for Repeated Measures (MMRM)|||Week 6-- Emraclidine 30 mg versus Placebo||6.4|-2.5|0.3914
82584455|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.073||0.0865|TWO_SIDED|95.0|-0.27|0.02|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 1-- Emraclidine 15 mg versus Placebo||0.02|-0.27|0.0865
82584456|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.072||0.9921|TWO_SIDED|95.0|-0.14|0.14|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||0.14|-0.14|0.9921
82584457|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.091||0.972|TWO_SIDED|95.0|-0.18|0.18|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 2-- Emraclidine 15 mg versus Placebo||0.18|-0.18|0.9720
82584458|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.089||0.6621|TWO_SIDED|95.0|-0.14|0.21|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||0.21|-0.14|0.6621
82652031|NCT01341639|165019369|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.26|||<|0.001|TWO_SIDED|95.0|-2.82|2.25||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Measles|PR5I minus INFANRIX™ hexa|2.25|-2.82|< 0.001
82489532|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.28|-2.47|0.5976
82489533|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
82652032|NCT01341639|165019369|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|3.07|||<|0.001|TWO_SIDED|95.0|-0.12|6.4||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Mumps|PR5I minus INFANRIX™ hexa|6.4|-0.12|< 0.001
82652033|NCT01341639|165019369|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|0.39|||<|0.001|TWO_SIDED|95.0|-1.5|2.34||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -5% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Rubella|PR5I minus INFANRIX™ hexa|2.34|-1.5|< 0.001
82584459|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.101||0.3617|TWO_SIDED|95.0|-0.29|0.11|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.11|-0.29|0.3617
82584460|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.098||0.5456|TWO_SIDED|95.0|-0.13|0.25|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.25|-0.13|0.5456
82584461|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.11||0.8459|TWO_SIDED|95.0|-0.24|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 4-- Emraclidine 15 mg versus Placebo||0.19|-0.24|0.8459
82584462|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.108||0.3922|TWO_SIDED|95.0|-0.12|0.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||0.30|-0.12|0.3922
82584463|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.122||0.2915|TWO_SIDED|95.0|-0.37|0.11|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 5-- Emraclidine 15 mg versus Placebo||0.11|-0.37|0.2915
82584464|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.4425|TWO_SIDED|95.0|-0.14|0.33|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||0.33|-0.14|0.4425
82489534|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
82584465|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.1165|TWO_SIDED|95.0|-0.48|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.05|-0.48|0.1165
82584466|NCT05227703|164880746|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.134||0.8265|TWO_SIDED|95.0|-0.23|0.29|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.29|-0.23|0.8265
82584467|NCT05227703|164880747|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and baseline value as a covariate.|Odds Ratio (OR)|1.26||||0.4597|TWO_SIDED|95.0|0.68|2.33|||Regression, Logistic|||Emraclidine 15 mg versus Placebo||2.33|0.68|0.4597
82584468|NCT05227703|164880747|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and baseline value as a covariate.|Odds Ratio (OR)|0.57||||0.1205|TWO_SIDED|95.0|0.28|1.16|||Regression, Logistic|||Emraclidine 30 mg versus Placebo||1.16|0.28|0.1205
82489535|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.91|-2.91|1.0000
82652034|NCT01341639|165019369|NON_INFERIORITY|If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages|-0.02|||<|0.001|TWO_SIDED|95.0|-2.11|2.06||1-sided|Miettinen & Nurminen||If the lower bound of the 95% CI was greater than -10% (non-inferiority margin), it was concluded that PR5I group response rate was non-inferior to INFANRIX hexa group response rate.|Difference in percentages: Non-inferiority for Varicella|PR5I minus INFANRIX™ hexa|2.06|-2.11|< 0.001
82489536|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||6.06|-6.06|1.0000
82489537|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.91||||0.5726|TWO_SIDED|95.0|-2.26|4.09|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.09|-2.26|0.5726
82489538|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.28|-2.47|0.5976
82489539|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.06|-6.06|1.0000
82489540|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|2.74||||0.1446|TWO_SIDED|95.0|-0.94|6.42|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.42|-0.94|0.1446
82584469|NCT05227703|164880754|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0493|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.2|0.0|0.0493
82584470|NCT05227703|164880754|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0226|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|0.0|0.0226
82584471|NCT05227703|164880754|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.6845|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.6845
82584472|NCT05227703|164880754|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.895|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.8950
82584473|NCT05227703|164880755|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.5073|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.5073
82584474|NCT05227703|164880755|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.465|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.4650
82584475|NCT05227703|164880755|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0672|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.0|-0.1|0.0672
82489541|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|5.45||||0.0286|TWO_SIDED|95.0|0.57|10.34|||Cochran-Mantel-Haenszel|||Week 8, Day 56||10.34|0.57|0.0286
82489542|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.71|-6.51|0.8979
82489543|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|4.57||||0.0708|TWO_SIDED|95.0|-0.39|9.52|||Cochran-Mantel-Haenszel|||Week 12, Day 84||9.52|-0.39|0.0708
82489544|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|5.45||||0.0478|TWO_SIDED|95.0|0.05|10.86|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.86|0.05|0.0478
82489545|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.31|-8.31|1.0000
82489546|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2, Day 14||8.31|-8.31|1.0000
82489547|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
82489548|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|4.11||||0.3838|TWO_SIDED|95.0|-5.14|13.36|||Cochran-Mantel-Haenszel|||Week 8, Day 56||13.36|-5.14|0.3838
82489549|NCT02833350|164672041|SUPERIORITY||Adjusted Difference|0.68||||0.9009|TWO_SIDED|95.0|-10.1|11.47|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.47|-10.10|0.9009
82489550|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-2.36||||0.5455|TWO_SIDED|95.0|-7.0|2.27|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.27|-7.00|0.5455
82489551|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-1.97||||0.4114|TWO_SIDED|95.0|-5.3|1.36|||Cochran-Mantel-Haenszel|||Week 1, Day 7||1.36|-5.30|0.4114
82489552|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-2.62||||0.1739|TWO_SIDED|95.0|-5.97|0.72|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.72|-5.97|0.1739
82489553|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-0.94||||0.9761|TWO_SIDED|95.0|-5.93|4.06|||Cochran-Mantel-Haenszel|||Week 2, Week 14||4.06|-5.93|0.9761
82489554|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.18||||0.0998|TWO_SIDED|95.0|-6.78|0.41|||Cochran-Mantel-Haenszel|||Week 2, Week 14||0.41|-6.78|0.0998
82489555|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.97||||0.0239|TWO_SIDED|95.0|-7.54|-0.39|||Cochran-Mantel-Haenszel|||Week 2, Week 14||-0.39|-7.54|0.0239
82489556|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.98||||0.2018|TWO_SIDED|95.0|-9.25|1.3|||Cochran-Mantel-Haenszel|||Week 4, Day 28||1.30|-9.25|0.2018
82489557|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-5.67||||0.0011|TWO_SIDED|95.0|-9.48|-1.87|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.87|-9.48|0.0011
82489558|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-5.27||||0.0026|TWO_SIDED|95.0|-9.06|-1.48|||Cochran-Mantel-Haenszel|||Week 4, Day 28||-1.48|-9.06|0.0026
82489559|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-2.47||||0.6336|TWO_SIDED|95.0|-7.84|2.9|||Cochran-Mantel-Haenszel|||Week 8, Day 56||2.90|-7.84|0.6336
82489560|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.49||||0.095|TWO_SIDED|95.0|-7.38|0.41|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.41|-7.38|0.0950
82489561|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.18||||0.1451|TWO_SIDED|95.0|-7.06|0.71|||Cochran-Mantel-Haenszel|||Week 8, Day 56||0.71|-7.06|0.1451
82561199|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.5|||||TWO_SIDED|95.0|-1.18|2.18|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||2.18|-1.18|
82489562|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.28||||0.3434|TWO_SIDED|95.0|-8.43|1.87|||Cochran-Mantel-Haenszel|||Week 12, Day 84||1.87|-8.43|0.3434
82652035|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-1.9|0.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: ISRs or systemic AEs|PR5I minus INFANRIX™ hexa|0.4|-1.9|
82489563|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-5.45||||0.0016|TWO_SIDED|95.0|-9.23|-1.68|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-1.68|-9.23|0.0016
82489564|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-5.88||||0.0006|TWO_SIDED|95.0|-9.65|-2.1|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-2.10|-9.65|0.0006
82489565|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|4.64||||0.0025|TWO_SIDED|95.0|1.31|7.96|||Cochran-Mantel-Haenszel|||Week 1, Day 7||7.96|1.31|0.0025
82489566|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|3.98||||0.0129|TWO_SIDED|95.0|0.64|7.32|||Cochran-Mantel-Haenszel|||Week 1, Day 7||7.32|0.64|0.0129
82489567|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|4.04||||0.0206|TWO_SIDED|95.0|0.46|7.62|||Cochran-Mantel-Haenszel|||Week 2, Day 14||7.62|0.46|0.0206
82489568|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|3.26||||0.0841|TWO_SIDED|95.0|-0.3|6.82|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.82|-0.30|0.0841
82489569|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|4.67||||0.0088|TWO_SIDED|95.0|0.91|8.42|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.42|0.91|0.0088
82489570|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|5.07||||0.0034|TWO_SIDED|95.0|1.34|8.81|||Cochran-Mantel-Haenszel|||Week 4, Day 28||8.81|1.34|0.0034
82489571|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|4.55||||0.0138|TWO_SIDED|95.0|0.71|8.39|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.39|0.71|0.0138
82489572|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|4.85||||0.0073|TWO_SIDED|95.0|1.02|8.69|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.69|1.02|0.0073
82489573|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|1.29||||0.8284|TWO_SIDED|95.0|-2.46|5.03|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.03|-2.46|0.8284
82489574|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|0.86||||0.9525|TWO_SIDED|95.0|-2.88|4.6|||Cochran-Mantel-Haenszel|||Week 12, Day 84||4.60|-2.88|0.9525
82489575|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-3.22||||0.0856|TWO_SIDED|95.0|-6.91|0.46|||Cochran-Mantel-Haenszel|||Week 1, Day 7||0.46|-6.91|0.0856
82489576|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-2.08||||0.3374|TWO_SIDED|95.0|-6.36|2.2|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.20|-6.36|0.3374
82489577|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-4.24||||0.0534|TWO_SIDED|95.0|-8.53|0.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||0.06|-8.53|0.0534
82489578|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-10.8|||<|0.0001|TWO_SIDED|95.0|-15.33|-6.32|||Cochran-Mantel-Haenszel|||Week 8, Day 56||-6.32|-15.33|<0.0001
82489579|NCT02833350|164672042|SUPERIORITY||Adjusted Difference|-9.22|||<|0.0001|TWO_SIDED|95.0|-13.63|-4.81|||Cochran-Mantel-Haenszel|||Week 12, Day 84||-4.81|-13.63|<0.0001
82489580|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 1, Day 7||6.06|-6.06|1.0000
82489581|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.91||||0.5976|TWO_SIDED|95.0|-2.48|4.3|||Cochran-Mantel-Haenszel|||Week 1, Day 7||4.30|-2.48|0.5976
82489582|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 1, Day 7||2.91|-2.91|1.0000
82489583|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 2, Day 14||6.06|-6.06|1.0000
82489584|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.92|2.92|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.92|-2.92|1.0000
82489585|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-2.91|2.91|||Cochran-Mantel-Haenszel|||Week 2, Day 14||2.91|-2.91|1.0000
82652036|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.3|||||TWO_SIDED|95.0|-1.8|1.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: ISRs or vaccine-related systemic AEs|PR5I minus INFANRIX™ hexa|1.1|-1.8|
82489586|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 4, Day 28||6.06|-6.06|1.0000
82489587|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.91||||0.5726|TWO_SIDED|95.0|-2.26|4.09|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.09|-2.26|0.5726
82489588|NCT02833350|164672043|SUPERIORITY||Mean Difference (Net)|0.91||||0.5976|TWO_SIDED|95.0|-2.47|4.28|||Cochran-Mantel-Haenszel|||Week 4, Day 28||4.28|-2.47|0.5976
82652037|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-2.1|4.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 ISR|PR5I minus INFANRIX™ hexa|4.3|-2.1|
82561200|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.61|||||TWO_SIDED|95.0|-0.85|2.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||2.07|-0.85|
82561201|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|2.1|||||TWO_SIDED|95.0|-2.6|6.79|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||6.79|-2.60|
82561202|NCT00749944|164831931|SUPERIORITY_OR_OTHER||Difference (change from baseline)|1.13|||||TWO_SIDED|95.0|-0.7|2.96|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||2.96|-0.70|
82561203|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.0|||||TWO_SIDED|95.0|-0.26|0.27|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.27|-0.26|
82561204|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.25|0.29|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.29|-0.25|
82584476|NCT05227703|164880755|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.803|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|0.8030
82584477|NCT05227703|164880756|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.8259|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 3-- Emraclidine 15 mg versus Placebo||0.1|-0.1|0.8259
82561205|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.1|||||TWO_SIDED|95.0|-0.37|0.58|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.58|-0.37|
82561206|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-0.17|0.34|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.34|-0.17|
82561207|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.04|||||TWO_SIDED|95.0|-0.4|0.48|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.48|-0.40|
82561208|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.17|||||TWO_SIDED|95.0|-0.44|0.78|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.78|-0.44|
82652038|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-2.4|4.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 solicited ISR|PR5I minus INFANRIX™ hexa|4.3|-2.4|
82561209|NCT00749944|164831932|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.13|||||TWO_SIDED|95.0|-0.14|0.4|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.40|-0.14|
82561210|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.41|||||TWO_SIDED|95.0|-1.09|1.9|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||1.90|-1.09|
82561211|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-1.54|1.71|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||1.71|-1.54|
82561212|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.06|||||TWO_SIDED|95.0|-2.47|2.6|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||2.60|-2.47|
82561213|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.29|||||TWO_SIDED|95.0|-1.57|2.15|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||2.15|-1.57|
82561214|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.94|||||TWO_SIDED|95.0|-2.23|0.36|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.36|-2.23|
82561215|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.74|||||TWO_SIDED|95.0|-2.81|1.33|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||1.33|-2.81|
82561216|NCT00749944|164831935|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.43|||||TWO_SIDED|95.0|-1.78|0.92|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.92|-1.78|
82561217|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.08|||||TWO_SIDED|95.0|-0.04|0.19|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.19|-0.04|
82561218|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.11|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.08|-0.11|
82561219|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.02|||||TWO_SIDED|95.0|-0.06|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.09|-0.06|
82561220|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.11|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.02|-0.11|
82584478|NCT05227703|164880756|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.5936|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.0|-0.1|0.5936
82489589|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-6.06|6.06|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.06|-6.06|1.0000
82489590|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|2.74||||0.1446|TWO_SIDED|95.0|-0.94|6.42|||Cochran-Mantel-Haenszel|||Week 8, Day 56||6.42|-0.94|0.1446
82561221|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.14|||||TWO_SIDED|95.0|-0.27|-0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||-0.01|-0.27|
82561222|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.1|||||TWO_SIDED|95.0|-0.21|0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.01|-0.21|
82561223|NCT00749944|164831936|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.1|||||TWO_SIDED|95.0|-0.17|-0.03|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||-0.03|-0.17|
82561224|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.03|0.12|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.12|-0.03|
82584479|NCT05227703|164880756|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0253|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 15 mg - Placebo|Week 6-- Emraclidine 15 mg versus Placebo||0.1|0.0|0.0253
82586154|NCT05437510|164884201|SUPERIORITY||Efficacy|91.01||||0.006|TWO_SIDED|95.0|38.156|99.791|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||99.791|38.156|0.0060
82489591|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|3.64||||0.105|TWO_SIDED|95.0|-0.76|8.03|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.03|-0.76|0.1050
82489592|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|-0.4||||0.8979|TWO_SIDED|95.0|-6.51|5.71|||Cochran-Mantel-Haenszel|||Week 12, Day 84||5.71|-6.51|0.8979
82561225|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.0|||||TWO_SIDED|95.0|-0.08|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.09|-0.08|
82561226|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.03|||||TWO_SIDED|95.0|-0.04|0.11|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.11|-0.04|
82561227|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.08|0.05|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.05|-0.08|
82561228|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.22|0.06|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.06|-0.22|
82561229|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.03|||||TWO_SIDED|95.0|-0.14|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.09|-0.14|
82561230|NCT00749944|164831937|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.11|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.02|-0.11|
82584480|NCT05227703|164880756|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.271|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|0.0|0.2710
82584481|NCT00112047|164880800|NON_INFERIORITY_OR_EQUIVALENCE|Assuming 70% response rate for each group at Week 48, 500 participants (250 per group) were sufficient to achieve at least 85% power to establish non-inferiority between the 2 study groups with a delta of 13%. The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|11.4||||0.002|TWO_SIDED|95.0|4.3|18.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||18.6|4.3|0.002
82584482|NCT00112047|164880801|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|9.1||||0.021|TWO_SIDED|95.0|1.6|16.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 48 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||16.6|1.6|0.021
82584483|NCT00112047|164880802|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|11.2||||0.004|TWO_SIDED|95.0|3.7|18.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made||Null hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 48 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 48 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||18.6|3.7|0.004
82584484|NCT00112047|164880803|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|7.9||||0.058|TWO_SIDED|95.0|0.1|15.6||The difference and 95% CI are stratum-weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 48 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 48 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||15.6|0.1|0.058
82584485|NCT00112047|164880804|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is equal between the two treatment groups. Alternative hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is different between the two treatment groups.||||0.003
82584486|NCT00112047|164880805|SUPERIORITY_OR_OTHER|||||||0.046||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is equal between the two treatment groups. Alternative hypothesis: The percentage of participants with Loss of Virologic Response through Week 48 is different between the two treatment groups.||||0.046
82584487|NCT00112047|164880806|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 48 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 48 is different between the 2 treatment groups.||||0.026
82489593|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|3.65||||0.127|TWO_SIDED|95.0|-1.04|8.35|||Cochran-Mantel-Haenszel|||Week 12, Day 84||8.35|-1.04|0.1270
82489594|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|5.45||||0.0501|TWO_SIDED|95.0|0.0|10.91|||Cochran-Mantel-Haenszel|||Week 12, Day 84||10.91|-0.00|0.0501
82489595|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 1, Day 7||8.31|-8.31|1.0000
82489596|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 2, Day 14||8.31|-8.31|1.0000
82489597|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|2.05||||0.6564|TWO_SIDED|95.0|-7.0|11.11|||Cochran-Mantel-Haenszel|||Week 4, Day 28||11.11|-7.00|0.6564
82489598|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.0||||1|TWO_SIDED|95.0|-8.31|8.31|||Cochran-Mantel-Haenszel|||Week 8, Day 56||8.31|-8.31|1.0000
82489599|NCT02833350|164672043|SUPERIORITY||Adjusted Difference|0.68||||0.9051|TWO_SIDED|95.0|-10.58|11.95|||Cochran-Mantel-Haenszel|||Week 12, Day 84||11.95|-10.58|0.9051
82489600|NCT01188421|164672069|SUPERIORITY||F-value for main effect of Group|1.31||||0.275|TWO_SIDED|||||Main effect of Group (e.g., Buprenorphine, Tramadol, Clonidine) on COWS Total Score Ratings|ANOVA|||A power analysis determined 40 participants in each group would detect a moderate effect size, assuming an alpha of 0.05 and 80% power. Due to the expiration of buprenorphine tablets, recruitment was terminated after enrolling 103 participants. This study utilized an Intent-to-Treat (ITT) analysis. The ITT analysis includes all volunteers who signed informed consent, were randomized into the study's treatment conditions, and took at least 1 dose of study medication.||||.275
82489601|NCT01188421|164672069|SUPERIORITY||F-value for main effect of Phase|3.57||||0.03|TWO_SIDED|||||Main effect for Phase (e.g., Stabilization, Taper, Post-Taper) on COWS total score.|ANOVA|||||||0.03
82489602|NCT01188421|164672069|SUPERIORITY||F-value for the main effect of Group x P|2.03||||0.092|TWO_SIDED|||||Main effect for Group x Phase interaction on COWS Total Score|ANOVA|||||||0.092
82489603|NCT01604408|164672074|SUPERIORITY_OR_OTHER||LS Mean Difference|0.426|||<|0.001|TWO_SIDED|95.0|0.192|0.66|||Mixed Model Repeated Measures|||||0.660|0.192|<0.001
82489604|NCT01604408|164672075|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.461||||0.073|TWO_SIDED|90.0|-0.883|-0.039|||Mixed Model Repeated Measures|||||-0.039|-0.883|0.073
82489605|NCT01604408|164672076|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.062||||0.191|TWO_SIDED|90.0|-2.4|0.276|||Mixed Model Repeated Measures|||||0.276|-2.400|0.191
82561231|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.06|||||TWO_SIDED|95.0|-0.2|0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.09|-0.20|
82584488|NCT00112047|164880807|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) through Week 48 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) through Week 48 for the EFV+FTC+TDF and CBV+EFV groups are different.||||0.063
82489606|NCT01604408|164672077|SUPERIORITY_OR_OTHER||LS Mean Difference|0.017||||0.478|TWO_SIDED|90.0|-0.023|0.057|||Mixed Model Repeated Measures|||||0.057|-0.023|0.478
82489607|NCT00216476|164672082|SUPERIORITY_OR_OTHER||||||<|0.0001||||||threshold for significance: 0.05 (2-sided)|Log Rank|||Null hypothesis was that there is no difference in treatment effect between risperidone LAI and quetiapine by mean relapse free period; given a estimated relapse rate of 30% for risperidone LAI and 42% for quetiapine, with 80% power and 5% 2-tailed significance level, 251 subjects were needed per treatment arm. To adjust for an estimated 20% discontinuations for reasons other than relapse, 628 subjects in total were needed. Actual relapse rates were 17% (risperidone LAI) and 31% (quetiapine).||||<0.0001
82489608|NCT00216476|164672084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the Last Observation Carried Forward (LOCF) principle, i.e., it was defined as the last available visit during the study with non-missing data for a parameter (excluding the baseline value).||||<0.0001
82561232|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.15|0.12|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.12|-0.15|
82652039|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-2.4|0.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 systemic AE|PR5I minus INFANRIX™ hexa|0.3|-2.4|
82489609|NCT00216476|164672084|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489610|NCT00216476|164672084|SUPERIORITY_OR_OTHER|||||||0.1026|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in total PANSS score. The endpoint of the study was based on the LOCF principle.||||0.1026
82489611|NCT00216476|164672085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489612|NCT00216476|164672085|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489613|NCT00216476|164672085|SUPERIORITY_OR_OTHER|||||||0.0446|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in CGI-S score. The endpoint of the study was based on the LOCF principle.||||0.0446
82561233|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.15|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.04|-0.15|
82489614|NCT00216476|164672086|SUPERIORITY_OR_OTHER|||||||0.0941|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||0.0941
82652040|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-3.2|1.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 vaccine-related systemic AE|PR5I minus INFANRIX™ hexa|1.3|-3.2|
82561234|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.08|||||TWO_SIDED|95.0|-0.2|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.04|-0.20|
82561235|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.17|0.27|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.27|-0.17|
82561236|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.21|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|-0.21|
82561237|NCT00749944|164831938|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.05|||||TWO_SIDED|95.0|-0.17|0.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.07|-0.17|
82561238|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.3|||||TWO_SIDED|95.0|-0.58|-0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||-0.02|-0.58|
82561239|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.44|||||TWO_SIDED|95.0|-0.69|-0.19|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||-0.19|-0.69|
82561240|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.14|||||TWO_SIDED|95.0|-0.47|0.2|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.20|-0.47|
82561241|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.35|||||TWO_SIDED|95.0|-0.61|-0.09|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||-0.09|-0.61|
82561242|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.45|||||TWO_SIDED|95.0|-0.83|-0.07|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||-0.07|-0.83|
82561243|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.08|||||TWO_SIDED|95.0|-0.5|0.34|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.34|-0.50|
82561244|NCT00749944|164831939|SUPERIORITY_OR_OTHER||Difference (change from baseline|-0.27|||||TWO_SIDED|95.0|-0.57|0.02|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.02|-0.57|
82561245|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.12|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.08|-0.12|
82561246|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.12|0.08|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.08|-0.12|
82561247|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.05|||||TWO_SIDED|95.0|-0.04|0.14|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.14|-0.04|
82489615|NCT00216476|164672086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489616|NCT00216476|164672086|SUPERIORITY_OR_OTHER|||||||0.1146|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in PCS score. The endpoint of the study was based on the LOCF principle.||||0.1146
82561248|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.07|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.04|-0.07|
82561249|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.01|||||TWO_SIDED|95.0|-0.15|0.13|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.13|-0.15|
82561250|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.06|||||TWO_SIDED|95.0|0.01|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|0.01|
82561251|NCT00749944|164831940|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.08|0.04|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||0.04|-0.08|
82489617|NCT00216476|164672086|SUPERIORITY_OR_OTHER|||||||0.5589|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon (Mann-Whitney)|||Between-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||0.5589
82489618|NCT00216476|164672086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489619|NCT00216476|164672086|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The statistical test was interpreted at the 5% significance level.|Wilcoxon signed-rank test|||Within-group comparison of the change from baseline to endpoint in MCS score. The endpoint of the study was based on the LOCF principle.||||<0.0001
82489620|NCT00694707|164672135|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.5||||0.0005|TWO_SIDED|95.0|-11.8|-3.3|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-3.3|-11.8|0.0005
82489621|NCT00694707|164672135|SUPERIORITY_OR_OTHER||Least squares mean difference|-8.8|||<|0.0001|TWO_SIDED|95.0|-13.1|-4.6|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-4.6|-13.1|<0.0001
82489622|NCT00694707|164672135|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.4|||<|0.0001|TWO_SIDED|95.0|-14.6|-6.2|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-6.2|-14.6|<0.0001
82489623|NCT00694707|164672135|SUPERIORITY_OR_OTHER||Least squares mean difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.4|-10.8|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline PANSS total score as the covariate.||||-10.8|-19.4|<0.0001
82489624|NCT00694707|164672136|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.4||||0.004|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.1|-0.6|0.0040
82489625|NCT00694707|164672136|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.5||||0.0003|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.2|-0.7|0.0003
82489626|NCT00694707|164672136|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.4|-0.9|<0.0001
82489627|NCT00694707|164672136|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||ANCOVA|The analysis of covariance (ANCOVA) included treatment group and study center as factors and the Baseline CGI-S score as the covariate.||||-0.6|-1.1|<0.0001
82489628|NCT01904058|164672158|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.28||||0.6603|TWO_SIDED|95.0|-12.59|8.03||p-value (LUM001 LS Mean = Placebo LS Mean).|ANCOVA|||The difference between treatment groups in change from Baseline to Week 13/ET in ItchRO weekly sum score evaluated by analysis of covariance (ANCOVA) using generalized linear model (GLM). The model included terms for treatment group, alkaline phosphatase (ALP) level (strata), treatment group by ALP level interaction and Baseline ItchRO weekly sum score as a covariate. Least squares mean change from Baseline to Week 13/ET, along with 95 percentage (%) confidence interval for mean were presented.||8.03|-12.59|0.6603
82489629|NCT01904058|164672158|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.99||||0.438|TWO_SIDED|95.0|-14.2|6.23||p-value (LUM001 LS Mean = Placebo LS Mean).|ANCOVA|||The difference between treatment groups in change from Baseline to Week 13/ET in ItchRO weekly sum score was evaluated by ANCOVA using a GLM. The model included terms for treatment group, ALP level (strata), treatment group by ALP level interaction, and Baseline ItchRO weekly sum score as a covariate. Least squares mean change from Baseline to Week 13/ET, along with 95% confidence interval for the mean, were presented.||6.23|-14.20|0.4380
82489630|NCT02664610|164672178|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
82489631|NCT02664610|164672179|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||||||0.79
82489632|NCT04981392|164672232|SUPERIORITY||Cox Proportional Hazard|0.49|STANDARD_ERROR_OF_MEAN|0.18||0.0066|TWO_SIDED||||||Difference in adjusted % vaccinated|||||||0.0066
82489633|NCT04981392|164672233|SUPERIORITY||Cox Proportional Hazard|0.83|STANDARD_ERROR_OF_MEAN|0.3||0.0058|TWO_SIDED||||||Difference in adjusted % vaccinated|||||||0.0058
82489634|NCT03072732|164672234|NON_INFERIORITY|The µ-Cor System will be considered non-inferior with respect to clinical performance (i.e., trends in fluid change) of the ZOE device if the lower 95% confidence interval of the differences (Primary Measurement) is greater than the non-inferiority margin of -0.05.|Mean Difference (Final Values)|0.66|||||TWO_SIDED|95.0|0.57|0.75|||||"Because the distribution was skewed, the average was calculated by 1) Fisher Transformation of values, 2) averaging the transformed values, 3) back calculating the mean.~The Taylor Series expansion and Delta method was used to determine variance."|"The null hypothesis was that the correlation coefficient of the ZOE device would be greater than the correlation coefficient of the uCor device by at least 0.05.~For each subject, a correlation coefficient was calculated between study arm 1 uCor readings and UFV, as well as ZOE readings and UFV.~The difference between uCor correlation coefficient and ZOE correlation coefficient for each subject was used as the Primary Measurement."||0.75|0.57|
82489635|NCT03072732|164672234|NON_INFERIORITY|The µ-Cor System will be considered non-inferior with respect to clinical performance (i.e., trends in fluid change) of the ZOE device if the lower 95% confidence interval of the differences (Primary Measurement) is greater than the non-inferiority margin of -0.05.|Mean Difference (Final Values)|0.23|||||TWO_SIDED|95.0|0.12|0.35|||||"Because the distribution was skewed, the average was calculated by 1) Fisher Transformation of values, 2) averaging the transformed values, 3) back calculating the mean.~The Taylor Series expansion and Delta method was used to determine variance."|"The null hypothesis was that the correlation coefficient of the ZOE device would be greater than the correlation coefficient of the uCor device by at least 0.05.~For each subject, a correlation coefficient was calculated between study arm 2 uCor readings and UFV, as well as ZOE readings and UFV.~The difference between uCor correlation coefficient and ZOE correlation coefficient for each subject was used as the Primary Measurement."||0.35|0.12|
82489636|NCT02387710|164672239|OTHER||||||>|0.5|||||||Wilcoxon (Mann-Whitney)|||||||>0.5
82584489|NCT00112047|164880808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.31|TWO_SIDED|95.0|-0.16|0.06||The change from baseline to Week 48 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum-weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.06|-0.16|0.31
82584490|NCT00112047|164880809|SUPERIORITY_OR_OTHER||stratum-weighted difference|31.74||||0.002||95.0|8.96|54.52||The change from baseline to Week 48 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 48 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 48 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||54.52|8.96|0.002
82584491|NCT00112047|164880810|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in percentages|12.7||||0.004|TWO_SIDED|95.0|4.3|21.1||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||21.1|4.3|0.004
82584492|NCT00112047|164880811|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|6.4||||0.158|TWO_SIDED|95.0|-2.3|15.0||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the percentage of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the percentage of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 96 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||15.0|-2.3|0.158
82584493|NCT00112047|164880812|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: Ther percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.003
82584494|NCT00112047|164880813|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||The distribution of time to loss-of-virologic response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.124
82584495|NCT00112047|164880814|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 96 is different between the 2 treatment groups.||||0.025
82584496|NCT00112047|164880815|SUPERIORITY_OR_OTHER|||||||0.41||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with pure virological failure (HIV-1 RNA \< 50 c/mL) through Week 96 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.41
82584497|NCT00112047|164880816|SUPERIORITY_OR_OTHER||stratum-weighted difference|-0.05||||0.45||95.0|-0.17|0.08||The change from baseline to Week 96 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 96 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 96 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.08|-0.17|0.45
82584498|NCT00112047|164880817|SUPERIORITY_OR_OTHER||stratum-weighted difference|32.93||||0.036||95.0|0.87|64.99||The change from baseline to Week 96 in CD4 cell count was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made.||Null Hypothesis: Changes from baseline through Week 96 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline through Week 96 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||64.99|0.87|0.036
82584499|NCT00112047|164880818|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The change from Week 48 to Week 96 in limb fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum Test|No other adjustments were made.||Null Hypothesis: Change from Week 48 to Week 96 in limb fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Change from Week 48 to Week 96 in limb fat for the EFV+FTC+TDF and CBV+EFV groups are not equal||||<0.001
82584500|NCT00112047|164880819|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The change from Week 48 to Week 96 in trunk fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum test|No other adjustments were made.||Null Hypothesis: Changes from Week 48 to Week 96 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 to Week 96 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.025
82584501|NCT00112047|164880820|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The change from Week 48 to Week 96 in trunk fat was compared between the 2 treatment groups; the P-value is from the Wilcoxon Rank Sum Test.|Wilcoxon Rank Sum test|No other adjustments were made.||Null Hypothesis: Changes from Week 48 to Week 96 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 to Week 96 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||<0.001
82584502|NCT00112047|164880821|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|12.9||||0.004|TWO_SIDED|95.0|4.2|21.6||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenzel test.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the proportion of responders (who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the proportion of responders who achieved and maintained confirmed HIV-1 RNA \< 400 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||21.6|4.2|0.004
82584503|NCT00112047|164880822|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|8.1||||0.082|TWO_SIDED|95.0|-0.8|17.0||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from the Cochran-Mantel-Haenszel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||"Null Hypothesis: the proportion of responders (who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is more than 13% worse than in the CBV+EFV group.~Alternative Hypothesis: the proportion of responders who achieved and maintained confirmed HIV-1 RNA \< 50 c/mL \[defined by the TLOVR algorithm\]) through Week 144 in the EFV+FTC+TDF group is no more than 13% worse than in the CBV+EFV group."||17.0|-0.8|0.082
82584504|NCT00112047|164880823|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|11.6||||0.009||95.0|3.1|20.1||The difference and 95% CI are stratum weighted on baseline CD4 using normal approximation. The p-value for the superiority test is from Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null Hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 144 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 400 c/mL at Week 144 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||20.1|3.1|0.009
82584505|NCT00112047|164880824|NON_INFERIORITY_OR_EQUIVALENCE|The definition of clinical non-inferiority used a 'delta' of 0.13 (response rate was expressed as a decimal-valued number between 0 and 1). The EFV+FTC+TDF group was declared non-inferior to the CBV+EFV group if the lower confidence bound was \> -0.13.|Difference in proportions|10.4||||0.019|TWO_SIDED|95.0|1.8|19.0||The p-value for the superiority test is from Cochran-Mantel-Haenzel test stratified on baseline CD4 cell count.|Cochran-Mantel-Haenszel|No other adjustments were made.||Null hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 144 in the EFV+FTC+TDF group is more than 13% worse than the CBV+EFV group. Alternative hypothesis: The percentage of participants with HIV-1 RNA \< 50 c/mL at Week 144 in the EFV+FTC+TDF group is no more than 13% worse than the CBV+EFV group.||19.0|1.8|0.019
82584506|NCT00112047|164880825|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||The distribution of loss of virological response was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 400 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.003
82584507|NCT00112047|164880826|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative Hypothesis: The percentage of participants with loss of virologic response (confirmed HIV-1 RNA \< 50 c/mL) through Week 144 for the EFV+FTC+TDF and CBV+EFV groups are different||||0.056
82376774|NCT03888066|164459898|SUPERIORITY||Win Ratio|1.248|||=|0.048|TWO_SIDED|95.0|1.003|1.564|||Win Ratio|||"Win ratio for composite.~Win ratio approach: Patients in the new treatment and control groups are formed into matched pairs based on their risk profiles. For each matched pair, the new treatment patient is labelled winner/loser depending on CV/hyperkalemia event first. The win ratio is the total number of winners divided by the total numbers of losers. Unmatched win ratio is presented for this endpoint. Win ratio above 1 favors patiromer."||1.564|1.003|= 0.048
82489637|NCT00810693|164672246|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Prespecified significance level for all significance tests was 5%. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew/died before 12 weeks were imputed with worst value of 0m in case of death or clinical worsening without termination visit and with last observed value otherwise. Comparison was done using ANCOVA, with baseline 6MWD as a covariate and treatment group, region and treatment naive/add-on therapy as main effects. The primary statistical method was the stratified Wilcoxon test if the Shapiro-Wilk test for normality of residuals was statistically significant||||<0.0001
82489638|NCT00810693|164672246|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|35.78|||<|0.0001|TWO_SIDED|95.0|20.06|51.51||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||51.51|20.06|<0.0001
82489639|NCT00810693|164672246|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82489640|NCT00810693|164672247|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, TTCW, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values at week 12 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
82489641|NCT00810693|164672247|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-225.72|||<|0.0001|TWO_SIDED|95.0|-281.37|-170.08||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-170.08|-281.37|<0.0001
82489642|NCT00810693|164672247|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82489643|NCT00810693|164672248|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||"Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.~Primary analysis due to result of Shapiro-Wilk test."|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values at week 12 were imputed using the last available post-baseline observation. Same analysis method as for primary efficacy parameter.||||<0.0001
82489644|NCT00810693|164672248|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-431.81||||0.0157|TWO_SIDED|95.0|-781.52|-82.1||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-82.10|-781.52|0.0157
82489645|NCT00810693|164672248|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82489646|NCT00810693|164672249|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0033||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of IV in case of clinical worsening without termination visit or measurement at that termination visit and with a worst value of V in case of death and with the last observed value otherwise.||||0.0033
82489647|NCT00810693|164672250|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.2||||0.0046|TWO_SIDED|95.0|-9.85|-0.55||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Log Rank|Test was stratified by region and therapy naive/add-on therapy|Based on Mantel-Haenszel estimate stratified by region and therapy naive/add-on therapy.|"The test is for difference of occurence of Any event."||-0.55|-9.85|0.0046
82489648|NCT00810693|164672251|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0022||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy||Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of 10 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0022
82489649|NCT00810693|164672252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0663||||||Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO functional class, Time to clinical worsening, Borg scale, EQ5D, LPH. Primary analysis due to result of Shapiro-Wilk test.|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy.||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of -0.594 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0663
82489650|NCT00810693|164672252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06||||0.0197|TWO_SIDED|95.0|0.01|0.11||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||0.11|0.01|0.0197
82376941|NCT01297985|164460818|SUPERIORITY||MIXREG Estimate|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this first model included depressive symptoms as moderator||"We tested 3 moderating variables: BSI depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes depressive symptoms as the moderator (High depressive symptoms X time X study condition)"||||0.01
82489651|NCT00810693|164672252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82561252|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|0.12|||||TWO_SIDED|95.0|-0.05|0.28|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo.||0.28|-0.05|
82561253|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.02|||||TWO_SIDED|95.0|-0.19|0.14|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AC: Difference varenicline versus placebo.||0.14|-0.19|
82561254|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.04|||||TWO_SIDED|95.0|-0.29|0.22|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AD: Difference varenicline versus placebo.||0.22|-0.29|
82489652|NCT00810693|164672253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019||||||"Hierarchical testing for secondary efficacy parameters in the order: PVR, NT-proBNP, WHO FC, TTCW, Borg scale, EQ5D, LPH.~Primary analysis due to result of Shapiro-Wilk test. Nominally significant only due to hierarchical testing."|Wilcoxon (Mann-Whitney)|Test was stratified by region and therapy naive/add-on therapy.||Missing values at baseline were imputed using last available observation prior to start of study treatment. Missing values for participants who withdrew or died before 12 weeks were imputed with a worst value of 105 in case of death or clinical worsening without termination visit and with the last observed value otherwise.||||0.0019
82489653|NCT00810693|164672253|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.17||||0.0009|TWO_SIDED|95.0|-9.79|-2.54||Additional analysis due to result of Shapiro-Wilk test.|ANCOVA|||||-2.54|-9.79|0.0009
82561255|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.04|||||TWO_SIDED|95.0|-0.2|0.13|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period AE: Difference varenicline versus placebo.||0.13|-0.20|
82561256|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.19|||||TWO_SIDED|95.0|-0.4|0.01|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BC: Difference varenicline versus placebo.||0.01|-0.40|
82561257|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.16|||||TWO_SIDED|95.0|-0.42|0.1|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BD: Difference varenicline versus placebo.||0.10|-0.42|
82561258|NCT00749944|164831941|SUPERIORITY_OR_OTHER||Difference (change from baseline)|-0.07|||||TWO_SIDED|95.0|-0.22|8.0|||||Mixed Models Analysis included baseline, treatment (fixed effect), subject (random effect), week (fixed effect), and interaction of treatment-by-week.|Period BE: Difference varenicline versus placebo.||008|-0.22|
82561259|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.6|3.3|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.3|0.6|
82561260|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.7|0.4|
82561261|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.1|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.1|0.4|
82561262|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.2|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.2|0.4|
82561263|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
82652041|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.5|||||TWO_SIDED|95.0|-3.3|0.2|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 solicited systemic AE|PR5I minus INFANRIX™ hexa|0.2|-3.3|
82489654|NCT00810693|164672253|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Shapiro-Wilk|||Shapiro-Wilk test for normality of ANCOVA residuals.||||0.0001
82561264|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
82561265|NCT00749944|164831942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.3|1.4|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.4|0.3|
82561266|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|0.6|10.4|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||10.4|0.6|
82561267|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||||TWO_SIDED|95.0|0.7|11.8|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||11.8|0.7|
82561268|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.5|3.9|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.9|0.5|
82561269|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.4|7.8|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||7.8|0.4|
82561270|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2|||||TWO_SIDED|95.0|0.5|9.2|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||9.2|0.5|
82561271|NCT00749944|164831943|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.4|3.2|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.2|0.4|
82561272|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.5|3.9|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.9|0.5|
82561273|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|0.7|5.3|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.3|0.7|
82489655|NCT02345226|164672263|NON_INFERIORITY|A sample size of 400 HIV-1 infected participants per treatment group would provide 95% power to detect a non-inferiority margin of 8% in the Week 48 response rate difference between the FTC/RPV/TAF group and EFV/FTC/TDF group. For sample size and power computation, it is assumed that both treatment groups will have a response rate of 89% (based on Gilead Study GS-US-292-0109), that a noninferiority margin is 8%, and that the significance level of the test is at a one-sided alpha level of 0.025.|Difference in Percentages|-2.0|||||TWO_SIDED|95.001|-5.9|1.8|||||The difference in percentages and its 95.001% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in the FTC/RPV/TAF group was at least 8% lower than the rate in the EFV/FTC/TDF group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL in the FTC/RPV/TAF group was less than 8% lower than that in the EFV/FTC/TDF group.||1.8|-5.9|
82489656|NCT02345226|164672263|SUPERIORITY|||||||0.35|||||||Fisher Exact|||||||0.35
82489657|NCT01848704|164672275|SUPERIORITY||Mean Difference (Final Values)|0.71||||0.03|TWO_SIDED|95.0|0.07|1.35|||Mixed Models Analysis|||||1.35|0.07|0.03
82489658|NCT01848704|164672276|SUPERIORITY||Mean Difference (Final Values)|-0.59||||0.03|TWO_SIDED|95.0|-1.13|-0.05|||Mixed Models Analysis|||||-0.05|-1.13|0.03
82489659|NCT01848704|164672277|SUPERIORITY||Mean Difference (Final Values)|-0.38||||0.18|TWO_SIDED|95.0|-0.95|0.19|||Mixed Models Analysis|||||0.19|-0.95|0.18
82489660|NCT01848704|164672278|SUPERIORITY||Mean Difference (Final Values)|0.77||||0.029|TWO_SIDED|95.0|0.08|1.47|||Mixed Models Analysis|||||1.47|0.08|0.029
82489661|NCT01848704|164672279|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.061|TWO_SIDED|95.0|-0.03|1.31|||Mixed Models Analysis|||||1.31|-0.03|0.061
82489662|NCT01033851|164672326|SUPERIORITY_OR_OTHER|||||||0.0366||95.0|||||ANOVA|||A repeated measure ANOVA, with time as the repeated measure, treatment arm as between-subjects factor and CGI-S score as the dependent variable, found a main effect of time (F(1,84)=62.19, p\<0.001) and a significant treatment arm X time interaction (F(1,84)=4.51, p=0.0366).||||0.0366
82489663|NCT03329508|164672340|SUPERIORITY||Differences of Least Square Means|-2.66|STANDARD_ERROR_OF_MEAN|0.85||0.0018|TWO_SIDED|95.0|-4.33|-1.0|||MMRM|||||-1.0|-4.33|0.0018
82489664|NCT03329508|164672340|SUPERIORITY||Mean Difference (Net)|-3.3|STANDARD_ERROR_OF_MEAN|0.85||0.0001|TWO_SIDED|95.0|-4.96|-1.63|||MMRM|||||-1.63|-4.96|0.0001
82489665|NCT03329508|164672341|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|TWO_SIDED|95.0|-3.5|-1.81|||MMRM|||||-1.81|-3.50|<0.0001
82489666|NCT03329508|164672341|SUPERIORITY||Mean Difference (Final Values)|-2.66|STANDARD_ERROR_OF_MEAN|0.43|<|0.05|TWO_SIDED|95.0|-3.5|-1.81|||MMRM|||||-1.81|-3.50|<0.05
82489667|NCT03329508|164672342|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.67||0.0231|TWO_SIDED|95.0|-2.84|-0.21|||MMRM|||||-0.21|-2.84|0.0231
82584508|NCT00112047|164880827|SUPERIORITY_OR_OTHER|||||||0.066||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 144 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 400 c/mL) at Week 144 is different between the 2 treatment groups||||0.066
82652042|NCT01341639|165019370|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.3|||||TWO_SIDED|95.0|-3.7|1.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: At least 1 vaccine-related solicited systemic AE|PR5I minus INFANRIX™ hexa|1.1|-3.7|
82489668|NCT03329508|164672342|SUPERIORITY||Mean Difference (Net)|-1.75|STANDARD_ERROR_OF_MEAN|0.67||0.0092|TWO_SIDED|95.0|-3.06|-0.43|||MMRM|||||-0.43|-3.06|0.0092
82489669|NCT03329508|164672343|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.31||0.0001|TWO_SIDED|95.0|-1.77|-0.57|||MMRM|||||-0.57|-1.77|0.0001
82489670|NCT03329508|164672343|SUPERIORITY||Mean Difference (Net)|-1.52|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.13|-0.92|||MMRM|||||-0.92|-2.13|<0.0001
82489671|NCT03329508|164672344|SUPERIORITY||Mean Difference (Net)|-2.18|STANDARD_ERROR_OF_MEAN|1.54||0.1589|TWO_SIDED|95.0|-5.21|0.85|||MMRM|||||0.85|-5.21|0.1589
82489672|NCT02959983|164672349|SUPERIORITY|||||||0.0022|||||||Chi-squared|||Overall Weeks 1-12||||0.0022
82489673|NCT02959983|164672350|SUPERIORITY|||||||0.0119|||||||Chi-squared|||Overall Weeks 1 to 12||||0.0119
82489674|NCT02959983|164672350|SUPERIORITY|||||||0.0048|||||||Chi-squared|||Weeks 1 to 4||||0.0048
82489675|NCT02959983|164672350|SUPERIORITY|||||||0.0207|||||||Chi-squared|||Weeks 5 to 8||||0.0207
82489676|NCT02959983|164672350|SUPERIORITY|||||||0.37|||||||Chi-squared|||Weeks 9 to 12||||0.3700
82489677|NCT02959983|164672351|SUPERIORITY|||||||0.0174|||||||Chi-squared|||Overall Weeks 1 to 12||||0.0174
82489678|NCT02959983|164672351|SUPERIORITY|||||||0.3832|||||||Chi-squared|||Weeks 1 to 4||||0.3832
82489679|NCT02959983|164672351|SUPERIORITY|||||||0.0052|||||||Chi-squared|||Weeks 5 to 8||||0.0052
82489680|NCT02959983|164672351|SUPERIORITY|||||||0.0619|||||||Chi-squared|||Weeks 9 to 12||||0.0619
82489681|NCT02959983|164672352|SUPERIORITY|||||||0.033|||||||Chi-squared|||Weeks 1-4||||0.0330
82489682|NCT02959983|164672352|SUPERIORITY|||||||0.0063|||||||Chi-squared|||Weeks 5 to 8||||0.0063
82489683|NCT02959983|164672352|SUPERIORITY|||||||0.0018|||||||Chi-squared|||Weeks 9 to 12||||0.0018
82489684|NCT01254630|164672353|SUPERIORITY||Vaccine Efficacy|0.636|||||TWO_SIDED|97.5|0.364|0.791|||||Point estimate and 97.5% CI of vaccine efficacy (primary endpoint) were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 97.5% Confidence Interval (CI) be \>0.25.||0.791|0.364|
82489685|NCT01254630|164672354|OTHER||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-1.8|4.5||||||||4.5|-1.8|
82489686|NCT01254630|164672355|OTHER||Vaccine Efficacy|0.771|||||TWO_SIDED|95.0|0.48|0.899|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.899|0.480|
82584509|NCT00112047|164880828|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||The distribution of pure virological failure was estimated using the Kaplan-Meier product limit method and compared between treatment groups using a baseline CD4 stratum-weighted log-rank test.|Log Rank|No other adjustments were made.||Null Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) at Week 144 is equal for the 2 treatment groups. Alternative Hypothesis: The percentage of participants with pure virological failure (confirmed HIV-1 RNA \< 50 c/mL) at Week 144 is different between the 2 treatment groups||||0.30
82584510|NCT00112047|164880829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.39|TWO_SIDED|95.0|-0.16|0.08||The change from baseline to Week 144 in HIV-1 RNA was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from a stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made||Null Hypothesis: Changes from baseline to Week 144 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline to Week 144 in plasma HIV-1 RNA for the EFV+FTC+TDF and CBV+EFV groups are different.||0.08|-0.16|0.39
82584511|NCT00112047|164880830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|41.3||||0.089|TWO_SIDED|95.0|4.05|78.55||The change from baseline to Week 144 in CD4 cell count was compared between the 2 treatment groups using baseline CD4 stratum-weighted CI around the mean difference. P-value is from a stratum weighted Van Elteren test.|Van Elteren|No other adjustments were made||Null Hypothesis: Changes from baseline toWeek 144 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from baseline to Week 144 in CD4 cell count for the EFV+FTC+TDF and CBV+EFV groups are different.||78.55|4.05|0.089
82584512|NCT00112047|164880831|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Limb Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Limb Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.001
82584513|NCT00112047|164880832|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Trunk Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||0.011
82584514|NCT00112047|164880833|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is from the Wilcoxon Rank Sum Test|Wilcoxon Rank Sum test|No other adjustments were made||Null Hypothesis: Changes from Week 48 baseline to Week 144 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are equal. Alternative hypothesis: Changes from Week 48 baseline to Week 144 in Total Body Fat for the EFV+FTC+TDF and CBV+EFV groups are different||||<0.001
82652043|NCT01341639|165019371|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|4.8|||||TWO_SIDED|95.0|-0.5|10.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site erythema|PR5I minus INFANRIX™ hexa|10.1|-0.5|
82376974|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test. Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|3.86||||0.041|TWO_SIDED|95.0|1.06|14.06|||t-test, 2 sided|||Association of caffeine consumption and postoperative headache||14.06|1.06|0.041
82584515|NCT00112047|164880843|SUPERIORITY_OR_OTHER|||||||0.16||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) limb fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) limb fat value is not equal to zero.||||0.16
82584516|NCT00112047|164880844|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) trunk fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) trunk fat value is not equal to zero.||||0.049
82584517|NCT00112047|164880845|SUPERIORITY_OR_OTHER|||||||0.055||95.0||||P-value is from the Wilcoxon Signed Rank test. No adjustments for multiple comparisons were made|Wilcoxon Signed Rank test|||Null Hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) total body fat value is equal to zero. Alternative hypothesis: Change from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96) total body fat value is not equal to zero.||||0.055
82584518|NCT00112047|164880846|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||<0.001
82584519|NCT00112047|164880847|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.12
82652044|NCT01341639|165019371|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.8|||||TWO_SIDED|95.0|-3.2|6.8|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site pain|PR5I minus INFANRIX™ hexa|6.8|-3.2|
82652045|NCT01341639|165019371|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-1.6|9.6|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site swelling|PR5I minus INFANRIX™ hexa|9.6|-1.6|
82652046|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-1.8|2.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site bruising|PR5I minus INFANRIX™ hexa|2.1|-1.8|
82584520|NCT00112047|164880848|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.037
82584521|NCT00112047|164880849|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||"The number and proportion of participants in each category (very satisfied, not very satisfied) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.013
82584522|NCT00112047|164880850|SUPERIORITY_OR_OTHER|||||||0.7||95.0||||"The number and proportion of participants in each category (bothers, does not bother) were summarized. The P-value for the category shift from Week 144 baseline within a treatment group was calculated using the McNemar test."|McNemar|||Null Hypothesis: There is no category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a category shift from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.70
82584523|NCT00112047|164880851|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||P-value is from the Wilcoxon Signed Rank Test.|Wilcoxon Signed Rank Test|||Null Hypothesis: There is no change in the PCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a change in the PCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.95
82584524|NCT00112047|164880852|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||P-value is from the Wilcoxon Signed Rank Test|Wilcoxon Signed Rank Test|||Null Hypothesis: There is no change in the MCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96). Alternative Hypothesis: There is a change in the MCS score from Week 144 (Atripla baseline) to Week 240 (Atripla Week 96).||||0.23
82584525|NCT03727438|164880862|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|-3.7|||<|0.01|TWO_SIDED|95.0|-5.0|-2.4||alpha=.05|Mixed Models Analysis|Model parameters included a common intercept (baseline means constrained to be equal), stratification variables, timepoint, and arm by timepoint.||"Analyses were conducted according to the intention-to-treat principle. All available data, including observations from participants who dropped out of the study, were used for primary and secondary analyses. Our modeling estimation approach was conducted with full-likelihood methods, providing unbiased treatment effect estimates under a missing-data framework known as missing at random (MAR)."||-2.4|-5.0|<0.01
82584526|NCT03727438|164880863|EQUIVALENCE|alpha= .05|Mean Difference (Final Values)|-19.6|||<|0.01|TWO_SIDED|95.0|-26.7|-12.5||alpha = 0.05|Mixed Models Analysis|||||-12.5|-26.7|<0.01
82584527|NCT03727438|164880864|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|-20.6|||<|0.01|TWO_SIDED|95.0|-29.1|-12.0||alpha = .05|Mixed Models Analysis|||||-12.0|-29.1|<0.01
82584528|NCT03727438|164880865|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|11.0|||<|0.01|TWO_SIDED|95.0|7.7|14.3|||Mixed Models Analysis|alpha = 0.05||||14.3|7.7|<0.01
82584529|NCT03727438|164880866|EQUIVALENCE|Alpha = .05|Mean Difference (Final Values)|-6.2|||>|0.05|TWO_SIDED|95.0|-12.5|0.1||Alpha = .05|Mixed Models Analysis|||||0.1|-12.5|> 0.05
82584530|NCT03727438|164880867|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|0.0|||>|0.05|TWO_SIDED|95.0|-0.4|0.5||alpha =.05|Mixed Models Analysis|||||.5|-.4|>0.05
82584531|NCT03727438|164880868|EQUIVALENCE|alpha = .05|Mean Difference (Final Values)|1.5|||<|0.05|TWO_SIDED|95.0|0.2|2.9||alpha = .05|Mixed Models Analysis|||||2.9|0.2|<0.05
82584532|NCT01919814|164880876|SUPERIORITY||||||>|0.05||||||Threshold P-Value was 0.05|t-test, 2 sided|||||||>0.05
82489687|NCT01254630|164672356|OTHER||Vaccine Efficacy|0.874|||||TWO_SIDED|95.0|-0.005|0.984|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.984|-0.005|
82584533|NCT04363801|164880896|SUPERIORITY||Hazard Ratio (HR)|1.42||||0.9676|TWO_SIDED|95.0|0.98|2.05|||Log Rank|||||2.05|0.98|0.9676
82584534|NCT04363801|164880913|SUPERIORITY||Risk Difference (RD)|2.4||||0.3799|TWO_SIDED|95.0|-12.2|16.9|||Cochran-Mantel-Haenszel|||||16.9|-12.2|0.3799
82584535|NCT04363801|164880916|SUPERIORITY|||||||0.8679|||||||Log Rank|Stratified Log-rank Test||||||0.8679
82584536|NCT04363801|164880916|SUPERIORITY|||||||0.9676|||||||Log Rank|Stratified Log-rank Test||||||0.9676
82584537|NCT04363801|164880916|SUPERIORITY||Hazard Ratio (HR)|1.5|||||TWO_SIDED|95.0|0.74|3.05||||||||3.05|0.74|
82584538|NCT04363801|164880916|SUPERIORITY||Hazard Ratio (HR)|1.42|||||TWO_SIDED|95.0|0.98|2.05||||||||2.05|0.98|
82584539|NCT04363801|164880917|SUPERIORITY||Risk Difference (RD)|8.4||||0.2649|TWO_SIDED|95.0|-18.4|33.6|||Mantel Haenszel||Common Risk Difference and 95% CI: estimated by stratified Newcombe method, weighted by minimum risk|||33.6|-18.4|0.2649
82584540|NCT04363801|164880917|SUPERIORITY||Risk Difference (RD)|2.4||||0.379|TWO_SIDED|95.0|-12.2|16.9|||Mantel Haenszel|||||16.9|-12.2|0.379
82584541|NCT03907410|164880960|SUPERIORITY||Mean Difference (Final Values)|15.0|||||TWO_SIDED|95.0|2.0|28.0||||||Multivariate comparison of Experiment phase adherence (Months 1-3) comparing Arm 1 (Full Intervention arm) to Arm 3 (Active control). Arm 3 is used as the reference. This randomized controlled trial was powered for Arm 1 vs. Arm 3 comparisons, hence the Arm 1 vs. Arm 3 outcome data for adherence to the inhaled corticosteroid regime. The study did not have sufficient power for Arm 2 comparisons.||28|2|
82584542|NCT03907410|164880960|SUPERIORITY||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-20.0|7.0||||||Multivariate comparison of Observation phase adherence (Months 4-6) comparing Arm 1 (Full Intervention arm) to Arm 3 (Active control). Arm 3 is used as the reference. This randomized controlled trial was powered for Arm 1 vs. Arm 3 comparisons, hence the Arm 1 vs. Arm 3 outcome data for adherence to the inhaled corticosteroid regime. The study did not have sufficient power for Arm 2 comparisons.||7|-20|
82584543|NCT04776148|164880965|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis (Yes/No).|Hazard Ratio (HR)|0.69||||0.0003|TWO_SIDED|95.0|0.56|0.85||One-sided p-value based on log-rank test stratified by presence of liver metastasis|Log Rank|||||0.85|0.56|0.0003
82561274|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.7|4.4|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||4.4|0.7|
82561275|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.5|5.0|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.0|0.5|
82561276|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||||TWO_SIDED|95.0|0.8|6.8|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||6.8|0.8|
82561277|NCT00749944|164831944|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.8|5.3|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.3|0.8|
82561278|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.5|4.9|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||4.9|0.5|
82561279|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|2.0|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.0|0.4|
82584544|NCT04776148|164880966|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|1.15||||0.7421|TWO_SIDED|85.0|0.75|1.77||One-sided p-value based on log-rank test.|Log Rank|||||1.77|0.75|0.7421
82584545|NCT04776148|164880967|OTHER||Difference in Percentage vs. SOC|8.7|||<|0.0001|TWO_SIDED|95.0|4.7|13.5|||Chi-squared||Based on Miettinen \& Nurminen method stratified by presence of liver metastasis|||13.5|4.7|<0.0001
82561280|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|1.8|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.8|0.4|
82561281|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.6|0.4|
82561282|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.3|1.6|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.6|0.3|
82584546|NCT04776148|164880968|OTHER||Difference in Percentage vs. SOC|3.3||||0.2456|TWO_SIDED|95.0|-7.7|14.3|||Chi-squared||Based on Miettinen \& Nurminen method.|||14.3|-7.7|0.2456
82561283|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.8|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.8|0.4|
82561284|NCT00749944|164831945|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.4|1.7|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.7|0.4|
82561285|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.3|2.3|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AB: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.3|0.3|
82561286|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.4|1.9|||||Cochran-Mantel-Haenszel|Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||1.9|0.4|
82584547|NCT04776148|164880975|OTHER||Difference in least squares means|2.71||||0.1553|TWO_SIDED|95.0|-1.03|6.46||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||6.46|-1.03|0.1553
82561287|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.2|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.2|0.4|
82561288|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.5|2.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.6|0.5|
82561289|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.5|2.3|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.3|0.5|
82561290|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.6|2.7|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.7|0.6|
82561291|NCT00749944|164831946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.5|2.8|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||2.8|0.5|
82561292|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.6|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period AC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.6|0.0|
82561293|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.6|||||Cochran-Mantel-Haenszel|Period AD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.6|0.0|
82584548|NCT04776148|164880976|OTHER||Difference in LS means|1.16||||0.4967|TWO_SIDED|95.0|-2.19|4.51||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||4.51|-2.19|0.4967
82584549|NCT04776148|164880977|OTHER||Difference in LS means|3.36||||0.2271|TWO_SIDED|95.0|-2.1|8.82||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||8.82|-2.10|0.2271
82584550|NCT04776148|164880978|OTHER||Difference in LS means|-5.46||||0.0264|TWO_SIDED|95.0|-10.27|-0.65||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction and stratification factor presence of liver metastasis (Yes/No).|cLDA model|||||-0.65|-10.27|0.0264
82584551|NCT04776148|164880979|OTHER||Hazard Ratio (HR)|0.91||||0.4338|TWO_SIDED|95.0|0.73|1.14|||Regression, Cox|Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).||||1.14|0.73|0.4338
82584552|NCT04776148|164880980|OTHER||Hazard Ratio (HR)|1.1||||0.4316|TWO_SIDED|95.0|0.87|1.38||Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|Regression, Cox|||||1.38|0.87|0.4316
82584553|NCT04776148|164880981|OTHER||Hazard Ratio (HR)|1.06||||0.5587|TWO_SIDED|95.0|0.85|1.32|||Regression, Cox|Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).||||1.32|0.85|0.5587
82584554|NCT04776148|164880982|OTHER||Hazard Ratio (HR)|0.95||||0.6794|TWO_SIDED|95.0|0.73|1.23||Two-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|Regression, Cox|||||1.23|0.73|0.6794
82584555|NCT04776148|164880983|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0379|TWO_SIDED|95.0|0.68|1.02|||Log Rank|One-sided p-value based on log-rank test stratified by presence of liver metastasis (Yes/No).|HR=Lenvatinib + pembrolizumab vs. SOC treatment|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by presence of liver metastasis (Yes/No).||1.02|0.68|0.0379
82584556|NCT04776148|164880984|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3574|TWO_SIDED|95.0|0.6|1.42|||Log Rank|One-sided p-value based on log-rank test.|HR=Lenvatinib + pembrolizumab vs. SOC treatment|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.||1.42|0.60|0.3574
82584557|NCT00666679|164880993|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||0.033||95.0|0.0|0.09|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.09|0.00|0.033
82584558|NCT00666679|164880994|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.15||||0.005||95.0|-0.26|-0.05|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||-0.05|-0.26|0.005
82584559|NCT00666679|164880995|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.09||||0.015||95.0|-0.17|-0.02|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||-0.02|-0.17|0.015
82584560|NCT00666679|164880996|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.6||||0.073||95.0|-1.26|0.06|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.06|-1.26|0.073
82584561|NCT00666679|164880997|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|6.08||||0.004||95.0|1.94|10.23|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction and period.|Least-Squares Means for average percentage of days are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction and period.|||10.23|1.94|0.004
82584562|NCT00666679|164880998|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-5.43|||<=|0.001||95.0|-8.67|-2.19|||ANCOVA|Model with terms for patient, treatment and period.|Least-Squares Means for percentage of days are derived from ANCOVA model with terms for patient, treatment and period.|||-2.19|-8.67|<=0.001
82584563|NCT00666679|164880999|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|-0.07||||0.013||95.0|-0.12|-0.01|||Mixed Models Analysis|Model with fixed effects for treatment, period and baseline covariate.|Least-Squares Means for change from baseline are derived from mixed model with terms for treatment, period and baseline covariate.|||-0.01|-0.12|0.013
82584564|NCT00666679|164881000|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||0.002||95.0|0.03|0.13|||Mixed Models Analysis|Model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|Least-Squares Means for average change from baseline are derived using appropriate contrast from mixed model with fixed effects for treatment, time (weeks 1 and 2), treatment-by-time interaction, period and baseline covariate.|||0.13|0.03|0.002
82376942|NCT01297985|164460818|SUPERIORITY||MIXREG Estimate|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.01|TWO_SIDED||||||Mixed Effects Random Regression|This analysis used Random Regression Modeling; this second model included anxiety symptoms as moderator||"We tested 3 moderating variables: depressive symptom, anxiety, and general symptom distress. In these three models, we hypothesized that the intervention participants with high levels of each type of symptoms would experience greater gains in empowerment over time than participants with low levels of symptoms, as well as control participants with both high and low symptom level.~This model includes anxiety as the moderator (high anxiety X time X study condition)"||||0.01
82652047|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-0.6|2.1|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site haematoma|PR5I minus INFANRIX™ hexa|2.1|-0.6|
82489688|NCT01254630|164672357|OTHER||Vaccine Efficacy|0.746|||||TWO_SIDED|95.0|-1.275|0.972|||||Point estimate and 95% CI of vaccine efficacy were obtained from a Cox proportional hazards regression model, adjusting for age (\<50 versus ≥50 years of age).|Vaccine efficacy was calculated as 1 minus the hazard ratio of HZ in the V212 group versus the placebo group. The success criterion for vaccine efficacy required that the lower bound of the 95% CI be \>0.25.||0.972|-1.275|
82489689|NCT01254630|164672358|OTHER||Risk Difference (RD)|0.5|||||TWO_SIDED|95.0|-0.6|1.6||||||||1.6|-0.6|
82489690|NCT03221270|164672365|SUPERIORITY|alternative hypothesis: true difference in means is greater than 0|Median Difference (Final Values)|-0.43||||0.66|ONE_SIDED|95.0|-2.25||||t-test, 1 sided||||||-2.25|0.66
82561294|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.6|||||Cochran-Mantel-Haenszel|Period AE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.6|0.3|
82561295|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.7|||||Cochran-Mantel-Haenszel|Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.7|0.0|
82561296|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.0|5.7|||||Cochran-Mantel-Haenszel|Period BD: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||5.7|0.0|
82561297|NCT00749944|164831948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.7|||||Cochran-Mantel-Haenszel|Period BE: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||3.7|0.3|
82561298|NCT00749944|164831949|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.2|23.6|||||Cochran-Mantel-Haenszel|There was no hypothesis testing or power calculation in this study. Period BC: Difference varenicline versus placebo. Subjects' worst scores observed in a given period were compared with the threshold criterion for analysis.||23.6|0.2|
82561299|NCT03775915|164831973|OTHER||||||>|0.05||||||p-value calculated for interaction between group and day|Linear Mixed Model|Linear mixed effects model adjusted for baseline, F(2,46) = 1.061, p \>0.05||||||>0.05
82561300|NCT03775915|164831974|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82561301|NCT00923078|164831995|OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.02|<|0.05|TWO_SIDED|95.0|0.17|4.23|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||4.23|0.17|<0.05
82584565|NCT00440999|164881006|NON_INFERIORITY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the crude cure rate on Day 14 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction) and a 10% non-inferiority margin. Non-inferiority was claimed if the lower limit of the 2-sided 95% CI for the difference in cure rates on Day 14 was \>10%.|Difference in cure rate|-0.5|||||TWO_SIDED|95.0|-2.6|1.4|||||Conclusion: non-inferiority between PA \& chloroquine.|"Null hypothesis: The cure rate on Day 14 for the PA group is inferior to the cure rate on Day 14 for the chloroquine group by more than 10%.~Was tested against the alternative:~Alternative hypothesis: The cure rate on Day 14 for the PA group was not inferior to the cure rate on Day 14 for the chloroquine group by more than 10%."||1.4|-2.6|
82561302|NCT00923078|164831995|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|1.02||0.48|TWO_SIDED|95.0|-2.75|1.31|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.31|-2.75|0.48
82561303|NCT00923078|164831995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|1.02|<|0.01|TWO_SIDED|95.0|-4.95|-0.9|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.90|-4.95|<0.01
82561304|NCT00923078|164831996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67|STANDARD_ERROR_OF_MEAN|0.295|<|0.05|TWO_SIDED|95.0|0.08|1.25|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.25|0.08|<0.05
82561305|NCT00923078|164831996|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.295||0.09|TWO_SIDED|95.0|-0.08|1.09|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.09|-0.08|0.09
82489691|NCT05203289|164672384|OTHER||Ratio of geometric means (%)|101.88|||||TWO_SIDED|90.0|93.31|111.23|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 105.455."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||111.23|93.31|
82489692|NCT05203289|164672385|OTHER||Ratio of geometric means (%)|105.38|||||TWO_SIDED|90.0|95.06|116.81|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 106.431."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||116.81|95.06|
82489693|NCT05203289|164672386|OTHER||Ratio of geometric means (%)|91.29|||||TWO_SIDED|90.0|84.38|98.76|||||"The estimated parameter was the adjusted geometric mean ratios (%) of BI 695501: (40 mg/0.4 mL (T))/(40 mg/0.8 mL (R)).~Geometric standard error= 104.874."|The statistical model used for the analysis of the primary endpoints was an analysis of covariance (ANCOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANCOVA model. This model included effects accounting for the following sources of variation: 'treatment', 'location of trial medication injection' and 'baseline body weight' (continuous).||98.76|84.38|
82489694|NCT03270644|164672411|OTHER||Difference of LSMeans|-5.45|||||TWO_SIDED|90.0|-7.27|-3.64||||||Mean hourly HR was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||-3.64|-7.27|
82584566|NCT04572841|164881015|SUPERIORITY||Least Square Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.85|||TWO_SIDED|95.0|-1.39|2.02||||||Analysis was performed for change from baseline using a mixed model for repeated measures with visit, intervention group (SAR441344 and Placebo), and visit by intervention group interaction as fixed categorical effects, and participant specific baseline ESSDAI as continuous covariate.||2.02|-1.39|
82584567|NCT01205152|164881044|OTHER|||||||0.002||||||Two-sided with p-value threshold \<0.05 for statistical significance.|Wilcoxon signed-rank test|||Change is relative to Baseline in Study ENB-002-08 (NCT00744042). The RGI-C score represents evaluation of skeletal X-rays at each post-treatment study timepoint compared with pre-treatment X-rays from Study ENB-002-08 using an ordinal scale. Therefore, an RGI-C score is not applicable for radiographs obtained at Baseline.||||0.0020
82584568|NCT00069108|164881063|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|Hazard Ratio (HR)|1.03||||0.00584|TWO_SIDED|95.0|0.87|1.24|||Chi-squared||The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|||1.24|0.87|0.00584
82584569|NCT00069108|164881064|NON_INFERIORITY_OR_EQUIVALENCE|While the study was not designed to demonstrate non-inferiority in PFS based on IRC assessments the pre-specified margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population.|Hazard Ratio (HR)|0.93||||0.00223|TWO_SIDED|95.0|0.74|1.17|||Chi-squared||The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% confidence interval (CI) of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population|||1.17|0.74|0.00223
82584570|NCT00069108|164881065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.91|1.37||||||||1.37|0.91|
82584571|NCT00069108|164881066|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.95|1.47||||||||1.47|0.95|
82584572|NCT00069108|164881067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4028|TWO_SIDED|95.0|0.79|1.77||p-value is for difference between response rates.|Chi-squared|||||1.77|0.79|0.4028
82584573|NCT00069108|164881068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||0.2911|TWO_SIDED|95.0|0.81|2.01||p-value is for difference between response rates.|Chi-squared|||||2.01|0.81|0.2911
82584574|NCT00069108|164881069|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin (1.30) was compared with the upper limit of the 95% CI of the hazard ratio (HR, XELOX vs FOLFOX-4) in the population.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.87|1.23||||||||1.23|0.87|
82584575|NCT00069108|164881071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.79|1.68||||||||1.68|0.79|
82489695|NCT03270644|164672412|OTHER||Ratio of Geometric LSMeans|0.884|||||TWO_SIDED|90.0|0.832|0.939||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||0.939|0.832|
82489696|NCT03270644|164672413|OTHER||Ratio of Geometric LSMeans|0.958|||||TWO_SIDED|90.0|0.917|1.0||||||Ratio of geometric LSMeans of Cmax used a mixed-effects repeated measures model adjusted for fixed effects for treatment, time point, time point by treatment, and random effect for subjects.||1.00|0.917|
82584576|NCT00069108|164881072|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.81|1.12||||||||1.12|0.81|
82584577|NCT02783768|164881074|OTHER|Testing for difference in the outcome measure according to the exposure (which was not a treatment) in a randomized crossover setting.|Mean Difference (Net)|13.98||||0.012|TWO_SIDED|95.0|4.012|23.94|||Mixed Models Analysis||Measurements were included for participants with at least one valid MRI measurement.|"Within-person effects of e-cigarette exposure on pulmonary microvascular blood flow (PMBF) was assessed via mixed models accounting for order effects.~Null hypothesis: e-cigarette exposure is NOT associated with a change in PMBF.~Alternative hypothesis: e-cigarette exposure IS associated with a change in PMBF.~Power calculation: not applicable since this was a pilot/feasibility study."||23.94|4.012|0.012
82489697|NCT03270644|164672414|OTHER||Ratio of Geometric LSMeans|1.01|||||TWO_SIDED|90.0|0.967|1.04||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||1.04|0.967|
82584578|NCT03401229|164881093|SUPERIORITY||Mean Difference (Net)|-0.57|||<|0.0001|TWO_SIDED|95.0|-0.852|-0.289||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate. Both of the co-primary endpoints were tested at 0.01 (two-sided).|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||The primary analysis compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in total NPS and/or the change from baseline in NBS are similar between benralizumab and placebo. H1: Both of the change from baseline in total NPS and the change from baseline in NBS are different between benralizumab and placebo.||-0.289|-0.852|<0.0001
82652048|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.0|-2.3|0.8|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site haemorrhage|PR5I minus INFANRIX™ hexa|0.8|-2.3|
82489698|NCT03270644|164672415|OTHER||Ratio of Geometric LSMeans|0.999|||||TWO_SIDED|90.0|0.967|1.03||||||Log-transformed PK parameters were evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||1.03|0.967|
82489699|NCT03270644|164672416|OTHER||Difference of LSMeans|-3.51|||||TWO_SIDED|90.0|-6.39|-0.64||||||PR interval was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||-0.64|-6.39|
82489700|NCT03270644|164672417|OTHER||Difference of LSMeans|5.57|||||TWO_SIDED|90.0|3.57|7.57||||||Systolic blood pressure was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||7.57|3.57|
82489701|NCT03270644|164672418|OTHER||Difference of LSMeans|3.47|||||TWO_SIDED|90.0|1.99|4.95||||||Diastolic blood pressure was evaluated in a linear mixed-effects model with a fixed effect for treatment and a random effect for subject.||4.95|1.99|
82489702|NCT00333177|164672424|SUPERIORITY||||||<|0.03||||||P value is for CT-HBT X RLAI-Oral Ris interaction|ANCOVA|Covaried baseline value of dependent variable||A priori hypothesis was that CT would be superior to HBT and that RLAI would enhance this effect.||||<0.03
82489703|NCT00333177|164672425|SUPERIORITY||||||<|0.02||||||P-value is for each main effect. A priori threshold for statistical significance was p\<0.05 for each main effect.|ANCOVA|Baseline value of dependent variable was covaried.||2 X 2 ANOVA was calculated. A priori hypotheses were that LAI would be superior to oral risperidone and that CT would be superior to health behavior training (HBT) based on main effects.||||<.02
82489704|NCT00333177|164672426|SUPERIORITY||Mean Difference (Final Values)|0.84||||0.001|TWO_SIDED|95.0|0.57|1.1|||t-test, 2 sided|||A priori hypothesis was that RLAI would lead to less medication non-adherence than Oral Ris.||1.10|.57|.001
82561306|NCT00923078|164831996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.295||0.59|TWO_SIDED|95.0|-0.75|0.43|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.43|-0.75|0.59
82561307|NCT00923078|164831997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.03|STANDARD_ERROR_OF_MEAN|0.75|<|0.01|TWO_SIDED|95.0|-3.53|-0.52||Post-test scores following Auditory Cognitive Training as compared to baseline, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.52|-3.53|<0.01
82561308|NCT00923078|164831997|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|0.75||0.01|TWO_SIDED|95.0|-3.95|-0.94||Post-test scores following Visual Cognitive Training as compared to baseline, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.94|-3.95|0.01
82561309|NCT00923078|164831997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.75||0.58|TWO_SIDED|95.0|-1.93|1.08||Post-test scores following Auditory Cognitive Training as compared to Visual Cognitive Training, tested at alpha = 0.05 (uncorrected).|Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.08|-1.93|0.58
82561310|NCT00923078|164831998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|1.55||0.06|TWO_SIDED|95.0|-6.02|0.18|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.18|-6.02|0.06
82489705|NCT00333177|164672427|SUPERIORITY||||||<|0.05||||||P-value is for CT vs. HBT main effect.|ANCOVA|Baseline value of dependent variable was covaried.||2 X 2 ANOVA was calculated. A priori hypotheses were that CT would be superior to HBT and that RLAI would be superior to Oral Ris.||||<.05
82489706|NCT00333177|164672428|SUPERIORITY|||||||0.55|||||||ANOVA|||||||0.55
82489707|NCT00333177|164672429|SUPERIORITY||||||<|0.02||||||A priori hypotheses were that CT would be superior to HBT and that RLAI would be superior to Oral Ris.|ANOVA|2 X 2 ANOVA was computed.||||||<0.02
82489708|NCT00333177|164672430|SUPERIORITY||||||<|0.01|||||||Chi-squared|df = 1||Chi-square of frequencies of relapse vs. non-relapse were calculated, with a priori hypothesis that RLAI would be superior to Oral Ris.||||<0.01
82489709|NCT00333177|164672431|SUPERIORITY||||||<|0.05||||||2 X 2 ANOVA calculated. P-value is for main effect of RLAI vs. Oral Ris.|ANOVA|||||||<.05
82489710|NCT00333177|164672432|SUPERIORITY||||||<|0.02||||||2 X 2 ANOVA computed. P-value is for main effect of CT vs. HBT.|ANOVA|||||||<.02
82489711|NCT00333177|164672433|SUPERIORITY||||||=|0.053||||||2 X 2 ANOVA computed. P-value is for RLAI vs. Oral Ris main effect.|ANOVA|||||||=.053
82489712|NCT02476201|164672435|SUPERIORITY|Using a one-sided, one sample Exact Binomial Test and a significance level of 2.5%, the study required 74 patients to reach a power of 90%. With the MPP feature activated at baseline, it was assumed that the proportion of responders at 6 months was 75%. The MPP responder rate was compared to 57%, which is the responder rate obtained from literature for patients without the MPP feature activated.|Percentage|67.1||||0.0435|ONE_SIDED|97.5|55.6||||Exact binomial||||||55.6|0.0435
82561311|NCT00923078|164831998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.24|STANDARD_ERROR_OF_MEAN|1.55|<|0.05|TWO_SIDED|95.0|-6.34|-0.14|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||-0.14|-6.34|< 0.05
82489713|NCT02642029|164672440|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on IDT accuracy.|Beta coefficient for timexiTBS interact|-0.099|STANDARD_ERROR_OF_MEAN|0.051||0.51|TWO_SIDED|95.0|-0.1989|0.0002||Significance threshold of p \< 0.05, two-sided.|Mixed Models Analysis|Model included time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS).||Conducted a mixed effects analysis, with IDT accuracy as the dependent variable and time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) as the independent variables. P-value here is for the iTBS (vs. sham) x time interaction.||.0002|-.1989|0.51
82489714|NCT02642029|164672440|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on IDT accuracy.|Beta coefficient for timexcTBS interact|-0.0757|STANDARD_ERROR_OF_MEAN|0.052||0.143|TWO_SIDED|95.0|-0.177|0.0256||Significance threshold of p \< 0.05, two-sided.|Mixed Models Analysis|Model included time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS).||Conducted a mixed effects analysis, with IDT accuracy as the dependent variable and time (pre, post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) as the independent variables. P-value here is for the cTBS (vs. sham) x time interaction.||.0256|-.1770|0.143
82489715|NCT02642029|164672441|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on N-back accuracy.|Beta coefficient for timexiTBS interact|-0.0446||||0.626|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with binomial (logit) distribution.~N-back accuracy was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the iTBS (vs. sham) x time interaction."||||.626
82489716|NCT02642029|164672441|EQUIVALENCE|Tested the null hypothesis of no difference between cTBS and sham TBS on N-back accuracy.|Beta coefficient for timexcTBS interact|-0.0903||||0.322|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with binomial (logit) distribution.~N-back accuracy was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the cTBS (vs. sham) x time interaction."||||0.322
82489717|NCT02642029|164672442|EQUIVALENCE|Tested the null hypothesis of no difference between iTBS and sham TBS on N-back accuracy.|Beta coefficient for timexiTBS interact|-9.797||||0.1118|TWO_SIDED|||||Significance threshold of p \< 0.05, two-sided|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with gamma distribution.~N-back reaction time (RT) was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the iTBS (vs. sham) x time interaction."||||0.1118
82489718|NCT02642029|164672442|EQUIVALENCE|Tested the null hypothesis of no difference between cTBS and sham TBS on N-back accuracy.|Beta coefficient for timexcTBS interact|-47.764||||9e-08|TWO_SIDED|||||Significance threshold was p \< 0.05, two-sided.|Mixed Models Analysis|||"Conducted a generalized linear mixed model fit by maximum likelihood (Laplace Approximation) \['glmerMod' in R\] with gamma distribution.~N-back reaction time (RT) was the dependent variable. Time (pre vs. post), condition (iTBS vs. sham, cTBS vs. sham), and the interaction of time x condition (time x iTBS, time x cTBS) were the independent variables. P-value here is for the cTBS (vs. sham) x time interaction."||||0.00000009
82489719|NCT02642029|164672443|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.91||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.910
82489720|NCT02642029|164672443|OTHER|Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|beta coefficient for depressed mood|0.00071||||0.243|TWO_SIDED|95.0|-0.00048|0.0019|||Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, depressed mood). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00190|-0.00048|0.243
82561312|NCT00923078|164831998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.55||0.84|TWO_SIDED|95.0|-3.42|2.78|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.78|-3.42|0.84
82584579|NCT03401229|164881094|SUPERIORITY||Mean Difference (Net)|-0.27||||0.0048|TWO_SIDED|95.0|-0.458|-0.083||To account for multiplicity, a pre-specified testing strategy was followed to control the overall type I error rate. Both of the co-primary endpoints were tested at 0.01 (two-sided).|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||The primary analysis compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in total NPS and/or the change from baseline in NBS are similar between benralizumab and placebo. H1: Both of the change from baseline in total NPS and the change from baseline in NBS are different between benralizumab and placebo.||-0.083|-0.458|0.0048
82489721|NCT02642029|164672444|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.83||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.830
82489722|NCT02642029|164672444|OTHER||beta coefficient for anxiety|-0.00063||||0.284|TWO_SIDED|95.0|-0.00179|0.00052||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, anxiety). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00052|-0.00179|0.284
82489723|NCT02642029|164672445|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.755||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||0.755
82489724|NCT02642029|164672445|OTHER||beta coefficient for elated mood|-0.0007||||0.317|TWO_SIDED|95.0|-0.00208|0.00067||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, elated mood). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00067|-0.00208|0.317
82376975|NCT02374346|164460992|NON_INFERIORITY_OR_EQUIVALENCE|Associations between categorical variables were tested by χ2 test, while differences between categorical and continuous variables were tested by Student's t test.Univariate analysis was performed with the computation of unadjusted odds ratios with 95% confidence intervals. A stepwise multiple logistic regression analysis was conducted to find independent factors.|Odds Ratio (OR)|4.26||||0.001|TWO_SIDED|95.0|1.82|9.95|||t-test, 2 sided|||Association of sevoflurane administration and postoperative headache||9.95|1.82|0.001
82489725|NCT02642029|164672446|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.035||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.035
82489726|NCT02642029|164672446|OTHER||beta coefficient for auditory hallucinat|0.00195||||0.028|TWO_SIDED|95.0|0.00021|0.00369||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, auditory hallucinations). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00369|0.00021|0.028
82561313|NCT00923078|164831999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.62|STANDARD_ERROR_OF_MEAN|1.04||0.55|TWO_SIDED|95.0|-1.45|2.69|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.69|-1.45|0.55
82561314|NCT00923078|164831999|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|1.03||0.98|TWO_SIDED|95.0|-2.02|2.07|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.07|-2.02|0.98
82561315|NCT00923078|164831999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|1.04||0.57|TWO_SIDED|95.0|-2.66|1.47|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.47|-2.66|0.57
82561316|NCT00923078|164832000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|1.27||0.63|TWO_SIDED|95.0|-3.14|1.93|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.93|-3.14|0.63
82561317|NCT00923078|164832000|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.92|STANDARD_ERROR_OF_MEAN|1.27||0.47|TWO_SIDED|95.0|-3.45|1.61|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.61|-3.45|0.47
82652049|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.7|||||TWO_SIDED|95.0|-7.8|0.5|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site induration|PR5I minus INFANRIX™ hexa|0.5|-7.8|
82561318|NCT00923078|164832000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.27||0.8|TWO_SIDED|95.0|-2.85|2.22|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||2.22|-2.85|0.80
82561319|NCT00923078|164832001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_ERROR_OF_MEAN|0.98||0.26|TWO_SIDED|95.0|-3.06|0.85|||Mixed Models Analysis||contrast calculated as baseline minus Auditory Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.85|-3.06|0.26
82561320|NCT00923078|164832001|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.47|STANDARD_ERROR_OF_MEAN|0.97||0.13|TWO_SIDED|95.0|-3.41|0.46|||Mixed Models Analysis||contrast calculated as baseline minus Visual Training|Null hypothesis is that there is no difference between baseline and post-training scores. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||0.46|-3.41|0.13
82561321|NCT00923078|164832001|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.98||0.71|TWO_SIDED|95.0|-2.32|1.58|||Mixed Models Analysis||contrast calculated as Auditory Training minus Visual Training|Null hypothesis is that there is no difference between post-training scores in Auditory vs. Visual Cognitive Training conditions. Linear mixed models tested fixed effects of period (3 levels; baseline, post 4-weeks, post 8 weeks), condition (3 levels; baseline, Auditory Cognitive Training, Visual Cognitive Training) and the period x condition interaction. Final model parameters were selected according to Bayesian Information Criteria. Alpha=.05 (2-sided)||1.58|-2.32|0.71
82561322|NCT00508183|164832039|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
82584580|NCT03401229|164881095|SUPERIORITY||Mean Difference (Net)|-5.212||||0.0821|TWO_SIDED|95.0|-11.087|0.664||Since both primary endpoints were significant at significant level of 0.01 level, this endpoint was tested at significant level of 0.05.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in SNOT-22 total score is similar between benralizumab and placebo. H1: The change from baseline in SNOT-22 total score is different between benralizumab and placebo.||0.664|-11.087|0.0821
82584581|NCT03401229|164881096|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.066|TWO_SIDED|95.0|0.55|1.02||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal because test for change from baseline in SNOT-22 at week 40 was not statistically significant.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||This endpoint compared the rate of incidence of first NP surgery and/or SCS use for NP between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.02|0.55|0.0660
82584582|NCT03401229|164881097|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.5008|TWO_SIDED|95.0|0.53|1.36||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||The endpoint compared the rate of incidence of first NP surgery between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio (HR) is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.36|0.53|0.5008
82561323|NCT00508183|164832040|OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82561324|NCT00508183|164832041|OTHER|||||||0.05|||||||t-test, 2 sided|||||||0.05
82561325|NCT00508183|164832043|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82586155|NCT05437510|164884201|SUPERIORITY||Efficacy|26.01||||0.9851|TWO_SIDED|95.0|-337.329|89.162|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of very severe RSV LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||89.162|-337.329|0.9851
82561326|NCT01102426|164832044|SUPERIORITY||Hazard Ratio (HR)|0.65|||=|0.0054|TWO_SIDED|95.0|0.447|0.885||Cox regression: HR p=0.0062|Log Rank|||||0.885|0.447|=0.0054
82561327|NCT01102426|164832045|SUPERIORITY|||||||0.0618|||||||Normal approximation|||||||0.0618
82561328|NCT01102426|164832046|SUPERIORITY||Hazard Ratio (HR)|0.512|||<|0.0001|TWO_SIDED|95.0|0.382|0.686||Cox regression HR: p\<0.0001|Log Rank|||||0.686|0.382|< 0.0001
82561329|NCT01102426|164832047|SUPERIORITY|||||||0.0002|||||||Normal approximation|||||||0.0002
82561330|NCT01102426|164832048|SUPERIORITY||Hazard Ratio (HR)|0.797|||=|0.1261|TWO_SIDED|95.0|0.596|1.067||Cox regression HR: p=0.1273|Log Rank|||Pre-specified||1.067|0.596|=0.1261
82561331|NCT01102426|164832049|SUPERIORITY|||||||0.3625|||||||Normal approximation|||||||0.3625
82561332|NCT01102426|164832050|SUPERIORITY|||||||0.1037|||||||Normal approximation|||||||0.1037
82561333|NCT01102426|164832051|SUPERIORITY||Hazard Ratio (HR)|0.384|||=|0.1015|TWO_SIDED|95.0|0.113|1.303||Cox regression HR: 0.1247|Log Rank|||||1.303|0.113|=0.1015
82561334|NCT01102426|164832053|SUPERIORITY||Hazard Ratio (HR)|0.043|||=|0.0001|TWO_SIDED|95.0|0.004|0.479||Cox regression HR: 0.0105|Log Rank|||Pre-specified||0.479|0.004|=0.0001
82561335|NCT01102426|164832056|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82561336|NCT01102426|164832057|SUPERIORITY|||||||0.0085|||||||Fisher Exact|||||||0.0085
82561337|NCT01102426|164832059|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82561338|NCT01102426|164832060|SUPERIORITY|||||||0.0029|||||||Fisher Exact|||||||0.0029
82652050|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-0.2|||||TWO_SIDED|95.0|-1.7|1.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site nodule|PR5I minus INFANRIX™ hexa|1.3|-1.7|
82652051|NCT01341639|165019372|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|1.1||||||95.0|-0.6|3.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Injection-site warmth|PR5I minus INFANRIX™ hexa|3|-0.6|
82489727|NCT02642029|164672447|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.748||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.748
82652052|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method.|Risk Difference (RD)|-2.5|||||TWO_SIDED|95.0|-6.3|1.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Crying|PR5I minus INFANRIX™ hexa|1.4|-6.3|
82489728|NCT02642029|164672447|OTHER||beta coefficient for visual hallucinatio|-0.00039||||0.685|TWO_SIDED|95.0|-0.0023|0.00151||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, visual hallucinations). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00151|-0.00230|0.685
82489729|NCT02642029|164672448|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.02||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.020
82489730|NCT02642029|164672448|OTHER||beta coefficient for paranoid ideation|0.0004||||0.597|TWO_SIDED|95.0|-0.00108|0.00188||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, paranoid ideation). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00188|-0.00108|0.597
82489731|NCT02642029|164672449|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.237||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.237
82489732|NCT02642029|164672449|OTHER||beta coefficient for ideas/del of refere|-0.00142||||0.178|TWO_SIDED|95.0|-0.0035|0.00065||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, ideas/delusions of reference). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00065|-0.00350|0.178
82489733|NCT02642029|164672450|EQUIVALENCE|Tested the null hypothesis that there is no effect of condition (iTBS, cTBS, sham) on pre-post change in VAS scores.||||||0.33||||||Given the exploratory nature of this pilot study, we set the significance threshold at p \< 0.05, two-sided, without correcting for eight comparisons.|Friedman test|Non-parametric repeated measures ANOVA.||||||.330
82561339|NCT01393964|164832073|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|104.096||||0.704|TWO_SIDED|90.0|86.983|124.576|||ANOVA|||The reference arm is NRF participants.||124.576|86.983|0.704
82561340|NCT01393964|164832073|SUPERIORITY_OR_OTHER||ratio of adjusted means|100.454||||0.965|TWO_SIDED|90.0|84.453|119.488|||ANOVA|||The reference arm is NRF participants.||119.488|84.453|0.965
82376976|NCT02391987|164460993|SUPERIORITY|||||||0.73|||||||Cochran-Mantel-Haenszel|||||||0.73
82376977|NCT02391987|164460994|SUPERIORITY|||||||0.98|||||||Cochran-Mantel-Haenszel|||||||0.98
82561341|NCT01393964|164832074|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|126.596||||0.164|TWO_SIDED|90.0|95.52|167.783|||ANOVA|||AUC(0-T). The reference arm is NRF participants.||167.783|95.52|0.164
82561342|NCT01393964|164832074|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|116.123||||0.355|TWO_SIDED|90.0|88.458|152.439|||ANOVA|||AUC(0-T). The reference arm is NRF participants.||152.439|88.458|0.355
82561343|NCT01393964|164832074|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|129.858||||0.228|TWO_SIDED|90.0|90.366|186.609|||ANOVA|||AUC (INF). The reference arm is NRF participants.||186.609|90.366|0.228
82561344|NCT01393964|164832074|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|110.4||||0.642|TWO_SIDED|90.0|76.825|158.647|||ANOVA|||AUC(INF). The reference arm is NRF participants.||158.647|76.825|0.642
82561345|NCT04405180|164832084|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|4.0||0.9017|TWO_SIDED|||||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data|ANCOVA|||||||0.9017
82561346|NCT04405180|164832085|SUPERIORITY||Mean Difference (Net)|0.0342|STANDARD_ERROR_OF_MEAN|0.0417||0.4215|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.4215
82561347|NCT04405180|164832086|SUPERIORITY||Mean Difference (Net)|6.0|STANDARD_ERROR_OF_MEAN|53.0||0.9024|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||.9024
82561348|NCT04405180|164832087|SUPERIORITY||Mean Difference (Net)|-59.0|STANDARD_ERROR_OF_MEAN|42.0||0.1646|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.1646
82561349|NCT04405180|164832088|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|1.2||0.9814|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.9814
82561350|NCT04405180|164832089|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.6217|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.6217
82561351|NCT04405180|164832090|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.7981|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.7981
82584583|NCT03401229|164881098|SUPERIORITY||Mean Difference (Net)|-0.218||||0.0029|TWO_SIDED|95.0|-0.361|-0.074||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline DSS score of benralizumab with placebo. H0: The change from baseline in DSS score is similar between benralizumab and placebo. H1: The change from baseline in DSS score is different between benralizumab and placebo.||-0.074|-0.361|0.0029
82584584|NCT03401229|164881099|SUPERIORITY||Mean Difference (Net)|-0.475||||0.0054|TWO_SIDED|95.0|-0.81|-0.141||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in NPS is similar between benralizumab and placebo. H1: The change from baseline in NPS is different between benralizumab and placebo.||-0.141|-0.810|0.0054
82586156|NCT05437510|164884202|SUPERIORITY||Efficacy|43.62|||<|0.0001|TWO_SIDED|95.0|24.677|58.057|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||58.057|24.677|<0.0001
82489734|NCT02642029|164672450|OTHER||beta coefficient for delusions of contro|-0.00038||||0.777|TWO_SIDED|95.0|-0.00305|0.00228||Given the exploratory nature of this pilot study, we set the significance threshold at p \<0.05, two-sided, without correcting for eight comparisons.|Mixed Models Analysis|||We explored the association between interval discrimination task (IDT) performance (accuracy) and each symptom self-rating (here, delusions of control). We conducted a mixed effects regression analysis to test the null hypothesis of no association. Model included time (pre, post) and condition (iTBS vs. sham, cTBS vs. sham) in addition to symptom rating as independent variables, and IDT performance accuracy as the dependent variable.||0.00228|-0.00305|0.777
82489735|NCT00398918|164672458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|STANDARD_ERROR_OF_MEAN|3.4|<|0.05||95.0|||||Mixed Models Analysis|Results presented are for post-hoc comparisons of least squares means with Tukey-Kramer adjucted p values.|The estimated value is for the difference between the means obtained for the second hour of the self-administration sessions for the placebo and zonisamide conditions.|The analysis involved a within subjects comparison. The null hypothesis was that there would be no difference in the amount of ethanol consumed in either the first or second hour of self-administration sessions. Results presented here are for the second hour of the self-administration sessions.||||<0.05
82489736|NCT00398918|164672459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|5.7||0.61||95.0||||P value shown is for a post-hoc comparison of least squares means generated by the mixed model used.|Mixed Models Analysis||Analysis for difference between DSMT scores at 40 minutes post alcohol ingestion for zonisamide and placebo involved post-hoc comparisons of least squares means.|Null hypothesis: No difference in DSMT scores for zonisamide and placebo treatments 40 minutes after ingestion of ethanol.||||0.61
82489737|NCT03917459|164672470|OTHER||LS mean of treatment difference|2.9|STANDARD_ERROR_OF_MEAN|2.94||0.3432|TWO_SIDED|95.0|-3.29|9.01|||Mixed Model Repeated Measures (MMRM)|||||9.01|-3.29|0.3432
82561352|NCT04405180|164832091|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.6677|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.6677
82561353|NCT04405180|164832092|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.1||0.3745|TWO_SIDED||||||Mixed Models Analysis|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.3745
82561354|NCT04405180|164832093|SUPERIORITY||Mean Difference (Net)|243.0|STANDARD_ERROR_OF_MEAN|400.0||0.5496|TWO_SIDED||||||ANCOVA|||Adjusted for baseline value of outcome as a covariate using general linear (mixed) models and with multiple imputation for missing data||||0.5496
82561355|NCT04492475|164832094|SUPERIORITY||Cox Proportional Hazard|0.99||||0.88|TWO_SIDED|95.0|0.87|1.13|||Log Rank|||||1.13|0.87|0.880
82561356|NCT04492475|164832111|SUPERIORITY||Risk Difference (RD)|7.2|||||TWO_SIDED|95.0|0.9|13.4||||||||13.4|0.9|
82376978|NCT02391987|164460995|SUPERIORITY|||||||0.37|||||||Fisher Exact|||||||0.37
82561357|NCT04492475|164832111|SUPERIORITY||Risk Difference (RD)|23.6|||||TWO_SIDED|95.0|0.0|43.9||||||||43.9|0.0|
82561358|NCT04492475|164832112|SUPERIORITY||Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-3.2|6.0||||||||6.0|-3.2|
82561359|NCT04492475|164832112|SUPERIORITY||Risk Difference (RD)|35.8|||||TWO_SIDED|95.0|12.3|54.2||||||||54.2|12.3|
82561360|NCT04492475|164832136|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.9|1.19||||||||1.19|0.90|
82561361|NCT04492475|164832136|SUPERIORITY||Cox Proportional Hazard|0.37|||||TWO_SIDED|95.0|0.21|0.66||||||||0.66|0.21|
82561362|NCT04492475|164832137|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.91|1.19||||||||1.19|0.91|
82561363|NCT04492475|164832137|SUPERIORITY||Cox Proportional Hazard|0.44|||||TWO_SIDED|95.0|0.24|0.82||||||||0.82|0.24|
82561364|NCT04492475|164832138|SUPERIORITY||Cox Proportional Hazard|1.08|||||TWO_SIDED|95.0|0.93|1.26||||||||1.26|0.93|
82561365|NCT04492475|164832138|SUPERIORITY||Cox Proportional Hazard|0.39|||||TWO_SIDED|95.0|0.21|0.72||||||||0.72|0.21|
82561366|NCT04492475|164832139|SUPERIORITY||Cox Proportional Hazard|1.04|||||TWO_SIDED|95.0|0.9|1.19||||||||1.19|0.90|
82584585|NCT03401229|164881100|SUPERIORITY||Mean Difference (Net)|-0.287||||0.0032|TWO_SIDED|95.0|-0.477|-0.096||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in NBS is similar between benralizumab and placebo. H1: The change from baseline in NBS is different between benralizumab and placebo.||-0.096|-0.477|0.0032
82561367|NCT04492475|164832140|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.59|1.45||||||This analysis is for Asian participants.||1.45|0.59|
82561368|NCT04492475|164832140|SUPERIORITY||Cox Proportional Hazard|0.92|||||TWO_SIDED|95.0|0.66|1.27||||||This analysis is for Black and African American participants.||1.27|0.66|
82561369|NCT04492475|164832140|SUPERIORITY||Cox Proportional Hazard|1.02|||||TWO_SIDED|95.0|0.86|1.21||||||This analysis is for White participants.||1.21|0.86|
82561370|NCT04492475|164832140|SUPERIORITY||Cox Proportional Hazard|0.84|||||TWO_SIDED|95.0|0.59|1.19||||||This analysis is for Race of Other participants||1.19|0.59|
82561371|NCT04492475|164832141|SUPERIORITY||Cox Proportional Hazard|1.02|||||TWO_SIDED|95.0|0.86|1.19||||||This analysis is for Not Hispanic or Latino participants.||1.19|0.86|
82584586|NCT03401229|164881101|SUPERIORITY||Mean Difference (Net)|-7.492||||0.0188|TWO_SIDED|95.0|-13.741|-1.243||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline of benralizumab with placebo. H0: The change from baseline in SNOT-22 total score is similar between benralizumab and placebo. H1: The change from baseline in SNOT-22 total score is different between benralizumab and placebo.||-1.243|-13.741|0.0188
82586157|NCT05437510|164884202|SUPERIORITY||Efficacy|34.78||||0.0754|TWO_SIDED|95.0|-4.148|59.648|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||59.648|-4.148|0.0754
82376979|NCT01252277|164461013|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance, p\<0.05.|Wilcoxon (Mann-Whitney)|||||||<0.001
82561372|NCT04492475|164832141|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.65|1.05||||||This analysis is for Hispanic or Latino participants.||1.05|0.65|
82561373|NCT04492475|164832142|SUPERIORITY||Cox Proportional Hazard|0.93|||||TWO_SIDED|95.0|0.78|1.1||||||This analysis is for Male participants.||1.10|0.78|
82561374|NCT04492475|164832142|SUPERIORITY||Cox Proportional Hazard|1.05|||||TWO_SIDED|95.0|0.86|1.29||||||This analysis is for Female participants.||1.29|0.86|
82561375|NCT01323790|164832158|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.188||||0.202|TWO_SIDED|95.0|0.911|1.548|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.548|0.911|0.202
82561376|NCT01323790|164832158|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.348||||0.021|TWO_SIDED|95.0|1.045|1.739|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.739|1.045|0.021
82561377|NCT01323790|164832159|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.35||||0.074|TWO_SIDED|95.0|0.967|1.884||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||1.884|0.967|0.074
82561378|NCT01323790|164832159|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.489||||0.014|TWO_SIDED|95.0|1.078|2.058||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.058|1.078|0.014
82561379|NCT01323790|164832161|SUPERIORITY_OR_OTHER||LS mean difference|0.39||||0.01|TWO_SIDED|95.0|0.09|0.69|||Mixed Models Analysis|||Analysis via Mixed Model Repeated Measures (MMRM) with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.69|0.09|0.010
82561380|NCT01323790|164832161|SUPERIORITY_OR_OTHER||Ls mean difference|0.68|||<|0.001|TWO_SIDED|95.0|0.37|0.98|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.98|0.37|<0.001
82561381|NCT01323790|164832162|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.005|TWO_SIDED|95.0|-0.32|-0.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.06|-0.32|0.005
82561382|NCT01323790|164832162|SUPERIORITY_OR_OTHER||LS mean difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.45|-0.18|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.18|-0.45|<0.001
82561383|NCT01323790|164832163|SUPERIORITY_OR_OTHER||LS mean difference|0.28||||0.001|TWO_SIDED|95.0|0.12|0.45|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.45|0.12|0.001
82561384|NCT01323790|164832163|SUPERIORITY_OR_OTHER||LS mean difference|0.45|||<|0.001|TWO_SIDED|95.0|0.29|0.62|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.62|0.29|<0.001
82561385|NCT01323790|164832164|SUPERIORITY_OR_OTHER||LS mean difference|6.72||||0.002|TWO_SIDED|95.0|2.37|11.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||11.06|2.37|0.002
82376980|NCT01252277|164461014|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||No adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||||||0.021
82376981|NCT01252277|164461015|SUPERIORITY_OR_OTHER||||||<|0.001||||||No adjustment for multiple comparisons. A priori threshold for statistical significance p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82499499|NCT02850965|164689663|EQUIVALENCE|Protocol defined margins are: \[-18.0%, +18.0%\] for Week 16, 95% confidence interval. Between-imputation variance is zero. Confidence interval is based on one imputed set.|Difference in PASI 75 Response Rate|-2.2|||||TWO_SIDED|95.0|-14.4|8.7|||Regression, Logistic||Difference in PASI 75 Response Rate = (BI 695501 - US-licensed Humira, %).|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI. The random error was assumed to be binomially distributed.|8.7|-14.4|
82561386|NCT01323790|164832164|SUPERIORITY_OR_OTHER||LS mean difference|10.43|||<|0.001|TWO_SIDED|95.0|6.03|14.84|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||14.84|6.03|<0.001
82561387|NCT01323790|164832165|SUPERIORITY_OR_OTHER||LS mean difference|0.52||||0.028|TWO_SIDED|95.0|0.06|0.98|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.98|0.06|0.028
82561388|NCT01323790|164832165|SUPERIORITY_OR_OTHER||LS mean difference|1.04|||<|0.001|TWO_SIDED|95.0|0.58|1.51|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||1.51|0.58|<0.001
82561389|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.08|TWO_SIDED|95.0|-0.26|0.01||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.26|0.080
82561390|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.011|TWO_SIDED|95.0|-0.32|-0.04||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.04|-0.32|0.011
82584587|NCT03401229|164881102|SUPERIORITY||Mean Difference (Net)|-0.237||||0.0023|TWO_SIDED|95.0|-0.389|-0.084||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline DSS score of benralizumab with placebo. H0: The change from baseline in DSS score is similar between benralizumab and placebo. H1: The change from baseline in DSS score is different between benralizumab and placebo.||-0.084|-0.389|0.0023
82561391|NCT01323790|164832167|SUPERIORITY_OR_OTHER||Slope|0.05||||0.552|TWO_SIDED|95.0|-0.11|0.2||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.20|-0.11|0.552
82561392|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|0.09||||0.236|TWO_SIDED|95.0|-0.06|0.25||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.25|-0.06|0.236
82561393|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.095|TWO_SIDED|95.0|-0.24|0.02||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.02|-0.24|0.095
82561394|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.37|-0.1||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.10|-0.37|<0.001
82561395|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.27||||0.002|TWO_SIDED|95.0|-0.44|-0.1||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.10|-0.44|0.002
82561396|NCT01323790|164832167|SUPERIORITY_OR_OTHER||LS mean difference|-0.38|||<|0.001|TWO_SIDED|95.0|-0.56|-0.21||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.21|-0.56|<0.001
82561397|NCT01323790|164832168|SUPERIORITY_OR_OTHER||LS mean difference|-0.31||||0.011|TWO_SIDED|95.0|-0.54|-0.07|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.07|-0.54|0.011
82561398|NCT01323790|164832168|SUPERIORITY_OR_OTHER||LS mean difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.73|-0.25|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.25|-0.73|<0.001
82561399|NCT00046475|164832169|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||<0.001
82652053|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-8.4|2.3|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Decreased appetite|PR5I minus INFANRIX™ hexa|2.3|-8.4|
82489738|NCT00676338|164672494|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.09||0.62|TWO_SIDED|98.3|-0.26|0.17||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||0.17|-0.26|0.620
82489739|NCT00676338|164672494|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.328|TWO_SIDED|98.3|-0.15|0.35||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||0.35|-0.15|0.328
82489740|NCT00676338|164672494|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority Null Hypotheses: H1: The effect of exenatide is inferior to that of metformin. H2: The effect of exenatide is inferior to that of sitagliptin. H3: The effect of exenatide is inferior to that of pioglitazone. Then, the 3 superiority null hypotheses were tested. Change in HbA1c was analyzed using an MMRM analysis of covariance (ANCOVA) with treatment, baseline HbA1c, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.|Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|98.3|-0.62|-0.13||Noninferiority was tested by Bonferroni (margin 0.3%, adjusted significance of 0.0167). Superiority was tested by Hommel (nominal significance level was between 0.0167 and 0.05 depended on the number of noninferiority hypotheses rejected).|Mixed Models Analysis|||Power calculation: A sample of 740 (222 exenatide once weekly, 222 metformin, 148 pioglitazone, and 148 sitagliptin) would provide approximately 90% power to detect a true differences between exenatide once weekly and the 3 comparators: metformin, pioglitazone, and sitagliptin of 0.4%, 0.5%, and 0.5%, respectively in change in HbA1c from baseline to Week 26 with a 2-sided t test at a significance level of 0.05, assuming a common standard deviation of 1.2%.||-0.13|-0.62|<.001
82489741|NCT00676338|164672495|SUPERIORITY_OR_OTHER|||||||0.151|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||0.151
82489742|NCT00676338|164672495|SUPERIORITY_OR_OTHER|||||||0.913|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||0.913
82489743|NCT00676338|164672495|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No multiple adjustment were done.|Fisher Exact|||||||<.001
82489744|NCT00676338|164672496|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.155|TWO_SIDED|95.0|-0.66|0.1||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.10|-0.66|0.155
82489745|NCT00676338|164672496|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.22||0.153|TWO_SIDED|95.0|-0.12|0.75||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.75|-0.12|0.153
82489746|NCT00676338|164672496|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.12|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|-1.56|-0.68||No multiple adjustment were done.|Mixed Models Analysis|||Change in FSG from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline FSG, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.68|-1.56|<.001
82561400|NCT00046475|164832170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||0.011
82561401|NCT00046475|164832171|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 2 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 2||||<0.001
82561402|NCT00046475|164832171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 3 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 3||||0.002
82561403|NCT00046475|164832171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 4 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 4||||0.004
82561404|NCT00046475|164832171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 5 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 5||||0.026
82489747|NCT00676338|164672497|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.892|TWO_SIDED|95.0|-0.61|0.53||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.53|-0.61|0.892
82489748|NCT00676338|164672497|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.56|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-4.21|-2.9||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-2.90|-4.21|<.001
82489749|NCT00676338|164672497|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|0.33|<|0.001|TWO_SIDED|95.0|-1.92|-0.63||No multiple adjustment were done.|Mixed Models Analysis|||Change in Body Weight from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline body weight, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.63|-1.92|<.001
82489750|NCT00676338|164672498|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.08||0.873|TWO_SIDED|95.0|-0.18|0.15||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.15|-0.18|0.873
82489751|NCT00676338|164672498|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.52|-0.14||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.14|-0.52|<.001
82489752|NCT00676338|164672498|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.41|-0.03||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting TC from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline TC, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.03|-0.41|0.022
82489753|NCT00676338|164672499|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.02||0.004|TWO_SIDED|95.0|-0.09|-0.02||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.02|-0.09|0.004
82489754|NCT00676338|164672499|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|-0.19|-0.11||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||-0.11|-0.19|<.001
82489755|NCT00676338|164672499|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.142|TWO_SIDED|95.0|-0.07|0.01||No multiple adjustment were done.|Mixed Models Analysis|||Change in Fasting HDL from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline HDL, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.01|-0.07|0.142
82489756|NCT00676338|164672500|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.04||0.657|TWO_SIDED|95.0|0.94|1.1||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.10|0.94|0.657
82489757|NCT00676338|164672500|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.16|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|1.06|1.27||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.27|1.06|0.002
82489758|NCT00676338|164672500|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.04|STANDARD_ERROR_OF_MEAN|0.05||0.398|TWO_SIDED|95.0|0.95|1.14||No multiple adjustment were done.|ANCOVA|||Fasting triglycerides data were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using ANCOVA model with treatment and country as factors and baseline triglycerides as a covariate.||1.14|0.95|0.398
82489759|NCT00676338|164672503|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.09||0.201|TWO_SIDED|95.0|-3.52|0.74||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||0.74|-3.52|0.201
82489760|NCT00676338|164672503|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.24||0.693|TWO_SIDED|95.0|-1.94|2.93||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||2.93|-1.94|0.693
82489761|NCT00676338|164672503|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.22||0.646|TWO_SIDED|95.0|-1.84|2.96||No multiple adjustment were done.|Mixed Models Analysis|||Change in Systolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline systolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||2.96|-1.84|0.646
82652054|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|2.1|||||TWO_SIDED|95.0|-1.7|6.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Irritability|PR5I minus INFANRIX™ hexa|6|-1.7|
82376982|NCT01252277|164461016|SUPERIORITY_OR_OTHER|||||||0.48||||||No adjustment for multiple comparisons. A priori threshold for statistical significance, p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.48
82561405|NCT00046475|164832171|SUPERIORITY_OR_OTHER_LEGACY|||||||0.226|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHSA Item 6 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 6||||0.226
82561406|NCT00046475|164832172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment composite symptom score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||0.002
82561407|NCT00046475|164832173|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 1||||<0.001
82561408|NCT00046475|164832173|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 2 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 2||||<0.001
82561409|NCT00046475|164832173|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 3 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 3||||<0.001
82584588|NCT03401229|164881103|SUPERIORITY||Mean Difference (Net)|-0.856||||0.2375|TWO_SIDED|95.0|-2.281|0.57||Based on pre-specified testing strategy, this endpoint was not tested for statistical significance and the p-value was considered nominal.|ANCOVA|ANCOVA following WP (WP for NP surgery), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status.||This endpoint compared the changes from baseline LMS score of benralizumab with placebo. H0: The change from baseline in LMS score is similar between benralizumab and placebo. H1: The change from baseline in LMS score is different between benralizumab and placebo.||0.570|-2.281|0.2375
82584589|NCT03401229|164881104|SUPERIORITY||Odds Ratio (OR)|0.85||||0.5419|TWO_SIDED|95.0|0.51|1.43||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with NP surgery between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||1.43|0.51|0.5419
82584590|NCT03401229|164881105|SUPERIORITY||Odds Ratio (OR)|0.69||||0.0913|TWO_SIDED|95.0|0.44|1.06||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with SCS\_NP between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||1.06|0.44|0.0913
82584591|NCT03401229|164881106|SUPERIORITY||Odds Ratio (OR)|0.65||||0.0362|TWO_SIDED|95.0|0.44|0.97||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Cochran-Mantel-Haenszel|The odds ratio estimate was obtained from the Cochran-Mantel-Haenszel test controlling for region (US/non-US) and baseline comorbid asthma status.||This endpoint compared the proportion of subjects with NP surgery or SCS\_NP between benralizumab and placebo. H0: The proportion is similar between benralizumab and placebo. H1: The proportion is different between benralizumab and placebo.||0.97|0.44|0.0362
82561410|NCT00046475|164832173|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment responses for OHDAS Item 4 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of Item 4||||0.001
82561411|NCT00046475|164832174|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with post-treatment global daily activity score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||||||<0.001
82561412|NCT00046475|164832177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline standing systolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of standing systolic blood pressure||||0.002
82561413|NCT00046475|164832177|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline standing diastolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of standing diastolic blood pressure||||0.010
82561414|NCT00046475|164832178|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline supine systolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of supine systolic blood pressure||||<0.001
82561415|NCT00046475|164832178|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|||||The P-value is based on an ANOVA model with change from baseline supine diastolic blood pressure as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of supine diastolic blood pressure||||0.002
82561416|NCT00046475|164832179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.569|TWO_SIDED|||||The P-value is based on an ANOVA model with SF-36 general health score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of general health||||0.569
82561417|NCT00046475|164832179|SUPERIORITY_OR_OTHER_LEGACY|||||||0.578|TWO_SIDED|||||The P-value is based on an ANOVA model with SF-36 physical functioning score as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and patient within sequence as random effect.|ANOVA|||Analysis of physical functioning||||0.578
82561418|NCT00046475|164832183|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED|||||The p-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and subject-within sequence as random effect.|ANOVA|||Analysis of US participants with mild or moderate disease severity||||0.370
82561419|NCT00046475|164832184|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED|||||The p-value is based on an ANOVA model with post-treatment responses for OHSA Item 1 as dependent variable, treatment, sequence, period (Visit 5 or 6), as fixed effects, and subject-within sequence as random effect.|ANOVA|||Analysis of US participants with marked or severe disease severity||||0.007
82561420|NCT02725372|164832194|SUPERIORITY||Mean Difference (Final Values)|1.99||||0.87|TWO_SIDED|95.0|-22.47|26.45|||Mixed Models Analysis|||||26.45|-22.47|0.87
82561421|NCT02725372|164832195|SUPERIORITY|||||||0.55|||||||Log Rank|||||||0.55
82561422|NCT02725372|164832197|SUPERIORITY||Mean Difference (Final Values)|-89.1||||0.01|TWO_SIDED|95.0|-156.0|-22.1|||ANCOVA|||||-22.1|-156.0|0.01
82561423|NCT02725372|164832198|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.47|TWO_SIDED|95.0|-0.89|0.41|||ANCOVA|||||0.41|-0.89|0.47
82561424|NCT02725372|164832199|SUPERIORITY||Odds Ratio (OR)|1.05||||0.26|TWO_SIDED|95.0|0.48|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.48|0.26
82561425|NCT03242863|164832200|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82561426|NCT03242863|164832201|SUPERIORITY|||||||0.0015|||||||Mixed Models Analysis|||||||0.0015
82561427|NCT03242863|164832202|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82561428|NCT03242863|164832203|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82561429|NCT00087516|164832243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.09|<|0.001||95.0|-0.96|-0.62|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline A1C||||-0.62|-0.96|<0.001
82561430|NCT00087516|164832243|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94|STANDARD_ERROR_OF_MEAN|0.09|<|0.001||95.0|-1.11|-0.77|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline A1C||||-0.77|-1.11|<0.001
82561431|NCT00087516|164832244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.1|STANDARD_ERROR_OF_MEAN|3.6|<|0.001||95.0|-24.1|-10.1|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline FPG||||-10.1|-24.1|<0.001
82561432|NCT00087516|164832244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|3.5|<|0.001||95.0|-28.2|-14.4|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline FPG||||-14.4|-28.2|<0.001
82561433|NCT00087516|164832245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.7|STANDARD_ERROR_OF_MEAN|6.5|<|0.001||95.0|-59.4|-34.1|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline 2-hr PMG||||-34.1|-59.4|<0.001
82561434|NCT00087516|164832245|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.1|STANDARD_ERROR_OF_MEAN|6.4|<|0.001||95.0|-66.7|-41.6|||ANCOVA|Model terms: treatment, presence/absence of prior diabetes pharmacotherapy, baseline 2-hr PMG||||-41.6|-66.7|<0.001
82561435|NCT01686152|164832255|EQUIVALENCE|The test product was determined to be bioequivalent to the reference product if the 90% confidence interval was within -0.20 to 0.20.|Mean Difference (Final Values)|0.05|||||TWO_SIDED|90.0|-0.0663|0.0913||||||||0.0913|-0.0663|
82561436|NCT00080119|164832289|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.93|TWO_SIDED|95.0|0.67|1.44||Threshold p-value for significance = 0.0492|Log Rank||Hazard ratio for INH relative to Placebo|||1.44|0.67|0.93
82561437|NCT00080119|164832290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.43|TWO_SIDED|95.0|0.55|1.3||Threshold p-value for significance = 0.0493|Log Rank||Hazard ratio for INH relative to Placebo|||1.30|0.55|0.43
82561438|NCT03785756|164832299|EQUIVALENCE|The primary analysis was based on a two-sided test at the significance level of 0.05. The treatment difference is presented with a 95% confidence interval (CI).|Mean Difference (Final Values)|34.05|||<|0.0001|TWO_SIDED|95.0|26.72|41.38|||ANCOVA|Estimates from an ANCOVA model with SPID12 score as the dependent variable. Terms for treatment and baseline pain score were included as covariates.||The primary efficacy hypothesis was that SPID12 for placebo was equal to SPID12 for ibuprofen 2 × 300 mg PR tablets.||41.38|26.72|<0.0001
82561439|NCT03879538|164832329|SUPERIORITY||Mean Difference (Net)|-0.57||||0.19|TWO_SIDED|95.0|-1.42|0.28||a priori threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Mean difference is Nitrous Oxide minus Control.|Null hypothesis: Mean of pain score assessed at one-week and one-month follow-up after end of treatment for Nitrous Oxide group equals that assessed at same time points for the Control group.||0.28|-1.42|0.19
82561440|NCT03879538|164832330|SUPERIORITY||Mean Difference (Net)|0.13||||0.36|TWO_SIDED|95.0|-0.16|0.43||a priori threshold for statistical significance is p\<0.05.|Mixed Models Analysis||Mean difference is Nitrous oxide minus control.|Null hypothesis for testing difference in means of physical health Z-score between two study groups: mean of physical health Z-score assessed at one-week and one-month follow-ups for Nitrous Oxide group was equal to that assessed at the same follow-up time points for Control group.||0.43|-0.16|0.36
82561441|NCT03879538|164832330|SUPERIORITY||Mean Difference (Net)|0.087||||0.66|TWO_SIDED|95.0|-0.31|0.48||a priori threshold for statistical significance is p\<0.05.|Mixed Models Analysis||Mean difference is Nitrous oxide minus control.|Null hypothesis for testing difference in means of mental health Z-score between two study groups: mean of mental health Z-score assessed at one-week and one-month follow-ups for Nitrous Oxide group was equal to that assessed at the same follow-up time points for Control group.||0.48|-0.31|0.66
82561442|NCT03879538|164832331|SUPERIORITY||Mean Difference (Net)|-0.7||||0.23|TWO_SIDED|95.0|-1.85|0.46||a priori threshold for statistical significance is p = 0.05.|Mixed Models Analysis||Mean difference is Nitrous Oxide minus Control.|Null hypothesis: Mean of PGIC scale assessed at one-week and one-month follow-up time points for Nitrous Oxide patients is equal to that assessed at the same time points for Control patients.||0.46|-1.85|0.23
82561443|NCT01918033|164832334|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares (LS) Means|-0.09||||0.661|TWO_SIDED|95.0|-0.49|0.31|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 2|||0.31|-0.49|0.661
82561444|NCT01918033|164832334|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.707|TWO_SIDED|95.0|-0.48|0.32|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 2|||0.32|-0.48|0.707
82652055|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-1.7|||||TWO_SIDED|95.0|-6.7|3.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Pyrexia|PR5I minus INFANRIX™ hexa|3.4|-6.7|
82561445|NCT01918033|164832337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.48||||0.01|TWO_SIDED|95.0|-0.84|-0.11|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Day 3|||-0.11|-0.84|0.010
82561446|NCT01918033|164832337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.46||||0.013|TWO_SIDED|95.0|-0.82|-0.1|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Day 3|||-0.10|-0.82|0.013
82561447|NCT01918033|164832337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.12||||0.569|TWO_SIDED|95.0|-0.29|0.53|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 1|||0.53|-0.29|0.569
82561448|NCT01918033|164832337|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.09||||0.685|TWO_SIDED|95.0|-0.33|0.5|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in TNSS at Week 1|||0.50|-0.33|0.685
82561449|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.547|TWO_SIDED|95.0|-0.15|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Sneezing Nasal Symptom Sub-Score at Week 2|||0.08|-0.15|0.547
82561450|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.1||||0.067|TWO_SIDED|95.0|-0.22|0.01|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Sneezing Nasal Symptom Sub-Score at Week 2|||0.01|-0.22|0.067
82561451|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.895|TWO_SIDED|95.0|-0.15|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Rhinorrhea Nasal Symptom Sub-Score at Week 2|||0.13|-0.15|0.895
82561452|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.03||||0.627|TWO_SIDED|95.0|-0.1|0.17|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Rhinorrhea Nasal Symptom Sub-Score at Week 2|||0.17|-0.10|0.627
82561453|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.04||||0.535|TWO_SIDED|95.0|-0.09|0.18|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Congestion Nasal Symptom Sub-Score at Week 2|||0.18|-0.09|0.535
82561454|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.04||||0.557|TWO_SIDED|95.0|-0.1|0.18|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Congestion Nasal Symptom Sub-Score at Week 2|||0.18|-0.10|0.557
82561455|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.11||||0.119|TWO_SIDED|95.0|-0.25|0.03|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Itching Nasal Symptom Sub-Score at Week 2|||0.03|-0.25|0.119
82561456|NCT01918033|164832338|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.403|TWO_SIDED|95.0|-0.2|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Nasal Itching Nasal Symptom Sub-Score at Week 2|||0.08|-0.20|0.403
82561457|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.376|TWO_SIDED|95.0|-0.2|0.07|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Swelling of INCM at Week 2|||0.07|-0.20|0.376
82561458|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.714|TWO_SIDED|95.0|-0.16|0.11|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Swelling of INCM at Week 2|||0.11|-0.16|0.714
82561459|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.725|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Coloring of INCM at Week 2|||0.13|-0.19|0.725
82561460|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.708|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Coloring of INCM at Week 2|||0.13|-0.19|0.708
82561461|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.03||||0.68|TWO_SIDED|95.0|-0.1|0.16|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in NDP at Week 2|||0.16|-0.10|0.680
82561462|NCT01918033|164832339|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.06||||0.373|TWO_SIDED|95.0|-0.07|0.19|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in NDP at Week 2|||0.19|-0.07|0.373
82489762|NCT00676338|164672504|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.7||0.61|TWO_SIDED|95.0|-1.02|1.73||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||1.73|-1.02|0.610
82489763|NCT00676338|164672504|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.8||0.013|TWO_SIDED|95.0|0.43|3.58||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||3.58|0.43|0.013
82489764|NCT00676338|164672504|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.79||0.946|TWO_SIDED|95.0|-1.6|1.49||No multiple adjustment were done.|Mixed Models Analysis|||Change in Diastolic Blood Pressure from baseline to Week 26 was analyzed using an MMRM ANCOVA model with treatment, baseline diastolic blood pressure, country, week of visit, and treatment-by week interaction as fixed effects; and patient and error as random effects.||1.49|-1.60|0.946
82489765|NCT00075218|164672506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.329|||<|0.001||95.0|0.233|0.466||The nominal levels of significance for the interim and final analyses were determined at the time of the analyses using the Lan-DeMets procedure with an O'Brien-Fleming stopping rule.|Log Rank|two-sided unstratified log-rank test||The study was designed to test the null hypothesis that the median TTP from placebo treatment is 4 months versus the alternative hypothesis that the median TTP from sunitinib treatment is at least 6 months with an overall 2-sided significance level of 0.05 and power of 90%.||0.466|0.233|<0.001
82489766|NCT00075218|164672507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.347|||<|0.001||95.0|0.253|0.475||No p-value adjustment for multiple comparisons.|Log Rank|||||0.475|0.253|<0.001
82489767|NCT00075218|164672509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.876||||0.306||95.0|0.679|1.129||No p-value adjustment for multiple comparisons.|Log Rank|||||1.129|0.679|0.306
82489768|NCT00075218|164672510|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.505||||0.306||95.0|0.262|1.134||No p-value adjustment for multiple comparisons.|Rank Preserving Structural Failure Time||95% CI for Hazard Ratio is from 2.5% and 97.5% Empirical Percentiles of 100,000 Bootstraps.|||1.134|0.262|0.306
82489769|NCT00075218|164672512|SUPERIORITY_OR_OTHER||rate (percentage)|6.6||||||95.0|3.8|10.5|||||Used exact method based on binomial distribution.|||10.5|3.8|
82489770|NCT00075218|164672512|SUPERIORITY_OR_OTHER||Treatment Difference (%)|6.58||||0.004||95.0|3.47|9.7||No p-value adjustment for multiple comparisons.|Pearson chi-square test|||||9.70|3.47|0.004
82489771|NCT00075218|164672515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.339|||<|0.001||95.0|0.244|0.472||two-sided unstratified log-rank test|Log Rank|||||0.472|0.244|<0.001
82489772|NCT00075218|164672515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.327|||<|0.001||95.0|0.232|0.46|||Log Rank|log-rank test of treatment stratified by prior imatinib mesylate response and McGill Pain Questionnaire's Present Pain Intensity score||Stratified log-rank test||0.460|0.232|<0.001
82489773|NCT00075218|164672516|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.972||||0.9322||95.0|0.508|1.86|||Log Rank|2-sided, unstratified log-rank test||||1.860|0.508|0.9322
82489774|NCT00075218|164672517|SUPERIORITY_OR_OTHER||Treatment Difference (percent)|17.3||||0.0046||95.0|6.7|28.0|||Pearson chi-square||95% CI of Difference based on normal distribution. Percent = (number of subjects with response per total subjects per treatment in defined analysis population)\*100.|||28.0|6.7|0.0046
82561463|NCT01918033|164832340|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.01||||0.849|TWO_SIDED|95.0|-0.14|0.12|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Eye Symptom Score at Week 2|||0.12|-0.14|0.849
82489775|NCT05047770|164672549|NON_INFERIORITY|The non-inferiority was to be concluded if the upper limit (UL) of the 95% confidence interval (CI) of the adjusted GMC ratio between HZ/suSeq group and HZ/suCoAd group for anti-gE antibody concentration was below (\<) 1.5.|GMC Ratio|1.01|||||TWO_SIDED|95.0|0.89|1.13|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 2 doses of HZ/su vaccine when the first dose of HZ/su vaccine was co-administered with the mRNA-1273 booster dose compared to HZ/su vaccine administered alone, in terms of anti-gE GMCs, at 1 month post-dose 2 of HZ/su vaccine administration (Week 14 for HZ/suSeq group and Week 12 for HZ/suCoAd group).||1.13|0.89|
82489776|NCT05047770|164672550|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMC ratio between HZ/suSeq group and HZ/suCoAd group for anti-S protein antibody concentration was \<1.5.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.9|1.32|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of mRNA-1273 booster when the first dose of HZ/su vaccine was co-administered with the mRNA-1273 booster dose compared to mRNA-1273 booster dose administered alone, in terms of anti-S protein GMCs, at 1 month post-mRNA-1273 booster dose administration (at Week 4 for both HZ/suSeq and HZ/suCoAd groups).||1.32|0.90|
82489777|NCT05047770|164672551|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the A/H1N1 influenza strain.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.89|1.18|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the A/H1N1 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.18|0.89|
82489778|NCT05047770|164672551|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the A/H3N2 influenza strain.|GMT Ratio|0.93|||||TWO_SIDED|95.0|0.82|1.05|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the A/H3N2 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.05|0.82|
82561464|NCT01918033|164832340|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.07||||0.26|TWO_SIDED|95.0|-0.2|0.06|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change From Baseline in Eye Symptom Score at Week 2|||0.06|-0.20|0.260
82561465|NCT01918033|164832341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.826||||0.34|TWO_SIDED|95.0|0.558|1.223|||Regression, Logistic|Logistic model with global improvement rate as response variable and treatment, age strata, and severity as factors|Difference in the number of participants with moderate or remarkable improvement at Week 2. An odds ratio \>1 is in favor of the first group of the pairwise comparison.|||1.223|0.558|0.340
82561466|NCT01918033|164832341|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.755||||0.159|TWO_SIDED|95.0|0.51|1.116|||Regression, Logistic|Logistic model with global improvement rate as response variable and treatment, age strata, and severity as factors|Difference in the number of participants with moderate or remarkable improvement at Week 2. An odds ratio \>1 is in favor of the first group of the pairwise comparison.|||1.116|0.510|0.159
82561467|NCT01918033|164832342|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.02||||0.705|TWO_SIDED|95.0|-0.09|0.14|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Interference with Daily Activities at Week 2|||0.14|-0.09|0.705
82561468|NCT01918033|164832342|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.02||||0.782|TWO_SIDED|95.0|-0.13|0.1|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Interference with Daily Activities at Week 2|||0.10|-0.13|0.782
82561469|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.1||||0.175|TWO_SIDED|95.0|-0.24|0.04|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Sneezing at Week 2|||0.04|-0.24|0.175
82584592|NCT03401229|164881107|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.1505|TWO_SIDED|95.0|0.53|1.1||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Regression, Cox|A Cox proportional hazards model including covariates treatment group, region (US/Non-US) and baseline comorbid asthma status.||The endpoint compared the rate of incidence of SCS\_NP use between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Hazard ratio (HR) is benralizumab vs placebo and HR less than 1 indicates longer time to event||1.10|0.53|0.1505
82584593|NCT03401229|164881111|SUPERIORITY||Rate Ratio|0.79||||0.2189|TWO_SIDED|95.0|0.54|1.15||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|Negative Bionomial Model|Model included treatment, US/non-US and prior use of SCS\_NP with total number of courses of SCS\_NP as outcome and log of follow-up time as an offset||The endpoint compared the rate of SCS\_NP use between benralizumab and placebo. H0: The rate is similar between benralizumab and placebo. H1: the rate is different between benralizumab and placebo. Rate ratio is benralizumab vs placebo and Rate ratio less than 1 indicates less likely of SCS\_NP use.||1.15|0.54|0.2189
82584594|NCT03401229|164881112|SUPERIORITY||Median Difference (Net)|-1.854||||0.0036|TWO_SIDED|95.0|-3.101|-0.608||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||-0.608|-3.101|0.0036
82584595|NCT03401229|164881113|SUPERIORITY||Mean Difference (Net)|-0.166||||0.0941|TWO_SIDED|95.0|-0.36|0.028||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||0.028|-0.360|0.0941
82561470|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.12||||0.098|TWO_SIDED|95.0|-0.26|0.02|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Sneezing at Week 2|||0.02|-0.26|0.098
82561471|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.12||||0.13|TWO_SIDED|95.0|-0.04|0.27|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Rhinorrhea at Week 2|||0.27|-0.04|0.130
82561472|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.07||||0.375|TWO_SIDED|95.0|-0.08|0.22|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Rhinorrhea at Week 2|||0.22|-0.08|0.375
82561473|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.08||||0.285|TWO_SIDED|95.0|-0.07|0.24|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Congestion at Week 2|||0.24|-0.07|0.285
82561474|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|0.05||||0.49|TWO_SIDED|95.0|-0.1|0.21|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Congestion at Week 2|||0.21|-0.10|0.490
82561475|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.345|TWO_SIDED|95.0|-0.23|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Itching at Week 2|||0.08|-0.23|0.345
82561476|NCT01918033|164832343|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.03||||0.699|TWO_SIDED|95.0|-0.19|0.13|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Nasal Itching at Week 2|||0.13|-0.19|0.699
82561477|NCT01918033|164832344|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.06||||0.414|TWO_SIDED|95.0|-0.2|0.08|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Eye Symptom Score at Week 2|||0.08|-0.20|0.414
82561478|NCT01918033|164832344|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.08||||0.281|TWO_SIDED|95.0|-0.22|0.06|||Constrained Longitudinal Data Analysis|Model with terms for visit, visit-by-treatment, visit-by-age strata, visit-by-severity interactions; visit treated as a categorical variable|Difference in LS Means for Change from Baseline in Eye Symptom Score at Week 2|||0.06|-0.22|0.281
82561479|NCT03265132|164832372|SUPERIORITY||Risk Difference (RD)|1.0||||0.0022|TWO_SIDED|95.0|0.42|1.0|||Fisher Exact|||||1.00|0.42|0.0022
82584596|NCT03401229|164881114|SUPERIORITY||Mean Difference (Net)|-0.213||||0.0246|TWO_SIDED|95.0|-0.399|-0.027||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||-0.027|-0.399|0.0246
82489779|NCT05047770|164672551|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the B/Victoria lineage influenza strain.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.89|1.14|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the B/Victoria lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.14|0.89|
82561480|NCT01762982|164832436|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0654||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0654
82561481|NCT01762982|164832439|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0078||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0078
82561482|NCT01762982|164832440|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0||||0.0547||95.0|||||Signed Rank Test|||Null hypothesis considered no treatment difference between the treatments being compared.||||0.0547
82561483|NCT03136861|164832465|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0264|TWO_SIDED|95.0|1.08|3.33|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR).||Average Spinal Pain Score \<4 at Week 8||3.33|1.08|0.0264
82584597|NCT03401229|164881115|SUPERIORITY||Mean Difference (Net)|0.672||||0.5833|TWO_SIDED|95.0|-1.73|3.074||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||3.074|-1.730|0.5833
82561484|NCT03136861|164832465|SUPERIORITY||Odds Ratio (OR)|1.72||||0.072|TWO_SIDED|95.0|0.95|3.1|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR)||Total Spinal Pain Score \<4 at Week 8||3.10|0.95|0.0720
82561485|NCT03136861|164832465|SUPERIORITY||Odds Ratio (OR)|2.38||||0.0043|TWO_SIDED|95.0|1.31|4.31|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR)||Nocturnal Spinal Pain Score||4.31|1.31|0.0043
82561486|NCT03136861|164832466|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0466|TWO_SIDED|95.0|1.01|3.04|||Regression, Logistic|Logistic regression model: logit (proportion) = treatment + stratification factor of prior exposure to TNF inhibitors (i.e. TNF-naïve or TNFα-IR).||BASDAI Score \<4 at Week 8||3.04|1.01|0.0466
82561487|NCT00257309|164832485|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.21|TWO_SIDED|95.0|0.38|1.23||Unadjusted analysis|Chi-squared|||||1.23|0.38|0.21
82561488|NCT00186446|164832486|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|t(19)= -8.93||||||<.001
82561489|NCT03692871|164832489|OTHER||Difference in Percentage|7.9|||=|0.003|TWO_SIDED|95.0|2.8|12.8|||Miettinen & Nurminen method|||Injection-site erythema||12.8|2.8|= 0.003
82561490|NCT03692871|164832489|OTHER||Difference in Percentage|-0.3|||=|0.882|TWO_SIDED|95.0|-5.0|4.0|||Miettinen & Nurminen method|||Injection-site induration||4.0|-5.0|= 0.882
82561491|NCT03692871|164832489|OTHER||Difference in Percentage|6.4|||=|0.014|TWO_SIDED|95.0|1.3|11.3|||Miettinen & Nurminen method|||Injection-site pain||11.3|1.3|= 0.014
82561492|NCT03692871|164832489|OTHER||Difference in Percentage|4.6|||=|0.051|TWO_SIDED|95.0|0.0|8.9|||Miettinen & Nurminen method|||Injection-site swelling||8.9|0.0|= 0.051
82561493|NCT03692871|164832490|OTHER||Difference in Percentage|5.5|||=|0.033|TWO_SIDED|95.0|0.4|10.5|||Miettinen & Nurminen method|||Decreased appetite||10.5|0.4|= 0.033
82561494|NCT03692871|164832490|OTHER||Difference in Percentage|5.6|||=|0.016|TWO_SIDED|95.0|1.0|10.5|||Miettinen & Nurminen method|||Irritability||10.5|1.0|= 0.016
82561495|NCT03692871|164832490|OTHER||Difference in Percentage|0.4|||=|0.878|TWO_SIDED|95.0|-4.7|5.6|||Miettinen & Nurminen method|||Somnolence||5.6|-4.7|= 0.878
82584598|NCT03401229|164881116|SUPERIORITY||Median Difference (Net)|2.684||||0.0619|TWO_SIDED|95.0|-0.134|5.502||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|ANCOVA following hybrid WP/WOCF and MI (assuming MAR), adjusting for treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||5.502|-0.134|0.0619
82561496|NCT03692871|164832490|OTHER||Difference in Percentage|-0.8|||=|0.503|TWO_SIDED|95.0|-3.8|1.5|||Miettinen & Nurminen method|||Urticaria||1.5|-3.8|= 0.503
82584599|NCT03401229|164881117|SUPERIORITY||Median Difference (Net)|-5.057||||0.102|TWO_SIDED|95.0|-11.129|1.015||This endpoint was not a part of the pre-specified testing strategy and was not tested for statistical significance. The p-value was considered nominal.|ANCOVA|Following WP (WP for NP surgery rescued subjects), model included treatment, baseline score, region (US/Non-US) and baseline comorbid asthma status||This endpoint compared the changes from baseline score between benralizumab and placebo. H0: The change from baseline score is similar between benralizumab and placebo. H1: The change from baseline score is different between benralizumab and placebo.||1.015|-11.129|0.1020
82584600|NCT03339570|164881166|SUPERIORITY||Mean Difference (Final Values)|18.3|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||Student's t test was used if they were variables adjusted to a normal distribution, or the Mann-Whitney U test if they were non-normal variables.||||<0.01
82561497|NCT03692871|164832491|OTHER||Difference in Percentage|0.1|||||TWO_SIDED|95.0|-0.8|0.4||||||Percentage of participants with a vaccine-related SAE||0.4|-0.8|
82561498|NCT02852824|164832498|OTHER||Slope|0.9058|STANDARD_ERROR_OF_MEAN|0.0523|||TWO_SIDED|95.0|0.7973|1.0142||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used a statistical method.||1.0142|0.7973|
82561499|NCT02852824|164832499|OTHER||Slope|0.9528|STANDARD_ERROR_OF_MEAN|0.0454|||TWO_SIDED|95.0|0.8581|1.0475||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0475|0.8581|
82584601|NCT01498653|164881236|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|28.5|||<|0.001|TWO_SIDED|95.0|20.1|36.9|||ANCOVA|||||36.9|20.1|<0.001
82584602|NCT01602562|164881249|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|16.11|||||The estimated value reflects the percentage of participants with an HSV infection.|||16.11|0.00|
82561500|NCT02852824|164832500|OTHER||Slope|0.9439|STANDARD_ERROR_OF_MEAN|0.0358|||TWO_SIDED|95.0|0.8697|1.0182||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0182|0.8697|
82561501|NCT02852824|164832501|OTHER||Slope|0.9708|STANDARD_ERROR_OF_MEAN|0.0351|||TWO_SIDED|95.0|0.8975|1.044||||||Dose proportionality was explored using a regression model. A 95% confidence interval (CI) for the slope was computed. Power model is used as statistical method.||1.0440|0.8975|
82561502|NCT01316913|164832502|SUPERIORITY_OR_OTHER||Least squares mean difference|0.022||||0.377|TWO_SIDED|95.0|-0.027|0.072|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus UMEC 125 µg.|||0.072|-0.027|0.377
82561503|NCT01316913|164832502|SUPERIORITY_OR_OTHER||Least squares mean difference|0.06||||0.018|TWO_SIDED|95.0|0.01|0.109||nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus TIO 18 µg.|||0.109|0.010|0.018
82561504|NCT01316913|164832502|SUPERIORITY_OR_OTHER||Least squares mean difference|0.037||||0.142|TWO_SIDED|95.0|-0.012|0.087|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus UMEC 125 µg.|||0.087|-0.012|0.142
82561505|NCT01316913|164832502|SUPERIORITY_OR_OTHER||Least squares mean difference|0.074||||0.003|TWO_SIDED|95.0|0.025|0.123|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus TIO 18 µg.|||0.123|0.025|0.003
82561506|NCT03055988|164832534|SUPERIORITY||Adjusted mean difference|-0.537|STANDARD_ERROR_OF_MEAN|1.12||0.6331|TWO_SIDED|95.0|-2.779|1.705|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|Mixed model repeated measures (MMRM) model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation. H0: Mean change from baseline in LVEDVI for (Tiotropium + Olodaterol) = Mean change from baseline in LVEDVI for (Fluticasone propionate + Salmeterol)||1.705|-2.779|0.6331
82561507|NCT03055988|164832535|SUPERIORITY||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.036||0.9817|TWO_SIDED|95.0|-0.072|0.074|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.074|-0.072|0.9817
82584603|NCT01602562|164881249|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|17.65|||||The estimated value reflects the percentage of participants with an HSV infection.|||17.65|0.00|
82584604|NCT04964414|164881268|SUPERIORITY|||||||0.6|||||||Paired t-test|||||||0.6
82584605|NCT04964414|164881269|SUPERIORITY|||||||0.6|||||||Wilcoxon signed-rank|||||||0.6
82584606|NCT04964414|164881270|SUPERIORITY|||||||0.09|||||||Paired t-test|||||||0.09
82584607|NCT04964414|164881275|SUPERIORITY|||||||0.2|||||||Paired t-test|||||||0.2
82584608|NCT04964414|164881276|SUPERIORITY|||||||0.2|||||||Paired t-test|||||||0.2
82584609|NCT00819390|164881277|SUPERIORITY_OR_OTHER|||||||0.428||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Wilcoxon (Mann-Whitney)|No other adjustments||Null hypothesis: There is no difference between the two arms/groups with respect to change in percent CD8 HLA-DR+/CD38+ from baseline to week 12.||||0.428
82652056|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|-3.2|||||TWO_SIDED|95.0|-7.8|1.4|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Somnolence|PR5I minus INFANRIX™ hexa|1.4|-7.8|
82561508|NCT03055988|164832536|SUPERIORITY||Adjusted mean difference|1.28|STANDARD_ERROR_OF_MEAN|1.995||0.5238|TWO_SIDED|95.0|-2.719|5.279|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||5.279|-2.719|0.5238
82561509|NCT03055988|164832537|SUPERIORITY||Adjusted mean difference|2.069|STANDARD_ERROR_OF_MEAN|1.853||0.2687|TWO_SIDED|95.0|-1.64|5.779|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||5.779|-1.640|0.2687
82561510|NCT03055988|164832538|SUPERIORITY||Adjusted mean difference|0.409|STANDARD_ERROR_OF_MEAN|1.335||0.7604|TWO_SIDED|95.0|-2.264|3.082|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||3.082|-2.264|0.7604
82561511|NCT03055988|164832539|SUPERIORITY||Adjusted mean difference|-0.32|STANDARD_ERROR_OF_MEAN|1.509||0.833|TWO_SIDED|95.0|-3.341|2.702|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||2.702|-3.341|0.8330
82561512|NCT03055988|164832540|SUPERIORITY||Adjusted mean difference|-7.957|STANDARD_ERROR_OF_MEAN|2.452||0.0019|TWO_SIDED|95.0|-12.865|-3.05|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||-3.050|-12.865|0.0019
82584610|NCT00819390|164881277|SUPERIORITY_OR_OTHER|||||||0.247||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance used for the two-sided test was 0.05.|Wilcoxon (Mann-Whitney)|No other adjustments.||Null hypothesis: There is no difference between the two arms/groups with respect to change in percent CD8 HLA-DR+/CD38+ from baseline to week 12.||||0.247
82586158|NCT05437510|164884202|SUPERIORITY||Efficacy|40.67||||0.0177|TWO_SIDED|95.0|8.211|62.156|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||62.156|8.211|0.0177
82561513|NCT03055988|164832541|SUPERIORITY||Adjusted mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.121|0.24|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.240|0.121|<0.0001
82561514|NCT03055988|164832542|SUPERIORITY||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.057|<|0.0001|TWO_SIDED|95.0|0.171|0.4|||Mixed model repeated measures (MMRM)|Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean difference means the treatment difference vs. F+S (i.e. T+O 5/5 - F+S 1000/100).|MMRM model included treatment and period as fixed effects, patient as a random effect and baseline as covariate. Unstructured covariance structure was used for within patient variation.||0.400|0.171|<0.0001
82561515|NCT01915914|164832549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|13.4993|||<|0.0001|TWO_SIDED|95.0|4.1113|44.325|||Log Rank|||||44.3250|4.1113|<0.0001
82561516|NCT01915914|164832550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.9524|||<|0.0001|TWO_SIDED|95.0|2.4258|10.1105|||Log Rank|||||10.1105|2.4258|<0.0001
82561517|NCT01915914|164832551|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82561518|NCT01915914|164832552|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82561519|NCT01915914|164832554|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82561520|NCT01915914|164832555|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82561521|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.701||95.0||||Week 20, CA|Wilcoxon (Mann-Whitney)|||||||0.7010
82561522|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.0042||95.0||||Week 20, ET/L|Wilcoxon (Mann-Whitney)|||||||0.0042
82561523|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||Week 20, AP|Wilcoxon (Mann-Whitney)|||||||0.0810
82561524|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.2799||95.0||||Week 32, CA|Wilcoxon (Mann-Whitney)|||||||0.2799
82561525|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.1375||95.0||||Week 32, ET/L|Wilcoxon (Mann-Whitney)|||||||0.1375
82561526|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||Week 32, AP|Wilcoxon (Mann-Whitney)|||||||0.1100
82561527|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.0394||95.0||||Week 20, Total VAS Score|Wilcoxon (Mann-Whitney)|||||||0.0394
82561528|NCT01915914|164832560|SUPERIORITY_OR_OTHER|||||||0.2237||95.0||||Week 32, Total VAS Score|Wilcoxon (Mann-Whitney)|||||||0.2237
82561529|NCT01736475|164832578|SUPERIORITY_OR_OTHER_LEGACY||Ratio of means|0.1|||<|0.0001|TWO_SIDED|95.0|0.06|0.19|||Regression, Negative binomial|||Ratio Annualized Bleeding Rate (ABR) Prophylaxis/On-demand: Prophylaxis treatment w ill be considered to be successful if the upper limit of the 95% CI for the ratio between treatment regimen does not exceed 0.5 (corresponding to a 50% reduction of the mean ABR compared to the on-demand treatment). H01: μ1 ≥0.5\*μ2 Ha1: μ1\<0.5\*μ2 w here μ1 and μ2 are the mean ABRs in on prophylaxis and on-demand, respectively||0.19|0.06|<0.0001
82561530|NCT01213940|164832666|EQUIVALENCE|95% confidence limit from standard deviation of mean|||||<|0.05|||||||ANOVA|||one -way ANOVA was used for the analysis||||<0.05
82561531|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561532|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561533|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561534|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
82561535|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82584611|NCT01191268|164881306|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) of 1.5 mg LY2189265 versus Insulin Glargine was below 0.4%, 1.5 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.38|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||The study was designed to enroll 837 randomized participants (279 per treatment arm) with 90% power to detect non-inferiority of 1.5 mg LY2189265 versus Insulin Glargine on HbA1c change from baseline at the 26-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 1-sided alpha of 0.025 assuming no true difference between treatments. This corresponds to 248 participants per arm, with an assumed drop-out rate of 11%.||-0.07|-0.38|<0.001
82584612|NCT01191268|164881306|NON_INFERIORITY_OR_EQUIVALENCE|If the 1-sided adjusted p-value was below 0.025, then 0.75 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.33|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.02|-0.33|<0.001
82584613|NCT01191268|164881306|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.005|TWO_SIDED|95.0|-0.38|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.07|-0.38|0.005
82561536|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82561537|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561538|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82584614|NCT01191268|164881306|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.015|TWO_SIDED|95.0|-0.33|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.02|-0.33|0.015
82584615|NCT01191268|164881307|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) of 1.5 mg LY2189265 versus Insulin Glargine was below 0.4%, 1.5 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.25|||<|0.001|TWO_SIDED|95.0|-0.42|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.07|-0.42|<0.001
82561539|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|-2.2|||||TWO_SIDED|95.0|-15.7|10.9||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-15.7|
82561540|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561541|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561542|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561543|NCT00824850|164832678|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561544|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|9.0|||||TWO_SIDED|95.0|-5.6|25.5||||||7vPnC serotype 4: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||25.5|-5.6|
82561545|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561546|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
82561547|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|5.7|||||TWO_SIDED|95.0|-4.2|19.2||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||19.2|-4.2|
82561548|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|3.1|||||TWO_SIDED|95.0|-9.3|17.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.0|-9.3|
82561549|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82489780|NCT05047770|164672551|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMT ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-HI antibody titer was \<1.5 for the B/Yamagata lineage influenza strain.|GMT Ratio|1.04|||||TWO_SIDED|95.0|0.93|1.17|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of anti-HI GMTs against the B/Yamagata lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||1.17|0.93|
82489781|NCT05047770|164672552|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the adjusted GMC ratio between FluD-QIVSeq group and FluD-QIVCoAd group for anti-S antibody concentration was \<1.5.|GMC Ratio|0.98|||||TWO_SIDED|95.0|0.84|1.13|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of mRNA-1273 booster when co-administered with Flu D-QIV vaccine compared to mRNA-1273 booster dose administered alone in terms of anti-S protein GMCs, at 1 month post-mRNA-1273 booster dose administration (at Week 4 for both FluD-QIVSeq and FluD-QIVCoAd groups).||1.13|0.84|
82489782|NCT05047770|164672553|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the A/H1N1 influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|0.6|||||TWO_SIDED|95.0|-5.1|6.4|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the A/H1N1 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||6.4|-5.1|
82489783|NCT05047770|164672553|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the A/H3N2 influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|-1.3|||||TWO_SIDED|95.0|-7.8|5.2|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the A/H3N2 influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||5.2|-7.8|
82489784|NCT05047770|164672553|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the B/Victoria lineage influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|0.1|||||TWO_SIDED|95.0|-5.8|5.9|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the B/Victoria lineage influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||5.9|-5.8|
82489785|NCT05047770|164672553|NON_INFERIORITY|The non-inferiority was to be concluded if the UL of the 95% CI of the difference in percentage of participants seroconverted for anti-HI antibodies against the B/Yamagata influenza strain between FluD-QIVSeq group and FluD-QIVCoAd group was \< 10%.|Difference in percentage|-1.6|||||TWO_SIDED|95.0|-7.0|3.9|||ANCOVA|||To demonstrate the non-inferiority of humoral immunogenicity of 1 dose of Flu D-QIV vaccine when co-administered with mRNA-1273 booster dose compared to Flu D-QIV vaccine administered alone, in terms of percentage of participants seroconverted for anti-HI antibodies against the B/Yamagata influenza strain included in the Flu D-QIV vaccine, at 1 month post-Flu D-QIV vaccine dose administration (Week 6 for FluD-QIVSeq group and Week 4 for FluD-QIVCoAd group).||3.9|-7.0|
82561550|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561551|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.9|14.9||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||14.9|-6.9|
82561552|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|6.9|||||TWO_SIDED|95.0|-7.4|23.4||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||23.4|-7.4|
82561553|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561554|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561555|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561556|NCT00824850|164832679|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561557|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.9||||||7vPnC serotype 4: difference in proportions, \[7vPnC / 13vPnC) - (MnCC / 13vPnC), expressed as a percentage, along with exact 2-sided confidence interval.||10.9|-10.2|
82561558|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82561559|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82489786|NCT04402060|164672618|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.82|TWO_SIDED|90.0|0.63|1.51|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% confidence interval (CI) was based on the Wald method.||1.51|0.63|0.82
82489787|NCT04402060|164672619|SUPERIORITY||Hazard Ratio (HR)|1.62||||0.36|TWO_SIDED|90.0|0.77|3.4|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||3.40|0.77|0.36
82584616|NCT01191268|164881307|NON_INFERIORITY_OR_EQUIVALENCE|If the 1-sided adjusted p-value was below 0.025, then 0.75 mg LY2189265 was declared non-inferior to Insulin Glargine.|LS Mean Difference|-0.19|||<|0.001|TWO_SIDED|95.0|-0.37|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||||-0.02|-0.37|<0.001
82584617|NCT01191268|164881307|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25||||0.005|TWO_SIDED|95.0|-0.42|-0.07||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.07|-0.42|0.005
82584618|NCT01191268|164881307|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.014|TWO_SIDED|95.0|-0.37|-0.02||Family-wise Type I error rate was controlled by applying tree-gatekeeping strategy.|ANCOVA|||Superiority analysis.||-0.02|-0.37|0.014
82584619|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.014||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.014
82584620|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.010
82584621|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.027||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.027
82561560|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82561561|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561562|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
82561563|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82561564|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-6.7|15.3||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.3|-6.7|
82561565|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82584622|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.384||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.384
82584623|NCT01191268|164881308|SUPERIORITY_OR_OTHER||||||<|0.05||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||<0.05
82584624|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.25||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.250
82584625|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.272||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.272
82584626|NCT01191268|164881308|SUPERIORITY_OR_OTHER|||||||0.623||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.623
82584627|NCT01191268|164881309|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Regression, Logistic|||||||<0.001
82584628|NCT01191268|164881309|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 26 weeks.|Regression, Logistic|||||||<0.001
82584629|NCT01191268|164881309|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 52 weeks.|Regression, Logistic|||||||<0.001
82584630|NCT01191268|164881309|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison at 52 weeks.|Regression, Logistic|||||||<0.001
82584631|NCT01191268|164881310|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.07||||0.628|TWO_SIDED|95.0|-0.35|0.21||Treatment comparison of Daily Mean values at 26 weeks.|Mixed Models Analysis|||||0.21|-0.35|0.628
82584632|NCT01191268|164881310|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.368|TWO_SIDED|95.0|-0.15|0.41||Treatment comparison of Daily Mean values at 26 weeks.|Mixed Models Analysis|||||0.41|-0.15|0.368
82584633|NCT01191268|164881310|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.37|TWO_SIDED|95.0|-0.16|0.42||Treatment comparison of Daily Mean values at 52 weeks.|Mixed Models Analysis|||||0.42|-0.16|0.370
82584634|NCT01191268|164881310|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02||||0.879|TWO_SIDED|95.0|-0.26|0.3||Treatment comparison of Daily Mean values at 52 weeks.|Mixed Models Analysis|||||0.30|-0.26|0.879
82584635|NCT01191268|164881311|SUPERIORITY_OR_OTHER||LS Mean Difference|1.31|||<|0.001|TWO_SIDED|95.0|0.83|1.79||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||1.79|0.83|<0.001
82584636|NCT01191268|164881311|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|||<|0.001|TWO_SIDED|95.0|1.32|2.28||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||2.28|1.32|<0.001
82584637|NCT01191268|164881311|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|||<|0.001|TWO_SIDED|95.0|0.55|1.64||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||1.64|0.55|<0.001
82584638|NCT01191268|164881311|SUPERIORITY_OR_OTHER||LS Mean Difference|1.42|||<|0.001|TWO_SIDED|95.0|0.88|1.96||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||1.96|0.88|<0.001
82584639|NCT01191268|164881313|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2|||<|0.001|TWO_SIDED|95.0|-3.81|-2.59||Treatment comparison at 26 weeks.|ANCOVA|||||-2.59|-3.81|<0.001
82489788|NCT04402060|164672621|SUPERIORITY||Hazard Ratio (HR)|0.09||||0.03|TWO_SIDED|90.0|0.01|0.51|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||0.51|0.01|0.03
82489789|NCT04402060|164672622|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.93|TWO_SIDED|90.0|0.69|1.72|||Log Rank|||P-value was from a 2-sided stratified Log-rank test by the randomization stratification factors (need of mechanical ventilation \[yes vs no\] and age \[\<65 years vs ≥65 years\]) at 0.1 significant level for evaluation of treatment difference. Hazard ratio was obtained from a Cox regression model with treatment and the randomization stratification factors as fixed factors and 90% CI was based on the Wald method.||1.72|0.69|0.93
82489790|NCT02155881|164672650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.9716|TWO_SIDED|95.0|-0.98|1.01|||ANCOVA|||An analysis of covariance (ANCOVA) model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||1.01|-0.98|0.9716
82489791|NCT02155881|164672651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.8713|TWO_SIDED|95.0|-0.87|1.02|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||1.02|-0.87|0.8713
82489792|NCT02155881|164672652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.7789|TWO_SIDED|95.0|-0.61|0.81|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.81|-0.61|0.7789
82489793|NCT02155881|164672653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15||||0.663|TWO_SIDED|95.0|-0.55|0.86|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.86|-0.55|0.6630
82489794|NCT02155881|164672654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.5593|TWO_SIDED|95.0|-0.35|0.19|||ANCOVA|||Nasal congestion: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.19|-0.35|0.5593
82489795|NCT02155881|164672654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.7085|TWO_SIDED|95.0|-0.22|0.33|||ANCOVA|||Runny nose: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.33|-0.22|0.7085
82489796|NCT02155881|164672654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.7309|TWO_SIDED|95.0|-0.22|0.31|||ANCOVA|||Itching: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.31|-0.22|0.7309
82489797|NCT02155881|164672654|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.9584|TWO_SIDED|95.0|-0.29|0.3|||ANCOVA|||Sneezing: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.30|-0.29|0.9584
82489798|NCT02155881|164672655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17||||0.2266|TWO_SIDED|95.0|-0.11|0.46|||ANCOVA|||Itching/Burning Eyes: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.46|-0.11|0.2266
82489799|NCT02155881|164672655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.4888|TWO_SIDED|95.0|-0.35|0.17|||ANCOVA|||Redness: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.17|-0.35|0.4888
82489800|NCT02155881|164672655|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.8316|TWO_SIDED|95.0|-0.22|0.27|||ANCOVA|||Tearing/Watering Eyes: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.27|-0.22|0.8316
82489801|NCT02155881|164672656|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.2968|TWO_SIDED|95.0|-0.8|0.25|||ANCOVA|||An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.25|-0.80|0.2968
82489802|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.3533|TWO_SIDED|95.0|-0.85|0.31|||ANCOVA|||Activities: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.31|-0.85|0.3533
82489803|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.26||||0.3712|TWO_SIDED|95.0|-0.84|0.32|||ANCOVA|||Sleep: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.32|-0.84|0.3712
82489804|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.4098|TWO_SIDED|95.0|-0.69|0.29|||ANCOVA|||Non-nose/Eye symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.29|-0.69|0.4098
82561566|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.9|||||TWO_SIDED|95.0|-15.0|17.6||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||17.6|-15.0|
82561567|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82584640|NCT01191268|164881313|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.15|||<|0.001|TWO_SIDED|95.0|-2.76|-1.54||Treatment comparison at 26 weeks.|ANCOVA|||||-1.54|-2.76|<0.001
82489805|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.2683|TWO_SIDED|95.0|-1.0|0.28|||ANCOVA|||Practical Problems: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.28|-1.00|0.2683
82489806|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4643|TWO_SIDED|95.0|-0.82|0.38|||ANCOVA|||Nasal Symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.38|-0.82|0.4643
82489807|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.4502|TWO_SIDED|95.0|-0.74|0.33|||ANCOVA|||Eye symptoms: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.33|-0.74|0.4502
82489808|NCT02155881|164672657|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.39||||0.177|TWO_SIDED|95.0|-0.95|0.18|||ANCOVA|||Emotional: An ANCOVA model adjusted for treatment, site and the baseline score was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 5% level of significance.||0.18|-0.95|0.1770
82489809|NCT01163266|164672699|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.19|STANDARD_ERROR_OF_MEAN|1.151||0.058|TWO_SIDED|95.0|-4.45|0.08||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||All statistical tests were 2-sided with the estimated P-values at the 5% level of significance. To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 20 mg vortioxetine to placebo. Efficacy endpoints were tested for each dose in sequential order at significance level 0.025; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||0.08|-4.45|0.058
82489810|NCT01163266|164672699|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.64|STANDARD_ERROR_OF_MEAN|1.161||0.002|TWO_SIDED|95.0|-5.92|-1.35||Pre-specified sequential statistical testing procedure indicates that when p-value \<0.025, hierarchical testing continues.|Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-1.35|-5.92|0.002
82489811|NCT01163266|164672700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||0.301|TWO_SIDED|95.0|0.796|2.093|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||2.093|0.796|0.301
82489812|NCT01163266|164672700|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.639||||0.044|TWO_SIDED|95.0|1.013|2.652||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||2.652|1.013|0.044
82489813|NCT01163266|164672701|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.129||0.119|TWO_SIDED|95.0|-0.45|0.05|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||0.05|-0.45|0.119
82489814|NCT01163266|164672701|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.129||0.024|TWO_SIDED|95.0|-0.55|-0.04|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline CGI-S score-by-week as fixed effects.||||-0.04|-0.55|0.024
82489815|NCT01163266|164672702|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.29|STANDARD_ERROR_OF_MEAN|1.891||0.025|TWO_SIDED|95.0|-8.03|-0.56|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS Total score-by-week as fixed effects.||||-0.56|-8.03|0.025
82489816|NCT01163266|164672702|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.26|STANDARD_ERROR_OF_MEAN|1.852|<|0.001|TWO_SIDED|95.0|-10.92|-3.6|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline MADRS total score-by-week as fixed effects.||||-3.60|-10.92|<0.001
82489817|NCT01163266|164672703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.665||||0.093|TWO_SIDED|95.0|0.918|3.018|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.018|0.918|0.093
82489818|NCT01163266|164672703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.779||||0.059|TWO_SIDED|95.0|0.979|3.233|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline MADRS score.||||3.233|0.979|0.059
82489819|NCT01163266|164672704|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|1.042||0.183|TWO_SIDED|95.0|-3.44|0.66|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||0.66|-3.44|0.183
82489820|NCT01163266|164672704|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.066||0.025|TWO_SIDED|95.0|-4.5|-0.3|||Mixed model for repeated measurements|MMRM ANCOVA with treatment, center, week, treatment-by-week interaction, baseline SDS total score-by-week as fixed effects.||||-0.30|-4.50|0.025
82489821|NCT02586064|164672705|OTHER|||||||0.28|||||||t-test, 1 sided|||Baseline||||0.28
82584641|NCT01191268|164881313|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.23|||<|0.001|TWO_SIDED|95.0|-3.99|-2.48||Treatment comparison at 52 weeks.|ANCOVA|||||-2.48|-3.99|<0.001
82489822|NCT02586064|164672705|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|1.52|STANDARD_ERROR_OF_MEAN|1.4|||TWO_SIDED|||||||||||||
82489823|NCT02586064|164672705|OTHER|||||||0.87|||||||t-test, 1 sided|||End of Treatment||||0.87
82489824|NCT02586064|164672705|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|||||||||||||
82561568|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82561569|NCT00824850|164832680|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|7.6||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||7.6|-13.9|
82584642|NCT01191268|164881313|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.03|||<|0.001|TWO_SIDED|95.0|-2.78|-1.27||Treatment comparison at 52 weeks.|ANCOVA|||||-1.27|-2.78|<0.001
82584643|NCT01191268|164881315|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|||<|0.001|TWO_SIDED|95.0|-1.44|-0.96||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-0.96|-1.44|<0.001
82584644|NCT01191268|164881315|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.79|||<|0.001|TWO_SIDED|95.0|-1.03|-0.55||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||-0.55|-1.03|<0.001
82584645|NCT01191268|164881315|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.24|||<|0.001|TWO_SIDED|95.0|-1.55|-0.94||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||-0.94|-1.55|<0.001
82652057|NCT01341639|165019373|OTHER|Miettinen \& Nurminen method|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-4.4|6.0|||||If the 95% CI for the risk differences included 0.0, the numerical differences were not considered significant.|Risk difference: Vomiting|PR5I minus INFANRIX™ hexa|6|-4.4|
82652058|NCT02247479|165019402|SUPERIORITY||Difference in Adjusted Means|-0.019||||0.8381|TWO_SIDED|95.0|-0.206|0.167|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.167|-0.206|0.8381
82652059|NCT02247479|165019402|SUPERIORITY||Difference in Adjusted Means|0.051||||0.5901|TWO_SIDED|95.0|-0.134|0.236|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.236|-0.134|0.5901
82489825|NCT02586064|164672705|EQUIVALENCE|Equivalence hypothesis was assessed using the confidence intervals for the mean differences compared to margins of equivalence (-7,7). The equivalence hypothesis was examined based on the difference between the amount of change from the baseline to the end of treatment on the CAPS between the two conditions. Confidence interval is -7.0 to 1.9.||||||0.26|||||||t-test, 2 sided|||Change||||0.26
82489826|NCT02586064|164672705|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-2.56|STANDARD_ERROR_OF_MEAN|2.25|||TWO_SIDED|||||||||||||
82489827|NCT02586064|164672705|OTHER|||||||0.68|||||||t-test, 1 sided|||3 Month Post Treatment||||0.68
82489828|NCT02586064|164672705|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|||||||||||||
82489829|NCT02586064|164672705|OTHER|||||||0.84|||||||t-test, 1 sided|||6 Month Follow Up||||0.84
82489830|NCT02586064|164672705|EQUIVALENCE|Confidence interval 95%, equivalence margin \[-7,7\].|Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|3.05|||TWO_SIDED|||||||||||||
82489831|NCT02586064|164672706|OTHER|||||||0.36|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||Baseline||||0.36
82584646|NCT01191268|164881315|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-1.06|-0.46||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||-0.46|-1.06|<0.001
82584647|NCT02411357|164881336|SUPERIORITY||||||<|0.001|||||||Cochran-Armitage Chi-square trend test|||||||<.001
82489832|NCT02586064|164672706|OTHER|||||||0.34|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||4-Week||||0.34
82489833|NCT02586064|164672706|OTHER|||||||0.43|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||8-Week||||0.43
82489834|NCT02586064|164672706|OTHER|||||||0.09|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||6 Month Post Treatment||||0.09
82489835|NCT02586064|164672706|OTHER|||||||0.41|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||End of Treatment||||0.41
82584648|NCT00705523|164881381|SUPERIORITY_OR_OTHER|||||||0.1|||||||Regression, Logistic|beta=-0.67, exp(beta)=0.51, chi-squared(1) = 0.2.71||Self-reported drinking results, as gathered by the TLFB, were compared by the generalized estimating equations (GEE) (Diggle et al., 1994), using Poisson models for counts of drinking and heavy drinking days, and logistic regression models for absence/presence binary indicators of drinking. In the GEE model, the pre-treatment of the response was included as a covariate, together with the treatment group indicator, and a linear time effect.||||0.10
82584649|NCT04619251|164881423|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|337.6|||||TWO_SIDED|90.0|302.8|376.4|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =15.9|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||376.4|302.8|
82652060|NCT02247479|165019403|SUPERIORITY||Difference in Adjusted Means|-0.2||||0.935|TWO_SIDED|95.0|-5.2|4.8|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||4.8|-5.2|0.9350
82652061|NCT02247479|165019403|SUPERIORITY||Difference in Adjusted Means|0.1||||0.9789|TWO_SIDED|95.0|-5.0|5.2|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline number of absolute scotomatous points, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||5.2|-5.0|0.9789
82652062|NCT02247479|165019404|SUPERIORITY||Difference in Adjusted Means|0.28||||0.5538|TWO_SIDED|95.0|-0.66|1.22|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||1.22|-0.66|0.5538
82652063|NCT02247479|165019404|SUPERIORITY||Difference in Adjusted Means|-0.63||||0.2032|TWO_SIDED|95.0|-1.6|0.35|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline mean macular sensitivity, GA lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.35|-1.60|0.2032
82652064|NCT02247479|165019405|SUPERIORITY||Difference in Adjusted Means|1.0||||0.2547|TWO_SIDED|95.0|-0.7|2.8|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||2.8|-0.7|0.2547
82489836|NCT02586064|164672706|SUPERIORITY|Superiority hypotheses were assessed using the confidence interval for the mean differences (-0.33 to 0.20) compared to margin of superiority (-.05).||||||0.64|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||Change||||0.64
82489837|NCT02586064|164672706|OTHER|||||||0.22|||||||t-test, 1 sided|One sided 97.5% confidence interval, superiority margin was 0.5||3 Month Post Treatment||||0.22
82489838|NCT02586064|164672707|OTHER|||||||0.4|||||||t-test, 1 sided|||Baseline||||0.40
82561570|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||7vPnC serotype 4: difference in proportions, \[7vPnC / 13vPnC) - (MnCC / 13vPnC), expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
82561571|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.2|10.6||||||7vPnC serotype 6B: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.6|-10.2|
82561572|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.4|10.3||||||7vPnC serotype 9V: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.4|
82561573|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.3||||||7vPnC serotype 14: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.3|-9.5|
82561574|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-10.0|10.1||||||7vPnC serotype 18C: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-10.0|
82489839|NCT02586064|164672707|OTHER|||||||0.65|||||||t-test, 1 sided|||End of Treatment||||0.65
82489840|NCT02586064|164672707|OTHER|||||||0.64|||||||t-test, 1 sided|||Change||||0.64
82489841|NCT02586064|164672707|OTHER|||||||0.64|||||||t-test, 1 sided|||3 Month Post Treatment||||0.64
82561575|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|-2.8|||||TWO_SIDED|95.0|-16.8|10.1||||||7vPnC serotype 19F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.1|-16.8|
82561576|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-9.1|16.6||||||7vPnC serotype 23F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||16.6|-9.1|
82561577|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|2.9|||||TWO_SIDED|95.0|-7.1|15.0||||||Additional serotype 1: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.0|-7.1|
82489842|NCT02586064|164672707|OTHER|||||||0.76|||||||t-test, 1 sided|||6 Month Post Treatment||||0.76
82561578|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|8.0||||||Additional serotype 3: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||8.0|-13.9|
82561579|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|1.2|||||TWO_SIDED|95.0|-14.8|18.2||||||Additional serotype 5: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||18.2|-14.8|
82561580|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-9.5|10.0||||||Additional serotype 6A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||10.0|-9.5|
82561581|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|3.0|||||TWO_SIDED|95.0|-6.8|15.8||||||Additional serotype 7F: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||15.8|-6.8|
82561582|NCT00824850|164832681|SUPERIORITY_OR_OTHER||difference in proportions|-2.6|||||TWO_SIDED|95.0|-13.9|7.6||||||Additional serotype 19A: difference in proportions, \[(7vPnC/13vPnC) - (MnCC/13vPnC)\], expressed as a percentage, along with exact 2-sided confidence interval.||7.6|-13.9|
82561583|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|29.47|||||TWO_SIDED|95.0|17.61|49.33|||||Confidence intervals (CI) for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: Geometric mean fold rises (GMFRs) were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||49.33|17.61|
82561584|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.34|||||TWO_SIDED|95.0|8.49|15.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.13|8.49|
82489843|NCT02586064|164672708|OTHER|||||||0.11|||||||t-test, 1 sided|||Baseline||||0.11
82489844|NCT02586064|164672708|OTHER|||||||0.48|||||||t-test, 1 sided|||4-Week||||0.48
82489845|NCT02586064|164672708|OTHER|||||||0.74|||||||t-test, 1 sided|||8-Week||||0.74
82489846|NCT02586064|164672708|OTHER|||||||0.34|||||||t-test, 1 sided|||End of Treatment||||0.34
82489847|NCT02586064|164672708|OTHER|||||||0.65|||||||t-test, 1 sided|||Change||||0.65
82489848|NCT02586064|164672708|OTHER|||||||0.14|||||||t-test, 1 sided|||3 Month Post Treatment||||0.14
82489849|NCT02586064|164672708|OTHER|||||||0.18|||||||t-test, 1 sided|||6 Month Post Treatment||||0.18
82489850|NCT02586064|164672709|OTHER|||||||0.08|||||||t-test, 1 sided|||Baseline||||0.08
82489851|NCT02586064|164672709|OTHER|||||||0.07|||||||t-test, 1 sided|||End of Treatment||||0.07
82489852|NCT02586064|164672709|OTHER|||||||0.86|||||||t-test, 1 sided|||Change||||0.86
82489853|NCT02586064|164672709|OTHER|||||||0.003|||||||t-test, 1 sided|||3 Month Post Treatment||||0.003
82489854|NCT02586064|164672709|OTHER|||||||0.03|||||||t-test, 1 sided|||6 Month Post Treatment||||0.03
82489855|NCT02586064|164672710|OTHER|||||||0.05|||||||t-test, 1 sided|||Baseline||||0.05
82489856|NCT02586064|164672710|OTHER|||||||0.04|||||||t-test, 1 sided|||End of Treatment||||0.04
82489857|NCT02586064|164672710|OTHER|||||||0.86|||||||t-test, 1 sided|||Change||||0.86
82561585|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.58|||||TWO_SIDED|95.0|4.06|7.67|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.67|4.06|
82561586|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|71.09|||||TWO_SIDED|95.0|40.74|124.08|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||124.08|40.74|
82561587|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.91|||||TWO_SIDED|95.0|4.92|12.73|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.73|4.92|
82489858|NCT02586064|164672710|OTHER||||||<|0.001|||||||t-test, 1 sided|||3 Month Post Treatment||||<0.001
82489859|NCT02586064|164672710|OTHER|||||||0.16|||||||t-test, 1 sided|||6 Month Post Treatment||||0.16
82584650|NCT04619251|164881424|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|184.4|||||TWO_SIDED|90.0|156.0|218.0|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =26.4|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||218.0|156.0|
82584651|NCT04619251|164881425|OTHER|Since the main focus is on estimation and not testing, a formal hypothesis test and associated acceptance range is not specified.|Geometric Least Squares Mean ratio (%)|356.8|||||TWO_SIDED|90.0|315.7|403.2|||||Geometric Least Squares Mean ratio was estimated by the ratios of the geometric means (T/R). Intra-individual geometric coefficient variation (gCV %) =18.4|The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: subject and treatment. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. These quantities were then back-transformed to the original scale.||403.2|315.7|
82584652|NCT02112838|164881442|SUPERIORITY||Mean Difference (Final Values)|19.9||||0.97|TWO_SIDED|95.0|-910.6|950.5|||ANCOVA|||||950.5|-910.6|0.97
82584653|NCT02112838|164881442|SUPERIORITY||Mean Difference (Final Values)|-399.7||||0.4|TWO_SIDED|95.0|-1320.8|521.3|||ANCOVA|||||521.3|-1320.8|0.40
82584654|NCT04016558|164881485|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.007|TWO_SIDED||||||ANCOVA|||||||.007
82489860|NCT02586064|164672711|OTHER|||||||0.45|||||||t-test, 1 sided|||Baseline||||0.45
82489861|NCT02586064|164672711|OTHER|||||||0.71|||||||t-test, 1 sided|||End of Treatment||||0.71
82489862|NCT02586064|164672711|OTHER|||||||0.6|||||||t-test, 1 sided|||Change||||0.60
82489863|NCT02586064|164672711|OTHER|||||||0.13|||||||t-test, 1 sided|||3 Month Post Treatment||||0.13
82489864|NCT02586064|164672711|OTHER|||||||0.8|||||||t-test, 1 sided|||6 Month Post Treatment||||0.80
82489865|NCT02586064|164672712|OTHER|||||||0.35|||||||t-test, 1 sided|||Baseline||||0.35
82489866|NCT02586064|164672712|OTHER|||||||0.11|||||||t-test, 1 sided|||End of Treatment||||0.11
82489867|NCT02586064|164672712|OTHER|||||||0.74|||||||t-test, 1 sided|||Change||||0.74
82489868|NCT02586064|164672712|OTHER|||||||0.03|||||||t-test, 1 sided|||3 Month Post Treatment||||0.03
82489869|NCT02586064|164672712|OTHER|||||||0.22|||||||t-test, 1 sided|||6 Month Post Treatment||||0.22
82489870|NCT02586064|164672713|OTHER|||||||0.39|||||||t-test, 1 sided|||Baseline||||0.39
82489871|NCT02586064|164672713|OTHER|||||||0.15|||||||t-test, 1 sided|||End of Treatment||||0.15
82489872|NCT02586064|164672713|OTHER|||||||0.72|||||||t-test, 1 sided|||Change||||0.72
82561588|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.56|||||TWO_SIDED|95.0|2.87|7.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.26|2.87|
82561589|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.85|||||TWO_SIDED|95.0|4.51|10.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.42|4.51|
82584655|NCT04016558|164881486|SUPERIORITY||Mean Difference (Final Values)|0.42||||0.006|TWO_SIDED||||||ANCOVA|||||||.006
82584656|NCT04016558|164881487|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.82|TWO_SIDED||||||ANCOVA|||||||0.82
82489873|NCT02586064|164672713|OTHER|||||||0.04|||||||t-test, 1 sided|||3 Month Post Treatment||||0.04
82489874|NCT02586064|164672713|OTHER|||||||0.19|||||||t-test, 1 sided|||6 Month Post Treatment||||0.19
82489875|NCT02586064|164672714|OTHER|||||||0.33|||||||t-test, 1 sided|||Baseline||||0.33
82489876|NCT02586064|164672714|OTHER|||||||0.11|||||||t-test, 1 sided|||End of Treatment||||0.11
82489877|NCT02586064|164672714|OTHER|||||||0.88|||||||t-test, 1 sided|||Change||||0.88
82489878|NCT02586064|164672714|OTHER|||||||0.06|||||||t-test, 1 sided|||3 Month Post Treatment||||0.06
82489879|NCT02586064|164672714|OTHER|||||||0.56|||||||t-test, 1 sided|||6 Month Post Treatment||||0.56
82489880|NCT02586064|164672715|OTHER|||||||0.16|||||||t-test, 1 sided|||Baseline||||0.16
82489881|NCT02586064|164672715|OTHER|||||||0.06|||||||t-test, 1 sided|||End of Treatment||||0.06
82489882|NCT02586064|164672715|OTHER|||||||0.46|||||||t-test, 1 sided|||Change||||0.46
82489883|NCT02586064|164672715|OTHER|||||||0.001|||||||t-test, 1 sided|||3 Month Post Treatment||||0.001
82584657|NCT04016558|164881488|SUPERIORITY||Mean Difference (Final Values)|1.15||||0.01|TWO_SIDED||||||ANCOVA|||||||.01
82584658|NCT04016558|164881489|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4|TWO_SIDED||||||ANCOVA|||||||.40
82584659|NCT04016558|164881491|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.12|TWO_SIDED||||||ANCOVA|||||||.12
82584660|NCT04016558|164881492|SUPERIORITY||Mean Difference (Final Values)|0.22||||0.39|TWO_SIDED||||||ANCOVA|||||||.39
82584661|NCT04016558|164881493|SUPERIORITY||Mean Difference (Final Values)|0.18|||<|0.01|TWO_SIDED||||||ANCOVA|||||||<.01
82584662|NCT02491632|164881570|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82584663|NCT02491632|164881570|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
82584664|NCT02491632|164881570|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82584665|NCT02491632|164881570|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
82584666|NCT02491632|164881571|OTHER||||||=|0.003|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||=.003
82584667|NCT02491632|164881571|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
82584668|NCT02491632|164881571|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82584669|NCT02491632|164881571|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
82584670|NCT02491632|164881572|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82489884|NCT02586064|164672715|OTHER|||||||0.002|||||||t-test, 1 sided|||6 Month Post Treatment||||0.002
82584671|NCT02491632|164881572|OTHER||||||<|0.065|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.065
82584672|NCT02491632|164881572|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82489885|NCT02586064|164672716|OTHER|||||||0.24|||||||t-test, 1 sided|||Baseline||||0.24
82489886|NCT02586064|164672716|OTHER|||||||0.81|||||||t-test, 1 sided|||End of Treatment||||0.81
82489887|NCT02586064|164672716|OTHER|||||||0.24|||||||t-test, 1 sided|||Change||||0.24
82489888|NCT02586064|164672717|OTHER|||||||0.41|||||||t-test, 1 sided|||Baseline||||0.41
82489889|NCT02586064|164672717|OTHER|||||||0.21|||||||t-test, 1 sided|||End of Treatment||||0.21
82489890|NCT02586064|164672717|OTHER|||||||0.5|||||||t-test, 1 sided|||Change||||0.50
82584673|NCT02491632|164881572|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||<.001
82584674|NCT02491632|164881573|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||<.001
82584675|NCT02491632|164881573|OTHER||||||=|0.3|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||=.30
82584676|NCT02491632|164881573|OTHER||||||=|0.19|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 8||||=.19
82584677|NCT02491632|164881573|OTHER||||||=|0.27|||||||Wilcoxon (Mann-Whitney)|||Change between Baseline and Day 29||||=.27
82584678|NCT00409773|164881575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-16.5|-9.8||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-9.8|-16.5|<0.001
82584679|NCT00409773|164881575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-13.6|-6.9||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.9|-13.6|<0.001
82584680|NCT00409773|164881575|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.0|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-11.3|-4.6||Reported p-value is multiplicity-adjusted. Hochberg procedure was used to adjust for multiple comparisons.|ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.6|-11.3|<0.001
82584681|NCT00409773|164881576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-9.6|-4.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.8|-9.6|<0.001
82489891|NCT02586064|164672718|OTHER|||||||0.7|||||||t-test, 1 sided|||Baseline||||0.70
82489892|NCT02586064|164672718|OTHER|||||||0.96|||||||t-test, 1 sided|||Week 4||||0.96
82489893|NCT02586064|164672718|OTHER|||||||0.59|||||||t-test, 1 sided|||Week 8||||0.59
82489894|NCT02586064|164672718|OTHER|||||||0.61|||||||t-test, 1 sided|||End of Treatment||||0.61
82584682|NCT00409773|164881576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.8|-2.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.9|-7.8|<0.001
82584683|NCT00409773|164881576|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-6.8|-2.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.0|-6.8|<0.001
82584684|NCT00409773|164881577|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.69||95.0|-5.4|3.3|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||3.3|-5.4|0.690
82584685|NCT00409773|164881577|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.8||||0.2||95.0|-1.6|7.1|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||7.1|-1.6|0.200
82584686|NCT00409773|164881577|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.4||||0.48||95.0|-4.7|3.9|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||3.9|-4.7|0.480
82584687|NCT00409773|164881578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|1.3||0.013||95.0|0.7|6.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||6.0|0.7|0.013
82584688|NCT00409773|164881578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.3||0.378||95.0|-1.5|3.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||3.8|-1.5|0.378
82584689|NCT00409773|164881578|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.0|STANDARD_ERROR_OF_MEAN|1.3||0.003||95.0|1.3|6.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||6.6|1.3|0.003
82584690|NCT00409773|164881579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.3|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-13.3|-7.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-7.3|-13.3|<0.001
82561590|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|6.98|17.64|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||17.64|6.98|
82561591|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.68|||||TWO_SIDED|95.0|1.37|2.07|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.07|1.37|
82561592|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.52|2.9|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.90|1.52|
82561593|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.7|||||TWO_SIDED|95.0|4.77|12.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.42|4.77|
82561594|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.2|||||TWO_SIDED|95.0|4.95|10.48|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.48|4.95|
82561595|NCT00824850|164832682|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.02|||||TWO_SIDED|95.0|2.23|4.1|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.10|2.23|
82584691|NCT00409773|164881579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-10.2|-4.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.3|-10.2|<0.001
82561596|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|19.68|||||TWO_SIDED|95.0|9.99|38.77|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||38.77|9.99|
82561597|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.7|||||TWO_SIDED|95.0|3.9|8.33|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||8.33|3.90|
82561598|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.78|||||TWO_SIDED|95.0|2.16|3.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.57|2.16|
82561599|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|23.46|||||TWO_SIDED|95.0|13.17|41.79|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||41.79|13.17|
82561600|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|13.68|||||TWO_SIDED|95.0|8.94|20.92|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||20.92|8.94|
82561601|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.98|||||TWO_SIDED|95.0|6.21|12.97|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||12.97|6.21|
82561602|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.0|||||TWO_SIDED|95.0|5.91|13.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||13.72|5.91|
82584692|NCT00409773|164881579|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.9|-3.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.9|-9.9|<0.001
82584693|NCT00409773|164881580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|2.6||0.809||95.0|-5.7|4.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.5|-5.7|0.809
82584694|NCT00409773|164881580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.2|STANDARD_ERROR_OF_MEAN|2.6||0.217||95.0|-1.9|8.4|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||8.4|-1.9|0.217
82489895|NCT02586064|164672718|OTHER|||||||0.84|||||||t-test, 1 sided|||Change||||0.84
82489896|NCT02586064|164672718|OTHER|||||||0.3|||||||t-test, 1 sided|||3 Month Follow Up||||0.30
82561603|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.58|||||TWO_SIDED|95.0|5.36|10.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.72|5.36|
82561604|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.56|||||TWO_SIDED|95.0|1.3|1.86|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.86|1.30|
82561605|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.93|||||TWO_SIDED|95.0|1.43|2.6|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.60|1.43|
82561606|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.46|||||TWO_SIDED|95.0|3.09|6.45|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.45|3.09|
82561607|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.32|||||TWO_SIDED|95.0|3.65|7.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.75|3.65|
82584695|NCT00409773|164881580|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|2.6||0.796||95.0|-5.8|4.4|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.4|-5.8|0.796
82489897|NCT02586064|164672718|OTHER|||||||0.16|||||||t-test, 1 sided|||6 Month Post Treatment||||0.16
82561608|NCT00824850|164832683|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.27|||||TWO_SIDED|95.0|2.49|4.28|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.28|2.49|
82584696|NCT00409773|164881581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-12.1|-6.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.6|-12.1|<0.001
82584697|NCT00409773|164881581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.1|-2.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.6|-8.1|<0.001
82584698|NCT00409773|164881581|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.0|-2.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.5|-8.0|<0.001
82584699|NCT00409773|164881582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|1.2||0.042||95.0|0.1|4.8|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.8|0.1|0.042
82584700|NCT00409773|164881582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-0.2|4.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.5|-0.2|<0.001
82584701|NCT00409773|164881582|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.0|4.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||4.0|-7.0|<0.001
82584702|NCT00409773|164881583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-11.6|-6.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.0|-11.6|<0.001
82584703|NCT00409773|164881583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.2|-2.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.5|-8.2|<0.001
82489898|NCT01967173|164672740|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 250 is equal to the inferiority of Advair 100/50 compared to Fluticasone 250||||0.003
82489899|NCT01967173|164672740|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 250 is equal to the inferiority of Advair 100/50 compared to Fluticasone 250||||0.9
82584704|NCT00409773|164881583|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-8.7|-3.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.1|-8.7|<0.001
82584705|NCT00409773|164881584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-17.6|-10.5|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-10.5|-17.6|<0.001
82584706|NCT00409773|164881584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.7|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-13.2|-6.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-6.1|-13.2|<0.001
82584707|NCT00409773|164881584|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-12.0|-4.9|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.9|-12.0|<0.001
82584708|NCT00409773|164881585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-14.0|-8.0|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-8.0|-14.0|<0.001
82584709|NCT00409773|164881585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-9.4|-3.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.3|-9.4|<0.001
82584710|NCT00409773|164881585|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-8.7|-2.7|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-2.7|-8.7|<0.001
82489900|NCT01967173|164672740|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 500 is equal to the inferiority of Advair 100/50 compared to Fluticasone 500||||<0.001
82561609|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|15.86|||||TWO_SIDED|95.0|9.16|27.46|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||27.46|9.16|
82561610|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.01|||||TWO_SIDED|95.0|3.5|7.16|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.16|3.50|
82561611|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.86|||||TWO_SIDED|95.0|2.93|5.09|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.09|2.93|
82561612|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.57|||||TWO_SIDED|95.0|11.11|27.79|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||27.79|11.11|
82561613|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.22|||||TWO_SIDED|95.0|2.86|6.23|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.23|2.86|
82561614|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.54|||||TWO_SIDED|95.0|1.78|3.62|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.62|1.78|
82561615|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.21|||||TWO_SIDED|95.0|2.86|6.19|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.19|2.86|
82561616|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.23|||||TWO_SIDED|95.0|2.79|6.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||6.42|2.79|
82561617|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.63|||||TWO_SIDED|95.0|1.3|2.05|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.05|1.30|
82561618|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.67|||||TWO_SIDED|95.0|1.3|2.14|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.14|1.30|
82561619|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.6|||||TWO_SIDED|95.0|2.39|5.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.42|2.39|
82561620|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.41|||||TWO_SIDED|95.0|2.42|4.82|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||4.82|2.42|
82561621|NCT00824850|164832684|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.6|2.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.26|1.60|
82561622|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.36|||||TWO_SIDED|95.0|4.5|15.56|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.56|4.50|
82561623|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.37|||||TWO_SIDED|95.0|1.78|3.16|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.16|1.78|
82584711|NCT00409773|164881586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-15.0|-8.1|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-8.1|-15.0|<0.001
82584712|NCT00409773|164881586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-10.4|-3.6|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-3.6|-10.4|<0.001
82584713|NCT00409773|164881586|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|-11.2|-4.3|||ANOVA|ANOVA with terms for treatment and baseline risk stratum||||-4.3|-11.2|<0.001
82584714|NCT00409773|164881589|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.9||||0.42||95.0|-11.0|5.0|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||5.0|-11.0|0.420
82584715|NCT00409773|164881589|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.9||||0.555||95.0|-9.5|7.2|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||7.2|-9.5|0.555
82584716|NCT00409773|164881589|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|2.3||||0.41||95.0|-5.1|9.6|||Non-parametric ANOVA|ANOVA using normal scores (Tukey method) based on ranks with terms for treatment and baseline risk stratum||||9.6|-5.1|0.410
82584717|NCT01440374|164881599|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.202||||0.0315|TWO_SIDED|95.0|0.047|0.868|||Generalized Linear Mixed Models|||||0.868|0.047|0.0315
82584718|NCT03938545|164881654|SUPERIORITY||Risk Difference (RD)|21.4|||=|0.1993|TWO_SIDED|95.0|-11.3|54.1||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 680 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||54.1|-11.3|=0.1993
82584719|NCT03938545|164881654|SUPERIORITY||Risk Difference (RD)|24.2|||=|0.1016|TWO_SIDED|95.0|-4.8|53.2||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 340 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||53.2|-4.8|=0.1016
82584720|NCT03938545|164881654|SUPERIORITY||Risk Difference (RD)|-8.3|||=|0.2963|TWO_SIDED|95.0|-24.0|7.3||p-values were obtained from a Mantel-Haenszel test stratified by smoking status at baseline comparing RVT-1401 255 mg/Week group to placebo.|Cochran-Mantel-Haenszel||The risk difference was obtained from a weighted average of the difference within each stratum using Cochran Mantel-Haenszel weights.|||7.3|-24.0|=0.2963
82584721|NCT03938545|164881656|SUPERIORITY||Least Square Mean Difference|-60.085|||<|0.001|TWO_SIDED|95.0|-88.857|-31.313|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-31.313|-88.857|<0.001
82584722|NCT03938545|164881656|SUPERIORITY||Least Square Mean Difference|-65.143|||<|0.001|TWO_SIDED|95.0|-91.927|-38.358|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-38.358|-91.927|<0.001
82584723|NCT03938545|164881656|SUPERIORITY||Least Square Mean Difference|-37.323|||=|0.0284|TWO_SIDED|95.0|-70.455|-4.19|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||||-4.190|-70.455|=0.0284
82584724|NCT03938545|164881657|SUPERIORITY||Least Square Mean Difference|-73.003|||<|0.001|TWO_SIDED|95.0|-82.309|-63.697|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-63.697|-82.309|<0.001
82584725|NCT03938545|164881657|SUPERIORITY||Least Square Mean Difference|-59.005|||<|0.001|TWO_SIDED|95.0|-67.821|-50.19|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-50.190|-67.821|<0.001
82584726|NCT03938545|164881657|SUPERIORITY||Least Square Mean Difference|-51.836|||<|0.001|TWO_SIDED|95.0|-62.66|-41.012|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||Week 13||-41.012|-62.660|<0.001
82489901|NCT01967173|164672740|SUPERIORITY|||||||0.42|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Advair 250/50 is equal to the inferiority of Advair 100/50 compared to Advair 250/50||||0.42
82584727|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-81.49|||<|0.001|TWO_SIDED|95.0|-93.203|-69.777|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-69.777|-93.203|<0.001
82584728|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-67.591|||<|0.001|TWO_SIDED|95.0|-78.562|-56.62|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-56.620|-78.562|<0.001
82584729|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-67.233|||<|0.001|TWO_SIDED|95.0|-81.073|-53.394|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG1||-53.394|-81.073|<0.001
82584730|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-74.865|||<|0.001|TWO_SIDED|95.0|-86.898|-62.832|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-62.832|-86.898|<0.001
82584731|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-53.198|||<|0.001|TWO_SIDED|95.0|-64.799|-41.596|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-41.596|-64.799|<0.001
82584732|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-53.398|||<|0.001|TWO_SIDED|95.0|-67.552|-39.245|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG2||-39.245|-67.552|<0.001
82584733|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-88.764|||<|0.001|TWO_SIDED|95.0|-103.039|-74.489|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-74.489|-103.039|<0.001
82584734|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-65.714|||<|0.001|TWO_SIDED|95.0|-78.742|-52.686|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-52.686|-78.742|<0.001
82584735|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-66.685|||<|0.001|TWO_SIDED|95.0|-83.157|-50.214|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG3||-50.214|-83.157|<0.001
82489902|NCT01967173|164672740|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Advair 250/50 is equal to the inferiority of Advair 100/50 compared to Advair 250/50||||0.84
82489903|NCT01967173|164672740|SUPERIORITY|||||||0.015|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 500 is equal to the inferiority of Advair 250/50 compared to Fluticasone 500||||0.015
82489904|NCT01967173|164672740|SUPERIORITY|||||||0.085|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 250 is equal to the inferiority of Advair 250/50 compared to Fluticasone 250||||0.085
82489905|NCT01967173|164672740|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 250/50 compared to Fluticasone 250 is equal to the inferiority of Advair 250/50 compared to Fluticasone 250||||0.62
82489906|NCT01967173|164672740|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Fluticasone 500 compared to Fluticasone 250 is equal to the inferiority of Fluticasone 500 compared to Fluticasone 250||||0.48
82489907|NCT01967173|164672740|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Advair 100/50 compared to Fluticasone 100 is equal to the inferiority of Advair 100/50 compared to Fluticasone 100||||0.14
82561624|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.02|||||TWO_SIDED|95.0|1.63|2.49|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.49|1.63|
82561625|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.61|||||TWO_SIDED|95.0|4.31|10.15|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||10.15|4.31|
82561626|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.92|||||TWO_SIDED|95.0|3.34|7.26|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||7.26|3.34|
82561627|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.73|||||TWO_SIDED|95.0|2.08|3.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.57|2.08|
82561628|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.82|||||TWO_SIDED|95.0|2.08|3.83|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.83|2.08|
82561629|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.79|||||TWO_SIDED|95.0|2.8|5.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||5.13|2.80|
82561630|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.32|||||TWO_SIDED|95.0|1.11|1.57|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.57|1.11|
82561631|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.61|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1.61|1.05|
82561632|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.04|||||TWO_SIDED|95.0|1.51|2.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.75|1.51|
82561633|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.87|||||TWO_SIDED|95.0|2.19|3.77|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||3.77|2.19|
82561634|NCT00824850|164832685|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.95|||||TWO_SIDED|95.0|1.59|2.39|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||2.39|1.59|
82561635|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|201.8|||||TWO_SIDED|95.0|55.11|739.05|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||739.05|55.11|
82584736|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-68.722|||<|0.001|TWO_SIDED|95.0|-80.877|-56.568|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-56.568|-80.877|<0.001
82584737|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-55.554|||<|0.001|TWO_SIDED|95.0|-67.182|-43.926|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-43.926|-67.182|<0.001
82584738|NCT03938545|164881658|SUPERIORITY||Least Square Mean Difference|-53.079|||<|0.001|TWO_SIDED|95.0|-67.948|-38.21|||ANCOVA|The model included baseline value of the corresponding parameter, smoking stratum, and treatment group as covariates.||IgG4||-38.210|-67.948|<0.001
82584739|NCT01060540|164881659|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||0.44|TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|Adjusted for family history (low/unknown vs. high/moderate) and BMI\>=35 (yes vs no) stratification variables||||0.7|-0.3|0.44
82584740|NCT01060540|164881660|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.19|TWO_SIDED|95.0|-0.1|0.3||adjusted for baseline BMI class and family history level stratification variables|Mixed Models Analysis|||||0.3|-0.1|0.19
82584741|NCT01060540|164881661|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.38|TWO_SIDED|95.0|-0.4|0.1||adjusted for stratification variables baseline BMI and family history|Mixed Models Analysis|||||0.1|-0.4|0.38
82584742|NCT01060540|164881662|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.05|TWO_SIDED|95.0|-0.2|0.0||adjusted for baseline family history and BMI|Mixed Models Analysis|||||0.0|-0.2|0.05
82584743|NCT01060540|164881663|SUPERIORITY_OR_OTHER||incident rate ratio|0.9||||0.68|TWO_SIDED|95.0|0.7|1.2||adjusted for baseline family history and BMI|generalized linear model for count data|||||1.2|0.7|0.68
82584744|NCT00320541|164881674|SUPERIORITY_OR_OTHER|||||||0.117||95.0||||Statistical significance at 0.05 level was required.|Fisher Exact|||Assuming the response rate for the PB arm is 34% and the addition of gemcitabine will improve it to 54%, then a sample size of 170 evaluable participants (85 per arm) will give an 80% statistical power to detect the difference, using a 1-sided test at the significance level of 0.05. Confidence levels are exact binomial 95% Confidence Intervals.||||0.117
82584745|NCT00320541|164881675|SUPERIORITY_OR_OTHER|||||||0.247||95.0|||||Log Rank|||||||0.247
82584746|NCT00320541|164881676|SUPERIORITY_OR_OTHER|||||||0.475||95.0|||||Log Rank|||||||0.475
82584747|NCT00320541|164881677|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.010
82584748|NCT00320541|164881678|SUPERIORITY_OR_OTHER|||||||0.119||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.119
82584749|NCT00320541|164881679|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.023
82584750|NCT00320541|164881680|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.002
82584751|NCT00320541|164881681|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.004
82584752|NCT00320541|164881682|SUPERIORITY_OR_OTHER|||||||0.067||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.067
82584753|NCT00320541|164881683|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|ANCOVA model included treatment arm and baseline assessment.||||||0.036
82489908|NCT01967173|164672740|SUPERIORITY|||||||0.096|||||||Mixed Models Analysis|||Test of the null hypothesis that the superiority of Fluticasone 250 compared to Fluticasone 100 is equal to the inferiority of Fluticasone 250 compared to Fluticasone 100||||0.096
82584754|NCT02401867|164881684|NON_INFERIORITY_OR_EQUIVALENCE|We selected our initial sample size of 150 participants to detect a clinically meaningful % discordance between the two sampling approaches and achieve 90% power at the 0.05 alpha-level using McNemar's test adjusted for analysis of clustered matched-pair data.||||||0.29||||||Statistical significance was determined at an a priori threshold of p \<0.05|McNemar|Degrees of freedom = 1||Comparing the concordance of the HPV DNA-positive results to the cervical provider swab HPV DNA test results (reference) using the McNemar's test, a two-sample test for binomial proportions for matched-pair data. Null hypothesis: The sensitivities between swab 1 (self-vaginal) and swab 2 (provider-cervical) are equal \[ H0 : p1 = p2 \]||||.29
82584755|NCT02401867|164881684|SUPERIORITY_OR_OTHER||Kappa|0.75|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|0.58|0.92||A priori threshold: p\<0.05|Kappa||Using the asymptotic standard error assuming the null hypothesis.|Concordance of HPV DNA detection between self-swab and provider swab assessed via an unweighted Kappa (K) statistic to determine the percentage agreement beyond that expected by chance.||0.92|0.58|<0.001
82584756|NCT02401867|164881684|SUPERIORITY_OR_OTHER||Sensitivity|71.43|||||TWO_SIDED|95.0|47.82|88.72|||||Used exact confidence intervals.|Assessed sensitivity of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||88.72|47.82|
82584757|NCT02401867|164881684|NON_INFERIORITY_OR_EQUIVALENCE|Assessed specificity of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).|Specificity|98.18|||||TWO_SIDED|95.0|93.59|99.78|||||Used exact confidence intervals.|||99.78|93.59|
82584758|NCT02401867|164881684|SUPERIORITY_OR_OTHER||Positive Predictive Value|88.24|||||TWO_SIDED|95.0|63.56|98.54|||||Used exact confidence intervals.|Assessed positive predictive value of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||98.54|63.56|
82584759|NCT02401867|164881684|SUPERIORITY_OR_OTHER||Negative predictive value|94.74|||||TWO_SIDED|95.0|88.9|98.04|||||Used exact confidence intervals|Assessed negative predictive value of vaginal self-swab HPV DNA with respect to provider cervical HPV DNA (reference test).||98.04|88.90|
82584760|NCT00081770|164881687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.567||95.0|0.79|1.14||Holm's method for multiplicity adjustment was to be used to control the overall Type I error rate at α = 0.05. However, since there was no significant difference in the overall SVR rates between the three groups, no Type-1 error adjustment was made.|Regression, Logistic|The p-value is based on the logistic regression model that includes treatment and baseline stratification factors (viral load and race).|The odds ratio is based on the logistic regression model that includes treatment and baseline stratification factors: viral load (≤600,000 IU/mL vs \>600,000 IU/mL) and race (Black vs non-Black).|||1.14|0.79|0.567
82584761|NCT00081770|164881687|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.195||95.0|0.9|1.3||Holm's method for multiplicity adjustment was to be used to control the overall Type I error rate at α = 0.05. However, since there was no significant difference in the overall SVR rates between the three groups, no Type-1 error adjustment was made.|Regression, Logistic|The p-value is based on the logistic regression model that includes treatment and baseline stratification factors (viral load and race).|The odds ratio is based on the logistic regression model that includes treatment and baseline stratification factors: viral load (≤600,000 IU/mL vs \>600,000 IU/mL) and race (Black vs non-Black).|||1.30|0.90|0.195
82584762|NCT00081770|164881689|SUPERIORITY_OR_OTHER||Percentage of participants|39.9||||||95.0|36.9|42.9|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||42.9|36.9|
82584763|NCT00081770|164881689|SUPERIORITY_OR_OTHER||Percentage of participants|36.0||||||95.0|33.1|39.0|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||39.0|33.1|
82584764|NCT00081770|164881689|SUPERIORITY_OR_OTHER||Percentage of participants|45.0||||||95.0|42.0|48.1|||||Percentage of participants with undetectable HCV-RNA at Treatment Week 12|||48.1|42.0|
82584765|NCT04234425|164881693|OTHER|paired t test|Mean Difference (Final Values)|2.702|STANDARD_DEVIATION|5.36||0.017|TWO_SIDED||||||t-test, 2 sided|||||||.017
82584766|NCT04234425|164881694|OTHER|paired t test|Mean Difference (Final Values)|4.2|STANDARD_DEVIATION|7.06||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.08
82584767|NCT04234425|164881695|OTHER|paired t test|Mean Difference (Final Values)|20.47|STANDARD_DEVIATION|7.33||0.026|TWO_SIDED||||||t-test, 2 sided|||||||.026
82584768|NCT03719170|164881700|SUPERIORITY||Slope|0.0000684|||||TWO_SIDED|95.0|-0.0003|0.000413||||||"Power Calculation:~Assuming approximately the same number of eligible subjects in each VISN (with an average of 10,563 candidates per VISN) and an Intraclass correlation coefficient (ICC) of 0.12, randomizing 17 VISNs will give more than 80% power to detect % days on PPI of 75% vs. 50%, 85% vs. 60%, 80% vs. 55%, or 70% vs. 45%, but to detect a difference between 70% vs. 50%, power is only 61% using 0.05 level 2-sided test."||0.000413|-0.0003|
82584769|NCT00690820|164881772|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82584770|NCT00690820|164881773|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82584771|NCT00690820|164881774|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82584772|NCT00690820|164881775|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82584773|NCT00690820|164881776|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||<0.001
82584774|NCT00690820|164881777|SUPERIORITY_OR_OTHER|||||||0.671||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.671
82584775|NCT00690820|164881778|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.003
82584776|NCT00690820|164881779|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||The parameter was analyzed using an analysis of variance (ANOVA) including treatment, sequence and period as fixed effect and subject within sequence as a random effect.||||0.023
82584777|NCT03881553|164881823|OTHER|Non-parametric Friedmans||||||0.081||||||χ2 =5.03|Friedman's|||||||0.081
82584778|NCT03881553|164881823|OTHER|Post hoc: Wilcoxon||||||0.05||||||ON1 compared to OFF1|Wilcoxon (Mann-Whitney)|||||||0.05
82584779|NCT03881553|164881823|OTHER|Post Hoc Wilcoxon||||||0.021||||||ON1 compared to OFF2|Wilcoxon (Mann-Whitney)|||||||0.021
82584780|NCT01718353|164881828|OTHER|||||||0.02|||||||ANOVA|||%ARNL change from baseline at Cycle 1 Day 8 in participants with ≥50% decrease in PSA at Cycle 4 was compared with that of participants who did not have ≥50% decrease in PSA at Cycle 4||||0.02
82584781|NCT01718353|164881836|OTHER|||||||0.0927|||||||ANOVA|||MTB change from baseline at Cycle 1 Day 8 in participants with ≥30% decrease in PSA at Cycle 4 was compared with that of participants who did not have ≥30% decrease in PSA at Cycle 4||||0.0927
82584782|NCT01959516|164881837|SUPERIORITY_OR_OTHER|||||||0.025|||||||Mixed Models Analysis|||||||0.0250
82584783|NCT01959516|164881838|SUPERIORITY_OR_OTHER|||||||0.1439|||||||Mixed Models Analysis|||||||0.1439
82584784|NCT01078675|164881864|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.88|STANDARD_DEVIATION|18.222|<|0.001|TWO_SIDED|-42.88|-45.44|-40.32||P-value\<0.001 at Month 24. No adjustment for multiple comparisons is made for individual age group.|ANCOVA|P-value is two-sided and based on ANCOVA using age group as the fixed factor, and study centre and the baseline value as covariates.||||-40.32|-45.44|<0.001
82584785|NCT03110185|164881953|OTHER|Correlation||||||0.0761||||||Delirium Incidence. There were no multiple comparisons, but includes age as a regressor. a priori threshold was p \< 0.05.|Regression, Logistic|Generalized logistic regression for delirium incidence and total DMN fc with age as a regressor.||||||0.0761
82584786|NCT02641496|164881954|OTHER|ANOVA||||||0.027||||||Significance threshold p\<0.05; one-tailed|ANOVA|||Treatment 1 to Treatment 4 (approximately first 30 days of treatment)||||0.027
82584787|NCT02641496|164881954|OTHER|ANOVA||||||0.919||||||Significance threshold p\<0.05; one-tailed|ANOVA|||Last 30 Days of 1 Year Study||||0.919
82584788|NCT02641496|164881955|OTHER|||||||0.696||||||Significance threshold p\<0.05; one-tailed|ANOVA|||||||0.696
82584789|NCT02641496|164881956|OTHER|||||||0.593||||||Significance threshold p\<0.05; two-tailed|ANOVA|||||||0.593
82584790|NCT02641496|164881957|OTHER|||||||0.925||||||Significance threshold p\<0.05; one-tailed|ANOVA|||||||0.925
82584791|NCT03075410|164881991|OTHER||Ratio|1.07|||||TWO_SIDED|90.0|0.87|1.34|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-t). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is used.|||1.34|0.87|
82584792|NCT03075410|164881992|OTHER||Ratio|0.94|||||TWO_SIDED|90.0|0.71|1.26|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter AUC(0-inf). Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is use|||1.26|0.71|
82584793|NCT03075410|164881993|OTHER||Ratio|0.97|||||TWO_SIDED|90.0|0.76|1.23|||||Mixed Effect Model has been used to assess Food Effect for the log transformed parameter Cmax. Treatment in the fed/fasted state is fitted as Fixed Effect. Participant is fitted as Random Effect. Variance Components covariance structure is used.|||1.23|0.76|
82584794|NCT03075410|164881994|OTHER||Ratio|0.89|||||TWO_SIDED|90.0|0.64|1.23|||||Fixed Effect Model has been used to assess Food Effect for the log transformed parameter t1/2 Treatment in the fed/fasted state is fitted as Fixed Effect.|||1.23|0.64|
82584795|NCT03075410|164881995|OTHER||Median Difference (Final Values)|0.75|||||TWO_SIDED|90.0|-0.5|2.5|||||Hodges-Lehmann estimation is used to calculate the 90% confidence interval.|||2.50|-0.50|
82584796|NCT03075410|164881999|OTHER||Slope|1.1|||||TWO_SIDED|90.0|1.09|1.1|||||Mixed Effect Model has been used to assess Steady State. Day is fitted as a Fixed Effect. Participant is fitted as Random Effect Variance Components covariance structure is used.|Repeat GSK3036656 5mg Day 1-14||1.10|1.09|
82584797|NCT03075410|164881999|OTHER||Slope|1.08|||||TWO_SIDED|90.0|1.07|1.08|||||Mixed Effect Model has been used to assess Steady State. Day is fitted as a Fixed Effect. Participant is fitted as Random Effect Variance Components covariance structure is used.|Repeat GSK3036656 15mg Day 1-14||1.08|1.07|
82584798|NCT03075410|164882000|OTHER||Slope|0.96|||||TWO_SIDED|90.0|0.82|1.1|||||A slope of 1 indicates the pharmacokinetics are dose proportional. A slope greater than 1 indicates the increase in PK is greater than proportional to dose.||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|1.10|0.82|
82584799|NCT03075410|164882001|OTHER||Slope|1.32|||||TWO_SIDED|90.0|1.24|1.39|||||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|||1.39|1.24|
82584800|NCT03075410|164882002|OTHER||Slope|0.96|||||TWO_SIDED|90.0|0.81|1.11|||||Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect and Participant is fitted as Random Effect. An Unstructured covariance structure is used.|||1.11|0.81|
82584801|NCT03075410|164882003|OTHER||Slope|1.24|||||TWO_SIDED|90.0|1.15|1.33|||||Day 1.Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.33|1.15|
82584802|NCT03075410|164882003|OTHER||Slope|1.06|||||TWO_SIDED|90.0|0.9|1.22|||||Day 14. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.22|0.90|
82584803|NCT03075410|164882004|OTHER||Slope|1.19|||||TWO_SIDED|90.0|0.92|1.46|||||Day 1. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.46|0.92|
82584804|NCT03075410|164882004|OTHER||Slope|1.06|||||TWO_SIDED|90.0|0.89|1.22|||||Day 14. Power Model has been used to assess Dose Proportionality. Log-e(dose) is fitted as Fixed Effect.|||1.22|0.89|
82584805|NCT03464097|164882047|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0539|TWO_SIDED|95.0|0.99|2.55|||Cochran-Mantel-Haenszel|||||2.55|0.99|0.0539
82584806|NCT03464097|164882048|SUPERIORITY||Odds Ratio (OR)|1.51||||0.1503|TWO_SIDED|95.0|0.86|2.65|||Cochran-Mantel-Haenszel|||||2.65|0.86|0.1503
82584807|NCT03464097|164882049|SUPERIORITY||Odds Ratio (OR)|1.45||||0.1121|TWO_SIDED|95.0|0.92|2.29|||Cochran-Mantel-Haenszel|||||2.29|0.92|0.1121
82584808|NCT03464097|164882050|SUPERIORITY||Odds Ratio (OR)|1.46||||0.1163|TWO_SIDED|95.0|0.91|2.35|||Cochran-Mantel-Haenszel|||||2.35|0.91|0.1163
82584809|NCT03464097|164882051|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0561|TWO_SIDED|95.0|0.98|3.2|||Cochran-Mantel-Haenszel|||||3.20|0.98|0.0561
82489909|NCT02002832|164672761|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|LS mean for the treatment difference(lurasidone-risperidone) at week 6 and its 95% confidence interval was presented based on the MMRM. Non-inferiority for lurasidone relative to risperidone was evaluated by comparing the upper bound of the 95% confidence interval to the non-inferiority margin of 7.0. Plots of estimates for change from baseline in PANSS total score based on MMRM over time (Week 1 to Week 6) with 95% confidence intervals was provided for each treatment group.|Mean Difference (Final Values)|3.7|STANDARD_ERROR_OF_MEAN|1.37|||TWO_SIDED|95.0|1.0|6.3|||Mixed Models Analysis|||||6.3|1.0|
82489910|NCT03540030|164672763|OTHER|||||||0.297|||||||Wilcoxon (Mann-Whitney)|||||||.297
82584810|NCT03464097|164882052|SUPERIORITY||Odds Ratio (OR)|1.31||||0.5061|TWO_SIDED|95.0|0.6|2.86|||Cochran-Mantel-Haenszel|||||2.86|0.60|0.5061
82584811|NCT03464097|164882053|SUPERIORITY||Odds Ratio (OR)|2.11||||0.1179|TWO_SIDED|95.0|0.82|5.44|||Cochran-Mantel-Haenszel|||||5.44|0.82|0.1179
82584812|NCT03464097|164882054|SUPERIORITY||Odds Ratio (OR)|1.78||||0.0769|TWO_SIDED|95.0|0.94|3.39|||Cochran-Mantel-Haenszel|||||3.39|0.94|0.0769
82584813|NCT03464097|164882055|SUPERIORITY||Odds Ratio (OR)|2.71||||0.0623|TWO_SIDED|95.0|0.92|7.98|||Cochran-Mantel-Haenszel|||||7.98|0.92|0.0623
82584814|NCT03464097|164882056|SUPERIORITY||Odds Ratio (OR)|1.63||||0.1162|TWO_SIDED|95.0|0.89|3.0|||Cochran-Mantel-Haenszel|||||3.00|0.89|0.1162
82489911|NCT03540030|164672764|OTHER|||||||0.005||||||At the 6 hour time point|Wilcoxon (Mann-Whitney)|||||||0.005
82489912|NCT03540030|164672764|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||At the 12 hour time point||||0.005
82584815|NCT03464097|164882057|SUPERIORITY||Odds Ratio (OR)|1.34||||0.2143|TWO_SIDED|95.0|0.85|2.11|||Cochran-Mantel-Haenszel|||||2.11|0.85|0.2143
82584816|NCT03464097|164882058|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0663|TWO_SIDED|95.0|0.97|2.57|||Cochran-Mantel-Haenszel|||||2.57|0.97|0.0663
82584817|NCT03464097|164882059|SUPERIORITY||Odds Ratio (OR)|3.81||||0.0774|TWO_SIDED|95.0|0.78|18.64|||Cochran-Mantel-Haenszel|||||18.64|0.78|0.0774
82584818|NCT03464097|164882061|SUPERIORITY||Odds Ratio (OR)|1.88||||0.0308|TWO_SIDED|95.0|1.06|3.33|||Cochran-Mantel-Haenszel|||||3.33|1.06|0.0308
82584819|NCT03464097|164882062|SUPERIORITY||Odds Ratio (OR)|1.05||||0.8745|TWO_SIDED|95.0|0.57|1.95|||Cochran-Mantel-Haenszel|||||1.95|0.57|0.8745
82584820|NCT03464097|164882063|SUPERIORITY||Odds Ratio (OR)|1.98||||0.0361|TWO_SIDED|95.0|1.04|3.78|||Cochran-Mantel-Haenszel|||||3.78|1.04|0.0361
82584821|NCT03035201|164882064|OTHER|two-tailed test of the null hypothesis of no differences between groups.|Mean from linear contrast|0.03|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|-0.02|0.08||Not adjusted|Mixed Models Analysis||Marginal effect of cocoa flavonal versus cocoa placebo based on the mean difference between linear contrasts.|Marginal comparisons from a repeated measures model using a linear contrast to estimate the mean differences between baseline versus average values across follow-up.|Wald test of a linear contrast from the mixed effects analysis....see protocol.|0.08|-0.02|<0.05
82586159|NCT05437510|164884202|SUPERIORITY||Efficacy|66.38||||0.0046|TWO_SIDED|95.0|25.952|86.137|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through Day 151 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||86.137|25.952|0.0046
82584822|NCT03035201|164882065|EQUIVALENCE|two-tailed test of the null hypothesis of no differences between groups.|Mean difference of linear contrasts|0.07|STANDARD_ERROR_OF_MEAN|0.02|<|0.05|TWO_SIDED|95.0|0.02|0.12||Not adjusted|Wald test||Marginal effects of multivitamin versus multivitamin placebo|Marginal comparisons from a repeated measures model using a linear contrast to estimate the mean differences between baseline versus average values across follow-up.|Wald test of a linear contrast from the mixed effects analysis....see protocol|0.12|0.02|<0.05
82584823|NCT03035201|164882066|EQUIVALENCE|Proportional hazards regression -- unadjusted two-sided test|Hazard Ratio (HR)|0.76||||0.15|TWO_SIDED|95.0|0.52|1.11||Not adjusted|Regression, Cox||Comparison group is placebo|||1.11|0.52|0.15
82584824|NCT03035201|164882067|EQUIVALENCE|Unadjusted 2-sided test|Cox Proportional Hazard|0.91||||0.62|TWO_SIDED|95.0|0.63|1.32||Unadjusted|Regression, Cox||Comparison group is placebo.|||1.32|0.63|0.62
82584825|NCT03035201|164882068|EQUIVALENCE|Cocoa Flavonal minus Placebo|Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.24|TWO_SIDED|95.0|-0.02|0.08||Unadjusted|Mixed Models Analysis|Wald test comparing linear contrasts|Cocoa Flavonal minus placebo|||0.08|-0.02|0.24
82584826|NCT03035201|164882069|EQUIVALENCE|two-sided|Median Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|95.0|-0.04|0.09||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts: cocoa flavonal minus placebo|Cocoa flavonal minus placebo|Unadjusted 2-tailed test||0.09|-0.04|0.41
82584827|NCT03035201|164882070|EQUIVALENCE|2 sided test, multivitamin minus placebo|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.02|TWO_SIDED|95.0|0.01|0.11||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts|Multivitamin minus placebo|2-sided test, unadjusted||0.11|0.01|0.02
82584828|NCT03035201|164882071|EQUIVALENCE|2-sided, unadjusted|Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.04|TWO_SIDED|95.0|0.002|0.126||Unadjusted|Mixed Models Analysis|Comparison of linear contrasts|Multivitamin minus placebo|Multivitamin minus placebo||0.126|0.002|0.04
82584829|NCT02390050|164882072|SUPERIORITY||Difference of LS Means|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.34||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.34|-0.76|< 0.0001
82584830|NCT02390050|164882072|SUPERIORITY||Difference of LS Means|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.89|-0.47||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.47|-0.89|< 0.0001
82584831|NCT02390050|164882072|SUPERIORITY||Difference of LS Means|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.01|-0.59||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||||-0.59|-1.01|< 0.0001
82584832|NCT02390050|164882073|SUPERIORITY||Odds Ratio (OR)|2.1||||0.1308|TWO_SIDED|95.0|0.8|5.3|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 5 mg bexagliflozin group was compared to placebo group.||5.3|0.8|0.1308
82584833|NCT02390050|164882073|SUPERIORITY||Odds Ratio (OR)|2.0||||0.1294|TWO_SIDED|95.0|0.8|5.1|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 10 mg bexagliflozin group was compared to placebo group.||5.1|0.8|0.1294
82584834|NCT02390050|164882073|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0015|TWO_SIDED|95.0|1.7|10.3|||Regression, Logistic|Treatment, country, baseline HbA1c and prior anti-diabetic treatment status as predictor variables and a dependable variable of 1 (\<7%) or 0 (\>7%).||Odds ratio of having at least 1 post-baseline HbA1c value \<7% in the 20 mg bexagliflozin group was compared to placebo group.||10.3|1.7|0.0015
82652065|NCT02247479|165019405|SUPERIORITY||Difference in Adjusted Means|-0.2||||0.8423|TWO_SIDED|95.0|-1.9|1.6|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline BCVA, GA lesion location, biomarker status, and sex.||1.6|-1.9|0.8423
82584835|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-0.74|||||TWO_SIDED|95.0|-1.13|-0.36||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.36|-1.13|
82584836|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-0.76|||||TWO_SIDED|95.0|-1.15|-0.38||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.38|-1.15|
82584837|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-0.99|||||TWO_SIDED|95.0|-1.38|-0.61||||||Week 2: Difference in LS mean change in body weight from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.61|-1.38|
82489913|NCT03540030|164672765|OTHER|||||||0.0801|||||||Fisher Exact|||||||0.0801
82489914|NCT03540030|164672766|OTHER|||||||0.0154|||||||Chi-squared|||||||0.0154
82584838|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.02|||||TWO_SIDED|95.0|-1.53|-0.52||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.52|-1.53|
82584839|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.45|||||TWO_SIDED|95.0|-1.95|-0.94||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.94|-1.95|
82584840|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.51|||||TWO_SIDED|95.0|-2.01|-1.01||||||Week 6: Difference in LS mean change in body weight from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-1.01|-2.01|
82584841|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.44|||<|0.0001|TWO_SIDED|95.0|-2.12|-0.76||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.76|-2.12|< 0.0001
82652066|NCT02247479|165019406|SUPERIORITY||Odds Ratio (OR)|1.3||||0.3248|TWO_SIDED|95.0|0.8|2.2|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline BCVA, baseline GA lesion location, biomarker status, and sex.||2.2|0.8|0.3248
82584842|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.59|||<|0.0001|TWO_SIDED|95.0|-2.26|-0.91||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.91|-2.26|< 0.0001
82584843|NCT02390050|164882074|SUPERIORITY||Difference of LS Means|-1.75|||<|0.0001|TWO_SIDED|95.0|-2.43|-1.08||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline weight as covariates||Week 12: Difference in LS mean change in body weight from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-1.08|-2.43|< 0.0001
82584844|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-0.48|||||TWO_SIDED|95.0|-0.9|-0.06||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.06|-0.90|
82584845|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-0.9|||||TWO_SIDED|95.0|-1.31|-0.48||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.48|-1.31|
82584846|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-1.04|||||TWO_SIDED|95.0|-1.45|-0.62||||||Week 2: Difference in LS mean change in FPG from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.62|-1.45|
82584847|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-0.93|||||TWO_SIDED|95.0|-1.39|-0.48||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.48|-1.39|
82584848|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-1.17|||||TWO_SIDED|95.0|-1.62|-0.72||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.72|-1.62|
82584849|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-1.1|||||TWO_SIDED|95.0|-1.55|-0.65||||||Week 6: Difference in LS mean change in FPG from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.65|-1.55|
82584850|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-0.85||||0.0002|TWO_SIDED|95.0|-1.29|-0.41||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.41|-1.29|0.0002
82584851|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-1.05|||<|0.0001|TWO_SIDED|95.0|-1.49|-0.6||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.60|-1.49|< 0.0001
82584852|NCT02390050|164882075|SUPERIORITY||Difference of LS Means|-1.07|||<|0.0001|TWO_SIDED|95.0|-1.52|-0.63||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline FPG as covariates||Week 12: Difference in LS mean change in FPG from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.63|-1.52|< 0.0001
82584853|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-0.19|||||TWO_SIDED|95.0|-3.9|3.51||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||3.51|-3.90|
82584854|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.41|||||TWO_SIDED|95.0|-6.09|1.28||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.28|-6.09|
82584855|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-4.25|||||TWO_SIDED|95.0|-7.93|-0.58||||||Week 2: Difference in LS mean change in SBP from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.58|-7.93|
82584856|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-0.18|||||TWO_SIDED|95.0|-2.5|2.13||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.13|-2.50|
82584857|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-1.74|||||TWO_SIDED|95.0|-4.03|0.56||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||0.56|-4.03|
82584858|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.15|||||TWO_SIDED|95.0|-4.45|0.14||||||Week 2: Difference in LS mean change in DBP from baseline to week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.14|-4.45|
82584859|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-0.84|||||TWO_SIDED|95.0|-4.57|2.9||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.90|-4.57|
82489915|NCT03540030|164672767|OTHER|||||||0.2139|||||||Fisher Exact|||||||0.2139
82584860|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-3.39|||||TWO_SIDED|95.0|-7.12|0.34||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||0.34|-7.12|
82584861|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.51|||||TWO_SIDED|95.0|-6.21|1.2||||||Week 6: Difference in LS mean change in SBP from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||1.20|-6.21|
82584862|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|0.25|||||TWO_SIDED|95.0|-2.15|2.66||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||2.66|-2.15|
82584863|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-1.02|||||TWO_SIDED|95.0|-3.42|1.38||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.38|-3.42|
82584864|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-0.84|||||TWO_SIDED|95.0|-3.22|1.54||||||Week 6: Difference in LS mean change in DBP from baseline to week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||1.54|-3.22|
82652067|NCT02247479|165019406|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7209|TWO_SIDED|95.0|0.7|1.8|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline BCVA, baseline GA lesion location, biomarker status, and sex.||1.8|0.7|0.7209
82584865|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.16||||0.3001|TWO_SIDED|95.0|-6.26|1.94||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||1.94|-6.26|0.3001
82584866|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-4.41||||0.0343|TWO_SIDED|95.0|-8.49|-0.33||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.33|-8.49|0.0343
82584867|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-3.83||||0.0679|TWO_SIDED|95.0|-7.95|0.28|||ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in SBP from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.28|-7.95|0.0679
82584868|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.24||||0.0776|TWO_SIDED|95.0|-4.73|0.25||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||0.25|-4.73|0.0776
82584869|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-1.47||||0.2415|TWO_SIDED|95.0|-3.95|1.0||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||1.00|-3.95|0.2415
82584870|NCT02390050|164882076|SUPERIORITY||Difference of LS Means|-2.04||||0.1086|TWO_SIDED|95.0|-4.54|0.46||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline SBP as covariates||Week 12: Difference in LS mean change in DBP from baseline to week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||0.46|-4.54|0.1086
82584871|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.09|||||TWO_SIDED|95.0|-0.2|0.03||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||0.03|-0.20|
82584872|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.13|||||TWO_SIDED|95.0|-0.24|-0.02||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.02|-0.24|
82584873|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.13|||||TWO_SIDED|95.0|-0.24|-0.02||||||Week 2: Difference in LS Mean change in HbA1c (%) from baseline to Week 2 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.02|-0.24|
82584874|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.45|||||TWO_SIDED|95.0|-0.62|-0.28||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.28|-0.62|
82489916|NCT03540030|164672769|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
82489917|NCT03540030|164672770|OTHER|||||||0.9669|||||||Wilcoxon (Mann-Whitney)|||||||0.9669
82489918|NCT03540030|164672771|OTHER|||||||0.9208|||||||Wilcoxon (Mann-Whitney)|||||||.9208
82489919|NCT03540030|164672772|OTHER|||||||0.6481|||||||Wilcoxon (Mann-Whitney)|||For PCS only||||0.6481
82584875|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.49|||||TWO_SIDED|95.0|-0.66|-0.32||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.32|-0.66|
82584876|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.53|||||TWO_SIDED|95.0|-0.7|-0.36||||||Week 6: Difference in LS Mean change in HbA1c (%) from baseline to Week 6 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.36|-0.70|
82584877|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.55|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.34||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 5 mg group and Placebo group||-0.34|-0.76|< 0.0001
82584878|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.68|||<|0.0001|TWO_SIDED|95.0|-0.89|-0.47||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 10 mg group and Placebo group||-0.47|-0.89|< 0.0001
82489920|NCT03540030|164672772|OTHER|||||||0.3911|||||||Wilcoxon (Mann-Whitney)|||For MCS only||||0.3911
82584879|NCT02390050|164882077|SUPERIORITY||Difference of LS Means|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.01|-0.59||P-value from Type III F-test|ANCOVA|Study center, treatment, visit and a treatment-by-visit interaction as fixed effects; prior anti-diabetic treatment and baseline HbA1c as covariates||Week 12: Difference in LS Mean change in HbA1c (%) from baseline to Week 12 was obtained by comparing Bexagliflozin 20 mg group and Placebo group||-0.59|-1.01|< 0.0001
82489921|NCT03540030|164672773|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
82489922|NCT03540030|164672774|OTHER|||||||0.3177|||||||Fisher Exact|||||||0.3177
82489923|NCT03540030|164672775|OTHER||||||>|0.99|||||||Fisher Exact|||||||>.99
82489924|NCT03540030|164672776|OTHER|||||||0.2349|||||||Fisher Exact|||||||0.2349
82489925|NCT03540030|164672777|OTHER|||||||0.7892|||||||Wilcoxon (Mann-Whitney)|||||||0.7892
82489926|NCT03540030|164672778|OTHER|||||||0.2023|||||||Wilcoxon (Mann-Whitney)|||For PCS only||||0.2023
82489927|NCT03540030|164672778|OTHER|||||||0.2486|||||||Wilcoxon (Mann-Whitney)|||For MCS only||||0.2486
82489928|NCT01361568|164672816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|3.64|<|0.05|TWO_SIDED|95.0|-15.14|-0.78|||t-test, 2 sided|||||-0.78|-15.14|<0.05
82489929|NCT01361568|164672817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-420.0|STANDARD_ERROR_OF_MEAN|139.16|<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82489930|NCT01361568|164672817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-230.1|STANDARD_ERROR_OF_MEAN|92.26|<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82584880|NCT04576455|164882083|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.1757|TWO_SIDED|95.0|0.6|1.1|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|||1.10|0.60|0.1757
82584881|NCT04576455|164882084|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.3446|TWO_SIDED|95.0|0.85|1.6|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|||1.60|0.85|0.3446
82584882|NCT04576455|164882085|SUPERIORITY||Odds Ratio (OR)|1.87||||0.1126|TWO_SIDED|95.0|0.86|4.07|||Cochran-Mantel-Haenszel||Giredestrant vs. PCET|||4.07|0.86|0.1126
82584883|NCT04576455|164882085|SUPERIORITY||Difference in Objective Response Rates|5.35|||||TWO_SIDED|95.0|-1.97|12.78|||||Giredestrant vs. PCET|||12.78|-1.97|
82584884|NCT04576455|164882087|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0289|TWO_SIDED|95.0|1.06|3.04|||Cochran-Mantel-Haenszel||Giredestrant vs. PCET|||3.04|1.06|0.0289
82584885|NCT04576455|164882087|SUPERIORITY||Difference in Clinical Benefit Rates|10.74|||||TWO_SIDED|95.0|0.33|20.86|||||Giredestrant vs. PCET|||20.86|0.33|
82584886|NCT04576455|164882088|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.061|TWO_SIDED|95.0|0.35|1.03|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|This statistical analysis is done for PFS by ESR1 mutation detected at baseline||1.03|0.35|0.0610
82652068|NCT02247479|165019407|SUPERIORITY||Difference in Adjusted Means|0.6||||0.5695|TWO_SIDED|95.0|-1.4|2.6|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||2.6|-1.4|0.5695
82584887|NCT04576455|164882088|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.5947|TWO_SIDED|95.0|0.54|1.42|||Log Rank|Stratified analysis (strata are: site of disease, prior CDK4/6i treatment, and prior fulvestrant treatment).|Giredestrant vs. PCET|This statistical analysis is done for PFS by ESR1 Mutation not detected at baseline||1.42|0.54|0.5947
82584888|NCT04576455|164882089|OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.58|1.4|||||Giredestrant vs. PCET|||1.40|0.58|
82584889|NCT04576455|164882090|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.49|1.12|||||Giredestrant vs. PCET|||1.12|0.49|
82584890|NCT04576455|164882091|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.53|1.35|||||Giredestrant vs. PCET|||1.35|0.53|
82584891|NCT04576455|164882092|OTHER||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.72|1.69|||||Giredestrant vs. PCET|||1.69|0.72|
82584892|NCT04576455|164882093|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.47|1.18|||||Giredestrant vs. PCET|||1.18|0.47|
82584893|NCT02186847|164882107|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.7563|TWO_SIDED|95.0|0.77|1.73|||Log Rank|One-sided significance level = 0.10|Reference level = Chemoradiation|The study was powered to detect an improvement of the 1-year progression-free survival rate from 50% (no metformin) to 65% (metformin) or equivalently a hazard ratio (HR) of 0.622, at one-sided type 1 error of 0.1 and 85% power with at least 102 progression-free survival events.||1.73|0.77|0.7563
82584894|NCT02186847|164882108|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.891|TWO_SIDED|95.0|0.64|1.68|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation|||1.68|0.64|0.8910
82584895|NCT02186847|164882109|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.4075|TWO_SIDED|95.0|0.71|2.34|||Log Rank|Two-side significance level = 0.05|Reference level = Chemoradiation|||2.34|0.71|0.4075
82584896|NCT02186847|164882110|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.4075|TWO_SIDED|95.0|0.71|2.34|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation|||2.34|0.71|0.4075
82584897|NCT02186847|164882111|SUPERIORITY||Odds Ratio (OR)|0.92||||0.6266|TWO_SIDED|95.0|0.47|1.8|||Chi-squared|Two-sided significance level = 0.05|Reference level = Chemoradiation|||1.80|0.47|0.6266
82584898|NCT01912456|164882128|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82584899|NCT01912456|164882128|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82584900|NCT01912456|164882128|OTHER||||||=|0.114|||||||Mixed Models Analysis|||||||= 0.114
82584901|NCT01912456|164882129|OTHER||difference in percentages of responder|13.8|||||TWO_SIDED|95.0|-2.8|29.7||||||||29.7|-2.8|
82584902|NCT01912456|164882130|OTHER||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82584903|NCT01912456|164882130|OTHER||||||=|0.018|||||||Mixed Models Analysis|||||||= 0.018
82584904|NCT01912456|164882130|OTHER||||||=|0.31|||||||Mixed Models Analysis|||||||= 0.31
82584905|NCT00231153|164882145|SUPERIORITY_OR_OTHER||Net percentage difference|2.25||||0.082||95.0|-0.3|4.81||The primary null hypothesis was tested using the CMH chi-square test stratified region: North America or Europe. Alpha for this test will be 0.05, tow-tailed. No adjustment for multiplicity was performed.|Cochran-Mantel-Haenszel|||Adequate power was provided to test the null hypothesis that there would be no difference between treatment groups for LCSI. Overall LCSI rate was assumed to be approx. 7.5%, with reduction of LCSI by 40% with omiganan. LCSI rates in placebo and omiganan groups would be 9.375% and 5.625%. Sample size of 1548 in MITT set would provide 80% power to detect this difference between treatments. Sample size was also increased by 19% to account for deaths, for total of 1850 planned patients.||4.81|-0.30|0.082
82584906|NCT00231153|164882146|SUPERIORITY_OR_OTHER||Net percentage difference|3.67||||0.002||95.0|1.4|5.93|||Cochran-Mantel-Haenszel|||||5.93|1.40|0.002
82584907|NCT00231153|164882147|SUPERIORITY_OR_OTHER||Net percentage difference|11.4|||<|0.001||95.0|6.7|16.11|||Cochran-Mantel-Haenszel|||||16.11|6.70|<0.001
82584908|NCT02647320|164882148|OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.157||0.755|TWO_SIDED|90.0|-0.211|0.309|||Mixed Model Repeated Measure|||Difference in change at week 12||0.309|-0.211|.755
82584909|NCT02647320|164882148|OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.161||0.512|TWO_SIDED|90.0|-0.16|0.371|||Mixed Model Repeated Measure|||Difference in change at week 12||0.371|-0.160|.512
82584910|NCT02647320|164882148|OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.566|TWO_SIDED|90.0|-0.312|0.151|||Mixed Model Repeated Measure|||Difference in change at week 12||0.151|-0.312|.566
82584911|NCT02647320|164882148|OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.139||0.002|TWO_SIDED|90.0|-0.655|-0.197|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.197|-0.655|.002
82652069|NCT02247479|165019407|SUPERIORITY||Difference in Adjusted Means|0.3||||0.7865|TWO_SIDED|95.0|-1.7|2.3|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline LLVA, GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||2.3|-1.7|0.7865
82584912|NCT02647320|164882149|OTHER||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|3.13||0.144|TWO_SIDED|90.0|-9.76|0.58|||Mixed Model Repeated Measure|||Difference in change at week 12||0.58|-9.76|.144
82584913|NCT02647320|164882149|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|3.16||0.773|TWO_SIDED|90.0|-6.14|4.31|||Mixed Model Repeated Measure|||Difference in change at week 12||4.31|-6.14|.773
82584914|NCT02647320|164882149|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.79||0.963|TWO_SIDED|90.0|-4.73|4.48|||Mixed Model Repeated Measure|||Difference in change at week 12||4.48|-4.73|.963
82584915|NCT02647320|164882149|OTHER||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|2.74||0.258|TWO_SIDED|90.0|-7.64|1.42|||Mixed Model Repeated Measure|||Difference in change at week 12||1.42|-7.64|.258
82584916|NCT02647320|164882150|OTHER||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|5.5||0.228|TWO_SIDED|90.0|-15.74|2.43|||Mixed Model Repeated Measure|||Difference in change at week 12||2.43|-15.74|.228
82584917|NCT02647320|164882150|OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|5.51||0.894|TWO_SIDED|90.0|-8.36|9.84|||Mixed Model Repeated Measure|||Difference in change at week 12||9.84|-8.36|.894
82584918|NCT02647320|164882150|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|4.86||0.846|TWO_SIDED|90.0|-8.97|7.08|||Mixed Model Repeated Measure|||Difference in change at week 12||7.08|-8.97|.846
82584919|NCT02647320|164882150|OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|4.77||0.409|TWO_SIDED|90.0|-11.82|3.93|||Mixed Model Repeated Measure|||Difference in change at week 12||3.93|-11.82|.409
82584920|NCT02647320|164882151|OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|2.59||0.576|TWO_SIDED|90.0|-2.83|5.73|||Mixed Model Repeated Measure|||Difference in change at week 12||5.73|-2.83|.576
82584921|NCT02647320|164882151|OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.62||0.646|TWO_SIDED|90.0|-5.53|3.12|||Mixed Model Repeated Measure|||Difference in change at week 12||3.12|-5.53|.646
82584922|NCT02647320|164882151|OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|2.3||0.902|TWO_SIDED|90.0|-3.52|4.08|||Mixed Model Repeated Measure|||Difference in change at week 12||4.08|-3.52|.902
82652070|NCT02247479|165019408|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9448|TWO_SIDED|95.0|0.6|1.7|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline LLVA, baseline GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.7|0.6|0.9448
82489931|NCT01361568|164672817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-260.4|STANDARD_ERROR_OF_MEAN|141.99||0.068||95.0|||||t-test, 2 sided|||||||0.068
82584923|NCT02647320|164882151|OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|2.27||0.478|TWO_SIDED|90.0|-5.35|2.13|||Mixed Model Repeated Measure|||Difference in change at week 12||2.13|-5.35|.478
82584924|NCT02647320|164882152|OTHER||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|4.22||0.072|TWO_SIDED|90.0|-14.57|-0.64|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.64|-14.57|.072
82584925|NCT02647320|164882152|OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|4.26||0.794|TWO_SIDED|90.0|-8.15|5.92|||Mixed Model Repeated Measure|||Difference in change at week 12||5.92|-8.15|.794
82584926|NCT02647320|164882152|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|3.75||0.946|TWO_SIDED|90.0|-6.45|5.94|||Mixed Model Repeated Measure|||Difference in change at week 12||5.94|-6.45|.946
82584927|NCT02647320|164882152|OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|3.68||0.431|TWO_SIDED|90.0|-8.99|3.18|||Mixed Model Repeated Measure|||Difference in change at week 12||3.18|-8.99|.431
82584928|NCT02647320|164882153|OTHER||LS Mean Difference|-10.3|STANDARD_ERROR_OF_MEAN|8.54||0.228|TWO_SIDED|90.0|-24.43|3.78|||Mixed Model Repeated Measure|||Difference in change at week 12||3.78|-24.43|.228
82489932|NCT01361568|164672818|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.39|STANDARD_ERROR_OF_MEAN|2.63|<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
82584929|NCT02647320|164882153|OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|8.62||0.951|TWO_SIDED|90.0|-13.7|14.77|||Mixed Model Repeated Measure|||Difference in change at week 12||14.77|-13.70|.951
82584930|NCT02647320|164882153|OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|7.59||0.852|TWO_SIDED|90.0|-13.96|11.13|||Mixed Model Repeated Measure|||Difference in change at week 12||11.13|-13.96|.852
82584931|NCT02647320|164882153|OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|7.45||0.608|TWO_SIDED|90.0|-16.13|8.48|||Mixed Model Repeated Measure|||Difference in change at week 12||8.48|-16.13|.608
82584932|NCT02647320|164882154|OTHER||LS Mean Difference|5.32|STANDARD_ERROR_OF_MEAN|15.289||0.728|TWO_SIDED|90.0|-19.932|30.566|||Mixed Model Repeated Measure|||Difference in change at week 4||30.566|-19.932|.728
82584933|NCT02647320|164882154|OTHER||LS Mean Difference|-3.27|STANDARD_ERROR_OF_MEAN|15.853||0.837|TWO_SIDED|90.0|-29.446|22.914|||Mixed Model Repeated Measure|||Difference in change at week 4||22.914|-29.446|.837
82584934|NCT02647320|164882154|OTHER||LS Mean Difference|-3.65|STANDARD_ERROR_OF_MEAN|13.747||0.791|TWO_SIDED|90.0|-26.352|19.051|||Mixed Model Repeated Measure|||Difference in change at week 4||19.051|-26.352|.791
82584935|NCT02647320|164882154|OTHER||LS Mean Difference|-40.03|STANDARD_ERROR_OF_MEAN|13.472||0.003|TWO_SIDED|90.0|-62.283|-17.787|||Mixed Model Repeated Measure|||Difference in change at week 4||-17.787|-62.283|.003
82584936|NCT02647320|164882155|OTHER||LS Mean Difference|4.39|STANDARD_ERROR_OF_MEAN|20.396||0.83|TWO_SIDED|90.0|-29.312|38.087|||Mixed Model Repeated Measure|||Difference in change at week 12||38.087|-29.312|.830
82584937|NCT02647320|164882155|OTHER||LS Mean Difference|24.25|STANDARD_ERROR_OF_MEAN|20.335||0.235|TWO_SIDED|90.0|-9.354|57.848|||Mixed Model Repeated Measure|||Difference in change at week 12||57.848|-9.354|.235
82584938|NCT02647320|164882155|OTHER||LS Mean Difference|17.25|STANDARD_ERROR_OF_MEAN|17.72||0.331|TWO_SIDED|90.0|-12.03|46.529|||Mixed Model Repeated Measure|||Difference in change at week 12||46.529|-12.030|.331
82584939|NCT02647320|164882155|OTHER||LS Mean Difference|-29.51|STANDARD_ERROR_OF_MEAN|17.393||0.091|TWO_SIDED|90.0|-58.254|-0.775|||Mixed Model Repeated Measure|||Difference in change at week 12||-0.775|-58.254|.091
82584940|NCT02647320|164882156|OTHER||LS Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|9.28||0.873|TWO_SIDED|90.0|-13.835|16.815|||Mixed Model Repeated Measure|||Difference in change at week 4||16.815|-13.835|.873
82584941|NCT02647320|164882156|OTHER||LS Mean Difference|-8.09|STANDARD_ERROR_OF_MEAN|9.505||0.395|TWO_SIDED|90.0|-23.79|7.604|||Mixed Model Repeated Measure|||Difference in change at week 4||7.604|-23.790|.395
82584942|NCT02647320|164882156|OTHER||LS Mean Difference|-2.53|STANDARD_ERROR_OF_MEAN|8.306||0.761|TWO_SIDED|90.0|-16.247|11.185|||Mixed Model Repeated Measure|||Difference in change at week 4||11.185|-16.247|.761
82584943|NCT02647320|164882156|OTHER||LS Mean Difference|-27.73|STANDARD_ERROR_OF_MEAN|8.17|<|0.001|TWO_SIDED|90.0|-41.22|-14.236|||Mixed Model Repeated Measure|||Difference in change at week 4||-14.236|-41.220|<0.001
82584944|NCT02647320|164882157|OTHER||LS Mean Difference|-7.61|STANDARD_ERROR_OF_MEAN|12.001||0.527|TWO_SIDED|90.0|-27.441|12.221|||Mixed Model Repeated Measure|||Difference in change at week 12||12.221|-27.441|.527
82584945|NCT02647320|164882157|OTHER||LS Mean Difference|-7.39|STANDARD_ERROR_OF_MEAN|0.532||0.532|TWO_SIDED|90.0|-26.927|12.138|||Mixed Model Repeated Measure|||Difference in change at week 12||12.138|-26.927|.532
82584946|NCT02647320|164882157|OTHER||LS Mean Difference|-4.41|STANDARD_ERROR_OF_MEAN|10.421||0.672|TWO_SIDED|90.0|-21.635|12.807|||Mixed Model Repeated Measure|||Difference in change at week 12||12.807|-21.635|.672
82584947|NCT02647320|164882157|OTHER||LS Mean Difference|-31.58|STANDARD_ERROR_OF_MEAN|10.229||0.002|TWO_SIDED|90.0|-48.482|-14.676|||Mixed Model Repeated Measure|||Difference in change at week 12||-14.676|-48.482|.002
82584948|NCT02647320|164882158|OTHER||LS Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|5.9||0.298|TWO_SIDED|90.0|-15.9|3.6|||Mixed Model Repeated Measure|||Difference in change at week 2||3.60|-15.90|.298
82584949|NCT02647320|164882158|OTHER||LS Mean Difference|-16.3|STANDARD_ERROR_OF_MEAN|6.09||0.008|TWO_SIDED|90.0|-26.37|-6.27|||Mixed Model Repeated Measure|||Difference in change at week 2||-6.27|-26.37|.008
82584950|NCT02647320|164882158|OTHER||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|5.32||0.074|TWO_SIDED|90.0|-18.31|-0.75|||Mixed Model Repeated Measure|||Difference in change at week 2||-0.75|-18.31|.074
82584951|NCT02647320|164882158|OTHER||LS Mean Difference|-27.2|STANDARD_ERROR_OF_MEAN|5.32|<|0.001|TWO_SIDED|90.0|-35.96|-18.38|||Mixed Model Repeated Measure|||Difference in change at week 2||-18.38|-35.96|<0.001
82584952|NCT02647320|164882159|OTHER||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|5.96||0.84|TWO_SIDED|90.0|-11.04|8.63|||Mixed Model Repeated Measure|||Difference in change at week 4||8.63|-11.04|.840
82584953|NCT02647320|164882159|OTHER||LS Mean Difference|-11.9|STANDARD_ERROR_OF_MEAN|6.06||0.05|TWO_SIDED|90.0|-21.94|-1.91|||Mixed Model Repeated Measure|||Difference in change at week 4||-1.91|-21.94|.050
82489933|NCT01361568|164672818|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.31|STANDARD_ERROR_OF_MEAN|1.74||0.059||95.0|||||Mixed Models Analysis|||||||0.059
82584954|NCT02647320|164882159|OTHER||LS Mean Difference|-6.4|STANDARD_ERROR_OF_MEAN|5.31||0.227|TWO_SIDED|90.0|-15.21|2.33|||Mixed Model Repeated Measure|||Difference in change at week 4||2.33|-15.21|.227
82584955|NCT02647320|164882159|OTHER||LS Mean Difference|-13.1|STANDARD_ERROR_OF_MEAN|5.27||0.13|TWO_SIDED|90.0|-21.83|-4.43|||Mixed Model Repeated Measure|||Difference in change at week 4||-4.43|-21.83|0.13
82584956|NCT02647320|164882160|OTHER||LS Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|6.55||0.642|TWO_SIDED|90.0|-7.77|13.88|||Mixed Model Repeated Measure|||Difference in change at week 8||13.88|-7.77|.642
82584957|NCT02647320|164882160|OTHER||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|6.72||0.512|TWO_SIDED|90.0|-15.52|6.68|||Mixed Model Repeated Measure|||Difference in change at week 8||6.68|-15.52|.512
82584958|NCT02647320|164882160|OTHER||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|5.81||0.486|TWO_SIDED|90.0|-13.66|5.54|||Mixed Model Repeated Measure|||Difference in change at week 8||5.54|-13.66|.486
82584959|NCT02647320|164882160|OTHER||LS Mean Difference|-16.7|STANDARD_ERROR_OF_MEAN|5.8||0.004|TWO_SIDED|90.0|-26.31|-7.16|||Mixed Model Repeated Measure|||Difference in change at week 8||-7.16|-26.31|.004
82584960|NCT02647320|164882161|OTHER||LS Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|8.11||0.285|TWO_SIDED|90.0|-22.09|4.7|||Mixed Model Repeated Measure|||Difference in change at week 12||4.70|-22.09|.285
82584961|NCT02647320|164882161|OTHER||LS Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|7.94||0.02|TWO_SIDED|90.0|-31.73|-5.49|||Mixed Model Repeated Measure|||Difference in change at week 12||-5.49|-31.73|.020
82584962|NCT02647320|164882161|OTHER||LS Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|7.03||0.067|TWO_SIDED|90.0|-24.6|-1.35|||Mixed Model Repeated Measure|||Difference in change at week 12||-1.35|-24.60|.067
82584963|NCT02647320|164882161|OTHER||LS Mean Difference|-17.4|STANDARD_ERROR_OF_MEAN|6.88||0.012|TWO_SIDED|90.0|-28.76|-6.03|||Mixed Model Repeated Measure|||Difference in change at week 12||-6.03|-28.76|.012
82584964|NCT00596427|164882163|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||Change from baseline between groups were compared.||||<0.01
82584965|NCT00596427|164882164|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||mixed-effects regression models|||Change from baseline between groups was compared.||||<0.001
82584966|NCT00596427|164882165|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|This model had fixed effects of treatment, visit and treatment by visit interaction and a random subject effect.||Comparison of change from baseline between groups (treatment effect)||||<0.1
82584967|NCT00596427|164882166|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||||||<0.01
82584968|NCT00596427|164882167|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||mixed-effects regression models|||||||<0.05
82584969|NCT00596427|164882168|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|||Change from baseline between groups were compared (treatment effect)||||<0.1
82584970|NCT00596427|164882169|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||mixed-effects regression models|||||||0.05
82584971|NCT00596427|164882170|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||mixed-effects regression models|||||||0.6
82584972|NCT00596427|164882171|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||0.3
82584973|NCT00596427|164882172|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||<0.0001
82584974|NCT00596427|164882173|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||mixed-effects regression models|||Treatment effect of change from baseline||||<0.01
82584975|NCT00596427|164882174|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||mixed-effects regression models|||||||<0.1
82584976|NCT01605292|164882175|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||||||<0.0001
82584977|NCT01605292|164882176|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||||||0.006
82584978|NCT01605292|164882177|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82584979|NCT01605292|164882178|SUPERIORITY_OR_OTHER|||||||0.56|TWO_SIDED||||||Fisher Exact|||||||0.56
82584980|NCT01605292|164882179|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82584981|NCT01605292|164882180|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Chi-squared|||||||0.07
82584982|NCT01605292|164882181|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Fisher Exact|||||||0.75
82584983|NCT01605292|164882183|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Fisher Exact|||||||0.007
82652071|NCT02247479|165019408|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8764|TWO_SIDED|95.0|0.6|1.8|||Regression, Logistic|||Week 48: The adjusted analysis was based on a logistic regression analysis. The model included terms for treatment group, baseline LLVA, baseline GA lesion location, biomarker status, modified baseline BCVA ETDRS chart Snellen equivalent category, and sex.||1.8|0.6|0.8764
82489934|NCT01361568|164672819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.41|<|0.05|TWO_SIDED|95.0|0.22|1.82|||t-test, 2 sided|||||1.82|0.22|<0.05
82584984|NCT03435497|164882196|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.017|TWO_SIDED||||||Regression, Linear|||||||.017
82584985|NCT03435497|164882197|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical logistic repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.5||||0.05|TWO_SIDED|95.0|0.2|1.6|||Regression, Logistic|||||1.6|0.2|.05
82584986|NCT03435497|164882198|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.48|TWO_SIDED||||||Regression, Linear|||||||0.48
82584987|NCT03435497|164882199|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical linear repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.012|TWO_SIDED||||||Regression, Linear|||||||0.012
82584988|NCT03435497|164882200|SUPERIORITY|Using an intent-to-treat approach, intervention efficacy was tested with a hierarchical logistic repeated-measures regressions in which the response may have come from either follow-up, and the predictors were an indicator for study arm, the baseline value of the outcome, the follow-up time-point, and covariates. Standard errors were adjusted for clustering at the individual level (ultimate clustering methods). Covariates were socio-demographics associated with the outcome at p\>.05.|Odds Ratio (OR)|10.0||||0.022|TWO_SIDED|95.0|1.5|67.7|||Regression, Logistic|||||67.7|1.5|0.022
82584989|NCT02795429|164882206|SUPERIORITY||Odds Ratio (OR)|0.561|||||||||||Bayesian Logistic Regression Model||Posterior probability that the odds ratio (ORRspartalizumab +capmatinib to ORRspartalizumab) was ≥ 1|||||
82584990|NCT04281004|164882234|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82584991|NCT04281004|164882235|SUPERIORITY|||||||0.869|||||||Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.869
82489935|NCT01361568|164672819|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.27|<|0.05|TWO_SIDED|95.0|0.11|1.17|||t-test, 2 sided|||||1.17|0.11|<0.05
82584992|NCT04281004|164882236|SUPERIORITY|||||||0.007||||||Significance of treatment effect at month 1.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.007
82584993|NCT04281004|164882236|SUPERIORITY|||||||0.953||||||Significance of treatment effect at month 3.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.953
82584994|NCT04281004|164882236|SUPERIORITY|||||||0.841||||||Significance of treatment effect at month 6.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.841
82584995|NCT04281004|164882236|SUPERIORITY|||||||0.137||||||Significance of treatment effect at month 12.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.137
82584996|NCT04281004|164882237|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
82584997|NCT04281004|164882238|SUPERIORITY|||||||0.594|||||||Fisher Exact|||||||0.594
82584998|NCT04281004|164882239|SUPERIORITY|||||||0.663||||||Significance of treatment effect at month 1.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.663
82584999|NCT04281004|164882239|SUPERIORITY|||||||0.416||||||Significance of treatment effect at month 3.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.416
82585000|NCT04281004|164882239|SUPERIORITY|||||||0.89||||||Significance of treatment effect at month 6.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.890
82585001|NCT04281004|164882239|SUPERIORITY|||||||0.192||||||Significance of treatment effect at month 12.|Wilcoxon (Mann-Whitney)|Clustered version of the Wilcoxon test||||||0.192
82489936|NCT01361568|164672820|SUPERIORITY_OR_OTHER|||||||0.001|||||||Chi-squared|Degrees of freedom (df = 1)||||||0.001
82585002|NCT04281004|164882240|SUPERIORITY|||||||0.057||||||Significance of treatment effect at month 1.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.057
82585003|NCT04281004|164882240|SUPERIORITY|||||||0.528||||||Significance of treatment effect at month 3.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.528
82585004|NCT04281004|164882240|SUPERIORITY|||||||0.21||||||Significance of treatment effect at month 6.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.210
82585005|NCT04281004|164882240|SUPERIORITY|||||||0.853||||||Significance of treatment effect at month 12.|Mixed Models Analysis|Mixed model analysis is used to account for correlation between eyes in the same participant.||||||0.853
82585006|NCT03442985|164882250|OTHER||Risk Ratio (RR)|2.109||||0.2556|TWO_SIDED|95.0|0.583|7.638||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 2.5 mg versus (vs) Palovarotene 5.0 mg: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||7.638|0.583|0.2556
82585007|NCT03442985|164882250|OTHER||Risk Ratio (RR)|3.04||||0.1788|TWO_SIDED|95.0|0.601|15.373||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||15.373|0.601|0.1788
82376775|NCT02207634|164459899|NON_INFERIORITY|The non-inferiority margin was 0.19, calculated as 20% of the observed common standard deviation, which was estimated from observations in the placebo group by a repeated measured mixed-effect linear model with visit as a covariate. If the upper bound of the 95% CI for the difference between the placebo and evolocumab group in mean change from baseline for Z score averaged across the visits was less than the non-inferiority margin non-inferiority criteria were met.|Treatment Difference|0.0072|STANDARD_ERROR_OF_MEAN|0.0375|||TWO_SIDED|95.0|-0.0664|0.0808||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening low-density lipoprotein cholesterol \[LDL-C\] and geographical region), age, education level, baseline SWM strategy index Z score, treatment group, visit, and treatment by visit interaction.||0.0808|-0.0664|
82585008|NCT03442985|164882250|OTHER||Risk Ratio (RR)|1.441||||0.657|TWO_SIDED|95.0|0.287|7.234||The p-values were not adjusted for multiple testing due to small sample size.|Negative binomial regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of new OCs was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||7.234|0.287|0.6570
82585009|NCT03442985|164882251|OTHER||Risk Ratio (RR)|-4412.6||||0.4252|TWO_SIDED|95.0|-15257.3|6432.1||The p-values were not adjusted for multiple testing due to small sample size.|Unadjusted estimation equation model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||6432.1|-15257.3|0.4252
82585010|NCT03442985|164882251|OTHER||Risk Ratio (RR)|-4640.9||||0.4053|TWO_SIDED|95.0|-15570.8|6289.0||The p-values were not adjusted for multiple testing due to small sample size.|Unadjusted estimation equation model|||Palovarotene 2.5 mg vs Placebo: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||6289.0|-15570.8|0.4053
82585011|NCT03442985|164882251|OTHER||Risk Ratio (RR)|-228.3||||0.9677|TWO_SIDED|95.0|-11265.0|10808.4||The p-values were not adjusted for multiple testings due to small sample size.|Unadjusted estimation equation model|||Palovarotene 5.0 mg vs Placebo: The mean difference in the change from baseline for total OC volume was estimated using an unadjusted estimation equation model with independent working covariance matrix to address potential correlation within the same family members.||10808.4|-11265.0|0.9677
82585012|NCT03442985|164882252|OTHER||Odds Ratio (OR)|0.643||||0.5025|TWO_SIDED|95.0|0.177|2.335|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||2.335|0.177|0.5025
82585013|NCT03442985|164882252|OTHER||Odds Ratio (OR)|0.528||||0.3763|TWO_SIDED|95.0|0.128|2.175|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||2.175|0.128|0.3763
82585014|NCT03442985|164882252|OTHER||Odds Ratio (OR)|0.82||||0.7714|TWO_SIDED|95.0|0.215|3.123|||Regression, Logistic|Logistic regression was adjusted for the following covariates: baseline age, sex, and Ext1/2 mutation status.||||3.123|0.215|0.7714
82585015|NCT03442985|164882253|OTHER||Risk Ratio (RR)|0.951||||0.8155|TWO_SIDED|95.0|0.623|1.451||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.451|0.623|0.8155
82585016|NCT03442985|164882253|OTHER||Risk Ratio (RR)|1.003||||0.9918|TWO_SIDED|95.0|0.592|1.699||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.699|0.592|0.9918
82585017|NCT03442985|164882253|OTHER||Risk Ratio (RR)|1.055||||0.7997|TWO_SIDED|95.0|0.7|1.589||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = compound symmetry was used.|Negative binomial regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of new or worsening deformities was estimated using an unadjusted negative binomial regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||1.589|0.700|0.7997
82585018|NCT03442985|164882254|OTHER||Risk Ratio (RR)|1.548||||0.2186|TWO_SIDED|95.0|0.772|3.108||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 2.5 mg vs Palovarotene 5.0 mg: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||3.108|0.772|0.2186
82585019|NCT03442985|164882254|OTHER||Risk Ratio (RR)|1.655||||0.27|TWO_SIDED|95.0|0.676|4.052||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 2.5 mg vs Placebo: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||4.052|0.676|0.2700
82585020|NCT03442985|164882254|OTHER||Risk Ratio (RR)|1.069||||0.8546|TWO_SIDED|95.0|0.524|2.178||The p-values were not adjusted for multiple testing due to small sample size. The correlation matrix type = independent was used.|Poisson regression model|||Palovarotene 5.0 mg vs Placebo: The annualized rate for number of MO-related surgeries was estimated using an unadjusted poisson regression model, offsetted by log-transformed follow-up time (years) to obtain annualized rate.||2.178|0.524|0.8546
82585021|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.08||||0.0213|TWO_SIDED|90.0|0.019|0.14||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg versus (vs) placebo, centrally read||0.140|0.019|0.0213
82585022|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.128||||0.0025|TWO_SIDED|90.0|0.056|0.199||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.199|0.056|0.0025
82585023|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.118||||0.004|TWO_SIDED|90.0|0.048|0.188||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.188|0.048|0.0040
82585024|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.026||||0.1803|TWO_SIDED|90.0|-0.012|0.064||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.064|-0.012|0.1803
82585025|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.08||||0.0582|TWO_SIDED|90.0|0.002|0.159||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.159|0.002|0.0582
82585026|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.178||||0.0014|TWO_SIDED|90.0|0.083|0.272||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.272|0.083|0.0014
82489937|NCT01361568|164672821|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82585027|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.122||||0.0125|TWO_SIDED|90.0|0.036|0.208||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.208|0.036|0.0125
82585028|NCT01620255|164882263|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.066||||0.0927|TWO_SIDED|90.0|-0.009|0.142||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.142|-0.009|0.0927
82585029|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.089||||0.1379|TWO_SIDED|90.0|-0.037|0.214||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, centrally read||0.214|-0.037|0.1379
82585030|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.254||||0.0011|TWO_SIDED|90.0|0.121|0.388||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.388|0.121|0.0011
82585031|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.163||||0.0239|TWO_SIDED|90.0|0.032|0.293||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.293|0.032|0.0239
82585032|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.213||||0.0052|TWO_SIDED|90.0|0.08|0.347||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.347|0.080|0.0052
82585033|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.056||||0.2617|TWO_SIDED|90.0|-0.075|0.186||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.186|-0.075|0.2617
82585034|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.212||||0.0058|TWO_SIDED|90.0|0.077|0.347||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.347|0.077|0.0058
82652072|NCT02247479|165019409|SUPERIORITY||Difference in Adjusted Means|5.66||||0.0991|TWO_SIDED|95.0|-1.07|12.38|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||12.38|-1.07|0.0991
82489938|NCT01361568|164672822|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
82376776|NCT02207634|164459900|OTHER||Treatment Difference|0.0333|STANDARD_ERROR_OF_MEAN|0.0363|||TWO_SIDED|95.0|-0.0378|0.1045||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline SWM between-errors Z score, treatment group, visit, and treatment by visit interaction.||0.1045|-0.0378|
82489939|NCT02728596|164672823|SUPERIORITY||Odds Ratio (OR)|0.44||||0.21|TWO_SIDED|95.0|0.12|1.57|||Regression, Logistic|Adjusted for age group, comorbidity, race, and Hispanic ethnicity.||PP-CSF use in the high risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||1.57|0.12|0.21
82489940|NCT02728596|164672823|SUPERIORITY||Odds Ratio (OR)|1.18||||0.74|TWO_SIDED|95.0|0.44|3.2|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the low risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||3.20|0.44|0.74
82489941|NCT02728596|164672823|SUPERIORITY||Odds Ratio (OR)|2.23||||0.17|TWO_SIDED|95.0|0.7|7.08|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the SOE for PP-CSF intervention group (Arm 3).||7.08|0.70|0.17
82489942|NCT02728596|164672823|SUPERIORITY||Odds Ratio (OR)|0.36||||0.094|TWO_SIDED|95.0|0.11|1.19|||Regression, Logistic|Adjusted for age, sex, and cancer type.||PP-CSF use in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the alert against PP-CSF intervention group (Arm 4).||1.19|0.11|0.094
82489943|NCT02728596|164672824|SUPERIORITY||Odds Ratio (OR)|1.49||||0.26|TWO_SIDED|95.0|0.75|2.95|||Regression, Logistic|Adjusted for age.||FN incidence rate in the high risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||2.95|0.75|0.26
82489944|NCT02728596|164672824|SUPERIORITY||Odds Ratio (OR)|2.0||||0.51|TWO_SIDED|95.0|0.23|18.8|||Regression, Logistic|Adjusted for cancer type.||FN incidence rate in the low risk FN group was compared between the usual care (UC) group (Arm 2) and the intervention group (Arm 3 and 4 combined).||18.80|0.23|0.51
82489945|NCT02728596|164672824|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.41|2.88|||Regression, Logistic|||FN incidence rate in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the SOE for PP-CSF intervention group (Arm 3).||2.88|0.41|0.87
82489946|NCT02728596|164672824|SUPERIORITY||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.44|3.57|||Regression, Logistic|||FN incidence rate in the intermediate risk FN group was compared between the usual care (UC) group (Arm 2) and the alert against PP-CSF intervention group (Arm 4).||3.57|0.44|0.68
82489947|NCT02728596|164672825|SUPERIORITY||Odds Ratio (OR)|0.87||||0.74|TWO_SIDED|95.0|0.39|1.95|||Regression, Logistic|Adjusted for cancer type.||||1.95|0.39|0.74
82489948|NCT02728596|164672825|SUPERIORITY||Odds Ratio (OR)|1.09||||0.87|TWO_SIDED|95.0|0.41|2.88|||Regression, Logistic|Adjusted for cancer type.||||2.88|0.41|0.87
82489949|NCT02728596|164672825|SUPERIORITY||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.44|3.57|||Regression, Logistic|Adjusted for cancer type.||This is comparing the FN incidence rate in the arm randomized to alert against PP-CSF vs usual care in intermediate risk participants.||3.57|0.44|0.68
82585035|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.156||||0.0326|TWO_SIDED|90.0|0.022|0.29||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.290|0.022|0.0326
82489950|NCT03439657|164672840|NON_INFERIORITY|Upper limit (UL) of the 95% confidence interval (CI) for the anti-gE antibodies Geometric Mean Concentration (GMC) ratio between the Control group and the Co-Ad group should be \<1.5.|GMC ratio|1.07|||||TWO_SIDED|95.0|0.99|1.16|||ANCOVA|The 95% CI of the group GMCs ratio was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-gE GMCs (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean concentrations (GMCs) for anti-gE antibodies, one month after the administration of last vaccine dose.||1.16|0.99|
82489951|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.04|||||TWO_SIDED|95.0|0.82|1.33|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-1), one month after the administration of Prevnar 13 vaccine dose.||1.33|0.82|
82489952|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.02|||||TWO_SIDED|95.0|0.86|1.22|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-3), one month after the administration of Prevnar 13 vaccine dose.||1.22|0.86|
82489953|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.25|||||TWO_SIDED|95.0|1.02|1.52|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-4), one month after the administration of Prevnar 13 vaccine dose.||1.52|1.02|
82585036|NCT01620255|164882264|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.185||||0.0145|TWO_SIDED|90.0|0.05|0.32||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.320|0.050|0.0145
82561636|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.7|||||TWO_SIDED|95.0|5.2|26.1|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||26.10|5.20|
82561637|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|156.4|||||TWO_SIDED|95.0|48.72|501.86|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||501.86|48.72|
82561638|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|37.4|||||TWO_SIDED|95.0|13.71|102.31|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||102.31|13.71|
82561639|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|93.9|||||TWO_SIDED|95.0|30.99|284.31|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||284.31|30.99|
82561640|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|48.7|||||TWO_SIDED|95.0|23.27|101.97|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||101.97|23.27|
82561641|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|32.1|||||TWO_SIDED|95.0|11.99|85.81|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||85.81|11.99|
82561642|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|78.1|||||TWO_SIDED|95.0|50.42|120.94|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||120.94|50.42|
82561643|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|10.3|||||TWO_SIDED|95.0|6.8|15.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||15.72|6.80|
82561644|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.7|||||TWO_SIDED|95.0|32.75|116.34|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||116.34|32.75|
82561645|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|536.5|||||TWO_SIDED|95.0|212.04|1357.19|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1357.19|212.04|
82561646|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|116.9|||||TWO_SIDED|95.0|33.28|410.33|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||410.33|33.28|
82561647|NCT00824850|164832686|SUPERIORITY_OR_OTHER||geometric mean fold rise|24.6|||||TWO_SIDED|95.0|11.3|53.42|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||53.42|11.30|
82561648|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|168.8|||||TWO_SIDED|95.0|20.22|1409.76|||||CI for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1409.76|20.22|
82561649|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|40.3|||||TWO_SIDED|95.0|10.97|148.44|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMRFs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||148.44|10.97|
82561650|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.9|||||TWO_SIDED|95.0|18.83|203.72|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||203.72|18.83|
82561651|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|26.7|||||TWO_SIDED|95.0|9.67|73.84|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||73.84|9.67|
82585037|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.081||||0.0618|TWO_SIDED|90.0|0.0|0.162||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, centrally read||0.162|0.000|0.0618
82585038|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.187||||0.0009|TWO_SIDED|90.0|0.091|0.284||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, centrally read||0.284|0.091|0.0009
82585039|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.159||||0.0027|TWO_SIDED|90.0|0.068|0.25||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, centrally read||0.250|0.068|0.0027
82585040|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.069||||0.0999|TWO_SIDED|90.0|-0.013|0.151||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, centrally read||0.151|-0.013|0.0999
82585041|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.001||||0.5225|TWO_SIDED|90.0|-0.111|0.114||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo, locally read||0.114|-0.111|0.5225
82585042|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.154||||0.0246|TWO_SIDED|90.0|0.03|0.278||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo, locally read||0.278|0.030|0.0246
82585043|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.13||||0.0464|TWO_SIDED|90.0|0.008|0.253||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo, locally read||0.253|0.008|0.0464
82585044|NCT01620255|164882265|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.066||||0.2|TWO_SIDED|90.0|-0.053|0.186||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo, locally read||0.186|-0.053|0.2000
82585045|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean (LSM) Difference|-0.88||||0.0494|TWO_SIDED|90.0|-1.623|-0.145|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 7.5 mg vs placebo, centrally read change||-0.145|-1.623|0.0494
82585046|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.53||||0.0005|TWO_SIDED|90.0|-2.254|-0.809|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 22.5 mg vs placebo, centrally read change||-0.809|-2.254|0.0005
82585047|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.12||||0.0117|TWO_SIDED|90.0|-1.845|-0.39|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 75 mg vs placebo, centrally read change||-0.390|-1.845|0.0117
82585048|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.27||||0.0049|TWO_SIDED|90.0|-2.016|-0.533|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 225 mg vs placebo, centrally read change||-0.533|-2.016|0.0049
82585049|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.94||||0.0543|TWO_SIDED|90.0|-1.737|-0.137|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 7.5 mg vs placebo, locally read change||-0.137|-1.737|0.0543
82585050|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.6||||0.0008|TWO_SIDED|90.0|-2.372|-0.819|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 22.5 mg vs placebo, locally read change||-0.819|-2.372|0.0008
82585051|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.07||||0.0255|TWO_SIDED|90.0|-1.858|-0.284|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 75 mg vs placebo, locally read change||-0.284|-1.858|0.0255
82585052|NCT01620255|164882267|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.29||||0.0079|TWO_SIDED|90.0|-2.082|-0.493|||ANCOVA|Analysis of covariance (ANCOVA) with model terms: treatment group, baseline, status of anti-tumor necrosis factor (TNF) therapy experience.||PF-00547659 225 mg vs placebo, locally read change||-0.493|-2.082|0.0079
82585053|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.1016|TWO_SIDED|90.0|-0.511|0.001|||Mixed Models Analysis|Linear Mixed Model (LMM) with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W4||0.001|-0.511|0.1016
82585054|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.28||||0.0654|TWO_SIDED|90.0|-0.529|-0.03|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W4||-0.030|-0.529|0.0654
82585055|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.15|TWO_SIDED|90.0|-0.472|0.031|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W4||0.031|-0.472|0.1500
82585056|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.38||||0.0132|TWO_SIDED|90.0|-0.637|-0.129|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W4||-0.129|-0.637|0.0132
82585057|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.3||||0.0526|TWO_SIDED|90.0|-0.555|-0.046|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W8||-0.046|-0.555|0.0526
82585058|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.31||||0.0422|TWO_SIDED|90.0|-0.554|-0.058|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W8||-0.058|-0.554|0.0422
82585059|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.39||||0.011|TWO_SIDED|90.0|-0.637|-0.137|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W8||-0.137|-0.637|0.0110
82585060|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.5||||0.001|TWO_SIDED|90.0|-0.755|-0.254|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W8||-0.254|-0.755|0.0010
82585061|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.1611|TWO_SIDED|90.0|-0.475|0.038|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Stool Frequency, W12||0.038|-0.475|0.1611
82585062|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.36||||0.0186|TWO_SIDED|90.0|-0.608|-0.108|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Stool Frequency, W12||-0.108|-0.608|0.0186
82585063|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.21||||0.1647|TWO_SIDED|90.0|-0.465|0.039|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Stool Frequency, W12||0.039|-0.465|0.1647
82585064|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.35||||0.0231|TWO_SIDED|90.0|-0.607|-0.097|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Stool Frequency, W12||-0.097|-0.607|0.0231
82585065|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.46||||0.0002|TWO_SIDED|90.0|-0.658|-0.26|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W4||-0.260|-0.658|0.0002
82585066|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.52|||<|0.0001|TWO_SIDED|90.0|-0.71|-0.322|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W4||-0.322|-0.710|<0.0001
82585067|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.49|||<|0.0001|TWO_SIDED|90.0|-0.686|-0.295|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W4||-0.295|-0.686|<0.0001
82585068|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.39||||0.0012|TWO_SIDED|90.0|-0.587|-0.192|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W4||-0.192|-0.587|0.0012
82585069|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.28||||0.0207|TWO_SIDED|90.0|-0.475|-0.081|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W8||-0.081|-0.475|0.0207
82585070|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.24||||0.0402|TWO_SIDED|90.0|-0.432|-0.048|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W8||-0.048|-0.432|0.0402
82585071|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.32||||0.0071|TWO_SIDED|90.0|-0.511|-0.124|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W8||-0.124|-0.511|0.0071
82585072|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.47|||<|0.0001|TWO_SIDED|90.0|-0.664|-0.275|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W8||-0.275|-0.664|<0.0001
82585073|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0395|TWO_SIDED|90.0|-0.449|-0.05|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Rectal Bleeding, W12||-0.050|-0.449|0.0395
82585074|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.32||||0.0073|TWO_SIDED|90.0|-0.511|-0.123|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Rectal Bleeding, W12||-0.123|-0.511|0.0073
82585075|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.24||||0.0413|TWO_SIDED|90.0|-0.439|-0.047|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Rectal Bleeding, W12||-0.047|-0.439|0.0413
82585076|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.4||||0.0008|TWO_SIDED|90.0|-0.602|-0.206|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Rectal Bleeding, W12||-0.206|-0.602|0.0008
82585077|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.19||||0.1862|TWO_SIDED|90.0|-0.421|0.046|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W4||0.046|-0.421|0.1862
82585078|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.0998|TWO_SIDED|90.0|-0.455|0.0|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W4||-0.000|-0.455|0.0998
82585079|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.22||||0.1085|TWO_SIDED|90.0|-0.453|0.006|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W4||0.006|-0.453|0.1085
82585080|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.14||||0.3161|TWO_SIDED|90.0|-0.372|0.09|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W4||0.090|-0.372|0.3161
82585081|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.1||||0.4962|TWO_SIDED|90.0|-0.328|0.136|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W8||0.136|-0.328|0.4962
82585082|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.29||||0.0371|TWO_SIDED|90.0|-0.512|-0.06|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W8||-0.060|-0.512|0.0371
82585083|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.21||||0.1212|TWO_SIDED|90.0|-0.441|0.013|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W8||0.013|-0.441|0.1212
82585084|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.18||||0.187|TWO_SIDED|90.0|-0.41|0.045|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W8||0.045|-0.410|0.1870
82585085|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.1133|TWO_SIDED|90.0|-0.459|0.009|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, PGA, W12||0.009|-0.459|0.1133
82585086|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.43||||0.0022|TWO_SIDED|90.0|-0.653|-0.198|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, PGA, W12||-0.198|-0.653|0.0022
82585087|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0788|TWO_SIDED|90.0|-0.475|-0.016|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, PGA, W12||-0.016|-0.475|0.0788
82376777|NCT02207634|164459901|OTHER||Treatment Difference|0.0226|STANDARD_ERROR_OF_MEAN|0.033|||TWO_SIDED|95.0|-0.0422|0.0873||||||A repeated measures mixed-effect linear model was used to estimate treatment difference (placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline PAL total errors adjusted Z score, treatment group, visit, and treatment by visit interaction.||0.0873|-0.0422|
82585088|NCT01620255|164882268|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.25||||0.0717|TWO_SIDED|90.0|-0.485|-0.022|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, PGA, W12||-0.022|-0.485|0.0717
82585089|NCT01620255|164882269|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.08||||0.5406|TWO_SIDED|90.0|-0.286|0.131|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo||0.131|-0.286|0.5406
82585090|NCT01620255|164882269|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.42||||0.0007|TWO_SIDED|90.0|-0.628|-0.221|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo||-0.221|-0.628|0.0007
82585091|NCT01620255|164882269|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.34||||0.0063|TWO_SIDED|90.0|-0.549|-0.137|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 75 mg vs placebo||-0.137|-0.549|0.0063
82585092|NCT01620255|164882269|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.23||||0.0748|TWO_SIDED|90.0|-0.436|-0.018|||ANCOVA|ANCOVA with model terms: treatment group, baseline, status of anti-TNF therapy experience.||PF-00547659 225 mg vs placebo||-0.018|-0.436|0.0748
82585093|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.9||||0.9744|TWO_SIDED|90.0|-101.0|97.14|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 4||97.14|-101.00|0.9744
82585094|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|74.9||||0.2023|TWO_SIDED|90.0|-21.77|171.66|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 4||171.66|-21.77|0.2023
82585095|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|32.9||||0.5808|TWO_SIDED|90.0|-65.09|130.79|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 4||130.79|-65.09|0.5808
82585096|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|37.6||||0.5388|TWO_SIDED|90.0|-63.12|138.34|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 4||138.34|-63.12|0.5388
82585097|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-8.2||||0.8902|TWO_SIDED|90.0|-106.24|89.81|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 8||89.81|-106.24|0.8902
82585098|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|10.2||||0.8616|TWO_SIDED|90.0|-86.14|106.54|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 8||106.54|-86.14|0.8616
82585099|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-34.3||||0.5684|TWO_SIDED|90.0|-133.49|64.79|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 8||64.79|-133.49|0.5684
82585100|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|33.8||||0.57|TWO_SIDED|90.0|-64.2|131.86|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 8||131.86|-64.20|0.5700
82585101|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-30.0||||0.6234|TWO_SIDED|90.0|-130.56|70.57|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 12||70.57|-130.56|0.6234
82585102|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|36.0||||0.5474|TWO_SIDED|90.0|-62.44|134.38|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 12||134.38|-62.44|0.5474
82585103|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|78.5||||0.1918|TWO_SIDED|90.0|-20.48|177.56|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo,Week 12||177.56|-20.48|0.1918
82585104|NCT01620255|164882270|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-3.0||||0.9615|TWO_SIDED|90.0|-104.88|98.91|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 12||98.91|-104.88|0.9615
82585105|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|6.4||||0.9328|TWO_SIDED|90.0|-118.6|131.41|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 4||131.41|-118.60|0.9328
82585106|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-9.8||||0.8962|TWO_SIDED|90.0|-132.91|113.39|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 4||113.39|-132.91|0.8962
82585107|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|11.5||||0.8775|TWO_SIDED|90.0|-110.83|133.74|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 4||133.74|-110.83|0.8775
82376778|NCT02207634|164459902|OTHER||Treatment Difference|0.0727|STANDARD_ERROR_OF_MEAN|0.0382|||TWO_SIDED|95.0|-0.0022|0.1477||||||A repeated measures mixed-effect linear model was used to estimate treatment difference ( placebo - evolocumab) in change from baseline and associated 95% confidence intervals (CI). The model included stratification factors for Study 20110118 (final screening LDL-C and geographical region), age, education level, baseline RTI median 5-choice reaction time Z score, treatment group, visit, and treatment by visit interaction.||0.1477|-0.0022|
82585108|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-17.0||||0.8224|TWO_SIDED|90.0|-142.02|107.94|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 4||107.94|-142.02|0.8224
82585109|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-52.7||||0.4831|TWO_SIDED|90.0|-176.48|71.02|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 8||71.02|-176.48|0.4831
82585110|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-115.2||||0.1183|TWO_SIDED|90.0|-236.63|6.13|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 8||6.13|-236.63|0.1183
82585111|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-115.8||||0.1139|TWO_SIDED|90.0|-236.29|4.69|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, Week 8||4.69|-236.29|0.1139
82585112|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-96.4||||0.1931|TWO_SIDED|90.0|-218.17|25.46|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 8||25.46|-218.17|0.1931
82585113|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-119.7||||0.1182|TWO_SIDED|90.0|-245.66|6.32|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, Week 12||6.32|-245.66|0.1182
82585114|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-41.7||||0.5784|TWO_SIDED|90.0|-165.34|81.87|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, Week 12||81.87|-165.34|0.5784
82376779|NCT00459355|164459924|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||MANCOVA|||||||<0.0001
82376780|NCT00459355|164459925|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||MANCOVA|||||||<.0001
82376781|NCT00459355|164459926|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||MANCOVA|||||||.002
82585115|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-163.6||||0.0279|TWO_SIDED|90.0|-285.84|-41.29|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo,Week 12||-41.29|-285.84|0.0279
82585116|NCT01620255|164882271|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-123.5||||0.1053|TWO_SIDED|90.0|-249.0|1.93|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, Week 12||1.93|-249.00|0.1053
82585117|NCT01620255|164882272|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-1.1||||0.8302|TWO_SIDED|90.0|-9.507|7.317|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, change from BL at W12||7.317|-9.507|0.8302
82585118|NCT01620255|164882272|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|12.33||||0.0141|TWO_SIDED|90.0|4.084|20.567|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, change from BL at W12||20.567|4.084|0.0141
82585119|NCT01620255|164882272|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|11.7||||0.0182|TWO_SIDED|90.0|3.564|19.84|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, change from BL at W12||19.840|3.564|0.0182
82585120|NCT01620255|164882272|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|15.48||||0.0026|TWO_SIDED|90.0|7.056|23.907|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, change from BL at W12||23.907|7.056|0.0026
82585121|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.73||||0.6862|TWO_SIDED|90.0|-3.689|2.235|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, bowel fx change from BL at W12||2.235|-3.689|0.6862
82585122|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.37||||0.0135|TWO_SIDED|90.0|1.467|7.28|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, bowel fx change from BL at W12||7.280|1.467|0.0135
82585123|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.16||||0.0171|TWO_SIDED|90.0|1.293|7.023|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, bowel fx change from BL at W12||7.023|1.293|0.0171
82585124|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|5.2||||0.0041|TWO_SIDED|90.0|2.232|8.172|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, bowel fx change from BL at W12||8.172|2.232|0.0041
82585125|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|0.22||||0.9072|TWO_SIDED|90.0|-2.897|3.339|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, emotional fx change from BL at W12||3.339|-2.897|0.9072
82585126|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.47||||0.0161|TWO_SIDED|90.0|1.42|7.522|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, emotional fx change from BL at W12||7.522|1.420|0.0161
82585127|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|4.06||||0.0271|TWO_SIDED|90.0|1.042|7.071|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, emotional fx change from BL at W12||7.071|1.042|0.0271
82585128|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|5.9||||0.002|TWO_SIDED|90.0|2.778|9.026|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, emotional fx change from BL at W12||9.026|2.778|0.0020
82585129|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.26||||0.7711|TWO_SIDED|90.0|-1.756|1.229|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, systemic symptoms change from BL at W12||1.229|-1.756|0.7711
82585130|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.69||||0.0582|TWO_SIDED|90.0|0.223|3.147|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, systemic symptoms change from BL at W12||3.147|0.223|0.0582
82585131|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.68||||0.0558|TWO_SIDED|90.0|0.235|3.12|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, systemic symptoms change from BL at W12||3.120|0.235|0.0558
82585132|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.66||||0.0686|TWO_SIDED|90.0|0.161|3.153|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, systemic symptoms change from BL at W12||3.153|0.161|0.0686
82585133|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|-0.33||||0.7561|TWO_SIDED|90.0|-2.094|1.429|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 7.5 mg vs placebo, social fx change from BL at W12||1.429|-2.094|0.7561
82585134|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|2.17||||0.0384|TWO_SIDED|90.0|0.447|3.891|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 22.5 mg vs placebo, social fx change from BL at W12||3.891|0.447|0.0384
82585135|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|1.86||||0.0729|TWO_SIDED|90.0|0.154|3.557|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 75 mg vs placebo, social fx change from BL at W12||3.557|0.154|0.0729
82585136|NCT01620255|164882273|SUPERIORITY_OR_OTHER_LEGACY||LSM Difference|2.95||||0.006|TWO_SIDED|90.0|1.19|4.715|||Mixed Models Analysis|LMM with model terms: treatment group, time, baseline, time by treatment, status of previous anti-TNF therapy experience.||PF-00547659 225 mg vs placebo, social fx change from BL at W12||4.715|1.190|0.0060
82585137|NCT01620255|164882274|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.002||||0.5201|TWO_SIDED|90.0|-0.145|0.142||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 7.5 mg vs placebo||0.142|-0.145|0.5201
82376782|NCT00113763|164459970|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Log Rank|Stratified by baseline IVRS ECOG performance status and geographic region||Null hypothesis was no difference between treatment groups||||<0.0001
82585138|NCT01620255|164882274|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.183||||0.0217|TWO_SIDED|90.0|0.039|0.328||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 22.5 mg vs placebo||0.328|0.039|0.0217
82585139|NCT01620255|164882274|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.096||||0.1473|TWO_SIDED|90.0|-0.045|0.237||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 75 mg vs placebo||0.237|-0.045|0.1473
82585140|NCT01620255|164882274|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.112||||0.1231|TWO_SIDED|90.0|-0.038|0.261||1-sided p-value|Cochran-Mantel-Haenszel|Statistics of risk difference are calculated using the Minimum Risk Weights test.|Statistics of risk difference are calculated using the Minimum Risk Weights test.|PF-00547659 225 mg vs placebo||0.261|-0.038|0.1231
82585141|NCT03794908|164882292|SUPERIORITY||Mean Difference (Net)|3.8|STANDARD_ERROR_OF_MEAN|3.49||0.28|TWO_SIDED|95.0|-3.03|10.64|||Mixed Models Analysis|The comparison was done using a mixed model with assessments at 3 time points (pre-treatment, mid-treatment, and end of treatment).||Test of between-arm difference at mid-treatment.||10.64|-3.03|0.28
82585142|NCT03794908|164882292|SUPERIORITY||Mean Difference (Net)|4.48|STANDARD_ERROR_OF_MEAN|3.53||0.21|TWO_SIDED|95.0|-2.44|11.4|||Mixed Models Analysis|The comparison was done using a mixed model with assessments at 3 time points (pre-treatment, mid-treatment, and end of treatment).||Test of between-arm difference at end of treatment.||11.40|-2.44|0.21
82585143|NCT03645057|164882296|SUPERIORITY|||||||0.433|||||||Wilcoxon rank sum test|||||||0.433
82585144|NCT03645057|164882297|SUPERIORITY|||||||0.836|||||||Wilcoxon rank sum test|||||||0.836
82585145|NCT03645057|164882298|SUPERIORITY|||||||0.073|||||||Wilcoxon rank sum test|||||||0.073
82585146|NCT03645057|164882299|SUPERIORITY|||||||0.989|||||||Wilcoxon rank sum test|||||||0.989
82585147|NCT03645057|164882300|SUPERIORITY|||||||0.565|||||||Wilcoxon rank sum test|||||||0.565
82585148|NCT03645057|164882301|SUPERIORITY|||||||0.479|||||||Wilcoxon rank sum test|||||||0.479
82585149|NCT03645057|164882302|SUPERIORITY|||||||0.577|||||||Wilcoxon rank sum test|||||||0.577
82585150|NCT03645057|164882303|SUPERIORITY|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||||||0.439
82585151|NCT03645057|164882304|SUPERIORITY|||||||0.242|||||||Wilcoxon rank sum test|||||||0.242
82585152|NCT00879762|164882319|NON_INFERIORITY|The non-inferiority margin is 2.5. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the hazard ratio is less than 2.5.|Hazard Ratio (HR)|0.587|||||TWO_SIDED|95.0|0.398|0.868|||||A survival analysis for interval censored data was performed to estimate the hazard ratio. The 95% CI for the hazard ratio was estimated using bootstrap.|Null hypothesis: Median time to seroconversion among participants receiving one standard dose in Group B is 2.5-fold higher compared to participants receiving one high dose in Group A (hazard ratio = 2.5).||0.868|0.398|
82585153|NCT00879762|164882320|NON_INFERIORITY|The non-inferiority margin is 2.5. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the hazard ratio is less than 2.5.|Hazard Ratio (HR)|0.583|||||TWO_SIDED|95.0|0.384|0.853|||||A survival analysis for interval censored data was performed to estimate the hazard ratio. The 95% CI for the hazard ratio was estimated using bootstrap.|Null hypothesis: Median time to seroconversion among participants receiving one standard dose in Group B is 2.5-fold higher compared to participants receiving one high dose in Group A (hazard ratio = 2.5).||0.853|0.384|
82585154|NCT00879762|164882326|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2.5 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-0.2|0.97|||||Estimate and corresponding 95% confidence interval are calculated on the log2.5 scale.|Null hypothesis: The mean difference in log2.5 transformed peak titers between Group A and Group B \>= 1.||0.97|-0.20|
82652073|NCT02247479|165019409|SUPERIORITY||Difference in Adjusted Means|-0.99||||0.7713|TWO_SIDED|95.0|-7.66|5.69|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline maximum reading speed, type of reading charts, baseline BCVA of better seeing eye, biomarker status, and sex.||5.69|-7.66|0.7713
82585155|NCT00879762|164882327|NON_INFERIORITY|The non-inferiority margin is 1. Non-inferiority of Group B is concluded if the upper limit of the 95% confidence interval for the mean difference in the log2.5 transformed peak titers between groups is less than 1.|Mean Difference (Final Values)|0.42|||||TWO_SIDED|95.0|-0.17|1.0|||||Estimate and corresponding 95% confidence interval are calculated on the log2.5 scale.|Null hypothesis: The mean difference in log2.5 transformed peak titers between Group A and Group B \>= 1.||1.00|-0.17|
82585156|NCT04981366|164882328|SUPERIORITY|||||||0.013|TWO_SIDED|95.0||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||0.013
82585157|NCT04981366|164882329|SUPERIORITY||||||<|0.001||||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||<0.001
82585158|NCT04981366|164882330|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585159|NCT04981366|164882331|SUPERIORITY|||||||0.007||||||We applied the restricted maximum likelihood, compound symmetry covariance structure, and Kenward-Roger degrees of freedom approximation. To maintain the significance level at 0.05, the primary endpoints were assessed using Hochberg's procedure.|Mixed Models Analysis|||||||0.007
82585160|NCT04981366|164882332|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585161|NCT04981366|164882333|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585162|NCT04981366|164882334|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
82585163|NCT04981366|164882335|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585164|NCT04981366|164882336|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585165|NCT04981366|164882337|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585166|NCT04981366|164882338|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585167|NCT04981366|164882339|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585168|NCT04981366|164882340|SUPERIORITY|||||||0.033|||||||Mixed Models Analysis|||||||0.033
82585169|NCT04981366|164882341|SUPERIORITY|||||||0.944|||||||Mixed Models Analysis|||||||0.944
82585170|NCT04981366|164882342|SUPERIORITY|||||||0.203|||||||Mixed Models Analysis|||||||0.203
82585171|NCT04981366|164882343|SUPERIORITY|||||||0.027|||||||Mixed Models Analysis|||||||0.027
82652074|NCT02247479|165019410|SUPERIORITY||Difference in Adjusted Means|1.72||||0.6204|TWO_SIDED|95.0|-5.09|8.53|||MMRM|||MMRM analysis uses change as response variable included terms for treatment group, baseline maximum reading speed, type of reading charts, biomarker status, modified baseline BCVA and sex.||8.53|-5.09|0.6204
82652075|NCT02247479|165019410|SUPERIORITY||Difference in Adjusted Means|1.47||||0.6705|TWO_SIDED|95.0|-5.31|8.25|||MMRM|||MMRM analysis uses change as response variable included terms for treatment group, baseline maximum reading speed, type of reading charts, biomarker status, modified baseline BCVA and sex.||8.25|-5.31|0.6705
82585172|NCT04981366|164882344|SUPERIORITY|||||||0.145|||||||Mixed Models Analysis|||||||0.145
82585173|NCT04981366|164882345|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585174|NCT04981366|164882346|SUPERIORITY|||||||0.551|||||||Mixed Models Analysis|||||||0.551
82585175|NCT04981366|164882347|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585176|NCT04981366|164882348|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585177|NCT04981366|164882349|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585178|NCT04981366|164882350|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||||||0.008
82585179|NCT04981366|164882351|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585180|NCT04981366|164882352|SUPERIORITY|||||||0.344|||||||Mixed Models Analysis|||||||0.344
82585181|NCT04981366|164882353|SUPERIORITY|||||||0.613|||||||Mixed Models Analysis|||||||0.613
82585182|NCT04981366|164882354|SUPERIORITY|||||||0.944|||||||Mixed Models Analysis|||||||0.944
82585183|NCT04981366|164882355|SUPERIORITY|||||||0.601|||||||Mixed Models Analysis|||||||0.601
82585184|NCT04981366|164882356|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585185|NCT04981366|164882357|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585186|NCT04981366|164882358|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585187|NCT04981366|164882360|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585188|NCT04981366|164882361|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585189|NCT04981366|164882362|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585190|NCT04981366|164882363|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585191|NCT04981366|164882364|SUPERIORITY|||||||0.017|||||||Mixed Models Analysis|||||||0.017
82585192|NCT04981366|164882365|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585193|NCT04981366|164882366|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|||||||0.949
82585194|NCT04981366|164882367|SUPERIORITY|||||||0.993|||||||Mixed Models Analysis|||||||0.993
82585195|NCT04981366|164882368|SUPERIORITY|||||||0.601|||||||Mixed Models Analysis|||||||0.601
82585196|NCT04981366|164882369|SUPERIORITY|||||||0.408|||||||Mixed Models Analysis|||||||0.408
82585197|NCT04981366|164882370|SUPERIORITY|||||||0.082|||||||Mixed Models Analysis|||||||0.082
82585198|NCT04981366|164882371|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||||||0.550
82585199|NCT04981366|164882372|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|||||||0.700
82585200|NCT04981366|164882373|SUPERIORITY|||||||0.254|||||||Mixed Models Analysis|||||||0.254
82585201|NCT04981366|164882374|SUPERIORITY|||||||0.373|||||||Mixed Models Analysis|||||||0.373
82585202|NCT04981366|164882375|SUPERIORITY|||||||0.407|||||||Mixed Models Analysis|||||||0.407
82585203|NCT04981366|164882376|SUPERIORITY|||||||0.051|||||||Mixed Models Analysis|||||||0.051
82585204|NCT04981366|164882377|SUPERIORITY|||||||0.385|||||||Mixed Models Analysis|||||||0.385
82585205|NCT04981366|164882378|SUPERIORITY|||||||0.239|||||||Mixed Models Analysis|||||||0.239
82585206|NCT04981366|164882379|SUPERIORITY|||||||0.463|||||||Mixed Models Analysis|||||||0.463
82585207|NCT04981366|164882380|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||||||0.032
82585208|NCT04981366|164882381|SUPERIORITY|||||||0.469|||||||Mixed Models Analysis|||||||0.469
82585209|NCT04981366|164882382|SUPERIORITY|||||||0.013|||||||Mixed Models Analysis|||||||0.013
82585210|NCT04981366|164882383|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||0.064
82585211|NCT04981366|164882384|SUPERIORITY|||||||0.0314|||||||Mixed Models Analysis|||||||0.0314
82585212|NCT04981366|164882385|SUPERIORITY|||||||0.0147|||||||Mixed Models Analysis|||||||0.0147
82585213|NCT04981366|164882386|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||||||0.007
82585214|NCT04981366|164882387|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82585215|NCT04981366|164882388|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82585216|NCT01313637|164882398|SUPERIORITY_OR_OTHER||Least squares mean difference|0.16|||<|0.001|TWO_SIDED|95.0|0.122|0.198|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC 125 µg minus Placebo.|||0.198|0.122|<0.001
82585217|NCT01313637|164882398|SUPERIORITY_OR_OTHER||Least squares mean difference|0.124|||<|0.001|TWO_SIDED|95.0|0.086|0.162|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=VI 25 µg minus Placebo.|||0.162|0.086|<0.001
82585218|NCT01313637|164882398|SUPERIORITY_OR_OTHER||Least squares mean difference|0.238|||<|0.001|TWO_SIDED|95.0|0.2|0.276|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 µg minus Placebo.|||0.276|0.200|<0.001
82585219|NCT01313637|164882398|SUPERIORITY_OR_OTHER||Least squares mean difference|0.079|||<|0.001|TWO_SIDED|95.0|0.046|0.112|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 minus UMEC 125 µg.|||0.112|0.046|<0.001
82585220|NCT01313637|164882398|SUPERIORITY_OR_OTHER||Least squares mean difference|0.114|||<|0.001|TWO_SIDED|95.0|0.081|0.148|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 125/25 minus VI 25 µg.|||0.148|0.081|<0.001
82585221|NCT04218084|164882499|OTHER|Mixed Model Repeated Measures analysis|Difference in LS mean|-7.73||||0.0043|TWO_SIDED|95.0|-13.03|-2.42|||Mixed Models for Repeated Measures|||Week 24||-2.42|-13.03|0.0043
82585222|NCT01468831|164882513|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|7.8|STANDARD_DEVIATION|7.4|||TWO_SIDED|95.0|-10.6|26.1|||||Difference = Minocycline - Placebo|||26.1|-10.6|
82585223|NCT01468831|164882514|OTHER|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 12 is reported.|Mean Difference (Net)|1.1|STANDARD_DEVIATION|1.4|||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585224|NCT01468831|164882515|OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|3.5|||TWO_SIDED||||||||Difference = Minocycline - Placebo|The mean difference between the minocycline and placebo treatment arms in number of bevacizumab injections received from baseline to Month 24 is reported.||||
82585225|NCT01468831|164882516|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 3 compared to baseline is reported.|Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.3|||TWO_SIDED|95.0|-3.9|2.3|||||Difference = Minocycline - Placebo|||2.3|-3.9|
82561652|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|226.9|||||TWO_SIDED|95.0|79.81|645.29|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||645.29|79.81|
82561653|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|116.8|||||TWO_SIDED|95.0|54.54|250.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||250.13|54.54|
82561654|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|481.0|||||TWO_SIDED|95.0|207.01|1117.69|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1117.69|207.01|
82561655|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|66.5|||||TWO_SIDED|95.0|41.8|105.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||105.75|41.80|
82561656|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.6|||||TWO_SIDED|95.0|5.36|13.94|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||13.94|5.36|
82561657|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|78.2|||||TWO_SIDED|95.0|41.38|147.8|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||147.80|41.38|
82561658|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|438.1|||||TWO_SIDED|95.0|169.52|1132.43|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1132.43|169.52|
82561659|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|80.0|||||TWO_SIDED|95.0|23.28|274.82|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||274.82|23.28|
82561660|NCT00824850|164832687|SUPERIORITY_OR_OTHER||geometric mean fold rise|61.5|||||TWO_SIDED|95.0|28.73|131.76|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 5 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||131.76|28.73|
82561661|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|281.7|||||TWO_SIDED|95.0|76.65|1035.49|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1035.49|76.65|
82561662|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.6|||||TWO_SIDED|95.0|3.47|16.75|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||16.75|3.47|
82561663|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|151.4|||||TWO_SIDED|95.0|42.01|545.84|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||545.84|42.01|
82561664|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|23.7|||||TWO_SIDED|95.0|8.67|64.54|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||64.54|8.67|
82561665|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|102.1|||||TWO_SIDED|95.0|32.0|325.4|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||325.40|32.00|
82561666|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|31.1|||||TWO_SIDED|95.0|12.71|76.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||76.13|12.71|
82489954|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.04|||||TWO_SIDED|95.0|0.81|1.32|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-5), one month after the administration of Prevnar 13 vaccine dose.||1.32|0.81|
82489955|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.26|||||TWO_SIDED|95.0|1.02|1.56|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-6A), one month after the administration of Prevnar 13 vaccine dose.||1.56|1.02|
82489956|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.07|1.73|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-6B), one month after the administration of Prevnar 13 vaccine dose.||1.73|1.07|
82489957|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.21|||||TWO_SIDED|95.0|1.01|1.44|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-7F), one month after the administration of Prevnar 13 vaccine dose.||1.44|1.01|
82489958|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.16|||||TWO_SIDED|95.0|0.97|1.39|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-9V), one month after the administration of Prevnar 13 vaccine dose.||1.39|0.97|
82489959|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.15|||||TWO_SIDED|95.0|0.94|1.42|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-14), one month after the administration of Prevnar 13 vaccine dose.||1.42|0.94|
82489960|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.11|||||TWO_SIDED|95.0|0.92|1.34|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-18C), one month after the administration of Prevnar 13 vaccine dose.||1.34|0.92|
82561667|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|18.7|||||TWO_SIDED|95.0|6.82|51.39|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||51.39|6.82|
82561668|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|64.4|||||TWO_SIDED|95.0|37.33|111.18|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||111.18|37.33|
82561669|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|6.64|18.52|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||18.52|6.64|
82561670|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|41.2|||||TWO_SIDED|95.0|23.09|73.48|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||73.48|23.09|
82561671|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|479.6|||||TWO_SIDED|95.0|171.63|1339.96|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1339.96|171.63|
82585226|NCT01468831|164882517|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-2.1|STANDARD_DEVIATION|1.0|||TWO_SIDED|95.0|-4.5|0.3|||||Difference = Minocycline - Placebo|||0.3|-4.5|
82585227|NCT01468831|164882518|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-2.5|STANDARD_DEVIATION|1.8|||TWO_SIDED|95.0|-7.5|2.5|||||Difference = Minocycline - Placebo|||2.5|-7.5|
82585228|NCT01468831|164882519|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-3.5|STANDARD_DEVIATION|2.2|||TWO_SIDED|95.0|-9.4|2.4|||||Difference = Minocycline - Placebo|||2.4|-9.4|
82585229|NCT01468831|164882520|OTHER|The mean difference between the minocycline and placebo groups in the change in macular sensitivity in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-3.7|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-9.5|2.0|||||Difference = Minocycline - Placebo|||2|-9.5|
82585230|NCT01468831|164882521|OTHER|The mean difference between the minocycline and placebo arms in change in BCVA in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|5.8|STANDARD_DEVIATION|9.1|||TWO_SIDED|95.0|-17.1|28.6|||||Difference = Minocycline - Placebo|||28.6|-17.1|
82585231|NCT01468831|164882522|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 6 compared to baseline is reported.|Mean Difference (Net)|-51.8|STANDARD_DEVIATION|70.8|||TWO_SIDED|95.0|-231.2|127.6|||||Difference = Minocycline - Placebo|||127.6|-231.2|
82585232|NCT01468831|164882523|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 12 compared to baseline is reported.|Mean Difference (Net)|-45.5|STANDARD_DEVIATION|153.5|||TWO_SIDED|95.0|-522.6|431.6|||||Difference = Minocycline - Placebo|||431.6|-522.6|
82585233|NCT01468831|164882524|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 18 compared to baseline is reported.|Mean Difference (Net)|-12.8|STANDARD_DEVIATION|163.8|||TWO_SIDED|95.0|-513.1|487.6|||||Difference = Minocycline - Placebo|||487.6|-513.1|
82585234|NCT01468831|164882525|OTHER|The mean difference between the minocycline and placebo treatment arms in change in retinal thickness as measured by OCT in the study eye at Month 24 compared to baseline is reported.|Mean Difference (Net)|-9.5|STANDARD_DEVIATION|156.8|||TWO_SIDED|95.0|-487.0|468.0|||||Difference = Minocycline - Placebo|||468|-487|
82585235|NCT01468831|164882526|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 12 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585236|NCT01468831|164882527|OTHER|The difference between the minocycline and placebo treatment arms in number of participants improving ≥ 1 logOCT scale step in the study eye at Month 24 compared to baseline is reported|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585237|NCT01468831|164882528|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|-2.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82376783|NCT00113763|164459971|SUPERIORITY_OR_OTHER_LEGACY|||||||0.806||||||This analysis was conducted contingent on a statistically significant difference in the primary outcome, and adjusted to an a priori threshold for statistical significance at a 4% level for a multiple comparison involving objective tumor response|Log Rank|Stratified by baseline IVRS ECOG performance status and geographic region||Null hypothesis was no difference between treatment groups||||0.806
82585238|NCT01468831|164882528|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585239|NCT01468831|164882528|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 12 compared to baseline is reported.|Difference in Number of Participants|2.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585240|NCT01468831|164882529|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing a decrease in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|-1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585241|NCT01468831|164882529|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing an increase in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|1.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585242|NCT01468831|164882529|OTHER|The difference between the minocycline and treatment arms in the number of participants experiencing no change in fluid leakage at Month 24 compared to baseline is reported.|Difference in Number of Participants|0.0|||||TWO_SIDED||||||||Difference = Minocycline - Placebo|||||
82585243|NCT02513303|164882555|SUPERIORITY|||||||0.2942|||||||Regression, Logistic|||||||0.2942
82376784|NCT01549405|164460020|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mann-Whitney U test|||||||0.002
82376785|NCT01549405|164460021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|122.1|STANDARD_DEVIATION|58.0||0|TWO_SIDED|95.0|52.98|132.4|||t-test, 2 sided|||||132.4|52.98|0.000
82585244|NCT01691768|164882556|NON_INFERIORITY|We estimated that we would need to enrol 700 women after taking into account the anticipated loss-to follow-up in order to provide 90% power to demonstrate whether gel use in women attending family planning (intervention) services is similar to, but no more than 20% lower than, gel use among women attending CAPRISA research clinics (control).|Mean Difference (Final Values)|-0.47|||||TWO_SIDED|95.0|-1.16|0.21||||Univariate Linear Mixed Models were used to analyze primary outcome.|The least square mean from the intervention arm was the minuend and the least square mean from the control arm was the subtrahend.|Intent to treat population (all participants who were randomized, met pre-randomization eligibility criteria and who have post-enrollment follow-up data) was used for this analyses.|The primary endpoint was compared using univariate linear mixed model with compound symmetry structure.|0.21|-1.16|
82586160|NCT05437510|164884207|SUPERIORITY||Efficacy|82.72|||<|0.0001|TWO_SIDED|95.0|67.826|91.49|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||91.490|67.826|<0.0001
82585245|NCT01691768|164882556|NON_INFERIORITY|We estimated that we would need to enrol 700 women after taking into account the anticipated loss-to follow-up in order to provide 90% power to demonstrate whether gel use in women attending family planning (intervention) services is similar to, but no more than 20% lower than, gel use among women attending CAPRISA research clinics (control)|Median Difference (Final Values)|-0.25|||||TWO_SIDED|95.0|-0.98|0.48||||Univariable Linear Mixed Models was used for the analyses|We calculated the difference in means between the two arms. The mean from the intervention arm was the minuend and the mean from the control arm was the subtrahend.|This is the analyses from the per protocol population (excluding all subsequent data collected from participants who were not dispensed product for more than 120 days).||0.48|-0.98|
82585246|NCT01691768|164882557|SUPERIORITY||Incidence rate ratio|0.96||||0.928|TWO_SIDED|95.0|0.4|2.35|||z-test|We used z-test to compare incidence rates between the arms. We did not use log-rank test because we did not present survival curves.|We calculated incidence rate ratio, where the HIV incidence rate for the intervention arm represents the numerator and the HIV incidence rate for the control arm represents the denominator.|The power was not calculated for all the secondary outcomes.||2.35|0.40|0.928
82585247|NCT01691768|164882558|SUPERIORITY||incidence rate ratio|0.96||||0.895|TWO_SIDED|95.0|0.45|2.04|||z-test|We used z-test to compare pregnancy incidence rates between the arms. We did not use log-rank test because we did not present survival curves.|We calculated incidence rate ratio, where the pregnancy incidence rate for the intervention arm represents the numerator and the pregnancy incidence rate for the control arm represents the denominator.|Power was not calculated for all the secondary outcomes.||2.04|0.45|0.895
82585248|NCT01691768|164882559|SUPERIORITY||Risk Ratio (RR)|1.08||||0.304|TWO_SIDED|95.0|0.94|1.24|||Regression, Log-binomial|||Power was not calculated for all secondary outcomes.||1.24|0.94|0.304
82585249|NCT01691768|164882560|SUPERIORITY|||||||0.455|||||||t-test, 2 sided|||||||0.455
82585250|NCT01691768|164882562|SUPERIORITY||incidence rate ratio|0.33||||0.097|TWO_SIDED|95.0|0.06|1.32|||z-test||We calculated incidence rate ratio, where the HPV incidence rate for the intervention arm represents the numerator and the HPV incidence rate for the control arm represents the denominator.|||1.32|0.06|0.097
82585251|NCT01691768|164882563|SUPERIORITY||Risk Ratio (RR)|0.91||||0.462|TWO_SIDED|95.0|0.7|1.18|||Regression, Log-binomial|||||1.18|0.70|0.462
82585252|NCT02294227|164882569|SUPERIORITY||Odds Ratio (OR)|3.07||||0.0002|TWO_SIDED|95.0|1.66|5.66|||Chi-squared|||||5.66|1.66|0.0002
82585253|NCT02294227|164882569|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0003|TWO_SIDED|95.0|1.76|5.97|||Chi-squared, Corrected|||||5.97|1.76|0.0003
82585254|NCT02481947|164882604|NON_INFERIORITY|Non-inferiority margin = 12.6% (pre-specified)||||||0.016||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|||||||0.016
82585255|NCT00887432|164882605|SUPERIORITY||Mean Difference (Net)|0.24||||0.431|TWO_SIDED|95.0|-0.36|0.84||Significance level of 0.05.|t-test, 2 sided|Paired t-test, df=86||Evaluated the change in PSA under the vitamin D and placebo conditions using the combined data (n=87).||0.84|-0.36|0.431
82585256|NCT00887432|164882606|SUPERIORITY|Comparing the mean PSA slopes between conditions (on vitamin D versus on placebo).|Mean Difference (Net)|-0.00019||||0.112|TWO_SIDED|95.0|-0.00042|0.000045||Significance level of 0.05.|Mixed Models Analysis|||||0.000045|-0.00042|0.112
82585257|NCT00899548|164882608|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.0002|TWO_SIDED|95.0|1.23|2.52|||Gehan|Distributions compared between using the Gehan test, which gives more weight to early differences.||||2.52|1.23|.0002
82585258|NCT00899548|164882609|OTHER||Cox Proportional Hazard|1.19||||0.001|TWO_SIDED|95.0|1.07|1.32|||Regression, Cox|||Hazard ratio||1.32|1.07|0.001
82585259|NCT00899548|164882612|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.001|TWO_SIDED|95.0|1.18|2.45|||Gehan|Distributions compared between using the Gehan test, which gives more weight to early differences.||||2.45|1.18|.001
82585260|NCT01337115|164882616|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.44|STANDARD_ERROR_OF_MEAN|8.4||0.001|TWO_SIDED|95.0|11.55|45.34|||t-test, 2 sided|||Difference between mean VAS pain scores. Power 80%. Null hypothesis states there is no difference between pains scores in both groups||45.34|11.55|0.001
82585261|NCT01337115|164882617|SUPERIORITY_OR_OTHER|||||||0.537||||||The null hypothesis is that there is no difference in patient satisfaction distribution by the three categories used (Bad; Reasonable; Good/Very Good) between groups.|Fisher's exact test|Fisher's Exact test allows to test for the significance of the distribution in the results table with three categories.||||||0.537
82585262|NCT01337115|164882618|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.92|STANDARD_ERROR_OF_MEAN|5.67||0.006|TWO_SIDED|95.0|5.52|28.33|||t-test, 2 sided|||Null hypothesis states that there is no difference between groups. Power 80%||28.33|5.52|0.006
82585263|NCT01337115|164882619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.55|STANDARD_ERROR_OF_MEAN|7.14||0.723|TWO_SIDED|95.0|-16.93|11.83|||t-test, 2 sided|||Null hypothesis states there is no difference between both groups. Power 80% to detect 15% difference in means||11.83|-16.93|0.723
82585264|NCT03426267|164882629|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82585265|NCT03426267|164882630|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82585266|NCT01209780|164882640|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if for all three strains the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational) at 21 days after last vaccination does not exceed 10 percentage points.|Vaccine group difference (%)|-1.0|||||TWO_SIDED|95.0|-4.0|2.0||||||Non-inferiority of investigational TIV to control TIV against A/H1N1 influenza strain||2|-4|
82585267|NCT01209780|164882640|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if, for all three strains, the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational), at 21 days after last vaccination, does not exceed 10 percentage points|Vaccine group difference (%)|10.0|||||TWO_SIDED|95.0|6.0|14.0||||||Non-inferiority of investigational TIV to control TIV against A/H3N2 influenza strain||14|6|
82585268|NCT01209780|164882640|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV if, for all three strains, the upper bound of the two-sided 95% CI on the difference between the seroconversion rates (Seroconversion control - Seroconversion investigational), at 21 days after last vaccination, does not exceed 10 percentage points|Vaccine group difference (%)|-1.0|||||TWO_SIDED|95.0|-5.0|3.0||||||Non-inferiority of investigational TIV to the control TIV against B influenza strain||3|-5|
82489961|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.87|1.22|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-19A), one month after the administration of Prevnar 13 vaccine dose.||1.22|0.87|
82561672|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|76.4|||||TWO_SIDED|95.0|21.63|270.02|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||270.02|21.63|
82561673|NCT00824850|164832688|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.7|||||TWO_SIDED|95.0|7.61|41.08|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||41.08|7.61|
82561674|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|170.2|||||TWO_SIDED|95.0|22.24|1301.79|||||CI for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 4: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||1301.79|22.24|
82561675|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.8|||||TWO_SIDED|95.0|5.27|59.91|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 6B: GMRFs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||59.91|5.27|
82561676|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|67.8|||||TWO_SIDED|95.0|18.45|249.02|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 9V: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||249.02|18.45|
82561677|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|22.2|||||TWO_SIDED|95.0|7.94|61.88|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 14: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||61.88|7.94|
82561678|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|205.5|||||TWO_SIDED|95.0|70.04|602.78|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 18C: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||602.78|70.04|
82561679|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|90.5|||||TWO_SIDED|95.0|40.28|203.27|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 19F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||203.27|40.28|
82561680|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|91.7|||||TWO_SIDED|95.0|36.25|232.13|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|7vPnC serotype 23F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||232.13|36.25|
82561681|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|75.6|||||TWO_SIDED|95.0|47.32|120.91|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 1: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||120.91|47.32|
82561682|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.7|||||TWO_SIDED|95.0|5.21|14.4|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 3: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||14.40|5.21|
82561683|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|60.0|||||TWO_SIDED|95.0|31.06|115.92|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 5: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||115.92|31.06|
82561684|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|269.8|||||TWO_SIDED|95.0|105.09|692.6|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 6A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||692.60|105.09|
82561685|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|37.7|||||TWO_SIDED|95.0|10.85|131.09|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 7F: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||131.09|10.85|
82585269|NCT01209780|164882642|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|1.32|||||TWO_SIDED|95.0|1.11|1.56||||||Non-inferiority of investigational TIV to licensed control TIV against A/H1N1 influenza strain||1.56|1.11|
82585270|NCT01209780|164882642|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|1.48|||||TWO_SIDED|95.0|1.34|1.64||||||Non-inferiority of investigational TIV to licensed control TIV against A/H3N2 influenza strain||1.64|1.34|
82585271|NCT01209780|164882642|NON_INFERIORITY_OR_EQUIVALENCE|The investigational TIV was to be considered non-inferior to the control TIV, if for all three strains, the upper bound of the two-sided 95% CI on the ratio of the GMTs (GMTcontrol/GMTinvestigational) at 21 days after last vaccination does not exceed 1.5|Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.85|1.07||||||Non-inferiority of investigational TIV to licensed control TIV against B influenza strain||1.07|0.85|
82585272|NCT05007808|164882707|SUPERIORITY|ANCOVA model with Change from Baseline to Week 4/EOT as the outcome (dependent) variable, treatment as the independent variable, and baseline score as covariate. The p-value was derived from the t-test for the comparison of adjusted LS means between the treatment groups.|LS Mean Difference|-0.19||||0.6742|TWO_SIDED|95.0|-1.081|0.701|||t-test, 2 sided|||||0.701|-1.081|0.6742
82585273|NCT01886378|164882730|SUPERIORITY||Least squares (LS) mean|423.594||||0.1518|TWO_SIDED|95.0|-155.66|1002.85||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% confidence interval (CI), and p-values are based on the GEE model.|||1002.85|-155.66|0.1518
82585274|NCT01886378|164882731|SUPERIORITY||LS mean|-0.011||||0.3964|TWO_SIDED|95.0|-0.04|0.01||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||0.01|-0.04|0.3964
82585275|NCT01886378|164882732|SUPERIORITY||LS mean|4.671||||0.0777|TWO_SIDED|95.0|-0.52|9.86||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||9.86|-0.52|0.0777
82585276|NCT01886378|164882733|SUPERIORITY||LS mean|181.37||||0.083|TWO_SIDED|95.0|-23.7|386.45||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||386.45|-23.70|0.0830
82585277|NCT01886378|164882734|SUPERIORITY||LS mean|-0.185||||0.032|TWO_SIDED|95.0|-0.35|-0.02||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||-0.02|-0.35|0.0320
82585278|NCT01886378|164882735|SUPERIORITY||LS mean|12.44||||0.085|TWO_SIDED|95.0|-1.72|26.6||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||26.60|-1.72|0.0850
82585279|NCT01886378|164882736|SUPERIORITY||LS mean|2.16||||0.3754|TWO_SIDED|95.0|-2.62|6.94||The LS Mean, standard error (SE), 95% CI, and 2-sided p-value are from the GEE model.|GEE model|||||6.94|-2.62|0.3754
82585280|NCT01886378|164882737|SUPERIORITY||LS mean|0.816||||0.7564|TWO_SIDED|95.0|-4.34|5.97||The LS Mean, SE, 95% CI, and 2-sided p-value are from the GEE model.|GEE model|||||5.97|-4.34|0.7564
82585281|NCT01886378|164882738|SUPERIORITY||LS mean|8.88|||<|0.0001|TWO_SIDED|95.0|5.67|12.08||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model|||||12.08|5.67|<0.0001
82585282|NCT01886378|164882739|SUPERIORITY||LS mean|9.7||||0.0152|TWO_SIDED|95.0|1.87|17.54||The GEE model included the change from Baseline for each parameter as the dependent variable, time as the categorical variable, and adjusted for Baseline measurement with compound symmetry covariance structure.|GEE model||LS Mean, 95% CI, and p-values are based on the GEE model.|||17.54|1.87|0.0152
82585283|NCT02318797|164882748|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Treatment by time interaction test||||<0.0001
82585284|NCT02318797|164882748|SUPERIORITY|||||||0.0019|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.0019
82585285|NCT02318797|164882749|SUPERIORITY|||||||0.4103|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.4103
82585286|NCT02318797|164882749|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
82585287|NCT02318797|164882749|SUPERIORITY|||||||0.4068|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.4068
82585288|NCT02318797|164882749|SUPERIORITY|||||||0.2656|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.2656
82585289|NCT02318797|164882750|SUPERIORITY|||||||0.4582|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.4582
82585290|NCT02318797|164882750|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
82585291|NCT02318797|164882750|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.05
82585292|NCT02318797|164882750|SUPERIORITY|||||||0.1792|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.1792
82585293|NCT02318797|164882751|SUPERIORITY|||||||0.2179|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.2179
82376786|NCT02111603|164460022|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of on-treatment total fecal bile acid excretion with baseline total fecal bile acid excretion.||||0.012
82585294|NCT02318797|164882751|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time from baseline (only conducted if treatment by time interaction test non-significant)||||<0.0001
82585295|NCT02318797|164882751|SUPERIORITY|||||||0.4797|||||||Mixed Models Analysis|||Test for gender by treatment by time interaction||||0.4797
82585296|NCT02318797|164882751|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||Test for gender by treatment interaction (only calculated if gender by treatment by time non-significant)||||0.0014
82585297|NCT02318797|164882752|SUPERIORITY|||||||0.0058|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.0058
82585298|NCT02318797|164882753|SUPERIORITY|||||||0.0014|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.0014
82585299|NCT02318797|164882754|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0001
82585300|NCT02318797|164882755|SUPERIORITY|||||||0.5566|||||||Mixed Models Analysis|||Treatment by time interaction test||||0.5566
82585301|NCT02318797|164882755|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||<0.0001
82585302|NCT02318797|164882756|SUPERIORITY|||||||0.002|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.002
82376787|NCT00789035|164460042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.74|-0.29||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 5mg minus placebo|||-0.29|-0.74|<0.0001
82585303|NCT02318797|164882757|SUPERIORITY|||||||0.0029|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0029
82585304|NCT02318797|164882758|SUPERIORITY|||||||0.0021|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0021
82585305|NCT02318797|164882759|SUPERIORITY|||||||0.1183|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.1183
82585306|NCT02318797|164882759|SUPERIORITY|||||||0.0569|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.0569
82585307|NCT02318797|164882760|SUPERIORITY|||||||0.0745|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0745
82585308|NCT02318797|164882760|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||<0.0001
82585309|NCT02318797|164882761|SUPERIORITY|||||||0.1653|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.1653
82585310|NCT02318797|164882761|SUPERIORITY|||||||0.1772|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.1772
82585311|NCT02318797|164882762|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Test for treatment by time interaction||||<0.0001
82585312|NCT02318797|164882763|SUPERIORITY|||||||0.0202|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.0202
82585313|NCT02318797|164882764|SUPERIORITY|||||||0.4715|||||||Mixed Models Analysis|||Test for treatment by time interaction||||0.4715
82585314|NCT02318797|164882764|SUPERIORITY|||||||0.9209|||||||Mixed Models Analysis|||Test for change over time (only calculated if treatment by time interaction non-significant)||||0.9209
82585315|NCT01275131|164882784|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.95||||0.0009|TWO_SIDED|90.0|7.37|20.54|||Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||Comparison at Stage 1, Day 2/6||20.54|7.37|0.0009
82585316|NCT01275131|164882784|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|18.14|||<|0.0001|TWO_SIDED|90.0|11.55|24.72|||Mixed Models Analysis|A mixed model with fixed effects for treatment, day, and interaction of treatment with day was performed using a compound symmetric covariance matrix.||Comparison at Stage 1, Day 4/8||24.72|11.55|<0.0001
82585317|NCT01275131|164882786|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|16.41|||<|0.0001|TWO_SIDED|90.0|11.86|20.97|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 2/7||20.97|11.86|<0.0001
82585318|NCT01275131|164882786|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|14.1|||<|0.0001|TWO_SIDED|90.0|9.55|18.65|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 3/8||18.65|9.55|<0.0001
82585319|NCT01275131|164882786|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.32||||0.0552|TWO_SIDED|90.0|0.77|9.88|||Mixed Models Analysis|Mixed model with fixed effects for treatment, day, and interaction of treatment with day. A compound symmetric covariance matrix was assumed.||Comparison at Stage 3, Day 5/10||9.88|0.77|0.0552
82585320|NCT01786174|164882820|SUPERIORITY_OR_OTHER||Slope|1.4|STANDARD_ERROR_OF_MEAN|4.3||0.746|TWO_SIDED|95.0|-7.17|9.96|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||9.96|-7.17|0.746
82585321|NCT01786174|164882821|SUPERIORITY_OR_OTHER||Slope|0.25|STANDARD_ERROR_OF_MEAN|0.89||0.78|TWO_SIDED|95.0|-1.53|2.03|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||2.03|-1.53|0.780
82585322|NCT01786174|164882822|SUPERIORITY_OR_OTHER||Slope|-0.51|STANDARD_ERROR_OF_MEAN|2.26||0.823|TWO_SIDED|95.0|-5.0|3.99|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||3.99|-5.00|0.823
82585323|NCT01786174|164882824|SUPERIORITY_OR_OTHER||Slope|4.27|STANDARD_ERROR_OF_MEAN|4.04||0.294|TWO_SIDED|95.0|-3.78|12.33|||Random slopes model|||Fingolimod vs. Placebo Weeks 0-4||12.33|-3.78|0.294
82585324|NCT00362453|164882825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-118.8||||0.0005|TWO_SIDED|95.0|-183.66|-53.94|||Mixed Models Analysis|||||-53.94|-183.66|0.0005
82585325|NCT00362453|164882826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-324.6||||0.001|TWO_SIDED|95.0|-513.98|-135.22|||Mixed Models Analysis|||12 Week||-135.22|-513.98|0.001
82585326|NCT00362453|164882826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-183.2||||0.06|TWO_SIDED|95.0|-372.58|6.18|||Mixed Models Analysis|||24 Week||6.18|-372.58|0.06
82585327|NCT00362453|164882826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-105.3||||0.3|TWO_SIDED|95.0|-294.68|84.08|||Mixed Models Analysis|||48 week||84.08|-294.68|0.3
82585328|NCT00362453|164882827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.9||||0.1|TWO_SIDED|95.0|-53.04|7.24|||Mixed Models Analysis|||12 week||7.24|-53.04|0.1
82585329|NCT00362453|164882827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.8||||0.3|TWO_SIDED|95.0|-44.94|15.34|||Mixed Models Analysis|||24 week||15.34|-44.94|0.3
82585330|NCT00362453|164882827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.8|TWO_SIDED|95.0|-33.79|26.49|||Mixed Models Analysis|||48 Week||26.49|-33.79|0.8
82585331|NCT00362453|164882828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-66.95||||0.05|TWO_SIDED|95.0|-131.81|-2.09|||Mixed Models Analysis|||24 Week||-2.09|-131.81|0.05
82585332|NCT00362453|164882828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.15||||0.2|TWO_SIDED|95.0|-111.01|18.71|||Mixed Models Analysis|||48 Week||18.71|-111.01|0.2
82585333|NCT00362453|164882829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.15||||0.01|TWO_SIDED|95.0|-3.82|-0.49|||Mixed Models Analysis|||12 Week||-0.49|-3.82|0.01
82585334|NCT00362453|164882829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.4|TWO_SIDED|95.0|-2.31|1.02|||Mixed Models Analysis|||24 Week||1.02|-2.31|0.4
82585335|NCT00362453|164882829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||1|TWO_SIDED|95.0|-1.62|1.7|||Mixed Models Analysis|||48 weeks||1.70|-1.62|1.0
82585336|NCT00362453|164882830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.002|TWO_SIDED|95.0|-2.75|-0.66|||Mixed Models Analysis|||12 Week||-0.66|-2.75|0.002
82585337|NCT00362453|164882830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.3|TWO_SIDED|95.0|-1.58|0.51|||Mixed Models Analysis|||24 Week||0.51|-1.58|0.3
82585338|NCT00362453|164882830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.06|TWO_SIDED|95.0|-2.09|0.02|||Mixed Models Analysis|||48 Week||0.02|-2.09|0.06
82585339|NCT00362453|164882831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.88||||5e-05|TWO_SIDED|95.0|-15.91|-5.84|||Mixed Models Analysis|||12 Week||-5.84|-15.91|0.00005
82585340|NCT00362453|164882831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.12||||0.05|TWO_SIDED|95.0|-10.15|-0.08|||Mixed Models Analysis|||24 Week||-0.08|-10.15|0.05
82585341|NCT00362453|164882831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.98||||0.02|TWO_SIDED|95.0|-11.06|-0.91|||Mixed Models Analysis|||48 Week||-0.91|-11.06|0.02
82585342|NCT00362453|164882832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.08||||0.1|TWO_SIDED|95.0|-10.34|110.5|||Mixed Models Analysis|||12 Week||110.50|-10.34|0.1
82585343|NCT00362453|164882832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.71||||0.1|TWO_SIDED|95.0|-15.07|102.5|||Mixed Models Analysis|||24 Week||102.50|-15.07|0.1
82585344|NCT00362453|164882832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.61||||0.7|TWO_SIDED|95.0|-49.36|78.59|||Mixed Models Analysis|||48 Weeks||78.59|-49.36|0.7
82585345|NCT00362453|164882833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.7|TWO_SIDED|95.0|-0.54|0.34|||Mixed Models Analysis|||12 Weeks||0.34|-0.54|0.7
82585346|NCT00362453|164882833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.7|TWO_SIDED|95.0|-0.37|0.52|||Mixed Models Analysis|||24 Weeks||0.52|-0.37|0.7
82585347|NCT00362453|164882833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.6|TWO_SIDED|95.0|-0.55|0.34|||Mixed Models Analysis|||48 weeks||0.34|-0.55|0.6
82585348|NCT00362453|164882834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.009|TWO_SIDED|95.0|-11.63|-1.77|||Mixed Models Analysis|||12 Week||-1.77|-11.63|0.009
82585349|NCT00362453|164882834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3||||0.04|TWO_SIDED|95.0|-10.23|-0.37|||Mixed Models Analysis|||24 Weeks||-0.37|-10.23|0.04
82585350|NCT00362453|164882834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9||||0.0006|TWO_SIDED|95.0|-13.83|-3.97|||Mixed Models Analysis|||48 Week||-3.97|-13.83|0.0006
82585351|NCT00362453|164882835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.04|TWO_SIDED|95.0|0.03|1.39|||Mixed Models Analysis|||12 Weeks||1.39|0.03|0.04
82585352|NCT00362453|164882835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.02|TWO_SIDED|95.0|0.17|1.53|||Mixed Models Analysis|||24 Weeks||1.53|0.17|0.02
82585353|NCT00362453|164882835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.007|TWO_SIDED|95.0|0.28|1.64|||Mixed Models Analysis|||48 Weeks||1.64|0.28|0.007
82585354|NCT00362453|164882836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.43||||0.004|TWO_SIDED|95.0|2.5|12.36|||Mixed Models Analysis|||12 Weeks||12.36|2.50|0.004
82585355|NCT00362453|164882836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.51||||0.08|TWO_SIDED|95.0|-0.42|9.45|||Mixed Models Analysis|||24 Weeks||9.45|-0.42|0.08
82585356|NCT00362453|164882836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.32||||0.01|TWO_SIDED|95.0|1.38|11.25|||Mixed Models Analysis|||48 Weeks||11.25|1.38|0.01
82585357|NCT00362453|164882837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.9|TWO_SIDED|95.0|-6.15|6.57|||Mixed Models Analysis|||12 Weeks||6.57|-6.15|0.9
82585358|NCT00362453|164882837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||1|TWO_SIDED|95.0|-6.47|6.25|||Mixed Models Analysis|||24 Weeks||6.25|-6.47|1.0
82585359|NCT00362453|164882837|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.77||||0.1|TWO_SIDED|95.0|-1.59|11.13|||Mixed Models Analysis|||48 Weeks||11.13|-1.59|0.10
82585360|NCT02047643|164882845|OTHER|||||||0.45|||||||Fisher Exact|Two-sided Fisher Exact test||||||.45
82585361|NCT02047643|164882846|OTHER|||||||0.66|||||||Fisher Exact|Two-sided Fisher Exact test||||||.66
82585362|NCT04256603|164882849|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||wilcox two sample test||||0.67
82585363|NCT00120406|164882869|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is 10%.|||||<|0.01||95.0||||P-value has been adjusted for multiplicity.|z-test, one-sided|||||||<0.01
82585364|NCT00120406|164882870|SUPERIORITY_OR_OTHER||||||<|0.01||95.0||||P-value has been adjusted for multiplicity.|Generalized estimating equation (GEE)|||||||<0.01
82585365|NCT03818204|164882882|OTHER||||||>=|0.46|||||||Regression, Linear|||The effect of angular position was modeled using linear mixed-effects (multiple regression) models. The five angles were randomly mapped for the dependent variable interpalpebral fissure. Because there were repeated measurements on each eye and each participant might respond differently to each angular position, participant and angular position within participant-eye were included as random effects.||||>=0.46
82585366|NCT05754333|164882889|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.2|1.9|||paired t Test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||1.9|1.2|<0.001
82561686|NCT00824850|164832689|SUPERIORITY_OR_OTHER||geometric mean fold rise|44.8|||||TWO_SIDED|95.0|21.31|94.01|||||CIs for the GMRFs are back transformations of confidence levels based on the Student t distribution for the mean logarithm of the mean fold rise.|Additional serotype 19A: GMFRs were calculated (postvaccination Visit 4 / prevaccination Visit 1) using all participants with available data from both the prevaccination and postvaccination blood draws.||94.01|21.31|
82561687|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.97|||||TWO_SIDED|95.0|1.31|2.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.95|1.31|
82561688|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.95|||||TWO_SIDED|95.0|1.78|4.9|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.90|1.78|
82561689|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.85|||||TWO_SIDED|95.0|1.25|2.75|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.75|1.25|
82561690|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.24|||||TWO_SIDED|95.0|1.11|4.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.53|1.11|
82561691|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.63|||||TWO_SIDED|95.0|0.38|1.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.05|0.38|
82561692|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.5|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.62|0.50|
82561693|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.83|||||TWO_SIDED|95.0|0.48|1.43|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.43|0.48|
82561694|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.7|||||TWO_SIDED|95.0|0.96|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.00|0.96|
82561695|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.25|||||TWO_SIDED|95.0|0.79|1.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.96|0.79|
82561696|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.54|1.52|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.52|0.54|
82561697|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.81|||||TWO_SIDED|95.0|0.98|3.34|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.34|0.98|
82561698|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.72|||||TWO_SIDED|95.0|1.05|2.83|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.83|1.05|
82561699|NCT00824850|164832690|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.06|||||TWO_SIDED|95.0|0.67|1.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.66|0.67|
82561700|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|2.18|||||TWO_SIDED|95.0|1.26|3.79|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.79|1.26|
82561701|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|3.13|||||TWO_SIDED|95.0|1.84|5.32|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||5.32|1.84|
82561702|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.68|||||TWO_SIDED|95.0|1.13|2.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.51|1.13|
82561703|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.96|||||TWO_SIDED|95.0|0.95|4.07|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||4.07|0.95|
82585367|NCT05754333|164882890|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.2|1.8|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter (left or right) for each participant.|||1.8|1.2|<0.001
82585368|NCT05754333|164882891|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.0|1.7|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||1.7|1.0|<0.001
82585369|NCT05754333|164882893|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
82585370|NCT05754333|164882894|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
82585371|NCT05754333|164882895|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
82585372|NCT05754333|164882896|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
82585373|NCT05754333|164882897|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
82585374|NCT05754333|164882898|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.6|||||||||||Mean Difference is calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
82585375|NCT05754333|164882899|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|||||
82585376|NCT05754333|164882900|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|||||
82585377|NCT05754333|164882901|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|||||
82585378|NCT05754333|164882902|SUPERIORITY||POP with at least 1 Point Higher|67.01|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 1 point higher. POP meeting this criterion was estimated.|||||
82585379|NCT05754333|164882902|SUPERIORITY||POP with at least 2 point higher|40.4|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 2 points higher. POP meeting this criterion was estimated.|||||
82585380|NCT05754333|164882902|SUPERIORITY||POP with at least 3 point higher|20.2|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 3 points higher. POP meeting this criterion was estimated.|||||
82585381|NCT05754333|164882902|SUPERIORITY||POP with at least 4 point higher|2.1|||||||||||||Difference in average index ureter conspicuity scores between NIR-F \& WL across all timepoints was calculated for each participant. These were categorized based on if NIR-F score was at least 4 points higher. POP meeting this criterion was estimated|||||
82585382|NCT05754333|164882903|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.6|2.2|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||2.2|1.6|<0.001
82585383|NCT05754333|164882903|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.221|||||TWO_SIDED|95.0|-0.011|0.431||||||CCC between BICR and investigator (95% CI), Reader 2||0.431|-0.011|
82585384|NCT05754333|164882903|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.8|1.5|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||1.5|0.8|<0.001
82585385|NCT05754333|164882903|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.053|||||TWO_SIDED|95.0|-0.181|0.282||||||CCC between BICR and investigator (95% CI), Reader 3||0.282|-0.181|
82585386|NCT05754333|164882903|SUPERIORITY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.9|2.6|||paired t test||Mean Difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||2.6|1.9|<0.001
82585387|NCT05754333|164882903|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.26|||||TWO_SIDED|95.0|0.03|0.464||||||CCC between BICR and investigator (95% CI), Reader 4||0.464|0.030|
82585388|NCT05754333|164882904|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|1.4|2.0|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter (left or right) for each participant.|For reader 2||2.0|1.4|<0.001
82585389|NCT05754333|164882904|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.219|||||TWO_SIDED|95.0|-0.013|0.429||||||CCC between BICR and investigator (95% CI), Reader 2||0.429|-0.013|
82585390|NCT05754333|164882904|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.8|1.4|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter(left or right) for eachparticipant.|For reader 3||1.4|0.8|<0.001
82585391|NCT05754333|164882904|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.043|||||TWO_SIDED|95.0|-0.191|0.272||||||CCC between BICR and investigator (95% CI), Reader 3||0.272|-0.191|
82585392|NCT05754333|164882904|SUPERIORITY||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.8|2.5|||Sign test||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the index ureter(left or right) for eachparticipant.|For reader 4||2.5|1.8|<0.001
82585393|NCT05754333|164882904|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.245|||||TWO_SIDED|95.0|0.014|0.451||||||CCC between BICR and investigator (95% CI), Reader 4||0.451|0.014|
82585394|NCT05754333|164882905|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.1|1.8|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||1.8|1.1|<0.001
82585395|NCT05754333|164882905|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.339|||||TWO_SIDED|95.0|0.116|0.529||||||CCC between BICR and investigator (95% CI), Reader 2||0.529|0.116|
82585396|NCT05754333|164882905|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|0.6|1.3|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||1.3|0.6|<0.001
82585397|NCT05754333|164882905|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.186|||||TWO_SIDED|95.0|-0.048|0.4||||||CCC between BICR and investigator (95% CI), Reader 3||0.400|-0.048|
82585398|NCT05754333|164882905|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|1.6|2.3|||paired t test||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||2.3|1.6|<0.001
82585399|NCT05754333|164882905|OTHER|It quantifies the degree of concordance between two measurements|correlation coefficient|0.297|||||TWO_SIDED|95.0|0.07|0.495||||||CCC between BICR and investigator (95% CI), Reader 4||0.495|0.070|
82585400|NCT05754333|164882906|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
82585401|NCT05754333|164882906|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
82585402|NCT05754333|164882906|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
82585403|NCT05754333|164882907|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 2||||
82585404|NCT05754333|164882907|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 3||||
82585405|NCT05754333|164882907|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|Difference from WL in Means, Reader 4||||
82585406|NCT05754333|164882908|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
82585407|NCT05754333|164882908|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
82585408|NCT05754333|164882908|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
82585409|NCT05754333|164882909|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
82376788|NCT00789035|164460042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.8|-0.35||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 10mg minus placebo|||-0.35|-0.80|<0.0001
82585410|NCT05754333|164882909|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
82585411|NCT05754333|164882909|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.5|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
82585412|NCT05754333|164882910|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-m in WL score of the ureter of interest (left; right) for each participant.|For reader 2||||
82585413|NCT05754333|164882910|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 3||||
82585414|NCT05754333|164882910|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 4||||
82585415|NCT05754333|164882911|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.3|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
82585416|NCT05754333|164882911|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.4|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
82585417|NCT05754333|164882911|SUPERIORITY||Mean Difference (Final Values)|2.0|STANDARD_ERROR_OF_MEAN|0.5|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
82585418|NCT05754333|164882912|SUPERIORITY||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 2||||
82585419|NCT05754333|164882912|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 3||||
82585420|NCT05754333|164882912|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean difference was calculated by averaging over the differences between WL scores and NIR-F scores at 30-min timepoint.|For reader 4||||
82585421|NCT05754333|164882913|SUPERIORITY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 2||||
82585422|NCT05754333|164882913|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 3||||
82585423|NCT05754333|164882913|SUPERIORITY||Mean Difference (Final Values)|2.1|STANDARD_ERROR_OF_MEAN|0.1|||||||||||Mean Difference was calculated by averaging over the differences between NIR-F scores at each time point and the 30-min WL score of the ureter of interest (left; right) for each participant.|For reader 4||||
82585424|NCT05754333|164882914|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 2||||
82585425|NCT05754333|164882914|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 3||||
82585426|NCT05754333|164882914|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.2|||||||||||Mean Difference was calculated by averaging over the differences between WL score at 30-min time point and the NIR-F score at the end of surgery across all participants.|For reader 4||||
82585427|NCT00676065|164882935|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.9|||||Hazard ratio was adjusted for age, BMI, smoking, hypertension and family history|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||0.9|0.2|
82585428|NCT00676065|164882935|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.9|||||Hazard ratio was adjusted for age, BMI, smoking, hypertension and family history|Tested null hypotheses: the ATE hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||0.9|0.2|
82585429|NCT00676065|164882936|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.8|1.7|||||Hazard ratio was adjusted for age, BMI, current duration of use, and family history of VTE.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||1.7|0.8|
82585430|NCT00676065|164882936|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.5|1.0|||||Hazard ratio was adjusted for age, BMI, current duration of use, and family history of VTE.|Tested null hypotheses: the VTE hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||1.0|0.5|
82585431|NCT00676065|164882937|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.5|1.4|||||Hazard ratio was adjusted for age, BMI, smoking, educational level and age at menarche.|Tested null hypotheses: the breast cancer hazard ratio for DRSP/E2 vs. OCs containing LNG is higher or equal to 2.||1.4|0.5|
82376789|NCT00789035|164460042|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.94|-0.5||No formal testing so adjustment for multiple comparisons was not necessary.|ANCOVA|Based on ANCOVA with terms for baseline, treatment, number of previous anti-diabetic medications and country.|Difference calculated as empa 25mg minus placebo|||-0.50|-0.94|<0.0001
82585432|NCT00676065|164882937|NON_INFERIORITY_OR_EQUIVALENCE|The LASS study was designed to analyse rare events (incidence rate \<1 per 1,000 woman-years and ≥ 1 per 10,000 WY). 300,000 WY of observation would be sufficient to exclude a two-fold risk of rare events in users of DRSP compared to other oral contraceptives with a power (1-β) of 0.80 and an one-sided α of 0.05.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.5|||||Hazard ratio was adjusted for age, BMI, smoking, educational level and age at menarche.|Tested null hypotheses: the breast cancer hazard ratio for DRSP/E2 vs. OCs containing other progestogens is higher or equal to 2.||1.5|0.6|
82489962|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.09|||||TWO_SIDED|95.0|0.9|1.32|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-19F), one month after the administration of Prevnar 13 vaccine dose.||1.32|0.90|
82489963|NCT03439657|164672841|NON_INFERIORITY|Upper limit (UL) of 95% CI for each individual pneumococcal conjugate serotype Geometric Mean Titer (GMT) ratio of the Control group over the Co-Ad group should be \<2.|GMT ratio|1.2|||||TWO_SIDED|95.0|0.96|1.5|||ANCOVA|The 95% CI of the group MOPA GMT ratios was computed using an Analysis Of Covariance (ANCOVA) model on the log10 transformation of the concentrations.||Anti-pneumococcal antibody titers (non-inferiority): Non-inferiority comparison between Control Group and Co-Ad Group in terms of geometric mean titers (GMTs) for anti-pneumococcal antibody (MOPA-23F), one month after the administration of Prevnar 13 vaccine dose.||1.50|0.96|
82489964|NCT00370071|164672855|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||In this single arm study, the number of newly active lesions per 3 months during treatment was compared to the number of newly active lesions during 3-month pre-treatment (Alternative hypothesis: Number of lesions is reduced during treatment with Interferon beta-1b). The sample size was calculated for the use of the one-sided Wilcoxon-Signed-Rank test at level 2.5% (Power of 90% - anticipating P(X\&lt;Y)=0.15 and allowing for 25% exclusion from Per Protocol Set).||||<0.0001
82489965|NCT00370071|164672856|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||||||<0.0001
82489966|NCT00370071|164672857|SUPERIORITY_OR_OTHER|||||||0.0017||95.0||||one-sided p-value (one-sided test level 2.5%)|Wilcoxon-Signed-Rank test|||||||0.0017
82489967|NCT00370071|164672858|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon-Signed-Rank test|One-sided p-value from Wilcoxon-Signed-Rank-Test for comparing the baseline visit to treatment visits||Lesion volume at Week 12. 38 subjects were evaluated.||||<0.0001
82489968|NCT00370071|164672858|SUPERIORITY_OR_OTHER||||||=|0.0019|||||||Wilcoxon-Signed-Rank test|||Lesion volume at Week 24. 37 subjects were evaluated.||||=0.0019
82489969|NCT01892865|164672867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.6||||0.024|TWO_SIDED|95.0|3.15|44.0|||t-test, 2 sided|||The null hypothesis was that there would be no difference in predictive imprecision for the end of the operative day between the two arms||44|3.15|0.024
82489970|NCT01892865|164672867|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.04|TWO_SIDED|95.0|1.01|1.34|||Poisson regression|||Null hypothesis: There would be no difference in throughput between the two arms||1.34|1.01|0.04
82489971|NCT01892865|164672868|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.16||||0.04|TWO_SIDED|95.0|1.01|1.34|||Poisson Regression|||Null hypothesis was that there was no difference in throughput between the two scheduling methods||1.34|1.01|0.04
82489972|NCT01892865|164672869|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||Null hypothesis: There would be no difference in personnel satisfaction between the groups||||0.04
82489973|NCT01892865|164672870|SUPERIORITY_OR_OTHER|||||||0.44|||||||Chi-squared|||Null hypothesis was that there would be no difference in the adverse event rates between the two scheduling methodologies||||0.44
82489974|NCT03572972|164672881|SUPERIORITY||Hazard Ratio (HR)|0.618|||||TWO_SIDED|95.0|0.541|0.707||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of hazard ratio (HR) at year 1 as an extended Cox model was used.||0.707|0.541|
82489975|NCT03572972|164672881|SUPERIORITY||Hazard Ratio (HR)|0.604|||||TWO_SIDED|95.0|0.53|0.687||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.687|0.530|
82489976|NCT03572972|164672881|SUPERIORITY||Hazard Ratio (HR)|0.705|||||TWO_SIDED|95.0|0.563|0.884|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.884|0.563|
82489977|NCT03572972|164672882|SUPERIORITY||Hazard Ratio (HR)|0.993|||||TWO_SIDED|95.0|0.87|1.134||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.134|0.870|
82489978|NCT03572972|164672882|SUPERIORITY||Hazard Ratio (HR)|0.949|||||TWO_SIDED|95.0|0.839|1.073||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.073|0.839|
82499568|NCT00711711|164689866|SUPERIORITY_OR_OTHER|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||All outcomes and control variables were compared between the treatment and the control group at each time point using the Wilcoxon rank-sum test or the chi-square test, as appropriate. The change in swelling from second day to seventh day, that is, during the treatment period, was compared using the Wilcoxon signed-rank test. The significance level was set at P\<.05.||||0.58
82585433|NCT01037244|164882953|SUPERIORITY_OR_OTHER||Difference in Least Square (LS) Means|5.04|||<|0.0001|TWO_SIDED|95.0|3.36|6.73|||ANCOVA|Baseline Domain Score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||6.73|3.36|<0.0001
82585434|NCT01037244|164882953|SUPERIORITY_OR_OTHER||Difference in LS Means|7.18|||<|0.0001|TWO_SIDED|95.0|5.49|8.86|||ANCOVA|Baseline domain score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||8.86|5.49|<0.0001
82585435|NCT01037244|164882953|SUPERIORITY_OR_OTHER||Difference in LS Means|7.95|||<|0.0001|TWO_SIDED|95.0|6.27|9.63|||ANCOVA|Baseline domain score and pooled sites as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||9.63|6.27|<0.0001
82585436|NCT01037244|164882954|SUPERIORITY_OR_OTHER||Difference in LS Means|18.6|||<|0.0001|TWO_SIDED|95.0|11.72|25.48|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.48|11.72|<0.0001
82585437|NCT01037244|164882954|SUPERIORITY_OR_OTHER||Difference in LS Means|29.02|||<|0.0001|TWO_SIDED|95.0|22.13|35.9|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||35.90|22.13|<0.0001
82585438|NCT01037244|164882954|SUPERIORITY_OR_OTHER||Difference in LS Means|31.51|||<|0.0001|TWO_SIDED|95.0|24.68|38.34|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||38.34|24.68|<0.0001
82585439|NCT01037244|164882955|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Armitage test|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
82585440|NCT01037244|164882955|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
82585441|NCT01037244|164882955|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
82585442|NCT01037244|164882955|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||||<0.0001
82585443|NCT01037244|164882956|SUPERIORITY_OR_OTHER||Difference in LS Means|0.44|||<|0.0001|TWO_SIDED|95.0|0.3|0.59|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.59|0.30|<0.0001
82376790|NCT04315506|164460120|SUPERIORITY||Odds Ratio (OR)|1.14||||0.5384|TWO_SIDED|95.0|0.75|1.72||The analysis was a two-intervention arm comparison. Adjustments for multiple tests and outcomes were not required.|Regression, Logistic||Odds of quitting in Enuf Snuff group (SGR) compared to Enough Snuff (control)|||1.72|0.75|0.5384
82585444|NCT01037244|164882956|SUPERIORITY_OR_OTHER||Difference in LS Means|0.68|||<|0.0001|TWO_SIDED|95.0|0.54|0.83|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.83|0.54|<0.0001
82585445|NCT01037244|164882956|SUPERIORITY_OR_OTHER||Difference in LS Means|0.8|||<|0.0001|TWO_SIDED|95.0|0.66|0.95|||ANCOVA|p-values are obtained from ANCOVA model with baseline PSAE score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.95|0.66|<0.0001
82585446|NCT01037244|164882957|SUPERIORITY_OR_OTHER||Difference in LS Means|16.67|||<|0.0001|TWO_SIDED|95.0|11.23|22.11|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||22.11|11.23|<0.0001
82585447|NCT01037244|164882957|SUPERIORITY_OR_OTHER||Difference in LS Means|22.57|||<|0.0001|TWO_SIDED|95.0|17.11|28.03|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||28.03|17.11|<0.0001
82585448|NCT01037244|164882957|SUPERIORITY_OR_OTHER||Difference in LS Means|28.39|||<|0.0001|TWO_SIDED|95.0|22.98|33.79|||ANOVA|p-values are obtained from ANOVA model with pooled site as a covariate.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||33.79|22.98|<0.0001
82585449|NCT01037244|164882958|SUPERIORITY_OR_OTHER||Difference in LS Means|1.89|||<|0.0001|TWO_SIDED|95.0|1.17|2.61|||ANCOVA|P-values were obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.61|1.17|<0.0001
82585450|NCT01037244|164882958|SUPERIORITY_OR_OTHER||Difference in LS Means|2.27|||<|0.0001|TWO_SIDED|95.0|1.54|2.99|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.99|1.54|<0.0001
82585451|NCT01037244|164882958|SUPERIORITY_OR_OTHER||Difference in LS Means|3.02|||<|0.0001|TWO_SIDED|95.0|2.3|3.73|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||3.73|2.30|<0.0001
82585452|NCT01037244|164882959|SUPERIORITY_OR_OTHER||Difference in LS Means|1.42|||<|0.0001|TWO_SIDED|95.0|0.81|2.03|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.03|0.81|<0.0001
82586161|NCT05437510|164884207|SUPERIORITY||Efficacy|86.13|||<|0.0001|TWO_SIDED|95.0|60.34|96.464|||Exact method using binomial distribution|||"Statistical analysis for France:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||96.464|60.340|<0.0001
82376791|NCT04315506|164460121|SUPERIORITY||Slope|-0.1057||||0.6624|TWO_SIDED|95.0|-0.5808|0.3693||P-value above is for the treatment-by-time squared term in the statistical model for longitudinal data; quadratic change in outcome determined, compared trajectory of outcome change in EnufSnuff (SGR) compared to Enough Snuff (control)|Mixed Models Analysis|Multi-level, mixed-effects model for longitudinal data was conducted.|Slope difference estimate reported above, estimate compares trajectory slope coefficient for EnufSnuff (SGR) to slope coefficient for Enough Snuff (control).|For secondary outcomes, the study was not powered. The null hypothesis was no between-treatment arm difference in the trajectory of change from baseline to six months.||0.3693|-0.5808|0.6624
82652076|NCT02247479|165019411|SUPERIORITY||Difference in Adjusted Means|-0.36||||0.7246|TWO_SIDED|95.0|-2.35|1.64|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||1.64|-2.35|0.7246
82561704|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|0.9|||||TWO_SIDED|95.0|0.51|1.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.56|0.51|
82561705|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.58|||||TWO_SIDED|95.0|0.93|2.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.66|0.93|
82561706|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.62|||||TWO_SIDED|95.0|0.97|2.73|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.73|0.97|
82561707|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.41|||||TWO_SIDED|95.0|0.83|2.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.39|0.83|
82561708|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.44|||||TWO_SIDED|95.0|0.89|2.34|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.34|0.89|
82561709|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.06|||||TWO_SIDED|95.0|0.68|1.64|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 5: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.64|0.68|
82561710|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.88|||||TWO_SIDED|95.0|1.05|3.35|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||3.35|1.05|
82561711|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.48|||||TWO_SIDED|95.0|0.9|2.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 7F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.44|0.90|
82561712|NCT00824850|164832691|SUPERIORITY_OR_OTHER||ratio of geometric mean concentrations|1.11|||||TWO_SIDED|95.0|0.75|1.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 19A: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.66|0.75|
82561713|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.5|1.17|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 4: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.17|0.50|
82561714|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.7|1.73|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 6B: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.73|0.70|
82561715|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.61|1.15|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 9V: ratio of GMTs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.15|0.61|
82561716|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.56|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 14: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.25|0.56|
82561717|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.8|||||TWO_SIDED|95.0|0.51|1.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 18C: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.40|0.51|
82561718|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.32|1.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 19F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.12|0.32|
82561719|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|0.6|||||TWO_SIDED|95.0|0.38|0.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|7vPnC serotype 23F: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||0.85|0.38|
82561720|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.3|||||TWO_SIDED|95.0|0.75|2.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 1: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||2.22|0.75|
82561721|NCT00824850|164832692|SUPERIORITY_OR_OTHER||ratio of geometric mean titers|1.1|||||TWO_SIDED|95.0|0.82|1.61|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(7vPnC/13vPnC) - (MnCC/13vPnC)\].|Additional serotype 3: ratio of GMCs for (7vPnC/13vPnC) relative to (MnCC/13vPnC).||1.61|0.82|
82585453|NCT01037244|164882959|SUPERIORITY_OR_OTHER||Difference in LS Means|1.65|||<|0.0001|TWO_SIDED|95.0|1.04|2.26|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.26|1.04|<0.0001
82585454|NCT01037244|164882959|SUPERIORITY_OR_OTHER||Difference in LS Means|1.98|||<|0.0001|TWO_SIDED|95.0|1.37|2.59|||ANCOVA|P-values are obtained from ANCOVA model with baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.59|1.37|<0.0001
82585455|NCT01037244|164882960|SUPERIORITY_OR_OTHER||Difference in LS Means|0.57||||0.0019|TWO_SIDED|95.0|0.21|0.93|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||0.93|0.21|0.0019
82585456|NCT01037244|164882960|SUPERIORITY_OR_OTHER||Difference in LS Means|0.74|||<|0.0001|TWO_SIDED|95.0|0.38|1.1|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||1.10|0.38|<0.0001
82585457|NCT01037244|164882960|SUPERIORITY_OR_OTHER||Difference in LS Means|0.85|||<|0.0001|TWO_SIDED|95.0|0.49|1.21|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||1.21|0.49|<0.0001
82585458|NCT01037244|164882961|SUPERIORITY_OR_OTHER||Difference in LS Means|1.66|||<|0.0001|TWO_SIDED|95.0|1.13|2.19|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.19|1.13|<0.0001
82585459|NCT01037244|164882961|SUPERIORITY_OR_OTHER||Difference in LS Means|1.76|||<|0.0001|TWO_SIDED|95.0|1.23|2.29|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||2.29|1.23|<0.0001
82585460|NCT01037244|164882961|SUPERIORITY_OR_OTHER||Difference in LS Means|2.56|||<|0.0001|TWO_SIDED|95.0|2.03|3.09|||ANCOVA|P-values are obtained from ANCOVA model with Baseline domain score and pooled site as covariates.||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||3.09|2.03|<0.0001
82585461|NCT01037244|164882962|SUPERIORITY_OR_OTHER||Difference in LS Means|12.34|||<|0.0001|TWO_SIDED|95.0|7.29|17.4|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||17.40|7.29|<0.0001
82376792|NCT04315506|164460122|SUPERIORITY||Slope|0.0946||||0.232|TWO_SIDED|95.0|-0.0609|0.2501||A multi-level, mixed-effects model for longitudinal data was applied. The p-value provided above was for the treatment-by-time effect used to test for differences in the trajectory of change in craving reduction between the two treatment groups.|Mixed Models Analysis|Multi-level, mixed-effects model for longitudinal data was conducted. (trajectory analysis)|Slope difference estimate reported above, estimate compares trajectory slope coefficient for EnufSnuff (SGR) to slope coefficient for Enough Snuff (control).|For secondary outcomes, the study was not powered. The null hypothesis was no between-treatment arm difference in the trajectory of change from baseline to six months.||0.2501|-0.0609|0.2320
82376793|NCT02661217|164460123|SUPERIORITY||Risk Ratio (RR)|0.896||||0.099|TWO_SIDED|95.0|0.786|1.021|||Cochran-Mantel-Haenszel|||||1.021|0.786|0.099
82585462|NCT01037244|164882962|SUPERIORITY_OR_OTHER||Difference in LS Means|19.29|||<|0.0001|TWO_SIDED|95.0|14.23|24.36|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||24.36|14.23|<0.0001
82585463|NCT01037244|164882962|SUPERIORITY_OR_OTHER||Difference in LS Means|19.16|||<|0.0001|TWO_SIDED|95.0|14.14|24.18|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled sites as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||24.18|14.14|<0.0001
82585464|NCT01037244|164882963|SUPERIORITY_OR_OTHER||Difference in LS Means|18.07|||<|0.0001|TWO_SIDED|95.0|10.7|25.43|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.43|10.70|<0.0001
82585465|NCT01037244|164882963|SUPERIORITY_OR_OTHER||Difference in LS Means|23.53|||<|0.0001|TWO_SIDED|95.0|16.12|30.94|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||30.94|16.12|<0.0001
82585466|NCT01037244|164882963|SUPERIORITY_OR_OTHER||Difference in LS Means|36.25|||<|0.0001|TWO_SIDED|95.0|28.92|43.59|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||43.59|28.92|<0.0001
82585467|NCT01037244|164882964|SUPERIORITY_OR_OTHER||Difference in LS Means|18.2|||<|0.0001|TWO_SIDED|95.0|10.79|25.6|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||25.60|10.79|<0.0001
82585468|NCT01037244|164882964|SUPERIORITY_OR_OTHER||Difference in LS Means|25.25|||<|0.0001|TWO_SIDED|95.0|17.82|32.69|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||32.69|17.82|<0.0001
82585469|NCT01037244|164882964|SUPERIORITY_OR_OTHER||Difference in LS Means|36.99|||<|0.0001|TWO_SIDED|95.0|29.63|44.36|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||44.36|29.63|<0.0001
82585470|NCT01037244|164882965|SUPERIORITY_OR_OTHER||Difference in LS Means|19.98|||<|0.0001|TWO_SIDED|95.0|12.69|27.26|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||27.26|12.69|<0.0001
82586162|NCT05437510|164884207|SUPERIORITY||Efficacy|85.92||||0.0002|TWO_SIDED|95.0|52.85|97.311|||Exact method using binomial distribution|||"Statistical analysis for UK:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||97.311|52.850|0.0002
82376794|NCT02661217|164460124|SUPERIORITY||Risk Ratio (RR)|0.906||||0.034|TWO_SIDED|95.0|0.827|0.993|||Cochran-Mantel-Haenszel|||||0.993|0.827|0.034
82585471|NCT01037244|164882965|SUPERIORITY_OR_OTHER||Difference in LS Means|27.58|||<|0.0001|TWO_SIDED|95.0|20.29|34.88|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||34.88|20.29|<0.0001
82585472|NCT01037244|164882965|SUPERIORITY_OR_OTHER||Difference in LS Means|37.8|||<|0.0001|TWO_SIDED|95.0|30.57|45.03|||ANCOVA|"P-values are obtained from ANCOVA model with proportion of yes responses during the baseline period and pooled site as covariates."||540 subjects were randomized with 1:1:1:1 randomization scheme to achieve approximately 135 eligible subjects randomized to each of the 4 treatment groups (WC3043 50 mg, 100 mg, 150 mg, and placebo). 135 subjects for each group vs. Placebo will provide at least 90% power with effect size from 0.41-0.44, 0.74-0.90 and 0.46-0.95 on 50 mg, 100 mg and 150 mg groups, respectively. Adjusted power is at least 90% using Bonferroni adjustment on hierarchical testing procedure.||45.03|30.57|<0.0001
82585473|NCT02875977|164882983|SUPERIORITY||Odds Ratio (OR)|1.794||||0.17|TWO_SIDED|95.0|0.782|4.119|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of completing half of the recommended PFPT visits between those assigned to standard versus experimental counseling||4.119|0.782|0.17
82585474|NCT02875977|164882984|SUPERIORITY||Odds Ratio (OR)|0.564||||0.056|TWO_SIDED|95.0|0.314|1.014|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of initiating PFPT between those assigned to standard versus experimental counseling||1.014|0.314|0.056
82585475|NCT02875977|164882985|SUPERIORITY||Odds Ratio (OR)|1.044||||0.9|TWO_SIDED|95.0|0.517|2.11|||Regression, Logistic|The statistical test of the hypothesis excludes the three individuals with unknown PFPT discharge status||The null hypothesis is that there is no difference in the odds of discharge from PFPT between those assigned to standard versus experimental counseling||2.110|0.517|0.90
82585476|NCT02875977|164882986|SUPERIORITY||Z-Score|-1.4262||||0.16|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Among those who initiated PFPT therapy, the null hypothesis is that there is no difference in the number of days to initiating PFPT therapy between those assigned to standard versus experimental counseling||||0.16
82585477|NCT02875977|164882987|SUPERIORITY||Mean Difference (Final Values)|-4.456|STANDARD_ERROR_OF_MEAN|6.5481||0.5|TWO_SIDED|95.0|-17.6149|8.7028|||t-test, 2 sided|||The null hypothesis is that there is no difference in the change from pre-PFPT to post-PFPT UDI-6 scores between those assigned to standard versus experimental counseling||8.7028|-17.6149|0.50
82585478|NCT03421431|164882994|SUPERIORITY||Least Squares (LS) mean difference|12.46||||0.0495|TWO_SIDED|95.0|0.029|24.891|||ANCOVA|||||24.891|0.029|0.0495
82585479|NCT03421431|164882994|SUPERIORITY||LS mean difference|6.257||||0.3039|TWO_SIDED|95.0|-5.754|18.268|||ANCOVA|||||18.268|-5.754|0.3039
82585480|NCT03421431|164882994|SUPERIORITY||LS mean difference|6.203||||0.213|TWO_SIDED|95.0|-3.615|16.021|||ANCOVA|||||16.021|-3.615|0.2130
82585481|NCT03421431|164882995|SUPERIORITY||LS mean difference|4.717||||0.0009|TWO_SIDED|95.0|1.98|7.455|||ANCOVA|||||7.455|1.980|0.0009
82585482|NCT03421431|164882995|SUPERIORITY||LS mean difference|0.934||||0.4946|TWO_SIDED|95.0|-1.766|3.635|||ANCOVA|||||3.635|-1.766|0.4946
82585483|NCT03421431|164882995|SUPERIORITY||LS mean difference|3.783||||0.0005|TWO_SIDED|95.0|1.708|5.858|||ANCOVA|||||5.858|1.708|0.0005
82585484|NCT03421431|164882996|SUPERIORITY||LS mean difference|0.076||||0.2756|TWO_SIDED|95.0|-0.062|0.214|||ANCOVA|||||0.214|-0.062|0.2756
82585485|NCT03421431|164882996|SUPERIORITY||LS mean difference|-0.003||||0.9686|TWO_SIDED|95.0|-0.136|0.131|||ANCOVA|||||0.131|-0.136|0.9686
82585486|NCT03421431|164882996|SUPERIORITY||LS mean difference|0.079||||0.1406|TWO_SIDED|95.0|-0.026|0.184|||ANCOVA|||||0.184|-0.026|0.1406
82585487|NCT03421431|164882997|SUPERIORITY||LS mean difference|-0.125||||0.613|TWO_SIDED|95.0|-0.613|0.363|||ANCOVA|||||0.363|-0.613|0.6130
82585488|NCT03421431|164882997|SUPERIORITY||LS mean difference|-0.049||||0.8366|TWO_SIDED|95.0|-0.521|0.423|||ANCOVA|||||0.423|-0.521|0.8366
82585489|NCT03421431|164882997|SUPERIORITY||LS mean difference|-0.076||||0.7015|TWO_SIDED|95.0|-0.466|0.315|||ANCOVA|||||0.315|-0.466|0.7015
82585490|NCT03421431|164882998|SUPERIORITY||LS mean difference|-0.186||||0.3875|TWO_SIDED|95.0|-0.613|0.24|||ANCOVA|||||0.240|-0.613|0.3875
82585491|NCT03421431|164882998|SUPERIORITY||LS mean difference|-0.248||||0.2331|TWO_SIDED|95.0|-0.657|0.162|||ANCOVA|||||0.162|-0.657|0.2331
82585492|NCT03421431|164882998|SUPERIORITY||LS mean difference|0.061||||0.7164|TWO_SIDED|95.0|-0.272|0.395|||ANCOVA|||||0.395|-0.272|0.7164
82585493|NCT03421431|164882999|SUPERIORITY||LS mean difference|0.21|||<|0.0001|TWO_SIDED|95.0|0.11|0.311|||ANCOVA|||||0.311|0.110|<0.0001
82585494|NCT03421431|164882999|SUPERIORITY||LS mean difference|0.046||||0.348|TWO_SIDED|95.0|-0.051|0.143|||ANCOVA|||||0.143|-0.051|0.3480
82585495|NCT03421431|164882999|SUPERIORITY||LS mean difference|0.164|||<|0.0001|TWO_SIDED|95.0|0.085|0.243|||ANCOVA|||||0.243|0.085|<0.0001
82585496|NCT03421431|164883000|SUPERIORITY||LS mean difference|-0.299||||0.0897|TWO_SIDED|95.0|-0.645|0.047|||ANCOVA|||||0.047|-0.645|0.0897
82585497|NCT03421431|164883000|SUPERIORITY||LS mean difference|-0.251||||0.1411|TWO_SIDED|95.0|-0.586|0.085|||ANCOVA|||||0.085|-0.586|0.1411
82585498|NCT03421431|164883000|SUPERIORITY||LS mean difference|-0.048||||0.733|TWO_SIDED|95.0|-0.326|0.23|||ANCOVA|||||0.230|-0.326|0.7330
82585499|NCT03421431|164883001|SUPERIORITY||LS mean difference|51.873||||0.9143|TWO_SIDED|95.0|-901.574|1005.32|||ANCOVA|||||1005.320|-901.574|0.9143
82585500|NCT03421431|164883001|SUPERIORITY||LS mean difference|404.168||||0.3718|TWO_SIDED|95.0|-489.519|1297.854|||ANCOVA|||||1297.854|-489.519|0.3718
82585501|NCT03421431|164883001|SUPERIORITY||LS mean difference|-352.295||||0.3466|TWO_SIDED|95.0|-1091.308|386.719|||ANCOVA|||||386.719|-1091.308|0.3466
82585502|NCT03421431|164883002|SUPERIORITY||LS mean difference|0.173||||0.0003|TWO_SIDED|95.0|0.081|0.264|||ANCOVA|||||0.264|0.081|0.0003
82585503|NCT03421431|164883002|SUPERIORITY||LS mean difference|0.025||||0.5685|TWO_SIDED|95.0|-0.062|0.113|||ANCOVA|||||0.113|-0.062|0.5685
82585504|NCT03421431|164883002|SUPERIORITY||LS mean difference|0.147|||<|0.0001|TWO_SIDED|95.0|0.075|0.219|||ANCOVA|||||0.219|0.075|<0.0001
82585505|NCT03421431|164883003|SUPERIORITY||LS mean difference|-0.133||||0.0282|TWO_SIDED|95.0|-0.252|-0.015|||ANCOVA|||||-0.015|-0.252|0.0282
82585506|NCT03421431|164883003|SUPERIORITY||LS mean difference|-0.068||||0.2412|TWO_SIDED|95.0|-0.182|0.046|||ANCOVA|||||0.046|-0.182|0.2412
82585507|NCT03421431|164883003|SUPERIORITY||LS mean difference|-0.066||||0.1649|TWO_SIDED|95.0|-0.158|0.027|||ANCOVA|||||0.027|-0.158|0.1649
82585508|NCT03421431|164883004|SUPERIORITY||LS mean difference|0.009||||0.4357|TWO_SIDED|95.0|-0.014|0.032|||ANCOVA|||||0.032|-0.014|0.4357
82585509|NCT03421431|164883004|SUPERIORITY||LS mean difference|0.001||||0.8989|TWO_SIDED|95.0|-0.021|0.023|||ANCOVA|||||0.023|-0.021|0.8989
82585510|NCT03421431|164883004|SUPERIORITY||LS mean difference|0.008||||0.412|TWO_SIDED|95.0|-0.011|0.026|||ANCOVA|||||0.026|-0.011|0.4120
82585511|NCT03421431|164883005|SUPERIORITY||LS mean difference|-1.731||||0.0134|TWO_SIDED|95.0|-3.095|-0.368|||ANCOVA|||||-0.368|-3.095|0.0134
82585512|NCT03421431|164883005|SUPERIORITY||LS mean difference|-0.327||||0.6263|TWO_SIDED|95.0|-1.656|1.001|||ANCOVA|||||1.001|-1.656|0.6263
82585513|NCT03421431|164883005|SUPERIORITY||LS mean difference|-1.404||||0.0115|TWO_SIDED|95.0|-2.487|-0.322|||ANCOVA|||||-0.322|-2.487|0.0115
82585514|NCT03421431|164883006|SUPERIORITY||LS mean difference|-3.723||||0.4608|TWO_SIDED|95.0|-13.7|6.253|||ANCOVA|||||6.253|-13.700|0.4608
82585515|NCT03421431|164883006|SUPERIORITY||LS mean difference|-2.377||||0.6238|TWO_SIDED|95.0|-11.962|7.207|||ANCOVA|||||7.207|-11.962|0.6238
82585516|NCT03421431|164883006|SUPERIORITY||LS mean difference|-1.346||||0.7367|TWO_SIDED|95.0|-9.268|6.576|||ANCOVA|||||6.576|-9.268|0.7367
82585517|NCT03421431|164883007|SUPERIORITY||LS mean difference|-0.407||||0.8302|TWO_SIDED|95.0|-4.287|3.474|||ANCOVA|||||3.474|-4.287|0.8302
82585518|NCT03421431|164883007|SUPERIORITY||LS mean difference|-1.28||||0.5053|TWO_SIDED|95.0|-5.192|2.632|||ANCOVA|||||2.632|-5.192|0.5053
82585519|NCT03421431|164883007|SUPERIORITY||LS mean difference|0.873||||0.476|TWO_SIDED|95.0|-1.62|3.366|||ANCOVA|||||3.366|-1.620|0.4760
82585520|NCT03421431|164883008|SUPERIORITY||LS mean difference|-5.91||||0.0639|TWO_SIDED|95.0|-12.171|0.351|||ANCOVA|||||0.351|-12.171|0.0639
82585521|NCT03421431|164883008|SUPERIORITY||LS mean difference|-2.064||||0.4884|TWO_SIDED|95.0|-7.971|3.843|||ANCOVA|||||3.843|-7.971|0.4884
82585522|NCT03421431|164883008|SUPERIORITY||LS mean difference|-3.846||||0.1532|TWO_SIDED|95.0|-9.156|1.464|||ANCOVA|||||1.464|-9.156|0.1532
82585523|NCT03421431|164883009|SUPERIORITY||LS mean difference|-0.46||||0.0811|TWO_SIDED|95.0|-0.978|0.058|||ANCOVA|||||0.058|-0.978|0.0811
82376795|NCT02661217|164460125|SUPERIORITY||Risk Ratio (RR)|0.96||||0.089|TWO_SIDED|95.0|0.916|1.006|||Cochran-Mantel-Haenszel|||||1.006|0.916|0.089
82585524|NCT03421431|164883009|SUPERIORITY||LS mean difference|0.117||||0.6312|TWO_SIDED|95.0|-0.367|0.601|||ANCOVA|||||0.601|-0.367|0.6312
82585525|NCT03421431|164883009|SUPERIORITY||LS mean difference|-0.577||||0.0099|TWO_SIDED|95.0|-1.011|-0.143|||ANCOVA|||||-0.143|-1.011|0.0099
82585526|NCT03421431|164883022|SUPERIORITY||LS mean difference|1.356||||0.112|TWO_SIDED|95.0|-0.322|3.034|||ANCOVA|||||3.034|-0.322|0.1120
82585527|NCT03421431|164883022|SUPERIORITY||LS mean difference|0.647||||0.4229|TWO_SIDED|95.0|-0.947|2.24|||ANCOVA|||||2.240|-0.947|0.4229
82585528|NCT03421431|164883022|SUPERIORITY||LS mean difference|0.71||||0.2764|TWO_SIDED|95.0|-0.577|1.996|||ANCOVA|||||1.996|-0.577|0.2764
82585529|NCT03421431|164883023|SUPERIORITY||LS mean difference|0.008||||0.5606|TWO_SIDED|95.0|-0.02|0.037|||ANCOVA|||||0.037|-0.020|0.5606
82585530|NCT03421431|164883023|SUPERIORITY||LS mean difference|0.023||||0.1002|TWO_SIDED|95.0|-0.004|0.05|||ANCOVA|||||0.050|-0.004|0.1002
82585531|NCT03421431|164883023|SUPERIORITY||LS mean difference|-0.014||||0.2002|TWO_SIDED|95.0|-0.036|0.008|||ANCOVA|||||0.008|-0.036|0.2002
82585532|NCT03421431|164883024|SUPERIORITY||LS mean difference|-178.787||||0.7014|TWO_SIDED|95.0|-1098.454|740.88|||ANCOVA|||||740.880|-1098.454|0.7014
82585533|NCT03421431|164883024|SUPERIORITY||LS mean difference|52.307||||0.907|TWO_SIDED|95.0|-830.934|935.547|||ANCOVA|||||935.547|-830.934|0.9070
82585534|NCT03421431|164883024|SUPERIORITY||LS mean difference|-231.094||||0.536|TWO_SIDED|95.0|-967.273|505.086|||ANCOVA|||||505.086|-967.273|0.5360
82585535|NCT03421431|164883025|SUPERIORITY||LS mean difference|-753.153||||0.2985|TWO_SIDED|95.0|-2183.92|677.614|||ANCOVA|||||677.614|-2183.920|0.2985
82585536|NCT03421431|164883025|SUPERIORITY||LS mean difference|139.107||||0.8413|TWO_SIDED|95.0|-1236.689|1514.902|||ANCOVA|||||1514.902|-1236.689|0.8413
82585537|NCT03421431|164883025|SUPERIORITY||LS mean difference|-892.26||||0.1168|TWO_SIDED|95.0|-2011.705|227.186|||ANCOVA|||||227.186|-2011.705|0.1168
82585538|NCT03421431|164883026|SUPERIORITY||LS mean difference|33.491|||<|0.0001|TWO_SIDED|95.0|17.984|48.998|||ANCOVA|||||48.998|17.984|<0.0001
82585539|NCT03421431|164883026|SUPERIORITY||LS mean difference|30.814|||<|0.0001|TWO_SIDED|95.0|15.802|45.825|||ANCOVA|||||45.825|15.802|<0.0001
82585540|NCT03421431|164883026|SUPERIORITY||LS mean difference|2.677||||0.6757|TWO_SIDED|95.0|-9.946|15.3|||ANCOVA|||||15.300|-9.946|0.6757
82585541|NCT03421431|164883027|SUPERIORITY||LS mean difference|21.3||||0.0134|TWO_SIDED|95.0|4.533|38.067|||ANCOVA|||||38.067|4.533|0.0134
82585542|NCT03421431|164883027|SUPERIORITY||LS mean difference|5.847||||0.4686|TWO_SIDED|95.0|-10.116|21.811|||ANCOVA|||||21.811|-10.116|0.4686
82585543|NCT03421431|164883027|SUPERIORITY||LS mean difference|15.453||||0.0181|TWO_SIDED|95.0|2.699|28.206|||ANCOVA|||||28.206|2.699|0.0181
82585544|NCT03421431|164883028|SUPERIORITY||LS mean difference|4.324||||0.0557|TWO_SIDED|95.0|-0.108|8.756|||ANCOVA|||||8.756|-0.108|0.0557
82585545|NCT03421431|164883028|SUPERIORITY||LS mean difference|2.305||||0.2867|TWO_SIDED|95.0|-1.955|6.566|||ANCOVA|||||6.566|-1.955|0.2867
82585546|NCT03421431|164883028|SUPERIORITY||LS mean difference|2.019||||0.2437|TWO_SIDED|95.0|-1.39|5.429|||ANCOVA|||||5.429|-1.390|0.2437
82585547|NCT03421431|164883029|SUPERIORITY||LS mean difference|0.019||||0.9913|TWO_SIDED|95.0|-3.491|3.53|||ANCOVA|||||3.530|-3.491|0.9913
82585548|NCT03421431|164883029|SUPERIORITY||LS mean difference|0.995||||0.553|TWO_SIDED|95.0|-2.323|4.314|||ANCOVA|||||4.314|-2.323|0.5530
82585549|NCT03421431|164883029|SUPERIORITY||LS mean difference|-0.976||||0.4729|TWO_SIDED|95.0|-3.665|1.713|||ANCOVA|||||1.713|-3.665|0.4729
82585550|NCT04147650|164883042|SUPERIORITY||Odds Ratio (OR)|2.18||||0.1352|TWO_SIDED|95.0|0.62|7.62|||Regression, Logistic|||0.05 % VOS versus vehicle||7.62|0.62|0.1352
82585551|NCT04147650|164883042|SUPERIORITY||Odds Ratio (OR)|1.78||||0.2823|TWO_SIDED|95.0|0.49|6.45|||Regression, Logistic|||0.10% VOS versus vehicle||6.45|0.49|0.2823
82585552|NCT04147650|164883042|SUPERIORITY||Odds Ratio (OR)|2.41||||0.0889|TWO_SIDED|95.0|0.7|8.3|||Regression, Logistic|||0.20% VOS versus vehicle||8.30|0.70|0.0889
82585553|NCT04147650|164883043|SUPERIORITY||Least square mean difference|-2.6||||0.3604|TWO_SIDED|95.0|-9.6|4.3|||ANCOVA|||0.05% VOS versus vehicle||4.3|-9.6|0.3604
82585554|NCT04147650|164883043|SUPERIORITY||Least square mean difference|-2.6||||0.3737|TWO_SIDED|95.0|-9.6|4.4|||ANCOVA|||0.10% VOS versus vehicle||4.4|-9.6|0.3737
82585555|NCT04147650|164883043|SUPERIORITY||Least square mean difference|1.8||||0.5307|TWO_SIDED|95.0|-5.1|8.6|||ANCOVA|||0.20% VOS versus vehicle||8.6|-5.1|0.5307
82585556|NCT01178671|164883045|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Mixed Models Analysis|||||||0.17
82585557|NCT01178671|164883046|SUPERIORITY_OR_OTHER|||||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
82585558|NCT01178671|164883047|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||.14
82585559|NCT01178671|164883048|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||.50
82585560|NCT01178671|164883049|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||Mixed Models Analysis|||||||0.023
82585561|NCT01178671|164883050|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.31|TWO_SIDED||||||Mixed Models Analysis|||||||0.31
82585562|NCT01178671|164883051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7||||0.042|TWO_SIDED|95.0|1.1|19.9|||Mixed Models Analysis|||||19.9|1.1|0.042
82585563|NCT01178671|164883052|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Chi-squared|||||||0.14
82585564|NCT01178671|164883053|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Mixed Models Analysis|||||||0.21
82585565|NCT01178671|164883054|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||Mixed Models Analysis|||||||0.65
82585566|NCT01313689|164883055|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.2677|TWO_SIDED|95.0|0.5|1.24|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.24|0.50|0.2677
82585567|NCT01313689|164883055|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||0.0837|TWO_SIDED|95.0|0.19|1.53|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.53|0.19|0.0837
82585568|NCT01313689|164883056|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.003|TWO_SIDED|95.0|0.35|0.87|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum.|||0.87|0.35|0.0030
82585569|NCT01313689|164883056|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.0262|TWO_SIDED|95.0|0.21|1.17|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.17|0.21|0.0262
82585570|NCT01313689|164883057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.942||||0.0223|TWO_SIDED|95.0|1.166|7.424|||Regression, Logistic|conditional logistic regression with interval and pooled stratum||||7.424|1.166|0.0223
82585571|NCT01313689|164883057|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|999.999||||0.9985|TWO_SIDED|95.0|0.001|999.999|||Regression, Logistic|conditional logistic regression with interval and pooled stratum||||999.999|0.001|0.9985
82585572|NCT01313689|164883058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.366||||0.4159|TWO_SIDED|95.0|0.644|2.899||Odds ratios and p-value are based on conditional logistic regression with interval and pooled stratum included in the Strata statement|Regression, Logistic|||||2.899|0.644|0.4159
82585573|NCT01313689|164883058|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.225||||0.8866|TWO_SIDED|95.0|0.076|19.862||Odds ratios and p-value are based on conditional logistic regression with interval and pooled stratum in the strata statement|Regression, Logistic|||||19.862|0.076|0.8866
82585574|NCT01313689|164883059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.1732|TWO_SIDED|95.0|0.48|1.17|||Log Rank|P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||1.17|0.48|0.1732
82585575|NCT01313689|164883059|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11||||0.8128|TWO_SIDED|95.0|0.46|2.68||P-value is based on the stratified log-rank test adjusted for 'interval' and pooled stratum|Log Rank||Hazard ratios are estimated using the Pike estimator, adjusted for 'interval' and pooled stratum|||2.68|0.46|0.8128
82585576|NCT02656160|164883089|OTHER|||||||0.85||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||tonic||||0.85
82585577|NCT02656160|164883089|OTHER|||||||0.322||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||Phasic activity||||0.322
82585578|NCT02656160|164883090|OTHER|||||||0.42||||||P\<0.05 considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.42
82585579|NCT00406653|164883097|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.611|TWO_SIDED|95.0|0.6|2.4||Due to randomization misspecification, 2:2:2:1 ratio applied instead of planned 2:1:2:2 (placebo, ABA 3mg/kg, \~10mg/kg, 30/\~10mg/kg). Only \~half intended number assigned to ABA 30/\~10 mg/kg arm and \~double intended number assigned to ABA 3 mg/kg arm|Cochran-Mantel-Haenszel|Second primary comparison (conditional on first): power=91%, sample size=134, 5% significance; expected PLA response rate= 25%, ABA/\~10 mg/kg=45%|All participants who prematurely discontinued for any reason considered not to have achieved clinical response. Normal approximation used if number of responses in treatment group was ≥5. Otherwise an exact method was used.|Conditional on abatacept (ABA) 30/\~10 mg/kg vs placebo (PLA)comparison being statistically significant at 5% significance level, ABA \~10 mg/kg vs PLA to be tested at 5% significance level. Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1).First comparison: power=99%,sample size=134,expected PLA response rate=25%, ABA 30/\~10 mg/kg=55%. Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata||2.4|0.6|0.611
82586163|NCT05437510|164884207|SUPERIORITY||Efficacy|74.39||||0.0054|TWO_SIDED|95.0|29.077|92.525|||Exact method using binomial distribution|||"Statistical analysis for Germany:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of RSV LRTI hospitalizations through Day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||92.525|29.077|0.0054
82652077|NCT02247479|165019411|SUPERIORITY||Difference in Adjusted Means|-1.56||||0.1193|TWO_SIDED|95.0|-3.53|0.4|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.40|-3.53|0.1193
82489979|NCT03572972|164672882|SUPERIORITY||Hazard Ratio (HR)|0.961|||||TWO_SIDED|95.0|0.854|1.082||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.082|0.854|
82489980|NCT03572972|164672883|SUPERIORITY||Hazard Ratio (HR)|0.583|||||TWO_SIDED|95.0|0.512|0.664||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.664|0.512|
82489981|NCT03572972|164672883|SUPERIORITY||Hazard Ratio (HR)|0.754|||||TWO_SIDED|95.0|0.597|0.953|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.953|0.597|
82489982|NCT03572972|164672883|SUPERIORITY||Hazard Ratio (HR)|0.844|||||TWO_SIDED|95.0|0.685|1.04|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.040|0.685|
82489983|NCT03572972|164672884|SUPERIORITY||Hazard Ratio (HR)|0.866|||||TWO_SIDED|95.0|0.761|0.985||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.985|0.761|
82489984|NCT03572972|164672884|SUPERIORITY||Hazard Ratio (HR)|0.768|||||TWO_SIDED|95.0|0.684|0.862||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.862|0.684|
82489985|NCT03572972|164672884|SUPERIORITY||Hazard Ratio (HR)|0.875|||||TWO_SIDED|95.0|0.786|0.975||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.975|0.786|
82489986|NCT03572972|164672885|SUPERIORITY||Hazard Ratio (HR)|0.673|||||TWO_SIDED|95.0|0.47|0.964||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.964|0.470|
82489987|NCT03572972|164672885|SUPERIORITY||Hazard Ratio (HR)|0.491|||||TWO_SIDED|95.0|0.337|0.715||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.715|0.337|
82489988|NCT03572972|164672885|SUPERIORITY||Hazard Ratio (HR)|0.747|||||TWO_SIDED|95.0|0.548|1.018||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.018|0.548|
82489989|NCT03572972|164672886|SUPERIORITY||Hazard Ratio (HR)|1.463|||||TWO_SIDED|95.0|0.998|2.145||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||2.145|0.998|
82586164|NCT05437510|164884208|SUPERIORITY||Efficacy|41.89|||<|0.0001|TWO_SIDED|95.0|23.073|56.333|||Exact method using binomial distribution|||"Statistical analysis for Overall:~The 2-sided 95% CI for the efficacy was calculated by an exact method assuming a binomial distribution of the number of hospitalizations for all-cause LRTI through day 181 post-dosing/randomization in the nirsevimab group conditional on the total number in both groups accounting for the follow-up time post-dosing/randomization."||56.333|23.073|<0.0001
82376796|NCT02032680|164460136|SUPERIORITY|||||||0.3749|||||||Cochran-Armitage Trend Test|||The two treatments were compared to see whether participants in one achieved a higher level on their goals (i.e., the maximum level achieved on the goal).||||0.3749
82652078|NCT02247479|165019412|SUPERIORITY||Difference in Adjusted Means|-0.22||||0.8659|TWO_SIDED|95.0|-2.84|2.39|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||2.39|-2.84|0.8659
82585580|NCT00406653|164883100|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18|||||TWO_SIDED|95.0|0.4|3.44||Due to randomization misspecification, 2:2:2:1 ratio applied instead of planned 2:1:2:2 (placebo, ABA mg/kg, \~10 mg/kg, 30/\~10 mg/kg). Only \~half intended number assigned to ABA 30/\~10 mg/kg arm and \~double intended number assigned to ABA 3 mg/kg arm|Cochran-Mantel-Haenszel|Second primary comparison (conditional on first): power=80%, sample size=134, 5% significance; expected PLA response rate= 15%, ABA/\~10 mg/kg=30%|All participants who prematurely discontinued for any reason considered not to have achieved clinical response. Normal approximation used if number of responses in treatment group was ≥5. Otherwise an exact method was used.|Conditional on abatacept (ABA) 30/\~10 mg/kg vs placebo (PLA)comparison being statistically significant at 5% significance level, ABA \~10 mg/kg vs PLA to be tested at 5% signficance level. Null hypothesis=no treatment difference (relative risk \[RR\] of ABA over placebo=1).First comparison: power=95%,sample size=134,expected PLA response rate=15%, ABA 30/\~10 mg/kg=35%. Cochran-Mantel-Haenszel Chi square p-value and RR along with 95% confidence interval provided, adjusting for randomization strata||3.44|0.4|
82585581|NCT00406653|164883101|SUPERIORITY_OR_OTHER|||||||0.436||95.0||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.436
82585582|NCT00406653|164883108|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|95.0||||All statistical testing was performed at a pre-specified alpha-level of 5%.|Cochran-Armitage Trend Test|||The Cochran-Armitage trend test was performed to evaluate whether a relationship existed between the response and dose regimen by comparing the proportion of participants in response across all four treatment arms. Normal approximation was used if the number of responses in a treatment group is at least 5. Otherwise an exact method was used.||||0.112
82585583|NCT00953745|164883126|SUPERIORITY_OR_OTHER|||||||0.029||||||paired t-test thresholded at cluster level significance of p=0.001; family-wise error multiple comparisons corrected|t-test, 1 sided|||A region of increased relative Fluorodopa (FDOPA) uptake in the right medial caudate was anticipated for the aripiprazole augmentation responders over the 6 weeks of augmentation treatment (Weeks 10-16).||||0.029
82585584|NCT00953745|164883127|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82585585|NCT00953745|164883127|SUPERIORITY_OR_OTHER|||||||0.366|||||||t-test, 2 sided|||||||0.366
82585586|NCT04262817|164883129|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.01
82585587|NCT04262817|164883129|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.34
82585588|NCT04262817|164883130|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.38
82585589|NCT04262817|164883130|SUPERIORITY|||||||0.85|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.85
82585590|NCT04262817|164883131|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.39
82585591|NCT04262817|164883131|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.77
82585592|NCT04262817|164883132|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.43
82499569|NCT02425046|164689897|SUPERIORITY|||||||0.67||||||Threshold for statistical significance \<0.05|t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||||||0.67
82585593|NCT04262817|164883132|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.05
82585594|NCT04262817|164883133|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.05
82585595|NCT04262817|164883133|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.04
82585596|NCT04262817|164883134|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||Comparison of Nicotine type.||||0.01
82585597|NCT04262817|164883134|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|||Comparison of Flavor type.||||0.38
82585598|NCT00557947|164883140|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of INTRADERMAL SUTURE successful subjects) does not exceed 12%.|difference proportions of successes (%)|4.8||||0.2188|TWO_SIDED|95.0|0.0|10.9|||McNemar||The level of significance for statistical testing was 0.05 for this study.|||10.9|-0.0|0.2188
82585599|NCT00557947|164883141|SUPERIORITY_OR_OTHER||||||<|0.0001||0.0|||||t-test, 2 sided|||||||<0.0001
82585600|NCT00557947|164883142|SUPERIORITY_OR_OTHER|||||||0.3877||0.0|||||McNemar|||||||0.3877
82585601|NCT00557947|164883143|SUPERIORITY_OR_OTHER|||||||0.7539||0.0|||||McNemar|||||||0.7539
82585602|NCT00557947|164883144|SUPERIORITY_OR_OTHER|||||||1||0.0|||||McNemar|||||||1.0000
82585603|NCT04737187|164883145|SUPERIORITY||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.49|0.77||Stratified log-rank test, with a target p-value \< 0.025 for level of significance.|Stratified log-rank test||Hazard ratio and 95% confidence interval was estimated with stratified Cox proportional hazard model.|Overall Survival Median analysis: The primary estimand was defined to assess the effect of the randomized treatments on the survival duration in all participants regardless of whether or not intercurrent events had occurred (treatment policy strategy).||0.77|0.49|< 0.001
82585604|NCT04737187|164883149|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.001|TWO_SIDED|95.0|0.36|0.54||Stratified log-rank test, with a target p-value \< 0.025 for level of significance.|Stratified log-rank test||Hazard ratio and 95% confidence interval was estimated with stratified Cox proportional hazard model.|PFS Median analysis: A hierarchical testing method was used to control type I error and handle key secondary endpoint analysis. When the primary outcome measure significant testing was then performed sequentially on the key secondary outcome measure. statistically significant at 0.05 level.||0.54|0.36|< 0.001
82585605|NCT03756129|164883158|SUPERIORITY||Median Difference (Net)|-8.25||||0.0013|TWO_SIDED|80.0|-11.67|-4.83|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.16 mg/kg minus placebo. The MIJ821 treatment arms vs placebo are primary."||-4.83|-11.67|0.0013
82585606|NCT03756129|164883158|SUPERIORITY||Mean Difference (Net)|-5.71||||0.0196|TWO_SIDED|80.0|-9.22|-2.2|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.32 mg/kg minus placebo. The MIJ821 treatment arms vs placebo are primary."||-2.20|-9.22|0.0196
82585607|NCT03756129|164883159|SUPERIORITY||Mean Difference (Net)|-7.06||||0.013|TWO_SIDED|80.0|-11.06|-3.06|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.16 mg/kg minus placebo."||-3.06|-11.06|0.0130
82585608|NCT03756129|164883159|SUPERIORITY||Median Difference (Net)|-7.37||||0.0133|TWO_SIDED|80.0|-11.57|-3.18|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: Pooled MIJ821 0.32 mg/kg minus placebo."||-3.18|-11.57|0.0133
82585609|NCT03756129|164883160|SUPERIORITY||Mean Difference (Net)|-5.09||||0.1082|TWO_SIDED|80.0|-10.37|0.19|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.16 mg/kg weekly minus placebo."||0.19|-10.37|0.1082
82585610|NCT03756129|164883160|SUPERIORITY||Mean Difference (Net)|-5.42||||0.0993|TWO_SIDED|80.0|-10.83|-0.02|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.32 mg/kg weekly minus placebo."||-0.02|-10.83|0.0993
82585611|NCT03756129|164883160|SUPERIORITY||Mean Difference (Net)|-6.46||||0.0598|TWO_SIDED|80.0|-11.78|-1.15|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.16 mg/kg biweekly minus placebo."||-1.15|-11.78|0.0598
82585612|NCT03756129|164883160|SUPERIORITY||Mean Difference (Net)|-3.06||||0.2491|TWO_SIDED|80.0|-8.86|2.74|||ANCOVA|||"Comparison of adjusted arithmetic mean: Mean Difference: MIJ821 0.32 mg/kg biweekly minus placebo."||2.74|-8.86|0.2491
82585613|NCT03567434|164883177|SUPERIORITY|The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.283||||||The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||Statistical analysis on Burst Frequency (Burst/Min)||||0.283
82585614|NCT03567434|164883177|SUPERIORITY|The original hypothesis was that resting MSNA burst incidence would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.92||||||The original hypothesis was that resting MSNA burst frequency would be higher the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||Statistical analysis on Burst Incidence (Burst/100hb)||||0.920
82585615|NCT03567434|164883179|SUPERIORITY|The original hypothesis was that sympathetic baroreflex sensitivity would be blunted the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.||||||0.888||||||The original hypothesis was that sympathetic baroreflex sensitivity would be blunted the morning after evening binge alcohol when compared to fluid control condition. A p-value of \< 0.05 was used for significance.|t-test, 2 sided|||||||0.888
82585616|NCT01439360|164883183|SUPERIORITY_OR_OTHER||Vaccine efficacy (VE)|63.2|||||TWO_SIDED|97.5|51.8|72.3|||Regression, Cox|Adjusted for age category and stratified for cohort.|VE was defined as the hazard ratio of cases of influenza A and or B disease in subjects receiving D-QIV vaccine in contrast with subjects receiving non-influenza vaccine control subtracted from 1.|The efficacy of the D-QIV vaccine would be demonstrated if the LL of the two-sided 97.5% CI for vaccine efficacy (VE) is above (\>) 25%.||72.3|51.8|
82585617|NCT01439360|164883184|SUPERIORITY_OR_OTHER||Vaccine efficacy (VE)|49.8|||||TWO_SIDED|97.5|41.8|56.8|||Regression, Cox|Adjusted for age category and stratified for cohort|VE was defined as the hazard ratio of cases of influenza A and or B disease in subjects receiving D-QIV vaccine in contrast with subjects receiving non-influenza vaccine control subtracted from 1.|The efficacy of the D-QIV vaccine would be demonstrated if the LL of the two-sided 97.5% CI for VE is above 15%.||56.8|41.8|
82585618|NCT03319849|164883208|SUPERIORITY||Median Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.0206||0.0186|TWO_SIDED|95.0|-0.089|-0.0082|||Mixed Models Analysis|||||-0.0082|-0.0890|0.0186
82585619|NCT01340196|164883221|SUPERIORITY_OR_OTHER||Geometric mean ratio|121.89|STANDARD_DEVIATION|14.1|||TWO_SIDED|90.0|111.714|132.999|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|||132.999|111.714|
82585620|NCT01340196|164883222|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.72|STANDARD_DEVIATION|17.2|||TWO_SIDED|90.0|85.215|105.29|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||105.290|85.215|
82585621|NCT01340196|164883223|SUPERIORITY_OR_OTHER||Geometric mean ratio|147.12|STANDARD_DEVIATION|14.6||||90.0|134.482|160.943|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||160.943|134.482|
82585622|NCT01340196|164883224|SUPERIORITY_OR_OTHER||Geometric mean ratio|77.88|STANDARD_DEVIATION|13.4|||TWO_SIDED|90.0|71.24|85.15|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||85.15|71.24|
82585623|NCT01340196|164883225|SUPERIORITY_OR_OTHER||Geometric mean ratio|81.73|STANDARD_DEVIATION|20.1|||TWO_SIDED|90.0|71.56|93.34|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||93.34|71.56|
82585624|NCT01340196|164883226|SUPERIORITY_OR_OTHER||Geometric mean ratio|75.27|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|68.71|82.45|||ANOVA|No formal testing. Investigation of relative bioavailability.|The standard deviation is actually the intra-individual gCV.|||82.45|68.71|
82585625|NCT00604279|164883247|NON_INFERIORITY_OR_EQUIVALENCE|The predetermined margin for non-inferiority of paliperidone palmitate was 5.5 points|Least Square Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|1.48||||95.0|-5.2|0.63|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||0.63|-5.20|
82585626|NCT00604279|164883248|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.34||||95.0|-2.14|3.12|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||3.12|-2.14|
82585627|NCT00604279|164883249|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||||95.0|-0.33|0.1|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||||0.10|-0.33|
82585628|NCT00604279|164883250|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.08||||95.0|-0.67|7.5|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||Statistical Analysis for Quality of sleep||7.50|-0.67|
82585629|NCT00604279|164883250|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.02||||95.0|-5.04|2.9|||ANCOVA|Analysis of covariance (ANCOVA) model with treatment as a factor, and baseline value as a covariate was used.||Statistical Analysis for Daytime drowsiness||2.90|-5.04|
82585630|NCT00604279|164883251|SUPERIORITY_OR_OTHER||Point estimate of relative risk|0.9||||||95.0|0.81|1.01|||Cochran-Mantel-Haenszel|||||1.01|0.81|
82585631|NCT00601419|164883254|SUPERIORITY_OR_OTHER||||||=|0.556|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years and \>=65 years in the frequency of treatment related adverse events."||||=0.556
82585632|NCT00601419|164883255|SUPERIORITY_OR_OTHER||||||=|0.845|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of treatment related adverse events."||||=0.845
82585633|NCT00601419|164883256|SUPERIORITY_OR_OTHER||||||=|0.038|TWO_SIDED||||||Fisher Exact|||"The null hypothesis is that there is no difference between With TSH deficiency and Without TSH deficiency in the frequency of treatment related adverse events."||||=0.038
82585634|NCT00601419|164883257|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Past history. The null hypothesis is that there is no difference between With past history and Without past history in the frequency of treatment related adverse events."||||=0.013
82585635|NCT00601419|164883258|SUPERIORITY_OR_OTHER||||||=|0.037|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Initial Dose. The null hypothesis is that there is no association between Initial Dose and the frequency of treatment related adverse events."||||=0.037
82585636|NCT00601419|164883258|SUPERIORITY_OR_OTHER||||||=|0.063|TWO_SIDED||||||Cochran-Armitage Exact|||"The risk factor tested was Initial Dose. The null hypothesis is that there is no linear trend in the frequency of treatment related adverse events across increasing levels of initial dose."||||=0.063
82585637|NCT00601419|164883260|SUPERIORITY_OR_OTHER||||||=|0.019|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years of age and \>=65 years of age in the efficacy of somatropin."||||=0.019
82585638|NCT00601419|164883261|SUPERIORITY_OR_OTHER||||||=|1|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between male and female in the efficacy of somatropin."||||=1.000
82585639|NCT00601419|164883262|SUPERIORITY_OR_OTHER||||||=|0.037|TWO_SIDED||||||Fisher Exact|||"The risk factor tested was ACTH deficiency. The null hypothesis is that there is no difference between With ACTH deficiency and Without ACTH deficiency in the efficacy of somatropin."||||=0.037
82585640|NCT02482870|164883297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.119|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Chi-squared|Chi-square value = 2.424; degrees of freedom = 1||Sample size was calculated according to the first 60 patients. To obtain 90% power with an alpha error of 0.05, a total of 378 patients were required. Considering a possible drop-out rate of 2.5% due to unexpected complications, we aimed for 388 patients.||||0.119
82585641|NCT02482870|164883298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.8|||<|0.0001|TWO_SIDED|95.0|3.0|4.6||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||4.6|3|<0.0001
82585642|NCT02482870|164883299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.9|||<|0.0001|TWO_SIDED|95.0|0.5|1.4||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||||1.4|0.5|<0.0001
82585643|NCT02482870|164883300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|||<|0.0001|TWO_SIDED|95.0|-0.95|-0.67||A priori threshold for statistical significance was 0.05.|t-test, 2 sided|t value = -11.224, degrees of freedom = 773.99||"For each patient, the difference between Cormack-Lehane score and Mallampati class was calculated for each laryngoscope. As an example, the first patient had a Mallampati score 3. Macintosh laryngoscope provided a Cormack-Lehane score of 2, therefore the difference is - 1, calculated as 2 - 3. In the same patient, King Vision video laryngoscope provided a Cormack-Lehane score of 1, therefore the difference is - 2, calculated as 1 - 3. T-test was used to compare the differences."||-0.67|-0.95|<0.0001
82585644|NCT02482870|164883301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|TWO_SIDED|||||A priori threshold for statistical significance was 0.05.|Chi-squared, Corrected|Chi-square test with Yates' continuity correction: chi-square = 0.101; degrees of freedom = 1||||||0.75
82585645|NCT02382016|164883308|SUPERIORITY||ratio of geometric means|0.65||||0.0001|TWO_SIDED|95.0|0.59|0.72|||ANCOVA|ANCOVA model adjusted by treatment, background PAH-specific therapy at baseline and region as factors \& log-transformed PVR at baseline as a covariate||The null hypothesis (change of PVR at Week 12 as a ratio of baseline PVR in subjects treated with placebo or macitentan is the same) is tested on the primary endpoint by means of an analysis of covariance (ANCOVA) model on the log(e) transformed ratio of PVR at Week 12 to baseline PVR.||0.72|0.59|0.0001
82585646|NCT02382016|164883309|SUPERIORITY||Least squares (LS) mean difference|9.73||||0.4264|TWO_SIDED|95.0|-14.5|33.95||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|mixed-effect model repeated measure||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in 6MWD (LS mean difference macitentan 10 mg - placebo).|The main analysis on 6MWD was performed using a mixed-effect model repeated measure (MMRM) adjusted for treatment, visit, region, PAH-specific therapy at baseline, and treatment-by-visit interaction as factors, and baseline 6MWD and WHO functional class (FC) as covariates.||33.95|-14.50|0.4264
82585647|NCT02382016|164883310|SUPERIORITY||Odds Ratio (OR)|6.253||||0.1278|TWO_SIDED|95.0|0.714|298.376||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|Regression, Logistic|||A logistic regression model (exact) adjusted for treatment, PAH-specific therapy at baseline, and region as covariates was used to analyze worsening in WHO FC.||298.376|0.714|0.1278
82499570|NCT02425046|164689898|SUPERIORITY|||||||0.735|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||null hypothesis - there will be no difference between the groups.||||0.735
82585648|NCT02382016|164883311|SUPERIORITY||ratio of geometric means|0.874||||0.3951|TWO_SIDED|95.0|0.639|1.196||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA|||||1.196|0.639|0.3951
82585649|NCT02382016|164883312|SUPERIORITY||Least squares (LS) mean difference|1.67||||0.0637|TWO_SIDED|95.0|-0.1|3.44||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in mRAP (LS mean difference macitentan 10 mg - placebo).|||3.44|-0.10|0.0637
82585650|NCT02382016|164883313|SUPERIORITY||Least squares (LS) mean difference|-5.99||||0.0001|TWO_SIDED|95.0|-8.4|-3.57||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in mPAP (LS mean difference macitentan 10 mg - placebo).|||-3.57|-8.40|0.0001
82585651|NCT02382016|164883314|SUPERIORITY||Least squares (LS) mean difference|0.52||||0.0009|TWO_SIDED|95.0|0.22|0.81||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in cardiac index (LS mean difference macitentan 10 mg - placebo).|||0.81|0.22|0.0009
82585652|NCT02382016|164883315|SUPERIORITY||Least squares (LS) mean difference|-171.48||||0.0001|TWO_SIDED|95.0|-223.67|-119.3||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in TPR (LS mean difference macitentan 10 mg - placebo).|||-119.30|-223.67|0.0001
82585653|NCT02382016|164883316|SUPERIORITY||Least squares (LS) mean difference|0.03||||0.9844|TWO_SIDED|95.0|-2.85|2.91||No adjustment was made for multiplicity for secondary endpoints, therefore all corresponding p-values provided are of an exploratory nature.|ANCOVA||The estimated value refers to a between-treatment analysis of change from baseline to Week 12 in SVO2 (LS mean difference macitentan 10 mg - placebo).|||2.91|-2.85|0.9844
82585654|NCT00084266|164883317|NON_INFERIORITY_OR_EQUIVALENCE|The final p-value was compared against an O'Brien-Fleming boundary of 0.048.||||||0.042|TWO_SIDED||||||Chi-squared|||"Chi-squared test was used to calculate p-value. P-value was calculated for participants with clinical outcome as cure."||||0.042
82585655|NCT00084266|164883329|SUPERIORITY_OR_OTHER|||||||0.9344|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.9344
82585656|NCT00084266|164883330|SUPERIORITY_OR_OTHER|||||||0.5985|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.5985
82585657|NCT00084266|164883331|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED||||||Log Rank|||Statistical comparison of survival analysis was performed.Log rank method was used to calculate p-value.||||0.8590
82585658|NCT01535014|164883332|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82585659|NCT01535014|164883332|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82585660|NCT01535014|164883332|SUPERIORITY|||||||0.0007|||||||Cochran-Mantel-Haenszel|||||||0.0007
82585661|NCT01535014|164883333|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82585662|NCT01535014|164883333|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82585663|NCT01535014|164883334|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.03
82585664|NCT01535014|164883334|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82585665|NCT01535014|164883335|SUPERIORITY||||||<|0.05||||||For week 12, 16, 20, 24|Chi-squared|||||||<0.05
82585666|NCT01535014|164883335|SUPERIORITY||||||<|0.05||||||For week 16, 20, 24|Chi-squared|||||||<0.05
82585667|NCT01535014|164883336|SUPERIORITY|||||||0.019|||||||ANCOVA|||||||0.019
82489990|NCT03572972|164672886|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.647|1.225||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.225|0.647|
82585668|NCT01535014|164883336|SUPERIORITY|||||||0.043|||||||ANCOVA|||||||0.043
82585669|NCT01535014|164883337|SUPERIORITY|||||||0.2|||||||ANCOVA|||||||0.20
82585670|NCT01535014|164883337|SUPERIORITY|||||||0.75|||||||ANCOVA|||||||0.75
82585671|NCT01535014|164883338|SUPERIORITY|||||||0.02|||||||ANCOVA|||SF-36 Mental Health Domain||||0.02
82585672|NCT01535014|164883338|SUPERIORITY|||||||0.63|||||||ANCOVA|||SF-36 Mental Health Domain||||0.63
82585673|NCT01535014|164883338|SUPERIORITY|||||||0.6|||||||ANCOVA|||SF-36 Physical Health Domain||||0.60
82585674|NCT01535014|164883338|SUPERIORITY|||||||0.98|||||||ANCOVA|||SF-36 Physical Health Domain||||0.98
82585675|NCT01122862|164883343|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.21||||0.0915|TWO_SIDED|95.0|-0.45|0.03||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.03|-0.45|0.0915
82585676|NCT01122862|164883344|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|||<|0.0001|TWO_SIDED|95.0|1.42|1.9||No adjustment for multiple comparisons were made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference in treatments being compared.||1.90|1.42|<0.0001
82585677|NCT01122862|164883345|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.04||||0.6682|TWO_SIDED|95.0|-0.14|0.21|||ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.21|-0.14|0.6682
82585678|NCT01122862|164883345|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|0.74|||<|0.0001|TWO_SIDED|95.0|0.57|0.92||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.92|0.57|<0.0001
82652079|NCT02247479|165019412|SUPERIORITY||Difference in Adjusted Means|-1.94||||0.1399|TWO_SIDED|95.0|-4.51|0.64|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.64|-4.51|0.1399
82585679|NCT01122862|164883346|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.2||||0.11|TWO_SIDED|95.0|-0.44|0.05||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.05|-0.44|0.1100
82585680|NCT01122862|164883346|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.68|||<|0.0001|TWO_SIDED|95.0|1.44|1.93||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||1.93|1.44|<0.0001
82585681|NCT01122862|164883347|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.03||||0.728||95.0|-0.16|0.23||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||0.23|-0.16|0.7280
82585682|NCT01122862|164883347|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.88|||<|0.0001|TWO_SIDED|95.0|0.68|1.08||No adjustment for multiple comparisons was made as the primary comparison was pre-defined.|ANCOVA|ANCOVA with factors for treatment, period and subject (random) with baseline as a covariate|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis was no difference between treatments being compared.||1.08|0.68|<0.0001
82585683|NCT00679627|164883410|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82585684|NCT00679627|164883411|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58||||0.011|TWO_SIDED|95.0|0.37|0.89|||Regression, Cox|||||0.89|0.37|0.011
82585685|NCT00679627|164883412|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82585686|NCT00679627|164883413|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANCOVA|||||||0.002
82585687|NCT00679627|164883416|SUPERIORITY_OR_OTHER|||||||0.269||||||Baseline|Cochran-Mantel-Haenszel|||||||0.269
82585688|NCT00679627|164883416|SUPERIORITY_OR_OTHER|||||||0.835||||||Month 24|Cochran-Mantel-Haenszel|||||||0.835
82585689|NCT00679627|164883417|SUPERIORITY_OR_OTHER|||||||0.194||||||Orientation subscale|ANCOVA|||||||0.194
82585690|NCT00679627|164883417|SUPERIORITY_OR_OTHER|||||||0.353||||||Registration subscale|ANCOVA|||||||0.353
82585691|NCT00679627|164883417|SUPERIORITY_OR_OTHER|||||||0.009||||||Attention and Calculation subscale|ANCOVA|||||||0.009
82585692|NCT00679627|164883417|SUPERIORITY_OR_OTHER|||||||0.158||||||Recall subscale|ANCOVA|||||||0.158
82585693|NCT00679627|164883417|SUPERIORITY_OR_OTHER|||||||0.088||||||Language subscale|ANCOVA|||||||0.088
82585694|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.01||||||Initiation subscale|ANCOVA|||||||0.010
82585695|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.043||||||Planning and Organization subscale|ANCOVA|||||||0.043
82585696|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.018||||||Effective Performance subscale|ANCOVA|||||||0.018
82499571|NCT02425046|164689899|SUPERIORITY|||||||0.599|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||Null hypothesis that there would be no difference in change in FNPA scores between the two groups over 12 months.||||0.599
82585697|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.005||||||Basic subscale|ANCOVA|||||||0.005
82585698|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.054||||||Instrumental subscale|ANCOVA|||||||0.054
82585699|NCT00679627|164883418|SUPERIORITY_OR_OTHER|||||||0.137||||||Leisure subscale|ANCOVA|||||||0.137
82585700|NCT00511472|164883433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.1|STANDARD_ERROR_OF_MEAN|14.15||0.001|TWO_SIDED|90.0|22.71|69.5|||ANOVA|||For the least square mean difference - baseline in the ANOVA model = glucose value at Titration Day 1 pre-Breakfast for Titration Group 1||69.50|22.71|0.001
82585701|NCT00511472|164883433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|50.28|STANDARD_ERROR_OF_MEAN|13.67|<|0.001|TWO_SIDED|90.0|27.68|72.88|||ANOVA|||For the least square mean difference - baseline in the ANOVA model = glucose value at Titration Day 1 pre-breakfast for Titration Group 2||72.88|27.68|<0.001
82585702|NCT00446992|164883435|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||<0.001
82585703|NCT00446992|164883436|SUPERIORITY_OR_OTHER|||||||0.043|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||.043
82585704|NCT00446992|164883437|SUPERIORITY_OR_OTHER||||||=|0.69|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.690
82585705|NCT00446992|164883438|SUPERIORITY_OR_OTHER||||||=|0.691|TWO_SIDED||||||Intervariate|||Baseline compared to Week 16||||= 0.691
82585706|NCT00446992|164883439|SUPERIORITY_OR_OTHER||||||=|0.877|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.877
82585707|NCT00446992|164883440|SUPERIORITY_OR_OTHER||||||=|0.003|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.003
82585708|NCT00446992|164883441|SUPERIORITY_OR_OTHER||||||=|0.005|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= .005
82585709|NCT00446992|164883442|SUPERIORITY_OR_OTHER||||||=|0.696|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.696
82585710|NCT00446992|164883443|SUPERIORITY_OR_OTHER||||||=|0.013|TWO_SIDED||||||Univariate linear regression|||Baseline compared to Week 16||||= 0.013
82585711|NCT03513588|164883459|OTHER||Least Squares Mean Difference|-24.34|||<|0.001|TWO_SIDED|80.0|-31.28|-16.7|||ANCOVA|||||-16.70|-31.28|<0.001
82585712|NCT03513588|164883459|OTHER||Least Squares Mean Difference|-33.91|||<|0.001|TWO_SIDED|80.0|-39.78|-27.47|||ANCOVA|||||-27.47|-39.78|<0.001
82585713|NCT02434939|164883529|NON_INFERIORITY_OR_EQUIVALENCE|a clinically significant difference in validated pain scores was defined as 1.3. assuming both treatments are on average equal, 240 patients provided 95% power to demonstrate that IV low dose ketamine is non inferior to IV morphine with a 0.05 level of significance.|Mean Difference (Final Values)|5.5||||0.18|TWO_SIDED|95.0|-2.2|13.2|||t-test, 2 sided|||||13.2|-2.2|0.18
82585714|NCT02434939|164883532|NON_INFERIORITY_OR_EQUIVALENCE|A clinically meaningful difference in validated pain scores was defined as 1.3.Assuming both treatments are on average equal, a sample size of 240 patients (120 per group) provided 95% power to demonstrate that IV LDK is non-inferior to IV morphine with a 0.05 level of significance.||||||0.07|||||||t-test, 2 sided|||||||0.07
82585715|NCT02858349|164883549|SUPERIORITY||Mean Difference (Net)|0.13||||0.0042|TWO_SIDED|95.0|0.05|0.21|||Mixed Models Analysis|||||0.21|0.05|0.0042
82585716|NCT02594826|164883565|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|35.8|||<|0.001|TWO_SIDED|95.0|11.1|114.9|||Mixed Models Analysis|This is the calculated p-value, which is adjusted for age, marital status, prior screening, health insurance, and having a healthcare provider.||||114.9|11.1|<0.001
82585717|NCT02594826|164883566|SUPERIORITY|||||||0.005|||||||Regression, Linear|Controlling for: marital status, education, language spoken at home, health insurance, regular physician, language of physician, ever had Pap test.||The null hypothesis is that the two conditions would not differ in their knowledge following program participation. The study biostatistician conducted full regression models to examine change in knowledge (from pre- to post-program) within each group and across groups over time. The models controlled for relevant covariates.||||0.005
82585718|NCT01668667|164883573|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-2.57|STANDARD_ERROR_OF_MEAN|0.745||0.014|TWO_SIDED|95.0|-4.62|-0.52|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate.|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||-0.52|-4.62|0.014
82585719|NCT01668667|164883573|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-2.61|STANDARD_ERROR_OF_MEAN|0.764||0.014|TWO_SIDED|95.0|-4.68|-0.54|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate.|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||-0.54|-4.68|0.014
82585720|NCT01668667|164883573|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-1.55|STANDARD_ERROR_OF_MEAN|0.767||0.144|TWO_SIDED|95.0|-3.63|0.53|||ANCOVA|No adjustment for multiplicity will be made for these analyses.|The change from baseline data is analyzed using an ANCOVA model with treatment and pooled site as the main effects and the baseline IRLS Rating Scale total score as a covariate|The null hypothesis for this study is that there is no difference between GEn and placebo in the change from Baseline to the end of treatment in the IRLS Rating Scale total score. All comparisons will be made at the two-sided 0.05 level of significance.||0.53|-3.63|0.144
82585721|NCT01668667|164883574|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.26||||0.004|TWO_SIDED|95.0|1.3|3.95|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.95|1.30|0.004
82585722|NCT01668667|164883574|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.15||||0.007|TWO_SIDED|95.0|1.23|3.77|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.77|1.23|0.007
82585723|NCT01668667|164883574|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.24||||0.005|TWO_SIDED|95.0|1.27|3.94|||Regression, Logistic||The analysis method used was logistic regression with terms of pooled site and treatment.|"The null hypothesis for this study is that there is no difference between GEn and placebo in the proportion of subjects who are responders with much improved or very much improved on the investigator-rated CGI-I at the end of treatment."||3.94|1.27|0.005
82585724|NCT01668667|164883575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||ANOVA|||For the mean change from Baseline for IRLS Rating Scale total score at the EOT, the linear contrast test based on an analysis of variance with treatment effect was used to detect linear dose-response trends across increasing levels of GEn dosage.||||0.022
82585725|NCT01668667|164883575|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|TWO_SIDED||||||ANOVA|||Overall treatment effect||||0.072
82585726|NCT01668667|164883576|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|TWO_SIDED|||||A significant p-value will indicate a nonzero linear effect across increasing levels of GEn dosage.|Cochran-Armitage trend test|||||||0.012
82585727|NCT00511901|164883581|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
82376797|NCT00719615|164460141|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0||||Only risk factors significant at the 0.10 level in univariate analysis were included in the multivariate model.|Fisher Exact|||Patient characteristics for each group were assessed using descriptive statistics, including medians, range, frequencies, and proportions. Categorical outcomes were compared between the 3 groups using a Fisher's exact test. A logistic regression modeling procedure was used to compare the odds of a low vitamin D levels between patient groups while adjusting for other risk factors: gender, age, BMI, season, and TNM staging.||||<0.05
82585728|NCT00511901|164883582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||1||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 3 weeks||||1.00
82585729|NCT00511901|164883582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 8 weeks||||0.17
82585730|NCT00511901|164883582|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.59||95.0|||||Wilcoxon (Mann-Whitney)|||FIM at 12 weeks||||0.59
82585731|NCT00511901|164883583|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
82585732|NCT00511901|164883584|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.66||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 3 weeks||||0.66
82585733|NCT00511901|164883584|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 8 weeks||||1.00
82585734|NCT00511901|164883584|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.53||95.0|||||Wilcoxon (Mann-Whitney)|||Grip strength at 12 weeks||||0.53
82585735|NCT00511901|164883585|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3||||0.96||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 3 weeks||||0.96
82585736|NCT00511901|164883585|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||1||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 8 weeks||||1.00
82585737|NCT00511901|164883585|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.66||95.0|||||Wilcoxon (Mann-Whitney)|||SPPB at 12 weeks||||0.66
82585738|NCT00511901|164883586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.64||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 3 weeks||||0.64
82585739|NCT00511901|164883586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5||||0.83||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 8 weeks||||0.83
82585740|NCT00511901|164883586|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||FACIT at 12 weeks||||0.46
82585741|NCT00511901|164883587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.57||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 3 weeks||||0.37
82585742|NCT00511901|164883587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.39||||0.69||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 8 weeks||||0.69
82585743|NCT00511901|164883587|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.15||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|||Activity Counts at 12 weeks||||0.36
82585744|NCT00511901|164883588|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.5||||0.97||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 3 weeks||||0.97
82585745|NCT00511901|164883588|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.46||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 8 weeks||||0.46
82585746|NCT00511901|164883588|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0||||0.68||95.0|||||Wilcoxon (Mann-Whitney)|||POMS at 12 weeks||||0.68
82585747|NCT01257425|164883602|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin defined as 0.8 to 1.25|Ratio of AUC values|0.977|||||TWO_SIDED|90.0|0.88|1.08|||ANCOVA|||||1.08|0.88|
82376798|NCT00687830|164460142|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|||||||<0.01
82376799|NCT00687830|164460143|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Chi-squared|||||||0.04
82376800|NCT02604407|164460283|SUPERIORITY_OR_OTHER_LEGACY||Difference of LS Mean|-8.1|||<|0.001|TWO_SIDED|95.0|-11.7|-4.4|||Mixed-effects model for repeated measure||Between treatment groups of SHP465 12.5 mg and Placebo.|||-4.4|-11.7|<0.001
82376801|NCT02604407|164460283|SUPERIORITY_OR_OTHER_LEGACY||Difference of LS Mean|-13.4|||<|0.001|TWO_SIDED|95.0|-17.1|-9.7|||Mixed-effects model for repeated measure||Between treatment groups of SHP465 37.5 mg and Placebo.|||-9.7|-17.1|<0.001
82585748|NCT01257425|164883603|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is 0.8 to 1.25|Ratio of AUC values|0.932|||||TWO_SIDED|90.0|0.82|1.06|||ANCOVA|||||1.06|0.82|
82585749|NCT01257425|164883604|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin is 0.8 to 1.25|Ratio of AUC values|0.91|||||TWO_SIDED|90.0|0.81|1.02|||ANCOVA|||||1.02|0.81|
82585750|NCT01257425|164883606|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.85|TWO_SIDED|95.0|-0.09|0.11|||ANCOVA|||||0.11|-0.09|0.85
82585751|NCT01257425|164883607|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Log Rank|||||||0.98
82585752|NCT01257425|164883608|SUPERIORITY_OR_OTHER|||||||0.84|||||||Log Rank|||||||0.84
82585753|NCT03430206|164883611|OTHER|||||||0.206|||||||Regression, Negative Binomial|||||||0.206
82585754|NCT03430206|164883612|OTHER|||||||0.101|||||||Regression, Negative Binomial|||||||0.101
82585755|NCT03430206|164883613|OTHER|||||||0.371|||||||Regression, Negative Binomial|||||||0.371
82585756|NCT03430206|164883615|OTHER|||||||0.601|||||||Regression, Negative Binomial|||||||0.601
82585757|NCT03430206|164883616|OTHER|||||||0.738|||||||Regression, Negative Binomial|||||||0.738
82585758|NCT01013597|164883658|SUPERIORITY_OR_OTHER_LEGACY|||||||0.98|||||||t-test, 2 sided|||||||0.98
82585759|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.78||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.78|1.10|
82585760|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.9|1.32||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.32|0.90|
82585761|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.19|2.13||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.13|1.19|
82585762|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.62||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.62|0.93|
82585763|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|12.1|||||TWO_SIDED|95.0|8.63|17.08||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||17.08|8.63|
82585764|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.82|3.48||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.48|1.82|
82585765|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.8|||||TWO_SIDED|95.0|1.98|3.87||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.87|1.98|
82652080|NCT02247479|165019413|SUPERIORITY||Difference in Adjusted Means|0.99||||0.4855|TWO_SIDED|95.0|-1.79|3.76|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||3.76|-1.79|0.4855
82585766|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.0|4.08||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||4.08|2.00|
82585767|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.9|||||TWO_SIDED|95.0|0.64|1.21||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.21|0.64|
82585768|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.39|2.51||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.51|1.39|
82585769|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.56|2.41||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.41|1.56|
82585770|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.72|1.28||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.28|0.72|
82585771|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.2|||||TWO_SIDED|95.0|3.67|7.33||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||7.33|3.67|
82585772|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.08|1.73||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.73|1.08|
82585773|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.81|1.19||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.19|0.81|
82585774|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.07|1.77||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.77|1.07|
82585775|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4||||||95.0|1.01|1.8||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.80|1.01|
82585776|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|1.3|2.15||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.15|1.30|
82376802|NCT00606632|164460288|SUPERIORITY|||||||0.023|||||||McNemar|||||||0.023
82376803|NCT00606632|164460288|SUPERIORITY||||||<|0.01|||||||McNemar|||||||<0.01
82376804|NCT00711880|164460294|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.96||||0.004|TWO_SIDED|95.0|-1.59|-0.32|||ANCOVA|||The change in Numerical Rating Scale Peripheral Neuropathic Pain scores was compared between treatment groups using analysis of covariance (ANCOVA). The model included treatment and centre as factors and baseline Numerical Rating Scale Peripheral Neuropathic Pain score as a covariate.||-0.32|-1.59|0.004
82585777|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.24|2.12||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.12|1.24|
82585778|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.03|1.79||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.79|1.03|
82585779|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5||||||95.0|1.11|1.98||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.98|1.11|
82585780|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.16|2.12||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||2.12|1.16|
82652081|NCT02247479|165019413|SUPERIORITY||Difference in Adjusted Means|-1.6||||0.2515|TWO_SIDED|95.0|-4.33|1.13|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline score, baseline BCVA of better seeing eye, biomarker status, and sex.||1.13|-4.33|0.2515
82489991|NCT03572972|164672886|SUPERIORITY||Hazard Ratio (HR)|0.63|||||TWO_SIDED|95.0|0.447|0.888||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.888|0.447|
82489992|NCT03572972|164672887|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.556|0.738||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.738|0.556|
82489993|NCT03572972|164672887|SUPERIORITY||Hazard Ratio (HR)|0.624|||||TWO_SIDED|95.0|0.544|0.715||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.715|0.544|
82489994|NCT03572972|164672887|SUPERIORITY||Hazard Ratio (HR)|0.749|||||TWO_SIDED|95.0|0.588|0.954|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.954|0.588|
82489995|NCT03572972|164672888|SUPERIORITY||Hazard Ratio (HR)|0.977|||||TWO_SIDED|95.0|0.85|1.122||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.122|0.850|
82489996|NCT03572972|164672888|SUPERIORITY||Hazard Ratio (HR)|0.966|||||TWO_SIDED|95.0|0.848|1.1||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.100|0.848|
82489997|NCT03572972|164672888|SUPERIORITY||Hazard Ratio (HR)|0.993|||||TWO_SIDED|95.0|0.877|1.125||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.125|0.877|
82489998|NCT03572972|164672889|SUPERIORITY||Hazard Ratio (HR)|0.25|||||TWO_SIDED|95.0|0.119|0.523||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.523|0.119|
82489999|NCT03572972|164672889|SUPERIORITY||Hazard Ratio (HR)|0.38|||||TWO_SIDED|95.0|0.203|0.711||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.711|0.203|
82490000|NCT03572972|164672889|SUPERIORITY||Hazard Ratio (HR)|0.422|||||TWO_SIDED|95.0|0.247|0.722||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.722|0.247|
82490001|NCT03572972|164672890|SUPERIORITY||Hazard Ratio (HR)|0.745|||||TWO_SIDED|95.0|0.343|1.615||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.615|0.343|
82490002|NCT03572972|164672890|SUPERIORITY||Hazard Ratio (HR)|0.692|||||TWO_SIDED|95.0|0.342|1.402||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.402|0.342|
82490003|NCT03572972|164672890|SUPERIORITY||Hazard Ratio (HR)|0.932|||||TWO_SIDED|95.0|0.498|1.747||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.747|0.498|
82585781|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.86|1.47||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.47|0.86|
82585782|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.16|1.69||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.69|1.16|
82585783|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.2|||||TWO_SIDED|95.0|0.87|1.54||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.54|0.87|
82585784|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.94|1.84||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 2.||1.84|0.94|
82585785|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.4|||||TWO_SIDED|95.0|2.03|2.87||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.87|2.03|
82585786|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.13||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||1.13|0.84|
82585787|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.92|2.76||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.76|1.92|
82585788|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.55|2.42||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.42|1.55|
82585789|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.2|||||TWO_SIDED|95.0|1.84|2.67||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.67|1.84|
82585790|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.9|||||TWO_SIDED|95.0|4.13|5.93||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.93|4.13|
82585791|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.41|3.49||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.49|2.41|
82585792|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.34|3.52||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.52|2.34|
82585793|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.9|||||TWO_SIDED|95.0|4.01|5.93||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.93|4.01|
82585794|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.91|2.79||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.79|1.91|
82376805|NCT00711880|164460295|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-8.03||||0.007|TWO_SIDED|95.0|-13.83|-2.23|||ANCOVA|||The change in Neuropathic Pain Scale scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and baseline Neuropathic Pain Scale score as a covariate.||-2.23|-13.83|0.007
82490004|NCT03572972|164672891|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.492|0.731||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.731|0.492|
82585795|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|2.02|2.66||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||2.66|2.02|
82585796|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.0|||||TWO_SIDED|95.0|2.44|3.6||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||3.60|2.44|
82585797|NCT00427895|164883663|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.2|||||TWO_SIDED|95.0|3.31|5.31||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures in 13vPnC participants between Cohort 1 and Cohort 3.||5.31|3.31|
82585798|NCT00427895|164883664|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|Difference in Percentage|39.2|||||TWO_SIDED|95.0|33.0|45.1||||||||45.1|33.0|
82585799|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.4|||||TWO_SIDED|95.0|2.32|5.09||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||5.09|2.32|
82585800|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.6|||||TWO_SIDED|95.0|1.13|2.16||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.16|1.13|
82585801|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.88|1.98||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.98|0.88|
82585802|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.2|||||TWO_SIDED|95.0|2.04|4.97||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.97|2.04|
82585803|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.5|4.0||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.00|1.50|
82585804|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.7|||||TWO_SIDED|95.0|2.76|7.99||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||7.99|2.76|
82585805|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.7|||||TWO_SIDED|95.0|0.93|2.97||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.97|0.93|
82585806|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.5|||||TWO_SIDED|95.0|0.99|2.39||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.39|0.99|
82585807|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.2|||||TWO_SIDED|95.0|1.37|3.5||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.50|1.37|
82585808|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.6|||||TWO_SIDED|95.0|1.78|3.68||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.68|1.78|
82585809|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.7|||||TWO_SIDED|95.0|1.77|4.01||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||4.01|1.77|
82585810|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.5|||||TWO_SIDED|95.0|1.99|6.13||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||6.13|1.99|
82376806|NCT00711880|164460296|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.43||||0.001|TWO_SIDED|95.0|-0.67|-0.19|||ANCOVA|||The change in sleep disturbance scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline sleep disturbance score as a covariate.||-0.19|-0.67|0.001
82376807|NCT00711880|164460297|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-5.85||||0.003|TWO_SIDED|95.0|-9.62|-2.09|||ANCOVA|||The change in total Pain Disability Index scores was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline total Pain Disability Index score as a covariate.||-2.09|-9.62|0.003
82585811|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.2|||||TWO_SIDED|95.0|2.87|6.08||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.08|2.87|
82585812|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.1|||||TWO_SIDED|95.0|2.26|4.3||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.30|2.26|
82585813|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT ratio|2.6|||||TWO_SIDED|95.0|1.72|3.8||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.80|1.72|
82585814|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|6.5|||||TWO_SIDED|95.0|4.09|10.19||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||10.19|4.09|
82585815|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|1.83|4.63||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.63|1.83|
82585816|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.8|||||TWO_SIDED|95.0|2.41|6.03||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.03|2.41|
82585817|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.8|||||TWO_SIDED|95.0|3.13|10.82||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||10.82|3.13|
82585818|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.3|2.84||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.84|1.30|
82585819|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|3.1|||||TWO_SIDED|95.0|2.02|4.78||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||4.78|2.02|
82585820|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.7|||||TWO_SIDED|95.0|1.87|3.76||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.76|1.87|
82585821|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|4.4|||||TWO_SIDED|95.0|2.97|6.58||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||6.58|2.97|
82585822|NCT00427895|164883665|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|5.5|||||TWO_SIDED|95.0|3.2|9.41||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||9.41|3.20|
82585823|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.5|||||TWO_SIDED|95.0|1.9|11.2||||||Serotype 1: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.2|1.9|
82585824|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.9|||||TWO_SIDED|95.0|-0.3|8.1||||||Serotype 3: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.1|-0.3|
82585825|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.4|||||TWO_SIDED|95.0|-0.2|7.2||||||Serotype 4: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|-0.2|
82585826|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.3|||||TWO_SIDED|95.0|-2.6|7.2||||||Serotype 5: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|-2.6|
82585827|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|26.6|||||TWO_SIDED|95.0|21.7|31.7||||||Serotype 6A: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||31.7|21.7|
82585828|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.5|||||TWO_SIDED|95.0|3.2|12.0||||||Serotype 6B: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||12.0|3.2|
82585829|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|12.3|||||TWO_SIDED|95.0|7.3|17.4||||||Serotype 7F: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||17.4|7.3|
82585830|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|14.1|||||TWO_SIDED|95.0|8.7|19.5||||||Serotype 9V: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||19.5|8.7|
82585831|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-5.6|3.8||||||Serotype 14: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.8|-5.6|
82585832|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.5|||||TWO_SIDED|95.0|2.6|10.5||||||Serotype 18C: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||10.5|2.6|
82585833|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.1|||||TWO_SIDED|95.0|1.2|7.1||||||Serotype 19A: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.1|1.2|
82585834|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|Difference in Percentage|-1.2|||||TWO_SIDED|95.0|-5.5|3.2||||||Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.||3.2|-5.5|
82585835|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|23.2|||||TWO_SIDED|95.0|17.0|29.3||||||Serotype 23F: Difference (13vPnC - 23vPS) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||29.3|17.0|
82585836|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.6|||||TWO_SIDED|95.0|-0.2|7.5||||||Serotype 1: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.5|-0.2|
82585837|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|0.2|||||TWO_SIDED|95.0|-3.6|4.1||||||Serotype 3: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||4.1|-3.6|
82585838|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.4|||||TWO_SIDED|95.0|-0.4|5.5||||||Serotype 4: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.5|-0.4|
82585839|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-5.8|3.9||||||Serotype 5: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.9|-5.8|
82585840|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.2|||||TWO_SIDED|95.0|-0.4|4.8||||||Serotype 6A: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||4.8|-0.4|
82585841|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.0|||||TWO_SIDED|95.0|0.8|7.2||||||Serotype 6B: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.2|0.8|
82585842|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.4|||||TWO_SIDED|95.0|0.6|8.2||||||Serotype 7F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.2|0.6|
82585843|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.8|||||TWO_SIDED|95.0|-0.3|7.9||||||Serotype 9V: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||7.9|-0.3|
82585844|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Perecentage|4.2|||||TWO_SIDED|95.0|-0.1|8.7||||||Serotype 14: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||8.7|-0.1|
82585845|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.6|||||TWO_SIDED|95.0|-3.8|2.5||||||Serotype 18C: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||2.5|-3.8|
82585846|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|-0.1|||||TWO_SIDED|95.0|-2.1|1.9||||||Serotype 19A: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||1.9|-2.1|
82376808|NCT00711880|164460298|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.82||||0.042|TWO_SIDED|95.0|-1.6|-0.03|||ANCOVA|||The change in Dynamic Allodynia Test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline Dynamic Allodynia Test score as a covariate.||-0.03|-1.60|0.042
82585847|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|1.9|||||TWO_SIDED|95.0|-2.4|6.2||||||Serotype 19F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.2|-2.4|
82585848|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|0.5|||||TWO_SIDED|95.0|-4.7|5.7||||||Serotype 23F: Difference (cohort 2 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.7|-4.7|
82585849|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.2|||||TWO_SIDED|95.0|4.3|10.6||||||Serotype 1: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||10.6|4.3|
82585850|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|2.6|||||TWO_SIDED|95.0|-0.3|5.9||||||Serotype 3: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.9|-0.3|
82585851|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|4.2|||||TWO_SIDED|95.0|2.1|6.9||||||Serotype 4: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.9|2.1|
82585852|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|5.1|||||TWO_SIDED|95.0|1.4|9.1||||||Serotype 5: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||9.1|1.4|
82585853|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.7|||||TWO_SIDED|95.0|1.7|6.1||||||Serotype 6A: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||6.1|1.7|
82585854|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|6.4|||||TWO_SIDED|95.0|4.1|9.3||||||Serotype 6B: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||9.3|4.1|
82585855|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|8.2|||||TWO_SIDED|95.0|5.4|11.6||||||Serotype 7F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.6|5.4|
82585856|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|7.8|||||TWO_SIDED|95.0|4.8|11.4||||||Serotype 9V: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||11.4|4.8|
82585857|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|11.2|||||TWO_SIDED|95.0|8.0|14.9||||||Serotype 14: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||14.9|8.0|
82585858|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|3.1|||||TWO_SIDED|95.0|0.9|5.7||||||Serotype 18C: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||5.7|0.9|
82585859|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|1.4|||||TWO_SIDED|95.0|0.3|3.1||||||Serotype 19A: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||3.1|0.3|
82585860|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|8.4|||||TWO_SIDED|95.0|5.4|12.0||||||Serotype 19F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||12.0|5.4|
82585861|NCT00427895|164883666|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than -0.10.|Difference in Percentage|10.5|||||TWO_SIDED|95.0|6.8|14.7||||||Serotype 23F: Difference (cohort 3 - cohort 1) in proportions, expressed as a percentage presented along with exact 2-sided 95%CI.||14.7|6.8|
82585862|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.31|||||TWO_SIDED|95.0|1.52|3.51||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.51|1.52|
82585863|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.37|||||TWO_SIDED|95.0|0.95|1.99||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.99|0.95|
82585864|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.32|||||TWO_SIDED|95.0|1.47|3.64||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.64|1.47|
82376809|NCT00711880|164460299|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|12.73||||0.144|TWO_SIDED|95.0|-4.4|29.85|||ANCOVA|||The change in Static Allodynia Test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline Static Allodynia Test score as a covariate.||29.85|-4.40|0.144
82376810|NCT00711880|164460300|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.75||||0.483|TWO_SIDED|95.0|-2.84|1.35|||ANCOVA|||The change in total General Health Questionnaire score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline total General Health Questionnaire score as a covariate.||1.35|-2.84|0.483
82585865|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.4|||||TWO_SIDED|95.0|0.92|2.12||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.12|0.92|
82585866|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.47|||||TWO_SIDED|95.0|1.01|2.16||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.16|1.01|
82585867|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.03|||||TWO_SIDED|95.0|0.67|1.59||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.59|0.67|
82585868|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.34|||||TWO_SIDED|95.0|0.94|1.92||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.92|0.94|
82585869|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.33|||||TWO_SIDED|95.0|0.8|2.23||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.23|0.80|
82585870|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.68|1.59||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.59|0.68|
82585871|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.15|||||TWO_SIDED|95.0|0.8|1.66||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||1.66|0.80|
82585872|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.79||||||95.0|1.07|3.0||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||3.00|1.07|
82585873|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.45|||||TWO_SIDED|95.0|0.95|2.24||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS).||2.24|0.95|
82585874|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.18|||||TWO_SIDED|95.0|1.53|3.12||||||Serotype 1: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.12|1.53|
82585875|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.06|1.91||||||Serotype 3: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||1.91|1.06|
82585876|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.47|||||TWO_SIDED|95.0|1.71|3.55||||||Serotype 4: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||3.55|1.71|
82585877|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.99|||||TWO_SIDED|95.0|1.45|2.74||||||Serotype 5: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.74|1.45|
82585878|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.04|||||TWO_SIDED|95.0|1.5|2.76||||||Serotype 6B: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.76|1.50|
82585879|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.85|||||TWO_SIDED|95.0|1.32|2.58||||||Serotype 7F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.58|1.32|
82585880|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.96|||||TWO_SIDED|95.0|1.46|2.62||||||Serotype 9V: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.62|1.46|
82376811|NCT00711880|164460301|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.02||||0.924|TWO_SIDED|95.0|-0.46|0.5|||ANCOVA|||The change in selective reminding test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline selective reminding test score as a covariate.||0.50|-0.46|0.924
82499572|NCT02425046|164689900|SUPERIORITY|||||||0.583|||||||t-test, 2 sided|Multiple imputation used to fill in missing data - imputation included demographic and 6 month data. 5 datasets created and results averaged.||Null hypothesis: Change in MVPA from baseline to 12 months will not be different between target children in the two groups.||||0.583
82585881|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.96|||||TWO_SIDED|95.0|1.32|2.91||||||Serotype 14: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.91|1.32|
82585882|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.36|||||TWO_SIDED|95.0|0.94|1.97||||||Serotype 18C: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||1.97|0.94|
82585883|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.08|2.03||||||Serotype 19A: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.03|1.08|
82585884|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|3.35|||||TWO_SIDED|95.0|2.19|5.12||||||Serotype 19F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||5.12|2.19|
82585885|NCT00427895|164883668|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMC Ratio|2.0|||||TWO_SIDED|95.0|1.41|2.83||||||Serotype 23F: CI for the GMC ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC/23vPS - 23vPS/23vPS).||2.83|1.41|
82585886|NCT01215422|164883716|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||>|0.05|ONE_SIDED|95.0|0.15||||Regression, Logistic||||||0.15|>0.05
82585887|NCT01215422|164883717|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The p-value represents the comparison of the two interventions combined and compared against baseline for Grades III and IV summed together.|Fisher Exact|||||||0.03
82585888|NCT01215422|164883720|SUPERIORITY_OR_OTHER||R-squared|0.16|||>|0.05||95.0||||Correlation between years of experience (all anesthesiologists, pooled) and time to intubation (both GS and KS VLSs, pooled)|Correlation|||||||>0.05
82585889|NCT00719563|164883746|SUPERIORITY_OR_OTHER|||||||0.0737|||||||Wilcoxon Rank Sum|||||||0.0737
82585890|NCT00712673|164883769|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.657|-0.312||Stepwise testing procedure applied to control type 1 error: lixisenatide (morning) compared with placebo (combined), if found statistically significant, then lixisenatide (evening) compared with placebo (combined).|ANCOVA|||To detect 0.5%(or 0.4%) difference between 1 lixisenatide arm and placebo(combined), 225 patients in lixisenatide arm, 170 in placebo(combined) would provide a power of 97% (or 87%) assuming common standard deviation=1.3% with 2-sided test at 5% significance. Statistical testing:2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c(\<8.0,\>=8.0%),BMI(\<30,\>=30 kg/m\^2),country as fixed effects, baseline HbA1c as covariate.||-0.312|-0.657|<0.0001
82376812|NCT00711880|164460302|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.53||||0.214|TWO_SIDED|95.0|-0.31|1.38|||ANCOVA|||The change in 10/36 spatial recall test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline 10/36 spatial recall test score as a covariate.||1.38|-0.31|0.214
82585891|NCT00712673|164883769|SUPERIORITY_OR_OTHER||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.54|-0.193||Stepwise testing procedure applied to control type 1 error: lixisenatide (morning) compared with placebo (combined), if found statistically significant, then lixisenatide (evening) compared with placebo (combined).|ANCOVA|||To detect 0.5%(or 0.4%) difference between 1 lixisenatide arm and placebo(combined), 225 patients in lixisenatide arm, 170 in placebo(combined) would provide a power of 97% (or 87%) assuming common standard deviation=1.3% with 2-sided test at 5% significance. Statistical testing:2-sided at significance level=0.05. Analysis of co-variance(ANCOVA)included treatment arms, randomization strata of screening HbA1c(\<8.0,\>=8.0%),BMI(\<30,\>=30 kg/m\^2),country as fixed effects, baseline HbA1c as covariate.||-0.193|-0.540|<0.0001
82585892|NCT03021954|164883824|SUPERIORITY|||||||0.086|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is in the intervention group, we expect a decrease in the area of the levator hiatus at 40 days and 3 months post-partum. Power 90 % confidence interval β = 0.10, α = 0.05||||0.086
82585893|NCT03021954|164883825|EQUIVALENCE|||||||0.29|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is platelet rich plasma can maintain or increase levator ani muscle contractions post-partum||||0.29
82585894|NCT03318809|164883845|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.24|||||TWO_SIDED|90.0|0.73|2.1|||||The ratio and confidence interval (CI) are based on natural log scale data converted back to the original scale.|||2.10|0.73|
82585895|NCT03318809|164883846|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.41|||||TWO_SIDED|90.0|0.88|2.27|||||The ratio and CI are based on natural log scale data converted back to the original scale.|||2.27|0.88|
82585896|NCT03318809|164883849|OTHER|Analysis of Variance|Ratio (Group 1/Group 2)|1.24|||||TWO_SIDED|90.0|0.73|2.1|||||The ratio and CI are based on natural log scale data converted back to the original scale.|||2.10|0.73|
82585897|NCT00051363|164883860|SUPERIORITY_OR_OTHER|||||||0.0074||||||"2M E/F Function- SWMT-OMD; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).~After correction for multiple comparisons (sequential Bonferroni) P Value=0.0444 (NS)"|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 2M E/F Function- SWMT-OMD.||||0.0074
82376813|NCT00711880|164460303|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.15||||0.158|TWO_SIDED|95.0|-5.15|0.85|||ANCOVA|||The change in symbol digit modalities test score was compared between treatment groups using ANCOVA. The model included treatment and centre as factors and mean baseline symbol digit modalities test score as a covariate.||0.85|-5.15|0.158
82585898|NCT00051363|164883860|SUPERIORITY_OR_OTHER|||||||0.2254||||||6M E/F Function- SWMT-OMD; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 6M E/F Function- SWMT-OMD.||||0.2254
82652082|NCT02247479|165019414|SUPERIORITY||Difference in Adjusted Means|-0.07||||0.2075|TWO_SIDED|95.0|-0.18|0.04|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.04|-0.18|0.2075
82585899|NCT00051363|164883861|SUPERIORITY_OR_OTHER|||||||0.4538||||||DX A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for DX A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.4538
82585900|NCT00051363|164883861|SUPERIORITY_OR_OTHER|||||||0.086||||||2M A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for 2M A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.0860
82585901|NCT00051363|164883861|SUPERIORITY_OR_OTHER|||||||0.2103||||||6M A/P Function- PFN-TOTL; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Parametric survival analysis|Parametric survival analyses were conducted using by-visit comparisons for A/P Function- PFN-TOTL since these data were right censored at 60.||"Comparison of means (regression estimates) between arms for 6M A/P Function- PFN-TOTL.~Data were reciprocal transformed for analysis and back-transformed for reporting."||||0.2103
82585902|NCT00051363|164883862|SUPERIORITY_OR_OTHER|||||||0.7936||||||DX L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for DX L/M Function- BSRT-SR.||||0.7936
82585903|NCT00051363|164883862|SUPERIORITY_OR_OTHER|||||||0.5444||||||2M L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 2M L/M Function- BSRT-SR.||||0.5444
82585904|NCT00051363|164883862|SUPERIORITY_OR_OTHER|||||||0.7569||||||6M L/M Function- BSRT-SR; P\<0.0307 indicates statistical significance for raw P values (after adjustment for O'Brien-Fleming spending across 3 interim analyses).|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||Comparison of means (regression estimates) between arms for 6M L/M Function- BSRT-SR.||||0.7569
82585905|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.5606||||||"2M L/M Function- PN-RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.5606
82585906|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.6487||||||"2M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.6487
82585907|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.5667||||||"2M L/M Function- PN-RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.5667
82585908|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.3972||||||"6M L/M Function- PN-RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3972
82652083|NCT02247479|165019414|SUPERIORITY||Difference in Adjusted Means|-0.08||||0.1222|TWO_SIDED|95.0|-0.19|0.02|||MMRM|||Week 48: MMRM analysis uses change as response variable and included treatment group, baseline Mean FRI Index score, baseline BCVA of better seeing eye, biomarker status, and sex.||0.02|-0.19|0.1222
82652084|NCT02247479|165019415|SUPERIORITY||Difference in Adjusted Means|-0.022||||0.8612|TWO_SIDED|95.0|-0.266|0.223|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.223|-0.266|0.8612
82652085|NCT02247479|165019415|SUPERIORITY||Difference in Adjusted Means|0.077||||0.5317|TWO_SIDED|95.0|-0.165|0.319|||MMRM|||CFI Positive: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.319|-0.165|0.5317
82585909|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.3973||||||"6M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3973
82585910|NCT00051363|164883863|SUPERIORITY_OR_OTHER|||||||0.3055||||||"6M L/M Function- PN-RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M L/M Function- PN-RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline PN-RT and months since randomization were also included as covariates."||||0.3055
82585911|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.3699||||||"2M A/P Function- PVT-MedRT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3699
82585912|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.9673||||||"2M A/P Function- PVT-MedRT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9673
82585913|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.3426||||||"2M A/P Function- PVT-MedRT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3426
82585914|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.3901||||||"6M A/P Function- PVT-MedRT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3901
82585915|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.9464||||||"6M A/P Function- PVT-MedRT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9464
82585916|NCT00051363|164883864|SUPERIORITY_OR_OTHER|||||||0.4372||||||"6M A/P Function- PVT-MedRT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-MedRT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.4372
82652086|NCT02247479|165019415|SUPERIORITY||Difference in Adjusted Means|-0.033||||0.824|TWO_SIDED|95.0|-0.322|0.257|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.257|-0.322|0.8240
82585917|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.9656||||||"2M A/P Function- PVT-Slo10%RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9656
82585918|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.6765||||||"2M A/P Function- PVT-Slo10%RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.6765
82585919|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.5288||||||"2M A/P Function- PVT-Slo10%RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.5288
82585920|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.7807||||||"6M A/P Function- PVT-Slo10%RT (Mild OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.7807
82585921|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.9603||||||"6M A/P Function- PVT-Slo10%RT (Moderate OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.9603
82585922|NCT00051363|164883865|SUPERIORITY_OR_OTHER|||||||0.3075||||||"6M A/P Function- PVT-Slo10%RT (Severe OSA); P\<0.05 indicates statistical significance for P values.~Data were reciprocal transformed for analysis and back-transformed for reporting."|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M A/P Function- PVT-Slo10%RT.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. Months since randomization were also included as covariate."||||0.3075
82585923|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.4262||||||2M L/M Function- BSRTDR-TotRec (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.4262
82585924|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.3161||||||2M L/M Function- BSRTDR-TotRec (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.3161
82585925|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.1835||||||2M L/M Function- BSRTDR-TotRec (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.1835
82652087|NCT02247479|165019415|SUPERIORITY||Difference in Adjusted Means|0.006||||0.9676|TWO_SIDED|95.0|-0.283|0.294|||MMRM|||CFI Negative: MMRM analysis uses change as response variable and included treatment group, visit, treatment-by-visit interaction, baseline GA area, lesion location, contiguity, biomarker status, modified baseline BCVA and sex.||0.294|-0.283|0.9676
82585926|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.2462||||||6M L/M Function- BSRTDR-TotRec (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.2462
82585927|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.2069||||||6M L/M Function- BSRTDR-TotRec (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.2069
82585928|NCT00051363|164883866|SUPERIORITY_OR_OTHER|||||||0.5235||||||6M L/M Function- BSRTDR-TotRec (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M L/M Function- BSRTDR-TotRec.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ. A pre-randomization baseline BSRTDR-TotRec was also included as a covariate."||||0.5235
82585929|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.5419||||||2M E/F Function- SWMT-BehMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.5419
82585930|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.89||||||2M E/F Function- SWMT-BehMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8900
82585931|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.0031||||||2M E/F Function- SWMT-BehMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0031
82585932|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.8703||||||6M E/F Function- SWMT-BehMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8703
82585933|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.1838||||||6M E/F Function- SWMT-BehMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.1838
82585934|NCT00051363|164883867|SUPERIORITY_OR_OTHER|||||||0.0739||||||6M E/F Function- SWMT-BehMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-BehMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0739
82585935|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.045||||||2M E/F Function- SWMT-ActMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.0450
82585936|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.4512||||||2M E/F Function- SWMT-ActMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4512
82585937|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.6672||||||2M E/F Function- SWMT-ActMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.6672
82585938|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.8197||||||6M E/F Function- SWMT-ActMD (Mild OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8197
82585939|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.989||||||6M E/F Function- SWMT-ActMD (Moderate OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.9890
82585940|NCT00051363|164883868|SUPERIORITY_OR_OTHER|||||||0.5029||||||6M E/F Function- SWMT-ActMD (Severe OSA); P\<0.05 indicates statistical significance for P values.|Regression, Linear|Generalized Linear Models (GLM) were run by visit (2M and 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 6M E/F Function- SWMT-ActMD.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.5029
82585941|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.9518||||||2M E/F Function- SAT-D-NumRuCh (Mild OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.9518
82585942|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.4108||||||2M E/F Function- SAT-D-NumRuCh (Moderate OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4108
82585943|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.4528||||||2M E/F Function- SAT-D-NumRuCh (Severe OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.4528
82585944|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.8391||||||6M E/F Function- SAT-D-NumRuCh (Mild OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8391
82585945|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.2771||||||6M E/F Function- SAT-D-NumRuCh (Moderate OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.2771
82585946|NCT00051363|164883869|SUPERIORITY_OR_OTHER|||||||0.8961||||||6M E/F Function- SAT-D-NumRuCh (Severe OSA); P\<0.05 indicates statistical significance for P values. Outcome formulated as dichotomized variable (\<=2 vs. \>=3) based on a 5th percentile cut-off used in pilot studies per test developer suggestion.|Mixed Models Analysis|Generalized Linear Mixed Models (GLMM) were utilized to account for repeated measures (DX, 2M, 6M).||"Comparison of means (regression estimates) between arms for covariate adjusted 2M E/F Function- SAT-D-NumRuCh.~Covariates were designated in the a priori secondary analysis plan as being the most likely to explain variation in the outcomes. Covariates included: study arm, OSA severity, sex, race, % of total sleep time oxygen saturation \< 85% (PSG), age \< 60 years, WASI Verbal IQ, and WASI Performance IQ."||||0.8961
82585947|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.654||||||DX- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.6540
82585948|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.9778||||||DX- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.9778
82585949|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.8314||||||DX- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.8314
82585950|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.5018||||||DX- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for DX Objective Sleepiness/Alertness- MWT-MSL.||||0.5018
82585951|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.0052||||||2M- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.0052
82585952|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.2476||||||2M- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.2476
82585953|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.752||||||2M- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.7520
82585954|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.0002||||||2M- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 2M Objective Sleepiness/Alertness- MWT-MSL.||||0.0002
82585955|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.0022||||||6M- MWT-MSL; Comparison of means by visit only; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.0022
82490005|NCT03572972|164672891|SUPERIORITY||Hazard Ratio (HR)|1.046|||||TWO_SIDED|95.0|0.719|1.522|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.522|0.719|
82490006|NCT03572972|164672891|SUPERIORITY||Hazard Ratio (HR)|1.295|||||TWO_SIDED|95.0|0.92|1.824|||||HR evaluated using extended Cox model.|Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||1.824|0.920|
82490007|NCT03572972|164672892|SUPERIORITY||Hazard Ratio (HR)|0.751|||||TWO_SIDED|95.0|0.62|0.91||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.91|0.62|
82490008|NCT03572972|164672892|SUPERIORITY||Hazard Ratio (HR)|0.697|||||TWO_SIDED|95.0|0.586|0.83||||||Cox proportional hazards model was used to compare event rates between the treatment groups. To check the proportional hazards assumption, the graphical methods and statistical tests using the time-dependent covariate were used. If there were evidence of violation in the proportional hazards assumption in graphical methods, the statistical tests were used and if the evidence of assumption violation still existed, the value of HR at year 1 as an extended Cox model was used.||0.830|0.586|
82585956|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.763||||||6M- MWT-MSL (Mild OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.7630
82585957|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.517||||||6M- MWT-MSL (Moderate OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.5170
82585958|NCT00051363|164883870|SUPERIORITY_OR_OTHER|||||||0.0002||||||6M- MWT-MSL (Severe OSA); Comparison of means by visit and Obstructive Sleep Apnea (OSA) severity; P\<0.05 indicates statistical significance for P values.|Chop-lump Wilcoxon|Chop-lump test was selected due to a high frequency of scores at the twenty-minute ceiling.||Comparison of means (regression estimates) between arms for 6M Objective Sleepiness/Alertness- MWT-MSL.||||0.0002
82652428|NCT01176448|165019613|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|With 12 scars (or pairs to compare), our power calculation had a 95 percent probability that the study will detect a treatment difference at a two-sided 0.05 percent significance level, if a significant difference between treatments is 1.5 units (based on a 0-4 scale as mentioned above). This is based on the assumption that the within-patient standard deviation of the response variable is 0.5 units.||||||0.77||95.0||||Appropriately powered, this study failed to reject the null hypothesis that fraxel achieves a similar cosmetic result at 3 months when compared to dermabrasion.|Wilcoxon (Mann-Whitney)|||efficacy outcomes analyzed by 3 surgeons blinded to the treatment and scars evaluated by halves comparing pre-treatment photos to 3-month photos and given a score on the quartile scale described in table 1. The ordinal rater scores of each evaluator were then averaged, and Wilcoxon Signed Ranks performed on the group's scores. (table 5) There were 4 Fraxel winners, 4 Dermabrasion winners, and 4 ties. There was a p value of 0.77 indicating no significant difference between the categories||||.77
82652429|NCT00755326|165019614|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82652430|NCT01617577|165019626|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||ADAScog scores at baseline vs final visit (wk 14); null hypothesis is there is no difference between scores||||0.36
82652431|NCT01617577|165019626|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||PAL(mem) at baseline and 14 wk (final visit): null hypothesis is thereis no difference in score||||0.058
82652432|NCT01617577|165019626|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||PALtot trials adj at baseline vs 14wk (final visit)||||0.034
82652433|NCT00368966|165019627|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) greater than (\>) -10%.|Difference|-0.6||||||95.0|-2.9|1.6||||||For Meningococcal C the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 1:8 threshold was calculated||1.6|-2.9|
82500236|NCT02564042|164691135|OTHER||Proportion difference|49.4|||||TWO_SIDED|95.0|20.1|72.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 14 has been presented|||72.4|20.1|
82652434|NCT00368966|165019627|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|1.2||||||95.0|-2.3|4.9||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 0.10 IU/mL threshold was calculated||4.9|-2.3|
82652435|NCT00368966|165019627|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥ 0.01 IU/mL threshold was calculated||1.3|-1.3|
82652436|NCT00368966|165019628|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by Meningitec was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.6|0.86||||||For Meningococcal C the GMT ratio (13vPnC/7vPnC) was calculated||0.86|0.60|
82652437|NCT00368966|165019629|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for immune response induced by Meningitec was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.81||||||95.0|0.7|0.94||||||For Diphtheria the GMC ratio (13vPnC/7vPnC) was calculated||0.94|0.70|
82652438|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.23||||||95.0|1.13|1.35||||||For serotype 4, the Geometric Mean fold Rise (GMFR) were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.35|1.13|
82652439|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|9.28||||||95.0|8.18|10.53||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||10.53|8.18|
82652440|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.15||||||95.0|1.05|1.25||||||For serotype 6B, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.25|1.05|
82652441|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.61||||||95.0|1.41|1.83||||||For serotype 14, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.83|1.41|
82652442|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.45||||||95.0|1.3|1.61||||||For serotype 18C, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.61|1.30|
82652443|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|0.93||||||95.0|0.83|1.03||||||For serotype 19F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.03|0.83|
82652444|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|4.0||||||95.0|3.55|4.5||||||For serotype 23F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||4.50|3.55|
82652445|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.6||||||95.0|1.46|1.76||||||For serotype 1, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.76|1.46|
82652446|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.23||||||95.0|1.13|1.35||||||For serotype 3, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.35|1.13|
82652447|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.94||||||95.0|1.78|2.11||||||For serotype 5, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||2.11|1.78|
82652448|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|2.87||||||95.0|2.58|3.2||||||For serotype 6A, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||3.20|2.58|
82652449|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|2.18||||||95.0|1.98|2.41||||||For serotype 7F, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||2.41|1.98|
82652450|NCT00368966|165019632|SUPERIORITY_OR_OTHER||Difference|1.3||||||95.0|1.18|1.44||||||For serotype 19A, the GMFR were calculated using all participants with available data from both 13vPnC After Infant Series Dose 2 and 13vPnC After Infant Series Dose 3 blood draws.||1.44|1.18|
82652451|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.3|-1.3|
82652452|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.9||||||95.0|-6.0|2.0||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 20 EU/mL threshold was calculated||2.0|-6.0|
82652453|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.3|-1.3|
82652454|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||1.3|-1.3|
82652455|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.3||||||95.0|-5.2|2.6||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 64 EU/mL threshold was calculated||2.6|-5.2|
82652456|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.3|1.3||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||1.3|-1.3|
82652457|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-4.4|3.2||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 39 EU/mL threshold was calculated||3.2|-4.4|
82652458|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.7|1.7||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.7|-1.7|
82652459|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.4||||||95.0|-5.1|2.2||||||For Pertussis, PT the difference in percentage between the two groups (13vPnC - 7vPnC) at 11 EU/mL threshold was calculated||2.2|-5.1|
82652460|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 5.0 EU/mL threshold was calculated||1.4|-1.4|
82652461|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 7.82 EU/mL threshold was calculated||1.4|-1.4|
82652462|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.6||||||95.0|-4.6|3.3||||||For Pertussis, FHA the difference in percentage between the two groups (13vPnC - 7vPnC) at 99 EU/mL threshold was calculated||3.3|-4.6|
82652463|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0||||||95.0|-1.4|1.4||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 5 EU/mL threshold was calculated||1.4|-1.4|
82652464|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-1.7||||||95.0|-5.8|2.3||||||For Pertussis, PRN the difference in percentage between the two groups (13vPnC - 7vPnC) at 69 EU/mL threshold was calculated||2.3|-5.8|
82652465|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.7|||||TWO_SIDED|95.0|-2.5|0.7||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||0.7|-2.5|
82652466|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.3|-1.3|
82652467|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|-0.8|||||TWO_SIDED|95.0|-2.8|0.8||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||0.8|-2.8|
82652468|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Diphtheria the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.5|-1.5|
82652469|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-2.1|2.9||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||2.9|-2.1|
82652470|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.3|-1.3|
82652471|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.8|||||TWO_SIDED|95.0|-2.1|3.8||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.10 IU/mL threshold was calculated||3.8|-2.1|
82652472|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.8|1.7||||||For Tetanus the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated||1.7|-1.8|
82652473|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.4|1.3||||||For Poliovirus Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||1.3|-1.4|
82652474|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.7|||||TWO_SIDED|95.0|-0.6|2.6||||||For Poliovirus Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||2.6|-0.6|
82652475|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-1.0|2.0||||||For Poliovirus Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 threshold was calculated||2.0|-1.0|
82652476|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Poliovirus Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||1.5|-1.5|
82652477|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.4|||||TWO_SIDED|95.0|-1.1|2.2||||||For Poliovirus Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||2.2|-1.1|
82652478|NCT00368966|165019633|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of 2-sided 95% CI for the difference between the 2 groups (13vPnC - 7vPnC) \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.5|1.5||||||For Poliovirus Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at 1:8 EU/mL threshold was calculated||1.5|-1.5|
82652479|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.82|1.23||||||For Poliovirus Type 1 the GMT ratio (13vPnC/7vPnC) was calculated||1.23|0.82|
82652480|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.76|1.18||||||For Poliovirus Type 2 the GMT ratio (13vPnC/7vPnC) was calculated||1.18|0.76|
82652481|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.95||||||95.0|0.76|1.19||||||For Poliovirus Type 3 the GMT ratio (13vPnC/7vPnC) was calculated||1.19|0.76|
82652482|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.82||||||95.0|0.69|0.98||||||For Poliovirus Type 1 the GMT ratio (13vPnC/7vPnC) was calculated||0.98|0.69|
82652483|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.9||||||95.0|0.75|1.09||||||For Poliovirus Type 2 the GMT ratio (13vPnC/7vPnC) was calculated||1.09|0.75|
82652484|NCT00368966|165019634|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.07||||||95.0|0.88|1.29||||||For Poliovirus Type 3 the GMT ratio (13vPnC/7vPnC) was calculated||1.29|0.88|
82652485|NCT00368966|165019635|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.75|0.96||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.75|
82652486|NCT00368966|165019635|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.88|1.2||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.20|0.88|
82652487|NCT00368966|165019635|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.86||||||95.0|0.71|1.02||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||1.02|0.71|
82652488|NCT00368966|165019635|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.12||||||95.0|0.9|1.4||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.40|0.90|
82652489|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.93|1.13||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.93|
82652490|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.07||||||95.0|0.96|1.2||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.20|0.96|
82652491|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.05||||||95.0|0.92|1.18||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.18|0.92|
82652492|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.0||||||95.0|0.88|1.14||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.88|
82652493|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.88|1.15||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.88|
82652494|NCT00368966|165019636|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.89||||||95.0|0.78|1.02||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.02|0.78|
82652495|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|0.1|4.4||||||For serotype 4, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||4.4|0.1|
82652496|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|41.2||||||95.0|34.9|46.9||||||For serotype 6B, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||46.9|34.9|
82652497|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|7.3||||||95.0|4.1|10.4||||||For serotype 9V, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||10.4|4.1|
82652498|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|-1.1||||||95.0|-3.4|1.2||||||For serotype 14, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||1.2|-3.4|
82652499|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|6.4||||||95.0|3.1|9.5||||||For serotype 18C, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||9.5|3.1|
82652500|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.4|3.4||||||For serotype 19F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.4|-0.4|
82652501|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|26.5||||||95.0|20.7|31.9||||||For serotype 23F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||31.9|20.7|
82652502|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|3.0||||||95.0|0.8|5.1||||||For serotype 1, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||5.1|0.8|
82652503|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|2.2||||||95.0|-1.8|6.3||||||For serotype 3, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||6.3|-1.8|
82652504|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|10.0||||||95.0|5.9|13.9||||||For serotype 5, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||13.9|5.9|
82652505|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|13.0||||||95.0|8.6|17.2||||||For serotype 6A, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||17.2|8.6|
82652506|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.1|3.1||||||For serotype 7F, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.1|-0.1|
82652507|NCT00368966|165019637|SUPERIORITY_OR_OTHER||Difference|1.5||||||95.0|-0.4|3.4||||||For serotype 19A, the difference in percentages between the two groups (13vPnC After Infant Series Dose 2 - 13vPnC After Infant Series Dose 3) was calculated||3.4|-0.4|
82652508|NCT01333033|165019639|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82652509|NCT00320593|165019738|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|0.01|0.55|||ANCOVA|||The primary analysis was a comparison of treatment groups using an analysis of covariance (ANCOVA) model in which myopia at 3 years was adjusted for myopia at baseline and prior SVL wear. The sample size was computed to reach a 90% power and type I error rate of 5%, so that a difference in 3-year myopia progression between treatment groups would be detected if the true difference was at least 0.60 D, assuming a standard deviation of 0.85 D in each group and loss of follow up of 10%.||0.55|0.01|
82652510|NCT00320593|165019738|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|0.02|0.53|||ANCOVA|||An adjusted analysis for the treatment group difference of change in spherical equivalent from baseline to 3 years was performed by including in an analysis of covariance (ANCOVA) model the following covariates in addition to baseline myopia and prior single vision lens wear, which are known to be related to myopia progression: age, sex, ethnicity, accommodative lag, and magnitude of near esophoria.||0.53|0.02|
82652511|NCT00320593|165019741|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.005|0.28|||ANCOVA|||A secondary analysis was conducted to assess the treatment effect on myopia at the interim time point of 1 year, using an analysis of covariance (ANCOVA) model for the treatment group difference of change in spherical equivalent refractive error from baseline to 1 year, in which myopia at 1 year was adjusted for myopia at baseline and prior single vision lenses wear. Only complete cases (cases in which both baseline and 1 year values were known) were included.||0.28|-0.005|
82652512|NCT00320593|165019742|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|||||TWO_SIDED|95.0|0.02|0.45|||ANCOVA|||A secondary analysis was conducted to assess the treatment effect on myopia at the interim time point of 2 years, using an analysis of covariance (ANCOVA) model for the treatment group difference of change in spherical equivalent refractive error from baseline to 2 years, in which myopia at 2 years was adjusted for myopia at baseline and prior single vision lenses wear. Only complete cases (cases in which both baseline and 2 year values were known) were included.||0.45|0.02|
82652513|NCT02110706|165019749|OTHER|"A futility (non-superiority) design is a screening tool to identify whether agents should be candidates for phase III trials while minimizing costs/sample size If futility is declared, results would imply not cost effective to conduct a future phase III clinical trial If futility is not declared, suggests that there could be a clinically meaningful effect - supports exploration in a larger, phase III trial"|Odds Ratio (OR)|1.14||||0.03|ONE_SIDED|90.0||2.41|||Regression, Logistic|||"This futility design tests the following hypothesis:~H0: Rituximab improves outcome by at least 30% compared to placebo (pR - pP ≥ 0.30 - not futile) versus HA: Rituximab does not improve outcome by at least 30% compared to placebo (pR - pP \< 0.30 - futile)"||2.41||0.03
82652514|NCT02110706|165019750|SUPERIORITY||Odds Ratio (OR)|0.72||||0.63|TWO_SIDED|90.0|0.23|2.21|||t-test, 2 sided|||% of study participants with treatment related AEs||2.21|0.23|0.63
82652515|NCT02110706|165019750|SUPERIORITY||Odds Ratio (OR)|0.75||||0.65|TWO_SIDED|90.0|0.27|2.11|||t-test, 2 sided|||% study participants with treatment related SAEs||2.11|0.27|0.65
82652516|NCT02110706|165019751|OTHER||Mean Difference (Final Values)|-0.11||||0.93|ONE_SIDED|90.0||2.02|||Regression, Linear|||This objective was assessed longitudinally by comparing the final score at the end of the study to the score obtained at baseline. The outcome was defined as the change from baseline to week 52 in the MGC. This hypothesis was assessed using a linear regression model, adjusted for differences in baseline MGC scores.||2.02||0.93
82652517|NCT02110706|165019752|OTHER||Mean Difference (Final Values)|-1.09||||0.39|ONE_SIDED|90.0||1.03|||Regression, Linear|||This objective was assessed longitudinally by comparing the final score at the end of the study to the score obtained at baseline. The outcome was defined as the change from baseline to week 52 in the QMG. This hypothesis was assessed using a linear regression model, adjusted for differences in baseline QMG scores.||1.03||0.39
82652518|NCT02970669|165019757|SUPERIORITY||Ratio of Geometric Means (SacVal/Ena)|0.9456||||0.0895|TWO_SIDED|95.0|0.8863|1.0088|||ANCOVA|model for a log-scaled response with treatment group as a class variable and the baseline value in logarithmic scale as a continuous covariate.||||1.0088|0.8863|0.0895
82652519|NCT02970669|165019758|SUPERIORITY||Mean Difference (Net)|293.6||||0.6316|TWO_SIDED|95.0|-916.5|1503.8|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||1503.8|-916.5|0.6316
82652520|NCT02970669|165019760|SUPERIORITY||Mean Difference (Net)|2.038||||0.057|TWO_SIDED|95.0|-0.062|4.138|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||4.138|-0.062|0.0570
82652521|NCT02970669|165019761|SUPERIORITY||Mean Difference (Net)|2.478||||0.0121|TWO_SIDED|95.0|0.553|4.403|||ANCOVA|model with treatment group as a class variable and the baseline value as a continuous covariate.||||4.403|0.553|0.0121
82652522|NCT01714505|165019801|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 1 sided|Paired t-tests: compare LBGI, carbohydrates for hypoglycemia treatment, % of time in range and average BG on CLC vs OL.||||||0.003
82652523|NCT01714505|165019802|SUPERIORITY_OR_OTHER||||||>|0.1|||||||t-test, 1 sided|||||||>0.1
82652524|NCT01714505|165019803|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82652525|NCT02277769|165019852|SUPERIORITY||difference in percentages|27.6|||<|0.0001|TWO_SIDED|95.0|20.46|34.69||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.69|20.46|< 0.0001
82652526|NCT02277769|165019852|SUPERIORITY||difference in percentages|27.9|||<|0.0001|TWO_SIDED|95.0|20.87|34.99||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||34.99|20.87|< 0.0001
82652527|NCT02277769|165019853|SUPERIORITY||difference in percentages|32.3|||<|0.0001|TWO_SIDED|95.0|24.75|39.94||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||39.94|24.75|< 0.0001
82652528|NCT02277769|165019853|SUPERIORITY||difference in percentages|36.3|||<|0.0001|TWO_SIDED|95.0|28.69|43.81||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.025 level. Analysis was performed using Cochran-Mantel-Haenszel test stratified by region and baseline disease severity.||43.81|28.69|< 0.0001
82652529|NCT02277769|165019854|SUPERIORITY||difference in percentages|26.5|||<|0.0001|TWO_SIDED|95.0|19.13|33.87||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||33.87|19.13|< 0.0001
82652530|NCT02277769|165019854|SUPERIORITY||difference in percentages|29.5|||<|0.0001|TWO_SIDED|95.0|22.11|36.95||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||36.95|22.11|< 0.0001
82652531|NCT02277769|165019855|SUPERIORITY||difference in percentages|37.8|||<|0.0001|TWO_SIDED|95.0|30.03|45.6||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||45.60|30.03|< 0.0001
82652532|NCT02277769|165019855|SUPERIORITY||difference in percentages|36.3|||<|0.0001|TWO_SIDED|95.0|28.56|44.06||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||44.06|28.56|< 0.0001
82652533|NCT02277769|165019856|SUPERIORITY||LS mean difference|-28.9|||<|0.0001|TWO_SIDED|95.0|-36.04|-21.83||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.83|-36.04|< 0.0001
82652534|NCT02277769|165019856|SUPERIORITY||Least square (LS) mean difference|-32.8|||<|0.0001|TWO_SIDED|95.0|-40.2|-25.49||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.49|-40.20|< 0.0001
82652535|NCT02277769|165019857|SUPERIORITY||difference in percentages|16.3|||<|0.0001|TWO_SIDED|95.0|9.99|22.68||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||22.68|9.99|< 0.0001
82652536|NCT02277769|165019857|SUPERIORITY||difference in percentages|21.3|||<|0.0001|TWO_SIDED|95.0|14.66|27.93||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||27.93|14.66|< 0.0001
82652537|NCT02277769|165019858|SUPERIORITY||difference in percentages|9.8|||<|0.0001|TWO_SIDED|95.0|5.54|13.98||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||13.98|5.54|< 0.0001
82652538|NCT02277769|165019858|SUPERIORITY||difference in percentages|11.8|||<|0.0001|TWO_SIDED|95.0|7.31|16.32||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||16.32|7.31|< 0.0001
82652539|NCT02277769|165019859|SUPERIORITY||LS mean difference|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.605|-1.587||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.587|-2.605|< 0.0001
82652540|NCT02277769|165019859|SUPERIORITY||LS mean difference|-2.47|||<|0.0001|TWO_SIDED|95.0|-2.982|-1.957||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.957|-2.982|< 0.0001
82652541|NCT02277769|165019860|SUPERIORITY||LS mean difference|-36.2|||<|0.0001|TWO_SIDED|95.0|-43.46|-28.86|||ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-28.86|-43.46|< 0.0001
82652542|NCT02277769|165019860|SUPERIORITY||LS mean difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-45.55|-30.88||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.88|-45.55|< 0.0001
82652543|NCT02277769|165019861|SUPERIORITY||difference in percentages|43.2|||<|0.0001|TWO_SIDED|95.0|35.12|51.29||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||51.29|35.12|< 0.0001
82652544|NCT02277769|165019861|SUPERIORITY||difference in percentages|39.1|||<|0.0001|TWO_SIDED|95.0|30.92|47.19||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||47.19|30.92|< 0.0001
82652545|NCT02277769|165019862|SUPERIORITY||difference in percentages|22.8|||<|0.0001|TWO_SIDED|95.0|16.09|29.59||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||29.59|16.09|< 0.0001
82652546|NCT02277769|165019862|SUPERIORITY||difference in percentages|23.3|||<|0.0001|TWO_SIDED|95.0|16.63|30.05||Threshold for significance at 0.025 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||30.05|16.63|< 0.0001
82652547|NCT02277769|165019863|SUPERIORITY||LS mean difference|-17.99|||<|0.0001|TWO_SIDED|95.0|-22.062|-13.927||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.927|-22.062|< 0.0001
82652548|NCT02277769|165019863|SUPERIORITY||LS mean difference|-19.51|||<|0.0001|TWO_SIDED|95.0|-23.491|-15.529||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-15.529|-23.491|< 0.0001
82652549|NCT02277769|165019864|SUPERIORITY||LS mean difference|-31.4|||<|0.0001|TWO_SIDED|95.0|-37.36|-25.4||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.40|-37.36|< 0.0001
82652550|NCT02277769|165019864|SUPERIORITY||LS mean difference|-33.8|||<|0.0001|TWO_SIDED|95.0|-39.75|-27.8||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-27.80|-39.75|< 0.0001
82652551|NCT02277769|165019865|SUPERIORITY||LS mean difference|-5.7|||<|0.0001|TWO_SIDED|95.0|-6.86|-4.47||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.47|-6.86|< 0.0001
82652552|NCT02277769|165019865|SUPERIORITY||LS mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.1|-4.72||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-4.72|-7.10|< 0.0001
82652553|NCT02277769|165019866|SUPERIORITY||LS mean difference|-7.0|||<|0.0001|TWO_SIDED|95.0|-8.36|-5.57||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-5.57|-8.36|< 0.0001
82652554|NCT02277769|165019866|SUPERIORITY||LS mean difference|-8.0|||<|0.0001|TWO_SIDED|95.0|-9.36|-6.64||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-6.64|-9.36|< 0.0001
82652555|NCT02277769|165019867|SUPERIORITY||LS mean difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.34|-3.09||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-3.09|-5.34|< 0.0001
82652556|NCT02277769|165019867|SUPERIORITY||LS mean difference|-4.9|||<|0.0001|TWO_SIDED|95.0|-6.04|-3.81||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-3.81|-6.04|< 0.0001
82652557|NCT02277769|165019868|SUPERIORITY||LS mean difference|-27.7|||<|0.0001|TWO_SIDED|95.0|-33.73|-21.7||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.70|-33.73|< 0.0001
82652558|NCT02277769|165019868|SUPERIORITY||LS mean difference|-28.9|||<|0.0001|TWO_SIDED|95.0|-35.03|-22.74||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-22.74|-35.03|< 0.0001
82652559|NCT02277769|165019869|SUPERIORITY||LS mean difference|-17.7|||<|0.0001|TWO_SIDED|95.0|-21.96|-13.53||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg q2w vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-13.53|-21.96|< 0.0001
82652560|NCT02277769|165019869|SUPERIORITY||LS mean difference|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.16|-10.78||Threshold for significance at 0.025 level.|ANCOVA||Dupilumab 300 mg qw vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-10.78|-19.16|< 0.0001
82652561|NCT00717977|165019882|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||Adjusted for CGM device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||0.009
82652562|NCT00717977|165019883|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Adjusted for CGM device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||0.04
82652563|NCT00717977|165019884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Adjusted for device type. Age was analyzed as continuous.|Regression, Linear|||The associations of mean sensor glucose and glucose variability measures with age were assessed using least-squares regression models adjusting for device type.||||<0.001
82652564|NCT01073020|165019929|SUPERIORITY||proportion|0.08||||0.6|TWO_SIDED||||||Chi-squared||Estimation parameter is the difference between the proportion of patients in the LAGB group vs. proportion of patients in the Intensive Medical Diabetes \& Weight Management (LAGB Grp) who achieved the primary outcome.|||||0.60
82652565|NCT01073020|165019929|SUPERIORITY||proportion|0.42||||0.005|TWO_SIDED||||||Chi-squared||Estimation parameter is the difference between the proportion of patients in the RYGB group vs. proportion of patients in the Intensive Medical Diabetes \& Weight Management (RYGB Grp) who achieved the primary outcome.|||||0.005
82652566|NCT01073020|165019930|SUPERIORITY||Mean Difference (Net)|1.0||||0.33|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in HbA1c in the LAGB group vs. change from baseline in HbA1c in the Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline HbA1c.|||||0.33
82652567|NCT01073020|165019930|SUPERIORITY||Mean Difference (Net)|1.4|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in HbA1c in the RYGB group vs. change from baseline in HbA1c in the Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline HbA1c.|||||<0.001
82652568|NCT01073020|165019931|SUPERIORITY||Mean Difference (Net)|2.2|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in BMI in the LAGB group vs. change from baseline in BMI in the Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline BMI.|||||<0.001
82652569|NCT01073020|165019931|SUPERIORITY||Mean Difference (Net)|4.6|||<|0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between the change from baseline in BMI in the RYGB group vs. change from baseline in BMI in the Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline BMI.|||||<0.001
82652570|NCT01073020|165019932|SUPERIORITY||Mean Difference (Net)|1.5||||0.81|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between change from baseline in CHD risk over 10 yrs. in LAGB group vs. change from baseline in CHD risk over 10 yrs. in Intensive Medical Diabetes \& Weight Management (LAGB Grp), adjusted for baseline CHD risk.|||||0.81
82652571|NCT01073020|165019932|SUPERIORITY||Mean Difference (Net)|2.6||||0.009|TWO_SIDED|95.0|||||Mixed Models Analysis||Estimation parameter is the difference between change from baseline in CHD risk over 10 yrs. in RYGB group vs. change from baseline in CHD risk over 10 yrs. in Intensive Medical Diabetes \& Weight Management (RYGB Grp), adjusted for baseline CHD risk.|||||0.009
82652572|NCT01644890|165019933|NON_INFERIORITY|The primary PFS analysis was confirmed whether or not the upper limit of the 95% confidence interval (CI) for the hazard ratio (HR) for NK105 relative to PTX fell below the non-inferiority margin of 1.215 (\<1.215) by fitting a Cox proportional hazards model that included allocation adjustment factors other than the study site as covariates.|Hazard Ratio (HR)|1.255|||||TWO_SIDED|95.0|0.989|1.592|||||History of chemotherapy for metastatic or recurrent breast cancer (yes/no), History of treatment using a taxane anticancer drug (yes/no), ER status \[(+) or (-)\], and Disease free interval (\<12 months or ≥12 months) were covariates for adjustment.|Based on the results of previous studies, the expected median PFS was 5.5 months for PTX and 6.35 months for NK105. Assuming a randomization period of 18 months, a follow-up period of 12 months, a one-sided significance level of 2.5%, a power of 85% and the non-inferiority margin of 1.215, the number of patients was estimated to 172 pts per group, a total of 344 patients. Considering an expected withdrawal/dropout rate of approximately 20%, the target sample size was set at 414.||1.592|0.989|
82652573|NCT01644890|165019934|OTHER||Hazard Ratio (HR)|1.197|||||TWO_SIDED|95.0|0.885|1.62|||||History of chemotherapy for metastatic or recurrent breast cancer (yes/no), History of treatment using a taxane anticancer drug (yes/no), ER status \[(+) or (-)\], and Disease free interval (\<12 months or ≥12 months) were covariates for adjustment.|||1.620|0.885|
82652574|NCT01644890|165019935|OTHER||Difference in ORR (%)|-7.5|||||TWO_SIDED|95.0|-17.4|2.7||||||||2.7|-17.4|
82652575|NCT03031899|165019954|NON_INFERIORITY|"1. Rose bengal should stain the areas positively stained by Toluidine blue~2. areas stained by rose bengal that shows dysplasia in biopsy"|SN, SP, PPV, NPV|||||0.005|||||||Chi-squared|||||||0.005
82652576|NCT00094302|165019964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.14|TWO_SIDED|95.0|0.77|1.04||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 320 subjects in the Spironolactone group and 351 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.04|0.77|0.14
82652577|NCT00094302|165019965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.35|TWO_SIDED|95.0|0.73|1.12||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 336 subjects (160 in the Spironolactone group and 176 in the Placebo group) with a confirmed event."||1.12|0.73|0.35
82652578|NCT00094302|165019966|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.48|TWO_SIDED|95.0|0.14|2.5||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 8 subjects (3 in the Spironolactone group and 5 in the Placebo group) with a confirmed event."||2.50|0.14|0.48
82652579|NCT00094302|165019967|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.04|TWO_SIDED|95.0|0.69|0.99||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 451 subjects (206 in the Spironolactone group and 245 in the Placebo group) who have been confirmed to have experienced the event"||0.99|0.69|0.04
82652580|NCT00094302|165019968|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.29|TWO_SIDED|95.0|0.77|1.08||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|Endpoint compared by trial arm using logrank test of time to event from randomization. Subjects who did not experience endpoint were censored at time of last contact. Attempts were made to determine vital status as of each subject's last potential visit, based on randomization, even if the subject ended study participation before then. This outcome was adjudicated. There were 252 events over 6,022 patient-years in Spironolactone arm and 274 events over 5,981 patient-years in Placebo arm.||1.08|0.77|0.29
82652581|NCT00094302|165019969|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.28|TWO_SIDED|95.0|0.8|1.06||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 382 subjects in Spironolactone group and 404 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.06|0.80|0.28
82652582|NCT00094302|165019970|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.15|TWO_SIDED|95.0|0.76|1.04||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 291 subjects in Spironolactone group and 320 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.04|0.76|0.15
82652583|NCT00094302|165019971|SUPERIORITY_OR_OTHER||incidence rate ratio|0.75||||0.03|TWO_SIDED|95.0|0.58|0.97||No covariate adjustment|Negative binomial regression||Spironolactone compared to Placebo|There were a total of 869 confirmed heart failure hospitalizations (394 in the Spironolactone group and 475 in the Placebo group) during the 11,471 person-years collected over the course of the TOPCAT trial (5,755 person-years in the Spironolactone group and 5,716 person-years in the Placebo group). The incidence rate of heart failure hospitalizations for each treatment group was compared using a negative binomial regression with a p-value threshold of 0.05 for statistical significance.||0.97|0.58|0.03
82652584|NCT00094302|165019972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.82|TWO_SIDED|95.0|0.67|1.38||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 58 subjects in the Spironolactone group and 60 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.38|0.67|0.82
82652585|NCT00094302|165019973|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.76|TWO_SIDED|95.0|0.64|1.83||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 56 subjects (29 in the Spironolactone group and 27 in the Placebo group) with confirmed events."||1.83|0.64|0.76
82652586|NCT00094302|165019974|SUPERIORITY_OR_OTHER||Hazard Ratio, log|1.02||||0.94|TWO_SIDED|95.0|0.69|1.5||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 103 subjects (52 in the Spironolactone group and 51 in the Placebo group) with confirmed events."||1.50|0.69|0.94
82652587|NCT00094302|165019975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.71|1.42||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 129 subjects (65 in the Spironolactone group and 64 in the Placebo group) with confirmed events."||1.42|0.71|0.98
82652588|NCT00094302|165019976|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.73|TWO_SIDED|95.0|0.65|1.35||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~This endpoint was adjudicated by the TOPCAT clinical endpoints committee. There were 117 subjects (57 in the Spironolactone group and 60 in the Placebo group) with confirmed events."||1.35|0.65|0.73
82652589|NCT00094302|165019977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49|||<|0.01|TWO_SIDED|95.0|1.18|1.87||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~There were 295 subjects (175 in the Spironolactone group and 120 in the Placebo group) experiencing this endpoint. This endpoint did not undergo adjudication by the TOPCAT clinical endpoints committee."||1.87|1.18|<0.01
82652590|NCT00094302|165019978|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.35||No covariate adjustment|Log Rank|Two-sided log rank test (0.05 Type 1 error)|Spironolactone compared to Placebo|Composite endpoint was compared by trial arm using logrank test of time to first event from time of randomization. Time to event was the time at which the first observed event component of the composite endpoint was observed. Component endpoints were adjudicated by the TOPCAT clinical endpoints committee. There were 58 subjects in the Spironolactone group and 61 subjects in Placebo group with a confirmed event. Subjects who did not experience this endpoint were censored at time of last contact.||1.35|0.66|0.75
82652591|NCT00094302|165019979|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.27
82652592|NCT00094302|165019979|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
82652593|NCT00094302|165019980|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.87
82652594|NCT00094302|165019980|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.16
82652595|NCT00094302|165019981|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score and treatment group as predictor variables. This tests whether the value of the post-baseline quality of life parameter differs by treatment group.||||0.99
82500237|NCT02564042|164691135|OTHER||Proportion difference|60.1|||||TWO_SIDED|95.0|33.2|80.1|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 14 has been presented|||80.1|33.2|
82652596|NCT00094302|165019982|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline quality of life scores as the dependent variable, and the baseline quality of life score, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.39
82652597|NCT00094302|165019982|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline quality of life parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.01
82652598|NCT00094302|165019983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.25|TWO_SIDED|95.0|0.85|1.04||No covariate adjustment|Log Rank|Two-sided log rand test (0.05 Type 1 error)|Spironolactone compared to Placebo|"This endpoint was compared by trial arm (spironolactone vs. placebo) using a logrank test of time to first event from the time of randomization. Subjects who did not experience this endpoint were censored at the time of their last contact.~There were a total of 1558 subjects (766 subjects in the Spironolactone group and 792 subjects in the Placebo) who were hospitalized for any cause while on study. This endpoint was not adjudicated by the TOPCAT clinical endpoints committee."||1.04|0.85|0.25
82652599|NCT00094302|165019984|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.27
82652600|NCT00094302|165019984|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
82652601|NCT00094302|165019985|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.53
82652602|NCT00094302|165019985|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
82652603|NCT00094302|165019986|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.11
82652604|NCT00094302|165019986|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||<0.01
82652605|NCT00094302|165019987|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.59
82652606|NCT00094302|165019987|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.54
82652607|NCT00094302|165019988|SUPERIORITY_OR_OTHER|||||||0.98|TWO_SIDED||||||Regression, Linear|||A generalized linear model was fit, with the post-baseline laboratory value as the dependent variable, and the baseline laboratory value, treatment group, month of visit, and the interaction between treatment group and month of visit as predictor variables. This tests whether the slope of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.98
82652608|NCT00094302|165019988|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||Since the p-value for the preceding test (Statistical Analysis 1) was not significant at the 0.05 level, another generalized linear model was fit, omitting the interaction between treatment group and month of visit. This tests whether the value of the post-baseline laboratory parameter differs by treatment group, taking into account that measurements in the same subject over time may be correlated.||||0.02
82500238|NCT02564042|164691135|OTHER||Proportion difference|30.0|||||TWO_SIDED|95.0|0.2|56.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 14 has been presented|||56.5|0.2|
82652609|NCT00494975|165020004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.32|<|0.05|TWO_SIDED|95.0|0.31|1.56|||generalized estimating equations (GEE)|||The VAS score of pruritus intensity was recorded for each participant at baseline and weekly until week 12 so that each one had 12 repeatedly measured data scores. To investigate the predictive effects of age, sex, comorbid diseases, phototherapy, and results of blood laboratory exams on the intensity of pruritus, marginal linear regression model was fitted to the repeatedly measured VAS score data using the generalized estimating equations (GEE) method.||1.56|0.31|<0.05
82652610|NCT01907087|165020010|OTHER|Inference is by an exact binomial test of the null hypothesis H0: Prob(response) \<= 0.50 vs. the alternative hypothesis H1: Prob(response) \> 0.50, where Prob(response) denotes the population probability of a response. The confidence interval is an exact interval with significance level α=0.05.|Proportion of responders|0.87||||0.0002|TWO_SIDED|95.0|0.66|0.97|||exact binomial test|||"Responder Analysis using ITT Population: Proportion of Subjects without an Unreversed Two-point Decline or Score of 0 in ML Scale Score at 48 Weeks.~A 'response' is defined as the absence of an unreversed two-point decline or score of 0 in the 0-to-6 point CLN2 score at 48 weeks."||0.97|0.66|0.0002
82652611|NCT01907087|165020010|OTHER|"Subject rate of decline per 48 weeks is estimated: (baseline CLN2 score - last CLN2 score)/(time elapsed in units of 48 weeks).~P-value computed as a two-sided t-test for the hypothesis H0: Rate=2.0 points lost/48 weeks vs. H1: Rate not equal 2.0 points lost/48 weeks."|Slope|0.4|STANDARD_DEVIATION|0.809|<|0.0001|TWO_SIDED|95.0|0.05|0.75|||t-test, 2 sided|||Slopes Analysis using ITT Population: Estimated Rate of Decline (300 mg Dosing Period).||0.75|0.05|<0.0001
82652612|NCT02180061|165020018|SUPERIORITY|||||||0.0216||||||One-sided p-value. The ORR was deemed clinically meaningful if the lower bound of the 95% confidence interval exceeded 10% (p\<0.0250).|Exact Binomial Distribution|||||||0.0216
82652613|NCT01469364|165020030|SUPERIORITY_OR_OTHER|||||||0.203|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.2030
82652614|NCT01469364|165020031|SUPERIORITY_OR_OTHER|||||||0.2527|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.2527
82652615|NCT01469364|165020036|SUPERIORITY_OR_OTHER||Mean Absolute Difference|-1.52||||0.34|TWO_SIDED||||||t-test, 2 sided|Paired Measured t-test||P-Value for the SF-36 PCS||||0.34
82652616|NCT01469364|165020036|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.78||||0.18|TWO_SIDED||||||t-test, 2 sided|Paired Measured t-test||P-Value for the SF-36 MCS||||0.18
82652617|NCT01469364|165020037|SUPERIORITY_OR_OTHER||Median Absolute Difference|1.62||||0.09|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SF-36 PCS||||0.09
82652618|NCT01469364|165020037|SUPERIORITY_OR_OTHER||Median Absolute Difference|-1.24||||0.31|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SF-36 MCS||||0.31
82652619|NCT01469364|165020038|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.82||||0.56|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SGRQ measure||||0.56
82652620|NCT01469364|165020039|SUPERIORITY_OR_OTHER||Median Absolute Difference|0.15||||0.68|TWO_SIDED||||||t-test, 2 sided|Paired Measure t-test||P-Value for SGRQ Measure||||0.68
82652621|NCT01469364|165020040|SUPERIORITY_OR_OTHER|||||||0.7454|TWO_SIDED||||||t-test, 2 sided|Paired t-test 2 sided.||||||0.7454
82652622|NCT01469364|165020041|SUPERIORITY_OR_OTHER|||||||0.9638|TWO_SIDED||||||t-test, 2 sided|Paired t-test was completed.||||||0.9638
82652623|NCT01767597|165020047|SUPERIORITY_OR_OTHER|||||||0.5||||||No p-value adjustments for multiple comparisons were required. Significance was determined using a p-value \<0.05.|Chi-squared|||Power calculations were performed to detect \>15% difference in immediate linkage-to-care and vaccination. We hypothesized from discussions with an expert panel that \~30% of participants would have appropriate care with standard HBV serology. Assuming type 1 error=0.05 and power=80%, 152 participants per arm would be needed. As \~40% of the population would be nonimmunized or HBsAg-positive from previous data, a minimum 375 participants per arm would be required.||||0.5
82652624|NCT00952484|165020113|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-value based on Wilcoxon rank sum test comparing the median RGI-C score for the asfotase alfa combined reporting group to the historical control group.|Wilcoxon (Mann-Whitney)|||||||0.0007
82652625|NCT00952484|165020114|SUPERIORITY_OR_OTHER|||||||0.0097|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0097
82652626|NCT00952484|165020115|SUPERIORITY_OR_OTHER|||||||0.0789|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0789
82652627|NCT00952484|165020116|SUPERIORITY_OR_OTHER|||||||0.7417|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.7417
82652628|NCT00952484|165020117|SUPERIORITY_OR_OTHER|||||||0.757|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a Wilcoxon Signed-Rank test.|Wilcoxon Signed-Rank|||||||0.7570
82652629|NCT00952484|165020118|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||<0.0001
82652630|NCT00952484|165020119|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||P-value testing whether the mean change from Baseline differs from Zero based on a t-test.|t-test, 2 sided|||||||0.0007
82652631|NCT02750306|165020126|SUPERIORITY||Difference in Least Squares Means|28.2||||0.00128|TWO_SIDED|95.0|11.1|45.2|||ANCOVA|||||45.2|11.1|0.00128
82652632|NCT02750306|165020129|SUPERIORITY||Difference in Least Squares Means|-15.7||||0.01354|TWO_SIDED|95.0|-28.1|-3.3|||ANCOVA|||||-3.3|-28.1|0.01354
82652633|NCT02422290|165020130|SUPERIORITY||Mean Difference (Final Values)|1.53|STANDARD_ERROR_OF_MEAN|1.83||0.2|TWO_SIDED|95.0|-2.27|7.87|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between CY-BOCS scores at the time points Baseline and Day 14.||7.87|-2.27|.20
82652634|NCT02422290|165020131|SUPERIORITY||Mean Difference (Final Values)|1.63|STANDARD_ERROR_OF_MEAN|0.49||0.18|TWO_SIDED|95.0|-0.56|2.16|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between CGI-S scores at the time points Baseline and Day 14.||2.16|-.56|.18
82652635|NCT02422290|165020132|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.0||1|TWO_SIDED|95.0|-2.78|2.78|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between OCD-VAS scores at the time points Baseline and Day 14.||2.78|-2.78|1.00
82652636|NCT02422290|165020133|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|5.41||0.77|TWO_SIDED|95.0|-15.46|18.96|||t-test, 2 sided|||Paired sample t-test was calculated to test mean difference between OCD-VAS scores at the time points Baseline and Day 14.||18.96|-15.46|.77
82652637|NCT05034731|165020158|NON_INFERIORITY|Non-inferiority analyses were based on paired t-tests looking at the differences in speech scores calculated using the investigational speech scores minus the control speech scores. The primary efficacy analyses tested the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quite (remote fitting - in-office fitting) are less than or equal to -10 percentile points.|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82652638|NCT05034731|165020159|NON_INFERIORITY|Non-inferiority analyses were based on paired t-tests looking at the differences in speech scores calculated using the investigational speech scores minus the control speech scores. The primary efficacy analyses tested the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quite (remote fitting - in-office fitting) are less than or equal to -10 percentile points.|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82652639|NCT00283686|165020164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.52|TWO_SIDED|95.0|-0.8|5.0||adjusted for age, sex, race, baseline estimated GFR, and clinical site.|Mixed Models Analysis|Test for differences between treatment groups over time.||||5.0|-0.8|0.52
82652640|NCT00283686|165020164|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.0||||0.006|TWO_SIDED|95.0|-1.6|-0.2||adjusted for age, sex, race, baseline estimated GFR, and clinical site.|Mixed Models Analysis|Testing differences between blood pressure groups over time||||-0.2|-1.6|0.006
82652641|NCT00283686|165020165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1||||0.52|TWO_SIDED|95.0|-0.6|0.3||adjusting for age, sex, race, and clinical site|Mixed Models Analysis|Testing for differences in treatment over time (differences in slopes over time).||||0.3|-0.6|0.52
82652642|NCT00283686|165020165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.55|TWO_SIDED|95.0|-0.3|0.6||adjusted for age, sex, race, and clinical site|Mixed Models Analysis|Testing for differences between groups over time (differences in slopes over time)||||0.6|-0.3|0.55
82652643|NCT00283686|165020166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.7||||0.57|TWO_SIDED|95.0|-3.3|1.9|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||1.9|-3.3|0.57
82652644|NCT00283686|165020166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.1|||<|0.0001|TWO_SIDED|95.0|-8.5|-3.4|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||-3.4|-8.5|<0.0001
82652645|NCT00283686|165020167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.18|TWO_SIDED|95.0|-3.1|0.6|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.6|-3.1|0.18
82652646|NCT00283686|165020167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.2||||0.19|TWO_SIDED|95.0|-3.1|0.6|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.6|-3.1|0.19
82652647|NCT00283686|165020168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.088||||0.58|TWO_SIDED|95.0|-0.4|0.22|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|comparing the annual change over time between ACE/ARB and ACE alone|||0.22|-0.40|0.58
82652648|NCT00283686|165020168|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.0002|TWO_SIDED|95.0|-0.91|-0.29|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|comparing annual change in LVMI between Low Blood Pressure and Standard Blood Pressure groups|||-0.29|-0.91|0.0002
82652649|NCT00283686|165020169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.97||||0.29|TWO_SIDED|95.0|-2.55|8.5|||Mixed Models Analysis|adjusted for age, sex, race, baseline estimated GFR, and clinical site|difference in annual change in mL/min/1.73 m\^2 for ACE+ARB compared to ACE alone|||8.50|-2.55|0.29
82652650|NCT00283686|165020169|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.73|TWO_SIDED|95.0|-4.54|6.5|||Mixed Models Analysis|adjusting for age, sex, race, baseline estimated GFR, and clinical site|difference in annual change mL/min/1.73 m\^2 between low and standard blood pressure groups|||6.50|-4.54|0.73
82652651|NCT00283686|165020170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.0228|TWO_SIDED|95.0|0.53|0.95|||Regression, Cox|adjusting for age, sex, race, and clinical site||||0.95|0.53|0.0228
82652652|NCT00283686|165020170|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.59|TWO_SIDED|95.0|0.7|1.22|||Regression, Cox|adjusting for age, sex, race, and clinical site||||1.22|0.70|0.59
82652653|NCT00283686|165020171|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.016||||0.87|TWO_SIDED|95.0|-0.19|0.17|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.17|-0.19|0.87
82652654|NCT00283686|165020171|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13||||0.14|TWO_SIDED|95.0|-0.046|0.31|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.31|-0.046|0.14
82652655|NCT00283686|165020172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.0221|TWO_SIDED|95.0|0.036|0.46|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||0.46|0.036|0.0221
82652656|NCT00283686|165020172|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23||||0.0339|TWO_SIDED|95.0|-0.44|-0.018|||Mixed Models Analysis|adjusting for age, sex, race, and clinical site||||-0.018|-0.44|0.0339
82652657|NCT00481247|165020173|SUPERIORITY_OR_OTHER|||||||0.0056||||||A priori threshold for statistical significance=0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by Hasford Score.||||||0.0056
82652658|NCT00481247|165020174|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.55|1.13||||||||1.13|0.55|
82652659|NCT00481247|165020176|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46|||||TWO_SIDED|95.0|1.2|1.77||||||Hazard Ratio and Confidence Interval were based on analyses on all randomized subjects||1.77|1.20|
82652660|NCT00481247|165020177|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|1.25|1.89||||||Hazard Ratio, and Confidence Interval were based on analyses on all randomized subjects||1.89|1.25|
82652661|NCT01716754|165020182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.79||||0.576|TWO_SIDED|95.0|0.35|1.78|||Regression, Logistic|||||1.78|0.35|0.576
82652662|NCT01716754|165020182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.556|TWO_SIDED|95.0|0.46|1.52|||Regression, Logistic|||||1.52|0.46|0.556
82652663|NCT01716754|165020184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.483|TWO_SIDED|95.0|0.61|2.86|||Regression, Logistic|||||2.86|0.61|0.483
82652664|NCT01716754|165020184|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.261|TWO_SIDED|95.0|0.79|2.44|||Regression, Logistic|||||2.44|0.79|0.261
82652665|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.604|||||||Repeated measures mixed model|||Morning||||0.604
82652666|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.26|||||||Repeated measures mixed model|||Morning||||0.260
82652667|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.937|||||||Repeated measures mixed model|||Evening||||0.937
82652668|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.88|||||||Repeated measures mixed model|||Evening||||0.880
82652669|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.762|||||||Repeated measures mixed model|||Overall daily||||0.762
82652670|NCT01716754|165020186|SUPERIORITY_OR_OTHER|||||||0.408|||||||Repeated measures mixed model|||Overall daily||||0.408
82652671|NCT02649231|165020205|SUPERIORITY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.28|1.75||||||Confirmed alcohol relapse by drug condition at 6 months using the Alcohol Timeline-Followback. Logistic regression modelling was used to compare the ketamine group with the placebo group (combined across therapy and alcohol education).||1.75|0.28|
82652672|NCT02649231|165020206|SUPERIORITY||Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|1.1|19.0||||||Linear regression modelling was used to compare the ketamine group with the placebo group (combined across therapy and psychoeducation). Only participants with a minimum of 159 days of completed drinking self-report data were included in the main ITT analysis as this was the shortest duration of time before any participant completed the 6 month (23-25 week) follow up in the study. Reporting time was capped at 180 days.||19.0|1.1|
82652673|NCT01211769|165020207|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
82652674|NCT01211769|165020207|SUPERIORITY_OR_OTHER||Variance (F)|0.71||||0.69||95.0|||||ANOVA|||GROUP COMPARISON||||0.69
82652675|NCT01211769|165020208|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
82652676|NCT01211769|165020208|SUPERIORITY_OR_OTHER||Variance (F)|0.73||||0.53||95.0|||||ANOVA|||GROUP COMPARISON||||0.53
82652677|NCT01211769|165020209|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||TIME COMPARISON||||<0.001
82652678|NCT01211769|165020209|SUPERIORITY_OR_OTHER||Variance (F)|1.08||||0.37||95.0|||||ANOVA|||GROUP COMPARISON||||0.37
82652679|NCT00947427|165020212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||ANCOVA|||||||0.86
82652680|NCT00891878|165020235|SUPERIORITY|||||||0.43|||||||Log Rank|||||||0.43
82652681|NCT00891878|165020236|SUPERIORITY|||||||0.45|||||||Fisher Exact|||||||0.45
82652682|NCT00494806|165020246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7279|STANDARD_ERROR_OF_MEAN|0.15|<|0.05||95.0|0.3174|1.1383|||t-test, 2 sided|df = 64|Relative risk not calculated.|"No differences in time to first flatus between the rocking and non rocking groups is the null hypothesis.~Sample size calculations by setting the criterion for significance at .05, two-tailed test (an effect in either directions was accepted), and power at .80. A total sample of 54 participants was determined necessary to yield statistically significant results (27 in Group A and 27 in Group B)."||1.1383|0.3174|<0.05
82652683|NCT01364870|165020251|SUPERIORITY|||||||0.016||||||The p value was adjusted using Bonferroni's method to account for the multiple comparisons.|Kruskal-Wallis|||There were instances of missing data due to patient time restraints and patient refusal.||||0.016
82652684|NCT01364870|165020252|SUPERIORITY|||||||0.008||||||P-value was adjusted using Bonferroni's method to account for multiple comparisons.|Kruskal-Wallis|||There were instances of missing data due to patient time restraints and patient refusal.||||0.008
82652685|NCT03065283|165020263|EQUIVALENCE|p\< or = 0.05|Mean Difference (Final Values)|0.09||||0.05|TWO_SIDED|95.0|-0.38|0.57|||t-test, 2 sided|||A paired t-test was used for intragroup analysis, and an independent Student's t-test was used for intergroup analysis. Data are represented in mean between-group difference with a 95% CI, and analysis was by intention to treat.||0.57|-0.38|0.05
82652686|NCT00095199|165020267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.756|TWO_SIDED|95.0|0.87|1.21||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median PFS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favours Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.21|0.87|0.756
82652687|NCT00095199|165020267|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.391|TWO_SIDED|95.0|0.73|1.13||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median PFS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favours Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.13|0.73|0.391
82652688|NCT00095199|165020268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.864|TWO_SIDED|95.0|0.86|1.2||The 2-sided unstratified log-rank test was employed at the 5% significance level|Log Rank|Kaplan-Meier method estimated median OS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.20|0.86|0.864
82652689|NCT00095199|165020268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.307|TWO_SIDED|95.0|0.9|1.41||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier method estimated median OS time. HR was calculated with unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.41|0.90|0.307
82652690|NCT00095199|165020269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.2|TWO_SIDED|95.0|0.78|3.26||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||3.26|0.78|0.200
82652691|NCT00095199|165020269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.683|TWO_SIDED|95.0|0.52|2.74||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.74|0.52|0.683
82652692|NCT00095199|165020270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.18||||0.31|TWO_SIDED|95.0|0.86|1.62||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.62|0.86|0.310
82652693|NCT00095199|165020270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.1|TWO_SIDED|95.0|0.93|2.4||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.40|0.93|0.100
82652694|NCT00095199|165020271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.091|TWO_SIDED|95.0|0.46|1.06||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.06|0.46|0.091
82652695|NCT00095199|165020271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.361|TWO_SIDED|95.0|0.72|2.5||The 2-sided unstratified Mantel Haenszel test was employed at the 5% significance level.|Mantel Haenszel|HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.50|0.72|0.361
82652696|NCT00095199|165020272|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.472|TWO_SIDED|95.0|0.77|1.74||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier estimated time to symptomatic progression. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.74|0.77|0.472
82652697|NCT00095199|165020272|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.272|TWO_SIDED|95.0|0.42|1.27||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|Kaplan-Meier estimated time to symptomatic progression. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||1.27|0.42|0.272
82652698|NCT00095199|165020273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.58||||0.236|TWO_SIDED|95.0|0.74|3.36||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|The Kaplan-Meier method estimated duration of response. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||3.36|0.74|0.236
82652699|NCT00095199|165020273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.887|TWO_SIDED|95.0|0.42|2.18||The 2-sided unstratified log-rank test was employed at the 5% significance level.|Log Rank|The Kaplan-Meier method estimated duration of response. HR was calculated using unstratified Cox proportional hazards model. HR\<1 favors Cetuximab arm||The Pemetrexed comparisons (Cetuximab + Pemetrexed vs Pemetrexed) were considered the primary comparisons. The Docetaxel comparisons (Cetuximab + Docetaxel vs Docetaxel) were considered supportive as Docetaxel comparisons remained underpowered by design. No tests were conducted to compare participants who received Docetaxel to those who received Pemetrexed.||2.18|0.42|0.887
82652700|NCT02761980|165020365|SUPERIORITY||LSM difference|3.14||||0.002|TWO_SIDED|95.0|1.13|5.15|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) were based on Least Square Mean (LSM) from analysis of covariance (ANCOVA) with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||5.15|1.13|0.002
82652701|NCT02761980|165020365|SUPERIORITY||LSM difference|0.91||||0.21|TWO_SIDED|95.0|-0.52|2.33|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||2.33|-0.52|0.210
82652702|NCT02761980|165020365|SUPERIORITY||LSM difference|0.79||||0.28|TWO_SIDED|95.0|-0.64|2.21|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||2.21|-0.64|0.280
82652703|NCT02761980|165020365|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.23||||0.03|TWO_SIDED|95.0|0.22|4.25|||ANCOVA|||||4.25|0.22|0.030
82652704|NCT02761980|165020365|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.35||||0.023|TWO_SIDED|95.0|0.33|4.37|||ANCOVA|||||4.37|0.33|0.023
82652705|NCT02761980|165020365|SUPERIORITY||LSM difference|-0.12||||0.864|TWO_SIDED|95.0|-1.54|1.29|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||1.29|-1.54|0.864
82652706|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.9||||0.004|TWO_SIDED|95.0|0.29|1.51|||ANCOVA|||WSTD 0-2 hours||1.51|0.29|0.004
82652707|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.39||||0.078|TWO_SIDED|95.0|-0.04|0.82|||ANCOVA|||WSTD 0-2 hours||0.82|-0.04|0.078
82652708|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.3||||0.172|TWO_SIDED|95.0|-0.13|0.74|||ANCOVA|||WSTD 0-2 hours||0.74|-0.13|0.172
82652709|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.51||||0.098|TWO_SIDED|95.0|-0.1|1.13|||ANCOVA|||WSTD 0-2 hours||1.13|-0.10|0.098
82652710|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.6||||0.054|TWO_SIDED|95.0|-0.01|1.21|||ANCOVA|||WSTD 0-2 hours||1.21|-0.01|0.054
82652711|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.09||||0.692|TWO_SIDED|95.0|-0.52|0.34|||ANCOVA|||WSTD 0-2 hours||0.34|-0.52|0.692
82652712|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.87|||<|0.001|TWO_SIDED|95.0|0.86|2.88|||ANCOVA|||WSTD 0-4 hours||2.88|0.86|< 0.001
82652713|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.61||||0.094|TWO_SIDED|95.0|-0.1|1.33|||ANCOVA|||WSTD 0-4 hours||1.33|-0.10|0.094
82652714|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.45||||0.217|TWO_SIDED|95.0|-0.27|1.17|||ANCOVA|||WSTD 0-4 hours||1.17|-0.27|0.217
82652715|NCT02761980|165020366|SUPERIORITY||LSM difference|1.26||||0.015|TWO_SIDED|95.0|0.24|2.27||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|ANCOVA|||WSTD 0-4 hours||2.27|0.24|0.015
82652716|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.42||||0.006|TWO_SIDED|95.0|0.4|2.44|||ANCOVA|||WSTD 0-4 hours||2.44|0.40|0.006
82652717|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.16||||0.659|TWO_SIDED|95.0|-0.87|0.55|||ANCOVA|||WSTD 0-4 hours||0.55|-0.87|0.659
82652718|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|2.62|||<|0.001|TWO_SIDED|95.0|1.16|4.08|||ANCOVA|||WSTD 0-6 hours||4.08|1.16|< 0.001
82652719|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.79||||0.135|TWO_SIDED|95.0|-0.25|1.82|||ANCOVA|||WSTD 0-6 hours||1.82|-0.25|0.135
82652720|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.7||||0.186|TWO_SIDED|95.0|-0.34|1.74|||ANCOVA|||WSTD 0-6 hours||1.74|-0.34|0.186
82652721|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.83||||0.014|TWO_SIDED|95.0|0.37|3.29|||ANCOVA|||WSTD 0-6 hours||3.29|0.37|0.014
82652722|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|1.92||||0.011|TWO_SIDED|95.0|0.45|3.39|||ANCOVA|||WSTD 0-6 hours||3.39|0.45|0.011
82652723|NCT02761980|165020366|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.09||||0.865|TWO_SIDED|95.0|-1.12|0.94|||ANCOVA|||WSTD 0-6 hours||0.94|-1.12|0.865
82652724|NCT02761980|165020367|SUPERIORITY|||||||0.449||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.449
82652725|NCT02761980|165020367|SUPERIORITY|||||||0.142||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.142
82652726|NCT02761980|165020367|SUPERIORITY|||||||0.822||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.822
82652727|NCT02761980|165020367|SUPERIORITY|||||||0.671||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.671
82652728|NCT02761980|165020367|SUPERIORITY|||||||0.514||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.514
82652729|NCT02761980|165020367|SUPERIORITY|||||||0.191||||||Generalized log-rank test based on interval-censored survival analysis using nonparametric survival method.|Log Rank|||||||0.191
82652730|NCT02761980|165020368|SUPERIORITY|||||||0.997||||||P-value, hazard ratio (HR) and corresponding 95% CI were calculated based on the proportional hazards (PH) model with treatment term in the model.|hazard ratio|||||||0.997
82652731|NCT02761980|165020368|SUPERIORITY|||||||0.998||||||P-value, HR and corresponding 95% CI were calculated based on the PH model with treatment term in the model.|Hazard Ratio|||||||0.998
82652732|NCT02761980|165020368|SUPERIORITY|||||||0.997||||||P-value, HR and corresponding 95% CI were calculated based on the PH model with treatment term in the model.|Hazard Ratio|||||||0.997
82652733|NCT02761980|165020369|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.67||||0.101|TWO_SIDED|95.0|-0.13|1.48|||ANCOVA|||||1.48|-0.13|0.101
82652734|NCT02761980|165020369|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.16||||0.582|TWO_SIDED|95.0|-0.41|0.73|||ANCOVA|||||0.73|-0.41|0.582
82652735|NCT02761980|165020369|SUPERIORITY||LSM difference|0.15||||0.614|TWO_SIDED|95.0|-0.43|0.72|||ANCOVA|||Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.||0.72|-0.43|0.614
82652736|NCT02761980|165020369|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.51||||0.212|TWO_SIDED|95.0|-0.29|1.32|||ANCOVA|||||1.32|-0.29|0.212
82652737|NCT02761980|165020369|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|0.53||||0.202|TWO_SIDED|95.0|-0.28|1.34|||ANCOVA|||||1.34|-0.28|0.202
82652738|NCT02761980|165020369|SUPERIORITY|Treatment difference and 95 % CI were based on LSM from ANCOVA with treatment, and covariates time from the first RSE full dose to randomization, and baseline temperature.|LSM difference|-0.01||||0.965|TWO_SIDED|95.0|-0.58|0.55|||ANCOVA|||||0.55|-0.58|0.965
82652739|NCT02780661|165020371|OTHER||Least square (LS) mean difference|-0.86||||0.0144|TWO_SIDED|95.0|-1.53|-0.196||Log10 change from baseline in aerobic bacteria microbial count as response variable, treatment and period as fixed effect, participant level and period level pre-treatment microbial count as covariates and participant as random effect.|ANCOVA||Difference is first named treatment minus second named treatment in log10{(count+1)/(baseline+1)} such that a negative difference favors the first named treatment.|H0: There is no treatment difference between daily and weekly product use. H1: There is a treatment difference between daily and weekly product use.||-0.196|-1.530|0.0144
82652740|NCT02780661|165020372|OTHER||LS mean difference|-0.48||||0.1879|TWO_SIDED|95.0|-1.23|0.261||Log10 change from baseline in anaerobic bacteria microbial count as response variable, treatment and period as fixed effect, participant level and period level pre-treatment microbial count as covariates and participant as random effect.|ANCOVA||Difference is first named treatment minus second named treatment in log10{(count+1)/(baseline+1)} such that a negative difference favors the first named treatment.|H0: There is no treatment difference between daily and weekly product use. H1: There is a treatment difference between daily and weekly product use.||0.261|-1.230|0.1879
82652741|NCT01806688|165020377|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
82652742|NCT01806688|165020378|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
82652743|NCT01806688|165020380|EQUIVALENCE|The study is designed to detect a 10.0% difference in area under the curve (AUC) appetite ratings between foods. The required number of Participants is 38.|||||<|0.05|||||||ANCOVA|Sources of variation included in the model: snack, visit number, baseline score, visit number × snack, and snack × overweight.||Items #1 were compared to each other and Items #2 were compared to each other||||<0.05
82652744|NCT02192905|165020386|OTHER|One-sample t-test testing the mean positive problem solving change from baseline to week 8.|Mean Difference (Final Values)|-0.64|STANDARD_DEVIATION|8.31||0.63|TWO_SIDED|95.0|-3.34|2.05|||t-test, 2 sided|||||2.05|-3.34|.63
82500239|NCT02564042|164691135|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|14.4|66.5|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 14 has been presented|||66.5|14.4|
82652745|NCT02192905|165020387|OTHER|One-sample t-test testing the mean within-person percent weight change from baseline to week 8.|Mean Difference (Final Values)|-0.019|STANDARD_DEVIATION|0.03|<|0.001|TWO_SIDED|95.0|-0.0285|-0.0096|||t-test, 2 sided|||||-.0096|-.0285|<0.001
82652746|NCT02192905|165020388|OTHER|One-sample t-test testing the mean within-person percent weight change from baseline to week 16.|Mean Difference (Final Values)|-0.017|STANDARD_DEVIATION|0.011||0.143|TWO_SIDED|95.0|-0.039|0.006|||t-test, 2 sided|||||.006|-.039|0.143
82652747|NCT02192905|165020389|OTHER|One-sample t-test testing the mean positive problem solving change from baseline to week 16.|Mean Difference (Final Values)|-0.76|STANDARD_DEVIATION|13.07||0.73|TWO_SIDED|95.0|-5.11|3.6|||t-test, 2 sided|||||3.6|-5.11|.73
82652748|NCT01095003|165020422|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0426|TWO_SIDED|95.0|0.71|0.99|||Log Rank|||The final analysis of progression free survival was conducted once the required number of events(615 progressions or deaths) was reached.using the IRC assessment of date of progressions following the blinded radiological and clinical review of data. Kaplan-Meier curves and life tables by treatment arm were provided.A stratified Cox proportional model was used to compare the two treatment arms||0.99|0.71|0.0426
82652749|NCT01095003|165020423|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.7657|TWO_SIDED|95.0|0.83|1.15|||Log Rank|||||1.15|0.83|0.7657
82652750|NCT01095003|165020424|SUPERIORITY|||||||0.103|||||||Cochran-Mantel-Haenszel|||||||0.103
82652751|NCT01095003|165020425|SUPERIORITY|||||||0.0089|||||||Cochran-Mantel-Haenszel|||||||0.0089
82652752|NCT04041570|165020453|OTHER|t-tests were only employed to determine which individuals were responders. Response rates with 95% Clopper-Pearson confidence intervals were reported within group.||||||0.05||||||The p-value was not adjusted for multiple comparisons and was only used to assess whether participants had a positive response or not.|t-test, 1 sided|This test was only used to determine whether participants were positive responders or not.||Statistical testing was performed within group and not between groups. Positivity for an individual was determined if there was a significant (p-value\<0.05) increase (one-sided test) in the ELISA titers at week 4 when compared to those at baseline. For each participant a t-test was performed to compare the triplicate baseline titers to their triplicate week 4 titers. The proportion of positive responses and associated Clopper-Pearson 95% was calculated within group.|For each participant, a positive response was defined as a significant increase in ELISA titer post vaccination (Week 4) from baseline (Week 0). Within each participant, a t-test is performed to compare the triplicate readings (replicates 1-3) post vaccination versus the triplicate readings at baseline. A participant is defined as a positive responder if one-sided t-test has p-value \< 0.05. The proportion of responders and associated 95% Clopper-Pearson Confidence Intervals were calculated.|||0.05
82652753|NCT03532009|165020467|SUPERIORITY|||||||0.426|||||||F-test|||The p-value was obtained by pooling the p-values from Chi-square tests performed on individual data sets using the F-distribution and reflects a global test of no difference in distribution of patients in the respective categories between SZC and placebo groups. The null hypothesis was that there is no difference between SZC and placebo in the distribution of percentage of patients in the 4 RAASi treatment categories. The hypothesis was tested at a significance level of 5%.||||0.426
82652754|NCT01602614|165020486|OTHER|Spearman Rank Correlation||||||0.3117|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.3117
82652755|NCT01602614|165020487|OTHER|Spearman Rank Correlation||||||0.6175||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.6175
82652756|NCT01602614|165020488|OTHER|Spearman Rank Correlation||||||0.7129||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.7129
82652757|NCT01602614|165020489|OTHER|Spearman Rank Correlation||||||0.9828|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.9828
82652758|NCT01602614|165020490|OTHER|Spearman Rank Correlation||||||0.9656|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.9656
82652759|NCT01602614|165020491|OTHER|Spearman Rank Correlation||||||0.5113|||||||Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.5113
82652760|NCT01602614|165020492|OTHER|Spearman Rank Correlation||||||0.217||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.2170
82652761|NCT01602614|165020493|OTHER|Spearman Rank Correlation||||||0.4299||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.4299
82652762|NCT01602614|165020494|OTHER|Spearman Rank Correlation||||||0.8629||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.8629
82652763|NCT01602614|165020495|OTHER|Spearman Rank Correlation||||||0.5717||||||Spearman Rank Correlation|Spearman Rank Correlation|||No subjects were enrolled in Group 1 and Group 4. One subject in Group 3 did not collect full PK panel therefore no pk was analyzed for this subject.||||0.5717
82652764|NCT01694485|165020496|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg and 210 mg groups. To account for multiplicity of statistical testing, primary and key secondary end points for the 2 highest doses of abrilumab (70 and 210 mg) were tested at the end of the 8-week induction period under a sequential framework at a 2-sided significance level of 0.10 using the Bonferroni-based chain procedure.|Odds Ratio (OR)|3.35||||0.021|TWO_SIDED|90.0|1.41|7.95|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||7.95|1.41|0.021
82652765|NCT01694485|165020496|SUPERIORITY||Difference in Adjusted Remission Rates|9.0|||||TWO_SIDED|90.0|1.6|14.6||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.6|1.6|
82652766|NCT01694485|165020496|SUPERIORITY|The study was powered for formal statistical testing of the abrilumab 70 mg and 210 mg groups. To account for multiplicity of statistical testing, primary and key secondary end points for the 2 highest doses of abrilumab (70 and 210 mg) were tested at the end of the 8-week induction period under a sequential framework at a 2-sided significance level of 0.10 using the Bonferroni-based chain procedure.|Odds Ratio (OR)|3.33||||0.03|TWO_SIDED|90.0|1.34|8.26|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.26|1.34|0.030
82652767|NCT01694485|165020496|SUPERIORITY||Difference in Adjusted Remission Rates|8.9|||||TWO_SIDED|90.0|0.8|14.9||||||The difference in remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||14.9|0.8|
82652768|NCT01694485|165020496|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.64||||0.64|TWO_SIDED|90.0|0.13|3.17|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.17|0.13|0.64
82652769|NCT01694485|165020496|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-1.6|||||TWO_SIDED|90.0|-5.2|5.5||||||The difference in remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.5|-5.2|
82652770|NCT01694485|165020496|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.34||||0.49|TWO_SIDED|90.0|0.03|4.33|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.33|0.03|0.49
82652771|NCT01694485|165020496|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-2.9|||||TWO_SIDED|90.0|-5.5|5.4||||||The difference in remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.4|-5.5|
82652772|NCT01694485|165020497|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.78|||<|0.001|TWO_SIDED|90.0|1.71|4.52|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.52|1.71|<0.001
82652773|NCT01694485|165020497|SUPERIORITY||Difference in Adjusted Response Rates|23.4|||||TWO_SIDED|90.0|11.8|33.2||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||33.2|11.8|
82652774|NCT01694485|165020497|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.57||||0.003|TWO_SIDED|90.0|1.53|4.31|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.31|1.53|0.003
82652775|NCT01694485|165020497|SUPERIORITY||Difference in Adjusted Response Rates|21.4|||||TWO_SIDED|90.0|9.0|31.8||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||31.8|9.0|
82652776|NCT01694485|165020497|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|2.54||||0.024|TWO_SIDED|90.0|1.29|5.02|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||5.02|1.29|0.024
82652777|NCT01694485|165020497|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Response Rates|21.2|||||TWO_SIDED|90.0|4.9|34.1||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||34.1|4.9|
82652778|NCT01694485|165020497|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.4||||0.18|TWO_SIDED|90.0|0.13|1.22|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher response rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using response rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||1.22|0.13|0.18
82652779|NCT01694485|165020497|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Response Rates|-13.7|||||TWO_SIDED|90.0|-24.4|2.7||||||The difference in adjusted response rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.7|-24.4|
82586182|NCT02245672|164884218|EQUIVALENCE|A linear analysis of covariance (ANCOVA) model was fitted for the endpoint and least-squares (LS) means were derived for each treatment. To assess equivalence, LS means (one for Test and one for Reference) from the ANCOVA models were used to generate Test/Reference ratios and 90% CIs were calculated by using Fieller's theorem. To demonstrate equivalence, the 90% CIs were each required to be wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).|Ratio (MGR001/Advair Diskus)|1.12|||||TWO_SIDED|90.0|1.016|1.237|||||Bioequivalence was established between active treatments (MGR001 and Advair Diskus) for the FEV1 AUEC0-12 clinical endpoint|Equivalence of MGR001 and Advair Diskus is established if the ratio of the LS means and 90% confidence interval are wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).||1.237|1.016|
82586183|NCT02245672|164884219|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||MGR001 (Test) vs Placebo||||<0.0001
82586184|NCT02245672|164884219|SUPERIORITY|In order for the bioequivalence results to be valid, assay sensitivity had to be established. For assay sensitivity, the following comparisons were performed using the Full Analysis Set for each co-primary endpoint: MGR001 versus placebo, and Advair Diskus versus placebo. Assay sensitivity was demonstrated if the p-values for active treatment versus placebo were less than 0.05|||||<|0.0001|||||||ANCOVA|||Advair Diskus (Reference) vs Placebo||||<0.0001
82586185|NCT02245672|164884220|EQUIVALENCE|A linear analysis of covariance (ANCOVA) model was fitted for the endpoint and least-squares (LS) means were derived for each treatment. To assess equivalence, LS means (one for Test and one for Reference) from the ANCOVA models were used to generate Test/Reference ratios and 90% CIs were calculated by using Fieller's theorem. To demonstrate equivalence, the 90% CIs were each required to be wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).|Ratio (MGR001/Advair Diskus)|1.069|||||TWO_SIDED|90.0|0.938|1.22|||||Bioequivalence was established between active treatments (MGR001 and Advair Diskus) for change from baseline in trough FEV1 endpoint on Day 29|Equivalence of MGR001 and Advair Diskus is established if the ratio of the LS means and 90% confidence interval are wholly contained within the interval 0.80-1.25 (i.e., 80%-125%).||1.220|0.938|
82586186|NCT01765192|164884221|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.039||0.013|TWO_SIDED|95.0|0.0219|0.1795|||ANCOVA|||The primary endpoint was analyzed using an analysis of covariance model adapted for the crossover design. The following fixed factors and covariates were included in the model: Treatment, sequence, period, and baseline FEV1 measurement of the respective treatment period. The reported analysis results are for the 2 crossover treatment periods combined.||0.1795|0.0219|0.013
82586187|NCT01765192|164884222|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.129|TWO_SIDED|95.0|-0.0185|0.1422||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator FVC measurement as the covariate.|ANCOVA|||||0.1422|-0.0185|0.129
82586188|NCT01765192|164884223|SUPERIORITY_OR_OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.056||0.032|TWO_SIDED|95.0|0.0113|0.2364||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator FEF measurement as the covariate.|ANCOVA|||||0.2364|0.0113|0.032
82586189|NCT01765192|164884224|SUPERIORITY_OR_OTHER||LS Mean Difference|7.21|STANDARD_ERROR_OF_MEAN|15.105||0.635||95.0|-23.0531|37.466||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator PEF measurement as the covariate.|ANCOVA|||||37.4660|-23.0531|0.635
82586190|NCT01765192|164884225|SUPERIORITY_OR_OTHER||LS Mean Difference|13.62|STANDARD_ERROR_OF_MEAN|5.206||0.011|TWO_SIDED|95.0|3.1896|24.0553||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline pre-bronchodilator PEF measurement as the covariate.|ANCOVA|||||24.0553|3.1896|0.011
82586191|NCT01765192|164884226|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.089||0.025|TWO_SIDED|95.0|-0.385|-0.0271||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline Daytime Asthma Symptom Score as the covariate.|ANCOVA|||||-0.0271|-0.3850|0.025
82586192|NCT01765192|164884227|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.075||0.217|TWO_SIDED|95.0|-0.2426|0.0563||P-values were obtained using an ANCOVA model with treatment sequence, treatment period, and study treatment as fixed factors with Baseline Nighttime Asthma Symptoms measurement as the covariate.|ANCOVA|||||0.0563|-0.2426|0.217
82499938|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.1|||||TWO_SIDED|95.0|-32.9|19.8|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||19.8|-32.9|
82586193|NCT06336603|164884240|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
82586194|NCT06336603|164884241|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
82586195|NCT06336603|164884242|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|||||||< .001
82586196|NCT02113241|164884267|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
82586197|NCT02113241|164884267|SUPERIORITY|||||||0.089||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.089
82586198|NCT02113241|164884268|SUPERIORITY|||||||0.003||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.003
82586199|NCT02113241|164884268|SUPERIORITY|||||||0.248||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.248
82586200|NCT02113241|164884269|SUPERIORITY|||||||0.161||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.161
82586201|NCT02113241|164884269|SUPERIORITY|||||||0.079||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.079
82586202|NCT02113241|164884270|SUPERIORITY|||||||0.067||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.067
82586203|NCT02113241|164884270|SUPERIORITY|||||||0.918||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.918
82586204|NCT02113241|164884271|SUPERIORITY|||||||0.128||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.128
82586205|NCT02113241|164884271|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.454
82586206|NCT02113241|164884272|SUPERIORITY|||||||0.433|||||||Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.433
82586207|NCT02113241|164884272|SUPERIORITY|||||||0.407||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.407
82586208|NCT02113241|164884273|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
82586209|NCT02113241|164884273|SUPERIORITY|||||||0.826||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.826
82586210|NCT02113241|164884274|SUPERIORITY|||||||0.791||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.791
82499939|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.9|||||TWO_SIDED|95.0|-34.8|18.7|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||18.7|-34.8|
82586211|NCT02113241|164884274|SUPERIORITY|||||||0.413||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.413
82586212|NCT02113241|164884275|SUPERIORITY|||||||0.075||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.075
82586213|NCT02113241|164884275|SUPERIORITY|||||||0.432||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.432
82586214|NCT02113241|164884276|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
82586215|NCT02113241|164884276|SUPERIORITY|||||||0.835||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.835
82586216|NCT02113241|164884277|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
82586217|NCT02113241|164884277|SUPERIORITY|||||||0.778||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.778
82586218|NCT02113241|164884278|SUPERIORITY|||||||0.338||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.338
82586219|NCT02113241|164884278|SUPERIORITY|||||||0.309||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.309
82586220|NCT02113241|164884279|SUPERIORITY|||||||0.049||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.049
82586221|NCT02113241|164884279|SUPERIORITY|||||||0.563||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.563
82586222|NCT02113241|164884280|SUPERIORITY|||||||0.85||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.850
82586223|NCT02113241|164884280|SUPERIORITY|||||||0.206||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.206
82586224|NCT02113241|164884281|SUPERIORITY|||||||0.006||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.006
82586225|NCT02113241|164884281|SUPERIORITY|||||||0.95||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.950
82586226|NCT02113241|164884282|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.011
82586227|NCT02113241|164884282|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.454
82586228|NCT02113241|164884283|SUPERIORITY|||||||0.652||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.652
82586229|NCT02113241|164884283|SUPERIORITY|||||||0.055||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.055
82586230|NCT02113241|164884284|SUPERIORITY|||||||0.254||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.254
82586231|NCT02113241|164884284|SUPERIORITY|||||||0.787||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.787
82586232|NCT02113241|164884285|SUPERIORITY|||||||0.129||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.129
82586233|NCT02113241|164884285|SUPERIORITY|||||||0.365||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.365
82586234|NCT02113241|164884286|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||<0.001
82586235|NCT02113241|164884286|SUPERIORITY|||||||0.175||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.175
82586236|NCT02113241|164884287|SUPERIORITY|||||||0.392||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.392
82586237|NCT02113241|164884287|SUPERIORITY|||||||0.123|||||||Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.123
82586238|NCT02113241|164884288|SUPERIORITY|||||||0.176||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.176
82586239|NCT02113241|164884288|SUPERIORITY|||||||0.268||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.268
82586240|NCT02113241|164884289|SUPERIORITY|||||||0.064||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.064
82586241|NCT02113241|164884289|SUPERIORITY|||||||0.462||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.462
82586242|NCT02113241|164884290|SUPERIORITY|||||||0.346||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.346
82586243|NCT02113241|164884290|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Analysis between before and after the intervention||||0.002
82586244|NCT00388453|164884291|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||.05
82586245|NCT02901041|164884295|SUPERIORITY||Mean Difference (Net)|0.02||||0.98|TWO_SIDED|95.0|-1.41|1.45|||t-test, 2 sided|t=0.03, df=79.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||1.45|-1.41|.98
82586246|NCT02901041|164884296|SUPERIORITY||Mean Difference (Net)|-0.83||||0.13|TWO_SIDED|95.0|-1.92|0.26|||t-test, 2 sided|t=-1.52, df=56.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.26|-1.92|.13
82586247|NCT02901041|164884297|SUPERIORITY||Mean Difference (Net)|-0.07||||0.19|TWO_SIDED|95.0|-0.17|0.03||Equality of variance was not assumed.|t-test, 2 sided|t=-1.33, df=72.65||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.03|-0.17|.19
82586248|NCT02901041|164884298|SUPERIORITY||Mean Difference (Net)|-0.17||||0.05|TWO_SIDED|95.0|-0.34|0.0|||t-test, 2 sided|t=-1.99, df=56.00||||0.00|-0.34|.05
82586249|NCT02901041|164884299|SUPERIORITY||Mean Difference (Net)|0.03||||0.71|TWO_SIDED|95.0|-0.11|0.17|||t-test, 2 sided|t=0.37,df=79.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.17|-0.11|.71
82586250|NCT02901041|164884300|SUPERIORITY||Mean Difference (Net)|-0.11||||0.12|TWO_SIDED|95.0|-0.26|0.03|||t-test, 2 sided|t=-1.59,df=56.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.03|-0.26|.12
82586251|NCT02901041|164884301|SUPERIORITY||Mean Difference (Net)|0.14||||0.98|TWO_SIDED|95.0|-9.89|10.18|||t-test, 2 sided|t=0.03, df=79.00||||10.18|-9.89|.98
82586252|NCT02901041|164884302|SUPERIORITY||Mean Difference (Net)|-5.8||||0.13|TWO_SIDED|95.0|-13.43|1.83|||t-test, 2 sided|t=-1.52, df=56.00||||1.83|-13.43|.13
82586253|NCT02901041|164884303|SUPERIORITY||Mean Difference (Net)|27.07||||0.75|TWO_SIDED|95.0|-144.06|198.2|||t-test, 2 sided|t=0.32,df=61.00||||198.20|-144.06|.75
82586254|NCT02901041|164884304|SUPERIORITY||Mean Difference (Net)|99.05||||0.35|TWO_SIDED|95.0|-111.11|309.21|||t-test, 2 sided|t=0.95, df=46.00||||309.21|-111.11|.35
82586255|NCT02901041|164884305|SUPERIORITY||Mean Difference (Net)|0.85||||0.51|TWO_SIDED|95.0|-1.69|3.4|||t-test, 2 sided|t=0.67, df=58.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||3.40|-1.69|.51
82586256|NCT02901041|164884306|SUPERIORITY||Mean Difference (Net)|-0.42||||0.55|TWO_SIDED|95.0|-1.82|0.98|||t-test, 2 sided|t=-0.61,df=36||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.98|-1.82|.55
82586257|NCT02901041|164884307|SUPERIORITY||Mean Difference (Net)|0.15||||0.95|TWO_SIDED|95.0|-4.15|4.45|||t-test, 2 sided|t=0.07,df=58.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||4.45|-4.15|.95
82586258|NCT02901041|164884308|SUPERIORITY||Mean Difference (Net)|3.34||||0.42|TWO_SIDED|95.0|-4.93|11.62|||t-test, 2 sided|t=0.82, df=38.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||11.62|-4.93|.42
82586259|NCT02901041|164884309|SUPERIORITY||Mean Difference (Net)|0.32||||0.17|TWO_SIDED|95.0|-0.15|0.8||Equal variance was not assumed.|t-test, 2 sided|t=1.39, df=36.37||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.80|-0.15|.17
82586260|NCT02901041|164884310|SUPERIORITY||Mean Difference (Net)|0.41||||0.14|TWO_SIDED|95.0|-0.14|0.97||Equal variances were not assumed when conducting the t-test.|t-test, 2 sided|t=1.53, df=24.05||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.97|-0.14|0.14
82586261|NCT02901041|164884311|SUPERIORITY||Mean Difference (Net)|3.07||||0.14|TWO_SIDED|95.0|-1.03|7.16||Equal variances were not assumed when conducting the t-tests.|t-test, 2 sided|t=1.51,df=39.34||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||7.16|-1.03|.14
82586262|NCT02901041|164884312|SUPERIORITY||Mean Difference (Net)|3.18||||0.4|TWO_SIDED|95.0|-4.39|10.75||Equality of variance was not assumed.|t-test, 2 sided|t=0.85, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||10.75|-4.39|.40
82586263|NCT02901041|164884313|SUPERIORITY||Mean Difference (Net)|0.4||||0.06|TWO_SIDED|95.0|-0.01|0.81||Equal variances were not assumed when conducting the t-test.|t-test, 2 sided|t=1.97, df=38.37||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.81|-0.01|.06
82586264|NCT02901041|164884314|SUPERIORITY||Mean Difference (Net)|0.03||||0.96|TWO_SIDED|95.0|-1.0|1.05|||t-test, 2 sided|t=.06, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||1.05|-1.00|.96
82652780|NCT01694485|165020498|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.34||||0.011|TWO_SIDED|90.0|1.35|4.07|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors.|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.07|1.35|0.011
82586265|NCT02901041|164884315|SUPERIORITY||Mean Difference (Net)|2.03||||0.6|TWO_SIDED|95.0|-5.58|9.64|||t-test, 2 sided|t=0.53,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||9.64|-5.58|.60
82586266|NCT02901041|164884316|SUPERIORITY||Mean Difference (Net)|-0.06||||0.21|TWO_SIDED|95.0|-0.15|0.03|||t-test, 2 sided|t=-1.27, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.03|-0.15|.21
82586267|NCT02901041|164884317|SUPERIORITY||Mean Difference (Net)|-0.28||||0.09|TWO_SIDED|95.0|-0.6|0.04|||t-test, 2 sided|t=-1.74,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.04|-0.60|.09
82586268|NCT02901041|164884318|SUPERIORITY||Mean Difference (Net)|-0.35||||0.1|TWO_SIDED|95.0|-0.78|0.07|||t-test, 2 sided|t=-1.69, df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||0.07|-0.78|.10
82586269|NCT02901041|164884319|SUPERIORITY||Mean Difference (Net)|0.02||||0.8|TWO_SIDED|95.0|-0.15|0.19|||t-test, 2 sided|t=0.25,df=57.00||A t-test was used to compare means between conditions at baseline (pre-treatment). The null hypothesis was that the difference in group means is zero.||0.19|-0.15|0.80
82586270|NCT02901041|164884320|SUPERIORITY||Mean Difference (Net)|-5.61||||0.41|TWO_SIDED|95.0|-14.56|3.34|||t-test, 2 sided|t=-0.84,df=39.00||A t-test was used to compare means between conditions at baseline post-treatment. The null hypothesis was that the difference in group means is zero.||3.34|-14.56|.41
82652781|NCT01694485|165020498|SUPERIORITY||Difference in Adjusted Healing Rates|15.3|||||TWO_SIDED|90.0|4.8|24.0||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||24.0|4.8|
82652782|NCT01694485|165020498|SUPERIORITY|If both comparisons of the primary endpoint reached statistical significance at 0.10, results from the 2 key secondary endpoints (response and mucosal healing at week 8) were to be sequentially (70 mg vs placebo then 210 mg vs placebo) tested at significance level of 0.05 independently of each other, according to the Bonferroni-based chain procedure.|Odds Ratio (OR)|2.1||||0.041|TWO_SIDED|90.0|1.15|3.82|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||3.82|1.15|0.041
82586271|NCT03249714|164884332|SUPERIORITY||Rate ratio|0.064|||<|0.001|TWO_SIDED|95.0|0.018|0.232|||negative binominal regression model|||||0.232|0.018|<0.001
82586272|NCT03249714|164884333|SUPERIORITY||rate ratio|0.136||||0.003|TWO_SIDED|95.0|0.036|0.513||Statistical significance (2-sided) at the 0.05 level|negative binomial regression|||||0.513|0.036|0.003
82586273|NCT03249714|164884333|SUPERIORITY||rate ratio|0.0|||<|0.001|TWO_SIDED|95.0|0.0|0.0|||negative binominal regression|Indicates statistical significance (2-sided) at the 0.05 level.||||0.000|0.000|< 0.001
82586274|NCT03249714|164884334|SUPERIORITY||Rate ratio|0.284||||0.002|TWO_SIDED|95.0|0.13|0.62|||negative binominal regression|||||0.620|0.130|0.002
82586275|NCT03249714|164884335|SUPERIORITY||Rate ratio|0.42||||0.119|TWO_SIDED|95.0|0.141|1.25|||negative binominal regression|||||1.250|0.141|0.119
82586276|NCT01996813|164884344|SUPERIORITY||Odds Ratio (OR)|0.115||||0.0553|TWO_SIDED|95.0|0.002|1.034||The exact p-value was estimated|Regression, Logistic|The method was exact logistic regression||The null hypothesis is that there is no difference in the odds of a cerebral desaturation event between patients wearing versus not wearing thigh-high compression stockings during shoulder arthroscopy in the beach chair position||1.034|0.002|.0553
82586277|NCT01996813|164884345|SUPERIORITY||Mean Difference (Final Values)|40.31|||<|0.001|TWO_SIDED|95.0|20.22|60.39|||t-test, 2 sided|A Satterthwaite correction was used to adjust the degrees of freedom||The null hypothesis is that there is no difference in the average length of surgery between patients wearing versus not wearing thigh-high compression stockings during shoulder arthroscopy in the beach chair position||60.39|20.22|<.001
82586278|NCT00655863|164884347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-307.229|||<|0.001|TWO_SIDED|95.0|-443.168|-171.29||p-value and confidence interval presented without multiplicity adjustment.|ANCOVA|||The null hypothesis that there was no difference between Alogliptin 25 mg QD and placebo groups was tested at a 2-sided 0.05 significance level. The ANCOVA model used for the change in postprandial incremental area the curver for total triglycerides includes treatment and statin use as fixed effects and baseline AUC(0-8h) for total triglycerides as a covariate.||-171.290|-443.168|<0.001
82586279|NCT00655863|164884347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-253.711|||<|0.001||95.0|-394.161|-113.262||p-value and confidence interval presented without multiplicity adjustment.|ANCOVA|||The null hypothesis that there was no difference between Alogliptin 25 mg QD + Pioglitazone 30 mg QD and placebo QD groups was tested at a 2-sided 0.05 significance level. The ANCOVA model used for the change in postprandial incremental area the curve for total triglycerides includes treatment and statin use as fixed effects and baseline AUC(0-8h) for total triglycerides as a covariate.||-113.262|-394.161|<0.001
82586280|NCT01138007|164884365|SUPERIORITY_OR_OTHER||Least Squared Mean Difference|-0.5||||0.853|TWO_SIDED|95.0|-2.7|1.7||The p-value was estimated based on the ANCOVA model including Baseline MADRS score and region as covariates. The multiplicity was adjusted by Dunnett's step-down procedure.|ANCOVA||The confidence interval was estimated based on the ANCOVA model including Baseline MADRS score and region as covariates.|||1.7|-2.7|0.853
82652783|NCT01694485|165020498|SUPERIORITY||Difference in Adjusted Healing Rates|13.0|||||TWO_SIDED|90.0|1.7|22.1||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||22.1|1.7|
82652784|NCT01694485|165020498|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.8||||0.68|TWO_SIDED|90.0|0.32|1.97|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||1.97|0.32|0.68
82652785|NCT01694485|165020498|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Healing Rates|-3.0|||||TWO_SIDED|90.0|-11.9|9.4||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||9.4|-11.9|
82652786|NCT01694485|165020498|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.69||||0.6|TWO_SIDED|90.0|0.21|2.22|||Regression, Logistic|Adjusted for baseline rectosigmoidoscopy score and stratification factors|An odds ratio \> 1.0 indicates a higher healing rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using healing rates from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||2.22|0.21|0.60
82652787|NCT01694485|165020498|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Healing Rates|-4.6|||||TWO_SIDED|90.0|-14.9|11.3||||||The difference in adjusted healing rates, estimated from a logistic regression model adjusted for baseline rectosigmoidoscopy score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||11.3|-14.9|
82586281|NCT01138007|164884365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.0||||95.0|||||||In the analysis plan, the second comparison of interest was not to be performed if the first comparison failed to show statistical significance.|||||
82586282|NCT03548987|164884374|SUPERIORITY||Treatment difference|-14.75|||<|0.0001|TWO_SIDED|95.0|-16.0|-13.5|||ANCOVA|||Treatment policy estimand||-13.50|-16.00|<0.0001
82586283|NCT03548987|164884374|OTHER||Treatment difference|-15.33|||<|0.0001|TWO_SIDED|95.0|-16.52|-14.13|||MMRM (mixed model repeated measurement)|||Hypothetical estimand||-14.13|-16.52|<0.0001
82586290|NCT01287065|164884456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.377|||||TWO_SIDED|90.0|0.293|0.462|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg PM minus Placebo|||0.462|0.293|
82586291|NCT01287065|164884456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.422|||||TWO_SIDED|90.0|0.337|0.507|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg AM minus Placebo|||0.507|0.337|
82586292|NCT01287065|164884456|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|||||TWO_SIDED|90.0|-0.125|0.036|||Mixed Models Analysis||Mean difference =FF/VI 100/25 µg AM minusFF/VI 100/25 µg PM|||0.036|-0.125|
82586293|NCT01259726|164884461|SUPERIORITY_OR_OTHER_LEGACY||||||<=|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<=0.0001
82586294|NCT01259726|164884461|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<0.0001
82586295|NCT01259726|164884461|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||<0.0001
82586296|NCT01259726|164884462|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.088|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.088
82586297|NCT01259726|164884462|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.002|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.002
82586298|NCT01259726|164884462|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.088|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.088
82586299|NCT01259726|164884463|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.054|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.054
82586300|NCT01259726|164884463|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.008|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.008
82586301|NCT01259726|164884463|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.101|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.101
82586302|NCT01259726|164884464|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.045|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.045
82586303|NCT01259726|164884464|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.066|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.066
82586304|NCT01259726|164884464|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.045|TWO_SIDED|||||Treatment comparison with placebo using two-sided Chi-Square test at significance level p=0.05.|Chi-squared|||||||=0.045
82586305|NCT01630434|164884492|NON_INFERIORITY|The non-inferiority margin, which is here taken to be 0.04.|difference of proportion|-0.091||||0.004|ONE_SIDED|95.0||-0.01|||Wald Method|||||-0.01||0.004
82586306|NCT01630434|164884492|NON_INFERIORITY|The non-inferiority margin, which is here taken to be 0.04.|difference of proportion|-0.038||||0.06|ONE_SIDED|95.0||0.045|||Wald Method|||||0.045||0.06
82586307|NCT01630434|164884493|NON_INFERIORITY|The non-inferiority margin is 5%.|Difference of proportions|-0.015||||0.0003|ONE_SIDED|95.0||0.016|||Wald Method|||||0.016||0.0003
82586308|NCT01630434|164884493|NON_INFERIORITY|The non-inferiority margin is 5%.|Difference of proportions|0.006||||0.027|ONE_SIDED|95.0||0.044|||Wald Method|||||0.044||0.027
82586309|NCT01630434|164884494|NON_INFERIORITY|The non-inferiority margin is 7.5%.|Difference of proportions|0.035||||0.118|ONE_SIDED|95.0||0.091|||Wald Method|||||0.091||0.118
82586310|NCT01630434|164884494|NON_INFERIORITY|The non-inferiority margin is 7.5%.|Difference of proportions|0.065||||0.389|ONE_SIDED|95.0||0.124|||Wald Method|||||0.124||0.389
82586311|NCT01630434|164884495|NON_INFERIORITY|The non-inferiority margin is 4%|Difference of proportions|0.043|||||ONE_SIDED|95.0||0.071||||||||0.071||
82586312|NCT01630434|164884495|NON_INFERIORITY|The non-inferiority margin is 4%.|Difference of proportions|0.054|||||ONE_SIDED|95.0||0.087||||||||0.087||
82586313|NCT01630434|164884496|NON_INFERIORITY|The non-inferiority margin is 0.7.|Mean Difference (Final Values)|-0.045|||<|0.0001|ONE_SIDED|95.0||0.047|||t-test, 2 sided|||||0.047||<0.0001
82586314|NCT02076178|164884539|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||Any Grade 2 or higher event, any Grade 2 or higher event Vs Cabotegravir||||<0.01
82586315|NCT00343252|164884556|SUPERIORITY_OR_OTHER|||||||0.642||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of worst back pain from baseline to the 6-month endpoint.||||0.642
82586316|NCT00343252|164884557|SUPERIORITY_OR_OTHER|||||||0.683||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of worst back pain from baseline at the 12-month endpoint.||||0.683
82586317|NCT00343252|164884558|SUPERIORITY_OR_OTHER|||||||0.809||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of average back pain from baseline to the 6-month endpoint.||||0.809
82586318|NCT00343252|164884559|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|Chi-square|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with at least a 30% reduction in the severity of average back pain from baseline to the 12-month endpoint.||||0.986
82586319|NCT00343252|164884560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.746|TWO_SIDED|95.0|0.85|1.26||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in worst back pain at the 6-month endpoint.||1.26|0.85|0.746
82586320|NCT00343252|164884561|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.719|TWO_SIDED|95.0|0.86|1.25||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in worst back pain at the 12-month endpoint.||1.25|0.86|0.719
82499940|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.8|||||TWO_SIDED|95.0|-42.4|26.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||26.3|-42.4|
82586321|NCT00343252|164884562|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.681|TWO_SIDED|95.0|0.86|1.26||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction for average back pain at the 6-month endpoint.||1.26|0.86|0.681
82586322|NCT00343252|164884563|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.789|TWO_SIDED|95.0|0.86|1.23||Comparison of the Kaplan-Meier survival curves between treatment groups was conducted using log-rank, significance level of 0.05.|Log Rank|No adjustments for multiplicity were performed.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the time to first occurrence of a \>=30% reduction in average back pain at the 12-month endpoint.||1.23|0.86|0.789
82586323|NCT00343252|164884564|SUPERIORITY_OR_OTHER|||||||0.968||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between the treatment groups in the proportion of participants with a reduction in disability at the 3-month endpoint.||||0.968
82586324|NCT00343252|164884565|SUPERIORITY_OR_OTHER|||||||0.568||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with a reduction in disability at the 6-month endpoint.||||0.568
82586325|NCT00343252|164884566|SUPERIORITY_OR_OTHER|||||||0.932||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with a reduction in disability at the 12-month endpoint.||||0.932
82586326|NCT00343252|164884567|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with an improvement in quality of life at the 6-month endpoint.||||0.814
82586327|NCT00343252|164884568|SUPERIORITY_OR_OTHER|||||||0.572||95.0||||No adjustments for multiplicity were performed.|ANCOVA|The model includes terms for treatment, pooled site, baseline glucocorticoid usage status (yes/no), and baseline score.||Tested the null hypothesis that there is no statistically significant difference between treatment groups in the proportion of participants with an improvement in quality of life at the 12-month endpoint.||||0.572
82586328|NCT00343252|164884571|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value is for responder versus non-responder.|Chi-squared|||||||0.600
82586329|NCT00343252|164884572|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||P-value is for responder versus non-responder.|Chi-squared|||||||0.399
82586330|NCT00343252|164884573|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.453|TWO_SIDED|95.0|0.89|1.28|||Log Rank|||||1.28|0.89|0.453
82586331|NCT00343252|164884574|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.353|TWO_SIDED|95.0|0.91|1.3|||Log Rank|||||1.30|0.91|0.353
82586332|NCT00343252|164884575|SUPERIORITY_OR_OTHER|||||||0.943||95.0|||||ANCOVA|||||||0.943
82586333|NCT00343252|164884576|SUPERIORITY_OR_OTHER|||||||0.553||95.0|||||ANCOVA|||||||0.553
82586334|NCT00731120|164884577|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.803||0.279|TWO_SIDED|95.0|-2.45|0.71||Hierarchical testing stopped at 10 mg versus placebo for HAM-A total score at Week 8 in the testing sequence, a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-A as a covariate.||P-values were tested at the 5% significance level (ie, statistical significance if P\<0.05). To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 2.5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.05, the testing procedure stopped for all subsequent endpoints.||0.71|-2.45|0.279
82586335|NCT00731120|164884577|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.791||0.306|TWO_SIDED|95.0|-2.36|0.74||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.05, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|ANCOVA|Analysis of covariance (ANCOVA), with treatment and center as fixed factors and baseline HAM-A as a covariate.||||0.74|-2.36|0.306
82586336|NCT04508023|164884692|SUPERIORITY||Cox Proportional Hazard|1.16||||0.626|TWO_SIDED|95.0|0.63|2.15|||Log Rank|Log rank test stratified by the time from COVID-19 positive test to randomization.||||2.15|0.63|0.626
82586337|NCT02988622|164884748|SUPERIORITY||Mean Difference (Net)|0.1205|STANDARD_DEVIATION|0.5499||0.0492|TWO_SIDED||||||t-test, 2 sided|||||||0.0492
82586338|NCT02988622|164884749|SUPERIORITY||Mean Difference (Net)|0.241|STANDARD_DEVIATION|0.0817||0.0817|TWO_SIDED||||||t-test, 2 sided|||||||0.0817
82586339|NCT02988622|164884750|SUPERIORITY||Mean Difference (Net)|0.3659|STANDARD_DEVIATION|1.7951||0.0686|TWO_SIDED||||||t-test, 2 sided|||||||0.0686
82586340|NCT02988622|164884751|SUPERIORITY||Mean Difference (Net)|-0.0843|STANDARD_DEVIATION|1.5789||0.6278|TWO_SIDED||||||t-test, 2 sided|||||||0.6278
82586341|NCT02988622|164884752|SUPERIORITY||Mean Difference (Net)|0.3373|STANDARD_DEVIATION|1.7619||0.0848|TWO_SIDED||||||t-test, 2 sided|||||||0.0848
82586342|NCT02988622|164884753|SUPERIORITY||Mean Difference (Net)|0.2195|STANDARD_DEVIATION|2.0788||0.3418|TWO_SIDED||||||t-test, 2 sided|||||||0.3418
82586343|NCT02988622|164884754|SUPERIORITY||Mean Difference (Net)|0.2375|STANDARD_DEVIATION|1.5528||0.1752|TWO_SIDED||||||t-test, 2 sided|||||||0.1752
82500240|NCT02564042|164691135|OTHER||Proportion difference|52.0|||||TWO_SIDED|95.0|23.2|74.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 16 has been presented|||74.4|23.2|
82586344|NCT02988622|164884756|SUPERIORITY||Mean Difference (Net)|0.3824|STANDARD_DEVIATION|1.5685||0.0281|TWO_SIDED||||||t-test, 2 sided|||||||0.0281
82586345|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.938|TWO_SIDED|95.0||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||0.938
82586346|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.451||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.451
82586347|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.819||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||0.819
82586348|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.5||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||0.500
82586349|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||<.001
82586350|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.001
82586351|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||<0.001
82586352|NCT06020118|164884761|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants achieving HAI seroconversion (a titer ≥1:40 following ccIIV4 if the baseline titer is \<1:10 or a four-fold rise in titer if the baseline titer is \>1:10) following ccIIV4 vaccination for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||<0.001
82586353|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.894||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||0.894
82586354|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.104||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||0.104
82586355|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.815||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||0.815
82586356|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.||||||0.814||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||0.814
82652788|NCT01694485|165020499|SUPERIORITY||Odds Ratio (OR)|2.94||||0.09|TWO_SIDED|90.0|1.03|8.36|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors.|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||8.36|1.03|0.090
82652789|NCT01694485|165020499|SUPERIORITY||Difference in Adjusted Remission Rates|5.8|||||TWO_SIDED|90.0|-0.6|10.4||||||The difference in adjusted sustained remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||10.4|-0.6|
82586357|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H1N1)pdm09||||<0.001
82586358|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: A(H3N2)||||<0.001
82586359|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Victoria||||<0.001
82586360|NCT06020118|164884762|SUPERIORITY|95% exact Clopper-Pearson confidence boundaries and the p-values were calculated using a logistic regression model adjusted for site.|||||<|0.001||||||Number of participants in each vaccination group with a seroprotective HAI (in a subset of samples) titer (≥1:40) pre- and post-ccIIV4 immunization for each 2023-24 influenza vaccine antigen.|Regression, Logistic|||Antigen: B/Yamagata||||<0.001
82586361|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.699||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H1N1)pdm09||||0.699
82586362|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.88||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H1N1)pdm09||||0.880
82586363|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.72||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H3N2)||||0.720
82586364|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.238||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H3N2)||||0.238
82586365|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.28||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Victoria||||0.280
82586366|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.094||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Victoria||||0.094
82586367|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.216||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Yamagata||||0.216
82586368|NCT06020118|164884763|SUPERIORITY|P values and confidence intervals for the geometric mean titer ratio were estimated using a generalized estimating equation logistic regression accounting for site clustering.||||||0.436||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Yamagata||||0.436
82586369|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.615||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H1N1)pdm09||||0.615
82586370|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen A(H1N1)pdm09||||<0.001
82586371|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.87||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen A(H3N2)||||0.870
82586372|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001|||||||Regression, Linear|GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.||Post-vaccine: Antigen A(H3N2)||||<0.001
82586373|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.64||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Victoria||||0.640
82586374|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Victoria||||<0.001
82652790|NCT01694485|165020499|SUPERIORITY||Odds Ratio (OR)|1.32||||0.72|TWO_SIDED|90.0|0.38|4.56|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.56|0.38|0.72
82586375|NCT06020118|164884763|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.444||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Pre-vaccine: Antigen B/Yamagata||||0.444
82586376|NCT06020118|164884763|SUPERIORITY|P values and confidence intervals for the geometric mean titer ratio were estimated using a generalized estimating equation logistic regression accounting for site clustering.|||||<|0.001||||||GMTs and 95% confidence intervals were calculated using a t-distribution on log2-transformed titers.|Regression, Linear|||Post-vaccine: Antigen B/Yamagata||||<0.001
82586377|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.793||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H1N1)pdm09||||0.793
82586378|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.326||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H3N2)||||0.326
82586379|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.933||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Victoria||||0.933
82586380|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.||||||0.424||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Yamagata||||0.424
82586381|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H1N1)pdm09||||<0.001
82586382|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: A(H3N2)||||<0.001
82586383|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Victoria||||<0.001
82586384|NCT06020118|164884764|SUPERIORITY|95% confidence intervals were calculated using a t-distribution on log2-transformed titers and p-values were calculated using a linear regression model adjusted for site.|||||<|0.001||||||Mean fold-rise and 95% confidence intervals were calculated by taking the geometric mean of each individual's ratio of post-to-pre-vaccination titers.|Regression, Linear|||Antigen: B/Yamagata||||<0.001
82586385|NCT02668185|164884788|SUPERIORITY|Generalised linear mixed model with a Poisson error structure|Mean Difference (Net)|29.66|||<|0.0001|TWO_SIDED|95.0|17.39|42.87||Intention to treat adjusted means.|generalised linear mixed model with a Po|Adjusted for intention to treat||||42.87|17.39|<0.0001
82586386|NCT02668185|164884789|SUPERIORITY||Mean Difference (Net)|50.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82586387|NCT02668185|164884790|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82586388|NCT02668185|164884791|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82586389|NCT02668185|164884792|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82586390|NCT03373201|164884806|SUPERIORITY||Difference between LS means|60.3|||<|0.0001|TWO_SIDED|95.0|44.0|76.7|||ANOVA|||||76.7|44.0|<.0001
82586391|NCT03373201|164884807|SUPERIORITY||Difference between LS Means.|85.5|||<|0.0001|TWO_SIDED|95.0|64.3|106.6|||ANOVA|||||106.6|64.3|<.0001
82586392|NCT03373201|164884808|SUPERIORITY||Difference between LS means|-15.1|||<|0.0001|TWO_SIDED|95.0|-26.2|-4.0|||ANOVA|||||-4.0|-26.2|<.0001
82586393|NCT03373201|164884809|SUPERIORITY||Difference between LS means|-74.6|||<|0.0001|TWO_SIDED|95.0|-94.8|-54.3|||ANOVA|||||-54.3|-94.8|<.0001
82652791|NCT01694485|165020499|SUPERIORITY||Difference in Adjusted Remission Rates|1.0|||||TWO_SIDED|90.0|-4.7|4.6||||||The difference in adjusted sustained remission rates, estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.6|-4.7|
82652792|NCT01694485|165020499|SUPERIORITY|Comparisons of abrilumab 21 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.83||||0.86|TWO_SIDED|90.0|0.16|4.41|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||4.41|0.16|0.86
82586394|NCT03373201|164884810|SUPERIORITY||Difference between LS Means.|-0.5||||0.0083|TWO_SIDED|95.0|-0.9|-0.1|||ANOVA|||||-0.1|-0.9|0.0083
82586395|NCT03373201|164884811|SUPERIORITY||Difference between LS Means.|6.6||||0.0099|TWO_SIDED|95.0|1.6|11.6|||ANOVA|||||11.6|1.6|0.0099
82586396|NCT05269355|164884821|OTHER||Hazard Ratio (HR)|0.61||||0.0017|TWO_SIDED|95.0|0.45|0.83|||Regression, Cox|||||0.83|0.45|0.0017
82586397|NCT00081497|164884842|SUPERIORITY_OR_OTHER||Change in Slope Mean|-0.029||||0.013||95.0|-0.051|-0.007|||Mixed Models Analysis|Mixed effects model with a population level (fixed effect) intercept and slope and a subject level (random effect) intercept and slope.||The statistical analysis represents the primary outcome measure results.||-0.007|-0.051|0.0130
82586398|NCT00081497|164884843|SUPERIORITY_OR_OTHER||Mean Difference|-6.787||||0.0027||95.0|-11.123|-2.45|||Mixed Effects Model|||Statistical Analysis 1 represents the post-hoc outcome results for difference in slope mean of eGFR subgroup \>60.||-2.450|-11.123|0.0027
82586399|NCT00081497|164884843|SUPERIORITY_OR_OTHER||Mean Difference|2.33||||0.1268||95.0|-0.685|5.345|||Mixed Effects Model|||Statistical Analysis 2 represents the post-hoc outcome results for difference in slope mean of eGFR subgroup ≤ 60.||5.345|-0.685|0.1268
82586400|NCT03454828|164884854|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.399|TWO_SIDED||||||t-test, 2 sided|||||||0.399
82586401|NCT02683941|164884868|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.866|TWO_SIDED|95.0|0.48|1.95|||Log Rank|||The hazard ratio and the 95% confidence interval (CI) were estimated using a Cox proportional hazards model, stratified for interactive web response system (IWRS) tumour subtype (typical versus \[vs\] atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.95|0.48|0.866
82586402|NCT02683941|164884869|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.837|TWO_SIDED|95.0|0.48|1.88|||Log Rank|||The hazard ratio and the 95% CI were estimated using a Cox proportional hazards model, stratified for IWRS tumour subtype (typical vs atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.88|0.48|0.837
82586403|NCT02683941|164884870|OTHER||Percentage difference|14.0|||||TWO_SIDED|95.0|-10.97|37.86||||||The treatment difference compares lanreotide to placebo (central review). The 95% exact unconditional CI was used for ORR difference.||37.86|-10.97|
82500241|NCT02564042|164691135|OTHER||Proportion difference|52.4|||||TWO_SIDED|95.0|24.4|74.0|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 16 has been presented|||74.0|24.4|
82586404|NCT02683941|164884870|OTHER||Percentage difference|2.0|||||TWO_SIDED|95.0|-22.69|26.53||||||The treatment difference compares lanreotide to placebo (local review). The 95% exact unconditional CI was used for ORR difference.||26.53|-22.69|
82586405|NCT02683941|164884871|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.582|TWO_SIDED|95.0|0.5|1.5|||Log Rank|||The hazard ratio and the 95% CI were estimated using a Cox proportional hazards model, stratified for IWRS tumour subtype (typical vs atypical) using the exact method for ties. P-value of stratified log rank test comparing lanreotide to placebo with strata based on the IWRS tumour subtype (typical vs atypical) stratification factor.||1.50|0.50|0.582
82586406|NCT00325039|164884922|NON_INFERIORITY_OR_EQUIVALENCE|This study was an equivalence trial and was designed to have 80% power to show equivalence between the two sling procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. The margin of +/- 12 was chosen on the basis of clinical considerations and a calculation of the number of patients it was feasible to enroll in the trial.|difference in success rate (RMUS-TMUS)|3.0|||||TWO_SIDED|95.0|-3.6|9.6||||||With 294 women/arm, the study would have 80% power to show equivalence between the two procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. A planned time-to-event interim analysis of the primary outcome (objective treatment success) was conducted when 33% of the anticipated treatment failures occurred. We adjusted the primary outcome analysis for this interim look by assigning nominal alpha values of 0.049 to the 95% confidence intervals.||9.6|-3.6|
82586407|NCT00325039|164884923|SUPERIORITY_OR_OTHER||Difference in proportions|-4.1||||0.14||95.0||||This was not adjusted for multiple comparisons; the a priori threshold for statistical significance was 0.05.|Chi-squared|||Although the primary aim of the study was designed as an equivalence trial, the secondary aims were considered as superiority tests.||||0.14
82586408|NCT00325039|164884924|NON_INFERIORITY_OR_EQUIVALENCE|This study was an equivalence trial and was designed to have 80% power to show equivalence between the two sling procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. The margin of +/- 12 was chosen on the basis of clinical considerations and a calculation of the number of patients it was feasible to enroll in the trial.|difference in success (RMUS - TMUS)|6.4|||||TWO_SIDED|95.0|-1.6|14.3||||||With 294 women/arm, the study would have 80% power to show equivalence between the two procedures, with an equivalence margin of +/- 12 percentage points, at a two-sided significance level of 5%. A planned time-to-event interim analysis of the primary outcome (objective treatment success) was conducted when 33% of the anticipated treatment failures occurred. We adjusted the primary outcome analysis for this interim look by assigning nominal alpha values of 0.049 to the 95% confidence intervals.||14.3|-1.6|
82586409|NCT00325039|164884925|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||The null hypothesis is that the two arms do not differ according to quality of life, as measured by the IIQ.||||0.47
82586410|NCT00325039|164884926|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||t-test, 2 sided|||The UDI measure was compared using a two-sample t test.||||0.41
82586411|NCT01776424|164884967|SUPERIORITY||Hazard Ratio (HR)|0.76||||4e-05|TWO_SIDED|95.0|0.66|0.86||Independent DSMB recommended to stop rivaroxaban/aspirin arms on 06FEB2017. At first interim analysis(\~50% events) the log-rank test statistic for one primary comparison had crossed the modified Haybittle-Peto boundary(z=4) consistently over 3 months|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.86|0.66|0.00004
82586412|NCT01776424|164884967|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1149|TWO_SIDED|95.0|0.79|1.03|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.03|0.79|0.11490
82586413|NCT01776424|164884968|SUPERIORITY||Hazard Ratio (HR)|1.7|||<|1e-05|TWO_SIDED|95.0|1.4|2.05|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||2.05|1.40|<0.00001
82586414|NCT01776424|164884968|SUPERIORITY||Hazard Ratio (HR)|1.51||||3e-05|TWO_SIDED|95.0|1.25|1.84|||Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.84|1.25|0.00003
82586415|NCT01776424|164884969|SUPERIORITY||Hazard Ratio (HR)|0.72||||1e-05|TWO_SIDED|95.0|0.63|0.83||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.83|0.63|0.00001
82586416|NCT01776424|164884969|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.06437|TWO_SIDED|95.0|0.77|1.01||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.01|0.77|0.06437
82586417|NCT01776424|164884970|SUPERIORITY||Hazard Ratio (HR)|0.74||||1e-05|TWO_SIDED|95.0|0.65|0.85||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.85|0.65|0.00001
82586418|NCT01776424|164884970|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.03995||95.0|0.77|0.99||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.99|0.77|0.03995
82586419|NCT01776424|164884971|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.01062|TWO_SIDED|95.0|0.71|0.96||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||0.96|0.71|0.01062
82586420|NCT01776424|164884971|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.66418|TWO_SIDED|95.0|0.84|1.12||Nominal p-value|Log Rank|Log-rank test (stratified by pantoprazole randomization)|Stratified Cox proportional hazards model|||1.12|0.84|0.66418
82586421|NCT00426153|164884975|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Rank-sum test|||P values \<0.05 were considered statistically significant.||||0.048
82586422|NCT00426153|164884976|SUPERIORITY_OR_OTHER|||||||0.045||95.0||||P values \< 0.05 were considered statistically significant|Rank sum|||||||0.045
82586423|NCT00426153|164884977|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||P Values \< 0.05 were considered statistically significant|Rank sum|||||||0.98
82586424|NCT01054846|164885040|SUPERIORITY_OR_OTHER||z value|2.696|||<|0.01|TWO_SIDED||||||Chi-squared|||Differences between Survey 1 and Survey 2||||<0.01
82586425|NCT01054846|164885040|SUPERIORITY_OR_OTHER||z value|1.351|||>|0.05|TWO_SIDED||||||Chi-squared|||Difference between Survey 1 and Survey 2||||>0.05
82586426|NCT00394953|164885045|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||<|0.0001|TWO_SIDED|95.0|1.83|3.79|||Chi-squared, Corrected|||The proportion of responders treated with methoxy polyethylene glycol-epoetin beta versus the proportion of responders treated with darbepoetin alpha during the evaluation period.||3.79|1.83|<0.0001
82586427|NCT01592864|164885129|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.2||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.2|-0.6|<0.0001
82586428|NCT01592864|164885130|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.3||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.3|-0.6|<0.0001
82586429|NCT01592864|164885131|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|16.9|||<|0.0001|TWO_SIDED|95.0|11.1|22.8||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||22.8|11.1|<0.0001
82586430|NCT01592864|164885132|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.6|||<|0.0001|TWO_SIDED|95.0|5.4|13.9||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favors first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||13.9|5.4|<0.0001
82586431|NCT02120716|164885135|OTHER|Logistic regression analysis.|Odds Ratio (OR)|5.5||||0.13|TWO_SIDED|95.0|0.6|51.2|||Regression, Logistic|||||51.2|0.6|0.13
82586432|NCT02120716|164885136|SUPERIORITY||Odds Ratio (OR)|11.7|||<|0.015|TWO_SIDED|95.0|4.2|33.0|||Regression, Logistic|||The reported percentages were captured at two separate time points (baseline, and at 4-Month Follow-Up).||33.0|4.2|<0.015
82586433|NCT01326533|164885137|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANCOVA|Adjusted for baseline value as covariate||||||<0.01
82586434|NCT01326533|164885138|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANCOVA|Adjusted for baseline value as covariate||||||0.013
82586435|NCT01992393|164885163|OTHER|||||||0.036|||||||GEE|||||||0.036
82586436|NCT01992393|164885164|OTHER|||||||0.042|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.042
82586437|NCT01992393|164885164|OTHER|||||||0.204|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU||||0.204
82586438|NCT01992393|164885165|OTHER|||||||0.129|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.129
82586439|NCT01992393|164885165|OTHER|||||||0.978|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.978
82586440|NCT01992393|164885166|OTHER|||||||0.128|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.128
82586441|NCT01992393|164885166|OTHER|||||||0.015|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.015
82652793|NCT01694485|165020499|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-0.5|||||TWO_SIDED|90.0|-3.9|6.2||||||The difference in adjusted sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.2|-3.9|
82586442|NCT01992393|164885167|OTHER|||||||0.759|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.759
82586443|NCT01992393|164885167|OTHER|||||||0.471|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.471
82586444|NCT01992393|164885168|OTHER|||||||0.775|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.775
82586445|NCT01992393|164885168|OTHER|||||||0.433|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.433
82586446|NCT01992393|164885169|OTHER|||||||0.936|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.936
82586447|NCT01992393|164885169|OTHER|||||||0.6|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 16 week between TIME and TAU.||||0.600
82586448|NCT01992393|164885170|OTHER|||||||0.56|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.560
82586449|NCT01992393|164885170|OTHER|||||||0.305|||||||t-test, 2 sided|||A two-sided two sample t-test comparing difference of values from baseline and 12 week between TIME and TAU.||||0.305
82586450|NCT02618642|164885223|SUPERIORITY|||||||0.3879|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared||||0.3879
82586451|NCT02618642|164885223|SUPERIORITY|||||||0.5361|||||||Kruskal-Wallis|||comparison was conducted of the results obtained with a different filter were compared||||0.5361
82586452|NCT02618642|164885224|SUPERIORITY|||||||0.4669|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) vs the control group (placebo) (n=15) were compared.||||0.4669
82586453|NCT02618642|164885224|SUPERIORITY|||||||0.4161|||||||Kruskal-Wallis|||||||0.4161
82586454|NCT02618642|164885225|SUPERIORITY|||||||0.9596|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared.||||0.9596
82586455|NCT02618642|164885225|SUPERIORITY|||||||0.0907|||||||Kruskal-Wallis|||||||0.0907
82586456|NCT02618642|164885226|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||the results in the irradiated group (n=45) and the control group (n=15) were compared.||||0.0110
82586457|NCT02618642|164885226|SUPERIORITY|||||||0.1165|||||||Kruskal-Wallis|||comparison was conducted of the results obtained with a different filter (groups v, x, y,||||0.1165
82586458|NCT02618642|164885227|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||he results in the irradiated group (n=45) and the control group (n=15) were compared||||0.0200
82586459|NCT02618642|164885227|SUPERIORITY|comparison was conducted of the results obtained with a different filter (groups v, x, y,||||||0.0014|||||||Kruskal-Wallis|||||||0.0014
82586460|NCT02881957|164885228|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Two-sided t-test evaluated comparing length of stay in vitamin D3 vs. placebo treated patients utilizing patients as randomized (e.g., intent-to-treat) using a p\<0.05 as significant. Adverse events were monitored until discharge.||||0.2
82586461|NCT02881957|164885229|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||||||0.4
82586462|NCT02881957|164885230|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.3
82586463|NCT02881957|164885231|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
82586464|NCT02881957|164885232|SUPERIORITY|||||||0.7|||||||Chi-squared|||||||0.7
82586465|NCT02881957|164885233|SUPERIORITY|||||||0.99|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.99
82586466|NCT02881957|164885234|SUPERIORITY|||||||0.6|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.6
82586467|NCT02881957|164885235|SUPERIORITY|||||||0.7|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.7
82586468|NCT02881957|164885236|SUPERIORITY|||||||0.4|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.4
82586469|NCT02881957|164885237|SUPERIORITY|||||||0.1|||||||Chi-squared|||Adverse events were monitored until patient discharge from the hospital.||||0.1
82586470|NCT01078220|164885267|SUPERIORITY_OR_OTHER||Relative Risk|6.0|||||TWO_SIDED|95.0|3.91|9.21|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|||9.21|3.91|
82586471|NCT01078220|164885267|SUPERIORITY_OR_OTHER||Relative Risk|2.88|||||TWO_SIDED|95.0|1.18|7.08|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|||7.08|1.18|
82586472|NCT01078220|164885271|SUPERIORITY_OR_OTHER||Relative Risk|1.64|||||TWO_SIDED|95.0|1.17|2.3|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-14 after vaccination.||2.3|1.17|
82586473|NCT01078220|164885271|SUPERIORITY_OR_OTHER||Relative Risk|1.05|||||TWO_SIDED|95.0|0.82|1.35|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-60 after vaccination.||1.35|0.82|
82586474|NCT01078220|164885271|SUPERIORITY_OR_OTHER||Relative Risk|1.02|||||TWO_SIDED|95.0|0.53|1.98|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-14 after vaccination.||1.98|0.53|
82586475|NCT01078220|164885271|SUPERIORITY_OR_OTHER||Relative Risk|0.78|||||TWO_SIDED|95.0|0.5|1.21|||unconditional logistic regression||Relative risk was approximated by odds ratio, obtained from conditional logistic regression.|Days 1-60 after vaccination.||1.21|0.5|
82586476|NCT03824639|164885276|OTHER|Cohen's d will be used to estimate the effect size for comparing change in outcome measurements over 6 months in the exercise group to the control group. This effect size will be used for sample size calculations.|Cohen's d|0.37|||||TWO_SIDED|||||||||||||
82586477|NCT03824639|164885277|OTHER|Cohen's d will be used to estimate the effect size for comparing change in outcome measurements over 6 months in the exercise group to the control group. This effect size will be used for sample size calculations.|Cohen's d|0.18|||||TWO_SIDED|||||||||||||
82586478|NCT01097785|164885355|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student's t-test|||||||<0.05
82586479|NCT01097785|164885356|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Student's t-test|||||||<0.05
82586480|NCT00420017|164885359|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.38||||0.02|TWO_SIDED|95.0|0.16|0.86|||Chi-squared|||||0.86|0.16|0.02
82586481|NCT00420017|164885360|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
82586482|NCT00420017|164885361|SUPERIORITY_OR_OTHER|||||||0.097||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.097
82586483|NCT00420017|164885362|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Chi-squared|||||||0.66
82586484|NCT02864381|164885386|SUPERIORITY||Odds Ratio (OR)|1.5||||0.8|TWO_SIDED|95.0|0.4|6.1||P-value is derived from Cochran-Mantel Haenszel (CMH) test stratified by programmed death ligand 1 (PD-L1) stratification factor status.|Cochran-Mantel-Haenszel||Odds Ratio is derived from CMH test stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||6.1|0.4|0.8
82586485|NCT02864381|164885387|SUPERIORITY||Hazard Ratio (HR)|0.836||||0.306|TWO_SIDED|95.0|0.589|1.189||P-value is derived from log-rank test stratified by PD-L1 stratification factor status.|Log Rank||Hazard ratio is derived from Cox model stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||1.189|0.589|0.306
82586486|NCT02864381|164885388|SUPERIORITY||Hazard Ratio (HR)|0.786||||0.312|TWO_SIDED|95.0|0.491|1.257||P-value is derived from log-rank test stratified by PD-L1 stratification factor status.|Log Rank||Hazard ratio is derived from Cox model stratified by PD-L1 stratification factor status, the Nivolumab alone arm serves as the reference.|||1.257|0.491|0.312
82586487|NCT02525861|164885405|OTHER||Geometric Mean Ratio|5.398|||<|0.001|||||||Mixed-effects model|||Statistical analysis was collected and assessed based on A1P1 Levels at baseline and On-treatment BAL visit.||||<0.001
82586488|NCT02525861|164885406|OTHER||Geometric Mean Ratio|2.259|||<|0.001|||||||mixed-effects model|||Statistical analysis was collected and assessed based on functional A1P1 Levels at baseline and On-treatment BAL visit.||||<0.001
82586489|NCT01942720|164885428|SUPERIORITY_OR_OTHER||Sperman correlation coeficient|-0.7||||0.631|TWO_SIDED||||||Sperman test|||Relationship of total PillCam SB Lewis score with PGA score change from baseline visit to 6 month follow-up||||0.631
82586490|NCT01942720|164885428|SUPERIORITY_OR_OTHER||Sperman correlation coeficient|0.022||||0.882|TWO_SIDED||||||Sperman correlation|||Relationship of total PillCam SB CECDEIS score with PGA score change from baseline visit to 6 month follow-up||||0.882
82586491|NCT01942720|164885429|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.735|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB TI Lewis scores with TI SES-CD score at baseline visit||||<0.001
82586492|NCT01942720|164885429|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.726|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB TI CECDEIS scores with TI SES-CD score at baseline visit||||<0.001
82586493|NCT01942720|164885430|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.493||||0.002|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB Lewis score with TI SES-CD score change from baseline visit to 6 month follow-up||||0.002
82586494|NCT01942720|164885430|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.531|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam SB CECDEIS score with TI SES-CD score change from baseline visit to 6 month follow-up||||<0.001
82586495|NCT01942720|164885431|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.752|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam total SB Lewis score change with TI Leis score change from baseline visit to 6 month follow-up||||<0.001
82586496|NCT01942720|164885431|SUPERIORITY_OR_OTHER||Sperman correlation coefficient|0.785|||<|0.001|TWO_SIDED||||||Sperman correlation|||Relationship of PillCam total SB CECDEIS score change with TI Leis score change from baseline visit to 6 month follow-up||||<0.001
82586497|NCT03952806|164885440|SUPERIORITY||Least Square mean difference|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.4656|TWO_SIDED|95.0|-0.6|1.3|||Mixed Models Analysis|||||1.30|-0.60|0.4656
82586498|NCT01211197|164885457|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.59|STANDARD_DEVIATION|7.6|||TWO_SIDED|90.0|95.75|105.67|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV).|Ratio calculated as FDC fasted divided by individual tablets fasted.||105.67|95.75|
82586499|NCT01211197|164885457|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|94.94|STANDARD_DEVIATION|8.0|||TWO_SIDED|90.0|89.85|100.33|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||100.33|89.85|
82586500|NCT01211197|164885458|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|99.31|STANDARD_DEVIATION|12.2|||TWO_SIDED|90.0|91.76|107.49|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||107.49|91.76|
82586501|NCT01211197|164885458|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|64.3|STANDARD_DEVIATION|20.6|||TWO_SIDED|90.0|55.97|73.87|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||73.87|55.97|
82586502|NCT01211197|164885459|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.94|STANDARD_DEVIATION|7.7|||TWO_SIDED|90.0|96.03|106.11|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||106.11|96.03|
82586503|NCT01211197|164885459|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|94.39|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|89.22|99.87|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||99.87|89.22|
82586504|NCT01211197|164885460|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|103.13|STANDARD_DEVIATION|11.7|||TWO_SIDED|90.0|95.59|111.25|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||111.25|95.59|
82586505|NCT01211197|164885460|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|96.96|STANDARD_DEVIATION|15.5|||TWO_SIDED|90.0|87.23|107.78|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||107.78|87.23|
82586506|NCT01211197|164885461|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|102.15|STANDARD_DEVIATION|13.0|||TWO_SIDED|90.0|93.87|111.15|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||111.15|93.87|
82586507|NCT01211197|164885461|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|100.67|STANDARD_DEVIATION|13.7|||TWO_SIDED|90.0|91.7|110.51|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||110.51|91.70|
82652794|NCT01694485|165020499|SUPERIORITY|Comparisons of abrilumab 7 mg with placebo were not included in the hypothesis testing procedure and were not adjusted for multiplicity.|Odds Ratio (OR)|0.49||||0.64|TWO_SIDED|90.0|0.04|6.31|||Regression, Logistic|Adjusted for baseline total Mayo Score and stratification factors|An odds ratio \> 1.0 indicates a higher sustained remission rate for the abrilumab treatment group relative to placebo.|Comparisons between treatment groups were made using sustained remission rates from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.31|0.04|0.64
82652795|NCT01694485|165020499|SUPERIORITY|Analysis was not part of the formal testing.|Difference in Adjusted Remission Rates|-1.7|||||TWO_SIDED|90.0|-4.2|6.4||||||The difference in adjusted sustained remission rates estimated from a logistic regression model adjusted for baseline total Mayo Score and stratification factors (prior vs no prior TNF antagonist use and enrollment pre- vs post-protocol amendment).||6.4|-4.2|
82586508|NCT01211197|164885462|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|103.49|STANDARD_DEVIATION|12.7|||TWO_SIDED|90.0|95.3|112.39|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fasted divided by individual tablets fasted||112.39|95.30|
82586509|NCT01211197|164885462|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing, investigation of relative bioavailability.|Geometric mean ratio|75.13|STANDARD_DEVIATION|24.5|||TWO_SIDED|90.0|63.68|88.64|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment|Standard deviation is actually the intra-individual gCV.|Ratio calculated as FDC fed divided by FDC fasted||88.64|63.68|
82586510|NCT02168842|164885495|EQUIVALENCE|Comparison of the risk of need for antiparkinsonian therapy in Isradipine group to the risk in placebo group.|Hazard Ratio (HR)|0.79||||0.073|TWO_SIDED|95.0|0.61|1.03|||Log Rank|||||1.03|0.61|0.073
82586511|NCT02168842|164885496|EQUIVALENCE|Comparison the risk of need for dyskinesia in Isradipine group to the risk in a placebo group.|Hazard Ratio (HR)|1.53||||0.21|TWO_SIDED|95.0|0.78|3.01|||Log Rank|||||3.01|0.78|0.21
82586512|NCT02168842|164885497|EQUIVALENCE|Comparison of the risk of need for antiparkinsonian therapy in Isradipine group to the risk in placebo group.|Hazard Ratio (HR)|0.83||||0.35|TWO_SIDED|95.0|0.56|1.22|||Log Rank|||||1.22|0.56|0.35
82586513|NCT00892723|164885513|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.87
82586514|NCT00892723|164885513|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.86
82586515|NCT00892723|164885513|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.11
82586516|NCT00892723|164885513|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.91
82586517|NCT00892723|164885514|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.23
82586518|NCT00892723|164885514|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.82
82586519|NCT00892723|164885514|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.23
82586520|NCT00892723|164885514|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.71
82586521|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.73
82586522|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.94
82586523|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.14
82586524|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.68
82586525|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.56
82586526|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.32
82652796|NCT02907203|165020500|NON_INFERIORITY|Compared with the Performance Goal: 0.9mm|Mean Difference (Net)|-0.17|STANDARD_DEVIATION|0.98||0|TWO_SIDED|95.0|-0.5|0.152|||t-test, 2 sided|||||0.152|-0.5|0.000
82586527|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.33
82586528|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.65
82586529|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.21
82586530|NCT00892723|164885515|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (rank sum)|For this early phase study, no adjustment was used.||||||0.90
82586531|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustment was used.||||||0.16
82586532|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|95.0||||For this early phase study, no adjustment was used.|Wilcoxon (signed rank)|||||||0.74
82586533|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|95.0||||For this early phase study, no adjustments were used.|Wilcoxon (signed rank)|||||||0.45
82586534|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.079
82586535|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.16
82586536|NCT00892723|164885516|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED|95.0||||For this early phase study, no adjustments were used.|Wilcoxon (signed rank)|For this early phase study, no adjustments were used.||||||0.45
82586537|NCT04079803|164885523|SUPERIORITY|||||||0.087||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0088 and CFB was 13.4. In percent change from baseline with these two subjects removed, P=0.004.|||0.087
82586538|NCT04079803|164885523|SUPERIORITY|||||||0.01||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0006 and CFB was 16.9. In percent change from baseline with this subject removed, P=0.0004.|||0.01
82586539|NCT04079803|164885524|SUPERIORITY||||||<|0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P\<0.0001 and CFB was -19.8.|||<0.0001
82652797|NCT03588390|165020554|OTHER||Slope|0.696|STANDARD_ERROR_OF_MEAN|0.0971|||TWO_SIDED|95.0|0.5006|0.8914|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||0.8914|0.5006|
82652798|NCT03588390|165020554|OTHER||Slope|0.9244|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|95.0|0.6764|1.1724|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||1.1724|0.6764|
82652799|NCT03588390|165020555|OTHER||Slope|0.6533|STANDARD_ERROR_OF_MEAN|0.0982|||TWO_SIDED|95.0|0.4556|0.851|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||0.8510|0.4556|
82652800|NCT03588390|165020555|OTHER||Slope|0.8586|STANDARD_ERROR_OF_MEAN|0.1307|||TWO_SIDED|95.0|0.5929|1.1242|||||Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1. Standard error of the mean is actually standard error of slope.|The basic model for the investigation of dose proportionality was a power model that described the functional relationship between the dose and PK endpoints.||1.1242|0.5929|
82586540|NCT04079803|164885524|SUPERIORITY|||||||0.0012||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.001 and CFB was -14.9.|||0.0012
82586541|NCT04079803|164885525|SUPERIORITY|||||||0.005||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.003 and CFB was -3.2.|||0.005
82586542|NCT04079803|164885525|SUPERIORITY|||||||0.002||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.003 and CFB was -2.5.|||0.002
82586543|NCT04079803|164885526|SUPERIORITY|||||||0.0002||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0002 and CFB was -681.|||0.0002
82586544|NCT04079803|164885526|SUPERIORITY|||||||0.0005||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0005 and CFB was -527.|||0.0005
82586545|NCT04079803|164885527|SUPERIORITY|||||||0.0003||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0002 and CFB was -78.5.|||0.0003
82586546|NCT04079803|164885527|SUPERIORITY|||||||0.0058||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0008 and CFB was -51.0.|||0.0058
82586547|NCT04079803|164885528|SUPERIORITY|||||||0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes two 100 mg subjects who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing two subjects with no detectable simufilam in plasma, P=0.0001 and CFB was -23.7.|||0.0001
82586548|NCT04079803|164885528|SUPERIORITY|||||||0.0001||||||P value adjusted for multiplicity of 6 co-primary endpoints (p\<0.008 required for significance).|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This primary analysis includes one 50 mg subject who showed no detectable simufilam in plasma at return visits (their exclusion was not prespecified in the Statistical Analysis Plan).|In a secondary analysis removing one subject with no detectable simufilam in plasma, P=0.0002 and CFB was -20.9.|||0.0001
82490409|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H1N1 Strain)|1.01|||||TWO_SIDED|95.0|0.85|1.2|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.2|0.85|
82586549|NCT04079803|164885529|OTHER||Effect size|0.23|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
82490410|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 Strain)|1.12|||||TWO_SIDED|95.0|0.97|1.3|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotB versus H13 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.3|0.97|
82490411|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 strain)|0.98|||||TWO_SIDED|95.0|0.85|1.13|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotC versus H13 LotA = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.13|0.85|
82490412|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (A/H3N2 strain)|0.87|||||TWO_SIDED|95.0|0.76|1.01|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.01|0.76|
82490413|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.06|||||TWO_SIDED|95.0|0.91|1.23|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotB versus H13 LotA = LotB H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.23|0.91|
82586550|NCT04079803|164885529|OTHER||Effect size|0.37|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
82586551|NCT04079803|164885530|OTHER||Effect size|0.46|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was almost identical (0.45) when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
82498924|NCT02254486|164688837|NON_INFERIORITY_OR_EQUIVALENCE|Formal hierarchical testing of this key secondary endpoints was not performed due to the results of the non-inferiority analysis.||||||0.781|||||||Fisher Exact|||If at least one of the alternative primary endpoints were met, then key secondary endpoints were evaluated hierarchichally in a pre-specified order. Non-inferiority was concluded if the 1-sided 97.5% confidence limit (CL) for difference in proportion of events between 2 groups excluded a 10% or greater difference was in favor of Trisulate Solution. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint had at least met non-inferiority.||||0.781
82500242|NCT02564042|164691135|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 16 has been presented|||60.5|6.3|
82586552|NCT04079803|164885530|OTHER||Effect size|0.25|||||TWO_SIDED||||||||Reported effect size vs. placebo was calculated with Hedge's g (for groups of 20 or fewer) but was identical when calculated by Cohen's d.|This study was not powered for statistical significance on cognitive measures.||||
82586553|NCT04079803|164885531|SUPERIORITY|||||||0.0078||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for IL-6.||||0.0078
82586554|NCT04079803|164885531|SUPERIORITY|||||||0.019||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for IL-6.||||0.019
82586555|NCT04079803|164885531|SUPERIORITY|||||||0.0002||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for sTREM2.||||0.0002
82586556|NCT04079803|164885531|SUPERIORITY|||||||0.0007||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for sTREM2.||||0.0007
82586557|NCT04079803|164885531|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for HMGB1.||||0.0001
82586558|NCT04079803|164885531|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for HMGB1.||||0.0001
82586559|NCT04079803|164885531|SUPERIORITY|||||||0.0001||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for albumin.||||0.0001
82586560|NCT04079803|164885531|SUPERIORITY|||||||0.046||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for albumin.||||0.046
82586561|NCT04079803|164885531|SUPERIORITY|||||||0.012||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for Immunoglobulin G.||||0.012
82586562|NCT04079803|164885531|SUPERIORITY|||||||0.014||||||Secondary CSF biomarkers were not adjusted for multiplicity.|ANCOVA|General Linear Model for the analysis of covariance (ANCOVA) with a two-sided 95% confidence interval and baseline measurement as the covariate.||This analysis is for Immunoglobulin G.||||0.014
82586563|NCT04079803|164885532|SUPERIORITY|||||||0.005||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to alpha7nAChR in subject lymphocytes. FLNA linkage to alpha7nAChR was expressed as the ratio of densitometric units of immunoblot bands of alpha7nAChR (probed with a specific antibody) to densitometric units of total FLNA.||||0.005
82586564|NCT04079803|164885532|SUPERIORITY|||||||0.009||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to alpha7nAChR in subject lymphocytes. FLNA linkage to alpha7nAChR was expressed as ratios of densitometric units of immunoblot bands of alpha7nAChR (probed with a specific antibody) to densitometric units of total FLNA.||||0.009
82586565|NCT04079803|164885532|SUPERIORITY|||||||0.01||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to TLR4 in subject lymphocytes. FLNA linkage to TLR4 was expressed as the ratio of densitometric units of immunoblot bands of TLR4 (probed with a specific antibody) to densitometric units of total FLNA.||||0.01
82586566|NCT04079803|164885532|SUPERIORITY|||||||0.01||||||As secondary endpoints, lymphocyte biomarkers were not adjusted for multiplicity.|ANOVA|ANOVA was used instead of ANCOVA due to the range in baseline values; it was deemed more appropriate to compare to each subject's own baseline value.||Change from baseline in FLNA linkage to TLR4 in subject lymphocytes. FLNA linkage to TLR4 was expressed as the ratio of densitometric units of immunoblot bands of TLR4 (probed with a specific antibody) to densitometric units of total FLNA.||||0.01
82586567|NCT04079803|164885533|SUPERIORITY|||||||0.01|||||||ANOVA|ANOVA followed by Dunnett's multiple comparisons test.||||||0.01
82586568|NCT04079803|164885533|SUPERIORITY|||||||0.02|||||||ANOVA|ANOVA followed by Dunnett's multiple comparisons test.||||||0.02
82586569|NCT04079803|164885533|SUPERIORITY|||||||0.009|||||||ANOVA|This p value is for the main effect of treatment of the ANOVA.||||||0.009
82586570|NCT04079803|164885534|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
82586571|NCT04079803|164885534|SUPERIORITY|||||||0.016|||||||ANOVA|||||||0.016
82586572|NCT01294683|164885554|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.206||||0.654|TWO_SIDED|95.0|-1.434|0.936|||Miettinen and Nurminen|||Periods I/II||0.936|-1.434|0.654
82586573|NCT01294683|164885554|SUPERIORITY_OR_OTHER||Difference in Percentages|1.304||||0.09|TWO_SIDED|95.0|-0.427|3.768|||Miettinen and Nurminen|||Period III||3.768|-0.427|0.090
82586574|NCT01294683|164885555|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.206||||0.563|TWO_SIDED|95.0|-1.303|0.779|||Miettinen and Nurminen|||Periods I/II||0.779|-1.303|0.563
82586575|NCT01294683|164885555|SUPERIORITY_OR_OTHER||Difference in Percentages|0.87||||0.166|TWO_SIDED|95.0|-0.858|3.118|||Miettinen and Nurminen|||Period III||3.118|-0.858|0.166
82586576|NCT01294683|164885557|SUPERIORITY_OR_OTHER||Difference in Percentages|0.87||||0.166|TWO_SIDED|95.0|-0.858|3.118|||Miettinen and Nurminen|||Period III||3.118|-0.858|0.166
82586577|NCT01294683|164885560|SUPERIORITY_OR_OTHER||Difference in Percentages|0.617||||0.255|TWO_SIDED|95.0|-0.575|2.023|||Miettinen and Nurminen|||Periods I/II||2.023|-0.575|0.255
82490414|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.15|||||TWO_SIDED|95.0|0.99|1.33|||ANOVA||"The control vaccine arm (Comparator, n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotA ≠ LotC versus H13 LotA = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.33|0.99|
82586578|NCT01294683|164885560|SUPERIORITY_OR_OTHER||Difference in Percentages|0.395||||0.69|TWO_SIDED|95.0|-2.091|2.966|||Miettinen and Nurminen|||Period III||2.966|-2.091|0.690
82586579|NCT01294683|164885561|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-0.967|0.967|||Miettinen and Nurminen|||Periods I/II||0.967|-0.967|>0.999
82586580|NCT01294683|164885562|SUPERIORITY_OR_OTHER||Difference in Percentages|-1.029|||||TWO_SIDED|95.0|-7.301|5.252|||Miettinen and Nurminen||Miettinen and Nurminen Method|Periods I/II||5.252|-7.301|
82586581|NCT01294683|164885562|SUPERIORITY_OR_OTHER||Difference in Percentages|0.889|||||TWO_SIDED|95.0|-7.599|9.338|||||Miettinen and Nurminen Method|Period III||9.338|-7.599|
82586582|NCT01294683|164885563|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.412|||||TWO_SIDED|95.0|-4.28|3.45||||||Periods I/II||3.450|-4.280|
82652801|NCT00384033|165020556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.198|TWO_SIDED|95.0|-0.6|2.7||The analysis was done at a significance level of alpha = 0.05, 2-sided. Global F-test was used to adjust for multiplicity. If global F-test was significant at 0.05 level, pair wise analysis was interpreted without any further p-value adjustment.|ANCOVA|||For DVS SR 50 mg, HAM-D17 total score was evaluated using analysis of covariance (ANCOVA) with treatment and site as factors and baseline HAM-D17 score as the covariate.||2.70|-0.60|0.198
82490415|NCT00617851|164673731|NON_INFERIORITY_OR_EQUIVALENCE|The GMTs and 95% CIs and median, min and max values were calculated for each vaccine group and for each strain by exponentiating (base 10) the least square means of the log transformed (base 10) titers and their 95% CIs obtained from a two-way ANOVA with factors for vaccine group. The overall power is 80.56%, and thus each single test (# of comparisons=9) is performed with a power of 97.62% assuming independency. To account for dropouts, \>= 428 subjects per lot was recruited.|Ratio of GMTs (B strain)|1.09|||||TWO_SIDED|95.0|0.94|1.26|||ANOVA||"The control vaccine arm (n=216) is included primarily to provide a comparative assessment for safety rather than for immunogenicity.~Sample size calculations were done by means of Nquery Advisor 5.0."|H03 LotB ≠ LotC versus H13 LotB = LotC H0 refers to the null hypothesis of non-equivalence (inconsistency) in that the two-sided 95% CI on the GMT ratio is outside the equivalence range (0.67 to 1.5). H1 refers to the alternative hypothesis of equivalence (consistency) in that the two-sided 95% CI on the GMT ratio is within the equivalence range (0.67 to 1.5).||1.26|0.94|
82490416|NCT01601132|164673747|SUPERIORITY_OR_OTHER|||||||0.5663||||||Significant difference defined a priori as p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.5663
82586583|NCT01294683|164885563|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.533|||||TWO_SIDED|95.0|-3.916|2.619|||||Miettinen and Nurminen Method|Period III||2.619|-3.916|
82586584|NCT01794923|164885564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2|TWO_SIDED||||||ANOVA|||Analysis was performed using an analysis of variance (ANOVA) model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||||0.200
82586585|NCT01794923|164885564|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|7.6||||0.23|TWO_SIDED|95.0|-4.81|19.92|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||19.92|-4.81|0.230
82586586|NCT01794923|164885564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.4||||0.484|TWO_SIDED|95.0|-16.81|7.99|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||7.99|-16.81|0.484
82586587|NCT01794923|164885564|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|12.0||||0.077|TWO_SIDED|95.0|-1.32|25.25|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical pain severity rating (PSR), sex, and baseline muscle soreness with movement (MSM) terms.||25.25|-1.32|0.077
82586588|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.860
82586589|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|7.0||||0.584|TWO_SIDED|95.0|-18.3|32.38|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||32.38|-18.30|0.584
82490417|NCT01601132|164673748|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|105.86|||||TWO_SIDED|90.0|101.77|110.12|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed Cmax, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed Cmax to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, (AUC0-∞), and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||110.12|101.77|
82498925|NCT03247530|164688869|SUPERIORITY||Least Square Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.61||0.0004|TWO_SIDED|95.0|-8.9|-2.6|||Mixed Models for Repeated Measures|||||-2.6|-8.9|0.0004
82498926|NCT03247530|164688869|SUPERIORITY||Least Square Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|1.58|<|0.0001|TWO_SIDED|95.0|-10.0|-3.8|||Mixed Models for Repeated Measures|||||-3.8|-10.0|<0.0001
82498927|NCT03247530|164688870|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.2|-0.7|0.0020
82652802|NCT00384033|165020556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.028|TWO_SIDED|95.0|0.2|3.4||The analysis was done at a significance level of alpha = 0.05, 2-sided. Global F-test was used to adjust for multiplicity. If global F-test was significant at 0.05 level, pair wise analysis was interpreted without any further p-value adjustment.|ANCOVA|||For DVS SR 100 mg, HAM-D17 total score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D17 score as the covariate.||3.40|0.20|0.028
82586590|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.6||||0.838|TWO_SIDED|95.0|-22.77|28.06|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||28.06|-22.77|0.838
82586591|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.4||||0.75|TWO_SIDED|95.0|-22.81|31.61|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||31.61|-22.81|0.750
82586592|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.533
82586593|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-13.9||||0.326|TWO_SIDED|95.0|-41.81|13.95|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||13.95|-41.81|0.326
82586594|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.0||||0.945|TWO_SIDED|95.0|-26.98|28.94|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||28.94|-26.98|0.945
82586595|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-14.9||||0.327|TWO_SIDED|95.0|-44.85|15.03|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||15.03|-44.85|0.327
82586596|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY|||||||0.988|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.988
82586597|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.2||||0.887|TWO_SIDED|95.0|-48.31|41.81|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||41.81|-48.31|0.887
82586598|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.7||||0.907|TWO_SIDED|95.0|-47.88|42.5|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||42.50|-47.88|0.907
82586599|NCT01794923|164885565|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.982|TWO_SIDED|95.0|-48.95|47.83|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||47.83|-48.95|0.982
82586600|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.630
82586601|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.342|TWO_SIDED|95.0|-0.39|0.14|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.14|-0.39|0.342
82586602|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.6|TWO_SIDED|95.0|-0.34|0.19|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.19|-0.34|0.600
82586603|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.691|TWO_SIDED|95.0|-0.34|0.23|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.23|-0.34|0.691
82586604|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.091|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.091
82586605|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.351|TWO_SIDED|95.0|-0.44|0.16|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.16|-0.44|0.351
82586606|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.029|TWO_SIDED|95.0|-0.64|-0.04|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||-0.04|-0.64|0.029
82586607|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.238|TWO_SIDED|95.0|-0.13|0.52|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.52|-0.13|0.238
82586608|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.305|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.305
82586609|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.37|TWO_SIDED|95.0|-0.54|0.2|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.20|-0.54|0.370
82586610|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.13|TWO_SIDED|95.0|-0.66|0.09|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.09|-0.66|0.130
82586611|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.561|TWO_SIDED|95.0|-0.28|0.51|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.51|-0.28|0.561
82586612|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.209|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.209
82586613|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.277|TWO_SIDED|95.0|-0.68|0.19|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.19|-0.68|0.277
82500243|NCT02564042|164691135|OTHER||Proportion difference|48.3|||||TWO_SIDED|95.0|19.7|71.1|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 16 has been presented|||71.1|19.7|
82586614|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.085|TWO_SIDED|95.0|-0.82|0.05|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.05|-0.82|0.085
82586615|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.546|TWO_SIDED|95.0|-0.32|0.61|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.61|-0.32|0.546
82586616|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.185|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.185
82586617|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.4|TWO_SIDED|95.0|-0.64|0.26|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.26|-0.64|0.400
82586618|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.067|TWO_SIDED|95.0|-0.88|0.03|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.03|-0.88|0.067
82586619|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.35|TWO_SIDED|95.0|-0.25|0.71|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.71|-0.25|0.350
82586620|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.493|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.493
82586621|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.922|TWO_SIDED|95.0|-0.53|0.48|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.48|-0.53|0.922
82586622|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.265|TWO_SIDED|95.0|-0.8|0.22|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.22|-0.80|0.265
82586623|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.342|TWO_SIDED|95.0|-0.28|0.81|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.81|-0.28|0.342
82586624|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.311|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.311
82586625|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.865|TWO_SIDED|95.0|-0.49|0.58|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.58|-0.49|0.865
82586626|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.193|TWO_SIDED|95.0|-0.89|0.18|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.18|-0.89|0.193
82652803|NCT00384033|165020556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.047|TWO_SIDED|95.0|0.0|3.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D17 total score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D17 score as the covariate.||3.40|0.00|0.047
82586627|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.17|TWO_SIDED|95.0|-0.17|0.97|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.97|-0.17|0.170
82586628|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.383|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.383
82586629|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.802|TWO_SIDED|95.0|-0.48|0.62|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.62|-0.48|0.802
82586630|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.26|TWO_SIDED|95.0|-0.87|0.24|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.24|-0.87|0.260
82652804|NCT00384033|165020557|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For DVS SR 50 mg, CGI-I was evaluated using Cochran-Mantel-Haenszel (CMH) test with treatment as a factor and controlling for center.||||0.110
82586631|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.199|TWO_SIDED|95.0|-0.21|0.98|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.98|-0.21|0.199
82586632|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.139|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.139
82586633|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.441|TWO_SIDED|95.0|-0.35|0.8|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.80|-0.35|0.441
82586634|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.183|TWO_SIDED|95.0|-0.96|0.18|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.18|-0.96|0.183
82586635|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.05|TWO_SIDED|95.0|0.0|1.23|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.23|-0.00|0.050
82586636|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.221|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.221
82586637|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.526|TWO_SIDED|95.0|-0.4|0.79|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.79|-0.40|0.526
82586638|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.4||||0.232|TWO_SIDED|95.0|-0.96|0.23|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.23|-0.96|0.232
82652805|NCT00384033|165020557|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For DVS SR 100 mg, CGI-I was evaluated using CMH test with treatment as a factor and controlling for center.||||0.009
82652806|NCT00384033|165020557|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|Cochran-Mantel-Haenszel|||For Duloxetine 60 mg, CGI-I was evaluated using CMH test with treatment as a factor and controlling for center.||||0.008
82652807|NCT00384033|165020558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.248|TWO_SIDED|95.0|-0.1|0.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.40|-0.10|0.248
82652808|NCT00384033|165020558|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.011|TWO_SIDED|95.0|0.1|0.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.60|0.10|0.011
82586639|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.089|TWO_SIDED|95.0|-0.08|1.19|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.19|-0.08|0.089
82586640|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.190
82586641|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.365|TWO_SIDED|95.0|-0.31|0.85|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.85|-0.31|0.365
82586642|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.295|TWO_SIDED|95.0|-0.89|0.27|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.27|-0.89|0.295
82586643|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.069|TWO_SIDED|95.0|-0.05|1.2|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.20|-0.05|0.069
82586644|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.197|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.197
82586645|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.309|TWO_SIDED|95.0|-0.29|0.92|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.92|-0.29|0.309
82652809|NCT00384033|165020558|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3||||0.026|TWO_SIDED|95.0|0.0|0.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, CGI-S was evaluated using ANCOVA with treatment and site as factors and baseline CGI-S score as the covariate.||0.60|0.00|0.026
82652810|NCT00384033|165020559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.149|TWO_SIDED|95.0|-0.6|4.0||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||4.00|-0.60|0.149
82586646|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.359|TWO_SIDED|95.0|-0.89|0.33|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.33|-0.89|0.359
82586647|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.072|TWO_SIDED|95.0|-0.05|1.25|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.25|-0.05|0.072
82586648|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.151|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.151
82586649|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.6||||0.09|TWO_SIDED|95.0|-0.1|1.32|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.32|-0.10|0.090
82586650|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.889|TWO_SIDED|95.0|-0.76|0.66|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.66|-0.76|0.889
82586651|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.7||||0.088|TWO_SIDED|95.0|-0.1|1.42|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.42|-0.10|0.088
82586652|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.673|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.673
82586653|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.393|TWO_SIDED|95.0|-0.41|1.04|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.04|-0.41|0.393
82586654|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.887|TWO_SIDED|95.0|-0.67|0.78|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.78|-0.67|0.887
82586655|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.507|TWO_SIDED|95.0|-0.51|1.04|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.04|-0.51|0.507
82586656|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.873|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.873
82652811|NCT00384033|165020559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.004|TWO_SIDED|95.0|1.1|5.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||5.60|1.10|0.004
82586657|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.605|TWO_SIDED|95.0|-0.58|1.0|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.00|-0.58|0.605
82586658|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.86|TWO_SIDED|95.0|-0.72|0.86|||ANOVA|||26 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.86|-0.72|0.860
82586659|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.751|TWO_SIDED|95.0|-0.71|0.98|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.98|-0.71|0.751
82586660|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.528|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.528
82586661|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.486|TWO_SIDED|95.0|-1.09|0.52|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.52|-1.09|0.486
82586662|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.61|TWO_SIDED|95.0|-0.6|1.02|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||1.02|-0.60|0.610
82586663|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.261|TWO_SIDED|95.0|-1.36|0.37|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.37|-1.36|0.261
82586664|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.943|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.943
82586665|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.733|TWO_SIDED|95.0|-0.96|0.68|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.68|-0.96|0.733
82586666|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.902|TWO_SIDED|95.0|-0.87|0.77|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.77|-0.87|0.902
82498928|NCT03247530|164688870|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.3|-0.8|<0.0001
82586667|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.84|TWO_SIDED|95.0|-0.97|0.79|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.79|-0.97|0.840
82586668|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.758|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.758
82586669|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.493|TWO_SIDED|95.0|-1.12|0.54|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.54|-1.12|0.493
82586670|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.974|TWO_SIDED|95.0|-0.84|0.82|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.82|-0.84|0.974
82586671|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.543|TWO_SIDED|95.0|-1.16|0.61|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.61|-1.16|0.543
82586672|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.238|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||||0.238
82586673|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||0.106|TWO_SIDED|95.0|-1.46|0.14|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.14|-1.46|0.106
82586674|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.817|TWO_SIDED|95.0|-0.9|0.71|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.71|-0.90|0.817
82586675|NCT01794923|164885566|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.197|TWO_SIDED|95.0|-1.43|0.3|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||0.30|-1.43|0.197
82586676|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.702|TWO_SIDED||||||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.702
82586677|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.8||||0.664|TWO_SIDED|95.0|-9.91|15.53|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||15.53|-9.91|0.664
82586678|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.0||||0.637|TWO_SIDED|95.0|-15.77|9.68|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||9.68|-15.77|0.637
82586679|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.9||||0.401|TWO_SIDED|95.0|-7.85|19.57|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||19.57|-7.85|0.401
82586680|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.926|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.926
82586681|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.2||||0.743|TWO_SIDED|95.0|-29.51|21.1|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||21.10|-29.51|0.743
82586682|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.8||||0.952|TWO_SIDED|95.0|-24.55|26.08|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||26.08|-24.55|0.952
82652812|NCT00384033|165020559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.005|TWO_SIDED|95.0|1.1|5.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, MADRS total score was evaluated using ANCOVA with treatment and site as factors and baseline MADRS score as the covariate.||5.80|1.10|0.005
82586683|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.0||||0.719|TWO_SIDED|95.0|-32.25|22.3|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||22.30|-32.25|0.719
82586684|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.284
82586685|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-19.0||||0.171|TWO_SIDED|95.0|-46.21|8.28|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||8.28|-46.21|0.171
82586686|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.2||||0.875|TWO_SIDED|95.0|-25.08|29.42|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||29.42|-25.08|0.875
82586687|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.1||||0.157|TWO_SIDED|95.0|-50.5|8.23|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline MSM terms.||8.23|-50.50|0.157
82586688|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY|||||||0.699|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||||0.699
82586689|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-17.8||||0.433|TWO_SIDED|95.0|-62.58|26.9|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||26.90|-62.58|0.433
82586690|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0||||0.966|TWO_SIDED|95.0|-45.73|43.78|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||43.78|-45.73|0.966
82586691|NCT01794923|164885567|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-16.9||||0.491|TWO_SIDED|95.0|-65.08|31.36|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline spontaneous muscle soreness (SMS) terms.||31.36|-65.08|0.491
82586692|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.219
82586693|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.214|TWO_SIDED|95.0|-0.37|0.08|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.08|-0.37|0.214
82586694|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.555|TWO_SIDED|95.0|-0.16|0.29|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.29|-0.16|0.555
82586695|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.09|TWO_SIDED|95.0|-0.45|0.03|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.03|-0.45|0.090
82586696|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.161|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.161
82586697|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.056|TWO_SIDED|95.0|-0.55|0.01|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.01|-0.55|0.056
82586698|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.395|TWO_SIDED|95.0|-0.4|0.16|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.16|-0.40|0.395
82586699|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.324|TWO_SIDED|95.0|-0.45|0.15|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.15|-0.45|0.324
82586700|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.246|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.246
82586701|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.094|TWO_SIDED|95.0|-0.68|0.05|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.05|-0.68|0.094
82586702|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.491|TWO_SIDED|95.0|-0.5|0.24|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.24|-0.50|0.491
82586703|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.359|TWO_SIDED|95.0|-0.58|0.21|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.21|-0.58|0.359
82586704|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.294
82586705|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.136|TWO_SIDED|95.0|-0.74|0.1|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.10|-0.74|0.136
82586706|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.293|TWO_SIDED|95.0|-0.65|0.2|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.20|-0.65|0.293
82652813|NCT00384033|165020560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.473|TWO_SIDED|95.0|-0.22|0.46||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.46|-0.22|0.473
82586707|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.682|TWO_SIDED|95.0|-0.55|0.36|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.36|-0.55|0.682
82586708|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.747|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.747
82586709|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.592|TWO_SIDED|95.0|-0.6|0.34|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.34|-0.60|0.592
82586710|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.473|TWO_SIDED|95.0|-0.64|0.3|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.30|-0.64|0.473
82586711|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.866|TWO_SIDED|95.0|-0.46|0.55|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.55|-0.46|0.866
82586712|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.776|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.776
82586713|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.761|TWO_SIDED|95.0|-0.59|0.43|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.43|-0.59|0.761
82586714|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.477|TWO_SIDED|95.0|-0.69|0.33|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.33|-0.69|0.477
82652814|NCT00384033|165020560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27||||0.119|TWO_SIDED|95.0|-0.07|0.61||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.61|-0.07|0.119
82652815|NCT00384033|165020560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.71|TWO_SIDED|95.0|-0.27|0.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, lassitude item of the MADRS score was evaluated using ANCOVA with treatment and site as factors and baseline lassitude item of the MADRS score as the covariate.||0.40|-0.27|0.710
82586715|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.705|TWO_SIDED|95.0|-0.44|0.65|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.65|-0.44|0.705
82586716|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.600
82586717|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.931|TWO_SIDED|95.0|-0.52|0.56|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.56|-0.52|0.931
82586718|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.381|TWO_SIDED|95.0|-0.78|0.3|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.30|-0.78|0.381
82652816|NCT00384033|165020561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.215|TWO_SIDED|95.0|-0.3|1.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||1.50|-0.30|0.215
82652817|NCT00384033|165020561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3||||0.005|TWO_SIDED|95.0|0.4|2.3||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||2.30|0.40|0.005
82586719|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.371|TWO_SIDED|95.0|-0.32|0.85|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.85|-0.32|0.371
82586720|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.67|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.670
82586721|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.941|TWO_SIDED|95.0|-0.54|0.58|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.58|-0.54|0.941
82586722|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.437|TWO_SIDED|95.0|-0.78|0.34|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.34|-0.78|0.437
82586723|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.429|TWO_SIDED|95.0|-0.36|0.84|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.84|-0.36|0.429
82586724|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.484|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.484
82586725|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.504|TWO_SIDED|95.0|-0.38|0.78|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.78|-0.38|0.504
82652818|NCT00384033|165020561|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.024|TWO_SIDED|95.0|0.2|2.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D6 score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D6 score as the covariate.||2.10|0.20|0.024
82586726|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.528|TWO_SIDED|95.0|-0.77|0.4|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.40|-0.77|0.528
82586727|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.229|TWO_SIDED|95.0|-0.24|1.01|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.01|-0.24|0.229
82586728|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.536|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.536
82586729|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.728|TWO_SIDED|95.0|-0.49|0.7|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.70|-0.49|0.728
82586730|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.414|TWO_SIDED|95.0|-0.84|0.35|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.35|-0.84|0.414
82586731|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.28|TWO_SIDED|95.0|-0.29|0.99|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.99|-0.29|0.280
82586732|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.402|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.402
82586733|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.513|TWO_SIDED|95.0|-0.41|0.81|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.81|-0.41|0.513
82586734|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.424|TWO_SIDED|95.0|-0.86|0.36|||ANOVA|||11 hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.36|-0.86|0.424
82586735|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.178|TWO_SIDED|95.0|-0.21|1.1|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.10|-0.21|0.178
82586736|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.442|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.442
82586737|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.357|TWO_SIDED|95.0|-0.33|0.91|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.91|-0.33|0.357
82586738|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.675|TWO_SIDED|95.0|-0.75|0.49|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.49|-0.75|0.675
82586739|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.215|TWO_SIDED|95.0|-0.25|1.09|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.09|-0.25|0.215
82586740|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.643|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.643
82586741|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.466|TWO_SIDED|95.0|-0.46|0.99|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.99|-0.46|0.466
82586742|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.818|TWO_SIDED|95.0|-0.81|0.64|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.64|-0.81|0.818
82586743|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.373|TWO_SIDED|95.0|-0.43|1.13|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||1.13|-0.43|0.373
82586744|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.984|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.984
82586745|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.874|TWO_SIDED|95.0|-0.79|0.68|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.68|-0.79|0.874
82586746|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.99|TWO_SIDED|95.0|-0.73|0.74|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.74|-0.73|0.990
82586747|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.875|TWO_SIDED|95.0|-0.85|0.73|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.73|-0.85|0.875
82586748|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.841|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.841
82586749|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.58|TWO_SIDED|95.0|-1.01|0.57|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.57|-1.01|0.580
82586750|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.958|TWO_SIDED|95.0|-0.81|0.77|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.77|-0.81|0.958
82586751|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.643|TWO_SIDED|95.0|-1.05|0.65|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.65|-1.05|0.643
82586752|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.299|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.299
82586753|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS mean Difference|-0.5||||0.23|TWO_SIDED|95.0|-1.26|0.31|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.31|-1.26|0.230
82586754|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.694|TWO_SIDED|95.0|-0.63|0.94|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.94|-0.63|0.694
82586755|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.14|TWO_SIDED|95.0|-1.48|0.21|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.21|-1.48|0.140
82586756|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.503|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.503
82586757|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5||||0.262|TWO_SIDED|95.0|-1.28|0.35|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.35|-1.28|0.262
82586758|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.871|TWO_SIDED|95.0|-0.88|0.75|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.75|-0.88|0.871
82586759|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.373|TWO_SIDED|95.0|-1.27|0.48|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.48|-1.27|0.373
82586760|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.413|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.413
82586761|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.317|TWO_SIDED|95.0|-1.22|0.4|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.40|-1.22|0.317
82586762|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.708|TWO_SIDED|95.0|-0.66|0.97|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.97|-0.66|0.708
82586763|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.202|TWO_SIDED|95.0|-1.44|0.31|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.31|-1.44|0.202
82586764|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||||0.190
82586765|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7||||0.094|TWO_SIDED|95.0|-1.44|0.11|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.11|-1.44|0.094
82586766|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.96|TWO_SIDED|95.0|-0.8|0.76|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.76|-0.80|0.960
82586767|NCT01794923|164885568|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6||||0.132|TWO_SIDED|95.0|-1.48|0.2|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMS terms.||0.20|-1.48|0.132
82586768|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.163|TWO_SIDED||||||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.163
82586769|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|4.6||||0.162|TWO_SIDED|95.0|-1.86|11.02|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||11.02|-1.86|0.162
82586770|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.9||||0.559|TWO_SIDED|95.0|-8.42|4.57|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||4.57|-8.42|0.559
82586771|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|6.5||||0.066|TWO_SIDED|95.0|-0.44|13.45|||ANOVA|||0-24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||13.45|-0.44|0.066
82652819|NCT00384033|165020562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.1|TWO_SIDED|95.0|-0.1|1.17||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.17|-0.10|0.100
82652820|NCT00384033|165020562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79||||0.014|TWO_SIDED|95.0|0.16|1.42||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.42|0.16|0.014
82586772|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.957|TWO_SIDED||||||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.957
82586773|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.1||||0.864|TWO_SIDED|95.0|-11.2|13.33|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||13.33|-11.20|0.864
82586774|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9||||0.883|TWO_SIDED|95.0|-13.3|11.45|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||11.45|-13.30|0.883
82586775|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0||||0.767|TWO_SIDED|95.0|-11.24|15.22|||ANOVA|||24-48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||15.22|-11.24|0.767
82586776|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.243|TWO_SIDED||||||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.243
82586777|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-8.2||||0.176|TWO_SIDED|95.0|-20.12|3.7|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||3.70|-20.12|0.176
82586778|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.0||||0.741|TWO_SIDED|95.0|-10.0|14.03|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||14.03|-10.00|0.741
82586779|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.2||||0.118|TWO_SIDED|95.0|-23.07|2.62|||ANOVA|||48-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||2.62|-23.07|0.118
82586780|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.92|TWO_SIDED||||||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.920
82586781|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.2||||0.685|TWO_SIDED|95.0|-24.64|16.23|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||16.23|-24.64|0.685
82586782|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.4||||0.892|TWO_SIDED|95.0|-22.04|19.19|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||19.19|-22.04|0.892
82586783|NCT01794923|164885569|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.8||||0.804|TWO_SIDED|95.0|-24.82|19.25|||ANOVA|||0-72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||19.25|-24.82|0.804
82586784|NCT01794923|164885570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.533|TWO_SIDED||||||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||||0.533
82586785|NCT01794923|164885570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.5||||0.266|TWO_SIDED|95.0|-0.38|1.38|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.38|-0.38|0.266
82586786|NCT01794923|164885570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.73|TWO_SIDED|95.0|-0.74|1.05|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.05|-0.74|0.730
82586787|NCT01794923|164885570|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.479|TWO_SIDED|95.0|-0.61|1.3|||ANOVA|||Analysis was performed using an ANOVA model with treatment, baseline categorical PSR, sex, and baseline SMSM terms.||1.30|-0.61|0.479
82586788|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.189|TWO_SIDED||||||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.189
82586789|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.389|TWO_SIDED|95.0|-0.17|0.07|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.07|-0.17|0.389
82652821|NCT00384033|165020562|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72||||0.032|TWO_SIDED|95.0|0.06|1.38||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, HAM-D energy subscale score was evaluated using ANCOVA with treatment and site as factors and baseline HAM-D energy score as the covariate.||1.38|0.06|0.032
82586790|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.273|TWO_SIDED|95.0|-0.05|0.19|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.05|0.273
82586791|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.069|TWO_SIDED|95.0|-0.25|0.01|||ANOVA|||1 Hour: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.01|-0.25|0.069
82586792|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.716|TWO_SIDED||||||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.716
82586793|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.735|TWO_SIDED|95.0|-0.15|0.11|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.15|0.735
82586794|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.414|TWO_SIDED|95.0|-0.19|0.08|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.08|-0.19|0.414
82586795|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.652|TWO_SIDED|95.0|-0.11|0.17|||ANOVA|||2 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.17|-0.11|0.652
82586796|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|TWO_SIDED||||||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.622
82586797|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.83|TWO_SIDED|95.0|-0.17|0.21|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.21|-0.17|0.830
82586798|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.442|TWO_SIDED|95.0|-0.26|0.11|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.26|0.442
82586799|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.358|TWO_SIDED|95.0|-0.11|0.29|||ANOVA|||3 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.29|-0.11|0.358
82586800|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.714|TWO_SIDED||||||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.714
82586801|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.683|TWO_SIDED|95.0|-0.29|0.19|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.29|0.683
82586802|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.413|TWO_SIDED|95.0|-0.34|0.14|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.14|-0.34|0.413
82586803|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.699|TWO_SIDED|95.0|-0.21|0.31|||ANOVA|||4 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.31|-0.21|0.699
82586804|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.244|TWO_SIDED||||||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.244
82586805|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.21|0.26|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.21|0.833
82586806|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.156|TWO_SIDED|95.0|-0.41|0.07|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.07|-0.41|0.156
82490418|NCT01601132|164673749|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|105.63|||||TWO_SIDED|90.0|101.81|109.59|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed AUC(0-t)\], expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed AUC(0-t) to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||109.59|101.81|
82490419|NCT01601132|164673750|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|106.43|||||TWO_SIDED|90.0|101.1|112.04|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed AUC(0-∞) , expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed AUC(0-∞) to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||112.04|101.10|
82586807|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.128|TWO_SIDED|95.0|-0.06|0.46|||ANOVA|||5 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.46|-0.06|0.128
82586808|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.359|TWO_SIDED||||||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.359
82586809|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.278|TWO_SIDED|95.0|-0.12|0.43|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.43|-0.12|0.278
82586810|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.699|TWO_SIDED|95.0|-0.33|0.22|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.22|-0.33|0.699
82652822|NCT00384033|165020563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.445|TWO_SIDED|95.0|-0.2|0.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.50|-0.20|0.445
82490420|NCT01601132|164673751|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|93.96|||||TWO_SIDED|90.0|89.25|98.92|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed CL/F, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed CL/F to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||98.92|89.25|
82490421|NCT01601132|164673752|SUPERIORITY_OR_OTHER||Ratio (%) (Test/Reference)|98.59|||||TWO_SIDED|90.0|90.97|106.85|||ANOVA||Ratio (theophylline+colchicine/theophylline) of LSMs calculated using the exponentiation of the difference between treatment LSM from the log-transformed Vd/F, expressed as a percentage relative to the reference treatment.|Analysis of variance (ANOVA) was performed on the log-transformed Vd/F to calculate least squares mean (LSM) for each treatment. The ANOVA model included sequence, treatment, and treatment within a sequence as fixed effects, and participant as a random effect. The criterion for demonstrating a lack of a clinically significant interaction is a 90% CI for the ratio for AUC0-t, AUC0-∞, and Cmax to be within the 0.80 to 1.25 interval, representing a maximum of 20% difference between treatments.||106.85|90.97|
82490422|NCT02110238|164673753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A VAS (0-100 mm) WOMAC Pain subscale score CFB; an equal n t-test for non-inferiority of means; a non-inferiority margin of -8 mm; change standard deviation of 26 mm; two-sided alpha=0.05; 80% power; an expected mean difference of 0, and a drop-out plus important deviation percentage of approximately 20% were used to establish study sample size.|Least square mean difference|-3.3|||||TWO_SIDED|95.0|-6.77|0.17|||||"A MERM regression model was fit to the change from baseline at weeks 3, 6, and 12. The over weeks 3, 6, and 12 single point estimate least square mean change was calculated for both arms, the difference and its 95% confidence interval calculated."|||0.17|-6.77|
82586811|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.172|TWO_SIDED|95.0|-0.09|0.5|||ANOVA|||6 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.50|-0.09|0.172
82490423|NCT01479478|164673756|SUPERIORITY|||||||0.87|||||||Cochran-Mantel-Haenszel|||||||0.87
82490424|NCT03228433|164673780|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with a fixed effect for regimen and random effect for participant. The least squares(LS) means and difference of least squares (LS) means for the log-transformed parameters were exponentiated to obtain the point estimates (Geometric LS means) of the food effect and 90% confidence intervals (CIs).|Least Squares (LS) Mean Difference|0.951|||||TWO_SIDED|90.0|0.823|1.099||||||||1.099|0.823|
82490425|NCT03228433|164673780|EQUIVALENCE|A linear regression model (power model), log (ln) (parameter) equal to (=) intercept plus (+) slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln(0.8) per (/)l n(r) to 1 + ln(1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.14|||||TWO_SIDED|90.0|1.04|1.25||||||||1.25|1.04|
82490426|NCT03228433|164673781|EQUIVALENCE|Bioequivalence interval of 627.51 to 659.59|LS Mean Difference|0.951|||||TWO_SIDED|90.0|0.825|1.097||||||||1.097|0.825|
82586812|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.515|TWO_SIDED||||||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.515
82586813|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.527|TWO_SIDED|95.0|-0.19|0.37|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.37|-0.19|0.527
82586814|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.545|TWO_SIDED|95.0|-0.37|0.19|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.19|-0.37|0.545
82586815|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.25|TWO_SIDED|95.0|-0.12|0.47|||ANOVA|||7 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.47|-0.12|0.250
82586816|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.568|TWO_SIDED||||||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.568
82586817|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.381|TWO_SIDED|95.0|-0.16|0.41|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.41|-0.16|0.381
82586818|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.863|TWO_SIDED|95.0|-0.31|0.26|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.31|0.863
82586819|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.33|TWO_SIDED|95.0|-0.16|0.46|||ANOVA|||8 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.46|-0.16|0.330
82586820|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.167|TWO_SIDED||||||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.167
82586821|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.165|TWO_SIDED|95.0|-0.09|0.5|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.50|-0.09|0.165
82586822|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.564|TWO_SIDED|95.0|-0.39|0.21|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.21|-0.39|0.564
82586823|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.068|TWO_SIDED|95.0|-0.02|0.62|||ANOVA|||9 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.62|-0.02|0.068
82586824|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|TWO_SIDED||||||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.131
82586825|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.119|TWO_SIDED|95.0|-0.06|0.56|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.56|-0.06|0.119
82586826|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.616|TWO_SIDED|95.0|-0.39|0.23|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.23|-0.39|0.616
82586827|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.056|TWO_SIDED|95.0|-0.01|0.66|||ANOVA|||10 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.66|-0.01|0.056
82586828|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.255|TWO_SIDED||||||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.255
82586829|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.144|TWO_SIDED|95.0|-0.08|0.57|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.57|-0.08|0.144
82586830|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.935|TWO_SIDED|95.0|-0.34|0.31|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.31|-0.34|0.935
82652823|NCT00384033|165020563|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.056|TWO_SIDED|95.0|0.0|0.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.70|-0.00|0.056
82586831|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.153|TWO_SIDED|95.0|-0.1|0.61|||ANOVA|||11 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.61|-0.10|0.153
82586832|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.128|TWO_SIDED||||||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.128
82586833|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.067|TWO_SIDED|95.0|-0.02|0.63|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.63|-0.02|0.067
82586834|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.999|TWO_SIDED|95.0|-0.33|0.33|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.33|-0.33|0.999
82586835|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.088|TWO_SIDED|95.0|-0.05|0.66|||ANOVA|||12 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.66|-0.05|0.088
82586836|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.195|TWO_SIDED||||||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.195
82586837|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3||||0.175|TWO_SIDED|95.0|-0.12|0.67|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.67|-0.12|0.175
82586838|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.61|TWO_SIDED|95.0|-0.5|0.3|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.30|-0.50|0.610
82586839|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.4||||0.083|TWO_SIDED|95.0|-0.05|0.81|||ANOVA|||24 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.81|-0.05|0.083
82586840|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.884|TWO_SIDED||||||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.884
82586841|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.833|TWO_SIDED|95.0|-0.43|0.35|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.35|-0.43|0.833
82586842|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.62|TWO_SIDED|95.0|-0.49|0.29|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.29|-0.49|0.620
82586843|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.788|TWO_SIDED|95.0|-0.36|0.48|||ANOVA|||30 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.48|-0.36|0.788
82586844|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.755|TWO_SIDED||||||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.755
82586845|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.787|TWO_SIDED|95.0|-0.45|0.34|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.34|-0.45|0.787
82586846|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.455|TWO_SIDED|95.0|-0.56|0.25|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.25|-0.56|0.455
82586847|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.654|TWO_SIDED|95.0|-0.33|0.53|||ANOVA|||36 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.53|-0.33|0.654
82586848|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37|TWO_SIDED||||||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.370
82652824|NCT00384033|165020563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.9||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, Covi anxiety scale was evaluated using ANCOVA with treatment and site as factors and baseline Covi anxiety score as the covariate.||0.90|0.10|0.006
82498929|NCT03247530|164688871|SUPERIORITY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.16||0.0003|TWO_SIDED|95.0|-6.5|-1.9|||ANCOVA|||||-1.9|-6.5|0.0003
82586849|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.472|TWO_SIDED|95.0|-0.51|0.24|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.24|-0.51|0.472
82586850|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.427|TWO_SIDED|95.0|-0.23|0.53|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.53|-0.23|0.427
82586851|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.159|TWO_SIDED|95.0|-0.69|0.11|||ANOVA|||48 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.69|0.159
82586852|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48|TWO_SIDED||||||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.480
82586853|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.238|TWO_SIDED|95.0|-0.59|0.15|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.15|-0.59|0.238
82586854|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0||||0.794|TWO_SIDED|95.0|-0.42|0.32|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.32|-0.42|0.794
82586855|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.395|TWO_SIDED|95.0|-0.57|0.23|||ANOVA|||54 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.23|-0.57|0.395
82586856|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4|TWO_SIDED||||||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.400
82586857|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2||||0.176|TWO_SIDED|95.0|-0.61|0.11|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.11|-0.61|0.176
82586858|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.573|TWO_SIDED|95.0|-0.47|0.26|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.26|-0.47|0.573
82586859|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.466|TWO_SIDED|95.0|-0.53|0.24|||ANOVA|||60 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.24|-0.53|0.466
82586860|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092|TWO_SIDED||||||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||||0.092
82586861|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3||||0.086|TWO_SIDED|95.0|-0.67|0.04|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.04|-0.67|0.086
82586862|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.1||||0.616|TWO_SIDED|95.0|-0.27|0.45|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||0.45|-0.27|0.616
82586863|NCT01794923|164885571|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4||||0.04|TWO_SIDED|95.0|-0.79|-0.02|||ANOVA|||72 Hours: Analysis was performed using an ANOVA model with treatment, baseline categorical PSR and sex terms.||-0.02|-0.79|0.040
82586864|NCT01794923|164885572|SUPERIORITY_OR_OTHER_LEGACY|||||||0.751|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||||0.751
82586865|NCT01794923|164885572|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|0.0||||0.696|TWO_SIDED|95.0|-0.28|0.2|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.20|-0.28|0.696
82586866|NCT01794923|164885572|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|0.0||||0.76|TWO_SIDED|95.0|-0.21|0.29|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.29|-0.21|0.760
82490427|NCT03228433|164673781|EQUIVALENCE|A linear regression model (power model), ln (parameter) = intercept + slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln (0.8)/l n(r) to 1 + ln (1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.11|||||TWO_SIDED|90.0|1.0|1.22||||||||1.22|1.00|
82586867|NCT01794923|164885572|SUPERIORITY_OR_OTHER_LEGACY||Weighted Gamma Statistic|-0.1||||0.463|TWO_SIDED|95.0|-0.36|0.16|||Cochran-Mantel-Haenszel|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) test with modified ridit scores, controlling for baseline categorical PSR (BLPSR) and sex.||0.16|-0.36|0.463
82652825|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.124|TWO_SIDED|95.0|-0.9|7.9||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||7.90|-0.90|0.124
82490428|NCT03228433|164673782|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with a fixed effect for regimen and random effect for participant. The LS means and difference of LS means for the log-transformed parameters were exponentiated to obtain the point estimates (Geometric LS means) of the food effect and 90% confidence intervals CIs.|LS Mean Difference|0.58|||||TWO_SIDED|90.0|0.431|0.781||||||||0.781|0.431|
82490429|NCT03228433|164673782|EQUIVALENCE|A linear regression model (power model), ln (parameter) = intercept + slope\*ln (dose), was fit to describe the relationship between each parameter and the corresponding dose levels. Dose Proportionality was declared if the 90% CI of the slope lied entirely within the critical region as defined by 1 - ln (0.8)/l n(r) to 1 + ln (1.25)/ln(r), where r was the ratio of the highest and lowest dose in the study.|Slope|1.06||||||90.0|0.96|1.17||||||||1.17|0.96|
82490430|NCT04269707|164673795|NON_INFERIORITY|Change in hemoglobin from baseline to day 35 was assessed using paired t-tests (two-sided test, alpha = 0.05).|Mean Difference (Final Values)|0.7||||0.1711|TWO_SIDED|95.0|-0.4|1.8|||t-test, 2 sided|||||1.80|-0.40|0.1711
82490431|NCT00116428|164673804|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||The study null hypothesis is that the chronic success rates for the THERMOCOOL and AAD groups are equal.||||<0.001
82490432|NCT00113087|164673809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.28|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.28
82490433|NCT00113087|164673810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.42||95.0|||||Mixed Models Analysis|||||||0.42
82490434|NCT00113087|164673811|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64||||0.008||95.0|||||Mixed Models Analysis|||||||0.008
82490435|NCT00113087|164673812|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82490436|NCT00113087|164673813|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Fisher Exact|||||||0.71
82490437|NCT00113087|164673814|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.74
82490438|NCT00113087|164673815|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.22
82490439|NCT00113087|164673816|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||t-test, 2 sided|||||||0.86
82490440|NCT00113087|164673817|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||t-test, 2 sided|||||||0.60
82490441|NCT00113087|164673818|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.60
82490442|NCT00113087|164673819|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||||||0.01
82490443|NCT00113087|164673820|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||t-test, 2 sided|||||||0.008
82490444|NCT00113087|164673821|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82490445|NCT00113087|164673822|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.31
82490446|NCT00113087|164673823|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||t-test, 2 sided|||||||0.36
82490447|NCT00113087|164673824|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||t-test, 2 sided|||||||0.37
82490448|NCT00113087|164673825|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
82490449|NCT00113087|164673826|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||t-test, 2 sided|||||||0.07
82490450|NCT00113087|164673827|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.05
82490451|NCT00113087|164673828|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||||||0.11
82490452|NCT00113087|164673829|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||t-test, 2 sided|||||||0.49
82490453|NCT00113087|164673830|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||t-test, 2 sided|||||||0.35
82490454|NCT00113087|164673831|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||||||0.62
82490455|NCT00113087|164673832|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
82490456|NCT00113087|164673833|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
82490457|NCT00113087|164673834|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||t-test, 2 sided|||||||0.34
82490458|NCT00113087|164673835|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||t-test, 2 sided|||||||.81
82490459|NCT00113087|164673836|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Fisher Exact|||||||0.08
82490460|NCT00113087|164673837|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Fisher Exact|||||||0.06
82490461|NCT03452228|164673838|SUPERIORITY||Median Difference (Final Values)|-43.5|||||TWO_SIDED|95.0|-89.4|1238.9||||||||1238.9|-89.4|
82490462|NCT03452228|164673838|SUPERIORITY||Median Difference (Final Values)|-75.5|||||TWO_SIDED|95.0|-82.2|121.2||||||||121.2|-82.2|
82490463|NCT02298023|164673979|OTHER|||||||0.35|||||||Kruskal-Wallis|||Null hypothesis: There is no difference between the three groups. Statistical power: 0.80||||0.35
82490464|NCT02298023|164673980|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.662|||||||Mixed Models Analysis|||||||0.662
82490465|NCT02298023|164673981|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.882|||||||Mixed Models Analysis|||||||0.882
82586868|NCT01881750|164885586|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Effects Regression Model|||Group X Time Interaction Cohen's d||||0.42
82586869|NCT01519466|164885593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_DEVIATION|2.32||0.0926|TWO_SIDED|95.0|-1.55|0.12|||t-test, 2 sided|||||0.12|-1.55|0.0926
82586870|NCT01519466|164885593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17|STANDARD_DEVIATION|2.97||||||||||||||||
82586871|NCT01519466|164885594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.49||0.3251|TWO_SIDED|95.0|-0.27|0.09|||t-test, 2 sided|||||0.09|-0.27|0.3251
82586872|NCT01519466|164885594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_DEVIATION|0.51||||||||||||||||
82586873|NCT01519466|164885595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_DEVIATION|1.26||0.5798|TWO_SIDED|95.0|-0.33|0.58|||t-test, 2 sided|||Hyperglycaemia, glucose above 10mmol/l (180mg/dL)||0.58|-0.33|0.5798
82586874|NCT01519466|164885595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_DEVIATION|1.03||0.096|TWO_SIDED|95.0|-0.68|0.06|||t-test, 2 sided|||Hypoglycaemia, glucose below 3.9mmol/l (70mg/dL)||0.06|-0.68|0.0960
82586875|NCT01519466|164885595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|STANDARD_DEVIATION|6.53||0.0007|TWO_SIDED|95.0|2.01|6.71|||t-test, 2 sided|||Treatment Satisfaction||6.71|2.01|0.0007
82586876|NCT00307125|164885598|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||Analysis by Fisher's exact test counting participants with 50% decrease in anti-HLA antibodies at any time within 12 months post treatment initiation||||>0.999
82586877|NCT00307125|164885603|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||||||>0.999
82586878|NCT00307125|164885604|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED||||||Fisher Exact|||||||>0.999
82586879|NCT00926211|164885621|NON_INFERIORITY_OR_EQUIVALENCE|Initial planned sample size of 26 would provide approximately 90% power if the survival rate in the implanted transected follicles is at least 40%. Sample size used was 36 with 35 participants completing the 9 month study.|Mean Difference (Net)|-1.4|STANDARD_DEVIATION|15.5||0.023|ONE_SIDED|97.5||3.9||t-test comparison to the upper limit of the non-inferiority margin|t-test, 1 sided|Paired t-test compared to the non-inferiority margin of 4 follicles.|The number of implanted hairs surviving that were harvested using the computer assisted method was subtracted from the number of implanted hairs surviving that were harvested manually.|The hypothesis to be tested is one of non-inferiority. Tests of non-inferiority are one-sided tests and the significance level will be 0.025.||3.9||0.023
82586880|NCT00926211|164885622|NON_INFERIORITY_OR_EQUIVALENCE|Study was powered for the primary efficacy outcome.|Mean Difference (Final Values)|0.045|STANDARD_DEVIATION|0.146|<|0.001|ONE_SIDED|97.5|-0.004||||t-test, 1 sided|Paired t-test.||Paired data with each subject as their own control (treatment was randomly assigned to the left or right side of the scalp). Paired difference was analyzed.|||-.004|<0.001
82586881|NCT03552822|164885645|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82586882|NCT03552822|164885646|SUPERIORITY|||||||0.037|||||||Wilcoxon (Mann-Whitney)|||||||0.037
82586883|NCT03552822|164885647|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82586884|NCT03552822|164885648|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82586885|NCT03552822|164885649|SUPERIORITY|||||||0.108|||||||Wilcoxon (Mann-Whitney)|||||||0.108
82586886|NCT03552822|164885650|SUPERIORITY|||||||0.159|||||||Fisher Exact|||||||0.159
82586887|NCT03552822|164885651|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.001
82586888|NCT03552822|164885652|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.020
82490466|NCT02298023|164673982|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.835|||||||Mixed Models Analysis|||||||0.835
82586889|NCT03552822|164885653|SUPERIORITY|||||||0.085|||||||Wilcoxon (Mann-Whitney)|||||||0.085
82586890|NCT00561951|164885674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.002||95.0|-0.56|-0.13||The closed testing procedure was used in order to control the probability of a type 1 error.|ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.13|-0.56|0.002
82586891|NCT00561951|164885674|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|||<|0.001||95.0|-0.6|-0.17||The closed testing procedure was used in order to control the probability of a type 1 error.|ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.17|-0.60|<0.001
82586892|NCT00561951|164885676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.002||95.0|-0.91|-0.22|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.22|-0.91|0.002
82586893|NCT00561951|164885676|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66|||<|0.001||95.0|-1.01|-0.32|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.32|-1.01|<0.001
82586894|NCT00561951|164885678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.003||95.0|-1.07|-0.22|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.22|-1.07|0.003
82586895|NCT00561951|164885678|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.002||95.0|-1.09|-0.23|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.23|-1.09|0.002
82586896|NCT00561951|164885680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.002||95.0|-0.63|-0.14|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.14|-0.63|0.002
82586897|NCT00561951|164885680|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27||||0.03||95.0|-0.52|-0.03|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||-0.03|-0.52|0.030
82586898|NCT00561951|164885682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.624||95.0|-0.18|0.11|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||0.11|-0.18|0.624
82586899|NCT00561951|164885682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.129||95.0|-0.26|0.03|||ANCOVA|Analysis of covariance model with the treatment group, region as fixed effects and baseline values as a covariate was used.||The significance level was 0.05 (2-sided).||0.03|-0.26|0.129
82586900|NCT00178126|164885726|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||||||0.04
82586901|NCT01281969|164885732|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.97||||0.44|TWO_SIDED|95.0|-7.1|3.15||p-value is unadjusted. a priori threshold for statistical significance is .05|ANCOVA|F(1,34)=0.62, p=.44||Analysis of covariance model controlling for baseline scores. A priori power calculations based on the Perlmutter et al. study (IVIG effect size 1.2) suggested that a sample size of 16 per group would be sufficient to detect an effect size of 1.0 with 80% power.||3.15|-7.1|0.44
82586902|NCT01281969|164885733|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||||||p-value is not adjusted.|Wilcoxon (Mann-Whitney)|Mean rank sum in the placebo group = 19.92; mean rank sum in the IVIG group = 15.97. Z = -1.18, p=.12||The Wilcoxon two-sample test was used to compare CGI-Improvement ratings (an ordinal variable) at week 6. Power calculation was based on CYBOCS as primary outcome.||||.12
82586903|NCT01281969|164885734|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4||||||p-value is not adjusted for multiple comparisons.|Chi-squared|X2 = 0.72, p=.40||Chi-squared test was used to compare distribution of responders by randomization group. Power calculation was based on CY-BOCS (primary outcome).||||.40
82586904|NCT01323634|164885737|SUPERIORITY_OR_OTHER||Least square mean difference|0.08|||<|0.001|TWO_SIDED|95.0|0.037|0.124|||ANCOVA|||||0.124|0.037|<0.001
82586905|NCT01182194|164885740|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|92.5|||||TWO_SIDED|90.0|85.53|100.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||100.03|85.53|
82586906|NCT01182194|164885741|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.76|||||TWO_SIDED|90.0|95.66|101.96|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.96|95.66|
82586907|NCT01182194|164885742|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.47|||||TWO_SIDED|90.0|95.35|101.7|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101.70|95.35|
82586908|NCT01182194|164885743|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.45|||||TWO_SIDED|90.0|94.36|109.08|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||109.08|94.36|
82490467|NCT02298023|164673983|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.977|||||||Mixed Models Analysis|||||||0.977
82586909|NCT01182194|164885744|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.54|||||TWO_SIDED|90.0|94.55|102.71|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||102.71|94.55|
82586910|NCT01182194|164885745|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|90.0|96.07|103.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||103.46|96.07|
82586911|NCT01585987|164885746|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.439||||0.0972|TWO_SIDED|80.0|1.085|1.908||Significance level used: 0.2|Log Rank||The hazard ratio and its associated two-sided 80% confidence interval (CI) was estimated via a stratified Cox model with treatment arm as the only covariate in the model|||1.908|1.085|0.0972
82586912|NCT01585987|164885747|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.588||||0.0336|TWO_SIDED|80.0|1.199|2.103||Significance level used: 0.2|Log Rank|||||2.103|1.199|0.0336
82490468|NCT02298023|164673984|EQUIVALENCE|To test whether there were differences in the rate of change among groups||||||0.867|||||||Mixed Models Analysis|||||||0.867
82490469|NCT02298023|164673985|EQUIVALENCE|To test whether there were differences in the change of tear size among groups||||||0.916|||||||Chi-squared|||||||0.916
82490470|NCT02298023|164673986|EQUIVALENCE|To test whether there were differences in the change of tear size among groups||||||0.892|||||||Chi-squared|||||||0.892
82490471|NCT04729621|164674000|EQUIVALENCE|Biosimilarity will be demonstrated if the 95% CI for the difference falls entirely within the equivalence margin of (-1.45, +1.45).|Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.73|1.15||||||LS means, differences and confidence intervals (CI) from the ANCOVA model with percent change from baseline to Week 52 in LS-BMD as the outcome, treatment group, region and previous use of bisphosphates as fixed effects, baseline LS-BMD and baseline weight as covariates. Missing outcomes imputed using multiple imputation methods under the MAR assumption.||1.15|-0.73|
82586913|NCT01585987|164885748|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.874||||0.6433|TWO_SIDED|80.0|0.602|1.269||Significance level used: 0.2|Log Rank||HR was based on a stratified Cox proportional hazards model with treatment arm as the only covariate in the model.|||1.269|0.602|0.6433
82586914|NCT01585987|164885750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.0549||||0.3686|TWO_SIDED|80.0|0.7009|47.6447||Significance level used: 0.2|Cochran-Mantel-Haenszel|||||47.6447|0.7009|0.3686
82586915|NCT06515483|164885793|OTHER||Mean Difference (Final Values)|0.079||||0.323|TWO_SIDED|95.0|-0.095|0.254||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline PLI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||0.254|-0.095|0.323
82586916|NCT06515483|164885793|OTHER||Mean Difference (Final Values)|-0.036||||0.371|TWO_SIDED|95.0|-0.156|0.084||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day PLI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.084|-0.156|0.371
82586917|NCT06515483|164885793|OTHER||Mean Difference (Net)|-0.115||||0.12|TWO_SIDED|95.0|-0.262|0.031||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Comparing the mean difference in PLI from baseline to 30 days between groups|||0.031|-0.262|0.120
82586918|NCT06515483|164885794|OTHER||Mean Difference (Final Values)|0.078||||0.27|TWO_SIDED|95.0|-0.048|0.204||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline MGI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||0.204|-0.048|0.270
82586919|NCT06515483|164885794|OTHER||Mean Difference (Final Values)|-0.085||||0.071|TWO_SIDED|95.0|-0.203|0.033||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day MGI between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.033|-0.203|0.071
82586920|NCT06515483|164885794|OTHER||Mean Difference (Net)|-0.163|||<|0.001|TWO_SIDED|95.0|-0.249|-0.077|||t-test, 2 sided||Comparing the mean difference in MGI from baseline to 30 days between groups|||-0.077|-0.249|<0.001
82586921|NCT06515483|164885795|OTHER||Mean Difference (Final Values)|0.31||||0.902|TWO_SIDED|95.0|-6.23|6.85||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing baseline BOMP between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at baseline were compared using non-parametric Wilcoxon Rank Sum tests.||6.85|-6.23|0.902
82586922|NCT06515483|164885795|OTHER||Mean Difference (Final Values)|-8.22||||0.006|TWO_SIDED|95.0|-16.46|0.02||The threshold for statistical significance was p \< 0.05.|Wilcoxon (Mann-Whitney)||Comparing 30-day BOMP between groups|Due to non-normally distributed data, differences in each index between the experimental and control groups at 30 days were compared using non-parametric Wilcoxon Rank Sum tests.||0.02|-16.46|0.006
82586923|NCT06515483|164885795|OTHER||Mean Difference (Net)|-8.53||||0.032|TWO_SIDED|95.0|-16.31|-0.75||The threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Comparing the mean difference in BOMP from baseline to 30 days between groups|||-0.75|-16.31|0.032
82586924|NCT00147823|164885796|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||ANOVA|Using baseline (6 wk) and two year post operative predicted effects data, and setting desirable power to detect our effects to 80%||The sample size provided at least 80% power at a 5% alpha level to detect a medium to large effect in patients receiving Vitoss alone compared to combination therapy consisting of Vitoss with Bone Marrow Aspirate. Since a random coefficients model was used to analyze the data, the sample size calculation was estimated under this model assuming a 3% attrition rate between all measurement times.||||<0.01
82586925|NCT00147823|164885797|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Chi-squared, Corrected|||||||<0.01
82586926|NCT00720941|164885808|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority is defined as excluding a difference of greater than 25% in the hazards. The upper limit of the 95% confidence interval must be \<1.25.|Hazard Ratio (HR)|1.0466|||||TWO_SIDED|95.0|0.8982|1.2195|||||The HR is estimated by the Cox regression model using treatment stratification factors as covariates. The HR is adjusted for Karnofsky Performance Scale scores, prior nephrectomy, and Baseline levels of lactate dehydrogenase (\<=1.5xULN, \>1.5xULN).|||1.2195|0.8982|
82586927|NCT01806129|164885951|SUPERIORITY||Odds Ratio (OR)|2.07|||||TWO_SIDED|90.0|1.29|3.31|||||Odds ratio represents the odds of adopting the appropriate reproductive health management for patients with intervention compared to the odds among patients without intervention. Odds ratio was calculated by GEE analysis.|||3.31|1.29|
82586928|NCT02982187|164886031|SUPERIORITY||Odds Ratio (OR)|29.114|||<|0.001|TWO_SIDED|95.0|11.047||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1: DISKUS + HandiHaler vs ELLIPTA|||11.047|<0.001
82586929|NCT02982187|164886031|SUPERIORITY||Odds Ratio (OR)|27.744|||<|0.001|TWO_SIDED|95.0|10.512||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||10.512|<0.001
82586930|NCT02982187|164886032|SUPERIORITY||Odds Ratio (OR)|4.248||||0.029|TWO_SIDED|95.0|1.416||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||1.416|0.029
82652826|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||0.035|TWO_SIDED|95.0|0.3|9.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||9.10|0.30|0.035
82586931|NCT02982187|164886032|SUPERIORITY||Odds Ratio (OR)|3.855||||0.026|TWO_SIDED|95.0|1.394||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||1.394|0.026
82586932|NCT02982187|164886033|SUPERIORITY||Odds Ratio (OR)|2.0||||0.4|TWO_SIDED|95.0|0.459||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||0.459|0.400
82586933|NCT02982187|164886033|SUPERIORITY||Odds Ratio (OR)|1.732||||0.5|TWO_SIDED|95.0|0.397||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||0.397|0.500
82586934|NCT02982187|164886034|SUPERIORITY||Odds Ratio (OR)|24.539|||<|0.001|TWO_SIDED|95.0|9.268||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||9.268|<0.001
82586935|NCT02982187|164886034|SUPERIORITY||Odds Ratio (OR)|17.974|||<|0.001|TWO_SIDED|95.0|7.239||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||7.239|<0.001
82586936|NCT02982187|164886035|SUPERIORITY||Odds Ratio (OR)|3.237||||0.067|TWO_SIDED|95.0|1.124||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 1:DISKUS + HandiHaler vs ELLIPTA|||1.124|0.067
82586937|NCT02982187|164886035|SUPERIORITY||Odds Ratio (OR)|6.357||||0.003|TWO_SIDED|95.0|2.219||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||2.219|0.003
82586938|NCT02982187|164886036|SUPERIORITY||||||||||||||stratified exact logistic model|||Sub study 1: DISKUS + HandiHaler vs ELLIPTA|These statistics were only presented when the model successfully converged. A stratified exact logistic model was used with participant included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|||
82586939|NCT02982187|164886036|SUPERIORITY||Odds Ratio (OR)|1.732||||0.5|TWO_SIDED|95.0|0.397||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Odds ratio, 95% CI and P-value obtained from a stratified exact logistic model. Participant is included in the model as fixed strata, treatment option in the exact statement and period included as a fixed effect.|Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA|||0.397|0.500
82586940|NCT02982187|164886037|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|This method of analysis does not take sequence of treatment option into account||Sub study 1:DISKUS + HandiHaler vs ELLIPTA||||<0.001
82586941|NCT02982187|164886037|SUPERIORITY||||||<|0.001|||||||Wilcoxon signed rank test|This method of analysis does not take sequence of treatment option into account||Sub study 2:Turbuhaler + HandiHaler vs ELLIPTA||||<0.001
82586942|NCT02982187|164886041|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82586943|NCT02982187|164886041|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82586944|NCT02982187|164886042|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82586945|NCT02982187|164886042|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82586946|NCT02604433|164886043|SUPERIORITY||Odds Ratio (OR)|5.62|||<|0.0001|TWO_SIDED|95.0|2.17|14.53||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% confidence intervals (CIs), and p-value were estimated from the Cochran Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization.||14.53|2.17|<0.0001
82586947|NCT02604433|164886043|SUPERIORITY||Difference in Percentages|16.5|||||TWO_SIDED|95.0|10.0|23.1|||||Luspatercept - Placebo|||23.1|10.0|
82586948|NCT02604433|164886043|SUPERIORITY||Common Risk Difference|16.5||||||95.0|9.9|23.1|||||Luspatercept - Placebo|||23.1|9.9|
82498930|NCT03247530|164688871|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|1.15||0.0002|TWO_SIDED|95.0|-6.6|-2.1|||ANCOVA|||||-2.1|-6.6|0.0002
82586949|NCT02604433|164886044|SUPERIORITY||Odds Ratio (OR)|6.44|||<|0.0001|TWO_SIDED|95.0|2.27|18.26||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% CIs, and p-value were estimated from the CMH test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate for outcomes 2-4, the testing procedure was implemented strictly in order: the test for this outcome was only conducted when there was evidence showing that erythroid response was achieved in the luspatercept group from Week 13 to Week 24 (primary endpoint).||18.26|2.27|<0.0001
82586950|NCT02604433|164886045|SUPERIORITY||Odds Ratio (OR)|4.24||||0.0402|TWO_SIDED|95.0|0.96|18.79||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio, 95% CIs, and p-value were estimated from the Cochran-Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate, the testing procedure was done strictly in order: the test for this outcome was only conducted when there was evidence showing erythroid response was achieved in the luspatercept group for the primary endpoint, and 33% hematological improvement was achieved in the luspatercept group in outcome 2.||18.79|0.96|0.0402
82652827|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.1||||0.093|TWO_SIDED|95.0|-0.7|8.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, overall VAS-PI score was evaluated using ANCOVA with treatment and site as factors and baseline VAS-PI score as the covariate.||8.80|-0.70|0.093
82652828|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1||||0.177|TWO_SIDED|95.0|-1.4|7.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||7.70|-1.40|0.177
82586951|NCT02604433|164886046|SUPERIORITY||Odds Ratio (OR)|11.92||||0.0017|TWO_SIDED|95.0|1.65|86.29||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio, 95% CIs, and p-value were estimated from the Cochran-Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization. To control the overall Type 1 error rate, the testing procedure was done strictly in order: the test for this outcome was only conducted when there was evidence showing erythroid response was achieved in the luspatercept group for the primary endpoint, and achievement of objective in the luspatercept group in outcomes 2+3.||86.29|1.65|0.0017
82586952|NCT02604433|164886047|SUPERIORITY||LSM Difference|-1.34|||<|0.0001|TWO_SIDED|95.0|-1.76|-0.93||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates were based on an ANCOVA model with geographical regions defined at randomization and baseline transfusion burden as covariates.|luspatercept - placebo|Change from baseline at Week 48 LSM = least squares mean||-0.93|-1.76|<0.0001
82586953|NCT02604433|164886048|SUPERIORITY||LS Mean of Difference|0.2||||0.7598|TWO_SIDED|95.0|-1.1|1.51||Significance level of 0.050 for 2-sided tests.|ANCOVA||luspatercept - placebo|Change from baseline at Week 48 P-value ANCOVA model with geographical regions defined at randomization and baseline LIC as covariates. LS = least square||1.51|-1.10|0.7598
82586954|NCT02604433|164886049|SUPERIORITY||LS Mean of Difference|-68.0||||0.2552|TWO_SIDED|95.0|-185.8|49.7||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferasirox: Change from baseline at Week 48 LS = least squares||49.7|-185.8|0.2552
82586955|NCT02604433|164886049|SUPERIORITY||LS Mean of Difference|-76.4||||0.7746|TWO_SIDED|95.0|-612.9|460.1||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferiprone: Change from baseline at Week 48 LS = least squares||460.1|-612.9|0.7746
82586956|NCT02604433|164886049|SUPERIORITY||LS Mean of Difference|-147.3||||0.5186|TWO_SIDED|95.0|-673.1|378.5||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline ICT as covariates.|luspatercept - placebo|Deferoxamine Mesilate / Deferoxamine: Change from baseline at Week 48 LS = least squares||378.5|-673.1|0.5186
82586957|NCT02604433|164886050|SUPERIORITY||LS Mean of Difference|-342.59|||<|0.0001|TWO_SIDED|95.0|-498.3|-186.87||Significance level of 0.050 for 2-sided tests|ANCOVA|Estimates based on an ANCOVA model with geographical regions defined at randomization and baseline serum ferritin as covariates.|luspatercept - placebo|Change from baseline at Week 48 LS = least squares||-186.87|-498.30|<0.0001
82586958|NCT02604433|164886051|SUPERIORITY||LS Mean of Difference|0.0||||0.9201|TWO_SIDED|95.0|-0.01|0.01||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline BMD measurement as covariates.|luspatercept - placebo|Total Hip Bone Mineral Density: Change from baseline at Week 48 LS = least squares||0.01|-0.01|0.9201
82586959|NCT02604433|164886051|SUPERIORITY||LS Mean of Difference|-0.01||||0.462|TWO_SIDED|95.0|-0.02|0.01||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates are based on an ANCOVA model with geographical regions defined at randomization and baseline BMD measurement as covariates.|luspatercept - placebo|Lumbar Spine Bone Mineral Density: Change from baseline at Week 48 LS = least squares||0.01|-0.02|0.4620
82586960|NCT02604433|164886052|SUPERIORITY||LS Mean of Difference|-2.22||||0.0543|TWO_SIDED|95.0|-4.48|0.04||Significance level of 0.050 for 2-sided tests.|ANCOVA|Estimates were based on an ANCOVA model with geographical regions defined at randomization and baseline myocardial T2\* as covariates.|luspatercept - placebo|Change from baseline at Week 48 LS = least square||0.04|-4.48|0.0543
82586961|NCT02604433|164886053|SUPERIORITY|||||||0.666||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Physical Health Domain Score - Change from Baseline at Week 24||||0.666
82586962|NCT02604433|164886053|SUPERIORITY|||||||0.384||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Total Score - Change from Baseline at Week 24||||0.384
82586963|NCT02604433|164886054|SUPERIORITY|||||||0.918||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||Physical Functioning Domain - Change from Baseline at Week 24||||0.918
82586964|NCT02604433|164886054|SUPERIORITY|||||||0.857||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||General Health Domain - Change from Baseline at Week 24||||0.857
82586965|NCT02604433|164886054|SUPERIORITY|||||||0.839||||||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided|||PCS - Change from Baseline at Week 24||||0.839
82652829|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.048|TWO_SIDED|95.0|0.1|9.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||9.10|0.10|0.048
82586966|NCT02604433|164886057|SUPERIORITY||Odds Ratio (OR)|7.6||||0.0015|TWO_SIDED|95.0|1.8|32.9||Significance level of 0.050 for 2-sided tests.|Cochran-Mantel-Haenszel|||Odds ratio 95% confidence intervals (CIs), and p-value were estimated from the Cochran Mantel-Haenszel (CMH) test stratified by the geographical regions defined at randomization.||32.9|1.8|0.0015
82586967|NCT02604433|164886060|SUPERIORITY||Mean Difference (Final Values)|-67.27||||0.0195|TWO_SIDED|95.0|-123.63|-10.91||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided||luspatercept - placebo|≥ 33% Transfusion Burden Reduction||-10.91|-123.63|0.0195
82652830|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8||||0.088|TWO_SIDED|95.0|-0.5|8.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, stomach pain score was evaluated using ANCOVA with treatment and site as factors and baseline stomach pain score as the covariate.||8.10|-0.50|0.088
82586968|NCT02604433|164886060|SUPERIORITY||Mean Difference (Final Values)|28.24||||0.7473|TWO_SIDED|95.0|-144.87|201.34||Significance level of 0.050 for 2-sided tests.|t-test, 2 sided||luspatercept - placebo|≥ 50% Transfusion Burden Reduction||201.34|-144.87|0.7473
82586969|NCT01128738|164886083|SUPERIORITY_OR_OTHER||Percentage difference|50.2|||<|0.001|TWO_SIDED|95.0|38.1|62.3|||Fisher Exact||Percentage difference was estimated as BTX 50 U minus placebo.|||62.3|38.1|<0.001
82586970|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Sensitivity (%)|75.0|||||TWO_SIDED|95.0|53.1|88.8||||||||88.8|53.1|
82586971|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Specificity (%)|62.6|||||TWO_SIDED|95.0|59.2|65.9||||||||65.9|59.2|
82586972|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Positive Predictive Value [PPV] (%)|4.8|||||TWO_SIDED|95.0|3.4|5.8||||||||5.8|3.4|
82586973|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Negative Predictive Value [NPV] (%)|99.0|||||TWO_SIDED|95.0|98.1|99.6||||||||99.6|98.1|
82586974|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Prevalence (%)|2.4|||||TWO_SIDED|||||||||||||
82586975|NCT00973362|164886131|SUPERIORITY_OR_OTHER||Relative Risk|4.8|||||TWO_SIDED|95.0|1.8|13.1|||||The relative risk of CIN2+ is defined as the \[ absolute risk of APTIMA HPV (Positive Result) / absolute risk of APTIMA HPV (Negative Result) \] .|||13.1|1.8|
82652831|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.122|TWO_SIDED|95.0|-1.0|8.4||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||8.40|-1.00|0.122
82586976|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Sensitivity (%)|84.2|||||TWO_SIDED|95.0|62.4|94.5||||||||94.5|62.4|
82586977|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Specificity (%)|48.7|||||TWO_SIDED|95.0|45.2|52.2||||||||52.2|45.2|
82586978|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Positive Predictive Value [PPV] (%)|3.8|||||TWO_SIDED|95.0|2.9|4.4||||||||4.4|2.9|
82586979|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Negative Predictive Value [NPV] (%)|99.2|||||TWO_SIDED|95.0|98.1|99.8||||||||99.8|98.1|
82586980|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Prevalence (%)|2.4|||||TWO_SIDED|||||||||||||
82586981|NCT00973362|164886132|SUPERIORITY_OR_OTHER||Relative Risk|4.9|||||TWO_SIDED|95.0|1.4|16.7|||||The relative risk of CIN2+ is defined as the \[ absolute risk of FDA-Approved HPV DNA Assay (Positive Result) / absolute risk of FDA-Approved HPV DNA Assay (Negative Result) \] .|||16.7|1.4|
82586982|NCT00973362|164886133|SUPERIORITY_OR_OTHER||Sensitivity(%)|86.8|||||TWO_SIDED|95.0|78.4|92.3||||||||92.3|78.4|
82586983|NCT00973362|164886133|SUPERIORITY_OR_OTHER||Specificty|62.9|||||TWO_SIDED|95.0|59.6|66.0||||||||66.0|59.6|
82498931|NCT03247530|164688872|SUPERIORITY||Least Square Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.047||0.0019|TWO_SIDED|95.0|-0.24|-0.05|||ANCOVA|||||-0.05|-0.24|0.0019
82586984|NCT00973362|164886133|SUPERIORITY_OR_OTHER||PPV|20.1|||||TWO_SIDED|95.0|18.1|22.0||||||||22.0|18.1|
82586985|NCT00973362|164886133|SUPERIORITY_OR_OTHER||NPV|97.8|||||TWO_SIDED|95.0|96.5|98.8||||||||98.8|96.5|
82586986|NCT00973362|164886133|SUPERIORITY_OR_OTHER||Prevalence (%)|9.7|||||TWO_SIDED|||||||||||||
82586987|NCT00973362|164886134|SUPERIORITY_OR_OTHER||Sensitivity (%)|88.8|||||TWO_SIDED|95.0|80.5|93.8||||||||93.8|80.5|
82586988|NCT00973362|164886134|SUPERIORITY_OR_OTHER||Specificity(%)|55.8|||||TWO_SIDED|95.0|52.3|59.3||||||||59.3|52.3|
82586989|NCT00973362|164886134|SUPERIORITY_OR_OTHER||PPV(%)|18.7|||||TWO_SIDED|95.0|17.0|20.4||||||||20.4|17.0|
82586990|NCT00973362|164886134|SUPERIORITY_OR_OTHER||NPV(%)|97.7|||||TWO_SIDED|95.0|96.2|98.8||||||||98.8|96.2|
82586991|NCT00973362|164886134|SUPERIORITY_OR_OTHER||Prevalence(%)|10.3|||||TWO_SIDED|||||||||||||
82586992|NCT00150969|164886154|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82586993|NCT00150969|164886161|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82586994|NCT01498289|164886203|SUPERIORITY||Cox Proportional Hazard|0.91||||0.83|TWO_SIDED|95.0|0.41|2.05|||Regression, Cox|||||2.05|0.41|0.83
82586995|NCT01498289|164886204|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.02|TWO_SIDED|95.0|0.5|0.93|||Regression, Cox|||||0.93|0.50|0.02
82586996|NCT01498289|164886205|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2|TWO_SIDED|95.0|0.61|1.11|||Regression, Cox|||||1.11|0.61|0.20
82586997|NCT01498289|164886206|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||0.10
82586998|NCT01498289|164886207|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.41|TWO_SIDED|95.0|0.44|1.4|||Regression, Cox|||Statistical analysis for Q1 ERCC1||1.40|0.44|0.41
82586999|NCT01498289|164886207|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.06|TWO_SIDED|95.0|0.32|1.02|||Regression, Cox|||Statistical analysis for Q2 ERCC1||1.02|0.32|0.06
82587000|NCT01498289|164886207|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.66|TWO_SIDED|95.0|0.49|1.58|||Regression, Cox|||Statistical analysis for Q3 ERCC1||1.58|0.49|0.66
82587001|NCT01498289|164886207|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.3|TWO_SIDED|95.0|0.42|1.31|||Regression, Cox|||Statistical analysis for Q4 ERCC1||1.31|0.42|0.30
82587002|NCT00986440|164886235|SUPERIORITY||Z statistic for difference|3.92|||<|0.0001|TWO_SIDED||||||2-sided P value for z test|||||||<0.0001
82587003|NCT00986440|164886235|SUPERIORITY||Hazard Ratio, log|-0.41|||||TWO_SIDED|||||||||||||
82587004|NCT00986440|164886236|SUPERIORITY|||||||0.038|||||||Log Rank|||||||0.0380
82587005|NCT00986440|164886236|SUPERIORITY|||||||0.1773|||||||Peto-Peto-Prentice|||||||0.1773
82587006|NCT00986440|164886236|SUPERIORITY|||||||0.2844|||||||Wilcoxon (Mann-Whitney)|||||||0.2844
82587007|NCT00986440|164886236|SUPERIORITY|||||||0.114|||||||Tarone-Ware|||||||0.1140
82587008|NCT00986440|164886237|SUPERIORITY|||||||0.1213|||||||Log Rank|||||||0.1213
82587009|NCT01296347|164886270|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82587010|NCT01296347|164886271|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||6 weeks||||0.71
82587011|NCT01296347|164886271|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||3 month||||1.0
82587012|NCT01296347|164886271|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||6 months||||0.32
82587013|NCT01296347|164886273|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||||||0.47
82587014|NCT01296347|164886274|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82587015|NCT01296347|164886275|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82587016|NCT01296347|164886276|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82587017|NCT02240693|164886280|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.075||0.3236|TWO_SIDED|95.0|-0.074|0.223||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.223|-0.074|0.3236
82587018|NCT02240693|164886280|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.076||0.3694|TWO_SIDED|95.0|-0.22|0.082||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.082|-0.220|0.3694
82587019|NCT02240693|164886280|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.078||0.8374|TWO_SIDED|95.0|-0.171|0.139||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.139|-0.171|0.8374
82587020|NCT02240693|164886280|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.077||0.5484|TWO_SIDED|95.0|-0.106|0.199||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.199|-0.106|0.5484
82587021|NCT02240693|164886280|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.054||0.7905|TWO_SIDED|95.0|-0.092|0.121||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (Pooled BI 409306 minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.121|-0.092|0.7905
82587022|NCT02240693|164886281|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|1.102||0.8973|TWO_SIDED|95.0|-2.33|2.04||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|2.04|-2.33|0.8973
82587023|NCT02240693|164886281|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.122||0.2141|TWO_SIDED|95.0|-0.82|3.63||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|3.63|-0.82|0.2141
82587024|NCT02240693|164886281|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.085||0.6553|TWO_SIDED|95.0|-2.64|1.67||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|1.67|-2.64|0.6553
82652832|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8||||0.015|TWO_SIDED|95.0|1.1|10.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||10.50|1.10|0.015
82652833|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.103|TWO_SIDED|95.0|-0.8|9.2||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, back pain score was evaluated using ANCOVA with treatment and site as factors and baseline back pain score as the covariate.||9.20|-0.80|0.103
82652834|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.384|TWO_SIDED|95.0|-1.7|4.5||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||4.50|-1.70|0.384
82587025|NCT02240693|164886281|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|1.144||0.7166|TWO_SIDED|95.0|-1.85|2.69||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|2.69|-1.85|0.7166
82587026|NCT02240693|164886282|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.9491|TWO_SIDED|95.0|-0.49|0.46||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.46|-0.49|0.9491
82587027|NCT02240693|164886282|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1699|TWO_SIDED|95.0|-0.15|0.84||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.84|-0.15|0.1699
82587028|NCT02240693|164886282|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.26||0.4948|TWO_SIDED|95.0|-0.69|0.33||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.33|-0.69|0.4948
82587029|NCT02240693|164886282|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.7548|TWO_SIDED|95.0|-0.42|0.58||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.58|-0.42|0.7548
82587030|NCT02240693|164886283|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|1.081||0.8137|TWO_SIDED|95.0|-2.4|1.89||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|1.89|-2.40|0.8137
82587031|NCT02240693|164886283|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|1.12||0.5801|TWO_SIDED|95.0|-2.84|1.6||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|1.60|-2.84|0.5801
82587032|NCT02240693|164886283|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.072||0.2978|TWO_SIDED|95.0|-3.25|1.0||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|1.00|-3.25|0.2978
82587033|NCT02240693|164886283|SUPERIORITY|Analyses of covariance (ANCOVA) were used to assess between-group differences in the modelled changes from baseline to Week 12.|Mean Difference (Final Values)|-2.51|STANDARD_ERROR_OF_MEAN|1.072||0.0209|TWO_SIDED|95.0|-4.64|-0.39||p-value was nominal and not adjusted.|ANCOVA||Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|The dependent variable was the change from the baseline score at Week 12. The model included fixed, categorical covariates of treatment as well as fixed continuous covariates of baseline score.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|-0.39|-4.64|0.0209
82652835|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.221|TWO_SIDED|95.0|-1.2|5.1||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||5.10|-1.20|0.221
82652836|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.411|TWO_SIDED|95.0|-1.9|4.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, chest pain score was evaluated using ANCOVA with treatment and site as factors and baseline chest pain score as the covariate.||4.70|-1.90|0.411
82587034|NCT02240693|164886284|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.056||0.8694|TWO_SIDED|95.0|-0.101|0.12||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 10 milligram (mg) once daily (QD) minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.120|-0.101|0.8694
82587035|NCT02240693|164886284|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.057||0.9512|TWO_SIDED|95.0|-0.116|0.109||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg QD minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|0.109|-0.116|0.9512
82587036|NCT02240693|164886284|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.056||0.9321|TWO_SIDED|95.0|-0.105|0.115||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 50 mg QD minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.115|-0.105|0.9321
82587037|NCT02240693|164886284|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.057||0.1288|TWO_SIDED|95.0|-0.199|0.025||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (BI 409306 25 mg twice daily (BID) minus Placebo matching BI 409306)|"Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction.~The study identifier is also a categorical covariate for the twin studies analyses."|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.025|-0.199|0.1288
82587038|NCT02240693|164886284|SUPERIORITY|H0: The dose group with the peak response in the respective model Mean NTB response = Mean NTB response of placebo.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.041||0.6492|TWO_SIDED|95.0|-0.098|0.061||p-value was nominal and not adjusted.|Mixed Model Repeated Measurement (MMRM)|Kenward-Roger was used to model degrees of freedom.|Mean difference (Pooled BI 409306 minus Placebo matching BI 409306)|Mixed Model Repeated Measurement (MMRM) includes fixed, categorical effects of treatment, visit, current Acetylcholine Esterase Inhibitor (AChEI) use (Yes, No), and treatment-by-visit interaction, as well as the continuous fixed covariates of baseline, and baseline-by-visit interaction. The study identifier is also a categorical covariate for the twin studies analyses.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences|0.061|-0.098|0.6492
82587039|NCT02197767|164886285|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||0.072
82587040|NCT02197767|164886286|SUPERIORITY|||||||0.068|||||||t-test, 2 sided|||||||0.068
82587041|NCT00413972|164886297|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
82587042|NCT00413972|164886297|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
82587043|NCT00413972|164886297|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANOVA|||||||<.0001
82587044|NCT02678247|164886313|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|1.5|<|0.001|TWO_SIDED|95.0|0.8|2.3||alpha = 0.05|t-test, 2 sided|paired t-test||||2.3|0.8|<0.001
82587045|NCT02678247|164886314|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|0.1||0.664|TWO_SIDED|95.0|-0.06|0.04||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||0.04|-0.06|0.664
82587046|NCT02678247|164886315|SUPERIORITY||Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|3.05||0.026|TWO_SIDED|95.0|-3.17|-0.23||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||-0.23|-3.17|0.026
82587047|NCT02678247|164886316|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|4.58||0.847|TWO_SIDED|95.0|-2.0|2.42||p-value was adjusted using a Bonferonni correction with alpha set at 0.025|t-test, 2 sided|paired t-test||||2.42|-2|0.847
82587048|NCT02678247|164886317|SUPERIORITY||Mean Difference (Final Values)|-1.04|STANDARD_DEVIATION|2.87|<|0.017|TWO_SIDED|95.0|-2.42|0.34||p-value was adjusted using a Bonferonni correction with alpha set at 0.017|t-test, 2 sided|paired t-test||||0.34|-2.42|<0.017
82652837|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.412|TWO_SIDED|95.0|-2.8|6.7||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 50 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||6.70|-2.80|0.412
82587049|NCT02678247|164886318|OTHER||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|4.58||0.7|TWO_SIDED|95.0|-0.53|0.77||p-value was adjusted using a Bonferonni correction with alpha set at 0.025|t-test, 2 sided|paired t-test||||0.77|-0.53|0.7
82498932|NCT03247530|164688872|SUPERIORITY||Least Square Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.046||0.002|TWO_SIDED|95.0|-0.26|-0.08|||ANCOVA|||||-0.08|-0.26|0.0020
82652838|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.9||||0.042|TWO_SIDED|95.0|0.2|9.6||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For DVS SR 100 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||9.60|0.20|0.042
82652839|NCT00384033|165020564|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.3||||0.155|TWO_SIDED|95.0|-1.2|7.8||The analysis was done at a significance level of alpha = 0.05, 2-sided, without any adjustments for multiple comparisons.|ANCOVA|||For Duloxetine 60 mg, arms, legs, joint pain score was evaluated using ANCOVA with treatment and site as factors and baseline arms, legs, pain score as the covariate.||7.80|-1.20|0.155
82587050|NCT02678247|164886319|SUPERIORITY||Mean Difference (Final Values)|2.7|STANDARD_DEVIATION|8.9||0.2|TWO_SIDED|95.0|-1.6|7.0||alpha = 0.05|t-test, 2 sided|paired t-test||||7.0|-1.6|0.20
82652840|NCT01006707|165020566|SUPERIORITY_OR_OTHER|||||||0.042|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.042
82652841|NCT01006707|165020567|SUPERIORITY_OR_OTHER|||||||0.322|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.322
82652842|NCT01006707|165020568|SUPERIORITY_OR_OTHER|||||||0.261|||||||ANOVA|||Results were considered significant at p\<0.05.||||0.261
82652843|NCT01842958|165020572|NON_INFERIORITY|The test arm will be considered non-inferior to the control arm if the 95% upper confidence interval of the estimated difference between the test and control arms is less than -0.5mm.||||||0.02|||||||ANCOVA|||The primary efficacy endpoint is change in crestal bone level from loading to 12 months post-loading. The primary analysis is a test for non-inferiority of the test implant to the control implant at the one-sided 5% significance level. The null hypothesis is that µ3.3 ≥ µ4.1 + δ, where µ3.3 is the mean change in crestal bone level for the test implants, µ4.1 is the mean change in crestal bone level for control implants, and δ is a pre-specified clinically significant difference.||||0.02
82652844|NCT01166568|165020681|SUPERIORITY||binomial distribution|0.75||||0.025|ONE_SIDED|97.5|0.75|||the p-value is adjusted for multiple comparisons|Fisher Exact|||"The PSI procedure is defined as successful if 75% of subjects achieve the first primary endpoint or second primary endpoint. The corresponding statistical hypotheses are as follows:~H0 (null hypothesis): p1 ≤ 0.75 Ha (alternative hypothesis): p1 \> 0.75, Where, p1 is the probability of subjects achieving the first primary endpoint. H0 (null hypothesis): p2 ≤ 0.75 Ha (alternative hypothesis): p2 \> 0.75, Where, p2 is the probability of subjects achieving the second primary endpoint."|||0.75|0.025
82498933|NCT03247530|164688873|SUPERIORITY||Risk Difference (RD)|14.5||||0.0063|TWO_SIDED|95.0|4.3|24.6|||Regression, Logistic|||||24.6|4.3|0.0063
82587051|NCT02678247|164886320|SUPERIORITY||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|10.0||0.62|TWO_SIDED|95.0|-6.0|3.7||alpha = 0.05|t-test, 2 sided|paired t-test||||3.7|-6.0|0.62
82587052|NCT02678247|164886321|SUPERIORITY||Mean Difference (Final Values)|2.6|STANDARD_DEVIATION|5.7||0.07|TWO_SIDED|95.0|-0.2|5.3||alpha = 0.05|t-test, 2 sided|paired t-test||||5.3|-0.2|0.07
82587053|NCT02678247|164886322|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|6.3||0.18|TWO_SIDED|95.0|-5.4|1.1||alpha = 0.05|t-test, 2 sided|paired t-test||||1.1|-5.4|0.18
82587054|NCT02678247|164886323|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|1.3||0.47|TWO_SIDED|95.0|-0.4|0.9||alpha = 0.05|t-test, 2 sided|paired t-test||||0.9|-0.4|0.47
82587055|NCT02678247|164886324|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|3.5||0.68|TWO_SIDED|95.0|-1.4|2.0||alpha = 0.05|t-test, 2 sided|paired t-test||||2.0|-1.4|0.68
82587056|NCT02910739|164886339|OTHER|The pharmacokinetic condition to initiate Part 2 of the study would be met if the point estimate for the AUC0-∞ ratio of geometric means (participants with moderate HI / healthy matched control participants) exceeds 1.5.|Geometric least-squares mean ratio (GMR)|1.04|||||TWO_SIDED|90.0|0.83|1.3|||||GMR = geometric least squares mean (GLSM) for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-∞; no hypothesis testing was planned for this outcome measure.||1.30|0.83|
82587057|NCT02910739|164886340|OTHER||GMR|1.07|||||TWO_SIDED|90.0|0.77|1.5|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on Cmax; no hypothesis testing was planned for this outcome measure.||1.50|0.77|
82587058|NCT02910739|164886341|OTHER||GMR|1.04|||||TWO_SIDED|90.0|0.82|1.31|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-last; no hypothesis testing was planned for this outcome measure.||1.31|0.82|
82587059|NCT02910739|164886342|OTHER||GMR|1.01|||||TWO_SIDED|90.0|0.8|1.27|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on AUC0-24hr; no hypothesis testing was planned for this outcome measure.||1.27|0.80|
82587060|NCT02910739|164886343|OTHER||GMR|1.08|||||TWO_SIDED|90.0|0.9|1.3|||||GMR = GLSM for moderate HI participants / GLSM for healthy participants.|Per study protocol, the purpose of this analysis is only to estimate the effect of moderate HI on C24hr; no hypothesis testing was planned for this outcome measure.||1.30|0.90|
82587061|NCT02181387|164886447|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
82587062|NCT02181387|164886447|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
82587063|NCT04223856|164886453|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|1e-05|TWO_SIDED|95.0|0.377|0.538||P value was calculated using stratified log-rank test. The p-value threshold for statistical significance is 0.005.|Log Rank||HR was calculated using stratified Cox proportional hazards model.|||0.538|0.377|<0.00001
82587064|NCT04223856|164886454|SUPERIORITY|P value was calculated using stratified log-rank test. The p-value threshold for statistical significance is 0.01548.|Hazard Ratio (HR)|0.468|||<|1e-05|TWO_SIDED|95.0|0.376|0.582|||Log Rank||HR was calculated using stratified Cox proportional hazards model.|||0.582|0.376|<0.00001
82652845|NCT03335371|165020689|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_DEVIATION|0.087|<|0.0001|TWO_SIDED|95.0|-0.39|-0.04|||ANCOVA|||||-0.04|-0.39|<0.0001
82652846|NCT01832090|165020725|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82652847|NCT01832090|165020726|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82652848|NCT01832090|165020727|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82587065|NCT03226275|164886474|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|99.46|||||TWO_SIDED|90.0|93.25|106.09||||||Statistical Comparison of Bisoprolol in Fasting state||106.09|93.25|
82587066|NCT03226275|164886474|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|96.76|||||TWO_SIDED|90.0|92.95|100.73||||||Statistical Comparison of Amlodipine in Fasting State||100.73|92.95|
82587067|NCT03226275|164886474|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.95|||||TWO_SIDED|90.0|90.02|108.76||||||Statistical Comparison of Bisoprolol in Fed State||108.76|90.02|
82587068|NCT03226275|164886474|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|103.07|||||TWO_SIDED|90.0|95.53|111.2||||||Statistical Comparison of Amlodipine in Fed State||111.20|95.53|
82587069|NCT03226275|164886475|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|97.85|||||TWO_SIDED|90.0|92.29|103.74||||||Statistical Comparison of Bisoprolol in Fasting State||103.74|92.29|
82587070|NCT03226275|164886475|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|100.03|||||TWO_SIDED|90.0|94.37|106.03||||||Statistical Comparison of Amlodipine in Fasting State||106.03|94.37|
82587071|NCT03226275|164886475|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|93.87|||||TWO_SIDED|90.0|84.56|104.2||||||Statistical Comparison of Bisoprolol in Fed State||104.20|84.56|
82587072|NCT03226275|164886475|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|106.56|||||TWO_SIDED|90.0|97.82|116.08||||||Statistical Comparison of Amlodipine in Fed State||116.08|97.82|
82587073|NCT03226275|164886476|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.13|||||TWO_SIDED|90.0|0.0|0.5||||||Statistical Comparison of Bisoprolol in Fasting State||0.50|0.00|
82587074|NCT03226275|164886476|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.0||||||Statistical Comparison of Amlodipine in Fasting State||0.00|-1.00|
82587075|NCT03226275|164886476|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.5||||||Statistical Comparison of Bisoprolol in Fed State||0.50|-1.00|
82587076|NCT03226275|164886476|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Median Difference|0.0|||||TWO_SIDED|90.0|-1.0|0.5||||||Statistical Comparison of Amlodipine in Fed State||0.50|-1.00|
82587077|NCT03226275|164886478|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|99.98|||||TWO_SIDED|90.0|93.61|106.79||||||Statistical Comparison of Bisoprolol in Fasting State||106.79|93.61|
82587078|NCT03226275|164886478|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.68|||||TWO_SIDED|90.0|93.38|104.28||||||Statistical Comparison of Amlodipine in Fasting State||104.28|93.38|
82587079|NCT03226275|164886478|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|98.52|||||TWO_SIDED|90.0|89.75|108.15||||||Statistical Comparison of Bisoprolol in Fed State||108.15|89.75|
82587080|NCT03226275|164886478|EQUIVALENCE|Results based on a mixed-effects model with sequence, treatment, and period as fixed effects and participant nested within sequence as a random effect.|Geometric Least Square Mean Percentage|104.06|||||TWO_SIDED|90.0|96.11|112.66||||||Statistical Comparison of Amlodipine in Fed State||112.66|96.11|
82587081|NCT03081052|164886515|EQUIVALENCE|We estimated sample size based on equivalence test of the incidence rates of a binary outcome (e.g. PGD grade 3 (PGD-3)) of two treatment groups as an illustration. Assuming the incidence rate of PGD-3 under iEPO treatment is 0.30 and acceptable margin of the equivalence is ± 0.19, we will need 200 lung transplant patients to have 80% power to detect an actual difference at α=0.05 between two treatment group under this margin.|Risk Difference (RD)|0.049||||0.019|TWO_SIDED|90.0|-0.064|0.162|||two one sided test p-value|||||0.162|-0.064|0.019
82587082|NCT03081052|164886516|NON_INFERIORITY|We estimated sample size based on equivalence test of the incidence rates of a binary outcome of two treatment groups as an illustration. Assuming the incidence rate of moderate or severe RV failure under iEPO treatment is 0.113 and acceptable margin of the equivalence is ± 0.15, we will need 224 heart failure patients to have 80% power to detect an actual difference at α=0.05 between two treatment group under this margin.|Risk Difference (RD)|0.025||||0.012|TWO_SIDED|90.0|-0.066|0.116|||two one-sided test p-value|||||0.116|-0.066|0.012
82498934|NCT03247530|164688873|SUPERIORITY||Risk Difference (RD)|21.5|||<|0.0001|TWO_SIDED|95.0|11.3|31.6|||Regression, Logistic|||||31.6|11.3|<0.0001
82587083|NCT03081052|164886517|OTHER||Hodges-Lehmann Location Shift|0.0||||0.747|TWO_SIDED|95.0|-3.0|3.0|||Log Rank|||||3|-3|0.747
82587084|NCT03081052|164886517|OTHER||Hodges-Lehmann Location Shift|0.0||||0.638|TWO_SIDED|95.0|-1.0|1.0|||Log Rank|||||1|-1|0.638
82587085|NCT03081052|164886519|OTHER||mean ratio|1.19||||0.453|TWO_SIDED|95.0|0.76|1.87|||log-linear regression|||||1.87|0.76|0.453
82587086|NCT03081052|164886519|OTHER||mean ratio|0.94||||0.816|TWO_SIDED|95.0|0.57|1.56|||log-linear regression|||||1.56|0.57|0.816
82498935|NCT03247530|164688874|SUPERIORITY||Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.63||0.9974|TWO_SIDED|95.0|-4.5|4.5|||ANCOVA|||||4.5|-4.5|0.9974
82587087|NCT03081052|164886520|OTHER||mean ratio|1.03||||0.864|TWO_SIDED|95.0|0.75|1.41|||log-linear regression|||||1.41|0.75|0.864
82587088|NCT03081052|164886520|OTHER||mean ratio|0.97||||0.825|TWO_SIDED|95.0|0.73|1.28|||log-linear regression|||||1.28|0.73|0.825
82587089|NCT03081052|164886521|OTHER||Odds Ratio (OR)|1.43||||0.251|TWO_SIDED|95.0|0.78|2.61|||Chi-squared|||||2.61|0.78|0.251
82587090|NCT03081052|164886521|OTHER||Odds Ratio (OR)|1.2||||0.619|TWO_SIDED|95.0|0.58|2.5|||Chi-squared|||||2.5|0.58|0.619
82587091|NCT03081052|164886523|OTHER||Odds Ratio (OR)|2.13||||0.614|TWO_SIDED|95.0|0.19|23.82|||Fisher Exact|||||23.82|0.19|0.614
82587092|NCT03081052|164886523|OTHER||Odds Ratio (OR)|0.6||||0.5424|TWO_SIDED|95.0|0.17|2.12|||Fisher Exact|||||2.12|0.17|0.5424
82587093|NCT01101477|164886537|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||The patients with at lease one episode of hypoxemia (SPaO2\<90%) during FB were analyzed by Chi-square test. P value less 0.05 means significance, 2-sided.||||0.05
82587094|NCT02952001|164886580|SUPERIORITY|||||||0.562||||||The a priori threshold for statistical significance was 0.050. No adjustments made or required for multiplicity.|Log-rank chi-square test|||The null hypothesis of no difference in the survival time distributions was tested.||||0.562
82587095|NCT04356183|164886614|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82587096|NCT04356183|164886615|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82587097|NCT04356183|164886616|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82587098|NCT00402363|164886617|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.263|TWO_SIDED|95.0|0.9|1.46|||Regression, Cox|||||1.46|0.90|0.263
82587099|NCT00402363|164886618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.089|TWO_SIDED|95.0|0.92|2.92|||Log Rank|||||2.92|0.92|0.089
82587100|NCT00402363|164886618|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.081|TWO_SIDED|95.0|0.98|1.52|||Regression, Cox|||||1.52|0.98|0.081
82587101|NCT00402363|164886619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.213|TWO_SIDED|95.0|0.91|1.49|||Regression, Cox|||||1.49|0.91|0.213
82652849|NCT01832090|165020728|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82587102|NCT00402363|164886619|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.5||||0.171|TWO_SIDED|95.0|0.83|2.69|||Log Rank|||||2.69|0.83|0.171
82587103|NCT00402363|164886620|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.082|TWO_SIDED|95.0|0.98|1.53|||Regression, Cox|||||1.53|0.98|0.082
82498936|NCT03247530|164688874|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.26||0.4557|TWO_SIDED|95.0|-6.1|2.7|||ANCOVA|||||2.7|-6.1|0.4557
82587104|NCT00402363|164886621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.331|TWO_SIDED|95.0|0.89|1.4|||Regression, Cox|||||1.40|0.89|0.331
82587105|NCT00402363|164886621|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.297|TWO_SIDED|95.0|0.79|2.11|||Log Rank|||||2.11|0.79|0.297
82587106|NCT00402363|164886622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.168|TWO_SIDED|95.0|0.94|1.42|||Regression, Cox|||||1.42|0.94|0.168
82587107|NCT00402363|164886623|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.27|TWO_SIDED|95.0|0.9|1.43|||Regression, Cox|||||1.43|0.90|0.270
82587108|NCT00402363|164886623|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.486|TWO_SIDED|95.0|0.73|1.95|||Log Rank|||||1.95|0.73|0.486
82587109|NCT00402363|164886624|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.167|TWO_SIDED|95.0|0.94|1.42|||Regression, Cox|||||1.42|0.94|0.167
82587110|NCT00402363|164886625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.565|TWO_SIDED|95.0|0.81|1.47|||Regression, Cox|||||1.47|0.81|0.565
82587111|NCT00402363|164886625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.68||||0.103|TWO_SIDED|95.0|0.89|3.15|||Log Rank|||||3.15|0.89|0.103
82587112|NCT00402363|164886626|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.185|TWO_SIDED|95.0|0.92|1.56|||Regression, Cox|||||1.56|0.92|0.185
82587113|NCT00402363|164886627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12||||0.461|TWO_SIDED|95.0|0.83|1.51|||Regression, Cox|||||1.51|0.83|0.461
82587114|NCT00402363|164886627|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.206|TWO_SIDED|95.0|0.79|2.86|||Log Rank|||||2.86|0.79|0.206
82587115|NCT00402363|164886628|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.188|TWO_SIDED|95.0|0.92|1.57|||Regression, Cox|||||1.57|0.92|0.188
82587116|NCT00402363|164886629|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.07||||0.29|TWO_SIDED|95.0|-0.09|2.08|||non-parametric ANCOVA|||||2.08|-0.09|0.290
82587117|NCT00402363|164886629|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.063||||0.479|TWO_SIDED|95.0|-0.08|2.02|||Wilcoxon (Mann-Whitney)|||||2.02|-0.08|0.479
82587118|NCT00402363|164886629|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.039||||0.218|TWO_SIDED|95.0|-0.06|1.49|||non-parametric ANCOVA|||||1.49|-0.06|0.218
82587119|NCT00402363|164886630|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.321||||0.218|TWO_SIDED|95.0|-0.18|2.21|||non-parametric ANCOVA|||||2.21|-0.18|0.218
82587120|NCT00402363|164886630|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.216||||0.188|TWO_SIDED|95.0|-0.14|3.14|||Wilcoxon (Mann-Whitney)|||||3.14|-0.14|0.188
82587121|NCT00402363|164886630|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.181||||0.097|TWO_SIDED|95.0|-0.1|2.1|||non-parametric ANCOVA|||||2.10|-0.10|0.097
82587122|NCT00402363|164886631|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.242||||0.239|TWO_SIDED|95.0|-0.19|2.17|||non-parametric ANCOVA|||||2.17|-0.19|0.239
82587123|NCT00402363|164886631|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.249||||0.152|TWO_SIDED|95.0|-0.09|4.31|||Wilcoxon (Mann-Whitney)|||||4.31|-0.09|0.152
82587124|NCT00402363|164886631|SUPERIORITY_OR_OTHER||median difference (Hodges-Lehmann)|0.2||||0.094|TWO_SIDED|95.0|-0.08|2.11|||non-parametric ANCOVA|||||2.11|-0.08|0.094
82587125|NCT02175004|164886664|SUPERIORITY||Least Squares Mean Difference|-17.84|||<|0.001|TWO_SIDED|95.0|-26.12|-9.56||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS+7 Composite Score at Week 78||-9.56|-26.12|<0.001
82652850|NCT01832090|165020729|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
82652851|NCT01832090|165020730|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||||||>0.05
82652852|NCT01832090|165020733|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82587126|NCT02175004|164886664|SUPERIORITY||Least Squares Mean Difference|-20.11|||<|0.001|TWO_SIDED|95.0|-31.27|-8.95||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS+7 Composite Score at Week 156||-8.95|-31.27|<0.001
82587127|NCT02175004|164886665|SUPERIORITY||Least Squares Mean Difference|-0.06||||0.638|TWO_SIDED|95.0|-0.32|0.2||P-value=MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heart Rate to Deep Breathing Score at Week 78||0.20|-0.32|0.638
82587128|NCT02175004|164886665|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.965|TWO_SIDED|95.0|-0.3|0.29||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heart Rate to Deep Breathing Score at Week 156||0.29|-0.30|0.965
82587129|NCT02175004|164886666|SUPERIORITY||Least Squares Mean Difference|-1.09|||<|0.001|TWO_SIDED|95.0|-1.68|-0.5||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Nerve Conduction Score at Week 78||-0.50|-1.68|<0.001
82587130|NCT02175004|164886666|SUPERIORITY||Least Squares Mean Difference|-0.66||||0.067|TWO_SIDED|95.0|-1.38|0.05||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Nerve Conduction Score at Week 156||0.05|-1.38|0.067
82587131|NCT02175004|164886667|SUPERIORITY||Least Squares Mean Difference|0.34||||0.821|TWO_SIDED|95.0|-2.67|3.36||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heat-Pain Sensory Score at Week 78||3.36|-2.67|0.821
82587132|NCT02175004|164886667|SUPERIORITY||Least Squares Mean Difference|-2.16||||0.293|TWO_SIDED|95.0|-6.21|1.9||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Heat-Pain Sensory Score at Week 156||1.90|-6.21|0.293
82587133|NCT02175004|164886668|SUPERIORITY||Least Squares Mean Difference|-2.78||||0.047|TWO_SIDED|95.0|-5.53|-0.03||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Touch-Pressure Sensory Score at Week 78||-0.03|-5.53|0.047
82652853|NCT01832090|165020734|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82652854|NCT00249821|165020738|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||"Month 12: Analysis of co-variance (ANCOVA) method with covariates height and age at baseline was used to calculate presented p-value."||||0.001
82587134|NCT02175004|164886668|SUPERIORITY||Least Squares Mean Difference|-3.07||||0.041|TWO_SIDED|95.0|-6.0|-0.13||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the mNIS +7 Component: Touch-Pressure Sensory Score at Week 156||-0.13|-6.00|0.041
82587135|NCT02175004|164886669|OTHER||Least Squares Mean Difference|-17.48|||<|0.001|TWO_SIDED|95.0|-26.92|-8.03||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the NIS Composite Score at Week 52 of Year 4||-8.03|-26.92|<0.001
82587136|NCT02175004|164886670|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.941|TWO_SIDED|95.0|-0.19|0.17||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Cranial Nerves Score Score at Week 52 of Year 4||0.17|-0.19|0.941
82652855|NCT00249821|165020739|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||"Change at Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.012
82587137|NCT02175004|164886671|SUPERIORITY||Least Squares Mean Difference|-9.56||||0.011|TWO_SIDED|95.0|-16.97|-2.16||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Muscle Weakness Score at Week 52 of Years 4||-2.16|-16.97|0.011
82652856|NCT00249821|165020739|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||"Change at Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.002
82652857|NCT00249821|165020740|SUPERIORITY_OR_OTHER|||||||0.022||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.022
82652858|NCT00249821|165020740|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.002
82652859|NCT00249821|165020741|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||ANCOVA|||"Change at Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.029
82652860|NCT00249821|165020742|SUPERIORITY_OR_OTHER|||||||0.972||95.0|||||ANCOVA|||"Change at Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.972
82652861|NCT00249821|165020743|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.058
82652862|NCT00249821|165020743|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.026
82587138|NCT02175004|164886672|SUPERIORITY||Least Squares Mean Difference|-1.05||||0.356|TWO_SIDED|95.0|-3.28|1.18||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Reflexes Score at Week 52 of Years 4||1.18|-3.28|0.356
82587139|NCT02175004|164886673|SUPERIORITY||Least Squares Mean Difference|-5.38|||<|0.001|TWO_SIDED|95.0|-8.58|-2.19||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the NIS Component: Sensory Score at Week 52 of Years 4||-2.19|-8.58|<0.001
82587140|NCT02175004|164886674|SUPERIORITY||Least Squares Mean Difference|-9.31||||0.026|TWO_SIDED|95.0|-17.48|-1.14||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 78||-1.14|-17.48|0.026
82587141|NCT02175004|164886674|SUPERIORITY||Least Squares Mean Difference|-7.4||||0.107|TWO_SIDED|95.0|-16.41|1.62||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 156||1.62|-16.41|0.107
82587142|NCT02175004|164886674|SUPERIORITY||Least Squares Mean Difference|-2.72||||0.669|TWO_SIDED|95.0|-15.22|9.77||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 52 of Year 4||9.77|-15.22|0.669
82587143|NCT02175004|164886675|SUPERIORITY||Least Squares Mean Difference|-6.3||||0.097|TWO_SIDED|95.0|-13.75|1.15||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Change From CS2 Baseline in the Norfolk QOL-DN Questionnaire Total Score at Week 78||1.15|-13.75|0.097
82587144|NCT02175004|164886675|SUPERIORITY||Least Squares Mean Difference|-8.89||||0.081|TWO_SIDED|95.0|-18.88|1.11||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change from Baseline in the Norfolk QoL-DN Physical Functioning/Large Fiber Neuropathy Domain Score at Week 156||1.11|-18.88|0.081
82587145|NCT02175004|164886675|SUPERIORITY||Least Squares Mean Difference|-11.87||||0.171|TWO_SIDED|95.0|-28.89|5.16||P-value= MMRM with fixed categorical effects for treatment, time, treatment-by-time interaction, each of 3 randomization stratification factors, fixed covariates for parent study baseline value, baseline-by-time interaction.|MMRM|||Change From Baseline in the Norfolk QOL-DN Physical Functioning/Large Fiber Neuropathy Domain Score at Week 52 of Year 4||5.16|-28.89|0.171
82587146|NCT05193500|164886695|OTHER|||||||0.085||||||a priori threshold for statistical significance is 0.05|t-test, 2 sided|one-sample t-test, compared to 0.5 (chance)||||||0.085
82587147|NCT05193500|164886695|OTHER|||||||0.049||||||a priori threshold for statistical significance is 0.05|t-test, 2 sided|||||||0.049
82587148|NCT05193500|164886696|OTHER|||||||0.015||||||a priori threshold for statistical significance = 0.05|t-test, 2 sided|||||||0.015
82587149|NCT00744523|164886697|SUPERIORITY_OR_OTHER||proportion of the primary endpoint|2.7|STANDARD_ERROR_OF_MEAN|5.0|<|0.05|ONE_SIDED|95.0||5.2|||t-test, 1 sided||"Parameter Dispersion Type of Standard Error of the mean is meant to state that 'mean is the mean of proportions in the sense of a central-limit theorem"|The ARMOUR trial tested the null hypothesis that the MACCE rate was greater than or equal to the Performance Goal (PG) of 13% versus the alternative hypothesis that the true MACCE rate was less than the PG. The sample size was calculated based on 90% power and a Type I error rate of 0.05 (one-sided). The Performance Goal was calculated from results of carotid artery stenting trials that utilized embolic protection devices (EPD).||5.2||<0.05
82587150|NCT03588728|164886738|SUPERIORITY|||||||0.781|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.781
82587151|NCT03588728|164886739|SUPERIORITY|||||||0.409|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.409
82587152|NCT03588728|164886740|SUPERIORITY|||||||0.697|||||||ANOVA|P value indicates the interaction term.||Test of between-subjects effects||||.697
82587153|NCT03588728|164886741|SUPERIORITY|||||||0.193|||||||ANOVA|P value indicates interaction term.||Test of between subjects effects||||.193
82587154|NCT03588728|164886742|SUPERIORITY|||||||0.185|||||||ANOVA|P value indicates the interaction term||Test of between-subjects effects||||.185
82587155|NCT03588728|164886743|SUPERIORITY|||||||0.198|||||||ANOVA|P value indicates the interaction term||Test of between-measures effects||||.198
82652863|NCT00249821|165020744|SUPERIORITY_OR_OTHER|||||||0.793||95.0|||||ANCOVA|||"Month 6: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.793
82587156|NCT03588728|164886744|SUPERIORITY|||||||0.638|||||||ANOVA|||Test of between-subjects effects||||.638
82587157|NCT03588728|164886745|SUPERIORITY|||||||0.574|||||||ANOVA|p-value indicates the interaction term||Test of between-subjects effectd||||.574
82587158|NCT03588728|164886746|SUPERIORITY|||||||0.564|||||||ANOVA|P-value indicates the interaction term||Test of between-subjects effects||||.564
82587159|NCT03588728|164886747|SUPERIORITY|||||||0.998|||||||ANOVA|p-value indicates the interaction term||Tests of between-subjects effects||||.998
82587160|NCT03588728|164886748|SUPERIORITY|||||||0.348|||||||ANOVA|P-value indicates the interaction term||Tests of between-subjecs effects||||.348
82587161|NCT00820027|164886764|SUPERIORITY||Difference in Least Squares Mean|-0.49||||0.018|TWO_SIDED|95.0|-0.89|-0.08|||longitudinal data analysis (LDA)|Estimate from LDA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.||||-0.08|-0.89|0.018
82652864|NCT00249821|165020744|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||"Month 12: ANCOVA method with covariates height and age at baseline was used to calculate presented p-value."||||0.055
82587162|NCT00820027|164886764|SUPERIORITY||Difference in Least Squares Mean|-0.54||||0.009|TWO_SIDED|95.0|-0.95|-0.14|||LDA|Estimate from LDA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.||||-0.14|-0.95|0.009
82587163|NCT00820027|164886765|SUPERIORITY||Between-Treatment Ratio|0.69|||<|0.001|TWO_SIDED|95.0|0.56|0.85|||ANOVA|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|A ratio \<1 indicates a beneficial effect of Etoricoxib.|||0.85|0.56|<0.001
82587164|NCT00820027|164886765|SUPERIORITY||Between-Treatment Ratio|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.82|||ANOVA|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|A ratio \<1 indicates a beneficial effect of Etoricoxib.|||0.82|0.54|<0.001
82587165|NCT00820027|164886766|OTHER||Difference in Percent|0.5||||0.506|TWO_SIDED|95.0|-3.3|2.5|||Miettinen & Nurminen|||||2.5|-3.3|0.506
82587166|NCT00820027|164886766|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-3.8|1.7|||Miettinen & Nurminen|||||1.7|-3.8|>0.999
82587167|NCT00820027|164886766|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-3.8|1.7|||Miettinen & Nurminen|||||1.7|-3.8|>0.999
82587168|NCT00820027|164886766|OTHER||Difference in Percent|0.5||||0.316|TWO_SIDED|95.0|-1.3|2.5|||Miettinen & Nurminen|||||2.5|-1.3|0.316
82587169|NCT00820027|164886766|SUPERIORITY||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-1.7|1.7|||Miettinen & Nurminen|||||1.7|-1.7|>0.999
82587170|NCT00820027|164886766|OTHER||Difference in Percent|0.0|||>|0.999|TWO_SIDED|95.0|-1.7|3.8|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||3.8|-1.7|>0.999
82587171|NCT00820027|164886766|OTHER||Difference in Percent|-0.5||||0.309|TWO_SIDED|95.0|-2.5|1.2|||Miettinen & Nurminen|||||1.2|-2.5|0.309
82587172|NCT00820027|164886767|OTHER||Difference in Percent|-3.2||||0.054|TWO_SIDED|95.0|-9.2|0.1|||Miettinen & Nurminen|||||0.1|-9.2|0.054
82587173|NCT00820027|164886767|OTHER||Difference in Percent|-2.3||||0.209|TWO_SIDED|95.0|-8.4|1.2|||Miettinen & Nurminen|||||1.2|-8.4|0.209
82587174|NCT00820027|164886767|OTHER||Difference in Percent|-2.3||||0.227|TWO_SIDED|95.0|-8.4|1.3|||Miettinen & Nurminen|||||1.3|-8.4|0.227
82587175|NCT00820027|164886767|OTHER||Difference in Percent|-0.9||||0.415|TWO_SIDED|95.0|-3.7|1.6|||Miettinen & Nurminen|||||1.6|-3.7|0.415
82587176|NCT00820027|164886767|OTHER||Difference in Percent|-0.1||||0.965|TWO_SIDED|95.0|-3.0|2.8|||Miettinen & Nurminen|||||2.8|-3.0|0.965
82652865|NCT00926289|165020756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.5|||<|0.0001||95.0|-10.6|-6.4|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-6.4|-10.6|<0.0001
82652866|NCT00926289|165020757|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3|||<|0.0001||95.0|-9.3|-5.2|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-5.2|-9.3|<0.0001
82500244|NCT02564042|164691135|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-36.9|53.9|||||Difference between GSK2894512 1% BID and Vehicle BID at EW has been presented|||53.9|-36.9|
82587177|NCT00820027|164886767|OTHER||Difference in Percent|2.3||||0.227|TWO_SIDED|95.0|-1.3|8.4|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||8.4|-1.3|0.227
82587178|NCT00820027|164886767|OTHER||Difference in Percent|0.8||||0.437|TWO_SIDED|95.0|-1.7|3.6|||Miettinen & Nurminen|||||3.6|-1.7|0.437
82587179|NCT00820027|164886768|OTHER||Difference in Percent|0.5||||0.806|TWO_SIDED|95.0|-5.3|4.5|||Miettinen & Nurminen|||||4.5|-5.3|0.806
82587180|NCT00820027|164886768|OTHER||Difference in Percent|-1.8||||0.278|TWO_SIDED|95.0|-7.4|1.4|||Miettinen & Nurminen|||||1.4|-7.4|0.278
82587181|NCT00820027|164886768|OTHER||Difference in Percent|0.1||||0.971|TWO_SIDED|95.0|-5.7|3.9|||Miettinen & Nurminen|||||3.9|-5.7|0.971
82587182|NCT00820027|164886768|OTHER||Difference in Percent|0.5||||0.786|TWO_SIDED|95.0|-3.2|4.2|||Miettinen & Nurminen|||||4.2|-3.2|0.786
82587183|NCT00820027|164886768|OTHER||Difference in Percent|-1.8||||0.184|TWO_SIDED|95.0|-5.2|1.0|||Miettinen & Nurminen|||||1.0|-5.2|0.184
82587184|NCT00820027|164886768|OTHER||Difference in Percent|-0.1||||0.971|TWO_SIDED|95.0|-3.9|5.7|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||5.7|-3.9|0.971
82587185|NCT00820027|164886768|OTHER||Difference in Percent|-2.3||||0.113|TWO_SIDED|95.0|-5.8|0.6|||Miettinen & Nurminen|||||0.6|-5.8|0.113
82587186|NCT00820027|164886769|OTHER||Difference in Percent|-5.3||||0.365|TWO_SIDED|95.0|-17.0|6.0|||Miettinen & Nurminen|||||6.0|-17.0|0.365
82587187|NCT00820027|164886769|OTHER||Difference in Percent|-7.2||||0.222||95.0|-18.8|4.2|||Miettinen & Nurminen|||||4.2|-18.8|0.222
82587188|NCT00820027|164886769|OTHER||Difference in Percent|-5.5||||0.349|TWO_SIDED|95.0|-17.2|5.9|||Miettinen & Nurminen|||||5.9|-17.2|0.349
82587189|NCT00820027|164886769|OTHER||Difference in Percent|0.2||||0.965|TWO_SIDED|95.0|-8.7|9.0|||Miettinen & Nurminen|||||9.0|-8.7|0.965
82587190|NCT00820027|164886769|OTHER||Difference in Percent|-1.6||||0.718|TWO_SIDED|95.0|-10.5|7.3|||Miettinen & Nurminen|||||7.3|-10.5|0.718
82587191|NCT00820027|164886769|OTHER||Difference in Percent|5.5||||0.349|TWO_SIDED|95.0|-5.9|17.2|||Miettinen & Nurminen|||Placebo vs. Ibuprofen 1800 mg||17.2|-5.9|0.349
82587192|NCT00820027|164886769|OTHER||Difference in Percent|1.8||||0.684|TWO_SIDED|95.0|-7.0|10.6|||Miettinen & Nurminen|||||10.6|-7.0|0.684
82587193|NCT00820027|164886770|NON_INFERIORITY|Non-inferiority reached if the upper bound of the 95% confidence interval of the between-treatment difference (Etoricoxib minus Ibuprofen) in LS means is no greater than 1.|Difference in Least Squares Mean|-0.04|||||TWO_SIDED|95.0|-0.36|0.27||||||||0.27|-0.36|
82587194|NCT00820027|164886770|NON_INFERIORITY|Non-inferiority reached if the upper bound of the 95% confidence interval of the between-treatment difference (Etoricoxib minus Ibuprofen) in LS means is no greater than 1.|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.42|0.22||||||||0.22|-0.42|
82587195|NCT00820027|164886771|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.05|||||TWO_SIDED|95.0|0.89|1.23|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.23|0.89|
82652867|NCT00926289|165020758|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|||<|0.0001||95.0|-8.8|-4.7|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-4.7|-8.8|<0.0001
82652868|NCT00926289|165020759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|||<|0.0001||95.0|-4.5|-1.9|||ANCOVA|Fixed effects of treatment, week, treatment-by-week interaction, country with the continuous covariates of baseline and baseline-by-week interaction||T80+HCTZ25 versus T80 monotherapy||-1.9|-4.5|<0.0001
82652869|NCT00926289|165020760|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.36|||<|0.0001||95.0|1.74|3.21|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.21|1.74|<0.0001
82652870|NCT00926289|165020761|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.0001||95.0|1.7|3.12|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.12|1.70|<0.0001
82652871|NCT00926289|165020762|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19|||<|0.0001||95.0|1.6|3.01|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.01|1.60|<0.0001
82587196|NCT00820027|164886771|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.01|||||TWO_SIDED|95.0|0.85|1.18|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.18|0.85|
82652872|NCT00926289|165020763|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0|||<|0.0001||95.0|1.46|2.73|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||2.73|1.46|<0.0001
82652873|NCT00926289|165020764|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02|||<|0.0001||95.0|1.48|2.76|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||2.76|1.48|<0.0001
82652874|NCT00926289|165020765|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||0.0005||95.0|1.28|2.37|||Regression, Logistic|Adjustment for continuous covariate of baseline and fixed effect country||T80+HCTZ25 versus T80 monotherapy||2.37|1.28|0.0005
82500245|NCT02564042|164691135|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|-6.3|81.6|||||Difference between GSK2894512 1% QD and Vehicle QD at EW has been presented|||81.6|-6.3|
82587197|NCT00820027|164886771|OTHER|Estimate from ANOVA model with terms for baseline pain intensity, type of anesthesia, treatment, day, and interaction of day by treatment.|Between-Treatment Ratio|1.04|||||TWO_SIDED|95.0|0.89|1.23|||||A ratio \<1 indicates a beneficial effect of Etoricoxib.|||1.23|0.89|
82587198|NCT01128894|164886782|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was from a 1-sided t test testing whether or not the difference of least square means (albiglutide - liraglutide) was less than or equal to the prespecified noninferiority margin of 0.3%.|Mean Difference (Final Values)|0.21||||0.0846|TWO_SIDED|95.0|0.08|0.34|||ANCOVA|||||0.34|0.08|0.0846
82587199|NCT00195507|164886789|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53|||<|0.001||95.0|-0.64|-0.43|||ANCOVA|Treatment and center as main effects, and baseline score as a covariant.||||-0.43|-0.64|<0.001
82587200|NCT00195507|164886790|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82587201|NCT00195507|164886792|SUPERIORITY_OR_OTHER|||||||0.143|||||||Fisher Exact|||||||0.143
82587202|NCT02349451|164886796|SUPERIORITY||response rate difference|39.8|||<|0.001|TWO_SIDED|95.0|17.2|57.7||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group. The a priori statistical significance threshold is P = 0.025.|Fisher Exact|||||57.7|17.2|<0.001
82587203|NCT02349451|164886796|SUPERIORITY||response rate difference|50.3|||<|0.001|TWO_SIDED|95.0|28.1|67.4||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group. The a priori statistical significance threshold is P = 0.025.|Fisher Exact|||||67.4|28.1|<0.001
82587204|NCT02349451|164886797|SUPERIORITY||response rate difference|-3.3||||0.723|TWO_SIDED|95.0|-18.5|12.1||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||12.1|-18.5|0.723
82587205|NCT02349451|164886797|SUPERIORITY||response rate difference|7.3||||0.215|TWO_SIDED|95.0|-7.4|21.6||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||21.6|-7.4|0.215
82587206|NCT02349451|164886798|SUPERIORITY||response rate difference|24.1||||0.021|TWO_SIDED|95.0|3.9|39.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||39.3|3.9|0.021
82587207|NCT02349451|164886798|SUPERIORITY||response rate difference|-0.9||||0.611|TWO_SIDED|95.0|-16.5|14.8||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||14.8|-16.5|0.611
82587208|NCT02349451|164886798|SUPERIORITY||response rate difference|40.9|||<|0.001|TWO_SIDED|95.0|20.1|55.8||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||55.8|20.1|<0.001
82587209|NCT02349451|164886798|SUPERIORITY||response rate difference|15.9||||0.039|TWO_SIDED|95.0|-0.3|31.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||31.3|-0.3|0.039
82587210|NCT02349451|164886799|SUPERIORITY||response rate difference|18.4||||0.034|TWO_SIDED|95.0|1.5|29.7||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||29.7|1.5|0.034
82587211|NCT02349451|164886799|SUPERIORITY||response rate difference|7.3||||0.185|TWO_SIDED|95.0|-5.8|19.9||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||19.9|-5.8|0.185
82587212|NCT02349451|164886799|SUPERIORITY||response rate difference|27.3||||0.004|TWO_SIDED|95.0|9.6|39.0||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to placebo group.|Fisher Exact|||||39.0|9.6|0.004
82587213|NCT02349451|164886799|SUPERIORITY||response rate difference|16.2||||0.017|TWO_SIDED|95.0|2.3|29.3||P-value is calculated by one-sided Fisher's exact test to test whether ABT-122 treatment group is superior to adalimumab group.|Fisher Exact|||||29.3|2.3|0.017
82652875|NCT00926289|165020766|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39|||<|0.0001||95.0|1.76|3.26|||Regression, Logistic|Adjustment for continuous covariate of baseline (SBP), treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.26|1.76|<0.0001
82490472|NCT04729621|164674001|EQUIVALENCE|Biosimilarity will be demonstrated if the 95% CI for the difference falls entirely within the equivalence margin of (-20, +20).|Mean Difference (Net)|9.07|||||TWO_SIDED|95.0|-0.14|18.29||||||LS means, differences and confidence intervals (CI) from the ANCOVA model with percent change from baseline to Week 26 in sCTX-1 as the outcome, treatment group, region and previous use of bisphosphates as fixed effects, baseline sCTX-1 and baseline weight as covariates. Missing outcomes are not imputed. Results below the limit of quantification (BLQ) are imputed as the low limit of quantification (LLOQ = 0.033 ng/mL).||18.29|-0.14|
82587214|NCT02349451|164886800|SUPERIORITY||||||<|0.001||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with placebo group.|Kolmogorov-Smirnov test|||||||<0.001
82587215|NCT02349451|164886800|SUPERIORITY|||||||0.561||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with adalimumab group.|Kolmogorov-Smirnov test|||||||0.561
82652876|NCT00926289|165020767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.42|||<|0.0001||95.0|1.78|3.29|||Regression, Logistic|Adjustment for continuous covariate of baseline (DBP), treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.29|1.78|<0.0001
82652877|NCT00926289|165020768|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.0001||95.0|1.7|4.04|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||4.04|1.70|<0.0001
82490473|NCT00531934|164674104|SUPERIORITY_OR_OTHER|||||||0.175|||||||Chi-squared|||||||0.175
82490474|NCT00531934|164674107|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||Erlotinib + doxycycline vs Erlotinib: Grade 3 intensity skin rash (folliculitis)||||<0.001
82490475|NCT00531934|164674113|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.763||||0.143|TWO_SIDED|95.0|0.525|1.109|||Log Rank|||||1.109|0.525|0.143
82490476|NCT00531934|164674116|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.769||||0.153|TWO_SIDED|95.0|0.529|1.116|||Log Rank|||||1.116|0.529|0.153
82490477|NCT00531934|164674122|SUPERIORITY_OR_OTHER|||||||0.003|||||||Cochran-Mantel-Haenszel|||Erlotinib + doxycycline vs Erlotinib: Grade 3||||0.003
82490478|NCT04092582|164674239|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6835|TWO_SIDED|95.0|0.55|1.47|||Regression, Cox|||||1.47|0.55|0.6835
82490479|NCT04092582|164674240|SUPERIORITY||Rate Ratio|1.0989||||0.7648|TWO_SIDED|95.0|0.5925|2.0381|||Poisson regression|||||2.0381|0.5925|0.7648
82490480|NCT04092582|164674241|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.5248|TWO_SIDED|95.0|0.43|1.54|||Regression, Cox|||||1.54|0.43|0.5248
82490481|NCT04092582|164674242|SUPERIORITY|||||||0.125|||||||Mixed model for repeated measures (MMRM)|||||||0.1250
82490482|NCT04092582|164674243|SUPERIORITY|||||||0.2249|||||||Mixed model for repeated measures (MMRM)|||||||0.2249
82490483|NCT04092582|164674244|SUPERIORITY|||||||0.9693|||||||Mixed model for repeated measures (MMRM)|||||||0.9693
82490484|NCT04092582|164674245|SUPERIORITY|||||||0.9855|||||||Mixed model for repeated measures (MMRM)|||||||0.9855
82490485|NCT02280304|164674258|SUPERIORITY||||||>|0.05||||||A priori threshold = voxel p\<.001, cluster p\<.05, FDR whole brain correction. There is no correction for multiple seeds given small sample sizes and pre-post design. To report NS p-values and associated z-scores, uncorrected cluster ps were queried.|t-test, 1 sided|||Z-scores represent Fisher transformed correlation coefficients representing the correlations between hypothesized regions. Positive values represents positive connectivity between regions. Negative values represent anticorrelations, or negative relations, between hypothesized regions.||||>0.05
82490486|NCT02280304|164674259|OTHER||Mean Difference (Net)|1.8|||||TWO_SIDED|||||||||||||
82490487|NCT02280304|164674259|OTHER||Cohen's d|0.35|||||TWO_SIDED||||||||Cohen's d reflects Extent of Participation subscale of the CRIS, Post - Pre|||||
82490488|NCT02280304|164674259|OTHER||Median Difference (Net)|0.8|||||TWO_SIDED|||||||||||||
82490489|NCT02280304|164674259|OTHER||Cohen's d|0.14|||||TWO_SIDED||||||||Cohen's d reflects Extent of Participation Scale of the Cris pre- post|||||
82490490|NCT02280304|164674259|OTHER||Median Difference (Net)|0.8|||||TWO_SIDED|||||||||||||
82490491|NCT02280304|164674259|OTHER||Cohen's d|0.2|||||TWO_SIDED||||||||Cohens d reflects the Cris pre post Perceived Limitations scale|||||
82490492|NCT02280304|164674259|OTHER||Mean Difference (Net)|1.8|||||TWO_SIDED|||||||||||||
82490493|NCT02280304|164674259|OTHER||Cohens d|0.53|||||TWO_SIDED|||||||||||||
82490494|NCT02280304|164674259|OTHER||Mean Difference (Net)|1.3|||||TWO_SIDED|||||||||||||
82490495|NCT02280304|164674259|OTHER||Cohens d|0.29|||||TWO_SIDED|||||||||||||
82490496|NCT02280304|164674259|OTHER||Mean Difference (Net)|0.6|||||TWO_SIDED|||||||||||||
82490497|NCT02280304|164674259|OTHER||Cohens d|0.13|||||TWO_SIDED|||||||||||||
82490498|NCT02280304|164674260|OTHER||Cohens d|0.86|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d=.20 small, Cohen's d=.50 medium, Cohen's d=.80 large)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
82490499|NCT02280304|164674260|OTHER||Cohens d|0.3|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d=.20 small, Cohen's d=.50 medium, Cohen's d=.80 large)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
82490500|NCT02280304|164674261|OTHER||Cohens d|1.32|||||TWO_SIDED||||||||Cohen's d effect size change (Cohen's d =0.20 is a small effect; Cohen's d=0.50 is a medium effect; Cohen's d=0.80 is a large effect.)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
82490501|NCT02280304|164674261|OTHER||Cohens d|0.27|||||TWO_SIDED||||||||Cohen's d effect size (Cohen's d =0.20 is a small effect; Cohen's d=0.50 is a medium effect; Cohen's d=0.80 is a large effect.)|Cohen's d effect sizes are reported for changes over time (0 weeks vs. 12 weeks) in each group separately.||||
82490502|NCT02280304|164674262|SUPERIORITY||||||<|0.0099||||||The p-value obtained for the L PHG seed/L IPL cluster is 0.0099. The critical p-value after Bonferroni correction for multiple seeds is p=.008.|t-test, 2 sided|Significance is determined when clusters reach voxel threshold p\<.001, cluster p\<.05 FDR corrected for multiple comparisons across the whole brain.||||||<.0099
82490503|NCT02280304|164674262|SUPERIORITY||||||<|0.02||||||The p-value obtained for the L anterior PGH seed/left VMPC cluster is 0.02. The critical p-value after Bonferroni correction for six seeds is p=.008.|t-test, 2 sided|Significance is determined when clusters reach voxel threshold p\<.001, cluster p\<.05 FDR corrected for multiple comparisons across the whole brain.||||||<0.02
82587216|NCT02349451|164886800|SUPERIORITY||||||<|0.001||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with placebo group.|Kolmogorov-Smirnov test|||||||<0.001
82587217|NCT02349451|164886800|SUPERIORITY|||||||0.106||||||Kolmogorov-Smirnov test based on the empirical distribution function is applied to get the p-value of comparing the ABT-122 treatment group with adalimumab group.|Kolmogorov-Smirnov test|||||||0.106
82587218|NCT02349451|164886801|SUPERIORITY||Least squares mean difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.58|-0.57||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.57|-1.58|<0.001
82587219|NCT02349451|164886801|SUPERIORITY||Least squares mean difference|-0.13||||0.479|TWO_SIDED|95.0|-0.48|0.23||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.23|-0.48|0.479
82587220|NCT02349451|164886801|SUPERIORITY||Least squares mean difference|-1.4|||<|0.001|TWO_SIDED|95.0|-1.9|-0.89||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.89|-1.90|<0.001
82587221|NCT02349451|164886801|SUPERIORITY||Least squares mean difference|-0.45||||0.012|TWO_SIDED|95.0|-0.81|-0.1||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.10|-0.81|0.012
82587222|NCT02349451|164886802|SUPERIORITY||Least squares mean difference|-1.17|||<|0.001|TWO_SIDED|95.0|-1.81|-0.53||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.53|-1.81|<0.001
82587223|NCT02349451|164886802|SUPERIORITY||Least squares mean difference|-0.09||||0.696|TWO_SIDED|95.0|-0.54|0.36||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.36|-0.54|0.696
82587224|NCT02349451|164886802|SUPERIORITY||Least squares mean difference|-1.41|||<|0.001|TWO_SIDED|95.0|-2.04|-0.77||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.77|-2.04|<0.001
82587225|NCT02349451|164886802|SUPERIORITY||Least squares mean difference|-0.33||||0.151|TWO_SIDED|95.0|-0.77|0.12||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.12|-0.77|0.151
82587226|NCT02349451|164886803|SUPERIORITY||Least squares mean difference|-3.17|||<|0.001|TWO_SIDED|95.0|-4.14|-2.19||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-2.19|-4.14|<0.001
82587227|NCT02349451|164886803|SUPERIORITY||Least squares mean difference|-0.81||||0.021|TWO_SIDED|95.0|-1.51|-0.12||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-0.12|-1.51|0.021
82587228|NCT02349451|164886803|SUPERIORITY||Least squares mean difference|-2.73|||<|0.001|TWO_SIDED|95.0|-3.7|-1.75||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||-1.75|-3.70|<0.001
82587229|NCT02349451|164886803|SUPERIORITY||Least squares mean difference|-0.37||||0.288|TWO_SIDED|95.0|-1.06|0.32||Two-sided p-value is calculated from ANCOVA model with treatment group as the fixed factor and baseline value as the covariate.|ANCOVA|||||0.32|-1.06|0.288
82587230|NCT00186069|164886808|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.68|TWO_SIDED|95.0|0.77|1.86|||Fisher Exact|||||1.86|0.77|0.68
82587231|NCT00186069|164886809|SUPERIORITY_OR_OTHER|||||||0.52|||||||Wilcoxon (Mann-Whitney)|||||||0.52
82587232|NCT00186069|164886810|SUPERIORITY_OR_OTHER|||||||0.95|||||||Fisher Exact|||||||0.95
82498937|NCT03247530|164688875|SUPERIORITY||Least Square Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.85||0.0006|TWO_SIDED|95.0|-4.6|-1.2|||ANCOVA|||This statistical analysis pertains to the Inattention subscale score||-1.2|-4.6|0.0006
82587233|NCT02446886|164886819|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.04|TWO_SIDED||||||t-test, 2 sided|||Previously published reproducibility of our MWF imaging (FAST-T2) has been established to be +/- 2.0 Our hypothesis for this study was the monthly ACTH would lead to greater remylination in acute MS lesions. However, to reach this goal, improvement must be beyond established reproducibility. Note: Since MWF is a fraction of myelin water to total water, it does not have a unit.||||0.04
82587234|NCT02446886|164886824|SUPERIORITY||Mean Difference (Final Values)|1.65||||0.077|TWO_SIDED||||||Mixed Models Analysis|||Linear mixed-effects models were implemented to assess the variables of interest (lesion MWF) among patients randomized to once versus the monthly ACTH treatment group. The modeling strategy accounts for multiple lesions per patient, repeated measurements (longitudinal analysis) and the following covariates were always considered: patient age, gender, disease duration, individual T2w lesion volume, time on disease modifying treatments (DMT) prior to enrollment, and DMT during the study.|Linear mixed-effects models were implemented|||0.077
82587235|NCT00078754|164886846|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|TWO_SIDED||||||ANCOVA|||||||0.622
82587236|NCT00078754|164886847|SUPERIORITY|||||||0.029||||||LHA score main effect.|ANCOVA|The LHA Score F\[1,83\] = 4.91, p = 0.029; Condition F\[2,83\] = 0.20, p = 0.815; Condition x LHA Score F\[2,83\] = 0.255, p = 0.799.||The hypothesis was that subjects with LHA Scores = 18 or more would respond better to divalproex (than fluoxetine) while those with LHA scores = or \< 17 would respond better to fluoxetine (than divalproex).||||0.029
82587237|NCT00078754|164886847|SUPERIORITY||Mean Difference (Final Values)|19.0|STANDARD_ERROR_OF_MEAN|2.7||0.8|TWO_SIDED||||||ANCOVA|Baseline OAS-M Aggression score as covariate.||ANCOVA at endpoint with baseline OAS-M AGG score as covariate.||||0.80
82587238|NCT04668586|164886848|SUPERIORITY||||||<|0.006|||||||Chi-squared|||||||<0.006
82587239|NCT04668586|164886849|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|Adjusted for four-category stratification group.||||||0.008
82587240|NCT04668586|164886851|SUPERIORITY|||||||1|||||||Chi-squared|||||||1
82587241|NCT04668586|164886852|SUPERIORITY|||||||0.09|||||||Chi-squared, Corrected|Adjusted for four-category stratification group.||||||0.09
82587242|NCT00412971|164886853|SUPERIORITY_OR_OTHER||difference in recurrence rate|0.25||||0.05|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||0.05
82587243|NCT01106404|164886856|SUPERIORITY_OR_OTHER||binomial proportion|0.865|||<|0.001|ONE_SIDED|97.5|0.765||||Fisher Exact||In this ITT analysis, the combined percentage of subjects with improved pain relief and/or convenience during the AdaptiveStim programming relative to the manual programming in both groups was reported.|"ITT analysis:~Hypothesis: The percentage of subjects who succeed must be greater than 25%. H0: p ≤ 0.25 HA: p \> 0.25"|||0.765|< 0.001
82490504|NCT02280304|164674263|OTHER||Slope|0.02|||<|3.8e-05|TWO_SIDED|||||Cluster in MPFC p\<0.000038 FDR corrected for multiple comparisons across whole brain. Bonferroni correction for multiple seeds p=0.008.|Regression, Linear|Significance is determined when voxel (height) threshold p=.001, cluster threshold p=.05, FDR corrected for multiple tests across the whole brain.||The extent of community participation prior to therapy was correlated with the functional connectivity of the right hippocampus seed after therapy (post-pre).||||<.000038
82490505|NCT02280304|164674263|OTHER||Slope|0.02|||<|0.000149|TWO_SIDED|||||Cluster in the right cerebellum (crus 2) p\<0.000149 FDR corrected for multiple comparisons across the whole brain. Bonferroni for multiple seeds p=0.008.|Regression, Linear|Significance is determined when voxel (height) threshold p=.001, cluster threshold p=.05, FDR corrected for multiple tests across the whole brain.||The extent of community participation prior to therapy was correlated with the functional connectivity of the right hippocampus seed after therapy (post-pre).||||<0.000149
82498938|NCT03247530|164688875|SUPERIORITY||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.83|<|0.0001|TWO_SIDED|95.0|-5.2|-1.9|||ANCOVA|||This statistical analysis pertains to the Inattention subscale score||-1.9|-5.2|<0.0001
82587244|NCT01106404|164886856|SUPERIORITY_OR_OTHER||binomial proportion|0.901|||<|0.001|ONE_SIDED|97.5|0.807||||Fisher Exact||In this completed case analysis, the combined percentage of subjects with improved pain relief and/or convenience during the AdaptiveStim programming relative to the manual programming in both groups was reported.|Completed case analysis|||0.807|< 0.001
82587245|NCT01106404|164886857|SUPERIORITY_OR_OTHER||binomial proportion|0.028|||||TWO_SIDED|95.0|0.003|0.098|||||The combined percentage of subjects with worsened pain relief was reported.|||0.098|0.003|
82587246|NCT01106404|164886858|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.8|STANDARD_DEVIATION|51.9|<|0.001||95.0|||||Wilcoxon signed rank test|||||||< 0.001
82587247|NCT01106404|164886859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.77|STANDARD_DEVIATION|1.93|<|0.001||95.0|||||Wilcoxon signed rank test|||||||< 0.001
82587248|NCT01106404|164886859|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|2.04|<|0.001|TWO_SIDED|95.0|||||Wilcoxon signed rank test|||||||< 0.001
82587249|NCT00752622|164886923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to evaluation Week 10.||||<.0001
82587250|NCT00752622|164886923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to Week 30 of the Observational Phase.||||<.0001
82587251|NCT00752622|164886923|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test, 2 sided|||Comparison of Infliximab from Induction baseline to Week 54 of the Observational Phase.||||<.0001
82587252|NCT03566810|164887003|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric Least Square(LS)Mean%|98.69|||||TWO_SIDED|90.0|92.2|105.64||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||105.64|92.20|
82587253|NCT03566810|164887003|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|99.39|||||TWO_SIDED|90.0|93.15|106.05||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||106.05|93.15|
82587254|NCT03566810|164887004|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|98.92|||||TWO_SIDED|90.0|91.08|107.44||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||107.44|91.08|
82587255|NCT03566810|164887004|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|96.89|||||TWO_SIDED|90.0|89.87|104.46||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||104.46|89.87|
82587256|NCT03566810|164887005|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Median point estimate difference|0.0|||||TWO_SIDED|90.0|-0.5|0.0||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||0.00|-0.50|
82587257|NCT03566810|164887005|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Median point estimate difference|0.0|||||TWO_SIDED|90.0|-0.5|0.5||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||0.50|-0.50|
82587258|NCT03566810|164887007|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|97.89|||||TWO_SIDED|90.0|91.38|104.86||||||Statistical Comparison of Test GXR Versus Reference GXR under Fasting conditions.||104.86|91.38|
82587259|NCT03566810|164887007|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Ratio of Geometric LS Mean Percentage|98.08|||||TWO_SIDED|90.0|92.37|104.14||||||Statistical Comparison of Test GXR Versus Reference GXR under Fed conditions.||104.14|92.37|
82587260|NCT02425644|164887027|SUPERIORITY||Rate ratio|0.695||||0.0003|TWO_SIDED|99.0|0.536|0.902|||Negative binomial regression model|||||0.902|0.536|0.0003
82587261|NCT02425644|164887028|SUPERIORITY||Mean Difference (Final Values)|-3.57||||0.0019|TWO_SIDED|95.0|-5.83|-1.32|||Mixed Models Analysis|||||-1.32|-5.83|0.0019
82587262|NCT02425644|164887029|SUPERIORITY||Rate Ratio|0.444|||<|0.0001|TWO_SIDED|95.0|0.364|0.542|||Negative binomial regression model|||||0.542|0.364|<.0001
82587263|NCT02425644|164887030|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.2939|TWO_SIDED|95.0|0.58|1.18|||Log Rank|||||1.18|0.58|0.2939
82587264|NCT02425644|164887031|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.372|TWO_SIDED|95.0|0.57|1.24|||Log Rank|||||1.24|0.57|0.3720
82587265|NCT00696761|164887090|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Kruskal-Wallis|||||||<0.05
82587266|NCT00696761|164887091|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||Kruskal-Wallis|||The Kruskal-Wallis test, analysis of variance, and the Wilcoxon signed rank-sum test were used to compare changes from baseline to endpoint after treatment.||||<0.05
82652878|NCT00926289|165020769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23|||<|0.0001||95.0|1.57|3.16|||Regression, Logistic|Adjustment for continuous covariate of baseline, treatment and country as fixed effects.||T80+HCTZ25 versus T80 monotherapy||3.16|1.57|<0.0001
82652879|NCT00926289|165020770|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Van Elteren test stratified for country|||T80+HCTZ25 versus T80 monotherapy||||<0.0001
82652880|NCT00319956|165020771|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.20
82652881|NCT01202747|165020780|SUPERIORITY_OR_OTHER|||||||0.0005||||||p\<0.05 considered statistically significant|Regression, Linear|||||||0.0005
82587267|NCT03291587|164887108|SUPERIORITY|With 418 analyzable participants across 13 clinics per group, we have 80% power to detect a group difference in primary outcome (7-day abstinence). This assumes control abstinence rate will be 10% versus 20% intervention rate using a 2-sided Z-test for proportions with alpha=0.05 (2-sided). To account for the clustering we used an intra-class correlation value of 0.03. We plan to enroll 1114-1300 patients (or approximately 42-50 per site) to conservatively allow for 25%- 35.5% loss to follow-up.|Odds Ratio (OR)|0.967||||0.865|TWO_SIDED|96.0|0.652|1.433|||Mixed Models Analysis|||A generalized estimating equation marginal model was used in an intent-to-treat analysis to predict the 7-day tobacco use binary outcome. A binomial distribution with logit link was specified with group, time, and the interaction of group by time included as covariates while allowing intercept and time to vary by participants within site with an exchangeable working correlation matrix designation.||1.433|0.652|0.865
82587268|NCT00267631|164887137|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Chi-squared|||||||.026
82587269|NCT00381303|164887138|NON_INFERIORITY_OR_EQUIVALENCE|Test for non-inferiority (Delta=15%)|Mean Difference (Final Values)|-9.6|STANDARD_ERROR_OF_MEAN|0.052||0.3|TWO_SIDED|95.0|-19.85|0.68||P-Value for difference (Female - Male): Test for non-inferiority (Delta=15%)|Regression, Logistic|Estimates from logistic regression analysis include baseline log10 viral load and baseline CD4 cell count as covariates and gender as a factor.||"Confidence interval of the difference in proportion of response between two sexes estimated by:~* Application of delta method to be obtained Standard Error (SE)~* Calculation of lower and upper bound using normal approximation to the difference in response rates"||0.68|-19.85|0.30
82587270|NCT03933774|164887195|SUPERIORITY|||||||0.002||||||P value \< 0.05 was considered significant.|t-test, 2 sided|||Null hypothesis: The degree of hyperpigmentation is the same between the tretinoin applied side and placebo applied side.||||0.002
82587271|NCT03933774|164887196|SUPERIORITY|||||||0.479||||||P value \< 0.05 was considered significant.|McNemar|||Null hypothesis: The number of participants who showed ≥75% repigmentation is the same between the tretinoin applied side and placebo applied side.||||0.479
82587272|NCT01777269|164887197|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.0|||<|0.001|TWO_SIDED|95.0|-10.22|-5.79|||mixed-model repeated-measures|||||-5.79|-10.22|<0.001
82587273|NCT01777269|164887198|SUPERIORITY_OR_OTHER||Adjusted mean difference|-4.11|||<|0.001|TWO_SIDED|95.0|-6.01|-2.21|||mixed-model repeated-measures||Month 1|||-2.21|-6.01|<0.001
82587274|NCT01777269|164887198|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.43|||<|0.001|TWO_SIDED|95.0|-8.45|-4.41|||Adjusted mean difference||Month 3|||-4.41|-8.45|<0.001
82587275|NCT01777269|164887198|SUPERIORITY_OR_OTHER||Adjusted mean difference|-9.04|||<|0.001|TWO_SIDED|95.0|-11.31|-6.77|||mixed-model repeated-measures||Month 6|||-6.77|-11.31|<0.001
82587276|NCT01777269|164887198|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.82|||<|0.001|TWO_SIDED|95.0|-10.96|-6.67|||mixed-model repeated-measures||Month 9|||-6.67|-10.96|<0.001
82587277|NCT01777269|164887200|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.2||||0.37|TWO_SIDED|95.0|-0.62|0.23|||mixed-model repeated-measures||Month 1|||0.23|-0.62|0.37
82587278|NCT01777269|164887200|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.24||||0.33|TWO_SIDED|95.0|-0.71|0.24|||mixed-model repeated-measures||Month 3|||0.24|-0.71|0.33
82587279|NCT01777269|164887200|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.37||||0.16|TWO_SIDED|95.0|-0.88|0.15|||mixed-model repeated-measures||Month 6|||0.15|-0.88|0.16
82587280|NCT01777269|164887200|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.68||||0.009|TWO_SIDED|95.0|-1.19|-0.17|||mixed-model repeated-measures||Month 9|||-0.17|-1.19|0.009
82587281|NCT01777269|164887200|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46||||0.091|TWO_SIDED|95.0|-0.99|0.07|||mixed-model repeated-measures||Month 12|||0.07|-0.99|0.091
82587282|NCT01777269|164887201|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.89|||<|0.001|TWO_SIDED|95.0|-4.07|-1.7|||mixed-model repeated-measures||Month 1|||-1.70|-4.07|<0.001
82498939|NCT03247530|164688875|SUPERIORITY||Least Square Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.83||0.0026|TWO_SIDED|95.0|-4.1|-0.9|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.9|-4.1|0.0026
82587283|NCT01777269|164887201|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.24|||<|0.001|TWO_SIDED|95.0|-6.59|-3.9|||mixed-model repeated-measures||Month 3|||-3.90|-6.59|<0.001
82587284|NCT01777269|164887201|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.82|||<|0.001|TWO_SIDED|95.0|-8.3|-5.34|||mixed-model repeated-measures||Month 6|||-5.34|-8.30|<0.001
82587285|NCT01777269|164887201|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.05|||<|0.001|TWO_SIDED|95.0|-8.51|-5.59|||mixed-model repeated-measures||Month 9|||-5.59|-8.51|<0.001
82587286|NCT01777269|164887201|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.92|||<|0.001|TWO_SIDED|95.0|-8.47|-5.38|||mixed-model repeated-measures||Month 12|||-5.38|-8.47|<0.001
82587287|NCT01777269|164887202|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.94||||0.012|TWO_SIDED|95.0|-1.67|-0.21|||mixed-model repeated-measures||Month 1|||-0.21|-1.67|0.012
82587288|NCT01777269|164887202|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.93||||0.017|TWO_SIDED|95.0|-1.69|-0.17|||mixed-model repeated-measures||Month 3|||-0.17|-1.69|0.017
82587289|NCT01777269|164887202|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|||<|0.001|TWO_SIDED|95.0|-2.57|-0.88|||mixed-model repeated-measures||Month 6|||-0.88|-2.57|<0.001
82587290|NCT01777269|164887202|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15||||0.009|TWO_SIDED|95.0|-2.01|-0.3|||mixed-model repeated-measures||Month 9|||-0.30|-2.01|0.009
82587291|NCT01777269|164887202|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83||||0.047|TWO_SIDED|95.0|-1.65|-0.01|||mixed-model repeated-measures||Month 12|||-0.01|-1.65|0.047
82587292|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.65|||<|0.001|TWO_SIDED|95.0|-2.45|-0.85|||mixed-model repeated-measures||Week 2|||-0.85|-2.45|<0.001
82587293|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.55||||0.24|TWO_SIDED|95.0|-1.47|0.37|||mixed-model repeated-measures||Month 1|||0.37|-1.47|0.24
82587294|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.27||||0.006|TWO_SIDED|95.0|-2.19|-0.36|||mixed-model repeated-measures||Month 3|||-0.36|-2.19|0.006
82587295|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.73|||<|0.001|TWO_SIDED|95.0|-2.74|-0.72|||mixed-model repeated-measures||Month 6|||-0.72|-2.74|<0.001
82587296|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.34||||0.013|TWO_SIDED|95.0|-2.4|-0.28|||mixed-model repeated-measures||Month 9|||-0.28|-2.40|0.013
82587297|NCT01777269|164887203|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.97|||<|0.001|TWO_SIDED|95.0|-3.12|-0.83|||mixed-model repeated-measures||Month 12|||-0.83|-3.12|<0.001
82587298|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.4||||0.036|TWO_SIDED|95.0|-0.78|-0.03|||mixed-model repeated-measures||Week 2|||-0.03|-0.78|0.036
82587299|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0||||1|TWO_SIDED|95.0|-0.37|0.37|||mixed-model repeated-measures||Month 1|||0.37|-0.37|1.00
82587300|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.26||||0.21|TWO_SIDED|95.0|-0.67|0.15|||mixed-model repeated-measures||Month 3|||0.15|-0.67|0.21
82587301|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.62||||0.009|TWO_SIDED|95.0|-1.09|-0.15|||mixed-model repeated-measures||Month 6|||-0.15|-1.09|0.009
82587302|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.45||||0.056|TWO_SIDED|95.0|-0.91|0.01|||mixed-model repeated-measures||Month 9|||0.01|-0.91|0.056
82587303|NCT01777269|164887204|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.58||||0.023|TWO_SIDED|95.0|-1.08|-0.08|||mixed-model repeated-measures||Month 12|||-0.08|-1.08|0.023
82587304|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.0|||<|0.001|TWO_SIDED|95.0|-3.89|-2.1|||mixed-model repeated-measures||Week 2|||-2.10|-3.89|<0.001
82587305|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.1|||<|0.001|TWO_SIDED|95.0|-3.15|-1.06|||mixed-model repeated-measures||Month 1|||-1.06|-3.15|<0.001
82587306|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.11|||<|0.001|TWO_SIDED|95.0|-3.25|-0.98|||mixed-model repeated-measures||Month 3|||-0.98|-3.25|<0.001
82587307|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.53|||<|0.001|TWO_SIDED|95.0|-3.76|-1.3|||mixed-model repeated-measures||Month 6|||-1.30|-3.76|<0.001
82587308|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.3||||0.042|TWO_SIDED|95.0|-2.56|-0.05|||mixed-model repeated-measures||Month 9|||-0.05|-2.56|0.042
82587309|NCT01777269|164887205|SUPERIORITY_OR_OTHER||Adjusted mean difference|-3.51|||<|0.001|TWO_SIDED|95.0|-4.87|-2.14|||mixed-model repeated-measures||Month 12|||-2.14|-4.87|<0.001
82587310|NCT01777269|164887206|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.78|||<|0.001|TWO_SIDED|95.0|-10.07|-5.49|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=2 points improvement at any time post-baseline visit|||-5.49|-10.07|<0.001
82587311|NCT01777269|164887206|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.39|||<|0.001|TWO_SIDED|95.0|-9.79|-4.99|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=3 points improvement at any time post-baseline visit|||-4.99|-9.79|<0.001
82587312|NCT01777269|164887207|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.79|||<|0.001|TWO_SIDED|95.0|-10.22|-5.35|||mixed-model repeated-measures||Par. with IPSS change from baseline \>=25 points improvement at any time post-baseline visit|||-5.35|-10.22|<0.001
82498940|NCT03247530|164688875|SUPERIORITY||Least Square Mean Difference|-3.2|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-4.8|-1.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-1.7|-4.8|<0.0001
82587313|NCT00504881|164887209|SUPERIORITY_OR_OTHER||Percent Reduction over Placebo|7.3|||=|0.125|TWO_SIDED|95.0|-2.2|15.9|||ANCOVA|||ANCOVA on log-transformed partial seizure frequency per week over the treatment period, with log-transformed baseline seizure frequency per week as covariate, and including terms for treatment and stratification factors.||15.9|-2.2|=0.125
82587314|NCT01783041|164887243|OTHER||||||<|0.05||||||These are calculated p values.|ANOVA|Differences in continuous and categorical variables were compared using ANOVA and either Chi square test or Fisher's exact test, respectively.||||||<0.05
82587315|NCT01783041|164887244|OTHER||||||<|0.05||||||These are calculated p values.|Wilcoxon (Mann-Whitney)|This analysis applies to all sub-scales that were compared between the 2 study groups.||||||<0.05
82587316|NCT01783041|164887245|OTHER||||||<|0.05||||||Reported p values have been calculated.|t-test, 2 sided|Differences between the groups were analyzed using a two sided t-test.||||||<0.05
82587317|NCT01783041|164887246|OTHER||||||<|0.05||||||These are calculated p values.|ANOVA|Differences in continuous and categorical variables were compared using ANOVA and either Chi square test or Fisher's exact test, respectively.||||||<0.05
82587318|NCT00803270|164887282|SUPERIORITY_OR_OTHER||Difference of proportions|0.08|STANDARD_ERROR_OF_MEAN|0.19||0.99|TWO_SIDED|95.0|-0.28|0.44|||Fisher Exact|||||0.44|-0.28|0.99
82587319|NCT00803270|164887283|SUPERIORITY_OR_OTHER||difference of proportions|0.45|STANDARD_ERROR_OF_MEAN|0.21||0.08|TWO_SIDED|95.0|0.03|0.87||Fisher's Exact Test of equality of percent meeting optimal outcome.|Fisher Exact|||||0.87|0.03|0.08
82587320|NCT01966471|164887286|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.827||95.0|0.71|1.32|||Log Rank|||||1.32|0.71|0.8270
82587321|NCT01966471|164887287|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.9291||95.0|0.77|1.34|||Log Rank|||||1.34|0.77|0.9291
82587322|NCT01966471|164887288|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8756||95.0|0.74|1.3|||Log Rank|||||1.30|0.74|0.8756
82587323|NCT01966471|164887289|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9341||95.0|0.75|1.31|||Log Rank|||||1.31|0.75|0.9341
82587324|NCT01966471|164887290|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4577||95.0|0.61|1.25|||Log Rank|||||1.25|0.61|0.4577
82587325|NCT01966471|164887291|SUPERIORITY||Hazard Ratio (HR)|1.24||||0.2864||95.0|0.83|1.84|||Log Rank|||||1.84|0.83|0.2864
82587326|NCT02092220|164887298|SUPERIORITY||Mean Difference (Final Values)|-20.28|STANDARD_DEVIATION|24.59|<|0.0001|TWO_SIDED|95.0|-28.0|-12.56||Repeated measures model.|t-test, 2 sided||Bionic Pancreas Arm - Usual Care Arm|||-12.56|-28.00|<0.0001
82587327|NCT02092220|164887299|SUPERIORITY||Mean Difference (Final Values)|1.3|||<|0.0001|TWO_SIDED|95.0|0.8|1.8||Repeated measures model.|t-test, 2 sided|||||1.8|0.8|<0.0001
82587328|NCT00593957|164887331|SUPERIORITY_OR_OTHER||||||<|0.4|||||||t-test, 2 sided|||||||<0.40
82587329|NCT00593957|164887331|SUPERIORITY_OR_OTHER||||||<|0.62||95.0|||||t-test, 2 sided|||||||<0.62
82587330|NCT00593957|164887331|SUPERIORITY_OR_OTHER||||||<|0.38||95.0|||||t-test, 2 sided|||||||<0.38
82587331|NCT00593957|164887333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.38|||<|0.1|||||||ANOVA|||Null hypothesis is that there would be no significant difference in social abilities as measured by the SSI score in this treatment group baseline to 6 months post-treatment.||||<0.10
82587332|NCT00593957|164887333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|||<|0.5|||||||ANOVA|||||||<0.50
82587333|NCT00593957|164887333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|||<|0.48|||||||ANOVA|||||||<0.48
82587334|NCT00593957|164887334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.947|||<|0.05|||||||ANOVA|||||||<0.05
82587335|NCT02411578|164887335|SUPERIORITY|||||||0.99||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||For the crossover trial primary analysis, analyzed events were study treatment events meeting the following criteria: a) a survey was completed in the smart phone application, b) the initial BG measurement was 40 to 69 mg/dL, c) BG measurements were performed at both the 15-minute (in a window of 13 to 20 minutes) and 30-minute (28 to 40 minutes) time points, and d) appropriate treatment including dose was taken both at the initial and 15-minute time points.||||0.99
82587336|NCT02411578|164887336|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.34
82587337|NCT02411578|164887337|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.01
82587338|NCT02411578|164887338|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.02
82587339|NCT02411578|164887339|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.86
82587340|NCT02411578|164887340|SUPERIORITY|||||||0.95|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.95
82587341|NCT02411578|164887341|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.78
82587342|NCT02411578|164887342|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.21
82587343|NCT02411578|164887343|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.09
82587344|NCT02411578|164887344|SUPERIORITY|||||||0.49|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.49
82587345|NCT02411578|164887345|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.63
82587346|NCT02411578|164887346|SUPERIORITY|||||||0.41|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.41
82587347|NCT02411578|164887347|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.80
82587348|NCT02411578|164887348|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.13
82587349|NCT02411578|164887349|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis|Analyzed with generalized linear mixed model with an identity link. Due to violations of normality, rank transformations were used in model.||||||0.70
82498941|NCT03247530|164688876|SUPERIORITY||Least Square Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.2||0.1292|TWO_SIDED|95.0|-4.2|0.5|||ANCOVA|||||0.5|-4.2|0.1292
82587350|NCT02411578|164887350|SUPERIORITY|||||||0.93||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.93
82587351|NCT02411578|164887351|SUPERIORITY|||||||0.66||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.66
82587352|NCT02411578|164887352|SUPERIORITY|||||||0.08||||||Proportions of successes in each arm were compared using a generalized linear mixed model with a logistic link function, random participant effect to account for correlated data from some pts having multiple events, and adjustment for baseline BG.|Mixed Models Analysis|||||||0.08
82587353|NCT01231516|164887389|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority of DTG 50 mg and RAL at Week 48 can be concluded if the lower bound of a two-sided 95% confidence interval (CI) for the difference in percentages (DTG - RAL) is greater than -12%. If non-inferiority were established, superiority would be tested at the nominal 5% level based on a pre-specified testing procedure.|Difference in percentage|7.4||||0.03|TWO_SIDED|95.0|0.7|14.2||P-value is for test of superiority.|Cochran-Mantel-Haenszel|Adjusted difference in proportion which is based on the difference in percentage, adjusted for Baseline (BL) stratification factors.|Analysis was adjusted for BL stratification factors: HIV-1 RNA (\<=50000 versus \[vs\]\>50000 c/mL), darunavir-ritonavir use without primary protease inhibitor mutations (yes vs no), and phenotypic susceptibility score (2 vs \<2) to background regimen.|||14.2|0.7|0.030
82587354|NCT05266586|164887405|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
82587355|NCT05266586|164887406|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
82587356|NCT05266586|164887407|SUPERIORITY||Least Squares (LS) Means|-58.38|STANDARD_ERROR_OF_MEAN|5.138|<|0.0001|TWO_SIDED|95.0|-68.59|-48.18|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-48.18|-68.59|<.0001
82587357|NCT05266586|164887408|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
82652882|NCT02292238|165020800|OTHER||Mean Difference (Net)|1.8691|STANDARD_DEVIATION|5.5727||0.125|TWO_SIDED|||||Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|t-test, 2 sided|Equal variance t-test.||Power was calculated based on expected difference in change on the ADAS-Cog of 3 points between the treatment and control groups. Estimates based on using a two-sided alpha of 0.05 and a standard deviation of 4, enrolling 29 patients per group, (N = 58) suggest 80% power to detect a mean change of 3 between treatment and placebo.||||0.125
82652883|NCT02292238|165020801|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-0.00184|STANDARD_DEVIATION|0.0225||0.7529|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.7529
82587358|NCT05266586|164887409|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
82587359|NCT05266586|164887410|SUPERIORITY||Least Squares (LS) Means|-58.15|STANDARD_ERROR_OF_MEAN|5.195|<|0.0001|TWO_SIDED|95.0|-68.47|-47.83|||ANCOVA|||||-47.83|-68.47|<.0001
82587360|NCT05266586|164887411|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
82587361|NCT05266586|164887412|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
82587362|NCT05266586|164887413|SUPERIORITY||Least Squares (LS) Means|-38.35|STANDARD_ERROR_OF_MEAN|5.397|<|0.0001|TWO_SIDED|95.0|-49.07|-27.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-27.63|-49.07|<.0001
82587363|NCT05266586|164887414|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
82587364|NCT05266586|164887415|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
82587365|NCT05266586|164887416|SUPERIORITY||Least Squares (LS) Means|-37.21|STANDARD_ERROR_OF_MEAN|5.465|<|0.0001|TWO_SIDED|95.0|-48.07|-26.35|||ANCOVA|||||-26.35|-48.07|<.0001
82587366|NCT05266586|164887417|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
82587367|NCT05266586|164887418|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
82652884|NCT02292238|165020802|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-1.0636|STANDARD_DEVIATION|4.8176||0.3687|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.3687
82652885|NCT02292238|165020803|OTHER||Mean Difference (Net)|1.8203|STANDARD_DEVIATION|13.8988||0.485|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.4850
82652886|NCT02292238|165020804|OTHER||Mean Difference (Net)|0.1907|STANDARD_DEVIATION|0.3097||0.0337|TWO_SIDED|||||The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|Equal variance t-test.||||||0.0337
82652887|NCT02292238|165020805|OTHER|Univariable (unadjusted) and a priori threshold for statistical significance is 0.05.|Mean Difference (Net)|-1.6161|STANDARD_DEVIATION|5.6812||0.315|TWO_SIDED||||||t-test, 2 sided|Equal variance t-test.||||||0.315
82652888|NCT02041702|165020828|SUPERIORITY|The 2-sided 90% confidence interval (CI) was calculated using the Clopper-Pearson method.|Ratio|100.0|||<|0.01|TWO_SIDED|90.0|97.6|100.0|||Clopper-Pearson|Clopper-Pearson CI for the binomial proportion|The null hypothesis would be rejected if the lower bound of the 2-sided 90% confidence interval was greater than 90%.|The hypothesis was: H0: P≤ 90% vs H1: P\>90% P: The proportion of subjects free from MRI scan related complications at 1 month post MRI scan in cardiac MRI scan group||100|97.6|<0.01
82587368|NCT05266586|164887419|SUPERIORITY||Least Squares (LS) Means|-35.68|STANDARD_ERROR_OF_MEAN|3.8|<|0.0001|TWO_SIDED|95.0|-43.23|-28.13|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-28.13|-43.23|<.0001
82587369|NCT05266586|164887420|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
82587370|NCT05266586|164887421|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
82587371|NCT05266586|164887422|SUPERIORITY||Least Squares (LS) Means|-22.28|STANDARD_ERROR_OF_MEAN|3.991|<|0.0001|TWO_SIDED|95.0|-30.21|-14.36|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.36|-30.21|<.0001
82587372|NCT02876835|164887436|NON_INFERIORITY|Non-inferiority was achieved if the upper limit of the two-sided 95% CI for the hazard ratio was below the pre-specified non-inferiority margin of 1.25.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.89|1.19|||||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.19|0.89|
82587373|NCT02876835|164887437|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than -0.75 g/dL.|Least square (LS) mean difference|0.08|||||TWO_SIDED|95.0|0.03|0.13||||||||0.13|0.03|
82587374|NCT02876835|164887438|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.670884|TWO_SIDED|95.0|0.89|1.19||The p-value was compared against 0.008333 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.19|0.89|0.670884
82652889|NCT02041702|165020829|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-0.9||||0.0007|TWO_SIDED|90.0|-5.6|3.8|||Farrington-Manning Test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL\>-10%~* PMRI: the success rate in the Cardiac MRI scan group for the change in right atrial capture threshold @0.5ms at 1month post MRI compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in the Control group for the change in right atrial capture threshold @0.5ms at 1month post MRI compared to pre-MRI scan value collected at MRI scan visit"||3.8|-5.6|0.0007
82587375|NCT02876835|164887439|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.800813|TWO_SIDED|95.0|0.93|1.22||The p-value was compared against 0.012500 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.22|0.93|0.800813
82652890|NCT02041702|165020830|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-1.7||||0.0012|TWO_SIDED|90.0|-6.2|2.8|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in the Cardiac MRI Scan Group for change in RV capture threshold value @0.5ms at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in Control Group for change in RV capture threshold value @0.5ms at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||2.8|-6.2|0.0012
82652891|NCT02041702|165020831|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|-2.7||||0.0446|TWO_SIDED|90.0|-9.8|4.3|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was:H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in MRI Scan Group for change in RA sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in Control Group for change in RA sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||4.3|-9.8|0.0446
82587376|NCT02876835|164887440|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.886195|TWO_SIDED|95.0|0.95|1.24||The p-value was compared against 0.025000 based on the Holm-Bonferonni adjustment.|Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.24|0.95|0.886195
82587377|NCT02876835|164887441|SUPERIORITY||Subdistribution hazard ratio|0.98||||0.36947|TWO_SIDED|95.0|0.84|1.13|||Wald test||Subdistribution hazard ratio was estimated using Fine and Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.13|0.84|0.369470
82587378|NCT02876835|164887442|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6197|TWO_SIDED|95.0|0.87|1.2|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.20|0.87|0.6197
82587379|NCT02876835|164887443|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.8976|TWO_SIDED|95.0|0.91|1.58|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.58|0.91|0.8976
82587380|NCT02876835|164887444|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6581|TWO_SIDED|95.0|0.8|1.4|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.40|0.80|0.6581
82587381|NCT02876835|164887445|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.894|TWO_SIDED|95.0|0.85|2.07|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||2.07|0.85|0.8940
82587382|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.9422|TWO_SIDED|95.0|0.98|1.23|||Chi-squared||Overall HR is presented using Model 1. Model 1 assumed a common treatment effect, regardless of number of events experienced. HR was estimated using a Prentice, Williams and Peterson(PWP) model, with treatment, dialysis type and region as covariates.|||1.23|0.98|0.9422
82587383|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8862|TWO_SIDED|95.0|0.95|1.24|||Chi-squared||First Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. Hazard Ratio (HR) was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.24|0.95|0.8862
82587384|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.6789|TWO_SIDED|95.0|0.82|1.39|||Chi-squared||Second Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.39|0.82|0.6789
82587385|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.37||||0.9016|TWO_SIDED|95.0|0.85|2.19|||Chi-squared||Third Event Hazard ratio is presented using Model 2. Model 2 assumed treatment effect differs by number of events experienced. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||2.19|0.85|0.9016
82587386|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.8862|TWO_SIDED|95.0|0.95|1.24|||Chi-squared||First Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.24|0.95|0.8862
82587387|NCT02876835|164887446|SUPERIORITY||Hazard Ratio (HR)|1.16||||0.8989|TWO_SIDED|95.0|0.92|1.46|||Chi-squared||Subsequent Event Hazard ratio is presented using Model 3. Model 3 assumed treatment effect for first event differs from a common effect for subsequent events. HR was estimated using a PWP model, with treatment, dialysis type and region as covariates.|||1.46|0.92|0.8989
82587388|NCT02876835|164887447|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.7673|TWO_SIDED|95.0|0.88|1.33|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.33|0.88|0.7673
82587389|NCT02876835|164887448|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.8601|TWO_SIDED|95.0|0.96|1.15|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.15|0.96|0.8601
82587390|NCT02876835|164887449|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.6207|TWO_SIDED|95.0|0.86|1.22|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.22|0.86|0.6207
82490506|NCT00533897|164674264|SUPERIORITY_OR_OTHER||estimate of difference|9.59||||0.119|TWO_SIDED|95.0|0.83|18.34||There was no adjustment made for multiple comparisons.|Chi-squared, Corrected|||A continuity corrected Chi-square test was used to compare percentage of positive antibody responses of SC placebo vs. SC abatacept (Period II treatment groups) on Day 169. P-value was evaluated at 0.05 significance level (2-sided). 95% confidence interval (CI) for difference (SC PLA - SC ABA) between ABA and PLA in the immunogenicity rates was also calculated. Point estimates of the immunogenicity rates within the two Period II treatment group and the corresponding 95% CIs were also provided.||18.34|0.83|0.119
82490507|NCT00533897|164674265|SUPERIORITY_OR_OTHER||Estimate of Difference|4.88|||||TWO_SIDED|95.0|-4.5|14.25||||||Immunogenicity rates of the Period II treatment groups on Day 253 were analyzed similarly as on Day 169. However, no statistical test was carried out and no p-value was provided. Provided were: point estimates of the immunogenicity rates within the Period II treatment groups and corresponding 95% CIs, and point estimate for the difference in immunogenicity rates between these groups and corresponding 95% CI. There was no adjustment made for multiple comparisons.||14.25|-4.50|
82587391|NCT02876835|164887450|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.9393|TWO_SIDED|95.0|0.97|1.26|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.26|0.97|0.9393
82587392|NCT02876835|164887451|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.9412|TWO_SIDED|95.0|0.95|1.56|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.56|0.95|0.9412
82587393|NCT02876835|164887452|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.8994|TWO_SIDED|95.0|0.88|1.84|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model with treatment group, current ESA use at randomization, and region as covariates.|||1.84|0.88|0.8994
82587394|NCT02876835|164887453|SUPERIORITY||Subdistribution hazard ratio|0.92||||0.2073|TWO_SIDED|95.0|0.75|1.13|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.13|0.75|0.2073
82587395|NCT02876835|164887454|SUPERIORITY||Subdistribution hazard ratio|1.0||||0.5068|TWO_SIDED|95.0|0.84|1.19|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.19|0.84|0.5068
82587396|NCT02876835|164887455|SUPERIORITY||Subdistribution hazard ratio|0.88||||0.3285|TWO_SIDED|95.0|0.51|1.54|||Wald test||Subdistribution hazard ratio was estimated using Fine \& Gray's proportional subdistribution hazard regression model with treatment group, Baseline ESA use, and region as covariates.|||1.54|0.51|0.3285
82587397|NCT02876835|164887456|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% CI for the treatment difference was greater than the pre-specified non-inferiority margin of -0.75 g/dL.|LS mean difference|0.03|||||TWO_SIDED|95.0|-0.05|0.11||||||||0.11|-0.05|
82587398|NCT02876835|164887457|SUPERIORITY||Difference in response rate|8.3|||<|0.0001|TWO_SIDED|95.0|5.2|11.4|||Cochran-Mantel-Haenszel||Cochran-Mantel-Haenszel (CMH) test adjusted for current ESA use and region was used to compare the number of responders between the treatment groups.|||11.4|5.2|<0.0001
82587399|NCT02876835|164887458|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Mean Difference (Final Values)|4.57|||||TWO_SIDED|95.0|2.04|7.11|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-darbepoetin alfa) and associated two-sided asymptotic 95% CI is presented.|||7.11|2.04|
82587400|NCT02876835|164887459|SUPERIORITY||Probability|0.55|||<|0.0001|TWO_SIDED|95.0|0.53|0.57|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.57|0.53|<0.0001
82587401|NCT02876835|164887460|NON_INFERIORITY|Non-inferiority was to be established if the lower limit of the two-sided 95% confidence interval for the treatment difference was greater than non-inferiority margin of -15%.|Median Difference (Final Values)|3.94|||||TWO_SIDED|95.0|1.9|5.91|||||Hodges-Lehmann estimate of the treatment difference (daprodustat-darbepoetin alfa) and associated two-sided asymptotic 95% CI is presented.|||5.91|1.90|
82587402|NCT02876835|164887461|SUPERIORITY||Probability|0.54|||<|0.0001|TWO_SIDED|95.0|0.52|0.56|||van Elteren test||Mann-Whitney estimate (Probability) of the treatment effect has been presented.|||0.56|0.52|<0.0001
82587403|NCT02876835|164887462|SUPERIORITY||LS mean difference|0.56||||0.7916|TWO_SIDED|95.0|-0.79|1.9|||MMRM||The difference in change from Baseline in SBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.90|-0.79|0.7916
82587404|NCT02876835|164887462|SUPERIORITY||LS mean difference|0.65||||0.9581|TWO_SIDED|95.0|-0.09|1.38|||MMRM||The difference in change from Baseline in DBP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.38|-0.09|0.9581
82587405|NCT02876835|164887462|SUPERIORITY||LS mean difference|0.6||||0.9241|TWO_SIDED|95.0|-0.22|1.43|||MMRM||The difference in change from Baseline in MAP at Week 52 was analyzed with a MMRM approach with an unstructured covariance matrix to compare the difference in LS means between arms.|||1.43|-0.22|0.9241
82587406|NCT02876835|164887463|SUPERIORITY||LS mean difference|-0.08||||0.442|TWO_SIDED|95.0|-1.18|1.02|||ANCOVA||For SBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||1.02|-1.18|0.4420
82587407|NCT02876835|164887463|SUPERIORITY||LS mean difference|0.11||||0.6369|TWO_SIDED|95.0|-0.52|0.75|||ANCOVA||For DBP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||0.75|-0.52|0.6369
82587408|NCT02876835|164887463|SUPERIORITY||LS mean difference|0.04||||0.549|TWO_SIDED|95.0|-0.65|0.74|||ANCOVA||For MAP: Treatment group comparisons were based on an ANCOVA model with terms for treatment group, current ESA use at randomization, region and Baseline value.|||0.74|-0.65|0.5490
82587409|NCT02876835|164887464|SUPERIORITY||Ratio of exacerbation rate|0.88||||0.0074|TWO_SIDED|95.0|0.79|0.98|||Negative binomial model||Ratio of model estimated exacerbation rates and CIs estimated using negative binomial model with treatment,current ESA use at randomization and region as covariates and logarithm of time on treatment as offset variable for treatment group comparison.|||0.98|0.79|0.0074
82587410|NCT02876835|164887466|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0113|TWO_SIDED|95.0|0.42|0.94|||Wald test||Hazard ratio was estimated using a Cox proportional hazard regression model adjusted for treatment group, current ESA use and region.|||0.94|0.42|0.0113
82587411|NCT02876835|164887467|SUPERIORITY||LS mean difference|-0.36||||0.932|TWO_SIDED|95.0|-0.83|0.11|||MMRM||Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time,current ESA use at randomization, region,Baseline value and Baseline value by time and treatment by time interactions|||0.11|-0.83|0.9320
82587412|NCT02876835|164887467|SUPERIORITY||LS mean difference|-0.11||||0.6761|TWO_SIDED|95.0|-0.59|0.36|||MMRM||Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.36|-0.59|0.6761
82587413|NCT02876835|164887467|SUPERIORITY||LS mean difference|0.12||||0.3335|TWO_SIDED|95.0|-0.43|0.67|||MMRM||Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.67|-0.43|0.3335
82587414|NCT02876835|164887467|SUPERIORITY||LS mean difference|-0.2||||0.7423|TWO_SIDED|95.0|-0.81|0.41|||MMRM||Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.41|-0.81|0.7423
82587415|NCT02876835|164887468|SUPERIORITY||LS mean difference|-0.29||||0.8268|TWO_SIDED|95.0|-0.9|0.32|||MMRM||Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions.|||0.32|-0.90|0.8268
82587416|NCT02876835|164887468|SUPERIORITY||LS mean difference|-0.15||||0.6851|TWO_SIDED|95.0|-0.77|0.47|||MMRM||Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.47|-0.77|0.6851
82587417|NCT02876835|164887468|SUPERIORITY||LS mean difference|-0.33||||0.8316|TWO_SIDED|95.0|-1.01|0.35|||MMRM||Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.35|-1.01|0.8316
82652892|NCT02041702|165020832|NON_INFERIORITY|The 2-sided 90% CI for difference in success rate between 2 groups was calculated by Farrington-Manning method.|Ratio Difference|2.6||||0.0002|TWO_SIDED|90.0|-3.2|8.4|||Farrington-Manning test||The null hypothesis would be rejected if the lower bound of the two-sided 90% confidence interval was greater than -10%.|"The hypothesis was: H0: PMRI - PCTRL≤ -10% vs H1: PMRI - PCTRL \>-10%~* PMRI: the success rate in the Cardiac MRI Scan Group for change in RV sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit~* PCTRL: the success rate in the Control Group for change in RV sensing amplitude at 1-Month post MRI scan visit compared to pre-MRI scan value collected at MRI scan visit"||8.4|-3.2|0.0002
82652893|NCT01618305|165020836|SUPERIORITY|P-value was calculated using a Cochran-Mantel-Haenszel test, stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks)||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82652894|NCT01618305|165020837|SUPERIORITY|||||||0.557|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks)||||||0.557
82587418|NCT02876835|164887468|SUPERIORITY||LS mean difference|-0.35||||0.8032|TWO_SIDED|95.0|-1.16|0.46|||MMRM||Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, Baseline value and Baseline value by time \& treatment by time interactions|||0.46|-1.16|0.8032
82587419|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.34||||0.8562|TWO_SIDED|95.0|-0.95|0.28|||MMRM||B pain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.28|-0.95|0.8562
82587420|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.15||||0.6849|TWO_SIDED|95.0|-0.77|0.47|||MMRM||B pain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.47|-0.77|0.6849
82587421|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.49||||0.9074|TWO_SIDED|95.0|-1.22|0.24|||MMRM||B pain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.24|-1.22|0.9074
82587422|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.47||||0.8765|TWO_SIDED|95.0|-1.26|0.32|||MMRM||B pain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.32|-1.26|0.8765
82587423|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.08||||0.6252|TWO_SIDED|95.0|-0.56|0.4|||MMRM||GH,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.40|-0.56|0.6252
82587424|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.2||||0.7852|TWO_SIDED|95.0|-0.68|0.29|||MMRM||GH,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.29|-0.68|0.7852
82587425|NCT02876835|164887469|SUPERIORITY||LS mean difference|0.1||||0.3614|TWO_SIDED|95.0|-0.46|0.66|||MMRM||GH,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.66|-0.46|0.3614
82587426|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.08||||0.5991|TWO_SIDED|95.0|-0.7|0.54|||MMRM||GH,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.54|-0.70|0.5991
82587427|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.31||||0.8526|TWO_SIDED|95.0|-0.88|0.27|||MMRM||MH,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.27|-0.88|0.8526
82587428|NCT02876835|164887469|SUPERIORITY||LS mean difference|0.02||||0.4673|TWO_SIDED|95.0|-0.56|0.61|||MMRM||MH,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.61|-0.56|0.4673
82587429|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.31||||0.8262|TWO_SIDED|95.0|-0.95|0.33|||MMRM||MH,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.33|-0.95|0.8262
82587430|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.25||||0.738|TWO_SIDED|95.0|-1.0|0.51|||MMRM||MH,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.51|-1.00|0.7380
82587431|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.09||||0.5997|TWO_SIDED|95.0|-0.8|0.62|||MMRM||RE,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.62|-0.80|0.5997
82587432|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.26||||0.7649|TWO_SIDED|95.0|-0.98|0.45|||MMRM||RE,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.45|-0.98|0.7649
82587433|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.37||||0.8175|TWO_SIDED|95.0|-1.18|0.43|||MMRM||RE,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.43|-1.18|0.8175
82587434|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.52||||0.8591|TWO_SIDED|95.0|-1.47|0.43|||MMRM||RE,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.43|-1.47|0.8591
82587435|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.5||||0.9588|TWO_SIDED|95.0|-1.06|0.06|||MMRM||RP,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.06|-1.06|0.9588
82587436|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.33||||0.8761|TWO_SIDED|95.0|-0.9|0.23|||MMRM||RP,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.23|-0.90|0.8761
82587437|NCT02876835|164887469|SUPERIORITY||LS mean difference|0.06||||0.4293|TWO_SIDED|95.0|-0.58|0.7|||MMRM||RP,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.70|-0.58|0.4293
82587438|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.19||||0.6983|TWO_SIDED|95.0|-0.92|0.53|||MMRM||RP,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.53|-0.92|0.6983
82587439|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.62||||0.9743|TWO_SIDED|95.0|-1.25|0.0|||MMRM||SF,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.00|-1.25|0.9743
82587440|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.32||||0.8405|TWO_SIDED|95.0|-0.94|0.31|||MMRM||SF,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.31|-0.94|0.8405
82587441|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.13||||0.6459|TWO_SIDED|95.0|-0.82|0.56|||MMRM||SF,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.56|-0.82|0.6459
82587442|NCT02876835|164887469|SUPERIORITY||LS mean difference|-0.38||||0.8272|TWO_SIDED|95.0|-1.17|0.41|||MMRM||SF,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions|||0.41|-1.17|0.8272
82587443|NCT02876835|164887470|SUPERIORITY||LS mean difference|-0.56||||0.9786|TWO_SIDED|95.0|-1.09|-0.02|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||-0.02|-1.09|0.9786
82652895|NCT01618305|165020838|SUPERIORITY|||||||0.909|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||0.909
82587444|NCT02876835|164887470|SUPERIORITY||LS mean difference|-0.12||||0.6642|TWO_SIDED|95.0|-0.68|0.44|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.44|-0.68|0.6642
82587445|NCT02876835|164887470|SUPERIORITY||LS mean difference|-0.1||||0.6261|TWO_SIDED|95.0|-0.72|0.52|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.52|-0.72|0.6261
82587446|NCT02876835|164887470|SUPERIORITY||LS mean difference|-0.49||||0.9161|TWO_SIDED|95.0|-1.19|0.21|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.21|-1.19|0.9161
82587447|NCT02876835|164887471|SUPERIORITY||LS mean difference|-0.32||||0.8703|TWO_SIDED|95.0|-0.88|0.24|||MMRM||Week 8: Model was fitted from Baseline up to Week 52 and model adjusted Week 8 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.24|-0.88|0.8703
82587448|NCT02876835|164887471|SUPERIORITY||LS mean difference|0.13||||0.3167|TWO_SIDED|95.0|-0.41|0.67|||MMRM||Week 12: Model was fitted from Baseline up to Week 52 and model adjusted Week 12 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.67|-0.41|0.3167
82587449|NCT02876835|164887471|SUPERIORITY||LS mean difference|0.15||||0.3155|TWO_SIDED|95.0|-0.47|0.78|||MMRM||Week 28: Model was fitted from Baseline up to Week 52 and model adjusted Week 28 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.78|-0.47|0.3155
82587450|NCT02876835|164887471|SUPERIORITY||LS mean difference|-0.32||||0.8069|TWO_SIDED|95.0|-1.06|0.41|||MMRM||Week 52: Model was fitted from Baseline up to Week 52 and model adjusted Week 52 data has been presented,with factors for treatment, time,current ESA use at randomization, region, BL value and BL value by time \& treatment by time interactions.|||0.41|-1.06|0.8069
82587451|NCT02876835|164887472|SUPERIORITY||LS mean difference|-0.0234||||0.9724|TWO_SIDED|95.0|-0.0474|0.0005|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.0005|-0.0474|0.9724
82587452|NCT02876835|164887473|SUPERIORITY||LS mean difference|0.7||||0.2687|TWO_SIDED|95.0|-1.5|2.9|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||2.9|-1.5|0.2687
82587453|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.22||||0.978|TWO_SIDED|95.0|-2.4|-0.03|||MMRM||Tired/LE/Weak domain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-2.40|0.9780
82587454|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.97||||0.943|TWO_SIDED|95.0|-2.18|0.23|||MMRM||Tired/LE/Weak domain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.23|-2.18|0.9430
82587455|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.6||||0.8042|TWO_SIDED|95.0|-1.98|0.77|||MMRM||Tired/LE/Weak domain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.77|-1.98|0.8042
82587456|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.57||||0.977|TWO_SIDED|95.0|-3.11|-0.03|||MMRM||Tired/LE/Weak domain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-3.11|0.9770
82652896|NCT01618305|165020839|SUPERIORITY|||||||0.938|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by maternal gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||0.938
82498942|NCT03247530|164688876|SUPERIORITY||Least Square Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.19||0.3447|TWO_SIDED|95.0|-3.4|1.2|||ANCOVA|||||1.2|-3.4|0.3447
82498943|NCT03247530|164688877|SUPERIORITY|||||||0.0005|||||||Chi-squared|||This analysis pertains to Week 1 of treatment||||0.0005
82498944|NCT03247530|164688877|SUPERIORITY|||||||0.0212|||||||Chi-squared|||This analysis pertains to Week 2 of treatment||||0.0212
82587457|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.2||||0.9905|TWO_SIDED|95.0|-2.2|-0.2|||MMRM||CP/SOB,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.20|-2.20|0.9905
82587458|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.65||||0.8939|TWO_SIDED|95.0|-1.67|0.37|||LS mean difference||CP/SOB,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.37|-1.67|0.8939
82587459|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.52||||0.807|TWO_SIDED|95.0|-1.7|0.66|||MMRM||CP/SOB,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.66|-1.70|0.8070
82587460|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.18||||0.9615|TWO_SIDED|95.0|-2.49|0.13|||MMRM||CP/SOB,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.13|-2.49|0.9615
82652897|NCT01618305|165020840|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||<0.001
82652898|NCT01618305|165020841|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel test was stratified by gestational age at entry (20-\<28 weeks; 28-\<31 weeks; 31-\<34 weeks; 34-\<37 weeks).||||||<0.001
82652899|NCT01618305|165020846|SUPERIORITY|||||||0.623|||||||Fisher Exact|||||||0.623
82498945|NCT03247530|164688877|SUPERIORITY|||||||0.0115|||||||Chi-squared|||This analysis pertains to Week 3 of treatment||||0.0115
82587461|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.76||||0.9015|TWO_SIDED|95.0|-1.91|0.39|||MMRM||Cog domain,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.39|-1.91|0.9015
82587462|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.18||||0.9781|TWO_SIDED|95.0|-2.32|-0.03|||MMRM||Cog domain,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.03|-2.32|0.9781
82587463|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.77||||0.8778|TWO_SIDED|95.0|-2.07|0.53|||MMRM||Cog domain,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.53|-2.07|0.8778
82587464|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.65||||0.9864|TWO_SIDED|95.0|-3.11|-0.19|||MMRM||Cog domain,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.19|-3.11|0.9864
82587465|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.1||||0.9725|TWO_SIDED|95.0|-2.3|0.0|||MMRM||SOB, no activity,Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.3|0.9725
82587466|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.3||||0.7188|TWO_SIDED|95.0|-1.5|0.8|||MMRM||SOB, no activity,Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.8|-1.5|0.7188
82587467|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.9||||0.8903|TWO_SIDED|95.0|-2.3|0.5|||MMRM||SOB, no activity,Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.5|-2.3|0.8903
82587468|NCT02876835|164887474|SUPERIORITY||LS mean difference|0.0||||0.5011|TWO_SIDED|95.0|-1.6|1.6|||MMRM||SOB, no activity,Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||1.6|-1.6|0.5011
82587469|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.1||||0.9716|TWO_SIDED|95.0|-2.2|0.0|||MMRM||S-SB,Resting, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.2|0.9716
82587470|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.3||||0.6908|TWO_SIDED|95.0|-1.4|0.9|||MMRM||S-SB,Resting, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-1.4|0.6908
82587471|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.5||||0.7462|TWO_SIDED|95.0|-1.8|0.9|||MMRM||S-SB,Resting, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-1.8|0.7462
82587472|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.5||||0.977|TWO_SIDED|95.0|-2.9|0.0|||MMRM||S-SB,Resting, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.0|-2.9|0.9770
82587473|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.4||||0.9471|TWO_SIDED|95.0|-3.2|0.3|||MMRM||Diff std for LT, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.3|-3.2|0.9471
82587474|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.9||||0.833|TWO_SIDED|95.0|-2.6|0.9|||MMRM||Diff std for LT, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.9|-2.6|0.8330
82587475|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.2||||0.8918|TWO_SIDED|95.0|-3.2|0.7|||MMRM||Diff std for LT, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.7|-3.2|0.8918
82587476|NCT02876835|164887474|SUPERIORITY||LS mean difference|-3.2||||0.9986|TWO_SIDED|95.0|-5.4|-1.1|||MMRM||Diff std for LT, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-1.1|-5.4|0.9986
82587477|NCT02876835|164887474|SUPERIORITY||LS mean difference|0.4||||0.3035|TWO_SIDED|95.0|-1.2|2.1|||MMRM||Diff sleep, Week8:Model was fitted from Baseline up to Week52 and model adjusted Week8 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||2.1|-1.2|0.3035
82587478|NCT02876835|164887474|SUPERIORITY||LS mean difference|-1.4||||0.9563|TWO_SIDED|95.0|-3.1|0.2|||MMRM||Diff sleep, Week12:Model was fitted from Baseline up to Week52 and model adjusted Week12 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||0.2|-3.1|0.9563
82652900|NCT01618305|165020847|SUPERIORITY|||||||0.63|||||||Fisher Exact|||||||.63
82652901|NCT01618305|165020848|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||.54
82652902|NCT01618305|165020849|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82652903|NCT01618305|165020850|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82587479|NCT02876835|164887474|SUPERIORITY||LS mean difference|-0.4||||0.6548|TWO_SIDED|95.0|-2.3|1.5|||MMRM||Diff sleep, Week28:Model was fitted from Baseline up to Week52 and model adjusted Week28 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||1.5|-2.3|0.6548
82587480|NCT02876835|164887474|SUPERIORITY||LS mean difference|-2.4||||0.9832|TWO_SIDED|95.0|-4.5|-0.2|||MMRM||Diff sleep, Week52:Model was fitted from Baseline up to Week52 and model adjusted Week52 data has been presented, with factors for treatment, time, current ESA use, region, BL value and BL value by time and treatment by time interactions.|||-0.2|-4.5|0.9832
82587481|NCT02876835|164887475|SUPERIORITY||LS mean difference|0.02||||0.6917|TWO_SIDED|95.0|-0.05|0.08|||MMRM||Week 8: Model was fitted from Baseline up to Week52 and model adjusted Week 8 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.08|-0.05|0.6917
82587482|NCT02876835|164887475|SUPERIORITY||LS mean difference|0.05||||0.951|TWO_SIDED|95.0|-0.01|0.11|||MMRM||Week 12: Model was fitted from Baseline up to Week52 and model adjusted Week 12 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.11|-0.01|0.9510
82587483|NCT02876835|164887475|SUPERIORITY||LS mean difference|-0.04||||0.1136|TWO_SIDED|95.0|-0.11|0.03|||MMRM||Week 28: Model was fitted from Baseline up to Week52 and model adjusted Week 28 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.03|-0.11|0.1136
82587484|NCT02876835|164887475|SUPERIORITY||LS mean difference|0.05||||0.8859|TWO_SIDED|95.0|-0.03|0.13|||MMRM||Week 52: Model was fitted from Baseline up to Week52 and model adjusted Week 52 data has been presented, with factors for treatment, time, current ESA use, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.13|-0.03|0.8859
82587485|NCT02876835|164887476|SUPERIORITY||LS mean difference|-0.2||||0.7716|TWO_SIDED|95.0|-0.74|0.33|||MMRM||MMRM model was fitted from Baseline up to Week 52 with factors for treatment, time, current ESA use at randomization, region, Baseline value and Baseline value by time and treatment by time interactions.|||0.33|-0.74|0.7716
82587486|NCT05245097|164887482|OTHER|For the multiple imputation, a total of 50 imputed datasets will be calculated (Graham et al.). Fully conditional specification (FCS) discriminant function method will be used to impute missing primary endpoint using the baseline covariates of age, sex, race, ethnicity, mobility level, and BIMS Score. The FCS logistic method was replaced with the FCS discriminant function method due to a quasi-separation caused by only one observed primary endpoint event in the treatment group.||||||0.004||||||The null hypothesis was tested at a one-sided 0.025 level of significance using a logistic regression analysis to compare treatment groups while controlling for propensity score.|Regression, Logistic|||||||0.004
82587487|NCT05245097|164887483|OTHER|||||||0.003||||||The hip fracture due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|||||||0.003
82587488|NCT05245097|164887483|SUPERIORITY|||||||0.003|||||||Regression, Logistic|||||||0.003
82587489|NCT05245097|164887484|SUPERIORITY|||||||0.001||||||The emergency department visit due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|Subjects with multiple ED visits due to falls are only counted once.||||||0.001
82587490|NCT05245097|164887485|SUPERIORITY|||||||0.003||||||The hospitalization due to fall rate was compared between treatment groups using firth logistic regression while controlling for propensity score. A one-sided 0.025 level of significance was used.|Regression, Logistic|Subjects with multiple hospitalizations due to falls are only counted once.||||||0.003
82587491|NCT00883051|164887532|OTHER|A hierarchical test procedure was applied only for analysis of the primary efficacy endpoint.|||||<|0.0001|||||||Cochran-Armitage test for trend|||||||<0.0001
82587492|NCT00883051|164887533|OTHER|A hierarchical test procedure was applied only for analysis of the primary efficacy endpoint.|||||=|0.0006|||||||Cochran-Armitage test for trend]|||||||=0.0006
82587493|NCT00692978|164887550|EQUIVALENCE|Log transformed parametric ANOVA|||||<|0.05||||||calculated|ANOVA|||||||<0.05
82587494|NCT03282240|164887554|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|1.08|||||TWO_SIDED|95.0|0.958|1.224||||||B Victoria: The 2-sided 95% confidence interval (CI) was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.224|0.958|
82587495|NCT03282240|164887554|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|1.0|||||TWO_SIDED|95.0|0.881|1.129||||||B Yamagata: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.129|0.881|
82587496|NCT03282240|164887554|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|0.83|||||TWO_SIDED|95.0|0.744|0.932||||||A/H1N1: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||0.932|0.744|
82652904|NCT01618305|165020851|SUPERIORITY|||||||0.064|||||||Fisher Exact|||The proportion of HIV-infected infants among those who had a determinable HIV-infection status was compared between arms.||||0.064
82498946|NCT03247530|164688877|SUPERIORITY|||||||0.0027|||||||Chi-squared|||This analysis pertains to Week 4 of treatment||||0.0027
82587497|NCT03282240|164887554|NON_INFERIORITY|Non-inferiority of GMTs was concluded if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups is \> 0.667 for each of the comparisons.|GMT Ratio (QIV-HD/TIV-HDs)|0.95|||||TWO_SIDED|95.0|0.842|1.066||||||A/H3N2: The 2-sided 95% CI was based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||1.066|0.842|
82587498|NCT03282240|164887555|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-2.41|||||TWO_SIDED|95.0|-7.66|2.7||||||B Victoria: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||2.70|-7.66|
82587499|NCT03282240|164887555|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-1.75|||||TWO_SIDED|95.0|-7.04|3.53||||||B Yamagata: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||3.53|-7.04|
82587500|NCT03282240|164887555|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-0.71|||||TWO_SIDED|95.0|-4.83|3.42||||||A/H3N2: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||3.42|-4.83|
82587501|NCT03282240|164887555|NON_INFERIORITY|Non-inferiority in seroconversion was concluded if the lower limit of the 2-sided 95% CI of the differences of seroconversion rates between groups is \> -10%.|Difference in Percentage|-3.27|||||TWO_SIDED|95.0|-7.37|0.86||||||A/H1N1: The 2-sided 95% CI for the difference is based on the Wilson score method without continuity correction.||0.86|-7.37|
82587502|NCT03282240|164887556|SUPERIORITY|Superiority in GMTs was observed if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups was \> 1.5 for comparison group.|GMT Ratio (QIV-HD/TIV-HDs)|2.04|||||TWO_SIDED|95.0|1.804|2.315||||||The 2-sided 95% CI is based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||2.315|1.804|
82587503|NCT03282240|164887556|SUPERIORITY|Superiority in GMTs was observed if the lower limit of the 2-sided 95% CI of the ratio of GMTs between groups was \> 1.5 for comparison group.|GMT Ratio (QIV-HD/TIV-HDs)|2.03|||||TWO_SIDED|95.0|1.802|2.288||||||The 2-sided 95% CI is based on the Student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.||2.288|1.802|
82587504|NCT03282240|164887558|SUPERIORITY|Superiority in seroconversion was observed if the lower limit of the 2-sided 95% CI of the difference of seroconversion rates between groups is \> 10% for each applicable comparison.|Difference in Percentage|29.27|||||TWO_SIDED|95.0|24.78|33.29||||||B Yamagata: The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.||33.29|24.78|
82587505|NCT03282240|164887558|SUPERIORITY|Superiority in seroconversion was observed if the lower limit of the 2-sided 95% CI of the difference of seroconversion rates between groups is \> 10% for each applicable comparison.|Difference in Percentage|20.78|||||TWO_SIDED|95.0|16.5|24.61||||||B Victoria: The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.||24.61|16.5|
82587506|NCT03254485|164887572|SUPERIORITY||Least Squares Mean Difference|-0.3|||=|0.3681|TWO_SIDED|95.0|-0.95|0.35|||ANCOVA|||||0.35|-0.95|=0.3681
82490508|NCT00533897|164674269|SUPERIORITY_OR_OTHER||Estimate of Difference|0.11|||||TWO_SIDED|95.0|-8.21|8.43||||||Immunogenicity rates of the Period II treatment groups on Day 253 were analyzed similarly as on Day 169. However, no statistical test was carried out and no p-value was provided. Provided were: point estimates of the immunogenicity rates within the Period II treatment groups and corresponding 95% CIs, and point estimate for the difference in immunogenicity rates between these groups and corresponding 95% CI. There was no adjustment made for multiple comparisons.||8.43|-8.21|
82587507|NCT03254485|164887573|SUPERIORITY||Least Squares Mean Difference|-16.74|||=|0.2817|TWO_SIDED|95.0|-47.38|13.9|||ANCOVA|||||13.90|-47.38|=0.2817
82587508|NCT03254485|164887574|SUPERIORITY||Least Squares Mean Difference|-0.297|||=|0.6508|TWO_SIDED|95.0|-1.591|0.997|||ANCOVA|||||0.997|-1.591|=0.6508
82587509|NCT00826111|164887634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0085|STANDARD_ERROR_OF_MEAN|0.0534||0.88|TWO_SIDED|95.0|-0.139|0.0122|||t-test, 2 sided|||||.01220|-0.1390|0.88
82587510|NCT00826111|164887635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.031|STANDARD_ERROR_OF_MEAN|0.112||0.79|TWO_SIDED|95.0|-0.286|0.224|||t-test, 2 sided|||||0.224|-0.286|0.79
82587511|NCT00826111|164887636|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0222|STANDARD_ERROR_OF_MEAN|0.0128||0.16|TWO_SIDED|95.0|-0.58|0.0136|||t-test, 2 sided|||||.0136|-0.580|0.16
82490509|NCT03792191|164674358|SUPERIORITY||Median Difference (Final Values)|0.00007||||0.62|TWO_SIDED|95.0|-0.00005|1.0|||Wilcoxon (Mann-Whitney)|||||1|-0.00005|0.62
82490510|NCT03792191|164674359|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
82587512|NCT00826111|164887637|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71|STANDARD_ERROR_OF_MEAN|0.515||0.29|TWO_SIDED|95.0|-1.35|2.77|||t-test, 2 sided|||||2.77|-1.35|0.29
82587513|NCT00826111|164887638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0048|STANDARD_ERROR_OF_MEAN|0.005||0.37|TWO_SIDED|95.0|-0.0077|0.0174|||t-test, 2 sided|||||0.0174|-0.0077|0.37
82587514|NCT00826111|164887639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0056|STANDARD_ERROR_OF_MEAN|0.0042||0.21|TWO_SIDED|95.0|-0.0037|0.1481|||t-test, 2 sided|||||0.1481|-0.0037|0.21
82587515|NCT00826111|164887640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.35|STANDARD_ERROR_OF_MEAN|3.94||0.1|TWO_SIDED|95.0|-1.76|16.46|||t-test, 2 sided|||||16.46|-1.76|0.10
82587516|NCT00826111|164887641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|4.06||0.89|TWO_SIDED|95.0|-9.31|10.51|||t-test, 2 sided|||||10.51|-9.31|0.89
82587517|NCT00826111|164887642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|3.78||0.66|TWO_SIDED|95.0|-10.31|6.91|||t-test, 2 sided|||||6.91|-10.31|0.66
82587518|NCT02445196|164887649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.57||||0.035|TWO_SIDED||||||ANOVA|||Repeated measures ANOVAs assessed the condition by time (baseline to posttreatment) interaction effects covarying PTSD treatment. Following the ITT principle, data from all randomized participants were analyzed and multiple imputation replaced missing values. A power analysis indicated that to achieve 80% power to detect an effect size in the magnitude (i.e., d = 0.25 to .33) with alpha of .05 and a correlation between repeated measures of .5, 60 participants per condition would be needed.||||.035
82587519|NCT02445196|164887650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.87||||0.086|TWO_SIDED||||||ANOVA|||||||.086
82587520|NCT02445196|164887651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.007|TWO_SIDED||||||ANOVA|||||||.007
82587521|NCT02445196|164887652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.72||||0.005|TWO_SIDED||||||ANOVA|||||||.005
82652905|NCT02708290|165020877|OTHER|Participants in the MITA group were matched to those in Control (treatment-as-usual) group using propensity score analysis based on age and all four ATEC subscales at baseline. Least squares means were calculated for all subscales at all visits.|Mean Difference (Final Values)|4.68|||<|0.0001|TWO_SIDED||||||Regression, Linear|||"The concept of a Visit was developed by dividing the three-year-long observation interval into 3-month periods. All evaluations were mapped into 3-month-long bins (Reference: Mahapatra, S. et al. Autism Dev. Disord. 2018, 1). It was then hypothesized that there was a three-way interaction between an age group, Visit, and treatment. This hypothesis was modeled by applying the Linear Model with repeated measures, where a three-way interaction term was introduced to test the hypothesis."||||<0.0001
82652906|NCT04583579|165020890|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||||||0.78
82652907|NCT01691508|165020908|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39||||0.008|TWO_SIDED|95.0|1.25|4.56|||Proportional odds model|||||4.56|1.25|0.008
82652908|NCT02006706|165020923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|0.606|<|0.001|TWO_SIDED|95.0|1.73|4.22|||t-test, 2 sided||The null hypothesis was that there was no difference between the DAS28 at baseline and DAS28 after 24 weeks of follow-up|||4.22|1.73|<0.001
82652909|NCT02006706|165020924|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82652910|NCT04828161|165020960|SUPERIORITY||Least square (LS) mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|-0.86|-0.32|||ANCOVA|||||-0.32|-0.86|<0.001
82652911|NCT04828161|165020960|SUPERIORITY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.135||0.014|TWO_SIDED|95.0|-0.6|-0.07|||ANCOVA|||||-0.07|-0.60|0.014
82652912|NCT04828161|165020960|SUPERIORITY||LS mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|-0.68|-0.15|||ANCOVA|||||-0.15|-0.68|0.002
82652913|NCT05431153|165020978|OTHER||Ratio of adjusted geometric means|98.83|||||TWO_SIDED|90.0|94.0|103.91|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||103.91|94.00|
82652914|NCT05431153|165020978|OTHER||Ratio of adjusted geometric means|98.02|||||TWO_SIDED|90.0|93.88|102.35|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||102.35|93.88|
82652915|NCT05431153|165020978|OTHER||Ratio of adjusted geometric means|98.51|||||TWO_SIDED|90.0|91.79|105.73|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||105.73|91.79|
82652916|NCT05431153|165020979|OTHER||Ratio of adjusted geometric means|96.35|||||TWO_SIDED|90.0|87.48|106.12|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.12|87.48|
82652917|NCT05431153|165020979|OTHER||Ratio of adjusted geometric means|93.47|||||TWO_SIDED|90.0|85.65|102.0|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||102.00|85.65|
82652918|NCT05431153|165020979|OTHER||Ratio of adjusted geometric means|98.01|||||TWO_SIDED|90.0|89.86|106.9|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.90|89.86|
82490511|NCT03792191|164674360|SUPERIORITY||Risk Difference (RD)|-0.036||||0.6|TWO_SIDED|95.0|-0.15|0.079|||Chi-squared, Corrected|||||0.079|-0.15|0.6
82587522|NCT02445196|164887653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78||||0.113|TWO_SIDED||||||t-test, 2 sided|||||||.113
82587523|NCT00567268|164887678|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.004|||||||Fisher Exact|||"The risk factor tested was age. The null hypothesis was that there was no association between the age and the number of responders to the treatment with gabapentin."||||=0.004
82587524|NCT00567268|164887679|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.003|||||||Fisher Exact|||"The risk factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||=0.003
82652919|NCT05431153|165020980|OTHER||Ratio of adjusted geometric means|111.52|||||TWO_SIDED|90.0|99.55|124.93|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||124.93|99.55|
82652920|NCT05431153|165020980|OTHER||Ratio of adjusted geometric means|98.38|||||TWO_SIDED|90.0|90.68|106.73|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||106.73|90.68|
82652921|NCT05431153|165020981|OTHER||Ratio of adjusted geometric means|111.52|||||TWO_SIDED|90.0|96.46|128.93|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||128.93|96.46|
82652922|NCT05431153|165020981|OTHER||Ratio of adjusted geometric means|81.39|||||TWO_SIDED|90.0|75.06|88.26|||||Values were back-transformed from the log scale. The model was a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.|||88.26|75.06|
82652923|NCT02324972|165021025|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.636|TWO_SIDED|95.0|-1.3|1.25|||ANCOVA|||A sample size of 20 subjects per group was assumed to have 80% power to allow detection of a statistically significant difference in change from baseline in TLSS between the 2 groups, if the effect size was approximately less than or equal to 0.9. This is equivalent to detecting a difference of -4.5 between the 2 groups with a common standard deviation of 5. The primary analysis was doing using last observation carried forward (LOCF) imputed data.||1.25|-1.30|0.636
82652924|NCT02324972|165021026|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.677|TWO_SIDED|95.0|-0.44|0.68|||ANOVA|||||0.68|-0.44|0.677
82652925|NCT02324972|165021027|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.219||||0.802|TWO_SIDED|95.0|-1.983|1.544|||ANOVA|||||1.544|-1.983|0.802
82490512|NCT03792191|164674361|SUPERIORITY||Risk Difference (RD)|-0.021||||0.77|TWO_SIDED|95.0|-0.125|0.082|||Chi-squared, Corrected|||||0.082|-0.125|0.77
82490513|NCT03792191|164674362|SUPERIORITY||Median Difference (Final Values)|8.0||||0.077|TWO_SIDED|95.0|-1.0|20.0|||Wilcoxon (Mann-Whitney)|||||20|-1|0.077
82587525|NCT00567268|164887679|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.003|||||||Cochran-Armitage|||"The risk factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||=0.003
82587526|NCT00567268|164887680|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was age. The null hypothesis was that there was no difference between \<65 years and \>=65 years in the number of participants who responded to the treatment with gabapentin."||||<0.001
82587527|NCT00567268|164887681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was age. The null hypothesis was that there was no association between the age and the number of participants who responded to the treatment with gabapentin."||||<0.001
82587528|NCT00567268|164887681|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Armitage|||"The factor tested was age. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of age categories."||||<0.001
82587529|NCT00567268|164887682|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.008|||||||Chi-squared|||"The factor tested was severity of partial epileptic seizure . The null hypothesis was that there was no association between the degree of severity of partial epileptic seizure (mild, moderate, and severe) and the number of participants who responded to the treatment with gabapentin."||||=0.008
82587530|NCT00567268|164887682|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.002|||||||Cochran-Armitage|||"The factor tested was severity of partial epileptic seizure. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across the degree of severity of partial epileptic seizure (mild, moderate, and severe)."||||=0.002
82587531|NCT00567268|164887683|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.018|||||||Chi-squared|||"The factor tested was baseline frequency of epileptic seizure. The null hypothesis was that there was no difference between the baseline frequency of epileptic seizure and the number of participants who responded to the treatment with gabapentin."||||=0.018
82587532|NCT00567268|164887684|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no association between the number of concomitant antiepileptic drugs at baseline and the number of participants who responded to the treatment with gabapentin."||||<0.001
82587533|NCT00567268|164887684|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Armitage|||"The factor tested was number of concomitant antiepileptic drugs at baseline. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the number of concomitant antiepileptic drugs at baseline."||||<0.001
82587534|NCT00567268|164887685|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.025|||||||Cochran-Armitage|||"The factor tested was baseline creatinine clearance. The null hypothesis was that there was no linear trend in the number of responders to the treatment with gabapentin across increasing levels of the baseline creatinine clearance."||||=0.025
82587535|NCT00567268|164887686|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.043|||||||Chi-squared|||"The factor tested was non-drug therapy. The null hypothesis was that there was no difference between the non-drug therapy and the number of participants who responded to the treatment with gabapentin."||||=0.043
82587536|NCT02072434|164887720|OTHER||Odds Ratio (OR)|0.46|||||TWO_SIDED|95.0|0.12|1.43||||||||1.43|0.12|
82587537|NCT02072434|164887721|OTHER||Odds Ratio (OR)|1.48|||||TWO_SIDED|95.0|0.64|3.55||||||||3.55|0.64|
82587538|NCT02072434|164887722|OTHER||Difference between percentages|-0.72|||||TWO_SIDED|95.0|-1.59|0.15||||||||0.15|-1.59|
82587539|NCT02021292|164887756|SUPERIORITY||ratio of geometric means|0.84||||0.041|TWO_SIDED|95.0|0.7|0.99|||ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||The null hypothesis (change of PVR at rest in Week 16 in percent of baseline PVR in subjects treated with placebo or macitentan is the same) is tested on the primary endpoint by means of an analysis of covariance (ANCOVA) model on the log(e) transformed % of baseline PVR at rest at Week 16.||0.99|0.70|0.0410
82587540|NCT02021292|164887757|SUPERIORITY||least squares (LS) mean difference|34.04||||0.0326|TWO_SIDED|95.0|2.9|65.2||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is that the mean change from baseline in 6MWD at Week 24 is the same in the placebo and the macitentan group. Statistical model is ANCOVA including 6MWD at baseline as a covariate, with treatment as factor in the model.||65.2|2.9|0.0326
82587541|NCT02021292|164887758|SUPERIORITY||least squares (LS) mean difference|-0.39||||0.3492|TWO_SIDED|95.0|-1.21|0.43||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is that the mean change from baseline is the same in the placebo and the macitentan group. Statistical model is Analysis of Covariance including Borg dyspnea index at baseline as a covariate, with Treatment as factor in the model.||0.43|-1.21|0.3492
82587542|NCT02021292|164887759|SUPERIORITY||Odds Ratio (OR)|0.212||||0.0962|TWO_SIDED|95.0|0.001|1.464||To control multiplicity across all endpoints, secondary endpoints were analyzed in sequence using hierarchical approach based on order and significance as pre-specified in protocol eliminating further adjustment for multiple comparisons.|ANCOVA|||The null hypothesis is the odds of worsening are the same in the placebo and the macitentan group. Logistic regression is used for Treatment Group vs. Placebo comparison to generate odds ratio, confidence levels, and p-values with treatment and WHO functional class at baseline as factors in the model.||1.464|0.001|0.0962
82652926|NCT02324972|165021028|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108||||0.976|TWO_SIDED|95.0|-7.076|7.292|||ANOVA|||||7.292|-7.076|0.976
82652927|NCT02324972|165021029|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.233|TWO_SIDED|95.0|-1.68|6.72|||ANOVA|||||6.72|-1.68|0.233
82652928|NCT01082952|165021035|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0||||The p value is calculated for the results of ASM proliferation following incubation with eosinophils isolated from patients in each group. p\< 0.05 was considered significant.|ANOVA|Proliferation data was evaluated using two-way factorial ANOVA followed by Bonferroni post hoc test.||||||<0.05
82587543|NCT02021292|164887760|SUPERIORITY||Model-adjusted geometric mean ratio|0.81||||0.0098|TWO_SIDED|95.0|0.7|0.95||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||The same statistical model as for the predefined analysis (ANCOVA) was applied, including 13 subjects with corrected hemodynamic values.||0.95|0.70|0.0098
82587544|NCT02021292|164887761|SUPERIORITY||Model-adjusted geometric mean ratio|0.79||||0.0061|TWO_SIDED|95.0|0.68|0.93||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||||0.93|0.68|0.0061
82587545|NCT02021292|164887762|SUPERIORITY||Geometric mean ratio|0.85||||0.0414|TWO_SIDED|95.0|0.73|0.99||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|ANCOVA model on log-transformed % of baseline PVR at Week 16 adjusted by treatment as a factor and log transformed PVR at baseline as a covariate.||||0.99|0.73|0.0414
82587546|NCT02021292|164887763|SUPERIORITY||least squares (LS) mean difference|37.19||||0.0468|TWO_SIDED|95.0|0.54|73.83||This is the post-hoc analysis and p-value is an exploratory p-value.|ANCOVA|Statistical model is ANCOVA including 6MWD at baseline as a covariate, with treatment as factor in the model.||||73.83|0.54|0.0468
82587547|NCT00823901|164887764|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
82587548|NCT01369511|164887765|SUPERIORITY_OR_OTHER|||||||0.527|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.527
82587549|NCT01369511|164887765|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.291
82587550|NCT01369511|164887765|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 12||||0.129
82587551|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.751|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.751
82587552|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.066
82587553|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 8||||0.031
82587554|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.315|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.315
82587555|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.002
82587556|NCT01369511|164887766|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||p-values are from type 3 tests.|Mixed Models Analysis|||at Week 16||||0.007
82587557|NCT01376349|164887773|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82587558|NCT01376349|164887773|SUPERIORITY_OR_OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82587559|NCT00819286|164887774|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.003|TWO_SIDED|95.0|||||t-test, 2 sided|||3 Month CT Scores (Plates vs Wires)||||0.003
82587560|NCT00819286|164887774|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 2 sided|||6 Month CT Scores (Plates vs Wires)||||0.01
82587561|NCT00819286|164887775|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.93||95.0|||||t-test, 1 sided|||Plates vs Wires||||0.93
82587562|NCT01005459|164887855|OTHER|unpaired t-test|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
82587563|NCT01005459|164887855|OTHER|unpaired t-test compared between groups|||||>|0.05|||||||unpaired t-test compared between groups|||||||>0.05
82587564|NCT00467285|164887859|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||comparison of changes in BMD at 6months compared to baseline||||<0.05
82587565|NCT03891524|164887894|OTHER|||||||0.0004|||||||MCP-mod analysis|||||||0.0004
82587566|NCT03891524|164887895|OTHER|||||||0.7188|||||||MCP-MOD analysis|||||||0.7188
82587567|NCT03019796|164887896|OTHER|||||||0.04|||||||ANOVA|repeated measures||||||0.040
82587568|NCT03019796|164887897|OTHER|||||||0.054|||||||ANOVA|repeated measures||||||0.054
82490514|NCT03792191|164674363|SUPERIORITY||Median Difference (Final Values)|0.00003||||0.1|TWO_SIDED|95.0|-0.00001|0.00003|||Wilcoxon (Mann-Whitney)|||||0.00003|-0.00001|0.1
82490515|NCT03792191|164674364|SUPERIORITY||||||>|0.99|||||||Chi-squared, Corrected|||||||>0.99
82587569|NCT03019796|164887898|OTHER|||||||0.04|||||||ANOVA|REPEATED MEASURES||||||0.040
82587570|NCT03019796|164887899|OTHER|||||||0.321|||||||ANOVA|REPEATED MEASURES||||||0.321
82587571|NCT03019796|164887900|OTHER|||||||0.401|||||||ANOVA|REPEATED MEASURES||||||0.401
82587572|NCT03019796|164887901|OTHER|||||||0.021|||||||ANOVA|REPEATED MEASURES||||||0.021
82587573|NCT00475033|164887902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-2.4|||||TWO_SIDED|95.0|-5.3|-0.1|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Meningococcal C: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||-0.1|-5.3|
82587574|NCT00475033|164887903|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.19|||||TWO_SIDED|95.0|0.96|1.48|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Ratio of GMs (13vPnC, 7vPnC)||1.48|0.96|
82587575|NCT00475033|164887904|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.6|1.7|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PT: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.7|-1.6|
82587576|NCT00475033|164887904|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.3|1.3|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|FHA: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.3|-1.3|
82587577|NCT00475033|164887904|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|1.1|||||TWO_SIDED|95.0|-1.7|4.2|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PRN: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||4.2|-1.7|
82652929|NCT00135707|165021037|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.42|TWO_SIDED|95.0|0.91|1.25|||Chi-squared|||The primary hypothesis states that antioxidant therapy initiated prior to 16 weeks gestation in women will reduce the frequency of serious maternal and infant complications associated with pregnancy related hypertension. We estimated that with a sample size of 10,000 women, the study would have 90% power to show a 30% reduction in the rate of the primary outcome, from 4% in the placebo to 2.8% in the vitamin group, with a two-sided type I error rate of 5%.||1.25|0.91|0.42
82652930|NCT00135707|165021038|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.79|TWO_SIDED|95.0|0.85|1.24|||Chi-squared|||||1.24|0.85|0.79
82652931|NCT00135707|165021039|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.35|TWO_SIDED|95.0|0.47|1.31|||Chi-squared|||||1.31|0.47|0.35
82652932|NCT00135707|165021040|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.16|TWO_SIDED|95.0|0.39|1.17|||Chi-squared|||||1.17|0.39|0.16
82652933|NCT00135707|165021041|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.63||||0.34|TWO_SIDED|95.0|0.25|1.63|||Chi-squared|||||1.63|0.25|0.34
82490516|NCT03792191|164674365|SUPERIORITY||||||>|0.99|||||||Chi-squared, Corrected|||||||>0.99
82490517|NCT03792191|164674367|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82490518|NCT03355365|164674369|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82490519|NCT03355365|164674370|SUPERIORITY|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||||||0.28
82490520|NCT03355365|164674371|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82490521|NCT03355365|164674372|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||||||0.88
82587578|NCT00475033|164887904|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-2.1|||||TWO_SIDED|95.0|-5.5|1.2|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|FIM: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage||1.2|-5.5|
82587579|NCT00475033|164887905|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|0.0|||||TWO_SIDED|95.0|-1.4|1.4|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Meningococcal C: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||1.4|-1.4|
82587580|NCT00475033|164887906|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.27|||||TWO_SIDED|95.0|1.08|1.5|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|Meningococcal C: Ratio of geometric means (13vPnC, 7vPnC)||1.50|1.08|
82587581|NCT00475033|164887911|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.14|||||TWO_SIDED|95.0|1.02|1.27|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PT: Ratio of geometric means (13vPnC, 7vPnC)||1.27|1.02|
82587582|NCT00475033|164887911|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.12|||||TWO_SIDED|95.0|1.01|1.25|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|FHA: Ratio of geometric means (13vPnC, 7vPnC)||1.25|1.01|
82587583|NCT00475033|164887911|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.05|||||TWO_SIDED|95.0|0.89|1.24|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PRN: Ratio of geometric means (13vPnC, 7vPnC)||1.24|0.89|
82587584|NCT00475033|164887911|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.89|||||TWO_SIDED|95.0|0.78|1.02|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|FIM: Ratio of geometric means (13vPnC, 7vPnC)||1.02|0.78|
82587585|NCT00475033|164887912|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-1.8|||||TWO_SIDED|95.0|-4.4|0.1|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||0.1|-4.4|
82587586|NCT00475033|164887913|SUPERIORITY_OR_OTHER||Ratio of geometric means|0.91|||||TWO_SIDED|95.0|0.75|1.12|||||CI for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC, 7vPnC).|PRP in Hib: Ratio of geometric means (13vPnC, 7vPnC)||1.12|0.75|
82587587|NCT00475033|164887914|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was declared if the lower limit of the 2-sided 95% CI for the difference between the 2 treatment groups was \> -10%.|Difference|-3.0|||||TWO_SIDED|95.0|-9.4|3.4|||||Exact 2-sided CI for the difference in proportions (13vPnC, 7vPnC) expressed as a percentage.|PRP: Difference in proportions (13vPnC, 7vPnC) expressed as a percentage.||3.4|-9.4|
82587588|NCT03231943|164887979|OTHER||Power model|0.9476|||||TWO_SIDED|90.0|0.8982|0.9971|||||The statistical model (power model) is based on the PK parameters (AUC0-inf) from all active doses in Part 1|||0.9971|0.8982|
82587589|NCT03231943|164887980|OTHER||Power model|0.928|||||TWO_SIDED|90.0|0.8877|0.9683|||||The statistical model (power model) is based on the PK parameters (AUC0-24) from all active doses in Part 1|||0.9683|0.8877|
82587590|NCT03231943|164887981|OTHER||Power Model|0.9352|||||TWO_SIDED|90.0|0.897|0.9734|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 1|||0.9734|0.8970|
82587591|NCT03231943|164887982|OTHER||Power model|0.7968|||||TWO_SIDED|90.0|0.6424|0.9512|||||The statistical model (power model) is based on the PK parameters (AUC0-tau) from all active doses in Part 1|||0.9512|0.6424|
82587592|NCT03231943|164887983|OTHER||Power model|0.789|||||TWO_SIDED|90.0|0.6149|0.9631|||||The statistical model (power model) is based on the PK parameters (Ctrough) from all active doses in Part 2|||0.9631|0.6149|
82587593|NCT03231943|164887984|OTHER||Power model|0.7955|||||TWO_SIDED|90.0|0.6562|0.9349|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 2|||0.9349|0.6562|
82652934|NCT00135707|165021042|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.49||||0.11|TWO_SIDED|95.0|0.78|7.94|||Chi-squared|||||7.94|0.78|0.11
82652935|NCT00135707|165021043|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.57|TWO_SIDED|95.0|0.39|1.68|||Chi-squared|||||1.68|0.39|0.57
82652936|NCT00135707|165021044|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.18|TWO_SIDED|95.0|0.89|1.9|||Chi-squared|||||1.90|0.89|0.18
82652937|NCT00135707|165021045|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.09||||0.84|TWO_SIDED|95.0|0.48|2.46|||Chi-squared|||||2.46|0.48|0.84
82652938|NCT00135707|165021046|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.33|TWO_SIDED|95.0|0.93|1.24|||Chi-squared|||||1.24|0.93|0.33
82652939|NCT00135707|165021047|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.004|TWO_SIDED|95.0|1.03|1.17|||Chi-squared|||||1.17|1.03|0.004
82490522|NCT03355365|164674373|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||.43
82376983|NCT00345631|164461103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.68|||<|0.0001|TWO_SIDED|95.0|-19.04|-12.31||Multiplicity is addressed for the two co-primary effectiveness endpoints via a closed testing procedure where the time to hemostasis will be assessed first and then time to ambulation only if significance is first achieved for time to hemostasis.|t-test, 2 sided|||"Null hypothesis: The mean time to hemostasis for the manual compression (MC) arm is less or equal to that for the vascular closure device (VCD) arm.~The trial is powered to detect a 5 minute reduction in mean time to hemostasis and a 2 hour reduction in mean time to ambulation for VCD vs. MC with over 90% power and a 5% two-sided (2.5% one-sided) Type I error"||-12.31|-19.04|<0.0001
82376984|NCT00345631|164461104|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.7||||0.0028|TWO_SIDED|95.0|-5.53|-1.87||Multiplicity is addressed for the two co-primary effectiveness endpoints via a closed testing procedure where the time to hemostasis will be assessed first and then time to ambulation only if significance is first achieved for time to hemostasis.|t-test, 2 sided|||"Null hypothesis:The mean time to ambulation for the manual compression (MC) arm is less or equal to that for the vascular closure device (VCD) arm.~The trial is powered to detect a 5 minute reduction in mean time to hemostasis and a 2 hour reduction in mean time to ambulation for VCD vs. MC with over 90% power and a 5% two-sided (2.5% one-sided) Type I error"||-1.87|-5.53|0.0028
82377538|NCT00486525|164462476|SUPERIORITY_OR_OTHER||Slope|-0.021|STANDARD_ERROR_OF_MEAN|0.02||0.28|TWO_SIDED|95.0|-0.06|0.018|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes immediately post-treatment.|Secondary analysis on change of ln (TNF-a) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.018|-0.060|0.28
82490523|NCT03355365|164674374|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82490524|NCT03355365|164674375|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82490525|NCT03355365|164674376|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||.71
82490526|NCT03355365|164674377|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82587594|NCT03231943|164887989|OTHER||Power model|0.737|||||TWO_SIDED|90.0|0.5649|0.9091|||||The statistical model (power model) is based on the PK parameters (Cmax) from all active doses in Part 2|||0.9091|0.5649|
82587595|NCT03231943|164887990|OTHER||Power model|0.7397|||||TWO_SIDED|90.0|0.5576|0.9218|||||The statistical model (power model) is based on the PK parameters (AUC0-24) from all active doses in Part 2|||0.9218|0.5576|
82587596|NCT03444324|164888005|NON_INFERIORITY|The primary efficacy analysis of this endpoint was to test non-inferiority in the Per-protocol Set. The final analysis was performed using a two-way analysis of variance (ANOVA). Non-inferiority was to be demonstrated if the upper confidence limit of the two-sided 95 % confidence interval (CI) for the difference in the least squares mean (LSM) was less than the non-inferiority margin (150 mL).|Difference in LSM|-279.43|||<|0.001|TWO_SIDED|95.0|-552.38|-6.48||p-value from Van Elteren test, stratified by predictive blood loss (\> 1,000 mL to = 2,000 mL and \>2,000 mL)|Van Elteren test|||||-6.48|-552.38|<0.001
82587597|NCT03444324|164888006|OTHER||Difference in response rate|38.1|||<|0.001|TWO_SIDED|95.0|26.0|50.3|||Cochran-Mantel-Haenszel|P-value is from a Cochran-Mantel-Haenszel model stratified by predictive blood loss (\> 1,000 mL to ≤ 2,000 mL and \> 2,000 mL).||||50.3|26|<0.001
82587598|NCT03444324|164888007|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82587599|NCT03444324|164888013|OTHER||Difference in LSM|-15.5|||<|0.831|TWO_SIDED|95.0|-157.83|126.88|||ANOVA|||||126.88|-157.83|<0.831
82587600|NCT03444324|164888014|OTHER||Difference in LSM|12.4|||=|0.809|TWO_SIDED|95.0|-88.84|113.66|||ANOVA|||||113.66|-88.84|=0.809
82587601|NCT03444324|164888015|OTHER||Difference in proportion|-4.8|||=|0.022|TWO_SIDED|95.0|-8.9|-0.7|||Cochran-Mantel-Haenszel|||||-0.7|-8.9|=0.022
82587602|NCT01598311|164888020|NON_INFERIORITY|Non-inferiority was declared when the lower bound of the 95% CI for the difference in adjusted percentage of cured subjects was \> -10%.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-4.9|7.6||||||||7.6|-4.9|
82587603|NCT01598311|164888022|SUPERIORITY|Superiority was declared if the lower bound of the 95% CI of the adjusted difference in sustained response was \> 0.|Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-3.6|12.2||||||||12.2|-3.6|
82587604|NCT04417127|164888058|SUPERIORITY|Analysis of the primary outcome was conducted using a doubly-robust generalized estimating equation (GEE) with a logit link function. Multiple imputation was used to account for missing data on baseline covariates; Rubin's rule was used for variance estimation. The GEE model included the intervention arm, used an independence working correlation matrix and variance was estimated using a sandwich variance estimator for clustered data.|Odds Ratio, log|0.84||||0.23|TWO_SIDED|95.0|0.63|1.12||Baseline values of variables (county, gender, age, education, income, viral load) were used for differential dropout adjustment for the primary comparison and differential dropout and confounding adjustments for comparisons to matched participants.|Wald test|Hypothesis: Microfinance with Integrated, Community-based Care \> Microfinance with Usual Care in terms of viral suppression at 18-months.|The intervention effect was estimated using the log odds ratio coefficient associated with the intervention in the GEE. The primary hypothesis test of intervention effect was conducted using a Wald test and 95% Wald-based confidence intervals.|For the primary outcome, the primary analysis was an intention-to-treat analysis that included all randomized participants comparing viral suppression at 18-months. Following studies of the effect of financial interventions, we powered the study to have at least 80% power to detect a 15% additive increase in viral suppression among microfinance group members receiving integrated community care compared to those receiving facility-based care, assuming 15% dropout.||1.12|0.63|0.23
82652940|NCT00135707|165021048|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||0.25|TWO_SIDED|95.0|0.95|1.21|||Chi-squared|||||1.21|0.95|0.25
82652941|NCT00135707|165021049|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.73||||0.15||95.0|0.47|1.12|||Chi-squared|||||1.12|0.47|0.15
82652942|NCT00135707|165021050|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.51|TWO_SIDED|95.0|0.32|1.77|||Chi-squared|||||1.77|0.32|0.51
82652943|NCT00135707|165021051|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21||||0.33|TWO_SIDED|95.0|0.82|1.79|||Chi-squared|||||1.79|0.82|0.33
82652944|NCT00135707|165021052|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.96||||0.74|TWO_SIDED|95.0|0.75|1.22|||Chi-squared|||||1.22|0.75|0.74
82652945|NCT00135707|165021053|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.12|TWO_SIDED|95.0|0.4|1.11|||Chi-squared|||||1.11|0.40|0.12
82652946|NCT00135707|165021054|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.35|TWO_SIDED|95.0|0.97|1.11|||Chi-squared|||||1.11|0.97|0.35
82652947|NCT00135707|165021056|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3||||0.05|TWO_SIDED|95.0|0.08|1.08|||Chi-squared|||||1.08|0.08|0.05
82652948|NCT00135707|165021057|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.67||||0.05|TWO_SIDED|95.0|0.45|1.01|||Chi-squared|||||1.01|0.45|0.05
82652949|NCT00135707|165021058|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.65
82652950|NCT00135707|165021059|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
82652951|NCT00135707|165021060|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.97||||0.63|TWO_SIDED|95.0|0.87|1.09|||Chi-squared|||\<37 weeks' gestation||1.09|0.87|0.63
82652952|NCT00135707|165021060|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.86||||0.16|TWO_SIDED|95.0|0.69|1.06|||Chi-squared|||\<32 weeks' gestation||1.06|0.69|0.16
82652953|NCT00135707|165021061|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.53|TWO_SIDED|95.0|0.72|1.19|||Chi-squared|||||1.19|0.72|0.53
82652954|NCT00135707|165021062|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.55
82652955|NCT00135707|165021063|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.79|1.27|||Chi-squared|||||1.27|0.79|0.98
82652956|NCT00135707|165021064|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07|||Chi-squared|||||1.07|0.81|0.32
82652957|NCT00135707|165021065|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||0.58|TWO_SIDED|95.0|0.92|1.15|||Chi-squared|||||1.15|0.92|0.58
82652958|NCT00135707|165021066|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.04||||0.75|TWO_SIDED|95.0|0.83|1.3|||Chi-squared|||||1.30|0.83|0.75
82652959|NCT00135707|165021067|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.78|TWO_SIDED|95.0|0.29|2.54|||Chi-squared|||||2.54|0.29|0.78
82652960|NCT00135707|165021068|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.76|2.23|||Chi-squared|||||2.23|0.76|0.34
82652961|NCT00135707|165021069|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.71||||0.41|TWO_SIDED|95.0|0.32|1.6|||Chi-squared|||||1.60|0.32|0.41
82652962|NCT00135707|165021070|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.62|TWO_SIDED|95.0|0.61|2.3|||Chi-squared|||||2.30|0.61|0.62
82652963|NCT00135707|165021071|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.56|TWO_SIDED|95.0|0.49|1.48|||Chi-squared|||||1.48|0.49|0.56
82652964|NCT00135707|165021072|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.79
82652965|NCT00135707|165021073|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.86|TWO_SIDED|95.0|0.82|1.26|||Chi-squared|||||1.26|0.82|0.86
82652966|NCT00135707|165021074|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||0.32|TWO_SIDED|95.0|0.89|1.42|||Chi-squared|||||1.42|0.89|0.32
82498947|NCT03247530|164688877|SUPERIORITY|||||||0.0066|||||||Chi-squared|||This analysis pertains to Week 5 of treatment||||0.0066
82652967|NCT02337933|165021075|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82652968|NCT02337933|165021076|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82652969|NCT02337933|165021077|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82652970|NCT02337933|165021078|OTHER|||||||0.308|||||||Wilcoxon (Mann-Whitney)|||||||0.308
82652971|NCT02337933|165021079|OTHER|||||||0.575|||||||Wilcoxon (Mann-Whitney)|||||||0.575
82652972|NCT02337933|165021080|OTHER|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
82652973|NCT02337933|165021081|OTHER|||||||0.373|||||||Wilcoxon (Mann-Whitney)|||||||0.373
82652974|NCT02337933|165021082|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82652975|NCT02337933|165021083|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
82652976|NCT02337933|165021084|OTHER|||||||0.224|||||||Wilcoxon (Mann-Whitney)|||||||0.224
82652977|NCT02337933|165021085|OTHER|||||||0.116|||||||Wilcoxon (Mann-Whitney)|||||||0.116
82652978|NCT02337933|165021086|OTHER|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||||||0.953
82652979|NCT02337933|165021087|OTHER|||||||0.999|||||||Wilcoxon (Mann-Whitney)|||||||0.999
82652980|NCT03093454|165021088|EQUIVALENCE|Linear mixed effects models were used to investigate HADS scores (total, anxiety, and depression), sleep scores, and pain scores. Variables for time point (preoperative/Post-op Day 1/final Post-op Day) \& arm were analyzed. Adjustment for multiple pairwise comparisons used the Scheffe method. Analyses were conducted based on the intent to treat principle. P-values\<0.05 were considered statistically significant. Each time point, the mean and corresponding 95% confidence interval has been plotted.|Odds Ratio (OR)|95.0|STANDARD_DEVIATION|1.0||0.05|TWO_SIDED|95.0||||The p value is calculated and adjusted for multiple comparisons.|Fisher Exact|||Lavender group compared to control group||||0.05
82652981|NCT04540497|165021091|OTHER||Hazard Ratio (HR)|0.13|||||TWO_SIDED|95.0|0.06|0.28|||||Inebilizumab versus placebo|||0.28|0.06|
82652982|NCT04540497|165021098|OTHER||Hazard Ratio (HR)|0.12|||||TWO_SIDED|95.0|0.05|0.26|||||Inebilizumab vs placebo|||0.26|0.05|
82652983|NCT01681030|165021117|SUPERIORITY_OR_OTHER||Proportion|0.923|||||TWO_SIDED|95.0|0.64|0.998|||||CI for EVARREST Group|||0.998|0.640|
82652984|NCT01681030|165021117|SUPERIORITY_OR_OTHER||Proportion|0.333|||||TWO_SIDED|95.0|0.133|0.59|||||CI for Topical Hemostat group|||0.590|0.133|
82652985|NCT01681030|165021117|SUPERIORITY_OR_OTHER||Proportion|0.455|||||TWO_SIDED|95.0|0.167|0.766|||||CI for Standard of Care group|||0.766|0.167|
82652986|NCT02743702|165021125|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82652987|NCT00992407|165021134|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|-0.61||||0.8595|TWO_SIDED|95.0|-7.5|6.3|||t-test, 2 sided|||Change from Baseline in Personal and Social Performance (PSP) Scale Score at Week 52||6.3|-7.5|0.8595
82652988|NCT00992407|165021135|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|1.29||||0.8118|TWO_SIDED|95.0|-9.6|12.2|||t-test, 2 sided|||Change from Baseline in Positive and Negative Syndrome Scale (PANSS) Score at Week 52||12.2|-9.6|0.8118
82652989|NCT00992407|165021144|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|10.0||||0.1768|TWO_SIDED|95.0|-4.8|24.8|||Student's t-test|||Change from Baseline in Psychosocial Well-being Index (PWI) Score at Week 52||24.8|-4.8|0.1768
82652990|NCT00992407|165021145|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|-0.33||||0.9569|TWO_SIDED|95.0|-12.8|12.2|||Student's t-test|||||12.2|-12.8|0.9569
82652991|NCT00992407|165021146|NON_INFERIORITY_OR_EQUIVALENCE|80% of power and 0.05 of significance level was used|Mean Difference (Final Values)|0.58||||0.5294|TWO_SIDED|95.0|-5.5|2.9|||t-test, 2 sided|||||2.9|-5.5|0.5294
82376985|NCT00345631|164461105|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is adequate to rule out a 4% or larger disadvantage for VCD vs. MC (null hypothesis: 2.5% MC vs. 6.5% VCD) in the incidence of major complications for VCD vs. MC using a 95% upper confidence bound for the VCD - MC difference with 80% power and a 5% one-sided Type I error|Mean Difference (Final Values)|0.0||||0.0006|ONE_SIDED|95.0||1.14||P-value was calculated using unconditional exact test of non-inferiority for difference of two binomial proportions (VCD vs. MC) with a margin of 4%.|unconditional exact test|||Based on pre-planned hypotheses, a minimum sample size of 390 randomized patients (260 VCD patients and 130 MC patients) would demonstrate non-inferiority for the primary safety endpoint and superiority for both co-primary effectiveness endpoints in comparing VCD vs. MC.||1.14||0.0006
82490527|NCT04622306|164674378|NON_INFERIORITY|The non-inferiority margin for the difference in total clinical failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified in ISO 23409:2011 as 2.5%.|Upper 97.5% CL for difference|2.5||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set.|GEE|||Null Hypothesis: Expected test condom total clinical failure rate - expected control natural rubber latex male condom total clinical failure rate ≥ δ, where δ = 2.5%; Power calculations were conducted according to ISO 29943-1:2017. Target sample sizes were chosen to provide a power of at least 90%.||2.5||0.025
82376986|NCT00345631|164461106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7||||0.154|TWO_SIDED|95.0|-7.84|0.45|||t-test, 2 sided|||Null hypothesis: The mean time to eligibility for hospital discharge for the manual compression (MC) arm is equal to that for the vascular closure device (VCD) arm.||0.45|-7.84|0.1540
82376987|NCT00345631|164461107|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57||||0.3612|TWO_SIDED|95.0|-7.46|2.31|||t-test, 2 sided|||Null hypothesis: The mean time to hospital discharge for the manual compression (MC) arm is equal to that for the vascular closure device (VCD) arm.||2.31|-7.46|0.3612
82376988|NCT00345631|164461110|SUPERIORITY_OR_OTHER||Proportion difference|0.7||||0.85|TWO_SIDED|95.0|-4.8|7.4|||t-test, 2 sided|||Null hypothesis: The percentages of patients achieving procedure success between the vascular closure device and manual compression arms are equal.||7.4|-4.8|0.85
82376989|NCT00517556|164461112|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82376990|NCT01130597|164461171|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|90.5|||||TWO_SIDED|95.0|80.4|96.4|||||Clopper-Pearson was used to arrive at the 95% Confidence Interval|||96.4|80.4|
82376991|NCT01130597|164461176|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|84.1|||||TWO_SIDED|95.0|72.7|92.1|||||Clopper-Pearson was used to arrive at the 95% Confidence Interval|||92.1|72.7|
82376992|NCT03922529|164461192|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.8||0.543|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5430
82376993|NCT03922529|164461193|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.8||0.7625|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7625
82376994|NCT03922529|164461194|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.7||0.8842|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8842
82376995|NCT03922529|164461195|SUPERIORITY||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.4086|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4086
82376996|NCT03922529|164461196|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.2||0.3841|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.3841
82376997|NCT03922529|164461197|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.2||0.1393|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|||The adjusted difference from a model may not necessarily match the raw difference between groups.|||0.1393
82376998|NCT03922529|164461198|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|12.3||0.9257|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9257
82376999|NCT03922529|164461199|SUPERIORITY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|11.8||0.6588|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6588
82377000|NCT03922529|164461200|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|13.0||0.992|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9920
82652992|NCT02396381|165021182|OTHER||LS Mean Difference|3.09|||<|0.001|TWO_SIDED|96.875|1.1|5.09|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of HDL-C for THS-use is greater than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≤ 0.0~HA: XTHS - XCC \> 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||5.09|1.10|<0.001
82587605|NCT04417127|164888058|SUPERIORITY||Odds Ratio, log|2.16|||<|0.001|TWO_SIDED|95.0|1.48|3.19||Hypothesis: Microfinance with Integrated, Community-based Care \> Usual (Facility-based) Care in terms of viral suppression at 18-months.|Wald test|||A secondary analysis of the primary outcome included a comparison of viral suppression at 18- months, between each of the two randomized trial arms and the non-randomized, prospectively-followed, frequency-matched participants who were not engaged in microfinance. The secondary analysis used the same analytic model as the primary analysis, assuming no clustering in the non-randomized sample.||3.19|1.48|<0.001
82587606|NCT04417127|164888058|SUPERIORITY||Odds Ratio, log|1.42||||0.023|TWO_SIDED|95.0|1.05|1.92||Hypothesis: Microfinance with Usual (Facility-based) Care \> Usual (Facility-based) Care in terms of viral suppression at 18-months.|Wald test|||A secondary analysis of the primary outcome included a comparison of viral suppression at 18- months, between each of the two randomized trial arms and the non-randomized, prospectively-followed, frequency-matched participants who were not engaged in microfinance. The secondary analysis used the same analytic model as the primary analysis, assuming no clustering in the non-randomized sample.||1.92|1.05|0.023
82587607|NCT04417127|164888059|SUPERIORITY||Odds Ratio, log|3.31|||<|0.001|TWO_SIDED|95.0|2.58|4.26|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||4.26|2.58|<0.001
82587608|NCT04417127|164888059|SUPERIORITY||Odds Ratio, log|7.51|||<|0.001|TWO_SIDED|95.0|6.0|9.55|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||9.55|6.00|<0.001
82587609|NCT04417127|164888059|SUPERIORITY||Odds Ratio, log|2.56|||<|0.001|TWO_SIDED|95.0|2.14|3.06|||Wald test|||The retention in care analysis was an intention-to-treat analysis that included all enrolled participants and used the same analysis methods as those for the viral suppression (primary outcome) analysis. The retention in care analyses were not adjusted for multiplicity and should be considered hypothesis generating.||3.06|2.14|<0.001
82652993|NCT02396381|165021183|SUPERIORITY||LS Mean Difference|-0.42||||0.001|TWO_SIDED|96.875|-0.717|-0.123|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of WBC for THS-use is lower than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≥ 0.0~HA: XTHS - XCC \< 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||-0.123|-0.717|0.001
82377001|NCT03922529|164461201|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9504|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9504
82587610|NCT04417127|164888060|SUPERIORITY||Mean Difference (Final Values)|-0.206|||||TWO_SIDED|95.0|-2.595|2.183|||Wald test|||||2.183|-2.595|
82587611|NCT04417127|164888061|SUPERIORITY||Mean Difference (Final Values)|-0.4478|||||TWO_SIDED|95.0|-0.701|-0.194|||Wald test|||||-0.194|-0.701|
82587612|NCT03971422|164888102|SUPERIORITY||LS Mean Difference|-2.586|||<|0.001|TWO_SIDED|95.0|-4.091|-1.249||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||Mixed model repeated measure (MMRM) ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.249|-4.091|<0.001
82587613|NCT03971422|164888102|SUPERIORITY||LS Mean Difference|-2.619|||<|0.001|TWO_SIDED|95.0|-3.994|-1.163||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM analysis of covariance (ANCOVA) model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.163|-3.994|<0.001
82587614|NCT03971422|164888103|SUPERIORITY||Odds Ratio (OR)|5.765|||<|0.001|TWO_SIDED|95.0|2.1|14.882||p-value is nominal. Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Wald test||The OR of responder rates is estimated and tested between treatment groups using logistic regression model with treatment group, Baseline MG-ADL score and stratification factor (MuSK+ or AChR+). An OR \> 1 favours rozanolixizumab.|||14.882|2.100|<0.001
82587615|NCT03971422|164888103|SUPERIORITY||Odds Ratio (OR)|4.273|||<|0.001|TWO_SIDED|95.0|1.653|11.791||p-value is nominal. Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Wald test||The OR of responder rates is estimated and tested between treatment groups using logistic regression model with treatment group, Baseline MG-ADL score and stratification factor (MuSK+ or AChR+). An OR \> 1 favours rozanolixizumab.|||11.791|1.653|<0.001
82587616|NCT03971422|164888104|SUPERIORITY||LS Mean Difference|-3.901|||<|0.001|TWO_SIDED|95.0|-6.634|-1.245||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.245|-6.634|<0.001
82377002|NCT03922529|164461202|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.3||0.6228|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6228
82652994|NCT02396381|165021184|SUPERIORITY||LS Mean Difference|1.28||||0.008|TWO_SIDED|96.875|0.145|2.42|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach||"The analysis will test if the mean level of FEV1 for THS-use is greater than for CC-use. The following hypothesis will be evaluated:~H0: XTHS - XCC ≤ 0.0~HA: XTHS - XCC \> 0.0~where XTHS and XCC are the adjusted means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||2.42|0.145|0.008
82377003|NCT03922529|164461203|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.7966|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7966
82377004|NCT03922529|164461204|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5071|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5071
82490528|NCT04622306|164674378|NON_INFERIORITY|The non-inferiority margin for the difference in total failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified on ISO 23409:2011 as 2.5%|Upper 97.5% CLof difference|2.5||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set.|GEE|||Null Hypothesis: Test condom total clinical failure rate - control natural rubber latex male condom total clinical failure rate ≥ δ, where δ = 2.5%; Power calculations were conducted according to ISO 29943-1:2017. Target sample sizes were chosen to provide a power of at least 90%.||2.5||0.025
82490529|NCT04622306|164674378|NON_INFERIORITY|The non-inferiority margin for the difference in total failure rates (clinical breakage plus clinical slippage) between the test and control condom is specified on ISO 23409:2011 as 2.5%|Upper 97.5% CL for difference|2.37||||0.025|ONE_SIDED|97.5||2.5||The p-value was adjusted to 0.025 since two comparisons are being made on the data set|GEE|||The non-inferiority analysis was repeated after removing couples where the male partner had a penis length greater than 170 mm. The polyurethane condom B has a specified nominal length of 170 mm and is not recommended for men with penises longer than the length of the condom.||2.5||0.025
82490530|NCT00491764|164674396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.9||||0.005||95.0|8.9|36.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||36.8|8.9|0.005
82490531|NCT00491764|164674396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|54.1|||<|0.001||95.0|38.0|70.1|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||70.1|38.0|<0.001
82490532|NCT00491764|164674396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|45.5|||<|0.001||95.0|28.5|62.4|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||62.4|28.5|<0.001
82490533|NCT00491764|164674396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.0||||0.012||95.0|6.7|33.3|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||33.3|6.7|0.012
82490534|NCT00491764|164674396|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.1|||<|0.001||95.0|21.1|53.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||53.2|21.1|<0.001
82490535|NCT00491764|164674397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|25.7||||0.002||95.0|11.2|40.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||40.2|11.2|0.002
82490536|NCT00491764|164674397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.9|||<|0.001||95.0|49.5|80.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||80.2|49.5|<0.001
82490537|NCT00491764|164674397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|48.5|||<|0.001||95.0|31.4|65.5|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||65.5|31.4|<0.001
82490538|NCT00491764|164674397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
82490539|NCT00491764|164674397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|54.3|||<|0.001||95.0|37.8|70.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||70.8|37.8|<0.001
82490540|NCT00491764|164674398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
82490541|NCT00491764|164674398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|64.9|||<|0.001||95.0|49.5|80.2|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||80.2|49.5|<0.001
82490542|NCT00491764|164674398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|66.7|||<|0.001||95.0|50.6|82.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||82.8|50.6|<0.001
82490543|NCT00491764|164674398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|31.4|||<|0.001||95.0|16.0|46.8|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||46.8|16.0|<0.001
82490544|NCT00491764|164674398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|57.1|||<|0.001||95.0|40.7|73.5|||Fisher Exact||Difference is in the proportion for Yes responders. Confidence Interval is around the difference in proportions.|||73.5|40.7|<0.001
82490545|NCT03055156|164674405|OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.60
82490546|NCT03055156|164674406|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82490547|NCT03055156|164674407|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82490548|NCT03055156|164674408|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82490549|NCT03055156|164674409|OTHER|||||||0.02|||||||t-test, 2 sided|||Analysis of Wake values||||0.02
82587617|NCT03971422|164888104|SUPERIORITY||LS Mean Difference|-5.525|||<|0.001|TWO_SIDED|95.0|-8.303|-2.968||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-2.968|-8.303|<0.001
82587618|NCT03971422|164888105|SUPERIORITY||LS Mean Difference|-3.483|||<|0.001|TWO_SIDED|95.0|-5.614|-1.584||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-1.584|-5.614|<0.001
82587619|NCT03971422|164888105|SUPERIORITY||LS Mean Difference|-4.756|||<|0.001|TWO_SIDED|95.0|-6.821|-2.859||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-2.859|-6.821|<0.001
82587620|NCT03971422|164888106|SUPERIORITY||LS Mean Difference|-12.441|||<|0.001|TWO_SIDED|95.0|-21.804|-4.089||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-4.089|-21.804|<0.001
82587621|NCT03971422|164888106|SUPERIORITY||LS Mean Difference|-15.163|||<|0.001|TWO_SIDED|95.0|-23.596|-6.45||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-6.450|-23.596|<0.001
82587622|NCT03971422|164888107|SUPERIORITY||LS Mean Difference|-8.65||||0.012|TWO_SIDED|95.0|-18.058|-0.134||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-0.134|-18.058|0.012
82587623|NCT03971422|164888107|SUPERIORITY||LS Mean Difference|-14.822|||<|0.001|TWO_SIDED|95.0|-23.759|-5.936||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-5.936|-23.759|<0.001
82587624|NCT03971422|164888108|SUPERIORITY||LS Mean Difference|-11.32|||<|0.001|TWO_SIDED|95.0|-18.958|-4.998||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-4.998|-18.958|<0.001
82652995|NCT02396381|165021185|SUPERIORITY||% Reduction|2.86||||0.03|TWO_SIDED|96.875|-0.426|6.04|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of sICAM-1 will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||6.04|-0.426|0.030
82652996|NCT02396381|165021186|SUPERIORITY||% Reduction|4.74||||0.193|TWO_SIDED|96.875|-7.5|15.6|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of 11-DTX-B2 will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||15.6|-7.5|0.193
82652997|NCT02396381|165021187|SUPERIORITY||% Reduction|6.8||||0.018|TWO_SIDED|96.875|-0.216|13.3|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of 8-epi-PGF2α will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||13.3|-0.216|0.018
82490550|NCT03055156|164674409|OTHER|||||||0.06|||||||t-test, 2 sided|||Analysis of REM values||||0.06
82490551|NCT03055156|164674409|OTHER|||||||0.83|||||||t-test, 2 sided|||Analysis of Non REM stage 1 values||||0.83
82490552|NCT03055156|164674409|OTHER|||||||0.87|||||||t-test, 2 sided|||Analysis of Non REM stage 2 values||||0.87
82490553|NCT03055156|164674409|OTHER|||||||0.97|||||||t-test, 2 sided|||Analysis of Non REM stage 3 values||||0.97
82490554|NCT03055156|164674410|OTHER|||||||0.38|||||||t-test, 2 sided|||||||0.38
82490555|NCT03055156|164674411|OTHER|||||||0.96|||||||t-test, 2 sided|||||||0.96
82490556|NCT03055156|164674413|OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
82490557|NCT03055156|164674414|OTHER|||||||0.86|||||||t-test, 2 sided|||analysis of 0-90 minutes||||0.86
82652998|NCT02396381|165021188|SUPERIORITY||% Reduction|43.5|||<|0.001|TWO_SIDED|96.875|33.7|51.9|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis of Total NNAL will test if the mean level of this clinical risk endpoint for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use, respectively. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||51.9|33.7|<0.001
82490558|NCT03055156|164674414|OTHER|||||||0.29|||||||t-test, 2 sided|||analysis of 90-180 minutes||||0.29
82490559|NCT03055156|164674414|OTHER|||||||0.58|||||||t-test, 2 sided|||analysis of 180-270 minutes||||0.58
82490560|NCT03055156|164674414|OTHER|||||||0.62|||||||t-test, 2 sided|||analysis of 270-360 min||||0.62
82490561|NCT03055156|164674415|OTHER|||||||0.389|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to compare the difference in core body temperature trend over time between the two study arms. Interaction between time and topper type on CBT was calculated.||||0.389
82490562|NCT03055156|164674415|OTHER|||||||0.01|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to see the effect over time from both study arms on CBT. Main effect of time on CBT.||||0.01
82490563|NCT03055156|164674415|OTHER|||||||0.642|||||||ANOVA|||Implemented two-way mixed ANOVA with time as within-subject variable and topper type as between-subject variable. This is to see the effect of the intervention on CBT including all time points. Main effect of topper type on CBT.||||0.642
82490564|NCT03055156|164674416|OTHER|||||||0.61|||||||t-test, 2 sided|||||||0.61
82490565|NCT03055156|164674417|OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
82490566|NCT03055156|164674418|OTHER|||||||1|||||||t-test, 2 sided|||||||1.00
82490567|NCT00074984|164674420|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.1449|TWO_SIDED|95.0|0.269|1.222|||Log Rank|Comparison is based on a 2-sided log-rank test.||||1.222|0.269|0.1449
82490568|NCT00074984|164674420|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.465||||0.0577|TWO_SIDED|95.0|0.211|1.025|||Wald Test|||Time to First Primary Endpoint Adjusting for Baseline Proteinuria using Cox Proportional Hazards Model||1.025|0.211|0.0577
82490569|NCT00074984|164674421|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732||||0.5261|TWO_SIDED|95.0|0.278|1.927|||Log Rank|2-sided log-rank test||Analysis of Time to First Renal Event for ITT population.||1.927|0.278|0.5261
82490570|NCT03080454|164674425|EQUIVALENCE|Statistical analysis for mean percent change from baseline in area under the curve for the resistance torque measure across 2 conditions (anodal vs. sham Doublestim) and at 2 timepoints (final session at day 5 and 1 week FU). Null hypothesis is that there was no difference in mean percent change in area under the curve between anodal and sham Doublestim conditions. A significance level of 0.05 was used (two-sided).||||||0.004||||||A 2x2 repeated measures ANOVA was performed with condition (mean percent change in anodal vs. sham condition) and time (final session at day 5 and 1 week FU in each condition) as factors. A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.004
82490571|NCT03080454|164674426|EQUIVALENCE|Statistical analysis for mean Tardieu Scale Score summed across 11 joints of the upper extremity in 2 conditions (anodal vs. sham Doublestim) and at 2 timepoints (final session at day 5 and 1 week FU). Null hypothesis is that there was no difference in mean change between anodal and sham Doubleestim conditions. A significance level of 0.05 was used (two-sided).||||||0.003||||||A 2x2 repeated measures ANOVA was performed with condition (mean score in anodal vs. sham condition) and time (final session at day 5 and 1 week FU in each condition) as factors. A significance level of 0.05 was used (two-sided).|ANOVA|||||||0.003
82490572|NCT04138810|164674433|NON_INFERIORITY|We defined the non-inferiority margin to be 5 points which with a sample of size of 25 women per arm would mean we would have a type I error rate of 0.05 and a power of 0.80.|Mean Difference (Net)|0.46|||||TWO_SIDED|95.0|-1.95|1.03||||||||1.03|-1.95|
82490573|NCT05981391|164674469|SUPERIORITY|||||||0.01||||||Adjusted for multiple comparisons.|t-test, 2 sided|||||||0.01
82490574|NCT03881670|164674477|OTHER|Friedman test||||||0.0023|||||||Friedman Test|||Change in ratings over time||||0.0023
82490575|NCT03881670|164674477|OTHER|Friedman test||||||0.4679|||||||Friedman Test|||change in ratings over time||||0.4679
82490576|NCT00914485|164674484|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 1 sided|||Increase in mean, post-intervention versus baseline, across 18 providers and 369 patients.||||.03
82490577|NCT04889222|164674522|EQUIVALENCE|A TOST procedure using the Wilcoxon Rank Sum Test was used to test the hypothesis that the median biases of the INVSENSOR00050 sensor from two pigmentation subgroups (Light and Dark) were equivalent within ± 1 %SpO2. The TOST procedure provides a p-value indicating whether the two measures are equivalent if the p-value is less than 0.05.||||||0.00097||||||The a priori threshold for p-value was 0.05.|Two One Sided Tests (TOST)|||||||0.00097
82498948|NCT03247530|164688877|SUPERIORITY|||||||0.0065|||||||Chi-squared|||This analysis pertains to Week 6 of treatment||||0.0065
82498949|NCT03247530|164688877|SUPERIORITY|||||||0.5826|||||||Chi-squared|||This analysis pertains to Week 1 of treatment||||0.5826
82498950|NCT03247530|164688877|SUPERIORITY|||||||0.0099|||||||Chi-squared|||This analysis pertains to Week 2 of treatment||||0.0099
82490578|NCT04889222|164674523|EQUIVALENCE|A TOST procedure using the Wilcoxon Rank Sum Test was used to test the hypothesis that the median biases of the RD SET SpO2 sensor from two pigmentation subgroups (Light and Dark) were equivalent within ± 1 %SpO2. The TOST procedure provides a p-value indicating whether the two measures are equivalent if the p-value is less than 0.05.||||||0||||||The a priori threshold for p-value was 0.05.|Two One-Sided Tests (TOST)|||||||0.00000
82490579|NCT04873700|164674532|SUPERIORITY||||||=|0.0701|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Location of disease||||=0.0701
82490580|NCT04873700|164674532|SUPERIORITY||||||=|0.1383|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Disease behavior||||=0.1383
82490581|NCT04873700|164674532|SUPERIORITY||||||=|0.0478|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Perianal disease||||=0.0478
82490582|NCT04873700|164674532|SUPERIORITY||||||=|0.1454|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Ileal disease||||=0.1454
82490583|NCT04873700|164674532|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Peripheral arthritis||||=1.0000
82490584|NCT04873700|164674532|SUPERIORITY||||||=|0.4992|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Aphthous ulcers||||=0.4992
82490585|NCT04873700|164674532|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Episcleritis||||=1.0000
82490586|NCT04873700|164674532|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Uveitis||||=1.0000
82652999|NCT02396381|165021189|SUPERIORITY||% Reduction|32.2|||<|0.001|TWO_SIDED|96.875|24.5|39.0|||Hailperin-Rüger|p-value less than 1.5625% would be considered statistically significant, following test multiplicity adjustment using the Hailperin-Rüger approach|Derived as 1 - LS Mean Ratio (THS / CC)|"The analysis will test if the mean level of COHb for THS-use is lower relative to CC-use. The following hypothesis will be evaluated:~H0: XTHS / XCC ≥ 1.0~HA: XTHS / XCC \< 1.0~where XTHS and XCC are the adjusted geometrical means of THS-use and CC-use. H0 is rejected with a type I error α = 1.5625% (one-sided test)."||39|24.5|<0.001
82490587|NCT04873700|164674532|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Osteoporosis||||=1.0000
82490588|NCT04873700|164674532|SUPERIORITY||||||=|0.2022|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Anemia||||=0.2022
82490589|NCT04873700|164674532|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Hematological alteration||||=1.0000
82490590|NCT04873700|164674532|SUPERIORITY||||||=|0|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Other||||=0.0000
82490591|NCT04873700|164674533|SUPERIORITY||||||=|0.2896|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Location of disease||||=0.2896
82490592|NCT04873700|164674533|SUPERIORITY||||||=|0.0006|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Disease behavior||||=0.0006
82490593|NCT04873700|164674533|SUPERIORITY||||||=|0.089|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Peripheral arthritis||||=0.0890
82490594|NCT04873700|164674533|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Pyoderma gangrenosum||||=1.0000
82490595|NCT04873700|164674533|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Aphthous ulcers||||=1.0000
82490596|NCT04873700|164674533|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Primary sclerosing cholangitis||||=1.0000
82653000|NCT03197064|165021190|OTHER|||||||0.35|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.35
82490597|NCT04873700|164674533|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Osteoporosis||||=1.0000
82490598|NCT04873700|164674533|SUPERIORITY||||||=|0.0752|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Anemia||||=0.0752
82490599|NCT04873700|164674533|SUPERIORITY||||||=|1|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Hematological alteration||||=1.0000
82490600|NCT04873700|164674533|SUPERIORITY||||||=|0.1032|||||||Chi-squared|p-value was obtained from Chi-square/Fisher's exact test.||Extraintestinal manifestations: Other||||=0.1032
82490601|NCT01044706|164674552|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference produts. Differences were declared statistically significant at the 5% level (p\<0.05).|ratio of T/R geometric mean x 100|108.46|STANDARD_ERROR_OF_MEAN|0.0321|<|0.05|TWO_SIDED|90.0|102.79|114.44||Differences were declared statistically significant at the 5% level (p\<0.05).|ANOVA|degrees of freedom 55|Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean for AUCO-144 and Cmax between the test and reference product fall within the interval of 80-125%.|Using GLM procedures in SAS, ANOVA was performed on ln-transformed AUC0-144 at the alpha level of 0.05. Factors incorporated in the model will include: Group, Treatment and Treatment\*Group. Intra-subject coefficient of variation (CV%) will be estimated. The ratio of means (T/R) and 90% geometric confidence interval for the ratio of means, based on least-squares means from the ANOVA of the ln-transformed data, will be calculated for AUC0-144 hour.||114.44|102.79|<0.05
82498951|NCT03247530|164688877|SUPERIORITY|||||||0.0225|||||||Chi-squared|||This analysis pertains to Week 3 of treatment||||0.0225
82498952|NCT03247530|164688877|SUPERIORITY|||||||0.0008|||||||Chi-squared|||This analysis pertains to Week 4 of treatment||||0.0008
82498953|NCT03247530|164688877|SUPERIORITY|||||||0.002|||||||Chi-squared|||This analysis pertains to Week 5 of treatment||||0.0020
82498954|NCT03247530|164688877|SUPERIORITY|||||||0.0002|||||||Chi-squared|||This analysis pertains to Week 6 of treatment||||0.0002
82498955|NCT03950167|164688878|OTHER||Mean Difference (Final Values)|0.85||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting CCK level difference: hyperemesis group-control group|||||0.05
82377005|NCT03922529|164461205|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5553|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.5553
82377006|NCT03922529|164461206|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.1194|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.1194
82500246|NCT02564042|164691144|OTHER||Proportion difference|-3.6|||||TWO_SIDED|95.0|-28.8|21.9|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 1 has been presented|||21.9|-28.8|
82500247|NCT02564042|164691144|OTHER||Proportion difference|-0.3|||||TWO_SIDED|95.0|-25.4|25.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 1 has been presented|||25.1|-25.4|
82500248|NCT02564042|164691144|OTHER||Proportion difference|9.4|||||TWO_SIDED|95.0|-17.5|35.3|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 2 has been presented|||35.3|-17.5|
82500249|NCT02564042|164691144|OTHER||Proportion difference|9.1|||||TWO_SIDED|95.0|-15.4|33.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 2 has been presented .|||33.3|-15.4|
82500250|NCT02564042|164691144|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-17.1|36.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 2 has been presented .|||36.1|-17.1|
82500251|NCT02564042|164691144|OTHER||Proportion difference|6.3|||||TWO_SIDED|95.0|-19.3|31.0|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 2 has been presented|||31.0|-19.3|
82500252|NCT02564042|164691144|OTHER||Proportion difference|9.7|||||TWO_SIDED|95.0|-18.2|36.7|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 4 has been presented|||36.7|-18.2|
82500253|NCT02564042|164691144|OTHER||Proportion difference|19.4|||||TWO_SIDED|95.0|-6.9|43.6|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 4 has been presented .|||43.6|-6.9|
82500254|NCT02564042|164691144|OTHER||Proportion difference|12.7|||||TWO_SIDED|95.0|-15.1|38.9|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 4 has been presented|||38.9|-15.1|
82587625|NCT03971422|164888108|SUPERIORITY||LS Mean Difference|-10.705|||<|0.001|TWO_SIDED|95.0|-17.787|-3.998||Confidence intervals and p-values are based on stage-wise inverse normal combination using the Lehmacher and Wassmer method.|Lehmacher and Wassmer method||MMRM ANCOVA model included treatment group, Baseline score, region, stratification factor (MuSK+ or AChR+) and treatment group by day (interaction term) as fixed factors and participant as a random effect.|A sequential testing procedure was used. The parallel gatekeeping testing procedure with a truncated Hochberg test was used to control the familywise type I error rate at a 2-sided alpha level of 0.05.||-3.998|-17.787|<0.001
82587626|NCT02087748|164888111|SUPERIORITY_OR_OTHER|||||||0.0324|||||||t-test, 2 sided|||||||0.0324
82587627|NCT02087748|164888112|SUPERIORITY_OR_OTHER|||||||0.3688|||||||t-test, 2 sided|||||||0.3688
82587628|NCT02087748|164888113|SUPERIORITY_OR_OTHER|||||||0.0275|||||||t-test, 2 sided|||||||0.0275
82587629|NCT04082429|164888119|SUPERIORITY|Bleeding endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as offset with treatment and bleeding frequency prior to screening as factors.|ABR ratio|0.14|||<|0.001|TWO_SIDED|95.0|0.07|0.29|||Negative binomial regression|||||0.29|0.07|<0.001
82587630|NCT04082429|164888120|SUPERIORITY|Bleeding endpoints were analysed using a negative binomial regression model with the logarithm of the length of the observation period included (in years) as offset with treatment and bleeding frequency prior to screening as factors.|ABR ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.1|0.45|||Negative binomial regression|||||0.45|0.10|<0.001
82587631|NCT04796896|164888145|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if:~The lower bound of the 95% confidence interval (CI) of the geometric mean ratio (GMR) was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|1.224|||||TWO_SIDED|95.0|1.061|1.413||||||||1.413|1.061|
82587632|NCT04796896|164888146|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|0.995|||||TWO_SIDED|95.0|0.87|1.139||||||||1.139|0.870|
82587633|NCT04796896|164888146|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|1.257|||||TWO_SIDED|95.0|1.101|1.434||||||||1.434|1.101|
82587634|NCT04796896|164888147|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|-0.3|||||TWO_SIDED|95.0|-2.2|1.6||||||||1.6|-2.2|
82587635|NCT04796896|164888148|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|-0.4|||||TWO_SIDED|95.0|-2.5|1.5||||||||1.5|-2.5|
82587636|NCT04796896|164888148|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-0.8|2.4||||||||2.4|-0.8|
82587637|NCT04796896|164888149|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|3.897|||||TWO_SIDED|95.0|3.158|4.808||||||||4.808|3.158|
82587638|NCT04796896|164888149|NON_INFERIORITY|"The noninferiority of GM value (based on GLSM) was considered demonstrated if the following were true:~The lower bound of the 95% CI of the GMR was \>0.667 based on the noninferiority margin of 1.5, and the GMR point estimate ≥0.8 (minimum threshold)."|GMR|3.982|||||TWO_SIDED|95.0|3.404|4.657||||||||4.657|3.404|
82653001|NCT03197064|165021190|OTHER|||||||0.47|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.47
82653002|NCT03197064|165021190|OTHER|||||||0.066|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.066
82653003|NCT03197064|165021191|OTHER|||||||0.72|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.72
82653004|NCT03197064|165021191|OTHER|||||||0.72|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.72
82653005|NCT03197064|165021191|OTHER|||||||0.78|||||||t-test, 2 sided|||Difference in right upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.78
82500255|NCT02564042|164691144|OTHER||Proportion difference|12.5|||||TWO_SIDED|95.0|-13.6|37.4|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 4 has been presented .|||37.4|-13.6|
82500256|NCT02564042|164691144|OTHER||Proportion difference|42.3|||||TWO_SIDED|95.0|13.8|66.0|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 8 has been presented|||66.0|13.8|
82500257|NCT02564042|164691144|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|8.7|61.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 8 has been presented|||61.3|8.7|
82500258|NCT02564042|164691144|OTHER||Proportion difference|33.3|||||TWO_SIDED|95.0|4.8|58.2|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 8 has been presented .|||58.2|4.8|
82500259|NCT02564042|164691144|OTHER||Proportion difference|40.6|||||TWO_SIDED|95.0|12.8|63.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 8 has been presented.|||63.9|12.8|
82500260|NCT02564042|164691144|OTHER||Proportion difference|54.7|||||TWO_SIDED|95.0|25.9|76.6|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 12 has been presented.|||76.6|25.9|
82500261|NCT02564042|164691144|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 12 has been presented|||73.2|22.2|
82500262|NCT02564042|164691144|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 12 has been presented|||60.5|6.3|
82500263|NCT02564042|164691144|OTHER||Proportion difference|30.7|||||TWO_SIDED|95.0|1.6|55.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 12 has been presented|||55.9|1.6|
82500264|NCT02564042|164691144|OTHER||Proportion difference|51.3|||||TWO_SIDED|95.0|22.0|74.0|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 14 has been presented|||74.0|22.0|
82500265|NCT02564042|164691144|OTHER||Proportion difference|61.5|||||TWO_SIDED|95.0|34.6|81.0|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 14 has been presented|||81.0|34.6|
82500266|NCT02564042|164691144|OTHER||Proportion difference|23.9|||||TWO_SIDED|95.0|-6.1|51.0|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 14 has been presented|||51.0|-6.1|
82653006|NCT03197064|165021192|OTHER|||||||0.93|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.93
82653007|NCT03197064|165021192|OTHER|||||||0.39|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.39
82653008|NCT03197064|165021192|OTHER|||||||0.08|||||||t-test, 2 sided|||Difference in left lower extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.08
82653009|NCT03197064|165021193|OTHER|||||||0.42|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.42
82653010|NCT03197064|165021193|OTHER|||||||0.37|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.37
82653011|NCT03197064|165021193|OTHER|||||||0.49|||||||t-test, 2 sided|||Difference in right lower extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.49
82500267|NCT02564042|164691144|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|7.8|61.6|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 14 has been presented|||61.6|7.8|
82500268|NCT02564042|164691144|OTHER||Proportion difference|53.1|||||TWO_SIDED|95.0|24.7|75.6|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 16 has been presented|||75.6|24.7|
82500269|NCT02564042|164691144|OTHER||Proportion difference|53.8|||||TWO_SIDED|95.0|25.8|75.5|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 16 has been presented|||75.5|25.8|
82500270|NCT02564042|164691144|OTHER||Proportion difference|29.4|||||TWO_SIDED|95.0|-0.3|55.0|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 16 has been presented|||55.0|-0.3|
82500271|NCT02564042|164691144|OTHER||Proportion difference|35.7|||||TWO_SIDED|95.0|6.5|60.2|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 16 has been presented|||60.2|6.5|
82500272|NCT02564042|164691144|OTHER||Proportion difference|10.0|||||TWO_SIDED|95.0|-36.9|53.9|||||Difference between GSK2894512 1% BID and Vehicle BID at EW has been presented|||53.9|-36.9|
82500273|NCT02564042|164691144|OTHER||Proportion difference|42.9|||||TWO_SIDED|95.0|-6.3|81.6|||||Difference between GSK2894512 1% QD and Vehicle QD at EW has been presented|||81.6|-6.3|
82500274|NCT02564042|164691144|OTHER||Proportion difference|25.0|||||TWO_SIDED|95.0|-35.7|80.6|||||Difference between GSK2894512 0.5% BID and Vehicle BID at EW has been presented|||80.6|-35.7|
82500275|NCT02289898|164691176|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.7158|TWO_SIDED|95.0|0.63|1.375|||Wilcoxon (Mann-Whitney)|||Efficacy (investigator-assessed Kaplan-Meier estimates of progression-free survival) of placebo/placebo arm to the pooled demcizumab arm (i.e., placebo/placebo arm to demcizumab/placebo and demcizumab/demcizumab arms) in subjects with first-line metastatic pancreatic ductal adenocarcinoma.||1.375|0.630|=0.7158
82500276|NCT01077856|164691209|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|1.34|||||TWO_SIDED|95.0|0.89|2.0|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||2.00|0.89|
82500277|NCT01077856|164691209|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|1.59|||||TWO_SIDED|95.0|0.0|4.77|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||4.77|0.00|
82500278|NCT01077856|164691209|SUPERIORITY_OR_OTHER_LEGACY||Standardized Prevalence Ratio (SPR)|0.86|||||TWO_SIDED|95.0|0.0|2.02|||||SPR is the age-adjusted ratio of percentage of live births with a major congenital anomaly (Women who received Gardasil / Women in the general population)|||2.02|0.00|
82500279|NCT01442493|164691220|SUPERIORITY|||||||0.92|||||||Mixed Models Analysis|||||||0.92
82500280|NCT01442493|164691221|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
82377007|NCT03922529|164461207|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.8||0.9012|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.9012
82377008|NCT03922529|164461208|SUPERIORITY||Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|0.9||0.4279|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4279
82377009|NCT03922529|164461209|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.8||0.1932|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.1932
82377010|NCT03922529|164461210|SUPERIORITY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|1.2||0.2723|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2723
82377011|NCT03922529|164461211|SUPERIORITY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|1.2||0.8951|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8951
82377012|NCT03922529|164461212|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.2||0.2574|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2574
82377013|NCT03922529|164461213|SUPERIORITY||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.0||0.8307|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8307
82377014|NCT03922529|164461214|SUPERIORITY||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.0||0.614|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.6140
82377015|NCT03922529|164461215|SUPERIORITY||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.0||0.7327|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7327
82377016|NCT03922529|164461216|SUPERIORITY|||||||0.7651|||||||Wilcoxon rank sum|||||||0.7651
82377017|NCT03922529|164461217|SUPERIORITY||Incident Rate Ratio|1.15||||0.3974|TWO_SIDED|95.0|0.83|1.59|||Negative binomial regression models|||||1.59|0.83|0.3974
82377018|NCT03922529|164461218|SUPERIORITY||Mean Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|1.5||0.2727|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.2727
82377019|NCT03922529|164461219|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.5||0.4269|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4269
82377020|NCT03922529|164461220|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.6||0.4354|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.4354
82377021|NCT03922529|164461221|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.8695|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8695
82377022|NCT03922529|164461222|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.4||0.7075|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.7075
82587639|NCT04796896|164888151|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-4.4|2.4||||||||2.4|-4.4|
82587640|NCT04796896|164888151|NON_INFERIORITY|The noninferiority of the SRR was considered demonstrated if the following were true: The lower bound of the 95% CI of the SRR difference was \>-10% based on the noninferiority margin of 10% and the SRR difference point estimate was ≥-5% (minimum threshold).|percentage difference|0.7|||||TWO_SIDED|95.0|-2.2|2.4||||||||2.4|-2.2|
82377023|NCT03922529|164461223|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.8936|TWO_SIDED||||||Mixed Models Analysis|Adjusted for baseline value of the outcome as a covariate using linear mixed models and multiple imputation for missing data.|The adjusted difference from a model may not necessarily match the raw difference between groups.|||||0.8936
82377024|NCT03922529|164461224|SUPERIORITY|||||||0.2794|||||||Chi-squared|||||||0.2794
82377025|NCT03922529|164461225|SUPERIORITY|||||||0.6177|||||||Chi-squared|||||||0.6177
82377026|NCT03922529|164461226|SUPERIORITY|||||||0.144|||||||Chi-squared|||||||0.1440
82377027|NCT03922529|164461227|SUPERIORITY|||||||0.1122|||||||Chi-squared|||||||0.1122
82377028|NCT03922529|164461228|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9653|TWO_SIDED|95.0|0.63|1.62|||Regression, Logistic|||||1.62|0.63|0.9653
82377029|NCT01277601|164461241|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Raw p-values comparing treatments were based on a log-rank test stratified by HBeAg status and viral genotype.|Log Rank|||||||< 0.001
82377030|NCT01277601|164461241|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Raw p-values comparing treatments were based on a log-rank test stratified by HBeAg status and viral genotype.|Log Rank|||||||0.002
82377031|NCT04034927|164461257|SUPERIORITY||Odds Ratio (OR)|0.707|||||TWO_SIDED|95.0|0.241|2.068|||||The numerator is the experimental arm (odds of response) and the denominator is the control arm (odds of response).|Odds ratio for experimental arm (O + T) response compared to control arm (O) response.||2.068|0.241|
82377032|NCT02291510|164461262|SUPERIORITY_OR_OTHER||% Ratio of LS Means|35.4|||<|0.001|TWO_SIDED|90.0|32.27|38.74|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of least squares (LS) means and the comparator for the p-values.||38.74|32.27|<0.001
82377033|NCT02291510|164461262|SUPERIORITY_OR_OTHER||% Ratio of LS Means|52.3|||<|0.001|TWO_SIDED|90.0|47.77|57.36|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||57.36|47.77|<0.001
82377034|NCT02291510|164461262|SUPERIORITY_OR_OTHER||% Ratio of LS Means|32.1|||<|0.001|TWO_SIDED|90.0|29.3|35.18|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||35.18|29.30|<0.001
82377035|NCT02291510|164461262|SUPERIORITY_OR_OTHER||% Ratio of LS Means|47.5|||<|0.001|TWO_SIDED|90.0|43.38|52.09|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||52.09|43.38|<0.001
82377036|NCT02291510|164461262|SUPERIORITY_OR_OTHER||% Ratio of LS Means|110.1||||0.0832|TWO_SIDED|90.0|100.5|120.68|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||120.68|100.50|0.0832
82587641|NCT04796896|164888160|OTHER|The 95% confidence interval (CI) of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.706|||||TWO_SIDED|95.0|0.325|0.873|||||Vaccine efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.873|0.325|
82377037|NCT02291510|164461263|SUPERIORITY_OR_OTHER||% Ratio of LS Means|35.9|||<|0.001|TWO_SIDED|90.0|32.43|39.77|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||39.77|32.43|<0.001
82653012|NCT03197064|165021194|OTHER|||||||0.386|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 30 minutes post-dose||||0.386
82377038|NCT02291510|164461263|SUPERIORITY_OR_OTHER||% Ratio of LS Means|53.0|||<|0.001|TWO_SIDED|90.0|47.88|58.71|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||58.71|47.88|<0.001
82377039|NCT02291510|164461263|SUPERIORITY_OR_OTHER||% Ratio of LS Means|45.3|||<|0.001|TWO_SIDED|90.0|40.88|50.13|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||50.13|40.88|<0.001
82377040|NCT02291510|164461263|SUPERIORITY_OR_OTHER||% Ratio of LS Means|66.8|||<|0.001|TWO_SIDED|90.0|60.34|74.0|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||1000 mg Met IR BID is the denominator for the % ratio of LS means and the comparator for the p-values.||74.00|60.34|<0.001
82377041|NCT02291510|164461263|SUPERIORITY_OR_OTHER||% Ratio of LS Means|79.3||||0.0004|TWO_SIDED|90.0|71.65|87.86|||ANOVA|Included treatment, sequence, and period and as fixed effects and subject nested within sequence as a random effect.||2000 mg Met XR QD is the denominator for the % ratio of LS means and the comparator for the p-values.||87.86|71.65|0.0004
82377042|NCT02237092|164461322|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82377043|NCT02237092|164461323|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82377044|NCT02237092|164461324|SUPERIORITY_OR_OTHER||||||<|0.02|TWO_SIDED||||||t-test, 2 sided|||||||<0.02
82377045|NCT02237092|164461325|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.58|||<|0.05|TWO_SIDED|95.0|1.05|2.58|||NNT|||||2.58|1.05|<0.05
82377046|NCT03577301|164461326|SUPERIORITY||Wald Chi Square|3.3||||0.35|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 3 months.||||||0.35
82377047|NCT03577301|164461326|SUPERIORITY||Wald Chi Square|1.97||||0.58|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 6 months.||||||0.58
82377048|NCT03577301|164461326|SUPERIORITY||Wald Chi Square|1.68||||0.64|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 9 months.||||||0.64
82377049|NCT03577301|164461326|SUPERIORITY||Wald Chi Square|1.15||||0.76|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted illicit drug use at 12 months.||||||0.76
82377050|NCT03577301|164461327|SUPERIORITY||Wald Chi Square|3.08||||0.38|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 3 months.||||||0.38
82377051|NCT03577301|164461327|SUPERIORITY||Wald Chi Square|1.26||||0.74|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 6 months.||||||0.74
82377052|NCT03577301|164461327|SUPERIORITY||Wald Chi Square|1.27||||0.74|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 9 months.||||||0.74
82377053|NCT03577301|164461327|SUPERIORITY||Slope|3.66||||0.3|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted condomless anal sex acts at 12 months.||||||0.300
82377054|NCT03577301|164461328|SUPERIORITY||Wald Chi Square|1.3||||0.73|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 3 months.||||||0.73
82653013|NCT03197064|165021194|OTHER|||||||0.388|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 60 minutes post-dose||||0.388
82653014|NCT03197064|165021194|OTHER|||||||0.247|||||||t-test, 2 sided|||Difference in left upper extremity amplitude between baseline (pre-dose) and 90 minutes post-dose||||0.247
82377055|NCT03577301|164461328|SUPERIORITY||Wald Chi Square|1.68||||0.64|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 6 months.||||||0.64
82377056|NCT03577301|164461328|SUPERIORITY||Wald Chi Square|0.64||||0.89|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 9 months.||||||0.89
82377057|NCT03577301|164461328|SUPERIORITY||Wald Chi Square|1.08||||0.78|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted marijuana use days at 12 months.||||||0.78
82377058|NCT03577301|164461329|SUPERIORITY||Wald Chi Square|2.37||||0.5|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 3 months.||||||0.50
82377059|NCT03577301|164461329|SUPERIORITY||Wald Chi Square|2.98||||0.34|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 6 months.||||||0.34
82377060|NCT03577301|164461329|SUPERIORITY||Wald Chi Square|1.59||||0.66|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 9 months.||||||0.66
82587642|NCT04796896|164888160|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.409|||||TWO_SIDED|95.0|0.287|0.509|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.509|0.287|
82587643|NCT04796896|164888160|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.324|||||TWO_SIDED|95.0|0.127|0.474|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.474|0.127|
82653015|NCT02059993|165021227|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.0|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||The sample size was calculated to assess a minimum reduction of 5 ± 5 mm Hg in systolic BPafter CPAP treatment, assuming an alpha error of 5% and a statistical power of 80%.||||<0.05
82377061|NCT03577301|164461329|SUPERIORITY||Wald Chi Square|2.74||||0.43|TWO_SIDED||||||Negative Binomial Regression|Model testing whether condition predicted alcohol use days at 12 months.||||||0.43
82377062|NCT05246670|164461335|SUPERIORITY||Mean Difference (Final Values)|2.21|||||TWO_SIDED|95.0|-1.33|5.74||||||||5.74|-1.33|
82377063|NCT05246670|164461335|SUPERIORITY||Mean Difference (Final Values)|0.09|||||TWO_SIDED|95.0|-5.23|5.41||||||||5.41|-5.23|
82377064|NCT05246670|164461335|SUPERIORITY||Mean Difference (Final Values)|2.11|||||TWO_SIDED|95.0|-2.87|7.09||||||||7.09|-2.87|
82377065|NCT05124691|164461361|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
82377066|NCT05124691|164461361|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
82377067|NCT05124691|164461361|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates within the three study groups, considering an overall significance level of 0.05. To account for multiple testing, a Bonferroni correction was applied, resulting in an adjusted significance level of 0.0167||||<0.0001
82377068|NCT05124691|164461364|SUPERIORITY||||||<|0.0001|||||||Mantel Haenszel|||Pairwise comparisons of cure rates were conducted between Albendazole and FDCx3, as well as FDCx1 and FDCx3, but not between Albendazole and FDCx1, since both contain the same dose regimen of the active drug. An overall significance level of 0.05 was considered, and to account for multiple testing, a Bonferroni correction was applied.||||<0.0001
82377069|NCT05124691|164461364|SUPERIORITY||||||=|0.0007|||||||Cochran-Mantel-Haenszel|||Pairwise comparisons of cure rates were conducted between Albendazole and FDCx3, as well as FDCx1 and FDCx3, but not between Albendazole and FDCx1, since both contain the same dose regimen of the active drug. An overall significance level of 0.05 was considered, and to account for multiple testing, a Bonferroni correction was applied.||||=0.0007
82377070|NCT05124691|164461367|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||< 0.001
82377071|NCT05124691|164461367|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82377072|NCT05124691|164461367|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82377073|NCT00428116|164461470|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||WAZ-score comparison at 18 months||||0.15
82377074|NCT00428116|164461470|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||HAZ score at 18 months||||0.45
82377075|NCT00428116|164461471|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||log rank or Cox regression|incidence with Cox regression utilized Anderson-Gill method to handle recurrent events||SAEs||||0.39
82377076|NCT00428116|164461471|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Cox regression Anderson Gill|||Pneumonia||||0.60
82377077|NCT00428116|164461471|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Regression, Cox|||Pneumonia||||0.60
82377078|NCT00428116|164461471|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Regression, Cox|||Diarrhea||||0.77
82377079|NCT00428116|164461471|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||Death||||0.29
82377080|NCT01685840|164461509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.88|TWO_SIDED|95.0|0.79|1.22||A sample size of 1100 patients was expected to provide approximately 90% power to detect a difference in the primary endpoint with an assumed type I error rate of 0.05, 2-sided. Analysis was adjusted for age, sex, ejection fraction, NT-proBNP and DM.|Regression, Cox|||||1.22|0.79|0.88
82377081|NCT01685840|164461510|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.86||||0.37|TWO_SIDED|95.0|0.62|1.2|||Regression, Cox|||||1.20|0.62|0.37
82377082|NCT01685840|164461511|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.0||||0.53|TWO_SIDED|95.0|-20.0|39.0|||Bang-Tsiatis Partitioned Estimator|||||39|-20|0.53
82377083|NCT01685840|164461512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.75|TWO_SIDED|95.0|0.65|1.37|||Regression, Cox|||||1.37|0.65|0.75
82377084|NCT01685840|164461513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04||||0.76|TWO_SIDED|95.0|0.82|1.31|||Regression, Cox|||||1.31|0.82|0.76
82500281|NCT01442493|164691222|SUPERIORITY|||||||0.08|||||||Mixed Models Analysis|||||||0.08
82653016|NCT02059993|165021228|OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82587644|NCT04796896|164888161|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.683|||||TWO_SIDED|95.0|0.151|0.882|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.882|0.151|
82587645|NCT04796896|164888161|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.281|||||TWO_SIDED|95.0|-0.007|0.48|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.480|-0.007|
82587646|NCT04796896|164888161|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|-0.068|||||TWO_SIDED|95.0|-0.832|0.352|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.352|-0.832|
82587647|NCT04796896|164888162|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.76|||||TWO_SIDED|95.0|-0.416|0.965|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.965|-0.416|
82587648|NCT04796896|164888162|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.466|||||TWO_SIDED|95.0|0.328|0.574|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.574|0.328|
82587649|NCT04796896|164888162|OTHER|The 95% CI of the ratio was calculated using the exact method conditional upon the total number of cases, adjusting for person-years.|Vaccine Efficacy|0.432|||||TWO_SIDED|95.0|0.232|0.576|||||Vaccine Efficacy (percent), was defined as 1 - ratio of incidence rate (mRNA-1273 vs. placebo).|||0.576|0.232|
82587650|NCT04533451|164888172|SUPERIORITY|||||||0.0385|||||||Log Rank|||||||0.0385
82587651|NCT04533451|164888174|EQUIVALENCE|Relatively large sample size and groups are independent.||||||0.9829|||||||Chi-squared|||||||0.9829
82587652|NCT01177787|164888176|OTHER||Mean Difference (Final Values)|-0.669|STANDARD_DEVIATION|0.03||0.503|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.503
82587653|NCT01570036|164888187|OTHER|Kaplan-Meier Survival Analysis|Hazard Ratio (HR)|0.62||||0.18|TWO_SIDED|95.0|0.31|1.25|||Kaplan-Meier Survival Analysis|||||1.25|.31|0.18
82587654|NCT01570036|164888189|OTHER|||||||0.02||||||Comparison of the mean LVEF from baseline to 3 months, 6 months, and 12 months; this time period includes the therapy period of trastuzumab.|ANOVA|||||||0.02
82587655|NCT01570036|164888189|OTHER|||||||0.58||||||The mean LVEF compared at baseline to 3 months, 6 months, 12 months and 24 months; this time period includes the duration of trastuzumab therapy and 1 year after completion of trastuzumab therapy.|ANOVA|||||||0.58
82587656|NCT01570036|164888189|OTHER|||||||0.65||||||Evaluating LVEF at all time points with a linear mixed regression model, this analysis compared cardiac ejection fraction over time.|Regression, Linear|||||||0.65
82653017|NCT02173704|165021254|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 70%.|Single binomial proportion|100.0|||||TWO_SIDED|95.0|97.2|100.0|||Exact test of binomial proportion|||Statistical analysis 5/99 strain: The power to reject the null hypothesis associated with the primary objective for strain 5/99 was 99%.||100|97.2|
82653018|NCT02173704|165021254|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥ 1:5 should be ≥ 70%.|single binomial proportion|79.0|||||TWO_SIDED|95.0|71.4|85.8|||Exact test of binomial proportion|||Statistical analysis NZ98/254 strain: The power to reject the null hypothesis associated with the primary objective for strain NZ98/25 was 94%.||85.8|71.4|
82587657|NCT01570036|164888189|OTHER|||||||0.91||||||This analysis evaluated LVEF at all time points with a linear mixed regression model between randomization arms.|Regression, Linear|||||||0.91
82500282|NCT01442493|164691223|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
82587658|NCT01570036|164888189|OTHER|||||||0.81||||||This analysis evaluated LVEF at all time points with a linear mixed regression model between the arms over time.|Regression, Linear|||||||0.81
82587659|NCT01570036|164888190|OTHER|||||||0.149|||||||Chi-squared|Comparison of the maximum related local toxicity experienced per patient and compared between treatment arms.||The safety group consisted of any patients who received NPS with GM-CSF or placebo with GM-CSF inoculations.||||0.149
82587660|NCT01570036|164888190|OTHER|||||||0.901|||||||Chi-squared|Comparison of the maximum related systemic toxicity experienced per patient and compared between treatment arms.||||||0.901
82587661|NCT00568321|164888200|SUPERIORITY||LS Mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.43||0.687|TWO_SIDED|90.0|-0.5|0.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Least square (LS) mean difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.92|-0.50|0.687
82587662|NCT00568321|164888200|SUPERIORITY||LS Mean difference|-0.53|STANDARD_ERROR_OF_MEAN|0.44||0.111|TWO_SIDED|90.0|-1.25|0.19|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||LS mean difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.19|-1.25|0.111
82587663|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.41||0.399|TWO_SIDED|90.0|-0.79|0.58|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.58|-0.79|0.399
82587664|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.42||0.189|TWO_SIDED|90.0|-1.06|0.32|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.32|-1.06|0.189
82377085|NCT01685840|164461514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.08|TWO_SIDED|95.0|0.97|1.72|||Anderson-Gill Intensity Model|||||1.72|0.97|0.08
82377086|NCT01685840|164461515|SUPERIORITY|||||||0.636|||||||Mixed Models Analysis|||Baseline||||0.636
82377087|NCT01685840|164461515|SUPERIORITY|||||||0.628|||||||Mixed Models Analysis|||3 month||||0.628
82377088|NCT01685840|164461515|SUPERIORITY|||||||0.586|||||||Mixed Models Analysis|||6 month||||0.586
82377089|NCT01685840|164461515|SUPERIORITY|||||||0.669|||||||Mixed Models Analysis|||12 month||||0.669
82377090|NCT01685840|164461515|SUPERIORITY|||||||0.949|||||||Mixed Models Analysis|||24 month||||0.949
82377091|NCT01685840|164461516|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.404|TWO_SIDED|95.0|-1.188|2.947||Adjusted P-value|Mixed Models Analysis|||3 month||2.947|-1.188|0.404
82377092|NCT01685840|164461516|SUPERIORITY||Mean Difference (Final Values)|1.478||||0.219|TWO_SIDED|95.0|-0.881|3.836||Adjusted P-value|Mixed Models Analysis|||6 month||3.836|-0.881|0.219
82377093|NCT01685840|164461516|SUPERIORITY||Mean Difference (Final Values)|2.099||||0.104|TWO_SIDED|95.0|-0.433|4.63||Adjusted P-value|Mixed Models Analysis|||12 month||4.630|-0.433|0.104
82377094|NCT01685840|164461516|SUPERIORITY||Mean Difference (Final Values)|1.999||||0.228|TWO_SIDED|95.0|-1.253|5.25|||Mixed Models Analysis|||24 month||5.250|-1.253|0.228
82377095|NCT01685840|164461517|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.421|TWO_SIDED|95.0|-0.025|0.06||Adjusted P-value|Mixed Models Analysis|||3 month||0.060|-0.025|0.421
82377096|NCT01685840|164461517|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.239|TWO_SIDED|95.0|-0.018|0.074||Adjusted P-value|Mixed Models Analysis|||6 month||0.074|-0.018|0.239
82377097|NCT01685840|164461517|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.402|TWO_SIDED|95.0|-0.028|0.07|||Mixed Models Analysis|||12 month||0.070|-0.028|0.402
82377098|NCT01685840|164461517|SUPERIORITY||Mean Difference (Final Values)|0.009||||0.78|TWO_SIDED|95.0|-0.057|0.076||Adjusted P-value|Mixed Models Analysis|||24 month||0.076|-0.057|0.780
82377099|NCT01685840|164461518|SUPERIORITY||Mean Difference (Final Values)|-2.131||||0.268|TWO_SIDED|95.0|-5.902|1.64||Adjusted P-value|Mixed Models Analysis|||3 month||1.640|-5.902|0.268
82377100|NCT01685840|164461518|SUPERIORITY||Mean Difference (Final Values)|1.069||||0.599|TWO_SIDED|95.0|-2.921|5.058|||Mixed Models Analysis|||6 month||5.058|-2.921|0.599
82377101|NCT01685840|164461518|SUPERIORITY||Mean Difference (Final Values)|-0.389||||0.852|TWO_SIDED|95.0|-4.486|3.707||Adjusted P-value|Mixed Models Analysis|||12 month||3.707|-4.486|0.852
82377102|NCT01685840|164461518|SUPERIORITY||Mean Difference (Final Values)|-3.343||||0.221|TWO_SIDED|95.0|-8.708|2.022||Adjusted P-value|Mixed Models Analysis|||24 month||2.022|-8.708|0.221
82377103|NCT01685840|164461519|SUPERIORITY||Mean Difference (Final Values)|-0.816||||0.615|TWO_SIDED|95.0|-3.999|2.367||Adjusted P-value|Mixed Models Analysis|||3 month||2.367|-3.999|0.615
82377104|NCT01685840|164461519|SUPERIORITY||Mean Difference (Final Values)|0.252||||0.878|TWO_SIDED|95.0|-2.977|3.482||Adjusted P-value|Mixed Models Analysis|||6 month||3.482|-2.977|0.878
82377105|NCT01685840|164461519|SUPERIORITY||Mean Difference (Final Values)|-1.406||||0.441|TWO_SIDED|95.0|-4.989|2.178||Adjusted P-value|Mixed Models Analysis|||12 month||2.178|-4.989|0.441
82377106|NCT01685840|164461519|SUPERIORITY||Mean Difference (Final Values)|1.091||||0.653|TWO_SIDED|95.0|-3.673|5.856||Adjusted P-value|Mixed Models Analysis|||24 month||5.856|-3.673|0.653
82377107|NCT01685840|164461520|SUPERIORITY||Mean Difference (Final Values)|-1.226||||0.199|TWO_SIDED|95.0|-3.097|0.645||Adjusted P-value|Mixed Models Analysis|||3 month||0.645|-3.097|0.199
82377108|NCT01685840|164461520|SUPERIORITY||Mean Difference (Final Values)|-0.742||||0.465|TWO_SIDED|95.0|-2.735|1.25|||Mixed Models Analysis|||6 month||1.250|-2.735|0.465
82377109|NCT01685840|164461520|SUPERIORITY||Mean Difference (Final Values)|-0.074||||0.943|TWO_SIDED|95.0|-2.119|1.97||Adjusted P-value|Mixed Models Analysis|||12 month||1.970|-2.119|0.943
82377110|NCT01685840|164461520|SUPERIORITY||Mean Difference (Final Values)|1.478||||0.294|TWO_SIDED|95.0|-1.286|4.241||Adjusted P-value|Mixed Models Analysis|||24 month||4.241|-1.286|0.294
82377111|NCT01685840|164461521|SUPERIORITY||Mean Difference (Final Values)|-1.579||||0.294|TWO_SIDED|95.0|-4.527|1.369||Adjusted P-value|Mixed Models Analysis|||3 month||1.369|-4.527|0.294
82377112|NCT01685840|164461521|SUPERIORITY||Mean Difference (Final Values)|-0.946||||0.555|TWO_SIDED|95.0|-4.096|2.203||Adjusted P-value|Mixed Models Analysis|||6 month||2.203|-4.096|0.555
82377113|NCT01685840|164461521|SUPERIORITY||Mean Difference (Final Values)|-0.798||||0.643|TWO_SIDED|95.0|-4.178|2.583||Adjusted P-value|Mixed Models Analysis|||12 month||2.583|-4.178|0.643
82377114|NCT01685840|164461521|SUPERIORITY||Mean Difference (Final Values)|-0.647||||0.757|TWO_SIDED|95.0|-4.767|3.472||Adjusted P-value|Mixed Models Analysis|||24 month||3.472|-4.767|0.757
82499941|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.2|||||TWO_SIDED|95.0|-49.2|19.0|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||19.0|-49.2|
82377115|NCT01685840|164461522|SUPERIORITY||Mean Difference (Final Values)|-0.484||||0.837|TWO_SIDED|95.0|-5.102|4.133||Adjusted P-value|Mixed Models Analysis|||3 month||4.133|-5.102|0.837
82377116|NCT01685840|164461522|SUPERIORITY||Mean Difference (Final Values)|-2.693||||0.288|TWO_SIDED|95.0|-7.662|2.276||Adjusted P-value|Mixed Models Analysis|||6 month||2.276|-7.662|0.288
82377117|NCT01685840|164461522|SUPERIORITY||Mean Difference (Final Values)|-1.539||||0.567|TWO_SIDED|95.0|-6.81|3.732||Adjusted P-value|Mixed Models Analysis|||12 month||3.732|-6.810|0.567
82377118|NCT01685840|164461522|SUPERIORITY||Mean Difference (Final Values)|2.512||||0.475|TWO_SIDED|95.0|-4.394|9.419||Adjusted P-value|Mixed Models Analysis|||24 month||9.419|-4.394|0.475
82377119|NCT01685840|164461523|SUPERIORITY||Mean Difference (Final Values)|1.057||||0.696|TWO_SIDED|95.0|-4.25|6.364||Adjusted P-value|Mixed Models Analysis|||3 month||6.364|-4.250|0.696
82377120|NCT01685840|164461523|SUPERIORITY||Mean Difference (Final Values)|1.966||||0.497|TWO_SIDED|95.0|-3.715|7.647||Adjusted P-value|Mixed Models Analysis|||6 months||7.647|-3.715|0.497
82377121|NCT01685840|164461523|SUPERIORITY||Mean Difference (Final Values)|6.564||||0.035|TWO_SIDED|95.0|0.456|12.673||Adjusted P-value|Mixed Models Analysis|||12 month||12.673|0.456|0.035
82490602|NCT01044706|164674553|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference produts. Differences were declared statistically significant at the 5% level (p\<0.05).|ratio of T/R geometric mean x 100|110.5|STANDARD_ERROR_OF_MEAN|0.0281|<|0.05|TWO_SIDED|95.0|105.43|115.82||Differences were declared statistically significant at the 5% level (p\<0.05).|ANOVA|degrees of freedom 56|Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean for AUCO-144 and Cmax between the test and reference product fall within the interval of 80-125%.|Using GLM procedures in SAS, ANOVA was performed on ln-transformed Cmax at the alpha level of 0.05. Factors incorporated in the model will include: Group, Treatment and Treatment\*Group. Intra-subject coefficient of variation (CV%) will be estimated. The ratio of means (T/R) and 90% geometric confidence interval for the ratio of means, based on least-squares means from the ANOVA of the ln-transformed data, will be calculated for Cmax.||115.82|105.43|<0.05
82490603|NCT03800173|164674577|OTHER||Slope|0.982|||||TWO_SIDED|90.0|0.868|1.096||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed Cmax. Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1.||1.096|0.868|
82490604|NCT03800173|164674578|OTHER||Slope|1.0|||||TWO_SIDED|90.0|0.872|1.128||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed AUC0-inf Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1||1.128|0.872|
82587665|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.42||0.802|TWO_SIDED|90.0|-0.33|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.33|0.802
82587666|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.42||0.582|TWO_SIDED|90.0|-0.61|0.78|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.78|-0.61|0.582
82587667|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.42||0.789|TWO_SIDED|90.0|-0.36|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.36|0.789
82587668|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.42||0.29|TWO_SIDED|90.0|-0.94|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-0.94|0.290
82587669|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.44||0.568|TWO_SIDED|90.0|-0.65|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.65|0.568
82587670|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.45||0.116|TWO_SIDED|90.0|-1.27|0.2|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.20|-1.27|0.116
82587671|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.46||0.218|TWO_SIDED|90.0|-1.11|0.4|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.40|-1.11|0.218
82490605|NCT03800173|164674578|OTHER||Slope|1.086|||||TWO_SIDED|90.0|0.952|1.219||||||A model with In-transformed dose (dose continuous) as a fixed effect \& subject as a random effect was applied to In-transformed AUC0-t. Dose proportionality was assessed by restricted max likelihood using SAS PROC MIXED. The mean slope was estimated from the power model \& the corresponding 90% CI calculated. Although there was no formal statistical hypothesis tested for this secondary objective, there was evidence for dose proportionality if the 90% CI of the fixed slope for In-dose contained 1.||1.219|0.952|
82587672|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.46||0.261|TWO_SIDED|90.0|-1.06|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.06|0.261
82587673|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.48||0.252|TWO_SIDED|90.0|-1.11|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.11|0.252
82490606|NCT02572609|164674580|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence in the Cmax will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|T/R Ratio|113.56|STANDARD_DEVIATION|16.24||0.0082|TWO_SIDED|90.0|106.48|121.1|||Anderson-Hauck procedure||Standard Deviation is actually the Coefficient of variation intra subject (CVintra).|||121.10|106.48|0.0082
82587674|NCT00568321|164888201|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.49||0.182|TWO_SIDED|90.0|-1.26|0.36|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.36|-1.26|0.182
82587675|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.39||0.683|TWO_SIDED|90.0|-0.46|0.84|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.84|-0.46|0.683
82587676|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.31|TWO_SIDED|90.0|-0.85|0.46|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.46|-0.85|0.310
82587677|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.37||0.668|TWO_SIDED|90.0|-0.46|0.78|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.78|-0.46|0.668
82587678|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.38||0.165|TWO_SIDED|90.0|-0.99|0.26|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.26|-0.99|0.165
82587679|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.36||0.546|TWO_SIDED|90.0|-0.55|0.64|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.64|-0.55|0.546
82587680|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.36||0.19|TWO_SIDED|90.0|-0.92|0.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.28|-0.92|0.190
82587681|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.35||0.467|TWO_SIDED|90.0|-0.6|0.55|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.55|-0.60|0.467
82653019|NCT02173704|165021256|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 70%.|Single binomial proportion|99.0|||||TWO_SIDED|95.0|95.7|99.98|||Exact test of binomial proportion|||Statistical analysis H44/76 strain: The null hypothesis associated with the primary objective is that the proportion of subjects with hSBA titers ≥ 1:5 one month after the third dose of the Bexsero® vaccine was ≤ 0.70. Assuming the results for the three strains are independent, the power to reject the null hypothesis associated with the primary objectives to demonstrate sufficiency of response (for all three strains was 92%.||99.98|95.7|
82653020|NCT02173704|165021256|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 75%.|Single binomial proportion|99.0|||||TWO_SIDED|95.0|94.7|99.82|||Exact test for binomial proportion|||Statistical analysis 5/99 strain: The power to reject the null hypothesis associated with the secondary objective for strain 5/99 was 99%.||99.82|94.7|
82587682|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.35||0.153|TWO_SIDED|90.0|-0.94|0.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 1 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.22|-0.94|0.153
82587683|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.41||0.632|TWO_SIDED|90.0|-0.54|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.54|0.632
82587684|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.41||0.094|TWO_SIDED|90.0|-1.22|0.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.14|-1.22|0.094
82587685|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.39||0.468|TWO_SIDED|90.0|-0.68|0.61|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.61|-0.68|0.468
82587686|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.39||0.167|TWO_SIDED|90.0|-1.03|0.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.27|-1.03|0.167
82500283|NCT01442493|164691224|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
82587687|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.37||0.394|TWO_SIDED|90.0|-0.72|0.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.52|-0.72|0.394
82587688|NCT00568321|164888202|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.38||0.138|TWO_SIDED|90.0|-1.04|0.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Weeks 5 to 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.21|-1.04|0.138
82587689|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.55||0.764|TWO_SIDED|90.0|-0.51|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.51|0.764
82587690|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.55||0.75|TWO_SIDED|90.0|-0.54|1.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.28|-0.54|0.750
82587691|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|0.45||0.734|TWO_SIDED|90.0|-0.46|1.03|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.03|-0.46|0.734
82587692|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.45||0.514|TWO_SIDED|90.0|-0.73|0.77|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.77|-0.73|0.514
82587693|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|1.37|STANDARD_ERROR_OF_MEAN|1.89||0.765|TWO_SIDED|90.0|-1.76|4.5|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.50|-1.76|0.765
82587694|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|1.9||0.646|TWO_SIDED|90.0|-2.43|3.86|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.86|-2.43|0.646
82587695|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.55||0.895|TWO_SIDED|90.0|-0.22|1.6|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.60|-0.22|0.895
82587696|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.56||0.776|TWO_SIDED|90.0|-0.5|1.34|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.34|-0.50|0.776
82587697|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|0.45||0.944|TWO_SIDED|90.0|-0.03|1.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.47|-0.03|0.944
82587698|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.46||0.835|TWO_SIDED|90.0|-0.31|1.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.21|-0.31|0.835
82587699|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|3.23|STANDARD_ERROR_OF_MEAN|1.9||0.955|TWO_SIDED|90.0|0.09|6.37|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||6.37|0.09|0.955
82587700|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.93||0.884|TWO_SIDED|90.0|-0.88|5.49|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||5.49|-0.88|0.884
82587701|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.56||0.737|TWO_SIDED|90.0|-0.57|1.28|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.28|-0.57|0.737
82500284|NCT01442493|164691225|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||||||0.11
82490607|NCT02572609|164674581|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence in the AUC0-t will be concluded if the 90% confidence interval for the test/reference ratio of the least squares means is fully contained within the acceptance range, 80.00% - 125.00%.|T/R Ratio|119.61|STANDARD_DEVIATION|10.65||0.0438|TWO_SIDED|90.0|114.65|124.79|||Anderson-Hauck procedure||Standard Deviation is actually the Coefficient of variation intra subject (CVintra).|||124.79|114.65|0.0438
82490608|NCT03488355|164674610|SUPERIORITY||Risk Ratio (RR)|1.15||||0.45|TWO_SIDED||||||t-test, 2 sided|||||||0.45
82490609|NCT01903031|164674646|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Etonogestrel on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with EFV plus ≥2 NRTIs.||||<0.001
82490610|NCT01903031|164674646|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Etonogestrel on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with ATV/r plus TDF and ≥1 NRTIs.||||<0.001
82490611|NCT01903031|164674647|OTHER||||||<|0.001||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Ethinyl Estradiol on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with EFV plus ≥2 NRTIs.||||<0.001
82490612|NCT01903031|164674647|OTHER|||||||0.004||||||No adjustments for multiple comparisons were made. Statistical significance was declared if p\<0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: There is no difference in concentrations of Ethinyl Estradiol on day 21 between the control arm (NuvaRing and no ART) and NuvaRing with ATV/r plus TDF and ≥1 NRTIs.||||0.004
82490613|NCT01682954|164674673|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
82490614|NCT01682954|164674674|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
82587702|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.56||0.628|TWO_SIDED|90.0|-0.74|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-0.74|0.628
82587703|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.67|STANDARD_ERROR_OF_MEAN|0.46||0.925|TWO_SIDED|90.0|-0.1|1.43|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.43|-0.10|0.925
82653021|NCT02173704|165021256|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sufficiency: The criterion for a sufficient immune response was that the lower limit of the two-sided 95% CI for the percentage of subjects with hSBA titer ≥1:5 should be ≥ 75%.|Single binomial proportion|94.0|||||TWO_SIDED|95.0|88.7|97.4|||Exact test for binomial proportions|||Statistical analysis NZ98/254 strain: The power to reject the null hypothesis associated with the secondary objective for strain NZ98/254 was 99%.||97.4|88.7|
82490615|NCT00594659|164674705|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||accelerated bootstrapping|||Pairwise comparison; non-parametric tests performed because of non-normal distribution||||<0.05
82490616|NCT00594659|164674705|SUPERIORITY_OR_OTHER||||||<|0.05|||||||accelerated bootstrapping|||pairwise comparison; non-parametric analysis||||< .05
82490617|NCT00594659|164674705|SUPERIORITY_OR_OTHER||||||>|0.05|||||||accelerated bootstrapping|||nonparametric pairwise comparison; non-normal distribution||||> 0.05
82490618|NCT00594659|164674706|SUPERIORITY_OR_OTHER||Slope|3.11|STANDARD_ERROR_OF_MEAN|0.69|<|0.05|TWO_SIDED||||||piecewise mixed model with logit link an|Performed across all assessments.|Slope and p-value above are for group 1: baseline to ETX. Group 3 vs. Group 1 baseline to ETX slope, p \< 0.05. All other pairwise comparisons p \> 0.05.|pairwise comparisons among groups across 4 follow-up timepoints||||< 0.05
82490619|NCT03320057|164674760|OTHER|We conducted multivariable logistic regression analyses using Generalized Estimating Equation (GEE) models to assess whether study implementation was associated with pharmacists' overall medication abortion knowledge. Multivariable GEE analyses included time period (baseline and endline) as the primary independent variable, adjusted for gender and years of experience, and accounted for clustering by pharmacy site and individual pharmacist.|Beta Coefficient|0.14|||<|0.05|TWO_SIDED|95.0|0.11|0.17|||Regression, Linear||Coefficients in adjusted analyses examining overall medication abortion knowledge represent the difference in mean knowledge scores between baseline and endline.|Medication abortion knowledge scores were based on a set of 15 items. We first assessed the internal consistency reliability of the 15 knowledge items and considered a Cronbach's alpha coefficient above .70 to be acceptable to examine the items as a combined score.||0.17|0.11|<0.05
82490620|NCT00316719|164674784|NON_INFERIORITY_OR_EQUIVALENCE|This is a Non-inferiority Analysis with the margin of -1.0.|Mean Difference (Net)|-0.33|STANDARD_ERROR_OF_MEAN|0.309|<|0.001||95.0|-0.94|0.28|||ANCOVA|||||0.28|-0.94|<0.001
82490621|NCT02468674|164674799|OTHER|||||||0.759|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.759
82490622|NCT02468674|164674799|OTHER|||||||0.5|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.500
82490623|NCT02468674|164674799|OTHER|||||||0.144|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.144
82490624|NCT02468674|164674799|OTHER|||||||0.648|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: SPPB total score at Week 49||||0.648
82490625|NCT02468674|164674799|OTHER|||||||0.929|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.929
82490626|NCT02468674|164674799|OTHER|||||||0.53|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: SPPB total score at Week 49||||0.530
82490627|NCT02468674|164674800|OTHER|||||||0.839|||||||ANCOVA|Difference in the least square means (SE)||Population II: SPPB total score at Week 49||||0.839
82490628|NCT02468674|164674801|OTHER|||||||0.669|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.669
82490629|NCT02468674|164674801|OTHER|||||||0.773|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.773
82587704|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.46||0.518|TWO_SIDED|90.0|-0.75|0.79|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.79|-0.75|0.518
82587705|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|1.93||0.81|TWO_SIDED|90.0|-1.49|4.88|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.88|-1.49|0.810
82653022|NCT02584140|165021294|OTHER||||||<|0.001||||||The P-Value for Week 4 was \<0.001; The P-Value for Week 12 was 0.005; The P-Value for Week 24 was 0.029; The P-Value for Week 36 was 0.008; The P-Value for Week 48 was 0.03.|Wilcoxon (Mann-Whitney)|||||||<0.001
82653023|NCT00620763|165021303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_ERROR_OF_MEAN|2.0||0.02||95.0|||||Mixed Models Analysis|Mixed model analysis of variance tested for treatment and feeding sequence effects.||16 subjects required to detect a difference in Calcium 47 absorption of 2 percentage points with 90% power, alpha = 0.05||||0.02
82653024|NCT02300025|165021430|SUPERIORITY_OR_OTHER||LS means ratio|92.2|||||TWO_SIDED|90.0|59.2|143.4|||||The 90% CI for differences in LS means between test and reference treatments obtained from mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model analysis of variance (ANOVA) to determine 90% confidence interval (CI) of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where hepatic impairment group was a fixed factor. The least squares (LS) means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||143.4|59.2|
82653025|NCT02300025|165021430|SUPERIORITY_OR_OTHER||LS means ratio|84.9|||||TWO_SIDED|90.0|54.6|132.1|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||132.1|54.6|
82653026|NCT02300025|165021430|SUPERIORITY_OR_OTHER||LS means ratio|39.0|||||TWO_SIDED|90.0|25.1|60.7|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|Cmax was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||60.7|25.1|
82653027|NCT02300025|165021432|SUPERIORITY_OR_OTHER||LS means ratio|98.4|||||TWO_SIDED|90.0|52.0|186.0|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||186.0|52.0|
82653028|NCT02300025|165021432|SUPERIORITY_OR_OTHER||LS means ratio|102.2|||||TWO_SIDED|90.0|54.0|193.2|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||193.2|54.0|
82653029|NCT02300025|165021432|SUPERIORITY_OR_OTHER||LS means ratio|42.5|||||TWO_SIDED|90.0|22.5|80.5|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0-t) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where, hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||80.5|22.5|
82653030|NCT02300025|165021433|SUPERIORITY_OR_OTHER||LS means ratio|97.6|||||TWO_SIDED|90.0|59.3|160.6|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and mild hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||160.6|59.3|
82587706|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.49|STANDARD_ERROR_OF_MEAN|1.94||0.6|TWO_SIDED|90.0|-2.72|3.7|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.70|-2.72|0.600
82500285|NCT01442493|164691226|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||||||0.21
82490630|NCT02468674|164674801|OTHER|||||||0.29|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.290
82490631|NCT02468674|164674801|OTHER|||||||0.766|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.766
82490632|NCT02468674|164674801|OTHER|||||||0.885|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.885
82490633|NCT02468674|164674801|OTHER|||||||0.84|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: 6MWT at Week 49||||0.840
82587707|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.58||0.651|TWO_SIDED|90.0|-0.73|1.18|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.18|-0.73|0.651
82587708|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.59||0.342|TWO_SIDED|90.0|-1.21|0.73|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.73|-1.21|0.342
82587709|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.48||0.768|TWO_SIDED|90.0|-0.44|1.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.14|-0.44|0.768
82587710|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.48||0.211|TWO_SIDED|90.0|-1.19|0.41|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.41|-1.19|0.211
82587711|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.56|STANDARD_ERROR_OF_MEAN|1.99||0.61|TWO_SIDED|90.0|-2.73|3.85|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.85|-2.73|0.610
82490634|NCT02468674|164674802|OTHER|||||||0.367|||||||ANCOVA|Difference in the least square means (SE)||Population II: 6MWT at Week 49||||0.367
82490635|NCT02468674|164674803|OTHER|||||||0.875|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.875
82490636|NCT02468674|164674803|OTHER|||||||0.909|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.909
82490637|NCT02468674|164674803|OTHER|||||||0.168|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.168
82490638|NCT02468674|164674803|OTHER|||||||0.632|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.632
82490639|NCT02468674|164674803|OTHER|||||||0.31|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.310
82490640|NCT02468674|164674803|OTHER|||||||0.321|||||||t-test, 1 sided|One-sided test at the 0.025 significance||Population I: Gait speed at Week 49||||0.321
82490641|NCT02468674|164674804|OTHER|||||||0.395|||||||ANCOVA|Difference in the least square means (SE)||Population II: Gait speed at Week 49||||0.395
82490642|NCT02468674|164674805|OTHER|||||||0.12|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.120
82490643|NCT02468674|164674805|OTHER|||||||0.297|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.297
82490644|NCT02468674|164674805|OTHER|||||||0.074|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.074
82490645|NCT02468674|164674805|OTHER|||||||0.022|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.022
82490646|NCT02468674|164674805|OTHER|||||||0.106|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.106
82490647|NCT02468674|164674805|OTHER|||||||0.211|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: ASMI at Week 49||||0.211
82490648|NCT02468674|164674806|OTHER|||||||1|||||||ANCOVA|Difference in the least square geometric means||Population II: ASMI at Week 49||||1.000
82490649|NCT02468674|164674807|OTHER|||||||0.084|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.084
82490650|NCT02468674|164674807|OTHER|||||||0.283|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.283
82490651|NCT02468674|164674807|OTHER|||||||0.323|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.323
82490652|NCT02468674|164674807|OTHER|||||||0.018|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.018
82490653|NCT02468674|164674807|OTHER|||||||0.179|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.179
82490654|NCT02468674|164674807|OTHER|||||||0.227|||||||t-test, 1 sided|One-sided test at the 0.025 significance level.||Population I: LBM at Week 49||||0.227
82490655|NCT02468674|164674808|OTHER|||||||1|||||||ANCOVA|Difference in the least square geometric means||Population II: LBM at Week 49||||1.000
82499898|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-12.9|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||8.7|-12.9|
82490656|NCT03281577|164674821|SUPERIORITY||Least Squares Mean Differences|-25.81||||0.0012|TWO_SIDED|95.0|-41.757|-9.858||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% confidence interval (CI) are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as covariate.|||-9.858|-41.757|0.0012
82490657|NCT03281577|164674821|SUPERIORITY||Least Squares Mean Differences|-27.52||||0.0018|TWO_SIDED|95.0|-45.224|-9.813||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-9.813|-45.224|0.0018
82490658|NCT03281577|164674821|SUPERIORITY||Least Squares Mean Differences|-41.76|||<|0.0001|TWO_SIDED|95.0|-59.616|-23.902||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-23.902|-59.616|<.0001
82490659|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|0.72||||0.259|TWO_SIDED|95.0|-0.364|1.795||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||1.795|-0.364|0.2590
82490660|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|1.27||||0.028|TWO_SIDED|95.0|0.119|2.418||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||2.418|0.119|0.0280
82490661|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|0.45||||0.6882|TWO_SIDED|95.0|-0.757|1.66||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 4 Hours, Day 2||1.660|-0.757|0.6882
82490662|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|1.87||||0.0062|TWO_SIDED|95.0|0.493|3.25||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||3.250|0.493|0.0062
82490663|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|1.19||||0.149|TWO_SIDED|95.0|-0.327|2.717||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||2.717|-0.327|0.1490
82377122|NCT01685840|164461523|SUPERIORITY||Mean Difference (Final Values)|2.857||||0.488|TWO_SIDED|95.0|-5.247|10.961||Adjusted P-value|Mixed Models Analysis|||24 month||10.961|-5.247|0.488
82490664|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|0.63||||0.6285|TWO_SIDED|95.0|-0.931|2.2||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 24 Hours, Day 2||2.200|-0.931|0.6285
82490665|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|1.29||||0.0358|TWO_SIDED|95.0|0.073|2.501||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||2.501|0.073|0.0358
82490666|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|1.33||||0.043|TWO_SIDED|95.0|0.035|2.621||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||2.621|0.035|0.0430
82490667|NCT03281577|164674822|SUPERIORITY||Least Squares Mean Differences|0.25||||0.9419|TWO_SIDED|95.0|-1.107|1.611||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|Colonic Transit at 48 Hours, Day 2||1.611|-1.107|0.9419
82587712|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|2.02||0.241|TWO_SIDED|90.0|-4.76|1.91|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.91|-4.76|0.241
82377123|NCT01685840|164461524|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.992|TWO_SIDED|95.0|-3.383|3.417||Adjusted P-value|Mixed Models Analysis|||3 month||3.417|-3.383|0.992
82587713|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.59||0.789|TWO_SIDED|90.0|-0.5|1.45|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.45|-0.50|0.789
82377124|NCT01685840|164461524|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.882|TWO_SIDED|95.0|-3.409|3.969||Adjusted P-value|Mixed Models Analysis|||6 month||3.969|-3.409|0.882
82377125|NCT01685840|164461524|SUPERIORITY||Mean Difference (Final Values)|0.904||||0.647|TWO_SIDED|95.0|-2.973|4.782||Adjusted P-value|Mixed Models Analysis|||12 month||4.782|-2.973|0.647
82377126|NCT01685840|164461524|SUPERIORITY||Mean Difference (Final Values)|0.322||||0.903|TWO_SIDED|95.0|-4.894|5.538||Adjusted P-value|Mixed Models Analysis|||24 month||5.538|-4.894|0.903
82653031|NCT02300025|165021433|SUPERIORITY_OR_OTHER||LS means ratio|103.0|||||TWO_SIDED|90.0|62.6|169.6|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and moderate hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||169.6|62.6|
82653032|NCT02300025|165021433|SUPERIORITY_OR_OTHER||LS means ratio|68.5|||||TWO_SIDED|90.0|40.4|116.2|||||The 90% CI for differences in LS means between the test and reference treatments obtained from the mixed model were also back-transformed to give 90% CIs for the ratio of the test treatment relative to the reference treatment.|AUC (0 - ∞) was analyzed using a mixed model ANOVA to determine 90% CI of the ratio between normal hepatic function (reference) and severe hepatic impairment (test) where hepatic impairment group was a fixed factor. The LS means of the test and reference treatments obtained from the mixed model were back-transformed to give geometric LS means (a point estimate).||116.2|40.4|
82653033|NCT00626925|165021439|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82587714|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.6||0.57|TWO_SIDED|90.0|-0.88|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.88|0.570
82587715|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.38|STANDARD_ERROR_OF_MEAN|0.49||0.782|TWO_SIDED|90.0|-0.43|1.19|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.19|-0.43|0.782
82587716|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.49||0.295|TWO_SIDED|90.0|-1.08|0.55|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.55|-1.08|0.295
82587717|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|1.75|STANDARD_ERROR_OF_MEAN|2.04||0.804|TWO_SIDED|90.0|-1.62|5.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||5.11|-1.62|0.804
82587718|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|2.06||0.655|TWO_SIDED|90.0|-2.58|4.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||4.22|-2.58|0.655
82587719|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.6||0.409|TWO_SIDED|90.0|-1.13|0.86|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.86|-1.13|0.409
82587720|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.61||0.482|TWO_SIDED|90.0|-1.03|0.97|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.97|-1.03|0.482
82587721|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.5||0.592|TWO_SIDED|90.0|-0.71|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-0.71|0.592
82587722|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.5||0.368|TWO_SIDED|90.0|-1.0|0.66|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.66|-1.00|0.368
82587723|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|2.08||0.396|TWO_SIDED|90.0|-3.98|2.88|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.88|-3.98|0.396
82587724|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|2.09||0.545|TWO_SIDED|90.0|-3.21|3.69|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.69|-3.21|0.545
82587725|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.62||0.486|TWO_SIDED|90.0|-1.04|1.0|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.00|-1.04|0.486
82653034|NCT00626925|165021440|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82653035|NCT00626925|165021442|SUPERIORITY_OR_OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82653036|NCT00626925|165021443|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||0.04
82653037|NCT00626925|165021444|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82653038|NCT00626925|165021445|SUPERIORITY_OR_OTHER|||||||0.06|||||||Mixed Models Analysis|||||||0.06
82653039|NCT00626925|165021446|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82653040|NCT00780026|165021447|SUPERIORITY_OR_OTHER|||||||0.841||||||P value for Bacterial infection|Chi-squared|||||||0.841
82653041|NCT00780026|165021447|SUPERIORITY_OR_OTHER|||||||0.298||||||P-value for fungal infection|Chi-squared|||||||0.298
82653042|NCT00780026|165021447|SUPERIORITY_OR_OTHER|||||||0.585||||||P value for transplant incision wound|Chi-squared|||||||0.585
82377127|NCT01685840|164461525|SUPERIORITY|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||Hospitalizations||||0.74
82377128|NCT01685840|164461525|SUPERIORITY|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||ER only events||||0.45
82377129|NCT01685840|164461525|SUPERIORITY|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Rehab facilities||||0.67
82377130|NCT01685840|164461525|SUPERIORITY|||||||0.47|||||||Wilcoxon (Mann-Whitney)|||Total admissions||||0.47
82653043|NCT00780026|165021447|SUPERIORITY_OR_OTHER|||||||0.505||||||P value for viral infection|Chi-squared|||||||0.505
82377131|NCT01685840|164461526|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Hospital Costs||||0.88
82377132|NCT01685840|164461526|SUPERIORITY|||||||0.69|||||||Wilcoxon (Mann-Whitney)|||Physician Fees||||0.69
82377133|NCT01685840|164461526|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Total Cost||||0.88
82587726|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.63||0.324|TWO_SIDED|90.0|-1.33|0.75|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Worst pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.75|-1.33|0.324
82653044|NCT00780026|165021448|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||||||0.999
82377134|NCT00396565|164461542|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.7|STANDARD_ERROR_OF_MEAN|2.26|<|0.0001||95.0|-17.16|-8.25|||ANCOVA|ANCOVA model with treatment as a factor and baseline score as a covariate||||-8.25|-17.16|<0.0001
82377135|NCT00396565|164461543|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.8|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001||95.0|-5.17|-2.51|||ANCOVA|ANCOVA model with treatment as a factor and with baseline score as a covariate.||||-2.51|-5.17|<0.0001
82377136|NCT00396565|164461544|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.5|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001||95.0|-3.71|-1.33|||ANCOVA|ANCOVA model with treatment as a factor and with baseline score as a covariate||||-1.33|-3.71|<0.0001
82377137|NCT00396565|164461545|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.2|STANDARD_ERROR_OF_MEAN|1.21|<|0.0001||95.0|-8.58|-3.8|||ANCOVA|ANCOVA model with treatment as a factor, and with baseline score as a covariate||||-3.80|-8.58|<0.0001
82377138|NCT00396565|164461546|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Fisher Exact|||||||0.0007
82377139|NCT00396565|164461547|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001||95.0|-0.84|-0.34|||ANCOVA|ANCOVA model with treatment as a factor, and baseline score as a covariate||||-0.34|-0.84|<0.0001
82377140|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.299|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.261|0.336|||Mixed Effects Model for Repeated Measure|||||0.336|0.261|<0.0001
82377141|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.069|0.141|||Mixed Effects Model for Repeated Measure|||||0.141|0.069|<0.0001
82377142|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.246|0.323|||Mixed Effects Model for Repeated Measure|||||0.323|0.246|<0.0001
82653045|NCT00780026|165021449|EQUIVALENCE|If the p-value for the means is \> 0.05 between the groups then they will be deemed equivalent.||||||0.384|||||||Wilcoxon (Mann-Whitney)|||||||0.384
82653046|NCT00780026|165021451|SUPERIORITY_OR_OTHER|||||||0.401|||||||Fisher Exact|||||||0.401
82653047|NCT00780026|165021452|SUPERIORITY_OR_OTHER|||||||0.826||||||P value for bile leak|Chi-squared|||||||0.826
82653048|NCT00780026|165021452|SUPERIORITY_OR_OTHER|||||||0.137||||||This is the p value for Biliary Stricture|Chi-squared|||||||0.137
82653049|NCT00780026|165021453|SUPERIORITY_OR_OTHER|||||||0.999|||||||Fisher Exact|||||||0.999
82653050|NCT02146430|165021497|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.187||0.187|TWO_SIDED|95.0|-0.61|0.12|||Difference of means|||||0.12|-0.61|0.1870
82653051|NCT02146430|165021497|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.185||0.0944|TWO_SIDED|95.0|-0.67|0.05|||Difference of means|||||0.05|-0.67|0.0944
82653052|NCT02146430|165021497|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.187||0.1391|TWO_SIDED|95.0|-0.64|0.09|||Difference of means|||||0.09|-0.64|0.1391
82653053|NCT02146430|165021497|SUPERIORITY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.187||0.7338|TWO_SIDED|95.0|-0.43|0.3|||Difference of means|||||0.30|-0.43|0.7338
82653054|NCT02146430|165021497|SUPERIORITY||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.8705|TWO_SIDED|95.0|-0.4|0.34|||Difference of means|||||0.34|-0.40|0.8705
82653055|NCT02146430|165021499|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|1.592||0.0326|TWO_SIDED|95.0|-6.52|-0.28|||Difference of means|||||-0.28|-6.52|0.0326
82653056|NCT02146430|165021499|SUPERIORITY||Mean Difference (Final Values)|-1.28|STANDARD_ERROR_OF_MEAN|1.592||0.422|TWO_SIDED|95.0|-4.4|1.84|||Difference of means|||||1.84|-4.40|0.4220
82653057|NCT02146430|165021499|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|1.615||0.9659|TWO_SIDED|95.0|-3.1|3.23|||Difference of means|||||3.23|-3.10|0.9659
82653058|NCT02146430|165021499|SUPERIORITY||Mean Difference (Final Values)|2.12|STANDARD_ERROR_OF_MEAN|1.608||0.1867|TWO_SIDED|95.0|-1.03|5.28|||Difference of means|||||5.28|-1.03|0.1867
82653059|NCT02146430|165021499|SUPERIORITY||Mean Difference (Final Values)|3.47|STANDARD_ERROR_OF_MEAN|1.631||0.0333|TWO_SIDED|95.0|0.27|6.67|||Difference of means|||||6.67|0.27|0.0333
82653060|NCT02146430|165021501|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2474|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||||0.2|-0.9|0.2474
82653061|NCT02146430|165021501|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.3347|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.3347
82587727|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.51||0.563|TWO_SIDED|90.0|-0.76|0.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.92|-0.76|0.563
82587728|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.52||0.282|TWO_SIDED|90.0|-1.16|0.56|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Average pain): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.56|-1.16|0.282
82587729|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|2.12||0.409|TWO_SIDED|90.0|-3.99|3.01||P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.|Repeated Measures Model|||Week 16 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||3.01|-3.99|0.409
82587730|NCT00568321|164888203|SUPERIORITY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|2.17||0.293|TWO_SIDED|90.0|-4.76|2.39||P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.|Repeated Measures Model|||Week 16 (Pain severity): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.39|-4.76|0.293
82587731|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.343|TWO_SIDED|90.0|-1.03|0.62|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.62|-1.03|0.343
82587732|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.576|TWO_SIDED|90.0|-0.75|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-0.75|0.576
82587733|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.63||0.46|TWO_SIDED|90.0|-1.1|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-1.10|0.460
82587734|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.63||0.435|TWO_SIDED|90.0|-1.15|0.94|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.94|-1.15|0.435
82587735|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.56||0.104|TWO_SIDED|90.0|-1.62|0.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.22|-1.62|0.104
82587736|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.57||0.204|TWO_SIDED|90.0|-1.42|0.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.47|-1.42|0.204
82653062|NCT02146430|165021501|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.3999|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||||0.8|-0.3|0.3999
82653063|NCT02146430|165021501|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.28||0.8435|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||||0.6|-0.5|0.8435
82587737|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.5||0.931|TWO_SIDED|90.0|-0.08|1.58|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.58|-0.08|0.931
82587738|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.52||0.941|TWO_SIDED|90.0|-0.04|1.67|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.67|-0.04|0.941
82587739|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.63||0.936|TWO_SIDED|90.0|-0.08|2.01|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.01|-0.08|0.936
82653064|NCT02146430|165021501|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0446|TWO_SIDED|95.0|0.0|1.1|||ANCOVA|||||1.1|0.0|0.0446
82653065|NCT02146430|165021502|SUPERIORITY||Difference of least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.9775|TWO_SIDED|95.0|-0.5|0.5|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||0.5|-0.5|0.9775
82653066|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.65|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.4|-0.6|0.6500
82653067|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6546|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.4|-0.6|0.6546
82653068|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6692|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.4|-0.6|0.6692
82587740|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|1.17|STANDARD_ERROR_OF_MEAN|0.64||0.965|TWO_SIDED|90.0|0.11|2.23|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.23|0.11|0.965
82587741|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.56||0.855|TWO_SIDED|90.0|-0.33|1.51|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.51|-0.33|0.855
82587742|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.42|STANDARD_ERROR_OF_MEAN|0.58||0.765|TWO_SIDED|90.0|-0.54|1.38|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.38|-0.54|0.765
82587743|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.51||0.504|TWO_SIDED|90.0|-0.84|0.85|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.85|-0.84|0.504
82587744|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.52||0.643|TWO_SIDED|90.0|-0.67|1.06|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.06|-0.67|0.643
82587745|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.64||0.486|TWO_SIDED|90.0|-1.09|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-1.09|0.486
82587746|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.65||0.6|TWO_SIDED|90.0|-0.91|1.24|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.24|-0.91|0.600
82587747|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.57||0.418|TWO_SIDED|90.0|-1.05|0.82|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.82|-1.05|0.418
82587748|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.59||0.515|TWO_SIDED|90.0|-0.95|0.99|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.99|-0.95|0.515
82587749|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.53||0.456|TWO_SIDED|90.0|-0.93|0.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.81|-0.93|0.456
82587750|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.54||0.556|TWO_SIDED|90.0|-0.82|0.97|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.97|-0.82|0.556
82587751|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.67||0.448|TWO_SIDED|90.0|-1.19|1.02|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.02|-1.19|0.448
82587752|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.68||0.6|TWO_SIDED|90.0|-0.95|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.95|0.600
82587753|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.59||0.225|TWO_SIDED|90.0|-1.41|0.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.52|-1.41|0.225
82587754|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.61||0.387|TWO_SIDED|90.0|-1.18|0.83|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.83|-1.18|0.387
82653069|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.6737|TWO_SIDED|95.0|-0.6|0.4|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.4|-0.6|0.6737
82587755|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.54||0.657|TWO_SIDED|90.0|-0.67|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-0.67|0.657
82587756|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.55||0.808|TWO_SIDED|90.0|-0.43|1.4|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.40|-0.43|0.808
82653070|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.3888|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||0.3|-0.8|0.3888
82653071|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.92|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0.6|-0.5|0.9200
82653072|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7061|TWO_SIDED|95.0|-0.4|0.6|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||0.6|-0.4|0.7061
82653073|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.3337|TWO_SIDED|95.0|-0.3|0.8|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.3|0.3337
82587757|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.45|STANDARD_ERROR_OF_MEAN|0.68||0.742|TWO_SIDED|90.0|-0.68|1.57|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.57|-0.68|0.742
82587758|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|0.7||0.923|TWO_SIDED|90.0|-0.16|2.14|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.14|-0.16|0.923
82587759|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.6||0.49|TWO_SIDED|90.0|-1.01|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-1.01|0.490
82587760|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.62||0.609|TWO_SIDED|90.0|-0.86|1.2|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.20|-0.86|0.609
82587761|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.55||0.362|TWO_SIDED|90.0|-1.1|0.71|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.71|-1.10|0.362
82587762|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.56||0.61|TWO_SIDED|90.0|-0.77|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.77|0.610
82587763|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.7||0.376|TWO_SIDED|90.0|-1.37|0.93|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.93|-1.37|0.376
82587764|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.71||0.733|TWO_SIDED|90.0|-0.73|1.6|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.60|-0.73|0.733
82587765|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.61||0.303|TWO_SIDED|90.0|-1.33|0.69|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.69|-1.33|0.303
82587766|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.63||0.548|TWO_SIDED|90.0|-0.97|1.12|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.12|-0.97|0.548
82653074|NCT02146430|165021502|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.2139|TWO_SIDED|95.0|-0.2|0.9|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.9|-0.2|0.2139
82653075|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|2.197|STANDARD_ERROR_OF_MEAN|1.4933||0.1416|TWO_SIDED|95.0|-0.733|5.126|||ANCOVA|||Physical Component: Placebo vs Pregabalin 150 mg BID||5.126|-0.733|0.1416
82653076|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|0.249|STANDARD_ERROR_OF_MEAN|1.492||0.8677|TWO_SIDED|95.0|-2.679|3.176|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||3.176|-2.679|0.8677
82653077|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-0.899|STANDARD_ERROR_OF_MEAN|1.4959||0.5481|TWO_SIDED|95.0|-3.834|2.036|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||2.036|-3.834|0.5481
82377143|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.053|0.128|||Mixed Effects Model for Repeated Measure|||||0.128|0.053|<0.0001
82377144|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.194|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.156|0.232|||Mixed Effects Model for Repeated Measure|||||0.232|0.156|<0.0001
82377145|NCT02006732|164461587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.014|STANDARD_ERROR_OF_MEAN|0.019||0.4499|TWO_SIDED|95.0|-0.023|0.051|||Mixed Effects Model for Repeated Measure|||||0.051|-0.023|0.4499
82377146|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.129|0.203|||Mixed Effects Model for Repeated Measure|||||0.203|0.129|<0.0001
82377147|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.039|STANDARD_ERROR_OF_MEAN|0.019||0.0395|TWO_SIDED|95.0|0.002|0.076|||Mixed Effects Model for Repeated Measure|||||0.076|0.002|0.0395
82377148|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.169|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.132|0.207|||Mixed Effects Model for Repeated Measure|||||0.207|0.132|<0.0001
82587767|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.56||0.609|TWO_SIDED|90.0|-0.77|1.08|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.08|-0.77|0.609
82377149|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.019||0.0269|TWO_SIDED|95.0|0.005|0.079|||Mixed Effects Model for Repeated Measure|||||0.079|0.005|0.0269
82377150|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.09|0.165|||Mixed Effects Model for Repeated Measure|||||0.165|0.090|<0.0001
82377151|NCT02006732|164461588|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.019||0.8669|TWO_SIDED|95.0|-0.04|0.034|||Mixed Effects Model for Repeated Measure|||||0.034|-0.040|0.8669
82587768|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.59||0.59|TWO_SIDED|90.0|-0.83|1.1|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (CS): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.10|-0.83|0.590
82587769|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.71||0.556|TWO_SIDED|90.0|-1.07|1.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.27|-1.07|0.556
82587770|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.73||0.443|TWO_SIDED|90.0|-1.32|1.11|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (GA): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.11|-1.32|0.443
82377152|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.564|STANDARD_ERROR_OF_MEAN|0.986|<|0.0001|TWO_SIDED|95.0|-6.499|-2.629|||Mixed Effects Model for Repeated Measure|||||-2.629|-6.499|<0.0001
82377153|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.717|STANDARD_ERROR_OF_MEAN|0.974||0.078|TWO_SIDED|95.0|-3.628|0.193|||Mixed Effects Model for Repeated Measure|||||0.193|-3.628|0.0780
82377154|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.666|STANDARD_ERROR_OF_MEAN|0.991||0.0002|TWO_SIDED|95.0|-5.611|-1.721|||Mixed Effects Model for Repeated Measure|||||-1.721|-5.611|0.0002
82377155|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.979||0.4028|TWO_SIDED|95.0|-2.741|1.102|||Mixed Effects Model for Repeated Measure|||||1.102|-2.741|0.4028
82377156|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.993||0.0042|TWO_SIDED|95.0|-4.796|-0.897|||Mixed Effects Model for Repeated Measure|||||-0.897|-4.796|0.0042
82377157|NCT02006732|164461589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.898|STANDARD_ERROR_OF_MEAN|0.971||0.3555|TWO_SIDED|95.0|-2.804|1.008|||Mixed Effects Model for Repeated Measure|||||1.008|-2.804|0.3555
82377158|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.668|STANDARD_ERROR_OF_MEAN|0.71|<|0.0001|TWO_SIDED|95.0|-6.06|-3.276|||Mixed Effects Model for Repeated Measure|||||-3.276|-6.060|<0.0001
82377159|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.097|STANDARD_ERROR_OF_MEAN|0.701||0.0028|TWO_SIDED|95.0|-3.471|-0.723|||Mixed Effects Model for Repeated Measure|||||-0.723|-3.471|0.0028
82377160|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.846|STANDARD_ERROR_OF_MEAN|0.711|<|0.0001|TWO_SIDED|95.0|-5.24|-2.451|||Mixed Effects Model for Repeated Measure|||||-2.451|-5.240|<0.0001
82377161|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.274|STANDARD_ERROR_OF_MEAN|0.702||0.0696|TWO_SIDED|95.0|-2.651|0.102|||Mixed Effects Model for Repeated Measure|||||0.102|-2.651|0.0696
82377162|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.571|STANDARD_ERROR_OF_MEAN|0.714||0.0003|TWO_SIDED|95.0|-3.971|-1.171|||Mixed Effects Model for Repeated Measure|||||-1.171|-3.971|0.0003
82377163|NCT02006732|164461590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.822|STANDARD_ERROR_OF_MEAN|0.698||0.2387|TWO_SIDED|95.0|-2.191|0.546|||Mixed Effects Model for Repeated Measure|||||0.546|-2.191|0.2387
82377164|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.187|0.317|||Mixed Effects Model for Repeated Measure|||||0.317|0.187|<0.0001
82377165|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.061|STANDARD_ERROR_OF_MEAN|0.033||0.0614|TWO_SIDED|95.0|-0.003|0.125|||Mixed Effects Model for Repeated Measure|||||0.125|-0.003|0.0614
82377166|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.305|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.24|0.37|||Mixed Effects Model for Repeated Measure|||||0.370|0.240|<0.0001
82587771|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.62||0.527|TWO_SIDED|90.0|-0.99|1.07|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.07|-0.99|0.527
82587772|NCT00568321|164888210|SUPERIORITY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.66||0.583|TWO_SIDED|90.0|-0.95|1.22|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (NW): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.22|-0.95|0.583
82587773|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.63||0.111|TWO_SIDED|90.0|-1.81|0.27|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.27|-1.81|0.111
82587774|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.64||0.523|TWO_SIDED|90.0|-1.02|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 1: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-1.02|0.523
82587775|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.77|STANDARD_ERROR_OF_MEAN|0.63||0.887|TWO_SIDED|90.0|-0.28|1.81|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.81|-0.28|0.887
82587776|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.85|STANDARD_ERROR_OF_MEAN|0.65||0.903|TWO_SIDED|90.0|-0.23|1.92|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.92|-0.23|0.903
82587777|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.64||0.472|TWO_SIDED|90.0|-1.11|1.02|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.02|-1.11|0.472
82587778|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.66||0.628|TWO_SIDED|90.0|-0.87|1.3|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 4: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.30|-0.87|0.628
82653078|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-1.948|STANDARD_ERROR_OF_MEAN|1.4875||0.1906|TWO_SIDED|95.0|-4.866|0.971|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.971|-4.866|0.1906
82653079|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-3.095|STANDARD_ERROR_OF_MEAN|1.4883||0.0378|TWO_SIDED|95.0|-6.015|-0.175|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||-0.175|-6.015|0.0378
82653080|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|0.664|STANDARD_ERROR_OF_MEAN|0.6865||0.3337|TWO_SIDED|95.0|-0.683|2.011|||ANCOVA|||Mental Component: Placebo vs Pregabalin 150 mg BID||2.011|-0.683|0.3337
82653081|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-0.194|STANDARD_ERROR_OF_MEAN|0.686||0.7778|TWO_SIDED|95.0|-1.54|1.152|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.152|-1.540|0.7778
82653082|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-0.087|STANDARD_ERROR_OF_MEAN|0.6879||0.8991|TWO_SIDED|95.0|-1.437|1.262|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||1.262|-1.437|0.8991
82653083|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-0.857|STANDARD_ERROR_OF_MEAN|0.6833||0.2098|TWO_SIDED|95.0|-2.198|0.483|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.483|-2.198|0.2098
82653084|NCT02146430|165021503|SUPERIORITY||Difference in least squares means|-0.751|STANDARD_ERROR_OF_MEAN|0.6842||0.2725|TWO_SIDED|95.0|-2.093|0.591|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.591|-2.093|0.2725
82653085|NCT02146430|165021504|SUPERIORITY||Difference in least squares means|0.0018|STANDARD_ERROR_OF_MEAN|0.01329||0.8923|TWO_SIDED|95.0|-0.0243|0.0279|||ANCOVA|||||0.0279|-0.0243|0.8923
82653086|NCT02146430|165021504|SUPERIORITY||Difference in least squares means|-0.0021|STANDARD_ERROR_OF_MEAN|0.01327||0.8749|TWO_SIDED|95.0|-0.0281|0.024|||ANCOVA|||||0.0240|-0.0281|0.8749
82653087|NCT02146430|165021504|SUPERIORITY||Difference in least squares means|-0.0091|STANDARD_ERROR_OF_MEAN|0.01332||0.4932|TWO_SIDED|95.0|-0.0353|0.017|||ANCOVA|||||0.0170|-0.0353|0.4932
82653088|NCT02146430|165021504|SUPERIORITY||Difference in least squares means|-0.0039|STANDARD_ERROR_OF_MEAN|0.01323||0.7688|TWO_SIDED|95.0|-0.0298|0.0221|||ANCOVA|||||0.0221|-0.0298|0.7688
82653089|NCT02146430|165021504|SUPERIORITY||Difference in least squares means|-0.0109|STANDARD_ERROR_OF_MEAN|0.01326||0.4099|TWO_SIDED|95.0|-0.0369|0.0151|||ANCOVA|||||0.0151|-0.0369|0.4099
82653090|NCT02146430|165021505|SUPERIORITY||Difference in least squares means|-0.55|STANDARD_ERROR_OF_MEAN|0.166||0.0009|TWO_SIDED|95.0|-0.88|-0.23|||Mixed Models Analysis|||||-0.23|-0.88|0.0009
82653091|NCT02146430|165021505|SUPERIORITY||Difference in least squares means|-0.63|STANDARD_ERROR_OF_MEAN|0.166||0.0001|TWO_SIDED|95.0|-0.96|-0.31|||Mixed Models Analysis|||||-0.31|-0.96|0.0001
82653092|NCT02146430|165021505|SUPERIORITY||Difference in least squares means|-0.85|STANDARD_ERROR_OF_MEAN|0.167|<|0.0001|TWO_SIDED|95.0|-1.17|-0.52|||Mixed Models Analysis|||||-0.52|-1.17|<0.0001
82653093|NCT02146430|165021505|SUPERIORITY||Difference in least squares means|-0.08|STANDARD_ERROR_OF_MEAN|0.167||0.6408|TWO_SIDED|95.0|-0.4|0.25|||Mixed Models Analysis|||||0.25|-0.40|0.6408
82653094|NCT02146430|165021505|SUPERIORITY||Difference in least squares means|-0.29|STANDARD_ERROR_OF_MEAN|0.167||0.0786|TWO_SIDED|95.0|-0.62|0.03|||Mixed Models Analysis|||||0.03|-0.62|0.0786
82653095|NCT02146430|165021507|SUPERIORITY||Difference of least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0541|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||0.0|-0.7|0.0541
82377167|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.033||0.0005|TWO_SIDED|95.0|0.049|0.178|||Mixed Effects Model for Repeated Measure|||||0.178|0.049|0.0005
82377168|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.191|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.126|0.256|||Mixed Effects Model for Repeated Measure|||||0.256|0.126|<0.0001
82377169|NCT02006732|164461591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.053|STANDARD_ERROR_OF_MEAN|0.033||0.1089|TWO_SIDED|95.0|-0.117|0.012|||Mixed Effects Model for Repeated Measure|||||0.012|-0.117|0.1089
82377170|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.195|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|0.665|1.725|||Mixed Effects Model for Repeated Measure|||||1.725|0.665|<0.0001
82377171|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.267||0.0296|TWO_SIDED|95.0|0.058|1.106|||Mixed Effects Model for Repeated Measure|||||1.106|0.058|0.0296
82587779|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.67||0.243|TWO_SIDED|90.0|-1.58|0.64|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.64|-1.58|0.243
82587780|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.69||0.346|TWO_SIDED|90.0|-1.42|0.87|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.87|-1.42|0.346
82653096|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.7771|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.3|-0.4|0.7771
82377172|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.263|STANDARD_ERROR_OF_MEAN|0.272|<|0.0001|TWO_SIDED|95.0|0.73|1.796|||Mixed Effects Model for Repeated Measure|||||1.796|0.730|<0.0001
82377173|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|STANDARD_ERROR_OF_MEAN|0.269||0.0159|TWO_SIDED|95.0|0.122|1.178|||Mixed Effects Model for Repeated Measure|||||1.178|0.122|0.0159
82377174|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.613|STANDARD_ERROR_OF_MEAN|0.273||0.0248|TWO_SIDED|95.0|0.078|1.148|||Mixed Effects Model for Repeated Measure|||||1.148|0.078|0.0248
82377175|NCT02006732|164461592|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.068|STANDARD_ERROR_OF_MEAN|0.266||0.7984|TWO_SIDED|95.0|-0.59|0.454|||Mixed Effects Model for Repeated Measure|||||0.454|-0.590|0.7984
82377176|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.623|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|1.245|2.0|||Mixed Effects Model for Repeated Measure|||||2.000|1.245|<0.0001
82377177|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.594|STANDARD_ERROR_OF_MEAN|0.19||0.0019|TWO_SIDED|95.0|0.22|0.967|||Mixed Effects Model for Repeated Measure|||||0.967|0.220|0.0019
82377178|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.611|STANDARD_ERROR_OF_MEAN|0.193|<|0.0001|TWO_SIDED|95.0|1.232|1.989|||Mixed Effects Model for Repeated Measure|||||1.989|1.232|<0.0001
82377179|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.582|STANDARD_ERROR_OF_MEAN|0.191||0.0023|TWO_SIDED|95.0|0.207|0.956|||Mixed Effects Model for Repeated Measure|||||0.956|0.207|0.0023
82377180|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.029|STANDARD_ERROR_OF_MEAN|0.194|<|0.0001|TWO_SIDED|95.0|0.649|1.41|||Mixed Effects Model for Repeated Measure|||||1.410|0.649|<0.0001
82377181|NCT02006732|164461593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.189||0.9494|TWO_SIDED|95.0|-0.359|0.383|||Mixed Effects Model for Repeated Measure|||||0.383|-0.359|0.9494
82377182|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.432|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.366|0.498|||Mixed Effects Model for Repeated Measure|||||0.498|0.366|<0.0001
82377183|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.084|0.212|||Mixed Effects Model for Repeated Measure|||||0.212|0.084|<0.0001
82653097|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.19||0.5488|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.5488
82653098|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.0987|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0987
82653099|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.184|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.1|0.1840
82653100|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.1903|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||0.1|-0.6|0.1903
82653101|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5787|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.2|-0.4|0.5787
82377184|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.455|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.387|0.522|||Mixed Effects Model for Repeated Measure|||||0.522|0.387|<0.0001
82377185|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.105|0.236|||Mixed Effects Model for Repeated Measure|||||0.236|0.105|<0.0001
82377186|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.284|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.217|0.35|||Mixed Effects Model for Repeated Measure|||||0.350|0.217|<0.0001
82377187|NCT02006732|164461594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.033||0.4974|TWO_SIDED|95.0|-0.087|0.042|||Mixed Effects Model for Repeated Measure|||||0.042|-0.087|0.4974
82377188|NCT02211417|164461595|SUPERIORITY|||||||0.057|||||||Cochran-Mantel-Haenszel|||||||0.057
82377189|NCT01198132|164461605|SUPERIORITY_OR_OTHER||Rate ratio|0.8||||0.3797|TWO_SIDED|95.0|0.48|1.32|||Poisson log-linear model|||||1.32|0.48|0.3797
82587781|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.69||0.467|TWO_SIDED|90.0|-1.19|1.08|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.08|-1.19|0.467
82587782|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.7||0.67|TWO_SIDED|90.0|-0.85|1.47|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 8: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.47|-0.85|0.670
82587783|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.7||0.286|TWO_SIDED|90.0|-1.55|0.76|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.76|-1.55|0.286
82587784|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.71||0.598|TWO_SIDED|90.0|-1.0|1.35|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.35|-1.00|0.598
82587785|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.71||0.453|TWO_SIDED|90.0|-1.26|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-1.26|0.453
82587786|NCT00568321|164888213|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.74||0.472|TWO_SIDED|90.0|-1.28|1.17|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16: LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.17|-1.28|0.472
82587787|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|1.02||0.548|TWO_SIDED|90.0|-1.81|1.56|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.56|-1.81|0.548
82587788|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|1.24|STANDARD_ERROR_OF_MEAN|1.04||0.117|TWO_SIDED|90.0|-0.48|2.96|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.96|-0.48|0.117
82587789|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|1.11||0.779|TWO_SIDED|90.0|-2.69|0.98|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.98|-2.69|0.779
82587790|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|1.14||0.375|TWO_SIDED|90.0|-1.52|2.25|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.25|-1.52|0.375
82587791|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|-1.36|STANDARD_ERROR_OF_MEAN|1.15||0.881|TWO_SIDED|90.0|-3.26|0.54|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.54|-3.26|0.881
82653102|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5535|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||0.2|-0.5|0.5535
82653103|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4476|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.2|0.4476
82587792|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|1.17||0.636|TWO_SIDED|90.0|-2.33|1.52|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.52|-2.33|0.636
82587793|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.17||0.905|TWO_SIDED|90.0|-3.46|0.39|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||0.39|-3.46|0.905
82653104|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4737|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.4737
82653105|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0814|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||0.0|-0.6|0.0814
82377190|NCT03516513|164461621|SUPERIORITY|t-tests||||||0.905|||||||t-test, 2 sided|||||||0.905
82377191|NCT03516513|164461621|SUPERIORITY|t-test||||||0.32|||||||t-test, 2 sided|||||||.320
82377192|NCT03516513|164461622|SUPERIORITY|||||||0.155||||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.155
82587794|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.21||0.499|TWO_SIDED|90.0|-2.0|2.0|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Learning): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||2.00|-2.00|0.499
82587795|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.5||0.297|TWO_SIDED|90.0|-0.56|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.56|0.297
82587796|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.91|STANDARD_ERROR_OF_MEAN|0.5||0.035|TWO_SIDED|90.0|0.09|1.74|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 2 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.74|0.09|0.035
82587797|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.54||0.222|TWO_SIDED|90.0|-0.48|1.31|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.31|-0.48|0.222
82587798|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.81|STANDARD_ERROR_OF_MEAN|0.54||0.069|TWO_SIDED|90.0|-0.09|1.7|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 6 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.70|-0.09|0.069
82587799|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.55||0.338|TWO_SIDED|90.0|-0.68|1.15|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.15|-0.68|0.338
82587800|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.56||0.381|TWO_SIDED|90.0|-0.75|1.09|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 12 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.09|-0.75|0.381
82587801|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.56||0.306|TWO_SIDED|90.0|-0.64|1.21|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.21|-0.64|0.306
82587802|NCT00568321|164888227|SUPERIORITY||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.58||0.44|TWO_SIDED|90.0|-0.87|1.04|||Repeated Measures Model|P-value was based on repeated measures model from pairwise comparisons, and was 1-sided.||Week 16 (Delayed): LS Mean Difference was estimated from the repeated measures model with participant as random effect; treatment, week and treatment-by-week interaction as fixed effects and baseline as a covariate.||1.04|-0.87|0.440
82587803|NCT01676909|164888239|SUPERIORITY|||||||0.362|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.362
82653106|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.3069|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||0.2|-0.5|0.3069
82587804|NCT01676909|164888240|SUPERIORITY|||||||0.026|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.026
82587805|NCT01676909|164888241|SUPERIORITY|||||||0.032|||||||Mixed Models Analysis|||To test hypothesis 1, regarding the three SF-12 subscales, a linear mixed effects models was used. All available data were used from all three assessment time points. Group, time, and group-by-time terms were included in the model. To test for a group difference in mean change from baseline to post-intervention, the significance test of the group-by-post-intervention coefficient was performed. A logistic mixed model for change in proportion with an ED visit was used to test hypothesis 2.||||0.032
82587806|NCT01676909|164888242|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||A logistic mixed effects model over two 6-month time periods (prior to baseline and between baseline and the 6-month follow-up visit) was used. Terms in the model included group, binary time (pre-f/u versus pre-baseline), and group by time interaction. Two-sided alpha = .05 level tests were used. The hypothesis that the proportion with ER visits would decrease in the Living Well group versus the control group was tests by test of the interaction term.||||.64
82653107|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3916|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||0.2|-0.5|0.3916
82653108|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.4667|TWO_SIDED|95.0|-0.2|0.4|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.4|-0.2|0.4667
82653109|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.3744|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.3744
82587807|NCT01676909|164888243|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||<.0001
82587808|NCT01676909|164888244|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.038
82587809|NCT01676909|164888245|SUPERIORITY|||||||0.544|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.544
82587810|NCT01676909|164888246|SUPERIORITY|||||||0.699|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.699
82587811|NCT01676909|164888247|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.006
82587812|NCT01676909|164888248|SUPERIORITY|||||||0.762|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.762
82587813|NCT01676909|164888249|SUPERIORITY|||||||0.326|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.326
82587814|NCT01676909|164888250|SUPERIORITY|||||||0.667|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.667
82587815|NCT01676909|164888251|SUPERIORITY|||||||0.142|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.142
82587816|NCT01676909|164888252|SUPERIORITY|||||||0.342|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.342
82587817|NCT01676909|164888253|SUPERIORITY|||||||0.563|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.563
82587818|NCT01676909|164888254|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.004
82653110|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2959|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||0.2|-0.6|0.2959
82653111|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9119|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9119
82377193|NCT03516513|164461622|SUPERIORITY|||||||0.974||||||Not adjusted for multiple comparisons|t-test, 2 sided|||||||.974
82377194|NCT03516513|164461624|SUPERIORITY|||||||0.212|||||||t-test, 2 sided|||||||.212
82377195|NCT03516513|164461625|SUPERIORITY|||||||0.507|||||||t-test, 2 sided|||||||.507
82377196|NCT03516513|164461626|SUPERIORITY|||||||0.091|||||||t-test, 2 sided|||||||.091
82377197|NCT03390426|164461648|SUPERIORITY|"this is a superiority study and the non-inferiority or equivalence analysis is not required"|||||<|0.05||||||Comparisons were made between the two groups using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables. p-value of \<0.05 was considered to be statistically significant.|t-test, 2 sided|Comparisons were made using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables.||We determined 30 subjects were needed to detect a 50% difference in THN incidence between the two groups using a one-sided Fisher's exact test with alpha = 0.05 and 80% power while allowing up to 20% drop-out. For primary and secondary outcomes, comparisons were made between the two groups using a two-sample t-test or Mann-Whitney U test for continuous variables and Fisher's exact test for categorical variables. p-value of \<0.05 was considered to be statistically significant.||||<0.05
82377198|NCT00307437|164461663|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||<0.001
82653112|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.19||0.9399|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.9399
82377199|NCT00307437|164461663|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for the multiplicity for the primary endpoint analysis, the Holm's procedure was used at an overall significance level of 0.05.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05. Sample Size: With 1200 participants (400 in each treatment group), simulation studies were conducted to calculate the power to detect a treatment difference in the primary endpoint between ustekinumab groups and placebo using a CMH test stratified by baseline weight \[\<=90kg vs \> 90 kg). For all the scenarios evaluated, the power is \>99% at an overall significance level of 0.05.||||<0.001
82377200|NCT00307437|164461664|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||||||<0.001
82377201|NCT00307437|164461664|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint need to be significant first.|Cochran-Mantel-Haenszel (CMH) chi square|Stratified by baseline weight \[less than or equal 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significancd level of 0.05.||||<0.001
82377202|NCT00307437|164461665|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA on van der Waerden normal scores|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 90kg vs \> 90 kg) as factors in the model||||||<0.001
82377203|NCT00307437|164461665|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control the multiplicity for the primary and the secondary endpoint analyses, Holm's procedure was used but the two comparisons for the primary endpoint and the two comparisons for the 1st second endpoint analyses need to be significant first.|ANOVA on van der Waerden normal scores|Analysis of varianceon van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤90 kg vs \>90 kg) as factors in the model||Null Hypothesis: No difference between ustekinumab 90 mg or 45 mg and placebo at an overall significance level of 0.05.||||<0.001
82377204|NCT00307437|164461666|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||0.468
82377205|NCT00307437|164461666|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||||||0.210
82377206|NCT00307437|164461666|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||To control the overall multiplicity, the combined groups was tested first and each dose will then be tested; but the primary and the 1st 2 secondary endpoint analyses need to be significant before this endpoint can be tested.|Cochran-Mantel-Haenszel (row mean score)|Stratified by baseline weight \[less than or equal to 90 kg vs greater than 90 kg)\].||Null Hypothesis: No difference between combined q8 group and the combined q12 group, 45 mg q8 and 45 mg q12, 90 mg q8 and 90 mg q12 at an overall significance level of 0.05.||||0.014
82377207|NCT00509795|164461667|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.1|-4.4|3.1|||||The difference is calculated as ranibizumab minus IAI. A positive value favors IAI 2.0Q4. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI.||3.1|-4.4|
82377539|NCT00486525|164462476|SUPERIORITY_OR_OTHER||Slope|-0.038|STANDARD_ERROR_OF_MEAN|0.02||0.063|TWO_SIDED|95.0|-0.079|0.0021|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Model used continuous yoga practice frequency in place of group assignment to predict primary outcomes 3 months post-treatment.|Secondary analysis on change of ln (TNF-a) for each 10 minute increase in yoga practice frequency, adjusting for baseline outcome levels, age, and SAD.||0.0021|-0.079|0.063
82653113|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2455|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.2455
82653114|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3311|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.3311
82653115|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.254|STANDARD_ERROR_OF_MEAN|0.1647||0.1233|TWO_SIDED|95.0|-0.577|0.069|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||0.069|-0.577|0.1233
82587819|NCT01676909|164888255|SUPERIORITY|||||||0.727|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.727
82587820|NCT01676909|164888256|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.446
82587821|NCT01676909|164888257|SUPERIORITY|||||||0.459|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.459
82587822|NCT01676909|164888258|SUPERIORITY|||||||0.038|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.038
82587823|NCT01676909|164888259|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.238
82587824|NCT01676909|164888260|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.011
82587825|NCT01676909|164888261|SUPERIORITY|||||||0.709|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.709
82587826|NCT01676909|164888262|SUPERIORITY|||||||0.134|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.134
82587827|NCT01676909|164888263|SUPERIORITY|||||||0.045|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.045
82587828|NCT01676909|164888264|SUPERIORITY|||||||0.099|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.099
82587829|NCT01676909|164888265|SUPERIORITY|||||||0.852|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.852
82653116|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.072|STANDARD_ERROR_OF_MEAN|0.1643||0.661|TWO_SIDED|95.0|-0.394|0.25|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.250|-0.394|0.6610
82653117|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.098|STANDARD_ERROR_OF_MEAN|0.1649||0.5514|TWO_SIDED|95.0|-0.422|0.225|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||0.225|-0.422|0.5514
82490668|NCT03281577|164674823|SUPERIORITY||Least Squares Mean Differences|33.12||||0.0436|TWO_SIDED|95.0|0.799|65.439||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||65.439|0.799|0.0436
82377208|NCT00509795|164461667|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-1.5|||||TWO_SIDED|95.1|-5.1|2.1|||||The difference is calculated as ranibizumab minus IAI. A negative value favors the IAI 0.5Q4 group. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI (EYLEA, VEGF Trap-Eye).||2.1|-5.1|
82377209|NCT00509795|164461667|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was set at 10%. The power is 90% according to the sample size estimation of the study protocol. Although not in the analysis plan for the study, in a separate communication, the FDA further explained that, whereas the 10% non-inferiority margin would be used to assess non-inferiority, a 5% non-inferiority margin would be used to assess clinical equivalence.|Risk Difference (RD)|-0.7|||||TWO_SIDED|95.1|-4.5|3.1|||||The difference is calculated as ranibizumab minus IAI. A negative value favors the IAI 2.0Q8 group. As adjustment of multiple comparisons as conditional sequence of statistical hypotheses is used with alpha = 0.049.|The statistical approach included a conditional sequence of calculations of the 95.1% CI using normal approximation of the difference between the proportion of patients with maintained vision at Week 52 for the group treated with 0.5 mg ranibizumab and the proportion of patients with maintained vision for each of the groups treated with IAI (EYLEA, VEGF Trap-Eye).||3.1|-4.5|
82377210|NCT00509795|164461668|SUPERIORITY_OR_OTHER||Differences in Least Squares means|3.15||||0.0054|TWO_SIDED|95.1|0.92|5.37||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||5.37|0.92|0.0054
82377211|NCT00509795|164461668|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.8||||0.4793|TWO_SIDED|95.1|-3.03|1.43||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.43|-3.03|0.4793
82377212|NCT00509795|164461668|SUPERIORITY_OR_OTHER||Differences in Least Squares Means|0.26||||0.8179|TWO_SIDED|95.1|-1.97|2.49||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||2.49|-1.97|0.8179
82587830|NCT01676909|164888266|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.285
82587831|NCT01676909|164888267|SUPERIORITY|||||||0.222|||||||Mixed Models Analysis|||The same mixed model used for testing hypothesis 1 was used to test treatment effects on secondary scale outcomes (Hypothesis 3: health-related self-efficacy, patient activation; Hypothesis 4: six subscales of the Measure of Self-Management Behaviors) and several other pre-specified outcomes. To test for a group difference in mean change from baseline to follow-up (hypothesis 5) on all primary and secondary outcomes, the significance test of the group-by-follow-up coefficient was performed.||||0.222
82587832|NCT01176968|164888292|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.581|||<|0.0001|TWO_SIDED|95.0|0.446|0.756||All analyses for primary endpoint were tested at two-sided, α-level of 0.05, without adjusting for multiplicity.|Regression, Cox|||Hazard ratio, 95% confidence interval (CI) of hazard ratio, and p-value for the Primary Analysis based on a Cox proportional hazard model with treatment as the major factor, adjusted for baseline estimated glomerular filtration rate (eGFR), with/without previous MI, time of first dose administered post onset of index symptom, and location of index MI anterior or non-anterior.||0.756|0.446|< 0.0001
82587833|NCT01176968|164888293|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.562||||0.6406|TWO_SIDED|95.0|0.05|6.308|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||6.308|0.050|0.6406
82587834|NCT01176968|164888294|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.726||||0.5338|TWO_SIDED|95.0|0.265|1.99|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||1.990|0.265|0.5338
82587835|NCT01176968|164888296|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.083||||0.8042|TWO_SIDED|95.0|0.575|2.04|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||2.040|0.575|0.8042
82377213|NCT00509795|164461669|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.6||||0.1042|TWO_SIDED|95.1|-1.0|14.1||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The null hypothesis is that both percentages are equal.||14.1|-1.0|0.1042
82377214|NCT00509795|164461669|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.0||||0.1037|TWO_SIDED|95.1|-13.2|1.2||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The null hypothesis is that both percentages are equal.||1.2|-13.2|0.1037
82377215|NCT00509795|164461669|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.93|TWO_SIDED|95.1|-7.7|7.0||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049.|Chi-squared||The difference is calculated as VEGF Trap-Eye minus ranibizumab. A positive value favors VEGF Trap-Eye 2.0Q8.|The pairwise The null hypothesis is that both percentages are equal.||7.0|-7.7|0.93
82377216|NCT00509795|164461670|SUPERIORITY_OR_OTHER||Differences Least Squares means|1.28||||0.209|TWO_SIDED|95.1|-0.73|3.28||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||3.28|-0.73|0.2090
82377217|NCT00509795|164461670|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.67||||0.5128|TWO_SIDED|95.1|-2.69|1.35||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 0.5Q4.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.35|-2.69|0.5128
82377218|NCT00509795|164461670|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.6||||0.5579|TWO_SIDED|95.1|-2.61|1.42||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A positive value favors IAI 2.0Q8.|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.42|-2.61|0.5579
82377219|NCT00509795|164461671|SUPERIORITY_OR_OTHER||Differences in Least Squares means|-0.33||||0.3575|TWO_SIDED|95.1|-1.04|0.38||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 2.0Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||0.38|-1.04|0.3575
82377220|NCT00509795|164461671|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.71||||0.0507|TWO_SIDED|95.1|-0.01|1.42||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 0.5Q4|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.42|-0.01|0.0507
82377221|NCT00509795|164461671|SUPERIORITY_OR_OTHER||Differences in Least Squares means|0.86||||0.0173|TWO_SIDED|95.1|0.15|1.58||As adjustment of multiple comparisons, a conditional sequence of statistical hypotheses is used with alpha = 0.049|ANCOVA||The difference is calculated as IAI minus ranibizumab. A negative value favors IAI 2.0Q8|The pairwise comparison is performed as contrast statement in the analysis of covariance model with treatment group as fixed factor (all 4 treatment groups) and the baseline measure as covariate. The null hypothesis is that both mean changes are equal.||1.58|0.15|0.0173
82377222|NCT02521376|164461672|OTHER||Geometric Mean Ratio (GMR)|43.69|||||TWO_SIDED|90.0|24.59|77.62||||||||77.62|24.59|
82587836|NCT01176968|164888297|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.598||||0.0003|TWO_SIDED|95.0|0.452|0.791|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||0.791|0.452|0.0003
82377223|NCT02521376|164461672|OTHER||GMR|233.63|||||TWO_SIDED|90.0|141.85|384.79||||||||384.79|141.85|
82377224|NCT02521376|164461672|OTHER||GMR|219.2|||||TWO_SIDED|90.0|139.74|343.84||||||||343.84|139.74|
82377225|NCT02521376|164461672|OTHER||GMR|108.5|||||TWO_SIDED|90.0|77.2|152.48||||||||152.48|77.20|
82377226|NCT02521376|164461673|OTHER||GMR|55.71|||||TWO_SIDED|90.0|34.7|89.42||||||||89.42|34.70|
82377227|NCT02521376|164461673|OTHER||GMR|211.94|||||TWO_SIDED|90.0|132.49|339.03||||||||339.03|132.49|
82377228|NCT02521376|164461673|OTHER||GMR|171.33|||||TWO_SIDED|90.0|108.17|271.37||||||||271.37|108.17|
82377229|NCT02521376|164461673|OTHER||GMR|107.35|||||TWO_SIDED|90.0|72.71|158.51||||||||158.51|72.71|
82490669|NCT03281577|164674823|SUPERIORITY||Least Squares Mean Differences|57.98||||0.0007|TWO_SIDED|95.0|23.555|92.396||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||92.396|23.555|0.0007
82490670|NCT03281577|164674823|SUPERIORITY||Least Squares Mean Differences|44.44||||0.0134|TWO_SIDED|95.0|8.249|80.629||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||80.629|8.249|0.0134
82377230|NCT02374138|164461707|SUPERIORITY|||||||0.93||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Months||||0.93
82377231|NCT02374138|164461708|SUPERIORITY|||||||0.87||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 month follow up||||0.87
82377232|NCT02374138|164461708|SUPERIORITY|||||||0.25||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 month follow up||||0.25
82377233|NCT02374138|164461710|SUPERIORITY|||||||0.35||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ICS Use at 6 Month Follow Up||||0.35
82587837|NCT01176968|164888298|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.069||||0.9353|TWO_SIDED|95.0|0.213|5.371|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as a factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||5.371|0.213|0.9353
82587838|NCT01176968|164888299|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.6||||0.3757|TWO_SIDED|95.0|0.566|4.525|||Regression, Cox|||Hazard ratio, 95% CI of hazard ratio, p-value for all secondary endpoints based on Cox proportional hazard model with treatment as the major factor, adjusted for baseline eGFR, with/without previous MI, index MI location, time of first dose administered post onset of index symptom.||4.525|0.566|0.3757
82587839|NCT01176968|164888300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.45||||0.1744|TWO_SIDED|95.0|-3.55|0.65|||ANCOVA|||ANCOVA model was used with observed value as the dependent variable, treatment as a major factor, and baseline QRS duration, baseline eGFR, with/without previous MI, time (in hours) of first dose administered post onset of index symptom, and location of index MI (anterior versus all other locations) as covariates.||0.65|-3.55|0.1744
82587840|NCT01176968|164888301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.7123|TWO_SIDED|95.0|-0.1|0.14||ANCOVA was used for between-treatment comparisons of the LSMeans, 95% CI of LSMEANS, LSMeans difference, 95% CI of LSMeans difference, and p-value with observed value at the given time point as variable.|ANCOVA|||For the Between-Treatment difference for Eplerenone and Placebo groups of observed value taken at Month 6 visit, ANCOVA model was performed for LAD based on the LOCF method including treatment groups with/without adjustments for baseline eGFR (in mL/min/1.73 m2), previous MI (yes/no), time (in hours) of first dose administered post-onset of symptom, index MI location (anterior versus all others) as covariates.||0.14|-0.10|0.7123
82587841|NCT01176968|164888301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.4105|TWO_SIDED|95.0|-0.05|0.13||ANCOVA was used for between-treatment comparisons of the LSMeans, 95% CI of LSMEANS, LSMeans difference, 95% CI of LSMeans difference, and p-value with observed value at the given time point as variable.|ANCOVA|||For the Between-Treatment difference for Eplerenone and Placebo groups of observed value taken at Month 6 visit, ANCOVA model was performed for LAD based on the LOCF method including treatment groups with/without adjustments for baseline eGFR (in mL/min/1.73 m2), previous MI (yes/no), time (in hours) of first dose administered post-onset of symptom, index MI location (anterior versus all others) as covariates.||0.13|-0.05|0.4105
82587842|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Aldosterone, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587843|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.5552|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Aldosterone, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.5552
82587844|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Aldosterone, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||< 0.0001
82653118|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.182|STANDARD_ERROR_OF_MEAN|0.1638||0.2673|TWO_SIDED|95.0|-0.14|0.503|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.503|-0.140|0.2673
82653119|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.156|STANDARD_ERROR_OF_MEAN|0.1644||0.3439|TWO_SIDED|95.0|-0.167|0.478|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.478|-0.167|0.3439
82587845|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Serum Cortisol, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82653120|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|2.6|STANDARD_ERROR_OF_MEAN|2.4||0.2708|TWO_SIDED|95.0|-2.1|7.4|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs Pregabalin 150 mg BID||7.4|-2.1|0.2708
82653121|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|1.2|STANDARD_ERROR_OF_MEAN|2.4||0.6285|TWO_SIDED|95.0|-3.5|5.9|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg QD||5.9|-3.5|0.6285
82653122|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|2.41||0.9177|TWO_SIDED|95.0|-5.0|4.5|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 150 mg BID||4.5|-5.0|0.9177
82653123|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-1.5|STANDARD_ERROR_OF_MEAN|2.38||0.5334|TWO_SIDED|95.0|-6.2|3.2|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||3.2|-6.2|0.5334
82653124|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-2.9|STANDARD_ERROR_OF_MEAN|2.39||0.2261|TWO_SIDED|95.0|-7.6|1.8|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.8|-7.6|0.2261
82653125|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-3.87|STANDARD_ERROR_OF_MEAN|1.758||0.0281|TWO_SIDED|95.0|-7.32|-0.42|||ANCOVA|||Interference: Placebo vs Pregabalin 150 mg BID||-0.42|-7.32|0.0281
82653126|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-1.42|STANDARD_ERROR_OF_MEAN|1.756||0.419|TWO_SIDED|95.0|-4.87|2.03|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg QD||2.03|-4.87|0.4190
82587846|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Serum Cortisol, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587847|NCT01176968|164888302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3347|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Serum Cortisol, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.3347
82587848|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PIIINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0005
82587849|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PIIINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587850|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1558|TWO_SIDED||||||Wilcoxon-Rank Sum test|||For Biomarker- PIIINP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.1558
82587851|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Galecting 3, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0008
82653127|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-1.61|STANDARD_ERROR_OF_MEAN|1.763||0.3622|TWO_SIDED|95.0|-5.06|1.85|||ANCOVA|||Interference: Placebo vs DS-5565 15 mg BID||1.85|-5.06|0.3622
82587852|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Galecting 3, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587853|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0293|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Galecting 3, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0293
82587854|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1723|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.1723
82587855|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0295|TWO_SIDED||||||Signed Rank Test|||For Biomarker- PINP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0295
82587856|NCT01176968|164888303|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0865|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- PINP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0865
82587857|NCT01176968|164888304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0944|TWO_SIDED||||||Signed Rank Test|||For Biomarker- ICTP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0944
82587858|NCT01176968|164888304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED||||||Signed Rank Test|||For Biomarker- ICTP, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||0.0360
82653128|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|2.45|STANDARD_ERROR_OF_MEAN|1.75||0.1623|TWO_SIDED|95.0|-0.99|5.88|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg QD||5.88|-0.99|0.1623
82587859|NCT01176968|164888304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6459|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- ICTP, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.6459
82653129|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|2.26|STANDARD_ERROR_OF_MEAN|1.753||0.1978|TWO_SIDED|95.0|-1.18|5.7|||ANCOVA|||Interference: Pregabalin 150 mg BID vs DS-5565 15 mg BID||5.70|-1.18|0.1978
82653130|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0867|TWO_SIDED|95.0|-0.8|0.1|||ANCOVA|||General activity: Placebo vs Pregabalin 150 mg BID||0.1|-0.8|0.0867
82653131|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6993|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.6993
82653132|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.8702|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||General activity: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.8702
82653133|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1826|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.1826
82653134|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1206|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||General activity: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1206
82653135|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0211|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Mood: Placebo vs Pregabalin 150 mg BID||-0.1|-0.9|0.0211
82653136|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.4963|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg QD||0.3|-0.6|0.4963
82653137|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3031|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Mood: Placebo vs DS-5565 15 mg BID||0.2|-0.6|0.3031
82653138|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1019|TWO_SIDED|95.0|-0.1|0.8|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.1|0.1019
82587860|NCT01176968|164888305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Interleukin-6, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587861|NCT01176968|164888305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Signed Rank Test|||For Biomarker- Interleukin-6, signed rank test for change from baseline at Month 6 within treatment difference was used to derive p-value.||||< 0.0001
82587862|NCT01176968|164888305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0801|TWO_SIDED||||||Wilcoxon Rank-Sum test|||For Biomarker- Interleukin-6, Wilconxon rank-sum test for between treatment difference at Month 6 was used to derive p-value.||||0.0801
82587863|NCT02993523|164888328|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.465|0.723||Stratified log-rank test stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).|Log Rank||HR from Cox proportional hazards model stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).|||0.723|0.465|<0.001
82587864|NCT02993523|164888329|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by age (18 - \< 75, ≥ 75) and cytogenetic risk (intermediate, poor).||||||<0.001
82587865|NCT03694418|164888337|OTHER||Incident Rate Ratio|1.73|STANDARD_DEVIATION|0.35|<|0.05|TWO_SIDED|95.0|1.02|2.95|||Wilcoxon (Mann-Whitney)|||||2.95|1.02|<0.05
82587866|NCT02888665|164888387|OTHER||see above|||||||||||see above. target ORR was not met.|||see above. target ORR was not met.|The primary objective of the phase II design compared ORR with historical rates (Judson et al. Lancet Onc., 2014). A 2-stage design with null hypothesis of 15% using a 1-sided 0.05 α level test has 85% power to detect an increase to 35%. This required up to 35 patients. After 2 responses in stage 1 (20 pts), the study moved to stage 2 (15 pts). If 10 responses were seen (29%), this would have ruled out an ORR of 15%. The study was closed when it became clear we would not meet this benchmark.|see above. target ORR was not met.|||
82587867|NCT01067326|164888432|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||Change in EPCs from baseline to 4 months||||0.02
82377234|NCT02374138|164461710|SUPERIORITY|||||||0.34||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ICS Use at 12 Month Follow Up||||0.34
82377235|NCT02374138|164461710|SUPERIORITY|||||||0.35||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||LTRA Use at 6 Months||||0.35
82377236|NCT02374138|164461710|SUPERIORITY|||||||0.62||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||LTRA use at 12 Month Follow Up||||0.62
82377237|NCT02374138|164461711|SUPERIORITY|||||||0.63||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||ED visits over 6 months||||0.63
82377238|NCT02374138|164461711|SUPERIORITY|||||||0.44||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||ED Visits between 6 and 12 Month follow up||||0.44
82490671|NCT03281577|164674824|SUPERIORITY||Least Squares Mean Differences|-10.27||||0.0789|TWO_SIDED|95.0|-21.507|0.96||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||0.960|-21.507|0.0789
82587868|NCT01067326|164888433|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||t-test, 2 sided|||Difference in systolic blood pressure from baseline to 4 months.||||.006
82587869|NCT01067326|164888434|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||t-test, 2 sided|||Difference in diastolic blood pressure from baseline to 4 months.||||0.04
82587870|NCT01067326|164888435|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||P-value for intergroup comparison of change from baseline to month 4||||0.94
82587871|NCT03170154|164888452|OTHER||1-sided 95% Upper CL|99.99|||||ONE_SIDED||||||||Historical comparison to EN ISO 11979-7:2014: SPE rate of at least 92.5 for the AAS at 12 months.|||||
82653139|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.201|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Mood: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.2010
82377239|NCT02374138|164461712|SUPERIORITY|||||||0.98||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||Courses of systemic steroids over 6 months||||0.98
82490672|NCT03281577|164674824|SUPERIORITY||Least Squares Mean Differences|-13.28||||0.027|TWO_SIDED|95.0|-25.242|-1.314||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||-1.314|-25.242|0.0270
82490673|NCT03281577|164674824|SUPERIORITY||Least Squares Mean Differences|-11.63||||0.075|TWO_SIDED|95.0|-24.206|0.952||Dunnett's test was used to compare each treatment arm to placebo. Multiplicity Adjusted p-value and 95% CI are presented.|ANCOVA||Linear mixed effects model used for analyses using gastroparesis type \[diabetic or idiopathic\], age, gender, BMI, baseline as a covariate.|||0.952|-24.206|0.0750
82490674|NCT02975336|164674841|SUPERIORITY||Odds Ratio (OR)|1.55||||0.5462|TWO_SIDED|95.0|0.91|2.64|||Regression, Logistic|||||2.64|0.91|0.5462
82587872|NCT03170154|164888453|OTHER||1-sided 95% Upper CL|99.98|||||ONE_SIDED|95.0|||||||Historical comparison to EN ISO 11979-7:2014: SPE rate of at least 96.7 for the BAS at 12 months.|||||
82587873|NCT02460666|164888464|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.3
82587874|NCT02460666|164888465|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|||||||0.2
82377240|NCT02374138|164461712|SUPERIORITY|||||||0.48||||||Adjusted for child age, gender, and baseline value|Generalized Linear Model Analysis|||Courses of systemic steroids between 6m and 12m FU||||0.48
82377241|NCT02374138|164461713|SUPERIORITY|||||||0.32||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month Follow Up||||0.32
82377242|NCT02374138|164461713|SUPERIORITY|||||||0.06||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 Month Follow Up||||0.06
82377243|NCT02374138|164461714|SUPERIORITY|||||||0.32||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month follow up||||0.32
82377244|NCT02374138|164461714|SUPERIORITY|||||||0.44||||||By repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 month follow up||||0.44
82377245|NCT02374138|164461715|SUPERIORITY|||||||0.7||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 6 Month Follow Up||||0.70
82377246|NCT02374138|164461715|SUPERIORITY|||||||0.8||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||At 12 Month Follow Up||||0.80
82377247|NCT02374138|164461716|SUPERIORITY|||||||0.53||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||6 Month Follow Up||||0.53
82377248|NCT02374138|164461716|SUPERIORITY|||||||0.77||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||12 Month Follow up||||0.77
82377249|NCT02374138|164461717|SUPERIORITY|||||||0.53||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Quality of Life at 6 Month Follow up||||0.53
82377250|NCT02374138|164461717|SUPERIORITY|||||||0.57||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Quality of Life at 12 Month Follow up||||0.57
82377251|NCT02374138|164461718|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82377252|NCT02374138|164461721|SUPERIORITY|||||||0.58||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on Brief COPE at 12 Months||||0.58
82587875|NCT02460666|164888466|SUPERIORITY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
82587876|NCT02460666|164888467|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82587877|NCT01323621|164888478|SUPERIORITY_OR_OTHER||Least squares mean difference|0.029||||0.267||95.0|-0.022|0.08|||ANCOVA||ANCOVA analysis was conducted with covariates for country, smoking status, reversibility, and Baseline FEV1.|||0.080|-0.022|0.267
82587878|NCT01163721|164888499|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.53|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|-0.93|-0.13||P-value is from an Analysis of Covariance (ANCOVA) model with treatment as factor and baseline HbA1c value as covariate. Due to the exploratory nature of this study, there were no adjustments for multiplicity.|ANCOVA|||Assuming a common standard deviation of 1.1%, 60 evaluable participants would provide 93% power to detect a statistically significant -1.0% difference in change from baseline HbA1c at Week 12 between ranolazine and placebo (2-sided alpha = 0.05). 80 participants were randomized to ensure at least 60 evaluable participants.||-0.13|-0.93|0.010
82587879|NCT01163721|164888500|SUPERIORITY_OR_OTHER||difference in LSM|-15.4|STANDARD_ERROR_OF_MEAN|12.83||0.234|TWO_SIDED|95.0|-41.0|10.2||P-value is from an ANCOVA model with treatment and baseline HbA1c stratification as factors and baseline value as covariate.|ANCOVA|||||10.2|-41.0|0.234
82653140|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0331|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||Walking ability: Placebo vs Pregabalin 150 mg BID||-0.0|-0.9|0.0331
82587880|NCT01163721|164888501|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-2.5|STANDARD_ERROR_OF_MEAN|9.38||0.794|TWO_SIDED|95.0|-21.1|16.2||P-value is from an ANCOVA model with treatment and baseline HbA1c stratification as factors and baseline value as covariate.|ANCOVA|||||16.2|-21.1|0.794
82587881|NCT01295281|164888520|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"Two catheters were tested regarding subjects' perception when using them, in a cross over design. After using each catheter for 1 week the subjects were asked: Do you experience discomfort when using your catheter?, and the subjects were supposed to answer Yes or No. The hypothesis to be investigated was that the tolerability/perception was about the same for each type of catheter, i.e. the POBE 2.0 should be non-inferior compared to PVC. H0: p(disc. POBE - Yes) = p(disc. PVC - Yes)"||||||0.0066|||||||McNemar|||The size of the target population was estimated by calculating 95% Confidence Interval (CI) of a possible difference between the two catheter types. The width of the interval was decided on the proportion of patients who would prefer one or the other catheter. Max width was seen when both proportions were 0.5. A total of 90 evaluable subjects limited the maximum width to 0.41, which was considered narrow enough from a scientific point of view, why this sample size was used in the study.||||0.0066
82587882|NCT00292461|164888533|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||||||0.240
82587883|NCT00292461|164888534|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Cochran-Mantel-Haenszel|||||||0.460
82587884|NCT00292461|164888535|SUPERIORITY_OR_OTHER|||||||0.079||95.0|||||Cochran-Mantel-Haenszel|||||||0.079
82587885|NCT00292461|164888536|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Cochran-Mantel-Haenszel|||||||0.860
82587886|NCT00954421|164888537|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.6|STANDARD_DEVIATION|19.4||0.026|TWO_SIDED|95.0|-30.61|-4.65|||two-sided sign-rank test||p-value assessed via sign-rank test (pre-planned method)|The null hypothesis is that the mean change in Tremor Rating Scale score from baseline to six months post-implant (with VIM and VO stimulators turned ON) will be zero||-4.65|-30.61|.026
82587887|NCT00954421|164888538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.4|STANDARD_DEVIATION|9.1||0.011|TWO_SIDED|95.0|2.2|14.5||Sign rank test was pre-planned for P-value|Sign-Rank test||p-value assessed using sign rank test|The null hypothesis is that difference in change in Tremor Rating Scale (TRS) score from baseline to 6 months when both stimulators are on (VIM and VO), versus when both stimulators are off, will be zero (i.e., that there will be no difference in effect between having both stimulators on versus both stimulators off)||14.5|2.2|0.011
82587888|NCT00954421|164888538|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.73|STANDARD_DEVIATION|8.49||0.68||95.0|-4.96|6.42|||two-sided sign rank test|two sided sign rank test as pre-planned||The null hypothesis is that difference in change in Tremor Rating Scale (TRS) score from baseline to 6 months when VO is on and VIM is off, versus when VIM is on and VO is off, will be zero (i.e., that there will be no difference in effect between having exclusively VIM versus VO on)||6.42|-4.96|.68
82587889|NCT02979925|164888544|SUPERIORITY|||||||0.246|||||||Mixed Models Analysis|||||||0.246
82587890|NCT02979925|164888545|SUPERIORITY|||||||0.651|||||||Mixed Models Analysis|||||||0.651
82653141|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.7478|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg QD||0.3|-0.5|0.7478
82653142|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.694|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Walking ability: Placebo vs DS-5565 15 mg BID||0.3|-0.5|0.6940
82653143|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.069|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|-0.0|0.0690
82653144|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0816|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Walking ability: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0816
82653145|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1174|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Normal work: Placebo vs Pregabalin 150 mg BID||0.1|-0.7|0.1174
82377253|NCT02374138|164461723|SUPERIORITY|||||||0.46||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on LOT-R at 6 Month Follow Up||||0.46
82490675|NCT02975336|164674841|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5462|TWO_SIDED|95.0|0.76|2.18|||Regression, Logistic|||||2.18|0.76|0.5462
82587891|NCT02979925|164888546|SUPERIORITY|||||||0.902|||||||Mixed Models Analysis|||||||0.902
82587892|NCT02708095|164888547|SUPERIORITY||Odds Ratio (OR)|1.28||||0.392|TWO_SIDED|95.0|0.73|2.27|||Regression, Logistic|||||2.27|0.73|0.392
82587893|NCT02708095|164888547|SUPERIORITY||Odds Ratio (OR)|1.84||||0.041|TWO_SIDED|95.0|1.02|3.29|||Regression, Logistic|||||3.29|1.02|0.041
82587894|NCT02708095|164888548|SUPERIORITY||Odds Ratio, log|1.25||||0.44|TWO_SIDED|95.0|0.71|2.19|||Regression, Logistic|||||2.19|0.71|0.440
82490676|NCT02975336|164674841|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5462|TWO_SIDED|95.0|0.67|1.93|||Regression, Logistic|||||1.93|0.67|0.5462
82587895|NCT02708095|164888548|SUPERIORITY||Odds Ratio (OR)|2.04||||0.015|TWO_SIDED|95.0|1.15|3.62|||Regression, Logistic|||||3.62|1.15|0.015
82587896|NCT02708095|164888549|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.26||||0.6|TWO_SIDED|95.0|-1.23|0.71|||Mixed Models Analysis|||||0.71|-1.23|0.600
82587897|NCT02708095|164888549|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.58||||0.243|TWO_SIDED|95.0|-1.55|0.39|||Mixed Models Analysis|||||0.39|-1.55|0.243
82587898|NCT02708095|164888550|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.16||||0.285|TWO_SIDED|95.0|-0.45|0.13|||Mixed Models Analysis|||||0.13|-0.45|0.285
82587899|NCT02708095|164888550|SUPERIORITY||LS Mean Difference (Final Vaules)|-0.33||||0.026|TWO_SIDED|95.0|-0.62|-0.04|||Mixed Models Analysis|||||-0.04|-0.62|0.026
82653146|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.925|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9250
82587900|NCT05640648|164888553|OTHER||Incidence rate ratio|1.84|||<|0.001|TWO_SIDED|95.0|1.62|2.09|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||2.09|1.62|<0.001
82587901|NCT05640648|164888554|OTHER||Incidence Rate Ratio|7.46||||0.002|TWO_SIDED|95.0|2.06|26.95|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||26.95|2.06|0.002
82587902|NCT05640648|164888555|OTHER||Incidence Rate Ratio|1.25||||0.5|TWO_SIDED|95.0|0.65|2.42|||Mixed Models Analysis|Mixed effects poisson model adjusting for time and group (paired healthcentres, based on randomization)||||2.42|0.65|0.50
82587903|NCT05640648|164888558|OTHER||Incidence Rate Ratio|4.75|||<|0.001|TWO_SIDED|95.0|2.07|10.91|||Mixed Models Analysis|Mixed-effects Poisson model adjusting for time and group level (paired health centres, based on randomization) cluster||||10.91|2.07|<0.001
82587904|NCT01389765|164888610|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|1.01|||||TWO_SIDED|90.0|0.97|1.05|||Mixed Models Analysis|Analyzed was a ratio of geometric LS means between the 2 treatment states (fed/fasted), and the 90% confidence interval for the ratio.||||1.05|0.97|
82587905|NCT01389765|164888611|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.96|||||TWO_SIDED|90.0|0.92|1.01|||Mixed Models Analysis|Analyzed was a ratio of geometric LS means between the 2 treatments states (fed/fasted), and the 90% confidence interval for the ratio.||||1.01|0.92|
82587906|NCT01389765|164888612|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0||||0.0031|TWO_SIDED|90.0|0.5|1.5|||Wilcoxon (Mann-Whitney)|Analyzed were the median of paired differences between the 2 treatment states (fed versus fasted) and the 90% confidence interval.||||1.50|0.50|0.0031
82587907|NCT01444651|164888624|SUPERIORITY_OR_OTHER||beta estimate|-1.25|STANDARD_ERROR_OF_MEAN|1.29||0.34|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in HOMA-IR (3 month minus baseline value), comparing tadalafil versus placebo groups after adjusting for baseline HOMA-IR.||||0.34
82587908|NCT01444651|164888625|SUPERIORITY_OR_OTHER||beta estimate|0.96|STANDARD_ERROR_OF_MEAN|0.68||0.18|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in Matsuda Index (3-month minus baseline), comparing tadalafil versus placebo groups after adjusting for baseline value.||||0.18
82587909|NCT01444651|164888626|SUPERIORITY_OR_OTHER||beta estimate|-0.18|STANDARD_ERROR_OF_MEAN|0.58||0.76|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the difference in EndoPAT (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline values.||||0.76
82587910|NCT01444651|164888627|SUPERIORITY_OR_OTHER||beta estimate|1.48|STANDARD_ERROR_OF_MEAN|0.77||0.06|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in insulinogenic index (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline value.||||0.06
82587911|NCT01444651|164888628|SUPERIORITY_OR_OTHER||beta estimate|3.76|STANDARD_ERROR_OF_MEAN|1.38||0.009|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in oral disposition index (3-month minus baseline), comparing tadalafil versus placebo groups after adjusting for baseline value.||||0.009
82587912|NCT01444651|164888629|SUPERIORITY_OR_OTHER||beta estimate|8.09|STANDARD_ERROR_OF_MEAN|4.05||0.05|TWO_SIDED||||||Regression, Linear|||Linear regression was used to model the change in Matsuda disposition index (3-month minus baseline), comparing tadalafil to placebo groups after adjusting for baseline value.||||0.05
82587913|NCT01672788|164888637|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|101.31|STANDARD_DEVIATION|10.7|||TWO_SIDED|90.0|96.89|105.93|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.93|96.89|
82587914|NCT01672788|164888637|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.3|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|97.4|103.29|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||103.29|97.40|
82490677|NCT02975336|164674842|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5462|TWO_SIDED|95.0|0.69|3.24|||Regression, Logistic|||||3.24|0.69|0.5462
82377254|NCT02374138|164461723|SUPERIORITY|||||||0.62||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||Score on LOT-R at 12 Month Follow Up||||0.62
82587915|NCT01672788|164888638|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose.|Geometric Mean Ratio|101.61|STANDARD_DEVIATION|8.8|||TWO_SIDED|90.0|97.94|105.41|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||105.41|97.94|
82587916|NCT01672788|164888638|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose.|Geometric Mean Ratio|98.56|STANDARD_DEVIATION|10.8|||TWO_SIDED|90.0|94.24|103.08|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||103.08|94.24|
82587917|NCT01672788|164888639|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|101.2|STANDARD_DEVIATION|10.4|||TWO_SIDED|90.0|96.89|105.71|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.71|96.89|
82587918|NCT01672788|164888639|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.31|STANDARD_DEVIATION|7.0|||TWO_SIDED|90.0|97.41|103.3|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||103.30|97.41|
82587919|NCT01672788|164888640|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose|Geometric Mean Ratio|102.7|STANDARD_DEVIATION|9.4|||TWO_SIDED|90.0|98.75|106.81|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||106.81|98.75|
82653147|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.8555|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Normal work: Placebo vs DS-5565 15 mg BID||0.4|-0.4|0.8555
82587920|NCT01672788|164888640|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose|Geometric Mean Ratio|100.97|STANDARD_DEVIATION|12.3|||TWO_SIDED|90.0|95.94|106.27|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||106.27|95.94|
82587921|NCT01672788|164888641|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose .|Geometric Mean Ratio|99.64|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|95.39|104.09|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||104.09|95.39|
82587922|NCT01672788|164888641|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose.|Geometric Mean Ratio|97.89|STANDARD_DEVIATION|10.2|||TWO_SIDED|90.0|93.82|102.15|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||102.15|93.82|
82490678|NCT02975336|164674842|SUPERIORITY||Odds Ratio (OR)|1.42||||0.5462|TWO_SIDED|95.0|0.68|2.97|||Regression, Logistic|||||2.97|0.68|0.5462
82587923|NCT01672788|164888642|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 12.5mg fixed-dose divided by empa 12.5mg free dose .|Geometric Mean Ratio|101.51|STANDARD_DEVIATION|8.6|||TWO_SIDED|90.0|97.95|105.21|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the geometric coefficient of variation (gCV)|||105.21|97.95|
82587924|NCT01672788|164888642|NON_INFERIORITY_OR_EQUIVALENCE|Considered characteristic is empa 5mg fixed-dose divided by empa 5mg free dose .|Geometric Mean Ratio|98.57|STANDARD_DEVIATION|10.1|||TWO_SIDED|90.0|94.5|102.81|||ANOVA|Based on an ANOVA including the random effect subjects within sequences and the fixed effects sequence, period and treatment.|Standard deviation is actually the gCV|||102.81|94.50|
82587925|NCT02464228|164888672|OTHER|||||||0|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||0.000
82587926|NCT02464228|164888672|OTHER|||||||1|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||1.000
82587927|NCT02464228|164888672|OTHER|||||||0.026|||||||Wilson approximation|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||0.026
82587928|NCT02464228|164888672|OTHER|||||||1|||||||Clopper-Pearson method|||Null hypothesis H0: PORR = 10% versus HA: PORR \> 10% will be tested at a = 0.05 significance level using a two-sided binomial test. The choice of test statistics was driven by the method used for interval estimation.||||1.000
82587929|NCT01117454|164888678|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank with continuity correction||||||0.008
82587930|NCT03952585|164888698|NON_INFERIORITY|Estimated 9-month PFS = 96.5% and lower acceptable threshold = 91.8%, resulting in a non-inferiority margin of 4.7%. H0: HR = 2.4; alternative hypothesis (HA): HR=1.0. One-sided type I error rate of 10% (20% after Bonferroni adjustment for each experimental arm comparison), 80% power, 24 months of accrual with 1 year of additional follow-up, and 1% increasing yearly rate of drop-out up to 3%, a log rank test requires 22 events from 266 patients per comparison resulting in 133 patients per arm.|Hazard Ratio (HR)|7.42|||||ONE_SIDED|90.0||19.46|||||Reference level = Arm 1|The null hypothesis (H0) for each comparison in phase II will be rejected if the 90% upper confidence of the hazard ratio (HR) (experimental arm / standard arm) is less than HR=2.4.||19.46||
82587931|NCT03952585|164888698|NON_INFERIORITY|Estimated 9-month PFS = 96.5% and lower acceptable threshold = 91.8%, resulting in a non-inferiority margin of 4.7%. H0: HR = 2.4; alternative hypothesis (HA): HR=1.0. One-sided type I error rate of 10% (20% after Bonferroni adjustment for each experimental arm comparison), 80% power, 24 months of accrual with 1 year of additional follow-up, and 1% increasing yearly rate of drop-out up to 3%, a log rank test requires 22 events from 266 patients per comparison resulting in 133 patients per arm.|Hazard Ratio (HR)|5.55|||||ONE_SIDED|90.0||14.85|||||Reference level = Arm 1|The null hypothesis (H0) for each comparison in phase II will be rejected if the 90% upper confidence of the hazard ratio (HR) (experimental arm / standard arm) is less than HR=2.4.||14.85||
82587932|NCT03952585|164888701|SUPERIORITY||Hazard Ratio (HR)|20.56|||||TWO_SIDED|95.0|1.05|403.31|||||Cause-specific; reference level = Arm 1|||403.31|1.05|
82653148|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.0956|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.1|0.0956
82653149|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1659|TWO_SIDED|95.0|-0.1|0.7|||ANCOVA|||Normal work: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.7|-0.1|0.1659
82377255|NCT02374138|164461725|SUPERIORITY|By repeated measures, p-value adjusted for age and gender||||||0.35|||||||Generalized Linear Model Analysis|||||||0.35
82377256|NCT02374138|164461726|SUPERIORITY|Daytime asthma symptoms in prior 14d at 6-month follow up||||||0.54|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.54
82490679|NCT02975336|164674842|SUPERIORITY||Odds Ratio (OR)|1.27||||0.5462|TWO_SIDED|95.0|0.59|2.75|||Regression, Logistic|||||2.75|0.59|0.5462
82490680|NCT02975336|164674870|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.7034|TWO_SIDED|95.0|0.57|2.4|||Cox proportional hazards model|||||2.40|0.57|0.7034
82587933|NCT03952585|164888701|SUPERIORITY||Hazard Ratio (HR)|12.87|||||TWO_SIDED|95.0|0.58|287.93|||||Reference level = Arm 1|||287.93|0.58|
82587934|NCT03952585|164888702|SUPERIORITY||Cox Proportional Hazard|1.78|||||TWO_SIDED|95.0|0.34|9.46|||||Cause-specific; reference level = Arm 1|||9.46|0.34|
82587935|NCT03952585|164888702|SUPERIORITY||Cox Proportional Hazard|1.43|||||TWO_SIDED|95.0|0.24|8.45|||||Cause-specific; reference level = Arm 1|||8.45|0.24|
82587936|NCT03952585|164888703|SUPERIORITY||Hazard Ratio (HR)|5.58|||||TWO_SIDED|95.0|0.67|46.41|||||Reference level = Arm 1|||46.41|0.67|
82587937|NCT03952585|164888703|SUPERIORITY||Hazard Ratio (HR)|4.87|||||TWO_SIDED|95.0|0.57|41.74|||||Reference level = Arm 1|||41.74|0.57|
82377257|NCT02374138|164461726|SUPERIORITY|Daytime Asthma Symptoms at 12 month follow up||||||0.11|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.11
82377258|NCT02374138|164461726|SUPERIORITY|Days of Activity Limitations at 6 month follow up||||||0.82|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.82
82377259|NCT02374138|164461726|SUPERIORITY|Days of Activity Limitations at 12 month follow up||||||0.84|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.84
82377260|NCT02374138|164461726|SUPERIORITY|Days of Quick Relief Medicine Use at 6 month follow up||||||0.7|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.70
82377261|NCT02374138|164461726|SUPERIORITY|Days of Quick Relief Medicine Use at 12 month follow up||||||0.58|||||||Generalized Linear Model Analysis|By repeated measures, p-value adjusted for age and gender||||||0.58
82377262|NCT02374138|164461727|OTHER|Univariate test||||||0.2|||||||Chi-squared|||Parent education||||0.20
82377263|NCT02374138|164461728|SUPERIORITY|||||||0.91||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ETS exposure at 6 Month Follow Up||||0.91
82377264|NCT02374138|164461728|SUPERIORITY|||||||0.98||||||Repeated measures, p-value adjusted for age and gender|Generalized Linear Model Analysis|||ETS Exposure at 12 Month Follow up||||0.98
82377265|NCT02374138|164461729|OTHER|Univariate test||||||0.94|||||||Chi-squared|||||||0.94
82377266|NCT02374138|164461730|SUPERIORITY|||||||0.02||||||p-value adjusted for age and gender|Generalized Linear Model Analysis|||Parent use of mental health resources at 6 Months||||0.02
82377267|NCT02374138|164461730|SUPERIORITY|||||||0.85||||||p-value adjusted for age and gender|Generalized Linear Model Analysis|||Parent use of mental health resources at 12 Months||||0.85
82377268|NCT02374138|164461731|OTHER|Univariate test||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
82377269|NCT02933255|164461749|OTHER||||||<|0.0001||||||The reported p-value is representative of changes in CD8+T cell infiltration within the total tissue at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||<0.0001
82377270|NCT02933255|164461749|OTHER|||||||0.04||||||The reported p-value is representative of changes in CD8+T cell infiltration in the center of the tumor at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.04
82377271|NCT02933255|164461749|OTHER|||||||0.002||||||The reported p-value is representative of changes in CD8+T cell infiltration in the invasive margin at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.002
82377272|NCT02933255|164461749|OTHER|||||||0.46||||||The reported p-value is representative of changes in CD8+T cell infiltration in the normal region at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.46
82377273|NCT02933255|164461749|OTHER||||||<|0.0001||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the total tissue at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||<0.0001
82377274|NCT02933255|164461749|OTHER|||||||0.016||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the center of the tumor at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.016
82377275|NCT02933255|164461749|OTHER|||||||0.002||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the invasive margin at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.002
82377276|NCT02933255|164461749|OTHER|||||||0.38||||||The reported p-value is representative of changes in CD4 T cell helper infiltration in the normal region at time of prostatectomy compared to baseline.|Wilcoxon Signed Rank Test|||||||0.38
82377277|NCT02933255|164461751|OTHER|The reported p-value is representative of changes in soluble factors at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.||||||0.064|||||||Wilcoxon Signed Rank Test|||||||0.064
82377278|NCT02933255|164461751|OTHER|The reported p-value is representative of changes in soluble factors at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.||||||0.001|||||||Wilcoxon Signed Rank Test|||||||0.001
82377279|NCT02933255|164461751|OTHER|||||||0.003||||||The reported p-value is representative of changes in soluble factors at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.003
82377280|NCT02933255|164461751|OTHER|||||||0.003||||||The reported p-value is representative of changes in soluble factors at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.003
82377281|NCT02933255|164461751|OTHER|||||||0.004||||||The reported p-value is representative of changes in soluble factors at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.004
82377282|NCT02933255|164461751|OTHER|||||||0.004||||||The reported p-value is representative of changes in soluble factors at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.004
82377283|NCT02933255|164461752|OTHER|||||||0.002||||||The reported p-value is representative of changes in TNFα at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.002
82377284|NCT02933255|164461752|OTHER|||||||0.042||||||The reported p-value is representative of changes in TNFα at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
82377285|NCT02933255|164461752|OTHER|||||||0.233||||||The reported p-value is representative of changes in TNFα at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.233
82377286|NCT02933255|164461752|OTHER|||||||0.052||||||The reported p-value is representative of changes in TNFα at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.052
82377287|NCT02933255|164461752|OTHER|||||||0.055||||||The reported p-value is representative of changes in TNFα at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.055
82377288|NCT02933255|164461752|OTHER|||||||0.203||||||The reported p-value is representative of changes in TNFα at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.203
82377289|NCT02933255|164461752|OTHER||||||<|0.001||||||The reported p-value is representative of changes in IL-10 at 4 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82377290|NCT02933255|164461752|OTHER|||||||0.034||||||The reported p-value is representative of changes in IL-10 at 4 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.034
82377291|NCT02933255|164461752|OTHER||||||<|0.001||||||The reported p-value is representative of changes in IL-10 at 10 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82377292|NCT02933255|164461752|OTHER|||||||0.034||||||The reported p-value is representative of changes in IL-10 at 10 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.034
82377293|NCT02933255|164461752|OTHER|||||||0.004||||||The reported p-value is representative of changes in IL-10 at 20 weeks of therapy compared to baseline in the lead-in metastatic castration-resistant prostate cancer (mCRPC) cohort.|Wilcoxon Signed Rank Test|||||||0.004
82377294|NCT02933255|164461752|OTHER|||||||0.129||||||The reported p-value is representative of changes in IL-10 at 20 weeks of therapy compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.129
82587938|NCT00784693|164888725|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.41|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|90.0|-0.87|1.69||||||Week 8: Analysis was based on analysis of co-variance (ANCOVA) model with main effects of treatment, contraceptive use and baseline severity of pain.||1.69|-0.87|
82587939|NCT02430051|164888761|SUPERIORITY|||||||0.01|||||||Mixed-effects regression model|Adjusted for attained age and first or second clinic visit.||||||0.01
82587940|NCT02430051|164888762|SUPERIORITY|||||||0.25|||||||Mixed-effects regression model|Adjustment for attained age and first and second clinic visit.||||||0.25
82653150|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0468|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs Pregabalin 150 mg BID||-0.0|-0.8|0.0468
82377295|NCT02933255|164461754|OTHER|||||||0.339||||||The reported p-value is representative of changes in CD4+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
82377296|NCT02933255|164461754|OTHER|||||||0.037||||||The reported p-value is representative of changes in CD4+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.037
82377297|NCT02933255|164461754|OTHER|||||||0.009||||||The reported p-value is representative of changes in CD4+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.009
82377298|NCT02933255|164461754|OTHER|||||||0.844||||||The reported p-value is representative of changes in CD4+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.844
82377299|NCT02933255|164461754|OTHER|||||||0.204||||||The reported p-value is representative of changes in CD8+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.204
82377300|NCT02933255|164461754|OTHER|||||||0.084||||||The reported p-value is representative of changes in CD8+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
82490681|NCT02975336|164674870|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.5462|TWO_SIDED|95.0|0.31|1.52|||Cox proportional hazards model|||||1.52|0.31|0.5462
82490682|NCT02975336|164674870|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.5462|TWO_SIDED|95.0|0.42|1.97|||Cox proportional hazards model|||||1.97|0.42|0.5462
82490683|NCT02975336|164674871|SUPERIORITY||Odds Ratio (OR)|1.52||||0.5462|TWO_SIDED|95.0|0.74|3.15|||Regression, Logistic|||||3.15|0.74|0.5462
82490684|NCT02975336|164674871|SUPERIORITY||Odds Ratio (OR)|1.03||||0.5462|TWO_SIDED|95.0|0.49|2.13|||Regression, Logistic|||||2.13|0.49|0.5462
82490685|NCT02975336|164674871|SUPERIORITY||Odds Ratio (OR)|1.35||||0.5462|TWO_SIDED|95.0|0.65|2.81|||Regression, Logistic|||||2.81|0.65|0.5462
82490686|NCT02975336|164674872|SUPERIORITY||Odds Ratio (OR)|1.6||||0.2434|TWO_SIDED|95.0|0.73|3.54|||Regression, Logistic|||||3.54|0.73|0.2434
82490687|NCT02975336|164674872|SUPERIORITY||Odds Ratio (OR)|1.62||||0.2389|TWO_SIDED|95.0|0.73|3.63|||Regression, Logistic|||||3.63|0.73|0.2389
82490688|NCT02975336|164674872|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1952|TWO_SIDED|95.0|0.76|3.85|||Regression, Logistic|||||3.85|0.76|0.1952
82377301|NCT02933255|164461754|OTHER|||||||0.042||||||The reported p-value is representative of changes in CD8+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.042
82377302|NCT02933255|164461754|OTHER|||||||0.688||||||The reported p-value is representative of changes in CD8+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.688
82490689|NCT02975336|164674873|SUPERIORITY||Hazard Ratio (HR)|1.59||||0.0987|TWO_SIDED|95.0|0.87|2.89|||Cox proportional hazards model|||||2.89|0.87|0.0987
82490690|NCT02975336|164674873|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.9201|TWO_SIDED|95.0|0.51|1.85|||Cox proportional hazards model|||||1.85|0.51|0.9201
82490691|NCT02975336|164674873|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.5645|TWO_SIDED|95.0|0.6|2.2|||Cox proportional hazards model|||||2.20|0.60|0.5645
82490692|NCT02975336|164674874|SUPERIORITY||Odds Ratio (OR)|0.77||||0.3743|TWO_SIDED|95.0|0.44|1.37|||Regression, Logistic|||||1.37|0.44|0.3743
82490693|NCT02975336|164674874|SUPERIORITY||Odds Ratio (OR)|0.88||||0.6445|TWO_SIDED|95.0|0.5|1.54|||Regression, Logistic|||||1.54|0.50|0.6445
82490694|NCT02975336|164674874|SUPERIORITY||Odds Ratio (OR)|0.72||||0.2634|TWO_SIDED|95.0|0.41|1.28|||Regression, Logistic|||||1.28|0.41|0.2634
82490695|NCT02975336|164674875|SUPERIORITY||Rate Ratio|1.59||||0.2989|TWO_SIDED|95.0|0.66|3.81||Nominal p-value|Negative binomial regression|||||3.81|0.66|0.2989
82587941|NCT02430051|164888763|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82587942|NCT02430051|164888764|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82587943|NCT02430051|164888765|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82587944|NCT02430051|164888766|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82587945|NCT02430051|164888767|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82587946|NCT02430051|164888768|SUPERIORITY|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82587947|NCT02430051|164888769|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82490696|NCT02975336|164674875|SUPERIORITY||Rate Ratio|0.85||||0.7325|TWO_SIDED|95.0|0.33|2.19||Nominal p-value|Negative binomial regression|||||2.19|0.33|0.7325
82490697|NCT02975336|164674875|SUPERIORITY||Rate Ratio|1.29||||0.591|TWO_SIDED|95.0|0.51|3.22||Nominal p-value|Negative binomial regression|||||3.22|0.51|0.5910
82490698|NCT02975336|164674876|SUPERIORITY||Odds Ratio (OR)|1.33||||0.3635|TWO_SIDED|95.0|0.72|2.47|||Regression, Logistic|||||2.47|0.72|0.3635
82490699|NCT02975336|164674876|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0329|TWO_SIDED|95.0|1.06|3.56|||Regression, Logistic|||||3.56|1.06|0.0329
82490700|NCT02975336|164674876|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7619|TWO_SIDED|95.0|0.59|2.07|||Regression, Logistic|||||2.07|0.59|0.7619
82490701|NCT02975336|164674877|SUPERIORITY||Odds Ratio (OR)|1.36||||0.2642|TWO_SIDED|95.0|0.79|2.35|||Regression, Logistic|||||2.35|0.79|0.2642
82490702|NCT02975336|164674877|SUPERIORITY||Odds Ratio (OR)|1.49||||0.1489|TWO_SIDED|95.0|0.87|2.57|||Regression, Logistic|||||2.57|0.87|0.1489
82490703|NCT02975336|164674877|SUPERIORITY||Odds Ratio (OR)|0.97||||0.9285|TWO_SIDED|95.0|0.56|1.7|||Regression, Logistic|||||1.70|0.56|0.9285
82490704|NCT02975336|164674880|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9061|TWO_SIDED|95.0|0.49|1.88|||Regression, Logistic|||||1.88|0.49|0.9061
82490705|NCT02975336|164674880|SUPERIORITY||Odds Ratio (OR)|1.19||||0.6053|TWO_SIDED|95.0|0.61|2.31|||Regression, Logistic|||||2.31|0.61|0.6053
82490706|NCT02975336|164674880|SUPERIORITY||Odds Ratio (OR)|0.8||||0.52|TWO_SIDED|95.0|0.4|1.59|||Regression, Logistic|||||1.59|0.40|0.5200
82490707|NCT02975336|164674889|SUPERIORITY||Rate difference|5.9|||||TWO_SIDED|95.0|-9.7|21.2||||||||21.2|-9.7|
82490708|NCT02975336|164674889|SUPERIORITY||Rate Difference|0.6|||||TWO_SIDED|95.0|-14.5|15.6||||||||15.6|-14.5|
82490709|NCT02975336|164674889|SUPERIORITY||Rate difference|1.6|||||TWO_SIDED|95.0|-13.5|16.6||||||||16.6|-13.5|
82490710|NCT02975336|164674893|SUPERIORITY||Odds Ratio (OR)|1.14||||0.7728|TWO_SIDED|95.0|0.46|2.82|||Regression, Logistic|||||2.82|0.46|0.7728
82490711|NCT02975336|164674893|SUPERIORITY||Odds Ratio (OR)|0.66||||0.3314|TWO_SIDED|95.0|0.28|1.54|||Regression, Logistic|||||1.54|0.28|0.3314
82490712|NCT02975336|164674893|SUPERIORITY||Odds Ratio (OR)|0.85||||0.7205|TWO_SIDED|95.0|0.36|2.04|||Regression, Logistic|||||2.04|0.36|0.7205
82490713|NCT02975336|164674894|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8364|TWO_SIDED|95.0|0.35|3.71|||Regression, Logistic|||||3.71|0.35|0.8364
82377303|NCT02933255|164461754|OTHER||||||<|0.001||||||The reported p-value is representative of changes in Treg cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82377304|NCT02933255|164461754|OTHER|||||||0.733||||||The reported p-value is representative of changes in Treg cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.733
82377305|NCT02933255|164461754|OTHER|||||||0.519||||||The reported p-value is representative of changes in Treg cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.519
82377306|NCT02933255|164461754|OTHER|||||||0.695||||||The reported p-value is representative of changes in Treg cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.695
82377307|NCT02933255|164461754|OTHER|||||||0.034||||||The reported p-value is representative of changes in cDC cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.034
82377308|NCT02933255|164461754|OTHER|||||||0.301||||||The reported p-value is representative of changes in cDC cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.301
82377309|NCT02933255|164461754|OTHER|||||||0.38||||||The reported p-value is representative of changes in cDC cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.38
82377310|NCT02933255|164461754|OTHER|||||||0.014||||||The reported p-value is representative of changes in cDC cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.014
82377311|NCT02933255|164461754|OTHER|||||||0.791||||||The reported p-value is representative of changes in monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.791
82377312|NCT02933255|164461754|OTHER|||||||0.042||||||The reported p-value is representative of changes in monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
82377313|NCT02933255|164461754|OTHER|||||||0.424||||||The reported p-value is representative of changes in monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
82377314|NCT02933255|164461754|OTHER|||||||0.77||||||The reported p-value is representative of changes in monocytes at week 10 post treatment compared to baseline in the lead-in neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.77
82377315|NCT02933255|164461754|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
82490714|NCT02975336|164674894|SUPERIORITY||Odds Ratio (OR)|1.13||||0.8287|TWO_SIDED|95.0|0.37|3.45|||Regression, Logistic|||||3.45|0.37|0.8287
82490715|NCT02975336|164674894|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7621|TWO_SIDED|95.0|0.35|4.16|||Regression, Logistic|||||4.16|0.35|0.7621
82490716|NCT02975336|164674895|SUPERIORITY||Odds Ratio (OR)|0.88||||0.8464|TWO_SIDED|95.0|0.23|3.31|||Regression, Logistic|||||3.31|0.23|0.8464
82490717|NCT02975336|164674895|SUPERIORITY||Odds Ratio (OR)|0.59||||0.417|TWO_SIDED|95.0|0.16|2.12|||Regression, Logistic|||||2.12|0.16|0.4170
82490718|NCT02975336|164674895|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9988|TWO_SIDED|95.0|0.27|3.74|||Regression, Logistic|||||3.74|0.27|0.9988
82490719|NCT02975336|164674896|SUPERIORITY||Odds Ratio (OR)|1.13||||0.697|TWO_SIDED|95.0|0.62|2.04|||Regression, Logistic|||||2.04|0.62|0.6970
82490720|NCT02975336|164674896|SUPERIORITY||Odds Ratio (OR)|1.34||||0.3234|TWO_SIDED|95.0|0.75|2.42|||Regression, Logistic|||||2.42|0.75|0.3234
82490721|NCT02975336|164674896|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9846|TWO_SIDED|95.0|0.54|1.82|||Regression, Logistic|||||1.82|0.54|0.9846
82587948|NCT02430051|164888770|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82587949|NCT02430051|164888771|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
82587950|NCT02430051|164888772|SUPERIORITY||||||<|0.0001|||||||Multivariate linear regression|Adjusted for autism severity, IQ, dental fear and anxiety, sensory over-responsivity, general anxiety, expressive communication, gender, and age.||||||<0.0001
82587951|NCT02430051|164888773|SUPERIORITY|||||||0.61|||||||General linear mixed model|||||||0.61
82587952|NCT04526197|164888793|OTHER|Confidence Interval|Ratio of geometric LS means|0.881|||||TWO_SIDED|90.0|0.776|1.001||||||||1.001|0.776|
82587953|NCT04526197|164888794|OTHER|Confidence Interval|Ratio of geometric LS means|1.016|||||TWO_SIDED|90.0|0.959|1.077||||||||1.077|0.959|
82587954|NCT04526197|164888795|OTHER|Confidence Interval|Ratio of geometric LS means|1.01|||||TWO_SIDED|90.0|0.954|1.07||||||||1.070|0.954|
82587955|NCT00372385|164888803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.758||||0.0026|TWO_SIDED|95.0|1.424|5.34|||Regression, Logistic|||||5.340|1.424|0.0026
82587956|NCT00372385|164888803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.709||||0.959|TWO_SIDED|95.0|0.91|3.212|||Regression, Logistic|||||3.212|0.910|0.959
82653151|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1083|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg QD||0.1|-0.7|0.1083
82653152|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0505|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|||Relations with other people: Placebo vs DS-5565 15 mg BID||0.0|-0.8|0.0505
82587957|NCT00372385|164888803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.589||||0.1089|TWO_SIDED|95.0|0.309|1.125|||Regression, Logistic|||||1.125|0.309|0.1089
82587958|NCT00372385|164888804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.632||||0.0041|TWO_SIDED|95.0|1.359|5.097|||Regression, Logistic|||||5.097|1.359|0.0041
82587959|NCT00372385|164888804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.623||||0.1324|TWO_SIDED|95.0|0.864|3.05|||Regression, Logistic|||||3.050|0.864|0.1324
82653153|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.21||0.6993|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.3|0.6993
82653154|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.21||0.9781|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Relations with other people: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.4|-0.4|0.9781
82653155|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.23||0.0154|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||Sleep: Placebo vs Pregabalin 150 mg BID||-0.1|-1.0|0.0154
82653156|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.23||0.0731|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg QD||0.0|-0.9|0.0731
82653157|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.23||0.0259|TWO_SIDED|95.0|-1.0|-0.1|||ANCOVA|||Sleep: Placebo vs DS-5565 15 mg BID||-0.1|-1.0|0.0259
82653158|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.5243|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.3|0.5243
82587960|NCT00372385|164888804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.591||||0.1099|TWO_SIDED|95.0|0.311|1.126|||Regression, Logistic|||||1.126|0.311|0.1099
82587961|NCT02340091|164888854|SUPERIORITY||Subjects % with difference in VAS ≥ 10mm|0.9194|||||TWO_SIDED|95.0|0.8|0.97||||||||0.97|0.80|
82587962|NCT01786239|164888856|SUPERIORITY_OR_OTHER|||||||0.0493|||||||Mixed Models Analysis|||||||0.0493
82587963|NCT02511678|164888858|SUPERIORITY|||||||0.0746||||||The 1-sided p-value was based on a t-test against a performance goal of -2.|t-test, 1 sided|||||||0.0746
82587964|NCT05629962|164888894|SUPERIORITY|||||||0.954|||||||Cochran-Mantel-Haenszel|||||||0.954
82587965|NCT04908189|164888902|SUPERIORITY||Adjusted Mean Difference|-0.4743|STANDARD_ERROR_OF_MEAN|0.08735|<|0.0001|TWO_SIDED|95.0|-0.6455|-0.3031|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||-0.3031|-0.6455|<0.0001
82587966|NCT04908189|164888903|SUPERIORITY||Adjusted mean difference|-0.1126|STANDARD_ERROR_OF_MEAN|0.03511||0.0013|TWO_SIDED|95.0|-0.1814|-0.0438|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||-0.0438|-0.1814|0.0013
82587967|NCT04908189|164888905|SUPERIORITY||Adjusted mean difference|2.042|STANDARD_ERROR_OF_MEAN|0.5421||0.0002|TWO_SIDED|95.0|0.98|3.105|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||3.105|0.980|0.0002
82587968|NCT04908189|164888908|SUPERIORITY||Adjusted mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.61||0.2017|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|||2.0|-0.4|0.2017
82587969|NCT04908189|164888912|SUPERIORITY||Adjusted mean difference|0.0643|STANDARD_ERROR_OF_MEAN|0.02831||0.0231|TWO_SIDED|95.0|0.0088|0.1198|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.1198|0.0088|0.0231
82587970|NCT04908189|164888912|SUPERIORITY||Adjusted mean difference|0.0085|STANDARD_ERROR_OF_MEAN|0.03126||0.7865|TWO_SIDED|95.0|-0.0528|0.0697|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0697|-0.0528|0.7865
82587971|NCT04908189|164888912|SUPERIORITY||Adjusted mean difference|-0.0515|STANDARD_ERROR_OF_MEAN|0.03386||0.128|TWO_SIDED|95.0|-0.1179|0.0148|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||0.0148|-0.1179|0.1280
82587972|NCT04908189|164888912|SUPERIORITY||Adjusted mean differnce|-0.0541|STANDARD_ERROR_OF_MEAN|0.0346||0.118|TWO_SIDED|95.0|-0.1219|0.0137|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||0.0137|-0.1219|0.1180
82653159|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.8488|TWO_SIDED|95.0|-0.4|0.5|||ANCOVA|||Sleep: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.4|0.8488
82653160|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.2746|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|||Enjoyment of life: Placebo vs Pregabalin 150 mg BID||0.2|-0.7|0.2746
82653161|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.9349|TWO_SIDED|95.0|-0.4|0.4|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg QD||0.4|-0.4|0.9349
82377316|NCT02933255|164461754|OTHER|||||||0.105||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.105
82377317|NCT02933255|164461754|OTHER|||||||0.622||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.622
82377318|NCT02933255|164461754|OTHER|||||||0.313||||||The reported p-value is representative of changes in CD4+ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.313
82377319|NCT02933255|164461754|OTHER||||||<|0.001||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82377320|NCT02933255|164461754|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
82587973|NCT04908189|164888912|SUPERIORITY||Adjusted mean difference|-0.1126|STANDARD_ERROR_OF_MEAN|0.03511||0.0013|TWO_SIDED|95.0|-0.1814|-0.0438|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.0438|-0.1814|0.0013
82587974|NCT04908189|164888917|SUPERIORITY||Adjusted mean difference|0.692|STANDARD_ERROR_OF_MEAN|0.4384||0.1147|TWO_SIDED|95.0|-0.168|1.551|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||1.551|-0.168|0.1147
82587975|NCT04908189|164888917|SUPERIORITY||Adjusted mean difference|1.999|STANDARD_ERROR_OF_MEAN|0.5147||0.0001|TWO_SIDED|95.0|0.991|3.008|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||3.008|0.991|0.0001
82587976|NCT04908189|164888917|SUPERIORITY||Adjusted mean difference|2.042|STANDARD_ERROR_OF_MEAN|0.5421||0.0002|TWO_SIDED|95.0|0.98|3.105|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||3.105|0.980|0.0002
82587977|NCT04908189|164888921|SUPERIORITY||Adjusted mean difference|-0.284|STANDARD_ERROR_OF_MEAN|0.567||0.6159|TWO_SIDED|95.0|-1.396|0.827|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.827|-1.396|0.6159
82587978|NCT04908189|164888921|SUPERIORITY||Adjusted mean difference|0.829|STANDARD_ERROR_OF_MEAN|0.625||0.1847|TWO_SIDED|95.0|-0.396|2.054|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||2.054|-0.396|0.1847
82587979|NCT04908189|164888921|SUPERIORITY||Adjusted mean difference|1.145|STANDARD_ERROR_OF_MEAN|0.673||0.0888|TWO_SIDED|95.0|-0.174|2.464|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||2.464|-0.174|0.0888
82587980|NCT04908189|164888922|SUPERIORITY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.1924|TWO_SIDED|95.0|-1.6|0.3|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.3|-1.6|0.1924
82587981|NCT04908189|164888922|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.7601|TWO_SIDED|95.0|-1.2|0.8|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.8|-1.20|0.7601
82653162|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.22||0.5164|TWO_SIDED|95.0|-0.3|0.6|||ANCOVA|||Enjoyment of life: Placebo vs DS-5565 15 mg BID||0.6|-0.3|0.5164
82653163|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.2382|TWO_SIDED|95.0|-0.2|0.7|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.2|0.2382
82653164|NCT02146430|165021507|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0807|TWO_SIDED|95.0|0.0|0.8|||ANCOVA|||Enjoyment of life: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.8|-0.0|0.0807
82377321|NCT02933255|164461754|OTHER|||||||0.47||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.47
82377322|NCT02933255|164461754|OTHER|||||||0.313||||||The reported p-value is representative of changes in CD4+ EM ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.313
82377323|NCT02933255|164461754|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
82377324|NCT02933255|164461754|OTHER|||||||0.092||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.092
82587982|NCT04908189|164888922|SUPERIORITY||Adjusted mean difference|1.3|STANDARD_ERROR_OF_MEAN|0.59||0.0303|TWO_SIDED|95.0|0.1|2.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||2.4|0.1|0.0303
82587983|NCT04908189|164888922|SUPERIORITY||Adjusted mean difference|0.5|STANDARD_ERROR_OF_MEAN|0.63||0.4747|TWO_SIDED|95.0|-0.8|1.7|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||1.7|-0.8|0.4747
82587984|NCT04908189|164888922|SUPERIORITY||Adjusted mean difference|0.8|STANDARD_ERROR_OF_MEAN|0.61||0.2017|TWO_SIDED|95.0|-0.4|2.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||2.0|-0.4|0.2017
82587985|NCT04908189|164888924|SUPERIORITY||Adjusted mean difference|-0.077|STANDARD_ERROR_OF_MEAN|0.1015||0.4459|TWO_SIDED|95.0|-0.276|0.122|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.122|-0.276|0.4459
82653165|NCT02146430|165021508|SUPERIORITY||Difference in least squares means|-0.045|STANDARD_ERROR_OF_MEAN|0.0237||0.0601|TWO_SIDED|95.0|-0.091|0.002|||ANCOVA|||||0.002|-0.091|0.0601
82377325|NCT02933255|164461754|OTHER|||||||0.176||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.176
82377326|NCT02933255|164461754|OTHER|||||||0.232||||||The reported p-value is representative of changes in CD4+ ICOS+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.232
82377327|NCT02933255|164461754|OTHER||||||<|0.001||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82587986|NCT04908189|164888924|SUPERIORITY||Adjusted mean difference|-0.232|STANDARD_ERROR_OF_MEAN|0.1164||0.0461|TWO_SIDED|95.0|-0.46|-0.004|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||-0.004|-0.460|0.0461
82587987|NCT04908189|164888924|SUPERIORITY||Adjusted mean difference|-0.598|STANDARD_ERROR_OF_MEAN|0.1321|<|0.0001|TWO_SIDED|95.0|-0.857|-0.339|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.339|-0.857|<0.0001
82587988|NCT04908189|164888924|SUPERIORITY||Adjusted mean difference|-0.605|STANDARD_ERROR_OF_MEAN|0.1416|<|0.0001|TWO_SIDED|95.0|-0.882|-0.327|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.327|-0.882|<0.0001
82587989|NCT04908189|164888924|SUPERIORITY||Adjusted mean difference|-0.786|STANDARD_ERROR_OF_MEAN|0.1455|<|0.0001|TWO_SIDED|95.0|-1.071|-0.501|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.501|-1.071|<0.0001
82587990|NCT04908189|164888925|SUPERIORITY||Adjusted mean difference|0.3525|STANDARD_ERROR_OF_MEAN|0.9227||0.7025|TWO_SIDED|95.0|-1.456|2.1609|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||2.1609|-1.4560|0.7025
82587991|NCT04908189|164888925|SUPERIORITY||Adjusted mean difference|-1.373|STANDARD_ERROR_OF_MEAN|0.93331||0.1413|TWO_SIDED|95.0|-3.2023|0.4562|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.4562|-3.2023|0.1413
82587992|NCT04908189|164888925|SUPERIORITY||Adjused mean difference|-3.7522|STANDARD_ERROR_OF_MEAN|1.10374||0.0007|TWO_SIDED|95.0|-5.9155|-1.589|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-1.5890|-5.9155|0.0007
82587993|NCT04908189|164888925|SUPERIORITY||Adjusted mean difference|-4.8072|STANDARD_ERROR_OF_MEAN|1.13857|<|0.0001|TWO_SIDED|95.0|-7.0388|-2.5757|||ANOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-2.5757|-7.0388|<0.0001
82653166|NCT02146430|165021508|SUPERIORITY||Difference in least squares means|-0.005|STANDARD_ERROR_OF_MEAN|0.0237||0.8299|TWO_SIDED|95.0|-0.052|0.041|||ANCOVA|||||0.041|-0.052|0.8299
82653167|NCT02146430|165021508|SUPERIORITY||Difference in least squares means|-0.05|STANDARD_ERROR_OF_MEAN|0.0237||0.0347|TWO_SIDED|95.0|-0.096|0.004|||ANCOVA|||||0.004|-0.096|0.0347
82377328|NCT02933255|164461754|OTHER|||||||0.131||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.131
82377329|NCT02933255|164461754|OTHER|||||||0.424||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
82377330|NCT02933255|164461754|OTHER|||||||0.438||||||The reported p-value is representative of changes in CD8+ ki67+ T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.438
82377331|NCT02933255|164461754|OTHER||||||<|0.001||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||<0.001
82377332|NCT02933255|164461754|OTHER|||||||0.151||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.151
82377333|NCT02933255|164461754|OTHER|||||||0.569||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.569
82377334|NCT02933255|164461754|OTHER|||||||0.105||||||The reported p-value is representative of changes in Treg ICOS+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.105
82377335|NCT02933255|164461754|OTHER|||||||0.012||||||The reported p-value is representative of changes in NK ki67+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.012
82587994|NCT04908189|164888925|SUPERIORITY||Adjusted mean difference|-6.2006|STANDARD_ERROR_OF_MEAN|1.2284|<|0.0001|TWO_SIDED|95.0|-8.6082|-3.793|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-3.7930|-8.6082|<0.0001
82587995|NCT04908189|164888929|SUPERIORITY||Adjusted mean difference|0.0318|STANDARD_ERROR_OF_MEAN|0.05613||0.5707|TWO_SIDED|95.0|-0.0782|0.1419|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 2||0.1419|-0.0782|0.5707
82587996|NCT04908189|164888929|SUPERIORITY||Adjusted mean difference|-0.0833|STANDARD_ERROR_OF_MEAN|0.06303||0.1862|TWO_SIDED|95.0|-0.2069|0.0402|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0402|-0.2069|0.1862
82653168|NCT02146430|165021508|SUPERIORITY||Difference in least squares means|0.04|STANDARD_ERROR_OF_MEAN|0.0237||0.0951|TWO_SIDED|95.0|-0.007|0.086|||ANCOVA|||||0.086|-0.007|0.0951
82653169|NCT02146430|165021508|SUPERIORITY||Difference in least squares means|-0.005|STANDARD_ERROR_OF_MEAN|0.0237||0.8199|TWO_SIDED|95.0|-0.052|0.041|||ANCOVA|||||0.041|-0.052|0.8199
82490722|NCT04289623|164674957|SUPERIORITY||Odds Ratio (OR)|1.19||||0.007|TWO_SIDED|95.0|1.05|1.35||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the standard email as the reference group.||1.35|1.05|.007
82500448|NCT02282020|164691695|SUPERIORITY||Odds Ratio (OR)|2.24||||0.092|TWO_SIDED|95.0|0.88|6.86||Estimated from an unadjusted logistic regression model|Regression, Logistic||An odds ratio \> 1 favours the olaparib arm|||6.86|0.88|0.092
82500449|NCT02282020|164691696|SUPERIORITY||Odds Ratio (OR)|2.4||||0.004|TWO_SIDED|95.0|1.32|4.39||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Regression, Logistic||An odds ratio \> 1 favours the olaparib arm|||4.39|1.32|0.004
82500450|NCT02282020|164691697|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.014|TWO_SIDED|95.0|0.42|0.91||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.91|0.42|0.014
82377336|NCT02933255|164461754|OTHER|||||||0.677||||||The reported p-value is representative of changes in NK ki67+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.677
82377337|NCT02933255|164461754|OTHER|||||||0.424||||||The reported p-value is representative of changes in NK ki67+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
82653170|NCT02261428|165021522|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.95|||<|0.05|TWO_SIDED|95.0|1.79|8.73|||Wilcoxon (Mann-Whitney)|||||8.73|1.79|<0.05
82377338|NCT02933255|164461754|OTHER|||||||0.432||||||The reported p-value is representative of changes in NK ki67+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.432
82377339|NCT02933255|164461754|OTHER|||||||0.016||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.016
82377340|NCT02933255|164461754|OTHER|||||||0.733||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.733
82377341|NCT02933255|164461754|OTHER|||||||0.519||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.519
82377342|NCT02933255|164461754|OTHER|||||||0.557||||||The reported p-value is representative of changes in NK NKG2D+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.557
82377343|NCT02933255|164461754|OTHER|||||||0.034||||||The reported p-value is representative of changes in NK NKp46+ cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.034
82377344|NCT02933255|164461754|OTHER|||||||0.092||||||The reported p-value is representative of changes in NK NKp46+ cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.092
82377345|NCT02933255|164461754|OTHER|||||||0.733||||||The reported p-value is representative of changes in NK NKp46+ cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.733
82377346|NCT02933255|164461754|OTHER|||||||0.922||||||The reported p-value is representative of changes in NK NKp46+ cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.922
82500451|NCT02282020|164691698|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.213|TWO_SIDED|95.0|0.56|1.14||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.14|0.56|0.213
82653171|NCT01884025|165021561|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 2 sided|t-Value: 0.55||Change in total BADS score.||||0.59
82500452|NCT02282020|164691699|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.699|TWO_SIDED|95.0|0.76|1.51||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.51|0.76|0.699
82500453|NCT02282020|164691700|SUPERIORITY||Hazard Ratio (HR)|0.18|||<|0.001|TWO_SIDED|95.0|0.12|0.27||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.27|0.12|<0.001
82500454|NCT02282020|164691701|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.33|0.66||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.66|0.33|<0.001
82500455|NCT02282020|164691702|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.055|TWO_SIDED|95.0|0.51|1.01||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.01|0.51|0.055
82500456|NCT01500629|164691705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.156|TWO_SIDED|95.0|-1.9|0.33|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.33|-1.90|0.156
82500457|NCT01500629|164691706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.625|TWO_SIDED|95.0|-1.49|0.92|||Mixed Models Analysis|Treatment, period and sequence as fixed effects and subject as a random effect.||The following comparison was made: Allergen Block (C-1266-7) vs placebo. For this comparison, the following hypothesis was tested: Ho: µ1= µ2 against the two-sided alternative H1: µ1≠ µ2 where µ1 and µ2 are the mean values of the parameter variable for the two treatment groups.||0.92|-1.49|0.625
82653172|NCT01884025|165021561|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|t Value: 0.03||Change in Activation Subscale||||0.98
82653173|NCT01884025|165021561|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|"DF: 18~1 Value: -0.04"||Change in Avoidance/Rumination Subscale||||0.96
82653174|NCT01884025|165021561|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|t Value: 1.31||Change in Work/School Impairment Subscale||||0.21
82653175|NCT01884025|165021561|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|t Value: 0.99||Change in Social Impairment Subscale||||0.34
82653176|NCT01884025|165021562|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|t Value: 0.33||||||0.75
82653177|NCT01884025|165021563|SUPERIORITY_OR_OTHER|||||||0.72|||||||t-test, 2 sided|t Value: -0.36||Change in overall physical activity frequency were compared between the two groups.||||0.72
82653178|NCT01884025|165021563|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|t Value: -0.39||Change in moderate physical activity frequency between the two groups.||||0.70
82587997|NCT04908189|164888929|SUPERIORITY||Adjusted mean difference|-0.2958|STANDARD_ERROR_OF_MEAN|0.07854||0.0002|TWO_SIDED|95.0|-0.4497|-0.1418|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.1418|-0.4497|0.0002
82587998|NCT04908189|164888929|SUPERIORITY||Adjusted mean difference|-0.3262|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.4889|-0.1635|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.1635|-0.4889|<0.0001
82587999|NCT04908189|164888929|SUPERIORITY||Adjusted mean difference|-0.4743|STANDARD_ERROR_OF_MEAN|0.08735|<|0.0001|TWO_SIDED|95.0|-0.6455|-0.3031|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.3031|-0.6455|<0.0001
82588000|NCT04908189|164888932|SUPERIORITY||Adjusted mean difference|-0.0758|STANDARD_ERROR_OF_MEAN|0.07069||0.2836|TWO_SIDED|95.0|-0.2144|0.0627|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.0627|-0.2144|0.2836
82588001|NCT04908189|164888932|SUPERIORITY||Adjusted mean difference|-0.5548|STANDARD_ERROR_OF_MEAN|0.09431|<|0.0001|TWO_SIDED|95.0|-0.7396|-0.3699|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.3699|-0.7396|<0.0001
82588002|NCT04908189|164888932|SUPERIORITY||Adjusted mean difference|-0.5835|STANDARD_ERROR_OF_MEAN|0.10162|<|0.0001|TWO_SIDED|95.0|-0.7826|-0.3843|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.3843|-0.7826|<0.0001
82588003|NCT04908189|164888933|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.2143|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.1|-0.4|0.2143
82588004|NCT04908189|164888933|SUPERIORITY||Adjusted mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.13||0.0001|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 8||-0.2|-0.8|0.0001
82588005|NCT04908189|164888933|SUPERIORITY||Adjusted mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||-0.4|-1.0|<0.0001
82588006|NCT04908189|164888933|SUPERIORITY||Adjusted mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.9|-0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||-0.4|-0.9|<0.0001
82588007|NCT04908189|164888936|SUPERIORITY||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|1.801||0.8316|TWO_SIDED|95.0|-3.91|3.15|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Absenteeism||3.15|-3.91|0.8316
82588008|NCT04908189|164888936|SUPERIORITY||Adjusted mean difference|-2.95|STANDARD_ERROR_OF_MEAN|1.827||0.106|TWO_SIDED|95.0|-6.54|0.63|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Presenteeism||0.63|-6.54|0.1060
82588009|NCT04908189|164888936|SUPERIORITY||Adjusted mean difference|-2.71|STANDARD_ERROR_OF_MEAN|1.918||0.1578|TWO_SIDED|95.0|-6.47|1.05|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Work Productivity||1.05|-6.47|0.1578
82588010|NCT04908189|164888936|SUPERIORITY||Adjusted mean difference|-7.59|STANDARD_ERROR_OF_MEAN|1.719|<|0.0001|TWO_SIDED|95.0|-10.96|-4.22|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Activity Impairment||-4.22|-10.96|<0.0001
82588011|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|-0.0026|STANDARD_ERROR_OF_MEAN|0.01224||0.8487|TWO_SIDED|95.0|-0.0291|0.0239|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Utility Score||0.0239|-0.0291|0.8487
82588012|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0365|STANDARD_ERROR_OF_MEAN|0.01531||0.0171|TWO_SIDED|95.0|0.0065|0.0665|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Utility Score||0.0665|0.0065|0.0171
82588013|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9254|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Mobility||0.1|-0.1|0.9254
82653179|NCT01884025|165021564|SUPERIORITY|||||||0.45|ONE_SIDED|95.0|||||t-test, 2 sided|t Value: 0.77||Change in the physical health scale of the RAND 12 were compared.||||0.45
82653180|NCT01884025|165021564|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|t Value: 0.76||Change in the mental health scale of the RAND 12 were compared.||||0.45
82653181|NCT01884025|165021565|SUPERIORITY_OR_OTHER|||||||0.72|||||||t-test, 2 sided|t Value: -0.36||||||0.72
82653182|NCT01884025|165021566|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|t Value: 0.15||||||0.88
82653183|NCT01884025|165021567|SUPERIORITY|||||||0.08|ONE_SIDED|95.0|||||t-test, 2 sided|t Value: 1.83||||||.08
82653184|NCT01884025|165021568|SUPERIORITY|||||||0.16||||||Chi Squared 1.98|Chi-squared|||||||.16
82653185|NCT01884025|165021569|SUPERIORITY|||||||0.85||||||t value: .19|t-test, 2 sided|||||||.85
82490723|NCT04289623|164674957|SUPERIORITY||Odds Ratio (OR)|0.82||||0.287|TWO_SIDED|95.0|0.56|1.19||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the standard email as the reference group.||1.19|0.56|.287
82490724|NCT04289623|164674957|SUPERIORITY||Odds Ratio (OR)|1.05||||0.59|TWO_SIDED|95.0|0.87|1.27||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the rank-and-file email as the reference group.||1.27|0.87|.590
82490725|NCT04289623|164674957|SUPERIORITY||Odds Ratio (OR)|1.86||||0.035|TWO_SIDED|95.0|1.05|3.32||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the rank-and-file email as the reference group.||3.32|1.05|.035
82490726|NCT04289623|164674958|SUPERIORITY||Odds Ratio (OR)|1.16||||0.085|TWO_SIDED|95.0|0.98|1.37||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the standard email as the reference group.||1.37|0.98|.085
82490727|NCT04289623|164674958|SUPERIORITY||Odds Ratio (OR)|0.89||||0.569|TWO_SIDED|95.0|0.6|1.33||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the standard email as the reference group.||1.33|0.60|.569
82490728|NCT04289623|164674958|SUPERIORITY||Odds Ratio (OR)|0.79||||0.24|TWO_SIDED|95.0|0.54|1.17||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the previously enrolled group with the rank-and-file email as the reference group.||1.17|0.54|.240
82377347|NCT02933255|164461754|OTHER|||||||0.176||||||The reported p-value is representative of changes in CD8+ naive T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.176
82377348|NCT02933255|164461754|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD8+ naive T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
82588014|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0566|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Mobility||0.0|-0.2|0.0566
82588015|NCT04908189|164888937|SUPERIORITY||Ajudted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.8933|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Self-Care||0.1|-0.1|0.8933
82588016|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0738|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Self-Care||0.0|-0.2|0.0738
82588017|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.6176|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Usual Activities||0.1|-0.1|0.6176
82588018|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.1544|TWO_SIDED|95.0|-0.2|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Usual Activities||0.0|-0.2|0.1544
82588019|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.4707|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Pain/Discomfort||0.1|-0.2|0.4707
82653186|NCT01884025|165021570|SUPERIORITY|||||||0.6||||||t value: .54|t-test, 2 sided|||||||.60
82377349|NCT02933255|164461754|OTHER|||||||0.001||||||The reported p-value is representative of changes in CD8+ naive T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.001
82377350|NCT02933255|164461754|OTHER|||||||0.563||||||The reported p-value is representative of changes in CD8+ naive T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.563
82490729|NCT04289623|164674958|SUPERIORITY||Odds Ratio (OR)|0.94||||0.871|TWO_SIDED|95.0|0.45|1.95||We used an a priori threshold of p \< .05.|Regression, Logistic|||We conducted a logistic regression among the never enrolled group with the rank-and-file email as the reference group.||1.95|0.45|.871
82490730|NCT03779711|164674959|SUPERIORITY|||||||0.8095|||||||ANCOVA|adjusted for baseline FAC||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to 3-months post-surgery.||||0.8095
82490731|NCT03779711|164674960|SUPERIORITY|||||||0.3029|||||||ANCOVA|Adjusted for baseline circumferential strain||Analysis of covariance (ANCOVA), adjusted for baseline circumferential strain, is used to assess change in circumferential strain from baseline to 3-months post-surgery.||||0.3029
82490732|NCT03779711|164674961|SUPERIORITY|||||||0.0323|||||||ANCOVA|Adjusted for baseline longitudinal strain||Analysis of covariance (ANCOVA), adjusted for baseline longitudinal strain, is used to assess change in longitudinal strain from baseline to 3-months post-surgery.||||0.0323
82588020|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0114|TWO_SIDED|95.0|-0.3|0.0|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Pain/Discomfort||0.0|-0.3|0.0114
82588021|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.6594|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4 Anxiety/Depression||0.1|-0.1|0.6594
82653187|NCT01884025|165021571|SUPERIORITY|||||||0.26||||||t value: -1.17|t-test, 2 sided|||||||.26
82653188|NCT01884025|165021572|SUPERIORITY|||||||0.08||||||t value: 1.85|t-test, 2 sided|||||||.08
82588022|NCT04908189|164888937|SUPERIORITY||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.7123|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16 Anxiety/Depression||0.1|-0.1|0.7123
82588023|NCT04908189|164888938|SUPERIORITY||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.498||0.9834|TWO_SIDED|95.0|-0.99|0.97|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 4||0.97|-0.99|0.9834
82588024|NCT04908189|164888938|SUPERIORITY||Adjusted mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.565||0.6099|TWO_SIDED|95.0|-1.39|0.82|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 12||0.82|-1.39|0.6099
82588025|NCT04908189|164888938|SUPERIORITY||Adjusted mean difference|-0.66|STANDARD_ERROR_OF_MEAN|0.538||0.2205|TWO_SIDED|95.0|-1.71|0.4|||ANCOVA||The adjusted mean difference and p-value are based on the total randomized population, which is 312 for Deucravacitinib and 312 for Placebo|Week 16||0.40|-1.71|0.2205
82588026|NCT00607022|164888942|OTHER|Kruskal-Wallis values between each loading group and for Wilcoxon Signed Rank for measures on the mesial vs buccal side of the implant.|||||>|0.05||||||0.0501 \< p \< 0.9797|Kruskal-Wallis|Kruskal-Wallis test evaluated ISQ at each time point..||Comparison between loading groups at 16 weeks - loading at baseline, Loading at 6 weeks, and loading at 12 weeks. Scores for all groups were compared at 16 weeks from implant placement..||||>0.05
82588027|NCT00458341|164888943|OTHER|||||||0.133||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 1 versus Day 14 of Cycle 1||||0.133
82588028|NCT00458341|164888943|OTHER|||||||0.19||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 1 versus Day 14 of Cycle 1||||0.190
82588029|NCT00458341|164888943|OTHER|||||||0.123||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 2 versus Day 14 of Cycle 2||||0.123
82653189|NCT02655237|165021573|NON_INFERIORITY|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between Relugolix 40 mg group and leuprorelin group (Relugolix 40 mg group - leuprorelin group), using Farrington and Manning (FM) method. If the lower boundary of the 95% CI was greater or equal to the non-inferiority margin of -15%, then the non-inferiority of Relugolix 40 mg to leuprorelin was concluded.|Difference in percentage|-0.9||||0.0013|TWO_SIDED|95.0|-10.098|8.346|||Farrington and Manning (FM)||Relugolix 40 mg-Leuprorelin|||8.346|-10.098|0.0013
82588030|NCT00458341|164888943|OTHER|||||||0.592||||||Threshold for significance at 0.05 level.|t-test, 2 sided|||Baseline of Cycle 2 versus Day 14 of Cycle 2||||0.592
82588031|NCT00458341|164888944|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 1 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
82588032|NCT00458341|164888944|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 1 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
82588033|NCT00458341|164888944|OTHER|||||||0.021|||||||Chi-squared|||Analysis of Cycle 2 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.021
82653190|NCT02655237|165021574|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|32.5|||||TWO_SIDED|95.0|20.953|44.134|||||Relugolix 40 mg-Leuprorelin|||44.134|20.953|
82653191|NCT02655237|165021575|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|-10.6|||||TWO_SIDED|95.0|-18.337|-2.883|||||Relugolix 40 mg-Leuprorelin|||-2.883|-18.337|
82490733|NCT03779711|164674962|SUPERIORITY|||||||0.6765|||||||ANCOVA|Adjusted for baseline FAC.||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to 12-months post-surgery.||||0.6765
82588034|NCT00458341|164888944|OTHER|||||||0.518|||||||Chi-squared|||Analysis of Cycle 2 data. Analysis was to compare the observed rate with the null hypothesis response rate of 10%.||||0.518
82588035|NCT05461794|164888962|OTHER||Odds Ratio (OR)|2.1|||||TWO_SIDED|95.0|0.3|23.9|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||23.9|0.3|
82588036|NCT05461794|164888962|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-9.3|19.5|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||19.5|-9.3|
82588037|NCT05461794|164888964|OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.45|1.61|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||1.61|0.45|
82588038|NCT05461794|164888965|OTHER||Odds Ratio (OR)|2.5|||||TWO_SIDED|95.0|0.9|6.8|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics|||6.8|0.9|
82588039|NCT05461794|164888965|OTHER||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.3|3.7|||||The odds ratio was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||3.7|0.3|
82588040|NCT05461794|164888965|OTHER||Risk Difference (RD)|22.0|||||TWO_SIDED|95.0|-1.5|43.3|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||43.3|-1.5|
82588041|NCT05461794|164888965|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-24.5|28.4|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||28.4|-24.5|
82588042|NCT05461794|164888966|OTHER||Odds Ratio (OR)|3.9|||||TWO_SIDED|95.0|0.7|40.8|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||40.8|0.7|
82588043|NCT05461794|164888966|OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|95.0|0.1|2.9|||||The odds ratio was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||2.9|0.1|
82588044|NCT05461794|164888966|OTHER||Risk Difference (RD)|12.7|||||TWO_SIDED|95.0|-2.3|29.5|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||29.5|-2.3|
82588045|NCT05461794|164888966|OTHER||Risk Difference (RD)|-8.4|||||TWO_SIDED|95.0|-34.7|13.8|||||The risk difference was estimated along with their exact unconditional 95% CIs constructed by the tail method based on the score statistics.|||13.8|-34.7|
82653192|NCT02655237|165021576|OTHER|The point estimate and 2-sided 95% confidence interval of the difference in the percentage were calculated between relugolix 40 mg group and leuprorelin group, using FM method with the non-inferiority margin of -15%. The confidence interval was presented in a descriptive manner and not for the purpose of statistical inference.|Difference in percentage|-13.3|||||TWO_SIDED|95.0|-21.418|-5.118|||||Relugolix 40 mg-Leuprorelin|||-5.118|-21.418|
82653193|NCT02655237|165021577|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-12.05|||||TWO_SIDED|95.0|-19.778|-4.33|||||Relugolix 40 mg-Leuprorelin|Week 2||-4.330|-19.778|
82653194|NCT02655237|165021577|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-2.55|||||TWO_SIDED|95.0|-11.916|6.819|||||Relugolix 40 mg-Leuprorelin|Week 4||6.819|-11.916|
82653195|NCT02655237|165021577|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|4.69|||||TWO_SIDED|95.0|-3.141|12.529|||||Relugolix 40 mg-Leuprorelin|Week 8||12.529|-3.141|
82653196|NCT02655237|165021577|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|3.59|||||TWO_SIDED|95.0|-3.433|10.605|||||Relugolix 40 mg-Leuprorelin|Week 12||10.605|-3.433|
82653197|NCT02655237|165021577|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|3.96|||||TWO_SIDED|95.0|-3.319|11.245|||||Relugolix 40 mg-Leuprorelin|Week 24||11.245|-3.319|
82653198|NCT02655237|165021578|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-15.15|||||TWO_SIDED|95.0|-20.786|-9.509|||||Relugolix 40 mg-Leuprorelin|Week 2||-9.509|-20.786|
82653199|NCT02655237|165021578|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-10.27|||||TWO_SIDED|95.0|-17.291|-3.246|||||Relugolix 40 mg-Leuprorelin|Week 4||-3.246|-17.291|
82653200|NCT02655237|165021578|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-0.89|||||TWO_SIDED|95.0|-6.996|5.209|||||Relugolix 40 mg-Leuprorelin|Week 8||5.209|-6.996|
82653201|NCT02655237|165021578|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|-0.94|||||TWO_SIDED|95.0|-6.964|5.076|||||Relugolix 40 mg-Leuprorelin|Week 12||5.076|-6.964|
82588046|NCT05461794|164888967|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.29|0.96|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||0.96|0.29|
82653202|NCT02655237|165021578|OTHER|The mean differences in the percent changes from baseline between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Visit)|0.86|||||TWO_SIDED|95.0|-6.206|7.935|||||Relugolix 40 mg-Leuprorelin|Week 24||7.935|-6.206|
82653203|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.2|||||TWO_SIDED|95.0|0.015|0.381|||||Relugolix 40 mg-Leuprorelin|Week 4||0.381|0.015|
82653204|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.1|||||TWO_SIDED|95.0|-0.135|0.333|||||Relugolix 40 mg-Leuprorelin|Week 8||0.333|-0.135|
82653205|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.07|||||TWO_SIDED|95.0|-0.189|0.323|||||Relugolix 40 mg-Leuprorelin|Week 12||0.323|-0.189|
82653206|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.01|||||TWO_SIDED|95.0|-0.275|0.251|||||Relugolix 40 mg-Leuprorelin|Week 16||0.251|-0.275|
82653207|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.1|||||TWO_SIDED|95.0|-0.386|0.18|||||Relugolix 40 mg-Leuprorelin|Week 20||0.180|-0.386|
82653208|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.09|||||TWO_SIDED|95.0|-0.385|0.209|||||Relugolix 40 mg-Leuprorelin|Week 24||0.209|-0.385|
82653209|NCT02655237|165021579|OTHER|The mean differences in the change from baseline between relugolix 40 mg and leuprorelin groups and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-0.49|||||TWO_SIDED|95.0|-0.787|-0.199|||||Relugolix 40 mg-Leuprorelin|Follow up (up to Week 28)||-0.199|-0.787|
82653210|NCT02655237|165021580|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.07|||||TWO_SIDED|95.0|-0.032|0.174|||||Relugolix 40 mg-Leuprorelin|Week 6 to 12||0.174|-0.032|
82588047|NCT05461794|164888967|OTHER||Hazard Ratio (HR)|1.96|||||TWO_SIDED|95.0|0.79|4.82|||||Hazard ratio and 95% CIs were estimated using a Cox regression model stratified by the selected stratification factors PD-L1 tumor area positivity score (\>=10% versus \< 10%)|||4.82|0.79|
82588048|NCT05461794|164888968|OTHER||Odds Ratio (OR)|0.4|||||TWO_SIDED|95.0|0.1|2.7|||||The crude odds ratio was estimated along with exact unconditional 95% CIs constructed by the tail method based on the score statistics|||2.7|0.1|
82588049|NCT02083705|164888970|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||"We hypothesised that during neonatal CPR, CC+SI will reduce the time needed to achieve ROSC. Our aim was to examine if CC+SI reduces ROSC compared with 3:1 C:V CPR in preterm infants \<33 weeks of gestation.~For this pilot study, based on the local incidence of CPR in preterm neonates, a convenient sample size of five patients per group was enrolled. Our primary outcome was time to achieve ROSC measured using ECG."||||0.05
82588050|NCT05090995|164888971|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82588051|NCT05090995|164888972|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82588052|NCT05090995|164888973|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82588053|NCT05090995|164888974|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82588054|NCT05090995|164888975|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||For baseline consequences||||<.0001
82588055|NCT05090995|164888975|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||For effects with time||||<.0001
82588056|NCT05090995|164888976|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82588057|NCT05090995|164888977|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Effect of baseline sleep scores||||<.0001
82588058|NCT05090995|164888977|OTHER|||||||0.04|||||||Mixed Models Analysis|||For effects with time||||0.04
82588059|NCT05090995|164888978|OTHER|||||||0.02|||||||Mixed Models Analysis|||For interaction between treatment group and time||||0.02
82588060|NCT05090995|164888978|OTHER|||||||0.02|||||||Mixed Models Analysis|||Main effects of sex||||0.02
82588061|NCT05090995|164888978|OTHER|||||||0.0007|||||||Mixed Models Analysis|||Main effects of type of day of the week (weekday vs. weekend)||||0.0007
82588062|NCT05090995|164888978|OTHER|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82588063|NCT05090995|164888979|OTHER|||||||0.0001|||||||Mixed Models Analysis|||Main effect of day of the week.||||0.0001
82653211|NCT02655237|165021580|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.05|||||TWO_SIDED|95.0|-0.089|0.197|||||Relugolix 40 mg-Leuprorelin|Week 2 to 6||0.197|-0.089|
82490734|NCT03779711|164674963|SUPERIORITY|||||||0.3456|||||||ANCOVA|Adjusted for baseline FAC||Analysis of covariance (ANCOVA), adjusted for baseline FAC, is used to assess change in FAC from baseline to discharge.||||0.3456
82588064|NCT05090995|164888980|OTHER|||||||0.04|||||||Mixed Models Analysis|||For interaction between treatment condition and time||||0.04
82588065|NCT05090995|164888980|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Main effects of sex||||<.0001
82588066|NCT05090995|164888980|OTHER||||||<|0.0001|||||||Mixed Models Analysis|||Main effects of type of day of the week (weekday vs. weekend)||||<0.0001
82588067|NCT05090995|164888980|OTHER|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82588068|NCT02673619|164889056|OTHER||Percentage difference|25.0|||||TWO_SIDED|90.0|-21.1|75.1||||||||75.1|-21.1|
82588069|NCT02673619|164889056|OTHER||Percentage difference|25.5|||||TWO_SIDED|90.0|-10.2|59.2||||||||59.2|-10.2|
82588070|NCT02673619|164889057|OTHER||Percentage Difference|-16.2|||||TWO_SIDED|90.0|-59.7|32.0||||||||32.0|-59.7|
82588071|NCT02673619|164889057|OTHER||Percentage Difference|18.0|||||TWO_SIDED|90.0|-18.8|52.1||||||||52.1|-18.8|
82588072|NCT02673619|164889061|OTHER||Percentage Difference|16.2|||||TWO_SIDED|90.0|-32.0|59.7||||||||59.7|-32.0|
82588073|NCT02673619|164889061|OTHER||Percentage Difference|7.5|||||TWO_SIDED|90.0|-27.7|42.3||||||||42.3|-27.7|
82588074|NCT03602261|164889096|OTHER|||||||0.5536|||||||Fisher Exact|||||||0.5536
82588075|NCT03219320|164889116|OTHER|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82588076|NCT03078907|164889117|OTHER||Least Square (LS) mean|13.79|STANDARD_ERROR_OF_MEAN|13.695|||TWO_SIDED|95.0|13.366|40.944|||ANCOVA|||Daily time spent in non-sedentary activity (minutes), Freedson '98||40.944|13.366|
82588077|NCT03078907|164889117|OTHER||LS means|2.31|STANDARD_ERROR_OF_MEAN|6.601|||TWO_SIDED|95.0|-10.782|15.396|||ANCOVA|||Daily time spent in MVPA (minutes), Freedson '98||15.396|-10.782|
82588078|NCT03078907|164889117|OTHER||LS mean|17.81|STANDARD_ERROR_OF_MEAN|12.008|||TWO_SIDED|95.0|-6.003|41.619|||ANCOVA|||Daily time spent in non-sedentary activity (minutes), Koster '16||41.619|-6.003|
82588079|NCT03078907|164889118|OTHER||LS mean|0.67|STANDARD_ERROR_OF_MEAN|1.204|||TWO_SIDED|95.0|-1.713|3.06|||ANCOVA|||Percentage of daily time spent in non-sedentary activity (%), Freedson '98||3.060|-1.713|
82588080|NCT03078907|164889118|OTHER||LS mean|-0.05|STANDARD_ERROR_OF_MEAN|0.658|||TWO_SIDED|95.0|-1.351|1.258|||ANCOVA|||Percentage of daily time spent in MVPA (%), Freedson '98||1.258|-1.351|
82588081|NCT03078907|164889118|OTHER||LS mean|1.26|STANDARD_ERROR_OF_MEAN|1.191|||TWO_SIDED|95.0|-1.104|3.618|||ANCOVA|||Percentage of daily time spent in non-sedentary activity (%), Koster '16||3.618|-1.104|
82588082|NCT03078907|164889119|OTHER||LS mean|20.66|STANDARD_ERROR_OF_MEAN|63.695|||TWO_SIDED|95.0|-105.632|146.958|||ANCOVA|||Volume of total daily activities (counts / minute)||146.958|-105.632|
82588083|NCT03078907|164889119|OTHER||LS means|27.52|STANDARD_ERROR_OF_MEAN|65.291|||TWO_SIDED|95.0|-101.945|156.976|||ANCOVA|||Volume of non-sedentary activity (counts/minute), Koster '16||156.976|-101.945|
82588084|NCT03078907|164889120|OTHER||LS means|58409.0|STANDARD_ERROR_OF_MEAN|64985.0|||TWO_SIDED|95.0|-70444.0|187263.0|||ANCOVA|||||187263|-70444|
82588085|NCT03078907|164889121|OTHER||LS means|201.59|STANDARD_ERROR_OF_MEAN|224.212|||TWO_SIDED|95.0|-242.977|646.163|||ANCOVA|||||646.163|-242.977|
82588086|NCT03078907|164889122|OTHER||LS means|0.07|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|95.0|-0.366|0.51|||ANCOVA|||||0.510|-0.366|
82588087|NCT02960113|164889136|OTHER|||||||0.98||||||Bonferroni-adjusted P-value, calculated as two times the nominal p-value because there are two primary outcomes|Chi-squared|d.f.=2||Null hypothesis: Percent experiencing nausea equal between groups||||0.98
82588088|NCT02960113|164889137|OTHER|||||||0.9||||||Bonferroni-adjusted P-value, calculated as two times the nominal p-value because there are two primary outcomes|Chi-squared|d.f.=2||Null hypothesis: Percent experiencing vomiting equal across groups||||0.90
82588089|NCT02960113|164889138|OTHER|Null hypothesis: Mean scores equal across treatment groups||||||0.026|||||||ANOVA|||||||0.026
82588090|NCT02960113|164889139|OTHER|Null hypothesis: means equal across treatment groups||||||0.91|||||||ANOVA|||||||0.91
82588091|NCT02960113|164889140|OTHER|||||||0.8|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.80
82588092|NCT02960113|164889141|OTHER|||||||0.82|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.82
82588093|NCT02960113|164889142|OTHER|||||||0.93|||||||ANOVA|||Null hypothesis: means equal across treatment groups||||0.93
82377351|NCT02933255|164461754|OTHER|||||||0.012||||||The reported p-value is representative of changes in CD8+ CM T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.012
82377352|NCT02933255|164461754|OTHER|||||||0.084||||||The reported p-value is representative of changes in CD8+ CM T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
82490735|NCT03779711|164674964|SUPERIORITY|||||||0.776|||||||Kruskal-Wallis|||Kruskal-Wallis test comparing number of days in hospital post stage-II surgery.||||0.7760
82490736|NCT03779711|164674965|SUPERIORITY|||||||0.9563|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in weight from baseline to 3-months post-surgery.||||0.9563
82490737|NCT03779711|164674966|SUPERIORITY|||||||0.9095|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in heart rate from baseline to 3-months post-surgery.||||0.9095
82377353|NCT02933255|164461754|OTHER|||||||0.016||||||The reported p-value is representative of changes in CD8+ CM T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.016
82377354|NCT02933255|164461754|OTHER|||||||0.688||||||The reported p-value is representative of changes in CD8+ CM T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.688
82490738|NCT03779711|164674967|SUPERIORITY|||||||0.6391|||||||Kruskal-Wallis|||Kruskal-Wallis test for change in oxygen saturation from baseline to 3-months post-surgery.||||0.6391
82377355|NCT02933255|164461754|OTHER|||||||0.38||||||The reported p-value is representative of changes in gMDSC at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.38
82490739|NCT03779711|164674974|SUPERIORITY|||||||0.8782|||||||Kruskal-Wallis|||Kruskal-Wallis test comparing number of days in hospital post stage-II surgery||||0.8782
82377356|NCT02933255|164461754|OTHER|||||||0.021||||||The reported p-value is representative of changes in gMDSC at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.021
82377357|NCT02933255|164461754|OTHER|||||||0.91||||||The reported p-value is representative of changes in gMDSC at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.91
82377358|NCT02933255|164461754|OTHER|||||||0.084||||||The reported p-value is representative of changes in gMDSC at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.084
82377359|NCT02933255|164461754|OTHER|||||||0.151||||||The reported p-value is representative of changes in intermediate monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.151
82588094|NCT02960113|164889143|OTHER|Null hypothesis: percent of vomiting equal across treatment groups||||||0.55|||||||Chi-squared|d.f.=2||||||0.55
82377360|NCT02933255|164461754|OTHER|||||||0.042||||||The reported p-value is representative of changes in intermediate monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.042
82377361|NCT02933255|164461754|OTHER|||||||0.424||||||The reported p-value is representative of changes in intermediate monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.424
82377362|NCT02933255|164461754|OTHER|||||||0.846||||||The reported p-value is representative of changes in intermediate monocytes at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.846
82377363|NCT02933255|164461754|OTHER|||||||0.339||||||The reported p-value is representative of changes in non-classical monocytes at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
82377364|NCT02933255|164461754|OTHER|||||||0.012||||||The reported p-value is representative of changes in non-classical monocytes at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.012
82377365|NCT02933255|164461754|OTHER|||||||0.622||||||The reported p-value is representative of changes in non-classical monocytes at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.622
82377366|NCT02933255|164461754|OTHER|||||||0.492||||||The reported p-value is representative of changes in non-classical monocytes at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.492
82377367|NCT02933255|164461754|OTHER|||||||0.11||||||The reported p-value is representative of changes in CD4+ CM T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.11
82377368|NCT02933255|164461754|OTHER|||||||0.02||||||The reported p-value is representative of changes in CD4+ CM T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.02
82377369|NCT02933255|164461754|OTHER|||||||0.052||||||The reported p-value is representative of changes in CD4+ CM T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.052
82377370|NCT02933255|164461754|OTHER|||||||0.844||||||The reported p-value is representative of changes in CD4+ CM T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.844
82377371|NCT02933255|164461754|OTHER||||||>|0.999||||||The reported p-value is representative of changes in CD4+ naive T cells at week 4 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||>0.999
82377372|NCT02933255|164461754|OTHER|||||||0.049||||||The reported p-value is representative of changes in CD4+ naive T cells at week 4 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||0.049
82377373|NCT02933255|164461754|OTHER|||||||0.339||||||The reported p-value is representative of changes in CD4+ naive T cells at week 10 post treatment compared to baseline in the lead-in metastatic castration-resistant prostate cancer cohort.|Wilcoxon Signed Rank Test|||||||0.339
82588095|NCT02960113|164889144|OTHER|||||||0.71|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.71
82588096|NCT02960113|164889145|OTHER|||||||0.55|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.55
82588097|NCT02960113|164889146|OTHER|||||||0.2|||||||Chi-squared|d.f.=2||Null hypothesis: percent of vomiting equal across treatment groups||||0.20
82653212|NCT02655237|165021580|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.01|||||TWO_SIDED|95.0|-0.06|0.086|||||Relugolix 40 mg-Leuprorelin|Week 18 to 24||0.086|-0.060|
82588098|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.026||||||Adjustments to the p-values for multiple comparison were performed using Benjamini and Hochberg approach on 'R' and represented in the text as adjusted p-value.|Regression, Linear|||The influence of age on adiponectin levels was analysed by dividing the population into binary groups (\<60 years and \>/= 60 years) to facilitate comparison.||||0.026
82588099|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.496||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on adiponectin levels was analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||0.496
82588100|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05|||||||Regression, Linear|||The influence of age on leptin levels was analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
82588101|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on IGF1 and 2 levels were analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
82588102|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of age on IGF1 and 2 levels were analysed by dividing the population into binary groups (\<60years and \>/=60years) to facilitate comparison.||||>0.05
82588103|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of adiponectin, leptin, IGF1 and 2 were analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||>0.05
82588104|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.014||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of adiponectin was analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.014
82588105|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.006||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of leptin was analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.006
82588106|NCT04697264|164889148|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.019||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||The influence of menopausal status on levels of IGF1 and IGF2 were analysed by dividing the population into binary groups (pre-menopausal and menopausal) to facilitate comparison.||||0.019
82588107|NCT04697264|164889149|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.033||||||Adjustments to the p-values for multiple comparison were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of LVSI on adiponectin levels were assessed using multivariate linear regression, with binary categorisations (presence and absence of LVSI) to facilitate comparisons.||||0.033
82588108|NCT04697264|164889149|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.||||||0.015||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of MELF on TNF levels were assessed using multivariate linear regression, with binary categorisations (presence and absence of MELF) to facilitate comparisons.||||0.015
82588109|NCT04697264|164889149|OTHER|Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis.|||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Regression, Linear|||Effects of tumour grade (Grade 1/2), stage (Stage 1/ \>/=1), histology (type 1 and type 2), and MSI (presence or absence) on the biomarker levels (adiponectin, leptin, IGF 1 and 2, IL6 and TNF) were assessed using multivariate linear regression, with binary categorisations to facilitate comparisons.||||>0.05
82653213|NCT02655237|165021580|OTHER|Two-sided 95% confidence interval of the difference was calculated between relugolix 40 mg and leuprorelin group.|Mean Difference (Each Visit)|0.02|||||TWO_SIDED|95.0|-0.063|0.099|||||Relugolix 40 mg-Leuprorelin|For 6 Weeks Before the Final Dose (up to Week 24)||0.099|-0.063|
82653214|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-2.5|||||TWO_SIDED|95.0|-6.39|1.43|||||Relugolix 40 mg-Leuprorelin|Week 4||1.43|-6.39|
82653215|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-4.0|||||TWO_SIDED|95.0|-6.68|-1.31|||||Relugolix 40 mg-Leuprorelin|Week 8||-1.31|-6.68|
82653216|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.2|||||TWO_SIDED|95.0|-1.99|2.36|||||Relugolix 40 mg-Leuprorelin|Week 12||2.36|-1.99|
82653217|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|1.3|||||TWO_SIDED|95.0|-0.68|3.28|||||Relugolix 40 mg-Leuprorelin|Week 16||3.28|-0.68|
82588110|NCT04697264|164889150|OTHER||||||<|0.0001||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||<0.0001
82588111|NCT04697264|164889151|OTHER||||||>|0.05||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||>0.05
82588112|NCT04697264|164889152|OTHER||||||<|0.05||||||Adjustments to the p-values for multiple comparison were performed using the Benjamini and Hochberg approach in 'R'.|Regression, Linear|||To compare biomarker levels between study and control populations, a linear regression model was used, adjusting for BMI, diabetes, and parity, which are the unmatched factors between the study and control groups. This adjustment aimed to mitigate the confounding impact of these factors, considering their individual influence on the risk of endometrial cancer.||||<0.05
82588113|NCT04697264|164889153|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between adiponectin and the BMI of the study population at baseline."||||>0.05
82588114|NCT04697264|164889153|OTHER|||||||0.09||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between leptin and the BMI of the study population at baseline."||||0.09
82588115|NCT04697264|164889153|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the association between IL6, TNFα, IGF1, and IGF2 and the BMI of the study population at baseline."||||>0.05
82588116|NCT04697264|164889154|OTHER|||||||0.004||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between adiponectin and the BMI of the control population at baseline."||||0.004
82588117|NCT04697264|164889154|OTHER|||||||0.0002||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between leptin and the BMI of the control population at baseline."||||0.0002
82588118|NCT04697264|164889154|OTHER||||||>|0.05||||||Univariate linear regression was initially performed, followed by multivariate regression using the significant associations from the univariate analysis. P value \<0.05 was considered significant.|Regression, Linear|||"The impact of BMI on biomarker levels was assessed by categorising the population into two groups-normal weight and overweight/obese-for straightforward comparison.~Here, we present the associations between IL6, TNFα, IGF1, and IGF2 and the BMI of the control population at baseline."||||>0.05
82588119|NCT04697264|164889155|OTHER|||||||0.0007||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||||||0.0007
82588120|NCT04697264|164889156|OTHER||||||>|0.05||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||Leptin levels were compared between the day 0 and 6 months post-operative bloods.||||>0.05
82588121|NCT04697264|164889156|OTHER|||||||0.004||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||IGF1 levels were compared between the day 0 and 6 months post-operative bloods.||||0.004
82588122|NCT04697264|164889156|OTHER||||||<|0.0001||||||Adjustments to the p-values for multiple comparisons were performed using Benjamini and Hochberg approach on 'R'.|Mixed Models Analysis|||IGF2 levels were compared between the day 0 and 6 months post-operative bloods.||||<0.0001
82653218|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.3|||||TWO_SIDED|95.0|-1.8|2.32|||||Relugolix 40 mg-Leuprorelin|Week 20||2.32|-1.80|
82377374|NCT02933255|164461754|OTHER||||||>|0.999||||||The reported p-value is representative of changes in CD4+ naive T cells at week 10 post treatment compared to baseline in the neoadjuvant cohort.|Wilcoxon Signed Rank Test|||||||>0.999
82588123|NCT04697264|164889158|OTHER||||||<|0.0001|||||||t-test, 2 sided|||Expression of adiponectin was studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||<0.0001
82588124|NCT04697264|164889158|OTHER||||||<|0.05|||||||t-test, 2 sided|||Expression of leptin and their receptors were studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||<0.05
82588125|NCT04697264|164889158|OTHER||||||>|0.05|||||||t-test, 2 sided|||Expression of adiponectin receptors were studied in endometrial cancer tissue and fat tissue using qRT-PCR.||||>0.05
82588126|NCT04697264|164889159|OTHER|||||||0.0002|||||||t-test, 2 sided|||Expression of adiponectin was studied in endometrial cancer tissue and lymph node tissue using qRT-PCR.||||0.0002
82588127|NCT04697264|164889159|OTHER|||||||0.011|||||||t-test, 2 sided|||Expression of leptin was studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||0.011
82588128|NCT04697264|164889159|OTHER|||||||0.009|||||||t-test, 2 sided|||The expression of IL6 receptor (IL6R) was studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||0.009
82588129|NCT04697264|164889159|OTHER||||||>|0.05|||||||t-test, 2 sided|||The expression of adiponectin receptor, leptin receptor, IGF1 and IGF 2 receptors, IL6, TNF, IGF1 and IGF2 were studied in endometrial cancer tissue and lymphnode tissue using qRT-PCR.||||>0.05
82588130|NCT04697264|164889160|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating adiponectin levels and the expression of these markers and their receptors in endometrial tissue were compared using correlation studies.||||>0.05
82588131|NCT04697264|164889161|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating leptin, IGF1 and IGF2 levels and the expression of these markers and their receptors in endometrial tissue were compared using Pearson's correlation studies.||||>0.05
82588132|NCT04697264|164889162|OTHER||||||>|0.05|||||||Pearson's correlation test|||Circulating IL6 and TNF levels and the expression of these markers and their receptors in endometrial tissue were compared using Pearson's correlation studies.||||>0.05
82588133|NCT03434353|164889164|OTHER||Percentage Difference|-2.0|||||TWO_SIDED|95.0|-30.4|26.4|||||The percentage difference (Group 1 - Group 2) \& corresponding 2-sided 95% confidence interval (CI) were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline hepatitis B e antigen (HBeAg) status (positive,negative).|||26.4|-30.4|
82588134|NCT03434353|164889164|OTHER||Percentage Difference|-24.7|||||TWO_SIDED|95.0|-49.2|-0.2|||||The percentage difference (Group 3 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||-0.2|-49.2|
82588135|NCT03434353|164889164|OTHER||Percentage Difference|-17.8|||||TWO_SIDED|95.0|-43.7|8.2|||||The percentage difference (Group 5 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||8.2|-43.7|
82588136|NCT03434353|164889166|OTHER||Percentage Difference|-16.6|||||TWO_SIDED|95.0|-37.7|4.4|||||The percentage difference (Group 1 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.4|-37.7|
82588137|NCT03434353|164889166|OTHER||Percentage Difference|-16.9|||||TWO_SIDED|95.0|-38.1|4.3|||||The percentage difference (Group 3 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.3|-38.1|
82588138|NCT03434353|164889166|OTHER||Percentage Difference|-16.7|||||TWO_SIDED|95.0|-37.9|4.4|||||The percentage difference (Group 5 - Group 2) and the corresponding 2-sided 95% CI were calculated by using stratum-adjusted Mantel-Haenszel proportions, stratified by baseline HBeAg status (positive, negative).|||4.4|-37.9|
82588139|NCT00148954|164889211|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.003|TWO_SIDED|95.0|1.11|1.62|||Regression, Cox|||||1.62|1.11|0.003
82377375|NCT02766283|164461770|SUPERIORITY_OR_OTHER|||||||0.9|||||||Chi-squared|||||||0.90
82377376|NCT02766283|164461771|SUPERIORITY_OR_OTHER|||||||0.022|||||||Chi-squared|||||||0.022
82588140|NCT01681628|164889215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.9|STANDARD_ERROR_OF_MEAN|2.0|<|0.001|TWO_SIDED|95.0|16.1|24.0||This was an a priori threshold.|t-test, 2 sided|||Means and differences were calculated for both groups before (time 1) and after treatment (or no treatment) (time 2). Also, the differences in mean scores from time 1 to 2 were compared between the two groups, the primary outcome. The numbers in the groups were considered adequate based on previous similar studies. The null hypothesis was that there would be no difference in any mean change in scores from time 1 to 2, between both groups.||24.0|16.1|<0.001
82588141|NCT01681628|164889215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.4|STANDARD_DEVIATION|14.7|<|0.001|TWO_SIDED|95.0|29.1|34.7|||t-test, 2 sided|||Change in PCL-C scores from before to after treatment.||34.7|29.1|<0.001
82588142|NCT01681628|164889215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.4|STANDARD_DEVIATION|14.2|<|0.001|TWO_SIDED|95.0|11.4|17.1|||t-test, 2 sided|||Changes in PCL-C scores for control group after no treatment.||17.1|11.4|<0.001
82588143|NCT01681628|164889215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.6|STANDARD_DEVIATION|13.5|<|0.001|TWO_SIDED|95.0|17.1|22.5|||t-test, 2 sided|Degrees of freedom 94||Change in control group PCL-C scores after treatment, that is from time 2 to time 3.||22.5|17.1|<0.001
82588144|NCT01681628|164889216|SUPERIORITY_OR_OTHER||percentage of participants|65.7|||<|0.001|TWO_SIDED||||||Chi-squared|||Chi-squared test of any change in PCL-C from time 1 to time 2.||||<0.001
82588145|NCT01681628|164889216|SUPERIORITY_OR_OTHER||% of participants with PCL score > 50|41.0|||<|0.001|TWO_SIDED||||||Chi-squared|||Comparison of the percentage with diagnostic scores in the wait list group after no treatment at times 1 and 2.||||<0.001
82588146|NCT01681628|164889216|SUPERIORITY_OR_OTHER||Percentage|39.9|||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82588147|NCT01681628|164889217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.8|||<|0.001|TWO_SIDED|95.0|15.2|20.5|||t-test, 2 sided|||Both the original treatment and control groups were combined as both groups had been treated at a similar time before the nineteen month assessment. The null hypothesis was that there had been no change in the PCL-C scores at nineteen months compared to one week following treatment.||20.5|15.2|<0.001
82588148|NCT04658186|164889266|SUPERIORITY||Difference in RMET|0.31||||0.647|TWO_SIDED|95.0|-1.0|1.61|||Wald Chi-square||Results were obtained from a generalized linear model for the restricted mean event time (RMET), with gender and age at baseline as covariates and treatment group as the effect of interest.|||1.61|-1.00|0.647
82588149|NCT04658186|164889266|SUPERIORITY||Difference in RMET|0.81||||0.214|TWO_SIDED|95.0|-0.47|2.09|||Wald Chi-square||Results obtained from generalized linear model for RMET, with gender and age at baseline as covariates and treatment group as effect of interest.|||2.09|-0.47|0.214
82588150|NCT04658186|164889269|SUPERIORITY||Difference in RMET|1.0||||0.124|TWO_SIDED|95.0|-0.27|2.27|||Wald Chi-square||Results were obtained from a generalized linear model for the RMET, with gender and age at baseline as covariates and treatment group as the effect of interest.|||2.27|-0.27|0.124
82588151|NCT04658186|164889269|SUPERIORITY||Difference in RMET|1.22||||0.064||95.0|-0.07|2.51|||Wald Chi-sqaure||Results were obtained from a generalized linear model for the RMET, with gender and age at baseline as covariates and treatment group as the effect of interest.|||2.51|-0.07|0.064
82588152|NCT03049735|164889362|SUPERIORITY||Treatment difference|54.54|||<|0.0001|TWO_SIDED|95.0|44.3|64.78||P-value was stratified by baseline MBL volume (\< 225 mL or ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix + E2/NETA minus placebo.|The primary efficacy analysis was the comparison of the relugolix + E2/NETA group with the placebo group with respect to responder rate.||64.78|44.3|<0.0001
82588153|NCT03049735|164889363|SUPERIORITY||Treatment difference|46.83|||<|0.0001|TWO_SIDED|95.0|37.31|56.35||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America or Rest of World). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference was relugolix plus E2/NETA minus placebo. 95% confidence interval (CI) for difference is based on the normal approximation.|||56.35|37.31|<0.0001
82588154|NCT03049735|164889364|SUPERIORITY||Treatment difference|-61.1|STANDARD_ERROR_OF_MEAN|6.32|<|0.0001|TWO_SIDED|95.0|-73.5|-48.6||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|Assessed at a 2-sided α = 0.05 significance. Treatment difference is relugolix plus E2/NETA minus placebo.||||-48.6|-73.5|<0.0001
82588155|NCT03049735|164889365|SUPERIORITY||Treatment difference|28.26|||=|0.0377|TWO_SIDED|95.0|3.68|52.84||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||52.84|3.68|= 0.0377
82588156|NCT03049735|164889366|SUPERIORITY||Treatment difference|33.0|||<|0.0001|TWO_SIDED|95.0|18.36|47.56||P-value is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL). Assessed at a 2-sided α = 0.05 significance level.|Cochran-Mantel-Haenszel||Treatment difference is relugolix plus E2/NETA minus placebo. 95% CI for difference is based on the normal approximation.|||47.56|18.36|<0.0001
82588157|NCT03049735|164889367|SUPERIORITY||Treatment difference|-12.1|STANDARD_ERROR_OF_MEAN|7.19||0.0921|TWO_SIDED|95.0|-26.3|2.0||Based on analysis of covariance model with treatment, randomization stratification factors, Baseline MBL volume, geographic region (North America, Rest of World), and Baseline values as covariate. Assessed at a 2-sided α = 0.05 significance level.|ANCOVA|||||2|-26.3|0.0921
82588158|NCT03049735|164889368|SUPERIORITY||Treatment difference|-15.1|STANDARD_ERROR_OF_MEAN|3.98||0.0002|TWO_SIDED|95.0|-23.0|-7.3||Based on analysis of covariance model with treatment, randomization stratification factors, Baseline MBL volume, geographic region (North America, Rest of World), and Baseline values as covariate. Assessed at a 2-sided α = 0.05 significance level.|ANCOVA|||||-7.3|-23|0.0002
82588159|NCT03049735|164889369|SUPERIORITY||Treatment difference|-28.9|STANDARD_ERROR_OF_MEAN|3.75|<|0.0001|TWO_SIDED|95.0|-36.3|-21.5||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|Assessed at a 2-sided α = 0.05 significance level. LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||-21.5|-36.3|<0.0001
82588160|NCT03049735|164889372|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82588161|NCT03049735|164889377|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix + E2/NETA with placebo.|Log Rank|||||||<0.0001
82588162|NCT03049735|164889378|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82588163|NCT03049735|164889379|SUPERIORITY||||||<|0.0001||||||P-value is based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix plus E2/NETA with placebo.|Log Rank|||||||<0.0001
82653219|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.5|||||TWO_SIDED|95.0|-1.48|2.52|||||Relugolix 40 mg-Leuprorelin|Week 24||2.52|-1.48|
82653220|NCT02655237|165021581|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|3.4|||||TWO_SIDED|95.0|1.08|5.77|||||Relugolix 40 mg-Leuprorelin|Follow-Up (up to Week 28)||5.77|1.08|
82588164|NCT03049735|164889380|SUPERIORITY||||||<|0.0001||||||P-value was based on Log-rank test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World) from the proportional hazard regression model comparing relugolix + E2/NETA with placebo.|Log Rank|||||||<0.0001
82588165|NCT03049735|164889381|SUPERIORITY|||||||0.0377||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||0.0377
82588166|NCT03049735|164889382|SUPERIORITY|||||||0.0117||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||0.0117
82588167|NCT03049735|164889383|SUPERIORITY|||||||0.0084||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World). Lower limit of normal is Hgb \< 11.6 g/dL.|Cochran-Mantel-Haenszel|||||||0.0084
82588168|NCT03049735|164889384|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588169|NCT03049735|164889385|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588170|NCT03049735|164889386|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588171|NCT03049735|164889387|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588172|NCT03049735|164889388|SUPERIORITY||||||<|0.0001||||||P-value for testing difference between Relugolix plus E2/NETA and placebo is based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82588173|NCT03049735|164889389|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588174|NCT03049735|164889390|SUPERIORITY||||||<|0.0001||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL) and geographic region (North America, Rest of World).|Cochran-Mantel-Haenszel|||||||<0.0001
82588175|NCT03049735|164889391|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588176|NCT03049735|164889392|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588177|NCT03049735|164889394|SUPERIORITY||||||<|0.0001||||||Treatment, visit, region, Baseline MBL and treatment by visit interaction included as fixed effects. The multiple visits for each participant were the repeated measures as random effect within each participant and an unstructured covariance.|Mixed Models Analysis|LS means and p-value for test of difference is relugolix plus E2/NETA minus placebo.||||||<0.0001
82588178|NCT03049735|164889401|SUPERIORITY|||||||0.0002||||||P-value was based on Cochran-Mantel-Haenszel test stratified by Baseline MBL volume (\< 225 mL, ≥ 225 mL).|Cochran-Mantel-Haenszel|||||||0.0002
82588179|NCT02146326|164889406|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.80
82588180|NCT02146326|164889407|SUPERIORITY|||||||0.8|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.80
82588181|NCT02146326|164889408|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.54
82588182|NCT02146326|164889409|SUPERIORITY|||||||0.94|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.94
82653221|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|2.3|||||TWO_SIDED|95.0|-1.66|6.34|||||Relugolix 40 mg-Leuprorelin|Week 4||6.34|-1.66|
82377377|NCT04803305|164461810|SUPERIORITY||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-2.38|1.18|||||Week 4|||1.18|-2.38|
82588183|NCT02146326|164889410|SUPERIORITY|||||||0.96|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.96
82588184|NCT02146326|164889411|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.17
82588185|NCT02146326|164889412|SUPERIORITY|||||||0.47|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.47
82588186|NCT02146326|164889413|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.60
82588187|NCT02146326|164889414|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.37
82588188|NCT02146326|164889415|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.83
82588189|NCT02146326|164889416|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.64
82588190|NCT02146326|164889417|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.37
82588191|NCT02146326|164889418|SUPERIORITY|||||||0.13|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.13
82588192|NCT02146326|164889419|SUPERIORITY|||||||0.93|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.93
82588193|NCT02146326|164889420|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.11
82653222|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|2.7|||||TWO_SIDED|95.0|-0.37|5.77|||||Relugolix 40 mg-Leuprorelin|Week 8||5.77|-0.37|
82653223|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.9|||||TWO_SIDED|95.0|-1.84|3.61|||||Relugolix 40 mg-Leuprorelin|Week 12||3.61|-1.84|
82588194|NCT02146326|164889421|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.21
82588195|NCT02146326|164889423|SUPERIORITY|||||||0.17|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on clinician burnout and patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.17
82588196|NCT02146326|164889424|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||||||0.24
82588197|NCT02146326|164889425|SUPERIORITY|||||||0.35|||||||Chi-squared|||||||0.35
82653224|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.1|||||TWO_SIDED|95.0|-2.61|2.79|||||Relugolix 40 mg-Leuprorelin|Week 16||2.79|-2.61|
82653225|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.8|||||TWO_SIDED|95.0|-1.74|3.41|||||Relugolix 40 mg-Leuprorelin|Week 20||3.41|-1.74|
82653226|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|0.3|||||TWO_SIDED|95.0|-2.07|2.71|||||Relugolix 40 mg-Leuprorelin|Week 24||2.71|-2.07|
82653227|NCT02655237|165021582|OTHER|The mean differences in the observed values between relugolix 40 mg and leuprorelin group and the two-sided 95% confidence intervals were calculated for each visit.|Mean Difference (Each Visit)|-1.4|||||TWO_SIDED|95.0|-3.96|1.09|||||Relugolix 40 mg-Leuprorelin|Follow-Up (up to Week 28)||1.09|-3.96|
82588198|NCT02146326|164889426|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.67
82588199|NCT02146326|164889427|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.04
82588200|NCT02146326|164889428|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.34
82588201|NCT02146326|164889429|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.71
82588202|NCT02146326|164889430|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.22
82588203|NCT02146326|164889431|SUPERIORITY|||||||0.11|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.11
82588204|NCT02146326|164889432|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.14
82588205|NCT02146326|164889433|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.55
82588206|NCT02146326|164889434|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.91
82588207|NCT02146326|164889435|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.48
82588208|NCT02146326|164889436|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.67
82588209|NCT02146326|164889437|SUPERIORITY|||||||0.77|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.77
82588210|NCT02146326|164889438|SUPERIORITY|||||||0.59|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.59
82588211|NCT02146326|164889439|SUPERIORITY|||||||0.64|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.64
82588212|NCT02146326|164889440|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.05
82588213|NCT02146326|164889441|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.06
82588214|NCT02146326|164889442|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.84
82588215|NCT02146326|164889443|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.14
82588216|NCT02146326|164889444|SUPERIORITY|||||||0.45|||||||Mixed Models Analysis|||Mixed effects regression analysis was used to examine the BREATHE intervention effect on patient processes, engagement, and outcomes as compared to MI after the intervention by adjusting for the baseline scores and the implementation site.||||0.45
82588217|NCT03153111|164889445|SUPERIORITY||Geometric mean ratio|1.02||||0.7923|TWO_SIDED|90.0|0.88|1.19|||ANCOVA|||||1.19|0.88|0.7923
82588218|NCT03153111|164889446|SUPERIORITY||Least square mean difference|-3.5|STANDARD_ERROR_OF_MEAN|2.82||0.2172|TWO_SIDED|90.0|-8.17|1.17|||ANCOVA|||||1.17|-8.17|0.2172
82377378|NCT04803305|164461811|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|-0.75|3.15|||||Week 1|||3.15|-0.75|
82588219|NCT03153111|164889447|SUPERIORITY||Least square mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.3665|TWO_SIDED|90.0|-0.05|0.02|||ANCOVA|||||0.02|-0.05|0.3665
82588220|NCT01839487|164889491|OTHER||Hazard Ratio (HR)|0.74||||0.058|TWO_SIDED|95.0|0.54|1.01||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG was based on Cox proportional hazards model stratified by the Karnofsky Performance Status (KPS) category (70-80% and 90-100%) at screening using AG as the reference arm.||1.01|0.54|0.058
82588221|NCT01839487|164889493|OTHER||Hazard Ratio (HR)|0.57||||0.092|TWO_SIDED|95.0|0.3|1.1||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG for HA-high was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.10|0.30|0.092
82588222|NCT01839487|164889493|OTHER||Hazard Ratio (HR)|0.88||||0.514|TWO_SIDED|95.0|0.59|1.31||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG for HA-low was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.31|0.59|0.514
82588223|NCT01839487|164889494|OTHER||Risk Ratio (RR)|1.22||||0.225|TWO_SIDED|95.0|0.88|1.68||Threshold for significance at 0.1 level.|Cochran-Mantel-Haenszel|||p-Value and relative risk were based on a stratified Cochran-Mantel-Haenszel method using KPS category at screening as the stratification factor.||1.68|0.88|0.225
82588224|NCT01839487|164889495|OTHER||Hazard Ratio (HR)|0.91||||0.495|TWO_SIDED|95.0|0.7|1.19||Threshold for significance at 0.1 level.|Log Rank|P-value was based on stratified log-rank test with the KPS category at screening as the stratification factor.||Hazard ratio PAG/AG was based on Cox proportional hazards model stratified by the KPS category (70-80% and 90-100%) at screening using AG as the reference arm.||1.19|0.70|0.495
82588225|NCT03714425|164889505|SUPERIORITY||||||<|0.05||||||The primary research objective to measure perceived improvement in pain at three months was assessed using a two-sample t-test of PGIC scores between the two treatment groups using a type I error rate of 0.05 (two-sided).|t-test, 2 sided|Most of the analyses involved delta scores reflecting changes within subjects, though we compared PGIC raw scores rather than change scores.||||||<0.05
82588226|NCT03622619|164889507|OTHER|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82588227|NCT03622619|164889508|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82588228|NCT03622619|164889509|SUPERIORITY|||||||0.055|||||||Wilcoxon (Mann-Whitney)|||||||0.055
82588229|NCT03622619|164889510|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|Burning/stinging||||||0.90
82588230|NCT03622619|164889510|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|Grittiness/foreign body sensation||||||0.30
82588231|NCT03622619|164889510|SUPERIORITY|||||||0.66||||||Dryness|Wilcoxon (Mann-Whitney)|||||||0.66
82588232|NCT03622619|164889510|SUPERIORITY|||||||0.14||||||Blurred vision|Wilcoxon (Mann-Whitney)|||||||0.14
82588233|NCT03622619|164889510|SUPERIORITY|||||||0.3||||||Overall discomfort|Wilcoxon (Mann-Whitney)|||||||0.30
82588234|NCT01658826|164889515|SUPERIORITY||Risk Ratio (RR)|0.43|||<|0.0001|TWO_SIDED|95.0|0.3|0.63|||non-linear mixed effects model|||||0.63|0.30|<0.0001
82653228|NCT03679741|165021590|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|1.9|STANDARD_DEVIATION|1.99|||TWO_SIDED|95.0|-1.9|5.8|||Bayesian multivariate normal random-effe|A 95% Credible Interval for the Posterior mean difference between the Test and Control was used to test for non-inferiority.|Mean difference was calculated as test minus control|It was calculated that 30 participants randomized in a 1:1 fashion between the two lens wear sequences would have at least 80% power to detect a 5 point difference between the test and control lenses with respect to overall comfort at the 2-week follow-up. Sample size was determined using Stroup's Method (alpha=0.05).||5.8|-1.9|
82588235|NCT03645954|164889517|SUPERIORITY||||||<|0.01||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||<0.01
82588236|NCT03645954|164889518|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
82588237|NCT03645954|164889519|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
82588238|NCT03645954|164889520|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||>0.05
82588239|NCT03645954|164889521|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|||||||>0.05
82588240|NCT03645954|164889522|OTHER||||||>|0.05||||||The threshold for statistical significance was p = 0.05.|Chi-squared|||||||>0.05
82588241|NCT03877432|164889523|SUPERIORITY|||||||0.012|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 1T stimulation amplitude changes on bladder capacity.||||0.012
82588242|NCT03877432|164889523|SUPERIORITY|||||||0.017|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 2T stimulation amplitude changes on bladder capacity.||||0.017
82588243|NCT03877432|164889523|SUPERIORITY|||||||0.003|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 3T stimulation amplitude changes on bladder capacity.||||0.003
82588244|NCT03877432|164889523|SUPERIORITY|||||||0.004|||||||ANOVA|||All data were presented as means ± standard deviations (SDs). Analysis of variance (ANOVA) was used to compare the effects of 4T stimulation amplitude changes on bladder capacity.||||0.004
82588245|NCT00174265|164889536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0148||95.0||||The test of hypothesis was a 2-tailed test with alpha=0.05 (0.049 to adjust for one interim analysis).|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from Baseline in NSA Scale total score between asenapine and olanzapine at Day 365.||||0.0148
82588246|NCT00174265|164889537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.81||95.0||||Significant level adjusted for one interim analysis was set as 0.049 two-sided.|Mixed Model for Repeated Measurements|||The null hypothesis was that there was no difference in change from Baseline in QLS total score between asenapine and olanzapine at Week 52.||||0.8100
82588247|NCT03471871|164889551|OTHER||Least squares (LS) mean difference|-0.36||||0.099|TWO_SIDED|95.0|-0.78|0.07||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||0.07|-0.78|0.099
82588248|NCT03471871|164889551|OTHER||LS mean difference|-0.29||||0.176|TWO_SIDED|95.0|-0.72|0.14||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||0.14|-0.72|0.176
82588249|NCT03471871|164889552|OTHER||LS mean difference|-0.06||||0.948|TWO_SIDED|95.0|-1.95|1.83||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||1.83|-1.95|0.948
82588250|NCT03471871|164889553|OTHER||LS mean difference|0.52||||0.639|TWO_SIDED|95.0|-1.72|2.76||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||2.76|-1.72|0.639
82588251|NCT03471871|164889553|OTHER||LS mean difference|-1.16||||0.297|TWO_SIDED|95.0|-3.4|1.08||P-Value was at the 0.05 level of significance.|mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||1.08|-3.40|0.297
82588252|NCT03471871|164889554|OTHER||LS mean difference|-0.03||||0.979|TWO_SIDED|95.0|-2.22|2.17||P-Value was at the 0.05 level of significance.|Mixed effect model|AHI was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||||2.17|-2.22|0.979
82588253|NCT03471871|164889555|OTHER||LS mean difference|0.185||||0.095|TWO_SIDED|95.0|-0.034|0.405||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<90%||0.405|-0.034|0.095
82588254|NCT03471871|164889555|OTHER||LS mean difference|0.245||||0.03|TWO_SIDED|95.0|0.025|0.464||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||When SpO2 is \<90%||0.464|0.025|0.030
82588255|NCT03471871|164889555|OTHER||LS mean difference|0.004||||0.885|TWO_SIDED|95.0|-0.058|0.067||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<85%||0.067|-0.058|0.885
82588256|NCT03471871|164889555|OTHER||LS mean difference|0.044||||0.158|TWO_SIDED|95.0|-0.018|0.107||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<85%||0.107|-0.018|0.158
82588257|NCT03471871|164889555|OTHER||LS mean difference|0.001||||0.462|TWO_SIDED|95.0|-0.002|0.005||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<80%||0.005|-0.002|0.462
82588258|NCT03471871|164889555|OTHER||LS mean difference|0.002||||0.166|TWO_SIDED|95.0|-0.001|0.006||P-Value was at the 0.05 level of significance.|Mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||SpO2 is \<80%||0.006|-0.001|0.166
82588259|NCT03471871|164889557|OTHER||LS mean difference|0.07||||0.699|TWO_SIDED|95.0|-0.31|0.46||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: Mean SpO2 during TST||0.46|-0.31|0.699
82588260|NCT03471871|164889557|OTHER||LS mean difference|0.25||||0.169|TWO_SIDED|95.0|-0.11|0.61||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: Mean SpO2 during TST||0.61|-0.11|0.169
82588261|NCT03471871|164889558|OTHER||LS mean difference|0.312||||0.472|TWO_SIDED|95.0|-0.558|1.181||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<90%||1.181|-0.558|0.472
82588262|NCT03471871|164889558|OTHER||LS mean difference|0.067||||0.479|TWO_SIDED|95.0|-0.124|0.258||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<85%||0.258|-0.124|0.479
82588263|NCT03471871|164889558|OTHER||LS mean difference|0.002||||0.852|TWO_SIDED|95.0|-0.019|0.023||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 1: SpO2 is \<80%||0.023|-0.019|0.852
82588264|NCT03471871|164889558|OTHER||LS mean difference|0.088||||0.733|TWO_SIDED|95.0|-0.431|0.607||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: SpO2 is \<90%||0.607|-0.431|0.733
82588265|NCT03471871|164889558|OTHER||LSM difference|0.056||||0.518|TWO_SIDED|95.0|-0.117|0.228||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: When SpO2 is \<85%||0.228|-0.117|0.518
82653229|NCT03679741|165021591|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 0.67 was used. This margin is based on no more than a 10% difference in proportion between the Test and the Control lenses. The odds ratio represents the cumulative odds ratio of having a higher rating/experience of the Test lens compared to the Control lens.|Odds Ratio (OR)|3.97|STANDARD_DEVIATION|1.138|||TWO_SIDED|95.0|2.27|6.62|||Bayesian multinomial random-effects mode|A 95% Credible Interval for the odds ratio, was used to test for non-inferiority.|Odds ratio was calculated as test over control|||6.62|2.27|
82377379|NCT04803305|164461811|SUPERIORITY||Mean Difference (Final Values)|1.1|STANDARD_ERROR_OF_MEAN|0.78|||TWO_SIDED|90.0|-0.28|2.49|||||Week 2|||2.49|-0.28|
82588266|NCT03471871|164889558|OTHER||LS mean difference|0.006||||0.576|TWO_SIDED|95.0|-0.015|0.026||P-Value was at the 0.05 level of significance.|mixed effect model|SPO2 was analyzed by mixed effect model, which included fixed effects for sequence, period, treatment a random effect for participant within sequence.||Day 8: SpO2 is \<80%||0.026|-0.015|0.576
82588267|NCT03040622|164889561|OTHER|||||||0.06|||||||ANOVA|||||||0.06
82588268|NCT03040622|164889562|OTHER|||||||0.009|||||||ANOVA|||||||0.009
82588269|NCT03040622|164889563|OTHER|||||||0.001|||||||ANOVA|||||||0.001
82588271|NCT05344092|164889665|OTHER|Wilcoxon signed rank test comparing baseline score to post-mobile app intervention score (approximately 4 week) for the VetEd Mobile Application user group.|Median Difference (Net)|-0.84||||0.4|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.40
82588272|NCT05344092|164889667|OTHER|Wilcoxon Signed Rank test comparing baseline score to post-mobile app use score (approximately Week 4) for users of the VetEd mobile app.|Median Difference (Net)|-0.11||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.92
82588273|NCT05344092|164889668|OTHER|Wilcoxon Signed Rank test comparing baseline score to post-mobile app use score (approximately Week 4) for users of the VetEd mobile app.|Median Difference (Net)|-0.42||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.68
82588274|NCT03865940|164889669|SUPERIORITY|||||||0.374|TWO_SIDED|95.0||||P-values less than 0.05 considered significant.|Regression, Cox|Testing null hypothesis that guanfacine has no effect on time from injection to return to baseline.||||||0.374
82588275|NCT03865940|164889670|SUPERIORITY||||||<|0.001||||||P-values less than 0.05 considered significant.|Regression, Logistic|Analysis adjusted for pre-injection score and accounted for repeated measures. Effect of study drug was tested using a four degree-of-freedom test.||||||<0.001
82588276|NCT03865940|164889671|SUPERIORITY|||||||0.775|||||||Regression, Linear|The analysis adjusted for pre-injection score and accounted for repeat measures.The results of the analyses tested using a two degree-of-freedom test.||||||0.775
82588277|NCT03865940|164889672|SUPERIORITY|||||||0.099|||||||Regression, Linear|The analysis adjusted for pre-injection score and accounted for repeat measures.The results of the analyses tested using a two degree-of-freedom test.||||||0.099
82588278|NCT03865940|164889673|SUPERIORITY|||||||0.907|||||||Proportional Odds Regression|The analysis was not adjusted for baseline factors.||||||0.907
82588279|NCT03865940|164889674|SUPERIORITY|||||||0.373|||||||Regression, Logistic|Adjusted for use of pain medication at baseline||||||0.373
82588280|NCT02634346|164889676|SUPERIORITY||Least square mean difference|-6.4|STANDARD_ERROR_OF_MEAN|1.83|<|0.001|TWO_SIDED|95.0|-10.0|-2.8|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-2.8|-10.0|<0.001
82588281|NCT02634346|164889676|SUPERIORITY||Least square mean difference|-5.3|STANDARD_ERROR_OF_MEAN|1.84||0.004|TWO_SIDED|95.0|-8.9|-1.7|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-1.7|-8.9|0.004
82588282|NCT02634346|164889677|SUPERIORITY||Least square mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.118||0.002|TWO_SIDED|95.0|-0.61|-0.14|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-0.14|-0.61|0.002
82588283|NCT02634346|164889677|SUPERIORITY||Least square mean difference|-0.44|STANDARD_ERROR_OF_MEAN|0.118|<|0.001|TWO_SIDED|95.0|-0.67|-0.2|||Mixed Models Analysis|Mixed model for repeated measures is based on observed data without imputation of missing data.||||-0.20|-0.67|<0.001
82588284|NCT00992511|164889681|NON_INFERIORITY|Criterion for non-inferiority: upper limit (UL) of the two-sided 95% Confidence Interval (CI) for the ratio of GMT between the initial process-manufactured vaccine (GSK2340272A INI 2D Group) and (over) new process-manufactured vaccine (GSK2340272A NEW 2D Group) was less than or equal to (≤) 2.|Adjusted GMT ratio|1.06|||||TWO_SIDED|95.0|0.77|1.46||||||To evaluate the immunological non-inferiority (in terms of vaccine-homologous virus H1N1 Haemagglutinin Inhibition \[HI\] antibody geometric mean titres \[GMTs\]) of the new process-manufactured A/California/7/2009 (H1N1)v-like antigen compared to the initial process-manufactured A/California/7/2009 (H1N1)v-like antigen, 21 days after first vaccination in healthy subjects aged 18 to 60 years.||1.46|0.77|
82588285|NCT00992511|164889681|NON_INFERIORITY|Criterion for non-inferiority: upper limit (UL) of the two-sided 95% Confidence Interval (CI) for the ratio of GMT between the initial process-manufactured vaccine (GSK2340272A INI 2D Group) and (over) new process-manufactured vaccine (GSK2340272A NEW 2D Group) was less than or equal to (≤) 2.|Adjusted GMT ratio|1.17|||||TWO_SIDED|95.0|0.86|1.61||||||To evaluate the immunological non-inferiority (in terms of vaccine-homologous virus H1N1 Haemagglutinin Inhibition \[HI\] antibody geometric mean titres \[GMTs\]) of the new process-manufactured A/California/7/2009 (H1N1)v-like antigen compared to the initial process-manufactured A/California/7/2009 (H1N1)v-like antigen, 21 days after first vaccination in healthy subjects aged 18 to 60 years.||1.61|0.86|
82588286|NCT04498169|164889699|SUPERIORITY|With a sample size of up-to 20 subjects within a treatment group, the study had 80% power to demonstrate a statistically significant mean change from baseline, assuming the true effect size (mean change / SD) was 0.577 or larger (e.g. assuming the true mean change from baseline was 34.6 μm and the SD was 60 μm), a one sample t-test and a two-sided alpha = 0.10.||||||0.0021|||||||One-sample t-test (within group)|||The primary analysis used the mITT population with available data per subject at eye level (ie., ODO). Robustness analyses was also performed based on the MI methodology under different assumptions of missingness and intercurrent events (where missing data or withdrawal due to lack of efficacy or AEs were imputed using FCS regression method and missing data for all other reasons were imputed using worst within subject observation prior to the intercurrent event).||||0.0021
82588287|NCT00221195|164889726|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||The Wilcoxin signed-rank test was used to compare the frequency of bleeds between the prophylaxis and on-demand periods.||||<0.001
82588288|NCT01383161|164889733|SUPERIORITY|||||||0.5|||||||mixed-effects general linear model|||||||0.5
82588289|NCT01383161|164889733|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82588290|NCT01383161|164889733|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
82588291|NCT01383161|164889734|SUPERIORITY|||||||0.08|||||||mixed-effects general linear model|||||||0.08
82588292|NCT01383161|164889734|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
82588293|NCT01383161|164889734|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82588294|NCT01383161|164889735|SUPERIORITY|||||||0.05|||||||mixed-effects general linear model|||||||0.05
82588295|NCT01383161|164889735|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82588296|NCT01383161|164889735|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82588297|NCT01383161|164889736|SUPERIORITY|||||||0.08|||||||mixed-effects general linear model|||||||0.08
82588298|NCT01383161|164889736|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||.002
82588299|NCT01383161|164889736|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.5
82588300|NCT01383161|164889737|SUPERIORITY|||||||0.04|||||||mixed-effects general linear model|||||||0.04
82588301|NCT01383161|164889737|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82588302|NCT01383161|164889737|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||0.1
82588303|NCT01383161|164889738|SUPERIORITY|||||||0.3|||||||mixed-effects general linear model|||||||0.3
82588304|NCT01383161|164889738|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82588305|NCT01383161|164889738|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
82588306|NCT01621230|164889769|OTHER|The median (first and third quartile) lengths of the second stage of labor were estimated at 28min (15, 58) in women without epidural analgesia. Assuming a one-third increase in the length of the second stage to 37min due to epidural bupivacaine, a sample size of 155 per arm (310 total) was required for 80% power to detect such a difference using a two-sided Wilcoxon rank sum test.||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82588307|NCT01621230|164889772|OTHER|||||||0.55|||||||Wilcoxon (Mann-Whitney)|||||||.55
82588308|NCT01621230|164889773|OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||.57
82588309|NCT02748018|164889780|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.8|||||ONE_SIDED|97.5||-0.4||||||||-0.4||
82588310|NCT02748018|164889781|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.9|||||ONE_SIDED|97.5||-3.6||||||||-3.6||
82588311|NCT02748018|164889782|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.7|||||ONE_SIDED|97.5||-0.3||||||||-0.3||
82588312|NCT02748018|164889783|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.8|||||ONE_SIDED|97.5||-3.1||||||||-3.1||
82588313|NCT02748018|164889784|SUPERIORITY|Test of Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.3||||||||0.3||
82588314|NCT02748018|164889785|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-1.0|||||ONE_SIDED|97.5||-0.2||||||||-0.2||
82588315|NCT02748018|164889786|NON_INFERIORITY|Non-inferiority margin: 2%. Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-2.2|||||ONE_SIDED|97.5||-0.9||||||||-0.9||
82588316|NCT02748018|164889787|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.3|||||ONE_SIDED|97.5||-0.1||||||||-0.1||
82588317|NCT02748018|164889788|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) During Night|Mean Difference (Final Values)|-5.4|||||ONE_SIDED|97.5||-3.7||||||||-3.7||
82653230|NCT03679741|165021592|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used. This margin corresponds to a half line difference. Non-inferiority was declared if the upper bound of the 95% credible interval was below 0.05 logMAR.|Mean Difference (Final Values)|-0.022|STANDARD_DEVIATION|0.0074|||TWO_SIDED|95.0|-0.037|-0.008|||Bayesian multivariate normal model|with random effects|Mean difference was calculated as Test minus Control|It was calculated that 4 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect non-inferiority with respect to visual acuity (logMAR) at the 2-week follow-up. Sample size was determined using Stroup's method. The analysis presented below, summarizes the low luminance high contrast lighting condition.||-0.008|-0.037|
82653231|NCT03679741|165021592|NON_INFERIORITY|A non-inferiority margin of 0.05 logMAR was used. This margin corresponds to a half line difference. Non-inferiority was declared if the upper bound of the 95% credible interval was below 0.05 logMAR.|Mean Difference (Final Values)|-0.034|STANDARD_DEVIATION|0.0075|||TWO_SIDED|95.0|-0.049|-0.02|||Bayesian multivariate normal model|with random effect|Mean difference was calculated as Test minus Control|It was calculated that 4 participants randomized in a 1:1 fashion between the two lens types would have at least 80% power to detect non-inferiority with respect to visual acuity (logMAR) at the 2-week follow-up. Sample size was determined using Stroup's method. The analysis presented below, summarizes the high illumination low contrast lighting condition.||-0.020|-0.049|
82653232|NCT03679741|165021593|SUPERIORITY|A superiority margin of 90% was used. Superiority was concluded if the lower limit of the 95% credible interval was above 90%|Mean Percentage of eyes|100.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|99.0|100.0|||Bayesian beta- binomial model|for correlated binary data||It was calculated that 65 participants were required to show that the acceptable lens fitting for the Test lens would be superior to 90% with at least 80% power. Sample size was determined using simulations methods for repeated measures.||100.0|99.0|
82653233|NCT03679741|165021594|NON_INFERIORITY|A non-inferiority cumulative odds ratio margin of 2 was used. This margin corresponds to no more than a 5% difference between the Test and Control lenses assuming the Control reference rate does not exceed 5%. Non-inferiority was declared if the upper bound of the 95% credible interval was below 2.|Mean Difference (Final Values)|0.001|STANDARD_DEVIATION|0.003|||TWO_SIDED|95.0|-0.004|0.008|||Bayesian beta-binomial hierarchical||Mean difference was calculated as Test minus Control.|It was calculated that 50 participants randomized in a 1:1 fashion between the two lens wear sequences would have at least 80% power to detect 5% difference between the Test and Control lens with respect to the proportion of eyes with Grade 3 or higher slit lamp findings across all study visits. Sample size was determined using simulations methods.||0.008|-0.004|
82588318|NCT02748018|164889789|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) During Night|Mean Difference (Final Values)|18.8|||||ONE_SIDED|97.5|14.5||||||||||14.5|
82653234|NCT03679741|165021595|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|5.6|STANDARD_DEVIATION|1.29|||TWO_SIDED|95.0|3.1|8.1|||Bayesian multivariate normal model|for random effects|Mean difference was calculated as test minus control|Sample size was based on primary endpoints only.||8.1|3.1|
82653235|NCT03679741|165021596|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|1.56|||TWO_SIDED|95.0|-0.6|5.5|||Bayesian multivariate normal model|for random effects|Mean difference was calculated as test minus control|Sample size was based on primary endpoints only.||5.5|-0.6|
82588319|NCT02748018|164889790|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|12.0|||||ONE_SIDED|97.5|8.8||||||||||8.8|
82588320|NCT02748018|164889791|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-3.6|||||ONE_SIDED|97.5||-2.6||||||||-2.6||
82588321|NCT02748018|164889792|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.6|||||ONE_SIDED|97.5||-0.3||||||||-0.3||
82588322|NCT02748018|164889793|NON_INFERIORITY|Non-inferiority margin: 2%. Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-3.6|||||ONE_SIDED|97.5||-1.9||||||||-1.9||
82588323|NCT02748018|164889794|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.1|||||ONE_SIDED|97.5||0.3||||||||0.3||
82588324|NCT02748018|164889795|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) during Night|Mean Difference (Final Values)|-7.3|||||ONE_SIDED|97.5||-4.7||||||||-4.7||
82588325|NCT02748018|164889796|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) during Night|Mean Difference (Final Values)|15.9|||||ONE_SIDED|97.5|11.1||||||||||11.1|
82588326|NCT02748018|164889797|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|13.6|||||ONE_SIDED|97.5|9.9||||||||||9.9|
82588327|NCT02748018|164889798|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-4.3|||||ONE_SIDED|97.5||-3.1||||||||-3.1||
82588328|NCT02748018|164889799|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|-0.2|||||ONE_SIDED|97.5||0.0||||||||0.0||
82588329|NCT02748018|164889800|NON_INFERIORITY|Non-inferiority margin: 2%. Treatment Effect on Time in Hypoglycemic Range (%) with Multiple Imputation|Mean Difference (Final Values)|-0.3|||||ONE_SIDED|97.5||0.7||||||||0.7||
82653236|NCT03679741|165021597|NON_INFERIORITY|A cumulative odds ratio non-inferiority margin of 0.67 was used. This margin is based on no more than a 10% difference in proportion between the Test and the Control lenses. The odds ratio represents the cumulative odds ratio of having a higher rating/experience of the Test lens compared to the Control lens.|Odds Ratio (OR)|1.73|STANDARD_DEVIATION|0.459|||TWO_SIDED|95.0|1.0|2.82|||Bayesian multinomial random-effects|A 95% Credible Interval for the odds ratio, was used to test for non-inferiority.|Odds ratio was calculated as test over control|||2.82|1.00|
82653237|NCT02456532|165021603|OTHER|analyses of variance comparing the three treatment gropus|||||=|0.05|||||||ANOVA|||||||=0.05
82588330|NCT02748018|164889801|NON_INFERIORITY|Non-inferiority margin: 0.4%. Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.1||||||||0.1||
82588331|NCT02748018|164889802|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%) during Night|Mean Difference (Final Values)|-0.7|||||ONE_SIDED|97.5||0.2||||||||0.2||
82588332|NCT02748018|164889803|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%) during Night|Mean Difference (Final Values)|12.2|||||ONE_SIDED|97.5|8.3||||||||||8.3|
82588333|NCT02748018|164889804|SUPERIORITY|Test of Treatment Effect on Time in Target Range (%)|Mean Difference (Final Values)|6.3|||||ONE_SIDED|97.5|3.3||||||||||3.3|
82588334|NCT02748018|164889805|SUPERIORITY|Test of Treatment Effect on Time in Hypoglycemic Range (%)|Mean Difference (Final Values)|-0.8|||||ONE_SIDED|97.5||-0.1||||||||-0.1||
82588335|NCT02748018|164889806|SUPERIORITY|Treatment Effect on Change in A1C with Multiple Imputation|Mean Difference (Final Values)|0.0|||||ONE_SIDED|97.5||0.1||||||||0.1||
82588336|NCT02856893|164889814|OTHER|The decision rule is based on confidence intervals. The treatment strategy will be considered feasible (H0 is rejected) if the lower bound of the 84% two-sided confidence interval of the PFS rate at 18 months is greater than 40%.|Kaplan-Meier survival rate|67.2|||||TWO_SIDED|84.0|56.4|75.9|||||"The population parameter is PFS Rate at 18 months in the Gefitinib till + blood test/progression then Osimertinib arm. The decision rule is based on the lower bound of the estimated confidence interval around the point estimate."|Each arm will be assessed individually against a historical control with a single proportion test. The test is designed to reject a PFS rate at 18 months of 40% (null hypothesis) at the 0.08 significance level. Under the alternative hypothesis of a PFS rate at 18 months of 60%, 49 patients are required to reach a power of 84%.||75.9|56.4|
82653238|NCT02456532|165021604|OTHER|ANOVA|||||=|0.643|||||||ANOVA|||||||=0.643
82588337|NCT02856893|164889814|OTHER|The decision rule is based on confidence intervals. The treatment strategy will be considered feasible (H0 is rejected) if the lower bound of the 84% two-sided confidence interval of the PFS rate at 18 months is greater than 40%.|Kaplan-Meier survival rate|53.5|||||TWO_SIDED|84.0|42.3|63.5|||||"The population parameter is PFS Rate at 18 months in the Gefitinib till progression than Osimertinib arm. The decision rule is based on the lower bound of the estimated confidence interval around the point estimate."|Each arm will be assessed individually against a historical control with a single proportion test. The test is designed to reject a PFS rate at 18 months of 40% (null hypothesis) at the 0.08 significance level. Under the alternative hypothesis of a PFS rate at 18 months of 60%, 49 patients are required to reach a power of 84%.||63.5|42.3|
82377380|NCT04803305|164461811|SUPERIORITY||Mean Difference (Final Values)|1.03|STANDARD_ERROR_OF_MEAN|1.11|||TWO_SIDED|90.0|-0.93|2.99|||||Week 3|||2.99|-0.93|
82377381|NCT04803305|164461811|SUPERIORITY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-2.02|2.02|||||Week 5|||2.02|-2.02|
82588338|NCT03801902|164889823|OTHER||||||||||||||||||"If 0-1 of initial 6 evaluable patients on an arm have a safety event, then the regimen will be deemed safe and that arm will continue to the second part of the study to enroll 6 additional evaluable patients. However, if 2 or more of the 6 patients develop a safety event, then that arm is considered not safe and will not continue to second part. The probability of the treatment being judged to be too toxic when the true toxicity rate is ≥ 40% is at least 77%. If the true toxicity rate is ≤ 18%, then the probability that the treatment will be deemed to be safe is at least 70%.~If fewer than 4 of the total of 12 evaluable patients on an arm experience a safety event, then the treatment will be considered tolerable. With a cohort of 12 patients, the probability of the treatment being judged to be too toxic when the true toxicity rate is ≥ 40% at least 78%. If the true toxicity rate is ≤ 18%, the probability that the treatment will be deemed to be safe is 85%."|||
82653239|NCT02750761|165021619|OTHER|Bioavailability: Geometric least squares mean ratio between the Oral Group's and IV Group's dose normalized AUC from time zero to infinity.|Geometric Least Squares Mean Ratio|1.12|||||TWO_SIDED|90.0|0.93|1.35|||||The Oral Group represented the numerator in the bioavailability ratio, and the IV Group represented the denominator.|||1.35|0.93|
82653240|NCT00729859|165021623|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.0075||0.28|TWO_SIDED|95.0|0.005|0.035|||paired t-test|||p value for the difference = 0.28||0.035|0.005|0.28
82653241|NCT01111110|165021635|SUPERIORITY_OR_OTHER_LEGACY||half the mean difference|21.0|STANDARD_ERROR_OF_MEAN|6.7||0.026|TWO_SIDED|95.0|3.8|41.7|||t-test, 2 sided|two sample effect size must be halved to account for mean difference estimates twice the effect size|See 4 Puff result|(Comparison of period 2 minus period 1) results Point and interval estimates are halved because this estimates twice the effect size.||41.7|3.8|0.026
82653242|NCT01111110|165021636|SUPERIORITY_OR_OTHER_LEGACY||half the mean difference|23.5|STANDARD_ERROR_OF_MEAN|6.8||0.018|TWO_SIDED|95.0|6.0|41.0||The effect size is half the difference between the means as (A-B)-(B-A)=2A-2B|t-test, 2 sided|Must take half the mean difference to estimate effect size|No comments|Study intended to get more subjects, but PI's review committee had to deal with candidate deadlines and a high rate of screen failures and allowed her to test seven subjects. Primary concern was the research experience, not the study questions. There was no bias in failing to meet accrual objectives thanks to the blinding.||41.0|6.0|0.018
82653243|NCT01111110|165021637|SUPERIORITY_OR_OTHER_LEGACY||Effect size=half the mean diff|24.7|STANDARD_ERROR_OF_MEAN|6.6||0.013|TWO_SIDED|95.0|7.7|41.7|||t-test, 2 sided||You kicked this out on another trial, but note that the period 2-Period 1 differences between the orderings estimate twice the effect size. The effect sizes herein take this into account.|Null hypothesis is that the Treatment order is independent of the dependent variable based on Period 2 minus Period 1||41.7|7.7|0.013
82653244|NCT00662025|165021643|SUPERIORITY_OR_OTHER||Objective Response Rate (percentage)|30.2|||||TWO_SIDED|95.0|19.2|43.0||||||||43.0|19.2|
82377382|NCT04803305|164461811|SUPERIORITY||Mean Difference (Final Values)|-0.8|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|90.0|-3.11|1.51|||||Week 6|||1.51|-3.11|
82588339|NCT01324323|164889833|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean (%)|179.3|||||TWO_SIDED|90.0|160.3|200.7|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||200.7|160.3|
82588340|NCT01324323|164889834|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|178.3|||||TWO_SIDED|90.0|159.4|199.4|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||199.4|159.4|
82588341|NCT01324323|164889835|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|179.6|||||TWO_SIDED|90.0|160.5|201.0|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||201.0|160.5|
82588342|NCT01324323|164889836|SUPERIORITY_OR_OTHER_LEGACY||Ratio of the Geometric Mean|159.1|||||TWO_SIDED|90.0|135.8|186.5|||ANOVA||"Ratio (Romidepsin + rifampin/Romidepsin) and 90% CI of the ratio of geometric means are from an ANOVA model with treatment as fixed effect and subject as random effect on the natural log transformed PK values."|||186.5|135.8|
82588343|NCT01324323|164889837|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.15||||0.791|TWO_SIDED|90.0|-1.0|1.01|||Wilcoxon signed-rank|||"Note: The median, median difference (romidepsin + rifampin minus romidepsin) and 90% CI of the median difference are from Hodges-Lehmann Estimate. The P-value is from Wilcoxon signed-rank test."||1.01|-1.0|0.7910
82588344|NCT00537485|164889848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|1.2||0.002|TWO_SIDED|95.0|-3.7|1.1|||t-test, 2 sided|||||1.1|-3.7|0.002
82588345|NCT00537485|164889849|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.7|||<|0.001|TWO_SIDED|95.0|16.7|44.6|||Chi-squared, Corrected|||||44.6|16.7|<0.001
82588346|NCT00537485|164889849|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.1|||<|0.001|TWO_SIDED|95.0|12.0|40.2|||Chi-squared, Corrected|||||40.2|12.0|<0.001
82588347|NCT03153137|164889858|SUPERIORITY|For each stage, the p-value from the ANCOVA model including randomized treatment, geographical region, and baseline peak VO2 was used to construct the final adjusted p-value.|Median unbiased estimate and repeated CI|0.62|||=|0.193|TWO_SIDED|99.0|-0.62|1.85||Final adjusted p-value (from weighted inverse normal combination test)|ANCOVA|||Due to adaptive nature of the design, the main analysis was conducted on FAS using the inverse normal combination method with pre-specified weights to combine first and second stage p-values.||1.85|-0.62|= 0.1930
82588348|NCT01821378|164889885|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-3.1||||0.255|TWO_SIDED|95.0|-8.4|2.2|||Mixed Models Analysis|||||2.2|-8.4|0.255
82588349|NCT01821378|164889885|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-10.3|||<|-0.001|TWO_SIDED|95.0|-14.9|-5.7|||Mixed Models Analysis|||||-5.7|-14.9|<-0.001
82588350|NCT01821378|164889886|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.2||||0.169|TWO_SIDED|95.0|-0.49|0.09|||Mixed Models Analysis|||||0.09|-0.49|0.169
82588351|NCT01821378|164889886|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.57|||<|0.001|TWO_SIDED|95.0|-0.83|-0.32|||Mixed Models Analysis|||||-0.32|-0.83|<0.001
82588352|NCT01821378|164889887|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.3||||0.706|TWO_SIDED|95.0|-1.8|1.2|||ANCOVA|||||1.2|-1.8|0.706
82588353|NCT01821378|164889887|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-2.0||||0.003|TWO_SIDED|95.0|-3.3|-0.7|||ANCOVA|||||-0.7|-3.3|0.003
82588354|NCT01821378|164889888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.173|TWO_SIDED|95.0|0.8|2.5|||Regression, Logistic|||||2.5|0.8|0.173
82588355|NCT01821378|164889888|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.001|TWO_SIDED|95.0|2.0|5.2|||Regression, Logistic|||||5.2|2.0|<0.001
82588356|NCT01821378|164889889|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.7||||0.023|TWO_SIDED|95.0|-14.3|-1.1|||Mixed Models Analysis|||||-1.1|-14.3|0.023
82653245|NCT00662025|165021644|SUPERIORITY_OR_OTHER||Objective Response Rate (percentage)|27.0|||||TWO_SIDED|95.0|16.6|39.7||||||||39.7|16.6|
82588357|NCT01821378|164889890|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.8||||0.464|TWO_SIDED|95.0|-2.9|1.3|||ANCOVA|||||1.3|-2.9|0.464
82588358|NCT01821378|164889890|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-1.8||||0.122|TWO_SIDED|95.0|-4.1|0.5|||ANCOVA|||||0.5|-4.1|0.122
82588359|NCT01821378|164889891|SUPERIORITY_OR_OTHER||Least Square Mean Difference|2.3||||0.258|TWO_SIDED|95.0|-1.7|6.2|||Mixed Models Analysis|||||6.2|-1.7|0.258
82588360|NCT01821378|164889891|SUPERIORITY_OR_OTHER||Slope|6.6|||<|0.001|TWO_SIDED|95.0|3.2|10.1|||Mixed Models Analysis|||||10.1|3.2|<0.001
82588361|NCT01821378|164889892|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.35||||0.052|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||||0.00|-0.70|0.052
82588362|NCT01821378|164889893|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.084||||0.012|TWO_SIDED|95.0|0.018|0.149|||ANCOVA|||||0.149|0.018|0.012
82588363|NCT01821378|164889893|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.138|||<|0.001|TWO_SIDED|95.0|0.081|0.194|||ANCOVA|||||0.194|0.081|<0.001
82588364|NCT01821378|164889894|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.0||||0.992|TWO_SIDED|95.0|-6.6|6.6|||Mixed Models Analysis|||||6.6|-6.6|0.992
82588365|NCT01821378|164889894|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-7.3||||0.044|TWO_SIDED|95.0|-14.4|-0.2|||Mixed Models Analysis|||||-0.2|-14.4|0.044
82588366|NCT01821378|164889895|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.578|TWO_SIDED|95.0|-0.45|0.25|||Mixed Models Analysis|||||0.25|-0.45|0.578
82588367|NCT01821378|164889895|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.58||||0.003|TWO_SIDED|95.0|-0.96|-0.2|||Mixed Models Analysis|||||-0.20|-0.96|0.003
82588368|NCT02260882|164889896|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 3. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
82588369|NCT02260882|164889896|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 6B. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
82653246|NCT00662025|165021645|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|50.8|||||TWO_SIDED|95.0|37.9|63.6||||||||63.6|37.9|
82588370|NCT02260882|164889896|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||Serotype 23F. The statistical success criterion for demonstrating greater geometric mean antibody concentrations at 4 weeks postvaccination is that the lower bound of the 2-sided 95% confidence interval in Geometric Mean Fold Rise will be greater than 1 for all 3 serotypes.||||<0.001
82588371|NCT02119325|164889906|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|-4.64||||0.0487|TWO_SIDED|95.0|-9.26|-0.03||Statistical significance at the 5% level was required for both co-primary endpoints in order to progress to formal assessment of secondary endpoints.|ANOVA||Difference is test minus placebo such that a positive difference means the test has higher Cmax|"H0: There was no difference in the post prandial glucose peak for participants with IFG between the test and placebo.~The primary parameter was analysed using a mixed effects model with glucose as dependent variable, treatment and period as fixed effects and subject as random effect."||-0.03|-9.26|0.0487
82588372|NCT02119325|164889907|SUPERIORITY_OR_OTHER||Difference in Adjusted Mean|-6.79||||0.6116|TWO_SIDED|95.0|-34.02|20.44||Statistical significance at the 5% level was required for both co-primary endpoints in order to progress to formal assessment of secondary endpoints.|ANOVA||Difference is test minus placebo such that a positive difference means the test has higher Cmax|"H0: There was no difference in the post prandial triglyceride peak for participants with IFG between the test and placebo.~The primary parameter was analysed using a mixed effects model with triglyceride as dependent variable, treatment and period as fixed effects and subject as random effect."||20.44|-34.02|0.6116
82588373|NCT01601847|164889926|SUPERIORITY||Risk Ratio (RR)|0.66||||0.02|TWO_SIDED|95.0|0.47|0.94|||Poisson|Poisson regression using GEE with robust variance estimation (e.g. Zou, American Journal Epidemiology, 2004)||||0.94|0.47|0.02
82588374|NCT01601847|164889926|SUPERIORITY||Odds Ratio (OR)|0.522||||0.0185|TWO_SIDED|95.0|0.304|0.897|||logistic regression with GEE|||||0.897|0.304|0.0185
82588375|NCT01601847|164889927|SUPERIORITY|||||||0.228|||||||Regression, Logistic|||For secondary outcomes, GEE is used to assess randomization arm association.||||0.228
82588376|NCT01601847|164889928|SUPERIORITY|||||||0.798|||||||Regression, Logistic|||||||0.798
82377383|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.98|||TWO_SIDED|90.0|-4.18|3.53|||||Week 1|||3.53|-4.18|
82377384|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|-2.16|STANDARD_ERROR_OF_MEAN|1.58|||TWO_SIDED|90.0|-5.49|1.16|||||Week 2|||1.16|-5.49|
82377385|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|0.72|STANDARD_ERROR_OF_MEAN|0.76|||TWO_SIDED|90.0|-0.62|2.06|||||Week 3|||2.06|-0.62|
82377386|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.97|||TWO_SIDED|90.0|-1.29|2.2|||||Week 4|||2.20|-1.29|
82377387|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|1.04|||TWO_SIDED|90.0|-1.21|2.57|||||Week 5|||2.57|-1.21|
82377388|NCT04803305|164461812|SUPERIORITY||Mean Difference (Final Values)|1.86|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|0.34|3.39|||||Week 6|||3.39|0.34|
82588377|NCT01063829|164889931|SUPERIORITY_OR_OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
82377389|NCT00754546|164461815|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||"ANOVA was used to examine the interaction between mode of exercise and treatment effect.~Twenty patients were considered adequate to provide a power of 85% with an alpha of 0.05."||||< 0.05
82377390|NCT00754546|164461815|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||t-test, 2 sided|||Comparing arformoterol with placebo with treadmill exercise||||0.024
82377391|NCT00754546|164461815|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 2 sided|||Arformoterol versus normal saline with cycle exercise||||0.038
82377392|NCT04933383|164461890|SUPERIORITY||difference/ratio of least square means|180.6||||0.000813|TWO_SIDED|95.0|106.42|306.48|||ANCOVA|||"The primary efficacy endpoint is the change from baseline in PC20 after each treatment period (baseline is defined at Visit 1).~For primary efficacy analysis, the mean PC20 changes from baseline between AQ001S and the comparator were compared by analysis of covariance (ANCOVA) for crossover design. A p-value was calculated for the difference of the parameter between AQ001S and the comparator.~Additionally, an adjusted 95%-CI for the mean difference was obtained by the ANCOVA."||306.48|106.42|0.000813
82377393|NCT00180661|164461903|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||||||0.001
82588378|NCT01063829|164889931|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
82588379|NCT01063829|164889931|SUPERIORITY_OR_OTHER|||||||0.321|||||||Fisher Exact|||||||0.321
82588380|NCT01063829|164889932|SUPERIORITY_OR_OTHER|||||||0.002|||||||Log Rank|||||||0.002
82588381|NCT01063829|164889932|SUPERIORITY_OR_OTHER|||||||0.126|||||||Log Rank|||||||0.126
82588382|NCT01063829|164889932|SUPERIORITY_OR_OTHER|||||||0.148|||||||Log Rank|||||||0.148
82588383|NCT01063829|164889933|SUPERIORITY_OR_OTHER|||||||0.007|||||||Fisher Exact|||||||0.007
82588384|NCT01063829|164889933|SUPERIORITY_OR_OTHER|||||||0.014|||||||Fisher Exact|||||||0.014
82588385|NCT01063829|164889933|SUPERIORITY_OR_OTHER|||||||0.321|||||||Fisher Exact|||||||0.321
82588386|NCT01372410|164889944|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Day 8 analysis.|Wald Test|||||||<0.0001
82588387|NCT01372410|164889944|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Pooled Day 7 and 8 analysis.|Wald Test|||||||<0.0001
82588388|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|||<|0.001|TWO_SIDED|95.0|0.058|0.168|||Mixed Models Analysis|||||0.168|0.058|<0.001
82588389|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.045|0.158|||Mixed Models Analysis|||||0.158|0.045|<0.001
82377394|NCT00180661|164461904|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||||||0.005
82377395|NCT02652611|164461920|SUPERIORITY||Odds Ratio (OR)|0.3|||=|0.57|TWO_SIDED|95.0|-0.8|1.4|||t-test, 2 sided|||We reported the average pain and function from 6 to 24 months postinjury with 95% confidence intervals (CIs) and summarized pain and function at 6, 9, 12, 18, and 24 months postinjury with means and standard deviations and medians with interquartile ranges.||1.4|-0.8|=0.57
82377396|NCT02652611|164461921|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.21|TWO_SIDED|95.0|-2.9|12.3|||t-test, 2 sided|||||12.3|-2.9|0.21
82377397|NCT02422797|164461972|NON_INFERIORITY|Non-inferiority was concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms was greater than -10%.|Risk Difference (RD)|0.2|||||TWO_SIDED|95.0|-3.9|4.2|||||Estimates based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INSTI).|||4.2|-3.9|
82588390|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.068|0.179|||Mixed Models Analysis|||||0.179|0.068|<0.001
82653247|NCT00662025|165021646|SUPERIORITY_OR_OTHER||CBR Rate (percentage)|52.4|||||TWO_SIDED|95.0|39.4|65.1||||||||65.1|39.4|
82653248|NCT01700621|165021660|NON_INFERIORITY|A noninferiority margin of -10% was chosen as the maximal absolute reduction in proportion seroprotection allowed in the concomitant measles-rubella and rotavirus vaccine group as compared to the measles-rubella vaccine alone group.|Seroconversion proportion difference|1.1|||||TWO_SIDED|95.0|-6.9|9.0||||||||9.0|-6.9|
82588391|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|||<|0.001|TWO_SIDED|95.0|0.127|0.239|||Mixed Models Analysis|||||0.239|0.127|<0.001
82588392|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|||<|0.001|TWO_SIDED|95.0|0.069|0.182|||Mixed Models Analysis|||||0.182|0.069|<0.001
82588393|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|||<|0.001|TWO_SIDED|95.0|0.083|0.196|||Mixed Models Analysis|||||0.196|0.083|<0.001
82588394|NCT01372410|164889945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.045|0.157|||Mixed Models Analysis|||||0.157|0.045|<0.001
82653249|NCT01288859|165021680|NON_INFERIORITY_OR_EQUIVALENCE|The results from LC-MS/MS analysis of parent polyphenols were analyzed and expressed as the absolute changes from the baseline to reduce possible effects of inter-subject fasting variability|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.1||0.02|TWO_SIDED|95.0|||||ANOVA|||||||0.02
82653250|NCT01288859|165021681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|0.01||0.01|TWO_SIDED|95.0|||||ANOVA|||Statistical analysis was performed using the statistical package SPSS for Windows (version15). By the analysis of variance (ANOVA) for repeated measures the subjective time curves for all measured compounds were compared and tested for the effect of treatment and of time as factors. For all tests, following a significant main effect in the ANOVA, individual means were compared using the Bonferroni test (p \< 0.05). Results were considered significant at p \< 0.05.||||0.01
82653251|NCT01288859|165021682|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.01||0.04|TWO_SIDED|95.0|||||ANOVA|||||||0.04
82653252|NCT00290745|165021712|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||Change in Tumor volume between baseline and Month 6||||0.07
82653253|NCT00290745|165021713|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in Tumor volume between baseline and Month 6||||<0.001
82653254|NCT00290745|165021716|OTHER|||||||0.538|||||||Kruskal-Wallis|||||||0.538
82588395|NCT04884763|164889964|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.567|TWO_SIDED|95.0|-0.76|1.35||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.35|-0.76|0.567
82377398|NCT02422797|164461974|OTHER||Risk Difference (RD)|-1.1|||||TWO_SIDED|95.0|-4.0|1.8|||||Cochran-Mantel Haenszel stratified analysis adjusting for Baseline stratification factors: Age group (\< or \>=50 years old) and Baseline third agent (PI, NNRTI, INSTI). No formal non-inferiority margin has been pre-specified for secondary endpoints.|||1.8|-4.0|
82653255|NCT00290745|165021717|OTHER|||||||0.02|||||||Kruskal-Wallis|||||||0.02
82653256|NCT00290745|165021718|OTHER|||||||0.714|||||||Kruskal-Wallis|||||||0.714
82653257|NCT00290745|165021719|OTHER|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82653258|NCT00290745|165021720|OTHER|||||||0.906|||||||Kruskal-Wallis|||||||0.906
82653259|NCT01488578|165021815|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653260|NCT01488578|165021818|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.032|TWO_SIDED||||||Chi-squared|||||||=0.032
82588396|NCT04884763|164889965|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.778|TWO_SIDED|95.0|-0.91|1.21||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.21|-0.91|0.778
82588397|NCT04884763|164889966|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.105|TWO_SIDED|95.0|-0.2|1.96||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.96|-0.20|0.105
82653261|NCT01488578|165021819|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653262|NCT01488578|165021820|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653263|NCT01488578|165021821|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653264|NCT01488578|165021822|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||The Hosmer-Lemeshow Goodness-of-Fit TEST|||||||<0.001
82653265|NCT01488578|165021824|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.006|TWO_SIDED||||||Chi-squared|||||||=0.006
82653266|NCT01488578|165021825|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653267|NCT01488578|165021826|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.015|TWO_SIDED||||||Chi-squared|||||||=0.015
82653268|NCT01488578|165021827|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82653269|NCT01488578|165021828|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82377399|NCT02422797|164461985|OTHER|||||||0.007||||||P-value for interaction between treatment group and Baseline third agent (25 hydroxy-vitamin D)|ANCOVA|||||||0.007
82377400|NCT02422797|164461985|SUPERIORITY||Odds Ratio (OR)|0.861||||0.011|TWO_SIDED|95.0|0.767|0.967||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.967|0.767|0.011
82588398|NCT04884763|164889967|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.163|TWO_SIDED|95.0|-7.6|42.7||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||42.7|-7.6|0.163
82588399|NCT04884763|164889968|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.91|TWO_SIDED|95.0|-1.13|1.01||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.01|-1.13|0.910
82588400|NCT04884763|164889969|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.972|TWO_SIDED|95.0|-0.83|0.8||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||0.80|-0.83|0.972
82588401|NCT04884763|164889970|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.037|TWO_SIDED|95.0|0.18|5.43||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||5.43|0.18|0.037
82588402|NCT04884763|164889971|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.885|TWO_SIDED|95.0|-3.95|3.43||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||3.43|-3.95|0.885
82588403|NCT04884763|164889972|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.474|TWO_SIDED|95.0|-0.87|1.81||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.81|-0.87|0.474
82588404|NCT04884763|164889973|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.822|TWO_SIDED|95.0|-1.94|1.56||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.56|-1.94|0.822
82588405|NCT04884763|164889974|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.455|TWO_SIDED|95.0|-0.88|1.91||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.91|-0.88|0.455
82377401|NCT02422797|164461985|SUPERIORITY||Odds Ratio (OR)|1.012||||0.745|TWO_SIDED|95.0|0.943|1.085||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||1.085|0.943|0.745
82377402|NCT02422797|164461985|SUPERIORITY||Odds Ratio (OR)|0.877||||0.018|TWO_SIDED|95.0|0.787|0.977||P value assessed the difference between treatment groups (25 hydroxy-vitamin D - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.977|0.787|0.018
82588406|NCT04884763|164889975|SUPERIORITY||Mean Difference (Final Values)|7.1||||0.467|TWO_SIDED|95.0|-12.8|27.0||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||27.0|-12.8|0.467
82588407|NCT04884763|164889976|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.755|TWO_SIDED|95.0|-0.79|1.07||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||1.07|-0.79|0.755
82588408|NCT04884763|164889977|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.613|TWO_SIDED|95.0|-1.18|0.71||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||0.71|-1.18|0.613
82588409|NCT04884763|164889978|SUPERIORITY||Mean Difference (Final Values)|2.58||||0.003|TWO_SIDED|95.0|0.94|4.22||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||4.22|0.94|0.003
82588410|NCT04884763|164889979|SUPERIORITY||Mean Difference (Final Values)|1.19||||0.536|TWO_SIDED|95.0|-2.7|5.08||A two-sided 5% significance level was used for all tests without multiplicity adjustment between multiple endpoints.|Mixed Models Analysis|Model included factors for treatment group, time, and their interaction, with time repeated within subject. Gender as a covariate.|For difference calculation, Arm A - Arm B|Based on two-sided paired t-tests and two-sample t-tests, all conducted at a 5% significance level, this pilot study had 80% power to detect effect sizes of 0.9 for changes over time within groups and effect sizes of 1.2 for differences between groups. To account for dropout, the study enrolled 15 patients per group, for a total of 30 patients.||5.08|-2.70|0.536
82588411|NCT01699789|164889986|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.57|0.95||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.95|0.57|
82588412|NCT01699789|164889987|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.48|1.26||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.26|0.48|
82588413|NCT01699789|164889988|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.61|0.97||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.|In an analysis of change from baseline in likelihood of Poor Mental Health Quality of Life, CEP showed a significant advantage at 6 months, but not at 12 months.|0.97|0.61|
82588414|NCT01699789|164889989|SUPERIORITY||Odds Ratio (OR)|1.3|||||TWO_SIDED|95.0|0.7|2.3||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients at 3 years to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.3|0.7|
82588415|NCT01699789|164889990|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients at 3 years to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.6|
82588416|NCT01699789|164889991|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||||TWO_SIDED|95.0|1.19|2.59||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.59|1.19|
82588417|NCT01699789|164889992|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.03|2.04||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.04|1.03|
82588418|NCT01699789|164889993|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.14|1.98||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.98|1.14|
82588419|NCT01699789|164889994|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.38|0.96||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.96|0.38|
82588420|NCT01699789|164889995|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.69|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.70|0.69|
82588421|NCT01699789|164889996|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.59|||||TWO_SIDED|95.0|0.32|1.09||||||Adjusted analyses used multiply imputed data (N= 249), weighted for eligible sample for enrollment; logistic regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||1.09|0.32|
82588422|NCT01699789|164889997|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.51|||||TWO_SIDED|95.0|0.28|0.95||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.95|0.28|
82653270|NCT02308111|165021830|SUPERIORITY||Hazard Ratio, log|1.01||||0.954|TWO_SIDED|95.0|0.68|1.51||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the interactive web response system (IWRS) as strata|Log Rank|||||1.51|0.68|0.954
82653271|NCT02308111|165021831|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.304|TWO_SIDED|95.0|0.61|1.16||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.16|0.61|0.304
82377403|NCT02422797|164461987|OTHER|||||||0.001||||||P-value for interaction between treatment group and Baseline third agent (bone-specific alkaline phosphatase)|ANCOVA|||||||0.001
82588423|NCT01699789|164889998|SUPERIORITY||Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.14|0.88||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.88|0.14|
82588424|NCT01699789|164889999|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.52|1.25|||||Median cut point for baseline variable.|Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.25|0.52|
82588425|NCT01699789|164890000|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.69|1.41||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition||1.41|0.69|
82653272|NCT02308111|165021832|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.898|TWO_SIDED|95.0|0.69|1.52||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.52|0.69|0.898
82653273|NCT02308111|165021833|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.594|TWO_SIDED|95.0|0.69|1.91||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||1.91|0.69|0.594
82653274|NCT02308111|165021834|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.568|TWO_SIDED|95.0|0.57|2.78||Log rank p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Log Rank|||||2.78|0.57|0.568
82377404|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.728|||<|0.001|TWO_SIDED|95.0|0.686|0.773||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.773|0.686|<.001
82653275|NCT02308111|165021835|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.769|TWO_SIDED|95.0|0.59|2.07||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the interactive web response system (IWRS) as strata.|Gray's Test|||||2.07|0.59|0.769
82588426|NCT01699789|164890001|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.7|1.46||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.46|0.70|
82377405|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.865||||0.004|TWO_SIDED|95.0|0.785|0.954||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.954|0.785|0.004
82588427|NCT01699789|164890002|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.63|||<|0.01|TWO_SIDED|95.0|1.4|4.94|||Regression, Logistic|||Adjusted analyses used multiply imputed data (N=298), weighted for eligible sample for enrollment; logistic regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||4.94|1.40|<.01
82377406|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.788|||<|0.001|TWO_SIDED|95.0|0.719|0.864||P value assessed the difference between treatment groups (bone-specific alkaline phosphatase - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.864|0.719|<.001
82377407|NCT02422797|164461987|OTHER|||||||0.677||||||P-value for interaction between treatment group and Baseline third agent (procollagen type 1-N-propeptide)|ANCOVA|||||||0.677
82377408|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.867|||<|0.001|TWO_SIDED|95.0|0.823|0.914||P value assessed the difference between treatment groups (procollagen type 1-N-propeptide)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.914|0.823|<.001
82377409|NCT02422797|164461987|OTHER||||||<|0.001||||||P-value for interaction between treatment group and Baseline third agent (osteocalcin)|ANCOVA|||||||<.001
82377410|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.853|||<|0.001|TWO_SIDED|95.0|0.799|0.91||P value assessed the difference between treatment groups (osteocalcin - NNRTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.910|0.799|<.001
82377411|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.886||||0.028|TWO_SIDED|95.0|0.796|0.987||P value assessed the difference between treatment groups (osteocalcin - INSTI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.987|0.796|0.028
82490740|NCT00413244|164674992|SUPERIORITY_OR_OTHER|||||||0.03|||||||log mean|||"Statistician used all the time points post-baseline together (Overall). The result gives the estimates and 95% CI of the treatment effect from longitudinal analyses (generalized estimating equation method) which basically pools data from all visits post-baseline."||||0.03
82490741|NCT02653872|164675004|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of Cmax for AZD7986 administered with verapamil over Cmax for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|153.4|||||TWO_SIDED|90.0|136.16|172.83|||ANOVA|||The study was designed based on a test for bioequivalence. Using an estimated standard deviation for Cmax of AZD7986 of less than or equal to 0.202, 12 evaluable subjects were deemed needed to achieve a power of 90%, at an assumed ratio of 0.95, to show that a two-sided 90% confidence interval for the ratio of Cmax between 2 treatments (AZD7986 and AZD7986+ Verapamil/Itraconazole) would be contained within the (0.8;1.25) equivalence limit. 3 extra subjects were added to compensate for dropout.||172.83|136.16|
82490742|NCT02653872|164675004|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of Cmax for AZD7986 administered with itraconazole over Cmax for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|60.66|||||TWO_SIDED|90.0|53.84|68.34|||ANOVA|||The study was designed based on a test for bioequivalence. Using an estimated standard deviation for Cmax of AZD7986 of less than or equal to 0.202, 12 evaluable subjects were deemed needed to achieve a power of 90%, at an assumed ratio of 0.95, to show that a two-sided 90% confidence interval for the ratio of Cmax between 2 treatments (AZD7986 and AZD7986+ Verapamil/Itraconazole) would be contained within the (0.8;1.25) equivalence limit. 3 extra subjects were added to compensate for dropout.||68.34|53.84|
82490743|NCT02653872|164675005|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC for AZD7986 administered with verapamil over AUC for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|132.25|||||TWO_SIDED|90.0|121.78|143.64|||ANOVA|||The study was sized for Cmax primarily and not AUC. A two-sided 90% confidence interval for the ratio of AUC between the two treatments groups was used to determine equivalence.||143.64|121.78|
82490744|NCT02653872|164675005|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC for AZD7986 administered with itraconazole over AUC for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|113.7|||||TWO_SIDED|90.0|104.69|123.49|||ANOVA|||The study was sized for Cmax primarily and not AUC. A two-sided 90% confidence interval for the ratio of AUC between the two treatments groups was used to determine equivalence.||123.49|104.69|
82499387|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.055|0.016|||ANCOVA|||Extension Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.016|-0.055|
82377412|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.743|||<|0.001|TWO_SIDED|95.0|0.672|0.822||P value assessed the difference between treatment groups (osteocalcin - PI)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.822|0.672|<.001
82377413|NCT02422797|164461987|OTHER|||||||0.782||||||P-value for interaction between treatment group and Baseline third agent (type 1 collagen cross-linked C-telopeptide)|ANCOVA|||||||0.782
82377414|NCT02422797|164461987|SUPERIORITY||Odds Ratio (OR)|0.818|||<|0.001|TWO_SIDED|95.0|0.751|0.891||P value assessed the difference between treatment groups (type 1 collagen cross-linked C-telopeptide)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for Baseline third agent class, age, sex, BMI category, smoking status and Baseline biomarker level.|||0.891|0.751|<.001
82588428|NCT01699789|164890003|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.66|1.21||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.21|0.66|
82588429|NCT01699789|164890004|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.61|1.4||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.40|0.61|
82588430|NCT01699789|164890005|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.34|1.25||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.25|0.34|
82588431|NCT01699789|164890006|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.49|||||TWO_SIDED|95.0|0.3|0.82||||||Adjusted analyses used multiply imputed data (N=553), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||0.82|0.30|
82588432|NCT01699789|164890007|SUPERIORITY||Rate Ratio (RR)|2.84|||||TWO_SIDED|95.0|1.39|5.8||||||Adjusted analyses used multiply imputed data (N=588), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline status of the dependent variable and covariates and accounted for the design effect of the cluster randomization.||5.80|1.39|
82588433|NCT01699789|164890008|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|6.2|||||TWO_SIDED|95.0|1.5|24.9||||||Adjusted analyses used multiply imputed data (N=410), weighted for eligible sample for enrollment; Poisson regression model adjusted for baseline and covariates and accounted for the design effect of the cluster randomization.||24.9|1.5|
82588434|NCT01699789|164890009|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.59|1.57||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.57|0.59|
82588435|NCT01699789|164890010|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.4|1.22|||||When analyzed as change from baseline, CEP showed significant reductions in likelihood of behavioral health hospitalizations at 6 months (P \< 0.01) and 12 months (P \< 0.01).|Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.22|.40|
82588436|NCT01699789|164890011|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.66|1.66||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.66|.66|
82588437|NCT01699789|164890012|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.74|1.42||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a generalized estimating equation logistic regression model adjusted for covariates, accounted for the design effect of the cluster randomization. We weighted data for 1,018 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.42|0.74|
82588438|NCT01699789|164890013|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.6|1.05||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.05|.60|
82588439|NCT01699789|164890014|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.97|||||TWO_SIDED|95.0|0.72|1.32||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.32|0.72|
82588440|NCT01699789|164890015|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.39||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a logit link function was used with adjustment for covariates.||1.39|0.55|
82588441|NCT01699789|164890016|SUPERIORITY_OR_OTHER_LEGACY||Rate Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.65|1.29||||||Intent-to-treat analyses of repeated measures were developed including all participants with data at baseline, 6-month, or 12-month. Missing data were imputed. A generalized estimating equation (GEE) with a log link function was used with adjustment for covariates.||1.29|0.65|
82588442|NCT01699789|164890017|SUPERIORITY||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|0.2|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a linear regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|0.2|
82588443|NCT01699789|164890018|SUPERIORITY||Rate Ratio (RR)|0.2|||||TWO_SIDED|95.0|0.1|0.8||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||0.8|0.1|
82588444|NCT01699789|164890019|SUPERIORITY||Rate Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.4|3.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||3.7|0.4|
82588445|NCT01699789|164890020|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.8|1.5||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.5|0.8|
82588446|NCT01699789|164890021|SUPERIORITY||Rate Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.5|2.1||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.1|0.5|
82588447|NCT01699789|164890022|SUPERIORITY||Rate Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.7|1.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.6|0.7|
82588448|NCT01699789|164890023|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.3|4.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||4.0|0.3|
82588449|NCT01699789|164890024|SUPERIORITY||Rate Ratio (RR)|1.1|||||TWO_SIDED|95.0|0.4|2.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.7|0.4|
82588450|NCT01699789|164890025|SUPERIORITY||Rate Ratio (RR)|1.4|||||TWO_SIDED|95.0|0.2|8.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||8.6|0.2|
82588451|NCT01699789|164890026|SUPERIORITY||Rate Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.4|1.8||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Poisson regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.8|0.4|
82588452|NCT01699789|164890027|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.6|1.2|
82588453|NCT01699789|164890028|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.5||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.5|0.5|
82588454|NCT01699789|164890029|SUPERIORITY||Odds Ratio (OR)|2.9|||||TWO_SIDED|95.0|1.0|8.3||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||8.3|1.0|
82588455|NCT01699789|164890030|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.7|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.7|
82588456|NCT01699789|164890031|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.5|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|0.5|
82588457|NCT01699789|164890032|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|1.0|2.0||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||2.0|1.0|
82588458|NCT01699789|164890033|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline and covariates, and accounted for the design effect of the cluster randomization. We weighted data for 980 clients to characteristics of the eligible sample, with item-level imputation for missing data and wave-level imputation for missing surveys. Weights account for non-enrollment among eligible clients and attrition.||1.7|0.6|
82588459|NCT01699789|164890034|SUPERIORITY||Cox Proportional Hazard|1.12|||>|0.05|TWO_SIDED|95.0|0.83|1.5|||Regression, Cox|||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Cox proportional-hazards model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||1.50|0.83|>.05
82588460|NCT01699789|164890035|SUPERIORITY||Cox Proportional Hazard|1.23|||>|0.05|TWO_SIDED|95.0|0.99|1.52|||Regression, Cox|||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a Cox proportional-hazards model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||1.52|0.99|>0.05
82588461|NCT01699789|164890036|SUPERIORITY||Odds Ratio (OR)|1.73|||||TWO_SIDED|95.0|1.0|2.99||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||2.99|1.00|
82588462|NCT01699789|164890037|SUPERIORITY||Odds Ratio (OR)|2.62|||||TWO_SIDED|95.0|1.24|5.54||||||Intent-to-treat, comparative-effectiveness analyses with intervention status as the independent variable, using a logistic regression model adjusted for baseline covariates. Data were multiply imputed and weighted for eligible sample for enrollment, accounted for the design effect of the cluster randomization.||5.54|1.24|
82588463|NCT02554903|164890038|SUPERIORITY||Geometric Mean Ratio|0.7393||||0.0158|TWO_SIDED|95.0|0.5798|0.9426|||ANCOVA|||||0.9426|0.5798|0.0158
82588464|NCT01557348|164890074|SUPERIORITY_OR_OTHER|||||||0.0068||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||||||0.0068
82588465|NCT01557348|164890075|SUPERIORITY_OR_OTHER|||||||0.0588||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||||||0.0588
82588466|NCT01557348|164890076|SUPERIORITY_OR_OTHER|||||||0.1126||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in TJC at Month 6||||0.1126
82588467|NCT01557348|164890076|SUPERIORITY_OR_OTHER|||||||0.2342||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in TJC at Month 12||||0.2342
82588468|NCT01557348|164890077|SUPERIORITY_OR_OTHER|||||||0.4168||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in SJC at Month 6||||0.4168
82588469|NCT01557348|164890077|SUPERIORITY_OR_OTHER|||||||0.5867||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in SJC at Month 12||||0.5867
82588470|NCT01557348|164890078|SUPERIORITY_OR_OTHER|||||||0.8758||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in CRP at Month 6||||0.8758
82588471|NCT01557348|164890078|SUPERIORITY_OR_OTHER|||||||0.4849||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in CRP at Month 12||||0.4849
82588472|NCT01557348|164890079|SUPERIORITY_OR_OTHER|||||||0.0086||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in ESR at Month 6||||0.0086
82588473|NCT01557348|164890079|SUPERIORITY_OR_OTHER|||||||0.2918||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in ESR at Month 12||||0.2918
82377415|NCT02422797|164462000|OTHER|||||||0.179||||||One-sided p-value from weighted least squares chi-squared statistic. A p-value \<=0.10 was used to indicate statistically significant evidence of heterogeneity in the difference in proportions across levels of each analysis strata.|Chi-squared, Corrected|||||||0.179
82588474|NCT01557348|164890080|SUPERIORITY_OR_OTHER|||||||0.0764||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Physician Global Assessment of Disease at Month 6||||0.0764
82588475|NCT01557348|164890080|SUPERIORITY_OR_OTHER|||||||0.0587||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Physician Global Assessment of Disease at Month 12||||0.0587
82588476|NCT01557348|164890081|SUPERIORITY_OR_OTHER|||||||0.0443||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Patient Global Assessment of Disease at Month 6||||0.0443
82588477|NCT01557348|164890081|SUPERIORITY_OR_OTHER|||||||0.4802||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Patient Global Assessment of Disease at Month 12||||0.4802
82588478|NCT01557348|164890082|SUPERIORITY_OR_OTHER|||||||0.2026||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Participant's Visual Analogue Scale Pain Score at Months 6||||0.2026
82588479|NCT01557348|164890082|SUPERIORITY_OR_OTHER|||||||0.0295||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in Participant's Visual Analogue Scale Pain Score at Months 12||||0.0295
82588480|NCT01557348|164890083|SUPERIORITY_OR_OTHER|||||||0.337||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in HAQ-DI at Month 6||||0.3370
82588481|NCT01557348|164890083|SUPERIORITY_OR_OTHER|||||||0.1515||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in HAQ-DI at Month 12||||0.1515
82588482|NCT01557348|164890084|SUPERIORITY_OR_OTHER|||||||0.3253||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in duration of morning stiffness at month 6||||0.3253
82588483|NCT01557348|164890084|SUPERIORITY_OR_OTHER|||||||0.3535||||||LsMean and p-value are based on an ANCOVA model adjusted for significant factors leading to selection of new biologic therapy and unbalanced baseline covariates.|ANCOVA|||Comparison of least squares mean change from Baseline in duration of morning stiffness at month 12||||0.3535
82588484|NCT03829319|164890111|OTHER||Hazard Ratio (HR)|0.88||||0.07976|TWO_SIDED|95.0|0.74|1.05|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.05|0.74|0.07976
82588485|NCT03829319|164890112|OTHER||Hazard Ratio (HR)|1.05||||0.70818|TWO_SIDED|95.0|0.88|1.26|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.26|0.88|0.70818
82588486|NCT03829319|164890113|OTHER||Percent Difference|6.3||||0.08643|TWO_SIDED|95.0|-2.8|15.4|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.||Comparison based on Miettinen \& Nurminen method stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50% ).||15.4|-2.8|0.08643
82588487|NCT03829319|164890117|OTHER||Difference in Least Square Means|-1.01||||0.4805|TWO_SIDED|95.0|-3.83|1.8|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||1.80|-3.83|0.4805
82588488|NCT03829319|164890118|OTHER||Difference in Least Square Means|-0.29||||0.8747|TWO_SIDED|95.0|-3.95|3.36|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||3.36|-3.95|0.8747
82377416|NCT02422797|164462000|OTHER||Risk Difference (RD)|3.5|||||TWO_SIDED|95.0|-1.6|8.6|||||NNRTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||8.6|-1.6|
82377417|NCT02422797|164462000|OTHER||Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-12.1|7.4|||||INSTI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||7.4|-12.1|
82490745|NCT02653872|164675006|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC (0-t) for AZD7986 administered with verapamil over AUC (0-t) for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|133.51|||||TWO_SIDED|90.0|122.7|145.29|||ANOVA|||The study was sized for Cmax primarily and not AUC (0-t). A two-sided 90% confidence interval for the ratio of AUC (0-t) between the two treatments groups was used to determine equivalence.||145.29|122.70|
82588489|NCT03829319|164890119|OTHER||Difference in Least Square Means|-0.91||||0.5941|TWO_SIDED|95.0|-4.24|2.43|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (\<50% versus ≥50%)) as covariates.||2.43|-4.24|0.5941
82588490|NCT03829319|164890120|OTHER||covariate|-2.16||||0.3115|TWO_SIDED|95.0|-6.36|2.03|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||2.03|-6.36|0.3115
82588491|NCT03829319|164890121|OTHER||covariate|-0.37||||0.8134|TWO_SIDED|95.0|-3.47|2.72|||t-test, 2 sided|||Comparision based on a cLDA model with the PRO scores as the response variable with covariates for treatment by time interaction, stratification factors (baseline ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status ( \<50% versus ≥50%)) as covariates.||2.72|-3.47|0.8134
82588492|NCT03829319|164890122|OTHER||Hazard Ratio (HR)|1.16||||0.2133|TWO_SIDED|95.0|0.92|1.47|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.47|0.92|0.2133
82588493|NCT03829319|164890123|OTHER||Hazard Ratio (HR)|1.41||||0.0377|TWO_SIDED|95.0|1.02|1.94|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.94|1.02|0.0377
82588494|NCT03829319|164890124|OTHER||Hazard Ratio (HR)|0.87||||0.4084|TWO_SIDED|95.0|0.62|1.21|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.21|0.62|0.4084
82588495|NCT03829319|164890125|OTHER||Hazard Ratio (HR)|1.04||||0.7955|TWO_SIDED|95.0|0.79|1.36|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.36|0.79|0.7955
82588496|NCT03829319|164890127|OTHER||Hazard Ratio (HR)|1.04||||0.7191|TWO_SIDED|95.0|0.84|1.28|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG performance status, geographic region of the enrolling site, and baseline PD-L1 status.||Comparison based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and Baseline PD-L1 Status (\<50% versus \>=50%).||1.28|0.84|0.7191
82588497|NCT04484259|164890164|NON_INFERIORITY|non-inferiority margin 45 PRU|Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-23.0|38.0||||||The primary end point was non-inferiority of Ticagrelor 60 mg monotherapy vs. aspirin plus Ticagrelor 60 mg||38|-23|
82588498|NCT03951220|164890169|SUPERIORITY|||||||0.7343|||||||ANOVA|||||||0.7343
82588499|NCT03951220|164890170|OTHER|Correlation|Spearman (r)|0.39||||0.0445|TWO_SIDED|95.0|0.0|0.68|||Spearman's rank correlation coeffcieitn|||||0.68|0.00|0.0445
82588500|NCT03951220|164890171|SUPERIORITY|||||||0.0079||||||Dunn's multiple comparisons test|Kruskal-Wallis|||For baseline P1NP||||0.0079
82588501|NCT03951220|164890171|SUPERIORITY|||||||0.0482||||||Dunn's multiple comparison test|ANOVA|||For baseline sclerostin||||0.0482
82588502|NCT03951220|164890182|OTHER|||||||0.015|||||||Fisher-Freeman-Halton exact test|||||||0.015
82588503|NCT03951220|164890185|OTHER|||||||0.007|||||||Mann-Whitney test|||||||0.007
82588504|NCT04498832|164890192|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) for the ratio of GMTs was greater than (\>) 1 between groups for each of the comparisons.|GMT ratio|2.81|||||TWO_SIDED|95.0|2.46|3.2|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|A/H1N1||3.20|2.46|
82588505|NCT04498832|164890192|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|2.25|||||TWO_SIDED|95.0|2.03|2.5|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|A/H3N2-like||2.50|2.03|
82653276|NCT02308111|165021836|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.599|TWO_SIDED|95.0|0.42|1.67||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.67|0.42|0.599
82588506|NCT04498832|164890192|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|2.55|||||TWO_SIDED|95.0|2.31|2.81|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|B/Victoria-like||2.81|2.31|
82588507|NCT04498832|164890192|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95%CI for the ratio of GMTs was \>1 between groups for each of the comparisons.|GMT ratio|3.12|||||TWO_SIDED|95.0|2.85|3.42|||||The 2-sided 95% CI was based on the student t-distribution of logarithmic transformation of the individual titers. Antilog transformations were applied to the results.|B/Yamagata||3.42|2.85|
82588508|NCT04498832|164890193|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|29.7|||||TWO_SIDED|95.0|25.7|33.5|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|A/H1N1||33.5|25.7|
82588509|NCT04498832|164890193|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|28.1|||||TWO_SIDED|95.0|24.0|32.0|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|A/H3N2-like||32.0|24.0|
82653277|NCT02308111|165021837|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.745|TWO_SIDED|95.0|0.18|3.43||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||3.43|0.18|0.745
82588510|NCT04498832|164890193|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|31.4|||||TWO_SIDED|95.0|27.4|35.2|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|B/Victoria-like||35.2|27.4|
82653278|NCT02308111|165021838|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.437|TWO_SIDED|95.0|0.43|1.44||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.44|0.43|0.437
82653279|NCT02308111|165021839|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.838|TWO_SIDED|95.0|0.37|2.24||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||2.24|0.37|0.838
82588511|NCT04498832|164890193|SUPERIORITY|Superiority on seroconversions was concluded if the lower limit of the 2-sided 95% CI of the difference in percentage between groups was \> 0% for each of the comparisons.|Difference in percentage|35.4|||||TWO_SIDED|95.0|31.4|39.3|||||The 2-sided 95% CI for the difference was based on the Wilson score method without continuity correction.|B/Yamagata||39.3|31.4|
82588512|NCT02684357|164890227|OTHER||Adjusted percentage difference|72.5|||<|0.001|TWO_SIDED|95.0|66.8|78.2||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||78.2|66.8|< 0.001
82588513|NCT02684357|164890228|OTHER||Adjusted percentage difference|78.5|||<|0.001|TWO_SIDED|95.0|72.4|84.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated by the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||84.5|72.4|< 0.001
82588514|NCT02684357|164890229|OTHER||Adjusted percentage difference|47.5|||<|0.001|TWO_SIDED|95.0|40.9|54.2||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||54.2|40.9|< 0.001
82588515|NCT02684357|164890230|OTHER||Adjusted percentage difference|48.2|||<|0.001|TWO_SIDED|95.0|41.9|54.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||54.6|41.9|< 0.001
82588516|NCT02684357|164890231|OTHER||Adjusted percentage difference|62.2|||<|0.001|TWO_SIDED|95.0|55.5|68.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||68.9|55.5|< 0.001
82588517|NCT02684357|164890232|OTHER||Adjusted percentage difference|31.2|||<|0.001|TWO_SIDED|95.0|25.7|36.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||36.6|25.7|< 0.001
82588518|NCT02684357|164890233|OTHER||Adjusted percentage difference|27.6|||<|0.001|TWO_SIDED|95.0|16.7|38.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||38.5|16.7|< 0.001
82588519|NCT02684357|164890234|OTHER||Adjusted percentage difference|22.3|||<|0.001|TWO_SIDED|95.0|12.0|32.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||32.5|12.0|< 0.001
82653280|NCT02308111|165021840|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.98|TWO_SIDED|95.0|0.26|4.04||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||4.04|0.26|0.980
82653281|NCT02308111|165021841|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.933|TWO_SIDED|95.0|0.58|1.83||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.83|0.58|0.933
82653282|NCT02308111|165021842|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.468|TWO_SIDED|95.0|0.53|1.34||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.34|0.53|0.468
82653283|NCT02308111|165021843|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.178|TWO_SIDED|95.0|0.13|1.41||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||1.41|0.13|0.178
82588520|NCT02684357|164890235|OTHER||Adjusted percentage difference|27.0|||<|0.001|TWO_SIDED|95.0|17.0|37.0||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||37.0|17.0|< 0.001
82588521|NCT02684357|164890236|OTHER||Adjusted percentage difference|26.3|||<|0.001|TWO_SIDED|95.0|16.1|36.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||36.4|16.1|< 0.001
82588522|NCT02684357|164890237|OTHER||Adjusted percentage difference|30.2|||<|0.001|TWO_SIDED|95.0|19.6|40.9||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.9|19.6|< 0.001
82588523|NCT02684357|164890238|OTHER||Adjusted percentage difference|29.5|||<|0.001|TWO_SIDED|95.0|18.9|40.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.1|18.9|< 0.001
82588524|NCT02684357|164890239|OTHER||Adjusted percentage difference|29.5|||<|0.001|TWO_SIDED|95.0|18.9|40.1||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||40.1|18.9|< 0.001
82588525|NCT02684357|164890240|OTHER||Adjusted percentage difference|19.2|||<|0.001|TWO_SIDED|95.0|9.5|28.8||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||28.8|9.5|< 0.001
82588526|NCT02684357|164890241|OTHER||Adjusted percentage difference|18.0|||<|0.001|TWO_SIDED|95.0|7.8|28.3||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||28.3|7.8|< 0.001
82588527|NCT02684357|164890242|OTHER||Adjusted percentage difference|20.2|||<|0.001|TWO_SIDED|95.0|9.1|31.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||31.4|9.1|< 0.001
82588528|NCT02684357|164890243|OTHER||Mean Difference (Final Values)|-6.375|||<|0.001|TWO_SIDED|95.0|-7.102|-5.648|||van Elteren test|||P-value calculated by the van Elteren test stratified for baseline weight (≤100 kg vs \>100 kg) and prior exposure to TNF antagonists (0 vs ≥1).||-5.648|-7.102|< 0.001
82588529|NCT02684357|164890244|OTHER||Adjusted percentage difference|84.7|||<|0.001|TWO_SIDED|95.0|79.0|90.4||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||90.4|79.0|< 0.001
82588530|NCT02684357|164890245|OTHER||Adjusted percentage difference|29.1|||<|0.001|TWO_SIDED|95.0|18.5|39.6||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||39.6|18.5|< 0.001
82653284|NCT02308111|165021843|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.19|TWO_SIDED|95.0|0.13|1.41|||Cochran-Mantel-Haenszel|||||1.41|0.13|0.190
82653285|NCT02308111|165021844|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.443|TWO_SIDED|95.0|0.05|3.54||Gray's test p-value and hazard ratio are based on stratified analyses, with the randomization stratification factors entered in the IWRS as strata.|Gray's Test|||||3.54|0.05|0.443
82653286|NCT03387033|165022013|OTHER||||||<|0.005|||||||Paired t-test|||||||<0.005
82653287|NCT03387033|165022014|OTHER||||||<|0.05|||||||Paired t-test|||||||<0.05
82653288|NCT03387033|165022015|OTHER||||||<|0.05|||||||Paired t-test|||||||<0.05
82377418|NCT02422797|164462000|OTHER||Risk Difference (RD)|-5.4|||||TWO_SIDED|95.0|-13.9|3.1|||||PI: No formal non-inferiority margin has been pre-specified for secondary endpoints.|||3.1|-13.9|
82588531|NCT02684357|164890246|OTHER||Adjusted percentage difference|14.7||||0.001|TWO_SIDED|95.0|5.9|23.5||Cochran-Mantel-Haenszel test adjusted for strata (baseline weight \[≤100 kg vs \>100 kg\] and prior exposure to tumor necrosis factor \[TNF\] antagonists \[0 vs ≥1\]). If there was a stratum containing zero count, 0.1 was added to each cell.|Cochran-Mantel-Haenszel||95% CI for adjusted difference of 2 treatment groups, calculated from the Cochran-Mantel-Haenszel test adjusted for the comparison of 2 treatment groups. If there was a stratum containing zero count, 0.1 was added to each cell.|||23.5|5.9|0.001
82588532|NCT04567615|164890247|SUPERIORITY||Strata adjusted difference in ORR|-2.7|||||TWO_SIDED|95.0|-10.7|5.3|||||Difference in ORR of Treatment B over ORR Treatment A|||5.3|-10.7|
82588533|NCT04567615|164890250|SUPERIORITY||Cox proportional hazard model|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||HR of Treatment B over HR Treatment A|||1.33|0.75|
82588534|NCT04567615|164890251|SUPERIORITY||Strata adjusted difference in ORR|-0.9|||||TWO_SIDED|95.0|-9.2|7.4|||||Difference in ORR of Treatment B over ORR Treatment A|||7.4|-9.2|
82588535|NCT04567615|164890254|SUPERIORITY||Cox proportional hazard model|1.0|||||TWO_SIDED|95.0|0.75|1.33|||||HR of Treatment B over HR of Treatment A|||1.33|0.75|
82588536|NCT04567615|164890255|SUPERIORITY||Cox proportional hazard model|1.05|||||TWO_SIDED|95.0|0.74|1.49|||||HR of Treatment B over HR of Treatment A|||1.49|0.74|
82653289|NCT00601484|165022016|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-1.36|STANDARD_ERROR_OF_MEAN|0.503|||TWO_SIDED|90.0|-2.203|-0.51||||||Analysis was based on analysis of covariance (ANCOVA) model with terms for treatment, age, gender, body mass index (BMI), baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.510|-2.203|
82588537|NCT05028517|164890262|SUPERIORITY||ANOVA Omnibus F test|0.511||||0.602|TWO_SIDED||||||ANOVA|||||||.602
82588538|NCT05028517|164890263|SUPERIORITY||ANOVA Omnibus F test|1.245||||0.294|TWO_SIDED||||||ANOVA|||||||.294
82588539|NCT05028517|164890264|SUPERIORITY||Anova Omnibus F test|2.585||||0.039|TWO_SIDED||||||ANOVA|||||||.039
82588540|NCT05028517|164890265|SUPERIORITY||Anova Omnibus F test|2.723||||0.032|TWO_SIDED||||||ANOVA|||||||0.032
82588541|NCT05028517|164890266|SUPERIORITY||Anova Omnibus F test|0.588||||0.672|TWO_SIDED||||||ANOVA|||||||0.672
82588542|NCT05028517|164890267|SUPERIORITY||Anova Omnibus F test|2.612||||0.038|TWO_SIDED||||||ANOVA|||||||0.038
82588543|NCT05028517|164890268|SUPERIORITY||Anova Omnibus F test|0.196||||0.94|TWO_SIDED||||||ANOVA|||||||.940
82588544|NCT05028517|164890269|SUPERIORITY||Anova Omnibus F test|0.59||||0.671|TWO_SIDED||||||ANOVA|||||||.671
82653290|NCT00601484|165022017|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|90.0|-1.363|0.011||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.011|-1.363|
82377419|NCT02422797|164462008|OTHER|||||||0.43||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 4)|ANCOVA|||||||0.430
82588545|NCT05028517|164890270|SUPERIORITY||Anova Omnibus F test|0.896||||0.468|TWO_SIDED||||||ANOVA|||||||.468
82588546|NCT05028517|164890271|SUPERIORITY||Anova Omnibus F test|3.42||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82588547|NCT05028517|164890272|SUPERIORITY||Anova Omnibus F test|1.384||||0.257|TWO_SIDED||||||ANOVA|||||||.257
82588548|NCT05028517|164890273|SUPERIORITY||Anova Omnibus F test|1.686||||0.192|TWO_SIDED||||||ANOVA|||||||.192
82588549|NCT05028517|164890274|SUPERIORITY||Anova Omnibus F test|0.651||||0.524|TWO_SIDED||||||ANOVA|||||||.524
82588550|NCT05028517|164890275|SUPERIORITY||Anova Omnibus F test|1.32||||0.255|TWO_SIDED||||||ANOVA|||||||.255
82588551|NCT01008696|164890336|SUPERIORITY_OR_OTHER|||||||0.8849||||||Homozygous extensive metabolizer|Chi-squared|||||||0.8849
82588552|NCT01008696|164890336|SUPERIORITY_OR_OTHER|||||||0.865||||||Heterozygous extensive metabolizer|Chi-squared|||||||0.8650
82588553|NCT01008696|164890336|SUPERIORITY_OR_OTHER|||||||0.266||||||Poor metabolizer|Chi-squared|||||||0.2660
82588554|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.7734||||||Change at Day 57: Heartburn|Wilcoxon rank-sum test|||||||0.7734
82588555|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.6414||||||Change at Day 57: Regurgitation|Wilcoxon rank-sum test|||||||0.6414
82588556|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.7809||||||Change at Day 57: Globus sensation|Wilcoxon rank-sum test|||||||0.7809
82588557|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.8294||||||Change at Day 57: Chronic cough|Wilcoxon rank-sum test|||||||0.8294
82588558|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.9874||||||Change at Day 57: Epigastric pain|Wilcoxon rank-sum test|||||||0.9874
82588559|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.2776||||||Change at Day 57: Non cardiac chest pain|Wilcoxon rank-sum test|||||||0.2776
82588560|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.6295||||||Change at Day 57: Hoarseness|Wilcoxon rank-sum test|||||||0.6295
82588561|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.5335||||||Change at Day 57: Dysphagia|Wilcoxon rank-sum test|||||||0.5335
82588562|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.8068||||||Change at Day 57: Abdominal distension|Wilcoxon rank-sum test|||||||0.8068
82588563|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.568||||||Change at Day 57: Bloating|Wilcoxon rank-sum test|||||||0.5680
82588564|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.5913||||||Change at Day 57: Post-prandial discomfort|Wilcoxon rank-sum test|||||||0.5913
82588565|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.5566||||||Change at Day 57: Early satiety|Wilcoxon rank-sum test|||||||0.5566
82588566|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.7047||||||Change at Day 57: Nausea|Wilcoxon rank-sum test|||||||0.7047
82588567|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.3654||||||Change at Day 57: Vomitting|Wilcoxon rank-sum test|||||||0.3654
82588568|NCT01008696|164890337|SUPERIORITY_OR_OTHER|||||||0.531||||||Change at Day 57: Belching|Wilcoxon rank-sum test|||||||0.5310
82588569|NCT01008696|164890338|SUPERIORITY_OR_OTHER|||||||0.5032|||||||Wilcoxon rank-sum test|||||||0.5032
82588570|NCT02366728|164890339|OTHER|||||||0.072|||||||Log Rank|||||||0.072
82588571|NCT02366728|164890339|OTHER|||||||0.089|||||||Log Rank|||||||0.089
82588572|NCT02366728|164890340|OTHER|||||||0.0195|||||||Wilcoxon (Mann-Whitney)|||||||0.0195
82588573|NCT02366728|164890341|OTHER|||||||0.4|||||||Log Rank|||||||0.40
82588574|NCT02366728|164890342|OTHER|||||||0.4|||||||Log Rank|||||||0.40
82588575|NCT02366728|164890343|OTHER|||||||0.16|||||||Log Rank|||||||0.16
82588576|NCT02366728|164890343|OTHER|||||||0.078|||||||Log Rank|||||||0.078
82588577|NCT02366728|164890344|OTHER|||||||0.64|||||||Log Rank|||||||0.64
82588578|NCT02366728|164890345|OTHER|||||||0.29|||||||Log Rank|||||||0.29
82588579|NCT03258554|164890376|SUPERIORITY||Hazard Ratio (HR)|1.33||||0.8878|TWO_SIDED|95.0|0.84|2.12||One-sided significance level = 0.2|Log Rank||Reference arm = radiation therapy + cetuximab|Sixty-nine progression-free survival (PFS) events provides 0.80 power for a log-rank test with one-sided alpha of 0.20 to detect an improvement in PFS corresponding to a median of 2.35 years (RT+Durvalumab) compared to 1.53 years (RT+Cetuximab). A hazard ratio (RT+Durvalumab/RT+Cetuximab) ≤ 0.806 would indicate a rejection of the null hypothesis (no difference between the arms) and the study would continue to phase III; otherwise, the study would not continue to phase III.||2.12|0.84|0.8878
82588580|NCT03258554|164890377|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.8175|TWO_SIDED|95.0|0.74|2.28||One-side significance level = 0.025|Log Rank|||||2.28|0.74|0.8175
82588581|NCT03258554|164890378|SUPERIORITY||Hazard Ratio (HR)|1.71||||0.1001|TWO_SIDED|95.0|0.89|3.28||Two-sided significance level = 0.05|Log Rank||Reference level = RT+ Cetuximab|||3.28|0.89|0.1001
82588582|NCT03258554|164890379|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.5197|TWO_SIDED|95.0|0.32|1.77||Two-sided significance level = 0.05|Log Rank||Reference level = RT+ Cetuximab|||1.77|0.32|0.5197
82588583|NCT03258554|164890380|SUPERIORITY||Hazard Ratio (HR)|1.75||||0.3201|TWO_SIDED|95.0|0.57|5.38||Two-sided significance level = 0.05|Log Rank|||||5.38|0.57|0.3201
82588584|NCT03258554|164890381|SUPERIORITY|||||||1||||||Two-sided significance level = 0.05|Fisher Exact|||||||1.00
82588585|NCT03258554|164890382|SUPERIORITY|||||||0.0688||||||Two-side significance level = 0.05|Fisher Exact|||||||0.0688
82588586|NCT03258554|164890385|SUPERIORITY||Cox Proportional Hazard|1.11|||||TWO_SIDED|95.0|0.62|1.97|||||Reference arm = RT + Cetuximab|CPS ≥ 1||1.97|0.62|
82588587|NCT03258554|164890385|SUPERIORITY||Cox Proportional Hazard|1.64|||||TWO_SIDED|95.0|0.66|4.06|||||Reference arm = RT + Cetuximab|CPS = 0||4.06|0.66|
82588588|NCT03258554|164890385|SUPERIORITY|||||||0.41||||||Testing the interaction of treatment arm and PD-L1 expression (CPS ≥ 1, CPS = 0)|Regression, Cox|||Interaction||||0.41
82588589|NCT03258554|164890386|SUPERIORITY||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.57|2.51|||||Reference arm = RT + cetuximab|p16-positive||2.51|0.57|
82588590|NCT03258554|164890386|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|0.83|2.89|||||Reference arm = RT + cetuximab|p16-negative||2.89|0.83|
82588591|NCT03258554|164890386|SUPERIORITY|||||||0.61||||||Testing the interaction of treatment arm and p16 status (positive, negative)|Regression, Cox|||Interaction||||0.61
82653291|NCT00601484|165022017|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.498|||TWO_SIDED|90.0|-1.969|-0.297||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.297|-1.969|
82588592|NCT01284062|164890472|SUPERIORITY_OR_OTHER||Least squares (LS) mean|0.41|||||TWO_SIDED|80.0|0.225|0.766|||||LS mean and confidence interval (CI) were based on back log-transformation of those from the analysis of covariance (ANCOVA) model.|||0.766|0.225|
82588593|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean|0.29|||||TWO_SIDED|80.0|0.187|0.446|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||0.446|0.187|
82588594|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean|0.79|||||TWO_SIDED|80.0|0.517|1.203|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||1.203|0.517|
82588595|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean|1.24|||||TWO_SIDED|80.0|0.794|1.949|||||LS mean and CI were based on back log-transformation of those from the ANCOVA model.|||1.949|0.794|
82588596|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean ratio|0.7||||0.532|TWO_SIDED|80.0|0.329|1.472|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.472|0.329|0.5320
82588597|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean ratio|1.9||||0.27|TWO_SIDED|80.0|0.9|4.013|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||4.013|0.900|0.2700
82588598|NCT01284062|164890472|SUPERIORITY_OR_OTHER||LS mean ratio|3.0||||0.0666|TWO_SIDED|80.0|1.403|6.409|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||6.409|1.403|0.0666
82588599|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.7|||||TWO_SIDED|80.0|0.466|1.048||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.048|0.466|
82588600|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.81|||||TWO_SIDED|80.0|0.552|1.185||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.185|0.552|
82588601|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.71|||||TWO_SIDED|80.0|0.488|1.027||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.027|0.488|
82588602|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.77|||||TWO_SIDED|80.0|0.5|1.195||||||Week 2: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.195|0.500|
82588603|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.92|||||TWO_SIDED|80.0|0.631|1.328||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.328|0.631|
82588604|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.47|||||TWO_SIDED|80.0|0.339|0.655||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.655|0.339|
82588605|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.92|||||TWO_SIDED|80.0|0.669|1.269||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.269|0.669|
82588606|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.55|||||TWO_SIDED|80.0|0.388|0.779||||||Week 4: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.779|0.388|
82588607|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.78|||||TWO_SIDED|80.0|0.454|1.331||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.331|0.454|
82588608|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.36|||||TWO_SIDED|80.0|0.236|0.553||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.553|0.236|
82490746|NCT02653872|164675006|NON_INFERIORITY_OR_EQUIVALENCE|Geometric mean ratio of AUC (0-t) for AZD7986 administered with itraconazole over AUC (0-t) for AZD7986 administered alone. Presented as a percentage.|% Geometric Mean Ratio|112.45|||||TWO_SIDED|90.0|103.34|122.37|||ANOVA|||The study was sized for Cmax primarily and not AUC (0-t). A two-sided 90% confidence interval for the ratio of AUC (0-t) between the two treatments groups was used to determine equivalence.||122.37|103.34|
82588609|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|1.14|||||TWO_SIDED|80.0|0.757|1.722||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.722|0.757|
82588610|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.52|||||TWO_SIDED|80.0|0.338|0.788||||||Week 8: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.788|0.338|
82588611|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.64|||||TWO_SIDED|80.0|0.374|1.084||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.084|0.374|
82588612|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.19|||||TWO_SIDED|80.0|0.122|0.297||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||0.297|0.122|
82588613|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.96|||||TWO_SIDED|80.0|0.623|1.465||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.465|0.623|
82588614|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean|0.67|||||TWO_SIDED|80.0|0.411|1.076||||||Week 12: LS mean and CI were based on back log-transformation of those from the ANCOVA model.||1.076|0.411|
82588615|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.16||||0.7352|TWO_SIDED|80.0|0.663|2.021|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.021|0.663|0.7352
82588616|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.01||||0.9754|TWO_SIDED|80.0|0.586|1.753|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.753|0.586|0.9754
82588617|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.11||||0.8277|TWO_SIDED|80.0|0.609|2.008|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 2: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.008|0.609|0.8277
82588618|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|0.51||||0.0885|TWO_SIDED|80.0|0.313|0.846|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.846|0.313|0.0885
82588619|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.01||||0.9856|TWO_SIDED|80.0|0.617|1.644|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.644|0.617|0.9856
82588620|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|0.6||||0.1996|TWO_SIDED|80.0|0.361|1.0|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 4: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.000|0.361|0.1996
82588621|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|0.46||||0.1553|TWO_SIDED|80.0|0.233|0.926|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.926|0.233|0.1553
82588622|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.47||||0.4633|TWO_SIDED|80.0|0.748|2.882|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.882|0.748|0.4633
82490747|NCT02761733|164675019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3652||||0.0679|TWO_SIDED|95.0|-6.9559|0.2255||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 173|||.2255|-6.9559|.0679
82490748|NCT02761733|164675019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.882||||0.0999|TWO_SIDED|95.0|-6.2957|0.5317||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 165|||0.5317|-6.2957|.0999
82588623|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|0.66||||0.4409|TWO_SIDED|80.0|0.335|1.316|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 8: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||1.316|0.335|0.4409
82588624|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|0.3||||0.0283|TWO_SIDED|80.0|0.15|0.598|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||0.598|0.150|0.0283
82588625|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.5||||0.4434|TWO_SIDED|80.0|0.758|2.97|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.970|0.758|0.4434
82588626|NCT01284062|164890479|SUPERIORITY_OR_OTHER||LS mean ratio|1.04||||0.9372|TWO_SIDED|80.0|0.51|2.141|||ANCOVA||LS mean ratio and CI were based on back log-transformation of those from the ANCOVA model.|Week 12: P-value was calculated from ANCOVA model with terms for treatment group, baseline (in log scale).||2.141|0.510|0.9372
82588627|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percentage of participants|41.67|||||TWO_SIDED|80.0|25.53|59.81|||||CI was assessed by Wilson score method.|||59.81|25.53|
82588628|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percentage of participants|60.0|||||TWO_SIDED|80.0|43.59|74.43|||||CI was assessed by Wilson score method.|||74.43|43.59|
82588629|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|80.0|34.74|65.26|||||CI was assessed by Wilson score method.|||65.26|34.74|
82588630|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percentage of participants|15.38|||||TWO_SIDED|80.0|6.58|31.96|||||CI was assessed by Wilson score method.|||31.96|6.58|
82588631|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percent difference|18.33||||0.4495|TWO_SIDED|80.0|-6.13|39.98|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||39.98|-6.13|0.4495
82490749|NCT02761733|164675019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0139||||0.5588|TWO_SIDED|95.0|-4.4957|2.3779||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 148|||2.3779|-4.4957|.5588
82490750|NCT02761733|164675019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2798||||0.8532|TWO_SIDED|95.0|-2.6771|3.2367||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 136|||3.2367|-2.6771|.8532
82490751|NCT02761733|164675020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4524||||0.0988|TWO_SIDED|95.0|-7.5302|0.6254||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 180|||0.6254|-7.5302|.0988
82490752|NCT02761733|164675020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3087||||0.876|TWO_SIDED|95.0|-4.1799|3.5625||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 166|||3.5625|-4.1799|.8760
82490753|NCT02761733|164675020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.541||||0.1878|TWO_SIDED|95.0|-1.2234|6.3054||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 153|||6.3054|-1.2234|.1878
82490754|NCT02761733|164675020|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6237||||0.333|TWO_SIDED|95.0|-4.9|1.6526||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 143|||1.6526|-4.9000|.3330
82490755|NCT02761733|164675021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9284||||0.6588|TWO_SIDED|95.0|-10.4728|6.616||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 175|||6.6160|-10.4728|.6588
82588632|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percent difference|8.33||||0.7177|TWO_SIDED|80.0|-15.37|30.54|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||30.54|-15.37|0.7177
82588633|NCT01284062|164890484|SUPERIORITY_OR_OTHER||percent difference|-26.28||||0.2016|TWO_SIDED|80.0|-46.45|-3.15|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||-3.15|-46.45|0.2016
82588634|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percentage of participants|16.67|||||TWO_SIDED|80.0|7.14|34.22|||||CI was assessed by Wilson score method.|||34.22|7.14|
82490756|NCT02761733|164675021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3959||||0.2633|TWO_SIDED|95.0|-2.2237|11.0155||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis|Satterthwaite adjusted df = 169||a priori test||11.0155|-2.2237|.2633
82490757|NCT02761733|164675021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9703||||0.0343|TWO_SIDED|95.0|-17.2107|-0.7299||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis|Satterthwaite adjusted df = 166|Satterthwaite adjusted df = 166|a priori test||-0.7299|-17.2107|.0343
82490758|NCT02761733|164675021|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.7297||||0.3126|TWO_SIDED|95.0|-3.4864|10.9458||Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Mixed Models Analysis||Satterthwaite adjusted df = 163|a priori test||10.9458|-3.4864|.3126
82490759|NCT02761733|164675022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1241||||0.584|TWO_SIDED|95.0|-0.5675|0.3193||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 142|||.3193|-.5675|.5840
82490760|NCT02761733|164675022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2642||||0.2404|TWO_SIDED|95.0|-0.1754|0.7038||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 184|||.7038|-.1754|.2404
82588635|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percentage of participants|33.33|||||TWO_SIDED|80.0|20.08|49.88|||||CI was assessed by Wilson score method.|||49.88|20.08|
82588636|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percentage of participants|18.75|||||TWO_SIDED|80.0|9.4|33.92|||||CI was assessed by Wilson score method.|||33.92|9.40|
82588637|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percentage of participants|0.0|||||TWO_SIDED|80.0|0.0|11.22|||||CI was assessed by Wilson score method.|||11.22|0.00|
82588638|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percent difference|16.67||||0.4082|TWO_SIDED|80.0|-5.33|35.76|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||35.76|-5.33|0.4082
82588639|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percent difference|2.08||||1|TWO_SIDED|80.0|-17.8|19.99|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||19.99|-17.80|1.0000
82588640|NCT01284062|164890485|SUPERIORITY_OR_OTHER||percent difference|-16.67||||0.22|TWO_SIDED|80.0|-34.22|-1.95|||Fisher Exact||CI was assessed by Wilson score method.|Two-sided p-value was calculated by Fisher's exact test.||-1.95|-34.22|0.2200
82588641|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean|-1.32|||||TWO_SIDED|80.0|-2.332|-0.3||||||||-0.300|-2.332|
82490761|NCT02761733|164675022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3192||||0.1074|TWO_SIDED|95.0|-0.0667|0.7051||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 129|||.7051|-.0667|.1074
82490762|NCT02761733|164675022|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0576||||0.7677|TWO_SIDED|95.0|-0.3238|0.439||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 131|||.4390|-.3238|.7677
82490763|NCT02761733|164675023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.026||||0.9046|TWO_SIDED|95.0|-0.4507|0.3987||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 182|||.3987|-.4507|.9046
82490764|NCT02761733|164675023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2258||||0.2518|TWO_SIDED|95.0|-0.1591|0.6107||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 173|||.6107|-.1591|.2518
82490765|NCT02761733|164675023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.437||||0.0338|TWO_SIDED|95.0|-0.837|-0.037||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 165|||-.0370|-.8370|.0338
82490766|NCT02761733|164675023|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2564||||0.1555|TWO_SIDED|95.0|-0.6086|0.0958||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 157|||.0958|-.6086|.1555
82588642|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean|-2.28|||||TWO_SIDED|80.0|-3.19|-1.374||||||||-1.374|-3.190|
82588643|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean|-2.3|||||TWO_SIDED|80.0|-3.178|-1.419||||||||-1.419|-3.178|
82588644|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean|-0.79|||||TWO_SIDED|80.0|-1.761|0.19||||||||0.190|-1.761|
82588645|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean difference|-0.97||||0.3639|TWO_SIDED|80.0|-2.335|0.403|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||0.403|-2.335|0.3639
82588646|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean difference|-0.98||||0.3446|TWO_SIDED|80.0|-2.32|0.355|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||0.355|-2.320|0.3446
82588647|NCT01284062|164890486|SUPERIORITY_OR_OTHER||LS mean difference|0.53||||0.6285|TWO_SIDED|80.0|-0.884|1.945|||ANCOVA|||P-value was analyzed from ANCOVA model with terms for treatment group and baseline.||1.945|-0.884|0.6285
82588648|NCT00323297|164890598|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.38|STANDARD_ERROR_OF_MEAN|11.722||0.5802|TWO_SIDED|90.0|-21.843|17.087||A sequential closed-testing procedure was implemented for all secondary endpoints. If no statistically significant treatment effect was found for the primary endpoint then statistical tests were not to be performed on the secondary endpoints.|ANCOVA|The mean difference in method of estimation is the difference between Sildenafil - placebo.||"The estimated sample size was based upon the primary endpoint. A sample size of 51 subjects per treatment group was required to detect a difference of 30 meters between treatments with 80% power at a one-sided significance level of 0.05, assuming a standard deviation of 60 meters.~This primary statistical analysis was carried for Week 12 data."||17.087|-21.843|0.5802
82588649|NCT01603082|164890607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-159.1|STANDARD_ERROR_OF_MEAN|17.9|<|0.001|TWO_SIDED|95.0|-194.7|-123.5|||t-test, 2 sided||Ticagrelor minus clopidogrel.|||-123.5|-194.7|<0.001
82588650|NCT01603082|164890608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.4|STANDARD_ERROR_OF_MEAN|15.2||0.182|TWO_SIDED|95.0|-50.5|9.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at 0.5 hours after the loading dose||9.7|-50.5|0.182
82588651|NCT01603082|164890608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-158.5|STANDARD_ERROR_OF_MEAN|15.5|<|0.001|TWO_SIDED|95.0|-189.4|-127.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at 8 hours after the loading dose.||-127.7|-189.4|<0.001
82588652|NCT01603082|164890608|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-43.6|STANDARD_ERROR_OF_MEAN|16.5||0.01|TWO_SIDED|95.0|-76.5|-10.7|||t-test, 2 sided||Ticagrelor minus clopidogrel.|Analysis at end of PCI.||-10.7|-76.5|0.010
82588653|NCT00852592|164890611|SUPERIORITY_OR_OTHER||||||=|0.005|||||||ANOVA|||||||=0.005
82588654|NCT00852592|164890612|SUPERIORITY_OR_OTHER||||||=|0.004|||||||ANOVA|||||||=0.004
82588655|NCT01026142|164890616|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0731|TWO_SIDED|95.0|0.65|1.02||The primary endpoint, IRF-assessed PFS, is tested at a two-sided 5% significance level.|Log Rank|Two-sided and stratified by: prior CNS disease present/absent, measurable disease at baseline, and response to trastuzumab in 1L metastatic setting.|The stratified Cox proportional hazard model will be used to estimate the HR between the two treatment arms and its 95% CI.|"The null hypothesis for the primary endpoint is that the survival distributions of IRF-assessed PFS in the two treatment groups are the same. The alternative hypothesis is that the survival distributions of IRF-assessed PFS in the treatment and the control arms are different:~H0: IRF PFS\<pertuzumab\> = IRF PFS\<control\> vs. H1: IRF PFS\<pertuzumab\> ≠ IRF PFS\<control\>"||1.02|0.65|0.0731
82588656|NCT00846885|164890626|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|110.0||||||90.0|103.0|117.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||117|103|
82653292|NCT00601484|165022017|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.559|||TWO_SIDED|90.0|-1.79|0.09||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.090|-1.790|
82588657|NCT00846885|164890627|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|106.0||||||90.0|102.0|111.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||111|102|
82588658|NCT00846885|164890628|NON_INFERIORITY_OR_EQUIVALENCE|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|105.0||||||90.0|101.0|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||110|101|
82588659|NCT01862640|164890629|SUPERIORITY||Least square (LS) mean difference|-3.77|||=|0.0404|TWO_SIDED|95.0|-7.38|-0.17|||Mixed-effect model repeated measure|||||-0.17|-7.38|=0.0404
82588660|NCT01862640|164890629|SUPERIORITY||LS mean difference|0.23|||=|0.9015|TWO_SIDED|95.0|-3.4|3.86|||Mixed-effect model repeated measure|||||3.86|-3.40|=0.9015
82588661|NCT01862640|164890630|SUPERIORITY||LS mean difference|-0.16|||=|0.1566|TWO_SIDED|95.0|-0.39|0.06|||Mixed-effect model repeated measure|||||0.06|-0.39|=0.1566
82588662|NCT01862640|164890630|SUPERIORITY||LS mean difference|0.09|||=|0.444|TWO_SIDED|95.0|-0.14|0.32|||Mixed-effect model repeated measure|||||0.32|-0.14|=0.4440
82588663|NCT02178553|164890632|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.142|TWO_SIDED|90.0|-0.1|1.8|||t-test, 2 sided|||||1.8|-0.1|0.142
82588664|NCT02178553|164890633|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.101|TWO_SIDED|90.0|0.4|1.9|||t-test, 2 sided|||||1.9|0.4|0.101
82588665|NCT02178553|164890634|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.014|TWO_SIDED|90.0|0.4|1.9|||t-test, 2 sided|||||1.9|0.4|0.014
82588666|NCT02178553|164890635|NON_INFERIORITY|We determined that a difference of 1 unit between groups would be the bound for non-inferiorty.|Confidence Interval|1.0||||0.375|TWO_SIDED|90.0|-0.3|1.0|||t-test, 2 sided|||||1.0|-0.3|0.375
82588667|NCT00448435|164890706|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin + or - 15 L/min|Mean Difference (Net)|2.8|STANDARD_ERROR_OF_MEAN|5.91||0.6383||95.0|-9.1|14.69||Confidence Interval|Mixed Models Analysis|||Difference between treatments \[(SLM + FP)- SFC\](SE) 2.8 (5.91)||14.69|-9.10|0.6383
82588668|NCT00809523|164890721|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||Data were analyzed at the follow up timepoint (4 weeks) to test for differences between the experimental groups.||||0.007
82588669|NCT00809523|164890722|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||t-test, 2 sided|||||||0.014
82588670|NCT01387230|164890736|SUPERIORITY_OR_OTHER||Least squares mean difference|0.127|||<|0.001|TWO_SIDED|95.0|0.052|0.202|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean difference=UMEC 62.5 µg minus Placebo.|||0.202|0.052|<0.001
82588671|NCT01387230|164890736|SUPERIORITY_OR_OTHER||Least squares mean difference|0.152|||<|0.001|TWO_SIDED|95.0|0.076|0.229|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM)|Least squares mean difference=UMEC 125 µg minus Placebo.|||0.229|0.076|<0.001
82588672|NCT04561765|164890746|SUPERIORITY|||||||0.051|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge||||0.051
82588673|NCT04561765|164890746|SUPERIORITY|||||||0.206|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.206
82653293|NCT00601484|165022017|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.538|||TWO_SIDED|90.0|-1.356|0.457||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.457|-1.356|
82588674|NCT04561765|164890746|SUPERIORITY|||||||0.765|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge||||0.765
82588675|NCT04561765|164890746|SUPERIORITY|||||||0.991|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at follow-up.||||0.991
82588676|NCT04561765|164890746|SUPERIORITY|||||||0.963|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.963
82588677|NCT04561765|164890746|SUPERIORITY|||||||0.916|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P values at discharge.||||0.916
82588678|NCT04561765|164890747|SUPERIORITY|||||||0.005|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.005
82653294|NCT00601484|165022018|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.68|STANDARD_ERROR_OF_MEAN|6.727|||TWO_SIDED|90.0|-19.954|2.601||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.601|-19.954|
82653295|NCT00601484|165022018|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-17.74|STANDARD_ERROR_OF_MEAN|8.47|||TWO_SIDED|90.0|-31.948|-3.523||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-3.523|-31.948|
82490767|NCT02761733|164675024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2967||||0.0283|TWO_SIDED|95.0|-0.5599|-0.0335||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 213|||-.0335|-.5599|.0283
82588679|NCT04561765|164890747|SUPERIORITY|||||||0.27|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.270
82588680|NCT04561765|164890747|SUPERIORITY|||||||0.177|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.177
82588681|NCT04561765|164890747|SUPERIORITY|||||||0.3|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P Value at follow-up.||||0.300
82588682|NCT04561765|164890747|SUPERIORITY|||||||0.996|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.996
82588683|NCT04561765|164890747|SUPERIORITY|||||||0.334|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.334
82588684|NCT04561765|164890749|SUPERIORITY|||||||0.212|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.212
82588685|NCT04561765|164890749|SUPERIORITY|||||||0.965|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.965
82588686|NCT04561765|164890749|SUPERIORITY|||||||0.294|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.294
82588687|NCT04561765|164890749|SUPERIORITY|||||||0.207|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.207
82588688|NCT04561765|164890749|SUPERIORITY|||||||0.158|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.158
82588689|NCT04561765|164890749|SUPERIORITY|||||||0.988|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.988
82588690|NCT04561765|164890751|SUPERIORITY|||||||0.295|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.295
82588691|NCT04561765|164890751|SUPERIORITY|||||||0.718|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.718
82588692|NCT04561765|164890751|SUPERIORITY|||||||0.738|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.738
82588693|NCT04561765|164890751|SUPERIORITY|||||||0.797|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.797
82588694|NCT04561765|164890751|SUPERIORITY|||||||0.26|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.260
82588695|NCT04561765|164890751|SUPERIORITY|||||||0.616|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.616
82588696|NCT04561765|164890752|SUPERIORITY|||||||0.333|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.333
82588697|NCT04561765|164890752|SUPERIORITY|||||||0.003|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.003
82588698|NCT04561765|164890752|SUPERIORITY|||||||0.106|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.106
82588699|NCT04561765|164890752|SUPERIORITY|||||||0.541|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.541
82588700|NCT04561765|164890752|SUPERIORITY|||||||0.202|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.202
82588701|NCT04561765|164890752|SUPERIORITY|||||||0.791|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.791
82588702|NCT04561765|164890753|SUPERIORITY|||||||0.026|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.026
82653296|NCT00601484|165022018|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-20.66|STANDARD_ERROR_OF_MEAN|8.138|||TWO_SIDED|90.0|-34.347|-6.971||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-6.971|-34.347|
82653297|NCT00601484|165022018|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-13.58|STANDARD_ERROR_OF_MEAN|9.532|||TWO_SIDED|90.0|-29.612|2.452||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.452|-29.612|
82653298|NCT00601484|165022018|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.75|STANDARD_ERROR_OF_MEAN|8.807|||TWO_SIDED|90.0|-22.58|7.08||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.080|-22.580|
82588703|NCT04561765|164890753|SUPERIORITY|||||||0.15|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.15
82588704|NCT04561765|164890753|SUPERIORITY|||||||0.745|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.745
82588705|NCT04561765|164890753|SUPERIORITY|||||||0.021|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.021
82588706|NCT04561765|164890753|SUPERIORITY|||||||0.155|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.155
82588707|NCT04561765|164890753|SUPERIORITY|||||||0.652|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.652
82588708|NCT04561765|164890754|SUPERIORITY|||||||0.343|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.343
82588709|NCT04561765|164890754|SUPERIORITY|||||||0.995|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.995
82588710|NCT04561765|164890754|SUPERIORITY|||||||0.371|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at discharge.||||0.371
82588711|NCT04561765|164890754|SUPERIORITY|||||||0.228|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.228
82588712|NCT04561765|164890754|SUPERIORITY|||||||0.282|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||P value at follow-up.||||0.282
82588713|NCT04561765|164890754|SUPERIORITY|||||||0.986|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.986
82588714|NCT04561765|164890755|SUPERIORITY|||||||0.421|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.421
82588715|NCT04561765|164890755|SUPERIORITY|||||||0.556|||||||ANOVA|Reported p-values are based on Tukey's HSD post-hoc adjustment to one-way ANOVA.||||||0.556
82588716|NCT03027557|164890760|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82588717|NCT03027557|164890761|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82588718|NCT03027557|164890762|SUPERIORITY||||||=|0.0019|||||||ANOVA|||||||= 0.0019
82588719|NCT03027557|164890763|SUPERIORITY||||||=|0.096|||||||ANOVA|||||||= 0.096
82588720|NCT03027557|164890764|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
82588721|NCT03027557|164890765|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82588722|NCT03027557|164890766|SUPERIORITY||||||=|0.0027|||||||ANOVA|||||||= 0.0027
82588723|NCT03027557|164890767|SUPERIORITY||||||=|0.081|||||||ANOVA|||||||= 0.081
82588724|NCT03027557|164890768|SUPERIORITY||||||=|0.0071|||||||ANOVA|||||||= 0.0071
82588725|NCT03027557|164890769|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
82588726|NCT03027557|164890770|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
82588727|NCT03027557|164890771|SUPERIORITY||||||=|0.38|||||||Kruskal-Wallis|||||||= 0.38
82588728|NCT03027557|164890776|SUPERIORITY||||||=|0.83|||||||Kruskal-Wallis|||||||= 0.83
82588729|NCT03027557|164890779|SUPERIORITY||||||>|0.05|||||||ANOVA|||||||>0.05
82588730|NCT03027557|164890780|SUPERIORITY||||||=|0.0077|||||||ANOVA|||||||= 0.0077
82588731|NCT03027557|164890781|SUPERIORITY||||||=|0.011|||||||ANOVA|||||||= 0.011
82588732|NCT03027557|164890782|SUPERIORITY||||||=|0.011|||||||ANOVA|||||||= 0.011
82588733|NCT03027557|164890783|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
82588734|NCT03027557|164890784|SUPERIORITY||||||<|1e-05|||||||ANOVA|||||||< 0.00001
82588735|NCT03027557|164890785|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
82588736|NCT03027557|164890786|SUPERIORITY||||||=|0.0001|||||||ANOVA|||||||= 0.0001
82588737|NCT03027557|164890787|SUPERIORITY||||||=|0.0001|||||||Kruskal-Wallis|||||||= 0.0001
82588738|NCT03027557|164890789|SUPERIORITY||||||=|0.5|||||||Kruskal-Wallis|||||||= 0.5
82588739|NCT03027557|164890790|SUPERIORITY||||||=|0.85|||||||ANOVA|||||||= 0.85
82588740|NCT03027557|164890791|SUPERIORITY||||||=|0.22|||||||ANOVA|||||||= 0.22
82588741|NCT03027557|164890792|SUPERIORITY||||||=|0.18|||||||Kruskal-Wallis|||||||= 0.18
82588742|NCT02510560|164890795|SUPERIORITY|||||||0.115|||||||Stratified Van Elteren Test|||||||0.115
82588743|NCT02510560|164890795|SUPERIORITY|||||||0.243|||||||Stratified Van Elteren Test|||||||0.243
82588744|NCT02510560|164890796|SUPERIORITY|||||||0.714|||||||Stratified Van Elteren Test|||||||0.714
82588745|NCT02510560|164890796|SUPERIORITY|||||||0.243|||||||Stratified Van Elteren Test|||||||0.243
82588746|NCT04427501|164890797|SUPERIORITY||Odds Ratio (OR)|0.3|||||TWO_SIDED|95.0|0.15|0.58||||||||0.58|0.15|
82588747|NCT04427501|164890797|SUPERIORITY||Odds Ratio (OR)|0.12|||||TWO_SIDED|95.0|0.04|0.31||||||||0.31|0.04|
82588748|NCT04427501|164890798|SUPERIORITY||Odds Ratio (OR)|0.23|||||TWO_SIDED|95.0|0.13|0.4||||||||0.40|0.13|
82588749|NCT04427501|164890799|SUPERIORITY||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.221||0.6921|TWO_SIDED|95.0|-0.35|0.52|||Mixed Models Analysis|||||0.52|-0.35|0.6921
82588750|NCT04427501|164890799|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.219||0.211|TWO_SIDED|95.0|-0.71|0.16|||Mixed Models Analysis|||||0.16|-0.71|0.2110
82588751|NCT04427501|164890799|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.225||0.163|TWO_SIDED|95.0|-0.13|0.76|||Mixed Models Analysis|||||0.76|-0.13|0.1630
82653299|NCT00601484|165022019|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.56|STANDARD_ERROR_OF_MEAN|0.721|||TWO_SIDED|90.0|-1.768|0.65||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.650|-1.768|
82588752|NCT04427501|164890799|SUPERIORITY||Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|0.22||0.0099|TWO_SIDED|95.0|-1.0|-0.14|||Mixed Models Analysis|||||-0.14|-1.00|0.0099
82588753|NCT04427501|164890804|SUPERIORITY||Odds Ratio (OR)|1.45|||||TWO_SIDED|95.0|1.13|1.86||||||||1.86|1.13|
82588754|NCT04427501|164890804|SUPERIORITY||Odds Ratio (OR)|1.56|||||TWO_SIDED|95.0|1.24|1.95||||||||1.95|1.24|
82588755|NCT04427501|164890804|SUPERIORITY||Odds Ratio (OR)|1.64|||||TWO_SIDED|95.0|1.06|2.53||||||||2.53|1.06|
82588756|NCT04427501|164890805|SUPERIORITY||Odds Ratio (OR)|1.5|||||TWO_SIDED|95.0|1.17|1.93||||||||1.93|1.17|
82588757|NCT04427501|164890805|SUPERIORITY||Odds Ratio (OR)|1.67|||||TWO_SIDED|95.0|1.33|2.09||||||||2.09|1.33|
82588758|NCT04427501|164890805|SUPERIORITY||Odds Ratio (OR)|1.88|||||TWO_SIDED|95.0|1.22|2.9||||||||2.9|1.22|
82588759|NCT04427501|164890806|SUPERIORITY||Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.18|0.64||||||||0.64|0.18|
82588760|NCT04427501|164890806|SUPERIORITY||Odds Ratio (OR)|0.17|||||TWO_SIDED|95.0|0.07|0.38||||||||0.38|0.07|
82588761|NCT04427501|164890806|SUPERIORITY||Odds Ratio (OR)|0.25|||||TWO_SIDED|95.0|0.06|1.05||||||||1.05|0.06|
82588762|NCT04427501|164890807|SUPERIORITY||Mean Difference (Net)|-1.2|||<|0|TWO_SIDED|95.0|-1.46|-0.94|||Mixed Models Analysis|||||-0.94|-1.46|<0.0000000
82588763|NCT04427501|164890807|SUPERIORITY||Mean Difference (Net)|-1.09|||<|0|TWO_SIDED|95.0|-1.34|-0.85|||Mixed Models Analysis|||||-0.85|-1.34|<0.0000000
82588764|NCT04427501|164890807|SUPERIORITY||Mean Difference (Net)|-0.99||||3.777e-05|TWO_SIDED|95.0|-1.45|-0.52|||Mixed Models Analysis|||||-0.52|-1.45|0.00003777
82588765|NCT04427501|164890808|SUPERIORITY||Hazard Ratio (HR)|1.213||||0.007|TWO_SIDED||||||Stratified Log-rank|||||||0.007
82588766|NCT04427501|164890808|SUPERIORITY||Hazard Ratio (HR)|1.111||||0.13|TWO_SIDED||||||Stratified Log-rank|||||||0.130
82588767|NCT04427501|164890808|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.012|TWO_SIDED||||||Stratified Log-rank|||||||0.012
82588768|NCT04427501|164890809|SUPERIORITY||Hazard Ratio (HR)|1.355||||0.007|TWO_SIDED||||||Stratified Log-rank|||||||0.007
82588769|NCT04427501|164890809|SUPERIORITY||Hazard Ratio (HR)|1.237||||0.033|TWO_SIDED||||||Stratified Log-rank|||||||0.033
82588770|NCT04427501|164890809|SUPERIORITY||Hazard Ratio (HR)|1.521||||0.017|TWO_SIDED||||||Stratified Log-rank|||||||0.017
82588771|NCT04427501|164890810|SUPERIORITY||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.243||0.499|TWO_SIDED|95.0|-0.31|0.64|||Mixed Models Analysis|||||0.64|-0.31|0.499
82588772|NCT04427501|164890810|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.241||0.492|TWO_SIDED|95.0|-0.64|0.31|||Mixed Models Analysis|||||0.31|-0.64|0.492
82588773|NCT04427501|164890810|SUPERIORITY||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.246||0.125|TWO_SIDED|95.0|-0.11|0.86|||Mixed Models Analysis|||||0.86|-0.11|0.125
82588774|NCT04427501|164890810|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|0.236||0.069|TWO_SIDED|95.0|-0.89|0.03|||Mixed Models Analysis|||||0.03|-0.89|0.069
82588775|NCT04427501|164890811|SUPERIORITY||Odds Ratio (OR)|1.74||||0.034|TWO_SIDED|95.0|1.04|2.9|||Regression, Logistic|||||2.90|1.04|0.034
82588776|NCT04427501|164890811|SUPERIORITY||Odds Ratio (OR)|1.15||||0.594|TWO_SIDED|95.0|0.69|1.91|||Regression, Logistic|||||1.91|0.69|0.594
82588777|NCT04427501|164890811|SUPERIORITY||Odds Ratio (OR)|1.32||||0.291|TWO_SIDED|95.0|0.79|2.2|||Regression, Logistic|||||2.20|0.79|0.291
82588778|NCT04427501|164890811|SUPERIORITY||Odds Ratio (OR)|1.45||||0.143|TWO_SIDED|95.0|0.88|2.4|||Regression, Logistic|||||2.40|0.88|0.143
82588779|NCT04427501|164890812|SUPERIORITY||Odds Ratio (OR)|1.89||||0.014|TWO_SIDED|95.0|1.14|3.15|||Regression, Logistic|||||3.15|1.14|0.014
82588780|NCT04427501|164890812|SUPERIORITY||Odds Ratio (OR)|1.06||||0.828|TWO_SIDED|95.0|0.64|1.74|||Regression, Logistic|||||1.74|0.64|0.828
82588781|NCT04427501|164890812|SUPERIORITY||Odds Ratio (OR)|1.82||||0.022|TWO_SIDED|95.0|1.09|3.02|||Regression, Logistic|||||3.02|1.09|0.022
82588782|NCT04427501|164890812|SUPERIORITY||Odds Ratio (OR)|1.48||||0.119|TWO_SIDED|95.0|0.9|2.43|||Regression, Logistic|||||2.43|0.90|0.119
82588783|NCT04427501|164890815|SUPERIORITY||Odds Ratio (OR)|0.23||||0.098|TWO_SIDED|95.0|0.04|1.31|||Regression, Logistic|||||1.31|0.04|0.098
82588784|NCT04427501|164890815|SUPERIORITY||Odds Ratio (OR)|0.37||||0.165|TWO_SIDED|95.0|0.09|1.51|||Regression, Logistic|||||1.51|0.09|0.165
82588785|NCT04427501|164890815|SUPERIORITY||Odds Ratio (OR)|0.39||||0.191|TWO_SIDED|95.0|0.1|1.6|||Regression, Logistic|||||1.60|0.10|0.191
82588786|NCT04427501|164890815|SUPERIORITY||Odds Ratio (OR)|0.21||||0.075|TWO_SIDED|95.0|0.04|1.18|||Regression, Logistic|||||1.18|0.04|0.075
82588787|NCT04427501|164890816|SUPERIORITY|||||||0.616|||||||Stratified Log-rank|||||||0.616
82588788|NCT04427501|164890816|SUPERIORITY|||||||0.281|||||||Stratified Log-rank|||||||0.281
82588789|NCT04427501|164890816|SUPERIORITY|||||||0.815|||||||Stratified Log-rank|||||||0.815
82588790|NCT04427501|164890816|SUPERIORITY|||||||0.334|||||||Stratified Log-rank|||||||0.334
82588791|NCT05118204|164890861|SUPERIORITY||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|1.346||1|TWO_SIDED|95.0|0.05|16.54|||Fisher Exact|||||16.540|0.050|1.00
82588792|NCT01313650|164890879|SUPERIORITY_OR_OTHER||Least squares mean difference|0.115|||<|0.001|TWO_SIDED|95.0|0.076|0.155|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC 62.5 µg minus Placebo.|||0.155|0.076|<0.001
82588793|NCT01313650|164890879|SUPERIORITY_OR_OTHER||Least squares mean difference|0.072|||<|0.001|TWO_SIDED|95.0|0.032|0.112|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=VI 25 µg minus Placebo.|||0.112|0.032|<0.001
82588794|NCT01313650|164890879|SUPERIORITY_OR_OTHER||Least squares mean difference|0.167|||<|0.001|TWO_SIDED|95.0|0.128|0.207|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 µg minus Placebo.|||0.207|0.128|<0.001
82588795|NCT01313650|164890879|SUPERIORITY_OR_OTHER||Least squares mean difference|0.052||||0.004|TWO_SIDED|95.0|0.017|0.087|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 minus UMEC 62.5 µg.|||0.087|0.017|0.004
82588796|NCT01313650|164890879|SUPERIORITY_OR_OTHER||Least squares mean difference|0.095|||<|0.001|TWO_SIDED|95.0|0.06|0.13|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).|Least squares mean difference=UMEC/VI 62.5/25 minus VI 25 µg.|||0.130|0.060|<0.001
82588797|NCT02217436|164890974|SUPERIORITY|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
82588798|NCT02217436|164890975|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82588799|NCT01215175|164890989|OTHER||Risk Difference (RD)|10.0||||||95.0|-7.4|28.3|||||Miettinen \& Nurminen method|||28.3|-7.4|
82588800|NCT01215175|164890990|OTHER||Risk Difference (RD)|8.2||||||95.0|-7.9|26.6|||||Miettinen \& Nurminen method|||26.6|-7.9|
82588801|NCT01215175|164890990|OTHER||Risk Difference (RD)|3.6||||||95.0|-15.5|22.9|||||Miettinen \& Nurminen method|||22.9|-15.5|
82588802|NCT01215175|164890991|OTHER||Risk Difference (RD)|0.0||||||95.0|-11.5|11.5|||||Miettinen \& Nurminen method|||11.5|-11.5|
82588803|NCT01215175|164890992|OTHER||Risk Difference (RD)|0.0||||||95.0|-12.2|10.6|||||Miettinen \& Nurminen method|||10.6|-12.2|
82588804|NCT01215175|164890992|OTHER||Risk Difference (RD)|0.0||||||95.0|-12.3|12.3|||||Miettinen \& Nurminen method|||12.3|-12.3|
82588805|NCT01215175|164890993|OTHER||Risk Difference (RD)|10.0||||||95.0|-7.4|28.3|||||Miettinen \& Nurminen method|||28.3|-7.4|
82588806|NCT01215175|164890994|OTHER||Risk Difference (RD)|9.8||||||95.0|-10.6|30.9|||||Miettinen \& Nurminen method|||30.9|-10.6|
82588807|NCT01215175|164890994|OTHER||Risk Difference (RD)|3.6||||||95.0|-19.1|26.0|||||Miettinen \& Nurminen method|||26.0|-19.1|
82588808|NCT03739762|164891010|SUPERIORITY||Mean Difference (Final Values)|-31.85||||0.003|TWO_SIDED|95.0|-52.91|-10.79|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||The sample size of 284 ensured 90% power to detect a 41-minute difference in sitting time between I-STAND and the attention control from baseline to 6 months, assuming a standard deviation (SD) of 97 minutes/day for change in sitting time (based on our pilot data), and 15% loss to follow-up. Sample and power calculations were performed using R software version 3.5 \[39\] via simulation, assuming specified SDs and differences between means.||-10.79|-52.91|0.003
82588809|NCT03739762|164891011|SUPERIORITY||Mean Difference (Final Values)|-3.48||||0.033|TWO_SIDED|95.0|-6.68|-0.28|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||-0.28|-6.68|.033
82588810|NCT03739762|164891012|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.784|TWO_SIDED|95.0|-1.63|2.16|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||2.16|-1.63|.784
82588811|NCT03739762|164891013|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.927|TWO_SIDED|95.0|-2.61|2.38|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||2.38|-2.61|.927
82588812|NCT03739762|164891014|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.916|TWO_SIDED|95.0|-0.42|0.47|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||0.47|-0.42|.916
82588813|NCT03739762|164891015|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.325|TWO_SIDED|95.0|-1.09|0.36|||Regression, Linear|The model fit was a linear regression model with GEE on the outcome change from baseline.||||0.36|-1.09|.325
82588814|NCT02616614|164891029|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval \[0.80,1.25\] for the PP population.|Mean Difference (Net)|0.95|||||TWO_SIDED|90.0|0.88|1.03||||||||1.03|0.88|
82588815|NCT02616614|164891029|SUPERIORITY|||||||0.0001|||||||ANOVA|||||||0.0001
82588816|NCT02616614|164891029|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82588817|NCT02616614|164891030|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval \[0.80, 1.25\] for the PP population.|Mean Difference (Net)|1.0|||||TWO_SIDED|90.0|0.9|1.11||||||||1.11|0.90|
82588818|NCT02616614|164891030|SUPERIORITY|||||||0.0002|||||||ANOVA|||||||0.0002
82588819|NCT02616614|164891030|SUPERIORITY|||||||0.0006|||||||ANOVA|||||||0.0006
82588820|NCT02616614|164891031|EQUIVALENCE|Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).|Mean Difference (Net)|-0.022|||||TWO_SIDED|90.0|-0.087|0.043|||||Equivalence was based on difference in the number of subjects with success. Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).|Bioequivalence was established if the 90% CI for the difference was contained within the interval (-0.20, +0.20).||0.043|-0.087|
82588821|NCT04722250|164891038|NON_INFERIORITY|The endpoint is designed to test whether the Medtronic SE TAV is non-inferior to Edwards BE TAV in the composite event rate of all-cause mortality, disabling stroke or heart failure rehospitalization at 12 months post-procedure with an absolute non-inferiority margin of 8.0%.|Risk Difference (RD)|-1.2|||<|0.001|TWO_SIDED|90.0|-4.9|2.5|||z-test on Kaplan-Meier percentages|||||2.5|-4.9|<0.001
82588822|NCT04722250|164891039|SUPERIORITY||Risk Difference (RD)|-32.2|||<|0.001|TWO_SIDED|95.0|-38.7|-25.6|||z-test on Kaplan-Meier percentages|||||-25.6|-38.7|<0.001
82588823|NCT04556396|164891060|SUPERIORITY||Odds Ratio (OR)|0.2|||<|0.01|TWO_SIDED|95.0|0.1|0.4|||Chi-squared|||||0.4|0.1|<0.01
82653300|NCT00601484|165022019|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.21|STANDARD_ERROR_OF_MEAN|0.898|||TWO_SIDED|90.0|-2.723|0.297||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.297|-2.723|
82588824|NCT01009554|164891069|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.126|STANDARD_ERROR_OF_MEAN|0.0905||0.168|TWO_SIDED|95.0|-0.054|0.306||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.306|-0.054|0.168
82588825|NCT01009554|164891071|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.006|STANDARD_ERROR_OF_MEAN|0.067||0.928|TWO_SIDED|95.0|-0.127|0.139||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.139|-0.127|0.928
82653301|NCT00601484|165022019|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.47|STANDARD_ERROR_OF_MEAN|1.311|||TWO_SIDED|90.0|-3.682|0.752||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.752|-3.682|
82653302|NCT00601484|165022019|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|90.0|-1.11|2.198||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.198|-1.110|
82653303|NCT00601484|165022019|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.114|||TWO_SIDED|90.0|-2.904|0.922||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.922|-2.904|
82653304|NCT00601484|165022020|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.41|STANDARD_ERROR_OF_MEAN|5.51|||TWO_SIDED|90.0|-13.65|4.826||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.826|-13.650|
82653305|NCT00601484|165022020|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.65|STANDARD_ERROR_OF_MEAN|7.041|||TWO_SIDED|90.0|-20.493|3.192||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||3.192|-20.493|
82653306|NCT00601484|165022020|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.72|STANDARD_ERROR_OF_MEAN|10.089|||TWO_SIDED|90.0|-26.775|7.343||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.343|-26.775|
82653307|NCT00601484|165022020|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.76|STANDARD_ERROR_OF_MEAN|7.532|||TWO_SIDED|90.0|-8.95|16.465||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||16.465|-8.950|
82653308|NCT00601484|165022020|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.72|STANDARD_ERROR_OF_MEAN|7.906|||TWO_SIDED|90.0|-22.299|4.851||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.851|-22.299|
82653309|NCT00601484|165022021|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.24|STANDARD_ERROR_OF_MEAN|0.609|||TWO_SIDED|90.0|-0.776|1.265||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.265|-0.776|
82653310|NCT00601484|165022021|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.674|||TWO_SIDED|90.0|-1.22|1.044||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.044|-1.220|
82653311|NCT00601484|165022021|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.57|STANDARD_ERROR_OF_MEAN|1.009|||TWO_SIDED|90.0|-1.124|2.269||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.269|-1.124|
82653312|NCT00601484|165022021|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.27|STANDARD_ERROR_OF_MEAN|1.019|||TWO_SIDED|90.0|-1.441|1.988||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.988|-1.441|
82653313|NCT00601484|165022021|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.99|STANDARD_ERROR_OF_MEAN|0.769|||TWO_SIDED|90.0|-0.307|2.283||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.283|-0.307|
82653314|NCT00601484|165022022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.68|||||TWO_SIDED|90.0|-9.05|5.76||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||5.76|-9.05|
82653315|NCT00601484|165022022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-2.78|||||TWO_SIDED|90.0|-12.65|4.24||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||4.24|-12.65|
82653316|NCT00601484|165022022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|0.04|||||TWO_SIDED|90.0|-8.96|7.9||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||7.90|-8.96|
82653317|NCT00601484|165022022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.38|||||TWO_SIDED|90.0|-11.57|8.28||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||8.28|-11.57|
82377420|NCT02422797|164462008|OTHER||Mean Difference (Final Values)|-1.239||||0.039|TWO_SIDED|95.0|-2.414|-0.064||P value assessed the difference between treatment groups (Symptom Bother Score - Week 4)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||-0.064|-2.414|0.039
82588826|NCT01009554|164891072|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.235|STANDARD_ERROR_OF_MEAN|0.0718||0.002|TWO_SIDED|95.0|0.092|0.378||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter values (L, a, and b) and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.378|0.092|0.002
82588827|NCT01009554|164891073|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.041|STANDARD_ERROR_OF_MEAN|0.1235||0.741|TWO_SIDED|95.0|-0.205|0.286||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.286|-0.205|0.741
82588828|NCT01009554|164891074|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.161|STANDARD_ERROR_OF_MEAN|0.1386||0.249|TWO_SIDED|95.0|-0.437|0.115||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.115|-0.437|0.249
82588829|NCT01009554|164891075|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.201|STANDARD_ERROR_OF_MEAN|0.1398||0.154|TWO_SIDED|95.0|-0.479|0.077||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value L and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.077|-0.479|0.154
82588830|NCT01009554|164891076|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.195|STANDARD_ERROR_OF_MEAN|0.0746||0.011|TWO_SIDED|95.0|-0.343|-0.047||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.047|-0.343|0.011
82588831|NCT01009554|164891077|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.334|STANDARD_ERROR_OF_MEAN|0.0703|<|0.001|TWO_SIDED|95.0|-0.474|-0.195||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.195|-0.474|<0.001
82588832|NCT01009554|164891078|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.214|STANDARD_ERROR_OF_MEAN|0.0939||0.025|TWO_SIDED|95.0|-0.401|-0.027||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline tooth color parameter value b and age (in years) as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.027|-0.401|0.025
82588833|NCT01009554|164891079|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.056|STANDARD_ERROR_OF_MEAN|0.0562||0.319|TWO_SIDED|95.0|-0.055|0.168||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.168|-0.055|0.319
82588834|NCT01009554|164891080|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.272|STANDARD_ERROR_OF_MEAN|0.0668|<|0.001|TWO_SIDED|95.0|0.139|0.405||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.405|0.139|<0.001
82588835|NCT01009554|164891081|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.398|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|0.231|0.565||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.565|0.231|<0.001
82588836|NCT01009554|164891082|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.0271||0.27|TWO_SIDED|95.0|-0.024|0.084||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.084|-0.024|0.270
82588837|NCT01009554|164891083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.137|STANDARD_ERROR_OF_MEAN|0.0324|<|0.001|TWO_SIDED|95.0|0.073|0.202||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.202|0.073|<0.001
82588838|NCT01009554|164891084|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.193|STANDARD_ERROR_OF_MEAN|0.0399|<|0.001|TWO_SIDED|95.0|0.114|0.273||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.273|0.114|<0.001
82653318|NCT00601484|165022022|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|3.97|||||TWO_SIDED|90.0|-6.82|13.02||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||13.02|-6.82|
82653319|NCT00601484|165022023|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.72|STANDARD_ERROR_OF_MEAN|1.01|||TWO_SIDED|90.0|-2.414|0.983||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.983|-2.414|
82588839|NCT01009554|164891085|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.0273||0.217|TWO_SIDED|95.0|-0.02|0.088||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.088|-0.020|0.217
82653320|NCT00601484|165022023|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.42|STANDARD_ERROR_OF_MEAN|1.169|||TWO_SIDED|90.0|-1.548|2.384||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.384|-1.548|
82653321|NCT00601484|165022023|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|1.31|STANDARD_ERROR_OF_MEAN|0.821|||TWO_SIDED|90.0|-0.075|2.693||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||2.693|-0.075|
82653322|NCT00601484|165022023|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.33|STANDARD_ERROR_OF_MEAN|1.093|||TWO_SIDED|90.0|-2.178|1.512||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.512|-2.178|
82653323|NCT00601484|165022023|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.07|STANDARD_ERROR_OF_MEAN|1.208|||TWO_SIDED|90.0|0.038|4.112||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.112|0.038|
82653324|NCT00601484|165022024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-6.41|||||TWO_SIDED|90.0|-33.33|18.68||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||18.68|-33.33|
82653325|NCT00601484|165022024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|15.83|||||TWO_SIDED|90.0|-14.12|41.18||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||41.18|-14.12|
82653326|NCT00601484|165022024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|19.17|||||TWO_SIDED|90.0|0.0|38.1||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||38.10|0.00|
82653327|NCT00601484|165022024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-0.71|||||TWO_SIDED|90.0|-30.95|32.73||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||32.73|-30.95|
82653328|NCT00601484|165022024|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|34.89|||||TWO_SIDED|90.0|-4.57|70.0||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||70.00|-4.57|
82653329|NCT00601484|165022025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|90.0|-0.529|0.61||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.610|-0.529|
82653330|NCT00601484|165022025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.334|||TWO_SIDED|90.0|-1.077|0.043||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.043|-1.077|
82588840|NCT01009554|164891086|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.137|STANDARD_ERROR_OF_MEAN|0.032|<|0.001|TWO_SIDED|95.0|0.073|0.2||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.200|0.073|<0.001
82653331|NCT00601484|165022025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.366|||TWO_SIDED|90.0|-0.835|0.396||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.396|-0.835|
82653332|NCT00601484|165022025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.294|||TWO_SIDED|90.0|-0.718|0.273||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.273|-0.718|
82653333|NCT00601484|165022025|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.442|||TWO_SIDED|90.0|-1.044|0.445||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.445|-1.044|
82653334|NCT00601484|165022026|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-1.24|||||TWO_SIDED|90.0|-27.56|5.37||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||5.37|-27.56|
82653335|NCT00601484|165022026|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-22.43|||||TWO_SIDED|90.0|-56.39|0.0||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-56.39|
82653336|NCT00601484|165022026|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-16.0|||||TWO_SIDED|90.0|-40.44|0.0||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-40.44|
82490768|NCT02761733|164675024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0401||||0.7407|TWO_SIDED|95.0|-0.1969|0.2771||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 194|||.2771|-.1969|.7407
82490769|NCT02761733|164675024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2338||||0.0619|TWO_SIDED|95.0|-0.4778|0.0102||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 186|||.0102|-.4778|.0619
82490770|NCT02761733|164675024|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3793||||0.0009|TWO_SIDED|95.0|-0.599|-0.1596||a priori test|Mixed Models Analysis|Least Squares Mean Difference Test using LSMEANS pdiff test in SAS PROC MIXED 9.4|Satterthwaite adjusted df = 172|||-.1596|-.5990|.0009
82490771|NCT02713204|164675025|SUPERIORITY|Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.|Least square mean difference|0.02||||0.9894|TWO_SIDED|95.0|-2.99|3.03||Threshold for significance at 0.05 level.|ANCOVA|||||3.03|-2.99|0.9894
82490772|NCT02713204|164675025|SUPERIORITY||Least square mean difference|0.25||||0.8346|TWO_SIDED|95.0|-2.09|2.59|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||2.59|-2.09|0.8346
82490773|NCT02713204|164675026|SUPERIORITY||Least square mean difference|-1.2||||0.4611|TWO_SIDED|95.0|-4.41|2.0||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.00|-4.41|0.4611
82377421|NCT02422797|164462008|OTHER|||||||0.542||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 24)|ANCOVA|||||||0.542
82377422|NCT02422797|164462008|SUPERIORITY||Mean Difference (Final Values)|-0.528||||0.448|TWO_SIDED|95.0|-1.896|0.84||P value assessed the difference between treatment groups (Symptom Bother Score - Week 24)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.840|-1.896|0.448
82377423|NCT02422797|164462008|OTHER|||||||0.402||||||P-value for interaction between treatment group and Baseline symptom bother score (Week 48)|ANCOVA|||||||0.402
82377424|NCT02422797|164462008|SUPERIORITY||Mean Difference (Final Values)|-1.037||||0.164|TWO_SIDED|95.0|-2.501|0.426||P value assessed the difference between treatment groups (Symptom Bother Score - Week 48)|ANCOVA||Estimates were calculated from an ANCOVA model adjusting for age, Baseline third agent, gender, race and Baseline score.|||0.426|-2.501|0.164
82377425|NCT02422797|164462011|SUPERIORITY|||||||0.037||||||P-value assessed the HIVTSQs Total Score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.037
82377426|NCT02422797|164462011|SUPERIORITY|||||||0.101||||||P-value assessed the HIVTSQs Total Score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.101
82377427|NCT02422797|164462011|SUPERIORITY|||||||0.042||||||P-value assessed the HIVTSQs Total score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.042
82377428|NCT02422797|164462011|SUPERIORITY|||||||0.132||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.132
82490774|NCT02713204|164675026|SUPERIORITY|Threshold for significance at 0.05 level.|Least square mean difference|-2.0||||0.2225|TWO_SIDED|95.0|-5.22|1.22|||ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||1.22|-5.22|0.2225
82490775|NCT02713204|164675026|SUPERIORITY||Least square mean difference|-0.82||||0.6063|TWO_SIDED|95.0|-3.97|2.32||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||2.32|-3.97|0.6063
82490776|NCT02713204|164675026|SUPERIORITY||Least square mean difference|-3.25||||0.0426|TWO_SIDED|95.0|-6.39|-0.11||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-0.11|-6.39|0.0426
82490777|NCT02713204|164675026|SUPERIORITY||Least square mean difference|-4.39||||0.0073|TWO_SIDED|95.0|-7.58|-1.19||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||-1.19|-7.58|0.0073
82490778|NCT02713204|164675026|SUPERIORITY||Least square mean difference|1.17||||0.469|TWO_SIDED|95.0|-2.01|4.36||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||4.36|-2.01|0.4690
82490779|NCT02713204|164675026|SUPERIORITY||Least square mean difference|2.42||||0.1267|TWO_SIDED|95.0|-0.69|5.54||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||5.54|-0.69|0.1267
82490780|NCT02713204|164675027|SUPERIORITY||Least square mean difference|-11.57||||0.413|TWO_SIDED|95.0|-39.5|16.2||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||16.20|-39.5|0.4130
82490781|NCT02713204|164675027|SUPERIORITY||Least square mean difference|-4.88||||0.6587|TWO_SIDED|95.0|-26.2|16.85|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model with baseline measurement as a covariate and treatment group as fixed factors.||16.85|-26.2|0.6587
82490782|NCT02713204|164675028|SUPERIORITY||Least square mean difference|17.04||||0.3833|TWO_SIDED|95.0|-21.35|55.43||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||55.43|-21.35|0.3833
82490783|NCT02713204|164675028|SUPERIORITY||Least square mean difference|12.85||||0.5141|TWO_SIDED|95.0|-25.84|51.53||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||51.53|-25.84|0.5141
82588841|NCT01009554|164891087|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.195|STANDARD_ERROR_OF_MEAN|0.0406|<|0.001|TWO_SIDED|95.0|0.114|0.276||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area over all tooth sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.276|0.114|<0.001
82588842|NCT01009554|164891088|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.055|STANDARD_ERROR_OF_MEAN|0.0716||0.444|TWO_SIDED|95.0|-0.087|0.197||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.197|-0.087|0.444
82588843|NCT01009554|164891089|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.349|STANDARD_ERROR_OF_MEAN|0.0843|<|0.001|TWO_SIDED|95.0|0.182|0.517||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.517|0.182|<0.001
82588844|NCT01009554|164891090|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.542|STANDARD_ERROR_OF_MEAN|0.1063|<|0.001|TWO_SIDED|95.0|0.331|0.754||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.754|0.331|<0.001
82588845|NCT01009554|164891091|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.032|STANDARD_ERROR_OF_MEAN|0.0344||0.361|TWO_SIDED|95.0|-0.037|0.1||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.100|-0.037|0.361
82588846|NCT01009554|164891092|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.174|STANDARD_ERROR_OF_MEAN|0.0414|<|0.001|TWO_SIDED|95.0|0.092|0.256||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.256|0.092|<0.001
82588847|NCT01009554|164891093|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.264|STANDARD_ERROR_OF_MEAN|0.0504|<|0.001|TWO_SIDED|95.0|0.164|0.364||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.364|0.164|<0.001
82588848|NCT01009554|164891094|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.0345||0.331|TWO_SIDED|95.0|-0.035|0.102||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.102|-0.035|0.331
82588849|NCT01009554|164891095|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.177|STANDARD_ERROR_OF_MEAN|0.0414|<|0.001|TWO_SIDED|95.0|0.095|0.259||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.259|0.095|<0.001
82588850|NCT01009554|164891096|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.265|STANDARD_ERROR_OF_MEAN|0.0519|<|0.001|TWO_SIDED|95.0|0.162|0.368||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for interproximal (mesial and distal) sites and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.368|0.162|<0.001
82588851|NCT01009554|164891097|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.138|STANDARD_ERROR_OF_MEAN|0.0726||0.06|TWO_SIDED|95.0|-0.006|0.282||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.282|-0.006|0.060
82588852|NCT01009554|164891098|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.338|STANDARD_ERROR_OF_MEAN|0.087|<|0.001|TWO_SIDED|95.0|0.165|0.51||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.510|0.165|<0.001
82588853|NCT01009554|164891099|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.394|STANDARD_ERROR_OF_MEAN|0.1095|<|0.001|TWO_SIDED|95.0|0.176|0.612||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.612|0.176|<0.001
82588854|NCT01009554|164891100|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.072|STANDARD_ERROR_OF_MEAN|0.0355||0.045|TWO_SIDED|95.0|0.002|0.143||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.143|0.002|0.045
82588855|NCT01009554|164891101|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.178|STANDARD_ERROR_OF_MEAN|0.0415|<|0.001|TWO_SIDED|95.0|0.095|0.26||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.260|0.095|<0.001
82588856|NCT01009554|164891102|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.197|STANDARD_ERROR_OF_MEAN|0.052|<|0.001|TWO_SIDED|95.0|0.094|0.3||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.300|0.094|<0.001
82588857|NCT01009554|164891103|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.077|STANDARD_ERROR_OF_MEAN|0.0355||0.034|TWO_SIDED|95.0|0.006|0.147||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.147|0.006|0.034
82588858|NCT01009554|164891104|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.168|STANDARD_ERROR_OF_MEAN|0.0398|<|0.001|TWO_SIDED|95.0|0.089|0.247||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.247|0.089|<0.001
82588859|NCT01009554|164891105|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.193|STANDARD_ERROR_OF_MEAN|0.0516|<|0.001|TWO_SIDED|95.0|0.091|0.296||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the gingival region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.296|0.091|<0.001
82588860|NCT01009554|164891106|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.031||0.524|TWO_SIDED|95.0|-0.082|0.042||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.042|-0.082|0.524
82588861|NCT01009554|164891107|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.055|STANDARD_ERROR_OF_MEAN|0.0395||0.172|TWO_SIDED|95.0|-0.024|0.133||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.133|-0.024|0.172
82588862|NCT01009554|164891108|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.116|STANDARD_ERROR_OF_MEAN|0.0439||0.01|TWO_SIDED|95.0|0.028|0.203||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.203|0.028|0.010
82588863|NCT01009554|164891109|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.014|STANDARD_ERROR_OF_MEAN|0.0145||0.348|TWO_SIDED|95.0|-0.043|0.015||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.015|-0.043|0.348
82588864|NCT01009554|164891110|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.025|STANDARD_ERROR_OF_MEAN|0.0186||0.185|TWO_SIDED|95.0|-0.012|0.062||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.062|-0.012|0.185
82588865|NCT01009554|164891111|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.049|STANDARD_ERROR_OF_MEAN|0.0196||0.014|TWO_SIDED|95.0|0.01|0.088||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.088|0.010|0.014
82588866|NCT01009554|164891112|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.008|STANDARD_ERROR_OF_MEAN|0.016||0.623|TWO_SIDED|95.0|-0.04|0.024||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.024|-0.040|0.623
82588867|NCT01009554|164891113|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.024|STANDARD_ERROR_OF_MEAN|0.0186||0.192|TWO_SIDED|95.0|-0.013|0.061||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.061|-0.013|0.192
82588868|NCT01009554|164891114|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.057|STANDARD_ERROR_OF_MEAN|0.0213||0.009|TWO_SIDED|95.0|0.014|0.099||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the body region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.099|0.014|0.009
82588869|NCT01009554|164891115|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.005|STANDARD_ERROR_OF_MEAN|0.0384||0.893|TWO_SIDED|95.0|-0.081|0.071||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.071|-0.081|0.893
82588870|NCT01009554|164891116|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.021|STANDARD_ERROR_OF_MEAN|0.0476||0.655|TWO_SIDED|95.0|-0.073|0.116||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.116|-0.073|0.655
82588871|NCT01009554|164891117|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.222|STANDARD_ERROR_OF_MEAN|0.0693||0.002|TWO_SIDED|95.0|0.084|0.359||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.359|0.084|0.002
82588872|NCT01009554|164891118|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.002|STANDARD_ERROR_OF_MEAN|0.0187||0.914|TWO_SIDED|95.0|-0.039|0.035||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.035|-0.039|0.914
82588873|NCT01009554|164891119|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.011|STANDARD_ERROR_OF_MEAN|0.0229||0.646|TWO_SIDED|95.0|-0.035|0.056||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.056|-0.035|0.646
82588874|NCT01009554|164891120|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.102|STANDARD_ERROR_OF_MEAN|0.0309||0.001|TWO_SIDED|95.0|0.04|0.163||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.163|0.040|0.001
82588875|NCT01009554|164891121|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.002|STANDARD_ERROR_OF_MEAN|0.0179||0.93|TWO_SIDED|95.0|-0.034|0.037||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.037|-0.034|0.930
82588876|NCT01009554|164891122|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.016|STANDARD_ERROR_OF_MEAN|0.0224||0.486|TWO_SIDED|95.0|-0.029|0.06||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.060|-0.029|0.486
82588877|NCT01009554|164891123|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.112|STANDARD_ERROR_OF_MEAN|0.0338||0.001|TWO_SIDED|95.0|0.045|0.18||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the facial region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.180|0.045|0.001
82588878|NCT01009554|164891124|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.1006||0.237|TWO_SIDED|95.0|-0.08|0.32||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.320|-0.080|0.237
82588879|NCT01009554|164891125|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.521|STANDARD_ERROR_OF_MEAN|0.112|<|0.001|TWO_SIDED|95.0|0.298|0.743||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.743|0.298|<0.001
82588880|NCT01009554|164891126|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.567|STANDARD_ERROR_OF_MEAN|0.1367|<|0.001|TWO_SIDED|95.0|0.295|0.839||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain score for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.839|0.295|<0.001
82588881|NCT01009554|164891127|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.062|STANDARD_ERROR_OF_MEAN|0.0491||0.21|TWO_SIDED|95.0|-0.036|0.16||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.160|-0.036|0.210
82588882|NCT01009554|164891128|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.262|STANDARD_ERROR_OF_MEAN|0.055|<|0.001|TWO_SIDED|95.0|0.153|0.372||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.372|0.153|<0.001
82588883|NCT01009554|164891129|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.281|STANDARD_ERROR_OF_MEAN|0.0654|<|0.001|TWO_SIDED|95.0|0.151|0.411||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain intensity for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.411|0.151|<0.001
82588884|NCT01009554|164891130|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.066|STANDARD_ERROR_OF_MEAN|0.0496||0.187|TWO_SIDED|95.0|-0.033|0.165||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.165|-0.033|0.187
82588885|NCT01009554|164891131|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.256|STANDARD_ERROR_OF_MEAN|0.0544|<|0.001|TWO_SIDED|95.0|0.148|0.364||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.364|0.148|<0.001
82588886|NCT01009554|164891132|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.273|STANDARD_ERROR_OF_MEAN|0.0669|<|0.001|TWO_SIDED|95.0|0.14|0.406||The significance threshold level was 0.05 (two-sided).|ANCOVA|Terms included treatment as a factor and baseline mean stain area for the lingual region and smoking status as covariates.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||0.406|0.140|<0.001
82588887|NCT04029480|164891144|SUPERIORITY||Difference in Bayesian Means|-0.67|||||TWO_SIDED|95.0|-1.06|-0.29||||||This analysis is based on a Bayesian ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule. The 95% confidence interval actually refers to a credible interval.||-0.29|-1.06|
82588888|NCT04029480|164891145|OTHER||Difference in Percent|-6.8|||||TWO_SIDED|95.0|-22.2|9.3||||||This analysis is based on Miettinen \& Nurminen method.||9.3|-22.2|
82588889|NCT04029480|164891146|OTHER||Difference in Percent|-12.4|||||TWO_SIDED|95.0|-25.9|2.8||||||This analysis is based on Miettinen \& Nurminen method.||2.8|-25.9|
82588890|NCT04029480|164891147|OTHER||Difference in Percent|0.0|||||||||||||No confidence intervals (CIs) were calculated. CIs were computed only for those endpoints where at least ≥8 participants in the combined ertugliflozin group or ≥2 participants in the placebo group had events.|This analysis is based on Miettinen \& Nurminen method.||||
82588891|NCT04029480|164891148|OTHER||Difference in Percent|-1.8|||||||||||||No confidence intervals (CIs) were calculated. CIs were computed only for those endpoints where at least ≥8 participants in the combined ertugliflozin group or ≥2 participants in the placebo group had events.|This analysis is based on Miettinen \& Nurminen method.||||
82588892|NCT04029480|164891149|SUPERIORITY||Difference in Least Squares Means|-0.66||||0.021|TWO_SIDED|95.0|-1.23|-0.1|||ANCOVA|||This analysis is based on an ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule.||-0.10|-1.23|0.021
82588893|NCT04029480|164891150|SUPERIORITY||Difference in Least Squares Means|-0.86||||0.001|TWO_SIDED|95.0|-1.39|-0.33|||ANCOVA|||This analysis is based on an ANCOVA model including terms for Baseline A1C, treatment, age (10 to 14 years/15 to 17 years), and insulin use (yes/no) at Screening and calculated by Rubin's Rule.||-0.33|-1.39|0.001
82588894|NCT04029480|164891151|SUPERIORITY||Difference in Least Squares Means|-29.0||||0.001|TWO_SIDED|95.0|-44.4|-13.6|||cLDA|||This analysis is based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-13.6|-44.4|0.001
82588895|NCT04029480|164891152|SUPERIORITY||Difference in Least Squares Means|-1.03||||0.003|TWO_SIDED|95.0|-1.7|-0.35|||cLDA|||This analysis is a based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-0.35|-1.70|0.003
82588896|NCT04029480|164891153|SUPERIORITY||Difference in Least Squares Means|-33.1||||0.001|TWO_SIDED|95.0|-53.0|-13.1|||cLDA|||This analysis is based on a constrained longitudinal data analysis (cLDA) model including terms for treatment, time, age (10 to 14 years/15 to 17 years), insulin use (yes/no), interaction of time by treatment with the constraint that the model estimated a single baseline mean (applicable to all treatment groups).||-13.1|-53.0|0.001
82588897|NCT02564926|164891185|OTHER||LS mean difference (kg)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.346|-1.819|||ANCOVA|||||-1.819|-3.346|<0.001
82588898|NCT02564926|164891186|OTHER||LS mean difference (%)|-0.46||||0.014|TWO_SIDED|95.0|-0.821|-0.094|||Mixed Models Analysis|||||-0.094|-0.821|0.014
82588899|NCT02564926|164891187|OTHER||Odds Ratio (OR)|1.45||||0.343|TWO_SIDED|95.0|0.673|3.113|||Regression, Logistic|||||3.113|0.673|0.343
82588900|NCT02564926|164891188|OTHER||LS mean difference (mg/dL)|-18.25||||0.006|TWO_SIDED|95.0|-31.14|-5.351|||Mixed Models Analysis|||||-5.351|-31.140|0.006
82588901|NCT02564926|164891189|OTHER||LS mean difference (kg)|-3.7|||<|0.001|TWO_SIDED|95.0|-4.667|-2.631|||Mixed Models Analysis|||||-2.631|-4.667|<0.001
82588902|NCT02564926|164891190|OTHER||LS mean difference (cm)|-2.21||||0.006|TWO_SIDED|95.0|-3.785|-0.635|||Mixed Models Analysis|||||-0.635|-3.785|0.006
82588903|NCT02564926|164891191|OTHER||LS mean difference (kg/m2)|-1.37|||<|0.001|TWO_SIDED|95.0|-1.742|-0.99|||Mixed Models Analysis|||||-0.990|-1.742|<0.001
82588904|NCT02564926|164891192|OTHER||LS mean difference (mmHg)|-6.81||||0.002|TWO_SIDED|95.0|-10.969|-2.641|||Mixed Models Analysis|||||-2.641|-10.969|0.002
82588905|NCT02564926|164891193|OTHER||LS mean difference (mmHg)|-2.61||||0.11|TWO_SIDED|95.0|-5.829|0.6|||Mixed Models Analysis|||||0.600|-5.829|0.110
82588906|NCT02564926|164891194|OTHER||LS mean difference (cm2)|-17.55||||0.002|TWO_SIDED|95.0|-28.603|-6.489|||ANCOVA|||||-6.489|-28.603|0.002
82588907|NCT02564926|164891195|OTHER||LS mean difference (cm2)|-18.39|||<|0.001|TWO_SIDED|95.0|-27.561|-9.218|||ANCOVA|||||-9.218|-27.561|<0.001
82588908|NCT02564926|164891196|OTHER||LS mean difference|-0.03||||0.503|TWO_SIDED|95.0|-0.127|0.063|||ANCOVA|||||0.063|-0.127|0.503
82588909|NCT02564926|164891197|OTHER||LS mean difference|-1.3|||<|0.001|TWO_SIDED|95.0|-1.992|-0.54|||ANCOVA|||||-0.540|-1.992|<0.001
82588910|NCT02564926|164891198|OTHER||LS mean difference (ng/mL)|657.71||||0.044|TWO_SIDED|95.0|18.325|1297.101|||ANCOVA|||||1297.101|18.325|0.044
82588911|NCT02564926|164891199|OTHER||LS mean difference (mg/L)|-0.12||||0.756|TWO_SIDED|95.0|-0.858|0.625|||ANCOVA|||||0.625|-0.858|0.756
82588912|NCT02564926|164891200|OTHER||LS mean difference (%)|-1.94|||<|0.001|TWO_SIDED|95.0|-2.807|-1.082|||ANCOVA|||||-1.082|-2.807|<0.001
82588913|NCT01554488|164891206|OTHER||Mean Difference (Net)|-1.03|||||TWO_SIDED|95.0|-5.03|2.92||||||All of the comparisons were based on mixed effects linear regression models with visit and group\*visit as fixed effects and subject as a random effect. Confidence intervals for the treatment difference (group\*visit interaction) were constructed using the Wald method.||2.92|-5.03|
82588914|NCT01474863|164891215|SUPERIORITY|||||||0.86|||||||ANOVA|||||||0.86
82588915|NCT00708175|164891216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.17|TWO_SIDED|95.0|-1.33|0.24||P-value is from a 1-way ANCOVA with treatment group as a factor and baseline BMD as a covariate. There were no multiplicity adjustments.|ANCOVA|||The sample size was calculated using a precision approach to estimate the difference between the pioglitazone and placebo treatment groups in the percent change from baseline in BMD.||0.24|-1.33|0.170
82588916|NCT00708175|164891217|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17||||0.64|TWO_SIDED|95.0|-0.91|0.56||P-value is from a 1-way ANCOVA with treatment group as a factor and the Month 12 BMD value as a covariate. There were no multiplicity adjustments.|ANCOVA|||||0.56|-0.91|0.640
82588917|NCT02038920|164891221|SUPERIORITY||Odds Ratio (OR)|1.8||||0.1448|TWO_SIDED|95.0|0.816|3.958|||Cochran-Mantel-Haenszel||MLN0002 group/placebo group. Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||3.958|0.816|0.1448
82588918|NCT02038920|164891222|SUPERIORITY||Odds Ratio (OR)|3.57||||0.1779|TWO_SIDED|95.0|0.532|23.953|||Pearson's Chi-square Test||MLN0002 group/placebo group|||23.953|0.532|0.1779
82588919|NCT02038920|164891228|SUPERIORITY||Odds Ratio (OR)|1.83||||0.1963|TWO_SIDED|95.0|0.72|4.673|||Cochran-Mantel-Haenszel||MLN0002 group/placebo group. Cochran-Mantel-Haenszel (CMH) test was used for analysis. Prior tumor necrosis factor alpha (TNFα) antagonist use (yes/no) was used as stratification factor.|||4.673|0.720|0.1963
82588920|NCT02038920|164891230|SUPERIORITY||Odds Ratio (OR)|15.4||||0.0094|TWO_SIDED|95.0|1.473|160.972|||Pearson's Chi-square Test|||||160.972|1.473|0.0094
82588921|NCT02038920|164891231|SUPERIORITY||Odds Ratio (OR)|1.5||||0.6534|TWO_SIDED|95.0|0.254|8.844|||Pearson's Chi-square Test||MLN0002 group/placebo group.|||8.844|0.254|0.6534
82588922|NCT02038920|164891232|SUPERIORITY|||||||0.2059|||||||Pearson's Chi-square Test|||||||0.2059
82588923|NCT02383589|164891247|SUPERIORITY||Difference in proportion|30.8|||<|0.0001|TWO_SIDED|95.0|14.7|45.15||The analysis was stratified by the stratification factors applied at randomization.|Cochran-Mantel-Haenszel|||||45.15|14.70|<0.0001
82588924|NCT02383589|164891248|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82588925|NCT02383589|164891249|SUPERIORITY||Adjusted Rate Ratio|0.12|||<|0.0001|TWO_SIDED|95.0|0.05|0.29||The model was adjusted for the following covariates in addition to log (each participant's duration in study) as an offset: treatment, region, duration of illness, baseline PDAI activity score, and baseline prednisone dose.|Negative Binominal Regression|||||0.29|0.05|<0.0001
82588926|NCT02383589|164891250|SUPERIORITY||Hazard Ratio (HR)|4.83||||0.0003|TWO_SIDED|95.0|1.97|11.81||P-value is from a stratified log-rank test used to test the time to first disease flare between the RTX and MMF treatment arms over the 52-week treatment period, adjusting for the stratification factors applied at randomization|Log Rank|||||11.81|1.97|0.0003
82588927|NCT02383589|164891251|SUPERIORITY||Hazard Ratio (HR)|0.15|||<|0.0001|TWO_SIDED|95.0|0.06|0.39||P-value is from a stratified log-rank test used to test the time to first disease flare between the RTX and MMF treatment arms over the 52-week treatment period, adjusting for the stratification factors applied at randomization|Log Rank|||||0.39|0.06|<0.0001
82588928|NCT02383589|164891252|SUPERIORITY||Difference in Estimated Means|-2.872||||0.0012|TWO_SIDED|95.0|-4.577|-1.167||P-value is from Mixed Model Repeated Measures (MMRM) with unstructured covariance matrix, adjusting for treatment, region, duration of illness, baseline DLQI score, visit, and an interaction terms for visit × baseline DLQI score and visit × treatment|Mixed Model Repeated Measures|||||-1.167|-4.577|0.0012
82588929|NCT00866697|164891256|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.766||||0.0021|TWO_SIDED|95.0|0.643|0.911||The P-value from the stratified log-rank test was adjusted for the two stratification factors.|Log Rank||The Hazard Ratio was estimated using a Pike estimator.|||0.911|0.643|0.0021
82588930|NCT00866697|164891257|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.6431|TWO_SIDED|95.0|0.805|1.145|||Log Rank|Stratified Log-Rank P-Value.|"The HR was estimated using a Pike estimator.~CIs were estimated using the Brookmeyer-Crowley method."|||1.145|0.805|0.6431
82588931|NCT05564299|164891300|OTHER|||||||0.053|||||||Wilcoxon (Mann-Whitney)|||Wilcoxon rank sum test||||0.053
82653337|NCT00601484|165022026|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-14.18|||||TWO_SIDED|90.0|-50.71|0.0||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||0.00|-50.71|
82588932|NCT00447382|164891308|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|1.04||||0.649||95.0|0.86|1.26|||ANOVA|Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data).|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|"Null hypothesis:Treatment with detemir produced with the NN729 process result in a similar change in cross reacting antibody levels as the NN304 process. Alternative hypothesis: change in antibody levels differ after treatment with detemir produced by the two manufacturing processes.~The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA."||1.26|0.86|0.649
82588933|NCT00447382|164891310|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.03||||0.758||95.0|-0.21|0.15|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as covariate.|The estimated treatment difference calculated is the NN729-NN304 treatment difference for the change from baseline to Week 52. The 95% confidence interval for this difference was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA.||0.15|-0.21|0.758
82588934|NCT00447382|164891311|SUPERIORITY_OR_OTHER_LEGACY||Estimated treatment difference|-0.1||||0.812||95.0|-0.89|0.7|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as covariate.|The estimated treatment difference calculated is the NN729-NN304 treatment difference for the change from baseline to Week 52. The 95% confidence interval for this difference was also calculated|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA.||0.7|-0.89|0.812
82588935|NCT00447382|164891313|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|0.93||||0.15||95.0|0.84|1.03|||ANOVA|Adjustments:Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data)|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA. The analysis was based on an assumption of a log-normal distribution for antibody data and was thus built on log-transformed data.||1.03|0.84|0.15
82588936|NCT00447382|164891314|SUPERIORITY_OR_OTHER_LEGACY||Treatment Ratio|1.0||||0.966||95.0|0.87|1.15|||ANOVA|Adjustments: Treatment, previous insulin detemir exposure and country as fixed effects and the baseline value as a covariate. (Log transformed data)|The treatment ratio calculated is the NN729-NN304 ratio for the change from baseline to Week 52. The 95% confidence interval for this ratio was also calculated.|The statistical analysis applies to the change from baseline to week 52 which was analysed using ANOVA. The analysis was based on an assumption of a log-normal distribution for antibody data and was thus built on log-transformed data.||1.15|0.87|0.966
82588937|NCT03811002|164891332|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.5819|TWO_SIDED|95.0|0.82|1.34|||Log Rank|Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). 1-sided significance level 0.025.|Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|Assuming exponentially distributed survival times, 480 eligible patients accrued uniformly over 48 months months) with 26 months additional follow-up after the last accrued patient would provide at least 85% power to detect a hazard ratio of 0.71 (median survival times of 38 months \[Arm I\] vs. 27 months \[Arm II\]) at a one-sided significance level of 0.025, after adjusting for type 1 error using group sequential methods for two interim analyses.||1.34|0.82|0.5819
82588938|NCT03811002|164891333|SUPERIORITY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.8|1.21|||Log Rank||Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|||1.21|0.80|
82588939|NCT03811002|164891336|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.52|1.41|||||Cause-specific hazard ratio stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm 1.|||1.41|0.52|
82588940|NCT03811002|164891337|SUPERIORITY||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.76|1.2|||||Stratified by radiation schedule (BID vs daily), chemotherapy (cisplatin vs carboplatin), and sex (male vs female). Reference level = Arm I.|||1.20|0.76|
82588941|NCT01703663|164891347|SUPERIORITY_OR_OTHER||absolute difference|-5.73||||0.183|TWO_SIDED|95.0|-14.4|2.97|||ANOVA|||||2.97|-14.4|0.183
82588942|NCT04600336|164891349|SUPERIORITY||Mean Difference (Final Values)|-9.11||||0.0019|TWO_SIDED|90.0|-13.76|-4.46|||t-test, 2 sided|||||-4.46|-13.76|0.0019
82588943|NCT04600336|164891349|SUPERIORITY||Mean Difference (Final Values)|-5.09||||0.0732|TWO_SIDED|90.0|-9.7|-0.48|||t-test, 2 sided|||||-0.48|-9.70|0.0732
82588944|NCT04600336|164891352|SUPERIORITY|||||||0.012|||||||Kruskal-Wallis|||||||0.0120
82588945|NCT04600336|164891355|SUPERIORITY|||||||0.0057|||||||Kruskal-Wallis|||||||0.0057
82588946|NCT04739800|164891356|EQUIVALENCE|This is the Hazard Ratio of Group 2 compared to Group 1.|Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.44|2.31|||||This is the Hazard Ratio of Group 2 compared to Group 1.|||2.31|0.44|
82588947|NCT04739800|164891356|EQUIVALENCE|This is the Hazard Ratio of Group 3 compared to Group 1.|Hazard Ratio (HR)|1.21|||||TWO_SIDED|95.0|0.52|2.84|||||This is the Hazard Ratio of Group 3 compared to Group 1.|||2.84|0.52|
82588948|NCT04739800|164891356|EQUIVALENCE|This is the Hazard Ratio of Group 4 compared to Group 1.|Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.58|3.08|||||||This is the Hazard Ratio of Group 4 compared to Group 1.|3.08|0.58|
82588949|NCT04739800|164891359|EQUIVALENCE|This is the Hazard Ratio of Group 2 compared to Group 1.|Hazard Ratio (HR)|1.41|||||TWO_SIDED|95.0|0.44|4.47|||||This is the Hazard Ratio for Group 2 compared to Group 1.|||4.47|0.44|
82588950|NCT04739800|164891359|EQUIVALENCE|This is the Hazard Ratio of Group 3 compared to Group 1.|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.4|4.19|||||This is the Hazard Ratio of Group 3 compared to Group 1.|||4.19|0.40|
82588951|NCT04739800|164891359|EQUIVALENCE|This is the Hazard Ratio of Group 4 compared to Group 1.|Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.58|3.08|||||This is the Hazard Ratio of Group 4 compared to Group 1.|||3.08|0.58|
82588952|NCT04091451|164891381|NON_INFERIORITY|The non-inferiority was to be demonstrated if the upper limit (UL) of the 95% confidence interval (CI) of the ratio of the incidence of HZ recurrence between HZ/su group and Placebo group was below (\<) 5.|Incidence Rate Ratio (IRR)|0.0|||||TWO_SIDED|95.0|0.0|0.46|||Poisson||IRR = incidence rate of HZ recurrence in HZ/su group divided by the incidence rate of HZ recurrence in Placebo group. Poisson method was used to adjust for differences in follow-up time across individuals.|To demonstrate the non-inferiority of HZ/su vaccine compared to placebo in terms of incidence of HZ recurrence from 30 days post-second vaccination (Month 3) until study end (duration of approximately 2 years to 4 years and 5 months).||0.46|0.00|
82588953|NCT00217737|164891405|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.63|1.11|||||Hazard ratio: Arm B/Arm A|||1.11|0.63|
82588954|NCT02113579|164891424|SUPERIORITY_OR_OTHER||Success rate difference (%)|24.7|||<|0.001|TWO_SIDED|||||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05) with estimated difference of \>= 20%, testing proceeded to Mean Cold Air Stimulus VAS Score at Week 4. Family-wise error was controlled at 0.05.|Regression, Logistic|Study center and mean baseline cold air stimulus VAS score as covariate. For subjects with no score at Week 4, non-response was imputed.|Estimated by calculating the model predicted success probabilities assuming all subjects received 12027-033 and then assuming all subjects received placebo, and then calculating mean of subjects' differences between these predicted probabilities.|The null hypothesis was no difference in success rates between treatment groups. The alternative hypothesis was a difference in success rates between treatment groups.||||<0.001
82653338|NCT00601484|165022026|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-8.61|||||TWO_SIDED|90.0|-36.87|4.64||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\]) as stratification variable.||4.64|-36.87|
82653339|NCT00601484|165022027|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.1|STANDARD_ERROR_OF_MEAN|12.495|||TWO_SIDED|90.0|-15.852|26.044||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||26.044|-15.852|
82653340|NCT00601484|165022027|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.27|STANDARD_ERROR_OF_MEAN|12.802|||TWO_SIDED|90.0|-17.216|25.764||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||25.764|-17.216|
82653341|NCT00601484|165022027|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.81|STANDARD_ERROR_OF_MEAN|13.741|||TWO_SIDED|90.0|-25.917|20.307||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||20.307|-25.917|
82653342|NCT00601484|165022027|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73|STANDARD_ERROR_OF_MEAN|12.416|||TWO_SIDED|90.0|-21.626|20.162||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||20.162|-21.626|
82653343|NCT00601484|165022027|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|10.51|STANDARD_ERROR_OF_MEAN|14.469|||TWO_SIDED|90.0|-13.858|34.868||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||34.868|-13.858|
82653344|NCT00601484|165022028|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.63|STANDARD_ERROR_OF_MEAN|6.968|||TWO_SIDED|90.0|-8.049|15.316||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||15.316|-8.049|
82653345|NCT00601484|165022028|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|3.19|STANDARD_ERROR_OF_MEAN|7.353|||TWO_SIDED|90.0|-9.153|15.533||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||15.533|-9.153|
82653346|NCT00601484|165022028|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|7.651|||TWO_SIDED|90.0|-13.806|11.932||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||11.932|-13.806|
82653347|NCT00601484|165022028|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|6.79|STANDARD_ERROR_OF_MEAN|7.543|||TWO_SIDED|90.0|-5.901|19.486||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||19.486|-5.901|
82653348|NCT00601484|165022028|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|4.77|STANDARD_ERROR_OF_MEAN|8.31|||TWO_SIDED|90.0|-9.221|18.765||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||18.765|-9.221|
82653349|NCT00601484|165022029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.86|STANDARD_ERROR_OF_MEAN|0.407|||TWO_SIDED|90.0|-1.546|-0.182||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.182|-1.546|
82377429|NCT02422797|164462011|SUPERIORITY|||||||0.022||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.022
82588955|NCT02113579|164891425|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-14.27|STANDARD_ERROR_OF_MEAN|2.239|<|0.001|TWO_SIDED|95.0|-18.68|-9.87||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05), testing proceeded to Mean Tactile Sensitivity Score at Week 4. Family-wise error was controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-9.87|-18.68|<0.001
82588956|NCT02113579|164891426|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|13.45|STANDARD_ERROR_OF_MEAN|1.844|<|0.001|TWO_SIDED|95.0|9.83|17.08||Per statistical analysis plan, if experimental rinse was significantly better than placebo (p\<0.05), testing proceeded to Mean Cold Air Stimulus VAS Score at Week 2 and Mean Tactile Sensitivity Score at Week 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||17.08|9.83|<0.001
82588957|NCT02113579|164891427|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.67|STANDARD_ERROR_OF_MEAN|1.809|<|0.001|TWO_SIDED|95.0|-11.23|-4.11||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate secondary outcomes Mean Cold Air Stimulus VAS Score at Wk 2 and Mean Tactile Sensitivity Score at Wk 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-4.11|-11.23|<0.001
82377430|NCT02422797|164462011|SUPERIORITY|||||||0.004||||||P-value assessed the HIVTSQs lifestyle/ease sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.004
82588958|NCT02113579|164891428|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.7|STANDARD_ERROR_OF_MEAN|0.975|<|0.001|TWO_SIDED|95.0|2.78|6.62||Per statistical analysis plan, Hochberg's method at significance level 0.05 was applied to jointly evaluate secondary outcomes Mean Cold Air Stimulus VAS Score at Wk 2 and Mean Tactile Sensitivity Score at Wk 2. Family-wise error controlled at 0.05.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.62|2.78|<0.001
82588959|NCT02113579|164891429|SUPERIORITY_OR_OTHER||Success rate difference (%)|15.44||||0.002|TWO_SIDED|||||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Regression, Logistic|Study center and mean baseline cold air stimulus VAS score as covariate. For subjects with no score at Week 2, non-response was imputed.|Estimated by calculating the model predicted success probabilities assuming all subjects received 12027-033 and then assuming all subjects received placebo, and then calculating mean of subjects' differences between these predicted probabilities.|The null hypothesis was no difference in success rates between treatment groups. The alternative hypothesis was a difference in success rates between treatment groups.||||0.002
82588960|NCT02113579|164891430|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.67|STANDARD_ERROR_OF_MEAN|1.65|<|0.001|TWO_SIDED|95.0|-9.92|-3.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-3.43|-9.92|<0.001
82588961|NCT02113579|164891431|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-11.52|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-15.3|-7.75||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-7.75|-15.30|<0.001
82588962|NCT02113579|164891432|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.422||0.023|TWO_SIDED|95.0|-6.04|-0.45||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.45|-6.04|0.023
82588963|NCT02113579|164891433|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-7.61|STANDARD_ERROR_OF_MEAN|1.873|<|0.001|TWO_SIDED|95.0|-11.29|-3.93||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|Repeated Measures Model|Analysis included Weeks 2 and 4 data. Terms included treatment, visit, study center, baseline value, treatment-by-visit and baseline-by-visit.|For subjects without post-baseline data, the baseline value was carried forward to Week 2. An unstructured covariance pattern was assumed.|The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups||-3.93|-11.29|<0.001
82588964|NCT03808688|164891434|OTHER|Descriptive statistics included the number of subjects/eyes(n), mean, SD, median, minimum, and maximum for continuous variables, and frequency and percentages for categorical variables.||||||||||||||||Cohorts assessed versus baseline treatment|All efficacy data were summarized at each timepoint using appropriate descriptive statistics for the overall populations as well as separately for monotherapy and concomitant therapy groups.|||
82588965|NCT02656420|164891439|EQUIVALENCE|Statistical significance of the treatment effect (p \< 0.01) for the lower doses compared to the high dose as the reference.|Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-1.89|-1.57||Using a linear mixed effects model with random intercepts and slope, SF level (in the log scale) was regressed on categorical treatment group (medium dose and low dose; high as the reference) as well as day (continuous variable).|Mixed Models Analysis|||The null hypothesis is that the urinary sulforaphane levels are equal across treatment arms. Sulforaphane metabolite levels were measured daily for 10 days in each arm.||-1.57|-1.89|<0.001
82653350|NCT00601484|165022029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.38|STANDARD_ERROR_OF_MEAN|0.484|||TWO_SIDED|90.0|-2.196|-0.57||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.570|-2.196|
82653351|NCT00601484|165022029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.54|||TWO_SIDED|90.0|-2.204|-0.388||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.388|-2.204|
82653352|NCT00601484|165022029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.553|||TWO_SIDED|90.0|-2.032|-0.172||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.172|-2.032|
82653353|NCT00601484|165022029|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.02|STANDARD_ERROR_OF_MEAN|0.512|||TWO_SIDED|90.0|-1.878|-0.152||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.152|-1.878|
82653354|NCT00601484|165022030|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-16.24|STANDARD_ERROR_OF_MEAN|8.064|||TWO_SIDED|90.0|-29.757|-2.718||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-2.718|-29.757|
82588966|NCT02656420|164891440|SUPERIORITY|To summarize first 12-hour SPMA levels over the study course by participant, the SPMA geometric mean (in the log scale) for each individual was calculated and used as the outcome. Treatment arms (placebo, fifth, half and full doses) were independent (categorical) variables in a linear regression model with placebo as the reference.|Mean Difference (Final Values)|63.2|||<|0.05|TWO_SIDED|95.0|10.6|140.9|||Regression, Linear||This Estimation Parameter was based on the comparison between the full dose group and the placebo group.|All broccoli sprout arms were compared with the placebo arm.||140.9|10.6|<0.05
82588967|NCT03872453|164891464|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|4.2||||0.1214|TWO_SIDED|98.3|-2.3|10.7||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||10.7|-2.3|0.1214
82588968|NCT03872453|164891464|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.0||||0.0113|TWO_SIDED|98.3|0.4|13.7||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||13.7|0.4|0.0113
82653355|NCT00601484|165022030|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-27.96|STANDARD_ERROR_OF_MEAN|10.059|||TWO_SIDED|90.0|-44.846|-11.075||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-11.075|-44.846|
82653356|NCT00601484|165022030|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-25.72|STANDARD_ERROR_OF_MEAN|11.508|||TWO_SIDED|90.0|-45.079|-6.369||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-6.369|-45.079|
82653357|NCT00601484|165022030|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.56|STANDARD_ERROR_OF_MEAN|12.157|||TWO_SIDED|90.0|-40.017|0.902||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.902|-40.017|
82653358|NCT00601484|165022030|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-21.9|STANDARD_ERROR_OF_MEAN|11.124|||TWO_SIDED|90.0|-40.633|-3.171||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-3.171|-40.633|
82653359|NCT00601484|165022031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.86|||TWO_SIDED|90.0|-2.942|-0.057||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.057|-2.942|
82653360|NCT00601484|165022031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.08|STANDARD_ERROR_OF_MEAN|0.82|||TWO_SIDED|90.0|-3.458|-0.705||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.705|-3.458|
82653361|NCT00601484|165022031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.13|STANDARD_ERROR_OF_MEAN|1.267|||TWO_SIDED|90.0|-4.265|-0.004||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.004|-4.265|
82653362|NCT00601484|165022031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|1.531|||TWO_SIDED|90.0|-4.029|1.124||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.124|-4.029|
82653363|NCT00601484|165022031|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.24|STANDARD_ERROR_OF_MEAN|1.293|||TWO_SIDED|90.0|-4.419|-0.063||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.063|-4.419|
82653364|NCT00601484|165022032|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-7.93|||||TWO_SIDED|90.0|-27.32|11.32||||||Week 2: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||11.32|-27.32|
82653365|NCT00601484|165022032|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-17.9|||||TWO_SIDED|90.0|-42.04|4.37||||||Week 4: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||4.37|-42.04|
82588969|NCT03872453|164891464|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.7||||0.0055|TWO_SIDED|98.3|1.1|14.3||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||14.3|1.1|0.0055
82588970|NCT03872453|164891465|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|5.4||||0.1162|TWO_SIDED|98.3|-2.8|13.6||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||13.6|-2.8|0.1162
82653366|NCT00601484|165022032|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-24.44|||||TWO_SIDED|90.0|-51.58|0.67||||||Week 6: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||0.67|-51.58|
82653367|NCT00601484|165022032|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-7.5|||||TWO_SIDED|90.0|-41.71|17.33||||||Week 10: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||17.33|-41.71|
82653368|NCT00601484|165022032|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehman median difference|-21.37|||||TWO_SIDED|90.0|-54.76|7.92||||||Week 16: Van elteren test was used to compare the percent change from baseline between tanezumab and placebo using baseline average daily pain score (moderate \[4 to less than 7\] or severe \[greater than or equal to 7\] as stratification variable.||7.92|-54.76|
82653369|NCT00601484|165022033|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.165|||TWO_SIDED|90.0|-0.591|-0.04||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.040|-0.591|
82653370|NCT00601484|165022033|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|90.0|-0.734|0.02||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.020|-0.734|
82588971|NCT03872453|164891465|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|8.3||||0.0155|TWO_SIDED|98.3|0.1|16.5||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||16.5|0.1|0.0155
82588972|NCT03872453|164891465|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|8.9||||0.0094|TWO_SIDED|98.3|0.7|17.0||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||||17.0|0.7|0.0094
82588973|NCT03872453|164891466|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.1||||0.0439|TWO_SIDED|98.3|-1.3|15.4||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||If the coprimary endpoint tests were both significant for a zavegepant dose group versus placebo, the secondary endpoints were tested for that zavegepant dose group versus placebo using a hierarchical gate-keeping procedure in the order the endpoints are reported, with each test in the hierarchy conducted at alpha = 0.0167. If a test in the hierarchy was not significant, any further tests on endpoints in the sequence were not considered significant for any zavegepant dose group versus placebo.||15.4|-1.3|0.0439
82588974|NCT03872453|164891466|SUPERIORITY|The stratified percentage difference between zavegepant group and placebo was tested at a Bonferroni-corrected alpha level of 0.0167.|Stratified Percentage Difference|7.5||||0.0302|TWO_SIDED|98.3|-0.8|15.9||Threshold for significance at 0.0167 level.|Cochran-Mantel-Haenszel|||If the coprimary endpoint tests were both significant for a zavegepant dose group versus placebo, the secondary endpoints were tested for that zavegepant dose group versus placebo using a hierarchical gate-keeping procedure in the order the endpoints are reported, with each test in the hierarchy conducted at alpha = 0.0167. If a test in the hierarchy was not significant, any further tests on endpoints in the sequence were not considered significant for any zavegepant dose group versus placebo.||15.9|-0.8|0.0302
82588975|NCT05104476|164891586|SUPERIORITY||Bayesian Progression Model|0.81|||||TWO_SIDED|95.0|0.56|1.13|||||Reported here is the estimated effect parameter from the Bayesian Progression Model and the associated Credibility Interval for the active arm.|||1.13|0.56|
82588976|NCT01346488|164891617|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82588977|NCT01346488|164891617|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82588978|NCT01346488|164891617|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82588979|NCT01346488|164891617|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82588980|NCT01346488|164891617|SUPERIORITY_OR_OTHER|||||||1||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||1.0000
82588981|NCT01346488|164891617|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82653371|NCT00601484|165022033|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.211|||TWO_SIDED|90.0|-0.724|-0.015||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.015|-0.724|
82588982|NCT01346488|164891618|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82588983|NCT01346488|164891618|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82588984|NCT01346488|164891618|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82588985|NCT01346488|164891618|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82588986|NCT01346488|164891618|SUPERIORITY_OR_OTHER|||||||0.0054||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||0.0054
82588987|NCT01346488|164891618|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82588988|NCT01346488|164891619|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||<0.0001
82588989|NCT01346488|164891619|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||<0.0001
82588990|NCT01346488|164891619|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82588991|NCT01346488|164891619|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||<0.0001
82588992|NCT01346488|164891619|SUPERIORITY_OR_OTHER|||||||0.0592||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||0.0592
82588993|NCT01346488|164891619|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82588994|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82588995|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||<0.0001
82588996|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||<0.0001
82653372|NCT00601484|165022033|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|90.0|-0.806|-0.005||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.005|-0.806|
82588997|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||<0.0001
82588998|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82588999|NCT01346488|164891620|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589000|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82589001|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82589002|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82589003|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82589004|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82589005|NCT01346488|164891621|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589006|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||<0.0001
82589007|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
82589008|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
82589009|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
82589010|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||=|0.0005||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||= 0.0005
82589011|NCT01346488|164891622|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
82589012|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82589013|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82589014|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82589015|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82589016|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82589017|NCT01346488|164891623|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589018|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
82589019|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
82589020|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
82589021|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
82589022|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
82589023|NCT01346488|164891624|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
82589024|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82589025|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82589026|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82589027|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82589028|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82589029|NCT01346488|164891625|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589030|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
82589031|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
82589032|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
82589033|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
82589034|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
82589035|NCT01346488|164891626|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
82589036|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82589037|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82589038|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82589039|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82589040|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82589041|NCT01346488|164891627|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589042|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 12 (Remission)||||< 0.0001
82589043|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 24 (Remission)||||< 0.0001
82589044|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 36 (Remission)||||< 0.0001
82653373|NCT00601484|165022033|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.206|||TWO_SIDED|90.0|-0.47|0.223||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.223|-0.470|
82589045|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||Week 48 (Remission)||||< 0.0001
82589046|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at discontinuation of ADA therapy (Remission)||||< 0.0001
82589047|NCT01346488|164891628|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|McNemar|||at final assessment (Remission)||||< 0.0001
82589048|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 12||||< 0.0001
82589049|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 24||||< 0.0001
82589050|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 36||||< 0.0001
82589051|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||Week 48||||< 0.0001
82589052|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at discontinuation of ADA therapy||||< 0.0001
82589053|NCT01346488|164891629|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value adjusted for multiplicity|Paired t-test|||at final assessment||||< 0.0001
82589054|NCT04682977|164891632|SUPERIORITY||Mean difference (adjusted)|1.58|STANDARD_ERROR_OF_MEAN|0.76||0.04|TWO_SIDED|||||Sidak correction for multiple comparisons.|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.04
82589055|NCT04682977|164891633|SUPERIORITY||Mean difference (adjusted)|1.98|STANDARD_ERROR_OF_MEAN|1.75||0.26|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.26
82653374|NCT00601484|165022034|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-15.34|STANDARD_ERROR_OF_MEAN|8.425|||TWO_SIDED|90.0|-29.468|-1.209||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-1.209|-29.468|
82589056|NCT04682977|164891634|SUPERIORITY||Mean difference (adjusted)|-1.06|STANDARD_ERROR_OF_MEAN|1.6||0.51|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF-Control|||||0.51
82589057|NCT04682977|164891635|SUPERIORITY||Mean difference (adjusted)|2.17|STANDARD_ERROR_OF_MEAN|1.78||0.23|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.23
82589058|NCT04682977|164891636|SUPERIORITY||Mean difference (adjusted)|4.65|STANDARD_ERROR_OF_MEAN|5.97||0.44|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.44
82589059|NCT04682977|164891637|SUPERIORITY||Mean difference (adjusted)|4.37|STANDARD_ERROR_OF_MEAN|3.47||0.22|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.22
82589060|NCT04682977|164891638|SUPERIORITY||Mean difference (adjusted)|0.91|STANDARD_ERROR_OF_MEAN|1.8||0.91|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.91
82589061|NCT04682977|164891639|SUPERIORITY||Mean difference (adjusted)|0.18|STANDARD_ERROR_OF_MEAN|0.65||0.78|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.78
82589062|NCT04682977|164891640|SUPERIORITY||Mean difference (adjusted)|-0.12|STANDARD_ERROR_OF_MEAN|0.53||0.83|TWO_SIDED|||||Sidak correction for multiple comparisons|ANCOVA|ANCOVA with baseline score as covariate Effect size calculated using Cohen's d|Treatment Difference = IPROACTIF - Control|||||0.83
82589063|NCT04682977|164891641|SUPERIORITY|||||||0.67||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.67
82589064|NCT04682977|164891642|SUPERIORITY|||||||0.77||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.77
82589065|NCT04682977|164891643|SUPERIORITY|||||||0.79||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.79
82589066|NCT04682977|164891644|SUPERIORITY|||||||0.44||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.44
82589067|NCT04682977|164891645|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p = 0.05|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r||||||0.65
82589068|NCT04682977|164891646|SUPERIORITY|||||||0.66||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.66
82589069|NCT04682977|164891647|SUPERIORITY|||||||0.81||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.81
82589070|NCT04682977|164891648|SUPERIORITY|||||||0.89||||||The threshold for statistical significance was p = 0.05.|Wilcoxon (Mann-Whitney)|A non-parametric test was used due to non-normal distribution of data. Effect size calculated using rank biserial correlation r.||||||0.89
82653375|NCT00601484|165022034|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-16.97|STANDARD_ERROR_OF_MEAN|11.102|||TWO_SIDED|90.0|-35.608|1.665||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.665|-35.608|
82589071|NCT01423812|164891651|OTHER||||||<|0.05|||||||t-test, 2 sided|||p value||||<0.05
82589072|NCT01423812|164891652|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82589073|NCT01214187|164891661|SUPERIORITY||Mean Difference (Net)|-1.04|STANDARD_ERROR_OF_MEAN|0.81||0.2072|TWO_SIDED||||||ANOVA|Repeated measure ANOVA|Difference = (Change from baseline to Week 12 for Carbon monoxide group) minus (Change from baseline to Week 12 for Placebo group)|||||0.2072
82589074|NCT01214187|164891662|SUPERIORITY||Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|1.57||0.5882|TWO_SIDED||||||ANOVA|Repeated Measure ANOVA|Difference = (Change from baseline to week 12 for CO group) minus (Change from baseline to week 12 for placebo group)|||||0.5882
82589075|NCT01214187|164891663|SUPERIORITY||Mean Difference (Net)|0.64|STANDARD_ERROR_OF_MEAN|1.93||0.7401|TWO_SIDED||||||ANOVA|Repeated Measure ANOVA|difference=(change from baseline to week 12 for CO group) minus (change from baseline to week 12 for placebo group)|||||0.7401
82589076|NCT01214187|164891664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-48.46|STANDARD_ERROR_OF_MEAN|18.14||0.0099|TWO_SIDED||||||ANOVA|Repeated measure ANOVA|Difference=(Change from baseline to week 12 for CO group) minus (Change from baseline to week 12 for placebo group)|||||0.0099
82589077|NCT01214187|164891665|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_ERROR_OF_MEAN|2.42||0.8124|TWO_SIDED||||||ANOVA|Repeated measure ANOVA||||||0.8124
82589078|NCT01233869|164891666|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.86|||<|0.0001|TWO_SIDED|95.0|2.02|5.74|||Mixed Models Analysis|||Statistical Analysis 1 is comparison of annualized rate of kidney enlargement: placebo versus pooled bosutinib.||5.74|2.02|<0.0001
82589079|NCT01233869|164891666|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.83||||0.1234|TWO_SIDED|95.0|-0.5|4.22|||Mixed Models Analysis|||Statistical Analysis 2 is comparison of annualized rate of kidney enlargement: bosutinib 200 mg/day versus bosutinib 400/200 mg/day.||4.22|-0.50|0.1234
82589080|NCT01233869|164891666|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.06||||0.005|TWO_SIDED|95.0|0.93|5.23|||Mixed Models Analysis|||Statistical Analysis 3 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 200 mg/day.||5.23|0.93|0.0050
82653376|NCT00601484|165022034|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-18.04|STANDARD_ERROR_OF_MEAN|10.358|||TWO_SIDED|90.0|-35.476|-0.613||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||-0.613|-35.476|
82653377|NCT00601484|165022034|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-19.48|STANDARD_ERROR_OF_MEAN|13.631|||TWO_SIDED|90.0|-42.418|3.46||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||3.460|-42.418|
82653378|NCT00601484|165022034|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-9.16|STANDARD_ERROR_OF_MEAN|10.097|||TWO_SIDED|90.0|-26.174|7.849||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||7.849|-26.174|
82589081|NCT01233869|164891666|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.41||||0.1336|TWO_SIDED|95.0|-1.03|8.05|||Mixed Models Analysis|||Statistical Analysis 4 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 400 mg/day.||8.05|-1.03|0.1336
82589082|NCT01233869|164891666|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.95|||<|0.0001|TWO_SIDED|95.0|2.65|7.3|||Mixed Models Analysis|||Statistical Analysis 5 is comparison of annualized rate of kidney enlargement: placebo versus bosutinib 400/200 mg/day.||7.30|2.65|<0.0001
82589083|NCT01158651|164891688|SUPERIORITY|The treatment regimen was considered promising for further study if after 48 weeks of treatment there was at least a 25% response rate compared to an expected response rate of 5% or less, which was considered evidence of an unpromising regimen. Assuming the true response rate is 5%, the binomial distribution was used to calculate Type I errors and power.|Proportion responding|0.682|||<|0.001|TWO_SIDED|95.0|0.4872|0.8764|||Exact test|||||0.8764|0.4872|<0.001
82589084|NCT04464265|164891690|OTHER|Our study adopted a within-subject design, which is not a randomized controlled trial (RCT). The P-value below indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli.|Mean Difference (Net)|-3.0|STANDARD_DEVIATION|2.0|<|0.001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = BOLD Response During Sedation - BOLD Response During Baseline|The null hypothesis is no difference in BOLD response between sedated state and baseline. For an fMRI study of cognitive function, Desmond and Glover (J. Neurosci. Methods., 2002) reported that about 25 subjects are necessary to achieve 80% power for a 0.5% increase of activity. We analyzed 27 subjects that fulfilled the suggested optimal group size for reliable statistics in functional MRI studies (also see Thirion et al., Neuroimage, 2007).||||<0.001
82589085|NCT04464265|164891691|OTHER|Our study adopted a within-subject design, which is not a randomized controlled trial (RCT). The P-value below indicates if propofol administration has a statistically significant impact on the brain activity in response to sensory stimuli.|Mean Difference (Net)|-2.72|STANDARD_DEVIATION|3.17|<|0.001|TWO_SIDED|||||The threshold for statistical significance was p=0.05. The p-value was not adjusted for multiple comparisons, as only one comparison was performed.|t-test, 2 sided||Difference = Squeeze Pressure During Sedation - Squeeze Pressure During Baseline|||||<0.001
82589086|NCT05341700|164891692|SUPERIORITY|||||||0.246|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of PINP between RUN and RUN+J.||||0.246
82589087|NCT05341700|164891693|SUPERIORITY|||||||0.714|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of CTX between RUN and RUN+J.||||0.714
82589088|NCT05341700|164891694|SUPERIORITY|||||||0.309|||||||Mixed Models Analysis|||||||0.309
82589089|NCT05341700|164891695|SUPERIORITY|||||||0.308|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of IGF1 between RUN and RUN+J.||||0.308
82377431|NCT02422797|164462011|SUPERIORITY|||||||0.076||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 4)|Wilcoxon rank sum test|||||||0.076
82377432|NCT02422797|164462011|SUPERIORITY|||||||0.073||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 24)|Wilcoxon rank sum test|||||||0.073
82589090|NCT05341700|164891696|SUPERIORITY|||||||0.207|||||||Mixed Models Analysis|||Null hypothesis is that there was no difference in change of ferritin between RUN and RUN+J.||||0.207
82589091|NCT00729781|164891697|SUPERIORITY_OR_OTHER||Percent of subjects with improvement|57.8||||0.19|ONE_SIDED|97.5|42.2||||One-sided, binomial exact test|||This study had two independent primary endpoints (cosmetic and functional improvement). Therefore, the assumed type I error rate for each was 2.5% in order to maintain an overall 5% type I error rate. For each endpoint, the percent of subjects with improvement of the total number implanted was to be compared to a rate of 50% using a one-sided, binomial exact test. If the p-value was \< 0.025, the objective would have been met.|||42.2|0.19
82589092|NCT00729781|164891698|SUPERIORITY_OR_OTHER||Percent of subjects with improvement|15.6|||>|0.99|ONE_SIDED|97.5|0.05||||One-sided, binomial exact test||||||0.05|>0.99
82589093|NCT02378220|164891710|OTHER||Risk Ratio (RR)|0.65||||0.21|TWO_SIDED|95.0|0.32|1.28||P-value for 30 days measure.|Regression, Poisson|||||1.28|0.32|0.21
82589094|NCT02378220|164891710|OTHER||Risk Ratio (RR)|0.48||||0.007|TWO_SIDED|95.0|0.27|0.82||P-Value for 60 days measure|Regression, Poisson|||||0.82|0.27|0.007
82589095|NCT02378220|164891711|OTHER||Risk Ratio (RR)|0.62||||0.16|TWO_SIDED|95.0|0.31|1.21||P-Value for 30 days measure|Regression, Poisson|||||1.21|0.31|0.16
82589096|NCT02378220|164891711|OTHER||Risk Ratio (RR)|0.58||||0.045|TWO_SIDED|95.0|0.34|0.99|||Regression, Poisson|||||0.99|0.34|0.045
82589097|NCT02378220|164891712|OTHER||Hazard Ratio (HR)|0.59||||0.1|TWO_SIDED|95.0|0.31|1.12|||Log Rank|||||1.12|0.31|0.10
82589098|NCT02378220|164891713|OTHER||Hazard Ratio (HR)|0.6||||0.09|TWO_SIDED|95.0|0.33|1.1|||Log Rank|||||1.10|0.33|0.09
82589099|NCT00312221|164891724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.126|TWO_SIDED|95.0|-0.8562|0.1054|||Mixed Models Analysis||Treatment comparison between BTDS 20 and BTDS 5 during the 12-week double-blind phase|||0.1054|-0.8562|0.126
82589100|NCT00312221|164891724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.14||95.0|-0.8455|0.1189|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||0.1189|-0.8455|0.140
82589101|NCT00312221|164891725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.007|TWO_SIDED|95.0|-1.47|-0.2|||ANCOVA||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||-0.20|-1.47|0.007
82589102|NCT00312221|164891725|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8||||0.011|TWO_SIDED|95.0|-1.47|-0.17|||ANCOVA||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||-0.17|-1.47|0.011
82589103|NCT00312221|164891726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.707|TWO_SIDED|95.0|-3.0054|2.0397|||Mixed Models Analysis||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||2.0397|-3.0054|0.707
82589104|NCT00312221|164891726|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79||||0.187|TWO_SIDED|95.0|-4.4459|0.8706|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||0.8706|-4.4459|0.187
82589105|NCT00312221|164891727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.685|TWO_SIDED|95.0|-5.6177|3.693|||Mixed Models Analysis||Treatment comparison between BTDS 5 and BTDS 20 during the 12-week double-blind phase.|||3.6930|-5.6177|0.685
82589106|NCT00312221|164891727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81||||0.443|TWO_SIDED|95.0|-6.4415|2.8255|||Mixed Models Analysis||Treatment comparison between BTDS 5 and oxycodone immediate-release during the 12-week double-blind phase.|||2.8255|-6.4415|0.443
82589107|NCT04178967|164891738|SUPERIORITY||Risk Difference (RD)|21.9||||4e-06|TWO_SIDED|95.0|14.2|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.2|0.000004
82589108|NCT04178967|164891739|SUPERIORITY||Risk Difference (RD)|33.3|||<|1e-06|TWO_SIDED|95.0|24.4|42.2|||Cochran-Mantel-Haenszel|||||42.2|24.4|<0.000001
82589109|NCT04178967|164891740|SUPERIORITY||Risk Difference (RD)|0.7||||0.308463|TWO_SIDED|95.0|-0.3|1.7|||Cochran-Mantel-Haenszel|||||1.7|-0.3|0.308463
82589110|NCT04178967|164891741|SUPERIORITY||Risk Difference (RD)|8.1||||0.001607|TWO_SIDED|95.0|4.1|12.0|||Cochran-Mantel-Haenszel|||||12.0|4.1|0.001607
82589111|NCT04178967|164891742|SUPERIORITY||Risk Difference (RD)|21.9||||4e-06|TWO_SIDED|95.0|14.2|29.6|||Cochran-Mantel-Haenszel|||||29.6|14.2|0.000004
82589112|NCT04178967|164891743|SUPERIORITY||Risk Difference (RD)|20.7||||8e-06|TWO_SIDED|95.0|13.3|28.1|||Cochran-Mantel-Haenszel|||||28.1|13.3|0.000008
82589113|NCT04178967|164891744|SUPERIORITY||LS Mean Difference (Final Values)|-27.53|||<|1e-06|TWO_SIDED|95.0|-34.9|-20.2|||ANCOVA|||||-20.2|-34.9|<0.000001
82589114|NCT04178967|164891745|SUPERIORITY||Risk Difference (RD)|28.3|||<|1e-06|TWO_SIDED|95.0|20.0|36.5|||Cochran-Mantel-Haenszel|||||36.5|20.0|<0.000001
82589115|NCT04178967|164891746|SUPERIORITY||Risk Difference (RD)|29.7|||<|1e-06|TWO_SIDED|95.0|21.0|38.4|||Cochran-Mantel-Haenszel|||||38.4|21.0|<0.000001
82589116|NCT04178967|164891747|SUPERIORITY||LS Mean Difference (Final Values)|-33.57|||<|1e-06|TWO_SIDED|95.0|-41.2|-26.0|||ANCOVA|||||-26.0|-41.2|<0.000001
82589117|NCT04178967|164891748|SUPERIORITY||LS Mean Difference (Final Values)|-16.2|||<|1e-06|TWO_SIDED|95.0|-20.3|-12.0|||Mixed Models Analysis|||||-12.0|-20.3|<0.000001
82589118|NCT04178967|164891749|SUPERIORITY||Risk Difference (RD)|4.9||||0.022921|TWO_SIDED|95.0|1.4|8.4|||Cochran-Mantel-Haenszel|||||8.4|1.4|0.022921
82589119|NCT04178967|164891750|SUPERIORITY||LS Mean Difference (Final Values)|-4.9|||<|1e-06|TWO_SIDED|95.0|-6.3|-3.5|||ANCOVA|||||-3.5|-6.3|<0.000001
82589120|NCT04178967|164891751|SUPERIORITY||Risk Difference (RD)|32.9||||1e-06|TWO_SIDED|95.0|22.2|43.6|||Cochran-Mantel-Haenszel|||||43.6|22.2|0.000001
82589121|NCT04178967|164891752|SUPERIORITY||Risk Difference (RD)|33.0||||1e-06|TWO_SIDED|95.0|22.2|43.8|||Cochran-Mantel-Haenszel|||||43.8|22.2|0.000001
82589122|NCT04178967|164891753|SUPERIORITY||LS Mean Difference (Final Values)|-37.09|||<|1e-06|TWO_SIDED|95.0|-47.4|-26.8|||ANCOVA|||||-26.8|-47.4|<0.000001
82589123|NCT04178967|164891754|SUPERIORITY||LS Mean Difference (Final Values)|-0.7|||<|1e-06|TWO_SIDED|95.0|-0.9|-0.5|||ANCOVA|||||-0.5|-0.9|<0.000001
82589124|NCT04178967|164891755|SUPERIORITY||Risk Difference (RD)|18.9||||0.000571|TWO_SIDED|95.0|9.6|28.1|||Cochran-Mantel-Haenszel|||||28.1|9.6|0.000571
82653379|NCT00601484|165022035|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.404|||TWO_SIDED|90.0|-1.394|0.03||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.030|-1.394|
82589125|NCT04178967|164891756|SUPERIORITY||Risk Difference (RD)|0.4||||0.469221|TWO_SIDED|95.0|-0.4|1.2|||Cochran-Mantel-Haenszel|||||1.2|-0.4|0.469221
82589126|NCT04178967|164891757|SUPERIORITY||Risk Difference (RD)|2.7||||0.113194|TWO_SIDED|95.0|-0.1|5.4|||Cochran-Mantel-Haenszel|||||5.4|-0.1|0.113194
82589127|NCT04178967|164891758|SUPERIORITY||Risk Difference (RD)|13.2||||0.00023|TWO_SIDED|95.0|7.7|18.7|||Cochran-Mantel-Haenszel|||||18.7|7.7|0.000230
82589128|NCT04178967|164891759|SUPERIORITY||Risk Difference (RD)|0.4||||0.46816|TWO_SIDED|95.0|-0.4|1.3|||Cochran-Mantel-Haenszel|||||1.3|-0.4|0.468160
82589129|NCT04178967|164891760|SUPERIORITY||Risk Difference (RD)|2.9||||0.11577|TWO_SIDED|95.0|-0.1|5.8|||Cochran-Mantel-Haenszel|||||5.8|-0.1|0.115770
82589130|NCT04178967|164891761|SUPERIORITY||Risk Difference (RD)|14.2||||0.000252|TWO_SIDED|95.0|8.2|20.1|||Cochran-Mantel-Haenszel|||||20.1|8.2|0.000252
82589131|NCT04178967|164891762|SUPERIORITY||LS Mean Difference (Final Values)|-30.76|||<|1e-06|TWO_SIDED|95.0|-36.93|-24.59|||ANCOVA|||||-24.59|-36.93|<0.000001
82589132|NCT04178967|164891764|SUPERIORITY||Risk Difference (RD)|12.8||||0.238245|TWO_SIDED|95.0|-9.5|35.1|||Cochran-Mantel-Haenszel|||||35.1|-9.5|0.238245
82589133|NCT04178967|164891764|SUPERIORITY||Risk Difference (RD)|4.8||||0.612427|TWO_SIDED|95.0|-17.8|27.3|||Cochran-Mantel-Haenszel|||||27.3|-17.8|0.612427
82589134|NCT04178967|164891765|SUPERIORITY||Risk Difference (RD)|32.6||||0.033876|TWO_SIDED|95.0|2.6|62.5|||Cochran-Mantel-Haenszel|||||62.5|2.6|0.033876
82589135|NCT04178967|164891765|SUPERIORITY||Risk Difference (RD)|13.4||||0.407417|TWO_SIDED|95.0|-17.5|44.3|||Cochran-Mantel-Haenszel|||||44.3|-17.5|0.407417
82589136|NCT04178967|164891766|SUPERIORITY||Risk Difference (RD)|20.3||||0.159281|TWO_SIDED|95.0|-11.4|52.0|||Cochran-Mantel-Haenszel|||||52.0|-11.4|0.159281
82589137|NCT04178967|164891766|SUPERIORITY||Risk Difference (RD)|20.4||||0.16495|TWO_SIDED|95.0|-10.6|51.4|||Cochran-Mantel-Haenszel|||||51.4|-10.6|0.164950
82589138|NCT04178967|164891767|SUPERIORITY||Risk Difference (RD)|19.7||||0.179704|TWO_SIDED|95.0|-12.2|51.2|||Cochran-Mantel-Haenszel|||||51.2|-12.2|0.179704
82589139|NCT04178967|164891767|SUPERIORITY||Risk Difference (RD)|24.3||||0.08308|TWO_SIDED|95.0|-6.5|55.1|||Cochran-Mantel-Haenszel|||||55.1|-6.5|0.083080
82589140|NCT04178967|164891768|SUPERIORITY||LS Mean Difference (Final Values)|-6.29||||0.176748|TWO_SIDED|95.0|-15.46|2.87|||ANCOVA|||||2.87|-15.46|0.176748
82589141|NCT04178967|164891768|SUPERIORITY||LS Mean Difference (Final Values)|-6.25||||0.183151|TWO_SIDED|95.0|-15.48|2.99|||ANCOVA|||||2.99|-15.48|0.183151
82589142|NCT04178967|164891769|SUPERIORITY||LS Mean Difference (Final Values)|0.1||||1e-06|TWO_SIDED|95.0|0.1|0.1|||ANCOVA|||UK||0.1|0.1|0.000001
82589143|NCT04178967|164891769|SUPERIORITY||LS Mean Difference (Final Values)|0.1||||1e-06|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||US||0.1|0.0|0.000001
82589144|NCT04178967|164891770|SUPERIORITY||LS Mean Difference (Final Values)|4.5||||0.005304|TWO_SIDED|95.0|1.3|7.6|||ANCOVA|||||7.6|1.3|0.005304
82653380|NCT00601484|165022035|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|90.0|-1.149|0.468||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.468|-1.149|
82589145|NCT04178967|164891771|SUPERIORITY||LS Mean Difference (Final Values)|-6.0|||<|1e-06|TWO_SIDED|95.0|-7.7|-4.3|||Mixed Models Analysis|||||-4.3|-7.7|<0.000001
82589146|NCT04178967|164891772|SUPERIORITY||LS Mean Difference (Final Values)|-2.91||||0.241275|TWO_SIDED|95.0|-7.85|2.03|||ANCOVA|||||2.03|-7.85|0.241275
82589147|NCT04178967|164891773|SUPERIORITY||LS Mean Difference (Final Values)|-2.74||||0.000116|TWO_SIDED|95.0|-4.12|-1.36|||ANCOVA|||||-1.36|-4.12|0.000116
82589148|NCT04178967|164891774|SUPERIORITY||LS Mean Difference (Final Values)|-1.1||||0.645132|TWO_SIDED|95.0|-5.86|3.67|||ANCOVA|||||3.67|-5.86|0.645132
82589149|NCT04178967|164891775|SUPERIORITY||LS Mean Difference (Final Values)|-2.75||||3.1e-05|TWO_SIDED|95.0|-4.03|-1.47|||ANCOVA|||||-1.47|-4.03|0.000031
82589150|NCT04178967|164891776|SUPERIORITY||LS Mean Difference (Final Values)|0.0||||0.974417|TWO_SIDED|95.0|-0.27|0.26|||ANCOVA|||||0.26|-0.27|0.974417
82589151|NCT04178967|164891777|SUPERIORITY||LS Mean Difference (Final Values)|-4.2||||0.084769|TWO_SIDED|95.0|-9.1|0.6|||Mixed Models Analysis|||||0.6|-9.1|0.084769
82589152|NCT00628251|164891782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.88||||0.6604|TWO_SIDED|95.0|0.51|1.56||If the observed p-value for the combined olaparib groups is \<0.02 (1-sided) then the result will be regarded as statistically significant.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 200 or 400 mg bd (n=64) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.56|0.51|0.6604
82589153|NCT00628251|164891782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.7794||95.0|0.48|1.74||An observed p-value of \<0.005 (1-sided) will be regarded as statistically significant for a given pairwise comparison.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.74|0.48|0.7794
82589154|NCT00628251|164891782|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.6604|TWO_SIDED|95.0|0.45|1.62||An observed p-value of \<0.005 (1-sided) will be regarded as statistically significant for a given pairwise comparison.|Regression, Cox|Cox proportional hazards model with factors for treatment, BRCA (1 or 2) and platinum sensitivity (sensitive=1 or resistant/refractory=0).||Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33). A hazard ratio \< 1 favours olaparib.||1.62|0.45|0.6604
82589155|NCT00628251|164891783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.27||||0.1291|TWO_SIDED|95.0|0.79|7.32||2-sided p-value|Regression, Logistic|Analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib|Analysis of olaparib 200 or 400 (n=64) versus liposomal doxorubicin (n=33).||7.32|0.79|0.1291
82589156|NCT00628251|164891783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9||||0.3131|TWO_SIDED|95.0|0.55|7.01||2-sided p-value|Regression, Logistic|Analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib.|Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33).||7.01|0.55|0.3131
82589157|NCT00628251|164891783|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.69||||0.1079|TWO_SIDED|95.0|0.81|9.76|||Regression, Logistic|The analysis was performed using logistic regression with factors for treatment, BRCA status and platinum sensitivity.|An odds ratio \>1 favoured olaparib|Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33).||9.76|0.81|0.1079
82589158|NCT00628251|164891789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82||||0.5781|TWO_SIDED|95.0|0.41|1.7||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 200 or 400 (n=64) versus liposomal doxorubicin (n=33).||1.70|0.41|0.5781
82589159|NCT00628251|164891789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.66||||0.3417|TWO_SIDED|95.0|0.27|1.55||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 200 (n=32) versus liposomal doxorubicin (n=33).||1.55|0.27|0.3417
82589160|NCT00628251|164891789|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.9877|TWO_SIDED|95.0|0.44|2.27||2-sided p-value|Regression, Cox|Analysis was performed using a Cox proportional hazards model with factors for treatment, BRCA status and platinum sensitivity.|A hazard ratio of \<1 favoured olaparib.|Analysis of olaparib 400 (n=32) versus liposomal doxorubicin (n=33).||2.27|0.44|0.9877
82589161|NCT01807923|164891812|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|4.03|||<|0.0001|TWO_SIDED|95.0|2.62|5.44|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM) model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (less than (\<)18 versus greater than equal to (\>=18) years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||5.44|2.62|<0.0001
82589162|NCT01807923|164891812|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6||||0.0003|TWO_SIDED|95.0|1.18|4.01|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.01|1.18|0.0003
82589163|NCT01807923|164891813|SUPERIORITY_OR_OTHER||LS Mean Difference|6.73|||<|0.0001|TWO_SIDED|95.0|4.27|9.19|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||9.19|4.27|<0.0001
82589164|NCT01807923|164891813|SUPERIORITY_OR_OTHER||LS Mean Difference|4.33||||0.0006|TWO_SIDED|95.0|1.86|6.8|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||6.80|1.86|0.0006
82589165|NCT01807923|164891814|SUPERIORITY_OR_OTHER||LS Mean Difference|0.16||||0.1122|TWO_SIDED|95.0|-0.04|0.35|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI.||0.35|-0.04|0.1122
82589166|NCT01807923|164891814|SUPERIORITY_OR_OTHER||LS Mean Difference|0.13||||0.1938|TWO_SIDED|95.0|-0.07|0.32|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||0.32|-0.07|0.1938
82589167|NCT01807923|164891815|SUPERIORITY_OR_OTHER||LS Mean Difference|3.88||||0.0168|TWO_SIDED|95.0|0.7|7.05||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline CFQ-R respiratory domain score.||7.05|0.70|0.0168
82589168|NCT01807923|164891815|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.3569|TWO_SIDED|95.0|-1.69|4.69|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.69|-1.69|0.3569
82589169|NCT01807923|164891816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9378|||<|0.0001|TWO_SIDED|95.0|1.8786|4.5941||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Odds Ratio (OR) and 95% confidence intervals (Cis) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.5941|1.8786|<0.0001
82653381|NCT00601484|165022035|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.449|||TWO_SIDED|90.0|-1.443|0.156||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.156|-1.443|
82589170|NCT01807923|164891816|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0592||||0.0023|TWO_SIDED|95.0|1.292|3.2819||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||3.2819|1.2920|0.0023
82589171|NCT01807923|164891817|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.7186||||0.0491|TWO_SIDED|95.0|0.517|0.9987|||Negative Binomial Regression|||Analysis was performed using regression analysis for a negative binomial distribution with sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70) as covariates with the logarithm of time on study as the offset.||0.9987|0.5170|0.0491
82589172|NCT01807923|164891817|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.6643||||0.0169|TWO_SIDED|95.0|0.4749|0.9291||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed as described in Statistical Analysis 1.||0.9291|0.4749|0.0169
82589173|NCT01807923|164891818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.1565|TWO_SIDED|95.0|-0.16|0.96|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline weight.||0.96|-0.16|0.1565
82589174|NCT01807923|164891818|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.2992|TWO_SIDED|95.0|-0.26|0.86|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.86|-0.26|0.2992
82589175|NCT01807923|164891819|SUPERIORITY_OR_OTHER||LS Mean Difference|0.098||||0.1539|TWO_SIDED|95.0|-0.037|0.233|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI z-score.||0.2330|-0.0370|0.1539
82589176|NCT01807923|164891819|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0781||||0.2713|TWO_SIDED|95.0|-0.0615|0.2176|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.2176|-0.0615|0.2713
82589177|NCT01807923|164891820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.0396|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed using Cox proportional hazard regression, time is the time-to-first event or censoring, with adjustment for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||||0.0396
82589178|NCT01807923|164891820|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.691||||0.0385|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed as described in Statistical Analysis 1.||||0.0385
82589179|NCT01807923|164891821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6565||||0.0552|TWO_SIDED|95.0|0.4266|1.0103|||Cochran-Mantel-Haenszel|||OR and 95% confidence intervals (CIs) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||1.0103|0.4266|0.0552
82589180|NCT01807923|164891821|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6438||||0.0512|TWO_SIDED|95.0|0.4142|1.0005|||Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||1.0005|0.4142|0.0512
82589181|NCT01807923|164891822|SUPERIORITY_OR_OTHER||LS Mean Difference|0.006||||0.5604|TWO_SIDED|95.0|-0.0142|0.0262|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L index score.||0.0262|-0.0142|0.5604
82589182|NCT01807923|164891822|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0095||||0.3613|TWO_SIDED|95.0|-0.0109|0.0298|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.0298|-0.0109|0.3613
82589183|NCT01807923|164891823|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.1342|TWO_SIDED|95.0|-0.7|4.9|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L VAS score.||4.9|-0.7|0.1342
82589184|NCT01807923|164891823|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.3071|TWO_SIDED|95.0|-1.3|4.2|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||4.2|-1.3|0.3071
82589185|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|5.49||||0.016|TWO_SIDED|95.0|1.03|9.96|||MMRM|||Effectiveness: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM effectiveness score.||9.96|1.03|0.0160
82589186|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|5.8||||0.0126|TWO_SIDED|95.0|1.25|10.35|||MMRM|||Effectiveness: analysis was performed as described in Statistical Analysis 1.||10.35|1.25|0.0126
82589187|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.18||||0.0074|TWO_SIDED|95.0|-7.23|-1.13|||MMRM|||Side Effects: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM side effects score.||-1.13|-7.23|0.0074
82589188|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.74||||0.0029|TWO_SIDED|95.0|-7.85|-1.63|||MMRM|||Side Effects: analysis was performed as described in Statistical Analysis 1.||-1.63|-7.85|0.0029
82589189|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.7721|TWO_SIDED|95.0|-3.5|4.71|||MMRM|||Convenience: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM convenience score.||4.71|-3.50|0.7721
82589190|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08||||0.1472|TWO_SIDED|95.0|-1.09|7.25|||MMRM|||Convenience: analysis was performed as described in Statistical Analysis 1.||7.25|-1.09|0.1472
82589191|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|5.49||||0.0345|TWO_SIDED|95.0|0.4|10.58|||MMRM|||Global Satisfaction: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM global satisfaction score.||10.58|0.40|0.0345
82589192|NCT01807923|164891824|SUPERIORITY_OR_OTHER||LS Mean Difference|6.72||||0.0109|TWO_SIDED|95.0|1.55|11.89|||MMRM|||Global Satisfaction: analysis was performed as described in Statistical Analysis 1.||11.89|1.55|0.0109
82589193|NCT02558231|164891829|SUPERIORITY||Ratio of geometric Least Square mean|0.96||||0.4239|TWO_SIDED|95.0|0.86|1.07|||ANCOVA|||||1.07|0.86|0.4239
82377433|NCT02422797|164462011|SUPERIORITY|||||||0.547||||||P-value assessed the HIVTSQs General satisfaction/CS sub- score difference between treatment groups (Week 48)|Wilcoxon rank sum test|||||||0.547
82589194|NCT02558231|164891830|SUPERIORITY||Least Square (LS) Mean difference|-1.43||||0.8758|TWO_SIDED|95.0|-19.393|16.538|||ANCOVA|||||16.538|-19.393|0.8758
82589195|NCT02558231|164891831|SUPERIORITY||Ratio of geometric LS mean|1.03||||0.8529|TWO_SIDED|95.0|0.77|1.371|||ANCOVA|||||1.371|0.770|0.8529
82589196|NCT02558231|164891833|SUPERIORITY||LS Mean Difference|-0.72||||0.4998|TWO_SIDED|95.0|-2.834|1.386|||ANCOVA|||||1.386|-2.834|0.4998
82589197|NCT02558231|164891834|SUPERIORITY||LS Mean Difference|-0.09||||0.8528|TWO_SIDED|95.0|-1.003|0.83|||ANCOVA|||||0.830|-1.003|0.8528
82589198|NCT02558231|164891835|SUPERIORITY||LS Mean Difference|2.4||||0.9474|TWO_SIDED|95.0|-69.368|74.178|||ANCOVA|||||74.178|-69.368|0.9474
82589199|NCT02558231|164891836|SUPERIORITY||LS Mean Difference|0.13||||0.1902|TWO_SIDED|95.0|-0.066|0.328|||ANCOVA|||||0.328|-0.066|0.1902
82589200|NCT02558231|164891837|SUPERIORITY||LS Mean Difference|-1.2||||0.1227|TWO_SIDED|95.0|-2.737|0.327|||ANCOVA|||||0.327|-2.737|0.1227
82589201|NCT02558231|164891838|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0867|TWO_SIDED|95.0|0.32|1.09|||Log Rank|||||1.09|0.32|0.0867
82589202|NCT03933397|164891842|SUPERIORITY|||||||0.909|||||||Regression, Linear|||||||0.909
82589203|NCT04721821|164891857|SUPERIORITY||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.82|1.44||||||||1.44|0.82|
82589204|NCT04721821|164891858|SUPERIORITY||Odds Ratio (OR)|0.72|||||TWO_SIDED|95.0|0.44|1.16||||||||1.16|0.44|
82589205|NCT04721821|164891859|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.73|1.27||||||||1.27|0.73|
82589206|NCT04721821|164891860|SUPERIORITY||Odds Ratio (OR)|1.22|||||TWO_SIDED|95.0|0.79|1.88||||||||1.88|0.79|
82589207|NCT04721821|164891861|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.79|1.67||||||||1.67|0.79|
82589208|NCT04721821|164891862|SUPERIORITY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.94|1.76||||||||1.76|0.94|
82589209|NCT04721821|164891863|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.7|1.89||||||||1.89|0.70|
82589210|NCT04721821|164891864|SUPERIORITY||Odds Ratio (OR)|0.96|||||TWO_SIDED|95.0|0.69|1.32||||||||1.32|0.69|
82589211|NCT04721821|164891865|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.81|2.16||||||||2.16|0.81|
82589212|NCT04721821|164891866|SUPERIORITY||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.81|1.87||||||||1.87|0.81|
82589213|NCT04721821|164891867|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.8|1.66||||||Month 6 follow-up visit analysis||1.66|0.80|
82589214|NCT04721821|164891867|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.75|1.65||||||Month 12 follow-up visit analysis||1.65|0.75|
82589215|NCT04721821|164891868|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.57|1.99||||||Month 6 follow-up visit analysis||1.99|0.57|
82589216|NCT04721821|164891868|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.49|1.75||||||Month 12 follow-up visit analysis||1.75|0.49|
82589217|NCT04721821|164891869|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.79|1.58||||||Month 6 follow-up visit analysis||1.58|0.79|
82589218|NCT04721821|164891869|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.6|1.35||||||Month 12 follow-up visit analysis||1.35|0.60|
82589219|NCT04721821|164891870|SUPERIORITY||Odds Ratio (OR)|1.33|||||TWO_SIDED|95.0|0.77|2.29||||||Month 6 follow-up visit analysis||2.29|0.77|
82589220|NCT04721821|164891870|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.82|2.71||||||Month 12 follow-up visit analysis||2.71|0.82|
82589221|NCT04721821|164891871|SUPERIORITY||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|0.81|2.24||||||Month 6 follow-up visit analysis||2.24|0.81|
82589222|NCT04721821|164891871|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.62||||||Month 12 follow-up visit analysis||1.62|0.50|
82589223|NCT04721821|164891872|SUPERIORITY||Mean Difference (Net)|0.21|||||TWO_SIDED|95.0|-0.88|1.31||||||Month 6 follow-up visit analysis||1.31|-0.88|
82589224|NCT04721821|164891872|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-2.73|-0.27||||||Month 12 follow-up visit analysis||-0.27|-2.73|
82589225|NCT04721821|164891873|SUPERIORITY||Median Difference (Net)|0.39|||||TWO_SIDED|95.0|-1.24|2.02||||||Month 6 follow-up visit analysis||2.02|-1.24|
82589226|NCT04721821|164891873|SUPERIORITY||Median Difference (Net)|0.96|||||TWO_SIDED|95.0|-0.92|2.84||||||Month 12 follow-up visit analysis||2.84|-0.92|
82589227|NCT04721821|164891874|SUPERIORITY||Mean Difference (Net)|-0.56|||||TWO_SIDED|95.0|-1.68|0.56||||||Month 6 follow-up visit analysis||0.56|-1.68|
82589228|NCT04721821|164891874|SUPERIORITY||Mean Difference (Net)|0.74|||||TWO_SIDED|95.0|-0.51|1.99||||||Month 12 follow-up visit analysis||1.99|-0.51|
82589229|NCT04721821|164891875|SUPERIORITY||Mean Difference (Net)|-1.11|||||TWO_SIDED|95.0|-2.66|0.45||||||Month 6 follow-up visit analysis||0.45|-2.66|
82589230|NCT04721821|164891875|SUPERIORITY||Mean Difference (Net)|-1.73|||||TWO_SIDED|95.0|-3.52|0.05||||||Month 12 follow-up visit analysis||0.05|-3.52|
82589231|NCT04721821|164891876|SUPERIORITY||Mean Difference (Net)|-0.93|||||TWO_SIDED|95.0|-2.3|0.44||||||Month 6 follow-up visit analysis||0.44|-2.30|
82589232|NCT04721821|164891876|SUPERIORITY||Mean Difference (Net)|-0.99|||||TWO_SIDED|95.0|-2.6|0.62||||||Month 12 follow-up visit analysis||0.62|-2.60|
82589233|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.8|1.35||||||Month 6 follow-up visit analysis: mACR 20||1.35|0.80|
82589234|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.86|1.67||||||Month 6 follow-up visit analysis: mACR 50||1.67|0.86|
82589235|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.57|1.54||||||Month 6 follow-up visit analysis: mACR 70||1.54|0.57|
82589236|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.41||||||Month 12 follow-up visit analysis: mACR 20||1.41|0.77|
82589237|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.89|1.95||||||Month 12 follow-up visit analysis: mACR 50||1.95|0.89|
82589238|NCT04721821|164891877|SUPERIORITY||Odds Ratio (OR)|1.49|||||TWO_SIDED|95.0|0.85|2.6||||||Month 12 follow-up visit analysis: mACR 70||2.60|0.85|
82589239|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.59|1.34||||||Month 6 follow-up visit analysis: mACR 20||1.34|0.59|
82589240|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.39|1.15||||||Month 6 follow-up visit analysis: mACR 50||1.15|0.39|
82589241|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.79|||||TWO_SIDED|95.0|0.34|1.83||||||Month 6 follow-up visit analysis: mACR 70||1.83|0.34|
82589242|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.56|1.42||||||Month 12 follow-up visit analysis: mACR 20||1.42|0.56|
82589243|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.46|1.8||||||Month 12 follow-up visit analysis: mACR 50||1.80|0.46|
82589244|NCT04721821|164891878|SUPERIORITY||Odds Ratio (OR)|0.54|||||TWO_SIDED|95.0|0.19|1.48||||||Month 12 follow-up visit analysis: mACR 70||1.48|0.19|
82589245|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|1.11|||||TWO_SIDED|95.0|0.86|1.45||||||Month 6 follow-up visit analysis: mACR 20||1.45|0.86|
82589246|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.67|1.26||||||Month 6 follow-up visit analysis: mACR 50||1.26|0.67|
82589247|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|0.69|||||TWO_SIDED|95.0|0.44|1.09||||||Month 6 follow-up visit analysis: mACR 70||1.09|0.44|
82589248|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.74|1.38||||||Month 12 follow-up visit analysis: mACR 20||1.38|0.74|
82589249|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|1.03|||||TWO_SIDED|95.0|0.69|1.52||||||Month 12 follow-up visit analysis: mACR 50||1.52|0.69|
82589250|NCT04721821|164891879|SUPERIORITY||Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.46|1.33||||||Month 12 follow-up visit analysis: mACR 70||1.33|0.46|
82589251|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.78|1.77||||||Month 6 follow-up visit analysis: mACR 20||1.77|0.78|
82589252|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|1.17|||||TWO_SIDED|95.0|0.71|1.95||||||Month 6 follow-up visit analysis: mACR 50||1.95|0.71|
82589253|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.45|2.39||||||Month 6 follow-up visit analysis: mACR 70||2.39|0.45|
82589254|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.5|1.4||||||Month 12 follow-up visit analysis: mACR 20||1.40|0.50|
82589255|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.49|1.83||||||Month 12 follow-up visit analysis: mACR 50||1.83|0.49|
82589256|NCT04721821|164891880|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.33|1.95||||||Month 12 follow-up visit analysis: mACR 70||1.95|0.33|
82589257|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.76|1.49||||||Month 6 follow-up visit analysis: mACR 20||1.49|0.76|
82589258|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.55|1.37||||||Month 6 follow-up visit analysis: mACR 50||1.37|0.55|
82589259|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|0.62|||||TWO_SIDED|95.0|0.32|1.2||||||Month 6 follow-up visit analysis: mACR 70||1.20|0.32|
82589260|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|0.88|||||TWO_SIDED|95.0|0.59|1.3||||||Month 12 follow-up visit analysis: mACR 20||1.30|0.59|
82589261|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.65|1.86||||||Month 12 follow-up visit analysis: mACR 50||1.86|0.65|
82589262|NCT04721821|164891881|SUPERIORITY||Odds Ratio (OR)|1.43||||||95.0|0.62|3.28||||||Month 12 follow-up visit analysis: mACR 70||3.28|0.62|
82589263|NCT04721821|164891882|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.94|2.15||||||Month 6 follow-up visit analysis||2.15|0.94|
82589264|NCT04721821|164891882|SUPERIORITY||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0|0.68|1.84||||||Month 12 follow-up visit analysis||1.84|0.68|
82589265|NCT04721821|164891883|SUPERIORITY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.41|1.67||||||Month 6 follow-up visit analysis||1.67|0.41|
82589266|NCT04721821|164891883|SUPERIORITY||Odds Ratio (OR)|1.38|||||TWO_SIDED|95.0|0.62|3.07||||||Month 12 follow-up visit analysis||3.07|0.62|
82589267|NCT04721821|164891884|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.66|1.52||||||Month 6 follow-up visit analysis||1.52|0.66|
82589268|NCT04721821|164891884|SUPERIORITY||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.64|1.74||||||Month 12 follow-up visit analysis||1.74|0.64|
82589269|NCT04721821|164891885|SUPERIORITY||Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|0.8|2.94||||||Month 6 follow-up visit analysis||2.94|0.80|
82589270|NCT04721821|164891885|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|0.76|3.87||||||Month 12 follow-up visit analysis||3.87|0.76|
82589271|NCT04721821|164891886|SUPERIORITY||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.73|2.27||||||Month 6 follow-up visit analysis||2.27|0.73|
82589272|NCT04721821|164891886|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.63|2.23||||||Month 12 follow-up visit analysis||2.23|0.63|
82589273|NCT04721821|164891887|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||||||Month 6 follow-up visit analysis||0.04|-0.06|
82589274|NCT04721821|164891887|SUPERIORITY||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.01|0.09||||||Month 12 follow-up visit analysis||0.09|-0.01|
82589275|NCT04721821|164891888|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.08|0.06||||||Month 6 follow-up visit analysis||0.06|-0.08|
82589276|NCT04721821|164891888|SUPERIORITY||Median Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.11|0.05||||||Month 12 follow-up visit analysis||0.05|-0.11|
82589277|NCT04721821|164891889|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.07|0.03||||||Month 6 follow-up visit analysis||0.03|-0.07|
82589278|NCT04721821|164891889|SUPERIORITY||Odds Ratio (OR)|0.01|||||TWO_SIDED|95.0|-0.05|0.07||||||Month 12 follow-up visit analysis||0.07|-0.05|
82589279|NCT04721821|164891890|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.07||||||Month 6 follow-up visit analysis||0.07|-0.06|
82589280|NCT04721821|164891890|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.12|0.06||||||Month 12 follow-up visit analysis||0.06|-0.12|
82589281|NCT04721821|164891891|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.09|0.04||||||Month 6 follow-up visit analysis||0.04|-0.09|
82589282|NCT04721821|164891891|SUPERIORITY||Odds Ratio (OR)|0.02|||||TWO_SIDED|95.0|-0.06|0.09||||||Month 12 follow-up visit analysis||0.09|-0.06|
82589283|NCT04721821|164891892|SUPERIORITY||Odds Ratio (OR)|1.14|||||TWO_SIDED|95.0|0.9|1.45||||||Month 6 follow-up visit analysis||1.45|0.90|
82589284|NCT04721821|164891892|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.54|0.94||||||Month 12 follow-up visit analysis||0.94|0.54|
82589285|NCT04721821|164891893|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.53|1.11||||||Month 6 follow-up visit analysis||1.11|0.53|
82589286|NCT04721821|164891893|SUPERIORITY||Odds Ratio (OR)|1.08|||||TWO_SIDED|95.0|0.72|1.61||||||Month 12 follow-up visit analysis||1.61|0.72|
82589287|NCT04721821|164891894|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.73|1.21||||||Month 6 follow-up visit analysis||1.21|0.73|
82589288|NCT04721821|164891894|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.77|1.39||||||Month 12 follow-up visit analysis||1.39|0.77|
82589289|NCT04721821|164891895|SUPERIORITY||Odds Ratio (OR)|0.92|||||TWO_SIDED|95.0|0.64|1.32||||||Month 6 follow-up visit analysis||1.32|0.64|
82589290|NCT04721821|164891895|SUPERIORITY||Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.69|1.64||||||Month 12 follow-up visit analysis||1.64|0.69|
82589291|NCT04721821|164891896|SUPERIORITY||Odds Ratio (OR)|1.16|||||TWO_SIDED|95.0|0.84|1.59||||||Month 6 follow-up visit analysis||1.59|0.84|
82589292|NCT04721821|164891896|SUPERIORITY||Odds Ratio (OR)|0.93|||||TWO_SIDED|95.0|0.65|1.32||||||Month 12 follow-up visit analysis||1.32|0.65|
82589293|NCT04721821|164891897|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.03|0.04||||||Month 6 follow-up visit analysis||0.04|-0.03|
82589294|NCT04721821|164891897|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.04|0.05||||||Month 12 follow-up visit analysis||0.05|-0.04|
82589295|NCT04721821|164891898|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.05|0.05||||||Month 6 follow-up visit analysis||0.05|-0.05|
82589296|NCT04721821|164891898|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.07|0.06||||||Month 12 follow-up visit analysis||0.06|-0.07|
82589297|NCT04721821|164891899|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.02||||||Month 6 follow-up visit analysis||0.02|-0.06|
82589298|NCT04721821|164891899|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.04|0.04||||||Month 12 follow-up visit analysis||0.04|-0.04|
82589299|NCT04721821|164891900|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.06|0.04||||||Month 6 follow-up visit analysis||0.04|-0.06|
82589300|NCT04721821|164891900|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.1|0.03||||||Month 12 follow-up visit analysis||0.03|-0.10|
82653382|NCT00601484|165022035|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.06|STANDARD_ERROR_OF_MEAN|0.546|||TWO_SIDED|90.0|-1.046|0.931||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.931|-1.046|
82589301|NCT04721821|164891901|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.05|0.04||||||Month 6 follow-up visit analysis||0.04|-0.05|
82589302|NCT04721821|164891901|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.06|0.06||||||Month 12 follow-up visit analysis||0.06|-0.06|
82589303|NCT04721821|164891902|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-2.65|2.45||||||Month 6 follow-up visit analysis||2.45|-2.65|
82589304|NCT04721821|164891902|SUPERIORITY||Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-2.59|3.11||||||Month 12 follow-up visit analysis||3.11|-2.59|
82589305|NCT04721821|164891903|SUPERIORITY||Mean Difference (Final Values)|0.83|||||TWO_SIDED|95.0|-2.71|4.38||||||Month 6 follow-up visit analysis||4.38|-2.71|
82589306|NCT04721821|164891903|SUPERIORITY||Mean Difference (Final Values)|-1.09|||||TWO_SIDED|95.0|-5.12|2.95||||||Month 12 follow-up visit analysis||2.95|-5.12|
82589307|NCT04721821|164891904|SUPERIORITY||Mean Difference (Final Values)|-1.25|||||TWO_SIDED|95.0|-3.94|1.45||||||Month 6 follow-up visit analysis||1.45|-3.94|
82589308|NCT04721821|164891904|SUPERIORITY||Mean Difference (Final Values)|-0.59|||||TWO_SIDED|95.0|-3.61|2.42||||||Month 12 follow-up visit analysis||2.42|-3.61|
82589309|NCT04721821|164891905|SUPERIORITY||Mean Difference (Final Values)|-0.67|||||TWO_SIDED|95.0|-4.39|3.05||||||Month 6 follow-up visit analysis||3.05|-4.39|
82589310|NCT04721821|164891905|SUPERIORITY||Mean Difference (Final Values)|-4.84|||||TWO_SIDED|95.0|-9.19|-0.48||||||Month 12 follow-up visit analysis||-0.48|-9.19|
82589311|NCT04721821|164891906|SUPERIORITY||Mean Difference (Final Values)|-0.39|||||TWO_SIDED|95.0|-3.59|2.82||||||Month 6 follow-up visit analysis||2.82|-3.59|
82589312|NCT04721821|164891906|SUPERIORITY||Mean Difference (Final Values)|0.76|||||TWO_SIDED|95.0|-2.97|4.49||||||Month 12 follow-up visit analysis||4.49|-2.97|
82589313|NCT04721821|164891907|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.73|1.34||||||Month 6 follow-up visit analysis||1.34|0.73|
82589314|NCT04721821|164891907|SUPERIORITY||Odds Ratio (OR)|0.94|||||TWO_SIDED|95.0|0.66|1.34||||||Month 12 follow-up visit analysis||1.34|0.66|
82589315|NCT04721821|164891908|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.62|1.73||||||Month 6 follow-up visit analysis||1.73|0.62|
82589316|NCT04721821|164891908|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.5|1.6||||||Month 12 follow-up visit analysis||1.60|0.50|
82589317|NCT04721821|164891909|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.64|1.19||||||Month 6 follow-up visit analysis||1.19|0.64|
82589318|NCT04721821|164891909|SUPERIORITY||Odds Ratio (OR)|0.87|||||TWO_SIDED|95.0|0.6|1.26||||||Month 12 follow-up visit analysis||1.26|0.60|
82589319|NCT04721821|164891910|SUPERIORITY||Odds Ratio (OR)|0.89|||||TWO_SIDED|95.0|0.55|1.46||||||Month 6 follow-up visit analysis||1.46|0.55|
82653383|NCT00601484|165022035|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.673|||TWO_SIDED|90.0|-1.876|0.592||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.592|-1.876|
82589320|NCT04721821|164891910|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.47|1.51||||||Month 12 follow-up visit analysis||1.51|0.47|
82589321|NCT04721821|164891911|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.6|1.38||||||Month 6 follow-up visit analysis||1.38|0.60|
82589322|NCT04721821|164891911|SUPERIORITY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.56|1.5||||||Month 12 follow-up visit analysis||1.50|0.56|
82589323|NCT04721821|164891912|SUPERIORITY||Mean Difference (Final Values)|1.71|||||TWO_SIDED|95.0|-0.69|4.11||||||Month 6 follow-up visit analysis||4.11|-0.69|
82589324|NCT04721821|164891912|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-2.79|2.77||||||Month 12 follow-up visit analysis||2.77|-2.79|
82589325|NCT04721821|164891913|SUPERIORITY||Mean Difference (Final Values)|-1.71|||||TWO_SIDED|95.0|-5.02|1.6||||||Month 6 follow-up visit analysis||1.60|-5.02|
82589326|NCT04721821|164891913|SUPERIORITY||Mean Difference (Final Values)|1.06|||||TWO_SIDED|95.0|-2.85|4.96||||||Month 12 follow-up visit analysis||4.96|-2.85|
82589327|NCT04721821|164891914|SUPERIORITY||Mean Difference (Final Values)|-1.15|||||TWO_SIDED|95.0|-3.75|1.45||||||Month 6 follow-up visit analysis||1.45|-3.75|
82589328|NCT04721821|164891914|SUPERIORITY||Median Difference (Final Values)|-0.53|||||TWO_SIDED|95.0|-3.54|2.47||||||Month 12 follow-up visit analysis||2.47|-3.54|
82589329|NCT04721821|164891915|SUPERIORITY||Mean Difference (Final Values)|1.19|||||TWO_SIDED|95.0|-2.36|4.73||||||Month 6 follow-up visit analysis||4.73|-2.36|
82589330|NCT04721821|164891915|SUPERIORITY||Mean Difference (Final Values)|-3.15|||||TWO_SIDED|95.0|-7.36|1.07||||||Month 12 follow-up visit analysis||1.07|-7.36|
82589331|NCT04721821|164891916|SUPERIORITY||Mean Difference (Final Values)|2.37|||||TWO_SIDED|95.0|-0.66|5.41||||||Month 6 follow-up visit analysis||5.41|-0.66|
82589332|NCT04721821|164891916|SUPERIORITY||Mean Difference (Final Values)|1.01|||||TWO_SIDED|95.0|-2.69|4.71||||||Month 12 follow-up visit analysis||4.71|-2.69|
82589333|NCT04721821|164891917|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.16|0.4||||||Month 6 follow-up visit analysis||0.40|-0.16|
82589334|NCT04721821|164891917|SUPERIORITY||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.21|0.45||||||Month 12 follow-up visit analysis||0.45|-0.21|
82589335|NCT04721821|164891918|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.4|0.43||||||Month 6 follow-up visit analysis||0.43|-0.40|
82589336|NCT04721821|164891918|SUPERIORITY||Mean Difference (Final Values)|-0.23|||||TWO_SIDED|95.0|-0.74|0.29||||||Month 12 follow-up visit analysis||0.29|-0.74|
82589337|NCT04721821|164891919|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.51|0.1||||||Month 6 follow-up visit analysis||0.10|-0.51|
82589338|NCT04721821|164891919|SUPERIORITY||Mean Difference (Final Values)|-0.05|||||TWO_SIDED|95.0|-0.42|0.31||||||Month 12 follow-up visit analysis||0.31|-0.42|
82589339|NCT04721821|164891920|SUPERIORITY||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.34|0.32||||||Month 6 follow-up visit analysis||0.32|-0.34|
82589340|NCT04721821|164891920|SUPERIORITY||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.69|0.31||||||Month 12 follow-up visit analysis||0.31|-0.69|
82589341|NCT04721821|164891921|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.37|0.32||||||Month 6 follow-up visit analysis||0.32|-0.37|
82589342|NCT04721821|164891921|SUPERIORITY||Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.3|0.59||||||Month 12 follow-up visit analysis||0.59|-0.30|
82589343|NCT03836807|164891936|SUPERIORITY|||||||0.02|||||||ANOVA|||||||0.020
82589344|NCT03836807|164891937|SUPERIORITY|||||||0.026|||||||ANOVA|||||||0.026
82589345|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-0.3||||0.914|TWO_SIDED|95.0|-5.5|5.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at Baseline (at 0')||5.0|-5.5|0.914
82589346|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|1.3||||0.685|TWO_SIDED|95.0|-4.9|7.4|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||7.4|-4.9|0.685
82589347|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-0.3||||0.93|TWO_SIDED|95.0|-7.4|6.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 10'||6.8|-7.4|0.930
82589348|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-2.1||||0.615|TWO_SIDED|95.0|-10.3|6.1|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 15'||6.1|-10.3|0.615
82589349|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-8.5||||0.051|TWO_SIDED|95.0|-17.0|0.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 30'||0|-17.0|0.051
82589350|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-8.4||||0.043|TWO_SIDED|95.0|-16.6|-0.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 45'||-0.3|-16.6|0.043
82589351|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-9.0||||0.023|TWO_SIDED|95.0|-16.7|-1.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1h||-1.3|-16.7|0.023
82589352|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-10.5||||0.009|TWO_SIDED|95.0|-18.2|-2.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1.5h||-2.7|-18.2|0.009
82589353|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-9.3||||0.018|TWO_SIDED|95.0|-17.0|-1.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 2h||-1.7|-17.0|0.018
82589354|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-5.5||||0.182|TWO_SIDED|95.0|-13.6|2.6|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 3h||2.6|-13.6|0.182
82589355|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-4.8||||0.236|TWO_SIDED|95.0|-12.9|3.2|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 4h||3.2|-12.9|0.236
82589356|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-3.6||||0.32|TWO_SIDED|95.0|-10.6|3.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5h||3.5|-10.6|0.320
82589357|NCT03836807|164891938|SUPERIORITY||adjusted least square mean|-2.2||||0.572|TWO_SIDED|95.0|-10.0|5.6|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 6h||5.6|-10.0|0.572
82589358|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|2.7||||0.361|TWO_SIDED|95.0|-3.1|8.4|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||8.4|-3.1|0.361
82589359|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|4.2||||0.298|TWO_SIDED|95.0|-3.8|12.3|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 10'||12.3|-3.8|0.298
82589360|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|8.9||||0.112|TWO_SIDED|95.0|-2.1|19.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 15'||19.8|-2.1|0.112
82589361|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|22.3||||0.003|TWO_SIDED|95.0|7.8|36.8|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 30'||36.8|7.8|0.003
82589362|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|21.2||||0.008|TWO_SIDED|95.0|5.6|36.7|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 45'||36.7|5.6|0.008
82589363|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|18.7||||0.018|TWO_SIDED|95.0|3.3|34.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1h||34.0|3.3|0.018
82589364|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|22.3||||0.003|TWO_SIDED|95.0|7.7|37.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 1.5h||37.0|7.7|0.003
82589365|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|22.0||||0.003|TWO_SIDED|95.0|8.0|36.1|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 2h||36.1|8.0|0.003
82589366|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|16.7||||0.015|TWO_SIDED|95.0|3.4|30.0|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 3h||30.0|3.4|0.015
82589367|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|10.8||||0.103|TWO_SIDED|95.0|-2.2|23.9|||ANOVA|||at 4h||23.9|-2.2|0.103
82589368|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|5.9||||0.311|TWO_SIDED|95.0|-5.6|17.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 5'||17.5|-5.6|0.311
82589369|NCT03836807|164891939|SUPERIORITY||adjusted least square mean|2.8||||0.638|TWO_SIDED|95.0|-9.0|14.5|||ANOVA|The ANOVA model included fixed effect terms for clinical site, time point and treatment. Time point was specified as a repeated measurement.||at 6h||14.5|-9.0|0.638
82589370|NCT03836807|164891940|SUPERIORITY|||||||0.007|||||||ANOVA|||in the ITT population||||0.007
82589371|NCT03836807|164891940|SUPERIORITY|||||||0.009|||||||ANOVA|||in the PP population||||0.009
82589372|NCT03836807|164891941|SUPERIORITY|||||||0.004|||||||Log Rank|||||||0.004
82653384|NCT00601484|165022036|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-34.25|STANDARD_ERROR_OF_MEAN|21.509|||TWO_SIDED|90.0|-72.879|4.375||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||4.375|-72.879|
82653385|NCT00601484|165022036|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-30.97|STANDARD_ERROR_OF_MEAN|24.418|||TWO_SIDED|90.0|-75.23|13.285||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||13.285|-75.230|
82589373|NCT03836807|164891942|SUPERIORITY|||||||0.002|||||||Log Rank|||||||0.002
82589374|NCT03836807|164891943|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.480
82589375|NCT03531788|164891952|OTHER|||||||||||||||||Activity counts from the ActiGraph GT9x activity monitor provide data per participant during testing of upper extremity activities/tasks and were collected while wearing the device (Kinova and WREX) and without the device (Kinova and WREX). For each upper extremity task, we summed all activity count data for all tasks completed. We then computed means and standard deviations. Data presented are within group data change and not between group data comparisons.|Due to the small sample size, we utilized change in activity count data when comparing two upper limb testing sessions: one without the use of an arm support device (Kinova or WREX) and one while using the arm support device. For each upper extremity task, we summed all activity count data for all tasks completed. We then computed means and standard deviations. Data presented are within group data change and not between group data comparisons.|||
82589376|NCT03531788|164891953|OTHER|||||||||||||||||Activity counts from the ActiGraph GT9x activity monitor were collected during baseline (without a device) and throughout the 4 week device trial (with the device). For each time period, activity count data were averaged across the day. We then compared the baseline time period to the device trial period to understand the difference in movement and upper extremity positioning during the device trial. Data presented are within group change scores and not between group data comparisons.|Counts from each axis (x, y, z) were measured across baseline and during the 4-week trial to explore arm movement and positioning during the use of an upper extremity arm device. Counts (within each participant) were summed. A change score from trial minus baseline was calculated for each axis. We provide an average change score and standard deviation across participants with Kinova and participants with WREX.|||
82589377|NCT03531788|164891954|OTHER|||||||||||||||||Three goals were identified for each participant and scored without using an arm support device to serve as a baseline measure of abilities. These scores were compared to the scores achieved on the same goals using the arm support device.|We compared the change in GAS scores when using an arm support device on three goal areas identified as important for each participant. For each goal, we measured abilities at baseline and with the device (Kinova and WREX). We calculated the change in score for each goal and averaged these change scores across all participants. While our groups are too small to complete statistical tests to estimate the significance of the differences participants noted in activity and independence while using both arm supports, our results quantify the amount of increased success participants noted with the use of the arm support device.|||
82589378|NCT02019420|164891955|NON_INFERIORITY|Difference in ITT all-cause mortality (linezolid - tedizolid). Noninferiority is declared when the lower bound of the 95% CI \> -10.|Difference in all-cause mortality|-1.8|||||TWO_SIDED|95.0|-8.2|4.7|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||4.7|-8.2|
82589379|NCT02019420|164891956|OTHER|Difference in mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|-1.6|||||TWO_SIDED|95.0|-10.3|7.1|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||7.1|-10.3|
82589380|NCT02019420|164891957|OTHER|Difference in ITT clinical success (tedizolid - linezolid)|Difference in clinical success|-7.6|||||TWO_SIDED|95.0|-14.7|-0.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-0.5|-14.7|
82589381|NCT02019420|164891958|OTHER|Difference in CE clinical success (tedizolid - linezolid)|Difference in clinical success|-6.5|||||TWO_SIDED|95.0|-15.1|2.1|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||2.1|-15.1|
82589382|NCT02019420|164891959|OTHER|Difference in MSSA mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|-1.5|||||TWO_SIDED|95.0|-12.5|9.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||9.5|-12.5|
82589383|NCT02019420|164891960|OTHER|Difference in MRSA mITT all-cause mortality (linezolid - tedizolid)|Difference in all-cause mortality|3.1|||||TWO_SIDED|95.0|-12.8|18.9|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||18.9|-12.8|
82589384|NCT02019420|164891961|OTHER|Difference in mITT favorable response (tedizolid - linezolid)|Difference in clinical success|-13.1|||||TWO_SIDED|95.0|-21.7|-4.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-4.5|-21.7|
82589385|NCT02019420|164891962|OTHER|Difference in ME-1 favorable response (tedizolid - linezolid)|Difference in clinical success|-13.1|||||TWO_SIDED|95.0|-21.7|-4.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-4.5|-21.7|
82589386|NCT02019420|164891963|OTHER|Difference in mITT favorable response (tedizolid - linezolid)|Difference in clinical success|-12.5|||||TWO_SIDED|95.0|-21.5|-3.5|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-3.5|-21.5|
82589387|NCT02019420|164891964|OTHER|Difference in ME-2 favorable response (tedizolid - linezolid)|Difference in clinical success|-13.7|||||TWO_SIDED|95.0|-26.2|-1.2|||||Difference and 95% CI were calculated with the Miettinen and Nurminen method without stratification.|||-1.2|-26.2|
82589388|NCT02469896|164891967|SUPERIORITY||Risk Ratio (RR)|0.875||||0.602|TWO_SIDED|95.0|0.556|1.377|||Fisher Exact|||||1.377|0.556|0.602
82589389|NCT02469896|164891968|SUPERIORITY||||||||||||||||||No statistical data was obtain because no patients died during the trial.|||
82589390|NCT02469896|164891969|SUPERIORITY||Slope|0.099||||0.922|TWO_SIDED|95.0|-1.902|2.099||Unadjusted|Mixed Models Analysis|||||2.099|-1.902|0.922
82589391|NCT02469896|164891970|SUPERIORITY||Difference of slopes|-0.008||||0.983|TWO_SIDED|95.0|-0.761|0.745|||Mixed Models Analysis|||||0.745|-0.761|0.983
82589392|NCT02469896|164891972|SUPERIORITY||Ratio of geometric means|1.15||||0.684|TWO_SIDED|95.0|0.566|2.337|||t-test, 2 sided|||PBMC IL-6 fold-change||2.337|0.566|0.684
82589393|NCT02469896|164891972|SUPERIORITY||Ratio of geometric means|1.344||||0.663|TWO_SIDED|95.0|0.331|2.08|||t-test, 2 sided|||||2.080|0.331|0.663
82589394|NCT02469896|164891972|SUPERIORITY||Ratio of geometric means|1.198||||0.5|TWO_SIDED|95.0|0.691|2.08|||t-test, 2 sided|||||2.080|0.691|0.500
82589395|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|0.047|||<|0.001|TWO_SIDED|95.0|0.01|0.217|||Mixed Models Analysis|||||0.217|0.010|<0.001
82377434|NCT05044195|164462026|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: upper limit (UL) of the 95% confidence interval (CI) for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.802|||||TWO_SIDED|95.0|0.738|0.871||||||A/H1N1||0.871|0.738|
82589396|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|1.306||||0.247|TWO_SIDED|95.0|0.828|2.059|||Mixed Models Analysis|||||2.059|0.828|0.247
82589397|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|19.591|||<|0.001|TWO_SIDED|95.0|11.143|34.446|||Mixed Models Analysis|||||34.446|11.143|<0.001
82589398|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|1.264||||0.185|TWO_SIDED|95.0|0.892|1.791|||Mixed Models Analysis|||||1.791|0.892|0.185
82589399|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|1.396||||0.427|TWO_SIDED|95.0|0.608|3.206|||Mixed Models Analysis|||||3.206|0.608|0.427
82589400|NCT02469896|164891973|SUPERIORITY||Ratio of fold change|0.893||||0.285|TWO_SIDED|95.0|0.725|1.1|||Mixed Models Analysis|||||1.100|0.725|0.285
82589401|NCT02469896|164891974|SUPERIORITY||Ratio of fold change|0.167||||0.011|TWO_SIDED|95.0|0.043|0.643|||Mixed Models Analysis|||||0.643|0.043|0.011
82589402|NCT02469896|164891974|SUPERIORITY||Ratio of fold change|0.741||||0.604|TWO_SIDED|95.0|0.228|2.405|||Mixed Models Analysis|||||2.405|0.228|0.604
82589403|NCT02469896|164891974|SUPERIORITY||Ratio of fold change|2.94|||<|0.001|TWO_SIDED|95.0|1.823|4.74|||Mixed Models Analysis|||||4.740|1.823|<0.001
82589404|NCT02469896|164891974|SUPERIORITY||Ratio of fold change|1.078||||0.587|TWO_SIDED|95.0|0.813|1.431|||Mixed Models Analysis|||||1.431|0.813|0.587
82589405|NCT02469896|164891974|SUPERIORITY||Ratio of fold change|1.078||||0.697|TWO_SIDED|95.0|0.728|1.595|||Mixed Models Analysis|||||1.595|0.728|0.697
82589406|NCT02469896|164891975|SUPERIORITY||Ratio of fold change|1.785|||<|0.001|TWO_SIDED|95.0|1.502|2.121|||Mixed Models Analysis|||||2.121|1.502|<0.001
82589407|NCT01405937|164892007|SUPERIORITY_OR_OTHER||||||<|0.001||||||The Type-I error rate over the multiple tests comparisons was controlled by the Hochberg testing procedure.|exact test for binomial proportion|||The null hypothesis that the percentage of participants achieving SVR24 of vaniprevir treatment was 20% versus the alternative that the percentage of participants achieving SVR24 of vaniprevir treatment was over 20% was tested.||||<0.001
82589408|NCT01405937|164892007|SUPERIORITY_OR_OTHER||||||<|0.001||||||The Type-I error rate over the multiple tests comparisons was controlled by the Hochberg testing procedure.|exact test for binomial proportion|||The null hypothesis that the percentage of participants achieving SVR24 of vaniprevir treatment was 20% versus the alternative that the percentage of participants achieving SVR24 of vaniprevir treatment was over 20% was tested.||||<0.001
82653386|NCT00601484|165022036|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-37.18|STANDARD_ERROR_OF_MEAN|28.74|||TWO_SIDED|90.0|-90.62|16.265||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||16.265|-90.620|
82653387|NCT00601484|165022036|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|5.77|STANDARD_ERROR_OF_MEAN|43.222|||TWO_SIDED|90.0|-74.604|86.142||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||86.142|-74.604|
82653388|NCT00601484|165022036|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-21.35|STANDARD_ERROR_OF_MEAN|70.862|||TWO_SIDED|90.0|-164.142|121.438||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||121.438|-164.142|
82653389|NCT00601484|165022039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.788|||TWO_SIDED|90.0|-2.562|0.081||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.081|-2.562|
82653390|NCT00601484|165022039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.12|STANDARD_ERROR_OF_MEAN|0.986|||TWO_SIDED|90.0|-2.782|0.535||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.535|-2.782|
82653391|NCT00601484|165022039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|-3.036|0.819||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.819|-3.036|
82653392|NCT00601484|165022039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.816|||TWO_SIDED|90.0|-1.534|1.221||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.221|-1.534|
82377435|NCT05044195|164462026|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.9|||||TWO_SIDED|95.0|0.819|0.989||||||A/H3N2||0.989|0.819|
82589409|NCT00726622|164892021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Assuming a baseline rate of 90% oncologic success for the open resection arm, the sample size provided 80% power to declare non-inferiority if oncologic success rates were truly identical, using a 1-sided z score with α = .10 for falsely declaring non-inferiority when the true oncologic success rate for laparoscopic resection was 84%. Calculations were based on a 2-sample binomial non-inferiority calculation with a 90% success rate for the control group and a 6% non-inferiority margin.||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82589410|NCT03662139|164892038|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
82589411|NCT03662139|164892038|SUPERIORITY||ICC|0.97|||<|0.05|TWO_SIDED|95.0|0.915|0.99|||Intraclass Correlation Coefficient(ICC)|Two-way random-effect model|Reliability estimates were interpreted as follows: \>0.90=excellent; 0.75-0.90=good; 0.50-0.75=medium; \<0.50=low|Test - Retest Reliability (Difference between 1st and 2nd assessments in Cerebral Palsy group)||0.99|0.915|<0.05
82589412|NCT03662139|164892038|SUPERIORITY||ICC|0.983|||<|0.01|TWO_SIDED|95.0|0.882|0.998|||Intraclass Correlation Coefficient(ICC)|Two-way random-effect model|Reliability estimates were interpreted as follows: \>0.90=excellent; 0.75-0.90=good; 0.50-0.75=medium; \<0.50=low|Interrater Reliability (Difference between 1st and 2nd evaluators in Cerebral Palsy group)||0.998|0.882|<0.01
82589413|NCT03662139|164892039|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
82589414|NCT03662139|164892039|SUPERIORITY||Spearman's correlation coefficient (rs)|0.724|||<|0.05|TWO_SIDED||||||Spearman's Correlation Test|The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.||Correlation between Dynamic Gait Index (DGI) and Pediatric Balance Scale (PBS) scores in Cerebral Palsy group||||<0.05
82589415|NCT03662139|164892040|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
82589416|NCT03662139|164892040|SUPERIORITY||Spearman's correlation coefficient (rs)|-0.828|||<|0.01|TWO_SIDED||||||Spearman's Correlation Test||The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.|Correlation between Dynamic Gait Index (DGI) and Timed Up and Go Test (TUG) scores in Cerebral Palsy group||||<0.01
82589417|NCT03662139|164892041|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Between group difference||||<0.01
82589418|NCT03662139|164892041|SUPERIORITY||Spearman's correlation coefficient (rs)|-0.673|||<|0.05|TWO_SIDED||||||Spearman's Correlation Test||The level of relationship was classified as follows \<0.30=small/negligible; 0.30-0.50=low; 0.50-0.70=moderate; 0.70-0.90=high; \>0.90=very high.|Correlation between Dynamic Gait Index (DGI) and Four Square Step Test (FSST) scores in Cerebral Palsy group.||||<0.05
82653393|NCT00601484|165022039|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.54|STANDARD_ERROR_OF_MEAN|1.083|||TWO_SIDED|90.0|-2.398|1.32||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||1.320|-2.398|
82589419|NCT00863109|164892064|SUPERIORITY_OR_OTHER|||||||0.027|||||||Student´s t-test for paired samples|||Within-group comparison of Worry domain between BL Visit and WK72 Visit||||0.027
82589420|NCT00863109|164892065|SUPERIORITY_OR_OTHER|||||||0.038|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in MCS||||0.038
82589421|NCT00863109|164892066|SUPERIORITY_OR_OTHER|||||||0.014|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in Emotional Function domain||||0.014
82589422|NCT00863109|164892066|SUPERIORITY_OR_OTHER|||||||0.009|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in Worry domain||||0.009
82589423|NCT00863109|164892066|SUPERIORITY_OR_OTHER|||||||0.022|||||||Student´s t-test for paired samples|||Between-group comparison of change from baseline in CLDQ-HCV Global domain||||0.022
82589424|NCT00440700|164892071|SUPERIORITY_OR_OTHER||Slope|15.5|||<|0.05||95.0|||||Mixed Models Analysis|||Mixed models analysis was used to determine if there were any differences in anxiety levels in patients who listen to music as compared to headphones only or usual ICU care.||||<0.05
82589425|NCT00440700|164892073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|0.61|<|0.05|ONE_SIDED|95.0|||||Kruskal-Wallis||Usual care was the reference comparison group.|Length of mechanical ventilatory support was assessed among all 3 groups. Usual usual care was the reference group as compared to the experimental patient-directed music group.||||<0.05
82589426|NCT00440700|164892074|SUPERIORITY_OR_OTHER||Slope|5.0|||<|0.05||95.0|||||Mixed Models Analysis|||Cortisol levels were compared among all 3 groups.||||<0.05
82589427|NCT00698451|164892102|SUPERIORITY_OR_OTHER||Percentage|72.2||||0.05|TWO_SIDED|95.0|58.4|83.5|||Exact Binomial Distribution|||||83.5|58.4|0.05
82589428|NCT00733304|164892126|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|1.362|||TWO_SIDED|95.0|-3.18|2.31||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 2 versus screening visit||2.31|-3.18|
82589429|NCT00733304|164892126|SUPERIORITY||Mean Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|1.659|||TWO_SIDED|95.0|-7.13|-0.46||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 5 versus screening visit||-0.46|-7.13|
82589430|NCT00733304|164892126|SUPERIORITY||Mean Difference (Net)|-4.15|STANDARD_ERROR_OF_MEAN|1.672|||TWO_SIDED|95.0|-7.52|-0.78||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 2 versus screening visit||-0.78|-7.52|
82589431|NCT00733304|164892126|SUPERIORITY||Mean Difference (Net)|-4.03|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-7.53|0.53||Analysis of covariance (ANCOVA) model was used to perform statistical analysis based on treatment, visit, fixed effect terms etc.|ANCOVA|||Month 5 versus screening visit||0.53|-7.53|
82589432|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|8.28|STANDARD_ERROR_OF_MEAN|16.899|||TWO_SIDED|95.0|-25.72|42.29||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||For Month 1 versus Screening visit||42.29|-25.72|
82589433|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-1.21|STANDARD_ERROR_OF_MEAN|17.177|||TWO_SIDED|95.0|-35.73|33.31||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 2 versus Screening visit||33.31|-35.73|
82589434|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-5.11|STANDARD_ERROR_OF_MEAN|17.958|||TWO_SIDED|95.0|-41.08|30.86||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 3 versus Screening visit||30.86|-41.08|
82589435|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-9.92|STANDARD_ERROR_OF_MEAN|18.996|||TWO_SIDED|95.0|-47.83|28.0||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 4 versus Screening visit||28.00|-47.83|
82589436|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|2.42|STANDARD_ERROR_OF_MEAN|18.996|||TWO_SIDED|95.0|-35.5|40.33||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 5 versus Screening visit||40.33|-35.50|
82589437|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|9.05|STANDARD_ERROR_OF_MEAN|20.931|||TWO_SIDED|95.0|-33.09|51.2||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 1 versus Screening visit||51.20|-33.09|
82589438|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-1.24|STANDARD_ERROR_OF_MEAN|21.29|||TWO_SIDED|95.0|-44.05|41.57||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 2 versus Screening visit||41.57|-44.05|
82589439|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|15.39|STANDARD_ERROR_OF_MEAN|21.757|||TWO_SIDED|95.0|-28.28|59.06||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 3 versus Screening visit||59.06|-28.28|
82589440|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-16.82|STANDARD_ERROR_OF_MEAN|22.183|||TWO_SIDED|95.0|-61.28|27.63||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 4 versus Screening visit||27.63|-61.28|
82589441|NCT00733304|164892127|SUPERIORITY||Mean Difference (Net)|-2.16|STANDARD_ERROR_OF_MEAN|21.757|||TWO_SIDED|95.0|-45.83|41.51||ANCOVA model was used to perform statistical analysis based on treatment, visit, fixed effect terms, Baseline OCT central subfield as covariate, and participant within treatment as a random effect term.|ANCOVA|||Month 5 versus Screening visit||41.51|-45.83|
82589442|NCT01187550|164892130|SUPERIORITY_OR_OTHER|||||||0.194||95.0|||||Wilcoxon rank sum test|||||||0.194
82653394|NCT00601484|165022040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-10.99|STANDARD_ERROR_OF_MEAN|6.718|||TWO_SIDED|90.0|-22.25|0.277||||||Week 2: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||0.277|-22.250|
82653395|NCT00601484|165022040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.43|STANDARD_ERROR_OF_MEAN|8.66|||TWO_SIDED|90.0|-23.001|6.132||||||Week 4: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||6.132|-23.001|
82653396|NCT00601484|165022040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-8.14|STANDARD_ERROR_OF_MEAN|9.737|||TWO_SIDED|90.0|-24.602|8.327||||||Week 6: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||8.327|-24.602|
82377436|NCT05044195|164462026|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.944|||||TWO_SIDED|95.0|0.88|1.012||||||B/Yamagata||1.012|0.880|
82589443|NCT01187550|164892131|SUPERIORITY_OR_OTHER|||||||0.752||95.0|||||Wilcoxon rank sum test|||||||0.752
82589444|NCT01187550|164892132|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Wilcoxon rank sum test|||||||0.710
82589445|NCT01187550|164892133|SUPERIORITY_OR_OTHER|||||||0.265||95.0|||||Wilcoxon rank sum test|||||||0.265
82589446|NCT01187550|164892134|SUPERIORITY_OR_OTHER|||||||0.308||95.0|||||Wilcoxon rank sum test|||||||0.308
82589447|NCT01187550|164892135|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||Wilcoxon rank sum test|||For total cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.078
82589448|NCT01187550|164892135|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Wilcoxon rank sum test|||For HDL-cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.033
82589449|NCT01187550|164892135|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Wilcoxon rank sum test|||For LDL-cholesterol: Wilcoxon rank sum test was used to calculate p-value.||||0.041
82589450|NCT01187550|164892135|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||Wilcoxon rank sum test|||For triglycerides: Wilcoxon rank sum test was used to calculate p-value.||||0.091
82589451|NCT02308007|164892158|SUPERIORITY|||||||0.03|||||||Chi-squared, Corrected|||||||0.030
82589452|NCT02308007|164892158|SUPERIORITY|||||||0.073|||||||Chi-squared, Corrected|||||||0.073
82589453|NCT02308007|164892158|SUPERIORITY|||||||0.0204|||||||Cochran-Mantel-Haenszel|||Stratified by race (black, white, or other race)||||0.0204
82589454|NCT02308007|164892158|SUPERIORITY|||||||0.0493|||||||Cochran-Mantel-Haenszel|||Stratified by race (black, white, or other race)||||0.0493
82589455|NCT02308007|164892159|SUPERIORITY|||||||0.015|||||||Chi-squared, Corrected|||||||0.015
82589456|NCT02308007|164892159|SUPERIORITY|||||||0.193|||||||Chi-squared, Corrected|||Difference for Terconazole/metronidazole vaginal gel cures minus metronidazole vaginal gel cures||||0.193
82589457|NCT02308007|164892160|SUPERIORITY|||||||0.012|||||||Chi-squared, Corrected|||||||0.012
82589458|NCT02308007|164892160|SUPERIORITY|||||||0.918|||||||Chi-squared, Corrected|||||||0.918
82589459|NCT02967354|164892164|SUPERIORITY|||||||0.5875||||||Treshold for significance P\<0.05|ANOVA|||||||0.5875
82589460|NCT02967354|164892165|SUPERIORITY|||||||0.0065||||||Treshold for significance P\<0.05|ANOVA|||||||0.0065
82589461|NCT02967354|164892166|SUPERIORITY|||||||0.0072||||||Treshold for significance P\<0.05|ANOVA|||||||0.0072
82589462|NCT02967354|164892167|SUPERIORITY|||||||0.9472||||||Treshold for significance P\<0.05|ANOVA|||||||0.9472
82589463|NCT02967354|164892168|SUPERIORITY|||||||0.0048||||||Treshold for significance P\<0.05|ANOVA|||||||0.0048
82589464|NCT00528567|164892169|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.181|TWO_SIDED|95.0|0.72|1.07|||Log Rank|Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.||||1.07|0.72|0.1810
82589465|NCT00528567|164892171|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5247|TWO_SIDED|95.0|0.74|1.17|||Log Rank|Stratification factors are Axillary nodal status, Choice of adjuvant chemotherapy, Hormone receptor status, Surgery||||1.17|0.74|0.5247
82589466|NCT00528567|164892173|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1966|TWO_SIDED|95.0|0.71|1.07|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.07|0.71|0.1966
82589467|NCT00528567|164892174|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.2318|TWO_SIDED|95.0|0.64|1.12|||Log Rank|||||1.12|0.64|0.2318
82589468|NCT00528567|164892177|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.2792|TWO_SIDED|95.0|0.72|1.1|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.10|0.72|0.2792
82589469|NCT00528567|164892179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1832|TWO_SIDED|95.0|0.72|1.07|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.07|0.72|0.1832
82589470|NCT00528567|164892181|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.3309|TWO_SIDED|95.0|0.72|1.12|||Log Rank||Stratification factors were axillary nodal status, choice of adjuvant chemotherapy, hormone receptor status, surgery.|||1.12|0.72|0.3309
82589471|NCT01191541|164892187|NON_INFERIORITY|The primary objective was to demonstrate the noninferiority of DNR alone to DNR+ARA-C in the rate of DFS at 2 years. Assuming a 95% rate of DFS in the two groups, a margin of -15% , 5% type 1 error, 80% power, 30 evaluable patients per group were required to draw a noninferiority conclusion.|||||<|0.05||||||the p-value is not adjusted|Log Rank|||The characteristics of all of the included patients were summarized using cross-tabulations (for categorical variables) and quantiles. Nonparametric tests were used to analyse comparisons between groups .EFS、disease-free survival (DFS) and OS were estimated using the Kaplan -Meier method, and log-rank tests were used. All P values were two-sided, and those with values of 0.05 or less were considered to be statistically significant.||||<0.05
82589472|NCT05696236|164892307|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||||||0.77
82589473|NCT05696236|164892308|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|||||||0.07
82589474|NCT05696236|164892309|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82589475|NCT01829360|164892311|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|The significance of fixed effects (e.g.,treatment) was evaluated using Wald tests||||||<0.05
82589476|NCT01829360|164892311|OTHER|A secondary analysis was performed to examine individual differences in treatment outcomes. This was done collapsed across all arms because the difference between the arms/treatments was not significant in the primary analysis. This was done by adding predictors to the primary analysis model to determine if learner characteristics were significantly related to growth in word defining. All continuous learner characteristics were grand mean centered.|||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82589477|NCT01829360|164892312|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||The interim definition data were analyzed with the primary pre-/post-definition data to capture growth across the entire treatment period.||||<0.05
82589478|NCT00578786|164892316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|38.0|STANDARD_DEVIATION|74.28|||TWO_SIDED|95.0|22.7|53.3|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||53.3|22.7|
82589479|NCT00578786|164892316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|32.5|STANDARD_DEVIATION|78.55|||TWO_SIDED|95.0|21.1|43.8|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||43.8|21.1|
82589480|NCT00578786|164892316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|40.9|STANDARD_DEVIATION|72.85|||TWO_SIDED|95.0|26.1|55.7|||||Applies to Ambrisentan 10 mg group only. LOCF method of imputation. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||55.7|26.1|
82589481|NCT00578786|164892316|SUPERIORITY_OR_OTHER||Mean Difference (Net)|36.0|STANDARD_DEVIATION|75.97|||TWO_SIDED|95.0|28.3|43.7|||||Applies to Ambrisentan combined group only. LOCF method of imputation.|||43.7|28.3|
82589482|NCT00578786|164892317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|24.9|STANDARD_DEVIATION|96.14|||TWO_SIDED|95.0|5.1|44.7|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||44.7|5.1|
82589483|NCT00578786|164892317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.9|STANDARD_DEVIATION|94.5|||TWO_SIDED|95.0|14.2|41.6|||||Applies to Ambrisentan 5.0 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||41.6|14.2|
82589484|NCT00578786|164892317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.2|STANDARD_DEVIATION|72.97|||TWO_SIDED|95.0|22.4|52.0|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||52.0|22.4|
82589485|NCT00578786|164892317|SUPERIORITY_OR_OTHER||Median Difference (Net)|29.5|STANDARD_DEVIATION|89.81|||TWO_SIDED|95.0|20.4|38.7|||||Applies to Ambrisentan combined group only. LOCF method of imputation.|||38.7|20.4|
82589486|NCT00578786|164892318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.7|STANDARD_DEVIATION|97.48|||TWO_SIDED|95.0|-13.4|26.8|||||Applies to Ambrisentan 2.5 mg group only. LOCF method of imputation.|||26.8|-13.4|
82589487|NCT00578786|164892318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|23.2|STANDARD_DEVIATION|100.69|||TWO_SIDED|95.0|8.7|37.8|||||Applies to Ambrisentan 5 mg group only. LOCF method of imputation.|||37.8|8.7|
82589488|NCT00578786|164892318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.0|STANDARD_DEVIATION|84.38|||TWO_SIDED|95.0|10.9|45.1|||||Applies to Ambrisentan 10 mg group only. LOCF method of imputation.|||45.1|10.9|
82589489|NCT00578786|164892318|SUPERIORITY_OR_OTHER||Median Difference (Net)|20.3|STANDARD_DEVIATION|96.05|||TWO_SIDED|95.0|10.6|30.1|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||30.1|10.6|
82589490|NCT00578786|164892319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7|STANDARD_DEVIATION|95.21|||TWO_SIDED|95.0|-18.9|20.3|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||20.3|-18.9|
82653397|NCT00601484|165022040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.45|STANDARD_ERROR_OF_MEAN|7.406|||TWO_SIDED|90.0|-13.948|11.04||||||Week 10: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||11.040|-13.948|
82589491|NCT00578786|164892319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.8|STANDARD_DEVIATION|101.22|||TWO_SIDED|95.0|4.2|33.5|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||33.5|4.2|
82589492|NCT00578786|164892319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.8|STANDARD_DEVIATION|87.07|||TWO_SIDED|95.0|10.1|45.4|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||45.4|10.1|
82589493|NCT00578786|164892319|SUPERIORITY_OR_OTHER||Mean Difference (Net)|16.6|STANDARD_DEVIATION|96.54|||TWO_SIDED|95.0|6.8|26.4|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||26.4|6.8|
82589494|NCT00578786|164892321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_DEVIATION|2.254|||TWO_SIDED|95.0|-0.55|0.38|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.38|-0.55|
82589495|NCT00578786|164892321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59|STANDARD_DEVIATION|2.45|||TWO_SIDED|95.0|-0.94|-0.23|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.23|-0.94|
82589496|NCT00578786|164892321|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_DEVIATION|2.4|||TWO_SIDED|95.0|-1.0|-0.03|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.03|-1.00|
82589497|NCT00578786|164892321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_DEVIATION|2.393|||TWO_SIDED|95.0|-0.69|-0.2|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.20|-0.69|
82589498|NCT00578786|164892322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23|STANDARD_DEVIATION|2.603|||TWO_SIDED|95.0|-0.31|0.76|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.76|-0.31|
82589499|NCT00578786|164892322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.33|STANDARD_DEVIATION|2.477|||TWO_SIDED|95.0|-0.68|0.03|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.03|-0.68|
82653398|NCT00601484|165022040|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-7.83|STANDARD_ERROR_OF_MEAN|9.352|||TWO_SIDED|90.0|-23.884|8.234||||||Week 16: Analysis was based on ANCOVA model with terms for treatment, age, gender, BMI, baseline severity of pain and concomitant medications (amitriptyline, pentosan polysulfate sodium, hydroxyzine) use.||8.234|-23.884|
82589500|NCT00578786|164892322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65|STANDARD_DEVIATION|2.305|||TWO_SIDED|95.0|-1.12|-0.18|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.18|-1.12|
82589501|NCT00578786|164892322|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27|STANDARD_DEVIATION|2.48|||TWO_SIDED|95.0|-0.52|-0.02|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.02|-0.52|
82589502|NCT00578786|164892323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_DEVIATION|2.593|||TWO_SIDED|95.0|-0.33|0.74|||||Applies to Ambrisentan 2.5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.74|-0.33|
82589503|NCT00578786|164892323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_DEVIATION|2.514|||TWO_SIDED|95.0|-0.51|0.22|||||Applies to Ambrisentan 5 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.22|-0.51|
82589504|NCT00578786|164892323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_DEVIATION|2.215|||TWO_SIDED|95.0|-0.93|-0.03|||||Applies to Ambrisentan 10 mg group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||-0.03|-0.93|
82589505|NCT00578786|164892323|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.14|STANDARD_DEVIATION|2.467|||TWO_SIDED|95.0|-0.39|0.11|||||Applies to Ambrisentan combined group only. Missing values were imputed using last-observation-carried forward method (LOCF) based on post-baseline observations.|||0.11|-0.39|
82589506|NCT05105789|164892336|SUPERIORITY|"One-sample binomial test. Null hypothesis: NPV of BinaxNOW at Home testing is at most 91%.~Alternative hypothesis: NPV of BinaxNOW at Home testing is greater than 91%."|Kappa Co-efficient|100.0||||0.0015|TWO_SIDED|95.0|95.0|100.0|||one-sample binomial test||binary outcome|Negative Predictive Value||100|95|0.0015
82589507|NCT05105789|164892336|NON_INFERIORITY|non-inferiority margin of δ=5% and a sensitivity/specificity of PCR of 99%||||||0.3308|||||||one-sample binomial test|||Sensitivity H0: Sens-0.99 ≤ 0.05 vs. HA: Sens-0.99 \> -0.05||||0.3308
82589508|NCT05105789|164892336|NON_INFERIORITY|a non-inferiority margin of δ=5% and a sensitivity/specificity of PCR of 99%||||||0.0536|||||||one-sample binomial test|||Specificity H0: Spec-0.99 ≤ 0.05 vs. HA: Spec-0.99 \> -0.05||||0.0536
82589509|NCT05105789|164892337|EQUIVALENCE|Concordance between the PCR test results will be evaluated by calculating the Kappa statistic which will be reported along with corresponding two-sided 95% confidence interval. The nonparametric bootstrap technique will be used to construct the confidence interval. A kappa statistic of \>0.95 will be considered as sufficient to define lollipop swab test non-inferior to the gold-standard PCR testing of nasal swabs.|Kappa Co-efficient|0.91|||||TWO_SIDED|95.0|0.78|1.0||||||Kappa statistics for Nasal Swab PCR vs Lollipop Swab PCR||1.00|0.78|
82653399|NCT00601484|165022041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.064|||||TWO_SIDED|90.0|1.709|15.007||||||Week 6: Analysis was based on proportional odds analysis, to determine the odds ratio for the odds of responding (compared to not responding) on Tanezumab vs placebo.||15.007|1.709|
82653400|NCT00601484|165022041|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.722|||||TWO_SIDED|90.0|0.756|9.795||||||Week 16: Analysis was based on proportional odds analysis, to determine the odds ratio for the odds of responding (compared to not responding) on Tanezumab vs placebo.||9.795|0.756|
82377437|NCT05044195|164462026|NON_INFERIORITY|Non-inferiority criteria for the GMT ratio: UL of the 95% CI for the inter-group GMT ratio is ≤1.5 for each vaccine strain|GMT ratio|0.992|||||TWO_SIDED|95.0|0.923|1.067||||||B/Victoria||1.067|0.923|
82490784|NCT02713204|164675028|SUPERIORITY||Least square mean difference|33.89||||0.0785|TWO_SIDED|95.0|-3.89|71.67|||ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||71.67|-3.89|0.0785
82490785|NCT02713204|164675028|SUPERIORITY||Least square mean difference|42.27||||0.0281|TWO_SIDED|95.0|4.56|79.98||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||79.98|4.56|0.0281
82490786|NCT02713204|164675028|SUPERIORITY||Least square mean difference|16.65||||0.3934|TWO_SIDED|95.0|-21.67|54.96||Threshold for significance at 0.05 level.|ANCOVA|||||54.96|-21.67|0.3934
82377438|NCT05044195|164462027|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-4.4|||||TWO_SIDED|95.0|-7.97|-0.74||||||A/H1N1||-0.74|-7.97|
82377439|NCT05044195|164462027|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-1.8|||||TWO_SIDED|95.0|-6.14|2.48||||||A/H3N2||2.48|-6.14|
82377440|NCT05044195|164462027|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-2.4|||||TWO_SIDED|95.0|-6.77|2.0||||||B/Yamagata||2.00|-6.77|
82377441|NCT05044195|164462027|NON_INFERIORITY|Non-inferiority criteria for the SCR difference: UL of the 95% CI for the difference in SCR is ≤10% for each vaccine strain|SCR difference|-3.9|||||TWO_SIDED|95.0|-8.31|0.45||||||B/Victoria||0.45|-8.31|
82377442|NCT05044195|164462028|SUPERIORITY||GMT ratio|0.808|||||TWO_SIDED|95.0|0.745|0.876||||||A/H1N1||0.876|0.745|
82377443|NCT05044195|164462028|SUPERIORITY||GMT ratio|0.91|||||TWO_SIDED|95.0|0.829|0.998||||||A/H3N2||0.998|0.829|
82377444|NCT05044195|164462028|SUPERIORITY||GMT ratio|0.947|||||TWO_SIDED|95.0|0.884|1.014||||||B/Yamagata||1.014|0.884|
82377445|NCT05044195|164462028|SUPERIORITY||GMT ratio|1.0|||||TWO_SIDED|95.0|0.931|1.075||||||B/Victoria||1.075|0.931|
82377446|NCT05044195|164462029|OTHER||GMT ratio|0.87|||||TWO_SIDED|95.0|0.803|0.944||||||A/H1N1||0.944|0.803|
82377447|NCT05044195|164462029|OTHER||GMT ratio|0.953|||||TWO_SIDED|95.0|0.88|1.032||||||A/H3N2||1.032|0.880|
82377448|NCT05044195|164462029|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.953|1.077||||||B/Yamagata||1.077|0.953|
82377449|NCT05044195|164462029|OTHER||GMT ratio|1.028|||||TWO_SIDED|95.0|0.963|1.098||||||B/Victoria||1.098|0.963|
82377450|NCT05044195|164462037|OTHER||GMT ratio|0.838|||||TWO_SIDED|95.0|0.751|0.936||||||A/H1N1 (50 to 59 years)||0.936|0.751|
82377451|NCT05044195|164462037|OTHER||GMT ratio|0.924|||||TWO_SIDED|95.0|0.821|1.04||||||A/H3N2 (50 to 59 years)||1.040|0.821|
82377452|NCT05044195|164462037|OTHER||GMT ratio|0.926|||||TWO_SIDED|95.0|0.845|1.015||||||B/Yamagata (50 to 59 years)||1.015|0.845|
82377453|NCT05044195|164462037|OTHER||GMT ratio|0.989|||||TWO_SIDED|95.0|0.901|1.087||||||B/Victoria (50 to 59 years)||1.087|0.901|
82377454|NCT05044195|164462037|OTHER||GMT ratio|0.767|||||TWO_SIDED|95.0|0.681|0.864||||||A/H1N1 (60 to 64 years)||0.864|0.681|
82377455|NCT05044195|164462037|OTHER||GMT ratio|0.89|||||TWO_SIDED|95.0|0.766|1.033||||||A/H3N2 (60 to 64 years)||1.033|0.766|
82377456|NCT05044195|164462037|OTHER||GMT ratio|0.974|||||TWO_SIDED|95.0|0.879|1.079||||||B/Yamagata (60 to 64 years)||1.079|0.879|
82377457|NCT05044195|164462037|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.905|1.133||||||B/Victoria (60 to 64 years)||1.133|0.905|
82377458|NCT05044195|164462038|OTHER||GMT ratio|0.844|||||TWO_SIDED|95.0|0.761|0.935||||||A/H1N1 (yes)||0.935|0.761|
82377459|NCT05044195|164462038|OTHER||GMT ratio|1.01|||||TWO_SIDED|95.0|0.904|1.128||||||A/H3N2 (yes)||1.128|0.904|
82377460|NCT05044195|164462038|OTHER||GMT ratio|0.948|||||TWO_SIDED|95.0|0.883|1.016||||||B/Yamagata (yes)||1.016|0.883|
82377461|NCT05044195|164462038|OTHER||GMT ratio|0.997|||||TWO_SIDED|95.0|0.926|1.073||||||B/Victoria (yes)||1.073|0.926|
82377462|NCT05044195|164462038|OTHER||GMT ratio|0.772|||||TWO_SIDED|95.0|0.677|0.88||||||A/H1N1 (no)||0.880|0.677|
82377463|NCT05044195|164462038|OTHER||GMT ratio|0.801|||||TWO_SIDED|95.0|0.683|0.941||||||A/H3N2 (no)||0.941|0.683|
82377464|NCT05044195|164462038|OTHER||GMT ratio|0.945|||||TWO_SIDED|95.0|0.831|1.076||||||B/Yamagata (no)||1.076|0.831|
82377465|NCT05044195|164462038|OTHER||GMT ratio|1.007|||||TWO_SIDED|95.0|0.881|1.151||||||B/Victoria (no)||1.151|0.881|
82377466|NCT05044195|164462039|OTHER||GMT ratio|0.82|||||TWO_SIDED|95.0|0.752|0.894||||||A/H1N1 (Comorbidity Risk Score \<50)||0.894|0.752|
82377467|NCT05044195|164462039|OTHER||GMT ratio|0.933|||||TWO_SIDED|95.0|0.846|1.029||||||A/H3N2 (Comorbidity Risk Score \<50)||1.029|0.846|
82377468|NCT05044195|164462039|OTHER||GMTratio|0.972|||||TWO_SIDED|95.0|0.904|1.046||||||B/Yamagata (Comorbidity Risk Score \<50)||1.046|0.904|
82377469|NCT05044195|164462039|OTHER||GMT ratio|1.013|||||TWO_SIDED|95.0|0.938|1.094||||||B/Victoria (Comorbidity Risk Score \<50)||1.094|0.938|
82377470|NCT05044195|164462039|OTHER||GMT ratio|0.706|||||TWO_SIDED|95.0|0.553|0.902||||||A/H1N1 (Comorbidity Risk Score ≥50)||0.902|0.553|
82377471|NCT05044195|164462039|OTHER||GMT ratio|0.734|||||TWO_SIDED|95.0|0.549|0.982||||||A/H3N2 (Comorbidity Risk Score ≥50)||0.982|0.549|
82377472|NCT05044195|164462039|OTHER||GMT ratio|0.773|||||TWO_SIDED|95.0|0.638|0.935||||||B/Yamagata (Comorbidity Risk Score ≥50)||0.935|0.638|
82377473|NCT05044195|164462039|OTHER||GMT ratio|0.905|||||TWO_SIDED|95.0|0.739|1.107||||||B/Victoria (Comorbidity Risk Score ≥50)||1.107|0.739|
82377474|NCT03126435|164462059|SUPERIORITY|||||||0.6647|||||||Log Rank|P-Value is from a stratified log-rank test.||||||0.6647
82377475|NCT03126435|164462060|SUPERIORITY|||||||0.4345|||||||Log Rank|P-Value is from a stratified log-rank test.||||||0.4345
82377476|NCT03126435|164462061|SUPERIORITY|||||||0.2632|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records||||||0.2632
82377477|NCT03126435|164462063|SUPERIORITY|||||||0.1002|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records.||||||0.1002
82377478|NCT03126435|164462064|SUPERIORITY|||||||0.9882|||||||Regression, Logistic|P-value is from logistic regression model adjusted for stratification factors among non-missing records.||||||0.9882
82589510|NCT05105789|164892338|NON_INFERIORITY|a non-inferiority margin of δ=5% and a sensitivity/specificity of PCR testing of 99%||||||0.201|||||||one-sample binomial test|||Sensitivity H0: Sens-0.99 ≤ 0.05 vs. HA: Sens-0.99 \> -0.05||||0.2010
82589511|NCT05105789|164892338|NON_INFERIORITY|non-inferiority margin of δ=5% and a sensitivity/specificity of PCR testing of 99%||||||0.0705|||||||one-sample binomial test|||Specificity H0: Spec-0.99 ≤ 0.05 vs. HA: Spec-0.99 \> -0.05||||0.0705
82589512|NCT00038727|164892349|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.87|TWO_SIDED|95.0|0.81|1.28|||Log Rank|||||1.28|0.81|0.87
82589513|NCT00038727|164892349|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.95|TWO_SIDED|95.0|0.79|1.25|||Log Rank|||||1.25|0.79|0.95
82589514|NCT00728481|164892375|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||Comparison between arms for a histologic response||||1.00
82589515|NCT00728481|164892380|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||Fisher Exact|||Comparison between arms for a symptomatic response||||0.76
82589516|NCT00778622|164892387|SUPERIORITY_OR_OTHER|||||||0.0806||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in HbA1c at Week 16 was dependent variable, BMI was fixed main effect, baseline HbA1c was covariate.||"Standard deviation assumed for changes from baseline in HbA1c maximally was 1.0 across the baseline BMI subgroups. 97 participants in a single subgroup would be sufficient to estimate mean change in HbA1c with precision of 0.20% within the subgroup. Given number of baseline BMI subgroups and no correction for reason of multiplicity was made to the 95% CI within each BMI subgroup, total sample size calculated as 291. Sample size used the method CI for mean for one group in nQuery Advisor v6.0."||||0.0806
82589517|NCT00778622|164892387|SUPERIORITY_OR_OTHER|||||||0.1984||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.1984
82589518|NCT00778622|164892387|SUPERIORITY_OR_OTHER|||||||0.0232||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.0232
82589519|NCT00778622|164892387|SUPERIORITY_OR_OTHER|||||||0.3589||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.3589
82589520|NCT00778622|164892388|SUPERIORITY_OR_OTHER|||||||0.4614||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in FPG at Week 16 was dependent variable, BMI was fixed main effect, baseline FPG was covariate.||||||0.4614
82653401|NCT03977584|165022062|SUPERIORITY||Difference in Annualized Rate of Change|-0.013|STANDARD_ERROR_OF_MEAN|0.00993||0.1953|TWO_SIDED|95.0|-0.0327|0.0068|||RCRM|||Analysis was based on RCRM using unstructured covariance matrix: GTP1 PET = Treatment \* Analysis Year + Interactive Voice or Web Response System (IxRS) defined Age Group + IxRS defined Education History + IxRS defined apolipoprotein (APOE4) Carrier Status + IxRS defined Clinical Dementia Rating Global Score.||0.0068|-0.0327|0.1953
82653402|NCT03504852|165022065|SUPERIORITY||Risk Difference (RD)|17.72||||0.0003|TWO_SIDED|95.0|7.45|27.98||One-sided p-value|Regression, Logistic|||||27.98|7.45|0.0003
82589521|NCT00778622|164892388|SUPERIORITY_OR_OTHER|||||||0.4696||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.4696
82589522|NCT00778622|164892388|SUPERIORITY_OR_OTHER|||||||0.5305||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.5305
82589523|NCT00778622|164892388|SUPERIORITY_OR_OTHER|||||||0.9145||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity.|t-test, 2 sided|||||||0.9145
82589524|NCT00778622|164892389|SUPERIORITY_OR_OTHER|||||||0.0305||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in TC at Week 16 was dependent variable, BMI was fixed main effect, baseline TC was covariate.||||||0.0305
82589525|NCT00778622|164892389|SUPERIORITY_OR_OTHER|||||||0.008||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0080
82589526|NCT00778622|164892389|SUPERIORITY_OR_OTHER|||||||0.0422||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0422
82589527|NCT00778622|164892390|SUPERIORITY_OR_OTHER|||||||0.4508||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in LDL-C at Week 16 was dependent variable, BMI was fixed main effect, baseline LDL-C was covariate.||||||0.4508
82589528|NCT00778622|164892390|SUPERIORITY_OR_OTHER|||||||0.0526||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.0526
82589529|NCT00778622|164892390|SUPERIORITY_OR_OTHER|||||||0.1295||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.1295
82589530|NCT00778622|164892391|SUPERIORITY_OR_OTHER|||||||0.1431||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in HDL-C at Week 16 was dependent variable, BMI was fixed main effect, baseline HDL-C was covariate.||||||0.1431
82589531|NCT00778622|164892391|SUPERIORITY_OR_OTHER|||||||0.4066||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.4066
82589532|NCT00778622|164892391|SUPERIORITY_OR_OTHER|||||||0.4071||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.4071
82589533|NCT00778622|164892392|SUPERIORITY_OR_OTHER|||||||0.021||||||Interpretation based on 2-sided 5% significance level.|ANCOVA|Change from baseline in TG at Week 16 was dependent variable, BMI was fixed main effect, baseline TG was covariate.||||||0.0210
82589534|NCT00778622|164892392|SUPERIORITY_OR_OTHER|||||||0.2507||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.2507
82589535|NCT00778622|164892392|SUPERIORITY_OR_OTHER|||||||0.6546||||||Interpretation of two-by-two comparison based on 2-sided 5% significance level without correction for multiplicity. For lipids, no comparison between overweight and obese was performed.|t-test, 2 sided|||||||0.6546
82589536|NCT04409353|164892454|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 30, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.47||||0.4884|TWO_SIDED|95.0|-0.87|1.81||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The primary analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 7, 15, 21, and 30, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.81|-0.87|0.4884
82589537|NCT04409353|164892454|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 30, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.16||||0.8095|TWO_SIDED|95.0|-1.12|1.43||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The primary analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 7, 15, 21, and 30, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.43|-1.12|0.8095
82589538|NCT04409353|164892455|OTHER|The inference will be based on the treatment comparison of least squares means for Day 60, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.79||||0.3101|TWO_SIDED|95.0|-0.74|2.32||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||2.32|-0.74|0.3101
82589539|NCT04409353|164892455|OTHER|The inference will be based on the treatment comparison of least squares means for Day 60, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.42||||0.6328|TWO_SIDED|95.0|-2.13|1.3||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.30|-2.13|0.6328
82589540|NCT04409353|164892455|OTHER|The inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.16||||0.126|TWO_SIDED|95.0|-0.33|2.64||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||2.64|-0.33|0.1260
82589541|NCT04409353|164892455|OTHER|The inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.51||||0.515|TWO_SIDED|95.0|-2.05|1.03||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-PI score obtained at Days 60 and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PI t-score as a continuous covariate.||1.03|-2.05|0.5150
82589542|NCT04409353|164892456|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.43||||0.018|TWO_SIDED|95.0|0.25|2.61||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PCS SF-6 score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PCS SF-6 t-score as a continuous covariate.||2.61|0.25|.0180
82653403|NCT03504852|165022065|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0003|TWO_SIDED|95.0|1.44|3.78||One-sided p-value|Regression, Logistic|||||3.78|1.44|0.0003
82653404|NCT03504852|165022066|SUPERIORITY||Risk Difference (RD)|8.28||||0.0498|TWO_SIDED|95.0|-1.65|18.2||One-sided p-value|Regression, Logistic|||||18.20|-1.65|0.0498
82653405|NCT03504852|165022066|SUPERIORITY||Odds Ratio (OR)|1.51||||0.0498|TWO_SIDED|95.0|0.92|2.47||One-sided p-value|Regression, Logistic|||||2.47|0.92|0.0498
82589543|NCT04409353|164892456|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.33||||0.5742|TWO_SIDED|95.0|-1.48|0.82||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PCS SF-6 score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PCS SF-6 t-score as a continuous covariate.||0.82|-1.48|0.5742
82589544|NCT04409353|164892457|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.39||||0.7338|TWO_SIDED|95.0|-1.85|2.62||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- Anxiety score obtained at Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Anxiety t-score as a continuous covariate.||2.62|-1.85|0.7338
82589545|NCT04409353|164892457|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.63||||0.5279|TWO_SIDED|95.0|-1.34|2.6||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Anxiety score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Anxiety t-score as a continuous covariate.||2.60|-1.34|0.5279
82589546|NCT04409353|164892458|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.19||||0.1833|TWO_SIDED|95.0|-0.56|2.94||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Sleep Disturbance score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Sleep Disturbance t-score as a continuous covariate.||2.94|-0.56|0.1833
82589547|NCT04409353|164892458|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.33||||0.7006|TWO_SIDED|95.0|-2.04|1.37||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Sleep Disturbance score obtained at Days 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Sleep Disturbance t-score as a continuous covariate.||1.37|-2.04|0.7006
82589548|NCT04409353|164892459|OTHER||Common Odds Ratio|0.76||||0.1913|TWO_SIDED|95.0|0.5|1.15||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and day 90) and response (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||1.15|0.50|0.1913
82589549|NCT04409353|164892459|OTHER||Common Odds Ratio|0.83||||0.367|TWO_SIDED|95.0|0.55|1.24||A two-sided test performed at the 0.05 level of significance without the continuity correction.|Cochran-Mantel-Haenszel|||The Cochran-Mantel-Haenszel (CMH) test was used to compare the association between time (baseline and day 90) and response (yes or no) while stratifying for the treatment groups. The null hypothesis is that the common odds ratio of the association between time and response across the treatment groups is equal to 1, versus the alternative hypothesis that the common odds ratio is not equal to 1.||1.24|0.55|0.3670
82589550|NCT04409353|164892460|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.83||||0.1619|TWO_SIDED|95.0|-1.98|0.33||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- PF score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PF t-score as a continuous covariate.||0.33|-1.98|0.1619
82653406|NCT00745251|165022068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.86|STANDARD_ERROR_OF_MEAN|5.95||0.0084|ONE_SIDED|95.0||-4.84|||ANCOVA|||||-4.84||0.0084
82589551|NCT04409353|164892460|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.04||||0.9569|TWO_SIDED|95.0|-1.31|1.24||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS- PF score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-PF t-score as a continuous covariate.||1.24|-1.31|0.9569
82589552|NCT04409353|164892461|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.03||||0.9727|TWO_SIDED|95.0|-1.8|1.86||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Depression score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Depression t-score as a continuous covariate.||1.86|-1.80|0.9727
82653407|NCT00745251|165022069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.05|STANDARD_ERROR_OF_MEAN|1.64||0.0006|TWO_SIDED|95.0|-9.37|-2.74|||ANCOVA|||||-2.74|-9.37|0.0006
82589553|NCT04409353|164892461|OTHER|Primary inference will be based on the treatment comparison of least squares means for Day 90, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the primary endpoint between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|0.43||||0.6427|TWO_SIDED|95.0|-1.4|2.26||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline PROMIS-Depression score obtained for Day 15, 30, 60, and 90, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline PROMIS-Depression t-score as a continuous covariate.||2.26|-1.40|0.6427
82589554|NCT04409353|164892462|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly steps between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|691.58||||0.291|TWO_SIDED|95.0|-602.98|1986.14||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly steps obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline average weekly steps as a continuous covariate.||1986.14|-602.98|0.2910
82589555|NCT04409353|164892462|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly steps between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|405.68||||0.4842|TWO_SIDED|95.0|-741.79|1553.15||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly steps obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline average weekly steps as a continuous covariate.||1553.15|-741.79|0.4842
82589556|NCT04409353|164892463|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly sleep scores between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|1.0||||0.4228|TWO_SIDED|95.0|-1.48|3.49||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Distraction-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly sleep scores obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline sleep score as a continuous covariate.||3.49|-1.48|0.4228
82653408|NCT02928848|165022070|OTHER|||||||0.14||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Repeated-measures analysis of variance (RM-ANOVA) with Condition (active, sham) and time point (baseline, 0-week) as within-subject factors. Analysis tests whether active vs. sham stimulation confers a greater improvement in overall language ability, as measured by the Western Aphasia Battery Aphasia Quotient (WAB-AQ), that endures over time.||||0.14
82653409|NCT02928848|165022071|OTHER|||||||0.02||||||The a priori threshold for statistical significance was p \< .05.|ANOVA|||Repeated-measures analysis of variance (RM-ANOVA) with Condition (active, sham) and time point (baseline, 0-weeks) as within-subject factors. Analysis tests whether active vs. sham stimulation confers a greater improvement in naming ability, as measured by the naming subtest of the WAB, that endures over time.||||.02
82499942|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-58.8|||||TWO_SIDED|95.0|-81.6|-19.8|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||-19.8|-81.6|
82589557|NCT04409353|164892463|OTHER|The inference will be based on the treatment comparison of least squares means for week 12, and a p-value will be presented for this time period only. The null hypothesis is that the mean difference in the change in the average weekly sleep scores between the treatment groups and the sham control group is zero, versus the alternative hypothesis that these differences are not zero.|Difference in Least Squares Means|-0.28||||0.8363|TWO_SIDED|95.0|-2.92|2.37||A two-sided test performed at the 0.05 level of significance.|Mixed Models Analysis||Skills-Based VR - Sham VR|The analysis will compare the treatment groups, separately, to the control group using a linear mixed model repeated measures (MMRM) analysis. The repeated measures are the change from baseline average weekly sleep scores obtained at weeks 1 thorough 12, respectively. The model will include fixed categorical effects for treatment, week, treatment by week interaction, and the baseline sleep score as a continuous covariate.||2.37|-2.92|0.8363
82589558|NCT04409353|164892464|OTHER||Odds Ratio (OR)|0.83||||0.514|TWO_SIDED|95.0|0.48|1.44||A two-sided test performed at the 0.05 level of significance.|Regression, Logistic||Sham VR as the reference group.|"Responder status (Yes vs. No) will be analyzed as the dependent variable using logistic regression, with terms for treatment groups and baseline PROMIS-PI as predictors. The null hypothesis is that there is no difference between the treatment groups, versus the alternative hypothesis that there a difference exists between the treatment groups."||1.44|0.48|0.514
82589559|NCT04409353|164892464|OTHER||Odds Ratio (OR)|1.35||||0.28|TWO_SIDED|95.0|0.78|2.36||A two-sided test performed at the 0.05 level of significance.|Regression, Logistic||Sham VR as the reference group.|"Responder status (Yes vs. No) will be analyzed as the dependent variable using logistic regression, with terms for treatment groups and baseline PROMIS-PI as predictors. The null hypothesis is that there is no difference between the treatment groups, versus the alternative hypothesis that there a difference exists between the treatment groups."||2.36|0.78|0.280
82589560|NCT02499770|164892475|OTHER||||||=|0.0097||||||The p-value was calculated using the stratified log-rank test to account for the baseline ECOG status (0-1 vs 2) as the stratification factor. Significance level was set as two-sided 0.2.|Stratified log-rank test|p-value calculated using stratified log-rank test with baseline ECOG status (0-1 vs 2) as stratification factor. Significance level was two-sided 0.2.||||||= 0.0097
82589561|NCT04667247|164892556|OTHER||ratio of frequencies|0.94||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82589562|NCT04667247|164892559|OTHER||ratio of frequencies|1.022||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82589563|NCT04667247|164892561|OTHER||ratio of frequencies|4.828||||0.061|TWO_SIDED||||||Chi-squared, Corrected|||||||0.061
82589564|NCT04667247|164892562|OTHER||ratio of frequencies|3.526||||0.1|TWO_SIDED||||||Chi-squared, Corrected|||||||.100
82589565|NCT04667247|164892563|OTHER||ratio of frequencies|0.005||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.000
82589566|NCT04667247|164892564|OTHER||ratio of frequencies|3.036||||0.162|TWO_SIDED||||||Chi-squared, Corrected|||||||.162
82589567|NCT04667247|164892566|OTHER||ratio of frequencies|0.151||||1|TWO_SIDED||||||Chi-squared, Corrected|||||||1.00
82589568|NCT04667247|164892567|SUPERIORITY||F value|1.908||||0.174|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.174
82589569|NCT04667247|164892568|SUPERIORITY||F value|0.038||||0.846|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.846
82589570|NCT04667247|164892569|SUPERIORITY||F value|0.041||||0.841|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||.841
82589571|NCT04667247|164892570|SUPERIORITY||F value|0.261||||0.612|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.612
82589572|NCT04667247|164892571|SUPERIORITY||F value|0.161||||0.69|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.690
82589573|NCT04667247|164892572|SUPERIORITY||F value|2.671||||0.109|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.109
82589574|NCT04667247|164892573|SUPERIORITY||F value|0.039||||0.844|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.844
82589575|NCT04667247|164892574|SUPERIORITY||F value|4.28||||0.044|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.044
82589576|NCT04667247|164892575|SUPERIORITY||F value|0.001||||0.989|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||.989
82589577|NCT04667247|164892576|SUPERIORITY||F value|7.186||||0.01|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.010
82589578|NCT04667247|164892577|SUPERIORITY||F value|0.345||||0.56|TWO_SIDED||||||Mixed Models Analysis||Group by Day interaction|||||.560
82589579|NCT04667247|164892578|SUPERIORITY||F value|0.143||||0.707|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.707
82589580|NCT04667247|164892579|SUPERIORITY||F value|0.09||||0.765|TWO_SIDED||||||Mixed Models Analysis||Day by Group interaction|||||0.765
82589581|NCT04667247|164892580|SUPERIORITY||F value|7.835||||0.005|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||0.005
82589582|NCT04667247|164892581|SUPERIORITY||F value|16.56|||<|0.001|TWO_SIDED||||||Mixed Models Analysis||day by group interaction|||||<0.001
82589583|NCT04124614|164892605|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-5.59||||0.0007|TWO_SIDED|95.0|-8.79|-2.38|||MMRM|||||-2.38|-8.79|0.0007
82589584|NCT04124614|164892606|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-0.47||||0.0019|TWO_SIDED|95.0|-0.76|-0.17|||MMRM|||||-0.17|-0.76|0.0019
82589585|NCT04124614|164892607|SUPERIORITY|MMRM method with model terms: treatment, (pooled) study center, previous pharmacological treatment intervention for PTSD (yes/no), visit, treatment by visit and baseline by visit interaction.|Treatment Difference|-12.03||||0.0016|TWO_SIDED|95.0|-19.44|-4.62|||MMRM|||||-4.62|-19.44|0.0016
82589586|NCT00523718|164892672|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED||||||Chi-squared|||||||.24
82589587|NCT01436071|164892685|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12||||0.012|TWO_SIDED|95.0|0.026|0.213|||ANCOVA|||||0.213|0.026|0.012
82589588|NCT00594516|164892695|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of (-2, 2). A prespecified equivalence margin of (-2,2) was used for equivalence analysis.|Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.09||||95.0|-0.09|0.28||||||Comparison of Tapentadol IR to ER analysis of variance model with factors for treatment, double blind cross-over period and subject.||0.28|-0.09|
82589589|NCT02462928|164892700|NON_INFERIORITY|For hypothesis testing, if the lower limit of 95.1% Confidence Interval (CI) for the difference between an abicipar group and ranibizumab was greater than or equal to -10%, non-inferiority of abicipar was established.|Percentage Difference|-3.8|||||TWO_SIDED|95.1|-8.2|0.3|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||0.3|-8.2|
82589590|NCT02462928|164892700|NON_INFERIORITY|For hypothesis testing, if the lower limit of 95.1% Confidence Interval (CI) for the difference between an abicipar group and ranibizumab was greater than or equal to -10%, non-inferiority of abicipar was established.|Percentage Difference|-4.2|||||TWO_SIDED|95.1|-8.7|0.0|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as stratification factor.|||0.0|-8.7|
82589591|NCT02462928|164892701|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|Least Squares (LS) Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.1|-4.7|-0.1|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||-0.1|-4.7|
82589592|NCT02462928|164892701|NON_INFERIORITY|For hypothesis testing, non-inferiority of abicipar is established if the lower limit of the CI is \> - 5.0 letters.|LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.1|-6.0|-1.3|||||MMRM included treatment, region, BL BCVA, BL CRT ≤400 or \>400, choroidal neovascularization lesion type, visit, visit-by-BL BCVA interaction, and treatment-by-visit interaction term as covariates using an unstructured covariance matrix.|||-1.3|-6.0|
82589593|NCT02462928|164892702|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|8.6|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.1|-3.8|20.9|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, CRT, choroidal neovascularization lesion type, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||20.9|-3.8|
82589594|NCT02462928|164892702|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|6.3|||TWO_SIDED|95.1|-10.1|14.7|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, CRT, choroidal neovascularization lesion type, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||14.7|-10.1|
82589595|NCT02462928|164892703|SUPERIORITY||Percentage Difference|-4.7|||||TWO_SIDED|95.1|-11.5|2.1|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||2.1|-11.5|
82589596|NCT02462928|164892703|SUPERIORITY||Percentage Difference|-8.2|||||TWO_SIDED|95.1|-14.7|-1.5|||||The 95.1% CI for the weighted difference were calculated based on the Newcombe method using the Cochran-Mantel-Haenszel weights and baseline BCVA (≤55 vs \>55 letters) as the stratification factor.|||-1.5|-14.7|
82589597|NCT02462928|164892704|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.1|-3.7|0.0|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, visual function questionnaire (VFQ) score, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||-0.0|-3.7|
82589598|NCT02462928|164892704|SUPERIORITY|Superiority of abicipar was demonstrated if the lower limit of CI for the treatment difference was greater than zero.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.9|||TWO_SIDED|95.1|-2.7|1.0|||||MMRM was used for analyses with covariates (treatment, region, baseline BCVA, visual function questionnaire (VFQ) score, visit, visit by baseline BCVA and treatment by visit interaction) with unstructured covariance matrix.|||1.0|-2.7|
82589599|NCT00702845|164892725|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence margins of -3 and +5 were applied for the difference in the mean number of oocytes between the treatment groups. Org 36286 treatment was considered equivalent to the reference treatment (recFSH) if the two-sided 95% confidence interval of the difference was between -3 and +5 oocytes.|Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED|95.0|1.2|3.9|||ANOVA|||||3.9|1.2|<0.001
82589600|NCT02973425|164892751|OTHER||Cox Proportional Hazard|1.68||||0.02|TWO_SIDED|95.0|1.09|2.6|||Regression, Cox|||The primary hypothesis was tested through a time-to-event analysis implemented using Cox proportional hazards models||2.60|1.09|0.02
82589601|NCT02973425|164892752|OTHER||Linear regression|0.03||||0.03|TWO_SIDED|95.0|||||Regression, Linear|||For hypothesis 3, we compared the mean score on the SEQ-12 and its subscales at 6 months, adjusting for baseline.||||0.03
82589602|NCT02973425|164892753|OTHER|Six-month OR, 95%CI, and P value were calculated from generalized estimating equation marginal models with a logit link and an exchangeable correlation matrix.|Odds Ratio (OR)|1.92||||0.048|TWO_SIDED|95.0|1.01|3.68||Analysis models were adjusted by study site, having quit attempts in the past 12 months measured at baseline, cigarettes per day measured at baseline, quit attempts in the past 12 months measured at baseline.|Chi-squared|||||3.68|1.01|0.048
82589603|NCT02973425|164892754|OTHER||Odds Ratio (OR)|2.01||||0.01|TWO_SIDED|95.0|||||Regression, Linear|||During the first 3 weeks from randomization, both the Take a Break and comparison groups reported the number of cigarettes smoked daily (by texting); texting response rate (responded on at least 1 day).||||0.01
82589604|NCT00813319|164892766|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||This comparison is for participants in the Girls OnGuard/HPV Awareness condition compared to the General Health Promotion condition||||>.05
82589605|NCT00813319|164892767|SUPERIORITY_OR_OTHER||||||=|0.52|||||||Chi-squared|||||||=.52
82589606|NCT00813319|164892768|SUPERIORITY_OR_OTHER||||||=|0.12|||||||Chi-squared|Degrees of freedom = 2||This comparison is for total doses received (26 in Girls OnGuard/HPV Awareness condition compared to 17 in General Health Promotion condition)||||=.12
82589607|NCT03503513|164892769|SUPERIORITY||Risk Ratio (RR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.03|0.2|||differences in incidence rate ratio|An incidence rate ratio per person/month was determined by comparing the total number of UTIs in relation to time points.||comparison between pre and during treatment rates of UTI||0.20|0.03|<0.0001
82589608|NCT03503513|164892770|SUPERIORITY||Mean Difference (Final Values)|-3.8|STANDARD_DEVIATION|6.13|<|0.06|TWO_SIDED|95.0|-7.9|0.3||a priori threshold p value of \<0.05|t-test, 2 sided||Baseline to end of 6 month treatment score comparisons; (higher numbers represent more symptoms or complications)|NBSS Domain score for incontinence pre-post comparison; small sample size did not allow for power calculation.||0.3|-7.9|<0.06
82589609|NCT03503513|164892770|SUPERIORITY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|4.09|<|0.39|TWO_SIDED|95.0|-3.8|1.7||a priori threshold p\<0.05|t-test, 2 sided||(higher numbers represent more symptoms or complications)|NBSS Domain score for storage and voiding; pre-post comparison. Due to small sample size (n=11) no power calculations were conducted.||1.7|-3.8|<0.39
82589610|NCT03503513|164892770|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|3.99|<|0.14|TWO_SIDED|95.0|-4.6|0.8|||t-test, 2 sided||Higher numbers represent more symptoms or complications referred as consequences.|Pre and post test comparisons of mean NBSS scores for the consequences domain. Power calculations were not conducted due to small sample size.||0.8|-4.6|<0.14
82589611|NCT03503513|164892771|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|6.99|<|0.34|TWO_SIDED|95.0|-6.8|2.6|||t-test, 2 sided|||||2.6|-6.8|<0.34
82589612|NCT03829241|164892887|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.7||0.917|TWO_SIDED|95.0|-1.45|1.3|||Mixed Models Analysis|||Model-based summary statistics are from a mixed model with repeated measures, including fixed effects for treatment, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction as covariates, and participant as random effect.||1.30|-1.45|0.917
82589613|NCT00129623|164892900|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.1226|||<|0.0001|TWO_SIDED|95.0|2.9613|5.2838||The primary analysis was an ANOVA (two way classification), including treatment group and time since menopause (as a binary variable; 0.5-3 years, \>3 years) as independent factors.|ANOVA|||"H0 (null hypothesis): There was no statistically significant difference between monthly treatment with 150 mg oral IBN and monthly treatment with placebo in relative change from baseline of mean lumbar spine (L2-L4 BMD).~H1 (alternative hypothesis): There was a statistically significant difference between monthly treatment with 150 mg oral IBN and monthly treatment with placebo in relative change from baseline of mean lumbar spine (L2-L4 BMD)."||5.2838|2.9613|<0.0001
82589614|NCT00129623|164892906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.51|||||TWO_SIDED|95.0|5.12|30.56||||||Lumbar BMD: Adjusted treatment effect - The treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable and the treatment group (oral IBN 150 mg/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||30.56|5.12|
82589615|NCT00129623|164892906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.59|||||TWO_SIDED|95.0|3.8|19.42||||||Proximal femur BMD: The adjusted treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable and the treatment group (oral IBN 150 mg once monthly/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||19.42|3.80|
82589616|NCT00129623|164892906|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.8|||||TWO_SIDED|95.0|5.17|36.79||||||Lumbar Spine and Proximal Femur BMD: The adjusted treatment effect and 95% C.I. were represented by presenting OR. These were estimated by fitting a logistic regression model, with responder outcome (responder/non-responder) as the dependent variable, and treatment group (oral IBN150 mg/Placebo) and time since menopause as the independent variables. An OR of \>1 indicated participants treated with IBN were more likely to have BMD above or equal to baseline relative to those treated with placebo.||36.79|5.17|
82589617|NCT05178134|164892909|NON_INFERIORITY|Non-inferiority margin was set to -15% (on an absolute scale)|Difference in response rates|-0.02|||||TWO_SIDED|95.0|-0.108|0.069||||||||0.069|-0.108|
82589618|NCT00056862|164892922|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||Null hypothesis: first phase decline in HCV RNA are the same for the two groups||||0.002
82653410|NCT01463683|165022113|NON_INFERIORITY_OR_EQUIVALENCE|Incidence of seroprotection with V232-2XP SC is non-inferior to V232-1XP SC if the lower bound of the 95% confidence interval of the difference is greater than -10%|Difference in percentage of participants|7.6|||||TWO_SIDED|95.0|1.9|13.6|||Miettinen & Nurminen|||||13.6|1.9|
82653411|NCT01463683|165022114|SUPERIORITY_OR_OTHER||Difference in percentage of participants|4.9||||0.162|TWO_SIDED|95.0|-2.0|11.9|||Miettinen & Nurminen|||||11.9|-2.0|0.162
82589619|NCT00056862|164892924|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Null hypothesis: the second phase slopes of HCV RNA are the same for the two groups||||0.2
82589620|NCT00056862|164892925|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|95.0|||||Log Rank|||Null hypothesis: the time to negativity for the two groups are same||||0.047
82589621|NCT01294150|164892942|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||Assuming unequal variances comparing mean improvement in the UL group to 125% of the mean improvement in the Control group. A p-value of 0.025 or less associated with UL is considered evidence of statistical significance|t-test, 2 sided|||||||0.003
82589622|NCT03684642|164892948|NON_INFERIORITY|Non-inferiority of Efpeglenatide vs. Dulaglutide was demonstrated if the upper bound of the two-sided 95% confidence interval (CI) for the difference between groups was \<=0.3%.|Least Square (LS) Mean difference|-0.03|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.2|0.14||||||A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using ANCOVA model with the treatment groups, randomization strata, and geographical region as fixed classification effects, and baseline HbA1c value as a continuous covariate.||0.14|-0.20|
82653412|NCT01463683|165022114|SUPERIORITY_OR_OTHER||Difference in percentage of participants|11.0||||0.028|TWO_SIDED|95.0|1.1|21.6|||Miettinen & Nurminen|||||21.6|1.1|0.028
82653413|NCT01463683|165022114|SUPERIORITY_OR_OTHER||Difference in percentage of participants|6.0||||0.246|TWO_SIDED|95.0|-4.0|16.8|||Miettinen & Nurminen|||||16.8|-4.0|0.246
82653414|NCT01463683|165022115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.7||||0.659|TWO_SIDED|95.0|-3.8|2.4|||Miettinen & Nurminen|||||2.4|-3.8|0.659
82653415|NCT01463683|165022115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-1.6||||0.459|TWO_SIDED|95.0|-7.7|2.2|||Miettinen & Nurminen|||||2.2|-7.7|0.459
82589623|NCT03684642|164892948|NON_INFERIORITY|Non-inferiority of Efpeglenatide vs. Dulaglutide was demonstrated if the upper bound of the two-sided 95% CI for the difference between groups was \<=0.3%.|LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|95.0|-0.25|0.09||||||A hierarchical step-down testing procedure was used to control type 1 error. Analysis was performed using ANCOVA model with the treatment groups, randomization strata, and geographical region as fixed classification effects, and baseline HbA1c value as a continuous covariate.||0.09|-0.25|
82589624|NCT03684642|164892948|SUPERIORITY|||||||0.7064||||||Threshold for significance at the level of 0.05.|ANCOVA|||||||0.7064
82589625|NCT03684642|164892948|SUPERIORITY|||||||0.3427||||||Threshold for significance at the level of 0.05.|ANCOVA|||||||0.3427
82589626|NCT00223678|164893013|SUPERIORITY_OR_OTHER|||||||0.849|||||||Log Rank|||||||0.849
82589627|NCT03739437|164893018|SUPERIORITY|||||||0.384|||||||Chi-squared|||||||0.384
82589628|NCT05390580|164893045|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.24
82589629|NCT05390580|164893046|SUPERIORITY|||||||0.0001|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.0001
82589630|NCT05390580|164893047|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.26
82589631|NCT05390580|164893048|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; quadratic time terms captured U-shaped cytokine/WBC patterns. Interaction p-values tested trajectory differences between taVNS and sham.||||0.14
82589632|NCT05390580|164893050|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|||Repeated measures were analyzed with longitudinal mixed-effects models (FDA guidance), using subject as a random effect. This accounted for irregular timing, missing data, and time-varying covariates. Models included treatment, time since last known normal, and their interaction; linearly for in-hospital NIHSS scores based on panel data plots. Interaction terms were utilized to delineate differences amongst trajectories of the outcome of interest.||||0.69
82589633|NCT05390580|164893051|SUPERIORITY|||||||0.48|||||||Mixed Models Analysis|||Estimated using a mixed model that includes a random effect for person, based on actual day of the mRS, 90 day assessment. Restricted to participants who survived to an mRS assessment for day 90 , leaving 14 participants (28 mRS scores) in the treatment group and 17 participants (34 mRS scores) in the sham group.||||0.48
82589634|NCT05390580|164893052|EQUIVALENCE|Here we were testing if there were any safety differences based on treatment. This was a pilot exploratory trial, for which we may be underpowered.||||||0.49|||||||Regression, Logistic|||To assess our dichotomous safety endpoints, we used logistic regression models constructed to assess differences in hypotension.||||0.49
82589635|NCT05390580|164893053|EQUIVALENCE|Here we were testing if there were any safety differences based on treatment. This was a pilot exploratory trial, for which we may be underpowered.||||||0.66|||||||Regression, Logistic|||To assess our dichotomous safety endpoints, we used logistic regression models constructed to assess differences in bradycardia.||||0.66
82589636|NCT05315947|164893072|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for Cmax was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.87|||||TWO_SIDED|90.0|0.7814|0.9686||||||||0.9686|0.7814|
82589637|NCT05315947|164893073|EQUIVALENCE|Bioequivalence between the BRV tablet (reference) and BRV dry syrup (test) formulations were concluded if the 90% CI limits for AUC(0-t) was within the 0.80 to 1.25 range.|Ratio of Dry Syrup/ Tablet|0.989|||||TWO_SIDED|90.0|0.9756|1.003||||||||1.003|0.9756|
82589638|NCT03610165|164893093|SUPERIORITY||Median Difference (Final Values)|0.0||||0.757|TWO_SIDED|95.0|-0.03|0.04|||Wilcoxon (Mann-Whitney)|||||0.04|-0.03|0.757
82589639|NCT03610165|164893094|SUPERIORITY||Median Difference (Final Values)|-1.3||||0.715|TWO_SIDED|95.0|-12.0|7.0|||Wilcoxon (Mann-Whitney)|||||7|-12|0.715
82589640|NCT03610165|164893095|SUPERIORITY||Median Difference (Final Values)|-1.0||||0.328|TWO_SIDED|95.0|-3.3|1.0|||Wilcoxon (Mann-Whitney)|||||1|-3.3|0.328
82589641|NCT03610165|164893096|SUPERIORITY||Median Difference (Final Values)|0.0||||0.376|TWO_SIDED|95.0|-0.001|0.011|||Wilcoxon (Mann-Whitney)|||||0.011|-0.001|0.376
82589642|NCT03610165|164893097|SUPERIORITY||Median Difference (Final Values)|0.0||||0.226|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.226
82589643|NCT03610165|164893098|SUPERIORITY||Median Difference (Final Values)|0.0||||0.61|TWO_SIDED|95.0|-0.67|2.0|||Wilcoxon (Mann-Whitney)|||||2.00|-0.67|0.610
82589644|NCT03610165|164893099|SUPERIORITY||Median Difference (Final Values)|0.0||||0.302|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.302
82589645|NCT03610165|164893100|SUPERIORITY||Median Difference (Final Values)|0.0||||0.889|TWO_SIDED|95.0|-0.67|0.67|||Wilcoxon (Mann-Whitney)|||||0.67|-0.67|0.889
82589646|NCT03610165|164893101|SUPERIORITY||Median Difference (Final Values)|0.0||||0.403|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.403
82589647|NCT00315939|164893141|SUPERIORITY_OR_OTHER||||||=|0.001|||||||ANOVA|||||||=0.001
82589648|NCT00789867|164893143|OTHER|||||||0.0002|||||||Kruskal-Wallis|||||||0.0002
82589649|NCT00789867|164893144|OTHER|||||||0.22|||||||Kruskal-Wallis|||||||0.22
82589650|NCT00789867|164893145|OTHER|||||||0.06|||||||Kruskal-Wallis|||||||0.06
82589651|NCT00789867|164893146|OTHER|||||||0.08|||||||Kruskal-Wallis|||||||0.08
82589652|NCT00789867|164893147|OTHER|||||||0.22|||||||Kruskal-Wallis|||||||0.22
82589653|NCT00789867|164893148|OTHER|||||||0.003|||||||Kruskal-Wallis|||||||0.003
82589654|NCT01493557|164893152|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.31||||0.2554|TWO_SIDED|95.0|-6.54|29.49|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||29.49|-6.54|0.2554
82589655|NCT01493557|164893153|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1||||0.3165|TWO_SIDED|95.0|-11.24|24.58|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||24.58|-11.24|0.3165
82589656|NCT01493557|164893154|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.41||||0.0273|TWO_SIDED|95.0|0.71|35.98|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||35.98|0.71|0.0273
82589657|NCT01493557|164893155|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52||||0.7104|TWO_SIDED|95.0|-44.22|28.4|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||28.40|-44.22|0.7104
82589658|NCT01493557|164893156|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.81||||1|TWO_SIDED|95.0|-32.94|40.44|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||40.44|-32.94|1.0000
82589659|NCT01493557|164893157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.71||||1|TWO_SIDED|95.0|-41.25|28.77|||Fisher Exact||Exact 95% Confidence interval (CI) and the difference between the two strategies were calculated using the Clopper Pearson approach.|Evaluation of GIS was based on Last observation carried forward (LOCF) data up to the last observed time or up to adding the second management strategy.||28.77|-41.25|1.0000
82589660|NCT01493557|164893161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-9.9|8.9|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for the Duration of gastrointestinal symptoms (GIS).||8.9|-9.9|
82589661|NCT01493557|164893161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-3.5|6.3|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for Time to first complete effectiveness. Complete effectiveness of a gastrointestinal symptoms (GIS) management strategy can only be measured at a point in time. Because the same or a different GIS could occur after a time of effective GIS management, the patients who indicated some degree of effectiveness at one visit may not be the same patients who experience effectiveness at a subsequent visit.||6.3|-3.5|
82589662|NCT01493557|164893161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.2|||||TWO_SIDED|95.0|-8.2|48.5|||||Mean difference = (Mean number of days for Pradaxa w/meal) - (Mean number of days for pantoprazole).|Mean difference for Time to first complete effectiveness. Partial effectiveness of a gastrointestinal symptoms (GIS) management strategy can only be measured at a point in time. Because the same or a different GIS could occur after a time of effective GIS management, the patients who indicated some degree of effectiveness at one visit may not be the same patients who experience effectiveness at a subsequent visit.||48.5|-8.2|
82589663|NCT02137512|164893210|SUPERIORITY|No adjustments were made for multiple comparisons.|||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82653416|NCT01463683|165022115|SUPERIORITY_OR_OTHER||Difference in percentage of participants|-0.9||||0.686|TWO_SIDED|95.0|-7.1|3.0|||Miettinen & Nurminen|||||3.0|-7.1|0.686
82589664|NCT02137512|164893210|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589665|NCT02137512|164893210|SUPERIORITY|||||||0.31||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.31
82589666|NCT02137512|164893211|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
82589667|NCT02137512|164893211|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589668|NCT02137512|164893211|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589669|NCT02137512|164893212|SUPERIORITY|||||||0.1||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.10
82589670|NCT02137512|164893212|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589671|NCT02137512|164893212|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589672|NCT02137512|164893213|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589673|NCT02137512|164893213|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589674|NCT02137512|164893213|SUPERIORITY|||||||0.91||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.91
82589675|NCT02137512|164893214|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589676|NCT02137512|164893214|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589677|NCT02137512|164893214|SUPERIORITY|||||||0.2||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.20
82589678|NCT02137512|164893215|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
82589679|NCT02137512|164893215|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589680|NCT02137512|164893215|SUPERIORITY|||||||0.49||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.49
82589681|NCT02137512|164893216|SUPERIORITY|||||||0.009||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.009
82589682|NCT02137512|164893216|SUPERIORITY|||||||0.14||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.14
82653417|NCT05328375|165022129|OTHER||Mean|0.91|||||ONE_SIDED|95.0|0.62||||||The estimate is based on the number of participants enrolled per month over the 11-month recruitment period of the trial. A 1-sided 95% lower confidence limit was computed.||||0.62|
82589683|NCT02137512|164893216|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
82589684|NCT02137512|164893217|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
82589685|NCT02137512|164893217|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
82589686|NCT02137512|164893217|SUPERIORITY|||||||0.18||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.18
82589687|NCT02137512|164893218|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
82589688|NCT02137512|164893218|SUPERIORITY|||||||0.54||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.54
82589689|NCT02137512|164893218|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
82589690|NCT02137512|164893219|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
82589691|NCT02137512|164893219|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82653418|NCT05328375|165022130|OTHER||Mean|0.87|||||ONE_SIDED|95.0|0.66||||||The estimate is based on the mean proportion of cardiac rehabilitation sessions completed by THCR participants. A 1-sided 95% lower confidence limit was computed.||||0.66|
82589692|NCT02137512|164893219|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589693|NCT02137512|164893220|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589694|NCT02137512|164893220|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589695|NCT02137512|164893220|SUPERIORITY|||||||0.52||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.52
82589696|NCT02137512|164893221|SUPERIORITY|||||||0.13||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.13
82589697|NCT02137512|164893221|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589698|NCT02137512|164893221|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589699|NCT02137512|164893222|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589700|NCT02137512|164893222|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589701|NCT02137512|164893222|SUPERIORITY|||||||0.41||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.41
82589702|NCT02137512|164893223|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589703|NCT02137512|164893223|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589704|NCT02137512|164893223|SUPERIORITY|||||||0.12||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.12
82589705|NCT02137512|164893224|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589706|NCT02137512|164893224|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589707|NCT02137512|164893224|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
82589708|NCT02137512|164893225|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589709|NCT02137512|164893225|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
82589710|NCT02137512|164893225|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
82589711|NCT02137512|164893226|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589712|NCT02137512|164893226|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589713|NCT02137512|164893226|SUPERIORITY|||||||0.11||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.11
82589714|NCT02137512|164893227|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589715|NCT02137512|164893227|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589716|NCT02137512|164893227|SUPERIORITY|||||||0.61||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.61
82589717|NCT02137512|164893228|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589718|NCT02137512|164893228|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589719|NCT02137512|164893228|SUPERIORITY|||||||0.29||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.29
82589720|NCT02137512|164893229|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589721|NCT02137512|164893229|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
82589722|NCT02137512|164893229|SUPERIORITY||||||>|0.99||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||>0.99
82589723|NCT02137512|164893230|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82589724|NCT02137512|164893230|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589725|NCT02137512|164893230|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
82653419|NCT05328375|165022131|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||The estimate is based on the proportion of participants in the Telehealth-enhanced Hybrid CR arm who attended at least one cardiac rehabilitation session after randomization. A 1-sided 95% lower confidence limit was computed.||||0.55|
82653420|NCT05328375|165022131|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||The estimate is based on the proportion of participants in the Traditional CR arm who attended at least one cardiac rehabilitation session after randomization. A 1-sided 95% lower confidence limit was computed.||||0.55|
82653421|NCT05328375|165022132|OTHER||Mean|0.69|||||ONE_SIDED|95.0|0.4||||||The estimate is based on the mean proportion of cardiac rehabilitation sessions completed by participants in the Traditional CR arm. A 1-sided 95% lower confidence limit was computed.||||0.40|
82653422|NCT05328375|165022133|OTHER||Proportion|1.0|||||ONE_SIDED|95.0|0.55||||||Adequate feasibility was defined as a mean score ≥4 across four post-program items. A 1-sided 95% lower confidence limit was calculated.||||0.55|
82653423|NCT00101582|165022183|SUPERIORITY_OR_OTHER||Chi-Square Statistic|4.1764||||0.041||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants having no assessment were assumed as having WHO grade 3 or 4 oral mucositis in hypothesis testing.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||Sample size calculations were based on the number of participants needed to detect, with 90% power and 5% type 1 error rate, at least a 25% difference in the incidence of severe OM between the treatment groups. A 25% absolute reduction in the incidence of severe OM from the placebo group was considered by investigators as clinically meaningful in this clinical setting.||||0.0410
82653424|NCT00101582|165022184|SUPERIORITY_OR_OTHER||Chi-Square Statistic|5.8002||||0.016||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0160
82653425|NCT00101582|165022184|SUPERIORITY_OR_OTHER|||||||0.1122||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||To protect the overall type 1 error, the Hochberg procedure was used to adjust for multiple statistical testing of the secondary efficacy endpoints.||||0.1122
82653426|NCT00101582|165022185|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6603||||0.0261|TWO_SIDED|95.0|0.4546|0.9592|||Stratified Log-Rank test|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).|Hazard ratio of palifermin over placebo based on Stratified Cox proportional hazard model.|||0.9592|0.4546|0.0261
82653427|NCT00101582|165022185|SUPERIORITY_OR_OTHER|||||||0.1566||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Stratified Log-Rank test|||||||0.1566
82653428|NCT00101582|165022186|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.9715||||0.0463||95.0||||Generalized Cochran-Mantel-Haenszel test for general association. Participants having no assessment were assumed to have the event.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0463
82653429|NCT00101582|165022186|SUPERIORITY_OR_OTHER|||||||0.2314||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.2314
82499943|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|||||TWO_SIDED|95.0|-55.9|16.9|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||16.9|-55.9|
82653430|NCT00101582|165022187|SUPERIORITY_OR_OTHER||Chi-Square Statistic|3.2548||||0.0712||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.0712
82653431|NCT00101582|165022187|SUPERIORITY_OR_OTHER|||||||0.2849||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.2849
82653432|NCT00101582|165022188|SUPERIORITY_OR_OTHER||Chi-Square Statistic|1.3901||||0.2384||95.0||||Generalized Cochran-Mantel-Haenszel test for mean score difference using modified ridit score.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.2384
82653433|NCT00101582|165022188|SUPERIORITY_OR_OTHER|||||||0.6835||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.6835
82653434|NCT00101582|165022189|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.9039||||0.3417||95.0||||Generalized Cochran-Mantel-Haenszel test for general association|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.3417
82653435|NCT00101582|165022189|SUPERIORITY_OR_OTHER|||||||0.6835||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.6835
82653436|NCT00101582|165022190|SUPERIORITY_OR_OTHER||Chi-Square Statistic|0.0027||||0.9587||95.0||||Generalized Cochran-Mantel-Haenszel test for general association.|Cochran-Mantel-Haenszel|Stratified by disease stage (III versus IV) and primary anatomical tumor location (oral cavity / oropharynx vs. nasopharynx vs. hypopharynx / larynx).||||||0.9587
82653437|NCT00101582|165022190|SUPERIORITY_OR_OTHER|||||||0.9587||95.0||||Adjusted p-value was based on Hochberg procedure to control for the Type 1 error.|Cochran-Mantel-Haenszel|||||||0.9587
82653438|NCT01919190|165022191|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.8|TWO_SIDED||||||ANCOVA|||||||>0.8
82653439|NCT01919190|165022192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0456|TWO_SIDED||||||Mixed Models Analysis|||||||0.0456
82653440|NCT01893905|165022197|SUPERIORITY_OR_OTHER||||||<|0.0307|||||||Pocock approach|||||||<0.0307
82653441|NCT03093324|165022213|SUPERIORITY||Rate ratio|0.542||||0.0003|TWO_SIDED|95.0|0.39|0.754|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.754|0.390|0.0003
82653442|NCT03093324|165022214|SUPERIORITY||Rate ratio|0.52||||0.0007|TWO_SIDED|95.0|0.356|0.76|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.760|0.356|0.0007
82653443|NCT03093324|165022215|SUPERIORITY||Rate ratio|0.714||||0.009|TWO_SIDED|95.0|0.554|0.921|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.921|0.554|0.009
82589726|NCT02137512|164893231|SUPERIORITY|||||||0.002||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.002
82589727|NCT02137512|164893231|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589728|NCT02137512|164893231|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589729|NCT02137512|164893232|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589730|NCT02137512|164893232|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589731|NCT02137512|164893232|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
82589732|NCT02137512|164893233|SUPERIORITY|||||||0.04||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.04
82589733|NCT02137512|164893233|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589734|NCT02137512|164893233|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589735|NCT02137512|164893234|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82490787|NCT02713204|164675028|SUPERIORITY||Least square mean difference|21.05||||0.279|TWO_SIDED|95.0|-17.13|59.22||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||59.22|-17.13|0.2790
82589736|NCT02137512|164893234|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589737|NCT02137512|164893234|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589738|NCT02137512|164893235|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 1 sided|||||||<0.001
82589739|NCT02137512|164893235|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589740|NCT02137512|164893235|SUPERIORITY|||||||0.53||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.53
82589741|NCT02137512|164893236|SUPERIORITY|||||||0.05||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.05
82589742|NCT02137512|164893236|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589743|NCT02137512|164893236|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589744|NCT02137512|164893237|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589745|NCT02137512|164893237|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589746|NCT02137512|164893237|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589747|NCT02137512|164893238|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589748|NCT02137512|164893238|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589749|NCT02137512|164893238|SUPERIORITY|||||||0.22||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.22
82589750|NCT02137512|164893239|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
82589751|NCT02137512|164893239|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589752|NCT02137512|164893239|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589753|NCT02137512|164893240|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589754|NCT02137512|164893240|SUPERIORITY|||||||0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.001
82589755|NCT02137512|164893240|SUPERIORITY|||||||0.26||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.26
82589756|NCT02137512|164893241|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589757|NCT02137512|164893241|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589758|NCT02137512|164893241|SUPERIORITY|||||||0.05||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.05
82589759|NCT02137512|164893242|SUPERIORITY|||||||0.03||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.03
82589760|NCT02137512|164893242|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589761|NCT02137512|164893242|SUPERIORITY|||||||0.52||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.52
82589762|NCT02137512|164893243|SUPERIORITY|||||||0.003||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.003
82589763|NCT02137512|164893243|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589764|NCT02137512|164893243|SUPERIORITY|||||||0.71||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.71
82589765|NCT02137512|164893244|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589766|NCT02137512|164893244|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589767|NCT02137512|164893244|SUPERIORITY|||||||0.39||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.39
82589768|NCT02137512|164893245|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589769|NCT02137512|164893245|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589770|NCT02137512|164893245|SUPERIORITY|||||||0.06||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.06
82589771|NCT02137512|164893246|SUPERIORITY|||||||0.02||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.02
82589772|NCT02137512|164893246|SUPERIORITY|||||||0.003||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.003
82589773|NCT02137512|164893246|SUPERIORITY|||||||0.86||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.86
82589774|NCT02137512|164893247|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589775|NCT02137512|164893247|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589776|NCT02137512|164893247|SUPERIORITY|||||||0.74||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.74
82589777|NCT02137512|164893248|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589778|NCT02137512|164893248|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589779|NCT02137512|164893248|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
82589780|NCT02137512|164893249|SUPERIORITY|||||||0.07||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.07
82589781|NCT02137512|164893249|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82589782|NCT02137512|164893249|SUPERIORITY|||||||0.68||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.68
82589783|NCT02137512|164893250|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82589784|NCT02137512|164893250|SUPERIORITY|||||||0.005||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.005
82589785|NCT02137512|164893250|SUPERIORITY|||||||0.62||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.62
82589786|NCT02137512|164893251|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589787|NCT02137512|164893251|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82589788|NCT02137512|164893251|SUPERIORITY|||||||0.23||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.23
82589789|NCT02137512|164893252|SUPERIORITY|||||||0.67||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.67
82589790|NCT02137512|164893252|SUPERIORITY|||||||0.09||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.09
82589791|NCT02137512|164893252|SUPERIORITY|||||||0.22||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.22
82589792|NCT02137512|164893253|SUPERIORITY|||||||0.25||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.25
82589793|NCT02137512|164893254|SUPERIORITY|||||||0.23||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.23
82589794|NCT02137512|164893255|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589795|NCT02137512|164893256|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589796|NCT02137512|164893257|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589797|NCT02137512|164893258|SUPERIORITY||||||<|0.001||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||<0.001
82589798|NCT02137512|164893259|SUPERIORITY|||||||0.01||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.01
82589799|NCT02137512|164893260|SUPERIORITY|||||||0.006||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.006
82589800|NCT02137512|164893261|SUPERIORITY|||||||0.14||||||No adjustments were made for multiple comparisons.|t-test, 2 sided|||||||0.14
82589801|NCT01920594|164893266|SUPERIORITY||Mean Difference (Final Values)|2228.14||||0.082|TWO_SIDED|95.0|-292.84|4749.11|||ANCOVA||The point estimate was calculated as least square (LS) mean difference (final values) of S-100B Protein \[test\] and S-100B Protein \[reference\].|||4749.11|-292.84|0.0820
82589802|NCT01920594|164893267|SUPERIORITY||Mean Difference (Final Values)|777.95||||0.1997|TWO_SIDED|95.0|-424.04|1979.94|||ANCOVA||The point estimate was calculated as LS mean difference (final values) of GFAP \[test\] and GFAP \[reference\].|||1979.94|-424.04|0.1997
82589803|NCT01920594|164893273|SUPERIORITY||Estimate of comparison (Ratio)|1.77||||0.153|TWO_SIDED|95.0|0.8|3.9|||ANOVA||The point estimate was calculated as Geometric mean ratio of S-100B\[test\] and S-100B\[reference\].|||3.90|0.80|0.1530
82589804|NCT01920594|164893274|SUPERIORITY||Estimate of comparison (Ratio)|3.13||||0.1377|TWO_SIDED|95.0|0.69|14.26|||ANOVA||The point estimate was calculated as Geometric mean ratio of GFAP\[test\] and GFAP\[reference\].|||14.26|0.69|0.1377
82589805|NCT01920594|164893275|SUPERIORITY||Mean Difference (Final Values)|34.56|||<|0.0001|TWO_SIDED|95.0|21.95|47.17|||ANCOVA||The point estimate was calculated as LS mean difference final values of Erythropoietin\[test\] and Erythropoietin\[reference\].|||47.17|21.95|<.0001
82589806|NCT01920594|164893276|SUPERIORITY||Mean Difference (Final Values)|0.54||||0.2404|TWO_SIDED|95.0|-0.37|1.45|||ANCOVA||The point estimate was calculated as LS mean difference final values of Lactate Dehydrogenase\[test\] and Lactate Dehydrogenase\[reference\].|||1.45|-0.37|0.2404
82589807|NCT01920594|164893277|SUPERIORITY||Mean Difference (Final Values)|925.88||||0.0526|TWO_SIDED|95.0|-10.73|1862.49|||ANCOVA||The point estimate was calculated as LS mean difference final values of Tau Protein\[test\] and Tau Protein\[reference\].|||1862.49|-10.73|0.0526
82589808|NCT01920594|164893278|SUPERIORITY||Mean Difference (Final Values)|4.11||||0.0893|TWO_SIDED|95.0|-0.65|8.87|||ANCOVA||The point estimate was calculated as LS mean difference final values of Neuron Specific Enolase\[test\] and Neuron Specific Enolase\[reference\].|||8.87|-0.65|0.0893
82589809|NCT01920594|164893283|SUPERIORITY||Ratio of geometric mean|1.84||||0.5012|TWO_SIDED|95.0|0.3|11.32|||ANOVA|||For Troponin I||11.32|0.30|0.5012
82589810|NCT01920594|164893283|SUPERIORITY||Ratio of geometric mean|0.75||||0.8053|TWO_SIDED|95.0|0.07|8.57|||ANOVA|||For Troponin T||8.57|0.07|0.8053
82589811|NCT01448213|164893295|SUPERIORITY_OR_OTHER|||||||0.17|||||||Log Rank|||||||0.17
82589812|NCT01448213|164893296|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Log Rank|||||||0.0005
82589813|NCT02012296|164893297|SUPERIORITY|||||||0.83|||||||Log Rank|||||||0.83
82589814|NCT02012296|164893298|SUPERIORITY|||||||0.21|||||||Log Rank|||||||0.21
82589815|NCT02012296|164893301|SUPERIORITY|||||||0.0012|||||||t-test, 2 sided|||||||0.0012
82589816|NCT02012296|164893302|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82589817|NCT02012296|164893303|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82589818|NCT02953639|164893348|SUPERIORITY||Treatment Difference|-0.36||||0.73|TWO_SIDED|90.0|-2.11|1.38|||Mixed Models Analysis|||Week 12 Day 84||1.38|-2.11|0.730
82653444|NCT03093324|165022216|SUPERIORITY||Rate ratio|0.555||||0.009|TWO_SIDED|95.0|0.357|0.862|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.862|0.357|0.009
82589819|NCT02953639|164893348|SUPERIORITY||Treatment Difference|0.28||||0.793|TWO_SIDED|90.0|-1.47|2.02|||Mixed Models Analysis|||Week 24 Day 168||2.02|-1.47|0.793
82589820|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.91||||0.556|TWO_SIDED|90.0|-3.46|1.64|||Mixed Models Analysis|||Week 12 Day 84 (Attention/Vigilance)||1.64|-3.46|0.556
82589821|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.27||||0.848|TWO_SIDED|90.0|-2.59|2.05|||Mixed Models Analysis|||Week 24 Day 168 (Attention/Vigilance)||2.05|-2.59|0.848
82589822|NCT02953639|164893349|SUPERIORITY||Treatment Difference|0.04||||0.973|TWO_SIDED|90.0|-2.08|2.16|||Mixed Models Analysis|||Week 12 Day 84 (Reasoning and Problem Solving)||2.16|-2.08|0.973
82589823|NCT02953639|164893349|SUPERIORITY||Treatment Difference|0.57||||0.651|TWO_SIDED|90.0|-1.53|2.67|||Mixed Models Analysis|||Week 24 Day 168 (Reasoning and Problem Solving)||2.67|-1.53|0.651
82589824|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-1.44||||0.35|TWO_SIDED|90.0|-3.89|1.08|||Mixed Models Analysis|||Week 12 Day 84 (Social Cognition)||1.08|-3.89|0.350
82589825|NCT02953639|164893349|SUPERIORITY||Treatment Difference|2.18||||0.121|TWO_SIDED|90.0|-0.14|4.5|||Mixed Models Analysis|||Week 24 Day 168 (Social Cognition)||4.50|-0.14|0.121
82589826|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.13||||0.911|TWO_SIDED|90.0|-2.1|1.83|||Mixed Models Analysis|||Week 12 Day 84 (Speed of Processing)||1.83|-2.10|0.911
82589827|NCT02953639|164893349|SUPERIORITY||Treatment Difference|0.02||||0.987|TWO_SIDED|90.0|-1.99|2.03|||Mixed Models Analysis|||Week 24 Day 168 (Speed of Processing)||2.03|-1.99|0.987
82589828|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.34||||0.803|TWO_SIDED|90.0|-2.62|1.93|||Mixed Models Analysis|||Week 12 Day 84 (Verbal Learning)||1.93|-2.62|0.803
82589829|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.94||||0.502|TWO_SIDED|90.0|-3.26|1.38|||Mixed Models Analysis|||Week 24 Day 168 (Verbal Learning)||1.38|-3.26|0.502
82589830|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.11||||0.945|TWO_SIDED|90.0|-2.74|2.52|||Mixed Models Analysis|||Week 12 Day 84 (Visual Learning)||2.52|-2.74|0.945
82589831|NCT02953639|164893349|SUPERIORITY||Treatment Difference|1.11||||0.488|TWO_SIDED|90.0|-1.54|3.76|||Mixed Models Analysis|||Week 24 Day 168 (Visual Learning)||3.76|-1.54|0.488
82589832|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-1.37||||0.262|TWO_SIDED|90.0|-3.38|0.64|||Mixed Models Analysis|||Week 12 Day 84 (Working Memory)||0.64|-3.38|0.262
82589833|NCT02953639|164893349|SUPERIORITY||Treatment Difference|-0.89||||0.489|TWO_SIDED|90.0|-3.01|1.23|||Mixed Models Analysis|||Week 24 Day 168 (Working Memory)||1.23|-3.01|0.489
82589834|NCT02953639|164893350|SUPERIORITY||Treatment Difference|-1.63||||0.211|TWO_SIDED|90.0|-3.78|0.52|||Mixed Models Analysis|||Week 12 Day 84 (VPA I total raw score)||0.52|-3.78|0.211
82589835|NCT02953639|164893350|SUPERIORITY||Treatment Difference|0.35||||0.787|TWO_SIDED|90.0|-1.81|2.52|||Mixed Models Analysis|||Week 24 Day 168 (VPA I total raw score)||2.52|-1.81|0.787
82589836|NCT02953639|164893350|SUPERIORITY||Treatment Difference|0.28||||0.477|TWO_SIDED|90.0|-0.37|0.94|||Mixed Models Analysis|||Week 12 Day 84 (VPA II total raw score)||0.94|-0.37|0.477
82589837|NCT02953639|164893350|SUPERIORITY||Treatment Difference|0.91||||0.028|TWO_SIDED|90.0|0.23|1.58|||Mixed Models Analysis|||Week 24 Day 168 (VPA II total raw score)||1.58|0.23|0.028
82589838|NCT02953639|164893350|SUPERIORITY||Treatment Difference|-0.3||||0.683|TWO_SIDED|90.0|-1.51|0.91|||Mixed Models Analysis|||Week 12 Day 84 (VPA II recognition total raw score)||0.91|-1.51|0.683
82589839|NCT02953639|164893350|SUPERIORITY||Treatment Difference|0.04||||0.954|TWO_SIDED|90.0|-1.13|1.22|||Mixed Models Analysis|||Week 24 Day 168 (VPA II recognition total raw score)||1.22|-1.13|0.954
82589840|NCT02953639|164893351|SUPERIORITY||Treatment Difference|1.45||||0.164|TWO_SIDED|90.0|-0.27|3.17|||Mixed Models Analysis|||Week 12 Day 84 (LM I)||3.17|-0.27|0.164
82589841|NCT02953639|164893351|SUPERIORITY||Treatment Difference|0.56||||0.559|TWO_SIDED|90.0|-1.02|2.14|||Mixed Models Analysis|||Week 24 Day 168 (LM I)||2.14|-1.02|0.559
82589842|NCT02953639|164893351|SUPERIORITY||Treatment Difference|0.12||||0.912|TWO_SIDED|90.0|-1.7|1.94|||Mixed Models Analysis|||Week 12 Day 84 (LM II)||1.94|-1.70|0.912
82589843|NCT02953639|164893351|SUPERIORITY||Treatment Difference|-0.36||||0.706|TWO_SIDED|90.0|-1.93|1.22|||Mixed Models Analysis|||Week 24 Day 168 (LM II)||1.22|-1.93|0.706
82589844|NCT02953639|164893352|SUPERIORITY||Treatment Difference|1.04||||0.527|TWO_SIDED|90.0|0.94|1.15|||Mixed Models Analysis|||Week 12 Day 84||1.15|0.94|0.527
82589845|NCT02953639|164893352|SUPERIORITY||Treatment Difference|1.04||||0.636|TWO_SIDED|90.0|0.92|1.17|||Mixed Models Analysis|||Week 24 Day 168||1.17|0.92|0.636
82589846|NCT02953639|164893353|SUPERIORITY||Treatment Difference|-1.36||||0.323|TWO_SIDED|90.0|-3.63|0.91|||Mixed Models Analysis|||Week 12 Day 84||0.91|-3.63|0.323
82589847|NCT02953639|164893353|SUPERIORITY||Treatment Difference|-0.95||||0.579|TWO_SIDED|90.0|-3.77|1.88|||Mixed Models Analysis|||Week 24 Day 168||1.88|-3.77|0.579
82589848|NCT02953639|164893354|SUPERIORITY||Treatment Difference|-0.67||||0.493|TWO_SIDED|90.0|-2.27|0.94|||Mixed Models Analysis|||Week 12 Day 84||0.94|-2.27|0.493
82589849|NCT02953639|164893354|SUPERIORITY||Treatment Difference|-0.12||||0.926|TWO_SIDED|90.0|-2.32|2.07|||Mixed Models Analysis|||Week 24 Day 168||2.07|-2.32|0.926
82589850|NCT02953639|164893355|SUPERIORITY||Treatment Difference|-0.02||||0.839|TWO_SIDED|90.0|-0.22|0.17|||Mixed Models Analysis|||Week 12 Day 84||0.17|-0.22|0.839
82589851|NCT02953639|164893355|SUPERIORITY||Treatment Difference|-0.06||||0.625|TWO_SIDED|90.0|-0.27|0.15|||Mixed Models Analysis|||Week 24 Day 168||0.15|-0.27|0.625
82589852|NCT02953639|164893356|SUPERIORITY||Treatment Difference|-0.03||||0.865|TWO_SIDED|90.0|-0.28|0.23|||Mixed Models Analysis|||Week 12 Day 84||0.23|-0.28|0.865
82589853|NCT02953639|164893356|SUPERIORITY||Treatment Difference|-0.01||||0.964|TWO_SIDED|90.0|-0.31|0.29|||Mixed Models Analysis|||Week 24 Day 168||0.29|-0.31|0.964
82589854|NCT02953639|164893357|SUPERIORITY||Treatment Difference|3.27||||0.142|TWO_SIDED|90.0|-0.4|6.95|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Cognition \& Vitality Score)||6.95|-0.40|0.142
82589855|NCT02953639|164893357|SUPERIORITY||Treatment Difference|-2.32||||0.416|TWO_SIDED|90.0|-7.04|2.4|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Cognition \& Vitality Score)||2.40|-7.04|0.416
82589856|NCT02953639|164893357|SUPERIORITY||Treatment Difference|1.98||||0.394|TWO_SIDED|90.0|-1.86|5.83|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Psychosocial Score)||5.83|-1.86|0.394
82589857|NCT02953639|164893357|SUPERIORITY||Treatment Difference|0.71||||0.776|TWO_SIDED|90.0|-3.44|4.87|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Psychosocial Score)||4.87|-3.44|0.776
82589858|NCT02953639|164893357|SUPERIORITY||Treatment Difference|2.43||||0.254|TWO_SIDED|90.0|-1.09|5.94|||Mixed Models Analysis|||Week 12 Day 84 (SQLS Total Score)||5.94|-1.09|0.254
82589859|NCT02953639|164893357|SUPERIORITY||Treatment Difference|-0.57||||0.816|TWO_SIDED|90.0|-4.64|3.5|||Mixed Models Analysis|||Week 24 Day 168 (SQLS Total Score)||3.50|-4.64|0.816
82589860|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.03|||||TWO_SIDED|95.0|0.93|1.14||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.14|0.93|
82589861|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.02|||||TWO_SIDED|95.0|0.92|1.13||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.13|0.92|
82589862|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.99|||||TWO_SIDED|95.0|0.88|1.12||||||PMB80 \[A22\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB80.||1.12|0.88|
82589863|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.85|1.06||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948.||1.06|0.85|
82589864|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|0.95|||||TWO_SIDED|95.0|0.86|1.06||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948.||1.06|0.86|
82589865|NCT01830855|164893364|SUPERIORITY_OR_OTHER||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.88|1.14||||||PMB2948 \[B24\]: The lot consistency criteria was achieved if the 95% CI for all pairwise GMRs between lots are within (0.5, 2), for the strain PMB2948||1.14|0.88|
82589866|NCT03034460|164893419|SUPERIORITY||||||=|0.158|||||||Wilcoxon rank signed test|||This analysis was performed in participants applied CD5024 1% Cream on one side of face and CD5024 1% Cream Matched Placebo on other side of face for paired difference between Active - Vehicle (CD5024 1% Cream \[n=48\] versus CD5024 1% Cream Matched Placebo \[n=48\]).||||= 0.158
82589867|NCT03034460|164893419|SUPERIORITY||||||=|0.002|||||||Wilcoxon rank signed test|||This analysis was performed in participants applied Adapalene Benzoyl Peroxyde on one side of face and Adapalene Benzoyl Peroxyde Matched Placebo on the other side of face for paired difference between Active - Vehicle (Adapalene Benzoyl Peroxyde \[n=22\] versus Adapalene Benzoyl Peroxyde Matched Placebo \[n=22\]).||||= 0.002
82589868|NCT02294682|164893435|SUPERIORITY_OR_OTHER||Microbio Response Urogenital Gonorrhea|97.0|||||ONE_SIDED|95.0|85.1||||||GSK2140944 1500 mg||||85.1|
82589869|NCT02294682|164893435|SUPERIORITY_OR_OTHER||Microbio Response Urogenital Gonorrhea|95.0|||||ONE_SIDED|95.0|84.7||||||GSK2140944 3000 mg||||84.7|
82589870|NCT01516970|164893453|SUPERIORITY_OR_OTHER|||||||0.2434||||||The discontinuation rates were compared with a statistical test (Cochran-Mantel-Haenszel \[CMH\]-Test) with p-value: 0.2434|Cochran-Mantel-Haenszel|||||||0.2434
82589871|NCT01516970|164893454|SUPERIORITY_OR_OTHER|||||||0.8839||||||The percentage of participants with TEAEs were compared with a statistical test (Fisher's Exact Test) with p-value: 0.8839.|Fisher Exact|||||||0.8839
82589872|NCT03823404|164893472|SUPERIORITY||||||<|0.0455||||||The interim analysis was conducted at significance level of 0.05 and the significance level was adjusted for final analysis.|mixed-effects model for repeated measure|||||||<0.0455
82589873|NCT03823404|164893473|SUPERIORITY||||||<|455|||||||Mixed Models Analysis|||||||<0455
82589874|NCT00892177|164893484|SUPERIORITY_OR_OTHER_LEGACY||Maximum Tolerated Dose (mg)|100.0|||||TWO_SIDED|||||||||||||
82589875|NCT00892177|164893485|SUPERIORITY_OR_OTHER_LEGACY||Difference|0.1||||0.22|TWO_SIDED|95.0|-0.052|0.262|||Chi-squared, Corrected||Difference in proportion|||0.262|-0.052|0.22
82589876|NCT00892177|164893487|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.61|1.4|||Kaplan Meier|||||1.4|0.61|0.7
82589877|NCT00892177|164893488|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.14||||0.52|TWO_SIDED|95.0|0.76|1.7|||Kaplan Meier|||||1.7|0.76|0.52
82589878|NCT00892177|164893489|SUPERIORITY||Mean Difference (Final Values)|-0.223||||0.96|TWO_SIDED||||||Mixed Models Analysis||The estimate is the net difference between Arm A and Arm B total score using information from all cycles. A negative value means that Arm A has a lower quality of life and a positive value means Arm A has a higher reported quality of life.|||||0.96
82589879|NCT00892177|164893490|SUPERIORITY|||||||0.6325|||||||Fisher Exact|||||||0.6325
82589880|NCT02645760|164893491|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 2.26 points in mean 11-point NRS pain score between core stabilization exercise and conventional treatment from baseline to week 7.||||<0.001
82589881|NCT02645760|164893492|SUPERIORITY_OR_OTHER|||||||0.009|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 2.68 points in mean disability score (RMDQ score) between core stabilization exercise and conventional treatment from baseline to week 7.||||0.009
82589882|NCT02645760|164893493|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 0.79 centimeter in mean range of motion between core stabilization exercise and conventional treatment from baseline to week 7.||||0.013
82589883|NCT02645760|164893494|SUPERIORITY_OR_OTHER|||||||0.012|||||||ANCOVA|||It was calculated that 38 participants randomized in a 1:1 fashion between the 2 arms would have at least 80% power to detect a difference of 0.30 centimeter in mean repositioning error between core stabilization exercise and conventional treatment from baseline to week 7.||||0.012
82653445|NCT03093324|165022217|SUPERIORITY||Rate ratio|0.696||||0.033|TWO_SIDED|95.0|0.499|0.972|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||0.972|0.499|0.033
82589884|NCT02267603|164893495|OTHER|The null hypothesis will be rejected if 3 or more responses are observed in 24 patients. This design yields a type I error rate of 0.10 and power of 0.90 when the true response rate is 25%. Progression-free survival (PFS) at 16 months will be estimated by Kaplan-Meier method. Unless otherwise stated, all statistical tests will be conducted at the α=0.05 (1-sided) level.||||||||||||||||The protocol was designed w/ a standard Simon 2 stage design. Null hypothesis that true response rate is 5% was tested against a 1-sided alternative. In stage 1, 9 patients were accrued. If no responses in these 9 patients, study was to stop. Otherwise,15 more patients were to be accrued for a total of 24 patients. Study was amended to increase number of patients to 50, following discussion w/ pharmaceutical collaborator and FDA.|ORR will be estimated as the # of responders as a % of the # of eligible participants who received at least 1 dose of treatment. If a substantial amount of primary endpoint data are missing (at least 1 value missing from more than 20% of participants), using nonparametric estimation to estimate the ORR requires the missing completely at random assumption may give misleading results. In this case, analyses of the primary endpoint will be performed using parametric generalized linear models fit by maximum likelihood. These methods provide unbiased estimation and inferences under the parametric modeling assumptions and the assumption that the missing data are missing at random (MAR). MAR assumes that the probability of an observation being missing may depend upon the observed responses and upon observed covariates. A generalized linear model for the ORR will use a binomial error distribution. The model will include as covariates all available baseline predictors of the missing outcomes.|||
82589885|NCT00596934|164893523|SUPERIORITY_OR_OTHER|||||||0.015|||||||t-test, 2 sided|||Differences in each collected parameter will be evaluated using a paired t-test. If data are skewed such as in triglyceride levels, nonparametric tests will be used. P\<0.05 will be considered significant. If a significant difference can be demonstrated between baseline and 1-year results, a large scale, placebo-controlled trial will be designed using the data obtained from this pilot study||||0.015
82589886|NCT00596934|164893524|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82589887|NCT00596934|164893525|SUPERIORITY_OR_OTHER|||||||0.074||||||p = 0.074|t-test, 2 sided|||||||0.074
82589888|NCT00596934|164893526|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82589889|NCT00596934|164893527|SUPERIORITY_OR_OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
82589890|NCT00596934|164893528|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 2 sided|||||||0.023
82589891|NCT00596934|164893529|SUPERIORITY_OR_OTHER|||||||0.195||||||p-value = 0.195.|t-test, 2 sided|||||||0.195
82589892|NCT00596934|164893530|SUPERIORITY_OR_OTHER|||||||0.026|||||||t-test, 2 sided|||||||0.026
82653446|NCT03093324|165022218|SUPERIORITY||Rate ratio|0.662||||0.068|TWO_SIDED|95.0|0.425|1.031|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||1.031|0.425|0.068
82653447|NCT03093324|165022219|SUPERIORITY||Rate ratio|0.713||||0.215|TWO_SIDED|95.0|0.417|1.217|||Negative Binomial Regression Model|||Number of event days was analyzed by a negative binomial regression model, with the logarithmic transformation of the number of exposure days as the ''offset'' parameter and treatment group as a factor and adjusting for study part, region (US and non-US), age, and body mass index (BMI).||1.217|0.417|0.215
82589893|NCT03239483|164893543|SUPERIORITY|||||||0.072|||||||Fisher Exact|||two-sided Fisher's Exact Test||||0.072
82589894|NCT03239483|164893548|SUPERIORITY|||||||1||||||This is a calculated p-value. P-values of 1.0 are possible when using the Fisher Exact test method.|Fisher Exact|||||||1.00
82589895|NCT03239483|164893549|SUPERIORITY|||||||0.591|||||||Fisher Exact|||||||0.591
82589896|NCT05395104|164893569|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.0865|||||TWO_SIDED|90.0|0.9724|1.2141||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2141|0.9724|
82589897|NCT05395104|164893571|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.1174|||||TWO_SIDED|90.0|0.9784|1.2762||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2762|0.9784|
82589898|NCT05395104|164893572|OTHER|Ratio = Geometric least squares mean (test)/geometric least squares mean (reference)|Ratio|1.1239|||||TWO_SIDED|90.0|0.9887|1.2776||||||Midazolam + Cefiderocol: single 5-mg dose of midazolam + 2 g cefiderocol (Day 15)||1.2776|0.9887|
82589899|NCT00006392|164893637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||<|0.01|TWO_SIDED|99.0|0.95|1.35||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 96% power to detect a 25% reduction in prostate cancer for either agent vs. Placebo.||1.35|0.95|< .01
82589900|NCT00006392|164893637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||<|0.01|TWO_SIDED|99.0|0.87|1.24||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 96% power to detect a 25% reduction in prostate cancer for either agent vs. Placebo.||1.24|0.87|< .01
82589901|NCT00006392|164893637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||<|0.01||99.0|0.88|1.25||The p-value was adjusted for multiple comparisons.|Regression, Cox|||Per study design, with a sample size of 32,400 men, using a 1-sided alpha=.005 level (equivalent to a 2-sided alpha=.01 level) there was 99% power to detect a 44% reduction in prostate cancer for combination vs. Placebo.||1.25|.88|< .01
82589902|NCT00006392|164893638|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||>|0.05||99.0|0.64|1.55||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.55|.64|> .05
82653448|NCT03093324|165022220|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.043|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|||Nausea: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.0|-0.6|0.043
82653449|NCT03093324|165022220|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.7|-0.2|||ANCOVA|||Vomiting: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.2|-0.7|<0.001
82589903|NCT00006392|164893638|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||>|0.01|TWO_SIDED|99.0|0.73|1.72||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.72|0.73|> .01
82589904|NCT00006392|164893638|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|||>|0.01|TWO_SIDED|99.0|0.9|1.16||The trial was designed to study prostate cancer and lung cancer has a lower incidence rate, there was limited power to look at lung cancer incidence. A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|||1.16|0.90|>.01
82589905|NCT00006392|164893639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09|||>|0.05|TWO_SIDED|99.0|0.69|1.73||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||1.73|0.69|> .05
82589906|NCT00006392|164893639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||>|0.05|TWO_SIDED|99.0|0.66|1.67||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||1.67|0.66|> .05
82589907|NCT00006392|164893639|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28|||>|0.05|TWO_SIDED|99.0|0.82|2.0||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The trial was designed to study prostate cancer and colorectal cancer has a lower incidence rate, there was limited power to look at colorectal cancer incidence.||2.00|0.82|> .05
82589908|NCT00006392|164893640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03|||>|0.05|TWO_SIDED|99.0|0.91|1.17||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.17|0.91|> .05
82589909|NCT00006392|164893640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|||>|0.05|TWO_SIDED|99.0|0.89|1.15||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.15|0.89|> .05
82589910|NCT00006392|164893640|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02|||>|0.05||99.0|0.9|1.16||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|The power to look at all cancer incidence is greater than 90%.||1.16|0.90|> .05
82589911|NCT00006392|164893641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||>|0.05||99.0|0.77|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo is the denominator.|Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.13|0.77|> .05
82589912|NCT00006392|164893641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||>|0.05|TWO_SIDED|99.0|0.82|1.19||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox||The placebo was the denominator.|Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.19|0.82|> .05
82589913|NCT00006392|164893641|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||>|0.05|TWO_SIDED|99.0|0.77|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Regression, Cox|||Only results from overall survival are presented as the number of cancer-specific deaths is too few to be meaningful.||1.13|0.77|> .05
82653450|NCT03093324|165022220|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.001|TWO_SIDED|95.0|-0.9|-0.2|||ANCOVA|||Upper Abdominal Pain: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||-0.2|-0.9|0.001
82589914|NCT00006392|164893642|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.98|||>|0.05|TWO_SIDED|99.0|0.88|1.09||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.09|0.88|> .05
82589915|NCT00006392|164893642|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02|||>|0.05|TWO_SIDED|99.0|0.92|1.13||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.13|0.92|> .05
82589916|NCT00006392|164893642|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|||>|0.05|TWO_SIDED|99.0|0.89|1.1||A 99% CI (rather than a 95% CI) was used to adjust for the multiple comparisons.|Chi-squared||The placebo was the denominator.|||1.10|0.89|> .05
82589917|NCT01186796|164893643|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82589918|NCT01186796|164893644|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
82589919|NCT01186796|164893645|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||"Unit of mass secreted per burst is in ug/L. An automated deconvolution method was used and mathematically verified by direct statistical proof and empirically validated using hypothalamopituitary sampling and a simulated pulsatile time series."|ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
82589920|NCT01186796|164893646|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
82589921|NCT01186796|164893647|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|Two-way ANOVA in a 2x4 factorial nested design with repeated measures.||||||<0.05
82589922|NCT03606980|164893652|EQUIVALENCE|p\<0.05 was considered statistically significant. A 95% confidence interval was computed using logistic regression model.|Hazard Ratio (HR)|3.11||||0.0366|TWO_SIDED|95.0|1.073|9.005|||Cox proportional hazards analysis|||||9.005|1.073|0.0366
82589923|NCT03606980|164893652|EQUIVALENCE|p\<0.05 was considered statistically significant.|Hazard Ratio (HR)|4.16||||0.0232|TWO_SIDED|95.0|1.215|14.273|||Cox proportional hazards analysis|||||14.273|1.215|0.0232
82589924|NCT03606980|164893652|EQUIVALENCE|p\<0.05 was considered statistically significant.|Hazard Ratio (HR)|1.24||||0.64|TWO_SIDED|95.0|0.389|4.615|||Cox proportional hazards analysis|||||4.615|0.389|0.64
82589925|NCT03606980|164893653|EQUIVALENCE|All statistical tests were two-sided, and p\<0.05 was considered statistically significant.||||||0.86|||||||ANOVA|||||||0.86
82589926|NCT03606980|164893654|EQUIVALENCE|p\<00.05 was considered statistically significant.||||||0.25|||||||ANOVA|||||||0.25
82589927|NCT03606980|164893655|EQUIVALENCE|p\<0.05 considered statistically significant.||||||0.29|||||||ANOVA|||||||0.29
82589928|NCT03606980|164893656|EQUIVALENCE|All statistical tests were performed using the SAS Studio. All statistical tests were two-sided, and p\<0.05 was considered statistically significant.||||||0.57|||||||ANOVA|||||||0.57
82589929|NCT03672461|164893661|SUPERIORITY||Model based LS mean difference|0.29||||0.056|TWO_SIDED|95.0|-0.01|0.6|||Mixed Models Analysis|adjusted for baseline value. Repeated measures mixed models, unstructured variance co-variance matrix||Null Hypothesis: Yoga is not associated with improvement in change from baseline in Total Urinary Incontinence Episodes||0.6|-0.01|0.056
82589930|NCT03672461|164893662|SUPERIORITY||Model based LS mean difference|0.03||||0.757|TWO_SIDED|95.0|-0.15|0.2|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.2|-0.15|0.757
82589931|NCT03672461|164893663|SUPERIORITY||Model based LS mean difference|0.22||||0.048|TWO_SIDED|95.0|0.0|0.45|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.45|0|0.048
82589932|NCT03672461|164893664|SUPERIORITY||Model based LS mean difference|0.82||||0.911|TWO_SIDED|95.0|-13.6|15.23|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||15.23|-13.6|0.911
82589933|NCT03672461|164893665|SUPERIORITY||Model based LS mean difference|3.13||||0.041|TWO_SIDED|95.0|0.13|6.13|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||6.13|0.13|0.041
82589934|NCT03672461|164893666|SUPERIORITY||Model based LS mean difference|0.07||||0.564|TWO_SIDED|95.0|-0.16|0.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.3|-0.16|0.564
82589935|NCT03672461|164893667|SUPERIORITY||Model based LS mean difference|0.3||||0.764|TWO_SIDED|95.0|-1.69|2.3|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.3|-1.69|0.764
82589936|NCT03672461|164893668|SUPERIORITY||Model based LS mean difference|-0.12||||0.883|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.53|-1.78|0.883
82589937|NCT03672461|164893669|SUPERIORITY||Model based LS mean difference|-0.11||||0.753|TWO_SIDED|95.0|-0.83|0.6|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.6|-0.83|0.753
82589938|NCT03672461|164893670|SUPERIORITY||Model based LS mean difference|-0.28||||0.685|TWO_SIDED|95.0|-1.63|1.07|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.07|-1.63|0.685
82589939|NCT03672461|164893671|SUPERIORITY||Model based LS mean difference|0.24||||0.691|TWO_SIDED|95.0|-0.95|1.43|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.43|-0.95|0.691
82589940|NCT03672461|164893672|SUPERIORITY||Model based LS mean difference|0.19||||0.743|TWO_SIDED|95.0|-0.95|1.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.34|-0.95|0.743
82589941|NCT03672461|164893673|SUPERIORITY||Model based LS mean difference|0.98||||0.043|TWO_SIDED|95.0|0.03|1.93|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||1.93|0.03|0.043
82589942|NCT03672461|164893674|SUPERIORITY||Model based LS mean difference|0.99||||0.689|TWO_SIDED|95.0|-3.87|5.84|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||5.84|-3.87|0.689
82589943|NCT03672461|164893675|SUPERIORITY||Model based LS mean difference|-3.4||||0.276|TWO_SIDED|95.0|-9.54|2.74|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.74|-9.54|0.276
82589944|NCT03672461|164893676|SUPERIORITY||Model based LS mean difference|0.1||||0.448|TWO_SIDED|95.0|-0.15|0.34|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.34|-0.15|0.448
82589945|NCT03672461|164893677|SUPERIORITY||Model based LS mean difference|-0.29||||0.319|TWO_SIDED|95.0|-0.86|0.28|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.28|-0.86|0.319
82589946|NCT03672461|164893678|SUPERIORITY||Model based LS mean difference|1.21||||0.747|TWO_SIDED|95.0|-6.25|8.67|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||8.67|-6.25|0.747
82589947|NCT03672461|164893679|SUPERIORITY||Model based LS mean difference|-2.76||||0.459|TWO_SIDED|95.0|-10.2|4.65|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||4.65|-10.2|0.459
82490788|NCT02713204|164675028|SUPERIORITY||Least square mean difference|-8.38||||0.6586|TWO_SIDED|95.0|-45.64|28.88||Threshold for significance at 0.05 level.|ANCOVA|||Analysis was performed using ANCOVA model with baseline measurement as a covariate, and treatment group and BCVA stratification variable as fixed factors.||28.88|-45.64|0.6586
82589948|NCT03672461|164893680|SUPERIORITY||Model based LS mean difference|-2.0||||0.556|TWO_SIDED|95.0|-10.2|4.65|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||4.65|-10.2|0.556
82589949|NCT03672461|164893681|SUPERIORITY||Model based LS mean difference|-3.26||||0.516|TWO_SIDED|95.0|-13.2|6.7|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||6.7|-13.2|0.516
82589950|NCT03672461|164893682|SUPERIORITY||Model based LS mean difference|-2.38||||0.154|TWO_SIDED|95.0|-5.68|0.91|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||0.91|-5.68|0.154
82589951|NCT03672461|164893683|SUPERIORITY||Model based LS mean difference|-2.22||||0.375|TWO_SIDED|95.0|-7.17|2.72|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.72|-7.17|0.375
82589952|NCT03672461|164893684|SUPERIORITY||Model based LS mean difference|-1.75||||0.287|TWO_SIDED|95.0|-5.0|1.5|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix||||1.5|-5|0.287
82589953|NCT03672461|164893685|SUPERIORITY||Model based LS mean difference|-1.63||||0.147|TWO_SIDED|95.0|-3.85|0.58||adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix|Mixed Models Analysis|||||0.58|-3.85|0.147
82589954|NCT03672461|164893686|SUPERIORITY||Model based LS mean difference|-1.37||||0.495|TWO_SIDED|95.0|-5.36|2.61|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, with unstructured variance co-variance matrix||||2.61|-5.36|0.495
82589955|NCT03672461|164893687|SUPERIORITY||Model based LS mean difference|-2.82||||0.303|TWO_SIDED|95.0|-8.22|2.59|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||2.59|-8.22|0.303
82589956|NCT03672461|164893688|SUPERIORITY||Model based LS mean difference|2.97||||0.196|TWO_SIDED|95.0|-1.56|7.51|||Mixed Models Analysis|adjusted for baseline value Repeated measures mixed models, unstructured variance co-variance matrix||||7.51|-1.56|0.196
82589957|NCT01798992|164893689|SUPERIORITY_OR_OTHER_LEGACY|||||||0.685|TWO_SIDED||||||Fisher Exact|||The null hypothesis is that there is no difference in rate of LVEF improvement according to treatment group.||||0.685
82589958|NCT01798992|164893690|SUPERIORITY_OR_OTHER_LEGACY|||||||0.071|TWO_SIDED||||||Fisher Exact|||The null hypothesis is that there is no difference in rate of LVEF improvement according to treatment group.||||0.071
82589959|NCT00998426|164893705|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||This is the p value for the meter by time interaction|Random intercept model|||A random intercept model was used to fit the five subjects' glucose reading data over time. The fixed effect glucose meters, time effect and their interactions were included in the model.||||0.59
82589960|NCT00789750|164893721|OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.084|<|0.001|TWO_SIDED|95.0|-0.49|-0.16|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.16|-0.49|<0.001
82589961|NCT00789750|164893722|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.24|-0.1|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.10|-0.24|<0.001
82589962|NCT00789750|164893723|OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.056||0.0002|TWO_SIDED|95.0|-0.32|-0.1|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.10|-0.32|0.0002
82589963|NCT00789750|164893724|OTHER||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.077|<|0.001|TWO_SIDED|95.0|-0.51|-0.2|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-0.20|-0.51|<0.001
82589964|NCT00789750|164893725|OTHER|||||||0.012|||||||Cochran-Mantel-Haenszel|||||||0.012
82589965|NCT00789750|164893726|OTHER||Mean Difference (Final Values)|-14.7|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|-21.93|-7.49|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-7.49|-21.93|<0.0001
82589966|NCT00789750|164893727|OTHER|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82589967|NCT00789750|164893728|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82589968|NCT00789750|164893729|OTHER|||||||0.132|||||||Cochran-Mantel-Haenszel|||||||0.132
82589969|NCT00789750|164893730|OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82589970|NCT00789750|164893731|OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|2.15|<|0.001|TWO_SIDED|95.0|-20.62|-12.18|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-12.18|-20.62|<0.001
82589971|NCT00789750|164893732|OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|1.31||0.1652|TWO_SIDED|95.0|-0.75|4.39|||ANCOVA|||Treatment difference = Colesevelam - Placebo||4.39|-0.75|0.1652
82589972|NCT00789750|164893733|OTHER||Mean Difference (Final Values)|-9.8|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-13.44|-6.16|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-6.16|-13.44|<0.0001
82490789|NCT02713204|164675029|SUPERIORITY||Least square mean difference|0.55||||0.4889|TWO_SIDED|95.0|-1.01|2.1||Threshold for significance at 0.05 level.|ANCOVA|||||2.10|-1.01|0.4889
82589973|NCT00789750|164893734|OTHER||Median Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|67.01||0.0004|TWO_SIDED|95.0|5.3|17.5|||ANCOVA||The treatment difference and its 95% confidence interval are estimated using the Hodges-Lehmann estimator and Moses method. The parameter dispersion Type is actually IQR of the Median Difference.|Treatment difference = Colesevelam - Placebo||17.5|5.3|0.0004
82589974|NCT00789750|164893735|OTHER||Mean Difference (Final Values)|3.4|STANDARD_ERROR_OF_MEAN|0.93||0.0003|TWO_SIDED|95.0|1.58|5.23|||ANCOVA|||Treatment difference = Colesevelam - Placebo||5.23|1.58|0.0003
82589975|NCT00789750|164893736|OTHER||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|1.52|<|0.0001|TWO_SIDED|95.0|-11.75|-5.78|||ANCOVA|||Treatment difference = Colesevelam - Placebo||-5.78|-11.75|<0.0001
82589976|NCT00789750|164893737|OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.77||0.7286|TWO_SIDED|95.0|-4.1|2.9|||ANCOVA|||Treatment difference = Colesevelam - Placebo||2.9|-4.1|0.7286
82589977|NCT00789750|164893738|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0653|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA|||Treatment difference = Colesevelam - Placebo||0.0|-0.4|0.0653
82589978|NCT00789750|164893739|OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.8862|TWO_SIDED|95.0|-1.5|1.3|||ANCOVA|||Treatment difference = Colesevelam - Placebo||1.3|-1.5|0.8862
82589979|NCT01936909|164893748|SUPERIORITY||||||>|0.2|||||||ANOVA|||This test reflects a comparison between baseline and 2 weeks (both rows).||||>0.20
82589980|NCT01936909|164893749|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Paired analysis versus baseline||||<0.01
82589981|NCT01936909|164893750|SUPERIORITY|Log-rank test||||||0.12|||||||Log Rank|||||||0.12
82589982|NCT00744211|164893751|SUPERIORITY_OR_OTHER||||||<|0.05||||||p\<0.05; Pairwise tests of individual groups means were compared by adjusted probabilities (Bonferroni method).|ANOVA|||||||<0.05
82589983|NCT00744211|164893752|SUPERIORITY_OR_OTHER|||||||0.001||||||Pairwise tests of individual groups means were compared by adjusted probabilities (Bonferroni method).|ANOVA|||||||0.001
82589984|NCT00744211|164893753|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82589985|NCT00744211|164893754|EQUIVALENCE|Chi-square tests for differences between groups.||||||0.015||||||P-value is associated with the hematological/lymphatic adverse event.|Chi-squared|||||||0.015
82589986|NCT03740997|164893800|OTHER||Mean Difference (Net)|16.2|STANDARD_DEVIATION|5.46||0.0008|TWO_SIDED|95.0|10.44|21.89|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 1||21.89|10.44|0.0008
82589987|NCT03740997|164893800|OTHER||Mean Difference (Net)|17.1|STANDARD_DEVIATION|13.49|<|0.0001|TWO_SIDED|95.0|11.11|23.07|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 1||23.07|11.11|<0.0001
82589988|NCT03740997|164893800|OTHER||Mean Difference (Net)|19.3|STANDARD_DEVIATION|6.5||0.0002|TWO_SIDED|95.0|13.28|25.3|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 2||25.30|13.28|0.0002
82589989|NCT03740997|164893800|OTHER||Mean Difference (Net)|18.5|STANDARD_DEVIATION|11.68|<|0.0001|TWO_SIDED|95.0|13.47|23.57|||Paired t-test|||Reader 1: Difference Between Non-contrast and OPTISON Dose Level 2||23.57|13.47|<0.0001
82589990|NCT03740997|164893800|OTHER||Mean Difference (Net)|19.8|STANDARD_DEVIATION|3.06|<|0.0001|TWO_SIDED|95.0|16.62|23.05|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 1||23.05|16.62|<0.0001
82589991|NCT03740997|164893800|OTHER||Mean Difference (Net)|20.1|STANDARD_DEVIATION|13.38|<|0.0001|TWO_SIDED|95.0|14.16|26.03|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 1||26.03|14.16|<0.0001
82377479|NCT03971474|164462067|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.05|TWO_SIDED|80.0|0.51|0.92||If either P value from the two tests (standard stratified log-rank and weighted log-rank) was \< 0.0972, the study would be considered to have rejected the null at the one-sided 10% level.|Log Rank|Testing was performed using a standard stratified log-rank test.|Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model including the stratification factors (PD-L1 status and histology) and 80% CIs.|Comparison of OS was performed using a standard stratified log-rank test and a weighted log-rank test. The study had 90% power to detect the scenario with overlapping curves up to 3 months and a hazard ratio of 0.5 after 3 months, assuming exponentially distributed survival times, a median OS of 10.5 months in the SOC arm, and uniform accrual over 21-24 months. This analysis reports the standard stratified log-rank test.||0.92|0.51|0.05
82377480|NCT03971474|164462067|SUPERIORITY|||||||0.15||||||If either p-value from the two tests (standard stratified log-rank and weighted log-rank) was \< 0.0972, the study would be considered to have rejected the null at the one-sided 10% level.|Log Rank|||Comparison of OS was performed using a standard stratified log-rank test and a weighted log-rank test. The study had 90% power to detect the scenario with overlapping curves up to 3 months and a hazard ratio of 0.5 after 3 months, assuming exponentially distributed survival times, a median OS of 10.5 months in the SOC arm, and uniform accrual over 21-24 months. This analysis reports the weighted log-rank test.||||0.15
82377481|NCT03971474|164462068|SUPERIORITY|||||||0.19||||||Proportions were compared using a chi-squared test at the one-sided 5% level.|Chi-squared|||||||0.19
82377482|NCT03971474|164462069|SUPERIORITY|||||||0.38||||||Proportions were compared using a chi-squared test at the one-sided 5% level.|Chi-squared|||||||0.38
82377483|NCT03971474|164462072|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.25|TWO_SIDED|80.0|0.66|1.14|||Log Rank|Testing was performed using a standard stratified log-rank test.|Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model including the stratification factors (PD-L1 status and histology) and 80% CIs.|Comparison of IA-PFS was performed using a standard stratified log-rank test and a weighted log-rank test with weights equal to 1-S(t), where S(t) is the pooled survival estimate at time t (G\[rho=0, gamma=1\]). The weighted test weights later events over earlier events and has more power than the standard log-rank test under a delayed separation in the curves. This analysis reports the standard stratified log-rank test.||1.14|0.66|0.25
82377484|NCT03971474|164462072|SUPERIORITY|||||||0.14|||||||Log Rank|Testing was performed using a weighted log-rank test.||Comparison of IA-PFS between the RP and SOC arms was performed using a standard stratified log-rank test and a weighted log-rank test with weights equal to 1-S(t), where S(t) is the pooled survival estimate at time t (G\[rho=0, gamma=1\]). The weighted test weights later events over earlier events and has more power than the standard log-rank test under a delayed separation in the curves. This analysis reports the weighted log-rank test.||||0.14
82377485|NCT03971474|164462073|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.16|TWO_SIDED|80.0|0.5|1.1||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \< 1% subgroup.||1.10|0.50|0.16
82377486|NCT03971474|164462073|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.08|TWO_SIDED|80.0|0.45|0.97||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \>= 1% subgroup.||0.97|0.45|0.08
82377487|NCT03971474|164462073|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.005|TWO_SIDED|80.0|0.28|0.65||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the squamous histology subgroup.||0.65|0.28|0.005
82589992|NCT03740997|164893800|OTHER||Mean Difference (Net)|22.0|STANDARD_DEVIATION|2.77|<|0.0001|TWO_SIDED|95.0|19.44|24.56|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 2||24.56|19.44|<0.0001
82589993|NCT03740997|164893800|OTHER||Mean Difference (Net)|21.2|STANDARD_DEVIATION|13.34|<|0.0001|TWO_SIDED|95.0|15.45|26.99|||Paired t-test|||Reader 2: Difference Between Non-contrast and OPTISON Dose Level 2||26.99|15.45|<0.0001
82589994|NCT03740997|164893800|OTHER||Mean Difference (Net)|11.8|STANDARD_DEVIATION|9.35||0.0268|TWO_SIDED|95.0|2.02|21.64|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 1||21.64|2.02|0.0268
82377488|NCT03971474|164462073|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.43|TWO_SIDED|80.0|0.67|1.35||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the non-squamous histology subgroup.||1.35|0.67|0.43
82377489|NCT03971474|164462074|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.28|TWO_SIDED|80.0|0.58|1.22||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \< 1% subgroup.||1.22|0.58|0.28
82490790|NCT02713204|164675029|SUPERIORITY||Least square mean difference|0.24||||0.7027|TWO_SIDED|95.0|-0.99|1.46||Threshold for significance at 0.05 level.|ANCOVA|||||1.46|-0.99|0.7027
82589995|NCT03740997|164893800|OTHER||Mean Difference (Net)|16.1|STANDARD_DEVIATION|15.08|<|0.0001|TWO_SIDED|95.0|9.45|22.82|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 1||22.82|9.45|<0.0001
82589996|NCT03740997|164893800|OTHER||Mean Difference (Net)|12.1|STANDARD_DEVIATION|6.59||0.0028|TWO_SIDED|95.0|6.04|18.24|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 2||18.24|6.04|0.0028
82490791|NCT02713204|164675030|SUPERIORITY||Least square mean difference|-0.6||||0.4927|TWO_SIDED|95.0|-2.34|1.13||Threshold for significance at 0.05 level.|ANCOVA|||||1.13|-2.34|0.4927
82490792|NCT02713204|164675030|SUPERIORITY||Least square mean difference|0.38||||0.6645|TWO_SIDED|95.0|-1.36|2.13||Threshold for significance at 0.05 level.|ANCOVA|||||2.13|-1.36|0.6645
82490793|NCT02713204|164675030|SUPERIORITY||Least square mean difference|-0.89||||0.3091|TWO_SIDED|95.0|-2.61|0.83||Threshold for significance at 0.05 level.|ANCOVA|||||0.83|-2.61|0.3091
82490794|NCT02713204|164675030|SUPERIORITY||Least square mean difference|-0.6||||0.4898|TWO_SIDED|95.0|-2.29|1.1||Threshold for significance at 0.05 level.|ANCOVA|||||1.10|-2.29|0.4898
82490795|NCT02713204|164675030|SUPERIORITY||Least square mean difference|-0.8||||0.3504|TWO_SIDED|95.0|-2.5|0.89||Threshold for significance at 0.05 level.|ANCOVA|||||0.89|-2.50|0.3504
82490796|NCT02713204|164675030|SUPERIORITY||Least square mean difference|-0.98||||0.2632|TWO_SIDED|95.0|-2.7|0.74||Threshold for significance at 0.05 level.|ANCOVA|||||0.74|-2.70|0.2632
82589997|NCT03740997|164893800|OTHER||Mean Difference (Net)|15.8|STANDARD_DEVIATION|13.37|<|0.0001|TWO_SIDED|95.0|10.04|21.61|||Paired t-test|||Reader 3: Difference Between Non-contrast and OPTISON Dose Level 2||21.61|10.04|<0.0001
82589998|NCT01829425|164893816|NON_INFERIORITY|The study design will use a non-inferiority design to compare the primary outcome (change in UUI episodes in the hypnotherapy versus pharmacotherapy groups). With respect to the outcome variable of percent reduction in UUI episodes as determined by bladder diaries, we will use a one-sided non- inferiority test at level alpha = 0.25 and a non-inferiority margin of 5%.|Difference in median % change between gr|5.0|||<|0.025|ONE_SIDED|95.0|5.0||||Exact Mann Whitney|Due dispersion, medians were calculated. Exact Mann Whitney test was used for this analysis.|Hypnotherapy - Pharmacotherapy. % difference in median % change in UUI episodes with lower bounds \> - 5% would be consistent with non-inferiority||||5|<.025
82490797|NCT02713204|164675030|SUPERIORITY||Least square mean difference|0.21||||0.8056|TWO_SIDED|95.0|-1.46|1.88||Threshold for significance at 0.05 level.|ANCOVA|||||1.88|-1.46|0.8056
82490798|NCT02713204|164675031|SUPERIORITY||Least square mean difference|0.57||||0.5065|TWO_SIDED|95.0|-1.11|2.25||Threshold for significance at 0.05 level.|ANCOVA|||||2.25|-1.11|0.5065
82490799|NCT02713204|164675031|SUPERIORITY||Least square mean difference|-0.22||||0.7418|TWO_SIDED|95.0|-1.55|1.1||Threshold for significance at 0.05 level.|ANCOVA|||||1.10|-1.55|0.7418
82490800|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-0.19||||0.8383|TWO_SIDED|95.0|-1.99|1.62||Threshold for significance at 0.05 level.|ANCOVA|||||1.62|-1.99|0.8383
82653451|NCT03093324|165022220|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.403|TWO_SIDED|95.0|-0.4|0.2|||ANCOVA|||Lower Abdominal Pain: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||0.2|-0.4|0.403
82490801|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-0.1||||0.918|TWO_SIDED|95.0|-1.91|1.72||Threshold for significance at 0.05 level.|ANCOVA|||||1.72|-1.91|0.9180
82490802|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-1.41||||0.1238|TWO_SIDED|95.0|-3.2|0.39||Threshold for significance at 0.05 level.|ANCOVA|||||0.39|-3.20|0.1238
82490803|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-0.97||||0.2819|TWO_SIDED|95.0|-2.73|0.8||Threshold for significance at 0.05 level.|ANCOVA|||||0.80|-2.73|0.2819
82490804|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-1.02||||0.2581|TWO_SIDED|95.0|-2.78|0.75||Threshold for significance at 0.05 level.|ANCOVA|||||0.75|-2.78|0.2581
82490805|NCT02713204|164675032|SUPERIORITY||Least square mean difference|-0.87||||0.339|TWO_SIDED|95.0|-2.66|0.92||Threshold for significance at 0.05 level.|ANCOVA|||||0.92|-2.66|0.3390
82490806|NCT02713204|164675032|SUPERIORITY||Least square mean difference|0.05||||0.9558|TWO_SIDED|95.0|-1.69|1.79||Threshold for significance at 0.05 level.|ANCOVA|||||1.79|-1.69|0.9558
82490807|NCT00569270|164675040|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||a priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak FEV1 of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.027
82490808|NCT00569270|164675041|SUPERIORITY_OR_OTHER||Spearman rho|0.19||||0.96||95.0||||A priori threshold for statistical significance: p=0.05|Spearman rho|||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema; measure includes change in FEV1 post tiotropium||||0.96
82490809|NCT00569270|164675042|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak FRC in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.318
82490810|NCT00569270|164675043|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||Statistical significance was p \< 0.05|Mixed Models Analysis|||Mean difference of Peak FVC of tiotropium minus placebo.29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.078
82490811|NCT00569270|164675044|SUPERIORITY_OR_OTHER||Spearman rho|-0.26||||0.4||95.0|||||Spearman rho|||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema (19 patients); measures include change in IC at trough tiotropium.||||0.4
82490812|NCT00569270|164675045|SUPERIORITY_OR_OTHER|||||||0.067||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Peak IC of tiotropium minus placebo.29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.067
82653452|NCT03093324|165022220|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.261|TWO_SIDED|95.0|-0.6|0.2|||ANCOVA|||Diarrhea: DMF is used as a referenced group in the model, adjusting for study parts, region (US and non-US), age and BMI.||0.2|-0.6|0.261
82490813|NCT00569270|164675046|SUPERIORITY_OR_OTHER|||||||0.615||95.0||||A priori threshold for statistical significance: p\<0.05|Regression, Logistic|||Mean difference of Peak FRC/TLC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.615
82490814|NCT00569270|164675047|SUPERIORITY_OR_OTHER|||||||0.325||95.0||||Statistical significance was p\<0.05|Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.325
82490815|NCT00569270|164675048|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.345
82490816|NCT00569270|164675049|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough FRC(L) in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.068
82490817|NCT00569270|164675050|SUPERIORITY_OR_OTHER|||||||0.589||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of trough FVC in tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.589
82589999|NCT01829425|164893817|NON_INFERIORITY|The study design will use a non-inferiority design to compare the primary outcome (change in UUI episodes in the hypnotherapy versus pharmacotherapy groups). With respect to the outcome variable of percent reduction in UUI episodes as determined by bladder diaries, we will use a one-sided non- inferiority test at level alpha = 0.25 and a non-inferiority margin of 5%. If|Difference in median % change between gr|5.0|||<|0.025|ONE_SIDED|95.0|5.0||||Exact Mann Whitney||||||5|<.025
82490818|NCT00569270|164675051|SUPERIORITY_OR_OTHER|||||||0.922||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough IC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.922
82490819|NCT00569270|164675052|SUPERIORITY_OR_OTHER|||||||-0.02||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough FRC/TLC of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||-0.02
82490820|NCT00569270|164675053|SUPERIORITY_OR_OTHER|||||||-0.13||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Mean difference of Trough TLC (L) of tiotropium minus placebo. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||-0.13
82490821|NCT00569270|164675054|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||A priori threshold for statistical significance: p\<0.05|Mixed Models Analysis|||Change in IC before and after dynamic hyperinflation. 29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||0.0001
82490822|NCT00569270|164675055|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Total lung capacity was similar in all groups and was not significant|Mixed Models Analysis|||29 patients needed to achieve a power of 80% at a significant alpha level of 5% using projected sample inspiratory capacity of 2.23+/- 0.5L post tiotropium compared to baseline inspiratory capacity 2.0+/-0.5L||||>0.05
82490823|NCT00569270|164675056|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||A priori threshold for statistical significance: p= 0.05|Spearman rho|Spearman rho = -0.26||Correlation between improved lung function after tiotropium and extent of lung CT scored emphysema with respect to ratio functional residual capacity divided by total lung capacity. Specifically, correlation of tiotropium induced bronchodilation and extent of lung ct scored emphysema||||0.36
82490824|NCT00492531|164675071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.0||||0.7|TWO_SIDED|95.0|-56.0|38.0|||ANCOVA|6 minute walk was based on ANCOVA model with treatment as a fixed effect and 6 minute walk distance, TRV stratum and study site as covariate.||||38|-56|0.70
82490825|NCT03685123|164675080|SUPERIORITY|||||||0.256|||||||Mixed Models Analysis|||||||0.256
82490826|NCT03685123|164675081|SUPERIORITY|||||||0.089|||||||Mixed Models Analysis|||||||0.089
82490827|NCT03685123|164675082|SUPERIORITY|||||||0.244|||||||Mixed Models Analysis|||||||0.244
82490828|NCT03685123|164675083|SUPERIORITY|||||||0.064|||||||Mixed Models Analysis|||||||0.064
82490829|NCT03685123|164675084|SUPERIORITY|||||||0.983|||||||Mixed Models Analysis|||LDL levels||||0.983
82490830|NCT03685123|164675084|SUPERIORITY|||||||0.56|||||||Mixed Models Analysis|||HDL levels||||0.56
82490831|NCT03685123|164675084|SUPERIORITY|||||||0.71|||||||Mixed Models Analysis|||Total Cholesterol||||0.71
82490832|NCT03685123|164675084|SUPERIORITY|||||||0.313|||||||Mixed Models Analysis|||Triglycerides||||0.313
82490833|NCT03685123|164675085|SUPERIORITY|||||||0.72|||||||Mixed Models Analysis|||systolic Blood pressure||||0.72
82490834|NCT03685123|164675085|SUPERIORITY|||||||0.61|||||||Mixed Models Analysis|||Diastolic Blood pressure||||0.61
82490835|NCT03685123|164675085|SUPERIORITY|||||||0.1609|||||||Mixed Models Analysis|||Change in aortic blood pressure between the PA-REC and the WM-REC Groups.||||0.1609
82490836|NCT03685123|164675085|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||Change in aortic diastolic blood pressure between the PA-REC and WM-REC Groups||||0.446
82490837|NCT03685123|164675086|SUPERIORITY|||||||0.965|||||||Mixed Models Analysis|||||||0.965
82490838|NCT03685123|164675087|SUPERIORITY|||||||0.857|||||||Mixed Models Analysis|||||||0.857
82590000|NCT01505010|164893938|SUPERIORITY||Mean Difference (Final Values)|22.4|STANDARD_ERROR_OF_MEAN|8.5||0.018|TWO_SIDED||||||Mixed Models Analysis|Adjusted for the baseline 24-h systolic blood pressure|Difference at 6 months in 24-h systolic blood pressure (control minus intervention)|We used mixed models to compare blood pressure changes between randomized groups at 6 months, while adjusting for the baseline blood pressure; statistical significance was a P-value less than 0.05 on two-sided tests.||||0.018
82653453|NCT00976664|165022228|SUPERIORITY_OR_OTHER|||||||0.0007|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in VAS for low back pain from randomization visit to 6-week visit were assessed via the Wilcoxon rank sums test.||||||.0007
82490839|NCT03685123|164675088|SUPERIORITY|||||||0.825|||||||Mixed Models Analysis|||||||0.825
82590001|NCT01505010|164893939|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|4.87||0.86|TWO_SIDED||||||t-test, 2 sided|||Difference between control and intervention group at 6 months||||0.86
82590002|NCT01505010|164893940|SUPERIORITY||Median Difference (Final Values)|1.7||||0.032|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcocon rank sum test||||0.032
82590003|NCT01505010|164893940|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|1.7|STANDARD_ERROR_OF_MEAN|0.8||0.032|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.032
82590004|NCT01006265|164893961|SUPERIORITY||Treatment effect (rate ratio)|0.226|||<|0.0001|TWO_SIDED|95.0|0.133|0.384|||Negative binomial regression model|||||0.384|0.133|<0.0001
82590005|NCT01006265|164893961|SUPERIORITY||Treatment effect (rate ratio)|0.17|||<|0.0001|TWO_SIDED|95.0|0.1|0.289|||Negative binomial regression model|||||0.289|0.100|<0.0001
82590006|NCT01006265|164893961|SUPERIORITY||Treatment effect (rate ratio)|0.566||||0.0318|TWO_SIDED|95.0|0.337|0.952|||Negative binomial regression model|||||0.952|0.337|0.0318
82590007|NCT00698932|164893964|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.079|<|0.0001||95.0|-0.65|-0.34|||ANCOVA|\*adjusted for baseline HbA1c||||-0.34|-0.65|<0.0001
82590008|NCT00698932|164893965|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.06|-0.39|||ANCOVA|\*adjusted for baseline FPG||||-0.39|-1.06|<0.0001
82590009|NCT00698932|164893966|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.12|STANDARD_ERROR_OF_MEAN|3.053|<|0.0001||95.0|-19.12|-7.13|||ANCOVA|\*adjusted for baseline FPG||||-7.13|-19.12|<0.0001
82590010|NCT00698932|164893967|SUPERIORITY_OR_OTHER||Median Difference (Net)|-182.0|STANDARD_ERROR_OF_MEAN|54.4||0.001||95.0|-289.0|-74.0|||ANCOVA|\*adjusted for baseline PPG AUC||||-74|-289|0.001
82490840|NCT03685123|164675089|SUPERIORITY|||||||0.061|||||||Mixed Models Analysis|||||||0.061
82590011|NCT00698932|164893968|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3280.0|STANDARD_ERROR_OF_MEAN|980.0||0.001||95.0|-5214.0|-1345.0|||ANCOVA|\*adjusted for baseline PPG AUC||||-1345|-5214|0.001
82490841|NCT03685123|164675091|SUPERIORITY|Change in particle size between the PA-REC and WM-REC groups||||||0.105|||||||Mixed Models Analysis|||Change in HDL particle size||||0.105
82490842|NCT03685123|164675091|SUPERIORITY|Change in particle size between the PA-REC and the WM-REC groups||||||0.849|||||||Mixed Models Analysis|||Change in LDL particles||||0.849
82490843|NCT03685123|164675093|SUPERIORITY|||||||0.278|||||||ANOVA|||Change in steps per day from week 10 to week 28||||0.278
82590012|NCT00698932|164893969|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.0|||<|0.0001||95.0|8.9|24.9|||ANCOVA|||||24.9|8.9|<0.0001
82590013|NCT00705432|164894052|SUPERIORITY_OR_OTHER||The difference in SVR|26.6|||<|0.0001|TWO_SIDED|95.0|19.1|34.1|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for for baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||34.1|19.1|<0.0001
82590014|NCT00705432|164894052|SUPERIORITY_OR_OTHER||The difference in SVR|28.3|||<|0.0001|TWO_SIDED|95.0|20.8|35.8|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||35.8|20.8|<0.0001
82590015|NCT00705432|164894052|SUPERIORITY_OR_OTHER||The difference in SVR|19.2||||0.044|TWO_SIDED|95.0|1.6|36.9|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||36.9|1.6|0.0440
82590016|NCT00705432|164894052|SUPERIORITY_OR_OTHER||The difference in SVR|29.7||||0.0035|TWO_SIDED|95.0|12.2|47.1|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||47.1|12.2|0.0035
82590017|NCT00705432|164894053|SUPERIORITY_OR_OTHER||The difference in SVR rates|27.5|||<|0.0001|TWO_SIDED|95.0|19.2|35.2|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||35.2|19.2|<0.0001
82590018|NCT00705432|164894053|SUPERIORITY_OR_OTHER||The difference in SVR rates|29.1|||<|0.0001|TWO_SIDED|95.0|21.5|36.8|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||36.8|21.5|<0.0001
82590019|NCT00705432|164894053|SUPERIORITY_OR_OTHER||The difference in SVR|21.3||||0.0366|TWO_SIDED|95.0|2.3|40.2|||Cochran-Mantel Haenszel Chi-square test|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||40.2|2.3|0.0366
82590020|NCT00705432|164894053|SUPERIORITY_OR_OTHER||The difference in SVR|27.2||||0.0107|TWO_SIDED|95.0|9.0|45.3|||Cochran-Mantel Haenszel Chi-square|Adjustments were made for the baseline stratification factors: viral load (\>400,000 vs. ≤400,000 IU/mL) and Genotype (1a vs 1b).||||45.3|9.0|0.0107
82590021|NCT01667107|164894087|SUPERIORITY_OR_OTHER||Spearman rank correlation coefficient|0.53||||0.139|||||||Spearman rank correlation|||Spearman rank correlation between concurrent BAL and serum posaconazole concentrations||||0.139
82590022|NCT01667107|164894087|SUPERIORITY_OR_OTHER||Spearman rank correlation coefficient|0.59||||0.057|||||||Spearman rank correlation|||Spearman rank correlation between concurrent BAL and serum posaconazole concentrations||||0.057
82590023|NCT03427125|164894089|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82590024|NCT03427125|164894090|SUPERIORITY|||||||0.002|||||||ANCOVA|||||||0.0020
82590025|NCT01162239|164894117|OTHER|||||||0.62|||||||Chi-squared|||||||0.62
82590026|NCT01162239|164894118|OTHER|||||||0.91|||||||Chi-squared|||||||0.91
82590027|NCT04252287|164894153|SUPERIORITY||LS mean difference|4.3||||0.016|TWO_SIDED|95.0|0.8|7.8|||ANCOVA|||||7.8|0.8|0.016
82590028|NCT04252287|164894154|SUPERIORITY||LS mean difference|29.8||||0.852|TWO_SIDED|95.0|-284.4|344.1|||ANCOVA|||||344.1|-284.4|0.852
82653454|NCT00976664|165022228|SUPERIORITY_OR_OTHER|||||||0.3913|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in VAS for low back pain from randomization visit to 12-week visit were assessed via the Wilcoxon rank sums test.||||||.3913
82653455|NCT00976664|165022229|SUPERIORITY_OR_OTHER|||||||0.002|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in ODI for low back pain from randomization visit to 6-week visit were assessed using the Wilcoxon rank sums test.||||||.002
82490844|NCT03685123|164675094|SUPERIORITY|||||||0.238|||||||Mixed Models Analysis|||Change in SF-36 General Health (GH)||||0.238
82490845|NCT03685123|164675094|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.124|||||||Mixed Models Analysis|||Change in SF-36 Physical health (PH)||||0.124
82590029|NCT04223791|164894173|NON_INFERIORITY|Non-inferiority is concluded if the upper bound of the 2-sided multiplicity-adjusted 95% CI for the difference in the percentage of participants with HIV-1 RNA ≥50 copies/mL (DOR/ISL-BIC/FTC/TAF) is less than 4 percentage points.|Estimated difference|0.31|||<|0.001|TWO_SIDED|95.0|-1.19|1.96||p-value for the treatment differences in percent response were calculated using the unstratified Miettinen and Nurminen method.|Unstratified Miettinen and Nurminen||Treatment difference for DOR/ISL group-BIC/FTC/TAF group.|||1.96|-1.19|<.001
82590030|NCT04223791|164894174|OTHER|Difference between treatment groups|Difference in % (DOR/ISL- BIC/FTC/TAF)|-3.5|||||TWO_SIDED|95.0|-10.4|3.4|||||Based on Miettinen and Nurminen method|||3.4|-10.4|
82590031|NCT04223791|164894175|OTHER|Difference between treatment groups|Difference in % (DOR/ISL- BIC/FTC/TAF)|-0.02|||||TWO_SIDED|95.0|-2.7|2.6|||||Based on Miettinen and Nurminen method|||2.6|-2.7|
82590032|NCT04223791|164894188|SUPERIORITY||Treatment Difference|-0.3||||0.392|TWO_SIDED|95.0|-0.99|0.39|||ANCOVA|Model included terms for baseline weight, sex, race, and treatment.|Treatment difference for DOR/ISL group-BIC/FTC/TAF group.|||0.39|-0.99|0.392
82590033|NCT00395863|164894200|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 1|wilcoxon signed-rank test|||||||< 0.0001
82590034|NCT00395863|164894200|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 2|wilcoxon signed-rank test|||||||<0.0001
82590035|NCT00395863|164894200|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 3|wilcoxon signed-rank test|||||||< 0.0001
82590036|NCT00395863|164894201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001||||||Reader 1|wilcoxon signed-rank test|||||||0.0001
82590037|NCT00395863|164894201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||Reader 2|wilcoxon signed-rank test|||||||0.001
82590038|NCT00395863|164894201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||||||Reader 3|wilcoxon signed-rank test|||||||0.0002
82590039|NCT00395863|164894202|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Reader 1|wilcoxon signed-rank test|||||||<0.0001
82490846|NCT03685123|164675094|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.769|||||||Mixed Models Analysis|||Change in SF-36 role physical||||0.769
82490847|NCT03685123|164675094|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.352|||||||Mixed Models Analysis|||Change in SF-36 Bodily Pain||||0.352
82490848|NCT03685123|164675094|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.898|||||||Mixed Models Analysis|||Change in SF-36 Vitality||||0.898
82490849|NCT03685123|164675094|SUPERIORITY|Between groups analysis between the change in PA-REC Group vs. the WM-REC Group||||||0.444|||||||Mixed Models Analysis|||Change in SF-36 social function||||0.444
82490850|NCT03685123|164675094|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.537|||||||Mixed Models Analysis|||Change in SF-36 Mental Health||||0.537
82490851|NCT03685123|164675094|SUPERIORITY|||||||0.448|||||||Mixed Models Analysis|||Change in SF-36 Role Emotional||||0.448
82490852|NCT03685123|164675094|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.537|||||||Mixed Models Analysis|||Change in SF-36 Mental Health (Sum)||||0.537
82490853|NCT03685123|164675094|SUPERIORITY|Change between the PA-REC group and the WM-REC group||||||0.482|||||||Mixed Models Analysis|||Change in SF-36 Physical Health (sum)||||0.482
82490854|NCT03685123|164675096|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490855|NCT03685123|164675097|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|||||||0.37
82490856|NCT03685123|164675098|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in body fat||||<0.001
82590040|NCT00395863|164894202|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 2|wilcoxon signed-rank test|||||||<0.0001
82590041|NCT00395863|164894202|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Reader 3|wilcoxon signed-rank test|||||||<0.0001
82590042|NCT00395863|164894203|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_DEVIATION|0.22|<|0.0001||95.0|0.14|0.3||Mean difference of MultiHance minus Magnevist for change from baseline|t-test, 2 sided|||||0.30|0.14|<0.0001
82590043|NCT00395863|164894204|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.2|<|0.0001||95.0|0.22|0.38||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||0.38|0.22|<0.0001
82590044|NCT00395863|164894205|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_DEVIATION|0.19|<|0.0001||95.0|0.18|0.33||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||0.33|0.18|<0.0001
82590045|NCT00395863|164894206|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.99|STANDARD_DEVIATION|59.78||0.0062||95.0|20.72|61.26||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||61.26|20.72|0.0062
82590046|NCT00395863|164894207|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.95|STANDARD_DEVIATION|48.64||0.0027||95.0|16.57|45.33||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||45.33|16.57|0.0027
82590047|NCT00395863|164894208|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|25.04|STANDARD_DEVIATION|37.37||0.02||95.0|12.41|37.67||Mean difference of Multihance minus Magnevist for change from baseline|t-test, 2 sided|||||37.67|12.41|0.02
82590048|NCT00395863|164894209|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.77|STANDARD_DEVIATION|48.51||0.0019||95.0|14.28|51.25||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||51.25|14.28|0.0019
82590049|NCT00395863|164894210|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.61|STANDARD_DEVIATION|43.16||0.0008||95.0|16.75|50.47||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||50.47|16.75|0.0008
82590050|NCT00395863|164894211|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.72|STANDARD_DEVIATION|48.5||0.0026||95.0|14.63|52.81||Mean difference of Multihance minus Magnevist|t-test, 2 sided|||||52.81|14.63|0.0026
82590051|NCT02592551|164894212|OTHER||Median Difference (Final Values)|8.6||||0.109|TWO_SIDED||||||Wilcoxon signed rank test|||Compare in ratios of intratumoral cytotoxic T cells to regulatory T cells (CD8/Treg) between pre and post of MEDI4736+Tremelimumab||||0.109
82490857|NCT03685123|164675099|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490858|NCT03685123|164675100|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||LDL||||0.004
82590052|NCT02592551|164894213|OTHER|Compare the tissue biomarker for the immune response of ICOS+ CD4 T cells to before and after MEDI-4736 and Tremelimumab||||||1|||||||Wilcoxon signed rank test|||||||1
82590053|NCT02592551|164894214|OTHER|||||||0.461|||||||Wilcoxon signed rank test|||Compare tumor expression programmed death-ligand 1 (PD-L1) before and after treatment with combination MEDI-4736 and Tremelimumab||||0.461
82653456|NCT00976664|165022229|SUPERIORITY_OR_OTHER|||||||0.0336|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Group differences in ODI for low back pain from randomization visit to 12-week visit were assessed using the Wilcoxon rank sums test.||||||.0336
82653457|NCT02688400|165022239|NON_INFERIORITY|"Non-inferiority of Diacerein versus Celecoxib was assessed by computing the difference in the adjusted mean change from baseline (Visit 2) in WOMAC Pain subscale score after 182 days of treatment between Diacerein and Celecoxib treatment groups from a MMRM.~Assuming that:~* Non inferiority margin of 10 points for the absolute change in WOMAC Pain Subscale Score (scale 0-100)~* SD of 26 in the two treatment groups,~* Type I error: α = 0.025 (one-sided condition) and power equal to 90%"|Mean Difference (Final Values)|0.67|||<|0.025|ONE_SIDED|95.0||3.18||MMRM. Non-inferiority claim:Diacerein to be non-inferior to Celecoxib if upper bound of the the difference in the adjusted mean change was inferior to 5 cm on the PPS.|Mixed Models Analysis|||||3.18||<0.025
82490859|NCT03685123|164675100|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||Change in HDL||||0.04
82490860|NCT03685123|164675100|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in Total Cholesterol||||<0.001
82490861|NCT03685123|164675100|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Triglycerides||||<0.001
82590054|NCT02592551|164894215|OTHER|||||||0.954|||||||Wilcoxon (Mann-Whitney)|||Compare tissue biomarker immune response of CD8 and Treg (ratio of CD8/treg) after MEDI-4736 and Tremelimumab, and after MEDI4736 alone||||0.954
82590055|NCT02592551|164894216|OTHER|||||||0.799|||||||Wilcoxon (Mann-Whitney)|||Compare tissue biomarker immune response of CD8 and Treg(ratio of CD8/Treg) after MEDI-4736 and Tremelimumab, and at day 1 of untread control group||||0.799
82590056|NCT02592551|164894219|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||Compare tumor expression programmed death-ligand 1 (PD-L1) after combination therapy (MEDI-4736 and Tremelimumab) and after MEDI-4736 alone||||0.418
82590057|NCT02592551|164894220|OTHER|||||||0.932|||||||Wilcoxon (Mann-Whitney)|||Compare tumor expression programmed death-ligand 1 (PD-L1) after combination therapy (MEDI-4736 and Tremelimumab) and before and at day 1 of untreated||||0.932
82490862|NCT03685123|164675101|SUPERIORITY|||||||0.01||||||Systolic blood pressure|Mixed Models Analysis|||||||0.01
82490863|NCT03685123|164675101|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||Diastolic blood pressure||||0.001
82490864|NCT03685123|164675101|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Aortic blood pressure (mmHg)||||<0.001
82490865|NCT03685123|164675101|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in aortic diastolic pressure||||<0.001
82490866|NCT03685123|164675102|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490867|NCT03685123|164675103|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490868|NCT03685123|164675104|SUPERIORITY|||||||0.366|||||||Mixed Models Analysis|||||||0.366
82490869|NCT03685123|164675105|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490870|NCT03685123|164675107|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82490871|NCT03685123|164675108|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82490872|NCT03685123|164675109|SUPERIORITY||||||<|0.001||||||General Health|Mixed Models Analysis|||||||<0.001
82590058|NCT01086410|164894257|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.99|||||TWO_SIDED|95.0|0.87|1.12|||||Analysis was performed using Analysis of Covariance (ANCOVA) with covariates of region, sex, age, treatment, and the log of the Baseline values.|||1.12|0.87|
82590059|NCT01086410|164894257|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.97|||||TWO_SIDED|95.0|0.86|1.1|||||Analysis was performed using ANCOVA with covariates of region, sex, age, treatment, and the log of the Baseline values.|||1.10|0.86|
82590060|NCT01086410|164894257|SUPERIORITY_OR_OTHER||Ratio of least square gometric mean|0.34|||||TWO_SIDED|95.0|0.28|0.41|||||Analysis performed using ANCOVA with covariates of region, sex, age, treatment, and the log of the Baseline values.|||0.41|0.28|
82490873|NCT03685123|164675109|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Physical Health||||<0.001
82490874|NCT03685123|164675109|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||Role physical||||0.023
82490875|NCT03685123|164675109|SUPERIORITY||||||<|0.001||||||Bodily Pain|Mixed Models Analysis|||||||<0.001
82490876|NCT03685123|164675109|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Vitality||||<0.001
82490877|NCT03685123|164675109|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Social Functioning||||<0.001
82490878|NCT03685123|164675109|SUPERIORITY|||||||0.0105|||||||Mixed Models Analysis|||Mental Health||||0.0105
82490879|NCT03685123|164675109|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Role Emotional||||<0.001
82490880|NCT03685123|164675109|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||SF-36 mental health Components (sum)||||0.01
82490881|NCT03685123|164675109|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Physical Health Components Sum||||<0.001
82490882|NCT03685123|164675110|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Change in kilocalories consumed from baseline to week 10||||<0.001
82490883|NCT03685123|164675111|SUPERIORITY|||||||0.658|||||||Mixed Models Analysis|||Change in LDL Particle Size||||0.658
82490884|NCT03685123|164675111|SUPERIORITY|||||||0.07|||||||Mixed Models Analysis|||HDL participle size||||0.07
82590061|NCT04439071|164894299|OTHER|||||||0.949|||||||Log Rank|||Time to respiratory improvement was compared between treatment groups using stratified log-rank test.||||0.949
82590062|NCT04439071|164894318|OTHER|||||||0.033|||||||Log Rank|||Time to respiratory improvement was compared between treatment groups using stratified log-rank test.||||0.033
82653458|NCT02688400|165022240|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82653459|NCT02688400|165022241|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82653460|NCT02688400|165022242|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82653461|NCT02688400|165022243|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
82653462|NCT02688400|165022244|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Chi-squared|||||||0.05
82653463|NCT02688400|165022245|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82490885|NCT00621959|164675146|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.546||95.0|-0.59|0.31||If the p-value of this estimated difference is lower than 5% the mean T5SS is considered as different between the two treatment groups.|ANCOVA|ANCOVA including treatment and center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis for the primary endpoint is expressed as follows: 'The mean 24-hr reflective T5SS over the total treatment period is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.31|-0.59|0.546
82590063|NCT01002456|164894346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0|1.1|3.2|||||Proportional odds ratio to measure the trend of change in concordance with guideline recommendations, with Arm 1 as the comparator.|||3.2|1.1|
82590064|NCT01178333|164894370|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.98||||0.09|TWO_SIDED|95.0|0.9|4.36|||Regression, Cox|||||4.36|0.90|0.09
82590065|NCT01178333|164894370|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.45|TWO_SIDED|95.0|0.65|2.66|||Regression, Cox|||||2.66|0.65|0.45
82590066|NCT01178333|164894372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.76||||0.15|TWO_SIDED|95.0|0.55|40.87|||Regression, Cox|||||40.87|0.55|0.15
82590067|NCT01178333|164894372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35||||0.78|TWO_SIDED|95.0|0.16|11.25|||Regression, Cox|||||11.25|0.16|0.78
82590068|NCT01178333|164894373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.38||||0.06|TWO_SIDED|95.0|0.98|5.79|||Regression, Cox|||||5.79|0.98|0.06
82490886|NCT00621959|164675147|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08||||0.442||95.0|-0.27|0.12||If the p-value of this estimated difference is lower than 5% the mean change from baseline in overall RQLQ score is considered as different between the two treatment groups.|ANCOVA|ANCOVA on the change from baseline in overall RQLQ score including treatment and pooled center as factors and baseline mean score as covariate.|The difference presented is 'Levocetirizine 5 mg - Placebo'|The Null Hypothesis is expressed as follows: 'The mean change from baseline in overall RQLQ score at endpoint visit is not different from subjects treated with levocetirizine than subjects treated with placebo.'||0.12|-0.27|0.442
82590069|NCT01178333|164894373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.91||||0.11|TWO_SIDED|95.0|0.87|4.21|||Regression, Cox|||||4.21|0.87|0.11
82590070|NCT01178333|164894374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.8||||0.001|TWO_SIDED|95.0|1.5|5.22|||Regression, Cox|||||5.22|1.50|0.001
82590071|NCT01178333|164894374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.97||||0.02|TWO_SIDED|95.0|1.12|3.45|||Regression, Cox|||||3.45|1.12|0.02
82590072|NCT01178333|164894377|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.72
82590073|NCT01178333|164894378|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.37
82490887|NCT01758523|164675148|OTHER|||||||0.002|||||||Mixed Models Analysis|||||||0.002
82490888|NCT01758523|164675149|OTHER|||||||0.028|||||||Mixed Models Analysis|||||||0.028
82490889|NCT01758523|164675150|OTHER||Odds Ratio (OR)|2.49||||0.057|TWO_SIDED|95.0|0.96|6.45|||Chi-squared|||||6.45|0.96|0.057
82490890|NCT01758523|164675151|OTHER||Odds Ratio (OR)|5.5||||0.007|TWO_SIDED|95.0|1.5|20.7|||Fisher Exact|||||20.7|1.5|0.007
82490891|NCT01758523|164675152|OTHER|||||||0.87||||||significance for drug x AKR1C3\*2 G-carrier genotype|Mixed Models Analysis|||||||0.87
82590074|NCT01178333|164894379|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||0.02
82590075|NCT01178333|164894380|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||ANOVA|||||||0.58
82490892|NCT01758523|164675153|OTHER|||||||0.03|||||||t-test, 2 sided|||||||0.030
82490893|NCT00945893|164675189|NON_INFERIORITY_OR_EQUIVALENCE|The currently proposed study provided at least 99.9% power to rule out a rate increase of 10 percentage points assuming the true difference between the treatment groups is zero and the true fever rate is ≤ 3%. Power is also high if the true difference is slightly greater than zero and the true fever rate is ≤ 3%.|Rate difference|0.0|||||TWO_SIDED|95.0|-6.0|1.9|||Score|||The upper limit of the two-sided 95% CI was evaluated against the prespecified equivalence criterion of 10% which corresponded to the following hypotheses: H0 (null): Rate Difference ≥ 10%, HA (alternative): Rate Difference \< 10%||1.9|-6.0|
82590076|NCT01178333|164894381|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Regression, Cox|||||||0.66
82590077|NCT01178333|164894382|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||<0.01
82590078|NCT01178333|164894383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.48||||0.003|TWO_SIDED|95.0|1.35|4.55|||Regression, Cox|||||4.55|1.35|0.003
82590079|NCT01178333|164894383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.07|TWO_SIDED|95.0|0.96|2.85|||Regression, Cox|||||2.85|0.96|0.07
82590080|NCT01178333|164894385|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||P-value is to compare three groups.|Chi-squared|||||||<0.01
82590081|NCT01178333|164894386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.72|TWO_SIDED|95.0|0.56|1.49|||Regression, Cox|||||1.49|0.56|0.72
82590082|NCT01178333|164894386|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.34|TWO_SIDED|95.0|0.54|1.24|||Regression, Cox|||||1.24|0.54|0.34
82590083|NCT02606461|164894403|SUPERIORITY||Hazard Ratio (HR)|0.7026||||0.0114|TWO_SIDED|95.0|0.5191|0.9509|||Log Rank|||||0.9509|0.5191|0.0114
82590084|NCT02606461|164894405|SUPERIORITY||Hazard Ratio, log|1.1521||||0.6051|TWO_SIDED|95.0|0.5357|2.4778|||Log Rank|||||2.4778|0.5357|0.6051
82590085|NCT02092350|164894429|SUPERIORITY_OR_OTHER|||||||0.001|||||||One-sided exact test|||The primary hypothesis was that the SVR12 rate in the Immediate Treatment plus Intensive PK arm would be \>45%.||||0.001
82590086|NCT00307333|164894459|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||t-test, 2 sided|||||||0.08
82590087|NCT00307333|164894460|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||t-test, 2 sided|||||||0.47
82590088|NCT00307333|164894461|SUPERIORITY_OR_OTHER|||||||0.31||95.0|||||t-test, 2 sided|||||||0.31
82590089|NCT00307333|164894462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.61|0.99|||||HR = hazard for intervention / hazard for control|||0.99|0.61|
82590090|NCT01621542|164894512|OTHER|None specified||||||||||||||||The MTD could not be established for this study as no DLTs occurred at doses up to and including 27.0 mg|The MTD could not be established for this study as no DLTs occurred at doses up to and including 27.0 mg|||
82590091|NCT01368042|164894515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.7|STANDARD_DEVIATION|32.9||0.03|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.03
82590092|NCT01368042|164894516|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_DEVIATION|57.2||0.05|||||||Wilcoxon signed rank test-paired samples||n=231 (paired samples)|||||0.05
82590093|NCT01368042|164894517|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8|STANDARD_DEVIATION|56.4||0.003|||||||Wilcoxon signed rank test-paired samples||n=231 (paired samples)|||||0.003
82590094|NCT01368042|164894518|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.5|STANDARD_DEVIATION|30.5|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
82590095|NCT01368042|164894519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.4|STANDARD_DEVIATION|27.2|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
82590096|NCT01368042|164894520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.3|STANDARD_DEVIATION|35.3|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
82590097|NCT01368042|164894521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.7|STANDARD_DEVIATION|34.8|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||<0.001
82590098|NCT01368042|164894522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|20.9||0.38|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.38
82590099|NCT01368042|164894523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|STANDARD_DEVIATION|32.0|<|0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||<0.001
82590100|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.03|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Physical functioning scale||||0.03
82590101|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.02|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Role functioning due to physical health scale||||0.02
82590102|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.01|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Role functioning due to emotional problems scale||||0.01
82590103|NCT01368042|164894524|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Energy/fatigue scale||||<0.001
82590104|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.002|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Emotional well-being scale||||0.002
82590105|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.002|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Social functioning scale||||0.002
82590106|NCT01368042|164894524|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||Bodily pain scale||||<0.001
82590107|NCT01368042|164894524|SUPERIORITY_OR_OTHER|||||||0.56|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||General health perceptions scale||||0.56
82653464|NCT02688400|165022246|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82590108|NCT01368042|164894525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_DEVIATION|41.6||0.001|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.001
82590109|NCT01368042|164894526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|1.4||0.03|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.03
82590110|NCT01368042|164894527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|0.9||0.06|||||||Wilcoxon signed rank test-paired samples||n=235 (paired samples)|||||0.06
82590111|NCT01368042|164894528|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|STANDARD_DEVIATION|1.7||0.84|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.84
82590112|NCT01368042|164894529|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_DEVIATION|16.5||0.67|||||||Wilcoxon signed rank test-paired samples||n=234 (paired samples)|||||0.67
82590113|NCT01368042|164894530|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.4|STANDARD_DEVIATION|324.8||0.02|||||||Wilcoxon signed rank test-paired samples||n= 215 (paired samples)|||||0.02
82590114|NCT01368042|164894531|SUPERIORITY_OR_OTHER|||||||0.12|||||||Generalized Estimating Equation approach|Generalized Estimating Equation approach (autoregressive structure)||||||0.12
82590115|NCT02632721|164894548|OTHER||Probability of DLT rate in [0.16, 0.33)|0.081|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82590116|NCT02632721|164894548|OTHER||Probability of DLT rate in [0.33, 1)|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82590117|NCT02632721|164894548|OTHER||Probability of DLT rate in [0.16, 0.33)|0.028|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82590118|NCT02632721|164894548|OTHER||Posterior probability of the DLT rate ly|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82653465|NCT02688400|165022247|SUPERIORITY|||||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.05
82653466|NCT01816477|165022332|SUPERIORITY_OR_OTHER|||||||0.55|||||||t-test, 2 sided|||||||0.55
82653467|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.0872|||||||Unequal Variance T-Test|||Comparison between the groups for day 1.||||0.0872
82653468|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.6751|||||||Unequal Variance T-Test|||Comparison between groups for day 2.||||0.6751
82653469|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.1203|||||||Unequal Variance T-Test|||Comparison between groups for day 3.||||0.1203
82653470|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.3582|||||||Unequal Variance T-Test|||Comparison between groups for day 4.||||0.3582
82490894|NCT00945893|164675190|SUPERIORITY_OR_OTHER||rate difference|2.5|||||TWO_SIDED|95.0|-8.8|7.7|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||7.7|-8.8|
82490895|NCT00945893|164675191|SUPERIORITY_OR_OTHER||rate difference|6.1|||||TWO_SIDED|95.0|-5.6|12.6|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the two-sided 95% exact CIs for the rate difference (Vaccine minus Placebo).||12.6|-5.6|
82490896|NCT00945893|164675192|SUPERIORITY_OR_OTHER||rate difference|9.3|||||TWO_SIDED|95.0|-0.8|16.3|||score|||The number of participants who experienced a post-dose seroresponse was compared based on the upper limit of the limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||16.3|-0.8|
82490897|NCT00945893|164675193|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|10.0|||||TWO_SIDED|95.0|-4.1|22.8|||Score|||||22.8|-4.1|
82490898|NCT00945893|164675196|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|0.4|||||TWO_SIDED|95.0|-13.9|14.5|||Score|||||14.5|-13.9|
82490899|NCT00945893|164675199|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|-0.5|||||TWO_SIDED|95.0|-14.7|11.8|||Score|||||11.8|-14.7|
82490900|NCT00945893|164675202|NON_INFERIORITY_OR_EQUIVALENCE|Rates of solicited symptoms following each dose (Days 1 to 8 and Days 1 to 15) between the two treatment groups were compared following each dose. Exact two-sided 95% CIs (Chan and Zhang, 1999) on the rate difference (monovalent vaccine minus placebo) were constructed. There were no prespecified equivalence criteria for the secondary analyses.|Rate difference|2.0|||||TWO_SIDED|95.0|-12.6|14.9|||Score|||||14.9|-12.6|
82490901|NCT00945893|164675211|SUPERIORITY_OR_OTHER||rate difference|5.8|||||TWO_SIDED|95.0|-7.7|13.8|||score|||The number of participants who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||13.8|-7.7|
82490902|NCT00945893|164675212|SUPERIORITY_OR_OTHER||rate difference|-6.0|||||TWO_SIDED|95.0|-23.5|5.3|||score|||The number of participants who achieved a post Dose 1 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||5.3|-23.5|
82490903|NCT00945893|164675213|SUPERIORITY_OR_OTHER||rate difference|2.4|||||TWO_SIDED|95.0|-9.3|10.8|||score|||The number of participants who achieved a post Dose 2 HAI titer greater than or equal to 32 against the H1N1 strain was compared based on the upper limit of the two-sided 95% exact CI for the rate difference (Vaccine minus Placebo).||10.8|-9.3|
82490904|NCT02012283|164675226|OTHER|paired t-test|Mean Difference (Final Values)|78.4||||0.001|TWO_SIDED|95.0||||p\<0.05 is defined as significant|t-test, 2 sided|||Difference between plain and spiced broccoli intake was compared.||||0.001
82490905|NCT02012283|164675227|OTHER|paired t-test|Mean Difference (Final Values)|101.3||||0.031|TWO_SIDED|||||p\<0.05 is defined as significant.|t-test, 2 sided|||Comparison was made to the broccoli intake with and without spices among low restraint eaters vs. the change among high restraint eaters.||||0.031
82490906|NCT00144391|164675228|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|||||||0.08
82490907|NCT00142935|164675258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared, Corrected|||Outcome: engage in treatment post release, yes or no||||<0.001
82490908|NCT00142935|164675259|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared, Corrected|||||||.02
82490909|NCT00142935|164675260|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Chi-squared, Corrected|||||||.09
82490910|NCT00142935|164675261|SUPERIORITY_OR_OTHER|||||||0.09|||||||Chi-squared, Corrected|||||||.09
82490911|NCT00142935|164675263|SUPERIORITY_OR_OTHER|||||||0.8|||||||Chi-squared, Corrected|||||||0.8
82490912|NCT00705289|164675271|SUPERIORITY_OR_OTHER||Pearson Product Moment Correlation|0.1402||||0.0003|||||||Test for non-zero correlation|||Relationship between baseline DAS28 and age (prior to infliximab therapy)||||0.0003
82490913|NCT00705289|164675272|SUPERIORITY_OR_OTHER||Pearson Product Moment Correlation|-0.01||||0.7991||95.0|||||Test for non-zero correlation|||Relationship between baseline DAS28 and time since diagnosis (prior to infliximab therapy)||||0.7991
82490914|NCT00705289|164675273|SUPERIORITY_OR_OTHER|||||||0.7152||95.0|||||ANOVA|The association between Baseline DAS28 and gender is based on a one-way Anova.||Relationship between baseline DAS28 and gender (prior to infliximab therapy)||||0.7152
82490915|NCT00705289|164675274|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Relationship between DAS28 and Country of Residence was based on a 1-way ANOVA calculated as P-value.||Relationship between baseline DAS28 and country of residence (prior to infliximab therapy)||||<0.0001
82490916|NCT00705289|164675275|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.2|STANDARD_DEVIATION|1.15||||95.0|5.1|5.3||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (all subjects, prior to infliximab therapy)||5.3|5.1|
82490917|NCT00705289|164675275|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.3|STANDARD_DEVIATION|1.16||||95.0|5.0|5.5||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with early RA, not treated with anti-TNF; prior to infliximab therapy)||5.5|5.0|
82490918|NCT00705289|164675275|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.2|STANDARD_DEVIATION|1.14||||95.0|5.1|5.3||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with established RA not treated with anti-TNF; prior to infliximab therapy)||5.3|5.1|
82490919|NCT00705289|164675275|SUPERIORITY_OR_OTHER||Mean Baseline DAS28 Raw Score|5.3|STANDARD_DEVIATION|1.16||||95.0|5.1|5.5||||||Relationship between Baseline DAS28 and previous anti-TNF therapy (subjects with established RA who failed or did not tolerate another anti-TNF; prior to infliximab therapy)||5.5|5.1|
82653471|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.0625|||||||Unequal Variance T-Test|||Comparison between groups for day 5||||0.0625
82490920|NCT01419626|164675308|SUPERIORITY||Difference in LS mean|-0.461|||<|0.001|TWO_SIDED|95.0|-0.581|-0.341|||ANCOVA|||Statistical analysis at Week 4||-0.341|-0.581|<0.001
82490921|NCT01419626|164675308|SUPERIORITY||Difference in LS mean|-0.669|||<|0.001|TWO_SIDED|95.0|-0.789|-0.549|||ANCOVA|||Statistical analysis at Week 4||-0.549|-0.789|<0.001
82490922|NCT01419626|164675308|SUPERIORITY|Statistical analysis at Week 4|Difference in LS mean|-0.208|||<|0.001|TWO_SIDED|95.0|-0.326|-0.09|||ANCOVA|||||-0.090|-0.326|<0.001
82490923|NCT01419626|164675309|SUPERIORITY||Difference in LS mean|-0.494|||<|0.001|TWO_SIDED|95.0|-0.625|-0.363|||ANCOVA|||Statistical analysis at Week 4||-0.363|-0.625|<0.001
82490924|NCT01419626|164675309|SUPERIORITY||Difference in LS mean|-0.697|||<|0.001|TWO_SIDED|95.0|-0.828|-0.567|||ANCOVA|||Statistical analysis at Week 4||-0.567|-0.828|<0.001
82490925|NCT01419626|164675309|SUPERIORITY||Difference in LS mean|-0.203||||0.002||95.0|-0.333|-0.074|||ANCOVA|||Statistical analysis at Week 4||-0.074|-0.333|0.002
82490926|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.04|||<|0.001|TWO_SIDED|95.0|-0.059|-0.021|||ANCOVA|||Statistical analysis at Week 2||-0.021|-0.059|<0.001
82590119|NCT02632721|164894548|OTHER||Probability of DLT rate in [0.16, 0.33)|0.012|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.16, 0.33) (target dosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82653472|NCT01816477|165022333|SUPERIORITY_OR_OTHER|||||||0.0484|||||||Unequal Variance T-Test|||Comparison between groups for day 6.||||0.0484
82490927|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.044|||<|0.001||95.0|-0.064|-0.025|||ANCOVA|||Statistical analysis at Week 2||-0.025|-0.064|<0.001
82490928|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.004||||0.671|TWO_SIDED|95.0|-0.023|0.015|||ANCOVA|||Statistical analysis at Week 2||0.015|-0.023|0.671
82490929|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.091|||<|0.001|TWO_SIDED|95.0|-0.121|-0.061|||ANCOVA|||Statistical analysis at Week 4||-0.061|-0.121|<0.001
82490930|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.144|||<|0.001|TWO_SIDED|95.0|-0.175|-0.114|||ANCOVA|||Statistical analysis at Week 4||-0.114|-0.175|<0.001
82490931|NCT01419626|164675310|SUPERIORITY||Difference in LS mean|-0.053|||<|0.001|TWO_SIDED|95.0|-0.083|-0.023|||ANCOVA|||Statistical analysis at Week 4||-0.023|-0.083|<0.001
82490932|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.09|||<|0.001|TWO_SIDED|95.0|-0.115|-0.065|||ANCOVA|||Statistical analysis at Week 2||-0.065|-0.115|<0.001
82490933|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.164|||<|0.001|TWO_SIDED|95.0|-0.189|-0.138|||ANCOVA|||Statistical analysis at Week 2||-0.138|-0.189|<0.001
82490934|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.073|||<|0.001|TWO_SIDED|95.0|-0.099|-0.048|||ANCOVA|||Statistical analysis at Week 2||-0.048|-0.099|<0.001
82490935|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.15|||<|0.001|TWO_SIDED|95.0|-0.18|-0.12|||ANCOVA|||Statistical analysis at Week 4||-0.120|-0.180|<0.001
82490936|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.257|||<|0.001|TWO_SIDED|95.0|-0.287|-0.226|||ANCOVA|||Statistical analysis at Week 4||-0.226|-0.287|<0.001
82490937|NCT01419626|164675311|SUPERIORITY||Difference in LS mean|-0.107|||<|0.001|TWO_SIDED|95.0|-0.137|-0.077|||ANCOVA|||Statistical analysis at Week 4||-0.077|-0.137|<0.001
82490938|NCT01419626|164675312|SUPERIORITY||Difference in LS mean|-0.362|||<|0.001|TWO_SIDED|95.0|-0.465|-0.259|||ANCOVA|||Statistical analysis at Week 2||-0.259|-0.465|<0.001
82490939|NCT01419626|164675312|SUPERIORITY||Difference in LS mean|-0.534|||<|0.001|TWO_SIDED|95.0|-0.637|-0.431|||ANCOVA|||Statistical analysis at Week 2||-0.431|-0.637|<0.001
82490940|NCT01419626|164675312|SUPERIORITY||Difference in LS mean|-0.171||||0.001|TWO_SIDED|95.0|-0.273|-0.069|||ANCOVA|||Statistical analysis at Week 2||-0.069|-0.273|0.001
82490941|NCT01419626|164675313|SUPERIORITY||Difference in LS mean|-0.401|||<|0.001|TWO_SIDED|95.0|-0.51|-0.292|||ANCOVA|||Statistical analysis at Week 2||-0.292|-0.510|<0.001
82490942|NCT01419626|164675313|SUPERIORITY||Difference in LS mean|-0.558|||<|0.001|TWO_SIDED|95.0|-0.667|-0.449|||ANCOVA|||Statistical analysis at Week 2||-0.449|-0.667|<0.001
82490943|NCT01419626|164675313|SUPERIORITY||Difference in LS mean|-0.157|||<|0.001|TWO_SIDED|95.0|-0.265|-0.049|||ANCOVA|||Statistical analysis at Week 2||-0.049|-0.265|<0.001
82490944|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.03|||<|0.001|TWO_SIDED|95.0|-0.046|-0.014|||ANCOVA|||Statistical analysis at Week 2||-0.014|-0.046|<0.001
82490945|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.039|||<|0.001|TWO_SIDED|95.0|-0.055|-0.023|||ANCOVA|||Statistical analysis at Week 2||-0.023|-0.055|<0.001
82490946|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.009||||0.294|TWO_SIDED|95.0|-0.025|0.007|||ANCOVA|||Statistical analysis at Week 2||0.007|-0.025|0.294
82490947|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.019||||0.02|TWO_SIDED|95.0|-0.035|-0.003|||ANCOVA|||Statistical analysis at Week 4||-0.003|-0.035|0.020
82490948|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.034|||<|0.001|TWO_SIDED|95.0|-0.05|-0.018|||ANCOVA|||Statistical analysis at Week 4||-0.018|-0.050|<0.001
82490949|NCT01419626|164675314|SUPERIORITY||Difference in LS mean|-0.015||||0.071|TWO_SIDED|95.0|-0.031|0.001|||ANCOVA|||Statistical analysis at Week 4||0.001|-0.031|0.071
82490950|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.067|||<|0.001||95.0|-0.083|-0.05|||ANCOVA|||Statistical analysis at Week 2||-0.050|-0.083|<0.001
82490951|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.083|||<|0.001|TWO_SIDED|95.0|-0.099|-0.066|||ANCOVA|||Statistical analysis at Week 2||-0.066|-0.099|<0.001
82490952|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.016||||0.057|TWO_SIDED|95.0|-0.032|0.0|||ANCOVA|||Statistical analysis at Week 2||0.000|-0.032|0.057
82490953|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.077|||<|0.001|TWO_SIDED|95.0|-0.095|-0.059|||ANCOVA|||Statistical analysis at Week 4||-0.059|-0.095|<0.001
82490954|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.101|||<|0.001|TWO_SIDED|95.0|-0.12|-0.083|||ANCOVA|||Statistical analysis at Week 4||-0.083|-0.120|<0.001
82490955|NCT01419626|164675315|SUPERIORITY||Difference in LS mean|-0.024||||0.009|TWO_SIDED|95.0|-0.042|-0.006|||ANCOVA|||Statistical analysis at Week 4||-0.006|-0.042|0.009
82653473|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.6465|||||||Unequal Variance T-Test|||Comparison between the groups for day 1.||||0.6465
82653474|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.9233|||||||Unequal Variance T-Test|||Comparison between groups for day 2.||||0.9233
82653475|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.5788|||||||Unequal Variance T-Test|||Comparison between groups for day 3.||||0.5788
82590120|NCT02632721|164894548|OTHER||Probability of DLT rate in [0.33, 1)|0.0|||||||||||||Posterior probability of the DLT rate lying in the interval \[0.33,1) (overdosing) is reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.||||
82490956|NCT01145625|164675332|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was claimed if the lower limit of the 95% Confidence Interval (CI) was greater than -6.565.|Mean Difference (Final Values)|-0.3||||0.917|TWO_SIDED|95.0|-6.0|5.4|||ANCOVA|P-Value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 24 data.||5.4|-6.0|0.9170
82490957|NCT01145625|164675333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||<|0.4158|TWO_SIDED|95.0|-3.4|8.2|||ANCOVA|P-Value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 12 data.||8.2|-3.4|<0.4158
82490958|NCT01145625|164675334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5||||0.598|TWO_SIDED|95.0|-7.1|4.1|||ANCOVA|P-value and confidence interval are from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is for the change from baseline to week 52 data.||4.1|-7.1|0.5980
82490959|NCT00885846|164675341|NON_INFERIORITY_OR_EQUIVALENCE|Regression analysis performed for equal variance at baseline.||||||0.664||95.0|||||Repeated ANOVA|degrees of freedom = 2||Power analysis suggested 27 participants, 9 in each group.||||0.664
82490960|NCT01952145|164675342|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of IDegLira versus IGlar was considered as confirmed, if the 95% confidence interval (CI) for the mean treatment difference was entirely below 0.30%.|Treatment contrast|-0.59|||<|0.001|TWO_SIDED|95.0|-0.74|-0.45|||ANCOVA|||This primary endpoint was analysed on the FAS using an ANCOVA model with treatment and region as fixed effects and baseline HbA1c value as covariate.||-0.45|-0.74|< 0.001
82490961|NCT02130570|164675360|SUPERIORITY||Incidence rate ratio|0.52||||0.02|TWO_SIDED|95.0|0.3|0.91||This is the P-value for the adjusted IRR.|Regression poissant|"Please see the Other Statistical Analysis field for adjustments."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score, inpatient unit, and primary care practice. IRR: incidence rate ratio|0.91|0.30|0.02
82490962|NCT02130570|164675361|SUPERIORITY||Incidence rate ratio|0.78||||0.01|TWO_SIDED|95.0|0.64|0.95||This is the p-value for the adjusted rate|Regression poissant|"For adjustments, please see the Other Statistical Analysis field below."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score, inpatient unit, and primary care practice. IRR: incidence rate ratio|0.95|0.64|0.01
82490963|NCT02130570|164675362|SUPERIORITY||Odds Ratio (OR)|1.08||||0.77|TWO_SIDED|95.0|0.64|1.85||This is the P-value for the adjusted Odds Ratio|Regression, Logistic|"For adjustments, please see the Other Statistical Analysis field below."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score; clustered by inpatient unit; primary care practice as a random effect . OR: odds ratio|1.85|0.64|0.77
82490964|NCT02130570|164675363|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.91|TWO_SIDED|||||This is the P-value for the adjusted difference.|Regression, Linear|"Please see the Other Statistical Analysis field for adjustments."|||Adjusted for study month, Elixhauser comorbidity score, patient age, sex, language, race/ethnicity, cognitive status, health literacy, functional status one month prior to admission, caregiver status, median income by zip code, ED visits in the previous 6 months, HOSPITAL readmission risk score; clustered by inpatient unit; primary care practice as a random effect.|||0.91
82490965|NCT02130570|164675364|SUPERIORITY||Odds Ratio, log|0.85||||0.57|TWO_SIDED|95.0|0.47|1.51||"Please see the Other Statistical Analysis field for adjustments and the P-value computed for each survey question."|Regression, Logistic||"Please see the Other Statistical Analysis field for a list of the estimated value and 95% CI for each survey question."||"Please see the Other Statistical Analysis field for adjustments."|1.51|0.47|0.57
82490966|NCT04424888|164675367|SUPERIORITY|||||||0.21875|||||||Wilcoxon (Mann-Whitney)|||||||0.21875
82490967|NCT04424888|164675368|SUPERIORITY|||||||0.90625|||||||Wilcoxon (Mann-Whitney)|||||||0.90625
82490968|NCT04424888|164675369|SUPERIORITY|||||||0.02|||||||t-test, 1 sided|||Paired t-test for the species Akkermansia Munciphilae.||||0.020
82590121|NCT04207801|164894558|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Efficacy of AUR101 was tested against placebo with respect to the primary endpoint (PASI75 response). A sample size of 25 in each of the three arms provided an 80% power with a one-sided Type I error of 0.05, if the true placebo response rate was 7% and the response rate on investigational arm(s) was 35%. The sample size was increased to 30 to account for \~ 15-20% dropouts over the study period.||||0.01
82653476|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.1036|||||||Unequal Variance T-Test|||Comparison between the groups for day 4.||||0.1036
82490969|NCT04424888|164675369|SUPERIORITY|||||||0.078|||||||t-test, 1 sided|||Paired t-test for the species Bifidobacterium infantis.||||0.078
82490970|NCT04424888|164675369|SUPERIORITY|||||||||||||||||Paired t-test for the species Clostridium beijerinckii.|No statistical test was conducted since Clostridium beijerinckii was not detected in any sample.|||
82490971|NCT04424888|164675369|SUPERIORITY|||||||0.2|||||||t-test, 1 sided|||Paired t-test for the species Clostridium butyricum.||||0.20
82490972|NCT04424888|164675369|SUPERIORITY|||||||0.12|||||||t-test, 1 sided|||Paired t-test for the species Anaerobutyricum hallii.||||0.12
82490973|NCT04424888|164675370|OTHER||||||||||||||||||All participants had the same number of sensors (3) throughout the study, so no statistical analysis is conducted.|||
82590122|NCT01572675|164894575|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||p-student|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for duration of prescription at enrollment||||<0.001
82653477|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.5314|||||||Unequal Variance T-Test|||Comparison between groups for day 5.||||0.5314
82653478|NCT01816477|165022334|SUPERIORITY_OR_OTHER|||||||0.7166|||||||Unequal Variance T-Test|||Comparison between groups for day 6.||||0.7166
82590123|NCT01572675|164894575|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||p-student|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for duration of prescription at enrollment||||<0.001
82590124|NCT01572675|164894580|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||Duration of treatment comparison (More than one year vs Up to thirty days) for intermittent selective COX-2 inhibitor use. The analysis assessed whether long-term treatment was more correlated with intermittent selective COX-2 inhibitor use compared to short-term treatment.||||<0.001
82590125|NCT01572675|164894583|SUPERIORITY_OR_OTHER_LEGACY|||||||0.104|||||||Chi-squared|||Group comparison (Arcoxia® vs Celebrex®) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.104
82590126|NCT01572675|164894583|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.0049
82590127|NCT01572675|164894583|SUPERIORITY_OR_OTHER_LEGACY|||||||0.618|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for controlled BP (SBP \<140 mmHg and DBP \<90 mmHg) at study entry||||0.618
82590128|NCT01572675|164894584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for medical history of arterial hypertension||||0.012
82590129|NCT01572675|164894584|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for medical history of arterial hypertension||||0.175
82590130|NCT01572675|164894586|SUPERIORITY_OR_OTHER_LEGACY|||||||0.701|||||||Chi-squared|||Group comparison (Arcoxia® \[Initiation\] vs Arcoxia® \[Renewal\]) for significant past treatments||||0.701
82590131|NCT01572675|164894586|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Chi-squared|||Group comparison (Celebrex® \[Initiation\] vs Celebrex® \[Renewal\]) for significant past treatments||||0.007
82590132|NCT01572675|164894586|SUPERIORITY_OR_OTHER_LEGACY|||||||0.955|||||||Chi-squared|||Group comparison (Arcoxia® vs Celebrex®) for significant past treatments||||0.955
82590133|NCT01572675|164894589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.049|||||||Fisher Exact|||Group comparsion (Arcoxia® vs Celebrex®) for previous treatment with other agents prior to initiation of Arcoxia® and Celebrex® for the main study indications||||0.049
82590134|NCT01572675|164894592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.165|||||||Chi-squared|||Group comparsion (Arcoxia® vs Celebrex®) of adverse events experienced during treatment||||0.165
82653479|NCT00108732|165022335|SUPERIORITY_OR_OTHER||Percent|62.5|||||TWO_SIDED|90.0|48.3|75.3||||||||75.3|48.3|
82490974|NCT04424888|164675371|SUPERIORITY|||||||0.41|||||||t-test, 1 sided|||We test whether the average number of daily photos is greater in period 1 than in period 2.||||0.41
82590135|NCT03346057|164894594|OTHER||Estimated Difference in percentage|-6.7||||0.026|TWO_SIDED|95.0|-17.5|-0.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by neuromuscular blocking agent (NMBA) and American Society of Anesthesiologists (ASA) class was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-0.8|-17.5|0.026
82590136|NCT03346057|164894594|OTHER||Estimated Difference in percentage|-6.2||||0.058|TWO_SIDED|95.0|-17.3|0.2|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||0.2|-17.3|0.058
82590137|NCT03346057|164894594|OTHER||Estimated Difference in percentage|-2.0||||0.73|TWO_SIDED|95.0|-17.8|8.6|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||8.6|-17.8|0.730
82590138|NCT03346057|164894595|OTHER||Estimated Difference in percentage|-14.9||||0.007|TWO_SIDED|95.0|-28.8|-4.0|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-4.0|-28.8|0.007
82590139|NCT03346057|164894595|OTHER||Estimated Difference in percentage|-12.2||||0.036|TWO_SIDED|95.0|-26.1|-0.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||-0.8|-26.1|0.036
82590140|NCT03346057|164894595|OTHER||Estimated Difference in percentage|-9.9||||0.158|TWO_SIDED|95.0|-27.6|3.6|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||3.6|-27.6|0.158
82590141|NCT03346057|164894596|OTHER||Estimated Difference in percentage|-0.9||||0.637|TWO_SIDED|95.0|-9.4|4.0|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||4.0|-9.4|0.637
82590142|NCT03346057|164894596|OTHER||Estimated Difference in percentage|-2.1||||0.134|TWO_SIDED|95.0|-10.6|1.5|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||1.5|-10.6|0.134
82590143|NCT03346057|164894596|OTHER||Estimated Difference in percentage|-1.7||||0.577|TWO_SIDED|95.0|-14.7|5.8|||Stratified Miettinen & Nurminen method|||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference, 95% confidence interval, and p-value||5.8|-14.7|0.577
82590144|NCT03346057|164894597|OTHER||Estimated Difference in percentage|6.2|||||TWO_SIDED|95.0|-2.6|18.5||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||18.5|-2.6|
82590145|NCT03346057|164894597|OTHER||Estimated Difference in percentage|0.5|||||TWO_SIDED|95.0|-9.3|13.1||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||13.1|-9.3|
82653480|NCT00108732|165022336|SUPERIORITY_OR_OTHER||Response rate (percent)|0.0|||||TWO_SIDED|90.0|0.0|7.2||||||||7.2|0|
82653481|NCT00108732|165022337|SUPERIORITY_OR_OTHER||median of difference|0.45||||0.003||95.0|||||Wilcoxon signed rank test|The Wilcoxon signed rank test was used to test the difference between day 4 PSA and day 15 PSA.||||||0.003
82653482|NCT00108732|165022338|SUPERIORITY_OR_OTHER||median of difference|-0.04||||0.02||95.0||||The Wilcoxon signed-rank test was used to test the difference between pre and post-treatment PSA slopes assessed by multiple PSA values on natural log scale using a piecewise linear model with a common knot point at the date of registration.|Wilcoxon signed rank test|||||||0.02
82490975|NCT04424888|164675372|SUPERIORITY|||||||0.13|||||||t-test, 1 sided|||We test whether the average time between consecutive scans is smaller in period 1 than in period 2.||||0.13
82590146|NCT03346057|164894597|OTHER||Estimated Difference in percentage|2.0|||||TWO_SIDED|95.0|-8.4|17.7||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||17.7|-8.4|
82590147|NCT03346057|164894598|OTHER||Estimated Difference in percentage|5.6|||||TWO_SIDED|95.0|-5.5|14.3||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||14.3|-5.5|
82590148|NCT03346057|164894598|OTHER||Estimated Difference in percentage|1.5|||||TWO_SIDED|95.0|-9.2|9.3||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||9.3|-9.2|
82590149|NCT03346057|164894598|OTHER||Estimated Difference in percentage|0.9|||||TWO_SIDED|95.0|-15.1|12.7||||||Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||12.7|-15.1|
82590150|NCT03346057|164894599|OTHER||Estimated Difference in percentage|-2.1|||||TWO_SIDED|95.0|-11.8|3.8||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 2 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||3.8|-11.8|
82590151|NCT03346057|164894599|OTHER||Estimated Difference in percentage|1.8|||||TWO_SIDED|95.0|-8.1|8.4||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 4 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||8.4|-8.1|
82590152|NCT03346057|164894599|OTHER||Estimated Difference in percentage|1.1|||||TWO_SIDED|95.0|-13.5|11.1||||||The percentage of participants experiencing one or more ECIs was compared between the Sugammadex 16 mg/kg arm and the Neostigmine plus Glycopyrrolate arm. Miettinen \& Nurminen method stratified by NMBA and ASA was used to provide estimated between-treatment difference and 95% confidence interval||11.1|-13.5|
82590153|NCT02281357|164894682|SUPERIORITY|The null hypothesis was that the average percentage change in OCS dose on tralokinumab was equal to the average percentage change in OCS dose on placebo.|LS Mean difference|-7.78||||0.271|TWO_SIDED|95.0|-21.7|6.15|||ANCOVA|The analysis of covariance (ANCOVA) model utilised a sandwich estimator for the variance.|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate. No interaction terms were included in the model. All group comparisons from the ANCOVA model were based on Type III sums of squares.|Comparison of percent change from baseline in OCS dose: tralokinumab vs placebo.||6.15|-21.70|0.271
82590154|NCT02281357|164894683|SUPERIORITY||Odds Ratio (OR)|1.33||||0.442|TWO_SIDED|95.0|0.65|2.73|||Regression, Logistic|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate.||Comparison of OCS dose ≤5.0 mg: tralokinumab vs placebo.||2.73|0.65|0.442
82590155|NCT02281357|164894684|SUPERIORITY||Odds Ratio (OR)|1.38||||0.356|TWO_SIDED|95.0|0.7|2.74|||Regression, Logistic|The model included treatment group as a fixed effect and baseline OCS dose as a continuous covariate.||Comparison of ≥50% reduction in OCS dose: tralokinumab vs placebo.||2.74|0.70|0.356
82590156|NCT02281357|164894685|SUPERIORITY||Rate Ratio|0.8||||0.186|TWO_SIDED|95.0|0.57|1.12|||Negative binomial||Treatment group, OCS dose at baseline, and number of exacerbations in the previous year are included in the model as covariates.|Comparison of AAER: tralokinumab vs placebo.||1.12|0.57|0.186
82653483|NCT01901055|165022345|SUPERIORITY||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.18||0.017|TWO_SIDED|95.0|-0.68|0.04||F-test statistics for group X time = 4.27|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|Statistical analyses were revised from the original protocol for reporting results at 24 week because unable to recruit an adequate sample size at this time point of participants originally on CPAP for 24 weeks and those who were in the original sham-CPAP group who crossed over to CPAP and completed 24 weeks of treatment.||0.04|-0.68|0.017
82490976|NCT03863197|164675380|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490977|NCT03863197|164675381|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490978|NCT03863197|164675382|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82590157|NCT00228566|164894686|SUPERIORITY_OR_OTHER||% Responders = 201/241|83.4||||||95.0|78.7|88.1|||Descriptive Statistics||The Overall Endpoint includes the last postbaseline value for each patient in the full analysis set, regardless of evaluation period. The Number of Responders (at least minimal improvement) at this Overall Endpoint equaled a total of 201 patients.|This was an open label study, with all patients receiving treatment with armodafinil||88.1|78.7|
82590158|NCT02877927|164894716|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|5.0|||||TWO_SIDED|95.0|-0.2|10.3|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||10.3|-0.2|
82590159|NCT02877927|164894717|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|3.3|||||TWO_SIDED|95.0|-2.2|8.9|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||8.9|-2.2|
82590160|NCT02877927|164894718|NON_INFERIORITY|A non-inferiority margin of 10% was used for the analysis.|treatment difference|2.3|||||TWO_SIDED|95.0|-0.6|5.6|||||The 95% confidence interval was constructed based on the Miettinen and Nurminen method without stratification. Treatment difference for a response of clinical success was calculated as omadacycline minus linezolid.|||5.6|-0.6|
82653484|NCT01901055|165022346|SUPERIORITY||Mean Difference (Net)|-16.78|STANDARD_ERROR_OF_MEAN|10.99||0.307|TWO_SIDED|95.0|-38.66|5.09||F test statistics for group X time = 1.20|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||5.09|-38.66|0.307
82490979|NCT03863197|164675383|SUPERIORITY||||||<|0.01||||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490980|NCT03863197|164675384|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490981|NCT03863197|164675385|SUPERIORITY||||||<|0.01||||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490982|NCT03863197|164675389|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82490983|NCT03863197|164675390|SUPERIORITY||||||<|0.01|TWO_SIDED|95.0||||The α-level was adjusted to p ≤ 0.01 since multiple parameters were evaluated for most research questions, with a maximum of 5 parameters (functional strength)|Mixed Models Analysis|||||||<0.01
82590161|NCT00601250|164894719|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.78|-0.5|||ANCOVA|||Linagliptin vs. Placebo||-0.5|-0.78|<0.0001
82590162|NCT00601250|164894720|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.431|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.53|-0.333|||ANCOVA|||Linagliptin vs. Placebo||-0.333|-0.530|<0.0001
82590163|NCT00601250|164894721|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.596|STANDARD_ERROR_OF_MEAN|0.064|<|0.0001||95.0|-0.721|-0.471|||ANCOVA|||Linagliptin vs. Placebo||-0.471|-0.721|<0.0001
82653485|NCT01901055|165022347|SUPERIORITY||Mean Difference (Net)|-0.25|STANDARD_ERROR_OF_MEAN|0.3||0.732|TWO_SIDED|95.0|-0.85|0.35||F test statistics for group X time = 0.31|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.35|-0.85|0.732
82490984|NCT01065597|164675391|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||t-test, 2 sided|This was a paired t-test.||||||0.001
82490985|NCT01065597|164675392|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||t-test, 2 sided|This was a paired t-test.||||||>0.05
82490986|NCT01065597|164675394|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82490987|NCT01032174|164675435|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||The logistic regression model contained terms for treatment, gender and age.|Regression, Logistic|||||||<0.0001
82490988|NCT01032174|164675436|SUPERIORITY_OR_OTHER||Difference of Least Square Mean|1.06|STANDARD_ERROR_OF_MEAN|0.55||0.0568|TWO_SIDED|95.0|-0.03|2.15||The analysis of covariance (ANCOVA) model contained terms for treatment, gender, age and Body Mass Index (BMI).|ANCOVA|Least square mean was adjusted for gender, age and BMI.||||2.15|-0.03|0.0568
82490989|NCT01032174|164675437|SUPERIORITY_OR_OTHER|||||||0.0682|TWO_SIDED|||||The logistic regression model contained terms for treatment, gender and age.|Regression, Logistic|||||||0.0682
82490990|NCT00467857|164675452|SUPERIORITY_OR_OTHER|||||||0.655||95.0|||||Wilcoxon-Rank Sum Test|||The sample size determination was selected to achieve 80% power to detect an absolute 10% difference between the two treatment groups in proportion of qualitative reduction in representative skin flora, at a significance level (alpha) of 0.05 using a two-sided z-test with continuity correction.||||0.655
82490991|NCT00467857|164675453|SUPERIORITY_OR_OTHER|||||||0.276||95.0|||||Wilcoxon-Rank Sum Test|||||||0.276
82490992|NCT00467857|164675454|SUPERIORITY_OR_OTHER|||||||0.375||95.0|||||Wilcoxon-Rank Sum Test|||||||0.375
82490993|NCT00467857|164675455|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Wilcoxon-Rank Sum Test|||||||0.039
82490994|NCT00467857|164675456|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||Wilcoxon-Rank Sum Test|||||||0.057
82490995|NCT00467857|164675457|SUPERIORITY_OR_OTHER|||||||0.646||95.0|||||Wilcoxon-Rank Sum Test|||||||0.646
82490996|NCT00467857|164675458|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Wilcoxon-Rank Sum Test|||||||0.788
82490997|NCT00467857|164675459|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Wilcoxon-Rank Sum Test|||||||0.960
82490998|NCT00467857|164675460|SUPERIORITY_OR_OTHER|||||||0.359||95.0|||||Wilcoxon-Rank Sum Test|||The sample size determination was selected to achieve 80% power to detect an absolute 10% difference between the two treatment groups in proportion of qualitative reduction in representative skin flora, at a significance level (alpha) of 0.05 using a two-sided z-test with continuity correction.||||0.359
82490999|NCT00467857|164675461|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Wilcoxon-Rank Sum Test|||||||0.730
82491000|NCT00467857|164675462|SUPERIORITY_OR_OTHER|||||||0.348||95.0|||||Wilcoxon-Rank Sum Test|||||||0.348
82491001|NCT00467857|164675463|SUPERIORITY_OR_OTHER|||||||0.512||95.0|||||Wilcoxon-Rank Sum Test|||||||0.512
82491002|NCT00467857|164675464|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Chi-squared|||||||0.285
82491003|NCT00467857|164675465|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Fisher Exact|||||||0.024
82491004|NCT03576495|164675474|SUPERIORITY|"We conducted a superiority statistical test to assess if residents' knowledge improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident knowledge, resident knowledge was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."|Mean Difference (Final Values)|2.6||||0.2422|TWO_SIDED|||||This p-value compares the average scores (in percent) of the residents' knowledge assessment at time period 2 between the Early Intervention and Delayed Intervention groups.|t-test, 2 sided|||||||0.2422
82590164|NCT00601250|164894722|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.648|STANDARD_ERROR_OF_MEAN|0.069|<|0.0001||95.0|-0.785|-0.512|||ANCOVA|||Linagliptin vs. Placebo||-0.512|-0.785|<0.0001
82590165|NCT00601250|164894723|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-21.13|STANDARD_ERROR_OF_MEAN|3.14|<|0.0001||95.0|-27.3|-14.96|||ANCOVA|||Linagliptin vs. Placebo||-14.96|-27.3|<0.0001
82590166|NCT00601250|164894724|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.52|STANDARD_ERROR_OF_MEAN|2.67|<|0.0001||95.0|-21.76|-11.29|||ANCOVA|||Linagliptin vs. Placebo||-11.29|-21.76|<0.0001
82590167|NCT00601250|164894725|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-16.73|STANDARD_ERROR_OF_MEAN|2.91|<|0.0001||95.0|-22.44|-11.01|||ANCOVA|||Linagliptin vs. Placebo||-11.01|-22.44|<0.0001
82590168|NCT00601250|164894726|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-20.83|STANDARD_ERROR_OF_MEAN|3.05|<|0.0001||95.0|-26.81|-14.84|||ANCOVA|||Linagliptin vs. Placebo||-14.84|-26.81|<0.0001
82491005|NCT03576495|164675475|SUPERIORITY||Difference between percentage|0.0||||1|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' preparation for caring for culturally diverse patients improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident preparedness assessed by the Cross-Cultural Care Survey, resident preparedness was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||1.000
82590169|NCT00601250|164894727|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.395|||<|0.0001||95.0|2.41|8.013|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||8.013|2.410|<0.0001
82590170|NCT00601250|164894729|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.456||||0.0016||95.0|1.907|15.614|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||15.614|1.907|0.0016
82590171|NCT00601250|164894731|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.754|||<|0.0001||95.0|2.486|5.669|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetic medication."||5.669|2.486|<0.0001
82590172|NCT00601250|164894732|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-67.13|STANDARD_ERROR_OF_MEAN|13.88|<|0.0001|TWO_SIDED|95.0|-94.69|-39.58|||ANCOVA|||Linagliptin vs. Placebo||-39.58|-94.69|<0.0001
82590173|NCT00601250|164894733|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-41.8|STANDARD_ERROR_OF_MEAN|10.02|<|0.0001|TWO_SIDED|95.0|-61.71|-21.89|||ANCOVA|||Linagliptin vs. Placebo||-21.89|-61.71|<0.0001
82590174|NCT01791803|164894741|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.6|||||TWO_SIDED|95.0|1.1|11.4||||||||11.4|1.1|
82590175|NCT01791803|164894741|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.4|||||TWO_SIDED|95.0|1.04|9.7||||||||9.7|1.04|
82590176|NCT01791803|164894742|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.0|||||TWO_SIDED|95.0|0.8|6.2||||Adjusted for gender, marital status, diagnosis at enrollment.||||6.2|0.8|
82590177|NCT01791803|164894742|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.3|||||TWO_SIDED|95.0|1.2|10.0||||||||10|1.2|
82590178|NCT01791803|164894743|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Comparison of smoking status at 12 weeks after hospitalization for a cardiac or pulmonary diagnosis||||< 0.001
82590179|NCT01791803|164894743|SUPERIORITY_OR_OTHER|||||||0.07|||||||ANOVA|||Comparison of smoking stars at 26 weeks after hospitalization for a cardiac or a pulmonary illness||||0.07
82590180|NCT02229539|164894758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Wilcoxon rank-sum|||||||0.02
82590181|NCT02229539|164894758|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon rank-sum|||||||0.004
82590182|NCT02060383|164894771|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|95.0|-0.63|0.08|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (Cushing's vs. Acromegaly; baseline HbA1c \<7% vs ≥7%) as fixed effects.|All Patients||0.08|-0.63|
82590183|NCT02060383|164894771|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|95.0|-0.96|0.95|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (baseline HbA1c \<7% vs ≥7%) as fixed effects.|Cushing's Disease||0.95|-0.96|
82590184|NCT02060383|164894771|OTHER|There was no formal hypothesis testing planned in this study.|Mean Difference (Net)|-0.36|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|-0.74|0.02|||||Difference of adjusted mean change in HbA1c between the two arms based on an ANOVA model with treatment (Incretin, Insulin) and randomization stratification factors (baseline HbA1c \<7% vs ≥7%) as fixed effects.|Acromegaly||0.02|-0.74|
82590185|NCT02039726|164894850|OTHER||Hazard Ratio (HR)|0.758||||0.0185|TWO_SIDED|95.0|0.584|0.983|||P-value for HR=1 (1-sided)|||Stratified analysis - stratification factors include prior therapy and response (Relapsed in ≤6 months (not post-HSCT), Refractory, or relapsed in ≤6 months post allogeneic HSCT), and pre-selected chemotherapy (High intensity chemotherapy \[MEC or FLAG-IDA\], or low intensity chemotherapy \[LoDAC\]).||0.983|0.584|0.0185
82590186|NCT02039726|164894851|OTHER||Hazard Ratio (HR)|0.898||||0.2034|TWO_SIDED|95.0|0.697|1.157|||P value for HR=1 (1-sided)|||Stratified analysis - stratification factors include prior therapy and response (Relapsed in ≤6 months (not post-HSCT), Refractory, or relapsed in ≤6 months post allogeneic HSCT), and pre-selected chemotherapy (High intensity chemotherapy \[MEC or FLAG-IDA\], or low intensity chemotherapy \[LoDAC\]).||1.157|0.697|0.2034
82590187|NCT00713817|164894857|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.89||||0.273|TWO_SIDED|95.0|-0.78|2.56|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||2.56|-0.78|0.273
82590188|NCT00713817|164894858|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|4.62||||0.296|TWO_SIDED|95.0|-4.51|13.75|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||13.75|-4.51|0.296
82590189|NCT00713817|164894859|SUPERIORITY_OR_OTHER_LEGACY||Chi-square|0.048||||0.826||95.0|||||Log Rank|||Time to treatment failure was analysed using Kaplan-Meier Survival analysis methodology. The difference in loss of response cumulative distribution function between treatments was assessed using the Hodges-Lehmann estimate.||||0.826
82590190|NCT00713817|164894860|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-7.14||||0.54|TWO_SIDED|95.0|-39.7|9.62|||Hodges-Lehmann|||The difference in loss of response cumulative distribution functions between treatments was assessed using the Wilcoxon test with an estimate of the median difference between groups in response level (percent change from baseline) provided by the Hodges-Lehmann estimator.||9.62|-39.7|0.54
82653486|NCT01901055|165022348|SUPERIORITY||Mean Difference (Net)|3.65|STANDARD_ERROR_OF_MEAN|2.65||0.919|TWO_SIDED|95.0|-1.62|8.92||F test statistics for group X time = 0.01|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||8.92|-1.62|0.919
82491006|NCT03576495|164675476|SUPERIORITY||Percent difference|0.9||||0.6295|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' self-assessed skills improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident skills, resident skills were compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||0.6295
82491007|NCT03576495|164675477|SUPERIORITY||Difference between percentage|2.5||||0.0199|TWO_SIDED||||||Fisher Exact|||"We conducted a superiority statistical test to assess if residents' beliefs improved after exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum on resident beliefs, beliefs were compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups."||||0.0199
82590191|NCT00713817|164894861|SUPERIORITY_OR_OTHER_LEGACY||Estimate mean treatment difference|-0.08||||0.902|TWO_SIDED|95.0|-1.45|1.29|||ANCOVA|||The two groups were compared using Analysis of Covariance (ANCOVA) with baseline severity as a covariate and study centre group and treatment group as factors. Due to the low power of the test for interaction the test was performed at the 10% level of significance and a 95% confidence interval (CI) was presented for the difference between treatments.||1.29|-1.45|0.902
82590192|NCT00713817|164894862|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.557||||0.603|TWO_SIDED|95.0|0.293|8.261|||Regression, Logistic|||The two treatment groups were compared using ordinal logistic regression and the proportional odds model. The model incorporated the parent Randomised Controlled Trials (RCTs). The interaction between treatment group and parent RCTs was investigated, but was dropped from the model if found to have little influence. The test was performed at the 10% significance level. The final model was then treatment group and parent RCTs, i.e. the treatment effect was adjusted for parent RCTs baseline.||8.261|0.293|0.603
82590193|NCT04415658|164894864|SUPERIORITY||Risk Ratio (RR)|1.01||||0.57|TWO_SIDED|95.0|0.97|1.07|||Chi-squared, Corrected|||80% power to detect a 10% increase in hearts transplanted||1.07|0.97|0.57
82590194|NCT04415658|164894865|NON_INFERIORITY|Six percent margin, assuming 96% graft survival in control group|Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|-2.3|6.0|||Regression, Logistic|||Non-inferiority analysis for thyroxine vs saline||6.0|-2.3|<0.001
82590195|NCT01681810|164894877|OTHER|Paired t-test comparing insulin stimulated glucose disposal at end of 12 weeks on nitrite drug to baseline (pre-drug) insulin stimulated glucose disposal.||||||0.2068|||||||t-test, 2 sided|||||||0.2068
82590196|NCT01681810|164894878|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.||||||0.0074||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||0.0074
82590197|NCT01681810|164894879|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.|||||<|0.0001||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||<0.0001
82590198|NCT01681810|164894880|OTHER|One-way repeated measures ANOVA comparing blood pressure over time on nitrite drug to baseline (pre-drug) blood pressure.|||||<|0.0001||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||<0.0001
82590199|NCT01681810|164894881|OTHER|One-way repeated measures ANOVA comparing methemoglobin percent over time on nitrite drug to baseline (pre-drug) methemoglobin percent.||||||0.0127||||||Bonferroni adjusted p-value for multiple comparisons.|ANOVA|||||||0.0127
82590200|NCT03627767|164894894|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.286|0.424||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.424|0.286|< 0.0001
82590201|NCT03627767|164894894|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.176|0.27||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.270|0.176|< 0.0001
82590202|NCT03627767|164894894|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.503|0.78||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.780|0.503|< 0.0001
82590203|NCT03627767|164894895|SUPERIORITY||Difference in percentage|0.0|||=|0.9495|TWO_SIDED|95.0|-1.0|1.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.1|-1.0|= 0.9495
82590204|NCT03627767|164894895|SUPERIORITY||Difference in percentage|-0.4|||=|0.5717|TWO_SIDED|95.0|-1.6|0.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.9|-1.6|= 0.5717
82590205|NCT03627767|164894895|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-1.7|0.9||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.9|-1.7|
82590206|NCT03627767|164894895|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|33.1|47.8||P-value was adjusted by disease severity at baseline and randomization strata|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||47.8|33.1|< 0.0001
82590207|NCT03627767|164894895|SUPERIORITY||Difference in percentage|62.6|||<|0.0001|TWO_SIDED|95.0|56.1|69.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.2|56.1|< 0.0001
82491008|NCT03576495|164675478|SUPERIORITY||difference in the percentage|2.2||||0.2665|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' OSCE performance improved after exposure to the PACTS curriculum. OSCE performance was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in the percentage of residents designated mostly and a great deal on Limited English Proficiency and Informed Consent OSCE."||||0.2665
82491009|NCT03576495|164675478|SUPERIORITY||difference in the percentage|6.2||||0.0001|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if residents' OSCE performance improved after exposure to the PACTS curriculum. OSCE performance was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in the percentage of residents designated mostly and a great deal on Trust and Pain."||||0.0001
82491010|NCT03576495|164675479|SUPERIORITY||absolute difference between percentage|3.19||||0.5079|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to trust at time period 2."||||0.5079
82590208|NCT03627767|164894895|SUPERIORITY||Difference in percentage|22.1|||||TWO_SIDED|95.0|14.3|29.9||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.9|14.3|
82590209|NCT03627767|164894895|SUPERIORITY||Difference in percentage|35.1|||<|0.0001|TWO_SIDED|95.0|28.1|42.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||42.0|28.1|< 0.0001
82590210|NCT03627767|164894895|SUPERIORITY||Difference in percentage|51.5|||<|0.0001|TWO_SIDED|95.0|44.6|58.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.4|44.6|< 0.0001
82590211|NCT03627767|164894895|SUPERIORITY||Difference in percentage|16.5|||||TWO_SIDED|95.0|8.1|24.8||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.8|8.1|
82590212|NCT03627767|164894895|SUPERIORITY||Difference in percentage|32.2|||<|0.0001|TWO_SIDED|95.0|25.2|39.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||39.2|25.2|< 0.0001
82491011|NCT03576495|164675479|SUPERIORITY||absolute difference between percentage|1.92||||0.1571|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the curriculum, patient satisfaction was compared at Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to limited English proficiency at period 2."||||0.1571
82491012|NCT03576495|164675479|SUPERIORITY||absolute difference between percentage|4.76||||0.0001|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to consent at time period 2."||||0.0001
82491013|NCT03576495|164675479|SUPERIORITY||absolute difference between percentage|0.19||||0.2956|TWO_SIDED||||||Chi-squared|||"We conducted a superiority statistical test to assess if patient satisfaction improved after resident exposure to the PACTS curriculum. For purposes of measuring an effect of the PACTS curriculum, patient satisfaction was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups. We compared the difference in proportion of patients who reported agree and strongly agree for satisfaction as it relates to pain at time period 2."||||0.2956
82491014|NCT03576495|164675480|SUPERIORITY||Cox Proportional Hazard|5.31||||0.0028|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||We used Cox Proportional Hazard to assess time to discharge, with 5.31 days as the estimated value for the difference between the two groups.|"We conducted a superiority statistical test to assess if patients length of stay improved after resident exposure to the PACTS curriculum. Patient length of stay was compared at time Period 2 between the Early Intervention (intervention) and Delayed Intervention (control) groups to measure an effect of the PACTS intervention."||||0.0028
82491015|NCT02635776|164675481|SUPERIORITY||Risk Difference (RD)|63.2|||<|0.0001|TWO_SIDED|95.0|53.0|73.3|||Farrington-Manning test|||Treatment difference at 600 mg||73.3|53|<0.0001
82590213|NCT03627767|164894895|SUPERIORITY||Difference in percentage|46.9|||<|0.0001|TWO_SIDED|95.0|39.9|53.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.8|39.9|< 0.0001
82590214|NCT03627767|164894895|SUPERIORITY||Difference in percentage|14.2|||||TWO_SIDED|95.0|5.9|22.6||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.6|5.9|
82653487|NCT01901055|165022349|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.54||0.125|TWO_SIDED|95.0|-1.18|0.96||F-test statistics for group X time = 2.12|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.96|-1.18|0.125
82590215|NCT03627767|164894895|SUPERIORITY||Difference in percentage|25.5|||<|0.0001|TWO_SIDED|95.0|18.5|32.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||32.5|18.5|< 0.0001
82590216|NCT03627767|164894895|SUPERIORITY||Difference in percentage|42.5|||<|0.0001|TWO_SIDED|95.0|35.3|49.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||49.7|35.3|< 0.0001
82590217|NCT03627767|164894895|SUPERIORITY||Difference in percentage|17.1|||||TWO_SIDED|95.0|8.6|25.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|8.6|
82590218|NCT03627767|164894896|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.0|0.0|
82590219|NCT03627767|164894896|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions. P-value was adjusted by disease severity at baseline and randomization strata.||0.0|0.0|
82590220|NCT03627767|164894896|SUPERIORITY||Difference in percentage|0.0|||||TWO_SIDED|95.0|0.0|0.0||||||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.0|0.0|
82590221|NCT03627767|164894896|SUPERIORITY||Difference in percentage|42.7|||<|0.0001|TWO_SIDED|95.0|35.3|50.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.1|35.3|< 0.0001
82590222|NCT03627767|164894896|SUPERIORITY||Difference in percentage|55.4|||<|0.0001|TWO_SIDED|95.0|49.1|61.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.7|49.1|< 0.0001
82590223|NCT03627767|164894896|SUPERIORITY||Difference in percentage|12.9|||||TWO_SIDED|95.0|7.9|17.9||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||17.9|7.9|
82590224|NCT03627767|164894896|SUPERIORITY||Difference in percentage|45.5|||<|0.0001|TWO_SIDED|95.0|37.9|53.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.0|37.9|< 0.0001
82653488|NCT01901055|165022350|SUPERIORITY||Mean Difference (Net)|87.22|STANDARD_ERROR_OF_MEAN|529.1||0.639|TWO_SIDED|95.0|-936.1|1137.5||F-test statistics for group X time = 0.45|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1137.50|-936.10|0.639
82590225|NCT03627767|164894896|SUPERIORITY||Difference in percentage|63.0|||<|0.0001|TWO_SIDED|95.0|56.4|69.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.5|56.4|< 0.0001
82590226|NCT03627767|164894896|SUPERIORITY||Difference in percentage|17.7|||||TWO_SIDED|95.0|10.7|24.7||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions||24.7|10.7|
82590227|NCT03627767|164894896|SUPERIORITY||Difference in percentage|41.0|||<|0.0001|TWO_SIDED|95.0|33.6|48.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.5|33.6|< 0.0001
82491016|NCT02635776|164675482|SUPERIORITY||Risk Difference (RD)|47.8|||<|0.0001|TWO_SIDED|95.0|38.0|57.7|||Farrington-Manning test|||Treatment difference at 1000 mg||57.7|38|<0.0001
82491017|NCT02635776|164675483|SUPERIORITY||Risk Difference (RD)|68.5|||<|0.0001|TWO_SIDED|95.0|58.6|78.5|||Farrington-Manning test|||Treatment difference at 300 mg||78.5|58.6|<0.0001
82590228|NCT03627767|164894896|SUPERIORITY||Difference in percentage|58.3|||<|0.0001|TWO_SIDED|95.0|51.3|65.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||65.2|51.3|< 0.0001
82653489|NCT01901055|165022351|SUPERIORITY||Mean Difference (Net)|-0.63|STANDARD_ERROR_OF_MEAN|0.49||0.461|TWO_SIDED|95.0|-1.61|0.35||F-test statistics for group X time = 0.78|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||0.35|-1.61|0.461
82653490|NCT01901055|165022352|SUPERIORITY||Mean Difference (Net)|3.04|STANDARD_ERROR_OF_MEAN|3.94||0.776|TWO_SIDED|95.0|-4.78|10.86||F-test statistics for group X time= 0.25|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||10.86|-4.78|0.776
82491018|NCT02635776|164675484|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test (using equally spaced scores), stratified by region (North America, Europe)||Treatment difference in maximum severity||||<0.0001
82491019|NCT00788073|164675486|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.05|||||||ANCOVA|||||||0.05
82491020|NCT00788073|164675487|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.008||95.0|||||ANCOVA|||||||0.008
82491021|NCT00660673|164675502|OTHER||||||<|0.001|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in off time was assessed for significance using a 1-sample paired t test"||||<0.001
82491022|NCT00660673|164675502|OTHER|||||||0.433|||||||One-sample t-test|||"Change from Baseline to end of study in off time was assessed for significance using a 1-sample paired t-test."||||0.433
82590229|NCT03627767|164894896|SUPERIORITY||Difference in percentage|17.5|||||TWO_SIDED|95.0|9.6|25.5||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|9.6|
82590230|NCT03627767|164894896|SUPERIORITY||Difference in percentage|35.3|||<|0.0001|TWO_SIDED|95.0|27.8|42.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||42.8|27.8|< 0.0001
82590231|NCT03627767|164894896|OTHER||Difference in percentage|55.3|||<|0.0001|TWO_SIDED|95.0|48.3|62.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||62.4|48.3|< 0.0001
82590232|NCT03627767|164894896|SUPERIORITY||Difference in percentage|20.3|||||TWO_SIDED|95.0|12.1|28.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||28.5|12.1|
82590233|NCT03627767|164894897|SUPERIORITY||Difference in percentage|0.7|||=|0.1848|TWO_SIDED|95.0|-0.3|1.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.7|-0.3|= 0.1848
82491023|NCT00660673|164675503|OTHER||||||<|0.001|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in on time without troublesome dyskinesia was assessed for significance using a 1-sample paired t-test."||||<0.001
82491024|NCT00660673|164675503|OTHER|||||||0.15|||||||One-sample t-test|||"Change from Baseline to end of study in on time without troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.150
82491025|NCT00660673|164675504|OTHER|||||||0.725|||||||One-sample t-test|||"Change from initial LCIG infusion to end of study in on time with troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.725
82491026|NCT00660673|164675504|OTHER|||||||0.019|||||||One-sample t-test|||"Change from Baseline to end of study in on time with troublesome dyskinesia was assessed for significance using a 1-sample paired t test"||||0.019
82491027|NCT00516074|164675518|NON_INFERIORITY_OR_EQUIVALENCE|Approximately 25 subjects were intended to be randomized to both the exenatide and placebo arms. Assuming an approximate 24% dropout rate, 19 patients per treatment arm would complete the study. A sample of 19 patients per treatment group would provide 90% power to detect a 10 bpm difference between treatment groups in change in daily mean heart rate from baseline.||||||0.1585||95.0|||||ANCOVA|||||||0.1585
82491028|NCT00516074|164675519|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.1624||95.0|||||ANCOVA|||||||0.1624
82491029|NCT00516074|164675520|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.5077||95.0|||||ANCOVA|||||||0.5077
82491030|NCT00516074|164675521|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.9034||95.0|||||ANCOVA|||||||0.9034
82491031|NCT00516074|164675522|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.427||95.0|||||ANCOVA|||||||0.4270
82491032|NCT00516074|164675523|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation for the primary endpoint is described as part of the primary endpoint information above.||||||0.26||95.0|||||ANCOVA|||||||0.2600
82491033|NCT03407625|164675576|SUPERIORITY||Risk Ratio (RR)|1.0||||0.86|TWO_SIDED|95.0|0.95|1.05|||log binomial regression||||We used generalized estimating equations for the log binomial regression with cluster entered as a random effect.|1.05|0.95|0.86
82491034|NCT00657358|164675600|SUPERIORITY_OR_OTHER||R^2 (adj)|0.477|||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|DF=2 DFDEN=371.8, F-ratio=10.66||||||<0.001
82491035|NCT01893203|164675615|SUPERIORITY_OR_OTHER|||||||0.375|||||||McNemar|||||||0.375
82491036|NCT02925117|164675622|SUPERIORITY||Least Squares (LS) Mean Difference|-51.4|STANDARD_ERROR_OF_MEAN|7.65|<|0.001|TWO_SIDED|95.0|-66.5|-36.3|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-36.3|-66.5|< 0.001
82491037|NCT02925117|164675622|SUPERIORITY||LS Mean Difference|-38.7|STANDARD_ERROR_OF_MEAN|7.61|<|0.001|TWO_SIDED|95.0|-53.7|-23.6|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-23.6|-53.7|<0.001
82491038|NCT02925117|164675622|SUPERIORITY||LS Mean Difference|-16.4|STANDARD_ERROR_OF_MEAN|7.61||0.032|TWO_SIDED|95.0|-31.4|-1.4|||ANCOVA|Analysis of covariance (ANCOVA) with stratum (geographic region), baseline value, and treatment in the model.||||-1.4|-31.4|0.032
82491039|NCT02925117|164675623|SUPERIORITY||Adjusted Difference|58.7|||<|0.001|TWO_SIDED|95.0|42.5|74.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||74.8|42.5|< 0.001
82491040|NCT02925117|164675623|SUPERIORITY||Adjusted Difference|42.5|||<|0.001|TWO_SIDED|95.0|25.5|59.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||59.6|25.5|<0.001
82491041|NCT02925117|164675623|SUPERIORITY||Adjusted Difference|18.7||||0.022|TWO_SIDED|95.0|2.7|34.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||34.7|2.7|0.022
82491042|NCT02925117|164675624|SUPERIORITY||Adjusted Difference|46.9|||<|0.001|TWO_SIDED|95.0|31.1|62.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||62.7|31.1|<0.001
82491043|NCT02925117|164675624|SUPERIORITY||Adjusted Difference|28.6|||<|0.001|TWO_SIDED|95.0|13.8|43.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||43.4|13.8|<0.001
82491044|NCT02925117|164675624|SUPERIORITY||Adjusted Difference|11.9||||0.044|TWO_SIDED|95.0|0.3|23.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test, adjusted for stratum (geographic region).||||23.5|0.3|0.044
82590234|NCT03627767|164894897|SUPERIORITY||Difference in percentage|0.3|||=|0.5971|TWO_SIDED|95.0|-0.9|1.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.6|-0.9|= 0.5971
82590235|NCT03627767|164894897|SUPERIORITY||Difference in percentage|-0.4|||||TWO_SIDED|95.0|-1.1|0.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||0.4|-1.1|
82590236|NCT03627767|164894897|SUPERIORITY||Difference in percentage|49.4|||<|0.0001|TWO_SIDED|95.0|42.0|56.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||56.8|42.0|< 0.0001
82590237|NCT03627767|164894897|SUPERIORITY||Difference in percentage|65.5|||<|0.0001|TWO_SIDED|95.0|59.3|71.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||71.7|59.3|< 0.0001
82590238|NCT03627767|164894897|SUPERIORITY||Difference in percentage|16.3|||||TWO_SIDED|95.0|10.3|22.3||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.3|10.3|
82590239|NCT03627767|164894897|SUPERIORITY||Difference in percentage|42.7|||<|0.0001|TWO_SIDED|95.0|35.2|50.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.2|35.2|< 0.0001
82590240|NCT03627767|164894897|SUPERIORITY||Difference in percentage|62.6|||<|0.0001|TWO_SIDED|95.0|56.0|69.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.2|56.0|< 0.0001
82590241|NCT03627767|164894897|SUPERIORITY||Difference in percentage|19.8|||||TWO_SIDED|95.0|12.3|27.4||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||27.4|12.3|
82590242|NCT03627767|164894897|SUPERIORITY||Difference in percentage|39.5|||<|0.0001|TWO_SIDED|95.0|32.1|46.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.9|32.1|< 0.0001
82590243|NCT03627767|164894897|SUPERIORITY||Difference in percentage|56.7|||<|0.0001|TWO_SIDED|95.0|49.8|63.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||63.7|49.8|< 0.0001
82590244|NCT03627767|164894897|SUPERIORITY||Difference in percentage|17.4|||||TWO_SIDED|95.0|9.3|25.5||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|9.3|
82590245|NCT03627767|164894897|SUPERIORITY||Difference in percentage|33.0|||<|0.0001|TWO_SIDED|95.0|25.7|40.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||40.4|25.7|< 0.0001
82590246|NCT03627767|164894897|SUPERIORITY||Difference in percentage|51.7|||<|0.0001|TWO_SIDED|95.0|44.6|58.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.8|44.6|< 0.0001
82491045|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-59.3|STANDARD_ERROR_OF_MEAN|6.58|<|0.001|TWO_SIDED|95.0|-72.3|-46.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-46.3|-72.3|<0.001
82491046|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-47.7|STANDARD_ERROR_OF_MEAN|6.78|<|0.001|TWO_SIDED|95.0|-61.1|-34.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-34.3|-61.1|<0.001
82491047|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-31.1|STANDARD_ERROR_OF_MEAN|6.7|<|0.001|TWO_SIDED|95.0|-44.3|-17.8|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 2||-17.8|-44.3|<0.001
82491048|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-66.4|STANDARD_ERROR_OF_MEAN|8.85|<|0.001|TWO_SIDED|95.0|-83.9|-48.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-48.9|-83.9|<0.001
82491049|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-38.4|STANDARD_ERROR_OF_MEAN|9.13|<|0.001|TWO_SIDED|95.0|-56.4|-20.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-20.4|-56.4|<0.001
82491050|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-28.9|STANDARD_ERROR_OF_MEAN|8.96||0.002|TWO_SIDED|95.0|-46.6|-11.2|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 8||-11.2|-46.6|0.002
82491051|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-59.2|STANDARD_ERROR_OF_MEAN|9.78|<|0.001|TWO_SIDED|95.0|-78.6|-39.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-39.9|-78.6|<0.001
82491052|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-38.3|STANDARD_ERROR_OF_MEAN|10.08|<|0.001|TWO_SIDED|95.0|-58.3|-18.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-18.4|-58.3|<0.001
82491053|NCT02925117|164675625|SUPERIORITY||LS Mean Difference|-29.9|STANDARD_ERROR_OF_MEAN|9.9||0.003|TWO_SIDED|95.0|-49.4|-10.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in Pruritus NRS at Week 16||-10.3|-49.4|0.003
82491054|NCT02925117|164675626|SUPERIORITY||LS Mean Difference|-65.3|STANDARD_ERROR_OF_MEAN|7.46|<|0.001|TWO_SIDED|95.0|-80.0|-50.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-50.5|-80.0|<0.001
82590247|NCT03627767|164894897|SUPERIORITY||Difference in percentage|19.2|||||TWO_SIDED|95.0|10.8|27.6||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||27.6|10.8|
82590248|NCT03627767|164894898|SUPERIORITY||Difference in percentage|2.6|||=|0.3994|TWO_SIDED|95.0|-3.3|8.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.4|-3.3|= 0.3994
82590249|NCT03627767|164894898|SUPERIORITY||Difference in percentage|1.8|||=|0.5542|TWO_SIDED|95.0|-4.1|7.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||7.8|-4.1|= 0.5542
82590250|NCT03627767|164894898|SUPERIORITY||Difference in percentage|-0.8|||||TWO_SIDED|95.0|-6.5|5.0||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.0|-6.5|
82590251|NCT03627767|164894898|SUPERIORITY||Difference in percentage|37.5|||<|0.0001|TWO_SIDED|95.0|30.2|44.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.9|30.2|< 0.0001
82590252|NCT03627767|164894898|SUPERIORITY||Difference in percentage|63.3|||<|0.0001|TWO_SIDED|95.0|56.8|69.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||69.8|56.8|< 0.0001
82590253|NCT03627767|164894898|SUPERIORITY||Difference in percentage|25.5|||||TWO_SIDED|95.0|17.7|33.4||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||33.4|17.7|
82590254|NCT03627767|164894898|SUPERIORITY||Difference in percentage|36.9|||<|0.0001|TWO_SIDED|95.0|29.9|44.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.0|29.9|< 0.0001
82590255|NCT03627767|164894898|SUPERIORITY||Difference in percentage|54.2|||<|0.0001|TWO_SIDED|95.0|47.3|61.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.0|47.3|< 0.0001
82590256|NCT03627767|164894898|SUPERIORITY||Difference in percentage|17.2|||||TWO_SIDED|95.0|8.9|25.5||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.5|8.9|
82590257|NCT03627767|164894898|SUPERIORITY||Difference in percentage|29.8|||<|0.0001|TWO_SIDED|95.0|22.7|37.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.0|22.7|< 0.0001
82590258|NCT03627767|164894898|SUPERIORITY||Difference in percentage|46.7|||<|0.0001|TWO_SIDED|95.0|39.6|53.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||53.8|39.6|< 0.0001
82590259|NCT03627767|164894898|SUPERIORITY||Difference in percentage|16.9|||||TWO_SIDED|95.0|8.5|25.3||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.3|8.5|
82653491|NCT01901055|165022353|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.79||0.378|TWO_SIDED|95.0|-1.24|1.89||F-test statistics for group X time = 0.98|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1.89|-1.24|0.378
82653492|NCT01901055|165022354|SUPERIORITY||Mean Difference (Net)|3.18|STANDARD_ERROR_OF_MEAN|7.24||0.213|TWO_SIDED|95.0|-11.19|17.56||F-test statistics for group X time = 1.57|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||17.56|-11.19|0.213
82653493|NCT01901055|165022355|SUPERIORITY||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.64||0.005|TWO_SIDED|95.0|-1.27|1.28||F-test statistics for group X time = 5.66|Mixed Models Analysis||Treatment Difference = Active CPAP - Sham CPAP|||1.28|-1.27|0.005
82653494|NCT01807871|165022356|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.48
82653495|NCT01807871|165022358|SUPERIORITY|||||||0.24|||||||Chi-squared|||Comparison of number of participants who reported removing the nicotine patch due to a side effect||||0.24
82491055|NCT02925117|164675626|SUPERIORITY||LS Mean Difference|-47.9|STANDARD_ERROR_OF_MEAN|7.42|<|0.001|TWO_SIDED|95.0|-62.6|-33.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-33.3|-62.6|<0.001
82491056|NCT02925117|164675626|SUPERIORITY||LS Mean Difference|-26.2|STANDARD_ERROR_OF_MEAN|7.42|<|0.001|TWO_SIDED|95.0|-40.8|-11.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-11.5|-40.8|<0.001
82491057|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-58.3|STANDARD_ERROR_OF_MEAN|6.78|<|0.001|TWO_SIDED|95.0|-71.7|-44.9|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-44.9|-71.7|<0.001
82491058|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-37.1|STANDARD_ERROR_OF_MEAN|6.94|<|0.001|TWO_SIDED|95.0|-50.8|-23.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-23.4|-50.8|<0.001
82491059|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-28.4|STANDARD_ERROR_OF_MEAN|6.81|<|0.001|TWO_SIDED|95.0|-41.9|-15.0|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 8||-15.0|-41.9|<0.001
82491060|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-48.0|STANDARD_ERROR_OF_MEAN|6.93|<|0.001|TWO_SIDED|95.0|-61.7|-34.3|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-34.3|-61.7|<0.001
82491061|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-34.5|STANDARD_ERROR_OF_MEAN|7.1|<|0.001|TWO_SIDED|95.0|-48.5|-20.5|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-20.5|-48.5|<0.001
82491062|NCT02925117|164675627|SUPERIORITY||LS Mean Difference|-20.2|STANDARD_ERROR_OF_MEAN|6.96||0.004|TWO_SIDED|95.0|-33.9|-6.4|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||Analysis of Percent Change from Baseline in SCORAD at Week 16||-6.4|-33.9|0.004
82491063|NCT02925117|164675628|SUPERIORITY||Adjusted Difference|72.7|||<|0.001|TWO_SIDED|95.0|58.3|87.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||87.1|58.3|<0.001
82590260|NCT03627767|164894898|SUPERIORITY||Difference in percentage|27.4|||<|0.0001|TWO_SIDED|95.0|20.4|34.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||34.3|20.4|< 0.0001
82653496|NCT03019965|165022359|SUPERIORITY||Risk Ratio (RR)|0.95||||0.156|TWO_SIDED|95.0|0.87|1.02|||Chi-squared||||The efficacy of the maneuver was evaluated by calculating the absolute risk reduction and the number needed to treat.|1.02|0.87|0.156
82653497|NCT03019965|165022360|SUPERIORITY||Risk Ratio (RR)|2.98||||0.722|TWO_SIDED|95.0|0.31|28.45|||Chi-squared|||||28.45|0.31|0.722
82653498|NCT01915732|165022394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5||||0.002|TWO_SIDED|95.0|-7.4|-1.6|||ANCOVA|||||-1.6|-7.4|0.002
82653499|NCT01915732|165022395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|||<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||ANCOVA|||||-1.9|-7.3|<0.001
82653500|NCT01915732|165022396|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|||||||0.018
82653501|NCT01915732|165022397|SUPERIORITY_OR_OTHER|||||||0.013|||||||Cochran-Mantel-Haenszel|||||||0.013
82653502|NCT01915732|165022398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.077|TWO_SIDED|95.0|-1.8|0.1|||ANCOVA||Statistical data for the category=IL.|||0.1|-1.8|0.077
82653503|NCT01915732|165022398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.004|TWO_SIDED|95.0|-5.7|-1.1|||ANCOVA||Statistical data for the category=NIL.|||-1.1|-5.7|0.004
82653504|NCT01915732|165022399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.028|TWO_SIDED|95.0|-2.0|-0.1|||ANCOVA||Statistical data for the category=IL.|||-0.1|-2.0|0.028
82653505|NCT01915732|165022399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.4||||0.002|TWO_SIDED|95.0|-5.5|-1.2|||ANCOVA||Statistical data for the category=NIL.|||-1.2|-5.5|0.002
82653506|NCT01915732|165022400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.08|TWO_SIDED|95.0|-0.06|0.0|||ANCOVA||Statistical data for the category=IL.|||0.00|-0.06|0.080
82653507|NCT01915732|165022400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.004|TWO_SIDED|95.0|-0.12|-0.02|||ANCOVA||Statistical data for the category=NIL.|||-0.02|-0.12|0.004
82653508|NCT01915732|165022400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.003|TWO_SIDED|95.0|-0.09|-0.02|||ANCOVA||Statisticial data for the category=Total.|||-0.02|-0.09|0.003
82653509|NCT01915732|165022401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.025|TWO_SIDED|95.0|-0.07|0.0|||ANCOVA||Statistical data for the category=IL.|||-0.00|-0.07|0.025
82590261|NCT03627767|164894898|SUPERIORITY||Difference in percentage|43.8|||<|0.0001|TWO_SIDED|95.0|36.7|50.9||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||50.9|36.7|< 0.0001
82590262|NCT03627767|164894898|SUPERIORITY||Difference in percentage|16.8|||||TWO_SIDED|95.0|8.4|25.2||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.2|8.4|
82590263|NCT03627767|164894899|SUPERIORITY||Difference in percentage|0.3|||=|0.9313|TWO_SIDED|95.0|-7.5|8.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.1|-7.5|= 0.9313
82590264|NCT03627767|164894899|SUPERIORITY||Difference in percentage|-2.1|||=|0.6043|TWO_SIDED|95.0|-9.8|5.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.7|-9.8|= 0.6043
82590265|NCT03627767|164894899|SUPERIORITY||Difference in percentage|-2.3|||||TWO_SIDED|95.0|-10.0|5.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.4|-10.0|
82590266|NCT03627767|164894899|SUPERIORITY||Difference in percentage|11.6|||<|0.0001|TWO_SIDED|95.0|6.6|16.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||16.5|6.6|< 0.0001
82590267|NCT03627767|164894899|SUPERIORITY||Difference in percentage|25.3|||<|0.0001|TWO_SIDED|95.0|19.4|31.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.2|19.4|< 0.0001
82590268|NCT03627767|164894899|SUPERIORITY||Difference in percentage|13.5|||||TWO_SIDED|95.0|6.6|20.4||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.4|6.6|
82653510|NCT01915732|165022401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|||<|0.001|TWO_SIDED|95.0|-0.14|-0.04|||ANCOVA||Statistical data for the category=NIL.|||-0.04|-0.14|<0.001
82491064|NCT02925117|164675628|SUPERIORITY||Adjusted Difference|44.9|||<|0.001|TWO_SIDED|95.0|27.9|61.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||61.9|27.9|<0.001
82590269|NCT03627767|164894899|SUPERIORITY||Difference in percentage|12.9|||<|0.0001|TWO_SIDED|95.0|7.7|18.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||18.0|7.7|< 0.0001
82590270|NCT03627767|164894899|SUPERIORITY||Difference in percentage|26.0|||<|0.0001|TWO_SIDED|95.0|19.9|32.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||32.0|19.9|< 0.0001
82590271|NCT03627767|164894899|SUPERIORITY||Difference in percentage|13.4|||||TWO_SIDED|95.0|6.3|20.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.6|6.3|
82590272|NCT03627767|164894899|SUPERIORITY||Difference in percentage|11.7|||<|0.0001|TWO_SIDED|95.0|6.5|16.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||16.8|6.5|< 0.0001
82590273|NCT03627767|164894899|SUPERIORITY||Difference in percentage|25.7|||<|0.0001|TWO_SIDED|95.0|19.6|31.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.8|19.6|< 0.0001
82590274|NCT03627767|164894899|SUPERIORITY||Difference in percentage|14.1|||||TWO_SIDED|95.0|7.0|21.2||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||21.2|7.0|
82653511|NCT01915732|165022401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|||<|0.001|TWO_SIDED|95.0|-0.1|-0.03|||ANCOVA||Statistical data for the category=Total.|||-0.03|-0.10|<0.001
82653512|NCT01915732|165022402|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82653513|NCT01915732|165022403|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82653514|NCT01325207|165022404|OTHER||||||||||||||||||The Maximum Tolerated Dose (MTD) was determined to be 80mg IT every two weeks. This is based on no DLTs being seeing in Cohorts 1-4 with lower doses and 1 DLT out of 7 patients observed at 80mg IT in Cohort 5.|||
82653515|NCT01569451|165022426|SUPERIORITY_OR_OTHER|||||||0.0493|||||||Chi-squared|||||||0.0493
82590275|NCT03627767|164894899|SUPERIORITY||Difference in percentage|14.6|||<|0.0001|TWO_SIDED|95.0|9.2|20.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||20.0|9.2|< 0.0001
82590276|NCT03627767|164894899|SUPERIORITY||Difference in percentage|24.5|||<|0.0001|TWO_SIDED|95.0|18.4|30.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.5|18.4|< 0.0001
82590277|NCT03627767|164894899|SUPERIORITY||Difference in percentage|10.0|||||TWO_SIDED|95.0|2.7|17.2||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||17.2|2.7|
82590278|NCT03627767|164894900|SUPERIORITY||Difference in percentage|1.8|||=|0.6082|TWO_SIDED|95.0|-5.0|8.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.5|-5.0|= 0.6082
82590279|NCT03627767|164894900|SUPERIORITY||Difference in percentage|0.2|||=|0.964|TWO_SIDED|95.0|-6.7|7.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||7.0|-6.7|= 0.9640
82590280|NCT03627767|164894900|SUPERIORITY||Difference in percentage|-2.4|||||TWO_SIDED|95.0|-9.1|4.4||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||4.4|-9.1|
82590281|NCT03627767|164894900|SUPERIORITY||Difference in percentage|38.9|||<|0.0001|TWO_SIDED|95.0|31.2|46.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.5|31.2|< 0.0001
82590282|NCT03627767|164894900|SUPERIORITY||Difference in percentage|59.7|||<|0.0001|TWO_SIDED|95.0|52.7|66.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||66.7|52.7|< 0.0001
82590283|NCT03627767|164894900|SUPERIORITY||Difference in percentage|20.9|||||TWO_SIDED|95.0|12.7|29.0||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.0|12.7|
82590284|NCT03627767|164894900|SUPERIORITY||Difference in percentage|33.9|||<|0.0001|TWO_SIDED|95.0|26.6|41.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||41.2|26.6|< 0.0001
82590285|NCT03627767|164894900|SUPERIORITY||Difference in percentage|55.3|||<|0.0001|TWO_SIDED|95.0|48.2|62.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||62.3|48.2|< 0.0001
82590286|NCT03627767|164894900|SUPERIORITY||Difference in percentage|21.7|||||TWO_SIDED|95.0|13.2|30.2||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.2|13.2|
82590287|NCT03627767|164894900|SUPERIORITY||Difference in percentage|29.7|||<|0.0001|TWO_SIDED|95.0|22.7|36.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||36.7|22.7|< 0.0001
82590288|NCT03627767|164894900|SUPERIORITY||Difference in percentage|45.5|||<|0.0001|TWO_SIDED|95.0|38.4|52.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||52.7|38.4|< 0.0001
82590289|NCT03627767|164894900|SUPERIORITY||Difference in percentage|16.0|||||TWO_SIDED|95.0|7.4|24.6||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.6|7.4|
82653516|NCT01569451|165022427|SUPERIORITY_OR_OTHER|||||||0.0268|||||||Peto|||||||0.0268
82653517|NCT01569451|165022428|SUPERIORITY_OR_OTHER|||||||0.0189|||||||Chi-squared|||||||0.0189
82653518|NCT01569451|165022429|SUPERIORITY_OR_OTHER|||||||0.3167|||||||Chi-squared|||||||0.3167
82377490|NCT03971474|164462074|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.07|TWO_SIDED|80.0|0.48|0.95||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the PD-L1 \>= 1% subgroup.||0.95|0.48|0.07
82653519|NCT01569451|165022430|SUPERIORITY_OR_OTHER|||||||0.094|||||||Chi-squared|||||||0.0940
82653520|NCT01569451|165022431|SUPERIORITY_OR_OTHER|||||||0.3507|||||||Fisher Exact|||||||0.3507
82491065|NCT02925117|164675628|SUPERIORITY||Adjusted Difference|23.4||||0.004|TWO_SIDED|95.0|7.5|39.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||39.4|7.5|0.004
82491066|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|70.7|||<|0.001|TWO_SIDED|95.0|56.2|85.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||85.2|56.2|<0.001
82491067|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|49.0|||<|0.001|TWO_SIDED|95.0|30.8|67.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||67.3|30.8|<0.001
82590290|NCT03627767|164894900|SUPERIORITY||Difference in percentage|19.9|||<|0.0001|TWO_SIDED|95.0|13.0|26.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.8|13.0|< 0.0001
82590291|NCT03627767|164894900|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|32.8|48.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.1|32.8|< 0.0001
82590292|NCT03627767|164894900|SUPERIORITY||Difference in percentage|20.9|||||TWO_SIDED|95.0|11.8|30.0||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.0|11.8|
82590293|NCT03627767|164894903|SUPERIORITY||LSM difference|0.0|||=|0.9207|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Pruritus VAS: Week 12: The least squares mean (LSM) differences between treatment groups were derived from the statistical model. Mixed model repeated measure (MMRM) contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|= 0.9207
82590294|NCT03627767|164894903|SUPERIORITY||LSM difference|0.0|||=|0.9998|TWO_SIDED|95.0|-0.3|0.3|||Mixed Models Analysis|||Pruritus VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|= 0.9998
82653521|NCT01569451|165022432|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0000
82653522|NCT01569451|165022433|SUPERIORITY_OR_OTHER|||||||0.4904|||||||t-test, 2 sided|||T-test||||0.4904
82491068|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|32.8|||<|0.001|TWO_SIDED|95.0|13.4|52.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 8||52.2|13.4|<0.001
82491069|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|60.6|||<|0.001|TWO_SIDED|95.0|45.3|75.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||75.9|45.3|<0.001
82491070|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|48.6|||<|0.001|TWO_SIDED|95.0|31.3|65.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||65.9|31.3|<0.001
82491071|NCT02925117|164675629|SUPERIORITY||Adjusted Difference|28.2||||0.003|TWO_SIDED|95.0|9.8|46.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 50 Response at Week 16||46.6|9.8|0.003
82491072|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|43.8|||<|0.001|TWO_SIDED|95.0|29.1|58.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||58.5|29.1|<0.001
82491073|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|26.1|||<|0.001|TWO_SIDED|95.0|12.6|39.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||39.6|12.6|<0.001
82491074|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|9.4||||0.051|TWO_SIDED|95.0|0.0|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 8||18.8|-0.0|0.051
82491075|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|46.9|||<|0.001|TWO_SIDED|95.0|31.3|62.4|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||62.4|31.3|<0.001
82653523|NCT01569451|165022434|SUPERIORITY_OR_OTHER|||||||0.4073|||||||Chi-squared|||||||0.4073
82653524|NCT01569451|165022435|SUPERIORITY_OR_OTHER|||||||0.8677|||||||Mixed Models Analysis|||||||0.8677
82653525|NCT01569451|165022436|OTHER|Mean difference between treatment groups.||||||0.3974|||||||t-test, 2 sided|||||||0.3974
82653526|NCT00635154|165022450|SUPERIORITY_OR_OTHER||Proportion of confirmed responses (%)|1.8||||||95.0|0.5|10.0|||||95% Confidence intervals were calculated for the true confirmed response rate using properties of the binomial distribution.|Proportion of confirmed responses to Anakinra alone was estimated by the number of patients who achieved a confirmed response divided by the total number of assessable patients.||10|0.5|
82653527|NCT01399736|165022457|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.22|0.55|||Chi-squared|||||0.55|0.22|<0.001
82653528|NCT01399736|165022458|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.7|TWO_SIDED|95.0|0.25|2.56|||Chi-squared|||||2.56|0.25|0.70
82653529|NCT01399736|165022459|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.25|4.01|||Chi-squared|||||4.01|0.25|1.00
82653530|NCT01399736|165022460|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.1|TWO_SIDED|95.0|0.22|1.13|||Chi-squared|||||1.13|0.22|0.10
82653531|NCT01399736|165022461|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.29|TWO_SIDED|95.0|0.22|1.59|||Chi-squared|||||1.59|0.22|0.29
82653532|NCT01399736|165022462|SUPERIORITY||Hazard Ratio (HR)|0.37|||<|0.001|TWO_SIDED|95.0|0.24|0.57|||Chi-squared|||||0.57|0.24|<0.001
82653533|NCT01399736|165022463|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.8|TWO_SIDED|95.0|0.29|5.02|||Chi-squared|||||5.02|0.29|0.80
82590295|NCT03627767|164894903|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.3|0.3||||||Pruritus VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.3|
82653534|NCT04543136|165022526|SUPERIORITY||Mean Difference (Final Values)|45.0||||0.074|TWO_SIDED|95.0|-4.5|94.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||94.5|-4.5|0.074
82491076|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|23.8||||0.001|TWO_SIDED|95.0|9.6|38.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||38.1|9.6|0.001
82491077|NCT02925117|164675630|SUPERIORITY||Adjusted Difference|11.8||||0.049|TWO_SIDED|95.0|0.1|23.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of EASI 90 Response at Week 16||23.6|0.1|0.049
82491078|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|68.4|||<|0.001|TWO_SIDED|95.0|54.0|82.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||82.8|54.0|<0.001
82491079|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|35.3|||<|0.001|TWO_SIDED|95.0|18.5|52.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||52.2|18.5|<0.001
82491080|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|25.7||||0.002|TWO_SIDED|95.0|9.6|41.7|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 8||41.7|9.6|0.002
82491081|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|54.5|||<|0.001|TWO_SIDED|95.0|39.0|69.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||69.9|39.0|<0.001
82590296|NCT03627767|164894903|SUPERIORITY||LSM difference|-2.1|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.7|||Mixed Models Analysis|||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-2.5|< 0.0001
82590297|NCT03627767|164894903|SUPERIORITY||LSM difference|-3.2|||<|0.0001|TWO_SIDED|95.0|-3.6|-2.8|||Mixed Models Analysis|||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.8|-3.6|< 0.0001
82590298|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.1|||||TWO_SIDED|95.0|-1.4|-0.7||||||Pruritus VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-1.4|
82590299|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.0|-0.8|||Mixed Models Analysis|||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.8|-2.0|< 0.0001
82590300|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.3|||Mixed Models Analysis|||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.3|-2.5|< 0.0001
82590301|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.5|||||TWO_SIDED|95.0|-0.9|-0.1||||||Pruritus VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-0.9|
82590302|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.0|||=|0.0039|TWO_SIDED|95.0|-1.7|-0.3|||Mixed Models Analysis|||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.7|= 0.0039
82590303|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.2|||Mixed Models Analysis|||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.2|-2.5|< 0.0001
82590304|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.3|-0.4||||||Pruritus VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-1.3|
82491082|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|35.8|||<|0.001|TWO_SIDED|95.0|19.1|52.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||52.5|19.1|<0.001
82491083|NCT02925117|164675631|SUPERIORITY||Adjusted Difference|21.2||||0.008|TWO_SIDED|95.0|5.7|36.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 50 Response at Week 16||36.8|5.7|0.008
82491084|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|30.4|||<|0.001|TWO_SIDED|95.0|16.2|44.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||44.6|16.2|<0.001
82491085|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|9.4||||0.052|TWO_SIDED|95.0|-0.1|18.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||18.9|-0.1|0.052
82491086|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|9.3||||0.048|TWO_SIDED|95.0|0.1|18.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 8||18.5|0.1|0.048
82491087|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|37.7|||<|0.001|TWO_SIDED|95.0|22.2|53.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||53.3|22.2|<0.001
82653535|NCT04543136|165022526|SUPERIORITY||Mean Difference (Final Values)|58.8||||0.022|TWO_SIDED|95.0|8.5|109.1||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||109.1|8.5|0.022
82491088|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|19.0||||0.006|TWO_SIDED|95.0|5.6|32.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||32.5|5.6|0.006
82491089|NCT02925117|164675632|SUPERIORITY||Adjusted Difference|2.4||||0.581|TWO_SIDED|95.0|-6.0|10.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 75 Response at Week 16||10.8|-6.0|0.581
82491090|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|14.2||||0.012|TWO_SIDED|95.0|3.2|25.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||25.2|3.2|0.012
82491091|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|2.3||||0.428|TWO_SIDED|95.0|-3.4|8.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||8.0|-3.4|0.428
82491092|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|4.6||||0.206|TWO_SIDED|95.0|-2.5|11.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 8||11.8|-2.5|0.206
82653536|NCT04543136|165022526|SUPERIORITY||Mean Difference (Final Values)|-13.8||||0.587|TWO_SIDED|95.0|-64.2|36.6||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||36.6|-64.2|0.587
82491093|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|23.3|||<|0.001|TWO_SIDED|95.0|10.4|36.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||36.2|10.4|<0.001
82491094|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|9.4||||0.048|TWO_SIDED|95.0|0.1|18.8|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||18.8|0.1|0.048
82491095|NCT02925117|164675633|SUPERIORITY||Adjusted Difference|2.4||||0.426|TWO_SIDED|95.0|-3.4|8.1|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||Analysis of SCORAD 90 Response at Week 16||8.1|-3.4|0.426
82491096|NCT02925117|164675639|SUPERIORITY||LS Mean Difference|-26.5|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-34.9|-18.1|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-18.1|-34.9|<0.001
82491097|NCT02925117|164675639|SUPERIORITY||LS Mean Difference|-23.0|STANDARD_ERROR_OF_MEAN|4.27|<|0.001|TWO_SIDED|95.0|-31.4|-14.6|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||-14.6|-31.4|<0.001
82491098|NCT02925117|164675639|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|4.25||0.075|TWO_SIDED|95.0|-16.0|0.8|||ANCOVA|ANCOVA with stratum (geographic region), baseline value, and treatment in the model.||||0.8|-16.0|0.075
82491099|NCT02925117|164675640|SUPERIORITY||Adjusted Difference|47.4|||<|0.001|TWO_SIDED|95.0|29.6|65.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||65.2|29.6|<0.001
82590305|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.5|||=|0.1488|TWO_SIDED|95.0|-1.2|0.2|||Mixed Models Analysis|||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-1.2|= 0.1488
82491100|NCT02925117|164675640|SUPERIORITY||Adjusted Difference|53.4|||<|0.001|TWO_SIDED|95.0|35.5|71.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||71.3|35.5|<0.001
82491101|NCT02925117|164675640|SUPERIORITY||Adjusted Difference|18.6||||0.021|TWO_SIDED|95.0|2.8|34.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratum (geographic region).||||34.3|2.8|0.021
82491102|NCT00347360|164675641|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Hung AVE test, see comments|Hung AVE Test Statistic: -0.41499. Tests an average of the minimum gains (in response) for the 9 combination cells over corresponding monotherapies.||This is an omnibus test to investigate the existence of at least one combination dose that outperforms its components.||||>0.1
82491103|NCT00347360|164675642|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Hung AVE test, see comments|Hung AVE Test Statistic: -0.00485. Tests an average of the minimum gains (in response) for the 9 combination cells over corresponding monotherapies.||This is an omnibus test to investigate the existence of at least one combination dose that outperforms its components.||||>0.1
82491104|NCT00134030|164675679|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.214|TWO_SIDED|95.0|0.61|1.12|||Log Rank|||||1.12|0.61|0.214
82491105|NCT00134030|164675679|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.86|TWO_SIDED|95.0|0.78|1.23|||Log Rank|||||1.23|0.78|0.86
82491106|NCT00134030|164675679|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.69|TWO_SIDED|95.0|-3.3|4.9|||Difference in RMST|||Secondary RMST analysis performed in poor response group, due to evidence of non-proportional hazards.||4.9|-3.3|0.69
82491107|NCT00134030|164675680|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.804|TWO_SIDED|95.0|0.69|1.33|||Log Rank|||||1.33|0.69|0.804
82491108|NCT00134030|164675680|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.674|TWO_SIDED|95.0|0.81|1.39|||Log Rank|||||1.39|0.81|0.674
82653537|NCT04543136|165022527|SUPERIORITY||Mean Difference (Final Values)|54.9||||0.03|TWO_SIDED|95.0|5.3|104.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||104.4|5.3|0.030
82590306|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.3|||=|0.0003|TWO_SIDED|95.0|-2.0|-0.6|||Mixed Models Analysis|||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-2.0|= 0.0003
82590307|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.2|-0.3||||||Pruritus VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.2|
82590308|NCT03627767|164894903|SUPERIORITY||LSM difference|0.0|||=|0.9294|TWO_SIDED|95.0|-0.2|0.2|||Mixed Models Analysis|||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.2|= 0.9294
82590309|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.1|||=|0.4081|TWO_SIDED|95.0|-0.3|0.1|||Mixed Models Analysis|||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.3|= 0.4081
82590310|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||||||Sleep Loss VAS: Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.3|
82590311|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.4|||Mixed Models Analysis|||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.4|-2.1|< 0.0001
82590312|NCT03627767|164894903|SUPERIORITY||LSM difference|-2.3|||<|0.0001|TWO_SIDED|95.0|-2.7|-2.0|||Mixed Models Analysis|||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.0|-2.7|< 0.0001
82590313|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.6|||||TWO_SIDED|95.0|-0.9|-0.2||||||Sleep Loss VAS: Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-0.9|
82590314|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.7|||=|0.0035|TWO_SIDED|95.0|-1.2|-0.2|||Mixed Models Analysis|||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.2|= 0.0035
82590315|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.7|||Mixed Models Analysis|||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-1.6|< 0.0001
82590316|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.5|||||TWO_SIDED|95.0|-0.8|-0.1||||||Sleep Loss VAS: Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-0.8|
82590317|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.7|||=|0.0136|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Models Analysis|||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.2|= 0.0136
82590318|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.6|< 0.0001
82590319|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.4|||||TWO_SIDED|95.0|-0.8|0.0||||||Sleep Loss VAS: Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.0|-0.8|
82590320|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.3|||=|0.2887|TWO_SIDED|95.0|-1.0|0.3|||Mixed Models Analysis|||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-1.0|= 0.2887
82590321|NCT03627767|164894903|SUPERIORITY||LSM difference|-1.0|||=|0.0025|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.6|= 0.0025
82590322|NCT03627767|164894903|SUPERIORITY||LSM difference|-0.6|||||TWO_SIDED|95.0|-1.0|-0.2||||||Sleep Loss VAS: Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.0|
82590323|NCT03627767|164894904|SUPERIORITY||Difference in percentage|1.0|||=|0.4244|TWO_SIDED|95.0|-1.4|3.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.4|-1.4|= 0.4244
82590324|NCT03627767|164894904|SUPERIORITY||Difference in percentage|-0.3|||=|0.8092|TWO_SIDED|95.0|-3.1|2.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||2.4|-3.1|= 0.8092
82590325|NCT03627767|164894904|SUPERIORITY||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-4.1|1.0||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||1.0|-4.1|
82590326|NCT03627767|164894904|SUPERIORITY||Difference in percentage|46.7|||<|0.0001|TWO_SIDED|95.0|39.2|54.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||54.2|39.2|< 0.0001
82590327|NCT03627767|164894904|SUPERIORITY||Difference in percentage|63.6|||<|0.0001|TWO_SIDED|95.0|57.2|70.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||70.0|57.2|< 0.0001
82590328|NCT03627767|164894904|SUPERIORITY||Difference in percentage|17.0|||||TWO_SIDED|95.0|10.4|23.5||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||23.5|10.4|
82590329|NCT03627767|164894904|SUPERIORITY||Difference in percentage|41.3|||<|0.0001|TWO_SIDED|95.0|33.9|48.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||48.7|33.9|< 0.0001
82590330|NCT03627767|164894904|SUPERIORITY||Difference in percentage|59.9|||<|0.0001|TWO_SIDED|95.0|53.1|66.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||66.7|53.1|< 0.0001
82491109|NCT02187744|164675699|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis to be tested in this study is the percentage of participants with steady state (Cycle 5) Ctrough \>20 μg/mL of PF-05280014 is non-inferior to trastuzumab-EU using a margin of -12.5%.|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-8.02|6.49|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||6.49|-8.02|
82491110|NCT02187744|164675699|NON_INFERIORITY_OR_EQUIVALENCE|The hypothesis to be tested in this study is the percentage of participants with steady state (Cycle 5) Ctrough \>20 μg/mL of PF-05280014 is non-inferior to trastuzumab-EU using a margin of -12.5%.|Mean Difference (Final Values)|-1.18|STANDARD_ERROR_OF_MEAN|3.78|||TWO_SIDED|95.0|-8.59|6.23|||||Unstratified analysis.|||6.23|-8.59|
82590331|NCT03627767|164894904|SUPERIORITY||Difference in percentage|18.7|||||TWO_SIDED|95.0|10.8|26.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.6|10.8|
82590332|NCT03627767|164894904|SUPERIORITY||Difference in percentage|37.0|||<|0.0001|TWO_SIDED|95.0|29.6|44.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||44.4|29.6|< 0.0001
82590333|NCT03627767|164894904|SUPERIORITY||Difference in percentage|54.6|||<|0.0001|TWO_SIDED|95.0|47.6|61.7||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||61.7|47.6|< 0.0001
82590334|NCT03627767|164894904|SUPERIORITY||Difference in percentage|17.7|||||TWO_SIDED|95.0|9.4|26.0||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.0|9.4|
82590335|NCT03627767|164894904|SUPERIORITY||Difference in percentage|30.0|||<|0.0001|TWO_SIDED|95.0|22.6|37.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.4|22.6|< 0.0001
82590336|NCT03627767|164894904|SUPERIORITY||Difference in percentage|50.9|||<|0.0001|TWO_SIDED|95.0|43.8|58.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||58.1|43.8|< 0.0001
82653538|NCT04543136|165022527|SUPERIORITY||Mean Difference (Final Values)|61.8||||0.015|TWO_SIDED|95.0|12.5|111.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||111.2|12.5|0.015
82653539|NCT04543136|165022527|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.78|TWO_SIDED|95.0|-56.5|42.5||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||42.5|-56.5|0.780
82653540|NCT04543136|165022528|SUPERIORITY||Mean Difference (Final Values)|-13.3||||0.281|TWO_SIDED|95.0|-37.9|11.2||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||11.2|-37.9|0.281
82491111|NCT02187744|164675701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81|STANDARD_ERROR_OF_MEAN|7.03|||TWO_SIDED|95.0|-16.58|10.96|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||10.96|-16.58|
82491112|NCT02187744|164675701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|7.35|||TWO_SIDED|95.0|-17.4|11.4|||||Unstratified analysis.|||11.40|-17.40|
82491113|NCT02187744|164675702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|5.09|||TWO_SIDED|95.0|-4.01|15.94|||||Stratified analysis was based on the normal approximation to the binomial distribution, adjusting for the randomization strata of primary tumor size, estrogen receptor status and by progesterone receptor status.|||15.94|-4.01|
82491114|NCT02187744|164675702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1|STANDARD_ERROR_OF_MEAN|5.19|||TWO_SIDED|95.0|-4.08|16.27|||||Unstratified analysis.|||16.27|-4.08|
82491115|NCT01972568|164675705|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.1208|TWO_SIDED|95.0|0.89|2.72|||Logistic regression model|||||2.72|0.89|0.1208
82491116|NCT01972568|164675713|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.31||||0.0048|TWO_SIDED|95.0|1.44|7.61|||Logistic regression model|||||7.61|1.44|0.0048
82491117|NCT01972568|164675714|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.96||||0.0202|TWO_SIDED|95.0|1.11|3.46|||Logistic regression model|||||3.46|1.11|0.0202
82590337|NCT03627767|164894904|SUPERIORITY||Difference in percentage|21.1|||||TWO_SIDED|95.0|12.8|29.5||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||29.5|12.8|
82590338|NCT03627767|164894905|SUPERIORITY||Difference in percentage|1.4|||=|0.7232|TWO_SIDED|95.0|-6.1|8.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||8.8|-6.1|= 0.7232
82491118|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||||90.0|-0.7|3.64||||||Inferential analysis at 0.5 hour post-dose||3.64|-0.7|
82491119|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.96||||||90.0|-5.13|-0.79||||||Inferential analysis at 1 hour post-dose||-0.79|-5.13|
82491120|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.53||||||90.0|-7.7|-3.36||||||Inferential analysis at 2 hour post-dose||-3.36|-7.70|
82491121|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||||90.0|-1.77|2.57||||||Inferential analysis at 4 hour post-dose||2.57|-1.77|
82491122|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37||||||90.0|-3.54|0.8||||||Inferential analysis at 8 hour post-dose||0.80|-3.54|
82491123|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||||90.0|-1.16|3.18||||||Inferential analysis at 12 hour post-dose||3.18|-1.16|
82491124|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64||||||90.0|-2.81|1.53||||||Inferential analysis at 24 hour post-dose||1.53|-2.81|
82491125|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49||||||90.0|0.32|4.66||||||Inferential analysis at 0.5 hour post-dose||4.66|0.32|
82491126|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.78||||||90.0|-3.95|0.39||||||Inferential analysis at 1 hour post-dose||0.39|-3.95|
82491127|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51||||||90.0|-9.68|-5.34||||||Inferential analysis at 2 hour post-dose||-5.34|-9.68|
82491128|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.47||||||90.0|1.3|5.64||||||Inferential analysis at 4 hour post-dose||5.64|1.30|
82491129|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13||||||90.0|-1.04|3.3||||||Inferential analysis at 8 hour post-dose||3.30|-1.04|
82491130|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.47||||||90.0|-0.7|3.64||||||Inferential analysis at 12 hour post-dose||3.64|-0.70|
82491131|NCT00795145|164675732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||||90.0|-0.37|3.97||||||Inferential analysis at 24 hour post-dose||3.97|-0.37|
82653541|NCT04543136|165022528|SUPERIORITY||Mean Difference (Final Values)|6.6||||0.597|TWO_SIDED|95.0|-18.3|31.7||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||31.7|-18.3|0.597
82653542|NCT04543136|165022528|SUPERIORITY||Mean Difference (Final Values)|-20.0||||0.116|TWO_SIDED|95.0|-45.1|5.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||5.0|-45.1|0.116
82590339|NCT03627767|164894905|SUPERIORITY||Difference in percentage|-2.2|||=|0.5694|TWO_SIDED|95.0|-9.8|5.4||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||5.4|-9.8|= 0.5694
82491132|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.27||||||90.0|1.1|5.44||||||Inferential analysis at 0.5 hour post-dose||5.44|1.10|
82491133|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.83||||||90.0|4.66|9.0||||||Inferential analysis at 1 hour post-dose||9.00|4.66|
82491134|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.27||||||90.0|8.1|12.44||||||Inferential analysis at 2 hour post-dose||12.44|8.10|
82491135|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.84||||||90.0|7.67|12.01||||||Inferential analysis at 4 hour post-dose||12.01|7.67|
82491136|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4||||||90.0|7.23|11.58||||||Inferential analysis at 8 hour post-dose||11.58|7.23|
82491137|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05||||||90.0|4.87|9.22||||||Inferential analysis at 12 hour post-dose||9.22|4.87|
82590340|NCT03627767|164894905|SUPERIORITY||Difference in percentage|-3.7|||||TWO_SIDED|95.0|-11.2|3.8||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.8|-11.2|
82491138|NCT00795145|164675733|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.52||||||90.0|4.35|8.69||||||Inferential analysis at 24 hour post-dose||8.69|4.35|
82491139|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.49||||||90.0|-5.54|2.57||||||Inferential analysis at 0.5 hour post-dose||2.57|-5.54|
82491140|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.45||||||90.0|-11.51|-3.4||||||Inferential analysis at 1 hour post-dose||-3.40|-11.51|
82491141|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.75||||||90.0|-9.81|-1.7||||||Inferential analysis at 2 hour post-dose||-1.70|-9.81|
82491142|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.92||||||90.0|-4.97|3.13||||||Inferential analysis at 4 hour post-dose||3.13|-4.97|
82491143|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.64||||||90.0|-9.69|-1.58||||||Inferential analysis at 8 hour post-dose||-1.58|-9.69|
82491144|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||||90.0|-6.34|1.77||||||Inferential analysis at 12 hour post-dose||1.77|-6.34|
82491145|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||||90.0|-4.64|3.47||||||Inferential analysis at 24 hour post-dose||3.47|-4.64|
82491146|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.49||||||90.0|-7.54|0.57||||||Inferential analysis at 0.5 hour post-dose||0.57|-7.54|
82491147|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.19||||||90.0|-16.24|-8.13||||||Inferential analysis at 1 hour post-dose||-8.13|-16.24|
82491148|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.39||||||90.0|-18.44|-10.33||||||Inferential analysis at 2 hour post-dose||-10.33|-18.44|
82491149|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.19||||||90.0|-6.24|1.87||||||Inferential analysis at 4 hour post-dose||1.87|-6.24|
82491150|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||||90.0|-2.95|5.15||||||Inferential analysis at 8 hour post-dose||5.15|-2.95|
82491151|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||||90.0|-3.94|4.17||||||Inferential analysis at 12 hour post-dose||4.17|-3.94|
82491152|NCT00795145|164675734|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.68||||||90.0|-1.37|6.73||||||Inferential analysis at 24 hour post-dose||6.73|-1.37|
82491153|NCT01696071|164675745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.038|0.034|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 QD - Tio R2.5 BID|No p-values are presented as no formal statistical hypothesis was tested.||0.034|-0.038|
82491154|NCT01696071|164675746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.021||||95.0|-0.032|0.052|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.052|-0.032|
82491155|NCT01696071|164675747|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.05|0.022|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.022|-0.050|
82491156|NCT01696071|164675748|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.018||||95.0|-0.051|0.023|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.023|-0.051|
82491157|NCT01696071|164675749|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.004|STANDARD_ERROR_OF_MEAN|0.032||||95.0|-0.06|0.068|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.068|-0.060|
82491158|NCT01696071|164675750|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.044|0.035|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested.||0.035|-0.044|
82491159|NCT01696071|164675751|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.023||||95.0|-0.048|0.042|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.042|-0.048|
82491160|NCT01696071|164675752|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.006|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.047|0.034|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.034|-0.047|
82491161|NCT01696071|164675753|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.026||||95.0|-0.07|0.032|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.032|-0.070|
82491162|NCT01696071|164675754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.041|STANDARD_ERROR_OF_MEAN|0.035||||95.0|-0.03|0.111|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||0.111|-0.030|
82491163|NCT01696071|164675755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.389|STANDARD_ERROR_OF_MEAN|3.658||||95.0|-8.651|5.873|||Mixed Models Analysis|MMRM, adjusted for treatment, period, patient and study baseline|Tio R5 qd - Tio R2.5 bid|No p-values are presented as no formal statistical hypothesis was tested||5.873|-8.651|
82491164|NCT04547712|164675765|SUPERIORITY||Proportion expressed as a percentage|78.9|||||ONE_SIDED|97.5|59.4||||||The confidence interval lower limit was above the performance goal of 50%, the primary objective was met.|"Null Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS single threshold mode Evaluation Period exceeding threshold \<= 50%; Alternative Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS single threshold mode Evaluation Period exceeding threshold \> 50%"|||59.4|
82590341|NCT03627767|164894905|SUPERIORITY||Difference in percentage|29.0|||<|0.0001|TWO_SIDED|95.0|22.2|35.8||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||35.8|22.2|< 0.0001
82590342|NCT03627767|164894905|SUPERIORITY||Difference in percentage|57.9|||<|0.0001|TWO_SIDED|95.0|51.2|64.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||64.5|51.2|< 0.0001
82590343|NCT03627767|164894905|SUPERIORITY||Difference in percentage|28.9|||||TWO_SIDED|95.0|20.8|37.0||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.0|20.8|
82590344|NCT03627767|164894905|SUPERIORITY||Difference in percentage|30.5|||<|0.0001|TWO_SIDED|95.0|23.9|37.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||37.2|23.9|< 0.0001
82590345|NCT03627767|164894905|SUPERIORITY||Difference in percentage|48.9|||<|0.0001|TWO_SIDED|95.0|42.1|55.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||55.6|42.1|< 0.0001
82590346|NCT03627767|164894905|SUPERIORITY||Difference in percentage|18.2|||||TWO_SIDED|95.0|9.8|26.6||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||26.6|9.8|
82653543|NCT04543136|165022529|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.787|TWO_SIDED|95.0|-21.2|27.9||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||27.9|-21.2|0.787
82491165|NCT04547712|164675765|SUPERIORITY||Proportion expressed as a percentage|91.0|||||ONE_SIDED|97.5|75.6||||||The confidence interval lower limit was above the performance goal of 50%, the primary objective was met.|"Null Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS dual threshold mode Evaluation Period exceeding threshold \<= 50%; Alternative Hypothesis: The proportion of subjects with On time without troublesome dyskinesia during aDBS dual threshold mode Evaluation Period exceeding threshold \> 50%"|||75.6|
82491166|NCT04547712|164675766|SUPERIORITY|||||||0.012||||||Nominal p-value is provided.|t-test, 2 sided|||Null Hypothesis: Mean Difference between aDBS single threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \>= 0; Alternative Hypothesis: Mean Difference between aDBS single threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \< 0||||0.0120
82491167|NCT04547712|164675766|SUPERIORITY|||||||0.0491||||||Nominal p-value is provided.|t-test, 2 sided|||Null Hypothesis: Mean Difference between aDBS dual threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \>= 0; Alternative Hypothesis: Mean Difference between aDBS dual threshold (Evaluation Phase) minus cDBS (Baseline Phase) for TEED \< 0||||0.0491
82491168|NCT03298867|164675768|SUPERIORITY||Stratified difference in percentages|73.45|STANDARD_ERROR_OF_MEAN|7.43|<|0.001|TWO_SIDED|95.0|58.89|88.01||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with Cochran-Mantel-Haenszel (CMH) weights.|||88.01|58.89|<0.001
82491169|NCT03298867|164675769|SUPERIORITY||Stratified difference in percentages|70.82|STANDARD_ERROR_OF_MEAN|7.62|<|0.001|TWO_SIDED|95.0|55.89|85.75||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||85.75|55.89|<0.001
82590347|NCT03627767|164894905|SUPERIORITY||Difference in percentage|25.0|||<|0.0001|TWO_SIDED|95.0|18.4|31.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.5|18.4|< 0.0001
82590348|NCT03627767|164894905|SUPERIORITY||Difference in percentage|39.6|||<|0.0001|TWO_SIDED|95.0|32.7|46.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||46.5|32.7|< 0.0001
82590349|NCT03627767|164894905|SUPERIORITY||Difference in percentage|14.5|||||TWO_SIDED|95.0|6.3|22.8||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.8|6.3|
82590350|NCT03627767|164894905|SUPERIORITY||Difference in percentage|24.7|||<|0.0001|TWO_SIDED|95.0|18.1|31.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.2|18.1|< 0.0001
82590351|NCT03627767|164894905|SUPERIORITY||Difference in percentage|38.5|||<|0.0001|TWO_SIDED|95.0|31.6|45.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||45.3|31.6|< 0.0001
82590352|NCT03627767|164894905|SUPERIORITY||Difference in percentage|13.9|||||TWO_SIDED|95.0|5.6|22.3||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||22.3|5.6|
82590353|NCT03627767|164894913|SUPERIORITY||Difference in percentage|3.0|||=|0.4815|TWO_SIDED|95.0|-5.3|11.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||11.3|-5.3|= 0.4815
82653544|NCT04543136|165022529|SUPERIORITY||Mean Difference (Final Values)|6.8||||0.576|TWO_SIDED|95.0|-17.6|31.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||31.3|-17.6|0.576
82590354|NCT03627767|164894913|SUPERIORITY||Difference in percentage|-1.8|||=|0.6748|TWO_SIDED|95.0|-10.3|6.6||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 12: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||6.6|-10.3|= 0.6748
82590355|NCT03627767|164894913|SUPERIORITY||Difference in percentage|-5.1|||||TWO_SIDED|95.0|-13.4|3.2||||||Week 12: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||3.2|-13.4|
82590356|NCT03627767|164894913|SUPERIORITY||Difference in percentage|24.0|||<|0.0001|TWO_SIDED|95.0|17.8|30.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||30.3|17.8|< 0.0001
82590357|NCT03627767|164894913|SUPERIORITY||Difference in percentage|42.3|||<|0.0001|TWO_SIDED|95.0|35.6|49.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 16: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||49.0|35.6|< 0.0001
82590358|NCT03627767|164894913|SUPERIORITY||Difference in percentage|18.4|||||TWO_SIDED|95.0|10.2|26.6||||||Week 16: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions||26.6|10.2|
82590359|NCT03627767|164894913|SUPERIORITY||Difference in percentage|24.6|||<|0.0001|TWO_SIDED|95.0|18.2|31.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||31.0|18.2|< 0.0001
82590360|NCT03627767|164894913|SUPERIORITY||Difference in percentage|40.5|||<|0.0001|TWO_SIDED|95.0|33.7|47.3||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 28: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||47.3|33.7|< 0.0001
82590361|NCT03627767|164894913|SUPERIORITY||Difference in percentage|15.9|||||TWO_SIDED|95.0|7.6|24.1||||||Week 28: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||24.1|7.6|
82590362|NCT03627767|164894913|SUPERIORITY||Difference in percentage|18.8|||<|0.0001|TWO_SIDED|95.0|12.6|25.1||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.1|12.6|< 0.0001
82491170|NCT03298867|164675770|SUPERIORITY||Stratified difference in percentages|36.03|STANDARD_ERROR_OF_MEAN|9.51|<|0.001|TWO_SIDED|95.0|17.39|54.67||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference (teprotumumab - placebo) is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||54.67|17.39|<0.001
82590363|NCT03627767|164894913|SUPERIORITY||Difference in percentage|34.5|||<|0.0001|TWO_SIDED|95.0|27.6|41.5||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 40: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||41.5|27.6|< 0.0001
82491171|NCT03298867|164675771|SUPERIORITY||LS mean difference|-2.28|STANDARD_ERROR_OF_MEAN|0.244|<|0.001|TWO_SIDED|95.0|-2.77|-1.8||Results obtained from an MMRM with an unstructured covariance matrix including the following terms: Baseline value, tobacco use status, treatment group, visit, visit-by-treatment interaction and visit-by-Baseline-value interaction.|mixed model for repeated measures (MMRM)|||||-1.80|-2.77|<0.001
82491172|NCT03298867|164675772|SUPERIORITY||Stratified difference in percentages|39.29|STANDARD_ERROR_OF_MEAN|12.11||0.001|TWO_SIDED|95.0|15.55|63.02||Two-sided p-value calculated assuming the test statistic was distributed as a standard normal random variable.|Cochran-Mantel-Haenszel||Stratified difference is a weighted average of the difference within each stratum. Estimates from the 2 strata (tobacco user, tobacco non-user) were combined with CMH weights.|||63.02|15.55|0.001
82491173|NCT03298867|164675773|SUPERIORITY||Difference in LS mean|9.36|STANDARD_ERROR_OF_MEAN|2.651|<|0.001|TWO_SIDED|95.0|4.08|14.64||Results obtained from an MMRM with an unstructured covariance matrix including the following terms: Baseline value, tobacco use status, treatment group, visit, visit-by-treatment interaction and visit-by-Baseline-value interaction.|mixed model for repeated measures (MMRM)|||||14.64|4.08|<0.001
82491174|NCT04680052|164675799|SUPERIORITY||Hazard Ratio (HR)|0.434|||<|0.0001|TWO_SIDED|95.0|0.324|0.58|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.580|0.324|<0.0001
82491175|NCT04680052|164675801|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.383|0.653|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.653|0.383|<0.0001
82491176|NCT04680052|164675802|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0286|TWO_SIDED|95.0|1.04|2.13|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.13|1.04|0.0286
82491177|NCT04680052|164675804|SUPERIORITY||Hazard Ratio (HR)|0.587||||0.1061|TWO_SIDED|95.0|0.306|1.128|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||1.128|0.306|0.1061
82590364|NCT03627767|164894913|SUPERIORITY||Difference in percentage|15.6|||||TWO_SIDED|95.0|7.5|23.7||||||Week 40: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||23.7|7.5|
82590365|NCT03627767|164894913|SUPERIORITY||Difference in percentage|18.7|||<|0.0001|TWO_SIDED|95.0|12.4|25.0||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||25.0|12.4|< 0.0001
82590366|NCT03627767|164894913|SUPERIORITY||Difference in percentage|32.3|||<|0.0001|TWO_SIDED|95.0|25.4|39.2||P-value was adjusted by disease severity at baseline and randomization strata.|Cochran-Mantel-Haenszel|||Week 52: Difference in percentage (PF-04965842 - Placebo) and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||39.2|25.4|< 0.0001
82491178|NCT04680052|164675805|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.5||||0.0221|TWO_SIDED|95.0|1.06|2.03|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.03|1.06|0.0221
82491179|NCT04680052|164675806|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.4||||0.4093|TWO_SIDED|95.0|0.61|3.33|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.33|0.61|0.4093
82491180|NCT04680052|164675807|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.5||||0.2874|TWO_SIDED|95.0|0.69|3.47|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.47|0.69|0.2874
82491181|NCT04680052|164675808|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.0||||0.0014|TWO_SIDED|95.0|1.3|3.02|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.02|1.30|0.0014
82491182|NCT04680052|164675809|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.29|2.74|||Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.74|1.29|0.0009
82491183|NCT04680052|164675811|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.473|||<|0.0001|TWO_SIDED|95.0|0.33|0.678|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.678|0.330|<0.0001
82491184|NCT04680052|164675813|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.55||||0.0003|TWO_SIDED|95.0|0.397|0.763|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.763|0.397|0.0003
82590367|NCT03627767|164894913|SUPERIORITY||Difference in percentage|13.7|||||TWO_SIDED|95.0|5.6|21.7||||||Week 52: Difference in percentage and CI for difference were calculated based on the weighted average of difference for each randomization stratum and disease severity at baseline using the normal approximation of binomial proportions.||21.7|5.6|
82590368|NCT03627767|164894914|SUPERIORITY||LSM difference|0.1|||=|0.7373|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.5|= 0.7373
82590369|NCT03627767|164894914|SUPERIORITY||LSM difference|-0.1|||=|0.8092|TWO_SIDED|95.0|-0.7|0.5|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.5|-0.7|= 0.8092
82590370|NCT03627767|164894914|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.8|0.4||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-0.8|
82653545|NCT04543136|165022529|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.775|TWO_SIDED|95.0|-28.1|21.0||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||21.0|-28.1|0.775
82653546|NCT04543136|165022530|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.766|TWO_SIDED|95.0|-0.7|0.52||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.52|-0.70|0.766
82653547|NCT04543136|165022530|SUPERIORITY||Mean Difference (Final Values)|-0.68||||0.032|TWO_SIDED|95.0|-1.3|-0.06||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||-0.06|-1.30|0.032
82653548|NCT04543136|165022530|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.063|TWO_SIDED|95.0|-0.03|1.21||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.21|-0.03|0.063
82653549|NCT04543136|165022531|SUPERIORITY||Mean Difference (Final Values)|0.21||||0.213|TWO_SIDED|95.0|-0.12|0.54||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.54|-0.12|0.213
82653550|NCT04543136|165022531|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.291|TWO_SIDED|95.0|-0.16|0.51||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.51|-0.16|0.291
82590371|NCT03627767|164894914|SUPERIORITY||LSM difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-6.1|-4.0|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-4.0|-6.1|< 0.0001
82590372|NCT03627767|164894914|SUPERIORITY||LSM difference|-6.6|||<|0.0001|TWO_SIDED|95.0|-7.6|-5.5|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.5|-7.6|< 0.0001
82653551|NCT04543136|165022531|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.868|TWO_SIDED|95.0|-0.31|0.36||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.36|-0.31|0.868
82653552|NCT04543136|165022532|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.661|TWO_SIDED|95.0|-0.35|0.55||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.55|-0.35|0.661
82653553|NCT04543136|165022532|SUPERIORITY||Mean Difference (Final Values)|-0.29||||0.218|TWO_SIDED|95.0|-0.75|0.17||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.17|-0.75|0.218
82653554|NCT04543136|165022532|SUPERIORITY||Mean Difference (Final Values)|0.39||||0.1|TWO_SIDED|95.0|-0.08|0.85||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.85|-0.08|0.100
82499944|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.1|||||TWO_SIDED|95.0|-62.6|9.4|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||9.4|-62.6|
82590373|NCT03627767|164894914|SUPERIORITY||LSM difference|-1.5|||||TWO_SIDED|95.0|-2.4|-0.6||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-2.4|
82590374|NCT03627767|164894914|SUPERIORITY||LSM difference|-4.0|||<|0.0001|TWO_SIDED|95.0|-5.3|-2.7|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.7|-5.3|< 0.0001
82590375|NCT03627767|164894914|SUPERIORITY||LSM difference|-5.2|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.9|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.9|-6.4|< 0.0001
82590376|NCT03627767|164894914|SUPERIORITY||LSM difference|-1.2|||||TWO_SIDED|95.0|-2.1|-0.3||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-2.1|
82590377|NCT03627767|164894914|SUPERIORITY||LSM difference|-1.9|||=|0.015|TWO_SIDED|95.0|-3.5|-0.4|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-3.5|= 0.0150
82590378|NCT03627767|164894914|SUPERIORITY||LSM difference|-3.2|||<|0.0001|TWO_SIDED|95.0|-4.7|-1.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-4.7|< 0.0001
82590379|NCT03627767|164894914|SUPERIORITY||LSM difference|-1.3|||||TWO_SIDED|95.0|-2.3|-0.3||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-2.3|
82590380|NCT03627767|164894914|SUPERIORITY||LSM difference|-0.8|||=|0.3616|TWO_SIDED|95.0|-2.4|0.9|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.9|-2.4|= 0.3616
82590381|NCT03627767|164894914|SUPERIORITY||LSM difference|-2.7|||=|0.0012|TWO_SIDED|95.0|-4.3|-1.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.1|-4.3|= 0.0012
82590382|NCT03627767|164894914|SUPERIORITY||LSM difference|-1.9|||||TWO_SIDED|95.0|-3.0|-0.8||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.8|-3.0|
82590383|NCT03627767|164894915|SUPERIORITY||LSM difference|0.6|||=|0.3339|TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.8|-0.6|= 0.3339
82590384|NCT03627767|164894915|SUPERIORITY||LSM difference|0.5|||=|0.4653|TWO_SIDED|95.0|-0.8|1.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.7|-0.8|= 0.4653
82590385|NCT03627767|164894915|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-1.3|1.1||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.1|-1.3|
82590386|NCT03627767|164894915|SUPERIORITY||LSM difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-6.2|-2.3|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.3|-6.2|< 0.0001
82590387|NCT03627767|164894915|SUPERIORITY||LSM difference|-6.2|||<|0.0001|TWO_SIDED|95.0|-8.2|-4.3|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-4.3|-8.2|< 0.0001
82590388|NCT03627767|164894915|SUPERIORITY||LSM difference|-2.0|||||TWO_SIDED|95.0|-3.6|-0.3||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-3.6|
82491185|NCT04680052|164675815|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.85||||0.5837|TWO_SIDED|95.0|0.476|1.519|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||1.519|0.476|0.5837
82590389|NCT03627767|164894915|SUPERIORITY||LSM difference|0.1|||=|0.9083|TWO_SIDED|95.0|-1.8|2.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||2.1|-1.8|= 0.9083
82590390|NCT03627767|164894915|SUPERIORITY||LSM difference|-1.1|||=|0.2439|TWO_SIDED|95.0|-3.0|0.8|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.8|-3.0|= 0.2439
82590391|NCT03627767|164894915|SUPERIORITY||LSM difference|-1.2|||||TWO_SIDED|95.0|-2.6|0.1||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-2.6|
82590392|NCT03627767|164894915|SUPERIORITY||LSM difference|-0.3|||=|0.7405|TWO_SIDED|95.0|-2.4|1.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.7|-2.4|= 0.7405
82653555|NCT04543136|165022533|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.701|TWO_SIDED|95.0|-0.8|0.54||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.54|-0.80|0.701
82653556|NCT04543136|165022533|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.438|TWO_SIDED|95.0|-0.96|0.42||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.42|-0.96|0.438
82653557|NCT04543136|165022533|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.689|TWO_SIDED|95.0|-0.55|0.83||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.83|-0.55|0.689
82653558|NCT04543136|165022534|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.309|TWO_SIDED|95.0|-0.92|0.3||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.30|-0.92|0.309
82653559|NCT04543136|165022534|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.109|TWO_SIDED|95.0|-1.1|0.11||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.11|-1.10|0.109
82653560|NCT04543136|165022534|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.555|TWO_SIDED|95.0|-0.43|0.79||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.79|-0.43|0.555
82491186|NCT04680052|164675817|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.407|||<|0.0001|TWO_SIDED|95.0|0.294|0.563|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.563|0.294|<0.0001
82590393|NCT03627767|164894915|SUPERIORITY||LSM difference|-2.1|||=|0.041|TWO_SIDED|95.0|-4.1|-0.1|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-4.1|= 0.0410
82590394|NCT03627767|164894915|SUPERIORITY||LSM difference|-1.7|||||TWO_SIDED|95.0|-3.1|-0.4||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-3.1|
82653561|NCT04543136|165022535|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.896|TWO_SIDED|95.0|-0.35|0.31||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.31|-0.35|0.896
82653562|NCT04543136|165022535|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.32|TWO_SIDED|95.0|-0.49|0.16||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.16|-0.49|0.320
82653563|NCT04543136|165022535|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.39|TWO_SIDED|95.0|-0.19|0.47||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.47|-0.19|0.390
82590395|NCT03627767|164894915|SUPERIORITY||LSM difference|-1.0|||=|0.4026|TWO_SIDED|95.0|-3.5|1.4|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.4|-3.5|= 0.4026
82590396|NCT03627767|164894915|SUPERIORITY||LSM difference|-1.9|||=|0.0944|TWO_SIDED|95.0|-4.2|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-4.2|= 0.0944
82491187|NCT04680052|164675819|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.481|||<|0.0001|TWO_SIDED|95.0|0.357|0.647|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.647|0.357|<0.0001
82491188|NCT04680052|164675820|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.2||||0.0003|TWO_SIDED|95.0|1.43|3.43|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||3.43|1.43|0.0003
82590397|NCT03627767|164894915|SUPERIORITY||LSM difference|-0.9|||||TWO_SIDED|95.0|-2.5|0.7||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-2.5|
82590398|NCT03627767|164894916|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.211|0.341||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate p-value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% confidence interval (CI).||0.341|0.211|< 0.0001
82491189|NCT04680052|164675821|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Odds Ratio (OR)|2.0||||0.0005|TWO_SIDED|95.0|1.33|2.86|||stratified Cochran-Mantel-Haenszel||The strata information was based on the data obtained from the interactive response technology that was used for randomization.|||2.86|1.33|0.0005
82590399|NCT03627767|164894916|SUPERIORITY||Hazard Ratio (HR)|0.1|||<|0.0001|TWO_SIDED|95.0|0.07|0.136||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.136|0.070|< 0.0001
82590400|NCT03627767|164894916|SUPERIORITY||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.255|0.516||A stratified log-rank test with age group and disease severity as stratification variables was performed to evaluate P value.|Log Rank|||A Cox regression model with treatment, age group and disease severity as stratification covariates was used to estimate the hazard ratio and the corresponding 95% CI.||0.516|0.255|< 0.0001
82590401|NCT03627767|164894917|SUPERIORITY||LSM difference|0.1|||=|0.7556|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.4|= 0.7556
82590402|NCT03627767|164894917|SUPERIORITY||LSM difference|0.1|||=|0.7484|TWO_SIDED|95.0|-0.4|0.6|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.4|= 0.7484
82590403|NCT03627767|164894917|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.5|0.5||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.5|-0.5|
82590404|NCT03627767|164894917|SUPERIORITY||LSM difference|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.6|-0.6|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.6|< 0.0001
82590405|NCT03627767|164894917|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.9|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.9|< 0.0001
82590406|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.7|0.1||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.7|
82590407|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.6|||=|0.0242|TWO_SIDED|95.0|-1.2|-0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.2|= 0.0242
82590408|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.9|||=|0.0012|TWO_SIDED|95.0|-1.4|-0.4|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-1.4|= 0.0012
82590409|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.6|0.1||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.6|
82590410|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.6|||=|0.124|TWO_SIDED|95.0|-1.3|0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-1.3|= 0.1240
82590411|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.9|||=|0.0107|TWO_SIDED|95.0|-1.6|-0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.6|= 0.0107
82491190|NCT04680052|164675823|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|0.461|||<|0.0001|TWO_SIDED|95.0|0.312|0.681|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||0.681|0.312|<0.0001
82491191|NCT04680052|164675825|SUPERIORITY|Only primary and key secondary endpoints were formally tested; this endpoint was not formally tested.|Hazard Ratio (HR)|1.192||||0.7469|TWO_SIDED|95.0|0.409|3.475|||stratified Log Rank||The hazard ratio was estimated using a stratified Cox proportional hazards model.|||3.475|0.409|0.7469
82491192|NCT06956170|164675834|OTHER||Hazard Ratio (HR)|0.53|||||TWO_SIDED|95.0|0.1|2.78|||||Hazard ratio was estimated using an unstratified Cox Proportional Hazard model with treatment arm as an explanatory variable.|||2.78|0.10|
82491193|NCT00094172|164675875|SUPERIORITY_OR_OTHER|||||||0.929|||||||Log Rank|||This is the primary analysis of the primary endpoint||||0.929
82590412|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.3|||||TWO_SIDED|95.0|-0.8|0.1||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-0.8|
82653564|NCT04543136|165022536|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.802|TWO_SIDED|95.0|-0.51|0.4||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.40|-0.51|0.802
82653565|NCT04543136|165022536|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.082|TWO_SIDED|95.0|-0.85|0.05||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.05|-0.85|0.082
82653566|NCT04543136|165022536|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.137|TWO_SIDED|95.0|-0.11|0.8||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.80|-0.11|0.137
82653567|NCT04543136|165022537|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.525|TWO_SIDED|95.0|-0.89|0.46||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.46|-0.89|0.525
82653568|NCT04543136|165022537|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.098|TWO_SIDED|95.0|-1.24|0.11||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||0.11|-1.24|0.098
82590413|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.4|||=|0.3139|TWO_SIDED|95.0|-1.1|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-1.1|= 0.3139
82491194|NCT00094172|164675875|SUPERIORITY_OR_OTHER|||||||0.823|||||||Fisher Exact|||This is the secondary analysis of the primary endpoint||||0.823
82653569|NCT04543136|165022537|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.306|TWO_SIDED|95.0|-0.33|1.02||The P-values were not adjusted for multiple comparisons.|Mixed Models Analysis|Subject was included as a random effect, 'Visit' (Visit 1, 2 and 3) and 'Treatment' (comparator, Variant 1 and Variant 2) as fixed effects.||Due to the exploratory nature of this investigation, no formal pass/fail criteria were applied.||1.02|-0.33|0.306
82491195|NCT00094172|164675876|SUPERIORITY_OR_OTHER|||||||0.208|||||||Log Rank|||||||.208
82491196|NCT00094172|164675877|SUPERIORITY_OR_OTHER|||||||0.526||95.0|||||Log Rank|||||||0.526
82491197|NCT02478632|164675888|SUPERIORITY||Mean Difference (Final Values)|1.29||||0.014|TWO_SIDED|95.0|0.27|2.31|||ANCOVA|||||2.31|0.27|0.014
82491198|NCT02478632|164675889|SUPERIORITY||Mean Difference (Final Values)|1.32||||0.039|TWO_SIDED|95.0|0.07|2.57|||ANCOVA|||||2.57|0.07|0.039
82491199|NCT02478632|164675892|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.016|TWO_SIDED|95.0|0.02|0.16||p value for the difference in adjusted change from Baseline at Week 48 in total hip T-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated the difference between DTG+RPV and CAR in total hip T-scores|||0.16|0.02|0.016
82491200|NCT02478632|164675892|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.026|TWO_SIDED|95.0|0.01|0.15||p value for the difference in adjusted change from Baseline at Week 48 in total hip Z-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR in total hip Z-score.|||0.15|0.01|0.026
82491201|NCT02478632|164675892|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.049|TWO_SIDED|95.0|0.0|0.23||p value for the difference in adjusted change from Baseline at Week 48 in lumbar spine T-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR for lumbar spine T-score.|||0.23|0.00|0.049
82491202|NCT02478632|164675892|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.013|TWO_SIDED|95.0|0.03|0.27||p value for the difference in adjusted change from Baseline at Week 48 in lumbar spine Z-scores between the DTG+RPV and CAR groups|ANCOVA||The analysis estimated difference between DTG+RPV and CAR in lumbar spine Z-score.|||0.27|0.03|0.013
82491203|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|0.65|||||TWO_SIDED|95.0|-3.51|4.81|||||The analysis refers to INSTI and total hip.|||4.81|-3.51|
82491204|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|95.0|0.39|2.81|||||The analysis refers to NNRTI and total hip.|||2.81|0.39|
82491205|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-1.39|3.38|||||this analysis refers to PI and total hip|||3.38|-1.39|
82491206|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|3.85|||||TWO_SIDED|95.0|0.67|7.03|||||this analysis refers to INSTI and lumbar spine.|||7.03|0.67|
82491207|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|1.25|||||TWO_SIDED|95.0|-0.26|2.76|||||this analysis refers to NNRTI and lumbar spine|||2.76|-0.26|
82590414|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.6|||=|0.0853|TWO_SIDED|95.0|-1.3|0.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.3|= 0.0853
82590415|NCT03627767|164894917|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.7|0.2||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.7|
82590416|NCT03627767|164894918|SUPERIORITY||LSM difference|0.4|||=|0.0674|TWO_SIDED|95.0|0.0|0.8|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.8|0.0|= 0.0674
82590417|NCT03627767|164894918|SUPERIORITY||LSM difference|0.3|||=|0.1437|TWO_SIDED|95.0|-0.1|0.7|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.1|= 0.1437
82590418|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.1|||||TWO_SIDED|95.0|-0.5|0.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.5|
82590419|NCT03627767|164894918|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.8|< 0.0001
82653570|NCT00386009|165022539|SUPERIORITY_OR_OTHER|||||||0.068||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.068
82590420|NCT03627767|164894918|SUPERIORITY||LSM difference|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.8|-0.9|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-1.8|< 0.0001
82590421|NCT03627767|164894918|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-0.4|
82590422|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.4|||=|0.1136|TWO_SIDED|95.0|-1.0|0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.0|= 0.1136
82590423|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.6|||=|0.0276|TWO_SIDED|95.0|-1.1|-0.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.1|-1.1|= 0.0276
82590424|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.2|||||TWO_SIDED|95.0|-0.5|0.2||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.5|
82590425|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.9|||=|0.0108|TWO_SIDED|95.0|-1.5|-0.2|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-1.5|= 0.0108
82590426|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.6|||=|0.0677|TWO_SIDED|95.0|-1.3|0.0|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.0|-1.3|= 0.0677
82590427|NCT03627767|164894918|SUPERIORITY||LSM difference|0.3|||||TWO_SIDED|95.0|-0.2|0.7||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.7|-0.2|
82590428|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.5|||=|0.132|TWO_SIDED|95.0|-1.1|0.1|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.1|-1.1|= 0.1320
82590429|NCT03627767|164894918|SUPERIORITY||LSM difference|-0.3|||=|0.2975|TWO_SIDED|95.0|-0.9|0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.9|= 0.2975
82590430|NCT03627767|164894918|SUPERIORITY||LSM difference|0.2|||||TWO_SIDED|95.0|-0.2|0.6||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.6|-0.2|
82653571|NCT00386009|165022540|SUPERIORITY_OR_OTHER|||||||0.626||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.626
82653572|NCT00386009|165022541|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.113
82590431|NCT03627767|164894919|SUPERIORITY||LSM difference|-0.4|||=|0.3531|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.4|-1.3|= 0.3531
82590432|NCT03627767|164894919|SUPERIORITY||LSM difference|0.0|||=|0.9282|TWO_SIDED|95.0|-0.8|0.9|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.9|-0.8|= 0.9282
82590433|NCT03627767|164894919|SUPERIORITY||LSM difference|0.4|||||TWO_SIDED|95.0|-0.4|1.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||1.3|-0.4|
82590434|NCT03627767|164894919|SUPERIORITY||LSM difference|-6.1|||<|0.0001|TWO_SIDED|95.0|-7.3|-5.0|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.0|-7.3|< 0.0001
82590435|NCT03627767|164894919|SUPERIORITY||LSM difference|-9.2|||<|0.0001|TWO_SIDED|95.0|-10.3|-8.1|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-8.1|-10.3|< 0.0001
82590436|NCT03627767|164894919|SUPERIORITY||LSM difference|-3.1|||||TWO_SIDED|95.0|-4.0|-2.1||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.1|-4.0|
82653573|NCT00386009|165022542|SUPERIORITY_OR_OTHER|||||||0.837||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.837
82590437|NCT03627767|164894919|SUPERIORITY||LSM difference|-4.6|||<|0.0001|TWO_SIDED|95.0|-6.2|-2.9|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-2.9|-6.2|< 0.0001
82590438|NCT03627767|164894919|SUPERIORITY||LSM difference|-6.7|||<|0.0001|TWO_SIDED|95.0|-8.3|-5.1|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-5.1|-8.3|< 0.0001
82590439|NCT03627767|164894919|SUPERIORITY||LSM difference|-2.1|||||TWO_SIDED|95.0|-3.3|-0.9||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.9|-3.3|
82590440|NCT03627767|164894919|SUPERIORITY||LSM difference|-2.6|||=|0.0082|TWO_SIDED|95.0|-4.5|-0.7|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.7|-4.5|= 0.0082
82590441|NCT03627767|164894919|SUPERIORITY||LSM difference|-5.5|||<|0.0001|TWO_SIDED|95.0|-7.4|-3.6|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.6|-7.4|< 0.0001
82590442|NCT03627767|164894919|SUPERIORITY||LSM difference|-2.9|||||TWO_SIDED|95.0|-4.2|-1.6||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.6|-4.2|
82590443|NCT03627767|164894919|SUPERIORITY||LSM difference|-2.4|||=|0.0313|TWO_SIDED|95.0|-4.5|-0.2|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.2|-4.5|= 0.0313
82590444|NCT03627767|164894919|SUPERIORITY||LSM difference|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.1|-3.0|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-3.0|-7.1|< 0.0001
82590445|NCT03627767|164894919|SUPERIORITY||LSM difference|-2.7|||||TWO_SIDED|95.0|-4.1|-1.3||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.3|-4.1|
82590446|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.1|||=|0.4832|TWO_SIDED|95.0|-0.4|0.2|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.4|= 0.4832
82590447|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.1|||=|0.6553|TWO_SIDED|95.0|-0.3|0.2|||Mixed Models Analysis|||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.2|-0.3|= 0.6553
82653574|NCT00386009|165022543|SUPERIORITY_OR_OTHER|||||||0.4||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.400
82653575|NCT00386009|165022544|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.864
82653576|NCT00386009|165022545|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.340
82653577|NCT00386009|165022546|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.838
82491208|NCT02478632|164675895|OTHER||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-3.0|3.77|||||this analysis refers to PI and lumbar spine|||3.77|-3.00|
82491209|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.26|0.3|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent INSTI.|||0.30|-0.26|
82491210|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|0.03|0.19|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent NNRTI.|||0.19|0.03|
82491211|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.07|||||TWO_SIDED|95.0|-0.09|0.24|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip T-scores by baseline third agent PI.|||0.24|-0.09|
82491212|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|95.0|-0.25|0.37|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent INSTI.|||0.37|-0.25|
82491213|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|0.02|0.18|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent NNRTI.|||0.18|0.02|
82653578|NCT00386009|165022547|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.609
82491214|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.14|0.21|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in total hip Z-scores by baseline third agent PI.|||0.21|-0.14|
82653579|NCT00386009|165022548|SUPERIORITY_OR_OTHER|||||||0.427||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.427
82653580|NCT00386009|165022549|SUPERIORITY_OR_OTHER|||||||0.838||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.838
82653581|NCT00386009|165022550|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.090
82653582|NCT00386009|165022551|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||0.113
82653583|NCT00386009|165022554|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline to 12 Week Endpoint. Change = Endpoint minus baseline.|ANOVA|||||||<0.001
82491215|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|95.0|0.01|0.71|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent INSTI.|||0.71|0.01|
82491216|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-0.03|0.25|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent NNRTI.|||0.25|-0.03|
82491217|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.3|0.33|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine T-scores by baseline third agent PI.|||0.33|-0.30|
82491218|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|0.03|0.74|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent INSTI.|||0.74|0.03|
82491219|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.12|||||TWO_SIDED|95.0|-0.02|0.26|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent NNRTI.|||0.26|-0.02|
82491220|NCT02478632|164675896|OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|95.0|-0.26|0.34|||||The analysis estimated comparison of change from baseline to Week 48 between the DTG+RPV and CAR groups in lumbar spine Z-scores by baseline third agent PI.|||0.34|-0.26|
82491221|NCT00002651|164675901|NON_INFERIORITY_OR_EQUIVALENCE|The overall type I error rate used is 0.05. The type II error rate is 0.10 (power = 0.9). The trial planned for a one-sided test of the hypothesis that the hazard ratio of intermittent CAD to continuous CAD is 1.2. A hazard ratio of 1.0 was used as the specific alternative in the trial size computations. Thus, rejection of the hypothesis will be evidence against the possibility that the intermittent CAD hazard ratio is larger than the continuous CAD hazard ratio by 20% or more.|Hazard Ratio (HR)|1.1||||0.15|TWO_SIDED|90.0|0.99|1.23|||Regression, Cox|||||1.23|0.99|0.15
82491222|NCT00002651|164675902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83||||0.09|TWO_SIDED|95.0|-0.31|3.97||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||3.97|-0.31|0.09
82491223|NCT00002651|164675903|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.88||||0.003|TWO_SIDED|95.0|1.0|4.76||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||4.76|1.00|0.003
82491224|NCT00002651|164675904|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.0|||<|0.001|TWO_SIDED|95.0|-14.0|-5.0||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||-5|-14|<0.001
82491225|NCT00002651|164675905|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0||||0.04|TWO_SIDED|95.0|1.0|36.0||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||36|1|0.04
82491226|NCT00002651|164675906|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.32||||0.23|TWO_SIDED|95.0|-0.83|3.46||The type I error rate used was 0.005 in an attempt to adjust for multiple primary scores being tested.The type II error rate used was 0.10 (power = 0.9).|t-test, 2 sided|||||3.46|-0.83|0.23
82491227|NCT01773733|164675952|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82491228|NCT00762385|164675980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03164|STANDARD_ERROR_OF_MEAN|0.1247||||98.3|-0.2346|0.03164|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.03164|-0.2346|
82491229|NCT00762385|164675981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.00556|STANDARD_ERROR_OF_MEAN|0.02287||||98.3|-0.04297|0.00556|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.005560|-0.04297|
82653584|NCT00585780|165022559|OTHER|Expected outcome was that Prazosin will be better than placebo in reducing HDD% among High AW individuals but no differences by medication treatment in the Low AW individuals.|Odds Ratio (OR)|0.23||||0.016|TWO_SIDED|95.0|0.1|0.55||This is for the apriori hypothesis of significant AWX Treatment X Time effect.|Mixed Models Analysis|Simple effects were conducted to assess source of the interaction.||Intent-to-treat (ITT) analyses with baseline AW severity (mean-centered continuous CIWA-Ar scores) as a moderator of Time (Pre-Full Dose(FD): weeks 1-2; Post FD: weeks 3-12) were conducted with linear or generalized linear mixed effect (LME/GLME) piecewise growth models for continuous and binary outcomes. Control variables that were modeled in all analyses. As hypothesized, significant interactions were tested using AW median cut-offs for high and Low AW groups.||0.55|0.1|0.016
82491230|NCT00762385|164675982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2726|STANDARD_ERROR_OF_MEAN|0.1064||||98.3|0.04553|0.2726|||Mixed Models Analysis||Mean difference is galyfilcon A minus comfilcon A.|Results is overall lens effect with time as a covariate.||0.2726|0.04553|
82491231|NCT01781975|164675983|SUPERIORITY||ANCOVA|0.0616|STANDARD_ERROR_OF_MEAN|0.0364||0.048|TWO_SIDED|90.0|0.00176|0.121|||ANCOVA|||||0.121|0.00176|0.048
82491232|NCT04545060|164675992|SUPERIORITY||adjusted relative risk ratio|0.21|||<|0.001|TWO_SIDED|95.0|0.09|0.5||two-sided, alpha=0.05|poisson regression model|||||0.50|0.09|<0.001
82491233|NCT04545060|164676010|SUPERIORITY||relative risk ratio|0.34|||<|0.001|TWO_SIDED|95.0|0.19|0.63||two-sided, alpha=0.05|poisson regression model|||||0.63|0.19|<0.001
82590448|NCT03627767|164894920|SUPERIORITY||LSM difference|0.0|||||TWO_SIDED|95.0|-0.2|0.3||||||Week 12: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||0.3|-0.2|
82590449|NCT03627767|164894920|SUPERIORITY||LSM difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.1|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.1|-1.5|< 0.0001
82491234|NCT04545060|164676011|SUPERIORITY||Least squares mean difference|-1.07|||<|0.001|TWO_SIDED|95.0|-1.38|-0.76||two-sided, alpha=0.05|ANCOVA|||||-0.76|-1.38|<0.001
82491235|NCT04545060|164676013|SUPERIORITY||Least squares mean difference|-0.232||||0.007|TWO_SIDED|95.0|-0.399|-0.065||two-sided, alpha=0.05|Mixed model repeated measures|||||-0.065|-0.399|0.007
82491236|NCT04545060|164676017|SUPERIORITY||relative risk ratio|0.26||||0.002|TWO_SIDED|95.0|0.12|0.59||two-sided, alpha=0.05|poisson regression model|||||0.59|0.12|0.002
82491237|NCT00973674|164676021|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Barnard's unconditional Exact Test|||||||0.99
82491238|NCT00973674|164676022|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.67||||0.033|TWO_SIDED|95.0|0.74|3.77|||Log Rank|||||3.77|0.74|.033
82491239|NCT00973674|164676023|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35|||||||t-test, 2 sided|||||||.35
82491240|NCT00494299|164676123|SUPERIORITY_OR_OTHER||Log Rank|0.2520462|||||||||||||The comparison between the 2 groups is done using the log rank test stratified by the response of TACE (Responder group A versus Responder group B), ECOG performance status (PS) (0 versus 1) and the number of prior TACE (1 versus 2).|||||
82491241|NCT00494299|164676123|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8735||||||95.0|0.6972|1.0942|||||Hazard Ratio: Sorafenib/Placebo.|||1.0942|0.6972|
82491242|NCT01961362|164676126|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_DEVIATION|0.87||0.6|TWO_SIDED|||||P\<0.05 considered to represent statistical significance.|t-test, 2 sided|||||||0.6
82491243|NCT01961362|164676126|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82491244|NCT01961362|164676127|SUPERIORITY||Median Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|1.2|<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82491245|NCT01761175|164676197|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
82491246|NCT01761175|164676198|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
82491247|NCT01761175|164676199|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
82491248|NCT01761175|164676200|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
82491249|NCT01761175|164676201|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||||||0.02
82491250|NCT01761175|164676202|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82491251|NCT01761175|164676203|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82491252|NCT00579098|164676254|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||A p-value of \< 0.05 was considered statistically significant.|Log Rank|||||||0.75
82491253|NCT00579098|164676255|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||A p-value of \< 0.05 was considered statistically significant.|Log Rank|||||||0.37
82491254|NCT00579098|164676256|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.11
82491255|NCT00579098|164676257|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||Comparison between treatment groups. A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||||||0.53
82491256|NCT00579098|164676258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in total cholesterol was compared between treatment groups.||||<0.001
82590450|NCT03627767|164894920|SUPERIORITY||LSM difference|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.7|||Mixed Models Analysis|||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.7|-2.2|< 0.0001
82590451|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.7|||||TWO_SIDED|95.0|-0.9|-0.4||||||Week 16: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.4|-0.9|
82590452|NCT03627767|164894920|SUPERIORITY||LSM difference|-1.3|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.0|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.0|-1.7|< 0.0001
82590453|NCT03627767|164894920|SUPERIORITY||LSM difference|-2.2|||<|0.0001|TWO_SIDED|95.0|-2.5|-1.8|||Mixed Models Analysis|||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.8|-2.5|< 0.0001
82590454|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5||||||Week 28: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.5|-1.1|
82590455|NCT03627767|164894920|SUPERIORITY||LSM difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.6|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.4|< 0.0001
82590456|NCT03627767|164894920|SUPERIORITY||LSM difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.4|||Mixed Models Analysis|||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.4|-2.2|< 0.0001
82590457|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.8|||||TWO_SIDED|95.0|-1.1|-0.5||||||Week 40: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.5|-1.1|
82653585|NCT00585780|165022560|OTHER|Expected outcome was that Prazosin will be better than placebo in reducing percent of drinking days (DD%) among High AW individuals but no differences by medication treatment in the Low AW individuals.|Odds Ratio (OR)|0.5||||0.002|TWO_SIDED|95.0|0.28|0.92||This is for apriori hypothesized significant AW X Treatment X Post-full dose time interaction effect.|Mixed Models Analysis|||Intent-to-treat (ITT) analyses with baseline AW severity (mean-centered continuous CIWA-Ar scores) as a moderator of Time (Pre-Full Dose(FD): weeks 1-2; Post FD: weeks 3-12) were conducted with linear or generalized linear mixed effect (LME/GLME) piecewise growth models for continuous and binary outcomes. Control variables that were modeled in all analyses. As hypothesized, significant interactions were tested using AW median cut-offs for high and Low AW groups.||0.92|0.28|0.002
82653586|NCT00936975|165022576|SUPERIORITY_OR_OTHER||Slope|-6.6084|STANDARD_ERROR_OF_MEAN|1.7644|<|0.001|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|GEE||GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|This was an exploratory study and no a priori assumptions were employed.||||<0.001
82590458|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.8|||=|0.002|TWO_SIDED|95.0|-1.2|-0.3|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.3|-1.2|= 0.0020
82590459|NCT03627767|164894920|SUPERIORITY||LSM difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.2|||Mixed Models Analysis|||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-1.2|-2.2|< 0.0001
82590460|NCT03627767|164894920|SUPERIORITY||LSM difference|-0.9|||||TWO_SIDED|95.0|-1.3|-0.6||||||Week 52: The LSM differences between treatment groups were derived from the statistical model. MMRM contained fixed factors of treatment, visit, treatment by visit interaction, baseline disease severity, randomization strata, baseline value and an unstructured covariance matrix.||-0.6|-1.3|
82590461|NCT00785044|164894934|SUPERIORITY_OR_OTHER|Analysis was performed using the null hypothesis for the AUC stated as: H0: θ ≤A versus H1: θ \>A, where the AUC (θ) value was: 'A' selected based on the diagnostic utility desired from the use of myocardial 123 I-mIBG uptake measured using H/M ratio. A smooth parametric model of the ROC curve was fitted to the data. The AUC for the resulting model was calculated and 95% confidence interval for the AUC was reported. The hypothesis was tested using the Z-statistics at 'A' at level of 0.70.|Mean|0.581|||<|0.001|TWO_SIDED|95.0|0.532|0.63||At 0.05 level of significance.|Z-statistic|||"Analysis was performed on all HF participants from both groups AdreView™ - HF Group (With No Adverse Cardiac Events) and AdreView™ - HF Group (With Adverse Cardiac Events) based on H/M ratio."||0.630|0.532|<0.001
82590462|NCT04196803|164894957|SUPERIORITY||||||<|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||<0.05
82491257|NCT00579098|164676258|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in LDL cholesterol was compared between treatment groups.||||<0.001
82590463|NCT04196803|164894958|SUPERIORITY||||||>|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||>0.05
82590464|NCT04196803|164894959|SUPERIORITY||||||>|0.05|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||>0.05
82590465|NCT04196803|164894960|SUPERIORITY||||||=|0.08|||||||Regression, Linear|P value was calculated using general linear model adjusted for age, sex, and baseline level||||||=0.08
82590466|NCT03523728|164894979|SUPERIORITY||Relative difference|21.32|||=|0.1367|TWO_SIDED|95.0|-5.77|58.22|||linear mixed effect model|||||58.22|-5.77|=0.1367
82590467|NCT03523728|164894979|SUPERIORITY||Relative difference|0.34|||=|0.9812|TWO_SIDED|95.0|-24.57|33.36|||linear mixed effect model|||||33.36|-24.57|=0.9812
82590468|NCT03523728|164894980|SUPERIORITY||Relative difference|101.32|||=|0.0005|TWO_SIDED|95.0|35.63|233.72|||linear mixed effect model|||||233.72|35.63|=0.0005
82653587|NCT00936975|165022577|SUPERIORITY_OR_OTHER||Slope|-0.0115|STANDARD_ERROR_OF_MEAN|0.0089||0.1945|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|GEE|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|the difference in Patlak flux in tumor bone between baseline and 12 weeks, accounting for the fact that each participant could contribute more than one tumor bone.||||0.1945
82653588|NCT00936975|165022578|SUPERIORITY_OR_OTHER||Slope|0.33|STANDARD_ERROR_OF_MEAN|0.3274||0.32|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equation|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.32
82653589|NCT00936975|165022578|SUPERIORITY_OR_OTHER||Slope|6.98|STANDARD_ERROR_OF_MEAN|1.6943|<|0.001|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|Age was included in the model as a confounder|Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: No difference in uptake b/w normal \& tumor bones||||<0.001
82653590|NCT00936975|165022579|SUPERIORITY_OR_OTHER||Slope|-0.0177|STANDARD_ERROR_OF_MEAN|0.0125||0.16|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.16
82653591|NCT00936975|165022580|SUPERIORITY_OR_OTHER||Slope|0.0017|STANDARD_ERROR_OF_MEAN|0.0027||0.53|TWO_SIDED||||||Generalized Estimating Equation|GEE was used to model the change, accounting for 37 tumors in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.53
82590469|NCT03523728|164894980|SUPERIORITY||Relative difference|104.17|||=|0.0002|TWO_SIDED|95.0|39.54|236.45|||linear mixed effect model|||||236.45|39.54|=0.0002
82653592|NCT00936975|165022580|SUPERIORITY_OR_OTHER||Slope|0.0205|STANDARD_ERROR_OF_MEAN|0.0128||0.1095|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations|Age was included in the model as a confounder|Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: influx(Ki) is the same in normal and tumor bones||||0.1095
82590470|NCT03523728|164894981|SUPERIORITY||Relative difference|51.01|||=|0.0197|TWO_SIDED|95.0|7.01|125.45|||linear mixed effect model|||||125.45|7.01|=0.0197
82590471|NCT03523728|164894981|SUPERIORITY||Relative difference|46.36|||=|0.0337|TWO_SIDED|95.0|3.21|119.01|||linear mixed effect model|||||119.01|3.21|=0.0337
82590472|NCT03523728|164894983|SUPERIORITY||Least square mean difference|0.11|STANDARD_ERROR_OF_MEAN|0.23|=|0.6374|TWO_SIDED|95.0|-0.342|0.556|||Mixed effect model with repeated measure|||||0.556|-0.342|=0.6374
82590473|NCT03523728|164894983|SUPERIORITY||Least square mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.22|=|0.256|TWO_SIDED|95.0|-0.689|0.185|||Mixed effect model with repeated measure|||||0.185|-0.689|=0.2560
82590474|NCT03523728|164894984|SUPERIORITY||Least square mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.42|=|0.79|TWO_SIDED|95.0|-0.971|0.747|||Mixed effect model with repeated measure|||||0.747|-0.971|=0.7900
82590475|NCT03523728|164894984|SUPERIORITY||Least square mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.32|=|0.6322|TWO_SIDED|95.0|-0.808|0.5|||Mixed effect model with repeated measure|||||0.500|-0.808|=0.6322
82590476|NCT03523728|164894985|SUPERIORITY||Least square mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.34|=|0.6245|TWO_SIDED|95.0|-0.506|0.839|||Mixed effect model with repeated measure|||||0.839|-0.506|=0.6245
82590477|NCT03523728|164894985|SUPERIORITY||Least square mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.33|=|0.2567|TWO_SIDED|95.0|-1.044|0.281|||Mixed effect model with repeated measure|||||0.281|-1.044|=0.2567
82590478|NCT03523728|164894986|SUPERIORITY||Least square mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.68|=|0.2023|TWO_SIDED|95.0|-2.232|0.485|||Mixed effect model with repeated measure|||||0.485|-2.232|=0.2023
82590479|NCT03523728|164894986|SUPERIORITY||Least square mean difference|-0.54|STANDARD_ERROR_OF_MEAN|0.53|=|0.3205|TWO_SIDED|95.0|-1.61|0.537|||Mixed effect model with repeated measure|||||0.537|-1.610|=0.3205
82653593|NCT00936975|165022581|SUPERIORITY_OR_OTHER||Slope|0.0061|STANDARD_ERROR_OF_MEAN|0.0021||0.0033|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized Estimating Equations|GEE was used to model the change, accounting for 37 bones in 12 patients measured at 2 time points.|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|||||0.0033
82653594|NCT00936975|165022581|SUPERIORITY_OR_OTHER||Slope|0.0177|STANDARD_ERROR_OF_MEAN|0.0097||0.067|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations|Age was included in the model as a confounder|GEEs, rather than a simple mean difference, were used to account for the multiple (clustered) bone measurement values within a patient and to adjust for age so that appropriate SE estimates (and thus p-values) were produced.|H0: Change Patlak Flux from TP1 to TP2 is the same in normal and tumor bones||||0.0670
82653595|NCT00936975|165022581|SUPERIORITY_OR_OTHER||Slope|32.3288|STANDARD_ERROR_OF_MEAN|14.6956||0.0278|TWO_SIDED|||||GEEs were used to model the change in tumor uptake between baseline and 12 weeks. GEEs were used to adjust for the correlation of 37 tumors in 12 patients measured at 2 time points and to adjust for age as a confounder.|Generalized estimating equations||Estimated value is the slope of the Normal bone. Tumor Bone was used as reference category. GEEs, rather than a simple mean difference, were used to account for clustering and correlation of bone measurement values within a patient|H0: %Change in Patlak Flux between timepoint 1 and 2 is the same for Normal and Tumor bones||||0.0278
82653596|NCT01199601|165022620|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.12|STANDARD_DEVIATION|0.05|<|0.05|TWO_SIDED|95.0|1.02|1.23|||Regression, Linear|Information provided for crude analysis results; adjustment for significant baseline differences between groups did not change results substantially.||Outcomes were assessed by crude and adjusted risk ratios with log-binomial generalized linear models.||1.23|1.02|<0.05
82653597|NCT01199601|165022621|SUPERIORITY_OR_OTHER||Incidence Rate Ratio|1.1|STANDARD_DEVIATION|0.05|<|0.05|TWO_SIDED|95.0|1.02|1.18|||Regression, Linear|Outcomes were assessed by crude and adjusted risk ratios with log-binomial generalized linear models.||||1.18|1.02|<0.05
82653598|NCT01199601|165022622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|95.0|1.01|1.25|||Regression, Logistic|The crude analysis result is provided as the odds ratio did not change substantially when adjusted for possible confounders.||||1.25|1.01|0.05
82653599|NCT02974153|165022628|SUPERIORITY||Mean Difference (Final Values)|-2.6|STANDARD_DEVIATION|6.15|<|0.0001|TWO_SIDED|95.0|-3.45|-1.74|||ANCOVA|||||-1.74|-3.45|<0.0001
82653600|NCT02974153|165022628|SUPERIORITY||Mean Difference (Final Values)|-2.03|STANDARD_DEVIATION|6.15|<|0.0001|TWO_SIDED|95.0|-2.88|-1.18|||ANCOVA|||||-1.18|-2.88|<0.0001
82653601|NCT02974153|165022629|SUPERIORITY||Mean Difference (Final Values)|18.1|||<|0.0001|TWO_SIDED|95.0|12.0|24.3|||Cochran-Mantel-Haenszel|||||24.3|12.0|<0.0001
82653602|NCT02974153|165022629|SUPERIORITY||Mean Difference (Final Values)|11.7||||0.0001|TWO_SIDED|95.0|5.8|17.5|||Cochran-Mantel-Haenszel|||||17.5|5.8|0.0001
82653603|NCT02974153|165022630|SUPERIORITY||Mean Difference (Final Values)|21.3|||<|0.0001|TWO_SIDED|95.0|15.0|27.6|||Cochran-Mantel-Haenszel|||||27.6|15.0|<0.0001
82590480|NCT00621751|164894999|OTHER||Median Difference (Final Values)|36.7||||0.6|TWO_SIDED|||||CBZ (up to 800 mg daily) vs placebo significantly improves behavior (Rasch NPI irritability \& aggression rated by observer) baseline to day-42 among individuals \>6 months post-traumatic brain injury and moderate-severe irritability.|ANCOVA|||The primary outcome was a composite measure of observer-rated NPI-I \& NPI-A domains transformed to a Rasch logit scale ranging 0 (best) to 100 (worse) units (i.e., observer-rated NPI-I/A Rasch construct scores). Mean day-42 observer-rated NPI-I/A Rasch construct scores were compared between the placebo vs. carbamazepine groups using ANCOVA with baseline score as covariate.||||0.60
82590481|NCT00621751|164895000|OTHER|A prespecified secondary analysis compared proportions of participants that experienced a decrease of \> 1 MCID in the NPI-I/A Rasch construct score (i.e., participants that are considered to have meaningful reduction in irritability/aggression) from baseline to day-42 between the groups using a chi-square test. MCID was defined as 0.5 times the standard deviation of baseline scores.|||||<|0.05|||||||ANCOVA|||||||< .05
82653604|NCT02974153|165022630|SUPERIORITY||Mean Difference (Final Values)|15.3|||<|0.0001|TWO_SIDED|95.0|9.3|21.4|||Cochran-Mantel-Haenszel|||||21.4|9.3|<0.0001
82653605|NCT02974153|165022631|SUPERIORITY||Mean Difference (Final Values)|22.1|||<|0.0001|TWO_SIDED|95.0|14.9|29.2|||Cochran-Mantel-Haenszel|||||29.2|14.9|<0.0001
82653606|NCT02974153|165022631|SUPERIORITY||Mean Difference (Final Values)|18.2|||<|0.0001|TWO_SIDED|95.0|11.1|25.4|||Cochran-Mantel-Haenszel|||||25.4|11.1|<0.0001
82653607|NCT02974153|165022632|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82653608|NCT02974153|165022632|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82653609|NCT02974153|165022633|SUPERIORITY||Mean Difference (Final Values)|-1.38|||<|0.0001|TWO_SIDED|95.0|-1.88|-0.87|||ANCOVA|||||-0.87|-1.88|<0.0001
82653610|NCT02974153|165022633|SUPERIORITY||Mean Difference (Final Values)|-1.15|||<|0.0001|TWO_SIDED|95.0|-1.66|-0.65|||ANCOVA|||||-0.65|-1.66|<0.0001
82653611|NCT02974153|165022634|SUPERIORITY||Mean Difference (Final Values)|-2.88|||<|0.0001|TWO_SIDED|95.0|-3.91|-1.84|||ANCOVA|||||-1.84|-3.91|<0.0001
82653612|NCT02974153|165022634|SUPERIORITY||Mean Difference (Final Values)|-1.73||||0.001|TWO_SIDED|95.0|-2.76|-0.7|||ANCOVA|||||-0.70|-2.76|0.0010
82653613|NCT02974153|165022635|SUPERIORITY||Mean Difference (Final Values)|-11.0|||<|0.0001|TWO_SIDED|95.0|-14.22|-7.77|||Repeated Measures Model|||||-7.77|-14.22|<0.0001
82653614|NCT02974153|165022635|SUPERIORITY||Mean Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-11.48|-5.05|||Repeated Measures Model|||||-5.05|-11.48|<0.0001
82653615|NCT00814320|165022670|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.025|||<|0.0001|ONE_SIDED|99.0||0.046||Testing the null hypothesis of 1 VASBI/year against a one-sided alternative at the 0.01 level of statistical significance.|Poisson|||For SC Administration of IGIV, 10%, with rHuPH20 after ramp-up, only||0.046||<0.0001
82653616|NCT00491504|165022736|SUPERIORITY_OR_OTHER_LEGACY|||||||0.625|||||||ANCOVA|An analysis of covariance (ANCOVA) model was used with treatment as effect and Baseline as a covariate.||||||0.625
82653617|NCT02114307|165022737|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82590482|NCT00763971|164895015|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-18.6|||<|0.001|TWO_SIDED|95.0|-21.5|-15.7|||ANCOVA|||||-15.7|-21.5|<0.001
82590483|NCT00763971|164895015|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-13.0|||<|0.001|TWO_SIDED|95.0|-15.9|-10.2|||ANCOVA|||||-10.2|-15.9|<0.001
82590484|NCT00763971|164895016|SUPERIORITY_OR_OTHER_LEGACY||difference in percentages|63.6|||<|0.001|TWO_SIDED|95.0|53.0|74.1|||Cochran-Mantel-Haenszel|||||74.1|53.0|<0.001
82590485|NCT00763971|164895016|SUPERIORITY_OR_OTHER_LEGACY||difference in percentages|46.2|||<|0.001|TWO_SIDED|95.0|34.6|57.7|||Cochran-Mantel-Haenszel|||||57.7|34.6|<0.001
82590486|NCT00763971|164895017|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-21.3|||<|0.001|TWO_SIDED|95.0|-25.5|-17.0|||ANCOVA|||||-17.0|-25.5|<0.001
82590487|NCT00763971|164895017|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-15.1|||<|0.001|TWO_SIDED|95.0|-19.3|-10.9|||ANCOVA|||||-10.9|-19.3|<0.001
82590488|NCT00763971|164895019|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|8.8|||<|0.001|TWO_SIDED|95.0|6.1|11.5|||ANCOVA|||||11.5|6.1|<0.001
82590489|NCT00763971|164895019|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|7.3|||<|0.001|TWO_SIDED|95.0|4.6|10.0|||ANCOVA|||||10.0|4.6|<0.001
82590490|NCT00763971|164895020|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.2|||ANCOVA|||||-0.2|-0.4|<0.001
82653618|NCT02114307|165022738|SUPERIORITY|||||||0.0023|||||||t-test, 2 sided|||Sham Group - 6 week Time Point - Pre-stimulation versus Post-Stimulation||||0.0023
82653619|NCT02114307|165022738|SUPERIORITY|||||||0.0815|||||||t-test, 2 sided|||Test Group - 6 week Time Point - Pre-stimulation versus Post-Stimulation||||0.0815
82653620|NCT02114307|165022739|SUPERIORITY|||||||0.127|||||||t-test, 1 sided|||||||0.127
82590491|NCT00763971|164895020|SUPERIORITY_OR_OTHER_LEGACY||difference in LS means|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||||-0.1|-0.3|<0.001
82590492|NCT01809132|164895026|SUPERIORITY|||||||0.3|||||||Log Rank|||||||.30
82590493|NCT01809132|164895027|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||the observational subject was lost to follow-up||||.42
82491258|NCT00579098|164676258|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||A p-value of \< 0.05 was considered statistically significant.|t-test, 2 sided|||The change in HDL cholesterol was compared between treatment groups.||||0.92
82590494|NCT01809132|164895028|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||.75
82590495|NCT01809132|164895029|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||.17
82590496|NCT02022085|164895030|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 6 months with Baha Attract vs Unaided||||<0.0001
82590497|NCT02022085|164895030|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||PTA4 12 months with Baha Attract vs Unaided||||<0.0001
82590498|NCT02022085|164895030|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||PTA4 24 months with Baha Attract vs Unaided||||<0.0001
82590499|NCT02022085|164895031|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 24 months vs Unaided situation Pre-Op||||<0.0001
82590500|NCT02022085|164895032|SUPERIORITY_OR_OTHER||||||<|0.0001||||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 12 months vs Unaided situation Pre-Op||||<0.0001
82590501|NCT02022085|164895033|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||All comparisons to the Unaided situation were p=\<0.0001.|Fisher's non-parametric permutation test|||Baha Attract after 6 months vs Unaided situation Pre-Op||||<0.0001
82590502|NCT02022085|164895034|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in Noise, 6 months Baha Attract vs Unaided||||<0.0001
82590503|NCT02022085|164895034|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech in Noise, 12 months Baha Attract vs Unaided||||<0.0001
82590504|NCT02022085|164895034|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech in Noise, 24 months Baha Attract vs Unaided||||<0.0001
82590505|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 50dB||||<0.0001
82590506|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 65dB||||<0.0001
82590507|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Speech in quiet at 80dB||||<0.0001
82590508|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 50dB||||<0.0001
82590509|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 65dB||||<0.0001
82590510|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||12 months: Speech in quiet at 80dB||||<0.0001
82590511|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 50dB||||<0.0001
82590512|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 65dB||||<0.0001
82590513|NCT02022085|164895035|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||24 months: Speech in quiet at 80dB||||<0.0001
82653621|NCT02799602|165022749|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.675|||<|0.0001|TWO_SIDED|95.0|0.568|0.801||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.801|0.568|<0.0001
82590514|NCT02022085|164895036|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months with Baha Attract vs Softband: change in PTA4||||0.38
82590515|NCT02022085|164895036|SUPERIORITY_OR_OTHER|||||||0.84|||||||Fisher's non-parametric permutation test|||12 months with Baha Attract vs Softband: change in PTA4||||0.84
82590516|NCT02022085|164895036|SUPERIORITY_OR_OTHER|||||||0.89|||||||Fisher's non-parametric permutation test|||24 months with Baha Attract vs Softband: change in PTA4||||0.89
82590517|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||250Hz: 6 months with Baha Attract vs Softband||||0.34
82590518|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.0004|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||500Hz: 6 months with Baha Attract vs Softband||||0.0004
82590519|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||1000Hz: 6 months with Baha Attract vs Softband||||0.22
82590520|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||2000Hz: 6 months with Baha Attract vs Softband||||0.64
82590521|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||3000Hz: 6 months with Baha Attract vs Softband||||0.039
82590522|NCT02022085|164895037|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||4000Hz: 6 months with Baha Attract vs Softband||||0.012
82377491|NCT03971474|164462074|SUPERIORITY||Hazard Ratio (HR)|0.55||||0.02|TWO_SIDED|80.0|0.38|0.8||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the squamous histology subgroup.||0.80|0.38|0.02
82491259|NCT01589978|164676275|NON_INFERIORITY_OR_EQUIVALENCE|Given the performance goal of 3.2%, with expected rate for PROMUS Element Plus of 2.2% and a one-sided 5% significance level, approximately 1,706 PLATINUM-like patients will provide at least 80% power to reject the null hypothesis if it is false.|||||<|0.0001|||||||Chi-squared|||One-sided, single binomial test will be performed to compare observed rate against performance goal, the normal approximation of the test statistic will be used. The performance goal is met if the one-sided upper 95% confidence bound for the observed binary rate is less than performance goal.||||<.0001
82590523|NCT02022085|164895037|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6000Hz: 6 months with Baha Attract vs Softband||||<0.0001
82590524|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.11|||||||Fisher's non-parametric permutation test|||250Hz: 12 months with Baha Attract vs Softband||||0.11
82590525|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.066|||||||Fisher's non-parametric permutation test|||500Hz: 12 months with Baha Attract vs Softband||||0.066
82590526|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.71|||||||Fisher's non-parametric permutation test|||1000Hz: 12 months with Baha Attract vs Softband||||0.71
82590527|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.78|||||||Fisher's non-parametric permutation test|||2000Hz: 12 months with Baha Attract vs Softband||||0.78
82590528|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.015|||||||Fisher's non-parametric permutation test|||3000Hz: 12 months with Baha Attract vs Softband||||0.015
82590529|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.035|||||||Fisher's non-parametric permutation test|||4000Hz: 12 months with Baha Attract vs Softband||||0.035
82590530|NCT02022085|164895038|SUPERIORITY_OR_OTHER|||||||0.0013|||||||Fisher's non-parametric permutation test|||6000Hz: 12 months with Baha Attract vs Softband||||0.0013
82590531|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Fisher's non-parametric permutation test|||250Hz: 24 months with Baha Attract vs Softband||||0.0051
82590532|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.26|||||||Fisher's non-parametric permutation test|||500Hz: 24 months with Baha Attract vs Softband||||0.26
82590533|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher's non-parametric permutation test|||1000Hz: 24 months with Baha Attract vs Softband||||0.22
82590534|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.57|||||||Fisher's non-parametric permutation test|||2000Hz: 24 months with Baha Attract vs Softband||||0.57
82590535|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.064|||||||Fisher's non-parametric permutation test|||3000Hz: 24 months with Baha Attract vs Softband||||0.064
82590536|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.064|||||||Fisher's non-parametric permutation test|||4000Hz: 24 months with Baha Attract vs Softband||||0.064
82590537|NCT02022085|164895039|SUPERIORITY_OR_OTHER|||||||0.0051|||||||Fisher's non-parametric permutation test|||6000Hz: 24 months with Baha Attract vs Softband||||0.0051
82590538|NCT02022085|164895040|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Speech in Noise with Baha Attract vs Softband||||0.46
82590539|NCT02022085|164895040|SUPERIORITY_OR_OTHER|||||||0.19|||||||Fisher's non-parametric permutation test|||12 months: Speech in Noise with Baha Attract vs Softband||||0.19
82590540|NCT02022085|164895040|SUPERIORITY_OR_OTHER|||||||0.31|||||||Fisher's non-parametric permutation test|||24 months: Speech in Noise with Baha Attract vs Softband||||0.31
82590541|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 50dB||||0.43
82590542|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 65dB||||0.16
82590543|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months Speech in Quiet at 80dB||||0.65
82590544|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.93|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 50dB||||0.93
82590545|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.094|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 65dB||||0.094
82590546|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.44|||||||Fisher's non-parametric permutation test|||12 months Speech in Quiet at 80dB||||0.44
82590547|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.021|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 50dB||||0.021
82590548|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.024|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 65dB||||0.024
82590549|NCT02022085|164895041|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher's non-parametric permutation test|||24 months Speech in Quiet at 80dB||||0.59
82653622|NCT02799602|165022752|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.357|||<|0.0001|TWO_SIDED|95.0|0.302|0.421||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.421|0.302|<0.0001
82590550|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Comprehensive health state||||0.088
82590551|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Vision||||0.88
82590552|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Hearing||||0.020
82590553|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Speech||||0.039
82590554|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Ambulation||||0.25
82590555|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Dexterity||||0.38
82653623|NCT02799602|165022754|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.792||||0.0058|TWO_SIDED|95.0|0.66|0.95||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.950|0.660|0.0058
82653624|NCT02799602|165022756|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.609|||<|0.0001|TWO_SIDED|95.0|0.516|0.718||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.718|0.516|<0.0001
82653625|NCT02799602|165022758|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.712||||0.0081|TWO_SIDED|95.0|0.539|0.94||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.940|0.539|0.0081
82590556|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Emotion||||0.43
82590557|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Cognition||||0.85
82590558|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months change in Pain||||0.25
82590559|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.088|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||24 months change in Comprehensive health state||||0.088
82590560|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.63|||||||Fisher's non-parametric permutation test|||24 months change in Vision||||0.63
82590561|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||24 months change in Hearing||||0.045
82590562|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.016|||||||Fisher's non-parametric permutation test|||24 months change in Speech||||0.016
82590563|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher's non-parametric permutation test|||24 months change in Ambulation||||0.25
82590564|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.5|||||||Wilcoxan Signed Rank Test|Fisher's non-parametric permutation test failed to approximate p value so Wilcoxan Signed Rank Test instead||24 months change in Dexterity||||0.50
82590565|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.29|||||||Fisher's non-parametric permutation test|||24 months change in Emotion||||0.29
82590566|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.92|||||||Fisher's non-parametric permutation test|||24 months change in Cognition||||0.92
82590567|NCT02022085|164895042|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher's non-parametric permutation test|||24 months change in Pain||||0.020
82590568|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Ease of communication||||<0.0001
82590569|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6 months: Background noise||||<0.0001
82590570|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Reverberation||||<0.0001
82590571|NCT02022085|164895043|SUPERIORITY_OR_OTHER|||||||0.69|||||||Fisher's non-parametric permutation test|||6 months: Aversiveness||||0.69
82590572|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||6 months: Global||||<0.0001
82590573|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Ease of communication||||<0.001
82590574|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Background noise||||<0.001
82491260|NCT01589978|164676295|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is calculated for one-sample chi-square test for a single proportion using nQuery AdvisorVersion 5.0. The expected annual increase in ST rate is estimated to be 0.4% based on the current data available from the pooled TAXUS Express and pooled TAXUS Liberté data and the PG is 1.0% using a delta of 0.6%. Given a one-sided 5% significance level, a minimum of 1,660 PLATINUM-like patients at 5-yrs will be required to provide 90% power to reject the null hypothesis if it is false.|||||<|0.0001|||||||Chi-squared|||The expected annual increase of stent thrombosis rate is assumed to be 0.4%, based on the observed increase in incidence rate of stent thrombosis of approximately 0.4% annually for PLATINUM-like patients in the pooled TAXUS SR Express and pooled TAXUS Liberté data. Using a delta of 0.6%, the performance goal is set to 1.0% (expected rate + delta = 0.4% + 0.6% = 1.0%).||||<.0001
82590575|NCT02022085|164895043|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Reverberation||||<0.001
82590576|NCT02022085|164895043|SUPERIORITY_OR_OTHER|||||||0.84|||||||Fisher's non-parametric permutation test|||24 months: Aversiveness||||0.84
82590577|NCT02022085|164895043|SUPERIORITY_OR_OTHER||Fisher's non-parametric permutation test||||<|0.001|||||||Fisher's non-parametric permutation test|||24 months: Global||||<0.001
82590578|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech: Change from pre-op to 6 months||||<0.0001
82590579|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Spatial: Change from pre-op to 6 months||||<0.0001
82590580|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Qualities: Change from pre-op to 6 months||||<0.0001
82590581|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Speech: Change from pre-op to 24 months||||<0.0001
82590582|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Spatial: Change from pre-op to 24 months||||<0.0001
82491261|NCT02197273|164676303|SUPERIORITY_OR_OTHER|||||||0.764|||||||Wilcoxon (Mann-Whitney)|||||||0.764
82590583|NCT02022085|164895044|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher's non-parametric permutation test|||Qualities: Change from pre-op to 24 months||||<0.0001
82491262|NCT02197273|164676304|SUPERIORITY_OR_OTHER|||||||0.206|||||||Wilcoxon (Mann-Whitney)|||||||0.206
82590584|NCT03383289|164895053|SUPERIORITY||Beta estimate of the percent who fell|0.118|STANDARD_ERROR_OF_MEAN|0.145||0.417|TWO_SIDED||||||Mixed Models Analysis|MIANALYZE was used to model missing data. Models were adjusted for the design effects of clustering.||||||0.4170
82590585|NCT03383289|164895055|OTHER|paired t test|Mean Difference (Final Values)|-1.353|STANDARD_ERROR_OF_MEAN|0.181|<|0.001|TWO_SIDED|95.0|-1.708|-0.998|||paired t test|||Analysis of adjusted mean differences using a paired t test procedure||-0.998|-1.708|<0.001
82590586|NCT03383289|164895056|SUPERIORITY||Beta|0.6364|STANDARD_ERROR_OF_MEAN|0.233||0.0064|TWO_SIDED|95.0|0.1797|1.0931|||Poisson regression|||||1.0931|0.1797|0.0064
82590587|NCT03383289|164895056|SUPERIORITY||Estimated log mean|-4.0168||||0.001|TWO_SIDED|95.0|-5.5827|-2.4509|||Poisson regression|||||-2.4509|-5.5827|0.001
82590588|NCT03383289|164895057|OTHER|adjusted mean differences from paired t tests|Mean Difference (Final Values)|-0.456|STANDARD_ERROR_OF_MEAN|0.162||0.005|TWO_SIDED|95.0|-0.774|-0.138|||paired t test|||||-0.138|-0.774|0.005
82590589|NCT01179672|164895089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.03|TWO_SIDED|95.0|-0.82|-0.04|||Mixed Models Analysis|||||-0.04|-0.82|0.030
82590590|NCT01179672|164895090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.008|TWO_SIDED|95.0|-0.95|-0.14||P-value is for mean change from baseline to 12-week endpoint in night pain.|Mixed Models Analysis|||||-0.14|-0.95|0.008
82590591|NCT01179672|164895090|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.017|TWO_SIDED|95.0|-1.0|-0.1||P-value is for mean change from baseline to 12 week endpoint in worst pain.|Mixed Models Analysis|||||-0.10|-1.00|0.017
82590592|NCT01179672|164895091|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.016|TWO_SIDED|95.0|-0.9|-0.09|||Mixed Models Analysis|||||-0.09|-0.90|0.016
82590593|NCT01179672|164895092|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.081|TWO_SIDED|95.0|-0.48|0.03|||Mixed Models Analysis|||||0.03|-0.48|0.081
82590594|NCT01179672|164895093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.034|TWO_SIDED|95.0|-0.4|-0.02|||Mixed Models Analysis|||||-0.02|-0.40|0.034
82590595|NCT01179672|164895094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.12||||0.022|TWO_SIDED|95.0|-2.07|-0.16|||ANCOVA|ANCOVA adjusted for treatment, pooled investigator and baseline.||||-0.16|-2.07|0.022
82590596|NCT01179672|164895095|SUPERIORITY_OR_OTHER|||||||0.014||||||P-value is for ≥30% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.014
82590597|NCT01179672|164895095|SUPERIORITY_OR_OTHER|||||||0.006||||||P-value is for ≥50% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.006
82590598|NCT01179672|164895095|SUPERIORITY_OR_OTHER|||||||0.193||||||P-value is for ≥75% reduction in 24-hour average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.193
82590599|NCT01179672|164895096|SUPERIORITY_OR_OTHER|||||||0.003||||||P-value is for ≥30% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.003
82590600|NCT01179672|164895096|SUPERIORITY_OR_OTHER|||||||0.001||||||P-value is for ≥50% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by pooled investigator.||||||0.001
82590601|NCT01179672|164895096|SUPERIORITY_OR_OTHER|||||||0.168||||||P-value is for ≥75% reduction in 24-hour BPI-Severity average pain.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel test was stratified by pooled investigator.||||||0.168
82590602|NCT01179672|164895097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.001|TWO_SIDED|95.0|-0.96|-0.24|||Mixed Models Analysis|||||-0.24|-0.96|0.001
82590603|NCT01179672|164895098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.02|TWO_SIDED|95.0|-2.33|-0.2|||Mixed Models Analysis|||||-0.20|-2.33|0.020
82590604|NCT00314249|164895105|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.38||||||95.0|-8.56|-4.19|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-4.19|-8.56|
82590605|NCT00314249|164895106|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||||95.0|-0.69|-0.38|||ANOVA|||This parameter was analyzed using an ANOVA model with treatment group and study center as factors.||-0.38|-0.69|
82590606|NCT00314249|164895107|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||||95.0|-3.27|-0.11|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-0.11|-3.27|
82590607|NCT00314249|164895108|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06|||<|0.001||95.0|1.45|2.94||Closed testing procedure used to control overall type 1 error rate at 5%: fibromyalgia syndrome tested prior to fibromyalgia pain|Regression, Logistic|||The test of no difference in the responder rate between milnacipran and placebo groups was performed using a logistic regression model with treatment group, baseline pain score, and baseline SF-36 PCS score as explanatory variables.||2.94|1.45|<0.001
82653626|NCT02799602|165022760|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio, log|0.388|||<|0.0001|TWO_SIDED|95.0|0.328|0.458||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.458|0.328|<0.0001
82653627|NCT02799602|165022762|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|1.043||||0.7073|TWO_SIDED|95.0|0.894|1.217||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|1.217|0.894|0.7073
82653628|NCT02799602|165022764|SUPERIORITY|Hazard ratio \< 1 indicates superiority of Darolutamide+docetaxel arm over Placebo+docetaxel arm. Hazard ratio and 95% CI was based on Cox Regression Model, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|Hazard Ratio (HR)|0.688||||0.0037|TWO_SIDED|95.0|0.523|0.906||One-sided p-value.|Log Rank||||One-sided p-value from log-rank test, stratified by EOD (Non-regional lymph nodes metastases only vs. Bone metastases with or without lymph node metastases vs. Visceral metastases with or without lymph node metastases or with or without bone metastases) and ALP (\<ULN vs. \>=ULN).|0.906|0.523|0.0037
82653629|NCT01048333|165022769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.002|TWO_SIDED|95.0|1.31|3.35|||Regression, Cox|||||3.35|1.31|0.002
82653630|NCT01048333|165022769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.534||||0.001|TWO_SIDED|95.0|3.55|12.02|||Regression, Cox|||||12.02|3.55|0.001
82653631|NCT01048333|165022769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.127||||0.001|TWO_SIDED|95.0|1.77|5.52|||Regression, Cox|||||5.52|1.77|0.001
82653632|NCT02260492|165022775|EQUIVALENCE|"Equivalence test compares the Test/Reference with confidence bounds set at standard 80-125%.~Superiority test compares Test with Placebo (p\<0.05) Superiority test compares Reference with Placebo (p\<0.05) (p\<0.05)"|Test/Reference|1.0799|||<|0.05|TWO_SIDED|90.0|0.8|1.25|||ANCOVA|||"Primary analyses were conducted on BL subtracted values (pre-dose - post-dose). The two one-sided tests method of interval analysis is standard for bioequivalence testing and employs 2 sets of one-sided hypotheses as follows, performed at the 5% alpha level:~H01: uT-uR \< -0.20 uR vs. Ha1: -0.20 uR \</= uT- uR (the lower tail) and H02: uT-uR \>0.25 uR vs. Ha2: uT- uR \</=0.25 uR (the upper tail) When uT is the LSM SOLIS, uR is the LSM of ADVAIR DISKUS"|"Day 1 superiority to placebo:~Solis vs. Placebo p=0.004 Advair vs. Placebo p=0.012"|1.25|.8|<0.05
82653633|NCT02260492|165022776|EQUIVALENCE|Standard bioequivalence 90% confidence bounds set at 0.8-1.25.|Test/Reference|1.0475|||<|0.05|TWO_SIDED|90.0|0.8|1.25|||ANOVA|||Same as the Day 1 analyses|"Week 4 superiority to placebo:~Solis vs. Placebo p=0.019 Advair vs. Placebo p=0.035"|1.25|.8|<0.05
82653634|NCT00266409|165022805|SUPERIORITY_OR_OTHER|||||||0.1143||95.0|||||Generalized Wilcoxon|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.1143
82653635|NCT00266409|165022805|SUPERIORITY_OR_OTHER|||||||0.4544||95.0|||||Generalized Wilcoxon|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.4544
82653636|NCT00266409|165022806|SUPERIORITY_OR_OTHER|||||||0.0173||95.0|||||ANCOVA|||ANCOVA with treatment as a fixed effect and baseline total HAM-A score as a covariate||||0.0173
82590608|NCT00314249|164895109|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86|||<|0.001||95.0|1.38|2.51||Closed testing procedure was used to control overall type 1 error rate at 5%: fibromyalgia pain tested after statistically significant fibromyalgia syndrome test|Regression, Logistic|||The test of no difference in the responder rate between milnacipran and placebo groups was performed using a logistic regression model with the treatment group and baseline pain score as explanatory variables.||2.51|1.38|<0.001
82590609|NCT00314249|164895110|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.65||||||95.0|0.86|2.44|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||2.44|0.86|
82590610|NCT03334409|164895133|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82590611|NCT03334409|164895134|SUPERIORITY|||||||0.08|||||||Log Rank|||||||0.08
82590612|NCT03334409|164895135|SUPERIORITY|||||||0.08|||||||Log Rank|||||||0.08
82590613|NCT03334409|164895136|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82590614|NCT03334409|164895137|SUPERIORITY|||||||0.18|||||||Kruskal-Wallis|||||||0.18
82590615|NCT03334409|164895138|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82590616|NCT01241552|164895144|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.7||||0.3182|TWO_SIDED|95.0|-8.6|5.5||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||5.5|-8.6|0.3182
82590617|NCT01241552|164895144|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.1||||0.0003|TWO_SIDED|95.0|-15.9|-4.3||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||-4.3|-15.9|0.0003
82590618|NCT01241552|164895144|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.6|||<|0.0001|TWO_SIDED|95.0|-17.4|-5.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||-5.9|-17.4|< 0.0001
82590619|NCT01241552|164895144|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.9||||0.0013|TWO_SIDED|95.0|-16.9|-3.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||-3.4|-16.9|0.0013
82590620|NCT01241552|164895144|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.4||||0.2997|TWO_SIDED|95.0|-6.7|3.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||3.9|-6.7|0.2997
82590621|NCT01241552|164895145|SUPERIORITY_OR_OTHER||Adjusted Difference|-8.3||||0.9775|TWO_SIDED|95.0|-16.3|-0.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||-0.2|-16.3|0.9775
82590622|NCT01241552|164895145|SUPERIORITY_OR_OTHER||Adjusted Difference|4.8||||0.0861|TWO_SIDED|95.0|-2.1|11.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||11.7|-2.1|0.0861
82590623|NCT01241552|164895145|SUPERIORITY_OR_OTHER||Adjusted Difference|3.5||||0.1646|TWO_SIDED|95.0|-3.5|10.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||10.4|-3.5|0.1646
82590624|NCT01241552|164895145|SUPERIORITY_OR_OTHER||Adjusted Difference|11.7||||0.0025|TWO_SIDED|95.0|3.5|19.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||19.7|3.5|0.0025
82590625|NCT01241552|164895145|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.4||||0.6532|TWO_SIDED|95.0|-8.3|5.5||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||5.5|-8.3|0.6532
82590626|NCT01241552|164895146|SUPERIORITY_OR_OTHER||Adjusted Difference|1.7||||0.6505|TWO_SIDED|95.0|-6.9|10.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415 + SOC - Placebo + SOC|||10.7|-6.9|0.6505
82590627|NCT01241552|164895146|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.8||||0.0013|TWO_SIDED|95.0|-17.7|-3.8||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-6072 + SOC - Placebo + SOC|||-3.8|-17.7|0.0013
82590628|NCT01241552|164895146|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.7||||0.0006|TWO_SIDED|95.0|-18.6|-4.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - Placebo + SOC|||-4.7|-18.6|0.0006
82653637|NCT00266409|165022806|SUPERIORITY_OR_OTHER|||||||0.0516||95.0|||||ANCOVA|||ANCOVA with treatment as a fixed effect and baseline total HAM-A score as a covariate||||0.0516
82653638|NCT00266409|165022807|SUPERIORITY_OR_OTHER|||||||0.0361||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.0361
82590629|NCT01241552|164895146|SUPERIORITY_OR_OTHER||Adjusted Difference|-13.7||||0.0007|TWO_SIDED|95.0|-22.5|-5.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-3415 + SOC|||-5.2|-22.5|0.0007
82590630|NCT01241552|164895146|SUPERIORITY_OR_OTHER||Adjusted Difference|-1.0||||0.3906|TWO_SIDED|95.0|-7.7|5.8||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient).|Miettinen and Nurminen||Adjusted Difference: MK-3415A + SOC - MK-6072 + SOC|||5.8|-7.7|0.3906
82491263|NCT02197273|164676305|SUPERIORITY_OR_OTHER||Fisher exact|0.486||||0.656|TWO_SIDED||||||Fisher Exact|||||||0.656
82590631|NCT01241552|164895147|SUPERIORITY_OR_OTHER||Percentage Difference|5.2||||0.185|TWO_SIDED|95.0|-2.5|12.8|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||12.8|-2.5|0.185
82653639|NCT00266409|165022807|SUPERIORITY_OR_OTHER|||||||0.0366||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.0366
82653640|NCT00266409|165022808|SUPERIORITY_OR_OTHER|||||||0.739||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.7390
82653641|NCT00266409|165022808|SUPERIORITY_OR_OTHER|||||||0.6735||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.6735
82590632|NCT01241552|164895147|SUPERIORITY_OR_OTHER||Percentage Difference|3.4||||0.323|TWO_SIDED|95.0|-3.3|10.1|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||10.1|-3.3|0.323
82590633|NCT01241552|164895147|SUPERIORITY_OR_OTHER||Percentage Difference|-2.3||||0.507|TWO_SIDED|95.0|-9.1|4.5|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||4.5|-9.1|0.507
82590634|NCT01241552|164895148|SUPERIORITY_OR_OTHER||Percentage Difference|2.2||||0.246|TWO_SIDED|95.0|-1.5|6.7|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||6.7|-1.5|0.246
82590635|NCT01241552|164895148|SUPERIORITY_OR_OTHER||Percentage Difference|3.2||||0.069|TWO_SIDED|95.0|-0.3|6.8|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||6.8|-0.3|0.069
82590636|NCT01241552|164895148|SUPERIORITY_OR_OTHER||Percentage Difference|1.2||||0.464|TWO_SIDED|95.0|-2.1|4.6|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||4.6|-2.1|0.464
82590637|NCT01241552|164895149|SUPERIORITY_OR_OTHER||Percentage Difference|7.7||||0.027|TWO_SIDED|95.0|0.9|14.7|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||14.7|0.9|0.027
82590638|NCT01241552|164895149|SUPERIORITY_OR_OTHER||Percentage Difference|1.5||||0.594|TWO_SIDED|95.0|-4.1|7.2|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||7.2|-4.1|0.594
82590639|NCT01241552|164895149|SUPERIORITY_OR_OTHER||Percentage Difference|-5.3||||0.051|TWO_SIDED|95.0|-10.6|0.0|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||0.0|-10.6|0.051
82590640|NCT01241552|164895150|SUPERIORITY_OR_OTHER||Percentage Difference|1.0||||0.115|TWO_SIDED|95.0|-0.3|3.5|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.5|-0.3|0.115
82590641|NCT01241552|164895150|SUPERIORITY_OR_OTHER||Percentage Difference|0.8||||0.17|TWO_SIDED|95.0|-0.5|2.4|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||2.4|-0.5|0.170
82590642|NCT01241552|164895150|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.544|TWO_SIDED|95.0|-0.9|1.6|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placeb + SOC|||1.6|-0.9|0.544
82653642|NCT00266409|165022809|SUPERIORITY_OR_OTHER|||||||0.4261||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.4261
82590643|NCT01241552|164895151|SUPERIORITY_OR_OTHER||Percentage Difference|0.4||||0.192|TWO_SIDED|95.0|-0.5|2.4|||Miettinen and Nurminen||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||2.4|-0.5|0.192
82590644|NCT01241552|164895151|SUPERIORITY_OR_OTHER||Percentage Difference|0.3||||0.311|TWO_SIDED|95.0|-0.7|1.4|||Miettinen and Nurminen||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||1.4|-0.7|0.311
82590645|NCT01241552|164895151|SUPERIORITY_OR_OTHER||Percentage Difference|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||1.0|-1.0|> 0.999
82590646|NCT01241552|164895152|SUPERIORITY_OR_OTHER||Percentage Difference|3.6|||||TWO_SIDED|95.0|-1.0|8.7|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||8.7|-1.0|
82590647|NCT01241552|164895152|SUPERIORITY_OR_OTHER||Percentage Difference|4.3|||||TWO_SIDED|95.0|0.2|8.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||8.5|0.2|
82590648|NCT01241552|164895152|SUPERIORITY_OR_OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-2.6|5.2|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||5.2|-2.6|
82590649|NCT01241552|164895153|SUPERIORITY_OR_OTHER||Percentage Difference|-6.9|||||TWO_SIDED|95.0|-16.8|3.5|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.5|-16.8|
82590650|NCT01241552|164895153|SUPERIORITY_OR_OTHER||Percentage Difference|-18.0|||||TWO_SIDED|95.0|-26.3|-9.6|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-9.6|-26.3|
82590651|NCT01241552|164895153|SUPERIORITY_OR_OTHER||Percentage Difference|-16.2|||||TWO_SIDED|95.0|-24.5|-7.7|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-7.7|-24.5|
82590652|NCT01241552|164895154|SUPERIORITY_OR_OTHER||Percentage Difference|-6.1|||||TWO_SIDED|95.0|-20.1|8.6|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||8.6|-20.1|
82590653|NCT01241552|164895154|SUPERIORITY_OR_OTHER||Percentage Difference|-13.2|||||TWO_SIDED|95.0|-25.5|-0.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-0.5|-25.5|
82590654|NCT01241552|164895154|SUPERIORITY_OR_OTHER||Percentage Difference|-14.4|||||TWO_SIDED|95.0|-26.8|-1.6|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-1.6|-26.8|
82590655|NCT01241552|164895155|SUPERIORITY_OR_OTHER||Percentage Difference|0.8|||||TWO_SIDED|95.0|-16.9|21.0|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||21.0|-16.9|
82590656|NCT01241552|164895155|SUPERIORITY_OR_OTHER||Percentage Difference|-14.6|||||TWO_SIDED|95.0|-28.3|-1.4|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-1.4|-28.3|
82590657|NCT01241552|164895155|SUPERIORITY_OR_OTHER||Percentage Difference|-12.1|||||TWO_SIDED|95.0|-26.2|1.9|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||1.9|-26.2|
82590658|NCT01241552|164895156|SUPERIORITY_OR_OTHER||Percentage Difference|-10.0|||||TWO_SIDED|95.0|-30.1|10.0|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||10.0|-30.1|
82590659|NCT01241552|164895156|SUPERIORITY_OR_OTHER||Percentage Difference|-25.3|||||TWO_SIDED|95.0|-43.7|-6.1|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-6.1|-43.7|
82590660|NCT01241552|164895157|SUPERIORITY_OR_OTHER||Percentage Difference|-11.3|||||TWO_SIDED|95.0|-24.9|3.9|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||3.9|-24.9|
82590661|NCT01241552|164895157|SUPERIORITY_OR_OTHER||Percentage Difference|-12.7|||||TWO_SIDED|95.0|-24.7|-0.5|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||-0.5|-24.7|
82590662|NCT01241552|164895157|SUPERIORITY_OR_OTHER||Percentage Difference|-16.0|||||TWO_SIDED|95.0|-27.8|-4.0|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-4.0|-27.8|
82590663|NCT01241552|164895158|SUPERIORITY_OR_OTHER||Percentage Difference|-10.1|||||TWO_SIDED|95.0|-23.2|4.6|||||Percentage Difference: MK-3415 + SOC - Placebo + SOC|||4.6|-23.2|
82590664|NCT01241552|164895158|SUPERIORITY_OR_OTHER||Percentage Difference|-11.0|||||TWO_SIDED|95.0|-23.2|1.4|||||Percentage Difference: MK-6072 + SOC - Placebo + SOC|||1.4|-23.2|
82590665|NCT01241552|164895158|SUPERIORITY_OR_OTHER||Percentage Difference|-16.7|||||TWO_SIDED|95.0|-28.4|-4.7|||||Percentage Difference: MK-3415A + SOC - Placebo + SOC|||-4.7|-28.4|
82653643|NCT00266409|165022809|SUPERIORITY_OR_OTHER|||||||0.0231||95.0||||P-value based on ANCOVA with treatment as a fixed effect and baseline HAM-A score as a covariate|ANCOVA|||||||0.0231
82653644|NCT00266409|165022810|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and total HAM-A score as a covariate|ANCOVA|||||||0.1820
82653645|NCT00266409|165022810|SUPERIORITY_OR_OTHER|||||||0.2187||95.0||||P-value based on ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as covariate|ANCOVA|||||||0.2187
82653646|NCT00266409|165022811|SUPERIORITY_OR_OTHER|||||||0.1456||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.1456
82653647|NCT00266409|165022811|SUPERIORITY_OR_OTHER|||||||0.3618||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3618
82653648|NCT00266409|165022812|SUPERIORITY_OR_OTHER|||||||0.3535||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3535
82653649|NCT00266409|165022812|SUPERIORITY_OR_OTHER|||||||0.566||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.5660
82653650|NCT00266409|165022813|SUPERIORITY_OR_OTHER|||||||0.3414||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.3414
82653651|NCT00266409|165022813|SUPERIORITY_OR_OTHER|||||||0.7344||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.7344
82653652|NCT00266409|165022814|SUPERIORITY_OR_OTHER|||||||0.1197||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.1197
82653653|NCT00266409|165022814|SUPERIORITY_OR_OTHER|||||||0.4416||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline total HAM-A score as a covariate|ANCOVA|||||||0.4416
82653654|NCT00266409|165022815|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.0350
82653655|NCT00266409|165022815|SUPERIORITY_OR_OTHER|||||||0.4205||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.4205
82653656|NCT00266409|165022816|SUPERIORITY_OR_OTHER|||||||0.2645||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.2645
82653657|NCT00266409|165022816|SUPERIORITY_OR_OTHER|||||||0.5369||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.5369
82653658|NCT00266409|165022817|SUPERIORITY_OR_OTHER|||||||0.9988||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9988
82653659|NCT00266409|165022817|SUPERIORITY_OR_OTHER|||||||0.7729||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7729
82653660|NCT00266409|165022818|SUPERIORITY_OR_OTHER|||||||0.7338||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7338
82653661|NCT00266409|165022818|SUPERIORITY_OR_OTHER|||||||0.0897||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.0897
82653662|NCT00266409|165022819|SUPERIORITY_OR_OTHER|||||||0.6501||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6501
82653663|NCT00266409|165022819|SUPERIORITY_OR_OTHER|||||||0.8196||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8196
82653664|NCT00266409|165022820|SUPERIORITY_OR_OTHER|||||||0.6404||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6404
82653665|NCT00266409|165022820|SUPERIORITY_OR_OTHER|||||||0.8263||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8263
82653666|NCT00266409|165022821|SUPERIORITY_OR_OTHER|||||||0.6946||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.6946
82653667|NCT00266409|165022821|SUPERIORITY_OR_OTHER|||||||0.9629||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9629
82653668|NCT00266409|165022822|SUPERIORITY_OR_OTHER|||||||0.8617||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.8617
82653669|NCT00266409|165022822|SUPERIORITY_OR_OTHER|||||||0.7555||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.7555
82653670|NCT00266409|165022823|SUPERIORITY_OR_OTHER|||||||0.5836||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.5836
82653671|NCT00266409|165022823|SUPERIORITY_OR_OTHER|||||||0.9096||95.0|||||Chi-squared|||Analysis refers to test of differences in response rates.||||0.9096
82653672|NCT00266409|165022824|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0002
82653673|NCT00266409|165022824|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0006
82653674|NCT00266409|165022825|SUPERIORITY_OR_OTHER|||||||0.0255||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint, CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0255
82653675|NCT00266409|165022825|SUPERIORITY_OR_OTHER|||||||0.0065||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0065
82653676|NCT00266409|165022826|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0370
82590666|NCT03496324|164895172|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% confidence interval (CI) (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for Cmax.|Geometric Least Square Mean|94.19|STANDARD_ERROR_OF_MEAN|18.9|||TWO_SIDED|90.0|85.81|103.38||||||||103.38|85.81|
82590667|NCT03496324|164895172|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for Cmax.|Geometric Least Square Mean|111.66|STANDARD_ERROR_OF_MEAN|14.3|||TWO_SIDED|90.0|103.84|120.07||||||||120.07|103.84|
82590668|NCT03496324|164895173|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for AUC0-t.|Geometric Least Square Mean|101.57|STANDARD_ERROR_OF_MEAN|10.5|||TWO_SIDED|90.0|96.28|107.16||||||||107.16|96.28|
82590669|NCT03496324|164895173|EQUIVALENCE|Bioequivalence was demonstrated between NfC® and Algifor® Junior if each 90% CI (rounded to 2 decimal places) for the ratio between least square geometric means (test / reference) lay within 80% and 125% for AUC0-t.|Geometric Least Square Mean|104.47|STANDARD_ERROR_OF_MEAN|6.0|||TWO_SIDED|90.0|101.4|107.63||||||||107.63|101.4|
82590670|NCT02663271|164895180|SUPERIORITY|We used one-sample log rank test to compare to historical control.|Hazard Ratio (HR)|0.3|||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
82590671|NCT04166383|164895185|OTHER|||||||0.1||||||P≤0.10 (alpha 0.1); power = 90% (beta 0.1)|Kaplan-Meier|||||||0.10
82590672|NCT03044886|164895192|SUPERIORITY|||||||0.576|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.576
82590673|NCT03044886|164895193|SUPERIORITY|||||||0.489|||||||ANOVA|||||||0.489
82590674|NCT03044886|164895194|SUPERIORITY|||||||0.042|||||||ANOVA|||||||0.042
82590675|NCT03044886|164895194|SUPERIORITY|||||||0.041|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.041
82590676|NCT03044886|164895195|SUPERIORITY|||||||0.71|||||||ANCOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.710
82590677|NCT03044886|164895196|SUPERIORITY|||||||0.34|||||||ANOVA|||||||0.340
82590678|NCT03044886|164895197|SUPERIORITY|||||||0.048|||||||ANOVA|||||||0.048
82590679|NCT03044886|164895197|SUPERIORITY|||||||0.038|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.038
82590680|NCT03044886|164895198|SUPERIORITY|||||||0.521|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.521
82653677|NCT00266409|165022826|SUPERIORITY_OR_OTHER|||||||0.9569||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.9569
82590681|NCT03044886|164895199|SUPERIORITY|||||||0.742|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.742
82590682|NCT03044886|164895200|SUPERIORITY||||||<|0.05|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||<0.05
82590683|NCT03044886|164895200|SUPERIORITY|||||||0.073|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.073
82590684|NCT03044886|164895201|SUPERIORITY|||||||0.348|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.348
82590685|NCT03044886|164895202|SUPERIORITY|||||||0.685|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.685
82491264|NCT04154930|164676306|SUPERIORITY||Treatment difference|69.7|||<|0.001|TWO_SIDED|95.0|52.54|86.89|||Cochran-Mantel-Haenszel|||||86.89|52.54|<0.001
82590686|NCT03044886|164895203|SUPERIORITY|||||||0.075|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine difference between groups.||||0.075
82590687|NCT03044886|164895203|SUPERIORITY|||||||0.083|||||||ANOVA|||One-way analysis of variance (ANOVA) and Neuman-Keuel test were carried out to determine changes from 3 month to 6 month of all groups.||||0.083
82590688|NCT01624259|164895224|NON_INFERIORITY_OR_EQUIVALENCE|"Family-wise Type I error rate was controlled by applying a serial gatekeeping strategy.~This calculation assumed a 0 difference in HbA1c between the 1.5 mg LY2189265 1.5-mg arm and 1.8 mg liraglutide, 0.4% margin of noninferiority, common Standard Deviation (SD) of 1.3% for change from baseline in HbA1c, 0.05 two-sided significance level, and 25% dropout rate at 26 weeks."|LS Mean Difference|-0.06|||<|0.001|TWO_SIDED|95.0|-0.19|0.07||1-sided raw p-value (no multiplicity adjustment).|Mixed Models Analysis|||To show noninferiority of 1.5 mg LY2189265 relative to 1.8 mg liraglutide with 90% power, 222 completers (444 total) at 26 weeks were required. Noninferiority of 1.5 mg LY2189265 relative to 1.8 mg liraglutide was demonstrated if the upper bound of the two-sided 95% Confidence Interval (CI) for the difference in mean change in HbA1c between the 1.5 mg LY2189265 arm and 1.8 mg liraglutide arm was below 0.4%.||0.07|-0.19|<0.001
82590689|NCT01624259|164895224|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.06||||0.186|TWO_SIDED|95.0|-0.19|0.07||1-sided raw p-value (no multiplicity adjustment)|Mixed Models Analysis|||Superiority analysis||0.07|-0.19|0.186
82590690|NCT01624259|164895225|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|STANDARD_ERROR_OF_MEAN|0.28||0.01|TWO_SIDED|95.0|0.17|1.26||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model at 26 weeks.||1.26|0.17|0.010
82590691|NCT01624259|164895226|SUPERIORITY_OR_OTHER||LS Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.1||0.013|TWO_SIDED|95.0|0.05|0.45||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model.||0.45|0.05|0.013
82590692|NCT01624259|164895227|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|2.61||0.828|TWO_SIDED|95.0|-5.69|4.56||No adjustment for multiplicity.|ANCOVA|||Treatment comparison from ANCOVA model.||4.56|-5.69|0.828
82590693|NCT01624259|164895228|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.25|STANDARD_ERROR_OF_MEAN|1.86||0.228|TWO_SIDED|95.0|-5.91|1.41||No adjustment for multiplicity.|Mixed Models Analysis|P-value from pairwise comparison of LS means at 26 weeks from REML-based MMRM.||||1.41|-5.91|0.228
82590694|NCT01624259|164895229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.322|TWO_SIDED|95.0|0.81|1.86||P-value of treatment comparison at Week 26 is from repeated generalized linear mixed model (GLM model).|Regression, Logistic|No adjustment for multiplicity.||Treatment comparison for HbA1c levels ≤6.5%||1.86|0.81|0.322
82590695|NCT01624259|164895229|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.925|TWO_SIDED|95.0|0.64|1.63||No adjustment for multiplicity.|Regression, Logistic|P-value of treatment comparison at Week 26 is from repeated generalized linear mixed model (GLM model).||Treatment comparison for HbA1c levels \<7.0%.||1.63|0.64|0.925
82590696|NCT01624259|164895230|SUPERIORITY_OR_OTHER||LS Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|2.79||0.608|TWO_SIDED|95.0|-4.06|6.92|||ANCOVA|No adjustment for multiplicity.||||6.92|-4.06|0.608
82590697|NCT00782288|164895247|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Measures were compared between Baseline, Treatment \& Recovery periods to determine if changes from baseline differed between placebo and the two digitoxin dose levels. Kruskal-Wallis equity of population rank test was performed on the changes Day 28 minus Day 1. To compare the change from baseline to treatment period between the two arms, a Wilcoxon rank sum test was performed. To determine whether induced sputum Il-8 returned to baseline at the final visit, a one sample sign test was performed.||||>0.05
82590698|NCT00782288|164895253|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Baseline,Treatment and Recovery periods were compared to determine if changes from baseline differed between placebo and the two digitoxin doses.||||>0.05
82590699|NCT00823303|164895260|NON_INFERIORITY_OR_EQUIVALENCE|On the basis of prior published reports, we estimated a 5% rate of hypercalcemia with paricalcitol and a 30% rate with calcitriol. To have a 90% power to detect a difference at the P=0.05 confidence level, 42 patients per group were needed. Assuming a 30% dropout rate over the course of the study, we planned to randomize 110 patients.||||||0.36|||||||Fisher Exact|||||||0.36
82590700|NCT03349775|164895279|SUPERIORITY||Median Difference (Final Values)|-2.57|STANDARD_DEVIATION|5.14||0.35|TWO_SIDED|95.0|-8.32|3.18|||t-test, 2 sided|||||3.18|-8.32|0.35
82590701|NCT03349775|164895280|SUPERIORITY||Median Difference (Final Values)|1.13|STANDARD_DEVIATION|2.13||0.37|TWO_SIDED|95.0|-1.65|3.92|||t-test, 2 sided|||||3.92|-1.65|0.37
82590702|NCT00791258|164895282|SUPERIORITY_OR_OTHER||Percentage|75.8|||||TWO_SIDED|95.0|73.0|78.5||||||||78.5|73.0|
82590703|NCT00791258|164895283|SUPERIORITY_OR_OTHER||Percentage|84.3|||||TWO_SIDED|95.0|81.8|86.5||||||||86.5|81.8|
82590704|NCT00791258|164895284|SUPERIORITY_OR_OTHER||Percentage|71.3|||||TWO_SIDED|95.0|68.3|74.1||||||12 week analysis||74.1|68.3|
82590705|NCT00791258|164895284|SUPERIORITY_OR_OTHER||Percentage|84.8|||||TWO_SIDED|95.0|82.4|87.0||||||20 week analysis||87.0|82.4|
82590706|NCT00791258|164895285|SUPERIORITY_OR_OTHER||Median Difference (Net)|-14.6|||<|0.0001|TWO_SIDED|95.0|-15.4|-13.8|||t-test, 1 sided|||4 week analysis||-13.8|-15.4|<0.0001
82590707|NCT00791258|164895285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.6|||<|0.0001|TWO_SIDED|95.0|-17.7|-15.7|||t-test, 1 sided|||8 week analysis||-15.7|-17.7|<0.0001
82590708|NCT00791258|164895285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.8|||<|0.0001|TWO_SIDED|95.0|-22.7|-20.9|||t-test, 1 sided|||12 week analysis||-20.9|-22.7|<0.0001
82590709|NCT00791258|164895285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.0|||<|0.0001|TWO_SIDED|95.0|-27.0|-25.0|||t-test, 1 sided|||16 week analysis||-25.0|-27.0|<0.0001
82590710|NCT00791258|164895285|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.8|||<|0.0001|TWO_SIDED|95.0|-27.8|-25.7|||t-test, 1 sided|||20 week analysis||-25.7|-27.8|<0.0001
82590711|NCT00791258|164895286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.1|||<|0.0001|TWO_SIDED|95.0|-8.6|-7.6|||t-test, 1 sided|||4 week analysis||-7.6|-8.6|<0.0001
82590712|NCT00791258|164895286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.1|||<|0.0001|TWO_SIDED|95.0|-9.7|-8.5|||t-test, 1 sided|||8 week analysis||-8.5|-9.7|<0.0001
82491265|NCT04154930|164676307|SUPERIORITY||Treatment difference|72.5|||<|0.001|TWO_SIDED|95.0|60.67|84.28|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 6 Months After Baseline||84.28|60.67|<0.001
82590713|NCT00791258|164895286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.9|||<|0.0001|TWO_SIDED|95.0|-12.5|-11.4|||t-test, 1 sided|||12 week analysis||-11.4|-12.5|<0.0001
82590714|NCT00791258|164895286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.6|||<|0.0001|TWO_SIDED|95.0|-15.2|-14.0|||t-test, 1 sided|||16 week analysis||-14.0|-15.2|<0.0001
82590715|NCT00791258|164895286|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.5||||0.0001|TWO_SIDED|95.0|-15.1|-13.8|||t-test, 1 sided|||20 week analysis||-13.8|-15.1|0.0001
82590716|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.8|||<|0.0001|TWO_SIDED|95.0|-16.2|-13.4|||t-test, 1 sided|||Mean 24-hour systolic blood pressure||-13.4|-16.2|<0.0001
82590717|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.3|||<|0.0001|TWO_SIDED|95.0|-17.8|-14.8|||t-test, 1 sided|||Mean daytime systolic blood pressure||-14.8|-17.8|<0.0001
82590718|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.5|||<|0.0001|TWO_SIDED|95.0|-14.1|-10.8|||t-test, 1 sided|||Mean nighttime systolic blood pressure||-10.8|-14.1|<0.0001
82590719|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6|||<|0.0001|TWO_SIDED|95.0|-15.7|-11.6|||t-test, 1 sided|||systolic blood pressure during last 2 hours of dose||-11.6|-15.7|<0.0001
82590720|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.0|||<|0.0001|TWO_SIDED|95.0|-14.7|-11.2|||t-test, 1 sided|||systolic blood pressure during last 4 hours of dose||-11.2|-14.7|<0.0001
82590721|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.6|||<|0.0001|TWO_SIDED|95.0|-14.3|-10.9|||t-test, 1 sided|||systolic blood pressure during last 6 hours of dose||-10.9|-14.3|<0.0001
82590722|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.4|||<|0.0001||95.0|-10.3|-8.5|||t-test, 1 sided|||Mean 24-hour diastolic blood pressure||-8.5|-10.3|<0.0001
82590723|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.6|||<|0.0001|TWO_SIDED|95.0|-11.7|-9.6|||t-test, 1 sided|||Mean daytime diastolic blood pressure||-9.6|-11.7|<0.0001
82590724|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.6|||<|0.0001|TWO_SIDED|95.0|-8.8|-6.4|||t-test, 1 sided|||Mean nighttime diastolic blood pressure||-6.4|-8.8|<0.0001
82590725|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6|||<|0.0001||95.0|-10.0|-7.2|||t-test, 1 sided|||diastolic blood pressure during last 2 hours of dose||-7.2|-10.0|<0.0001
82590726|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.0|||<|0.0001|TWO_SIDED|95.0|-9.2|-6.8|||t-test, 1 sided|||diastolic blood pressure during last 4 hours of dose||-6.8|-9.2|<0.0001
82653678|NCT00266409|165022827|SUPERIORITY_OR_OTHER|||||||0.0978||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0978
82653679|NCT00266409|165022827|SUPERIORITY_OR_OTHER|||||||0.7096||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.7096
82491266|NCT04154930|164676307|SUPERIORITY||Treatment difference|66.4|||<|0.001|TWO_SIDED|95.0|54.97|77.92|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 9 Months After Baseline||77.92|54.97|<0.001
82491267|NCT04154930|164676307|SUPERIORITY||Treatment difference|52.4|||<|0.001|TWO_SIDED|95.0|40.57|64.26|||Cochran-Mantel-Haenszel|||Responder Rate Based on the Blinded Evaluator's live assessment of the GIHS at 12 Months After Baseline||64.26|40.57|<0.001
82491268|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0.299|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Miswak extract mouth wash||||0.299
82491269|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0.007|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Miswak extract mouth wash||||0.007
82491270|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Miswak sticks||||0.019
82491271|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Miswak sticks||||0.000
82491272|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 15 minutes of the first use of Chlorohexidine gluconate mouth wash||||0.000
82491273|NCT02628938|164676310|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Organoleptic scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.001
82491274|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.496|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Miswak extract mouth wash||||0.496
82491275|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.244|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of using Miswak extract mouth wash||||0.244
82491276|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.19|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Miswak sticks||||0.19
82491277|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.829|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of of using Miswak sticks||||0.829
82491278|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.341|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 15 minutes of the first use of Chlorohexidine gluconate mouth wash||||0.341
82491279|NCT02628938|164676311|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Volatile sulfur compound scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.82
82491280|NCT02628938|164676312|SUPERIORITY_OR_OTHER|||||||0.008|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Miswak extract mouth wash||||0.008
82491281|NCT02628938|164676312|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Miswak sticks||||0.001
82491282|NCT02628938|164676312|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||Paired t-test was performed to examine the significance of change in Self-assessment scores after 7 days of using Chlorohexidine gluconate mouth wash||||0.02
82590727|NCT00791258|164895298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.7|||<|0.0001||95.0|-8.8|-6.6|||t-test, 1 sided|||diastolic blood pressure during last 6 hours of dose||-6.6|-8.8|<0.0001
82491283|NCT00843856|164676325|SUPERIORITY|||||||0.7|||||||Fisher Exact|||||||0.7
82491284|NCT03855228|164676327|SUPERIORITY|||||||0.36|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.36
82491285|NCT03855228|164676327|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491286|NCT03855228|164676327|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491287|NCT03855228|164676327|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491288|NCT03855228|164676327|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491289|NCT03855228|164676327|SUPERIORITY|||||||0.02|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.02
82491290|NCT03855228|164676328|SUPERIORITY|||||||0.35|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.35
82491291|NCT03855228|164676328|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491292|NCT03855228|164676328|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590728|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.0|||<|0.0001|TWO_SIDED|95.0|-22.6|-19.3|||t-test, 1 sided|||24-hour mean systolic blood pressure||-19.3|-22.6|<0.0001
82590729|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.2|||<|0.0001|TWO_SIDED|95.0|-25.1|-21.4|||t-test, 1 sided|||Mean daytime systolic blood pressure||-21.4|-25.1|<0.0001
82590730|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.5|||<|0.0001|TWO_SIDED|95.0|-19.4|-15.6|||t-test, 1 sided|||Mean nighttime systolic blood pressure||-15.6|-19.4|<0.0001
82590731|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.6|||<|0.0001|TWO_SIDED|95.0|-21.7|-17.4|||t-test, 1 sided|||Systolic blood pressure - last 2 hours of dose||-17.4|-21.7|<0.0001
82590732|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-18.2|||<|0.0001|TWO_SIDED|95.0|-20.2|-16.3|||t-test, 1 sided|||Systolic blood pressure - last 4 hours of dose||-16.3|-20.2|<0.0001
82590733|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.9|||<|0.0001|TWO_SIDED|95.0|-19.7|-16.0|||t-test, 1 sided|||Systolic blood pressure - last 6 hours of dose||-16.0|-19.7|<0.0001
82590734|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.3|||<|0.0001|TWO_SIDED|95.0|-14.4|-12.2|||t-test, 1 sided|||24-hour mean diastolic blood pressure||-12.2|-14.4|<0.0001
82590735|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.0|||<|0.0001|TWO_SIDED|95.0|-16.2|-13.8|||t-test, 1 sided|||Mean daytime diastolic blood pressure||-13.8|-16.2|<0.0001
82590736|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.1|||<|0.0001|TWO_SIDED|95.0|-12.4|-9.8|||t-test, 1 sided|||Mean nighttime diastolic blood pressure||-9.8|-12.4|<0.0001
82590737|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.3|||<|0.0001|TWO_SIDED|95.0|-13.8|-10.8|||t-test, 1 sided|||Diastolic blood pressure - last 2 hours of dose||-10.8|-13.8|<0.0001
82590738|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.6|||<|0.0001|TWO_SIDED|95.0|-12.9|-10.2|||t-test, 1 sided|||Diastolic blood pressure - last 4 hours of dose||-10.2|-12.9|<0.0001
82590739|NCT00791258|164895299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.3|||<|0.0001|TWO_SIDED|95.0|-12.6|-10.0|||t-test, 1 sided|||Diastolic blood pressure - last 6 hours of dose||-10.0|-12.6|<0.0001
82653680|NCT00266409|165022828|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0001
82653681|NCT00266409|165022828|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0003
82653682|NCT00266409|165022829|SUPERIORITY_OR_OTHER|||||||0.0025||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0025
82653683|NCT00266409|165022829|SUPERIORITY_OR_OTHER|||||||0.0101||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0101
82653684|NCT00266409|165022830|SUPERIORITY_OR_OTHER|||||||0.0095||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0095
82590740|NCT04667377|164895341|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Linear model fit|||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
82590741|NCT04667377|164895341|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Exponential model fit|Model Assumption: 50% of maximum effect achieved at dose 3.6 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
82590742|NCT04667377|164895341|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Emax1 model fit|Model Assumption: 90% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
82491293|NCT03855228|164676328|SUPERIORITY|||||||0.03|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.03
82590743|NCT04667377|164895341|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Emax2 model fit|Model Assumption: 70% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
82590744|NCT04667377|164895341|OTHER|Covariate adjusted fixed effect estimates of mean percentage change in body weight at Week 46 for each treatment group with associated covariance matrix were extracted from the MMRM (including fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors) and used as input for the MCP-Mod.|||||<|0.0001||||||P-value is adjusted for multiplicity.|MCP-Mod - Sigmoid Emax model fit|Model Assumption: 50% of maximum effect achieved at dose 2.4 mg, 90% of maximum effect achieved at dose 4.8 mg.||A flat vs. non-flat dose-response relationship across the 4 doses of BI 456906 and placebo was tested using the Multiple Comparison Procedure - Modelling (MCP-Mod) approach which evaluated simultaneously 5 different potential dose-response patterns (Linear, Exponential, Emax1, Emax2, Sigmoid Emax) while protecting the overall probability of type I error (one-sided alpha of 2.5%).||||<0.0001
82590745|NCT04667377|164895341|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-3.37|STANDARD_ERROR_OF_MEAN|1.5||0.0257|TWO_SIDED|95.0|-6.33|-0.41||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.41|-6.33|0.0257
82590746|NCT04667377|164895341|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-9.69|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-12.57|-6.81||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation as used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-6.81|-12.57|<.0001
82590747|NCT04667377|164895341|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-10.4|STANDARD_ERROR_OF_MEAN|1.48|<|0.0001|TWO_SIDED|95.0|-13.32|-7.49||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.49|-13.32|<.0001
82590748|NCT04667377|164895341|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.12|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-15.0|-9.24||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation will be used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-9.24|-15.00|<.0001
82590749|NCT04667377|164895342|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|3.28||||0.0015|TWO_SIDED|95.0|1.57|6.84||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||6.84|1.57|0.0015
82590750|NCT04667377|164895342|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|8.83|||<|0.0001|TWO_SIDED|95.0|4.0|19.46||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||19.46|4.00|<.0001
82653685|NCT00266409|165022830|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0390
82590751|NCT04667377|164895342|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|7.48|||<|0.0001|TWO_SIDED|95.0|3.41|16.41||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||16.41|3.41|<.0001
82590752|NCT04667377|164895342|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 5% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|10.77|||<|0.0001|TWO_SIDED|95.0|4.77|24.31||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||24.31|4.77|<.0001
82491294|NCT03855228|164676328|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590753|NCT04667377|164895343|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|3.22||||0.012|TWO_SIDED|95.0|1.29|8.02||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||8.02|1.29|0.0120
82590754|NCT04667377|164895343|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|10.62|||<|0.0001|TWO_SIDED|95.0|4.36|25.86||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||25.86|4.36|<.0001
82590755|NCT04667377|164895343|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|9.78|||<|0.0001|TWO_SIDED|95.0|4.02|23.79||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||23.79|4.02|<.0001
82590756|NCT04667377|164895343|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 10% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|14.5|||<|0.0001|TWO_SIDED|95.0|5.91|35.55||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||35.55|5.91|<.0001
82653686|NCT00266409|165022831|SUPERIORITY_OR_OTHER|||||||0.016||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0160
82491295|NCT03855228|164676328|SUPERIORITY|||||||0.02|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.02
82491296|NCT03855228|164676329|SUPERIORITY|||||||0.77|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.77
82590757|NCT04667377|164895344|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|2.13||||0.2654|TWO_SIDED|95.0|0.56|8.02||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||8.02|0.56|0.2654
82590758|NCT04667377|164895344|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|9.47||||0.0002|TWO_SIDED|95.0|2.89|30.95||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||30.95|2.89|0.0002
82590759|NCT04667377|164895344|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|11.79|||<|0.0001|TWO_SIDED|95.0|3.62|38.36||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||38.36|3.62|<.0001
82590760|NCT04667377|164895344|OTHER|"Missing body weight measurements were multiply imputed using MMRM with treatment, gender, baseline body weight as factors. Percentage change in body weight from baseline to Week 46 and Body weight loss ≥ 15% at Week 46 (yes/no) were derived per participant in each of the 1000 imputed datasets. Each dataset was analysed by a logistic regression. Multiple estimates from multiple imputation runs were summarised using Rubin's method."|Odds Ratio (OR)|21.02|||<|0.0001|TWO_SIDED|95.0|6.47|68.28||P-value is considered nominal.|Regression, Logistic|Logistic regression with treatment group and gender as factors and baseline body weight as a continuous linear covariate.|Odds ratio is calculated as BI 456906 / Placebo.|Logistic regression after multiple imputation. Analysis based on all available post-baseline body weight measurements (on-treatment (first intake of study drug until 28 days after last intake of study drug) and off-treatment), except those for participants who discontinued treatment early due to COVID-19. For these participants only on-treatment values were used.||68.28|6.47|<.0001
82590761|NCT04667377|164895345|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-4.53|STANDARD_ERROR_OF_MEAN|1.48||0.0025|TWO_SIDED|95.0|-7.44|-1.61||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-1.61|-7.44|0.0025
82590762|NCT04667377|164895345|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.07|STANDARD_ERROR_OF_MEAN|1.46|<|0.0001|TWO_SIDED|95.0|-14.94|-9.19||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-9.19|-14.94|<.0001
82590763|NCT04667377|164895345|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.96|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|95.0|-15.85|-10.07||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo at week 46.|No formal hypotheses were tested.||-10.07|-15.85|<.0001
82590764|NCT04667377|164895345|OTHER|MMRM with fixed effects for baseline body weight as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-15.78|STANDARD_ERROR_OF_MEAN|1.47|<|0.0001|TWO_SIDED|95.0|-18.67|-12.9||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo at week 46.|No formal hypotheses were tested.||-12.90|-18.67|<.0001
82653687|NCT00266409|165022831|SUPERIORITY_OR_OTHER|||||||0.1024||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1024
82590765|NCT04667377|164895346|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-4.36|STANDARD_ERROR_OF_MEAN|1.71||0.0116|TWO_SIDED|95.0|-7.74|-0.98||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.98|-7.74|0.0116
82590766|NCT04667377|164895346|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-11.03|STANDARD_ERROR_OF_MEAN|1.71|<|0.0001|TWO_SIDED|95.0|-14.39|-7.66||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.66|-14.39|<.0001
82590767|NCT04667377|164895346|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-11.0|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-14.33|-7.67||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-7.67|-14.33|<.0001
82590768|NCT04667377|164895346|OTHER|MMRM with fixed effects for baseline waist circumference as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-12.05|STANDARD_ERROR_OF_MEAN|1.69|<|0.0001|TWO_SIDED|95.0|-15.39|-8.71||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-8.71|-15.39|<.0001
82590769|NCT04667377|164895347|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-3.73|STANDARD_ERROR_OF_MEAN|2.08||0.0733|TWO_SIDED|95.0|-7.82|0.35||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||0.35|-7.82|0.0733
82590770|NCT04667377|164895347|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-5.62|STANDARD_ERROR_OF_MEAN|2.08|<|0.0072|TWO_SIDED|95.0|-9.71|1.53||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||1.53|-9.71|<.0072
82590771|NCT04667377|164895347|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-6.2|STANDARD_ERROR_OF_MEAN|2.05||0.0027|TWO_SIDED|95.0|-10.23|-2.17||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-2.17|-10.23|0.0027
82590772|NCT04667377|164895347|OTHER|MMRM with fixed effects for baseline systolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-6.16|STANDARD_ERROR_OF_MEAN|2.08||0.0033|TWO_SIDED|95.0|-10.25|-2.06||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-2.06|-10.25|0.0033
82590773|NCT04667377|164895348|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-1.44|STANDARD_ERROR_OF_MEAN|1.26||0.2569|TWO_SIDED|95.0|-3.92|1.05||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||1.05|-3.92|0.2569
82590774|NCT04667377|164895348|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.49|STANDARD_ERROR_OF_MEAN|1.26||0.0495|TWO_SIDED|95.0|-4.97|0.0||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.00|-4.97|0.0495
82491297|NCT03855228|164676329|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491298|NCT03855228|164676329|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491299|NCT03855228|164676329|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590775|NCT04667377|164895348|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.44|STANDARD_ERROR_OF_MEAN|1.24||0.0506|TWO_SIDED|95.0|-4.9|0.01||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 -placebo.|No formal hypotheses were tested.||0.01|-4.90|0.0506
82590776|NCT04667377|164895348|OTHER|MMRM with fixed effects for baseline diastolic blood pressure as a continuous linear covariate, and treatment, gender, visit, treatment by visit interaction and baseline by visit interaction as factors, using visit as repeated measures and an unstructured covariance matrix to model within subject measurements.|Difference of adjusted means|-2.93|STANDARD_ERROR_OF_MEAN|1.25||0.0202|TWO_SIDED|95.0|-5.4|-0.46||P-value is considered nominal.|Mixed Models Analysis|Kenward-Roger approximation was used to estimate the denominator degrees of freedom.|Difference was calculated as BI 456906 - placebo.|No formal hypotheses were tested.||-0.46|-5.40|0.0202
82590777|NCT05215262|164895349|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.04|TWO_SIDED|95.0|0.04|3.17|||Mixed Models Analysis|||||3.17|0.04|0.04
82590778|NCT05215262|164895349|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.82|TWO_SIDED|95.0|-1.59|1.99|||Mixed Models Analysis|||||1.99|-1.59|0.82
82590779|NCT05215262|164895349|SUPERIORITY||Mean Difference (Final Values)|1.67||||0.2|TWO_SIDED|95.0|-0.89|4.23|||Mixed Models Analysis|||Difference-in-differences results, comparing GSES scores between the Intervention and Standard of Care groups at the three-month time point.||4.23|-0.89|0.20
82590780|NCT00239226|164895355|SUPERIORITY_OR_OTHER||Slope|3.93||||0.047|||||||Log Rank|||||||0.047
82590781|NCT00646906|164895365|SUPERIORITY|An analysis of variance, appropriate for a three factor experiment with cohort and dose as non-repeated factors and repeated measure order arranged in a two period cross-over design, was performed.|||||>|0.05|||||||ANOVA|||The primary hypothesis is that acetaminophen given two hours before aspirin will antagonize the effects of aspirin, while reversing the order of administration will not. Percent change from start (8:00 am on day 1) to finish (8:00 am on day 7) of period in serum thromboxane B2 for each order of drug administration will be primary endpoint of interest.||||>0.05
82590782|NCT00646906|164895366|SUPERIORITY|An analysis of variance, appropriate for a three factor experiment with cohort and dose as non-repeated factors and repeated measure order arranged in a two period cross-over design, was performed.|||||>|0.05|||||||ANOVA|||||||>0.05
82590783|NCT01892306|164895379|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Scores on the HAM-A were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||.02
82590784|NCT01892306|164895380|SUPERIORITY_OR_OTHER|||||||0.02|||||||Mixed Models Analysis|||Scores on the HAM-D were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||0.02
82590785|NCT01892306|164895381|SUPERIORITY_OR_OTHER|||||||0.24|||||||Mixed Models Analysis|||Scores on the CSQ were analyzed using a mixed-effects linear regression analysis over 6 timepoints.||||0.24
82590786|NCT01892306|164895382|OTHER|||||||0.62|||||||Regression, Linear|||Linear regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline DERS scores.||||.62
82590787|NCT01892306|164895382|OTHER|||||||0.03|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline DERS scores||||.03
82590788|NCT01892306|164895383|OTHER|||||||0.95|||||||Regression, Linear|||Linear regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ACS scores.||||0.95
82590789|NCT01892306|164895383|OTHER|||||||0.03|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ACS scores.||||0.03
82590790|NCT01892306|164895384|OTHER|||||||0.87|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ASI scores||||0.87
82590791|NCT01892306|164895384|OTHER|||||||0.37|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline ASI scores||||0.37
82590792|NCT01892306|164895385|OTHER|||||||0.17|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline NEO- Neuroticism scores.||||0.17
82653688|NCT00266409|165022832|SUPERIORITY_OR_OTHER|||||||0.0761||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0761
82653689|NCT00266409|165022832|SUPERIORITY_OR_OTHER|||||||0.0376||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0376
82590793|NCT01892306|164895385|OTHER|||||||0.04|||||||Regression, Linear|||Linear Regression - Dependent variable: HAM-A symptom change; Independent variable: Baseline NEO-Neuroticism scores||||.04
82590794|NCT01892306|164895386|OTHER|||||||0.007|||||||Regression, Linear|||Fisher's z-transformed values for functional connectivity between anterior insula and ventrolateral prefrontal cortex were entered in separate treatment group-specific linear regression models as the independent variable with change in primary outcomes (HAM-D) as dependent variable.||||0.007
82590795|NCT01892306|164895386|OTHER|||||||0.14|||||||Regression, Linear|||Fisher's z-transformed values for functional connectivity between anterior insula and ventrolateral prefrontal cortex were entered in separate treatment group-specific linear regression models as the independent variable with change in primary outcomes (HAM-D) as dependent variable.||||.14
82590796|NCT01958788|164895404|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.06|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590797|NCT01958788|164895404|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.34|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590798|NCT01958788|164895404|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.37|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590799|NCT01958788|164895405|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.32|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590800|NCT01958788|164895405|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.29|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590801|NCT01958788|164895405|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.15|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590802|NCT01958788|164895406|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.72|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment follow-up||||
82590803|NCT01958788|164895406|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.66|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590804|NCT01958788|164895406|SUPERIORITY_OR_OTHER||Cohen's d effect size|0.07|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590805|NCT01958788|164895407|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.13|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590806|NCT01958788|164895407|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.06|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590807|NCT01958788|164895407|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.18|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590808|NCT01958788|164895408|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.41|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590809|NCT01958788|164895408|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.65|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590810|NCT01958788|164895408|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.7|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590811|NCT01958788|164895409|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.64|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590812|NCT01958788|164895409|SUPERIORITY_OR_OTHER||Cohen's d effect size|1.47|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590813|NCT01958788|164895409|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.56|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590814|NCT01958788|164895410|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.08|||||TWO_SIDED||||||Cohen's d effect size|||Pre-posttreatment effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to posttreatment||||
82590815|NCT01958788|164895410|SUPERIORITY_OR_OTHER||Cohen's d effect size|2.15|||||TWO_SIDED||||||Cohen's d effect size|||Pretreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from pretreatment to 6-month follow-up||||
82590816|NCT01958788|164895410|SUPERIORITY_OR_OTHER||Cohen's d effect size|-0.55|||||TWO_SIDED||||||Cohen's d effect size|||Posttreatment to 6-month follow-up effect size estimation using Cohen's d: a calculation of the relative magnitude of the effect from posttreatment to 6-month follow-up||||
82590817|NCT00962390|164895420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.4678|TWO_SIDED|95.0|-0.5|1.1||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.1|-0.5|0.4678
82590818|NCT00962390|164895420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.4892|TWO_SIDED|95.0|-0.5|1.1||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.1|-0.5|0.4892
82590819|NCT00962390|164895420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.8185|TWO_SIDED|95.0|-0.8|1.0||Statistical testing was 2-sided and the 5% significant level was used.|ANCOVA|The ANCOVA included Baseline as covariate and factors for treatment and site.|S-equol treatment group minus placebo group.|Week 4, Treatment Effect||1.0|-0.8|0.8185
82590820|NCT04422990|164895437|NON_INFERIORITY|Noninferiority in mean CLCDVA was declared if the upper confidence limit was less than 0.10 logMAR.|Least squares mean difference|0.0|||||TWO_SIDED|95.0|-0.01|0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Mixed effects repeated measures model||Least squares mean difference (LID018869 minus Biofinity).|||0.01|-0.01|
82590821|NCT04422990|164895438|NON_INFERIORITY|Proportion of subjects was used for the statistical analysis. Noninferiority in proportion of subjects achieving CLCDVA 20/20 or better in each eye was declared if the lower confidence limit was greater than -0.10.|Difference in proportion|-0.01|||||TWO_SIDED|95.0|-0.04|0.02||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|Generalized linear mixed model||Lens difference (LID018869 minus Biofinity)|||0.02|-0.04|
82653690|NCT00266409|165022833|SUPERIORITY_OR_OTHER|||||||0.1196||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1196
82590822|NCT05417607|164895460|SUPERIORITY||Mean Difference (Net)|3.75|STANDARD_DEVIATION|5.86||0.0047|TWO_SIDED|95.0|1.27|6.22|||t-test, 2 sided|||Within group pre- and post-intervention.||6.22|1.27|0.0047
82590823|NCT05417607|164895461|SUPERIORITY||Mean Difference (Net)|2.21|STANDARD_DEVIATION|7.9||0.2383|TWO_SIDED|95.0|-1.6|6.02|||t-test, 2 sided|||Within group pre- and post-intervention.||6.02|-1.6|0.2383
82590824|NCT05417607|164895462|SUPERIORITY||Mean Difference (Net)|-0.71|STANDARD_DEVIATION|3.58||0.3426|TWO_SIDED|95.0|-2.22|0.8|||t-test, 2 sided|||Within group pre- and post-intervention.||0.80|-2.22|0.3426
82590825|NCT01750931|164895463|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|102.45||||0.4396|TWO_SIDED|95.0|99.4|105.59|||ANOVA|||||105.59|99.40|0.4396
82590826|NCT01750931|164895465|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|105.02||||0.9712|TWO_SIDED|95.0|99.69|110.63|||ANOVA||Comparison of AUC0-t between group GSK-meloxicam 15 mg and Mobic-meloxicam 15 mg|||110.63|99.69|0.9712
82590827|NCT01750931|164895465|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Percent ratio|102.31||||0.9951|TWO_SIDED|95.0|99.05|105.69|||ANOVA||Comparison of AUC0-infinity between group GSK-meloxicam 15 mg and Mobic-meloxicam 15 mg|||105.69|99.05|0.9951
82590828|NCT02871778|164895475|SUPERIORITY||Least Square (LS) Mean difference|1.519||||0.0437|TWO_SIDED|95.0|0.044|2.995|||Mixed-effects Model|||||2.995|0.044|0.0437
82590829|NCT02871778|164895475|SUPERIORITY||LS Mean difference|0.04||||0.9755|TWO_SIDED|95.0|-2.509|2.589|||Mixed-effects Model|||||2.589|-2.509|0.9755
82590830|NCT02871778|164895475|SUPERIORITY||LS Mean difference|2.318||||0.0731|TWO_SIDED|95.0|-0.22|4.856|||Mixed-effects Model|||||4.856|-0.22|0.0731
82590831|NCT02871778|164895475|SUPERIORITY||LS Mean Difference|0.799||||0.5373|TWO_SIDED|95.0|-1.751|3.348|||Mixed-effects Model|||||3.348|-1.751|0.5373
82590832|NCT02871778|164895475|SUPERIORITY||LS Mean difference|0.838||||0.453|TWO_SIDED|95.0|-1.368|3.045|||Mixed-effects Model|||||3.045|-1.368|0.453
82590833|NCT02653300|164895488|OTHER|||||||0.03125|||||||Sign test|||||||0.03125
82590834|NCT01910116|164895491|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Assuming that an improvement in AUSCAN pain score of \>10 is clinically meaningful, and assuming an alpha level of 0.05 (two-tailed), a power of 0.80, and a dropout rate of 20%, the sample size calculation revealed that 220 patients should be enrolled.||||0.014
82590835|NCT01910116|164895492|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.011
82590836|NCT01910116|164895493|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.053
82590837|NCT01910116|164895494|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.014
82590838|NCT01910116|164895495|SUPERIORITY_OR_OTHER|||||||0.728|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.728
82590839|NCT01910116|164895496|SUPERIORITY_OR_OTHER|||||||0.229|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.229
82590840|NCT01910116|164895497|SUPERIORITY_OR_OTHER|||||||0.194|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.194
82590841|NCT01910116|164895498|SUPERIORITY_OR_OTHER|||||||0.347|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.347
82590842|NCT01910116|164895499|SUPERIORITY_OR_OTHER|||||||0.122|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.122
82590843|NCT01910116|164895500|SUPERIORITY_OR_OTHER|||||||0.097|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.097
82590844|NCT01910116|164895502|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.050
82590845|NCT01910116|164895503|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.031
82590846|NCT01910116|164895504|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.021
82590847|NCT01910116|164895505|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.049
82590848|NCT01910116|164895506|SUPERIORITY_OR_OTHER|||||||0.221|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.221
82590849|NCT01910116|164895507|SUPERIORITY_OR_OTHER|||||||0.174|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.174
82590850|NCT01910116|164895508|SUPERIORITY_OR_OTHER|||||||0.124|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.124
82590851|NCT01910116|164895509|SUPERIORITY_OR_OTHER|||||||0.128|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.128
82590852|NCT01910116|164895510|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.126
82590853|NCT01910116|164895511|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
82590854|NCT01910116|164895512|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.660
82590855|NCT01910116|164895513|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
82590856|NCT01910116|164895514|SUPERIORITY_OR_OTHER|||||||0.186|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.186
82590857|NCT01910116|164895515|SUPERIORITY_OR_OTHER|||||||0.493|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.493
82590858|NCT01910116|164895516|SUPERIORITY_OR_OTHER|||||||0.062|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.062
82590859|NCT01910116|164895517|SUPERIORITY_OR_OTHER|||||||0.604|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.604
82590860|NCT01910116|164895518|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.252
82590861|NCT01910116|164895519|SUPERIORITY_OR_OTHER|||||||0.378|TWO_SIDED||||||Chi-squared|||||||0.378
82590862|NCT01910116|164895520|SUPERIORITY_OR_OTHER|||||||0.485|TWO_SIDED||||||Chi-squared|||||||0.485
82590863|NCT01910116|164895521|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1.000
82590864|NCT01910116|164895522|SUPERIORITY_OR_OTHER|||||||0.683|TWO_SIDED||||||Fisher Exact|||||||0.683
82590865|NCT01910116|164895523|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||Chi-squared|||||||0.036
82590866|NCT01910116|164895524|SUPERIORITY_OR_OTHER|||||||0.022|TWO_SIDED||||||Chi-squared|||||||0.022
82590867|NCT01910116|164895525|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED||||||Chi-squared|||||||0.017
82590868|NCT01910116|164895526|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Chi-squared|||||||0.060
82590869|NCT01849497|164895527|SUPERIORITY_OR_OTHER||Treatment Difference|-6.8|||||TWO_SIDED|95.0|-16.3|2.0||||||||2.0|-16.3|
82590870|NCT01849497|164895528|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-3.7|STANDARD_ERROR_OF_MEAN|3.38|||TWO_SIDED|95.0|-10.38|2.99||||||||2.99|-10.38|
82590871|NCT00911625|164895529|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|9.502||0.958|TWO_SIDED|95.0|-19.341|18.341|||t-test, 2 sided|||The null hypothesis is that there is no difference between the two treatment cohorts on their average blood glucose level||18.341|-19.341|.958
82590872|NCT00911625|164895530|SUPERIORITY||Odds Ratio (OR)|0.438||||0.0828|TWO_SIDED|95.0|0.172|1.114|||Regression, Logistic|||The null hypothesis is that there is no difference in the odds of experiencing at least one blood glucose level below 70 mg/dL between the two treatment cohorts.||1.114|0.172|.0828
82590873|NCT01289821|164895531|SUPERIORITY_OR_OTHER||Percentage of Participants|43.9||||0.36|TWO_SIDED|80.0|33.19|55.09|||One-sample exact binomial test|||"Null hypothesis: True probability p of objective tumor response does not exceed p0, p0=0.4. H0: p\<=0.4 One-sided type I error probability of alpha=10%"||55.09|33.19|0.36
82590874|NCT03044249|164895573|SUPERIORITY||Response Ratio|4.0||||0.48|TWO_SIDED|90.0|-18.0|25.0|||Fisher Exact|||||25|-18|0.48
82590875|NCT03044249|164895575|SUPERIORITY||Mean Difference (Final Values)|-5.28||||0.14|TWO_SIDED|90.0|-11.16|0.61|||Mixed Models Analysis|||||0.61|-11.16|0.14
82590876|NCT03044249|164895576|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.37|TWO_SIDED|90.0|-4.47|1.31|||Mixed Models Analysis|||||1.31|-4.47|0.37
82590877|NCT03044249|164895580|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.94|TWO_SIDED|90.0|-2.0|1.84|||Mixed Models Analysis|||||1.84|-2.00|0.94
82590878|NCT04029961|164895614|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
82590879|NCT04029961|164895615|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
82590880|NCT04029961|164895616|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
82590881|NCT04029961|164895617|OTHER|Multivariate regression model and intra-arm differences in measure scores between time points.|||||<|0.05||||||Multivariate regression was adjusted for covariates of study site, highest education level, prior chemotherapy, age, \& T stage. Random effects was adjusted for multiple measurements. Multiplicity corrections were conducted via Holm-Sidak method.|multivariate regression|||||||<0.05
82590882|NCT04029961|164895618|OTHER|"A univariate analysis comparing the proportion of each arm that indicated an item was met, evaluated for each item at each time point."|||||<|0.05|||||||Univariate analysis|||"The statistical test described below was only performed on the top 10 items on the scale rated the highest in importance by participants. The top 10 items were determined by computing the mean rating for each item (participants gave each item a rating from '1' - '9' with higher values representing greater importance) and selecting the 10 items with the largest mean values, excluding the item the radiation oncologist who will be treating me as that item was not addressed in either intervention."||||<0.05
82590883|NCT02347488|164895619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|STANDARD_DEVIATION|1.8|<|0.001|TWO_SIDED|95.0|2.88|3.32|||ANCOVA|||Average displacement difference in cm, tape vs. tube-holder. 17 participants was the estimated enrollment needed to detect a difference of 1 SD from the mean between the 2 fixation techniques at 80% power; additional enrollment was included to increase the power of results and to include a larger variety of patients undergoing different surgical procedures.||3.32|2.88|<0.001
82590884|NCT05314712|164895623|OTHER|Linear Mixed Model (repeated measures model) of sleep trouble||||||||||||There was no hypothesis test. All participants received the 7-week intervention - there was no comparison group. A variable selection approach (AIC) was used for including the final variables in the model.||||Since all participants in this pilot study received in the intervention and data was collected pre and post intervention, there was no hypothesis test. Under the assumption that the likert scale data was treated as continuous, the data was analyzed using a linear mixed model. Variables in final model were included after variable selection (details below).|Using an exhaustive search of all models (dredge) that could be formed from predictor variables partner sleep rating, perceived stress, DASS scale, 8-item diet scale, amount of screen time, amount of time between bed time and wake time, amount of time to fall asleep, hours of sleep, sleep rating score, indicator variable if the child played outside, bed time, and wake time, adult height in inches, adult BMI, adult's highest education attained, the number of children in the household, grade of the child, child height in inches, child BMI, age of the child, and gender of the child, requiring the the timing of the survey be in the model, and accounting for repeated measurements over time, using AIC as the selection criterion we looked for the model with the smallest AIC value. The final sleep trouble model included the covariates timing of survey, DASS scale, and indicator variable if child played outside.|||
82653691|NCT00266409|165022833|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint.CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0029
82653692|NCT00266409|165022834|SUPERIORITY_OR_OTHER|||||||0.6323||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.6323
82491300|NCT03855228|164676329|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590885|NCT05314712|164895623|OTHER|Mixed effects linear regression model of hours slept||||||||||||There was no hypothesis test. All participants received the 7-week intervention - there was no comparison group. A variable selection approach (AIC) was used for including the final variables in the model.||||Since all participants in this pilot study received in the intervention and data was collected pre and post intervention, there was no hypothesis test. The data was analyzed using a mixed effects linear regression model. Variables in final model were included after variable selection (details below).|Using an exhaustive search of all models (dredge) that could be formed from predictor variables partner sleep rating, perceived stress, DASS scale, 8-item diet scale, amount of screen time, amount of time between bed time and wake time, amount of time to fall asleep, hours of sleep, sleep rating score, indicator variable if the child played outside, bed time, and wake time, adult height in inches, adult BMI, adult's highest education attained, the number of children in the household, grade of the child, child height in inches, child BMI, age of the child, and gender of the child, requiring the the timing of the survey be in the model, and accounting for repeated measurements over time, using AIC as the selection criterion we looked for the model with the smallest AIC value. The final model for hours slept included the covariates number of children in the household, indicator variable if child played outside, and baseline hours slept.|||
82590886|NCT00232141|164895633|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.29||0.3914||95.0|-0.83|0.32||The analysis procedures planned will control the Type I error for the primary analysis. No multiplicity adjustment is needed for this two-group study.|ANCOVA|||Primary hypotheses : null (H0): µA=µP vs alternative (HA): µA≠µP (µA and µP represent true means for primary endpoint in active treatment \& placebo groups respectively). Assumptions in power calculation: 2-sided test with type I error at α =0.05, type II error at β =0.10, \& a common s.d of 2.2 for primary endpoint (based on previous clinical trial data). With n=150 subjects/ group (300 subjects overall) at least 90% power to detect a treatment difference of at least 1.1 in primary endpoint||0.32|-0.83|0.3914
82590887|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0131||95.0|-0.81|-0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.10|-0.81|0.0131
82590888|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.24||0.0393||95.0|-0.96|-0.02||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||-0.02|-0.96|0.0393
82590889|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.28||0.0554||95.0|-1.08|0.01||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 3||0.01|-1.08|0.0554
82590890|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.29||0.1513||95.0|-0.99|0.15||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 4||0.15|-0.99|0.1513
82590891|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.3||0.3345||95.0|-0.89|0.3||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 5||0.30|-0.89|0.3345
82590892|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.31||0.0879||95.0|-1.13|0.08||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.08|-1.13|0.0879
82590893|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.32||0.0307||95.0|-1.32|-0.07||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 7||-0.07|-1.32|0.0307
82590894|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.31||0.0156||95.0|-1.36|-0.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 8||-0.14|-1.36|0.0156
82590895|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.32||0.0981||95.0|-1.15|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 9||0.10|-1.15|0.0981
82590896|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.31||0.306||95.0|-0.93|0.29||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.29|-0.93|0.3060
82491301|NCT03855228|164676329|SUPERIORITY|||||||0.45|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.45
82590897|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.33||0.1874||95.0|-1.08|0.21||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 11||0.21|-1.08|0.1874
82590898|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.34||0.1025||95.0|-1.22|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 12||0.11|-1.22|0.1025
82590899|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.34||0.0662||95.0|-1.3|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 13||0.04|-1.30|0.0662
82590900|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.37||0.1856||95.0|-1.21|0.24||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.24|-1.21|0.1856
82590901|NCT00232141|164895634|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.3||0.7925||95.0|-0.66|0.5||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.50|-0.66|0.7925
82590902|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.18||||0.1191||95.0|0.802|5.935||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 1||5.935|0.802|0.1191
82590903|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.24||||0.5041||95.0|0.666|2.301||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 2||2.301|0.666|0.5041
82590904|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.13||||0.6859||95.0|0.638|1.985||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 3||1.985|0.638|0.6859
82590905|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.25||||0.414||95.0|0.735|2.116||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 4||2.116|0.735|0.4140
82590906|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.07||||0.7852||95.0|0.644|1.794||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 5||1.794|0.644|0.7852
82590907|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7399||95.0|0.654|1.817||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 6||1.817|0.654|0.7399
82590908|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.57||||0.1055||95.0|0.913|2.701||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 7||2.701|0.913|0.1055
82590909|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.41||||0.2107||95.0|0.829|2.401||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 8||2.401|0.829|0.2107
82590910|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.19||||0.527||95.0|0.697|2.046||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 9||2.046|0.697|0.5270
82590911|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.89||||0.6845||95.0|0.513|1.546||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 10||1.546|0.513|0.6845
82590912|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.7737||95.0|0.522|1.619||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 11||1.619|0.522|0.7737
82491302|NCT03855228|164676330|SUPERIORITY|||||||0.99|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.99
82590913|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.04||||0.8853||95.0|0.597|1.818||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 12||1.818|0.597|0.8853
82590914|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.09||||0.7712||95.0|0.612|1.946||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 13||1.946|0.612|0.7712
82590915|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.9586||95.0|0.574|1.796||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 14||1.796|0.574|0.9586
82590916|NCT00232141|164895635|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.79||||0.3482||95.0|0.486|1.283||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Endpoint-BOCF||1.283|0.486|0.3482
82590917|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.62||||0.1132||95.0|0.882|2.969||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 1||2.969|0.882|0.1132
82590918|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.2||||0.4687||95.0|0.731|1.978||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 2||1.978|0.731|0.4687
82590919|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.44||||0.1546||95.0|0.877|2.375||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 3||2.375|0.877|0.1546
82590920|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.23||||0.4216||95.0|0.7444|2.025||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 4||2.025|0.7444|0.4216
82590921|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.7479||95.0|0.556|1.527||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 5||1.527|0.556|0.7479
82590922|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8||||0.3842||95.0|0.481|1.33||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 6||1.330|0.481|0.3842
82590923|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.05||||0.845||95.0|0.627|1.769||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 7||1.769|0.627|0.8450
82590924|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.1602||95.0|0.864|2.527||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 8||2.527|0.864|0.1602
82590925|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.6815||95.0|0.66|1.89||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 9||1.890|0.660|0.6815
82590926|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.85||||0.5635||95.0|0.486|1.482||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 10||1.482|0.486|0.5635
82590927|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.21||||0.49||95.0|0.699|2.104||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 11||2.104|0.699|0.4900
82653693|NCT00266409|165022834|SUPERIORITY_OR_OTHER|||||||0.5533||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.5533
82491303|NCT03855228|164676330|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491304|NCT03855228|164676330|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491305|NCT03855228|164676330|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590928|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.48||||0.1602||95.0|0.856|2.575||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 12||2.575|0.856|0.1602
82590929|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.5819||95.0|0.663|2.079||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 13||2.079|0.663|0.5819
82590930|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.37||||0.2796||95.0|0.768|2.432||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Week 14||2.432|0.768|0.2796
82590931|NCT00232141|164895636|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.86||||0.5437||95.0|0.534|1.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||Table above shows results of statistical analysis for Endpoint-BOCF||1.390|0.534|0.5437
82590932|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|2.53||0.5425||95.0|-3.44|6.52||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Disturbance.||6.52|-3.44|0.5425
82590933|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.25||0.3184||95.0|-0.75|0.25||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Quantity||0.25|-0.75|0.3184
82590934|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|2.92||0.9886||95.0|-5.81|5.72||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Adequacy||5.72|-5.81|0.9886
82590935|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.41|STANDARD_ERROR_OF_MEAN|2.51||0.5742||95.0|-3.53|6.35||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Awaken Short of Breath or with Headache||6.35|-3.53|0.5742
82590936|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|2.5||0.5775||95.0|-3.54|6.33||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Somnolence||6.33|-3.54|0.5775
82590937|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.34|STANDARD_ERROR_OF_MEAN|3.21||0.004||95.0|3.02|15.66||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Snoring||15.66|3.02|0.0040
82590938|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.07|STANDARD_ERROR_OF_MEAN|1.98||0.5882||95.0|-2.83|4.97||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Sleep Problems Index I||4.97|-2.83|0.5882
82590939|NCT00232141|164895637|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.42|STANDARD_ERROR_OF_MEAN|1.89||0.4516||95.0|-2.3|5.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Sleep Problems Index II||5.14|-2.30|0.4516
82590940|NCT00232141|164895638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.39||0.5105||95.0|-0.51|1.03||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Anxiety||1.03|-0.51|0.5105
82590941|NCT00232141|164895638|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.42|STANDARD_ERROR_OF_MEAN|0.37||0.2513||95.0|-0.3|1.14||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Depression||1.14|-0.30|0.2513
82377492|NCT03971474|164462074|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.41|TWO_SIDED|80.0|0.69|1.29||One-sided p-values were calculated using a standard log-rank test.|Log Rank||Treatment effects comparing the RP arm to the SOC arm were summarized using a Cox proportional hazards model and 80% CIs.|This analysis includes the results for the non-squamous histology subgroup.||1.29|0.69|0.41
82653694|NCT00266409|165022835|SUPERIORITY_OR_OTHER|||||||0.1705||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.1705
82590942|NCT00232141|164895639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.27||0.5834||95.0|-0.38|0.67||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pain Severity Index||0.67|-0.38|0.5834
82590943|NCT00232141|164895639|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.25||0.7783||95.0|-0.43|0.57||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pain Interference Index||0.57|-0.43|0.7783
82590944|NCT00232141|164895640|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.27||0.4776||95.0|-0.73|0.34||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||||0.34|-0.73|0.4776
82590945|NCT00232141|164895641|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0077||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.0077
82590946|NCT00232141|164895642|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3852||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.3852
82590947|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3097||95.0|-0.03|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Burning||0.10|-0.03|0.3097
82590948|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.6147||95.0|-0.07|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Pressing||0.04|-0.07|0.6147
82590949|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6838||95.0|-0.05|0.07||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Paroxysmal||0.07|-0.05|0.6838
82590950|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.6479||95.0|-0.07|0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Evoked||0.04|-0.07|0.6479
82590951|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.1849||95.0|-0.02|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Paresthesia/dysesthesia||0.11|-0.02|0.1849
82590952|NCT00232141|164895643|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.0||0.5898||95.0|0.0|0.0||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Total Score||0|0|0.5898
82590953|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.29||0.6865||95.0|-0.45|0.68||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Static mechanical allodynia||0.68|-0.45|0.6865
82653695|NCT00266409|165022835|SUPERIORITY_OR_OTHER|||||||0.3196||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.3196
82377493|NCT02370238|164462080|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.589|TWO_SIDED|95.0|0.71|1.81||p-value based on a log-rank test stratified by randomized sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||1.81|0.71|0.589
82491306|NCT03855228|164676330|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590954|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.25||0.3787||95.0|-0.71|0.27||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Dynamic mechanical allodynia||0.27|-0.71|0.3787
82653696|NCT00266409|165022836|SUPERIORITY_OR_OTHER|||||||0.0419||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.0419
82653697|NCT00266409|165022836|SUPERIORITY_OR_OTHER|||||||0.2541||95.0|||||van Elteren test|||van Elteren test stratified by CGI-Severity score at baseline and testing between treatment differences in percentages based on non-missing responses within a timepoint. CGI-Severity score categorizes severity at baseline as normal,not at all ill, borderline mentally ill, mildly ill, moderately ill, markedly ill, severely ill, among the most extremely ill.||||0.2541
82653698|NCT00266409|165022837|SUPERIORITY_OR_OTHER|||||||0.0677||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0677
82653699|NCT00266409|165022837|SUPERIORITY_OR_OTHER|||||||0.0273||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0273
82590955|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.35||0.7704||95.0|-0.79|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Punctate hyperalgesia testing area||0.59|-0.79|0.7704
82590956|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.33||0.6088||95.0|-0.82|0.48||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Temporal summation to tactile stimuli||0.48|-0.82|0.6088
82590957|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.33||0.3767||95.0|-0.93|0.35||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Cold allodynia testing area||0.35|-0.93|0.3767
82590958|NCT00232141|164895644|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.38||0.7689||95.0|-0.64|0.86||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Cold hyperalgesia testing area||0.86|-0.64|0.7689
82590959|NCT00232141|164895645|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.25||0.1277||95.0|-0.86|0.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||||0.11|-0.86|0.1277
82590960|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0469||95.0|-0.71|0.0||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.00|-0.71|0.0469
82590961|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.23||0.0067||95.0|-1.08|-0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||-0.18|-1.08|0.0067
82590962|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.27||0.031||95.0|-1.1|-0.05||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 3||-0.05|-1.10|0.0310
82590963|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.27||0.2088||95.0|-0.86|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 4||0.19|-0.86|0.2088
82653700|NCT00266409|165022838|SUPERIORITY_OR_OTHER|||||||0.5153||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5153
82491307|NCT03855228|164676330|SUPERIORITY|||||||0.08|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.08
82491308|NCT03855228|164676331|SUPERIORITY|||||||0.85|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.85
82590964|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.26||0.1849||95.0|-0.87|0.17||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 5||0.17|-0.87|0.1849
82653701|NCT00266409|165022838|SUPERIORITY_OR_OTHER|||||||0.0122||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0122
82653702|NCT00266409|165022839|SUPERIORITY_OR_OTHER|||||||0.4648||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.4648
82653703|NCT00266409|165022839|SUPERIORITY_OR_OTHER|||||||0.5502||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5502
82653704|NCT00266409|165022840|SUPERIORITY_OR_OTHER|||||||0.9093||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.9093
82590965|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.27||0.0452||95.0|-1.09|-0.01||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||-0.01|-1.09|0.0452
82590966|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.29||0.0359||95.0|-1.18|-0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 7||-0.04|-1.18|0.0359
82590967|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.29||0.0184||95.0|-1.26|-0.12||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 8||-0.12|-1.26|0.0184
82590968|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.29||0.1043||95.0|-1.06|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 9||0.10|-1.06|0.1043
82590969|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.29||0.1053||95.0|-1.04|0.1||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.10|-1.04|0.1053
82590970|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.3||0.144||95.0|-1.03|0.15||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 11||0.15|-1.03|0.1440
82590971|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.32||0.0866||95.0|-1.17|0.08||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 12||0.08|-1.17|0.0866
82590972|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.32||0.0359||95.0|-1.3|-0.04||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 13||-0.04|-1.30|0.0359
82590973|NCT00232141|164895646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.34||0.0711||95.0|-1.3|0.05||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.05|-1.30|0.0711
82590974|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.23||0.0685||95.0|-0.89|0.03||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.03|-0.89|0.0685
82590975|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.28||0.928||95.0|-0.52|0.57||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.57|-0.52|0.9280
82590976|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.29||0.6672||95.0|-0.71|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.71|0.6672
82653705|NCT00266409|165022840|SUPERIORITY_OR_OTHER|||||||0.1354||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.1354
82590977|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.29||0.9731||95.0|-0.57|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.59|-0.57|0.9731
82491309|NCT03855228|164676331|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82590978|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.33||0.9045||95.0|-0.61|0.69||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.69|-0.61|0.9045
82653706|NCT00266409|165022841|SUPERIORITY_OR_OTHER|||||||0.7434||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.7434
82653707|NCT00266409|165022841|SUPERIORITY_OR_OTHER|||||||0.1148||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.1148
82653708|NCT00266409|165022842|SUPERIORITY_OR_OTHER|||||||0.9346||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A insomnia subscore as a covariate|ANCOVA|||||||0.9346
82590979|NCT00232141|164895648|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.3||0.8298||95.0|-0.53|0.66||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.66|-0.53|0.8298
82590980|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.24||0.8605||95.0|-0.52|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.44|-0.52|0.8605
82590981|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.27||0.8348||95.0|-0.58|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.47|-0.58|0.8348
82590982|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.26||0.2227||95.0|-0.83|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.19|-0.83|0.2227
82590983|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.27||0.4753||95.0|-0.73|0.34||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.34|-0.73|0.4753
82590984|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.27||0.6017||95.0|-0.4|0.68||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.68|-0.40|0.6017
82590985|NCT00232141|164895649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.26||0.6158||95.0|-0.38|0.64||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.64|-0.38|0.6158
82590986|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.22||0.239||95.0|-0.69|0.17||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.17|-0.69|0.2390
82590987|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.24||0.9444||95.0|-0.49|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.45|-0.49|0.9444
82590988|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.27||0.7386||95.0|-0.63|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.63|0.7386
82590989|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.27||0.3493||95.0|-0.79|0.28||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.28|-0.79|0.3493
82590990|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.3||0.6596||95.0|-0.46|0.73||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.73|-0.46|0.6596
82653709|NCT00266409|165022842|SUPERIORITY_OR_OTHER|||||||0.2709||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.2709
82590991|NCT00232141|164895650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.27||0.4075||95.0|-0.31|0.77||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.77|-0.31|0.4075
82653710|NCT00266409|165022843|SUPERIORITY_OR_OTHER|||||||0.3827||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.3827
82653711|NCT00266409|165022843|SUPERIORITY_OR_OTHER|||||||0.2513||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.2513
82653712|NCT00266409|165022844|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.3930
82653713|NCT00266409|165022844|SUPERIORITY_OR_OTHER|||||||0.5461||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.5461
82590992|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.23||0.0202||95.0|-1.01|-0.09||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.09|-1.01|0.0202
82590993|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8865||95.0|-0.55|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.47|-0.55|0.8865
82590994|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.9964||95.0|-0.54|0.54||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.54|-0.54|0.9964
82590995|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5993||95.0|-0.7|0.41||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.41|-0.70|0.5993
82590996|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.31||0.3553||95.0|-0.33|0.9||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.90|-0.33|0.3553
82590997|NCT00232141|164895651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.29||0.2771||95.0|-0.25|0.88||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.88|-0.25|0.2771
82590998|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.26||0.2352||95.0|-0.82|0.2||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.20|-0.82|0.2352
82590999|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7607||95.0|-0.6|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.44|-0.60|0.7607
82591000|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.27||0.6563||95.0|-0.64|0.4||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.40|-0.64|0.6563
82591001|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.27||0.8319||95.0|-0.58|0.47||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.47|-0.58|0.8319
82591002|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3086||95.0|-0.28|0.89||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.89|-0.28|0.3086
82591003|NCT00232141|164895652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.28||0.7972||95.0|-0.48|0.62||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.62|-0.48|0.7972
82653714|NCT00266409|165022845|SUPERIORITY_OR_OTHER|||||||0.0722||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.0722
82653715|NCT00266409|165022845|SUPERIORITY_OR_OTHER|||||||0.4639||95.0||||P-values based on an ANCOVA with treatment as a fixed effect and baseline HAM-A insomnia subscore as a covariate|ANCOVA|||||||0.4639
82377494|NCT02370238|164462081|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.897|TWO_SIDED|95.0|0.64|1.65||p-value based on a log-rank test stratified by randomized sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||1.65|0.64|0.897
82591004|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.28||0.1863||95.0|-0.94|0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.18|-0.94|0.1863
82653716|NCT00266409|165022846|SUPERIORITY_OR_OTHER|||||||0.0075||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0075
82653717|NCT00266409|165022846|SUPERIORITY_OR_OTHER|||||||0.1641||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAM-A psychic factors subscore as a covariate|ANCOVA|||||||0.1641
82653718|NCT00266409|165022847|SUPERIORITY_OR_OTHER|||||||0.0932||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0932
82591005|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|-0.31||0.5953||95.0|-0.77|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.44|-0.77|0.5953
82591006|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.28||0.508||95.0|-0.73|0.36||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.36|-0.73|0.5080
82591007|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5842||95.0|-0.7|0.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.39|-0.70|0.5842
82591008|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.3||0.4286||95.0|-0.35|0.83||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.83|-0.35|0.4286
82591009|NCT00232141|164895653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.28||0.5766||95.0|-0.4|0.71||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.71|-0.40|0.5766
82591010|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.28||0.5493||95.0|-0.73|0.39||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.39|-0.73|0.5493
82591011|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9875||95.0|-0.58|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.59|-0.58|0.9875
82591012|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.29||0.6931||95.0|-0.68|0.45||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.45|-0.68|0.6931
82591013|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.28||0.4614||95.0|-0.34|0.75||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.75|-0.34|0.4614
82591014|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.31||0.1467||95.0|-0.16|1.06||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||1.06|-0.16|0.1467
82653719|NCT00266409|165022847|SUPERIORITY_OR_OTHER|||||||0.0852||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0852
82653720|NCT00266409|165022848|SUPERIORITY_OR_OTHER|||||||0.7896||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.7896
82653721|NCT00266409|165022848|SUPERIORITY_OR_OTHER|||||||0.9651||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.9651
82591015|NCT00232141|164895654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.29||0.2819||95.0|-0.25|0.87||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.87|-0.25|0.2819
82591016|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.26||0.8727||95.0|-0.55|0.46||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.46|-0.55|0.8727
82653722|NCT00266409|165022849|SUPERIORITY_OR_OTHER|||||||0.828||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.8280
82377495|NCT02370238|164462082|SUPERIORITY||Odds Ratio (OR)|1.262||||0.667|TWO_SIDED|95.0|0.4909|3.963||P-value is based on Zelen's test for homogeneity of the odds ratios.|Zelen's test|||||3.963|0.4909|0.667
82491310|NCT03855228|164676331|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82653723|NCT00266409|165022849|SUPERIORITY_OR_OTHER|||||||0.0936||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.0936
82653724|NCT00266409|165022850|SUPERIORITY_OR_OTHER|||||||0.3539||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3539
82491311|NCT03855228|164676331|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82653725|NCT00266409|165022850|SUPERIORITY_OR_OTHER|||||||0.4672||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.4672
82653726|NCT00266409|165022851|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.2550
82591017|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.28||0.6897||95.0|-0.65|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.43|-0.65|0.6897
82591018|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7527||95.0|-0.6|0.44||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.44|-0.60|0.7527
82591019|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.28||0.6394||95.0|-0.67|0.41||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.41|-0.67|0.6394
82591020|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.31||0.1188||95.0|-0.13|1.11||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||1.11|-0.13|0.1188
82591021|NCT00232141|164895655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.31|STANDARD_ERROR_OF_MEAN|0.28||0.2685||95.0|-0.24|0.87||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.87|-0.24|0.2685
82591022|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.28||0.4991||95.0|-0.74|0.36||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.36|-0.74|0.4991
82591023|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.3||0.6094||95.0|-0.73|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.43|-0.73|0.6094
82591024|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.26||0.3669||95.0|-0.76|0.28||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.28|-0.76|0.3669
82591025|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.26||0.7641||95.0|-0.43|0.59||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.59|-0.43|0.7641
82591026|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.27||0.9428||95.0|-0.51|0.55||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.55|-0.51|0.9428
82591027|NCT00232141|164895656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.26||0.9508||95.0|-0.52|0.49||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.49|-0.52|0.9508
82653727|NCT00266409|165022851|SUPERIORITY_OR_OTHER|||||||0.3125||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3125
82653728|NCT00266409|165022852|SUPERIORITY_OR_OTHER|||||||0.3174||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3174
82653729|NCT00266409|165022852|SUPERIORITY_OR_OTHER|||||||0.9427||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.9427
82653730|NCT00266409|165022853|SUPERIORITY_OR_OTHER|||||||0.3252||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.3252
82653731|NCT00266409|165022853|SUPERIORITY_OR_OTHER|||||||0.609||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.6090
82653732|NCT00266409|165022854|SUPERIORITY_OR_OTHER|||||||0.1247||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.1247
82653733|NCT00266409|165022854|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.8430
82653734|NCT00266409|165022855|SUPERIORITY_OR_OTHER|||||||0.1031||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1031
82591028|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.25||0.0073||95.0|-1.18|-0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||-0.19|-1.18|0.0073
82591029|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.3||0.2202||95.0|-0.96|0.22||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.22|-0.96|0.2202
82591030|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.29||0.1824||95.0|-0.95|0.18||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.18|-0.95|0.1824
82591031|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.3||0.1872||95.0|-0.98|0.19||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.19|-0.98|0.1872
82591032|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.32||0.4374||95.0|-0.38|0.88||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.88|-0.38|0.4374
82591033|NCT00232141|164895657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.23|STANDARD_ERROR_OF_MEAN|0.3||0.4406||95.0|-0.36|0.82||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.82|-0.36|0.4406
82591034|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.27||0.2277||95.0|-0.86|0.21||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 1||0.21|-0.86|0.2277
82591035|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.33||0.8407||95.0|-0.71|0.58||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 2||0.58|-0.71|0.8407
82591036|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.8809||95.0|-0.62|0.53||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 6||0.53|-0.62|0.8809
82591037|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.29||0.6288||95.0|-0.72|0.43||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 10||0.43|-0.72|0.6288
82591038|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.3||0.9739||95.0|-0.59|0.61||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Week 14||0.61|-0.59|0.9739
82591039|NCT00232141|164895658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.29||0.8926||95.0|-0.61|0.53||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|ANCOVA|||Table above shows results of statistical analysis for Endpoint||0.53|-0.61|0.8926
82591040|NCT00232141|164895661|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7136||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.7136
82591041|NCT00232141|164895662|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6729||95.0||||All statistical tests of hypotheses were two-sided and at the 5% level of significance. All p-values for secondary or supportive analyses will be considered descriptive. No multiplicity adjustment was made for this two-group study.|Cochran-Mantel-Haenszel|||||||0.6729
82591042|NCT02273726|164895666|NON_INFERIORITY|Non-inferiority was established if the 2-sided 95% confidence interval (CI) for the treatment difference in least square (LS) means from MI ANCOVA model between the 2 treatment groups lay entirely above -0.75 g/dL.|LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.058|<|0.0001|TWO_SIDED|95.0|0.365|0.591|||ANCOVA|ANCOVA with MI||Treatment comparison was made using the multiple imputation (MI) strategy by combining the results of analysis of covariance (ANCOVA) model with baseline Hb as a covariate, and treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and other randomization stratification factors except mean qualifying screening hemoglobin (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.591|0.365|<0.0001
82653735|NCT00266409|165022855|SUPERIORITY_OR_OTHER|||||||0.0543||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0543
82491312|NCT03855228|164676331|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82591043|NCT02273726|164895667|NON_INFERIORITY|The non-inferiority was established when the 2-sided 95% CI for the difference of LS means between the 2 treatment groups using the MMRM model lay entirely above -0.75 g/dL.|LS Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.072|<|0.0001|TWO_SIDED|95.0|0.404|0.687|||Mixed Models Analysis|||Treatment comparison was made using a mixed model of repeated measures (MMRM) with baseline Hb as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.687|0.404|<0.0001
82591044|NCT02273726|164895668|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|7.6|||||TWO_SIDED|95.0|0.9|14.3||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||14.3|0.9|
82591045|NCT02273726|164895669|NON_INFERIORITY|Non-inferiority was established if the lower bound of the 2-sided 95% CI for the treatment difference for the responder rates (roxadustat minus epoetin alfa) calculated based on the Miettinen \& Nurminen approach, adjusting for stratification factors, was greater than -15%.|Responder Rate Difference|2.7|||||TWO_SIDED|95.0|-4.3|9.7||||||For the difference of responder rates between 2 treatment groups, the CI analyzed was from the Miettinen \& Nurminen approach adjusting for randomization stratification factors.||9.7|-4.3|
82591046|NCT02273726|164895670|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|Least Square Mean Difference|-14.67|STANDARD_ERROR_OF_MEAN|1.514|<|0.0001|TWO_SIDED|95.0|-17.64|-11.695|||Mixed Models Analysis|||Treatment comparison was made using a MMRM with baseline as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||-11.695|-17.640|<0.0001
82591047|NCT02273726|164895671|NON_INFERIORITY|The non-inferiority margin was fixed as a difference of -0.75.|LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.093|<|0.0001|TWO_SIDED|95.0|0.503|0.869||Threshold for significance at 0.05 level.|ANCOVA|ANCOVA with MI||Treatment comparison was made using the MI strategy by combining the results of ANCOVA model with baseline Hb as a covariate, and treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and other randomization stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.869|0.503|<0.0001
82591048|NCT02273726|164895672|SUPERIORITY||LS Mean Difference|-20.14|STANDARD_ERROR_OF_MEAN|6.975||0.00091|TWO_SIDED|95.0|-33.842|-6.445||Threshold for significance at 0.05 level.|Rank ANCOVA|||Treatment comparison was made using an ANCOVA model with baseline iron repletion status, treatment, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||-6.445|-33.842|0.00091
82591049|NCT02273726|164895673|NON_INFERIORITY|The non-inferiority margin for the difference between groups was 1.8.|Hazard Ratio (HR)|0.67||||0.0337|TWO_SIDED|95.0|0.466|0.97|||Cox Proportional Hazards model|||Analysis was done using a Cox Proportional Hazards model adjusting for baseline Hb and other stratification factors except mean qualifying screening Hb (≤10.5 vs. \>10.5 g/dL) as fixed effects.||0.970|0.466|0.0337
82591050|NCT02273726|164895674|SUPERIORITY|Superiority was declared if the upper bound of the 2-sided 95% CI of the difference between roxadustat and epoetin alfa (roxadustat - epoetin alpha) was less than 0.|LS Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.739||0.35|TWO_SIDED|95.0|-0.76|2.142|||Mixed Models Analysis|||Treatment comparison was made using MMRM with baseline as a covariate, and treatment, visit, visit-by-treatment interaction, ESA dependent incident dialysis within ≤4 months vs. \>4 months of starting dialysis when randomized, and randomization stratification factors as fixed effects.||2.142|-0.760|0.3500
82591051|NCT01479829|164895677|SUPERIORITY||Chi-square value|5.3466||||0.02|TWO_SIDED||||||Chi-squared||The chi-square value with 1 degree of freedom was 5.3466.|The null hypothesis is that there is no difference in the response rate between patients assigned to the intervention cohort or control cohort.||||.02
82591052|NCT01479829|164895678|SUPERIORITY||Chi-square value|13.3821|||<|0.001|TWO_SIDED||||||Chi-squared||The chi-square value with 1 degree of freedom was 13.3821.|The null hypothesis is that there is no difference in the remission rate between patients assigned to the intervention cohort or control cohort.||||<.001
82653736|NCT00266409|165022856|SUPERIORITY_OR_OTHER|||||||0.0508||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0508
82591053|NCT00088907|164895685|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Log Rank|||||||0.60
82591054|NCT00088907|164895686|SUPERIORITY_OR_OTHER|||||||0.19|||||||Log Rank|||||||0.19
82591055|NCT03426787|164895688|SUPERIORITY||Mean Difference (Final Values)|-12.30216|||<|0.001|TWO_SIDED|95.0|-18.95|-5.6531|||t-test, 2 sided|||||-5.6531|-18.95|<0.001
82591056|NCT03426787|164895689|SUPERIORITY||Mean Difference (Final Values)|-0.4717||||0.0463|TWO_SIDED|95.0|-0.9355|-0.00793|||t-test, 2 sided|||||-0.00793|-0.9355|0.0463
82591057|NCT03426787|164895690|SUPERIORITY||Median Difference (Final Values)|-1.936|||>|0.05|TWO_SIDED|95.0|-7.4086|3.5365|||t-test, 2 sided|||||3.5365|-7.4086|>0.05
82591058|NCT04050670|164895692|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of AUC(0-∞) for the thigh versus abdomen injection sites were from 0.80 to 1.25|Ratio of geometric least squares mean|0.953|||||TWO_SIDED|90.0|0.935|0.97|||Linear mixed effects model|||||0.970|0.935|
82591059|NCT04050670|164895692|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of AUC(0-∞) for the upper arm versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.99|||||TWO_SIDED|90.0|0.972|1.01|||Linear mixed effects model|||||1.01|0.972|
82591060|NCT04050670|164895693|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of Cmax for thigh versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.862|||||TWO_SIDED|90.0|0.818|0.909|||Linear mixed effects model|||||0.909|0.818|
82491313|NCT03855228|164676331|SUPERIORITY|||||||0.17|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.17
82591061|NCT04050670|164895693|NON_INFERIORITY|A priori estimates for the 90% CI geometric least square means ratios of Cmax for the upper arm versus abdomen injection sites were from 0.80 to 1.25.|Ratio of geometric least squares mean|0.921|||||TWO_SIDED|95.0|0.874|0.971|||Linear mixed effects model|||||0.971|0.874|
82591062|NCT01756040|164895743|OTHER|||||||0.932||||||not adjusted for multiple comparisons. The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||We hypothesized that intestinal permeability as measured by urinary lactulose/rhamnose ratio would be higher in the lower gestational age (\<29 weeks) compared to the more mature infants (≥29 weeks gestation) at postnatal age 7-10 days.||||0.932
82591063|NCT01756040|164895744|OTHER|||||||0.316|||||||t-test, 2 sided|||We hypothesized that stool A1AT would be higher in infants with high IP as measured by urinary La/Rh compared to those with low IP.||||0.316
82591064|NCT01756040|164895745|OTHER|||||||0.011||||||The significance value was estimated using Bayesian goodness-of-fit p-value to assess the significance of the association of the relative abundance of Clostridiales and IP categories. P value \<0.05 was considered significant.|Bayesian goodness of fit|||||||0.011
82591065|NCT01756040|164895746|OTHER|||||||0.0023|||||||t-test, 2 sided|||We hypothesized that infants with normal barrier function (La/Rh ratio ≤0.05) would have been fed breastmilk for longer duration than infants with impaired barrier function (La/Rh\>0.05).||||0.0023
82491314|NCT03855228|164676332|SUPERIORITY|||||||0.88|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.88
82491315|NCT03855228|164676332|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491316|NCT03855228|164676332|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491317|NCT03855228|164676332|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491318|NCT03855228|164676332|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82591066|NCT01756040|164895747|OTHER|||||||1|||||||Chi-squared|||||||1.0
82591067|NCT01756040|164895748|OTHER|||||||0.461||||||A priori threshold \<0.05|Chi-squared|||||||0.461
82591068|NCT01756040|164895749|OTHER|||||||0.019|||||||t-test, 2 sided|||We hypothesized that infants with impaired barrier function as measured by high urinary La/Rh (\>0.05) ratio at 7-10 days of age would require longer time to reach full enteral feedings than infants with normal barrier function (La/Rh≤0.05)||||0.019
82591069|NCT05097716|164895775|EQUIVALENCE|90% CI|ratio of adjusted geometric means|103.01|||||TWO_SIDED|90.0|96.66|109.77|||||The comparison was Test vs. Reference (Ritlecitinib + Tolbutamide vs. Tolbutamide).|||109.77|96.66|
82591070|NCT05097716|164895776|EQUIVALENCE|90% CI|ratio of adjusted geometric means|99.05|||||TWO_SIDED|90.0|92.01|106.62|||||The comparison was Test vs. Reference (Ritlecitinib + Tolbutamide vs. Tolbutamide).|||106.62|92.01|
82591071|NCT01509079|164895824|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANOVA|||||||0.38
82591072|NCT05111041|164895834|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.302|3.309||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.309|0.302|1.000
82591073|NCT05111041|164895835|SUPERIORITY||Odds Ratio (OR)|0.8||||0.7389|TWO_SIDED|95.0|0.215|2.972||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||2.972|0.215|0.7389
82591074|NCT05111041|164895837|SUPERIORITY||Odds Ratio (OR)|1.306||||0.6058|TWO_SIDED|95.0|0.474|3.602||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.602|0.474|0.6058
82591075|NCT05111041|164895838|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.349|2.866||||||||2.866|0.349|
82591076|NCT05111041|164895839|SUPERIORITY||Odds Ratio (OR)|1.333||||0.5925|TWO_SIDED|95.0|0.465|3.823||Not adjusted for multiple outcomes due to exploratory nature of the study.|Regression, Logistic|||||3.823|0.465|0.5925
82653737|NCT00266409|165022856|SUPERIORITY_OR_OTHER|||||||0.0871||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0871
82491319|NCT03855228|164676332|SUPERIORITY|||||||0.22|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.22
82491320|NCT03855228|164676333|SUPERIORITY|||||||0.65|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.65
82491321|NCT03855228|164676333|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491322|NCT03855228|164676333|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491323|NCT03855228|164676333|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82591077|NCT01011439|164895845|SUPERIORITY||Single proportion|0.44|||<|0.001|TWO_SIDED|95.0|0.31|0.59|||Fisher Exact|||H0:p\</=17% vs. H1:p\>17%, with an interesting PFS-3 rate of 33% or higher; Power=80%; Alpha(1-sided)=5%, 54 evaluable patients are required for a Simon optimal two stage design trial. If at least 4 successes among the first 17 evaluable patients are observed in the 1st stage, patients' enrollment proceed up to the final analysis where at least 14/54 successes (PFS-3 rate ≥ 25.9%) must be required to reject the null hypothesis.||0.59|0.31|<0.001
82591078|NCT01495858|164895860|SUPERIORITY_OR_OTHER|||||||0.3047|||||||ANCOVA|||||||0.3047
82591079|NCT01495858|164895861|SUPERIORITY_OR_OTHER|||||||0.1677|||||||Log Rank|||||||0.1677
82591080|NCT01495858|164895862|SUPERIORITY_OR_OTHER|||||||0.2764|||||||ANCOVA|||||||0.2764
82591081|NCT01495858|164895863|SUPERIORITY_OR_OTHER|||||||0.2764|||||||ANCOVA|||||||0.2764
82591082|NCT01495858|164895864|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82591083|NCT01495858|164895865|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
82591084|NCT01495858|164895866|SUPERIORITY_OR_OTHER|||||||0.0145|||||||Cochran-Mantel-Haenszel|||||||0.0145
82591085|NCT01495858|164895867|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82591086|NCT01495858|164895868|SUPERIORITY_OR_OTHER|||||||0.0387|||||||Cochran-Mantel-Haenszel|||||||0.0387
82591087|NCT01495858|164895869|SUPERIORITY_OR_OTHER|||||||0.0305|||||||Cochran-Mantel-Haenszel|||||||0.0305
82591088|NCT01495858|164895870|SUPERIORITY_OR_OTHER|||||||0.0176|||||||Cochran-Mantel-Haenszel|||||||0.0176
82591089|NCT01495858|164895871|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82591090|NCT01495858|164895872|SUPERIORITY_OR_OTHER|||||||0.0036|||||||Cochran-Mantel-Haenszel|||||||0.0036
82591091|NCT01495858|164895873|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82591092|NCT01495858|164895874|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82591093|NCT01495858|164895875|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Cochran-Mantel-Haenszel|||||||>0.05
82591094|NCT01495858|164895876|SUPERIORITY_OR_OTHER|||||||0.4519|||||||ANCOVA|||||||0.4519
82591095|NCT01495858|164895877|SUPERIORITY_OR_OTHER|||||||0.3707|||||||ANCOVA|||||||0.3707
82591096|NCT01495858|164895878|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Log Rank|||||||>0.05
82591097|NCT01495858|164895880|SUPERIORITY_OR_OTHER|||||||0.3765|||||||Cochran-Mantel-Haenszel|||||||0.3765
82591098|NCT00718549|164895901|SUPERIORITY|||||||0.028|||||||Log Rank|||||||0.028
82591099|NCT00718549|164895901|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.033||95.0|0.187|0.933|||Cox's proportional hazards regression|||Univariate comparison||0.933|0.187|0.033
82591100|NCT00718549|164895901|SUPERIORITY||Hazard Ratio (HR)|0.052||||0.111|TWO_SIDED|95.0|0.001|1.972|||Cox's proportional hazards model|||Multivariate Comparison||1.972|0.001|0.111
82653738|NCT00266409|165022857|SUPERIORITY_OR_OTHER|||||||0.8318||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.8318
82653739|NCT00266409|165022857|SUPERIORITY_OR_OTHER|||||||0.5375||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.5375
82653740|NCT00266409|165022858|SUPERIORITY_OR_OTHER|||||||0.2186||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2186
82591101|NCT00718549|164895902|SUPERIORITY||Odds Ratio (OR)|3.654||||0.155|TWO_SIDED|95.0|0.674|28.337|||Regression, Logistic|||Week 129: Univariate Comparison||28.337|0.674|0.155
82591102|NCT00718549|164895903|SUPERIORITY||Odds Ratio (OR)|0.625||||0.634|TWO_SIDED|95.0|0.073|4.114|||Regression, Logistic|||Week 129: Univariate comparison||4.114|0.073|0.634
82591103|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.769||||0.752|TWO_SIDED|95.0|0.151|3.92|||Cox's proportional hazards model|||Multivariate Comparison: Age \<60 years versus Age \>/=60 years||3.920|0.151|0.752
82591104|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.068||||0.128|TWO_SIDED|95.0|0.002|2.158|||Cox's proportional hazards model|||Multivariate Comparison: Sex: Female versus Male||2.158|0.002|0.128
82591105|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|2.282||||0.728|TWO_SIDED|95.0|0.022|240.864|||Cox's proportional hazards model|||Multivariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||240.864|0.022|0.728
82591106|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|26.275||||0.048|TWO_SIDED|95.0|1.036|666.708|||Cox's proportional hazards model|||Multivariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||666.708|1.036|0.048
82591107|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.21||||0.417|TWO_SIDED|95.0|0.005|9.1|||Cox's proportional hazards model|||Multivariate Comparison: ZAP-70 Expression Negative versus Positive||9.100|0.005|0.417
82591108|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.197||||0.134|TWO_SIDED|95.0|0.024|1.647|||Cox's proportional hazards model|||Multivariate Comparison: CD38 Expression Negative versus Positive||1.647|0.024|0.134
82591109|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|8.373||||0.426|TWO_SIDED|95.0|0.045|1568.717|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 17p No versus Yes||1568.717|0.045|0.426
82591110|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.438||||0.733|TWO_SIDED|95.0|0.004|50.334|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 13q No versus Yes||50.334|0.004|0.733
82591111|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|2.621||||0.463|TWO_SIDED|95.0|0.2|34.422|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 11q No versus Yes||34.422|0.200|0.463
82591112|NCT00718549|164895904|SUPERIORITY||Hazard Ratio (HR)|0.288||||0.397|TWO_SIDED|95.0|0.016|5.122|||Cox's proportional hazards model|||Multivariate Comparison: Cytogenetic abnormality 12q No versus Yes||5.122|0.016|0.397
82591113|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.982||||0.969|TWO_SIDED|95.0|0.393|2.531|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||2.531|0.393|0.969
82591114|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.552||||0.26|TWO_SIDED|95.0|0.183|1.488|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||1.488|0.183|0.260
82653741|NCT00266409|165022858|SUPERIORITY_OR_OTHER|||||||0.0422||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.0422
82653742|NCT00266409|165022859|SUPERIORITY_OR_OTHER|||||||0.1164||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1164
82653743|NCT00266409|165022859|SUPERIORITY_OR_OTHER|||||||0.1935||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1935
82653744|NCT00266409|165022860|SUPERIORITY_OR_OTHER|||||||0.1244||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.1244
82653745|NCT00266409|165022860|SUPERIORITY_OR_OTHER|||||||0.6182||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.6182
82591115|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.465||||0.121|TWO_SIDED|95.0|0.177|1.242|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||1.242|0.177|0.121
82591116|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.374||||0.045|TWO_SIDED|95.0|0.137|0.957|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||0.957|0.137|0.045
82591117|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|8.809||||0.04|TWO_SIDED|95.0|1.655|163.316|||Regression, Logistic|||Univariate Comparison: ZAP-70 Expression Negative versus Positive||163.316|1.655|0.040
82591118|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.921||||0.887|TWO_SIDED|95.0|0.287|2.851|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||2.851|0.287|0.887
82591119|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.932||||0.936|TWO_SIDED|95.0|0.186|6.839|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 17p No versus Yes||6.839|0.186|0.936
82591120|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|1.88||||0.199|TWO_SIDED|95.0|0.719|5.012|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||5.012|0.719|0.199
82591121|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|1.668||||0.375|TWO_SIDED|95.0|0.566|5.649|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||5.649|0.566|0.375
82591122|NCT00718549|164895905|SUPERIORITY||Odds Ratio (OR)|0.957||||0.961|TWO_SIDED|95.0|0.173|7.275|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||7.275|0.173|0.961
82591123|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|1.31||||0.768|TWO_SIDED|95.0|0.237|10.189|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||10.189|0.237|0.768
82591124|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.667||||0.657|TWO_SIDED|95.0|0.086|3.653|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||3.653|0.086|0.657
82591125|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|1.68||||0.655|TWO_SIDED|95.0|0.229|34.486|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||34.486|0.229|0.655
82591126|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.635||||0.595|TWO_SIDED|95.0|0.117|3.73|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||3.730|0.117|0.595
82591127|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.164|8.102|||Regression, Logistic|||Univariate Comparison: ZAP-70 Expression Negative versus Positive||8.102|0.164|1.000
82591128|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.857||||0.882|TWO_SIDED|95.0|0.093|6.636|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||6.636|0.093|0.882
82591129|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.154||||0.216|TWO_SIDED|95.0|0.005|4.405|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 17p No versus Yes||4.405|0.005|0.216
82591130|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.361||||0.396|TWO_SIDED|95.0|0.017|2.971|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||2.971|0.017|0.396
82591131|NCT00718549|164895906|SUPERIORITY||Odds Ratio (OR)|0.75||||0.776|TWO_SIDED|95.0|0.103|6.572|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||6.572|0.103|0.776
82591132|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|0.528||||0.357|TWO_SIDED|95.0|0.131|2.114|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||2.114|0.131|0.357
82591133|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|0.694||||0.623|TWO_SIDED|95.0|0.138|2.8|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||2.800|0.138|0.623
82591134|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|4.0||||0.097|TWO_SIDED|95.0|0.901|28.158|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||28.158|0.901|0.097
82591135|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|4.2||||0.233|TWO_SIDED|95.0|0.484|89.588|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||89.588|0.484|0.233
82653746|NCT00266409|165022861|SUPERIORITY_OR_OTHER|||||||0.4589||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.4589
82653747|NCT00266409|165022861|SUPERIORITY_OR_OTHER|||||||0.393||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.3930
82591136|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|0.844||||0.826|TWO_SIDED|95.0|0.161|3.681|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||3.681|0.161|0.826
82591137|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|1.067||||0.933|TWO_SIDED|95.0|0.246|5.581|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||5.581|0.246|0.933
82591138|NCT00718549|164895907|SUPERIORITY||Odds Ratio (OR)|0.727||||0.794|TWO_SIDED|95.0|0.08|15.779|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||15.779|0.080|0.794
82591139|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|1.923||||0.591|TWO_SIDED|95.0|0.225|41.751|||Regression, Logistic|||Univariate Comparison: Age \<60 years versus Age \>/=60 years||41.751|0.225|0.591
82591140|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|1.3||||0.796|TWO_SIDED|95.0|0.147|9.222|||Regression, Logistic|||Univariate Comparison: Sex: Female versus Male||9.222|0.147|0.796
82591141|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|3.2||||0.338|TWO_SIDED|95.0|0.375|69.479|||Regression, Logistic|||Univariate Comparison: Beta-2-Microglobulin \>/= Median Value versus Beta-2-Microglobulin \<Median Value||69.479|0.375|0.338
82591142|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|2.333||||0.486|TWO_SIDED|95.0|0.201|29.008|||Regression, Logistic|||Univariate Comparison: CD38 Expression Negative versus Positive||29.008|0.201|0.486
82591143|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|0.667||||0.691|TWO_SIDED|95.0|0.074|4.722|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 13q No versus Yes||4.722|0.074|0.691
82591144|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|1.5||||0.691|TWO_SIDED|95.0|0.212|13.563|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 11q No versus Yes||13.563|0.212|0.691
82591145|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.076|24.621|||Regression, Logistic|||Univariate Comparison: Cytogenetic abnormality 12q No versus Yes||24.621|0.076|1.000
82591146|NCT00718549|164895908|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.099|22.791|||Regression, Logistic|||Univariate Comparison: Rai Stage: I or II versus Rai Stage: III or IV||22.791|0.099|1.000
82591147|NCT01576172|164895928|SUPERIORITY|||||||0.27|||||||Chi-squared|||||||0.27
82591148|NCT01576172|164895929|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|t=-0.39 on 112.7 degrees of freedom (Satterthwaite)||||||0.70
82591149|NCT01576172|164895930|SUPERIORITY|||||||0.51|||||||Chi-squared|||||||0.51
82591150|NCT01576172|164895931|SUPERIORITY|||||||0.99|||||||Log Rank|||||||0.99
82591151|NCT01576172|164895932|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82591152|NCT00766090|164895940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|||<|0.001|TWO_SIDED|95.0|0.064|0.153|||ANCOVA|||||0.153|0.064|<0.001
82591153|NCT00766090|164895940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.098|||<|0.001|TWO_SIDED|95.0|0.054|0.142|||ANCOVA|||||0.142|0.054|<0.001
82591154|NCT00766090|164895940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087||||0.02|TWO_SIDED|95.0|0.014|0.161|||ANCOVA|||||0.161|0.014|0.020
82591155|NCT00766090|164895940|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the lower limit of the confidence interval (0.025, 1-sided significance level) for the mean difference in trough FEV1 of FF 200 µg OD versus FF 100 µg BID was greater than -110 milliliters.|Mean Difference (Final Values)|0.011||||0.641|TWO_SIDED|95.0|-0.035|0.056|||ANCOVA|||||0.056|-0.035|0.641
82591156|NCT00766090|164895940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|||<|0.001|TWO_SIDED|95.0|0.059|0.205|||ANCOVA|||||0.205|0.059|<0.001
82591157|NCT01390272|164895949|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-2.1||||0.26|TWO_SIDED|95.0|-5.9|1.6|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||1.6|-5.9|0.26
82591158|NCT01390272|164895950|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-1.3||||0.5|TWO_SIDED|95.0|-4.9|2.4|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||2.4|-4.9|0.50
82591159|NCT01390272|164895951|NON_INFERIORITY_OR_EQUIVALENCE||Mean Difference (Net)|-1.6||||0.43|TWO_SIDED|95.0|-5.6|2.4|||Mixed Models Analysis|Constrained longitudinal model adjusting for baseline stratification variables of diabetes status and blood pressure control.||||2.4|-5.6|0.43
82591160|NCT01390272|164895953|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.0||||0.83|TWO_SIDED|95.0|0.7|1.6|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 6 months||1.6|0.7|0.83
82653748|NCT00266409|165022862|SUPERIORITY_OR_OTHER|||||||0.445||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.4450
82377496|NCT02370238|164462084|SUPERIORITY|||||||0.767||||||For the All Patients group, p-value was based on a log-rank test stratified by actual sub-populations, newly diagnosed metastatic patients and patients that had relapsed following a prior (neo)adjuvant chemotherapy regimen.|Log Rank|||||||0.767
82491324|NCT03855228|164676333|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491325|NCT03855228|164676333|SUPERIORITY|||||||0.92|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.92
82491326|NCT03855228|164676334|SUPERIORITY|||||||0.95|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.95
82491327|NCT03855228|164676334|SUPERIORITY|||||||0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.01
82491328|NCT03855228|164676334|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491329|NCT03855228|164676334|SUPERIORITY|||||||0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.01
82591161|NCT01390272|164895954|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|0.9||||0.53|TWO_SIDED|95.0|0.5|1.4|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 12 months||1.4|0.5|0.53
82591162|NCT01390272|164895955|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.5||||0.09|TWO_SIDED|95.0|0.9|2.3|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status.||Comparison at 18 months.||2.3|0.9|0.09
82591163|NCT01390272|164895958|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.0||||0.95|TWO_SIDED|95.0|0.7|1.5|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variable of diabetes status and diabetes control.||||1.5|0.7|0.95
82591164|NCT01390272|164895959|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.4||||0.12|TWO_SIDED|95.0|0.9|2.1|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link.Adjusted for baseline stratification variable of diabetes status and blood pressure control.||Comparison at 12 months||2.1|0.9|0.12
82591165|NCT01390272|164895960|NON_INFERIORITY_OR_EQUIVALENCE||Odds Ratio (OR)|1.2||||0.3|TWO_SIDED|95.0|0.8|1.9|||Generalized Estimating Equation|Generalized Estimating Equation with a Logit Link. Adjusted for baseline stratification variables of diabetes status and blood pressure control.||Comparison at 18 months||1.9|0.8|0.30
82653749|NCT00266409|165022862|SUPERIORITY_OR_OTHER|||||||0.2924||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2924
82653750|NCT00266409|165022863|SUPERIORITY_OR_OTHER|||||||0.2184||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A somatic subscore as a covariate|ANCOVA|||||||0.2184
82491330|NCT03855228|164676334|SUPERIORITY||||||<|0.01|||||||ANOVA|||This analysis compares Change From Baseline values.||||<0.01
82491331|NCT03855228|164676334|SUPERIORITY|||||||0.58|||||||ANOVA|||This analysis compares Change From Baseline values.||||0.58
82491332|NCT03855228|164676335|SUPERIORITY|||||||0.29|||||||ANOVA|||||||0.29
82491333|NCT03855228|164676335|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491334|NCT03855228|164676335|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491335|NCT03855228|164676335|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491336|NCT03855228|164676335|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491337|NCT03855228|164676335|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.80
82491338|NCT03855228|164676336|SUPERIORITY|||||||0.41|||||||ANOVA|||||||0.41
82491339|NCT03855228|164676336|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491340|NCT03855228|164676336|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491341|NCT03855228|164676336|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491342|NCT03855228|164676336|SUPERIORITY||||||<|0.01|||||||ANOVA|||||||<0.01
82491343|NCT03855228|164676336|SUPERIORITY|||||||0.08|||||||ANOVA|||||||0.08
82491344|NCT03104543|164676342|SUPERIORITY||Risk Ratio (RR)|0.99||||0.05|TWO_SIDED|95.0|0.67|1.45|||Generalized estimating equation|||||1.45|0.67|.05
82491345|NCT03104543|164676345|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.05|TWO_SIDED|95.0|-0.47|0.28|||t-test, 2 sided|||||0.28|-0.47|.05
82491346|NCT00806351|164676364|SUPERIORITY_OR_OTHER||Risk Difference|-27.3|||||TWO_SIDED|95.0|-80.9|40.3||||||The 95 percent confidence interval (95% CI) was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||40.3|-80.9|
82491347|NCT00806351|164676365|SUPERIORITY_OR_OTHER||Risk Difference|-27.3|||||TWO_SIDED|95.0|-80.9|40.3||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||40.3|-80.9|
82591166|NCT04666350|164895963|OTHER||Combined Difference in Prevalence|-0.025||||0.711|TWO_SIDED|95.0|-0.16|0.109|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DSFA Day 2 versus Day 1. For each participant, the difference in oocyte prevalence using DSFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.109|-0.160|0.711
82591167|NCT04666350|164895963|OTHER||Combined Difference in Prevalence|-0.016||||0.795|TWO_SIDED|95.0|-0.139|0.107|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DMFA Day 2 versus Day 1. For each participant, the difference in oocyte prevalence using DMFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.107|-0.139|0.795
82591168|NCT04666350|164895964|OTHER||Relative Rate|0.38||||0.019|TWO_SIDED|95.0|0.21|0.7||Difference between days was evaluated using zero inflated Poisson regression models having as outcome the number of oocysts, as offset the number of surviving mosquitoes, and adjusted by subject.|Poisson Regression|||Comparison of DSFA Day 2 versus Day 1.||0.70|0.21|0.019
82591169|NCT04666350|164895964|OTHER||Relative Rate|0.23||||0.003|TWO_SIDED|95.0|0.11|0.45||Difference between days was evaluated using zero inflated Poisson regression models having as outcome the number of oocysts, as offset the number of surviving mosquitoes, and adjusted by subject.|Poisson Regression|||Comparison of DMFA Day 2 versus Day 1.||0.45|0.11|0.003
82491348|NCT00806351|164676366|SUPERIORITY_OR_OTHER||Risk Difference|-40.0|||||TWO_SIDED|95.0|-97.5|63.9||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||63.9|-97.5|
82491349|NCT00806351|164676367|SUPERIORITY_OR_OTHER||Risk Difference|-50.0|||||TWO_SIDED|95.0|-97.5|55.0||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||55.0|-97.5|
82491350|NCT00806351|164676372|SUPERIORITY_OR_OTHER||Risk Difference|-36.4|||||TWO_SIDED|95.0|-90.6|31.9||||||The 95% CI was calculated using the method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||31.9|-90.6|
82491351|NCT01435603|164676414|SUPERIORITY||Slope|-1.273||||0.017|TWO_SIDED||||||Regression, Linear|||||||0.017
82491352|NCT01681472|164676426|SUPERIORITY|||||||0.0323|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0323
82653751|NCT00266409|165022863|SUPERIORITY_OR_OTHER|||||||0.1281||95.0||||P-value based on an ANCOVA model with treatment as a fixed effect and baseline HAMA-A psychic factors subscore as a covariate|ANCOVA|||||||0.1281
82491353|NCT01681472|164676426|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
82491354|NCT01681472|164676426|SUPERIORITY|||||||0.8622|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.8622
82491355|NCT01681472|164676426|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82491356|NCT01681472|164676426|SUPERIORITY|||||||0.0074|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0074
82491357|NCT01681472|164676426|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in tumor tissue was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
82491358|NCT01681472|164676427|SUPERIORITY|||||||0.148|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1480
82653752|NCT00266409|165022864|SUPERIORITY_OR_OTHER|||||||0.6602||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.6602
82653753|NCT00266409|165022865|SUPERIORITY_OR_OTHER|||||||0.5544||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5544
82653754|NCT00266409|165022866|SUPERIORITY_OR_OTHER|||||||0.9269||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.9269
82491359|NCT01681472|164676427|SUPERIORITY|||||||0.0034|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0034
82491360|NCT01681472|164676427|SUPERIORITY|||||||0.0177|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0177
82653755|NCT00266409|165022867|SUPERIORITY_OR_OTHER|||||||0.5271||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5271
82653756|NCT00266409|165022868|SUPERIORITY_OR_OTHER|||||||0.1447||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.1447
82653757|NCT00266409|165022869|SUPERIORITY_OR_OTHER|||||||0.9375||95.0||||P-value from a Chi-squared test|Chi-squared|||||||0.9375
82653758|NCT00266409|165022870|SUPERIORITY_OR_OTHER|||||||0.9883||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.9883
82591170|NCT04666350|164895965|OTHER||Combined Difference in Prevalence|-0.023||||0.75|TWO_SIDED|95.0|-0.164|0.118|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DSFA Day 2 versus Day 1. For each participant, the difference in sporozoite prevalence using DSFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.118|-0.164|0.750
82591171|NCT04666350|164895965|OTHER||Combined Difference in Prevalence|-0.031||||0.681|TWO_SIDED|95.0|-0.178|0.117|||Other|The p-value is estimated assuming the combined difference over the square root of the weighted variance follows a normal distribution.||Comparison of DMFA Day 2 versus Day 1. For each participant, the difference in sporozoite prevalence using DMFA on Day 1 versus Day 2 was estimated. To evaluate the hypothesis that the average mean difference in the prevalence between two assays within the same subject is zero, combined estimates (weighted mean and variance) were obtained using as weight the inverse of the variance of each paired difference obtained from the Agresti and Caffo method.||0.117|-0.178|0.681
82591172|NCT00955279|164895970|SUPERIORITY_OR_OTHER|||||||0.543|||||||ANCOVA|||||||0.543
82591173|NCT00955279|164895970|SUPERIORITY_OR_OTHER|||||||0.126|||||||ANCOVA|||||||0.126
82591174|NCT00955279|164895971|SUPERIORITY_OR_OTHER|||||||0.896|||||||Linear Contrasts Test|||||||0.896
82591175|NCT00955279|164895971|SUPERIORITY_OR_OTHER|||||||0.063|||||||Linear Contrasts Test|||||||0.063
82591176|NCT00955279|164895972|SUPERIORITY_OR_OTHER|||||||0.374|||||||Linear Contrasts Test|||||||0.374
82499899|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|||||TWO_SIDED|95.0|-13.6|8.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||8.5|-13.6|
82591177|NCT00955279|164895972|SUPERIORITY_OR_OTHER|||||||0.073|||||||Linear Contrasts Test|||||||0.073
82591178|NCT00955279|164895973|SUPERIORITY_OR_OTHER|||||||0.1931|||||||Fisher Exact|||||||0.1931
82591179|NCT00955279|164895973|SUPERIORITY_OR_OTHER|||||||0.2772|||||||Fisher Exact|||||||0.2772
82591180|NCT00955279|164895974|SUPERIORITY_OR_OTHER|||||||0.451|||||||Linear Contrast Test|||||||0.451
82591181|NCT00955279|164895974|SUPERIORITY_OR_OTHER|||||||0.546|||||||Linear Contrast Test|||||||0.546
82591182|NCT01159912|164895977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.146||||0.009|TWO_SIDED|95.0|0.036|0.257|||ANCOVA|||||0.257|0.036|0.009
82591183|NCT01159912|164895977|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.145||||0.011|TWO_SIDED|95.0|0.033|0.257|||ANCOVA|||||0.257|0.033|0.011
82591184|NCT02456662|164895987|SUPERIORITY|Based on previous work as well as anecdotal data from our clinic population, we expect vomiting to occur in approximately 30% of our patients who take their doxycycline the night before their procedure. To have 80% power to detect a 50% decrease in nausea and vomiting, we will need 122 patients in each arm of the study.||||||0|||||||Chi-squared|||||||0.00
82591185|NCT02374021|164895994|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.79|TWO_SIDED|95.0|-0.19|0.15|||ANCOVA|||||0.15|-0.19|0.79
82591186|NCT02374021|164895995|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.05|TWO_SIDED|95.0|-0.14|0.17|||ANCOVA|||||0.17|-0.14|0.05
82591187|NCT02374021|164895996|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.05|TWO_SIDED|95.0|-0.11|0.18|||ANCOVA|||||0.18|-0.11|0.05
82591188|NCT02374021|164895997|SUPERIORITY||Mean Difference (Final Values)|-0.003||||0.05|TWO_SIDED|95.0|-0.2|0.19|||ANCOVA|||||0.19|-0.20|0.05
82591189|NCT02374021|164895998|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.05|TWO_SIDED|95.0|-0.17|0.16|||ANCOVA|||||0.16|-0.17|0.05
82591190|NCT04376827|164896132|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.7807|TWO_SIDED|80.0|0.27|1.41|||log-rank test||Hazard ratio and 80% CI: estimated by Cox proportional hazards model adjusting for baseline UPCR level (\<3 mg/mg and \>=3 mg/mg).|||1.41|0.27|0.7807
82591191|NCT04376827|164896133|SUPERIORITY||Hazard Ratio (HR)|1.52||||0.4654|TWO_SIDED|80.0|0.62|3.85|||long-rank test||Hazard ratio and 80% CI: estimated by Cox proportional hazards model adjusting for baseline UPCR level (\<3 mg/mg and \>=3 mg/mg).|||3.85|0.62|0.4654
82591192|NCT00683163|164896204|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.82|TWO_SIDED|95.0|-11.5|9.2|||t-test, 2 sided|||Mean difference in percent change from baseline (Concurrent - Sequential)||9.2|-11.5|0.82
82653759|NCT00266409|165022871|SUPERIORITY_OR_OTHER|||||||0.3093||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.3093
82653760|NCT00266409|165022872|SUPERIORITY_OR_OTHER|||||||0.5824||95.0|||||Chi-squared|||test of difference in percentage of subjects reporting any panic attack||||0.5824
82653761|NCT00266409|165022873|SUPERIORITY_OR_OTHER|||||||0.044||95.0|||||Generalized Wilcoxon Test|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.044
82653762|NCT00266409|165022873|SUPERIORITY_OR_OTHER|||||||0.6587||95.0|||||Generalized Wilcoxon Test|||This analysis refers to the test of the null hypothesis that there is no difference in the survival distribution function between the treatment groups.||||0.6587
82653763|NCT00698685|165022882|SUPERIORITY_OR_OTHER||actuarial probability of engraftment|70.0||||||95.0|||||||Actuarial probability of engraftment at day +100 is calculated according to the product-limit estimate method.|||||
82653764|NCT04128007|165022907|SUPERIORITY||Odds Ratio (OR)|14.65|||<|0.0001|TWO_SIDED|95.0|6.64|32.32|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|S-IGA Success at Week 8 Odds Ratio||32.32|6.64|<0.0001
82591193|NCT00525044|164896219|OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.028||0.0156|TWO_SIDED|95.0|-0.12|-0.01|||ANOVA||Treatment differences (Ambroxol- Placebo)|"Differences between the treatment groups with regard to the primary endpoint SPIDnorm was tested using an analysis of variance (ANOVA) including treatment and centre as fix effects.~Treatment differences were estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.01|-0.12|0.0156
82591194|NCT00525044|164896220|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 30 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0|-0.4|0.1280
82591195|NCT00525044|164896220|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0417|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 60 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.0417
82591196|NCT00525044|164896220|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0054|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 120 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.1|-0.6|0.0054
82591197|NCT00525044|164896220|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0201|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 180 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.6|0.0201
82591198|NCT00525044|164896221|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.128|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo)|"Analysis at 30 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.1280
82591199|NCT00525044|164896221|OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0417|TWO_SIDED|95.0|-0.4|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 60 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.4|0.0417
82591200|NCT00525044|164896221|OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0054|TWO_SIDED|95.0|-0.6|-0.1|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 120 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||-0.1|-0.6|0.0054
82591201|NCT00525044|164896221|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0201|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA||Treatment differences (Ambroxol- Placebo|"Analysis at 180 min:~analysis of covariance (ANCOVA) including treatment and centre as fix effects and baseline as covariable are presented. Treatment differences are estimated by reference to the adjusted least squares mean differences and the corresponding 95 % confidence intervals."||0.0|-0.6|0.0201
82591202|NCT00525044|164896222|OTHER|||||||0.9939|||||||Mantel Haenszel|||"Analysis at day 1:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.9939
82591203|NCT00525044|164896222|OTHER|||||||0.5552|||||||Mantel Haenszel|||"Analysis at day 2:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.5552
82591204|NCT00525044|164896223|OTHER|||||||0.0343|||||||Mantel Haenszel|||"Analysis at day 1:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.0343
82591205|NCT00525044|164896223|OTHER|||||||0.0119|||||||Mantel Haenszel|||"Analysis at day 2:~P-value was calculated by the Cochran-Mantel-Haenszel test adjusting for center."||||0.0119
82591206|NCT02142738|164896224|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.5|||<|0.001|TWO_SIDED|95.0|0.37|0.68||One-sided p-value based on log-rank test|Regression, Cox|Treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||||0.68|0.37|<0.001
82591207|NCT02142738|164896225|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.002|TWO_SIDED|95.0|0.47|0.86||One-sided p-value based on log-rank test|Regression, Cox|Treatment as a covariate stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||||0.86|0.47|0.002
82591208|NCT02142738|164896226|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|16.6||||0.0011|TWO_SIDED|95.0|6.0|27.0||One-sided p-value for testing|Miettinen & Nurminem method|Stratified by geographic region (East Asia vs. non-East Asia), ECOG PS (0 vs. 1) and histology (squamous vs. nonsquamous)||H0: difference in %=0 vs. H1: difference in % \>0||27.0|6.0|0.0011
82591209|NCT01704287|164896237|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1); lactate dehydrogenase (LDH) levels (normal vs. elevated LDH levels \[≥110% Upper Limit of Normal (ULN)\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|||0.73|0.46|<0.0001
82591210|NCT01704287|164896237|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.47|||<|0.0001|TWO_SIDED|95.0|0.37|0.6||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|||0.60|0.37|<0.0001
82591211|NCT01704287|164896237|SUPERIORITY_OR_OTHER_LEGACY|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)|Hazard Ratio (HR)|0.83||||0.1247|TWO_SIDED|95.0|0.66|1.05||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|||1.05|0.66|0.1247
82591212|NCT01704287|164896238|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.1173|TWO_SIDED|95.0|0.67|1.1||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.10|0.67|0.1173
82591213|NCT01704287|164896238|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.74||||0.0106|TWO_SIDED|95.0|0.57|0.96||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.96|0.57|0.0106
82591214|NCT01704287|164896238|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87||||0.2905|TWO_SIDED|95.0|0.67|1.12||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.12|0.67|0.2905
82591215|NCT01704287|164896239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.86||||0.1146|TWO_SIDED|95.0|0.68|1.1||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.10|0.68|0.1146
82591216|NCT01704287|164896239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.0023|TWO_SIDED|95.0|0.55|0.9||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.90|0.55|0.0023
82591217|NCT01704287|164896239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.84||||0.149|TWO_SIDED|95.0|0.66|1.07||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.07|0.66|0.1490
82591218|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1-Positive Participants|Hazard Ratio (HR)|0.92||||0.3113|TWO_SIDED|95.0|0.66|1.28||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.28|0.66|0.3113
82591219|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Positive Participants|Hazard Ratio (HR)|0.7||||0.0208|TWO_SIDED|95.0|0.5|0.99||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||0.99|0.50|0.0208
82591220|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Positive Participants|Hazard Ratio (HR)|0.71||||0.0496|TWO_SIDED|95.0|0.5|1.0||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.00|0.50|0.0496
82653765|NCT04128007|165022908|SUPERIORITY||Odds Ratio (OR)|8.8|||<|0.0001|TWO_SIDED|95.0|3.65|21.18|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|B-IGA Success at Week 8 Odds Ratio||21.18|3.65|<0.0001
82653766|NCT04128007|165022909|SUPERIORITY||Odds Ratio (OR)|4.06|||<|0.0001|TWO_SIDED|95.0|2.14|7.71|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 2 Odds Ratio||7.71|2.14|<0.0001
82591221|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|1.07||||0.6043|TWO_SIDED|95.0|0.65|1.76||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 2 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.76|0.65|0.6043
82591222|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|0.62||||0.0335|TWO_SIDED|95.0|0.37|1.04||One-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=ICC|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.04|0.37|0.0335
82591223|NCT01704287|164896240|SUPERIORITY_OR_OTHER_LEGACY|PD-L1 Negative Participants|Hazard Ratio (HR)|0.71||||0.1504|TWO_SIDED|95.0|0.44|1.13||Two-sided p-value based on stratified log rank test|Log Rank||Numerator=Pembrolizumab 10 mg/kg Denominator=Pembrolizumab 2 mg/kg|Cox regression model with treatment as covariate stratified by ECOG performance status (0 vs. 1); LDH levels (normal vs. elevated LDH levels \[≥110% ULN\]); \& BRAF mutational status (mutant vs. wild-type)||1.13|0.44|0.1504
82591224|NCT02615470|164896247|SUPERIORITY||||||=|0.202||||||A priori alpha = 0.05|Wilcoxon (Mann-Whitney)|||||||=0.202
82591225|NCT02615470|164896248|SUPERIORITY|||||||0.048|||||||Wilcoxon (Mann-Whitney)|||||||0.048
82591226|NCT02615470|164896249|SUPERIORITY||||||=|0.322||||||a priori alpha = 0.05|Wilcoxon (Mann-Whitney)|||||||=0.322
82591227|NCT01817907|164896271|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||||||0.52
82591228|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.9|||||TWO_SIDED|95.0|1.58|2.28||||||A/H1N1: 60-64 years||2.28|1.58|
82591229|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.7|||||TWO_SIDED|95.0|1.38|2.08||||||A/H3N2: 60-64 years||2.08|1.38|
82591230|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.51|||||TWO_SIDED|95.0|1.3|1.74||||||B1: 60-64 years||1.74|1.30|
82591231|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.77|||||TWO_SIDED|95.0|1.53|2.04||||||B2: 60-64 years||2.04|1.53|
82591232|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.76|||||TWO_SIDED|95.0|1.44|2.15||||||A/H1N1: \>=65 years||2.15|1.44|
82591233|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|2.15|||||TWO_SIDED|95.0|1.74|2.65||||||A/H3N2: \>=65 years||2.65|1.74|
82591234|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.55|||||TWO_SIDED|95.0|1.34|1.79||||||B1: \>=65 years||1.79|1.34|
82591235|NCT04024228|164896286|SUPERIORITY|Superiority of GMTs was concluded if the lower limit of the 2-sided 95% CI for the ratio of GMTs was above 1 between groups for each of the comparisons.|GMT ratio|1.76|||||TWO_SIDED|95.0|1.52|2.03||||||B2: \>=65 years||2.03|1.52|
82653767|NCT04128007|165022909|SUPERIORITY||Odds Ratio (OR)|5.36|||<|0.0001|TWO_SIDED|95.0|2.93|9.78||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 4 Odds Ratio||9.78|2.93|<0.0001
82591236|NCT01540825|164896395|SUPERIORITY_OR_OTHER||Slope|1.2472|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|1.1831|1.3112|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually the Standard Error of the slope|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 (powder in bottle (PIB)) for Cmax was analysed.||1.3112|1.1831|
82591237|NCT01540825|164896397|SUPERIORITY_OR_OTHER||Slope|1.1626|STANDARD_ERROR_OF_MEAN|0.0215|||TWO_SIDED|95.0|1.1195|1.2057|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually Standard Error of the slope|This was non confirmatory testing (Single dose). Dose proportionality of BI 113608 (PIB) for AUC 0- tz was analysed.||1.2057|1.1195|
82591238|NCT01540825|164896398|SUPERIORITY_OR_OTHER||Slope|1.151|STANDARD_ERROR_OF_MEAN|0.0215|||TWO_SIDED|95.0|1.108|1.1941|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale. Standard Error of the mean is actually Standard Error of the slope|This was non confirmatory testing (Single dose).Dose proportionality of BI 113608 (PIB) for AUC0-inf was analysed||1.1941|1.1080|
82591239|NCT00709111|164896404|SUPERIORITY_OR_OTHER|||||||0.97||||||The p-value is one-sided with a nominal level of 0.05.|Wilcoxon signed-rank, 1-sided|||The change in CD4+ T-cell count from baseline to week 24 was compared against the null hypothesis of change \<20 cells/mm\^3. The study was powered to yield 80% power to show that there was \>=20 cells/mm\^3 increase in CD4+ T-cell count assuming an underlying change in CD4+ T-cell counts induced by MVC of 50 cells/mm\^3, a standard deviation of 60 cells/mm\^3 around the mean CD4+ T-cell count change, 10% lost-to-follow-up or premature MVC discontinuation rate, and one-sided type 1 error of 0.05.||||0.97
82591240|NCT01301456|164896465|SUPERIORITY_OR_OTHER||Least square (LS) mean|-21.16|STANDARD_ERROR_OF_MEAN|16.766||0.219|TWO_SIDED|80.0|-43.26|0.93|||Mixed meal tolerance test|||Day 30||0.93|-43.26|0.219
82591241|NCT01301456|164896465|SUPERIORITY_OR_OTHER||LS mean|-34.18|STANDARD_ERROR_OF_MEAN|15.189||0.034|TWO_SIDED|80.0|-54.2|-14.16|||Mixed meal tolerance test|||Day 30||-14.16|-54.20|0.034
82591242|NCT01301456|164896465|SUPERIORITY_OR_OTHER||LS mean|-33.67|STANDARD_ERROR_OF_MEAN|15.806||0.044|TWO_SIDED|80.0|-54.5|-12.84|||Mixed meal tolerance test|||Day 30||-12.84|-54.50|0.044
82591243|NCT01301456|164896465|SUPERIORITY_OR_OTHER||LS mean|-2.93|STANDARD_ERROR_OF_MEAN|16.111||0.857|TWO_SIDED|80.0|-24.16|18.31|||Mixed meal tolerance test|||Day 30||18.31|-24.16|0.857
82591244|NCT01301456|164896466|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.251||0.419|TWO_SIDED|80.0|-0.54|0.12|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.12|-0.54|0.419
82591245|NCT01301456|164896466|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.224||0.077|TWO_SIDED|80.0|-0.71|-0.12|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.12|-0.71|0.077
82591246|NCT01301456|164896466|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.23||0.147|TWO_SIDED|80.0|-0.65|-0.04|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.04|-0.65|0.147
82653768|NCT04128007|165022909|SUPERIORITY||Odds Ratio (OR)|9.74|||<|0.0001|TWO_SIDED|95.0|5.02|18.89||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|SI-NRS Success at Week 8 Odds Ratio||18.89|5.02|<0.0001
82499945|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.7|||||TWO_SIDED|95.0|-94.0|-33.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at Month 12||-33.1|-94.0|
82591247|NCT01301456|164896466|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.244||0.086|TWO_SIDED|80.0|-0.76|-0.11|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.11|-0.76|0.086
82591248|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|4.11|STANDARD_ERROR_OF_MEAN|9.326||0.663|TWO_SIDED|80.0|-8.16|16.37|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||16.37|-8.16|0.663
82591249|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.89|STANDARD_ERROR_OF_MEAN|8.472||0.825|TWO_SIDED|80.0|-13.03|9.25|||mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.25|-13.03|0.825
82591250|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|1.36|STANDARD_ERROR_OF_MEAN|8.791||0.878|TWO_SIDED|80.0|-10.2|12.92|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||12.92|-10.20|0.878
82591251|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|0.72|STANDARD_ERROR_OF_MEAN|8.829||0.936|TWO_SIDED|80.0|-10.89|12.33|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||12.33|-10.89|0.936
82591252|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|STANDARD_ERROR_OF_MEAN|13.037||0.959|TWO_SIDED|80.0|-16.46|17.82|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||17.82|-16.46|0.959
82591253|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.46|STANDARD_ERROR_OF_MEAN|11.872||0.011|TWO_SIDED|80.0|-48.07|-16.85|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-16.85|-48.07|0.011
82591254|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.61|STANDARD_ERROR_OF_MEAN|12.212||0.833|TWO_SIDED|80.0|-18.67|13.45|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||13.45|-18.67|0.833
82591255|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|12.365||0.565|TWO_SIDED|80.0|-23.47|9.05|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.05|-23.47|0.565
82591256|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.75|STANDARD_ERROR_OF_MEAN|9.713||0.703|TWO_SIDED|80.0|-16.52|9.02|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||9.02|-16.52|0.703
82653769|NCT04128007|165022910|SUPERIORITY||Least Squares Mean Difference|-19.6|||<|0.0001|TWO_SIDED|95.0|-27.4|-11.8|||ANCOVA|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|Comparison of Week 4 Change from Baseline||-11.8|-27.4|<0.0001
82591257|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.46|STANDARD_ERROR_OF_MEAN|8.827||0.008|TWO_SIDED|80.0|-37.07|-13.85|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-13.85|-37.07|0.008
82591258|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.6|STANDARD_ERROR_OF_MEAN|9.061||0.253|TWO_SIDED|80.0|-22.51|1.32|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.32|-22.51|0.253
82591259|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.47|STANDARD_ERROR_OF_MEAN|9.198||0.128|TWO_SIDED|80.0|-26.57|-2.38|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-2.38|-26.57|0.128
82591260|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.15|STANDARD_ERROR_OF_MEAN|11.421||0.196|TWO_SIDED|80.0|-30.17|-0.13|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-0.13|-30.17|0.196
82591261|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.17|STANDARD_ERROR_OF_MEAN|10.393||0.012|TWO_SIDED|80.0|-41.84|-14.51|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-14.51|-41.84|0.012
82591262|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.48|STANDARD_ERROR_OF_MEAN|10.773||0.047|TWO_SIDED|80.0|-36.65|-8.32|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-8.32|-36.65|0.047
82591263|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.63|STANDARD_ERROR_OF_MEAN|11.837||0.023|TWO_SIDED|80.0|-44.19|-13.06|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||-13.06|-44.19|0.023
82591264|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|5.08|STANDARD_ERROR_OF_MEAN|13.576||0.711|TWO_SIDED|80.0|-12.77|22.93|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||22.93|-12.77|0.711
82591265|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|12.365||0.666|TWO_SIDED|80.0|-10.86|21.66|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||21.66|-10.86|0.666
82591266|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.05|STANDARD_ERROR_OF_MEAN|12.333||0.807|TWO_SIDED|80.0|-19.27|13.17|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||13.17|-19.27|0.807
82591267|NCT01301456|164896468|SUPERIORITY_OR_OTHER||LS Mean Difference|6.79|STANDARD_ERROR_OF_MEAN|12.877||0.603|TWO_SIDED|80.0|-10.15|23.72|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||23.72|-10.15|0.603
82591268|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.48|STANDARD_ERROR_OF_MEAN|0.551||0.387|TWO_SIDED|80.0|-0.24|1.21|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.21|-0.24|0.387
82591269|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|0.501||0.309|TWO_SIDED|80.0|-0.14|1.18|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.18|-0.14|0.309
82591270|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.518||0.956|TWO_SIDED|80.0|-0.71|0.65|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.65|-0.71|0.956
82653770|NCT04128007|165022910|SUPERIORITY||Least Squares Mean Difference|-27.5|||<|0.0001|TWO_SIDED|95.0|-35.5|-19.5|||ANCOVA|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|ANCOVA with country; treatment; and baseline S-IGA, B-IGA, and PSD scores as independent variables with multiple imputation of missing data.|Comparison of Week 8 Change from Baseline||-19.5|-35.5|<0.0001
82653771|NCT04128007|165022911|SUPERIORITY||Hazard Ratio (HR)|3.94|||<|0.0001|TWO_SIDED|95.0|2.764|5.616||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization.|Log Rank||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization.|Time to PSSI-50 Hazard Ratio||5.616|2.764|<0.0001
82653772|NCT04128007|165022912|SUPERIORITY||Odds Ratio (OR)|9.46|||<|0.0001|TWO_SIDED|95.0|4.81|18.61||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Cochran-Mantel-Haenszel||Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|PSSI-75 at Week 8 Odds Ratio||18.61|4.81|<0.0001
82653773|NCT04128007|165022913|SUPERIORITY||Odds Ratio (OR)|34.45|||<|0.0001|TWO_SIDED|95.0|8.49|139.77|||Cochran-Mantel-Haenszel|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|Stratified by country, baseline S-IGA, and baseline B-IGA per randomization with multiple imputation of missing data.|PSSI-90 at Week 8 Odds Ratio||139.77|8.49|<0.0001
82491361|NCT01681472|164676427|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
82491362|NCT01681472|164676427|SUPERIORITY|||||||0.0019|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0019
82491363|NCT01681472|164676427|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6R\]-5,10-methylene-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0118
82491364|NCT01681472|164676428|SUPERIORITY|||||||0.1182|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1182
82491365|NCT01681472|164676428|SUPERIORITY|||||||0.0538|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0538
82491366|NCT01681472|164676428|SUPERIORITY|||||||0.5244|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5244
82491367|NCT01681472|164676428|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
82491368|NCT01681472|164676428|SUPERIORITY|||||||0.0313|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0313
82591271|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.96|STANDARD_ERROR_OF_MEAN|0.542||0.089|TWO_SIDED|80.0|0.24|1.67|||Mixed meal tolerance test|||Day 8: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.67|0.24|0.089
82653774|NCT02566135|165022922|OTHER||Risk Ratio (RR)|1.4628||||0.5033|TWO_SIDED|95.0|0.6401|3.3428|||Chi-squared, Corrected|||Chi square test was applied to see weather there is a statistical significant difference between group I and group C for attempt for supraglottic airway insertion.||3.3428|0.6401|0.5033
82653775|NCT02566135|165022923|OTHER||Risk Ratio (RR)|0.8972|||>|0.05|TWO_SIDED|95.0|0.4858|1.6569|||Chi-squared, Corrected|||We had applied chi square to see the statistical significant difference between group I and group C for number of attempt for ventilating bougie insertion.||1.6569|0.4858|>0.05
82653776|NCT02566135|165022924|OTHER||||||>|0.05|||||||Chi-squared, Corrected|||||||>0.05
82653777|NCT02566135|165022925|OTHER|||||||0.44|||||||t-test, 2 sided|||Heart rate beats per minute measured at base line among the group I and group C.||||0.44
82653778|NCT02566135|165022925|OTHER|||||||0.58|||||||t-test, 2 sided|||Heart rate beats per minute is measured following Dexmedetomidine injection among the group I and group C.||||0.58
82591272|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73|STANDARD_ERROR_OF_MEAN|0.923||0.434|TWO_SIDED|80.0|-0.48|1.95|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.95|-0.48|0.434
82591273|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.25|STANDARD_ERROR_OF_MEAN|0.841||0.15|TWO_SIDED|80.0|0.14|2.35|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.35|0.14|0.150
82591274|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.27|STANDARD_ERROR_OF_MEAN|0.861||0.752|TWO_SIDED|80.0|-0.86|1.41|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.41|-0.86|0.752
82591275|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|STANDARD_ERROR_OF_MEAN|0.888||0.492|TWO_SIDED|80.0|-0.55|1.79|||Mixed meal tolerance test|||Day 15: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.79|-0.55|0.492
82591276|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.064||0.358|TWO_SIDED|80.0|-0.4|2.4|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.40|-0.40|0.358
82591277|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS mean Difference|1.6|STANDARD_ERROR_OF_MEAN|0.97||0.11|TWO_SIDED|80.0|0.33|2.88|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.88|0.33|0.110
82591278|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS mean Difference|0.74|STANDARD_ERROR_OF_MEAN|0.993||0.461|TWO_SIDED|80.0|-0.56|2.05|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.05|-0.56|0.461
82591279|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS mean Difference|1.11|STANDARD_ERROR_OF_MEAN|1.021||0.286|TWO_SIDED|80.0|-0.23|2.45|||Mixed meal tolerance test|||Day 22: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.45|-0.23|0.286
82591280|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|1.172||0.362|TWO_SIDED|80.0|-0.45|2.63|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.63|-0.45|0.362
82653779|NCT02566135|165022925|OTHER|||||||0.16|||||||t-test, 2 sided|||Heart rate beats per minute measured following induction of anaesthesia among the group I and group C.||||0.16
82591281|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.48|STANDARD_ERROR_OF_MEAN|1.069||0.179|TWO_SIDED|80.0|0.07|2.88|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.88|0.07|0.179
82591282|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06|STANDARD_ERROR_OF_MEAN|1.092||0.342|TWO_SIDED|80.0|-0.38|2.49|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.49|-0.38|0.342
82591283|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.27|STANDARD_ERROR_OF_MEAN|1.129||0.272|TWO_SIDED|80.0|-0.22|2.75|||Mixed meal tolerance test|||Day 29: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.75|-0.22|0.272
82591284|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|1.317||0.979|TWO_SIDED|80.0|-1.77|1.7|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||1.70|-1.77|0.979
82591285|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.201||0.568|TWO_SIDED|80.0|-2.27|0.88|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||0.88|-2.27|0.568
82591286|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24|STANDARD_ERROR_OF_MEAN|1.201||0.311|TWO_SIDED|80.0|-0.34|2.82|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.82|-0.34|0.311
82591287|NCT01301456|164896470|SUPERIORITY_OR_OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|1.26||0.71|TWO_SIDED|80.0|-1.18|2.13|||Mixed meal tolerance test|||Day 50: Repeated measures analysis of change is performed with change from baseline as dependent variable, treatment as a factor and baseline as covariate.||2.13|-1.18|0.710
82591288|NCT01488279|164896476|SUPERIORITY||Mean Difference (Net)|-10.8|STANDARD_ERROR_OF_MEAN|480.8||0.983|TWO_SIDED|95.0|-1147.6|1126.0|||ANOVA|||2X2 crossover design with baseline values. To compare the means between Sitagliptin and Placebo, a sequential three step testing process used. The results of the third step, the direct treatment comparisons are presented.||1126.0|-1147.6|.983
82591289|NCT01488279|164896479|SUPERIORITY||Mean Difference (Net)|-0.008|STANDARD_ERROR_OF_MEAN|1.935||0.997|TWO_SIDED|95.0|-4.585|4.568|||ANOVA|||||4.568|-4.585|.997
82591290|NCT01488279|164896480|SUPERIORITY||Mean Difference (Net)|-38.9|STANDARD_ERROR_OF_MEAN|49.9||0.46|TWO_SIDED|95.0|-156.9|79.0|||ANOVA|||||79.0|-156.9|.460
82591291|NCT01338415|164896525|OTHER||Hazard Ratio (HR)|1.438|||||TWO_SIDED|95.0|0.47|4.399|||Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with treatment as covariate (treatment-only univariate model)||4.399|0.470|
82653780|NCT02566135|165022925|OTHER|||||||0.22|||||||t-test, 2 sided|||Heart rate beats per minute measured following supraglottic airway insertion among the group I and group C.||||0.22
82653781|NCT02566135|165022925|OTHER|||||||0.059|||||||t-test, 2 sided|||Heart rate beats per minute measured following ventilating bougie insertion among the group I and group C.||||0.059
82653782|NCT02566135|165022925|OTHER||||||>|0.33|||||||t-test, 2 sided|||Heart rate beats per minute measured at endotracheal intubation among the group I and group C.||||>0.33
82653783|NCT02566135|165022925|OTHER|||||||0.63|||||||t-test, 2 sided|||Heart rate beats per minute measured after 3 minute of ETT insertion among the group I and group C.||||0.63
82653784|NCT02566135|165022925|OTHER|||||||0.29|||||||t-test, 2 sided|||Heart rate beats per minute measured after 5 minute of ETT insertion among the group I and group C.||||0.29
82653785|NCT02566135|165022925|OTHER|||||||0.18|||||||t-test, 2 sided|||Heart rate beats per minute measured after 7 minute of ETT insertion among the group I and group C.||||0.18
82591292|NCT01338415|164896525|OTHER|||||||0.0526||||||p-value \<= 10% indicates that the covariate WHO FC at baseline is related to the time to PAH worsening|Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with WHO FC at baseline (FC III vs FC I/II) as covariate||||0.0526
82591293|NCT01338415|164896525|OTHER||Hazard Ratio (HR)|1.169||||||95.0|0.371|3.681|||Regression, Cox|||Post-hoc analysis: Treatment Hazard Ratio (HR) in the multivariate model with treatment and WHO FC at baseline as covariates||3.681|0.371|
82591294|NCT01338415|164896525|SUPERIORITY|||||||0.076||||||p-value \<= 10% indicates an improvement in model fit|log(e) likelihood ratio|||Test of improvement in model fit from the univariate to the multivariate model with WHO FC at baseline as covariate||||0.076
82591295|NCT01338415|164896526|OTHER||Hazard Ratio (HR)|1.935|||||TWO_SIDED|95.0|0.582|6.428|||Regression, Cox|||Post-hoc analysis: Cox proportional hazard regression univariate model with treatment as covariate (treatment-only univariate model)||6.428|0.582|
82591296|NCT01338415|164896526|OTHER|||||||0.0085|||||||Regression, Cox|p-value \<= 10% indicates that the covariate is related to the time to the time to death up to end-of-study||Post-hoc analysis: Cox proportional hazard regression univariate model with WHO FC at baseline (FC III vs FC I/II) as covariate||||0.0085
82591297|NCT01338415|164896526|OTHER||Hazard Ratio (HR)|1.487|||||TWO_SIDED|95.0|0.437|5.052|||Regression, Cox|||Post-hoc analysis: Treatment Hazard Ratio (HR) in the multivariate model with treatment and WHO FC at baseline as covariates||5.052|0.437|
82591298|NCT01338415|164896526|SUPERIORITY|||||||0.014|||||||log(e) likelihood ratio|p-value \<= 10% indicates an improvement in model fit||Test of the improvement in model fit from the univariate to the multivariate model with WHO FC at baseline as covariate||||0.014
82591299|NCT00240981|164896592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|129.8||||0.003|TWO_SIDED|95.0|43.9|215.6||The unadjusted analysis using two-sample Student's t-tests of equal change in the trial groups, allowing unequal variance.|t-test, 2 sided|||||215.6|43.9|0.003
82591300|NCT00240981|164896592|SUPERIORITY_OR_OTHER||Mean Difference (Net)|129.4||||0.004|TWO_SIDED|95.0|43.5|215.4||Adjusted analysis used multiple linear regression, with adjustment for baseline total score on the Short Physical Performance Battery, and self-report of limitations in mobility.|Regression, Linear|||||215.4|43.5|0.004
82591301|NCT00240981|164896593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.5||||0.002|TWO_SIDED|95.0|13.2|55.8||Unadjusted|t-test, 2 sided|||||55.8|13.2|0.002
82653786|NCT02566135|165022925|OTHER|||||||0.98|||||||t-test, 2 sided|||Heart rate beats per minute measured after 10 minute of ETT insertion among the group I and group C.||||0.98
82653787|NCT02566135|165022925|OTHER|||||||0.49|||||||t-test, 2 sided|||Heart rate beats per minute measured after 15 minute of ETT insertion among the group I and group C.||||0.49
82591302|NCT00240981|164896593|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.5||||0.002|TWO_SIDED|95.0|13.1|56.2||Adjusted|Regression, Linear|||||56.2|13.1|0.002
82591303|NCT00240981|164896594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7||||0.34|TWO_SIDED|95.0|-9.2|26.7||Unadjusted|t-test, 2 sided|||||26.7|-9.2|0.34
82591304|NCT00240981|164896594|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.1||||0.37|TWO_SIDED|95.0|-9.9|26.2||Adjusted.|Regression, Linear|||||26.2|-9.9|0.37
82591305|NCT00240981|164896595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.69|TWO_SIDED|95.0|-1.1|1.7||Unadjusted|t-test, 2 sided|||||1.7|-1.1|0.69
82591306|NCT00240981|164896595|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.26||||0.71|TWO_SIDED|95.0|-1.1|1.7||Adjusted.|Regression, Linear|||||1.7|-1.1|0.71
82591307|NCT00240981|164896596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.26|TWO_SIDED|95.0|-0.035|0.135||Unadjusted.|t-test, 2 sided|||||0.135|-0.035|0.26
82591308|NCT00240981|164896596|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.048||||0.27|TWO_SIDED|95.0|-0.037|0.133||Adjusted|Regression, Linear|||||0.133|-0.037|0.27
82591309|NCT00240981|164896597|SUPERIORITY_OR_OTHER||Mean Difference (Net)|30.2||||0.05|TWO_SIDED|95.0|0.3|60.1||Unadjusted.|t-test, 2 sided|||||60.1|0.3|0.05
82591310|NCT00240981|164896597|SUPERIORITY_OR_OTHER||Mean Difference (Net)|29.7||||0.05|TWO_SIDED|95.0|0.2|59.3||Adjusted|Regression, Linear|||||59.3|0.2|0.05
82591311|NCT00240981|164896599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.2|TWO_SIDED|95.0|1.2|2.5||Month 3 Measures|t-test, 2 sided|||||2.5|1.2|0.2
82591312|NCT00240981|164896599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|||<|0.0001|TWO_SIDED|95.0|0.4|2.2||Month 6 Measures|t-test, 2 sided|||||2.2|0.4|<.0001
82591313|NCT00240981|164896600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.002|TWO_SIDED|95.0|-2.7|-0.6||3 Months Measures|t-test, 2 sided|||||-0.6|-2.7|0.002
82591314|NCT00240981|164896600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.2||6 Month Measures|t-test, 2 sided|||||-1.2|-2.8|<.0001
82591315|NCT00240981|164896601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.074||||0.24|TWO_SIDED|95.0|-0.05|0.19||Unadjusted.|t-test, 2 sided|||||0.19|-0.05|0.24
82591316|NCT00240981|164896601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09||||0.14|TWO_SIDED|95.0|-0.03|0.209||Adjusted.|Regression, Linear|||||0.209|-0.030|0.14
82653788|NCT02566135|165022926|OTHER|||||||0.24|||||||t-test, 2 sided|||Systolic blood pressure measured and compared at base line between group I and group C.||||0.24
82653789|NCT02566135|165022926|OTHER|||||||0.11|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following Dexmedetomidine injection between group I and group C.||||0.11
82653790|NCT02566135|165022926|OTHER|||||||0.07|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following induction os anaesthesia between group I and group C.||||0.07
82653791|NCT02566135|165022926|OTHER|||||||0.85|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following supraglottic airway insertion between group I and group C.||||0.85
82653792|NCT02566135|165022926|OTHER|||||||0.055|||||||t-test, 2 sided|||Systolic blood pressure measured and compared following ventilating bougie insertion between group I and group C.||||0.055
82653793|NCT02566135|165022926|OTHER|||||||0.71|||||||t-test, 2 sided|||Systolic blood pressure measured and compared at ETT insertion time between group I and group C.||||0.71
82653794|NCT02566135|165022926|OTHER|||||||0.2|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 3 minutes after ETT insertion between group I and group C.||||0.20
82653795|NCT02566135|165022926|OTHER|||||||0.86|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 5 minutes after ETT insertion between group I and group C.||||0.86
82653796|NCT02566135|165022926|OTHER|||||||0.68|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 7 minutes after ETT insertion between group I and group C.||||0.68
82653797|NCT02566135|165022926|OTHER|||||||0.98|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 10 minutes after ETT insertion between group I and group C.||||0.98
82591317|NCT00953719|164896668|NON_INFERIORITY_OR_EQUIVALENCE|The prospectively planned primary endpoint analysis was a non-inferiority test of covariate adjusted 24 month or later Harris Hip score means with a 5 point non-inferiority margin. A prospective power analysis with an anticipated Harris Hip score standard deviation of 10.08 (for both treatment groups) indicated that sample sizes of 134 and 67 would provide approximately 95% statistical power for this non-inferiority test with a type 1 error rate of 5%.|Mean Difference (Final Values)|0.7|STANDARD_ERROR_OF_MEAN|1.24|<|0.001|ONE_SIDED|95.0|-1.4||||ANCOVA||||||-1.40|<0.001
82591318|NCT00953719|164896674|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.079||||0.952||95.0|||||Mixed Models Analysis|SAS PROC MIXED was used with an ante-dependence covariance structure.||A repeated measurements longitudinal model of Harris Hip scores was carried out to compare Harris Hip results between treatment groups across time.||||0.952
82591319|NCT01478360|164896682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166||||0.5392|TWO_SIDED|90.0|-0.617|0.285|||Mixed Models Analysis|||||0.285|-0.617|0.5392
82591320|NCT02289352|164896683|EQUIVALENCE|If the 90% confidence interval for the absolute difference between the proportion of patients considered a treatment success (at least a 2-grade improvement on both CEA and PSA over 6 hours+/-10 minutes) in the Test and Reference groups is contained within the range \[-20%, +20%\], then bioequivalence of the Test product to the Reference product is considered to have been demonstrated.|Mean Difference (Net)|-0.58|||||TWO_SIDED|90.0|-6.49|5.33||||||||5.33|-6.49|
82591321|NCT02289352|164896683|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82591322|NCT02289352|164896683|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82591323|NCT02289352|164896684|EQUIVALENCE|"The secondary efficacy variable is the proportion of patients with a clinical response of treatment success on Day 1.~If the 90% confidence interval for the absolute difference between the proportion of patients considered a treatment success (at least a 2-grade improvement on both the CEA and PSA over 6 hours+/-10 minutes) in the Test and Reference groups is contained within the range \[-20%, 20%\], then bioequivalence of the Test to Reference product is considered to have been demonstrated."|Mean Difference (Net)|6.94|||||TWO_SIDED|90.0|-1.54|15.41||||||||15.41|-1.54|
82653798|NCT02566135|165022926|OTHER|||||||0.49|||||||t-test, 2 sided|||Systolic blood pressure measured and compared 15 minutes after ETT insertion between group I and group C.||||0.49
82653799|NCT02566135|165022927|OTHER|||||||0.34|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared at base line between group I and group C.||||0.34
82591324|NCT02289352|164896684|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82591325|NCT02289352|164896684|SUPERIORITY|||||||0.0045|||||||t-test, 2 sided|||||||0.0045
82591326|NCT01177384|164896685|SUPERIORITY_OR_OTHER||Difference in least squares mean|-0.62|||<|0.001|TWO_SIDED|95.0|-0.79|-0.44||The ANCOVA model included terms for treatment and prior antihyperglycemic agent (AHA) therapy status (on acarbose monotherapy, or on acarbose in combination with other AHA(s)) and a covariate for baseline A1C.|ANCOVA|||||-0.44|-0.79|<.001
82653800|NCT02566135|165022927|OTHER|||||||0.27|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following Dexmedetomidine injection between group I and group C.||||0.27
82653801|NCT02566135|165022927|OTHER|||||||0.22|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following induction of anaesrthesia between group I and group C.||||0.22
82653802|NCT02566135|165022927|OTHER|||||||0.96|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following supraglottic airway insertion between group I and group C.||||0.96
82591327|NCT01177384|164896686|SUPERIORITY_OR_OTHER||Difference in least squares mean|-14.4|||<|0.001|TWO_SIDED|95.0|-21.8|-7.0||The ANCOVA model included terms for treatment and prior AHA therapy status (on acarbose monotherapy, or on acarbose in combination with other AHA(s)) and a covariate for baseline FPG.|ANCOVA|||||-7.0|-21.8|<.001
82591328|NCT01196533|164896689|SUPERIORITY_OR_OTHER||||||||||||||||||All data in the outcome measure table is presenting the percentage of error.|||
82591329|NCT03591354|164896727|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82591330|NCT00257166|164896843|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) mean difference|-5.22|STANDARD_ERROR_OF_MEAN|1.48||0.0005|TWO_SIDED|95.0|-8.12|-2.31|||ANCOVA|||Change at Week 4: Mixed effects repeated measures Analysis of Covariance (ANCOVA) model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-2.31|-8.12|0.0005
82591331|NCT00257166|164896844|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.2545|STANDARD_ERROR_OF_MEAN|0.9422||0.0006|TWO_SIDED|95.0|-5.1045|-1.4046|||ANCOVA|||Change at Week 1: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-1.4046|-5.1045|0.0006
82653803|NCT02566135|165022927|OTHER|||||||0.71|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared following ventilating bougie insertion between group I and group C.||||0.71
82653804|NCT02566135|165022927|OTHER|||||||0.55|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared the time of endotracheal tube insertion between group I and group C.||||0.55
82653805|NCT02566135|165022927|OTHER|||||||0.49|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 3 minutes after endotracheal tube insertion between group I and group C.||||0.49
82653806|NCT02566135|165022927|OTHER|||||||0.49|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 5 minutes after endotracheal tube insertion between group I and group C.||||0.49
82653807|NCT02566135|165022927|OTHER|||||||0.76|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 7 minutes after endotracheal tube insertion between group I and group C.||||0.76
82653808|NCT02566135|165022927|OTHER|||||||0.69|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 10 minutes after endotracheal tube insertion between group I and group C.||||0.69
82591332|NCT00257166|164896844|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.5857|STANDARD_ERROR_OF_MEAN|1.4184||0.0117|TWO_SIDED|95.0|-6.3705|-0.8009|||ANCOVA|||Change at Week 2: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.8009|-6.3705|0.0117
82591333|NCT00257166|164896844|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-4.8665|STANDARD_ERROR_OF_MEAN|1.7154||0.0047|TWO_SIDED|95.0|-8.2345|-1.4985|||ANCOVA|||Change at Week 3: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-1.4985|-8.2345|0.0047
82591334|NCT00257166|164896845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.3754|STANDARD_ERROR_OF_MEAN|0.0989||0.0002|TWO_SIDED|95.0|-0.5696|-0.1812|||ANCOVA|||Change at Week 1: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.1812|-0.5696|0.0002
82591335|NCT00257166|164896845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.5596|STANDARD_ERROR_OF_MEAN|0.1355|<|0.0001|TWO_SIDED|95.0|-0.8256|-0.2936|||ANCOVA|||Change at Week 2: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.2936|-0.8256|<0.0001
82591336|NCT00257166|164896845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6798|STANDARD_ERROR_OF_MEAN|0.1643|<|0.0001|TWO_SIDED|95.0|-1.0024|-0.3572|||ANCOVA|||Change at Week 3: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.3572|-1.0024|<0.0001
82591337|NCT00257166|164896845|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.6884|STANDARD_ERROR_OF_MEAN|0.1761||0.0001|TWO_SIDED|95.0|-1.0342|-0.3426|||ANCOVA|||Change at Week 4: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate was used for the analysis.||-0.3426|-1.0342|0.0001
82591338|NCT00257166|164896846|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.21||0.0004|TWO_SIDED|95.0|-1.18|-0.34|||ANCOVA|||Week 4: Mixed effects repeated measures ANCOVA model with center and participant within center as random effects, treatment, visit and visit-by-treatment interaction as fixed effects was used for the analysis.||-0.34|-1.18|0.0004
82591339|NCT01206062|164896847|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.75|||<|0.001|TWO_SIDED|95.0|0.64|0.89|||Regression, Cox|||||0.89|0.64|<0.001
82591340|NCT01206062|164896848|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.73||||0.003|TWO_SIDED|95.0|0.6|0.9|||Regression, Cox|||||0.90|0.60|0.003
82591341|NCT01206062|164896849|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.79||||0.58|TWO_SIDED|95.0|0.34|1.83|||Regression, Cox|||||1.83|0.34|0.58
82591342|NCT01206062|164896851|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.83||||0.1|TWO_SIDED|95.0|0.67|1.04|||Regression, Cox|||||1.04|0.67|.10
82591343|NCT01641237|164896910|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for %SMHR as a function of fluoride concentration.||||<0.0001
82591344|NCT01641237|164896910|SUPERIORITY_OR_OTHER|||||||0.3748||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for quadratic dose-response relationship was performed for %SMHR as a function of fluoride concentration.||||0.3748
82591345|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.17||||0.1898|TWO_SIDED|95.0|-1.09|5.43||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||5.43|-1.09|0.1898
82591346|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.6||||0.0009|TWO_SIDED|95.0|2.35|8.86||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no dose-response relationship between %SMHR and fluoride concentration in the dentifrice.||8.86|2.35|0.0009
82591347|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.43||||0.0389|TWO_SIDED|95.0|0.18|6.68||No adjustment was required for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment and the subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||6.68|0.18|0.0389
82591348|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|9.86|||<|0.0001|TWO_SIDED|95.0|6.58|13.13||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||13.13|6.58|<0.0001
82653809|NCT02566135|165022927|OTHER|||||||0.81|||||||t-test, 2 sided|||Diastolic blood pressure measured and compared 15 minutes after endotracheal tube insertion between group I and group C.||||0.81
82653810|NCT02566135|165022928|OTHER||||||<|0.0001|||||||t-test, 2 sided|||We had compared time of insertion for supraglottic airway between group I and group C.||||<0.0001
82653811|NCT02566135|165022929|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82653812|NCT00429923|165022930|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Mantel Haenszel|||||||0.0014
82653813|NCT01937364|165022952|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4||||0.0334|TWO_SIDED|90.0|-0.7275|-0.0206||One-sided p-value|z-statistic with pooled estimate||RD = Baclofen - Placebo|||-0.0206|-0.7275|0.0334
82653814|NCT01937364|165022953|SUPERIORITY_OR_OTHER|||||||0.3744|||||||Mixed Models Analysis|||Baclofen - Placebo; 24 hours||||0.3744
82653815|NCT01937364|165022953|SUPERIORITY_OR_OTHER|||||||0.7616|||||||Mixed Models Analysis|||Baclofen - Placebo; 48 hours||||0.7616
82591349|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.68|||<|0.0001|TWO_SIDED|95.0|4.41|10.96||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||10.96|4.41|<0.0001
82591350|NCT01641237|164896911|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.25||||0.0112|TWO_SIDED|95.0|0.98|7.53||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered treatments in comparison to be equal.||7.53|0.98|0.0112
82591351|NCT01641237|164896912|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for %RER as a function of fluoride concentration.||||<0.0001
82591352|NCT01641237|164896912|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANOVA|||Test for quadratic dose-response relationship was performed for %RER as a function of fluoride concentration.||||0.0002
82591353|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|32.38|||<|0.0001|TWO_SIDED|95.0|25.18|39.59||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||39.59|25.18|<0.0001
82591354|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|31.46|||<|0.0001|TWO_SIDED|95.0|24.25|38.67||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||38.67|24.25|<0.0001
82591355|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|20.81|||<|0.0001|TWO_SIDED|95.0|13.6|28.02||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||28.02|13.60|<0.0001
82591356|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.92||||0.8|TWO_SIDED|95.0|-6.25|8.1||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||8.10|-6.25|0.8000
82591357|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.57||||0.0017|TWO_SIDED|95.0|4.4|18.74||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||18.74|4.40|0.0017
82591358|NCT01641237|164896912|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.65||||0.0038|TWO_SIDED|95.0|3.48|17.81||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||17.81|3.48|0.0038
82591359|NCT01641237|164896913|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for linear dose-response relationship was performed for EFU as a function of fluoride concentration.||||<0.0001
82591360|NCT01641237|164896913|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANOVA|Adjusted Mean and SE were calculated from ANOVA model with treatment and period as factors, and subject as a random factor.||Test for quadratic dose-response relationship was performed for EFU as a function of fluoride concentration.||||0.0008
82591361|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66|||<|0.0001|TWO_SIDED|95.0|1.42|1.9||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.90|1.42|<0.0001
82591362|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.6|||<|0.0001|TWO_SIDED|95.0|1.36|1.85||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.85|1.36|<0.0001
82591363|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.62|||<|0.0001|TWO_SIDED|95.0|0.38|0.86||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||0.86|0.38|<0.0001
82653816|NCT01937364|165022953|SUPERIORITY_OR_OTHER|||||||0.1393|||||||Mixed Models Analysis|||Baclofen - Placebo; 72 hours||||0.1393
82653817|NCT01937364|165022954|SUPERIORITY_OR_OTHER|||||||0.33||||||Baclofen - Placebo; Peak Ativan 1mg PO equivalent dose|Wilcoxon (Mann-Whitney)|||||||0.33
82653818|NCT01937364|165022954|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Baclofen - Placebo; Total Ativan 1mg PO equivalent dose||||0.80
82591364|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.05||||0.668|TWO_SIDED|95.0|-0.19|0.29||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||0.29|-0.19|0.6680
82591365|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.04|||<|0.0001|TWO_SIDED|95.0|0.8|1.28||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.28|0.80|<0.0001
82591366|NCT01641237|164896913|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.99|||<|0.0001|TWO_SIDED|95.0|0.75|1.23||No adjustment was required for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with fixed factors for study period and treatment, while subject was random effect.|Difference was first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered no difference between treatments, being compared.||1.23|0.75|<0.0001
82591367|NCT02716675|164896925|OTHER||Prevention Efficacy (PE)|26.6||||0.15|TWO_SIDED|95.0|-11.7|51.8||The threshold for statistical significance was p = 0.05.|wald|||The primary PE analysis tests the null hypothesis PE equal to zero versus the alternative hypothesis PE not equal to zero using a 2-sided alpha equal 0.05 level Wald test of the equality of log cumulative hazard functions at the week 80 visit for the pooled VRC01 group versus the placebo group.||51.8|-11.7|0.15
82591368|NCT02716675|164896925|OTHER||Prevention Efficacy (PE)|22.4|||||TWO_SIDED|95.0|-25.5|52.0||||||A secondary analysis assesses the overall PE of the low-dose VRC01 group versus the placebo group.||52.0|-25.5|
82591369|NCT02716675|164896925|OTHER||Prevention Efficacy (PE)|30.9|||||TWO_SIDED|95.0|-13.9|58.0||||||A secondary analysis assesses the overall PE of the high-dose VRC01 group versus the placebo group.||58.0|-13.9|
82591370|NCT02716675|164896927|OTHER||Prevention Efficacy (PE)|73.0|||||TWO_SIDED|95.0|27.6|89.9||||||PE against IC80 of least sensitive variant less than 1||89.9|27.6|
82591371|NCT02716675|164896927|OTHER||Prevention Efficacy (PE)|6.1|||||TWO_SIDED|95.0|-174.3|67.8||||||PE against IC80 of least sensitive variant 1-3||67.8|-174.3|
82591372|NCT02716675|164896927|OTHER||Prevention Efficacy (PE)|8.6|||||TWO_SIDED|95.0|-68.1|50.3||||||PE against IC80 of least sensitive variant \> 3||50.3|-68.1|
82591373|NCT00290290|164896929|SUPERIORITY_OR_OTHER||Relative Risk|0.59||||0.004|TWO_SIDED|95.0|0.41|0.85|||Log Rank|||The average baseline rate of surgical-site infection at the six participating hospitals was 14% after clean-contaminated surgery with povidone-iodine skin preparation, and we estimated that substituting chlorhexidine-alcohol for povidone-iodine would reduce this rate to 7%. Therefore, we planned to enroll approximately 430 patients in each study group who could be evaluated in order for the study to have 90% power to detect a significant difference in the rates of surgical-site infection.||0.85|0.41|0.004
82591374|NCT02015442|164896930|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Baseline vs. treatment period||||0.390
82591375|NCT02015442|164896930|SUPERIORITY|||||||0.204|||||||t-test, 2 sided|||Baseline vs treatment||||0.204
82591376|NCT02015442|164896931|SUPERIORITY|||||||0.001||||||calculated|t-test, 2 sided|||Baseline vs treatment||||0.001
82591377|NCT02015442|164896931|SUPERIORITY|||||||0.244|||||||t-test, 2 sided|||Baseline vs treatment||||0.244
82591378|NCT02015442|164896931|SUPERIORITY|||||||0.244|||||||ANOVA|||||||0.244
82591379|NCT04013789|164896985|NON_INFERIORITY|The noninferiority margin was set at 0.05.|Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.006|||ONE_SIDED|95.0||0.03|||Mixed Effects Repeated Measures Model||DACP FreshTech minus DACP|||0.03||
82591380|NCT00549939|164896987|SUPERIORITY_OR_OTHER|||||||1||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||1.00
82591381|NCT00549939|164896987|SUPERIORITY_OR_OTHER|||||||0.91||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.91
82591382|NCT00549939|164896989|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-6.2|STANDARD_ERROR_OF_MEAN|3.8||0.104|TWO_SIDED|95.0|-13.72|1.29||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor LPP was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor LPP as covariate."||1.29|-13.72|0.1040
82591383|NCT00549939|164896989|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-7.1|STANDARD_ERROR_OF_MEAN|3.77||0.104|TWO_SIDED|95.0|-14.51|0.39||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||0.39|-14.51|0.1040
82591384|NCT00549939|164896990|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-11.4|STANDARD_ERROR_OF_MEAN|7.54||0.1338|TWO_SIDED|95.0|-26.27|3.53||P-values was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor LPP was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor LPP as covariate."||3.53|-26.27|0.1338
82591385|NCT00549939|164896990|SUPERIORITY_OR_OTHER||LS Mean difference versus Placebo|-14.3|STANDARD_ERROR_OF_MEAN|7.48||0.1152|TWO_SIDED|95.0|-29.1|0.47||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||0.47|-29.10|0.1152
82653819|NCT04799158|165022955|SUPERIORITY||Percentage difference|28.7|||<|0.0001|TWO_SIDED|95.0|21.84|35.55|||Fisher Exact|||||35.55|21.84|<0.0001
82377497|NCT02370238|164462085|SUPERIORITY||Odds Ratio (OR)|1.101||||0.667|TWO_SIDED|95.0|0.437|2.79||P-value was based on Zelen's test for homogeneity of the odds ratios|Zelen's test|||||2.790|0.437|0.667
82377498|NCT01807065|164462088|OTHER|||||||0.06|||||||Log Rank|||||||0.06
82591386|NCT00549939|164896992|SUPERIORITY_OR_OTHER|||||||0.7889||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||"Change in detrusor compliance was analyzed using a three-way analysis of covariance (ANCOVA) including 3 variables as fixed effects:~* treatment group (alfuzosin 0.1 mg/kg/day, alfuzosin 0.2 mg/kg/day or placebo),~* age/formulation group (2-7 years of age on solution, 8-16 years of age on solution or 8-16 years of age on tablets),~* anticholinergic/antimuscarinic use (yes or no),~and using centered baseline detrusor compliance as covariate."||||0.7889
82591387|NCT00549939|164896992|SUPERIORITY_OR_OTHER|||||||0.7889||||||P-value was adjusted for multiplicity using the Hochberg procedure. The a priori threshold for statistical significance was 0.05.|ANCOVA|||||||0.7889
82591388|NCT03593850|164896995|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.002
82591389|NCT03593850|164896996|EQUIVALENCE|Equivalence analysis was performed according to pre-defined significant difference of p \< 0.01||||||0.392|||||||t-test, 2 sided|||||||0.392
82591390|NCT03593850|164896997|EQUIVALENCE|Equivalence analysis was performed according to pre-defined significant difference of p \< 0.01||||||0.802|||||||t-test, 2 sided|||||||0.802
82591391|NCT03593850|164896998|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82591392|NCT03593850|164896998|SUPERIORITY||Adjusted mean difference|1.429||||0.006|TWO_SIDED||||||ANCOVA|Fixed factors: group, covariates: pain before (VAS2), age in years, age at menarche, duration of menses, usual pain, anxiety before, hours with pain.|||Adjusted means: music 3.131 (99% CI 2.62, 3.999) and silence 4.56 (99% CI 3.581, 5.538), F= 8.44, R-square 54.5%|||0.006
82591393|NCT03593850|164896999|SUPERIORITY|||||||0.11|||||||t-test, 2 sided|||||||0.11
82591394|NCT03593850|164896999|SUPERIORITY||Adjusted mean difference|0.721||||0.37|TWO_SIDED||||||ANCOVA|Fixed factor: Groups Covariates: Pain before, pain after, age, age menarche, menses duration, usual pain, anxiety before, anxiety after, hours pain|Adjusted means: music 2.58 (99% CI 1.339, 3.829), and silence 3.305 (1.728, 4.881); F 0.827, R-square 27.2%|||||0.370
82591395|NCT03593850|164897000|EQUIVALENCE|Equivalence between groups was pre-defined as p \> 0.01||||||0.377|||||||t-test, 2 sided|||||||0.377
82591396|NCT03593850|164897001|SUPERIORITY|||||||0.049|||||||t-test, 2 sided|||||||0.049
82591397|NCT03593850|164897002|SUPERIORITY|||||||0.168|||||||t-test, 2 sided|||||||0.168
82591398|NCT03593850|164897003|EQUIVALENCE|Equivalence between groups was pre-defined as p \> 0.01||||||0.642|||||||Chi-squared|||||||0.642
82591399|NCT03593850|164897004|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
82591400|NCT03593850|164897005|SUPERIORITY|||||||0.025|||||||Chi-squared|||||||0.025
82591401|NCT03593850|164897006|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.307|||||||t-test, 2 sided|||||||0.307
82591402|NCT03593850|164897007|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.318|||||||t-test, 2 sided|||||||0.318
82591403|NCT03593850|164897008|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.954|||||||t-test, 2 sided|||||||0.954
82653820|NCT04799158|165022955|SUPERIORITY||Percentage difference|33.3|||<|0.0001|TWO_SIDED|95.0|26.28|40.23|||Fisher Exact|||||40.23|26.28|<0.0001
82377499|NCT01153425|164462092|OTHER|unpaired t-test for the difference of the means between the two arms|||||>|0.05|||||||t-test, 2 sided|||paired t-test for change from baseline to 24 months||||>0.05
82591404|NCT03593850|164897009|EQUIVALENCE|Equivalence between groups determined by pre-deined p \> 0.01||||||0.258|||||||t-test, 2 sided|||||||0.258
82591405|NCT03593850|164897010|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|||||||0.058
82591406|NCT03593850|164897011|SUPERIORITY|||||||0.056|||||||t-test, 2 sided|||||||0.056
82591407|NCT03593850|164897012|SUPERIORITY|||||||0.885|||||||t-test, 2 sided|||||||0.885
82591408|NCT03593850|164897013|SUPERIORITY|||||||0.036|||||||t-test, 2 sided|||||||0.036
82591409|NCT00119041|164897017|SUPERIORITY_OR_OTHER||||||>|0.153|TWO_SIDED|||||Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.|t-test, 2 sided|||Comparisons were made between the intervention and control groups at baseline||||>0.153
82591410|NCT00119041|164897017|SUPERIORITY_OR_OTHER||||||>|0.25|TWO_SIDED|||||Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.|t-test, 2 sided|Threshold for statistical significance was p\<0.025 using Bonferroni correction for 2 statistical tests.||Comparisons were made between the intervention and control groups at 18 months||||>0.25
82591411|NCT03861936|164897026|SUPERIORITY||Percentage Difference|68.8|||<|0.0001|TWO_SIDED|95.0|54.5|83.1||P-values for between-treatment comparisons are based on Cochran-Mantel-Haenszel (CMH) model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||83.1|54.5|<.0001
82591412|NCT03861936|164897026|SUPERIORITY||Percentage Difference|69.6|||<|0.0001|TWO_SIDED|95.0|55.1|84.0||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||84.0|55.1|<.0001
82591413|NCT03861936|164897032|SUPERIORITY||Percentage Difference|48.4|||<|0.0001|TWO_SIDED|95.0|33.1|63.7||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||63.7|33.1|<.0001
82591414|NCT03861936|164897032|SUPERIORITY||Percentage Difference|45.7|||<|0.0001|TWO_SIDED|95.0|29.5|61.8||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||61.8|29.5|<.0001
82591415|NCT03861936|164897033|SUPERIORITY||Percentage Difference|55.2|||<|0.0001|TWO_SIDED|95.0|39.6|70.8||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||70.8|39.6|<.0001
82591416|NCT03861936|164897033|SUPERIORITY||Percentage Difference|60.9|||<|0.0001|TWO_SIDED|95.0|45.1|76.7||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||76.7|45.1|<.0001
82591417|NCT03861936|164897034|SUPERIORITY||Percentage Difference|54.2|||<|0.0001|TWO_SIDED|95.0|37.9|70.5||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||70.5|37.9|<.0001
82653821|NCT04799158|165022955|SUPERIORITY||Percentage difference|42.7|||<|0.0001|TWO_SIDED|95.0|35.92|49.42|||Fisher Exact|||||49.42|35.92|<0.0001
82653822|NCT04799158|165022956|SUPERIORITY||Percentage difference|30.3|||<|0.0001|TWO_SIDED|95.0|23.41|37.09|||Fisher Exact|||||37.09|23.41|<0.0001
82653823|NCT04799158|165022956|SUPERIORITY||Percentage difference|23.9|||<|0.0001|TWO_SIDED|95.0|16.67|31.05|||Fisher Exact|||||31.05|16.67|<0.0001
82591418|NCT03861936|164897034|SUPERIORITY||Percentage Difference|47.8|||<|0.0001|TWO_SIDED|95.0|30.1|65.6||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||65.6|30.1|<.0001
82591419|NCT03861936|164897035|SUPERIORITY||Percentage Difference|68.8|||<|0.0001|TWO_SIDED|95.0|54.5|83.1||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||83.1|54.5|<.0001
82591420|NCT03861936|164897035|SUPERIORITY||Percentage Difference|52.2|||<|0.0001|TWO_SIDED|95.0|34.8|69.6||P-values for between-treatment comparisons are based on CMH model stratified by baseline MMPS Grade (4 or 5).|Cochran-Mantel-Haenszel|||||69.6|34.8|<.0001
82591421|NCT03861936|164897036|SUPERIORITY||Least Squares (LS) Mean Difference|-5.82|STANDARD_ERROR_OF_MEAN|0.647|<|0.0001|TWO_SIDED|95.0|-7.1|-4.54||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-4.54|-7.10|<.0001
82591422|NCT03861936|164897036|SUPERIORITY||LS Mean Difference|-5.81|STANDARD_ERROR_OF_MEAN|0.678|<|0.0001|TWO_SIDED|95.0|-7.15|-4.47||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-4.47|-7.15|<.0001
82591423|NCT03861936|164897037|SUPERIORITY||LS Mean Difference|-7.63|STANDARD_ERROR_OF_MEAN|0.756|<|0.0001|TWO_SIDED|95.0|-9.12|-6.13||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-6.13|-9.12|<.0001
82591424|NCT03861936|164897037|SUPERIORITY||LS Mean Difference|-8.26|STANDARD_ERROR_OF_MEAN|0.793|<|0.0001|TWO_SIDED|95.0|-9.83|-6.69||The change from baseline was analyzed using ANCOVA with study intervention and investigator site as factors and baseline MMPS Grade as a covariate.|ANCOVA|||||-6.69|-9.83|<.0001
82591425|NCT02319668|164897039|SUPERIORITY_OR_OTHER||Least square (LS) Mean difference|0.2||||0.2965|TWO_SIDED|95.0|-0.18|0.58|||ANCOVA|ANCOVA with treatment as factor and baseline as covariate.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||0.58|-0.18|0.2965
82591426|NCT01312038|164897047|SUPERIORITY_OR_OTHER||||||=|0.93|||||||Paired T-test|df=34||Comparison of the simethicone and placebo groups with respect to the difference between the pre-post treatment FGE at ME-pressure chamber gradient of -200 daPa.||||=0.93
82591427|NCT01312038|164897047|SUPERIORITY_OR_OTHER||||||=|0.39|||||||Paired T-test|df = 31||Comparison of the simethicone and placebo groups with respect to the difference between the pre-post treatment FGE at ME-pressure chamber gradient of 200 daPa.||||=0.39
82591428|NCT01372150|164897048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71||||0.226|TWO_SIDED|95.0|-1.06|4.48|||Mixed-effects model for repeated measure|Mixed-effects model for repeated measures (MMRM)|Adjusted mean difference = placebo - fluoxetine|Fluoxetine versus Placebo||4.48|-1.06|0.226
82653824|NCT04799158|165022956|SUPERIORITY||Percentage difference|37.7|||<|0.0001|TWO_SIDED|95.0|31.0|44.35|||Fisher Exact|||||44.35|31.00|<0.0001
82653825|NCT04799158|165022957|SUPERIORITY|||||||0.1771|||||||Wilcoxon rank-sum test|||||||0.1771
82591429|NCT01372150|164897048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.739|TWO_SIDED|95.0|-3.23|2.3|||MMRM||Adjusted mean difference = Placebo - DVS SR|DVS SR versus Placebo||2.30|-3.23|0.739
82591430|NCT01372150|164897049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.224|TWO_SIDED|95.0|-0.11|0.46|||MMRM||Adjusted mean difference = Placebo - Fluoxetine|Fluoxetine versus Placebo||0.46|-0.11|0.224
82591431|NCT01372150|164897049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.944|TWO_SIDED|95.0|-0.29|0.27|||MMRM||Adjusted mean difference = Placebo - DVS SR|DVS SR versus Placebo||0.27|-0.29|0.944
82591432|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.924||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 1||||0.924
82591433|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.698||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 1||||0.698
82591434|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.214||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 2||||0.214
82591435|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.113||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 2||||0.113
82591436|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.314||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 3||||0.314
82591437|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.659||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 3||||0.659
82591438|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.577||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 4||||0.577
82591439|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.187||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 4||||0.187
82591440|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.051||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 6||||0.051
82591441|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.266||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 6||||0.266
82653826|NCT04799158|165022957|SUPERIORITY|||||||0.1551|||||||Wilcoxon rank-sum test|||||||0.1551
82653827|NCT04799158|165022957|SUPERIORITY|||||||0.0094|||||||Wilcoxon rank-sum test|||||||0.0094
82653828|NCT04799158|165022958|SUPERIORITY|||||||0.3395|||||||Wilcoxon rank-sum test|||||||0.3395
82653829|NCT04799158|165022958|SUPERIORITY|||||||0.4882|||||||Wilcoxon rank-sum test|||||||0.4882
82653830|NCT04799158|165022958|SUPERIORITY|||||||0.0722|||||||Wilcoxon rank-sum test|||||||0.0722
82653831|NCT04799158|165022959|SUPERIORITY||Percentage difference|-3.9||||0.83|TWO_SIDED|95.0|-24.41|16.52|||Fisher Exact|||||16.52|-24.41|0.8300
82591442|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.095||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||Fluoxetine versus Placebo - Week 8||||0.095
82591443|NCT01372150|164897050|SUPERIORITY_OR_OTHER|||||||0.852||||||"P-value obtained from the Cochran-Mantel-Haenszel test for the alternative hypothesis of Row Mean Scores Differences."|Cochran-Mantel-Haenszel|||DVS SR versus Placebo - Week 8||||0.852
82591444|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.186|TWO_SIDED|95.0|0.226|1.335|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 1||1.335|0.226|0.186
82591445|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.984|TWO_SIDED|95.0|0.382|2.567|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 1||2.567|0.382|0.984
82591446|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.795||||0.462|TWO_SIDED|95.0|0.431|1.465|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 2||1.465|0.431|0.462
82591447|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.726||||0.297|TWO_SIDED|95.0|0.399|1.324|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 2||1.324|0.399|0.297
82591448|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.688||||0.194|TWO_SIDED|95.0|0.391|1.21|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Fluoxetine versus Placebo - Week 3||1.210|0.391|0.194
82591449|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.732||||0.272|TWO_SIDED|95.0|0.419|1.277|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 3||1.277|0.419|0.272
82591450|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.748||||0.313|TWO_SIDED|95.0|0.426|1.314|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 4||1.314|0.426|0.313
82591451|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.663||||0.157|TWO_SIDED|95.0|0.376|1.171|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 4||1.171|0.376|0.157
82591452|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579||||0.072|TWO_SIDED|95.0|0.319|1.05|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 6||1.050|0.319|0.072
82591453|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.135|TWO_SIDED|95.0|0.356|1.149|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 6||1.149|0.356|0.135
82591454|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.465||||0.017|TWO_SIDED|95.0|0.249|0.871|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|Flouxetine versus Placebo - Week 8||0.871|0.249|0.017
82591455|NCT01372150|164897051|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.751||||0.343|TWO_SIDED|95.0|0.415|1.357|||Regression, Logistic||Logistic Regression using Response (Y/N) at each time point (excluding Week 9) as a response variable and treatment, age group and country as factors.|DVS SR versus Placebo - Week 8||1.357|0.415|0.343
82591456|NCT00823823|164897072|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||The frequency of loss of reduction during the study period was compared across casting groups using a two-sided chi-square test with alpha = 0.05.||||1.00
82591457|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative Improvement (%)|8.4|||<|0.001|TWO_SIDED|95.0|7.0|9.7|||a large sample test (z-test)|||Performance Measure #1: relative change in % of eligible patients treated with angiotensin converting enzyme inhibitor and/or angiotensin II receptor blockers (ACEU/ARB).||9.7|7.0|<0.001
82591458|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative improvement (%)|8.6|||<|0.001|TWO_SIDED|95.0|7.7|9.6|||a large sample test (z-test)|||Performance Measure #2: relative change in % of eligible patients treated with beta-blockers.||9.6|7.7|<0.001
82591459|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative improvement (%)|79.7|||<|0.001|TWO_SIDED|95.0|70.5|89.0|||a large sample test (z-test)|||Performance Measure #3: relative change in % of eligible patients treated with aldosterone receptor antagonists.||89.0|70.5|<0.001
82653832|NCT04799158|165022959|SUPERIORITY||Percentage difference|1.4|||>|0.9999|TWO_SIDED|95.0|-19.28|22.16|||Fisher Exact|||||22.16|-19.28|>0.9999
82377500|NCT01937871|164462093|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.41|||||TWO_SIDED|95.0|-2.25|-0.57||||||||-0.57|-2.25|
82591460|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative Improvement (%)|1.0||||0.546|TWO_SIDED|95.0|-2.2|4.2|||a large sample test (z-test)|||Performance Measure #4: relative change in % of eligible patients treated with anticoagulation for AF.||4.2|-2.2|0.546
82591461|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative Improvement (%)|81.9|||<|0.001|TWO_SIDED|95.0|72.2|91.7|||a large sample test (z-test)|||Performance Measure #5: relative change in % of eligible patients treated with cardiac resynchronization therapy (CRT-P/CRT-D).||91.7|72.2|<0.001
82377501|NCT01937871|164462097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85|||||TWO_SIDED|95.0|-1.87|0.18||||||||0.18|-1.87|
82591462|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative Improvement (%)|62.1|||<|0.001|TWO_SIDED|95.0|59.1|65.1|||a large sample test (z-test)|||Performance Measure #6: relative change in % of eligible patients treated with implantable cardioverter-defibrillator (ICD) or CRT-D.||65.1|59.1|<0.001
82653833|NCT04799158|165022959|SUPERIORITY||Percentage difference|2.3|||>|0.9999|TWO_SIDED|95.0|-18.22|22.88|||Fisher Exact|||||22.88|-18.22|>0.9999
82653834|NCT04799158|165022960|SUPERIORITY|||||||0.4684|||||||Wilcoxon rank-sum test|||||||0.4684
82653835|NCT04799158|165022960|SUPERIORITY|||||||0.656|||||||Wilcoxon rank-sum test|||||||0.6560
82653836|NCT04799158|165022960|SUPERIORITY|||||||0.6324|||||||Wilcoxon rank-sum test|||||||0.6324
82591463|NCT00303979|164897099|SUPERIORITY_OR_OTHER||Relative Improvement (%)|14.7|||<|0.001|TWO_SIDED|95.0|12.6|16.8|||a large sample test (z-test)|||Performance Measure #7: relative change in % of eligible patients with HF education.||16.8|12.6|<0.001
82591464|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|19.4||||0.004|TWO_SIDED|95.0|-1.1|39.8|||t-test, 2 sided|||Performance Measure #1: Relative change at 24 months compared with baseline in ACEI/ARB for the aggregate practices.||39.8|-1.1|0.004
82591465|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|7.6|||<|0.001|TWO_SIDED|95.0|5.1|10.2|||t-test, 2 sided|||Performance Measure #2: the relative change at 24 months compared with baseline in beta-blockers for the aggregate practices.||10.2|5.1|<0.001
82591466|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|30.0|||<|0.001|TWO_SIDED|95.0|24.6|35.5|||t-test, 2 sided|||Performance Measure #3: the relative change at 24 months compared with baseline in aldosterone antagonist for the aggregate practices.||35.5|24.6|<0.001
82591467|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|1.0||||0.513||95.0|-3.6|5.5|||t-test, 2 sided|||Performance Measure #4: the relative change at 24 months compared with baseline in anticoagulation for AF for the aggregate practices.||5.5|-3.6|0.513
82591468|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|48.4|||<|0.001|TWO_SIDED|95.0|37.9|58.8|||t-test, 2 sided|||Performance Measure #5: the relative change at 24 months compared with baseline in CRT-P/CRT-D for the aggregate practices.||58.8|37.9|<0.001
82591469|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|70.9|||<|0.001|TWO_SIDED|95.0|61.0|80.8|||t-test, 2 sided|||Performance Measure #6: the relative change at 24 months compared with baseline in ICD/CRT-D for the aggregate practices.||80.8|61.0|<0.001
82591470|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|50.6|||<|0.001|TWO_SIDED|95.0|27.1|74.2|||t-test, 2 sided|||Performance Measure #7: the relative change at 24 months compared with baseline in HF education for the aggregate practices.||74.2|27.1|<0.001
82591471|NCT00303979|164897101|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|19.2|||<|0.001|TWO_SIDED|95.0|16.3|22.0|||t-test, 2 sided|||Composite Score: The relative change at 24 months compared with baseline in composite score for the aggregate practices.||22.0|16.3|<0.001
82591472|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.3||||0.197|TWO_SIDED|95.0|-5.4|25.9|||t-test, 2 sided|||Performance Measure #1: the relative change of Cohort B (6 months) compared with Cohort A at baseline in ACEI/ARB for the aggregate practices.||25.9|-5.4|0.197
82591473|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.6||||0.061|TWO_SIDED|95.0|-0.5|21.7|||t-test, 2 sided|||Performance Measure #2: the relative change of Cohort B (6 months) compared with Cohort A at baseline in beta-blockers for the aggregate practices.||21.7|-0.5|0.061
82591474|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|-1.1||||0.622|TWO_SIDED|95.0|-5.7|3.4|||t-test, 2 sided|||Performance Measure #3: the relative change of Cohort B (6 months) compared with Cohort A at baseline in aldosterone antagonist for the aggregate practices.||3.4|-5.7|0.622
82591475|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.2||||0.05|TWO_SIDED|95.0|0.0|12.4|||t-test, 2 sided|||Performance Measure #4: the relative change of Cohort B (6 months) compared with Cohort A at baseline in anticoagulation for AF for the aggregate practices.||12.4|0.0|0.05
82591476|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|-1.8||||0.711|TWO_SIDED|95.0|-11.2|7.7|||t-test, 2 sided|||Performance Measure #5: the relative change of Cohort B (6 months) compared with Cohort A at baseline in CRT-P/CRT-D for the aggregate practices.||7.7|-11.2|0.711
82591477|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|14.4|||<|0.001|TWO_SIDED|95.0|6.9|22.0|||t-test, 2 sided|||Performance Measure #6: the relative change of Cohort B (6 months) compared with Cohort A at baseline in ICD/CRT-D for the aggregate practices.||22.0|6.9|<0.001
82591478|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|38.5|||<|0.001|TWO_SIDED|95.0|23.2|53.8|||t-test, 2 sided|||Performance Measure #7: the relative change of Cohort B (6 months) compared with Cohort A at baseline in HF education for the aggregate practices.||53.8|23.2|<0.001
82591479|NCT00303979|164897102|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.6|||<|0.001|TWO_SIDED|95.0|4.2|9.0|||t-test, 2 sided|||Composite Score: the relative change of Cohort B (6 months) compared with Cohort A at baseline in composite score for the aggregate practices.||9.0|4.2|<0.001
82591480|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.5||||0.19|TWO_SIDED|95.0|-5.3|26.3|||t-test, 2 sided|||Performance Measure #1: the relative change of Cohort C (18 months) compared with Cohort A at baseline in ACEI/ARB for the aggregate practices.||26.3|-5.3|0.190
82591481|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|14.3||||0.048|TWO_SIDED|95.0|0.1|28.4|||t-test, 2 sided|||Performance Measure #2: the relative change of Cohort C (18 months) compared with Cohort A at baseline in beta-blockers for the aggregate practices.||28.4|0.1|0.048
82591482|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|5.8||||0.24|TWO_SIDED|95.0|-3.9|15.4|||t-test, 2 sided|||Performance Measure #3: the relative change of Cohort C (18 months) compared with Cohort A at baseline in aldosterone antagonist for the aggregate practices.||15.4|-3.9|0.240
82591483|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|6.7||||0.033|TWO_SIDED|95.0|0.5|13.0|||t-test, 2 sided|||Performance Measure #4: the relative change of Cohort C (18 months) compared with Cohort A at baseline in anticoagulation for AF for the aggregate practices.||13.0|0.5|0.033
82591484|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|9.3||||0.085|TWO_SIDED|95.0|-1.3|19.8|||t-test, 2 sided|||Performance Measure #5: the relative change of Cohort C (18 months) compared with Cohort A at baseline in CRT-P/CRT-D for the aggregate practices.||19.8|-1.3|0.085
82591485|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|17.6|||<|0.001|TWO_SIDED|95.0|9.3|25.8|||t-test, 2 sided|||Performance Measure #6: the relative change of Cohort C (18 months) compared with Cohort A at baseline in ICD/CRT-D for the aggregate practices.||25.8|9.3|<0.001
82591486|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|59.5|||<|0.001|TWO_SIDED|95.0|33.9|85.2|||t-test, 2 sided|||Performance Measure #7: the relative change of Cohort C (18 months) compared with Cohort A at baseline in HF education for the aggregate practices.||85.2|33.9|<0.001
82653837|NCT04799158|165022961|SUPERIORITY|||||||0.9896|||||||Wilcoxon rank-sum test|||||||0.9896
82653838|NCT04799158|165022961|SUPERIORITY|||||||0.6916|||||||Wilcoxon rank-sum test|||||||0.6916
82653839|NCT04799158|165022961|SUPERIORITY|||||||0.9316|||||||Wilcoxon rank-sum test|||||||0.9316
82653840|NCT02607800|165022971|NON_INFERIORITY|Noninferiority was demonstrated if the lower bound of the 2-sided 95% confidence interval (CI) for the difference in SVR12 was greater than -5%. If the lower bound of the CI was greater than -5% (ie, the noninferiority null hypothesis was rejected), a 2-sided stratified Cochran-Mantel-Haenszel test was to be used to test for the superiority of SOF/VEL/VOX for 8 weeks over SOF/VEL for 12 weeks at a significance level of 0.05.|Difference in proportions|-3.2|||||TWO_SIDED|95.0|-6.0|-0.4|||||Difference in proportions between treatment groups and associated 95% CI were calculated based on stratum-adjusted Mantel-Haenszel proportions.|||-0.4|-6.0|
82653841|NCT01656889|165022977|SUPERIORITY_OR_OTHER|||||||0.5896|TWO_SIDED||||||Cochran-Mantel-Haenszel|P-value is based on the chi-squared proportion of wounds closed in each group.||||||0.5896
82653842|NCT01656889|165022978|SUPERIORITY_OR_OTHER|||||||0.3675|TWO_SIDED|0.0|||||Regression, Cox|||||||.3675
82491369|NCT01681472|164676428|SUPERIORITY|||||||0.4777|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4777
82591487|NCT00303979|164897103|SUPERIORITY_OR_OTHER||Mean Relative Change (%)|10.6|||<|0.001|TWO_SIDED|95.0|7.6|13.6|||t-test, 2 sided|||Composite Score: the relative change of Cohort C (18 months) compared with Cohort A at baseline in composite score for the aggregate practices.||13.6|7.6|<0.001
82591488|NCT02170779|164897122|SUPERIORITY_OR_OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
82591489|NCT02170779|164897123|SUPERIORITY_OR_OTHER|||||||0.738|||||||Wilcoxon (Mann-Whitney)|||||||0.738
82591490|NCT02170779|164897124|SUPERIORITY_OR_OTHER|||||||0.8434|||||||Wilcoxon (Mann-Whitney)|||||||0.8434
82591491|NCT02170779|164897125|SUPERIORITY_OR_OTHER|||||||0.638|||||||Wilcoxon (Mann-Whitney)|||||||0.638
82591492|NCT02170779|164897126|SUPERIORITY_OR_OTHER|||||||0.492|||||||Wilcoxon (Mann-Whitney)|||||||0.492
82591493|NCT02170779|164897127|SUPERIORITY_OR_OTHER|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||This analysis refers to the physical component of the MSIS-29||||0.144
82591494|NCT02170779|164897127|SUPERIORITY_OR_OTHER|||||||0.953|||||||Wilcoxon (Mann-Whitney)|||This refers to the psychological analysis for the MSIS-29.||||0.953
82653843|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.6426|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 01||||0.6426
82653844|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.3843|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 02||||.3843
82653845|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.2792|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 03||||0.2792
82653846|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.1502|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 04||||0.1502
82653847|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.3823|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 05||||0.3823
82653848|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.5528|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 06||||0.5528
82653849|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.02913|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 07||||.02913
82377502|NCT00699816|164462132|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.01|TWO_SIDED|95.0|0.43|0.94|||Log Rank|||||0.94|0.43|0.01
82499946|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-32.6|34.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||34.3|-32.6|
82591495|NCT02170779|164897128|SUPERIORITY_OR_OTHER|||||||0.915|||||||Wilcoxon (Mann-Whitney)|||||||0.915
82591496|NCT02170779|164897129|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||||||0.023
82591497|NCT02170779|164897130|SUPERIORITY_OR_OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82591498|NCT00369785|164897131|SUPERIORITY_OR_OTHER_LEGACY|||||||0.62||||||Not adjusted for multiple comparisons.|Mixed Models Analysis|||Null Hypothesis: No difference in immediate recall memory at 24 weeks||||.62
82591499|NCT00369785|164897132|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||||||Not adjusted for multiple comparisons.|Mixed Models Analysis|||Null Hypothesis: No difference in discrimination memory between the two groups||||.007
82591500|NCT00800683|164897133|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|-0.89|-0.31|||ANCOVA|||For patients who received rescue medication during the course of the trial, the Oracle Clinical (OC) technique was utilised for all efficacy endpoints and the values were set to missing after the rescue medication was administered.||-0.31|-0.89|< 0.0001
82591501|NCT00800683|164897134|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-1.03|-0.41|||ANCOVA|||||-0.41|-1.03|< 0.0001
82591502|NCT00800683|164897135|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.9|-0.33|||ANCOVA|||||-0.33|-0.90|< 0.0001
82591503|NCT00800683|164897136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001||95.0|-0.96|-0.41|||ANCOVA|||||-0.41|-0.96|< 0.0001
82591504|NCT00800683|164897137|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001||95.0|-1.05|-0.39|||ANCOVA|||||-0.39|-1.05|< 0.0001
82591505|NCT00800683|164897138|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-1.06|-0.44|||ANCOVA|||||-0.44|-1.06|< 0.0001
82591506|NCT00800683|164897139|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001||95.0|-0.96|-0.33|||ANCOVA|||||-0.33|-0.96|< 0.0001
82653850|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.3896|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 08||||0.3896
82653851|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.3989|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 09||||0.3989
82653852|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.8682|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 10||||0.8682
82653853|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.8083|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 11||||0.8083
82653854|NCT01656889|165022979|SUPERIORITY_OR_OTHER|||||||0.6687|TWO_SIDED||||||Cochran-Mantel-Haenszel|||Treatment Week 12||||0.6687
82653855|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.3601|TWO_SIDED||||||ANCOVA|||Week 01||||0.3601
82653856|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.9398|TWO_SIDED||||||ANCOVA|||Week 02||||0.9398
82653857|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.905|TWO_SIDED||||||ANCOVA|||Week 03||||0.905
82653858|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.4471|TWO_SIDED||||||ANCOVA|||Week 04||||0.4471
82653859|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.3004|TWO_SIDED||||||ANCOVA|||Week 05||||0.3004
82653860|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.1815|TWO_SIDED||||||ANCOVA|||Week 06||||0.1815
82653861|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.399|TWO_SIDED||||||ANCOVA|||Week 07||||0.399
82653862|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.8027|TWO_SIDED||||||ANCOVA|||Week 08||||0.8027
82653863|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.4913|TWO_SIDED||||||ANCOVA|||Week 09||||0.4913
82591507|NCT00800683|164897140|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001||95.0|-1.02|-0.44|||ANCOVA|||||-0.44|-1.02|< 0.0001
82591508|NCT00800683|164897141|SUPERIORITY_OR_OTHER|||||||0.1199||95.0||||P-value calculated using a Fisher's exact Test.|Fisher Exact|||||||0.1199
82591509|NCT00800683|164897142|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.103||||0.2225||95.0|0.003|3.978|||Regression, Logistic|||Linagliptin vs Placebo. The odds-ratio is based on a logistic regression model including baseline HbA1c, previous anti-diabetic medication and creatinine clearance||3.978|0.003|0.2225
82591510|NCT00800683|164897143|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.816||||0.8927|TWO_SIDED|95.0|0.042|15.756|||Regression, Logistic|||Linagliptin vs Placebo. The odds-ratio is based on a logistic regression model including baseline HbA1c, previous anti-diabetic medication and creatinine clearance||15.756|0.042|0.8927
82591511|NCT00800683|164897144|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73|STANDARD_ERROR_OF_MEAN|11.43||0.8802||95.0|-24.36|20.91|||ANCOVA|||||20.91|-24.36|0.8802
82591512|NCT00800683|164897145|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.24|STANDARD_ERROR_OF_MEAN|8.19||0.7848||95.0|-18.47|13.98|||ANCOVA|||||13.98|-18.47|0.7848
82591513|NCT00800683|164897146|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.72|STANDARD_ERROR_OF_MEAN|8.09||0.1878||95.0|-26.74|5.31|||ANCOVA|||||5.31|-26.74|0.1878
82591514|NCT00800683|164897147|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.42|STANDARD_ERROR_OF_MEAN|7.92||0.5781||95.0|-11.28|20.12|||ANCOVA|||||20.12|-11.28|0.5781
82591515|NCT00800683|164897148|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.24|STANDARD_ERROR_OF_MEAN|8.8||0.2954||95.0|-26.67|8.18|||ANCOVA|||||8.18|-26.67|0.2954
82591516|NCT00800683|164897149|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.37|STANDARD_ERROR_OF_MEAN|8.27||0.5984||95.0|-12.02|20.75|||ANCOVA|||||20.75|-12.02|0.5984
82653864|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.5227|TWO_SIDED||||||ANCOVA|||Week 10||||0.5227
82653865|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.7032|TWO_SIDED||||||ANCOVA|||Week 11||||0.7032
82653866|NCT01656889|165022981|SUPERIORITY_OR_OTHER|||||||0.9366|TWO_SIDED||||||ANCOVA|||||||0.9366
82653867|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.9853|TWO_SIDED||||||ANCOVA|||Week 01||||0.9853
82653868|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.7083|TWO_SIDED||||||ANCOVA|||Week 02||||0.7083
82653869|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.6744|TWO_SIDED||||||ANCOVA|||Week 03||||0.6744
82591517|NCT00800683|164897150|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.07|STANDARD_ERROR_OF_MEAN|8.53||0.4085||95.0|-9.82|23.96|||ANCOVA|||||23.96|-9.82|0.4085
82591518|NCT00800683|164897151|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|8.17||0.8698||95.0|-14.84|17.52|||ANCOVA|||||17.52|-14.84|0.8698
82591519|NCT03492554|164897173|OTHER||||||<|0.0001|||||||1 sided exact binomial test|||H0: Specificity = 92% H1: Specificity \> 92 Under the assumption that the true population specificity is 96.5%, 226 subjects who were diagnosed with SR based on the 12-lead ECG reference strip and where the device algorithm classification produced a result of AF or SR was calculated to provide at least 80% power to reject its null hypothesis, using a one-sided type I error of 0.025. To obtain readable waveforms approximately 300 subjects with no known diagnosis of AF were enrolled.||||<0.0001
82591520|NCT03492554|164897174|OTHER||||||<|0.0001|||||||1 sided exact binomial test|||H0: Sensitivity = 90% H1: Sensitivity \> 90% Under the assumption that the true population sensitivity is 95%, 231 subjects who were diagnosed with AF based on the 12-lead ECG reference strip and where the device algorithm classification produced a result of AF or SR was calculated to provide at least 80% power to reject the null hypothesis, using a one-sided type I error of 0.025. To obtain readable waveforms, a minimum of 260 subjects with a known diagnosis of AF were enrolled.||||<0.0001
82591521|NCT03492554|164897175|OTHER||||||<|0.0001|||||||1 sided exact binomial|||H0: agreement proportion of visual display= 0.8 H1: agreement proportion of visual display\> 0.8 Under the assumption that the true population agreement proportion of visual display was 90%, 88 subjects would provide at least 80% power to reject the null hypothesis using a one-sided type I error of 0.05. To account for obtaining readable waveforms, approximately 140 subjects (70 SR; 70 AF) were randomly selected.||||<0.0001
82653870|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.2891|TWO_SIDED||||||ANCOVA|||||||0.2891
82653871|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.9923|TWO_SIDED||||||ANCOVA|||Week 05||||0.9923
82653872|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.1775|TWO_SIDED||||||ANCOVA|||Week 06||||0.1775
82653873|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.499|TWO_SIDED||||||ANCOVA|||Week 07||||0.499
82653874|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.4423|TWO_SIDED||||||ANCOVA|||Week 08||||0.4423
82653875|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.5138|TWO_SIDED||||||ANCOVA|||Week 09||||0.5138
82653876|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.3409|TWO_SIDED||||||ANCOVA|||Week 10||||0.3409
82653877|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.6358|TWO_SIDED||||||ANCOVA|||Week 11||||0.6358
82653878|NCT01656889|165022982|SUPERIORITY_OR_OTHER|||||||0.6753|TWO_SIDED||||||ANCOVA|||Week 12||||0.6753
82653879|NCT01656889|165022983|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Kaplan-Meier Survival analysis|||||||< 0.05
82653880|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|1.13|1.78|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.78|1.13|
82653881|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0|0.93|1.52|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.52|0.93|
82653882|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53|||||TWO_SIDED|95.0|0.78|2.98|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||2.98|0.78|
82591522|NCT03492554|164897176|OTHER||||||<|0.0001|||||||1 sided exact binomial|||H0: agreement proportion of R wave amplitude = 0.8 H1: agreement proportion of R wave amplitude \> 0.8 Under the assumption that the true population agreement proportion of R wave amplitude was 90%, 88 subjects would provide at least 80% power to reject the null hypothesis using a one-sided type I error of 0.05. To account for obtaining readable waveforms, approximately 140 subjects (70 SR; 70 AF) were randomly selected.||||<0.0001
82591523|NCT01010633|164897187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.3|||<|0.001|TWO_SIDED|95.0|5.7|22.9|||Chi-squared|||||22.9|5.7|<0.001
82591524|NCT01010633|164897189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.0|||<|0.001|TWO_SIDED|95.0|21.4|40.7|||Chi-squared|||||40.7|21.4|<0.001
82591525|NCT00097773|164897206|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.86|TWO_SIDED|95.0|0.54|1.66||There was no significant interaction with ciprofloxacin in this analysis.|Regression, Cox||risk of exacerbation comparing cycled therapy to culture-based therapy|The primary analysis compared the pooled Cycled Therapy group (n=152) vs. the Pooled culture-based therapy group (n=152). The null hypothesis was no difference between groups in the risk of pulmonary exacerbation requiring IV antibiotics or hospitalization. Assuming a total sample size of 300 (150 per group), the study provided 80% power to detect at least a 40% reduction in the risk of exacerbation in the cycled group as compared to the culture-based group at the two-sided alpha level of 5%.||1.66|0.54|0.86
82591526|NCT00097773|164897206|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.2|TWO_SIDED|95.0|0.82|2.54|||Regression, Cox||risk of exacerbation comparing oral cipro to oral placebo|A secondary comparison was between the pooled oral cipro (n=152)and pooled placebo groups (n=152. Null hypothesis was no difference between groups.||2.54|0.82|0.20
82591527|NCT00097773|164897207|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.28||95.0|0.49|1.23|||Regression, Logistic|No interaction with ciprofloxacin usage was observed.|odds of a positive culture comparing cycled therapy to culture-based therapy|Null hypothesis is that there is no difference between pooled cycled and culture-based treatment groups in the odds of a Pa positive culture over the 18 month study.||1.23|0.49|0.28
82591528|NCT00097773|164897207|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.1||||0.67|TWO_SIDED|95.0|0.71|1.71|||Regression, Logistic||odds of a positive culture comparing the cipro group to the placebo group|Null hypothesis is that there is no difference between pooled cipro and placebo treatment groups in the odds of a Pa positive culture over the 18 month study.||1.71|0.71|0.67
82591529|NCT00097773|164897208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.18|TWO_SIDED|95.0|0.58|1.11|||Regression, Cox|No interaction with ciprofloxacin usage was observed.|Hazard ratio comparing cycled to culture based therapy|The analysis compared the pooled Cycled Therapy group (n=152) vs. the Pooled culture-based therapy group (n=152). The null hypothesis was no difference between groups in the risk of pulmonary exacerbation.||1.11|0.58|0.18
82591530|NCT00097773|164897208|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.12|TWO_SIDED|95.0|0.94|1.78|||Regression, Cox||Hazard ratio comparing cipro to placebo.|This analysis was between the pooled oral cipro (n=152)and pooled placebo groups (n=152. Null hypothesis was no difference between groups.||1.78|0.94|0.12
82591531|NCT04305275|164897209|SUPERIORITY||Least Squares (LS) Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.533||0.0491|TWO_SIDED|95.0|-2.14|0.0|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||||0.00|-2.14|0.0491
82591532|NCT04305275|164897210|SUPERIORITY||LS mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.398||0.0468|TWO_SIDED|95.0|-1.6|-0.01|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||-0.01|-1.60|0.0468
82591533|NCT04305275|164897210|SUPERIORITY||LS mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.467||0.3124|TWO_SIDED|95.0|-1.41|0.46|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||0.46|-1.41|0.3124
82591534|NCT04305275|164897210|SUPERIORITY||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.605||0.5148|TWO_SIDED|95.0|-1.61|0.81|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||0.81|-1.61|0.5148
82653883|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|0.74|2.89|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||2.89|0.74|
82591535|NCT04305275|164897210|SUPERIORITY||LS mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.59||0.6452|TWO_SIDED|95.0|-1.45|0.91|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||0.91|-1.45|0.6452
82591536|NCT04305275|164897210|SUPERIORITY||LS mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.482||0.1171|TWO_SIDED|95.0|-1.73|0.2|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||0.20|-1.73|0.1171
82591537|NCT04305275|164897210|SUPERIORITY||LS mean difference|0.62|STANDARD_ERROR_OF_MEAN|0.557||0.2724|TWO_SIDED|95.0|-0.5|1.73|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||1.73|-0.50|0.2724
82591538|NCT04305275|164897211|SUPERIORITY||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.658||0.8784|TWO_SIDED|95.0|-1.42|1.21|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||1.21|-1.42|0.8784
82377503|NCT00699816|164462133|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.21||||0.008|TWO_SIDED|95.0|0.06|0.75|||Log Rank|||||0.75|0.06|0.008
82377504|NCT00699816|164462134|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.19||||0.02|TWO_SIDED|95.0|0.04|0.87|||Log Rank|||||0.87|0.04|0.02
82591539|NCT04305275|164897211|SUPERIORITY||LS mean difference|0.93|STANDARD_ERROR_OF_MEAN|0.687||0.1795|TWO_SIDED|95.0|-0.44|2.3|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||2.30|-0.44|0.1795
82653884|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01|||||TWO_SIDED|95.0|0.18|22.14|||||Undadjusted Odds Ratio. Reference Group: TZD alone.|||22.14|0.18|
82591540|NCT04305275|164897211|SUPERIORITY||LS mean difference|-0.49|STANDARD_ERROR_OF_MEAN|0.829||0.5588|TWO_SIDED|95.0|-2.15|1.17|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||1.17|-2.15|0.5588
82591541|NCT04305275|164897211|SUPERIORITY||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.796||0.5036|TWO_SIDED|95.0|-1.06|2.13|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||2.13|-1.06|0.5036
82591542|NCT04305275|164897211|SUPERIORITY||LS mean difference|0.32|STANDARD_ERROR_OF_MEAN|0.736||0.6636|TWO_SIDED|95.0|-1.15|1.79|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||1.79|-1.15|0.6636
82591543|NCT04305275|164897211|SUPERIORITY||LS mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.756||0.3999|TWO_SIDED|95.0|-0.87|2.15|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||2.15|-0.87|0.3999
82591544|NCT04305275|164897211|SUPERIORITY||LS mean difference|0.67|STANDARD_ERROR_OF_MEAN|0.776||0.3933|TWO_SIDED|95.0|-0.88|2.22|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||2.22|-0.88|0.3933
82591545|NCT04305275|164897212|SUPERIORITY||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.167||0.0193|TWO_SIDED|95.0|-5.14|-0.47|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||-0.47|-5.14|0.0193
82591546|NCT04305275|164897212|SUPERIORITY||LS mean difference|-2.95|STANDARD_ERROR_OF_MEAN|1.277||0.0243|TWO_SIDED|95.0|-5.51|-0.4|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15||-0.40|-5.51|0.0243
82591547|NCT04305275|164897212|SUPERIORITY||LS mean difference|-2.56|STANDARD_ERROR_OF_MEAN|1.209||0.0385|TWO_SIDED|95.0|-4.98|-0.14|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||-0.14|-4.98|0.0385
82591548|NCT04305275|164897212|SUPERIORITY||LS mean difference|-1.37|STANDARD_ERROR_OF_MEAN|1.221||0.2682|TWO_SIDED|95.0|-3.81|1.08|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||1.08|-3.81|0.2682
82591549|NCT04305275|164897212|SUPERIORITY||LS mean difference|1.13|STANDARD_ERROR_OF_MEAN|1.233||0.3649|TWO_SIDED|95.0|-1.34|3.59|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||3.59|-1.34|0.3649
82591550|NCT04305275|164897213|SUPERIORITY||LS mean difference|-1.26|STANDARD_ERROR_OF_MEAN|1.078||0.2478|TWO_SIDED|95.0|-3.41|0.9|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 8||0.90|-3.41|0.2478
82591551|NCT04305275|164897213|SUPERIORITY||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|1.192||0.4486|TWO_SIDED|95.0|-3.29|1.47|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, Pre-dose||1.47|-3.29|0.4486
82591552|NCT04305275|164897213|SUPERIORITY||LS mean difference|-1.52|STANDARD_ERROR_OF_MEAN|1.352||0.2662|TWO_SIDED|95.0|-4.22|1.19|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 5 Hours Post-dose||1.19|-4.22|0.2662
82653885|NCT01055223|165022985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.12|15.5|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||15.50|0.12|
82591553|NCT04305275|164897213|SUPERIORITY||LS mean difference|0.01|STANDARD_ERROR_OF_MEAN|1.282||0.9965|TWO_SIDED|95.0|-2.56|2.57|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 15, 8 Hours Post-dose||2.57|-2.56|0.9965
82591554|NCT04305275|164897213|SUPERIORITY||LS mean difference|-0.24|STANDARD_ERROR_OF_MEAN|1.222||0.8437|TWO_SIDED|95.0|-2.68|2.2|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 22||2.20|-2.68|0.8437
82653886|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41|||||TWO_SIDED|95.0|1.05|1.89|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.89|1.05|
82377505|NCT01569295|164462138|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.0001|TWO_SIDED|95.0|0.27|0.45|||Stratified log-rank test||Hazard Ratio is estimated using Cox proportional hazard model, adjusted for randomization stratification factors.|||0.45|0.27|< 0.0001
82591555|NCT04305275|164897213|SUPERIORITY||LS mean difference|-0.32|STANDARD_ERROR_OF_MEAN|1.232||0.796|TWO_SIDED|95.0|-2.78|2.14|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 29||2.14|-2.78|0.7960
82591556|NCT04305275|164897213|SUPERIORITY||LS mean difference|2.28|STANDARD_ERROR_OF_MEAN|1.119||0.0456|TWO_SIDED|95.0|0.05|4.52|||MMRM|MMRM model included treatment, baseline score, assessment timepoint, \& timepoint-by-treatment as explanatory variables, treated as fixed effects.||Change From Baseline at Day 42||4.52|0.05|0.0456
82591557|NCT02243865|164897216|SUPERIORITY|||||||0.6938|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||||||0.6938
82591558|NCT02243865|164897217|SUPERIORITY|||||||0.6557|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 1st month of the three month post treatment investigation duration||||0.6557
82653887|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.88|1.65|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.65|0.88|
82591559|NCT02243865|164897217|SUPERIORITY|||||||0.515|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 2nd month of the three month post treatment investigation duration||||0.515
82591560|NCT02243865|164897217|SUPERIORITY|||||||0.3256|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the 3rd month of the three month post treatment investigation duration||||0.3256
82591561|NCT02243865|164897217|SUPERIORITY|||||||0.4086|||||||ANCOVA|In the analyses the baseline value was used as a covariate in order to adjust for initial differences at treatment start.||Null hypothesis: There is no difference between the active treatment and placebo groups in change from baseline in number of migraine days during the final four weeks of the three month post treatment investigation duration.||||0.4086
82591562|NCT00053703|164897236|SUPERIORITY_OR_OTHER|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82591563|NCT01500525|164897242|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.0|||<|0.05|ONE_SIDED|95.0|||||Regression, Cox|||||||<0.05
82591564|NCT01660451|164897259|SUPERIORITY_OR_OTHER_LEGACY||Response rate|45.45||||0.0001|TWO_SIDED|90.0|30.49|61.06||0.0001|Exact binomial test|||Response rate was statistically compared by exact binomial test if higher than 5%.||61.06|30.49|0.0001
82591565|NCT01660451|164897259|SUPERIORITY_OR_OTHER_LEGACY||Response rate|27.08||||0.0001|TWO_SIDED|90.0|16.83|39.57||0.0001|Exact binominal test|P-value was based on the original patients in the aggressive arm (for the first 34 patients), not including the additional recruited patients.||Response rate was statistically compared by exact binomial test if higher than 5%.||39.57|16.83|0.0001
82591566|NCT01660451|164897260|SUPERIORITY_OR_OTHER_LEGACY||Response rate|59.15|||<|0.0001|TWO_SIDED|95.0|50.6|67.32||0.001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 40%.||67.32|50.60|<0.0001
82591567|NCT01660451|164897261|SUPERIORITY_OR_OTHER_LEGACY||Response rate|46.88||||0.0001|TWO_SIDED|90.0|31.54|62.66||0.0001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 5%.||62.66|31.54|0.0001
82591568|NCT01660451|164897261|SUPERIORITY_OR_OTHER_LEGACY||Response rate|31.25||||0.0001|TWO_SIDED|90.0|20.35|43.97||0.0001|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 5%.||43.97|20.35|0.0001
82591569|NCT01660451|164897262|SUPERIORITY_OR_OTHER_LEGACY||Response rate|51.41||||0.0039|TWO_SIDED|95.0|42.88|59.87||0.01|Exact binominal test|||Response rate was statistically compared by exact binomial test if higher than 40%.||59.87|42.88|0.0039
82591570|NCT01660451|164897273|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimate|1.0|||||TWO_SIDED|95.0|0.5|2.5||||||Hodges-Lehmann-estimate was used to calculate change to Week 16 and 95% confidence interval.||2.5|0.5|
82591571|NCT01660451|164897274|SUPERIORITY_OR_OTHER_LEGACY||Hodges-Lehmann-estimate|0.5|||||TWO_SIDED|95.0|-0.7|3.2||||||Hodges-Lehmann-estimate was used to calculate change to Week 16 and 95% confidence interval.||3.2|-0.7|
82591572|NCT00074581|164897298|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.07|||<|0.0001|TWO_SIDED|95.0|0.02|0.22|||Regression, Cox||The hazard ratio estimate presented (0.07) is a comparison of the early-ART arm (numerator) to the delayed-ART arm (denominator), thus indicating a 93% lower risk of infection among all linked partner infections, during the entire study.|||0.22|0.02|<0.0001
82591573|NCT00074581|164897299|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.31|||<|0.0001|TWO_SIDED|95.0|0.19|0.53|||Regression, Cox||The hazard ratio estimate presented (0.31) is a comparison of the early-ART arm (numerator) to the delayed-ART arm (denominator), thus indicating a 69% lower risk of infection among all partner infections, during the entire study.|||0.53|0.19|<0.0001
82591574|NCT01353079|164897300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.834|||<|0.05|TWO_SIDED|95.0|-1.298|-0.369|||ANCOVA|||||-0.369|-1.298|<0.05
82591575|NCT01353079|164897301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.857|||<|0.05|TWO_SIDED|95.0|-1.388|-0.326|||ANCOVA|||||-0.326|-1.388|<0.05
82591576|NCT01353079|164897302|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.771|||<|0.05|TWO_SIDED|95.0|-1.213|-0.329|||ANCOVA|||||-0.329|-1.213|<0.05
82653888|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.58|||||TWO_SIDED|95.0|0.69|3.6|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||3.60|0.69|
82591577|NCT01353079|164897303|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.788|||<|0.05|TWO_SIDED|95.0|-1.291|-0.284|||ANCOVA|||||-0.284|-1.291|<0.05
82591578|NCT03086265|164897313|OTHER|||||||0.7934|||||||t-test, 2 sided|||||||0.7934
82591579|NCT03086265|164897322|OTHER|||||||0.6876|||||||t-test, 2 sided|||||||0.6876
82591580|NCT03086265|164897323|OTHER|||||||0.7549|||||||t-test, 2 sided|||||||0.7549
82591581|NCT03086265|164897324|OTHER|||||||0.6479|||||||t-test, 2 sided|||||||0.6479
82591582|NCT03086265|164897325|OTHER|||||||0.8322|||||||t-test, 2 sided|||||||0.8322
82591583|NCT03086265|164897327|OTHER|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
82591584|NCT03086265|164897328|OTHER|||||||0.3346|||||||t-test, 2 sided|||||||0.3346
82591585|NCT03086265|164897329|OTHER|||||||0.5513|||||||t-test, 2 sided|||||||0.5513
82591586|NCT03086265|164897330|OTHER|||||||0.1927|||||||t-test, 2 sided|||||||0.1927
82591587|NCT03086265|164897331|OTHER|||||||0.6483|||||||t-test, 2 sided|||||||0.6483
82591588|NCT03086265|164897332|OTHER|||||||0.5625|||||||t-test, 2 sided|||||||0.5625
82591589|NCT03086265|164897333|OTHER|||||||0.2827|||||||t-test, 2 sided|||||||0.2827
82591590|NCT03086265|164897334|OTHER|||||||0.8426|||||||t-test, 2 sided|||||||0.8426
82591591|NCT03086265|164897335|OTHER|||||||0.9856|||||||t-test, 2 sided|||||||0.9856
82591592|NCT03086265|164897336|OTHER|||||||0.8112|||||||t-test, 2 sided|||||||0.8112
82591593|NCT03086265|164897337|OTHER|||||||0.6587|||||||t-test, 2 sided|||||||0.6587
82591594|NCT03086265|164897338|OTHER|||||||0.4143|||||||t-test, 2 sided|||||||0.4143
82591595|NCT03086265|164897339|OTHER|||||||0.4324|||||||t-test, 2 sided|||||||0.4324
82591596|NCT03086265|164897340|OTHER|||||||0.7221|||||||t-test, 2 sided|||Comparison of preoperative scores.||||0.7221
82653889|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.63|||||TWO_SIDED|95.0|0.7|3.81|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||3.81|0.70|
82591597|NCT03086265|164897340|OTHER|||||||0.0336|||||||t-test, 2 sided|||Comparison of postoperative scores.||||0.0336
82591598|NCT05293743|164897348|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.67||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 3.82.||The null hypothesis is that there is no difference in brace adherence fractions between the control arm and the experimental arm during the study's intervention period. In this test, brace wear was measured by parent-reported brace logs.||||0.67
82591599|NCT05293743|164897348|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.23||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 3.70.||The null hypothesis is that there is no difference in brace adherence fractions between the control arm and the experimental arm during the study's intervention period. In this test, brace wear was measured by iButton temperature sensors.||||0.23
82591600|NCT05293743|164897349|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.86||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 6.68.||The null hypothesis is that there is no difference in brace adherence fractions when the experimental arm is wearing the Dynamic Bar versus the Standard Bar during the study period. In this test, brace wear was measured by parent-reported brace logs.||||0.86
82591601|NCT05293743|164897349|EQUIVALENCE|This analysis uses Welch's t-tests to calculate statistical significance, given the different variances and sample sizes of the populations.||||||0.21||||||The threshold for statistical significance was p = 0.05.|t-test, 2 sided|Degrees of Freedom = 6.94.||The null hypothesis is that there is no difference in brace adherence fractions when the experimental arm is wearing the Dynamic Bar versus the Standard Bar during the study period. In this test, brace wear was measured by iButton temperature sensors.||||0.21
82591602|NCT02064920|164897354|SUPERIORITY_OR_OTHER||Change in SD from Week 4 to Week 16|0.005|||||TWO_SIDED|95.0|-0.031|0.039|||||SD of average OCL repeated measurements after 12 weeks of treatment for Placebo + Donezepil treatment groups combined is hypothesized to be ≤ 0.1.|Change from Week 4 to Week 16 in Standard Deviation (SD) of OCL for Placebo + Donezepil treatment groups combined||0.039|-0.031|
82591603|NCT02414399|164897379|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.58|TWO_SIDED|95.0|0.64|1.29||Alpha =0.045 (to account for .005 alpha spending at interim analysis)|Regression, Cox||azithromycin is the numerator and placebo is the denominator|Death or rehospitalization||1.29|.64|0.58
82591604|NCT02414399|164897379|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.49|TWO_SIDED|95.0|0.39|1.58|||Regression, Cox||Azithromycin-numerator and placebo-denominator|Death alone||1.58|0.39|0.49
82591605|NCT02414399|164897379|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.7|1.47|||Regression, Cox||numerator-azithromycin denominator-placebo|Rehospitalization alone||1.47|.70|.94
82591606|NCT02414399|164897387|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.77|||||||Chi-squared|||M0||||0.77
82591607|NCT02414399|164897387|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.088|||||||Chi-squared|||Month 3||||0.088
82591608|NCT02414399|164897387|SUPERIORITY|We modelled azithromycin resistance in E coli at baseline, 3 months, and 6 months of follow-up by randomisation group using generalised estimating equations with a Poisson link and exchangeable correlation structure, including site in the model. Models included an interaction term between randomisation group and follow-up timepoint (month 3 or month 6) to test whether an effect on resistance waned with time.||||||0.44|||||||Chi-squared|||M6||||0.44
82591609|NCT04490395|164897422|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.044|TWO_SIDED|95.0|-0.26|3.62|||t-test, 2 sided|||||3.62|-0.26|0.044
82591610|NCT04490395|164897423|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.056|TWO_SIDED|95.0|-0.15|1.33|||t-test, 2 sided|||||1.33|-0.15|0.056
82591611|NCT04490395|164897424|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.377|TWO_SIDED|95.0|-1.75|1.28|||t-test, 2 sided|||||1.28|-1.75|0.377
82591612|NCT04490395|164897425|SUPERIORITY|Within subjects change over time|F test (1,15) df|1.381||||0.258|TWO_SIDED||||||ANOVA|Change over time||Only 9 cases had any data available per group, and some had missing values and were not included in each analysis.|Within subjects change over time.|||0.258
82591613|NCT04490395|164897425|SUPERIORITY|Between group analysis|F test (1,15) df|0.246||||0.627|TWO_SIDED||||||ANOVA||||Between group analysis|||0.627
82591614|NCT04490395|164897425|SUPERIORITY||F test (1,15) df|0.005||||0.947|TWO_SIDED||||||ANOVA|||Time x Condition interaction|Time x Condition interaction|||0.947
82591615|NCT04490395|164897426|SUPERIORITY||Mean Difference (Final Values)|-0.88||||0.038|TWO_SIDED|95.0|-1.85|0.98|||t-test, 2 sided|||||0.98|-1.85|0.038
82591616|NCT04490395|164897427|SUPERIORITY||Mean Difference (Final Values)|-2.56||||0.07|TWO_SIDED|95.0|-6.05|0.94|||t-test, 2 sided|||||0.94|-6.05|0.07
82591617|NCT04490395|164897428|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.43|TWO_SIDED|95.0|-1.19|1.42|||t-test, 2 sided|||||1.42|-1.19|0.43
82591618|NCT04490395|164897429|SUPERIORITY||Mean Difference (Final Values)|-0.029||||0.72|TWO_SIDED|95.0|-0.194|1.42|||t-test, 2 sided|||||1.42|-.194|0.72
82653890|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82591619|NCT04490395|164897430|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.341|TWO_SIDED|95.0|-0.35|0.23|||t-test, 2 sided|||||0.23|-0.35|0.341
82591620|NCT04490395|164897431|SUPERIORITY||Mean Difference (Final Values)|-0.059||||0.25|TWO_SIDED|95.0|-2.35|1.17|||t-test, 2 sided|||||1.17|-2.35|0.25
82653891|NCT01055223|165022986|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82591621|NCT01901575|164897471|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.65|STANDARD_ERROR_OF_MEAN|0.75||0.05|TWO_SIDED|0.15|0.65|0.8|||Fisher Exact|||"null hypothesis:~Remifentanil IVPCA sedation in patients undergoing ablation of the idiopathic ventricular tachycardia does not cause suppression of PVC's"||0.8|0.65|0.05
82591622|NCT04746833|164897478|EQUIVALENCE|mean of Summit will be equal to mean of control||||||0.91|||||||t-test, 2 sided|||||||.91
82591623|NCT04746833|164897479|OTHER|||||||||||||||||descriptive statistic of system use|simple descriptive findings for evaluation of feasibility of the Sumit app|||
82591624|NCT04746833|164897480|EQUIVALENCE|standard null hypothesis of no difference between groups||||||0.5|||||||t-test, 2 sided|||||||.50
82591625|NCT00003895|164897486|SUPERIORITY_OR_OTHER||||||<|0.001||||||Post versus Pre-treatment % g209-2M-specific t-cells|t-test, 2 sided|||||||<.001
82591626|NCT00003895|164897486|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Post versus Pre-Treatment %g209-2M-specific T-cells|t-test, 2 sided|||||||<.0001
82591627|NCT00003895|164897486|SUPERIORITY_OR_OTHER|||||||0.59||||||Arm A Versus Arm B|t-test, 2 sided|||||||0.59
82591628|NCT01735279|164897490|OTHER|Test t Student|Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82591629|NCT01735279|164897490|SUPERIORITY||Mean Difference (Final Values)|30.84|||<|0.01|ONE_SIDED|95.0|||||ANOVA|||||||<0.01
82591630|NCT01735279|164897490|SUPERIORITY||Mean Difference (Final Values)|0.002|||<|0.01|TWO_SIDED||||||t-test, 1 sided|||||||<0.01
82591631|NCT01735279|164897490|SUPERIORITY||Mean Difference (Final Values)|4.4|||<|0.01|ONE_SIDED||||||t-test, 1 sided|||||||<0.01
82591632|NCT01195090|164897515|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.16||0.165|TWO_SIDED|95.0|-0.58|0.08||The change from baseline in A1C were determined using an analysis of co-variance (ANCOVA) model with the factor 'treatment' and baseline A1C as covariate.|ANCOVA|||The change from baseline in A1C were determined using an analysis of co-variance (ANCOVA) model with the factor 'treatment' and baseline A1C as covariate.||0.08|-0.58|0.165
82591633|NCT01195090|164897531|NON_INFERIORITY_OR_EQUIVALENCE|Chi-square test|Chi-Square|0.0034||||0.954||||||Chi-square test|Chi-squared|||Chi-square test for percentages of patient achieving an A1C \<7%||||0.954
82591634|NCT01205230|164897547|SUPERIORITY_OR_OTHER||Ratio of least square geometric means|1.66|||||TWO_SIDED|90.0|1.39|1.99|||||Ratio of least square (LS) geometric means (Pazopanib + Ketoconozole : Pazopanib alone)|||1.99|1.39|
82591635|NCT01205230|164897547|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|0.6|||||TWO_SIDED|90.0|0.52|0.7|||||Ratio of LS geometric means (Pazopanib + Esomeprazole : Pazopanib alone)|||0.70|0.52|
82591636|NCT01205230|164897548|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|1.45|||||TWO_SIDED|90.0|1.14|1.86|||||Ratio of LS geometric means (Pazopanib + Ketoconozole : Pazopanib alone)|||1.86|1.14|
82591637|NCT01205230|164897548|SUPERIORITY_OR_OTHER||Ratio of LS geometric means|0.58|||||TWO_SIDED|90.0|0.5|0.67|||||Ratio of LS geometric means (Pazopanib + Esomeprazole : Pazopanib alone)|||0.67|0.50|
82591638|NCT01205230|164897549|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.45|||||TWO_SIDED|90.0|-1.06|0.06||||||||0.06|-1.06|
82591639|NCT01205230|164897549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|||||TWO_SIDED|90.0|-0.1|2.44||||||||2.44|-0.10|
82591640|NCT04784897|164897557|SUPERIORITY||Cox Proportional Hazard|0.9289||||0.7273|TWO_SIDED|90.0|0.6585|1.3102|||Log Rank|||Main comparison is between Brilacidin 5-dose and Pooled Placebo||1.3102|0.6585|0.7273
82591641|NCT04784897|164897557|SUPERIORITY||Cox Proportional Hazard|0.8968||||0.5975|TWO_SIDED|90.0|0.5464|1.472|||Log Rank|||Secondary comparison between Brilacidin 3-dose and Pooled Placebo||1.4720|0.5464|0.5975
82591642|NCT02665052|164897576|SUPERIORITY|||||||0.64||||||The primary analysis was a two sample t-test (alpha=0.05) of the mean WMFT log-time change at 6 weeks. The threshold for statistical significance was p-value = 0.05.|t-test, 2 sided|||78 participants were needed to generate a sample size of 22 per group and provide 80% power to detect a between group difference in mean Wolf time change (6 week - baseline) based on an a priori assumption of a mean change of 0 and 7.4 seconds respectively for the delayed entry usual care control and home-based BATRAC group; a SD of 7.6 and discontinuation rate of 15%.||||0.64
82591643|NCT02665052|164897577|SUPERIORITY|||||||0.01||||||The lab-based group had significant within group mean Fugl-Meyer (FM) change at week 6.|ANOVA|Dunnett's adjustments were used to compare the active intervention changes to the delayed-entry usual care control group.||Within group changes from baseline to week 6 were assessed using analysis of variance.||||0.01
82591644|NCT02665052|164897577|SUPERIORITY|||||||0.97|||||||ANOVA|||FM change was analyzed using analysis of variance followed by Dunnett's adjustment for between group comparisons in the home-based BATRAC group compared to the delayed-entry control.||||0.97
82591645|NCT02665052|164897578|SUPERIORITY|||||||0.31|||||||ANOVA|||Within group SIS hand changes from baseline to week 6 were assessed using analysis of variance followed by comparisons to the delayed-entry usual care control using Dunnett's adjustment.||||0.31
82591646|NCT02234284|164897579|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.35|TWO_SIDED|95.0|-0.15|0.43|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.43|-.15|.35
82653892|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29|||||TWO_SIDED|95.0|0.92|1.79|||||Unadjusted Odds Ratio. Reference Group: TZD alone.|||1.79|0.92|
82591647|NCT02234284|164897580|SUPERIORITY||Mean Difference (Net)|0.26||||0.2|TWO_SIDED|95.0|-0.13|0.65|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.65|-.13|.20
82591648|NCT02234284|164897581|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.13|TWO_SIDED|95.0|-0.49|0.07|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of exacerbations for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.07|-0.49|.13
82653893|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.71|1.45|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.45|0.71|
82591649|NCT02234284|164897582|SUPERIORITY||Mean Difference (Final Values)|8.53||||0.32|TWO_SIDED|95.0|-8.18|25.26|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.||Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.|Value is for mean distance (in meters) of participants in Health Coached arm minus mean distance in Usual Care, adjusted for baseline values and for clustering.|25.26|-8.18|.32
82591650|NCT02234284|164897583|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.27|TWO_SIDED|95.0|-0.23|0.83|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.83|-.23|.27
82591651|NCT02234284|164897584|SUPERIORITY||Mean Difference (Final Values)|0.38||||0.02|TWO_SIDED|95.0|0.07|0.68|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||.68|.07|.02
82591652|NCT02234284|164897585|SUPERIORITY||Mean Difference (Final Values)|-0.83||||0.4|TWO_SIDED|95.0|-2.78|1.12|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean score of participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||1.12|-2.78|.40
82591653|NCT02234284|164897586|SUPERIORITY||Mean Difference (Net)|0.0||||0.98|TWO_SIDED|95.0|-3.0|3.0|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for mean percent predicted of participants in Health Coached arm minus mean percent predicted in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||3|-3|.98
82653894|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.44|||||TWO_SIDED|95.0|0.1|1.9|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.90|0.10|
82653895|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.35|||||TWO_SIDED|95.0|0.08|1.54|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.54|0.08|
82653896|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99|||||TWO_SIDED|95.0|0.18|21.93|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||21.93|0.18|
82653897|NCT01055223|165022987|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05|||||TWO_SIDED|95.0|0.09|12.36|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||12.36|0.09|
82591654|NCT02234284|164897587|SUPERIORITY||Mean Difference (Final Values)|-11.5||||0.3|TWO_SIDED|95.0|-33.3|10.2|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||10.2|-33.3|.30
82591655|NCT02234284|164897588|SUPERIORITY||Mean Difference (Final Values)|-0.73||||0.29|TWO_SIDED|95.0|-2.07|0.62|||Mixed Models Analysis||Value is for mean number of days for participants in Health Coached arm minus mean score in Usual Care, adjusted for baseline values and for clustering.|||0.62|-2.07|.29
82591656|NCT02234284|164897589|SUPERIORITY||Mean Difference (Final Values)|39.7|||<|0.001|TWO_SIDED|95.0|19.6|59.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||59.8|19.6|<.001
82591657|NCT02234284|164897590|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.38|TWO_SIDED|95.0|-9.5|25.2|||Mixed Models Analysis||Value is for proportion of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||25.2|-9.5|.38
82591658|NCT02234284|164897591|SUPERIORITY||Median Difference (Final Values)|2.0||||0.73|TWO_SIDED|95.0|-9.4|13.4|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.||Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||13.4|-9.4|.73
82591659|NCT02234284|164897592|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.7|TWO_SIDED|95.0|-14.0|20.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||20.8|-14.0|.70
82591660|NCT02234284|164897593|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-5.5|5.3|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||5.3|-5.5|.97
82591661|NCT02234284|164897594|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.52|TWO_SIDED|95.0|-0.32|1.28|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of outpatient visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||1.28|-0.32|.52
82653898|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23|||||TWO_SIDED|95.0|0.8|1.88|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||1.88|0.80|
82653899|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.62|1.57|||||Adjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||1.57|0.62|
82653900|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82653901|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82653902|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82591662|NCT02234284|164897595|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.78|TWO_SIDED|95.0|-0.32|0.22|||Mixed Models Analysis||Value is for rate of COPD-related ED visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.22|-0.32|.78
82591663|NCT02234284|164897596|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.8|TWO_SIDED|95.0|-0.56|0.4|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of non-COPD-related ED visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.40|-0.56|.80
82591664|NCT02234284|164897597|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.35|TWO_SIDED|95.0|-0.32|0.06|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of COPD-related hospital visits for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.06|-0.32|.35
82591665|NCT02234284|164897598|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.37|TWO_SIDED|95.0|-0.2|0.04|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for rate of non-COPD-related hospitalizations for participants in Health Coached arm minus rate for Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||0.04|-0.20|.37
82591666|NCT02234284|164897599|SUPERIORITY||difference in proportion|-18.9||||0.01|TWO_SIDED|95.0|-33.1|-4.8|||Mixed Models Analysis|Outcomes were by group assignment (intention to treat) using generalized linear models adjusted for baseline levels of variable and clustering.|Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||-4.8|-33.1|.01
82591667|NCT02234284|164897600|SUPERIORITY||Mean Difference (Final Values)|14.6||||0.01|TWO_SIDED|95.0|3.3|25.9|||Mixed Models Analysis||Value is for proportion (%) of participants in Health Coached arm minus proportion in Usual Care, adjusted for baseline values and for clustering.|Outcomes were compared by group assignment using generalized linear models (GLMs) with a normal distribution for continuous outcomes), Poisson distribution for count outcomes (e.g. exacerbations and hospitalizations), and binomial distribution for binary outcomes. In all models, baseline levels of the outcome were entered as a predictor and follow-up levels as the dependent variable, with use of a robust standard error to account for clustering.||25.9|3.3|.01
82591668|NCT04754802|164897608|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|2.42||0.5063|TWO_SIDED|95.0|-3.2|6.4|||ANCOVA|||||6.4|-3.2|.5063
82591669|NCT04754802|164897609|SUPERIORITY||Other|-0.015||||0.8077|TWO_SIDED|95.0|-0.137|0.107|||Wald Normal Approximation (Z)|Wald Normal Approximation (Z) for difference between two proportions||||0.107|-0.137|.8077
82591670|NCT00496730|164897619|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82591671|NCT00496730|164897620|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82591672|NCT00496730|164897621|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82591673|NCT01898689|164897622|EQUIVALENCE|The a priori equivalence region for the difference in means between the two concentrations was specified as +10 mA. This value was considered the minimal clinically relevant current since it approximates the tolerated electrical current range at baseline of the general population-in other words, natural variability and therefore a relatively small amount of current to detect.|Mean Difference (Net)|0.2||||0.02|TWO_SIDED|90.0|-8.2|8.5||"P-values from the TOST procedure were 0.02 and 0.03 for the mean being inside the lower and upper boundaries, respectively.~(estimated mean difference of 0.2 mA; 90% CI 28.2 to 8.5)"|Mixed Models Analysis|||"The null and alternative hypotheses were thus:~H0: m0.1%-m0.4% ≤ -10 or m0.1%-m0.4% ≥ 10 and Ha: -10 , m0.1%-m0.4% , 10 where m0.1% and m0.1% are the population means for tolerance to current under 0.1% and 0.4% ropivacaine, respectively.~With 24 evaluable subjects, we had 90% power at the 0.05 significance level to detect equivalence of 0.1% and 0.4% ropivacaine concentration on the mean tolerance to transcutaneous electrical stimulation"||8.5|-8.2|0.02
82591674|NCT00529451|164897661|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-2.44|||||TWO_SIDED|95.0|-3.63|-1.25||||||||-1.25|-3.63|
82653903|NCT01055223|165022988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates|||0.00|0.00|
82591675|NCT00529451|164897662|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-0.86|||||TWO_SIDED|95.0|-2.06|0.34||||||||0.34|-2.06|
82591676|NCT00529451|164897663|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.25 mm Hg|Mean Difference (Final Values)|-1.48|||||TWO_SIDED|95.0|-2.67|-0.28||||||||-0.28|-2.67|
82591677|NCT02463071|164897676|SUPERIORITY||Mean Difference (Final Values)|-26.72|STANDARD_ERROR_OF_MEAN|4.96|<|0.0001|TWO_SIDED|95.0|-36.55|-16.88|||ANCOVA|Baseline TG and statin usage were included as covariates.||||-16.88|-36.55|<0.0001
82591678|NCT02463071|164897676|SUPERIORITY||Mean Difference (Final Values)|-32.92|STANDARD_ERROR_OF_MEAN|5.04|<|0.0001|TWO_SIDED|95.0|-42.93|-22.92|||ANCOVA|Baseline TG and statin usage were included as covariates.||||-22.92|-42.93|<0.0001
82591679|NCT00617604|164897748|SUPERIORITY_OR_OTHER||Difference|3.9|||||TWO_SIDED|90.0|-2.5|10.3||||||||10.3|-2.5|
82591680|NCT00617604|164897749|SUPERIORITY_OR_OTHER||Difference|1.0|||||TWO_SIDED|90.0|-3.1|5.0||||||||5.0|-3.1|
82591681|NCT00617604|164897750|SUPERIORITY_OR_OTHER||Difference|3.0|||||TWO_SIDED|90.0|-4.0|10.1||||||||10.1|-4.0|
82591682|NCT00617604|164897751|SUPERIORITY_OR_OTHER||Difference|1.0|||||TWO_SIDED|90.0|-0.6|2.5||||||||2.5|-0.6|
82591683|NCT00617604|164897752|SUPERIORITY_OR_OTHER||Difference|-5.1|||||TWO_SIDED|90.0|-14.9|4.7||||||||4.7|-14.9|
82591684|NCT00617604|164897753|SUPERIORITY_OR_OTHER||Difference|-9.4|||||TWO_SIDED|90.0|-18.5|0.0||||||||0.0|-18.5|
82591685|NCT00617604|164897754|SUPERIORITY_OR_OTHER||Difference|-1.9|||||TWO_SIDED|90.0|-7.6|3.8||||||||3.8|-7.6|
82591686|NCT00617604|164897755|SUPERIORITY_OR_OTHER||Difference|-1.8|||||TWO_SIDED|90.0|-8.2|4.6||||||||4.6|-8.2|
82591687|NCT00617604|164897756|SUPERIORITY_OR_OTHER||Difference|1.9|||||TWO_SIDED|90.0|-1.3|5.0||||||||5.0|-1.3|
82653904|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.46|||||TWO_SIDED|95.0|1.53|19.45|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||19.45|1.53|
82591688|NCT00617604|164897757|SUPERIORITY_OR_OTHER||Difference|4.6|||||TWO_SIDED|90.0|-1.2|10.4||||||||10.4|-1.2|
82591689|NCT00617604|164897759|SUPERIORITY_OR_OTHER||Difference|2.0|||||TWO_SIDED|90.0|-3.3|7.2||||||||7.2|-3.3|
82591690|NCT00617604|164897764|SUPERIORITY_OR_OTHER||Slope|6.0|||||TWO_SIDED|90.0|-2.7|14.6||||||||14.6|-2.7|
82591691|NCT00617604|164897765|SUPERIORITY_OR_OTHER||Difference|-4.5|||||TWO_SIDED|90.0|-11.2|2.2||||||||2.2|-11.2|
82591692|NCT00617604|164897766|SUPERIORITY_OR_OTHER||Difference|5.2|||||TWO_SIDED|90.0|-4.4|14.7||||||||14.7|-4.4|
82591693|NCT02303704|164897807|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means|||||<|0.05|TWO_SIDED|||||P-value less than 0.05 was considered significant|t-test, 2 sided|two compare two independent quantitative groups||Null hypothesis was there is no significant difference between the means of two groups||||<0.05
82591694|NCT02303704|164897808|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means between the two groups|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82591695|NCT02303704|164897809|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to check the equality of means|||||<|0.05|TWO_SIDED|||||p-value \<0.05 was considered significant.|t-test, 2 sided|To compare the means between the two groups, to find out the significant difference between Group I and II.||Null Hypothesis: The dose of nor-adrenaline on weaning from CPB is same for Group I and II.||||<0.05
82653905|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|||||TWO_SIDED|95.0|0.64|15.86|||||Unadjusted Odds Ratio. Reference group TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||15.86|0.64|
82591696|NCT02303704|164897810|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|to chek the equality of means between the two groups|||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82591697|NCT02303704|164897811|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||p- value less than 0.05 was considered as significant difference in proportion between the two groups|Chi-squared|two compare the qualitative data between two groups||Null Hypothesis:The proportion of IABP use is same between the two groups||||<0.05
82591698|NCT02303704|164897812|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|||||P-value \<0.05 was considered to be significant i.e. operative mortality is not same between the two groups|Fisher Exact|Fisher exact test was used because 1 cell (25%) have expected count less than 5.||Null Hypothesis: Operative mortality ratio is same in both groups||||<0.05
82591699|NCT01034540|164897820|SUPERIORITY_OR_OTHER_LEGACY|||||||0.959||||||Values were not normally distributed, thus analyses were performed on ranked values and medians (IQL) are presented.|ANOVA|All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).||An evaluable sample of 19 subjects provided 80% power (5% alpha-level, 2-tailed) to detect a 2.1 unit difference between control and active in MISI, assuming a 3.0 unit standard deviation (SD). Repeated measures ANOVA was used to assess responses to treatment. Initial repeated measures models contained terms of treatment period, and sequence as fixed effects, with subject modeled as random effect; models were reduced until only significant terms or treatment remained.||||0.959
82591700|NCT01034540|164897821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037|||||||ANOVA|All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).||||||0.037
82591701|NCT01034540|164897821|SUPERIORITY_OR_OTHER_LEGACY|||||||0.073||||||All tests of statistical significance were completed at the 5% level, two-tailed (p\<0.05).|ANOVA|||||||0.073
82591702|NCT02774616|164897827|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the complication-free rate is greater than 90.0% in the population.||||||0.0004|||||||exact binomial|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Ilivia ICD family until the 3- month follow-up are counted for this primary endpoint. The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||||0.0004
82591703|NCT02774616|164897828|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the complication-free rate is greater than 90.0% in the population.||||||0.0019|||||||exact binomial|||"Serious Adverse Device Effects (SADE) possibly or securely related to the Plexa ICD lead until the 6-month follow-up are counted for this primary endpoint. The following hypothesis has been defined:~Ho: SADE-free rate through 3 months post-implant ≤ 90.0% Ha: SADE-free rate through 3 months post-implant \> 90.0%"||||0.0019
82653906|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82653907|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82591704|NCT02774616|164897830|NON_INFERIORITY|This endpoint evaluates the rate of appropriate right ventricular sensing of all patients in which a sensing measurement was performed. The following hypothesis has been defined: Ho: Rate of appropriate sensing through 3 months post-implant ≤ 93.0% Ha: Rate of appropriate sensing through 3 months post-implant \> 93.0%|||||<|0.0001||||||A rejection of the null hypothesis (Ho) would demonstrate evidence that the rate of appropriate sensing is greater than 93.0% in the population.|exact binomial|||||||<0.0001
82591705|NCT02774616|164897831|NON_INFERIORITY|A rejection of the null hypothesis (Ho) would demonstrate evidence that the rate of appropriate pacing is greater than 93.0% in the population.|||||<|0.0001|||||||exact binomial|||"This secondary hypothesis evaluates the rate of appropriate right ventricular pacing of all patients in which a pacing measurement was performed. The following hypothesis has been defined:~Ho: Rate of appropriate pacing through 3 months post-implant ≤ 93.0% Ha: Rate of appropriate pacing through 3 months post-implant \> 93.0%"||||<0.0001
82591706|NCT01721876|164897832|SUPERIORITY|The 2-sided test of the hypothesis was performed at a 0.05 level of significance. An odds ratio (OR) = 1 would indicate that the odds of achieving CR+CRi with Volasertib + Low-dose Cytarabine is equal to the odds of achieving CR+CRi with Placebo + Low-dose Cytarabine , whereas an OR ≠ 1 would indicate the opposite. H0, CR+CRi: OR = 1 vs. Ha, CR+CRi: OR ≠ 1.|Odds Ratio (OR)|1.8751||||0.0024|TWO_SIDED|95.0|1.2432|2.8281|||Cochran-Mantel-Haenszel||Common odds ratio is calculated by Mantel-Haenszel estimate adjusting for the two stratification factors (baseline Eastern Cooperative Oncology Group (ECOG) and type of AML). If odds ratio is above 1 then it favours Volasertib+Low-dose Cytarabine.|This analysis was exploratory and descriptive.||2.8281|1.2432|0.0024
82591707|NCT01721876|164897833|SUPERIORITY|The hazard ratio (HR) between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine was tested against 1. The null hypothesis, H0,OS, was that the hazards are equal between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine, whereas the alternative hypothesis, Ha,OS, was that the hazards are not equal between the 2 treatment arms. H0, OS: HR = 1 vs. Ha, OS: HR ≠ 1.|Hazard Ratio (HR)|0.97||||0.7571|TWO_SIDED|95.0|0.8|1.2||P-value is calculated from log-rank test stratified by baseline ECOG (0-1 vs. 2) and type of AML (denovo vs. secondary).|Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|This analysis was exploratory and descriptive.||1.2|0.8|0.7571
82591708|NCT01721876|164897834|SUPERIORITY|The hazard ratio (HR) between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine was tested against 1. The null hypothesis, H0,OS, was that the hazards are equal between Volasertib + Low-dose Cytarabine and Placebo + Low-dose Cytarabine, whereas the alternative hypothesis, Ha,OS, was that the hazards are not equal between the 2 treatment arms. H0, OS: HR = 1 vs. Ha, OS: HR ≠ 1.|Hazard Ratio (HR)|0.96||||0.6718|TWO_SIDED|95.0|0.8|1.2||P-value is calculated from log-rank test stratified by baseline ECOG (0-1 vs. 2) and type of AML (denovo vs. secondary).|Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|This analysis was exploratory and descriptive.||1.2|0.8|0.6718
82591709|NCT01721876|164897835|OTHER||Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.7|2.7|||Regression, Cox||Hazard ratio is calculated from Cox proportional hazard model stratified by baseline ECOG and type of AML. If hazard ratio is below 1 then it favours volasertib.|||2.7|0.7|
82591710|NCT02109562|164897842|SUPERIORITY||Mean Difference (Final Values)|-6.148|STANDARD_ERROR_OF_MEAN|1.7261||0.0004|TWO_SIDED|95.0|-9.982|-2.314||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 90 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-2.314|-9.982|0.0004
82591711|NCT02109562|164897842|SUPERIORITY||Mean Difference (Final Values)|-7.237|STANDARD_ERROR_OF_MEAN|1.7141|<|0.0001|TWO_SIDED|95.0|-11.045|-3.429||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 120 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-3.429|-11.045|<0.0001
82591712|NCT02109562|164897843|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.0934||0.0002|TWO_SIDED|95.0|-0.557|-0.143||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 90 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-0.143|-0.557|0.0002
82653908|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82653909|NCT01055223|165022989|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82653910|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.26|||||TWO_SIDED|95.0|0.66|80.35|||||Unadjusted Odds Ratio. Reference group: TZD alone.|||80.35|0.66|
82591713|NCT02109562|164897843|SUPERIORITY||Mean Difference (Final Values)|-0.396|STANDARD_ERROR_OF_MEAN|0.0928|<|0.0001|TWO_SIDED|95.0|-0.602|-0.19||For evaluation of treatment differences, compare against a 1-sided adjusted P value with significance at \<0.025. The P values have been adjusted for multiple comparisons using Dunnett's procedure.|repeated measure linear regression model||RBP-7000 120 mg - Placebo|Estimates, standard errors (SE), 2-sided confidence intervals (CIs), and -1-sided P values are based on a repeated-measures linear regression model of the change from baseline score, with fixed effects for visit as a categorical variable, baseline score, treatment and treatment by visit interaction, assuming an unstructured covariance matrix.||-0.190|-0.602|<0.0001
82591714|NCT00688155|164897845|EQUIVALENCE|Two-sided test of mean differences from baseline.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.25||0.66|TWO_SIDED|||||Physical activity training versus no physical activity training;|ANOVA|||Marginal comparisons of physical activity training vs no physical activity training||||0.66
82591715|NCT00688155|164897845|EQUIVALENCE|Two-sided tests of mean differences from baseline.|Mean Difference (Final Values)|-0.06|STANDARD_ERROR_OF_MEAN|0.26||0.55|TWO_SIDED|||||P-value for physical activity training is 0.55|ANOVA|||Marginal comparisons of physical activity training versus no physical activity training||||0.55
82591716|NCT00688155|164897845|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.25||0.95|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.95
82591717|NCT00688155|164897845|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.26||0.48|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.48
82591718|NCT00688155|164897847|EQUIVALENCE|Two-sided tests of marginal means|Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.29||0.23|TWO_SIDED||||||ANOVA|||Marginal comparisons of physical activity training versus no physical activity training.||||0.23
82591719|NCT00688155|164897847|EQUIVALENCE|Two Sided Test of Mean Difference from baseline|Mean Difference (Net)|-0.16|STANDARD_ERROR_OF_MEAN|0.29||0.42|TWO_SIDED||||||ANOVA|||Marginal comparisons of cognitive training versus no cognitive training||||0.42
82591720|NCT03734016|164897866|NON_INFERIORITY|Non-inferiority testing for ORR was performed using a stratified Wald test based on the stratified Mantel-Haenszel response ratio estimate against the non-inferiority margin of 0.8558 on the log scale.|Response ratio|1.12|||<|0.0001|TWO_SIDED|95.0|1.04|1.22|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Response ratio is the estimated ratio of the overall response rate of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.22|1.04|<0.0001
82591721|NCT03734016|164897866|SUPERIORITY|||||||0.0035||||||Superiority testing was performed using a 2-sided stratified Cochran-Mantel-Haenszel test.|Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0035
82591722|NCT03734016|164897867|NON_INFERIORITY|Non-inferiority testing for ORR was performed using a stratified Wald test based on the stratified Mantel-Haenszel response ratio estimate against the non-inferiority margin of 0.8558 on the log scale.|Response ratio|1.14|||<|0.0001|TWO_SIDED|95.0|1.05|1.22|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Response ratio is the estimated ratio of the overall response rate of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.22|1.05|<0.0001
82591723|NCT03734016|164897867|SUPERIORITY|Superiority testing was performed using a 2-sided stratified Cochran-Mantel-Haenszel test.||||||0.0007|||||||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0007
82591724|NCT03734016|164897868|NON_INFERIORITY|Non-inferiority was tested with a non-inferiority margin (hazard ratio) of 1.33 with the use of a stratified Wald test based on the four randomization stratification factors.|Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.86|||Stratified Wald test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.86|0.49|<0.0001
82591725|NCT03734016|164897868|SUPERIORITY|||||||0.0024|||||||Stratified Log-rank test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0024
82653911|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78|||||TWO_SIDED|95.0|0.03|96.47|||||Adjusted Odds Ratio. Reference group: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosponates.|||96.47|0.03|
82591726|NCT03734016|164897869|NON_INFERIORITY|Noninferiority was tested with a noninferiority margin (hazard ratio) of 1.33 with the use of a stratified Wald test based on the four randomization stratification factors.|Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.49|0.86||Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)|Stratified Wald test||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.86|0.49|<0.0001
82591727|NCT03734016|164897869|SUPERIORITY|||||||0.0024|||||||Stratified Log-rank test|Stratified by the randomization stratification factors (age, geographic region, refractory status, and 17p deletion and TP53 mutation status)||||||0.0024
82591728|NCT03734016|164897870|SUPERIORITY||Rate Difference|-8.0||||0.0004|TWO_SIDED|95.0|-12.4|-3.6|||Chi-squared||Rate difference is the zanubrutinib rate minus the ibrutinib rate.|||-3.6|-12.4|0.0004
82591729|NCT03734016|164897873|OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.41|0.72|||||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||0.72|0.41|
82591730|NCT03734016|164897876|OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.51|1.11|||||Hazard ratio is the ratio of the hazard of the zanubrutinib arm divided by that of the ibrutinib arm.|||1.11|0.51|
82653912|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference Group: TZD alone.|||0.00|0.00|
82653913|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82591731|NCT03734016|164897877|OTHER||Least Squares (LS) Mean Difference|3.0||||0.0338|TWO_SIDED|95.0|0.23|5.77|||Mixed model for repeated measures (MMRM)|||Analysis of Change from Baseline in EORTC QLQ-C30 GHS/QOL at Week 24. A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix.||5.77|0.23|0.0338
82591732|NCT03734016|164897877|OTHER||LS Mean Difference|1.34||||0.3304|TWO_SIDED|95.0|-1.37|4.06|||Mixed model for repeated measures (MMRM)|||Analysis of Change from Baseline in EORTC QLQ-C30 GHS/QOL at Week 48. A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix.||4.06|-1.37|0.3304
82653914|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Unadjusted Odds Ratio. Small numbers model didn't converge. Reference group: TZD alone.|||0.00|0.00|
82591733|NCT03734016|164897877|OTHER||LS Mean Difference|1.82||||0.1189|TWO_SIDED|95.0|-0.47|4.12|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Physical Functioning Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||4.12|-0.47|0.1189
82591734|NCT03734016|164897877|OTHER||LS Mean Difference|1.15||||0.3274|TWO_SIDED|95.0|-1.15|3.44|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Physical Functioning Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||3.44|-1.15|0.3274
82591735|NCT03734016|164897877|OTHER||LS Mean Difference|0.63||||0.6821|TWO_SIDED|95.0|-2.4|3.66|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Role Functioning Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||3.66|-2.40|0.6821
82591736|NCT03734016|164897877|OTHER||LS Mean Difference|1.8||||0.2701|TWO_SIDED|95.0|-1.4|5.0|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Role Functioning Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||5.00|-1.40|0.2701
82591737|NCT03734016|164897878|OTHER||LS Mean Difference|-1.91||||0.1778|TWO_SIDED|95.0|-4.7|0.87|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Fatigue Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.87|-4.70|0.1778
82591738|NCT03734016|164897878|OTHER||LS Mean Difference|-0.35||||0.8174|TWO_SIDED|95.0|-3.32|2.62|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Fatigue Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||2.62|-3.32|0.8174
82591739|NCT03734016|164897878|OTHER||LS Mean Difference|-0.29||||0.6294|TWO_SIDED|95.0|-1.48|0.89|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Nausea and Vomiting Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.89|-1.48|0.6294
82591740|NCT03734016|164897878|OTHER||LS Mean Difference|-0.51||||0.4933|TWO_SIDED|95.0|-1.99|0.96|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Nausea and Vomiting Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.96|-1.99|0.4933
82591741|NCT03734016|164897878|OTHER||LS Mean Difference|-1.43||||0.3643|TWO_SIDED|95.0|-4.51|1.66|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Pain Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||1.66|-4.51|0.3643
82591742|NCT03734016|164897878|OTHER||LS Mean Difference|-2.43||||0.1363|TWO_SIDED|95.0|-5.62|0.77|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Pain Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.77|-5.62|0.1363
82591743|NCT03734016|164897878|OTHER||LS Mean Difference|-1.59||||0.2001|TWO_SIDED|95.0|-4.01|0.84|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Diarrhoea Symptom Scale at Week 24.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.84|-4.01|0.2001
82653915|NCT01055223|165022990|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||Small numbers model didn't converge. Ref grp: TZD alone. Adjusted: age, liver disease, angina, renal and heart failure, asthma, stroke, epilepsy, RA, antihypertensives, statins, corticosteroids, antiepileptics, benzodiazepines, HRT, bisphosphonates.|||0.00|0.00|
82591744|NCT03734016|164897878|OTHER||LS Mean Difference|-1.85||||0.1121|TWO_SIDED|95.0|-4.12|0.43|||Mixed model for repeated measures (MMRM)|||"Analysis of Change from Baseline in EORTC QLQ-C30 Diarrhoea Symptom Scale at Week 48.~A linear mixed model for repeated measures (MMRM) includes the repeated measurement of the change from baseline as the dependent variable, and the treatment arm by assessment timepoint interaction, and baseline score as a covariate with an unstructured covariance matrix."||0.43|-4.12|0.1121
82591745|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|113.6|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|100.522|128.376|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||128.376|100.522|
82591746|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|87.98|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|77.839|99.452|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||99.452|77.839|
82591747|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|89.21|STANDARD_ERROR_OF_MEAN|1.029|||TWO_SIDED|90.0|84.636|94.021|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||94.021|84.636|
82591748|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|92.89|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|90.0|88.592|97.396|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis of CD 13896||97.396|88.592|
82591749|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|99.61|STANDARD_ERROR_OF_MEAN|1.022|||TWO_SIDED|90.0|95.796|103.584|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||103.584|95.796|
82591750|NCT02248259|164897895|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|104.37|STANDARD_ERROR_OF_MEAN|1.031|||TWO_SIDED|90.0|98.783|110.278|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||110.278|98.783|
82591751|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|93.26|STANDARD_ERROR_OF_MEAN|1.086|||TWO_SIDED|90.0|80.377|108.217|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||108.217|80.377|
82591752|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|76.65|STANDARD_ERROR_OF_MEAN|1.14|||TWO_SIDED|90.0|60.482|97.141|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||97.141|60.482|
82591753|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|78.71|STANDARD_ERROR_OF_MEAN|1.09|||TWO_SIDED|90.0|67.304|92.052|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||92.052|67.304|
82591754|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|95.29|STANDARD_ERROR_OF_MEAN|1.093|||TWO_SIDED|90.0|81.092|111.964|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 13896||111.964|81.092|
82591755|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|86.79|STANDARD_ERROR_OF_MEAN|1.041|||TWO_SIDED|90.0|80.731|93.309|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||93.309|80.731|
82591756|NCT02248259|164897896|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|107.45|STANDARD_ERROR_OF_MEAN|1.091|||TWO_SIDED|90.0|91.764|125.812|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||125.812|91.764|
82591757|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|113.61|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|100.505|128.427|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for BI 409306||128.427|100.505|
82591758|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|87.91|STANDARD_ERROR_OF_MEAN|1.07|||TWO_SIDED|90.0|77.763|99.37|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for BI 409306||99.370|77.763|
82591759|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|89.05|STANDARD_ERROR_OF_MEAN|1.029|||TWO_SIDED|90.0|84.478|93.859|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 13896||93.859|84.478|
82591760|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|92.48|STANDARD_ERROR_OF_MEAN|1.026|||TWO_SIDED|90.0|88.278|96.889|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 13896||96.889|88.278|
82591761|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|99.61|STANDARD_ERROR_OF_MEAN|1.022|||TWO_SIDED|90.0|95.791|103.583|||||Ratio calculated as extensive metabolisers test treatment divided by extensive metabolisers: ref. treatment|Analysis for CD 14084||103.583|95.791|
82591762|NCT02248259|164897897|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence range was 80% to 125%|Geometric mean ratio (%)|104.44|STANDARD_ERROR_OF_MEAN|1.031|||TWO_SIDED|90.0|98.861|110.336|||||Ratio calculated as poor metabolisers test treatment divided by poor metabolisers: ref. treatment|Analysis for CD 14084||110.336|98.861|
82591763|NCT01180478|164897906|SUPERIORITY_OR_OTHER|||||||0.585|||||||Log Rank|||The expected recurrence rate in the WL-assisted TURBT group was 35%.14 To detect a clinically relevant difference in recurrence detection rates ≥10% at a 5% significance level and a power of 80%, the required sample size per treatment was calculated to be 329 patients (658 patients in total).||||0.585
82591764|NCT01180478|164897907|SUPERIORITY_OR_OTHER|||||||0.742|||||||Chi-squared|||||||0.742
82591765|NCT01180478|164897908|SUPERIORITY_OR_OTHER|||||||0.17|||||||Fisher Exact|The analysis was performed by using the Fisher exact test, because the criteria for using the Chi square test were not met.||The statistical analyses refers to comparison of the different 8 categories (one variable) mentioned of the Clavien grading of perioperative complications between Narrow Band Imaging and White Light Trans Urethral Resection.||||0.170
82591766|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.311|||||||Chi-squared|||Comparison of the numbers in 'Bleeding' between NBI and WL||||0.311
82591767|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.666|||||||Chi-squared|||Comparison of the numbers in 'Fever' between NBI and WL||||0.666
82591768|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.569|||||||Chi-squared|||Comparison in the number of 'UTI' between NBI and WL||||0.569
82591769|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.111|||||||Chi-squared|||Comparison in the number of 'Bladder cramps' between NBI and WL||||0.111
82591770|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||||||||||||Comparison in the number of 'DVT' between NBI and WL|Non of the participants/patients had DVT. Therefore, the p-value is not available|||
82591771|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||Comparison in the number of 'CVA/TIA' between NBI and WL||||0.500
82591772|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||||||||||||Comparison in the number of 'Lung embolism' between NBI and WL|Non of the participants/patients had a lung embolism. Therefore, no p-value was available|||
82591773|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|||Comparison in the number of 'Sepsis' between NBI and WL||||0.500
82591774|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Comparison in the number of 'Acute Abdomen' between NBI and WL||||1.000
82591775|NCT01180478|164897909|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||Comparison in the number of 'Other perioperative complication' between NBI and WL||||0.170
82591776|NCT01180478|164897910|SUPERIORITY_OR_OTHER|||||||0.553|TWO_SIDED||||||Chi-squared|||||||0.553
82591777|NCT02114164|164897922|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82591778|NCT02114164|164897923|OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
82591779|NCT02114164|164897924|OTHER|||||||0.13||||||Comparison at baseline|t-test, 2 sided|||||||0.13
82591780|NCT02114164|164897924|OTHER|||||||0.018||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.018
82591781|NCT02114164|164897924|OTHER|||||||0.712||||||Comparison at end of procedure|t-test, 2 sided|||||||0.712
82591782|NCT02114164|164897925|OTHER|||||||0.42||||||Comparison at baseline|t-test, 2 sided|||||||0.42
82591783|NCT02114164|164897925|OTHER|||||||0.75||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.75
82591784|NCT02114164|164897925|OTHER|||||||0.99||||||Comparison at end of procedure|t-test, 2 sided|||||||0.99
82591785|NCT02114164|164897926|OTHER|||||||0.88||||||Comparison at baseline|t-test, 2 sided|||||||0.88
82591786|NCT02114164|164897926|OTHER|||||||0.65||||||Comparison at 60 minutes|t-test, 2 sided|||||||0.65
82591787|NCT02114164|164897926|OTHER|||||||0.86||||||Comparison at end of procedure|t-test, 2 sided|||||||0.86
82591788|NCT02114164|164897927|OTHER|Number of interventions required by the anesthesiologists were compared between the AirSeal and standard Endopath groups using zero-inflated Poisson regression||||||0.41|||||||Zero-inflated Poisson regression|||||||0.41
82591789|NCT02114164|164897928|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
82591790|NCT02114164|164897929|OTHER||||||<|0.001|||||||Chi-squared|||||||<0.001
82591791|NCT02573870|164897930|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|p-values were not presented as non-inferiority was assessed by confidence interval (CI).|Mean Difference (Final Values)|-2.245|||||TWO_SIDED|95.0|-6.153|1.663|||||Treatment difference is calculated as active minus placebo and the non-inferiority bound was 10 bpm for Day 42|||1.663|-6.153|
82591792|NCT01825057|164897972|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.0009|TWO_SIDED|||||adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner Method|Kruskal-Wallis|degrees of freedom = 2|mean difference = Order One - Do One|||||0.0009
82591793|NCT01825057|164897972|SUPERIORITY||Median Difference (Final Values)|19.7|||<|0.0001|TWO_SIDED|||||Adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner Method|Kruskal-Wallis|degrees of freedom = 2|mean difference = Order One - See One|||||<0.0001
82591794|NCT01825057|164897972|SUPERIORITY||Mean Difference (Final Values)|2.178||||0.4983|TWO_SIDED||||||Kruskal-Wallis|degrees of freedom = 2|mean difference = Do One - See One|||||0.4983
82591795|NCT01825057|164897973|SUPERIORITY||Mean Difference (Final Values)|0.62||||0.0217|TWO_SIDED|||||Adjusted for multiple comparisons using the Dwass, Steel, Critchlow-Fligner Method.|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.0217
82591796|NCT01825057|164897973|SUPERIORITY|mean difference is Order One - See One|Mean Difference (Final Values)|1.22||||0.0126|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis|||||||0.0126
82591797|NCT01825057|164897973|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.4231|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference is Do One - See One|||||0.4231
82591798|NCT01825057|164897974|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.0091|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.0091
82591799|NCT01825057|164897974|SUPERIORITY||Mean Difference (Final Values)|1.04||||0.0196|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Order One - See One|||||0.0196
82591800|NCT01825057|164897974|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.2832|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.2832
82591801|NCT01825057|164897975|SUPERIORITY||Mean Difference (Final Values)|0.43||||0.1566|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||0.1566
82591802|NCT01825057|164897975|SUPERIORITY||Mean Difference (Final Values)|0.88||||0.0982|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Order One - See One|||||0.0982
82591803|NCT01825057|164897975|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.6631|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.6631
82591804|NCT01825057|164897976|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.1327|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||Mean difference = Order One - Do One|||||.1327
82591805|NCT01825057|164897976|SUPERIORITY||Mean Difference (Final Values)|0.57||||0.4097|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||||mean difference = Order One - See One|||0.4097
82591806|NCT01825057|164897976|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.8779|TWO_SIDED|||||p-value adjusted for multiple comparisons using Dwass, Steel, Critchlow-Fligner method|Kruskal-Wallis||mean difference = Do One - See One|||||0.8779
82591807|NCT01480284|164897987|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was judged based on the one-sided test of the model, y(Δ) = Baseline + Group ( Δ= -1.0). The adjusted mean values of the TDF group and the ETV group were calculated, and the adjusted mean value and two-sided 95% confidence interval of differences between the TDF group and the ETV group were calculated. Non-inferiority was also to be confirmed when the upper limit of the calculated two-sided 95% confidence interval was less than the non-inferiority limit value of 1.0|Mean Difference (Final Values)|-0.13|||<|0.0001|TWO_SIDED|95.0|-0.28|0.02||p-value was compared with the significance level of 0.025|ANCOVA|||||0.02|-0.28|<0.0001
82591808|NCT01480284|164897988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|95.0|-0.4|0.39|||||CI and estimate difference is provided for change from Baseline in serum HBV DNA level at Week 48.|||0.39|-0.40|
82591809|NCT05368961|164898004|OTHER|Null hypothesis; there is no difference in anxiety scores between usual care and distraction||||||0.44|||||||Wilcoxon (Mann-Whitney)|||||||0.44
82591810|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.1|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-71.48|-60.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.72|-71.48|<0.001
82591811|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.24|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-65.61|-54.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.88|-65.61|<0.001
82591812|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.82|STANDARD_ERROR_OF_MEAN|2.73|<|0.001|TWO_SIDED|95.0|-47.18|-36.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.45|-47.18|<0.001
82591813|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.33|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-56.04|-44.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.62|-56.04|<0.001
82591814|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.0|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-55.69|-44.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.31|-55.69|<0.001
82591815|NCT01380730|164898012|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.84|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-47.55|-36.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-36.13|-47.55|<0.001
82591816|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.2|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-87.0|-71.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-71.5|-87.0|<0.001
82591817|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.4|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-85.2|-69.6||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-69.6|-85.2|<0.001
82591818|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.7|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-58.5|-43.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.0|-58.5|<0.001
82591819|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.1|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-68.6|-53.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-53.7|-68.6|<0.001
82591820|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.1|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-68.5|-53.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-53.7|-68.5|<0.001
82591821|NCT01380730|164898013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.6|STANDARD_ERROR_OF_MEAN|3.8|<|0.001|TWO_SIDED|95.0|-58.0|-43.1||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.1|-58.0|<0.001
82591822|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.4|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|-66.37|-56.43||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-56.43|-66.37|<0.001
82591823|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.42|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-60.37|-50.47||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-50.47|-60.37|<0.001
82591824|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.44|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-43.39|-33.48||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-33.48|-43.39|<0.001
82591825|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.58|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-52.72|-42.44||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-42.44|-52.72|<0.001
82591826|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.8|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-50.92|-40.67||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-40.67|-50.92|<0.001
82591827|NCT01380730|164898014|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-42.94|-32.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-32.65|-42.94|<0.001
82591828|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.45|STANDARD_ERROR_OF_MEAN|2.46|<|0.001|TWO_SIDED|95.0|-61.28|-51.61||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-51.61|-61.28|<0.001
82591829|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.15|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-54.97|-45.33||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-45.33|-54.97|<0.001
82591830|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.74|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|-39.56|-29.92||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.92|-39.56|<0.001
82591831|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.03|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-47.16|-36.9||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-36.90|-47.16|<0.001
82591832|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.77|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-45.88|-35.66||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-35.66|-45.88|<0.001
82653916|NCT01734772|165022991|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|149.38|STANDARD_DEVIATION|37.6||0.9456||90.0|124.388|179.383||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||179.383|124.388|0.9456
82653917|NCT01734772|165022991|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|126.47|STANDARD_DEVIATION|33.3||0.5481||90.0|107.363|148.967||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||148.967|107.363|0.5481
82591833|NCT01380730|164898015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.38|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-39.51|-29.25||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.25|-39.51|<0.001
82591834|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.74|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-52.18|-43.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-43.29|-52.18|<0.001
82591835|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.38|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-47.81|-38.94||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-38.94|-47.81|<0.001
82591836|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.4|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-35.83|-26.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-26.97|-35.83|<0.001
82653918|NCT01734772|165022991|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|127.01|STANDARD_DEVIATION|31.6||0.5665||90.0|108.047|149.295||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||149.295|108.047|0.5665
82591837|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.65|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-39.99|-31.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-31.32|-39.99|<0.001
82591838|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.97|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-40.29|-31.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-31.65|-40.29|<0.001
82591839|NCT01380730|164898016|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.73|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-32.06|-23.39||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-23.39|-32.06|<0.001
82591840|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.44|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-58.23|-48.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-48.65|-58.23|<0.001
82591841|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.3|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-52.08|-42.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-42.52|-52.08|<0.001
82653919|NCT01734772|165022992|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|164.74|STANDARD_DEVIATION|42.9||0.9841||90.0|133.945|202.619||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||202.619|133.945|0.9841
82653920|NCT01734772|165022992|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|geometric Mean Ratio|128.61|STANDARD_DEVIATION|39.0||0.6003||90.0|106.37|155.495||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||155.495|106.370|0.6003
82653921|NCT01734772|165022992|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability|gMean Ratio|123.82|STANDARD_DEVIATION|36.9||0.4656||90.0|102.695|149.288||p-value for ratio outside interval 80% - 125%|ANOVA|Adjustment for effects 'subject' and 'treatment'.|The dispersion value is actually the intraindividual gCV.|||149.288|102.695|0.4656
82591842|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.75|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-39.53|-29.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-29.97|-39.53|<0.001
82591843|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.93|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-48.36|-37.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-37.50|-48.36|<0.001
82591844|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.4|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-47.81|-36.98||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-36.98|-47.81|<0.001
82591845|NCT01380730|164898017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.77|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-39.2|-28.33||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factors.|Placebo is the reference|||-28.33|-39.20|<0.001
82591846|NCT00922480|164898031|NON_INFERIORITY|Non-Inferiority||||||0.0001|||||||t-test, 2 sided|Paired t-test||||||0.0001
82653922|NCT00329602|165022994|SUPERIORITY_OR_OTHER|||||||0.039||95.0||||P-value is for Week 12.|Repeated Measures Mixed Model|Adjusted for baseline IRLS Rating Scale total score, treatment group, visit, visit by treatment group interaction, and center group.||||||0.039
82591847|NCT00922480|164898032|NON_INFERIORITY|Non-Inferiority||||||0.0001|||||||t-test, 2 sided|Paired t-test||||||0.0001
82653923|NCT00329602|165022994|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value is for Week 26.|Repeated Measures Mixed Model|Adjusted for baseline IRLS Rating Scale total score, treatment group, visit, visit by treatment group interaction, and center group.||||||0.023
82653924|NCT02275364|165023009|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|15.28|||<|0.0001|TWO_SIDED|95.0|12.32|18.25||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||18.25|12.32|<0.0001
82653925|NCT02275364|165023010|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.93||||0.7366|TWO_SIDED|95.0|-6.43|4.57||Obtained from ANOVA with treatment, period and region of interest as fixed effects and subject as a random effect.|ANCOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||4.57|-6.43|0.7366
82591848|NCT01970488|164898049|NON_INFERIORITY_OR_EQUIVALENCE|Clinical equivalence was evaluated by comparing the 2-sided 95% confidence interval (CI) of the difference of PASI percent improvement from baseline to Week 16 between ABP 501 and adalimumab with an equivalence margin of ± 15.|Least Squares (LS) Mean Difference|-2.18|||||TWO_SIDED|95.0|-7.39|3.02||||||||3.02|-7.39|
82591849|NCT00324753|164898069|SUPERIORITY|||||||0.005||||||p-value based on a test of any treatment difference by site.|Mixed Models Analysis|The model was run using the xtlogit command in Stata and was adjusted for all of the reported baseline characteristics.||||||.005
82591850|NCT02247960|164898093|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
82591851|NCT02367066|164898096|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.02||0.02|TWO_SIDED|80.0|0.9|0.98||1-sided|Mixed Models Analysis|||||0.98|0.90|0.02
82653926|NCT02275364|165023011|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1533.74||||0.0004|TWO_SIDED|95.0|794.16|2273.32||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||2273.32|794.16|0.0004
82653927|NCT02275364|165023012|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.46||||0.7278|TWO_SIDED|95.0|-3.06|2.14||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||2.14|-3.06|0.7278
82591852|NCT02367066|164898097|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.03||0.06|TWO_SIDED|80.0|0.92|0.99||1-sided|Mixed Models Analysis|||||0.99|0.92|0.06
82591853|NCT02367066|164898098|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.99|STANDARD_ERROR_OF_MEAN|0.03||0.41|TWO_SIDED|80.0|0.96|1.03||1-sided|Mixed Models Analysis|||||1.03|0.96|0.41
82591854|NCT02367066|164898099|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.05||0.06|TWO_SIDED|80.0|0.85|0.99||1-sided|Mixed Models Analysis|||||0.99|0.85|0.06
82591855|NCT02367066|164898100|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.04||0.18|TWO_SIDED|80.0|0.99|1.13||1-sided|Mixed Models Analysis|||||1.13|0.99|0.18
82591856|NCT02367066|164898101|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.04||0.04|TWO_SIDED|80.0|0.89|0.98||1-sided|Mixed Models Analysis|||||0.98|0.89|0.04
82591857|NCT02367066|164898103|SUPERIORITY_OR_OTHER||Geometric LS MEan Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.05||0.37|TWO_SIDED|80.0|0.91|1.06||1-sided|Mixed Models Analysis|||||1.06|0.91|0.37
82591858|NCT02367066|164898105|SUPERIORITY_OR_OTHER||Geometric LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.01||0.06|TWO_SIDED|80.0|1.0|1.04||1-sided|Mixed Models Analysis|||||1.04|1.00|0.06
82591859|NCT02367066|164898106|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.45|TWO_SIDED|90.0|-0.01|0.03||2-sided|Mixed Models Analysis|||||0.03|-0.01|0.45
82591860|NCT00545402|164898206|SUPERIORITY_OR_OTHER|||||||0.2611|||||||Log Rank|||||||0.2611
82591861|NCT00545402|164898208|SUPERIORITY_OR_OTHER|||||||0.7091|||||||Log Rank|||||||0.7091
82591862|NCT00397033|164898212|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Cochran-Mantel-Haenszel|P-value is based on the CMH chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.001
82591863|NCT00397033|164898212|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Cochran-Mantel-Haenszel|P-value is based on the CMH chi-square test with modified ridit scores, stratified by concomitant medication stratum, and country.||||||0.008
82591864|NCT00397033|164898213|SUPERIORITY_OR_OTHER||LS Means Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-5.1|-1.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.7|-5.1|<0.001
82591865|NCT00397033|164898213|SUPERIORITY_OR_OTHER||LS Means Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.9||0.217||95.0|-2.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-2.8|0.217
82591866|NCT00397033|164898214|SUPERIORITY_OR_OTHER||LS Means Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.6||0.108||95.0|-2.3|0.2|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.2|-2.3|0.108
82591867|NCT00397033|164898214|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.43||95.0|-1.7|0.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.7|-1.7|0.430
82653928|NCT02275364|165023013|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|191.72||||0.1639|TWO_SIDED|95.0|-78.62|462.06||Obtained from ANOVA model with Treatment and Period as fixed effects and subject as a random effect.|ANCOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||462.06|-78.62|0.1639
82591868|NCT00397033|164898215|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.5||0.008||95.0|-6.7|-1.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.0|-6.7|0.008
82591869|NCT00397033|164898215|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.4||0.175||95.0|-4.8|0.9|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum, and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.9|-4.8|0.175
82653929|NCT02275364|165023014|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.02||||0.4621|TWO_SIDED|95.0|-0.03|0.07||Obtained from ANOVA with treatment, period and region of interest as fixed effects and subject as a random effect.|ANOVA||Adjusted Mean Difference is the Treatment difference defined as the Adjusted Mean of Test Nasal Strip minus Adjusted Mean of Placebo Strip.|||0.07|-0.03|0.4621
82591870|NCT00397033|164898216|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.9||0.001||95.0|-4.6|-1.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.1|-4.6|0.001
82591871|NCT00397033|164898216|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.9||0.209||95.0|-2.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-2.8|0.209
82591872|NCT00397033|164898218|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.6||0.032||95.0|-6.5|-0.3|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.3|-6.5|0.032
82591873|NCT00397033|164898218|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8|STANDARD_ERROR_OF_MEAN|1.5||0.013||95.0|-6.8|-0.8|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.8|-6.8|0.013
82591874|NCT00397033|164898219|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.232||95.0|-2.0|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-2.0|0.232
82591875|NCT00397033|164898219|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.31||95.0|-1.8|0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.6|-1.8|0.310
82591876|NCT00397033|164898220|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.004||95.0|-3.1|-0.6|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.6|-3.1|0.004
82591877|NCT00397033|164898220|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.269||95.0|-1.9|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-1.9|0.269
82591878|NCT00397033|164898221|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.001||95.0|-3.2|-1.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-1.0|-3.2|<0.001
82591879|NCT00397033|164898221|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.6||0.314||95.0|-1.7|0.5|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.5|-1.7|0.314
82591880|NCT00397033|164898222|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.071||95.0|-1.8|0.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.1|-1.8|0.071
82591881|NCT00397033|164898222|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.5||0.099||95.0|-1.7|0.1|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.1|-1.7|0.099
82591882|NCT00397033|164898224|SUPERIORITY_OR_OTHER||LS Means Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-0.9|-0.3|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-0.3|-0.9|<0.001
82591883|NCT00397033|164898224|SUPERIORITY_OR_OTHER||LS Means Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.083||95.0|-0.6|0.0|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.0|-0.6|0.083
82591884|NCT00397033|164898225|SUPERIORITY_OR_OTHER||LS Means Difference|-8.3|STANDARD_ERROR_OF_MEAN|2.8||0.003||95.0|-13.8|-2.9||The Hochberg step-up procedure was used to address multiplicity.|ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|One of the primary pairwise comparisons was paliperidone ER high dose vs. placebo. The Hochberg step-up procedure was used to address multiplicity. P-value for between treatment group comparisons is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.||-2.9|-13.8|0.003
82591885|NCT00397033|164898225|SUPERIORITY_OR_OTHER||LS Means Difference|-3.6|STANDARD_ERROR_OF_MEAN|2.7||0.187||95.0|-9.0|1.8||The Hochberg step-up procedure was used to address multiplicity.|ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|One of the primary pairwise comparisons was paliperidone ER low dose vs. placebo. The Hochberg step-up procedure was used to address multiplicity. P-value for between treatment group comparisons is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.||1.8|-9.0|0.187
82591886|NCT00397033|164898226|SUPERIORITY_OR_OTHER||LS Means Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001||95.0|-1.1|-0.4|||ANOVA|P-value is from an ANOVA model with fixed-effects for treatment, concomitant medication stratum and country.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher Scores indicate worsening.|||-0.4|-1.1|<0.001
82591887|NCT00397033|164898226|SUPERIORITY_OR_OTHER||LS Means Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.029||95.0|-0.7|0.0|||ANOVA|P-value is from an ANOVA model with fixed-effects for treatment, concomitant medication stratum and country.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.0|-0.7|0.029
82591888|NCT00397033|164898228|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-9.9|-3.7|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) High Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||-3.7|-9.9|<0.001
82591889|NCT00397033|164898228|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|1.5||0.066||95.0|-5.8|0.2|||ANCOVA|P-value is from an ANCOVA model with fixed-effects for treatment, concomitant medication stratum and country, and baseline value as a covariate.|Paliperidone Extended Release (ER) Low Dose - Placebo on the Change Scores. Higher scores indicate worsening.|||0.2|-5.8|0.066
82591890|NCT01721057|164898231|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Regression, Logistic|||||||0.001
82591891|NCT01020591|164898252|NON_INFERIORITY_OR_EQUIVALENCE|The power and sample size calculations, based on the ability to detect treatment and evaluation group differences, were performed on Minitab™ V.15. 40 participants were estimated to be required for group allocation (20 in each group: evaluation;evaluation and treatment)for 80% power in at least 3 out of the 4 outcome measures. After 30 subjects, analysis determined that there would be no further statistically significant changes in results therefore, data collection was stopped at 30 subjects.|||||<|0.05|TWO_SIDED|95.0|||||ANOVA|||A two factor mixed model Analysis of Variance (ANOVA) for Group (Evaluation vs. Treatment) with repeated measures (pre vs. post test) was employed to test for main effects and all interactions for the Resistive Index||||<0.05
82591892|NCT01202279|164898254|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||Fisher Exact|||||||0.025
82591893|NCT01202279|164898255|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||ANCOVA|||||||0.022
82591894|NCT03805750|164898261|OTHER|||||||0.52|||||||Regression, Logistic|||||||0.52
82591895|NCT01984164|164898263|SUPERIORITY||Treatment effect size|-13.6|||||TWO_SIDED|95.0|-23.6|-3.7|||||effect size p-value = 0.008|All analyses were conducted using the intention-to-treat principle. Results are provided as adjusted least-square means with SE and effect size (ES) estimates (calculated from mixed model with repeated measures (MMRM) as the adjusted difference in cognitive change between the 2 groups over the study period).||-3.7|-23.6|
82591896|NCT04136184|164898324|SUPERIORITY||Difference in LS Mean|-24.7593||||1e-08|TWO_SIDED|95.0|-30.9552|-18.5635|||MMRM|||||-18.5635|-30.9552|0.00000001
82591897|NCT04136184|164898325|SUPERIORITY||Difference in LS Mean|-19.7352||||1e-08|TWO_SIDED|95.0|-25.6301|-13.8403|||MMRM|||||-13.8403|-25.6301|0.00000001
82591898|NCT04136184|164898326|SUPERIORITY||Difference in LS Mean|-70.42||||1e-08|TWO_SIDED|95.0|-75.17|-65.66|||MMRM|||||-65.66|-75.17|0.00000001
82591899|NCT04136184|164898327|SUPERIORITY||Difference in LS Mean|-66.65||||1e-08|TWO_SIDED|95.0|-71.59|-61.71|||MMRM|||||-61.71|-71.59|0.00000001
82591900|NCT04136184|164898328|SUPERIORITY||Difference in LS Mean|-9.3542||||0.00012203|TWO_SIDED|95.0|-13.8691|-4.8394|||MMRM|||||-4.8394|-13.8691|0.00012203
82591901|NCT04136184|164898329|SUPERIORITY||Difference in LS Mean|-11.8202||||1.873e-05|TWO_SIDED|95.0|-16.8927|-6.7477|||MMRM|||||-6.7477|-16.8927|0.00001873
82591902|NCT04136184|164898330|SUPERIORITY||Difference in LS Mean|-3.94||||0.00052447|TWO_SIDED|95.0|-6.08|-1.8|||MMRM|||Week 35||-1.80|-6.08|0.00052447
82591903|NCT04136184|164898330|SUPERIORITY||Difference in LS Mean|-8.21||||1e-08|TWO_SIDED|95.0|-10.65|-5.76|||MMRM|||Week 66||-5.76|-10.65|0.00000001
82653930|NCT01200394|165023040|SUPERIORITY||Geometric Mean Ratio|0.843||||0.9889|TWO_SIDED|95.0|0.728|0.975||Posterior distribution was used to calculate a probability (presented as P-value) that PF-00489791 has a greater than 0% reduction in UACR compared to placebo.|ANCOVA||Geometric mean ratio and corresponding 95% credible intervals were calculated.|Analysis of covariance (ANCOVA) model within an outlier robust Bayesian framework on normal logarithmic scale with treatment as fixed effect, baseline UACR and baseline supine systolic blood pressure (BP) as covariate. Values were back-transformed from log scale. Model used informative prior distribution for placebo.||0.975|0.728|0.9889
82653931|NCT01200394|165023040|SUPERIORITY|||||||0.2402|TWO_SIDED|||||Posterior distribution was used to calculate a probability (presented as P-value) that PF-00489791 has a greater than or equal to 20% reduction in UACR compared to placebo.|ANCOVA|||ANCOVA model within an outlier robust Bayesian framework on normal logarithmic scale with treatment as fixed effect, baseline UACR and baseline supine systolic BP as covariate. Values were back-transformed from log scale. Model used informative prior distribution for placebo.||||0.2402
82591904|NCT04136184|164898331|SUPERIORITY||Difference in LS Mean|5.305||||5.58e-06|TWO_SIDED|95.0|3.195|7.416|||MMRM|||||7.416|3.195|0.00000558
82591905|NCT04136184|164898332|SUPERIORITY||Difference in LS Mean|-0.2||||0.02407897|TWO_SIDED|95.0|-0.4|0.0|||MMRM|||||-0.0|-0.4|0.02407897
82591906|NCT04136184|164898333|SUPERIORITY||Difference in LS Mean|82.6991||||2e-07|TWO_SIDED|95.0|54.6431|110.7551|||MMRM|||||110.7551|54.6431|0.00000020
82591907|NCT01499953|164898360|NON_INFERIORITY|The hypotheses for non-inferiority test using ∆=4.5% for the difference between incidence rates were H0: πrivaroxaban-πfondaparinux ≥ 4.5%, H1: πrivaroxaban-πfondaparinux \< 4.5% where πfondaparinux and πrivaroxaban were the incidence rates of CIAC confirmed VTE complications up to Day 45 in the treatment groups. Rejection of the null hypothesis would have concluded that rivaroxaban was not inferior to fondaparinux. To calculate the p-value, an asymptotic test for non-inferiority was used.||||||0.0252|||||||asymptotic test for non-inferiority|||||||0.0252
82591908|NCT03697720|164898435|SUPERIORITY||||||<|0.0001||||||The a priori threshold for statistical significance was .05|t-test, 2 sided|Paired t-test||Paired t-tests were used to compare worst menstrual pain rating across diary day (0-10 numeric rating scale) from baseline and at 6-8 maths followup.||||<0.0001
82591909|NCT03697720|164898436|SUPERIORITY|||||||0.119|||||||t-test, 2 sided|paired t-test||||||.119
82591910|NCT04096274|164898437|SUPERIORITY|||||||0.014|||||||Mixed Models Analysis|||||||.014
82591911|NCT04096274|164898438|SUPERIORITY|||||||0.023|||||||Mixed Models Analysis|||||||.023
82591912|NCT04096274|164898439|SUPERIORITY|||||||0.188|||||||Mixed Models Analysis|||||||.188
82591913|NCT04096274|164898440|SUPERIORITY|||||||0.782|||||||Mixed Models Analysis|||||||.782
82591914|NCT02807480|164898449|OTHER|Correlation between conflict approach behavior and GAD-7 scores at baseline|Pearson correlation|0.23||||0.088|TWO_SIDED||||||Pearson correlation|||||||.088
82591915|NCT02807480|164898449|OTHER||Pearson correlation|-0.2||||0.134|TWO_SIDED||||||Pearson correlation|||Correlation of baseline response time during conflict with baseline GAD-7 scores.||||.134
82591916|NCT02807480|164898449|OTHER||Pearson correlation|0.12||||0.032|TWO_SIDED||||||Pearson correlation|||Correlation of baseline striatum response to points (reward) with baseline GAD-7 scores.||||.032
82591917|NCT02807480|164898449|OTHER||Pearson correlation|-0.12||||0.375|TWO_SIDED||||||Pearson correlation|||Correlation of baseline right amygdala activity during negative images with baseline GAD7 scores||||0.375
82591918|NCT02807480|164898449|OTHER||Pearson correlation|0.06||||0.651|TWO_SIDED||||||Pearson correlation|||Correlation of baseline right dlPFC activity during conflict decision-making with baseline GAD-7 scores.||||.651
82591919|NCT02807480|164898449|OTHER|Correlation of baseline striatum response to negative pictures with baseline GAD-7 scores.|Pearson correlation|-0.35||||0.008|TWO_SIDED||||||Pearson correlation|||||||.008
82591920|NCT02807480|164898450|OTHER||Slope|-1.51||||0.007|TWO_SIDED|95.0|-2.62|-0.41||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0071.|Regression, Linear||Those with lower levels of baseline left amygdala response to positive picture outcomes had favorable GAD symptom improvements in BA and limited GAD symptom improvements in EXP.|Assess left amygdala response to positive picture decision outcomes as a predictor of GAD-7 symptom improvement: time x L. Amyg x treatment-arm interaction||-0.41|-2.62|.007
82591921|NCT02807480|164898450|OTHER||Slope|0.36||||0.238|TWO_SIDED|95.0|-0.24|0.97|||Regression, Linear|||Baseline approach behavior during conflict trials predicting trajectory of GAD-7 symptoms: time main effect||0.97|-0.24|0.238
82591922|NCT02807480|164898450|SUPERIORITY||Slope|-0.49||||0.262|TWO_SIDED|95.0|-1.36|0.37|||Regression, Linear|||Relationship between baseline approach behavior on conflict trials and the trajectory of GAD-7 symptoms: time x treatment interaction effect||0.37|-1.36|.262
82591923|NCT02807480|164898450|OTHER||Slope|2.37||||0.222|TWO_SIDED|95.0|-1.44|6.19|||Regression, Linear|||relationship between baseline response time on conflict trials and trajectory of GAD-7 symptoms: time main effects||6.19|-1.44|.222
82591924|NCT02807480|164898450|SUPERIORITY||Slope|-0.23||||0.942|TWO_SIDED|95.0|-6.48|6.02|||Regression, Linear|||Relationship between baseline average RT during conflict trials on the AAC and trajectory of GAD-7 symptoms: time x treatment interaction effect||6.02|-6.48|.942
82591925|NCT02807480|164898450|OTHER||Slope|-0.05||||0.932|TWO_SIDED|95.0|-1.2|1.1|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with GAD-7 trajectory: time main effects||1.1|-1.2|.932
82591926|NCT02807480|164898450|SUPERIORITY||Slope|-0.08||||0.922|TWO_SIDED|95.0|-1.7|1.53|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with GAD-7 trajectory: time x treatment interaction effects||1.53|-1.7|.922
82591927|NCT02807480|164898450|OTHER||Slope|0.0||||0.998|TWO_SIDED|95.0|-0.99|0.99|||Regression, Linear|||Relationship of right amygdala activity during negative images with GAD-7 trajectory: time main effects||.99|-.99|.998
82591928|NCT02807480|164898450|SUPERIORITY||Slope|-0.88||||0.234|TWO_SIDED|95.0|-2.34|0.57|||Regression, Linear|||Relationship of right amygdala activity during negative images with GAD-7 trajectory: time x treatment interaction||.57|-2.34|.234
82591929|NCT02807480|164898450|OTHER||Slope|-0.03||||0.967|TWO_SIDED|95.0|-1.53|1.47|||Regression, Linear|||Relationship of right dlPFC activity during conflict decisions with GAD-7 trajectory: time main effects||1.47|-1.53|.967
82591930|NCT02807480|164898450|OTHER||Slope|0.74||||0.504|TWO_SIDED|95.0|-1.43|2.91|||Regression, Linear|||Relationship of right dlPFC activity during conflict decision-making with GAD-7 trajectory: time x treatment interaction effect||2.91|-1.43|0.504
82591931|NCT02807480|164898450|OTHER||Slope|-1.68||||0.612|TWO_SIDED|95.0|-8.21|4.84|||Regression, Linear|||Change in conflict arbitration (AAC conflict RTpost-RTpre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_Change interaction||4.84|-8.21|0.612
82591932|NCT02807480|164898450|SUPERIORITY||Slope|5.08||||0.259|TWO_SIDED|95.0|-3.76|13.92|||Regression, Linear|||change in conflict arbitration response time (AAC conflict RTpost-RTpre) predicting trajectories of GAD-7 scores over 10 sessions: RT\_Change x Time x Treatment interaction||13.92|-3.76|.259
82653932|NCT01200394|165023041|SUPERIORITY||Geometric Mean Ratio|0.8759||||0.0382|TWO_SIDED|95.0|0.7727|0.9927|||Mixed Models Analysis|||Week 3: Mixed model repeated measures (MMRM) on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9927|0.7727|0.0382
82653933|NCT01200394|165023041|SUPERIORITY||Geometric Mean Ratio|0.8311||||0.0112|TWO_SIDED|95.0|0.7208|0.9584|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9584|0.7208|0.0112
82591933|NCT02807480|164898450|OTHER||Slope|-0.53||||0.209|TWO_SIDED|95.0|-1.35|0.3|||Regression, Linear|||Change in behavior (AAC conflict post-pre) in predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.30|-1.35|.209
82591934|NCT02807480|164898450|SUPERIORITY||Slope|1.53||||0.013|TWO_SIDED|95.0|0.33|2.73|||Regression, Linear|||Change in behavior (AAC conflict post-pre) in predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change x Treatment interaction||2.73|0.33|0.013
82591935|NCT02807480|164898451|OTHER||Slope|-2.95||||0.006|TWO_SIDED|95.0|-5.06|-0.84||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Baseline emotional conflict, a computational parameter reflecting avoidance relative to reward value, as a predictor of the linear trajectory of symptom change over time: time x EC interaction||-0.84|-5.06|0.006
82591936|NCT02807480|164898451|OTHER||Slope|-1.02||||0.003|TWO_SIDED|95.0|-1.68|-0.36|||Regression, Linear|||Assess avoidance behavior on conflict trials as a predictor of PROMIS Anxiety symptom improvement: time x avoidance interaction||-0.36|-1.68|0.003
82591937|NCT02807480|164898451|OTHER||Slope|-1.88||||0.007|TWO_SIDED|95.0|-2.89|-0.87||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0071.|Regression, Linear|||Assess left dlPFC response to baseline negative picture decision outcomes as a predictor of PROMIS Anxiety symptom improvement: time x L. dlPFC interaction||-0.87|-2.89|.007
82591938|NCT02807480|164898451|OTHER||Slope|1.02||||0.003|TWO_SIDED|95.0|0.36|1.68|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms||1.68|0.36|.003
82591939|NCT02807480|164898451|SUPERIORITY||Slope|-0.54||||0.258|TWO_SIDED|95.0|-1.48|0.4|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x treatment x approach behavior interaction||0.4|-1.48|.258
82591940|NCT02807480|164898451|OTHER||Slope|1.3||||0.56|TWO_SIDED|95.0|-3.08|5.69|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x approach behavior interaction||5.69|-3.08|.56
82591941|NCT02807480|164898451|SUPERIORITY||Slope|-1.77||||0.629|TWO_SIDED|95.0|-8.95|5.41|||Regression, Linear|||Relationships between baseline average RT (response time) during conflict trials on the AAC and trajectory of PROMIS Anxiety symptoms: time x treatment x RT interaction||5.41|-8.95|.629
82591942|NCT02807480|164898451|OTHER||Slope|-0.21||||0.75|TWO_SIDED|95.0|-1.51|1.09|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS ANXIETY trajectory: time x striatum interaction effects||1.09|-1.51|0.75
82591943|NCT02807480|164898451|SUPERIORITY||Slope|1.27||||0.169|TWO_SIDED|95.0|-0.54|3.09|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS Anxiety trajectory: time x treatment x striatum interaction effects||3.09|-0.54|.169
82591944|NCT02807480|164898451|OTHER||Slope|0.15||||0.792|TWO_SIDED|95.0|-1.0|1.31|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Anxiety trajectory: time x amygdala interaction||1.31|-1.00|0.792
82591945|NCT02807480|164898451|SUPERIORITY||Slope|-0.73||||0.396|TWO_SIDED|95.0|-2.41|0.96|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Anxiety trajectory: time x treatment amygdala interaction||0.96|-2.41|.396
82591946|NCT02807480|164898451|OTHER||Slope|-1.55||||0.009|TWO_SIDED|95.0|-2.7|-0.4|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Anxiety trajectory: time x dlPFC interaction||-0.4|-2.7|.009
82591947|NCT02807480|164898451|SUPERIORITY||Slope|0.28||||0.724|TWO_SIDED|95.0|-1.28|1.84|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Anxiety trajectory: time x treatment dlPFC interaction||1.84|-1.28|0.724
82591948|NCT02807480|164898451|OTHER||Slope|-4.99||||0.209|TWO_SIDED|95.0|-12.79|2.8|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_change interaction||2.80|-12.79|.209
82591949|NCT02807480|164898451|SUPERIORITY||Slope|12.68||||0.017|TWO_SIDED|95.0|2.23|23.13|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x RT\_change interaction||23.13|2.23|0.017
82591950|NCT02807480|164898451|OTHER||Slope|-0.58||||0.259|TWO_SIDED|95.0|-1.59|0.43|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.43|-1.59|.259
82591951|NCT02807480|164898451|OTHER||Slope|1.07||||0.15|TWO_SIDED|95.0|-0.39|2.54|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||2.54|-0.39|.150
82591952|NCT02807480|164898452|OTHER||Slope|-3.52||||0.001|TWO_SIDED|95.0|-5.57|-1.47||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Assess emotional conflict, a computational parameter reflecting avoidance relative to reward value, as a predictor of PROMIS Depression scores. Time x EC interaction.||-1.47|-5.57|0.001
82591953|NCT02807480|164898452|OTHER||Slope|-1.93|||<|0.001|TWO_SIDED|95.0|-2.91|-0.95||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Baseline left dlPFC response to negative pictures as a predictor of PROMIS depression symptom improvement: time x L. dlFPC interaction.||-0.95|-2.91|<.001
82591954|NCT02807480|164898452|OTHER||Slope|-2.02||||0.036|TWO_SIDED|95.0|-3.9|-0.13||Threshold for statistical significance is 0.05.|Regression, Linear|||Baseline striatum response to monetary outcomes as a predictor of improvement in depressive symptoms: time x treatment x striatum interaction.||-0.13|-3.9|.036
82591955|NCT02807480|164898452|OTHER||Slope|-1.21|||<|0.001|TWO_SIDED|95.0|-1.85|-0.58||The a priori threshold for statistical significance after Bonferroni correction for multiple comparisons was p\<.0125.|Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x approach behavior interaction||-0.58|-1.85|<.001
82653934|NCT01200394|165023041|SUPERIORITY||Geometric Mean Ratio|0.8816||||0.149|TWO_SIDED|95.0|0.7427|1.0465|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0465|0.7427|0.1490
82591956|NCT02807480|164898452|SUPERIORITY||Slope|-0.91||||0.049|TWO_SIDED|95.0|-1.81|0.0|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x treatment x approach behavior interaction||0.00|-1.81|.049
82591957|NCT02807480|164898452|OTHER||Slope|0.6||||0.778|TWO_SIDED|95.0|-3.6|4.81|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x RT interaction||4.81|-3.6|.778
82591958|NCT02807480|164898452|SUPERIORITY||Slope|1.38||||0.696|TWO_SIDED|95.0|-5.56|8.31|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PROMIS Depression symptoms: time x treatment x RT interaction||8.31|-5.56|.696
82591959|NCT02807480|164898452|OTHER||Slope|0.44||||0.503|TWO_SIDED|95.0|-0.84|1.71|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PROMIS Depression trajectory: time x striatum interaction effects||1.71|-0.84|.503
82591960|NCT02807480|164898452|OTHER||Slope|-0.9||||0.114|TWO_SIDED|95.0|-2.02|0.22|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Depression trajectory: time x amygdala interaction||.22|-2.02|.114
82591961|NCT02807480|164898452|SUPERIORITY||Slope|0.48||||0.561|TWO_SIDED|95.0|-1.15|2.11|||Regression, Linear|||Relationship of right amygdala activity during negative images with PROMIS Depression trajectory: time x treatment amygdala interaction||2.11|-1.15|.561
82591962|NCT02807480|164898452|OTHER||Slope|-1.54||||0.007|TWO_SIDED|95.0|-2.66|-0.42|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Depression trajectory: time x dlPFC interaction||-0.42|-2.66|.007
82591963|NCT02807480|164898452|SUPERIORITY||Slope|0.65||||0.403|TWO_SIDED|95.0|-0.87|2.17|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PROMIS Depression trajectory: time x treatment dlPFC interaction||2.17|-0.87|0.403
82591964|NCT02807480|164898452|OTHER||Slope|-1.51||||0.681|TWO_SIDED|95.0|-8.76|5.73|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x RT\_change interaction||5.73|-8.76|0.681
82591965|NCT02807480|164898452|SUPERIORITY||Slope|5.61||||0.264|TWO_SIDED|95.0|-4.24|15.46|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x RT\_change interaction||15.46|-4.24|.264
82591966|NCT02807480|164898452|OTHER||Slope|-0.43||||0.367|TWO_SIDED|95.0|-1.38|0.51|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Behavior\_change interaction||0.51|-1.38|.367
82591967|NCT02807480|164898452|OTHER||Slope|0.88||||0.211|TWO_SIDED|95.0|-0.5|2.25|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of GAD-7 scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||2.25|-0.50|.211
82591968|NCT02807480|164898453|OTHER||Slope|0.74||||0.028|TWO_SIDED|95.0|0.08|1.41|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of SDS score: time x approach behavior interaction||1.41|0.08|0.028
82653935|NCT01200394|165023042|SUPERIORITY||Geometric Mean Ratio|0.8565||||0.0297|TWO_SIDED|95.0|0.745|0.9847|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9847|0.7450|0.0297
82653936|NCT01200394|165023042|SUPERIORITY||Geometric Mean Ratio|0.8524||||0.0305|TWO_SIDED|95.0|0.7376|0.985|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9850|0.7376|0.0305
82591969|NCT02807480|164898453|SUPERIORITY||Slope|-0.55||||0.251|TWO_SIDED|95.0|-1.49|0.39|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and trajectory of SDS symptoms: time x treatment x approach behavior interaction||0.39|-1.49|0.251
82591970|NCT02807480|164898453|OTHER||Slope|-0.26||||0.902|TWO_SIDED|95.0|-4.49|3.96|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of SDS symptoms: time x RT interaction||3.96|-4.49|0.902
82591971|NCT02807480|164898453|SUPERIORITY||Slope|2.23||||0.519|TWO_SIDED|95.0|-4.55|9.01|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of SDS symptoms: time x treatment x RT interaction||9.01|-4.55|.519
82591972|NCT02807480|164898453|OTHER||Slope|-0.64||||0.326|TWO_SIDED|95.0|-1.92|0.64|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with SDS trajectory: time x striatum interaction effects||0.64|-1.92|.326
82591973|NCT02807480|164898453|SUPERIORITY||Slope|1.26||||0.168|TWO_SIDED|95.0|-0.53|3.05|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with SDS trajectory: time x treatment x striatum interaction effects||3.05|-0.53|.168
82591974|NCT02807480|164898453|OTHER||Slope|-0.5||||0.248|TWO_SIDED|95.0|-1.34|0.35|||Regression, Linear|||Relationship of right amygdala activity during negative images with SDS trajectory: time x amygdala interaction||0.35|-1.34|.248
82591975|NCT02807480|164898453|SUPERIORITY||Slope|0.3||||0.603|TWO_SIDED|95.0|-0.84|1.44|||Regression, Linear|||Relationship of right amygdala activity during negative images with SDS trajectory: time x treatment amygdala interaction||1.44|-0.84|0.603
82591976|NCT02807480|164898453|OTHER||Slope|-0.85||||0.107|TWO_SIDED|95.0|-1.89|0.18|||Regression, Linear|||Relationship of right dlPFC activity during negative images with SDS trajectory: time x dlPFC interaction||0.18|-1.89|.107
82591977|NCT02807480|164898453|SUPERIORITY||Slope|0.16||||0.846|TWO_SIDED|95.0|-1.47|1.8|||Regression, Linear|||Relationship of right dlPFC activity during negative images with SDS trajectory: time x treatment x dlPFC interaction||1.80|-1.47|0.846
82591978|NCT02807480|164898453|OTHER||Slope|-2.26||||0.561|TWO_SIDED|95.0|-9.89|5.37|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x RT\_change interaction||5.37|-9.89|.561
82591979|NCT02807480|164898453|SUPERIORITY||Slope|5.45||||0.297|TWO_SIDED|95.0|-4.8|15.7|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x Treatment x RT\_change interaction||15.70|-4.80|.297
82591980|NCT02807480|164898453|OTHER||Slope|-0.18||||0.712|TWO_SIDED|95.0|-1.15|0.79|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of SDS cores over the 10 sessions: Time x Behavior\_change interaction||0.79|-1.15|.712
82591981|NCT02807480|164898453|SUPERIORITY||Slope|0.56||||0.431|TWO_SIDED|95.0|-0.84|1.97|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of SDS scores over the 10 sessions: Time x Treatment x Behavior\_change interaction||1.97|-0.84|0.431
82591982|NCT02807480|164898454|OTHER||Slope|-6.42||||0.276|TWO_SIDED|95.0|-18.15|5.3|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment PSWQ score: approach behavior main effect||5.30|-18.15|.276
82591983|NCT02807480|164898454|SUPERIORITY||Slope|5.69||||0.52|TWO_SIDED|95.0|-12.12|23.5|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment PSWQ score: treatment x approach behavior interaction||23.50|-12.12|.520
82591984|NCT02807480|164898454|OTHER||Slope|-50.0||||0.199|TWO_SIDED|95.0|-127.65|27.65|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PSWQ score: RT main effect||27.65|-127.65|.199
82591985|NCT02807480|164898454|SUPERIORITY||Slope|93.87||||0.191|TWO_SIDED|95.0|-4.14|236.88|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and trajectory of PSWQ score: treatment x RT interaction||236.88|-4.14|.191
82591986|NCT02807480|164898454|OTHER||Slope|27.35||||0.021|TWO_SIDED|95.0|4.45|50.26|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PSWQ trajectory: striatum main effect||50.26|4.45|0.021
82591987|NCT02807480|164898454|SUPERIORITY||Slope|-5.47||||0.734|TWO_SIDED|95.0|-37.94|27.0|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with PSWQ post-treatment: treatment x striatum interaction effects||27.00|-37.94|.734
82591988|NCT02807480|164898454|OTHER||Slope|-9.79||||0.231|TWO_SIDED|95.0|-26.11|6.53|||Regression, Linear|||Relationship of right amygdala activity during negative images with PSWQ post-treatment: amygdala main effect||6.53|-26.11|.231
82591989|NCT02807480|164898454|SUPERIORITY||Slope|8.55||||0.602|TWO_SIDED|95.0|-24.48|41.58|||Regression, Linear|||Relationship of right amygdala activity during negative images with PSWQ post-treatment: treatment amygdala interaction||41.58|-24.48|.602
82591990|NCT02807480|164898454|OTHER||Slope|-19.29||||0.369|TWO_SIDED|95.0|-62.07|23.68|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PSWQ post-treatment: dlPFC main effect||23.68|-62.07|.369
82591991|NCT02807480|164898454|SUPERIORITY||Slope|9.12||||0.684|TWO_SIDED|95.0|-36.05|54.29|||Regression, Linear|||Relationship of right dlPFC activity during negative images with PSWQ post-treatment: treatment x dlPFC interaction||54.29|-36.05|.684
82591992|NCT02807480|164898454|OTHER||Slope|9.6||||0.487|TWO_SIDED|95.0|-18.39|37.59|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of PSWQ cores over the 10 sessions: Behavior\_change main effect||37.59|-18.39|.487
82591993|NCT02807480|164898454|SUPERIORITY||Slope|-46.34||||0.033|TWO_SIDED|95.0|-88.5|-4.18|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of PSWQ scores over the 10 sessions: Treatment x Behavior\_change interaction||-4.18|-88.5|.033
82591994|NCT02807480|164898454|OTHER||Slope|39.53||||0.546|TWO_SIDED|95.0|-94.2|173.85|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of PSWQ scores over the 10 sessions: RT\_change main effect||173.85|-94.2|.546
82591995|NCT02807480|164898454|SUPERIORITY||Slope|-89.96||||0.443|TWO_SIDED|95.0|-327.39|147.67|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of PSWQ scores over the 10 sessions: Treatment x RT\_change interaction||147.67|-327.39|.443
82591996|NCT02807480|164898455|OTHER||Slope|-1.01||||0.357|TWO_SIDED|95.0|-3.22|1.19|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment BDI-II score: approach behavior main effect||1.19|-3.22|.357
82591997|NCT02807480|164898455|SUPERIORITY||Slope|0.37||||0.812|TWO_SIDED|95.0|-2.74|3.47|||Regression, Linear|||Relationships between baseline average approach behavior during conflict trials on the AAC and post-treatment BDI-II score: treatment x approach behavior interaction||3.47|-2.74|.812
82591998|NCT02807480|164898455|OTHER||Slope|2.01||||0.826|TWO_SIDED|95.0|-16.42|20.45|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and post-treatment BDI-II score: RT main effect||20.45|-16.42|.826
82591999|NCT02807480|164898455|SUPERIORITY||Slope|-2.89||||0.838|TWO_SIDED|95.0|-31.42|25.64|||Regression, Linear|||Relationships between baseline average RT during conflict trials on the AAC and post-treatment BDI-II score: treatment x RT interaction||25.64|-31.42|.838
82592000|NCT02807480|164898455|OTHER||Slope|-0.68||||0.776|TWO_SIDED|95.0|-5.51|4.14|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with BDI-II post-treatment: striatum main effect||4.14|-5.51|.776
82592001|NCT02807480|164898455|SUPERIORITY||Slope|-0.69||||0.844|TWO_SIDED|95.0|-7.79|6.4|||Regression, Linear|||Relationship of striatum activity during points outcomes (reward) with BDI-II post-treatment: treatment x striatum interaction effects||6.40|-7.79|.844
82592002|NCT02807480|164898455|OTHER||Slope|0.88||||0.719|TWO_SIDED|95.0|-4.03|5.79|||Regression, Linear|||Relationship of right amygdala activity during negative images with BDI-II post-treatment: amygdala main effect||5.79|-4.03|.719
82592003|NCT02807480|164898455|SUPERIORITY||Slope|-2.33||||0.464|TWO_SIDED|95.0|-8.74|4.07|||Regression, Linear|||Relationship of right amygdala activity during negative images with BDI-II post-treatment: treatment x amygdala interaction||4.07|-8.74|.464
82592004|NCT02807480|164898455|OTHER||Slope|5.91||||0.135|TWO_SIDED|95.0|-1.93|13.75|||Regression, Linear|||Relationship of right dlPFC activity during negative images with BDI-II post-treatment: dlPFC main effect||13.75|-1.93|.135
82592005|NCT02807480|164898455|SUPERIORITY||Slope|-6.09||||0.158|TWO_SIDED|95.0|-14.65|2.47|||Regression, Linear|||Relationship of right dlPFC activity during negative images with BDI-II post-treatment: treatment x dlPFC interaction||2.47|-14.65|.158
82592006|NCT02807480|164898455|OTHER||Slope|1.16||||0.69|TWO_SIDED|95.0|-4.78|7.11|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of BDI-II cores over the 10 sessions: Behavior\_change main effect||7.11|-4.78|.690
82592007|NCT02807480|164898455|SUPERIORITY||Slope|-1.37||||0.715|TWO_SIDED|95.0|-8.99|6.25|||Regression, Linear|||Change in behavior (AAC conflict post-pre) predicting trajectories of BDI-II scores over the 10 sessions: Treatment x Behavior\_change interaction||6.25|-8.99|.715
82592008|NCT02807480|164898455|OTHER||Slope|5.14||||0.74|TWO_SIDED|95.0|-26.38|36.65|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of BDI-II scores over the 10 sessions: RT\_change main effect||36.65|-26.38|.740
82592009|NCT02807480|164898455|SUPERIORITY||Slope|-0.98||||0.966|TWO_SIDED|95.0|-48.1|46.14|||Regression, Linear|||Change in conflict arbitration response time (AAC conflict RT post-pre) predicting trajectories of BDI-II scores over the 10 sessions: Treatment x RT\_change interaction||46.14|-48.10|.966
82592010|NCT00257725|164898484|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.09|STANDARD_DEVIATION|0.73||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
82592011|NCT00257725|164898485|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.64|STANDARD_DEVIATION|1.29||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
82592012|NCT00257725|164898486|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|10.55|STANDARD_DEVIATION|7.7||0.01|TWO_SIDED|95.0|||||paired t-test|||||||0.01
82592013|NCT01858532|164898487|OTHER||||||=|0.029|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||=0.029
82592014|NCT01858532|164898487|OTHER||Hazard Ratio (HR)|0.654|||=|0.005|TWO_SIDED|95.0|0.488|0.878|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.878|0.488|=0.005
82592015|NCT01858532|164898488|OTHER||||||=|0.289|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||=0.289
82592016|NCT01858532|164898488|OTHER||Hazard Ratio (HR)|0.779||||0.112|TWO_SIDED|95.0|0.573|1.06|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||1.060|0.573|0.112
82592017|NCT01858532|164898489|OTHER|||||||0.089|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||0.089
82592018|NCT01858532|164898489|OTHER||Hazard Ratio (HR)|0.801||||0.049|TWO_SIDED|95.0|0.642|0.999|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.999|0.642|0.049
82592019|NCT01858532|164898490|OTHER||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.58|0.89|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||0.89|0.58|0.002
82592020|NCT01858532|164898491|OTHER|||||||0.446|||||||Stratified log-rank test|||The endpoint was analyzed using the stratified log-rank test for treatment comparison.||||0.446
82592021|NCT01858532|164898491|OTHER||Hazard Ratio (HR)|0.884||||0.447|TWO_SIDED|95.0|0.643|1.215|||Regression, Cox|||A Cox Proportional Hazards regression model with pre-specified covariates adjusted was used to estimate the hazard ratio of atrasentan to placebo and its 95% confidence interval.||1.215|0.643|0.447
82592022|NCT00514514|164898492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.56|||<|0.0001|TWO_SIDED|95.0|2.82|8.31|||ANCOVA|||||8.31|2.82|< 0.0001
82592023|NCT02081534|164898531|SUPERIORITY|||||||0.012|||||||ANCOVA|||||||0.012
82592024|NCT01101438|164898550|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.93|TWO_SIDED|95.0|0.84|1.21|||Log Rank|||||1.21|0.84|0.93
82592025|NCT01101438|164898551|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.87|1.17|||Log Rank|||||1.17|0.87|0.94
82592026|NCT01101438|164898552|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.88|TWO_SIDED|95.0|0.83|1.24|||Log Rank|||||1.24|0.83|0.88
82592027|NCT05714982|164898558|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592028|NCT05714982|164898558|SUPERIORITY|||||||0.78|||||||General linear model|||||||.78
82592029|NCT05714982|164898559|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592030|NCT05714982|164898559|SUPERIORITY|||||||0.66|||||||General linear model|||||||.66
82592031|NCT05714982|164898560|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592032|NCT05714982|164898560|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592033|NCT05714982|164898561|SUPERIORITY|||||||0.001|||||||General linear model|||||||.001
82653937|NCT01200394|165023042|SUPERIORITY||Geometric Mean Ratio|0.7937||||0.0068|TWO_SIDED|95.0|0.6717|0.9378|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9378|0.6717|0.0068
82653938|NCT01200394|165023042|SUPERIORITY||Geometric Mean Ratio|0.8634||||0.1151|TWO_SIDED|95.0|0.719|1.0368|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0368|0.7190|0.1151
82592034|NCT05714982|164898561|SUPERIORITY|||||||0.95|||||||General linear model|||||||.95
82592035|NCT05714982|164898562|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592036|NCT05714982|164898562|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592037|NCT05714982|164898563|SUPERIORITY||||||<|0.0001|||||||General linear model|||||||<.0001
82592038|NCT05714982|164898563|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592039|NCT05714982|164898564|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592040|NCT05714982|164898564|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
82592041|NCT05714982|164898565|SUPERIORITY|||||||0.03|||||||General linear model|||||||.03
82592042|NCT05714982|164898565|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
82592043|NCT05714982|164898566|SUPERIORITY|||||||0.61|||||||General linear model|||||||.61
82592044|NCT05714982|164898566|SUPERIORITY|||||||0.68|||||||General linear model|||||||.68
82592045|NCT05714982|164898567|SUPERIORITY|||||||0.4|||||||General linear model|||||||.4
82592046|NCT05714982|164898567|SUPERIORITY|||||||0.5|||||||General linear model|||||||.5
82592047|NCT05714982|164898568|SUPERIORITY|||||||0.001|||||||General linear model|||||||.001
82592048|NCT05714982|164898568|SUPERIORITY|||||||0.9|||||||General linear model|||||||.9
82592049|NCT05714982|164898569|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.73|1.2||||||||1.2|.73|
82592050|NCT05714982|164898569|SUPERIORITY||Odds Ratio (OR)|0.9|||||TWO_SIDED|95.0|0.69|1.2||||||||1.2|.69|
82592051|NCT05714982|164898570|SUPERIORITY||Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.3|0.9||||||||.9|.3|
82592052|NCT05714982|164898570|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.6|1.7||||||||1.7|.6|
82592053|NCT05714982|164898571|SUPERIORITY|||||||0.02|||||||General linear model|||||||.02
82592054|NCT05714982|164898571|SUPERIORITY|||||||0.5|||||||General linear model|||||||.5
82592055|NCT05714982|164898572|SUPERIORITY||||||<|0.001|||||||General linear model|||||||<.001
82592056|NCT05714982|164898572|SUPERIORITY|||||||0.004|||||||General linear model|||||||.004
82592057|NCT05714982|164898573|SUPERIORITY|||||||0.3|||||||General linear model|||||||0.3
82592058|NCT05714982|164898573|SUPERIORITY|||||||0.5|||||||General linear model|||||||0.5
82592059|NCT05714982|164898574|SUPERIORITY||Odds Ratio (OR)|1.4|||||TWO_SIDED|95.0|0.99|2.1||||||||2.1|.99|
82592060|NCT05714982|164898574|SUPERIORITY||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|1.2|2.6||||||||2.6|1.2|
82592061|NCT00806195|164898598|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the safety objective was that the upper limit of the two-sided 95% CI for this difference in the proportion of subjects experiencing at least one severe systemic reaction during the first 7 days after any vaccination (PMenACWY+Routine Vaccines-PRoutine Vaccines) was ≥ 6%.|Mean Difference (Final Values)|3.0|||||TWO_SIDED|95.0|-0.8|6.4|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered noninferior to routine vaccines alone with respect to severe systemic reactions if the upper limit of the 2-sided 95% CI of the difference (MenACWY-CRM197 vaccine plus routine vaccines group minus routine vaccines only group) in the proportion of subjects experiencing at least one severe systemic reaction during the first 7 days (days 1-7) after any vaccination was \<6%.||6.4|-0.8|
82592062|NCT00806195|164898599|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the SAE safety objective was that the upper limit of the two-sided 95% confidence interval for the difference between the MenACWY and routine vaccine groups in the proportion of subjects experiencing at least one SAE (PMenACWY + Routine Vaccines - PRoutine Vaccines) was ≥5%.|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.9|1.5|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered non inferior to routine vaccines alone with respect to serious adverse events if the upper limit of the 2-sided 95% CI of the difference (MenACWY vaccine plus routine vaccines group minus routine vaccines only group) of the proportion of subjects experiencing at least one serious adverse event was \<5%.||1.5|-0.9|
82592063|NCT00806195|164898599|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis associated with the SAE safety objective was that the upper limit of the two-sided 95% confidence interval for the difference between the MenACWY and routine vaccine groups in the proportion of subjects experiencing at least one SAE (PMenACWY + Routine Vaccines - PRoutine Vaccines) was \<5%.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.8|1.3|||Miettinen and Nurminen|||MenACWY-CRM 197 administered concomitantly with routine vaccines was considered non inferior to routine vaccines alone with respect to serious adverse events if the upper limit of the 2-sided 95% CI of the difference (MenACWY vaccine plus routine vaccines group minus routine vaccines only group) of the proportion of subjects experiencing at least one serious adverse event was \<5%.||1.3|-0.8|
82592064|NCT03634397|164898602|OTHER||Mean Difference (Final Values)|5.73|||<|0.05|TWO_SIDED|95.0|2.31|9.14||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear||The delta values of the outcome from baseline 2 to post-treatment 1 were directly modeled using linear regression with adjustment for age, female sex, and the hemisphere affected by the stroke.|||9.14|2.31|<.05
82592065|NCT03634397|164898604|OTHER|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Mean Difference (Final Values)|0.83|||<|0.05|TWO_SIDED|95.0|-2.58|4.24||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.||||4.24|-2.58|<.05
82592066|NCT03634397|164898605|OTHER|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Median Difference (Final Values)|1.12|||<|0.05|TWO_SIDED|95.0|-2.29|4.53||P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|Regression, Linear|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|P-values include adjustment for age, female sex, and hemisphere of brain affected by stroke.|||4.53|-2.29|<.05
82592067|NCT02752035|164898609|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.523|TWO_SIDED|95.0|0.57|1.329|||Log Rank||Based on Cox proportional hazards model.|Stratification factors were age group per IRT, risk groups and baseline FLT3 mutation status, with potential of strata pooling.||1.329|0.570|0.523
82592068|NCT02752035|164898610|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.787|TWO_SIDED|95.0|0.635|1.393|||Log Rank||Based on Cox proportional hazards model.|Stratification factors were age group per IRT, risk groups and baseline FLT3 mutation status, with potential of strata pooling.||1.393|0.635|0.787
82592069|NCT02752035|164898612|SUPERIORITY||Treatment Difference|8.2||||0.249|TWO_SIDED|95.0|-6.5|23.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||23.0|-6.5|0.249
82592070|NCT02752035|164898613|SUPERIORITY||Treatment Difference|33.3|||<|0.001|TWO_SIDED|95.0|16.6|50.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||50.0|16.6|<0.001
82592071|NCT02752035|164898614|SUPERIORITY||Treatment Difference|8.5||||0.049|TWO_SIDED|95.0|-0.1|17.1||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||17.1|-0.1|0.049
82592072|NCT02752035|164898615|SUPERIORITY||Treatment Difference|16.7||||0.032|TWO_SIDED|95.0|1.1|32.4||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||32.4|1.1|0.032
82592073|NCT02752035|164898616|SUPERIORITY||Treatment Difference|-9.0||||0.34|TWO_SIDED|95.0|-29.8|11.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||11.0|-29.8|0.340
82592074|NCT02752035|164898617|SUPERIORITY||Treatment Difference|50.0||||0.221|TWO_SIDED|95.0|-61.0|100.0||Based on stratified Cochran-Mantel-Haenszel test. Stratification factor was age group per interactive response technology.|Cochran-Mantel-Haenszel|||||100.0|-61.0|0.221
82592075|NCT02752035|164898618|SUPERIORITY||Hazard Ratio (HR)|0.844||||0.592|TWO_SIDED|95.0|0.451|1.58|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|||1.580|0.451|0.592
82653939|NCT01200394|165023043|SUPERIORITY||Geometric Mean Ratio|0.9816||||0.3585|TWO_SIDED|95.0|0.9434|1.0214|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0214|0.9434|0.3585
82653940|NCT01200394|165023043|SUPERIORITY||Geometric Mean Ratio|0.9939||||0.7475|TWO_SIDED|95.0|0.9577|1.0315|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0315|0.9577|0.7475
82592076|NCT02752035|164898619|SUPERIORITY||Hazard Ratio (HR)|0.573||||0.3|TWO_SIDED|95.0|0.198|1.658|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CR/CRh.||1.658|0.198|0.300
82592077|NCT02752035|164898619|SUPERIORITY||Hazard Ratio (HR)|0.411||||0.171|TWO_SIDED|95.0|0.113|1.504|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CR.||1.504|0.113|0.171
82592078|NCT02752035|164898619|SUPERIORITY||Hazard Ratio (HR)|0.691||||0.383|TWO_SIDED|95.0|0.295|1.62|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CRc||1.620|0.295|0.383
82592079|NCT02752035|164898619|SUPERIORITY||Hazard Ratio (HR)|999.0||||0.998|TWO_SIDED|95.0|0.001||Upper limit of 95% confidence interval was not estimable due to insufficient number of participants.||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of CRh.|||0.001|0.998
82592080|NCT02752035|164898619|SUPERIORITY||Hazard Ratio (HR)|0.628||||0.174|TWO_SIDED|95.0|0.321|1.229|||Log Rank||Based on Cox proportional hazards model adjusting age group per IRT.|Analysis reported for duration of response.||1.229|0.321|0.174
82592081|NCT02752035|164898620|SUPERIORITY||Least square mean difference|0.5||||0.56|TWO_SIDED|95.0|-1.1|2.0|||ANCOVA|Using analysis of covariance including treatment, age group per IRT and baseline score as covariate.|Least square mean difference and P-value were calculated using AZA as reference.|||2.0|-1.1|0.560
82592082|NCT01846728|164898629|OTHER|||||||0.84||||||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations|t-test, 2 sided|||||||0.84
82592083|NCT01846728|164898630|OTHER|||||||0.66|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.66
82592084|NCT01846728|164898631|OTHER|Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||||0.92|||||||t-test, 2 sided|||||||0.92
82592085|NCT01846728|164898632|OTHER|||||||0.98|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.98
82592086|NCT01846728|164898633|OTHER|||||||0.66|||||||t-test, 2 sided|||Because this was a pilot study, the study was not powered to detect differences over time. the study was performed to generate preliminary data on means and standard deviations||||0.66
82592087|NCT02161575|164898634|SUPERIORITY||Median Difference (Final Values)|-30.75|||<|0.0001|TWO_SIDED|95.0|-59.5|-20.5|||Wilcoxon (Mann-Whitney)|Confidence Interval for the Median Change form Baseline||The null hypothesis was that the change in CSRT from baseline to Day 90 was zero||-20.50|-59.50|<0.0001
82592088|NCT02446314|164898654|SUPERIORITY||||||=|0.04|||||||Linear Mixed Model / Baseline Covariate|||||||= .04
82592089|NCT02446314|164898655|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
82592090|NCT02446314|164898656|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
82592091|NCT02446314|164898657|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
82592092|NCT02446314|164898658|SUPERIORITY||||||>|0.05|||||||Linear Mixed Model / Baseline Covariate|||||||> .05
82592093|NCT01299376|164898674|SUPERIORITY_OR_OTHER||Difference in Least-squares Means|-5.9|||<|0.001|TWO_SIDED|95.0|-7.5|-4.2|||Contrained Longitudinal Data Analysis|Model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups.||||-4.2|-7.5|<0.001
82592094|NCT01299376|164898685|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3|||<|0.001|TWO_SIDED|95.0|-12.8|-7.7||Model including treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups.|Constrained Longitudinal Data Analysis|||||-7.7|-12.8|<0.001
82592095|NCT03962738|164898688|SUPERIORITY||Odds Ratio (OR)|3.46|||<|0.001|TWO_SIDED|95.0|2.17|5.54|||Regression, Logistic|||||5.54|2.17|<0.001
82653941|NCT01200394|165023043|SUPERIORITY||Geometric Mean Ratio|0.9866||||0.4972|TWO_SIDED|95.0|0.9488|1.0259|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0259|0.9488|0.4972
82592096|NCT03962738|164898689|SUPERIORITY||||||<|0.001|||||||Cochran-Armitage Trend Test|||||||<.001
82592097|NCT03962738|164898690|SUPERIORITY||Odds Ratio (OR)|1.76||||0.037|TWO_SIDED|95.0|1.03|2.99|||Regression, Logistic|||||2.99|1.03|0.037
82592098|NCT03962738|164898690|SUPERIORITY||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.16|5.17|||Regression, Logistic|||||5.17|2.16|<0.001
82592099|NCT03962738|164898690|SUPERIORITY||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.89|4.62|||Regression, Logistic|||||4.62|1.89|<0.001
82592100|NCT03962738|164898691|SUPERIORITY||Odds Ratio (OR)|1.49||||0.197|TWO_SIDED|95.0|0.81|2.72|||Regression, Logistic|||||2.72|0.81|0.197
82592101|NCT03962738|164898691|SUPERIORITY||Odds Ratio (OR)|1.59||||0.044|TWO_SIDED|95.0|1.01|2.5|||Regression, Logistic|||||2.50|1.01|0.044
82592102|NCT03962738|164898691|SUPERIORITY||Odds Ratio (OR)|1.75||||0.023|TWO_SIDED|95.0|1.08|2.83|||Regression, Logistic|||||2.83|1.08|0.023
82592103|NCT03962738|164898692|SUPERIORITY||Odds Ratio (OR)|1.52||||0.268|TWO_SIDED|95.0|0.73|3.17|||Regression, Logistic|||||3.17|0.73|0.268
82592104|NCT03962738|164898692|SUPERIORITY||Odds Ratio (OR)|2.19||||0.006|TWO_SIDED|95.0|1.26|3.82|||Regression, Logistic|||||3.82|1.26|0.006
82592105|NCT03962738|164898692|SUPERIORITY||Odds Ratio (OR)|2.63|||<|0.001|TWO_SIDED|95.0|1.5|4.61|||Regression, Logistic|||||4.61|1.50|<0.001
82592106|NCT03962738|164898693|SUPERIORITY||Odds Ratio (OR)|1.26||||0.535|TWO_SIDED|95.0|0.61|2.58|||Regression, Logistic|||||2.58|0.61|0.535
82592107|NCT03962738|164898693|SUPERIORITY||Odds Ratio (OR)|1.77||||0.036|TWO_SIDED|95.0|1.04|3.03|||Regression, Logistic|||||3.03|1.04|0.036
82592108|NCT03962738|164898693|SUPERIORITY||Odds Ratio (OR)|1.93||||0.018|TWO_SIDED|95.0|1.12|3.33|||Regression, Logistic|||||3.33|1.12|0.018
82592109|NCT03962738|164898694|SUPERIORITY||Odds Ratio (OR)|1.67||||0.199|TWO_SIDED|95.0|0.76|3.65|||Regression, Logistic|||||3.65|0.76|0.199
82592110|NCT03962738|164898694|SUPERIORITY||Odds Ratio (OR)|1.33||||0.305|TWO_SIDED|95.0|0.77|2.32|||Regression, Logistic|||||2.32|0.77|0.305
82592111|NCT03962738|164898694|SUPERIORITY||Odds Ratio (OR)|1.26||||0.426|TWO_SIDED|95.0|0.71|2.24|||Regression, Logistic|||||2.24|0.71|0.426
82592112|NCT03962738|164898695|SUPERIORITY||Odds Ratio (OR)|1.57||||0.135|TWO_SIDED|95.0|0.87|2.82|||Regression, Logistic|||||2.82|0.87|0.135
82592113|NCT03962738|164898695|SUPERIORITY||Odds Ratio (OR)|1.48||||0.08|TWO_SIDED|95.0|0.95|2.3|||Regression, Logistic|||||2.30|0.95|0.080
82592114|NCT03962738|164898695|SUPERIORITY||Odds Ratio (OR)|1.56||||0.061|TWO_SIDED|95.0|0.98|2.49|||Regression, Logistic|||||2.49|0.98|0.061
82592115|NCT03962738|164898696|SUPERIORITY||Odds Ratio (OR)|1.38||||0.342|TWO_SIDED|95.0|0.71|2.67|||Regression, Logistic|||||2.67|0.71|0.342
82592116|NCT03962738|164898696|SUPERIORITY||Odds Ratio (OR)|1.25||||0.377|TWO_SIDED|95.0|0.76|2.04|||Regression, Logistic|||||2.04|0.76|0.377
82592117|NCT03962738|164898696|SUPERIORITY||Odds Ratio (OR)|1.05||||0.862|TWO_SIDED|95.0|0.63|1.72|||Regression, Logistic|||||1.72|0.63|0.862
82592118|NCT03962738|164898698|SUPERIORITY||Odds Ratio (OR)|3.43||||0.112|TWO_SIDED|95.0|0.75|15.65|||Regression, Logistic|||||15.65|0.75|0.112
82592119|NCT03962738|164898698|SUPERIORITY||Odds Ratio (OR)|9.05|||<|0.001|TWO_SIDED|95.0|2.68|30.55|||Regression, Logistic|||||30.55|2.68|<0.001
82592120|NCT03962738|164898698|SUPERIORITY||Odds Ratio (OR)|10.19|||<|0.001|TWO_SIDED|95.0|3.01|34.55|||Regression, Logistic|||||34.55|3.01|<0.001
82592121|NCT03962738|164898699|SUPERIORITY||Odds Ratio (OR)|0.78||||0.343|TWO_SIDED|95.0|0.46|1.31|||Regression, Logistic|||||1.31|0.46|0.343
82592122|NCT03962738|164898699|SUPERIORITY||Odds Ratio (OR)|2.02|||<|0.001|TWO_SIDED|95.0|1.37|2.98|||Regression, Logistic|||||2.98|1.37|<0.001
82592123|NCT03962738|164898699|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.42|3.2|||Regression, Logistic|||||3.20|1.42|<0.001
82592124|NCT03962738|164898700|SUPERIORITY||Odds Ratio (OR)|1.19||||0.605|TWO_SIDED|95.0|0.62|2.26|||Regression, Logistic|||||2.26|0.62|0.605
82592125|NCT03962738|164898700|SUPERIORITY||Odds Ratio (OR)|1.8||||0.015|TWO_SIDED|95.0|1.12|2.9|||Regression, Logistic|||||2.90|1.12|0.015
82592126|NCT03962738|164898700|SUPERIORITY||Odds Ratio (OR)|1.23||||0.432|TWO_SIDED|95.0|0.74|2.05|||Regression, Logistic|||||2.05|0.74|0.432
82592127|NCT03962738|164898701|SUPERIORITY||Odds Ratio (OR)|1.77||||0.166|TWO_SIDED|95.0|0.79|3.96|||Regression, Logistic|||||3.96|0.79|0.166
82592128|NCT03962738|164898701|SUPERIORITY||Odds Ratio (OR)|1.34||||0.396|TWO_SIDED|95.0|0.68|2.62|||Regression, Logistic|||||2.62|0.68|0.396
82592129|NCT03962738|164898701|SUPERIORITY||Odds Ratio (OR)|1.58||||0.181|TWO_SIDED|95.0|0.81|3.11|||Regression, Logistic|||||3.11|0.81|0.181
82592130|NCT03962738|164898702|SUPERIORITY||Odds Ratio (OR)|1.44||||0.233|TWO_SIDED|95.0|0.79|2.64|||Regression, Logistic|||||2.64|0.79|0.233
82592131|NCT03962738|164898702|SUPERIORITY||Odds Ratio (OR)|1.5||||0.092|TWO_SIDED|95.0|0.94|2.41|||Regression, Logistic|||||2.41|0.94|0.092
82592132|NCT03962738|164898702|SUPERIORITY||Odds Ratio (OR)|1.8||||0.017|TWO_SIDED|95.0|1.11|2.92|||Regression, Logistic|||||2.92|1.11|0.017
82592133|NCT03962738|164898703|SUPERIORITY|||||||0.724|||||||ANCOVA|||||||0.724
82592134|NCT03962738|164898703|SUPERIORITY|||||||0.24|||||||ANCOVA|||||||0.240
82592135|NCT03962738|164898703|SUPERIORITY|||||||0.548|||||||ANCOVA|||||||0.548
82592136|NCT03962738|164898704|SUPERIORITY|||||||0.719|||||||ANCOVA|||||||0.719
82592137|NCT03962738|164898704|SUPERIORITY|||||||0.823|||||||ANCOVA|||||||0.823
82592138|NCT03962738|164898704|SUPERIORITY|||||||0.612|||||||ANCOVA|||||||0.612
82592139|NCT03962738|164898705|SUPERIORITY||Odds Ratio (OR)|1.78||||0.037|TWO_SIDED|95.0|1.04|3.07|||Regression, Logistic|||||3.07|1.04|0.037
82592140|NCT03962738|164898705|SUPERIORITY||Odds Ratio (OR)|2.67|||<|0.001|TWO_SIDED|95.0|1.75|4.06|||Regression, Logistic|||||4.06|1.75|<.001
82592141|NCT03962738|164898705|SUPERIORITY||Odds Ratio (OR)|3.27|||<|0.001|TWO_SIDED|95.0|2.11|5.06|||Regression, Logistic|||||5.06|2.11|<.001
82592142|NCT03962738|164898706|SUPERIORITY|||||||0.162|||||||ANOVA|||Work Functioning||||0.162
82592143|NCT03962738|164898706|SUPERIORITY|||||||0.356|||||||ANOVA|||Social Functioning||||0.356
82592144|NCT03962738|164898706|SUPERIORITY|||||||0.696|||||||ANOVA|||Energy and Vitality||||0.696
82592145|NCT03962738|164898706|SUPERIORITY|||||||0.914|||||||ANOVA|||Feelings and Concerns||||0.914
82592146|NCT03962738|164898706|SUPERIORITY|||||||0.226|||||||ANOVA|||Migraine Symptoms||||0.226
82592147|NCT03962738|164898706|SUPERIORITY|||||||0.31|||||||ANOVA|||Work Functioning||||0.310
82592148|NCT03962738|164898706|SUPERIORITY|||||||0.684|||||||ANOVA|||Social Functioning||||0.684
82592149|NCT03962738|164898706|SUPERIORITY|||||||0.864|||||||ANOVA|||Energy and Vitality||||0.864
82592150|NCT03962738|164898706|SUPERIORITY|||||||0.412|||||||ANOVA|||Feelings and Concerns||||0.412
82592151|NCT03962738|164898706|SUPERIORITY|||||||0.025|||||||ANOVA|||Migraine Symptoms||||0.025
82592152|NCT03962738|164898706|SUPERIORITY|||||||0.619|||||||ANOVA|||Work Functioning||||0.619
82592153|NCT03962738|164898706|SUPERIORITY|||||||0.824|||||||ANOVA|||Social Functioning||||0.824
82592154|NCT03962738|164898706|SUPERIORITY|||||||0.476|||||||ANOVA|||Energy and Vitality||||0.476
82592155|NCT03962738|164898706|SUPERIORITY|||||||0.352|||||||ANOVA|||Feelings and Concerns||||0.352
82592156|NCT03962738|164898706|SUPERIORITY|||||||0.044|||||||ANOVA|||Migraine Symptoms||||0.044
82592157|NCT01286454|164898707|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|111.23|||||TWO_SIDED|90.0|102.69|120.47||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||120.47|102.69|
82592158|NCT01286454|164898707|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.07|||||TWO_SIDED|90.0|95.16|111.64||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||111.64|95.16|
82592159|NCT01286454|164898707|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|70.36|||||TWO_SIDED|90.0|64.52|76.74||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||76.74|64.52|
82592160|NCT01286454|164898707|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|113.55|||||TWO_SIDED|90.0|105.91|121.74||||||Natural log transformed AUC (0 - ∞) of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||121.74|105.91|
82592161|NCT01286454|164898708|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|112.8|||||TWO_SIDED|90.0|103.85|122.52||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||122.52|103.85|
82653942|NCT01200394|165023043|SUPERIORITY||Geometric Mean Ratio|1.0024||||0.9146|TWO_SIDED|95.0|0.9588|1.0481|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.0481|0.9588|0.9146
82592162|NCT01286454|164898708|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.71|||||TWO_SIDED|90.0|95.48|112.65||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||112.65|95.48|
82592163|NCT01286454|164898708|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|66.87|||||TWO_SIDED|90.0|61.56|72.63||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||72.63|61.56|
82592164|NCT01286454|164898708|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|28.34|||||TWO_SIDED|90.0|26.09|30.78||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 20% ER-BIC Fasted was test.||30.78|26.09|
82592165|NCT01286454|164898708|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|114.7|||||TWO_SIDED|90.0|106.99|122.97||||||Natural log transformed AUClast of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||122.97|106.99|
82592166|NCT01286454|164898709|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|259.4|||||TWO_SIDED|90.0|231.48|290.7||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg IR-BIC Fasted was test.||290.70|231.48|
82592167|NCT01286454|164898709|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|134.83|||||TWO_SIDED|90.0|120.31|151.09||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fasted was test.||151.09|120.31|
82592168|NCT01286454|164898709|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|48.58|||||TWO_SIDED|90.0|43.35|54.44||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 15% ER-BIC Fasted was test.||54.44|43.35|
82592169|NCT01286454|164898709|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|14.38|||||TWO_SIDED|90.0|12.83|16.11||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg ER Tablet Fasted was reference and Fesoterodine 4 mg 20% ER-BIC Fasted was test.||16.11|12.83|
82592170|NCT01286454|164898709|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|171.06|||||TWO_SIDED|90.0|115.82|187.78||||||Natural log transformed Cmax of 5-HMT was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios. Fesoterodine 4 mg 10% ER-BIC Fasted was reference and Fesoterodine 4 mg 10% ER-BIC Fed was test.||187.78|115.82|
82592171|NCT04556136|164898741|NON_INFERIORITY|This non-inferiority study was designed to demonstrate the ability of the phototherapy kiosk to safely administer UVB radiation to participants with varying levels of 25(OH)D and achieve comparable levels of serum 25(OH)D in a similar population of adults randomized to receive RDA of 600 IU vitamin D oral supplementation daily. It is important to evaluate device equivalence to standard of care in the maintenance of sufficient levels of vitamin D in adults 18 - 70 years old.||||||0.01||||||Threshold for significance \<0.05|Wilcoxon (Mann-Whitney)|Effect sizes for significant differences were included as eta squared (ŋ2) values.||The intent-to-treat analysis plan was carried out with all available subject data points. No interim analysis was performed. Exploratory data analyses were conducted on serum vitamin D levels of participants assigned to either the oral supplementation or kiosk group. Analysis was restricted to participants with valid baseline serum vitamin D data and at least one follow-up blood draw. The Shapiro-Wilk test was used to assess the normality of the data distribution.||||0.01
82592172|NCT02101515|164898784|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45|||||TWO_SIDED|95.0|0.22|0.93||||||||0.93|0.22|
82592173|NCT02101515|164898786|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.41|||||TWO_SIDED|95.0|0.67|8.4||||||||8.40|0.67|
82592174|NCT02101515|164898787|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.41|1.45||||||||1.45|0.41|
82592175|NCT02101515|164898788|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.71|||||TWO_SIDED|95.0|1.3|5.62||||||||5.62|1.30|
82592176|NCT02101515|164898789|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.06|13.92||||||||13.92|0.06|
82592177|NCT02101515|164898791|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.41|||||TWO_SIDED|95.0|0.68|42.9||||||||42.90|0.68|
82592178|NCT02101515|164898793|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.46|1.54||||||||1.54|0.46|
82592179|NCT02101515|164898794|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.39|1.49||||||||1.49|0.39|
82592180|NCT02101515|164898796|SUPERIORITY_OR_OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
82592181|NCT02101515|164898800|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.3|||||TWO_SIDED|95.0|0.03|2.77||||||||2.77|0.03|
82592182|NCT02901574|164898801|SUPERIORITY||Mean Difference (Final Values)|3.87||||0.24|TWO_SIDED|95.0|-2.55|10.3||Threshold for significance is two-sided alpha of 0.05.|Mixed Models Analysis|||||10.30|-2.55|0.24
82592183|NCT00073528|164898815|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.019|TWO_SIDED|95.0|0.53|0.96||p-value is from stratified log-rank test, stratifying for site of disease and time since prior adjuvant endocrine therapy at screening|Log Rank||The estimate of the treatment Hazard Ratio wase based on the log-rank test.|||0.96|0.53|0.019
82592184|NCT00073528|164898816|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.71||||0.019|TWO_SIDED|95.0|0.53|0.96||p-value is from stratified log-rank test, stratifying for site of disease and time since prior adjuvant endocrine therapy at screening|Log Rank||The estimate of the treatment Hazard Ratio was based on the log-rank test.|||0.96|0.53|0.019
82592185|NCT02887404|164898857|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.92|TWO_SIDED|95.0|-6.0|6.0|||t-test, 2 sided|||||6|-6|0.92
82592186|NCT02887404|164898858|NON_INFERIORITY|Delta: 15. The significance level for non-inferiority was 0.025|Median Difference (Final Values)|-9.0|||<|0.001|TWO_SIDED|95.0|-21.0|3.0|||Hodges-Lehmann estimator|||||3|-21|<0.001
82592187|NCT02887404|164898858|SUPERIORITY||Median Difference (Final Values)|-9.0||||0.175|TWO_SIDED|97.5|-23.0|5.0||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice.|Hodges-Lehmann estimator|||||5|-23|0.175
82592188|NCT02887404|164898859|NON_INFERIORITY|Delta: 1 The significance level for the non-inferiority test was 0.025.|Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.8|1.0||This is a joint hypothesis testing. We tested non-inferiority on both secondary outcomes. If both showed significant non-inferiority, we tested superiority on both outcomes.|Regression, Linear|||||1|-0.8|<0.001
82592189|NCT02887404|164898859|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.094|TWO_SIDED|97.5|-0.8|0.1||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Regression, Linear|||||0.1|-0.8|0.094
82592190|NCT02887404|164898877|NON_INFERIORITY|Delta: 9; significance level was 0.025|Median Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.3|0.1|||Wilcoxon (Mann-Whitney)|||||0.1|-0.3|<0.001
82592191|NCT02887404|164898877|SUPERIORITY||Median Difference (Final Values)|-0.1||||0.171|TWO_SIDED|97.5|-0.3|0.1||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Wilcoxon sum rank test|||||0.1|-0.3|0.171
82592192|NCT02887404|164898878|NON_INFERIORITY|Delta: 1 significance level: 0.025|Mean Difference (Final Values)|-0.5|||<|0.001|TWO_SIDED|95.0|-1.0|-0.1|||Regression, Linear||||The superiority test (this is a joint-hypothesis testing) showed a mean difference of -0.5 between treatment and control group with 97.5% CI of (-1.0, 0.0) and p-value of 0.025. The significance level was 0.025.|-0.1|-1.0|<0.001
82592193|NCT02887404|164898878|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.025|TWO_SIDED|97.5|-1.0|0.0||We adjusted for two outcomes for the superiority testing only, using a significance criterion of 0.0125 for each outcome (i.e., 0.025/2, Bonferroni correction), since superiority on either outcome would suffice|Regression, Linear|||||0.0|-1.0|0.025
82592194|NCT02790138|164898879|SUPERIORITY||Percentage Difference|21.6||||0.013|TWO_SIDED|95.0|4.9|37.5||The significance level was 0.05.|Fisher's Exact Test|||The Placebo IV and Vedolizumab IV 300 mg groups were analyzed using Fisher's Exact Test at Week 14.||37.5|4.9|0.013
82653943|NCT01200394|165023044|SUPERIORITY||Least Squares (LS) Mean Difference|-5.39|STANDARD_ERROR_OF_MEAN|1.2942|<|0.0001|TWO_SIDED|95.0|-7.94|-2.84|||Mixed Models Analysis|||Supine Systolic BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.84|-7.94|<0.0001
82592195|NCT02790138|164898880|SUPERIORITY||Percentage Difference|17.6|||=|0.043|TWO_SIDED|95.0|0.3|35.1||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||||35.1|0.3|=0.043
82592196|NCT02790138|164898881|SUPERIORITY||Percentage Difference|25.5|||=|0.004|TWO_SIDED|95.0|8.0|41.4||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Fisher's Exact Test|||Week 14||41.4|8.0|=0.004
82592197|NCT02790138|164898881|SUPERIORITY||Percentage Difference|19.6|||=|0.027|TWO_SIDED|95.0|1.9|37.0||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 34.||37.0|1.9|=0.027
82592198|NCT02790138|164898882|SUPERIORITY||Hazard Ratio (HR)|3.95|||||TWO_SIDED|95.0|1.7|9.4|||||Hazard ratio for achieving PDAI remission.|||9.4|1.7|
82592199|NCT02790138|164898883|SUPERIORITY||Percentage Difference|29.4|||=|0.003|TWO_SIDED|95.0|8.0|47.6||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 14||47.6|8.0|=0.003
82592200|NCT02790138|164898883|SUPERIORITY||Percentage Difference|21.6|||=|0.026|TWO_SIDED|95.0|1.9|39.8||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Chi-squared Test|||Week 34||39.8|1.9|=0.026
82653944|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-3.71|STANDARD_ERROR_OF_MEAN|0.849|<|0.0001|TWO_SIDED|95.0|-5.38|-2.04|||Mixed Models Analysis|||Supine Diastolic BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.04|-5.38|<0.0001
82592201|NCT02790138|164898884|SUPERIORITY||Odds Estimator|2.02|||=|0.002|TWO_SIDED|95.0|1.11|2.93||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.93|1.11|=0.002
82592202|NCT02790138|164898884|SUPERIORITY||Odds Estimator|1.71|||=|0.02|TWO_SIDED|95.0|0.92|2.49||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.49|0.92|=0.020
82592203|NCT02790138|164898885|SUPERIORITY||Odds Estimator|1.34|||=|0.191|TWO_SIDED|95.0|0.74|1.94||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||1.94|0.74|=0.191
82592204|NCT02790138|164898885|SUPERIORITY||Odds Estimator|1.07|||=|0.766|TWO_SIDED|95.0|0.6|1.54||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||1.54|0.60|=0.766
82592205|NCT02790138|164898886|SUPERIORITY||Odds Estimator|1.57|||=|0.055|TWO_SIDED|95.0|0.83|2.31||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.31|0.83|=0.055
82592206|NCT02790138|164898886|SUPERIORITY||Odds Estimator|1.48|||=|0.095|TWO_SIDED|95.0|0.79|2.16||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.16|0.79|=0.095
82592207|NCT02790138|164898887|SUPERIORITY||Odds Estimator|1.14|||=|0.575|TWO_SIDED|95.0|0.61|1.67||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||1.67|0.61|=0.575
82592208|NCT02790138|164898887|SUPERIORITY||Odds Estimator|1.21|||=|0.403|TWO_SIDED|95.0|0.65|1.78||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 22||1.78|0.65|=0.403
82592209|NCT02790138|164898887|SUPERIORITY||Odds Estimator|1.6|||=|0.047|TWO_SIDED|95.0|0.85|2.34||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||2.34|0.85|=0.047
82592210|NCT02790138|164898888|SUPERIORITY||Odds Estimator|1.44|||=|0.119|TWO_SIDED|95.0|0.77|2.12||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 14||2.12|0.77|=0.119
82592211|NCT02790138|164898888|SUPERIORITY||Odds Estimator|1.15|||=|0.542|TWO_SIDED|95.0|0.62|1.69||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 22||1.69|0.62|=0.542
82592212|NCT02790138|164898888|SUPERIORITY||Odds Estimator|1.22|||=|0.404|TWO_SIDED|95.0|0.65|1.78||No multiplicity adjustment for inferential testing for secondary endpoints was preplanned, p-values from these tests are presented as nominal p-values. The significance level was 0.05.|Wilcoxon (Mann-Whitney)|P-value is from Wilcoxon Rank-sum Test comparing change from Baseline to relevant visits.Wilcoxon-Mann-Whitney odds estimator,95% CI are presented.||Change from Baseline at Week 34||1.78|0.65|=0.404
82592213|NCT01226459|164898894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|95.0|5.0|13.1|||ANCOVA|P-value is from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Intent to Treat (ITT) population defined as all participants randomly assigned to a treatment group who received dispensed investigational product. Four participants in vehicle group and 3 participants in foam group had no hair information at Baseline. Statistical analysis is of the change from baseline to week 24 data.||13.1|5.0|<0.0001
82653945|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-4.59|STANDARD_ERROR_OF_MEAN|0.9489|<|0.0001|TWO_SIDED|95.0|-6.46|-2.72|||Mixed Models Analysis|||Supine Mean BP, Week 0: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||-2.72|-6.46|<0.0001
82592214|NCT01226459|164898895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8|||<|0.0001|TWO_SIDED|95.0|7.0|14.7|||ANCOVA|P-value is from ANCOVA model with treatment and center as factors and Baseline hair count as a covariate.||Statistical analysis is of the change from baseline to week 12 data.||14.7|7.0|<0.0001
82592215|NCT01226459|164898896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|||<|0.0001|TWO_SIDED|95.0|0.35|1.04|||ANCOVA|||||1.04|0.35|<0.0001
82592216|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|3.083|STANDARD_DEVIATION|1.65||0.0311|TWO_SIDED|95.0|-0.157|6.323||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 50 mg b.i.d. compared with those treated with placebo, after 6 weeks.||6.323|-0.157|0.0311
82592217|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|3.589|STANDARD_DEVIATION|1.6||0.0126|TWO_SIDED|95.0|0.447|6.732||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, trea||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 200 mg b.i.d. compared with those treated with placebo, after 6 weeks.||6.732|0.447|0.0126
82592218|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|3.977|STANDARD_DEVIATION|1.64||0.0078|TWO_SIDED|95.0|0.756|7.197||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 400 mg b.i.d. compared with those treated with placebo, after 6 weeks.||7.197|0.756|0.0078
82592219|NCT01092143|164898899|OTHER||Adjusted mean treatment differences|8.619|STANDARD_DEVIATION|1.684|<|0.0001|TWO_SIDED|95.0|5.312|11.927||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with fluticasone propionate 110 mcg 2 puffs b.i.d. compared with those treated with placebo, after 6 weeks.||11.927|5.312|<.0001
82592220|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|-5.536|STANDARD_DEVIATION|1.653||0.9996|TWO_SIDED|95.0|-8.783|-2.29||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 50 mg b.i.d. compared with those treated with fluticasone propionate 220 mcg b.i.d., after 6 weeks.||-2.290|-8.783|0.9996
82592221|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|-5.03|STANDARD_DEVIATION|1.606||0.9991|TWO_SIDED|95.0|-8.185|-1.875||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 200 mg b.i.d. compared with those treated with fluticasone propionate 220mcg b.i.d., after 6 weeks.||-1.875|-8.185|0.9991
82653946|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|1.4056||0.7093|TWO_SIDED|95.0|-3.29|2.24|||Mixed Models Analysis|||Supine Systolic BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.24|-3.29|0.7093
82653947|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.9089||0.6564|TWO_SIDED|95.0|-1.39|2.2|||Mixed Models Analysis|||Supine Diastolic BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.20|-1.39|0.6564
82592222|NCT01092143|164898899|SUPERIORITY||Adjusted mean treatment differences|-4.643|STANDARD_DEVIATION|1.647||0.9975|TWO_SIDED|95.0|-7.877|-1.408||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||Superiority in mean trough FEV1 % predicted change from baseline in patients treated with BI 671800 400 mg b.i.d. compared with those treated with fluticasone propionate 220 mcg b.i.d., after 6 weeks.||-1.408|-7.877|0.9975
82592223|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|0.073|STANDARD_DEVIATION|0.113||0.7413|TWO_SIDED|95.0|-0.149|0.295||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.295|-0.149|0.7413
82592224|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|-0.08|STANDARD_DEVIATION|0.11||0.2335|TWO_SIDED|95.0|-0.296|0.136||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.136|-0.296|0.2335
82653948|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|1.0334||0.8763|TWO_SIDED|95.0|-2.2|1.87|||Mixed Models Analysis|||Supine Mean BP, Week 3: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.87|-2.20|0.8763
82653949|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|1.4926||0.7491|TWO_SIDED|95.0|-3.42|2.46|||Mixed Models Analysis|||Supine Systolic BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.46|-3.42|0.7491
82653950|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.9235||0.6141|TWO_SIDED|95.0|-2.29|1.35|||Mixed Models Analysis|||Supine Diastolic BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.35|-2.29|0.6141
82592225|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|-0.061|STANDARD_DEVIATION|0.113||0.2933|TWO_SIDED|95.0|-0.282|0.16||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.160|-0.282|0.2933
82592226|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|-0.333|STANDARD_DEVIATION|0.116||0.0021|TWO_SIDED|95.0|-0.561|-0.105||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||-0.105|-0.561|0.0021
82592227|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|0.406|STANDARD_DEVIATION|0.114||0.9998|TWO_SIDED|95.0|0.183|0.63||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.630|0.183|0.9998
82592228|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|0.253|STANDARD_DEVIATION|0.11||0.989|TWO_SIDED|95.0|0.037|0.47||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.470|0.037|0.9890
82592229|NCT01092143|164898900|SUPERIORITY||Adjusted mean treatment differences|0.272|STANDARD_DEVIATION|0.113||0.9918|TWO_SIDED|95.0|0.05|0.494||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.494|0.050|0.9918
82592230|NCT01022242|164898911|SUPERIORITY_OR_OTHER|||||||0.8861|||||||ANCOVA|||||||0.8861
82592231|NCT00117598|164898912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.25|0.63|||Log Rank||HR from a cox model adjusted for baseline stratification factors|Two null hypotheses (Ho) tested: 1. PFS distributions for temsirolimus 175/75 mg and investigator's choice treatment groups are identical. 2. PFS distributions for temsirolimus 175/25 mg and investigator's choice treatment groups are identical. Alternative hypothesis (Ha) for each test was that PFS distributions differed.||0.63|0.25|<0.0001
82592232|NCT00117598|164898912|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41|||<|0.0001|TWO_SIDED|95.0|0.26|0.65|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.65|0.26|<0.0001
82592233|NCT00117598|164898913|SUPERIORITY_OR_OTHER|||||||0.0019|TWO_SIDED||||||Fisher Exact|||||||0.0019
82592234|NCT00117598|164898913|SUPERIORITY_OR_OTHER|||||||0.6179|TWO_SIDED||||||Fisher Exact|||||||0.6179
82592235|NCT00117598|164898914|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.3053|TWO_SIDED|95.0|0.46|1.28|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.28|0.46|0.3053
82592236|NCT00117598|164898914|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.9515|TWO_SIDED|95.0|0.6|1.62|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.62|0.60|0.9515
82592237|NCT00117598|164898915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.14|9.01|||||HR from a cox model adjusted for baseline stratification factors|||9.01|0.14|
82592238|NCT00117598|164898915|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14|||||TWO_SIDED|95.0|0.1|13.3|||||HR from a cox model adjusted for baseline stratification factors|||13.3|0.10|
82592239|NCT00117598|164898917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36|||<|0.0001|TWO_SIDED|95.0|0.23|0.56|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.56|0.23|<0.0001
82592240|NCT00117598|164898917|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.26|0.6|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.60|0.26|<0.0001
82653951|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|1.0582||0.5281|TWO_SIDED|95.0|-2.75|1.42|||Mixed Models Analysis|||Supine Mean BP, Week 6: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.42|-2.75|0.5281
82592241|NCT00117598|164898918|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39||||0.0004|TWO_SIDED|95.0|0.23|0.67|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||0.67|0.23|0.0004
82592242|NCT00117598|164898918|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.64||||0.0712|TWO_SIDED|95.0|0.4|1.04|||Log Rank||HR from a cox model adjusted for baseline stratification factors|||1.04|0.40|0.0712
82592243|NCT01536951|164898922|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|0.239|||||TWO_SIDED|90.0|-1.65|2.12|||||LS mean difference (LY3009104 minus placebo) of change in QTcP 1 h postdose analyzed using analysis of covariance (ANCOVA) model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.12|-1.65|
82592244|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|1.81|||||TWO_SIDED|90.0|-0.079|3.69|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 1.5 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.69|-0.0790|
82592245|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS Mean Difference|1.44|||||TWO_SIDED|90.0|-0.446|3.32|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 2 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.32|-0.446|
82592246|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|0.468|||||TWO_SIDED|90.0|-1.42|2.35|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 3 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.35|-1.42|
82592247|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|0.702|||||TWO_SIDED|90.0|-1.18|2.59|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 4 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.59|-1.18|
82592248|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|-0.788|||||TWO_SIDED|90.0|-2.68|1.1|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 6 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||1.10|-2.68|
82592249|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|1.71|||||TWO_SIDED|90.0|-0.182|3.6|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 12 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||3.60|-0.182|
82491370|NCT01681472|164676429|SUPERIORITY|||||||0.2716|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2716
82592250|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|0.963|||||TWO_SIDED|90.0|-0.921|2.85|||||LS mean difference (LY3009104 minus placebo) of change in QTcP at 24 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||2.85|-0.921|
82592251|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|12.3|||||TWO_SIDED|90.0|10.0|14.5|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 1 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||14.5|10.0|
82491371|NCT01681472|164676429|SUPERIORITY|||||||0.0124|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0124
82491372|NCT01681472|164676429|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
82592252|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|11.0|||||TWO_SIDED|90.0|8.74|13.3|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 2 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||13.3|8.74|
82592253|NCT01536951|164898922|SUPERIORITY_OR_OTHER||LS mean difference|11.1|||||TWO_SIDED|90.0|8.87|13.4|||||LS mean difference (moxifloxacin minus placebo) of change in QTcP at 4 h postdose was analyzed using an ANCOVA model adjusted for baseline QTc, treatment, time, period, sequence, treatment-by-time, participant, and participant-by-period.|||13.4|8.87|
82592254|NCT00698997|164898934|OTHER|Non- equivalence.|slope difference|1.01||||0.03|TWO_SIDED||||||Mixed Models Analysis|||We used a generalized linear mixed model (GLMM). Change-over-Time was modeled as a linear within-subject effect of time across all observed data for each participant. We fit splines to manage the differing lengths of time in parent-training versus direct treatment. In all analyses, site was included as a categorical covariate to account for potential differences. Effect sizes were reported following Cohen's recommendations as f2.||||.03
82592255|NCT00493220|164898938|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (natural log-transformed)|111.79|||||TWO_SIDED|90.0|108.57|115.12|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||115.12|108.57|
82592256|NCT00493220|164898938|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (natural log-transformed)|60.81|||||TWO_SIDED|90.0|59.06|62.62|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||62.62|59.06|
82592257|NCT00493220|164898938|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|54.4|||||TWO_SIDED|90.0|52.82|56.01|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||56.01|52.82|
82592258|NCT00493220|164898939|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.0|||<|0.01|TWO_SIDED|90.0|-1.25|-0.75|||Wilcoxon signed-rank test||HYLENEX SC minus Placebo SC|||-0.75|-1.25|<0.01
82592259|NCT00493220|164898939|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.52|||<|0.01|TWO_SIDED|90.0|1.27|1.71|||Wilcoxon signed-rank test||Placebo SC minus Intravenous|||1.71|1.27|<0.01
82592260|NCT00493220|164898939|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.52|||<|0.01|TWO_SIDED|90.0|2.26|2.76|||Wilcoxon signed-rank test||Placebo SC minus Intravenous|||2.76|2.26|<0.01
82592261|NCT00493220|164898940|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|101.99|||||TWO_SIDED|90.0|98.95|105.12|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||105.12|98.95|
82491373|NCT01681472|164676429|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
82592262|NCT00493220|164898940|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|106.79|||||TWO_SIDED|90.0|103.61|110.07|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||110.07|103.61|
82592263|NCT00493220|164898940|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|104.71|||||TWO_SIDED|90.0|101.59|107.92|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||107.92|101.59|
82491374|NCT01681472|164676429|SUPERIORITY|||||||0.0039|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0039
82491375|NCT01681472|164676429|SUPERIORITY|||||||0.0454|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0454
82592264|NCT00493220|164898941|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 95% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|101.76|||||TWO_SIDED|90.0|98.64|104.98|||Schuirmann two one-sided tests procedure||HYLENEX SC/Placebo SC|||104.98|98.64|
82592265|NCT00493220|164898941|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|106.95|||||TWO_SIDED|90.0|103.67|110.33|||Schuirmann two one-sided tests procedure||HYLENEX SC/Intravenous|||110.33|103.67|
82592266|NCT00493220|164898941|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence = 90% confidence interval of least squares mean (LSM) within 80%-125%|LSM ratio (%; ln-transformed)|105.1|||||TWO_SIDED|90.0|101.87|108.42|||Schuirmann two one-sided tests procedure||Placebo SC/Intravenous|||108.42|101.87|
82592267|NCT04456764|164898955|SUPERIORITY|||||||0.55||||||Test for group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.55
82592268|NCT04456764|164898956|SUPERIORITY|||||||0.12||||||group x time interaction|Mixed Models Analysis|random agency and a random participant effect||||||0.12
82592269|NCT04456764|164898957|SUPERIORITY|||||||0.0986|||||||Mixed Models Analysis|Adjusted for clustering.||||||0.0986
82592270|NCT04456764|164898958|SUPERIORITY|||||||0.51||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.51
82592271|NCT04456764|164898959|SUPERIORITY|||||||0.04||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.04
82592272|NCT04456764|164898960|SUPERIORITY|||||||0.02||||||Group by time interaction.|Mixed Models Analysis|Adjusted for clustering.||||||0.02
82653952|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|1.8764||0.6695|TWO_SIDED|95.0|-2.9|4.5|||Mixed Models Analysis|||Supine Systolic BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||4.50|-2.90|0.6695
82653953|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|1.073||0.5607|TWO_SIDED|95.0|-2.74|1.49|||Mixed Models Analysis|||Supine Diastolic BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||1.49|-2.74|0.5607
82592273|NCT03227471|164898979|OTHER|||||||0.9943||||||P value within treatment|Mixed-effects model for repeated measure|||||||0.9943
82592274|NCT03227471|164898979|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
82592275|NCT03227471|164898979|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||< 0.0001
82592276|NCT03227471|164898979|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
82592277|NCT03227471|164898980|OTHER|||||||0.8869||||||P value within treatment.|Mixed-effects model for repeated measure|||||||0.8869
82592278|NCT03227471|164898980|OTHER||||||<|0.0001||||||P value within treatment|Mixed-effects model for repeated measure|||||||<0.0001
82592279|NCT03227471|164898981|OTHER|||||||0.6407||||||P value within treatment|Mixed-effects model for repeated measure|||||||0.6407
82592280|NCT03227471|164898981|OTHER||||||<|0.0001||||||P value within treatment.|mixed-effects model for repeated measure|||||||<0.0001
82592281|NCT03227471|164898996|OTHER|||||||0.5802||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.5802
82592282|NCT03227471|164898996|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592283|NCT03227471|164898996|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592284|NCT03227471|164898996|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592285|NCT03227471|164898997|OTHER|||||||0.8712||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.8712
82592286|NCT03227471|164898997|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592287|NCT03227471|164898998|OTHER|||||||0.8359||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.8359
82592288|NCT03227471|164898998|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592289|NCT03227471|164898999|OTHER|||||||0.9453||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.9453
82592290|NCT03227471|164898999|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592291|NCT03227471|164898999|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592292|NCT03227471|164898999|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592293|NCT03227471|164899000|OTHER|||||||0.7849||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.7849
82592294|NCT03227471|164899000|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592295|NCT03227471|164899001|OTHER|||||||0.7356||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.7356
82592296|NCT03227471|164899001|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592297|NCT03227471|164899002|OTHER|||||||0.394||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.3940
82592298|NCT03227471|164899002|OTHER|||||||0.0003||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||0.0003
82592299|NCT03227471|164899002|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592300|NCT03227471|164899002|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|Mixed-effects model for repeated measure|||||||<0.0001
82592301|NCT03227471|164899003|OTHER|||||||0.4757||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.4757
82592302|NCT03227471|164899003|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592303|NCT03227471|164899004|OTHER|||||||0.007||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||0.0070
82592304|NCT03227471|164899004|OTHER||||||<|0.0001||||||P value within treatment. These are nominal p-values without multiplicity control.|mixed-effects model for repeated measure|||||||<0.0001
82592305|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.81||||||95.0|0.66|1.01|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 2).||1.01|0.66|
82592306|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.69|1.06|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 3).||1.06|0.69|
82592307|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.85|||||TWO_SIDED|95.0|0.68|1.05|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 1 and Lot 4).||1.05|0.68|
82592308|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|1.05|||||TWO_SIDED|95.0|0.85|1.3|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 2 and Lot 3).||1.3|0.85|
82592309|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|1.04|||||TWO_SIDED|95.0|0.84|1.29|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 2 and Lot 4).||1.29|0.84|
82592310|NCT00449670|164899035|EQUIVALENCE|The lot-to-lot consistency 21 days after Dose 2 was demonstrated if, for all pairs of lots, the two-sided 95% CIs for the ratio of A/Vietnam/1194/2004 HI antibody GMT was within the \[0.5 ; 2\] clinical limit interval.|Adjusted GMT ratio|0.99|||||TWO_SIDED|95.0|0.8|1.23|||ANCOVA|||Demonstration of the consistency of the immune response (in terms of geometric mean titer \[GMT\] ratio for anti-hemagglutinin (anti-HA) antibody response against the A/Vietnam/1194/2004 strain 21 days after the second vaccination) elicited by two compositions of H5N1 adjuvanted vaccine (Lot 3 and Lot 4).||1.23|0.8|
82592311|NCT01251653|164899098|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|81.27|STANDARD_DEVIATION|63.3||0.4815|TWO_SIDED|90.0|44.863|147.205|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Gemcitabine vs. Afatinib without Gemcitabine was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||147.205|44.863|0.4815
82592312|NCT01251653|164899098|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|95.36|STANDARD_DEVIATION|15.4||0.0149|TWO_SIDED|90.0|84.139|108.077|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||108.077|84.139|0.0149
82592313|NCT01251653|164899098|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|88.12|STANDARD_DEVIATION|9.2||0.0208|TWO_SIDED|90.0|81.778|94.964|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||94.964|81.778|0.0208
82592314|NCT01251653|164899099|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|141.36|STANDARD_DEVIATION|14.7||0.8715|TWO_SIDED|90.0|115.848|172.495|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Gemcitabine vs. Afatinib without Gemcitabine was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||172.495|115.848|0.8715
82592315|NCT01251653|164899099|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|77.42|STANDARD_DEVIATION|16.8||0.6805|TWO_SIDED|90.0|68.516|87.473|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||87.473|68.516|0.6805
82592316|NCT01251653|164899099|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|83.95|STANDARD_DEVIATION|14.3||0.2327|TWO_SIDED|90.0|74.794|94.217|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Afatinib with Docetaxel vs. Afatinib without Docetaxel was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||94.217|74.794|0.2327
82592317|NCT01251653|164899100|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|136.11|STANDARD_DEVIATION|26.3||0.7759|TWO_SIDED|90.0|112.09|165.29|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Gemcitabine with Afatinib vs. Gemcitabine without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||165.29|112.09|0.7759
82592318|NCT01251653|164899101|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|118.41|STANDARD_DEVIATION|31.6||0.3359|TWO_SIDED|90.0|94.81|147.88|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Gemcitabine with Afatinib vs. Gemcitabine without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||147.88|94.81|0.3359
82592319|NCT01251653|164899104|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|93.69|STANDARD_DEVIATION|19.5||0.0349|TWO_SIDED|90.0|81.352|107.89|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||107.890|81.352|0.0349
82592320|NCT01251653|164899104|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|98.11|STANDARD_DEVIATION|30.4||0.0405|TWO_SIDED|90.0|81.053|118.76|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||118.760|81.053|0.0405
82592321|NCT01251653|164899105|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|90.78|STANDARD_DEVIATION|22.8||0.0728|TWO_SIDED|90.0|78.566|104.901|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||104.901|78.566|0.0728
82592322|NCT01251653|164899105|NON_INFERIORITY_OR_EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Ratio of adjusted gmeans in percentage|85.74|STANDARD_DEVIATION|48.9||0.3294|TWO_SIDED|90.0|65.561|112.138|||ANOVA|ANOVA (analysis of variance) model on the logarithm scale was used with 'subject' as random, whereas the 'treatment' as fixed effect.|Relative bioavailability of Docetaxel with Afatinib vs. Docetaxel without Afatinib was estimated by the ratios of the adjusted geometric means (gMean). Standard deviation is actually intra-individual geometric coefficient variation (gCV).|||112.138|65.561|0.3294
82592323|NCT01798589|164899108|OTHER|Bioequivalence is assessed based on concordance between the 2 allergen using Kappa statistic|Concordance|66.7|||||TWO_SIDED|95.0|41.6|90.2||||||||90.2|41.6|
82592324|NCT02232802|164899116|EQUIVALENCE|Following logarithmic transformation, Cmax values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence.|least square mean difference ratio|99.42|||||TWO_SIDED|95.0|96.28|102.65|||||Geometric least square means are being compared.|Statistical comparison for Anti-FXa||102.65|96.28|
82592325|NCT02232802|164899116|EQUIVALENCE|Following logarithmic transformation, Cmax was subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean difference ratio|91.55|||||TWO_SIDED|95.0|86.65|96.73|||||Geometric least square means are being compared.|Statistical comparison on Anti-FIIa||96.73|86.65|
82592326|NCT02232802|164899117|EQUIVALENCE|Following logarithmic transformation, AUC0-t values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean difference ratio|102.89|||||TWO_SIDED|95.0|100.67|105.15|||||Geometric least square means are being compared.|Anti-FXa statistical comparison||105.15|100.67|
82592327|NCT02232802|164899117|EQUIVALENCE|Following logarithmic transformation, AUC0-t values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence.|least square mean difference ratio|92.37|||||TWO_SIDED|95.0|87.72|97.25|||||Geometric least square means are being compared.|Anti-FIIa comparison||97.25|87.72|
82592328|NCT02232802|164899118|EQUIVALENCE|Following logarithmic transformation, AUC0-inf values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean ratio|104.26|||||TWO_SIDED|95.0|101.68|106.9|||||Geometric least square means are being compared.|Anti-FXA comparison||106.9|101.68|
82592329|NCT02232802|164899118|EQUIVALENCE|Following logarithmic transformation, AUC0-inf values were subjected to an analysis of variance (ANOVA), including fixed effects for sequence, period, treatment and subject nested within sequence|least square mean ratio|90.44|||||TWO_SIDED|95.0|85.38|95.8|||||Geometric least square means are being compared.|Anti-FIIa comparison||95.8|85.38|
82653954|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|1.2722||0.8297|TWO_SIDED|95.0|-2.78|2.23|||Mixed Models Analysis|||Supine Mean BP, Week 12: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.23|-2.78|0.8297
82592330|NCT02232802|164899119|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|least square mean ratio|0.0||||0.7642|TWO_SIDED|95.0|-0.5|0.5||An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Wilcoxon (Mann-Whitney)||Geometric least square means are being compared.|Anti-FXa comparison||0.5|-0.5|0.7642
82592331|NCT02232802|164899119|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % non-parametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|least square mean ratio|0.0||||0.9464|TWO_SIDED|95.0|-0.5|0.5|||Wilcoxon (Mann-Whitney)||Geometric least square means are being compared.|Anti-FIIa comparison||0.5|-0.5|0.9464
82592332|NCT02232802|164899125|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|103.94|||||TWO_SIDED|95.0|101.22|106.73||||||||106.73|101.22|
82592333|NCT02232802|164899126|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|Geometric least square mean ratio|108.59|||||TWO_SIDED|95.0|103.93|113.46||||||||113.46|103.93|
82592334|NCT02232802|164899127|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|Geometric least square mean ratio|102.76|||||TWO_SIDED|95.0|97.51|108.28||||||||108.28|97.51|
82592335|NCT02232802|164899128|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|114.91|||||TWO_SIDED|95.0|102.29|129.08||||||||129.08|102.29|
82592336|NCT02232802|164899129|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Median Difference (Final Values)|0.0|||=|0.8554|TWO_SIDED|95.0|-0.5|0.5|||ANOVA|||||0.5|-0.5|= 0.8554
82592337|NCT02232802|164899130|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|geometric least square mean ratio|100.86|||||TWO_SIDED|95.0|99.27|102.47||||||||102.47|99.27|
82592338|NCT02232802|164899131|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence.|geometric least square mean ratio|95.13|||||TWO_SIDED|95.0|85.7|105.6||||||||105.6|85.7|
82592339|NCT02232802|164899132|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % nonparametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Median Difference (Final Values)|0.0|||=|0.6857|TWO_SIDED|95.0|-0.25|0.5|||Wilcoxon (Mann-Whitney)||Median difference is the difference between median tmax in Test IMP versus Reference IMP arms.|||0.5|-0.25|= 0.6857
82592340|NCT02232802|164899138|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|111.39|||||TWO_SIDED|95.0|105.89|117.17||||||||117.17|105.89|
82592341|NCT02232802|164899139|EQUIVALENCE|Results obtained using a fixed effects ANOVA with fixed effects for sequence, period, treatment and subject nested within sequence|Geometric least square mean ratio|113.82|||||TWO_SIDED|95.0|107.47|120.53||||||||120.53|107.47|
82592342|NCT02232802|164899144|EQUIVALENCE|An assessment of tmax was performed using the Wilcoxon matched pairs test. In addition, a 95 % nonparametric CI was constructed for the median difference in tmax based on the method of Campbell and Gardner.|Median Difference (Final Values)|0.0|||=|0.9217|TWO_SIDED|95.0|-0.13|0.13|||Wilcoxon (Mann-Whitney)||Median difference is the difference between median tmax in Test IMP versus Reference IMP arms.|||0.13|-0.13|= 0.9217
82592343|NCT00885703|164899150|SUPERIORITY|||||||0.0012||||||Analysis did not adjust for multiple comparisons.|Chi-squared|||Testing discontinuation of any dose Fluconazole (pooled by treatment and dose) versus discontinuation of Ampho B (pooled). The null hypothesis is the two treatments have the same proportion of discontinuation.||||0.0012
82653955|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|1.7065||0.7644|TWO_SIDED|95.0|-2.85|3.87|||Mixed Models Analysis|||Supine Systolic BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||3.87|-2.85|0.7644
82592344|NCT00885703|164899151|SUPERIORITY|||||||0.012|||||||Fisher Exact|||Among 4 treatment arms, comparison of three categorical groups: (CM negative, CM negative after switching treatment, and CM Positive/Died/Lost to Follow-up) at week 10. The null hypothesis is the 4 treatment arms have no differences at week 10.||||0.012
82592345|NCT00885703|164899152|SUPERIORITY|||||||0.019|||||||Kruskal-Wallis|||Comparison of change in quantitative CSF culture among 4 treatment arms. The null hypothesis is the 4 treatment arms have the same change in CSF culture from entry to week 2.||||0.019
82592346|NCT00885703|164899153|SUPERIORITY|||||||0.0894||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 1200mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.0894
82592347|NCT00885703|164899153|SUPERIORITY|||||||0.4828||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 1600mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.4828
82592348|NCT00885703|164899153|SUPERIORITY|||||||0.1766||||||Analysis did not adjust for multiple comparisons.|Log Rank|||Comparison of survival from entry to week 24 between Fluconazole 2000mg arm and Ampho B arm. The null hypothesis is there is no difference in survival between these two arms.||||0.1766
82592349|NCT00938717|164899179|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.65|||<|0.0001|TWO_SIDED|95.0|2.44|8.84||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week APC 3 + 1 Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||8.84|2.44|<0.0001
82491376|NCT01681472|164676430|SUPERIORITY|||||||0.0092|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0092
82592350|NCT00938717|164899180|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19|||<|0.0001|TWO_SIDED|95.0|2.5|7.03||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week CSBM 3 + 1 Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||7.03|2.50|<0.0001
82653956|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.9917||0.5123|TWO_SIDED|95.0|-1.3|2.61|||Mixed Models Analysis|||Supine Diastolic BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.61|-1.30|0.5123
82491377|NCT01681472|164676430|SUPERIORITY|||||||0.8303|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.8303
82491378|NCT01681472|164676430|SUPERIORITY|||||||0.1182|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1182
82491379|NCT01681472|164676430|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
82491380|NCT01681472|164676430|SUPERIORITY|||||||0.3184|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.3184
82491381|NCT01681472|164676430|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
82491382|NCT01681472|164676431|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
82491383|NCT01681472|164676431|SUPERIORITY|||||||0.2246|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2246
82491384|NCT01681472|164676431|SUPERIORITY|||||||0.0428|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0428
82491385|NCT01681472|164676431|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0003
82491386|NCT01681472|164676431|SUPERIORITY|||||||0.4309|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4309
82491387|NCT01681472|164676431|SUPERIORITY|||||||0.0055|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-methyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0055
82491388|NCT01681472|164676432|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
82491389|NCT01681472|164676432|SUPERIORITY|||||||0.0034|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0034
82491390|NCT01681472|164676432|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82499947|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.7|||||TWO_SIDED|95.0|-47.4|20.6|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||20.6|-47.4|
82592351|NCT00938717|164899181|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62|||<|0.0001|TWO_SIDED|95.0|1.91|3.6||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week Abdominal Pain Responders. The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data.||3.60|1.91|<0.0001
82592352|NCT00938717|164899182|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.0001|TWO_SIDED|95.0|2.22|4.49||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 6/12 Week APC + 1 Responders.~The power, adjusted for multiplicity, was expected to be 86% based on NCT00460811 (MCP-103-202) study data."||4.49|2.22|<0.0001
82592353|NCT01462435|164899199|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|446.946|STANDARD_ERROR_OF_MEAN|122.2935|<|0.001|TWO_SIDED|95.0|206.567|687.324|||ANCOVA|||||687.324|206.567|<0.001
82592354|NCT01462435|164899199|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|316.145|STANDARD_ERROR_OF_MEAN|121.5971||0.01|TWO_SIDED|95.0|77.136|555.155|||ANCOVA|||||555.155|77.136|0.010
82592355|NCT01462435|164899199|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|313.119|STANDARD_ERROR_OF_MEAN|122.5676||0.011|TWO_SIDED|95.0|72.202|554.037|||ANCOVA|||||554.037|72.202|0.011
82592356|NCT01462435|164899200|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||t-test, 2 sided|||||||0.043
82592357|NCT01462435|164899200|SUPERIORITY_OR_OTHER|||||||0.109||95.0|||||t-test, 2 sided|||||||0.109
82592358|NCT01462435|164899200|SUPERIORITY_OR_OTHER|||||||0.183||95.0|||||t-test, 2 sided|||||||0.183
82592359|NCT01462435|164899201|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
82592360|NCT01462435|164899201|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||t-test, 2 sided|||||||0.029
82592361|NCT01462435|164899201|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||t-test, 2 sided|||||||0.050
82592362|NCT01462435|164899202|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82592363|NCT01462435|164899202|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82592364|NCT01462435|164899202|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82592365|NCT01462435|164899203|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||t-test, 2 sided|||||||0.009
82592366|NCT01462435|164899203|SUPERIORITY_OR_OTHER|||||||0.091||95.0|||||t-test, 2 sided|||||||0.091
82592367|NCT01462435|164899203|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||t-test, 2 sided|||||||0.053
82491391|NCT01681472|164676432|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82592368|NCT01462435|164899204|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||||||0.002
82592369|NCT01462435|164899204|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||t-test, 2 sided|||||||0.026
82592370|NCT01462435|164899204|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 2 sided|||||||0.017
82592371|NCT01462435|164899205|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82592372|NCT01462435|164899205|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||||||0.005
82592373|NCT01462435|164899205|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||t-test, 2 sided|||||||0.004
82592374|NCT01462435|164899206|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82592375|NCT01462435|164899206|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82592376|NCT01462435|164899206|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82592377|NCT03600142|164899207|NON_INFERIORITY|For WLHIV (n=55), chi-square tests were used to assess differences between conditions in the proportion of participants who were retained in HIV care at 3 months post enrollment.||||||0.963|||||||Chi-squared|||We were aware that our resources of time and funding would not be sufficient to detect a significant difference in the HIV care outcome, and that we would only be able to detect observational signals of impact. We aimed for a minimum of 50 WLHIV, which is considered an adequate sample to assess feasibility and acceptability in a pilot intervention study. Given an estimated 5% HIV prevalence among women presenting for ANC, this required us to enroll 1000 female participants.||||0.963
82592378|NCT02687542|164899244|OTHER|Bayesian Dose Response Analysis|Bayesian Dose Reponse Estimate|-0.693|STANDARD_ERROR_OF_MEAN|0.6162||0.5776|TWO_SIDED|90.0|-1.713|0.304||Bayesian Predictive Test for Emax (the additive increase over Placebo in the response of PF-06649751 at a theoretically infinite dose) Monotonicity|Bayesian Dose Response Analysis|Estimate and 90% credible interval of Bayesian dose response difference from placebo||||0.304|-1.713|0.5776
82592379|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.021||95.0|||||Spearman's Rank Order Correlation|||"P-value for Attention correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 attention score."||||0.021
82592380|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||Spearman's Rank Order Correlation|||"P-value for Initiation/Perseveration correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 initiation/perseveration score."||||0.077
82592381|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.364||95.0|||||Spearman's Rank Order Correlation|||"P-value for Construction correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 construction score."||||0.364
82592382|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.266||95.0|||||Spearman's Rank Order Correlation|||"P-value for Conceptualization correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 conceptualization score."||||0.266
82592383|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.152||95.0|||||Spearman's Rank Order Correlation|||"P-value for Memory correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 memory score."||||0.152
82592384|NCT00857532|164899258|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||Spearman's Rank Order Correlation|||"P-value for DRS-2 Total correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and DRS-2 total score."||||0.041
82592385|NCT00857532|164899259|SUPERIORITY_OR_OTHER|||||||0.0411||95.0|||||Spearman's Rank Order Correlation|||"P-value for Amyloid beta correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and amyloid beta."||||0.0411
82653957|NCT01200394|165023044|SUPERIORITY||LS Mean Difference|0.46|STANDARD_ERROR_OF_MEAN|1.1355||0.6838|TWO_SIDED|95.0|-1.77|2.7|||Mixed Models Analysis|||Supine Mean BP, Week 16: MMRM model included baseline, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. The unstructured covariance matrix was used to estimate variances and covariance within participant across time points.||2.70|-1.77|0.6838
82592386|NCT00857532|164899259|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Spearman's Rank Order Correlation|||"P-value for Tau correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and tau."||||0.5800
82592387|NCT00857532|164899259|SUPERIORITY_OR_OTHER|||||||0.8164||95.0|||||Spearman's Rank Order Correlation|||"P-value for Phospho-Tau correlation coefficient. Null hypothesis is that there is no correlation between florbetapir SUVR and phospho-tau."||||0.8164
82592388|NCT00139776|164899291|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||"Null hypothesis for primary outcome is that there is no difference in the number of flares observed between the 2 treatment arms of celecoxib 200mg continuous use and celecoxib 200mg intermittent use.~Sample size calculation: Sufficient number of participants were randomized to provide at least 80% power to detect an estimated effect size of 0.2 using a 2-sided t-test at a 0.05 significant level."||||<0.0001
82592389|NCT00139776|164899292|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|Log Rank|||Kaplan-Meier analysis||||<0.0001
82592390|NCT00139776|164899293|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
82592391|NCT00139776|164899294|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
82592392|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 4||||<0.001
82592393|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 8||||<0.001
82592394|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 12||||<0.001
82592395|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 16||||0.003
82592396|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 20||||0.022
82592397|NCT00139776|164899295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.047||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 24||||0.047
82592398|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 4||||<0.001
82592399|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 8||||0.001
82592400|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.096||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 12||||0.096
82592401|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.338||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 16||||0.338
82592402|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.832||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 20||||0.832
82592403|NCT00139776|164899296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.972||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Week 24||||0.972
82592404|NCT00139776|164899297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046||95.0||||Overall p-value Threshold for statistical significance p\<0.05|Cochran-Mantel-Haenszel|Test of row mean score differences based on modified ridits (standardizing the mid-rank)||||||0.0046
82592405|NCT00139776|164899298|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0102||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||0.0102
82592406|NCT00139776|164899299|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||0.0012
82592407|NCT00139776|164899300|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANOVA|Treatment as fixed effect||||||<0.0001
82592408|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Total WOMAC score||||<0.001
82592409|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.6|STANDARD_ERROR_OF_MEAN|0.71||||95.0|0.21|2.99|||||Change in LSmean (score at end of Period III minus score at start of Period III)|Total WOMAC score - Continuous use||2.99|0.21|
82592410|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.99|STANDARD_ERROR_OF_MEAN|0.71||||95.0|3.6|6.38|||||Change in LSmean (score at end of Period III minus score at start of Period III)|Total WOMAC score - Intermittent use||6.38|3.60|
82592411|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC pain subscale||||<0.001
82592412|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.37|STANDARD_ERROR_OF_MEAN|0.15||||95.0|0.06|0.67|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC pain subscale - Continuous use||0.67|0.06|
82592413|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18|STANDARD_ERROR_OF_MEAN|0.15||||95.0|0.88|1.49|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC pain subscale - Intermittent use||1.49|0.88|
82653958|NCT01200394|165023046|SUPERIORITY||Geometric Mean Ratio|0.9282||||0.5422|TWO_SIDED|95.0|0.7297|1.1807|||Mixed Models Analysis|||Week 3: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.1807|0.7297|0.5422
82592414|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC stiffness subscale||||0.004
82592415|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.07||||95.0|-0.02|0.25|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC stiffness subscale - Continuous use||0.25|-0.02|
82592416|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.07||||95.0|0.26|0.53|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC stiffness subscale - Intermittent use||0.53|0.26|
82592417|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC physical function subscale||||0.002
82592418|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.13|STANDARD_ERROR_OF_MEAN|0.51||||95.0|0.13|2.14|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC physical function subscale - Continuous use||2.14|0.13|
82592419|NCT00139776|164899301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.43|STANDARD_ERROR_OF_MEAN|0.51||||95.0|2.42|4.43|||||Change in LSmean (score at end of Period III minus score at start of Period III)|WOMAC physical function subscale - Intermittent use||4.43|2.42|
82592420|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2712||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep disturbance||||0.2712
82592421|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8737||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Snoring||||0.8737
82592422|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7703||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Awaken short of breath||||0.7703
82592423|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3769||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Quantity of sleep||||0.3769
82592424|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4075||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep adequacy||||0.4075
82592425|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5854||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Somnolence||||0.5854
82592426|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8358||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep problems index I||||0.8358
82592427|NCT00139776|164899302|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5878||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Sleep problems index II||||0.5878
82592428|NCT00139776|164899303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC total score||||<0.001
82499948|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.5|||||TWO_SIDED|95.0|-72.6|0.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||0.5|-72.6|
82592429|NCT00139776|164899303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC pain subscale||||<0.001
82592430|NCT00139776|164899303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC stiffness subscale||||<0.001
82592431|NCT00139776|164899303|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||WOMAC physical function subscale||||<0.001
82592432|NCT00139776|164899304|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1437||95.0||||Threshold for statistical significance p\<0.05|Cochran-Mantel-Haenszel|by general association||Analysis across all 3 sleep scores for Period III||||0.1437
82592433|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Physical function||||<0.0001
82592434|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Role physical||||<0.0001
82592435|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Bodily pain||||<0.0001
82592436|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3097||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||General health||||0.3097
82592437|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0139||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Vitality||||0.0139
82592438|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1303||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Social functioning||||0.1303
82592439|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1404||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Role emotional||||0.1404
82653959|NCT01200394|165023046|SUPERIORITY||Geometric Mean Ratio|0.7998||||0.049|TWO_SIDED|95.0|0.6402|0.999|||Mixed Models Analysis|||Week 6: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||0.9990|0.6402|0.0490
82592440|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4015||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Mental health||||0.4015
82592441|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Physical component summary||||<0.0001
82592442|NCT00139776|164899305|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0301||95.0||||Threshold for statistical significance p\<0.05|ANCOVA|Treatment as fixed effect and baseline as covariate||Mental component summary||||0.0301
82592443|NCT00674583|164899309|NON_INFERIORITY|Criterion for non-inferiority evaluation: The lower limit (LL) of the two-sided standardized asymptotic 95% CI for the group difference (Nimenrix Group minus Menjugate Group) in the percentages of subjects with vaccine response to rSBA-MenC is greater than or equal to (≥) the pre-defined clinical limit of -10%.|Difference in percentage|-0.88|||||TWO_SIDED|95.0|-5.25|5.75||||||To demonstrate the non-inferiority of the Nimenrix group compared to the Menjugate group, two-sided standardized asymptotic 95% confidence interval (CI) for the groups difference \[Nimenrix group minus Menjugate group\] in the percentages of subjects with bactericidal vaccine response to MenC was computed.||5.75|-5.25|
82592444|NCT04223843|164899319|OTHER||Difference of adjusted means|0.336|STANDARD_ERROR_OF_MEAN|0.045|<|0.0001|TWO_SIDED|95.0|0.246|0.425|||ANCOVA|Model included fixed categorical effects of treatment and the fixed continous effect of baseline FEV1 AUC0-3.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean FEV1 AUC0-3 change from baseline between Tio+Olo and matching placebo.||0.425|0.246|<0.0001
82592445|NCT04223843|164899319|OTHER||Difference of adjusted means|0.321|STANDARD_ERROR_OF_MEAN|0.044|<|0.0001|TWO_SIDED|95.0|0.233|0.409|||ANCOVA|Model included the fixed categorical effect of treatment and the fixed continuous effect of baseline FEV1 AUC0-3h.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean FEV1 AUC0-3h change from baseline between Tio+Olo and matching placebo.||0.409|0.233|<0.0001
82592446|NCT04223843|164899320|OTHER||Difference of adjusted means|0.201|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.117|0.286|||Mixed Models Analysis|Mixed model with repeated measures including fixed categorial effect of treatment at each visit and fixed continuous effect of baseline at each visit.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean trough FEV1 change from baseline between Tio+Olo and matching placebo.||0.286|0.117|<0.0001
82592447|NCT04223843|164899320|OTHER||Difference of adjusted means|0.217|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.135|0.299|||Mixed Models Analysis|Mixed model with repeated measures including fixed categorial effect of treatment at each visit and fixed continuous effect of baseline at each visit.|Difference = (Tio+Olo) - (Placebo)|H0: There is no difference in the mean trough FEV1 change from baseline between Tio+Olo and matching placebo.||0.299|0.135|<0.0001
82653960|NCT01200394|165023046|SUPERIORITY||Geometric Mean Ratio|1.0435||||0.7264|TWO_SIDED|95.0|0.8211|1.3262|||Mixed Models Analysis|||Week 12: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.3262|0.8211|0.7264
82653961|NCT01200394|165023046|SUPERIORITY||Geometric Mean Ratio|1.1154||||0.3733|TWO_SIDED|95.0|0.8761|1.4201|||Mixed Models Analysis|||Week 16: MMRM on normal logarithmic scale with change from baseline as response variable and baseline, baseline supine systolic BP, visit, treatment, baseline by visit interaction and treatment by visit interaction as fixed effects. Unstructured covariance matrix was used to estimate variances and covariance within participant across time points. Values were back-transformed from log scale.||1.4201|0.8761|0.3733
82653962|NCT01835145|165023077|SUPERIORITY|||||||0.7|||||||Chi-squared|||A one-sided chi-squared test for a difference in PFS4 rates will be used to test for a difference between arms.||||0.70
82653963|NCT00582309|165023084|NON_INFERIORITY_OR_EQUIVALENCE|Original Power Analysis: The expected differences in mean blood glucose concentration between groups are \> 30 mg/dL. Assuming two-tailed alpha of .05, a standard deviation of approximately 40, and a one-to-one allocation and no subject attrition, fifty patients per treatment group (150 total) will be sufficient to achieve 90% power for group mean comparisons allowing for multiple comparisons.|||||<|0.05|TWO_SIDED|95.0||||All results obtained by ANOVA are verified by the nonparametric Kruskal-Wallis test. Statistical significance will be judged by P-values \< 0.05.|ANOVA|||Demographic and baseline measurements are reported as either means and standard deviations or as frequency and percentages. These and the outcome measures are compared among the three groups by 1-way analysis of variance (ANOVA) for means or by Fisher's Exact test for frequencies as appropriate. If there is an overall significant difference, the post hoc multiple comparisons will be done by Fisher's least significant difference method.||||<0.05
82653964|NCT02708277|165023101|SUPERIORITY_OR_OTHER|||||||0.009|||||||Chi-squared|||||||0.009
82653965|NCT02708277|165023102|SUPERIORITY_OR_OTHER|||||||0.303|||||||Chi-squared|||||||0.303
82592448|NCT03901105|164899321|OTHER||Risk Ratio (RR)|1.36||||0.0313|TWO_SIDED|95.0|1.028|1.785||A priori threshold was two-sided 0.05.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline CDR-SB score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.785|1.028|0.0313
82592449|NCT03901105|164899322|OTHER||Risk Ratio (RR)|1.35||||0.0833|TWO_SIDED|95.0|0.962|1.886||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for MMSE CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.886|0.962|.0833
82592450|NCT03901105|164899322|OTHER||Risk Ratio (RR)|1.77||||0.0141|TWO_SIDED|95.0|1.122|2.796||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for ADAS-Cog11 CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||2.796|1.122|.0141
82653966|NCT02708277|165023103|SUPERIORITY_OR_OTHER|||||||0.606|||||||t-test, 2 sided|||||||0.606
82653967|NCT02708277|165023104|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82653968|NCT01396044|165023132|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
82653969|NCT01396044|165023133|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.093
82653970|NCT01396044|165023134|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0|||||Chi-squared|||||||0.17
82653971|NCT01396044|165023135|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.27
82653972|NCT01396044|165023136|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.36
82592451|NCT03901105|164899322|OTHER||Risk Ratio (RR)|1.32||||0.0639|TWO_SIDED|95.0|0.984|1.776||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for FAQ CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||1.776|0.984|.0639
82592452|NCT03901105|164899322|OTHER||Risk Ratio (RR)|1.28||||0.2814|TWO_SIDED|95.0|0.815|2.02||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|log linear model|Adjusted for treatment arm (lanabecestat 20 mg, 50 mg, or placebo), baseline age, years of education (categorical), and baseline score.|τAD++ scans represent the numerator for risk, and τAD+/τAD- scans represent the denominator|Risk ratio for CDR Global CMD. Scan results were grouped into τAD++ vs. non-τAD++ (τAD+ and τAD-) for the analysis||2.020|0.815|.2814
82592453|NCT03901105|164899323|OTHER|||||||0.0305||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between CDR-SB least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||.0305
82592454|NCT03901105|164899323|OTHER||||||<|0.0001||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between MMSE least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||<0.0001
82592455|NCT03901105|164899323|OTHER|||||||0.0006||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between ADAS-Cog11 least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||0.0006
82592456|NCT03901105|164899323|OTHER|||||||0.0097||||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|Mixed Models Analysis|Adjusted for baseline clinical score, age, years of education (categorical), and treatment arm (lanabecestat - 20mg or 50mg - or placebo).||MMRM testing the difference between FAQ least squares mean changes of tAD++ and Non-tAD++ (tAD+ and tAD-). The unstructured covariance structure (UN) was used.||||0.0097
82592457|NCT00701090|164899340|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin was 0.4%, i.e., Sitagliptin was declared non-inferior to glimepiride if the upper limit of the two-sided 95% confidence interval for the between group difference (sitagliptin minus glimepiride) was less than 0.4%|Mean Difference (Net)|0.07|STANDARD_DEVIATION|0.7|||TWO_SIDED|95.0|-0.03|0.16|||||ANCOVA model with terms: treatment, country, and baseline HbA1c.|||0.16|-0.03|
82592458|NCT00701090|164899341|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9|STANDARD_DEVIATION|28.8|||TWO_SIDED|95.0|-0.9|6.7|||||ANCOVA model terms: treatment, country, and baseline.|||6.7|-0.9|
82592459|NCT00701090|164899342|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-15.0|||<|0.001|TWO_SIDED|95.0|-19.3|-10.9|||Miettinen &Nurminen method||Miettinen \&Nurminen method was used for the 95% confidence interval|||-10.9|-19.3|<0.001
82592460|NCT00701090|164899343|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|2.9|<|0.001|TWO_SIDED|95.0|-2.3|-1.6|||ANCOVA|Model terms: treatment, country, and baseline.|ANCOVA model terms: treatment, country, and baseline.|||-1.6|-2.3|<0.001
82592461|NCT00701090|164899344|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.47|0.9|||||The parameter estimate and 95% CI represent the odds of having A1C \<7.0% at Week 30 in the Sitagliptin group vs. the Glimepiride group, computed using a logistic regression model controlling for treatment, country and baseline A1C.|||0.90|0.47|
82592462|NCT00701090|164899345|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.47|0.95|||||The parameter estimate and 95% CI represent the odds of having A1C \<6.5% at Week 30 in the Sitagliptin group vs. the Glimepiride group, computed using a logistic regression model controlling for treatment, country and baseline A1C.|||0.95|0.47|
82592463|NCT00509067|164899364|SUPERIORITY|||||||0.93||||||alpha set at P \< .05|Mixed Models Analysis|Time (0, 4, 8, 12, 16 wks) x Treatment (Drug, Placebo) Effect: F(1, 33)=0.01.||||||0.93
82653973|NCT01396044|165023138|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Chi-squared|||||||0.002
82653974|NCT03008460|165023147|NON_INFERIORITY|Non-inferiority would be demonstrated if the lower limit of the 95% confidence interval of the adjusted treatment difference was higher than -15%.|Adjusted treatment difference|-7.61||||0.0907|TWO_SIDED|95.0|-18.45|3.24||P-value for non-inferiority was estimated from the adjusted treatment difference.|Regression, Logistic|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a logistic regression model, including treatment and country as covariates.||3.24|-18.45|0.0907
82592464|NCT00509067|164899365|SUPERIORITY|||||||0.23||||||alpha level set at .05|Mixed Models Analysis|Time (0, 8, 16 weeks) x Group (Drug, Placebo) Effect: F(1, 32.8)=1.48..||||||0.23
82592465|NCT00509067|164899365|SUPERIORITY|||||||0.23||||||alpha set at P\<0.05|Mixed Models Analysis|Time (0, 8, 16, weeks) x Group (Drug, Placebo) Effect: F(1, 32.8)=1.48.||||||0.23
82592466|NCT03654976|164899366|SUPERIORITY||Rate ratio|0.89||||0.5412|TWO_SIDED|95.0|0.6|1.31|||Negative binomial regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The number of clinically relevant asthma exacerbations was analyzed using a negative binomial regression model with a log-link function and the logarithm of the time in years in the efficacy period as offset. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||1.31|0.60|0.5412
82653975|NCT03008460|165023148|OTHER||Adjusted treatment difference|-0.18||||0.0428|TWO_SIDED|95.0|-0.36|-0.01|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||-0.01|-0.36|0.0428
82653976|NCT03008460|165023149|OTHER||Adjusted treatment difference|-0.07||||0.4676|TWO_SIDED|95.0|-0.25|0.12|||ANOVA|||"Left colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.12|-0.25|0.4676
82592467|NCT03654976|164899367|SUPERIORITY||Odds Ratio (OR)|0.7713||||0.4156|TWO_SIDED|95.0|0.41|1.44|||Marginal logistic regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|A marginal logistic regression model with a generalized estimating approach was analyzed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit was included as a covariate. No missing data approach was applied.||1.44|0.41|0.4156
82592468|NCT03654976|164899368|SUPERIORITY||Odds Ratio (OR)|0.8477||||0.4146|TWO_SIDED|95.0|0.57|1.26|||Marginal logistic regression||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|A marginal logistic regression model with a generalized estimating approach was analyzed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit is included as a covariate. No missing data approach was applied.||1.26|0.57|0.4146
82592469|NCT03654976|164899369|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.8829|TWO_SIDED|95.0|-1.47|1.7|||Mixed-effect model repeated measurement||12 SQ-HDM - placebo|A 'mixed-effect model repeated measurement' model was analysed using treatment, visit, treatment\*visit, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. Baseline visit was included as a covariate. No missing data approach was applied.||1.70|-1.47|0.8829
82653977|NCT03008460|165023149|OTHER||Adjusted treatment difference|-0.09||||0.3076|TWO_SIDED|95.0|-0.25|0.08|||ANOVA|||"Transverse colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.08|-0.25|0.3076
82592470|NCT03654976|164899370|SUPERIORITY||Odds Ratio (OR)|2.26||||0.0044|TWO_SIDED|95.0|1.29|3.96|||Generalised linear mixed model||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The odds of having an improved outcome was analyzed using a generalized linear mixed model (GLMM) with a logit link function. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||3.96|1.29|0.0044
82592471|NCT03654976|164899371|SUPERIORITY||Odds Ratio, log|1.62||||0.0698|TWO_SIDED|95.0|0.96|2.74|||Generalised linear mixed model||12 SQ-HDM SLIT-tablet as the numerator and placebo SLIT-tablet as the denominator.|The odds of having an improved outcome was analysed using a generalised linear mixed model (GLMM) with a logit link function. The model included treatment, age group (\<12 years, \>=12 years) and region (west: DEU, ESP, FRA, GBR and USA; central: POL; east: BGR, HUN and RUS) as fixed factors. No missing data approach was applied.||2.74|0.96|0.0698
82592472|NCT00382018|164899381|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.98|TWO_SIDED|95.0|0.69|1.47|||Log Rank|||Hazard Ration of overall survival compared Arm C2 to Arm C1.||1.47|0.69|0.98
82592473|NCT00382018|164899382|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.64|TWO_SIDED|95.0|0.64|1.32|||Log Rank|||Hazard Ratio of progression free survival compared Arm C2 to Arm C1||1.32|0.64|0.64
82592474|NCT00427349|164899389|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||one sample binomial test|The study result was compared to a null hypothesis of 20% 4-month progression free survival rate using one sample binomial test||The null hypothesis is that the 4-month progression free survival rate is 20%. Alternatively, AMG 706 will be considered worthy of further study if its true progression-free survival rate is 40% or better at 4 months (alternative hypothesis).||||<0.001
82592475|NCT05082376|164899392|OTHER||Adjusted Mean Difference|7.7|||<|0.0001|TWO_SIDED|95.0|6.6|8.8|||ANCOVA|Analysis of Covariance (ANCOVA) model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 2 hours post-treatment||8.8|6.6|<0.0001
82592476|NCT05082376|164899392|OTHER||Adjusted Mean Difference|6.9|||<|0.0001|TWO_SIDED|95.0|5.8|7.9|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 4 hours post-treatment.||7.9|5.8|<0.0001
82592477|NCT05082376|164899392|OTHER||Adjusted Mean Difference|5.1|||<|0.0001|TWO_SIDED|95.0|4.0|6.2|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 6 hours post-treatment.||6.2|4.0|<0.0001
82592478|NCT05082376|164899392|OTHER||Adjusted Mean Difference|4.7|||<|0.0001|TWO_SIDED|95.0|3.6|5.8|||ANCOVA|ANCOVA model with treatment, timepoint, treatment\*timepoint (interaction) and subject as terms; Baseline value as covariate.||Pairwise comparison between Treated and Untreated sites 8 hours post-treatment.||5.8|3.6|<0.0001
82592479|NCT00445224|164899399|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||ANOVA|||||||.041
82592480|NCT00445224|164899400|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANOVA|||Repeated measures ANOVA for group and time||||.049
82592481|NCT03496012|164899412|SUPERIORITY||Difference in Proportions|2.9|||=|0.354|TWO_SIDED|95.0|-3.1|15.0|||Fisher's Exact|||||15|-3.1|=0.354
82592482|NCT03496012|164899412|SUPERIORITY||Difference in proportions|4.6|||=|0.245|TWO_SIDED|95.0|-1.4|12.8|||Fisher's Exact|||||12.8|-1.4|=0.245
82592483|NCT03496012|164899414|SUPERIORITY||Difference in proportions|16.0|||||TWO_SIDED|95.0|5.3|32.2||||||||32.2|5.3|
82592484|NCT03496012|164899414|SUPERIORITY||Difference in proportions|12.2|||||TWO_SIDED|95.0|3.5|23.0||||||||23|3.5|
82592485|NCT03496012|164899415|SUPERIORITY||Difference in proportions|2.8|||||TWO_SIDED|95.0|-17.2|21.0||||||||21|-17.2|
82592486|NCT03496012|164899415|SUPERIORITY||Difference in proportions|15.3|||||TWO_SIDED|95.0|0.3|30.1||||||||30.1|0.3|
82592487|NCT02187471|164899440|SUPERIORITY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.191||0.4601|TWO_SIDED|95.0|-0.52|0.23|||Difference of means|||||0.23|-0.52|0.4601
82592488|NCT02187471|164899440|SUPERIORITY||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.77|-0.03|||Difference of means|||||-0.03|-0.77|0.0350
82592489|NCT02187471|164899440|SUPERIORITY||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.191||0.0001|TWO_SIDED|95.0|-1.12|-0.37|||Difference of means|||||-0.37|-1.12|0.0001
82592490|NCT02187471|164899440|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.193||0.0019|TWO_SIDED|95.0|0.22|0.98|||Difference of means|||||0.98|0.22|0.0019
82592491|NCT02187471|164899440|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|0.192||0.0761|TWO_SIDED|95.0|-0.04|0.72|||Difference of means|||||0.72|-0.04|0.0761
82653978|NCT03008460|165023149|OTHER||Adjusted treatment difference|-0.24||||0.0155|TWO_SIDED|95.0|-0.44|-0.05|||ANOVA|||"Right colon:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||-0.05|-0.44|0.0155
82653979|NCT03008460|165023149|OTHER||Adjusted treatment difference|-0.36||||0.0975|TWO_SIDED|95.0|-0.79|0.07|||ANOVA|||"Global score:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||0.07|-0.79|0.0975
82592492|NCT02187471|164899442|SUPERIORITY||Mean Difference (Final Values)|-1.59|STANDARD_ERROR_OF_MEAN|1.67||0.3407|TWO_SIDED|95.0|-4.86|1.68|||Difference of means|||||1.68|-4.86|0.3407
82592493|NCT02187471|164899442|SUPERIORITY||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.669||0.0012|TWO_SIDED|95.0|-8.69|-2.15|||Difference of means|||||-2.15|-8.69|0.0012
82592494|NCT02187471|164899442|SUPERIORITY||Mean Difference (Final Values)|-4.39|STANDARD_ERROR_OF_MEAN|1.665||0.0083|TWO_SIDED|95.0|-7.66|-1.13|||Difference of means|||||-1.13|-7.66|0.0083
82592495|NCT02187471|164899442|SUPERIORITY||Mean Difference (Final Values)|2.8|STANDARD_ERROR_OF_MEAN|1.677||0.0946|TWO_SIDED|95.0|-0.48|6.09|||Difference of means|||||6.09|-0.48|0.0946
82592496|NCT02187471|164899442|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|1.669||0.5384|TWO_SIDED|95.0|-4.3|2.24|||Difference of means|||||2.24|-4.30|0.5384
82592497|NCT02187471|164899444|SUPERIORITY||Difference in least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.3||0.003|TWO_SIDED|95.0|-1.5|-0.3|||ANCOVA|||||-0.3|-1.5|0.0030
82592498|NCT02187471|164899444|SUPERIORITY||Difference in least squares means|-1.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|95.0|-2.3|-1.1|||ANCOVA|||||-1.1|-2.3|<0.0001
82592499|NCT02187471|164899444|SUPERIORITY||Difference in least squares means|-1.2|STANDARD_ERROR_OF_MEAN|0.3||0.0001|TWO_SIDED|95.0|-1.7|-0.6|||ANCOVA|||||-0.6|-1.7|0.0001
82592500|NCT02187471|164899444|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3562|TWO_SIDED|95.0|-0.3|0.9|||ANCOVA|||||0.9|-0.3|0.3562
82592501|NCT02187471|164899444|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.3||0.0862|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA|||||0.1|-1.1|0.0862
82653980|NCT03008460|165023150|OTHER||Adjusted treatment difference rate|1.3847||||0.2428|TWO_SIDED|95.0|0.8|2.4|||CMH chi-square|||Analysis was performed using Cochran-Mantel-Haenszel (CMH) chi-square method (using the general association statistic), stratified on country.||2.4|0.8|0.2428
82592502|NCT02187471|164899445|SUPERIORITY||Difference in least square means|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.5183|TWO_SIDED|95.0|-0.7|0.4|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg QD||0.4|-0.7|0.5183
82592503|NCT02187471|164899445|SUPERIORITY||Difference in least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.28||0.2669|TWO_SIDED|95.0|-0.9|0.2|||ANCOVA|||Anxiety: Placebo vs DS-5565 15 mg BID||0.2|-0.9|0.2669
82592504|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.28||0.463|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Anxiety: Placebo vs Pregabalin 150 mg BID||0.3|-0.8|0.4630
82592505|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.928|TWO_SIDED|95.0|-0.5|0.6|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.6|-0.5|0.9280
82592506|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7089|TWO_SIDED|95.0|-0.7|0.5|||ANCOVA|||Anxiety: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.7|0.7089
82653981|NCT03008460|165023151|OTHER||Adjusted treatment difference rate|24.0219|||<|0.0001|TWO_SIDED|95.0|12.6|45.9|||CMH chi-square|||Analysis was performed using CMH chi-square method (using the general association statistic), stratified on country.||45.9|12.6|<0.0001
82653982|NCT03008460|165023152|OTHER||Adjusted treatment difference rate|1.0022||||0.9257|TWO_SIDED|95.0|1.0|1.1|||CMH chi-square|||Analysis was performed using CMH chi-square method (using the general association statistic), stratified on country.||1.1|1.0|0.9257
82653983|NCT03008460|165023154|OTHER||Adjusted treatment difference|-0.93||||0.4459|TWO_SIDED|95.0|-3.32|1.47|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||1.47|-3.32|0.4459
82592507|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.0669|TWO_SIDED|95.0|-1.1|0.0|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg QD||0|-1.1|0.0669
82592508|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.28||0.0081|TWO_SIDED|95.0|-1.3|-0.2|||ANCOVA|||Depression: Placebo vs DS-5565 15 mg BID||-0.2|-1.3|0.0081
82592509|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.0867|TWO_SIDED|95.0|-1.0|0.1|||ANCOVA|||Depression: Placebo vs Pregabalin 150 mg BID||0.1|-1.0|0.0867
82592510|NCT02187471|164899445|SUPERIORITY||Difference of least squares means|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.9066|TWO_SIDED|95.0|-0.6|0.5|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.5|-0.6|0.9066
82592511|NCT02187471|164899445|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.29||0.3509|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||Depression: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.3|-0.8|0.3509
82592512|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|2.187|STANDARD_ERROR_OF_MEAN|0.6203||0.0004|TWO_SIDED|95.0|0.97|3.404|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg QD||3.404|0.970|0.0004
82592513|NCT02187471|164899446|SUPERIORITY||Difference of least squares means|2.483|STANDARD_ERROR_OF_MEAN|0.6209|<|0.0001|TWO_SIDED|95.0|1.265|3.701|||ANCOVA|||Physical Component: Placebo vs DS-5565 15 mg BID||3.701|1.265|<0.0001
82592514|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|2.621|STANDARD_ERROR_OF_MEAN|0.6215|<|0.0001|TWO_SIDED|95.0|1.401|3.84|||ANCOVA|||Physical Component: Placebo vs Pregabalin 150 mg BID||3.840|1.401|<0.0001
82592515|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|-0.434|STANDARD_ERROR_OF_MEAN|0.6245||0.4877|TWO_SIDED|95.0|-1.659|0.792|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.792|-1.659|0.4877
82592516|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|-0.137|STANDARD_ERROR_OF_MEAN|0.6252||0.8263|TWO_SIDED|95.0|-1.364|1.089|||ANCOVA|||Physical Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||1.089|-1.364|0.8263
82592517|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|0.228|STANDARD_ERROR_OF_MEAN|0.7345||0.7567|TWO_SIDED|95.0|-1.213|1.669|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg QD||1.669|-1.213|0.7567
82653984|NCT03008460|165023155|OTHER||Adjusted treatment difference|0.71|||<|0.0001|TWO_SIDED|95.0|0.4|1.03|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates.||1.03|0.40|<0.0001
82653985|NCT03008460|165023156|OTHER||Adjusted treatment difference rate|1.22||||0.3945|TWO_SIDED|95.0|-1.6|4.05|||ANOVA|||"Dose 1:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||4.05|-1.60|0.3945
82653986|NCT03008460|165023156|OTHER||Adjusted treatment difference rate|6.38||||0.0085|TWO_SIDED|95.0|1.65|11.12|||ANOVA|||"Dose 2:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||11.12|1.65|0.0085
82653987|NCT03008460|165023156|OTHER||Adjusted treatment difference rate|7.48||||0.0036|TWO_SIDED|95.0|2.46|12.5|||ANOVA|||"Global:~Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using a 2-way ANOVA, including treatment and country as covariates."||12.50|2.46|0.0036
82653988|NCT03008460|165023159|OTHER||Adjusted treatment difference|1.05||||0.0015|TWO_SIDED|95.0|0.41|1.69|||ANOVA|||Analysis of the treatment difference (Eziclen®/Izinova® minus Klean-Prep®) was performed using 2-way ANOVA, including treatment and country as covariates.||1.69|0.41|0.0015
82653989|NCT00955747|165023166|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.4|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||All tests will be two-tailed. Unless specified otherwise, p-values less than or equal to O.050, when rounded to four decimal places,will be considered statistically significant.||||<0.05
82592518|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|0.7349|STANDARD_ERROR_OF_MEAN|0.7349||0.0787|TWO_SIDED|95.0|-0.149|2.735|||ANCOVA|||Mental Component: Placebo vs DS-5565 15 mg BID||2.735|-0.149|0.0787
82592519|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|0.7358|STANDARD_ERROR_OF_MEAN|0.7358||0.3516|TWO_SIDED|95.0|-0.758|2.129|||ANCOVA|||Mental Component: Placebo vs Pregabalin 150 mg BID||2.129|-0.758|0.3516
82592520|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|-0.458|STANDARD_ERROR_OF_MEAN|0.7372||0.5344|TWO_SIDED|95.0|-1.905|0.988|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.988|-1.905|0.5344
82592521|NCT02187471|164899446|SUPERIORITY||Difference in least squares means|0.607|STANDARD_ERROR_OF_MEAN|0.7379||0.4107|TWO_SIDED|95.0|-0.84|2.055|||ANCOVA|||Mental Component: Pregabalin 150 mg BID vs DS-5565 15 mg BID||2.055|-0.840|0.4107
82592522|NCT02187471|164899447|SUPERIORITY||Difference in least squares means|0.0203|STANDARD_ERROR_OF_MEAN|0.01369||0.1394|TWO_SIDED|95.0|-0.0066|0.0471|||ANCOVA|||||0.0471|-0.0066|0.1394
82592523|NCT02187471|164899447|SUPERIORITY||Difference in least squares means|0.0211|STANDARD_ERROR_OF_MEAN|0.01369||0.1237|TWO_SIDED|95.0|-0.0058|0.048|||ANCOVA|||||0.0480|-0.0058|0.1237
82592524|NCT02187471|164899447|SUPERIORITY||Difference in least squares means|0.0386|STANDARD_ERROR_OF_MEAN|0.01371||0.0049|TWO_SIDED|95.0|0.0117|0.0655|||ANCOVA|||||0.0655|0.0117|0.0049
82592525|NCT02187471|164899447|SUPERIORITY||Difference in least squares means|-0.0184|STANDARD_ERROR_OF_MEAN|0.01378||0.1824|TWO_SIDED|95.0|-0.0454|0.0086|||ANCOVA|||||0.0086|-0.0454|0.1824
82592526|NCT02187471|164899447|SUPERIORITY||Difference in least squares means|-0.0175|STANDARD_ERROR_OF_MEAN|0.01378||0.2036|TWO_SIDED|95.0|-0.0446|0.0095|||ANCOVA|||||0.0095|-0.0446|0.2036
82653990|NCT03482713|165023169|OTHER||Difference in least squares means|0.79|||||TWO_SIDED|95.0|-0.34|1.93|||||Based on an ANCOVA model with terms for treatment, gender and the log-transformed baseline.|||1.93|-0.34|
82653991|NCT03482713|165023170|OTHER||Difference least squares mean|0.76|||||TWO_SIDED|95.0|-0.35|1.88|||||Based on an ANCOVA model with terms for treatment, gender and the log-transformed baseline.|||1.88|-0.35|
82653992|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.37||||0.009273|TWO_SIDED|95.0|0.18|0.78|||Regression, Logistic|||||0.78|0.18|0.009273
82653993|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.32||||0.000271|TWO_SIDED|95.0|0.18|0.59|||Regression, Logistic|||||0.59|0.18|0.000271
82592527|NCT02187471|164899448|SUPERIORITY||Difference in least squares means|-0.56|STANDARD_ERROR_OF_MEAN|0.162||0.0006|TWO_SIDED|95.0|-0.87|-0.24|||Mixed Models Analysis|||||-0.24|-0.87|0.0006
82592528|NCT02187471|164899448|SUPERIORITY||Difference in least squares means|-0.88|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.2|-0.57|||Mixed Models Analysis|||||-0.57|-1.20|<0.0001
82592529|NCT02187471|164899448|SUPERIORITY||Difference in least squares means|-0.95|STANDARD_ERROR_OF_MEAN|0.161|<|0.0001|TWO_SIDED|95.0|-1.27|-0.63|||Mixed Models Analysis|||||-0.63|-1.27|<0.0001
82592530|NCT02187471|164899448|SUPERIORITY||Difference in least squares means|0.39|STANDARD_ERROR_OF_MEAN|0.162||0.0158|TWO_SIDED|95.0|0.07|0.71|||Mixed Models Analysis|||||0.71|0.07|0.0158
82592531|NCT02187471|164899448|SUPERIORITY||Difference in least squares means|0.07|STANDARD_ERROR_OF_MEAN|0.161||0.6819|TWO_SIDED|95.0|-0.25|0.38|||Mixed Models Analysis|||||0.38|-0.25|0.6819
82592532|NCT02187471|164899450|SUPERIORITY||Difference of least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||Worst pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.2|<0.0001
82592533|NCT02187471|164899450|SUPERIORITY||Difference of least squares means|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2005|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg QD||0.1|-0.6|0.2005
82592534|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|||Worst pain: Placebo vs DS-5565 15 mg BID||-0.3|-1.0|0.0010
82592535|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.6|STANDARD_ERROR_OF_MEAN|0.19||0.003|TWO_SIDED|95.0|0.2|1.0|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||1.0|0.2|0.0030
82592536|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.19||0.3351|TWO_SIDED|95.0|-0.2|0.6|||ANCOVA|||Worst pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.2|0.3351
82592537|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Least pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|<0.0001
82592538|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0782|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg QD||0.0|-0.7|0.0782
82592539|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0068|TWO_SIDED|95.0|-0.9|-0.1|||ANCOVA|||Least pain: Placebo vs DS-5565 15 mg BID||-0.1|-0.9|0.0068
82653994|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.23||||0.000257|TWO_SIDED|95.0|0.1|0.51|||Regression, Logistic|||||0.51|0.10|0.000257
82592540|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0169|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|0.1|0.0169
82592541|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1481|TWO_SIDED|95.0|-0.1|0.6|||ANCOVA|||Least pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.6|-0.1|0.1481
82592542|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.1|-0.4|||ANCOVA|||Average pain: Placebo vs Pregabalin 150 mg BID||-0.4|-1.1|<0.0001
82592543|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0088|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg QD||-0.1|-0.8|0.0088
82592544|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.6|STANDARD_ERROR_OF_MEAN|0.17||0.0005|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||Average pain: Placebo vs DS-5565 15 mg BID||-0.3|-0.9|0.0005
82592545|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0627|TWO_SIDED|95.0|0.0|0.7|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.7|-0.0|0.0627
82592546|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.2|STANDARD_ERROR_OF_MEAN|0.17||0.3064|TWO_SIDED|95.0|-0.2|0.5|||ANCOVA|||Average pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.2|0.3064
82592547|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.2|-0.4|||ANCOVA|||Pain right now: Placebo vs Pregabalin 150 mg BID||-0.4|-1.2|<0.0001
82592548|NCT02187471|164899450|SUPERIORITY||Difference in least squares mean|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.0868|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg QD||0.0|-0.7|0.0868
82592549|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.7|STANDARD_ERROR_OF_MEAN|0.2||0.0004|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||Pain right now: Placebo vs DS-5565 15 mg BID||-0.3|-1.1|0.0004
82592550|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0271|TWO_SIDED|95.0|0.1|0.8|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.8|0.1|0.0271
82592551|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.6838|TWO_SIDED|95.0|-0.3|0.5|||ANCOVA|||Pain right now: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.5|-0.3|0.6838
82592552|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.791|STANDARD_ERROR_OF_MEAN|0.172|<|0.0001|TWO_SIDED|95.0|-1.129|-0.454|||ANCOVA|||Severity score: Placebo vs Pregabalin 150 mg BID||-0.454|-1.129|<0.0001
82592553|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.33|STANDARD_ERROR_OF_MEAN|0.1718||0.0552|TWO_SIDED|95.0|-0.667|0.007|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg QD||0.007|-0.667|0.0552
82592554|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-0.612|STANDARD_ERROR_OF_MEAN|0.1718||0.0004|TWO_SIDED|95.0|-0.95|-0.275|||ANCOVA|||Severity score: Placebo vs DS-5565 15 mg BID||-0.275|-0.950|0.0004
82592555|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.462|STANDARD_ERROR_OF_MEAN|0.1729||0.0077|TWO_SIDED|95.0|0.122|0.801|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg QD||0.801|0.122|0.0077
82592556|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|0.179|STANDARD_ERROR_OF_MEAN|0.173||0.3014|TWO_SIDED|95.0|-0.161|0.518|||ANCOVA|||Severity score: Pregabalin 150 mg BID vs DS-5565 15 mg BID||0.518|-0.161|0.3014
82592557|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|9.6|STANDARD_ERROR_OF_MEAN|2.4|<|0.0001|TWO_SIDED|95.0|4.9|14.3|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs Pregabalin 150 mg BID||14.3|4.9|<0.0001
82592558|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|8.5|STANDARD_ERROR_OF_MEAN|2.39||0.0004|TWO_SIDED|95.0|3.8|13.2|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg QD||13.2|3.8|0.0004
82592559|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|10.4|STANDARD_ERROR_OF_MEAN|2.39|<|0.0001|TWO_SIDED|95.0|5.7|15.1|||ANCOVA|||Relief (%) by treatment of pain: Placebo vs DS-5565 15 mg BID||15.1|5.7|<0.0001
82592560|NCT02187471|164899450|SUPERIORITY||Difference in least squares means|-1.1|STANDARD_ERROR_OF_MEAN|2.41||0.6449|TWO_SIDED|95.0|-5.8|3.6|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg QD||3.6|-5.8|0.6449
82592561|NCT02187471|164899450|SUPERIORITY||Difference in least square means|0.8|STANDARD_ERROR_OF_MEAN|2.41||0.734|TWO_SIDED|95.0|-3.9|5.5|||ANCOVA|||Relief (%) by treatment of pain: Pregabalin 150 mg BID vs DS-5565 15 mg BID||5.5|-3.9|0.7340
82592562|NCT02187471|164899451|SUPERIORITY||Difference in least squares means|-0.016|STANDARD_ERROR_OF_MEAN|0.0225||0.4816|TWO_SIDED|95.0|-0.06|0.028|||ANCOVA|||||0.028|-0.060|0.4816
82592563|NCT02187471|164899451|SUPERIORITY||Difference in least square means|-0.064|STANDARD_ERROR_OF_MEAN|0.0225||0.0044|TWO_SIDED|95.0|-0.109|-0.02|||ANCOVA|||||-0.020|-.109|0.0044
82592564|NCT02187471|164899451|SUPERIORITY||Difference in least squares means|-0.074|STANDARD_ERROR_OF_MEAN|0.0226||0.001|TWO_SIDED|95.0|-0.119|-0.03|||ANCOVA|||||-0.030|-0.119|0.0010
82592565|NCT02187471|164899451|SUPERIORITY||Difference in least squares means|0.059|STANDARD_ERROR_OF_MEAN|0.0226||0.0094|TWO_SIDED|95.0|0.014|0.103|||ANCOVA|||||0.103|0.014|0.0094
82592566|NCT02187471|164899451|SUPERIORITY||Difference in least squares means|0.01|STANDARD_ERROR_OF_MEAN|0.0226||0.6527|TWO_SIDED|95.0|-0.034|0.055|||ANCOVA|||||0.055|-0.034|0.6527
82592567|NCT01785160|164899453|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability (No formal testing was performed)|Adjusted Geometric Mean ratio|272.06|STANDARD_DEVIATION|67.9||0.9999||95.0|199.69|370.66||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Raltegravir plus Faldaprevir and Raltegravir for the category Raltegravir||370.66|199.69|0.9999
82592568|NCT01785160|164899454|NON_INFERIORITY_OR_EQUIVALENCE|Relative bioavailability(No formal testing was performed)|Adjusted Geometric Mean ratio|245.72|STANDARD_DEVIATION|87.1||0.9973||95.0|168.46|358.404||P-value for ratio outside interval 0.8-1.25|ANOVA|Adjusted geometric mean ratio|The standard deviation is actually the geometric coefficient of variation|Ratio Raltegravir plus Faldaprevir and Raltegravir for the category Raltegravir||358.404|168.460|0.9973
82592569|NCT02318667|164899456|OTHER|||||||0.0074|||||||t-test, 2 sided|||||||0.0074
82592570|NCT02318667|164899457|OTHER|||||||0.1506|||||||t-test, 2 sided|||||||0.1506
82653995|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.44||||0.013378|TWO_SIDED|95.0|0.23|0.84|||Regression, Logistic|||||0.84|0.23|0.013378
82592571|NCT00111800|164899503|SUPERIORITY||Mean Difference (Net)|-0.28||||0.061|TWO_SIDED|95.0|-0.58|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.58|0.061
82592572|NCT00111800|164899503|SUPERIORITY||Mean Difference (Net)|-0.53|||<|0.001|TWO_SIDED|95.0|-0.82|-0.24|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.24|-0.82|<0.001
82592573|NCT00111800|164899503|SUPERIORITY||Mean Difference (Net)|-0.45||||0.002|TWO_SIDED|95.0|-0.74|-0.16|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.16|-0.74|0.002
82592574|NCT00111800|164899503|SUPERIORITY||Mean Difference (Net)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.09|-0.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.50|-1.09|<0.001
82592575|NCT00111800|164899503|SUPERIORITY||Mean Difference (Net)|-0.84|||<|0.001|TWO_SIDED|95.0|-1.13|-0.55|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.55|-1.13|<0.001
82592576|NCT00111800|164899505|SUPERIORITY||Mean Difference (Net)|-0.4||||0.306|TWO_SIDED|95.0|-1.18|0.37|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.37|-1.18|0.306
82592577|NCT00111800|164899505|SUPERIORITY||Mean Difference (Net)|-0.8||||0.039|TWO_SIDED|95.0|-1.56|-0.04|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.04|-1.56|0.039
82653996|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.24||||0.000318|TWO_SIDED|95.0|0.11|0.52|||Regression, Logistic|||||0.52|0.11|0.000318
82653997|NCT04634409|165023181|SUPERIORITY||Odds Ratio (OR)|0.35||||0.140563|TWO_SIDED|95.0|0.09|1.41|||Regression, Logistic|||||1.41|0.09|0.140563
82653998|NCT04634409|165023182|SUPERIORITY||Odds Ratio (OR)|0.27||||0.000835|TWO_SIDED|95.0|0.12|0.58|||Regression, Logistic|||||0.58|0.12|0.000835
82592578|NCT00111800|164899505|SUPERIORITY||Mean Difference (Net)|-0.58||||0.13|TWO_SIDED|95.0|-1.34|0.17|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.17|-1.34|0.130
82592579|NCT00111800|164899505|SUPERIORITY||Mean Difference (Net)|-1.46|||<|0.001|TWO_SIDED|95.0|-2.23|-0.69|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.69|-2.23|<0.001
82592580|NCT00111800|164899505|SUPERIORITY||Mean Difference (Net)|-1.22||||0.002|TWO_SIDED|95.0|-1.99|-0.46|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.46|-1.99|0.002
82592581|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|0.92||||0.909|TWO_SIDED|95.0|0.21|3.95|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.95|0.21|0.909
82592582|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.15||||0.852|TWO_SIDED|95.0|0.27|4.92|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.92|0.27|0.852
82592583|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.2||||0.795|TWO_SIDED|95.0|0.3|4.83|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.83|0.30|0.795
82653999|NCT04634409|165023183|SUPERIORITY||Odds Ratio (OR)|0.56||||0.097231|TWO_SIDED|95.0|0.28|1.11|||Regression, Logistic|||||1.11|0.28|0.097231
82654000|NCT04634409|165023183|SUPERIORITY||Odds Ratio (OR)|0.59||||0.13236|TWO_SIDED|95.0|0.3|1.17|||Regression, Logistic|||||1.17|0.30|0.132360
82592584|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|2.68||||0.135|TWO_SIDED|95.0|0.74|9.77|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.77|0.74|0.135
82654001|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|0.62||||0.769|TWO_SIDED|95.0|0.02|15.57|||Regression, Logistic|||||15.57|0.02|0.769
82654002|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|0.32||||0.494|TWO_SIDED|95.0|0.01|8.12|||Regression, Logistic|||||8.12|0.01|0.494
82654003|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|0.5||||0.671|TWO_SIDED|95.0|0.02|12.51|||Regression, Logistic|||||12.51|0.02|0.671
82654004|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|0.49||||0.663|TWO_SIDED|95.0|0.02|12.27|||Regression, Logistic|||||12.27|0.02|0.663
82654005|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|0.51||||0.68|TWO_SIDED|95.0|0.02|12.76|||Regression, Logistic|||||12.76|0.02|0.680
82592585|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|3.24||||0.085|TWO_SIDED|95.0|0.85|12.37|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c \<=6.5%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||12.37|0.85|0.085
82592586|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.1||||0.866|TWO_SIDED|95.0|0.36|3.36|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.36|0.36|0.866
82592587|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.99||||0.202|TWO_SIDED|95.0|0.69|5.76|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.76|0.69|0.202
82592588|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.04||||0.941|TWO_SIDED|95.0|0.35|3.13|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.13|0.35|0.941
82592589|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|2.15||||0.152|TWO_SIDED|95.0|0.76|6.13|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.13|0.76|0.152
82592590|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|3.24||||0.032|TWO_SIDED|95.0|1.11|9.52|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c \<7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.52|1.11|0.032
82592591|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|0.46||||0.198|TWO_SIDED|95.0|0.14|1.5|||Regression, Logistic|||Placebo versus DEN 2.5 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||1.50|0.14|0.198
82592592|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.43||||0.481|TWO_SIDED|95.0|0.53|3.85|||Regression, Logistic|||Placebo versus DEN 7.5 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||3.85|0.53|0.481
82592593|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|1.01||||0.991|TWO_SIDED|95.0|0.36|2.78|||Regression, Logistic|||Placebo versus DEN 15 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||2.78|0.36|0.991
82592594|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|3.65||||0.008|TWO_SIDED|95.0|1.41|9.48|||Regression, Logistic|||Placebo versus DEN 30 mg for HbA1c reduction \>=0.7%. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.48|1.41|0.008
82592595|NCT00111800|164899507|SUPERIORITY||Odds Ratio (OR)|2.0||||0.161|TWO_SIDED|95.0|0.76|5.24|||Regression, Logistic|||Placebo versus DEN 45 mg for HbA1c reduction \>=0.7%. A closed test procedure was used,P an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.24|0.76|0.161
82592596|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.77||||0.38|TWO_SIDED|95.0|0.5|6.3|||Regression, Logistic|||Placebo versus DEN 2.5 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.30|0.50|0.380
82592597|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|2.57||||0.145|TWO_SIDED|95.0|0.72|9.11|||Regression, Logistic|||Placebo versus DEN 7.5 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.11|0.72|0.145
82592598|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.09||||0.906|TWO_SIDED|95.0|0.26|4.62|||Regression, Logistic|||Placebo versus DEN 15 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.62|0.26|0.906
82592599|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.56||||0.509|TWO_SIDED|95.0|0.41|5.91|||Regression, Logistic|||Placebo versus DEN 30 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.91|0.41|0.509
82592600|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|3.14||||0.077|TWO_SIDED|95.0|0.89|11.14|||Regression, Logistic|||Placebo versus DEN 45 mg for FPG \<7mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||11.14|0.89|0.077
82592601|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.9||||0.254|TWO_SIDED|95.0|0.63|5.72|||Regression, Logistic|||Placebo versus DEN 2.5 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||5.72|0.63|0.254
82592602|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.59||||0.396|TWO_SIDED|95.0|0.55|4.62|||Regression, Logistic|||Placebo versus DEN 7.5 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.62|0.55|0.396
82592603|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|1.35||||0.59|TWO_SIDED|95.0|0.45|4.0|||Regression, Logistic|||Placebo versus DEN 15 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.00|0.45|0.590
82491392|NCT01681472|164676432|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
82491393|NCT01681472|164676432|SUPERIORITY|||||||0.0055|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0055
82491394|NCT01681472|164676433|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
82491395|NCT01681472|164676433|SUPERIORITY|||||||0.0058|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0058
82491396|NCT01681472|164676433|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491397|NCT01681472|164676433|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||<0.0001
82491398|NCT01681472|164676433|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
82491399|NCT01681472|164676433|SUPERIORITY|||||||0.0338|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of \[6S\]-5-formyl-THF concentration in mucosa adjacent to the tumor was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0338
82491400|NCT01681472|164676434|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491401|NCT01681472|164676434|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491402|NCT01681472|164676434|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491403|NCT01681472|164676434|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491404|NCT01681472|164676434|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491405|NCT01681472|164676434|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491406|NCT01681472|164676435|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491407|NCT01681472|164676435|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491408|NCT01681472|164676435|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491409|NCT01681472|164676435|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491410|NCT01681472|164676435|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
82491411|NCT01681472|164676435|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491412|NCT01681472|164676436|SUPERIORITY|||||||0.0728|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0728
82491413|NCT01681472|164676436|SUPERIORITY|||||||0.2246|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2246
82654006|NCT04634409|165023189|SUPERIORITY||Odds Ratio (OR)|2.51||||0.584|TWO_SIDED|95.0|0.09|67.88|||Regression, Logistic|||||67.88|0.09|0.584
82592604|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|3.24||||0.026|TWO_SIDED|95.0|1.15|9.13|||Regression, Logistic|||Placebo versus DEN 30 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.13|1.15|0.026
82592605|NCT00111800|164899508|SUPERIORITY||Odds Ratio (OR)|3.0||||0.034|TWO_SIDED|95.0|1.08|8.3|||Regression, Logistic|||Placebo versus DEN 45 mg for FPG reduction \>=1.7 mmol/L. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||8.30|1.08|0.034
82592606|NCT00111800|164899509|SUPERIORITY||Mean Difference (Net)|-14.9||||0.057||95.0|-30.2|0.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.5|-30.2|0.057
82592607|NCT00111800|164899509|SUPERIORITY||Mean Difference (Net)|-22.4||||0.003||95.0|-37.1|-7.6|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-7.6|-37.1|0.003
82592608|NCT00111800|164899509|SUPERIORITY||Mean Difference (Net)|-29.2|||<|0.001||95.0|-43.9|-14.5|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-14.5|-43.9|<0.001
82592609|NCT00111800|164899509|SUPERIORITY||Mean Difference (Net)|-39.6|||<|0.001|TWO_SIDED|95.0|-54.6|-24.6|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-24.6|-54.6|<0.001
82592610|NCT00111800|164899509|SUPERIORITY||Mean Difference (Net)|-38.9|||<|0.001|TWO_SIDED|95.0|-53.8|-23.9|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-23.9|-53.8|<0.001
82654007|NCT04634409|165023191|SUPERIORITY||Odds Ratio (OR)|1.02||||0.979|TWO_SIDED|95.0|0.17|6.06|||Regression, Logistic|||||6.06|0.17|0.979
82592611|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|-8.51||||0.489|TWO_SIDED|95.0|-32.66|15.65|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg for fasting serum insulin.|Placebo versus DEN 2.5 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||15.65|-32.66|0.489
82592612|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|14.18||||0.237|TWO_SIDED|95.0|-9.37|37.72|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg for fasting serum insulin.|Placebo versus DEN 7.5 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||37.72|-9.37|0.237
82654008|NCT04634409|165023191|SUPERIORITY||Odds Ratio (OR)|1.42||||0.675|TWO_SIDED|95.0|0.27|7.39|||Regression, Logistic|||||7.39|0.27|0.675
82592613|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|7.31||||0.534||95.0|-15.79|30.42|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg for fasting serum insulin.|Placebo versus DEN 15 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||30.42|-15.79|0.534
82592614|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|5.27||||0.665|TWO_SIDED|95.0|-18.64|29.17|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg for fasting serum insulin.|Placebo versus DEN 30 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||29.17|-18.64|0.665
82592615|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|12.74||||0.295|TWO_SIDED|95.0|-11.18|36.65|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg for fasting serum insulin.|Placebo versus DEN 45 mg for fasting serum insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||36.65|-11.18|0.295
82592616|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|3.31||||0.327|TWO_SIDED|95.0|-3.32|9.94|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg for pro-insulin.|Placebo versus DEN 2.5 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.94|-3.32|0.327
82592617|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|3.06||||0.345|TWO_SIDED|95.0|-3.31|9.44|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg for pro-insulin.|Placebo versus DEN 7.5 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.44|-3.31|0.345
82654009|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.67||||0.009|TWO_SIDED|95.0|-1.17|-0.17|||Mixed Models Analysis|||||-0.17|-1.17|0.009
82654010|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.65||||0.002|TWO_SIDED|95.0|-1.06|-0.24|||Mixed Models Analysis|||||-0.24|-1.06|0.002
82654011|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.26||||0.263|TWO_SIDED|95.0|-0.72|0.2|||Mixed Models Analysis|||||0.20|-0.72|0.263
82654012|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.41||||0.083|TWO_SIDED|95.0|-0.87|0.05|||Mixed Models Analysis|||||0.05|-0.87|0.083
82491414|NCT01681472|164676436|SUPERIORITY|||||||0.0166|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0166
82491415|NCT01681472|164676436|SUPERIORITY|||||||0.1752|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1752
82491416|NCT01681472|164676436|SUPERIORITY|||||||0.9581|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.9581
82491417|NCT01681472|164676436|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0118
82491418|NCT01681472|164676437|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491419|NCT01681472|164676437|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491420|NCT01681472|164676437|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491421|NCT01681472|164676437|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491422|NCT01681472|164676437|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491423|NCT01681472|164676437|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(0-2h) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82491424|NCT01681472|164676438|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491425|NCT01681472|164676438|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491426|NCT01681472|164676438|SUPERIORITY|||||||0.0022|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0022
82491427|NCT01681472|164676438|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491428|NCT01681472|164676438|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491429|NCT01681472|164676438|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491430|NCT01681472|164676439|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491431|NCT01681472|164676439|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82592618|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|-0.35||||0.914|TWO_SIDED|95.0|-6.7|6.0|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg for pro-insulin.|Placebo versus DEN 15 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||6.00|-6.70|0.914
82592619|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|-2.21||||0.504|TWO_SIDED|95.0|-8.71|4.29|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg for pro-insulin.|Placebo versus DEN 30 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||4.29|-8.71|0.504
82592620|NCT00111800|164899511|SUPERIORITY||Mean Difference (Net)|2.75||||0.403|TWO_SIDED|95.0|-3.71|9.22|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg for pro-insulin.|Placebo versus DEN 45 mg for pro-insulin. A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||9.22|-3.71|0.403
82491432|NCT01681472|164676439|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82654013|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.87|||<|0.001|TWO_SIDED|95.0|-1.35|-0.4|||Mixed Models Analysis|||||-0.40|-1.35|<0.001
82592621|NCT00111800|164899514|SUPERIORITY||Mean Difference (Net)|0.03||||0.286|TWO_SIDED|95.0|-0.02|0.08|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 2.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.08|-0.02|0.286
82592622|NCT00111800|164899514|SUPERIORITY||Mean Difference (Net)|-0.02||||0.457|TWO_SIDED|95.0|-0.07|0.03|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 7.5 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.03|-0.07|0.457
82592623|NCT00111800|164899514|SUPERIORITY||Mean Difference (Net)|-0.04||||0.136|TWO_SIDED|95.0|-0.09|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 15 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.09|0.136
82592624|NCT00111800|164899514|SUPERIORITY||Mean Difference (Net)|-0.06||||0.021|TWO_SIDED|95.0|-0.11|-0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 30 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||-0.01|-0.11|0.021
82592625|NCT00111800|164899514|SUPERIORITY||Mean Difference (Net)|-0.04||||0.094|TWO_SIDED|95.0|-0.09|0.01|||ANCOVA||The point estimate was calculated as least square mean difference (net values) of placebo and DEN 45 mg.|A closed test procedure was used, in an hierarchical manner, that is, test was applied sequentially where testing does not proceed to the next step unless the previous test was found to be significant.||0.01|-0.09|0.094
82592626|NCT00365456|164899542|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.012|STANDARD_ERROR_OF_MEAN|1.0045||0.01|TWO_SIDED|95.0|1.003|1.021||No multiplicity correction of the significance level was performed as only one primary endpoint was planned.|ANCOVA|Estimation allowing for unequal variance in the two treatment groups and robust estimates for the standard errors were obtained.||An analysis of covariance (ANCOVA) model was used including treatment group, stratum and pooled centre as fixed effects and log (BMD at Baseline III (month 24)) as a covariate (log-normally distributed data assumed). Least square mean change from baseline III (month 24), 95% confidence interval and p-value for the treatment effect (PTH (1-84) vs. Risedronate) was calculated. Superiority was claimed if lower limit of the interval was above 1. Results were back-transformed from the log scale.||1.021|1.003|0.010
82592627|NCT01131676|164899554|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was chosen as 1.3 based on Food and Drug Administration (FDA) Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes|Hazard Ratio (HR)|0.86|||<|0.0001|TWO_SIDED|95.02|0.74|0.99||One-sided test with alpha = 0.0249|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|Primary objective was to establish the non-inferiority of All empagliflozin relative to placebo for time to first 3-point MACE. A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||0.99|0.74|<0.0001
82592628|NCT01131676|164899554|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.0382|TWO_SIDED|95.02|0.74|0.99||Two-sided test with alpha=0.0498|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.99|0.74|0.0382
82592629|NCT01131676|164899555|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was chosen as 1.3 based on Food and Drug Administration (FDA) Guidance for Industry - Diabetes Mellitus - Evaluating Cardiovascular Risk in New Antidiabetic Therapies to Treat Type 2 Diabetes|Hazard Ratio (HR)|0.89|||<|0.0001|TWO_SIDED|95.02|0.78|1.01||One-sided test with alpha = 0.0249|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||1.01|0.78|<0.0001
82592630|NCT01131676|164899555|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.0795|TWO_SIDED|95.02|0.78|1.01||Two-sided test with alpha=0.0498|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|A 4-step hierarchical testing strategy was followed for the non-inferiority test of the primary endpoint and then the key secondary endpoint, each at a margin of 1.3, followed by test of superiority of primary and key secondary endpoints.||1.01|0.78|0.0795
82592631|NCT01131676|164899556|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.4172|TWO_SIDED|95.0|0.7|2.33||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||2.33|0.70|0.4172
82592632|NCT01131676|164899557|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||0.0017|TWO_SIDED|95.0|0.5|0.85||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.85|0.50|0.0017
82592633|NCT01131676|164899558|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.2547|TWO_SIDED|95.0|0.87|1.04||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||1.04|0.87|0.2547
82654014|NCT04634409|165023194|SUPERIORITY||LSM Difference|-0.64||||0.149|TWO_SIDED|95.0|-1.52|0.23|||Mixed Models Analysis|||||0.23|-1.52|0.149
82654015|NCT04634409|165023195|SUPERIORITY||LSM Difference|-0.82||||0.002|TWO_SIDED|95.0|-1.33|-0.31|||Mixed Models Analysis|||||-0.31|-1.33|0.002
82654016|NCT04634409|165023196|SUPERIORITY||LSM Difference|-0.14||||0.606|TWO_SIDED|95.0|-0.7|0.41|||Mixed Models Analysis|||||0.41|-0.70|0.606
82592634|NCT01131676|164899559|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.72||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.72|0.54|<0.0001
82592635|NCT01131676|164899560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.54|0.7||Two-sided test with alpha = 0.05.|Cox proportional hazards model|Cox proportional hazards model with factors for treatment, age, gender, categorised BMI, HbA1c, eGFR and geographical region.|All Empagliflozin divided by Placebo|||0.70|0.54|<0.0001
82592636|NCT01961349|164899570|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82592637|NCT01961349|164899570|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82592638|NCT01961349|164899571|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82592639|NCT01961349|164899571|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82592640|NCT00829179|164899572|SUPERIORITY_OR_OTHER||Difference in Mean|11.0|STANDARD_DEVIATION|13.3||0.005||95.0|||||Sign test|||||||0.005
82592641|NCT03770091|164899614|SUPERIORITY|ANOVA performed||||||0.6|||||||ANOVA|||||||0.6
82592642|NCT03770091|164899615|SUPERIORITY|||||||0.59|||||||ANOVA|||||||0.59
82592643|NCT03770091|164899616|SUPERIORITY|||||||0.9|||||||ANOVA|||||||0.9
82592644|NCT03770091|164899617|SUPERIORITY|||||||0.45|||||||ANCOVA|||||||0.45
82592645|NCT03770091|164899618|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
82592646|NCT00545064|164899626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|20.2||0.001||95.0|-0.6|7.0|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in GSS-SYMP-6 score = 7"||7.0|-0.6|0.001
82592647|NCT00545064|164899626|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_DEVIATION|20.2||0.097||95.0|-0.6|7.0|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in GSS-SYMP-6 = 0"||7.0|-0.6|0.097
82592648|NCT00545064|164899629|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.5|STANDARD_DEVIATION|5.3|<|0.001||95.0|-12.3|-10.7|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in IOP = -4"||-10.7|-12.3|<0.001
82592649|NCT00545064|164899629|SUPERIORITY_OR_OTHER||Median Difference (Net)|-11.5|STANDARD_DEVIATION|5.3|<|0.001||95.0|-12.3|-10.7|||t-test, 2 sided|||"The change is the post-baseline value minus the baseline value.~Null Hypothesis: change in IOP = 0"||-10.7|-12.3|<0.001
82592650|NCT04688775|164899631|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.5048|TWO_SIDED|95.0|-1.3|2.6|||Mixed Models Repeated Measures|||Change From Baseline in the Number of Weekly Attacks: Eptinezumab vs. Placebo||2.6|-1.3|0.5048
82592651|NCT04688775|164899636|SUPERIORITY||Hazard Ratio (HR)|1.45||||0.0772|TWO_SIDED|95.0|0.96|2.17|||Regression, Cox|||||2.17|0.96|0.0772
82592652|NCT01843972|164899660|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|97.88|STANDARD_DEVIATION|24.8|||TWO_SIDED|90.0|79.963|119.809|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||119.809|79.963|
82592653|NCT01843972|164899660|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|111.2|STANDARD_DEVIATION|24.7|||TWO_SIDED|90.0|88.596|139.576|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||139.576|88.596|
82592654|NCT01843972|164899661|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|101.31|STANDARD_DEVIATION|28.2|||TWO_SIDED|90.0|80.593|127.351|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||127.351|80.593|
82592655|NCT01843972|164899661|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|92.69|STANDARD_DEVIATION|33.0|||TWO_SIDED|90.0|68.662|125.119|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||125.119|68.662|
82592656|NCT01843972|164899662|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|1.0233|||||TWO_SIDED|95.0|0.8265|1.2201|||Regression, Linear|||||1.2201|0.8265|
82592657|NCT01843972|164899663|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|0.9686|||||TWO_SIDED|95.0|0.8107|1.1266|||Regression, Linear|||Dose proportionality of BI 691751 was explored using a power model (regression model applied to log-transformed data).||1.1266|0.8107|
82592658|NCT01843972|164899664|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|95.48|STANDARD_DEVIATION|30.8|||TWO_SIDED|90.0|74.414|122.511|||ANOVA||The geometric mean ratio is calculated as the geometric mean of 'BI 691751 tablet extensive metabolizers (part II)' divided by the geometric mean of 'BI 691751 solution (part II)'.|Only extensive CYP2D6 metabolisers were selected: 12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)' and 7 (all investigated) subjects of group 'BI 691751 solution (part II) '.||122.511|74.414|
82592659|NCT01843972|164899664|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|109.8|STANDARD_DEVIATION|28.8|||TWO_SIDED|90.0|84.376|142.894|||ANOVA||The geometric mean ratio was calculated as the geometric mean of the poor metabolisers divided by the geometric mean of the extensive metabolisers.|Comparison of poor metabolisers (5 (all) subjects of group 'BI 691751 tablet poor metabolizers (part II)') and extensive metabolisers (12 (all) subjects of group 'BI 691751 tablet extensive metabolizers (part II)').||142.894|84.376|
82592660|NCT01843972|164899664|NON_INFERIORITY_OR_EQUIVALENCE|This was non-confirmatory testing.|Slope|1.0312|||||TWO_SIDED|95.0|0.833|1.179|||Regression, Linear|||||1.1790|0.833|
82592661|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82592662|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82592663|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82592664|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82592665|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 5 min post dose||||<0.0001
82592666|NCT01854645|164899672|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||At 15 min post dose||||<0.0001
82592667|NCT04261504|164899674|SUPERIORITY|||||||0.03||||||Threshold p\<0.05.|threshold-free cluster enhancement|||||||0.03
82592668|NCT02504554|164899675|OTHER||||||<|0.001||||||"no adjustment for multiple hypothesis testing since this was an exploratory study.~the p-value listed is the actual result from analysis of the study data."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank analysis of symptoms at 10 weeks (end of treatment) vs. baseline||||<0.001
82592669|NCT02504554|164899676|OTHER|paired 2-sided t-test comparing baseline and 10 weeks (end of treatment)|||||<|0.001||||||no adjustment for multiple comparisons|t-test, 2 sided|paired t-test, 2 sided||||||<0.001
82592670|NCT02504554|164899678|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~The p-value listed is the result for the actual analysis of the data."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test comparing the baseline score vs. the score at 10 weeks (end of treatment).||||<0.001
82592671|NCT02504554|164899679|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~the p-value listed is the actual result for the study results."|Wilcoxon (Mann-Whitney)|||Wilcoxon signed-rank test comparing scores at baseline vs. 10 weeks (end of treatment)||||<0.001
82592672|NCT02504554|164899681|OTHER||||||<|0.001||||||"no adjustment for multiple comparisons~the p-value listed is the actual result for the analysis of the study data"|t-test, 2 sided|||2-sided t-test comparing the group at baseline vs. 18 weeks (8 weeks after end of treatment)||||<0.001
82592673|NCT02504554|164899682|OTHER|||||||0.002||||||no adjustment for multiple comparisons|Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare scores at baseline vs. at 10 weeks (end of treatment)||||0.002
82592674|NCT02568475|164899752|EQUIVALENCE|Continuous scale: score compares results before and after intervention without a cut parameter.|Mean Difference (Final Values)|3.59|STANDARD_ERROR_OF_MEAN|1.74||0.046|TWO_SIDED|95.0|0.059|7.12|||t-test, 2 sided|||||7.12|0.059|0.046
82592675|NCT02568475|164899753|OTHER|This is a continuous scale with no clinical cut score/value. We tested mean differences between the two groups.|Mean Difference (Final Values)|6.78||||0.001|TWO_SIDED|95.0|2.9|10.6|||t-test, 2 sided|||||10.6|2.9|0.001
82592676|NCT02426476|164899759|SUPERIORITY||||||<|0.01||||||Group by Time interaction|Mixed Models Analysis|||Linear mixed models for repeated measures (PROC MIXED in SAS) were used to assess the effects of intervention group, time, and the group by time interaction. A directional (one-sided) hypothesis was tested for the Group-by-Time interaction. The covariance matrix that minimized the Akaike Information Criterion was used. Each outcome was evaluated separately. Models were adjusted for baseline depression score and race.||||<0.01
82592677|NCT02426476|164899760|SUPERIORITY|||||||0.87||||||Group by Time interaction|Mixed Models Analysis|||||||0.87
82592678|NCT02426476|164899761|SUPERIORITY||||||<|0.01||||||Group by Time Interaction|Mixed Models Analysis|||Linear mixed models for repeated measures (PROC MIXED in SAS) were used to assess the effects of intervention group, time, and the group by time interaction. A directional (one-sided) hypothesis was tested for the Group-by-Time interaction. The covariance matrix that minimized the Akaike Information Criterion was used. Each outcome was evaluated separately. Models were adjusted for baseline depression score and race.||||<0.01
82592679|NCT03023930|164899762|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|proc logistic||||||<0.001
82592680|NCT03023930|164899763|SUPERIORITY|||||||0.011|||||||Regression, Logistic|proc logistic||||||0.011
82592681|NCT00290186|164899789|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.539||95.0|-1.5|3.3|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.3|-1.5|0.539
82592682|NCT00290186|164899790|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.921|TWO_SIDED|95.0|-1.6|1.8|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||1.8|-1.6|0.921
82592683|NCT00290186|164899791|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.945|TWO_SIDED|95.0|-3.0|5.1|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||5.1|-3.0|0.945
82592684|NCT00290186|164899792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.342|TWO_SIDED|95.0|-5.1|2.2|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.2|-5.1|0.342
82592685|NCT00290186|164899793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.149|TWO_SIDED|95.0|-1.6|8.6|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||8.6|-1.6|0.149
82592686|NCT00290186|164899794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.685|TWO_SIDED|95.0|-3.0|5.1|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||5.1|-3.0|0.685
82592687|NCT00290186|164899795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.584|TWO_SIDED|95.0|-2.4|3.0|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.0|-2.4|0.584
82592688|NCT00290186|164899796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1||||0.498|TWO_SIDED|95.0|-1.5|3.7|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||3.7|-1.5|0.498
82592689|NCT00290186|164899797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.945|TWO_SIDED|95.0|-2.3|2.2|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.2|-2.3|0.945
82592690|NCT00290186|164899798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.932|TWO_SIDED|95.0|-2.1|2.4|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.4|-2.1|0.932
82592691|NCT00290186|164899799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3||||0.051|TWO_SIDED|95.0|-0.2|4.7|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||4.7|-0.2|0.051
82592692|NCT00290186|164899800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.648|TWO_SIDED|95.0|-4.0|2.8|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||2.8|-4.0|0.648
82592693|NCT00290186|164899801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.473|TWO_SIDED|95.0|-4.7|1.4|||ANCOVA|||Between-group difference: positive values represent greater improvement in HBO group.||1.4|-4.7|0.473
82592694|NCT00290186|164899802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|46.0||||0.157|TWO_SIDED|95.0|-22.0|114.0|||t-test, 2 sided|||Between-group difference: positive values represent greater improvement in HBO group.||114|-22|0.157
82592695|NCT00290186|164899803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0||||0.876|TWO_SIDED|95.0|-15.0|13.0|||t-test, 2 sided|||Between-group difference: positive values represent greater improvement in HBO group.||13|-15|0.876
82592696|NCT00290186|164899804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-79.0||||0.167|TWO_SIDED|95.0|-198.0|41.0|||t-test, 2 sided|||Between-group difference: negative values represent greater improvement in HBO group.||41|-198|0.167
82592697|NCT00290186|164899805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-38.0||||0.468|TWO_SIDED|95.0|-153.0|77.0|||t-test, 2 sided|||Between-group difference: negative values represent greater improvement in HBO group.||77|-153|0.468
82592698|NCT04391036|164899806|SUPERIORITY||||||>|0.99|||||||McNemar|||This was a paired analysis comparing successful insertion of the high and low Eudragit® Films. The McNemar's test statistic is based on the discordant pairs (number of participants with high successful, low unsuccessful versus low successful, high unsuccessful).||||>.99
82592699|NCT04391036|164899807|SUPERIORITY|||||||0.45||||||This was a paired analysis comparing difficulty of insertion of the high and low Eudragit® Films. The McNemar's test is based on discordant pairs (high was not difficult, low was difficult versus low was not difficult, high was difficult).|McNemar|||||||.45
82592700|NCT04391036|164899808|SUPERIORITY|||||||0.26|||||||Fisher Exact|This was an overall Fisher's exact test so the analysis applies to all categories.||||||.26
82654017|NCT04634409|165023196|SUPERIORITY||LSM Difference|-0.38||||0.17|TWO_SIDED|95.0|-0.93|0.17|||Mixed Models Analysis|||||0.17|-0.93|0.170
82654018|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|0.96||||0.89|TWO_SIDED|95.0|0.53|1.73|||Regression, Logistic|||||1.73|0.53|0.890
82654019|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|1.43||||0.141|TWO_SIDED|95.0|0.89|2.29|||Regression, Logistic|||||2.29|0.89|0.141
82654020|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|1.15||||0.603|TWO_SIDED|95.0|0.67|1.98|||Regression, Logistic|||||1.98|0.67|0.603
82654021|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|1.69||||0.048|TWO_SIDED|95.0|1.0|2.84|||Regression, Logistic|||||2.84|1.00|0.048
82654022|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|1.19||||0.533|TWO_SIDED|95.0|0.69|2.04|||Regression, Logistic|||||2.04|0.69|0.533
82592701|NCT03184077|164899809|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82592702|NCT03184077|164899810|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
82592703|NCT03184077|164899811|SUPERIORITY|||||||0.01||||||This is a calculated p value|Chi-squared|||||||0.01
82592704|NCT00262522|164899812|SUPERIORITY_OR_OTHER||||||>|0.1||95.0|||||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test stratified by dosing regimen was used to assess the null hypothesis of no difference between the tablet and soft gel capsule (SGC). Sample size was 600 subjects (150 each in the 4 groups). Based on a projected 48% reporting treatment-emergent diarrhea in the QD arm and 32% in the BID arm within the SGC group, with a 12% reduction in the corresponding tablet groups, this sample size provided 80% power to determine a difference between the tablet and SGC.||||>0.100
82592705|NCT00262522|164899813|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (QD minus BID, based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|percentage of subjects responding|1.3||||0.715||95.0|-5.1|7.8|||normal approx. to the binomial distr.|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 subjects (300 subjects in each of the QD and BID treatment regimens) provided over 90% power to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||7.8|-5.1|0.715
82592706|NCT00262522|164899814|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (QD minus BID, based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|percentage of subjects responding|-4.3||||0.249||95.0|-11.5|2.8|||normal approx. to the binomial distr.|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 subjects (300 subjects in each of the QD and BID treatment regimens) provided over 90% power to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||2.8|-11.5|0.249
82592707|NCT00262522|164899815|SUPERIORITY_OR_OTHER|||||||0.269||95.0|||||ANOVA|||||||0.269
82654023|NCT04634409|165023202|SUPERIORITY||Odds Ratio (OR)|1.09||||0.869|TWO_SIDED|95.0|0.4|2.99|||Regression, Logistic|||||2.99|0.40|0.869
82654024|NCT04634409|165023203|SUPERIORITY||Odds Ratio (OR)|1.31||||0.374|TWO_SIDED|95.0|0.72|2.35|||Regression, Logistic|||||2.35|0.72|0.374
82654025|NCT04634409|165023204|SUPERIORITY||Odds Ratio (OR)|1.87||||0.015|TWO_SIDED|95.0|1.13|3.08|||Regression, Logistic|||||3.08|1.13|0.015
82654026|NCT04634409|165023204|SUPERIORITY||Odds Ratio (OR)|1.29||||0.317|TWO_SIDED|95.0|0.78|2.11|||Regression, Logistic|||||2.11|0.78|0.317
82654027|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|1.62||||0.082|TWO_SIDED|95.0|0.94|2.81|||Regression, Logistic|||||2.81|0.94|0.082
82654028|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|1.86||||0.018|TWO_SIDED|95.0|1.11|3.11|||Regression, Logistic|||||3.11|1.11|0.018
82499949|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|||||TWO_SIDED|95.0|-41.1|31.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||31.1|-41.1|
82654029|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|1.71||||0.021|TWO_SIDED|95.0|1.09|2.71|||Regression, Logistic|||||2.71|1.09|0.021
82654030|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|1.93||||0.011|TWO_SIDED|95.0|1.16|3.22|||Regression, Logistic|||||3.22|1.16|0.011
82654031|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|2.17||||0.003|TWO_SIDED|95.0|1.3|3.6|||Regression, Logistic|||||3.60|1.30|0.003
82654032|NCT04634409|165023207|SUPERIORITY||Odds Ratio (OR)|1.34||||0.546|TWO_SIDED|95.0|0.52|3.48|||Regression, Logistic|||||3.48|0.52|0.546
82654033|NCT04634409|165023208|SUPERIORITY||Odds Ratio (OR)|1.04||||0.888|TWO_SIDED|95.0|0.6|1.82|||Regression, Logistic|||||1.82|0.60|0.888
82654034|NCT04634409|165023209|SUPERIORITY||Odds Ratio (OR)|1.88||||0.014|TWO_SIDED|95.0|1.13|3.13|||Regression, Logistic|||||3.13|1.13|0.014
82654035|NCT04634409|165023209|SUPERIORITY||Odds Ratio (OR)|1.63||||0.057|TWO_SIDED|95.0|0.98|2.71|||Regression, Logistic|||||2.71|0.98|0.057
82592708|NCT04714073|164899823|OTHER||Ratio of geometric means (%)|218.81|||||TWO_SIDED|90.0|194.06|246.72|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.1."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||246.72|194.06|
82592709|NCT04714073|164899824|OTHER||Ratio of geometric means (%)|156.29|||||TWO_SIDED|90.0|135.04|180.89|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 22.1."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||180.89|135.04|
82592710|NCT04714073|164899825|OTHER||Ratio of geometric means (%)|223.12|||||TWO_SIDED|90.0|198.61|250.66|||||"The estimated parameter was the adjusted geometric mean ratio (%): BI 706321 + Itraconazole (Test Treatment(T))/BI 706321 alone (Reference Treatment (R)).~Intra-individual geometric coefficient of variation (gCV) \[%\] = 17.5."|The statistical model used for the analysis of the primary PK endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. The PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subject' was considered as random, whereas 'treatment' was considered as fixed.||250.66|198.61|
82592711|NCT05470465|164899836|SUPERIORITY||Mean Difference (Final Values)|-6.5|||<|0.001|ONE_SIDED|97.5||-3.1||To demonstrate an effect of oxycodone with paroxetine compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.1||<0.001
82592712|NCT05470465|164899836|SUPERIORITY||Mean Difference (Final Values)|-5.5||||0.001|ONE_SIDED|97.5||-2.1||To demonstrate an effect of oxycodone with escitalopram compared to oxycodone alone, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and escitalopram compared to oxycodone and placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.1||0.001
82592713|NCT05470465|164899837|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.002|ONE_SIDED|97.5||-2.1||To demonstrate an effect of paroxetine compared to placebo, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.1||0.002
82592714|NCT05470465|164899837|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.003|ONE_SIDED|97.5||-2.5||To demonstrate an effect of escitalopram compared to placebo, it is necessary that the upper bound of the one-sided 97.5% confidence interval (CI) in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.5||0.003
82654036|NCT01497938|165023221|NON_INFERIORITY_OR_EQUIVALENCE|pre-specified non-inferiority margin of 0.4% was used for sample size calculation. sample size is based on two-sample t test with one-sided type 1 error of 2.5%. Assuming a same mean of change in A1C for the treatment arm and control arm and a common standard deviation of 1% for both treatment groups, it showed that a total of 200 subjects will provide over 80% power to detect the non-inferiority with a margin of 0.4%|Mean Difference (Final Values)|0.05|||||ONE_SIDED|97.5||0.15|||ANCOVA|||||0.15||
82654037|NCT01497938|165023222|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-588.0|||<|0.025||95.0|||||ANCOVA|||||||<0.025
82654038|NCT00365352|165023223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5||||0.0015||95.0|-5.6|-1.3|||ANCOVA||Mean difference was adjusted for Baseline value, treatment pooled sites, and treatment by pool site interaction.|||-1.3|-5.6|0.0015
82654039|NCT00365352|165023224|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.287||||0.0001||95.0|2.338|7.861|||Regression, Logistic|A logistic regression model was used with treatment and pooled center as explanatory factors.||||7.861|2.338|0.0001
82592715|NCT05470465|164899838|SUPERIORITY||Mean Difference (Final Values)|-7.1|||<|0.001|ONE_SIDED|97.5||-4.1||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and paroxetine compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 6 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-4.1||<0.001
82592716|NCT05470465|164899838|SUPERIORITY||Mean Difference (Final Values)|-5.6|||<|0.001|ONE_SIDED|97.5||-2.6||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and escitalopram compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and escitalopram compared to oxycodone and placebo at day 6 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.6||<0.001
82654040|NCT00097695|165023250|SUPERIORITY_OR_OTHER_LEGACY|||||||0.142||95.0|||||Wilcoxon version of the log-rank test|The Wilcoxon version of the log-rank test of SAS was used to calculate statistical significance between p- vs icatibant group and placebo group.||||||0.142
82654041|NCT00097695|165023251|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Wilcoxon version of the log-rank test|The median time to onset is calculated using Kaplan-Meier methodology. The Wilcoxon version of the log-rank test of SAS is used.||||||< 0.001
82654042|NCT00097695|165023252|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.079||95.0|||||Wilcoxon version of the log-rank test|The median time to almost complete symptom relief was calculated using Kaplan-Meier methodology.The Wilcoxon version of the log-rank test of SAS used.||||||= 0.079
82654043|NCT02683187|165023284|EQUIVALENCE|Insulin secretion, determined by insulin or C-peptide values in the 10 minutes after arginine infusion will be compared as a repeated measure for each subject in a 2 x 2 analysis of sitagliptin/placebo and Exendin-9/saline.|Median Difference (Final Values)|371.0|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.05
82654044|NCT00770315|165023285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.76||||0.2192|TWO_SIDED|95.0|-1.98|0.45|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.45|-1.98|0.2192
82654045|NCT00770315|165023285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.58||||0.0113|TWO_SIDED|95.0|-2.8|-0.36|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.36|-2.80|0.0113
82654046|NCT00770315|165023285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.04||||0.0015|TWO_SIDED|95.0|-3.3|-0.79|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.79|-3.30|0.0015
82592717|NCT05470465|164899839|SUPERIORITY||Mean Difference (Final Values)|-10.1|||<|0.001|ONE_SIDED|97.5||-5.9||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and paroxetine compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 12 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-5.9||<0.001
82654047|NCT00770315|165023286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.88||||0.0878|TWO_SIDED|95.0|-1.88|0.13|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.13|-1.88|0.0878
82654048|NCT00770315|165023286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0125|TWO_SIDED|95.0|-2.29|-0.28|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.28|-2.29|0.0125
82654049|NCT00770315|165023286|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.92||||0.0003|TWO_SIDED|95.0|-2.95|-0.88|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.88|-2.95|0.0003
82654050|NCT00770315|165023287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.4781|TWO_SIDED|95.0|-0.96|0.45|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.45|-0.96|0.4781
82654051|NCT00770315|165023287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.1695|TWO_SIDED|95.0|-1.21|0.21|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.21|-1.21|0.1695
82654052|NCT00770315|165023287|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.94||||0.0118|TWO_SIDED|95.0|-1.67|-0.21|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.21|-1.67|0.0118
82654053|NCT00770315|165023288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.2622|TWO_SIDED|95.0|-0.93|0.25|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.25|-0.93|0.2622
82654054|NCT00770315|165023288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.1914|TWO_SIDED|95.0|-0.99|0.2|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.20|-0.99|0.1914
82654055|NCT00770315|165023288|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96||||0.0021|TWO_SIDED|95.0|-1.57|-0.35|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.35|-1.57|0.0021
82654056|NCT00770315|165023289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.19|TWO_SIDED|95.0|-1.26|0.25|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||0.25|-1.26|0.1900
82654057|NCT00770315|165023289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.08||||0.0053|TWO_SIDED|95.0|-1.84|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.84|0.0053
82654058|NCT00770315|165023289|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.0058|TWO_SIDED|95.0|-1.89|-0.32|||ANOVA||ANOVA model with baseline asthmatic condition, pollen region and treatment group as fixed effects|||-0.32|-1.89|0.0058
82654059|NCT04256421|165023292|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.3504|TWO_SIDED|95.0|0.89|1.38|||Log Rank|||Stratification factors were LDH (\> upper limit of normal \[ULN\] vs. \</= ULN) and Eastern Cooperative Oncology Group (ECOG; 0 vs. 1).||1.38|0.89|0.3504
82592718|NCT05470465|164899839|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.003|ONE_SIDED|97.5||-2.7||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of oxycodone and escitalopram compared to oxycodone, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of oxycodone and paroxetine compared to oxycodone and placebo at day 12 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-2.7||0.003
82592719|NCT05470465|164899840|SUPERIORITY||Mean Difference (Final Values)|-11.6|||<|0.001|ONE_SIDED|97.5||-6.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo at day 5 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-6.5||<0.001
82592720|NCT05470465|164899840|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.001|ONE_SIDED|97.5||-9.0||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of escitalopram compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo at day 5 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-9.0||<0.001
82592721|NCT05470465|164899841|SUPERIORITY||Mean Difference (Final Values)|-14.1|||<|0.001|ONE_SIDED|97.5||-8.5||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of paroxetine compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of paroxetine compared to placebo at day 11 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-8.5||<0.001
82654060|NCT04256421|165023293|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.2859|TWO_SIDED|95.0|0.9|1.44|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.44|0.90|0.2859
82654061|NCT04256421|165023294|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.444|TWO_SIDED|95.0|0.89|1.31|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.31|0.89|0.4440
82654062|NCT04256421|165023295|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.4205|TWO_SIDED|95.0|0.88|1.35|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.35|0.88|0.4205
82654063|NCT04256421|165023296|SUPERIORITY||Difference in Overall Response Rates|6.8||||0.1418|TWO_SIDED|95.0|-2.57|15.99|||Cochran-Mantel-Haenszel|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||15.99|-2.57|0.1418
82654064|NCT04256421|165023297|SUPERIORITY||Difference in Overall Response Rates|5.19||||0.2191|TWO_SIDED|95.0|-3.33|13.61|||Cochran-Mantel-Haenszel|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||13.61|-3.33|0.2191
82491433|NCT01681472|164676439|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491434|NCT01681472|164676439|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
82654065|NCT04256421|165023302|SUPERIORITY||Difference in Event Free Rate|-3.74||||0.458|TWO_SIDED|95.0|-13.6|6.13|||Z-test|||Month 12||6.13|-13.60|0.4580
82654066|NCT04256421|165023302|SUPERIORITY||Difference in Event Free Rate|-8.12||||0.0999|TWO_SIDED|95.0|-17.8|1.55|||Z-test|||Month 24||1.55|-17.80|0.0999
82654067|NCT04256421|165023303|SUPERIORITY||Difference in Event Free Rate|-3.02||||0.5059|TWO_SIDED|95.0|-11.92|5.88|||Z-test|||Month 12||5.88|-11.92|0.5059
82654068|NCT04256421|165023303|SUPERIORITY||Difference in Event Free Rate|-5.29||||0.2458|TWO_SIDED|95.0|-14.23|3.65|||Z-test|||Month 24||3.65|-14.23|0.2458
82592722|NCT05470465|164899841|SUPERIORITY||Mean Difference (Final Values)|-9.5|||<|0.001|ONE_SIDED|97.5||-3.8||Secondary analyses are not adjusted for multiplicity. To demonstrate an effect of escitalopram compared to placebo, the upper bound of the one-sided 97.5% CI in the least-square mean VE55 difference between treatments \< 0 L/min.|Mixed Models Analysis|The Kenward-Roger approximation will be used to estimate denominator degrees of freedom for tests of fixed effects.|Comparison was the effect of escitalopram compared to placebo at day 11 at 5 hours.|Sample size and power were calculated based on 2 primary outcomes (day 20 and day 21) with adjustment for multiplicity (α=.025). The assessments with paroxetine or escitalopram were considered as separate experiments. A sample size of 20 participants was determined to have 90 percent power at a 1-sided significance level to detect a 4 L/min decrease in the primary end point (ventilation at 55 mmHg end-tidal carbon dioxide) assuming a standard deviation of 5 L/min.||-3.8||<0.001
82592723|NCT04360551|164899848|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
82592724|NCT04360551|164899849|SUPERIORITY||||||>|0.5|||||||Kruskal-Wallis|||||||>0.5
82592725|NCT00309465|164899986|SUPERIORITY_OR_OTHER|||||||0.332||95.0||||P-value for three dosing strategies in insulin glargine only group in fasting blood glucose achievement of 100-179 mg/dl range.|Chi-squared|||Comparison for Target Blood Glucose Achievement of 100-179 mg/dl||||0.332
82592726|NCT00309465|164899986|SUPERIORITY_OR_OTHER|||||||0.294||95.0||||P value is for three strategies in insulin glargine plus bolus group for fasting blood glucose achievement of 100-179 mg/dl|Chi-squared|||Comparison for Target Achievement of blood glucose values of 100-179 mg/dl||||0.294
82592727|NCT00309465|164899986|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||P value is for three strategies in insulin glargine only group for achievement of 80-249 mg/dl|Chi-squared|||Comparison of Achievement of blood glucose values of 80-249 mg/dl||||0.162
82592728|NCT00309465|164899986|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P value is for three strategies in insulin glargine plus bolus group in achievement of fasting blood glucose value of 80-249 mg/dl.|Chi-squared|||Comparison of Achievement of blood glucose values of 80-249 mg/dl.||||0.031
82592729|NCT02577406|164899998|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.2288|TWO_SIDED|95.0|0.67|1.1|||Stratified Log Rank||The hazard ratio was from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory|||1.10|0.67|0.2288
82592730|NCT02577406|164899999|SUPERIORITY||Odds Ratio (OR)|6.08|||<|0.0001|TWO_SIDED|95.0|3.32|11.14||p-value from a Cochran-Mantel-Haenszel test comparing the response rates between the AG-221 group and the combined CCR group with stratification factors of prior intensive therapy for AML and primary refractory status|Cochran-Mantel-Haenszel||Odds ratio from logistic regression|||11.14|3.32|<0.0001
82592731|NCT02577406|164900000|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.02|TWO_SIDED|95.0|0.55|0.95|||Stratified Log Rank||The hazard ratio is from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory status.|||0.95|0.55|0.0200
82592732|NCT02577406|164900006|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82592733|NCT02577406|164900007|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82592734|NCT02577406|164900008|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82592735|NCT02577406|164900010|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.67|||Stratified Log Rank||The hazard ratio was from a Cox proportional hazards model stratified by prior intensive therapy for AML and primary refractory status|||0.67|0.41|<0.0001
82592736|NCT01111851|164900023|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS Means|1.0|||||TWO_SIDED|90.0|0.99|1.01|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.01|0.99|
82491435|NCT01681472|164676439|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82592737|NCT01111851|164900024|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|1.0|||||TWO_SIDED|90.0|0.98|1.02|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.02|0.98|
82592738|NCT01111851|164900025|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|1.0|||||TWO_SIDED|90.0|0.97|1.03|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.03|0.97|
82592739|NCT01111851|164900026|SUPERIORITY_OR_OTHER||Geometric Mean Ratio of the LS means|0.91|||||TWO_SIDED|90.0|0.5|1.66|||||"The point estimate and 90% confidence interval (CI) were generated for the geometric mean ratio (GMR) \[aprepitant~165 mg/fosaprepitant 150 mg\]."|||1.66|0.50|
82592740|NCT03159091|164900060|SUPERIORITY|||||||0.0422|||||||G-test (Chi-square)|||||||0.0422
82592741|NCT03159091|164900061|SUPERIORITY|||||||0.1101|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between initial and 4 weeks total scores row.||||0.1101
82592742|NCT03159091|164900062|SUPERIORITY|||||||0.1373|||||||G-test (Chi-square)|||||||0.1373
82592743|NCT03159091|164900063|SUPERIORITY|||||||0.087|||||||Wilcoxon (Mann-Whitney)|||||||0.0870
82592744|NCT03159091|164900064|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.0
82592745|NCT02044133|164900067|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82592746|NCT04085523|164900068|SUPERIORITY||||||=|0.6004|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.6004
82592747|NCT04085523|164900068|SUPERIORITY||||||=|0.7022|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.7022
82592748|NCT04085523|164900068|SUPERIORITY||||||=|0.0849|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.0849
82592749|NCT04085523|164900068|SUPERIORITY||||||=|0.0218|||||||ANCOVA|||ANCOVA model using treatment (dose groups and pooled placebo) and sex as fixed effects, and baseline age and baseline height SDS as the covariates.||||= 0.0218
82592750|NCT04272892|164900069|SUPERIORITY||Mean Difference (Final Values)|3.35|||<|0.021|TWO_SIDED|||||p values are calculated for original data (complete case) and each of the 5 imputed datasets. The p value range was 0.002 - 0.020. This is not multiple statistical analyses- it is just one with multiple imputations.|ANCOVA|Degrees of freedom for original data (complete case): 1,64. Degrees of freedom for imputed datasets: 1,80||||||<0.021
82592751|NCT04272892|164900070|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.059|TWO_SIDED|95.0|-0.106|5.822|||ANCOVA|ANCOVA of score at 8 week follow up with baseline score as covariate, effect of group||||5.822|-.106|0.059
82592752|NCT04272892|164900071|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.596|TWO_SIDED|95.0|-3.5|6.0|||ANCOVA|ANCOVA of sleep fragmentation at post-intervention with baseline as covariate, effect of group||||6.0|-3.5|0.596
82592753|NCT04272892|164900072|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.031|TWO_SIDED|95.0|0.431|8.612|||ANCOVA|ANCOVA of sleep fragmentation at 8 week follow up with baseline as covariate, effect of group||||8.612|.431|0.031
82592754|NCT04272892|164900073|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.885|TWO_SIDED|95.0|-7.8|9.1|||ANCOVA|ANCOVA of wake after sleep onset post-intervention with baseline as covariate, effect of group||||9.1|-7.8|0.885
82592755|NCT04272892|164900074|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.077|TWO_SIDED|95.0|-1.0|17.0|||ANCOVA|ANCOVA of wake after sleep onset at 8 week follow up with baseline as covariate, effect of group||||17|-1|0.077
82592756|NCT04272892|164900075|SUPERIORITY||Mean Difference (Final Values)|10.0||||0.014|TWO_SIDED|95.0|2.0|18.0|||ANCOVA|ANCOVA of sleep onset latency (median of 7 nights) at end of intervention with baseline as covariate, effect of group||||18|2|0.014
82592757|NCT04272892|164900076|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.03|TWO_SIDED|95.0|0.18|3.5|||ANCOVA|ANCOVA of PHQ9 score post-intervention with baseline as covariate, effect of group||||3.5|.18|0.03
82592758|NCT04272892|164900077|SUPERIORITY||Mean Difference (Final Values)|2.29||||0.036|TWO_SIDED|95.0|0.149|4.44|||ANCOVA|ANCOVA of PHQ9 score at 8 week follow up with baseline as covariate, effect of group||||4.44|.149|0.036
82592759|NCT04272892|164900078|SUPERIORITY||Mean Difference (Final Values)|1.61||||0.054|TWO_SIDED|95.0|-0.03|3.25|||ANCOVA|ANCOVA of GAD7 post-intervention, with baseline as covariate, effect of group||||3.25|-0.03|0.054
82592760|NCT04272892|164900079|SUPERIORITY||Mean Difference (Final Values)|1.09||||0.229|TWO_SIDED|95.0|-0.7|2.87|||ANCOVA|ANCOVA of GAD7 at 8 week follow up, with baseline as covariate, effect of group||||2.87|-.70|0.229
82592761|NCT04272892|164900080|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.502|TWO_SIDED|95.0|-5.51|2.73|||ANCOVA|ANCOVA of SIS index at post-intervention, with baseline as covariate, effect of group||||2.73|-5.51|0.502
82592762|NCT04272892|164900081|SUPERIORITY||Mean Difference (Final Values)|0.183||||0.924|TWO_SIDED|95.0|-3.63|4.0|||ANCOVA|ANCOVA of SIS index at 8 week follow up, with baseline as covariate, effect of group||||4.0|-3.63|0.924
82592763|NCT05318937|164900088|SUPERIORITY||Difference in LS Means|0.0|STANDARD_ERROR_OF_MEAN|2.07||0.9934|TWO_SIDED|95.0|-4.13|4.09||The p-value was obtained using a MMRM model which included treatment, visit, treatment-by-visit interaction as categorical covariates, and WAIS-IV at baseline as continuous covariates.|MMRM||Difference was calculated as SAGE-718 - placebo.|||4.09|-4.13|0.9934
82592764|NCT04722042|164900092|SUPERIORITY|||||||0.557|||||||ANOVA|||comparison of word recognition over time (activation, and 1, 3, 6, and 12 months post-activation) between groups (default versus place-based)||||0.557
82592765|NCT04722042|164900093|SUPERIORITY|||||||0.208|||||||ANOVA|||comparison of spatial release from masking over time (1, 3, 6, and 12 months post-activation) between the groups (default versus place-based)||||0.208
82592766|NCT04722042|164900094|SUPERIORITY|||||||0.126|||||||ANOVA|||comparison of spatial release from masking between the groups over time||||0.126
82654069|NCT04256421|165023304|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9819|TWO_SIDED|95.0|0.68|1.48|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.48|0.68|0.9819
82654070|NCT04256421|165023305|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.5122|TWO_SIDED|95.0|0.81|1.55|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.55|0.81|0.5122
82592767|NCT04722042|164900095|SUPERIORITY|||||||0.369|||||||ANOVA|||comparison of perceived benefit between the groups over time||||0.369
82592768|NCT04722042|164900096|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||0.006
82592769|NCT04722042|164900097|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82592770|NCT04722042|164900098|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82592771|NCT01877915|164900099|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.27|TWO_SIDED|95.0|0.84|1.05|||Log Rank|||Statistical Analysis 1||1.05|0.84|0.270
82592772|NCT01877915|164900105|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.951|TWO_SIDED|95.0|0.41|2.59|||Log Rank|||Statistical Analysis 1 (Fatal Bleeding)||2.59|0.41|0.951
82592773|NCT01877915|164900105|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.253|TWO_SIDED|95.0|0.33|1.34|||Log Rank|||Statistical Analysis 2 (Bleeding in Critical Space with Potential for Permanent Disability)||1.34|0.33|0.253
82592774|NCT04490018|164900108|NON_INFERIORITY|The two-sided 95 percent (%) confidence interval (CI) was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater than (\>) -10%.|Difference in Percentage|4.98|||||TWO_SIDED|95.0|0.06|10.36||||||Serogroup A||10.36|0.06|
82592775|NCT04490018|164900108|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|4.97|||||TWO_SIDED|95.0|1.58|9.5||||||Serogroup C||9.50|1.58|
82592776|NCT04490018|164900108|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|1.24|||||TWO_SIDED|95.0|-1.28|4.42||||||Serogroup W||4.42|-1.28|
82592777|NCT04490018|164900108|NON_INFERIORITY|The two-sided 95% CI was calculated based on the Wilson score method without continuity correction. The non-inferiority was demonstrated if the lower limit of the 95% CI of the percentage difference between compared groups was greater \> -10%.|Difference in Percentage|1.24|||||TWO_SIDED|95.0|-1.88|4.77||||||Serogroup Y||4.77|-1.88|
82654071|NCT04256421|165023306|SUPERIORITY||Hazard Ratio (HR)|1.2||||0.3614|TWO_SIDED|95.0|0.81|1.79|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.79|0.81|0.3614
82654072|NCT04256421|165023307|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.1681|TWO_SIDED|95.0|0.9|1.84|||Log Rank|||Stratification factors were LDH (\> ULN vs. \</= ULN) and ECOG (0 vs. 1).||1.84|0.90|0.1681
82592778|NCT00943579|164900139|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||Chi-square analyses were used to assess CGI-I scores. there were no transformations.||||>.05
82592779|NCT00418665|164900156|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6||||||95.0|0.07|5.136|||||Romiplostim/placebo|||5.136|0.070|
82592780|NCT00418665|164900156|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.154||||||95.0|0.022|1.071|||||Romiplostim/placebo|||1.071|0.022|
82592781|NCT00418665|164900157|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.154||||||95.0|0.022|1.071|||||Romiplostim/placebo|||1.071|0.022|
82592782|NCT00418665|164900157|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.514||||||95.0|0.102|2.589|||||Romiplostim/placebo|||2.589|0.102|
82592783|NCT00418665|164900158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0||||||95.0|0.227|39.608|||||Romiplostim/placebo|||39.608|0.227|
82592784|NCT00418665|164900158|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.714||||||95.0|0.144|20.473|||||Romiplostim/placebo|||20.473|0.144|
82592785|NCT00418665|164900159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.911||||||95.0|0.097|8.529|||||Romiplostim/placebo|||8.529|0.097|
82592786|NCT00418665|164900159|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.866||||||95.0|0.175|4.278|||||Romiplostim/placebo|||4.278|0.175|
82592787|NCT01133379|164900160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|4.75||0.811|TWO_SIDED|95.0|-10.5|8.24||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 6 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 4. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.24|-10.5|0.811
82592788|NCT01133379|164900160|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|STANDARD_ERROR_OF_MEAN|4.75||0.105|TWO_SIDED|95.0|-17.1|1.63||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 6 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 4. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.63|-17.1|0.105
82592789|NCT01133379|164900161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|3.969||0.779|TWO_SIDED|95.0|-6.72|8.95||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 4 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 2. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.95|-6.72|0.779
82592790|NCT01133379|164900161|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.92|STANDARD_ERROR_OF_MEAN|3.969||0.217|TWO_SIDED|95.0|-12.8|2.92||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 4 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 2. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.92|-12.8|0.217
82592791|NCT01133379|164900162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|2.613||0.904|TWO_SIDED|95.0|-4.84|5.47||Per statistical analysis plan, if experimental rinse (12027-019) was better than vehicle control at Week 2 (p\<0.05), testing for 12027-019 versus vehicle control proceeded to Week 1. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.47|-4.84|0.904
82592792|NCT01133379|164900162|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.99|STANDARD_ERROR_OF_MEAN|2.613||0.129|TWO_SIDED|95.0|-9.15|1.17||Per statistical analysis plan, if experimental rinse (12027-020) was better than vehicle control at Week 2 (p\<0.05), testing for 12027-020 versus vehicle control proceeded to Week 1. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.17|-9.15|0.129
82592793|NCT01133379|164900163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|1.336||0.477|TWO_SIDED|95.0|-3.59|1.69||The significance threshold was 0.05. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.69|-3.59|0.477
82592794|NCT01133379|164900163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|1.336||0.472|TWO_SIDED|95.0|-3.6|1.67||The significance threshold was 0.05. Family-wise error rate was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.67|-3.60|0.472
82592795|NCT01133379|164900164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|2.726||0.86|TWO_SIDED|95.0|-5.86|4.9||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.90|-5.86|0.860
82592796|NCT01133379|164900164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|2.723||0.763|TWO_SIDED|95.0|-6.2|4.55||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.55|-6.20|0.763
82592797|NCT01133379|164900165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.98|STANDARD_ERROR_OF_MEAN|2.856||0.488|TWO_SIDED|95.0|-7.62|3.66||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||3.66|-7.62|0.488
82592798|NCT01133379|164900165|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|2.854||0.311|TWO_SIDED|95.0|-8.54|2.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups||2.73|-8.54|0.311
82592799|NCT01133379|164900166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|3.478||0.604|TWO_SIDED|95.0|-8.68|5.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.06|-8.68|0.604
82592800|NCT01133379|164900166|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91|STANDARD_ERROR_OF_MEAN|3.477||0.583|TWO_SIDED|95.0|-4.95|8.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.78|-4.95|0.583
82592801|NCT01133379|164900167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|3.61||0.847|TWO_SIDED|95.0|-7.83|6.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.43|-7.83|0.847
82592802|NCT01133379|164900167|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.36|STANDARD_ERROR_OF_MEAN|3.61||0.708|TWO_SIDED|95.0|-5.77|8.48||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.48|-5.77|0.708
82592803|NCT01133379|164900168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.46|STANDARD_ERROR_OF_MEAN|2.678||0.36|TWO_SIDED|95.0|-7.75|2.83||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.83|-7.75|0.360
82592804|NCT01133379|164900168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.88|STANDARD_ERROR_OF_MEAN|2.679||0.149|TWO_SIDED|95.0|-9.17|1.41||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.41|-9.17|0.149
82592805|NCT01133379|164900169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.61|STANDARD_ERROR_OF_MEAN|3.235||0.421|TWO_SIDED|95.0|-9.0|3.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||3.78|-9.00|0.421
82592806|NCT01133379|164900169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.66|STANDARD_ERROR_OF_MEAN|3.235||0.26|TWO_SIDED|95.0|-10.0|2.73||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.73|-10.0|0.260
82592807|NCT01133379|164900170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|3.601||0.989|TWO_SIDED|95.0|-7.16|7.06||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||7.06|-7.16|0.989
82592808|NCT01133379|164900170|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29|STANDARD_ERROR_OF_MEAN|3.599||0.721|TWO_SIDED|95.0|-8.39|5.82||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.82|-8.39|0.721
82491436|NCT01681472|164676440|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
82592809|NCT01133379|164900171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.21|STANDARD_ERROR_OF_MEAN|3.69||0.743|TWO_SIDED|95.0|-8.5|6.07||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.07|-8.50|0.743
82592810|NCT01133379|164900171|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|3.688||0.928|TWO_SIDED|95.0|-7.61|6.95||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean cold air VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||6.95|-7.61|0.928
82592811|NCT01133379|164900172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.97|STANDARD_ERROR_OF_MEAN|2.369||0.683|TWO_SIDED|95.0|-3.71|5.65||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.65|-3.71|0.683
82592812|NCT01133379|164900172|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|2.371||0.914|TWO_SIDED|95.0|-4.94|4.42||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.42|-4.94|0.914
82592813|NCT01133379|164900173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.19|STANDARD_ERROR_OF_MEAN|2.994||0.04|TWO_SIDED|95.0|-12.1|-0.27||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.27|-12.1|0.040
82592814|NCT01133379|164900173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|2.997||0.043|TWO_SIDED|95.0|-12.0|-0.18||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.18|-12.0|0.043
82592815|NCT01133379|164900174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.32|STANDARD_ERROR_OF_MEAN|3.522||0.511|TWO_SIDED|95.0|-9.27|4.64||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||4.64|-9.27|0.511
82592816|NCT01133379|164900174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.07|STANDARD_ERROR_OF_MEAN|3.526||0.25|TWO_SIDED|95.0|-11.0|2.89||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.89|-11.0|0.250
82592817|NCT01133379|164900175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.41|STANDARD_ERROR_OF_MEAN|3.684||0.233|TWO_SIDED|95.0|-11.7|2.86||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.86|-11.7|0.233
82592818|NCT01133379|164900175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.84|STANDARD_ERROR_OF_MEAN|3.687||0.115|TWO_SIDED|95.0|-13.1|1.44||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline global subjective VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.44|-13.1|0.115
82592819|NCT00841204|164900189|OTHER|||||||0.0056|||||||Wilcoxon (Mann-Whitney)|||||||0.0056
82592820|NCT00841204|164900190|OTHER|||||||0.386|||||||Wilcoxon (Mann-Whitney)|||||||0.386
82592821|NCT00841204|164900191|OTHER||||||<|0.05|||||||Regression, Linear|||||||<0.05
82592822|NCT00841204|164900192|OTHER|||||||0.58|||||||Regression, Linear|||||||0.58
82592823|NCT00841204|164900193|OTHER|||||||0.12|||||||Regression, Linear|||||||0.12
82592824|NCT00282295|164900212|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of -10%.|Difference|2.18|||||TWO_SIDED|95.0|0.79|4.17||||||The non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to the percentage of subjects with anti-diphtheria toxoid (anti-D) antibody concentrations equal to or greater than (≥) 1.0 IU/mL one month after vaccination.||4.17|0.79|
82654080|NCT01521559|165023355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.6||||0.0003|TWO_SIDED|95.0|13.0|40.1||P-value was calculated using 2-sided Cochran-Mantel-Haenszel test adjusted by regions (Japan vs North America) and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200).|Cochran-Mantel-Haenszel||Difference was IAI group minus laser group; Difference and confidence interval were calculated using Mantel-Haenszel weighting scheme adjusted by regions (Japan vs North America) and baseline BCVA (BCVA ≤20/200 and BCVA \>20/200).|||40.1|13.0|0.0003
82592825|NCT00282295|164900212|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of -10%.|Difference|0.02|||||TWO_SIDED|95.0|-1.4|1.48||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared toBoostrix® vaccine administered alone at Month 0 with respect to the percentage of subjects with anti-tetanus toxoid (anti-T) antibody concentrations equal to or greater than (≥) 1.0 IU/mL one month after vaccination.||1.48|-1.4|
82592826|NCT00282295|164900213|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than (\>) the pre-defined limit of 0.67|Adjusted GMC ratio|0.93|||||TWO_SIDED|95.0|0.84|1.03||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-pertussis toxoid (anti-PT) geometric mean antibody concentrations (GMCs) one month after vaccination.||1.03|0.84|
82592827|NCT00282295|164900213|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of 0.67|Adjusted GMC ratio|0.76|||||TWO_SIDED|95.0|0.69|0.84||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-filamentous hemagglutinin (anti-FHA) GMCs one month after vaccination.||0.84|0.69|
82592828|NCT00282295|164900213|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of 0.67|Adjusted GMC ratio|0.63|||||TWO_SIDED|95.0|0.54|0.72||||||To demonstrate the non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to anti-pertactin (anti-PRN) GMCs one month after vaccination.||0.72|0.54|
82592829|NCT00282295|164900214|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-4.38|||||TWO_SIDED|95.0|-9.91|1.15||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to PT one month after vaccination.||1.15|-9.91|
82592830|NCT00282295|164900214|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-3.39|||||TWO_SIDED|95.0|-7.03|0.15||||||Non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to FHA one month after vaccination.||0.15|-7.03|
82592831|NCT00282295|164900214|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was \> the pre-defined limit of -10%.|Difference in booster response rate|-1.96|||||TWO_SIDED|95.0|-5.25|-1.25||||||To demonstrate the non-inferiority of Boostrix® vaccine co-administered with Menactra™ vaccine compared to Boostrix® vaccine administered alone at Month 0 with respect to a booster response to PRN one month after vaccination.||-1.25|-5.25|
82592832|NCT00282295|164900215|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|-0.21|||||TWO_SIDED|95.0|-4.85|4.43||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccinecompared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine responseto meningococcal serogroup A one month after vaccination.||4.43|-4.85|
82592833|NCT00282295|164900215|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|1.69|||||TWO_SIDED|95.0|-1.69|5.16||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine responseto meningococcal serogroup C one month after vaccination.||5.16|-1.69|
82592834|NCT00282295|164900215|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|1.82||||||95.0|-2.58|6.25||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine response to meningococcal serogroup Y one month after vaccination.||6.25|-2.58|
82592835|NCT00282295|164900215|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority objective was demonstrated if the lower limit was greater than the pre-defined limit of -10%.|Difference in vaccine response rate|3.56|||||TWO_SIDED|95.0|0.96|6.45||||||Non-inferiority of Menactra™ vaccine co-administered with Boostrix® vaccine compared to Menactra™ vaccine administered alone at Month 0 with respect to a vaccine response to meningococcal serogroup W-135 one month after vaccination||6.45|0.96|
82592836|NCT01401842|164900231|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on lumbar extension muscular strength (Nm) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.001
82654081|NCT01521559|165023356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.5|||<|0.0001|TWO_SIDED|95.0|7.1|14.0|||ANCOVA|||Difference was IAI group minus laser group. P-value, Point estimate and 95% confidence interval (CI) were based on an analysis of covariance (ANCOVA) model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||14.0|7.1|<0.0001
82654082|NCT01521559|165023357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-148.6|||<|0.0001|TWO_SIDED|95.0|-179.8|-117.4|||ANCOVA|||Difference was IAI group minus laser group; P-value, Point estimate, and 95% CI, were based on an ANCOVA model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||-117.4|-179.8|<0.0001
82592837|NCT01401842|164900232|SUPERIORITY_OR_OTHER|||||||0.871|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on core muscular endurance (seconds) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.871
82592838|NCT01401842|164900233|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Mixed Models Analysis|||For the primary hypothesis, differences at follow-up between the two groups on core muscular endurance (seconds) were analyzed using linear mixed-effects regression models, accounting for the effects of cluster (platoon) and adjusting for baseline measures. The linear mixed-effects model treats the data as two levels (level 1 for individuals, level 2 for clusters), while also taking into account between-cluster variation.||||0.021
82592839|NCT00736255|164900291|SUPERIORITY_OR_OTHER|||||||0.54|||||||Chi-squared|||"Null Hypothesis:LDX and NRT will not facilitate smoking cessation compared to NRT and placebo.~Alternate Hypothesis: LDX and NRT will facilitate smoking cessation compared to NRT and placebo.~This is a one tailed, proof of concept study so there is no formal power analysis, however if we see a signal for treatment effect, we would like to do further investigation by conducting a separate trial."||||0.54
82592840|NCT00307151|164900313|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.6||||0.015|TWO_SIDED|95.0|3.7|33.6||P-value not adjusted for multiple interim analyses, but adjustment would be negligible because Peto-Haybittle spending function used as basis for calculating repeated confidence intervals used in interim monitoring.|t-test, 2 sided|Risk difference estimate stratified by age (\<12 months vs. \>=12 months)and reports rate on NVP arm minus rate on LPV/r arm|Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and age stratum. Differences in week 24 failure proportions by treatment calculated weighted by the inverse of the variance in each age stratum.|||33.6|3.7|0.015
82592841|NCT00307151|164900313|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.5|||<|0.001|TWO_SIDED|95.0|11.2|31.8||P-value not adjusted for multiple interim analyses, but adjustment would be negligible because Peto-Haybittle spending function used as basis for calculating repeated confidence intervals used in interim monitoring.|t-test, 2 sided|Risk difference estimate stratified by age (\<12 months vs. \>=12 months) and reports rate on NVP arm minus rate on LPV/r arm|Endpoint rates with standard errors calculated from Kaplan-Meier curves for each treatment group and age stratum. Differences in week 24 failure proportions by treatment calculated weighted by the inverse of the variance in each age stratum.|||31.8|11.2|<0.001
82592842|NCT01360554|164900343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.933||||0.195|TWO_SIDED|95.0|0.797|1.093||One-sided P-value.|1-sided stratified log-rank test|Stratified by epidermal growth factor receptor (EGFR) status, Kirsten Rat Sarcoma status (KRAS), baseline Eastern Cooperative Oncology Group (ECOG).|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS, baseline ECOG as stratification factors.|||1.093|0.797|0.195
82592843|NCT01360554|164900344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.037||||0.643|TWO_SIDED|95.0|0.848|1.268||One-sided P-value|1-sided stratified log-rank test|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.268|0.848|0.643
82592844|NCT01360554|164900345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.899||||0.069|TWO_SIDED|95.0|0.78|1.035||Stratified by EGFR status, KRAS status, and baseline ECOG.|1-sided stratified log-rank test|One-sided P-value|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS status, and baseline ECOG as stratification factors.|||1.035|0.780|0.069
82592845|NCT01360554|164900346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.057||||0.728|TWO_SIDED|95.0|0.881|1.267||One-sided P-value.|1-sided stratified log-rank test|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.267|0.881|0.728
82592846|NCT01360554|164900347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.026||||0.638|TWO_SIDED|95.0|0.887|1.188||One-sided P-value.|1-sided stratified log-rank test.|Stratified by EGFR status, KRAS status, and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status, KRAS status, and baseline ECOG as stratification factors.|||1.188|0.887|0.638
82592847|NCT01360554|164900348|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.078||||0.775|TWO_SIDED|95.0|0.886|1.312||One-sided P-value.|1-sided stratified log-rank test.|Stratified by EGFR status and baseline ECOG.|The HR (Dacomitinib arm versus erlotinib arm) and 95% CI were estimated from stratified Cox regression with EGFR status and baseline ECOG as stratification factors.|||1.312|0.886|0.775
82592848|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.9357||||||95.0|-4.278|0.407|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Global QoL. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||0.407|-4.278|
82592849|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.8067||||||95.0|-1.312|2.926|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 cognitive functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.926|-1.312|
82654083|NCT01521559|165023358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.6||||0.0833|TWO_SIDED|95.0|-0.3|5.5|||ANCOVA|||Difference was IAI group minus laser group; P-value, Point estimate, and 95% CI, were based on an ANCOVA model with baseline measurement as covariate and treatment group, region, and baseline Best Corrected Visual Acuity (BCVA ≤20/200 and BCVA \>20/200) as fixed factors.||5.5|-0.3|0.0833
82592850|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|0.73||||||95.0|-1.575|3.035|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 emotional functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.035|-1.575|
82592851|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.5289||||||95.0|-0.756|3.814|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 physical functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.814|-0.756|
82592852|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.2219||||||95.0|-1.975|4.419|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 role functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.419|-1.975|
82592853|NCT01360554|164900356|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.497||||||95.0|-4.575|1.581|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 social functioning. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.581|-4.575|
82592854|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|1.2851|||||TWO_SIDED|95.0|-2.416|4.986|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Appetite loss. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.986|-2.416|
82592855|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-5.923|||||TWO_SIDED|95.0|-8.432|-3.414|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Constipation. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-3.414|-8.432|
82592856|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|20.2564|||||TWO_SIDED|95.0|16.874|23.639|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Diarrhea. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||23.639|16.874|
82592857|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.5499|||||TWO_SIDED|95.0|-7.719|-1.381|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Dysponea. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.381|-7.719|
82592858|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.6584|||||TWO_SIDED|95.0|-4.442|1.125|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Fatigue. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.125|-4.442|
82592859|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.1469||||||95.0|-3.056|2.762|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Financial Difficulties. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.762|-3.056|
82592860|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.8711|||||TWO_SIDED|95.0|-7.998|-1.745|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Insomnia. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.745|-7.998|
82654084|NCT00395226|165023382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.57||||0.284|TWO_SIDED|95.0|-0.47|1.62||The a priori significance threshold level was 0.05 (two-sided)|ANCOVA|The ANCOVA used group as a factor and baseline rosacea severity score as a covariate.|The effect of zinc sulfate treatment on rosacea severity score was estimated with baseline rosacea severity score included in the regression model|"The null hypothesis was no group differences. The alternative hypothesis was that the zinc sulfate arm is superior to placebo arm."||1.62|-0.47|0.2840
82654085|NCT03238677|165023396|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.132|TWO_SIDED|95.0|-23.2|3.1|||Mixed Models Analysis|||Main effect of biofeedback at 10 weeks||3.1|-23.2|.132
82654086|NCT03238677|165023396|SUPERIORITY||Mean Difference (Final Values)|-13.7||||0.028|TWO_SIDED|95.0|-25.9|-1.5|||Mixed Models Analysis|||Main effect of Practice Distribution at 10 weeks||-1.5|-25.9|.028
82592861|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.4924|||||TWO_SIDED|95.0|-2.485|1.5|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Nausea and Vomiting. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.500|-2.485|
82592862|NCT01360554|164900357|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.3096|||||TWO_SIDED|95.0|-2.646|3.265|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for QLQ-C30 Pain. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||3.265|-2.646|
82592863|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|2.6381||||||95.0|0.172|5.104|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Trouble Swallowing as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||5.104|0.172|
82592864|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-4.2504||||||95.0|-7.178|-1.322|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Coughing as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||-1.322|-7.178|
82592865|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model|-1.0764||||||95.0|-3.997|1.845|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Haemoptysis as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.845|-3.997|
82592866|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|9.3545||||||95.0|6.211|12.497|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Sore Mouth as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||12.497|6.211|
82592867|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.1762||||||95.0|-3.56|1.208|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Shortness of Breath as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.208|-3.560|
82592868|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.6378||||||95.0|-3.684|2.408|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Peripheral Neuropathy as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.408|-3.684|
82592869|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.3637||||||95.0|-4.546|1.819|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Alopecia as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.819|-4.546|
82592870|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.2163||||||95.0|-3.885|1.452|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain in Chest as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.452|-3.885|
82654087|NCT03238677|165023396|SUPERIORITY||Mean Difference (Final Values)|-10.0||||0.187|TWO_SIDED|95.0|-24.9|5.0|||Mixed Models Analysis|||Main effect comparing telepractice vs face-to-face treatment||5.0|-24.9|.187
82592871|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.1475||||||95.0|-3.902|1.607|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain in Arm or Shoulder as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.607|-3.902|
82654088|NCT03238677|165023396|SUPERIORITY||Mean Difference (Final Values)|20.22||||0.125|TWO_SIDED|95.0|-5.8|46.3|||Mixed Models Analysis|||Interaction of biofeedback and practice distribution at 10 weeks|η2 =.054|46.3|-5.8|.125
82654089|NCT03522948|165023419|SUPERIORITY||Mean Difference (Net)|-3.16|STANDARD_DEVIATION|-0.71||0.03|TWO_SIDED||||||t-test, 2 sided|||within-subject t-test||||.03
82654090|NCT03522948|165023420|SUPERIORITY||t-test|-1.34|STANDARD_DEVIATION|3.2||0.23|TWO_SIDED||||||t-test, 2 sided||||d = -0.51|||0.23
82654091|NCT03522948|165023421|SUPERIORITY||t-test|1.35|||<|0.05|TWO_SIDED|95.0|-0.69|2.41|||t-test, 2 sided|||GSAB self-efficacy||2.41|-0.69|<.05
82654092|NCT03522948|165023422|SUPERIORITY||t-test|2.93|||<|0.05|TWO_SIDED|95.0|0.31|3.41|||t-test, 2 sided|||Test of GSAB self-efficacy subscale for condom use||3.41|0.31|<.05
82654093|NCT00948675|165023470|SUPERIORITY_OR_OTHER_LEGACY|||||||0.176||95.0|||||Log Rank|||||||0.176
82654094|NCT00948675|165023471|SUPERIORITY_OR_OTHER_LEGACY|||||||0.61||95.0|||||Log Rank|||||||0.610
82592872|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-1.0687||||||95.0|-4.488|2.351|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Pain Other Parts as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||2.351|-4.488|
82592873|NCT01360554|164900358|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|0.0322||||||95.0|-4.847|4.911|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for Any Med for Pain as Assessed by the EORTC-QLQ-LC13. Estimated change from baseline was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-LC13 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||4.911|-4.847|
82592874|NCT01360554|164900359|SUPERIORITY_OR_OTHER||Repeated measures mixed-effects model.|-0.3886||||||95.0|-2.413|1.636|||||This analysis represents the mean difference between the dacomitinib arm (Arm A) and the erlotinib arm (Arm B).|Analysis presented for EQ-5D VAS. Mean difference was from a repeated measures mixed-effects model with an intercept term, treatment, treatment-by-time interaction, and baseline EORTC QLQ-C30 subscale baseline score (intercept and time from first dose are included as random effects). Confidence intervals provided were not adjusted for multiplicity.||1.636|-2.413|
82592875|NCT01263483|164900362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.002|||||TWO_SIDED|95.0|-1.166|-0.838||||||||-0.838|-1.166|
82592876|NCT01263483|164900362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.947|||||TWO_SIDED|95.0|-1.097|-0.796||||||||-0.796|-1.097|
82592877|NCT01263483|164900363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176|||||TWO_SIDED|95.0|-0.229|-0.123||||||||-0.123|-0.229|
82592878|NCT01263483|164900363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||||TWO_SIDED|95.0|-0.247|-0.133||||||||-0.133|-0.247|
82592879|NCT01263483|164900364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.421|||||TWO_SIDED|95.0|-0.507|-0.334||||||||-0.334|-0.507|
82654095|NCT00948675|165023472|SUPERIORITY_OR_OTHER_LEGACY|||||||0.615||95.0|||||Log Rank|||||||0.615
82592880|NCT01263483|164900364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.414|||||TWO_SIDED|95.0|-0.504|-0.324||||||||-0.324|-0.504|
82592881|NCT01263483|164900365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.738|||||TWO_SIDED|95.0|-0.871|-0.605||||||||-0.605|-0.871|
82592882|NCT01263483|164900365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.749|||||TWO_SIDED|95.0|-0.875|-0.623||||||||-0.623|-0.875|
82592883|NCT01263483|164900366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.01|||||TWO_SIDED|95.0|-18.5|-5.52||||||||-5.52|-18.50|
82592884|NCT01263483|164900366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.33|||||TWO_SIDED|95.0|-21.93|-8.73||||||||-8.73|-21.93|
82654096|NCT00948675|165023473|SUPERIORITY_OR_OTHER_LEGACY|||||||0.414||95.0|||||Pearson Chi-square Test|||||||0.414
82654097|NCT00948675|165023474|SUPERIORITY_OR_OTHER_LEGACY|||||||0.575||95.0|||||Pearson Chi-square Test|||||||0.575
82654098|NCT00449150|165023475|SUPERIORITY_OR_OTHER||LS means estimate|-0.198||||0.7424|TWO_SIDED|95.0|-1.38|0.98|||ANOVA|||||0.98|-1.38|0.7424
82592885|NCT01263483|164900367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.65|||||TWO_SIDED|95.0|-23.02|-8.27||||||||-8.27|-23.02|
82592886|NCT01263483|164900367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.03|||||TWO_SIDED|95.0|-29.68|-14.38||||||||-14.38|-29.68|
82592887|NCT01263483|164900368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3|||||TWO_SIDED|95.0|-26.09|-10.5||||||||-10.50|-26.09|
82592888|NCT01263483|164900368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.34|||||TWO_SIDED|95.0|-27.34|-11.34||||||||-11.34|-27.34|
82592889|NCT01263483|164900369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.53|||||TWO_SIDED|95.0|-21.46|-5.6||||||||-5.60|-21.46|
82592890|NCT01263483|164900369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.97|||||TWO_SIDED|95.0|-21.53|-4.41||||||||-4.41|-21.53|
82654099|NCT00449150|165023475|SUPERIORITY_OR_OTHER||LS means estimate|0.055||||0.926||95.0|-1.1|1.21|||ANOVA|||||1.21|-1.10|0.926
82654100|NCT00449150|165023475|SUPERIORITY_OR_OTHER||LS means estimate|-0.252||||0.6699||95.0|-1.41|0.91|||ANOVA|||||0.91|-1.41|0.6699
82654101|NCT03552757|165023477|SUPERIORITY||Treatment difference|-6.21|||<|0.0001|TWO_SIDED|95.0|-7.28|-5.15|||ANCOVA|||Results are based on the data from in-trial observation period. Week 68 responses were analysed using an analysis of covariance model (ANCOVA) with randomised treatment, stratification groups (oral anti-diabetic (OAD) treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate.||-5.15|-7.28|<0.0001
82654102|NCT03552757|165023477|SUPERIORITY||Treatment difference|-7.57|||<|0.0001|TWO_SIDED|95.0|-8.56|-6.58|||MMRM|||Results are based on the data from on-treatment observation period. All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a mixed model for repeated measurements (MMRM) with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate, all nested within visit.||-6.58|-8.56|<0.0001
82654103|NCT03552757|165023478|SUPERIORITY||Odds Ratio (OR)|4.88|||<|0.0001|TWO_SIDED|95.0|3.58|6.64|||Regression, Logistic|||Results are based on the data from in-trial observation period. Week 68 responses were analysed using a binary logistic regression model with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate.||6.64|3.58|<0.0001
82592891|NCT01263483|164900370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.304|0.104||||||||0.104|-0.304|
82592892|NCT01263483|164900370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|||||TWO_SIDED|95.0|-0.239|0.167||||||||0.167|-0.239|
82592893|NCT01263483|164900371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.013|||||TWO_SIDED|95.0|-0.267|0.292||||||||0.292|-0.267|
82592894|NCT01263483|164900371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.034|||||TWO_SIDED|95.0|-0.264|0.196||||||||0.196|-0.264|
82592895|NCT01263483|164900372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|||||TWO_SIDED|95.0|-0.268|0.191||||||||0.191|-0.268|
82592896|NCT01263483|164900372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.073|||||TWO_SIDED|95.0|-0.261|0.115||||||||0.115|-0.261|
82592897|NCT01263483|164900373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|||||TWO_SIDED|95.0|-0.183|0.252||||||||0.252|-0.183|
82592898|NCT01263483|164900373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|||||TWO_SIDED|95.0|-0.124|0.288||||||||0.288|-0.124|
82592899|NCT01263483|164900374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.54|||||TWO_SIDED|95.0|-41.28|-21.8||||||||-21.80|-41.28|
82592900|NCT01263483|164900374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.73|||||TWO_SIDED|95.0|-44.88|-22.57||||||||-22.57|-44.88|
82592901|NCT01263483|164900375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.38|||||TWO_SIDED|95.0|-90.67|-50.09||||||||-50.09|-90.67|
82592902|NCT01263483|164900375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-72.49|||||TWO_SIDED|95.0|-93.1|-51.88||||||||-51.88|-93.10|
82592903|NCT01263483|164900376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.093|||||TWO_SIDED|95.0|2.229|11.958||||||||11.958|2.229|
82592904|NCT01263483|164900376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.967|||||TWO_SIDED|95.0|-0.521|8.455||||||||8.455|-0.521|
82592905|NCT01263483|164900377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.55|||||TWO_SIDED|95.0|-0.045|1.144||||||||1.144|-0.045|
82592906|NCT01263483|164900377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.428|||||TWO_SIDED|95.0|-0.233|1.09||||||||1.090|-0.233|
82592907|NCT01263483|164900378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.77|||||TWO_SIDED|95.0|-36.65|-0.9||||||||-0.90|-36.65|
82592908|NCT01263483|164900378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.04|||||TWO_SIDED|95.0|-37.82|-2.27||||||||-2.27|-37.82|
82592909|NCT04451161|164900385|SUPERIORITY|||||||0.591||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student beginning of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student, or they did not at the beginning of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.591
82592910|NCT04451161|164900385|SUPERIORITY|||||||0.032||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.032
82592911|NCT04451161|164900385|SUPERIORITY|||||||0.054||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants administered the CPSS-V to at least one student by the end of the sustainment phase.|Chi-squared|||One of the primary TF-CBT adoption outcomes (defined as administered CPSS-V) was binary: either the participant adopted at least one of these components with a student at the end of the sustainment phase, or they did not. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.054
82592912|NCT04451161|164900385|SUPERIORITY|||||||0.98||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student at the beginning of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not at the beginning of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.98
82592913|NCT04451161|164900385|SUPERIORITY|||||||0.068||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.068
82592914|NCT04451161|164900385|SUPERIORITY|||||||0.165||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants started TF-CBT with at least one student by the end of the sustainment phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as started TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the sustainment phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.165
82592915|NCT04451161|164900385|SUPERIORITY|||||||0.191||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants completed TF-CBT with at least one student by the end of the active phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as completed TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the active phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.191
82592916|NCT04451161|164900385|SUPERIORITY|||||||0.86||||||We performed a chi-squared analysis comparing the study groups (BASIS vs. Attention Control) on whether participants completed TF-CBT with at least one student at the end of the sustainment phase.|Chi-squared|||The primary TF-CBT adoption outcome (defined as completed TF-CBT) was binary: either the participant adopted at least one of these components with a student, or they did not by the end of the sustainment phase. A chi-squared test was used as a superiority test to determine whether participants in the BASIS group had higher TF-CBT adoption rates compared to the Attention Control group.||||0.86
82592917|NCT04451161|164900386|SUPERIORITY||Slope|3.425|STANDARD_ERROR_OF_MEAN|2.783||0.22|TWO_SIDED|95.0|-2.064|8.915||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if BASIS+TF-CBT has a greater effect on decreasing trauma PTSD symptoms (measured using CPSS-V) over time.|Mixed Models Analysis|||We compared the BASIS group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT reduced trauma-related PTSD symptoms over time, as measured by CPSS-V scores (higher scores indicate greater symptom severity).||8.915|-2.064|0.22
82592918|NCT04451161|164900386|SUPERIORITY||Slope|4.97|STANDARD_ERROR_OF_MEAN|2.774||0.075|TWO_SIDED|95.0|-0.502|10.443||Mixed model analysis was used (the students were clustered under the providers who recruited them) to understand if AC+TF-CBT has a greater effect on decreasing trauma PTSD symptoms (measured using CPSS-V) over time.|Mixed Models Analysis|||We compared the AC group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT reduced trauma-related PTSD symptoms over time, as measured by CPSS-V scores (higher scores indicate greater symptom severity).||10.443|-.502|0.075
82592919|NCT04451161|164900387|SUPERIORITY||Slope|1.024|STANDARD_ERROR_OF_MEAN|0.952||0.284|TWO_SIDED|95.0|-0.855|2.904||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if BASIS+TF-CBT has a greater effect on decreasing negative mood and feelings symptoms (measured using SMFQ) over time.|Mixed Models Analysis|||We compared the BASIS group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT decreased children's negative moods and feelings due to their trauma (higher score indicates more negative mood and feelings).||2.904|-.855|0.284
82592920|NCT04451161|164900387|SUPERIORITY||Slope|1.908|STANDARD_ERROR_OF_MEAN|0.951||0.046|TWO_SIDED|95.0|0.03|3.786||Mixed model analysis was used (students were clustered under the providers who recruited them) to understand if AC+TF-CBT has a greater effect on decreasing negative mood and feelings symptoms (measured using SMFQ) over time.|Mixed Models Analysis|||We compared the AC group (receiving TF-CBT) against Enhanced Treatment as Usual to evaluate whether TF-CBT decreased children's negative moods and feelings due to their trauma (higher score indicates more negative mood and feelings).||3.786|.03|.046
82592921|NCT03596866|164900401|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.8672|TWO_SIDED|95.0|0.658|1.424||P-value from a 2-sided stratified log-rank test using the stratification factors: presence of intracranial central nervous system (CNS) metastases at baseline, and best prior response to crizotinib therapy as assessed by the investigator.|2-sided Stratified Log-rank Test||The hazard ratio was obtained using the stratified Cox regression model with the same stratification factors.|||1.424|0.658|=0.8672
82592922|NCT03596866|164900402|SUPERIORITY||Hazard Ratio (HR)|1.592|||=|0.0713|TWO_SIDED|95.0|0.956|2.652||P-value was based on a 2-sided stratified log-rank test using the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Log Rank||The HR was obtained using the stratified Cox regression model with the same stratification factors.|||2.652|0.956|=0.0713
82592923|NCT03596866|164900403|SUPERIORITY||Hazard Ratio (HR)|1.232|||=|0.2501|TWO_SIDED|95.0|0.862|1.761||P-value was based on a 2-sided stratified log-rank test using the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Log Rank||The HR was obtained using the stratified Cox regression model with the same stratification factors.|||1.761|0.862|=0.2501
82592924|NCT03596866|164900404|SUPERIORITY||Odds Ratio (OR)|0.7|||=|0.1555|TWO_SIDED|95.0|0.42|1.15||P-value was from a Cochran-Mantel-Haenszel test stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Cochran-Mantel-Haenszel||Odds ratio stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|BIRC Assessed||1.15|0.42|=0.1555
82592925|NCT03596866|164900404|SUPERIORITY||Odds Ratio (OR)|0.55|||=|0.0169|TWO_SIDED|95.0|0.33|0.9||P-value was from a Cochran-Mantel-Haenszel test stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Cochran-Mantel-Haenszel||Odds ratio stratified by the stratification factors: presence of intracranial CNS metastases at baseline and best prior response to crizotinib therapy as assessed by the investigator.|Investigator Assessed||0.90|0.33|=0.0169
82592926|NCT03596866|164900407|SUPERIORITY||Odds Ratio (OR)|1.31|||=|0.6246|TWO_SIDED|95.0|0.44|3.84||P-value was from a Cochran-Mantel-Haenszel test stratified by best prior response to crizotinib therapy as assessed by the investigator at randomization per IXRS.|Cochran-Mantel-Haenszel||Odds ratio was stratified by best prior response to crizotinib therapy as assessed by the investigator at randomization per IXRS.|||3.84|0.44|=0.6246
82592927|NCT03596866|164900409|SUPERIORITY||||||=|0.0778||||||P-value from a 2-sided stratified Gray's test using the stratification factors (at randomization per IxRS): presence of intracranial CNS metastases at baseline, and best prior response to crizotinib therapy as assessed by the investigator.|Gray's Test|P-value is for the event type: Intracranial Disease Progression without Prior Systemic Progression or Death.||||||=0.0778
82592928|NCT01671111|164900415|SUPERIORITY_OR_OTHER_LEGACY|||||||0.056|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.0560
82592929|NCT01671111|164900416|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1232|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.1232
82592930|NCT01671111|164900417|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1319|TWO_SIDED|||||P-value was from paired t-test for post treatment timepoint versus baseline.|paired t-test|||||||0.1319
82592931|NCT01671111|164900418|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8061|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.8061
82592932|NCT01671111|164900419|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2297|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.2297
82592933|NCT01671111|164900420|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1248|TWO_SIDED|||||P-value was from paired t-test for log-transformed data at post treatment timepoint versus baseline.|paired t-test|||||||0.1248
82592934|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.1|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.146|0.100|<0.0001
82592935|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.117|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001||95.0|0.094|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.140|0.094|<0.0001
82592936|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.109|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.086|0.132||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.132|0.086|<0.0001
82592937|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.093|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.07|0.116||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.116|0.070|<0.0001
82592938|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.102|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.08|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.125|0.080|<0.0001
82592939|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2169|TWO_SIDED|95.0|-0.008|0.037||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.037|-0.008|0.2169
82592940|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.085|0.13||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.130|0.085|<0.0001
82592941|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.012||0.5849|TWO_SIDED|95.0|-0.017|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.029|-0.017|0.5849
82592942|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.012||0.1863|TWO_SIDED|95.0|-0.007|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.007|0.1863
82592943|NCT01431274|164900457|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4352|TWO_SIDED|95.0|-0.032|0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.014|-0.032|0.4352
82592944|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.082|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.059|0.106||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.106|0.059|<.0001
82592945|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.047|0.094||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.094|0.047|<0.0001
82592946|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.081||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.081|0.034|<0.0001
82592947|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0174|TWO_SIDED|95.0|0.005|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.052|0.005|0.0174
82592948|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.012||0.0001|TWO_SIDED|95.0|0.023|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.070|0.023|0.0001
82592949|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0407|TWO_SIDED|95.0|0.001|0.048||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.048|0.001|0.0407
82592950|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.03|0.077||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.077|0.030|<0.0001
82592951|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3326|TWO_SIDED|95.0|-0.012|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.035|-0.012|0.3326
82592952|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.012||0.0151|TWO_SIDED|95.0|0.006|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.053|0.006|0.0151
82592953|NCT01431274|164900458|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.012||0.1421|TWO_SIDED|95.0|-0.041|0.006||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.006|-0.041|0.1421
82592954|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.693|STANDARD_ERROR_OF_MEAN|0.553||0.0022|TWO_SIDED|95.0|-2.778|-0.608||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.608|-2.778|0.0022
82592955|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.233|STANDARD_ERROR_OF_MEAN|0.551||0.0252|TWO_SIDED|95.0|-2.313|-0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.153|-2.313|0.0252
82592956|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.031|STANDARD_ERROR_OF_MEAN|0.552||0.062|TWO_SIDED|95.0|-2.113|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.052|-2.113|0.0620
82592957|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.456|STANDARD_ERROR_OF_MEAN|0.548||0.4051|TWO_SIDED|95.0|-1.531|0.618||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.618|-1.531|0.4051
82654104|NCT03552757|165023478|SUPERIORITY||Odds Ratio (OR)|8.69|||<|0.0001|TWO_SIDED|95.0|6.31|11.97|||Regression, Logistic|||Results are based on the data from on-treatment observation period. All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a MMRM with randomised treatment, stratification groups (OAD treatment status and HbA1c category at screening) and the interaction between stratification groups as factors and baseline body weight as covariate, all nested within visit.||11.97|6.31|<0.0001
82654105|NCT06331156|165023518|NON_INFERIORITY|Non-inferiority (NI) was to be demonstrated if the lower limit (LL) of the 2-sided 95% confidence interval (CI) for the group difference (Co-administration group minus Staggered group) in seroconversion rate is greater than or equal to (\>=) -10% for the anti-poliovirus type 1 antibodies.|Difference in seroconversion rate|0.1|||||TWO_SIDED|95.0|-3.14|3.76|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at month 3.5 between Co-administration group minus staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||3.76|-3.14|
82654106|NCT06331156|165023518|NON_INFERIORITY|NI was to be demonstrated if the LL of the 2-sided 95% CI for the group difference (Co-administration group minus Staggered group) in seroconversion rate is \>= -10% for the anti-poliovirus type 2 antibodies.|Difference in seroconversion rate|-0.7|||||TWO_SIDED|95.0|-3.86|2.3|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at month 3.5 between Co-administration group minus staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||2.30|-3.86|
82592958|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.571|STANDARD_ERROR_OF_MEAN|0.55||0.2988|TWO_SIDED|95.0|-1.649|0.507||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.507|-1.649|0.2988
82592959|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.662|STANDARD_ERROR_OF_MEAN|0.545||0.2249|TWO_SIDED|95.0|-1.731|0.407||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.407|-1.731|0.2249
82592960|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.118|STANDARD_ERROR_OF_MEAN|0.549||0.0418|TWO_SIDED|95.0|-2.195|-0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||-0.042|-2.195|0.0418
82592961|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.557||0.4097|TWO_SIDED|95.0|-1.552|0.633||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg)~Spatial power covariance structure for within-patient errors."|||0.633|-1.552|0.4097
82592962|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.575|STANDARD_ERROR_OF_MEAN|0.556||0.3013|TWO_SIDED|95.0|-1.664|0.515||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.515|-1.664|0.3013
82592963|NCT01431274|164900459|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.554||0.8355|TWO_SIDED|95.0|-0.97|1.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||1.200|-0.970|0.8355
82592964|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.135||0.0019|TWO_SIDED|95.0|0.155|0.684||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.684|0.155|0.0019
82592965|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.356|STANDARD_ERROR_OF_MEAN|0.135||0.0082|TWO_SIDED|95.0|0.092|0.619||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.619|0.092|0.0082
82592966|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.416|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|0.152|0.681||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.681|0.152|0.0020
82592967|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.134||0.0307|TWO_SIDED|95.0|0.027|0.554||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.554|0.027|0.0307
82654107|NCT06331156|165023518|NON_INFERIORITY|NI was to be demonstrated if the LL of the 2-sided 95% CI for the group difference (Co-administration group minus Staggered group) in seroconversion rate is \>= -10% for the anti-poliovirus type 3 antibodies.|Difference in seroconversion rate|0.0|||||TWO_SIDED|95.0|-2.63|2.99|||||The asymptotic standardized 95% CI for the difference in seroconversion rate for IPV at Month 3.5 between Co-administration group minus Staggered group is computed using the method of Miettinen and Nurminen.|To demonstrate the immunological non-inferiority of IPV when co-administered with HRV PCV-free compared with IPV administered alone in terms of seroconversion rates 1-month post-Dose 3 of IPV (Month 3.5).||2.99|-2.63|
82592968|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.352|STANDARD_ERROR_OF_MEAN|0.135||0.0088|TWO_SIDED|95.0|0.089|0.616||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.616|0.089|0.0088
82592969|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.134||0.9801|TWO_SIDED|95.0|-0.259|0.266||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.266|-0.259|0.9801
82592970|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.294|STANDARD_ERROR_OF_MEAN|0.134||0.0289|TWO_SIDED|95.0|0.03|0.557||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.557|0.030|0.0289
82592971|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.136||0.6382|TWO_SIDED|95.0|-0.202|0.33||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.330|-0.202|0.6382
82592972|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.135||0.3525|TWO_SIDED|95.0|-0.14|0.391||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.391|-0.140|0.3525
82592973|NCT01431274|164900460|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.062|STANDARD_ERROR_OF_MEAN|0.135||0.6457|TWO_SIDED|95.0|-0.327|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.203|-0.327|0.6457
82592974|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.012||0.0067|TWO_SIDED|95.0|0.009|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.056|0.009|0.0067
82592975|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.081|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.057|0.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.104|0.057|<0.0001
82592976|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.012||0.0746|TWO_SIDED|95.0|-0.002|0.045||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.045|-0.002|0.0746
82592977|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.078|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.054|0.101||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.101|0.054|<0.0001
82592978|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.093||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.093|0.046|<0.0001
82592979|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.012||0.3549|TWO_SIDED|95.0|-0.013|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.035|-0.013|0.3549
82592980|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.089|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.065|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.113|0.065|<0.0001
82592981|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.048|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.072|-0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.025|-0.072|<0.0001
82592982|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|-0.08|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.033|-0.080|<0.0001
82592983|NCT01431274|164900461|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.012||0.5018|TWO_SIDED|95.0|-0.016|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.032|-0.016|0.5018
82592984|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.104|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.152|0.104|<0.0001
82592985|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.102|0.15||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.150|0.102|<0.0001
82592986|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.087|0.135||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.135|0.087|<0.0001
82592987|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.096|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.072|0.12||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.120|0.072|<0.0001
82592988|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.109|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.085|0.133||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.133|0.085|<0.0001
82592989|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.012||0.1569|TWO_SIDED|95.0|-0.007|0.041||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.041|-0.007|0.1569
82592990|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.113|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.089|0.137||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.137|0.089|<0.0001
82592991|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.002|STANDARD_ERROR_OF_MEAN|0.012||0.8834|TWO_SIDED|95.0|-0.022|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.026|-0.022|0.8834
82654108|NCT02978326|165023527|SUPERIORITY||Least Squares (LS) Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|1.37||0.0028|TWO_SIDED|95.0|-6.9|-1.5||Mixed Model for Repeated Measures (MMRM) was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||||-1.5|-6.9|0.0028
82654109|NCT02978326|165023528|SUPERIORITY||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.19||0.0252|TWO_SIDED|95.0|-5.1|-0.3||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 3||-0.3|-5.1|0.0252
82592992|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.012||0.2129|TWO_SIDED|95.0|-0.009|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.009|0.2129
82592993|NCT01431274|164900462|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.013|STANDARD_ERROR_OF_MEAN|0.012||0.2702|TWO_SIDED|95.0|-0.037|0.01||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.010|-0.037|0.2702
82592994|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.117|0.166||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.166|0.117|<0.0001
82592995|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.09|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.139|0.090|<0.0001
82592996|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.119|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.094|0.143||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.143|0.094|<0.0001
82592997|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.099|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.074|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.123|0.074|<0.0001
82592998|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.092|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.067|0.117||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.117|0.067|<0.0001
82592999|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.023|STANDARD_ERROR_OF_MEAN|0.013||0.0717|TWO_SIDED|95.0|-0.002|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.002|0.0717
82593000|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.097|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.146|0.097|<0.0001
82654110|NCT02978326|165023528|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|1.31||0.0106|TWO_SIDED|95.0|-6.0|-0.8||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 8||-0.8|-6.0|0.0106
82654111|NCT02978326|165023528|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.44||0.0321|TWO_SIDED|95.0|-6.0|-0.3||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 21||-0.3|-6.0|0.0321
82654112|NCT02978326|165023528|SUPERIORITY||LS Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|1.34||0.0027|TWO_SIDED|95.0|-6.7|-1.4||MMRM was used for estimation with treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in the HAM-D Total Score at Day 45||-1.4|-6.7|0.0027
82654113|NCT02978326|165023529|SUPERIORITY||Odds Ratio (OR)|1.79||||0.1004|TWO_SIDED|95.0|0.89|3.6||Generalized estimating equations (GEE) for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 3||3.60|0.89|0.1004
82593001|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0344|TWO_SIDED|95.0|0.002|0.051||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.051|0.002|0.0344
82593002|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.1126|TWO_SIDED|95.0|-0.005|0.045||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.045|-0.005|0.1126
82593003|NCT01431274|164900463|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.6009|TWO_SIDED|95.0|-0.018|0.031||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.031|-0.018|0.6009
82593004|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.072|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.049|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.096|0.049|<0.0001
82593005|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.039|0.087||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.087|0.039|<0.0001
82593006|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0001|TWO_SIDED|95.0|0.023|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.070|0.023|0.0001
82593007|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.012||0.0122|TWO_SIDED|95.0|0.007|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.054|0.007|0.0122
82593008|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.012||0.0021|TWO_SIDED|95.0|0.014|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.061|0.014|0.0021
82593009|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.012||0.0347|TWO_SIDED|95.0|0.002|0.049||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.049|0.002|0.0347
82593010|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.032|0.08||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.080|0.032|<0.0001
82654114|NCT02978326|165023529|SUPERIORITY||Odds Ratio (OR)|2.31||||0.0127|TWO_SIDED|95.0|1.2|4.45||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 8||4.45|1.20|0.0127
82654115|NCT02978326|165023529|SUPERIORITY||Odds Ratio (OR)|2.63||||0.0049|TWO_SIDED|95.0|1.34|5.16||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 15||5.16|1.34|0.0049
82654116|NCT02978326|165023529|SUPERIORITY||Odds Ratio (OR)|1.85||||0.0763|TWO_SIDED|95.0|0.94|3.64||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 21||3.64|0.94|0.0763
82654117|NCT02978326|165023529|SUPERIORITY||Odds Ratio (OR)|2.28||||0.0216|TWO_SIDED|95.0|1.13|4.6||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Response at Day 45||4.60|1.13|0.0216
82654118|NCT02978326|165023530|SUPERIORITY||Odds Ratio (OR)|3.89||||0.02|TWO_SIDED|95.0|1.24|12.23||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 3||12.23|1.24|0.0200
82593011|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4407|TWO_SIDED|95.0|-0.014|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.033|-0.014|0.4407
82593012|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.012||0.1777|TWO_SIDED|95.0|-0.007|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.040|-0.007|0.1777
82593013|NCT01431274|164900464|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.012||0.5641|TWO_SIDED|95.0|-0.031|0.017||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.017|-0.031|0.5641
82593014|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.057|0.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.104|0.057|<0.0001
82593015|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.051|0.099||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.099|0.051|<0.0001
82593016|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.012||0.0018|TWO_SIDED|95.0|0.014|0.062||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.062|0.014|0.0018
82593017|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0517|TWO_SIDED|95.0|0.0|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.000|0.0517
82593018|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.012||0.0072|TWO_SIDED|95.0|0.009|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.056|0.009|0.0072
82654119|NCT02978326|165023530|SUPERIORITY||Odds Ratio (OR)|1.91||||0.099|TWO_SIDED|95.0|0.89|4.13||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 8||4.13|0.89|0.0990
82593019|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.012||0.0005|TWO_SIDED|95.0|0.019|0.066||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.066|0.019|0.0005
82593020|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.042|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.090|0.042|<0.0001
82593021|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.012||0.6619|TWO_SIDED|95.0|-0.018|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.029|-0.018|0.6619
82654120|NCT02978326|165023530|SUPERIORITY||Odds Ratio (OR)|2.53||||0.011|TWO_SIDED|95.0|1.24|5.17||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 15||5.17|1.24|0.0110
82593022|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2401|TWO_SIDED|95.0|-0.01|0.038||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.038|-0.010|0.2401
82593023|NCT01431274|164900465|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.012||0.4601|TWO_SIDED|95.0|-0.033|0.015||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.015|-0.033|0.4601
82593024|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.064|0.112||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.112|0.064|<0.0001
82593025|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.052|0.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.100|0.052|<0.0001
82593026|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.046|0.094||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.094|0.046|<0.0001
82593027|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.027|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|0.027|<0.0001
82593028|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.034|0.082||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.082|0.034|<0.0001
82593029|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.012||0.1405|TWO_SIDED|95.0|-0.006|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.042|-0.006|0.1405
82593030|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.045|0.093||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.093|0.045|<0.0001
82593031|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3118|TWO_SIDED|95.0|-0.012|0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.036|-0.012|0.3118
82654121|NCT02978326|165023530|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1982|TWO_SIDED|95.0|0.79|3.19||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 21||3.19|0.79|0.1982
82654122|NCT02978326|165023530|SUPERIORITY||Odds Ratio (OR)|2.52||||0.0091|TWO_SIDED|95.0|1.26|5.03||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline HAM-D total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With HAM-D Remission at Day 45||5.03|1.26|0.0091
82654123|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.41||0.3832|TWO_SIDED|95.0|-6.9|2.7||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 3||2.7|-6.9|0.3832
82654124|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-5.4|STANDARD_ERROR_OF_MEAN|2.6||0.0415|TWO_SIDED|95.0|-10.5|-0.2||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 8||-0.2|-10.5|0.0415
82654125|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|2.71||0.0606|TWO_SIDED|95.0|-10.5|0.2||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 15||0.2|-10.5|0.0606
82654126|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-6.3|STANDARD_ERROR_OF_MEAN|2.91||0.0318|TWO_SIDED|95.0|-12.1|-0.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 21||-0.6|-12.1|0.0318
82593032|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.019|STANDARD_ERROR_OF_MEAN|0.012||0.1171|TWO_SIDED|95.0|-0.005|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.043|-0.005|0.1171
82593033|NCT01431274|164900466|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.012||0.5759|TWO_SIDED|95.0|-0.031|0.017||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.017|-0.031|0.5759
82593034|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.079|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.055|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.103|0.055|<0.0001
82593035|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.038|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.086|0.038|<0.0001
82593036|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.061|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.037|0.085||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.085|0.037|<0.0001
82593037|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.012||0.0002|TWO_SIDED|95.0|0.022|0.071||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.071|0.022|0.0002
82593038|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.044|STANDARD_ERROR_OF_MEAN|0.012||0.0004|TWO_SIDED|95.0|0.019|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.068|0.019|0.0004
82593039|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.012||0.136|TWO_SIDED|95.0|-0.006|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.042|-0.006|0.1360
82593040|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.041|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|0.041|<0.0001
82593041|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.012||0.1617|TWO_SIDED|95.0|-0.007|0.041||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.041|-0.007|0.1617
82654127|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-7.7|STANDARD_ERROR_OF_MEAN|2.69||0.0047|TWO_SIDED|95.0|-13.0|-2.4||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Core: Change from Baseline in HAM-D Subscale Score at Day 45||-2.4|-13.0|0.0047
82654128|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|2.5||0.0053|TWO_SIDED|95.0|-12.0|-2.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 3||-2.1|-12.0|0.0053
82654129|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-6.6|STANDARD_ERROR_OF_MEAN|2.76||0.0181|TWO_SIDED|95.0|-12.1|-1.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 8||-1.1|-12.1|0.0181
82654130|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-9.8|STANDARD_ERROR_OF_MEAN|2.82||0.0007|TWO_SIDED|95.0|-15.3|-4.2|||Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 15||-4.2|-15.3|0.0007
82654131|NCT02978326|165023531|OTHER||LS Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|2.79||0.0332|TWO_SIDED|95.0|-11.5|-0.5|||Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 21||-0.5|-11.5|0.0332
82654132|NCT02978326|165023531|OTHER||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|2.8||0.0048|TWO_SIDED|95.0|-13.5|-2.5||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety: Change from Baseline in HAM-D Subscale Score at Day 45||-2.5|-13.5|0.0048
82593042|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.012||0.2476|TWO_SIDED|95.0|-0.01|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.039|-0.010|0.2476
82593043|NCT01431274|164900467|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.012||0.8083|TWO_SIDED|95.0|-0.021|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.027|-0.021|0.8083
82593044|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.075|0.124||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.124|0.075|<0.0001
82593045|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.039|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.088|0.039|<0.0001
82593046|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.100|0.051|<0.0001
82593047|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.023|0.072||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.072|0.023|0.0001
82593048|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.012||0.0014|TWO_SIDED|95.0|0.015|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.064|0.015|0.0014
82593049|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.024|STANDARD_ERROR_OF_MEAN|0.012||0.0554|TWO_SIDED|95.0|-0.001|0.048||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.048|-0.001|0.0554
82654133|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-4.2|STANDARD_ERROR_OF_MEAN|3.12||0.184|TWO_SIDED|95.0|-10.3|2.0||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 3||2.0|-10.3|0.1840
82654134|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-6.7|STANDARD_ERROR_OF_MEAN|3.31||0.0462|TWO_SIDED|95.0|-13.2|-0.1||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 8||-0.1|-13.2|0.0462
82654135|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|3.36||0.015|TWO_SIDED|95.0|-14.9|-1.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 15||-1.6|-14.9|0.0150
82654136|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|3.53||0.0245|TWO_SIDED|95.0|-15.0|-1.0||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 21||-1.0|-15.0|0.0245
82654137|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|3.34||0.0054|TWO_SIDED|95.0|-16.0|-2.8||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Bech-6: Change from Baseline in HAM-D Subscale Score at Day 45||-2.8|-16.0|0.0054
82654138|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|2.77||0.0972|TWO_SIDED|95.0|-10.1|0.9||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 3||0.9|-10.1|0.0972
82654139|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|2.95||0.0155|TWO_SIDED|95.0|-13.1|-1.4||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 8||-1.4|-13.1|0.0155
82654140|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-7.5|STANDARD_ERROR_OF_MEAN|3.03||0.0149|TWO_SIDED|95.0|-13.4|-1.5||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 15||-1.5|-13.4|0.0149
82654141|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|3.14||0.025|TWO_SIDED|95.0|-13.3|-0.9||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 21||-0.9|-13.3|0.0250
82593050|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.047|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.096|0.047|<0.0001
82593051|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.0041|TWO_SIDED|95.0|0.011|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.060|0.011|0.0041
82593052|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.013||0.0248|TWO_SIDED|95.0|0.004|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.053|0.004|0.0248
82593053|NCT01431274|164900468|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5338|TWO_SIDED|95.0|-0.017|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.032|-0.017|0.5338
82593054|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.024||0.0017|TWO_SIDED|95.0|0.029|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.029|0.0017
82593055|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.138|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.09|0.186||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.186|0.090|<0.0001
82593056|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.024||0.0426|TWO_SIDED|95.0|0.002|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.098|0.002|0.0426
82593057|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001||95.0|0.074|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.170|0.074|<0.0001
82491437|NCT01681472|164676440|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
82593058|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.063|0.159||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.159|0.063|<0.0001
82593059|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.025||0.2661|TWO_SIDED|95.0|-0.021|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|-0.021|0.2661
82593060|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.102|0.198||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.198|0.102|<0.0001
82593061|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.061|STANDARD_ERROR_OF_MEAN|0.024||0.0119|TWO_SIDED|95.0|-0.109|-0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.014|-0.109|0.0119
82593062|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.073|STANDARD_ERROR_OF_MEAN|0.024||0.0029|TWO_SIDED|95.0|-0.121|-0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.025|-0.121|0.0029
82654142|NCT02978326|165023531|SUPERIORITY||LS Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|2.96||0.0017|TWO_SIDED|95.0|-15.3|-3.6||MMRM was used for estimation with treatment, baseline HAM-D subscale score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Meier: Change from Baseline in HAM-D Subscale Score at Day 45||-3.6|-15.3|0.0017
82593063|NCT01431274|164900469|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.011|STANDARD_ERROR_OF_MEAN|0.024||0.6408|TWO_SIDED|95.0|-0.036|0.059||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.059|-0.036|0.6408
82593064|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.221|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.173|0.27||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.270|0.173|<0.0001
82593065|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.193|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.145|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.145|<0.0001
82593066|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.185|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.136|0.233||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.233|0.136|<0.0001
82654143|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1569|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.5|0.1569
82654144|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0376|TWO_SIDED|95.0|-0.7|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.7|0.0376
82654145|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.1035|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.6|0.1035
82491438|NCT01681472|164676440|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82593067|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.114|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.065|0.162||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.162|0.065|<0.0001
82593068|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.157|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.108|0.205||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.205|0.108|<0.0001
82593069|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.025||0.1355|TWO_SIDED|95.0|-0.012|0.085||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.085|-0.012|0.1355
82593070|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.151|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.102|0.199||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.199|0.102|<0.0001
82593071|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.025||0.2562|TWO_SIDED|95.0|-0.02|0.076||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.076|-0.020|0.2562
82593072|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.025||0.0041|TWO_SIDED|95.0|0.022|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.119|0.022|0.0041
82654146|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0037|TWO_SIDED|95.0|-0.9|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.2|-0.9|0.0037
82654147|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.18||0.0061|TWO_SIDED|95.0|-0.8|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Depressed Mood: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.8|0.0061
82654148|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.16||0.7878|TWO_SIDED|95.0|-0.4|0.3||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 3||0.3|-0.4|0.7878
82654149|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0498|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.6|0.0498
82654150|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.1719|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.5|0.1719
82654151|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0161|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.7|0.0161
82654152|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.15||0.0191|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Feelings of Guilt: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0191
82654153|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.2537|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.2|0.2537
82654154|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.0018|TWO_SIDED|95.0|-0.2|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.2|0.0018
82654155|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.2878|TWO_SIDED|95.0|-0.2|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.2|0.2878
82654156|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.07||0.2594|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.2|0.2594
82654157|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0086|TWO_SIDED|95.0|-0.3|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Suicide: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.3|0.0086
82593073|NCT01431274|164900470|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.043|STANDARD_ERROR_OF_MEAN|0.025||0.0815|TWO_SIDED|95.0|-0.091|0.005||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.005|-0.091|0.0815
82593074|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.195|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.149|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.149|<0.0001
82593075|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.107|0.199||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.199|0.107|<0.0001
82593076|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.174|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.128|0.221||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.221|0.128|<0.0001
82593077|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.107|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.061|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.154|0.061|<0.0001
82593078|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.086|0.178||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.178|0.086|<0.0001
82593079|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.024||0.3727|TWO_SIDED|95.0|-0.025|0.067||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.067|-0.025|0.3727
82593080|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.082|0.175||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.175|0.082|<0.0001
82593081|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.024||0.0744|TWO_SIDED|95.0|-0.004|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|-0.004|0.0744
82654158|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0424|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.6|0.0424
82491439|NCT01681472|164676440|SUPERIORITY|||||||0.2725|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2725
82654159|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0207|TWO_SIDED|95.0|-0.6|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.6|0.0207
82654160|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.14||0.001|TWO_SIDED|95.0|-0.7|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.7|0.0010
82654161|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.0871|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 21||0.0|-0.5|0.0871
82593082|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.024||0.0047|TWO_SIDED|95.0|0.021|0.114||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.114|0.021|0.0047
82593083|NCT01431274|164900471|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.025|STANDARD_ERROR_OF_MEAN|0.024||0.2945|TWO_SIDED|95.0|-0.071|0.022||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.022|-0.071|0.2945
82593084|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.205|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.155|0.255||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.255|0.155|<0.0001
82593085|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.107|0.206||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.206|0.107|<0.0001
82593086|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.142|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.242|0.142|<0.0001
82593087|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.124|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.074|0.174||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.174|0.074|<0.0001
82593088|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.144|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.094|0.193||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.193|0.094|<0.0001
82593089|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.025||0.6103|TWO_SIDED|95.0|-0.037|0.062||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.062|-0.037|0.6103
82593090|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.087|0.186||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.186|0.087|<0.0001
82593091|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.049|STANDARD_ERROR_OF_MEAN|0.025||0.0559|TWO_SIDED|95.0|-0.001|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.098|-0.001|0.0559
82654162|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.568|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early - Early Night: Change From Baseline in HAM-D Individual Item Score at Day 45||0.2|-0.4|0.5680
82593092|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.025||0.0073|TWO_SIDED|95.0|0.018|0.118||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.118|0.018|0.0073
82593093|NCT01431274|164900472|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.02|STANDARD_DEVIATION|0.025||0.4368|TWO_SIDED|95.0|-0.07|0.03||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.030|-0.070|0.4368
82593094|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.147|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.098|0.196||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.196|0.098|<0.0001
82593095|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0023|TWO_SIDED|95.0|0.027|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.027|0.0023
82593096|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.170|0.072|<0.0001
82593097|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.025||0.0545|TWO_SIDED|95.0|-0.001|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 μg).~Spatial power covariance structure for within-patient errors."|||0.097|-0.001|0.0545
82593098|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.025||0.0456|TWO_SIDED|95.0|0.001|0.099||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.099|0.001|0.0456
82593099|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.025||0.2949|TWO_SIDED|95.0|-0.023|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.075|-0.023|0.2949
82593100|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.074|STANDARD_ERROR_OF_MEAN|0.025||0.0029|TWO_SIDED|95.0|0.025|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.123|0.025|0.0029
82593101|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.025||0.0045|TWO_SIDED|95.0|0.022|0.12||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.120|0.022|0.0045
82593102|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.073|STANDARD_ERROR_OF_MEAN|0.025||0.0035|TWO_SIDED|95.0|0.024|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.122|0.024|0.0035
82593103|NCT01431274|164900473|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.002|STANDARD_ERROR_OF_MEAN|0.025||0.9369|TWO_SIDED|95.0|-0.051|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.047|-0.051|0.9369
82593104|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.168|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.119|0.217||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.217|0.119|<0.0001
82593105|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.056|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.154|0.056|<0.0001
82593106|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.054|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.152|0.054|<0.0001
82593107|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.025||0.0585|TWO_SIDED|95.0|-0.002|0.096||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.096|-0.002|0.0585
82593108|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.025||0.1042|TWO_SIDED|95.0|-0.008|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.090|-0.008|0.1042
82593109|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.025||0.0097|TWO_SIDED|95.0|0.016|0.114||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.114|0.016|0.0097
82593110|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.063|0.161||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.161|0.063|<0.0001
82593111|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.025||0.012|TWO_SIDED|95.0|0.014|0.112||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.112|0.014|0.0120
82593112|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.025|TWO_SIDED|95.0|0.007|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.105|0.007|0.0250
82593113|NCT01431274|164900474|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.025||0.7889|TWO_SIDED|95.0|-0.042|0.056||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.056|-0.042|0.7889
82593114|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.187|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.138|0.237||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.237|0.138|<0.0001
82593115|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.170|0.072|<0.0001
82593116|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.103|0.202||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.202|0.103|<0.0001
82654163|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0143|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 3||-0.1|-0.6|0.0143
82593117|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.025||0.0134|TWO_SIDED|95.0|0.013|0.111||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.111|0.013|0.0134
82593118|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.086|STANDARD_ERROR_OF_MEAN|0.025||0.0006|TWO_SIDED|95.0|0.037|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.136|0.037|0.0006
82593119|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.035|STANDARD_ERROR_OF_MEAN|0.025||0.167|TWO_SIDED|95.0|-0.015|0.084||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.084|-0.015|0.1670
82593120|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.097|STANDARD_ERROR_OF_MEAN|0.025||0.0001|TWO_SIDED|95.0|0.048|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.146|0.048|0.0001
82593121|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.025||0.0085|TWO_SIDED|95.0|0.017|0.115||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.115|0.017|0.0085
82593122|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.025||0.0003|TWO_SIDED|95.0|0.041|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.140|0.041|0.0003
82593123|NCT01431274|164900475|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.025||0.3332|TWO_SIDED|95.0|-0.074|0.025||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.025|-0.074|0.3332
82593124|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.105|0.201||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.201|0.105|<0.0001
82593125|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.024||0.0016|TWO_SIDED|95.0|0.029|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.125|0.029|0.0016
82593126|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.18||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.180|0.084|<0.0001
82593127|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.024||0.0926|TWO_SIDED|95.0|-0.007|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.089|-0.007|0.0926
82593128|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.055|STANDARD_ERROR_OF_MEAN|0.024||0.0231|TWO_SIDED|95.0|0.008|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.103|0.008|0.0231
82593129|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.024||0.3802|TWO_SIDED|95.0|-0.026|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.069|-0.026|0.3802
82593130|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.024||0.0105|TWO_SIDED|95.0|0.015|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.110|0.015|0.0105
82593131|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0018|TWO_SIDED|95.0|0.028|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.125|0.028|0.0018
82593132|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.091|STANDARD_ERROR_OF_MEAN|0.025||0.0002|TWO_SIDED|95.0|0.043|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.139|0.043|0.0002
82593133|NCT01431274|164900476|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.024||0.5554|TWO_SIDED|95.0|-0.062|0.034||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.034|-0.062|0.5554
82593134|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.178|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.127|0.228||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.228|0.127|<0.0001
82593135|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.084|STANDARD_ERROR_OF_MEAN|0.026||0.0011|TWO_SIDED|95.0|0.033|0.134||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.134|0.033|0.0011
82593136|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.142|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.091|0.192||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.192|0.091|<0.0001
82593137|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.026||0.1112|TWO_SIDED|95.0|-0.009|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.091|-0.009|0.1112
82593138|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.026||0.0632|TWO_SIDED|95.0|-0.003|0.098||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.098|-0.003|0.0632
82593139|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.026||0.1615|TWO_SIDED|95.0|-0.014|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.086|-0.014|0.1615
82593140|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.026||0.0027|TWO_SIDED|95.0|0.027|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.127|0.027|0.0027
82593141|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.044|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.144|0.044|0.0003
82654164|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0063|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.6|0.0063
82654165|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0042|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.6|0.0042
82654166|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0137|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.6|0.0137
82593142|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.101|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.05|0.151||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.151|0.050|<0.0001
82593143|NCT01431274|164900477|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.007|STANDARD_ERROR_OF_MEAN|0.026||0.7925|TWO_SIDED|95.0|-0.057|0.044||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.044|-0.057|0.7925
82593144|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.074|0.162||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.162|0.074|<0.0001
82593145|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.077|0.169||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.169|0.077|<0.0001
82593146|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.022||0.0012|TWO_SIDED|95.0|0.028|0.114||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.114|0.028|0.0012
82593147|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.05|0.137||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.137|0.050|<0.0001
82593148|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.023||0.001|TWO_SIDED|95.0|0.031|0.121||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.121|0.031|0.0010
82593149|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.023||0.0384|TWO_SIDED|95.0|0.003|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.092|0.003|0.0384
82593150|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.097|0.185||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.185|0.097|<0.0001
82593151|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.004|STANDARD_ERROR_OF_MEAN|0.023||0.8428|TWO_SIDED|95.0|-0.049|0.04||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.040|-0.049|0.8428
82593152|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.022||0.3048|TWO_SIDED|95.0|-0.065|0.02||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.020|-0.065|0.3048
82654167|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0099|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Middle - Middle Night: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0099
82593153|NCT01431274|164900478|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.023||0.4311|TWO_SIDED|95.0|-0.027|0.063||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.063|-0.027|0.4311
82593154|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.057|0.139||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.139|0.057|<0.0001
82593155|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.063|0.149||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.149|0.063|<0.0001
82593156|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.021||0.0136|TWO_SIDED|95.0|0.01|0.091||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.091|0.010|0.0136
82593157|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.021||0.0003|TWO_SIDED|95.0|0.035|0.116||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.116|0.035|0.0003
82593158|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.0065|TWO_SIDED|95.0|0.016|0.101||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.101|0.016|0.0065
82593159|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0277|TWO_SIDED|95.0|0.005|0.089||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.089|0.005|0.0277
82593160|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.081|0.164||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.164|0.081|<0.0001
82593161|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.7116|TWO_SIDED|95.0|-0.049|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.034|-0.049|0.7116
82593162|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.02||0.2332|TWO_SIDED|95.0|-0.065|0.016||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.016|-0.065|0.2332
82593163|NCT01431274|164900479|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.021||0.4374|TWO_SIDED|95.0|-0.025|0.059||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.059|-0.025|0.4374
82593164|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.161|STANDARD_ERROR_OF_MEAN|0.043||0.0002|TWO_SIDED|95.0|0.077|0.244||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.244|0.077|0.0002
82654168|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0507|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.5|0.0507
82593165|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.045||0.0017|TWO_SIDED|95.0|0.053|0.228||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.228|0.053|0.0017
82593166|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.042||0.0022|TWO_SIDED|95.0|0.046|0.21||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.210|0.046|0.0022
82593167|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.176|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.093|0.259||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.259|0.093|<0.0001
82593168|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.044||0.0141|TWO_SIDED|95.0|0.022|0.194||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.194|0.022|0.0141
82593169|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.043||0.4581|TWO_SIDED|95.0|-0.053|0.118||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.118|-0.053|0.4581
82654169|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0205|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.0205
82491440|NCT01681472|164676440|SUPERIORITY|||||||0.1893|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1893
82593170|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.124|0.293||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.293|0.124|<0.0001
82593171|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.043||0.6335|TWO_SIDED|95.0|-0.064|0.105||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.105|-0.064|0.6335
82593172|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.047|STANDARD_ERROR_OF_MEAN|0.041||0.253|TWO_SIDED|95.0|-0.129|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.034|-0.129|0.2530
82593173|NCT01431274|164900480|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.043||0.1188|TWO_SIDED|95.0|-0.017|0.153||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.153|-0.017|0.1188
82593174|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.041||0.0008|TWO_SIDED|95.0|0.057|0.217||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).|||0.217|0.057|0.0008
82593175|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.043||0.0032|TWO_SIDED|95.0|0.042|0.209||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||0.209|0.042|0.0032
82593176|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.04||0.0085|TWO_SIDED|95.0|0.027|0.183||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).|||0.183|0.027|0.0085
82593177|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.04||0.0001|TWO_SIDED|95.0|0.077|0.235||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).|||0.235|0.077|0.0001
82593178|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0255|TWO_SIDED|95.0|0.011|0.176||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).|||0.176|0.011|0.0255
82593179|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.041||0.4393|TWO_SIDED|95.0|-0.049|0.113||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).|||0.113|-0.049|0.4393
82593180|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.188|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.108|0.269||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).|||0.269|0.108|<0.0001
82593181|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.041||0.7784|TWO_SIDED|95.0|-0.069|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Olodaterol (5 µg).|||0.092|-0.069|0.7784
82593182|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.039||0.1965|TWO_SIDED|95.0|-0.129|0.026||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (2.5 µg) versus Olodaterol (5 µg).|||0.026|-0.129|0.1965
82593183|NCT01431274|164900481|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.041||0.1315|TWO_SIDED|95.0|-0.019|0.144||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA||Tiotropium (5 µg) versus Tiotropium (2.5 µg).|||0.144|-0.019|0.1315
82593184|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.141|STANDARD_ERROR_OF_MEAN|0.56||0.0001|TWO_SIDED|95.0|-3.239|-1.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-1.043|-3.239|0.0001
82593185|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.131|STANDARD_ERROR_OF_MEAN|0.56||0.0435|TWO_SIDED|95.0|-2.23|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).|||-0.033|-2.230|0.0435
82593186|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.528|STANDARD_ERROR_OF_MEAN|0.559||0.0063|TWO_SIDED|95.0|-2.623|-0.432||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.432|-2.623|0.0063
82593187|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.517|STANDARD_ERROR_OF_MEAN|0.558||0.3545|TWO_SIDED|95.0|-1.611|0.577||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.577|-1.611|0.3545
82593188|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.518|STANDARD_ERROR_OF_MEAN|0.559||0.3542|TWO_SIDED|95.0|-1.614|0.578||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.578|-1.614|0.3542
82593189|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.613|STANDARD_ERROR_OF_MEAN|0.556||0.2697|TWO_SIDED|95.0|-1.702|0.476||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.476|-1.702|0.2697
82593190|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.559||0.0434|TWO_SIDED|95.0|-2.227|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||-0.033|-2.227|0.0434
82593191|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.563||0.0732|TWO_SIDED|95.0|-2.114|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.095|-2.114|0.0732
82593192|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.011|STANDARD_ERROR_OF_MEAN|0.563||0.0724|TWO_SIDED|95.0|-2.114|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.092|-2.114|0.0724
82593193|NCT01431274|164900482|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.563||0.9983|TWO_SIDED|95.0|-1.102|1.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.104|-1.102|0.9983
82654170|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1409|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.5|0.1409
82593194|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.852|STANDARD_ERROR_OF_MEAN|0.578||0.0014|TWO_SIDED|95.0|-2.985|-0.718||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.718|-2.985|0.0014
82593195|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.444|STANDARD_ERROR_OF_MEAN|0.576||0.4413|TWO_SIDED|95.0|-1.573|0.686||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.686|-1.573|0.4413
82593196|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.437|STANDARD_ERROR_OF_MEAN|0.578||0.0129|TWO_SIDED|95.0|-2.569|-0.304||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||-0.304|-2.569|0.0129
82593197|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.574||0.9222|TWO_SIDED|95.0|-1.182|1.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.070|-1.182|0.9222
82593198|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.029|STANDARD_ERROR_OF_MEAN|0.576||0.9602|TWO_SIDED|95.0|-1.157|1.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|ANCOVA|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||1.100|-1.157|0.9602
82593199|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.415|STANDARD_ERROR_OF_MEAN|0.57||0.4669|TWO_SIDED|95.0|-1.533|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.703|-1.533|0.4669
82593200|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.471|STANDARD_ERROR_OF_MEAN|0.575||0.4126|TWO_SIDED|95.0|-1.598|0.656||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.656|-1.598|0.4126
82593201|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.408|STANDARD_ERROR_OF_MEAN|0.583||0.0158|TWO_SIDED|95.0|-2.551|-0.265||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.265|-2.551|0.0158
82593202|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.381|STANDARD_ERROR_OF_MEAN|0.582||0.0177|TWO_SIDED|95.0|-2.521|-0.24||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||-0.240|-2.521|0.0177
82593203|NCT01431274|164900483|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.027|STANDARD_ERROR_OF_MEAN|0.58||0.9624|TWO_SIDED|95.0|-1.164|1.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||1.109|-1.164|0.9624
82593204|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.595|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.329|0.862||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.862|0.329|<0.0001
82593205|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.373|0.907||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.907|0.373|<0.0001
82593206|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.423|STANDARD_ERROR_OF_MEAN|0.136||0.0019|TWO_SIDED|95.0|0.156|0.69||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.690|0.156|0.0019
82593207|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.446|STANDARD_ERROR_OF_MEAN|0.136||0.0011|TWO_SIDED|95.0|0.179|0.712||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.712|0.179|0.0011
82593208|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.468|STANDARD_ERROR_OF_MEAN|0.136||0.0006|TWO_SIDED|95.0|0.201|0.735||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.735|0.201|0.0006
82593209|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.172|STANDARD_ERROR_OF_MEAN|0.136||0.2045|TWO_SIDED|95.0|-0.094|0.438||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.438|-0.094|0.2045
82593210|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.618|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.351|0.885||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.885|0.351|<0.0001
82593211|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.045|STANDARD_ERROR_OF_MEAN|0.137||0.7432|TWO_SIDED|95.0|-0.313|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.223|-0.313|0.7432
82593212|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.136||0.8687|TWO_SIDED|95.0|-0.29|0.245||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.245|-0.290|0.8687
82593213|NCT01431274|164900484|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.137||0.8709|TWO_SIDED|95.0|-0.29|0.246||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.246|-0.290|0.8709
82654171|NCT02978326|165023532|SUPERIORITY|MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2021|TWO_SIDED|95.0|-0.5|0.1|||Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.5|0.2021
82654172|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0117|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insomnia Early Hours - Morning: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.6|0.0117
82593214|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.63|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|0.362|0.898||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.898|0.362|<0.0001
82654173|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.5511|TWO_SIDED|95.0|-0.4|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 3||0.2|-0.4|0.5511
82654174|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.4949|TWO_SIDED|95.0|-0.5|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.5|0.4949
82654175|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0203|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.7|0.0203
82654176|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19||0.2076|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.6|0.2076
82593215|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.434|STANDARD_ERROR_OF_MEAN|0.137||0.0015|TWO_SIDED|95.0|0.166|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.703|0.166|0.0015
82593216|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.419|STANDARD_ERROR_OF_MEAN|0.137||0.0022|TWO_SIDED|95.0|0.151|0.687||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.687|0.151|0.0022
82593217|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.227|STANDARD_ERROR_OF_MEAN|0.137||0.0966|TWO_SIDED|95.0|-0.041|0.495||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.495|-0.041|0.0966
82593218|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.223|STANDARD_ERROR_OF_MEAN|0.137||0.1029|TWO_SIDED|95.0|-0.045|0.492||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.492|-0.045|0.1029
82593219|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.211|STANDARD_ERROR_OF_MEAN|0.136||0.122|TWO_SIDED|95.0|-0.056|0.478||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 µg).~Spatial power covariance structure for within-patient errors."|||0.478|-0.056|0.1220
82593220|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.438|STANDARD_ERROR_OF_MEAN|0.137||0.0014|TWO_SIDED|95.0|0.17|0.707||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.707|0.170|0.0014
82593221|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.196|STANDARD_ERROR_OF_MEAN|0.137||0.1542|TWO_SIDED|95.0|-0.074|0.465||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.465|-0.074|0.1542
82593222|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.137||0.1626|TWO_SIDED|95.0|-0.077|0.461||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.461|-0.077|0.1626
82654177|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0362|TWO_SIDED|95.0|-0.8|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Work and Activities: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.8|0.0362
82654178|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3589|TWO_SIDED|95.0|-0.1|0.3||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 3||0.3|-0.1|0.3589
82491441|NCT01681472|164676440|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82593223|NCT01431274|164900485|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.138||0.9765|TWO_SIDED|95.0|-0.265|0.274||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.274|-0.265|0.9765
82654179|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.6991|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.2|0.6991
82593224|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.647|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|0.37|0.925||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.925|0.370|<0.0001
82593225|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.322|STANDARD_ERROR_OF_MEAN|0.141||0.0226|TWO_SIDED|95.0|0.045|0.6||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 μg) versus Tiotropium (5 μg).~Spatial power covariance structure for within-patient errors."|||0.600|0.045|0.0226
82593226|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.371|STANDARD_ERROR_OF_MEAN|0.142||0.0089|TWO_SIDED|95.0|0.093|0.649||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Olodaterol (5 μg).~Spatial power covariance structure for within-patient errors."|||0.649|0.093|0.0089
82593227|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.332|STANDARD_ERROR_OF_MEAN|0.141||0.0186|TWO_SIDED|95.0|0.056|0.609||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.609|0.056|0.0186
82593228|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.142||0.7441|TWO_SIDED|95.0|-0.231|0.324||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (2.5/5 μg) versus Tiotropium (5 µg).~Spatial power covariance structure for within-patient errors."|||0.324|-0.231|0.7441
82593229|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.276|STANDARD_ERROR_OF_MEAN|0.14||0.0492|TWO_SIDED|95.0|0.001|0.551||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tio+Olo FDC (2.5/5 μg).~Spatial power covariance structure for within-patient errors."|||0.551|0.001|0.0492
82593230|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.608|STANDARD_ERROR_OF_MEAN|0.141|<|0.0001|TWO_SIDED|95.0|0.332|0.884||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tio+Olo FDC (5/5 µg) versus Tiotropium (2.5 µg).~Spatial power covariance structure for within-patient errors."|||0.884|0.332|<0.0001
82593231|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.325|STANDARD_ERROR_OF_MEAN|0.143||0.023|TWO_SIDED|95.0|0.045|0.605||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg)~Spatial power covariance structure for within-patient errors."|||0.605|0.045|0.0230
82593232|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.142||0.7855|TWO_SIDED|95.0|-0.24|0.317||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.317|-0.240|0.7855
82593233|NCT01431274|164900486|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.142||0.0442|TWO_SIDED|95.0|0.007|0.564||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|"Tiotropium (2.5 µg) versus Olodaterol (5 µg).~Spatial power covariance structure for within-patient errors."|||0.564|0.007|0.0442
82593234|NCT01806857|164900504|SUPERIORITY_OR_OTHER|||||||0.0003|||||||Random Effects Model|||||||0.0003
82593235|NCT01806857|164900508|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Random Effects Model|||||||0.0001
82654180|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.9655|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 15||0.2|-0.2|0.9655
82593236|NCT00789880|164900533|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP expression in lesional skin of AD participants differs by treatment group.||||0.7
82593237|NCT00789880|164900533|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.12
82593238|NCT00789880|164900534|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether the change in CAMP mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.3
82593239|NCT00789880|164900535|SUPERIORITY_OR_OTHER|||||||0.4|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in CAMP mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.4
82593240|NCT00789880|164900535|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in CAMP mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||0.2
82593241|NCT00789880|164900536|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in HBD-3 mRNA expression in lesional skin of AD participants differs by treatment group.||||0.8
82593242|NCT00789880|164900536|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANOVA|P-value is not adjusted for multiple comparisons.||Testing whether change in HBD-3 mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.2
82593243|NCT00789880|164900537|SUPERIORITY_OR_OTHER|||||||0.4||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.4
82593244|NCT00789880|164900538|SUPERIORITY_OR_OTHER|||||||0.4||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.4
82593245|NCT00789880|164900538|SUPERIORITY_OR_OTHER|||||||1||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in HBD-3 mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||1.0
82593246|NCT00789880|164900539|SUPERIORITY_OR_OTHER|||||||0.2||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in lesional skin of AD participants differs by treatment group.||||0.2
82593247|NCT00789880|164900539|SUPERIORITY_OR_OTHER|||||||0.5||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of AD participants differs by treatment group.||||0.5
82593248|NCT00789880|164900540|SUPERIORITY_OR_OTHER|||||||0.7||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of Non-AD participants differs by treatment group.||||0.7
82593249|NCT00789880|164900541|SUPERIORITY_OR_OTHER|||||||0.2||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in lesional skin of psoriatic participants differs by treatment group.||||0.2
82593250|NCT00789880|164900541|SUPERIORITY_OR_OTHER|||||||0.3||||||P-value is not adjusted for multiple comparisons.|ANOVA|||Testing whether change in IL-13 mRNA expression in non-lesional skin of psoriatic participants differs by treatment group.||||0.3
82593251|NCT02046096|164900549|OTHER||12-month rate (%)|97.8|||<|0.0001|TWO_SIDED|95.0|95.6|99.1||The threshold for statistical significance was p = 0.025|One-tailed Exact binomial test||The 95% confidence interval was computed using Exact method.|Null Hypothesis: The rate of technical placement success and 12-month freedom from new symptomatic PE while a filter is indwelling, π, does not meet the performance goal (90%).||99.1|95.6|<0.0001
82654181|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8699|TWO_SIDED|95.0|-0.2|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 21||0.2|-0.2|0.8699
82654182|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.3715|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Retardation: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.3|0.3715
82491442|NCT01681472|164676441|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82654183|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.067|TWO_SIDED|95.0|-0.4|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.4|0.0670
82593252|NCT02046096|164900550|OTHER||Cumulative probability|81.5|STANDARD_ERROR_OF_MEAN|4.5||0.369|TWO_SIDED|95.0|72.6|90.4||the threshold for statistical significance is 0.025.|Z-statistic|The hypothesis is assessed using a Z-statistic. The Z-statistic is given by Z = (Ŝ(t) - 0.8) / SE where SE is the Standard Error|The estimate of the variance of the Kaplan-Meier estimate used the methods described by Peto et al.|"the null hypotheses is: H0: S(t) ≤ 80%(Performance Goal) where,~* t is time through 12 months~* S(t) is the true rate of freedom from major adverse events at time t."||90.4|72.6|0.369
82593253|NCT02046096|164900551|OTHER||12-month freedom from MAE rate (%)|86.7||||0.001|TWO_SIDED|95.0|82.5|90.2||The threshold for statistical significance was p = 0.025|One-tailed exact binomial test|||Null Hypothesis: The 12-month freedom from MAE, π, does not meet the performance goal (80%).||90.2|82.5|0.001
82593254|NCT00487396|164900583|OTHER||||||<|0.0001|||||||McNemar|||"Pathologies were including in the analysis as follows:~* combination of CE+IC procedures but not detected by the combination of SBFT+IC procedures were marked as CE+IC new finding ;~* Pathologies detected by the combination of SBFT+IC procedures but not detected by the combination of CE+IC procedures were marked as SBFT+IC new finding event;~* Pathologies detected by the combination of CE+IC procedures and by the combination of SBFT+IC procedures were marked as same findings event."||||<0.0001
82593255|NCT00487396|164900584|OTHER||||||<|0.0001|||||||McNemar|||"For each category, the numbers of found and missed pathologies were including in the analysis as follows:~* Pathologies detected by CE procedure but not detected by SBFT procedure were marked as CE new finding event;~* Pathologies detected by SBFT procedure but not detected by CE procedure were marked as SBFT new finding event;~* Pathologies detected by both procedures (i.e., CE and SBFT) were marked as same findings event."||||<0.0001
82593256|NCT00487396|164900585|OTHER|||||||0.085|||||||McNemar|||"Pathologies were including in the analysis as follows:~* Pathologies detected by CE procedure but not detected by IC procedure were marked as CE new finding event;~* Pathologies detected by IC procedure but not detected by CE procedure were marked as IC new finding event;~* Pathologies detected by both procedures (i.e., CE and IC) were marked as same findings event."||||0.085
82593257|NCT05314517|164900586|OTHER||Stratified Common Risk Difference|14.1||||0.1244|TWO_SIDED|90.0|-1.0|29.2|||Cochran-Mantel-Haenszel|||||29.2|-1.0|0.1244
82593258|NCT05248295|164900612|OTHER|Separate regression models were used within each group (People with aphasia and Controls) to independently assess the effects of the variables. Below, the results are reported for the effect of production condition (Unison vs. Solo) for the group of interest, People with aphasia.|Odds Ratio (OR)|1.21|STANDARD_ERROR_OF_MEAN|0.13||0.077|TWO_SIDED|||||Results are reported for production condition for people with aphasia (experimental group).|Regression, Logistic||OR computed with Unison as the numerator and Solo as the denominator|People with aphasia (PWA) were not directly compared to controls since the finding of a lower % syllables correct in any condition in PWA would be trivial. Instead, within-groups analyses were conducted to understand how the experimental variables affected syllable accuracy within each group.||||0.077
82593259|NCT05248295|164900612|OTHER|Below, the results are reported for the effect of timing condition (Metrical vs. Conversational) for the group of interest, People with aphasia.|||||>|0.1||||||Results are reported for Timing Condition for the People with aphasia.|Regression, Logistic|||||||>.1
82593260|NCT05248295|164900612|OTHER|Below, the results are reported for the interaction effect between production condition and timing condition for the group of interest, People with aphasia.|Odds Ratio (OR)|1.55|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED||||||Regression, Logistic||OR computed as ((Unison Metrical)/(Unison Conversational)) / ((Solo Metrical)/(Solo Conversational))|||||<0.001
82593261|NCT05248295|164900612|OTHER||Odds Ratio (OR)|0.63|STANDARD_ERROR_OF_MEAN|0.14||0.036|TWO_SIDED|||||Results are reported for Production Condition for the Control group.|Regression, Logistic||OR computed with Unison as the numerator and Solo as the denominator|Separate regression models were used within each group. Here, the results are reported for the Control group.||||0.036
82491443|NCT01681472|164676441|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491444|NCT01681472|164676441|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491445|NCT01681472|164676441|SUPERIORITY|||||||0.0142|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0142
82491446|NCT01681472|164676441|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0085
82491447|NCT01681472|164676441|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of AUC(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82491448|NCT01681472|164676442|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
82491449|NCT01681472|164676442|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491450|NCT01681472|164676442|SUPERIORITY|||||||0.0021|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0021
82491451|NCT01681472|164676442|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491452|NCT01681472|164676442|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
82491453|NCT01681472|164676442|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491454|NCT01681472|164676443|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82593262|NCT05248295|164900612|OTHER|Below, the results are reported for the effect of timing condition (Metrical vs. Conversational) for the control group.|Odds Ratio (OR)|3.36|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED||||||Regression, Logistic||OR computed with Metrical as the numerator and Conversational as the denominator|||||<0.001
82491455|NCT01681472|164676443|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491456|NCT01681472|164676443|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491457|NCT01681472|164676443|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491458|NCT01681472|164676443|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0009
82593263|NCT05248295|164900612|OTHER|Below, the results are reported for the interaction effect between production condition and timing condition for the control group.|||||>|0.1|||||||Regression, Logistic|||||||>.1
82593264|NCT05248295|164900613|OTHER|Separate regression models were used within each group (People with aphasia and Controls) to independently assess the effects of Timing Condition. Production Condition is not included in the analysis since all timing data are from the unison production condition, by definition.|Slope|-0.14|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|||||Results are reported for people with aphasia (experimental group).|Regression, Linear|||People with aphasia were not directly compared to Controls since the Control group is a context-providing reference group rather than a true comparator. Instead, within-groups analyses were conducted to understand how the experimental variable affected timing alignment in each group.||||<0.001
82593265|NCT05248295|164900613|OTHER||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.0|<|0.001|TWO_SIDED|||||Results are reported for the Control group.|Regression, Linear|||People with aphasia were not directly compared to Controls since the Control group is a context-providing reference group and not a true comparator. Instead, within-groups analyses were conducted to understand how experimental variables affected timing alignment in each group.||||<0.001
82593266|NCT01484977|164900619|SUPERIORITY_OR_OTHER||Retention Rate|73.3|||||TWO_SIDED|95.0|65.42|81.25||||||"Analyses of the primary efficacy variable will be descriptive only. No hypothesis tests are planned.~The number and percentage of subjects remaining in the study through the 21-Week Treatment Period will be calculated. Subjects with retention will be counted in the numerator. All subjects in the relevant population will be used as the denominator.~This percentage will be known as the retention rate, along with the 95 % confidence interval based on the normal approximation."||81.25|65.42|
82593267|NCT01392677|164900620|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.1022|<|0.0001|TWO_SIDED|95.0|-0.89|-0.49||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Mixed Models Analysis|Longitudinal repeated measures model using mixed model with treatment group, baseline value, week and week\*treatment and week\*baseline||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.49|-0.89|<0.0001
82593268|NCT01392677|164900621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.45|STANDARD_ERROR_OF_MEAN|4.8846|<|0.0001|TWO_SIDED|95.0|-43.08|-23.82||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-23.82|-43.08|<0.0001
82593269|NCT01392677|164900622|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|STANDARD_ERROR_OF_MEAN|0.3651|<|0.0001|TWO_SIDED|95.0|-2.79|-1.35||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-1.35|-2.79|<0.0001
82593270|NCT01392677|164900623|SUPERIORITY_OR_OTHER||Risk Difference (RD)|20.7|STANDARD_ERROR_OF_MEAN|5.056|<|0.0001|TWO_SIDED|95.0|10.7|30.6||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|Regression, Logistic|Based on methodology of Zhang, Tsiatis \& Davidian and Tsiatis, Davidian, Zhang \& Lu, with adjustment for baseline value||H0: proportion(treat) minus proportion (placebo) = 0 versus the alternative HA: proportion (treat) minus proportion (placebo) =/= 0||30.6|10.7|<0.0001
82593271|NCT01392677|164900624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76|STANDARD_ERROR_OF_MEAN|1.6677||0.025|TWO_SIDED|95.0|-7.05|-0.48||Significant at alpha=0.05 (2-sided). A hierarchical closed testing procedure was used to control Type I error across the primary \& key secondary objectives|ANCOVA|with treatment group as effect and baseline value as covariate||H0: mean(treat) minus mean(placebo) = 0 versus the alternative HA: mean(treat) minus mean(placebo) =/= 0||-0.48|-7.05|0.025
82593272|NCT00121108|164900633|SUPERIORITY||Relative risk|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.21|||Fisher Exact|||||0.21|0.08|<0.001
82593273|NCT02726971|164900644|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82593274|NCT01380379|164900647|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|Single group comparison pre-post change score, compared to a value of 0 (no change)||||||<.01
82593275|NCT01380379|164900648|SUPERIORITY_OR_OTHER||||||<|0.04|||||||t-test, 2 sided|||||||<.04
82593276|NCT01357577|164900663|OTHER|||||||0.48||||||P-Value show above is for post-assessment time point.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and the baseline total CAPS score.||||||.48
82593277|NCT01357577|164900663|OTHER|||||||0.12||||||The p-value shown above is for the 6-month time point.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and the baseline total CAPS score.||||||.12
82491459|NCT01681472|164676443|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593278|NCT01357577|164900663|OTHER|||||||0.65||||||The p-value shown above refers to the treatment main effect.|Mixed Models Analysis|||||||.65
82593279|NCT01357577|164900663|OTHER|||||||0.072||||||The p-value shown above refers to the timepoint main effect.|Mixed Models Analysis|||||||.072
82593280|NCT01357577|164900663|OTHER|||||||0.005|||||||Mixed Models Analysis|The p-value shown above refers to the interaction.||||||.0050
82593281|NCT01357577|164900663|OTHER|||||||0.12|||||||Mixed Models Analysis|The p-value shown above refers to the site main effect.||||||.12
82593282|NCT01357577|164900664|OTHER|mixed-effects linear regression model adjusted for study site and the baseline value of the dependent variable.||||||0.12||||||Post-treatment P-value.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and baseline ASI (Alcohol Use) score.||||||.12
82593283|NCT01357577|164900664|OTHER|||||||0.84||||||6-month P-Value.|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.84
82593284|NCT01357577|164900664|OTHER|||||||0.26||||||treatment main effect|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.26
82593285|NCT01357577|164900664|OTHER|||||||0.14||||||Timepoint main effect P-value|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.14
82654184|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0104|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 8||-0.1|-0.5|0.0104
82593286|NCT01357577|164900664|OTHER|||||||0.29||||||interaction|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.29
82593287|NCT01357577|164900664|OTHER|||||||0.16||||||Site main effect P-Value.|Mixed Models Analysis|Mixed-model p-values adjusted for study site and Baseline ASI (Alcohol Use) score.||||||.16
82593288|NCT01357577|164900665|OTHER|||||||0.66||||||Post-treatment p-value.|Mixed Models Analysis|Mixed-model p-values are adjusted for study site and baseline ASI (drug score).||||||.66
82593289|NCT01357577|164900665|OTHER|||||||0.53||||||6-month P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.53
82593290|NCT01357577|164900665|OTHER|||||||0.86||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.86
82593291|NCT01357577|164900665|OTHER|||||||0.16||||||Timepoint main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.16
82593292|NCT01357577|164900665|OTHER|||||||0.47||||||Interaction P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.47
82593293|NCT01357577|164900665|OTHER|||||||0.19||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline ASI (Drug Use) score.||||||.19
82593294|NCT01357577|164900666|OTHER|||||||0.18||||||Post-Treatment P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.18
82593295|NCT01357577|164900666|OTHER|||||||0.45||||||P-value at 6 months.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.45
82593296|NCT01357577|164900666|OTHER|||||||0.73||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.73
82593297|NCT01357577|164900666|OTHER|||||||0.63||||||Timepoint main effect P-Value|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.63
82593298|NCT01357577|164900666|OTHER|||||||0.024||||||Interaction P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.024
82593299|NCT01357577|164900666|OTHER|||||||0.15||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PCL score.||||||.15
82593300|NCT01357577|164900667|OTHER|||||||0.48||||||Post-Treatment P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.48
82593301|NCT01357577|164900667|OTHER|||||||0.2||||||6-Month P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.20
82593302|NCT01357577|164900667|OTHER|||||||0.26||||||Treatment main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.26
82593303|NCT01357577|164900667|OTHER|||||||0.71||||||Timepoint main effect.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.71
82593304|NCT01357577|164900667|OTHER|||||||0.56||||||Interaction main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.56
82593305|NCT01357577|164900667|OTHER|||||||0.51||||||Site main effect P-Value.|Mixed Models Analysis|Mixed model p-values are adjusted for study site and baseline PHQ score.||||||.51
82593306|NCT03080883|164900668|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.3117|TWO_SIDED|95.0|0.38|1.37|||Gray Test P-value|||||1.37|0.38|0.3117
82593307|NCT03080883|164900669|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.997|TWO_SIDED|95.0|0.4|2.53|||Gray Test P-value|||||2.53|0.40|0.9970
82593308|NCT00847145|164900674|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off levels for the vaccine antigen measles is ≥255 mIU/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-5.0|2.0||||||The immunogenicity in 12B12M (1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the measles antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for Measles antigen was greater than -10%.||2|-5|
82593309|NCT00847145|164900674|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the vaccine antigen mumps is ≥10 Enzyme Linked Immunosorbent Assay(ELISA) Antibody (Ab) units to be greater than -10%.|Percentage group difference|0.0|||||TWO_SIDED|95.0|-5.0|5.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B(2a), if for the mumps antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for Mumps antigen was greater than -10%.||5|-5|
82593310|NCT00847145|164900674|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the vaccine antigen rubella is ≥10 IU/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-4.0|1.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the rubella antigen(two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for rubella antigen was greater than -10%.||1|-4|
82593311|NCT00847145|164900674|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off value for the vaccine antigen varicella is ≥1.25 gpELISA units/mL to be greater than -10%.|Percentage group difference|-1.0|||||TWO_SIDED|95.0|-6.0|3.0||||||The immunogenicity in 12B12M(1a) group was considered non-inferior to that in group 12M13B15B (2a), if for the varicella antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of subjects with antibody response greater than or equal to the specified cut-off level for varicella antigen was greater than -10%.||3|-6|
82593312|NCT00847145|164900674|NON_INFERIORITY_OR_EQUIVALENCE|The specified cut-off level for the varicella vaccine antigen is ≥5 gp ELISA units/ml (seroprotection) to be greater than -10%.|Percentage group difference|-2.0|||||TWO_SIDED|95.0|-11.0|7.0||||||The immunogenicity in 12B12M (1a) group was considered non-inferior to that in group 12M13B15B (2), if for the varicella antigen (two months after the MMRV vaccine), the lower limit of the two-sided 95% CI for the difference in the percentages of the subjects with antibody response greater than or equal to the specified cut-off value for varicella antigen was greater than -10%.||7|-11|
82593313|NCT01439282|164900688|SUPERIORITY_OR_OTHER_LEGACY|||||||0.108||||||1-side P value was obtained|1-sample binomial test|||||||0.1080
82593314|NCT00346073|164900716|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-0.43|||||TWO_SIDED|95.0|-1.47|0.84||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-diphtheria (anti-D) antibody concentrations greater than or equal to (≥) 0.1 IU/mL, one month after vaccination.||0.84|-1.47|
82593315|NCT00346073|164900716|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-0.42|||||TWO_SIDED|95.0|-0.9|0.11||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-tetanus (anti-T) antibody concentrations greater than or equal to (≥) 0.1 IU/mL, one month after vaccination.||0.11|-0.9|
82593316|NCT00346073|164900717|NON_INFERIORITY|The primary objective of non-inferiority was met if the lower limit of the 95% confidence intervals (CIs), between the two groups (Boostrix Group - Adacel Group) were greater than or equal to (≥) -10%|Difference in percentage|-1.04|||||TWO_SIDED|95.0|-1.97|0.0||||||The non-inferiority of Boostrix® vaccine compared to Adacel™ vaccine, with respect to the percentage of subjects with anti-tetanus (anti-T) antibody concentrations greater than or equal to (≥) 1.0 IU/mL, one month after vaccination.||0|-1.97|
82491460|NCT01681472|164676444|SUPERIORITY|||||||0.024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0240
82491461|NCT01681472|164676444|SUPERIORITY|||||||0.1336|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1336
82491462|NCT01681472|164676444|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491463|NCT01681472|164676444|SUPERIORITY|||||||0.1551|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1551
82491464|NCT01681472|164676444|SUPERIORITY|||||||0.1563|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1563
82491465|NCT01681472|164676444|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82491466|NCT01681472|164676445|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491467|NCT01681472|164676445|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491468|NCT01681472|164676445|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491469|NCT01681472|164676445|SUPERIORITY|||||||0.0142|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0142
82491470|NCT01681472|164676445|SUPERIORITY|||||||0.0085|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0085
82491471|NCT01681472|164676445|SUPERIORITY|||||||0.0024|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of Cmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0024
82491472|NCT01681472|164676446|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||1.0000
82491473|NCT01681472|164676446|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491474|NCT01681472|164676446|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0010
82491475|NCT01681472|164676446|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491476|NCT01681472|164676446|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0005
82491477|NCT01681472|164676446|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491478|NCT01681472|164676447|SUPERIORITY|||||||0.0056|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0056
82491479|NCT01681472|164676447|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593317|NCT00346073|164900719|SUPERIORITY||Booster response|77.2|||||TWO_SIDED|95.0|74.9|79.3||||||"Demonstration that anti-PT booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||79.3|74.9|
82593318|NCT00346073|164900719|SUPERIORITY||Booster response|96.9|||||TWO_SIDED|95.0|95.8|97.7||||||"Demonstration that anti-FHA booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||97.7|95.8|
82593319|NCT00346073|164900719|SUPERIORITY||Booster response|93.2|||||TWO_SIDED|95.0|91.8|94.4||||||"Demonstration that anti-PRN booster response occurred in at least 80% of adults receiving a single dose of Boostrix® vaccine, one month after vaccination.~Criterion for evaluation: one month after vaccination, the lower limit of the 95% confidence interval (CI) for the percentage of subjects with a booster response was greater than or equal to (≥) 80%."||94.4|91.8|
82593320|NCT00980200|164900732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.094|||<|0.001|TWO_SIDED|95.0|0.049|0.14|||ANCOVA|||||0.140|0.049|<0.001
82593321|NCT00980200|164900732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.095|0.185|||ANCOVA|||||0.185|0.095|<0.001
82593322|NCT00980200|164900732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|||<|0.001|TWO_SIDED|95.0|0.057|0.147|||ANCOVA|||||0.147|0.057|<0.001
82593323|NCT00980200|164900732|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|||<|0.001|TWO_SIDED|95.0|0.08|0.17|||ANCOVA|||||0.170|0.080|<0.001
82593324|NCT00937937|164900739|SUPERIORITY_OR_OTHER_LEGACY||1-year overall survival estimate|0.38|||||TWO_SIDED|95.0|0.27|0.49||||||one-year overall survival estimate.||0.49|0.27|
82593325|NCT00937937|164900740|SUPERIORITY_OR_OTHER_LEGACY||6-month PFS estimate|0.07|||||TWO_SIDED|95.0|0.03|0.15||||||6-month PFS estimate.||0.15|0.03|
82593326|NCT00054704|164900743|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.828|STANDARD_ERROR_OF_MEAN|3.182||0.086|TWO_SIDED|95.0|-12.59|0.934||A linear mixed model included drug, visit and their interaction as fixed factors. Subject was a random factor. The test here is for the main effect of drug.|Mixed Models Analysis|Baseline score was a covariate. Restricted maximum likelihood estimates were used with a compound symmetry covariance structure.||The primary intent of this study was to compare the efficacy of riluzole to placebo in the treatment of overall depressive symptomatology of bipolar disorder subjects who were acutely depressed. Data from 8 riluzole and 11 placebo participants were analyzed due to missing data for one riluzole patient.||0.934|-12.590|.086
82593327|NCT01761292|164900765|OTHER||mean|13.906|||<|0.0001|TWO_SIDED|95.0|11.5657|16.2466||The paired t-test or non-parametric signed rank test for 2 means (paired observations) (as is appropriate) was applied for testing the statistical significance of the Change From Baseline to End of Study. MFA% P \< 0.05 was set as significant.|t-test, 2 sided|||||16.2466|11.5657|<0.0001
82593328|NCT01761292|164900766|OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||< 0.0001
82593329|NCT01911442|164900780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.15||0.5463|TWO_SIDED|95.0|-5.6|3.0|||Mixed Models Analysis|||LS Mean, LS mean difference and the associated 95% Cl and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||3.0|-5.6|0.5463
82593330|NCT01911442|164900780|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|2.09||0.3592|TWO_SIDED|95.0|-6.1|2.2|||Mixed Models Analysis|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures.||2.2|-6.1|0.3592
82593331|NCT01911442|164900781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.25||0.1755|TWO_SIDED||||||Mixed Models Analysis||This is due to rounding. the LSM for Lurasidone 20 mg/d at week 6 was -1.069 vs -0.734 for placebo group. So the LSM of the treatment difference between Lurasidone 20 mg/d and placebo was 0.335 if 3 decimals are reported.|||||0.1755
82593332|NCT01911442|164900781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.2402|TWO_SIDED||||||Mixed Models Analysis|||||||0.2402
82593333|NCT00253643|164900787|SUPERIORITY_OR_OTHER|||||||0.1521|TWO_SIDED|||||Utilized a priori threshold for statistical significance of 0.05.|Mixed Models Analysis|||Mixed effects model to assess the effect time (pre vs. post) and treatment (GTFO, GT, FO and Placebo) on FAS summary scores||||0.1521
82593334|NCT00253643|164900788|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED|||||A priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||Mixed effects model to assess the effect of time (pre vs. post) and treatment (GTFO, GT, FO and Placebo) on Ki-67||||0.1573
82593335|NCT02113436|164900799|SUPERIORITY_OR_OTHER||Difference in Least square means|-0.97||||0.206|TWO_SIDED|95.0|-2.47|0.54|||ANCOVA|||||0.54|-2.47|0.206
82593336|NCT02113436|164900800|SUPERIORITY_OR_OTHER||Difference in Least sqaure means|-0.49||||0.235|TWO_SIDED|95.0|-1.29|0.32|||ANCOVA|||||0.32|-1.29|0.235
82593337|NCT02113436|164900801|SUPERIORITY_OR_OTHER||Difference in Least-Sqaure means|-0.48||||0.236|TWO_SIDED|95.0|-1.27|0.31|||ANCOVA|||||0.31|-1.27|0.236
82593338|NCT02113436|164900802|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47|||||TWO_SIDED|95.0|0.14|1.6||||||||1.60|0.14|
82593339|NCT02113436|164900803|SUPERIORITY_OR_OTHER||Difference in Least-Square Means|0.7||||0.041|TWO_SIDED|95.0|0.0|1.4|||ANCOVA|||||1.4|0.0|0.041
82593340|NCT02113436|164900804|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.06||||0.335|TWO_SIDED|95.0|-0.2|0.07|||ANCOVA|||||0.07|-0.20|0.335
82593341|NCT02113436|164900805|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.6||||0.389|TWO_SIDED|95.0|-3.3|8.6|||ANCOVA|||||8.6|-3.3|0.389
82593342|NCT01648790|164900807|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.983|||||TWO_SIDED|90.0|0.819|1.18|||||Least Squares (LS) means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||1.18|0.819|
82593343|NCT01648790|164900808|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.987|||||TWO_SIDED|90.0|0.918|1.06|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||1.06|0.918|
82593344|NCT01648790|164900809|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.28|||||TWO_SIDED|90.0|0.233|0.335|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||0.335|0.233|
82593345|NCT01648790|164900810|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.779|||||TWO_SIDED|90.0|0.724|0.837|||||LS means were determined by mixed-effect linear models with treatment, period, sequence as fixed effects, and participants nested within sequence as random effect.|||0.837|0.724|
82593346|NCT02636582|164900815|SUPERIORITY|||||||0.71|||||||Wilcoxon (Mann-Whitney)|||||||0.71
82593347|NCT02636582|164900816|SUPERIORITY|||||||0.964|||||||Wilcoxon (Mann-Whitney)|||||||0.964
82593348|NCT02636582|164900817|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82593349|NCT02636582|164900818|OTHER|||||||0.172||||||HER2 expression - biopsy|Fisher Exact|||||||0.172
82593350|NCT02636582|164900818|OTHER|||||||0.38||||||HER2 expression - resection|Fisher Exact|||||||0.38
82593351|NCT01148537|164900825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|||<|0.001|TWO_SIDED|90.0|3.4|8.4|||ANCOVA|ANCOVA model with baseline QTci as a covariate and with sex and treatment as effects in the model.||||8.4|3.4|< .001
82593352|NCT01148537|164900826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.77|TWO_SIDED|90.0|-1.8|2.6|||ANCOVA||For the comparison of BTDS to placebo, the subjects randomized to moxifloxacin were excluded.|||2.6|-1.8|.770
82593353|NCT01148537|164900827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.86|||<|0.001|TWO_SIDED|90.0|3.3|8.4|||ANCOVA|ANCOVA model with baseline QTci as a covariate and with sex and treatment as effects in the model.||Day 13 analysis||8.4|3.3|< .001
82593354|NCT01148537|164900828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.64|||<|0.001|TWO_SIDED|90.0|5.4|9.9|||ANCOVA|ANCOVA model with average baseline as a covariate, and with gender and treatment as main effects||||9.9|5.4|< .001
82593355|NCT01148537|164900829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.936|TWO_SIDED|90.0|-2.9|2.6|||ANCOVA|||Day 6 analysis||2.6|-2.9|.936
82593356|NCT01148537|164900829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.16|||<|0.001|TWO_SIDED|90.0|4.2|10.1|||ANCOVA|||Day 13 analysis||10.1|4.2|< .001
82593357|NCT01148537|164900830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.23|||<|0.001|TWO_SIDED|90.0|5.5|10.9|||ANCOVA|||Day 6 analysis||10.9|5.5|< .001
82593358|NCT01148537|164900830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|||<|0.001|TWO_SIDED|90.0|4.3|10.5|||ANCOVA|||Day 13 analysis||10.5|4.3|< .001
82593359|NCT01148537|164900831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29||||0.427|TWO_SIDED|90.0|-1.4|4.0|||ANCOVA|||Day 6 analysis||4.0|-1.4|.427
82654185|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0122|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.5|0.0122
82593360|NCT01148537|164900831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.01||||0.001|TWO_SIDED|90.0|3.2|8.8|||ANCOVA|||Day 13 analysis||8.8|3.2|.001
82593361|NCT01148537|164900832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.86|||<|0.001|TWO_SIDED|90.0|4.2|9.6|||ANCOVA|||Day 6 analysis||9.6|4.2|< .001
82593362|NCT01148537|164900832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.68||||0.006|TWO_SIDED|90.0|1.9|7.4|||ANCOVA|||Day 13 analysis||7.4|1.9|.006
82593363|NCT00632099|164900847|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||||||<0.05
82593364|NCT04206605|164900897|SUPERIORITY||Rate Ratio|1.02|||=|0.899|TWO_SIDED|95.0|0.71|1.47||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.47|0.71|=0.899
82593365|NCT04206605|164900898|SUPERIORITY||Risk Difference (RD)|0.003|||=|1|TWO_SIDED|95.0|-0.153|0.114||P-value was from the corresponding Mantel-Haenszel estimate for the common risk difference from Cochran-Mantel-Haenszel (CMH) test; unadjusted for multiple testing.|Cochran-Mantel-Haenszel|||||0.114|-0.153|=1.000
82593366|NCT04206605|164900899|SUPERIORITY||Rate Ratio|0.96|||=|0.852|TWO_SIDED|95.0|0.62|1.48||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.48|0.62|=0.852
82593367|NCT04206605|164900900|SUPERIORITY||Rate Ratio|1.1|||=|0.66|TWO_SIDED|95.0|0.72|1.7||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.70|0.72|=0.660
82593368|NCT04206605|164900901|SUPERIORITY||Risk Difference (RD)|-0.087|||=|0.25|TWO_SIDED|95.0|-0.28|0.063||P-value was from the corresponding Mantel-Haenszel estimate for the common risk difference from CMH test; unadjusted for multiple testing.|Cochran-Mantel-Haenszel|||||0.063|-0.280|=0.250
82593369|NCT04206605|164900903|SUPERIORITY||Rate Ratio|0.97|||=|0.896|TWO_SIDED|95.0|0.58|1.61||P-value was from Wald-based chi-square test; unadjusted for multiple testing.|Chi-squared|||||1.61|0.58|=0.896
82593370|NCT04206605|164900905|SUPERIORITY||||||=|0.498||||||P-value comparing lanadelumab to placebo was from a log rank test stratified by baseline strata.|Log Rank|||||||=0.498
82593371|NCT04206605|164900906|SUPERIORITY||||||=|0.184||||||P-value comparing lanadelumab to placebo was from a log rank test stratified by baseline strata.|Log Rank|||||||=0.184
82593372|NCT03437564|164900969|EQUIVALENCE|The difference in the least square (LS) means between the formulations (dosing of one Vortioxetine 20 mg tablet - dosing of two Vortioxetine 10 mg tablets) and the two-sided 90% confidence interval (CI) were provided using a crossover analysis of variance (ANOVA) model. The shown data were anti-logs of LS means difference and CI. The ANOVA model included log-transformed (natural log) PK parameters AUClast as dependent variable, and treatment condition, group, and period as independent variables.|Point Estimate|0.996|||||TWO_SIDED|90.0|0.967|1.026|||ANOVA|||||1.026|0.967|
82593373|NCT03437564|164900970|EQUIVALENCE|The difference in the LS means between the formulations (dosing of one vortioxetine 20 mg tablet - dosing of two vortioxetine 10 mg tablets) and the two-sided 90% CI were provided using a crossover ANOVA model. The shown data were anti-logs of LS means difference and CI. The ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and treatment condition, group, and period as independent variables.|Point Estimate|0.972|||||TWO_SIDED|90.0|0.937|1.008|||ANOVA|||||1.008|0.937|
82593374|NCT00243386|164900984|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6016||95.0|||||t-test, 2 sided|||A t-test was used to compare the means of the transformed data. The null-hypothesis tested was H0: X'A(PK-driven prophylaxis) - X'B (standard prophylaxis) = 0 (i.e., no difference for treatment under the 2 prophylactic regimens. X' = (ABR+0.5)\^(1/2)||||0.6016
82593375|NCT00243386|164900985|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-Test|||||||<0.0001
82593376|NCT00243386|164900986|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-test|||||||<0.0001
82593377|NCT00243386|164900987|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||2-sided paired T-tests were done comparing transformed annualized bleeding rates between On-Demand and Prophylaxis regimens.|Paired t-test|||||||<0.0001
82593378|NCT00243386|164900988|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4924||95.0|||||Wilcoxon-Rank Sum (Mann-Whitney)|||||||0.4924
82593379|NCT00243386|164901009|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1467||95.0|||||Wilcoxon-Rank Sum (Mann-Whitney)|||||||0.1467
82593380|NCT00243386|164901010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||95.0||||Due to multiple hypotheses testing results, adjusted alpha values are set to α\*=0.005 (0.05/10). Adjustments take into account 10 hypotheses tests between On-Demand and any Prophylaxis. Statistically significant results are considered p-values \< α\*|Wilcoxon signed-rank test|||||||0.0007
82593381|NCT00243386|164901011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002||95.0||||Due to multiple hypotheses testing results, adjusted alpha values are set to α\*=0.005 (0.05/10). Adjustments take into account 10 hypotheses tests between On-Demand and any Prophylaxis. Statistically significant results are considered p-values \< α\*|Wilcoxon signed-rank test|||||||0.0002
82593382|NCT00243386|164901012|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon Signed-Rank Test|||||||<0.0001
82593383|NCT04037748|164901013|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|90.8|||||TWO_SIDED|90.0|86.3|95.6||||||||95.6|86.3|
82593384|NCT04037748|164901014|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|93.7|||||TWO_SIDED|90.0|88.2|99.5||||||||99.5|88.2|
82593385|NCT04037748|164901016|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|97.3|||||TWO_SIDED|90.0|94.7|100.0||||||||100.0|94.7|
82593386|NCT04037748|164901017|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric least squares (LS) mean ratio|94.82|||||TWO_SIDED|90.0|92.0|97.8||||||||97.8|92.0|
82593387|NCT04995055|164901025|SUPERIORITY||Least-square Mean Difference|-15.4|STANDARD_ERROR_OF_MEAN|2.81|||TWO_SIDED|95.0|-21.2|-9.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-9.5|-21.2|
82491480|NCT01681472|164676447|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0010
82593388|NCT04995055|164901026|SUPERIORITY||Least-square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.04|||TWO_SIDED|95.0|0.2|0.4|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||0.4|0.2|
82593389|NCT04995055|164901027|SUPERIORITY||Least-square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.66|||TWO_SIDED|95.0|-4.9|-2.1|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-2.1|-4.9|
82593390|NCT04995055|164901028|SUPERIORITY||Least-square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|0.2|0.4|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||0.4|0.2|
82593391|NCT04995055|164901030|SUPERIORITY||Least-square Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|0.59|||TWO_SIDED|95.0|-4.4|-1.9|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as senofilcon A (C3)- senofilcon A|||-1.9|-4.4|
82593392|NCT01412554|164901046|OTHER|Only descriptive statistics|||||<|0.05|||||||Spearman|The degree of tracking was assessed by Spearman's rank or Pearson's correlation coefficient||Only an observational follow-up study|The degree of tracking was assessed by Spearman's rank or Pearson's correlation coefficient|||<0.05
82593393|NCT00807742|164901077|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.606|TWO_SIDED|95.0|0.57|2.63|||Chi-squared|||||2.63|0.57|.606
82593394|NCT00807742|164901078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.29|TWO_SIDED|95.0|0.57|2.63|||Chi-squared|||||2.63|0.57|.290
82593395|NCT00807742|164901079|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.32|TWO_SIDED|95.0|0.49|8.23|||Chi-squared|||||8.23|0.49|.32
82593396|NCT00807742|164901080|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.298|TWO_SIDED|95.0|0.51|8.45|||Chi-squared|||||8.45|0.51|.298
82593397|NCT00807742|164901081|SUPERIORITY||Effect Size d|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||t-test, 2 sided|||||-0.27|-0.71|<.001
82593398|NCT00807742|164901082|SUPERIORITY||Effect Size d|-0.15||||0.199|TWO_SIDED|95.0|-0.38|0.08|||t-test, 2 sided|||||0.08|-0.38|.199
82593399|NCT00807742|164901083|SUPERIORITY||Effect Size d|-0.12||||0.148|TWO_SIDED|95.0|-0.57|0.33|||t-test, 2 sided|||||0.33|-.57|.148
82593400|NCT00807742|164901084|SUPERIORITY||Effect Size d|-0.15||||0.249|TWO_SIDED|95.0|-0.4|0.11|||t-test, 2 sided|||||0.11|-0.40|.249
82593401|NCT00807742|164901085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.402|TWO_SIDED|95.0|0.59|3.72|||Chi-squared|||||3.72|0.59|0.402
82593402|NCT00807742|164901086|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.772|TWO_SIDED|95.0|0.49|1.7|||Chi-squared|||||1.70|0.49|.772
82593403|NCT00807742|164901087|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.91|TWO_SIDED|95.0|0.6|1.77|||Chi-squared|||||1.77|0.60|.910
82593404|NCT00807742|164901088|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.812|TWO_SIDED|95.0|0.54|1.62|||Chi-squared|||||1.62|0.54|.812
82593405|NCT00807742|164901089|SUPERIORITY||Odds Ratio (OR)|0.76||||0.49|TWO_SIDED|95.0|0.36|1.65|||Chi-squared|||||1.65|0.36|.490
82593406|NCT00807742|164901090|SUPERIORITY||Odds Ratio (OR)|1.19||||0.511|TWO_SIDED|95.0|0.67|2.06|||Chi-squared|||||2.06|0.67|.511
82593407|NCT00807742|164901091|SUPERIORITY||Odds Ratio (OR)|1.19||||0.499|TWO_SIDED|95.0|0.72|1.97|||Chi-squared|||||1.97|0.72|.499
82593408|NCT00807742|164901092|SUPERIORITY||Odds Ratio (OR)|0.96||||0.876|TWO_SIDED|95.0|0.58|1.6|||Chi-squared|||||1.60|0.58|.876
82593409|NCT00807742|164901093|SUPERIORITY_OR_OTHER||Effect Size d|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||t-test, 2 sided|||||-0.15|-0.59|.001
82593410|NCT00807742|164901094|SUPERIORITY_OR_OTHER||Effect Size d|-0.25||||0.069|TWO_SIDED|95.0|-0.46|0.02|||t-test, 2 sided|||||0.02|-0.46|.069
82593411|NCT00807742|164901095|SUPERIORITY_OR_OTHER||Effect Size d|-0.16||||0.202|TWO_SIDED|95.0|-0.4|0.08|||t-test, 2 sided|||||0.08|-0.40|.202
82593412|NCT00807742|164901096|SUPERIORITY_OR_OTHER||Effect Size d|-0.17||||0.199|TWO_SIDED|95.0|-0.42|0.09|||t-test, 2 sided|||||0.09|-0.42|.199
82593413|NCT03834519|164901097|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.2616|TWO_SIDED|95.0|0.77|1.14|||Log Rank|One-sided p-value based on log-rank test stratified by measurable disease status and prior NHA treatment.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|Treatment difference in survival assessed by the stratified log-rank test stratified by measurable disease status and prior NHA treatment.||1.14|0.77|0.2616
82593414|NCT03834519|164901098|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.5544|TWO_SIDED|95.0|0.82|1.25|||Log Rank|One-sided p-value based on log-rank test stratified by measurable disease status and prior NHA treatment.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|Treatment difference in rPFS assessed by the stratified log-rank test stratified by measurable disease status and prior NHA treatment.||1.25|0.82|0.5544
82593415|NCT03834519|164901099|OTHER|Treatment difference in TFST|Hazard Ratio (HR)|0.86||||||95.0|0.71|1.03|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.03|0.71|
82593416|NCT03834519|164901100|OTHER|Treatment difference in ORR|Difference in percentage|10.9|||||TWO_SIDED|95.0|4.0|17.1||||||||17.1|4.0|
82593417|NCT03834519|164901102|OTHER|Treatment difference in time to PSA progression|Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.89|1.38|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.38|0.89|
82593418|NCT03834519|164901103|OTHER|Treatment difference in SSRE|Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.38|0.78|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||0.78|0.38|
82593419|NCT03834519|164901104|OTHER|Treatment difference in time to radiographic soft tissue progression|Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.62|1.0|||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.00|0.62|
82654186|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.3157|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.3|0.3157
82654187|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0077|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Agitation: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.5|0.0077
82654188|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.0078|TWO_SIDED|95.0|-0.8|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 3||-0.1|-0.8|0.0078
82593420|NCT03834519|164901105|OTHER|Treatment difference in TTPE|Hazard Ratio (HR)|0.95||||0.3643|TWO_SIDED|95.0|0.72|1.26|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by measurable disease status and prior NHA treatment.|||1.26|0.72|0.3643
82593421|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for common serotype 4||14.2|-5.0|
82593422|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 6B||9.5|-7.3|
82593423|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 9V||9.5|-7.3|
82593424|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.8|9.5||||||Comparison between treatments for common serotype 14||9.5|-7.8|
82593425|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for common serotype 18C||14.2|-5.0|
82593426|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 19F||9.5|-7.3|
82593427|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for common serotype 23F||9.5|-7.3|
82593428|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for additional serotype 1||14.2|-5.0|
82593429|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 3||9.5|-7.3|
82593430|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 5||9.5|-7.3|
82593431|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 6A||9.5|-7.3|
82593432|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 7F||9.5|-7.3|
82593433|NCT00853749|164901108|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 19A||9.5|-7.3|
82593434|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.8|||||TWO_SIDED|95.0|-8.6|12.7||||||Comparison between treatments for common serotype 4||12.7|-8.6|
82593435|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 6B||9.7|-7.5|
82593436|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 9V||9.7|-7.5|
82593437|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|9.7||||||Comparison between treatments for common serotype 14||9.7|-7.5|
82593438|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.4|10.0||||||Comparison between treatments for common serotype 18C||10.0|-7.4|
82593439|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.5|10.0||||||Comparison between treatments for common serotype 19F||10.0|-7.5|
82593440|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-10.8|8.1||||||Comparison between treatments for common serotype 23F||8.1|-10.8|
82593441|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|2.7|||||TWO_SIDED|95.0|-5.0|14.2||||||Comparison between treatments for additional serotype 1||14.2|-5.0|
82593442|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-11.1|7.9||||||Comparison between treatments for additional serotype 3||7.9|-11.1|
82593443|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.7|||||TWO_SIDED|95.0|-8.5|12.2||||||Comparison between treatments for additional serotype 5||12.2|-8.5|
82593444|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 6A||9.5|-7.3|
82593445|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|-2.0|||||TWO_SIDED|95.0|-11.3|7.7||||||Comparison between treatments for additional serotype 7F||7.7|-11.3|
82654189|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0372|TWO_SIDED|95.0|-0.7|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.7|0.0372
82593446|NCT00853749|164901109|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions (percentage)|0.0|||||TWO_SIDED|95.0|-7.3|9.5||||||Comparison between treatments for additional serotype 19A||9.5|-7.3|
82593447|NCT00853749|164901110|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.3|||||TWO_SIDED|95.0|0.22|0.42|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.42|0.22|
82593448|NCT00853749|164901110|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.32|||||TWO_SIDED|95.0|0.23|0.44|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures ((PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.44|0.23|
82593449|NCT00853749|164901110|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.44|||||TWO_SIDED|95.0|0.29|0.67|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.67|0.29|
82593450|NCT00853749|164901110|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.88|||||TWO_SIDED|95.0|0.61|1.27|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.27|0.61|
82593451|NCT00853749|164901110|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric means|0.47|||||TWO_SIDED|95.0|0.34|0.65|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of geometric mean avidity (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.65|0.34|
82593452|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.35|1.12|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 4: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.12|0.35|
82593453|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.68|1.38|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.38|0.68|
82593454|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.51|1.81|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 9V: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.81|0.51|
82593455|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.0|||||TWO_SIDED|95.0|0.67|1.48|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 14: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.48|0.67|
82593456|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.33|0.98|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures(PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 18C: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.98|0.33|
82593457|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.1|||||TWO_SIDED|95.0|0.72|1.56|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.56|0.72|
82593458|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.6|||||TWO_SIDED|95.0|0.39|0.99|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.99|0.39|
82593459|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.2|||||TWO_SIDED|95.0|0.12|0.32|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.32|0.12|
82593460|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.56|1.18|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 3: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.18|0.56|
82593461|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.4|||||TWO_SIDED|95.0|0.21|0.63|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.63|0.21|
82593462|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|1.4|||||TWO_SIDED|95.0|0.88|2.25|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6A: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||2.25|0.88|
82593463|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.7|||||TWO_SIDED|95.0|0.48|1.14|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 7F: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.14|0.48|
82593464|NCT00853749|164901111|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMTs|0.8|||||TWO_SIDED|95.0|0.54|1.2|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19A: Ratio of GMTs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.20|0.54|
82593465|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.37|||||TWO_SIDED|95.0|0.25|0.55|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 4: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.55|0.25|
82593466|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.71|||||TWO_SIDED|95.0|0.44|1.15|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6B: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.15|0.44|
82593467|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.58|||||TWO_SIDED|95.0|0.45|0.75|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 9V: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.75|0.45|
82593468|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.77|||||TWO_SIDED|95.0|0.48|1.24|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 14: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.24|0.48|
82593469|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.57|||||TWO_SIDED|95.0|0.38|0.85|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 18C: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.85|0.38|
82593470|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.84|||||TWO_SIDED|95.0|0.56|1.27|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.27|0.56|
82593471|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.64|||||TWO_SIDED|95.0|0.44|0.95|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 23F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.95|0.44|
82593472|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.27|||||TWO_SIDED|95.0|0.18|0.4|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 1: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.40|0.18|
82593473|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|1.14|||||TWO_SIDED|95.0|0.76|1.72|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 3: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.72|0.76|
82593474|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.36|||||TWO_SIDED|95.0|0.25|0.51|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 5: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||0.51|0.25|
82593475|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.79|||||TWO_SIDED|95.0|0.55|1.14|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 6A: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.14|0.55|
82593476|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.89|||||TWO_SIDED|95.0|0.61|1.28|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 7F: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.28|0.61|
82593477|NCT00853749|164901112|SUPERIORITY_OR_OTHER_LEGACY||Ratio of GMCs|0.86|||||TWO_SIDED|95.0|0.6|1.23|||||CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).|Serotype 19A: Ratio of GMCs (PCV/23vPS/13vPnC, PCV/PCV/13vPnC).||1.23|0.60|
82593478|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.253|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any tenderness||||0.253
82593479|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.38|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for significant tenderness||||0.380
82593480|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.135|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any redness||||0.135
82593481|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for mild redness||||0.520
82593482|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for moderate redness||||0.283
82491481|NCT01681472|164676447|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593483|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.225|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for severe redness||||0.225
82593484|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.202|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for any swelling||||0.202
82593485|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.294|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for mild swelling||||0.294
82593486|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for moderate swelling||||0.175
82593487|NCT00853749|164901113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.314|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for severe swelling||||0.314
82593488|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for fever ≥ 38 degrees C but ≤ 39 degrees C||||> .99
82593489|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.99|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for decreased appetite||||> .99
82593490|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.543|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for irritability||||0.543
82593491|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.233|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for increased sleep||||0.233
82593492|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.198|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for decreased sleep||||0.198
82593493|NCT00853749|164901114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.628|TWO_SIDED||||||Fisher Exact|||Comparison between treatments for rash||||0.628
82593494|NCT00255970|164901115|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||This study had been designed as a superiority study. The null hypothesis had been that there would be no significant difference in probing depth between groups at the time points measured.||||>.05
82593495|NCT00255970|164901115|SUPERIORITY_OR_OTHER||||||>|0.05||||||The power analysis had been computed for a threshold of 0.05 with a power of 0.8.|ANOVA|||A power analysis, prior to data collection, determined that a minimum of 18 in each arm would be needed for this study.||||>0.05
82593496|NCT00255970|164901116|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||This study had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>.05
82491482|NCT01681472|164676447|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
82593497|NCT00255970|164901117|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||The change in recession, measured in mm, had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>0.05
82593498|NCT00255970|164901118|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||Each gingival unit (buccal, lingual, mesiobuccal, distobuccal, mesiolingual, and distolingual) of the individual tooth will be given a score from 0-3, called the gingival index for the area. The scores from the 6 areas of the tooth are added and divided by 6 to give the gingival index for the tooth.||||>0.05
82593499|NCT00255970|164901119|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||This study had been designed as a superiority study. The a priori power analysis had been designed with an effect size based on historical data. Thus, a minimal sample size of 34 patients would be necessary to determine if there was a true difference between groups, α =.05, power= 0.8. This number was then rounded to 40 patients, 20/ group (DFDBA and Regenafil).||||>0.05
82593500|NCT01538628|164901122|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|||||||Exact binomial test|testing the null hypothesis that the proportion for SpaceOAR is less than or equal to 0.70.||||||.0001
82593501|NCT00457015|164901139|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Blocked Wilcoxon rank sum test|||The primary efficacy analysis compared the change from baseline in MSCS Score at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the nonparametric Blocked Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.010
82593502|NCT00457015|164901140|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Blocked Wilcoxon rank sum test|||The analysis compared the TOS at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the nonparametric Blocked Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.003
82593503|NCT00457015|164901141|SUPERIORITY_OR_OTHER_LEGACY|||||||0.102||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Log Rank|||Kaplan-Meier analysis using the Log-Rank test was used to compare the time distribution between the 2 treatment groups.||||0.102
82593504|NCT03670953|164901145|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean difference|0.53|STANDARD_ERROR_OF_MEAN|0.226||0.0194|TWO_SIDED|95.0|0.09|0.97||"LSM, SE, CI and p-value from a MMRM with CFB in Good on time as outcome, baseline Good on time as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction."|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||0.97|0.09|0.0194
82593505|NCT03670953|164901146|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean difference|-0.48|STANDARD_ERROR_OF_MEAN|0.214||0.0252|TWO_SIDED|95.0|-0.9|-0.06||"LSM, SE, CI and p-value from a MMRM with CFB in Off time as outcome, baseline Off time as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction."|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||-0.06|-0.90|0.0252
82593506|NCT03670953|164901147|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Percent difference|10.9||||0.0015|TWO_SIDED|95.0|3.5|18.3||"P-value from the Cochran-Mantel-Haenszel test stratified by pooled center comparing the percentage of Much or Very Much Improved participants between the treatment groups."|Cochran-Mantel-Haenszel|||||18.3|3.5|0.0015
82593507|NCT03670953|164901148|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.89||0.9587|TWO_SIDED|95.0|-1.8|1.7||LSM, SE, CI and p-value from a MMRM with CFB in MDS-UPDRS Part III Score as outcome, baseline MDS-UPDRS Part III Score as a covariate, treatment and visit as fixed effects, pooled center as random effect and a treatment-by-visit interaction.|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||1.7|-1.8|0.9587
82593508|NCT03670953|164901149|SUPERIORITY|2-sided at a significance level of alpha = 0.05|Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.11||0.9668|TWO_SIDED|95.0|-2.2|2.1||LSM, SE, CI \& p-value from MMRM with CFB in MDS-UPDRS Part II \& III Scores as outcome, baseline MDS-UPDRS Part II and III Scores as a covariate, treatment and visit as fixed effects, pooled center as random effect \& a treatment-by-visit interaction.|MMRM|The degree-of-freedom of the denominator is estimated using the Kenward-Roger method. Unstructured covariance structure is assumed.||||2.1|-2.2|0.9668
82593509|NCT02603120|164901186|NON_INFERIORITY|A sample size of 260 participants per treatment group would provide at least 90% power to detect a noninferiority margin of 4% in difference in percentage of participants with HIV-1 RNA ≥ 50 copies/mL at Wk 48, between B/F/TAF group and ABC/DTG/3TC group. Sample size was based on assumptions that both treatment groups have 2% of participants with HIV-1 RNA ≥ 50 copies/mL at Wk 48 and that the non-inferiority margin is 4%, and that the significance level of the test is at a one-sided 0.025 level.|Difference in Percentages|0.7|||||TWO_SIDED|95.002|-1.0|2.8|||||The differences in percentages of participants between treatment groups and their 95.002% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||2.8|-1.0|
82593510|NCT02603120|164901186|SUPERIORITY|||||||0.62|||||||Fisher Exact|||||||0.62
82499950|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|||||TWO_SIDED|95.0|-55.9|16.9|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||16.9|-55.9|
82593511|NCT02603120|164901187|NON_INFERIORITY|It would be concluded that B/F/TAF is noninferior to ABC/DTG/3TC if the lower bound of the 2-sided 95.002% CI of the difference between treatment groups (B/F/TAF group -ABC/DTG/3TC group) in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10%.|Difference in Percentages|-1.4|||||TWO_SIDED|95.002|-5.5|2.6|||||The differences in percentages of participants between treatment groups and their 95.002% CIs were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|||2.6|-5.5|
82593512|NCT02603120|164901187|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||.59
82593513|NCT02603120|164901188|OTHER||Difference in least squares means|-35.0||||0.031|TWO_SIDED|95.0|-67.0|-3.0|||ANOVA|||||-3|-67|0.031
82593514|NCT02603120|164901190|OTHER||Difference in least squares means|0.276||||0.33|TWO_SIDED|95.0|-0.275|0.827|||ANOVA|||||0.827|-0.275|0.33
82593515|NCT02603120|164901192|OTHER||Difference in least squares means|-0.143||||0.47|TWO_SIDED|95.0|-0.534|0.248|||ANOVA|||||0.248|-0.534|0.47
82593516|NCT01469182|164901196|SUPERIORITY_OR_OTHER||Percent Difference|9.95||||0.005|TWO_SIDED|95.0|3.1|16.7|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||16.7|3.1|0.005
82593517|NCT01469182|164901197|SUPERIORITY_OR_OTHER||Percent Difference|5.58|||<|0.001|TWO_SIDED|95.0|2.9|8.2|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||8.2|2.9|<0.001
82593518|NCT01469182|164901198|SUPERIORITY_OR_OTHER||Percent Difference|7.88|||<|0.001|TWO_SIDED|95.0|5.5|10.5|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||10.5|5.5|<0.001
82593519|NCT01469182|164901199|SUPERIORITY_OR_OTHER||Percent Difference|10.17|||<|0.001|TWO_SIDED|95.0|6.6|13.6|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||13.6|6.6|<0.001
82593520|NCT01469182|164901200|SUPERIORITY_OR_OTHER||Percent Difference|5.25|||<|0.001|TWO_SIDED|95.0|3.3|7.4|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||7.4|3.3|<0.001
82593521|NCT01469182|164901201|SUPERIORITY_OR_OTHER||Percent Difference|0.17||||0.861|TWO_SIDED|95.0|-2.1|1.9|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||1.9|-2.1|0.861
82593522|NCT01469182|164901202|SUPERIORITY_OR_OTHER||Percent Difference|1.15||||0.344||95.0|-1.5|3.3|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||3.3|-1.5|0.344
82593523|NCT01469182|164901203|SUPERIORITY_OR_OTHER||Percent Difference|0.99||||0.382|TWO_SIDED|95.0|-1.5|3.0|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||3.0|-1.5|0.382
82593524|NCT01469182|164901204|SUPERIORITY_OR_OTHER||Percent Difference|2.46||||0.029|TWO_SIDED|95.0|0.3|4.4|||Stratified Miettinen and Nurminen|Baseline asthmatic status as the factor||||4.4|0.3|0.029
82593525|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.0034||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||60 minutes after study drug injection.||||0.0034
82593526|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.26||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||60 minutes after study drug injection.||||0.2600
82593527|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated measures Analysis of Variance|||60 minutes after study drug injection.||||0.0001
82593528|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.0039||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.0039
82593529|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.93||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.9300
82593530|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.0031||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||90 minutes after study drug injection.||||0.0031
82593531|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.019||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.0190
82593532|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.92||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.9200
82593533|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.015||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||120 minutes after study drug injection.||||0.0150
82593534|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.095||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.0950
82593535|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.6||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.6000
82593536|NCT00916357|164901240|SUPERIORITY_OR_OTHER|||||||0.031||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Peak postprandial glucose (PPG) values.||||0.0310
82593537|NCT00916357|164901241|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
82593538|NCT00916357|164901241|SUPERIORITY_OR_OTHER|||||||0.18||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.1800
82593539|NCT00916357|164901241|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
82593540|NCT00916357|164901242|SUPERIORITY_OR_OTHER|||||||0.0045||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0045
82593541|NCT00916357|164901242|SUPERIORITY_OR_OTHER|||||||0.48||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.4800
82593542|NCT00916357|164901242|SUPERIORITY_OR_OTHER|||||||0.0006||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.0006
82593543|NCT00916357|164901243|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
82593544|NCT00916357|164901243|SUPERIORITY_OR_OTHER|||||||0.0016||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0016
82593545|NCT00916357|164901243|SUPERIORITY_OR_OTHER|||||||0.1||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.1000
82593546|NCT00916357|164901244|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone + Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
82593547|NCT00916357|164901244|SUPERIORITY_OR_OTHER|||||||0.3||||||Treatment comparison for Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.3000
82593548|NCT00916357|164901244|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
82593549|NCT00916357|164901245|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||<0.0001
82593550|NCT00916357|164901245|SUPERIORITY_OR_OTHER|||||||0.77||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.7700
82593551|NCT00916357|164901245|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||<0.0001
82593552|NCT00916357|164901246|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.0100
82593553|NCT00916357|164901246|SUPERIORITY_OR_OTHER|||||||0.82||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.8200
82593554|NCT00916357|164901246|SUPERIORITY_OR_OTHER|||||||0.0056||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.0056
82593555|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.064||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.064
82593556|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.47||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.47
82593557|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.012||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>160 milligrams per deciliter (mg/dL)||||0.012
82593558|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.099||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.099
82593559|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.46||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.46
82593560|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.02||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \>140 milligrams per deciliter (mg/dL)||||0.020
82593561|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.13||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.13
82593562|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.41||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.41
82593563|NCT00916357|164901247|SUPERIORITY_OR_OTHER|||||||0.46||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Participants with blood glucose (BG) \<70 milligrams per deciliter (mg/dL)||||0.46
82593564|NCT00916357|164901248|SUPERIORITY_OR_OTHER|||||||0.016||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.016
82593565|NCT00916357|164901248|SUPERIORITY_OR_OTHER|||||||0.88||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||||||0.8800
82593566|NCT00916357|164901248|SUPERIORITY_OR_OTHER|||||||0.011||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||||||0.011
82593567|NCT00916357|164901250|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||<0.0001
82593568|NCT00916357|164901250|SUPERIORITY_OR_OTHER|||||||0.18||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||0.1800
82593569|NCT00916357|164901250|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Analysis for 10% of exposure (area under the curve \[AUC\])||||<0.0001
82593570|NCT00916357|164901250|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison for Humalog alone and Humalog + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||<0.0001
82654190|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0244|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.7|0.0244
82593571|NCT00916357|164901250|SUPERIORITY_OR_OTHER|||||||0.72||||||Treatment comparison of Humalog alone and Humulin-R + recombinant human hyaluronidase PH20 (rHuPH20).|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||0.7200
82593572|NCT00916357|164901250|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog + recombinant human hyaluronidase PH20 (rHuPH20) and Humulin-R + rHuPH20.|Repeated Measures Analysis of Variance|||Analysis for 50% of exposure (area under the curve \[AUC\])||||<0.0001
82593573|NCT03577730|164901251|OTHER||Median Difference (Final Values)|55.0||||0.092|TWO_SIDED|95.0|-9.0|118.0|||Generalized estimating equations||The median difference (+55) is an estimated difference between groups - rather than the actual difference - based on the pre-specified generalized estimated equations modeling.|||118|-9|0.092
82593574|NCT03577730|164901252|OTHER|||||||0.802|||||||Mixed Models Analysis|||Analysis for visual analog scale scores at rest presented.||||0.802
82593575|NCT03577730|164901253|OTHER|||||||0.32|||||||Mixed Models Analysis|||||||0.320
82593576|NCT03577730|164901254|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||||||0.670
82593577|NCT03577730|164901255|OTHER|||||||0.595|||||||Fisher Exact|||||||0.595
82593578|NCT03577730|164901256|OTHER|||||||0.985|||||||Fisher Exact|||||||0.985
82593579|NCT03577730|164901257|OTHER|||||||0.417|||||||Wilcoxon (Mann-Whitney)|||||||0.417
82593580|NCT03577730|164901258|OTHER|||||||0.432|||||||Wilcoxon (Mann-Whitney)|||||||0.432
82593581|NCT03577730|164901259|OTHER|||||||0.673|||||||Wilcoxon (Mann-Whitney)|||||||0.673
82593582|NCT03577730|164901260|OTHER|||||||0.058|||||||Chi-squared|||||||0.058
82593583|NCT02634151|164901272|SUPERIORITY||LS Mean Difference|-11.05||||0.0057|TWO_SIDED|95.0|-18.81|-3.29|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||A 2-sided test with a significance level of 0.05 was used for the comparison.||-3.29|-18.81|0.0057
82593584|NCT02634151|164901273|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.8||||0.0648|TWO_SIDED|95.0|-24.35|0.75|||ANCOVA|Randomized treatment group and baseline diabetes status are included as factors, and the outcome at baseline is included as a covariate.||High-Intensity.||0.75|-24.35|0.0648
82593585|NCT02634151|164901273|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.64||||0.0398|TWO_SIDED|95.0|-20.77|-0.51|||ANCOVA|Randomized treatment group and baseline diabetes status are included as factors, and the outcome at baseline is included as a covariate.||Moderate Intensity.||-0.51|-20.77|0.0398
82593586|NCT02634151|164901274|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.09||||0.0275|TWO_SIDED|95.0|-19.04|-1.14|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.14|-19.04|0.0275
82593587|NCT02634151|164901274|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.4||||0.0524|TWO_SIDED|95.0|-18.9|0.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4.||0.10|-18.90|0.0524
82593588|NCT02634151|164901274|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.89||||0.8602|TWO_SIDED|95.0|-9.12|10.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||10.90|-9.12|0.8602
82593589|NCT02634151|164901274|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.63||||0.0115|TWO_SIDED|95.0|-22.37|-2.89|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-2.89|-22.37|0.0115
82593590|NCT02634151|164901274|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-5.87||||0.1945|TWO_SIDED|95.0|-14.79|3.05|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Average of week 8 and 12||3.05|-14.79|0.1945
82593591|NCT02634151|164901275|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-5.88||||0.0991|TWO_SIDED|95.0|-12.89|1.13|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||1.13|-12.89|0.0991
82593592|NCT02634151|164901276|OTHER|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.58||||0.0101|TWO_SIDED|95.0|-13.32|-1.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.84|-13.32|0.0101
82593593|NCT02634151|164901276|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.56||||0.0037|TWO_SIDED|95.0|-15.94|-3.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.18|-15.94|0.0037
82593594|NCT02634151|164901276|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.94||||0.7839|TWO_SIDED|95.0|-7.72|5.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||5.84|-7.72|0.7839
82593595|NCT02634151|164901276|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.69||||0.0025|TWO_SIDED|95.0|-17.53|-3.84|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-3.84|-17.53|0.0025
82593596|NCT02634151|164901277|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.66||||0.0117|TWO_SIDED|95.0|-22.45|-2.88|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-2.88|-22.45|0.0117
82593597|NCT02634151|164901277|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.55||||0.0036|TWO_SIDED|95.0|-25.88|-5.21|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-5.21|-25.88|0.0036
82593598|NCT02634151|164901277|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.59||||0.9147|TWO_SIDED|95.0|-11.48|10.31||Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.|ANCOVA|||Week 8||10.31|-11.48|0.9147
82593599|NCT02634151|164901277|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-16.59||||0.0026|TWO_SIDED|95.0|-27.24|-5.93|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-5.93|-27.24|0.0026
82593600|NCT02634151|164901278|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.13||||0.0101|TWO_SIDED|95.0|-10.77|-1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.50|-10.77|0.0101
82593601|NCT02634151|164901278|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.73||||0.0036|TWO_SIDED|95.0|-12.89|-2.58|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-2.58|-12.89|0.0036
82593602|NCT02634151|164901278|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.12||||0.9653|TWO_SIDED|95.0|-5.27|5.51|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||5.51|-5.27|0.9653
82593603|NCT02634151|164901278|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.89||||0.0101|TWO_SIDED|95.0|-12.1|-1.68|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-1.68|-12.10|0.0101
82593604|NCT02634151|164901279|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.74||||0.0173|TWO_SIDED|95.0|-23.19|-2.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-2.30|-23.19|0.0173
82593605|NCT02634151|164901279|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-16.29||||0.0038|TWO_SIDED|95.0|-27.17|-5.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-5.40|-27.17|0.0038
82593606|NCT02634151|164901279|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.58||||0.7846|TWO_SIDED|95.0|-9.85|13.01|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||13.01|-9.85|0.7846
82593607|NCT02634151|164901279|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-13.98||||0.0121|TWO_SIDED|95.0|-24.83|-3.13|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-3.13|-24.83|0.0121
82593608|NCT02634151|164901280|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-13.32||||0.0108|TWO_SIDED|95.0|-23.32|-3.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-3.12|-23.32|0.0108
82593609|NCT02634151|164901280|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-23.6|||<|0.0001|TWO_SIDED|95.0|-34.78|-12.42|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-12.42|-34.78|<0.0001
82593610|NCT02634151|164901280|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.71||||0.1376|TWO_SIDED|95.0|-15.6|2.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.18|-15.60|0.1376
82593611|NCT02634151|164901280|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.64||||0.0144|TWO_SIDED|95.0|-28.1|-3.18|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||-3.18|-28.10|0.0144
82593612|NCT02634151|164901281|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-19.53||||0.0113|TWO_SIDED|95.0|-34.55|-4.51|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-4.51|-34.55|0.0113
82593613|NCT02634151|164901281|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-33.64||||0.0002|TWO_SIDED|95.0|-50.58|-16.69|||ANCOVA|||Week 4||-16.69|-50.58|0.0002
82593614|NCT02634151|164901281|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-8.33||||0.1873|TWO_SIDED|95.0|-20.77|4.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||4.12|-20.77|0.1873
82593615|NCT02634151|164901281|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-29.58||||0.0172|TWO_SIDED|95.0|-53.8|-5.37|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-5.37|-53.80|0.0172
82593616|NCT02634151|164901282|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.52||||0.021|TWO_SIDED|95.0|-21.27|-1.77|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-1.77|-21.27|0.0210
82593617|NCT02634151|164901282|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-23.01|||<|0.0001|TWO_SIDED|95.0|-34.02|-12.01|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-12.01|-34.02|<0.0001
82593618|NCT02634151|164901282|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.43||||0.1483|TWO_SIDED|95.0|-15.19|2.33|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.33|-15.19|0.1483
82593619|NCT02634151|164901282|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.63||||0.0214|TWO_SIDED|95.0|-21.5|-1.76|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-1.76|-21.50|0.0214
82593620|NCT02634151|164901283|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-2.95||||0.0308|TWO_SIDED|95.0|-5.62|-0.28|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||-0.28|-5.62|0.0308
82593621|NCT02634151|164901283|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.3||||0.0002|TWO_SIDED|95.0|-9.56|-3.04|||ANCOVA|A 2-sided test with a significance level of 0.05 was used for the comparison.||Week 4||-3.04|-9.56|0.0002
82654191|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0993|TWO_SIDED|95.0|-0.6|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.6|0.0993
82593622|NCT02634151|164901283|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.58||||0.2056|TWO_SIDED|95.0|-4.03|0.88|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.88|-4.03|0.2056
82593623|NCT02634151|164901283|SUPERIORITY||LS Mean Difference|-4.0||||0.0103|TWO_SIDED|95.0|-7.04|-0.96|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-0.96|-7.04|0.0103
82593624|NCT02634151|164901284|SUPERIORITY||LS Mean Difference|-2.13||||0.3193|TWO_SIDED|95.0|-6.36|2.09|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||2.09|-6.36|0.3193
82593625|NCT02634151|164901284|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-2.4||||0.2932|TWO_SIDED|95.0|-6.91|2.11|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||2.11|-6.91|0.2932
82593626|NCT02634151|164901284|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.98||||0.4383|TWO_SIDED|95.0|-3.06|7.02|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||7.02|-3.06|0.4383
82593627|NCT02634151|164901284|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|2.78||||0.2814|TWO_SIDED|95.0|-2.31|7.86|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.86|-2.31|0.2814
82593628|NCT02634151|164901285|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.92||||0.4278|TWO_SIDED|95.0|-3.23|1.38|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 2||1.38|-3.23|0.4278
82593629|NCT02634151|164901285|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.13||||0.3529|TWO_SIDED|95.0|-3.53|1.27|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.27|-3.53|0.3529
82593630|NCT02634151|164901285|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.24||||0.3522|TWO_SIDED|95.0|-1.39|3.86|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.86|-1.39|0.3522
82593631|NCT02634151|164901285|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.6||||0.2635|TWO_SIDED|95.0|-1.22|4.42|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||4.42|-1.22|0.2635
82593632|NCT02634151|164901286|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.23||||0.0464|TWO_SIDED|95.0|1.01|4.93|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||4.93|1.01|0.0464
82593633|NCT02634151|164901286|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.3||||0.5278|TWO_SIDED|95.0|0.58|2.92|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.92|0.58|0.5278
82593634|NCT02634151|164901286|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.36||||0.0359|TWO_SIDED|95.0|1.06|5.27|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||5.27|1.06|0.0359
82593635|NCT02634151|164901287|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.5||||0.0268|TWO_SIDED|95.0|1.11|5.61|||Regression, Logistic|||Week 4||5.61|1.11|0.0268
82654192|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.17||0.0185|TWO_SIDED|95.0|-0.7|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Psychic: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.7|0.0185
82491483|NCT01681472|164676447|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593636|NCT02634151|164901287|SUPERIORITY||Odds Ratio (OR)|1.55||||0.2755|TWO_SIDED|95.0|0.7|3.41|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.41|0.70|0.2755
82593637|NCT02634151|164901287|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|4.74||||0.0003|TWO_SIDED|95.0|2.05|10.94|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||10.94|2.05|0.0003
82593638|NCT02634151|164901288|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.26||||0.0079|TWO_SIDED|95.0|1.36|7.8|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||7.80|1.36|0.0079
82593639|NCT02634151|164901288|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.44||||0.4002|TWO_SIDED|95.0|0.62|3.35|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.35|0.62|0.4002
82593640|NCT02634151|164901288|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.09||||0.0142|TWO_SIDED|95.0|1.25|7.59|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.59|1.25|0.0142
82593641|NCT02634151|164901289|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|3.7||||0.0115|TWO_SIDED|95.0|1.34|10.2|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||10.20|1.34|0.0115
82593642|NCT02634151|164901289|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|1.15||||0.7566|TWO_SIDED|95.0|0.48|2.75|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.75|0.48|0.7566
82593643|NCT02634151|164901289|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|Odds Ratio (OR)|2.96||||0.0298|TWO_SIDED|95.0|1.11|7.88|||Regression, Logistic|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||7.88|1.11|0.0298
82593644|NCT02634151|164901290|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.4||||0.0029|TWO_SIDED|95.0|-17.2|-3.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.7|-17.2|0.0029
82593645|NCT02634151|164901290|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-4.3||||0.1666|TWO_SIDED|95.0|-10.4|1.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||1.8|-10.4|0.1666
82593646|NCT02634151|164901290|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.5||||0.001|TWO_SIDED|95.0|-18.2|-4.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-4.8|-18.2|0.0010
82593647|NCT02634151|164901291|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-10.7||||0.0018|TWO_SIDED|95.0|-17.3|-4.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-4.1|-17.3|0.0018
82593648|NCT02634151|164901291|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-3.8||||0.2437|TWO_SIDED|95.0|-10.1|2.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||2.6|-10.1|0.2437
82593649|NCT02634151|164901291|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-11.6||||0.0012|TWO_SIDED|95.0|-18.5|-4.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-4.7|-18.5|0.0012
82593650|NCT02634151|164901292|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.7||||0.6832|TWO_SIDED|95.0|-4.2|2.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||2.8|-4.2|0.6832
82593651|NCT02634151|164901292|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.674|TWO_SIDED|95.0|-2.9|4.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||4.5|-2.9|0.6740
82593652|NCT02634151|164901292|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.9||||0.3379|TWO_SIDED|95.0|-2.0|5.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||5.7|-2.0|0.3379
82593653|NCT02634151|164901293|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.7||||0.7753|TWO_SIDED|95.0|-5.9|4.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||4.4|-5.9|0.7753
82593654|NCT02634151|164901293|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.5472|TWO_SIDED|95.0|-3.9|7.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||7.4|-3.9|0.5472
82491484|NCT01681472|164676448|SUPERIORITY|||||||0.1796|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1796
82593655|NCT02634151|164901293|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|3.6||||0.2406|TWO_SIDED|95.0|-2.4|9.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||9.6|-2.4|0.2406
82593656|NCT02634151|164901294|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.2||||0.9028|TWO_SIDED|95.0|-3.3|3.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||3.8|-3.3|0.9028
82593657|NCT02634151|164901294|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|5.2||||0.0199|TWO_SIDED|95.0|0.8|9.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||9.6|0.8|0.0199
82593658|NCT02634151|164901294|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.6||||0.0369|TWO_SIDED|95.0|0.3|8.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||8.9|0.3|0.0369
82593659|NCT02634151|164901295|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.1||||0.911|TWO_SIDED|95.0|-1.2|1.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.4|-1.2|0.9110
82593660|NCT02634151|164901295|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.9||||0.0243|TWO_SIDED|95.0|0.3|3.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||3.5|0.3|0.0243
82593661|NCT02634151|164901295|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.0388|TWO_SIDED|95.0|0.1|3.2|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||3.2|0.1|0.0388
82654193|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2471|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.2471
82491485|NCT01681472|164676448|SUPERIORITY|||||||0.3243|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.3243
82593662|NCT02634151|164901296|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|7.0||||0.2799|TWO_SIDED|95.0|-5.7|19.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||19.6|-5.7|0.2799
82593663|NCT02634151|164901296|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|26.8||||0.0018|TWO_SIDED|95.0|10.2|43.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||43.3|10.2|0.0018
82593664|NCT02634151|164901296|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|20.1||||0.0197|TWO_SIDED|95.0|3.3|36.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||36.9|3.3|0.0197
82593665|NCT02634151|164901297|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.6||||0.0179|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||1.0|0.1|0.0179
82593666|NCT02634151|164901297|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.1||||0.0003|TWO_SIDED|95.0|0.5|1.7|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||1.7|0.5|0.0003
82593667|NCT02634151|164901297|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.0095|TWO_SIDED|95.0|0.2|1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||1.5|0.2|0.0095
82593668|NCT02634151|164901298|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-12.2||||0.0057|TWO_SIDED|95.0|-20.8|-3.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-3.6|-20.8|0.0057
82593669|NCT02634151|164901298|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.2||||0.9665|TWO_SIDED|95.0|-8.3|8.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||8.6|-8.3|0.9665
82593670|NCT02634151|164901298|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-6.2||||0.2358|TWO_SIDED|95.0|-16.4|4.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||4.1|-16.4|0.2358
82593671|NCT02634151|164901299|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-1.3||||0.0048|TWO_SIDED|95.0|-2.3|-0.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-0.4|-2.3|0.0048
82593672|NCT02634151|164901299|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.1||||0.9064|TWO_SIDED|95.0|-0.9|0.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.8|-0.9|0.9064
82654194|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1076|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.1076
82654195|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2782|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.4|0.2782
82593673|NCT02634151|164901299|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6||||0.2505|TWO_SIDED|95.0|-1.7|0.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||0.4|-1.7|0.2505
82593674|NCT02634151|164901300|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.8|||<|0.0001|TWO_SIDED|95.0|-22.6|-9.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-9.0|-22.6|<0.0001
82593675|NCT02634151|164901300|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-7.2||||0.0406|TWO_SIDED|95.0|-14.0|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||-0.3|-14.0|0.0406
82593676|NCT02634151|164901300|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-15.3|||<|0.0001|TWO_SIDED|95.0|-22.8|-7.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-7.8|-22.8|<0.0001
82593677|NCT02634151|164901301|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||-0.3|-0.9|<0.0001
82593678|NCT02634151|164901301|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.3||||0.0771|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||0.0|-0.6|0.0771
82593679|NCT02634151|164901301|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.6||||0.0006|TWO_SIDED|95.0|-1.0|-0.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||-0.3|-1.0|0.0006
82491486|NCT01681472|164676448|SUPERIORITY|||||||0.0263|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0263
82491487|NCT01681472|164676448|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0268
82491488|NCT01681472|164676448|SUPERIORITY|||||||0.2041|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.2041
82491489|NCT01681472|164676448|SUPERIORITY|||||||0.0061|||||||Wilcoxon (Mann-Whitney)|||||||0.0061
82491490|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491491|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491492|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491493|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491494|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491495|NCT01681472|164676449|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of tmax was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491496|NCT01681472|164676450|SUPERIORITY|||||||0.0268|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0268
82491497|NCT01681472|164676450|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491498|NCT01681472|164676450|SUPERIORITY|||||||0.0227|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0227
82491499|NCT01681472|164676450|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491500|NCT01681472|164676450|SUPERIORITY|||||||0.0933|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0933
82491501|NCT01681472|164676450|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491502|NCT01681472|164676451|SUPERIORITY|||||||0.0177|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0177
82491503|NCT01681472|164676451|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491504|NCT01681472|164676451|SUPERIORITY|||||||0.0058|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0058
82491505|NCT01681472|164676451|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491506|NCT01681472|164676451|SUPERIORITY|||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0043
82491507|NCT01681472|164676451|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491508|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491509|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491510|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593680|NCT02634151|164901302|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|8.6||||0.121|TWO_SIDED|95.0|-2.3|19.6|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||19.6|-2.3|0.1210
82593681|NCT02634151|164901302|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|8.0||||0.0948|TWO_SIDED|95.0|-1.4|17.3|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 8||17.3|-1.4|0.0948
82593682|NCT02634151|164901302|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.1||||0.5113|TWO_SIDED|95.0|-8.2|16.4|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||16.4|-8.2|0.5113
82593683|NCT02634151|164901303|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|1.7||||0.7276|TWO_SIDED|95.0|-7.8|11.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 4||11.1|-7.8|0.7276
82593684|NCT02634151|164901303|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|4.7||||0.2218|TWO_SIDED|95.0|-2.9|12.2|||ANCOVA|||Week 8||12.2|-2.9|0.2218
82593685|NCT02634151|164901303|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.3||||0.942|TWO_SIDED|95.0|-9.2|9.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||Week 12||9.8|-9.2|0.9420
82593686|NCT02634151|164901304|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|32.57||||0.6786|TWO_SIDED|95.0|-122.98|188.12|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||188.12|-122.98|0.6786
82593687|NCT02634151|164901305|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-0.84||||0.1648|TWO_SIDED|95.0|-2.03|0.35|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||0.35|-2.03|0.1648
82593688|NCT02634151|164901306|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|41.5||||0.4701|TWO_SIDED|95.0|-72.1|155.1|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||155.1|-72.1|0.4701
82593689|NCT02634151|164901307|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-32.4||||0.0517|TWO_SIDED|95.0|-65.1|0.2|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||0.2|-65.1|0.0517
82593690|NCT02634151|164901308|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-9.5||||0.9111|TWO_SIDED|95.0|-177.8|158.8|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||158.8|-177.8|0.9111
82654196|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.4646|TWO_SIDED|95.0|-0.4|0.2|||Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 21||0.2|-0.4|0.4646
82593691|NCT02634151|164901309|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|-3.0||||0.3864|TWO_SIDED|95.0|-10.0|3.9|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||3.9|-10.0|0.3864
82491511|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593692|NCT02634151|164901310|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|12.2||||0.0145|TWO_SIDED|95.0|2.5|22.0|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||22.0|2.5|0.0145
82593693|NCT02634151|164901311|SUPERIORITY|A 2-sided test with a significance level of 0.05 was used for the comparison.|LS Mean Difference|0.8||||0.051|TWO_SIDED|95.0|0.0|1.5|||ANCOVA|Randomized treatment group, baseline statin intensity, \& diabetes status are included as factors, \& outcome at baseline is included as a covariate.||||1.5|-0.0|0.0510
82593694|NCT02347098|164901313|SUPERIORITY|||||||0.2533|||||||t-test, 2 sided|||||||0.2533
82593695|NCT02347098|164901314|SUPERIORITY|||||||0.779|||||||t-test, 2 sided|||||||0.7790
82593696|NCT02347098|164901315|SUPERIORITY|||||||0.4549||||||The p-value reported compares the trends of outcome across time (baseline pre-PCI, baseline post-PCI, 30-day follow-up, and 90-day follow-up) between treatment groups using the repeated measurement analysis.|Mixed Models Analysis|||||||0.4549
82593697|NCT02347098|164901316|SUPERIORITY|||||||0.2663|||||||Fisher Exact|||||||0.2663
82593698|NCT02187172|164901319|SUPERIORITY||Mean Difference (Final Values)|-0.2456|STANDARD_ERROR_OF_MEAN|0.07||0.0012|TWO_SIDED|95.0|-0.3873|-0.104|||Regression, Linear|||Comparison during RCT period||-0.1040|-0.3873|0.0012
82593699|NCT02187172|164901319|SUPERIORITY||Mean Difference (Final Values)|-0.0151|STANDARD_ERROR_OF_MEAN|0.0353||0.6718|TWO_SIDED|95.0|-0.0867|0.0565|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.0565|-0.0867|0.6718
82593700|NCT02187172|164901320|SUPERIORITY||Mean Difference (Final Values)|-64.97|STANDARD_ERROR_OF_MEAN|44.88||0.1159|TWO_SIDED|95.0|-115.83|25.89|||Regression, Linear|||Comparison during RCT period||25.89|-115.83|0.1159
82593701|NCT02187172|164901320|SUPERIORITY||Mean Difference (Final Values)|6.65|STANDARD_ERROR_OF_MEAN|22.24||0.7666|TWO_SIDED|95.0|-38.41|51.72|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||51.72|-38.41|0.7666
82593702|NCT02187172|164901321|SUPERIORITY||Mean Difference (Final Values)|-80.89|STANDARD_ERROR_OF_MEAN|30.46||0.0115|TWO_SIDED|95.0|-142.55|-19.23|||Regression, Linear|||Comparison during RCT period||-19.23|-142.55|0.0115
82593703|NCT02187172|164901321|SUPERIORITY||Mean Difference (Final Values)|-1.99|STANDARD_ERROR_OF_MEAN|14.11||0.8883|TWO_SIDED|95.0|-30.58|26.59|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||26.59|-30.58|0.8883
82593704|NCT02187172|164901322|SUPERIORITY||Mean Difference (Final Values)|-3027.21|STANDARD_ERROR_OF_MEAN|3180.58||0.3472|TWO_SIDED|95.0|-9465.95|3411.54|||Regression, Linear|||Comparison during RCT period||3411.54|-9465.95|0.3472
82593705|NCT02187172|164901322|SUPERIORITY||Mean Difference (Final Values)|-1974.63|STANDARD_ERROR_OF_MEAN|1659.11||0.2416|TWO_SIDED|95.0|-5336.3|1387.04|||Regression, Linear|||Combined ustekinumab and placebo groups for active treatment period analysis.||1387.04|-5336.30|0.2416
82593706|NCT02187172|164901323|SUPERIORITY||Mean Difference (Final Values)|20.66|STANDARD_ERROR_OF_MEAN|24.75||0.6742|TWO_SIDED|95.0|-78.03|119.34|||Regression, Linear|||Comparison during RCT period||119.34|-78.03|0.6742
82593707|NCT02187172|164901323|SUPERIORITY||Mean Difference (Final Values)|47.0|STANDARD_ERROR_OF_MEAN|35.84||0.1979|TWO_SIDED|95.0|-25.63|11963.0|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||11963|-25.63|0.1979
82593708|NCT02187172|164901324|SUPERIORITY||Mean Difference (Final Values)|-7884.29|STANDARD_ERROR_OF_MEAN|7780.29||0.3173|TWO_SIDED|95.0|-23634.67|7566.1|||Regression, Linear|||Comparison during RCT period||7566.10|-23634.67|0.3173
82593709|NCT02187172|164901324|SUPERIORITY||Mean Difference (Final Values)|-3782.54|STANDARD_ERROR_OF_MEAN|4073.25||0.3591|TWO_SIDED|95.0|-12035.72|4470.64|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||4470.64|-12035.72|0.3591
82593710|NCT02187172|164901325|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|2.54||0.9767|TWO_SIDED|95.0|-5.22|5.07|||Regression, Linear|||Comparison during RCT period||5.07|-5.22|0.9767
82593711|NCT02187172|164901325|SUPERIORITY||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.09||0.3205|TWO_SIDED|95.0|-3.29|1.11|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.11|-3.29|0.3205
82593712|NCT02187172|164901326|SUPERIORITY||Mean Difference (Final Values)|-14.79|STANDARD_ERROR_OF_MEAN|19.96||0.4632|TWO_SIDED|95.0|-55.19|25.61|||Regression, Linear|||Comparison during RCT period||25.61|-55.19|0.4632
82491512|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491513|NCT01681472|164676452|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593713|NCT02187172|164901326|SUPERIORITY||Mean Difference (Final Values)|-7.24|STANDARD_ERROR_OF_MEAN|11.47||0.5316|TWO_SIDED|95.0|-30.47|15.99|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||15.99|-30.47|0.5316
82593714|NCT02187172|164901327|SUPERIORITY||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.68||0.1928|TWO_SIDED|95.0|-2.27|0.47|||Regression, Linear|||Comparison during RCT period||0.47|-2.27|0.1928
82593715|NCT02187172|164901327|SUPERIORITY||Mean Difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.34||0.058|TWO_SIDED|95.0|-1.36|0.02|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.02|-1.36|0.0580
82593716|NCT02187172|164901328|SUPERIORITY||Mean Difference (Final Values)|-4.14|STANDARD_ERROR_OF_MEAN|11.41||0.7185|TWO_SIDED|95.0|-27.24|18.96|||Regression, Linear|||Comparison during RCT period||18.96|-27.24|0.7185
82593717|NCT02187172|164901328|SUPERIORITY||Mean Difference (Final Values)|-8.35|STANDARD_ERROR_OF_MEAN|8.41||0.3271|TWO_SIDED|95.0|-25.4|8.69|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||8.69|-25.40|0.3271
82593718|NCT02187172|164901329|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.51||0.3124|TWO_SIDED|95.0|-1.56|0.51|||Regression, Linear|||Comparison during RCT period||0.51|-1.56|0.3124
82593719|NCT02187172|164901329|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.11||0.0106|TWO_SIDED|95.0|-0.54|-0.08|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-0.08|-0.54|0.0106
82593720|NCT02187172|164901330|SUPERIORITY||Mean Difference (Final Values)|-70.76|STANDARD_ERROR_OF_MEAN|33.42||0.0408|TWO_SIDED|95.0|-138.42|-3.11|||Regression, Linear|||Comparison during RCT period||-3.11|-138.42|0.0408
82593721|NCT02187172|164901330|SUPERIORITY||Mean Difference (Final Values)|71.72|STANDARD_ERROR_OF_MEAN|132.87||0.5926|TWO_SIDED|95.0|-197.5|340.93|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||340.93|-197.50|0.5926
82593722|NCT02187172|164901331|SUPERIORITY||Mean Difference (Final Values)|191.49|STANDARD_ERROR_OF_MEAN|46.1||0.0002|TWO_SIDED|95.0|98.18|284.81|||Regression, Linear|||Comparison during RCT period||284.81|98.18|0.0002
82593723|NCT02187172|164901331|SUPERIORITY||Mean Difference (Final Values)|171.21|STANDARD_ERROR_OF_MEAN|20.3|<|0.0001|TWO_SIDED|95.0|130.08|212.34|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||212.34|130.08|<0.0001
82593724|NCT02187172|164901332|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.98||0.011|TWO_SIDED|95.0|-4.62|-0.64|||Regression, Linear|||Comparison during RCT period||-0.64|-4.62|0.0110
82593725|NCT02187172|164901332|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.32||0.0008|TWO_SIDED|95.0|-1.79|-0.51|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-0.51|-1.79|0.0008
82491514|NCT01681472|164676453|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593726|NCT02187172|164901333|SUPERIORITY||Mean Difference (Final Values)|-155.31|STANDARD_ERROR_OF_MEAN|688.28||0.8227|TWO_SIDED|95.0|-1548.66|1238.04|||Regression, Linear|||Comparison during RCT period||1238.04|-1548.66|0.8227
82593727|NCT02187172|164901333|SUPERIORITY||Mean Difference (Final Values)|-407.43|STANDARD_ERROR_OF_MEAN|180.7||0.0302|TWO_SIDED|95.0|-773.57|-41.29|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||-41.29|-773.57|0.0302
82593728|NCT02187172|164901334|SUPERIORITY||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|-0.47||0.2333|TWO_SIDED|95.0|-1.25|0.32|||Regression, Linear|||Comparison during RCT period||0.32|-1.25|0.2333
82593729|NCT02187172|164901334|SUPERIORITY||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.0713|TWO_SIDED|95.0|-0.8|0.03|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.03|-0.80|0.0713
82593730|NCT02187172|164901335|SUPERIORITY||Mean Difference (Final Values)|-16.87|STANDARD_ERROR_OF_MEAN|15.62||0.2869|TWO_SIDED|95.0|-48.48|14.75|||Regression, Linear|||Comparison during RCT period||14.75|-48.48|0.2869
82593731|NCT02187172|164901335|SUPERIORITY||Mean Difference (Final Values)|-2.23|STANDARD_ERROR_OF_MEAN|1.71||0.1988|TWO_SIDED|95.0|-5.69|1.22|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.22|-5.69|0.1988
82593732|NCT02187172|164901336|SUPERIORITY||Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|12.91||0.8744|TWO_SIDED|95.0|-24.09|28.2|||Regression, Linear|||Comparison during RCT period||28.20|-24.09|0.8744
82593733|NCT02187172|164901336|SUPERIORITY||Mean Difference (Final Values)|10.55|STANDARD_ERROR_OF_MEAN|8.26||0.2093|TWO_SIDED|95.0|-6.18|27.29|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||27.29|-6.18|0.2093
82593734|NCT02187172|164901337|SUPERIORITY||Mean Difference (Final Values)|19.2|STANDARD_ERROR_OF_MEAN|7.41||0.0135|TWO_SIDED|95.0|4.21|34.2|||Regression, Linear|||Comparison during RCT period||34.20|4.21|0.0135
82593735|NCT02187172|164901337|SUPERIORITY||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|4.14||0.8499|TWO_SIDED|95.0|-9.19|7.61|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||7.61|-9.19|0.8499
82593736|NCT02187172|164901338|SUPERIORITY||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.96||0.0693|TWO_SIDED|95.0|-0.3|7.62|||Regression, Linear|||Comparison during RCT period||7.62|-0.30|0.0693
82593737|NCT02187172|164901338|SUPERIORITY||Mean Difference (Final Values)|1.92|STANDARD_ERROR_OF_MEAN|1.42||0.1841|TWO_SIDED|95.0|-0.96|4.8|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||4.80|-0.96|0.1841
82593738|NCT02187172|164901339|SUPERIORITY||Mean Difference (Final Values)|1.25|STANDARD_ERROR_OF_MEAN|1.03||0.2305|TWO_SIDED|95.0|-0.83|3.34|||Regression, Linear|||Comparison during RCT period||3.34|-0.83|0.2305
82654197|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.16|TWO_SIDED|95.0|-0.5|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Anxiety Somatic: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.5|0.1600
82593739|NCT02187172|164901339|SUPERIORITY||Mean Difference (Final Values)|0.91|STANDARD_ERROR_OF_MEAN|0.72||0.2189|TWO_SIDED|95.0|-0.53|2.37|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||2.37|-0.53|0.2189
82593740|NCT02187172|164901340|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.11||0.3212|TWO_SIDED|95.0|-0.34|0.11|||Regression, Linear|||Comparison during RCT period||0.11|-0.34|0.3212
82593741|NCT02187172|164901340|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0137|TWO_SIDED|95.0|0.04|0.31|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.31|0.04|0.0137
82593742|NCT02187172|164901341|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.6||0.8383|TWO_SIDED|95.0|-1.09|1.33|||Regression, Linear|||Comparison during RCT period||1.33|-1.09|0.8383
82593743|NCT02187172|164901341|SUPERIORITY||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|0.36||0.1651|TWO_SIDED|95.0|-0.22|1.24|||Regression, Logistic|||Global change from baseline after 52 weeks of active treatment.||1.24|-0.22|0.1651
82593744|NCT02187172|164901342|SUPERIORITY||Mean Difference (Final Values)|2.49|STANDARD_ERROR_OF_MEAN|1.7||0.1502|TWO_SIDED|95.0|-0.94|5.93|||Regression, Linear|||Comparison during RCT period||5.93|-0.94|0.1502
82593745|NCT02187172|164901342|SUPERIORITY||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.84||0.8054|TWO_SIDED|95.0|-1.49|1.91|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||1.91|-1.49|0.8054
82593746|NCT02187172|164901343|SUPERIORITY||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|1.69||0.4235|TWO_SIDED|95.0|-4.79|2.05|||Regression, Linear|||Comparison during RCT period||2.05|-4.79|0.4235
82593747|NCT02187172|164901343|SUPERIORITY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.97||0.8653|TWO_SIDED|95.0|-1.8|2.13|||Regression, Linear|||Comparison during RCT period||2.13|-1.80|0.8653
82593748|NCT02187172|164901344|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|1.89||0.558|TWO_SIDED|95.0|-4.95|2.71|||Regression, Linear|||Comparison during RCT period||2.71|-4.95|0.5580
82593749|NCT02187172|164901344|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.0||0.4454|TWO_SIDED|95.0|-1.25|2.8|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||2.80|-1.25|0.4454
82593750|NCT02187172|164901345|SUPERIORITY||Mean Difference (Final Values)|21.37|STANDARD_ERROR_OF_MEAN|6.67||0.0027|TWO_SIDED|95.0|7.86|34.87|||Regression, Linear|||Comparison during RCT period||34.87|7.86|0.0027
82593751|NCT02187172|164901345|SUPERIORITY||Mean Difference (Final Values)|-2.92|STANDARD_ERROR_OF_MEAN|4.07||0.4775|TWO_SIDED|95.0|-11.17|5.33|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||5.33|-11.17|0.4775
82593752|NCT02187172|164901346|SUPERIORITY||Mean Difference (Final Values)|230.77|STANDARD_ERROR_OF_MEAN|69.8||0.0021|TWO_SIDED|95.0|89.47|372.08|||Regression, Linear|||Comparison during RCT period||372.08|89.47|0.0021
82593753|NCT02187172|164901346|SUPERIORITY||Mean Difference (Final Values)|-31.89|STANDARD_ERROR_OF_MEAN|41.71||0.4493|TWO_SIDED|95.0|-116.4|52.61|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||52.61|-116.40|0.4493
82593754|NCT02187172|164901347|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.17||0.8008|TWO_SIDED|95.0|-0.3|0.38|||Regression, Linear|||Comparison during RCT period||0.38|-0.30|0.8008
82593755|NCT02187172|164901347|SUPERIORITY||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.11||0.8068|TWO_SIDED|95.0|-0.19|0.24|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||0.24|-0.19|0.8068
82593756|NCT02187172|164901348|SUPERIORITY||Mean Difference (Final Values)|46.96|STANDARD_ERROR_OF_MEAN|56.12||0.4079|TWO_SIDED|95.0|-66.65|160.57|||Regression, Logistic|||Comparison during RCT period||160.57|-66.65|0.4079
82491515|NCT01681472|164676453|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491516|NCT01681472|164676453|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491517|NCT01681472|164676453|SUPERIORITY|||||||0.0668|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0668
82491518|NCT01681472|164676453|SUPERIORITY|||||||0.0502|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0502
82593757|NCT02187172|164901348|SUPERIORITY||Mean Difference (Final Values)|4.68|STANDARD_ERROR_OF_MEAN|33.85||0.8907|TWO_SIDED|95.0|-63.91|73.28|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||73.28|-63.91|0.8907
82593758|NCT02187172|164901349|SUPERIORITY||Mean Difference (Final Values)|7.01|STANDARD_ERROR_OF_MEAN|48.81||0.8866|TWO_SIDED|95.0|-91.8|105.81|||Regression, Linear|||Comparison during RCT period||105.81|-91.80|0.8866
82593759|NCT02187172|164901349|SUPERIORITY||Mean Difference (Final Values)|-24.74|STANDARD_ERROR_OF_MEAN|32.59||0.4527|TWO_SIDED|95.0|-90.78|41.3|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||41.30|-90.78|0.4527
82593760|NCT02187172|164901350|SUPERIORITY||Mean Difference (Final Values)|194.69|STANDARD_ERROR_OF_MEAN|66.23||0.0056|TWO_SIDED|95.0|60.61|328.77|||Regression, Linear|||Comparison during RCT period||328.77|60.61|0.0056
82593761|NCT02187172|164901350|SUPERIORITY||Mean Difference (Final Values)|-29.16|STANDARD_ERROR_OF_MEAN|38.01||0.4478|TWO_SIDED|95.0|-106.17|47.85|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment.||47.85|-106.17|0.4478
82593762|NCT02187172|164901351|SUPERIORITY||Mean Difference (Final Values)|3.14|STANDARD_ERROR_OF_MEAN|2.81||0.2704|TWO_SIDED|95.0|-2.55|8.83|||Regression, Linear|||Comparison during RCT period||8.83|-2.55|0.2704
82593763|NCT02187172|164901351|SUPERIORITY||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|1.41||0.295|TWO_SIDED|95.0|-1.36|4.36|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||4.36|-1.36|0.2950
82491519|NCT01681472|164676453|SUPERIORITY|||||||0.0081|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t1/2 was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0081
82491520|NCT01681472|164676454|SUPERIORITY|||||||0.0011|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0011
82491521|NCT01681472|164676454|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491522|NCT01681472|164676454|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82593764|NCT02187172|164901352|SUPERIORITY||Mean Difference (Final Values)|-16.74|STANDARD_ERROR_OF_MEAN|6.57||0.0149|TWO_SIDED|95.0|-30.03|-3.45|||Regression, Linear|||Comparison during RCT period||-3.45|-30.03|0.0149
82593765|NCT02187172|164901352|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|3.37||0.9734|TWO_SIDED|95.0|-6.93|6.71|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||6.71|-6.93|0.9734
82593766|NCT02187172|164901353|SUPERIORITY||Mean Difference (Net)|-9.21|STANDARD_ERROR_OF_MEAN|11.76||0.4384|TWO_SIDED|95.0|-33.03|14.6|||Regression, Linear|||Comparison during RCT period||14.60|-33.03|0.4384
82593767|NCT02187172|164901353|SUPERIORITY||Mean Difference (Final Values)|11.14|STANDARD_ERROR_OF_MEAN|7.33||0.1373|TWO_SIDED|95.0|-3.72|25.99|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||25.99|-3.72|0.1373
82593768|NCT02187172|164901354|SUPERIORITY||Mean Difference (Final Values)|-15.71|STANDARD_ERROR_OF_MEAN|5.77||0.0097|TWO_SIDED|95.0|-27.39|-4.03|||Regression, Linear|||Comparison during RCT period||-4.03|-27.39|0.0097
82593769|NCT02187172|164901354|SUPERIORITY||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|2.07||0.8119|TWO_SIDED|95.0|-4.69|3.7|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||3.70|-4.69|0.8119
82593770|NCT02187172|164901355|SUPERIORITY||Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|4.57||0.9415|TWO_SIDED|95.0|-8.91|9.59|||Regression, Linear|||Comparison during RCT period||9.59|-8.91|0.9415
82593771|NCT02187172|164901355|SUPERIORITY||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|2.43||0.4485|TWO_SIDED|95.0|-6.77|3.06|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||3.06|-6.77|0.4485
82593772|NCT02187172|164901356|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|5.16||0.988|TWO_SIDED|95.0|-10.37|10.53|||Regression, Linear|||Comparison during RCT period||10.53|-10.37|0.9880
82593773|NCT02187172|164901356|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|2.59||0.8836|TWO_SIDED|95.0|-4.86|5.63|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||5.63|-4.86|0.8836
82593774|NCT02187172|164901357|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.3||0.8321|TWO_SIDED|95.0|-2.91|2.36|||Regression, Linear|||Comparison during RCT period||2.36|-2.91|0.8321
82593775|NCT02187172|164901357|SUPERIORITY||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.08||0.0394|TWO_SIDED|95.0|0.12|4.48|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||4.48|0.12|0.0394
82593776|NCT02187172|164901358|SUPERIORITY||Mean Difference (Final Values)|152.68|STANDARD_ERROR_OF_MEAN|43.76||0.0012|TWO_SIDED|95.0|64.07|241.23|||Regression, Linear|||Comparison during RCT period||241.23|64.07|0.0012
82593777|NCT02187172|164901358|SUPERIORITY||Mean Difference (Final Values)|-2.97|STANDARD_ERROR_OF_MEAN|25.7||0.9085|TWO_SIDED|95.0|-55.04|49.09|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||49.09|-55.04|0.9085
82593778|NCT02187172|164901359|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.04||0.1792|TWO_SIDED|95.0|-0.03|0.14|||Regression, Linear|||Comparison during RCT period||0.14|-0.03|0.1792
82593779|NCT02187172|164901359|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.03||0.2559|TWO_SIDED|95.0|-0.03|0.1|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||0.10|-0.03|0.2559
82593780|NCT02187172|164901360|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2453|TWO_SIDED|95.0|-0.11|0.41|||Regression, Linear|||||0.41|-0.11|0.2453
82593781|NCT02187172|164901360|SUPERIORITY||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.06||0.1087|TWO_SIDED|95.0|-0.02|0.23|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||0.23|-0.02|0.1087
82593782|NCT02187172|164901361|SUPERIORITY||Mean Difference (Final Values)|48.43|STANDARD_ERROR_OF_MEAN|61.62||0.4368|TWO_SIDED|95.0|-76.31|173.16|||Regression, Linear|||Comparison during RCT period||173.16|-76.31|0.4368
82593783|NCT02187172|164901361|SUPERIORITY||Mean Difference (Final Values)|-49.56|STANDARD_ERROR_OF_MEAN|27.84||0.0833|TWO_SIDED|95.0|-105.97|6.85|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||6.85|-105.97|0.0833
82593784|NCT02187172|164901362|SUPERIORITY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|1.11||0.8036|TWO_SIDED|95.0|-2.52|1.97|||Regression, Linear|||Comparison during RCT period||1.97|-2.52|0.8036
82593785|NCT02187172|164901362|SUPERIORITY||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.51||0.4608|TWO_SIDED|95.0|-0.65|1.4|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||1.40|-0.65|0.4608
82593786|NCT02187172|164901363|SUPERIORITY||Mean Difference (Final Values)|3320.58|STANDARD_ERROR_OF_MEAN|3414.9||0.337|TWO_SIDED|95.0|-3592.52|10233.67|||Regression, Linear|||Comparison during RCT period||10233.67|-3592.52|0.3370
82593787|NCT02187172|164901363|SUPERIORITY||Mean Difference (Final Values)|6926.25|STANDARD_ERROR_OF_MEAN|2257.84||0.004|TWO_SIDED|95.0|2351.43|11501.07|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||11501.07|2351.43|0.0040
82593788|NCT02187172|164901364|SUPERIORITY||Mean Difference (Final Values)|-68.95|STANDARD_ERROR_OF_MEAN|131.9||0.6042|TWO_SIDED|95.0|-335.97|198.08|||Regression, Linear|||Comparison during RCT period||198.08|-335.97|0.6042
82593789|NCT02187172|164901364|SUPERIORITY||Mean Difference (Final Values)|-7.96|STANDARD_ERROR_OF_MEAN|85.98||0.9267|TWO_SIDED|95.0|-182.18|166.26|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||166.26|-182.18|0.9267
82491523|NCT01681472|164676454|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491524|NCT01681472|164676454|SUPERIORITY|||||||0.6691|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.6691
82593790|NCT02187172|164901365|SUPERIORITY||Mean Difference (Final Values)|4.2|STANDARD_ERROR_OF_MEAN|5.18||0.4226|TWO_SIDED|95.0|-6.28|14.68|||Regression, Linear|||Comparison during RCT period||14.68|-6.28|0.4226
82593791|NCT02187172|164901365|SUPERIORITY||Mean Difference (Final Values)|3.41|STANDARD_ERROR_OF_MEAN|3.43||0.327|TWO_SIDED|95.0|-3.54|10.36|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||10.36|-3.54|0.3270
82593792|NCT02187172|164901366|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|1.52||0.7507|TWO_SIDED|95.0|-3.56|2.59|||Regression, Linear|||Comparison during RCT period||2.59|-3.56|0.7507
82593793|NCT02187172|164901366|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.89||0.9348|TWO_SIDED|95.0|-1.88|1.73|||Regression, Linear|||Global change from baseline after 52 weeks of active treatment||1.73|-1.88|0.9348
82593794|NCT02187172|164901367|SUPERIORITY||Difference of proportions|0.67||||0.0005|TWO_SIDED|95.0|0.45|0.89|||Chi-squared|||||0.89|0.45|0.0005
82593795|NCT02187172|164901367|OTHER|95% CI of proportion achieving PASI75 at end of study|Proportion|0.72|||||TWO_SIDED|95.0|0.55|0.85||||||||0.85|0.55|
82593796|NCT02187172|164901368|SUPERIORITY||Difference of proportions|0.41||||0.0016|TWO_SIDED|95.0|0.2|0.62|||Chi-squared|||||0.62|0.20|0.0016
82593797|NCT02187172|164901368|OTHER|95% CI of proportion achieving PASI90 at end of study|Proportion|0.49|||||TWO_SIDED|95.0|0.32|0.65||||||||0.65|0.32|
82593798|NCT02187172|164901369|SUPERIORITY||Difference of proportions|0.53||||0.0005|TWO_SIDED|95.0|0.29|0.78|||Chi-squared|||Comparison during RCT period for binary Physician Global Assessment||0.78|0.29|0.0005
82593799|NCT02187172|164901369|OTHER|95% CI of proportion achieving PGA clear/almost clear at end of study|Proportion|0.46|||||TWO_SIDED|95.0|0.3|0.63||||||||0.63|0.30|
82593800|NCT02187172|164901370|SUPERIORITY||Mean Difference (Final Values)|8.32|STANDARD_ERROR_OF_MEAN|6.3||0.1944|TWO_SIDED|95.0|-4.42|21.06|||Regression, Linear|||||21.06|-4.42|0.1944
82593801|NCT02187172|164901370|SUPERIORITY||Mean Difference (Final Values)|-12.33|STANDARD_ERROR_OF_MEAN|3.5||0.0011|TWO_SIDED|95.0|-19.4|-5.25|||Regression, Linear|||||-5.25|-19.40|0.0011
82593802|NCT02187172|164901371|SUPERIORITY||Mean Difference (Final Values)|-779.59|STANDARD_ERROR_OF_MEAN|1049.99||0.4628|TWO_SIDED|95.0|-2911.19|1352.01|||Regression, Linear|||||1352.01|-2911.19|0.4628
82593803|NCT02187172|164901371|SUPERIORITY||Mean Difference (Final Values)|-910.84|STANDARD_ERROR_OF_MEAN|729.96||0.2209|TWO_SIDED|95.0|-2395.95|574.27|||Regression, Linear|||||574.27|-2395.95|0.2209
82593804|NCT01549275|164901397|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Chi-squared|degrees of freedom =1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured cells between two groups.||||< 0.005
82593805|NCT01549275|164901397|SUPERIORITY_OR_OTHER||||||<|0.005|TWO_SIDED||||||Chi-squared|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured HCC cells with or without concomitant cancer-associated fibroblasts between two groups.||||< 0.005
82593806|NCT01549275|164901397|SUPERIORITY_OR_OTHER||||||>|0.1|TWO_SIDED||||||Chi-squared|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of patients with rapidly proliferative cultured cancer-associated fibroblasts alone between two groups.||||> 0.1
82593807|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||1
82593808|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.032
82593809|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.048
82593810|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||0.176|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.176
82593811|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative HCC cultured cells.||||0.021
82593812|NCT01549275|164901398|SUPERIORITY_OR_OTHER|||||||0.129|TWO_SIDED||||||Fisher Exact|degrees of freedom = 1||Null hypothesis: There is no significant difference in the incidence of change in AJCC TNM stages and survivals 6 months after plating of cells between patients with rapidly and slowly proliferative cultured cells.||||0.129
82593813|NCT03448068|164901401|SUPERIORITY|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82593814|NCT03448068|164901402|SUPERIORITY|||||||0.2252|||||||t-test, 2 sided|||||||0.2252
82593815|NCT03448068|164901403|SUPERIORITY|||||||0.061|||||||t-test, 2 sided|||||||0.0610
82593816|NCT03448068|164901404|SUPERIORITY|||||||0.272|||||||t-test, 2 sided|||||||0.2720
82654198|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0474|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.5|0.0474
82593817|NCT03448068|164901405|SUPERIORITY|||||||0.7298|||||||Chi-squared|||Nausea 1st 12 hours for Ketamine Therapy vs Standard Therapy||||0.7298
82654199|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0446|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.5|0.0446
82593818|NCT03448068|164901405|SUPERIORITY|||||||0.1058|||||||Chi-squared|||Nausea 2nd 12 hours for Ketamine Therapy vs Standard Therapy||||0.1058
82593819|NCT03448068|164901405|SUPERIORITY|||||||1|||||||Chi-squared|||Nausea 2nd 24 hours for Ketamine Therapy vs Standard Therapy||||1.000
82593820|NCT03448068|164901406|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.2
82499951|NCT00555321|164690594|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.5|||||TWO_SIDED|95.0|-81.9|-3.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method was used.|Analysis at database lock||-3.5|-81.9|
82593821|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|92.9|||||TWO_SIDED|95.0|79.9|98.3||||||Vaccine efficacy against CIN2+ associated with HPV-16 or HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||98.3|79.9|
82593822|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|95.7|||||TWO_SIDED|95.0|82.9|99.6||||||Vaccine efficacy against CIN2+ associated with HPV-16 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||99.6|82.9|
82593823|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|86.7|||||TWO_SIDED|95.0|39.7|98.7||||||Vaccine efficacy against CIN2+ associated with HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||98.7|39.7|
82593824|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|90.8|||||TWO_SIDED|95.0|78.1|96.9||||||Vaccine efficacy against CIN2+ for HPV-16 or HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||96.9|78.1|
82593825|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|92.7|||||TWO_SIDED|95.0|79.3|98.2||||||Vaccine efficacy against CIN2+ for HPV-16 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.2|79.3|
82593826|NCT00122681|164901419|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.6|||||TWO_SIDED|95.0|44.1|98.8||||||Vaccine efficacy against CIN2+ for HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.8|44.1|
82491525|NCT01681472|164676454|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82593827|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|94.9|||||TWO_SIDED|95.0|87.7|98.4||||||Vaccine efficacy against CIN2+ associated with HPV-16 or HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed||98.4|87.7|
82593828|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|97.6|||||TWO_SIDED|95.0|91.0|99.7||||||Vaccine efficacy against CIN2+ associated with HPV-16 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed||99.7|91.0|
82593829|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.1|||||TWO_SIDED|95.0|57.2|97.5||||||Vaccine efficacy against CIN2+ associated with HPV-18 (by PCR) in HPV DNA negative and seronegative subjects at baseline, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event) expressed.||97.5|57.2|
82491526|NCT01681472|164676455|SUPERIORITY|||||||0.0015|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0015
82491527|NCT01681472|164676455|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491528|NCT01681472|164676455|SUPERIORITY|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0640
82491529|NCT01681472|164676455|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491530|NCT01681472|164676455|SUPERIORITY|||||||0.1213|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1213
82491531|NCT01681472|164676455|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491532|NCT01681472|164676456|SUPERIORITY|||||||0.1791|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.1791
82491533|NCT01681472|164676456|SUPERIORITY|||||||0.4945|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.4945
82491534|NCT01681472|164676456|SUPERIORITY|||||||0.0014|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0014
82491535|NCT01681472|164676456|SUPERIORITY|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5990
82491536|NCT01681472|164676456|SUPERIORITY|||||||0.0303|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0303
82491537|NCT01681472|164676456|SUPERIORITY|||||||0.0107|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0107
82491538|NCT01681472|164676457|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491539|NCT01681472|164676457|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82491540|NCT01681472|164676457|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0
82654200|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0093|TWO_SIDED|95.0|-0.6|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.1|-0.6|0.0093
82593830|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|93.6|||||TWO_SIDED|95.0|86.3|97.5||||||Vaccine efficacy against CIN2+ for HPV-16 or HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||97.5|86.3|
82593831|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|95.7|||||TWO_SIDED|95.0|88.5|98.9||||||Vaccine efficacy against CIN2+ for HPV-16 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||98.9|88.5|
82593832|NCT00122681|164901420|SUPERIORITY_OR_OTHER||1-Rate Ratio|87.6|||||TWO_SIDED|95.0|59.2|97.6||||||Vaccine efficacy against CIN2+ for HPV-18 (by PCR) in HPV DNA negative subjects at baseline, regardless of initial serostatus, using conditional exact method. The VE was defined as follows: VE = 1-Rate Ratio (RR), where RR = incidence rate in HPV Group (vaccine)/ incidence rate in HAV Group (control); Incidence rate = n/T(per 100); n= number of subjects reporting at least one event in each group and T(years) = sum of follow-up period (censored at the first occurrence of an event).||97.6|59.2|
82593833|NCT00122681|164901445|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.798||||0.391|TWO_SIDED|95.0|0.476|1.337|||Chi-squared|||Hazard ratio of anti-HPV-16 GMTs at Month 7 (by ELISA) in subjects without 6-month persistent infection compared to subjects with 6-month persistent infection||1.337|0.476|0.3910
82593834|NCT00122681|164901447|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.778||||0.3796|TWO_SIDED|95.0|0.444|1.362|||Chi-squared|||Hazard ratio of anti-HPV-16 GMTs at Month 7 (by ELISA) in subjects without 12-month persistent infection compared to subjects with 12-month persistent infection.||1.362|0.444|0.3796
82593835|NCT00122681|164901449|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.1035||95.0|0.337|1.106|||Chi-squared|||Hazard ratio of anti-HPV-18 GMTs at Month 7 (by ELISA) in subjects without 6-month persistent infection compared to subjects with 6-month persistent infection.||1.106|0.337|0.1035
82593836|NCT00122681|164901451|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.635||||0.2111|TWO_SIDED|95.0|0.312|1.293|||Chi-squared|||Hazard ratio of anti-HPV-18 GMTs at Month 7 (by ELISA) in subjects without 12-month persistent infection compared to subjects with 12-month persistent infection.||1.293|0.312|0.2111
82593837|NCT01035099|164901461|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.31
82593838|NCT01035099|164901462|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.19
82593839|NCT01035099|164901465|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.12
82593840|NCT01035099|164901466|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.77
82593841|NCT01035099|164901467|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.63
82593842|NCT01035099|164901469|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.14
82593843|NCT01035099|164901470|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||<0.0001
82593844|NCT01035099|164901471|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.58
82593845|NCT01035099|164901473|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|Nonparametric Wilcoxon rank-sum test confirmed these results.||||||0.42
82593846|NCT01486927|164901490|SUPERIORITY_OR_OTHER||Rate ratio|0.08|||<|0.0001|TWO_SIDED|95.0|0.07|0.1|||Poisson, regression|||A test of the null hypothesis of no difference on AsBR between the 2 comparison groups was based on the Poisson Regression method. The corresponding prophylaxis/on-demand ratio with 95% confidence interval (CI) was calculated.||0.10|0.07|< 0.0001
82593847|NCT01761084|164901534|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.58|1.94||||||||1.94|.58|
82593848|NCT01761084|164901535|SUPERIORITY||Risk Ratio (RR)|1.32|||||TWO_SIDED|95.0|0.99|1.74||||||||1.74|.99|
82593849|NCT01761084|164901536|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.811|TWO_SIDED|95.0|-0.84|1.07|||t-test, 2 sided|Intention-to-treat analysis|Intention-to-treat analysis|Baseline||1.07|-0.84|0.811
82593850|NCT01761084|164901536|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.765|TWO_SIDED|95.0|-0.8|1.09|||t-test, 2 sided||Per-protocol analysis|Month 12||1.09|-0.80|0.765
82593851|NCT01761084|164901537|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.796|TWO_SIDED|95.0|-0.8|0.61|||t-test, 2 sided||Intention-to-treat analysis|Baseline||0.61|-0.80|0.796
82593852|NCT01761084|164901537|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.888|TWO_SIDED|95.0|-0.75|0.65|||t-test, 2 sided||Per-protocol analysis|Month 12||0.65|-0.75|0.888
82593853|NCT01761084|164901538|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.719|TWO_SIDED|95.0|-0.54|0.78|||t-test, 2 sided||Intention-to-treat analysis|Baseline||0.78|-0.54|0.719
82593854|NCT01761084|164901538|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.745|TWO_SIDED|95.0|-0.56|0.79|||t-test, 2 sided||Per-protocol analysis|Month 12||0.79|-0.56|0.745
82593855|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.854|TWO_SIDED|95.0|-5.66|6.83|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in EQ5D - VAS||6.83|-5.66|0.854
82593856|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|1.78||||0.585|TWO_SIDED|95.0|-4.66|8.22|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in EQ5D-VAS||8.22|-4.66|0.585
82593857|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.335|TWO_SIDED|95.0|-0.16|0.47|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in OQLQ Average Score||0.47|-0.16|0.335
82593858|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|0.18||||0.285|TWO_SIDED|95.0|-0.15|0.5|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in OQLQ Average Score||0.50|-0.15|0.285
82593859|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|-0.52||||0.225|TWO_SIDED|95.0|-1.36|0.32|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in pain VAS at rest||0.32|-1.36|0.225
82593860|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.488|TWO_SIDED|95.0|-1.16|0.56|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in pain VAS at rest||0.56|-1.16|0.488
82593861|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.808|TWO_SIDED|95.0|-0.68|0.88|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in pain VAS during movement||0.88|-0.68|0.808
82593862|NCT01761084|164901539|SUPERIORITY||Mean Difference (Final Values)|0.23||||0.566|TWO_SIDED|95.0|-0.57|1.04|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in pain VAS during movement||1.04|-0.57|0.566
82593863|NCT01761084|164901542|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.951|TWO_SIDED|95.0|-1.412|1.501|||t-test, 2 sided|||Baseline||1.501|-1.412|.951
82593864|NCT01761084|164901542|SUPERIORITY||Mean Difference (Final Values)|-1.396||||0.039|TWO_SIDED|95.0|-2.721|-0.071|||t-test, 2 sided|||Month 12||-0.071|-2.721|0.039
82593865|NCT01761084|164901543|SUPERIORITY||Mean Difference (Final Values)|-65.9|||<|0.05|TWO_SIDED|95.0|-91.8|-40.0||Month 6 strength and balance physical activity|t-test, 2 sided|||Only Month 6 and Month 12 strength and balance physical activity differences were significant.||-40.0|-91.8|<0.05
82593866|NCT01761084|164901543|SUPERIORITY||Mean Difference (Final Values)|-49.3|||<|0.05|TWO_SIDED|95.0|-69.8|-28.8||Month 12 strength and balance physical activity|t-test, 2 sided|||Only Month 6 and Month 12 strength and balance physical activity differences were significant.||-28.8|-69.8|<0.05
82593867|NCT01761084|164901548|SUPERIORITY||Incident Rate Ratio|0.97|||||TWO_SIDED|95.0|0.58|1.63||||||Negative Binomial Regression.||1.63|.58|
82593868|NCT01761084|164901551|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.536|TWO_SIDED|95.0|-0.28|0.53|||t-test, 2 sided||Intention-to-treat analysis|Comparison of change from baseline in height||0.53|-0.28|0.536
82593869|NCT01761084|164901552|SUPERIORITY||Mean Difference (Net)|-0.055||||0.9|TWO_SIDED|95.0|-0.917|0.807|||t-test, 2 sided|||Month 12 scores.||0.807|-0.917|.900
82593870|NCT01761084|164901553|SUPERIORITY||Mean Difference (Final Values)|-5.2|STANDARD_ERROR_OF_MEAN|13.9||0.712|TWO_SIDED|95.0|-33.6|23.2|||t-test, 2 sided|||Baseline||23.2|-33.6|.712
82593871|NCT01761084|164901553|SUPERIORITY||Mean Difference (Final Values)|8.1|STANDARD_ERROR_OF_MEAN|15.3||0.6|TWO_SIDED|95.0|-23.3|39.5|||t-test, 1 sided|||Month 12||39.5|-23.3|.60
82593872|NCT01761084|164901555|SUPERIORITY||Mean Difference (Final Values)|0.15||||0.461|TWO_SIDED|95.0|-0.25|0.55|||t-test, 2 sided||Per-protocol analysis|Comparison of change from baseline in weight||0.55|-0.25|0.461
82593873|NCT01278745|164901578|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||ANCOVA|Adjusted for baseline PAV||||||0.0019
82593874|NCT01471015|164901592|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.006
82593875|NCT01471015|164901593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.003
82593876|NCT00896779|164901603|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|||||||0.02
82593877|NCT00896779|164901603|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||t-test, 2 sided|||||||0.06
82593878|NCT01843842|164901604|SUPERIORITY|||||||0.016|||||||Global Test Statistic|See O'Brien 1984, Pocock 1997.||||||0.016
82593879|NCT01843842|164901605|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82593880|NCT01843842|164901606|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82593881|NCT01843842|164901607|SUPERIORITY|||||||0.0283||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Day 3, doctor's examination)||||0.0283
82593882|NCT01843842|164901607|SUPERIORITY|||||||0.3264|||||||Kruskal-Wallis|||Non-specific (Day 3, doctor's examination)||||0.3264
82593883|NCT01843842|164901607|SUPERIORITY|||||||0.706|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Day 3, doctor's examination)||||0.7060
82593884|NCT01843842|164901607|SUPERIORITY|||||||0.25|||||||Kruskal-Wallis|||All symptoms (Day 3, doctor's examination)||||0.25
82593885|NCT01843842|164901607|SUPERIORITY|||||||0.244|||||||ANCOVA|||Severity of clinical manifestations of acute respiratory infection (ARI) by Total Symptom Score on Days 2, 3, 4 and 5 of Observation (Based on Patient Diary Data)||||0.244
82593886|NCT01843842|164901608|SUPERIORITY|||||||0.1158|||||||Kruskal-Wallis|||Duration of fever based on Patient Diary Data||||0.1158
82593887|NCT01843842|164901608|SUPERIORITY|||||||0.5755|||||||Kruskal-Wallis|||Duration of non-specific symptoms based on Patient Diary Data||||0.5755
82593888|NCT01843842|164901608|SUPERIORITY|||||||0.4331|||||||Kruskal-Wallis|||Duration of nasal/ throat/ chest symptoms based on Patient Diary Data||||0.4331
82593889|NCT01843842|164901608|SUPERIORITY|||||||0.356|||||||Kruskal-Wallis|||Duration of all acute respiratory infection symptoms (fever, non-specific symptoms and nasal/ throat/ chest symptoms) based on Patient Diary Data||||0.3560
82593890|NCT01843842|164901609|SUPERIORITY|||||||0.0166||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Days 1, 3, 6 doctor's examination)||||0.0166
82593891|NCT01843842|164901609|SUPERIORITY|||||||0.082|||||||Kruskal-Wallis|||Non-specific (Days 1, 3, 6 doctor's examination)||||0.0820
82593892|NCT01843842|164901609|SUPERIORITY|||||||0.7227|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Days 1, 3, 6 doctor's examination)||||0.7227
82593893|NCT01843842|164901609|SUPERIORITY|||||||0.2645|||||||Kruskal-Wallis|||All symptoms (Days 1, 3, 6 doctor's examination)||||0.2645
82593894|NCT01843842|164901609|SUPERIORITY|||||||0.0142||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Fever (Days 1-5, patient diary data)||||0.0142
82593895|NCT01843842|164901609|SUPERIORITY|||||||0.0145||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||Non-specific (Days 1-5, patient diary data)||||0.0145
82593896|NCT01843842|164901609|SUPERIORITY|||||||0.2963|||||||Kruskal-Wallis|||Nasal/Throat/Chest (Days 1-5, patient diary data)||||0.2963
82593897|NCT01843842|164901609|SUPERIORITY|||||||0.0364||||||p-value is not adjusted for multiple comparisons|Kruskal-Wallis|||All symptoms (Days 1-5, patient diary data)||||0.0364
82593898|NCT01843842|164901610|SUPERIORITY|||||||0.4|||||||ANCOVA|||||||0.40
82593899|NCT02953340|164901612|NON_INFERIORITY|The study used non inferiority margin of 0.62 days for the above comparison. The non-inferiority of SPI-2012 to Pegfilgrastim was declared if the upper bound of 95% confidence interval (CI) of the difference in mean DSN between the treatment arms was \<0.62 days.|Mean difference|-0.074|||<|0.0001|TWO_SIDED|95.0|-0.292|0.129|||t-statistics|The p-values are based on the calculated t-statistics from the bootstrapped sample mean and standard deviation.||||0.129|-0.292|< 0.0001
82593900|NCT01376778|164901622|SUPERIORITY||Risk Ratio (RR)|1.17||||0.42|TWO_SIDED|95.0|0.8|1.72|||Chi-squared|||||1.72|0.80|0.42
82593901|NCT01376778|164901627|SUPERIORITY||Risk Ratio (RR)|1.61|||||TWO_SIDED|95.0|0.86|3.03||||||||3.03|0.86|
82593902|NCT01376778|164901628|SUPERIORITY||Risk Ratio (RR)|2.82|||||TWO_SIDED|95.0|0.29|72.42||||||||72.42|0.29|
82593903|NCT01376778|164901629|SUPERIORITY||Risk Difference (RD)|-0.41|||||TWO_SIDED|||||||||||||
82593904|NCT01376778|164901630|SUPERIORITY||Risk Ratio (RR)|1.47|||||TWO_SIDED|95.0|0.81|2.67||||||||2.67|0.81|
82593905|NCT01376778|164901631|SUPERIORITY||Risk Ratio (RR)|1.61|||||TWO_SIDED|95.0|0.65|4.01||||||||4.01|0.65|
82593906|NCT01376778|164901633|SUPERIORITY||Risk Ratio (RR)|1.88|||||TWO_SIDED|95.0|0.66|5.41||||||||5.41|0.66|
82593907|NCT01376778|164901634|SUPERIORITY||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.66|0.15||||||||0.15|-0.66|
82593908|NCT01376778|164901635|SUPERIORITY||Risk Difference (RD)|-35.0|||||TWO_SIDED|95.0|-157.0|87.0||||||||87|-157|
82593909|NCT01376778|164901636|SUPERIORITY||Risk Ratio (RR)|1.92|||||TWO_SIDED|95.0|0.92|3.99||||||||3.99|0.92|
82593910|NCT01376778|164901640|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.03|31.5||||||||31.5|0.03|
82593911|NCT01376778|164901641|SUPERIORITY||Risk Ratio (RR)|0.48|||||TWO_SIDED|95.0|0.17|1.38||||||||1.38|0.17|
82593912|NCT01376778|164901644|SUPERIORITY||Risk Ratio (RR)|0.63|||||TWO_SIDED|95.0|0.32|1.23||||||||1.23|0.32|
82593913|NCT01376778|164901645|SUPERIORITY||Risk Ratio (RR)|0.84|||||TWO_SIDED|95.0|0.42|1.68||||||||1.68|0.42|
82593914|NCT01376778|164901646|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.17|5.23||||||||5.23|0.17|
82593915|NCT01376778|164901654|SUPERIORITY||Risk Ratio (RR)|1.3||||0.37|TWO_SIDED|95.0|0.7|2.5|||Chi-squared|||||2.5|0.7|0.37
82593916|NCT01376778|164901655|SUPERIORITY|||||||0.26|||||||Chi-squared|||||||0.26
82593917|NCT01376778|164901656|SUPERIORITY|||||||0.84|||||||Chi-squared|||||||0.84
82593918|NCT01197521|164901666|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22||Week 24|Mantel Haenszel|Treatment difference in proportion of responders with a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.08|<0.001
82593919|NCT01197521|164901666|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.1||||0.006|TWO_SIDED|95.0|0.03|0.18||Week 24|Mantel Haenszel|Treatment difference in proportion of responders with a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.18|0.03|0.006
82593920|NCT01197521|164901667|SUPERIORITY_OR_OTHER|||||||0.252||||||Week 24|Cochran-Mantel-Haenszel|The residuals from the ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as a covariate.||||0.252
82593921|NCT01197521|164901667|SUPERIORITY_OR_OTHER|||||||0.17||||||Week 24|Cochran-Mantel-Haenszel|The residuals from the ANCOVA are analysed using a Cochran-Mantel-Haenszel approach, adjusting for the effects of pooled country.||This analysis is performed using an ANCOVA model on the ranks of the change from baseline, by pooled country, including a term for the ranks of the baseline score as a covariate.||||0.170
82593922|NCT01197521|164901668|SUPERIORITY_OR_OTHER||Weighted difference in proportion|0.13|||<|0.001|TWO_SIDED|95.0|0.1|0.17||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.17|0.10|<0.001
82593923|NCT01197521|164901669|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.16|||<|0.001|TWO_SIDED|95.0|0.11|0.22||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.22|0.11|<0.001
82593924|NCT01197521|164901669|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.09||||0.002|TWO_SIDED|95.0|0.03|0.14||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.14|0.03|0.002
82593925|NCT01197521|164901670|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.08|||<|0.001|TWO_SIDED|95.0|0.05|0.12||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.12|0.05|<0.001
82593926|NCT01197521|164901670|SUPERIORITY_OR_OTHER||Weighted difference in proportions|0.04||||0.015|TWO_SIDED|95.0|0.01|0.07||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Mantel Haenszel|95% confidence intervals and p-values are calculated using a Mantel Haenszel approach stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||0.07|0.01|0.015
82593927|NCT01197521|164901671|SUPERIORITY_OR_OTHER||||||<|0.001||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|The treatment differences, 95% CIs and p-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||<0.001
82593928|NCT01197521|164901671|SUPERIORITY_OR_OTHER|||||||0.002||||||Nominal p-value presented for treatment comparison. ACRn was not formally tested within the predefined multiplicity procedure. As this is a non-parametric test p-values alone are presented rather than an estimated treatment difference.|Van Elteren|The treatment differences, 95% CIs and p-values are estimated using the Van Elteren test stratified by pooled country.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||||0.002
82593929|NCT01197521|164901672|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.0|||<|0.001|TWO_SIDED|95.0|2.44|14.64||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||14.64|2.44|<0.001
82593930|NCT01197521|164901672|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4||||0.002|TWO_SIDED|95.0|1.76|11.02||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||11.02|1.76|0.002
82593931|NCT01197521|164901673|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.0|||<|0.001|TWO_SIDED|95.0|1.63|5.67||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||5.67|1.63|<0.001
82593932|NCT01197521|164901673|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8||||0.083|TWO_SIDED|95.0|0.93|3.5||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.50|0.93|0.083
82654201|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2998|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.4|0.2998
82654202|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0545|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Somatic Symptoms Gastrointestinal: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.5|0.0545
82654203|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.2177|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.2177
82654204|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 8||0.1|-0.4|0.2300
82654205|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12||0.0001|TWO_SIDED|95.0|-0.7|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.7|0.0001
82593933|NCT01197521|164901674|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.79|3.3||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.30|1.79|<0.001
82593934|NCT01197521|164901674|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57||||0.004|TWO_SIDED|95.0|1.16|2.14||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|Proportional odds model|No response, moderate response and good response are included in the proportional odds model with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.14|1.16|0.004
82593935|NCT01197521|164901675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.68|3.26||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.26|1.68|<0.001
82593936|NCT01197521|164901675|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.38|2.68||Nominal p-values presented. Formal statistical testing could not be carried out due to the predefined multiplicity procedure (as the primary variable comparisons were non-significant).|Regression, Logistic|Odds ratio and 95% confidence intervals are calculated using Logistic Regression with treatment and pooled country as factors.|An odds ratio \>1 indicates a benefit towards Fostamatinib.|Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.68|1.38|<0.001
82593937|NCT01197521|164901676|SUPERIORITY_OR_OTHER||Treatment difference|2.24|||<|0.001||95.0|1.16|3.31||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.31|1.16|<0.001
82593938|NCT01197521|164901676|SUPERIORITY_OR_OTHER||Treatment difference|1.27||||0.02||95.0|0.2|2.35||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.35|0.20|0.020
82593939|NCT01197521|164901677|SUPERIORITY_OR_OTHER||Treatment difference|1.8||||0.005||95.0|0.54|3.07||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||3.07|0.54|0.005
82593940|NCT01197521|164901677|SUPERIORITY_OR_OTHER||Treatment difference|1.56||||0.017||95.0|0.28|2.83||Nominal p-value presented for treatment comparison. This was not formally tested within the predefined multiplicity procedure.|ANCOVA|Including terms for baseline as a continuous covariate and treatment and pooled country as factors.||Non-responder imputation has been applied following premature withdrawal, or increased dose of methotrexate or any DMARD initiation, or for 8 weeks following receipt of any parenteral steroids, or for patients with no post baseline data.||2.83|0.28|0.017
82593941|NCT00271596|164901682|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166|STANDARD_ERROR_OF_MEAN|0.098||0.092|TWO_SIDED|95.0|-0.361|0.028|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.028|-0.361|0.092
82593942|NCT00271596|164901683|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.337|STANDARD_ERROR_OF_MEAN|0.168||0.048|TWO_SIDED|95.0|-0.672|-0.003|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||-0.003|-0.672|0.048
82593943|NCT00271596|164901684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.278|STANDARD_ERROR_OF_MEAN|0.268||0.302|TWO_SIDED|95.0|-0.81|0.254|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic)||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.254|-0.810|0.302
82593944|NCT00271596|164901685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.153||0.708|TWO_SIDED|95.0|-0.361|0.246|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.246|-0.361|0.708
82593945|NCT00271596|164901686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.15||0.646|TWO_SIDED|95.0|-0.229|0.367|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.367|-0.229|0.646
82593946|NCT00271596|164901687|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.174||0.23||95.0|-0.554|0.135|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.135|-0.554|0.230
82593947|NCT00271596|164901688|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.317|STANDARD_ERROR_OF_MEAN|0.482||0.512|TWO_SIDED|95.0|-1.276|0.642|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.642|-1.276|0.512
82593948|NCT00271596|164901689|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|1.17||0.12|TWO_SIDED|95.0|-4.3|0.5|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.50|-4.30|0.12
82593949|NCT00271596|164901690|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.68||0.49|TWO_SIDED|95.0|-1.87|0.91|||2-tailed linear treatment contrast|This was a predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.91|-1.87|0.49
82593950|NCT00271596|164901691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-2.5|STANDARD_ERROR_OF_MEAN|1.23||0.05|TWO_SIDED|95.0|-5.04|0.04||Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).|Mixed Models Analysis|||Mixed linear model with treatment-group-specific random subject effects: Predefined 2-tailed linear treatment contrast of intention-to-treat, with Kenward-Rogers correction (t statistic).||0.04|-5.04|0.05
82593951|NCT04707157|164901692|SUPERIORITY||Posterior Mean Difference|-1.56|||||TWO_SIDED|95.0|-2.76|-0.38|||||Posterior mean difference with 95% credible interval is reported.|||-0.38|-2.76|
82593952|NCT04707157|164901693|SUPERIORITY||Posterior Mean Difference|-1.03|||||TWO_SIDED|95.0|-2.14|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-2.14|
82593953|NCT04707157|164901694|SUPERIORITY||Posterior Mean Difference|-0.91|||||TWO_SIDED|95.0|-1.56|-0.25|||||Posterior mean difference with 95% credible interval is reported.|||-0.25|-1.56|
82593954|NCT04707157|164901695|SUPERIORITY||Posterior Mean Difference|-1.99|||||TWO_SIDED|95.0|-3.22|-0.77|||||Posterior mean difference with 95% credible interval is reported.|||-0.77|-3.22|
82593955|NCT04707157|164901696|SUPERIORITY||Posterior Mean Difference|-19.12|||||TWO_SIDED|95.0|-31.22|-6.97|||||Posterior mean difference with 95% credible interval is reported.|||-6.97|-31.22|
82593956|NCT04707157|164901697|SUPERIORITY||Posterior Mean Difference|-0.11|||||TWO_SIDED|95.0|-0.86|0.64|||||Posterior mean difference with 95% credible interval is reported.|||0.64|-0.86|
82593957|NCT04707157|164901698|SUPERIORITY||Posterior Mean Difference|-269.92|||||TWO_SIDED|95.0|-624.98|86.24|||||Posterior mean difference with 95% credible interval is reported.|||86.24|-624.98|
82593958|NCT04707157|164901699|SUPERIORITY||Posterior Mean Difference|0.03|||||TWO_SIDED|95.0|-0.22|0.29|||||Posterior mean difference with 95% credible interval is reported.|||0.29|-0.22|
82593959|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% confidence interval (CI) of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.48|||||TWO_SIDED|95.0|1.22|1.81|||||The analysis of covariance (ANCOVA) model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 1||1.81|1.22|
82593960|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.31|||||TWO_SIDED|95.0|1.12|1.54|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 3||1.54|1.12|
82593961|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.13|1.58|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 4||1.58|1.13|
82593962|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.08|1.71|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 5||1.71|1.08|
82593963|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.37|||||TWO_SIDED|95.0|1.12|1.69|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 6A||1.69|1.12|
82491541|NCT01681472|164676457|SUPERIORITY|||||||0.0125|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0125
82593964|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.41|||||TWO_SIDED|95.0|1.17|1.7|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 6B||1.70|1.17|
82593965|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.16|1.55|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 7F||1.55|1.16|
82593966|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.38|||||TWO_SIDED|95.0|1.17|1.64|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 8||1.64|1.17|
82593967|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.24|||||TWO_SIDED|95.0|1.05|1.47|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 9V||1.47|1.05|
82593968|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.22|||||TWO_SIDED|95.0|1.03|1.44|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 10A||1.44|1.03|
82593969|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.18|||||TWO_SIDED|95.0|0.98|1.42|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 11A||1.42|0.98|
82593970|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.2|||||TWO_SIDED|95.0|0.99|1.46|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 12F||1.46|0.99|
82593971|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.42|||||TWO_SIDED|95.0|1.21|1.67|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 14||1.67|1.21|
82593972|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.46|||||TWO_SIDED|95.0|1.22|1.76|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 15B||1.76|1.22|
82593973|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.29|||||TWO_SIDED|95.0|1.07|1.55|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 18C||1.55|1.07|
82593974|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.39|||||TWO_SIDED|95.0|1.2|1.61|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 19A||1.61|1.20|
82593975|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.33|||||TWO_SIDED|95.0|1.12|1.57|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 19F||1.57|1.12|
82593976|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.34|||||TWO_SIDED|95.0|1.12|1.6|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 22F||1.60|1.12|
82654206|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0151|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.5|0.0151
82654207|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0502|TWO_SIDED|95.0|-0.5|0.0|||Mixed Model for Repeated Measures|||General Somatic Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.5|0.0502
82593977|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.36|||||TWO_SIDED|95.0|1.09|1.71|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 23F||1.71|1.09|
82593978|NCT05879107|164901707|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio (as measured by the OP assay) between the Control group (at Day 31) versus Co-administration group (at Day 31) was \<=2.|GMT ratio|1.4|||||TWO_SIDED|95.0|1.2|1.64|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|Strep pneumoniae - serotype 33F||1.64|1.20|
82593979|NCT05879107|164901708|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-A neutralizing titer was \<=1.5.|GMT ratio|1.06|||||TWO_SIDED|95.0|0.94|1.2|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|RSV-A||1.20|0.94|
82593980|NCT05879107|164901709|NON_INFERIORITY|NI was to be demonstrated if the upper limit of the 2-sided 95% CI of the GMT ratio between the Control group (at Day 61) versus Co-administration group (at Day 31) for RSV-B neutralizing titer was \<=1.5.|GMT ratio|1.0|||||TWO_SIDED|95.0|0.89|1.13|||||The ANCOVA model, for logarithm-transformed titers, included the treatment group and age category at vaccination as fixed effects and the pre-dose log-10 titer as covariate.|RSV-B||1.13|0.89|
82593981|NCT02662036|164901717|SUPERIORITY|||||||0.76|||||||Mann Whitney U Test|||Statistical analysis #1 is for intraoperative opioid use||||0.76
82593982|NCT02662036|164901717|SUPERIORITY|||||||0.38|||||||Mann Whitney U Test|||Statistical analysis #2 is for postoperative acute care unit opioid use||||0.38
82593983|NCT02662036|164901717|SUPERIORITY|||||||0.69|||||||Mann Whitney U Test|||Statistical analysis #3 is for postoperative floor opioid use||||0.69
82593984|NCT02662036|164901717|SUPERIORITY|||||||0.98|||||||Mann Whitney U Test|||Statistical analysis #4 is for total opioid use||||0.98
82593985|NCT02662036|164901718|SUPERIORITY|||||||0.28|||||||Mann Whitney U Test|||Statistical analysis #1 is for postoperative acute care unit antiemetic use||||0.28
82593986|NCT02662036|164901718|SUPERIORITY|||||||0.62|||||||Mann Whitney U Test|||Statistical analysis #2 is for floor antiemetic use||||0.62
82593987|NCT02662036|164901718|SUPERIORITY|||||||0.5|||||||Mann Whitney U Test|||Statistical analysis #3 is for total antiemetic use||||0.50
82593988|NCT02662036|164901719|SUPERIORITY|||||||0.2|||||||Mann Whitney U Test|||||||0.20
82593989|NCT02662036|164901720|SUPERIORITY|||||||0.64|||||||Mann Whitney U Test|||||||0.64
82593990|NCT02662036|164901721|SUPERIORITY|||||||0.38|||||||Mann Whitney U Test|||||||0.38
82593991|NCT03710486|164901735|SUPERIORITY||Odds Ratio (OR)|0.61|||=|0.13202|TWO_SIDED|95.0|0.32|1.16|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by propensity scores inverse probability treatment weighting (PS-IPTW).|Estimated with a logistic regression adjusted by PS-IPTW.|||1.16|0.32|=0.13202
82593992|NCT03710486|164901736|SUPERIORITY||Odds Ratio (OR)|1.18|||=|0.5861|TWO_SIDED|95.0|0.65|2.13|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.13|0.65|=0.5861
82593993|NCT03710486|164901739|SUPERIORITY||Odds Ratio (OR)|0.65|||=|0.1648|TWO_SIDED|95.0|0.35|1.19|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.19|0.35|=0.1648
82593994|NCT03710486|164901740|SUPERIORITY||Odds Ratio (OR)|0.66|||=|0.1732|TWO_SIDED|95.0|0.36|1.2|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.20|0.36|=0.1732
82593995|NCT03710486|164901743|SUPERIORITY||||||=|0.2011|||||||Log Rank Test Adjusted by PS-IPTW|p-value was estimated with Log Rank test adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.||CD: Vedolizumab Versus Other Biological||||=0.2011
82593996|NCT03710486|164901744|SUPERIORITY||||||=|0.6939|||||||Log Rank Test Adjusted by PS-IPTW|p-value was estimated with Log Rank test adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.||||||=0.6939
82593997|NCT03710486|164901745|SUPERIORITY||Odds Ratio (OR)|0.29|||=|0.0071|TWO_SIDED|95.0|0.12|0.71|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.71|0.12|=0.0071
82593998|NCT03710486|164901746|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.4809|TWO_SIDED|95.0|0.64|2.55|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.55|0.64|=0.4809
82593999|NCT03710486|164901747|SUPERIORITY||Odds Ratio (OR)|1.05|||=|0.915|TWO_SIDED|95.0|0.46|2.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.36|0.46|=0.9150
82594000|NCT03710486|164901748|SUPERIORITY||Odds Ratio (OR)|1.13|||=|0.7254|TWO_SIDED|95.0|0.56|2.28|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.28|0.56|=0.7254
82594001|NCT03710486|164901749|SUPERIORITY||Odds Ratio (OR)|0.34|||=|0.0051|TWO_SIDED|95.0|0.16|0.72|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.72|0.16|=0.0051
82594002|NCT03710486|164901750|SUPERIORITY||Odds Ratio (OR)|0.53|||=|0.0653|TWO_SIDED|95.0|0.27|1.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.04|0.27|=0.0653
82594003|NCT03710486|164901751|SUPERIORITY||Odds Ratio (OR)|0.9|||=|0.7629|TWO_SIDED|95.0|0.47|1.74|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.74|0.47|=0.7629
82594004|NCT03710486|164901752|SUPERIORITY||Odds Ratio (OR)|0.8|||=|0.4895|TWO_SIDED|95.0|0.43|1.5|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.50|0.43|=0.4895
82594005|NCT03710486|164901753|SUPERIORITY||Odds Ratio (OR)|0.76|||=|0.4458|TWO_SIDED|95.0|0.38|1.54|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||1.54|0.38|=0.4458
82594006|NCT03710486|164901754|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.9471|TWO_SIDED|95.0|0.47|2.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.04|0.47|=0.9471
82594007|NCT03710486|164901755|SUPERIORITY||Odds Ratio (OR)|0.42|||=|0.0104|TWO_SIDED|95.0|0.21|0.81|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.81|0.21|=0.0104
82594008|NCT03710486|164901756|SUPERIORITY||Odds Ratio (OR)|0.26|||=|0.0011|TWO_SIDED|95.0|0.12|0.59|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.59|0.12|=0.0011
82594009|NCT03710486|164901757|SUPERIORITY||Odds Ratio (OR)|0.98|||=|0.9471|TWO_SIDED|95.0|0.47|2.04|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|CD Participants||2.04|0.47|=0.9471
82594010|NCT03710486|164901758|SUPERIORITY||Odds Ratio (OR)|0.3|||=|0.0104|TWO_SIDED|95.0|0.12|0.75|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.75|0.12|=0.0104
82594011|NCT03710486|164901759|SUPERIORITY||Odds Ratio (OR)|0.26|||=|0.0011|TWO_SIDED|95.0|0.12|0.59|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.59|0.12|=0.0011
82594012|NCT03710486|164901760|SUPERIORITY||Odds Ratio (OR)|1.28|||=|0.54|TWO_SIDED|95.0|0.59|2.78|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||2.78|0.59|=0.5400
82594013|NCT03710486|164901761|SUPERIORITY||Odds Ratio (OR)|1.21|||=|0.8123|TWO_SIDED|95.0|0.26|5.66|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||5.66|0.26|=0.8123
82594014|NCT03710486|164901762|SUPERIORITY||Odds Ratio (OR)|0.22|||=|0.0282|TWO_SIDED|95.0|0.06|0.85|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||0.85|0.06|=0.0282
82594015|NCT03710486|164901763|SUPERIORITY||Odds Ratio (OR)|1.13|||=|0.8584|TWO_SIDED|95.0|0.29|4.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||4.36|0.29|=0.8584
82594016|NCT03710486|164901764|SUPERIORITY||Odds Ratio (OR)|0.95|||=|0.9474|TWO_SIDED|95.0|0.24|3.78|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|Estimated with a logistic regression adjusted by PS-IPTW.|||3.78|0.24|=0.9474
82594017|NCT03710486|164901765|SUPERIORITY||Odds Ratio (OR)|0.73|||=|0.3103|TWO_SIDED|95.0|0.4|1.34|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.34|0.40|=0.3103
82594018|NCT03710486|164901765|SUPERIORITY||Odds Ratio (OR)|0.41|||=|0.0045|TWO_SIDED|95.0|0.22|0.76|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||0.76|0.22|=0.0045
82594019|NCT03710486|164901765|SUPERIORITY||Odds Ratio (OR)|1.19|||=|0.6287|TWO_SIDED|95.0|0.59|2.42|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||2.42|0.59|=0.6287
82654208|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.3659|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.3|0.3659
82491542|NCT01681472|164676457|SUPERIORITY|||||||0.0017|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.0017
82594020|NCT03710486|164901765|SUPERIORITY||Odds Ratio (OR)|0.65|||=|0.2495|TWO_SIDED|95.0|0.31|1.36|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||1.36|0.31|=0.2495
82594021|NCT03710486|164901766|SUPERIORITY||Risk Ratio (RR)|0.89|||=|0.4784|TWO_SIDED|95.0|0.66|1.22|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.22|0.66|=0.4784
82594022|NCT03710486|164901766|SUPERIORITY||Risk Ratio (RR)|0.83|||=|0.2616|TWO_SIDED|95.0|0.6|1.15|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse event||1.15|0.60|=0.2616
82594023|NCT03710486|164901766|SUPERIORITY||Risk Ratio (RR)|2.01|||=|0.0077|TWO_SIDED|95.0|1.2|3.34|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||3.34|1.20|=0.0077
82594024|NCT03710486|164901766|SUPERIORITY||Risk Ratio (RR)|1.3|||=|0.3046|TWO_SIDED|95.0|0.79|2.14|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse event||2.14|0.79|=0.3046
82594025|NCT03710486|164901767|SUPERIORITY||Odds Ratio (OR)|0.54|||=|0.1681|TWO_SIDED|95.0|0.22|1.3|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||1.30|0.22|=0.1681
82594026|NCT03710486|164901767|SUPERIORITY||Odds Ratio (OR)|0.23|||=|0.0645|TWO_SIDED|95.0|0.05|1.09|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||1.09|0.05|=0.0645
82594027|NCT03710486|164901767|SUPERIORITY||Odds Ratio (OR)|0.38|||=|0.3145|TWO_SIDED|95.0|0.06|2.51|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||2.51|0.06|=0.3145
82594028|NCT03710486|164901767|SUPERIORITY||Odds Ratio (OR)|1.49|||=|0.8197|TWO_SIDED|95.0|0.05|47.11|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||47.11|0.05|=0.8197
82594029|NCT03710486|164901768|SUPERIORITY||Risk Ratio (RR)|0.43|||=|0.0239|TWO_SIDED|95.0|0.2|0.89|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||0.89|0.20|=0.0239
82594030|NCT03710486|164901768|SUPERIORITY||Risk Ratio (RR)|0.21|||=|0.0373|TWO_SIDED|95.0|0.05|0.91|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Adverse events related to treatment||0.91|0.05|=0.0373
82594031|NCT03710486|164901768|SUPERIORITY||Risk Ratio (RR)|0.54|||=|0.426|TWO_SIDED|95.0|0.12|2.49|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||2.49|0.12|=0.4260
82594032|NCT03710486|164901768|SUPERIORITY||Risk Ratio (RR)|1.56|||=|0.8012|TWO_SIDED|95.0|0.05|48.44|||Poisson Regression||The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|Serious adverse events related to treatment||48.44|0.05|=0.8012
82594033|NCT03710486|164901769|SUPERIORITY||Odds Ratio (OR)|0.17|||=|0.0044|TWO_SIDED|95.0|0.05|0.58|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.58|0.05|=0.0044
82594034|NCT03710486|164901769|SUPERIORITY||Odds Ratio (OR)|0.32|||=|0.0215|TWO_SIDED|95.0|0.12|0.84|||Regression, Logistic|p-value was estimated with a logistic regression adjusted by PS-IPTW.|The incidence comparison was estimated by using a logistic regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.84|0.12|=0.0215
82594035|NCT03710486|164901770|SUPERIORITY||Risk Ratio (RR)|0.27|||=|0.0152|TWO_SIDED|95.0|0.1|0.78|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||0.78|0.10|=0.0152
82594036|NCT03710486|164901770|SUPERIORITY||Risk Ratio (RR)|1.56|||=|0.8012|TWO_SIDED|95.0|0.05|48.44|||Poisson Regression|p-value was estimated with a Poisson regression including the following time adjusted by PS-IPTW.|The incidence rate comparison was estimated by using a Poisson regression adjusted by PS-IPTW. Multiple Imputation has been performed to estimate PS-IPTW.|||48.44|0.05|=0.8012
82594037|NCT02535715|164901804|SUPERIORITY|ANOVA Bonferroni adjustment|||||<|0.05|||||||ANOVA|||||||<0.05
82594038|NCT04353284|164901806|SUPERIORITY||Mean Difference (Net)|0.74||||0.06|TWO_SIDED|95.0|-0.03|1.51|||Mixed Models Analysis|||This analysis compares the change from baseline between treatment arms.||1.51|-0.03|0.06
82594039|NCT04353284|164901807|SUPERIORITY||Mean Difference (Net)|0.06||||0.87|TWO_SIDED|95.0|-0.7|0.83|||Mixed Models Analysis|||||0.83|-0.70|0.87
82594040|NCT04353284|164901808|SUPERIORITY||Mean Difference (Net)|0.23||||0.69|TWO_SIDED|95.0|-0.94|1.4|||Mixed Models Analysis|||||1.4|-0.94|0.69
82594041|NCT04353284|164901809|SUPERIORITY||Odds Ratio (OR)|1.3||||0.71|TWO_SIDED|95.0|0.33|5.09|||GEE|||Nasopharyngeal Swab Samples analyzed.||5.09|0.33|0.71
82594042|NCT04353284|164901809|SUPERIORITY||Odds Ratio (OR)|0.4||||0.17|TWO_SIDED|95.0|0.11|1.47|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||1.47|0.11|0.17
82594043|NCT04353284|164901810|SUPERIORITY||Odds Ratio (OR)|3.05||||0.03|TWO_SIDED|95.0|1.12|8.26|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||||8.26|1.12|0.03
82594044|NCT04353284|164901810|SUPERIORITY||Odds Ratio (OR)|1.23||||0.68|TWO_SIDED|95.0|0.47|3.23|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||3.23|0.47|0.68
82594045|NCT04353284|164901811|SUPERIORITY||Odds Ratio (OR)|6.28||||0.1|TWO_SIDED|95.0|0.7|56.6|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||||56.60|0.70|0.10
82594046|NCT04353284|164901811|SUPERIORITY||Odds Ratio (OR)|0.9||||0.87|TWO_SIDED|95.0|0.25|3.23|||GEE|Within subject correlation is controlled by specifying a compound symmetry R-side structure in the model.||Saliva RT-PCR samples analyzed.||3.23|0.25|0.87
82654209|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.6003|TWO_SIDED|95.0|-0.3|0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 8||0.2|-0.3|0.6003
82594047|NCT04353284|164901812|SUPERIORITY||Mean Difference (Net)|-6.6||||0.02|TWO_SIDED|95.0|-12.1|-1.2|||Mixed Models Analysis|||||-1.2|-12.1|0.02
82594048|NCT04353284|164901813|SUPERIORITY||Mean Difference (Net)|-2.1||||0.48|TWO_SIDED|95.0|-7.9|3.7|||Mixed Models Analysis|||||3.7|-7.9|0.48
82594049|NCT04353284|164901814|SUPERIORITY||Mean Difference (Net)|1.0||||0.16|TWO_SIDED|95.0|-0.4|2.3|||Mixed Models Analysis|||||2.3|-0.4|0.16
82594050|NCT04353284|164901815|SUPERIORITY||Mean Difference (Net)|0.7||||0.34|TWO_SIDED|95.0|-0.7|2.1|||Mixed Models Analysis|||||2.1|-0.7|0.34
82594051|NCT02933034|164901818|OTHER|||||||0.001|||||||t-test, 2 sided|||Comparison of infarct size using MEMRI versus DEMRI scan||||0.001
82594052|NCT01040351|164901845|NON_INFERIORITY_OR_EQUIVALENCE|. The aggregate result of 6 studies reporting the pregnancy rate of patients with ultrasound visible hydrosalpinx revealed that clinical pregnancy rate among the patients with ultrasound-visible hydrosalpinges was 12.6%. We assumed that the aspiration of hydrosalpinx could restore clinical pregnancy rate to that expected for patients with tubal factor of infertility but without hydrosalpinges (about 36.5% in our hospital)|Odds Ratio (OR)|3.02||||0.023|TWO_SIDED|95.0|1.13|8.0|||Chi-squared|||||8.0|1.13|0.023
82594053|NCT02819635|164901854|SUPERIORITY||Adjusted risk difference (%)|8.4||||0.049|TWO_SIDED|95.0|0.0|16.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||16.8|0.0|0.049
82594054|NCT02819635|164901854|SUPERIORITY||Adjusted risk difference (%)|13.5||||0.01|TWO_SIDED|95.0|3.3|23.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||23.8|3.3|0.010
82594055|NCT02819635|164901854|SUPERIORITY||Adjusted risk difference (%)|13.8||||0.007|TWO_SIDED|95.0|3.8|23.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||23.9|3.8|0.007
82594056|NCT02819635|164901854|SUPERIORITY||Adjusted risk difference (%)|21.1|||<|0.001|TWO_SIDED|95.0|8.6|33.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||33.6|8.6|<0.001
82594057|NCT02819635|164901855|SUPERIORITY||Adjusted risk difference (%)|21.6|||<|0.001|TWO_SIDED|95.0|15.8|27.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes vs. no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||27.4|15.8|<0.001
82654210|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.0785|TWO_SIDED|95.0|-0.5|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.5|0.0785
82654211|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.3668|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.4|0.3668
82654212|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1827|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Genital Symptoms: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.4|0.1827
82594058|NCT02819635|164901856|SUPERIORITY||Adjusted risk difference (%)|30.7|||<|0.001|TWO_SIDED|95.0|21.7|39.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Baseline of Induction Study; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||39.8|21.7|<0.001
82594059|NCT02819635|164901856|SUPERIORITY||Adjusted risk difference (%)|39.0|||<|0.001|TWO_SIDED|95.0|29.7|48.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Baseline of Induction Study; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||48.2|29.7|<0.001
82594060|NCT02819635|164901857|SUPERIORITY||Adjusted risk difference (%)|13.1||||0.03|TWO_SIDED|95.0|1.2|25.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||25.0|1.2|0.030
82491543|NCT01681472|164676457|SUPERIORITY|||||||0.5286|||||||Wilcoxon (Mann-Whitney)|||The exploratory evaluation of t(last) was done respectively for differences between treatments using Wilcoxon test. Differences in variability between the treatment groups were assessed using Proc GLM and Levene's test.||||0.5286
82594061|NCT02819635|164901857|SUPERIORITY||Adjusted risk difference (%)|27.6|||<|0.001|TWO_SIDED|95.0|13.1|42.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||42.1|13.1|<0.001
82594062|NCT02819635|164901857|SUPERIORITY||Adjusted risk difference (%)|26.6|||<|0.001|TWO_SIDED|95.0|12.3|40.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||40.8|12.3|<0.001
82594063|NCT02819635|164901857|SUPERIORITY||Adjusted risk difference (%)|35.4|||<|0.001|TWO_SIDED|95.0|19.2|51.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||51.7|19.2|<0.001
82594064|NCT02819635|164901858|SUPERIORITY||Adjusted risk difference (%)|11.0||||0.021|TWO_SIDED|95.0|1.7|20.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||20.4|1.7|0.021
82594065|NCT02819635|164901858|SUPERIORITY||Adjusted risk difference (%)|9.6||||0.024|TWO_SIDED|95.0|1.3|18.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||18.0|1.3|0.024
82594066|NCT02819635|164901858|SUPERIORITY||Adjusted risk difference (%)|12.2||||0.015|TWO_SIDED|95.0|2.3|22.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||22.0|2.3|0.015
82594067|NCT02819635|164901858|SUPERIORITY||Adjusted risk difference (%)|20.1||||0.001|TWO_SIDED|95.0|8.0|32.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||32.1|8.0|0.001
82594068|NCT02819635|164901859|SUPERIORITY||Adjusted risk difference (%)|16.7||||0.038|TWO_SIDED|95.0|0.9|32.5||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||32.5|0.9|0.038
82594069|NCT02819635|164901859|SUPERIORITY||Adjusted risk difference (%)|35.2|||<|0.001|TWO_SIDED|95.0|17.5|52.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||52.8|17.5|<0.001
82594070|NCT02819635|164901859|SUPERIORITY||Adjusted risk difference (%)|33.6|||<|0.001|TWO_SIDED|95.0|16.3|50.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||50.8|16.3|<0.001
82594071|NCT02819635|164901859|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|26.2|63.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||63.9|26.2|<0.001
82654213|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.1327|TWO_SIDED|95.0|-0.4|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 3||0.1|-0.4|0.1327
82594072|NCT02819635|164901860|SUPERIORITY||Adjusted risk difference (%)|5.9||||0.495|TWO_SIDED|95.0|-11.1|22.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||22.9|-11.1|0.495
82594073|NCT02819635|164901860|SUPERIORITY||Adjusted risk difference (%)|15.9||||0.074|TWO_SIDED|95.0|-1.6|33.4||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||33.4|-1.6|0.074
82594074|NCT02819635|164901860|SUPERIORITY||Adjusted risk difference (%)|19.2||||0.033|TWO_SIDED|95.0|1.6|36.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||36.9|1.6|0.033
82594075|NCT02819635|164901860|SUPERIORITY||Adjusted risk difference (%)|40.1|||<|0.001|TWO_SIDED|95.0|20.5|59.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||59.7|20.5|<0.001
82594076|NCT02819635|164901861|SUPERIORITY||LS Mean Difference|-2.142|||<|0.001|TWO_SIDED|95.0|-3.2323|-1.052||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||-1.0520|-3.2323|<0.001
82594077|NCT02819635|164901861|SUPERIORITY||LS Mean Difference|-2.938|||<|0.001|TWO_SIDED|95.0|-4.0284|-1.8478||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||-1.8478|-4.0284|<0.001
82594078|NCT02819635|164901861|SUPERIORITY||LS Mean Difference|-3.736|||<|0.001|TWO_SIDED|95.0|-4.8247|-2.647||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||-2.6470|-4.8247|<0.001
82594079|NCT02819635|164901861|SUPERIORITY||LS Mean Difference|-4.061|||<|0.001|TWO_SIDED|95.0|-5.1252|-2.9974||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|ANCOVA|Stratified by previous biologic use, Baseline corticosteroid use, Baseline Adapted Mayo score (\<= 7 and \> 7)), and Baseline value as covariate.|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||-2.9974|-5.1252|<0.001
82594080|NCT02819635|164901862|SUPERIORITY||Adjusted risk difference (%)|6.6||||0.075|TWO_SIDED|95.0|-0.7|13.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||13.9|-0.7|0.075
82594081|NCT02819635|164901862|SUPERIORITY||Adjusted risk difference (%)|3.8||||0.199|TWO_SIDED|95.0|-2.0|9.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||9.6|-2.0|0.199
82594082|NCT02819635|164901862|SUPERIORITY||Adjusted risk difference (%)|11.1||||0.015|TWO_SIDED|95.0|2.2|20.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||20.0|2.2|0.015
82594083|NCT02819635|164901862|SUPERIORITY||Adjusted risk difference (%)|17.8||||0.004|TWO_SIDED|95.0|5.8|29.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||29.9|5.8|0.004
82594084|NCT02819635|164901863|SUPERIORITY||Adjusted risk difference (%)|25.6||||0.003|TWO_SIDED|95.0|8.9|42.3||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 7.5 mg - Placebo|Substudy 1: Upadacitinib 7.5 mg vs Placebo||42.3|8.9|0.003
82594085|NCT02819635|164901863|SUPERIORITY||Adjusted risk difference (%)|43.6|||<|0.001|TWO_SIDED|95.0|25.4|61.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 15 mg - Placebo|Substudy 1: Upadacitinib 15 mg vs Placebo||61.8|25.4|<0.001
82594086|NCT02819635|164901863|SUPERIORITY||Adjusted risk difference (%)|39.4|||<|0.001|TWO_SIDED|95.0|21.3|57.5||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 30 mg - Placebo|Substudy 1: Upadacitinib 30 mg vs Placebo||57.5|21.3|<0.001
82594087|NCT02819635|164901863|SUPERIORITY||Adjusted risk difference (%)|43.1|||<|0.001|TWO_SIDED|95.0|24.4|61.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by previous biologic use, baseline corticosteroid use and baseline Adapted Mayo score (≤ 7 and \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 1: Upadacitinib 45 mg vs Placebo||61.9|24.4|<0.001
82594088|NCT02819635|164901864|SUPERIORITY||Adjusted risk difference (%)|29.3|||<|0.001|TWO_SIDED|95.0|22.6|35.9||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||35.9|22.6|<0.001
82594089|NCT02819635|164901865|SUPERIORITY||Adjusted risk difference (%)|12.7|||<|0.001|TWO_SIDED|95.0|8.4|17.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||17.0|8.4|<0.001
82594090|NCT02819635|164901866|SUPERIORITY||Adjusted risk difference (%)|46.3|||<|0.001|TWO_SIDED|95.0|38.4|54.2||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||54.2|38.4|<0.001
82594091|NCT02819635|164901867|SUPERIORITY||Adjusted risk difference (%)|33.3|||<|0.001|TWO_SIDED|95.0|24.8|41.8||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)||Substudy 2: Upadacitinib 45 mg vs Placebo|Difference = Upadacitinib 45 mg - Placebo|41.8|24.8|<0.001
82594092|NCT02819635|164901868|SUPERIORITY||Adjusted risk difference (%)|23.7|||<|0.001|TWO_SIDED|95.0|17.5|30.0||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||30.0|17.5|<0.001
82594093|NCT02819635|164901869|SUPERIORITY||Adjusted risk difference (%)|27.4|||<|0.001|TWO_SIDED|95.0|19.2|35.6||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||35.6|19.2|<0.001
82594094|NCT02819635|164901870|SUPERIORITY||Adjusted risk difference (%)|23.6|||<|0.001|TWO_SIDED|95.0|15.1|32.1||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||32.1|15.1|<0.001
82491544|NCT01681472|164676458|OTHER||Correlation factor|-0.21666||||0.6063|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.6063
82491545|NCT01681472|164676458|OTHER||Correlation factor|0.54039||||0.2105|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.2105
82654214|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0993|TWO_SIDED|95.0|-0.4|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.4|0.0993
82594095|NCT02819635|164901871|SUPERIORITY||Adjusted risk difference (%)|32.2|||<|0.001|TWO_SIDED|95.0|23.8|40.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by bio-IR status (bio-IR vs. non-bio-IR), Baseline corticosteroid use (yes or no) and Baseline Adapted Mayo score (≤ 7 vs. \> 7)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||40.7|23.8|<0.001
82594096|NCT02819635|164901872|SUPERIORITY||Least Squares (LS) Mean Difference|33.7|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|27.02|40.36||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status).|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||40.36|27.02|<0.001
82594097|NCT02819635|164901873|SUPERIORITY||Adjusted risk difference (%)|9.7|||<|0.001|TWO_SIDED|95.0|5.7|13.7||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Baseline corticosteroid use (yes or no), Baseline Adapted Mayo score (≤ 7 or \> 7), and bio-IR status (bio-IR or non-bio-IR)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||13.7|5.7|<0.001
82594098|NCT02819635|164901874|SUPERIORITY||Least Squares (LS) Mean Difference|6.7|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED|95.0|4.79|8.59||The primary and ranked secondary efficacy endpoints were tested with multiplicity adjustment using a fixed-sequence multiple testing procedure to ensure a strong control of family-wise type I error rate at significance level alpha = 0.05 (2-sided).|Mixed-effect model repeated measurement|MMRM with Baseline, treatment, visit, treatment-by-visit interaction, and strata (Baseline Adapted Mayo score, corticosteroid use, and bio-IR status)|Difference = Upadacitinib 45 mg - Placebo|Substudy 2: Upadacitinib 45 mg vs Placebo||8.59|4.79|<0.001
82594099|NCT02819635|164901875|SUPERIORITY||Adjusted risk difference (%)|34.4|||<|0.001|TWO_SIDED|95.0|25.1|43.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||43.7|25.1|<0.001
82594100|NCT02819635|164901875|SUPERIORITY||Adjusted risk difference (%)|46.3|||<|0.001|TWO_SIDED|95.0|36.7|55.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||55.8|36.7|<0.001
82594101|NCT02819635|164901876|SUPERIORITY||Adjusted risk difference (%)|37.4|||<|0.001|TWO_SIDED|95.0|20.3|54.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||54.6|20.3|<0.001
82594102|NCT02819635|164901876|SUPERIORITY||Adjusted risk difference (%)|47.0|||<|0.001|TWO_SIDED|95.0|30.7|63.3||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||63.3|30.7|<0.001
82654215|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11||0.0002|TWO_SIDED|95.0|-0.6|-0.2||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 15||-0.2|-0.6|0.0002
82594103|NCT02819635|164901877|SUPERIORITY||Adjusted risk difference (%)|35.4|||<|0.001|TWO_SIDED|95.0|18.2|52.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||52.7|18.2|<0.001
82594104|NCT02819635|164901877|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|28.7|61.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||61.6|28.7|<0.001
82594105|NCT02819635|164901878|SUPERIORITY||Adjusted risk difference (%)|42.0|||<|0.001|TWO_SIDED|95.0|27.8|56.2||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||56.2|27.8|<0.001
82594106|NCT02819635|164901878|SUPERIORITY||Adjusted risk difference (%)|48.6|||<|0.001|TWO_SIDED|95.0|35.5|61.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||61.7|35.5|<0.001
82594107|NCT02819635|164901879|SUPERIORITY||Adjusted risk difference (%)|18.7|||<|0.001|TWO_SIDED|95.0|11.0|26.4||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||26.4|11.0|<0.001
82594108|NCT02819635|164901879|SUPERIORITY||Adjusted risk difference (%)|19.4|||<|0.001|TWO_SIDED|95.0|11.7|27.2||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||27.2|11.7|<0.001
82594109|NCT02819635|164901880|SUPERIORITY||Adjusted risk difference (%)|44.6|||<|0.001|TWO_SIDED|95.0|34.5|54.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||54.7|34.5|<0.001
82594110|NCT02819635|164901880|SUPERIORITY||Adjusted risk difference (%)|56.6|||<|0.001|TWO_SIDED|95.0|47.2|66.0||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||66.0|47.2|<0.001
82594111|NCT02819635|164901881|SUPERIORITY||Adjusted risk difference (%)|23.8|||<|0.001|TWO_SIDED|95.0|14.8|32.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||32.8|14.8|<0.001
82594112|NCT02819635|164901881|SUPERIORITY||Adjusted risk difference (%)|37.3|||<|0.001|TWO_SIDED|95.0|27.8|46.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||46.8|27.8|<0.001
82594113|NCT02819635|164901882|SUPERIORITY||LS Mean Difference|31.3|STANDARD_ERROR_OF_MEAN|4.77|<|0.001|TWO_SIDED|95.0|21.98|40.7||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/ no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||40.70|21.98|<0.001
82594114|NCT02819635|164901882|SUPERIORITY||LS Mean Difference|41.0|STANDARD_ERROR_OF_MEAN|4.88|<|0.001|TWO_SIDED|95.0|31.39|50.55||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/ no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||50.55|31.39|<0.001
82594115|NCT02819635|164901883|SUPERIORITY||Adjusted risk difference (%)|13.0|||<|0.001|TWO_SIDED|95.0|6.0|20.0||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||20.0|6.0|<0.001
82594116|NCT02819635|164901883|SUPERIORITY||Adjusted risk difference (%)|13.6|||<|0.001|TWO_SIDED|95.0|6.6|20.6||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||20.6|6.6|<0.001
82594117|NCT02819635|164901884|SUPERIORITY||Adjusted risk difference (%)|38.7|||<|0.001|TWO_SIDED|95.0|28.9|48.5||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||48.5|28.9|<0.001
82491546|NCT01681472|164676458|OTHER||Correlation factor|0.27618||||0.5079|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.5079
82491547|NCT01681472|164676458|OTHER||Correlation factor|0.68223||||0.0913|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.0913
82594118|NCT02819635|164901884|SUPERIORITY||Adjusted risk difference (%)|45.1|||<|0.001|TWO_SIDED|95.0|35.5|54.8||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||54.8|35.5|<0.001
82594119|NCT02819635|164901885|SUPERIORITY||Adjusted risk difference (%)|24.3|||<|0.001|TWO_SIDED|95.0|14.2|34.5||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||34.5|14.2|<0.001
82594120|NCT02819635|164901885|SUPERIORITY||Adjusted risk difference (%)|33.7|||<|0.001|TWO_SIDED|95.0|23.6|43.9||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|Cochran-Mantel-Haenszel|Stratified by Bio-IR (Bio-IR/Non-Bio-IR) at Induction Study Baseline; clinical remission at Week 0 (yes/no); corticosteroid use at Week 0 (yes/no)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||43.9|23.6|<0.001
82594121|NCT02819635|164901886|SUPERIORITY||LS Mean Difference|5.1|||<|0.001|TWO_SIDED|95.0|2.67|7.52||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 15 mg - Placebo|Substudy 3: Upadacitinib 15 mg vs Placebo||7.52|2.67|<0.001
82594122|NCT02819635|164901886|SUPERIORITY||LS Mean Difference|5.9|||<|0.001|TWO_SIDED|95.0|3.44|8.27||The primary and ranked secondary efficacy endpoints were tested with graphical multiplicity adjustment to ensure a strong control of family-wise type I error rate at significance level α= 0.05 (2-sided).|ANCOVA|Stratified by corticosteroid use at Week 0 (yes/no); clinical remission status at Week 0 (yes/no); Bio-IR status at Baseline (Bio-IR or Non-Bio-IR)|Difference = Upadacitinib 30 mg - Placebo|Substudy 3: Upadacitinib 30 mg vs Placebo||8.27|3.44|<0.001
82594123|NCT02605187|164901905|SUPERIORITY|||||||0.882||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at rest 24 hours after delivery. Null Hypothesis: all the means are the same.||||0.882
82594124|NCT02605187|164901905|SUPERIORITY|||||||0.565||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at movement 24 hours after delivery. Null Hypothesis: all the means are the same.||||0.565
82594125|NCT02605187|164901905|SUPERIORITY|||||||0.022||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at rest 48 hours after delivery. Null Hypothesis: all the means are the same.||||0.022
82594126|NCT02605187|164901905|SUPERIORITY|||||||0.14||||||Final parameter estimates would be considered significant at P \< 0.05.|ANOVA|||Comparison of pain at movement 48 hours after delivery. Null Hypothesis: all the means are the same.||||0.140
82594127|NCT02605187|164901906|SUPERIORITY|||||||0.311||||||Final parameter estimates would be considered significant at P \< 0.05.|Fisher Exact|||Comparison of opioid use 0-24 hours after delivery.||||0.311
82594128|NCT02605187|164901906|SUPERIORITY|||||||0.008||||||Final parameter estimates would be considered significant at P \< 0.05.|Fisher Exact|||Comparison of opioid use 24-48 hours after delivery.||||0.008
82594129|NCT02605187|164901907|SUPERIORITY|||||||0.092|||||||Fisher Exact|||Comparison of presence of pruritus 0-24 hours after delivery.||||0.092
82594130|NCT02605187|164901907|SUPERIORITY|||||||0.269|||||||Fisher Exact|||Comparison of presence of pruritus 24-48 hours after delivery.||||0.269
82594131|NCT02605187|164901908|SUPERIORITY|||||||0.006|||||||ANOVA|||Comparison of pruritus score 24 hours after delivery. Null Hypothesis: all means are equal||||0.006
82594132|NCT02605187|164901908|SUPERIORITY|||||||0.296|||||||ANOVA|||Comparison of pruritus score 48 hours after delivery. Null Hypothesis: all means are equal||||0.296
82491548|NCT01681472|164676459|OTHER||Correlation factor|0.38298||||0.3964|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.3964
82491549|NCT01681472|164676459|OTHER||Correlation factor|0.27018||||0.5175|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.5175
82491550|NCT01681472|164676459|OTHER||Correlation factor|-0.02188||||0.959|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in tumor||||0.9590
82594133|NCT02605187|164901909|SUPERIORITY|||||||0.759|||||||Fisher Exact|||Comparison of participants who need medical treatment of pruritus 0-24 hours after delivery.||||0.759
82594134|NCT02605187|164901909|SUPERIORITY|||||||0.761|||||||Fisher Exact|||Comparison of participants who need medical treatment of pruritus 24-48 hours after delivery.||||0.761
82594135|NCT02605187|164901910|SUPERIORITY|||||||0.281|||||||Chi-squared|||||||0.281
82594136|NCT02605187|164901911|SUPERIORITY|||||||0.786|||||||ANOVA|||Comparison of nausea score 24 hours after delivery. Null Hypothesis: all means are equal||||0.786
82594137|NCT02605187|164901911|SUPERIORITY|||||||0.985|||||||ANOVA|||Comparison of nausea score at 48 hours after delivery. Null Hypothesis: all means are equal||||0.985
82594138|NCT02605187|164901912|SUPERIORITY|||||||0.057|||||||Chi-squared|||Comparison of participants who need nausea treatment from 0-24 hours after delivery.||||0.057
82594139|NCT02605187|164901912|SUPERIORITY|||||||0.246|||||||Fisher Exact|||Comparison of participants who need nausea treatment from 24-48 hours after delivery.||||0.246
82594140|NCT02605187|164901913|SUPERIORITY|||||||0.226|||||||ANOVA|||Comparison of average number of vomiting episodes 0-24 hours after delivery. Null Hypothesis: all means are equal||||0.226
82594141|NCT02605187|164901914|SUPERIORITY|||||||0.036|||||||ANOVA|||||||0.036
82594142|NCT02605187|164901915|SUPERIORITY|||||||0.019|||||||ANOVA|||Comparison of satisfaction with pain medication 24 hours after delivery.||||0.019
82594143|NCT02605187|164901915|SUPERIORITY|||||||0.873|||||||ANOVA|||Comparison of satisfaction with pain medication 48 hours after delivery.||||0.873
82594144|NCT01977599|164901919|OTHER|Chi Square|||||<|0.001|||||||Chi-squared|||||||<0.001
82594145|NCT01118273|164901931|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANCOVA|||||||0.54
82594146|NCT01118273|164901932|SUPERIORITY_OR_OTHER|||||||0.31|||||||ANCOVA|||||||0.31
82594147|NCT01118273|164901933|SUPERIORITY_OR_OTHER|||||||0.45|||||||Log Rank|||||||0.45
82594148|NCT01118273|164901934|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82654216|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0056|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 21||-0.1|-0.5|0.0056
82654217|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0122|TWO_SIDED|95.0|-0.5|-0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Hypochondriasis: Change From Baseline in HAM-D Individual Item Score at Day 45||-0.1|-0.5|0.0122
82654218|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.1305|TWO_SIDED|95.0|-0.3|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.3|0.1305
82654219|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.6638|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 8||0.1|-0.2|0.6638
82654220|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.4341|TWO_SIDED|95.0|-0.2|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 15||0.1|-0.2|0.4341
82654221|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07||0.9085|TWO_SIDED|95.0|-0.1|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 21||0.1|-0.1|0.9085
82594149|NCT01118273|164901935|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANCOVA|||||||0.05
82594150|NCT01118273|164901936|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|||||||0.019
82594151|NCT01118273|164901937|SUPERIORITY_OR_OTHER|||||||0.018|||||||ANCOVA|||||||0.018
82594152|NCT01118273|164901938|SUPERIORITY_OR_OTHER|||||||0.03|||||||Cochran-Mantel-Haenszel|||||||0.03
82594153|NCT01118273|164901939|SUPERIORITY_OR_OTHER|||||||0.76|||||||Cochran-Mantel-Haenszel|||||||0.76
82594154|NCT01118273|164901940|SUPERIORITY_OR_OTHER|||||||0.015|||||||ANCOVA|||||||0.015
82594155|NCT01118273|164901941|SUPERIORITY_OR_OTHER|||||||0.04|||||||Cochran-Mantel-Haenszel|||||||0.04
82594156|NCT01118273|164901942|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
82594157|NCT01118273|164901943|SUPERIORITY_OR_OTHER|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
82594158|NCT01118273|164901945|SUPERIORITY_OR_OTHER|||||||0.42|||||||ANCOVA|||||||0.42
82594159|NCT01118273|164901946|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
82594160|NCT01118273|164901947|SUPERIORITY_OR_OTHER|||||||0.35|||||||ANCOVA|||||||0.35
82594161|NCT01118273|164901948|SUPERIORITY_OR_OTHER|||||||0.72|||||||ANCOVA|||||||0.72
82594162|NCT01118273|164901949|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
82594163|NCT01118273|164901951|SUPERIORITY_OR_OTHER|||||||0.35|||||||Cochran-Mantel-Haenszel|||||||0.35
82594164|NCT01118273|164901953|SUPERIORITY_OR_OTHER|||||||0.53|||||||ANCOVA|||||||0.53
82594165|NCT01118273|164901954|SUPERIORITY_OR_OTHER|||||||0.55|||||||ANCOVA|||||||0.55
82594166|NCT01118273|164901955|SUPERIORITY_OR_OTHER|||||||0.59|||||||ANCOVA|||||||0.59
82594167|NCT01118273|164901956|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANCOVA|||||||0.25
82594168|NCT02375724|164901957|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.02||||0.0306|TWO_SIDED|95.0|-1.94|-0.1|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||-0.10|-1.94|0.0306
82594169|NCT02375724|164901958|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.22||||0.0793|TWO_SIDED|95.0|-0.46|0.03|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||0.03|-0.46|0.0793
82594170|NCT02375724|164901959|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.06||||0.844|TWO_SIDED|95.0|-0.64|0.52|||Mixed Models Analysis|Baseline and age as covariates; treatment group, sex, visit, smoking-status and treatment group-by-visit interaction as fixed effect factors||||0.52|-0.64|0.844
82594171|NCT02684604|164901960|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82594172|NCT00941668|164901974|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82594173|NCT00941668|164901975|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82594174|NCT01748942|164901989|SUPERIORITY|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82594175|NCT01748942|164901992|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||<0.001
82594176|NCT01748942|164901993|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82594177|NCT01748942|164901994|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82594178|NCT01748942|164901995|SUPERIORITY|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82594179|NCT01748942|164901996|SUPERIORITY|||||||0.15|||||||Log Rank|||||||0.15
82594180|NCT00804570|164901997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.3||||0.12|TWO_SIDED|95.0|-9.72|1.13|||Mixed Models Analysis|||||1.13|-9.72|0.120
82594181|NCT00804570|164901998|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.71||||0.013|TWO_SIDED|95.0|-1.27|-0.15|||Mixed Models Analysis|||||-0.15|-1.27|0.013
82594182|NCT00804570|164901999|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.37||||0.051|TWO_SIDED|95.0|-0.02|10.77|||Mixed Models Analysis|||||10.77|-0.02|0.051
82594183|NCT00804570|164902000|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4||||0.249|TWO_SIDED|95.0|-1.07|0.28|||Mixed Models Analysis|||||0.28|-1.07|0.249
82594184|NCT00804570|164902001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.199|TWO_SIDED|95.0|-1.12|0.23|||Mixed Models Analysis|||||0.23|-1.12|0.199
82594185|NCT00804570|164902002|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68||||0.318|TWO_SIDED|95.0|-2.03|0.66|||Mixed Models Analysis|||||0.66|-2.03|0.318
82594186|NCT00804570|164902003|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.01||||0.034|TWO_SIDED|95.0|-5.8|-0.22|||Mixed Models Analysis|||||-0.22|-5.80|0.034
82594187|NCT00804570|164902004|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.9||||0.001|TWO_SIDED|95.0|0.85|0.96|||Mixed Models Analysis|||||0.96|0.85|0.001
82594188|NCT00804570|164902005|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.96||||0.103|TWO_SIDED|95.0|0.91|1.01|||Mixed Models Analysis|||||1.01|0.91|0.103
82594189|NCT00804570|164902006|SUPERIORITY_OR_OTHER_LEGACY||GMR over Baseline relative to placebo|0.94||||0.012|TWO_SIDED|95.0|0.89|0.99|||Mixed Models Analysis|||||0.99|0.89|0.012
82594190|NCT00804570|164902007|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.32||||0.392|TWO_SIDED|95.0|-1.05|0.41|||Mixed Models Analysis|||||0.41|-1.05|0.392
82594191|NCT00804570|164902008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.185|TWO_SIDED|95.0|-1.1|0.21|||Mixed Models Analysis|||||0.21|-1.10|0.185
82594192|NCT00804570|164902009|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.25||||0.142|TWO_SIDED|95.0|-0.42|2.92|||ANCOVA|||||2.92|-0.42|0.142
82594193|NCT00804570|164902010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.69|TWO_SIDED|95.0|-1.01|0.04||P-value is for desire to stop drinking at this time.|ANCOVA|||||0.04|-1.01|0.69
82594194|NCT00804570|164902010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.545|TWO_SIDED|95.0|-0.85|0.45||P-value is for expectation of success in quitting alcohol.|ANCOVA|||||0.45|-0.85|0.545
82594195|NCT00804570|164902010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48||||0.19|TWO_SIDED|95.0|-1.2|0.24||P-value is for difficulty to quit and remain abstinent.|ANCOVA|||||0.24|-1.20|0.190
82491551|NCT01681472|164676459|OTHER||Correlation factor|0.45404||||0.3061|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3061
82491552|NCT01681472|164676459|OTHER||Correlation factor|0.34905||||0.3967|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3967
82594196|NCT00804570|164902010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04||||0.856|TWO_SIDED|95.0|-0.49|0.4||P-value is for goal related to alcohol use.|ANCOVA|||||0.40|-0.49|0.856
82594197|NCT00804570|164902011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.297|TWO_SIDED|95.0|-0.68|2.22|||Mixed Models Analysis|||||2.22|-0.68|0.297
82594198|NCT00804570|164902012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.46||||0.633|TWO_SIDED|95.0|-1.44|2.36|||Mixed Models Analysis|||||2.36|-1.44|0.633
82594199|NCT00804570|164902015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.409|TWO_SIDED|95.0|-2.62|1.07||P-value is for supine systolic blood pressure.|Mixed Models Analysis|||||1.07|-2.62|0.409
82594200|NCT00804570|164902015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.45||||0.452|TWO_SIDED|95.0|-1.63|0.73||P-value is for supine diastolic blood pressure.|Mixed Models Analysis|||||0.73|-1.63|0.452
82594201|NCT00804570|164902016|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.53||||0.456|TWO_SIDED|95.0|-1.93|0.87|||Mixed Models Analysis|||||0.87|-1.93|0.456
82594202|NCT00804570|164902017|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.08||||0.081|TWO_SIDED|95.0|-4.41|0.26|||Mixed Models Analysis|||||0.26|-4.41|0.081
82594203|NCT00804570|164902018|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0|||||Fisher Exact|||||||0.122
82594204|NCT00804570|164902019|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||Fisher Exact|||||||0.002
82594205|NCT00804570|164902020|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.69||||0.235|TWO_SIDED|95.0|-1.82|0.45||P-value is for orthostatic systolic blood pressure.|Mixed Models Analysis|||||0.45|-1.82|0.235
82594206|NCT00804570|164902020|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31||||0.4|TWO_SIDED|95.0|-1.05|0.42||P-value is for orthostatic diastolic blood pressure.|Mixed Models Analysis|||||0.42|-1.05|0.400
82594207|NCT00804570|164902021|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.74||||0.077|TWO_SIDED|95.0|-0.08|1.57|||Mixed Models Analysis|||||1.57|-0.08|0.077
82594208|NCT00804570|164902023|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.57|||<|0.001|TWO_SIDED|95.0|0.24|0.9|||Mixed Models Analysis|||||0.90|0.24|<0.001
82594209|NCT00290342|164902024|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to diphtheria, standardized asymptotic 95% CI for the groups'difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.79||||||Non-inferiority in terms of vaccine response to diphteria||1.79|-1.85|
82594210|NCT00290342|164902024|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to tetanus, standardized asymptotic 95% CI for the groups'difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.79||||||Non-inferiority in terms of vaccine response to tetanus||1.79|-1.85|
82594211|NCT00290342|164902025|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 1, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.0|||||TWO_SIDED|95.0|-1.85|1.82||||||Immune response non-inferiority - Anti-Polio 1||1.82|-1.85|
82594212|NCT00290342|164902025|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 2, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.49|||||TWO_SIDED|95.0|-1.36|2.71||||||Immune response non-inferiority - Anti-Polio 2||2.71|-1.36|
82594213|NCT00290342|164902025|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to poliovirus type 3, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|-0.01|||||TWO_SIDED|95.0|-2.28|2.24||||||Immune response non-inferiority - Anti-Polio 3||2.24|-2.28|
82594214|NCT00290342|164902026|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to pertussis toxoid, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|1.44|||||TWO_SIDED|95.0|-0.46|4.13||||||Immune response non-inferiority - Anti-PT||4.13|-0.46|
82654222|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.182|TWO_SIDED|95.0|-0.3|0.1||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Loss of Weight According to Patient: Change From Baseline in HAM-D Individual Item Score at Day 45||0.1|-0.3|0.1820
82654223|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.1593|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 3||0.0|-0.1|0.1593
82654224|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.6555|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 8||0.0|-0.1|0.6555
82654225|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.017|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 15||0.0|-0.1|0.0170
82654226|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.03||0.0188|TWO_SIDED|95.0|-0.1|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 21||0.0|-0.1|0.0188
82654227|NCT02978326|165023532|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0726|TWO_SIDED|95.0|-0.2|0.0||MMRM was used for estimation with treatment, baseline HAM-D individual item score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Insight: Change From Baseline in HAM-D Individual Item Score at Day 45||0.0|-0.2|0.0726
82654228|NCT02978326|165023533|SUPERIORITY||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.72||0.0791|TWO_SIDED|95.0|-6.5|0.4||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 3||0.4|-6.5|0.0791
82654229|NCT02978326|165023533|SUPERIORITY||LS Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.86||0.0322|TWO_SIDED|1.86|-7.7|-0.3||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 8||-0.3|-7.7|0.0322
82491553|NCT01681472|164676459|OTHER||Correlation factor|0.07937||||0.8518|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.8518
82491554|NCT01681472|164676460|OTHER||Correlation factor|0.73743||||0.0586|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.0586
82594215|NCT00290342|164902026|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to filamentous haemagglutinin, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.45|||||TWO_SIDED|95.0|-1.88|2.95||||||Immune response non-inferiority - Anti-FHA||2.95|-1.88|
82654230|NCT02978326|165023533|SUPERIORITY||LS Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|1.91||0.018|TWO_SIDED|95.0|-8.3|-0.8||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change From Baseline in MADRS Total Score at Day 15||-0.8|-8.3|0.0180
82654231|NCT02978326|165023533|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|1.92||0.0271|TWO_SIDED|95.0|-8.1|-0.5||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in MADRS Total Score at 21||-0.5|-8.1|0.0271
82594216|NCT00290342|164902026|NON_INFERIORITY_OR_EQUIVALENCE|To assess the non-inferiority of the Infanrix-IPV Group compared to the Infanrix + IMOVAX Polio Group in terms of vaccine response to pertactin, standardized asymptotic 95% CI for the groups' difference (Infanrix-IPV Group minus Infanrix + IMOVAX Polio Group) was computed. Objective of non-inferiority was met since the LL of the 95% CI was above -10%.|Difference in seroprotection rate|0.47|||||TWO_SIDED|95.0|-1.4|2.64||||||Immune response non-inferiority - Anti-PRN||2.64|-1.4|
82594217|NCT01056510|164902037|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||The first-line subpopulation became the focus of the primary statistical analysis following the protocol amendment dated 21-May-2012.||||0.002
82594218|NCT01056510|164902038|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||||||< 0.001
82594219|NCT01056510|164902039|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||Based on one-sided continuity corrected Chi-Square Test for participants achieving CR confirmed with biopsy versus those not achieving CR confirmed with biopsy|Chi-squared, Corrected|||||||0.009
82594220|NCT01056510|164902040|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||After 3 cycles||||0.900
82594221|NCT01056510|164902040|SUPERIORITY_OR_OTHER|||||||0.563|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||After 6 cycles||||0.563
82594222|NCT01056510|164902040|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||At the EOT visit||||0.304
82594223|NCT01056510|164902043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.525||||0.003|TWO_SIDED|95.0|0.341|0.809|||Log Rank|||Unstratified analysis||0.809|0.341|0.003
82594224|NCT01056510|164902043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.523||||0.003|TWO_SIDED|95.0|0.339|0.806|||Log Rank|||Stratified analysis: by baseline Binet stage||0.806|0.339|0.003
82654232|NCT02978326|165023533|SUPERIORITY||LS Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|1.82||0.0018|TWO_SIDED|95.0|-9.4|-2.2||MMRM was used for estimation with treatment with treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in MADRS Total Score at 45||-2.2|-9.4|0.0018
82654233|NCT02978326|165023534|SUPERIORITY||Odds Ratio (OR)|1.4||||0.3372|TWO_SIDED|95.0|0.7|2.81||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 3||2.81|0.70|0.3372
82594225|NCT01056510|164902045|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Log Rank|||||||0.029
82594226|NCT01056510|164902047|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||Log Rank|||||||0.006
82594227|NCT01056510|164902049|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED||||||Log Rank|||||||0.037
82594228|NCT01056510|164902051|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Log Rank|||||||0.007
82594229|NCT01056510|164902053|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.994||||0.986|TWO_SIDED|95.0|0.517|1.911||Unstratified analysis|Log Rank|||||1.911|0.517|0.986
82594230|NCT01056510|164902053|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.975||||0.939|TWO_SIDED|95.0|0.505|1.88|||Log Rank|||Stratified analysis: by baseline Binet stage||1.880|0.505|0.939
82594231|NCT01056510|164902054|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Based on two-sided continuity corrected Chi-Square Test|Chi-squared, Corrected|||||||< 0.001
82594232|NCT02997735|164902060|SUPERIORITY||Odds Ratio (OR)|7.78|||<|0.001|TWO_SIDED|95.0|2.81|27.9|||Chi-squared||ORs from multivariable logistic regression model of characteristics associated with successful quitline enrollment.|||27.90|2.81|<0.001
82594233|NCT02997735|164902061|SUPERIORITY||Odds Ratio (OR)|0.48||||0.15|TWO_SIDED|95.0|0.13|1.72|||Chi-squared||1-5 years Row (\<1 Ref)|||1.72|0.13|0.15
82594234|NCT02997735|164902061|SUPERIORITY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.18|2.12|||||6-12 years Row (\<1 Ref)|||2.12|0.18|
82594235|NCT02997735|164902061|SUPERIORITY||Odds Ratio (OR)|1.82|||||TWO_SIDED|95.0|0.49|6.94|||||13 or Older Row (\<1 Ref)|||6.94|0.49|
82594236|NCT02997735|164902062|SUPERIORITY||Odds Ratio (OR)|2.38||||0.028|TWO_SIDED|95.0|0.92|6.5|||Chi-squared||35-49 years Row (18-34 Ref)|||6.50|0.92|0.028
82594237|NCT02997735|164902062|SUPERIORITY||Odds Ratio (OR)|5.1|||||TWO_SIDED|95.0|1.46|17.32|||||50 or older Row (18-34 Ref)|||17.32|1.46|
82594238|NCT02997735|164902063|SUPERIORITY||Odds Ratio (OR)|1.1||||0.85|TWO_SIDED|95.0|0.4|2.8|||Chi-squared||Asthma Row (No asthma Ref)|||2.80|0.40|0.85
82594239|NCT02997735|164902064|SUPERIORITY||Odds Ratio (OR)|2.07||||0.086|TWO_SIDED|95.0|0.9|6.5|||Chi-squared||10 or more cigarettes Row (\<10 cigarettes Ref)|||6.50|0.90|0.086
82594240|NCT02997735|164902065|SUPERIORITY||Odds Ratio (OR)|0.47||||0.35|TWO_SIDED|95.0|0.15|1.27|||Chi-squared||Less than 6 months Row (30 days Ref)|||1.27|0.15|0.35
82594241|NCT02997735|164902065|SUPERIORITY||Odds Ratio (OR)|0.67|||||TWO_SIDED|95.0|0.15|2.21|||||||6 or more months Row (30 days Ref)|2.21|0.15|
82594242|NCT03418129|164902074|SUPERIORITY||Slope|0.2331|STANDARD_ERROR_OF_MEAN|0.2176||0.2852|TWO_SIDED||||||ANCOVA||Multilevel modeling was used to model outcome at baseline and 3-month follow-up. Resulting slopes capture change in outcome from baseline to follow-up, with relaxation set as the comparison.|||||0.2852
82594243|NCT03418129|164902074|SUPERIORITY||Slope|0.03057|STANDARD_ERROR_OF_MEAN|0.2132||0.8861|TWO_SIDED||||||ANCOVA||Multilevel modeling was used to model outcome at baseline and 3-month follow-up. Resulting slopes capture change in outcome from baseline to follow-up, with relaxation set as the comparison.|||||0.8861
82594244|NCT03418129|164902075|SUPERIORITY||Slope|-0.03844|STANDARD_ERROR_OF_MEAN|0.09424||0.6842|TWO_SIDED||||||ANOVA||Multilevel modeling was used to model outcomes at two time points (3-month follow-up and baseline) and across three treatment groups (Mindfulness, Neurofeedback, and Relaxation).|||||0.6842
82594245|NCT03418129|164902075|SUPERIORITY||Slope|-0.1432|STANDARD_ERROR_OF_MEAN|0.09427||0.132|TWO_SIDED||||||ANOVA||Multilevel modeling was used to model outcomes at two time points (3-month follow-up and baseline) and across three treatment groups (Mindfulness, Neurofeedback, and Relaxation).|||||0.132
82594246|NCT03418129|164902076|SUPERIORITY||Slope|0.1911|STANDARD_ERROR_OF_MEAN|0.2551||0.4542|TWO_SIDED||||||ANCOVA|||||||0.4542
82594247|NCT03418129|164902076|SUPERIORITY||Slope|-0.3761|STANDARD_ERROR_OF_MEAN|0.2454||0.1261|TWO_SIDED||||||ANCOVA|||||||0.1261
82594248|NCT00942175|164902087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|90.0|0.6106|0.8026|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.8026|0.6106|
82594249|NCT00942175|164902087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.734|||||TWO_SIDED|90.0|0.6516|0.8269|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.8269|0.6516|
82594250|NCT00942175|164902087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5564|||||TWO_SIDED|90.0|0.4877|0.6347|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.6347|0.4877|
82594251|NCT00942175|164902087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6783|||||TWO_SIDED|90.0|0.5063|0.9087|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9087|0.5063|
82594252|NCT00942175|164902088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8573|||||TWO_SIDED|90.0|0.802|0.9165|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9165|0.8020|
82594253|NCT00942175|164902088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9103|||||TWO_SIDED|90.0|0.8567|0.9672|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.9672|0.8567|
82594254|NCT00942175|164902088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6943|||||TWO_SIDED|90.0|0.6438|0.7487|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||0.7487|0.6438|
82594255|NCT00942175|164902088|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8389|||||TWO_SIDED|90.0|0.644|1.0928|||||The mean difference refers to the point estimates of the relative bioavailability. With its confidence intervals, it was obtained from the ANOVA model on the natural logarithm transformed data.|||1.0928|0.6440|
82594256|NCT00942175|164902089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1016|||||TWO_SIDED|90.0|0.0348|8.1684|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||8.1684|0.0348|
82594257|NCT00942175|164902089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0474|||||TWO_SIDED|90.0|-0.8555|4.9503|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||4.9503|-0.8555|
82594258|NCT00942175|164902089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0407|||||TWO_SIDED|90.0|6.5219|15.5595|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||15.5595|6.5219|
82594259|NCT00942175|164902089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.4437|||||TWO_SIDED|90.0|7.1791|15.7083|||||Included only participants with complete data for both regimens. Values are least squares mean difference.|||15.7083|7.1791|
82594260|NCT00942175|164902090|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.035
82491555|NCT01681472|164676460|OTHER||Correlation factor|0.44757||||0.2661|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.2661
82594261|NCT00942175|164902090|SUPERIORITY_OR_OTHER|||||||0.445||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.445
82594262|NCT00942175|164902090|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
82594263|NCT00942175|164902090|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
82491556|NCT01681472|164676460|OTHER||Correlation factor|0.03292||||0.9506|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.9506
82491557|NCT01681472|164676460|OTHER||Correlation factor|0.09033||||0.8315|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.8315
82491558|NCT01681472|164676460|OTHER||Correlation factor|0.76502||||0.0451|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in adjacent mucosa||||0.0451
82594264|NCT00942175|164902091|SUPERIORITY_OR_OTHER|||||||0.004||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.004
82594265|NCT00942175|164902091|SUPERIORITY_OR_OTHER|||||||0.148||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||0.148
82594266|NCT00942175|164902091|SUPERIORITY_OR_OTHER||||||<|0.001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<0.001
82594267|NCT00942175|164902091|SUPERIORITY_OR_OTHER||||||<|0.0001||90.0||||From ANOVA models in which the least-square means between two regimens are compared.|ANOVA|||||||<.0001
82594268|NCT00884273|164902097|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.~If the Week 12 treatment assessment of prostate volume was missing the LOCF approach was used, i.e., the prostate volume value closest to and before Week 12 was used."|Mean Difference (Final Values)|2.37||||0.36|TWO_SIDED|95.0|-2.78|7.52||FAS.|ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||7.52|-2.78|0.36
82654234|NCT02978326|165023534|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0935|TWO_SIDED|95.0|0.91|3.47||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 8||3.47|0.91|0.0935
82594269|NCT00884273|164902106|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.~If the Week 12 treatment assessment of prostate volume was missing the LOCF approach was used, i.e., the prostate volume value closest to and before Week 12 was used."|Mean Difference (Net)|2.24||||0.41|TWO_SIDED|95.0|-3.1|7.58||PP.|ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||7.58|-3.10|0.41
82594270|NCT01940471|164902107|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample sizes of 288 and 576 participants in the TDF and TAF groups, respectively, were planned to give 84% power to rule out the noninferiority margin of 10% at a 1-sided significance level of 0.025. This sample size based on the assumption that the expected difference (TAF - TDF) in the proportion of participants with HBV DNA \< 29 IU/mL was 0 and the proportion of participants with HBV DNA \< 29 IU/mL in the TDF group was 69%. Missing data were treated as not achieving the primary endpoint.|Difference in proportions|-3.6|||||TWO_SIDED|95.0|-9.8|2.6|||||Difference in the proportion between treatment groups and its 95% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HBV DNA categories and oral antiviral treatment status strata.|The null hypothesis was that the TAF group is at least 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. Noninferiority was assessed using a 95% confidence interval (CI) approach, with a noninferiority margin of 10%.||2.6|-9.8|
82594271|NCT00258674|164902113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.307||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.307
82594272|NCT00258674|164902114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.551||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.551
82594273|NCT00258674|164902115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.927||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.927
82594274|NCT00258674|164902116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.308||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.308
82594275|NCT00258674|164902117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.867||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.867
82594276|NCT00258674|164902118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.98||||0.807||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.807
82594277|NCT00258674|164902119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.702||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.702
82594278|NCT00258674|164902120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.413||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.413
82594279|NCT00258674|164902121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.996||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.996
82594280|NCT00258674|164902122|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.02||||0.451||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.451
82594281|NCT00258674|164902123|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.1||||0.447||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.447
82594282|NCT00258674|164902124|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.01||||0.936||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.936
82594283|NCT00258674|164902125|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.04||||0.332||95.0||||A comparison of the claims vs. claims+MR arms was also conducted, giving a p-value of 0.537.|Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.332
82594284|NCT00258674|164902126|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.01||||0.86||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.860
82594285|NCT00258674|164902127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.382||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.382
82594286|NCT00258674|164902128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.988||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.988
82594287|NCT00258674|164902129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.685||95.0|||||Regression, Logistic|||We used a three-stage hierarchical model estimate the effect of the interventions on the change in endpoint from baseline to follow-up. Change scores for dichotomous measures were scored as -1, 0, or 1, with a positive value indicating increased guideline adherence or increased incidence of that process. We used ordered logistic models to test the hypothesis that patients in the intervention groups were more likely to meet guidelines or to receive these processes of care.||||0.685
82594288|NCT03715153|164902130|SUPERIORITY||Estimate of the adjusted difference|0.35|STANDARD_ERROR_OF_MEAN|0.71||0.617|TWO_SIDED|95.0|-1.04|1.75|||t-test, 2 sided|General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline.|Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||1.75|-1.04|0.617
82594289|NCT03715153|164902131|SUPERIORITY||Estimate of the adjusted difference|0.48|STANDARD_ERROR_OF_MEAN|3.26|||TWO_SIDED|95.0|-5.91|6.88|||||General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||6.88|-5.91|
82594290|NCT03715153|164902132|SUPERIORITY||Estimate of the adjusted difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|95.0|-0.24|0.16|||||Rank-based analysis (Wilcoxon scores) including terms for fixed categorical effects of treatment, country and gender. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||0.16|-0.24|
82594291|NCT03715153|164902133|SUPERIORITY||Estimate of the adjusted difference|0.16|STANDARD_ERROR_OF_MEAN|0.81|||TWO_SIDED|95.0|-1.42|1.75|||||General Linear Model including the fixed, categorical effects of treatment, country, gender, as well as the continuous, fixed covariates of baseline. Estimate of the adjusted difference was based on 211 patients (Missing data were imputed).|||1.75|-1.42|
82594292|NCT03715153|164902137|SUPERIORITY||Estimate of the adjusted difference|-0.26|STANDARD_ERROR_OF_MEAN|2.48|||TWO_SIDED|95.0|-5.12|4.59||||||||4.59|-5.12|
82594293|NCT02904915|164902243|SUPERIORITY|||||||0.59|||||||Fisher Exact|||||||0.59
82491559|NCT01681472|164676460|OTHER||Correlation factor|0.34496||||0.4027|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.4027
82594294|NCT02904915|164902244|SUPERIORITY|||||||0.39|||||||Fisher Exact|||||||0.39
82594295|NCT02904915|164902245|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
82594296|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|2.4|||||TWO_SIDED|95.0|-6.4|11.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 1-4 combined||11.2|-6.4|
82491560|NCT01681472|164676460|OTHER||Correlation factor|-0.66295||||0.1513|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.1513
82594297|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3|||||TWO_SIDED|95.0|-10.8|8.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 1-4 combined||8.3|-10.8|
82594298|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|2.0|||||TWO_SIDED|95.0|-9.3|13.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 1||13.2|-9.3|
82594299|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|0.0|||||TWO_SIDED|95.0|-11.4|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 1||11.4|-11.4|
82594300|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-14.8|||||TWO_SIDED|95.0|-29.2|-0.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 2||-0.3|-29.2|
82594301|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-7.0|||||TWO_SIDED|95.0|-20.9|6.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 2||6.9|-20.9|
82594302|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-17.6|||||TWO_SIDED|95.0|-32.8|-2.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 3||-2.4|-32.8|
82594303|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-19.0|||||TWO_SIDED|95.0|-34.1|-3.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 3||-3.9|-34.1|
82594304|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-4.8|||||TWO_SIDED|95.0|-21.0|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 4||11.4|-21.0|
82594305|NCT02090413|164902251|SUPERIORITY_OR_OTHER||Difference in percentage|-4.8|||||TWO_SIDED|95.0|-21.0|11.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Week 4||11.4|-21.0|
82594306|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|4.9|||||TWO_SIDED|95.0|-2.6|12.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing events||12.4|-2.6|
82594307|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-2.5|12.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing events||12.5|-2.5|
82594308|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-11.2|8.1|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall redness events||8.1|-11.2|
82594309|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3|||||TWO_SIDED|95.0|-10.8|8.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall redness events||8.3|-10.8|
82654235|NCT02978326|165023534|SUPERIORITY||Odds Ratio (OR)|2.16||||0.0276|TWO_SIDED|95.0|1.09|4.28||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 15||4.28|1.09|0.0276
82491561|NCT01681472|164676460|OTHER||Correlation factor|0.36854||||0.369|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.3690
82491562|NCT01681472|164676461|OTHER||Correlation factor|0.23512||||0.5751|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.5751
82594310|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|4.9|||||TWO_SIDED|95.0|-1.8|11.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall warmth events||11.7|-1.8|
82594311|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-1.7|11.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall warmth events||11.7|-1.7|
82594312|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|5.9|||||TWO_SIDED|95.0|-5.4|17.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall tingling events||17.3|-5.4|
82594313|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|5.0|||||TWO_SIDED|95.0|-6.4|16.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall tingling events||16.4|-6.4|
82594314|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|-8.0|||||TWO_SIDED|95.0|-19.5|3.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall itching events||3.5|-19.5|
82594315|NCT02090413|164902252|SUPERIORITY_OR_OTHER||Difference in percentage|-11.3|||||TWO_SIDED|95.0|-23.1|0.6|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall itching events||0.6|-23.1|
82594316|NCT02090413|164902255|SUPERIORITY_OR_OTHER||Difference in percentage|-1.4|||||TWO_SIDED|95.0|-15.8|13.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 5-8 combined||13.0|-15.8|
82594317|NCT02090413|164902255|SUPERIORITY_OR_OTHER||Difference in percentage|5.4|||||TWO_SIDED|95.0|-8.4|19.1|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 5-8 combined||19.1|-8.4|
82594318|NCT02090413|164902255|SUPERIORITY_OR_OTHER||Difference in percentage|6.5|||||TWO_SIDED|95.0|-9.9|23.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 9-12 combined||23.0|-9.9|
82594319|NCT02090413|164902255|SUPERIORITY_OR_OTHER||Difference in percentage|15.7|||||TWO_SIDED|95.0|0.2|31.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Weeks 9-12 combined||31.3|0.2|
82594320|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-10.2|15.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 5-8 combined||15.4|-10.2|
82594321|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-8.6|16.6|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 5-8 combined||16.6|-8.6|
82594322|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|3.1|||||TWO_SIDED|95.0|-12.8|18.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 9-12 combined||18.9|-12.8|
82594323|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|12.3|||||TWO_SIDED|95.0|-2.8|27.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Overall flushing, Weeks 9-12 combined||27.3|-2.8|
82594324|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|-1.8|||||TWO_SIDED|95.0|-15.7|12.2|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 5-8 combined||12.2|-15.7|
82594325|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|4.0|||||TWO_SIDED|95.0|-9.4|17.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 5-8 combined||17.3|-9.4|
82594326|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|-9.0|||||TWO_SIDED|95.0|-25.1|7.0|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 9-12 combined||7.0|-25.1|
82594327|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|3.3|||||TWO_SIDED|95.0|-12.0|18.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Redness, Weeks 9-12 combined||18.5|-12.0|
82594328|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|-0.3|||||TWO_SIDED|95.0|-13.5|12.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 5-8 combined||12.9|-13.5|
82594329|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|2.6|||||TWO_SIDED|95.0|-10.2|15.4|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 5-8 combined||15.4|-10.2|
82594330|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|0.2|||||TWO_SIDED|95.0|-15.3|15.7|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 9-12 combined||15.7|-15.3|
82594331|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|4.8|||||TWO_SIDED|95.0|-10.3|19.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Warmth, Weeks 9-12 combined||19.9|-10.3|
82594332|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-18.4|14.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 5-8 combined||14.3|-18.4|
82654236|NCT02978326|165023534|SUPERIORITY||Odds Ratio (OR)|1.79||||0.092|TWO_SIDED|95.0|0.91|3.54||Generalized estimating equations for binary response model was used for estimation with factors for treatment: Baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 21||3.54|0.91|0.0920
82594333|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|13.7|||||TWO_SIDED|95.0|-1.9|29.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 5-8 combined||29.3|-1.9|
82594334|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|-5.2|||||TWO_SIDED|95.0|-22.1|11.8|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 9-12 combined||11.8|-22.1|
82594335|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|7.1|||||TWO_SIDED|95.0|-9.6|23.9|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Tingling, Weeks 9-12 combined||23.9|-9.6|
82594336|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|9.4|||||TWO_SIDED|95.0|-6.8|25.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 5-8 combined||25.5|-6.8|
82594337|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|9.4|||||TWO_SIDED|95.0|-6.8|25.5|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 5-8||25.5|-6.8|
82594338|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-13.2|20.8|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 9-12 combined||20.8|-13.2|
82594339|NCT02090413|164902256|SUPERIORITY_OR_OTHER||Difference in percentage|8.4|||||TWO_SIDED|95.0|-8.5|25.3|||||Two sided 95% CI of difference in proportions was constructed based on the normal approximation to the binomial distribution.|Itching, Weeks 9-12 combined||25.3|-8.5|
82594340|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.145|||||TWO_SIDED|95.0|-0.414|0.125|||||Analysis of variance model (ANCOVA) model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||0.125|-0.414|
82594341|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.392|||||TWO_SIDED|95.0|-0.656|-0.128|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||-0.128|-0.656|
82594342|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.247|||||TWO_SIDED|95.0|-0.507|0.012|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 1-4 combined||0.012|-0.507|
82594343|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.376|||||TWO_SIDED|95.0|-0.193|0.945|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.945|-0.193|
82594344|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|||||TWO_SIDED|95.0|-0.498|0.635|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.635|-0.498|
82491563|NCT01681472|164676461|OTHER||Correlation factor|0.02576||||0.9672|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. concentration in adjacent mucosa||||0.9672
82491564|NCT01681472|164676461|OTHER||Correlation factor|0.68778||||0.0594|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.0594
82594345|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.308|||||TWO_SIDED|95.0|-0.867|0.251|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 5-8 combined||0.251|-0.867|
82594346|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|||||TWO_SIDED|95.0|-0.308|0.355|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.355|-0.308|
82594347|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|95.0|-0.374|0.254|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.254|-0.374|
82594348|NCT02090413|164902260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.084|||||TWO_SIDED|95.0|-0.4|0.232|||||ANCOVA model was used with treatment, center as effects and baseline characteristics as covariates.|Weeks 9-12 combined||0.232|-0.4|
82594349|NCT02321930|164902283|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
82594350|NCT02321930|164902284|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
82594351|NCT02321930|164902285|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
82594352|NCT02321930|164902286|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
82594353|NCT02321930|164902287|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Analysis performed to test for the change in values from Baseline to 3 months||||<0.0001
82594354|NCT03996876|164902290|SUPERIORITY|Given the relatively small sample size, results of our inferential statistical tests should be interpreted with caution.|F Statistic|1.032||||0.322|TWO_SIDED|||||The a priori threshold for statistical significance was set at 0.05.|ANOVA|We conducted a two-way mixed ANOVA with intervention as the between-subjects and time as the within-subjects variable.|The F Statistic reported is for the interaction between Intervention and Time.|||||0.322
82594355|NCT02971631|164902293|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|Paired analysis||||||0.008
82654237|NCT02978326|165023534|SUPERIORITY||Odds Ratio (OR)|1.76||||0.1109|TWO_SIDED|95.0|0.88|3.51||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline CGI-S score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With CGI-I Response at Day 45||3.51|0.88|0.1109
82491565|NCT01681472|164676461|OTHER||Correlation factor|0.11512||||0.8281|TWO_SIDED||||||Pearson Correlation|||AUC(0-2h) vs. conc in tumor||||0.8281
82594356|NCT02971631|164902294|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Paired analysis||||||0.03
82594357|NCT02971631|164902295|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|Paired analysis||For meal consumption rate||||0.79
82594358|NCT02971631|164902297|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|Paired analysis||Baseline||||0.20
82491566|NCT01681472|164676462|OTHER|||||||0.0451|||||||pearson|||||||0.0451
82594359|NCT02971631|164902297|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|Paired analysis||Post-OGTT||||0.58
82594360|NCT02971631|164902297|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|Paired analysis||Pre-meal||||0.39
82594361|NCT02971631|164902297|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|Paired analysis||Post-meal||||0.20
82594362|NCT02971631|164902298|SUPERIORITY|||||||0.26|||||||t-test, 2 sided|Paired analysis||Baseline||||0.26
82594363|NCT02971631|164902298|SUPERIORITY|||||||0.06||||||Paired analysis|t-test, 2 sided|||Post-OGTT||||0.06
82594364|NCT02971631|164902298|SUPERIORITY|||||||0.95|||||||t-test, 2 sided|Paired analysis||Pre-meal||||0.95
82594365|NCT02971631|164902298|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|Paired analysis||Post-meal||||0.88
82594366|NCT02971631|164902299|SUPERIORITY|||||||1|||||||Other|0 events over whole study, no statistical test appropriate||||||1
82594367|NCT02971631|164902300|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||0.84
82594368|NCT00597753|164902309|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of -1.0 g/dL was used in the primary efficacy assessments. Non-inferiority was established if the lower limit of the two-sided 95% confidence interval for the difference between the means of the primary endpoint (peginesatide minus control ESA) was ≥ -1.0 g/dL.|Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.072|||TWO_SIDED|95.0|-0.3|-0.01|||ANOVA|The ANOVA cell means model was used to estimate primary efficacy endpoint within the specified cells formed by the combination of treatment and strata||The sample size for this study was determined based on a two group evaluation of non-inferiority using the t-distribution (one-sided significance level 0.025) with a non inferiority margin of -1.0 g/dL. A sample size of approximately 750 (peginesatide group of 500 and epoetin alfa group of 250) provided at least 99% power for the evaluation of non-inferiority, assuming an expected treatment difference of 0.0 g/dL and a standard deviation of 1.5 g/dL.||-0.01|-0.30|
82594369|NCT00597753|164902310|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.76|1.92|||Cochran-Mantel-Haenszel|||||1.92|0.76|
82594370|NCT00597753|164902311|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.79|0.97|||Cochran-Mantel-Haenszel|||||0.97|0.79|
82594371|NCT04342871|164902370|OTHER|Pre-post comparison from baseline to 2-weeks post-intervention||||||0.2|||||||t-test, 2 sided|||||||0.2
82594372|NCT00666458|164902371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.09|STANDARD_ERROR_OF_MEAN|0.055|||TWO_SIDED|95.0|-0.01|0.2||||||||0.20|-0.01|
82594373|NCT00666458|164902372|SUPERIORITY_OR_OTHER||Difference in Percent|-2.8|||||TWO_SIDED|95.0|-9.0|3.5||||||||3.5|-9.0|
82594374|NCT00666458|164902373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.42|STANDARD_ERROR_OF_MEAN|2.064|||TWO_SIDED|95.0|1.37|9.47||||||||9.47|1.37|
82594375|NCT00666458|164902374|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.115|||TWO_SIDED|95.0|0.08|0.53||||||||0.53|0.08|
82594376|NCT01999465|164902450|OTHER|||||||0.4|||||||Wilcoxon (Mann-Whitney)|We applied Wilcoxon-Mann Whitney test with the Null hypothesis that there is no difference between 2 arms.||||||0.40
82594377|NCT01999465|164902451|OTHER|||||||0.2|||||||t-test, 2 sided|||||||0.20
82594378|NCT01308008|164902502|SUPERIORITY||coefficient|0.05||||0.16|TWO_SIDED|95.0|-0.02|0.13|||Regression, Logistic|||||0.13|-0.02|0.16
82594379|NCT01308008|164902503|SUPERIORITY||coefficient|34.0||||0.17|TWO_SIDED|95.0|-15.0|83.0|||Regression, Logistic|||||83|-15|0.17
82594380|NCT01308008|164902504|SUPERIORITY||coefficient|-8.7||||0.5|TWO_SIDED|95.0|-35.0|17.0|||Regression, Logistic|||||17|-35|0.5
82594381|NCT03357731|164902505|SUPERIORITY||Mean Difference (Net)|-2.15|STANDARD_ERROR_OF_MEAN|0.9242||0.027|TWO_SIDED|95.0|-4.0432|-0.257|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||-0.2570|-4.0432|0.027
82594382|NCT03357731|164902506|SUPERIORITY||Mean Difference (Net)|0.193|STANDARD_ERROR_OF_MEAN|0.9832||0.846|TWO_SIDED|95.0|-1.8176|2.2042|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||2.2042|-1.8176|0.846
82594383|NCT03357731|164902507|SUPERIORITY||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|0.93||0.177|TWO_SIDED|95.0|-0.62|3.19|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||3.19|-0.62|0.177
82594384|NCT03357731|164902507|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.48||0.839|TWO_SIDED|95.0|-1.08|0.88|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.88|-1.08|0.839
82594385|NCT03357731|164902508|SUPERIORITY||Mean Difference (Net)|-0.0977|STANDARD_ERROR_OF_MEAN|0.03308||0.007|TWO_SIDED|95.0|-0.16634|-0.02915|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||-0.02915|-0.16634|0.007
82594386|NCT03357731|164902508|SUPERIORITY||Mean Difference (Net)|-0.0371|STANDARD_ERROR_OF_MEAN|0.02194||0.103|TWO_SIDED|95.0|-0.08243|0.00814|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.00814|-0.08243|0.103
82654238|NCT02978326|165023535|SUPERIORITY||LS Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|1.29||0.0169|TWO_SIDED|95.0|-5.7|-0.6||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 3||-0.6|-5.7|0.0169
82654239|NCT02978326|165023535|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.32||0.001|TWO_SIDED|95.0|-7.0|-1.8||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 8||-1.8|-7.0|0.0010
82594387|NCT03357731|164902509|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.037||0.003|TWO_SIDED|95.0|-0.205|-0.051|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/A ratio||-0.051|-0.205|0.003
82594388|NCT03357731|164902509|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.904|TWO_SIDED|95.0|-0.051|0.057|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/A ratio||0.057|-0.051|0.904
82594389|NCT03357731|164902509|SUPERIORITY||Mean Difference (Net)|-1.66|STANDARD_ERROR_OF_MEAN|0.527||0.006|TWO_SIDED|95.0|-2.763|-0.549|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/e' ratio||-0.549|-2.763|0.006
82594390|NCT03357731|164902509|SUPERIORITY||Mean Difference (Net)|-0.27|STANDARD_ERROR_OF_MEAN|0.392||0.503|TWO_SIDED|95.0|-1.085|0.55|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|E/e' ratio||0.550|-1.085|0.503
82594391|NCT03357731|164902510|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.398||0.994|TWO_SIDED|95.0|-0.827|0.82|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|annular e' velocity||0.820|-0.827|0.994
82594392|NCT03357731|164902510|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.258||0.073|TWO_SIDED|95.0|-0.049|1.013|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|annular e' velocity||1.013|-0.049|0.073
82594393|NCT03357731|164902511|SUPERIORITY||Mean Difference (Net)|0.15|STANDARD_ERROR_OF_MEAN|0.4||0.705|TWO_SIDED|95.0|-0.67|0.976|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.976|-0.670|0.705
82594394|NCT03357731|164902511|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.404||0.105|TWO_SIDED|95.0|-1.504|0.151|||Kenward-Roger degree of freedom|Kenward-Roger degree of freedom is used to adjust the standard error of treatment effect|The modelled mean difference uses treatment sequence and difference of baselines as a covariates of the treatment effect.|||0.151|-1.504|0.105
82594395|NCT01417195|164902512|NON_INFERIORITY_OR_EQUIVALENCE|The pre-defined non-inferiority margin for the lower limit of the 95% CI for the difference in fertilization rate was below -12%.|Mean Difference (Final Values)|3.6|||||TWO_SIDED|95.0|-4.3|11.5|||||"Mean difference = Menopur/Bravelle - Menopur.~95% CI is based on Student's t-distribution, assuming equal variances."|||11.5|-4.3|
82594396|NCT03118232|164902519|OTHER|The risk ratios reflect the risk of transfer to a hospital during the intervention period relative to the baseline period in each trial group.|Difference in Risk Ratio|16.6|||<|0.001|TWO_SIDED|95.0|11.0|21.8|||Mixed Models Analysis|||||21.8|11.0|<0.001
82491567|NCT01681472|164676463|OTHER||Correlation factor|0.42972||||0.3359|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.3359
82491568|NCT01681472|164676463|OTHER||Correlation factor|0.75404||||0.0307|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.0307
82594397|NCT03118232|164902520|OTHER|The risk ratios reflect the risk of transfer to a hospital during the intervention period relative to the baseline period in each trial group.|Difference in Risk Ratio|14.6|||<|0.001|TWO_SIDED|95.0|9.7|19.2|||Mixed Models Analysis|||||19.2|9.7|<0.001
82594398|NCT02325219|164902525|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82594399|NCT02325219|164902525|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82594400|NCT02325219|164902526|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82654240|NCT02978326|165023535|SUPERIORITY||LS Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|1.41||0.0063|TWO_SIDED|95.0|-6.7|-1.1||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 15||-1.1|-6.7|0.0063
82594401|NCT02325219|164902526|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82594402|NCT04036708|164902572|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|2.33||0.77|TWO_SIDED|95.0|-3.93|5.32||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||5.32|-3.93|.77
82594403|NCT04036708|164902572|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|2.44||0.9|TWO_SIDED|95.0|-5.14|4.54||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||4.54|-5.14|.90
82594404|NCT04036708|164902573|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|64.03|STANDARD_ERROR_OF_MEAN|24.55||0.01|TWO_SIDED|95.0|15.26|112.8||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, the HOME score, child's age and sex were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||112.8|15.26|.01
82594405|NCT04036708|164902573|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-37.53|STANDARD_ERROR_OF_MEAN|24.86||0.13|TWO_SIDED|95.0|-86.92|11.85||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, the HOME score, and child's age and sex were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. The alternative hypothesis was that the means of two groups were not equal. Planned sample size of total 100 analyzed was determined by feasibility considerations for this exploratory developmental R21 study. With planned n=66 in MISC+WTM arm and n=34 in WTM only arm, the unadjusted effect size of 0.60 was detectable as statistically significant with power of 0.80 and 0.05 level of significance in two-tailed tests.||11.85|-86.92|.13
82594406|NCT04036708|164902574|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-1.76|STANDARD_ERROR_OF_MEAN|2.97||0.55|TWO_SIDED|95.0|-7.65|4.13||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome and household material possessions were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||4.13|-7.65|.55
82594407|NCT04036708|164902574|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-3.42|STANDARD_ERROR_OF_MEAN|3.05||0.26|TWO_SIDED|95.0|-9.48|2.63||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome and household material possessions were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.63|-9.48|.26
82594408|NCT04036708|164902575|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.16||0.32|TWO_SIDED|95.0|-0.48|0.16||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||0.16|-0.48|.32
82491569|NCT01681472|164676463|OTHER||Correlation factor|-0.7073||||0.116|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.1160
82594409|NCT04036708|164902575|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.02|TWO_SIDED|95.0|-0.72|-0.06||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||-0.06|-0.72|.02
82594410|NCT04036708|164902576|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.2||0.06|TWO_SIDED|95.0|-0.78|0.01||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||0.01|-0.78|.06
82594411|NCT04036708|164902576|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.21||0.001|TWO_SIDED|95.0|-1.11|-0.28||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||-0.28|-1.11|.001
82594412|NCT04036708|164902577|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|1.05|STANDARD_ERROR_OF_MEAN|0.49||0.04|TWO_SIDED|95.0|0.07|2.03||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.03|0.07|.04
82594413|NCT04036708|164902577|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.51||0.07|TWO_SIDED|95.0|-0.08|1.96||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||1.96|-0.08|.07
82594414|NCT04036708|164902578|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 6 in linear mixed effects model.|Mean Difference (Final Values)|2.04|STANDARD_ERROR_OF_MEAN|0.51|<|0.01|TWO_SIDED|95.0|1.02|3.06||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||3.06|1.02|<.01
82594415|NCT04036708|164902578|SUPERIORITY|The key parameter was the coefficient for the trial arm difference at month 12 in linear mixed effects model.|Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|0.53|<|0.01|TWO_SIDED|95.0|0.67|2.79||P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, household material possessions, and the HOME score were adjusted for in the model.|WTM only minus MISC and WTM|The null hypothesis was that the means of two groups were equal. Sample size was determined by considerations for the primary outcomes.||2.79|0.67|<.01
82654241|NCT02978326|165023535|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.37||0.0119|TWO_SIDED|95.0|-6.2|-0.8||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 21||-0.8|-6.2|0.0119
82654242|NCT02978326|165023535|SUPERIORITY||LS Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.28||0.0002|TWO_SIDED|95.0|-7.5|-2.4||MMRM was used for estimation with treatment, baseline HAM-A total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction as fixed effects.|Mixed Model for Repeated Measures|||Change from Baseline in HAM-A Total Score at Day 45||-2.4|-7.5|0.0002
82654243|NCT02978326|165023536|SUPERIORITY||Odds Ratio (OR)|1.75||||0.1145|TWO_SIDED|95.0|0.87|3.53||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 3||3.53|0.87|0.1145
82654244|NCT02978326|165023536|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1069|TWO_SIDED|95.0|0.89|3.3||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 8||3.30|0.89|0.1069
82654245|NCT02978326|165023536|SUPERIORITY||Odds Ratio (OR)|2.67||||0.0045|TWO_SIDED|95.0|1.36|5.27||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 15||5.27|1.36|0.0045
82491570|NCT01681472|164676463|OTHER||Correlation factor|-0.47193||||0.2377|TWO_SIDED||||||Pearson Correlation|||Correlation for AMT gene expression||||0.2377
82491571|NCT01681472|164676463|OTHER||Correlation factor|0.88128||||0.0087|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.0087
82594416|NCT02918864|164902579|SUPERIORITY||Beta Coefficient|-0.22||||0.037|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.037
82594417|NCT02918864|164902581|SUPERIORITY||Beta Coefficient|-0.23||||0.016|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.016
82594418|NCT02918864|164902583|SUPERIORITY||Beta Coefficient|-0.16||||0.061|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SB=Group+Time+Group\*Time+ADHD+ γ + ε; ADHD, CASI T-score significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.061
82594419|NCT02918864|164902585|SUPERIORITY||Beta Coefficient|0.03||||0.674|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.674
82594420|NCT02918864|164902587|SUPERIORITY||Beta Coefficient|0.09||||0.191|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.191
82594421|NCT02918864|164902589|SUPERIORITY||Beta Coefficient|0.04||||0.599|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SC=Group+Time+Group\*Time+Group\*VIQ+ γ + ε; VIQ, verbal intelligence quotient (VIQ) significant moderator), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||H0=No significant interaction of Group\*Time||||0.599
82594422|NCT02918864|164902591|SUPERIORITY|||||||0.462||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 12"||||0.462
82594423|NCT02918864|164902592|SUPERIORITY|||||||1||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 16"||||1.000
82594424|NCT02918864|164902593|SUPERIORITY|||||||0.607||||||2-sided p-value; p-value reported not adjusted for multiple tests (with different time points)|Fisher Exact|||"Ho=Group and response are independent (responders=improved scores of 1-2; non-responders=worsened scores of 5-7 on the CGI-I) at week 24"||||0.607
82594425|NCT02918864|164902594|SUPERIORITY||Beta Coefficient|-0.15||||0.31|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.310
82594426|NCT02918864|164902596|SUPERIORITY||Beta Coefficient|-0.2||||0.115|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.115
82594427|NCT02918864|164902598|SUPERIORITY||Beta Coefficient|-0.08||||0.455|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (SRS=Group+Time+Group\*Time+VIQ+ γ + ε; VIQ, verbal IQ significant covariate), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.455
82594428|NCT02918864|164902600|SUPERIORITY||Beta Coefficient|-0.14||||0.379|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.379
82594429|NCT02918864|164902602|SUPERIORITY||Beta Coefficient|-0.14||||0.275|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||Ho=No significant interaction of Group\*Time||||0.275
82594430|NCT02918864|164902604|SUPERIORITY||Beta Coefficient|-0.2||||0.087|TWO_SIDED|||||p-value reported for Group\*Time, primary comparison in linear mixed effects model (CGS=Group+Time+Group\*Time+ γ + ε), not adjusted for multiple tests (with different time points)|Mixed Models Analysis|||||||0.087
82594431|NCT02257372|164902634|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|||<|0.001|TWO_SIDED|95.0|0.071|0.174|||Mixed model repeated measures analysis|||||0.174|0.071|<0.001
82594432|NCT02257372|164902635|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|||<|0.001|TWO_SIDED|95.0|0.099|0.197|||Mixed model repeated measures analysis|||||0.197|0.099|<0.001
82594433|NCT02104583|164902649|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|1.52||||0.152|TWO_SIDED|95.0|0.86|2.71|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or rest of world (ROW)\].||2.71|0.86|0.152
82594434|NCT02104583|164902649|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|0.82||||0.662|TWO_SIDED|95.0|0.34|1.97|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or ROW\].||1.97|0.34|0.662
82654246|NCT02978326|165023536|SUPERIORITY||Odds Ratio (OR)|2.01||||0.0421|TWO_SIDED|95.0|1.03|3.93||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 21||3.93|1.03|0.0421
82654247|NCT02978326|165023536|SUPERIORITY||Odds Ratio (OR)|1.99||||0.0541|TWO_SIDED|95.0|0.99|4.03||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Response at Day 45||4.03|0.99|0.0541
82654248|NCT02978326|165023537|SUPERIORITY||Odds Ratio (OR)|2.84||||0.0326|TWO_SIDED|95.0|1.09|7.38||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 3||7.38|1.09|0.0326
82594435|NCT02104583|164902649|SUPERIORITY||Eleclazine : Placebo Incident Rate Ratio|1.24||||0.618|TWO_SIDED|95.0|0.54|2.86|||generalized linear model|||The primary analysis of overall occurrence of appropriate ICD interventions through Week 24 was performed using a generalized linear model assuming a negative binomial distribution and log link. This model included terms for treatment, implanted device (ICD or CRT-D) and region \[US or ROW.||2.86|0.54|0.618
82594436|NCT03045861|164902688|OTHER||Emax|-1.822|||||TWO_SIDED|95.0|-2.333|1.31||||||||1.310|-2.333|
82594437|NCT03045861|164902688|OTHER||ED50|1020.755|||||TWO_SIDED|95.0|100.786|1940.724||||||||1940.724|100.786|
82594438|NCT03045861|164902688|OTHER||s2e|0.2|||||TWO_SIDED|95.0|0.095|0.306||||||||0.306|0.095|
82594439|NCT03045861|164902689|OTHER||Emax|-1.801|||||TWO_SIDED|95.0|-2.319|-1.283||||||||-1.283|-2.319|
82594440|NCT03045861|164902689|OTHER||ED50|55.572|||||TWO_SIDED|95.0|3.565|107.579||||||||107.579|3.565|
82594441|NCT03045861|164902689|OTHER||s2e|0.206|||||TWO_SIDED|95.0|0.097|0.314||||||||0.314|0.097|
82594442|NCT03045861|164902690|OTHER||Emax|-1.846|||||TWO_SIDED|95.0|-2.352|-1.34||||||||-1.340|-2.352|
82594443|NCT03045861|164902690|OTHER||ED50|32.415|||||TWO_SIDED|95.0|4.687|60.143||||||||60.143|4.687|
82654249|NCT02978326|165023537|SUPERIORITY||Odds Ratio (OR)|1.38||||0.3749|TWO_SIDED|95.0|0.68|2.79||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 8||2.79|0.68|0.3749
82654250|NCT02978326|165023537|SUPERIORITY||Odds Ratio (OR)|2.49||||0.0087|TWO_SIDED|95.0|1.26|4.92||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 15||4.92|1.26|0.0087
82594444|NCT03045861|164902690|OTHER||s2e|0.2|||||TWO_SIDED|95.0|0.094|0.305||||||||0.305|0.094|
82594445|NCT05433571|164902700|SUPERIORITY|Superiority was tested for Senofilcon A (C3) Multifocal Toric lens with UV/HEV filter (Low DC) and concluded if the lower limit of a 95% confidence interval was above 0.80|Mean Population Estimate|0.917|STANDARD_ERROR_OF_MEAN|0.0194|||TWO_SIDED|95.0|0.878|0.955|||Bootstrapping Methods|bias adjusted confidence intervals||||0.955|0.878|
82594446|NCT05433571|164902700|SUPERIORITY|Superiority was tested for Senofilcon A (C3) Multifocal Toric lens with UV/HEV filter (High DC) and concluded if the lower limit of a 95% confidence interval was above 0.80|Mean Population Estimate|0.887|STANDARD_ERROR_OF_MEAN|0.0219|||TWO_SIDED|95.0|0.845|0.93|||Bootstrapping Methods|bias adjusted confidence intervals||||0.930|0.845|
82594447|NCT01923285|164902701|NON_INFERIORITY|The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||<|0.0001||||||The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|Chi-squared|||"The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.~If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025."||||<0.0001
82594448|NCT01923285|164902701|SUPERIORITY|The non-inferiority margin, which is pre-specified at 10%. If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025|||||=|0.0004|||||||Chi-squared|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||=0.0004
82594449|NCT01923285|164902702|OTHER|Comparison of the mean difference. Difference in intensities is calculated as the supine paresthesia intensity minus the upright paresthesia intensity.|Mean Difference (Net)|1.9|||<|0.0001|TWO_SIDED|95.0|1.0|2.8|||Wilcoxon (Mann-Whitney)||Difference in paresthesia intensities is calculated as the supine paresthesia score minus the upright paresthesia score for each subject.|"Secondary endpoint compared the mean differences in upright and supine paresthesia scores between the Axium and Control groups at three months post INS implant. This endpoint was evaluated at a two-sided significance level of 0.05.~The primary hypothesis tested was: H0: μ0- μ1≤0 vs. H1: μ0- μ1\>0 where μ0 is the mean difference in paresthesia intensities in the Control group and μ1 is the mean difference in the Axium group."||2.8|1.0|<0.0001
82594450|NCT01923285|164902703|NON_INFERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||<|0.0001|||||||Chi-squared|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||<0.0001
82594451|NCT01923285|164902703|SUPERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.|||||=|0.0047|||||||Chi-squared|||||||=0.0047
82594452|NCT01923285|164902704|NON_INFERIORITY|If non-inferiority is achieved at a one-sided alpha of 0.05, a one-sided superiority test is performed at the significance level of 0.025.||||||0.0003|||||||Non-inferiority|||The primary hypothesis tested was: H0: p1 ≤ p0 - δ vs. H1: p1\> p0 - δ, where p0 is the success rate in the Control group, p1 is the success rate in the Axium group, and δ is the non-inferiority margin, which is pre-specified at 10%.||||0.0003
82594453|NCT02285777|164902714|OTHER|Pre-specified.|Vaccine Effectiveness|71.0||||0.0001|TWO_SIDED|95.0|69.0|73.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 1 month after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:4 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100.The combined VE across all strains was computed by mean of a generalized linear model.||73|69|0.0001
82594454|NCT02285777|164902715|OTHER|Pre-specified.|Vaccine Effectiveness|51.0||||0.0001|TWO_SIDED|95.0|48.0|55.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 4 months after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:4 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:4 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||55|48|0.0001
82594455|NCT02285777|164902716|OTHER|Pre-specified.|Vaccine Effectiveness|51.0||||0.0001|TWO_SIDED|95.0|48.0|54.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 1 month after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||54|48|0.0001
82594456|NCT02285777|164902716|OTHER|Pre-specified.|Vaccine Effectiveness|24.0||||0.0001||95.0|20.0|28.0|||Generalized Linear Model|To obtain the VE measure which is a measure based on RR, BINOMIAL DISTRIBUTION \& LOG LINK options were used to compute log10 RR \& corresponding CI.||The Vaccine Effectiveness (VE) at 4 months after the 3-dose vaccination series for each strain is defined as \[1 - (percentage of subjects without bactericidal activity at 1:8 dilution in MenABCWY group/percentage of subjects without bactericidal activity at 1:8 dilution in MenACWY group)\] x 100. The combined VE across all strains was computed by mean of a generalized linear model.||28|20|0.0001
82594457|NCT03699007|164902742|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82594458|NCT03699007|164902743|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82594459|NCT04251910|164902760|SUPERIORITY|||||||0.0813|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0813
82594460|NCT04251910|164902760|SUPERIORITY|||||||0.0011|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0011
82594461|NCT04251910|164902760|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours)||||0.0002
82594462|NCT04251910|164902762|SUPERIORITY|||||||0.9616|||||||Mixed effects model|||Part A 30 mcg BXCL501 v/s Part A-Placebo (30 minutes)||||0.9616
82594463|NCT04251910|164902762|SUPERIORITY|||||||0.546|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 1; 1 hour)||||0.5460
82594464|NCT04251910|164902762|SUPERIORITY|||||||0.0961|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/s Part A-Placebo (2 hours)||||0.0961
82594465|NCT04251910|164902762|SUPERIORITY|||||||0.1359|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (4 hours)||||0.1359
82594466|NCT04251910|164902762|SUPERIORITY|||||||0.1688|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (8 hours)||||0.1688
82594467|NCT04251910|164902762|SUPERIORITY|||||||0.667|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (24 hours)||||0.6670
82594468|NCT04251910|164902762|SUPERIORITY|||||||0.8695|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 3)||||0.8695
82594469|NCT04251910|164902762|SUPERIORITY|||||||0.5002|||||||Mixed effects model|||Part A-30 mcg BXCL501 v/s Part A-Placebo (Day 7)||||0.5002
82594470|NCT04251910|164902762|SUPERIORITY|||||||0.5631|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (30 minutes)||||0.5631
82594471|NCT04251910|164902762|SUPERIORITY|||||||0.0089|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (1 hour)||||0.0089
82594472|NCT04251910|164902762|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (2 hours)||||<.0001
82594473|NCT04251910|164902762|SUPERIORITY|||||||0.0011|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (4 hours)||||0.0011
82594474|NCT04251910|164902762|SUPERIORITY|||||||0.0008|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (8 hours)||||0.0008
82594475|NCT04251910|164902762|SUPERIORITY|||||||0.2847|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (24 hours)||||0.2847
82594476|NCT04251910|164902762|SUPERIORITY|||||||0.2616|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 3)||||0.2616
82594477|NCT04251910|164902762|SUPERIORITY|||||||0.1989|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 7)||||0.1989
82594478|NCT04251910|164902762|SUPERIORITY|||||||0.4585|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (30 minutes)||||0.4585
82594479|NCT04251910|164902762|SUPERIORITY|||||||0.0005|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (1 hour)||||0.0005
82594480|NCT04251910|164902762|SUPERIORITY|||||||0.0004|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours)||||0.0004
82594481|NCT04251910|164902762|SUPERIORITY|||||||0.0025|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (4 hours)||||0.0025
82594482|NCT04251910|164902762|SUPERIORITY|||||||0.1027|TWO_SIDED|95.0|||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (8 hours)||||0.1027
82594483|NCT04251910|164902762|SUPERIORITY|||||||0.7953|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (24 hours)||||0.7953
82594484|NCT04251910|164902762|SUPERIORITY|||||||0.1416|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 3)||||0.1416
82594485|NCT04251910|164902762|SUPERIORITY|||||||0.0658|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 7)||||0.0658
82594486|NCT04251910|164902763|SUPERIORITY|||||||0.876|||||||Mixed effects model|||Part A -30 mcg BXCL501 v/s Part A-Placebo (Day 1; 1 hour)||||0.8760
82594487|NCT04251910|164902763|SUPERIORITY|||||||0.9077|||||||Mixed effects model|||Part A 30 mcg BXCL501 v/s Part A-Placebo (Day 1; 2 hours)||||0.9077
82594488|NCT04251910|164902763|SUPERIORITY|||||||0.7208|||||||Mixed effects model|||Part A 30 mcg BXCL501 vs Part A-Placebo (Day1; 4 hours)||||0.7208
82594489|NCT04251910|164902763|SUPERIORITY|||||||0.3666|||||||Mixed effects model|||Part A BXCL501 30 mcg v/s Part A-Placebo(Day 1;8 hours)||||0.3666
82594490|NCT04251910|164902763|SUPERIORITY|||||||0.0191|||||||Mixed effects model|||Part A BXCL501 60 mcg v/s Placebo-Part A (Day1; 1 hour)||||0.0191
82594491|NCT04251910|164902763|SUPERIORITY|||||||0.0006|||||||Mixed effects model|||Part A BXCL501 60 mcg v/s Part A-Placebo (Day 1; 2 hours)||||0.0006
82594492|NCT04251910|164902763|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 v/s Part A-Placebo (Day 1; 4 hours)||||<.0001
82594493|NCT04251910|164902763|SUPERIORITY|||||||0.0003|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1;8 hours)||||0.0003
82594494|NCT04251910|164902763|SUPERIORITY|||||||0.0006|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0006
82594495|NCT04251910|164902763|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||0.0002
82594496|NCT04251910|164902763|SUPERIORITY|||||||0.0029|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0029
82654251|NCT02978326|165023537|SUPERIORITY||Odds Ratio (OR)|2.18||||0.0257|TWO_SIDED|95.0|1.1|4.31||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 21||4.31|1.10|0.0257
82594497|NCT04251910|164902763|SUPERIORITY|||||||0.2446|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.2446
82594498|NCT04251910|164902764|SUPERIORITY|||||||0.0926|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.0926
82594499|NCT04251910|164902764|SUPERIORITY|||||||0.3976|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.3976
82594500|NCT04251910|164902764|SUPERIORITY|||||||0.1169|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.1169
82594501|NCT04251910|164902764|SUPERIORITY|||||||0.3786|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.3786
82594502|NCT04251910|164902764|SUPERIORITY|||||||0.564|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 2; 24hours)||||0.5640
82594503|NCT04251910|164902764|SUPERIORITY|||||||0.602|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 3)||||0.6020
82594504|NCT04251910|164902764|SUPERIORITY|||||||0.5875|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.5875
82594505|NCT04251910|164902764|SUPERIORITY|||||||0.1055|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.1055
82594506|NCT04251910|164902764|SUPERIORITY|||||||0.0024|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.0024
82594507|NCT04251910|164902764|SUPERIORITY|||||||0.0016|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.0016
82594508|NCT04251910|164902764|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.0002
82594509|NCT04251910|164902764|SUPERIORITY|||||||0.2039|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.2039
82594510|NCT04251910|164902764|SUPERIORITY|||||||0.1948|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 3)||||0.1948
82594511|NCT04251910|164902764|SUPERIORITY|||||||0.5615|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.5615
82491572|NCT01681472|164676463|OTHER||Correlation factor|0.58502||||0.1277|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.1277
82491573|NCT01681472|164676463|OTHER||Correlation factor|0.89976||||0.0146|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.0146
82594512|NCT04251910|164902764|SUPERIORITY|||||||0.8266|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 30 minutes)||||0.8266
82594513|NCT04251910|164902764|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0002
82594514|NCT04251910|164902764|SUPERIORITY|||||||0.0004|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0004
82594515|NCT04251910|164902764|SUPERIORITY|||||||0.1037|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.1037
82594516|NCT04251910|164902764|SUPERIORITY|||||||0.3267|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 2; 24 hours)||||0.3267
82594517|NCT04251910|164902764|SUPERIORITY|||||||0.0339|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 3)||||0.0339
82594518|NCT04251910|164902764|SUPERIORITY|||||||0.1892|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day7)||||0.1892
82594519|NCT04251910|164902765|SUPERIORITY|||||||0.3359|||||||Fisher Exact|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours post administration)||||0.3359
82594520|NCT04251910|164902765|SUPERIORITY|||||||0.0004|||||||Fisher Exact|||Part A-60 mcg BXCL501 V/S Part A-Placebo (2 hours post administration)||||0.0004
82594521|NCT04251910|164902765|SUPERIORITY|||||||0.0351|||||||Fisher Exact|||||||0.0351
82594522|NCT04251910|164902766|SUPERIORITY|||||||0.0952|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (2 hours)||||0.0952
82594523|NCT04251910|164902766|SUPERIORITY|||||||0.8977|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.8977
82594524|NCT04251910|164902766|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||0.0002
82594525|NCT04251910|164902766|SUPERIORITY|||||||0.3147|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 2; 24 hours)||||0.3147
82594526|NCT04251910|164902766|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||<.0001
82594527|NCT04251910|164902766|SUPERIORITY|||||||0.1241|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 2; 24 hours)||||0.1241
82594528|NCT04251910|164902767|SUPERIORITY|||||||0.408|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.4080
82594529|NCT04251910|164902767|SUPERIORITY|||||||0.4198|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.4198
82594530|NCT04251910|164902767|SUPERIORITY|||||||0.037|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day1; 2 hours)||||0.0370
82594531|NCT04251910|164902767|SUPERIORITY|||||||0.1324|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.1324
82594532|NCT04251910|164902767|SUPERIORITY|||||||0.0624|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 8 hours)||||0.0624
82594533|NCT04251910|164902767|SUPERIORITY|||||||0.6334|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 30 minutes)||||0.6334
82594534|NCT04251910|164902767|SUPERIORITY|||||||0.0275|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 1 hour)||||0.0275
82594535|NCT04251910|164902767|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||<.0001
82594536|NCT04251910|164902767|SUPERIORITY|||||||0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 4 hours)||||0.0001
82594537|NCT04251910|164902767|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day1; 8 hours)||||<.0001
82594538|NCT04251910|164902767|SUPERIORITY|||||||0.2806|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 30 minutes)||||0.2806
82594539|NCT04251910|164902767|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 1 hour)||||0.0002
82594540|NCT04251910|164902767|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hour)||||<.0001
82594541|NCT04251910|164902767|SUPERIORITY|||||||0.0009|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 4 hours)||||0.0009
82594542|NCT04251910|164902767|SUPERIORITY|||||||0.0081|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 8 hours)||||0.0081
82594543|NCT04251910|164902768|SUPERIORITY|||||||0.0591|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||0.0591
82654252|NCT02978326|165023537|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0339|TWO_SIDED|95.0|1.06|4.09||Generalized estimating equations for binary response model was used for estimation with factors for treatment, baseline MADRS total score, baseline antidepressant use, assessment time point, and time point-by-treatment interaction.|GEE for binary response model|||Percentage of Participants With MADRS Remission at Day 45||4.09|1.06|0.0339
82594544|NCT04251910|164902768|SUPERIORITY|||||||0.0966|||||||Mixed effects model|||Part A-30 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.0966
82594545|NCT04251910|164902768|SUPERIORITY||||||<|0.0001|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 1; 2 hours)||||<.0001
82594546|NCT04251910|164902768|SUPERIORITY|||||||0.029|||||||Mixed effects model|||Part A-60 mcg BXCL501 V/S Part A-Placebo (Day 7)||||0.0290
82594547|NCT04251910|164902768|SUPERIORITY|||||||0.0937|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 1; 2 hours)||||0.0937
82594548|NCT04251910|164902768|SUPERIORITY|||||||0.2747|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (Day 7)||||0.2747
82594549|NCT04251910|164902771|SUPERIORITY|||||||0.0002|||||||Mixed effects model|||Part B-40 mcg-BXCL501 v/s Part B-Placebo (2 hours post administration)||||0.0002
82594550|NCT00916149|164902772|OTHER||||||>|0.05||||||For each group (levetiracetam and no treatment), the change in IEDs/hour from pre to post-intervention: p \>0.05. The a priori threshold for statistical significance was p=0.05.|Wilcoxon Signed Ranks Test|||Change in frequency of IEDs/per hour was assessed for each group (levetiracetam and no treatment)||||>0.05
82594551|NCT00916149|164902773|OTHER|||||||0.005|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Trial 1 Learning Score from pre to post time points in the no treatment group.||||0.005
82594552|NCT00916149|164902773|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Trial 1 Learning Score from pre to post time points in the levetiracetam group.||||>0.05
82594553|NCT00916149|164902774|OTHER|||||||0.016|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Total Learning Score from pre to post time points in the no treatment group.||||0.016
82594554|NCT00916149|164902774|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Total Learning Score from pre to post time points in the levetiracetam treatment group.||||>0.05
82594555|NCT00916149|164902775|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Short Delay score from pre to post time points in the no treatment group.||||>0.05
82594556|NCT00916149|164902775|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Short Delay score from pre to post time points in the levetiracetam treatment group.||||>0.05
82594557|NCT00916149|164902776|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Long Delay score from pre to post time points in the no treatment group.||||>0.05
82594558|NCT00916149|164902776|OTHER|||||||0.045|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CVLT Long Delay score from pre to post time points in the levetiracetam treatment group.||||0.045
82594559|NCT00916149|164902777|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Learning score from pre to post time points in the no treatment group.||||>0.05
82594560|NCT00916149|164902777|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Learning score from pre to post time points in the levetiracetam treatment group.||||>0.05
82594561|NCT00916149|164902778|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Total Learning score from pre to post time points in the no treatment group||||>0.05
82594562|NCT00916149|164902778|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Total Learning score from pre to post time points in the levetiracetam treatment group||||>0.05
82594563|NCT00916149|164902779|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Delayed Recall score from pre to post time points in the no treatment group||||>0.05
82594564|NCT00916149|164902779|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the BVMT-R Delayed Recall score from pre to post time points in the levetiracetam treatment group||||>0.05
82594565|NCT00916149|164902780|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the QOLIE score from pre to post time points in the levetiracetam treatment group||||>0.05
82594566|NCT00916149|164902781|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Letter Number Sequencing score from pre to post time points in the no treatment group||||>0.05
82594567|NCT00916149|164902781|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Letter Number Sequencing score from pre to post time points in the levetiracetam treatment group||||>0.05
82654253|NCT02129348|165023548|SUPERIORITY||Treatment Effect Difference|0.7||||0.53|TWO_SIDED|95.0|-1.4|2.7||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||Lithium will significantly reduce agitation/aggression compared to placebo. In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||2.7|-1.4|0.53
82654254|NCT02129348|165023549|SUPERIORITY||Treatment Effect Difference|2.11||||0.26|TWO_SIDED|95.0|0.73|6.13||The threshold for statistical significance was p = 0.05.|Chi-squared||Odds ratio and its 95% confidence interval were computed.|Change in both NPI core score (≥30% versus \<30%) and CGI behavior change (1 or 2 versus ≥3) were required for response; these two measures were then analyzed separately. A x² test was used to identify whether there was a change in NPI core scores and CGI scores from baseline to week 12.||6.13|0.73|0.26
82654255|NCT02129348|165023550|SUPERIORITY||Treatment Effect Difference|1.79||||0.25|TWO_SIDED|95.0|0.64|5.04||The threshold of statistical significance was p = 0.05.|Chi-squared|||CGI behavior change scores were categorized into responders versus non-responders (1 or 2 versus ≥3) using the last variable observation for drop-outs. A x² test was used to identify the percentage of participants in each group, lithium versus placebo, that improved from baseline to week 12.||5.04|0.64|0.25
82594568|NCT00916149|164902782|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Spatial Span score from pre to post time points in the no treatment group||||>0.05
82594569|NCT00916149|164902782|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Spatial Span score from pre to post time points in the levetiracetam treatment group||||>0.05
82594570|NCT00916149|164902783|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Span score from pre to post time points in the no treatment group||||>0.05
82594571|NCT00916149|164902783|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Span score from pre to post time points in the levetiracetam treatment group||||>0.05
82594572|NCT00916149|164902784|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Fluency score from pre to post time points in the no treatment group||||>0.05
82594573|NCT00916149|164902784|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Fluency score from pre to post time points in the levetiracetam treatment group||||>0.05
82594574|NCT00916149|164902785|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in Stroop performance from pre to post time points in the no treatment group||||>0.05
82594575|NCT00916149|164902785|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in Stroop performance from pre to post time points in the levetiracetam treatment group||||>0.05
82594576|NCT00916149|164902786|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Design Fluency score from pre to post time points in the no treatment group||||>0.05
82594577|NCT00916149|164902786|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Design Fluency score from pre to post time points in the levetiracetam treatment group||||>0.05
82594578|NCT00916149|164902787|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Trails Test from pre to post time points in the no treatment group||||>0.05
82594579|NCT00916149|164902787|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Trails Test from pre to post time points in the levetiracetam treatment group||||>0.05
82594580|NCT00916149|164902788|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Grooved Pegboard task from pre to post time points in the no treatment group||||>0.05
82594581|NCT00916149|164902788|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in performance on the Grooved Pegboard task from pre to post time points in the levetiracetam treatment group||||>0.05
82594582|NCT00916149|164902789|OTHER|||||||0.014|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Symbol score from pre to post time points in the no treatment group||||0.014
82594583|NCT00916149|164902789|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Digit Symbol score from pre to post time points in the levetiracetam treatment group||||>0.05
82594584|NCT00916149|164902790|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT Accuracy score from pre to post time points in the no treatment group||||>0.05
82594585|NCT00916149|164902790|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
82654256|NCT02129348|165023551|SUPERIORITY||Treatment Effect Difference|2.0||||0.21|TWO_SIDED|95.0|-1.1|5.1||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||5.1|-1.1|0.21
82594586|NCT00916149|164902791|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT reaction time from pre to post time points in the no treatment group||||>0.05
82594587|NCT00916149|164902791|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the CPT reaction time from pre to post time points in the levetiracetam treatment group||||>0.05
82594588|NCT00916149|164902792|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Choice Accuracy score from pre to post time points in the no treatment group||||>0.05
82594589|NCT00916149|164902793|OTHER|||||||0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Choice Reaction Time score from pre to post time points in the no treatment group||||0.05
82594590|NCT00916149|164902794|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Accuracy score from pre to post time points in the no treatment group||||>0.05
82594591|NCT00916149|164902794|OTHER|||||||0.039|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Accuracy score from pre to post time points in the levetiracetam treatment group||||0.039
82594592|NCT00916149|164902795|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Reaction Time from pre to post time points in the no treatment group||||>0.05
82594593|NCT00916149|164902795|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Working Memory Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
82594594|NCT00916149|164902796|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Accuracy score from pre to post time points in the no treatment group||||>0.05
82594595|NCT00916149|164902796|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
82594596|NCT00916149|164902797|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Reaction Time from pre to post time points in the no treatment group||||>0.05
82594597|NCT00916149|164902797|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Non-verbal Working Memory Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
82654257|NCT02129348|165023552|SUPERIORITY||Treatment Effect Difference|-0.1||||0.91|TWO_SIDED|95.0|-2.6|2.4||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||2.4|-2.6|0.91
82654258|NCT02129348|165023553|SUPERIORITY||Treatment Effect Difference|0.1||||0.94|TWO_SIDED|95.0|-1.5|1.4||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Effect size (d)= -0.02 (Cohen's D)|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||1.4|-1.5|0.94
82654259|NCT02129348|165023554|SUPERIORITY||Treatment Effect Difference|0.2||||0.63|TWO_SIDED|95.0|-0.4|0.8||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis|||In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||0.8|-0.4|0.63
82654260|NCT02129348|165023555|SUPERIORITY||Treatment Effect Difference|3.2||||0.24|TWO_SIDED|95.0|-2.1|8.4||The threshold of statistical significance was p = 0.05.|Mixed Models Analysis||Effect size (d)= 0.44 (Cohen's D)|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||8.4|-2.1|0.24
82654261|NCT02129348|165023556|SUPERIORITY||Treatment Effect Difference|0.0||||0.96|TWO_SIDED|95.0|-1.7|1.8||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Cohen's d=0.01|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||1.8|-1.7|0.96
82654262|NCT02129348|165023557|SUPERIORITY||Treatment Effect Difference|2.2||||0.35|TWO_SIDED|95.0|-2.3|6.6||The threshold for statistical significance was p = 0.05.|Mixed Models Analysis||Cohen's d=0.35|In intent-to-treat analyses, linear mixed effect models (MEM) were used to estimate means of change scores (baseline versus 12 weeks) by treatment group, lithium versus placebo, for continuous outcomes. The MEM method was used to incorporate all time-points of assessment and deal with missing data for participants who did not reach the 12-week time-point.||6.6|-2.3|0.35
82594598|NCT00916149|164902798|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Accuracy score from pre to post time points in the no treatment group||||>0.05
82594599|NCT00916149|164902798|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
82594600|NCT00916149|164902799|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Reaction Time from pre to post time points in the no treatment group||||>0.05
82594601|NCT00916149|164902799|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Verbal Recognition Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
82491574|NCT01681472|164676463|OTHER||Correlation factor|0.11497||||0.7863|TWO_SIDED||||||Pearson Correlation|||Correlation for PCFT gene expression||||0.7863
82594602|NCT00916149|164902800|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Accuracy score from pre to post time points in the no treatment group||||>0.05
82594603|NCT00916149|164902800|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Accuracy score from pre to post time points in the levetiracetam treatment group||||>0.05
82594604|NCT00916149|164902801|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Reaction Time from pre to post time points in the no treatment group||||>0.05
82594605|NCT00916149|164902801|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the Facial Recognition Reaction Time from pre to post time points in the levetiracetam treatment group||||>0.05
82594606|NCT00916149|164902802|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the NDDIE score from pre to post time points in the no treatment group||||>0.05
82594607|NCT00916149|164902802|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the NDDIE score from pre to post time points in the levetiracetam treatment group||||>0.05
82594608|NCT00916149|164902803|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the AEP score from pre to post time points in the no treatment group||||>0.05
82594609|NCT00916149|164902803|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||This analysis assessed the change in the AEP score from pre to post time points in the levetiracetam treatment group||||>0.05
82594610|NCT03002155|164902804|SUPERIORITY|||||||0.26||||||Not adjusted for multiple comparisons due to the pilot nature of the study, alpha level was 0.10.|ANOVA|||||||.26
82594611|NCT03002155|164902805|SUPERIORITY|||||||0.38|||||||ANOVA|||||||0.38
82594612|NCT03002155|164902806|SUPERIORITY|||||||0.24|||||||ANOVA|||For PROMIS Global Physical||||0.24
82594613|NCT03002155|164902806|SUPERIORITY|||||||0.8||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||For PROMIS Global Mental||||0.80
82594614|NCT03002155|164902807|SUPERIORITY|||||||0.81||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||||||0.81
82594615|NCT03002155|164902808|SUPERIORITY|||||||0.03||||||p-value is interaction of group and time. Alpha level= 0.10; not adjusted for multiple comparisons (pilot study)|ANOVA|||||||0.03
82594616|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.056||||0.326|TWO_SIDED|95.0|-0.06|0.17||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.17|-0.06|0.326
82594617|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.104||||0.066|TWO_SIDED|95.0|-0.01|0.22||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.22|-0.01|0.066
82594618|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.069||||0.224|TWO_SIDED|95.0|-0.04|0.18||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.18|-0.04|0.224
82594619|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.062||||0.271|TWO_SIDED|95.0|-0.05|0.17||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.17|-0.05|0.271
82594620|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.189|||<|0.001|TWO_SIDED|95.0|0.08|0.3||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.30|0.08|<0.001
82594621|NCT01147744|164902847|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.22|TWO_SIDED|95.0|-0.04|0.18||The study type I error rate was controlled at 5% level for primary efficacy analyses using the Week 8 trough FEV1 endpoint, by performing statistical tests of GSK2190915 versus placebo, sequentially from highest dose (300 mg) to lowest dose (10 mg).|ANCOVA|ANCOVA model used with covariates of Baseline trough FEV1, age, gender, country and smoking status. The LOCF method used to impute missing data.||||0.18|-0.04|0.220
82594622|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.385||||0.932|TWO_SIDED|95.0|-9.25|8.48|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||8.48|-9.25|0.932
82491575|NCT01681472|164676463|OTHER||Correlation factor|0.97624||||0.0002|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.0002
82594623|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.367||||0.762|TWO_SIDED|95.0|-7.5|10.23|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||10.23|-7.50|0.762
82594624|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.798||||0.689|TWO_SIDED|95.0|-10.62|7.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||7.03|-10.62|0.689
82594625|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.321||||0.605|TWO_SIDED|95.0|-6.49|11.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||11.13|-6.49|0.605
82594626|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.46||||0.584|TWO_SIDED|95.0|-6.36|11.28|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||11.28|-6.36|0.584
82594627|NCT01147744|164902848|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.529||||0.907|TWO_SIDED|95.0|-8.4|9.45|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||9.45|-8.40|0.907
82594628|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.463||||0.753|TWO_SIDED|95.0|-7.65|10.58|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||10.58|-7.65|0.753
82594629|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.75||||0.419|TWO_SIDED|95.0|-5.36|12.87|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||12.87|-5.36|0.419
82594630|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.046||||0.51|TWO_SIDED|95.0|-12.12|6.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||6.03|-12.12|0.510
82594631|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.585||||0.32|TWO_SIDED|95.0|-4.47|13.64|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||13.64|-4.47|0.320
82594632|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.484||||0.452|TWO_SIDED|95.0|-5.61|12.58|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||12.58|-5.61|0.452
82594633|NCT01147744|164902849|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.615||||0.229|TWO_SIDED|95.0|-3.55|14.78|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline trough PM PEF, age, gender, country and smoking status.||||14.78|-3.55|0.229
82594634|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.169||||0.771|TWO_SIDED|95.0|-6.73|9.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||9.07|-6.73|0.771
82594635|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.56||||0.257|TWO_SIDED|95.0|-3.33|12.45|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.45|-3.33|0.257
82594636|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.326||||0.741|TWO_SIDED|95.0|-6.54|9.19|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||9.19|-6.54|0.741
82594637|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083||||0.983|TWO_SIDED|95.0|-7.76|7.93|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||7.93|-7.76|0.983
82594638|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.204||||0.041|TWO_SIDED|95.0|0.34|16.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||16.07|0.34|0.041
82594639|NCT01147744|164902850|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.891||||0.475|TWO_SIDED|95.0|-5.05|10.83|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.83|-5.05|0.475
82594640|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.837||||0.838|TWO_SIDED|95.0|-7.22|8.89|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||8.89|-7.22|0.838
82594641|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.715||||0.508|TWO_SIDED|95.0|-5.33|10.76|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.76|-5.33|0.508
82594642|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.124||||0.603|TWO_SIDED|95.0|-5.9|10.14|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.14|-5.90|0.603
82594643|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.781||||0.662|TWO_SIDED|95.0|-9.78|6.22|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||6.22|-9.78|0.662
82594644|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.949||||0.146|TWO_SIDED|95.0|-2.08|13.98|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||13.98|-2.08|0.146
82654263|NCT00865709|165023568|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.884||||0.2309|TWO_SIDED|95.0|0.635|1.231||1-sided p-value from stratified log-rank test, stratified by factors of # metastatic sites and liver metastasis determined by Principal Investigator|Log Rank||The relative risk (sorafenib to placebo) was estimated by the hazard ratio from stratified Cox regression with a 95% confidence interval.|A sample size of 120 PFS events would provide a \> 85% power at a target HR = 0.65 between sorafenib and matching placebo, with a 1-sided alpha = 0.10, for testing the null hypothesis H0: HR ≥ 1 versus the alternative hypothesis H1: HR \< 1 based on the log-rank test. The test was conducted using the intent-to-treat (ITT) population, defined as all subjects who were randomized to treatment.||1.231|0.635|0.2309
82594645|NCT01147744|164902851|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.394||||0.191|TWO_SIDED|95.0|-2.69|13.48|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||13.48|-2.69|0.191
82594646|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.106||||0.164|TWO_SIDED|95.0|-2.5|14.71|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||14.71|-2.50|0.164
82594647|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.106||||0.349||95.0|-4.49|12.7|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.70|-4.49|0.349
82594648|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.148||||0.623|TWO_SIDED|95.0|-6.42|10.72|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.72|-6.42|0.623
82594649|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.713||||0.694|TWO_SIDED|95.0|-6.84|10.26|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.26|-6.84|0.694
82594650|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.592||||0.028|TWO_SIDED|95.0|1.03|18.15|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||18.15|1.03|0.028
82594651|NCT01147744|164902852|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.75||||0.125|TWO_SIDED|95.0|-1.89|15.38|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||15.38|-1.89|0.125
82594652|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.346||||0.585|TWO_SIDED|95.0|-6.09|10.78|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||10.78|-6.09|0.585
82594653|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.431||||0.92|TWO_SIDED|95.0|-8.0|8.86|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||8.86|-8.00|0.920
82594654|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.702||||0.528|TWO_SIDED|95.0|-5.7|11.11|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||11.11|-5.70|0.528
82594655|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.218||||0.776|TWO_SIDED|95.0|-9.6|7.17|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||7.17|-9.60|0.776
82594656|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.49||||0.081|TWO_SIDED|95.0|-0.92|15.9|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||15.90|-0.92|0.081
82594657|NCT01147744|164902853|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.611||||0.403|TWO_SIDED|95.0|-4.87|12.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||12.09|-4.87|0.403
82594658|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.005||||0.951|TWO_SIDED|95.0|-0.17|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.17|0.951
82594659|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.166||||0.043|TWO_SIDED|95.0|-0.33|-0.01|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.01|-0.33|0.043
82594660|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.028||||0.734|TWO_SIDED|95.0|-0.19|0.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.13|-0.19|0.734
82594661|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.003||||0.972|TWO_SIDED|95.0|-0.16|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.16|0.972
82654264|NCT00865709|165023570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.829||||0.1437|TWO_SIDED|95.0|0.586|1.174||1-sided p-value from stratified log-rank test, stratified by factors of # metastatic sites and liver metastasis determined by Principal Investigator|Log Rank||The relative risk (sorafenib to placebo) was estimated by the hazard ratio from stratified Cox regression with a 95% confidence interval.|A sample size of 120 PDs would provide a \> 85% power at a target HR = 0.65 between sorafenib and matching placebo, with a 1-sided alpha = 0.10, for testing H0: HR ≥ 1 versus H1: HR \< 1 based on the log-rank test. The test was conducted using the intent-to-treat (ITT) population (all subjects who were randomized).||1.174|0.586|0.1437
82654265|NCT00865709|165023571|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||1-sided p-value from the Cochran-Mantel-Haenszel test, adjusting for the stratification factors of # metastatic sites and liver metastasis determined by Principal Investigator|Cochran-Mantel-Haenszel|||The proportion of subjects achieving overall response (CR or PR), when confirmation of response was not required, was estimated with a 95% confidence interval for each treatment group. The treatment groups were compared with respect to overall response rate using the Cochran-Mantel-Haenszel test, adjusting for the stratification factors.||||0.023
82654266|NCT00662129|165023586|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||||||0.003
82594662|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.097||||0.238|TWO_SIDED|95.0|-0.26|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.26|0.238
82594663|NCT01147744|164902854|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075||||0.36|TWO_SIDED|95.0|-0.24|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.24|0.360
82594664|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.028||||0.692|TWO_SIDED|95.0|-0.11|0.17|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.17|-0.11|0.692
82594665|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096||||0.176|TWO_SIDED|95.0|-0.24|0.04|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.04|-0.24|0.176
82594666|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021||||0.768|TWO_SIDED|95.0|-0.16|0.12|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.12|-0.16|0.768
82654267|NCT00966953|165023602|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82654268|NCT02099461|165023618|SUPERIORITY_OR_OTHER||LS Mean|0.15||||0.2966|TWO_SIDED|95.0|-0.136|0.441|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.441|-0.136|0.2966
82654269|NCT02099461|165023618|SUPERIORITY_OR_OTHER||LS Mean|-0.16||||0.2769|TWO_SIDED|95.0|-0.447|0.13|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.130|-0.447|0.2769
82594667|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.887|TWO_SIDED|95.0|-0.13|0.15|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.15|-0.13|0.887
82594668|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.051||||0.471|TWO_SIDED|95.0|-0.19|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.19|0.471
82594669|NCT01147744|164902855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.083||||0.248|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.22|0.248
82594670|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.131||||0.209|TWO_SIDED|95.0|-0.33|0.07|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.07|-0.33|0.209
82594671|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.264||||0.011|TWO_SIDED|95.0|-0.47|-0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.06|-0.47|0.011
82594672|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.076||||0.464|TWO_SIDED|95.0|-0.28|0.13|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.13|-0.28|0.464
82594673|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045||||0.662|TWO_SIDED|95.0|-0.25|0.16|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.16|-0.25|0.662
82594674|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.245||||0.018|TWO_SIDED|95.0|-0.45|-0.04|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.04|-0.45|0.018
82594675|NCT01147744|164902856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.207||||0.047|TWO_SIDED|95.0|-0.41|0.0|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||-0.00|-0.41|0.047
82594676|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.098||||0.3|TWO_SIDED|95.0|-0.28|0.09|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.09|-0.28|0.300
82594677|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.138||||0.145|TWO_SIDED|95.0|-0.32|0.05|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.05|-0.32|0.145
82594678|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.123||||0.19|TWO_SIDED|95.0|-0.31|0.06|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.06|-0.31|0.190
82594679|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.002||||0.98|TWO_SIDED|95.0|-0.19|0.18|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.18|-0.19|0.980
82594680|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.171||||0.07|TWO_SIDED|95.0|-0.36|0.01|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.01|-0.36|0.070
82594681|NCT01147744|164902857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.158||||0.095|TWO_SIDED|95.0|-0.34|0.03|||ANCOVA|Analysis was performed using ANCOVA with covariates of Baseline, age, gender, country and smoking status.||||0.03|-0.34|0.095
82594682|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82594683|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||0.814|||||||Fisher Exact|||||||0.814
82594684|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.000
82594685|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||0.828|||||||Fisher Exact|||||||0.828
82594686|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||0.477|||||||Fisher Exact|||||||0.477
82594687|NCT01147744|164902858|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.460
82594688|NCT01342484|164902859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_ERROR_OF_MEAN|0.48||0.3295|TWO_SIDED|95.0|-1.47|0.51|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 1 mg minus Placebo.|Superiority of Linagliptin 1 mg vs. placebo: change from baseline in HbA1c using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c and age as linear covariates; treatment, gender, pharmacokinetic (PK) / pharmacodynamics (PD) subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.51|-1.47|0.3295
82594689|NCT01342484|164902859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63|STANDARD_ERROR_OF_MEAN|0.42||0.1447|TWO_SIDED|95.0|-1.5|0.23|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change from baseline in HbA1c using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.23|-1.50|0.1447
82594690|NCT01342484|164902861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|1.36||0.8216|TWO_SIDED|95.0|-3.08|2.46|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 1 mg minus Placebo.|Superiority of Linagliptin 1 mg vs. placebo: change from baseline in FPG using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline FPG and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||2.46|-3.08|0.8216
82594691|NCT01342484|164902861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.9|STANDARD_ERROR_OF_MEAN|1.18||0.1189|TWO_SIDED|95.0|-4.31|0.52|||Mixed Models Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.|Mean Difference (Net Values) is actually the adjusted mean difference calculated as Linagliptin 5 mg minus Placebo.|Superiority of Linagliptin 5 mg vs. placebo: change from baseline in FPG using a restricted maximum likelihood (REML) - based mixed model repeated measures (MMRM) approach. Model includes baseline HbA1c, baseline FPG and age as linear covariates; treatment, gender, PK/PD subgroup, background therapy, visit and visit by treatment interaction as fixed effects and patient as a random effect. The unstructured covariance structure has been used to fit the mixed model.||0.52|-4.31|0.1189
82594692|NCT01438489|164902946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.014|TWO_SIDED|90.0|1.33|4.26|||Regression, Logistic|||All-comers||4.26|1.33|0.014
82594693|NCT01438489|164902946|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94||||0.063|TWO_SIDED|90.0|1.08|3.49|||Regression, Logistic|||All-comers||3.49|1.08|0.063
82594694|NCT01438489|164902947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.55||||0.004|TWO_SIDED|90.0|1.72|7.32|||Regression, Logistic|||High||7.32|1.72|0.004
82594695|NCT01438489|164902947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.65||||0.029|TWO_SIDED|90.0|1.27|5.53|||Regression, Logistic|||High||5.53|1.27|0.029
82594696|NCT01476475|164902961|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of insulin glargine/lixisenatide FRC versus insulin glargine was tested first, at alpha level of 0.025 (1-sided) and a non-inferiority margin of 0.4% HbA1c. If non-inferiority was established, then a test of superiority of insulin glargine/lixisenatide FRC over insulin glargine would be performed, at alpha level of 0.05 (2-sided). The non-inferiority was assessed using upper bound of 2-sided 95% confidence interval (CI) at ≤0.4%.|Least square (LS) mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|95.0|-0.312|-0.037|||ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline HbA1c value as covariates. A step-down testing procedure described by Hochberg and Tamhane was used to control type-1 error.||-0.037|-0.312|
82594697|NCT01476475|164902961|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.013|TWO_SIDED|95.0|-0.312|-0.037||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline HbA1c value as covariates. If non-inferiority was established, then a test of superiority of insulin glargine/lixisenatide FRC over insulin glargine would be performed, at alpha level of 0.05 (2-sided).||-0.037|-0.312|0.0130
82594698|NCT01476475|164902962|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.17|STANDARD_ERROR_OF_MEAN|0.337|<|0.0001|TWO_SIDED|95.0|-3.832|-2.504||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using ANCOVA with treatment groups,randomization strata of screening HbA1c(\<8.0, ≥8.0%)\& screening BMI(\<30 kg/m\^2, ≥30 kg/m\^2),country as fixed effects and baseline 2-hour PPG value as covariates.A step-down testing procedure used to control type-1 error.If non-inferiority demonstrated for primary endpoint,superiority testing on secondary endpoints was performed sequentially in order endpoints are reported(continued only if previous endpoint was statistically significant).||-2.504|-3.832|<0.0001
82594699|NCT01476475|164902963|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|0.331|<|0.0001|TWO_SIDED|95.0|-3.895|-2.592||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline 2-hour plasma glucose excursion value as covariates.||-2.592|-3.895|<0.0001
82594700|NCT01476475|164902964|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.125||0.0154|TWO_SIDED|95.0|-0.55|-0.058||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline average 7-point SMPG value as covariates.||-0.058|-0.550|0.0154
82594701|NCT01476475|164902965|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.44|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.11|-0.773||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects and baseline body weight value as covariates.||-0.773|-2.110|<0.0001
82594702|NCT01476475|164902966|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.24|STANDARD_ERROR_OF_MEAN|1.704||0.0583|TWO_SIDED|95.0|-6.592|0.114||Threshold for significance at 0.05 level.|ANCOVA||Insulin glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the step-down testing procedure (continued only if previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of screening HbA1c (\<8.0, ≥8.0%), randomization strata of screening BMI (\<30 kg/m\^2, ≥30 kg/m\^2), and country as fixed effects.||0.114|-6.592|0.0583
82594703|NCT00940589|164902976|SUPERIORITY_OR_OTHER||||||<|0.045|TWO_SIDED||||||ANCOVA|||||||<0.045
82594704|NCT00940589|164902977|SUPERIORITY_OR_OTHER||||||<|0.044|TWO_SIDED||||||ANCOVA|||||||<0.044
82594705|NCT00676676|164902978|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Baseline versus 2-week||||0.002
82594706|NCT00676676|164902978|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Baseline versus 8-week||||0.004
82594707|NCT01372384|164902991|SUPERIORITY_OR_OTHER|||||||0.045|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Partial Response at Visit 4 (Two proportions for Stable Disease Vs Partial Response of Erlotinib): The observed significance value of performed test for differences between two proportions for Stable Disease Vs Partial Response was analyzed.||||0.045
82594708|NCT01372384|164902991|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Partial Response at Visit 6 (Two proportions for Stable Disease Vs Partial Response of Erlotinib): The observed significance value of performed test for differences between two proportions for Stable Disease Vs Partial Response was analyzed||||1.000
82594709|NCT01372384|164902991|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Partial Response Vs Progression of disease at Visit 6 (Two proportions for of Partial Response Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Partial Response Vs Progression of disease was analyzed||||1.000
82594710|NCT01372384|164902991|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Stable Disease Vs Progression of disease at Visit 6 (Two proportions for of Stable Disease Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Stable Disease Vs Progression of disease was analyzed||||1.000
82594711|NCT01372384|164902991|SUPERIORITY_OR_OTHER|||||||0.274|TWO_SIDED||||||"Clopper-Pearson exact method"|||Response assessment of Partial Response Vs Progression of disease at Visit 10 (Two proportions for of Partial Response Vs Progression of disease of Erlotinib): The observed significance value of performed test for differences between two proportions for of Partial Response Vs Progression of disease was analyzed||||0.274
82594712|NCT03129321|164902994|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|4.24|||||TWO_SIDED|90.0|-5.05|13.54||||||||13.54|-5.05|
82594713|NCT03129321|164902995|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82594714|NCT03129321|164902995|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|||||||0.0004
82594715|NCT03129321|164902996|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|2.85|||||TWO_SIDED|90.0|-6.29|11.98||||||||11.98|-6.29|
82654270|NCT02099461|165023618|SUPERIORITY_OR_OTHER||LS Mean|-0.09||||0.5238|TWO_SIDED|95.0|-0.373|0.191|||ANCOVA|||An ANCOVA analysis was performed on the log ratio of post-baseline to baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.191|-0.373|0.5238
82594716|NCT03129321|164902997|EQUIVALENCE|Equivalence margin: +/-20%|Difference in proportions|-0.02|||||TWO_SIDED|90.0|-8.29|8.26||||||||8.26|-8.29|
82594717|NCT03129321|164902998|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||||||0.0020
82594718|NCT03129321|164902998|SUPERIORITY|||||||0.0076|||||||Cochran-Mantel-Haenszel|||||||0.0076
82594719|NCT03129321|164902999|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82594720|NCT03129321|164902999|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82594721|NCT01265615|164903013|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594722|NCT01265615|164903014|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594723|NCT01265615|164903015|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594724|NCT01265615|164903016|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594725|NCT01265615|164903017|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594726|NCT01265615|164903018|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594727|NCT01265615|164903019|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594728|NCT01265615|164903020|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594729|NCT01265615|164903021|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594730|NCT01265615|164903022|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82594731|NCT03070470|164903023|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|1.2|||||TWO_SIDED|90.0|-9.5|12.0||The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.|Mixed Models Analysis|||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||12.0|-9.5|
82594732|NCT03070470|164903023|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|-2.6|||||TWO_SIDED|90.0|-11.4|6.1|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||6.1|-11.4|
82594733|NCT03070470|164903023|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|-2.9|||||TWO_SIDED|90.0|-14.6|8.8|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% confidence interval (CI) to be \<10 msec for the projected placebo-corrected change from baseline J-Tpeakc effect at the peak plasma level on Day 3 using a linear mixed-effects exposure response model||8.8|-14.6|
82594734|NCT03070470|164903024|OTHER|The appropriateness of the linear model will be assessed. Projected estimates will be computed only if the linear model is found acceptable.|Mean Difference (Final Values)|30.7|||||TWO_SIDED|90.0|22.6|38.9|||Mixed Models Analysis|The degrees of freedom for the model estimates were determined by the Kenward-Rogers method as prespecified in the SAP.||Upper bound of the 2-sided 90% CI to be ≥10 msec for the projected placebo-corrected change from baseline QTc effect at the peak plasma level on Day 1 using a linear mixed-effects exposure response model.||38.9|22.6|
82594735|NCT03503877|164903027|SUPERIORITY|||||||0.07|||||||Wilcoxon signed-rank testing|||||||0.07
82594736|NCT03503877|164903028|SUPERIORITY|||||||0.89|||||||Wilcoxon signed-rank testing|||||||0.89
82594737|NCT03503877|164903029|SUPERIORITY|||||||0.54||||||High mosaicism|Wilcoxon signed-rank testing|||||||0.54
82594738|NCT03503877|164903029|SUPERIORITY|||||||0.2||||||Low mosaicism|Wilcoxon signed-rank|||||||.20
82594739|NCT03503877|164903030|SUPERIORITY|||||||0.01||||||Time to Expanded Blastocyst|Wilcoxon signed-rank testing|||||||0.01
82594740|NCT02700412|164903037|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure frequency over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure frequency between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure frequency was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure frequency outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure frequency relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
82594741|NCT02700412|164903038|OTHER|Single group.|||||<|0.0001||||||P-value reported above is the global test for change in seizure severity scores over a 12-month period.|Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test with Bonferonni multiple comparison correction was used as a post-hoc analysis to indicate direction of change.||Null hypothesis is that there was no change in seizure severity scores between any two assessment time points during this period of analysis. Alternative hypothesis is that there were two or more assessment time points for which change in seizure severity scores was different from zero.|Generalized least squares statistical techniques were used for modeling longitudinal data after normality of seizure severity score outcome measures were achieved through log-transformations methods. The following baseline clinical variables were adjusted for: AEDs, AEDs tried, epileptic surgery, and gender. Reported results were geometric least squares mean and its associated 95% Confidence Interval. Percentage reduction in seizure severity relative to baseline were obtained by subtracting from 1 and then multiplying by 100 at all post-baseline timepoints.|||<0.0001
82594742|NCT04962022|164903045|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir co-administered with itraconazole was the Test treatment.|Specified in comments|118.57||||0.05|TWO_SIDED|90.0|112.5|124.97|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"|||124.97|112.50|0.05
82594743|NCT04962022|164903046|OTHER|PF-07321332/ritonavir administered alone was the Reference treatment and PF-07321332/ritonavir co-administered with itraconazole was the Test treatment.|Specified in comments|138.82||||0.05|TWO_SIDED|90.0|129.25|149.11|||Mixed Models Analysis||"Mixed Model was fitted to obtain:~1.Ratio of geometric means 2.90% CI of ratio of geometric means"|||149.11|129.25|0.05
82594744|NCT04416555|164903058|SUPERIORITY|||||||0.391|||||||Mixed Models Analysis|||||||0.391
82594745|NCT04416555|164903059|SUPERIORITY|||||||0.608|||||||Regression, Linear|||||||0.608
82594746|NCT04416555|164903060|SUPERIORITY|||||||0.768|||||||Mixed Models Analysis|||||||0.768
82594747|NCT04416555|164903061|SUPERIORITY|||||||0.244|||||||Wilcoxon (Mann-Whitney)|||||||0.244
82594748|NCT04416555|164903062|SUPERIORITY|||||||0.191|||||||Wilcoxon (Mann-Whitney)|||||||0.191
82594749|NCT00530270|164903063|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.127
82594750|NCT00530270|164903064|SUPERIORITY_OR_OTHER|||||||0.801||||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.801
82594751|NCT00530270|164903065|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.02
82594752|NCT00530270|164903066|SUPERIORITY_OR_OTHER|||||||0.876||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.876
82594753|NCT00530270|164903067|SUPERIORITY_OR_OTHER|||||||0.77||95.0||||A two-sided alpha of 0.05 was used. No multiple comparison adjustments were made.|Mixed Models Analysis|Different error variance estimates were allowed for the two treatment groups.||The null hypothesis of no difference in the log duration of signs and symptoms or hospitalization between the two treatment groups was tested using an F test from a generalized mixed model with fixed effects for treatment group, age group and ACS severity. Please note that the study was stopped prematurely so only 11 of the 112 originally planned were included in the analysis.||||0.770
82594754|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.308|TWO_SIDED|||||Correlation between ferritin and change in hemoglobin in the immediate intervention group. Testing the correlation equal to 0.|t-test, 2 sided|||||||0.308
82654271|NCT02099461|165023618|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31||||0.1343|TWO_SIDED|95.0|-0.72|0.098|||ANCOVA||Denosumab 60 mg - Placebo|An ANCOVA analysis was performed on the log ratio of post-baseline to Baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.098|-0.720|0.1343
82594755|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.601|TWO_SIDED|||||Correlation between ferritin and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.601
82594756|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.396|TWO_SIDED|||||Correlation between iron and change in hemoglobin in the intermediate intervention group. Testing the correlation = 0.|t-test, 2 sided|||||||0.396
82594757|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED|||||Correlation between iron and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.106
82594758|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED|||||Correlation between transferrin saturation and change in hemoglobin in the immediate intervention group. Testing the correlation = 0.|t-test, 2 sided|||||||0.606
82594759|NCT01309659|164903112|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED|||||Correlation between transferrin saturation and change in hemoglobin in the waitlist group. Testing the correlation = 0.|t-test, 2 sided|||||||0.077
82594760|NCT01309659|164903121|SUPERIORITY_OR_OTHER|||||||0.649|TWO_SIDED|||||Correlation between soluble transfer receptor and change in hemoglobin in the immediate intervention group. Testing the correlation =0.|t-test, 2 sided|||||||0.649
82594761|NCT01309659|164903121|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Correlation between soluble transfer receptor and change in hemoglobin in the wait list group. Testing the correlation =0.|t-test, 2 sided|||||||0.001
82594762|NCT01309659|164903122|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in hemoglobin in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.391
82594763|NCT01309659|164903122|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in hemoglobin in the wait list control group. Testing correlation =0.|t-test, 2 sided|||||||0.111
82594764|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.077|TWO_SIDED|||||Correlation between baseline serum ferritin and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.077
82491576|NCT01681472|164676463|OTHER||Correlation factor|0.88682||||0.0033|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.0033
82491577|NCT01681472|164676463|OTHER||Correlation factor|-0.64743||||0.1645|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.1645
82594765|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.798|TWO_SIDED|||||Correlation between baseline serum ferritin and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.798
82594766|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.383|TWO_SIDED|||||Correlation between baseline iron and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.383
82594767|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED|||||Correlation between baseline iron and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.732
82594768|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.286|TWO_SIDED|||||Correlation between baseline transferrin saturation and the change in 6 Minute Walk Test distance in the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.286
82594769|NCT01309659|164903123|SUPERIORITY_OR_OTHER|||||||0.356|TWO_SIDED|||||Correlation between baseline transferrin saturation and the change in 6 Minute Walk Test distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.356
82594770|NCT01309659|164903124|SUPERIORITY_OR_OTHER|||||||0.649|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor and the change in the 6 Meter Walk Test distance of the immediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.649
82594771|NCT01309659|164903124|SUPERIORITY_OR_OTHER|||||||0.396|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor and the change in the 6 Meter Walk Test distance of the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.396
82594772|NCT01309659|164903125|SUPERIORITY_OR_OTHER|||||||0.624|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in the 6 Minute Walk Test Distance in the intermediate intervention group. Testing correlation =0.|t-test, 2 sided|||||||0.624
82594773|NCT01309659|164903125|SUPERIORITY_OR_OTHER|||||||0.329|TWO_SIDED|||||Correlation between baseline soluble transferrin receptor index (soluble receptor/log ferritin) and the change in the 6 Minute Walk Test Distance in the wait list group. Testing correlation =0.|t-test, 2 sided|||||||0.329
82594774|NCT02018822|164903126|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2552|||||||Chi-squared|||||||0.2552
82654272|NCT02099461|165023618|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24||||0.2345|TWO_SIDED|95.0|-0.646|0.161|||ANCOVA||Denosumab 120 mg - Placebo|An ANCOVA analysis was performed on the log ratio of post-baseline to Baseline Ki-67 index. Independent variables included treatment, stratification factor, and log transformed baseline Ki-67 index.||0.161|-0.646|0.2345
82594775|NCT02018822|164903127|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2235|||||||Chi-squared|||||||0.2235
82594776|NCT02018822|164903128|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3891|||||||Chi-squared|||||||0.3891
82594777|NCT02018822|164903129|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3883|||||||Chi-squared|||||||0.3883
82594778|NCT02018822|164903130|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.3883|||||||Chi-squared|||||||0.3883
82594779|NCT02018822|164903131|NON_INFERIORITY|Assuming that the success rate of the control composite resin is 95% based on clinical data, for a non-inferiority test with a non-inferiority margin of 15%, a sample size of 27 is required in each group to allow 80% power at an alpha level of 0.05. We aimed to have 30 subjects/teeth remaining in each group after attrition at the end of the study.||||||0.2707|||||||Chi-squared|||||||0.2707
82594780|NCT03201458|164903132|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.027|TWO_SIDED|90.0|0.35|0.93||One-sided test|Log Rank|||||0.93|0.35|0.027
82594781|NCT03201458|164903133|SUPERIORITY||Odds Ratio (OR)|2.3||||0.22|TWO_SIDED||||||Fisher Exact|||||||0.22
82594782|NCT03201458|164903135|SUPERIORITY|||||||0.41||||||One-sided test|Log Rank|||||||0.410
82594783|NCT05112536|164903150|OTHER|||||||0.101|||||||Wilcoxon signed-rank test|||||||0.101
82594784|NCT03972969|164903153|SUPERIORITY||Incidence Rate Ratio|0.13|||<|0.05|TWO_SIDED|95.0|0.05|0.32|||negative binomial regression|||||0.32|0.05|<0.05
82594785|NCT03972969|164903153|SUPERIORITY||Incidence Rate Ratio|0.25|||<|0.05|TWO_SIDED|95.0|0.1|0.61|||negative binomial regression|||||0.61|0.10|<0.05
82594786|NCT03972969|164903153|SUPERIORITY||Incidence Rate Ratio|0.52|||<|0.05|TWO_SIDED|95.0|0.19|1.38|||negative binomial regression|||||1.38|0.19|<0.05
82594787|NCT03972969|164903154|SUPERIORITY||Incidence Rate Ratio|0.15|||<|0.05|TWO_SIDED|95.0|0.07|0.33|||negative binomial regression|||||0.33|0.07|<0.05
82594788|NCT03972969|164903154|SUPERIORITY||Incidence Rate Ratio|0.26|||<|0.05|TWO_SIDED|95.0|0.11|0.58|||negative binomial regression|||||0.58|0.11|<0.05
82594789|NCT03972969|164903154|SUPERIORITY||Incidence Rate Ratio|0.58|||<|0.05|TWO_SIDED|95.0|0.25|1.38|||negative binomial regression|||||1.38|0.25|<0.05
82654273|NCT00720122|165023625|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.00558|STANDARD_ERROR_OF_MEAN|0.00653||0.4|TWO_SIDED|95.0|-0.0081|0.0193|||Paired t-test|||A paired t-test was performed. The null hypothesis was that bone density would decrease over 6 months in females with anorexia nervosa, as observed in life course studies.||0.0193|-0.0081|0.40
82491578|NCT01681472|164676463|OTHER||Correlation factor|0.17664||||0.6756|TWO_SIDED||||||Pearson Correlation|||Correlation for FPGS gene expression||||0.6756
82654274|NCT00663871|165023676|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.04||||0.59|TWO_SIDED|95.0|-0.27|0.19|||ANOVA|||||0.19|-0.27|0.59
82594790|NCT01399788|164903169|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.81|||||TWO_SIDED|90.0|99.2|108.64||||||Rifampicin; 32 participants (16 per sequence) provided at least 99% power that 90% confidence interval (CI) for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject coefficient of variation (CV) estimate of approximately 14.5% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||108.64|99.20|
82594791|NCT01399788|164903169|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|107.28|||||TWO_SIDED|90.0|101.95|112.9||||||Isoniazid; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 12.0% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||112.90|101.95|
82594792|NCT01399788|164903169|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.48|||||TWO_SIDED|90.0|94.92|104.25||||||Ethambutol; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 12.9% for AUClast was used for this power calculation. Natural log transformed AUClast was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.25|94.92|
82594793|NCT01399788|164903170|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|102.75|||||TWO_SIDED|90.0|95.36|110.71||||||Rifampicin: 32 participants (16 per sequence) provided at least 98% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 18.2% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||110.71|95.36|
82594794|NCT01399788|164903170|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|103.85|||||TWO_SIDED|90.0|92.13|117.07||||||Isoniazid; 32 participants (16 per sequence) provided at least 98% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 18.2% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||117.07|92.13|
82594795|NCT01399788|164903170|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|99.48|||||TWO_SIDED|90.0|94.92|104.25||||||Ethambutol; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 16.0% for Cmax was used for this power calculation. Natural log transformed Cmax was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.25|94.92|
82594796|NCT01399788|164903171|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|101.73|||||TWO_SIDED|90.0|99.12|104.4||||||Pyrazinamide; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for AUClast lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 5.2% for AUClast was used for this power calculation. Natural log transformed AUClast(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.40|99.12|
82594797|NCT01399788|164903172|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|95.17|||||TWO_SIDED|90.0|88.6|102.22||||||Pyrazinamide; 32 participants (16 per sequence) provided at least 99% power that 90% CI for ratio of test to reference for Cmax lie within acceptance region of 80% - 125%. An intra-subject CV estimate of approximately 6.7% for Cmax was used for this power calculation. Natural log transformed Cmax(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||102.22|88.60|
82594798|NCT01399788|164903173|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|104.3|||||TWO_SIDED|90.0|99.7|109.1||||||Rifampicin; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||109.10|99.70|
82594799|NCT01399788|164903173|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|105.74|||||TWO_SIDED|90.0|100.32|111.46||||||Isoniazid; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||111.46|100.32|
82594800|NCT01399788|164903173|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|100.97|||||TWO_SIDED|90.0|96.28|105.88||||||Ethambutol; Natural log transformed AUC(0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||105.88|96.28|
82654275|NCT00663871|165023677|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.05||||0.21|TWO_SIDED|95.0|-0.24|0.19|||ANOVA|||||0.19|-0.24|0.21
82654276|NCT00663871|165023678|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.02||||0.92|TWO_SIDED|95.0|0.69|1.5||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time. The Negative Affect scores were categorized by quartiles of the baseline measures.|Mixed Models Analysis|Generalized Linear Mixed Modeling was used with a multinomial distribution with cumulative link.||||1.50|0.69|0.92
82594801|NCT01399788|164903174|SUPERIORITY_OR_OTHER||Ratio of Adjusted Means|101.8|||||TWO_SIDED|90.0|99.24|104.43||||||Pyrazinamide; Natural log transformed AUC (0 -∞)(dn) was analyzed using mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect.||104.43|99.24|
82654277|NCT00663871|165023679|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.86|TWO_SIDED|95.0|-1.21|1.44||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||1.44|-1.21|0.86
82654278|NCT00663871|165023680|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.31||||0.63|TWO_SIDED|95.0|-1.57|0.94||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.94|-1.57|0.63
82491579|NCT01681472|164676463|OTHER||Correlation factor|0.94364||||0.0014|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.0014
82594802|NCT02919436|164903177|SUPERIORITY|We found observed rate of postoperative urinary retention in male spine surgery patients to historically be 17%. We hypothesize that the use of tamsulosin can reduce this rate by 50%. A two group continuity corrected chi-square test with a .05 two-sided significance level will have 80% power to detect the difference between a control group proportion of .17 and a treatment group proportion of .085 (odds ratio of .454) when the sample size in each group is 264 and a total sample size of 528.||||||0.96|||||||Chi-squared, Corrected|||||||.96
82594803|NCT01389752|164903181|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.65|||||TWO_SIDED|90.0|0.61|0.68||The outcome was measured as a ratio of geometric means between the two treatments (LY2216684 in combination with activated charcoal/LY2216684 alone), and the 90% Confidence Interval for the ratio.|Mixed Models Analysis|||||0.68|0.61|
82594804|NCT01389752|164903182|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.9|||||TWO_SIDED|90.0|0.83|0.98||The outcome was measured as a ratio of geometric means between the two treatments (LY2216684 in combination with activated charcoal/LY2216684 alone), and the 90% Confidence Interval for the ratio.|Mixed Models Analysis|||||0.98|0.83|
82594805|NCT01389752|164903183|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.55||||0.001|TWO_SIDED|90.0|-1.04|-0.5||The outcome was measured using the median of paired differences between the 2 treatment groups: LY2216684 administered alone (reference) versus LY2216684 co-administered with charcoal (test).|Wilcoxon (Mann-Whitney)|||||-0.50|-1.04|0.0010
82594806|NCT03259074|164903184|SUPERIORITY||Marginal difference|1.51||||0.7164|TWO_SIDED|95.0|-6.63|9.64||Logistic regression model with treatment as a factor and baseline mSASSS score as a covariate using marginal standardization method.|Regression, Logistic|||||9.64|-6.63|0.7164
82594807|NCT03259074|164903184|SUPERIORITY||Marginal difference|1.67||||0.6925|TWO_SIDED|95.0|-6.61|9.95|||Regression, Logistic|Logistic regression model with treatment as a factor and baseline mSASSS score as a covariate using marginal standardization method.||||9.95|-6.61|0.6925
82594808|NCT03259074|164903185|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS mean difference|-0.18|||||TWO_SIDED|95.0|-0.646|0.293|||||ANCOVA model with treatment as a factor and baseline mSASSS score as a covariate.|||0.293|-0.646|
82594809|NCT03259074|164903185|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS mean difference|-0.16|||||TWO_SIDED|95.0|-0.639|0.315|||||ANCOVA model with treatment as a factor and baseline mSASSS score as a covariate.|||0.315|-0.639|
82594810|NCT03259074|164903186|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|4.32|||||TWO_SIDED|95.0|-5.62|14.27|||||Logistic regression model with treatment as a factor and baseline count of vertebral corners with syndesmophyte as a covariate using marginal standardization method.|||14.27|-5.62|
82594811|NCT03259074|164903186|SUPERIORITY|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|1.09|||||TWO_SIDED|95.0|-9.13|11.31|||||Logistic regression model with treatment as a factor and baseline count of vertebral corners with syndesmophyte as a covariate using marginal standardization method.|||11.31|-9.13|
82594812|NCT03259074|164903187|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS Means|0.183|STANDARD_ERROR_OF_MEAN|0.1517|||TWO_SIDED|95.0|-0.12|0.48|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 150 mg||0.48|-0.12|
82594813|NCT03259074|164903187|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|LS Means|0.332|STANDARD_ERROR_OF_MEAN|0.1545|||TWO_SIDED|95.0|0.03|0.64|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 300 mg||0.64|0.03|
82654279|NCT00663871|165023681|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.32||||0.5|TWO_SIDED|95.0|-1.25|0.61||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.61|-1.25|0.50
82594814|NCT03259074|164903188|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|LS Means|0.877|STANDARD_ERROR_OF_MEAN|0.3316|||TWO_SIDED|95.0|0.22|1.53|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 150 mg||1.53|0.22|
82594815|NCT03259074|164903188|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|LS Means|0.419|STANDARD_ERROR_OF_MEAN|0.3357|||TWO_SIDED|95.0|-0.24|1.08|||||LS Means and 95% CI are from an ANCOVA model with treatment as a factor, baseline Berlin SI joint edema score as a covariate.|Week 104 - 300 mg||1.08|-0.24|
82594816|NCT03259074|164903189|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|1.54|||||TWO_SIDED|95.0|-5.1|8.18|||||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||8.18|-5.10|
82594817|NCT03259074|164903190|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|Marginal difference|-2.34|||||TWO_SIDED|95.0|-10.18|5.51|||||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method.|||5.51|-10.18|
82594818|NCT03259074|164903191|OTHER|Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented|Marginal difference|2.18|||||TWO_SIDED|95.0|-5.34|9.69|||Marginal difference||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||9.69|-5.34|
82654280|NCT00663871|165023682|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.33||||0.25|TWO_SIDED|95.0|-0.23|0.88||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.88|-0.23|0.25
82654281|NCT00663871|165023683|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.52|TWO_SIDED|95.0|-1.83|0.92||The model included effects of treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.92|-1.83|0.52
82654282|NCT00663871|165023684|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.22||||0.52|TWO_SIDED|95.0|0.67|2.24||The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time. The Type A personality scores were categorized by quartiles of the baseline measures.|Mixed Models Analysis|Generalized Linear Mixed Modeling was used with a multinomial distribution with cumulative link.||||2.24|0.67|0.52
82594819|NCT03259074|164903192|OTHER||Marginal difference|0.33|||||TWO_SIDED|95.0|-7.08|7.74||Due to to the pre-defined hierarchical testing strategy, p values beyond the primary endpoint which was not met were not presented.|||Estimated mean, marginal difference and 95% confidence interval are from a logistic regression model with treatment as a factor using marginal standardization method|||7.74|-7.08|
82594820|NCT01594515|164903199|SUPERIORITY_OR_OTHER||Slope|0.9702|STANDARD_ERROR_OF_MEAN|0.0151|||TWO_SIDED|95.0|0.94|1.0005|||||Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.|This was non confirmatory testing (Single dose). Dose proportionality of the drug for Cmax was analysed.(N=50)||1.0005|0.9400|
82594821|NCT01594515|164903200|SUPERIORITY_OR_OTHER||Slope|1.0442|STANDARD_ERROR_OF_MEAN|0.0148|||TWO_SIDED|95.0|1.0145|1.074|||||"Dose proportionality was explored using the power model (ANCOVA). The perfect dose proportionality would correspond to a slope β of 1.~PK endpoints on the log-transformed scale."|This was non confirmatory testing (Single dose). Dose proportionality of the drug for AUC0-inf was analysed. (N=48)||1.0740|1.0145|
82594822|NCT00705783|164903202|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.199|||<|0.0001|TWO_SIDED|95.0|0.125|0.317|||Log Rank||Aripiprazole depot/placebo depot|Based on 6-month IR rates of 55% for placebo and 35% for aripiprazole, sample sizes were estimated to achieve 90% power to detect a hazard ratio of 0.54 and to preserve an overall nominal alpha level of 0.05 (2-sided), allowing for 2 interim looks at 50% and 75% of events. Assuming that each subject was followed for 12 months after randomization and allowing for a 25% loss to follow-up, the projected total number of subjects to be randomly assigned to treatment in the trial was 225.||0.317|0.125|<0.0001
82594823|NCT00705783|164903203|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The alpha levels for this key secondary Outcome Measure were the same as used for the primary Outcome Measure.|Chi-squared|||||||<0.0001
82594824|NCT00705783|164903204|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82594825|NCT00705783|164903205|SUPERIORITY_OR_OTHER|||||||0.1756||95.0|||||Chi-squared|||||||0.1756
82594826|NCT00705783|164903206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.11|||<|0.0001|TWO_SIDED|95.0|-12.68|-7.54|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-7.54|-12.68|<0.0001
82594827|NCT00705783|164903207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.35|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-0.35|-0.70|<0.0001
82594828|NCT00705783|164903208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82|||<|0.0001|TWO_SIDED|95.0|-4.72|-2.91|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||Positive Subscale Score||-2.91|-4.72|<0.0001
82594829|NCT00705783|164903209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36||||0.0001|TWO_SIDED|95.0|-2.04|-0.67|||ANCOVA|The ANCOVA included treatment as a term and baseline as a covariate.||||-0.67|-2.04|0.0001
82594830|NCT00705783|164903210|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82594831|NCT00705783|164903211|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||||||<0.0001
82594832|NCT02285998|164903212|NON_INFERIORITY_OR_EQUIVALENCE|The sample size required to achieve 80% power was calculated based on a one-sided alpha level of 0.025 and an attack rate of 2% in the IIV4 and 1.53% for the Flublok groups respectively.|Relative Vaccine Efficacy (rVE)|30.0|||||TWO_SIDED|95.0|10.0|47.0||||||The primary efficacy analysis was based on the numbers of protocol-defined influenza-like illnesses with rtPCR-positive nasopharyngeal swabs detecting influenza virus of any strain. The Relative Vaccine Efficacy was 30% (10, 47). Non-inferiority would be concluded if the lower bound of the 95% CI for rVE was \> -20%. Superiority of RIV4 in a pre-specified exploratory analysis required that the lower bound of the two-sided 95% CI of rVE be \> +9%.||47|10|
82594833|NCT00978029|164903226|SUPERIORITY_OR_OTHER||Percent Difference|6.9||||0.486|TWO_SIDED|95.0|-10.17|23.97|||Fisher Exact|||||23.97|-10.17|0.486
82594834|NCT00978029|164903226|SUPERIORITY_OR_OTHER||Percent Difference|16.9||||0.078|TWO_SIDED|95.0|0.01|33.83|||Fisher Exact|||||33.83|0.01|0.078
82594835|NCT05376215|164903254|NON_INFERIORITY|The non-inferiority margin of -12.5 was used per the findings from Chisolm, et al (2005), see attached article. In that study, the smallest critical difference for the short term retest difference was 12.5 for the APHAB global score at the 90th percentile. For this study, non-inferiority is confirmed if Fitting Method B is no more than 12.5 percentage points below the mean global benefit score of Fitting Method A.||||||0.806|||||||Mixed Models Analysis|||||||0.806
82594836|NCT05376215|164903255|NON_INFERIORITY|The non-inferiority margin is -1.8 dB. This is based off of work by Killion (2004) in which the critical difference for 4 lists is 1.9 dB at the 95% confidence interval. Killion also found that if all 12 lists are presented, the mean SNR scores will differ by 1.8 dB 5% of the time.||||||0.889|||||||Mixed Models Analysis|||||||0.889
82594837|NCT01301950|164903269|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANOVA|||The null hypothesis was no difference in skin-to-skin time. The alternative hypothesis was that the TruMatch group time was less than the conventional group. Statistical power was anticipated to be 86% with 40 enrolled subjects based upon a Cohen's D effect size of 1. The Sponsor had difficulty identifying and recruiting sites suitable for participation. The statistically required sample size (N=40) was therefore not obtained, causing the group comparison to be statistically underpowered.||||0.54
82594838|NCT04041284|164903274|OTHER||LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|-3.16|-1.21|||ANCOVA|||||-1.21|-3.16|<0.0001
82594839|NCT04041284|164903275|OTHER||LS mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.61||0.0205|TWO_SIDED|95.0|-2.61|-0.22|||Mixed Models Analysis|||||-0.22|-2.61|0.0205
82594840|NCT04041284|164903276|OTHER||Odds Ratio (OR)|3.26|||<|0.0001|TWO_SIDED|95.0|1.89|5.62|||Regression, Logistic|||||5.62|1.89|<0.0001
82594841|NCT04041284|164903277|OTHER||LS mean difference|11.3|STANDARD_ERROR_OF_MEAN|2.21|<|0.0001|TWO_SIDED|95.0|6.91|15.59|||Mixed Models Analysis||Restrictive score: Fremanezumab versus placebo|||15.59|6.91|<0.0001
82594842|NCT04041284|164903277|OTHER||LS mean difference|9.9|STANDARD_ERROR_OF_MEAN|2.12|<|0.0001|TWO_SIDED|95.0|5.73|14.08|||Mixed Models Analysis||Preventive score: Fremanezumab versus placebo|||14.08|5.73|<0.0001
82594843|NCT04041284|164903278|OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.11||0.0915|TWO_SIDED|95.0|-0.39|0.03|||Mixed Models Analysis||Change at Week 4: Fremanezumab versus Placebo|||0.03|-0.39|0.0915
82594844|NCT04041284|164903278|OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.11||0.0006|TWO_SIDED|95.0|-0.59|-0.16|||Mixed Models Analysis||Change at Week 8: Fremanezumab versus Placebo|||-0.16|-0.59|0.0006
82594845|NCT04041284|164903278|OTHER||LS mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.12||0.003|TWO_SIDED|95.0|-0.58|-0.12|||Mixed Models Analysis||Change at Week 12: Fremanezumab versus Placebo|||-0.12|-0.58|0.0030
82594846|NCT04041284|164903279|OTHER||LS mean difference|-3.6|STANDARD_ERROR_OF_MEAN|0.81|<|0.0001|TWO_SIDED|95.0|-5.15|-1.96|||Mixed Models Analysis|||||-1.96|-5.15|<0.0001
82594847|NCT03302975|164903340|SUPERIORITY|||||||0.001|TWO_SIDED|95.0|||||ANOVA|||||||0.001
82594848|NCT00432042|164903347|NON_INFERIORITY_OR_EQUIVALENCE|Measles difference|Mean Difference (Final Values)|1.14|||||TWO_SIDED|95.0|-1.62|4.82|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||4.82|-1.62|
82594849|NCT00432042|164903347|NON_INFERIORITY_OR_EQUIVALENCE|Mumps difference|Mean Difference (Final Values)|-1.83|||||TWO_SIDED|95.0|-4.21|1.1|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||1.10|-4.21|
82594850|NCT00432042|164903347|NON_INFERIORITY_OR_EQUIVALENCE|Rubella difference|Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-3.19|1.35|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||1.35|-3.19|
82594851|NCT00432042|164903347|NON_INFERIORITY_OR_EQUIVALENCE|Varicella difference|Mean Difference (Final Values)|2.53|||||TWO_SIDED|95.0|-0.41|6.58|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -10%.|||6.58|-0.41|
82654283|NCT00663871|165023685|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.03||||0.68|TWO_SIDED|95.0|-0.16|0.1||The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mixed Models Analysis|||||0.10|-0.16|0.68
82594852|NCT00432042|164903348|NON_INFERIORITY_OR_EQUIVALENCE|Hepatitis B difference|Mean Difference (Final Values)|1.36|||||TWO_SIDED|95.0|-0.29|4.24|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||4.24|-0.29|
82594853|NCT00432042|164903348|NON_INFERIORITY_OR_EQUIVALENCE|Haemophilus Influenza type B difference|Mean Difference (Final Values)|2.97|||||TWO_SIDED|95.0|-0.17|6.89|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||6.89|-0.17|
82594854|NCT00432042|164903349|NON_INFERIORITY_OR_EQUIVALENCE|Anti-PT difference|GMT ratio|0.97|||||TWO_SIDED|95.0|0.88|1.08|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.08|0.88|
82594855|NCT00432042|164903349|NON_INFERIORITY_OR_EQUIVALENCE|Anti-FHA difference|GMT ratio|1.09|||||TWO_SIDED|95.0|0.98|1.23|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.23|0.98|
82594856|NCT00432042|164903349|NON_INFERIORITY_OR_EQUIVALENCE|Anti-PRN difference|GMT ratio|1.18|||||TWO_SIDED|95.0|1.03|1.36|||||Non-inferiority was declared when the lower bound of the two-sided 95% CI of the difference is \> -5%.|||1.36|1.03|
82594857|NCT00492752|164903350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6783||||0.014144||95.0|0.4962|0.9272|||Log Rank||Hazard ratio is for Sorafenib vs placebo.|||0.9272|0.4962|0.014144
82594858|NCT00492752|164903350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6208||||0.003464||95.0|0.4498|0.8568|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||0.8568|0.4498|0.003464
82594859|NCT00492752|164903351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9032||||0.497537||95.0|0.6705|1.2165|||Log Rank||Hazard ratio is for Sorafenib vs placebo.|||1.2165|0.6705|0.497537
82594860|NCT00492752|164903351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8831||||0.437926||95.0|0.6449|1.2093|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||1.2093|0.6449|0.437926
82594861|NCT00492752|164903352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5744||||0.000537||95.0|0.4154|0.7942|||Log Rank||Hazard ratio is for Sorafenib vs placebo|||0.7942|0.4154|0.000537
82594862|NCT00492752|164903352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5375||||0.00054||95.0|0.3763|0.7677|||Log Rank|log rank test stratified by country, tumor burden, and ECOG.|Hazard ratio is for Sorafenib vs placebo|||0.7677|0.3763|0.000540
82594863|NCT00492752|164903353|SUPERIORITY_OR_OTHER||Disease control rate|0.3533||||||95.0|0.2771|0.4355||||||||0.4355|0.2771|
82594864|NCT00492752|164903353|SUPERIORITY_OR_OTHER||Disease control rate|0.1579||||||95.0|0.0843|0.2596||||||||0.2596|0.0843|
82594865|NCT00492752|164903356|SUPERIORITY_OR_OTHER|||||||0.67|||||||Fisher Exact|based on tumor response rate (CR+PR)||||||0.67
82594866|NCT03803059|164903370|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using Wilcoxon signed rank test. Testing hypothesis is that the mean change from baseline is zero||||<0.01
82594867|NCT03803059|164903371|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using Wilcoxon signed rank test. Testing hypothesis is that the mean score is equal to 4 (no change).||||<0.01
82594868|NCT03803059|164903372|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Calculated using the Wilcoxon signed rank test. Testing hypothesis is that the mean score is equal to 4.||||<0.01
82594869|NCT03803059|164903373|SUPERIORITY|||||||0.051|||||||t-test, 1 sided|||Calculated using paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.051
82594870|NCT03803059|164903374|SUPERIORITY||||||<|0.01|||||||t-test, 1 sided|||Calculated from paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||<0.01
82594871|NCT03803059|164903375|SUPERIORITY|||||||0.331|||||||t-test, 1 sided|||Calculated from paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.331
82594872|NCT03803059|164903376|SUPERIORITY|||||||0.863|||||||t-test, 2 sided|||Calculated using the paired t test. Testing hypothesis is that the mean change from baseline is zero.||||0.863
82594873|NCT03803059|164903377|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||Calculated using the paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.048
82654284|NCT00663871|165023686|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.17||||0.16|TWO_SIDED|95.0|-0.41|0.07|||Mixed Models Analysis|||||0.07|-0.41|0.16
82654285|NCT00663871|165023687|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.05||||0.59|TWO_SIDED|95.0|-0.24|0.14|||Mixed Models Analysis|||||0.14|-0.24|0.59
82654286|NCT00663871|165023688|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|0.06||||0.35|TWO_SIDED|95.0|-0.06|0.18|||Mixed Models Analysis|||||0.18|-0.06|0.35
82594874|NCT03803059|164903378|SUPERIORITY|||||||0.355||||||P-value reported is for viscoelastic deformation.|t-test, 2 sided|at significance level alpha+0.05||Calculated using the paired t-test. The testing hypothesis is that the mean change from baseline is zero.||||0.355
82594875|NCT03803059|164903379|SUPERIORITY|||||||0.859||||||Calculated with a paired T test. Testing hypothesis is that the mean change from baseline is zero.|t-test, 2 sided|||Calculated using the paired t test. Testing hypothesis is that the mean change from baseline is zero.||||0.859
82594876|NCT03803059|164903380|EQUIVALENCE|.A binomial (sign) test was performed to test if the the proportion of the combined designated favorable evaluations/responses is equal to the combined designated negative evaluations/responses for each question|||||<|0.01|||||||Sign test|||Patient satisfaction questionnaires were tabulated, and the frequency and percentage of all response options were reported for each question and time point calculated from the binomial (sign) test. The testing hypothesis is that the proportion of favorable responses is equal to the unfavorable||||<0.01
82594877|NCT03803059|164903381|SUPERIORITY|||||||0.031||||||All statistical tests were 2-sided at significance level alpha=0.05. No multiple testing corrections were considered in the study.|t-test, 2 sided|||The null hypothesis that the mean change from baseline is zero was tested using a paired t-test||||0.031
82594878|NCT05885737|164903382|EQUIVALENCE|Testing of primary efficacy endpoint was 2-sided and conducted at the 5% significance level. The efficacy of difelikefalin was to be declared for this study if null hypothesis of no treatment difference in the primary efficacy analysis was rejected in favor of the alternative that participants randomized to difelikefalin experience significantly different itching compared to participants randomized to placebo. The null hypothesis was to be rejected if the 2-sided p value was less than (\<) 0.05.|Least square mean difference|-0.81|STANDARD_ERROR_OF_MEAN|0.223||0.0003|TWO_SIDED|95.0|-1.25|-0.37|||MMRM|||The null hypothesis in this study was that there was no treatment difference in the primary efficacy analysis of the primary endpoint. The alternative hypothesis was that in participants randomized to difelikefalin there was a significant treatment difference in change in itching compared to participants randomized to placebo. The assessment was based on the mean change from baseline in the weekly mean of the daily 24-hour WI-NRS score at Week 4 of the DB period.||-0.37|-1.25|0.0003
82594879|NCT04673292|164903394|EQUIVALENCE|The fixed site SOC testing study arm was the standard of care and reference group. The null hypothesis was that there is not a statistically significant difference in the proportion of participants who complete PCR COVID-19 testing within 30 days of randomization when comparing community-based testing to the fixed site SOC testing.|Prevalence Ratio|1.04||||0.67|TWO_SIDED|95.0|0.86|1.27|||Poisson Regression|Adjusted poisson regression was performed using Study Arm as a nominal variable in the model with the Fixed Site SOC Testing as the reference group.|||Models were adjusted for employment.|1.27|0.86|0.67
82594880|NCT04673292|164903394|EQUIVALENCE|The fixed site SOC testing study arm was the standard of care and reference group. The null hypothesis was that there is not a statistically significant difference in the proportion of participants who complete PCR COVID-19 testing within 30 days of randomization when comparing self-collected testing to the fixed site SOC testing.|Prevalence Ratio|1.08||||0.43|TWO_SIDED|95.0|0.89|1.31|||Poisson Regression|Adjusted poisson regression was performed using Study Arm as a nominal variable in the model with the Fixed Site SOC Testing as the reference group.|||Models were adjusted for employment.|1.31|0.89|0.43
82594881|NCT04673292|164903395|EQUIVALENCE|Testing for equivalence in the difference in time from randomization to completion of SARS-CoV-2 PCR testing when comparing the community-based testing to fixed site SOC testing. Alpha threshold of 0.05.|Time Ratio|0.87||||0.14|TWO_SIDED|95.0|0.73|1.05||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 30 days.|Models adjusted for employment|1.05|0.73|0.14
82594882|NCT04673292|164903395|EQUIVALENCE|Testing for equivalence in the difference in time from randomization to completion of SARS-CoV-2 PCR testing when comparing the self-collected testing arm to the fixed site SOC testing Alpha threshold of 0.05.|Time Ratio|0.86||||0.09|TWO_SIDED|95.0|0.71|1.03||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 30 days.|Models adjusted for employment|1.03|0.71|0.09
82594883|NCT04673292|164903396|EQUIVALENCE|Null hypothesis: There is no significant difference in time from completion of SARS-CoV-2 test to receipt of SARS-CoV-2 test results when comparing the community-based testing to fixed site SOC testing.|Time Ratio|0.96||||0.56|TWO_SIDED|95.0|0.83|1.1||aprior threshold for significance: p\<0.05|Accelerated Failure Time|Study arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 10 days.|Models adjusted for employment|1.10|0.83|0.56
82654287|NCT00663871|165023689|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|0.04||||0.74|TWO_SIDED|95.0|-0.18|0.25|||Mixed Models Analysis|||||0.25|-0.18|0.74
82654288|NCT00663871|165023690|SUPERIORITY_OR_OTHER_LEGACY|The model included effects for treatment (fish oil, placebo), time (baseline, post-intervention), and interaction terms of treatment with time.|Mean Difference (Net)|-0.1||||0.28|TWO_SIDED|95.0|-0.27|0.08|||Mixed Models Analysis|||||0.08|-0.27|0.28
82654289|NCT00663871|165023691|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.15||||0.76|TWO_SIDED|95.0|-0.09|0.39|||Repeated Measures MANOVA|||||0.39|-0.09|0.76
82654290|NCT00663871|165023692|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.06||||0.62|TWO_SIDED|95.0|-0.18|0.3|||Repeated Measures MANOVA|||||0.30|-0.18|0.62
82654291|NCT00663871|165023693|SUPERIORITY_OR_OTHER_LEGACY||standardized mean difference|0.03||||0.42|TWO_SIDED|95.0|-0.21|0.26|||Repeated Measures MANOVA|||||0.26|-0.21|0.42
82654292|NCT00663871|165023694|SUPERIORITY_OR_OTHER_LEGACY||Standardized mean difference|-0.06||||0.54|TWO_SIDED|95.0|-0.3|0.18|||Repeated Measures MANOVA|Repeated Measures MANOVA||||0.18|-0.30|0.54
82594884|NCT04673292|164903396|EQUIVALENCE|Null hypothesis: There is no significant difference in time from completion of SARS-CoV-2 test to receipt of SARS-CoV-2 test results when comparing the self-collected testing arm to the fixed site SOC testing.|Time Ratio|0.93||||0.32|TWO_SIDED|95.0|0.81|1.07||aprior significance threshold: p-value\<0.05|Accelerated Failure Time|Study Arm included as a nominal (dummy) variable in accelerated failure time models. Models adjusted for employment.||Times were censored at 10 days.|Models adjusted for employment|1.07|0.81|0.32
82594885|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.4295|TWO_SIDED|95.0|-1.65|0.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 1||0.70|-1.65|0.4295
82594886|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15||||0.0586|TWO_SIDED|95.0|-2.34|0.04|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 1||0.04|-2.34|0.0586
82594887|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.89||||0.0111|TWO_SIDED|95.0|-3.34|-0.43|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 2||-0.43|-3.34|0.0111
82594888|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.84||||0.0141|TWO_SIDED|95.0|-3.3|-0.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 2||-0.37|-3.30|0.0141
82594889|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.22||||0.0152|TWO_SIDED|95.0|-4.0|-0.43|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 4||-0.43|-4.00|0.0152
82594890|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.06||||0.001|TWO_SIDED|95.0|-4.86|-1.25|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 4||-1.25|-4.86|0.0010
82594891|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.41||||0.0245|TWO_SIDED|95.0|-4.5|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 30 mg at Week 6||-0.31|-4.50|0.0245
82594892|NCT00880399|164903397|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.86||||0.0082|TWO_SIDED|95.0|-4.97|-0.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitatnt 60 mg at Week 6||-0.75|-4.97|0.0082
82594893|NCT00880399|164903399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.51|TWO_SIDED|95.0|0.8|3.19|||Log Rank|||Placebo Vs Orvepitant 30 mg at Week 6||3.19|0.80|0.51
82594894|NCT00880399|164903399|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.66||||0.37|TWO_SIDED|95.0|0.84|3.3|||Log Rank|||Placebo Vs Orvepitant 60 mg at Week 6||3.30|0.84|0.37
82594895|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.7859|TWO_SIDED|95.0|-0.72|0.55|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.55|-0.72|0.7859
82594896|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.15||||0.6429|TWO_SIDED|95.0|-0.79|0.49|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.49|-0.79|0.6429
82594897|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04||||0.0092|TWO_SIDED|95.0|-1.82|-0.26|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||-0.26|-1.82|0.0092
82594898|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91||||0.023|TWO_SIDED|95.0|-1.69|-0.13|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||-0.13|-1.69|0.0230
82594899|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.0104|TWO_SIDED|95.0|-2.27|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.31|-2.27|0.0104
82594900|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.68||||0.001|TWO_SIDED|95.0|-2.67|-0.69|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.69|-2.67|0.0010
82594901|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.0361|TWO_SIDED|95.0|-2.37|-0.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.08|-2.37|0.0361
82594902|NCT00880399|164903400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.54||||0.0092||95.0|-2.69|-0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.38|-2.69|0.0092
82594903|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.72||||0.1662|TWO_SIDED|95.0|-1.74|0.3|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.30|-1.74|0.1662
82594904|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.66||||0.2116|TWO_SIDED|95.0|-1.69|0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.38|-1.69|0.2116
82594905|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.02||||0.082|TWO_SIDED|95.0|-2.17|0.13|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.13|-2.17|0.0820
82594906|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.55||||0.3498|TWO_SIDED|95.0|-1.71|0.61|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.61|-1.71|0.3498
82594907|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.69||||0.0107|TWO_SIDED|95.0|-2.99|-0.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.40|-2.99|0.0107
82594908|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.0017|TWO_SIDED|95.0|-3.4|-0.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.79|-3.40|0.0017
82594909|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.29||||0.088|TWO_SIDED|95.0|-2.78|0.19|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.19|-2.78|0.0880
82594910|NCT00880399|164903401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.68||||0.0282|TWO_SIDED|95.0|-3.17|-0.18|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.18|-3.17|0.0282
82594911|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9854|TWO_SIDED|95.0|-0.45|0.44|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.44|-0.45|0.9854
82594912|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.3476|TWO_SIDED|95.0|-0.66|0.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.23|-0.66|0.3476
82594913|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.0898|TWO_SIDED|95.0|-0.94|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.07|-0.94|0.0898
82594914|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.0928|TWO_SIDED|95.0|-0.95|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.07|-0.95|0.0928
82594915|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32||||0.2937|TWO_SIDED|95.0|-0.93|0.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.28|-0.93|0.2937
82594916|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.59||||0.0587|TWO_SIDED|95.0|-1.2|0.02|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.02|-1.20|0.0587
82594917|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.195|TWO_SIDED|95.0|-1.14|0.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.23|-1.14|0.1950
82594918|NCT00880399|164903402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.0498|TWO_SIDED|95.0|-1.4|0.0|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.00|-1.40|0.0498
82594919|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.14||||0.1731|TWO_SIDED|95.0|0.72|6.4|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 1||6.40|0.72|0.1731
82594920|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.77||||0.7084|TWO_SIDED|95.0|0.2|2.97|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 1||2.97|0.20|0.7084
82594921|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.6||||0.0247|TWO_SIDED|95.0|1.13|5.98|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 2||5.98|1.13|0.0247
82594922|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||0.1862|TWO_SIDED|95.0|0.75|4.3|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 2||4.30|0.75|0.1862
82594923|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.87||||0.063|TWO_SIDED|95.0|0.97|3.61|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 4||3.61|0.97|0.0630
82594924|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.65||||0.1413|TWO_SIDED|95.0|0.85|3.23|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 4||3.23|0.85|0.1413
82594925|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.77||||0.0806|TWO_SIDED|95.0|0.93|3.37|||Regression, Logistic|||Placebo Vs Orvepitant 30 mg at Week 6||3.37|0.93|0.0806
82594926|NCT00880399|164903403|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.53||||0.2007|TWO_SIDED|95.0|0.8|2.92|||Regression, Logistic|||Placebo Vs Orvepitant 60 mg at Week 6||2.92|0.80|0.2007
82594927|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.2523|TWO_SIDED|95.0|-0.25|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.07|-0.25|0.2523
82594928|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.2639|TWO_SIDED|95.0|-0.25|0.07|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.07|-0.25|0.2639
82594929|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37||||0.0004|TWO_SIDED|95.0|-0.58|-0.17|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||-0.17|-0.58|0.0004
82594930|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.0348|TWO_SIDED|95.0|-0.43|-0.02|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||-0.02|-0.43|0.0348
82594931|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.34||||0.0166|TWO_SIDED|95.0|-0.62|-0.06|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||-0.06|-0.62|0.0166
82594932|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.46||||0.0014|TWO_SIDED|95.0|-0.75|-0.18|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||-0.18|-0.75|0.0014
82594933|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.45||||0.0099|TWO_SIDED|95.0|-0.79|-0.11|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.11|-0.79|0.0099
82594934|NCT00880399|164903404|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.0059|TWO_SIDED|95.0|-0.83|-0.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.14|-0.83|0.0059
82594935|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.5473|TWO_SIDED|95.0|-2.04|1.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||1.08|-2.04|0.5473
82594936|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.02||||0.9814|TWO_SIDED|95.0|-1.56|1.6|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||1.60|-1.56|0.9814
82594937|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51||||0.0515|TWO_SIDED|95.0|-3.03|0.01|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.01|-3.03|0.0515
82594938|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.468|TWO_SIDED|95.0|-2.09|0.96|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.96|-2.09|0.4680
82594939|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.1757|TWO_SIDED|95.0|-2.98|0.55|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.55|-2.98|0.1757
82594940|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.15||||0.2048|TWO_SIDED|95.0|-2.93|0.63|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.63|-2.93|0.2048
82594941|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16||||0.0312|TWO_SIDED|95.0|-4.12|-0.2|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||-0.20|-4.12|0.0312
82594942|NCT00880399|164903405|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.34||||0.0202|TWO_SIDED|95.0|-4.31|-0.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.37|-4.31|0.0202
82594943|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.45||||0.7246|TWO_SIDED|95.0|-20.38|29.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 1||29.28|-20.38|0.7246
82594944|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.36||||0.0332|TWO_SIDED|95.0|2.2|52.52|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 1||52.52|2.20|0.0332
82594945|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.12||||0.5439|TWO_SIDED|95.0|-18.18|34.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 2||34.41|-18.18|0.5439
82594946|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.52||||0.3127|TWO_SIDED|95.0|-12.8|39.85|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 2||39.85|-12.80|0.3127
82594947|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.51||||0.2419|TWO_SIDED|95.0|-46.9|11.89|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 4||11.89|-46.90|0.2419
82594948|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Median Difference (Net)|21.11||||0.1606|TWO_SIDED|95.0|-8.43|50.64|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 4||50.64|-8.43|0.1606
82594949|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.48||||0.7412||95.0|-22.21|31.16|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, TST at Week 6||31.16|-22.21|0.7412
82594950|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.47||||0.3974|TWO_SIDED|95.0|-15.19|38.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, TST at Week 6||38.14|-15.19|0.3974
82594951|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-11.52||||0.1397|TWO_SIDED|95.0|-26.83|3.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 1||3.79|-26.83|0.1397
82594952|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.9||||0.0026|TWO_SIDED|95.0|-39.4|-8.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 1||-8.41|-39.40|0.0026
82594953|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.67||||0.3206|TWO_SIDED|95.0|-22.85|7.5|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 2||7.50|-22.85|0.3206
82594954|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.67||||0.0015|TWO_SIDED|95.0|-39.86|-9.49|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 2||-9.49|-39.86|0.0015
82594955|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.71||||0.2157|TWO_SIDED|95.0|-27.7|6.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 4||6.28|-27.70|0.2157
82594956|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.31||||0.0784|TWO_SIDED|95.0|-32.37|1.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 4||1.75|-32.37|0.0784
82594957|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.84||||0.3345|TWO_SIDED|95.0|-7.09|20.78|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SOL at Week 6||20.78|-7.09|0.3345
82654293|NCT03384745|165023697|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 25 (48.1% \[34.0-62.4\], p\<0.0001) of 52 participants in the M1095 30mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
82594958|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.25||||0.6471|TWO_SIDED|95.0|-17.19|10.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SOL at Week 6||10.70|-17.19|0.6471
82594959|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4||||0.8071|TWO_SIDED|95.0|-16.95|21.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 1||21.75|-16.95|0.8071
82594960|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.3||||0.3564|TWO_SIDED|95.0|-29.11|10.52|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 1||10.52|-29.11|0.3564
82594961|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.86||||0.122|TWO_SIDED|95.0|-36.0|4.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 2||4.28|-36.00|0.1220
82594962|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.25||||0.0313|TWO_SIDED|95.0|-42.49|-2.01|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 2||-2.01|-42.49|0.0313
82594963|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.15||||0.8861|TWO_SIDED|95.0|-27.45|31.76|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 4||31.76|-27.45|0.8861
82594964|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.67||||0.9132|TWO_SIDED|95.0|-31.87|28.53|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, WTSO at Week 4||28.53|-31.87|0.9132
82594965|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.09||||0.7844|TWO_SIDED|95.0|-33.55|25.37|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 6||25.37|-33.55|0.7844
82594966|NCT00880399|164903406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9||||0.8497|TWO_SIDED|95.0|-27.33|33.14|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, WTSO at Week 6||33.14|-27.33|0.8497
82594967|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4814|TWO_SIDED|95.0|-0.83|0.39|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||0.39|-0.83|0.4814
82594968|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.6179|TWO_SIDED|95.0|-0.47|0.79|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||0.79|-0.47|0.6179
82594969|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.5022|TWO_SIDED|95.0|-0.44|0.21|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||0.21|-0.44|0.5022
82594970|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.1389|TWO_SIDED|95.0|-0.57|0.08|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||0.08|-0.57|0.1389
82594971|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.9663|TWO_SIDED|95.0|-0.36|0.38|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||0.38|-0.36|0.9663
82594972|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.1311|TWO_SIDED|95.0|-0.67|0.09|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||0.09|-0.67|0.1311
82594973|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.31||||0.1362|TWO_SIDED|95.0|-0.73|0.1|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||0.10|-0.73|0.1362
82654294|NCT03384745|165023697|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 44 (84.6% \[71.9-93.1\], p\<0.0001) of 52 participants in the M1095 60mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
82654295|NCT03384745|165023697|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 41 (77.4% \[63.8-87.7\], p\<0.0001) of 53 participants in the M1095 120mg normal load treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
82654296|NCT03384745|165023697|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 45 (88.2% \[76.1-95.6\], p\<0.0001) of 51 participants in the M1095 120mg augmented load treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
82654297|NCT03384745|165023697|SUPERIORITY|A sample size of 300 subjects has 99% power to detect a statistically significant difference between any treatment arm and placebo in the IGA score of 0 or 1 rate at Week 12, with a two-sided, unadjusted type I error of 0.05. Calculations assume IGA score 0 or 1 rates \>88% for study drug and \<=7% for placebo.|||||<|0.0001|||||||Cochran-Mantel-Haenszel|||Null hypotheses were tested at Week 12 (individual M1095 treatment arms would not be different from placebo with respect to achievement of IGA scores of 0 or 1). The primary analysis was based on the intent-to-treat (ITT) population using a non-responder imputation (NRI) for missing values. Primary treatment comparisons versus placebo were made with the two-sided Cochran-Mantel-Haenszel (CMH) test stratified by actual prior biologic use (yes/no) and body weight (\<=90; \>90kg).|At Week 12, none (0.0% \[95% CI 0.0-6.8\]) of the 52 participants in the placebo group had an IGA score of 0 or 1 versus 41 (77.4% \[63.8-87.7\], p\<0.0001) of 53 participants in the secukinumab 300mg treatment group. Odds ratio could not be calculated due to the placebo group containing no responders.|||<0.0001
82654298|NCT00455533|165023738|SUPERIORITY_OR_OTHER|||||||0.8921||95.0|||||Fisher Exact|||||||0.8921
82654299|NCT00455533|165023738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96||||0.8966|TWO_SIDED|90.0|0.6|1.55|||Cochran-Mantel-Haenszel|||||1.55|0.60|0.8966
82594974|NCT00880399|164903407|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48||||0.0275|TWO_SIDED|95.0|-0.91|-0.05|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.05|-0.91|0.0275
82594975|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.52||||0.0606|TWO_SIDED|95.0|-0.02|1.06|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 1||1.06|-0.02|0.0606
82594976|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.69||||0.0132|TWO_SIDED|95.0|0.15|1.24|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 1||1.24|0.15|0.0132
82594977|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94||||0.001|TWO_SIDED|95.0|0.38|1.5|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 2||1.50|0.38|0.0010
82491580|NCT01681472|164676463|OTHER||Correlation factor|0.43194||||0.2852|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.2852
82594978|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84||||0.0034|TWO_SIDED|95.0|0.28|1.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 2||1.40|0.28|0.0034
82594979|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13||||0.6692|TWO_SIDED|95.0|-0.47|0.72|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 4||0.72|-0.47|0.6692
82594980|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.82||||0.0078|TWO_SIDED|95.0|0.22|1.42|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 4||1.42|0.22|0.0078
82594981|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.66||||0.044|TWO_SIDED|95.0|0.02|1.3|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, SQ at Week 6||1.30|0.02|0.0440
82594982|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.0181|TWO_SIDED|95.0|0.13|1.41|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, SQ at Week 6||1.41|0.13|0.0181
82594983|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.1484|TWO_SIDED|95.0|-0.14|0.92|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 1||0.92|-0.14|0.1484
82594984|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7||||0.0108|TWO_SIDED|95.0|0.16|1.24|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 1||1.24|0.16|0.0108
82594985|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.0361||95.0|0.04|1.16|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 2||1.16|0.04|0.0361
82594986|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.58||||0.0418|TWO_SIDED|95.0|0.02|1.15|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 2||1.15|0.02|0.0418
82594987|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.9305|TWO_SIDED|95.0|-0.64|0.58|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 4||0.58|-0.64|0.9305
82594988|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.77||||0.0141|TWO_SIDED|95.0|0.16|1.39|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg, RVS at Week 4||1.39|0.16|0.0141
82594989|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.65||||0.0562|TWO_SIDED|95.0|-0.02|1.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 6||1.31|-0.02|0.0562
82594990|NCT00880399|164903408|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.74||||0.0296|TWO_SIDED|95.0|0.07|1.4|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg, RVS at Week 6||1.40|0.07|0.0296
82594991|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2||||0.0735|TWO_SIDED|95.0|-0.21|4.61|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||4.61|-0.21|0.0735
82594992|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35||||0.2905|TWO_SIDED|95.0|-1.17|3.86|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||3.86|-1.17|0.2905
82594993|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.05||||0.4327|TWO_SIDED|95.0|-1.6|3.7|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||3.70|-1.60|0.4327
82594994|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.01||||0.4642|TWO_SIDED|95.0|-1.73|3.75|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||3.75|-1.73|0.4642
82594995|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.48||||0.285|TWO_SIDED|95.0|-1.26|4.23|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||4.23|-1.26|0.2850
82594996|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.75||||0.5984|TWO_SIDED|95.0|-2.08|3.59|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||3.59|-2.08|0.5984
82594997|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.21||||0.4192|TWO_SIDED|95.0|-1.76|4.19|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||4.19|-1.76|0.4192
82594998|NCT00880399|164903412|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.64||||0.6766|TWO_SIDED|95.0|-2.42|3.71|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||3.71|-2.42|0.6766
82594999|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9951|TWO_SIDED|95.0|-1.26|1.25|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 1||1.25|-1.26|0.9951
82595000|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.894|TWO_SIDED|95.0|-1.17|1.34|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 1||1.34|-1.17|0.8940
82595001|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.8195|TWO_SIDED|95.0|-1.61|1.28|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 2||1.28|-1.61|0.8195
82595002|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.4106|TWO_SIDED|95.0|-0.84|2.05|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 2||2.05|-0.84|0.4106
82595003|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07||||0.9403|TWO_SIDED|95.0|-1.71|1.85|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 4||1.85|-1.71|0.9403
82595004|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.5206|TWO_SIDED|95.0|-2.36|1.2|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 4||1.20|-2.36|0.5206
82595005|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.36||||0.714|TWO_SIDED|95.0|-2.3|1.58|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 30 mg at Week 6||1.58|-2.30|0.7140
82595006|NCT00880399|164903413|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.26||||0.0234|TWO_SIDED|95.0|-4.22|-0.31|||Mixed Models Repeated Measures|||Placebo Vs Orvepitant 60 mg at Week 6||-0.31|-4.22|0.0234
82595007|NCT01918007|164903478|SUPERIORITY||Odds Ratio (OR)|1.3||||0.54|TWO_SIDED|95.0|0.5|3.3|||Chi-squared|||||3.3|0.5|0.54
82595008|NCT01918007|164903479|SUPERIORITY||Odds Ratio (OR)|14.0|||<|0.001|TWO_SIDED|95.0|2.9|68.4|||Chi-squared|||||68.4|2.9|<0.001
82595009|NCT01918007|164903480|SUPERIORITY||Mean Difference (Net)|-0.31|||<|0.001|TWO_SIDED|95.0|-0.35|-0.27|||t-test, 2 sided|||||-0.27|-0.35|<0.001
82595010|NCT01918007|164903481|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82595011|NCT01918007|164903482|SUPERIORITY||Mean Difference (Net)|-2.76|||<|0.001|TWO_SIDED|95.0|-3.63|-1.9|||t-test, 2 sided|||||-1.90|-3.63|<0.001
82595012|NCT01918007|164903483|SUPERIORITY||Risk Ratio (RR)|1.16||||0.553|TWO_SIDED|95.0|0.71|1.89|||Chi-squared|||||1.89|0.71|0.553
82595013|NCT01918007|164903484|SUPERIORITY||Risk Ratio (RR)|1.79||||0.057|TWO_SIDED|95.0|0.98|3.27|||Chi-squared|||||3.27|0.98|0.057
82595014|NCT01918007|164903485|SUPERIORITY||Risk Ratio (RR)|2.29||||0.084|TWO_SIDED|95.0|0.84|6.25|||Chi-squared|||||6.25|0.84|0.084
82595015|NCT01918007|164903486|SUPERIORITY|||||||0.547|||||||Wilcoxon (Mann-Whitney)|||||||0.547
82595016|NCT01918007|164903487|SUPERIORITY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||||||0.062
82595017|NCT01918007|164903488|SUPERIORITY|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||||||0.208
82595018|NCT01918007|164903489|SUPERIORITY|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
82595019|NCT01918007|164903490|SUPERIORITY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
82595020|NCT01261507|164903495|SUPERIORITY_OR_OTHER||difference in areas under the LROC curve|-0.059|STANDARD_ERROR_OF_MEAN|0.037|<|0.05|TWO_SIDED|95.0|-0.086|-0.031|||mixed model:Dorfman, Berbaum, Metz|||Measure is the difference between the radiologists working without the software less the value for the radiologists working with the software. Thus a negative value would indicate that the the radiologists showed better results when using the software.||-0.031|-0.086|<0.05
82595021|NCT00330382|164903533|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.11|||>|0.45|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in buccal-cell Neu with relative percent change in total lesion area||||>0.45
82595022|NCT00330382|164903533|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.92|||>|0.88|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in protease activity with relative percent change in total lesion area||||> 0.88
82595023|NCT00330382|164903533|SUPERIORITY_OR_OTHER||Correlation Coefficient|0.07|||>|0.66|TWO_SIDED||||||Spearman Rank Correlation|||Correlation of percent change in serum Neu with relative percent change in total lesion area||||> 0.66
82595024|NCT00552175|164903534|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-1.17|-0.56|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|The primary objective and primary efficacy analysis for the study was the analysis between the combined duloxetine arms and placebo.||-0.56|-1.17|<0.0001
82595025|NCT00552175|164903536|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.96|||<|0.0001|TWO_SIDED|95.0|-1.27|-0.64||P-value for Worst Pain.|Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.64|-1.27|<0.0001
82595026|NCT00552175|164903536|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.15|-0.51||P-value for Night Pain.|Mixed Models Analysis|Covariates: Baseline value of night pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.51|-1.15|<0.0001
82595027|NCT00552175|164903537|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.87|||||TWO_SIDED|95.0|-1.26|-0.49|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain analysis||-0.49|-1.26|
82595028|NCT00552175|164903537|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.05|||||TWO_SIDED|95.0|-1.43|-0.66|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain analysis||-0.66|-1.43|
82654300|NCT00455533|165023738|SUPERIORITY_OR_OTHER||difference in pCR|-0.6|||||TWO_SIDED|95.0|-7.9|6.7|||||The difference in pCR rates and the confidence interval computed using the method of DerSimonian and Laird stratified by tumor size at baseline, estrogen receptor status, and clinical response to AC.|||6.7|-7.9|
82654301|NCT00455533|165023741|SUPERIORITY_OR_OTHER|||||||0.6186||95.0|||||Fisher Exact|||||||0.6186
82595029|NCT00552175|164903537|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78|||||TWO_SIDED|95.0|-1.17|-0.39|||Mixed Models Analysis|Covariates: Baseline value of night pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Night Pain analysis||-0.39|-1.17|
82595030|NCT00552175|164903537|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.89|||||TWO_SIDED|95.0|-1.28|-0.5|||Mixed Models Analysis|Covariates: Baseline value of night pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Night Pain analysis||-0.5|-1.28|
82595031|NCT00552175|164903538|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||<|0.0001|TWO_SIDED|95.0|-0.85|-0.44|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.44|-0.85|<0.0001
82595032|NCT00552175|164903539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||||TWO_SIDED|95.0|-0.9|-0.39|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.39|-0.9|
82595033|NCT00552175|164903539|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.65|||||TWO_SIDED|95.0|-0.91|-0.4|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.4|-0.91|
82595034|NCT00552175|164903540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|||<|0.0001|TWO_SIDED|95.0|-1.34|-0.61||P-value for Worst Pain.|Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.61|-1.34|<0.0001
82654302|NCT00455533|165023741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.5806|TWO_SIDED|90.0|0.56|1.34|||Cochran-Mantel-Haenszel|||||1.34|0.56|0.5806
82654303|NCT00455533|165023741|SUPERIORITY_OR_OTHER||difference|-2.5|||||TWO_SIDED|90.0|-11.0|6.0|||||The difference in pCR/RCB-I rates and the confidence interval computed using the method of DerSimonian and Laird stratified by tumor size at baseline, estrogen receptor status, and clinical response to AC.|||6.0|-11|
82654304|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4115||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 (209993\_at)||||0.4115
82654305|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1629||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.1629
82654306|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5074||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5074
82654307|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.553||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.5530
82654308|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1845||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.1845
82595035|NCT00552175|164903540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.85|||<|0.0001|TWO_SIDED|95.0|-1.21|-0.48||P-value for Least Pain.|Mixed Models Analysis|Covariates: Baseline value of least pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.48|-1.21|<0.0001
82595036|NCT00552175|164903540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.67||P-value for Average Pain.|Mixed Models Analysis|Covariates: Baseline value of average pain score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.67|-1.33|<0.0001
82595037|NCT00552175|164903540|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.29|-0.54||P-value for Pain Right Now.|Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.54|-1.29|<0.0001
82595038|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.89|||||TWO_SIDED|95.0|-1.34|-0.44|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain Score analysis||-0.44|-1.34|
82595039|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.06|||||TWO_SIDED|95.0|-1.51|-0.62|||Mixed Models Analysis|Covariates: Baseline value of worst pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Worst Pain Score analysis||-0.62|-1.51|
82595040|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.78|||||TWO_SIDED|95.0|-1.23|-0.33|||Mixed Models Analysis|Covariates: Baseline value of least pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Least Pain Score analysis||-0.33|-1.23|
82595041|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Mean Squares Difference|-0.91|||||TWO_SIDED|95.0|-1.36|-0.46|||Mixed Models Analysis|Covariates: Baseline value of least pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Least Pain Score analysis||-0.46|-1.36|
82595042|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.98|||||TWO_SIDED|95.0|-1.39|-0.58|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average Pain Score analysis||-0.58|-1.39|
82595043|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.01|||||TWO_SIDED|95.0|-1.41|-0.61|||Mixed Models Analysis|Covariates: Baseline value of average pain score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average Pain Score analysis||-0.61|-1.41|
82595044|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.88|||||TWO_SIDED|95.0|-1.35|-0.41|||Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Pain Right Now Score analysis||-0.41|-1.35|
82595045|NCT00552175|164903541|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.95|||||TWO_SIDED|95.0|-1.41|-0.48|||Mixed Models Analysis|Covariates: Baseline value of pain right now score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Pain Right Now Score analysis||-0.48|-1.41|
82595046|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41||||0.0676|TWO_SIDED|95.0|-0.85|0.03||P-value for General Activity.|Mixed Models Analysis|Covariates: Baseline value of general activity score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.03|-0.85|0.0676
82595047|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.37||||0.0933|TWO_SIDED|95.0|-0.8|0.06||P-value for Mood.|Mixed Models Analysis|Covariates: Baseline value of mood score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.06|-0.8|0.0933
82595048|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49||||0.0228|TWO_SIDED|95.0|-0.91|-0.07||P-value for Walking Ability.|Mixed Models Analysis|Covariates: Baseline value of walking ability score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.07|-0.91|0.0228
82595049|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.38||||0.0783|TWO_SIDED|95.0|-0.8|0.04||P-value for Normal Work.|Mixed Models Analysis|Covariates: Baseline value of normal work score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.04|-0.8|0.0783
82595050|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55||||0.0076|TWO_SIDED|95.0|-0.96|-0.15||P-value for Relation to People.|Mixed Models Analysis|Covariates: Baseline value of relation to people score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.15|-0.96|0.0076
82595051|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.46||||0.0378|TWO_SIDED|95.0|-0.9|-0.03||P-value for Sleep.|Mixed Models Analysis|Covariates: Baseline value of sleep score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.03|-0.9|0.0378
82595052|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.56||||0.0089|TWO_SIDED|95.0|-0.98|-0.14||P-value for Enjoyment of Life.|Mixed Models Analysis|Covariates: Baseline value of enjoyment of life score, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.14|-0.98|0.0089
82654309|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3538||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.3538
82595053|NCT00552175|164903542|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48||||0.0095|TWO_SIDED|95.0|-0.85|-0.12||P-value for Average of Interference Scores|Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of Diabetes, Duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||-0.12|-0.85|0.0095
82595054|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.14|-0.06|||Mixed Models Analysis|Covariates: Baseline value of general activity, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|General Activity score analysis||-0.06|-1.14|
82595055|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.23|||||TWO_SIDED|95.0|-0.77|0.32|||Mixed Models Analysis|Covariates: Baseline value of general activity, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|General Activity score analysis||0.32|-0.77|
82595056|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.27|||||TWO_SIDED|95.0|-0.8|0.27|||Mixed Models Analysis|Covariates: Baseline value of mood score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Mood score analysis||0.27|-0.8|
82595057|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.48|||||TWO_SIDED|95.0|-1.01|0.05|||Mixed Models Analysis|Covariates: Baseline value of mood score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Mood score analysis||0.05|-1.01|
82654310|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.9751||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.9751
82595058|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.5|||||TWO_SIDED|95.0|-1.02|0.02|||Mixed Models Analysis|Covariates: Baseline value of walking ability, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Walking Ability score analysis||0.02|-1.02|
82595059|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.49|||||TWO_SIDED|95.0|-1.01|0.03|||Mixed Models Analysis|Covariates: Baseline value of walking ability, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Walking Ability score analysis||0.03|-1.01|
82595060|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.35|||||TWO_SIDED|95.0|-0.86|0.16|||Mixed Models Analysis|Covariates: Baseline value of normal work score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Normal Work score analysis||0.16|-0.86|
82654311|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.8874||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.8874
82654312|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.6907||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.6907
82491581|NCT01681472|164676463|OTHER||Correlation factor|0.58419||||0.2234|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.2234
82595061|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.41|||||TWO_SIDED|95.0|-0.92|0.11|||Mixed Models Analysis|Covariates: Baseline value of normal work score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Normal Work score analysis||0.11|-0.92|
82595062|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.39|||||TWO_SIDED|95.0|-0.89|0.11|||Mixed Models Analysis|Covariates: Baseline value of relation to people, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Relation to People score analysis||0.11|-0.89|
82595063|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.71|||||TWO_SIDED|95.0|-1.21|-0.22|||Mixed Models Analysis|Covariates: Baseline value of relation to people, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Relation to People score analysis||-0.22|-1.21|
82595064|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.57|||||TWO_SIDED|95.0|-1.11|-0.03|||Mixed Models Analysis|Covariates: Baseline value of sleep score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Sleep score analysis||-0.03|-1.11|
82595065|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.36|||||TWO_SIDED|95.0|-0.9|0.18|||Mixed Models Analysis|Covariates: Baseline value of sleep score, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Sleep score analysis||0.18|-0.9|
82595066|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.37|||||TWO_SIDED|95.0|-0.88|0.15|||Mixed Models Analysis|Covariates: Baseline value of enjoyment of life, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Enjoyment of Life score analysis||0.15|-0.88|
82595067|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.76|||||TWO_SIDED|95.0|-1.27|-0.24|||Mixed Models Analysis|Covariates: Baseline value of enjoyment of life, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Enjoyment of Life score analysis||-0.24|-1.27|
82595068|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.45|||||TWO_SIDED|95.0|-0.9|0.0|||Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average of Interference scores analysis||0|-0.9|
82595069|NCT00552175|164903543|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.52|||||TWO_SIDED|95.0|-0.97|-0.07|||Mixed Models Analysis|Covariates: Baseline value of average of interference scores, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|Average of Interference scores analysis||-0.07|-0.97|
82595070|NCT00552175|164903544|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.11||||0.8517|TWO_SIDED|95.0|-1.22|1.01|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||1.01|-1.22|0.8517
82595071|NCT00552175|164903545|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.34|||||TWO_SIDED|95.0|-1.03|1.71|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||1.71|-1.03|
82595072|NCT00552175|164903545|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.55|||||TWO_SIDED|95.0|-1.92|0.81|||Mixed Models Analysis|Covariates: Baseline value of BDI-II, type of diabetes, and duration of diabetic peripheral neuropathic pain (DPNP).|Least Squares Mean Difference = Duloxetine 40 mg and 60 mg Combined minus Placebo.|||0.81|-1.92|
82595073|NCT02184195|164903552|SUPERIORITY||Hazard Ratio (HR)|0.531||||0.0038|TWO_SIDED|95.0|0.346|0.815|||Log-rank test|||||0.815|0.346|0.0038
82595074|NCT02184195|164903553|OTHER||Hazard Ratio (HR)|0.831||||0.3487|TWO_SIDED|95.0|0.564|1.224|||Log-rank test|||||1.224|0.564|0.3487
82595075|NCT02184195|164903554|SUPERIORITY||Hazard Ratio (HR)|0.659||||0.0613|TWO_SIDED|95.0|0.426|1.02|||Log-rank test|||||1.020|0.426|0.0613
82595076|NCT02184195|164903555|SUPERIORITY||Hazard Ratio (HR)|0.611||||0.0111|TWO_SIDED|95.0|0.418|0.894|||Log-rank test|||||0.894|0.418|0.0111
82595077|NCT02184195|164903556|SUPERIORITY||Hazard Ratio (HR)|0.442|||<|0.0001|TWO_SIDED|95.0|0.297|0.658|||Log-rank test|||||0.658|0.297|<0.0001
82595078|NCT02184195|164903557|SUPERIORITY||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.289|0.627|||Log-rank test|||||0.627|0.289|<0.0001
82654313|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.8052||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.8052
82654314|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5031||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.5031
82595079|NCT02184195|164903558|SUPERIORITY||Odds Ratio (OR)|1.52||||0.3273|TWO_SIDED|95.0|0.668|3.61|||Regression, Logistic|||||3.610|0.668|0.3273
82595080|NCT02184195|164903560|SUPERIORITY||Mean Difference (Final Values)|-2.21||||0.355|TWO_SIDED|95.0|-6.917|2.496|||Mixed Models Analysis|||||2.496|-6.917|0.355
82491582|NCT01681472|164676463|OTHER||Correlation factor|0.9584||||0.0002|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFS gene expression||||0.0002
82595081|NCT03029143|164903582|OTHER||Odds Ratio (OR)|0.6|||=|0.401|TWO_SIDED|95.0|0.2|1.8|||Chi-squared||||Chi-squared test was used to estimate P-value from the logistic regression model where Endoscopic Mucosal Healing was the response variable and Treatment and TNF stratification were factors. Baseline complete Mayo Score and natural logarithm of trough concentration at week 6 were covariates.|1.8|0.2|=0.401
82595082|NCT03029143|164903583|OTHER||Adjusted risk difference|-0.4|||=|0.943|TWO_SIDED|95.0|-11.4|10.6|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|10.6|-11.4|=0.943
82595083|NCT03029143|164903584|OTHER||Adjusted risk difference|-1.2|||=|0.893|TWO_SIDED|95.0|-18.7|16.3|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|16.3|-18.7|=0.893
82595084|NCT03029143|164903585|OTHER||Adjusted risk difference|6.0|||=|0.525|TWO_SIDED|95.0|-12.4|24.3|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|24.3|-12.4|=0.525
82595085|NCT03029143|164903586|OTHER||Adjusted risk difference|-6.6|||=|0.623|TWO_SIDED|95.0|-34.0|20.8|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|20.8|-34.0|=0.623
82595086|NCT03029143|164903587|SUPERIORITY||Adjusted risk difference|8.1|||=|0.344|TWO_SIDED|95.0|-8.5|24.7|||CMH Chi-square test||||Cochran-Mantel-Haenszel (CMH) chi-square test was stratified by TNF antagonist status.|24.7|-8.5|=0.344
82595087|NCT02121262|164903602|SUPERIORITY||Rate Difference|1.5||||0.7431|TWO_SIDED|95.0|-5.9|8.9|||Cochran-Mantel-Haenszel|Based on the Cochran-Mantel-Haenszel (CMH) general association test stratified by baseline BCVA categories.||||8.9|-5.9|0.7431
82595088|NCT02121262|164903603|SUPERIORITY||Least Squares Mean (LSM) Difference|2.9|STANDARD_ERROR_OF_MEAN|0.89||0.0011|TWO_SIDED|95.0|1.17|4.66|||ANCOVA|The ANCOVA model included the treatment group as the main effect and baseline BCVA score as the covariate.|Null hypothesis-there was no difference in treatment groups of average BCVA CFB in 12-months. Hypothesis test-based on 2-sided test at 0.05 significance level,confidence interval(CI) was constructed between treatment groups in LSM using ANCOVA model.|||4.66|1.17|0.0011
82595089|NCT02121262|164903604|SUPERIORITY||Least Squares Mean Difference|-89.3|STANDARD_ERROR_OF_MEAN|16.89|<|0.0001|TWO_SIDED|95.0|-122.53|-56.01|||ANCOVA|Based on ANCOVA model with treatment and baseline BCVA categories as main effects and baseline retinal thickness as the covariate.|Null hypothesis was there was no difference in treatment groups in average BCVA CFB in 12-months. Hypothesis test was based on 2-sided test at 0.05 significance level. 2-sided 95% CI was constructed between treatment groups in LSM using ANCOVA model.|||-56.01|-122.53|<0.0001
82595090|NCT02121262|164903605|SUPERIORITY||Least Squares Mean Difference|-7.729|STANDARD_ERROR_OF_MEAN|1.0443|<|0.0001|TWO_SIDED|95.0|-9.7855|-5.6733|||ANCOVA|Based on ANCOVA model with treatment and baseline BCVA categories as main effects and baseline total leakage area as the covariate.|Null hypothesis was there was no difference in treatment groups in average BCVA CFB in 12-months. Hypothesis test was based on 2-sided test at 0.05 significance level. 2-sided 95% CI was constructed between treatment groups in LSM using ANCOVA model.|||-5.6733|-9.7855|<0.0001
82595091|NCT01553188|164903606|SUPERIORITY|||||||0.44|||||||Log rank two-tailed p-value|||||||0.44
82595092|NCT01553188|164903608|SUPERIORITY|||||||0.26|||||||Log rank two-tailed p-value|||||||0.26
82595093|NCT04744207|164903619|SUPERIORITY||Least squares mean estimate|0.81|||<|0.05|TWO_SIDED|95.0|-2.48|4.1|||ANCOVA|||||4.10|-2.48|<0.05
82595094|NCT00777101|164903653|NON_INFERIORITY|Non-inferiority of neratinib vs lapatinib + capecitabine was to be concluded if the upper limit of the 95% confidence interval (CI) for the hazard ratio was 1.15 or less.|Hazard Ratio (HR)|1.19||||0.231|TWO_SIDED|95.0|0.89|1.6|||Log Rank|The log-rank test comparing treatment groups is stratified by region.|The hazard ratio is estimated by stratified Cox model. The Cox model is stratified by region.|||1.60|0.89|0.231
82595095|NCT02651584|164903675|NON_INFERIORITY|The p-value was based on the chi square test for non-inferiority with the margin of 10% point.|||||<|0.001|||||||Chi-squared|||||||<0.001
82595096|NCT02651584|164903676|SUPERIORITY|||||||0.004|||||||Wilcoxon Rank-Sum|||including subject self-reported opioid use||||0.004
82595097|NCT02651584|164903676|SUPERIORITY|||||||0.008|||||||Wilcoxon Rank-Sum|||not including self-reported opioid use||||0.008
82595098|NCT02651584|164903678|NON_INFERIORITY_OR_EQUIVALENCE|The p-value was based on the chi square test for non-inferiority with the margin of 15%.||||||0.006|||||||Chi-squared|||||||0.006
82595099|NCT00841789|164903679|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||.10
82595100|NCT00841789|164903680|SUPERIORITY|||||||0.86|||||||Regression, Cox|||We applied a Generalized Estimating Equation (GEE) model to determine z score change values (see Protocol page 36 in Supplement).||||0.86
82595101|NCT00841789|164903681|SUPERIORITY|||||||0.83|||||||GEE|||General Estimating Equation||||.83
82654315|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.7588||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.7588
82654316|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1542||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.1542
82654317|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0235||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0235
82654318|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3612||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.3612
82595102|NCT00841789|164903681|OTHER|Generallzed Estimating Equation was used for z-score change within groups compared to baseline|General Estimating Equation|||||0.1279|||||||GEE|||We analyzed change from baseline for both etanercept and placebo. LS mean change J(standard error) reported||||0.1279
82595103|NCT00841789|164903682|OTHER|General Estimating Equation for 3 coronary arteries.||||||0.03|||||||GEE|||General Estimating Equation|Generalize estimating equation for 3 coronary arteries evaluated in each patient by echocardiography|||0.03
82595104|NCT00841789|164903682|OTHER|see above||||||0.619|||||||GEE|||GEE performed to compare with change in coronary z score from baseline||||0.619
82595105|NCT03455491|164903699|SUPERIORITY|||||||0.3541|||||||Gekhan-Wilcoxon test|||||||0.3541
82595106|NCT03455491|164903700|SUPERIORITY|||||||0.3597|||||||Gekhan-Wilcoxon test|||||||0.3597
82595107|NCT03455491|164903702|SUPERIORITY|||||||0.4551|||||||ANOVA|one-way ANOVA||||||0.4551
82595108|NCT03317795|164903718|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82595109|NCT03317795|164903720|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||||||0.64
82595110|NCT03317795|164903721|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||Physical composite score||||0.32
82595111|NCT03317795|164903721|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||Mental composite score||||0.26
82595112|NCT03317795|164903722|SUPERIORITY|||||||0.33|||||||Wilcoxon (Mann-Whitney)|||||||0.33
82595113|NCT03317795|164903723|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82595114|NCT03924752|164903761|OTHER|A two-way repeated-measures analysis of variance (ANOVA) was performed on different walking conditions (including the baseline of not wearing the exoskeleton) on the subject's overground self-selected walking speed across different locomotion modes by setting the significant value to 0.05. Two independent variables were assistance type (Exo vs No Exo) and different locomotion modes.||||||0.9547||||||This presents the effect of exoskeleton assistance on the user's preferred overground walking speed across different locomotion modes.|ANOVA|||||||0.9547
82595115|NCT02012621|164903762|OTHER||Odds Ratio (OR)|73.5|||<|0.0001|TWO_SIDED|95.0|25.7|210.5|||Regression, Logistic|||||210.5|25.7|<0.0001
82595116|NCT02012621|164903763|OTHER||Odds Ratio (OR)|8.5||||0.0012|TWO_SIDED|95.0|2.3|30.9|||Regression, Logistic|||||30.9|2.3|0.0012
82595117|NCT02012621|164903764|OTHER||Odds Ratio (OR)|4.7|||<|0.0001|TWO_SIDED|95.0|2.6|8.7|||Regression, Logistic|||||8.7|2.6|<0.0001
82595118|NCT02258451|164903765|SUPERIORITY||Hazard Ratio (HR)|0.891||||0.4843|TWO_SIDED|80.0|0.72|1.102||1-sided SSE-FS hypotheses were tested using a log-rank test with a 2-sided alpha of 0.2, stratified by the randomization stratification factors.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) for SSE-FS was calculated using Cox Proportional Hazards Model, stratified by the same stratification factors as randomization.|The 1-sided null hypothesis that treatment with radium-223 dichloride does not result in superior SSE-FS to treatment with placebo in participant population was tested against the 1-sided alternative hypothesis that the treatment with radium-223 dichloride results in superior SSE-FS time to treatment the placebo. H0: SSE-FS Radium-223+Exemestane/Everolimus \<= SSE-FS Placebo+Exemestane/Everolimus, versus HA: SSE-FSRadium-223+Exemestane/Everolimus \> SSE-FS Placebo+Exemestane/Everolimus||1.102|0.720|0.4843
82595119|NCT02258451|164903766|SUPERIORITY||Hazard Ratio (HR)|0.968||||0.8438|TWO_SIDED|95.0|0.697|1.343||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.343|0.697|0.8438
82595120|NCT02258451|164903767|SUPERIORITY||Hazard Ratio (HR)|0.962||||0.8811|TWO_SIDED|95.0|0.577|1.604||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.604|0.577|0.8811
82595121|NCT02258451|164903768|SUPERIORITY||Hazard Ratio (HR)|0.928||||0.6537|TWO_SIDED|95.0|0.667|1.289||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|Participants with baseline WPS \> 8 were included in the analysis population but censored at Day 1.||1.289|0.667|0.6537
82595122|NCT02258451|164903769|SUPERIORITY||Hazard Ratio (HR)|0.884||||0.4496|TWO_SIDED|95.0|0.641|1.219||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.219|0.641|0.4496
82595123|NCT02258451|164903770|SUPERIORITY||Hazard Ratio (HR)|0.874||||0.3467|TWO_SIDED|95.0|0.66|1.157||P-value was calculated using a 2-sided log-rank test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Log Rank||The hazard ratio (radium-223 dichloride / placebo) was calculated using Cox Proportional Hazards Model , stratified by the same stratification factors as randomization.|||1.157|0.660|0.3467
82595124|NCT02258451|164903771|SUPERIORITY||Risk Difference (RD)|4.1||||0.556|TWO_SIDED|95.0|-10.2|18.4||P-value was calculated using a 2-sided Cochran-Mantel-Haenszel test stratified by the same stratification factors as randomization. No alpha adjustment for multiplicity was applied.|Cochran-Mantel-Haenszel|||||18.4|-10.2|0.556
82595125|NCT03021499|164903798|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.001|TWO_SIDED|95.0|1.64|4.27|||Regression, Logistic|The model is based on a logistic regression with terms for treatment, baseline UPCR, biopsy class, MMF use at baseline and Region.||The primary endpoint was the proportion of subjects showing renal response at Week 52 as adjudicated by the Clinical Endpoints Committee.||4.27|1.64|<0.001
82595126|NCT03021499|164903799|SUPERIORITY||Hazard Ratio (HR)|2.02|||<|0.001|TWO_SIDED|95.0|1.51|2.7|||Log Rank|||||2.7|1.51|<0.001
82595127|NCT03021499|164903801|SUPERIORITY||Odds Ratio (OR)|2.23||||0.002|TWO_SIDED|95.0|1.34|3.72|||Regression, Cox||The hazard ratios are from a Cox's proportional hazards model with terms for treatment arm, baseline UPCR, biopsy class, MMF use at baseline and Region|||3.72|1.34|0.002
82595128|NCT03021499|164903802|SUPERIORITY||Odds Ratio (OR)|2.43|||<|0.001|TWO_SIDED|95.0|1.56|3.79||Week 24|Regression, Logistic||Week 24|Week 24||3.79|1.56|<0.001
82654319|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.184||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.1840
82654320|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0942||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0942
82654321|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5327||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.5327
82654322|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.8847||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8847
82654323|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.8947||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8947
82654324|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4085||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.4085
82654325|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1119||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.1119
82654326|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0250
82491583|NCT01681472|164676463|OTHER||Correlation factor|-0.38987||||0.3873|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.3873
82595129|NCT03021499|164903802|SUPERIORITY||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.45|3.51||Week 52|Regression, Logistic||Week 52|Week 52||3.51|1.45|<0.001
82595130|NCT03021499|164903803|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.349|TWO_SIDED|95.0|0.53|1.25|||Regression, Cox|||||1.25|0.53|0.349
82595131|NCT03021499|164903803|SUPERIORITY|||||||0.646|||||||Log Rank|||||||0.646
82595132|NCT03021499|164903806|SUPERIORITY||Hazard Ratio (HR)|2.05|||<|0.001|TWO_SIDED|95.0|1.62|2.6|||Log Rank|||||2.6|1.62|<0.001
82595133|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-4.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||Mixed Models Analysis|||Week 2||-1.9|-7.3|< 0.001
82595134|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-3.4|STANDARD_ERROR_OF_MEAN|1.39||0.014|TWO_SIDED|95.0|-6.1|-0.7|||Mixed Models Analysis|||Week 4||-0.7|-6.1|0.014
82595135|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-4.6|STANDARD_ERROR_OF_MEAN|1.39|<|0.001|TWO_SIDED|95.0|-7.3|-1.9|||Mixed Models Analysis|||Week 8||-1.9|-7.3|< 0.001
82595136|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-3.3|STANDARD_ERROR_OF_MEAN|1.39||0.017|TWO_SIDED|95.0|-6.0|-0.6|||Mixed Models Analysis|||Week 12||-0.6|-6|0.017
82595137|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-2.4|STANDARD_ERROR_OF_MEAN|1.4||0.085|TWO_SIDED|95.0|-5.1|0.3|||Mixed Models Analysis|||Week 16||0.3|-5.1|0.085
82595138|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.035|TWO_SIDED|95.0|-5.7|-0.2|||Mixed Models Analysis|||Week 20||-0.2|-5.7|0.035
82595139|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-2.2|STANDARD_ERROR_OF_MEAN|1.41||0.121|TWO_SIDED|95.0|-5.0|0.6|||Mixed Models Analysis|||Week 24||0.6|-5|0.121
82595140|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-2.2|STANDARD_ERROR_OF_MEAN|1.42||0.12|TWO_SIDED|95.0|-5.0|0.6|||Mixed Models Analysis|||Week 30||0.6|-5|0.12
82595141|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-2.3|STANDARD_ERROR_OF_MEAN|1.43||0.102|TWO_SIDED|95.0|-5.1|0.5|||Mixed Models Analysis|||Week 36||0.5|-5.1|0.102
82595142|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-3.3|STANDARD_ERROR_OF_MEAN|1.44||0.022|TWO_SIDED|95.0|-6.1|0.5|||Mixed Models Analysis|||Week 42||0.5|-6.1|0.022
82595143|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-4.1|STANDARD_ERROR_OF_MEAN|1.45||0.004|TWO_SIDED|95.0|-7.0|-1.3|||Mixed Models Analysis|||Week 48||-1.3|-7|0.004
82595144|NCT03021499|164903807|SUPERIORITY||Mean Difference (Least Squares)|-2.8|STANDARD_ERROR_OF_MEAN|1.46||0.055|TWO_SIDED|95.0|-5.7|0.1|||Mixed Models Analysis|||Week 52||0.1|-5.7|0.055
82595145|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-0.56|STANDARD_ERROR_OF_MEAN|0.181||0.011|TWO_SIDED|95.0|-1.0|-0.13|||Mixed Models Analysis|||Week 2||-0.13|-1|0.011
82595146|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-0.76|STANDARD_ERROR_OF_MEAN|0.187|<|0.001|TWO_SIDED|95.0|-1.13|-0.4|||Mixed Models Analysis|||Week 4||-0.4|-1.13|<0.001
82595147|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-0.7|STANDARD_ERROR_OF_MEAN|0.181|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||Mixed Models Analysis|||Week 8||-0.34|-1.05|<0.001
82595148|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-0.94|STANDARD_ERROR_OF_MEAN|0.196|<|0.001|TWO_SIDED|95.0|-1.33|-0.55|||Mixed Models Analysis|||Week 12||-0.55|-1.33|<0.001
82654327|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3569||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.3569
82491584|NCT01681472|164676463|OTHER||Correlation factor|-0.25891||||0.5358|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.5358
82491585|NCT01681472|164676463|OTHER||Correlation factor|0.777||||0.0691|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.0691
82595149|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.18|STANDARD_ERROR_OF_MEAN|0.214|<|0.001|TWO_SIDED|95.0|-1.6|-0.76|||Mixed Models Analysis|||Week 16||-0.76|-1.6|<0.001
82595150|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.16|STANDARD_ERROR_OF_MEAN|0.241|<|0.001|TWO_SIDED|95.0|-1.63|-0.68|||Mixed Models Analysis|||Week 20||-0.68|-1.63|<0.001
82595151|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.15|STANDARD_ERROR_OF_MEAN|0.222|<|0.001|TWO_SIDED|95.0|-1.59|-0.72|||Mixed Models Analysis|||Week 24||-0.72|-1.59|<0.001
82595152|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.02|STANDARD_ERROR_OF_MEAN|0.284|<|0.001|TWO_SIDED|95.0|-1.58|-0.46|||Mixed Models Analysis|||Week 30||-0.46|-1.58|<0.001
82595153|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.21|STANDARD_ERROR_OF_MEAN|0.264|<|0.001|TWO_SIDED|95.0|-1.73|-0.69|||Mixed Models Analysis|||Week 36||-0.69|-1.73|<0.001
82595154|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.37|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-1.87|-0.86|||Mixed Models Analysis|||Week 42||-0.86|-1.87|<0.001
82595155|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-1.06|STANDARD_ERROR_OF_MEAN|0.256|<|0.001|TWO_SIDED|95.0|-1.56|-0.55|||Mixed Models Analysis|||Week 48||-0.55|-1.56|<0.001
82595156|NCT03021499|164903808|SUPERIORITY||Mean Difference (Least Squares)|-0.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.52|-0.46|||Mixed Models Analysis|||Week 52||-0.46|-1.52|<0.001
82595157|NCT03021499|164903809|SUPERIORITY||Odds Ratio (OR)|2.44||||0.008|TWO_SIDED|95.0|1.26|4.71||Week 24|Regression, Logistic||Week 24|Week 24||4.71|1.26|0.008
82595158|NCT03021499|164903809|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.48|4.0||Week 52|Regression, Logistic||Week 52|Week 52||4.00|1.48|<0.001
82595159|NCT03021499|164903810|SUPERIORITY||Least Squares Mean difference|-0.5||||0.373|TWO_SIDED|95.0|-1.6|0.6||Week 24|Mixed Models Analysis||Week 24|Week 24||0.6|-1.6|0.373
82595160|NCT03021499|164903810|SUPERIORITY||Least Squares Mean difference|-0.5||||0.277|TWO_SIDED|95.0|-1.4|0.4||Week 52|Mixed Models Analysis||Week 52|Week 52||0.4|-1.4|0.277
82595161|NCT03021499|164903811|SUPERIORITY||Slope|-0.47|STANDARD_ERROR_OF_MEAN|1.389||0.733|TWO_SIDED|95.0|-3.21|2.26|||Mixed Models Analysis|||SF-36 Change from Baseline Week 24||2.26|-3.21|0.733
82595162|NCT03021499|164903811|SUPERIORITY||Mean Difference (Least Squares)|-0.37|STANDARD_ERROR_OF_MEAN|1.481||0.801|TWO_SIDED|95.0|-3.29|2.54|||Mixed Models Analysis|||SF-36 Change from Baseline at Week 52||2.54|-3.29|0.801
82595163|NCT03021499|164903811|SUPERIORITY||Mean Difference (Least Squares)|1.7|STANDARD_ERROR_OF_MEAN|1.442||0.239|TWO_SIDED|95.0|-1.14|4.54|||Mixed Models Analysis|||LupusPRO HRQOL Change from Baseline at Week 24||4.54|-1.14|0.239
82595164|NCT03021499|164903811|SUPERIORITY||Mean Difference (Least Squares)|-0.6|STANDARD_ERROR_OF_MEAN|1.535||0.695|TWO_SIDED|95.0|-3.62|2.42|||Mixed Models Analysis|||LupusPRO HRQOL Change from Baseline at Week 52||2.42|-3.62|0.695
82595165|NCT03021499|164903811|SUPERIORITY||Mean Difference (Least Squares)|-1.89|STANDARD_ERROR_OF_MEAN|1.439||0.19|TWO_SIDED|95.0|-4.72|0.94|||Mixed Models Analysis|||LupusPRO non-HRQOL Change from Baseline at Week 24||0.94|-4.72|0.19
82595166|NCT03021499|164903811|SUPERIORITY||Mean Difference (Least Squares)|0.826|STANDARD_ERROR_OF_MEAN|1.531||0.826|TWO_SIDED|95.0|-2.67|3.35|||Mixed Models Analysis|||LupusPRO non-HRQOL Change from Baseline at Week 52||3.35|-2.67|0.826
82595167|NCT01757678|164903852|OTHER||Difference in Probability|0.14|||||TWO_SIDED|95.0|0.09|0.19||||||||.19|.09|
82595168|NCT01757678|164903853|OTHER||Difference in Probability|0.09|||||TWO_SIDED|95.0|0.04|0.14||||||||.14|.04|
82595169|NCT01146873|164903861|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis is that efavirenz is inferior to ritonavir-boosted lopinavir.|Risk Difference (RD)|0.107|||<|0.001|TWO_SIDED||||||Kaplan-Meier methods|||||||<0.001
82595170|NCT01146873|164903862|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis is that efavirenz is inferior to ritonavir-boosted lopinavir.|Risk Difference (RD)|-0.007|||<|0.001|TWO_SIDED||||||Kaplan-Meier methods|||||||<0.001
82595171|NCT01146873|164903863|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82595172|NCT01146873|164903865|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||Chi-squared|||||||0.003
82595173|NCT04677959|164903898|OTHER||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0||||||||The 95% credible intervals of the odds ratio from the posterior distributions were calculated and presented.||||
82595174|NCT01074190|164903926|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||.34
82595175|NCT01074190|164903927|SUPERIORITY|||||||0.1|||||||Chi-squared|||||||.1
82595176|NCT01074190|164903928|SUPERIORITY|||||||0.1|||||||Chi-squared|||A sample size of 315 achieves 80% power to detect a difference among groups using a 2 degrees of freedom Chi-Square Test with a significance level (alpha) of 0.05.||||.1
82595177|NCT01500278|164903931|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|||=|0.467|TWO_SIDED|95.0|0.67|1.2||The odds ratio, CI, and p-value are from a logistic regression model with RTG, gender, Baseline duration of RA (\<2 years or \>=2 years), and geographic region as factors and age as a covariate.|Regression, Logistic|||||1.20|0.67|=0.467
82595178|NCT01500278|164903932|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|||=|0.532|TWO_SIDED|95.0|0.82|1.45||The odds ratio, CI and p-value are from a logistic regression model with RTG, gender, Baseline duration of RA (\<2 years or \>=2 years), and geographic region as factors and Baseline DAS28(ESR) and age as covariates.|Regression, Logistic|||||1.45|0.82|=0.532
82595179|NCT02459795|164903940|EQUIVALENCE|provides 85% power of success|Equivalence ratio|1.0|||||TWO_SIDED|90.0|-7.0|12.92|||Yates correction|||||12.92|-7.00|
82595180|NCT02409290|164903954|SUPERIORITY||Cox Proportional Hazard|0.2||||0.0016|TWO_SIDED|95.0|0.07|0.61|||Log Rank|||||0.61|0.07|0.0016
82595181|NCT02409290|164903955|SUPERIORITY||Cox Proportional Hazard|0.11||||0.0005|TWO_SIDED|95.0|0.03|0.5|||Log Rank|||Control regimen (arm B) uses concurrent controls only||0.50|0.03|0.0005
82595182|NCT01947816|164903976|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 24||||< 0.0001
82595183|NCT01947816|164903976|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 52||||< 0.0001
82595184|NCT01947816|164903976|SUPERIORITY|||||||0.5512|||||||paired t-test|||Change from Baseline When Discontinued||||0.5512
82595185|NCT01947816|164903976|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Final Assessment||||< 0.0001
82595186|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 4||||< 0.0001
82595187|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 8||||< 0.0001
82595188|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 16||||< 0.0001
82595189|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 24||||< 0.0001
82595190|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Week 52||||< 0.0001
82595191|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline when discontinued||||< 0.0001
82595192|NCT01947816|164903978|SUPERIORITY||||||<|0.0001|||||||paired t-test|||Change from Baseline at Final Assessment||||< 0.0001
82595193|NCT00135668|164904001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.2|STANDARD_DEVIATION|16.16|<|0.001|TWO_SIDED|95.0|-18.44|-13.97|||t-test, 2 sided|Paired t-test used.||Paired t-test used to test the null hypothesis of no change in MAP from baseline.||-13.97|-18.44|<0.001
82595194|NCT00135668|164904001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.0|STANDARD_DEVIATION|15.68|<|0.001|TWO_SIDED|95.0|-15.45|-6.55|||t-test, 2 sided|Paired t-test.||||-6.55|-15.45|<0.001
82595195|NCT00135668|164904001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.0|STANDARD_DEVIATION|12.88|<|0.001|TWO_SIDED|95.0|-20.7|-13.3|||t-test, 2 sided|Paired t-test.||||-13.30|-20.70|<0.001
82595196|NCT00135668|164904001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-20.0|STANDARD_DEVIATION|15.95|<|0.001|TWO_SIDED|95.0|-24.38|-15.58|||t-test, 2 sided|Paired t-test.||||-15.58|-24.38|<0.001
82595197|NCT00135668|164904001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.6|STANDARD_DEVIATION|18.63|<|0.001|TWO_SIDED|95.0|-21.87|-11.39|||t-test, 2 sided|Paired t-test||||-11.39|-21.87|<0.001
82595198|NCT02424253|164904012|SUPERIORITY||LS Difference|-0.35|||=|0.249|TWO_SIDED|90.0|-1.21|0.51||1-sided p-value.|ANCOVA|The ANCOVA model included baseline value and treatment.||Change from baseline||0.51|-1.21|= 0.249
82595199|NCT02424253|164904013|SUPERIORITY||LS Difference|-5.06|||=|0.01|TWO_SIDED|90.0|-8.66|-1.46||1-sided p-value.|ANCOVA|The ANCOVA model included baseline EASI, stratification variable (worst daily pruritus NRS ≤ 7.5 or \> 7.5) and treatment.||Change from baseline analysis||-1.46|-8.66|= 0.01
82595200|NCT03998046|164904014|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||.85
82595201|NCT03998046|164904016|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||.20
82595202|NCT03998046|164904017|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||.38
82595203|NCT03998046|164904018|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.02
82595204|NCT03998046|164904019|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||.01
82595205|NCT03998046|164904020|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||.13
82595206|NCT03998046|164904021|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|||||||.61
82595207|NCT03998046|164904022|SUPERIORITY|||||||0.56|||||||Chi-squared|||||||.56
82595208|NCT02290873|164904023|SUPERIORITY||Difference in Rates|0.8961|||<|0.0001|TWO_SIDED|95.0|0.8505|0.9416||P-value calculated from a Cochran-Mantel-Haenszel test accounting for fentanyl strata.|Cochran-Mantel-Haenszel|||||0.9416|0.8505|<0.0001
82595209|NCT02290873|164904024|SUPERIORITY||Hazard Ratio (HR)|6.133|||<|0.0001|TWO_SIDED|95.0|4.416|8.517|||Log Rank|||||8.517|4.416|<0.0001
82595210|NCT01445951|164904065|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority with 0.4 margin|Mean Difference (Net)|0.19|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|95.0|0.02|0.36||||||MMRM (mixed model repeated measures) model with auto-regression (1): HbA1c = Baseline HbA1c + region + basal insulin stratum + visit + treatment + (visit\*treatment)||0.36|0.02|
82595211|NCT01445951|164904066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.016|||TWO_SIDED|95.0|-0.02|0.04|||||Mixed Model Repeated Measure (MMRM): FEV1 = Baseline FEV1 + Age + Gender + Race + Baseline Height + Visit + Treatment + (Visit\*Treatment)|||0.04|-0.02|
82595212|NCT01445951|164904067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.42|STANDARD_ERROR_OF_MEAN|10.622|||TWO_SIDED|95.0|-56.25|-14.59|||||MMRM: FPG = Baseline FPG + Region + Basal insulin stratum + Visit + Treatment + (Visit\*Treatment)|||-14.59|-56.25|
82595213|NCT01445951|164904070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|STANDARD_ERROR_OF_MEAN|0.512||0.0102|TWO_SIDED|95.0|-2.33|-0.31|||ANCOVA|ANCOVA: Weight change from baseline = Baseline weight + Change from baseline in HbA1c + Region + Basal insulin stratum + Treatment|ANCOVA: Weight change from baseline = Baseline weight + Change from baseline in HbA1c + Region + Basal insulin stratum + Treatment|||-0.31|-2.33|0.0102
82595214|NCT01445951|164904070|SUPERIORITY_OR_OTHER|||||||0.4955|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.4955
82595215|NCT01445951|164904070|SUPERIORITY_OR_OTHER|||||||0.6807|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.6807
82595216|NCT01445951|164904070|SUPERIORITY_OR_OTHER|||||||0.0079|||||||t-test, 2 sided|||Within treatment analysis of change from Baseline comparing if change was different from zero||||0.0079
82595217|NCT01445951|164904072|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5328||||0.0156|TWO_SIDED|95.0|0.3198|0.8877|||Regression, Logistic|Logistic model with affects for Region, Basal insulin stratum, and Treatment||||0.8877|0.3198|0.0156
82595218|NCT01445951|164904073|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Negative Binomial Regression|Model: Region + Basal Insulin Stratum + Treatment + Exposure Time||||||<0.0001
82595219|NCT01445951|164904074|SUPERIORITY_OR_OTHER|||||||0.1022|||||||Negative Binomial Regression|Model: Region + Basal Insulin Stratum + Treatment + Exposure Time||||||0.1022
82595220|NCT01445951|164904075|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.449||||0.0158|TWO_SIDED|95.0|0.23|0.86|||Regression, Logistic|Model: Treatment + Basal insulin stratum + Region + Baseline HbA1c|Gen2 in the numerator, Aspart in the denominator|||0.86|0.23|0.0158
82595221|NCT01519765|164904084|SUPERIORITY_OR_OTHER|||||||0.1611|||||||Fisher Exact|||A consecutive sample will be used as women are recruited. Based on an 80% power and an alpha of 0.05, a sample size of 103 subjects in each arm is required to detect a 20% difference between deliveries within 24hrs between the two treatment arms. An effect size of 20% was selected as this is thought to be a clinically significant difference. This is based on the Wing study showing 50% delivery within 24 hrs with vaginal misoprostol.||||0.1611
82595222|NCT01519765|164904085|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||t-test, 2 sided|||||||0.018
82595223|NCT01519765|164904086|SUPERIORITY_OR_OTHER|||||||0.0623|||||||Kruskal-Wallis|||||||0.0623
82654328|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4103||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.4103
82491586|NCT01681472|164676463|OTHER||Correlation factor|0.00322||||0.994|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC3 gene expression||||0.9940
82595224|NCT01519765|164904087|SUPERIORITY_OR_OTHER|||||||0.1141|TWO_SIDED||||||Kruskal-Wallis|||||||0.1141
82595225|NCT01519765|164904088|SUPERIORITY_OR_OTHER|||||||0.4469|TWO_SIDED||||||Fisher Exact|||||||0.4469
82595226|NCT01519765|164904089|SUPERIORITY_OR_OTHER|||||||0.4469|TWO_SIDED||||||Fisher Exact|||||||0.4469
82595227|NCT01519765|164904090|SUPERIORITY_OR_OTHER|||||||0.093|TWO_SIDED||||||Kruskal-Wallis|||||||0.093
82595228|NCT01519765|164904091|SUPERIORITY_OR_OTHER|||||||0.2417|TWO_SIDED||||||Fisher Exact|||||||0.2417
82595229|NCT01519765|164904092|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
82595230|NCT01519765|164904093|SUPERIORITY_OR_OTHER|||||||0.1054|TWO_SIDED||||||Fisher Exact|||||||0.1054
82595231|NCT01519765|164904094|SUPERIORITY_OR_OTHER|||||||0.8043|TWO_SIDED||||||Fisher Exact|||||||0.8043
82595232|NCT01519765|164904095|SUPERIORITY_OR_OTHER|||||||0.797|TWO_SIDED||||||Fisher Exact|||||||0.797
82595233|NCT01519765|164904096|SUPERIORITY_OR_OTHER|||||||0.751|||||||Fisher Exact|||||||0.751
82595234|NCT01519765|164904097|SUPERIORITY_OR_OTHER|||||||0.6244|TWO_SIDED||||||Fisher Exact|||||||0.6244
82595235|NCT01519765|164904098|SUPERIORITY_OR_OTHER|||||||0.7906|TWO_SIDED||||||Fisher Exact|||||||0.7906
82595236|NCT01519765|164904099|SUPERIORITY_OR_OTHER|||||||0.5118|TWO_SIDED||||||Fisher Exact|||||||0.5118
82595237|NCT01519765|164904100|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Fisher Exact|||||||1
82595238|NCT01519765|164904101|SUPERIORITY_OR_OTHER|||||||0.741|TWO_SIDED||||||Fisher Exact|||||||0.741
82595239|NCT01519765|164904102|SUPERIORITY_OR_OTHER|||||||0.579|TWO_SIDED||||||Kruskal-Wallis|||||||0.579
82595240|NCT01519765|164904103|SUPERIORITY_OR_OTHER|||||||0.8062|||||||Kruskal-Wallis|||Score for Nausea and vomiting||||.8062
82595241|NCT01519765|164904103|SUPERIORITY_OR_OTHER|||||||0.1505|||||||Kruskal-Wallis|||Effectiveness||||0.1505
82595242|NCT01519765|164904103|SUPERIORITY_OR_OTHER|||||||0.1223|||||||Kruskal-Wallis|||Patient concern||||0.1223
82595243|NCT01519765|164904103|SUPERIORITY_OR_OTHER|||||||0.538||||||Patient satisfaction|Kruskal-Wallis|||Labor satisfaction||||0.5380
82595244|NCT01519765|164904104|SUPERIORITY_OR_OTHER|||||||0.2868||||||This is the overall p value of all rows.|Chi-squared|||||||0.2868
82595245|NCT00078325|164904105|SUPERIORITY_OR_OTHER|||||||0.0001|||||||ANOVA|Treatment and country as factors.||||||0.0001
82595246|NCT00078325|164904105|SUPERIORITY_OR_OTHER|||||||0.0008|||||||ANOVA|Treatment and country as factors.||||||0.0008
82595247|NCT00078325|164904106|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Adjusted for country.||||||<0.0001
82595248|NCT00078325|164904106|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Adjusted for country.||||||<0.0001
82595249|NCT02354222|164904117|SUPERIORITY||Least Squares Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.11|<|0.001|TWO_SIDED|95.0|-1.16|-0.72|||ANCOVA|||||-0.72|-1.16|<0.001
82595250|NCT02354222|164904118|SUPERIORITY||Least Squares Mean Difference|-15.6|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-23.3|-7.9|||ANCOVA|||||-7.9|-23.3|<0.001
82595251|NCT02354222|164904119|SUPERIORITY||Least Squares Mean Difference|1.43|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|0.63|2.23|||ANCOVA|||||2.23|0.63|<0.001
82595252|NCT02354222|164904120|SUPERIORITY||Least Squares Mean Difference|-55.9|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-74.1|-37.6|||ANCOVA|||||-37.6|-74.1|<0.001
82595253|NCT02354222|164904121|SUPERIORITY||Least Squares Mean Difference|-37.6|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-49.9|-25.2|||ANCOVA|||||-25.2|-49.9|<0.001
82595254|NCT00578136|164904139|SUPERIORITY_OR_OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|The Wilcoxon rank-sum test was used because the study did not have a normal distribution using the Kolmogorov-Smirnov test (p\<0.01).||Assuming the opioid requirement in the local infiltration group to be 0.2mg kg-1 and in the rectus sheath block group to be 0.1mg kg-1, a sample size of 44 patients (22 in each group) will have a power of 80% to detect a difference in means of 0.1mg kg-1 with a 0.005 two-sided significance level.||||0.008
82595255|NCT01699542|164904141|SUPERIORITY|||||||0.159|||||||Generalized Linear Model|||||||0.159
82595256|NCT02822885|164904190|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82595257|NCT02822885|164904191|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82595258|NCT02822885|164904192|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82595259|NCT02822885|164904193|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82595260|NCT02822885|164904194|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82595261|NCT00533442|164904216|SUPERIORITY|||||||0.01|||||||Log Rank|||Biopsy-Proven Acute Rejection of the Kidney (logrank test).||||0.01
82595262|NCT00533442|164904216|SUPERIORITY|||||||0.01|||||||Log Rank|||Biopsy-Proven Acute Rejection of the Pancreas (logrank test).||||0.01
82654329|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.149||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.1490
82654330|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.559||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.5590
82654331|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4796||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.4796
82491587|NCT01681472|164676463|OTHER||Correlation factor|0.93711||||0.0018|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.0018
82595263|NCT00533442|164904216|SUPERIORITY|||||||0.16|||||||Log Rank|||Death-Censored Kidney Graft Failure (logrank test).||||0.16
82595264|NCT00533442|164904216|SUPERIORITY|||||||0.12|||||||Log Rank|||Death-Censored Pancreas Graft Failure (logrank test).||||0.12
82595265|NCT00533442|164904216|SUPERIORITY|||||||0.96|||||||Log Rank|||Death-Uncensored (Kidney \& Pancreas) Graft Survival (logrank test).||||0.96
82595266|NCT00533442|164904216|SUPERIORITY||||||>|0.99||||||Patient Death (logrank test).|Log Rank|||||||>0.99
82595267|NCT00533442|164904217|SUPERIORITY|||||||0.21|||||||t-test, 2 sided|||Comparison of Mean eGFR at 12 Months Post-Transplant (t-test).||||0.21
82595268|NCT00533442|164904217|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Comparison of Mean eGFR at 36 Months Post-Transplant (t-test).||||0.71
82595269|NCT00533442|164904217|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||Comparison of Mean eGFR at 60 Months Post-Transplant (t-test).||||0.33
82595270|NCT00533442|164904218|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 12 Months Post-Transplant (t-test).||||.47
82595271|NCT00533442|164904218|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 36 Months Post-Transplant (t-test).||||0.97
82595272|NCT00533442|164904218|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Comparison of Mean Log {C-Peptide Level} at 60 Months Post-Transplant (t-test).||||0.75
82595273|NCT00609791|164904259|SUPERIORITY||Slope|0.011|STANDARD_ERROR_OF_MEAN|0.0057||0.055|TWO_SIDED||||||Regression, Linear|||Linear regression of ln AUC24 on age in years||||0.055
82595274|NCT00609791|164904259|SUPERIORITY||Slope|1.17|STANDARD_ERROR_OF_MEAN|0.45||0.013|TWO_SIDED||||||Regression, Linear|||Linear regression of ln AUC24 on chemotherapy toxicity risk score||||0.013
82595275|NCT00609791|164904260|SUPERIORITY||Slope|-0.0074|STANDARD_ERROR_OF_MEAN|0.0063||0.25|TWO_SIDED||||||Regression, Linear|||Linear regression of ln CL on age in years||||0.25
82595276|NCT00609791|164904260|SUPERIORITY||Slope|-0.96|STANDARD_ERROR_OF_MEAN|0.44||0.04|TWO_SIDED||||||Regression, Linear|||Linear regression of ln CL versus chemotherapy toxicity risk score||||0.04
82595277|NCT00609791|164904261|OTHER|||||||0.041|||||||Fisher Exact|||||||0.041
82595278|NCT00609791|164904264|SUPERIORITY||Mean Difference (Final Values)|-4.89||||0.38|TWO_SIDED|95.0|-16.5|6.7|||t-test, 2 sided|||Difference in age based on whether there was need for a dose reduction.||6.7|-16.5|.38
82595279|NCT00609791|164904264|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.76|TWO_SIDED|95.0|-0.33|0.44|||t-test, 2 sided|||Difference in AUC24 based on the need of a dose reduction.||0.44|-0.33|0.76
82595280|NCT00609791|164904264|SUPERIORITY||Mean Difference (Final Values)|-0.063||||0.75|TWO_SIDED|95.0|-0.49|0.36|||t-test, 2 sided|||Difference in clearance based on whether there was a need for dose reduction.||0.36|-0.49|0.75
82654332|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2794||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.2794
82654333|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1646||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.1646
82654334|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0782||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0782
82595281|NCT00609791|164904265|SUPERIORITY||Mean Difference (Final Values)|5.81||||0.15|TWO_SIDED|95.0|-2.3|13.9|||t-test, 2 sided|||Difference in age based on whether there was need for a dose omission.||13.9|-2.3|0.15
82595282|NCT00609791|164904265|SUPERIORITY||Mean Difference (Final Values)|-0.079||||0.61|TWO_SIDED|95.0|-0.39|0.23|||t-test, 2 sided|||Difference in AUC24 based on whether there was need for a dose omission.||0.23|-0.39|0.61
82595283|NCT00609791|164904265|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.51|TWO_SIDED|95.0|-0.22|0.42|||t-test, 2 sided|||Difference in clearance based on whether there was a need for a dose omission.||0.42|-0.22|0.51
82595284|NCT00609791|164904266|SUPERIORITY||Mean Difference (Final Values)|1.68||||0.75|TWO_SIDED|95.0|-9.3|12.7|||t-test, 2 sided|||Difference in age based on whether a participant experienced grade 3 toxicity.||12.7|-9.3|0.75
82595285|NCT00609791|164904266|SUPERIORITY||Mean Difference (Final Values)|0.34||||0.13|TWO_SIDED|95.0|-0.12|0.81|||t-test, 2 sided|||Difference in AUC based on whether a participant experienced grade 3 toxicity.||0.81|-0.12|0.13
82595286|NCT00609791|164904266|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.34|TWO_SIDED|95.0|-0.67|0.25|||t-test, 2 sided|||Difference in clearance based on whether a participant experienced grade 3 toxicity.||0.25|-0.67|0.34
82595287|NCT04649255|164904305|OTHER||Exact binomial|96.4|||<|0.025|TWO_SIDED|95.0|96.4|100.0|||One-sided exact binomial test|Exact binomial one-sided lower 97.5% CI for performance goal test \>72% for primary effectiveness and \>82% for primary safety.||Descriptive assessment; H0: Ps ≤ PGS, versus HA: PS \> PGS, where where Ps is the population primary safety success rate in the Test group and PGS is the safety performance goal of 82%.||100|96.4|<0.025
82595288|NCT04649255|164904306|OTHER||Exact binomial|89.1|||<|0.025|TWO_SIDED|95.0|89.1|97.5|||One-sided exact binomial test|Exact binomial one-sided lower 97.5% CI for performance goal test \>72% for primary effectiveness and \>82% for primary safety.||Descriptive assessment; H0: PE ≤ PGE, versus HA: PE \> PGE, where PE is the proportion of target lesions with clinical success and PGE is the effectiveness performance goal of 72%.||97.5|89.1|<0.025
82595289|NCT02484911|164904307|SUPERIORITY_OR_OTHER|||||||0.397|||||||Chi-squared|||||||0.397
82595290|NCT02484911|164904308|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
82595291|NCT02484911|164904310|SUPERIORITY_OR_OTHER|||||||0.397|||||||Chi-squared|||||||0.397
82595292|NCT02484911|164904311|SUPERIORITY_OR_OTHER|||||||0.02|||||||Chi-squared|||||||0.02
82654335|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1407||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.1407
82595293|NCT02484911|164904312|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
82595294|NCT02484911|164904313|SUPERIORITY_OR_OTHER|||||||0.005|||||||Chi-squared|||||||0.005
82595295|NCT02484911|164904315|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
82595296|NCT02484911|164904316|SUPERIORITY_OR_OTHER|||||||0.283|||||||Chi-squared|||||||0.283
82595297|NCT02484911|164904317|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.0
82595298|NCT02484911|164904318|SUPERIORITY_OR_OTHER|||||||0.246|||||||Chi-squared|||||||0.246
82595299|NCT00105443|164904344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6931||||0.00583||95.0|0.5549|0.8658||According to the pre-specified O'Brien-Fleming alpha spending function, the alpha value for this second interim analysis was 0.0073 (corresponding to a nominal value of 0.0077 after taking into account the first interim analysis).|Log Rank||This is the sorafenib to placebo hazard ratio.|"The 2 arms were compared using a 1-sided log-rank test with an overall alpha of 0.02 stratified by region, ECOG PS and tumor burden. In addition to the final analysis at the end of the study, 2 formal interim analyses of overall survival were planned. An alpha spending function was used to ensure that the false positive rate is less than or equal to 0.02 (1-sided). The study was stopped at the second interim analysis, the results of which are reported here."||0.8658|0.5549|0.00583
82595300|NCT00105443|164904345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0764||||0.7676||95.0|0.8837|1.311|||Log Rank||This is the sorafenib to placebo hazard ratio.|"The 2 arms were compared using a 1-sided log-rank test with an overall alpha of 0.005 stratified by region, ECOG PS and tumor burden. This was a co-primary endpoint with overall survival. No alpha-spending adjustments were necessary as it was only to be analyzed at the end of study."||1.3110|0.8837|0.7676
82595301|NCT00105443|164904346|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5764||||7e-06||95.0|0.4484|0.741|||Log Rank||This is the sorafenib to placebo hazard ratio.|"In the analysis of TTP, based on independent radiological review performed to review data up to 12 May 2006, the 2 treatment groups were compared using a 1-sided log rank test with an alpha of 0.025, stratified by region, ECOG PS, and tumor burden."||0.7410|0.4484|0.000007
82595302|NCT00105443|164904347|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-11.95||||0.001641||95.0|-19.56|-4.35|||Cochran-Mantel-Haenszel||Sorafenib minus placebo difference|"Disease control rates were compared between treatment groups using the Cochran Mantel Haenszel (CMH) test with a 1-sided alpha of 0.025, adjusting for region, ECOG PS, and tumor burden."||-4.35|-19.56|0.001641
82595303|NCT01157078|164904354|SUPERIORITY_OR_OTHER||LS mean|-1.0|STANDARD_ERROR_OF_MEAN|1.08||0.349|TWO_SIDED|95.0|-3.14|1.11||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-3.14|0.349
82595304|NCT01157078|164904355|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.29||0.444|TWO_SIDED|95.0|0.75|1.92|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.92|0.75|0.444
82654336|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2369||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.2369
82595305|NCT01157078|164904356|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52|STANDARD_ERROR_OF_MEAN|0.42||0.13|TWO_SIDED|95.0|0.88|2.61|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.61|0.88|0.130
82595306|NCT01157078|164904357|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.75|STANDARD_ERROR_OF_MEAN|0.96||0.307|TWO_SIDED|95.0|0.6|5.14|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||5.14|0.60|0.307
82595307|NCT01157078|164904358|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.52||0.313|TWO_SIDED|95.0|0.71|2.94|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.94|0.71|0.313
82595308|NCT01157078|164904359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.77|STANDARD_ERROR_OF_MEAN|0.79||0.201|TWO_SIDED|95.0|0.74|4.24|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||4.24|0.74|0.201
82595309|NCT01157078|164904360|SUPERIORITY_OR_OTHER||LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.82||0.552|TWO_SIDED|95.0|-2.1|1.12|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.12|-2.10|0.552
82595310|NCT01157078|164904361|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.803||95.0|-0.31|0.24|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.24|-0.31|0.803
82595311|NCT01157078|164904362|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|STANDARD_ERROR_OF_MEAN|0.28||0.44|TWO_SIDED|95.0|0.75|1.91|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.91|0.75|0.440
82595312|NCT01157078|164904363|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.55||0.768|TWO_SIDED|95.0|-0.91|1.23||Analysis for change in MADRS total score from randomization to Week 9.|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.23|-0.91|0.768
82595313|NCT01157078|164904364|SUPERIORITY_OR_OTHER||LS mean|0.7|STANDARD_ERROR_OF_MEAN|0.78||0.373|TWO_SIDED|95.0|-0.84|2.24|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.24|-0.84|0.373
82595314|NCT01157078|164904365|SUPERIORITY_OR_OTHER||LS mean|-0.7|STANDARD_ERROR_OF_MEAN|0.9||0.435|TWO_SIDED|95.0|-2.47|1.07|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.07|-2.47|0.435
82595315|NCT01157078|164904366|SUPERIORITY_OR_OTHER||LS mean|-0.7|STANDARD_ERROR_OF_MEAN|0.97||0.501|TWO_SIDED|95.0|-2.56|1.25|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||1.25|-2.56|0.501
82595316|NCT01157078|164904367|SUPERIORITY_OR_OTHER||LS mean|-0.62|STANDARD_ERROR_OF_MEAN|0.771||0.424|TWO_SIDED|95.0|-2.134|0.901||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.901|-2.134|0.424
82595317|NCT01157078|164904368|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.3||0.214|TWO_SIDED|95.0|-0.96|0.22||Analysis for change in SDS work/school domain score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.22|-0.96|0.214
82595318|NCT01157078|164904369|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.931|TWO_SIDED|95.0|-0.59|0.54|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.54|-0.59|0.931
82595319|NCT01157078|164904370|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.755|TWO_SIDED|95.0|-0.6|0.44|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.44|-0.60|0.755
82595320|NCT01157078|164904371|SUPERIORITY_OR_OTHER||LS mean|0.82|STANDARD_ERROR_OF_MEAN|1.789||0.646|TWO_SIDED|95.0|-2.699|4.346|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||4.346|-2.699|0.646
82595321|NCT01157078|164904372|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.12||0.446|TWO_SIDED|95.0|-0.31|0.14|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.14|-0.31|0.446
82654337|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.7756||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.7756
82595322|NCT01157078|164904373|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.178|TWO_SIDED|95.0|-0.06|0.33|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.33|-0.06|0.178
82595323|NCT01157078|164904374|SUPERIORITY_OR_OTHER||LS Mean|-1.1|STANDARD_ERROR_OF_MEAN|1.61||0.515|TWO_SIDED|95.0|-4.22|2.12|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.12|-4.22|0.515
82595324|NCT01157078|164904375|SUPERIORITY_OR_OTHER||LS mean|0.024|STANDARD_ERROR_OF_MEAN|0.0226||0.298|TWO_SIDED|95.0|-0.0209|0.068||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0680|-0.0209|0.298
82595325|NCT01157078|164904375|SUPERIORITY_OR_OTHER||LS mean|1.6|STANDARD_ERROR_OF_MEAN|2.34||0.484|TWO_SIDED|95.0|-2.98|6.26||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||6.26|-2.98|0.484
82595326|NCT01324232|164904384|SUPERIORITY||Pearson correlation|0.0019|||=|0.9827|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between the change from Baseline PRS scores and the DM plasma concentration was equal to zero and was tested using a 2-sided test at the 5% level of significance within active treatment groups. The regression line was fitted using change from baseline in average PRS during Day 57-84 as the dependent variable and the average of log-transformed DM Plasma Concentration at Day 22 and Day 50 as the independent variable.||||= 0.9827
82595327|NCT01324232|164904386|SUPERIORITY||||||=|0.8869|||||||ANCOVA|||Test of dose trend (overall P value)||||=0.8869
82595328|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.46|=|0.9381|TWO_SIDED|95.0|-0.94|0.87|||ANCOVA|||Pairwise treatment group vs placebo||0.87|-0.94|=0.9381
82595329|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.46|=|0.4128|TWO_SIDED|95.0|-1.28|0.53|||ANCOVA|||Pairwise treatment group vs placebo||0.53|-1.28|=0.4128
82595330|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.461|=|0.9427|TWO_SIDED|95.0|-0.88|0.94|||ANCOVA|||Pairwise treatment group vs placebo||0.94|-0.88|=0.9427
82595331|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|-0.21|STANDARD_ERROR_OF_MEAN|0.401|=|0.6075|TWO_SIDED|95.0|-1.0|0.58|||ANCOVA|||Pairwise treatment group vs placebo||0.58|-1.0|=0.6075
82595332|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.402|=|0.669|TWO_SIDED|95.0|-0.96|0.62|||ANCOVA|||Pairwise treatment group vs placebo||0.62|-0.96|=0.6690
82654338|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2623||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.2623
82654339|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3147||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.3147
82595333|NCT01324232|164904386|SUPERIORITY||Adjusted mean difference|-0.13|STANDARD_ERROR_OF_MEAN|0.38|=|0.7394|TWO_SIDED|95.0|-0.88|0.62|||ANCOVA|||Pairwise treatment group vs placebo||0.62|-0.88|=0.7394
82595334|NCT01324232|164904387|SUPERIORITY||||||=|0.9731|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.9731
82595335|NCT01324232|164904387|SUPERIORITY||Mean difference (final values)|1.32|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-3.46|6.09||||||||6.09|-3.46|
82595336|NCT01324232|164904387|SUPERIORITY||Mean difference (final values)|-3.0|STANDARD_ERROR_OF_MEAN|2.394|||TWO_SIDED|95.0|-7.72|1.72||||||||1.72|-7.72|
82595337|NCT01324232|164904387|SUPERIORITY||Mean difference (final values)|1.2|STANDARD_ERROR_OF_MEAN|2.408|||TWO_SIDED|95.0|-3.54|5.95||||||||5.95|-3.54|
82595338|NCT01324232|164904389|SUPERIORITY||||||=|0.4778||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.||||=0.4778
82595339|NCT01324232|164904389|SUPERIORITY||Adjusted mean difference|0.49|STANDARD_ERROR_OF_MEAN|3.676|||TWO_SIDED|95.0|-6.76|7.74||||||||7.74|-6.76|
82595340|NCT01324232|164904389|SUPERIORITY||Adjusted mean difference|-1.67|STANDARD_ERROR_OF_MEAN|3.663|||TWO_SIDED|95.0|-8.89|5.56||||||||5.56|-8.89|
82595341|NCT01324232|164904389|SUPERIORITY||Adjusted mean difference|3.43|STANDARD_ERROR_OF_MEAN|3.681|||TWO_SIDED|95.0|-3.83|10.68||||||||10.68|-3.83|
82595342|NCT01324232|164904390|SUPERIORITY||||||=|0.0685|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.0685
82595343|NCT01324232|164904390|SUPERIORITY||Mean difference (final values)|-0.51|STANDARD_ERROR_OF_MEAN|0.68|||TWO_SIDED|95.0|-1.85|0.83||||||||0.83|-1.85|
82595344|NCT01324232|164904390|SUPERIORITY||Mean difference (final values)|-0.85|STANDARD_ERROR_OF_MEAN|0.677|||TWO_SIDED|95.0|-2.19|0.48||||||||0.48|-2.19|
82595345|NCT01324232|164904390|SUPERIORITY||Mean difference (final values)|-1.2|STANDARD_ERROR_OF_MEAN|0.681|||TWO_SIDED|95.0|-2.54|0.15||||||||0.15|-2.54|
82595346|NCT01324232|164904391|SUPERIORITY||||||=|0.4201|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.4201
82595347|NCT01324232|164904391|SUPERIORITY||Adjusted mean difference|-0.49|STANDARD_ERROR_OF_MEAN|1.473|||TWO_SIDED|95.0|-3.4|2.41||||||||2.41|-3.40|
82595348|NCT01324232|164904391|SUPERIORITY||Adjusted mean difference|-0.9|STANDARD_ERROR_OF_MEAN|1.454|||TWO_SIDED|95.0|-3.76|1.97||||||||1.97|-3.76|
82595349|NCT01324232|164904391|SUPERIORITY||Adjusted mean difference|1.46|STANDARD_ERROR_OF_MEAN|1.46|||TWO_SIDED|95.0|-1.42|4.34||||||||4.34|-1.42|
82595350|NCT01324232|164904392|SUPERIORITY||||||=|0.8068||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.||||=0.8068
82595351|NCT01324232|164904392|SUPERIORITY||Adjusted mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.205|||TWO_SIDED|95.0|-3.47|1.28||||||||1.28|-3.47|
82595352|NCT01324232|164904392|SUPERIORITY||Adjusted mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.0|-2.99|1.74||||||||1.74|-2.99|
82595353|NCT01324232|164904392|SUPERIORITY||Adjusted mean difference|0.31|STANDARD_ERROR_OF_MEAN|1.207|||TWO_SIDED|95.0|-2.07|2.69||||||||2.69|-2.07|
82654340|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2885||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.2885
82595354|NCT01324232|164904393|SUPERIORITY||||||=|0.6315||||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect. Oral responses.|ANCOVA|||||||=0.6315
82595355|NCT01324232|164904393|SUPERIORITY||Adjusted mean difference|2.37|STANDARD_ERROR_OF_MEAN|2.772|||TWO_SIDED|95.0|-3.19|7.93||||||||7.93|-3.19|
82595356|NCT01324232|164904393|SUPERIORITY||Adjusted mean difference|1.31|STANDARD_ERROR_OF_MEAN|2.562|||TWO_SIDED|95.0|-3.83|6.45||||||||6.45|-3.83|
82595357|NCT01324232|164904393|SUPERIORITY||Adjusted mean difference|1.46|STANDARD_ERROR_OF_MEAN|2.728|||TWO_SIDED|95.0|-4.01|6.94||||||||6.94|-4.01|
82595358|NCT01324232|164904393|SUPERIORITY||||||=|0.1485|TWO_SIDED|||||P-value presented tests the hypothesis for overall treatment effect versus no treatment effect. Written responses.|ANCOVA|||||||=0.1485
82654341|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.7187||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.7187
82595359|NCT01324232|164904393|SUPERIORITY||Mean difference (final values)|1.77|STANDARD_ERROR_OF_MEAN|1.558|||TWO_SIDED|95.0|-1.31|4.85||||||||4.85|-1.31|
82595360|NCT01324232|164904393|SUPERIORITY||Mean difference (final values)|-1.68|STANDARD_ERROR_OF_MEAN|1.605|||TWO_SIDED|95.0|-4.86|1.49||||||||1.49|-4.86|
82595361|NCT01324232|164904393|SUPERIORITY||Mean difference (final values)|-1.65|STANDARD_ERROR_OF_MEAN|1.549|||TWO_SIDED|95.0|-4.71|1.41||||||||1.41|-4.71|
82595362|NCT01324232|164904394|SUPERIORITY||||||=|0.1404|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis is that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 158 of the 209 participants in the mITT Population were analyzed at Day 22.||||=0.1404
82595363|NCT01324232|164904394|SUPERIORITY||||||=|0.0805|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 152 of the 209 participants in the mITT Population were analyzed at Day 50.||||=0.0805
82595364|NCT01324232|164904394|SUPERIORITY||||||=|0.0551|TWO_SIDED||||||t-test, 2 sided|||The null hypothesis that the true correlation between NRS scores and DM plasma concentration is equal to zero. Only 185 of the 209 participants in the mITT Population were analyzed at Day 85.||||=0.0551
82595365|NCT01324232|164904395|SUPERIORITY||||||=|0.9207|TWO_SIDED|||||The p-value presented tests the hypothesis for overall treatment effect versus no treatment effect.|ANCOVA|||||||=0.9207
82595366|NCT00393887|164904400|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Fisher Exact|||Two-sided Fisher's exact test||||0.11
82654342|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.6017||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.6017
82491588|NCT01681472|164676463|OTHER||Correlation factor|0.46883||||0.2413|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.2413
82491589|NCT01681472|164676463|OTHER||Correlation factor|-0.09737||||0.8544|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.8544
82595367|NCT05074251|164904426|SUPERIORITY||Risk Ratio (RR)|1.41|||<|0.05|TWO_SIDED|95.0|1.14|1.75|||Regression, Logistic|||||1.75|1.14|<0.05
82595368|NCT00930761|164904430|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.22||||0.06||95.0|0.99|1.51|||Chi-squared|||Null hypothesis: Music therapy does not increase the rate of maternal breastfeeding. Sample size: considering 75% as the expected rate at the time of the infant hospital discharge and an absolute difference of 30% between groups, 95% confidence level (5% alpha error) and 80% power (20% beta error), 94 subjects would need to be enrolled (47 in each study arm). Expecting a 7.5% loss after randomization, 101 was the total number of subjects considered necessary to conduct the study.||1.51|0.99|0.06
82595369|NCT00930761|164904431|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21||||0.13||95.0|0.73|5.66|||Chi-squared|||||5.66|0.73|0.13
82595370|NCT00930761|164904432|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.26||||0.03||95.0|1.01|1.57|||Chi-squared|||Null hypothesis: Music therapy does not increase the rate of maternal breastfeeding. Sample size: considering 75% as the expected rate at the time of the first follow-up visit and an absolute difference of 30% between groups, 95% confidence level (5% alpha error) and 80% power (20% beta error), 94 subjects would need to be enrolled (47 in each study arm). Expecting a 7.5% loss after randomization, 101 was the total number of subjects considered necessary to conduct the study.||1.57|1.01|0.03
82595371|NCT00930761|164904433|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.28||||0.09||95.0|0.95|1.71|||Chi-squared|||||1.71|0.95|0.09
82595372|NCT03548935|164904441|SUPERIORITY||Treatment difference|-12.44|||<|0.0001|TWO_SIDED|95.0|-13.37|-11.51|||ANCOVA|||Treatment policy estimand||-11.51|-13.37|<.0001
82595373|NCT03548935|164904441|SUPERIORITY||Treatment difference|-14.42|||<|0.0001|TWO_SIDED|95.0|-15.29|-13.55|||ANCOVA|||Hypothetical estimand||-13.55|-15.29|<0.0001
82595374|NCT03548935|164904442|SUPERIORITY||Odds Ratio (OR)|11.22|||<|0.0001|TWO_SIDED|95.0|8.88|14.19|||Regression, Logistic|||Treatment policy estimand||14.19|8.88|<0.0001
82595375|NCT03548935|164904442|SUPERIORITY||Odds Ratio (OR)|37.03|||<|0.0001|TWO_SIDED|95.0|28.02|48.95|||Regression, Logistic|||Hypothetical estimand||48.95|28.02|<0.0001
82595376|NCT01970995|164904485|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|13.49|||<|0.001|TWO_SIDED|95.0|10.96|16.6||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on MHBMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the biomarker of exposure (BoExp) was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||16.60|10.96|<.001
82595377|NCT01970995|164904486|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|50.67|||<|0.001|TWO_SIDED|95.0|44.88|57.2||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on 3-HPMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||57.20|44.88|<.001
82595378|NCT01970995|164904487|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|10.97|||<|0.001|TWO_SIDED|95.0|9.26|12.99||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on S-PMA levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||12.99|9.26|<.001
82595379|NCT01970995|164904488|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|44.94|||<|0.001|TWO_SIDED|95.0|42.11|47.97||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on COHb levels with product, sex, cigarette consumption, and baseline value as covariates.|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 5 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 5 for mTHS 2.2 and mCC respectively."||47.97|42.11|<.001
82595380|NCT01970995|164904489|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|23.25|||<|0.001|TWO_SIDED|95.0|17.38|31.11||The primary endpoints were tested using a multiple testing procedure to preserve the overall alpha level by simultaneously testing the endpoints using a closed procedure with each test performed at an alpha level of 2.5% one sided.|ANCOVA|ANCOVA model on Total NNAL levels with product, sex, cigarette consumption, and baseline value as covariates|Geometric LS mean ratio mTHS 2.2:mCC|"The hypothesis to be tested is that the geometric mean level on Day 90 of the biomarker of exposure for mTHS 2.2 is lower relative to mCC.~Analysis of the BoExp was conducted on the natural log scale in order to test the following hypothesis (one sided test with 2.5% type I error probability):~* Null hypothesis (H0): m1≥m2~* Alternative hypothesis (H1): m1\<m2 Where m1 and m2 are the geometric means of the BoExp levels on Day 90 for mTHS 2.2 and mCC respectively."||31.11|17.38|<.001
82595381|NCT02017327|164904515|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82595382|NCT02017327|164904515|SUPERIORITY|||||||0.0045|||||||Cochran-Mantel-Haenszel|||||||0.0045
82595383|NCT01923129|164904517|NON_INFERIORITY|The primary outcome of interest was the rate of AUR, defined as the number of patients with AUR within each study group. A 15% non-inferiority margin was chosen according to clinical relevance estimation. The expected difference between the two groups was 0%. Non-inferiority analysis was performed by calculation of risk difference and its 95% confidence interval according to Newcombe \& Altman.|||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|||||||<0.05
82595384|NCT03099187|164904560|SUPERIORITY||Difference in Group Means|-134.6||||0.6777|TWO_SIDED|95.0|-772.4|503.3||p-value was not adjusted for multiplicity and is provided for descriptive purpose only|t-test, 2 sided|||Primary Analysis in 2019. Mean FVC decline comparison between treatment groups using a Student's t-test with a two-sided significance level of 0.05||503.3|-772.4|0.6777
82654343|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.4500
82595385|NCT03099187|164904560|SUPERIORITY||Difference in Group Means|-216.0||||0.4682|TWO_SIDED|95.0|-803.6|371.7||p-value was not adjusted for multiplicity and is provided for descriptive purpose only|Student's t-test|||Final Analysis in 2020. Mean FVC decline comparison between treatment groups using a Student's t-test with a two-sided significance level of 0.05||371.7|-803.6|0.4682
82595386|NCT03099187|164904561|SUPERIORITY|||||||0.0383|||||||rank ANCOVA|||Primary Analysis in 2019||||0.0383
82595387|NCT03099187|164904561|SUPERIORITY|||||||0.0239|||||||rank ANCOVA|||Final Analysis in 2020||||0.0239
82654344|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0952||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.0952
82595388|NCT03099187|164904562|SUPERIORITY||Overall Mean Difference|95.3||||0.0018|TWO_SIDED|95.0|35.9|154.6||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Student's t-test|||Primary Analysis in 2019||154.6|35.9|0.0018
82595389|NCT03099187|164904562|SUPERIORITY||Overall Mean Difference|84.3||||0.0096|TWO_SIDED|95.0|20.7|147.8||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Student's t-test|||Final Analysis in 2020||147.8|20.7|0.0096
82595390|NCT03099187|164904563|SUPERIORITY||Odds Ratio (OR)|0.42||||0.0006|TWO_SIDED|95.0|0.25|0.69||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Primary Analysis in 2019||0.69|0.25|0.0006
82595391|NCT03099187|164904563|SUPERIORITY||Odds Ratio (OR)|0.43||||0.0009|TWO_SIDED|95.0|0.26|0.71||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Final Analysis in 2020||0.71|0.26|0.0009
82595392|NCT03099187|164904564|SUPERIORITY||Odds Ratio (OR)|0.44||||0.0114|TWO_SIDED|95.0|0.23|0.84||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Primary Analysis in 2019||0.84|0.23|0.0114
82595393|NCT03099187|164904564|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0168|TWO_SIDED|95.0|0.24|0.88||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|Cochran-Mantel-Haenszel|||Final Analysis in 2020||0.88|0.24|0.0168
82654345|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.7069||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.7069
82654346|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4767||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.4767
82654347|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.6191||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.6191
82654348|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5276||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.5276
82654349|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3323||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.3323
82654350|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1025||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1025
82595394|NCT03099187|164904565|SUPERIORITY|||||||0.0874||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Primary Analysis in 2019||||0.0874
82595395|NCT03099187|164904565|SUPERIORITY|||||||0.1191||||||p-values are not adjusted for multiplicity and are provided for descriptive purpose only.|rank ANCOVA|||Final Analysis in 2020||||0.1191
82595396|NCT03099187|164904566|SUPERIORITY|||||||0.0395||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Primary Analysis in 2019||||0.0395
82654351|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1715||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1715
82491590|NCT01681472|164676463|OTHER||Correlation factor|0.78928||||0.0199|TWO_SIDED||||||Pearson Correlation|||Correlation for GGH gene expression||||0.0199
82491591|NCT01681472|164676463|OTHER||Correlation factor|0.82963||||0.0209|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.0209
82595397|NCT03099187|164904566|SUPERIORITY|||||||0.0299||||||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|||Final Analysis in 2020||||0.0299
82595398|NCT03099187|164904567|SUPERIORITY||Hodges-Lehmann Median Difference|0.0||||0.7788|TWO_SIDED|95.0|-5.0|5.0|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||5.00|-5.00|0.7788
82595399|NCT03099187|164904567|SUPERIORITY||Hodges-Lehmann Median Difference|0.0||||0.8289|TWO_SIDED|95.0|-5.0|5.0||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate|rank ANCOVA|||Final Analysis in 2020||5.00|-5.00|0.8289
82595400|NCT03099187|164904568|SUPERIORITY||Hodges-Lehmann Median difference|0.29||||0.1872|TWO_SIDED|95.0|-0.45|1.04||p-value was not adjusted for multiplicity and was provided for descriptive purpose only|rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||1.04|-0.45|0.1872
82595401|NCT03099187|164904568|SUPERIORITY||Hodges-Lehmann Median Difference|0.27||||0.2019|TWO_SIDED|95.0|-0.48|1.02||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||1.02|-0.48|0.2019
82595402|NCT03099187|164904569|SUPERIORITY||Hodges-Lehmann Median Difference|-2.0||||0.2995|TWO_SIDED|95.0|-10.0|4.0|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||4.00|-10.00|0.2995
82595403|NCT03099187|164904569|SUPERIORITY||Hodges-Lehmann Median Difference|-2.0||||0.3372|TWO_SIDED|95.0|-10.0|4.0||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||4.00|-10.00|0.3372
82654352|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.1070
82654353|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2751||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.2751
82654354|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0276||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0276
82654355|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1689||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1689
82654356|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0769||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.0769
82595404|NCT03099187|164904570|SUPERIORITY||Hodges-Lehmann Median Difference|-1.86||||0.163|TWO_SIDED|95.0|-5.06|1.38|||rank ANCOVA|Analysis of Covariance Changes from baseline to week 24 are compared between the treatment arms using a rank ANCOVA.||Primary Analysis in 2019||1.38|-5.06|0.1630
82595405|NCT03099187|164904570|SUPERIORITY||Hodges-Lehmann Median Difference|-1.74||||0.1851|TWO_SIDED|95.0|-5.0|1.55||Analysis of Covariance Changes from baseline to week 24 or early discontinuation visit are compared between the treatment arms using a rank ANCOVA with change from baseline as outcome variable and standardized rank baseline value as covariate.|rank ANCOVA|||Final Analysis in 2020||1.55|-5.00|0.1851
82595406|NCT03099187|164904571|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.5922|TWO_SIDED|95.0|0.59|2.49|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Primary Analysis in 2019. All-cause non-elective hospitalization.||2.49|0.59|0.5922
82595407|NCT03099187|164904571|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.8057|TWO_SIDED|95.0|0.26|2.83|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Primary Analysis in 2019. Respiratory non-elective hospitalization.||2.83|0.26|0.8057
82595408|NCT03099187|164904571|SUPERIORITY||Hazard Ratio (HR)|1.31||||0.4613|TWO_SIDED|95.0|0.63|2.73|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models|Final Analysis in 2020. All-cause non-elective hospitalization.||2.73|0.63|0.4613
82595409|NCT03099187|164904571|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9523|TWO_SIDED|95.0|0.3|3.59|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.|Hazard ratios and corresponding 95% CI are calculated by applying Cox-proportional hazard models.|Final Analysis in 2020. Respiratory non-elective hospitalization.||3.59|0.30|0.9523
82595410|NCT03099187|164904573|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.7871|TWO_SIDED|95.0|0.26|2.78|||Log Rank|||||2.78|0.26|0.7871
82595411|NCT03099187|164904574|SUPERIORITY||Cox Proportional Hazard|0.84||||0.366|TWO_SIDED|95.0|0.56|1.24|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Primary Analysis in 2019||1.24|0.56|0.3660
82595412|NCT03099187|164904574|SUPERIORITY||Cox Proportional Hazard|0.85||||0.4173|TWO_SIDED|95.0|0.57|1.26|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Final Analysis in 2020||1.26|0.57|0.4173
82595413|NCT03099187|164904575|SUPERIORITY||Cox Proportional Hazard|0.79||||0.2726|TWO_SIDED|95.0|0.52|1.2|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Primary Analysis in 2019||1.20|0.52|0.2726
82595414|NCT03099187|164904575|SUPERIORITY||Cox Proportional Hazard|0.82||||0.3386|TWO_SIDED|95.0|0.54|1.24|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||Final Analysis in 2020||1.24|0.54|0.3386
82595415|NCT03099187|164904576|SUPERIORITY||Cox Proportional Hazard|1.01||||0.9969|TWO_SIDED|95.0|0.06|16.08|||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||||16.08|0.06|0.9969
82654357|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1058||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1058
82595416|NCT03099187|164904577|SUPERIORITY|||||||0.3231|||||||Log Rank|Log-rank tests based on the time to the first event are to compare the two treatment arms.||||||0.3231
82595417|NCT00495820|164904603|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82491592|NCT01681472|164676463|OTHER||Correlation factor|-0.16724||||0.6922|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.6922
82491593|NCT01681472|164676463|OTHER||Correlation factor|0.14436||||0.785|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.7850
82595418|NCT00495820|164904604|SUPERIORITY_OR_OTHER||||||=|0.01|||||||Mixed Models Analysis|||||||=0.01
82595419|NCT02116777|164904688|OTHER|Maximum Tolerate Dose Level was determined by the rolling-6 design.|Maximum Tolerate Dose Level|4.0|||||TWO_SIDED||||||||Maximum Tolerate Dose Level is Dose Level 4 (600 mcg/m²/dose +30 mg/m2/dose (BMN 673) BID + 30 mg/m²/dose (TEM), Max 1000 mcg/day). MTD determined by using the Rolling-6 Design.|||||
82654358|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.6406||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.6406
82654359|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1733||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.1733
82595420|NCT01733628|164904707|OTHER|Type of statistical Test: Inequality|Hazard Ratio (HR)|0.94||||0.8166|TWO_SIDED|95.0|0.56|1.59|||Wilcoxon (Mann-Whitney)|||||1.59|0.56|0.8166
82595421|NCT04129528|164904745|SUPERIORITY||Ratio of geometric means CFZ533/placebo|1.173||||0.1817|TWO_SIDED|80.0|0.94|1.47||one-sided P-value|Mixed model repeated measure analysis|||||1.47|0.94|0.1817
82595422|NCT00129766|164904815|NON_INFERIORITY_OR_EQUIVALENCE|Confidence interval and relative risk adjusted for the stratification factor of presence or absence of CLD of prematurity as specified on the CRF.|Risk Ratio (RR)|0.74|||||TWO_SIDED|95.0|0.503|1.083|||t-test, 2 sided||Relative risk was calculated as (Pn/Ps) where Pn is the proportion of patients with RSV hospitalization in the motavizumab group and Ps is the proportion of patients with RSV hospitalization in the palivizumab group.|ITT population||1.083|0.503|
82595423|NCT00129766|164904824|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.11||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Cochran-Mantel-Haenszel|||||||0.110
82595424|NCT00129766|164904825|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.005||95.0||||No adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|The CMH test was stratified by presence or absence of CLD of prematurity as specified on the CRF||||||0.005
82595425|NCT00129766|164904826|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.476||95.0|||||Van Eleteren test|Test stratified by presence or absence of CLD of prematurity specified on the CRF||P-value is for overall incidence||||0.476
82654360|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2631||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2631
82595426|NCT00129766|164904827|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.493||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Van Eleteren test|||||||0.493
82595427|NCT00129766|164904828|NON_INFERIORITY_OR_EQUIVALENCE|A CMH approach stratified by presence or absence of CLD of prematurity requiring medical intervention was used.||||||0.652||95.0||||Test stratified by presence or absence of CLD of prematurity specified on the CRF|Van Eleteren test|||||||0.652
82595428|NCT01732796|164904852|SUPERIORITY_OR_OTHER||Adjusted response rate|81.4|||<|0.0001|TWO_SIDED|95.0|76.6|86.2|||Stratified one sample z-test||Adjusted response rate will tested against 71%. It is calculated as a weighted average (non-cirrhotic: 89% times response rate+ cirrhotic: 11% times response rate), 11% is the highest rate of cirrhotic from historical trials with approved DAA+PegIFN|The proportion of patients achieving SVR12 was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with pegylated interferon-alfa (PegIFN) from historical data. The acceptable minimum SVR rate was 71% (reference for PegIFN-eligible).||86.2|76.6|<0.0001
82595429|NCT01732796|164904852|SUPERIORITY_OR_OTHER||Adjusted response rate|71.7||||0.3989|TWO_SIDED|95.0|66.1|77.4|||Stratified one sample z-test||Adjusted response rate will tested against 71%. It is calculated as a weighted average (non-cirrhotic: 89% times response rate+ cirrhotic: 11% times response rate), 11% is the highest rate of cirrhotic from historical trials with approved DAA+PegIFN|The proportion of patients achieving SVR12 was compared to an acceptable minimum SVR rate achieved with an approved direct acting anti-viral (DAA) in combination with pegylated interferon-alfa (PegIFN) from historical data. The acceptable minimum SVR rate was 71% (reference for PegIFN-eligible).||77.4|66.1|0.3989
82595430|NCT01732796|164904853|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|10.8||||0.004|TWO_SIDED|95.0|2.8|18.8|||z-test|based on two sample z-test with continuity correction for variance.||||18.8|2.8|0.0040
82595431|NCT01732796|164904854|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|6.0||||0.0575|TWO_SIDED|95.0|-1.5|13.5|||z-test|based on two sample z-test with continuity correction for variance.||Category: Percentage of patient with response||13.5|-1.5|0.0575
82595432|NCT01732796|164904855|SUPERIORITY_OR_OTHER||Koch's method with continuity correction|9.9||||0.0089|TWO_SIDED|95.0|1.7|18.1|||z-test|based on two sample z-test with continuity correction for variance.||Category: Percentage of patient with response||18.1|1.7|0.0089
82595433|NCT02324920|164904856|SUPERIORITY||Hazard Ratio (HR)|0.22|||<|0.001|TWO_SIDED|95.0|0.11|0.46|||Regression, Cox||||Additional models were implemented to control for country and investigational sites effect on primary endpoint.|0.46|0.11|<0.001
82595434|NCT02324920|164904857|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.002|TWO_SIDED|95.0|0.27|0.75|||Regression, Cox|||||0.75|0.27|0.002
82595435|NCT00708500|164904872|SUPERIORITY_OR_OTHER||Treatment Difference|37.4|||<|0.0001||95.0|25.7|49.1|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||49.1|25.7|<0.0001
82654361|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.217||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.2170
82595436|NCT00708500|164904872|SUPERIORITY_OR_OTHER||Treatment Difference|45.2|||<|0.0001||95.0|33.7|56.8|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||56.8|33.7|<0.0001
82595437|NCT00708500|164904873|SUPERIORITY_OR_OTHER||Treatment Difference|39.1|||<|0.0001||95.0|27.2|51.0|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||51.0|27.2|<0.0001
82595438|NCT00708500|164904873|SUPERIORITY_OR_OTHER||Treatment Difference|45.1|||<|0.0001||95.0|33.4|56.8|||Cochran-Mantel-Haenszel||Difference in percentage of participants who achieved SVR: experimental minus control.|||56.8|33.4|<0.0001
82595439|NCT00595556|164904876|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||Mixed Models Analysis|||||||.012
82595440|NCT00595556|164904877|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||Mixed Models Analysis|||||||.94
82595441|NCT00595556|164904878|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Mixed Models Analysis|||||||.004
82595442|NCT00595556|164904879|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Mixed Models Analysis|||||||.006
82595443|NCT00595556|164904880|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Mixed Models Analysis|||||||.3
82595444|NCT03882970|164904918|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-0.86|||<|0.001|TWO_SIDED|95.0|-1.0|-0.72|||Mixed Models Analysis|||||-0.72|-1.00|<0.001
82595445|NCT03882970|164904918|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.17|-0.9|||Mixed Models Analysis|||||-0.90|-1.17|<0.001
82595446|NCT03882970|164904919|NON_INFERIORITY|The study was powered for superiority in HbA1c. The sample size provided \>99% power to show noninferiority assuming a 0.3% NI boundary, 0.35% greater mean reduction in tirzepatide doses compared to insulin degludec, 1:1:1:1 randomization, a common SD of 1.1%, 1 sided significance level of 0.0125, and a dropout rate of 28%.|LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.73|-0.45|||Mixed Models Analysis|||||-0.45|-0.73|<0.001
82595447|NCT03882970|164904920|SUPERIORITY||LS Mean Difference|-9.8|||<|0.001|TWO_SIDED|95.0|-10.8|-8.8|||Mixed Models Analysis|||||-8.8|-10.8|<0.001
82595448|NCT03882970|164904920|SUPERIORITY||LS Mean Difference|-13.0|||<|0.001|TWO_SIDED|95.0|-14.0|-11.9|||Mixed Models Analysis|||||-11.9|-14.0|<0.001
82595449|NCT03882970|164904920|SUPERIORITY||LS Mean Difference|-15.2|||<|0.001|TWO_SIDED|95.0|-16.2|-14.2|||Mixed Models Analysis|||||-14.2|-16.2|<0.001
82654362|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0868||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.0868
82595450|NCT03882970|164904921|SUPERIORITY||LS Mean Difference|7.5||||0.004|TWO_SIDED|95.0|2.4|12.5|||Mixed Models Analysis|||||12.5|2.4|0.004
82595451|NCT03882970|164904921|SUPERIORITY||LS Mean Difference|0.8||||0.751|TWO_SIDED|95.0|-4.3|5.9|||Mixed Models Analysis|||||5.9|-4.3|0.751
82595452|NCT03882970|164904921|SUPERIORITY||LS Mean Difference|-3.6||||0.168|TWO_SIDED|95.0|-8.7|1.5|||Mixed Models Analysis|||||1.5|-8.7|0.168
82595453|NCT03882970|164904922|SUPERIORITY||Odds Ratio (OR)|3.45|||<|0.001|TWO_SIDED|95.0|2.38|5.01|||Regression, Logistic|||||5.01|2.38|<0.001
82595454|NCT03882970|164904922|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|4.55|10.84|||Regression, Logistic|||||10.84|4.55|<0.001
82595455|NCT03882970|164904922|SUPERIORITY||Odds Ratio (OR)|10.79|||<|0.001|TWO_SIDED|95.0|6.65|17.48|||Regression, Logistic|||||17.48|6.65|<0.001
82595456|NCT03882970|164904924|SUPERIORITY||Odds Ratio (OR)|29.78|||<|0.001|TWO_SIDED|95.0|18.35|48.35|||Regression, Logistic|||||48.35|18.35|<0.001
82595457|NCT03882970|164904924|SUPERIORITY||Odds Ratio (OR)|79.88|||<|0.001|TWO_SIDED|95.0|47.56|134.17|||Regression, Logistic|||||134.17|47.56|<0.001
82595458|NCT03882970|164904924|SUPERIORITY||Odds Ratio (OR)|110.77|||<|0.001|TWO_SIDED|95.0|64.73|189.55|||Regression, Logistic|||||189.55|64.73|<0.001
82595459|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.26||||0.096|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||Hyperglycemia||0.05|-0.57|0.096
82595460|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.25||||0.113|TWO_SIDED|95.0|-0.57|0.06|||ANCOVA|||Hyperglycemia||0.06|-0.57|0.113
82595461|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.47||||0.003|TWO_SIDED|95.0|-0.78|-0.16|||ANCOVA|||Hyperglycemia||-0.16|-0.78|0.003
82595462|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.41||||0.014|TWO_SIDED|95.0|-0.74|-0.08|||ANCOVA|||Hypoglycemia||-0.08|-0.74|0.014
82595463|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.18||||0.28|TWO_SIDED|95.0|-0.51|0.15|||ANCOVA|||Hypoglycemia||0.15|-0.51|0.280
82595464|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|-0.26||||0.129|TWO_SIDED|95.0|-0.59|0.07|||ANCOVA|||Hypoglycemia||0.07|-0.59|0.129
82595465|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|3.01|||<|0.001|TWO_SIDED|95.0|2.26|3.75|||ANCOVA|||Treatment Satisfaction Score||3.75|2.26|<0.001
82595466|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|2.9|||<|0.001|TWO_SIDED|95.0|2.15|3.65|||ANCOVA|||Treatment Satisfaction Score||3.65|2.15|<0.001
82595467|NCT03882970|164904925|SUPERIORITY||LS Mean Difference|2.99|||<|0.001|TWO_SIDED|95.0|2.24|3.74|||ANCOVA|||Treatment Satisfaction Score||3.74|2.24|<0.001
82595468|NCT05284760|164904943|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|Geometric Mean Ratio (GMR)|97.28|||||TWO_SIDED|90.0|87.66|107.96||||||||107.96|87.66|
82595469|NCT05284760|164904943|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|81.04|||||TWO_SIDED|90.0|73.06|89.89||||||||89.89|73.06|
82595470|NCT05284760|164904943|OTHER||GMR|37.48|||||TWO_SIDED|90.0|31.1|45.17||||||||45.17|31.10|
82595471|NCT05284760|164904943|OTHER||GMR|89.45|||||TWO_SIDED|90.0|74.24|107.79||||||||107.79|74.24|
82595472|NCT05284760|164904944|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|97.52|||||TWO_SIDED|90.0|92.17|103.17||||||||103.17|92.17|
82595473|NCT05284760|164904944|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|86.88|||||TWO_SIDED|90.0|82.14|91.89||||||||91.89|82.14|
82595474|NCT05284760|164904944|OTHER||GMR|87.63|||||TWO_SIDED|90.0|75.92|101.15||||||||101.15|75.92|
82595475|NCT05284760|164904944|OTHER||GMR|95.49|||||TWO_SIDED|90.0|82.73|110.22||||||||110.22|82.73|
82595476|NCT05284760|164904945|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|99.25|||||TWO_SIDED|90.0|92.84|106.1||||||||106.10|92.84|
82595477|NCT05284760|164904945|EQUIVALENCE|The two treatments were deemed equivalent if the 90% CIs for the GMRs for all of the parameters were each within 80.00% and 125.00%.|GMR|86.98|||||TWO_SIDED|90.0|81.33|93.03||||||||93.03|81.33|
82595478|NCT05284760|164904945|OTHER||GMR|89.28|||||TWO_SIDED|90.0|78.92|100.99||||||||100.99|78.92|
82595479|NCT05284760|164904945|OTHER||GMR|92.77|||||TWO_SIDED|90.0|81.77|105.25||||||||105.25|81.77|
82595480|NCT00619255|164904947|SUPERIORITY||Slope|1.38||||0.71|TWO_SIDED||||||Chi-squared|DF=3||||||0.71
82595481|NCT00619255|164904948|SUPERIORITY||Slope|1.02||||0.8|TWO_SIDED||||||Chi-squared|DF=3||||||0.80
82595482|NCT00619255|164904949|SUPERIORITY|||||||0.67|||||||Chi-squared|"DF = 1~Chi-Square Value = 0.18"||||||0.67
82595483|NCT00619255|164904950|SUPERIORITY||Slope|9.0||||0.03|TWO_SIDED||||||Chi-squared|DF=3||||||0.03
82595484|NCT00619255|164904951|SUPERIORITY||Slope|1.35||||0.72|TWO_SIDED||||||Chi-squared|DF=3||||||0.72
82595485|NCT01765920|164904980|SUPERIORITY|||||||0.0174||||||A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.0174
82595486|NCT01765920|164904981|SUPERIORITY|||||||0.0719||||||A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.0719
82595487|NCT01765920|164904982|SUPERIORITY|||||||0.02||||||Total score analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses).|Kruskal-Wallis|||||||0.02
82595488|NCT01765920|164904982|SUPERIORITY|||||||0.0099||||||"Symptoms domain analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses)."|Kruskal-Wallis|||||||0.0099
82595489|NCT01765920|164904982|SUPERIORITY|||||||0.037||||||"Ability domain analysis. A priori threshold for statistical significance α=0.0221 (Pocock boundary for 3 interim analyses)."|Kruskal-Wallis|||||||0.037
82595490|NCT01765920|164904983|SUPERIORITY|||||||0.22||||||Day 1 analysis.|Fisher Exact|||||||0.22
82595491|NCT01765920|164904983|SUPERIORITY|||||||0.32||||||Day 2 analysis.|Fisher Exact|||||||0.32
82595492|NCT01765920|164904983|SUPERIORITY|||||||0.47||||||Day 3 analysis.|Fisher Exact|||||||0.47
82595493|NCT01765920|164904983|SUPERIORITY|||||||0.72||||||Day 4 analysis.|Fisher Exact|||||||0.72
82595494|NCT01765920|164904983|SUPERIORITY|||||||0.25||||||Day 5 analysis.|Fisher Exact|||||||0.25
82595495|NCT01765920|164904984|SUPERIORITY|||||||0.68|||||||Fisher Exact|||||||0.68
82595496|NCT02411539|164904995|SUPERIORITY|Assuming that a common standard deviation of change (measured as difference of log10 transformed HIV-1 RNA/DNA ratios) in both arms was 0.30, with a sample size of 36 evaluable participants (18 in each arm), the study had 88% power to detect an effect size of 0.30 log10 (2-fold) in change of cell-associated HIV-1 RNA/DNA from baseline to week 6 using a two-sided Wilcoxon rank sum test at 10% type I error rate assuming a normal distribution||||||0.16||||||Two-sided Wilcoxon rank sum test at 10% significance level. Not adjusted for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The primary efficacy analysis compared the change in cell-associated HIV-1 RNA/DNA ratio (log-transformed) from baseline to week 6 between the two randomized arms, testing the null hypothesis of no difference in changes in cell-associated HIV-1 RNA/DNA ratio between the two arms using a Wilcoxon rank sum test at 10% significance level.||||0.16
82595497|NCT01664559|164905042|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.99
82595498|NCT01664559|164905043|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1\) Anticipated pain||||0.31
82595499|NCT01664559|164905043|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2\) pain with injection||||0.33
82595500|NCT01664559|164905043|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3\) speculum insertion||||0.72
82595501|NCT01664559|164905043|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||4\) tenaculum placement||||0.36
82595502|NCT01664559|164905043|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||5\) uterine sounding||||0.64
82595503|NCT01664559|164905043|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||6\) 5 min after placement||||<0.001
82595504|NCT01664559|164905043|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||7\) 15 min after placement||||<0.001
82595505|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||1\) anticipated pain||||0.6
82595506|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||2\) pain with injection||||1.0
82595507|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||3\) speculum insertion||||0.34
82595508|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||4\) tenaculum placement||||0.32
82595509|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||5\) uterine sounding||||0.04
82595510|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||6\) IUD placement||||0.02
82595511|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.32|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||7\) 5 min after placement||||0.32
82595512|NCT01664559|164905044|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||8\) 15 min after placement||||0.02
82595513|NCT01664559|164905045|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||Reported side effects (nausea, vomiting, dyspepsia, headache, dizziness, drowsiness, injection site itchiness, swelling or pain)||||> 0.05
82595514|NCT01664559|164905045|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||Injection site pain (just as bad or worse than IUD procedure)||||0.76
82595515|NCT01664559|164905045|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Chi-squared|||Satisfied or very satisfied with IUD placement procedure||||0.76
82595516|NCT01664559|164905045|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Chi-squared|||Would recommend IUD placement to a friend||||0.35
82595517|NCT01664559|164905045|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Desires additional pain medication||||0.02
82595518|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|||Level of training, PGY 1, 2, 3, 4 and Attending||||0.2
82595519|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Chi-squared|||IUD type (levonorgestrel or copper)||||0.09
82595520|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Purpose of IUD (contraception or heavy menstrual bleeding)||||1.0
82595521|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Chi-squared|||Position of uterus (anteverted, retroverted, midpositioned)||||0.92
82595522|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Need for cervical dilation||||1.0
82595523|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared, Corrected|||Able to complete the IUD insertion||||1.0
82595524|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Chi-squared|||Significant bleeding||||0.24
82595525|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|||Major complications||||1.0
82595526|NCT01664559|164905046|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Took acetaminophen prior to leaving the office||||0.02
82595527|NCT03631732|164905047|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the upper bound of the 2-sided 95% confidence interval (CI) of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA ≥ 50 copies/mL is less than 6% (i.e., a margin of 6% is applied to non-inferiority assessment).|Difference in percentages|-1.2|||||TWO_SIDED|95.0|-4.8|0.9|||||Differences in percentages of participants with HIV-1 RNA \>= 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||0.9|-4.8|
82595528|NCT03631732|164905047|SUPERIORITY|||||||0.3399|||||||Fisher Exact|||||||0.3399
82595529|NCT03631732|164905049|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the lower bound of the 2-sided 95% CI of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10% (i.e., a margin of 10% is applied to non-inferiority assessment).|Difference in percentages|1.8|||||TWO_SIDED|95.0|-2.0|6.8|||||Differences in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||6.8|-2.0|
82595530|NCT03631732|164905049|SUPERIORITY|||||||0.3532|||||||Fisher Exact|||||||0.3532
82654363|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1117||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.1117
82654364|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4943||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 (208601\_s\_at)||||0.4943
82654365|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.5190
82654366|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.735||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.7350
82654367|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.3820
82654368|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.9290
82595531|NCT03631732|164905050|NON_INFERIORITY|B/F/TAF is non-inferior to SBR if the lower bound of the 2-sided 95% CI of the difference between treatment groups \[B/F/TAF - SBR\] in the percentage of participants with HIV-1 RNA \< 50 copies/mL is greater than -10% (i.e., a margin of 10% is applied to non-inferiority assessment).|Difference in percentages|1.4|||||TWO_SIDED|95.0|-1.0|5.3|||||Differences in percentages of participants with HIV-1 RNA \< 50 copies/mL between treatment groups and 95% CI were calculated based on exact method.|||5.3|-1.0|
82654369|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0699||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.0699
82654370|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3515||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.3515
82654371|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2128||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.2128
82491594|NCT01681472|164676463|OTHER||Correlation factor|0.74757||||0.033|TWO_SIDED||||||Pearson Correlation|||Correlation for ABCC1 gene expression||||0.0330
82491595|NCT01681472|164676463|OTHER||Correlation factor|0.32113||||0.4825|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.4825
82595532|NCT03631732|164905050|SUPERIORITY|||||||0.3356|||||||Fisher Exact|||||||0.3356
82595533|NCT03631732|164905052|OTHER||Difference in LSM|11.0||||0.5618|TWO_SIDED|95.0|-27.0|49.0|||ANOVA|P-value was calculated from ANOVA model with treatment as a fixed effect.|Difference in LSM (Least square mean) and its 95% C.I. was calculated from ANOVA model with treatment as a fixed effect.|||49|-27|0.5618
82595534|NCT03631732|164905053|OTHER||Difference in LSM|9.0||||0.6632|TWO_SIDED|95.0|-31.0|48.0|||ANOVA|P-value was calculated from ANOVA model with treatment as a fixed effect.|Difference in LSM and its 95% C.I. was calculated from ANOVA model with treatment as a fixed effect.|||48|-31|0.6632
82595535|NCT02255409|164905058|OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-6.7|9.7||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 22||9.7|-6.7|
82595536|NCT02255409|164905058|OTHER||Mean Difference (Final Values)|-6.0|||||TWO_SIDED|95.0|-14.2|2.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 22||2.3|-14.2|
82595537|NCT02255409|164905058|OTHER||Mean Difference (Final Values)|16.3|||||TWO_SIDED|95.0|8.4|24.1||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 22||24.1|8.4|
82595538|NCT02255409|164905058|OTHER||Mean Difference (Final Values)|14.2|||||TWO_SIDED|95.0|6.3|22.0||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 22||22.0|6.3|
82595539|NCT02255409|164905059|OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-0.9|2.2||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 22||2.2|-0.9|
82595540|NCT02255409|164905059|OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-1.9|1.2||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 22||1.2|-1.9|
82654372|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1275||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.1275
82654373|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2158||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.2158
82595541|NCT02255409|164905059|OTHER||Mean Difference (Final Values)|14.4|||||TWO_SIDED|95.0|9.3|20.0||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 22||20.0|9.3|
82595542|NCT02255409|164905059|OTHER||Mean Difference (Final Values)|26.0|||||TWO_SIDED|95.0|20.6|32.0||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 22||32.0|20.6|
82595543|NCT02255409|164905063|OTHER||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-1.6|13.0||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 181||13.0|-1.6|
82595544|NCT02255409|164905063|OTHER||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-5.5|9.8||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||9.8|-5.5|
82595545|NCT02255409|164905063|OTHER||Mean Difference (Final Values)|11.8|||||TWO_SIDED|95.0|5.3|18.3||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||18.3|5.3|
82595546|NCT02255409|164905063|OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-8.4|5.7||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 181||5.7|-8.4|
82595547|NCT02255409|164905064|OTHER||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|2.4|8.4||||||Vaccine Group Difference (aQIV - QIV) for A/H1N1 at Day 181||8.4|2.4|
82595548|NCT02255409|164905064|OTHER||Mean Difference (Final Values)|5.6|||||TWO_SIDED|95.0|3.1|9.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||9.3|3.1|
82654374|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.0266||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.0266
82595549|NCT02255409|164905064|OTHER||Mean Difference (Final Values)|33.2|||||TWO_SIDED|95.0|25.0|40.9||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||40.9|25.0|
82595550|NCT02255409|164905064|OTHER||Mean Difference (Final Values)|37.3|||||TWO_SIDED|95.0|29.6|44.7||||||Vaccine Group Difference (aQIV - QIV) for B/Victoria at Day 181||44.7|29.6|
82595551|NCT02255409|164905065|OTHER||GMT Ratio|1.94|||||TWO_SIDED|95.0|1.6|2.4||||||The ratio of GMT (GMTr) values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 1.||2.4|1.6|
82595552|NCT02255409|164905065|OTHER||GMT Ratio|1.48|||||TWO_SIDED|95.0|1.3|1.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 22.||1.7|1.3|
82595553|NCT02255409|164905065|OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|1.3|1.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H1N1 at Day 181.||1.7|1.3|
82595554|NCT02255409|164905065|OTHER||GMT Ratio|2.16|||||TWO_SIDED|95.0|1.7|2.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 1.||2.7|1.7|
82595555|NCT02255409|164905065|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.2|1.5||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||1.5|1.2|
82595556|NCT02255409|164905065|OTHER||GMT Ratio|1.34|||||TWO_SIDED|95.0|1.2|1.6||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||1.6|1.2|
82654375|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3636||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.3636
82491596|NCT01681472|164676463|OTHER||Correlation factor|0.3716||||0.3647|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.3647
82595557|NCT02255409|164905065|OTHER||GMT Ratio|1.82|||||TWO_SIDED|95.0|1.5|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 1.||2.2|1.5|
82595558|NCT02255409|164905065|OTHER||GMT Ratio|1.75|||||TWO_SIDED|95.0|1.5|2.0||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 22.||2.0|1.5|
82595559|NCT02255409|164905065|OTHER||GMT Ratio|1.85|||||TWO_SIDED|95.0|1.6|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 181.||2.2|1.6|
82595560|NCT02255409|164905065|OTHER||GMT Ratio|3.24|||||TWO_SIDED|95.0|2.7|4.0||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 1.||4.0|2.7|
82595561|NCT02255409|164905065|OTHER||GMT Ratio|1.49|||||TWO_SIDED|95.0|1.2|1.8||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 22.||1.8|1.2|
82595562|NCT02255409|164905065|OTHER||GMT Ratio|1.29|||||TWO_SIDED|95.0|1.1|1.5||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Victoria at Day 181.||1.5|1.1|
82595563|NCT02255409|164905067|OTHER||Mean Difference (Final Values)|5.7|||||TWO_SIDED|95.0|-5.2|16.3||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||16.3|-5.2|
82595564|NCT02255409|164905067|OTHER||Mean Difference (Final Values)|14.5|||||TWO_SIDED|95.0|5.3|23.6||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||23.6|5.3|
82595565|NCT02255409|164905068|OTHER||Mean Difference (Final Values)|16.3|||||TWO_SIDED|95.0|9.5|24.1||||||Vaccine Group Difference (aQIV - QIV) for A/H3N2 at Day 181||24.1|9.5|
82595566|NCT02255409|164905068|OTHER||Mean Difference (Final Values)|46.4|||||TWO_SIDED|95.0|35.9|55.8||||||Vaccine Group Difference (aQIV - QIV) for B/Yamagata at Day 181||55.8|35.9|
82595567|NCT02255409|164905069|OTHER||GMT Ratio|2.63|||||TWO_SIDED|95.0|1.8|3.8||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 1.||3.8|1.8|
82595568|NCT02255409|164905069|OTHER||GMT Ratio|1.57|||||TWO_SIDED|95.0|1.3|2.9||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||2.9|1.3|
82595569|NCT02255409|164905069|OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|1.3|2.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||2.2|1.3|
82595570|NCT02255409|164905069|OTHER||GMT Ratio|1.99|||||TWO_SIDED|95.0|1.5|2.6||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for B/Yamagata at Day 1.||2.6|1.5|
82595571|NCT02255409|164905069|OTHER||GMT Ratio|2.21|||||TWO_SIDED|95.0|1.8|2.7||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 22.||2.7|1.8|
82595572|NCT02255409|164905069|OTHER||GMT Ratio|2.55|||||TWO_SIDED|95.0|2.1|3.2||||||GMTr values between aQIV vs. QIV (ie, GMT\[aQIV\]:GMT\[QIV\]) for A/H3N2 at Day 181.||3.2|2.1|
82595573|NCT02189213|164905103|OTHER|The parameters were the CGI-Improvement scale which comprises a one-item measures evaluating the following change from the initiation of treatment on a seven-point scale. The hypothesis is that \~50% of subjects receiving treatment will not respond.|||||=|0.0002|||||||t-test, 2 sided|||At least 50% of subjects will respond to Sertraline treatment (CGI greater than or equal to 2).||||=0.0002
82595574|NCT02370615|164905131|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|2.012|||||TWO_SIDED|90.0|1.632|2.481||||||Analysis for TAK 272F||2.481|1.632|
82595575|NCT02370615|164905131|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|0.089|||||TWO_SIDED|90.0|0.064|0.123||||||Analysis for TAK 272-M-I||0.123|0.064|
82595576|NCT02370615|164905132|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|4.888|||||TWO_SIDED|90.0|4.137|5.777||||||Analysis for TAK 272F||5.777|4.137|
82595577|NCT02370615|164905133|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|4.702|||||TWO_SIDED|90.0|3.969|5.569||||||Analysis for TAK 272F||5.569|3.969|
82595578|NCT02370615|164905133|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 10/Day 1)|0.023|||||TWO_SIDED|90.0|0.012|0.045||||||Analysis for TAK 272-M-I||0.045|0.012|
82595579|NCT02370615|164905135|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.349|||||TWO_SIDED|90.0|1.117|1.628||||||||1.628|1.117|
82654376|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.9479||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.9479
82654377|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3753||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.3753
82595580|NCT02370615|164905136|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.02|||||TWO_SIDED|90.0|0.919|1.131||||||||1.131|0.919|
82595581|NCT02370615|164905137|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.155|||||TWO_SIDED|90.0|1.035|1.289||||||||1.289|1.035|
82595582|NCT02370615|164905139|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.235|||||TWO_SIDED|90.0|1.1|1.387||||||Analysis for Midazolam||1.387|1.100|
82654378|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5477||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.5477
82654379|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.476||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.4760
82595583|NCT02370615|164905139|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|0.887|||||TWO_SIDED|90.0|0.781|1.008||||||Analysis for 1'Hydroxymidazolam||1.008|0.781|
82595584|NCT02370615|164905140|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.422|||||TWO_SIDED|90.0|1.29|1.568||||||Analysis for Midazolam||1.568|1.290|
82595585|NCT02370615|164905140|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.081|||||TWO_SIDED|90.0|1.008|1.16||||||Analysis for 1'Hydroxymidazolam||1.160|1.008|
82595586|NCT02370615|164905141|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.425|||||TWO_SIDED|90.0|1.291|1.574||||||Analysis for Midazolam||1.574|1.291|
82595587|NCT02370615|164905141|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Day 7/Day 1)|1.061|||||TWO_SIDED|90.0|0.986|1.143||||||Analysis for 1'Hydroxymidazolam||1.143|0.986|
82595588|NCT02943564|164905190|SUPERIORITY||Least Squares Mean Difference|0.1||||0.8862|TWO_SIDED|95.0|-1.5|1.73|||Mixed Model Repeated Measures (MMRM)|||||1.73|-1.50|0.8862
82595589|NCT02943564|164905190|SUPERIORITY||Least Squares Mean Difference|-0.5||||0.5772|TWO_SIDED|95.0|-2.07|1.16|||Mixed Model Repeated Measures (MMRM)|||||1.16|-2.07|0.5772
82595590|NCT02943564|164905191|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.8967|TWO_SIDED|95.0|-1.48|1.29|||Mixed Model Repeated Measures (MMRM)|||||1.29|-1.48|0.8967
82595591|NCT02943564|164905191|SUPERIORITY||Least Squares Mean Difference|0.0||||0.9963|TWO_SIDED|95.0|-1.38|1.39|||Mixed Model Repeated Measures (MMRM)|||||1.39|-1.38|0.9963
82595592|NCT04013529|164905203|SUPERIORITY||||||=|0.9|||||||ANCOVA|||||||=0.90
82595593|NCT04013529|164905204|SUPERIORITY||||||=|0.88|||||||ANCOVA|||||||= 0.88
82595594|NCT04013529|164905205|SUPERIORITY||||||<|0.17|||||||ANCOVA|||||||< 0.17
82595595|NCT04013529|164905206|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||< 0.05
82595596|NCT04013529|164905207|SUPERIORITY||||||=|0.81|||||||ANCOVA|||||||= 0.81
82595597|NCT02958007|164905221|SUPERIORITY|||||||0.544|||||||t-test, 2 sided|||||||0.544
82595598|NCT04869345|164905250|SUPERIORITY||Odds Ratio (OR)|0.67||||0.684|TWO_SIDED|95.0|0.13|3.05||A priori threshold for statistical significance = 0.05.|Boschloo Test||Maximum likelihood estimate of the Odds Ratio comparing retention rate in LARKSPUR group to Attention Control group|||3.05|0.13|.684
82595599|NCT04869345|164905253|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.28||0.835|TWO_SIDED|95.0|-2.8|2.27||The threshold for statistical significance was 0.05.|Mixed Models Analysis|P-value adjusted using the Kenward-Roger (1997) degrees of freedom method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.27|-2.80|0.835
82595600|NCT04869345|164905253|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|1.29||0.732|TWO_SIDED|95.0|-2.12|3.0||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.00|-2.12|0.732
82595601|NCT04869345|164905253|SUPERIORITY||Mean Difference (Net)|0.71|STANDARD_ERROR_OF_MEAN|1.38||0.609|TWO_SIDED|95.0|-2.05|3.47||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.47|-2.05|0.609
82595602|NCT04869345|164905254|SUPERIORITY||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|1.08||0.445|TWO_SIDED|95.0|-2.97|1.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||1.31|-2.97|0.445
82595603|NCT04869345|164905254|SUPERIORITY||Mean Difference (Final Values)|1.38|STANDARD_ERROR_OF_MEAN|1.09||0.209|TWO_SIDED|95.0|-0.78|3.54||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.54|-0.78|0.209
82595604|NCT04869345|164905254|SUPERIORITY||Mean Difference (Net)|2.21|STANDARD_ERROR_OF_MEAN|1.17||0.063|TWO_SIDED|95.0|-0.12|4.54||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Interference scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||4.54|-0.12|0.063
82595605|NCT04869345|164905255|SUPERIORITY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.95||0.792|TWO_SIDED|95.0|-1.63|2.13||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Physical Functioning scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.13|-1.63|0.792
82595606|NCT04869345|164905255|SUPERIORITY||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.95||0.209|TWO_SIDED|95.0|-0.69|3.09||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Physical Functioning scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.09|-0.69|0.209
82595607|NCT04869345|164905255|SUPERIORITY||Mean Difference (Net)|0.95|STANDARD_ERROR_OF_MEAN|0.66||0.151|TWO_SIDED|95.0|-0.35|2.26||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Pain Intensity scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||2.26|-0.35|0.151
82654380|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3314||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.3314
82654381|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.1005||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.1005
82654382|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.118||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1180
82654383|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1580
82595608|NCT04869345|164905256|SUPERIORITY||Mean Difference (Final Values)|0.77|STANDARD_ERROR_OF_MEAN|1.47||0.601|TWO_SIDED|95.0|-2.14|3.69||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||3.69|-2.14|0.601
82595609|NCT04869345|164905256|SUPERIORITY||Mean Difference (Final Values)|-1.65|STANDARD_ERROR_OF_MEAN|1.49||0.269|TWO_SIDED|95.0|-4.6|1.29||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||1.29|-4.60|0.269
82595610|NCT04869345|164905256|SUPERIORITY||Mean Difference (Net)|-2.43|STANDARD_ERROR_OF_MEAN|1.53||0.116|TWO_SIDED|95.0|-5.47|0.61||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS Fatigue scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.61|-5.47|0.116
82595611|NCT04869345|164905257|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.08||0.479|TWO_SIDED|95.0|-0.1|0.22||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.22|-0.10|0.479
82595612|NCT04869345|164905257|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.08||0.126|TWO_SIDED|95.0|-0.04|0.29||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.29|-0.04|0.126
82595613|NCT04869345|164905257|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.09||0.457|TWO_SIDED|95.0|-0.12|0.25||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline CESD-R-10 scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.25|-0.12|0.457
82595614|NCT04869345|164905258|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.13||0.389|TWO_SIDED|95.0|-0.15|0.38||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.38|-0.15|0.389
82595615|NCT04869345|164905258|SUPERIORITY||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.13||0.157|TWO_SIDED|95.0|-0.07|0.46||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.46|-0.07|0.157
82654384|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4385||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.4385
82654385|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.7324||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.7324
82595616|NCT04869345|164905258|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.593|TWO_SIDED|95.0|-0.21|0.36||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline mDES scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.36|-0.21|0.593
82595617|NCT04869345|164905259|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.13||0.933|TWO_SIDED|95.0|-0.26|0.24||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.24|-0.26|0.933
82595618|NCT04869345|164905259|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.642|TWO_SIDED|95.0|-0.19|0.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.31|-0.19|0.642
82595619|NCT04869345|164905259|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.12||0.577|TWO_SIDED|95.0|-0.18|0.32||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PANAS-GEN scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.32|-0.18|0.577
82654386|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2657||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.2657
82654387|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5637||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.5637
82654388|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.4473||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.4473
82595620|NCT04869345|164905260|SUPERIORITY||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.11||0.403|TWO_SIDED|95.0|-0.32|0.13||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.13|-0.32|0.403
82595621|NCT04869345|164905260|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.11||0.062|TWO_SIDED|95.0|-0.44|0.01||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference compares the LARKSPUR intervention minus the Attention Control.|The treatment difference (LARKSPUR Intervention vs. Attention Control) at Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PROMIS PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.01|-0.44|0.062
82654389|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3292||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.3292
82654390|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.2054||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.2054
82654391|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.5226||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment: ER) and the reduced model: (PCR \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.5226
82654392|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.172||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR \~ Biomarker: Treatment) and the reduced model: (PCR \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.1720
82654393|NCT00455533|165023742|SUPERIORITY_OR_OTHER|||||||0.3346||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.3346
82654394|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.5604||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5604
82654395|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2715||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.2715
82654396|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.5268||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 209993\_at||||0.5268
82654397|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6058||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.6058
82654398|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1918||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.1918
82654399|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6712||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ABCB1 /// ABCB4 209994\_s\_at||||0.6712
82654400|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.9195||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.9195
82654401|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.7021||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.7021
82654402|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 211851\_x\_at||||0.3910
82654403|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2909||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.2909
82654404|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.3336||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.3336
82654405|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.236||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||BRCA1 204531\_s\_at||||0.2360
82654406|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0281||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0281
82654407|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0434||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0434
82654408|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0283||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203719\_at||||0.0283
82654409|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0151||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0151
82654410|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1999||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.1999
82654411|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0146||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||ERCC1 203720\_s\_at||||0.0146
82654412|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1185||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.1185
82654413|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.8705||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.8705
82654414|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0284||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204315\_s\_at||||0.0284
82595622|NCT04869345|164905260|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.269|TWO_SIDED|95.0|-0.33|0.09||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and two time points (Week 11, Week 16) and their interaction adjusting for baseline PSS scores. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.09|-0.33|0.269
82595623|NCT04869345|164905261|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|0.07|0.33||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 11 minus Baseline) minus the change for the Attention Control (Week 11 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.33|0.07|0.003
82595624|NCT04869345|164905261|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.006|TWO_SIDED|95.0|0.05|0.31||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Baseline) minus the change for the Attention Control (Week 16 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.31|0.05|0.006
82595625|NCT04869345|164905261|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.796|TWO_SIDED|95.0|-0.15|0.12||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.12|-0.15|0.796
82595626|NCT04869345|164905262|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.758|TWO_SIDED|95.0|-0.03|0.05||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 11 minus Baseline) minus the change for the Attention Control (Week 11 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 11 (Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.05|-0.03|0.758
82654415|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0399||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0399
82654416|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0136||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0136
82654417|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0576||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204317\_at||||0.0576
82654418|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2245||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.2245
82654419|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1388||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.1388
82654420|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0692||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 215942\_s\_at||||0.0692
82654421|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1058||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.1058
82654422|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2688||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.2688
82595627|NCT04869345|164905262|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.02||0.88|TWO_SIDED|95.0|-0.04|0.04||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Baseline) minus the change for the Attention Control (Week 16 minus Baseline).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Baseline to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.04|-0.04|0.880
82654423|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0192||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 204318\_s\_at||||0.0192
82595628|NCT04869345|164905262|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.652|TWO_SIDED|95.0|-0.05|0.03||The threshold for statistical significance was 0.05.|Mixed Models Analysis|Degrees of freedom and standard error estimates were adjusted using the Kenward-Roger (1997) method.|The estimated Mean Difference (Net) compares the change for the LARKSPUR intervention (Week 16 minus Week 11) minus the change for the Attention Control (Week 16 minus Week 11).|The treatment difference (LARKSPUR Intervention vs. Attention Control) in change from Week 11 (Post-Intervention) to Week 16 (1 Month Post-Intervention) was tested using a mixed effects model with two treatment groups and three time points (Baseline, Week 11, Week 16) and their interaction while accounting for heterogeneous (random slopes) linear daily trends. Sample size was chosen based on feasibility indicators (recruitment, retention, adherence) rather than on formal power analyses.||0.03|-0.05|0.652
82595629|NCT01908101|164905297|OTHER|comparison analysis|Median Difference (Final Values)|3.5|||||TWO_SIDED|95.0|2.6|4.6||comparison analysis; no P value|||The estimated value is 3.5 months, not years.|Progression free survival (PFS). We hypothesize that metronomic dosing of eribulin will result in a PFS of 4-6 months.||4.6|2.6|
82595630|NCT00166205|164905299|SUPERIORITY_OR_OTHER||Percent of ITT subjects|69.6||||||95.0|63.8|74.9||||||A sample size of 215, the adverse event (AE) rate at three years could be estimated with precision as determined by the interval half-width of approximately ± 7%.||74.9|63.8|
82595631|NCT00166205|164905300|SUPERIORITY_OR_OTHER||Mean|75.7|STANDARD_DEVIATION|39.8||||95.0|70.5|80.8||||||||80.8|70.5|
82595632|NCT00166205|164905301|SUPERIORITY_OR_OTHER||Mean|35.7|STANDARD_DEVIATION|6.2||||95.0|34.9|36.5||||||||36.5|34.9|
82595633|NCT00166205|164905302|SUPERIORITY_OR_OTHER||Mean|51.3|STANDARD_DEVIATION|45.8||||95.0|47.6|54.9||||||||54.9|47.6|
82595634|NCT00166205|164905303|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.4|STANDARD_DEVIATION|10.3||||95.0|9.2|11.7|||||Value at 36 months minus value at baseline. Positive values indicate improved Quality of Life (QOL)|||11.7|9.2|
82595635|NCT00166205|164905304|SUPERIORITY_OR_OTHER||Mean|5.7|STANDARD_DEVIATION|0.7||||95.0|5.6|5.8||||||||5.8|5.6|
82595636|NCT00166205|164905306|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||A one-sided paired t-test would have 80% power to reject the null hypothesis in favor of the alternative (i.e., that the SAGB system is not inferior to the clinically meaningful result of 36.2 for 224 subjects) assuming: a standard deviation (SD) of (21.6), an equivalent limit difference of (3.6), and a significance level of 0.05.||||<0.001
82595637|NCT00166205|164905307|SUPERIORITY_OR_OTHER||Mean|56.4|STANDARD_DEVIATION|14.7||||95.0|54.5|58.4||||||||58.4|54.5|
82595638|NCT00166205|164905308|SUPERIORITY_OR_OTHER||Mean|114.5|STANDARD_DEVIATION|32.3||||95.0|110.1|118.8||||||||118.8|110.1|
82595639|NCT00166205|164905309|SUPERIORITY_OR_OTHER||Mean|193.5|STANDARD_DEVIATION|36.9||||95.0|188.6|198.4||||||||198.4|188.6|
82595640|NCT00150592|164905314|SUPERIORITY_OR_OTHER_LEGACY|||||||0.844||95.0|||||ANCOVA|||||||0.844
82595641|NCT00150592|164905315|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274||95.0|||||ANCOVA|Mean reaction time (adjusted) for each randomized treatment group at endpoint.||||||0.274
82595642|NCT00150592|164905317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.307||95.0|||||ANCOVA|||Between errors||||0.307
82595643|NCT00150592|164905317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.552||95.0|||||ANCOVA|||Within errors||||0.552
82595644|NCT00150592|164905317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.917||95.0|||||ANCOVA|||Double errors||||0.917
82595645|NCT00150592|164905317|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068||95.0|||||ANCOVA|||Strategy||||0.068
82595646|NCT00150592|164905318|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.001
82595647|NCT00150592|164905319|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Cochran-Mantel-Haenszel|||||||0.007
82595648|NCT00150592|164905320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||ANCOVA|||||||0.02
82595649|NCT00150592|164905321|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231||95.0|||||ANCOVA|||||||0.231
82595650|NCT03787472|164905322|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least-Square Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|2.98|||TWO_SIDED|95.0|-5.5|6.6|||Linear Mixed Model|The Kenward and Roger method was used for the calculation of the denominator of degrees of freedom.|Mean difference was calculated as Test - Control|||6.6|-5.5|
82595651|NCT03787472|164905323|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.025|0.041|||Linear Mixed Model||Mean difference was calculated as Test - Control|Distance Standard High Contrast Bright||0.041|-0.025|
82595652|NCT03787472|164905323|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|-0.012|STANDARD_ERROR_OF_MEAN|0.0155|||TWO_SIDED|95.0|-0.043|0.019|||Linear Mixed Model||Mean difference was calculated as Test - Control|Intermediate Standard High Contrast Bright||0.019|-0.043|
82654424|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0033||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0033
82595653|NCT03787472|164905323|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the upper confidence limit of LSM difference is below the non-inferiority margin 0.05 logMAR.|Least-Square Mean Difference|0.003|STANDARD_ERROR_OF_MEAN|0.0169|||TWO_SIDED|95.0|-0.03|0.037|||Linear Mixed Model||Mean difference was calculated as Test - Control|Near Standard High Contrast Bright||0.037|-0.030|
82595654|NCT02227693|164905334|OTHER||Difference of responder rate vs. placebo|19.5||||0.146|TWO_SIDED|95.0|-18.1|57.0|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||57.0|-18.1|0.146
82595655|NCT02227693|164905334|OTHER||Difference of responder rate vs. placebo|54.5||||0.004|TWO_SIDED|95.0|21.4|87.7|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||87.7|21.4|0.004
82595656|NCT02227693|164905334|OTHER||Difference of responder rate vs. placebo|30.9||||0.024|TWO_SIDED|95.0|-3.9|65.7|||Shirley-Williams test|P-value is based on Shirley-Williams test at a one-sided significance level of α = 0.025.|Difference of responder rate vs. placebo = responder rate for avatrombopag - responder rate for placebo; 95% CI is calculated based on normal approximation.|||65.7|-3.9|0.024
82595657|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|14.3||||0.388|TWO_SIDED|95.0|-11.6|40.2||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 3 (Day 4 or Day 5)||40.2|-11.6|0.388
82595658|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|27.3||||0.214|TWO_SIDED|95.0|1.0|53.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 3 (Day 4 or Day 5)||53.6|1.0|0.214
82595659|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|62.3||||0.012|TWO_SIDED|95.0|24.8|99.9||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||99.9|24.8|0.012
82595660|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|72.7||||0.001|TWO_SIDED|95.0|44.3|100.0||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||100.0|44.3|0.001
82595661|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|40.9||||0.063|TWO_SIDED|95.0|5.6|76.2||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||76.2|5.6|0.063
82595662|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|-27.3||||0.245|TWO_SIDED|95.0|-53.6|-1.0||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||-1.0|-53.6|0.245
82595663|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|27.3||||0.386|TWO_SIDED|95.0|-12.2|66.8||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||66.8|-12.2|0.386
82595664|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|-7.3||||1|TWO_SIDED|95.0|-43.4|28.9||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||28.9|-43.4|1.000
82595665|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|-18.2||||0.496|TWO_SIDED|95.0|-41.0|4.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||4.6|-41.0|0.496
82595666|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|-9.1||||1|TWO_SIDED|95.0|-37.5|19.3||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||19.3|-37.5|1.000
82595667|NCT02227693|164905335|OTHER||Difference of proportion vs. placebo|-18.2||||0.476|TWO_SIDED|95.0|-41.0|4.6||P-value is based on Fisher's exact test at a two-sided significance level of α = 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 6 (Day 35)||4.6|-41.0|0.476
82595668|NCT02227693|164905336|OTHER||Difference of proportion vs. placebo|63.6||||0.003|TWO_SIDED|95.0|35.2|92.1||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||92.1|35.2|0.003
82654425|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2053||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.2053
82491597|NCT01681472|164676463|OTHER||Correlation factor|0.20955||||0.6903|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.6903
82491598|NCT01681472|164676463|OTHER||Correlation factor|0.74459||||0.0341|TWO_SIDED||||||Pearson Correlation|||Correlation for MTHFD1L gene expression||||0.0341
82595669|NCT02227693|164905336|OTHER||Difference of proportion vs. placebo|30.0||||0.09|TWO_SIDED|95.0|1.6|58.4||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 4 (Day 10)||58.4|1.6|0.090
82595670|NCT02227693|164905336|OTHER||Difference of proportion vs. placebo|10.0||||0.476|TWO_SIDED|95.0|-8.6|28.6||P-value is based on Fisher's exact test at a two-sided significance level of α= 0.05.|Fisher Exact||Difference of proportion vs. placebo = proportion of responders for avatrombopag - proportion of responders for placebo; 95% CI is calculated based on normal approximation.|Visit 5 (Day 17)||28.6|-8.6|0.476
82595671|NCT02227693|164905339|OTHER|||||||0.296||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.296
82595672|NCT02227693|164905339|OTHER|||||||0.07||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.070
82595673|NCT02227693|164905339|OTHER|||||||0.138||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 3 (Day 4 or Day 5)||||0.138
82595674|NCT02227693|164905339|OTHER|||||||0.012||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.012
82654426|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0032||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||GTSE1 211040\_x\_at||||0.0032
82595675|NCT02227693|164905339|OTHER|||||||0.001||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.001
82595676|NCT02227693|164905339|OTHER|||||||0.001||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 4 (Day 10)||||0.001
82595677|NCT02227693|164905339|OTHER|||||||0.624||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.624
82595678|NCT02227693|164905339|OTHER|||||||0.009||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.009
82595679|NCT02227693|164905339|OTHER|||||||0.01||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 5 (Day 17)||||0.010
82595680|NCT02227693|164905339|OTHER|||||||0.154||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.154
82491599|NCT01681472|164676463|OTHER||Correlation factor|0.50966||||0.2426|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.2426
82595681|NCT02227693|164905339|OTHER|||||||0.216||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.216
82595682|NCT02227693|164905339|OTHER|||||||0.901||||||P-value is based on Wilcoxon rank sum test at a two-sided significance level of α = 0.05 for each avatrombopag treatment group vs. placebo.|Wilcoxon (Mann-Whitney)|||Visit 6 (Day 35)||||0.901
82491600|NCT01681472|164676463|OTHER||Correlation factor|0.67853||||0.0643|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.0643
82595683|NCT00874120|164905346|SUPERIORITY_OR_OTHER||residual error term from the ANOVA|-0.5||||0.548|TWO_SIDED|95.0|-2.0|1.1||P-value is based on an ANOVA model including sequence, subject within sequence, period and treatment as factors.|ANOVA|||||1.1|-2.0|0.5480
82595684|NCT03615183|164905352|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a longitudinal data analysis (LDA) model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.36|||||||||||||Posterior Probability (PP) of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 99.72%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
82595685|NCT03615183|164905352|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-1.63|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 99.86%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
82595686|NCT03615183|164905352|SUPERIORITY|Adjusted by Placebo data pooled from historical placebo data from recent monotherapy studies in HIV-1 infected participants (NCT00100048, NCT01466985, NCT01152255, and NCT01353898) and fitted with a LDA model containing fixed effects for study and time, and a random effect for participants.|Posterior Mean Difference|-0.92|||||||||||||PP of true mean difference in the plasma HIV-1 RNA change from baseline between MK-8527 and placebo ≤ -1.0 copies/mL was 9.42%.|It was hypothesized that the true mean difference in the plasma HIV-1 RNA reduction from baseline between MK- 8527 and placebo is at least 1.0 log10 copies/mL.||||
82595687|NCT01977781|164905369|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Wilcoxon (Mann-Whitney)|||Only the statistical analysis results for burning sensation at 10 weeks are reported below as they where the only tolerability results found to be significantly different between the two arms. All other tolerability measures were found to be the same between the two groups.||||0.0019
82654427|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6783||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.6783
82595688|NCT03187769|164905390|SUPERIORITY||Least Squares Mean Difference|-1.87||||0.012|TWO_SIDED|95.0|-3.33|-0.41|||ANCOVA|||||-.41|-3.33|.012
82595689|NCT01097746|164905407|SUPERIORITY||Hazard Ratio (HR)|1.71||||0.33|TWO_SIDED|95.0|0.58|4.98|||t-test, 2 sided|||Participants for optimal ≤ 1 cm||4.98|0.58|0.33
82595690|NCT01097746|164905407|SUPERIORITY||Hazard Ratio (HR)|3.75||||0.04|TWO_SIDED|95.0|1.05|13.34|||t-test, 2 sided|||suboptimal \> 1 cm||13.34|1.05|0.04
82595691|NCT02495844|164905410|SUPERIORITY||Odds Ratio (OR)|4.14|||=|0.0679|TWO_SIDED|95.0|0.9|19.06|||Regression, Logistic|||||19.06|0.90|=0.0679
82595692|NCT00847912|164905443|SUPERIORITY_OR_OTHER_LEGACY|||||||0.93|||||||Log Rank|||||||0.93
82595693|NCT00847912|164905444|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.01||||0.93|TWO_SIDED|95.0|0.82|1.24|||Regression, Cox|||||1.24|0.82|0.93
82595694|NCT01560780|164905474|SUPERIORITY|||||||0.78|||||||Fisher Exact|||||||0.78
82595695|NCT01560780|164905475|EQUIVALENCE|safety end-point with p-value of \<0.05|||||>|0.99|||||||Log Rank|||||||>0.99
82595696|NCT01560780|164905476|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
82595697|NCT01560780|164905477|SUPERIORITY|||||||0.85|||||||t-test, 2 sided|||||||0.85
82595698|NCT01560780|164905478|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82595699|NCT01560780|164905480|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||||||0.97
82595700|NCT02797808|164905521|SUPERIORITY||||||<|0.0083||||||Independent-sample t tests were used to compare the RSFC metrics between groups at baseline and 12 weeks. Bonferroni correction was applied to the alpha level (2-tailed, p\<.05/6= .0083) for multiple testing.|ANOVA|||||||<0.0083
82595701|NCT00768521|164905559|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.18||||0.008||90.0|7.58|41.06||1-sided, alpha = 0.05|ANCOVA|Baseline used as covariate.|Primary Hypothesis: Tolterodine LA 4 mg is superior to placebo with respect to change from baseline in maximum cystometric capacity at 4 hours post Dose 7 (i.e., steady state). The expected treatment effect is targeted at 40 mL.|||41.06|7.58|0.008
82595702|NCT00768521|164905560|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63||||0.422||90.0|-11.5|16.71||1-sided, alpha = 0.05|ANCOVA|Baseline used as covariate.||||16.71|-11.5|0.422
82595703|NCT01505634|164905583|NON_INFERIORITY|Non-inferiority for the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group was demonstrated if the lower bound of the 95% CI was not lower than the pre-specified non-inferiority margin of -15%.|Percent Difference|-3.1||||0.005|TWO_SIDED|95.0|-11.2|3.2|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Difference (Diff) in Favorable MR||3.2|-11.2|0.005
82595704|NCT01505634|164905583|NON_INFERIORITY|Non-inferiority for the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group was demonstrated if the lower bound of the 95% CI was not lower than the pre-specified non-inferiority margin of -15%.|Percent Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-6.4|5.9|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Favorable MR||5.9|-6.4|< 0.001
82595705|NCT01505634|164905584|OTHER|ECI #1 is a confirmed elevated AST or ALT ≥5X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|1.0||||0.315|TWO_SIDED|95.0|-2.7|5.5|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with Event of Clinical Interest (ECI) #1||5.5|-2.7|0.315
82595706|NCT01505634|164905584|OTHER|ECI #1 is a confirmed elevated AST or ALT ≥5X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|1.0||||0.315|TWO_SIDED|95.0|-2.7|5.5|||Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with ECI #1||5.5|-2.7|0.315
82595707|NCT01505634|164905585|OTHER|Event of Clinical Interest (ECI) #2 is elevated AST or ALT ≥3X ULN, elevated total bilirubin ≥2X ULN, and with an ALP \<2X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 250 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|3.8||No participants met the criteria for ECI #2.|Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff Participants with ECI #2||3.8|-3.7|> 0.999
82595708|NCT01505634|164905585|OTHER|Event of Clinical Interest (ECI) #2 is elevated AST or ALT ≥3X ULN, elevated total bilirubin ≥2X ULN, and with an ALP \<2X ULN. Inferential testing for statistical significance with p-values and 95% confidence intervals was performed to provide a comparison between the relebactam 125 mg + imipenem/cilastatin group versus the Placebo for relebactam + imipenem/cilastatin group.|Percent Difference|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|3.8||No participants met the criteria for ECI #2.|Miettinen and Nurminen||Relebactam minus Placebo|Percent Diff in Participants with ECI #2||3.8|-3.7|> 0.999
82595709|NCT01505634|164905586|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.7||||||95.0|-14.3|10.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs||10.9|-14.3|
82595710|NCT01505634|164905586|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-0.7|||||TWO_SIDED|95.0|-13.4|12.0|||||Relebactam minus Placebo|Percent Diff in Participants with AEs||12.0|-13.4|
82595711|NCT01505634|164905587|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-5.8|5.9|||||Relebactam minus Placebo|Percent Diff in Participants with SAEs||5.9|-5.8|
82654428|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.1630
82491601|NCT01681472|164676463|OTHER||Correlation factor|0.05531||||0.9171|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.9171
82595712|NCT01505634|164905587|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-7.6|2.8|||||Relebactam minus Placebo|Percent Diff in Participants with SAEs||2.8|-7.6|
82595713|NCT01505634|164905588|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.1|||||TWO_SIDED|95.0|-7.5|9.8|||||Relebactam minus Placebo|Percent Diff in Participants with DR AEs||9.8|-7.5|
82595714|NCT01505634|164905588|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.1|||||TWO_SIDED|95.0|-8.4|8.6|||||Relebactam minus Placebo|Percent Diff in Participants with DR AEs||8.6|-8.4|
82595715|NCT01505634|164905589|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6|||||Relebactam minus Placebo|Percent Diff in Participants with DR SAEs||4.6|-4.5|
82595716|NCT01505634|164905589|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-5.5|2.8|||||Relebactam minus Placebo|Percent Diff in Participants with DR SAEs||2.8|-5.5|
82595717|NCT01505634|164905590|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.0|||||TWO_SIDED|95.0|-4.4|6.8|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to AEs||6.8|-4.4|
82595718|NCT01505634|164905590|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-6.1|3.7|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to AEs||3.7|-6.1|
82595719|NCT01505634|164905591|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.0|||||TWO_SIDED|95.0|-3.6|6.2|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to DR AEs||6.2|-3.6|
82595720|NCT01505634|164905591|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-4.5|4.6|||||Relebactam minus Placebo|Percent Diff in Participants with Discons Due to DR AEs||4.6|-4.5|
82595721|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|1.1|||||TWO_SIDED|95.0|-5.5|7.8|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Diarrhoea||7.8|-5.5|
82595722|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-8.1|3.6|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Diarrhoea||3.6|-8.1|
82654429|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2944||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 209792\_s\_at||||0.2944
82654430|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.3727||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.3727
82595723|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|0.0|||||TWO_SIDED|95.0|-6.4|6.5|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Nausea||6.5|-6.4|
82595724|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|2.1|||||TWO_SIDED|95.0|-4.6|9.2|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Nausea||9.2|-4.6|
82595725|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Bacteriuria||1.9|-9.0|
82595726|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-2.0|||||TWO_SIDED|95.0|-8.1|3.6|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Bacteriuria||3.6|-8.1|
82595727|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: White blood cells urine positive||1.9|-9.0|
82595728|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-3.0|||||TWO_SIDED|95.0|-9.0|1.9|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: White blood cells urine positive||1.9|-9.0|
82654431|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.8796||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.8796
82595729|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|3.1|||||TWO_SIDED|95.0|-3.7|10.4|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Headache||10.4|-3.7|
82595730|NCT01505634|164905592|OTHER|Difference in percentage and 95% CI are based on unconditional and asymptotic Miettinen and Nurminen method.|Percent Difference|-1.0|||||TWO_SIDED|95.0|-7.2|5.1|||||Relebactam minus Placebo|Percent Diff in Participants with AEs with Rate ≥4: Headache||5.1|-7.2|
82595731|NCT03817775|164905601|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82595732|NCT03817775|164905602|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82595733|NCT03817775|164905603|OTHER|||||||0.7215|||||||Wilcoxon (Mann-Whitney)|||||||0.7215
82595734|NCT03817775|164905604|OTHER|||||||0.5675|||||||Wilcoxon (Mann-Whitney)|||||||0.5675
82595735|NCT03817775|164905605|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82654432|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.8344||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK10 215808\_at||||0.8344
82654433|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.2700
82595736|NCT02572752|164905638|SUPERIORITY_OR_OTHER||gMean Ratio|97.478|STANDARD_ERROR_OF_MEAN|11.57|<|0.0001|TWO_SIDED|90.0|94.545|100.502|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed||100.502|94.545|<0.0001
82595737|NCT02572752|164905639|SUPERIORITY_OR_OTHER||gMean Ratio|97.004|STANDARD_ERROR_OF_MEAN|20.77|<|0.0001|TWO_SIDED|90.0|90.948|103.463|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An ANOVA model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed.||103.463|90.948|<0.0001
82595738|NCT02572752|164905640|SUPERIORITY_OR_OTHER||gMean Ratio|97.149|STANDARD_DEVIATION|11.4|<|0.0001|TWO_SIDED|90.0|94.223|100.166|||ANOVA||Relative bioavailability was estimated by the ratios of the gMean of nin Test treatment (T) divided by nin Reference treatment (R1 \& R2). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An ANOVA model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment (without differentiation between R1 and R2). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. For the two 1-sided t-test procedure, the effect 'subjects within sequences' was considered to be random, whereas the other effects were considered to be fixed||100.166|94.223|<0.0001
82595739|NCT01500759|164905668|OTHER||Odds Ratio (OR)|1.9|||||TWO_SIDED|95.0||||||||||||
82595740|NCT01500759|164905669|OTHER||Odds Ratio (OR)|1.19|||||TWO_SIDED|95.0||||||||||||
82595741|NCT01500759|164905670|OTHER||Odds Ratio (OR)|0.92|||||TWO_SIDED|||||||||||||
82595742|NCT01500759|164905671|OTHER||Odds Ratio (OR)|1.12|||||TWO_SIDED|95.0||||||||||||
82595743|NCT02813551|164905724|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.53|1.1||||||||1.10|0.53|
82654434|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2624||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.2624
82595744|NCT02813551|164905725|SUPERIORITY||Risk Ratio (RR)|1.2|||||TWO_SIDED|95.0|0.4|3.3||||||||3.3|0.4|
82595745|NCT02813551|164905726|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|0.3|28.0||||||||28|0.3|
82654435|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK5 222242\_s\_at||||0.0830
82654436|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0849||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.0849
82654437|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6578||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.6578
82595746|NCT02813551|164905727|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|1.0|1.3||||||||1.3|1.0|
82595747|NCT02813551|164905730|SUPERIORITY||Risk Ratio (RR)|1.1|||||TWO_SIDED|95.0|1.0|1.2||||||||1.2|1.0|
82595748|NCT02813551|164905731|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.5|1.9||||||||1.9|0.5|
82595749|NCT02813551|164905732|SUPERIORITY||Risk Ratio (RR)|0.4|||||TWO_SIDED|95.0|0.1|2.9||||||||2.9|0.1|
82595750|NCT00102960|164905737|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.59||||0.02|TWO_SIDED|95.0|0.38|0.93|||Regression, Cox|||Statistical analysis compares early therapy 40 weeks (ART-40W) relative to deferred therapy (ART-Def)||0.93|0.38|0.02
82595751|NCT00102960|164905737|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.47||||0.002|TWO_SIDED|95.0|0.27|0.76|||Regression, Cox|||Statistical analysis compares early therapy 96 weeks (ART-96W) relative to deferred therapy (ART-Def)||0.76|0.27|0.002
82595752|NCT00102960|164905742|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Cummulative Probability|0.13||||0.03|TWO_SIDED|95.0|0.01|0.25|||Proportion test|||Relative to ART-Def, ART-40W had a 13% difference in the cumulative probability of clinical disease progression or death at 3·5 years||0.25|0.01|0.03
82595753|NCT00102960|164905742|SUPERIORITY||Kaplan-Meier Cummulative Probability|0.2||||0.0006|TWO_SIDED|95.0|0.09|0.31|||Proportion test|||Relative to ART-Def, ART-96W had a 13% difference in the cumulative probability of clinical disease progression or death at 3·5 years||0.31|0.09|0.0006
82595754|NCT00102960|164905743|SUPERIORITY_OR_OTHER_LEGACY||Rate per 100 person years|0.0|||<|0.0001|TWO_SIDED|||||This p-value compares event rates per 100 person-years across the three arms|Poisson Regression|||The CHER study compared Grade 3 or 4 clinical event rates per 100 person-years between the three arms using Poisson regression modeling over the study duration of 4.8 years.|The rates per 100 person-years were 33.8 (Arm 1), 21.6 (Arm 2) and 16 (Arm 3)|||<0.0001
82595755|NCT00102960|164905744|SUPERIORITY||Rate per 100 person years|0.0||||0.46|TWO_SIDED||||||Poisson regression|||The event rates per 100 person years were compared across the three arms|The laboratory events per 100 person years across the three arms were: 7 (Deferred arm), 8.1 (early therapy for 40 weeks) and 6 (early therapy for 96 weeks).|||0.46
82654438|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0396||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||KLK6 204733\_at||||0.0396
82595756|NCT00102960|164905747|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.48||||0.011|TWO_SIDED|95.0|0.27|0.84|||Regression, Cox||Hazard rate reported above compares early therapy 40 weeks relative to the deferred therapy arm.|The analysis compares ART-40W relative to the ART-Def arm.||0.84|0.27|0.011
82595757|NCT00102960|164905747|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.34||||0.0009|TWO_SIDED|95.0|0.18|0.64|||Regression, Cox||The hazard ratio compares ART-96W relative to the ART-Def arm.|The analysis compares ART-96 Weeks relative to ART-Deferred||0.64|0.18|0.0009
82595758|NCT00102960|164905749|SUPERIORITY||Count of days|0.0||||0.004|TWO_SIDED|||||The p-value here compares the days spent in hospital across the three arms|Poisson regression||||The total number of days/count of days: 1018 (Arm 1), 533 (Arm 2) and 414 (Arm 3) were compared across the three groups by Poisson regression analysis.|||0.004
82595759|NCT00102960|164905750|SUPERIORITY||Hazard Ratio (HR)|0.562||||0.0021|TWO_SIDED|95.0|0.389|0.811|||Regression, Cox|||||0.811|0.389|0.0021
82595760|NCT00102960|164905750|SUPERIORITY||Hazard Ratio (HR)|0.583||||0.0038|TWO_SIDED|95.0|0.405|0.84|||Regression, Cox|||||0.840|0.405|0.0038
82595761|NCT01192022|164905767|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|2.55|9.29||Logistic regression model with treatment and pooled center as factors.|Regression, Logistic|||||9.29|2.55|<0.001
82595762|NCT00623480|164905796|SUPERIORITY_OR_OTHER||Ratio (On-Demand vs. Prophylaxis)|14.7|||<|0.0001|TWO_SIDED|95.0|8.1|26.5|||Negative Binomial Regression Model|Adjusted for time of follow-up||||26.5|8.1|<0.0001
82595763|NCT00623480|164905797|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|-0.17||||0.6614|TWO_SIDED|95.0|-0.92|0.59|||Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||0.59|-0.92|0.6614
82595764|NCT00623480|164905798|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|-0.94||||0.0072|TWO_SIDED|95.0|-1.61|-0.26|||Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||-0.26|-1.61|0.0072
82595765|NCT00623480|164905799|SUPERIORITY_OR_OTHER||estimated diff (prohylaxis vs. OD)|13.15|||||TWO_SIDED|95.0|5.23|21.08||no p-values computed|Based on cLDA model|Adjusted for presence/absence of target joint and prior 6 month bleeding frequency||||21.08|5.23|
82595766|NCT01877187|164905853|OTHER|||||||0.06||||||Statistical significance defined as p \<= .05. Result is for Day 30 timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||.06
82595767|NCT01877187|164905853|OTHER|||||||0.09||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||.09
82595768|NCT01877187|164905853|OTHER|||||||0.034||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.034
82595769|NCT01877187|164905855|OTHER|||||||0.19||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.19
82595770|NCT01877187|164905855|OTHER|||||||0.011||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.011
82595771|NCT01877187|164905855|OTHER|||||||0.94||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.94
82595772|NCT01877187|164905857|OTHER|||||||0.06||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.06
82595773|NCT01877187|164905857|OTHER|||||||0.017||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.017
82595774|NCT01877187|164905857|OTHER|||||||0.08||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.08
82595775|NCT01877187|164905859|OTHER|||||||0.02||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.020
82491602|NCT01681472|164676463|OTHER||Correlation factor|0.59183||||0.1222|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT1 gene expression||||0.1222
82595776|NCT01877187|164905859|OTHER|||||||0.029||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.029
82595777|NCT01877187|164905859|OTHER|||||||0.94||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.94
82595778|NCT01877187|164905861|OTHER|||||||0.06||||||Statistical significance defined as p \<= 0.05. Data for 30 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.06
82595779|NCT01877187|164905861|OTHER|||||||0.013||||||Statistical significance defined as p \<= 0.05. Data for 90 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.013
82595780|NCT01877187|164905861|OTHER|||||||0.67||||||Statistical significance defined as p \<= 0.05. Data for 180 day timepoint.|Wilcoxon (Mann-Whitney)|||Sample size of 60 achieves 80% power to detect a Pearson correlation coefficient of 0.35 with a two-sided significant level of 0.05. Sample size of 30 will allow for detecting a Pearson correlation coefficient of 0.49 in each subgroup.||||0.67
82595781|NCT04091087|164905874|SUPERIORITY||Least square (LS) mean difference|-14.36|STANDARD_ERROR_OF_MEAN|7.47||0.0299|TWO_SIDED|90.0|-26.87|-1.86||1-sided|ANOVA|||||-1.86|-26.87|0.0299
82595782|NCT04091087|164905875|SUPERIORITY||Difference in percentage of participants|3.33||||0.1546|TWO_SIDED|90.0|-2.06|8.72||1-sided|Normal approximation test|||||8.72|-2.06|0.1546
82595783|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|9.0||||0.0819|TWO_SIDED|90.0|-1.63|19.62||1-sided|Normal approximation test|||Week 1||19.62|-1.63|0.0819
82595784|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|-0.47||||0.4789|TWO_SIDED|90.0|-15.2|14.25||1-sided|Normal approximation test|||Week 2||14.25|-15.20|0.4789
82595785|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|-0.38||||0.4815|TWO_SIDED|90.0|-13.79|13.03||1-sided|Normal approximation test|||Week 3||13.03|-13.79|0.4815
82595786|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|-0.38||||0.4815|TWO_SIDED|90.0|-13.79|13.03||1-sided|Normal approximation test|||Week 4||13.03|-13.79|0.4815
82595787|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|8.9||||0.1197|TWO_SIDED|90.0|-3.55|21.35||1-sided|Normal approximation test|||Week 5||21.35|-3.55|0.1197
82595788|NCT04091087|164905876|SUPERIORITY||Difference in percentage of participants|18.18||||0.0034|TWO_SIDED|90.0|7.14|29.23||1-sided|Normal approximation test|||Week 6||29.23|7.14|0.0034
82595789|NCT04091087|164905877|SUPERIORITY||Difference in percentage of participants|5.13||||0.2896|TWO_SIDED|90.0|-10.09|20.34||1-sided|Normal approximation test|||||20.34|-10.09|0.2896
82595790|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|7.77||||0.2648|TWO_SIDED|90.0|-12.55|28.08||1-sided|Normal approximation test|||Week 1||28.08|-12.55|0.2648
82595791|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|17.05||||0.0809|TWO_SIDED|90.0|-2.99|37.08||1-sided|Normal approximation test|||Week 2||37.08|-2.99|0.0809
82595792|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|1.7||||0.445|TWO_SIDED|90.0|-18.58|21.99||1-sided|Normal approximation test|||Week 3||21.99|-18.58|0.4450
82595793|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|1.7||||0.445|TWO_SIDED|90.0|-18.58|21.99||1-sided|Normal approximation test|||Week 4||21.99|-18.58|0.4450
82595794|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|20.45||||0.0385|TWO_SIDED|90.0|1.43|39.48||1-sided|Normal approximation test|||Week 5||39.48|1.43|0.0385
82595795|NCT04091087|164905878|SUPERIORITY||Difference in percentage of participants|29.64||||0.0045|TWO_SIDED|90.0|10.95|48.33||1 sided|Normal approximation test|||Week 6||48.33|10.95|0.0045
82595796|NCT04091087|164905879|SUPERIORITY||LS mean Difference|3.88|STANDARD_ERROR_OF_MEAN|13.49||0.3874|TWO_SIDED|90.0|-18.67|26.43||1-sided|Normal approximation test|||Week 1||26.43|-18.67|0.3874
82595797|NCT04091087|164905879|SUPERIORITY||LS mean Difference|-4.47|STANDARD_ERROR_OF_MEAN|11.59||0.3506|TWO_SIDED|90.0|-23.85|14.91||1-sided|Normal approximation test|||Week 2||14.91|-23.85|0.3506
82595798|NCT04091087|164905879|SUPERIORITY||LS mean Difference|9.81|STANDARD_ERROR_OF_MEAN|14.23||0.2466|TWO_SIDED|90.0|-13.97|33.6||1-sided|Normal approximation test|||Week 3||33.60|-13.97|0.2466
82595799|NCT04091087|164905879|SUPERIORITY||LS mean Difference|34.74|STANDARD_ERROR_OF_MEAN|15.74||0.0157|TWO_SIDED|90.0|8.43|61.05||1-sided|Normal approximation test|||Week 4||61.05|8.43|0.0157
82595800|NCT04091087|164905879|SUPERIORITY||LS mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|14.55||0.4548|TWO_SIDED|90.0|-25.99|22.68||1-sided|Normal approximation test|||Week 5||22.68|-25.99|0.4548
82595801|NCT04091087|164905879|SUPERIORITY||LS mean Difference|-42.19|STANDARD_ERROR_OF_MEAN|11.99||0.0004|TWO_SIDED|90.0|-62.24|-22.15||1-sided|Normal approximation test|||Week 6||-22.15|-62.24|0.0004
82595802|NCT04091087|164905880|SUPERIORITY||LS mean difference|6.91|STANDARD_ERROR_OF_MEAN|9.65||0.2383|TWO_SIDED|90.0|-9.23|23.06||1 sided|ANOVA|||||23.06|-9.23|0.2383
82595803|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-29.95|STANDARD_ERROR_OF_MEAN|21.01||0.0797|TWO_SIDED|90.0|-65.09|5.18||1-sided|Normal approximation test|||Week 1||5.18|-65.09|0.0797
82595804|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-14.39|STANDARD_ERROR_OF_MEAN|18.79||0.2236|TWO_SIDED|90.0|-45.81|17.04||1-sided|Normal approximation test|||Week 2||17.04|-45.81|0.2236
82595805|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-9.94|STANDARD_ERROR_OF_MEAN|15.05||0.2559|TWO_SIDED|90.0|-35.12|15.24||1-sided|Normal approximation test|||Week 3||15.24|-35.12|0.2559
82595806|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-16.01|STANDARD_ERROR_OF_MEAN|22.44||0.2392|TWO_SIDED|90.0|-53.54|21.52||1-sided|Normal approximation test|||Week 4||21.52|-53.54|0.2392
82595807|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-13.01|STANDARD_ERROR_OF_MEAN|19.65||0.2553|TWO_SIDED|90.0|-45.87|19.85||1-sided|Normal approximation test|||Week 5||19.85|-45.87|0.2553
82595808|NCT04091087|164905881|SUPERIORITY||LS mean Difference|-53.01|STANDARD_ERROR_OF_MEAN|30.05||0.0416|TWO_SIDED|90.0|-103.26|-2.75||1-sided|Normal approximation test|||Week 6||-2.75|-103.26|0.0416
82654439|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1657||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1657
82595809|NCT00783094|164905893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.201|TWO_SIDED|95.0|-1.8|0.4|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo|||0.4|-1.8|0.201
82595810|NCT00783094|164905893|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.6||0.062|TWO_SIDED|95.0|-2.2|0.1|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.1|-2.2|0.062
82595811|NCT00783094|164905894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.356|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.2|-0.7|0.356
82595812|NCT00783094|164905894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.487|TWO_SIDED|95.0|-0.6|0.3|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.3|-0.6|0.487
82595813|NCT00783094|164905895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.228|TWO_SIDED|95.0|-1.3|0.3|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo|||0.3|-1.3|0.228
82595814|NCT00783094|164905895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.4||0.033|TWO_SIDED|95.0|-1.7|-0.1|||ANCOVA|With effects for treatment, prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||-0.1|-1.7|0.033
82595815|NCT00783094|164905896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.249|TWO_SIDED|95.0|-0.4|0.1|||ANCOVA|With effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.1|-0.4|0.249
82595816|NCT00783094|164905896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.022|TWO_SIDED|95.0|-0.6|0.0|||ANCOVA|With effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no) and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||-0.0|-0.6|0.022
82595817|NCT00783094|164905897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.904|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|with effects for treatment,BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.3|-0.4|0.904
82595818|NCT00783094|164905897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.8|TWO_SIDED|95.0|-0.4|0.3|||ANCOVA|With effects for treatment, BPH severity(moderate/severe), prior alpha blocker use (yes/no), and baseline value.||||0.3|-0.4|0.800
82595819|NCT00783094|164905898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.147|TWO_SIDED|95.0|-1.5|0.2|||ANCOVA|With effects for treatment, BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 2.5 mg - Placebo.|||0.2|-1.5|0.147
82595820|NCT00783094|164905898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.094|TWO_SIDED|95.0|-1.6|0.1|||ANCOVA|With effects for treatment, BPH severity (moderate/severe), prior alpha blocker use (yes/no), and baseline value.|Least Squares Mean Difference = Tadalafil 5 mg - Placebo.|||0.1|-1.6|0.094
82595821|NCT00783094|164905901|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||P-Value for systolic blood pressure.|Wilcoxin rank-sum test|||||||0.342
82595822|NCT00783094|164905901|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||P-Value for systolic blood pressure.|Wilcoxin rank sum test|||||||0.127
82595823|NCT00783094|164905901|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||P-Value for diastolic blood pressure.|Wilcoxin rank-sum test|||||||0.705
82595824|NCT00783094|164905901|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||P-Value for diastolic blood pressure.|Wilcoxin rank-sum test|||||||0.173
82595825|NCT00783094|164905902|SUPERIORITY_OR_OTHER|||||||0.606||95.0|||||Wilcoxin rank-sum test|||||||0.606
82595826|NCT00783094|164905902|SUPERIORITY_OR_OTHER|||||||0.149||95.0|||||Wilcoxin rank-sum test|||||||0.149
82595827|NCT00783094|164905903|SUPERIORITY_OR_OTHER|||||||0.428||95.0|||||Wilcoxin rank-sum test|||||||0.428
82595828|NCT00783094|164905903|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||Wilcoxin rank-sum test|||||||0.426
82595829|NCT00783094|164905904|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Wilcoxin rank-sum|||||||0.060
82595830|NCT00783094|164905904|SUPERIORITY_OR_OTHER|||||||0.212||95.0|||||Wilcoxin rank-sum|||||||0.212
82595831|NCT04152161|164905928|SUPERIORITY||Vaccine Efficacy|-0.049|||||TWO_SIDED|95.0|-0.431|0.23|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.230|-0.431|
82595832|NCT04152161|164905928|SUPERIORITY||Hazard Ratio (HR)|1.049||||0.6193|TWO_SIDED|95.0|0.77|1.431|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Hazard ratio was calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.431|0.770|0.6193
82595833|NCT04152161|164905929|SUPERIORITY||Vaccine Efficacy|-0.009|||||TWO_SIDED|95.0|-0.395|0.27|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.270|-0.395|
82595834|NCT04152161|164905929|SUPERIORITY||Hazard Ratio (HR)|1.009||||0.5224|TWO_SIDED|95.0|0.73|1.395|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Hazard ratio was calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.395|0.730|0.5224
82595835|NCT04152161|164905930|SUPERIORITY||Vaccine Efficacy|-0.049|||||TWO_SIDED|95.0|-0.431|0.23|||||Vaccine Efficacy (VE) = 1 - Hazard Ratio, with 95%CI equal to (VE lower limit, VE upper limit) = (1 - Hazard Ratio upper limit, 1 - Hazard Ratio lower limit)|||0.230|-0.431|
82595836|NCT04152161|164905930|SUPERIORITY||Hazard Ratio (HR)|1.049||||0.6193|TWO_SIDED|95.0|0.77|1.431|||Log Rank|The 1-sided p-value from the log-rank test was stratified by sex and age group.|Calculated using a stratified Cox proportional hazards model, with sex and age group (10-11 years, 12-14 years, and \>14 years) as stratification variables.|||1.431|0.770|0.6193
82595837|NCT05525533|164905940|SUPERIORITY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-1.87|2.24|||Regression, Linear|||||2.24|-1.87|
82595838|NCT05525533|164905940|SUPERIORITY||Mean Difference (Final Values)|1.55|||||TWO_SIDED|95.0|-0.73|3.82|||Regression, Linear|||||3.82|-0.73|
82595839|NCT05525533|164905942|SUPERIORITY||Mean Difference (Final Values)|7.58|||||TWO_SIDED|95.0|-2.92|18.0|||Regression, Linear|||||18|-2.92|
82595840|NCT05525533|164905942|SUPERIORITY||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|0.64|31.0|||Regression, Linear|||||31|0.64|
82595841|NCT05525533|164905944|SUPERIORITY||Mean Difference (Final Values)|47.0|||||TWO_SIDED|95.0|-18.0|113.0|||Regression, Linear|||||113|-18|
82595842|NCT05525533|164905944|SUPERIORITY||Mean Difference (Final Values)|113.0|||||TWO_SIDED|95.0|38.0|189.0|||Regression, Linear|||||189|38|
82595843|NCT05525533|164905945|SUPERIORITY||Mean Difference (Final Values)|3.63|||||TWO_SIDED|95.0|-1.37|8.63|||Regression, Linear|||||8.63|-1.37|
82595844|NCT05525533|164905945|SUPERIORITY||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-1.5|4.5|||Regression, Linear|||||4.50|-1.50|
82595845|NCT05525533|164905946|SUPERIORITY||Mean Difference (Final Values)|1.32|||||TWO_SIDED|95.0|-0.36|7.3|||Regression, Linear|||||7.30|-0.36|
82595846|NCT05525533|164905946|SUPERIORITY||Mean Difference (Final Values)|3.38|||||TWO_SIDED|95.0|-0.54|7.3|||Regression, Linear|||||7.30|-0.54|
82595847|NCT05525533|164905947|SUPERIORITY||Mean Difference (Final Values)|0.17|||||TWO_SIDED|95.0|-3.38|3.72|||Regression, Linear|||||3.72|-3.38|
82595848|NCT05525533|164905947|SUPERIORITY||Mean Difference (Final Values)|7.57|||||TWO_SIDED|95.0|0.42|15.0|||Regression, Linear|||||15|0.42|
82595849|NCT05525533|164905948|SUPERIORITY||Mean Difference (Final Values)|2.46|||||TWO_SIDED|95.0|-0.11|5.02|||Regression, Linear|||||5.02|-0.11|
82595850|NCT05525533|164905948|SUPERIORITY||Mean Difference (Final Values)|3.29|||||TWO_SIDED|95.0|0.33|6.25|||Regression, Linear|||||6.25|0.33|
82595851|NCT03703102|164905949|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
82595852|NCT03703102|164905949|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
82595853|NCT03703102|164905949|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
82595854|NCT03703102|164905949|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||< 0.001
82595855|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.21||0.113|TWO_SIDED|95.0|-0.74|0.08|||ANCOVA|||Treatment difference and 95 percent (%) confidence interval (CI) was based on least squares (LS) mean. Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.08|-0.74|0.113
82595856|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.19|-0.42|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.42|-1.19|<0.001
82595857|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.31|-0.54|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.54|-1.31|<0.001
82595858|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.2||0.688|TWO_SIDED|95.0|-0.31|0.47|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.47|-0.31|0.688
82595859|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.76|-0.03|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.03|-0.76|0.035
82595860|NCT00876187|164905973|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.19||0.006|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-0.88|0.006
82595861|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.18||0.221|TWO_SIDED|95.0|-0.57|0.13|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.13|-0.57|0.221
82595862|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-0.90|<0.001
82595863|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.027|TWO_SIDED|95.0|-0.7|-0.04|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.04|-0.70|0.027
82595864|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.17||0.082|TWO_SIDED|95.0|-0.04|0.62|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.62|-0.04|0.082
82595865|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.703|TWO_SIDED|95.0|-0.37|0.25|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.25|-0.37|0.703
82595866|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.16||0.379|TWO_SIDED|95.0|-0.17|0.45|||ANCOVA|||Change at Week 2: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.45|-0.17|0.379
82595867|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.19||0.012|TWO_SIDED|95.0|-0.87|-0.11|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.11|-0.87|0.012
82595868|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.39|-0.67|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.67|-1.39|<0.001
82595869|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.31|-0.58|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.31|<0.001
82595870|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.18||0.862|TWO_SIDED|95.0|-0.33|0.39|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.39|-0.33|0.862
82595871|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.85|-0.17|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.85|0.003
82595872|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.014|TWO_SIDED|95.0|-0.76|-0.09|||ANCOVA|||Change at Week 4: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.09|-0.76|0.014
82595873|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.2||0.019|TWO_SIDED|95.0|-0.86|-0.08|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-0.86|0.019
82654440|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0675||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.0675
82654441|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1071||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201476\_s\_at||||0.1071
82654442|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0142||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0142
82654443|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2465||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.2465
82654444|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0031||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||RRM1 201477\_s\_at||||0.0031
82654445|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1231||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.1231
82595874|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.25|-0.51|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.51|-1.25|<0.001
82595875|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.29|-0.56|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.56|-1.29|<0.001
82595876|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.19||0.668|TWO_SIDED|95.0|-0.45|0.29|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.29|-0.45|0.668
82654446|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0849||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.0849
82654447|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.274||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 211714\_x\_at||||0.2740
82595877|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.005|TWO_SIDED|95.0|-0.84|-0.15|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-0.84|0.005
82654448|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2383||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2383
82654449|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0644||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.0644
82654450|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2866||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 212320\_at||||0.2866
82654451|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1259||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.1259
82595878|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.18||0.002|TWO_SIDED|95.0|-0.88|-0.19|||ANCOVA|||Change at Week 8: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-0.88|0.002
82595879|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.22||0.032|TWO_SIDED|95.0|-0.89|-0.04|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.04|-0.89|0.032
82595880|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.81|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.21|-0.41|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.21|<0.001
82595881|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.28|-0.48|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.48|-1.28|<0.001
82595882|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.2||0.773|TWO_SIDED|95.0|-0.46|0.34|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.34|-0.46|0.773
82595883|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.035|TWO_SIDED|95.0|-0.78|-0.03|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.03|-0.78|0.035
82595884|NCT00876187|164905976|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.19||0.014|TWO_SIDED|95.0|-0.85|-0.1|||ANCOVA|||Change at Week 12: Treatment difference and 95% CI was based on LS mean. ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-0.85|0.014
82595885|NCT00794677|164905993|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.252|STANDARD_ERROR_OF_MEAN|0.112||0.03||95.0|||||ANOVA|||Statistical significance was determined for a standard two-period crossover design using JMP software (Version 5.0, SAS Institute. Cary, NC).||||0.03
82595886|NCT00794677|164905994|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.273|STANDARD_ERROR_OF_MEAN|0.102||0.01||95.0|||||ANOVA|||||||0.01
82595887|NCT00794677|164905995|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.048|STANDARD_ERROR_OF_MEAN|0.089||0.6||95.0|||||ANOVA|||||||0.60
82595888|NCT00794677|164905996|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.209|STANDARD_ERROR_OF_MEAN|0.47||0.67||95.0|||||ANOVA|||||||0.67
82595889|NCT00794677|164905997|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.14||0.3||95.0|||||ANOVA|||||||0.30
82595890|NCT00794677|164905998|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-15.412|STANDARD_ERROR_OF_MEAN|1.569|<|0.0001|TWO_SIDED|95.0|||||ANOVA|||||||<0.0001
82595891|NCT00794677|164905999|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.846|STANDARD_ERROR_OF_MEAN|2.866|<|1e-07|TWO_SIDED|95.0|||||ANOVA|||||||<0.0000001
82595892|NCT00794677|164906000|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.397|STANDARD_ERROR_OF_MEAN|1.893||0.009|TWO_SIDED|95.0|||||ANOVA|||||||0.009
82595893|NCT00794677|164906001|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-21.353|STANDARD_ERROR_OF_MEAN|2.22|<|1e-07|TWO_SIDED|95.0|||||ANOVA|||||||<0.0000001
82595894|NCT01265797|164906030|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare outcome measures between two treatment groups in the run-in month minus blinded month||The a priori alpha level was set at p \< 0.05, and a power of 0.80 (80%) was used to compute the number of subjects needed to find a meaningful difference between the verum and sham groups. Assuming that 20% of persons with the sham device and 60% of persons with CES device will meet the primary end point of ≥50% decrease in the frequency of headache days over the course of the study, 27 subjects are enrolled per group.||||0.30
82595895|NCT01265797|164906031|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.89|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare secondary outcome measures between two treatment groups in the run-in month minus open label month||||||0.89
82595896|NCT01265797|164906032|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.30
82595897|NCT01265797|164906033|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.98|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney U test was used to compare the primary and secondary outcome measures between the two treatment groups.||The a priori alpha level was set at p \< 0.05, and beta 0.2. Assuming that 20% of persons with the sham device and 60% of persons with CES device will meet the primary end point of ≥50% decrease in the frequency of headache days over the course of the study, 27 subjects are enrolled per group. The null hypothesis: No difference in the depression score/14 day recall between the two groups.||||0.98
82595898|NCT01265797|164906034|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.75
82595899|NCT01265797|164906035|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.73|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.73
82595900|NCT01265797|164906036|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74||||0.02|TWO_SIDED|||||Change in mean anxiety score/ 14 day recall from the blinded period to open label period|Wilcoxon (Mann-Whitney)|||||||0.02
82595901|NCT01265797|164906037|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.98|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.98
82491603|NCT01681472|164676463|OTHER||Correlation factor|0.8104||||0.0271|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.0271
82595902|NCT01265797|164906038|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.97
82595903|NCT01265797|164906039|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.87|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.87
82595904|NCT01265797|164906040|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.83|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.83
82491604|NCT01681472|164676463|OTHER||Correlation factor|0.86266||||0.0058|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.0058
82595905|NCT01265797|164906041|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.92
82595906|NCT04341441|164906060|SUPERIORITY|Sample size was determined with one planned interim analysis when 50% of participants had completed their 8 weeks of treatment using an O'Brien-Fleming alpha spending method to ensure an overall type 1 error of 0.05. With a sample size of 900 per group and alpha = 0.0492, the power to detect a 32% reduction in COVID-19 disease rate (10% vs 6.8%) between the placebo and HCQ treated groups, determined at 87%. Study required 1000 per group with a total of 3000 patients to complete the trial.|Risk Ratio (RR)|0.32||||0.75|TWO_SIDED|||||P-value for the comparison between groups, including the non-randomized active comparator, was 0.75.|Mantel Haenszel||Low number of primary events precluded estimated value of risk ratio.|||||0.75
82595907|NCT01783080|164906077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.4||||0.005|TWO_SIDED||||||Regression, Linear|||||||0.005
82595908|NCT01783080|164906079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.11|TWO_SIDED||||||Regression, Linear|||||||0.11
82595909|NCT02076997|164906081|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82595910|NCT02076997|164906087|OTHER|||||||||||||||||There was no statistical analysis performed for this aim as it was descriptive|There was no statistical analysis performed for this aim as it was descriptive|||
82595911|NCT02076997|164906088|OTHER||Odds Ratio (OR)|6.7|||||TWO_SIDED|95.0||||||||||||
82595912|NCT02533063|164906089|SUPERIORITY|||||||0.217|||||||ANOVA|||||||0.217
82595913|NCT02533063|164906090|SUPERIORITY|||||||0.501|||||||ANOVA|||||||0.501
82654452|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0718||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.0718
82595914|NCT02533063|164906091|SUPERIORITY|||||||0.151|||||||ANOVA|||||||0.151
82595915|NCT02533063|164906092|SUPERIORITY|||||||0.45|||||||ANOVA|||||||0.450
82595916|NCT02533063|164906093|SUPERIORITY|||||||0.678|||||||ANOVA|||||||0.678
82595917|NCT02533063|164906094|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.060
82595918|NCT02533063|164906097|SUPERIORITY|||||||0.483|||||||ANOVA|||||||0.483
82595919|NCT00708123|164906124|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.97||||0.0265|TWO_SIDED|95.0|0.47|7.48||No adjustment was made for multiple comparisons as primary comparisons were pre-defined.|ANOVA|The analysis included factors treatment, period and subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||7.48|0.47|0.0265
82595920|NCT00708123|164906124|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.66||||0.0017|TWO_SIDED|95.0|2.15|9.18||No adjustment was made for multiple comparisons as primary comparisons were pre-defined.|ANOVA|The analysis included factors as treatment, period and subject as a random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||9.18|2.15|0.0017
82595921|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|-1.69||||0.3413|TWO_SIDED|95.0|-5.19|1.8||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1.80|-5.19|0.3413
82654453|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.317||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB 209026\_x\_at||||0.3170
82595922|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.26|||<|0.0001|TWO_SIDED|95.0|6.76|13.76||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||13.76|6.76|<0.0001
82595923|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|13.19|||<|0.0001|TWO_SIDED|95.0|9.69|16.68||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||16.68|9.69|<0.0001
82595924|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.57|||<|0.0001|TWO_SIDED|95.0|5.09|12.05||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||12.05|5.09|<0.0001
82595925|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.5|||<|0.0001|TWO_SIDED|95.0|8.01|14.98||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||14.98|8.01|<0.0001
82654454|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.7844||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.7844
82654455|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.4688||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.4688
82654456|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.8553||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB1 208601\_s\_at||||0.8553
82654457|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6926||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.6926
82654458|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2222||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.2222
82595926|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.59||||0.0104|TWO_SIDED|95.0|-8.1|-1.09||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||-1.09|-8.10|0.0104
82595927|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.52|||<|0.0001|TWO_SIDED|95.0|4.04|11.01||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||11.01|4.04|<0.0001
82595928|NCT00708123|164906125|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|2.93||||0.0986|TWO_SIDED|95.0|-0.55|6.41||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||6.41|-0.55|0.0986
82595929|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|196.74||||0.0148|TWO_SIDED|95.0|38.89|354.6||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments. Tests were 2-sided at 5% significance level.||354.60|38.89|0.0148
82595930|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|246.7||||0.0024|TWO_SIDED|95.0|88.3|405.1||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||405.10|88.30|0.0024
82595931|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-49.96||||0.5328|TWO_SIDED|95.0|-207.62|107.71||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||107.71|-207.62|0.5328
82595932|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-406.19|||<|0.0001|TWO_SIDED|95.0|-564.0|-248.37||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||-248.37|-564.00|<0.0001
82595933|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|602.93|||<|0.0001|TWO_SIDED|95.0|445.97|759.9||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||759.90|445.97|<0.0001
82595934|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|652.89|||<|0.0001|TWO_SIDED|95.0|495.05|810.72||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||810.72|495.05|<0.0001
82595935|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|847.55|||<|0.0001|TWO_SIDED|95.0|690.54|1004.55||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1004.55|690.54|<0.0001
82654459|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.4676||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A 204141\_at||||0.4676
82654460|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2036||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.2036
82595936|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|897.5|||<|0.0001|TWO_SIDED|95.0|739.92|1055.08||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors treatment, period and subject as random effect.|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||1055.08|739.92|<0.0001
82595937|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|650.8|||<|0.0001|TWO_SIDED|95.0|493.61|808.0||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||808.00|493.61|<0.0001
82595938|NCT00708123|164906126|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|244.62||||0.0024|TWO_SIDED|95.0|87.62|401.61||No adjustment was made for multiple comparisons as the primary comparisons were pre-defined.|ANOVA|ANOVA with factors for treatment, study period, and subject as random effect|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis was no difference between treatments being compared. Tests were 2-sided at 5% significance level.||401.61|87.62|0.0024
82595939|NCT00401375|164906150|OTHER||Mean Difference (Final Values)|-0.23||||0.4259||||||Threshold for significance at 0.05 level.|Log Rank|||Treatment comparisons were made at the overall α=0.05 level (2-sided) using a closed sequential procedure. Placebo and MNTX 24 mg groups were compared first.||||0.4259
82595940|NCT00401375|164906150|OTHER||Mean Difference (Final Values)|0.13||||0.3575||||||Threshold for significance at 0.05 level.|Log Rank|||Treatment comparisons were made at the overall α=0.05 level (2-sided) using a closed sequential procedure. Placebo and MNTX 24 mg groups were compared first.||||0.3575
82595941|NCT00677014|164906154|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1||||0.66||95.0|||||ANOVA|As LVESV values were non normal by Q-Q analysis and Shapiro-Wilk test (p\<.05), a square root transform was used. model adjusted for baseline LVESV.||Gate keeping strategy utilized for Type 1 error control described in design paper - negative results observed for initial comparisons - (each at alpha = .05) between fixed and algorithm optimized AV delay and fixed and Echo optimzied AV. Results from both of these comparisons were non-significant.||||.66
82595942|NCT00350142|164906215|SUPERIORITY_OR_OTHER||proportion|0.75|||||TWO_SIDED|||||||||||||
82595943|NCT01883635|164906220|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.14
82595944|NCT01883635|164906221|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.65
82595945|NCT01883635|164906222|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|degrees of freedom=40||||||0.51
82595946|NCT01187953|164906223|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.|||||>|0.999|TWO_SIDED|||||Endpoint: Death|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||>0.999
82595947|NCT01187953|164906223|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.821|TWO_SIDED|||||Endpoint: Graft Failure|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.821
82595948|NCT01187953|164906223|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.9|TWO_SIDED|||||Endpoint: BPAR|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.900
82595949|NCT01187953|164906223|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.|||||>|0.999|TWO_SIDED|||||Endpoint: Lost to follow up|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||>0.999
82595950|NCT01187953|164906224|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.835|TWO_SIDED|||||Endpoint: Death|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.835
82595951|NCT01187953|164906224|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.548|TWO_SIDED|||||Endpoint: Graft Failure|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.548
82491605|NCT01681472|164676463|OTHER||Correlation factor|-0.71666||||0.109|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.1090
82595952|NCT01187953|164906224|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.822|TWO_SIDED|||||Endpoint: BPAR|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.822
82595953|NCT01187953|164906224|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that both treatment groups in this study would have a 15% 12-month treatment failure rate, the study will require 270 patients per group to have 90% power to reject the null hypothesis that the investigational drug, LCP-tacro, is inferior to the reference drug, Prograf, based on a 2-sided 95% CI for the difference and a 0.10 non-inferiority margin.||||||0.383|TWO_SIDED|||||Endpoint: Lost to follow up|Fisher Exact|||No overall p value was calculated, only individual p values for each endpoint category. One statistical analysis table is reported for each individual p value.||||0.383
82595954|NCT01464307|164906225|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.0||||0.777|TWO_SIDED|95.0|-0.1|0.2|||Mixed-Model Repeated Measures|||The number of subjects included in the MMRM analysis was only 286 because a covariate was missing for 3 subjects.||0.2|-0.1|0.777
82595955|NCT01464307|164906226|SUPERIORITY_OR_OTHER|||||||0.804||||||worst-case analysis.|Wilcoxon's Rank-Sum Test|||The statistical analysis provided was for all categories of this outcome measure.||||0.804
82595956|NCT01464307|164906227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.845|TWO_SIDED|95.0|0.63|1.74||observed cases analysis.|Regression, Logistic|||Week 4. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=283 for week 4.||1.74|0.63|0.845
82595957|NCT01464307|164906227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.437|TWO_SIDED|95.0|0.73|2.04||observed cases analysis.|Regression, Logistic|||Week 8. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=279 for week 8.||2.04|0.73|0.437
82595958|NCT01464307|164906227|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.698|TWO_SIDED|95.0|0.59|2.21||observed cases analysis.|Regression, Logistic|||Week 12. Number of subjects included in analysis was three less than the observed cases because of a missing covariate for the logistic regression analysis, that is, n=273 for week 12.||2.21|0.59|0.698
82595959|NCT03449095|164906238|SUPERIORITY||||||<|0.001||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|ANOVA|||||||<0.001
82595960|NCT03449095|164906239|SUPERIORITY|||||||0.001||||||The reported p-value was calculated, and is not attempting to indicate the threshold for statistical significance.|ANCOVA|||||||.001
82595961|NCT00159861|164906251|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.095|||||TWO_SIDED|95.0|0.059|0.132||||||1 Year: Proportion of participants who died.||0.132|0.059|
82595962|NCT00159861|164906251|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.194|||||TWO_SIDED|95.0|0.144|0.243||||||2 Years: Proportion of participants who died.||0.243|0.144|
82595963|NCT00159861|164906251|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.26|||||TWO_SIDED|95.0|0.205|0.315||||||3 Years: Proportion of participants who died.||0.315|0.205|
82595964|NCT00159861|164906251|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.291|||||TWO_SIDED|95.0|0.234|0.348||||||4 Years: Proportion of participants who died.||0.348|0.234|
82595965|NCT00159861|164906251|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier estimate|0.369|||||TWO_SIDED|95.0|0.302|0.437||||||5 Years: Proportion of participants who died.||0.437|0.302|
82595966|NCT02701387|164906302|SUPERIORITY_OR_OTHER||||||<|0.01||||||"A 2-factor (implant type x time interval) nonparametric analysis for longitudinal data (Brunner et al. 2002) was used to compare test and control implants across time (baseline + four intervals). The R package nparLD was used (Noguchi et al. 2012)."|nonparametric for longitudinal|||Comparison of ISQ over time. Due to the high number of intervals (T0-T8) relative to the number of observations, data were combined for analysis purposes into 5 comparable intervals as follows: Baseline (T0, unchanged); Tr1=Average of follow-up weeks T1 and T2, Tr2=Average of follow-up weeks T3 and T4; Tr3=Average of follow-up weeks T5 and T6; Tr4=Average of follow-up weeks T7 and T8||||<0.01
82595967|NCT01290874|164906303|SUPERIORITY|||||||0.31|||||||Log Rank|||||||0.31
82595968|NCT04294901|164906357|SUPERIORITY||Odds Ratio (OR)|1.21||||0.008|TWO_SIDED|95.0|1.05|1.38|||Mixed Models Analysis|Binary mixed effect model with patients nested in providers nested in facilities||It is pre-specified in the Study Protocol and Statistical Analysis Plan to assess all medication groups combined within the Intervention and Control Arms/Groups.||1.38|1.05|0.008
82595969|NCT02909985|164906368|SUPERIORITY||F|23.68|||<|0.0001|TWO_SIDED||||||ANOVA|(9, 129)||||||<0.0001
82595970|NCT02909985|164906368|SUPERIORITY||F|9.4394|||<|0.0001|TWO_SIDED||||||ANOVA|(11, 52)||||||<0.0001
82595971|NCT03657368|164906407|SUPERIORITY||Mean Difference (Final Values)|3.5||||0.042|TWO_SIDED|97.5|-0.4|7.3|||Regression, Linear|||||7.3|-0.4|0.042
82595972|NCT03657368|164906407|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.966|TWO_SIDED|97.5|-3.9|3.7|||Regression, Linear|||||3.7|-3.9|0.966
82595973|NCT03657368|164906408|SUPERIORITY||Odds Ratio (OR)|0.93||||0.519|TWO_SIDED|99.2|0.68|1.27|||Regression, Logistic|||||1.27|0.68|0.519
82595974|NCT03657368|164906408|SUPERIORITY||Odds Ratio (OR)|0.87||||0.232|TWO_SIDED|99.2|0.63|1.19|||Regression, Logistic|||||1.19|0.63|0.232
82595975|NCT03657368|164906409|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.217|TWO_SIDED|99.2|-6.5|2.4|||Regression, Linear|||||2.4|-6.5|0.217
82595976|NCT03657368|164906409|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.66|TWO_SIDED|99.2|-3.7|5.2|||Regression, Linear|||||5.2|-3.7|0.660
82595977|NCT03657368|164906410|SUPERIORITY||mean ratio|1.03||||0.143|TWO_SIDED|99.2|0.97|1.1|||Mixed Models Analysis|||||1.10|0.97|0.143
82595978|NCT03657368|164906410|SUPERIORITY||mean ratio|0.99||||0.649|TWO_SIDED|99.2|0.93|1.05|||Regression, Logistic|||||1.05|0.93|0.649
82595979|NCT01623271|164906413|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82595980|NCT00879229|164906420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.0|STANDARD_ERROR_OF_MEAN|67.0||0.696|TWO_SIDED|95.0|-54.0|17.0||This is an exact Wilcoxon rank sum test p-value for testing equality of ambrisentan and placebo distributions.|Wilcoxon (Mann-Whitney)|||||17|-54|0.696
82595981|NCT03962439|164906430|OTHER|Null-hypothesis significance testing|F-value|1.61||||0.211|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in episodic memory from baseline to 16 weeks interacted with condition (Time x Condition).||||.211
82595982|NCT03962439|164906432|OTHER|Null hypothesis significance testing|F-value|1.66||||0.203|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in speed of processing from baseline to 16 weeks interacted with condition (Time x Condition).||||.203
82595983|NCT03962439|164906434|OTHER|Null hypothesis significance testing|F-value|0.28||||0.76|TWO_SIDED|||||A priori threshold was two-sided 0.05. No adjustment for multiple comparisons.|ANCOVA|Adjusted for baseline age, sex, and education.||Repeated measures ANCOVA testing whether change in reasoning from baseline to week 16 interacted with condition (Time x Condition).||||.760
82595984|NCT03605680|164906498|SUPERIORITY||Least Squares (LS ) Mean Difference|-3.15|||=|0.0193|TWO_SIDED|95.0|-5.79|-0.51|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.51|-5.79|=0.0193
82595985|NCT03605680|164906498|SUPERIORITY||LS Mean Difference|-2.74|||=|0.0392|TWO_SIDED|95.0|-5.35|-0.14|||MMRM|||||-0.14|-5.35|=0.0392
82491606|NCT01681472|164676463|OTHER||Correlation factor|0.55508||||0.1533|TWO_SIDED||||||Pearson Correlation|||Correlation for SHMT2 gene expression||||0.1533
82595986|NCT03605680|164906499|SUPERIORITY||LS Mean Difference|-0.27|||=|0.0232|TWO_SIDED|95.0|-0.5|-0.04|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.04|-0.50|=0.0232
82595987|NCT03605680|164906499|SUPERIORITY||LS Mean Difference|-0.28|||=|0.0162|TWO_SIDED|95.0|-0.51|-0.05|||MMRM||||The comparison between the centanafadine and the placebo group was tested at a significance level of 0.05.|-0.05|-0.51|=0.0162
82595988|NCT00781456|164906549|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.02|STANDARD_ERROR_OF_MEAN|0.43||0.954|TWO_SIDED|95.0|-0.82|0.87|||Regression, Logistic|Logistic regression model with terms of treatment, weekly baseline migraine frequency, and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|||0.87|-0.82|0.954
82595989|NCT00781456|164906550|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.31|STANDARD_ERROR_OF_MEAN|0.44||0.479|TWO_SIDED|95.0|-0.55|1.17||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the first month of treatment.||1.17|-0.55|0.479
82491607|NCT01681472|164676463|OTHER||Correlation factor|0.318||||0.487|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.4870
82595990|NCT00781456|164906550|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.5|STANDARD_ERROR_OF_MEAN|0.44||0.256|TWO_SIDED|95.0|-0.36|1.37||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the second month of treatment||1.37|-0.36|0.256
82595991|NCT00781456|164906550|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.14|STANDARD_ERROR_OF_MEAN|0.52||0.788|TWO_SIDED|95.0|-1.16|0.88||No adjustment for multiple comparisons was performed.|Regression, Logistic|Logistic regression model with terms of treatment, baseline weekly migraine frequency and center included in the model.|91-day Levonogestrel Oral Contraceptive versus placebo. Treatment Difference was estimated using logistic regression for the proportion of participants with \>=50% reduction in migraine frequency during the treatment period.|Comparison of percentage of participants with a reduction of 50% or more in migraine frequency during the third month of treatment.||0.88|-1.16|0.788
82595992|NCT00781456|164906551|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.19||||0.182|TWO_SIDED|95.0|-0.47|0.09|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the 91-day treatment period.||0.09|-0.47|0.182
82595993|NCT00781456|164906551|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.04||||0.853|TWO_SIDED|95.0|-0.71|0.19|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the first month of treatment||0.19|-0.71|0.853
82595994|NCT00781456|164906551|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.26||||0.249|TWO_SIDED|95.0|-0.71|0.19|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the second month of treatment||0.19|-0.71|0.249
82595995|NCT00781456|164906551|SUPERIORITY_OR_OTHER||Odds Ratio, log|-0.4||||0.119|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|Treatment comparison was performed using an analysis of covariance model with baseline average migraine severity and center as covariates.|91-day Levonogestrel Oral Contraceptive versus placebo.|Comparison of change from Baseline in migraine severity during the third month of treatment||0.10|-0.90|0.119
82595996|NCT00781456|164906552|SUPERIORITY_OR_OTHER|||||||0.457|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the first month of treatment.||||0.457
82595997|NCT00781456|164906552|SUPERIORITY_OR_OTHER|||||||0.361|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the second month of treatment.||||0.361
82595998|NCT00781456|164906552|SUPERIORITY_OR_OTHER|||||||0.018|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the third month of treatment.||||0.018
82595999|NCT00781456|164906552|SUPERIORITY_OR_OTHER|||||||0.709|||||||Cochran-Mantel-Haenszel|||Comparison of percentage of participants requiring rescue medication during the 91-day treatment period.||||0.709
82596000|NCT01515787|164906559|NON_INFERIORITY|Disease recurrence or death in order to have 85% power to reject the null hypothesis. Noninferiority of the intervention could be claimed if the upper limit of the two-sided 90.2% confidence interval of the hazard ratio for disease recurrence or death did not exceed the 1.29 noninferiority margin.|Hazard Ratio (HR)|0.92||||0.005|TWO_SIDED|90.2|0.74|1.14|||kaplan meier|||||1.14|0.74|0.005
82596001|NCT01515787|164906561|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.74|1.44||||||||1.44|0.74|
82596002|NCT01515787|164906563|SUPERIORITY||Hazard Ratio (HR)|1.18|||||TWO_SIDED|95.0|0.44|3.16||||||||3.16|0.44|
82596003|NCT00517595|164906573|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|||Within Group 1 (N=48), patients with an ECOG of 0 at baseline (N=18) were compared to patients with an ECOG of 1 at baseline (N=30).||||0.02
82596004|NCT00517595|164906574|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Log Rank|||Within Group 1 (N=48), patients with an ECOG of 0 at baseline (N=18) were compared to patients with an ECOG of 1 at baseline (N=30).||||0.0041
82596005|NCT02915523|164906648|OTHER||Hazard Ratio (HR)|0.899|||||TWO_SIDED|95.0|0.581|1.393|||||Stratified HR estimated from a stratified univeriate Cox proportional hazards model. Avelumab + placebo was the reference treatment group.|||1.393|0.581|
82596006|NCT01780831|164906674|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had grade 3/4 AE through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|25.0|||||TWO_SIDED|90.0|9.0|48.4||||||||48.4|9|
82596007|NCT01780831|164906674|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had grade 3/4 AE through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|31.0|||||TWO_SIDED|90.0|18.7|46.6||||||||46.6|18.7|
82596008|NCT01780831|164906681|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had grade 3/4 AE through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|25.0|||||TWO_SIDED|90.0|9.0|48.4||||||||48.4|9|
82654461|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.4197||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.4197
82596009|NCT01780831|164906681|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had grade 3/4 AE through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|43.0|||||TWO_SIDED|90.0|28.6|58.1||||||||58.1|28.6|
82596010|NCT01780831|164906682|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had SADR of Grade 3 or 4 through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI|6.0|||||TWO_SIDED|90.0|0.3|26.4||||||||26.4|0.3|
82596011|NCT01780831|164906682|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had SADR of Grade 3 or 4 through 6 weeks of life.|Clopper-Pearson Confidence Interval (CI)|0.0|||||TWO_SIDED||||||||CI is not provided since the estimation parameter is 0.|||||
82596012|NCT01780831|164906683|OTHER|Point and 90% CI estimates of percentage Cohort 1 infants who died or had SADR of Grade 3 or 4 through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|6.0|||||TWO_SIDED|90.0|0.3|26.4||||||||26.4|0.3|
82596013|NCT01780831|164906683|OTHER|Point and 90% CI estimates of percentage Cohort 2 infants who died or had SADR of Grade 3 or 4 through 24 weeks of life.|Clopper-Pearson Confidence Interval (CI)|0.0|||||TWO_SIDED||||||||CI is not provided since the estimation parameter is 0.|||||
82596014|NCT01780831|164906684|OTHER|||||||0.298|||||||Wilcoxon (Mann-Whitney)|||||||0.298
82491608|NCT01681472|164676463|OTHER||Correlation factor|0.23312||||0.5785|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.5785
82596015|NCT01780831|164906685|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82596016|NCT01780831|164906686|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|||||||0.98
82596017|NCT00385255|164906743|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% confidence interval (CI) for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentages of subjects with anti-D antibody concentrations ≥ 0.1 IU/mL, being ≥ - 10%.|Difference in percentage|1.06|||||TWO_SIDED|95.0|-1.36|3.56||||||Difference in seroprotection rates against diphteria toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seroprotection rates for anti-D antibody, one month post-Boostrix® vaccination.||3.56|-1.36|
82596018|NCT00385255|164906743|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+ Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-T antibody concentrations ≥ 0.1 IU/mL, being ≥ - 10%.|Difference in percentage|-1.67|||||TWO_SIDED|95.0|-2.96|-0.74||||||Difference in seroprotection rates against tetanus toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seroprotection rates for anti-T antibody, one month post-Boostrix® vaccination.||-0.74|-2.96|
82596019|NCT00385255|164906744|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-T antibody concentrations ≥ 1.0 IU/mL, being ≥ - 10%.|Difference in percentage|1.4|||||TWO_SIDED|95.0|-0.77|3.68||||||Difference in seropositivity rates against tetanus toxoid: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of seropositivity rates for anti-T antibody, one month post-Boostrix® vaccination.||3.68|-0.77|
82596020|NCT00385255|164906745|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the pertussis toxoid (PT) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.74|||||TWO_SIDED|95.0|0.67|0.82|||ANCOVA|||Difference in adjusted GMC ratios for anti-PT antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-PT antibody, one month post-Boostrix® vaccination.||0.82|0.67|
82654462|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0776||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2A /// TUBB2B 209372\_x\_at||||0.0776
82596021|NCT00385255|164906745|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the filamentous hemagglutinin (FHA) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.71|||||TWO_SIDED|95.0|0.64|0.79|||ANCOVA|||Difference in adjusted GMC ratio for anti-FHA antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-FHA antibody, one month post-Boostrix® vaccination.||0.79|0.64|
82596022|NCT00385255|164906745|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for GMC ratios of antibodies against the pertactin (PRN) antigens between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group) being ≥ 0.67.|Adjusted GMC ratio|0.7|||||TWO_SIDED|95.0|0.6|0.81|||ANCOVA|||Difference in adjusted GMC ratio for anti-PRN antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Boostrix® vaccine administered alone at Month 1 (Fluarix Boostrix 19-64 YOA Group), in terms of geometric mean concentrations (GMCs) for anti-PRN antibody, one month post-Boostrix® vaccination.||0.81|0.60|
82596023|NCT00385255|164906746|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H1N1 antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-1.17|||||TWO_SIDED|95.0|-3.58|1.23||||||Difference in percentage of subjects with anti-H1N1 antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H1N1 antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||1.23|-3.58|
82654463|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.4076||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.4076
82654464|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0629||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.0629
82596024|NCT00385255|164906746|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H3N2 antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-0.61|||||TWO_SIDED|95.0|-2.22|0.96||||||Difference in percentage of subjects with anti-H3N2 antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-H3N2 antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||0.96|-2.22|
82596025|NCT00385255|164906746|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-B antibody titers ≥ 1:40 being ≥ -10%.|Difference in percentage|-0.55|||||TWO_SIDED|95.0|-2.52|1.42||||||Difference in percentage of subjects with anti-B antibody titers ≥ 1:40: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with anti-B antibody titers ≥ 1:40, one month post-Fluarix® vaccination.||1.42|-2.52|
82596026|NCT00385255|164906747|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase in anti-H1N1 antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|2.37|||||TWO_SIDED|95.0|-2.84|7.58||||||Difference in seroconversion rates for anti-H1N1 antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-H1N1 antibody, one month post-Fluarix® vaccination.||7.58|-2.84|
82596027|NCT00385255|164906747|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase in anti-H3N2 antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|5.58|||||TWO_SIDED|95.0|1.1|10.07||||||Difference in seroconversion rates for anti-H3N2 antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-H3N2 antibody, one month post-Fluarix® vaccination.||10.07|1.10|
82654465|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2547||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2B 214023\_x\_at||||0.2547
82654466|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.7125||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.7125
82491609|NCT01681472|164676463|OTHER||Correlation factor|-0.0245||||0.9632|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.9632
82596028|NCT00385255|164906747|NON_INFERIORITY|Non-inferiority was defined as the lower limit of the 95% CI for the difference between the two groups (Boostrix+Fluarix 19-64 YOA Group minus Fluarix Boostrix 19-64 YOA Group), in terms of percentage of subjects with ≥ 4-fold increase anti-B antibody titers (seroconversion) being ≥ -10%.|Difference in seroconversion rate|2.15|||||TWO_SIDED|95.0|-2.9|7.2||||||Difference in seroconversion rates for anti-B antibody: To demonstrate that the immunogenicity of Boostrix® vaccine co-administered with Fluarix® vaccine (Boostrix+Fluarix 19-64 YOA Group) at Day 0, was non-inferior to that of Fluarix® vaccine administered alone at Day 0 (Fluarix Boostrix 19-64 YOA Group), in terms of seroconversion rates for anti-B antibody, one month post-Fluarix® vaccination.||7.20|-2.90|
82596029|NCT00345176|164906779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||<|0.013|TWO_SIDED|98.7|0.76|1.07||Adjusted for 3 treatment versus placebo comparisons and interim analyses|Regression, Cox|Adjusted for baseline AMD status|The reference group is placebo.|Each of the 3 active arms was compared to the placebo/control arm.||1.07|0.76|<0.013
82596030|NCT00345176|164906779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97|||<|0.013|TWO_SIDED|98.7|0.82|1.16||Adjusted for multiple comparisons|Regression, Cox|||||1.16|0.82|<0.013
82596031|NCT00345176|164906779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||<|0.013|TWO_SIDED|98.7|0.75|1.06|||Regression, Cox|Adjusted for multiple comparisons||||1.06|0.75|<0.013
82596032|NCT00345176|164906780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||<|0.05|TWO_SIDED|95.0|0.84|1.08|||Regression, Cox|||||1.08|0.84|<0.05
82596033|NCT00345176|164906780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||<|0.05|TWO_SIDED|95.0|0.84|1.09|||Regression, Cox|||||1.09|0.84|<0.05
82596034|NCT00345176|164906780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.83|1.07|||Regression, Cox|||||1.07|0.83|<0.05
82596035|NCT00345176|164906781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.04|||<|0.05|TWO_SIDED|95.0|0.77|1.4|||Regression, Cox|||Comparison of Lutein/Zeaxantin versus Control for mortality||1.40|0.77|<0.05
82596036|NCT00345176|164906781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||<|0.05|TWO_SIDED|95.0|0.84|1.52|||Regression, Cox|||Comparison of DHA/EPA versus Placebo for mortality||1.52|0.84|<0.05
82596037|NCT00345176|164906781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23|||<|0.05|TWO_SIDED|95.0|0.92|1.65|||Regression, Cox|||Comparison of Lutein/Zeaxanthin + DHA/EPA versus Placebo for Mortality||1.65|0.92|<0.05
82596038|NCT00345176|164906782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||<|0.05|TWO_SIDED|95.0|0.84|1.1|||Regression, Cox|||||1.10|0.84|<0.05
82596039|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|0.114|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.087|0.142|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.142|0.087|<0.0001
82596040|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.078|0.133|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.133|0.078|<0.0001
82596041|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|0.058|STANDARD_ERROR_OF_MEAN|0.0141||0.0001|TWO_SIDED|95.0|0.03|0.085|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.085|0.030|0.0001
82596042|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0139||0.5223|TWO_SIDED|95.0|-0.036|0.018|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.018|-0.036|0.5223
82596043|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.057|STANDARD_ERROR_OF_MEAN|0.0139||0.0001|TWO_SIDED|95.0|-0.084|-0.029|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.029|-0.084|0.0001
82596044|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.048|STANDARD_ERROR_OF_MEAN|0.0138||0.0007|TWO_SIDED|95.0|-0.075|-0.02|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.020|-0.075|0.0007
82596045|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.114|STANDARD_ERROR_OF_MEAN|0.0141|<|0.0001|TWO_SIDED|95.0|-0.142|-0.086|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.086|-0.142|<0.0001
82596046|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.0141||0.0001|TWO_SIDED|95.0|-0.084|-0.028|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.028|-0.084|0.0001
82596047|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|-0.009|STANDARD_ERROR_OF_MEAN|0.0141||0.5394|TWO_SIDED|95.0|-0.036|0.019|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.019|-0.036|0.5394
82596048|NCT01136655|164906788|SUPERIORITY_OR_OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.9863|TWO_SIDED|95.0|-0.027|0.028|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.028|-0.027|0.9863
82596049|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.056|0.155|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.155|0.056|<0.0001
82596050|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|0.066|STANDARD_ERROR_OF_MEAN|0.0252||0.0092|TWO_SIDED|95.0|0.017|0.116|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.116|0.017|0.0092
82596051|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.0252||0.5509|TWO_SIDED|95.0|-0.035|0.065|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.065|-0.035|0.5509
82596052|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.039|STANDARD_ERROR_OF_MEAN|0.0249||0.1163|TWO_SIDED|95.0|-0.088|0.01|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.010|-0.088|0.1163
82654467|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6001||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.6001
82654468|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.5398||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 208977\_x\_at||||0.5398
82654469|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.3970
82654470|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.5085||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.5085
82654471|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1213||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB2C 213726\_x\_at||||0.1213
82654472|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0999||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.0999
82654473|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1201||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1201
82596053|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025||0.0004|TWO_SIDED|95.0|-0.14|-0.041|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.041|-0.140|0.0004
82596054|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.0247||0.04|TWO_SIDED|95.0|-0.1|-0.002|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.002|-0.100|0.0400
82596055|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.083|STANDARD_ERROR_OF_MEAN|0.0252||0.0011|TWO_SIDED|95.0|-0.133|-0.034|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.034|-0.133|0.0011
82596056|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.068|STANDARD_ERROR_OF_MEAN|0.0254||0.0077|TWO_SIDED|95.0|-0.118|-0.018|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.018|-0.118|0.0077
82596057|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|-0.017|STANDARD_ERROR_OF_MEAN|0.0252||0.4957|TWO_SIDED|95.0|-0.067|0.033|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.033|-0.067|0.4957
82596058|NCT01136655|164906789|SUPERIORITY_OR_OTHER||LS mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.025||0.38|TWO_SIDED|95.0|-0.027|0.071|||ANCOVA|LOCF was performed if missing data were post last non-missing post-baseline assessment.||Factors in the ANCOVA model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.071|-0.027|0.3800
82654474|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.1172||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB4 212664\_at||||0.1172
82654475|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.6596||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.6596
82654476|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.3289||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.3289
82654477|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.3657||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TUBB6 209191\_at||||0.3657
82654478|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0275||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.0275
82654479|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.3946||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.3946
82596059|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|0.107|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.073|0.14|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.140|0.073|<0.0001
82596060|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.0171|<|0.0001|TWO_SIDED|95.0|0.078|0.146|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.146|0.078|<0.0001
82596061|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|0.057|STANDARD_ERROR_OF_MEAN|0.0172||0.0011|TWO_SIDED|95.0|0.023|0.09|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.090|0.023|0.0011
82596062|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.0169||0.7589|TWO_SIDED|95.0|-0.028|0.039|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.039|-0.028|0.7589
82596063|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.05|STANDARD_ERROR_OF_MEAN|0.017||0.0035|TWO_SIDED|95.0|-0.084|-0.017|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.017|-0.084|0.0035
82596064|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.055|STANDARD_ERROR_OF_MEAN|0.0168||0.0011|TWO_SIDED|95.0|-0.089|-0.022|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.022|-0.089|0.0011
82596065|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.115|STANDARD_ERROR_OF_MEAN|0.0171|<|0.0001|TWO_SIDED|95.0|-0.149|-0.081|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.081|-0.149|<0.0001
82596066|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.058|STANDARD_ERROR_OF_MEAN|0.0172||0.0008|TWO_SIDED|95.0|-0.092|-0.024|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||-0.024|-0.092|0.0008
82596067|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.003|STANDARD_ERROR_OF_MEAN|0.0172||0.8582|TWO_SIDED|95.0|-0.037|0.031|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.031|-0.037|0.8582
82596068|NCT01136655|164906790|SUPERIORITY_OR_OTHER||LS mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.017||0.6276|TWO_SIDED|95.0|-0.042|0.025|||ANCOVA|||Factors in the Analysis of Covariance model included: patient, visit, treatment, and the covariate pre-dose FEV1 from each visit.||0.025|-0.042|0.6276
82654480|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0074||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 202589\_at||||0.0074
82654481|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2341||95.0||||P Value 1 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment: ER) and the reduced model: (PCR/RCB1 \~ Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.2341
82596069|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|0.52|||<|0.0001|TWO_SIDED|95.0|0.393|0.7|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.700|0.393|<0.0001
82596070|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|0.26|||<|0.0001|TWO_SIDED|95.0|0.194|0.347|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.347|0.194|<0.0001
82596071|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|0.29|||<|0.0001|TWO_SIDED|95.0|0.214|0.396|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.396|0.214|<0.0001
82596072|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|0.49|||<|0.0001|TWO_SIDED|95.0|0.371|0.659|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.659|0.371|<0.0001
82596073|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|0.56||||0.0002|TWO_SIDED|95.0|0.409|0.755|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||0.755|0.409|0.0002
82596074|NCT01136655|164906791|SUPERIORITY_OR_OTHER||LS mean difference|1.12||||0.4512|TWO_SIDED|95.0|0.827|1.528|||ANOVA|A shift log transformation was performed on the response variable in the ANOVA model, using log(response) \[log(response + 1) if response is 0\].||Factors in the ANOVA model included: patient, period and treatment.||1.528|0.827|0.4512
82596075|NCT02873936|164906798|SUPERIORITY||Difference in Response Rates|34.9|||<|0.001|TWO_SIDED|95.0|23.5|46.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||46.3|23.5|<0.001
82596076|NCT02873936|164906798|SUPERIORITY||Difference in Response Rates|26.4|||<|0.001|TWO_SIDED|95.0|15.0|37.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||37.9|15.0|<0.001
82596077|NCT02873936|164906799|SUPERIORITY||Least Squares Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.066|<|0.001|TWO_SIDED|95.0|-0.45|-0.19||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. Least squares (LS)-Mean, 95% confidence interval (CI), and P-value were provided from mixed effects model for repeated measure (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-0.45|<0.001
82654482|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.0933||95.0||||P Value 2 is from the likelihood ratio test between the full model: (PCR/RCB1 \~ Biomarker: Treatment) and the reduced model: (PCR/RCB1 \~ Biomarker + Treatment)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.0933
82596078|NCT02873936|164906799|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.4|-0.14||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.14|-0.40|<0.001
82596079|NCT02873936|164906800|SUPERIORITY||Difference in Response Rates|25.3|||<|0.001|TWO_SIDED|95.0|14.7|35.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||35.8|14.7|<0.001
82596080|NCT02873936|164906800|SUPERIORITY||Difference in Response Rates|21.7|||<|0.001|TWO_SIDED|95.0|11.4|32.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||32.0|11.4|<0.001
82596081|NCT02873936|164906801|SUPERIORITY||Least Squares Mean Difference|4.3|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|2.5|6.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.1|2.5|<0.001
82654483|NCT00455533|165023743|SUPERIORITY_OR_OTHER|||||||0.2016||95.0||||P Value 3 is the contrast of the interaction between treatment and biomarker expression within ER Negative subjects from the full model:(PCR/RCB1 \~ Biomarker : Treatment : ER)|Regression, Logistic|p-value not adjusted for multiple comparison||TYMS 217684\_at||||0.2016
82654484|NCT00455533|165023744|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.145|||||TWO_SIDED|90.0|-0.27|-0.017|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Negative Biomarker Status||-0.017|-0.27|
82654485|NCT00455533|165023744|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.064|||||TWO_SIDED|90.0|-0.064|0.197|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker STatus||0.197|-0.064|
82654486|NCT00455533|165023744|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.056|||||TWO_SIDED|90.0|-0.152|0.046|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.046|-0.152|
82654487|NCT00455533|165023744|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.116|||||TWO_SIDED|90.0|-0.13|0.37|||||ixabepilone - paclitaxel|Membrane Threshold/Positive Biomarker Status||0.37|-0.13|
82491610|NCT01681472|164676463|OTHER||Correlation factor|0.64565||||0.0838|TWO_SIDED||||||Pearson Correlation|||Correlation for RFC-1 gene expression||||0.0838
82596082|NCT02873936|164906801|SUPERIORITY||Least Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|0.92|<|0.001|TWO_SIDED|95.0|1.6|5.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.2|1.6|<0.001
82596083|NCT02873936|164906802|SUPERIORITY||Difference in Response Rates|18.5|||<|0.001|TWO_SIDED|95.0|8.6|28.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||28.3|8.6|<0.001
82654488|NCT00455533|165023745|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.114|||||TWO_SIDED|90.0|-0.258|0.22|||||ixabepilone - paclitaxel|Mem+Cyto/Negative Biomarker Status||0.22|-0.258|
82654489|NCT00455533|165023745|SUPERIORITY_OR_OTHER||DIfference (bootstrap method)|0.009|||||TWO_SIDED|90.0|-0.137|0.155|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.155|-0.137|
82654490|NCT00455533|165023745|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.058|||||TWO_SIDED|90.0|-0.167|0.053|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.053|-0.167|
82654491|NCT00455533|165023745|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|0.049|||||TWO_SIDED|90.0|-0.227|0.309|||||ixabepilone - paclitaxel|Membrane Threshold/Positive Biomarker Status||0.309|-0.227|
82654492|NCT00455533|165023746|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.29|||||TWO_SIDED|90.0|-0.482|-0.094|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Negative Biomarker Status||-0.094|-0.482|
82654493|NCT00455533|165023746|SUPERIORITY_OR_OTHER||Difference (boostrap method)|0.106|||||TWO_SIDED|90.0|-0.073|0.291|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.291|-0.073|
82654494|NCT00455533|165023746|SUPERIORITY_OR_OTHER||Difference (bootstrap method)|-0.09|||||TWO_SIDED|90.0|-0.236|0.067|||||ixabepilone - paclitaxel|Membrane Threshold/Negative Biomarker Status||0.067|-0.236|
82654495|NCT00455533|165023746|SUPERIORITY_OR_OTHER||Difference (bootsrap method)|0.117|||||TWO_SIDED|90.0|-0.218|0.469|||||ixabepilone - paclitaxel|Mem+Cyto Threshold/Positive Biomarker Status||0.469|-0.218|
82654496|NCT02739984|165023761|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-64.14|STANDARD_ERROR_OF_MEAN|2.05|<|0.0001|TWO_SIDED|95.0|-68.16|-60.12|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-60.12|-68.16|<0.0001
82654497|NCT02739984|165023762|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-53.14|STANDARD_ERROR_OF_MEAN|2.25|<|0.0001|TWO_SIDED|95.0|-57.56|-48.71|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-48.71|-57.56|<0.0001
82654498|NCT02739984|165023763|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-67.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-72.1|-62.2|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-62.2|-72.1|<0.0001
82654499|NCT02739984|165023764|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-55.8|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|-61.0|-50.5|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-50.5|-61.0|<0.0001
82491611|NCT05147428|164676481|SUPERIORITY||Cox Proportional Hazard|0.99||||0.76|TWO_SIDED|95.0|0.94|1.04|||Log Rank|||For the primary analysis, we combined all three targeted medication classes (antipsychotics, sedative/hypnotics, or strong anticholinergics). We calculated Kaplan-Meier curves and performed log-rank testing, and estimated hazard ratios using Cox proportional hazards modeling, censoring at death or disenrollment from the health plan, or at the end of the 6-month study observation period, whichever came first. The index date for the survival analysis was the end of the 3-month blackout period.||1.04|0.94|0.76
82491612|NCT05147428|164676482|SUPERIORITY|||||||0.33|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.33
82596084|NCT02873936|164906802|SUPERIORITY||Difference in Response Rates|14.0||||0.003|TWO_SIDED|95.0|4.6|23.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||23.4|4.6|0.003
82596085|NCT02873936|164906803|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|2.6|7.3||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.3|2.6|<0.001
82596086|NCT02873936|164906803|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|1.18||0.007|TWO_SIDED|95.0|0.9|5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.5|0.9|0.007
82596087|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|15.0|||<|0.001|TWO_SIDED|95.0|6.4|23.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||23.7|6.4|<0.001
82596088|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|5.7|22.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||22.6|5.7|<0.001
82596089|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|28.0|||<|0.001|TWO_SIDED|95.0|17.5|38.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||38.5|17.5|<0.001
82596090|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|17.2|||<|0.001|TWO_SIDED|95.0|7.1|27.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||27.2|7.1|<0.001
82596091|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|26.7|||<|0.001|TWO_SIDED|95.0|15.8|37.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||37.6|15.8|<0.001
82596092|NCT02873936|164906804|SUPERIORITY||Difference in Response Rates|16.4||||0.002|TWO_SIDED|95.0|5.9|26.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||26.9|5.9|0.002
82596093|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|3.4||||0.16|TWO_SIDED|95.0|-1.9|8.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||8.8|-1.9|0.16
82596094|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|5.8||||0.039|TWO_SIDED|95.0|0.0|11.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||11.6|-0.0|0.039
82596095|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|15.0|||<|0.001|TWO_SIDED|95.0|6.5|23.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||23.5|6.5|<0.001
82596096|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|7.6||||0.036|TWO_SIDED|95.0|0.1|15.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||15.2|0.1|0.036
82596097|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|23.9|||<|0.001|TWO_SIDED|95.0|14.5|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||33.3|14.5|<0.001
82596098|NCT02873936|164906805|SUPERIORITY||Difference in Response Rates|12.2||||0.004|TWO_SIDED|95.0|3.7|20.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||20.6|3.7|0.004
82491613|NCT05147428|164676483|SUPERIORITY|||||||0.55|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.55
82491614|NCT05147428|164676484|SUPERIORITY|||||||0.47|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.47
82491615|NCT05147428|164676485|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
82491616|NCT05147428|164676487|SUPERIORITY|||||||0.19|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.19
82596099|NCT02873936|164906806|SUPERIORITY||Difference in Response Rates|26.0|||<|0.001|TWO_SIDED|95.0|14.6|37.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||37.4|14.6|<0.001
82596100|NCT02873936|164906806|SUPERIORITY||Difference in Response Rates|18.8|||<|0.001|TWO_SIDED|95.0|7.5|30.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||30.0|7.5|<0.001
82596101|NCT02873936|164906806|SUPERIORITY||Difference in Response Rates|34.9|||<|0.001|TWO_SIDED|95.0|23.6|46.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||46.3|23.6|<0.001
82596102|NCT02873936|164906806|SUPERIORITY||Difference in Response Rates|20.4|||<|0.001|TWO_SIDED|95.0|8.8|32.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||32.1|8.8|<0.001
82596103|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.4||0.003|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.003
82596104|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.4||0.027|TWO_SIDED|95.0|-6.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-6.0|0.027
82596105|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
82596106|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
82596107|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-10.0|-4.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-10.0|<0.001
82596108|NCT02873936|164906807|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.5||0.006|TWO_SIDED|95.0|-7.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-7.0|0.006
82596109|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.0||0.008|TWO_SIDED|95.0|-5.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-5.0|0.008
82596110|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.0||0.65|TWO_SIDED|95.0|-2.0|1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.0|-2.0|0.65
82596111|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82654500|NCT02739984|165023765|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-56.56|STANDARD_ERROR_OF_MEAN|1.89|<|0.0001|TWO_SIDED|95.0|-60.28|-52.85|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-52.85|-60.28|<0.0001
82654501|NCT02739984|165023766|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-46.28|STANDARD_ERROR_OF_MEAN|2.1|<|0.0001|TWO_SIDED|95.0|-50.42|-42.15|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-42.15|-50.42|<0.0001
82596112|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.008|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|0.008
82596113|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82596114|NCT02873936|164906808|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.9||0.039|TWO_SIDED|95.0|-4.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-4.0|0.039
82596115|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-17.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-17.0|<0.001
82596116|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-16.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-16.0|<0.001
82596117|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-24.0|-12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-12.0|-24.0|<0.001
82596118|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.0|<|0.001|TWO_SIDED|95.0|-19.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-19.0|<0.001
82596119|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-18.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-25.0|-12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-12.0|-25.0|<0.001
82596120|NCT02873936|164906809|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-19.0|-6.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-19.0|<0.001
82596121|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-17.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-17.0|<0.001
82596122|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-15.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-15.0|<0.001
82654502|NCT02739984|165023767|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-52.48|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-56.1|-48.85|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-48.85|-56.10|<0.0001
82654503|NCT02739984|165023768|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-42.12|STANDARD_ERROR_OF_MEAN|2.04|<|0.0001|TWO_SIDED|95.0|-46.13|-38.11|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-38.11|-46.13|<0.0001
82596123|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-22.0|-11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-11.0|-22.0|<0.001
82596124|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-18.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-18.0|<0.001
82596125|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-18.0|-8.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-18.0|<0.001
82596126|NCT02873936|164906810|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|2.7||0.052|TWO_SIDED|95.0|-11.0|0.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||0.0|-11.0|0.052
82596127|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-21.0|-10.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-21.0|<0.001
82596128|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-14.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|-19.0|-8.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.0|-19.0|<0.001
82596129|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-23.0|-11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-11.0|-23.0|<0.001
82596130|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|3.1|<|0.001|TWO_SIDED|95.0|-19.0|-7.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-19.0|<0.001
82596131|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-16.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-23.0|-10.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-23.0|<0.001
82596132|NCT02873936|164906811|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|3.4|<|0.001|TWO_SIDED|95.0|-19.0|-5.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-19.0|<0.001
82596133|NCT02873936|164906812|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.055|<|0.001|TWO_SIDED|95.0|-0.33|-0.11||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.33|<0.001
82596134|NCT02873936|164906812|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.055||0.006|TWO_SIDED|95.0|-0.26|-0.04||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.26|0.006
82377506|NCT01569295|164462139|SUPERIORITY||Odds Ratio (OR)|3.02|||<|0.0001|TWO_SIDED|95.0|1.98|4.62||Odds ratio,p-value and 95% Confidence Interval(CI) were calculated from Cochran-Mantel-Haenszel(CMH) Chi-square test stratified by stratification factor in EDC(del17p/TP53,immunoglobulin heavy chain variable region(IgHV) mutation and disease status).|Cochran-Mantel-Haenszel|||||4.62|1.98|<0.0001
82654504|NCT02739984|165023769|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-41.06|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|95.0|-43.9|-38.22|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-38.22|-43.90|<0.0001
82654505|NCT02739984|165023770|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-33.74|STANDARD_ERROR_OF_MEAN|1.59|<|0.0001|TWO_SIDED|95.0|-36.87|-30.6|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-30.60|-36.87|<0.0001
82377507|NCT01569295|164462140|SUPERIORITY||Odds Ratio (OR)|28.81|||<|0.0001|TWO_SIDED|95.0|10.5|79.02||Odds ratio, p-value and 95% CI were calculated from the CMH Chi-square test stratified by stratification factors in EDC (del17p/TP53, IgHV mutation and disease status).|Cochran-Mantel-Haenszel|||||79.02|10.50|<0.0001
82596135|NCT02873936|164906812|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.075|<|0.001|TWO_SIDED|95.0|-0.51|-0.21||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.21|-0.51|<0.001
82596136|NCT02873936|164906812|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.075||0.003|TWO_SIDED|95.0|-0.37|-0.08||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.08|-0.37|0.003
82596137|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-10.51|STANDARD_ERROR_OF_MEAN|1.578|<|0.001|TWO_SIDED|95.0|-13.61|-7.41||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.41|-13.61|<0.001
82596138|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-8.92|STANDARD_ERROR_OF_MEAN|1.577|<|0.001|TWO_SIDED|95.0|-12.02|-5.82||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.82|-12.02|<0.001
82596139|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-10.94|STANDARD_ERROR_OF_MEAN|1.652|<|0.001|TWO_SIDED|95.0|-14.19|-7.69||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.69|-14.19|<0.001
82596140|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-8.98|STANDARD_ERROR_OF_MEAN|1.651|<|0.001|TWO_SIDED|95.0|-12.22|-5.73||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.73|-12.22|<0.001
82596141|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-9.87|STANDARD_ERROR_OF_MEAN|1.964|<|0.001|TWO_SIDED|95.0|-13.73|-6.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.00|-13.73|<0.001
82596142|NCT02873936|164906813|SUPERIORITY||Least Squares Mean Difference|-6.89|STANDARD_ERROR_OF_MEAN|1.987|<|0.001|TWO_SIDED|95.0|-10.8|-2.98||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.98|-10.80|<0.001
82596143|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|20.1|||<|0.001|TWO_SIDED|95.0|8.1|32.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||32.1|8.1|<0.001
82654506|NCT02739984|165023771|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|77.9|||<|0.0001|TWO_SIDED|95.0|70.0|83.5|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||83.5|70.0|<0.0001
82654507|NCT02739984|165023772|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|69.1|||<|0.0001|TWO_SIDED|95.0|60.4|75.7|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||75.7|60.4|<0.0001
82654508|NCT02739984|165023773|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|83.5|||<|0.0001|TWO_SIDED|95.0|77.7|87.4|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||87.4|77.7|<0.0001
82596144|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|14.5||||0.013|TWO_SIDED|95.0|2.4|26.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||26.5|2.4|0.013
82596145|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|22.2|||<|0.001|TWO_SIDED|95.0|10.3|34.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||34.1|10.3|<0.001
82596146|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|21.8|||<|0.001|TWO_SIDED|95.0|10.0|33.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||33.6|10.0|<0.001
82596147|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|33.3|||<|0.001|TWO_SIDED|95.0|21.8|44.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||44.9|21.8|<0.001
82596148|NCT02873936|164906814|SUPERIORITY||Difference in Response Rates|18.6||||0.001|TWO_SIDED|95.0|6.8|30.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||30.5|6.8|0.001
82596149|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-1.1|-0.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-1.1|<0.001
82596150|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.13|<|0.001|TWO_SIDED|95.0|-0.9|-0.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.9|<0.001
82596151|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.5|-0.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.9|-1.5|<0.001
82596152|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.3|-0.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-1.3|<0.001
82596153|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.5|-0.8||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.5|<0.001
82596154|NCT02873936|164906815|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-1.1|-0.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-1.1|<0.001
82654509|NCT02739984|165023774|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Treatment Difference|64.7|||<|0.0001|TWO_SIDED|95.0|57.7|70.3|||Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Placebo|||70.3|57.7|<0.0001
82596155|NCT02873936|164906816|SUPERIORITY||Difference in Response Rates|12.3||||0.004|TWO_SIDED|95.0|3.5|21.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||21.2|3.5|0.004
82596156|NCT02873936|164906816|SUPERIORITY||Difference in Response Rates|12.8||||0.003|TWO_SIDED|95.0|4.0|21.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||21.5|4.0|0.003
82596157|NCT02873936|164906816|SUPERIORITY||Difference in Response Rates|27.4|||<|0.001|TWO_SIDED|95.0|16.3|38.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||38.4|16.3|<0.001
82596158|NCT02873936|164906816|SUPERIORITY||Difference in Response Rates|17.0||||0.001|TWO_SIDED|95.0|6.2|27.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||27.7|6.2|0.001
82596159|NCT02873936|164906817|SUPERIORITY||Difference in Response Rates|7.5||||0.012|TWO_SIDED|95.0|1.3|13.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||13.7|1.3|0.012
82596160|NCT02873936|164906817|SUPERIORITY||Difference in Response Rates|9.1||||0.006|TWO_SIDED|95.0|2.7|15.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||15.5|2.7|0.006
82596161|NCT02873936|164906817|SUPERIORITY||Difference in Response Rates|14.3|||<|0.001|TWO_SIDED|95.0|5.6|23.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||23.1|5.6|<0.001
82596162|NCT02873936|164906817|SUPERIORITY||Difference in Response Rates|17.4|||<|0.001|TWO_SIDED|95.0|8.5|26.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||26.2|8.5|<0.001
82596163|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-7.1|STANDARD_ERROR_OF_MEAN|1.47|<|0.001|TWO_SIDED|95.0|-10.0|-4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.2|-10.0|<0.001
82596164|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.46|<|0.001|TWO_SIDED|95.0|-7.9|-2.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-7.9|<0.001
82596165|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-9.5|STANDARD_ERROR_OF_MEAN|1.56|<|0.001|TWO_SIDED|95.0|-12.6|-6.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.5|-12.6|<0.001
82596166|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|1.55|<|0.001|TWO_SIDED|95.0|-10.6|-4.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-10.6|<0.001
82596167|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|1.64|<|0.001|TWO_SIDED|95.0|-11.9|-5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.5|-11.9|<0.001
82596168|NCT02873936|164906820|SUPERIORITY||Least Squares Mean Difference|-4.9|STANDARD_ERROR_OF_MEAN|1.66||0.003|TWO_SIDED|95.0|-8.2|-1.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-8.2|0.003
82596169|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-8.1|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-11.1|-5.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.1|-11.1|<0.001
82596170|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-8.9|-2.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-8.9|<0.001
82596171|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-10.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-13.8|-7.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.5|-13.8|<0.001
82596172|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-8.7|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|-11.8|-5.5||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.5|-11.8|<0.001
82596173|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-10.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.001|TWO_SIDED|95.0|-13.5|-6.8||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.8|-13.5|<0.001
82654510|NCT02739984|165023775|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-40.5|STANDARD_ERROR_OF_MEAN|3.87|<|0.0001|TWO_SIDED|95.0|-48.11|-32.9|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-32.90|-48.11|<0.0001
82596174|NCT02873936|164906821|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|1.71|<|0.001|TWO_SIDED|95.0|-9.4|-2.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.7|-9.4|<0.001
82596175|NCT02873936|164906823|SUPERIORITY||Least Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|1.1|3.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.1|<0.001
82596176|NCT02873936|164906823|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|0.7||0.005|TWO_SIDED|95.0|0.6|3.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|0.6|0.005
82596177|NCT02873936|164906823|SUPERIORITY||Least Squares Mean Difference|3.9|STANDARD_ERROR_OF_MEAN|1.02|<|0.001|TWO_SIDED|95.0|1.9|5.9||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.9|1.9|<0.001
82596178|NCT02873936|164906823|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.03||0.002|TWO_SIDED|95.0|1.1|5.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.2|1.1|0.002
82596179|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|2.3|STANDARD_ERROR_OF_MEAN|0.97||0.019|TWO_SIDED|95.0|0.4|4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.2|0.4|0.019
82596180|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.97||0.073|TWO_SIDED|95.0|-0.2|3.6||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.6|-0.2|0.073
82596181|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.03||0.045|TWO_SIDED|95.0|0.0|4.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|0.0|0.045
82596182|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.02||0.32|TWO_SIDED|95.0|-1.0|3.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.0|-1.0|0.32
82596183|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|1.9|STANDARD_ERROR_OF_MEAN|1.19||0.12|TWO_SIDED|95.0|-0.5|4.2||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.2|-0.5|0.12
82596184|NCT02873936|164906825|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.2||0.96|TWO_SIDED|95.0|-2.3|2.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.4|-2.3|0.96
82596185|NCT02873936|164906827|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|1.05|<|0.001|TWO_SIDED|95.0|1.6|5.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.7|1.6|<0.001
82654511|NCT02739984|165023776|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-32.56|STANDARD_ERROR_OF_MEAN|3.57|<|0.0001|TWO_SIDED|95.0|-39.58|-25.53|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-25.53|-39.58|<0.0001
82596186|NCT02873936|164906827|SUPERIORITY||Least Squares Mean Difference|3.3|STANDARD_ERROR_OF_MEAN|1.05||0.002|TWO_SIDED|95.0|1.2|5.4||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.4|1.2|0.002
82596187|NCT02873936|164906827|SUPERIORITY||Least Squares Mean Difference|4.6|STANDARD_ERROR_OF_MEAN|1.28|<|0.001|TWO_SIDED|95.0|2.1|7.1||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||7.1|2.1|<0.001
82596188|NCT02873936|164906827|SUPERIORITY||Least Squares Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.3||0.11|TWO_SIDED|95.0|-0.5|4.7||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.7|-0.5|0.11
82596189|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|2.5||0.009|TWO_SIDED|95.0|2.0|11.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||11.0|2.0|0.009
82596190|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|2.5||0.003|TWO_SIDED|95.0|3.0|12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|3.0|0.003
82596191|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|8.0|STANDARD_ERROR_OF_MEAN|2.6||0.003|TWO_SIDED|95.0|3.0|13.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||13.0|3.0|0.003
82596192|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|2.6||0.006|TWO_SIDED|95.0|2.0|12.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||12.0|2.0|0.006
82377508|NCT01569295|164462141|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.098|TWO_SIDED|95.0|0.59|1.03|||Stratified log-rank test|||||1.03|0.59|0.098
82491617|NCT05147428|164676488|SUPERIORITY|||||||0.46|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.46
82491618|NCT05147428|164676489|SUPERIORITY|||||||0.79|||||||Chi-squared|||Secondary outcomes were analyzed only for those patients who were not censored due to health plan disenrollment or death over the 6-month study observation period (n = 10 424). For analyses of secondary outcomes, we compared the 3 arms using chi-square testing for dichotomous outcomes.||||0.79
82491619|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|84.85|||||TWO_SIDED|90.0|76.77|93.78||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||93.78|76.77|
82491620|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.61|||||TWO_SIDED|95.0|88.22|105.79||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||105.79|88.22|
82491621|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.16|||||TWO_SIDED|95.0|85.59|99.25||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||99.25|85.59|
82491622|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|89.84|||||TWO_SIDED|95.0|82.03|98.39||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.39|82.03|
82491623|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|97.45|||||TWO_SIDED|95.0|90.53|104.9||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||104.90|90.53|
82491624|NCT02400333|164676566|SUPERIORITY_OR_OTHER||Geometric mean ratio|97.07|||||TWO_SIDED|95.0|90.83|103.74||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||103.74|90.83|
82491625|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.04|||||TWO_SIDED|95.0|90.33|99.99||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||99.99|90.33|
82491626|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.41|||||TWO_SIDED|95.0|89.94|101.21||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||101.21|89.94|
82596193|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|9.0|STANDARD_ERROR_OF_MEAN|2.9||0.002|TWO_SIDED|95.0|3.0|15.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||15.0|3.0|0.002
82596194|NCT02873936|164906830|SUPERIORITY||Least Squares Mean Difference|8.0|STANDARD_ERROR_OF_MEAN|2.9||0.007|TWO_SIDED|95.0|2.0|14.0||MMRM model included treatment, visit (as categorical), treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||14.0|2.0|0.007
82596195|NCT01225731|164906842|SUPERIORITY_OR_OTHER||% Difference in Response Rate|28.89||||0.001|TWO_SIDED|95.0|13.41|44.36|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||44.36|13.41|0.001
82596196|NCT01225731|164906842|SUPERIORITY_OR_OTHER||% Difference in Response Rate|60.0|||<|0.001|TWO_SIDED|95.0|48.42|71.58|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||71.58|48.42|<0.001
82596197|NCT01225731|164906842|SUPERIORITY_OR_OTHER||% Difference in Response Rate|61.85|||<|0.001|TWO_SIDED|95.0|50.33|73.37|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||73.37|50.33|<0.001
82596198|NCT01225731|164906842|SUPERIORITY_OR_OTHER||% Difference in Response Rate|69.97|||<|0.001|TWO_SIDED|95.0|58.96|80.99|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||80.99|58.96|<0.001
82596199|NCT01225731|164906843|SUPERIORITY_OR_OTHER||% Difference in Response Rate|19.37||||0.009|TWO_SIDED|95.0|5.15|33.58|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||33.58|5.15|0.009
82596200|NCT01225731|164906843|SUPERIORITY_OR_OTHER||% Difference in Response Rate|54.44|||<|0.001|TWO_SIDED|95.0|42.63|66.26|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||66.26|42.63|<0.001
82596201|NCT01225731|164906843|SUPERIORITY_OR_OTHER||% Difference in Response Rate|56.23|||<|0.001|TWO_SIDED|95.0|44.43|68.03|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||68.03|44.43|<0.001
82596202|NCT01225731|164906843|SUPERIORITY_OR_OTHER||% Difference in Response Rate|67.65|||<|0.001|TWO_SIDED|95.0|56.42|78.88|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||78.88|56.42|<0.001
82596203|NCT01225731|164906844|SUPERIORITY_OR_OTHER||% Difference in Response Rate|31.11|||<|0.001|TWO_SIDED|95.0|16.22|46.0|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||46.0|16.22|<0.001
82596204|NCT01225731|164906844|SUPERIORITY_OR_OTHER||% Difference in Response Rate|55.56|||<|0.001|TWO_SIDED|95.0|44.48|66.63|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||66.63|44.48|<0.001
82596205|NCT01225731|164906844|SUPERIORITY_OR_OTHER||% Difference in Response Rate|59.58|||<|0.001|TWO_SIDED|95.0|48.6|70.55|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||70.55|48.60|<0.001
82596206|NCT01225731|164906844|SUPERIORITY_OR_OTHER||% Difference in Response Rate|72.2|||<|0.001|TWO_SIDED|95.0|62.02|82.37|||Cochran-Mantel-Haenszel|Stratified by baseline weight (≤90 kg or \>90 kg) and prior use of biologics for psoriasis (Yes/No).||||82.37|62.02|<0.001
82596207|NCT00577642|164906855|OTHER|single group|||||<|0.05|||||||t-test, 1 sided|||Paired t-tests were used to compare differences of NTX cytokine levels at study entry versus end-of-study.||||<0.05
82596208|NCT04770389|164906856|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
82596209|NCT04770389|164906857|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
82596210|NCT04770389|164906858|SUPERIORITY||Least Squares (LS) Mean|-44.92|STANDARD_ERROR_OF_MEAN|5.183|<|0.0001|TWO_SIDED|95.0|-55.2|-34.63|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-34.63|-55.20|<0.0001
82596211|NCT04770389|164906859|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
82596212|NCT04770389|164906860|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
82596213|NCT04770389|164906861|SUPERIORITY||Least Squares (LS) Mean|-43.33|STANDARD_ERROR_OF_MEAN|5.517|<|0.0001|TWO_SIDED|95.0|-54.29|-32.36|||ANCOVA|||||-32.36|-54.29|<0.0001
82596214|NCT04770389|164906862|SUPERIORITY||Least Squares (LS) Means|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
82596215|NCT04770389|164906863|SUPERIORITY||Least Squares (LS) Mean|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
82596216|NCT04770389|164906864|SUPERIORITY||Least Squares (LS) Mean|-33.36|STANDARD_ERROR_OF_MEAN|5.176|<|0.0001|TWO_SIDED|95.0|-43.63|-23.09|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-23.09|-43.63|<0.0001
82596217|NCT04770389|164906865|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
82654512|NCT02739984|165023777|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-19.25|STANDARD_ERROR_OF_MEAN|3.41|<|0.0001|TWO_SIDED|95.0|-25.95|-12.54|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-12.54|-25.95|<0.0001
82596218|NCT04770389|164906866|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
82596219|NCT04770389|164906867|SUPERIORITY||Least Squares (LS) Mean|-28.2|STANDARD_ERROR_OF_MEAN|5.596|<|0.0001|TWO_SIDED|95.0|-39.32|-17.08|||ANCOVA|||||-17.08|-39.32|<0.0001
82654513|NCT02739984|165023778|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-13.7|STANDARD_ERROR_OF_MEAN|4.02|<|0.0001|TWO_SIDED|95.0|-21.6|-5.8|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-5.80|-21.60|<0.0001
82654514|NCT02739984|165023779|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|9.8|STANDARD_ERROR_OF_MEAN|1.45|<|0.0001|TWO_SIDED|95.0|6.95|12.64|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||12.64|6.95|<0.0001
82654515|NCT02739984|165023780|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|7.37|STANDARD_ERROR_OF_MEAN|1.62|<|0.0001|TWO_SIDED|95.0|4.19|10.56|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||10.56|4.19|<0.0001
82377509|NCT01569295|164462142|SUPERIORITY||Odds Ratio (OR)|9.55||||0.011|TWO_SIDED|95.0|1.19|76.81||Odds ratio, 95% CI and p-value are calculated from the CMH Chi-square test stratified by stratification factors in EDC (del17p/TP53, IgHV mutation and disease status).|Cochran-Mantel-Haenszel|||||76.81|1.19|0.011
82596220|NCT04770389|164906868|SUPERIORITY||Least Squares (LS) Means|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
82596221|NCT04770389|164906869|SUPERIORITY||Least Squares (LS) Mean|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
82596222|NCT04770389|164906870|SUPERIORITY||Least Squares (LS) Means|-29.62|STANDARD_ERROR_OF_MEAN|3.78|<|0.0001|TWO_SIDED|95.0|-37.12|-22.12|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-22.12|-37.12|<0.0001
82596223|NCT04770389|164906871|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
82596224|NCT04770389|164906872|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
82596225|NCT04770389|164906873|SUPERIORITY||Least Squares (LS) Mean|-22.36|STANDARD_ERROR_OF_MEAN|3.768|<|0.0001|TWO_SIDED|95.0|-29.83|-14.88|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-14.88|-29.83|<0.0001
82596226|NCT04770389|164906874|SUPERIORITY||Least Squares (LS) Means|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
82596227|NCT04770389|164906875|SUPERIORITY||Least Squares (LS) Mean|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
82596228|NCT04770389|164906876|SUPERIORITY||Least Squares (LS) Mean|-30.13|STANDARD_ERROR_OF_MEAN|5.254|<|0.0001|TWO_SIDED|95.0|-40.55|-19.71|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-19.71|-40.55|<0.0001
82596229|NCT04770389|164906877|SUPERIORITY||Least Squares (LS) Means|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
82596230|NCT04770389|164906878|SUPERIORITY||Least Squares (LS) Mean|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
82596231|NCT04770389|164906879|SUPERIORITY||Least Squares (LS) Mean|-18.58|STANDARD_ERROR_OF_MEAN|5.196||0.0005|TWO_SIDED|95.0|-28.88|-8.27|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-8.27|-28.88|0.0005
82596232|NCT04770389|164906880|SUPERIORITY||Least Squares (LS) Means|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
82596233|NCT04770389|164906881|SUPERIORITY||Least Squares (LS) Mean|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
82596234|NCT04770389|164906882|SUPERIORITY||Least Squares (LS) Mean|-14.79|STANDARD_ERROR_OF_MEAN|5.165||0.0051|TWO_SIDED|95.0|-25.03|-4.54|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-4.54|-25.03|0.0051
82596235|NCT04770389|164906883|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
82654516|NCT02739984|165023781|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-17.06|STANDARD_ERROR_OF_MEAN|2.98|<|0.0001|TWO_SIDED|95.0|-22.91|-11.21|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-11.21|-22.91|<0.0001
82654517|NCT02739984|165023782|SUPERIORITY|Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|LS Mean Treatment Difference|-13.33|STANDARD_ERROR_OF_MEAN|3.44|<|0.0001|TWO_SIDED|95.0|-20.09|-6.56|||Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Placebo|||-6.56|-20.09|<0.0001
82654518|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|-1.2|-0.1|||||Day 7|||-0.1|-1.2|
82596236|NCT04770389|164906884|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
82596237|NCT04770389|164906885|SUPERIORITY||Least Squares (LS) Mean|-12.77|STANDARD_ERROR_OF_MEAN|5.58||0.0245|TWO_SIDED|95.0|-23.86|-1.68|||ANCOVA|||||-1.68|-23.86|0.0245
82596238|NCT04770389|164906886|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
82596239|NCT04770389|164906887|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
82596240|NCT04770389|164906888|SUPERIORITY||Least Squares (LS) Mean|-20.81|STANDARD_ERROR_OF_MEAN|3.822|<|0.0001|TWO_SIDED|95.0|-28.39|-13.22|||Mixed Models Analysis|mixed model for repeated measures (MMRM) with missing at random assumption||||-13.22|-28.39|<0.0001
82596241|NCT01556425|164906890|SUPERIORITY||Odds Ratio (OR)|2.26||||0.48|TWO_SIDED|95.0|0.2|21.6|||General Estimating Equation (GEE)|||||21.6|0.2|0.48
82596242|NCT01556425|164906890|SUPERIORITY||Odds Ratio (OR)|0.58||||0.61|TWO_SIDED|95.0|0.1|4.6|||General Estimating Equation (GEE)|||||4.6|0.1|0.61
82596243|NCT01556425|164906890|SUPERIORITY||Odds Ratio (OR)|6.0||||0.11|TWO_SIDED|95.0|0.7|54.9|||General Estimating Equation (GEE)|||||54.9|0.7|0.11
82596244|NCT01556425|164906890|SUPERIORITY||Odds Ratio (OR)|2.66||||0.39|TWO_SIDED|95.0|0.3|24.9|||General Estimating Equation (GEE)|||||24.9|0.3|0.39
82596245|NCT01556425|164906890|SUPERIORITY||Odds Ratio (OR)|10.4||||0.03|TWO_SIDED|95.0|1.3|85.5|||General Estimating Equation (GEE)|||||85.5|1.3|0.03
82596246|NCT01556425|164906891|SUPERIORITY||Odds Ratio (OR)|0.36||||0.3|TWO_SIDED|95.0|0.1|2.4|||General Estimating Equation (GEE)|||||2.4|0.1|0.30
82596247|NCT01556425|164906891|SUPERIORITY||Odds Ratio (OR)|0.2||||0.08|TWO_SIDED|95.0|0.03|1.2|||General Estimating Equation (GEE)|||||1.2|0.03|0.08
82596248|NCT01556425|164906891|SUPERIORITY||Odds Ratio (OR)|0.91||||0.91|TWO_SIDED|95.0|0.1|5.8|||General Estimating Equation (GEE)|||||5.8|0.1|0.91
82596249|NCT01556425|164906891|SUPERIORITY||Odds Ratio (OR)|2.47||||0.34|TWO_SIDED|95.0|0.4|15.8|||General Estimating Equation (GEE)|||||15.8|0.4|0.34
82596250|NCT01556425|164906891|SUPERIORITY||Odds Ratio (OR)|4.46||||0.09|TWO_SIDED|95.0|0.8|26.1|||General Estimating Equation (GEE)|||||26.1|0.8|0.09
82654519|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|-2.0|-0.7|||||Day 15|||-0.7|-2.0|
82596251|NCT01970501|164906894|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.905|TWO_SIDED|95.0|0.72|1.45|||Log Rank|||||1.45|.72|0.905
82596252|NCT01970501|164906895|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.961|TWO_SIDED|95.0|0.71|1.42|||Log Rank|||||1.42|0.71|0.961
82596253|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.4|-0.7||||||All sites combined (week 6) - Between-group differences of mean in LBP||-0.7|-1.4|
82596254|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-1.2|-0.5||||||All sites combined (week 12) - Between-group differences of mean in LBP||-0.5|-1.2|
82596255|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.3|-0.1||||||Walter Reed site (week 6) - Between-group differences of mean in LBP||-0.1|-1.3|
82596256|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-1.0|0.2||||||Walter Reed site (week 12) - Between-group differences of mean in LBP||0.2|-1.0|
82596257|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.8|-0.6||||||Naval Hospital Pensacola site (week 6) - Between-group differences of mean in LBP||-0.6|-1.8|
82596258|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.8|-0.5||||||Naval Hospital Pensacola site (week 12) - Between-group differences of mean in LBP||-0.5|-1.8|
82596259|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-1.9|-0.8||||||Naval Medical Center San Diego site (week 6) - Between-group differences of mean in LBP||-0.8|-1.9|
82596260|NCT01692275|164906903|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.7|-0.5||||||Naval Medical Center San Diego (week 12) - Between-group differences of mean in LBP||-0.5|-1.7|
82596261|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-3.1|-1.2||||||All sites combined (week 6) - RMDQ Between-Group Differences in Disability||-1.2|-3.1|
82596262|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-2.0|||||TWO_SIDED|95.0|-3.0|-1.0||||||All sites combined (week 12) - RMDQ Between-Group Differences in Disability||-1.0|-3.0|
82596263|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-1.8|||||TWO_SIDED|95.0|-3.4|-0.2||||||Walter Reed site (week 6) - RMDQ Between-Group Differences in Disability||-0.2|-3.4|
82596264|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-3.2|0.2||||||Walter Reed site (week 12) - RMDQ Between-Group Differences in Disability||0.2|-3.2|
82596265|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-2.1|||||TWO_SIDED|95.0|-3.8|-0.4||||||Pensacola site (week 6) - RMDQ Between-Group Differences in Disability||-0.4|-3.8|
82596266|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-1.9|||||TWO_SIDED|95.0|-3.7|-0.2||||||Pensacola site (week 12) - RMDQ Between-Group Differences in Disability||-0.2|-3.7|
82596267|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-4.3|-1.1||||||San Diego site (week 6) - RMDQ Between-Group Differences in Disability||-1.1|-4.3|
82596268|NCT01692275|164906904|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-4.4|-1.1||||||San Diego site (week 12) - RMDQ Between-Group Differences in Disability||-1.1|-4.4|
82596269|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.6|-0.2||||||All sites combined (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.6|
82596270|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.6|-0.2||||||All sites combined (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.6|
82596271|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Walter Reed site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||0.1|-0.5|
82654520|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.383|||TWO_SIDED|95.0|-3.2|-1.7|||||Day 29|||-1.7|-3.2|
82596272|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-0.5|0.1||||||Walter Reed site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||0.1|-0.5|
82596273|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||Pensacola site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.8|
82596274|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.8|-0.2||||||Pensacola site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.8|
82596275|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-0.7|-0.2||||||San Diego site (week 6) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.2|-0.7|
82596276|NCT01692275|164906905|SUPERIORITY||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-0.7|-0.1||||||San Diego site (week 12) - Between-Group Differences of Means in score of bothersomeness of LBP||-0.1|-0.7|
82596277|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.6|-0.8||||||All sites combined (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.8|-1.6|
82596278|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-1.6|-0.7||||||All sites combined (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.7|-1.6|
82596279|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.3|-0.02||||||Walter Reed site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.02|-1.3|
82596280|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-1.5|-0.1||||||Walter Reed site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.1|-1.5|
82596281|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-2.0|-0.7||||||Pensacola site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.7|-2.0|
82596282|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-2.3|-0.8||||||Pensacola site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.8|-2.3|
82596283|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-2.3|-1.0||||||San Diego site (week 6) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-1.0|-2.3|
82596284|NCT01692275|164906906|SUPERIORITY||Mean Difference (Final Values)|-1.2|||||TWO_SIDED|95.0|-1.9|-0.5||||||San Diego site (week 12) - NRS score for worst LBP in past 24 hours - Between-Group Differences of Mean||-0.5|-1.9|
82596285|NCT01692275|164906907|SUPERIORITY||Odds Ratio (OR)|0.73|||||TWO_SIDED|95.0|0.54|0.97||||||Week 6: All 3 sites combined||0.97|0.54|
82596286|NCT01692275|164906907|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.58|1.0||||||Week 12: All 3 sites combined||1.0|0.58|
82596287|NCT01692275|164906908|SUPERIORITY||Odds Ratio (OR)|0.18|||||TWO_SIDED|95.0|0.13|0.25||||||All sites combined: 6 weeks||0.25|0.13|
82596288|NCT01692275|164906908|SUPERIORITY||Odds Ratio (OR)|0.26|||||TWO_SIDED|95.0|0.16|0.42||||||Walter Reed site: 6 weeks||0.42|0.16|
82596289|NCT01692275|164906908|SUPERIORITY||Odds Ratio (OR)|0.18|||||TWO_SIDED|95.0|0.1|0.33||||||Naval Hospital Pensacola site: 6 weeks||0.33|0.10|
82596290|NCT01692275|164906908|SUPERIORITY||Odds Ratio (OR)|0.13|||||TWO_SIDED|95.0|0.08|0.21||||||Naval Medical Center San Diego site: 6 weeks||0.21|0.08|
82596291|NCT01692275|164906909|SUPERIORITY||Mean Difference (Final Values)|2.5|||||TWO_SIDED|95.0|2.1|2.8||||||All sites combined: 6 weeks||2.8|2.1|
82596292|NCT01692275|164906909|SUPERIORITY||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|1.4|2.6||||||Walter Reed site: 6 weeks||2.6|1.4|
82596293|NCT01692275|164906909|SUPERIORITY||Mean Difference (Final Values)|2.3|||||TWO_SIDED|95.0|1.6|3.0||||||Naval Hospital Pensacola site: 6 weeks||3.0|1.6|
82596294|NCT01692275|164906909|SUPERIORITY||Mean Difference (Final Values)|3.1|||||TWO_SIDED|95.0|2.5|3.7||||||Naval Medical Center San Diego site: 6 weeks||3.7|2.5|
82596295|NCT00950664|164906938|NON_INFERIORITY_OR_EQUIVALENCE|81 participants required to detect 5 difference in Tsui score, with 80% power. 20% drop out rate assumed, 102 participants needed. Alpha level of 0.05.||||||0.05||95.0|||||Paired-t test|||||||0.05
82596296|NCT02374099|164906948|SUPERIORITY||Hazard Ratio (HR)|0.87|||=|0.599|TWO_SIDED|95.0|0.54|1.42|||Log Rank||||Hazard ratio and associated two-sided 95% confidence intervals (CI) were estimated by the Cox proportional hazard models.|1.42|0.54|= 0.599
82596297|NCT02374099|164906949|SUPERIORITY||Difference in Response Rates|6.3|||=|0.1479|TWO_SIDED|95.0|-2.47|15.06|||Fisher Exact||||The two-sided 95% confidence interval for the difference in ORR was estimated by the Wilson method.|15.06|-2.47|= 0.1479
82596298|NCT02374099|164906950|SUPERIORITY||Difference in Clinical Benefit Rate|0.7|||=|0.1732|TWO_SIDED|95.0|-17.76|19.04|||Fisher Exact||||The two-sided 95% confidence interval for the difference in clinical benefit rate was estimated by the Wilson method.|19.04|-17.76|= 0.1732
82596299|NCT02374099|164906951|SUPERIORITY||Hazard Ratio (HR)|0.59|||=|0.2725|TWO_SIDED|95.0|0.23|1.53|||Log Rank||||Hazard Ratio and associated two-sided 95% CI were estimated by the Cox proportional hazard model.|1.53|0.23|= 0.2725
82596300|NCT01033825|164906982|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide 320 μg to HFA placebo, 46 evaluable subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL, assuming no true difference exists.|Mean Difference (Final Values)|-0.5|||>|0.05|TWO_SIDED|95.0|-13.9|13.0|||ANCOVA||Null Hypothesis: the difference in serum cortisol levels between placebo and active (placebo-active)\>=38 Alternative Hypothesis: the difference in serum cortisol levels between placebo and active (placebo-active)\<38|Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||13.0|-13.9|>0.05
82596301|NCT01033825|164906982|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide 320 μg to HFA placebo, 46 evaluable subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL, assuming no true difference exists.|Mean Difference (Final Values)|-2.4||||0.025|TWO_SIDED|95.0|-15.1|10.2|||ANCOVA|||Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||10.2|-15.1|0.025
82491627|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.66|||||TWO_SIDED|95.0|90.53|98.98||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||98.98|90.53|
82491628|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.67|||||TWO_SIDED|95.0|90.94|98.56||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.56|90.94|
82491629|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.0|||||TWO_SIDED|95.0|91.87|100.33||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||100.33|91.87|
82491630|NCT02400333|164676567|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.56|||||TWO_SIDED|95.0|93.08|100.17||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||100.17|93.08|
82491631|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.96|||||TWO_SIDED|95.0|90.27|99.89||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||99.89|90.27|
82491632|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.24|||||TWO_SIDED|95.0|89.81|100.99||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||100.99|89.81|
82491633|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.4|||||TWO_SIDED|95.0|90.26|98.73||||||Statistical assessment of ticagrelor relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||98.73|90.26|
82491634|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.82|||||TWO_SIDED|95.0|91.36|98.42||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered with water compared to ticagrelor IR tablets.||98.42|91.36|
82491635|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.71|||||TWO_SIDED|95.0|91.78|99.82||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered without water compared to ticagrelor IR tablets.||99.82|91.78|
82491636|NCT02400333|164676568|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.5|||||TWO_SIDED|95.0|93.26|99.87||||||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets suspended in water and administered through NG tube compared to ticagrelor IR tablets.||99.87|93.26|
82491637|NCT01650844|164676579|OTHER|We estimated the power to detect the smallest clinically significant difference in mean SFDs post intervention between the groups, accounting for repeated measures. A sample of 400 obtains greater than 90% power to detect a difference of 0.8 SFD per 2 weeks or greater. Analyses were multivariable modified intention to treat, including all participants with post intervention data. Generalized estimating equation (GEE) models were fitted with repeated asthma outcomes.|Mean Difference (Net)|0.8|STANDARD_DEVIATION|2.8|<|0.05|TWO_SIDED|||||Analyses were multivariable modified intention to treat, including all participants with post intervention data. Generalized estimating equation (GEE) models were fitted with repeated asthma outcomes.|Regression, Linear|||||||<0.05
82491638|NCT02785432|164676580|SUPERIORITY|||||||0.55||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.55
82491639|NCT02785432|164676581|SUPERIORITY|||||||0.66||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.66
82491640|NCT02785432|164676582|SUPERIORITY|||||||0.51||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.51
82491641|NCT02785432|164676583|SUPERIORITY|||||||0.96||||||Between group comparison at 8 weeks|Wilcoxon (Mann-Whitney)|||||||0.96
82491642|NCT01519271|164676610|SUPERIORITY||Cohen's D|0.35|||||TWO_SIDED|||||||||||||
82491643|NCT01397890|164676657|SUPERIORITY_OR_OTHER||Ratio|1.044||||0.0004|TWO_SIDED|95.0|1.019|1.069|||ANCOVA|multiplicative ANCOVA model with treatment and country as fixed factors and baseline value as a (log-transformed) covariate||||1.069|1.019|0.0004
82491644|NCT01397890|164676658|SUPERIORITY_OR_OTHER||Ratio|1.079|||<|0.0001|TWO_SIDED|95.0|1.057|1.102|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.102|1.057|<0.0001
82491645|NCT01397890|164676659|SUPERIORITY_OR_OTHER||Ratio|1.086|||<|0.0001|TWO_SIDED|95.0|1.062|1.111|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.111|1.062|<0.0001
82491646|NCT01397890|164676660|SUPERIORITY_OR_OTHER||Ratio|1.018||||0.057|TWO_SIDED|95.0|0.999|1.037|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.037|0.999|0.0570
82491647|NCT01397890|164676661|SUPERIORITY_OR_OTHER||Ratio|1.05|||<|0.0001|TWO_SIDED|95.0|1.033|1.067|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.067|1.033|<0.0001
82491648|NCT01397890|164676662|SUPERIORITY_OR_OTHER||Ratio|1.054|||<|0.0001|TWO_SIDED|95.0|1.036|1.073|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.073|1.036|<0.0001
82491649|NCT01397890|164676663|SUPERIORITY_OR_OTHER||Ratio|1.02||||0.1956|TWO_SIDED|95.0|0.99|1.05|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.050|0.990|0.1956
82491650|NCT01397890|164676664|SUPERIORITY_OR_OTHER||Ratio|1.062|||<|0.0001|TWO_SIDED|95.0|1.035|1.091|||ANCOVA|Multiplicative ANCOVA model with treatment and country as fixed factors and week 0 pre-dose value as a (log-transformed) covariate.||||1.091|1.035|<0.0001
82491651|NCT01397890|164676665|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.303||||0.0001|TWO_SIDED|95.0|9.904|30.702|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||30.702|9.904|0.0001
82491652|NCT01397890|164676666|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.587|||<|0.0001|TWO_SIDED|95.0|7.407|19.766|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||19.766|7.407|<0.0001
82491653|NCT01397890|164676667|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.469|||<|0.0001|TWO_SIDED|95.0|10.147|24.791|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||24.791|10.147|<0.0001
82596302|NCT01033825|164906982|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be demonstrated if the 95% CI upper bound for the difference between ciclesonide and placebo with placebo dexamethasone (placebo minus ciclesonide) is \<Margin. In order to have 90% power to demonstrate non-inferiority of ciclesonide nasal spray 200 μg to placebo nasal spray 46 evaluable (per protocol) subjects per group are needed using a 1-sided alpha level of 0.025, a standard deviation of 55 μg h/dL, a non-inferiority margin of 38 μh /dL|Mean Difference (Final Values)|10.4|||>|0.05|TWO_SIDED|95.0|-4.7|25.5|||ANCOVA|||Standard bioequivalence bounds of a 20% difference based on the clinical judgment was used to determine the delta.||25.5|-4.7|>0.05
82596303|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.293|0.369|||Mixed Effects Model for Repeated Measure|||||0.369|0.293|<0.0001
82596304|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.075|0.148|||Mixed Effects Model for Repeated Measure|||||0.148|0.075|<0.0001
82596305|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.262|0.337|||Mixed Effects Model for Repeated Measure|||||0.337|0.262|<0.0001
82596306|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.044|0.116|||Mixed Effects Model for Repeated Measure|||||0.116|0.044|<0.0001
82596307|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001|TWO_SIDED|95.0|0.181|0.258|||Mixed Effects Model for Repeated Measure|||||0.258|0.181|<0.0001
82596308|NCT01964352|164907014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.018||0.0872|TWO_SIDED|95.0|-0.005|0.067|||Mixed Effects Model for Repeated Measure|||||0.067|-0.005|0.0872
82596309|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.0124|0.2|||Mixed Effects Model for Repeated Measure|||||0.200|0.0124|<0.0001
82596310|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.028|STANDARD_ERROR_OF_MEAN|0.019||0.1381|TWO_SIDED|95.0|-0.009|0.066|||Mixed Effects Model for Repeated Measure|||||0.066|-0.009|0.1381
82596311|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.113|0.188|||Mixed Effects Model for Repeated Measure|||||0.188|0.113|<0.0001
82596312|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.019||0.3872|TWO_SIDED|95.0|-0.021|0.054|||Mixed Effects Model for Repeated Measure|||||0.054|-0.021|0.3872
82596313|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|0.096|0.172|||Mixed Effects Model for Repeated Measure|||||0.172|0.096|<0.0001
82596314|NCT01964352|164907015|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.019||0.5333|TWO_SIDED|95.0|-0.025|0.049|||Mixed Effects Model for Repeated Measure|||||0.049|-0.025|0.5333
82596315|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.894|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|95.0|-6.904|-2.884|||Mixed Effects Model for Repeated Measure|||||-2.884|-6.904|<0.0001
82596316|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.493|STANDARD_ERROR_OF_MEAN|1.009||0.0136|TWO_SIDED|95.0|-4.473|-0.513|||Mixed Effects Model for Repeated Measure|||||-0.513|-4.473|0.0136
82596317|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.122|STANDARD_ERROR_OF_MEAN|1.023|<|0.0001|TWO_SIDED|95.0|-6.129|-2.114|||Mixed Effects Model for Repeated Measure|||||-2.114|-6.129|<0.0001
82596318|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.721|STANDARD_ERROR_OF_MEAN|1.008||0.088|TWO_SIDED|95.0|-3.698|0.256|||Mixed Effects Model for Repeated Measure|||||0.256|-3.698|0.0880
82596319|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.401|STANDARD_ERROR_OF_MEAN|1.029||0.0198|TWO_SIDED|95.0|-4.419|-0.382|||Mixed Effects Model for Repeated Measure|||||-0.382|-4.419|0.0198
82596320|NCT01964352|164907016|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.772|STANDARD_ERROR_OF_MEAN|1.003||0.4415|TWO_SIDED|95.0|-2.741|1.196|||Mixed Effects Model for Repeated Measure|||||1.196|-2.741|0.4415
82596321|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.157|0.282|||Mixed Effects Model for Repeated Measure|||||0.282|0.157|<0.0001
82596322|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.032||0.5052|TWO_SIDED|95.0|-0.041|0.084|||Mixed Effects Model for Repeated Measure|||||0.084|-0.041|0.5052
82596323|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.208|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.146|0.271|||Mixed Effects Model for Repeated Measure|||||0.271|0.146|<0.0001
82596324|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.032||0.7566|TWO_SIDED|95.0|-0.052|0.072|||Mixed Effects Model for Repeated Measure|||||0.072|-0.052|0.7566
82596325|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.198|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.136|0.261|||Mixed Effects Model for Repeated Measure|||||0.261|0.136|<0.0001
82596326|NCT01964352|164907017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.032||0.7199|TWO_SIDED|95.0|-0.051|0.073|||Mixed Effects Model for Repeated Measure|||||0.073|-0.051|0.7199
82596327|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.052|STANDARD_ERROR_OF_MEAN|0.273|<|0.0001|TWO_SIDED|95.0|1.516|2.588|||Mixed Effects Model for Repeated Measure|||||2.588|1.516|<0.0001
82596328|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.607|STANDARD_ERROR_OF_MEAN|0.27||0.0246|TWO_SIDED|95.0|0.078|1.137|||Mixed Effects Model for Repeated Measure|||||1.137|0.078|0.0246
82596329|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.952|STANDARD_ERROR_OF_MEAN|0.272|<|0.0001|TWO_SIDED|95.0|1.417|2.487|||Mixed Effects Model for Repeated Measure|||||2.487|1.417|<0.0001
82596330|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.507|STANDARD_ERROR_OF_MEAN|0.269||0.0599|TWO_SIDED|95.0|-0.021|1.035|||Mixed Effects Model for Repeated Measure|||||1.035|-0.021|0.0599
82596331|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.445|STANDARD_ERROR_OF_MEAN|0.274|<|0.0001|TWO_SIDED|95.0|0.907|1.983|||Mixed Effects Model for Repeated Measure|||||1.983|0.907|<0.0001
82596332|NCT01964352|164907018|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.268||0.7081|TWO_SIDED|95.0|-0.425|0.626|||Mixed Effects Model for Repeated Measure|||||0.626|-0.425|0.7081
82596333|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.457|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.39|0.524|||Mixed Effects Model for Repeated Measure|||||0.524|0.390|<0.0001
82596334|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.095|0.225|||Mixed Effects Model for Repeated Measure|||||0.225|0.095|<0.0001
82596335|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.398|STANDARD_ERROR_OF_MEAN|0.034|<|0.0001|TWO_SIDED|95.0|0.331|0.465|||Mixed Effects Model for Repeated Measure|||||0.465|0.331|<0.0001
82596336|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.033||0.0023|TWO_SIDED|95.0|0.036|0.165|||Mixed Effects Model for Repeated Measure|||||0.165|0.036|0.0023
82596337|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.297|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|0.229|0.365|||Mixed Effects Model for Repeated Measure|||||0.365|0.229|<0.0001
82596338|NCT01964352|164907019|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.033||0.0701|TWO_SIDED|95.0|-0.005|0.123|||Mixed Effects Model for Repeated Measure|||||0.123|-0.005|0.0701
82654521|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|0.384|||TWO_SIDED|95.0|-3.7|-2.1|||||Day 43|||-2.1|-3.7|
82491654|NCT01397890|164676668|SUPERIORITY_OR_OTHER||Mean Difference (Net)|26.428||||0.0001|TWO_SIDED|95.0|13.463|39.393|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||39.393|13.463|0.0001
82491655|NCT01397890|164676669|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.192||||0.0006|TWO_SIDED|95.0|7.491|26.894|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||26.894|7.491|0.0006
82491656|NCT01397890|164676670|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.472|||<|0.0001|TWO_SIDED|95.0|10.347|26.596|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||26.596|10.347|<0.0001
82491657|NCT01397890|164676671|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.668|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.437|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.437|-0.900|<0.0001
82491658|NCT01397890|164676672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.375|||<|0.0001|TWO_SIDED|95.0|-0.552|-0.198|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.198|-0.552|<0.0001
82491659|NCT01397890|164676673|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.551|||<|0.0001|TWO_SIDED|95.0|-0.741|-0.361|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.361|-0.741|<0.0001
82491660|NCT01397890|164676674|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.236||||0.0028|TWO_SIDED|95.0|-0.391|-0.082|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.082|-0.391|0.0028
82491661|NCT01397890|164676675|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.124||||0.0372|TWO_SIDED|95.0|-0.24|-0.007|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.007|-0.240|0.0372
82491662|NCT01397890|164676676|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.231||||0.0001|TWO_SIDED|95.0|-0.35|-0.113|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.113|-0.350|0.0001
82491663|NCT01397890|164676677|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.262|||<|0.0001|TWO_SIDED|95.0|-0.364|-0.159|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.159|-0.364|<0.0001
82596339|NCT02831673|164907021|NON_INFERIORITY|Treatment with DTG+ 3TC was to be declared non-inferior to treatment with DTG+TDF/FTC if the lower end of a two-sided 95% confidence interval for the difference between the two groups in response rates at Week 48 greater than -10%.|Adjusted difference in proportion|-2.6|||||TWO_SIDED|95.0|-6.7|1.5|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<=versus \[vs.\]\>100,000 c/mL) and cluster of differentiation 4+ (CD4+) cell count (\<= vs. \>200 cells per cubic millimeter).|||1.5|-6.7|
82596340|NCT02831673|164907022|OTHER||Adjusted difference in proportion|-0.4|||||TWO_SIDED|95.0|-4.2|3.4|||||Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<=vs.\>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells per cubic millimeter).|||3.4|-4.2|
82596341|NCT02831673|164907023|OTHER||Adjusted difference in proportion|-4.9|||||TWO_SIDED|95.0|-9.8|0.0|||||Week 96. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||0.0|-9.8|
82596342|NCT02831673|164907024|OTHER||Adjusted difference in proportion|-3.6|||||TWO_SIDED|95.0|-9.4|2.1|||||Week 144. Difference in proportion was based on CMH stratified analysis adjusting for Baseline stratification factors: Plasma HIV-1 RNA (\<= vs. \>100,000 c/mL) and CD4+ cell count (\<= vs. \>200 cells/mm\^3).|||2.1|-9.4|
82596343|NCT02831673|164907025|OTHER||Hazard Ratio (HR)|1.0||||0.658|TWO_SIDED|95.0|0.86|1.16||The generalized Wilcoxon procedure was used to estimate a p-value for detecting a difference in cumulative incidence curves between treatment groups.|Generalized Wilcoxon procedure||Hazard ratios were estimated using the Cox proportional hazard regression model.|||1.16|0.86|0.658
82596344|NCT02831673|164907029|OTHER||Mean Difference (Net)|17.1||||0.206|TWO_SIDED|95.0|-9.4|43.6|||Mixed Model Repeated Measures (MMRM)||Week 24. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||43.6|-9.4|0.206
82596345|NCT02831673|164907029|OTHER||Mean Difference (Net)|4.6||||0.754|TWO_SIDED|95.0|-23.9|33.0|||Mixed Model Repeated Measures (MMRM)||Week 48. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||33.0|-23.9|0.754
82654522|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.393|||TWO_SIDED|95.0|-4.0|-2.4|||||Day 57|||-2.4|-4.0|
82654523|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|95.0|-4.7|-2.9|||||Day 85|||-2.9|-4.7|
82491664|NCT01397890|164676678|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.143||||0.0067|TWO_SIDED|95.0|-0.246|-0.04|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.040|-0.246|0.0067
82491665|NCT01397890|164676679|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.122||||0.0171|TWO_SIDED|95.0|-0.222|-0.022|||ANCOVA|Additive ANCOVA model with treatment and centre as fixed factors and the run-in mean of pre-dose morning PEF as a covariate||||-0.022|-0.222|0.0171
82491666|NCT01397890|164676680|SUPERIORITY_OR_OTHER||Rate ratio|0.593||||0.0032|TWO_SIDED|95.0|0.419|0.839|||Poisson regression|Poisson regression model with treatment as a factor and the duration time in study as an offset variable morning PEF as a covariate||||0.839|0.419|0.0032
82491667|NCT01397890|164676680|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.614||||0.0167|TWO_SIDED|95.0|0.412|0.916|||Regression, Cox|Time to the first COPD exacerbation||||0.916|0.412|0.0167
82491668|NCT01397890|164676680|SUPERIORITY_OR_OTHER|||||||0.0196|||||||Log Rank|||||||0.0196
82491669|NCT00434954|164676769|NON_INFERIORITY_OR_EQUIVALENCE|The planned sample size of 366 patients treated with metformin only (assuming 25% dropouts) gave a power of 85% to detect non-inferiority of exenatide BID for change in HbA1c (non-inferiority margin 0.4%; assumed common standard deviation of 1.1%).|Mean Difference (Net)|0.14||||0.055|TWO_SIDED|95.0|-0.003|0.291||Non-inferiority: upper limit of 95% Confidence Interval (CI) to be \< 0.4%.|Mixed effect model repeat measures(MMRM)|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects); p-value: superiority test||The hypothesis was tested hierarchically that 1) exenatide BID is non-inferior to insulin aspart 70/30 BID for glycemic control (change in HbA1c, outcome measure 1), and 2) superior regarding the incidence of hypoglycemia (outcome measure 2). This is the first part of the hierarchical test.||0.291|-0.003|0.055
82491670|NCT00434954|164676770|SUPERIORITY_OR_OTHER|||||||0.554||95.0|||||Chi square test (Pearson)|||||||0.554
82491671|NCT00434954|164676771|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Chi square test (Pearson)|||||||0.159
82491672|NCT00434954|164676776|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||Non overlapping 95% CI's: statistically significant difference p\<0.05.|Kaplan-Meier analysis|For each treatment group, the incidence of hypoglycemia at Week 26 and 95% CIs were derived from Kaplan-Meier analysis.||The hypothesis was tested hierarchically that 1) exenatide BID is non-inferior to insulin aspart BID for glycemic control (outcome measure 1), and 2) superior regarding the incidence of hypoglycemia (outcome measure 2).The planned sample size of 366 patients treated with metformin only (assumed dropout rate 25%) gave 96% power to detect superiority of exenatide BID for the risk of hypoglycemia, assuming incidences of 3.6% for exenatide BID and 17.5% for insulin aspart BID (alpha=0.05).||||<0.05
82491673|NCT00434954|164676777|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The MMRM model adjusted for baseline HbA1c stratum (HbA1c at baseline \>= 6.5% and \<= 8.0% vs. \> 8.0% and \<=10%).|Mixed effects model repeated measures|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects)||||||<0.0001
82491674|NCT00434954|164676778|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The MMRM model adjusted for baseline HbA1c stratum (HbA1c at Visit 1 \>= 6.5% and \<= 8.0% vs. \> 8.0% and \<=10%).|Mixed effects model repeated measures|95% CI of treatment group difference derived from MMRM (treatment, week, baseline HbA1c and interactions as fixed effects)||||||<0.0001
82491675|NCT00944671|164676781|NON_INFERIORITY_OR_EQUIVALENCE|Given a 3-period crossover design, assuming a true within subject variance for natural log AUC of 0.029, 24 subjects completing the study, and alpha = 0.05, there is a 0.995 probability that the 90% confidence interval for the true geometric mean ratio of AUC for (famotidine antacid combination EZ Chew tablet without water/ famotidine antacid combination tablet with water) will be contained in (0.80, 1.25), given that the true ratio is one.|Geometric Mean Ratio|1.05||||||90.0|0.98|1.13||||||||1.13|0.98|
82491676|NCT00944671|164676782|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a true within subject variance for natural log Cmax of 0.017, there is a 0.999 probability that the 90% confidence interval for the true geometric mean ratio of Cmax for (famotidine antacid combination EZ Chew tablet without water/ famotidine antacid combination tablet with water) will be contained in (0.80, 1.25), given that the true ratio is one.|Geometric Mean Ratio|1.03||||||90.0|0.93|1.13||||||||1.13|0.93|
82491677|NCT00944671|164676783|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.05||||||90.0|0.98|1.13||||||||1.13|0.98|
82491678|NCT00944671|164676784|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03||||||90.0|0.93|1.14||||||||1.14|0.93|
82491679|NCT01431989|164676785|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric mean T/R formulation|90.03|STANDARD_DEVIATION|7.53||0|TWO_SIDED|90.0|86.99|93.17|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.17|86.99|0.0000
82491680|NCT01431989|164676786|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric mean T/R formulation|87.93|STANDARD_DEVIATION|13.83||0.0018|TWO_SIDED|90.0|82.55|93.65|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.65|82.55|0.0018
82491681|NCT01431989|164676787|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Ratio Geometric means T/R formulation|90.03|STANDARD_DEVIATION|7.51||0|TWO_SIDED|90.0|86.96|93.12|||ANOVA|ANOVA model: 1) Fixed effects: Sequence, Period, and Formulation; 2) Random effects: Volunteer (Sequence) and Residual|The ratio between the geometric means of the test (T) and reference (R) formulations was calculated. Standard deviation intra subject was obtained.|||93.12|86.96|0.0000
82654524|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.5|STANDARD_ERROR_OF_MEAN|0.472|||TWO_SIDED|95.0|-5.4|-3.5|||||Day 113|||-3.5|-5.4|
82654525|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.492|||TWO_SIDED|95.0|-5.8|-3.8|||||Day 141|||-3.8|-5.8|
82491682|NCT01431989|164676788|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis. This is a bioequivalence study performed to support the register of Clamoxyl 500 mg/5 mL, according to the requirements of Brazilian Regulatory Agency - National Agency of Sanitary Surveillance (ANVISA).|Median Difference (Final Values)|0.125||||0.339|TWO_SIDED|90.0|-0.125|0.375|||Wilcoxon (Mann-Whitney)|The non-parametric method included the following factors: Sequence, Formulation, Period, Formulation and Residual||||0.375|-0.125|0.3390
82491683|NCT03345914|164676795|SUPERIORITY||Percentage difference|18.1|||=|0.0004|TWO_SIDED|95.0|8.28|27.97||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kilograms (kg) or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with IGA 0 or 1 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||27.97|8.28|= 0.0004
82491684|NCT03345914|164676795|SUPERIORITY||Percentage difference|21.4|||<|0.0001|TWO_SIDED|95.0|11.36|31.45||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with IGA 0 or 1 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||31.45|11.36|< 0.0001
82491685|NCT03345914|164676796|SUPERIORITY||Percentage difference|40.4|||<|0.0001|TWO_SIDED|95.0|28.95|51.82||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with EASI-75 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||51.82|28.95|< 0.0001
82491686|NCT03345914|164676796|SUPERIORITY||Percentage difference|42.8|||<|0.0001|TWO_SIDED|95.0|31.54|54.15||The Cochran-Mantel-Haenszel (CMH) test adjusted by randomization strata (baseline weight group (\< 30 kg or ≥ 30 kg) and region (North America or Europe) was used for the analysis of percentage of participants with EASI-75 at Week 16.|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||54.15|31.54|< 0.0001
82491687|NCT03345914|164676797|SUPERIORITY||Least Square Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-36.33|-23.24||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-23.24|-36.33|< 0.0001
82491688|NCT03345914|164676797|SUPERIORITY||Least Square Mean Difference|-33.4|||<|0.0001|TWO_SIDED|95.0|-40.06|-26.82||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-26.82|-40.06|< 0.0001
82491689|NCT03345914|164676798|SUPERIORITY||Least Square Mean Difference|-31.0|||<|0.0001|TWO_SIDED|95.0|-38.76|-23.26||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-23.26|-38.76|< 0.0001
82491690|NCT03345914|164676798|SUPERIORITY||Least Square Mean Difference|-28.6|||<|0.0001|TWO_SIDED|95.0|-36.47|-20.82||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-20.82|-36.47|< 0.0001
82491691|NCT03345914|164676799|SUPERIORITY||Percentage difference|46.4|||<|0.0001|TWO_SIDED|95.0|35.3|57.42||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||57.42|35.3|< 0.0001
82596346|NCT02831673|164907030|OTHER||Mean Difference (Net)|10.8||||0.5|TWO_SIDED|95.0|-20.7|42.4|||Mixed Model Repeated Measures (MMRM)||Week 96. Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||42.4|-20.7|0.500
82596347|NCT02831673|164907031|OTHER||Mean Difference (Net)|-1.4||||0.934|TWO_SIDED|95.0|-34.2|31.5|||Mixed Model Repeated Measures (MMRM)||Week 144.Following covariates/factors were adjusted: treatment, visit, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, treatment and visit interaction and Baseline CD4+ cell count and visit interaction with visit as the repeated factor.|||31.5|-34.2|0.934
82654526|NCT00767325|165023792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|0.473|||TWO_SIDED|95.0|-5.8|-3.9|||||Day 169|||-3.9|-5.8|
82491692|NCT03345914|164676799|SUPERIORITY||Percentage difference|39.2|||<|0.0001|TWO_SIDED|95.0|27.88|50.51||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||50.51|27.88|< 0.0001
82491693|NCT03345914|164676800|SUPERIORITY||Percentage difference|46.0|||<|0.0001|TWO_SIDED|95.0|35.47|56.61||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||56.61|35.47|< 0.0001
82491694|NCT03345914|164676800|SUPERIORITY||Percentage difference|38.5|||<|0.0001|TWO_SIDED|95.0|27.86|49.21||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||49.21|27.86|< 0.0001
82491695|NCT03345914|164676801|SUPERIORITY||Percentage difference|39.7|||<|0.0001|TWO_SIDED|95.0|28.68|50.72||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||50.72|28.68|< 0.0001
82491696|NCT03345914|164676801|SUPERIORITY||Percentage difference|47.9|||<|0.0001|TWO_SIDED|95.0|37.77|58.01||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||58.01|37.77|< 0.0001
82491697|NCT03345914|164676802|SUPERIORITY||Percentage difference|23.0|||<|0.0001|TWO_SIDED|95.0|13.65|32.38||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||32.38|13.65|< 0.0001
82491698|NCT03345914|164676802|SUPERIORITY||Percentage difference|34.5|||<|0.0001|TWO_SIDED|95.0|24.6|44.37||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||44.37|24.6|< 0.0001
82491699|NCT03345914|164676803|SUPERIORITY||Hazard ratios|3.114|||<|0.0001|TWO_SIDED|95.0|2.097|4.624||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||4.624|2.097|< 0.0001
82491700|NCT03345914|164676803|SUPERIORITY||Hazard ratios|2.921|||<|0.0001|TWO_SIDED|95.0|1.957|4.36||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||4.36|1.957|< 0.0001
82654527|NCT00996736|165023814|NON_INFERIORITY_OR_EQUIVALENCE|The pre-specified non-inferiority margin is less than 1.5 lines logMAR acuity. (Adjusted three-month visual acuity confidence bounds for the difference between the voriconazole and natamycin groups which meet or exceed 0.15 logMAR units would not permit noninferiority to be declared.) Note that this design also allows declaration of superiority (2-sided alpha of 0.05, corrected for an interim analysis).|Mean Difference (Net)|-0.18||||0.006|TWO_SIDED|95.0|-0.3|-0.05|||Regression, Linear|||||-0.05|-0.30|0.006
82491701|NCT03345914|164676804|SUPERIORITY||Hazard ratios|2.278|||<|0.0001|TWO_SIDED|95.0|1.631|3.182||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||3.182|1.631|< 0.0001
82654528|NCT03708211|165023839|OTHER||Ratio of geometric mean|0.9359|||||TWO_SIDED|90.0|0.8084|1.0835||||||Following log-transformation, PK parameters were analyzed by analysis of variance (ANOVA) fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90 percent (%) confidence intervals (CIs) for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.0835|0.8084|
82596348|NCT02831673|164907042|OTHER||Mean Difference (Net)|-0.02||||0.025|TWO_SIDED|95.0|-0.04|0.0|||Mixed Model Repeated Measures||Serum Cystatin C, Week 24|||0.00|-0.04|0.025
82596349|NCT02831673|164907042|OTHER||Mean Difference (Net)|-0.03||||0.001|TWO_SIDED|95.0|-0.05|-0.01|||Mixed Model Repeated Measures||Serum Cystatin C, Week 48|||-0.01|-0.05|0.001
82596350|NCT02831673|164907042|OTHER||Mean Difference (Net)|-0.3||||0.683|TWO_SIDED|95.0|-1.6|1.0|||Mixed Model Repeated Measures||Serum RBP, Week 24|||1.0|-1.6|0.683
82596351|NCT02831673|164907042|OTHER||Mean Difference (Net)|-0.1||||0.93|TWO_SIDED|95.0|-1.4|1.2|||Mixed Model Repeated Measures||Serum RBP, Week 48|||1.2|-1.4|0.930
82596352|NCT02831673|164907043|OTHER||Mean Difference (Net)|-0.02||||0.009|TWO_SIDED|95.0|-0.04|-0.01|||Mixed Model Repeated Measures||Week 96. Serum Cystatin C.|||-0.01|-0.04|0.009
82596353|NCT02831673|164907044|OTHER||Mean Difference (Net)|-0.01||||0.108|TWO_SIDED|95.0|-0.03|0.0|||Mixed Model Repeated Measures||Week 144. Serum Cystatin C.|||-0.00|-0.03|0.108
82596354|NCT02831673|164907047|OTHER||Mean Difference (Net)|2.2||||0.011|TWO_SIDED|95.0|0.5|4.0|||Mixed Model Repeated Measures||GFR-cystatin C adjusted, Week 24|||4.0|0.5|0.011
82596355|NCT02831673|164907047|OTHER||Mean Difference (Net)|2.8|||<|0.001|TWO_SIDED|95.0|1.2|4.5|||Mixed Model Repeated Measures||GFR-cystatin C adjusted, Week 48|||4.5|1.2|<0.001
82596356|NCT02831673|164907047|OTHER||Mean Difference (Net)|3.2|||<|0.001|TWO_SIDED|95.0|1.6|4.8|||Mixed Model Repeated Measures||GFR-creatinine adjusted, Week 24|||4.8|1.6|<0.001
82596357|NCT02831673|164907047|OTHER||Mean Difference (Net)|3.5|||<|0.001|TWO_SIDED|95.0|2.0|5.1|||Mixed Model Repeated Measures||GFR- creatinine adjusted, Week 48|||5.1|2.0|<0.001
82596358|NCT02831673|164907050|OTHER||Mean Difference (Net)|-3.19|||<|0.001|TWO_SIDED|95.0|-4.62|-1.75|||Mixed Model Repeated Measures||Week 24|||-1.75|-4.62|<0.001
82596359|NCT02831673|164907050|OTHER||Mean Difference (Net)|-3.22|||<|0.001|TWO_SIDED|95.0|-4.54|-1.91|||Mixed Model Repeated Measures||Week 48|||-1.91|-4.54|<0.001
82596360|NCT02831673|164907051|OTHER||Mean Difference (Net)|-3.34|||<|0.001|TWO_SIDED|95.0|-4.96|-1.72|||Mixed Model Repeated Measures||Week 96. Serum or Plasma creatinine|||-1.72|-4.96|<0.001
82596361|NCT02831673|164907052|OTHER||Mean Difference (Net)|-2.98|||<|0.001|TWO_SIDED|95.0|-4.57|-1.4|||Mixed Model Repeated Measures||Week 144. Serum or Plasma creatinine|||-1.40|-4.57|<0.001
82596362|NCT02831673|164907053|OTHER||Ratio of geometric means|0.915|||<|0.001|TWO_SIDED|95.0|0.887|0.943|||Mixed Model Repeated Measures||Week 24. Serum B2M|||0.943|0.887|<0.001
82596363|NCT02831673|164907053|OTHER||Ratio of geometric means|0.904|||<|0.001|TWO_SIDED|95.0|0.88|0.929|||Mixed Model Repeated Measures||Week 48. Serum B2M|||0.929|0.880|<0.001
82596364|NCT02831673|164907053|OTHER||Ratio of geometric means|0.656||||0.005|TWO_SIDED|95.0|0.491|0.877|||Mixed Model Repeated Measures||Week 24. Urine B2M|||0.877|0.491|0.005
82596365|NCT02831673|164907053|OTHER||Ratio of geometric means|0.672|||<|0.001|TWO_SIDED|95.0|0.551|0.821|||Mixed Model Repeated Measures||Week 48. Urine B2M|||0.821|0.551|<0.001
82596366|NCT02831673|164907053|OTHER||Ratio of geometric means|0.965||||0.575|TWO_SIDED|95.0|0.853|1.092|||Mixed Model Repeated Measures||Week 24. Urine Albumin/Creatinine|||1.092|0.853|0.575
82596367|NCT02831673|164907053|OTHER||Ratio of geometric means|0.891||||0.051|TWO_SIDED|95.0|0.793|1.001|||Mixed Model Repeated Measures||Week 48. Urine Albumin/Creatinine|||1.001|0.793|0.051
82596368|NCT02831673|164907053|OTHER||Ratio of geometric means|0.64|||<|0.001|TWO_SIDED|95.0|0.493|0.831|||Mixed Model Repeated Measures||Week 24. Urine B2M/Urine Creatinine|||0.831|0.493|<0.001
82596369|NCT02831673|164907053|OTHER||Ratio of geometric means|0.695|||<|0.001|TWO_SIDED|95.0|0.576|0.839|||Mixed Model Repeated Measures||Week 48. Urine B2M/Urine Creatinine|||0.839|0.576|<0.001
82596370|NCT02831673|164907053|OTHER||Ratio of geometric means|1.102||||0.099|TWO_SIDED|95.0|0.982|1.237|||Mixed Model Repeated Measures||Week 24. Urine Phosphate|||1.237|0.982|0.099
82596371|NCT02831673|164907053|OTHER||Ratio of geometric means|0.987||||0.816|TWO_SIDED|95.0|0.886|1.1|||Mixed Model Repeated Measures||Week 48. Urine Phosphate|||1.100|0.886|0.816
82596372|NCT02831673|164907053|OTHER||Ratio of geometric means|0.836|||<|0.001|TWO_SIDED|95.0|0.774|0.904|||Mixed Model Repeated Measures||Week 24. Urine Protein/Creatinine|||0.904|0.774|<0.001
82596373|NCT02831673|164907053|OTHER||Ratio of geometric means|0.829|||<|0.001|TWO_SIDED|95.0|0.773|0.888|||Mixed Model Repeated Measures||Week 48. Urine Protein/Creatinine|||0.888|0.773|<0.001
82596374|NCT02831673|164907053|OTHER||Ratio of geometric means|0.871||||0.087|TWO_SIDED|95.0|0.743|1.02|||Mixed Model Repeated Measures||Week 24. Urine RBP 4|||1.020|0.743|0.087
82596375|NCT02831673|164907053|OTHER||Ratio of geometric means|0.748|||<|0.001|TWO_SIDED|95.0|0.644|0.87|||Mixed Model Repeated Measures||Week 48. Urine RBP 4|||0.870|0.644|<0.001
82596376|NCT02831673|164907053|OTHER||Ratio of geometric means|0.828||||0.005|TWO_SIDED|95.0|0.727|0.944|||Mixed Model Repeated Measures||Week 24. Urine RBP 4/Urine Creatinine|||0.944|0.727|0.005
82596377|NCT02831673|164907053|OTHER||Ratio of geometric means|0.765|||<|0.001|TWO_SIDED|95.0|0.677|0.864|||Mixed Model Repeated Measures||Week 48. Urine RBP 4/Urine Creatinine|||0.864|0.677|<0.001
82596378|NCT02831673|164907054|OTHER||Ratio of geometric means|0.839||||0.006|TWO_SIDED|95.0|0.742|0.95|||Mixed Model Repeated Measures||Week 96. Urine Albumin/Creatinine.|||0.950|0.742|0.006
82596379|NCT02831673|164907054|OTHER||Ratio of geometric means|0.551|||<|0.001|TWO_SIDED|95.0|0.445|0.682|||Mixed Model Repeated Measures||Week 96. Urine B2M/Urine Creatinine.|||0.682|0.445|<0.001
82596380|NCT02831673|164907054|OTHER||Ratio of geometric means|1.045||||0.467|TWO_SIDED|95.0|0.928|1.175|||Mixed Model Repeated Measures||Week 96. Urine Phosphate.|||1.175|0.928|0.467
82596381|NCT02831673|164907054|OTHER||Ratio of geometric means|0.824|||<|0.001|TWO_SIDED|95.0|0.764|0.889|||Mixed Model Repeated Measures||Week 96. Urine Protein/Creatinine.|||0.889|0.764|<0.001
82596382|NCT02831673|164907054|OTHER||Ratio of geometric means|0.74|||<|0.001|TWO_SIDED|95.0|0.651|0.84|||Mixed Model Repeated Measures||Week 96. Urine RBP 4/Urine Creatinine|||0.840|0.651|<0.001
82596383|NCT02831673|164907055|OTHER||Ratio of geometric means|0.916||||0.205|TWO_SIDED|95.0|0.799|1.05|||Mixed Model Repeated Measures||Week 144. Urine Albumin/Creatinine.|||1.050|0.799|0.205
82596384|NCT02831673|164907055|OTHER||Ratio of geometric means|0.495|||<|0.001|TWO_SIDED|95.0|0.406|0.603|||Mixed Model Repeated Measures||Week 144. Urine B2M/Urine Creatinine.|||0.603|0.406|<0.001
82596385|NCT02831673|164907055|OTHER||Ratio of geometric means|1.089||||0.16|TWO_SIDED|95.0|0.967|1.226|||Mixed Model Repeated Measures||Week 144. Urine Phosphate.|||1.226|0.967|0.160
82596386|NCT02831673|164907055|OTHER||Ratio of geometric means|0.817|||<|0.001|TWO_SIDED|95.0|0.753|0.885|||Mixed Model Repeated Measures||Week 144. Urine Protein/Creatinine.|||0.885|0.753|<0.001
82596387|NCT02831673|164907055|OTHER||Ratio of geometric means|0.679|||<|0.001|TWO_SIDED|95.0|0.607|0.76|||Mixed Model Repeated Measures||Week 144. Urine RBP 4/Urine Creatinine|||0.760|0.607|<0.001
82596388|NCT02831673|164907056|OTHER||Mean Difference (Net)|-2.23|||<|0.001|TWO_SIDED|95.0|-2.75|-1.7|||Mixed Model Repeated Measures||Week 24. Bone ALP|||-1.70|-2.75|<0.001
82596389|NCT02831673|164907056|OTHER||Mean Difference (Net)|-2.58|||<|0.001|TWO_SIDED|95.0|-3.19|-1.98|||Mixed Model Repeated Measures||Week 48. Bone ALP|||-1.98|-3.19|<0.001
82596390|NCT02831673|164907056|OTHER||Mean Difference (Net)|-4.19|||<|0.001|TWO_SIDED|95.0|-5.15|-3.23|||Mixed Model Repeated Measures||Week 28. Serum Osteocalcin|||-3.23|-5.15|<0.001
82596391|NCT02831673|164907056|OTHER||Mean Difference (Net)|-5.23|||<|0.001|TWO_SIDED|95.0|-6.22|-4.23|||Mixed Model Repeated Measures||Week 48. Serum Osteocalcin|||-4.23|-6.22|<0.001
82596392|NCT02831673|164907056|OTHER||Mean Difference (Net)|-13.8|||<|0.001|TWO_SIDED|95.0|-16.5|-11.1|||Mixed Model Repeated Measures||Week 24. Serum PINP|||-11.1|-16.5|<0.001
82596393|NCT02831673|164907056|OTHER||Mean Difference (Net)|-12.6|||<|0.001|TWO_SIDED|95.0|-15.0|-10.3|||Mixed Model Repeated Measures||Week 48. Serum PINP|||-10.3|-15.0|<0.001
82596394|NCT02831673|164907056|OTHER||Mean Difference (Net)|-0.1628|||<|0.001|TWO_SIDED|95.0|-0.2015|-0.1241|||Mixed Model Repeated Measures||Week 24. CTX-1|||-0.1241|-0.2015|<0.001
82596395|NCT02831673|164907056|OTHER||Mean Difference (Net)|-0.2015|||<|0.001|TWO_SIDED|95.0|-0.246|-0.1569|||Mixed Model Repeated Measures||Week 48. CTX-1|||-0.1569|-0.2460|<0.001
82596396|NCT02831673|164907057|OTHER||Mean Difference (Net)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.63|-1.5|||Mixed Model Repeated Measures||Week 96, Bone ALP|||-1.50|-2.63|<0.001
82596397|NCT02831673|164907057|OTHER||Mean Difference (Net)|-4.17|||<|0.001|TWO_SIDED|95.0|-5.2|-3.14|||Mixed Model Repeated Measures||Week 96, Serum Osteocalcin|||-3.14|-5.20|<0.001
82596398|NCT02831673|164907057|OTHER||Mean Difference (Net)|-13.3|||<|0.001|TWO_SIDED|95.0|-17.6|-8.9|||Mixed Model Repeated Measures||Week 96, Serum PINP|||-8.9|-17.6|<0.001
82596399|NCT02831673|164907057|OTHER||Mean Difference (Net)|-0.1592|||<|0.001|TWO_SIDED|95.0|-0.208|-0.1104|||Mixed Model Repeated Measures||Week 96, CTX-1|||-0.1104|-0.2080|<0.001
82596400|NCT02831673|164907058|OTHER||Mean Difference (Net)|-1.68|||<|0.001|TWO_SIDED|95.0|-2.23|-1.14|||Mixed Model Repeated Measures||Week 144, Bone ALP|||-1.14|-2.23|<0.001
82596401|NCT02831673|164907058|OTHER||Mean Difference (Net)|-2.91|||<|0.001|TWO_SIDED|95.0|-4.0|-1.83|||Mixed Model Repeated Measures||Week 144, Serum Osteocalcin|||-1.83|-4.00|<0.001
82596402|NCT02831673|164907058|OTHER||Mean Difference (Net)|-9.2|||<|0.001|TWO_SIDED|95.0|-12.3|-6.2|||Mixed Model Repeated Measures||Week 144, Serum PINP|||-6.2|-12.3|<0.001
82596403|NCT02831673|164907058|OTHER||Mean Difference (Net)|-0.1414|||<|0.001|TWO_SIDED|95.0|-0.1771|-0.1056|||Mixed Model Repeated Measures||Week 144, CTX-1|||-0.1056|-0.1771|<0.001
82596404|NCT02831673|164907059|OTHER||Mean Difference (Net)|-6.5|||<|0.001|TWO_SIDED|95.0|-9.9|-3.0|||Mixed Model Repeated Measures||Week 24|||-3.0|-9.9|<0.001
82596405|NCT02831673|164907059|OTHER||Mean Difference (Net)|-6.2|||<|0.001|TWO_SIDED|95.0|-9.0|-3.4|||Mixed Model Repeated Measures||Week 48|||-3.4|-9.0|<0.001
82596406|NCT02831673|164907060|OTHER||Mean Difference (Net)|-2.9||||0.048|TWO_SIDED|95.0|-5.8|0.0|||Mixed Model Repeated Measures||Week 96|||0.0|-5.8|0.048
82596407|NCT02831673|164907061|OTHER||Mean Difference (Net)|-4.9||||0.004|TWO_SIDED|95.0|-8.3|-1.6|||Mixed Model Repeated Measures||Week 144|||-1.6|-8.3|0.004
82596408|NCT02831673|164907068|OTHER||Difference in percentage|2.0||||0.157|TWO_SIDED|95.0|-0.6|4.6||Fisher's exact p-value.|Fisher Exact||Week 24|||4.6|-0.6|0.157
82596409|NCT02831673|164907068|OTHER||Difference in percentage|1.3||||0.414|TWO_SIDED|95.0|-1.7|4.2||Fisher's exact p-value.|Fisher Exact||Week 48|||4.2|-1.7|0.414
82596410|NCT02831673|164907069|OTHER||Difference in percentage|1.0||||0.562|TWO_SIDED|95.0|-2.1|4.1||Fisher's exact p-value.|Fisher Exact||Week 96|||4.1|-2.1|0.562
82596411|NCT02831673|164907070|OTHER||Difference in percentage|0.9||||0.587|TWO_SIDED|95.0|-2.4|4.3||Fisher's exact p-value.|Fisher Exact||Week 144|||4.3|-2.4|0.587
82596412|NCT02831673|164907075|OTHER||Mean Difference (Net)|19.8|||||TWO_SIDED|95.0|-10.23|49.83|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||49.83|-10.23|
82596413|NCT02831673|164907075|OTHER||Mean Difference (Net)|0.67|||||TWO_SIDED|95.0|-57.07|58.4|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||58.40|-57.07|
82596414|NCT02831673|164907075|OTHER||Mean Difference (Net)|36.84|||||TWO_SIDED|95.0|-55.94|129.63|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||129.63|-55.94|
82596415|NCT02831673|164907075|OTHER||Mean Difference (Net)|14.37|||||TWO_SIDED|95.0|-13.38|42.12|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||42.12|-13.38|
82596416|NCT02831673|164907075|OTHER||Mean Difference (Net)|25.14|||||TWO_SIDED|95.0|-9.56|59.85|||||Age\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||59.85|-9.56|
82596417|NCT02831673|164907075|OTHER||Mean Difference (Net)|-7.82|||||TWO_SIDED|95.0|-55.98|40.34|||||Age 35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||40.34|-55.98|
82596418|NCT02831673|164907075|OTHER||Mean Difference (Net)|29.45|||||TWO_SIDED|95.0|-55.47|114.38|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||114.38|-55.47|
82596419|NCT02831673|164907075|OTHER||Mean Difference (Net)|17.67|||||TWO_SIDED|95.0|-49.89|85.23|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||85.23|-49.89|
82596420|NCT02831673|164907075|OTHER||Mean Difference (Net)|15.16|||||TWO_SIDED|95.0|-13.9|44.21|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||44.21|-13.90|
82596421|NCT02831673|164907075|OTHER||Mean Difference (Net)|22.51|||||TWO_SIDED|95.0|-9.52|54.54|||||Race group white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||54.54|-9.52|
82596422|NCT02831673|164907075|OTHER||Mean Difference (Net)|-26.67|||||TWO_SIDED|95.0|-110.64|57.3|||||Race group African Am/African H.. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||57.30|-110.64|
82596423|NCT02831673|164907075|OTHER||Mean Difference (Net)|4.44||||||95.0|-76.18|85.06|||||Race group Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||85.06|-76.18|
82596424|NCT02831673|164907075|OTHER||Mean Difference (Net)|24.96|||||TWO_SIDED|95.0|-60.68|110.59|||||Race group Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||110.59|-60.68|
82596425|NCT02831673|164907076|OTHER||Mean Difference (Net)|7.6|||||TWO_SIDED|95.0|-24.6|39.8|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count and treatment and HIV-1 RNA interaction.|||39.8|-24.6|
82596426|NCT02831673|164907076|OTHER||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-59.8|65.9|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count and treatment and HIV-1 RNA interaction.|||65.9|-59.8|
82596427|NCT02831673|164907076|OTHER||Mean Difference (Net)|22.6|||||TWO_SIDED|95.0|-78.3|123.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||123.5|-78.3|
82596428|NCT02831673|164907076|OTHER||Mean Difference (Net)|5.2|||||TWO_SIDED|95.0|-24.7|35.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||35.1|-24.7|
82654529|NCT03708211|165023840|OTHER||Ratio of geometric mean|1.0036|||||TWO_SIDED|90.0|0.8992|1.1201||||||Following log-transformation, PK parameters were analyzed by ANOVA fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90% CIs for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.1201|0.8992|
82596429|NCT02831673|164907076|OTHER||Mean Difference (Net)|8.4|||||TWO_SIDED|95.0|-29.1|45.9|||||Age\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||45.9|-29.1|
82596430|NCT02831673|164907076|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-53.9|48.9|||||Age 35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||48.9|-53.9|
82596431|NCT02831673|164907076|OTHER||Mean Difference (Net)|17.7|||||TWO_SIDED|95.0|-74.6|110.1|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||110.1|-74.6|
82596432|NCT02831673|164907076|OTHER||Mean Difference (Net)|10.4|||||TWO_SIDED|95.0|-62.3|83.1|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||83.1|-62.3|
82596433|NCT02831673|164907076|OTHER||Mean Difference (Net)|5.6|||||TWO_SIDED|95.0|-25.6|36.9|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||36.9|-25.6|
82596434|NCT02831673|164907076|OTHER||Mean Difference (Net)|6.3|||||TWO_SIDED|95.0|-28.2|40.9|||||Race group white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||40.9|-28.2|
82596435|NCT02831673|164907076|OTHER||Mean Difference (Net)|-30.2|||||TWO_SIDED|95.0|-122.7|62.4|||||Race group African Am/African H.. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||62.4|-122.7|
82596436|NCT02831673|164907076|OTHER||Mean Difference (Net)|49.2|||||TWO_SIDED|95.0|-36.3|134.7|||||Race group Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||134.7|-36.3|
82596437|NCT02831673|164907076|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-94.7|89.7|||||Race group Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race group, and treatment and race group interaction.|||89.7|-94.7|
82596438|NCT02831673|164907077|OTHER||Mean Difference (Net)|1.9|||||TWO_SIDED|95.0|-34.5|38.2|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||38.2|-34.5|
82596439|NCT02831673|164907077|OTHER||Mean Difference (Net)|40.1|||||TWO_SIDED|95.0|-31.2|111.5|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and HIV-1 RNA interaction.|||111.5|-31.2|
82596440|NCT02831673|164907077|OTHER||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-122.3|114.5|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||114.5|-122.3|
82596441|NCT02831673|164907077|OTHER||Mean Difference (Net)|10.8|||||TWO_SIDED|95.0|-22.9|44.5|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||44.5|-22.9|
82654530|NCT03708211|165023841|OTHER||Ratio of geometric mean|1.0071|||||TWO_SIDED|90.0|0.9033|1.1227||||||Following log-transformation, PK parameters were analyzed by ANOVA fitting terms for treatment group, sequence and period. Participants within sequence were treated as a random effect. The obtained point estimates and adjusted 90% CIs for difference in treatment were exponentially back transformed to provide point and confidence interval estimates for the ratios of interest appropriately.||1.1227|0.9033|
82491702|NCT03345914|164676804|SUPERIORITY||Hazard ratios|2.075|||<|0.0001|TWO_SIDED|95.0|1.481|2.908||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cox model|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||2.908|1.481|< 0.0001
82491703|NCT03345914|164676805|SUPERIORITY||Least Square Mean Difference|-17.72|||<|0.0001|TWO_SIDED|95.0|-22.272|-13.161||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-13.161|-22.272|< 0.0001
82491704|NCT03345914|164676805|SUPERIORITY||Least Square Mean Difference|-18.88|||<|0.0001|TWO_SIDED|95.0|-23.479|-14.289||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-14.289|-23.479|< 0.0001
82491705|NCT03345914|164676806|SUPERIORITY||Least Square Mean Difference|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.3|-24.48||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-24.48|-36.3|< 0.0001
82491706|NCT03345914|164676806|SUPERIORITY||Least Square Mean Difference|-32.6|||<|0.0001|TWO_SIDED|95.0|-38.57|-26.59||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-26.59|-38.57|< 0.0001
82491707|NCT03345914|164676807|SUPERIORITY||Least Square Mean Difference|-4.3|||<|0.0001|TWO_SIDED|95.0|-5.62|-2.99||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.99|-5.62|< 0.0001
82491708|NCT03345914|164676807|SUPERIORITY||Least Square Mean Difference|-4.2|||<|0.0001|TWO_SIDED|95.0|-5.57|-2.89||The confidence interval (CI) with p-value was based on treatment difference (dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.89|-5.57|< 0.0001
82491709|NCT03345914|164676808|SUPERIORITY||Least Square Mean Difference|-8.1|||<|0.0001|TWO_SIDED|95.0|-9.96|-6.31||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-6.31|-9.96|< 0.0001
82491710|NCT03345914|164676808|SUPERIORITY||Least Square Mean Difference|-8.3|||<|0.0001|TWO_SIDED|95.0|-10.13|-6.43||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-6.43|-10.13|< 0.0001
82498956|NCT03950167|164688878|OTHER||Mean Difference (Net)|0.68||||0.05|TWO_SIDED||||||t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial CCK level difference: hyperemesis group-control group|Since this is the first study comparing both CCK levels and GB functions in patients diagnosed with hyperemesis gravidarum (HG) and healthy pregnant women, a power analysis was not feasible.||||0.05
82654531|NCT01739790|165023904|OTHER|||||||0.45|||||||Fisher Exact|||||||0.45
82654532|NCT02433665|165023946|NON_INFERIORITY|The primary end point for this study was a comparison between fixed-dose and customized-dose contrast material injection CT protocols for vascular and parenchymal enhancement by using a noninferiority approach. The limit of noninferiority was set at 0.1 before the initiation of the study on the basis of a similar study that examined contrast media dose optimization for CT angiography examinations.|Odds Ratio, log|0.75|STANDARD_DEVIATION|0.35|>|0.05|TWO_SIDED|0.38|||||Mixed Models Analysis|||||||>0.05
82491711|NCT03345914|164676809|SUPERIORITY||Least Square Mean Difference|-2.41|||<|0.0001|TWO_SIDED|95.0|-2.984|-1.831||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-1.831|-2.984|< 0.0001
82491712|NCT03345914|164676809|SUPERIORITY||Least Square Mean Difference|-2.18|||<|0.0001|TWO_SIDED|95.0|-2.754|-1.599||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-1.599|-2.754|< 0.0001
82491713|NCT03345914|164676810|SUPERIORITY||Least Square Mean Difference|-4.11|||<|0.0001|TWO_SIDED|95.0|-5.434|-2.796||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.796|-5.434|< 0.0001
82491714|NCT03345914|164676810|SUPERIORITY||Least Square Mean Difference|-3.98|||<|0.0001|TWO_SIDED|95.0|-5.298|-2.657||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.657|-5.298|< 0.0001
82491715|NCT03345914|164676811|SUPERIORITY||Least Square Mean Difference|-3.37|||=|0.0061|TWO_SIDED|95.0|-5.779|-0.962||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.962|-5.779|= 0.0061
82596442|NCT02831673|164907077|OTHER||Mean Difference (Net)|7.3|||||TWO_SIDED|95.0|-35.0|49.6|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||49.6|-35.0|
82596443|NCT02831673|164907077|OTHER||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-60.7|55.7|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||55.7|-60.7|
82596444|NCT02831673|164907077|OTHER||Mean Difference (Net)|41.6|||||TWO_SIDED|95.0|-61.2|144.5|||||Age\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||144.5|-61.2|
82491716|NCT03345914|164676811|SUPERIORITY||Least Square Mean Difference|-3.02|||=|0.0133|TWO_SIDED|95.0|-5.414|-0.629||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.629|-5.414|= 0.0133
82596445|NCT02831673|164907077|OTHER||Mean Difference (Net)|18.8|||||TWO_SIDED|95.0|-64.2|101.8|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||101.8|-64.2|
82596446|NCT02831673|164907077|OTHER||Mean Difference (Net)|7.8|||||TWO_SIDED|95.0|-27.4|43.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||43.1|-27.4|
82596447|NCT02831673|164907077|OTHER||Mean Difference (Net)|15.2|||||TWO_SIDED|95.0|-23.6|54.0|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||54.0|-23.6|
82596448|NCT02831673|164907077|OTHER||Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-106.3|103.0|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||103.0|-106.3|
82596449|NCT02831673|164907077|OTHER||Median Difference (Net)|-32.6|||||TWO_SIDED|95.0|-132.2|66.9|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||66.9|-132.2|
82596450|NCT02831673|164907077|OTHER||Mean Difference (Net)|26.1|||||TWO_SIDED|95.0|-77.3|129.5|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||129.5|-77.3|
82491717|NCT03345914|164676812|SUPERIORITY||Least Square Mean Difference|-4.5|||<|0.0001|TWO_SIDED|95.0|-6.734|-2.272||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-2.272|-6.734|< 0.0001
82491718|NCT03345914|164676812|SUPERIORITY||Least Square Mean Difference|-5.42|||<|0.0001|TWO_SIDED|95.0|-7.641|-3.207||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANCOVA model with baseline measurement as covariate and the treatment, randomization strata as fixed factors.|ANCOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-3.207|-7.641|< 0.0001
82491719|NCT03345914|164676813|SUPERIORITY||Percentage Differenece|-4.8|||=|0.222|TWO_SIDED|95.0|-12.49|2.87||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||2.87|-12.49|= 0.222
82596451|NCT02831673|164907078|OTHER||Mean Difference (Net)|-0.4|||||TWO_SIDED|95.0|-39.2|38.3|||||Baseline plasma HIV-1 RNA,\<=100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and relevant Baseline plasma HIV-1 RNA interaction.|||38.3|-39.2|
82596452|NCT02831673|164907078|OTHER||Mean Difference (Net)|4.7|||||TWO_SIDED|95.0|-69.4|78.8|||||Baseline plasma HIV-1 RNA,\>100000. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, Baseline plasma HIV-1 RNA, and treatment and Baseline plasma HIV-1 RNA interaction.|||78.8|-69.4|
82596453|NCT02831673|164907078|OTHER||Mean Difference (Net)|17.4|||||TWO_SIDED|95.0|-111.1|145.8|||||Baseline CD4+ cell count,\<=200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||145.8|-111.1|
82596454|NCT02831673|164907078|OTHER||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-37.2|34.1|||||Baseline CD4+ cell count,\>200. Following covariates were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, and treatment and Baseline CD4+ cell count interaction.|||34.1|-37.2|
82596455|NCT02831673|164907078|OTHER||Mean Difference (Net)|-18.0|||||TWO_SIDED|95.0|-63.2|27.1|||||Age Group,\<35. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||27.1|-63.2|
82596456|NCT02831673|164907078|OTHER||Mean Difference (Net)|3.5|||||TWO_SIDED|95.0|-57.0|64.0|||||Age Group,35 to \<50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||64.0|-57.0|
82596457|NCT02831673|164907078|OTHER||Mean Difference (Net)|95.2|||||TWO_SIDED|95.0|-14.8|205.2|||||Age Group,\>=50. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, age, and treatment and age interaction.|||205.2|-14.8|
82498957|NCT03950167|164688879|OTHER||Mean Difference (Final Values)|0.91||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB wall thickness: Hyperemesis group-control group|||||0.05
82596458|NCT02831673|164907078|OTHER||Mean Difference (Net)|24.9|||||TWO_SIDED|95.0|-62.5|112.3|||||Female. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||112.3|-62.5|
82596459|NCT02831673|164907078|OTHER||Mean Difference (Net)|-4.2|||||TWO_SIDED|95.0|-41.5|33.1|||||Male. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, gender, and treatment and gender interaction.|||33.1|-41.5|
82596460|NCT02831673|164907078|OTHER||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-40.6|41.1|||||Race group-white. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||41.1|-40.6|
82596461|NCT02831673|164907078|OTHER||Mean Difference (Net)|-51.3|||||TWO_SIDED|95.0|-163.6|60.9|||||Race group-African Am/African H. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||60.9|-163.6|
82596462|NCT02831673|164907078|OTHER||Median Difference (Net)|-20.1|||||TWO_SIDED|95.0|-125.3|85.0|||||Race group-Asian. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction|||85.0|-125.3|
82596463|NCT02831673|164907078|OTHER||Mean Difference (Net)|66.2|||||TWO_SIDED|95.0|-43.7|176.2|||||Race group-Other. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count, race, and treatment and race interaction.|||176.2|-43.7|
82596464|NCT02831673|164907079|OTHER||Mean Difference (Net)|0.0052||||0.302|TWO_SIDED|95.0|-0.0047|0.0152|||MMRM||Week 4. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0152|-0.0047|0.302
82596465|NCT02831673|164907079|OTHER||Mean Difference (Net)|-0.0038||||0.45|TWO_SIDED|95.0|-0.0136|0.006|||MMRM||Week24. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0060|-0.0136|0.450
82596466|NCT02831673|164907079|OTHER||Mean Difference (Net)|0.0004||||0.934|TWO_SIDED|95.0|-0.0098|0.0106|||MMRM||Week48. Following covariates/factors were adjusted: Treatment, Baseline plasma HIV-1 RNA (factor), Baseline CD4+ cell count (factor), and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit with visit as the repeated factor|||0.0106|-0.0098|0.934
82491720|NCT03345914|164676813|SUPERIORITY||Percentage Differenece|-7.3|||=|0.0508|TWO_SIDED|95.0|-14.51|-0.03||P-values were derived by Cochran-Mantel-Haenszel (CMH) test stratified by region \[North America vs Europe\] and baseline weight group \[\< 30 kg vs ≥ 30 kg\].|Cochran-Mantel-Haenszel|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level.||-0.03|-14.51|= 0.0508
82596467|NCT02831673|164907080|OTHER||Mean Difference (Net)|-0.0012||||0.842|TWO_SIDED|95.0|-0.0132|0.0107|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0107|-0.0132|0.842
82596468|NCT02831673|164907081|OTHER||Mean Difference (Net)|0.0008||||0.879|TWO_SIDED|95.0|-0.0097|0.0113|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count, and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||0.0113|-0.0097|0.879
82596469|NCT02831673|164907082|OTHER||Mean Difference (Net)|1.1||||0.137|TWO_SIDED|95.0|-0.3|2.4|||MMRM||Week 4. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.4|-0.3|0.137
82596470|NCT02831673|164907082|OTHER||Mean Difference (Net)|0.6||||0.458|TWO_SIDED|95.0|-0.9|2.0|||MMRM||Week24. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.0|-0.9|0.458
82596471|NCT02831673|164907082|OTHER||Mean Difference (Net)|1.5||||0.031|TWO_SIDED|95.0|0.1|2.8|||MMRM||Week48. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA (factor),Baseline CD4+ cell count (factor), Baseline EQ-5D thermometer, treatment\*visit and Baseline EQ-5D thermometer\*visit with visit as the repeated factor|||2.8|0.1|0.031
82596472|NCT02831673|164907083|OTHER||Mean Difference (Net)|1.7||||0.027|TWO_SIDED|95.0|0.2|3.2|||MMRM||Week 96. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||3.2|0.2|0.027
82596473|NCT02831673|164907084|OTHER||Mean Difference (Net)|2.3||||0.001|TWO_SIDED|95.0|0.9|3.6|||MMRM||Week 144. Covariates adjusted: Treatment, Baseline plasma HIV-1 RNA, Baseline CD4+ cell count and Baseline EQ-5D utility, treatment\*visit and Baseline EQ-5D utility\*visit as factors and covariate, with visit as the repeated factor.|||3.6|0.9|0.001
82654533|NCT00520741|165023947|SUPERIORITY_OR_OTHER||Predicted exit rate at 112 days|0.3|||||TWO_SIDED|95.0|0.246|0.355|||Kaplan-Meier|Subjects who dropped out due to non-exit criteria reasons over the 10 % censoring maximum were to be counted as an exit.||The upper limit of the Confidence Interval for the estimate of the Lacosamide (LCM) 400 mg/day exit rate was compared with the lower bound of the 95 % prediction interval for the historical-control of 0.653; hereafter referred to as the historical-control exit rate. The LCM 400 mg/day dose group would be declared an effective conversion to monotherapy treatment if the upper 95 % confidence limit for the estimate of the exit rate was less than 0.653.||0.355|0.246|
82498958|NCT03950167|164688879|OTHER||Mean Difference (Final Values)|0.23||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB wall thickness: hyperemesis group-control group|||||0.05
82596474|NCT00477165|164907085|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.59|TWO_SIDED|95.0|0.687|1.196||p\<0.05 for statistical significance|t-test, 2 sided||Repeated-measures logistic regression model, assuming the citalopram effect builds linearly over time starting at week 3.|Null hypothesis: number of patients achieving adequate relief is the same in both Citalopram and Placebo groups||1.196|0.687|0.59
82596475|NCT00631371|164907093|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.8|TWO_SIDED|95.0|0.9|1.3|||Log Rank|||P value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and Memorial Sloan Kettering Cancer Center \[MSKCC\] risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95 percent (%) confidence interval (CI) from the stratified cox proportional hazard model were also presented.||1.3|0.9|0.8
82596476|NCT00631371|164907094|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.9|TWO_SIDED|95.0|1.0|1.4|||Log Rank|||P-value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and MSKCC risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.4|1.0|0.9
82596477|NCT00631371|164907095|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.8|1.3|||Cochran-Mantel-Haenszel|||P-value (2-sided), risk ratio and associated 95% CI were based on Cochran-Mantel-Haenszel test stratified by prior nephrectomy and MSKCC risk group as randomized.||1.3|0.8|1.0
82596478|NCT00631371|164907096|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.6|TWO_SIDED|95.0|0.9|1.3|||Log Rank|||P value was based on 1-sided stratified log-rank test (stratification factors: prior nephrectomy \[yes/no\] and MSKCC risk factors \[good/intermediate/poor\] at time of randomization). The hazard ratio and corresponding 95% CI from the stratified cox proportional hazard model were also presented.||1.3|0.9|0.6
82596479|NCT00812214|164907099|SUPERIORITY|For the purpose of the power calculation, it was assumed that the difference in total sleep time between the treatment groups is 40 minutes, with a standard deviation of 60. The pilot nature of the study allowed the use of alpha = 0.05 and beta = 0.2, with two-sided comparison, generating a required sample size of 37 subjects per arm.||||||0.33|||||||t-test, 2 sided|two-tailed student's t-test for independent samples||The null hypothesis is that there is no difference in the 6 week average total sleep time||||0.33
82596480|NCT00812214|164907100|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||The null hypothesis is that there is no difference between the eszopiclone and placebo groups in the number of awakenings/night at 6 weeks.||||0.03
82491721|NCT03345914|164676816|SUPERIORITY||Least Square Mean Difference|-5.7|||=|0.003|TWO_SIDED|95.0|-9.49|-1.96||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANOVA model with the treatment, randomization strata as fixed factors.|ANOVA|||A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level||-1.96|-9.49|= 0.003
82491722|NCT03345914|164676816|SUPERIORITY|A 2-sided hierarchical testing procedure was used for the primary and secondary endpoints in a pre-specified order. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.05 level|Least Square Mean Difference|-5.1|||=|0.0082|TWO_SIDED|95.0|-8.8|-1.31||The confidence interval (CI) with p-value was based on treatment difference (Dupilumab group vs placebo) of the LS mean percent change using ANOVA model with the treatment, randomization strata as fixed factors.|ANOVA|||||-1.31|-8.8|= 0.0082
82491723|NCT02609828|164676817|SUPERIORITY||Differences in least square (LS) mean|-0.78|STANDARD_ERROR_OF_MEAN|0.37||0.0381|TWO_SIDED|95.0|-1.52|-0.04|||ANCOVA|||Change at Week 8: Analysis of covariance (ANCOVA) model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.04|-1.52|0.0381
82491724|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0497|TWO_SIDED|95.0|-0.72|0.0|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.00|-0.72|0.0497
82491725|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.66|STANDARD_ERROR_OF_MEAN|0.25||0.0092|TWO_SIDED|95.0|-1.16|-0.17|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.16|0.0092
82491726|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.74|STANDARD_ERROR_OF_MEAN|0.32||0.0218|TWO_SIDED|95.0|-1.37|-0.11|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.11|-1.37|0.0218
82596481|NCT00812214|164907102|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in sleep quality averaged over 6 weeks of treatment.||||0.1
82596482|NCT00812214|164907102|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime alertness averaged over 6 weeks of treatment.||||0.29
82596483|NCT00812214|164907102|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime fatigue averaged over 6 weeks of treatment.||||0.05
82654534|NCT00520741|165023949|SUPERIORITY_OR_OTHER||predicted exit rate at 112 days|0.323|||||TWO_SIDED|95.0|0.268|0.378|||Kaplan-Meier|Subjects who dropped out due to non-exit criteria reasons over the 10 % censoring maximum were to be counted as an exit.||The upper limit of the Confidence Interval for the estimate of the Lacosamide (LCM) 400 mg/day exit rate was compared with the historical-control exit rate. The LCM 400 mg/day dose group would be declared an effective conversion to monotherapy treatment if the upper 95 % confidence limit for the estimate of the exit rate was less than 0.653.||0.378|0.268|
82654535|NCT03702621|165023953|OTHER|P values are from mixed model least squares (LS) means differences with Sidak adjustment for multiple comparisons.||||||0.54|||||||Mixed Models Analysis|Sidak adjustment||||||0.54
82491727|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.87|STANDARD_ERROR_OF_MEAN|0.36||0.0154|TWO_SIDED|95.0|-1.58|-0.17|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.58|0.0154
82491728|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.59|STANDARD_ERROR_OF_MEAN|0.39||0.1289|TWO_SIDED|95.0|-1.36|0.17|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.17|-1.36|0.1289
82498959|NCT03950167|164688880|OTHER||Mean Difference (Final Values)|0.41||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB volume: hyperemesis group-control group|||||0.05
82596484|NCT00812214|164907102|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||Null hypothesis is that there is no difference between Eszopiclone and placebo groups in daytime functioning averaged over 6 weeks of treatment.||||0.76
82596485|NCT00812214|164907104|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in average days/week between eszopiclone and placebo groups at 6 weeks.||||0.89
82596486|NCT00812214|164907105|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in headache duration between eszopiclone and placebo groups at 6 weeks.||||0.98
82596487|NCT00812214|164907106|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||The null hypothesis is that there is no difference in headache intensity between eszopiclone and placebo groups at 6 weeks.||||0.82
82596488|NCT00590590|164907114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||||||||||Ha: Drug 1 \< Drug 2||||
82596489|NCT00590590|164907114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 1 \< Placebo||||
82596490|NCT00590590|164907114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 2 \< Placebo||||
82596491|NCT00590590|164907115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||||||||||||Ha: Drug 1 \< Drug 2||||
82491729|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.55|STANDARD_ERROR_OF_MEAN|0.44||0.211|TWO_SIDED|95.0|-1.43|0.32|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.32|-1.43|0.2110
82491730|NCT02609828|164676818|SUPERIORITY||Difference in LS mean|-0.58|STANDARD_ERROR_OF_MEAN|0.46||0.2049|TWO_SIDED|95.0|-1.49|0.32|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.32|-1.49|0.2049
82491731|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.33|STANDARD_ERROR_OF_MEAN|0.2||0.1103|TWO_SIDED|95.0|-0.73|0.07|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.07|-0.73|0.1103
82491732|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.73|STANDARD_ERROR_OF_MEAN|0.27||0.0084|TWO_SIDED|95.0|-1.26|-0.19|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.19|-1.26|0.0084
82491733|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.75|STANDARD_ERROR_OF_MEAN|0.33||0.0236|TWO_SIDED|95.0|-1.39|-0.1|||ANCOVA|||Change at Week 4:ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.10|-1.39|0.0236
82491734|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.88|STANDARD_ERROR_OF_MEAN|0.36||0.0155|TWO_SIDED|95.0|-1.59|-0.17|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||-0.17|-1.59|0.0155
82596492|NCT00590590|164907115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||||||||||||Ha: Drug 1 \< Placebo||||
82596493|NCT00590590|164907115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||||||||||||Ha: Drug 2 \< Placebo||||
82596494|NCT00590590|164907116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1||||||||||||||Ha: Drug 1 \< Drug 2||||
82654536|NCT03702621|165023954|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.59|||||||Mixed Models Analysis|||||||0.59
82491735|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.76|STANDARD_ERROR_OF_MEAN|0.38||0.0505|TWO_SIDED|95.0|-1.52|0.0|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.00|-1.52|0.0505
82491736|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.72|STANDARD_ERROR_OF_MEAN|0.4||0.0761|TWO_SIDED|95.0|-1.52|0.08|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.08|-1.52|0.0761
82491737|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.74|STANDARD_ERROR_OF_MEAN|0.48||0.1263|TWO_SIDED|95.0|-1.7|0.21|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.21|-1.70|0.1263
82596495|NCT00590590|164907116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.7||||||||||||||Ha: Drug 1 \< Placebo||||
82596496|NCT00590590|164907116|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.8||||||||||||||Ha: Drug 2 \< Placebo||||
82596497|NCT00590590|164907117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.3||||||||||||||Ha: Drug 1 \< Drug 2||||
82596498|NCT00590590|164907117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.0||||||||||||||Ha: Drug 1 \< Placebo||||
82596499|NCT00590590|164907117|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||||||||||||Ha: Drug 2 \< Placebo||||
82596500|NCT00590590|164907118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||||||||||||Ha: Drug 1 \< Drug 2||||
82596501|NCT00590590|164907118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||||||||||||Ha: Drug 1 \< Placebo||||
82596502|NCT00590590|164907118|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0||||||||||||||Ha: Drug 2 \< Placebo||||
82596503|NCT00590590|164907119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||||||||||||Ha: Drug 1 \< Drug 2||||
82596504|NCT00590590|164907119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||||||||||||Ha: Drug 1 \< Placebo||||
82596505|NCT00590590|164907119|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||||||||||||Ha: Drug 2 \< Placebo||||
82596506|NCT00132132|164907120|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||t-test, 2 sided|This analysis is the per protocol unadjusted value||||||0.03
82596507|NCT00132132|164907120|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|Age adjusted per protocol||||||0.14
82654537|NCT03702621|165023955|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.98||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||0.98
82491738|NCT02609828|164676819|SUPERIORITY||Difference in LS mean|-0.79|STANDARD_ERROR_OF_MEAN|0.49||0.1051|TWO_SIDED|95.0|-1.76|0.17|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.17|-1.76|0.1051
82491739|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.3003|TWO_SIDED|95.0|-1.47|0.47|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.47|-1.47|0.3003
82491740|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.84|STANDARD_ERROR_OF_MEAN|0.59||0.1603|TWO_SIDED|95.0|-2.03|0.35|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.35|-2.03|0.1603
82491741|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.2298|TWO_SIDED|95.0|-2.13|0.53|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.53|-2.13|0.2298
82491742|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.48|STANDARD_ERROR_OF_MEAN|0.72||0.5054|TWO_SIDED|95.0|-1.93|0.97|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.97|-1.93|0.5054
82491743|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.55|STANDARD_ERROR_OF_MEAN|-0.77||0.4793|TWO_SIDED|95.0|-2.1|1.01|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||1.01|-2.10|0.4793
82491744|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-0.5|STANDARD_ERROR_OF_MEAN|0.66||0.4496|TWO_SIDED|95.0|-1.83|0.83|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.83|-1.83|0.4496
82491745|NCT02609828|164676820|SUPERIORITY||Difference in least square LS mean|-1.21|STANDARD_ERROR_OF_MEAN|0.77||0.1263|TWO_SIDED|95.0|-2.77|0.36|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.36|-2.77|0.1263
82596508|NCT00132132|164907120|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||t-test, 2 sided|Per protocol adjusted for age and paternal education. Given the small number of participants with complete data, this model may be overfit.||||||0.006
82596509|NCT00132132|164907121|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Chi-squared|||||||0.02
82654538|NCT03702621|165023956|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.94||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||0.94
82491746|NCT02609828|164676820|SUPERIORITY||Difference in LS mean|-1.05|STANDARD_ERROR_OF_MEAN|0.73||0.162|TWO_SIDED|95.0|-2.54|0.44|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site and baseline opioid dose as covariates.||0.44|-2.54|0.1620
82491747|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.07|STANDARD_ERROR_OF_MEAN|0.54||0.0575|TWO_SIDED|95.0|-2.17|0.04|||ANCOVA|||Change at Week 1: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.04|-2.17|0.0575
82491748|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.96|STANDARD_ERROR_OF_MEAN|0.62||0.0031|TWO_SIDED|95.0|-3.22|-0.7|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.70|-3.22|0.0031
82491749|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.44|STANDARD_ERROR_OF_MEAN|0.68||0.041|TWO_SIDED|95.0|-2.82|-0.06|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.06|-2.82|0.0410
82596510|NCT01870401|164907122|NON_INFERIORITY|The protocol identified a non-inferiority bound equal to 0.12 (12%).|||||<|0.025|||||||Farrington and Manning|||The primary safety hypothesis is as follows: H0: pControl - pDCB ≥ and H1: pControl (alpha) pDCB \< where p is the success rate in each arm and (alpha) is the non-inferiority bound.||||<0.025
82596511|NCT01870401|164907123|SUPERIORITY|||||||0.0222|||||||Wald Test|One-sided Wald test based on model estimate of DCB treatment effect and subject as a random effect.||||||0.0222
82654539|NCT03702621|165023957|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||0.86|||||||Mixed Models Analysis|Sidak adjustment||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||0.86
82654540|NCT03702621|165023958|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons||||||1||||||P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons|Mixed Models Analysis|Sidak adjustment||||||1.0
82654541|NCT03702621|165023959|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.99|||||||Mixed Models Analysis|||||||0.99
82654542|NCT03702621|165023960|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.99|||||||Mixed Models Analysis|||||||0.99
82491750|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-0.88|STANDARD_ERROR_OF_MEAN|0.77||0.2598|TWO_SIDED|95.0|-2.44|0.68|||ANCOVA|||Change at Week 6: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.68|-2.44|0.2598
82491751|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-0.77|STANDARD_ERROR_OF_MEAN|0.8||0.3426|TWO_SIDED|95.0|-2.38|0.85|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.85|-2.38|0.3426
82491752|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.2|STANDARD_ERROR_OF_MEAN|0.72||0.1034|TWO_SIDED|95.0|-2.65|0.26|||ANCOVA|||Change at Week 12: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.26|-2.65|0.1034
82491753|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.91|STANDARD_ERROR_OF_MEAN|0.84||0.029|TWO_SIDED|95.0|-3.6|-0.21|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||-0.21|-3.60|0.0290
82491754|NCT02609828|164676821|SUPERIORITY||Difference in LS mean|-1.62|STANDARD_ERROR_OF_MEAN|0.83||0.06|TWO_SIDED|95.0|-3.31|0.07|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the non-index cancer pain sites and baseline opioid dose as covariates.||0.07|-3.31|0.0600
82491755|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.14||||0.8054|TWO_SIDED|95.0|0.41|3.18|||Regression, Logistic|||Week 1 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.18|0.41|0.8054
82491756|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|0.94||||0.9292|TWO_SIDED|95.0|0.22|3.98|||Regression, Logistic|||Week 1 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.98|0.22|0.9292
82596512|NCT03776175|164907157|SUPERIORITY||Difference in LS mean|-44.52||||0|TWO_SIDED|90.0|-54.97|-31.65|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in least square (LS) mean between groups||-31.65|-54.97|0.0000
82596513|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-35.4||||0.0007|TWO_SIDED|90.0|-47.4|-20.68|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference LS mean between groups.||-20.68|-47.40|0.0007
82654543|NCT03702621|165023961|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.72|||||||Mixed Models Analysis|||||||0.72
82654544|NCT03702621|165023962|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.29|||||||Mixed Models Analysis|||||||0.29
82654545|NCT03702621|165023963|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.46|||||||Mixed Models Analysis|||||||0.46
82654546|NCT03702621|165023964|OTHER|P values are from mixed model LS means differences with Sidak adjustment for multiple comparisons.||||||0.77|||||||Mixed Models Analysis|||||||0.77
82654547|NCT01860976|165023997|SUPERIORITY_OR_OTHER_LEGACY||Estimate of Difference|17.2|||<|0.001|TWO_SIDED|95.0|8.7|25.6|||Cochran-Mantel-Haenszel|||||25.6|8.7|<0.001
82654548|NCT01024738|165024059|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82654549|NCT02362594|165024060|SUPERIORITY||Hazard Ratio (HR)|0.57|||<|0.0001|TWO_SIDED|98.4|0.43|0.74||One-sided p-value based on log-rank test.|Regression, Cox|||Comparison of RFS time-to-event distribution between the 2 treatment arms was based on Cox regression model with treatment as a covariate stratified by stage (IIIA \[\>1 mm metastasis\] vs. IIIB vs. IIIC 1-3 nodes vs. IIIC ≥4 nodes) as indicated at randomization.||0.74|0.43|<0.0001
82654550|NCT02362594|165024061|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.42|0.69||One-sided p-value based on log-rank test.|Regression, Cox|||Comparison of RFS time-to-event distribution between the 2 treatment arms (PD-L1-positive participants) was based on Cox regression model with treatment as a covariate stratified by stage (IIIA \[\>1 mm metastasis\] vs. IIIB vs. IIIC 1-3 nodes vs. IIIC ≥4 nodes) as indicated at randomization.||0.69|0.42|<0.0001
82654551|NCT03365375|165024101|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.82|TWO_SIDED||||||t-test, 2 sided|||||||0.82
82491757|NCT02609828|164676824|SUPERIORITY|||||||0.9565|||||||Regression, Logistic|||Week 1 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9565
82491758|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.88||||0.1429|TWO_SIDED|95.0|0.81|4.36|||Regression, Logistic|||Week 2 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.36|0.81|0.1429
82491759|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|5.19||||0.014||95.0|1.4|19.31|||Regression, Logistic|||Week 2 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||19.31|1.40|0.0140
82491760|NCT02609828|164676824|SUPERIORITY|||||||0.945|||||||Regression, Logistic|||Week 2 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9450
82596514|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-44.64||||0|TWO_SIDED|90.0|-54.8|-32.19|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||-32.19|-54.80|0.0000
82596515|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-0.21||||0.9836|TWO_SIDED|90.0|-15.66|18.08|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||18.08|-15.66|0.9836
82596516|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-14.3||||0.1233|TWO_SIDED|90.0|-27.32|1.06|||ANCOVA||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 90% CI was calculated on difference in LS mean between groups.||1.06|-27.32|0.1233
82596517|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-0.21|||||TWO_SIDED|50.0|-6.82|6.87|||||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 50% CI was calculated on difference in LS mean between groups.||6.87|-6.82|
82596518|NCT03776175|164907157|SUPERIORITY||Difference in LS Mean|-14.3|||||TWO_SIDED|50.0|-19.86|-8.35|||||LS mean difference was not a simple subtraction between LS means of groups but through statistical model.|Natural log-transformed of individual relative change from baseline to Day 42 was analyzed using the ANCOVA model with treatment as a fixed effect, natural log-transformed baseline whole liver fat by MRI-PDFF as covariate. Values were back-transformed from the log scale. 50% CI was calculated on difference in LS mean between groups.||-8.35|-19.86|
82491761|NCT02609828|164676824|SUPERIORITY|||||||0.9489|||||||Regression, Logistic|||Week 2 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9489
82491762|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.63||||0.1932|TWO_SIDED|95.0|0.78|3.39|||Regression, Logistic|||Week 4 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.39|0.78|0.1932
82491763|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0254|TWO_SIDED|95.0|1.15|8.74|||Regression, Logistic|||Week 4 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||8.74|1.15|0.0254
82491764|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|5.0||||0.0455|TWO_SIDED|95.0|1.03|24.16|||Regression, Logistic|||Week 4 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||24.16|1.03|0.0455
82491765|NCT02609828|164676824|SUPERIORITY|||||||0.9464|||||||Regression, Logistic|||Week 4 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9464
82596519|NCT00960661|164907163|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was concluded if the upper limit of the 95% confidence interval (CI) for the treatment contrast (BET minus BBT) at week 30 was less than the non inferiority margin.|Mean Difference (Final Values)|-0.04||||0.6273|TWO_SIDED|95.0|-0.18|0.11||The primary mixed-model repeated measures (MMRM) model included baseline HbA1c as covariate, treatment, country, prior use of SUs, week of visit, and treatment-by-week interaction as fixed effects and patient and error as random effects.|Mixed model repeated measures|||The primary objective is to test the hypothesis that BET is non inferior to BBT with respect to change in HbA1c from baseline to Week 30.||0.11|-0.18|0.6273
82596520|NCT04852848|164907177|EQUIVALENCE|In our original power calculation, we expected to randomly assign 200 individuals to the Connect2Test (n = 100) and control conditions (n = 100). Power calculations were conducted using G\*Power assuming a two-tailed test with alpha = .05, power = .80, and an estimated COVID-19 testing rate in the Connect2Test condition of 20%. With these assumptions, the minimum detectable effect size (odds ratio) is 2.46, which corresponds to a moderate Cohen's d (0.49).|Odds Ratio (OR)|1.18||||0.6298|TWO_SIDED|95.0|0.61|2.27|||Chi-squared||The control condition was the reference category (Connect2Test intervention = 1, Control = 0).|||2.27|0.61|.6298
82596521|NCT00535132|164907199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|1.4|<|0.001||||||p-value based on a paired t-test for a within-group comparison.|t-test, 2 sided|||Sample size for this study was based on changes in the MSQ scores within subjects from baseline to endpoint using a one-sample paired t-test. A sample size of 97 subjects was shown to have 90% power at endpoint to detect a mean change from baseline of 0.5 units on the MSQ score, with a standard deviation of 1.5. Allowing for extra variability from subjects with prior generic risperidone (instead of branded risperidone) use, this number was increased to 150 subjects.||||<0.001
82596522|NCT00535132|164907200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_DEVIATION|1.4|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596523|NCT00535132|164907201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|1.4|<|0.001|||||||t-test, 2 sided|||||||<0.001
82596524|NCT00535132|164907202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_DEVIATION|1.3|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596525|NCT00535132|164907203|SUPERIORITY_OR_OTHER|||||||0.002|||||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.002
82596526|NCT00535132|164907204|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.033
82596527|NCT00535132|164907205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.9|STANDARD_DEVIATION|13.1|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596528|NCT00535132|164907206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|0.9|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82654552|NCT02483975|165024113|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of each dose of fluticasone furoate 50 µg versus placebo was greater than 0.8.|Least square Geometric Mean ratio|0.92|||||TWO_SIDED|95.0|0.804|1.0505||||||||1.0505|0.8040|
82596529|NCT00535132|164907207|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.|Fisher Exact|||||||0.123
82596530|NCT00535132|164907208|SUPERIORITY_OR_OTHER|||||||0.125||95.0|||||Fisher Exact|P-values for the study group comparisons using dichotomized categories are based on Fisher's Exact Test.||||||0.125
82596531|NCT00535132|164907209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.3|STANDARD_DEVIATION|23.1|<|0.001||||||p-value for within-group comparison based on a paired t-test.|t-test, 2 sided|||||||<0.001
82596532|NCT00535132|164907210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|7.5||0.009|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||0.009
82596533|NCT00535132|164907211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_DEVIATION|10.4|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596534|NCT00535132|164907212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|STANDARD_DEVIATION|4.3|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596535|NCT00535132|164907213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|3.0|<|0.001|||||||t-test, 2 sided|p-value for within-group comparison based on a paired t-test.||||||<0.001
82596536|NCT00763815|164907214|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.731|-0.386||Statistical testing: 2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms; randomization strata of screening HbA1c (\<8.0, \>=8.0%), metformin use (yes, no); country as fixed effects; baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% (or 0.4%) in change from baseline to Week 24 in HbA1c between lixisenatide and placebo, 300 patients in lixisenatide arm and 150 patients in placebo arm would provide a power of 96% (or 86%) assuming common standard deviation of 1.3% with a 2-sided test at 5% significance level.||-0.386|-0.731|<0.0001
82596537|NCT04442230|164907224|SUPERIORITY|||||||0.6602|||||||Fisher Exact|||The p-values from significance tests were obtained at a one-sided significance level of 0.025.||||0.6602
82596538|NCT02706873|164907228|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|23.7|||<|0.001|TWO_SIDED|95.0|16.3|31.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||31.1|16.3|<0.001
82596539|NCT02706873|164907228|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|28.0|||<|0.001|TWO_SIDED|95.0|20.6|35.4||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||35.4|20.6|<0.001
82654553|NCT02483975|165024114|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non inferiority was demonstrated if the lower limit of the two-sided 95% CI for the geometric mean ratio of each dose of fluticasone furoate 50 µg versus placebo was greater than 0.8.|Least square Geometric Mean ratio|0.93|||||TWO_SIDED|95.0|0.8096|1.062||||||||1.0620|0.8096|
82654554|NCT02483975|165024115|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.93|||||TWO_SIDED|95.0|0.81|1.06||||||||1.06|0.81|
82654555|NCT02483975|165024116|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.79|||||TWO_SIDED|95.0|0.61|1.03||||||||1.03|0.61|
82596540|NCT02706873|164907229|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|29.8|||<|0.001|TWO_SIDED|95.0|22.8|36.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||36.8|22.8|<0.001
82596541|NCT02706873|164907229|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|31.5|||<|0.001|TWO_SIDED|95.0|24.5|38.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||38.5|24.5|<0.001
82654556|NCT02483975|165024117|SUPERIORITY_OR_OTHER_LEGACY||Least square Geometric Mean ratio|0.88|||||TWO_SIDED|95.0|0.72|1.07||||||||1.07|0.72|
82491766|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0969|TWO_SIDED|95.0|0.9|3.72|||Regression, Logistic|||Week 6 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.72|0.90|0.0969
82491767|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|4.31||||0.0043|TWO_SIDED|95.0|1.58|11.74|||Regression, Logistic|||Week 6 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||11.74|1.58|0.0043
82491768|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|5.49||||0.0352|TWO_SIDED|95.0|1.13|26.75|||Regression, Logistic|||Week 6 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||26.75|1.13|0.0352
82491769|NCT02609828|164676824|SUPERIORITY|||||||0.9464|||||||Regression, Logistic|||Week 6 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9464
82491770|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1471|TWO_SIDED|95.0|0.83|3.52|||Regression, Logistic|||Week 8 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.52|0.83|0.1471
82491771|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.55||||0.0405|TWO_SIDED|95.0|1.04|6.22|||Regression, Logistic|||Week 8 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.22|1.04|0.0405
82491772|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|3.21||||0.0993|TWO_SIDED|95.0|0.8|12.83|||Regression, Logistic|||Week 8 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||12.83|0.80|0.0993
82654557|NCT03879239|165024140|SUPERIORITY|||||||0.0011||||||Responder Rate on Weekly CSBM1 in the ITT (Intention to Treat) analysis set. (For details, refer to the primary outcome description).|Chi-squared|||||||0.0011
82491773|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|4.71||||0.1726|TWO_SIDED|95.0|0.51|43.64|||Regression, Logistic|||Week 8 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||43.64|0.51|0.1726
82491774|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0918|TWO_SIDED|95.0|0.91|3.74|||Regression, Logistic|||Week 12 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.74|0.91|0.0918
82654558|NCT03879239|165024140|SUPERIORITY|||||||0.0085||||||Responder Rate on Weekly CSBM2 in the ITT (Intention to Treat) analysis set. (For details, refer to the primary outcome description).|Chi-squared|||||||0.0085
82491775|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0704|TWO_SIDED|95.0|0.94|4.82|||Regression, Logistic|||Week 12 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.82|0.94|0.0704
82491776|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.67||||0.3569|TWO_SIDED|95.0|0.56|5.01|||Regression, Logistic|||Week 12 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.01|0.56|0.3569
82654559|NCT03179345|165024161|SUPERIORITY||Mean Difference (Net)|-0.141|STANDARD_ERROR_OF_MEAN|0.06||0.0275|TWO_SIDED|95.0|-0.266|-0.016|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within Sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||-0.016|-0.266|0.0275
82491777|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.46||||0.3062|TWO_SIDED|95.0|0.44|13.79|||Regression, Logistic|||Week 12 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||13.79|0.44|0.3062
82491778|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.84||||0.1058|TWO_SIDED|95.0|0.88|3.85|||Regression, Logistic|||Week 16 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.85|0.88|0.1058
82654560|NCT03179345|165024161|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0611|TWO_SIDED|95.0|-0.006|0.245|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.245|-0.006|0.0611
82491779|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.81||||0.1571|TWO_SIDED|95.0|0.79|4.14|||Regression, Logistic|||Week 16 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.14|0.79|0.1571
82491780|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.85||||0.2454|TWO_SIDED|95.0|0.65|5.24|||Regression, Logistic|||Week 16 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.24|0.65|0.2454
82491781|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|0.91||||0.8867|TWO_SIDED|95.0|0.24|3.46|||Regression, Logistic|||Week 16 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.46|0.24|0.8867
82491782|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0689|TWO_SIDED|95.0|0.95|4.21|||Regression, Logistic|||Week 24 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.21|0.95|0.0689
82491783|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0568|TWO_SIDED|95.0|0.98|5.44|||Regression, Logistic|||Week 24 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.44|0.98|0.0568
82491784|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|2.41||||0.1268|TWO_SIDED|95.0|0.78|7.46|||Regression, Logistic|||Week 24 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||7.46|0.78|0.1268
82491785|NCT02609828|164676824|SUPERIORITY||Odds Ratio (OR)|1.23||||0.7971|TWO_SIDED|95.0|0.25|6.0|||Regression, Logistic|||Week 24 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.00|0.25|0.7971
82491786|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.27||||0.6658|TWO_SIDED|95.0|0.43|3.7|||Regression, Logistic|||Week 1 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.70|0.43|0.6658
82491787|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|3.07||||0.3443|TWO_SIDED|95.0|0.3|31.35|||Regression, Logistic|||Week 1 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||31.35|0.30|0.3443
82491788|NCT02609828|164676825|SUPERIORITY|||||||0.9527|||||||Regression, Logistic|||Week 1 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9527
82596542|NCT02706873|164907230|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|21.6|||<|0.001|TWO_SIDED|95.0|14.3|28.8||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||28.8|14.3|<0.001
82596543|NCT02706873|164907230|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Response Rate Difference|22.9|||<|0.001|TWO_SIDED|95.0|15.7|30.1||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||30.1|15.7|<0.001
82654561|NCT03179345|165024162|SUPERIORITY||Mean Difference (Net)|-0.102|STANDARD_ERROR_OF_MEAN|0.06||0.1103|TWO_SIDED|95.0|-0.227|0.024|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.024|-0.227|0.1103
82498960|NCT03950167|164688880|OTHER||Mean Difference (Final Values)|0.71||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB volume: hyperemesis group-control group|||||0.05
82654562|NCT03179345|165024162|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.06||0.0611|TWO_SIDED|95.0|-0.006|0.245|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.245|-0.006|0.0611
82491789|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.25||||0.0757|TWO_SIDED|95.0|0.92|5.5|||Regression, Logistic|||Week 2 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.50|0.92|0.0757
82491790|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|4.51||||0.0659|TWO_SIDED|95.0|0.91|22.42|||Regression, Logistic|||Week 2 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||22.42|0.91|0.0659
82491791|NCT02609828|164676825|SUPERIORITY|||||||0.938|||||||Regression, Logistic|||Week 2 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9380
82491792|NCT02609828|164676825|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 2 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
82491793|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0914|TWO_SIDED|95.0|0.89|4.59|||Regression, Logistic|||Week 4 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.59|0.89|0.0914
82491794|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|3.22||||0.0359|TWO_SIDED|95.0|1.08|9.61|||Regression, Logistic|||Week 4 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||9.61|1.08|0.0359
82491795|NCT02609828|164676825|SUPERIORITY|||||||0.9538|||||||Regression, Logistic|||Week 4 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9538
82491796|NCT02609828|164676825|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 4 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
82491797|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.66||||0.0143|TWO_SIDED|95.0|1.22|5.8|||Regression, Logistic|||Week 6 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.80|1.22|0.0143
82491798|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|4.2||||0.0176|TWO_SIDED|95.0|1.28|13.74|||Regression, Logistic|||Week 6 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||13.74|1.28|0.0176
82596544|NCT02706873|164907231|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|Least Squares (LS) Mean Difference|-0.53||||0.001|TWO_SIDED|95.0|-0.85|-0.2||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|Analysis of covariance (ANCOVA) model with treatment, geographic region as fixed factors and baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||-0.20|-0.85|0.001
82596545|NCT02706873|164907231|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two upadacitinib doses (15 mg and 30 mg) was controlled using a graphical multiple testing procedure defined separately for US/FDA, European Union/European Medicines Agency and Japan/Pharmaceuticals and Medical Devices Agency regulatory purposes.|LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.91|-0.27||The adjusted p-value under multiplicity control is reported, with significance achieved if the adjusted p-value is less than 0.05.|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|For the global analysis, comparisons of the primary and key secondary efficacy endpoints were made between the upadacitinib 15 mg and 30 mg groups versus the methotrexate group.||-0.27|-0.91|<0.001
82596546|NCT02706873|164907232|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.88|||<|0.001|TWO_SIDED|95.0|-1.09|-0.67||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.||||-0.67|-1.09|<0.001
82654563|NCT03179345|165024163|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9946|TWO_SIDED|95.0|-0.02|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.02|0.9946
82654564|NCT03179345|165024163|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.0125||0.1673|TWO_SIDED|95.0|-0.01|0.04|||ANCOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.04|-0.01|0.1673
82654565|NCT03179345|165024163|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.0125||0.6208|TWO_SIDED|95.0|-0.02|0.03|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.03|-0.02|0.6208
82654566|NCT03179345|165024164|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_ERROR_OF_MEAN|2.6||0.8799|TWO_SIDED|95.0|-5.59|4.8|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||4.80|-5.59|0.8799
82654567|NCT03179345|165024164|SUPERIORITY||Mean Difference (Net)|0.24|STANDARD_ERROR_OF_MEAN|2.61||0.9277|TWO_SIDED|95.0|-4.97|5.45|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||5.45|-4.97|0.9277
82654568|NCT03179345|165024164|SUPERIORITY||Mean Difference (Net)|-3.73||||0.1587|TWO_SIDED|95.0|-8.94|1.49|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.49|-8.94|0.1587
82654569|NCT03179345|165024165|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0125||0.7111|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.03|0.7111
82654570|NCT03179345|165024165|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9048|TWO_SIDED|95.0|-0.02|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.02|0.9048
82654571|NCT03179345|165024165|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3262|TWO_SIDED|95.0|-0.03|0.01|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.01|-0.03|0.3262
82654572|NCT03179345|165024166|SUPERIORITY||Mean Difference (Net)|-0.46|STANDARD_ERROR_OF_MEAN|0.86||0.595|TWO_SIDED|95.0|-2.18|1.26|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.26|-2.18|0.5950
82654573|NCT03179345|165024166|SUPERIORITY||Mean Difference (Net)|0.33|STANDARD_ERROR_OF_MEAN|0.865||0.7057|TWO_SIDED|95.0|-1.4|2.06|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||2.06|-1.40|0.7057
82654574|NCT03179345|165024166|SUPERIORITY||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.865||0.6741|TWO_SIDED|95.0|-1.36|2.1|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||2.10|-1.36|0.6741
82654575|NCT03179345|165024167|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.0175||0.007|TWO_SIDED|95.0|-0.08|-0.01|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||-0.01|-0.08|0.0070
82654576|NCT03179345|165024167|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.0175||0.5183|TWO_SIDED|95.0|-0.02|0.05|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.05|-0.02|0.5183
82654577|NCT03179345|165024167|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.0175||0.5084|TWO_SIDED|95.0|-0.05|0.02|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.02|-0.05|0.5084
82654578|NCT03179345|165024168|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.307||0.1026|TWO_SIDED|95.0|-0.104|1.124|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.124|-0.104|0.1026
82654579|NCT03179345|165024168|SUPERIORITY||Mean Difference (Net)|-0.094|STANDARD_ERROR_OF_MEAN|0.309||0.7634|TWO_SIDED|95.0|-0.711|0.523|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.523|-0.711|0.7634
82654580|NCT03179345|165024168|SUPERIORITY||Mean Difference (Net)|0.51|STANDARD_ERROR_OF_MEAN|0.309||0.1041|TWO_SIDED|95.0|-0.107|1.127|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.127|-0.107|0.1041
82654581|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.286|STANDARD_ERROR_OF_MEAN|0.12||0.0177|TWO_SIDED|95.0|-0.521|-0.051|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||-0.051|-0.521|0.0177
82654582|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.157|STANDARD_ERROR_OF_MEAN|0.19||0.412|TWO_SIDED|95.0|-0.536|0.222|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.222|-0.536|0.4120
82654583|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.046|STANDARD_ERROR_OF_MEAN|0.16||0.7724|TWO_SIDED|95.0|-0.362|0.27|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.270|-0.362|0.7724
82596547|NCT02706873|164907232|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-1.01|||<|0.001|TWO_SIDED|95.0|-1.21|-0.8||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.80|-1.21|<0.001
82596548|NCT02706873|164907233|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.25||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.25|-0.44|<0.001
82596549|NCT02706873|164907233|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|-0.37|||<|0.001|TWO_SIDED|95.0|-0.47|-0.28||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.28|-0.47|<0.001
82596550|NCT02706873|164907234|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|Response Rate Difference|25.0|||<|0.001|TWO_SIDED|95.0|17.6|32.4||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||32.4|17.6|<0.001
82596551|NCT02706873|164907234|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|Response Rate Difference|26.4|||<|0.001|TWO_SIDED|95.0|19.0|33.9||The nominal p-value is reported|Chi-squared, Corrected|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|||Response Rate Difference = Upadacitinib - Methotrexate|33.9|19.0|<0.001
82596552|NCT02706873|164907235|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|4.25|||<|0.001|TWO_SIDED|95.0|3.0|5.5||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.50|3.00|<0.001
82596553|NCT02706873|164907235|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for US/FDA and Japan/PMDA regulatory purposes.|LS Mean Difference|4.34|||<|0.001|TWO_SIDED|95.0|3.09|5.59||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.59|3.09|<0.001
82596554|NCT02706873|164907236|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.92|||<|0.001|TWO_SIDED|95.0|-1.12|-0.71||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.71|-1.12|<0.001
82596555|NCT02706873|164907236|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-1.19|||<|0.001|TWO_SIDED|95.0|-1.4|-0.99||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.99|-1.40|<0.001
82596556|NCT02706873|164907237|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.27|||<|0.001|TWO_SIDED|95.0|-0.37|-0.17||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.17|-0.37|<0.001
82654584|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.15||0.4255|TWO_SIDED|95.0|-0.423|0.18|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.180|-0.423|0.4255
82654585|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.12||0.8925|TWO_SIDED|95.0|-0.229|0.262|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in activities||0.262|-0.229|0.8925
82654586|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.212|STANDARD_ERROR_OF_MEAN|0.14||0.1293|TWO_SIDED|95.0|-0.487|0.063|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.063|-0.487|0.1293
82654587|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.06||0.0304|TWO_SIDED|95.0|-0.266|-0.014|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||-0.014|-0.266|0.0304
82654588|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.084|STANDARD_ERROR_OF_MEAN|0.15||0.5811|TWO_SIDED|95.0|-0.384|0.217|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.217|-0.384|0.5811
82654589|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.098|STANDARD_ERROR_OF_MEAN|0.06||0.1144|TWO_SIDED|95.0|-0.22|0.024|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.024|-0.220|0.1144
82654590|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.109|STANDARD_ERROR_OF_MEAN|0.12||0.3774|TWO_SIDED|95.0|-0.352|0.135|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.135|-0.352|0.3774
82596557|NCT02706873|164907237|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.41|-0.21||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||-0.21|-0.41|<0.001
82596558|NCT02706873|164907238|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|26.8|||<|0.001|TWO_SIDED|95.0|19.3|34.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||34.3|19.3|<0.001
82596559|NCT02706873|164907238|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|32.2|||<|0.001|TWO_SIDED|95.0|24.8|39.6||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||39.6|24.8|<0.001
82596560|NCT02706873|164907239|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|27.8|||<|0.001|TWO_SIDED|95.0|20.3|35.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||35.2|20.3|<0.001
82596561|NCT02706873|164907239|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|32.8|||<|0.001|TWO_SIDED|95.0|25.4|40.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||40.2|25.4|<0.001
82596562|NCT02706873|164907240|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|3.72|||<|0.001|TWO_SIDED|95.0|2.42|5.03||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.03|2.42|<0.001
82596563|NCT02706873|164907240|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|LS Mean Difference|4.42|||<|0.001|TWO_SIDED|95.0|3.12|5.72||The nominal p-value is reported|ANCOVA|ANCOVA model with treatment and geographic region as fixed factors and Baseline value as the covariate.|Difference = Upadacitinib - Methotrexate|||5.72|3.12|<0.001
82596564|NCT02706873|164907241|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|9.8||||0.002|TWO_SIDED|95.0|3.5|16.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||16.2|3.5|0.002
82596565|NCT02706873|164907241|SUPERIORITY|The overall type I error rate of the primary and ranked key secondary endpoints for the two doses was controlled using a graphical multiple testing procedure. This endpoint was a ranked key secondary endpoint for EU/EMA regulatory purposes.|Response Rate Difference|11.6|||<|0.001|TWO_SIDED|95.0|5.4|17.8||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||17.8|5.4|<0.001
82596566|NCT02706873|164907242|SUPERIORITY||Response Rate Difference|18.5|||<|0.001|TWO_SIDED|95.0|12.1|24.9||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||24.9|12.1|<0.001
82654591|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.057|STANDARD_ERROR_OF_MEAN|0.34||0.8658|TWO_SIDED|95.0|-0.613|0.727|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.727|-0.613|0.8658
82654592|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.018|STANDARD_ERROR_OF_MEAN|0.1||0.8543|TWO_SIDED|95.0|-0.179|0.216|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.216|-0.179|0.8543
82491799|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|3.53||||0.1298|TWO_SIDED|95.0|0.69|18.06|||Regression, Logistic|||Week 6 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||18.06|0.69|0.1298
82491800|NCT02609828|164676825|SUPERIORITY|||||||0.9493|||||||Regression, Logistic|||Week 6 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||||0.9493
82491801|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0527|TWO_SIDED|95.0|0.99|4.67|||Regression, Logistic|||Week 8 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.67|0.99|0.0527
82491802|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0457|TWO_SIDED|95.0|1.02|7.12|||Regression, Logistic|||Week 8 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||7.12|1.02|0.0457
82491803|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|3.91||||0.0994|TWO_SIDED|95.0|0.77|19.76|||Regression, Logistic|||Week 8 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||19.76|0.77|0.0994
82491804|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|0.65||||0.6977|TWO_SIDED|95.0|0.07|5.86|||Regression, Logistic|||Week 8 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.86|0.07|0.6977
82491805|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.76||||0.146|TWO_SIDED|95.0|0.82|3.75|||Regression, Logistic|||Week 12 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.75|0.82|0.1460
82596567|NCT02706873|164907242|OTHER||Response Rate Difference|22.9|||<|0.001|TWO_SIDED|95.0|16.4|29.5||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||29.5|16.4|<0.001
82596568|NCT02706873|164907243|SUPERIORITY||Response Rate Difference|20.3|||<|0.001|TWO_SIDED|95.0|13.2|27.3||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||27.3|13.2|<0.001
82596569|NCT02706873|164907243|SUPERIORITY||Response Rate Difference|19.4|||<|0.001|TWO_SIDED|95.0|12.3|26.5||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||26.5|12.3|<0.001
82596570|NCT02706873|164907244|SUPERIORITY||Response Rate Difference|26.0|||<|0.001|TWO_SIDED|95.0|19.1|33.0||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||33.0|19.1|<0.001
82596571|NCT02706873|164907244|SUPERIORITY||Response Rate Difference|31.2|||<|0.001|TWO_SIDED|95.0|24.2|38.2||The nominal p-value is reported|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for geographic region (North America, South/central America, Western Europe, Eastern Europe, Asia/other).|Response Rate Difference = Upadacitinib - Methotrexate|||38.2|24.2|<0.001
82596572|NCT02706873|164907245|SUPERIORITY|For the Japan sub-study, no multiplicity adjustments were applied and only nominal p-values were provided for all efficacy analyses.|Response Rate Difference|28.3||||0.004|TWO_SIDED|95.0|7.7|48.9|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||48.9|7.7|0.004
82596573|NCT02706873|164907245|SUPERIORITY||Response Rate Difference|28.0||||0.022|TWO_SIDED|95.0|5.3|50.7|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||50.7|5.3|0.022
82596574|NCT02706873|164907245|SUPERIORITY||Response Rate Difference|21.4||||0.086|TWO_SIDED|95.0|-2.4|45.2|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||45.2|-2.4|0.086
82596575|NCT02706873|164907246|SUPERIORITY||Response Rate Difference|38.6|||<|0.001|TWO_SIDED|95.0|18.6|58.5|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.5|18.6|<0.001
82596576|NCT02706873|164907246|SUPERIORITY||Response Rate Difference|45.2|||<|0.001|TWO_SIDED|95.0|21.8|68.6|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||68.6|21.8|<0.001
82596577|NCT02706873|164907246|SUPERIORITY||Response Rate Difference|50.0|||<|0.001|TWO_SIDED|95.0|27.4|72.6|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||72.6|27.4|<0.001
82596578|NCT02706873|164907247|SUPERIORITY||Response Rate Difference|34.5|||<|0.001|TWO_SIDED|95.0|22.0|47.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||47.1|22.0|<0.001
82596579|NCT02706873|164907247|SUPERIORITY||Response Rate Difference|51.9|||<|0.001|TWO_SIDED|95.0|33.0|70.7|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||70.7|33.0|<0.001
82596580|NCT02706873|164907247|SUPERIORITY||Response Rate Difference|64.3|||<|0.001|TWO_SIDED|95.0|46.5|82.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||82.0|46.5|<0.001
82596581|NCT02706873|164907248|SUPERIORITY||LS Mean Difference|-1.43|||<|0.001|TWO_SIDED|95.0|-1.92|-0.95|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.95|-1.92|<0.001
82491806|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.35||||0.0742|TWO_SIDED|95.0|0.92|6.01|||Regression, Logistic|||Week 12 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.01|0.92|0.0742
82596582|NCT02706873|164907248|SUPERIORITY||LS Mean Difference|-1.86|||<|0.001|TWO_SIDED|95.0|-2.42|-1.3|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-1.30|-2.42|<0.001
82596583|NCT02706873|164907248|SUPERIORITY||LS Mean Difference|-1.92|||<|0.001|TWO_SIDED|95.0|-2.48|-1.36|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-1.36|-2.48|<0.001
82596584|NCT02706873|164907249|SUPERIORITY||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.75|-0.34|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.34|-0.75|<0.001
82596585|NCT02706873|164907249|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.51|-0.99|<0.001
82596586|NCT02706873|164907249|SUPERIORITY||LS Mean Difference|-0.75|||<|0.001|TWO_SIDED|95.0|-0.99|-0.51|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.51|-0.99|<0.001
82596587|NCT02706873|164907250|SUPERIORITY||LS Mean Difference|5.97|||<|0.001|TWO_SIDED|95.0|3.15|8.8|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||8.80|3.15|<0.001
82596588|NCT02706873|164907250|SUPERIORITY||LS Mean Difference|7.92|||<|0.001|TWO_SIDED|95.0|4.66|11.19|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||11.19|4.66|<0.001
82596589|NCT02706873|164907250|SUPERIORITY||LS Mean Difference|6.76|||<|0.001|TWO_SIDED|95.0|3.33|10.2|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||10.20|3.33|<0.001
82596590|NCT02706873|164907251|SUPERIORITY||Response Rate Difference|51.2|||<|0.001|TWO_SIDED|95.0|32.5|70.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||70.0|32.5|<0.001
82596591|NCT02706873|164907251|SUPERIORITY||Response Rate Difference|59.9|||<|0.001|TWO_SIDED|95.0|38.8|81.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||81.1|38.8|<0.001
82596592|NCT02706873|164907251|SUPERIORITY||Response Rate Difference|60.7|||<|0.001|TWO_SIDED|95.0|39.9|81.5|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||81.5|39.9|<0.001
82596593|NCT02706873|164907252|SUPERIORITY||Response Rate Difference|49.4|||<|0.001|TWO_SIDED|95.0|30.6|68.3|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||68.3|30.6|<0.001
82491807|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5565|TWO_SIDED|95.0|0.42|4.91|||Regression, Logistic|||Week 12 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.91|0.42|0.5565
82596594|NCT02706873|164907252|SUPERIORITY||Response Rate Difference|52.5|||<|0.001|TWO_SIDED|95.0|30.2|74.8|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||74.8|30.2|<0.001
82596595|NCT02706873|164907252|SUPERIORITY||Response Rate Difference|64.3|||<|0.001|TWO_SIDED|95.0|44.2|84.3|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||84.3|44.2|<0.001
82596596|NCT02706873|164907253|SUPERIORITY||LS Mean Difference|-1.69||||0.063|TWO_SIDED|95.0|-3.47|0.09|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||0.09|-3.47|0.063
82596597|NCT02706873|164907253|SUPERIORITY||LS Mean Difference|-2.4||||0.022|TWO_SIDED|95.0|-4.45|-0.35|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.35|-4.45|0.022
82596598|NCT02706873|164907253|SUPERIORITY||LS Mean Difference|-2.45||||0.022|TWO_SIDED|95.0|-4.54|-0.35|||ANOVA|ANOVA model with Baseline value as covariate.|Difference = Upadacitinib - Methotrexate|||-0.35|-4.54|0.022
82596599|NCT02706873|164907254|SUPERIORITY||Response Rate Difference|36.2||||0.001|TWO_SIDED|95.0|14.4|58.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.0|14.4|0.001
82596600|NCT02706873|164907254|SUPERIORITY||Response Rate Difference|34.6||||0.01|TWO_SIDED|95.0|10.2|59.0|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||59.0|10.2|0.010
82596601|NCT02706873|164907254|SUPERIORITY||Response Rate Difference|33.0||||0.016|TWO_SIDED|95.0|7.9|58.1|||Chi-squared||Response Rate Difference = Upadacitinib - Methotrexate|||58.1|7.9|0.016
82596602|NCT00513500|164907314|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|5.32||||||95.0|2.19|8.94||||||||8.94|2.19|
82596603|NCT00513500|164907315|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.23||||||95.0|0.14|0.38||||||||0.38|0.14|
82596604|NCT00513500|164907316|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.44||||||95.0|0.21|0.93||||||||0.93|0.21|
82596605|NCT00749996|164907317|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.61||||0.228|TWO_SIDED|95.0|-1.59|0.38|||t-test, 2 sided|||The null-hypothesis: Ho: Δ VAS DIAM = Δ VAS Control will be tested against the alternative hypothesis:HA: Δ VAS DIAM ≠ Δ VAS Control.Where Δ is the average decrease in VAS score (baseline - 6 months). A minimal sample size of 240 analyzable patients is required to demonstrate with 80% power a difference in back pain reduction that is significant at the 95% level, comparing DIAM and Control groups. 268 patients will be enroll to allow of up to 10% attrition.||0.38|-1.59|0.228
82596606|NCT00749996|164907318|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.719|TWO_SIDED|95.0|-8.8|6.08|||t-test, 2 sided|||The null-hypothesis(Ho: Δ ODI DIAM = Δ ODI Control) will be tested against the alternative hypothesis (HA: Δ ODI DIAM ≠ Δ ODI Control). Δ ODI DIAM = average change in the ODI (12 months - baseline) in the DIAM treated patient group and Δ VAS Control =average change in the ODI in the Control group.||6.08|-8.80|0.719
82596607|NCT01179009|164907350|SUPERIORITY|||||||0.53||||||The p-value above represents the interaction between the treatment group and time.|ANOVA|||||||0.53
82596608|NCT01179009|164907351|SUPERIORITY|||||||0.06||||||The p-value above comes from a model where the treatment group is used to predict the CGI improvement score.|Ordinal regression|||||||0.06
82596609|NCT02079987|164907417|SUPERIORITY|||||||0.49|||||||difference-in-difference analysis|A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.||||||0.49
82596610|NCT02079987|164907418|SUPERIORITY|||||||0.23|||||||difference-in-difference analysis|A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.||||||0.23
82596611|NCT02079987|164907419|SUPERIORITY|||||||0.25||||||A propensity weighted difference-in-difference approach was taken to account for imbalances in assignment and loss to follow-up.|difference-in-difference analysis|||||||0.25
82596612|NCT02079987|164907420|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
82596613|NCT02079987|164907421|SUPERIORITY|||||||0.57|||||||Chi-squared|||||||0.57
82596614|NCT02079987|164907422|SUPERIORITY|||||||0.87|||||||Chi-squared|||||||0.87
82596615|NCT01627860|164907423|SUPERIORITY_OR_OTHER||Difference in Seizure free rate|23.57||||0.0759|TWO_SIDED|95.0|-4.21|49.0|||ANOVA||Difference in Seizure free rate (Monotherapy minus Add on therapy)|||49.00|-4.21|0.0759
82596616|NCT01627860|164907424|SUPERIORITY_OR_OTHER||Difference in mean percent change|18.3||||0.7102|TWO_SIDED|95.0|-81.0|117.7|||ANCOVA||Difference in mean percent change of seizure frequency (Monotherapy minus Add on therapy)|||117.7|-81.0|0.7102
82596617|NCT03152019|164907431|SUPERIORITY||percentages|0.77|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82596618|NCT00894556|164907465|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model (GLIMMIX)|An unstructured covariance matrix was used to model the correlation among repeated measurements within patient.||||||<0.001
82596619|NCT00894556|164907466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Generalized Linear Mixed Model (GLIMMIX)|An unstructured covariance matrix was used to model the correlation among repeated measurements within patient.||||||<0.001
82596620|NCT04311502|164907494|SUPERIORITY||Hazard Ratio (HR)|1.21||||0.21|TWO_SIDED|90.0|0.82|1.79|||Regression, Cox|Adjusted for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).|Arm 1 vs Arm 2|This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||1.79|0.82|0.21
82596621|NCT04311502|164907495|SUPERIORITY||Risk Difference (RD)|0.3|||<|0.01|TWO_SIDED|90.0|0.14|0.45|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|"The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing a Grade 3 or higher AE that is at least one-grade increase from baseline at any time during the 65-week study period was compared between Arm 1 and Arm 2.~This outcome measure is limited to data obtained up to September 25, 2023."||0.45|0.14|<0.01
82596622|NCT04311502|164907495|SUPERIORITY||Risk Difference (RD)|0.28|||<|0.01|TWO_SIDED|90.0|0.11|0.44|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|"The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing a Grade 3 or higher AE that is at least one-grade increase from baseline at any time during the 65-week study period was compared between Arm 1 and Arm 2.~All data through week 65."||0.44|0.11|<0.01
82498961|NCT03950167|164688881|OTHER||Mean Difference (Final Values)|0.22||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Fasting GB ejection fraction: hyperemesis group-control group|||||0.05
82596623|NCT04311502|164907496|SUPERIORITY||Risk Difference (RD)|-0.26||||0.01|TWO_SIDED|95.0|-0.47|-0.06|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 95% two-sided confidence interval for the difference in cumulative proportions of participants experiencing a favorable outcome through week 65 was compared between Arm 1 and Arm 2.||-0.06|-0.47|0.01
82596624|NCT04311502|164907497|SUPERIORITY||Risk Difference (RD)|-0.25||||0.02|TWO_SIDED|95.0|-0.46|-0.04|||Wald chi-square||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 95% two-sided confidence interval for the difference in cumulative proportions of participants experiencing a favorable outcome through week 65 was compared between Arm 1 and Arm 2.||-0.04|-0.46|0.02
82596625|NCT04311502|164907498|SUPERIORITY|Fisher's exact test was used to test for a difference in proportions|Risk Difference (RD)|-0.06||||0.35|TWO_SIDED|95.0|-0.22|0.05|||Fisher Exact||Difference in proportions (Arm 1 - Arm 2); exact confidence interval|||0.05|-0.22|0.35
82596626|NCT04311502|164907500|SUPERIORITY||GEE|24.04|||<|0.01|TWO_SIDED|95.0|15.13|32.94|||Regression, Linear|||||32.94|15.13|<0.01
82596627|NCT04311502|164907502|SUPERIORITY||Odds Ratio (OR)|7.15|||<|0.01|TWO_SIDED|95.0|2.4|21.3|||Regression, Logistic|||Compares the odds of participants having maximum occurrence of QTcF change from baseline of ≥30 ms and \<60 ms, or ≥60 ms between Arm 1 and Arm 2 in the safety set using the proportional odds model.||21.30|2.40|<0.01
82596628|NCT04311502|164907502|SUPERIORITY||Risk Difference (RD)|0.41|||<|0.01|TWO_SIDED|95.0|0.17|0.58|||exact unconditional||Arm 1 - Arm 2|Proportion of Participants with Worst Changes in QTcF from Screening \>= 30 ms over visits at Weeks 2, 8, 13||0.58|0.17|<0.01
82596629|NCT04311502|164907503|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.18|TWO_SIDED|90.0|0.84|1.8||One-sided p-value|Regression, Cox|Adjusted for HIV status (positive/negative) and TB disease according to chest X-ray (advanced/not advanced)|Arm 1 vs. Arm 2|||1.80|0.84|0.18
82596630|NCT04311502|164907504|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.25|TWO_SIDED|90.0|0.8|1.71||One-sided p-value|Regression, Cox|||This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||1.71|0.80|0.25
82596631|NCT04311502|164907505|SUPERIORITY||Risk Difference (RD)|0.13||||0.23|TWO_SIDED|95.0|-0.07|0.35|||Fisher Exact|||||0.35|-0.07|0.23
82596632|NCT04311502|164907506|SUPERIORITY||Risk Difference (RD)|0.05||||0.56|TWO_SIDED|95.0|-0.11|0.24|||Fisher Exact|||||0.24|-0.11|0.56
82596633|NCT04311502|164907507|SUPERIORITY||Risk Difference (RD)|0.07||||0.27|TWO_SIDED|90.0|-0.04|0.18|||Wald chi-square test||Difference in cumulative proportions (Arm 1 - Arm 2)|The point estimate and 90% two-sided confidence intervals for the difference in cumulative proportions of participants experiencing an SAE through week 65 was compared between Arm 1 and Arm 2.||0.18|-0.04|0.27
82596634|NCT04311502|164907508|SUPERIORITY|Fisher's exact test was used to test for a difference in proportions|Risk Difference (RD)|0.0||||1|TWO_SIDED|95.0|-0.1|0.13|||Fisher Exact||Difference in proportions (Arm 1 - Arm 2); exact confidence interval|||0.13|-0.10|1
82596635|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.597|TWO_SIDED|95.0|0.57|1.39|||Regression, Cox|||Time point: Screening||1.39|0.57|0.597
82596636|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.7|TWO_SIDED|95.0|0.58|1.44|||Regression, Cox|||Time point: Entry||1.44|0.58|0.70
82596637|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.07|TWO_SIDED|95.0|0.4|1.03|||Regression, Cox|||Time point: Week 2||1.03|0.40|0.07
82596638|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.04|TWO_SIDED|95.0|0.34|0.98|||Regression, Cox|||Time point: Week 4||0.98|0.34|0.04
82596639|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.6|TWO_SIDED|95.0|0.41|1.67|||Regression, Cox|||Time point: Week 6||1.67|0.41|0.60
82596640|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.595|TWO_SIDED|95.0|0.33|1.88|||Regression, Cox|||Time point: Week 8||1.88|0.33|0.595
82596641|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.66|TWO_SIDED|95.0|0.25|2.44|||Regression, Cox|||Time point: Week 10||2.44|0.25|0.66
82596642|NCT04311502|164907509|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.86|TWO_SIDED|95.0|0.21|6.39|||Regression, Cox|||Time point: Week 12||6.39|0.21|0.86
82596643|NCT04311502|164907510|SUPERIORITY||Slope|20.43|||<|0.01|TWO_SIDED|95.0|5.71|35.16|||Regression, Linear|||This comparison is adjusting for HIV-1 status (positive/negative) and TB Disease at Screening (Advanced/Not Advanced).||35.16|5.71|<0.01
82596644|NCT03040999|164907522|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1997|TWO_SIDED|95.0|0.71|1.15|||Log Rank|One-sided p-value based on log-rank test stratified by human papilloma virus (HPV) status and overall cancer stage.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by HPV status and overall cancer stage.|||1.15|0.71|0.1997
82596645|NCT03040999|164907525|OTHER||Difference in Least squares mean|-4.24||||0.0015|TWO_SIDED|95.0|-6.85|-1.63|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||-1.63|-6.85|0.0015
82596646|NCT03040999|164907526|OTHER||Difference in Least squares mean|-0.51||||0.7719|TWO_SIDED|95.0|-3.98|2.96|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||2.96|-3.98|0.7719
82596647|NCT03040999|164907527|OTHER||Difference in Least squares mean|-1.29||||0.45|TWO_SIDED|95.0|-4.64|2.06|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||2.06|-4.64|0.4500
82596648|NCT03040999|164907528|OTHER||Difference in Least squares mean|1.29||||0.3524|TWO_SIDED|95.0|-1.43|4.02|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||4.02|-1.43|0.3524
82596649|NCT03040999|164907529|OTHER||Difference in Least squares mean|-2.05||||0.0963|TWO_SIDED|95.0|-4.47|0.37|||cLDA||Based on a cLDA model with the PRO scores as the response variable with covariates for treatment, time, treatment by time interaction, and stratification factors of HPV status and overall cancer stage.|Difference in Least Squares Mean||0.37|-4.47|0.0963
82596650|NCT03040999|164907530|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0429|TWO_SIDED|95.0|0.68|1.03||P-value crossing boundary of 0.0242 required for statistical significance.|Log Rank|One-sided p-value based on log-rank test stratified by human papilloma virus (HPV) status and overall cancer stage.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by HPV status and overall cancer stage.|||1.03|0.68|0.0429
82498962|NCT03950167|164688881|OTHER||Mean Difference (Final Values)|0.63||||0.05|TWO_SIDED|||||A p value of \<0.05 was accepted as significant in all statistical analyses.|t-test, 2 sided||p value demonstrated above is the calculated value. Postprandial GB ejection fraction: hyperemesis group-control group|||||0.05
82596651|NCT01979523|164907531|OTHER|||||||0.74|||||||Log Rank|||||||0.74
82596652|NCT01137773|164907539|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|||||||0.49
82596653|NCT01137773|164907540|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||||||.70
82596654|NCT03548051|164907545|SUPERIORITY||Difference in Proportions|0.05|||>|0.999|TWO_SIDED|95.0|-0.58|0.65||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in proportions between study arms, with a two-sided alternative.||0.65|-0.58|>0.999
82596655|NCT03548051|164907548|SUPERIORITY||Difference in Proportions|0.05|||>|0.999|TWO_SIDED|95.0|-0.58|0.65||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Fisher Exact|||The null hypothesis is that there is no difference in proportions between study arms, with a two-sided alternative.||0.65|-0.58|>0.999
82596656|NCT03548051|164907549|SUPERIORITY||||||>|0.999||||||No adjustment for multiple comparisons was made. The a priori threshold for statistical significance is 0.05.|Log Rank|||A Log-Rank permutation test for small samples was used to test the null hypothesis that there is no difference in the time to first CDAD recurrence between treatment arms.||||>0.999
82596657|NCT03325673|164907565|SUPERIORITY|||||||0.116|||||||Independent t-test|||||||0.116
82596658|NCT03325673|164907566|SUPERIORITY|||||||0.468|||||||t-test, 2 sided|||Insertion||||0.468
82596659|NCT03325673|164907566|SUPERIORITY|||||||0.235|||||||t-test, 2 sided|||After 2 hours||||0.235
82596660|NCT03325673|164907566|SUPERIORITY|||||||0.152|||||||t-test, 2 sided|||End of Day||||0.152
82596661|NCT03325673|164907567|SUPERIORITY|||||||0.488|||||||t-test, 2 sided|||||||0.488
82596662|NCT03325673|164907568|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||0.072
82596663|NCT04749459|164907602|OTHER|A minimum of 10 valid results was defined as the number required to produce mean study product (or control standard) SPF with 95% confidence interval (CI) within +/- 17% of the measured mean SPF of the study product (or control standard).|||||||||||||||||CSM Classic: CIs +/- 13.7% P2 Control Standard (vs. CSM Classic) CIs +/- 16.4%|||
82596664|NCT04749459|164907602|OTHER|A minimum of 10 valid results was defined as the number required to produce mean study product (or control standard) SPF with 95% confidence interval (CI) within +/- 17% of the measured mean SPF of the study product (or control standard).|||||||||||||||||CSM Strawberry Flavor: CIs +/- 16.6% P2 Control Standard (vs CSM Strawberry Flavour): CIs +/- 16.0%|||
82596665|NCT00267748|164907622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.089||||0.86|TWO_SIDED|95.0|0.423|2.803|||Log Rank|||For High risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.803|0.423|0.860
82596666|NCT00267748|164907622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.902||||0.583|TWO_SIDED|95.0|0.623|1.306|||Log Rank|||For intermediate risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.306|0.623|0.583
82596667|NCT00267748|164907622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.556||||0.075|TWO_SIDED|95.0|0.288|1.074|||Log Rank|||For low risk factor, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.074|0.288|0.075
82596668|NCT00267748|164907622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.827||||0.22|TWO_SIDED|95.0|0.609|1.124|||Log Rank|||For overall stratified analysis, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median TTP was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.124|0.609|0.220
82596669|NCT00267748|164907622|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.773||||0.09|TWO_SIDED|95.0|0.572|1.044|||Log Rank|||For overall unstratified analysis, the hazard ratio of TTP was estimated using stratified Cox Proportional Hazard model. Two-sided unstratified Log rank method was used to calculate p value.||1.044|0.572|0.090
82654593|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.153|STANDARD_ERROR_OF_MEAN|0.19||0.4294|TWO_SIDED|95.0|-0.537|0.231|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.231|-0.537|0.4294
82654594|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.113|STANDARD_ERROR_OF_MEAN|0.12||0.3613|TWO_SIDED|95.0|-0.357|0.132|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.132|-0.357|0.3613
82654595|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.047|STANDARD_ERROR_OF_MEAN|0.13||0.7201|TWO_SIDED|95.0|-0.305|0.212|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Motivation||0.212|-0.305|0.7201
82654596|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.213|STANDARD_ERROR_OF_MEAN|0.12||0.0767|TWO_SIDED|95.0|-0.448|0.023|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||0.023|-0.448|0.0767
82654597|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.216|STANDARD_ERROR_OF_MEAN|0.19||0.2618|TWO_SIDED|95.0|-0.597|0.165|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.165|-0.597|0.2618
82654598|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.16||0.7633|TWO_SIDED|95.0|-0.366|0.269|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.269|-0.366|0.7633
82654599|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.198|STANDARD_ERROR_OF_MEAN|0.15||0.1968|TWO_SIDED|95.0|-0.502|0.105|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.105|-0.502|0.1968
82654600|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.12||0.6891|TWO_SIDED|95.0|-0.296|0.197|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in Activities||0.197|-0.296|0.6891
82654601|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.171|STANDARD_ERROR_OF_MEAN|0.14||0.2229|TWO_SIDED|95.0|-0.447|0.106|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.106|-0.447|0.2229
82654602|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.072|STANDARD_ERROR_OF_MEAN|0.06||0.2591|TWO_SIDED|95.0|-0.197|0.054|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||0.054|-0.197|0.2591
82654603|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.15||0.7099|TWO_SIDED|95.0|-0.359|0.246|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.246|-0.359|0.7099
82654604|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.031|STANDARD_ERROR_OF_MEAN|0.06||0.6215|TWO_SIDED|95.0|-0.154|0.092|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.092|-0.154|0.6215
82654605|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.057|STANDARD_ERROR_OF_MEAN|0.12||0.6422|TWO_SIDED|95.0|-0.302|0.187|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.187|-0.302|0.6422
82654606|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.483|STANDARD_ERROR_OF_MEAN|0.34||0.1574|TWO_SIDED|95.0|-1.157|0.19|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.190|-1.157|0.1574
82596670|NCT00267748|164907623|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.11||||0.444|TWO_SIDED|95.0|-6.4|14.6|||Chi-squared|||Response rate was estimated for each treatment group, 95% Confidence Interval (CI) on the difference in response rate between the 2 treatments was computed. P-value was calculated from a Pearson chi-square test.||14.6|-6.4|0.444
82596671|NCT00267748|164907625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.071||||0.866|TWO_SIDED|95.0|0.481|2.387|||Log Rank|||For high risk factor, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.387|0.481|0.866
82596672|NCT00267748|164907625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.169||||0.439|TWO_SIDED|95.0|0.785|1.741|||Log Rank|||For intermediate risk factor,the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.741|0.785|0.439
82596673|NCT00267748|164907625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.238||||0.614|TWO_SIDED|95.0|0.538|2.851|||Log Rank|||For low risk factor, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||2.851|0.538|0.614
82596674|NCT00267748|164907625|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162||||0.365|TWO_SIDED|95.0|0.838|1.612|||Log Rank|||For overall stratified analysis, the hazard ratio of OS was estimated using stratified Cox Proportional Hazard model with the MSKCC prognostic factors (low, intermediate, high), used in the randomization, as a stratum and median OS was estimated using Kaplan-Meier method. Log rank method was used to calculate p value.||1.612|0.838|0.365
82596675|NCT00267748|164907626|SUPERIORITY_OR_OTHER|||||||0.6737|TWO_SIDED||||||t-test, 2 sided|||P value was calculated using sample t-test.||||0.6737
82596676|NCT00267748|164907627|SUPERIORITY_OR_OTHER|||||||0.1967|TWO_SIDED||||||t-test, 2 sided|||P value was calculated using sample t-test.||||0.1967
82654607|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.084|STANDARD_ERROR_OF_MEAN|0.1||0.4039|TWO_SIDED|95.0|-0.115|0.282|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.282|-0.115|0.4039
82596677|NCT05051904|164907628|OTHER||Adjusted Hazard Ratio|0.5|||<|0.0001|TWO_SIDED|95.0|0.402|0.622|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.622|0.402|<0.0001
82596678|NCT05051904|164907628|OTHER||Adjusted Hazard Ratio|0.784||||0.0004|TWO_SIDED|95.0|0.686|0.896|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Rivaroxaban.|||0.896|0.686|0.0004
82596679|NCT05051904|164907628|OTHER||Adjusted Hazard Ratio|0.637|||<|0.0001|TWO_SIDED|95.0|0.514|0.791|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.791|0.514|<0.0001
82596680|NCT05051904|164907629|OTHER||Adjusted Hazard Ratio|0.78|||<|0.0001|TWO_SIDED|95.0|0.714|0.851|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio \<1 favors Dabigatran.|||0.851|0.714|<0.0001
82596681|NCT05051904|164907629|OTHER||Adjusted Hazard Ratio|0.827|||<|0.0001|TWO_SIDED|95.0|0.777|0.88|||Regression, Cox|Cox proportional hazard model with s-IPTW. 'Treatment' is the only Independent variable used to estimate the hazard ratios.|Hazard ratio\<1 favors Rivaroxaban|||0.88|0.777|<0.0001
82596682|NCT03759665|164907630|SUPERIORITY||Hodges-Lehmann Estimator|0.75||||0.044|TWO_SIDED|90.0|0.0|1.5|||1-sided Wilcoxon signed-rank test|||||1.50|0.00|0.044
82596683|NCT03759665|164907632|SUPERIORITY||Hodges-Lehmann Estimator|0.13||||0.206|TWO_SIDED|90.0|-0.13|0.25|||1-sided Wilcoxon signed-rank test|||||0.25|-0.13|0.206
82596684|NCT03759665|164907635|SUPERIORITY||Hodges-Lehmann Estimator|0.0327||||0.21|TWO_SIDED|90.0|-0.0327|0.104|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||0.1040|-0.0327|0.210
82596685|NCT03759665|164907635|SUPERIORITY||Hodges-Lehmann Estimator|-0.0291||||0.212|TWO_SIDED|90.0|-0.0863|0.0262|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.0262|-0.0863|0.212
82596686|NCT03759665|164907636|SUPERIORITY||Hodges-Lehmann Estimator|-1.25|||<|0.001|TWO_SIDED|90.0|-1.75|-0.75|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||-0.75|-1.75|<0.001
82596687|NCT03759665|164907636|SUPERIORITY||Hodges-Lehmann Estimator|1.25||||0.001|TWO_SIDED|90.0|0.5|2.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||2.00|0.50|0.001
82596688|NCT03759665|164907638|SUPERIORITY||Hodges-Lehmann Estimator|-0.031||||0.02|TWO_SIDED|90.0|-0.063|0.0|||1-sided Wilcoxon signed-rank test|||Treatment with IB1001||0.000|-0.063|0.020
82596689|NCT03759665|164907638|SUPERIORITY||Hodges-Lehmann Estimator|0.042|||<|0.001|TWO_SIDED|90.0|0.021|0.063|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||0.063|0.021|<0.001
82596690|NCT03759665|164907639|SUPERIORITY||Hodges-Lehmann Estimator|3.0|||<|0.001|TWO_SIDED|90.0|3.0|3.5|||1-sided Wilcoxon signed-rank test|||Treatment With IB1001||3.5|3.0|<0.001
82596691|NCT03759665|164907639|SUPERIORITY||Hodges-Lehmann Estimator|5.0|||<|0.001|TWO_SIDED|90.0|4.5|5.0|||1-sided Wilcoxon signed-rank test|||Post-Treatment Washout||5.0|4.5|<0.001
82596692|NCT05098041|164907642|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90 percent (%) confidence intervals (CIs) for the Geometric Mean Ratio (GMR) of Cmax for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the natural-log (ln)-transformed Cmax.|Geometric Mean Ratio (%)|13.15|||||TWO_SIDED|90.0|9.73|17.79|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||17.79|9.73|
82596693|NCT05098041|164907643|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90% CIs for the GMR of AUC∞ for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the ln-transformed AUC∞.|Geometric Mean Ratio (%)|16.42|||||TWO_SIDED|90.0|12.53|21.5|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||21.50|12.53|
82596694|NCT05098041|164907644|OTHER|Linear mixed-effects model was used for analysis. The model included treatment as a fixed effect and participant as a random effect. The point estimates and 90% CIs for the GMR of AUClast for Soticlestat and Rifampin versus Soticlestat alone were calculated using the exponentiation of the point estimates of the difference between treatment regimen and the corresponding 90% CIs from the analyses on the ln-transformed AUClast.|Geometric Mean Ratio (%)|14.92|||||TWO_SIDED|90.0|11.94|18.64|||||GMR (%) was calculated as 100\*(Soticlestat + Rifampin/Soticlestat Alone).|||18.64|11.94|
82596695|NCT05098041|164907645|OTHER||Median Difference (Final Values)|-0.117|||=|0.0791|TWO_SIDED|90.0|-0.202|0.0|||Wilcoxon Signed-Rank Test||Difference was calculated as (Soticlestat + Rifampin) - Soticlestat Alone. The difference of medians (treatment effect) and the corresponding 90% CI was estimated using the Hodges-Lehmann method and Walsh Averages.|||0.000|-0.202|=0.07910
82596696|NCT01297270|164907667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.7|30.6|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||30.6|10.7|<0.0001
82596697|NCT01297270|164907667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4||||0.0007|TWO_SIDED|95.0|7.3|27.4|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||27.4|7.3|0.0007
82654608|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.309|STANDARD_ERROR_OF_MEAN|0.19||0.1145|TWO_SIDED|95.0|-0.695|0.076|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.076|-0.695|0.1145
82654609|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.127|STANDARD_ERROR_OF_MEAN|0.12||0.3083|TWO_SIDED|95.0|-0.372|0.119|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.119|-0.372|0.3083
82654610|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.183|STANDARD_ERROR_OF_MEAN|0.13||0.1638|TWO_SIDED|95.0|-0.443|0.0776|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Motivation||0.0776|-0.443|0.1638
82654611|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.078|STANDARD_ERROR_OF_MEAN|0.12||0.5101|TWO_SIDED|95.0|-0.314|0.157|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Vision||0.157|-0.314|0.5101
82596698|NCT01297270|164907668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.7|||<|0.0001|TWO_SIDED|95.0|10.7|30.6|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||30.6|10.7|<0.0001
82596699|NCT01297270|164907668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.6||||0.0014|TWO_SIDED|95.0|6.5|26.7|||Cochran-Mantel-Haenszel||Estimate adjusted for genotype and race using Koch's method, with continuity correction|||26.7|6.5|0.0014
82596700|NCT00382993|164907684|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.63|||<|0.001||95.0|2.76|11.49|||ANOVA|||||11.49|2.76|<0.001
82596701|NCT03015259|164907718|EQUIVALENCE|To show the clinical equivalence, an analysis of covariance model was fit on the participants from the test budesonide/formoterol fumarate and Symbicort groups, with the endpoint as outcome and treatment, study site and treatment by site interaction as fixed effects and FEV1 baseline value as covariate.|Test/Referece LS Mean Ratio|1.04|||||TWO_SIDED|90.0|0.958|1.13|||||Fieller's formula was applied|Only Treatments 1 and 2 were compared for equivalence. Treatment 3 (placebo) was subtracted from both Treatments 1 and 2, as this primary endpoint was baseline adjusted.||1.130|0.958|
82596702|NCT03015259|164907719|EQUIVALENCE|To show the clinical equivalence, an ANCOVA model was fit with the endpoint as outcome and treatment, study site and treatment-by site interaction as fixed effects and FEV1 baseline value as covariate.|Test/Reference LS Mean Ratio|1.004|||||TWO_SIDED|90.0|0.889|1.14|||||Fieller's formula was applied|Treatments 1 and 2 were baseline adjusted by subtracting Treatment 3 (placebo) from each.||1.140|0.889|
82596703|NCT03015259|164907720|OTHER|||||||||||||||||Comparison of means, no formal statistical comparison|no statistical significance applied|||
82596704|NCT03341962|164907726|SUPERIORITY||Odds Ratio (OR)|1.0188||||0.5836|TWO_SIDED||||||Cochran-Mantel-Haenszel|1-sided exact test adjusted for stratification factors (prior use of any biologics and concurrent use of corticosteroids), α=0.097||||||0.5836
82596705|NCT01827670|164907768|SUPERIORITY_OR_OTHER||Adjusted Mean|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.53|-1.06|||ANCOVA|From ANCOVA model: Treatment as fixed factor \& baseline Schiff score as covariate.|Difference was 0.454% stannous fluoride minus 0.76% sodium monofluorophosphate such that a negative difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-1.06|-1.53|<0.0001
82654612|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.233|STANDARD_ERROR_OF_MEAN|0.19||0.2285|TWO_SIDED|95.0|-0.614|0.149|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Energy Level||0.149|-0.614|0.2285
82654613|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.16||0.4612|TWO_SIDED|95.0|-0.2|0.436|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Memory||0.436|-0.200|0.4612
82654614|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.099|STANDARD_ERROR_OF_MEAN|0.15||0.519|TWO_SIDED|95.0|-0.205|0.402|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Walking Balance||0.402|-0.205|0.5190
82654615|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.024|STANDARD_ERROR_OF_MEAN|0.12||0.8479|TWO_SIDED|95.0|-0.271|0.223|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Interest in Activities||0.223|-0.271|0.8479
82491808|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.7||||0.5623|TWO_SIDED|95.0|0.28|10.35|||Regression, Logistic|||Week 12 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||10.35|0.28|0.5623
82491809|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.86||||0.0116|TWO_SIDED|95.0|1.27|6.47|||Regression, Logistic|||Week 16 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.47|1.27|0.0116
82491810|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.34||||0.0615|TWO_SIDED|95.0|0.96|5.7|||Regression, Logistic|||Week 16 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.70|0.96|0.0615
82491811|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.68||||0.3316|TWO_SIDED|95.0|0.59|4.8|||Regression, Logistic|||Week 16 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||4.80|0.59|0.3316
82491812|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9946|TWO_SIDED|95.0|0.19|5.33|||Regression, Logistic|||Week 16 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.33|0.19|0.9946
82491813|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0083|TWO_SIDED|95.0|1.33|6.76|||Regression, Logistic|||Week 24 Reduction \>=30%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||6.76|1.33|0.0083
82491814|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.42||||0.0513|TWO_SIDED|95.0|1.0|5.88|||Regression, Logistic|||Week 24 Reduction \>=50%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||5.88|1.00|0.0513
82596706|NCT01827670|164907769|SUPERIORITY_OR_OTHER||Adjusted Mean|-0.81|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.62|||ANCOVA|From ANCOVA model: Treatment as fixed factor \& baseline Schiff score as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-0.62|-1.00|<0.0001
82491815|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|2.48||||0.1528|TWO_SIDED|95.0|0.71|8.58|||Regression, Logistic|||Week 24 Reduction \>=70%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||8.58|0.71|0.1528
82491816|NCT02609828|164676825|SUPERIORITY||Odds Ratio (OR)|1.41||||0.7251|TWO_SIDED|95.0|0.21|9.65|||Regression, Logistic|||Week 24 Reduction \>=90%: Logistic regression model included baseline average pain intensity at the index bone metastasis cancer pain site, baseline worst pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||9.65|0.21|0.7251
82596707|NCT01827670|164907770|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|27.2|||<|0.0001|TWO_SIDED|95.0|19.4|35.1|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline tactile threshold as covariate|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a positive difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||35.1|19.4|<0.0001
82596708|NCT01827670|164907771|SUPERIORITY_OR_OTHER||Adjusted Mean|7.5||||0.0138|TWO_SIDED|95.0|1.6|13.4|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline tactile threshold as covariate|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a positive difference favours first named treatment.|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||13.4|1.6|0.0138
82654616|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.039|STANDARD_ERROR_OF_MEAN|0.14||0.7808|TWO_SIDED|95.0|-0.316|0.238|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Coordination||0.238|-0.316|0.7808
82491817|NCT02609828|164676826|SUPERIORITY||Difference in LS mean|-0.04|STANDARD_ERROR_OF_MEAN|0.12||0.7045|TWO_SIDED|95.0|-0.28|0.19|||ANCOVA|||Change at Week 2: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.19|-0.28|0.7045
82491818|NCT02609828|164676826|SUPERIORITY||Difference in LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0402|TWO_SIDED|95.0|-0.59|-0.01|||ANCOVA|||Change at Week 4: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||-0.01|-0.59|0.0402
82498963|NCT00010374|164688897|OTHER|Performance goal of 35%|Exact two-sided binomial test|96.2|||<|0.001|TWO_SIDED|95.0|87.0|99.5|||Exact two-sided binomial test|||||99.5|87.0|<0.001
82596709|NCT01827670|164907772|SUPERIORITY_OR_OTHER||Adjusted Mean|-12.14||||0.0003|TWO_SIDED|95.0|-18.51|-5.77|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline VAS as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments"||-5.77|-18.51|0.0003
82596710|NCT01827670|164907773|SUPERIORITY_OR_OTHER||Adjusted Mean|-21.82|||<|0.0001|TWO_SIDED|95.0|-29.55|-14.09|||ANCOVA|From ANCOVA model: Treatment and baseline Schiff stratification value as fixed factor and baseline VAS as covariate.|Difference was 0.454% Stannous Fluoride minus 0.76% Sodium MonoFluorophosphate such that a negative difference favored first named treatment|"The principal null hypothesis tested was as follows:~H0: The change from baseline was same for both treatments. H1: The change from baseline was different for both the treatments."||-14.09|-29.55|<0.0001
82596711|NCT00689572|164907774|EQUIVALENCE|Mixed-effects linear regression model|Mean Difference (Final Values)|-0.09||||0.972|TWO_SIDED|95.0|-5.43|5.25|||Regression, Linear|Mixed-effects linear regression model included random intercept and slope (for temporal trend)||Difference between ondansetron and placebo groups regarding percentage of cocaine-free days (PCFD)||5.25|-5.43|0.972
82596712|NCT00689572|164907775|EQUIVALENCE|Mixed-effects linear regression model|Mean Difference (Final Values)|0.44||||0.909|TWO_SIDED|95.0|-7.08|7.95|||Regression, Linear|Mixed-effects linear regression model included random intercept and slope (for temporal trend)||Difference between ondansetron and placebo groups regarding percentage of cocaine free urines (PCFU)||7.95|-7.08|0.909
82596713|NCT02970292|164907781|SUPERIORITY||Difference in MMRM LSMs|-2.1|STANDARD_ERROR_OF_MEAN|1.24||0.094|TWO_SIDED|95.0|-4.5|0.4|||mixed-effects model for repeated measure|||||0.4|-4.5|0.0940
82596714|NCT04474795|164907806|SUPERIORITY||||||<|0.0001|||||||Wilcoxon paired signed rank test|||Compared pre and post training scores||||<0.0001
82654617|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.171|STANDARD_ERROR_OF_MEAN|0.06||0.0083|TWO_SIDED|95.0|-0.296|-0.045|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Tremor||-0.045|-0.296|0.0083
82596715|NCT04474795|164907807|SUPERIORITY||||||<|0.0001|||||||Wilcoxon paired signed rank test|||Comparison of scores pre and post training in individuals who completed training modules||||<0.0001
82596716|NCT04474795|164907808|SUPERIORITY|||||||0.606|||||||Wilcoxon paired signed rank test|||Patient autonomy||||0.606
82596717|NCT04474795|164907808|SUPERIORITY|||||||0.003|||||||Wilcoxon paired signed rank test|||Value of tight control||||0.003
82654618|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.101|STANDARD_ERROR_OF_MEAN|0.15||0.5068|TWO_SIDED|95.0|-0.404|0.201|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Concentration||0.201|-0.404|0.5068
82654619|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.068|STANDARD_ERROR_OF_MEAN|0.06||0.2725|TWO_SIDED|95.0|-0.191|0.055|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Speech||0.055|-0.191|0.2725
82654620|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.039|STANDARD_ERROR_OF_MEAN|0.12||0.7498|TWO_SIDED|95.0|-0.206|0.284|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Forgetfulness||0.284|-0.206|0.7498
82596718|NCT04474795|164907808|SUPERIORITY|||||||0.475|||||||Wilcoxon paired signed rank test|||Need for Special Training||||0.475
82596719|NCT04474795|164907809|SUPERIORITY|||||||0.009|||||||Wilcoxon paired signed rank test|||||||0.009
82596720|NCT00814775|164907812|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||0.72|TWO_SIDED|95.0|0.55|2.37|||Regression, Cox||CTrach vs. Fastrach|||2.37|0.55|0.72
82596721|NCT00814775|164907813|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.76||||0.45|TWO_SIDED|95.0|0.38|1.54|||Regression, Cox||CTrach vs. Fastrach|||1.54|0.38|0.45
82596722|NCT00563186|164907822|SUPERIORITY_OR_OTHER|This statistical analysis applies to the overall VRE, CDI and MRSA infection and colonization events expressed as incidence density (per 1000 patient-days at risk).|Incidence Rate ratio|1.6|STANDARD_ERROR_OF_MEAN|0.57||0.18|TWO_SIDED|95.0|0.8|3.22|||Poisson||Numerator is novel ward and denominator is traditional ward.|"It was calculated that this study will require 9750 patient days of observation in the traditional design wards and 19,500 patient days of observation in the novel design ward to ensure 80% statistical power to detect a 60% difference in the rates of incident cases of selected HAIs and ARO colonizations (the primary outcome measure) with an α level of 0.05 assuming that incident cases in each unit follow Poisson distribution based on well established historic trends on these units"||3.22|0.80|0.18
82596723|NCT00563186|164907824|SUPERIORITY_OR_OTHER||Rate Ratio|1.929|STANDARD_ERROR_OF_MEAN|0.493||0.175|TWO_SIDED|95.0|0.76|4.9|||Large test for person-time analysis|||||4.9|0.76|0.175
82596724|NCT02595723|164907827|OTHER|||||||0.003||||||Overall group difference adjusted for prior group, time, and baseline values.|Mixed Models Analysis|Model includes prior group, time, and baseline values to control for possible effects.||||||0.003
82654621|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.152|STANDARD_ERROR_OF_MEAN|0.34||0.6554|TWO_SIDED|95.0|-0.522|0.826|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Sleepiness||0.826|-0.522|0.6554
82654622|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.082|STANDARD_ERROR_OF_MEAN|0.1||0.4143|TWO_SIDED|95.0|-0.116|0.28|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Moodiness||0.280|-0.116|0.4143
82654623|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.055|STANDARD_ERROR_OF_MEAN|0.19||0.7761|TWO_SIDED|95.0|-0.441|0.33|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Alertness||0.330|-0.441|0.7761
82596725|NCT01087905|164907841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.076|TWO_SIDED|95.0|0.98|1.61|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) versus Six Weeks of Nicotine Replacement Therapy (NRT). We hypothesized that Six Weeks of NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., 6 wks NRT)."||1.61|0.98|.076
82596726|NCT01087905|164907841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.017|TWO_SIDED|95.0|1.06|1.75|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving NRT Monotherapy (Nicotine Patch Only) versus NRT Combination Therapy (Nicotine Patch plus Nicotine Gum). We hypothesized that Combination NRT would result in statistically significantly higher abstinence rates compared to NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., Combination NRT)."||1.75|1.06|.017
82596727|NCT01087905|164907841|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.343|TWO_SIDED|95.0|0.69|1.14|||Regression, Logistic|||"Null hypothesis: No difference in abstinence rates for participants receiving Standard Cessation Counseling (No CMAC) versus Standard Cessation Counseling plus CMAC. We hypothesized that Standard Counseling plus CMAC would result in statistically significantly higher abstinence rates compared to Standard Counseling Only.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention (e.g., Standard Counseling plus CMAC)."||1.14|0.69|.343
82596728|NCT01087905|164907842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.029|TWO_SIDED|95.0|1.04|2.14|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus Two Weeks of Combination NRT (Patch+Gum). We hypothesized that Two Weeks of Combination NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||2.14|1.04|.029
82596729|NCT01087905|164907842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.079|TWO_SIDED|95.0|0.96|1.97|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus SIx Weeks of NRT Monotherapy. We hypothesized that Six Weeks of NRT Monotherapy would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||1.97|0.96|.079
82596730|NCT01087905|164907842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.003|TWO_SIDED|95.0|1.2|2.45|||Regression, Logistic||Inclusion of the Cognitive Medication Adherence Counseling (CMAC) factor (No CMAC versus CMAC) as a control variable did not change the results of this analysis.|"Null hypothesis: No difference in abstinence rates for participants receiving Two Weeks of Nicotine Replacement Therapy (NRT) Monotherapy (Nicotine Patch Only) versus Six Weeks of Combination NRT (Patch+Gum). We hypothesized that Six Weeks of Combination NRT would result in statistically significantly higher abstinence rates compared to Two Weeks of NRT Monotherapy.~The study was originally powered to detect at least a 6.4% increase in the abstinence rate due to an enhanced intervention."||2.45|1.20|.003
82596731|NCT01087905|164907843|SUPERIORITY_OR_OTHER||incremental cost-effectiveness ratio|357.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 2 weeks of nicotine patch and nicotine gum = (213-178)/(.482-.384) = $357.||||
82596732|NCT01087905|164907843|SUPERIORITY_OR_OTHER||Incremental cost-effectiveness ratio|712.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 6 weeks of nicotine patch only = (233-178)/(.462-.384) = $712.||||
82654624|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|0.005|STANDARD_ERROR_OF_MEAN|0.12||0.9697|TWO_SIDED|95.0|-0.241|0.251|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|Attention Span||0.251|-0.241|0.9697
82654625|NCT03179345|165024169|SUPERIORITY||Mean Difference (Net)|-0.086|STANDARD_ERROR_OF_MEAN|0.13||0.5118|TWO_SIDED|95.0|-0.346|0.174|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.||Motivation|SE of difference estimated by dividing width of 95% CI by 4.|0.174|-0.346|0.5118
82654626|NCT03179345|165024170|SUPERIORITY||Mean Difference (Net)|-0.116|STANDARD_ERROR_OF_MEAN|0.53||0.8293|TWO_SIDED|95.0|-1.178|0.947|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.947|-1.178|0.8293
82654627|NCT03179345|165024170|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.53||0.9705|TWO_SIDED|95.0|-1.089|1.049|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.049|-1.089|0.9705
82654628|NCT03179345|165024171|SUPERIORITY||Mean Difference (Net)|-0.488|STANDARD_ERROR_OF_MEAN|0.53||0.3666|TWO_SIDED|95.0|-1.556|0.581|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||0.581|-1.556|0.3666
82491819|NCT02609828|164676826|SUPERIORITY||Difference in LS mean|-0.33|STANDARD_ERROR_OF_MEAN|0.17||0.0637|TWO_SIDED|95.0|-0.67|0.02|||ANCOVA|||Change at Week 8: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.02|-0.67|0.0637
82491820|NCT02609828|164676826|SUPERIORITY||Difference in LS mean|-0.16|STANDARD_ERROR_OF_MEAN|0.18||0.3804|TWO_SIDED|95.0|-0.53|0.2|||ANCOVA|||Change at Week 16: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.20|-0.53|0.3804
82491821|NCT02609828|164676826|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.18||0.5894|TWO_SIDED|95.0|-0.47|0.27|||ANCOVA|||Change at Week 24: ANCOVA model for imputed datasets included treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and baseline global assessment score, baseline average pain intensity at the index bone metastasis cancer pain site, and baseline opioid dose as covariates.||0.27|-0.47|0.5894
82491822|NCT02609828|164676827|SUPERIORITY||Odds Ratio (OR)|0.38||||0.2033|TWO_SIDED|95.0|0.09|1.69|||Regression, Logistic|||Week 2: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||1.69|0.09|0.2033
82491823|NCT02609828|164676827|SUPERIORITY||Odds Ratio (OR)|1.18||||0.7627|TWO_SIDED|95.0|0.41|3.41|||Regression, Logistic|||Week 4: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.41|0.41|0.7627
82491824|NCT02609828|164676827|SUPERIORITY||Odds Ratio (OR)|1.23||||0.6894|TWO_SIDED|95.0|0.44|3.43|||Regression, Logistic|||Week 8: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.43|0.44|0.6894
82654629|NCT03179345|165024171|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.53||0.9705|TWO_SIDED|95.0|-1.089|1.049|||ANOVA|Mixed model including terms for sequence, study treatment, and period as fixed effects and subject nested within sequence as a random effect.|SE of difference estimated by dividing width of 95% CI by 4.|||1.049|-1.089|0.9705
82654630|NCT00625807|165024197|OTHER||||||>|0.1||||||Cohen's d = 0.5|ANOVA|||ANOVA for group by time interaction||||> 0.1
82654631|NCT00625807|165024198|OTHER|||||||0.103|||||||ANOVA|||||||0.103
82654632|NCT00625807|165024199|OTHER|||||||0.022|||||||t-test, 2 sided|||within group change pre to week 8||||.022
82491825|NCT02609828|164676827|SUPERIORITY||Odds Ratio (OR)|1.34||||0.5905|TWO_SIDED|95.0|0.47|3.83|||Regression, Logistic|||Week 16: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.83|0.47|0.5905
82654633|NCT00625807|165024199|OTHER|within group change from pre to week 8|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82491826|NCT02609828|164676827|SUPERIORITY||Odds Ratio (OR)|1.12||||0.8354|TWO_SIDED|95.0|0.38|3.35|||Regression, Logistic|||Week 24: Logistic regression model included baseline PGA-CP, baseline average pain intensity at the index bone metastasis cancer pain site, treatment, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness).||3.35|0.38|0.8354
82491827|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.05|STANDARD_ERROR_OF_MEAN|0.22||0.8069|TWO_SIDED|95.0|-0.49|0.38|||Mixed Models Analysis|||Week 2 Frequency Composite Score: Mixed model for repeated measurements (MMRM) model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.38|-0.49|0.8069
82491828|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.06|STANDARD_ERROR_OF_MEAN|0.17||0.7127|TWO_SIDED|95.0|-0.28|0.41|||Mixed Models Analysis|||Week 4 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.28|0.7127
82654634|NCT00625807|165024200|OTHER|||||||0.015|||||||t-test, 2 sided|||within group change from pre to week 8||||.015
82654635|NCT00625807|165024200|OTHER|||||||0.53|||||||t-test, 2 sided|||within group change from pre to week 8||||.53
82654636|NCT00625807|165024201|OTHER|||||||0.06|||||||t-test, 2 sided|||within group change from pre to week 8||||.06
82654637|NCT00625807|165024201|OTHER||||||<|0.001|||||||t-test, 2 sided|||within group change from pre to post||||<.001
82654638|NCT01966042|165024202|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Friedman test (n=13)|||||||< 0.001
82654639|NCT03267264|165024206|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|17.5|||||TWO_SIDED|95.0|10.3|24.7||||||||24.7|10.3|
82654640|NCT03267264|165024207|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|30.5|||||TWO_SIDED|95.0|16.8|44.3||||||||44.3|16.8|
82491829|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.17|STANDARD_ERROR_OF_MEAN|0.2||0.3933|TWO_SIDED|95.0|-0.57|0.23|||Mixed Models Analysis|||Week 8 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.23|-0.57|0.3933
82491830|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.15|STANDARD_ERROR_OF_MEAN|0.28||0.5869|TWO_SIDED|95.0|-0.71|0.41|||Mixed Models Analysis|||Week 16 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.71|0.5869
82491831|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.42|STANDARD_ERROR_OF_MEAN|0.3||0.1814|TWO_SIDED|95.0|-1.05|0.21|||Mixed Models Analysis|||Week 24 Frequency Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS frequency scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.21|-1.05|0.1814
82491832|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.16|STANDARD_ERROR_OF_MEAN|0.15||0.2822|TWO_SIDED|95.0|-0.14|0.46|||Mixed Models Analysis|||Week 2 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.46|-0.14|0.2822
82491833|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.5795|TWO_SIDED|95.0|-0.23|0.41|||Mixed Models Analysis|||Week 4 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.41|-0.23|0.5795
82491834|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.5486|TWO_SIDED|95.0|-0.42|0.22|||Mixed Models Analysis|||Week 8 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.22|-0.42|0.5486
82491835|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.3692|TWO_SIDED|95.0|-0.24|0.63|||Mixed Models Analysis|||Week 16 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.63|-0.24|0.3692
82491836|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4724|TWO_SIDED|95.0|-0.3|0.63|||Mixed Models Analysis|||Week 24 Severity Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS severity scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.63|-0.30|0.4724
82491837|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.477|TWO_SIDED|95.0|-0.3|0.64|||Mixed Models Analysis|||Week 2 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.64|-0.30|0.4770
82491838|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.18||0.9791|TWO_SIDED|95.0|-0.38|0.37|||Mixed Models Analysis|||Week 4 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.37|-0.38|0.9791
82491839|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.23|STANDARD_ERROR_OF_MEAN|0.25||0.3574|TWO_SIDED|95.0|-0.27|0.74|||Mixed Models Analysis|||Week 8 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.74|-0.27|0.3574
82491840|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.17|STANDARD_ERROR_OF_MEAN|0.29||0.5607|TWO_SIDED|95.0|-0.77|0.42|||Mixed Models Analysis|||Week 16 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.42|-0.77|0.5607
82596733|NCT01087905|164907843|SUPERIORITY_OR_OTHER||Incremental cost-effectiveness ratio|1290.0||||||95.0||||There is no p-value for the incremental cost-effectiveness ratio (ICER).|Incremental cost-effectiveness ratio|Unit of measurement for ICER is U.S. dollars.||In this analysis, the Incremental cost-effectiveness ratio (ICER) is computed. ICER is a measure of the added cost per added quit for two treatments. ICER was computed as the cost difference between the least intensive treatment group (2 weeks of nicotine patch only) and a more intensive comparison group divided by the difference in the quit rates of the two groups being compared; ICER for the group that received 6 weeks of nicotine patch and nicotine gum = (348-178)/(.516-.384) = $1290.||||
82654641|NCT03267264|165024207|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall|20.6|||||TWO_SIDED|95.0|4.1|37.1||||||||37.1|4.1|
82654642|NCT03267264|165024207|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|overal mean|6.2|||||TWO_SIDED|95.0|-7.2|19.5||||||||19.5|-7.2|
82654643|NCT03267264|165024207|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.8|||||TWO_SIDED|95.0|-1.1|26.7||||||||26.7|-1.1|
82654644|NCT03267264|165024208|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall mean|18.0|||||TWO_SIDED|95.0|11.3|24.7||||||Overall Comfort||24.7|11.3|
82596734|NCT00004259|164907865|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.36|TWO_SIDED|95.0|0.67|1.32|||Log Rank|||The hypothesized median survival time was 36 months for the RT+BCNU/CCNU arm and 54 months for the RT+TMZ arm, corresponding to a hazard ratio (HR) of 0.67. A sample size of 216 evaluable patients per arm would provide 90% power with a one-sided significance level of 0.05. The final analysis was planned after 155 deaths were observed. Interim efficacy analyses were planned after 52 and 104 deaths, with an interim futility analysis planned at 128 deaths.||1.32|0.67|0.36
82596735|NCT00004259|164907867|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.46|TWO_SIDED|95.0|0.55|1.16||2-sided|Gray's test||Reference level = RT + BCNU/CCNU|||1.16|0.55|0.46
82596736|NCT00004259|164907868|SUPERIORITY||||||<|0.001||||||2-sided|Chi-squared|||Overall toxicity||||<0.001
82596737|NCT00004259|164907868|SUPERIORITY|||||||0.76||||||2-sided|Chi-squared|||Non-hematologic toxicity||||0.76
82596738|NCT00004259|164907869|SUPERIORITY||Hazard Ratio (HR)|1.78||||0.08|TWO_SIDED|95.0|0.93|3.4|||Log Rank|Two-side significance level = 0.05|Reference level = Methylated MGMT|||3.40|0.93|0.08
82596739|NCT00004259|164907870|SUPERIORITY||Hazard Ratio (HR)|1.29||||0.41|TWO_SIDED|95.0|0.7|2.35|||Log Rank|Two-sided confidence interval = 0.5|Reference level = Methylated|||2.35|0.70|0.41
82596740|NCT01902290|164907875|SUPERIORITY||Difference|-0.05||||0.5219|TWO_SIDED|95.0|-0.203|0.103|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline ACQ score.|Difference = Brodalumab - Placebo|||0.103|-0.203|0.5219
82596741|NCT01902290|164907876|SUPERIORITY||Rate Ratio|1.41||||0.102|TWO_SIDED|95.0|0.93|2.12|||Generalized linear model|Generalized linear model under a negative binomial distribution assumption adjusting for stratification factors.|Rate ratio = Brodalumab : Placebo|||2.12|0.93|0.102
82596742|NCT01902290|164907877|SUPERIORITY||Difference|-0.038||||0.6632|TWO_SIDED|95.0|-0.21|0.134|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification factors, and baseline ACQ score.|Difference = Brodalumab - Placebo|||0.134|-0.210|0.6632
82596743|NCT01902290|164907878|SUPERIORITY||Rate Ratio|1.45||||0.096|TWO_SIDED|95.0|0.94|2.24|||Generalized linear model|Generalized linear model under a negative binomial distribution assumption adjusting for stratification factors.|Rate ratio = Brodalumab : Placebo|||2.24|0.94|0.096
82596744|NCT01902290|164907879|SUPERIORITY||Difference|-0.046||||0.329|TWO_SIDED|95.0|-0.137|0.046|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline score.|Difference = Brodalumab - Placebo|||0.046|-0.137|0.3290
82596745|NCT01902290|164907880|SUPERIORITY||Difference|0.03||||0.4549||95.0|-0.049|0.109|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and FEV1.|Difference = Brodalumab - Placebo|||0.109|-0.049|0.4549
82596746|NCT01902290|164907881|SUPERIORITY||Difference|0.128||||0.6317||95.0|-0.396|0.653|||Mixed-effect model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline value.|Difference = Brodalumab - Placebo|||0.653|-0.396|0.6317
82596747|NCT01902290|164907882|SUPERIORITY||Hazard Ratio (HR)|1.277||||0.238|TWO_SIDED|95.0|0.843|1.936|||Log Rank|Log rank test stratified for baseline stratification factors.||||1.936|0.843|0.238
82596748|NCT01902290|164907883|SUPERIORITY||Odds Ratio (OR)|1.25||||0.351||95.0|0.78|2.01|||Regression, Logistic|Logistic regression adjusted for stratification factors.||||2.01|0.78|0.351
82596749|NCT01902290|164907884|SUPERIORITY||Difference|-0.001||||0.987||95.0|-0.174|0.171|||Mixed-effects model|The model included fixed effects of treatment group, time, interaction of treatment group by time, stratification variables, and baseline AQLQ score.|Difference = Brodalumab - Placebo|||0.171|-0.174|0.9870
82596750|NCT01902290|164907885|SUPERIORITY||Difference|0.635||||0.9053|TWO_SIDED|95.0|-9.82|11.089|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and AM PEFR.|Difference = Brodalumab - Placebo|Analysis of morning peak flow||11.089|-9.820|0.9053
82596751|NCT01902290|164907885|SUPERIORITY||Difference|5.92||||0.2661|TWO_SIDED|95.0|-4.515|16.354|||Mixed-effects model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, pooled race group, height and PM PEFR.|Difference = Brodalumab - Placebo|Analysis of evening peak flow||16.354|-4.515|0.2661
82491841|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.7143|TWO_SIDED|95.0|-0.68|0.47|||Mixed Models Analysis|||Week 24 Distress Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS distress scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.47|-0.68|0.7143
82491842|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.09|STANDARD_ERROR_OF_MEAN|0.18||0.6381|TWO_SIDED|95.0|-0.28|0.45|||Mixed Models Analysis|||Week 2 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.45|-0.28|0.6381
82491843|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|0.06|STANDARD_ERROR_OF_MEAN|0.15||0.7181|TWO_SIDED|95.0|-0.25|0.37|||Mixed Models Analysis|||Week 4 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.37|-0.25|0.7181
82491844|NCT02609828|164676830|SUPERIORITY||Difference in least square (LS) mean|-0.04|STANDARD_ERROR_OF_MEAN|0.17||0.8378|TWO_SIDED|95.0|-0.38|0.31|||Mixed Models Analysis|||Week 8 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.31|-0.38|0.8378
82491845|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.06|STANDARD_ERROR_OF_MEAN|0.23||0.795|TWO_SIDED|95.0|-0.52|0.4|||Mixed Models Analysis|||Week 16 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.40|-0.52|0.7950
82491846|NCT02609828|164676830|SUPERIORITY||Difference in LS mean|-0.11|STANDARD_ERROR_OF_MEAN|0.25||0.6719|TWO_SIDED|95.0|-0.62|0.4|||Mixed Models Analysis|||Week 24 MDA Composite Score: MMRM model includes time (study week), treatment, region, and randomization stratification variables (concomitant anticancer treatment and tumor aggressiveness) as fixed effects, and treatment\*time interaction, baseline OR-SDS MDA scores, and baseline average pain intensity at the index bone metastasis cancer pain site as covariates.||0.40|-0.62|0.6719
82491847|NCT02068027|164676880|SUPERIORITY|||||||0.4503||||||MMRM imputing for missing data|Mixed Models Analysis|||||||0.4503
82491848|NCT02068027|164676881|SUPERIORITY|||||||0.735||||||MMRM imputing for missing data|Mixed Models Analysis|||||||0.7350
82491849|NCT02149719|164676897|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82596752|NCT01902290|164907886|SUPERIORITY||Difference|-4.021||||0.0871|TWO_SIDED|95.0|-8.627|0.586|||Mixed-effect model|Model includes treatment, time, stratification factors, treatment by time and baseline value of age, gender, race group, height and PEFR variation.|Difference = Brodalumab - Placebo|||0.586|-8.627|0.0871
82596753|NCT03389854|164907899|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.001
82596754|NCT03389854|164907899|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 6 months||||0.90
82491850|NCT04010695|164676965|OTHER||||||<|0.001|||||||K-sample test|The p-value was calculated using a nonparametric k-sample test on the equality of medians.||Comparison of SD Biosensor POC G6PD test results for capillary and venous samples||||<0.001
82491851|NCT00306189|164676966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|||<|0.0001||95.0|5.76|8.24|||t-test, 2 sided|||||8.24|5.76|<0.0001
82491852|NCT00306189|164676966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.25|||<|0.0001||95.0|4.1|6.4|||t-test, 2 sided|||||6.4|4.1|<0.0001
82491853|NCT00306189|164676966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.27|||<|0.0001||95.0|5.06|7.49|||t-test, 2 sided|||||7.49|5.06|<0.0001
82491854|NCT02993757|164676971|OTHER||GMT ratio|0.982|||||TWO_SIDED|95.0|0.664|1.45||||||Antigen HPV-6||1.45|0.664|
82491855|NCT02993757|164676971|OTHER||GMT ratio|0.804|||||TWO_SIDED|95.0|0.626|1.03||||||Antigen HPV-11||1.03|0.626|
82491856|NCT02993757|164676971|OTHER||GMT ratio|0.815|||||TWO_SIDED|95.0|0.608|1.09||||||Antigen HPV-16||1.09|0.608|
82491857|NCT02993757|164676971|OTHER||GMT ratio|0.795|||||TWO_SIDED|95.0|0.603|1.05||||||Antigen HPV-18||1.05|0.603|
82491858|NCT02993757|164676972|OTHER||GMT ratio|0.987|||||TWO_SIDED|95.0|0.574|1.7||||||Serotype 1||1.70|0.574|
82491859|NCT02993757|164676972|OTHER||GMT ratio|0.783|||||TWO_SIDED|95.0|0.5|1.22||||||Serotype 2||1.22|0.500|
82491860|NCT02993757|164676972|OTHER||GMT ratio|0.836|||||TWO_SIDED|95.0|0.568|1.23||||||Serotype 3||1.23|0.568|
82491861|NCT02993757|164676972|OTHER||GMT ratio|1.07|||||TWO_SIDED|95.0|0.813|1.4||||||Serotype 4||1.40|0.813|
82498964|NCT04649060|164688900|SUPERIORITY||Hazard Ratio (HR)|0.184|||=|0.0032|TWO_SIDED|95.0|0.052|0.65|||Log Rank|||||0.650|0.052|=0.0032
82498965|NCT04649060|164688901|SUPERIORITY|||||||0.03|||||||Cochran-Mantel-Haenszel|||||||0.03
82498966|NCT04649060|164688902|SUPERIORITY||Hazard Ratio (HR)|0.418||||0.525|TWO_SIDED|95.0|0.026|6.693|||Log Rank|||||6.693|0.026|0.525
82596755|NCT03389854|164907900|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.001
82596756|NCT03389854|164907900|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Control group vs. Penile Traction Therapy Group at 6 months||||0.40
82596757|NCT03389854|164907901|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.01
82596758|NCT03389854|164907901|SUPERIORITY|||||||0.64|||||||Wilcoxon (Mann-Whitney)|||Control group vs. Penile Traction Therapy Group at 6 months||||0.64
82596759|NCT03389854|164907902|SUPERIORITY|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 3 months||||0.06
82491862|NCT00289783|164676998|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by Enzyme Linked Immunosorbent Assay (ELISA) the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.89|1.42||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.42|0.89|
82491863|NCT00289783|164676998|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by ELISA the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.12|||||TWO_SIDED|95.0|0.89|1.42||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.42|0.89|
82491864|NCT00289783|164676998|EQUIVALENCE|Criteria for lot-to-lot consistency (1 month after primary vaccination): For each pair of lots and for the immune response to anti-PRP measured by ELISA the two-sided 95% confidence interval (CI) on the geometric mean concentrations (GMCs) ratio between lots is within the \[0.5; 2.0\] interval.|GMC ratio|1.0|||||TWO_SIDED|95.0|0.8|1.26||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for polyribosylribitol phosphate (PRP) as measured by ELISA.||1.26|0.8|
82491865|NCT00289783|164676999|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.23|||||TWO_SIDED|95.0|0.93|1.62||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.62|0.93|
82491866|NCT00289783|164676999|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.97|||||TWO_SIDED|95.0|0.74|1.29||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.29|0.74|
82491867|NCT00289783|164676999|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenC, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.79|||||TWO_SIDED|95.0|0.6|1.04||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup C (MenC) as measured by a serum bactericidal assay using human complement (hSBA).||1.04|0.6|
82491868|NCT00289783|164677000|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.61|||||TWO_SIDED|95.0|1.14|2.27||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||2.27|1.14|
82491869|NCT00289783|164677000|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|1.4|||||TWO_SIDED|95.0|0.99|1.97||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||1.97|0.99|
82491870|NCT00289783|164677000|EQUIVALENCE|For each pair of lots and for the immune response to hSBA-MenY, the two-sided 95% confidence interval (CI) on the geometric mean titers (GMTs) ratio between lots is within the \[0.5; 2.0\] interval.|GMT ratio|0.87|||||TWO_SIDED|95.0|0.62|1.21||||||To demonstrate the lot-to-lot consistency of 3 manufacturing lots of Hib-MenCY-TT vaccine co-administered with DTPa-HBV-IPV vaccine following 3 primary doses in terms of immunogenicity for N. meningitidis serogroup Y (MenY) as measured by a serum bactericidal assay using human complement (hSBA).||1.21|0.62|
82596760|NCT03389854|164907902|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||Control group vs Penile Traction Therapy Group at 6 months||||0.66
82596761|NCT03389854|164907903|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||||||0.09
82596762|NCT03389854|164907904|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||||||0.26
82498967|NCT04649060|164688904|SUPERIORITY|||||||0.0997|||||||Cochran-Mantel-Haenszel|||||||0.0997
82498968|NCT04649060|164688905|SUPERIORITY||Hazard Ratio (HR)|0.111||||0.016|TWO_SIDED|95.0|0.013|0.96|||Log Rank|||||0.960|0.013|0.016
82498969|NCT04649060|164688907|SUPERIORITY||Hazard Ratio (HR)|0.231||||0.0187|TWO_SIDED|95.0|0.063|0.846|||Log Rank|||||0.846|0.063|0.0187
82596763|NCT03389854|164907905|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82596764|NCT02054897|164907950|SUPERIORITY|Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% confidence interval (CI) for the estimated difference was below 0%.|Treatment difference|-1.53|||<|0.0001|TWO_SIDED|95.0|-1.81|-1.25|||Mixed Models Analysis||Semaglutide 1.0 mg minus Placebo|For the primary HbA1c endpoint, superiority was planned to be tested for semaglutide 1.0 mg versus placebo. The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-1.25|-1.81|< 0.0001
82491871|NCT00289783|164677001|NON_INFERIORITY|Criteria for immunogenicity of MenC (42 days after the fourth dose): Lower limit of the asymptotic 95% CI for the geometric mean of individual ratio of post-dose 4/pre-dose 4 is ≥ 2.|GMT ratio|12.0|||||TWO_SIDED|95.0|10.4|13.8||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenC.||13.8|10.4|
82491872|NCT00289783|164677001|NON_INFERIORITY|Point estimate = Lower limit (LL) = Upper limit (UL) as LL and UL values were not available due to the departure from lognormal distribution (large number of imputed values)|GMT ratio|1.4|||||TWO_SIDED|95.0|1.4|1.4||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenC.||1.4|1.4|
82491873|NCT00289783|164677002|NON_INFERIORITY|Criteria for immunogenicity of MenY (42 days after the fourth dose): Lower limit of the asymptotic 95% CI for the geometric mean of individual ratio of post-dose 4/pre-dose 4 is ≥ 2.|GMT ratio|11.8|||||TWO_SIDED|95.0|10.2|13.8||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenY.||13.8|10.2|
82491874|NCT00289783|164677002|NON_INFERIORITY|Point estimate = Lower limit (LL) = Upper limit (UL) as LL and UL values were not available due to the departure from lognormal distribution (large number of imputed values).|GMT ratio|21.1|||||TWO_SIDED|95.0|21.1|21.1||||||To evaluate the specific effect of a fourth dose of Menhibrix vaccine co-administered with M-M-R II and Varivax vaccines at 12 to 15 months of age in terms of a fourth dose vaccine response as measured by hSBA-MenY.||21.1|21.1|
82491875|NCT00289783|164677006|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroconversion ≥ 150 mIU/mL, in initially seronegative subjects (\<150 mIU/mL), for anti-measles antibody is ≥-5% (clinical limit for non-inferiority).|Difference in percentage|-0.15|||||TWO_SIDED|95.0|-2.56|3.06||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M-M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||3.06|-2.56|
82491876|NCT00289783|164677007|NON_INFERIORITY|Criteria for non-inferiority (42 days after the fourth dose): Lower limit of the two-sided standardized asymptotic 95% CI on the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with anti-PRP concentration ≥ 1.0 µg/mL is ≥ -10% (clinical limit for non-inferiority)|Difference in percentage|-0.04|||||TWO_SIDED|95.0|-1.78|3.57||||||To demonstrate that, following a fourth dose, the immune response to Hib polysaccharide (PRP) in the group that received 3 primary vaccine doses of Menhibrix vaccine and a fourth dose of Menhibrix vaccine coadministered with M-M-R II and Varivax vaccines was non-inferior to the corresponding immune response in the group that received 3 primary vaccine doses of ActHIB vaccine and a fourth dose of PedvaxHIB vaccine co-administered with M-M-R II and Varivax vaccines.||3.57|-1.78|
82491877|NCT00289783|164677008|NON_INFERIORITY|Criterion for non-inferiority (42 days after fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with a seroconversion ≥28 ED50, in subjects with initial anti-mumps antibody \< 28 ED50, for anti-mumps antibody is ≥ -5% (clinical limit for non-inferiority).|Difference in percentage|-1.0|||||TWO_SIDED|95.0|-2.16|0.98||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M--M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||0.98|-2.16|
82491878|NCT00289783|164677009|NON_INFERIORITY|Criterion for non-inferiority (42 days after fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroresponse ≥10 IU/ml, in initially seronegative subjects (\< 4 IU/ml), for anti-rubella antibody is ≥ -5% (clinical limit for non-inferiority).|Difference in percentage|0.12|||||TWO_SIDED|95.0|-0.57|1.73||||||To demonstrate the non-inferiority of M-M-R II vaccine when co-administered with a fourth dose of Menhibrix vaccine compared to M-M-R II vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with Varivax vaccine.||1.73|-0.57|
82491879|NCT00289783|164677010|NON_INFERIORITY|Criterion for non-inferiority (42 days after the fourth dose vaccination): Lower limit of the standardized asymptotic 95% CI for the difference (Menhibrix vaccine fourth dose group minus ActHIB fourth dose group) in the percentage of subjects with seroconversion ≥ 1:5 dilution, in initially seronegative subjects (\< 1:5), for anti-varicella antibody is ≥ -10% (clinical limit for non-inferiority).|Difference in percentage|-0.14|||||TWO_SIDED|95.0|-0.78|1.56||||||To demonstrate the non-inferiority of Varivax vaccine co-administered with a fourth dose of Menhibrix vaccine compared to Varivax vaccine co-administered with a fourth dose of PedvaxHIB vaccine, each co-administered with M-M-R II vaccine in terms of immunogenicity to varicella as measured by fluorescent antibody to membrane antigen (FAMA).||1.56|-0.78|
82596765|NCT02054897|164907950|SUPERIORITY|Superiority for change in HbA1c was claimed if the upper limit of the 2-sided 95% CI for the estimated difference was below 0%.|Treatment difference|-1.43|||<|0.0001|TWO_SIDED|95.0|-1.71|-1.15|||Mixed Models Analysis||Semaglutide 0.5 mg minus Placebo|For the primary HbA1c endpoint, superiority was planned to be tested for semaglutide 0.5 mg versus placebo, if superiority for semaglutide 1.0 mg was concluded. The post-baseline responses were analysed using a mixed model for repeated measurements with treatment and country as fixed factors and baseline value as covariate, all nested within visit.||-1.15|-1.71|< 0.0001
82596766|NCT01119248|164907956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|0.62|<|0.001|TWO_SIDED|95.0|-0.48|-0.25|||t-test, 2 sided|||||-0.25|-0.48|<.001
82596767|NCT01119248|164907957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.0001|TWO_SIDED|95.0|-0.95|-0.43|||t-test, 2 sided|||pre- MRI body temperature was associated with change in body temperature after MRI by bivariate analysis. The values presented are adjusted for body surface area, type of MRI, room temperature and duration of MRI||-0.43|-0.95|0.0001
82596768|NCT01119248|164907958|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 2 sided|||||||0.001
82596769|NCT00802204|164907982|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|describe.....||Baseline outcome measurements are compared between lean and obese. Baseline and post outcome measurements are compared for the obese who completed VLCD||||<0.05
82596770|NCT00802204|164907982|OTHER||||||<|0.05|||||||t-test, 2 sided|||Paired t-test to compare baseline and post-diet outcome measures||||<0.05
82491880|NCT06934993|164677085|SUPERIORITY||||||<|0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||<0.001
82491881|NCT06934993|164677086|SUPERIORITY|||||||0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In all cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.001
82491882|NCT06934993|164677086|SUPERIORITY|||||||0.096||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.096
82491883|NCT06934993|164677086|SUPERIORITY||||||<|0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||<0.001
82491884|NCT06934993|164677087|SUPERIORITY|||||||0.001||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.001
82491885|NCT06934993|164677087|SUPERIORITY|||||||0.096||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.096
82491886|NCT06934993|164677088|SUPERIORITY|||||||0.04||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.04
82491887|NCT06934993|164677088|SUPERIORITY|||||||0.679||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.679
82491888|NCT06934993|164677088|SUPERIORITY|||||||0.011||||||Statistical significance was defined as cases where the p-value was below 0.05.|Chi-squared|||In LIMA-LAD cases, when the post hoc power analysis results for the relationship between graft patency and flow rate were examined, the effect size was found to be 0.836, with an alpha error level set at 0.05. The statistical power of the study was determined to be 99.99%.||||0.011
82491889|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9||||0.0005|TWO_SIDED|95.0|-6.1|-1.7||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-1.7|-6.1|0.0005
82498970|NCT04649060|164688908|SUPERIORITY||Hazard Ratio (HR)|0.224||||0.0384|TWO_SIDED|95.0|0.047|1.056|||Log Rank|||||1.056|0.047|0.0384
82498971|NCT04649060|164688909|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.3721|TWO_SIDED|95.0|0.086|2.569|||Log Rank|||||2.569|0.086|0.3721
82498972|NCT02289417|164688928|SUPERIORITY||Stratified Difference|19.2||||0.0142|TWO_SIDED|95.0|3.4|33.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of oral (PO) corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.6|3.4|0.0142
82596771|NCT01534533|164908004|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|Chi-squared|||"The null hypothesis was no group difference"||||>0.05
82596772|NCT01534533|164908005|SUPERIORITY_OR_OTHER|||||||0.992||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.992
82596773|NCT01534533|164908006|SUPERIORITY_OR_OTHER|||||||0.672||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.672
82596774|NCT01534533|164908007|SUPERIORITY_OR_OTHER|||||||0.402||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.402
82596775|NCT01534533|164908008|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||The a priori threshold for statistical significance was 0.05 (two sides)|ANOVA|||"The null hypothesis was no group difference"||||0.636
82596776|NCT05032157|164908015|SUPERIORITY||Mean Difference (Final Values)|-7.68|STANDARD_ERROR_OF_MEAN|1.136|<|0.001|TWO_SIDED|95.0|-9.91|-5.46|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, week, baseline score and both interaction of treatment by week and interaction of baseline score by week.|UAS7 at Week 12 (Scenario 1 with UAS7 as primary efficacy endpoint)||-5.46|-9.91|< 0.001
82596777|NCT05032157|164908016|SUPERIORITY||Mean Difference (Final Values)|-3.23|STANDARD_ERROR_OF_MEAN|0.545|<|0.001|TWO_SIDED|95.0|-4.29|-2.16|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti- IgE, biologics, week, baseline score, and both interaction of treatment by week and interaction of baseline score by week.|ISS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-2.16|-4.29|<0.001
82596778|NCT05032157|164908017|SUPERIORITY||Mean Difference (Final Values)|-4.47|STANDARD_ERROR_OF_MEAN|0.634|<|0.001|TWO_SIDED|95.0|-5.71|-3.23|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti- IgE biologics, week, baseline score and both interaction of treatment by week and interaction of baseline score by week.|HSS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-3.23|-5.71|< 0.001
82596779|NCT05032157|164908018|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.39|6.18|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Disease activity control (UAS7 =\< 6) at Week 12||6.18|2.39|< 0.001
82596780|NCT05032157|164908019|SUPERIORITY||Odds Ratio (OR)|5.78|||<|0.001|TWO_SIDED|95.0|2.83|11.78|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Complete absence of hives and itch (UAS7 = 0) at Week 12||11.78|2.83|< 0.001
82596781|NCT05032157|164908020|SUPERIORITY||Odds Ratio (OR)|7.92|||<|0.001|TWO_SIDED|95.0|3.72|16.85|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|Early onset of disease activity control (UAS7 =\< 6) at Week 2||16.85|3.72|< 0.001
82596782|NCT05032157|164908021|SUPERIORITY||Odds Ratio (OR)|2.75|||<|0.001|TWO_SIDED|95.0|1.65|4.58|||Regression, Logistic||Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics and baseline DLQI score.|Dermatology Life Quality Index (DLQI) = 0-1 at Week 12||4.58|1.65|< 0.001
82596783|NCT05032157|164908022|SUPERIORITY||Rate ratio|3.26|||<|0.001|TWO_SIDED|95.0|2.26|4.71|||Regression, Linear||Negative binomial regression with log link includes treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics as covariates. A rate ratio \>1 favors LOU064 25 mg b.i.d.|Disease activity control (UAS7 =\< 6) up to Week 12||4.71|2.26|< 0.001
82596784|NCT05032157|164908023|SUPERIORITY||Rate ratio|1.32|||<|0.001|TWO_SIDED|95.0|1.17|1.49|||Regression, Linear||Negative binomial regression with log link included treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics, baseline AAS7 = 0 response as covariates. A rate ratio \> 1 favors LOU064 25 mg b.i.d.|Angioedema occurrence-free weeks (AAS7 = 0 response) up to Week 12||1.49|1.17|< 0.001
82596785|NCT02600507|164908080|SUPERIORITY||Least Squares Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|1.03||0.021|TWO_SIDED|95.0|-4.42|-0.37|||Mixed Effects Model for Repeated Measure|||||-0.37|-4.42|0.021
82654645|NCT03267264|165024208|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.9|||||TWO_SIDED|95.0|9.9|21.8||||||Anxiety Associated with a Needle Stick Injury||21.8|9.9|
82654646|NCT03267264|165024208|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.5|||||TWO_SIDED|95.0|8.9|22.1||||||Injection Pain||22.1|8.9|
82498973|NCT02289417|164688928|SUPERIORITY||Stratified Difference|7.7||||0.2689|TWO_SIDED|95.0|-6.9|22.0|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method|||22.0|-6.9|0.2689
82596786|NCT02600507|164908080|SUPERIORITY||Least Squares Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.01||0.099|TWO_SIDED|95.0|-3.65|0.32|||Mixed Effects Model for Repeated Measure|||||0.32|-3.65|0.099
82596787|NCT02600507|164908081|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.008|TWO_SIDED|95.0|-0.59|-0.09|||Mixed Effects Model for Repeated Measure|||||-0.09|-0.59|0.008
82596788|NCT02600507|164908081|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.04|TWO_SIDED|95.0|-0.5|-0.01|||Mixed Effects Model for Repeated Measure|||||-0.01|-0.50|0.040
82596789|NCT00621504|164908114|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Confidence Interval (CI) for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated based on each of the CE and the MITTE Populations at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% for each of the CE and MITTE Populations.|Risk Difference (RD)|6.2|||||TWO_SIDED|95.0|-0.2|12.6|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared to that for ceftriaxone at TOC in the CE and MITTE Populations in adult subjects with CABP.||12.6|-0.2|
82596790|NCT01982292|164908133|SUPERIORITY_OR_OTHER||Difference in percentage|0.5|||>|0.9999|TWO_SIDED|90.0|-9.38|10.38|||Fisher Exact|||Difference in percentage of patients with positive antibody status||10.38|-9.38|>0.9999
82596791|NCT01982292|164908133|SUPERIORITY_OR_OTHER||Difference in percentage|-0.5|||||TWO_SIDED|90.0|-10.38|9.38||||||Difference in percentage of patients with negative antibody status||9.38|-10.38|
82654647|NCT03267264|165024208|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|19.7|||||TWO_SIDED|95.0|13.8|25.7||||||Ease of Use||25.7|13.8|
82596792|NCT03354663|164908175|OTHER|Single arm trial|Proportion|0.047|||<|0.0001|ONE_SIDED|95.0||0.0864|||Binomial Exact Test|||"The hypothesis is formally expressed as:~H0: P ≥ 16.2% Ha: P \< 16.2%, where P is the percentage of subjects with a primary safety endpoint event. The hypothesis will be tested based on a one-sided exact test of binomial proportions at the one-sided 0.05 alpha level."||0.0864||<0.0001
82596793|NCT03354663|164908176|OTHER|"The hypothesis is formally expressed as:~H0: P \< 90% Ha: P ≥ 90%, where P is the percentage of subjects with acute success. The hypothesis will be tested based on a one-sided exact test of binomial proportions at the one-sided 0.05 alpha level. Rejection of the null hypothesis will indicate study success."|Proportion|0.98||||0.0001|ONE_SIDED|95.0|0.9495||||Binomial Exact Test||||||0.9495|0.0001
82596794|NCT03354663|164908181|OTHER||Kaplan-Meier Survival Estimate|82.2|||||TWO_SIDED|95.0|74.7|87.6|||||Kaplan-Meier estimate of freedom from recurrence at 1-year|Kaplan Meier Estimate of freedom from recurrence.||87.6|74.7|
82596795|NCT03354663|164908182|OTHER||Kaplan-Meier survival estimate|68.2|||||TWO_SIDED|95.0|59.9|75.1||||||Kaplan-Meier estimate of freedom from recurrence or need for anti-arrhythmic medication||75.1|59.9|
82596796|NCT01661140|164908196|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority if the difference between treatments is statistically significant and the lower limit of the 95% confidence interval (CI) is greater than 0.9.|Odds Ratio (OR)|1.803||||0.036|TWO_SIDED|95.0|1.037|3.133|||Analysis by logistic regression|||Comparison was Tapering MTX : MTX maintenance. Last post-baseline EULAR response recorded used for participants with a missing result at Week 60.||3.133|1.037|0.036
82596797|NCT00143312|164908277|SUPERIORITY_OR_OTHER||Crude IFI Rate (percent) at 12 months|7.0||||||95.0|2.0|19.0||||||||19|2|
82596798|NCT00143312|164908277|SUPERIORITY_OR_OTHER||IFI Rate (percent) at 12 months|10.0||||||95.0|2.0|27.0||||||||27|2|
82596799|NCT00143312|164908278|SUPERIORITY_OR_OTHER||IFI Rate (percent) at 6 months|8.82||||||95.0|2.0|24.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||24|2|
82654648|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|27.8|||||TWO_SIDED|95.0|14.9|40.7||||||Overall Comfort||40.7|14.9|
82654649|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.2|||||TWO_SIDED|95.0|8.9|31.6||||||Anxiety Associated with a needle stick injury||31.6|8.9|
82654650|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|16.1|||||TWO_SIDED|95.0|3.4|28.8||||||Injection Pain||28.8|3.4|
82596800|NCT00143312|164908279|SUPERIORITY_OR_OTHER||IFI Rate (percent) at End of Prophylaxis|8.82||||||95.0|2.0|24.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||24|2|
82596801|NCT00143312|164908283|SUPERIORITY_OR_OTHER||survive free of IFI (percent): 6 months|79.0||||||95.0|64.0|91.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||91|64|
82596802|NCT00143312|164908283|SUPERIORITY_OR_OTHER||survive free of IFI (percent): 12 months|69.0||||||95.0|52.0|83.0|||||Exact 95% Confidence Interval For Proportion; Expressed as a percentage|||83|52|
82596803|NCT00440947|164908284|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority would be established between the two arms if the lower limit of the 2-sided 95% confidence interval (CI) on the difference in the percentage of participants with HIV-1 RNA \<50 c/mL at Week 84 was -12% or greater.|Risk Difference (RD)|5.4||||0.14|TWO_SIDED|95.0|-1.8|12.5|||Cochran-Mantel-Haenszel|p-value was obtained from Cochran-Mantel-Haenszel stratified by baseline HIV-1 RNA (\<100000/\>=100000)||||12.5|-1.8|0.140
82596804|NCT03016325|164908361|SUPERIORITY|Part I, clinically relevant hypotension - relative risk|Relative risk from placebo|2.45|||||TWO_SIDED|95.0|0.83|14.53||||||||14.53|0.83|
82596805|NCT03016325|164908361|SUPERIORITY|Part I, clinically relevant hypotension - relative difference|Relative difference from placebo|0.12|||||TWO_SIDED|95.0|-0.02|0.28||||||||0.28|-0.02|
82596806|NCT03016325|164908361|SUPERIORITY|Part I, symptoms of hypotension - relative risk|Relative risk from placebo|2.94|||||TWO_SIDED|95.0|0.31|75.47||||||||75.47|0.31|
82596807|NCT03016325|164908361|SUPERIORITY|Part I, symptoms of hypotension - relative difference|Relative difference from placebo|0.04|||||TWO_SIDED|95.0|-0.06|0.15||||||||0.15|-0.06|
82596808|NCT03016325|164908361|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|3.27|||||TWO_SIDED|95.0|1.01|14.66||||||||14.66|1.01|
82596809|NCT03016325|164908361|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.14|||||TWO_SIDED|95.0|0.0|0.29||||||||0.29|0.00|
82596810|NCT03016325|164908361|SUPERIORITY|Part II (low dose), clinically relevant hypotension - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
82596811|NCT03016325|164908361|SUPERIORITY|Part II (low dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
82596812|NCT03016325|164908361|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative risk|Relative risk from placebo|2.0|||||TWO_SIDED|95.0|0.18|54.35||||||||54.35|0.18|
82491890|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0|||<|0.0001|TWO_SIDED|95.0|-10.0|-4.0||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-4.0|-10.0|<.0001
82596813|NCT03016325|164908361|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.01|||||TWO_SIDED|95.0|-0.05|0.09||||||||0.09|-0.05|
82491891|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.2|||<|0.0001|TWO_SIDED|95.0|-12.8|-5.6||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-5.6|-12.8|<.0001
82491892|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.1|||<|0.0001|TWO_SIDED|95.0|-15.0|-7.3||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-7.3|-15.0|<.0001
82491893|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-18.4|-9.6||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-9.6|-18.4|<.0001
82491894|NCT01663532|164677094|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.1|||<|0.0001|TWO_SIDED|95.0|-19.4|-10.8||Kenward-Rodger degree of freedom was used to test the treatment effects and p-value was not adjusted as this is a primary efficacy endpoint.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested. The sample size estimated a 1:1 randomization ratio (aripiprazole IM depot 400/300mg: placebo) to achieve 90% power and to preserve a nominal alpha level of 0.05 given a treatment difference of -7.5 points in change from Baseline with standard deviation of 20 points between aripiprazole and placebo using a two-sided z-test.||-10.8|-19.4|<.0001
82491895|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.0001|TWO_SIDED|95.0|-0.4|-0.1||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.1|-0.4|0.0001
82596814|NCT03016325|164908361|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
82596815|NCT03016325|164908361|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
82596816|NCT03016325|164908361|SUPERIORITY|Part II (high dose), clinically relevant hypotension - relative risk|Relative risk from placebo|1.9|||||TWO_SIDED|95.0|1.04|3.59||||||||3.59|1.04|
82596817|NCT03016325|164908361|SUPERIORITY|Part II (high dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.16|||||TWO_SIDED|95.0|0.01|0.31||||||||0.31|0.01|
82596818|NCT03016325|164908361|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative risk|Relative risk from placebo|5.92|||||TWO_SIDED|95.0|0.91|149.72||||||||149.72|0.91|
82596819|NCT03016325|164908361|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.07|||||TWO_SIDED|95.0|-0.01|0.16||||||||0.16|-0.01|
82491896|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||<|0.0001|TWO_SIDED|95.0|-0.6|-0.2||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.2|-0.6|<.0001
82491897|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.4||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.4|-0.7|<.0001
82654651|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|30.7|||||TWO_SIDED|95.0|19.3|42.1||||||Ease of Use||42.1|19.3|
82654652|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.7|||||TWO_SIDED|95.0|5.3|36.1||||||Overall Comfort||36.1|5.3|
82491898|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.5|-0.9|<.0001
82491899|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.5||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.5|-0.9|<.0001
82491900|NCT01663532|164677095|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6||After the comparison for primary efficacy endpoint was statistically significant, the comparison of change from Baseline in CGI severity score was conducted at same alpha level 0.05.|Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.6|-1.1|<.0001
82491901|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.0006|TWO_SIDED|95.0|-2.1|-0.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.6|-2.1|0.0006
82491902|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.0001|TWO_SIDED|95.0|-3.3|-1.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.3|-3.3|<.0001
82491903|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.1|||<|0.0001|TWO_SIDED|95.0|-4.3|-2.0|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-2.0|-4.3|<.0001
82499900|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.9|||||TWO_SIDED|95.0|-23.8|1.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||1.5|-23.8|
82596820|NCT03016325|164908361|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.59|||||TWO_SIDED|95.0|0.87|3.21||||||||3.21|0.87|
82596821|NCT03016325|164908361|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.11|||||TWO_SIDED|95.0|-0.04|0.25||||||||0.25|-0.04|
82596822|NCT03016325|164908361|SUPERIORITY|Part II-Japan (low dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
82596823|NCT03016325|164908361|SUPERIORITY|Part II-Japan (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
82596824|NCT03016325|164908361|SUPERIORITY|Part II-Japan (high dose), clinically relevant hypotension - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
82596825|NCT03016325|164908361|SUPERIORITY|Part II-Japan (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
82596826|NCT03016325|164908364|SUPERIORITY|Part I, symptoms of hypotension - relative risk|Relative risk from placebo|2.94|||||TWO_SIDED|95.0|0.31|75.47||||||||75.47|0.31|
82596827|NCT03016325|164908364|SUPERIORITY|Part I, symptoms of hypotension - relative difference|Relative difference from placebo|0.04|||||TWO_SIDED|95.0|-0.06|0.15||||||||0.15|-0.06|
82596828|NCT03016325|164908364|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative risk|Relative risk from placebo|2.0|||||TWO_SIDED|95.0|0.18|54.35||||||||54.35|0.18|
82596829|NCT03016325|164908364|SUPERIORITY|Part II (low dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.01|||||TWO_SIDED|95.0|-0.05|0.09||||||||0.09|-0.05|
82654653|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|19.4|||||TWO_SIDED|95.0|6.0|32.8||||||Anxiety Associated with a needle stick||32.8|6|
82596830|NCT03016325|164908364|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative risk|Relative risk from placebo|5.92|||||TWO_SIDED|95.0|0.91|149.72||||||||149.72|0.91|
82596831|NCT03016325|164908364|SUPERIORITY|Part II (high dose), symptoms of hypotension - relative difference|Relative difference from placebo|0.07|||||TWO_SIDED|95.0|-0.01|0.16||||||||0.16|-0.01|
82596832|NCT03016325|164908365|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|3.27|||||TWO_SIDED|95.0|1.01|14.66||||||||14.66|1.01|
82654654|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|18.6|||||TWO_SIDED|95.0|3.6|33.7||||||Injection Pain||33.7|3.6|
82596833|NCT03016325|164908365|SUPERIORITY|Part I, confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.14|||||TWO_SIDED|95.0|0.0|0.29||||||||0.29|0.00|
82596834|NCT03016325|164908365|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.15|||||TWO_SIDED|95.0|0.58|2.43||||||||2.43|0.58|
82596835|NCT03016325|164908365|SUPERIORITY|Part II (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.03|||||TWO_SIDED|95.0|-0.11|0.16||||||||0.16|-0.11|
82596836|NCT03016325|164908365|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative risk|Relative risk from placebo|1.59|||||TWO_SIDED|95.0|0.87|3.21||||||||3.21|0.87|
82596837|NCT03016325|164908365|SUPERIORITY|Part II (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.11|||||TWO_SIDED|95.0|-0.04|0.25||||||||0.25|-0.04|
82596838|NCT03016325|164908365|SUPERIORITY|Part II-Japan (low dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.33|||||TWO_SIDED|95.0|-0.17|0.78||||||||0.78|-0.17|
82596839|NCT03016325|164908365|SUPERIORITY|Part II-Japan (high dose), confirmed SBP \< 90 mmHg - relative difference|Relative difference from placebo|0.5|||||TWO_SIDED|95.0|-0.04|0.88||||||||0.88|-0.04|
82596840|NCT02813694|164908399|NON_INFERIORITY|non-inferiority margin= 10%|Treatment difference|0.1|||||TWO_SIDED|95.0|-4.4|4.5|||||Difference in percentage of Responders for ECR (Lefamulin - Moxifloxacin). Confidence interval computed using continuity-corrected Z-statistic|||4.5|-4.4|
82596841|NCT02813694|164908400|NON_INFERIORITY|non-inferiority margin = 10%|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.3|3.1|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\] and PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||3.1|-6.3|
82596842|NCT02813694|164908400|NON_INFERIORITY|non-inferiority margain = 10%|Treatment difference|-1.6|||||TWO_SIDED|95.0|-6.5|3.3|||||Difference in percentage of Success for IACR at test of cure visit. Confidence interval computed using a continuity-corrected Z-test.|||3.3|-6.5|
82596843|NCT02813694|164908401|NON_INFERIORITY|non-inferiority margain = 10%|Treatment difference|-3.9|||||TWO_SIDED|95.0|-8.2|0.5|||||Difference in percentage of success for IACR at test of cure visit (Lefamulin - Moxifloxacin). CI computed via Miettinen-Nurminen method, adjusted for prior antibiotic use \[Y vs. N\]; PORT risk class \[III vs. IV/V\], using CMH stratum weights.|||0.5|-8.2|
82596844|NCT02813694|164908401|NON_INFERIORITY|non-inferiority margin = 10%|Treatment difference|-3.9|||||TWO_SIDED|95.0|-8.4|0.7|||||Difference in Percentage of Success for IACR at test of cure visit (Lefamulin - Moxifloxacin). Confidence interval computed using continuity-corrected Z-statistic.|||0.7|-8.4|
82596845|NCT01618214|164908419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.4%.|Mean Difference (Final Values)|-0.02|STANDARD_DEVIATION|0.08||||95.0|-0.19|0.14|||Regression, Linear|||FAS||0.14|-0.19|
82596846|NCT00606086|164908424|SUPERIORITY_OR_OTHER|||||||1|||||||Cochran-Mantel-Haenszel test|||||||1.000
82596847|NCT02500628|164908425|OTHER|||||||0.77|||||||t-test, 2 sided|||comparison between fibromyalgia and non-fibromyalgia group||||0.77
82596848|NCT02500628|164908426|OTHER|||||||0.27|||||||t-test, 2 sided|||||||0.27
82596849|NCT02500628|164908427|OTHER|||||||0.92|||||||t-test, 2 sided|||difference between fibromyalgia and non-fibromyalgia patients.||||0.92
82596850|NCT02692495|164908433|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82596851|NCT00391222|164908436|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED|95.0||||As defined in the protocol, the olanzapine arm was not included in the primary outcome comparison. Data on the olanzapine arm are presented in outcome measure 7.|Log Rank|||Comparison between risperidone LAI and placebo was performed using a log-rank test controlling for patient type at screening (acute or non-acute) and for geographic region. As recurrence rates at 9 months were assumed to be 45% for risperidone LAI and 68% for placebo, the study would have approximately 90% power to detect a clinically meaningful difference of 23% in recurrence rates of a mood episode if in Period III 100 patients were randomized to each of the 2 relevant treatment arms.||||0.057
82596852|NCT00391222|164908437|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.005
82596853|NCT00391222|164908437|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Log Rank|||The time-to-event data were evaluated by the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||<0.0001
82596854|NCT00391222|164908438|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.655
82596855|NCT00391222|164908438|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.011
82654655|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|18.4|||||TWO_SIDED|95.0|4.9|31.9||||||Ease of Use||31.9|4.9|
82654656|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|8.4|||||TWO_SIDED|95.0|-4.0|20.9||||||Overall Comfort||20.9|-4.0|
82654657|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.9|||||TWO_SIDED|95.0|1.9|23.8||||||Anxiety Associated with a Needle stick injury||23.8|1.9|
82596856|NCT00391222|164908439|SUPERIORITY_OR_OTHER|||||||0.2882|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||0.2882
82596857|NCT00391222|164908439|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Log Rank|||The time-to-event data were evaluated by means of the same survival analysis method as used for the primary outcome. The recurrence rates (Kaplan-Meier estimated) were calculated for each treatment arm using the same methods as for the primary outcome.||||<0.0001
82596858|NCT00391222|164908440|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline YMRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||<0.001
82596859|NCT00391222|164908440|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline YMRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||<0.001
82596860|NCT00391222|164908441|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline MADRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||0.480
82596861|NCT00391222|164908441|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|95.0|||||ANCOVA|||An ANCOVA model was applied to the change from baseline of Period III at each time point in Period III, with treatment, patient type at screening, and geographic region as factors and baseline MADRS total score as covariate. The comparison between active treatment and placebo was performed based on the LS means obtained from the ANCOVA model. The difference in LS means between treatment arms was estimated, as was the 95% confidence interval for the difference.||||0.001
82491904|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|||<|0.0001|TWO_SIDED|95.0|-5.1|-2.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-2.6|-5.1|<.0001
82491905|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|||<|0.0001|TWO_SIDED|95.0|-6.2|-3.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-3.4|-6.2|<.0001
82491906|NCT01663532|164677096|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1|||<|0.0001|TWO_SIDED|95.0|-6.4|-3.7|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-3.7|-6.4|<.0001
82491907|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.0023|TWO_SIDED|95.0|-1.6|-0.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 1.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.3|-1.6|0.0023
82491908|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.0032|TWO_SIDED|95.0|-2.0|-0.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 2.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.4|-2.0|0.0032
82491909|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.0003|TWO_SIDED|95.0|-2.7|-0.8|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 4.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-0.8|-2.7|0.0003
82491910|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||<|0.0001|TWO_SIDED|95.0|-3.2|-1.3|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 6.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.3|-3.2|<.0001
82491911|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|||<|0.0001|TWO_SIDED|95.0|-3.7|-1.4|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 8.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.4|-3.7|<.0001
82491912|NCT01663532|164677097|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.1|-1.6|||Mixed Models Analysis|MMRM analysis with treatment, pooled centers, Week and treatment-by-Week, and Baseline-by-Week interaction as an unstructured covariate was performed.|Difference in Least Square (LS) mean of change and 95% Confidence interval were derived from pair-wise comparison within MMRM at Week 10.|Null hypothesis of change from Baseline in PANSS total score of aripiprazole IM depot 400/300mg group is same as that of placebo group was tested.||-1.6|-4.1|<.0001
82491913|NCT01663532|164677098|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||<|0.0001|TWO_SIDED|95.0|4.1|10.1|||ANCOVA|ANCOVA model with treatment and pooled centers as factors and Baseline value as covariate for the comparison at other visits.|Difference in least square mean of change were derived from ANCOVA model.|Statistical analysis for Week 10.||10.1|4.1|<.0001
82596862|NCT02249143|164908444|SUPERIORITY||Mean Difference (Net)|6.62|||<|0.05|TWO_SIDED|95.0|0.02|13.22|||Regression, Linear|||FRC values over time were modeled using linear mixed effects regression with treatment group vs. time interaction and repeated measures for the randomization, 2 week, and discharge time points. Compound symmetric covariance structures were used to account for the correlation of FRC values within each patient. We compared outcomes between the two treatment groups and included adjustments for gender, twin gestation, and weight at randomization.||13.22|0.02|<0.05
82596863|NCT02249143|164908445|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82596864|NCT02249143|164908445|SUPERIORITY|||||||||||||||||Group differences in the secondary outcomes were tested at randomization, two weeks, and discharge using independent samples t-tests.||||
82596865|NCT00960843|164908457|SUPERIORITY_OR_OTHER|||||||0.052||95.0|||||t-test, 2 sided|||Null hypothesis was no difference between arms. Original power calculation specified 24 per group and this was achieved under initial randomization. However, due to failure to follow protocol specified adjustment criteria, pressure and weight data from one site had to be excluded.||||0.0520
82596866|NCT00960843|164908458|SUPERIORITY_OR_OTHER|||||||0.0225||95.0|||||t-test, 2 sided|||||||0.0225
82596867|NCT00960843|164908459|SUPERIORITY_OR_OTHER|||||||0.0193||95.0|||||t-test, 2 sided|||||||0.0193
82596868|NCT00652366|164908461|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.2026|TWO_SIDED|95.0|0.88|1.8|||Log Rank|||||1.80|0.88|0.2026
82596869|NCT00652366|164908463|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||0.6298|TWO_SIDED|95.0|0.77|1.54|||Log Rank|||||1.54|0.77|0.6298
82596870|NCT00652366|164908464|SUPERIORITY_OR_OTHER||Difference in Response Rates|-6.1||||0.2543|TWO_SIDED|95.0|-17.2|5.0|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||5.0|-17.2|0.2543
82596871|NCT00652366|164908464|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.19|1.56||||||||1.56|0.19|
82596872|NCT00652366|164908466|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-15.52||||0.0603|TWO_SIDED|95.0|-32.4|1.3|||Chi-squared||Approximate 95% CI for the difference of two rates was determined using the Hauck-Anderson method.|||1.3|-32.4|0.0603
82596873|NCT00652366|164908468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.2678|TWO_SIDED|95.0|0.6|1.15|||Log Rank|||||1.15|0.60|0.2678
82596874|NCT00652366|164908468|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.8449|TWO_SIDED|95.0|0.74|1.43|||Log Rank|||||1.43|0.74|0.8449
82596875|NCT00652366|164908470|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69||||0.0217|TWO_SIDED|95.0|0.51|0.95|||Log Rank|||||0.95|0.51|0.0217
82596876|NCT00652366|164908470|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.1596|TWO_SIDED|95.0|0.57|1.1|||Log Rank|||||1.10|0.57|0.1596
82596877|NCT00531752|164908488|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.7947|STANDARD_ERROR_OF_MEAN|1.8848||0.6749|TWO_SIDED|80.0|-1.649|3.2383||P-values are not adjusted for multiple comparisons.|Mixed Models Analysis||Positive value for the LS mean difference indicates the estimate favors placebo.|Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.2383|-1.649|0.6749
82596878|NCT00531752|164908488|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4176|STANDARD_ERROR_OF_MEAN|2.0343||0.4886|TWO_SIDED|80.0|-1.218|4.0533||P-values are not adjusted for multiple comparisons.|Mixed Models Analysis||Positive value for the LS mean difference indicates the estimate favors placebo.|Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.0533|-1.218|0.4886
82596879|NCT00531752|164908489|SUPERIORITY_OR_OTHER||LS Mean Difference|1.025|STANDARD_ERROR_OF_MEAN|1.7713||0.5643|TWO_SIDED|80.0|-1.262|3.3121|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3121|-1.262|0.5643
82596880|NCT00531752|164908489|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9146|STANDARD_ERROR_OF_MEAN|1.8777||0.3107|TWO_SIDED|80.0|-0.51|4.3392|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.3392|-0.5100|0.3107
82596881|NCT00531752|164908489|SUPERIORITY_OR_OTHER||LS Mean Difference|2.3154|STANDARD_ERROR_OF_MEAN|1.4638||0.1196|TWO_SIDED|80.0|0.41601|4.2148|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2148|0.41601|0.1196
82596882|NCT00531752|164908489|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3288|STANDARD_ERROR_OF_MEAN|1.524||0.3872|TWO_SIDED|80.0|-0.649|3.3065|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3065|-0.6490|0.3872
82596883|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1677|STANDARD_ERROR_OF_MEAN|1.0269||0.8708|TWO_SIDED|80.0|-1.162|1.4971|||Mixed Models Analysis|||Week 1 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.4971|-1.162|0.8708
82596884|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8607|STANDARD_ERROR_OF_MEAN|1.0912||0.0927|TWO_SIDED|80.0|0.44874|3.2726|||Mixed Models Analysis|||Week 1 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.2726|0.44874|0.0927
82596885|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.866|STANDARD_ERROR_OF_MEAN|0.9037||0.3405|TWO_SIDED|80.0|-0.3008|2.0329|||Mixed Models Analysis|||Week 1 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.0329|-0.3008|0.3405
82596886|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1623|STANDARD_ERROR_OF_MEAN|0.9622||0.8665|TWO_SIDED|80.0|-1.08|1.4047|||Mixed Models Analysis|||Week 1 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.4047|-1.080|0.8665
82596887|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3886|STANDARD_ERROR_OF_MEAN|0.9694||0.6901|TWO_SIDED|80.0|-0.8694|1.6466|||Mixed Models Analysis|||Week 2 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.6466|-0.8694|0.6901
82596888|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3779|STANDARD_ERROR_OF_MEAN|1.0114||0.179|TWO_SIDED|80.0|0.06498|2.6908|||Mixed Models Analysis|||Week 2 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.6908|0.06498|0.1790
82596889|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8759|STANDARD_ERROR_OF_MEAN|0.7508||0.0156|TWO_SIDED|80.0|0.90156|2.8502|||Mixed Models Analysis|||Week 2 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.8502|0.90156|0.0156
82596890|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04217|STANDARD_ERROR_OF_MEAN|0.7842||0.9573|TWO_SIDED|80.0|-1.06|0.97559|||Mixed Models Analysis|||Week 2 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.97559|-1.060|0.9573
82596891|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1602|STANDARD_ERROR_OF_MEAN|1.2517||0.8986|TWO_SIDED|80.0|-1.462|1.782|||Mixed Models Analysis|||Week 3 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.7820|-1.462|0.8986
82596892|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6688|STANDARD_ERROR_OF_MEAN|1.3437||0.6204|TWO_SIDED|80.0|-1.071|2.4086|||Mixed Models Analysis|||Week 3 (Inattention): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.4086|-1.071|0.6204
82596893|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.492|STANDARD_ERROR_OF_MEAN|0.8742||0.5759|TWO_SIDED|80.0|-0.6421|1.6261|||Mixed Models Analysis|||Week 3 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.6261|-0.6421|0.5759
82596894|NCT00531752|164908494|SUPERIORITY_OR_OTHER||LS Mean Difference|0.875|STANDARD_ERROR_OF_MEAN|0.9488||0.3603|TWO_SIDED|80.0|-0.3552|2.1051|||Mixed Models Analysis|||Week 3 (Hyperactivity/Impulsivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.1051|-0.3552|0.3603
82596895|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5306|STANDARD_ERROR_OF_MEAN|1.6664||0.0392|TWO_SIDED|80.0|1.3659|5.6952|||Mixed Models Analysis|||Day 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.6952|1.3659|0.0392
82596896|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9344|STANDARD_ERROR_OF_MEAN|1.7848||0.0003|TWO_SIDED|80.0|4.6177|9.2512|||Mixed Models Analysis|||Day 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.2512|4.6177|0.0003
82596897|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2888|STANDARD_ERROR_OF_MEAN|2.1861||0.0547|TWO_SIDED|80.0|1.4544|7.1232|||Mixed Models Analysis|||Day 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.1232|1.4544|0.0547
82596898|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|5.6799|STANDARD_ERROR_OF_MEAN|2.3261||0.0176|TWO_SIDED|80.0|2.6655|8.6943|||Mixed Models Analysis|||Day 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6943|2.6655|0.0176
82596899|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7203|STANDARD_ERROR_OF_MEAN|2.5085||0.775|TWO_SIDED|80.0|-2.53|3.9704|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.9704|-2.530|0.7750
82596900|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04276|STANDARD_ERROR_OF_MEAN|2.6874||0.9874|TWO_SIDED|80.0|-3.521|3.4357|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.4357|-3.521|0.9874
82596901|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6252|STANDARD_ERROR_OF_MEAN|2.2268||0.7799|TWO_SIDED|80.0|-3.513|2.2629|||Mixed Models Analysis|||Day 4: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.2629|-3.513|0.7799
82654658|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|7.0|||||TWO_SIDED|95.0|-5.3|19.4||||||Injection Pain||19.4|-5.3|
82596902|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1136|STANDARD_ERROR_OF_MEAN|2.3365||0.1881|TWO_SIDED|80.0|0.08338|6.1438|||Mixed Models Analysis|||Day 4: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.1438|0.08338|0.1881
82596903|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6575|STANDARD_ERROR_OF_MEAN|1.9677||0.4032|TWO_SIDED|80.0|-0.8944|4.2094|||Mixed Models Analysis|||Day 5: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2094|-0.8944|0.4032
82596904|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|5.9254|STANDARD_ERROR_OF_MEAN|2.0796||0.0059|TWO_SIDED|80.0|3.2314|8.6193|||Mixed Models Analysis|||Day 5: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6193|3.2314|0.0059
82654659|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|17.7|||||TWO_SIDED|95.0|6.7|28.8||||||Ease of Use||28.8|6.7|
82596905|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0921|STANDARD_ERROR_OF_MEAN|2.1098||0.6067|TWO_SIDED|80.0|-1.643|3.8273|||Mixed Models Analysis|||Day 6: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.8273|-1.643|0.6067
82654660|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|15.1|||||TWO_SIDED|95.0|2.1|28.1||||||Overall Comfort||28.1|2.1|
82596906|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2785|STANDARD_ERROR_OF_MEAN|2.2424||0.0614|TWO_SIDED|80.0|1.3709|7.186|||Mixed Models Analysis|||Day 6: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.1860|1.3709|0.0614
82596907|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7149|STANDARD_ERROR_OF_MEAN|2.2086||0.7476|TWO_SIDED|80.0|-3.584|2.1546|||Mixed Models Analysis|||Day 7: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.1546|-3.584|0.7476
82596908|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.3355|STANDARD_ERROR_OF_MEAN|2.4396||0.5863|TWO_SIDED|80.0|-4.499|1.8284|||Mixed Models Analysis|||Day 7: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.8284|-4.499|0.5863
82596909|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1058|STANDARD_ERROR_OF_MEAN|2.0529||0.9591|TWO_SIDED|80.0|-2.771|2.5593|||Mixed Models Analysis|||Day 8: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.5593|-2.771|0.9591
82596910|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4352|STANDARD_ERROR_OF_MEAN|2.2048||0.8442|TWO_SIDED|80.0|-3.294|2.4238|||Mixed Models Analysis|||Day 8: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||2.4238|-3.294|0.8442
82596911|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6876|STANDARD_ERROR_OF_MEAN|2.0533||0.1977|TWO_SIDED|80.0|0.01391|5.3613|||Mixed Models Analysis|||Day 9: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.3613|0.01391|0.1977
82596912|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8149|STANDARD_ERROR_OF_MEAN|2.2467||0.4235|TWO_SIDED|80.0|-1.108|4.7375|||Mixed Models Analysis|||Day 9: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.7375|-1.108|0.4235
82596913|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6424|STANDARD_ERROR_OF_MEAN|1.9753||0.1882|TWO_SIDED|80.0|0.07015|5.2147|||Mixed Models Analysis|||Day 10: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.2147|0.07015|0.1882
82596914|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2105|STANDARD_ERROR_OF_MEAN|2.0376||0.5555|TWO_SIDED|80.0|-1.44|3.8615|||Mixed Models Analysis|||Day 10: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.8615|-1.440|0.5555
82596915|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1804|STANDARD_ERROR_OF_MEAN|2.1934||0.1533|TWO_SIDED|80.0|0.33169|6.0292|||Mixed Models Analysis|||Day 11: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.0292|0.33169|0.1533
82596916|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0511|STANDARD_ERROR_OF_MEAN|2.2662||0.3697|TWO_SIDED|80.0|-0.8912|4.9934|||Mixed Models Analysis|||Day 11: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.9934|-0.8912|0.3697
82596917|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|1.764|STANDARD_ERROR_OF_MEAN|2.3939||0.4652|TWO_SIDED|80.0|-1.352|4.8801|||Mixed Models Analysis|||Day 12: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.8801|-1.352|0.4652
82596918|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4377|STANDARD_ERROR_OF_MEAN|2.5148||0.8626|TWO_SIDED|80.0|-2.83|3.7058|||Mixed Models Analysis|||Day 12: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.7058|-2.830|0.8626
82596919|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7114|STANDARD_ERROR_OF_MEAN|1.6168||0.0261|TWO_SIDED|80.0|1.6105|5.8122|||Mixed Models Analysis|||Day 13: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.8122|1.6105|0.0261
82596920|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2644|STANDARD_ERROR_OF_MEAN|1.7026||0.1895|TWO_SIDED|80.0|0.0533|4.4756|||Mixed Models Analysis|||Day 13: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.4756|0.05330|0.1895
82596921|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1151|STANDARD_ERROR_OF_MEAN|3.0732||0.4994|TWO_SIDED|80.0|-1.961|6.1913|||Mixed Models Analysis|||Day 14: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.1913|-1.961|0.4994
82596922|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5616|STANDARD_ERROR_OF_MEAN|3.3113||0.2945|TWO_SIDED|80.0|-0.8226|7.9458|||Mixed Models Analysis|||Day 14: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.9458|-0.8226|0.2945
82596923|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7306|STANDARD_ERROR_OF_MEAN|2.9257||0.8056|TWO_SIDED|80.0|-4.622|3.1613|||Mixed Models Analysis|||Day 21: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.1613|-4.622|0.8056
82596924|NCT00531752|164908495|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3672|STANDARD_ERROR_OF_MEAN|3.8657||0.3922|TWO_SIDED|80.0|-1.725|8.4592|||Mixed Models Analysis|||Day 21: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.4592|-1.725|0.3922
82596925|NCT00531752|164908496|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5069|STANDARD_ERROR_OF_MEAN|0.8744||0.0913|TWO_SIDED|80.0|-2.643|-0.3705|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3705|-2.643|0.0913
82596926|NCT00531752|164908496|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2078|STANDARD_ERROR_OF_MEAN|0.9165||0.8216|TWO_SIDED|80.0|-1.399|0.98326|||Mixed Models Analysis|||Day 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.98326|-1.399|0.8216
82596927|NCT00531752|164908497|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4181|STANDARD_ERROR_OF_MEAN|0.6887||0.5466|TWO_SIDED|80.0|-1.313|0.47668|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.47668|-1.313|0.5466
82596928|NCT00531752|164908497|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.02518|STANDARD_ERROR_OF_MEAN|0.6772||0.9705|TWO_SIDED|80.0|-0.9035|0.85312|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.85312|-0.9035|0.9705
82596929|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09953|STANDARD_ERROR_OF_MEAN|0.3001||0.7415|TWO_SIDED|80.0|-0.4892|0.29012|||Mixed Models Analysis|||Week 3 (CQoL): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29012|-0.4892|0.7415
82596930|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.04804|STANDARD_ERROR_OF_MEAN|0.3227||0.8822|TWO_SIDED|80.0|-0.3703|0.4664|||Mixed Models Analysis|||Week 3 (CQoL): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46640|-0.3703|0.8822
82596931|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.125|STANDARD_ERROR_OF_MEAN|0.1302||0.3414|TWO_SIDED|80.0|-0.0439|0.29385|||Mixed Models Analysis|||Week 3 (GLI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29385|-0.0439|0.3414
82596932|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1044|STANDARD_ERROR_OF_MEAN|0.1418||0.4642|TWO_SIDED|80.0|-0.0793|0.28814|||Mixed Models Analysis|||Week 3 (GLI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.28814|-0.0793|0.4642
82596933|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.06109|STANDARD_ERROR_OF_MEAN|0.09093||0.5049|TWO_SIDED|80.0|-0.0571|0.17926|||Mixed Models Analysis|||Week 3 (RTI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.17926|-0.0571|0.5049
82596934|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07917|STANDARD_ERROR_OF_MEAN|0.1002||0.4332|TWO_SIDED|80.0|-0.051|0.2093|||Mixed Models Analysis|||Week 3 (RTI): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.20930|-0.0510|0.4332
82596935|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2453|STANDARD_ERROR_OF_MEAN|0.1753||0.1678|TWO_SIDED|80.0|-0.473|-0.0177|||Mixed Models Analysis|||Week 3 (More GD than BD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0177|-0.4730|0.1678
82596936|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.07717|STANDARD_ERROR_OF_MEAN|0.1925||0.6901|TWO_SIDED|80.0|-0.1726|0.32695|||Mixed Models Analysis|||Week 3 (More GD than BD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.32695|-0.1726|0.6901
82596937|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1702|STANDARD_ERROR_OF_MEAN|1.354||0.9005|TWO_SIDED|80.0|-1.587|1.9274|||Mixed Models Analysis|||Week 3 (Living with ADHD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.9274|-1.587|0.9005
82596938|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4317|STANDARD_ERROR_OF_MEAN|1.4667||0.333|TWO_SIDED|80.0|-3.333|0.46937|||Mixed Models Analysis|||Week 3 (Living with ADHD): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46937|-3.333|0.3330
82654661|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|11.0|||||TWO_SIDED|95.0|-0.5|22.4||||||Anxiety Associated with a Needle Stick Injury||22.4|-0.5|
82654662|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|20.2|||||TWO_SIDED|95.0|7.4|33.1||||||Injection Pain||33.1|7.4|
82654663|NCT03267264|165024209|NON_INFERIORITY|Two-sided 95% confidence intervals is calculated for the average relative rating. A linear model was used to evaluate the pen needle group effect on the response to test whether the groups can be combined (a p-value \< 0.05 for the pen needle group effect indicates non-poolability) and to adjust for the order effect. The order of the pen needles used and the group to which the subject belongs were used as covariates. If the lower bound of the CI is \> -10mm, we can conclude in non-inferiority.|Overall Mean|12.0|||||TWO_SIDED|95.0|0.5|23.5||||||Eae of Use||23.5|0.5|
82491914|NCT01663532|164677099|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|CMH raw mean scores differ test (Van Elteren test) controlling for pooled centers.||Statistical analysis for Week 10. LOCF method were used in imputation of missing data.||||<.0001
82596939|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6537|STANDARD_ERROR_OF_MEAN|2.0857||0.7551|TWO_SIDED|80.0|-2.051|3.3584|||Mixed Models Analysis|||Week 3 (General well-being): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.3584|-2.051|0.7551
82596940|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.8639|STANDARD_ERROR_OF_MEAN|2.2354||0.0334|TWO_SIDED|80.0|-7.759|-1.968|||Mixed Models Analysis|||Week 3 (General well-being): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.968|-7.759|0.0334
82596941|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6389|STANDARD_ERROR_OF_MEAN|3.6119||0.6519|TWO_SIDED|80.0|-3.05|6.3281|||Mixed Models Analysis|||Week 3 (PDF): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.3281|-3.050|0.6519
82596942|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2007|STANDARD_ERROR_OF_MEAN|3.9647||0.7631|TWO_SIDED|80.0|-3.941|6.3423|||Mixed Models Analysis|||Week 3 (PDF): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.3423|-3.941|0.7631
82596943|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9211|STANDARD_ERROR_OF_MEAN|2.8206||0.3034|TWO_SIDED|80.0|-0.7227|6.5648|||Mixed Models Analysis|||Week 3 (R/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.5648|-0.7227|0.3034
82491915|NCT01663532|164677100|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|||<|0.0001|TWO_SIDED|95.0|12.9|32.4|||Cochran-Mantel-Haenszel|CMH test controlling by region (pooled sites).||Statistical analysis for Week 10. LOCF method were used in imputation of missing data.||32.4|12.9|<.0001
82654664|NCT01047345|165024234|SUPERIORITY_OR_OTHER||Difference in Percentages|3.5||||0.026|TWO_SIDED|95.0|0.5|6.2|||Miettinen & Nurminen|||||6.2|0.5|0.026
82596944|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.0968|STANDARD_ERROR_OF_MEAN|3.0022||0.0933|TWO_SIDED|80.0|-8.975|-1.218|||Mixed Models Analysis|||Week 3 (R/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.218|-8.975|0.0933
82596945|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.0675|STANDARD_ERROR_OF_MEAN|2.9778||0.0949|TWO_SIDED|80.0|-8.934|-1.201|||Mixed Models Analysis|||Week 3 (IS-B/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.201|-8.934|0.0949
82596946|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.3274|STANDARD_ERROR_OF_MEAN|3.2552||0.0283|TWO_SIDED|80.0|-11.55|-3.106|||Mixed Models Analysis|||Week 3 (IS-B/C): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-3.106|-11.55|0.0283
82596947|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1505|STANDARD_ERROR_OF_MEAN|1.5974||0.1852|TWO_SIDED|80.0|-4.229|-0.0719|||Mixed Models Analysis|||Week 3 (IS-I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0719|-4.229|0.1852
82596948|NCT00531752|164908498|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5178|STANDARD_ERROR_OF_MEAN|1.7732||0.1623|TWO_SIDED|80.0|-4.823|-0.2127|||Mixed Models Analysis|||Week 3 (IS-I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.2127|-4.823|0.1623
82596949|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.5791|STANDARD_ERROR_OF_MEAN|18.0449||0.5241|TWO_SIDED|80.0|-35.02|11.86|||Mixed Models Analysis|||Week 3 (Life productivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||11.860|-35.02|0.5241
82596950|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|-20.3367|STANDARD_ERROR_OF_MEAN|19.6995||0.3065|TWO_SIDED|80.0|-45.89|5.2183|||Mixed Models Analysis|||Week 3 (Life productivity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.2183|-45.89|0.3065
82596951|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.7878|STANDARD_ERROR_OF_MEAN|13.4438||0.3831|TWO_SIDED|80.0|-29.15|5.5793|||Mixed Models Analysis|||Week 3 (Psychological health): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5793|-29.15|0.3831
82596952|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.1401|STANDARD_ERROR_OF_MEAN|14.4478||0.3657|TWO_SIDED|80.0|-31.8|5.5241|||Mixed Models Analysis|||Week 3 (Psychological health): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5241|-31.80|0.3657
82596953|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|2.666|STANDARD_ERROR_OF_MEAN|11.5818||0.8188|TWO_SIDED|80.0|-12.36|17.69|||Mixed Models Analysis|||Week 3 (Life outlook): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||17.690|-12.36|0.8188
82596954|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|24.1011|STANDARD_ERROR_OF_MEAN|12.405||0.0566|TWO_SIDED|80.0|8.0305|40.172|||Mixed Models Analysis|||Week 3 (Life outlook): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||40.172|8.0305|0.0566
82596955|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7559|STANDARD_ERROR_OF_MEAN|8.7164||0.9312|TWO_SIDED|80.0|-10.55|12.057|||Mixed Models Analysis|||Week 3 (Relationships): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.057|-10.55|0.9312
82596956|NCT00531752|164908499|SUPERIORITY_OR_OTHER||LS Mean Difference|6.1138|STANDARD_ERROR_OF_MEAN|9.4361||0.5194|TWO_SIDED|80.0|-6.108|18.336|||Mixed Models Analysis|||Week 3 (Relationships): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||18.336|-6.108|0.5194
82596957|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3255|STANDARD_ERROR_OF_MEAN|0.332||0.332|TWO_SIDED|80.0|-0.7573|0.10622|||Mixed Models Analysis|||Week 3 (Work/school): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.10622|-0.7573|0.3320
82654665|NCT01047345|165024235|SUPERIORITY_OR_OTHER||Difference in Percentages|4.0|||||TWO_SIDED|95.0|-2.8|10.8|||Miettinen & Nurminen|||||10.8|-2.8|
82596958|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4255|STANDARD_ERROR_OF_MEAN|0.3871||0.2767|TWO_SIDED|80.0|-0.0769|0.92804|||Mixed Models Analysis|||Week 3 (Work/school): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.92804|-0.0769|0.2767
82596959|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3661|STANDARD_ERROR_OF_MEAN|0.4028||0.3675|TWO_SIDED|80.0|-0.8887|0.1566|||Mixed Models Analysis|||Week 3 (Social life): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.15660|-0.8887|0.3675
82654666|NCT01047345|165024236|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||||TWO_SIDED|95.0|-1.5|0.9|||Miettinen & Nurminen|||||0.9|-1.5|
82654667|NCT01047345|165024237|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.2|||||TWO_SIDED|95.0|-1.7|0.6|||Miettinen & Nurminen|||||0.6|-1.7|
82491916|NCT00739674|164677113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118||95.0|||||Fisher Exact|||||||0.118
82654668|NCT01047345|165024238|SUPERIORITY_OR_OTHER||Difference in Percentages|10.2|||||TWO_SIDED|95.0|7.5|13.1|||Miettinen & Nurminen|||||13.1|7.5|
82654669|NCT01047345|165024239|SUPERIORITY_OR_OTHER||Seroconversion rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% confidence interval (CI) for the proportion of participants seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 31||100.0|98.9|<0.001
82654670|NCT01047345|165024239|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 33||100.0|98.9|<0.001
82654671|NCT01047345|165024239|SUPERIORITY_OR_OTHER||Seroconversion Rate|98.3|||<|0.001|TWO_SIDED|95.0|96.7|99.2||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 45||99.2|96.7|<0.001
82596960|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1033|STANDARD_ERROR_OF_MEAN|0.4372||0.8141|TWO_SIDED|80.0|-0.67|0.46345|||Mixed Models Analysis|||Week 3 (Social life): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.46345|-0.6700|0.8141
82596961|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1854|STANDARD_ERROR_OF_MEAN|0.3702||0.6186|TWO_SIDED|80.0|-0.6657|0.29495|||Mixed Models Analysis|||Week 3 (Family life/home): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.29495|-0.6657|0.6186
82596962|NCT00531752|164908500|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3623|STANDARD_ERROR_OF_MEAN|0.4028||0.372|TWO_SIDED|80.0|-0.1597|0.88432|||Mixed Models Analysis|||Week 3 (Family life/home): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.88432|-0.1597|0.3720
82596963|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0781|STANDARD_ERROR_OF_MEAN|5.0238|<|0.0001|TWO_SIDED|80.0|18.565|31.591|||Mixed Models Analysis|||Week 1 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||31.591|18.565|<0.0001
82596964|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|15.6481|STANDARD_ERROR_OF_MEAN|5.3551||0.0049|TWO_SIDED|80.0|8.711|22.585|||Mixed Models Analysis|||Week 1 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||22.585|8.7110|0.0049
82596965|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.627|STANDARD_ERROR_OF_MEAN|3.5248||0.3078|TWO_SIDED|80.0|-8.196|0.94237|||Mixed Models Analysis|||Week 1 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.94237|-8.196|0.3078
82596966|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1594|STANDARD_ERROR_OF_MEAN|3.8022||0.0644|TWO_SIDED|80.0|2.2344|12.084|||Mixed Models Analysis|||Week 1 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.084|2.2344|0.0644
82596967|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5601|STANDARD_ERROR_OF_MEAN|3.1318||0.1517|TWO_SIDED|80.0|0.49198|8.6281|||Mixed Models Analysis|||Week 1 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.6281|0.49198|0.1517
82654672|NCT01047345|165024239|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.6|||<|0.001|TWO_SIDED|95.0|98.6|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 52||100.0|98.6|<0.001
82596968|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7384|STANDARD_ERROR_OF_MEAN|3.3281||0.8252|TWO_SIDED|80.0|-5.056|3.5789|||Mixed Models Analysis|||Week 1 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.5789|-5.056|0.8252
82654673|NCT01047345|165024239|SUPERIORITY_OR_OTHER||Seroconversion Rate|99.8|||<|0.001|TWO_SIDED|95.0|98.9|100.0||statistical criterion of acceptability required that the lower bound of the 95% CI for the proportion of subjects seroconverting be greater than 90%|Clopper-Pearson|||Anti-HPV 58||100.0|98.9|<0.001
82491917|NCT00739674|164677114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092||95.0|||||Fisher Exact|||||||0.092
82491918|NCT00739674|164677115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.122||95.0|||||Fisher Exact|||||||0.122
82491919|NCT00739674|164677116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.434||95.0|||||Fisher Exact|||||||0.434
82596969|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6228|STANDARD_ERROR_OF_MEAN|0.2203||0.0063|TWO_SIDED|80.0|-0.9082|-0.3375|||Mixed Models Analysis|||Week 1 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3375|-0.9082|0.0063
82596970|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2301|STANDARD_ERROR_OF_MEAN|0.2303||0.3217|TWO_SIDED|80.0|-0.5283|0.06822|||Mixed Models Analysis|||Week 1 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.06822|-0.5283|0.3217
82596971|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1291|STANDARD_ERROR_OF_MEAN|0.1065||0.2307|TWO_SIDED|80.0|-0.0091|0.26716|||Mixed Models Analysis|||Week 1 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.26716|-0.0091|0.2307
82596972|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08114|STANDARD_ERROR_OF_MEAN|0.1087||0.4585|TWO_SIDED|80.0|-0.0598|0.22209|||Mixed Models Analysis|||Week 1 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.22209|-0.0598|0.4585
82596973|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.6629|STANDARD_ERROR_OF_MEAN|3.8642||0.3477|TWO_SIDED|80.0|-8.681|1.3549|||Mixed Models Analysis|||Week 1 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.3549|-8.681|0.3477
82596974|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.8688|STANDARD_ERROR_OF_MEAN|4.0842||0.1565|TWO_SIDED|80.0|-11.17|-0.5693|||Mixed Models Analysis|||Week 1 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.5693|-11.17|0.1565
82654674|NCT00282256|165024249|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for AUC0-24 was found to lie entirely within the 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|100.9|||||TWO_SIDED|90.0|90.8|112.1|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (defined as Day 7) and for tacrolimus MR (defined as Day 14). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||112.1|90.8|
82654675|NCT00282256|165024251|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for Cmin was found to lie entirely within the 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|91.8|||||TWO_SIDED|90.0|82.6|102.2|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (defined as Day 7) and for tacrolimus MR (defined as Day 14). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||102.2|82.6|
82654676|NCT01890915|165024271|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||ANOVA|||"Due to impaired thermoregulatory mechanisms secondary to spinal cord injury, subjects with tetraplegia were hypothesized to have a significant rise in core temperature after exposure to warm ambient temperatures, while control subjects were hypothesized to maintain constant core temperature.~Percent change in core temperature of subjects in each group were compared to determine if they were significantly different from baseline to warm exposure."||||0.0001
82596975|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.4319|STANDARD_ERROR_OF_MEAN|3.9541||0.1088|TWO_SIDED|80.0|-11.55|-1.311|||Mixed Models Analysis|||Week 1 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.311|-11.55|0.1088
82596976|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7208|STANDARD_ERROR_OF_MEAN|4.1517||0.8627|TWO_SIDED|80.0|-4.654|6.0952|||Mixed Models Analysis|||Week 1 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.0952|-4.654|0.8627
82596977|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|56.631|STANDARD_ERROR_OF_MEAN|17.8056||0.0024|TWO_SIDED|80.0|33.532|79.73|||Mixed Models Analysis|||Week 1 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||79.730|33.532|0.0024
82596978|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|49.1543|STANDARD_ERROR_OF_MEAN|18.7622||0.0112|TWO_SIDED|80.0|24.831|73.478|||Mixed Models Analysis|||Week 1 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||73.478|24.831|0.0112
82596979|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|10.9197|STANDARD_ERROR_OF_MEAN|3.0912||0.0008|TWO_SIDED|80.0|6.9105|14.929|||Mixed Models Analysis|||Week 1 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||14.929|6.9105|0.0008
82596980|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4691|STANDARD_ERROR_OF_MEAN|3.3037||0.0129|TWO_SIDED|80.0|4.1876|12.751|||Mixed Models Analysis|||Week 1 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.751|4.1876|0.0129
82596981|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|14.1078|STANDARD_ERROR_OF_MEAN|4.3667||0.002|TWO_SIDED|80.0|8.4492|19.766|||Mixed Models Analysis|||Week 2 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||19.766|8.4492|0.0020
82654677|NCT01890915|165024272|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANOVA|||We hypothesized that subjects with tetraplegia would demonstrate a change in cognitive performance after heat exposure if they had demonstrated a significant increase in core body temperature - as was hypothesized in our primary hypothesis. Cognitive performance was measured, in part, by Interference T-scores derived from the Stroop Color and Word Test.||||0.006
82654678|NCT01890915|165024273|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||ANOVA|||Due to impaired thermoregulatory mechanisms, subjects with tetraplegia were hypothesized to have diminished increases in sweat rate in comparison to controls after heat exposure.||||0.015
82596982|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|14.3485|STANDARD_ERROR_OF_MEAN|4.5692||0.0026|TWO_SIDED|80.0|8.4275|20.27|||Mixed Models Analysis|||Week 2 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||20.270|8.4275|0.0026
82596983|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2989|STANDARD_ERROR_OF_MEAN|3.4103||0.9305|TWO_SIDED|80.0|-4.729|4.1309|||Mixed Models Analysis|||Week 2 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.1309|-4.729|0.9305
82596984|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.7062|STANDARD_ERROR_OF_MEAN|3.5839||0.1178|TWO_SIDED|80.0|-10.36|-1.05|||Mixed Models Analysis|||Week 2 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.050|-10.36|0.1178
82596985|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4586|STANDARD_ERROR_OF_MEAN|2.5231||0.3339|TWO_SIDED|80.0|-0.8124|5.7295|||Mixed Models Analysis|||Week 2 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.7295|-0.8124|0.3339
82596986|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|4.859|STANDARD_ERROR_OF_MEAN|2.63||0.0698|TWO_SIDED|80.0|1.4493|8.2686|||Mixed Models Analysis|||Week 2 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||8.2686|1.4493|0.0698
82596987|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3364|STANDARD_ERROR_OF_MEAN|0.1859||0.0762|TWO_SIDED|80.0|-0.5777|-0.095|||Mixed Models Analysis|||Week 2 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0950|-0.5777|0.0762
82596988|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1591|STANDARD_ERROR_OF_MEAN|0.1913||0.4096|TWO_SIDED|80.0|-0.4075|0.08935|||Mixed Models Analysis|||Week 2 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.08935|-0.4075|0.4096
82596989|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2115|STANDARD_ERROR_OF_MEAN|0.1033||0.0455|TWO_SIDED|80.0|0.07751|0.3455|||Mixed Models Analysis|||Week 2 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.34550|0.07751|0.0455
82596990|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08114|STANDARD_ERROR_OF_MEAN|0.1087||0.4585|TWO_SIDED|80.0|-0.0598|0.22209|||Mixed Models Analysis|||Week 2 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.22209|-0.0598|0.4585
82596991|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5433|STANDARD_ERROR_OF_MEAN|4.6662||0.9078|TWO_SIDED|80.0|-5.513|6.5995|||Mixed Models Analysis|||Week 2 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.5995|-5.513|0.9078
82596992|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1848|STANDARD_ERROR_OF_MEAN|4.7892||0.6502|TWO_SIDED|80.0|-8.403|4.0338|||Mixed Models Analysis|||Week 2 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.0338|-8.403|0.6502
82596993|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9029|STANDARD_ERROR_OF_MEAN|3.7234||0.809|TWO_SIDED|80.0|-5.716|3.9101|||Mixed Models Analysis|||Week 2 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.9101|-5.716|0.8090
82654679|NCT01984242|165024276|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.9819|TWO_SIDED|95.0|0.69|1.45|||Log Rank|||||1.45|0.69|0.9819
82654680|NCT01984242|165024276|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.358|TWO_SIDED|95.0|0.82|1.71|||Log Rank|||||1.71|0.82|0.3580
82654681|NCT01984242|165024278|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0952||95.0|0.38|1.08|||Log Rank|||||1.08|0.38|0.0952
82654682|NCT01984242|165024278|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.9172|TWO_SIDED|95.0|0.63|1.67|||Log Rank|||||1.67|0.63|0.9172
82654683|NCT01984242|165024280|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0153|TWO_SIDED|95.0|0.26|0.87|||Log Rank|||||0.87|0.26|0.0153
82596994|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4351|STANDARD_ERROR_OF_MEAN|3.8429||0.5282|TWO_SIDED|80.0|-2.532|7.4025|||Mixed Models Analysis|||Week 2 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.4025|-2.532|0.5282
82596995|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|25.3231|STANDARD_ERROR_OF_MEAN|18.8604||0.1848|TWO_SIDED|80.0|0.86393|49.782|||Mixed Models Analysis|||Week 2 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||49.782|0.86393|0.1848
82654684|NCT01984242|165024280|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.5545|TWO_SIDED|95.0|0.48|1.46|||Log Rank|||||1.46|0.48|0.5545
82654685|NCT01984242|165024282|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0086|TWO_SIDED|95.0|0.28|0.84|||Log Rank|||||0.84|0.28|0.0086
82596996|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|50.4054|STANDARD_ERROR_OF_MEAN|19.481||0.0124|TWO_SIDED|80.0|25.134|75.677|||Mixed Models Analysis|||Week 2 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||75.677|25.134|0.0124
82596997|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|6.8658|STANDARD_ERROR_OF_MEAN|3.0205||0.0267|TWO_SIDED|80.0|2.9504|10.781|||Mixed Models Analysis|||Week 2 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||10.781|2.9504|0.0267
82596998|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|8.0855|STANDARD_ERROR_OF_MEAN|3.1677||0.0134|TWO_SIDED|80.0|3.9787|12.192|||Mixed Models Analysis|||Week 2 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||12.192|3.9787|0.0134
82596999|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|9.5242|STANDARD_ERROR_OF_MEAN|3.7993||0.0152|TWO_SIDED|80.0|4.5949|14.453|||Mixed Models Analysis|||Week 3 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||14.453|4.5949|0.0152
82654686|NCT01984242|165024282|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.7675||95.0|0.56|1.53|||Log Rank|||||1.53|0.56|0.7675
82654687|NCT01984242|165024284|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.1973||95.0|0.44|1.18|||Log Rank|||||1.18|0.44|0.1973
82654688|NCT01984242|165024284|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.7738|TWO_SIDED|95.0|0.65|1.76|||Log Rank|||||1.76|0.65|0.7738
82654689|NCT01984242|165024286|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.083||95.0|0.43|1.06|||Log Rank|||||1.06|0.43|0.0830
82654690|NCT01984242|165024286|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7141|TWO_SIDED|95.0|0.7|1.69|||Log Rank|||||1.69|0.70|0.7141
82654691|NCT01984242|165024288|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2541||95.0|0.59|1.15|||Log Rank|||||1.15|0.59|0.2541
82654692|NCT01984242|165024288|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.3103|TWO_SIDED|95.0|0.86|1.63|||Log Rank|||||1.63|0.86|0.3103
82654693|NCT01984242|165024290|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0351|TWO_SIDED|95.0|0.37|0.97|||Log Rank|||||0.97|0.37|0.0351
82654694|NCT01984242|165024290|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9769||95.0|0.64|1.54|||Log Rank|||||1.54|0.64|0.9769
82654695|NCT01984242|165024291|SUPERIORITY||Difference in response rates|2.97||||0.6492|TWO_SIDED|95.0|-10.68|16.62|||Cochran-Mantel-Haenszel|||||16.62|-10.68|0.6492
82654696|NCT01984242|165024291|SUPERIORITY||Difference in response rates|-3.47||||0.5433||95.0|-16.63|9.69|||Cochran-Mantel-Haenszel|||||9.69|-16.63|0.5433
82654697|NCT01984242|165024292|SUPERIORITY||Difference in response rates|19.33||||0.0141|TWO_SIDED|95.0|-0.28|38.94|||Cochran-Mantel-Haenszel|||||38.94|-0.28|0.0141
82654698|NCT01984242|165024292|SUPERIORITY||Difference in response rates|1.11||||0.8719|TWO_SIDED|95.0|-17.02|19.24|||Cochran-Mantel-Haenszel|||||19.24|-17.02|0.8719
82654699|NCT01984242|165024293|SUPERIORITY||Difference in response rates|1.98||||0.8068|TWO_SIDED|95.0|-12.04|16.0|||Cochran-Mantel-Haenszel|||||16.00|-12.04|0.8068
82654700|NCT01984242|165024293|SUPERIORITY||Difference in response rates|-9.37||||0.1321||95.0|-22.61|3.87|||Cochran-Mantel-Haenszel|||||3.87|-22.61|0.1321
82654701|NCT01984242|165024294|SUPERIORITY||Difference in response rates|19.67||||0.0199|TWO_SIDED|95.0|-0.1|39.44|||Cochran-Mantel-Haenszel|||||39.44|-0.10|0.0199
82654702|NCT01984242|165024294|SUPERIORITY||Difference in response rates|-2.41||||0.7836|TWO_SIDED|95.0|-20.5|15.68|||Cochran-Mantel-Haenszel|||||15.68|-20.50|0.7836
82654703|NCT01984242|165024295|SUPERIORITY||Difference in response rates|3.96||||0.6231|TWO_SIDED|95.0|-10.23|18.15|||Cochran-Mantel-Haenszel|||||18.15|-10.23|0.6231
82597000|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|19.9806|STANDARD_ERROR_OF_MEAN|4.1501|<|0.0001|TWO_SIDED|80.0|14.602|25.359|||Mixed Models Analysis|||Week 3 (Sleep disturbance): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||25.359|14.602|<.0001
82597001|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7667|STANDARD_ERROR_OF_MEAN|2.9402||0.3516|TWO_SIDED|80.0|-6.59|1.0562|||Mixed Models Analysis|||Week 3 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||1.0562|-6.590|0.3516
82597002|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0838|STANDARD_ERROR_OF_MEAN|3.2323||0.3448|TWO_SIDED|80.0|-1.116|7.2838|||Mixed Models Analysis|||Week 3 (Snoring): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.2838|-1.116|0.3448
82597003|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5882|STANDARD_ERROR_OF_MEAN|4.3902||0.5583|TWO_SIDED|80.0|-8.294|3.1175|||Mixed Models Analysis|||Week 3 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||3.1175|-8.294|0.5583
82597004|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6547|STANDARD_ERROR_OF_MEAN|4.7652||0.1141|TWO_SIDED|80.0|1.4717|13.838|||Mixed Models Analysis|||Week 3 (ASoB): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||13.838|1.4717|0.1141
82597005|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5882|STANDARD_ERROR_OF_MEAN|0.1903||0.0034|TWO_SIDED|80.0|-0.8356|-0.3408|||Mixed Models Analysis|||Week 3 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.3408|-0.8356|0.0034
82597006|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1722|STANDARD_ERROR_OF_MEAN|0.2064||0.4083|TWO_SIDED|80.0|-0.4403|0.09599|||Mixed Models Analysis|||Week 3 (Sleep quantity): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.09599|-0.4403|0.4083
82597007|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2744|STANDARD_ERROR_OF_MEAN|0.1055||0.012|TWO_SIDED|80.0|0.13746|0.41127|||Mixed Models Analysis|||Week 3 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.41127|0.13746|0.0120
82597008|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1016|STANDARD_ERROR_OF_MEAN|0.1136||0.375|TWO_SIDED|80.0|-0.0457|0.24881|||Mixed Models Analysis|||Week 3 (Optimal sleep): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.24881|-0.0457|0.3750
82597009|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4367|STANDARD_ERROR_OF_MEAN|3.9301||0.9119|TWO_SIDED|80.0|-4.665|5.5387|||Mixed Models Analysis|||Week 3 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||5.5387|-4.665|0.9119
82597010|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.3429|STANDARD_ERROR_OF_MEAN|4.1977||0.1367|TWO_SIDED|80.0|-11.79|-0.896|||Mixed Models Analysis|||Week 3 (Sleep adequacy): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.8960|-11.79|0.1367
82597011|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.0062|STANDARD_ERROR_OF_MEAN|3.1094||0.0595|TWO_SIDED|80.0|-10.05|-1.964|||Mixed Models Analysis|||Week 3 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.964|-10.05|0.0595
82654704|NCT01984242|165024295|SUPERIORITY||Difference in response rates|-8.42||||0.1816|TWO_SIDED|95.0|-21.86|5.02|||Cochran-Mantel-Haenszel|||||5.02|-21.86|0.1816
82597012|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0362|STANDARD_ERROR_OF_MEAN|3.3182||0.1356|TWO_SIDED|80.0|0.72505|9.3473|||Mixed Models Analysis|||Week 3 (Somnolence): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.3473|0.72505|0.1356
82654705|NCT01984242|165024296|SUPERIORITY||Difference in response rates|22.0||||0.0111|TWO_SIDED|95.0|2.11|41.89|||Cochran-Mantel-Haenszel|||||41.89|2.11|0.0111
82654706|NCT01984242|165024296|SUPERIORITY||Difference in response rates|-2.22||||0.8209|TWO_SIDED|95.0|-20.63|16.19|||Cochran-Mantel-Haenszel|||||16.19|-20.63|0.8209
82491920|NCT00739674|164677117|SUPERIORITY_OR_OTHER_LEGACY|||||||0.507||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.507
82597013|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1569|STANDARD_ERROR_OF_MEAN|16.2884||0.7528|TWO_SIDED|80.0|-15.99|26.303|||Mixed Models Analysis|||Week 3 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||26.303|-15.99|0.7528
82597014|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|67.7022|STANDARD_ERROR_OF_MEAN|17.4066||0.0003|TWO_SIDED|80.0|45.114|90.29|||Mixed Models Analysis|||Week 3 (SPI I): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||90.290|45.114|0.0003
82597015|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8582|STANDARD_ERROR_OF_MEAN|2.6389||0.2837|TWO_SIDED|80.0|-0.567|6.2835|||Mixed Models Analysis|||Week 3 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||6.2835|-0.5670|0.2837
82654707|NCT01984242|165024298|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0863||95.0|0.5|1.05|||Log Rank|||||1.05|0.50|0.0863
82654708|NCT01984242|165024298|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.5922|TWO_SIDED|95.0|0.77|1.57|||Log Rank|||||1.57|0.77|0.5922
82654709|NCT01984242|165024300|SUPERIORITY||Hazard Ratio (HR)|0.43||||0.0021||95.0|0.25|0.75|||Log Rank|||||0.75|0.25|0.0021
82654710|NCT01984242|165024300|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.6566|TWO_SIDED|95.0|0.56|1.44|||Log Rank|||||1.44|0.56|0.6566
82654711|NCT01984242|165024308|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.2867|TWO_SIDED|95.0|0.8|2.13|||Log Rank|||||2.13|0.80|0.2867
82654712|NCT01984242|165024308|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.8039||95.0|0.65|1.73|||Log Rank|||||1.73|0.65|0.8039
82597016|NCT00531752|164908501|SUPERIORITY_OR_OTHER||LS Mean Difference|12.9251|STANDARD_ERROR_OF_MEAN|2.8913|<|0.0001|TWO_SIDED|80.0|9.1761|16.674|||Mixed Models Analysis|||Week 3 (SPI II): Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||16.674|9.1761|<0.0001
82597017|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|26.8615|STANDARD_ERROR_OF_MEAN|3.9167|<|0.0001|TWO_SIDED|80.0|21.777|31.946|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||31.946|21.777|<0.0001
82597018|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3455|STANDARD_ERROR_OF_MEAN|4.1817||0.3034|TWO_SIDED|80.0|-1.08|9.7713|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.7713|-1.080|0.3034
82597019|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9558|STANDARD_ERROR_OF_MEAN|2.9408||0.0223|TWO_SIDED|80.0|3.132|10.78|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||10.780|3.1320|0.0223
82597020|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|3.7518|STANDARD_ERROR_OF_MEAN|3.0743||0.2284|TWO_SIDED|80.0|-0.2442|7.7479|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||7.7479|-0.2442|0.2284
82597021|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|8.5752|STANDARD_ERROR_OF_MEAN|3.5848||0.0201|TWO_SIDED|80.0|3.9265|13.224|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||13.224|3.9265|0.0201
82597022|NCT00531752|164908502|SUPERIORITY_OR_OTHER||LS Mean Difference|5.0229|STANDARD_ERROR_OF_MEAN|3.8154||0.1931|TWO_SIDED|80.0|0.07753|9.9683|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||9.9683|0.07753|0.1931
82597023|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6766|STANDARD_ERROR_OF_MEAN|0.1759||0.0003|TWO_SIDED|80.0|-0.9046|-0.4487|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.4487|-0.9046|0.0003
82597024|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3075|STANDARD_ERROR_OF_MEAN|0.1871||0.1055|TWO_SIDED|80.0|-0.5499|-0.065|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.0650|-0.5499|0.1055
82597025|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4684|STANDARD_ERROR_OF_MEAN|0.1791||0.0119|TWO_SIDED|80.0|-0.7012|-0.2356|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.2356|-0.7012|0.0119
82654713|NCT01984242|165024310|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.7879|TWO_SIDED|95.0|0.47|1.78|||Log Rank|||||1.78|0.47|0.7879
82597026|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1263|STANDARD_ERROR_OF_MEAN|0.1866||0.5016|TWO_SIDED|80.0|-0.3687|0.11608|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.11608|-0.3687|0.5016
82597027|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3451|STANDARD_ERROR_OF_MEAN|0.1738||0.0531|TWO_SIDED|80.0|-0.5711|-0.1191|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.1191|-0.5711|0.0531
82597028|NCT00531752|164908503|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4137|STANDARD_ERROR_OF_MEAN|0.1856||0.0306|TWO_SIDED|80.0|-0.6549|-0.1725|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.1725|-0.6549|0.0306
82597029|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7671|STANDARD_ERROR_OF_MEAN|0.1731|<|0.0001|TWO_SIDED|80.0|0.5426|0.99157|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.99157|0.54260|<0.0001
82597030|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5285|STANDARD_ERROR_OF_MEAN|0.1847||0.0059|TWO_SIDED|80.0|0.28911|0.76798|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.76798|0.28911|0.0059
82597031|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1526|STANDARD_ERROR_OF_MEAN|0.1431||0.2921|TWO_SIDED|80.0|-0.0336|0.33878|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.33878|-0.0336|0.2921
82597032|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.198|STANDARD_ERROR_OF_MEAN|0.1498||0.1929|TWO_SIDED|80.0|0.00319|0.39272|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.39272|0.00319|0.1929
82597033|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3433|STANDARD_ERROR_OF_MEAN|0.1565||0.0332|TWO_SIDED|80.0|0.13988|0.54663|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.54663|0.13988|0.0332
82597034|NCT00531752|164908504|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4184|STANDARD_ERROR_OF_MEAN|0.1681||0.0162|TWO_SIDED|80.0|0.20006|0.63674|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.63674|0.20006|0.0162
82654714|NCT01984242|165024310|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.9065|TWO_SIDED|95.0|0.52|1.8|||Log Rank|||||1.80|0.52|0.9065
82654715|NCT00571428|165024329|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies had to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.011||||||90.0|-0.015|0.037|||Mixed Models Analysis|Treatment group, treatment sequence, predose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect.||||0.037|-0.015|
82597035|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5103|STANDARD_ERROR_OF_MEAN|0.1103|<|0.0001|TWO_SIDED|80.0|0.36707|0.65345|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.65345|0.36707|<0.0001
82597036|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3643|STANDARD_ERROR_OF_MEAN|0.1174||0.0031|TWO_SIDED|80.0|0.21189|0.51664|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.51664|0.21189|0.0031
82597037|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1362|STANDARD_ERROR_OF_MEAN|0.09408||0.1553|TWO_SIDED|80.0|0.01366|0.25882|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.25882|0.01366|0.1553
82597038|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.107|STANDARD_ERROR_OF_MEAN|0.09797||0.2809|TWO_SIDED|80.0|-0.0205|0.23458|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.23458|-0.0205|0.2809
82597039|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2195|STANDARD_ERROR_OF_MEAN|0.1146||0.0603|TWO_SIDED|80.0|0.07101|0.36803|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.36803|0.07101|0.0603
82597040|NCT00531752|164908505|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4278|STANDARD_ERROR_OF_MEAN|0.1212||0.0008|TWO_SIDED|80.0|0.27079|0.58479|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||0.58479|0.27079|0.0008
82597041|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.3264|STANDARD_ERROR_OF_MEAN|2.6944|<|0.0001|TWO_SIDED|80.0|-16.83|-9.828|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-9.828|-16.83|<0.0001
82597042|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.126|STANDARD_ERROR_OF_MEAN|2.8841||0.0068|TWO_SIDED|80.0|-11.87|-4.382|||Mixed Models Analysis|||Week 1: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-4.382|-11.87|0.0068
82597043|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5341|STANDARD_ERROR_OF_MEAN|2.3172||0.1346|TWO_SIDED|80.0|-6.551|-0.5175|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.5175|-6.551|0.1346
82597044|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0911|STANDARD_ERROR_OF_MEAN|2.4268||0.6552|TWO_SIDED|80.0|-2.067|4.2494|||Mixed Models Analysis|||Week 2: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||4.2494|-2.067|0.6552
82597045|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.2001|STANDARD_ERROR_OF_MEAN|1.7614||0.0765|TWO_SIDED|80.0|-5.494|-0.9063|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-0.9063|-5.494|0.0765
82597046|NCT00531752|164908506|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.8781|STANDARD_ERROR_OF_MEAN|1.8976||0.0473|TWO_SIDED|80.0|-6.349|-1.407|||Mixed Models Analysis|||Week 3: Mixed effects linear model was used with treatment, period and investigator as fixed effects; baseline as covariate and participants as random effect.||-1.407|-6.349|0.0473
82597047|NCT01181011|164908520|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.22|STANDARD_ERROR_OF_MEAN|1.06||0.0107||90.0|99.45|119.95||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||119.95|99.45|0.0107
82597048|NCT01181011|164908521|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.84|STANDARD_ERROR_OF_MEAN|1.06||0.0139|TWO_SIDED|90.0|99.96|120.71||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||120.71|99.96|0.0139
82597049|NCT01181011|164908522|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|97.57|STANDARD_ERROR_OF_MEAN|1.09||0.0126|TWO_SIDED|90.0|84.643|112.472||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||112.472|84.643|0.0126
82597050|NCT01181011|164908523|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|109.7|STANDARD_ERROR_OF_MEAN|1.04||0.0011|TWO_SIDED|90.0|102.87|117.07||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||117.07|102.87|0.0011
82597051|NCT01181011|164908524|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|108.8|STANDARD_ERROR_OF_MEAN|1.04||0.0006|TWO_SIDED|95.0|102.1|116.0||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||116.0|102.1|0.0006
82597052|NCT01181011|164908525|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence|gMean Ratio|106.7|STANDARD_ERROR_OF_MEAN|1.03||0|TWO_SIDED|90.0|100.9|112.9||The p-value is for the ratio being outside the interval 0.8 to 1.25.|ANCOVA|||||112.9|100.9|0.000
82597053|NCT04703075|164908540|SUPERIORITY||Risk Difference (RD)|5.5||||0.07|TWO_SIDED||||||Chi-squared, Corrected|||||||0.07
82597054|NCT00610987|164908542|SUPERIORITY_OR_OTHER||||||=|0.12|TWO_SIDED||||||t-test, 1 sided|||||||=0.12
82597055|NCT00254501|164908543|SUPERIORITY_OR_OTHER|||||||0.0757||||||Adjusted for baseline Hemoglobin A-1C.|ANCOVA|||"Null hypothesis is mean change in usual care group equals mean change in Empower group.~Power calculation required 150 per group assuming 25% would withdraw prior to 12 months."||||0.0757
82597056|NCT00254501|164908544|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANCOVA|||Comparison of change in LDL from baseline to 12 months between groups.||||0.44
82597057|NCT00254501|164908544|SUPERIORITY_OR_OTHER|||||||0.16|||||||ANCOVA|||Comparison of change in HDL from baseline to 12 months between groups.||||0.16
82597058|NCT00254501|164908544|SUPERIORITY_OR_OTHER|||||||0.14|||||||ANCOVA|||Comparison of change in total cholesterol from baseline to 12 months between groups.||||0.14
82597059|NCT00254501|164908544|SUPERIORITY_OR_OTHER|||||||0.92|||||||ANCOVA|||Comparison of change in triglycerides from baseline to 12 months between groups.||||0.92
82597060|NCT00254501|164908545|SUPERIORITY_OR_OTHER|||||||0.3856|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in cost of total health care from baseline to 12 months between groups. Analyses not adjusted for other variables.||||.3856
82597061|NCT00254501|164908545|SUPERIORITY_OR_OTHER|||||||0.6413|||||||Wilcoxon (Mann-Whitney)|||Comparison of change in cost of diabetes medications from baseline to 12 months between groups. Analyses not adjusted for other variables.||||.6413
82597062|NCT00254501|164908545|SUPERIORITY_OR_OTHER|||||||0.4303|||||||Wilcoxon (Mann-Whitney)|||Analyses not adjusted for other variables.||||.4303
82597063|NCT00254501|164908546|SUPERIORITY_OR_OTHER|||||||0.785|||||||ANCOVA|||Comparison of change in Diabetes Empowerment Scale from baseline to 12 months between groups.||||0.785
82597064|NCT00254501|164908546|SUPERIORITY_OR_OTHER|||||||0.302|||||||ANCOVA|||Comparison of change in Adherence Starts with Knowledge (ASK-20) from baseline to 12 months between groups.||||0.302
82597065|NCT00254501|164908546|SUPERIORITY_OR_OTHER|||||||0.0024|||||||ANCOVA|||Comparison of change in Understanding of Diabetes from baseline to 12 months between groups.||||0.0024
82597066|NCT01223703|164908547|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|The analysis was done following an intention-to-treat approach by means of the unpaired student t test or Wilcoxon rank sum test as appropriated.||"null hypothesis is no difference n3 PUFA administration and placebo. To demonstrate an effect size of 0.5 in LVEF, a sample of 65 patients in each group was calculated to have 80% power to detect such 0.5 effect size with alpha=0.05 (2-tailed) at the Student t test.~for unpaired data."||||< 0.05
82597067|NCT01223703|164908548|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|The analysis was done following an intention-to-treat approach by means of the unpaired student t test or Wilcoxon rank sum test as appropriated.||||||< 0.05
82597068|NCT04249687|164908551|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
82597069|NCT04249687|164908552|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
82597070|NCT04099251|164908569|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.59|||Regression, Cox|||||0.59|0.30|< 0.0001
82597071|NCT02404103|164908584|EQUIVALENCE|The primary goal of the current study is to determine the effects of Aerospan on lung function in children with small airway obstruction with two doses.||||||0.148|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.148
82597072|NCT02404103|164908584|EQUIVALENCE|A goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.74|||||||Mixed Models Analysis|||||||.740
82597073|NCT02404103|164908584|EQUIVALENCE|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||0.921|||||||Mixed Models Analysis|||||||.921
82597074|NCT02404103|164908585|EQUIVALENCE|The primary goal of the current study is to determine the effects of Aerospan on lung function in children with small airway obstruction.||||||0.872|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.872
82597075|NCT02404103|164908585|EQUIVALENCE|secondary goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.82|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||0.820
82654716|NCT00571428|165024330|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.062||||||90.0|0.035|0.09|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.090|0.035|
82597076|NCT02404103|164908585|EQUIVALENCE|A goal was to evaluate whether flunisolide HFA 320 mcg when compared to flunisolide 160 mcg lead to significantly better improvement in the same outcome measures over time.||||||0.582|||||||Mixed Models Analysis|||||||0.582
82597077|NCT02404103|164908586|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.782|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.782
82597078|NCT02404103|164908586|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.906|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.906
82597079|NCT02404103|164908586|EQUIVALENCE|The primary aim is to compare the average change in spirometric values (FEV1 and FEF25-75%) and AX from baseline to Week 6 from participants randomized flunisolide HFA 1 inhalation BID and to flunisolide HFA 2 inhalations BID.||||||0.102|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.102
82597080|NCT02404103|164908587|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.62|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used.||||||.620
82597081|NCT02404103|164908587|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.543|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.543
82597082|NCT02404103|164908587|EQUIVALENCE|To assess the impact of flunisolide on small airway parameters using spirometry and impulse oscillometry and determine whether there is a dose-related difference (320 mcg vs 160 mcg) with flunisolide HFA in pediatric patients who have evidence of small airway obstruction.||||||0.6|||||||Mixed Models Analysis|generalized linear mixed-effects models (GLMM) using the identity link function and normal distribution were used||||||.6
82597083|NCT02229552|164908624|OTHER|Repeated measures analysis of variance with zbmi for each year as the repeated dependent measure.|Mean Difference (Final Values)|3.0||||0.051|TWO_SIDED||||||ANOVA|||||||0.051
82654717|NCT00571428|165024331|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Median Difference (Final Values)|-0.035||||||90.0|-0.079|0.008|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.008|-0.079|
82597084|NCT01289015|164908657|SUPERIORITY_OR_OTHER||p-value|0.001|||<|0.025||95.0|||||Cochran-Mantel-Haenszel|The CMH test statistic after stratification was used to compare subjects with complete cure between NAFT-600 and placebo.||"In order to compare complete cure rate in the NAFT-600 group with that of the placebo group, the following one-sided hypothesis test was carried out:~H0 (null): p1\<=p0 versus Ha (alternate): p1\>p0, where p0 and p1 are the proportions of subjects with complete cure in the proportions of subjects with complete cure in the placebo and NAFT-600 treatment groups respectively."||||<0.025
82597085|NCT01485627|164908661|SUPERIORITY||Adjusted mean difference in difference|0.34||||0.05|TWO_SIDED|95.0|0.06|0.62|||Mixed Models Analysis||Models included fixed-effects terms for phase (pre- vs postrandomization), study arm, and the Phase\*Arm interaction. Estimated effect is the between-arm difference in adjusted mean difference from prerandomization to postrandomization samples.|The primary outcome was a composite of 4 prespecified communication measures matched to the goals of communication training, as follows: Active Patient Participation Coding \[APPC\], Verona VR-CoDES, Prognostic and Treatment Choices \[PTCC\] Informing subscale, and PTCC Balanced Framing subscale. The 4 measures were z-score transformed and averaged to produce the composite measure.||0.62|0.06|0.05
82597086|NCT01485627|164908662|SUPERIORITY|||||||0.214|||||||Mixed Models Analysis|||||||0.214
82597087|NCT01485627|164908663|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.05|TWO_SIDED|95.0|-0.56|0.37|||Mixed Models Analysis|||||0.37|-0.56|0.05
82597088|NCT01485627|164908665|SUPERIORITY|||||||0.677|||||||Mixed Models Analysis|||||||0.677
82597089|NCT01485627|164908666|SUPERIORITY|||||||0.19|||||||Mixed Models Analysis|||||||0.19
82597090|NCT01709149|164908668|SUPERIORITY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.366||0.114|TWO_SIDED|95.0|-1.3|0.14|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||0.14|-1.30|0.1140
82597091|NCT01709149|164908669|SUPERIORITY||Least squares mean difference|0.48|STANDARD_ERROR_OF_MEAN|1.963||0.8083|TWO_SIDED|95.0|-3.38|4.34|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||4.34|-3.38|0.8083
82597092|NCT01709149|164908670|SUPERIORITY||Least squares mean difference|-3.4|STANDARD_ERROR_OF_MEAN|1.627||0.0372|TWO_SIDED|95.0|-6.6|-0.2|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||-0.20|-6.60|0.0372
82597093|NCT01709149|164908671|SUPERIORITY||Least squares mean difference|4.25|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|2.23|6.28|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||6.28|2.23|<0.0001
82597094|NCT01709149|164908672|SUPERIORITY||Least squares mean difference|0.75|STANDARD_ERROR_OF_MEAN|0.956||0.4328|TWO_SIDED|95.0|-1.13|2.63|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||2.63|-1.13|0.4328
82597095|NCT01709149|164908673|SUPERIORITY||Least squares mean difference|0.25|STANDARD_ERROR_OF_MEAN|4.399||0.9546|TWO_SIDED|95.0|-8.4|8.9|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||8.90|-8.40|0.9546
82597096|NCT01709149|164908674|SUPERIORITY||Least squares mean difference|1.61|STANDARD_ERROR_OF_MEAN|3.207||0.6166|TWO_SIDED|95.0|-4.7|7.91|||Repeated-measures mixed model||Least squares mean difference: tirasemtiv minus placebo|||7.91|-4.70|0.6166
82597097|NCT01425203|164908694|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|29.2|||<|0.0001|TWO_SIDED|95.0|16.4|41.5||Multiplicity adjustment for controlling type 1 error for the primary comparison was based on the step-down approach.|Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The primary statistical comparison was conducted on the FAS using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors, including IL28B genotype and previous treatment as specified at the time of randomization.||41.5|16.4|<0.0001
82597098|NCT01425203|164908695|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|30.2|||<|0.0001|TWO_SIDED|95.0|17.3|42.5||Multiplicity adjustment for controlling type 1 error for key secondary comparison based on a step-down approach. Key-secondary comparison was tested only if statistical significance of primary comparison was met at alpha level of 0.050.|Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The key secondary statistical comparison was conducted on the mITT using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors.||42.5|17.3|<0.0001
82597099|NCT01425203|164908696|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Difference in Percentages|45.6|||<|0.0001|TWO_SIDED|95.0|33.2|57.0|||Miettinen and Nurminen Method||The difference, 95% CI and p-value are adjusted by stratification factors of IL-28B genotype and previous treatment, based on the Miettinen \& Nurminen method.|The percentage of participants achieving EVR at TW8 was compared using the stratified Miettinen and Nurminen method at alpha level of 0.050 adjusted for stratification factors in the FAS population.||57.0|33.2|<0.0001
82597100|NCT02429414|164908710|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82597101|NCT02429414|164908711|SUPERIORITY|||||||0.0209|||||||t-test, 2 sided|||||||0.0209
82597102|NCT02429414|164908712|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|||||||0.078
82597103|NCT00983983|164908714|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|||Change over time in the ALSFRS-R was analyzed using random-slopes models||||0.07
82597104|NCT00983983|164908716|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Fisher Exact|||||||0.06
82597105|NCT00983983|164908717|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED||||||Fisher Exact|||||||0.0005
82597106|NCT00983983|164908718|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Fisher Exact|||||||0.03
82597107|NCT01604265|164908719|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.25||||0.005|TWO_SIDED|95.0|-2.11|-0.39|||ANCOVA|||The change was compared between treatment groups using a one way analysis of covariance (ANCOVA). The significance of the treatment effect, after adjusting for baseline pain score, was assessed using the F-test from the ANCOVA. The model was as follows: Change in 0-10 Numerical Rating Scale Pain Score = Baseline Pain Score + Treatment||-0.39|-2.11|0.005
82654718|NCT00571428|165024332|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies has to fall entirely within +/- 0.07L.|Median Difference (Final Values)|-0.03||||||90.0|-0.086|0.026|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit Number are fixed effects; subjects within treatment sequence is a random effect.||||0.026|-0.086|
82597108|NCT01604265|164908720|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.39||||0.003|TWO_SIDED|95.0|-2.27|-0.5|||ANCOVA|||"The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline sleep score, was assessed using the F-test from the ANCOVA. The model was as follows:~Change in 0-10 Numerical Rating Scale sleep Score = Baseline Sleep Score + Treatment"||-0.50|-2.27|0.003
82654719|NCT00571428|165024337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.694||||||90.0|0.525|2.862|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect.||||2.862|0.525|
82597109|NCT01604265|164908721|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.896||||0.005|TWO_SIDED|95.0|1.51|10.055|||Regression, Logistic|||"The proportion of patients who considered their condition Very Much Improved or Much Improved was compared between treatment groups using a Fisher's Exact Test. Results were presented in terms of difference in percentages, and 95% CI based on the normal approximation to the binomial, and p-value."||10.055|1.510|0.005
82597110|NCT01604265|164908722|SUPERIORITY_OR_OTHER_LEGACY||estimated mean treatment difference|-6.82||||0.039|TWO_SIDED|95.0|-13.28|-0.37|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||-0.37|-13.28|0.039
82597111|NCT01604265|164908723|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-6.95||||0.009|TWO_SIDED|95.0|-12.12|-1.77|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||-1.77|-12.12|0.009
82597112|NCT01604265|164908724|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|2.54||||0.23|TWO_SIDED|95.0|-1.64|6.71|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||6.71|-1.64|0.230
82597113|NCT01604265|164908725|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-2.53||||0.064|TWO_SIDED|95.0|-5.22|0.15|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.15|-5.22|0.064
82597114|NCT01604265|164908726|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|2.44||0.905|TWO_SIDED|95.0|-4.6|5.18|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||5.18|-4.60|0.905
82654720|NCT00571428|165024338|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence was defined a priori such that 90%CI for the difference between therapies had to fall entirely within +/- 0.07L.|Mean Difference (Final Values)|0.052||||||90.0|0.015|0.09|||Mixed Models Analysis|Treatment group, treatment sequence, pre-dose FEV1, \& Visit number are fixed effects; subject within treatment sequence is a random effect||||0.090|0.015|
82654721|NCT02841709|165024416|OTHER||||||<|0.001|||||||Multiple Comparison Procedure-Model|||"Multiple Comparison Procedure-Modeling (MCP-Mod) was used to assess a dose response across placebo and all ACT-541468 doses. The null hypothesis of no dose response was rejected if at least one of the six Multiple Contrasts Tests (MCTs) had a multiplicity adjusted p-value \<0.05. The analysis was performed using the R-package DoseFinding (Bornkamp B, Pinheiro J, Bretz F. Planning and analyzing dose finding experiments. 2016. Available from: cranrprojects.org/web/packages/DoseFinding.)"||||<0.001
82597115|NCT01604265|164908727|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|2.68||||0.257|TWO_SIDED|95.0|-2.01|7.37|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||7.37|-2.01|0.257
82597116|NCT01604265|164908728|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-1.5||||0.164|TWO_SIDED|95.0|-3.64|0.63|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.63|-3.64|0.164
82597117|NCT01604265|164908730|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.09||||0.88|TWO_SIDED|95.0|-1.06|1.23|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||1.23|-1.06|0.880
82597118|NCT01604265|164908731|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.64||||0.249|TWO_SIDED|95.0|-1.75|0.46|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.46|-1.75|0.249
82597119|NCT01604265|164908732|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.06||||0.535|TWO_SIDED|95.0|-0.13|0.24|||ANCOVA|||The change was compared between treatment groups using a one way ANCOVA. The significance of the treatment effect, after adjusting for baseline score, was assessed using the F-test from the ANCOVA.||0.24|-0.13|0.535
82654722|NCT02841709|165024416|OTHER||LS mean difference|-5.4|STANDARD_ERROR_OF_MEAN|4.73||0.258|TWO_SIDED|95.0|-14.7|4.0|||Linear mixed effects model||Parameter Dispersion Type: Standard Error of the LS Mean|||4.0|-14.7|0.258
82654723|NCT02841709|165024416|OTHER||LS mean difference|-18.4|STANDARD_ERROR_OF_MEAN|4.76|<|0.001|TWO_SIDED|95.0|-27.8|-9.0|||Linear mixed effects model||Parameter Dispersion Type: Standard Error of the LS Mean|||-9.0|-27.8|<0.001
82654724|NCT02841709|165024416|OTHER||LS mean difference|-31.5|STANDARD_ERROR_OF_MEAN|4.74|<|0.001|TWO_SIDED|95.0|-40.9|-22.2|||Linear mixed effects model|||||-22.2|-40.9|<0.001
82654725|NCT02841709|165024416|OTHER||LS mean difference|-47.8|STANDARD_ERROR_OF_MEAN|4.74|<|0.001|TWO_SIDED|95.0|-57.2|-38.5|||Linear mixed effects model|||||-38.5|-57.2|<0.001
82654726|NCT02581345|165024426|EQUIVALENCE|Per Food and Drug Administration (FDA), the equivalence testing was made using 90% confidence interval and an equivalence margin of 18%|Difference in proportion (M923 - EU RPP)|0.014|||||TWO_SIDED|90.0|-0.043|0.072||||||||0.072|-0.043|
82597120|NCT02599961|164908735|SUPERIORITY||LS Mean|-82.73|STANDARD_ERROR_OF_MEAN|11.363|<|0.0001|TWO_SIDED|95.0|-105.0|-60.46||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|generalized estimating equation (GEE)|||Month 0-3||-60.46|-105.00|< 0.0001
82597121|NCT02599961|164908735|SUPERIORITY||LS mean|-54.91|STANDARD_ERROR_OF_MEAN|16.097||0.0006|TWO_SIDED|95.0|-86.46|-23.36||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 4-6||-23.36|-86.46|0.0006
82597122|NCT02599961|164908735|SUPERIORITY||LS Mean|-52.53|STANDARD_ERROR_OF_MEAN|16.882||0.0019|TWO_SIDED|95.0|-85.62|-19.45||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 7-9||-19.45|-85.62|0.0019
82597123|NCT02599961|164908735|SUPERIORITY||LS Mean|-82.65|STANDARD_ERROR_OF_MEAN|15.55|<|0.0001|TWO_SIDED|95.0|-113.13|-52.17||From the GEE model which includes the reduction from baseline for each visit period as the response variable, baseline as covariates, visit period as a factor, identity link function and exchangeable within subject working correlation matrix.|GEE model|||Month 10-12||-52.17|-113.13|< 0.0001
82597124|NCT02111993|164908760|SUPERIORITY_OR_OTHER|||||||0.02||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.02
82597125|NCT02111993|164908760|SUPERIORITY_OR_OTHER|||||||0.03||||||This p-value correlates to Δ8 hr cTnT.|t-test, 2 sided|||||||0.03
82597126|NCT02111993|164908760|SUPERIORITY_OR_OTHER|||||||0.16||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.16
82597127|NCT02111993|164908761|SUPERIORITY_OR_OTHER|||||||0.04||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.04
82597128|NCT02111993|164908761|SUPERIORITY_OR_OTHER|||||||0.06||||||This p-value correlates to Δ8 hr cTnT|t-test, 2 sided|||||||0.06
82597129|NCT02111993|164908761|SUPERIORITY_OR_OTHER|||||||0.16||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.16
82597130|NCT02111993|164908762|SUPERIORITY_OR_OTHER|||||||0.17||||||This p-value correlates to Δ4 hr cTnT|t-test, 2 sided|||||||0.17
82597131|NCT02111993|164908762|SUPERIORITY_OR_OTHER|||||||0.19||||||This p-value correlates to Δ8 hr cTnT|t-test, 2 sided|||||||0.19
82597132|NCT02111993|164908762|SUPERIORITY_OR_OTHER|||||||0.38||||||This p-value correlates to Δ20 hr cTnT|t-test, 2 sided|||||||0.38
82597133|NCT04074928|164908766|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.73|||||TWO_SIDED|95.0|0.645|0.836||||||"Non-inferiority, A/H1N1, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the A/H1N1 vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.836|0.645|
82597134|NCT04074928|164908766|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.73|||||TWO_SIDED|95.0|0.656|0.809||||||"Non-inferiority, B/Yamagata, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the B/Yamagata vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.809|0.656|
82597135|NCT04074928|164908766|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|0.88|||||TWO_SIDED|95.0|0.791|0.972||||||"Non-inferiority, B/Victoria, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the B/Victoria vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||0.972|0.791|
82654727|NCT02581345|165024426|EQUIVALENCE|Per European Medicines Agency (EMA), the equivalence testing was made using 95% confidence interval and an equivalence margin of 15%|Difference in proportion (M923 - EU RPP)|0.014|||||TWO_SIDED|95.0|-0.054|0.082||||||||0.082|-0.054|
82654728|NCT02581345|165024427|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale was calculated using stratified Newcombe method.|Difference in proportion (M923 - EU RPP)|0.031|||||TWO_SIDED|95.0|-0.048|0.11||||||||0.110|-0.048|
82597136|NCT04074928|164908767|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-11.46|||||TWO_SIDED|95.0|-16.447|-6.423||||||"Non-inferiority, A/H1N1, SCR difference, Day 29/57~Non-inferiority of the immune response to the A/H1N1 vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-6.423|-16.447|
82597137|NCT04074928|164908767|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-14.87|||||TWO_SIDED|95.0|-19.61|-9.983||||||"Non-inferiority, B/Yamagata, SCR difference, Day 29/57~Non-inferiority of the immune response to the B/Yamagata vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-9.983|-19.610|
82597138|NCT04074928|164908767|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|-5.96|||||TWO_SIDED|95.0|-10.327|-1.44||||||"Non-inferiority, B/Victoria, SCR difference, Day 29/57~Non-inferiority of the immune response to the B/Victoria vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||-1.440|-10.327|
82597139|NCT04074928|164908768|NON_INFERIORITY|The noninferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified noninferiority margin of 1.5 for the Day 29/57 GMT ratio (adjusted analysis).|GMT ratio|1.04|||||TWO_SIDED|95.0|0.927|1.16||||||"Non-inferiority, A/H3N2, GMT ratio, Day 29/57~Non-inferiority of the Day 29/57 immune response to the A/H3N2 vaccine strain calculated by GMT ratio (Comparator QIV GMT divided by QIVc GMT)"||1.160|0.927|
82597140|NCT04074928|164908769|NON_INFERIORITY|The non-inferiority criterion was that the upper limit of the 2-sided 95% CI did not exceed the prespecified non-inferiority margin of 10% for the Day 29/57 SCR difference.|SCR difference|3.13|||||TWO_SIDED|95.0|-1.443|7.812||||||"Non-inferiority, A/H3N2, SCR difference, Day 29/57~Non-inferiority of the immune response to the A/H3N2 vaccine strain by SCR difference (Comparator QIV SCR minus QIVc SCR)"||7.812|-1.443|
82654729|NCT02581345|165024428|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.18;+0.18\] for 90% confidence interval.|Difference in proportion (M923 - EU RPP)|-0.022|||||TWO_SIDED|90.0|-0.061|0.016||||||||0.016|-0.061|
82654730|NCT02581345|165024428|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.15;+0.15\] for 95% confidence interval.|Difference in proportion (M923 - EU RPP)|-0.022|||||TWO_SIDED|95.0|-0.069|0.024||||||||0.024|-0.069|
82654731|NCT02581345|165024431|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are: \[-0.18;+0.18\] for 90% confidence interval.|Difference in proportion (M923 - EU RPP)|0.08|||||TWO_SIDED|90.0|0.01|0.149||||||||0.149|0.010|
82654732|NCT02581345|165024431|OTHER|No formal hypothesis testing of equivalence was performed for the comparison between M923 and EU RPP using the secondary efficacy outcome measures. Confidence Interval for difference in proportion in original scale calculated using stratified Newcombe method. Protocol defined margins are:\[-0.15;+0.15\] for 95% confidence interval.|Difference in proportion (M923 - EU RPP)|0.08|||||TWO_SIDED|95.0|-0.004|0.162||||||||0.162|-0.004|
82597141|NCT04074928|164908770|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.79|1.024||||||A/H1N1, GMT ratio, Day 29/57||1.024|0.790|
82597142|NCT04074928|164908770|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.08|||||TWO_SIDED|95.0|0.968|1.195||||||B/Yamagata, GMT ratio, Day 29/57||1.195|0.968|
82597143|NCT04074928|164908770|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.09|||||TWO_SIDED|95.0|0.986|1.202||||||B/Victoria, GMT ratio, Day 29/57||1.202|0.986|
82597144|NCT04074928|164908771|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|-2.52|||||TWO_SIDED|95.0|-7.526|2.461||||||A/H1N1, SCR difference, Day 29/57||2.461|-7.526|
82597145|NCT04074928|164908771|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|-0.04|||||TWO_SIDED|95.0|-4.912|4.911||||||B/Yamagata, SCR difference, Day 29/57||4.911|-4.912|
82597146|NCT04074928|164908771|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|1.18|||||TWO_SIDED|95.0|-2.805|5.353||||||B/Victoria, SCR difference, Day 29/57||5.353|-2.805|
82597147|NCT04074928|164908772|OTHER|No formal statistical testing was planned for this secondary outcome measure.|GMT ratio|1.03|||||TWO_SIDED|95.0|0.914|1.165||||||A/H3N2, GMT ratio, Day 29/57||1.165|0.914|
82597148|NCT04074928|164908773|OTHER|No formal statistical testing was planned for this secondary outcome measure.|SCR difference|1.89|||||TWO_SIDED|95.0|-3.006|6.856||||||A/H3N2, SCR difference, Day 29/57||6.856|-3.006|
82597149|NCT01890642|164908786|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Kruskal-Wallis|||||||0.01
82597150|NCT01890642|164908787|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Kruskal-Wallis|||||||0.80
82597151|NCT01890642|164908788|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Kruskal-Wallis|||||||0.004
82597152|NCT01890642|164908789|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Kruskal-Wallis|||||||0.0001
82597153|NCT01890642|164908790|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Kruskal-Wallis|||||||0.37
82597154|NCT03649061|164908823|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||To compare the two randomization groups, a linear mixed model with DAS28-CRP as outcome (Bell et al. 2014), including random intercepts per patient, adjusted for baseline DAS28-CRP, randomization timepoint, and RF and/or ACPA seropositivity was used.||||<0.05
82597155|NCT03649061|164908824|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||A binomial generalized linear mixed effect model for repeated measures of remission from randomization up until 28 weeks after was carried out, with adjustment for baseline DAS28-CRP, moment of randomization, and RF and/or ACPA seropositivity.||||<0.05
82654733|NCT02122796|165024463|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
82654734|NCT02122796|165024464|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
82654735|NCT02122796|165024466|SUPERIORITY_OR_OTHER||||||<|0.01||||||Means of pre- and post-treatment measurements were compared using paired, two-sided Student's t tests. P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.|t-test, 2 sided|P values were calculated comparing acupuncture and control mean change scores using unpaired two-sided Student's t tests.||||||<0.01
82597156|NCT02043548|164908839|SUPERIORITY|||||||0.86|||||||GEE|||||||0.86
82597157|NCT02043548|164908840|SUPERIORITY|||||||0.77|||||||Log Rank|||||||0.77
82597158|NCT02043548|164908841|SUPERIORITY|||||||0.4|||||||binomial test|||||||0.40
82491921|NCT00739674|164677118|SUPERIORITY_OR_OTHER_LEGACY|||||||0.058||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.058
82597159|NCT02043548|164908842|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82597160|NCT02043548|164908843|SUPERIORITY|||||||0.78|||||||GEE|||||||0.78
82597161|NCT02043548|164908843|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
82597162|NCT00507559|164908846|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||This is compared to a historical control group, in which 11.1% of subjects experienced one or more MAE within 30 days.||||<0.001
82597163|NCT00631748|164908855|SUPERIORITY_OR_OTHER||||||<|0.25|TWO_SIDED|95.0|||||ANCOVA|We compared TLFB at baseline and at end of study.||We used a repeated-measures ANCOVA to compare cocaine usage between the two groups. This incorporated the multiple administrations of the Timeline Followback measure.||||<0.25
82654736|NCT00234078|165024467|SUPERIORITY_OR_OTHER|||||||0.385||||||versus placebo|t-test, 2 sided|a general linear model||||||0.385
82654737|NCT00234078|165024468|SUPERIORITY_OR_OTHER|||||||0.601||||||versus placebo|t-test, 2 sided|a general linear model||||||0.601
82597164|NCT00631748|164908856|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||Regression, Cox|||End-of-trial abstinence was defined as a negative urine drug screen (for cocaine) for three consecutive weeks at the end of the study.||||.65
82597165|NCT03829657|164908866|SUPERIORITY||Odds Ratio (OR)|0.6||||0.196|TWO_SIDED|95.0|0.27|1.29|||Regression, Logistic|||||1.29|0.27|0.196
82597166|NCT01295216|164908894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.37|||||TWO_SIDED|95.0|-2.15|1.4|||||Systolic blood pressure at 12 months|||1.40|-2.15|
82597167|NCT01295216|164908894|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|||||TWO_SIDED|95.0|-1.29|1.32|||||Diastolic blood pressure for 12 months|||1.32|-1.29|
82597168|NCT00562588|164908900|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.067||||0.683||95.0|0.78|1.461|||Regression, Logistic|||The primary endpoint tele-mRS on day 90 was available in 527 of 543 treated patients (97.1%).||1.461|0.78|0.683
82597169|NCT00562588|164908901|SUPERIORITY_OR_OTHER|||||||0.607||95.0|||||ANCOVA|ANCOVA with factors for treatment, age, weight, baseline SBP, diabetes, previous stroke and baseline NIHSS||Early treatment initiation (immediately after the index event) with Aggrenox was compared to late initiation of Aggrenox after 7 days of treatment with ASA mono||||0.607
82597170|NCT00562588|164908902|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.725||||0.202||95.0|0.442|1.189|||Cox proportional hazards model|||Early treatment initiation (immediately after the index event) with Aggrenox was compared to late initiation of Aggrenox after 7 days of treatment with ASA mono||1.189|0.442|0.202
82597171|NCT01332357|164908918|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.96|||<|0.0001|TWO_SIDED|95.0|1.56|2.46||The unadjusted risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge|Regression, Cox|||||2.46|1.56|<0.0001
82654738|NCT00234078|165024469|SUPERIORITY_OR_OTHER|||||||0.084||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.084
82597172|NCT01332357|164908918|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.42|2.25||The adjusted risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge|Regression, Cox|Covariates included demographics, IP or ED index event, primary asthma diagnosis, Charlson score, and pre-index medication||||2.25|1.42|<0.0001
82597173|NCT01332357|164908918|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.008|||<|0.0001|TWO_SIDED|95.0|1.005|1.011||The risk of experiencing a recurrent event associated with not initiating a controller medication at index event discharge by time interaction|Regression, Cox|Evaluates the impact of each day treatment with a controller was delayed||||1.011|1.005|<0.0001
82597174|NCT02164981|164908950|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.57|TWO_SIDED|||||No adjustment for multiple comparisons, as there was only one primary outcome variable.|ANCOVA|||Given the sequential parallel comparison design (SPCD), we used a two-stage test (weighted z-test, Tamura approach: CHANGE\_score = BASELINE\_value + GROUP (i.e., SNP vs. placebo)) to combine the data on treatment effects from phases 1 and 2 (weighted equally). Assessments were on Day -1 (phase 1 baseline), Day 13 (phase 1 outcome, phase 2 baseline) and Day 28 (phase 2 outcome). Only participants who at least started the infusion were included in analysis (i.e., modified intent to treat).||||0.57
82597175|NCT02164981|164908950|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.54|TWO_SIDED|||||No adjustment for multiple comparisons, as there was only one primary outcome variable.|ANCOVA|||The same analysis as in Analysis 1 was conducted, except that CLOZAPINE (i.e., patient used clozapine vs. other antipsychotic) was added as a covariate.||||0.54
82654739|NCT00234078|165024469|SUPERIORITY_OR_OTHER|||||||0.02||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.020
82654740|NCT00234078|165024469|SUPERIORITY_OR_OTHER|||||||0.421||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.421
82654741|NCT00234078|165024470|SUPERIORITY_OR_OTHER|||||||0.087||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.087
82654742|NCT00234078|165024470|SUPERIORITY_OR_OTHER|||||||0.004||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.004
82654743|NCT00234078|165024470|SUPERIORITY_OR_OTHER|||||||0.029||||||p-value is adjusted for multiple comparisons|t-test, 2 sided|||||||0.029
82654744|NCT03471078|165024471|OTHER|The primary efficacy endpoint was tested between avatrombopag and placebo using the Cochran-Mantel-Haenszel 2-sided test at α=0.05, adjusting for the number of eligible chemotherapy agents as collected in IWRS (1 or ≥2 permissible chemotherapy agents).|Mean Difference (Final Values)|-3.0||||0.7186|TWO_SIDED|95.0|-21.7|15.6|||Cochran-Mantel-Haenszel|||||15.6|-21.7|0.7186
82654745|NCT03471078|165024472|OTHER|||||||0.8372|||||||Van Elteren Test|||||||0.8372
82654746|NCT00862979|165024478|SUPERIORITY||Mean Difference (Net)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.5|-6.1|||ANCOVA|||||-6.1|-16.5|<.0001
82654747|NCT00862979|165024479|OTHER|difference||||||0.203|||||||Fisher Exact|||Month 6 to Month 9||||0.203
82654748|NCT00862979|165024479|OTHER|difference||||||0.002|||||||Fisher Exact|||Month 9 to Month 18||||0.002
82654749|NCT00862979|165024481|SUPERIORITY||Mean Difference (Final Values)|-14.0|||<|0.0001|TWO_SIDED|95.0|-19.6|-8.3|||ANCOVA|||Month 12||-8.3|-19.6|<.0001
82654750|NCT00862979|165024481|SUPERIORITY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.5|-6.1|||ANCOVA|||Month 18||-6.1|-16.5|<.0001
82597176|NCT02164981|164908951|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.35|TWO_SIDED|||||Exploratory efficacy outcome, hence no adjustment for multiple comparison.|ANCOVA|||||||0.35
82597177|NCT02164981|164908951|SUPERIORITY||Mean Difference (Final Values)|-0.62||||0.37|TWO_SIDED|||||Exploratory efficacy outcome, hence no adjustment for multiple comparisons|ANCOVA|||||||0.37
82597178|NCT02164981|164908952|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.85|TWO_SIDED||||||ANCOVA|||||||0.85
82597179|NCT02164981|164908952|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.88|TWO_SIDED||||||ANCOVA|||||||0.88
82654751|NCT00862979|165024483|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82654752|NCT01027143|165024485|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82654753|NCT03068273|165024493|SUPERIORITY|||||||0.146|||||||Regression, Linear|||||||0.1460
82654754|NCT03068273|165024493|SUPERIORITY||||||<|0.05|||||||Regression, Linear|||||||<0.05
82654755|NCT03068273|165024493|SUPERIORITY||Mean Difference (Net)|6.338|STANDARD_ERROR_OF_MEAN|4.331|<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
82597180|NCT02164981|164908953|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.86|TWO_SIDED||||||ANCOVA|||||||0.86
82597181|NCT02164981|164908953|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.83|TWO_SIDED||||||ANCOVA|||||||0.83
82597182|NCT02164981|164908959|SUPERIORITY||Mean Difference (Final Values)|1.12||||0.33|TWO_SIDED||||||ANCOVA|||||||0.33
82597183|NCT02164981|164908959|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.34|TWO_SIDED||||||ANCOVA|||||||0.34
82597184|NCT02164981|164908962|SUPERIORITY||Mean Difference (Final Values)|1.11||||0.34|TWO_SIDED||||||ANCOVA|||||||0.34
82597185|NCT02164981|164908962|SUPERIORITY||Mean Difference (Final Values)|2.05||||0.36|TWO_SIDED||||||ANCOVA|||||||0.36
82597186|NCT03036293|164908991|SUPERIORITY||Mean Difference (Final Values)|1.56||||0.0055|TWO_SIDED|98.33|0.217|2.91|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.91|0.217|0.0055
82597187|NCT03036293|164908991|SUPERIORITY||Mean Difference (Final Values)|2.56|||<|0.0001|TWO_SIDED|98.33|1.1|3.96|||ANCOVA|Baseline score used as covariate. Yeo-Johnson transformation with λ=1,09 was applied. Statistical inference performed for transformed values.|estimate and CL are backtransformed|Mean score differences (begin-end) were compared||3.96|1.1|<0.0001
82654756|NCT03068273|165024494|SUPERIORITY||Mean Difference (Net)|9.141|STANDARD_ERROR_OF_MEAN|4.838||0.0615|TWO_SIDED||||||Regression, Linear|||||||0.0615
82654757|NCT03068273|165024495|SUPERIORITY||Mean Difference (Net)|11.257|STANDARD_ERROR_OF_MEAN|4.775||0.0404|TWO_SIDED||||||Regression, Linear|||||||0.0404
82654758|NCT03068273|165024496|SUPERIORITY||Mean Difference (Net)|0.155|STANDARD_ERROR_OF_MEAN|0.354||0.268|TWO_SIDED||||||Regression, Linear|||||||0.2680
82654759|NCT03068273|165024497|SUPERIORITY||Mean Difference (Net)|-11.412|STANDARD_ERROR_OF_MEAN|4.839||0.0403|TWO_SIDED||||||Regression, Linear|||||||0.0403
82654760|NCT00797108|165024503|SUPERIORITY_OR_OTHER||Clinical Cure Difference|27.5|||||TWO_SIDED|80.0|-4.0|55.3||||||Two-sided 80% confidence interval (CI) for the difference in the clinical cure response rates between treatement group and the comparator was formed using the exact methods.||55.3|-4.0|
82654761|NCT00797108|165024503|SUPERIORITY_OR_OTHER||Clinical Cure Difference|25.0|||||TWO_SIDED|80.0|-13.1|57.9||||||Two-sided 80% CI for the difference in the clinical cure response rates between treatement group and the comparator was formed using the exact methods.||57.9|-13.1|
82597188|NCT03036293|164908991|EQUIVALENCE|equivalence limits were prespecified as \[-2.763; 2.763\]|Mean Difference (Net)|0.89||||0.0008|TWO_SIDED|98.33|-0.64|2.33|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.33|-0.64|0.0008
82597189|NCT03036293|164908992|SUPERIORITY||Mean Difference (Net)|0.6||||0.08|TWO_SIDED|95.0|-0.08|1.54|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.54|-0.08|0.08
82597190|NCT03036293|164908992|SUPERIORITY||Mean Difference (Net)|0.76||||0.044|TWO_SIDED|95.0|0.02|1.66|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.66|0.02|0.044
82597191|NCT03036293|164908993|SUPERIORITY||Mean Difference (Net)|0.69||||0.21|TWO_SIDED|95.0|-0.4|1.78|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||1.78|-0.4|0.21
82597192|NCT03036293|164908993|SUPERIORITY||Mean Difference (Net)|1.19||||0.027|TWO_SIDED|95.0|0.14|2.26|||ANCOVA|Baseline score used as covariate||Mean score differences (begin-end) were compared||2.26|0.14|0.027
82597193|NCT03036293|164908994|SUPERIORITY||Odds Ratio (OR)|1.36||||0.065|TWO_SIDED|95.0|0.98|1.89|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.89|0.98|0.065
82597194|NCT03036293|164908994|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0015|TWO_SIDED|95.0|1.22|2.33|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||2.33|1.22|0.0015
82597195|NCT03036293|164908994|SUPERIORITY|||||||0.7|||||||Fisher Exact|||Week 4 frequencies comparison||||0.7
82597196|NCT03036293|164908994|SUPERIORITY|||||||1|||||||Fisher Exact|||Week 8 frequencies comparison||||1
82597197|NCT03036293|164908994|SUPERIORITY|||||||0.01|||||||Fisher Exact|||Week 12 frequencies comparison||||0.01
82597198|NCT03036293|164908994|SUPERIORITY|||||||0.57|||||||Fisher Exact|||Week 4 frequencies comparison||||0.57
82597199|NCT03036293|164908994|SUPERIORITY|||||||0.25|||||||Fisher Exact|||Week 8 frequencies comparison||||0.25
82597200|NCT03036293|164908994|SUPERIORITY|||||||0.001|||||||Fisher Exact|||Week 12 frequencies comparison||||0.001
82597201|NCT03036293|164908995|SUPERIORITY||Odds Ratio (OR)|0.88||||0.46|TWO_SIDED|95.0|0.64|1.23|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.23|0.64|0.46
82597202|NCT03036293|164908995|SUPERIORITY||Odds Ratio (OR)|1.27||||0.17|TWO_SIDED|95.0|0.9|1.79|||Cochran-Mantel-Haenszel||Bigger OR is better|Common OR of event analysis||1.79|0.9|0.17
82654762|NCT04908748|165024555|SUPERIORITY||Least squares mean difference|-29.1|||<|0.0001|TWO_SIDED|95.0|-32.2|-26.0|||ANCOVA|||||-26.0|-32.2|< 0.0001
82654763|NCT00757601|165024572|NON_INFERIORITY_OR_EQUIVALENCE|"To assess the effect of food at the 30 mg dose, a point estimate was constructed for the geometric mean ratio for the fed/fasted states (GMR\[fed/fasted\]) of MK1006 AUC (0-∞).~The GMR (fed/fasted) was calculated using the geometric mean AUC (0-∞) of the fed state divided by the geometric mean AUC (0-∞) fasted state.~A GMR (fed/fasted) point estimate value within 20% of unity (1.00) was considered consistent with an absence of a clinically significant food effect."|Geometric Mean Ratio (fed/fasted)|1.03||||||95.0|||||Mixed-Effect Model|||A linear mixed-effect model was used to estimate the geometric mean AUC (0-∞) for MK1006 at every dose level.||||
82654764|NCT00757601|165024573|NON_INFERIORITY_OR_EQUIVALENCE|"To assess the effect of food at the 30 mg dose, a point estimate was constructed for the geometric mean ratio for the fed/fasted states (GMR\[fed/fasted\]) of MK1006 Cmax.~The GMR (fed/fasted) was calculated using the geometric mean Cmax of the fed state divided by the geometric mean Cmax fasted state.~A GMR (fed/fasted) point estimate value within 20% of unity (1.00) was considered consistent with an absence of a clinically significant food effect."|Geometric Mean Ratio (fed/fasted)|1.14||||||95.0|||||Mixed-effect Model|||A linear mixed-effect model was used to estimate the geometric mean Cmax for MK1006 at every dose level.||||
82654765|NCT00067236|165024589|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.0||||0.4239|TWO_SIDED|95.0|||||ANOVA|||Changes from baseline in efficacy parameters at Day 90.||||0.4239
82654766|NCT03194464|165024593|OTHER|||||||0.15||||||The a priori threshold for statistical significance was established at p \<.05 (non-adjusted).|ANOVA|||We performed repeated measures analysis of variance (RM-ANOVA) to determine if intracortical inhibition, as measured by SICI, in the ipsilesional hemisphere was altered by less affected hand exercise to task-failure and to determine the time course and recovery of this effect.||||0.15
82597203|NCT03036293|164908995|SUPERIORITY|||||||0.38|||||||Fisher Exact|||Week 4 frequencies comparison||||0.38
82597204|NCT03036293|164908995|SUPERIORITY|||||||0.67|||||||Fisher Exact|||Week 8 frequencies comparison||||0.67
82597205|NCT03036293|164908995|SUPERIORITY|||||||0.85|||||||Fisher Exact|||Week 12 frequencies comparison||||0.85
82597206|NCT03036293|164908995|SUPERIORITY|||||||0.71|||||||Fisher Exact|||Week 4 frequencies comparison||||0.71
82597207|NCT03036293|164908995|SUPERIORITY|||||||0.29|||||||Fisher Exact|||Week 8 frequencies comparison||||0.29
82597208|NCT03036293|164908995|SUPERIORITY|||||||0.007|||||||Fisher Exact|||Week 12 frequencies comparison||||0.007
82597209|NCT03036293|164908996|SUPERIORITY||Median Difference (Net)|0.00002||||0.314|TWO_SIDED|95.0|-0.00002|0.33|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator for location difference provided|Median changes (begin-end) within groups are compared||0.33|-0.00002|0.314
82597210|NCT03036293|164908996|SUPERIORITY||Median Difference (Net)|0.0||||0.031|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimator for location difference provided|Median changes (begin-end) within groups are compared||1|0|0.031
82597211|NCT03036293|164908997|SUPERIORITY||Median Difference (Net)|-0.00001||||0.0021|TWO_SIDED|95.0|-3.0|-0.00001|||Wilcoxon (Mann-Whitney)||Lower is better|||-0.00001|-3|0.0021
82597212|NCT03036293|164908997|SUPERIORITY||Median Difference (Net)|-0.00002||||0.0056|TWO_SIDED|95.0|-1.0|-0.00002|||Wilcoxon (Mann-Whitney)||Lower is better|||-0.00002|-1|0.0056
82597213|NCT01408147|164909002|SUPERIORITY||Mean Difference (Final Values)|2.3|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||To test the primary hypothesis, a generalized linear mixed effect model was used (intervention group as a fixed effect and clinic and subject as random effects). A group x time interaction term (fixed effect) tested if the change in weight over time differed significantly. The model included participant-level covariates (i.e., ethnicity, weeks postpartum at study entry, lactation, and age).||||<0.0001
82654767|NCT03194464|165024594|SUPERIORITY|||||||0.83||||||Statistical Significance established as p \<.05|ANOVA|Repeated-Measures ANOVA||We performed repeated measures analysis of variance (RM-ANOVA) to determine if intracortical inhibition, as measured by SICI, in the ipsilesional hemisphere was altered by repeated sessions of less affected hand exercise to task-failure. Pre-exercise SICI was compared between Session1 and Session8.||||.83
82597214|NCT05048719|164909015|SUPERIORITY||LS Mean Difference|-0.77|||<|0.001|TWO_SIDED|95.0|-1.13|-0.4|||Mixed Models Analysis|||||-0.40|-1.13|<0.001
82597215|NCT05048719|164909015|SUPERIORITY||LS Mean Difference|-1.49|||<|0.001|TWO_SIDED|95.0|-1.85|-1.12|||Mixed Models Analysis|||||-1.12|-1.85|<0.001
82597216|NCT05048719|164909015|SUPERIORITY||LS Mean Difference|-1.36|||<|0.001|TWO_SIDED|95.0|-1.75|-0.98|||Mixed Models Analysis|||||-0.98|-1.75|<0.001
82654768|NCT03194464|165024595|OTHER|||||||0.204|||||||ANOVA|||RM-ANOVA||||0.204
82654769|NCT03194464|165024596|SUPERIORITY|||||||0.004||||||statistical significance was established a priori at p \<.05|ANOVA|repeated measures ANOVA comparing Session8 vs. Session1 performance||We performed repeated measures analysis of variance (RM-ANOVA) to determine if motor dexterity, as measured by the BBT, was improved by repeated sessions of non-paretic hand exercise to task-failure. BBT performance was compared between Session1 and Session8.||||.004
82491922|NCT00739674|164677119|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.158
82597217|NCT05048719|164909015|SUPERIORITY||LS Mean Difference|-1.6|||<|0.001|TWO_SIDED|95.0|-1.96|-1.25|||Mixed Models Analysis|||||-1.25|-1.96|<0.001
82597218|NCT05048719|164909015|SUPERIORITY||LS Mean Difference|-1.67|||<|0.001|TWO_SIDED|95.0|-2.02|-1.32|||Mixed Models Analysis|||||-1.32|-2.02|<0.001
82597219|NCT05048719|164909016|SUPERIORITY||LS Mean Difference|-0.09||||0.626|TWO_SIDED|95.0|-0.47|0.28|||Mixed Models Analysis|||||0.28|-0.47|0.626
82597220|NCT05048719|164909016|SUPERIORITY||LS Mean Difference|-0.81|||<|0.001|TWO_SIDED|95.0|-1.18|-0.44|||Mixed Models Analysis|||||-0.44|-1.18|<0.001
82597221|NCT05048719|164909016|SUPERIORITY||LS Mean Difference|-0.69|||<|0.001|TWO_SIDED|95.0|-1.08|-0.3|||Mixed Models Analysis|||||-0.30|-1.08|<0.001
82597222|NCT05048719|164909016|SUPERIORITY||LS Mean Difference|-0.93|||<|0.001|TWO_SIDED|95.0|-1.29|-0.57|||Mixed Models Analysis|||||-0.57|-1.29|<0.001
82597223|NCT05048719|164909016|SUPERIORITY||LS Mean Difference|-1.0|||<|0.001|TWO_SIDED|95.0|-1.36|-0.64|||Mixed Models Analysis|||||-0.64|-1.36|<0.001
82597224|NCT05048719|164909017|OTHER||Odds Ratio (OR)|6.77|||<|0.001|TWO_SIDED|95.0|2.21|20.75|||Regression, Logistic|||||20.75|2.21|<0.001
82597225|NCT05048719|164909017|OTHER||Odds Ratio (OR)|34.09|||<|0.001|TWO_SIDED|95.0|9.92|117.16|||Regression, Logistic|||||117.16|9.92|<0.001
82597226|NCT05048719|164909017|OTHER||Odds Ratio (OR)|48.33|||<|0.001|TWO_SIDED|95.0|11.9|196.24|||Regression, Logistic|||||196.24|11.90|<0.001
82597227|NCT05048719|164909017|OTHER||Odds Ratio (OR)|45.72|||<|0.001|TWO_SIDED|95.0|13.61|153.64|||Regression, Logistic|||||153.64|13.61|<0.001
82597228|NCT05048719|164909017|OTHER||Odds Ratio (OR)|77.23|||<|0.001|TWO_SIDED|95.0|20.26|294.48|||Regression, Logistic|||||294.48|20.26|<0.001
82597229|NCT05048719|164909017|OTHER||Odds Ratio (OR)|1.22||||0.678|TWO_SIDED|95.0|0.48|3.13|||Regression, Logistic|||||3.13|0.48|0.678
82597230|NCT05048719|164909017|OTHER||Odds Ratio (OR)|6.15|||<|0.001|TWO_SIDED|95.0|2.19|17.24|||Regression, Logistic|||||17.24|2.19|<0.001
82597231|NCT05048719|164909017|OTHER||Odds Ratio (OR)|8.71|||<|0.001|TWO_SIDED|95.0|2.55|29.79|||Regression, Logistic|||||29.79|2.55|<0.001
82597232|NCT05048719|164909017|OTHER||Odds Ratio (OR)|8.24|||<|0.001|TWO_SIDED|95.0|3.05|22.3|||Regression, Logistic|||||22.30|3.05|<0.001
82597233|NCT05048719|164909017|OTHER||Odds Ratio (OR)|13.93|||<|0.001|TWO_SIDED|95.0|4.51|43.01|||Regression, Logistic|||||43.01|4.51|<0.001
82597234|NCT05048719|164909018|OTHER||Odds Ratio (OR)|8.19|||<|0.001|TWO_SIDED|95.0|2.93|22.9|||Regression, Logistic|||||22.90|2.93|<0.001
82654770|NCT00818883|165024626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6|||<|0.001|TWO_SIDED|95.0|-8.3|-2.9||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||Analysis of Covariance (ANCOVA) model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.9|-8.3|<0.001
82597235|NCT05048719|164909018|OTHER||Odds Ratio (OR)|25.02|||<|0.001|TWO_SIDED|95.0|7.57|82.69|||Regression, Logistic|||||82.69|7.57|<0.001
82597236|NCT05048719|164909018|OTHER||Odds Ratio (OR)|62.31|||<|0.001|TWO_SIDED|95.0|12.26|316.63|||Regression, Logistic|||||316.63|12.26|<0.001
82597237|NCT05048719|164909018|OTHER||Odds Ratio (OR)|67.57|||<|0.001|TWO_SIDED|95.0|17.56|259.97|||Regression, Logistic|||||259.97|17.56|<0.001
82597238|NCT05048719|164909018|OTHER||Odds Ratio (OR)|129.55|||<|0.001|TWO_SIDED|95.0|26.72|628.09|||Regression, Logistic|||||628.09|26.72|<0.001
82597239|NCT05048719|164909018|OTHER||Odds Ratio (OR)|1.13||||0.802|TWO_SIDED|95.0|0.43|2.96|||Regression, Logistic|||||2.96|0.43|0.802
82597240|NCT05048719|164909018|OTHER||Odds Ratio (OR)|3.46||||0.026|TWO_SIDED|95.0|1.16|10.31|||Regression, Logistic|||||10.31|1.16|0.026
82597241|NCT05048719|164909018|OTHER||Odds Ratio (OR)|8.61||||0.006|TWO_SIDED|95.0|1.83|40.51|||Regression, Logistic|||||40.51|1.83|0.006
82597242|NCT05048719|164909018|OTHER||Odds Ratio (OR)|9.34|||<|0.001|TWO_SIDED|95.0|2.67|32.71|||Regression, Logistic|||||32.71|2.67|<0.001
82597243|NCT05048719|164909018|OTHER||Odds Ratio (OR)|17.9|||<|0.001|TWO_SIDED|95.0|4.02|79.7|||Regression, Logistic|||||79.70|4.02|<0.001
82597244|NCT05048719|164909019|OTHER||LS Mean Difference|-21.5|||<|0.001|TWO_SIDED|95.0|-32.7|-10.3|||Mixed Models Analysis|||||-10.3|-32.7|<0.001
82597245|NCT05048719|164909019|OTHER||LS Mean Difference|-42.5|||<|0.001|TWO_SIDED|95.0|-53.4|-31.7|||Mixed Models Analysis|||||-31.7|-53.4|<0.001
82597246|NCT05048719|164909019|OTHER||LS Mean Difference|-41.0|||<|0.001|TWO_SIDED|95.0|-52.7|-29.3|||Mixed Models Analysis|||||-29.3|-52.7|<0.001
82597247|NCT05048719|164909019|OTHER||LS Mean Difference|-42.7|||<|0.001|TWO_SIDED|95.0|-53.5|-32.0|||Mixed Models Analysis|||||-32.0|-53.5|<0.001
82597248|NCT05048719|164909019|OTHER||LS Mean Difference|-44.7|||<|0.001|TWO_SIDED|95.0|-55.3|-34.2|||Mixed Models Analysis|||||-34.2|-55.3|<0.001
82597249|NCT05048719|164909019|OTHER||LS Mean Difference|0.6|||<|0.001|TWO_SIDED|95.0|-10.6|11.8|||Mixed Models Analysis|||||11.8|-10.6|<0.001
82597250|NCT05048719|164909019|OTHER||LS Mean Difference|-20.5|||<|0.001|TWO_SIDED|95.0|-31.4|-9.5|||Mixed Models Analysis|||||-9.5|-31.4|<0.001
82597251|NCT05048719|164909019|OTHER||LS Mean Difference|-19.0||||0.002|TWO_SIDED|95.0|-30.7|-7.2|||Mixed Models Analysis|||||-7.2|-30.7|0.002
82597252|NCT05048719|164909019|OTHER||LS Mean Difference|-20.7|||<|0.001|TWO_SIDED|95.0|-31.4|-9.9|||Mixed Models Analysis|||||-9.9|-31.4|<0.001
82597253|NCT05048719|164909019|OTHER||LS Mean Difference|-22.7|||<|0.001|TWO_SIDED|95.0|-33.2|-12.1|||Mixed Models Analysis|||||-12.1|-33.2|<0.001
82597254|NCT05048719|164909020|OTHER||LS Mean Difference|-1.6||||0.153|TWO_SIDED|95.0|-3.7|0.6|||Mixed Models Analysis|||||0.6|-3.7|0.153
82597255|NCT05048719|164909020|OTHER||LS Mean Difference|-4.3|||<|0.001|TWO_SIDED|95.0|-6.4|-2.2|||Mixed Models Analysis|||||-2.2|-6.4|<0.001
82491923|NCT00739674|164677120|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.064
82597256|NCT05048719|164909020|OTHER||LS Mean Difference|-7.6|||<|0.001|TWO_SIDED|95.0|-9.8|-5.3|||Mixed Models Analysis|||||-5.3|-9.8|<0.001
82597257|NCT05048719|164909020|OTHER||LS Mean Difference|-7.4|||<|0.001|TWO_SIDED|95.0|-9.4|-5.3|||Mixed Models Analysis|||||-5.3|-9.4|<0.001
82597258|NCT05048719|164909020|OTHER||LS Mean Difference|-7.9|||<|0.001|TWO_SIDED|95.0|-9.9|-5.9|||Mixed Models Analysis|||||-5.9|-9.9|<0.001
82597259|NCT05048719|164909020|OTHER||LS Mean Difference|0.1||||0.914|TWO_SIDED|95.0|-2.0|2.3|||Mixed Models Analysis|||||2.3|-2.0|0.914
82597260|NCT05048719|164909020|OTHER||LS Mean Difference|-2.6||||0.015|TWO_SIDED|95.0|-4.7|-0.5|||Mixed Models Analysis|||||-0.5|-4.7|0.015
82597261|NCT05048719|164909020|OTHER||LS Mean Difference|-5.9|||<|0.001|TWO_SIDED|95.0|-8.1|-3.6|||Mixed Models Analysis|||||-3.6|-8.1|<0.001
82597262|NCT05048719|164909020|OTHER||LS Mean Difference|-5.7|||<|0.001|TWO_SIDED|95.0|-7.8|-3.6|||Mixed Models Analysis|||||-3.6|-7.8|<0.001
82597263|NCT05048719|164909020|OTHER||LS Mean Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-8.3|-4.2|||Mixed Models Analysis|||||-4.2|-8.3|<0.001
82597264|NCT03257267|164909028|SUPERIORITY||Hazard Ratio (HR)|0.665|||<|1e-05|TWO_SIDED|95.0|0.555|0.796||One-sided p-value|Stratified Log-rank Test|||||0.796|0.555|<0.00001
82597265|NCT03257267|164909029|SUPERIORITY||Hazard Ratio (HR)|0.741||||0.00031|TWO_SIDED|95.0|0.623|0.882|||Stratified Log-rank Test|||||0.882|0.623|0.00031
82597266|NCT03257267|164909030|SUPERIORITY||Odds Ratio (OR)|3.136||||2e-05|TWO_SIDED|95.0|1.798|5.468|||Stratified Cochran-Mantel-Haenszel test|||||5.468|1.798|0.00002
82597267|NCT03257267|164909035|SUPERIORITY||Hazard Ratio (HR)|0.698||||0.00024|TWO_SIDED|95.0|0.57|0.855||One-sided p-value|Stratified Log-rank Test|||||0.855|0.570|0.00024
82597268|NCT00746252|164909056|OTHER|||||||0.495||||||Threshold of significance is p\<.05|t-test, 2 sided|||Comparison of mean weight gain between groups.||||.495
82597269|NCT02684981|164909075|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in PACT-Q2 scores from V1 to V2||||< 0.0001
82597270|NCT02684981|164909075|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in convenience PACT-Q2 scores from V1 to V3||||< 0.0001
82597271|NCT02684981|164909076|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in satisfaction PACT-Q2 scores from V1 to V2||||< 0.0001
82597272|NCT02684981|164909076|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Statistical analysis for median change in satisfaction PACT-Q2 scores from V1 to V3||||< 0.0001
82597273|NCT02684981|164909077|OTHER||Mean Difference (Net)|18.377|STANDARD_ERROR_OF_MEAN|0.514|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in convenience PACT-Q2 scores between VKA and Pradaxa therapy at initiation stage (V2)||||< 0.001
82597274|NCT02684981|164909077|OTHER||Mean Difference (Net)|23.341|STANDARD_ERROR_OF_MEAN|0.509|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in convenience PACT-Q2 scores between VKA and Pradaxa therapy at continuation stage (V3)||||< 0.001
82597275|NCT02684981|164909078|OTHER||Mean Difference (Net)|15.884|STANDARD_ERROR_OF_MEAN|0.388|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in satisfaction PACT-Q2 scores between VKA and Pradaxa therapy at initiation stage (V2)||||< 0.001
82597276|NCT02684981|164909078|OTHER||Mean Difference (Net)|19.011|STANDARD_ERROR_OF_MEAN|0.408|<|0.001|||||||Mixed Models Analysis||The primary analysis of PACT-Q2 scores was based on the random intercept model, where the matched group is considered as a random effect, the treatment as a fixed effect and the score as the response variable.|Mean change in satisfaction PACT-Q2 scores between VKA and Pradaxa therapy at continuation stage (V3)||||< 0.001
82597277|NCT02684981|164909086|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test has been used for this analysis||Median convenience and satisfaction PACT-Q2 scores at last assessment compared to second assessment||||< 0.001
82597278|NCT02921971|164909106|SUPERIORITY||Least square (LS) Mean difference|-2.31|STANDARD_ERROR_OF_MEAN|1.21||0.0291|TWO_SIDED|95.0|-4.71|0.08||Above p-value is one-sided p-value. Threshold for significance is at 0.05 level.|Mixed-effect model with repeated measure|||Analysis was performed using mixed model repeated measures (MMRM) model. The model included fixed categorical effects of treatment group, randomization strata as per IVRS, timepoint, treatment-by-timepoint and strata-by-timepoint interactions, as well as the continuous fixed covariate of baseline and baseline-by-timepoint interactions.||0.08|-4.71|0.0291
82597279|NCT00452699|164909110|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.11|||<|0.001||95.0|0.07|0.15|||ANCOVA|||||0.15|0.07|<0.001
82597280|NCT01602692|164909114|OTHER|||||||0.24|||||||ANOVA|||End of PACU Mean Pain Level p-value between arms||||0.24
82597281|NCT01602692|164909114|OTHER|||||||0.76|||||||ANOVA|||First 24 hrs Post-op Mean Current Pain p-value between arms||||0.76
82597282|NCT01602692|164909114|OTHER|||||||0.78|||||||ANOVA|||First 24 hrs Post-op Mean Worst Pain p-value between arms||||0.78
82597283|NCT01602692|164909114|OTHER|||||||0.41|||||||ANOVA|||First 24 hrs Post-op Mean Least Pain p-value between arms||||0.41
82597284|NCT01602692|164909115|OTHER|||||||0.1|||||||ANOVA|||PACU IV hydromorphone p-value between arms||||0.10
82597285|NCT01602692|164909115|OTHER|||||||0.71|||||||ANOVA|||First 24 hr Post-op oxycodone p-value between arms||||0.71
82597286|NCT03468309|164909127|SUPERIORITY|T-test was used to compare means at baseline and 12-weeks|||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82597287|NCT03468309|164909128|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82654771|NCT00818883|165024626|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.0|||<|0.001||95.0|-7.5|-2.5||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-2.5|-7.5|<0.001
82597288|NCT03468309|164909129|SUPERIORITY||||||<|0.05|||||||ANOVA|Assumption of sphericity had been violated X2(2)=13.61, p\<.01 so Huynh-Feldt correction was used||||||<0.05
82597289|NCT03468309|164909130|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82597290|NCT00179309|164909134|SUPERIORITY_OR_OTHER|||||||0.12|ONE_SIDED|95.0||||Multiple comparisons were not done.|Log Rank|||48 evaluable pts will be randomized in a 1:1 ratio between two arms (24 evaluable pts per arm). Using standard formulae (e.g. nQuery Advisor v5), this number was selected to provide 80% power to detect a difference between 4.2 month median progression free survival (PFS) on the docetaxel alone arm and 8 month median PFS on the arm receiving PANVAC plus docetaxel, with a one-tailed alpha=0.10,assuming 36 months accrual and an additional 12 months of follow-up after the last pt has been enrolled.||||0.12
82597291|NCT03716869|164909163|SUPERIORITY||Odds Ratio (OR)|2.07|||<|0.001|TWO_SIDED|95.0|1.39|3.1|||Regression, Logistic|||Statistical analysis was conducted using the intent-to-treat principle. Analysis for primary and secondary outcomes that compared universal to targeted screening was conducted using mixed effects logistic regression.||3.10|1.39|<0.001
82597292|NCT03716869|164909164|SUPERIORITY||Odds Ratio (OR)|5.92|||<|0.001|TWO_SIDED|95.0|5.07|6.93|||Regression, Logistic|||||6.93|5.07|<0.001
82597293|NCT03716869|164909166|SUPERIORITY||Odds Ratio (OR)|3.3|||<|0.001|TWO_SIDED|95.0|2.49|4.38|||Regression, Logistic|||||4.38|2.49|<0.001
82597294|NCT03716869|164909172|SUPERIORITY||Odds Ratio (OR)|8.42|||<|0.001|TWO_SIDED|95.0|6.71|10.58|||Regression, Logistic||Test of interaction terms from mixed-effects logistic regression for subgroup analyses. Information above is sex x rand group interaction for identification of MDD symptoms among females. For males, OR 4.05 (95% CI 3.26-5.03).||"Sex x rand group interaction p=0.005 for SAP confirmation of need for follow-up.~Females 4.73 (3.19-7.02) Males 2.09 (1.38-3.16)~Sex x rand group interaction p=0.37 for treatment initiation. OR is not reported due to p\>0.05."|10.58|6.71|<0.001
82597295|NCT03716869|164909172|SUPERIORITY||Odds Ratio (OR)|8.65|||<|0.001|TWO_SIDED|95.0|6.58|11.35|||Regression, Logistic||Information above is for race/ethnicity x rand group interaction for identification of MDD symptoms for non-Hispanic white students. For non-Hispanic Black students OR 2.55 (95% CI 1.97-3.31), Hispanic 7.45 (4.98-11.17), other 12.41 (7.34-21.00).||"Race/ethnicity x rand group p=0.007 for SAP confirmation of need for follow-up. non-Hispanic white 2.24 (1.59-3.15) non-Hispanic Black 4.19 (2.03-8.65) Hispanic 10.15 (4.06-25.36) Other 12.22 (1.59-94.12)~Race/ethnicity x rand group interaction p=0.15 for treatment initiation. OR is not reported due to p\>0.05."|11.35|6.58|<0.001
82597296|NCT03716869|164909172|SUPERIORITY||Odds Ratio (OR)|5.47||||0.006|TWO_SIDED|95.0|4.65|6.44|||Regression, Logistic||Information above is location x rand group interaction for identification of MDD symptoms among urban students. For rural students and identification of depressive symptoms OR 13.60 (95% CI 7.28-25.42).||"Location x rand group interaction p=0.27 for SAP confirmation of need for follow-up. OR is not reported due to p\>0.05.~Location x rand group interaction p=0.36 for treatment initiation. OR is not reported due to p\>0.05."|6.44|4.65|0.006
82654772|NCT00818883|165024627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.7|||<|0.001|TWO_SIDED|95.0|-5.2|-2.2||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.2|-5.2|<0.001
82654773|NCT00818883|165024627|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.7|||<|0.001|TWO_SIDED|95.0|-4.1|-1.3||Overall type I error rate controlled using stepwise testing procedure. First treatment test done at Week 6. If statistically significant at significance level of 5%, then treatment comparison at Week 10 was performed. Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.3|-4.1|<0.001
82597297|NCT01789814|164909173|SUPERIORITY_OR_OTHER|||||||0.001||||||Prasugrel treatment when compared to Clopidogrel was associated with significant reduction in platelets aggregation for all plateles agonist (ADD, SFFFLRN, AYPGKF) at all measured time points.|t-test, 2 sided|||Each patient will have paired samples representing their baseline as well as an on-drug sample. The magnitude of platelet inhibition for each studied agonist will be performed utilizing mean maximal change from baseline in light transmission aggregometry. The paired samples will be analyzed using a two-tailed student's t-test. Statistical significance will be assumed to occur when p\<0.05.||||0.001
82597298|NCT05726318|164909178|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
82597299|NCT05726318|164909180|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
82597300|NCT05726318|164909181|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||.68
82597301|NCT05726318|164909183|SUPERIORITY|||||||0.78|||||||Chi-squared|||||||.78
82597302|NCT05726318|164909184|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
82597303|NCT04589988|164909185|SUPERIORITY|||||||0.068||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.068
82597304|NCT04589988|164909186|SUPERIORITY|||||||0.063||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.063
82597305|NCT04589988|164909187|SUPERIORITY|||||||0.724||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.724
82597306|NCT04589988|164909188|SUPERIORITY|||||||0.447||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.447
82597307|NCT04589988|164909189|SUPERIORITY|||||||0.696||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, work status, and depression score at baseline.||||0.696
82597308|NCT04589988|164909190|SUPERIORITY|||||||0.798||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.798
82597309|NCT04589988|164909191|SUPERIORITY|||||||0.135||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, and depression score at baseline.||||0.135
82597310|NCT04589988|164909192|SUPERIORITY|||||||0.291||||||P value shown is for group by time interaction.|Mixed Models Analysis|||A linear mixed effects model was used to assess the effects of time (6-month follow-up versus baseline), group (REBIL versus control) and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for age, sex, race, work status, and depression score at baseline.||||0.291
82491924|NCT00739674|164677121|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.262
82597311|NCT04589988|164909193|SUPERIORITY||Incidence rate ratio|0.83||||0.631|TWO_SIDED|95.0|0.4|1.76|||Negative binomial regression||IRR reflects REBIL intervention group versus control group.|Fall rates were compared between REBIL and control groups using negative binomial regression. The model adjusted for age, sex, ace, and depression score at baseline. The null hypothesis was that fall rates do not differ between groups.||1.76|0.40|0.631
82597312|NCT01903837|164909195|EQUIVALENCE|Equivalence margin of 10 points|Least Square Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.17||0.3|TWO_SIDED|95.0|-2.0|2.6|||Least Square Mean Difference|||||2.6|-2.0|0.3
82597313|NCT01903837|164909196|SUPERIORITY|||||||0.006|||||||Mixed Models Analysis|||||||0.006
82597314|NCT01903837|164909196|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82597315|NCT01903837|164909197|SUPERIORITY|||||||0.018|||||||Mixed Models Analysis|||||||0.018
82597316|NCT01903837|164909197|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82654774|NCT00818883|165024628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.3|||<|0.001|TWO_SIDED|95.0|-10.5|-4.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-4.2|-10.5|<0.001
82654775|NCT00818883|165024628|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2||||0.001|TWO_SIDED|95.0|-6.8|-1.7||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.7|-6.8|0.001
82597317|NCT01857713|164909200|NON_INFERIORITY_OR_EQUIVALENCE|It was assumed that the study would be successful if the mean % reduction is significantly greater than 25%. Assuming a 35% reduction in RSI, a power of 80%, one-sided significance level of 0.05, 85 subjects are required for the study. It was decided to recruit up to 100 subjects for this study.|||||<|0.05|||||||t-test, 1 sided|||The sample size was based on the primary effectiveness variable (% reduction in RSI from Baseline to Week 4). It was assumed that the study would be successful if the mean % reduction is significantly greater than 25%. Assuming a 35% reduction in RSI, a power of 80%, one-sided significance level of 0.05, 85 subjects are required for the study. It was decided to recruit up to 100 subjects for this study.||||<0.05
82597318|NCT01857869|164909210|OTHER||1-Relative Risk|86.7|||<|0.0001|TWO_SIDED|95.0|66.8|94.6||Two-sided Fisher Exact test was used for the comparison of malaria incidence after first/second CHMI between the compared groups.|Mantel Haenszel|||Vaccine efficacy (VE) was defined as 100\*(1-Relative Risk \[RR\]).||94.6|66.8|<0.0001
82597319|NCT01857869|164909210|OTHER||1-Relative Risk|62.5||||0.0009|TWO_SIDED|95.0|29.4|80.1||Two-sided Fisher Exact test was used for the comparison of malaria incidence after first/second CHMI between the compared groups.|Mantel Haenszel|||Vaccine efficacy (VE) was defined as 100\*(1-Relative Risk \[RR\]).||80.1|29.4|0.0009
82597320|NCT00774345|164909233|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.276|TWO_SIDED|95.0|0.61|1.15||The p-value is based on a stratified log-rank test.|Log Rank||Based on the stratified cox proportional hazards model comparing the hazard functions associated with the treatment groups.|||1.15|0.61|0.276
82597321|NCT00879697|164909263|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||The effect of training in both groups were assessed by a 2-way ANOVA (Time x Group) for repeated measures. When significance was obtained, the Newman-Keuls post hoc test was used to identify the differences.||||<0.05
82597322|NCT01437397|164909276|SUPERIORITY_OR_OTHER||Least squares mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.073|0.144|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.144|0.073|<0.0001
82597323|NCT01437397|164909276|SUPERIORITY_OR_OTHER||Least squares mean difference|0.087|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.052|0.123|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.123|0.052|<0.0001
82597324|NCT01437397|164909277|SUPERIORITY_OR_OTHER||Least squares mean difference|0.045|STANDARD_ERROR_OF_MEAN|0.017||0.01|TWO_SIDED|95.0|0.011|0.079|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.079|0.011|0.010
82597325|NCT01437397|164909277|SUPERIORITY_OR_OTHER||Least squares mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.017||0.133|TWO_SIDED|95.0|-0.008|0.06|||Mixed Models Analysis|Treatment, sex, smoking-status, visit and group-by-visit as factors; screening pre- and post-bronchodilator FEV1, age and baseline FEV1 as covariates||||0.060|-0.008|0.133
82597326|NCT01437397|164909278|SUPERIORITY_OR_OTHER||Least squares mean difference|1.436|STANDARD_ERROR_OF_MEAN|0.297|<|0.0001|TWO_SIDED|95.0|0.854|2.018|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||2.018|0.854|<0.0001
82597327|NCT01437397|164909278|SUPERIORITY_OR_OTHER||Least squares mean difference|1.395|STANDARD_ERROR_OF_MEAN|0.294|<|0.0001|TWO_SIDED|95.0|0.818|1.972|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||1.972|0.818|<0.0001
82597328|NCT01437397|164909279|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.353|STANDARD_ERROR_OF_MEAN|1.075|<|0.0001|TWO_SIDED|95.0|-6.462|-2.244|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||-2.244|-6.462|<0.0001
82597329|NCT01437397|164909279|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.728|STANDARD_ERROR_OF_MEAN|1.066||0.0005|TWO_SIDED|95.0|-5.819|-1.637|||Mixed Models Analysis|Treatment group, sex, smoking-status, visit, and treatment group-by-visit as factors; visit, age baseline BDI/SGRQ as covariates||||-1.637|-5.819|0.0005
82597330|NCT00853671|164909286|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson Correlation|||||||<0.0001
82491925|NCT00739674|164677122|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026||95.0|||||Regression, Linear|Adjusted for study medication, age, gender, race, cardiovascular risk, baseline weight, and baseline waist circumference.||||||0.026
82597331|NCT00853671|164909288|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Pearson Correlation|||Pearson Correlation||||<0.0001
82597332|NCT00328627|164909299|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.54|||<|0.001|TWO_SIDED|95.0|-0.67|-0.41||For the primary analysis, the overall average HbA1c response of the Alogliptin/pioglitazone combination groups was compared with that of the pioglitazone alone groups at the 2-sided 0.05 significance level with no adjustment for multiple comparisons.|ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||The null hypothesis was that the doses of alogliptin do not have any additive effect on glycemic control (HbA1c) in addition to the effect produced by pioglitazone alone. The alternative hypothesis was that at least the higher dose of alogliptin would have an additive effect on glycemic control (HbA1c) in addition to the effect produced by pioglitazone alone.||-0.41|-0.67|<0.001
82597333|NCT00328627|164909299|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.53|||<|0.001|TWO_SIDED|95.0|-0.66|-0.41|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.41|-0.66|<0.001
82654776|NCT00818883|165024629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3|||<|0.001|TWO_SIDED|95.0|-6.3|-2.3||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.3|-6.3|<0.001
82654777|NCT00818883|165024629|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.006|TWO_SIDED|95.0|-4.2|-0.7||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-0.7|-4.2|0.006
82654778|NCT00818883|165024630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.8|||<|0.001|TWO_SIDED|95.0|-8.4|-3.2||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-3.2|-8.4|<0.001
82654779|NCT00818883|165024630|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-6.4|-2.0||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-2.0|-6.4|<0.001
82597334|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-0.93|-0.48||As a supportive analysis, each of the individual combination treatment groups was compared with the component treatment groups receiving aloliptin alone and pioglitazone alone at the 2-sided 0.05 significance level with no multiplicity adjustment.|ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.48|-0.93|<0.001
82597335|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.59|||<|0.001|TWO_SIDED|95.0|-0.81|-0.38|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.38|-0.81|<0.001
82597336|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.37||||0.001|TWO_SIDED|95.0|-0.59|-0.15|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.15|-0.59|0.001
82597337|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|||<|0.001|TWO_SIDED|95.0|-0.74|-0.3|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.30|-0.74|<0.001
82597338|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.76|||<|0.001|TWO_SIDED|95.0|-0.98|-0.53|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.53|-0.98|<0.001
82597339|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.7|-0.25|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.25|-0.70|<0.001
82597340|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.27|-0.71|<0.001
82597341|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47|||<|0.001|TWO_SIDED|95.0|-0.7|-0.25|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.25|-0.70|<0.001
82597342|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.13|-0.68|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.68|-1.13|<0.001
82597343|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.55|||<|0.001|TWO_SIDED|95.0|-0.77|-0.33|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.33|-0.77|<0.001
82597344|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|||<|0.001|TWO_SIDED|95.0|-0.92|-0.48|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.48|-0.92|<0.001
82597345|NCT00328627|164909331|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.61|||<|0.001|TWO_SIDED|95.0|-0.83|-0.39|||ANCOVA|ANCOVA model with treatment and geographic region as class variables, and baseline metformin dose and baseline HbA1c as continuous covariates.||||-0.39|-0.83|<0.001
82597346|NCT02025426|164909476|OTHER|||||||0.547|||||||Kruskal-Wallis|||||||0.547
82597347|NCT02025426|164909478|OTHER|||||||0.925|||||||Kruskal-Wallis|||||||0.925
82597348|NCT02025426|164909479|OTHER|||||||0.498|||||||Kruskal-Wallis|||||||0.498
82597349|NCT02025426|164909480|OTHER|||||||0.201|||||||Kruskal-Wallis|||||||0.201
82597350|NCT02025426|164909481|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82597351|NCT02025426|164909482|OTHER|||||||0.962|||||||Fisher Exact|||||||0.962
82597352|NCT02025426|164909483|OTHER||||||>|0.999|||||||Fisher Exact|||||||>0.999
82597353|NCT00527605|164909497|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-14.23|||<|0.0001||95.0|-20.23|-8.22|||t-test, 2 sided||Dutasteride arm minus placebo arm.|||-8.22|-20.23|<0.0001
82597354|NCT04986202|164909513|SUPERIORITY||Mean Difference (Final Values)|-0.92||||0.537|TWO_SIDED|95.0|-3.86|2.02||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||2.02|-3.86|0.537
82597355|NCT04986202|164909513|SUPERIORITY||Mean Difference (Final Values)|-1.81||||0.221|TWO_SIDED|95.0|-4.71|1.09||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||1.09|-4.71|0.221
82597356|NCT04986202|164909514|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.559|TWO_SIDED|95.0|-5.7|10.5||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||10.5|-5.7|0.559
82597357|NCT04986202|164909514|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.195|TWO_SIDED|95.0|-2.7|13.3||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|||13.3|-2.7|0.195
82597358|NCT04986202|164909515|SUPERIORITY||Mean Difference (Final Values)|-1.65||||0.289|TWO_SIDED|95.0|-4.71|1.41||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.41|-4.71|0.289
82654780|NCT00818883|165024631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.8|||<|0.001|TWO_SIDED|95.0|-5.5|-2.1||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 6 data.||-2.1|-5.5|<0.001
82597359|NCT04986202|164909515|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.571|TWO_SIDED|95.0|-3.86|2.13||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||2.13|-3.86|0.571
82597360|NCT04986202|164909515|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.89|TWO_SIDED|95.0|-3.8|3.3||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||3.30|-3.80|0.890
82597361|NCT04986202|164909515|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.558|TWO_SIDED|95.0|-4.55|2.46||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||2.46|-4.55|0.558
82597362|NCT04986202|164909516|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.619|TWO_SIDED|95.0|-11.1|6.6||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||6.6|-11.1|0.619
82597363|NCT04986202|164909516|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.522|TWO_SIDED|95.0|-5.8|11.4||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||11.4|-5.8|0.522
82597364|NCT04986202|164909516|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.267|TWO_SIDED|95.0|-4.4|15.8||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||15.8|-4.4|0.267
82654781|NCT00818883|165024631|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-4.1|-1.1||Tested at 5% significance level.|ANCOVA|||ANCOVA model with treatment group as a fixed effect and baseline value as a covariate was performed using Week 10 data.||-1.1|-4.1|<0.001
82597365|NCT04986202|164909516|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.657|TWO_SIDED|95.0|-7.6|12.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||12.1|-7.6|0.657
82597366|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|0.95||||0.312|TWO_SIDED|95.0|0.86|1.05||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 16 weeks||1.05|0.86|0.312
82597367|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|0.91||||0.07|TWO_SIDED|95.0|0.83|1.01||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 16 weeks||1.01|0.83|0.070
82597368|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|1.01||||0.911|TWO_SIDED|95.0|0.91|1.12||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 24 weeks||1.12|0.91|0.911
82597369|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|1.01||||0.837|TWO_SIDED|95.0|0.91|1.12||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 24 weeks||1.12|0.91|0.837
82654782|NCT03312257|165024687|OTHER|Repeated measures analyses using mixed linear models in STATA (version 15) were undertaken to model myopia progression (primary outcome) and axial elongation (secondary outcome) to account for the clusters of correlated data due to repeated participant outcome measures.|Mean Difference (Final Values)|0.03||||0.7|TWO_SIDED|95.0|-0.14|0.21|||Repeated measures analyses|||||0.21|-0.14|0.70
82654783|NCT03312257|165024688|OTHER|Repeated measures analyses using mixed linear models in STATA (version 15) were undertaken to model myopia progression (primary outcome) and axial elongation (secondary outcome) to account for the clusters of correlated data due to repeated participant outcome measures.|Mean Difference (Final Values)|-0.08||||0.054|TWO_SIDED|95.0|-0.16|0.002|||Repeated measures analyses|||||0.002|-0.16|0.054
82491926|NCT00739674|164677123|SUPERIORITY_OR_OTHER_LEGACY|||||||0.212||95.0|||||Log Rank|||||||0.212
82597370|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|0.95||||0.37|TWO_SIDED|95.0|0.84|1.07||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 48 weeks||1.07|0.84|0.370
82597371|NCT04986202|164909517|SUPERIORITY||Geometric mean ratio|0.93||||0.205|TWO_SIDED|95.0|0.83|1.04||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|NT-proBNP change from baseline at 48 weeks||1.04|0.83|0.205
82597372|NCT04986202|164909518|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.183|TWO_SIDED|95.0|-0.2|1.2||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.2|-0.2|0.183
82654784|NCT00982553|165024689|SUPERIORITY||Geometric mean ratios|0.79|||||TWO_SIDED|95.0|0.62|1.0||||||||1.00|0.62|
82654785|NCT00982553|165024690|SUPERIORITY||Geometric mean ratios|1.16|||||TWO_SIDED|95.0|0.73|1.86||||||||1.86|0.73|
82654786|NCT00982553|165024691|SUPERIORITY||Geometric mean ratios|1.01|||||TWO_SIDED|95.0|0.87|1.18||||||||1.18|0.87|
82654787|NCT00982553|165024692|SUPERIORITY||Geometric mean ratios|0.82|||||TWO_SIDED|95.0|0.36|1.85||||||||1.85|0.36|
82597373|NCT04986202|164909518|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.898|TWO_SIDED|95.0|-0.8|0.7||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||0.7|-0.8|0.898
82597374|NCT04986202|164909518|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.316|TWO_SIDED|95.0|-0.4|1.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.1|-0.4|0.316
82597375|NCT04986202|164909518|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.934|TWO_SIDED|95.0|-0.7|0.8||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||0.8|-0.7|0.934
82597376|NCT04986202|164909519|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.725|TWO_SIDED|95.0|-1.647|2.366||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||2.366|-1.647|0.725
82597377|NCT04986202|164909519|SUPERIORITY||Mean Difference (Final Values)|-0.594||||0.555|TWO_SIDED|95.0|-2.571|1.382||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.382|-2.571|0.555
82597378|NCT04986202|164909519|SUPERIORITY||Mean Difference (Final Values)|0.657||||0.586|TWO_SIDED|95.0|-1.71|3.025||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||3.025|-1.710|0.586
82597379|NCT04986202|164909519|SUPERIORITY||Mean Difference (Final Values)|-0.815||||0.486|TWO_SIDED|95.0|-3.108|1.478||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.478|-3.108|0.486
82597380|NCT04986202|164909520|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.968|TWO_SIDED|95.0|-4.1|3.9||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||3.9|-4.1|0.968
82597381|NCT04986202|164909520|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.251|TWO_SIDED|95.0|-6.3|1.6||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.6|-6.3|0.251
82597382|NCT04986202|164909520|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.872|TWO_SIDED|95.0|-4.8|5.7||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Difference in adjusted mean change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||5.7|-4.8|0.872
82597383|NCT04986202|164909520|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.682|TWO_SIDED|95.0|-6.2|4.1||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|No formal hypothesis testing and p-value is not adjusted for multiple comparisons.|Change from baseline at 24 weeks||4.1|-6.2|0.682
82597384|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.029||||0.76|TWO_SIDED|95.0|0.857|1.236||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.236|0.857|0.760
82597385|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.209||||0.039|TWO_SIDED|95.0|1.01|1.448||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the baseline value are included in the model as explanatory variables.|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Change from baseline at 16 weeks||1.448|1.010|0.039
82597386|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.111||||0.241|TWO_SIDED|95.0|0.931|1.326||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.326|0.931|0.241
82491927|NCT00283400|164677140|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.05|||<|0.05|TWO_SIDED|95.0|0.65|14.1|||Mixed Models Analysis|Post-hoc comparison of outcomes in dosage tier 1 vs dosage tier 2.||||14.1|0.65|<0.05
82597387|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.19||||0.049|TWO_SIDED|95.0|1.001|1.414||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.414|1.001|0.049
82597388|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.151||||0.158|TWO_SIDED|95.0|0.946|1.401||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.401|0.946|0.158
82597389|NCT04986202|164909522|SUPERIORITY||Geometric mean ratio|1.159||||0.131|TWO_SIDED|95.0|0.957|1.404||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.404|0.957|0.131
82597390|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|1.0111||||0.874|TWO_SIDED|95.0|0.8819|1.1592||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.1592|0.8819|0.874
82597391|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|0.9157||||0.2|TWO_SIDED|95.0|0.8002|1.0479||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 16 weeks||1.0479|0.8002|0.200
82597392|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|1.1063||||0.135|TWO_SIDED|95.0|0.969|1.2631||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.2631|0.9690|0.135
82597393|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|1.0842||||0.22|TWO_SIDED|95.0|0.9527|1.2339||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 24 weeks||1.2339|0.9527|0.220
82597394|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|1.0496||||0.467|TWO_SIDED|95.0|0.9211|1.196||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.1960|0.9211|0.467
82597395|NCT04986202|164909523|SUPERIORITY||Geometric mean ratio|1.0312||||0.636|TWO_SIDED|95.0|0.908|1.1711||Two-sided test.|ANCOVA|Treatment group, neutrophil count stratification factor and the log-transformed baseline value are included in the model as explanatory variables.|Geometric mean ratio in change from baseline between AZD4831 and placebo.|Change from baseline at 48 weeks||1.1711|0.9080|0.636
82597396|NCT02118792|164909529|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82597397|NCT04283123|164909586|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.41|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
82597398|NCT04283123|164909586|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.45|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
82597399|NCT04283123|164909587|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.48|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
82597400|NCT04283123|164909587|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.32|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
82654788|NCT00235456|165024693|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.61||||0.04|TWO_SIDED|95.0|0.38|0.98|||Chi-squared|||||0.98|0.38|0.04
82654789|NCT00235456|165024694|SUPERIORITY_OR_OTHER|||||||0.54|||||||t-test, 2 sided|||||||0.54
82491928|NCT02555683|164677204|SUPERIORITY||rate ratio|1.04||||0.8|TWO_SIDED|95.0|0.77|1.41||adjusted p-value|negative binomial regression model|Adjusted p-values obtained from the closed testing procedure||||1.41|0.77|0.800
82597401|NCT04283123|164909588|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.6|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the treatment group. The standardized effect size was interpreted using Cohen's criteria.|||||
82597402|NCT04283123|164909588|OTHER|Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|Cohen's d|0.12|||||TWO_SIDED||||||||Wilcoxon-signed rank test to compare differences from pretest to posttest for the waitlist control group. The standardized effect size was interpreted using Cohen's criteria.|||||
82597403|NCT02264990|164909608|SUPERIORITY|A fixed sequence testing procedure was used for analyses of the primary and secondary efficacy endpoints to control for the familywise error rate. If veliparib plus C/P treatment was not statistically significantly better compared to the investigators' choice of standard therapy for the primary efficacy endpoint of OS in LSP+ participants, then statistical significance would not be declared for any of the secondary efficacy endpoints.|Hazard Ratio (HR)|0.644||||0.113|TWO_SIDED|95.0|0.396|1.048||Statistical significance was determined by a two-sided P value ≤ 0.05.|Log Rank|Log rank test stratified by ECOG performance status, investigators' preferred platinum therapy, and gender.|Hazard ratio obtained using the covariate adjusted Cox Proportional Hazard Model with covariates being ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.048|0.396|0.113
82597404|NCT02264990|164909609|OTHER||Hazard Ratio (HR)|0.647||||0.26|TWO_SIDED|95.0|0.388|1.08|||Log Rank|Log-rank test stratified by investigator's preferred platinum therapy, gender, and ECOG performance status.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.080|0.388|0.260
82654790|NCT00235456|165024695|SUPERIORITY_OR_OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
82654791|NCT00235456|165024696|SUPERIORITY_OR_OTHER|||||||0.57|||||||t-test, 2 sided|||||||0.57
82654792|NCT00235456|165024697|SUPERIORITY_OR_OTHER|||||||0.71|||||||t-test, 2 sided|||||||0.71
82654793|NCT00235456|165024698|SUPERIORITY_OR_OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
82654794|NCT01089647|165024700|OTHER||||||=|0.946|||||||ANOVA|||Between-group comparisons at follow-up were made using a stepwise multivariable logistic model.||||=0.946
82654795|NCT02465567|165024709|SUPERIORITY||Rate Ratio|0.76|||<|0.0001|TWO_SIDED|95.0|0.69|0.83|||Negative Binomial Regression|||||0.83|0.69|<0.0001
82654796|NCT02465567|165024709|SUPERIORITY||Rate Ratio|0.87||||0.0027|TWO_SIDED|95.0|0.79|0.95|||Negative Binomial Regression|||||0.95|0.79|0.0027
82654797|NCT02465567|165024709|SUPERIORITY||Rate Ratio|0.75|||<|0.0001|TWO_SIDED|95.0|0.69|0.83|||Negative Binomial Regression|||||0.83|0.69|<0.0001
82597405|NCT02264990|164909610|OTHER||Odds Ratio (OR)|0.66||||0.455|TWO_SIDED|95.0|0.23|1.9|||Regression, Logistic|Logistic regression adjusted for the covariates of ECOG performance status, investigators' preferred platinum therapy, and gender.|Odds ratio is from covariate adjusted logistic regression with the covariates being ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.90|0.23|0.455
82597406|NCT02264990|164909611|OTHER||Hazard Ratio (HR)|0.986||||0.846|TWO_SIDED|95.0|0.827|1.176|||Log Rank|Log rank test stratified by LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.176|0.827|0.846
82597407|NCT02264990|164909612|OTHER||Hazard Ratio (HR)|1.035||||0.473|TWO_SIDED|95.0|0.867|1.235|||Log Rank|Log rank test stratified by LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|The hazard ratio was obtained using the covariate adjusted Cox Proportional Hazard Model with covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.235|0.867|0.473
82597408|NCT02264990|164909613|OTHER||Odds Ratio (OR)|0.86||||0.409|TWO_SIDED|95.0|0.59|1.24|||Regression, Logistic|Logistic regression adjusted for the covariates of LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|Odds ratio is from covariate adjusted logistic regression with the covariates being LSP status, ECOG performance status, investigators' preferred platinum therapy, and gender.|||1.24|0.59|0.409
82597409|NCT01849172|164909619|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82597410|NCT00797732|164909685|SUPERIORITY|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||.17
82597411|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.008||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Swallowing difficulty||||0.008
82597412|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.016||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Anterior neck pain||||0.016
82597413|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.019||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Right chest pain||||0.019
82597414|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.035||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Left chest pain||||0.035
82597415|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.089||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Back pain||||0.089
82597416|NCT02112370|164909687|SUPERIORITY_OR_OTHER|||||||0.634||||||threshold p value for significance \< 0.05|t-test, 2 sided|||Posterior neck pain||||0.634
82597417|NCT02275338|164909700|OTHER|||||||0.0055||||||The expected proportion of responders using Lanreotide was 50%, 1 sided test, 2.5% significance level alpha and power of 80% using Z-test for binomial proportion.|Binomial test|||One sided binomial test to compare percentage of responding subjects to theoretical proportion of 30%.||||0.0055
82597418|NCT03504397|164909723|SUPERIORITY||Hazard Ratio (HR)|0.734||||0.0024|TWO_SIDED|95.0|0.591|0.91||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||0.910|0.591|0.0024
82597419|NCT03504397|164909724|SUPERIORITY||Hazard Ratio (HR)|0.784||||0.0075|TWO_SIDED|95.0|0.644|0.954||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||0.954|0.644|0.0075
82597420|NCT03504397|164909725|SUPERIORITY||Hazard Ratio (HR)|1.295||||0.028|TWO_SIDED|95.0|0.994|1.687||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||1.687|0.994|0.0280
82597421|NCT03504397|164909726|SUPERIORITY||Hazard Ratio (HR)|0.713||||0.0508|TWO_SIDED|95.0|0.475|1.071||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|Log Rank|||||1.071|0.475|0.0508
82654798|NCT02465567|165024709|SUPERIORITY||Rate Ratio|0.86||||0.002|TWO_SIDED|95.0|0.79|0.95|||Negative Binomial Regression|||||0.95|0.79|0.0020
82597422|NCT03504397|164909727|SUPERIORITY||Hazard Ratio (HR)|1.142||||0.1685|TWO_SIDED|95.0|0.874|1.492|||Log Rank||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|||1.492|0.874|0.1685
82597423|NCT03504397|164909728|SUPERIORITY|||||||0.4536|||||||Cochran-Mantel-Haenszel|Based on 1-sided Cochran-Mantel-Haenszel (CMH) test. Stratification factors were Region, Number of Metastatic Sites and Prior Gastrectomy.||||||0.4536
82597424|NCT03504397|164909729|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.0721|TWO_SIDED|95.0|0.573|1.087|||Log Rank||"Log-rank test stratified by:~* Region (Asia vs Non-Asia)~* Number of organs with metastatic sites (0 to 2 vs ≥ 3)~* Prior gastrectomy (Yes or No)"|||1.087|0.573|0.0721
82597425|NCT03603496|164909745|SUPERIORITY||Risk Ratio (RR)|1.18||||0.19|TWO_SIDED|95.0|0.92|1.5|||Chi-squared||Comparing TTCM as numerator, QL as denominator (reference group)|Two-stage multiple imputation techniques were used to estimate the missing smoking outcomes. 1st stage: we imputed missing data from surveys. 2nd stage: we imputed missing data from biochemical sample collection. Null hypothesis was no difference between arms in biochemically-validated past 7-day abstinence from cigarettes and other conventional tobacco products at 6-months. Sample of 1350 (675/group) was planned to detect a 6.5% difference (23.0% vs. 16.5%) with 84% power and 2-sided p\<0.05.||1.50|0.92|.19
82597426|NCT03603496|164909746|SUPERIORITY||Risk Ratio (RR)|1.22||||0.002|TWO_SIDED|95.0|1.08|1.35|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.35|1.08|.002
82597427|NCT03603496|164909747|SUPERIORITY||Risk Ratio (RR)|1.23||||0.001|TWO_SIDED|95.0|1.09|1.37|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.37|1.09|.001
82597428|NCT03603496|164909748|SUPERIORITY||Risk Ratio (RR)|1.13||||0.079|TWO_SIDED|95.0|0.98|1.29|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.29|0.98|.079
82654799|NCT02465567|165024710|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0035|TWO_SIDED|95.0|0.807|0.959|||Regression, Cox|||||0.959|0.807|0.0035
82654800|NCT02465567|165024710|SUPERIORITY||Hazard Ratio (HR)|0.887||||0.057|TWO_SIDED|95.0|0.814|0.966|||Regression, Cox|||||0.966|0.814|0.057
82654801|NCT02465567|165024710|SUPERIORITY||Hazard Ratio (HR)|0.866||||0.0011|TWO_SIDED|95.0|0.794|0.944|||Regression, Cox|||||0.944|0.794|0.0011
82597429|NCT03603496|164909749|SUPERIORITY||Risk Ratio (RR)|1.32|||<|0.0001|TWO_SIDED|95.0|1.21|1.44|||Chi-squared|||Participants lost to follow-up or with missing data are counted as having received no treatment. The null hypothesis was no difference between study arms.||1.44|1.21|<.0001
82597430|NCT03603496|164909750|SUPERIORITY||Risk Ratio (RR)|1.35|||<|0.0001|TWO_SIDED|95.0|1.23|1.5|||Chi-squared|||Participants lost to follow-up or with missing data are counted as having received no treatment. The null hypothesis was no difference between study arms.||1.50|1.23|<.0001
82597431|NCT03603496|164909751|SUPERIORITY||Risk Ratio (RR)|1.31||||0.033|TWO_SIDED|95.0|1.02|1.66|||Chi-squared||Numerator is TTCM, denominator (reference group) is QL|Multiple imputation techniques were used to estimate the missing smoking outcomes. The null hypothesis was no difference between study arms.||1.66|1.02|.033
82597432|NCT03594227|164909752|SUPERIORITY||Mean Difference (Net)|-19.26|STANDARD_ERROR_OF_MEAN|5.02||0.011|TWO_SIDED|95.0|-33.98|-4.54||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-4.54|-33.98|0.011
82597433|NCT03594227|164909752|SUPERIORITY||Mean Difference (Final Values)|-24.08|STANDARD_ERROR_OF_MEAN|5.02||0.001|TWO_SIDED|95.0|-38.8|-9.36||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-9.36|-38.80|0.001
82597434|NCT03594227|164909752|SUPERIORITY||Mean Difference (Final Values)|-19.54|STANDARD_ERROR_OF_MEAN|5.133||0.01|TWO_SIDED|95.0|-34.41|-4.67||All statistical testing was two-sided and performed using a significance (alpha) level of 0.05.|Mixed Models Analysis|||The planned sample size is approximately 95 enrolled subjects with approximately 45 subjects enrolled with AT or AU. Because the primary efficacy analysis of mean percent reduction in hair loss using SALT scores is expected to be more sensitive than the SALT50 responder analysis, the power for the primary analysis is also expected to be no less than 80%.||-4.67|-34.41|0.010
82597435|NCT03594227|164909753|SUPERIORITY||Mean Difference (Final Values)|-19.17|STANDARD_ERROR_OF_MEAN|5.165||0.013|TWO_SIDED|95.0|-34.33|-4.02|||Mixed Models Analysis|||||-4.02|-34.33|0.013
82597436|NCT03594227|164909753|SUPERIORITY||Mean Difference (Net)|-24.53|STANDARD_ERROR_OF_MEAN|5.165||0.002|TWO_SIDED|95.0|-39.69|-9.38|||Mixed Models Analysis|||||-9.38|-39.69|0.002
82597437|NCT03594227|164909753|SUPERIORITY||Mean Difference (Net)|-19.17|STANDARD_ERROR_OF_MEAN|5.281||0.014|TWO_SIDED|95.0|-34.48|-3.86|||Mixed Models Analysis|||||-3.86|-34.48|0.014
82597438|NCT03594227|164909754|SUPERIORITY||Mean Difference (Net)|-11.29|STANDARD_ERROR_OF_MEAN|3.359||0.025|TWO_SIDED|95.0|-21.14|-1.45|||Mixed Models Analysis|||||-1.45|-21.14|0.025
82597439|NCT03594227|164909754|SUPERIORITY||Mean Difference (Net)|-15.25|STANDARD_ERROR_OF_MEAN|3.359||0.003|TWO_SIDED|95.0|-25.1|-5.4|||Mixed Models Analysis|||||-5.40|-25.10|0.003
82597440|NCT03594227|164909754|SUPERIORITY||Mean Difference (Net)|-17.55|STANDARD_ERROR_OF_MEAN|3.434|<|0.001|TWO_SIDED|95.0|-27.49|-7.6|||Mixed Models Analysis|||||-7.60|-27.49|<0.001
82597441|NCT03594227|164909755|SUPERIORITY||Mean Difference (Net)|-14.4|STANDARD_ERROR_OF_MEAN|3.599||0.008|TWO_SIDED|95.0|-24.95|-3.84|||Mixed Models Analysis|||||-3.84|-24.95|0.008
82597442|NCT03594227|164909755|SUPERIORITY||Mean Difference (Net)|-19.01|STANDARD_ERROR_OF_MEAN|3.599|<|0.001|TWO_SIDED|95.0|-29.56|-8.45|||Mixed Models Analysis|||||-8.45|-29.56|<0.001
82597443|NCT03594227|164909755|SUPERIORITY||Mean Difference (Net)|-17.52|STANDARD_ERROR_OF_MEAN|3.679||0.001|TWO_SIDED|95.0|-28.18|-6.86|||Mixed Models Analysis|||||-6.86|-28.18|0.001
82597444|NCT03594227|164909756|SUPERIORITY||Odds Ratio (OR)|4.6||||0.124|TWO_SIDED|95.0|0.7|31.8|||Mixed Models Analysis|||||31.8|0.7|0.124
82597445|NCT03594227|164909756|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.079|TWO_SIDED|95.0|0.8|38.3|||Mixed Models Analysis|||||38.3|0.8|0.079
82597446|NCT03594227|164909756|SUPERIORITY||Mean Difference (Final Values)|3.9||||0.177|TWO_SIDED|95.0|0.5|27.7|||Mixed Models Analysis|||||27.7|0.5|0.177
82597447|NCT03594227|164909757|SUPERIORITY||Odds Ratio (OR)|4.6||||0.124|TWO_SIDED|95.0|0.7|31.8|||Mixed Models Analysis|||||31.8|0.7|0.124
82654802|NCT02465567|165024710|SUPERIORITY||Hazard Ratio (HR)|0.873||||0.0019|TWO_SIDED|95.0|0.801|0.951|||Regression, Cox|||||0.951|0.801|0.0019
82597448|NCT03594227|164909757|SUPERIORITY||Odds Ratio (OR)|5.6||||0.079|TWO_SIDED|95.0|0.8|38.3|||Mixed Models Analysis|||||38.3|0.8|0.079
82597449|NCT03594227|164909757|SUPERIORITY||Odds Ratio (OR)|3.9||||0.177|TWO_SIDED|95.0|0.5|27.7|||Mixed Models Analysis|||||27.7|0.5|0.177
82597450|NCT03594227|164909758|SUPERIORITY|||||||0.471|||||||Wilcoxon (Mann-Whitney)|||||||0.471
82597451|NCT03594227|164909758|SUPERIORITY|||||||0.457|||||||Wilcoxon (Mann-Whitney)|||||||0.457
82597452|NCT03594227|164909758|SUPERIORITY|||||||0.367|||||||Wilcoxon (Mann-Whitney)|||||||0.367
82597453|NCT03594227|164909759|SUPERIORITY|||||||0.187|||||||Wilcoxon (Mann-Whitney)|||||||0.187
82597454|NCT03594227|164909759|SUPERIORITY|||||||0.375|||||||Wilcoxon (Mann-Whitney)|||||||0.375
82597455|NCT03594227|164909759|SUPERIORITY|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||||||0.581
82597456|NCT03594227|164909760|SUPERIORITY|||||||0.444|||||||Wilcoxon (Mann-Whitney)|||||||0.444
82597457|NCT03594227|164909760|SUPERIORITY|||||||0.861|||||||Wilcoxon (Mann-Whitney)|||||||0.861
82597458|NCT03594227|164909760|SUPERIORITY|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
82597459|NCT03594227|164909761|SUPERIORITY|||||||0.258|||||||Wilcoxon (Mann-Whitney)|||||||0.258
82597460|NCT03594227|164909761|SUPERIORITY|||||||0.263|||||||Wilcoxon (Mann-Whitney)|||||||0.263
82597461|NCT03594227|164909761|SUPERIORITY|||||||0.101|||||||Wilcoxon (Mann-Whitney)|||||||0.101
82597462|NCT03594227|164909762|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
82654803|NCT02465567|165024711|SUPERIORITY||Mean Difference (Final Values)|-0.51|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.34|||Linear Repeated Measures|||||-0.34|-0.68|<0.0001
82654804|NCT02465567|165024711|SUPERIORITY||Mean Difference (Final Values)|-0.37|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.2|||Linear Repeated Measures|||||-0.20|-0.54|<0.0001
82597463|NCT03594227|164909762|SUPERIORITY|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||||||0.277
82597464|NCT03594227|164909762|SUPERIORITY|||||||0.159|||||||Wilcoxon (Mann-Whitney)|||||||0.159
82597465|NCT03594227|164909763|SUPERIORITY|||||||0.407|||||||Wilcoxon (Mann-Whitney)|||||||0.407
82597466|NCT03594227|164909763|SUPERIORITY|||||||0.894|||||||Wilcoxon (Mann-Whitney)|||||||0.894
82597467|NCT03594227|164909763|SUPERIORITY|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||||||0.179
82597468|NCT03594227|164909764|SUPERIORITY|||||||0.691|||||||Wilcoxon (Mann-Whitney)|||||||0.691
82597469|NCT03594227|164909764|SUPERIORITY|||||||0.521|||||||Wilcoxon (Mann-Whitney)|||||||0.521
82597470|NCT03594227|164909764|SUPERIORITY|||||||0.262|||||||Wilcoxon (Mann-Whitney)|||||||0.262
82597471|NCT03594227|164909765|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82597472|NCT03594227|164909765|SUPERIORITY|||||||0.154|||||||Wilcoxon (Mann-Whitney)|||||||0.154
82597473|NCT03594227|164909765|SUPERIORITY|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||||||0.289
82597474|NCT03594227|164909766|SUPERIORITY|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||||||0.073
82597475|NCT03594227|164909766|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.660
82597476|NCT03594227|164909766|SUPERIORITY|||||||0.704|||||||Wilcoxon (Mann-Whitney)|||||||0.704
82597477|NCT03594227|164909767|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
82597478|NCT03594227|164909767|SUPERIORITY|||||||0.911|||||||Wilcoxon (Mann-Whitney)|||||||0.911
82597479|NCT03594227|164909767|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.110
82491929|NCT02555683|164677204|SUPERIORITY||Rate Ratio|0.83||||0.51|TWO_SIDED|95.0|0.61|1.14||adjusted p-value|negative binomial regression model|Adjusted p-values are based on the closed testing procedure||||1.14|0.61|0.510
82597480|NCT03594227|164909768|SUPERIORITY|||||||0.43|||||||Wilcoxon (Mann-Whitney)|||||||0.430
82597481|NCT03594227|164909768|SUPERIORITY|||||||0.288|||||||Wilcoxon (Mann-Whitney)|||||||0.288
82597482|NCT03594227|164909768|SUPERIORITY|||||||0.582|||||||Wilcoxon (Mann-Whitney)|||||||0.582
82597483|NCT03594227|164909769|SUPERIORITY|||||||0.194|||||||Wilcoxon (Mann-Whitney)|||||||0.194
82597484|NCT03594227|164909769|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
82597485|NCT03594227|164909769|SUPERIORITY|||||||0.011|||||||Wilcoxon (Mann-Whitney)|||||||0.011
82597486|NCT03594227|164909770|SUPERIORITY|||||||0.248|||||||Wilcoxon (Mann-Whitney)|||||||0.248
82597487|NCT03594227|164909770|SUPERIORITY|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.150
82597488|NCT03594227|164909770|SUPERIORITY|||||||0.546|||||||Wilcoxon (Mann-Whitney)|||||||0.546
82597489|NCT03594227|164909771|SUPERIORITY|||||||0.341|||||||Wilcoxon (Mann-Whitney)|||||||0.341
82597490|NCT03594227|164909771|SUPERIORITY||||||>|0.999|||||||Wilcoxon (Mann-Whitney)|||||||>0.999
82597491|NCT03594227|164909771|SUPERIORITY|||||||0.068|||||||Wilcoxon (Mann-Whitney)|||||||0.068
82597492|NCT03594227|164909773|SUPERIORITY|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||||||0.098
82597493|NCT03594227|164909773|SUPERIORITY|||||||0.082|||||||Wilcoxon (Mann-Whitney)|||||||0.082
82597494|NCT03594227|164909773|SUPERIORITY|||||||0.313|||||||Wilcoxon (Mann-Whitney)|||||||0.313
82597495|NCT03594227|164909774|SUPERIORITY|||||||0.883|||||||Wilcoxon (Mann-Whitney)|||||||0.883
82597496|NCT03594227|164909774|SUPERIORITY|||||||0.954|||||||Wilcoxon (Mann-Whitney)|||||||0.954
82597497|NCT03594227|164909774|SUPERIORITY|||||||0.295|||||||Wilcoxon (Mann-Whitney)|||||||0.295
82597498|NCT03594227|164909775|SUPERIORITY|||||||0.361|||||||Wilcoxon (Mann-Whitney)|||||||0.361
82597499|NCT03594227|164909775|SUPERIORITY|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
82597500|NCT03594227|164909775|SUPERIORITY|||||||0.815|||||||Wilcoxon (Mann-Whitney)|||||||0.815
82597501|NCT03594227|164909776|SUPERIORITY|||||||0.522|||||||Wilcoxon (Mann-Whitney)|||||||0.522
82597502|NCT03594227|164909776|SUPERIORITY|||||||0.104|||||||Wilcoxon (Mann-Whitney)|||||||0.104
82597503|NCT03594227|164909776|SUPERIORITY|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||||||0.414
82597504|NCT03594227|164909777|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.93||0.882|TWO_SIDED|95.0|-2.53|2.94|||Mixed Models Analysis|||||2.94|-2.53|0.882
82597505|NCT03594227|164909777|SUPERIORITY||Mean Difference (Net)|-3.58|STANDARD_ERROR_OF_MEAN|0.93||0.011|TWO_SIDED|95.0|-6.31|-0.84|||Mixed Models Analysis|||||-0.84|-6.31|0.011
82597506|NCT03594227|164909777|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.951||0.999|TWO_SIDED|95.0|-2.76|2.76|||Mixed Models Analysis|||||2.76|-2.76|0.999
82597507|NCT03594227|164909778|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.270
82597508|NCT03594227|164909778|SUPERIORITY|||||||0.319|||||||Wilcoxon (Mann-Whitney)|||||||0.319
82597509|NCT03594227|164909778|SUPERIORITY|||||||0.094|||||||Wilcoxon (Mann-Whitney)|||||||0.094
82597510|NCT03594227|164909779|SUPERIORITY|||||||0.584|||||||Wilcoxon (Mann-Whitney)|||||||0.584
82597511|NCT03594227|164909779|SUPERIORITY|||||||0.287|||||||Wilcoxon (Mann-Whitney)|||||||0.287
82597512|NCT03594227|164909779|SUPERIORITY|||||||0.144|||||||Wilcoxon (Mann-Whitney)|||||||0.144
82597513|NCT03594227|164909780|SUPERIORITY|||||||0.341|||||||Wilcoxon (Mann-Whitney)|||||||0.341
82597514|NCT03594227|164909780|SUPERIORITY|||||||0.203|||||||Wilcoxon (Mann-Whitney)|||||||0.203
82597515|NCT03594227|164909780|SUPERIORITY|||||||0.327|||||||Wilcoxon (Mann-Whitney)|||||||0.327
82597516|NCT03594227|164909781|SUPERIORITY|||||||0.827|||||||Wilcoxon (Mann-Whitney)|||||||0.827
82597517|NCT03594227|164909781|SUPERIORITY|||||||0.742|||||||Wilcoxon (Mann-Whitney)|||||||0.742
82597518|NCT03594227|164909781|SUPERIORITY|||||||0.462|||||||Wilcoxon (Mann-Whitney)|||||||0.462
82597519|NCT03594227|164909782|SUPERIORITY|||||||0.836|||||||Wilcoxon (Mann-Whitney)|||||||0.836
82597520|NCT03594227|164909782|SUPERIORITY|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.540
82597521|NCT03594227|164909782|SUPERIORITY|||||||0.672|||||||Wilcoxon (Mann-Whitney)|||||||0.672
82597522|NCT03594227|164909783|SUPERIORITY|||||||0.469|||||||Wilcoxon (Mann-Whitney)|||||||0.469
82597523|NCT03594227|164909783|SUPERIORITY|||||||0.219|||||||Wilcoxon (Mann-Whitney)|||||||0.219
82597524|NCT03594227|164909783|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||||||0.196
82597525|NCT00790907|164909784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.267|TWO_SIDED|95.0|0.54|1.19|||Regression, Logistic|||||1.19|0.54|0.267
82654805|NCT02465567|165024711|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.0001|TWO_SIDED|95.0|-0.53|-0.18|||Linear Repeated Measures|||||-0.18|-0.53|<0.0001
82597526|NCT01888640|164909792|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.008|TWO_SIDED|95.0|-1.8|-0.2||To account for multiple tests involving pairwise treatment group comparisons, p-values were adjusted using Bonferroni's method|Linear mixed models for repeated measure|||Visit 2-Visit 3||-0.2|-1.8|0.008
82597527|NCT01888640|164909792|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.6|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-2.6|<0.0001
82597528|NCT01888640|164909793|SUPERIORITY||Mean Difference (Net)|-1.3||||0.002|TWO_SIDED|95.0|-2.2|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.2|0.002
82597529|NCT01888640|164909793|SUPERIORITY||Mean Difference (Final Values)|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.8|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-2.8|<0.0001
82597530|NCT01888640|164909794|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.0006|TWO_SIDED|95.0|-2.1|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.1|0.0006
82597531|NCT01888640|164909794|SUPERIORITY||Mean Difference (Final Values)|-1.4|||<|0.0001|TWO_SIDED|95.0|-2.2|-0.6|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.6|-2.2|<0.0001
82597532|NCT01888640|164909795|SUPERIORITY||Mean Difference (Final Values)|-1.4||||0.001|TWO_SIDED|95.0|-2.4|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-2.4|0.001
82597533|NCT01888640|164909795|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.0001|TWO_SIDED|95.0|-2.9|-0.9|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.9|-2.9|<0.0001
82597534|NCT01888640|164909796|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.011|TWO_SIDED|95.0|-2.2|-0.2|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.2|-2.2|0.011
82597535|NCT01888640|164909796|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.0001|TWO_SIDED|95.0|-3.0|-1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.0|-3.0|<0.0001
82597536|NCT01888640|164909797|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.016|TWO_SIDED|95.0|-2.2|-0.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.1|-2.2|0.016
82597537|NCT01888640|164909797|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.0002|TWO_SIDED|95.0|-2.6|-0.6|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.6|-2.6|0.0002
82597538|NCT01888640|164909798|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.074|TWO_SIDED|95.0|-10.4|0.3|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||0.3|-10.4|0.074
82597539|NCT01888640|164909798|SUPERIORITY||Mean Difference (Final Values)|-7.1||||0.005|TWO_SIDED|95.0|-12.4|-1.8|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-1.8|-12.4|0.005
82597540|NCT01888640|164909799|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.018|TWO_SIDED|95.0|-1.7|-0.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.1|-1.7|0.018
82597541|NCT01888640|164909799|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.0006|TWO_SIDED|95.0|-1.9|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-1.9|0.0006
82597542|NCT01888640|164909800|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.043|TWO_SIDED|95.0|-1.3|-0.01|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.01|-1.3|0.043
82597543|NCT01888640|164909800|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.048|TWO_SIDED|95.0|-1.3|0.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.0|-1.3|0.048
82597544|NCT01888640|164909801|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.036|TWO_SIDED|95.0|-1.0|0.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.0|-1.0|0.036
82597545|NCT01888640|164909801|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.4|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||-0.4|-1.4|<0.0001
82597546|NCT01888640|164909802|SUPERIORITY||Mean Difference (Final Values)|-0.4|||>|0.99|TWO_SIDED|95.0|-2.3|1.5|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.5|-2.3|>0.99
82597547|NCT01888640|164909802|SUPERIORITY||Mean Difference (Final Values)|-0.6|||>|0.99|TWO_SIDED|95.0|-2.4|1.3|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.3|-2.4|>0.99
82597548|NCT01888640|164909803|SUPERIORITY||Mean Difference (Final Values)|1.1|||>|0.99|TWO_SIDED|95.0|-1.9|4.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||4.1|-1.9|>0.99
82597549|NCT01888640|164909803|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.17|TWO_SIDED|95.0|-0.6|5.3|||Linear mixed models for repeated measure|||||5.3|-0.6|0.17
82597550|NCT01888640|164909804|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.36|TWO_SIDED|95.0|-0.7|3.1|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||3.1|-0.7|0.36
82597551|NCT01888640|164909804|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.58|TWO_SIDED|95.0|-0.8|2.8|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||2.8|-0.8|0.58
82597552|NCT01888640|164909805|SUPERIORITY||Mean Difference (Final Values)|19.0|||>|0.99|TWO_SIDED|95.0|-58.0|96.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||96|-58|>0.99
82597553|NCT01888640|164909805|SUPERIORITY||Mean Difference (Final Values)|42.0|||>|0.99|TWO_SIDED|95.0|-34.0|117.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||117|-34|>0.99
82597554|NCT01888640|164909806|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.96|TWO_SIDED|95.0|-0.2|0.7|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||0.7|-0.2|0.96
82597555|NCT01888640|164909806|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.008|TWO_SIDED|95.0|0.1|1.0|||Linear mixed models for repeated measure|||Visit 2 to Visit 3||1.0|0.1|0.008
82597556|NCT01888640|164909807|SUPERIORITY||||||>|0.99|||||||Linear mixed models for repeated measure|||Visit 2 to Visit 3||||>0.99
82597557|NCT01888640|164909807|SUPERIORITY||||||>|0.99|||||||Linear mixed models for repeated measure|||Visit 2 to Visit 3||||>0.99
82597558|NCT02109484|164909817|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||||0.0165|||||||Wilcoxon (Mann-Whitney)|||||||0.0165
82654806|NCT02465567|165024711|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.0127|TWO_SIDED|95.0|-0.39|-0.05|||Linear Repeated Measures|||||-0.05|-0.39|0.0127
82654807|NCT02465567|165024712|SUPERIORITY||Odds Ratio (OR)|1.358|||<|0.0001|TWO_SIDED|95.0|1.199|1.539|||Regression, Logistic|||||1.539|1.199|<0.0001
82597559|NCT02109484|164909817|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||<0.0001
82597560|NCT02109484|164909817|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82597561|NCT02109484|164909818|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were peformed||||<0.0001
82597562|NCT02109484|164909818|EQUIVALENCE|Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were performed|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82597563|NCT02109484|164909818|EQUIVALENCE|Pair-wise comparisons between Cohort B Placebo group and the active vaccination groups were performed||||||0.0006|||||||Wilcoxon (Mann-Whitney)|||||||0.0006
82597564|NCT02109484|164909819|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.||||||0.0004|||||||Wilcoxon (Mann-Whitney)|||A pair wise comparison between the Adjusted Seroresponses in the placebo group and the Group B 10 mcg P2-VP8 was performed.||||0.0004
82597565|NCT02109484|164909819|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||A pair wise comparison between the Adjusted Seroresponses in the placebo group and the Cohort B 30 mcg P2-VP8 vaccine group was performed.||||<0.0001
82597566|NCT02109484|164909819|EQUIVALENCE|Power to detect difference between treatment groups for seroresponse between 50% and 95% for P2-VP8 subunit rotiarivus vaccine calculated based on estimate of 10% loss. 45 evaluable participants in 2 highest doses tolerated in B1 infant cohort, study idesigned to provide \>= 89% and \>= 77% power to detect 35 and 30 percentage points difference, respectively, between the two dose levels and provide \> 95% to detect \>= 40 percentage point difference between a P2-VP8 dose group and placebo group.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||A pair-wise comparison between the Adjusted Seroresponses in Cohort B Placebo group and the Cohort B P2-VP8 group was performed.||||<0.0001
82654808|NCT02465567|165024712|SUPERIORITY||Odds Ratio (OR)|1.246||||0.0005|TWO_SIDED|95.0|1.1|1.41|||Regression, Logistic|||||1.410|1.100|0.0005
82654809|NCT02465567|165024712|SUPERIORITY||Odds Ratio (OR)|1.283|||<|0.0004|TWO_SIDED|95.0|1.133|1.454|||Regression, Logistic|||||1.454|1.133|<0.0004
82654810|NCT02465567|165024712|SUPERIORITY||Odds Ratio (OR)|1.177||||0.0103|TWO_SIDED|95.0|1.039|1.333|||Regression, Logistic|||||1.333|1.039|0.0103
82597567|NCT02685709|164909831|NON_INFERIORITY|An assessment of NI was made by comparing the lower bound of the two-sided 95% confidence interval (CI) for the difference in biochemical control (octreotide capsules - SRLs) to a NI margin of -20%.|95% CI Stratified Miettinen & Nurminen|-19.9|||||TWO_SIDED|95.0|-19.9|0.5|||Stratified Miettinen & Nurminen (M&N)|||||0.5|-19.9|
82597568|NCT02685709|164909832|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
82597569|NCT02685709|164909833|OTHER||||||||||||||Clopper-Pearson method|||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
82597570|NCT02685709|164909834|OTHER|||||||||||||Confidence interval was applied||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The statistical analysis was based on the stratified Miettinen \& Nurminen (M\&N) method.|||
82654811|NCT02465567|165024713|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.0111|TWO_SIDED|95.0|0.34|0.87|||Regression, Cox|||||0.870|0.340|0.0111
82654812|NCT02465567|165024713|SUPERIORITY||Hazard Ratio (HR)|0.782||||0.3401|TWO_SIDED|95.0|0.472|1.296|||Regression, Cox|||||1.296|0.472|0.3401
82654813|NCT02465567|165024713|SUPERIORITY||Hazard Ratio (HR)|0.789||||0.269|TWO_SIDED|95.0|0.518|1.201|||Regression, Cox|||||1.201|0.518|0.2690
82654814|NCT02465567|165024713|SUPERIORITY||Hazard Ratio (HR)|1.134||||0.5918|TWO_SIDED|95.0|0.716|1.796|||Regression, Cox|||||1.796|0.716|0.5918
82654815|NCT02465567|165024714|SUPERIORITY||Rate Ratio|0.84||||0.6552|TWO_SIDED|95.0|0.69|1.03|||Negative Binomial Regression|||||1.03|0.69|0.6552
82654816|NCT02465567|165024714|SUPERIORITY||Rate Ratio|0.8||||0.0221|TWO_SIDED|95.0|0.66|0.97|||Negative Binomial Regression|||||0.97|0.66|0.0221
82654817|NCT02465567|165024714|SUPERIORITY||Rate Ratio|0.88||||0.2157|TWO_SIDED|95.0|0.72|1.08|||Negative Binomial Regression|||||1.08|0.72|0.2157
82654818|NCT02465567|165024714|SUPERIORITY||Rate Ratio|0.83||||0.0647|TWO_SIDED|95.0|0.69|1.01|||Negative Binomial Regression|||||1.01|0.69|0.0647
82597571|NCT02685709|164909835|OTHER||||||||||||||Clopper-Pearson method|||Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.|Based on this analysis 63.0% of patients in the octreotide capsule group and 51.4% of patients in the SRL injection group entered the Study Extension phase.|||
82597572|NCT02685709|164909836|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|The mean change in IGF-1 from RCT Baseline to the end of the RCT phase was calculated using the Last Observation Carried Forward (LOCF) approach.|||
82597573|NCT02685709|164909837|OTHER|||||||||||||||||"Secondary endpoints were analyzed without adjustment for multiplicity or predefined noninferiority margins and therefore were interpreted as exploratory.~This endpoint is descriptive with no formal statistical hypothesis testing."|Estimates were obtained from an analysis of covariance (ANCOVA) for the mean integrated growth hormone (GH) change from baseline with explanatory factors of treatment group and baseline value.|||
82597574|NCT02685709|164909838|OTHER|||||||||||||||||This endpoint is descriptive with no formal statistical hypothesis testing|The week 26 value was used as the baseline value for the RCT phase. The denominator for the percentage was the number of subjects at each visit.|||
82597575|NCT02685709|164909839|OTHER|||||||||||||||||This endpoint is descriptive with no formal statistical hypothesis testing.|The week 26 value is used as the baseline value for the RCT phase. The denominator for the percentage was the number of subjects at each visit.|||
82597576|NCT02685709|164909840|OTHER|||||||||||||||||This endpoints is descriptive with no formal statistical hypothesis testing.|This sensitivity analysis was using the Full analysis set (FAS), where any patient who discontinued treatment early was imputed as non-responder.|||
82597577|NCT02685709|164909841|OTHER|||||||||||||||||This endpoints is descriptive with no formal statistical hypothesis testing|This sensitivity analysis was using the Full analysis set (FAS), where patient who were biochemically controlled at the RCT Baseline (week 26), and who discontinued treatment early was imputed as non-responder.|||
82597578|NCT02685709|164909842|OTHER||Proportion of patients|64.4|||||TWO_SIDED|95.0|56.0|72.1|||||Confidence Interval estimated using the Clopper-Pearson (Exact) method.||The proportion of patients biochemically controlled at the end of the Run-in phase was defined as IGF-1 \< 1.3 times ULN \[based on the average of week 24 and week 26\])|72.1|56|
82597579|NCT02685709|164909843|OTHER||Proportion of patients|66.4|||||TWO_SIDED|95.0|58.5|74.1||||||||74.1|58.5|
82597580|NCT02685709|164909844|OTHER||Proportion of patients|48.9|||||TWO_SIDED|95.0|38.7|59.1||||||||59.1|38.7|
82597581|NCT02685709|164909848|OTHER||||||||||||||||||The LSM change from baseline estimates are from a mixed model for repeated measures.|||
82597582|NCT01967537|164909872|SUPERIORITY|||||||0.23|||||||Mann-Whitney|||||||0.23
82597583|NCT00137111|164909877|SUPERIORITY_OR_OTHER_LEGACY||Binomial proportion|79.27|||||TWO_SIDED|95.0|75.69|82.85|||Binomial proportion|||Of the 498 eligible patients, 492 were successfully evaluated with day 46 MRD measurement.||82.85|75.69|
82597584|NCT00137111|164909878|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0062||||||p-value from t-test after stratified for lineage and ploidy|t-test, 2 sided|||t-test stratified for lineage and ploidy||||.0062
82597585|NCT00137111|164909879|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15||||||p-value from t-test after adjusted for lineage and ploidy|t-test, 2 sided|||t-test adjusting for lineage and ploidy||||.15
82597586|NCT00137111|164909880|SUPERIORITY_OR_OTHER_LEGACY|||||||9.5e-07|||||||Wilcoxon (Mann-Whitney)|||||||0.00000095
82597587|NCT00137111|164909881|SUPERIORITY_OR_OTHER_LEGACY|||||||7e-07|||||||Wilcoxon (Mann-Whitney)|||||||0.0000007
82597588|NCT00784654|164909882|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||||||< 0.001
82597589|NCT00784654|164909883|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82597590|NCT00784654|164909884|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.6|||<|0.001|TWO_SIDED|95.0|-15.4|-9.8|||ANCOVA|||||-9.8|-15.4|<0.001
82597591|NCT00784654|164909887|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.001
82597592|NCT00784654|164909891|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 1 sided|||||||<0.001
82597593|NCT00784654|164909892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.5|||<|0.001|TWO_SIDED|95.0|3.5|9.5|||ANCOVA|||||9.5|3.5|<0.001
82597594|NCT00784654|164909893|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||t-test, 1 sided|||||||<0.001
82597595|NCT00784654|164909894|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|||<|0.001|TWO_SIDED|95.0|-0.26|-0.11|||ANCOVA|||||-0.11|-0.26|<0.001
82597596|NCT00784654|164909897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.726||95.0|||||Cochran-Mantel-Haenszel|||||||0.726
82597597|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.39|0.84|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 1: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.84|0.39|
82597598|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.54|1.01|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 3: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.01|0.54|
82597599|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.5|1.11|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 4: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.11|0.50|
82597600|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.38|0.9|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 5: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.90|0.38|
82597601|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.37|0.74|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.74|0.37|
82597602|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.52|1.02|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6B: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.02|0.52|
82597603|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.46|0.95|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 7F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.95|0.46|
82597604|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.45|1.25|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 9V: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.25|0.45|
82597605|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.7|||||TWO_SIDED|95.0|0.54|1.02|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 14: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.02|0.54|
82491930|NCT02555683|164677205|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.095||0.819|TWO_SIDED|95.0|-0.11|0.26||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.26|-0.11|0.819
82597606|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.35|0.79|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 18C: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.79|0.35|
82597607|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.34|0.67|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.67|0.34|
82597608|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.6|||||TWO_SIDED|95.0|0.37|0.88|||||Confidence intervals for the ratio are back transformation of the CIs based on the Student t distribution for the mean difference of the logarithmically transformed assay results.|Serotype 19F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.88|0.37|
82597609|NCT00562354|164909904|SUPERIORITY_OR_OTHER||ratio of geometric mean titer|0.5|||||TWO_SIDED|95.0|0.3|0.79|||||Ratio of GMTs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 23F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of OPA GMTs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.79|0.30|
82597610|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-4.9|||||TWO_SIDED|95.0|-12.1|2.0||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.0|-12.1|
82597611|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-3.9|||||TWO_SIDED|95.0|-11.6|3.5||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.5|-11.6|
82597612|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-3.4|||||TWO_SIDED|95.0|-9.6|2.2||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.2|-9.6|
82597613|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-5.5|||||TWO_SIDED|95.0|-13.7|2.5||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.5|-13.7|
82597614|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-1.5|||||TWO_SIDED|95.0|-5.7|2.1||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-5.7|
82597615|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-1.6|||||TWO_SIDED|95.0|-5.9|2.1||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-5.9|
82597616|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-5.3|||||TWO_SIDED|95.0|-10.8|-0.9||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-0.9|-10.8|
82597617|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-0.8|||||TWO_SIDED|95.0|-8.7|6.9||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.9|-8.7|
82597618|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|0.0|||||TWO_SIDED|95.0|-4.0|4.1||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.1|-4.0|
82597619|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-2.3|||||TWO_SIDED|95.0|-7.6|2.5||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.5|-7.6|
82597620|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|0.8|||||TWO_SIDED|95.0|-2.8|4.7||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.7|-2.8|
82597621|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-2.4|||||TWO_SIDED|95.0|-8.8|3.7||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.7|-8.8|
82597622|NCT00562354|164909907|SUPERIORITY_OR_OTHER||difference in proportions|-6.2|||||TWO_SIDED|95.0|-14.1|1.5||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.5|-14.1|
82597623|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-7.2|||||TWO_SIDED|95.0|-15.1|0.3||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||0.3|-15.1|
82597624|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-5.4|||||TWO_SIDED|95.0|-14.5|3.5||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.5|-14.5|
82597625|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-11.2|||||TWO_SIDED|95.0|-21.4|-1.0||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.0|-21.4|
82654819|NCT01626079|165024789|NON_INFERIORITY|Two thousand (2000) simulations were performed to calculate sample size and power for the primary safety endpoint. Assuming 22% mortality and 7.5% attrition at 12 months, a total of 305 subjects in the Device group will provide \> 95% power to reject the null hypothesis at the one-sided significance level of 5%.|Kaplan Meier|0.966|STANDARD_ERROR_OF_MEAN|0.011|<|0.0001|ONE_SIDED|95.0|0.948||||Z test Using Kaplan Meier Survival|P-value calculated from Z test using Kaplan Meier survival estimate together with Greenwood method estimated variance|||||0.948|<0.0001
82491931|NCT02555683|164677205|SUPERIORITY||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|0.095||0.591|TWO_SIDED|95.0|-0.05|0.32||adjusted p-vale|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.32|-0.05|0.591
82597626|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-4.7|||||TWO_SIDED|95.0|-13.5|3.9||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.9|-13.5|
82597627|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-5.1|||||TWO_SIDED|95.0|-14.3|4.0||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.0|-14.3|
82597628|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-12.9|||||TWO_SIDED|95.0|-24.6|-0.8||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-0.8|-24.6|
82597629|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-7.3|||||TWO_SIDED|95.0|-16.3|1.5||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.5|-16.3|
82597630|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-17.5|||||TWO_SIDED|95.0|-29.5|-5.0||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-5.0|-29.5|
82597631|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-9.6|||||TWO_SIDED|95.0|-21.4|2.4||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.4|-21.4|
82597632|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-10.5|||||TWO_SIDED|95.0|-19.3|-1.3||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.3|-19.3|
82597633|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|0.8|||||TWO_SIDED|95.0|-6.2|7.9||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||7.9|-6.2|
82597634|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-3.8|||||TWO_SIDED|95.0|-12.2|4.5||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||4.5|-12.2|
82597635|NCT00562354|164909910|SUPERIORITY_OR_OTHER||difference in proportions|-2.5|||||TWO_SIDED|95.0|-12.5|7.3||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||7.3|-12.5|
82597636|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-5.7|||||TWO_SIDED|95.0|-13.8|2.1||||||Serotype 1: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||2.1|-13.8|
82654820|NCT01626079|165024822|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.02|TWO_SIDED|95.0|0.6|0.96|||Joint Fraility Model|||||0.96|0.60|<0.02
82597637|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-5.5|||||TWO_SIDED|95.0|-15.9|5.0||||||Serotype 3: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||5.0|-15.9|
82597638|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-18.3|||||TWO_SIDED|95.0|-30.1|-5.9||||||Serotype 4: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-5.9|-30.1|
82597639|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-2.3|||||TWO_SIDED|95.0|-11.6|6.9||||||Serotype 5: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.9|-11.6|
82597640|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-11.9|||||TWO_SIDED|95.0|-22.6|-1.2||||||Serotype 6A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.2|-22.6|
82597641|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-11.0|||||TWO_SIDED|95.0|-23.8|1.9||||||Serotype 6B: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||1.9|-23.8|
82597642|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-9.5|||||TWO_SIDED|95.0|-19.3|0.4||||||Serotype 7F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||0.4|-19.3|
82597643|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-26.9|||||TWO_SIDED|95.0|-39.0|-14.1||||||Serotype 9V: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-14.1|-39.0|
82597644|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-6.4|||||TWO_SIDED|95.0|-18.7|6.1||||||Serotype 14: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||6.1|-18.7|
82597645|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-12.2|||||TWO_SIDED|95.0|-22.6|-1.7||||||Serotype 18C: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.7|-22.6|
82654821|NCT01626079|165024823|SUPERIORITY||Win Ratio|1.61|||<|0.0001|TWO_SIDED|95.0|1.29|2.04|||Finkelstein-Schoenfeld Analysis|||||2.04|1.29|<0.0001
82597646|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-0.8|||||TWO_SIDED|95.0|-9.8|8.1||||||Serotype 19A: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||8.1|-9.8|
82597647|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-11.4|||||TWO_SIDED|95.0|-21.7|-1.2||||||Serotype 19F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||-1.2|-21.7|
82597648|NCT00562354|164909913|SUPERIORITY_OR_OTHER||difference in proportions|-7.7|||||TWO_SIDED|95.0|-18.5|3.4||||||Serotype 23F: To assess differences between reporting groups exact, 2-sided 95% CIs on the difference in proportions between reporting groups were calculated (50 to 64 years age group minus ≥ 65 years age group).||3.4|-18.5|
82597649|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.6|||||TWO_SIDED|95.0|0.43|0.86|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 1: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.86|0.43|
82597650|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.8|||||TWO_SIDED|95.0|0.63|1.0|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 3: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.00|0.63|
82597651|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.66|||||TWO_SIDED|95.0|0.48|0.91|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 4: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.91|0.48|
82597652|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.65|||||TWO_SIDED|95.0|0.5|0.85|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 5: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.85|0.50|
82597653|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.71|||||TWO_SIDED|95.0|0.52|0.97|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.97|0.52|
82654822|NCT01041781|165025179|SUPERIORITY||Hazard Ratio (HR)|1.076||||0.5346|TWO_SIDED|95.0|0.853|1.367|||Log Rank|||||1.367|0.853|0.5346
82654823|NCT01041781|165025183|SUPERIORITY|||||||0.0049|||||||Log Rank|||||||0.0049
82654824|NCT01041781|165025184|SUPERIORITY|||||||0.0131|||||||Log Rank|||||||0.0131
82654825|NCT01041781|165025185|SUPERIORITY|||||||0.0322|||||||Log Rank|||||||0.0322
82597654|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.65|||||TWO_SIDED|95.0|0.48|0.9|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 6B: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.90|0.48|
82597655|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.74|||||TWO_SIDED|95.0|0.56|0.97|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 7F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.97|0.56|
82597656|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.46|||||TWO_SIDED|95.0|0.35|0.61|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 9V: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.61|0.35|
82597657|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.76|||||TWO_SIDED|95.0|0.56|1.03|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 14: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||1.03|0.56|
82597658|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.57|||||TWO_SIDED|95.0|0.43|0.74|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 18C: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.74|0.43|
82597659|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.5|||||TWO_SIDED|95.0|0.38|0.66|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19A: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.66|0.38|
82597660|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.42|||||TWO_SIDED|95.0|0.29|0.6|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 19F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.60|0.29|
82597661|NCT00562354|164909916|SUPERIORITY_OR_OTHER||ratio of geometric mean concentration|0.59|||||TWO_SIDED|95.0|0.42|0.82|||||Ratio of GMCs were calculated by back transformation of the mean difference between age groups on the logarithmic scale.|Serotype 23F: To assess differences between reporting groups, 2-sided 95% CIs for the ratio of IgG GMCs were constructed by back transformation of the CIs for the mean difference of the log-transformed assay results computed using the Student t-distribution.||0.82|0.42|
82597662|NCT04417894|164909965|SUPERIORITY||||||=|0.003|||||||Cochran-Mantel-Haenszel|||||||=0.0030
82597663|NCT04417894|164909966|SUPERIORITY||Difference|38.6|||<|0.0001|TWO_SIDED|95.0|24.06|53.15|||Mantel Haenszel|||||53.15|24.06|<0.0001
82597664|NCT01508702|164909985|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.19|0.37|||Cochran-Mantel-Haenszel|||||0.37|0.19|<0.0001
82597665|NCT03461757|164909986|SUPERIORITY||Risk Difference (RD)|10.4|||<|0.0001|TWO_SIDED|95.0|6.5|14.2|||Cochran-Mantel-Haenszel|||||14.2|6.5|< 0.0001
82597666|NCT03461757|164909987|SUPERIORITY||Risk Difference (RD)|8.3||||0.0009|TWO_SIDED|95.0|3.4|13.2|||Cochran-Mantel-Haenszel|||||13.2|3.4|0.0009
82597667|NCT03461757|164909988|SUPERIORITY||Risk Difference (RD)|16.1|||<|0.0001|TWO_SIDED|95.0|10.8|21.3|||Cochran-Mantel-Haenszel|||||21.3|10.8|< 0.0001
82597668|NCT03461757|164909989|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|15.1|25.2|||Cochran-Mantel-Haenszel|||||25.2|15.1|< 0.0001
82597669|NCT03461757|164909990|SUPERIORITY||Risk Difference (RD)|20.1|||<|0.0001|TWO_SIDED|95.0|15.1|25.2|||Cochran-Mantel-Haenszel|||||25.2|15.1|< 0.0001
82597670|NCT03461757|164909991|SUPERIORITY||Risk Difference (RD)|9.3|||<|0.0001|TWO_SIDED|95.0|4.9|13.7|||Cochran-Mantel-Haenszel|||||13.7|4.9|< 0.0001
82597671|NCT03461757|164909992|SUPERIORITY||Risk Difference (RD)|-15.0|||<|0.0001|TWO_SIDED|95.0|-19.3|-10.7|||Cochran-Mantel-Haenszel|||||-10.7|-19.3|< 0.0001
82597672|NCT03461757|164909993|SUPERIORITY||Risk Difference (RD)|12.7|||<|0.0001|TWO_SIDED|95.0|8.3|17.2|||Cochran-Mantel-Haenszel|||||17.2|8.3|< 0.0001
82597673|NCT03461757|164909994|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.0001|TWO_SIDED|95.0|12.0|21.9|||Cochran-Mantel-Haenszel|||||21.9|12.0|< 0.0001
82597674|NCT03461757|164909995|SUPERIORITY||Risk Difference (RD)|6.8||||0.0018|TWO_SIDED|95.0|2.5|11.0|||Cochran-Mantel-Haenszel|||||11.0|2.5|0.0018
82597675|NCT03461757|164909996|SUPERIORITY||Risk Difference (RD)|10.6|||<|0.0001|TWO_SIDED|95.0|6.3|14.9|||Cochran-Mantel-Haenszel|||||14.9|6.3|< 0.0001
82597676|NCT03461757|164909997|SUPERIORITY||Risk Difference (RD)|8.8||||0.0007|TWO_SIDED|95.0|3.7|13.9|||Cochran-Mantel-Haenszel|||||13.9|3.7|0.0007
82597677|NCT03461757|164909998|SUPERIORITY||Risk Difference (RD)|8.9||||0.0002|TWO_SIDED|95.0|4.3|13.6|||Cochran-Mantel-Haenszel|||||13.6|4.3|0.0002
82597678|NCT03461757|164909999|SUPERIORITY||Risk Difference (RD)|12.4|||<|0.0001|TWO_SIDED|95.0|7.1|17.6|||Cochran-Mantel-Haenszel|||||17.6|7.1|< 0.0001
82597679|NCT03461757|164910000|SUPERIORITY||Risk Difference (RD)|10.1|||<|0.0001|TWO_SIDED|95.0|6.9|13.4|||Cochran-Mantel-Haenszel|||||13.4|6.9|< 0.0001
82597680|NCT03461757|164910001|SUPERIORITY||Risk Difference (RD)|5.8||||0.0128|TWO_SIDED|95.0|1.2|10.4|||Cochran-Mantel-Haenszel|||||10.4|1.2|0.0128
82654826|NCT03740165|165025217|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0002|TWO_SIDED|95.0|0.53|0.83||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.83|0.53|0.0002
82597681|NCT03461757|164910002|SUPERIORITY||Risk Difference (RD)|7.8|||<|0.0001|TWO_SIDED|95.0|4.4|11.1|||Cochran-Mantel-Haenszel|||||11.1|4.4|< 0.0001
82597682|NCT03461757|164910003|SUPERIORITY||Risk Difference (RD)|11.5||||0.0003|TWO_SIDED|95.0|5.3|17.7|||Cochran-Mantel-Haenszel|||||17.7|5.3|0.0003
82597683|NCT03461757|164910004|SUPERIORITY||Risk Difference (RD)|8.0|||<|0.0001|TWO_SIDED|95.0|4.9|11.1|||Cochran-Mantel-Haenszel|||||11.1|4.9|< 0.0001
82597684|NCT03461757|164910005|SUPERIORITY||Risk Difference (RD)|5.5||||0.0314|TWO_SIDED|95.0|0.5|10.6|||Cochran-Mantel-Haenszel|||||10.6|0.5|0.0314
82654827|NCT03740165|165025217|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.3339|TWO_SIDED|95.0|0.77|1.19||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.19|0.77|0.3339
82491932|NCT02555683|164677206|SUPERIORITY||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.098||0.819|TWO_SIDED|95.0|-0.31|0.07||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.07|-0.31|0.819
82491933|NCT02555683|164677206|SUPERIORITY||Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.098||0.591|TWO_SIDED|95.0|-0.37|0.02||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.02|-0.37|0.591
82491934|NCT02555683|164677207|SUPERIORITY||Mean Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.0365||0.8|TWO_SIDED|95.0|-0.005|0.139||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.139|-0.005|0.800
82491935|NCT02555683|164677207|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.0363||0.523|TWO_SIDED|95.0|-0.021|0.121||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.121|-0.021|0.523
82597685|NCT03461757|164910006|SUPERIORITY||Risk Difference (RD)|6.4||||0.0025|TWO_SIDED|95.0|2.3|10.6|||Cochran-Mantel-Haenszel|||||10.6|2.3|0.0025
82491936|NCT02555683|164677208|SUPERIORITY||rate ratio|0.96||||0.819|TWO_SIDED|95.0|0.75|1.22||adjusted p-value|negative binomial regression model|Adjusted p-values obtained from the closed testing procedure||||1.22|0.75|0.819
82491937|NCT02555683|164677208|SUPERIORITY||Rate Ratio|0.78||||0.51|TWO_SIDED|95.0|0.61|1.01||adjusted p-value|negative binomial regression model|Adjusted p-values are based on the closed testing procedure||||1.01|0.61|0.510
82491938|NCT02555683|164677209|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.076||0.819|TWO_SIDED|95.0|-0.07|0.23||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.23|-0.07|0.819
82491939|NCT02555683|164677209|SUPERIORITY||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.076||0.591|TWO_SIDED|95.0|-0.03|0.27||adjusted p-vale|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.27|-0.03|0.591
82491940|NCT02555683|164677210|SUPERIORITY||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.079||0.819|TWO_SIDED|95.0|-0.27|0.04||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.04|-0.27|0.819
82491941|NCT02555683|164677210|SUPERIORITY||Mean Difference (Net)|-0.19|STANDARD_ERROR_OF_MEAN|0.079||0.591|TWO_SIDED|95.0|-0.35|-0.04||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||-0.04|-0.35|0.591
82491942|NCT02555683|164677211|SUPERIORITY||Mean Difference (Net)|0.076|STANDARD_ERROR_OF_MEAN|0.0292||0.819|TWO_SIDED|95.0|0.019|0.134||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.134|0.019|0.819
82491943|NCT02555683|164677211|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.0292||0.591|TWO_SIDED|95.0|-0.017|0.097||adjusted p-value|ANCOVA|Adjusted p-values obtained from the closed testing procedure||||0.097|-0.017|0.591
82491944|NCT01153347|164677212|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|1.07||1|TWO_SIDED|95.0|-2.96|1.24||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.24|-2.96|1.000
82491945|NCT01153347|164677212|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|1.08||1|TWO_SIDED|95.0|-2.67|1.57|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.57|-2.67|1.000
82597686|NCT03461757|164910007|SUPERIORITY||Risk Difference (RD)|5.9||||0.0898|TWO_SIDED|95.0|-0.9|12.7||P-Value ≥ 0.05; therefore, all secondary endpoints listed after this endpoint in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.7|-0.9|0.0898
82597687|NCT02425826|164910009|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-39.84|||<|0.0001|TWO_SIDED|95.0|-54.39|-25.3|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||||-25.30|-54.39|<0.0001
82597688|NCT02425826|164910010|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-2.5||||0.0008|TWO_SIDED|95.0|-3.9|-1.0|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||||-1.0|-3.9|0.0008
82597689|NCT02425826|164910011|SUPERIORITY_OR_OTHER_LEGACY||Difference|21.0|||<|0.0001|TWO_SIDED|95.0|11.0|31.1||Two-sided p-value is based on the Cochran-Mantel-Haenszel test stratified by sites.|Cochran-Mantel-Haenszel||Two-sided 95% confidence intervals (CI) is based on normal approximation|||31.1|11.0|<0.0001
82597690|NCT02425826|164910012|SUPERIORITY_OR_OTHER_LEGACY||Difference|13.7||||0.0365|TWO_SIDED|95.0|1.7|25.7|||Cochran-Mantel-Haenszel|2-sided p-value is calculated based on Cochran-Mantel-Haenszel test stratified by sites.|Two-sided 95% CI is based on normal approximation|||25.7|1.7|0.0365
82597691|NCT02425826|164910013|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-11.6||||0.0016|TWO_SIDED|95.0|-18.8|-4.5|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate.||The treatment comparison was only done for Week 16; End of Phase||-4.5|-18.8|0.0016
82597692|NCT02425826|164910014|SUPERIORITY_OR_OTHER_LEGACY||Difference|11.8||||0.0463|TWO_SIDED|95.0|-4.0|27.6|||Cochran-Mantel-Haenszel|p-value was based on 2-sided CMH tests stratified by sites.|Two-sided 95% CI is based on normal approximation.|||27.6|-4.0|0.0463
82597693|NCT02425826|164910015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|17.8|||<|0.0001|TWO_SIDED|95.0|10.36|25.24|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSQM-Effectiveness||25.24|10.36|<0.0001
82597694|NCT02425826|164910015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.0||||0.3433|TWO_SIDED|95.0|-5.4|15.4|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSQM - Side Effects||15.40|-5.40|0.3433
82597695|NCT02425826|164910015|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.4||||0.625|TWO_SIDED|95.0|-4.25|7.06|||ANOVA|Based on 2-way ANOVA with treatment and site as factors.||TSMQ-Convenience||7.06|-4.25|0.6250
82597696|NCT02425826|164910015|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.07|||<|0.0001|TWO_SIDED|95.0|7.16|20.97|||ANOVA|||TSQM-Global Satisfaction||20.97|7.16|<0.0001
82597697|NCT02425826|164910017|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-37.0|||<|0.0001|TWO_SIDED|95.0|-54.08|-19.91|||ANCOVA|Based on 2-way ANCOVA with treatment and site as factors and baseline value as covariate||||-19.91|-54.08|<0.0001
82597698|NCT02425826|164910018|SUPERIORITY_OR_OTHER_LEGACY||Difference|29.1|||<|0.0001|TWO_SIDED|95.0|16.3|41.8|||Cochran-Mantel-Haenszel|2-sided p-value is calculated based on Cochran-Mantel-Haenszel test stratified by sites.|Two-sided 95% CI is based on normal approximation|||41.8|16.3|<0.0001
82597699|NCT02425826|164910019|SUPERIORITY_OR_OTHER_LEGACY||Difference|13.5||||0.0136|TWO_SIDED|95.0|4.4|22.7|||Cochran-Mantel-Haenszel|2-sided Cochran-Mantel-Haenszel test stratified by sites.|2-sided 95% CI is based on normal approximation.|||22.7|4.4|0.0136
82597700|NCT03861559|164910024|OTHER||||||<|0.01|||||||Log Rank|||||||<0.01
82597701|NCT03861559|164910025|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82654828|NCT03740165|165025218|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.84||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.84|0.61|<0.0001
82597702|NCT03861559|164910027|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597703|NCT03861559|164910028|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597704|NCT03861559|164910029|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597705|NCT03861559|164910031|OTHER|||||||0.14|||||||ANOVA|||||||0.14
82597706|NCT03861559|164910032|OTHER|||||||0.02|||||||ANOVA|||||||0.02
82597707|NCT03861559|164910033|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597708|NCT03861559|164910035|OTHER|||||||0.15|||||||ANOVA|||||||0.15
82597709|NCT03861559|164910036|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597710|NCT03861559|164910037|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597711|NCT03861559|164910039|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597712|NCT03861559|164910040|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597713|NCT03861559|164910041|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597714|NCT03861559|164910042|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597715|NCT03861559|164910043|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597716|NCT03861559|164910044|OTHER||||||<|0.01|||||||ANOVA|||||||<0.01
82597717|NCT02997904|164910045|SUPERIORITY||Least Squares Mean Difference|1.0058|STANDARD_ERROR_OF_MEAN|0.2131|<|0.0001|TWO_SIDED|95.0|0.5829|1.4288|||ANOVA|||Ho: Total Number of lice and eggs removed with Resultz® ≤ Total number of lice and eggs removed with sham control Ha: Total Number of lice and eggs removed with Resultz® \> Total Number of lice and eggs removed with sham control||1.4288|0.5829|<0.0001
82597718|NCT02997904|164910046|SUPERIORITY||Least Squares Mean Difference|1.2084|STANDARD_ERROR_OF_MEAN|0.0467|<|0.0001|TWO_SIDED|95.0|1.1157|1.3011||The P-Values were \<0.0001 in both comparison groups; total number lice removed and total number of eggs removed|GLIMMX|||Comparison of total number of lice removed and total number of eggs removed were analyzed separately||1.3011|1.1157|<0.0001
82597719|NCT02997904|164910046|SUPERIORITY||Least Squares Mean Difference|0.7899|STANDARD_ERROR_OF_MEAN|0.04565|<|0.0001|TWO_SIDED|95.0|0.6993|0.8805|||GLIMMX|||||0.8805|0.6993|<0.0001
82597720|NCT04036968|164910047|SUPERIORITY|Comparison of three drug conditions with cannabidiol to control groups placebo+placebo and hydromorphone+placebo||||||0.195|||||||ANOVA|||||||0.195
82597721|NCT04036968|164910048|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82597722|NCT04036968|164910049|SUPERIORITY|||||||0.074|||||||ANOVA|||||||0.074
82597723|NCT00903175|164910050|NON_INFERIORITY_OR_EQUIVALENCE|Primary objective was to assess the non-inferiority of everolimus as compared to Sunitinib in terms of PFS-1L \& was based on Bayesian methodology. If the estimated HR for PFS-1L had a value ≤ 1.1, non-inferiority of everolimus to Sunitinib would be declared. Non-inferiority of everolimus compared with Sunitinib as a first-line therapy was not achieved. The estimated HR for PFS-1L was 1.43 which did not satisfy the protocol-defined non-inferiority margin of a HR ≤ 1.1.|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|1.15|1.77||||||||1.77|1.15|
82597724|NCT00970853|164910071|NON_INFERIORITY_OR_EQUIVALENCE|The original sample for this study (N=302) was sufficient for an 80% detection of differences in means of at least 1/2 standard deviation. This analysis presents the results of the follow-up of the original sample.||||||0.39||||||non-adjusted for multiple comparisons|t-test, 2 sided|||||||0.39
82597725|NCT00970853|164910072|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.99|||||||t-test, 2 sided|||||||.99
82597726|NCT00970853|164910073|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.16|||||||t-test, 2 sided|||||||0.16
82597727|NCT00970853|164910074|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.4|||||||t-test, 2 sided|||||||.40
82654829|NCT03740165|165025218|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5527|TWO_SIDED|95.0|0.87|1.18||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.18|0.87|0.5527
82654830|NCT03740165|165025219|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4314|TWO_SIDED|95.0|0.75|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.27|0.75|0.4314
82597728|NCT00970853|164910075|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.56|||||||t-test, 2 sided|||||||.56
82597729|NCT00970853|164910076|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.34|||||||t-test, 2 sided|||||||.34
82597730|NCT00970853|164910077|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.85|||||||t-test, 2 sided|||||||.85
82597731|NCT00970853|164910078|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.61|||||||t-test, 2 sided|||||||.61
82597732|NCT00970853|164910079|NON_INFERIORITY_OR_EQUIVALENCE|In our original sample of 302, we had 80% power to detect significant differences of at least .5 standard deviation between groups.||||||0.67|||||||t-test, 2 sided|||||||.67
82597733|NCT02049944|164910130|OTHER|we used t-test on the regression coefficient for the group indicator to test for differences in means categorical variables were evaluated using fisher's exact test of association linear regression for log transformed start adipose concentrations were calculated by dose specific group|Median Difference (Final Values)|80.0|||||TWO_SIDED|95.0|||||Fisher Exact|||To detect the number of subjects who obtained a minimal inhibitory concentration (\>4mg/ml) following increased 3g dose of cefazolin. Compare this number to the historical cohort who had received 2g of cefazolin (standard dosing)||||
82597734|NCT01765673|164910131|OTHER|||||||0.218|||||||paired t test|||||||0.218
82597735|NCT01765673|164910132|OTHER|||||||0.017|||||||paired t test|||||||0.017
82654831|NCT03740165|165025219|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.3107|TWO_SIDED|95.0|0.72|1.22||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.22|0.72|0.3107
82654832|NCT03740165|165025220|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.6716|TWO_SIDED|95.0|0.87|1.25||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.25|0.87|0.6716
82654833|NCT03740165|165025220|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.7448|TWO_SIDED|95.0|0.89|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.27|0.89|0.7448
82597736|NCT01765673|164910133|OTHER|||||||0.022|||||||paired t test|||||||0.022
82597737|NCT01765673|164910134|OTHER|||||||0.719|||||||paired t test|||||||0.719
82499388|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.079|-0.004|||ANCOVA|||Extension Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.004|-0.079|
82597738|NCT01765673|164910135|OTHER|||||||0.418|||||||paired t test|||||||0.418
82597739|NCT01765673|164910136|OTHER|||||||0.038|||||||paired t test|||||||0.038
82597740|NCT01765673|164910137|OTHER|||||||0.086|||||||paired t test|||||||0.086
82597741|NCT01765673|164910138|OTHER|||||||0.16|||||||paired t test|||||||0.16
82597742|NCT01765673|164910139|OTHER|||||||0.052|||||||paired t test|||||||0.052
82597743|NCT01765673|164910140|OTHER|||||||0.827|||||||paired t test|||||||0.827
82597744|NCT01765673|164910141|OTHER|||||||0.088|||||||paired t test|||||||0.088
82597745|NCT01765673|164910142|OTHER|||||||0.152|||||||paired t test|||||||0.152
82597746|NCT01765673|164910143|OTHER|||||||0.229|||||||paired t test|||||||0.229
82597747|NCT01765673|164910144|OTHER|||||||0.121|||||||paired t test|||||||0.121
82597748|NCT01765673|164910145|OTHER|||||||0.239|||||||paired t test|||||||0.239
82597749|NCT01765673|164910146|OTHER|||||||0.03|||||||paired t test|||||||0.03
82597750|NCT01765673|164910147|OTHER|||||||0.067|||||||paired t test|||||||0.067
82597751|NCT01765673|164910148|OTHER|||||||0.396|||||||paired t test|||||||0.396
82597752|NCT01765673|164910149|OTHER|||||||0.373|||||||paired t test|||||||0.373
82597753|NCT01765673|164910150|OTHER|||||||0.744|||||||paired t test|||||||0.744
82597754|NCT04872101|164910157|SUPERIORITY||Risk Difference (RD)|22.2|||<|0.001|TWO_SIDED|95.0|15.8|28.5||5% significance level (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||28.5|15.8|<0.001
82597755|NCT04872101|164910158|SUPERIORITY||Risk Difference (RD)|22.9|||<|0.001|TWO_SIDED|95.0|16.0|29.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.8|16.0|<0.001
82597756|NCT04872101|164910159|SUPERIORITY||Risk Difference (RD)|6.5||||0.043|TWO_SIDED|95.0|0.8|12.3||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||12.3|0.8|0.043
82597757|NCT04872101|164910160|SUPERIORITY||Risk Difference (RD)|27.4|||<|0.001|TWO_SIDED|95.0|19.0|35.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.8|19.0|<0.001
82597758|NCT04872101|164910161|SUPERIORITY||Risk Difference (RD)|23.7|||<|0.001|TWO_SIDED|95.0|15.1|32.2||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.2|15.1|<0.001
82597759|NCT04872101|164910162|SUPERIORITY||Risk Difference (RD)|29.0|||<|0.001|TWO_SIDED|95.0|21.3|36.7||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||36.7|21.3|<0.001
82597760|NCT04872101|164910163|SUPERIORITY||Risk Difference (RD)|18.3|||<|0.001|TWO_SIDED|95.0|11.0|25.6||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||25.6|11.0|<0.001
82597761|NCT04872101|164910164|SUPERIORITY||Risk Difference (RD)|6.6||||0.031|TWO_SIDED|95.0|1.1|12.0||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||12.0|1.1|0.031
82597762|NCT04872101|164910165|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.001|TWO_SIDED|95.0|17.5|32.5||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.5|17.5|<0.001
82597763|NCT04872101|164910166|SUPERIORITY||Risk Difference (RD)|16.9|||<|0.001|TWO_SIDED|95.0|10.2|23.7||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||23.7|10.2|<0.001
82597764|NCT04872101|164910167|SUPERIORITY||Risk Difference (RD)|26.0|||<|0.001|TWO_SIDED|95.0|17.0|35.1||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.1|17.0|<0.001
82597765|NCT04872101|164910168|SUPERIORITY||Risk Difference (RD)|29.6|||<|0.001|TWO_SIDED|95.0|21.7|37.4||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||37.4|21.7|<0.001
82597766|NCT04872101|164910169|SUPERIORITY||Risk Difference (RD)|20.5|||<|0.001|TWO_SIDED|95.0|13.1|27.8||Evaluated at a 5% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||27.8|13.1|<0.001
82597767|NCT04872101|164910170|SUPERIORITY||Risk Difference (RD)|22.2|||<|0.001|TWO_SIDED|95.0|15.4|29.0||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.0|15.4|<0.001
82597768|NCT04872101|164910171|SUPERIORITY||Risk Difference (RD)|31.3|||<|0.001|TWO_SIDED|95.0|23.1|39.5||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||39.5|23.1|<0.001
82597769|NCT04872101|164910172|SUPERIORITY||Risk Difference (RD)|31.0|||<|0.001|TWO_SIDED|95.0|22.7|39.3||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||39.3|22.7|<0.001
82597770|NCT04872101|164910173|SUPERIORITY||Mean Difference (Net)|-45.5|||<|0.001|TWO_SIDED|95.0|-56.4|-34.6||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HECSI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-34.6|-56.4|<0.001
82597771|NCT04872101|164910174|SUPERIORITY||Mean Difference (Net)|-3.9|||<|0.001|TWO_SIDED|95.0|-5.0|-2.8||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline DLQI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-2.8|-5.0|<0.001
82597772|NCT04872101|164910175|SUPERIORITY||Mean Difference (Net)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.4|-1.4||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.4|-2.4|<0.001
82597773|NCT04872101|164910176|SUPERIORITY||Median Difference (Net)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD itch score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.4|-2.5|<0.001
82597774|NCT04872101|164910177|SUPERIORITY||Mean Difference (Net)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.6|-1.5||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD pain score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.5|-2.6|<0.001
82597775|NCT04872101|164910178|SUPERIORITY||Median Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-0.99|-0.62||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.62|-0.99|<0.001
82597776|NCT04872101|164910179|SUPERIORITY||Mean Difference (Net)|-0.82|||<|0.001|TWO_SIDED|95.0|-1.01|-0.62||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS PDAL score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.62|-1.01|<0.001
82597777|NCT04872101|164910180|SUPERIORITY||Risk Difference (RD)|26.4|||<|0.001|TWO_SIDED|95.0|17.0|35.9||Evaluated at a 1% significance level (two-sided) using hierarchical tests, alpha splitting, and alpha recycling to control overall type 1 error at 5% (two-sided)|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||35.9|17.0|<0.001
82597778|NCT03691974|164910182|SUPERIORITY||Least Square (LS) Mean Difference|0.4||||0.4192|TWO_SIDED|95.0|-0.55|1.32||Analyses are based on Mixed Model for Repeated Measures (MMRM) model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|Mixed Model for Repeated Measures (MMRM)|||||1.32|-0.55|0.4192
82597779|NCT03691974|164910183|SUPERIORITY||LS Mean Difference|0.4||||0.0521|TWO_SIDED|95.0|0.0|0.8||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||0.80|-0.00|0.0521
82597780|NCT03691974|164910184|SUPERIORITY||LS Mean Difference|1.3||||0.1593|TWO_SIDED|95.0|-0.52|3.15||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||3.15|-0.52|0.1593
82597781|NCT03691974|164910185|SUPERIORITY||LS Mean Difference|-0.2||||0.7757|TWO_SIDED|95.0|-1.59|1.19||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.19|-1.59|0.7757
82597782|NCT03691974|164910186|SUPERIORITY||LS Mean Difference|-0.4||||0.6063|TWO_SIDED|95.0|-1.87|1.09||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.09|-1.87|0.6063
82597783|NCT03691974|164910187|SUPERIORITY||LS Mean Difference|-1.0||||0.4203|TWO_SIDED|95.0|-3.3|1.39||Analyses are based on MMRM model with terms for baseline nerve conduction test score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||1.39|-3.30|0.4203
82597784|NCT03691974|164910188|SUPERIORITY||LS Mean Difference|-1.33||||0.001|TWO_SIDED|95.0|-2.123|-0.538||Analyses are based on multiple imputation with MMRM model with terms for baseline WOMAC subscale score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||-0.538|-2.123|0.0010
82597785|NCT03691974|164910189|SUPERIORITY||LS Mean Difference|-1.42||||0.0005|TWO_SIDED|95.0|-2.212|-0.625||Analyses were based on multiple imputation with MMRM model with terms for baseline WOMAC subscale score, treatment, screening Kellgren-Lawrence score, index joint, visit, and treatment by visit interaction.|MMRM|||||-0.625|-2.212|0.0005
82597786|NCT00691483|164910199|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.03|||<|0.0001|TWO_SIDED|95.0|3.8|9.56||To preserve the type I family-wise error rate of 0.05, a step-down procedure to be used for the analysis of CA for Week 9 through Week 12 and the CA for Week 9 through Week 24.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Sample size to be based on a continuity-corrected Chi-square 2-sided test with a 0.05 significance level and a 3:1 randomization ratio of Varenicline to placebo. 652 subjects to provide \>=90% power to detect Varenicline versus placebo differences in primary and key secondary efficacy endpoints (assuming placebo CA rates of 0.24 \[Weeks 9-12\] and 0.18 \[Weeks 9-24\] and Varenicline CA rates of 0.46 \[Weeks 9-12\] and 0.31 \[Weeks 9-24\]) (odds ratio of \>=2.67 \[Weeks 9-12\] and \>=2.10 \[Weeks 9-24\]).||9.56|3.80|<0.0001
82654834|NCT03740165|165025221|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0012|TWO_SIDED|95.0|0.5|0.86||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.86|0.50|0.0012
82654835|NCT03740165|165025221|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4366|TWO_SIDED|95.0|0.75|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.27|0.75|0.4366
82597787|NCT00691483|164910200|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.45|||<|0.0001|TWO_SIDED|95.0|2.62|7.55||To preserve the type I family-wise error rate of 0.05, a step-down procedure to be used for the analysis of CA for Week 9 through Week 12 and the CA for Week 9 through Week 24.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Sample size to be based on a continuity-corrected Chi-square 2-sided test with a 0.05 significance level and a 3:1 randomization ratio of Varenicline to placebo. 652 subjects to provide \>=90% power to detect Varenicline versus placebo differences in primary and key secondary efficacy endpoints (assuming placebo CA rates of 0.24 \[Weeks 9-12\] and 0.18 \[Weeks 9-24\] and Varenicline CA rates of 0.46 \[Weeks 9-12\] and 0.31 \[Weeks 9-24\]) (odds ratio of \>=2.67 \[Weeks 9-12\] and \>=2.10 \[Weeks 9-24\]).||7.55|2.62|<0.0001
82597788|NCT00691483|164910201|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.91|||<|0.0001|TWO_SIDED|95.0|2.96|8.13||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||8.13|2.96|<0.0001
82654836|NCT03740165|165025222|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0008|TWO_SIDED|95.0|0.61|0.89||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.89|0.61|0.0008
82654837|NCT03740165|165025222|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7174|TWO_SIDED|95.0|0.88|1.27||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.27|0.88|0.7174
82597789|NCT00691483|164910202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.0001|TWO_SIDED|95.0|3.66|8.75||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Week 12. Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||8.75|3.66|<0.0001
82597790|NCT00691483|164910202|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.58|6.58||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Week 24. Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||6.58|2.58|<0.0001
82597791|NCT00691483|164910203|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14|||<|0.0001|TWO_SIDED|95.0|2.58|6.67||A 0.05 level of significance without adjustment for multiplicity.|Regression, Logistic|Model to include the main effects of treatment and pooled center.||Statistical testing to be 2-sided and use a 0.05 level of significance. Confidence intervals to have a 95% confidence level. Statistical significance to be declared unless a p-value \>0.05 was obtained.||6.67|2.58|<0.0001
82597792|NCT00439946|164910205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.84
82597793|NCT00439946|164910206|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82597794|NCT00439946|164910207|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82597795|NCT00439946|164910208|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.50
82597796|NCT00439946|164910209|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.00
82597797|NCT00439946|164910210|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.50
82654838|NCT03740165|165025223|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0228|TWO_SIDED|95.0|0.62|1.0||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.00|0.62|0.0228
82597798|NCT00439946|164910211|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.0
82597799|NCT00439946|164910212|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||0.75
82597800|NCT00439946|164910213|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.0
82597801|NCT00439946|164910214|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed rank|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values||||1.00
82597802|NCT00439946|164910215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.95||95.0||||p-value for: Gather/set-up|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.95
82597803|NCT00439946|164910215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0||||p-value for: Prepare drug|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.02
82597804|NCT00439946|164910215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2||95.0||||p-value for: Connect drug|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.20
82597805|NCT00439946|164910215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.48||95.0||||p-value for: Change dressing|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.48
82597806|NCT00439946|164910215|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||p-value for: Total time|Wilcoxon signed rank|||Changes in mean times between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.11
82597807|NCT00439946|164910216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0||||p-value for: CAMPHOR Symptom Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.31
82597808|NCT00439946|164910216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84||95.0||||p-value for CAMPHOR Activity Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.84
82597809|NCT00439946|164910216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0||||p-value for CAMPHOR Quality of Life Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
82597810|NCT00439946|164910216|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22||95.0||||p-value for CAMPHOR Total Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.22
82597811|NCT00439946|164910217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0||||p-value for TSQM Effectiveness Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.55
82597812|NCT00439946|164910217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0||||p-value for TSQM Side-Effects Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.50
82597813|NCT00439946|164910217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01||95.0||||p-value for TSQM Convenience Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.01
82597814|NCT00439946|164910217|SUPERIORITY_OR_OTHER_LEGACY|||||||0.52||95.0||||p-value for TSQM Global Satisfaction Score|Wilcoxon signed rank|||Changes in mean TSQM and CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test, comparing the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.52
82597815|NCT03860961|164910219|SUPERIORITY|||||||0.9238||||||Two-sided significance level = 0.05|Chi-squared, Corrected|||Cluster-randomized trial, cluster=practice, maximum 25 patients/practice. Assuming 14 pts/practice, cluster size coefficient of variation of 0.5, intra-cluster correlation (ρ) of 0.04, design effect 1.51, and 59.8% of Arm A patients meeting the criteria provides 80% power for a two-sided α=0.05 two-sample test of proportions to detect a 15% absolute improvement in percentage of patients meeting the criteria with 544 patients (after adjusted for withdrawal and loss to follow-up).||||0.9238
82597816|NCT03860961|164910220|SUPERIORITY|||||||0.5609||||||Two-sided significance level = 0.05|Mixed Models Analysis|Model included baseline CVD risk score, practice as random covariate (participants nested within practice) and treatment arm.||||||0.5609
82597817|NCT02475681|164910225|SUPERIORITY||Hazard Ratio (HR)|0.1|||<|0.0001|TWO_SIDED|95.0|0.06|0.17|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The primary test to compare PFS between treatment arms was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR (Arm B/Arm A) and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.17|0.06|<0.0001
82597818|NCT02475681|164910226|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.13|0.3|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare PFS between treatment Arms A and C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.30|0.13|<0.0001
82597819|NCT02475681|164910227|SUPERIORITY||Risk Difference (RD)|15.3|||<|0.0001|TWO_SIDED|95.0|8.3|22.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel test with adjustment for randomization stratification factors as recorded in IXRS||||22.3|8.3|<0.0001
82597820|NCT02475681|164910227|SUPERIORITY||Risk Difference (RD)|6.9||||0.0763|TWO_SIDED|95.0|-1.0|14.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenzel test with adjustment for randomization stratification factors as recorded in IXRS.||||14.9|-1.0|0.0763
82654839|NCT03740165|165025223|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3935|TWO_SIDED|95.0|0.77|1.22||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.22|0.77|0.3935
82597821|NCT02475681|164910228|SUPERIORITY||Hazard Ratio (HR)|0.14|||<|0.0001|TWO_SIDED|95.0|0.08|0.26|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare TTNT between treatment Arms A versus B and Arms A versus C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||0.26|0.08|<0.0001
82597822|NCT02475681|164910228|SUPERIORITY||Hazard Ratio (HR)|0.24|||<|0.0001|TWO_SIDED|95.0|0.15|0.4||P-value based on stratified by randomization stratification factors as recorded in IXRS|Log Rank|Stratified by randomization stratification factors as recorded in IXRS||||0.40|0.15|<0.0001
82597823|NCT02475681|164910229|SUPERIORITY||Hazard Ratio (HR)|0.47||||0.0577|TWO_SIDED|95.0|0.21|1.06|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||The test to compare overall survival between treatment Arms A versus B and Arms A versus C was the two-sided log-rank test, stratified by randomization stratification factors. The estimate of the HR and the corresponding 95% CI was computed using a Cox proportional hazards model stratified by randomization stratification factors. Randomization stratification factors were based on the data recorded in IXRS.||1.06|0.21|0.0577
82597824|NCT02475681|164910229|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.1556|TWO_SIDED|95.0|0.28|1.27|||Log Rank|Stratified by randomization stratification factors as recorded in IXRS||||1.27|0.28|0.1556
82597825|NCT00493870|164910264|OTHER|||||||0.05|||||||Log Rank|||||||0.05
82597826|NCT01166230|164910275|SUPERIORITY_OR_OTHER|||||||0.141|||||||Fisher Exact|||||||0.141
82597827|NCT01166230|164910276|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.041
82597828|NCT01166230|164910277|SUPERIORITY_OR_OTHER|||||||0.056|TWO_SIDED|99.0|||||Wilcoxon (Mann-Whitney)|||||||0.056
82597829|NCT00883337|164910280|SUPERIORITY_OR_OTHER|||||||0.5953||95.0||||"Hochberg testing procedure:~* a-priori threshold for statistical significance ≤0.05 for the largest p-value of the 2 pair-wise comparisons~* a-priori threshold for statistical significance ≤0.025 for the other p-value if the largest p-value \>0.05"|Log Rank|Two-sided Log Rank test with the region of enrollment and baseline EDSS stratum as stratification factors||"The study was sized to detect a difference between Teriflunomide and Rebif groups in the time to failure at a significance level of 0.025 with a power of 81%.~Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and Rebif~* H2: No difference between Teriflunomide 7 mg and Rebif"||||0.5953
82597830|NCT00883337|164910280|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||"Hochberg testing procedure:~* a-priori threshold for statistical significance ≤0.05 for the largest p-value of the 2 pair-wise comparisons~* a-priori threshold for statistical significance ≤0.025 for the other p-value if the largest p-value \>0.05"|Log Rank|Two-sided Log Rank test with the region of enrollment and baseline EDSS stratum as stratification factors||"Null hypothesis:~* H1: No difference between Teriflunomide 14 mg and Rebif~* H2: No difference between Teriflunomide 7 mg and Rebif"||||0.5190
82597831|NCT01008280|164910325|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of drinking days.||||<0.01
82597832|NCT01008280|164910325|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of drinking days.||||>0.01
82597833|NCT01008280|164910325|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time by group effects for the number of drinking days.||||>0.01
82597834|NCT01008280|164910326|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of drinks.||||<0.01
82597835|NCT01008280|164910326|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of drinks.||||>0.01
82597836|NCT01008280|164910326|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group by time effects for the number of drinks.||||>0.01
82597837|NCT01008280|164910327|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed time effects for the number of heavy drinking days.||||<0.01
82597838|NCT01008280|164910327|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group effects for the number of heavy drinking days.||||>0.01
82597839|NCT01008280|164910327|SUPERIORITY_OR_OTHER||||||>|0.01|TWO_SIDED|95.0|||||Wald Chi-Squared|||This was an intent to treat analysis where Generalized Estimating Equations, using the Negative Binomial function, were used to test for group, time, and group by time effects for drinks, drinking days, and heavy drinking days. This analysis assessed group by time effects for the number of heavy drinking days.||||>0.01
82597840|NCT02354703|164910335|SUPERIORITY|||||||0.94||||||a priori significance P\<0.05|Kruskal-Wallis|adjusted for baseline value||||||0.94
82597841|NCT02354703|164910336|SUPERIORITY|||||||1||||||a priori significance is P\<0.05|Chi-squared|adjusted for baseline value||||||1.00
82597842|NCT02354703|164910337|SUPERIORITY|||||||0.73||||||a priori threshold is P\<0.05|Kruskal-Wallis|adjusted for baseline value||||||0.73
82597843|NCT04681170|164910351|OTHER||Mean Difference (Net)|-53.91|||<|0.0001|TWO_SIDED|95.0|-61.859|-45.9612|||t-test, 1 sided|||This was a single-arm study, no comparative group can be assigned; the comparison made for the primary efficacy endpoint is done only between baseline and Week 24 in paediatric subjects (5 to ≤17 years of age). Analysis was made using the one-sample t-test to test the null hypothesis that the percentage change from Baseline was equal to zero against the alternative hypothesis that the percentage change from Baseline was not equal to zero.||-45.9612|-61.8590|<0.0001
82597844|NCT02787863|164910388|OTHER||||||<|0.05|||||||McNemar|||||||<0.05
82597845|NCT02787863|164910389|OTHER||||||<|0.05|||||||McNemar|||||||<0.05
82597846|NCT03118297|164910414|SUPERIORITY|||||||0.002||||||Threshold for significance: p=0.05|Wilcoxon (Mann-Whitney)|||||||0.002
82597847|NCT03118297|164910415|SUPERIORITY|||||||0.032||||||Threshold for significance: p=0.05|Fisher Exact|||||||0.032
82597848|NCT03118297|164910416|SUPERIORITY||||||<|0.001||||||Threshold for significance: p=0.05|Fisher Exact|||||||<0.001
82597849|NCT03118297|164910417|SUPERIORITY||||||>|0.05||||||Threshold for significance: p=0.05|Chi-squared|||||||>0.05
82597850|NCT03118297|164910418|OTHER|No statistical test performed|||||||||||||||||Significance testing not performed. All values below prespecified limit of 5.0 ng/mL.|||
82597851|NCT01885000|164910421|SUPERIORITY||||||=|0.0065|||||||Cochran-Mantel-Haenszel|||||||= 0.0065
82597852|NCT01885000|164910422|SUPERIORITY||||||=|0.0328|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who satisfied with appearance.||||= 0.0328
82597853|NCT01885000|164910422|SUPERIORITY||||||=|0.5312|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who appearance acceptable.||||= 0.5312
82597854|NCT01885000|164910422|SUPERIORITY||||||=|0.0756|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who appearance concerned.||||= 0.0756
82597855|NCT01885000|164910422|SUPERIORITY||||||=|0.0083|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who embarrassed with facial redness.||||= 0.0083
82597856|NCT01885000|164910422|SUPERIORITY||||||=|0.0076|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who self-conscious.||||= 0.0076
82597857|NCT01885000|164910422|SUPERIORITY||||||=|0.2186|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who's frequency control last 24 hours||||= 0.2186
82597858|NCT01885000|164910422|SUPERIORITY||||||=|0.2373|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who are frustrated.||||= 0.2373
82597859|NCT01885000|164910422|SUPERIORITY||||||=|0.7769|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who cover up or camouflage.||||= 0.7769
82597860|NCT01885000|164910422|SUPERIORITY||||||=|0.8764|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who pay attention to the known triggers.||||= 0.8764
82597861|NCT01885000|164910422|SUPERIORITY||||||=|0.6149|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who avoid the known triggers.||||= 0.6149
82597862|NCT01885000|164910422|SUPERIORITY||||||=|0.8361|||||||Cochran-Mantel-Haenszel|||The questionnaire analyzed and reported here is for participants who interfering with social life.||||= 0.8361
82597863|NCT01885000|164910422|SUPERIORITY||||||=|0.6259|||||||Cochran-Mantel-Haenszel|||Interfering with work life||||= 0.6259
82597864|NCT01885000|164910423|SUPERIORITY||||||=|0.5821|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Mobility.||||= 0.5821
82597865|NCT01885000|164910423|SUPERIORITY||||||=|0.8864|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Self-Care.||||= 0.8864
82597866|NCT01885000|164910423|SUPERIORITY||||||=|0.9579|||||||Cochran-Mantel-Haenszel|||This analysis was performed for usual activities.||||= 0.9579
82597867|NCT01885000|164910423|SUPERIORITY||||||=|0.1344|||||||Cochran-Mantel-Haenszel|||This analysis was performed for Pain/Discomfort.||||= 0.1344
82597868|NCT01885000|164910423|SUPERIORITY||||||=|0.1881|||||||Cochran-Mantel-Haenszel|||Anxiety/Depression||||= 0.1881
82597869|NCT01885000|164910424|SUPERIORITY||||||=|0.3935|||||||Cochran-Mantel-Haenszel|||||||= 0.3935
82597870|NCT01885000|164910425|SUPERIORITY||||||=|0.4162|||||||Cochran-Mantel-Haenszel|||||||= 0.4162
82597871|NCT04302727|164910478|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||||||0.43
82597872|NCT04302727|164910478|SUPERIORITY||Median Difference (Net)|0.37||||0.64|TWO_SIDED|95.0|-1.19|1.93|||Mixed Models Analysis|||Fully adjusted model||1.93|-1.19|0.64
82597873|NCT04302727|164910479|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 4||||<0.0001
82597874|NCT04302727|164910479|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Month 12||||0.67
82597875|NCT04302727|164910480|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Participants with diabetes-Month 4||||0.02
82597876|NCT04302727|164910480|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Participants without diabetes-Month 4||||<0.0001
82597877|NCT04302727|164910480|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Participants with diabetes-Month 12||||0.82
82597878|NCT04302727|164910480|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||Participants without diabetes-Month 12||||0.75
82597879|NCT04302727|164910480|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||Participants with diabetes-Month 24||||0.87
82597880|NCT04302727|164910480|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Participants without diabetes-Month 24||||0.27
82597881|NCT04302727|164910480|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Females-Month 4||||<0.0001
82597882|NCT04302727|164910480|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|||Females-Month 12||||0.66
82597883|NCT04302727|164910480|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Females-Month 24||||0.96
82597884|NCT04302727|164910480|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||Males-Month 4||||0.0003
82597885|NCT04302727|164910480|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|||Males-Month 12||||0.34
82597886|NCT04302727|164910480|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Males-Month 24||||0.20
82597887|NCT04302727|164910480|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Whites-Month 4||||<0.0001
82597888|NCT04302727|164910480|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Whites-Month 12||||0.83
82597889|NCT04302727|164910480|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|||Whites-Month 24||||0.54
82597890|NCT04302727|164910480|SUPERIORITY|||||||0.008|||||||t-test, 2 sided|||African Americans-Month 4||||0.008
82597891|NCT04302727|164910480|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||African Americans-Month 12||||0.58
82597892|NCT04302727|164910480|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||African Americans-Month 24||||0.79
82597893|NCT04302727|164910481|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 4||||<0.001
82597894|NCT04302727|164910481|SUPERIORITY|||||||0.57|||||||t-test, 2 sided|||Month 12||||0.57
82597895|NCT04302727|164910481|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Month 24||||0.32
82597896|NCT04302727|164910482|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Month 4||||0.77
82597897|NCT04302727|164910482|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Month 12||||0.48
82654840|NCT03740165|165025224|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0573|TWO_SIDED|95.0|0.74|1.03||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.03|0.74|0.0573
82597898|NCT04302727|164910482|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Month 24||||0.68
82654841|NCT03740165|165025224|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7234|TWO_SIDED|95.0|0.89|1.23||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.23|0.89|0.7234
82654842|NCT03740165|165025225|SUPERIORITY||Difference in Least Squares Means (LSM)|0.26||||0.8481|TWO_SIDED|95.0|-2.44|2.97|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.97|-2.44|0.8481
82654843|NCT03740165|165025225|SUPERIORITY||Difference in LS Means|-1.1||||0.4335|TWO_SIDED|95.0|-3.87|1.66|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||1.66|-3.87|0.4335
82597899|NCT04302727|164910483|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Month 4||||0.91
82597900|NCT04302727|164910483|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||Month 12||||0.52
82597901|NCT04302727|164910483|SUPERIORITY|||||||0.97|||||||t-test, 2 sided|||Month 24||||0.97
82597902|NCT04302727|164910484|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Month 4||||0.29
82597903|NCT04302727|164910484|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82597904|NCT04302727|164910484|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||Month 12||||0.09
82597905|NCT04302727|164910485|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Month 4||||0.96
82597906|NCT04302727|164910485|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Month 12||||0.77
82597907|NCT04302727|164910485|SUPERIORITY|||||||0.94|||||||t-test, 2 sided|||Month 24||||0.94
82597908|NCT04302727|164910486|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||Month 4||||0.55
82597909|NCT04302727|164910486|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Month 12||||0.83
82597910|NCT04302727|164910486|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 24||||0.44
82597911|NCT04302727|164910487|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||Month 4||||0.99
82597912|NCT04302727|164910487|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||Month 12||||0.71
82597913|NCT04302727|164910487|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 24||||0.44
82597914|NCT04302727|164910488|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||Month 4||||0.05
82597915|NCT04302727|164910488|SUPERIORITY|||||||0.42|||||||t-test, 2 sided|||Month 12||||0.42
82597916|NCT04302727|164910488|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Month 24||||0.02
82597917|NCT04302727|164910489|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
82597918|NCT04302727|164910489|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||Month 12||||0.56
82597919|NCT04302727|164910489|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
82597920|NCT04302727|164910490|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||Month 4, comparison performed on log base 2 transformation of fluorescence data.||||0.96
82597921|NCT04302727|164910490|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Month 12, comparison performed on log base 2 transformation of fluorescence data.||||0.88
82597922|NCT04302727|164910490|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||Month 24, comparison performed on log base 2 transformation of fluorescence data.||||0.29
82597923|NCT04302727|164910491|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||Month 4, comparison performed on log base 2 transformation of fluorescence data.||||0.82
82597924|NCT04302727|164910491|SUPERIORITY|||||||0.25|||||||t-test, 2 sided|||Month 12, comparison performed on log base 2 transformation of fluorescence data.||||0.25
82597925|NCT04302727|164910491|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Month 24, comparison performed on log base 2 transformation of fluorescence data.||||0.48
82597926|NCT04302727|164910492|SUPERIORITY|||||||0.0007|||||||t-test, 2 sided|||Month 4||||0.0007
82597927|NCT04302727|164910492|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||Month 12||||0.51
82597928|NCT04302727|164910492|SUPERIORITY|||||||0.91|||||||t-test, 2 sided|||Month 24||||0.91
82597929|NCT04302727|164910493|SUPERIORITY|||||||0.83|||||||t-test, 2 sided|||Month 4||||0.83
82597930|NCT04302727|164910493|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||Month 12||||0.68
82597931|NCT04302727|164910493|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Month 24||||0.64
82597932|NCT04302727|164910494|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 4||||<0.0001
82597933|NCT04302727|164910494|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||Month 12||||<0.0001
82597934|NCT04302727|164910494|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||Month 24||||0.005
82654844|NCT03740165|165025226|SUPERIORITY||Difference in Least Squares Means (LSM)|0.14||||0.9024|TWO_SIDED|95.0|-2.15|2.44|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.44|-2.15|0.9024
82654845|NCT03740165|165025226|SUPERIORITY||Difference in Least Squares Means (LSM)|-0.08||||0.9478|TWO_SIDED|95.0|-2.47|2.31|||t-test, 2 sided||Based on cLDA model with scores as response variable; covariates for treatment by time interaction and stratification factors (debulking surgery \[planned interval vs R0 following primary vs R1 following primary\], bevacizumab use, and PD-L1 CPS)|||2.31|-2.47|0.9478
82654846|NCT03740165|165025227|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2644|TWO_SIDED|95.0|0.73|1.17||One-sided p-value based on log-rank test stratified by surgery (planned interval debulking versus R0 following primary debulking versus R1 following primary debulking), bevacizumab use (yes versus no), and PD-L1 status (CPS\<10 vs CPS≥10).|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by surgery (planned interval vs R0 following primary vs R1 following primary debulking), bevacizumab use (Yes vs No), PD-L1 status (CPS\<10 vs CPS≥10)|||1.17|0.73|0.2644
82654847|NCT03740165|165025227|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.1953|TWO_SIDED|95.0|0.71|1.14||One-sided p-value based on log-rank test stratified by surgery (planned interval debulking versus R0 following primary debulking versus R1 following primary debulking), bevacizumab use (yes versus no), and PD-L1 status (CPS\<10 vs CPS≥10).|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by surgery (planned interval vs R0 following primary vs R1 following primary debulking), bevacizumab use (Yes vs No), PD-L1 status (CPS\<10 vs CPS≥10)|||1.14|0.71|0.1953
82654848|NCT03740165|165025228|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5188|TWO_SIDED|95.0|0.77|1.3||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.30|0.77|0.5188
82654849|NCT03740165|165025228|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.5091|TWO_SIDED|95.0|0.77|1.3||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.30|0.77|0.5091
82654850|NCT03740165|165025229|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.51|0.79||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||0.79|0.51|<0.0001
82654851|NCT03740165|165025229|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0981|TWO_SIDED|95.0|0.7|1.08||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.08|0.70|0.0981
82597935|NCT04302727|164910495|SUPERIORITY|||||||0.92||||||Month 4|Wilcoxon (Mann-Whitney)|||||||0.92
82597936|NCT04302727|164910495|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||Month 12||||0.40
82597937|NCT04302727|164910495|SUPERIORITY|||||||0.82|||||||Wilcoxon (Mann-Whitney)|||Month 24||||0.82
82597938|NCT04302727|164910496|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||Month 4||||0.44
82597939|NCT04302727|164910496|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Month 12||||0.03
82597940|NCT04302727|164910496|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Month 24||||0.28
82597941|NCT04302727|164910497|SUPERIORITY|||||||0.32|||||||t-test, 2 sided|||Month 4||||0.32
82597942|NCT04302727|164910497|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||Month 12||||0.03
82654852|NCT03740165|165025230|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.59|0.8||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||0.80|0.59|<0.0001
82654853|NCT03740165|165025230|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.1206|TWO_SIDED|95.0|0.79|1.06||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.06|0.79|0.1206
82597943|NCT04302727|164910497|SUPERIORITY|||||||0.005|||||||t-test, 2 sided|||Month 24||||0.005
82597944|NCT04302727|164910498|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
82597945|NCT04302727|164910498|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||Month 12||||0.16
82597946|NCT04302727|164910498|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Month 24||||0.27
82597947|NCT04302727|164910499|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 4||||0.10
82597948|NCT04302727|164910499|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||Month 12||||0.01
82597949|NCT04302727|164910499|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Month 24||||0.06
82597950|NCT04302727|164910500|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||Month 4||||0.41
82597951|NCT04302727|164910500|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||Month 12||||0.24
82597952|NCT04302727|164910500|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||Month 24||||0.74
82597953|NCT04302727|164910501|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Month 4||||0.13
82597954|NCT04302727|164910501|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||Month 12||||0.10
82597955|NCT04302727|164910501|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Month 24||||0.12
82597956|NCT04302727|164910502|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||Month 4||||0.002
82597957|NCT04302727|164910502|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 12||||<0.001
82597958|NCT04302727|164910502|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Month 24||||<0.001
82597959|NCT05215600|164910506|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.001|||||||t-test, 2 sided|T-Test (Pooled)||||||<0.001
82597960|NCT05215600|164910507|OTHER|P-values account for preoperative versus postoperative mean values at 1 and 2 years|||||<|0.001|||||||t-test, 2 sided|T-Test (Pooled)||||||<0.001
82597961|NCT04735653|164910518|SUPERIORITY||||||<|0.001||||||A Wilcoxon rank-sum test was used instead of ANOVA due to the non-normality of the adherence outcomes. We did not block on clinic due to differences in sample characteristics by site.|Wilcoxon (Mann-Whitney)|Medication adherence was compared between groups with a Wilcoxon rank-sum test.||||||<0.001
82654854|NCT03740165|165025231|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0316||95.0|0.63|1.01||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.01|0.63|0.0316
82654855|NCT03740165|165025231|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4441||95.0|0.78|1.24||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.24|0.78|0.4441
82654856|NCT03740165|165025232|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0853||95.0|0.76|1.05||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.05|0.76|0.0853
82654857|NCT03740165|165025232|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.7165||95.0|0.89|1.23||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.23|0.89|0.7165
82597962|NCT04735653|164910519|SUPERIORITY||||||<|0.001||||||A chi-squared test was used instead of Cochran-Mantel-Haenszel test due to site differences. Site differences will be incorporated into multivariable models to investigate moderating effects with treatment on the outcome in future analyses.|Chi-squared|||||||<0.001
82597963|NCT04735653|164910520|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-0.5|-0.1|||||Adjustment for site was not performed. Site differences will be incorporated into multivariable models to investigate moderating effects with treatment on the outcome in future analyses.|||-0.1|-0.5|
82597964|NCT00428974|164910521|SUPERIORITY|||||||0.031|||||||t-test, 1 sided|||12 weeks, 2mg CF101 vs. Placebo||||0.031
82597965|NCT00428974|164910522|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||||||<0.05
82597966|NCT00684788|164910536|SUPERIORITY||Odds Ratio (OR)|5.68|||=|0.008|TWO_SIDED|95.0|1.61|20.02|||General Estimating Equation (GEE)|||||20.02|1.61|=0.008
82597967|NCT00684788|164910537|SUPERIORITY|||||||0.0033|||||||t-test, 2 sided|||||||0.0033
82597968|NCT00684788|164910540|SUPERIORITY||Odds Ratio (OR)|1.05||||0.939|TWO_SIDED|95.0|0.32|3.42|||General Estimating Equation (GEE)|||||3.42|0.32|0.939
82597969|NCT00684788|164910542|SUPERIORITY||Odds Ratio (OR)|1.074||||0.959|TWO_SIDED|95.0|0.071|16.245|||General Estimating Equation (GEE)|||||16.245|0.071|0.959
82597970|NCT00623428|164910543|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.4557|TWO_SIDED|95.0|0.45|1.43|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|"The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.~(second column)."|In order to detect an improvement in SVR rate across all strata equivalent to an odds ratio of 2 (i.e. an increase in SVR by 15 to 16 percentage points at a power of 80% and a two-sided significance level of 0.05, 160 patients per treatment group (320 patients in total) were required.||1.43|0.45|0.4557
82597971|NCT00623428|164910544|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0788|TWO_SIDED|95.0|0.33|1.06|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.06|0.33|0.0788
82597972|NCT00623428|164910545|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.5654|TWO_SIDED|95.0|0.48|3.87|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||3.87|0.48|0.5654
82597973|NCT00623428|164910547|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.1934|TWO_SIDED|95.0|0.38|1.21|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.21|0.38|0.1934
82597974|NCT00623428|164910548|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.1934|TWO_SIDED|95.0|0.38|1.21|||Cochran-Mantel-Haenszel|Stratified by HCV genotype (2 vs 3), region (US vs non-US) and initial Ribavirin dose (800mg vs 1000-1200mg).|The odds ratio is the ratio of the odds of a response in the 24-week treatment group to the odds of a response in the 48-week treatment group.|||1.21|0.38|0.1934
82597975|NCT02342015|164910551|OTHER||||||<|0.05|||||||wilcoxon signed-rank test|||||||<0.05
82597976|NCT02342015|164910552|OTHER||||||<|0.05|||||||paired Student's t-test|||||||<0.05
82597977|NCT01692301|164910553|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.66|STANDARD_ERROR_OF_MEAN|1.42||0.01|TWO_SIDED|95.0|-6.45|-0.87|||ANCOVA|||||-0.87|-6.45|0.010
82597978|NCT01142726|164910564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.01|STANDARD_ERROR_OF_MEAN|0.55||0.01|TWO_SIDED|95.0|1.18|3.43|||Regression, Logistic|Statistical testing of the 2 coprimary efficacy endpoints was conducted in a hierarchical fashion to maintain the overall Type I error rate at 5%.|At Month 12|Power estimate assumed 2-sided alpha level of 5% and that 60% of abatacept (ABA)+methotrexate (MX) patients (pts) would be in DAS28-CRP remission at Month 12 compared with 38% of MX monotherapy pts. Also assumed that 48% of ABA monotherapy pts would be in DAS28-CRP remission at Month 12, yielding an expected treatment difference from MX of 10% in favor of ABA monotherapy; 116 pts randomized to ABA monotherapy would yield a half-length of the 95% CI around that 10% treatment difference of 13.5%.||3.43|1.18|0.010
82597979|NCT01142726|164910564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51|STANDARD_ERROR_OF_MEAN|1.15||0.045|TWO_SIDED|95.0|1.02|6.18|||Regression, Logistic|Statistical testing of the 2 coprimary efficacy endpoints was conducted in a hierarchical fashion to maintain the overall Type I error rate at 5%.|At Months 12 and 18|Conditional on statistical significance of the 1st coprimary efficacy analysis (CEA), a sample of 116 patients per arm would provide 98% power for the 2nd CEA comparison of the percentage of patients in DAS28-CRP remission at Months 12 and 18 between the abatacept (ABA)+methotrexate (MTX) arm and the MTX monotherapy arm for intent-to treat population. This sample size calculation assumed 30% remission in the ABA+MTX arm and 8% in the monotherapy arm at Month 18 and a 2-sided alpha level of 5%.||6.18|1.02|0.045
82597980|NCT01142726|164910565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|95.0|0.55|1.57|||||At Month 12|||1.57|0.55|
82597981|NCT01142726|164910565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.04|STANDARD_ERROR_OF_MEAN|0.96|||TWO_SIDED|95.0|0.81|5.14|||||At Months 12 and 18|||5.14|0.81|
82597982|NCT03987854|164910584|SUPERIORITY||paired t-test|-7.67|STANDARD_DEVIATION|6.1|<|0.001|TWO_SIDED|||||-6.16|t-test, 2 sided|||||||<.001
82597983|NCT03987854|164910585|SUPERIORITY||paired t-test|-0.21|STANDARD_DEVIATION|0.27||0.001|TWO_SIDED|||||-3.29|t-test, 2 sided|||||||.001
82597984|NCT03987854|164910586|SUPERIORITY||paired t-test|1.92|STANDARD_DEVIATION|1.17|<|0.001|TWO_SIDED|||||7.52|t-test, 2 sided|||||||<.001
82654858|NCT03740165|165025233|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.1029|TWO_SIDED|95.0|0.71|1.08||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.08|0.71|0.1029
82654859|NCT03740165|165025233|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.8231|TWO_SIDED|95.0|0.9|1.36||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary) and bevacizumab use (Yes vs No)|||1.36|0.90|0.8231
82654860|NCT03740165|165025234|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.0442||95.0|0.76|1.02||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.02|0.76|0.0442
82597985|NCT03987854|164910587|SUPERIORITY||paired t-test|1.14|STANDARD_DEVIATION|1.04|<|0.001|TWO_SIDED|||||5.03|t-test, 2 sided|||||||<.001
82597986|NCT03987854|164910588|SUPERIORITY||paired t-test|2.52|STANDARD_DEVIATION|1.7|<|0.001|TWO_SIDED|||||6.81|t-test, 2 sided|||||||<.001
82597987|NCT03987854|164910589|SUPERIORITY||paired t-test|1.08|STANDARD_DEVIATION|1.43||0.003|TWO_SIDED|||||3.46|t-test, 2 sided|||||||.003
82597988|NCT03987854|164910590|SUPERIORITY||paired t-test|1.11|STANDARD_DEVIATION|1.56||0.004|TWO_SIDED|||||3.26|t-test, 2 sided|||||||.004
82597989|NCT03987854|164910591|SUPERIORITY||paired t-test|2.1|STANDARD_DEVIATION|2.76||0.002|TWO_SIDED|||||3.49|t-test, 2 sided|||||||.002
82597990|NCT00419380|164910599|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Chi-squared|||Two by two contingency table was used to compare our outcome, tube patency yes/no, by our two independent variables, dornase alfa (Pulmozyme®) and Ofloxin.||||.36
82597991|NCT00419380|164910600|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|||||Two by two contingency table was used to compare our outcome, presence/absence of ear drainage, by our two independent variables, dornase alfa (Pulmozyme®) and Ofloxin.|Chi-squared|||||||.26
82597992|NCT03099707|164910601|SUPERIORITY||Risk Ratio (RR)|5.2||||0.105|TWO_SIDED|95.0|0.6|43.0|||Fisher Exact|||||43|0.6|0.105
82597993|NCT01662440|164910621|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the Rabies vaccine considered non-inferior to the conventional schedule if the lower bound of the two-sided 97.5% Confidence Intervals (CI) of the difference in the percentages of subjects with RVNA titer ≥0.5 IU/mL measured 7 days after last active vaccination is greater than -5.|Difference in percentages of subjects|0.0|||||TWO_SIDED|97.5|-2.8|2.8||||||To establish non-inferiority of the immune response of Rabies vaccine (administered concomitantly with JE vaccine) accelerated schedule as compared to conventional schedule at 7 days after last active vaccination.||2.8|-2.8|
82597994|NCT01662440|164910622|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the JE vaccine is considered non-inferior to the conventional schedule if the lower bound of the two-sided 97.5% CI of the difference in the percentages of subjects with PRNT50 titer ≥1:10 measured 28 days after last active vaccination is greater than -10.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|97.5|-4.8|7.9||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) accelerated schedule as compared to conventional schedule at 28 day after last active vaccination||7.9|-4.8|
82654861|NCT03740165|165025234|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.9565||95.0|0.98|1.31||One-sided p-value based on log-rank test stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|Log Rank||Based on Cox regression model with Efron's method of tie handling; treatment as covariate stratified by debulking surgery (planned interval vs R0 following primary vs R1 following primary), bevacizumab use (Yes vs No), and PD-L1 CPS (\<10 vs ≥10)|||1.31|0.98|0.9565
82597995|NCT01662440|164910623|NON_INFERIORITY_OR_EQUIVALENCE|The conventional schedule of Rabies vaccine co-administered with JE vaccine considered non inferior to the conventional schedule of Rabies vaccine administered alone if the lower bound of the two-sided 95% CI of the ratio of GMCs measured 28 days after last active vaccination is greater than 0.667.|Between groups ratio of GMCs|1.07|||||TWO_SIDED|95.0|0.86|1.32||||||Non-inferiority of the immune response of Rabies vaccine (administered concomitantly with JE vaccine) as compared to Rabies vaccines (administered alone) as given according to conventional schedule at 28day after last active vaccination||1.32|0.86|
82597996|NCT01662440|164910624|NON_INFERIORITY_OR_EQUIVALENCE|The conventional schedule of JE vaccine co-administered with Rabies vaccine considered non inferior to the conventional schedule of JE vaccine administered alone if the lower bound of the two-sided 95% CI of the ratio of GMTs measured 28 days after last active vaccination is greater than 0.5.|Ratio of GMTs|0.88|||||TWO_SIDED|95.0|0.68|1.13||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) as compared to JE vaccine (administered alone) as given according to conventional schedule at day 28 after last active vaccination.||1.13|0.68|
82597997|NCT01662440|164910625|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the Rabies vaccine is considered non-inferior to the Rabies vaccine conventional schedule if the lower bound of the two-sided 95% CI of the difference in the percentages of subjects with RVNA titer ≥0.5 IU/mL measured 28 days after last active vaccine administration is greater than -5.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|95.0|-3.8|1.4||||||Non-inferiority of the Rabies immune response (administered concomitantly with JE vaccine) as given according to an accelerated schedule as compared Rabies vaccine (administered alone) as given to a conventional schedule at day 28 after last active vaccination||1.4|-3.8|
82597998|NCT01662440|164910626|NON_INFERIORITY_OR_EQUIVALENCE|The immune response of accelerated schedule of the JE vaccine considered non-inferior to the conventional schedule if the lower bound of the two-sided 95% CI of the difference in the percentages of subjects with PRNT50 titer ≥1:10 measured 7 days after last active vaccine administration is greater than -10.|Difference in percentages of subjects|-1.0|||||TWO_SIDED|95.0|-4.1|6.2||||||Non-inferiority of the immune response of JE vaccine (administered concomitantly with Rabies vaccine) as given according to an accelerated schedule as compared to JE vaccine (administered alone) as given according to a conventional schedule at 7day after last active vaccine administration.||6.2|-4.1|
82597999|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.047||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Trait Anger. Missing outcomes reported at non-responders.||||0.047
82598000|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.549||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Anger Expression-Out. Missing outcomes reported at non-responders.||||0.549
82598001|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.511||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for BAAQ. Missing outcomes reported at non-responders.||||0.511
82598002|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.031||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Trait Anger. Missing outcomes excluded for this analysis.||||0.031
82654862|NCT03740165|165025235|SUPERIORITY||Difference in Percentage|5.4||||0.0644|TWO_SIDED|95.0|-1.9|11.5||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|t-test, 1 sided||Based on Miettinen \& Nurminen method stratified by bevacizumab use (Yes vs No)|||11.5|-1.9|0.0644
82598003|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.483||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for STAXI-2 Anger Expression-Out. Missing outcomes excluded for this analysis.||||0.483
82654863|NCT03740165|165025236|SUPERIORITY||Difference in Percentage|3.7||||0.0318|TWO_SIDED|95.0|-0.3|7.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|t-test, 1 sided||Based on Miettinen \& Nurminen method stratified by bevacizumab use (Yes vs No) and PD-L1 CPS (\<10 vs ≥10)|||7.3|-0.3|0.0318
82598004|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.53||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's chi-square test||Significance of difference in post-treatment response rate for BAAQ. Missing outcomes excluded for this analysis.||||0.530
82598005|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.421||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's Chi-squared||Significance of difference in overall post-treatment response rate. Missing outcomes included as non-responders.||||0.421
82598006|NCT01745146|164910636|EQUIVALENCE|Primary outcome is difference in rates of treatment response between the ASMT and the PRE, where treatment response is defined as ≥ 1 SD improvement in self-reported anger on at least 1 of 3 target scales from pre- to 1-2 wk post treatment. The treatment will be considered supported if the observed response rate with ASMT is at least 20 percentage points higher than that with the control treatment, PRE.||||||0.332||||||Alpha was set at .05 both for the a priori hypotheses and also for secondary analyses|Chi-squared|Pearson's Chi-squared||Significance of difference in overall post-treatment response rate. Missing outcomes excluded for this analysis.||||0.332
82598007|NCT04623242|164910637|SUPERIORITY||Ratio|1.063|STANDARD_DEVIATION|0.059|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
82598008|NCT04623242|164910637|SUPERIORITY||Ratio|1.255|STANDARD_DEVIATION|0.061|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
82598009|NCT04623242|164910638|OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|1.094||0.805|TWO_SIDED|95.0|-2.46|1.92|||t-test, 2 sided|||||1.92|-2.46|0.805
82598010|NCT04623242|164910639|OTHER||Mean Difference (Final Values)|-1.2|STANDARD_ERROR_OF_MEAN|1.823||0.512|TWO_SIDED|95.0|-4.83|2.43|||t-test, 2 sided|||Test of equality (any treatment difference)||2.43|-4.83|0.512
82598011|NCT04623242|164910640|OTHER|Test of equality (any treatment difference)|Median Difference (Final Values)|-0.641|STANDARD_ERROR_OF_MEAN|0.1115|<|0.001|TWO_SIDED|95.0|-0.864|-0.417|||t-test, 2 sided|||||-0.417|-0.864|<0.001
82598012|NCT04623242|164910641|OTHER|Test of equality (any difference in the proportion of increase in the endpoint)|Ratio|0.3443||||0.5573|TWO_SIDED||||||Chi-squared|||||||0.5573
82598013|NCT04623242|164910642|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|1.092||0.707|TWO_SIDED|95.0|-1.77|2.6|||t-test, 2 sided|||||2.60|-1.77|0.707
82598014|NCT04623242|164910643|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.44||0.283|TWO_SIDED|95.0|-1.35|0.4|||t-test, 2 sided|||||0.40|-1.35|0.283
82598015|NCT04623242|164910644|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.36|STANDARD_ERROR_OF_MEAN|0.859||0.674|TWO_SIDED|95.0|-1.34|2.07|||t-test, 2 sided|||||2.07|-1.34|0.674
82598016|NCT04623242|164910645|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|1.828||0.507|TWO_SIDED|95.0|-4.86|2.42|||t-test, 2 sided|||||2.42|-4.86|0.507
82654864|NCT03049618|165025244|OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
82499901|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||||95.0|||||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||||
82598017|NCT04623242|164910646|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|1.706||0.553|TWO_SIDED|95.0|-4.41|2.38|||t-test, 2 sided|||||2.38|-4.41|0.553
82598018|NCT04623242|164910647|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.596||0.098|TWO_SIDED|95.0|-2.18|0.19|||t-test, 2 sided|||||0.19|-2.18|0.098
82598019|NCT04623242|164910648|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|2.73|STANDARD_ERROR_OF_MEAN|1.98||0.173|TWO_SIDED|95.0|-1.22|6.68|||t-test, 2 sided|||||6.68|-1.22|0.173
82598020|NCT04623242|164910649|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|3.998||0.94|TWO_SIDED|95.0|-8.1|8.71|||t-test, 2 sided|||||8.71|-8.10|0.940
82598021|NCT04623242|164910650|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|3.07|STANDARD_ERROR_OF_MEAN|16.524||0.854|TWO_SIDED|95.0|-30.49|36.62|||t-test, 2 sided|||||36.62|-30.49|0.854
82598022|NCT04623242|164910651|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|4.88|STANDARD_ERROR_OF_MEAN|17.448||0.781|TWO_SIDED|95.0|-30.0|39.75|||t-test, 2 sided|||||39.75|-30.00|0.781
82598023|NCT04623242|164910652|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.69|STANDARD_ERROR_OF_MEAN|4.21||0.689|TWO_SIDED|95.0|-10.05|6.67|||t-test, 2 sided|||||6.67|-10.05|0.689
82598024|NCT04623242|164910653|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.689||0.474|TWO_SIDED|95.0|-1.86|0.87|||t-test, 2 sided|||||0.87|-1.86|0.474
82598025|NCT04623242|164910654|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.637||0.886|TWO_SIDED|95.0|-1.36|1.17|||t-test, 2 sided|||||1.17|-1.36|0.886
82598026|NCT04623242|164910655|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.556||0.873|TWO_SIDED|95.0|-1.03|1.2|||t-test, 2 sided|||||1.20|-1.03|0.873
82598027|NCT04623242|164910656|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1.42|STANDARD_ERROR_OF_MEAN|1.66||0.394|TWO_SIDED|95.0|-4.71|1.87|||t-test, 2 sided|||||1.87|-4.71|0.394
82654865|NCT03049618|165025245|OTHER|||||||0.34|||||||Fisher Exact|||||||0.34
82654866|NCT03049618|165025246|OTHER|||||||0.057|||||||Fisher Exact|||||||0.057
82654867|NCT03049618|165025247|OTHER|||||||1|||||||Fisher Exact|||||||1.00
82654868|NCT03049618|165025249|OTHER|||||||0.83|||||||Log Rank|||||||0.83
82654869|NCT03049618|165025250|OTHER|||||||0.83|||||||Log Rank|||||||0.83
82598028|NCT04623242|164910657|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.063||0.776|TWO_SIDED|95.0|-2.41|1.81|||t-test, 2 sided|||||1.81|-2.41|0.776
82598029|NCT04623242|164910658|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.98|STANDARD_ERROR_OF_MEAN|0.909||0.283|TWO_SIDED|95.0|-2.78|0.82|||t-test, 2 sided|||||0.82|-2.78|0.283
82598030|NCT04623242|164910659|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.947||0.634|TWO_SIDED|95.0|-2.33|1.42|||t-test, 2 sided|||||1.42|-2.33|0.634
82598031|NCT04623242|164910660|SUPERIORITY||Ratio|1.155|STANDARD_DEVIATION|0.074|||TWO_SIDED|||||A priori threshold for statistical significance||||||||
82654870|NCT03049618|165025251|OTHER|||||||0.83|||||||Log Rank|||||||0.83
82654871|NCT03049618|165025252|OTHER|||||||0.47|||||||Log Rank|||||||0.47
82654872|NCT03049618|165025254|OTHER|||||||0.83|||||||Log Rank|||||||0.83
82654873|NCT03049618|165025255|OTHER|||||||0.83|||||||Log Rank|||||||0.83
82654874|NCT03049618|165025256|OTHER|||||||0.11|||||||Log Rank|||||||0.11
82654875|NCT03049618|165025257|OTHER|||||||0.96|||||||Log Rank|||||||0.96
82654876|NCT06052566|165025282|OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|90.0|0.61|1.54||||||||1.54|0.61|
82598032|NCT04623242|164910661|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.0562||0.726|TWO_SIDED|95.0|-0.093|0.132|||t-test, 2 sided|||||0.132|-0.093|0.726
82654877|NCT06052566|165025282|OTHER||Geometric Mean Ratio|1.04|||||TWO_SIDED|90.0|0.63|1.71||||||||1.71|0.63|
82654878|NCT06052566|165025283|OTHER||Geometric Mean Ratio|0.99|||||TWO_SIDED|90.0|0.6|1.65||||||||1.65|0.60|
82598033|NCT04623242|164910662|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.1056||0.439|TWO_SIDED|95.0|-0.13|0.295|||t-test, 2 sided|||||0.295|-0.130|0.439
82598034|NCT04623242|164910663|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.0168||0.967|TWO_SIDED|95.0|-0.034|0.033|||t-test, 2 sided|||||0.033|-0.034|0.967
82598035|NCT04623242|164910664|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.0377||0.669|TWO_SIDED|95.0|-0.059|0.092|||t-test, 2 sided|||||0.092|-0.059|0.669
82598036|NCT04623242|164910665|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-34.46|STANDARD_ERROR_OF_MEAN|116.419||0.768|TWO_SIDED|95.0|-264.14|195.22|||t-test, 2 sided|||||195.22|-264.14|0.768
82598037|NCT04623242|164910667|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-2737.62|STANDARD_ERROR_OF_MEAN|6558.467||0.677|TWO_SIDED|95.0|-15678.06|10202.81|||t-test, 2 sided|||||10202.81|-15678.06|0.677
82598038|NCT04623242|164910668|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1078.32|STANDARD_ERROR_OF_MEAN|1788.474||0.547|TWO_SIDED|95.0|-4603.28|2446.64|||t-test, 2 sided|||||2446.64|-4603.28|0.547
82654879|NCT06052566|165025283|OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|90.0|0.53|1.65||||||||1.65|0.53|
82654880|NCT06052566|165025284|OTHER||Geometric Mean Ratio|0.73|||||TWO_SIDED|90.0|0.44|1.21||||||||1.21|0.44|
82654881|NCT06052566|165025284|OTHER||Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.47|1.53||||||||1.53|0.47|
82654882|NCT02579096|165025317|NON_INFERIORITY|A non-inferiority bound of 8% was established during the trial design; a one-sided alpha level was set at 0.05.|Risk Difference (RD)|-7.0|||<|0.001|ONE_SIDED|95.0||-1.2|||t-test, 1 sided|||One-sided null hypothesis posited that allopurinol was inferior to febuxostat. The proportions of participants with ≥ 1 gout flare during phase 3 were compared between the two treatments.||-1.2||<0.001
82654883|NCT02097121|165025318|SUPERIORITY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|1.107|=|0.3802|TWO_SIDED|95.0|-3.203|1.243|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group as factor. A hierarchical analysis strategy to adjust for multiplicity was used."||1.243|-3.203|= 0.3802
82654884|NCT02097121|165025318|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.154|=|0.733|TWO_SIDED|95.0|-1.921|2.712|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group as factor. A hierarchical analysis strategy to adjust for multiplicity was used."||2.712|-1.921|= 0.733
82654885|NCT02097121|165025319|SUPERIORITY||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|1.442|=|0.5743|TWO_SIDED|95.0|-2.082|3.713|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||3.713|-2.082|= 0.5743
82654886|NCT02097121|165025319|SUPERIORITY||LS Mean Difference|2.15|STANDARD_ERROR_OF_MEAN|1.455|=|0.1451|TWO_SIDED|95.0|-0.769|5.078|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||5.078|-0.769|= 0.1451
82654887|NCT02097121|165025320|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|1.434|=|0.8206|TWO_SIDED|95.0|-3.205|2.551|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||2.551|-3.205|= 0.8206
82598039|NCT04623242|164910669|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-1935.91|STANDARD_ERROR_OF_MEAN|385.538|<|0.001|TWO_SIDED|95.0|-2717.64|-1154.18|||t-test, 2 sided|||||-1154.18|-2717.64|<0.001
82654888|NCT02097121|165025320|SUPERIORITY||LS Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|1.434|=|0.9604|TWO_SIDED|95.0|-2.807|2.95|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||2.95|-2.807|= 0.9604
82654889|NCT02097121|165025322|SUPERIORITY||LS Mean Difference|35.33|STANDARD_ERROR_OF_MEAN|22.175|=|0.1174|TWO_SIDED|95.0|-9.207|79.873|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||79.873|-9.207|= 0.1174
82654890|NCT02097121|165025322|SUPERIORITY||LS Mean Difference|34.11|STANDARD_ERROR_OF_MEAN|23.722|=|0.1567|TWO_SIDED|95.0|-13.536|81.76|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||81.76|-13.536|= 0.1567
82598040|NCT04623242|164910670|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-77.12|STANDARD_ERROR_OF_MEAN|23.014||0.003|TWO_SIDED|95.0|-124.56|-29.68|||t-test, 2 sided|||||-29.68|-124.56|0.003
82598041|NCT04623242|164910671|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|30.89|STANDARD_ERROR_OF_MEAN|35.54||0.388|TWO_SIDED|95.0|-40.04|101.83|||t-test, 2 sided|||||101.83|-40.04|0.388
82598042|NCT04623242|164910672|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.76|STANDARD_ERROR_OF_MEAN|6.624||0.909|TWO_SIDED|95.0|-13.97|12.45|||t-test, 2 sided|||||12.45|-13.97|0.909
82598043|NCT04623242|164910673|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.0593||0.004|TWO_SIDED|95.0|0.059|0.296|||t-test, 2 sided|||||0.296|0.059|0.004
82598044|NCT04623242|164910674|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.355||0.754|TWO_SIDED|95.0|-3.21|2.35|||t-test, 2 sided|||||2.35|-3.21|0.754
82598045|NCT04623242|164910676|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|229362.3|STANDARD_ERROR_OF_MEAN|14863.08|<|0.001|TWO_SIDED|95.0|199264.32|259460.27|||t-test, 2 sided|||||259460.27|199264.32|<0.001
82598046|NCT04623242|164910677|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|32906.6|STANDARD_ERROR_OF_MEAN|1697.541|<|0.001|TWO_SIDED|95.0|29406.49|36406.72|||t-test, 2 sided|||||36406.72|29406.49|<0.001
82598047|NCT04623242|164910678|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|1286.35|STANDARD_ERROR_OF_MEAN|140.692|<|0.001|TWO_SIDED|95.0|1002.79|1569.9|||t-test, 2 sided|||||1569.90|1002.79|<0.001
82598048|NCT04623242|164910679|OTHER|Test of equality (any treatment difference)|Mean Difference (Final Values)|9867.26|STANDARD_ERROR_OF_MEAN|1212.232|<|0.001|TWO_SIDED|95.0|7419.38|12315.15|||t-test, 2 sided|||||12315.15|7419.38|<0.001
82598049|NCT00326898|164910680|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.8|TWO_SIDED|97.5|0.85|1.23|||Stratified logrank test|Stratified logrank test was performed. Stratification factors include basis of risk group, histologic subtype, performance status and type of surgery.||||1.23|0.85|0.80
82598050|NCT00326898|164910680|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.72|TWO_SIDED|97.5|0.8|1.17|||Stratified logrank test|Stratified logrank test was performed. Stratification factors include basis of risk group, histologic subtype, performance status and type of surgery.||||1.17|0.80|0.72
82598051|NCT00326898|164910681|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|97.5|0.9|1.52|||||Hazard ratio was estimated using stratified proportional hazards model with Arm C (placebo arm) as the reference group.|||1.52|0.90|
82499902|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-12.1|11.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||11.3|-12.1|
82598052|NCT00326898|164910681|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.98|||||TWO_SIDED|97.5|0.75|1.28|||||Hazard ratio was estimated using stratified proportional hazards model with Arm C (placebo arm) as the reference group.|||1.28|0.75|
82598053|NCT02762513|164910723|OTHER||Median overall survival time (months)|9.8|||||TWO_SIDED|95.0|||||||Median calculated by Kaplan-Meier method.|||||
82598054|NCT02762513|164910724|OTHER||Median PFS time (months)|3.5|||||TWO_SIDED|95.0|||||||Median calculated by Kaplan-Meier method.|||||
82598055|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|849.0|||<|0.0001|TWO_SIDED|95.0|786.0|921.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||921|786|<0.0001
82598056|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1879.0|||<|0.0001|TWO_SIDED|95.0|1636.0|2112.0||Adjusted Cost Differences in Prescription Drug Costs, nonAEDs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||2112|1636|<0.0001
82654891|NCT02097121|165025323|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|4.091|=|0.7481|TWO_SIDED|95.0|-9.553|6.909|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||6.909|-9.553|= 0.7481
82654892|NCT02097121|165025323|SUPERIORITY||LS Mean Difference|1.85|STANDARD_ERROR_OF_MEAN|4.299|=|0.6691|TWO_SIDED|95.0|-6.799|10.498|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||10.498|-6.799|= 0.6691
82654893|NCT02097121|165025324|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.343|=|0.9297|TWO_SIDED|95.0|-0.721|0.661|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.661|-0.721|= 0.9297
82654894|NCT02097121|165025324|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.357|=|0.3976|TWO_SIDED|95.0|-1.022|0.413|||ANCOVA|||Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented.||0.413|-1.022|= 0.3976
82598057|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5681.0|||<|0.0001|TWO_SIDED|95.0|5257.0|6077.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||6077|5257|<0.0001
82654895|NCT02097121|165025325|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.302|=|0.3309|TWO_SIDED|95.0|-0.311|0.904|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.904|-0.311|= 0.3309
82654896|NCT02097121|165025325|SUPERIORITY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.315|=|0.2235|TWO_SIDED|95.0|-0.245|1.024|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||1.024|-0.245|= 0.2235
82654897|NCT02097121|165025326|SUPERIORITY||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.274|=|0.6689|TWO_SIDED|95.0|-0.434|0.67|||ANCOVA|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.67|-0.434|= 0.6689
82654898|NCT02097121|165025326|SUPERIORITY||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.288|=|0.6076|TWO_SIDED|95.0|-0.431|0.729|||ANCOVA|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using an ANCOVA model with study baseline value as covariate, and treatment group and stratification (baseline daytime urinary urgency incontinence episodes \[a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period\]) as factors. A hierarchical analysis strategy to adjust for multiplicity was not implemented."||0.729|-0.431|= 0.6076
82598058|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|273.0|||<|0.0001|TWO_SIDED|95.0|251.0|295.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||295|251|<0.0001
82654899|NCT02097121|165025327|SUPERIORITY||Risk difference %|15.5|||=|0.6092|TWO_SIDED|95.0|-18.94|46.19|||Cochran-Mantel-Haenszel|||"Treatment Difference of 100 U versus 25 U~Pairwise comparisons of 100 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using the Cochran-Mantel-Haenszel (CMH) method stratified by baseline daytime urinary urgency incontinence episodes (a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period)."||46.19|-18.94|= 0.6092
82654900|NCT02097121|165025327|SUPERIORITY||Risk difference %|17.6|||=|0.4824|TWO_SIDED|95.0|-16.2|48.9|||Cochran-Mantel-Haenszel|||"Treatment Difference of 50 U versus 25 U~Pairwise comparisons of 50 U versus 25 U of BOTOX up to Week 12 in Treatment Cycle 1 was evaluated using the Cochran-Mantel-Haenszel (CMH) method stratified by baseline daytime urinary urgency incontinence episodes (a total of ≤ 6 episodes or \> 6 episodes over the 2-day diary collection period)."||48.9|-16.2|= 0.4824
82654901|NCT00661999|165025331|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the primary hematopoietic response endpoint through Fisher's exact test, if the true percentage of patients that experience a hematopoietic response was at least 30% in the superior group, with a 2.5% type I error rate.||||0.39
82598059|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1021.0|||<|0.0001|TWO_SIDED|95.0|819.0|1211.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||1211|819|<0.0001
82598060|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|60.0|||<|0.0001|TWO_SIDED|95.0|48.0|72.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||72|48|<0.0001
82598061|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2555.0||||0.008|TWO_SIDED|95.0|834.0|4281.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||4281|834|0.0080
82598062|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4041.0|||<|0.0001|TWO_SIDED|95.0|3776.0|4305.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||4305|3776|<0.0001
82598063|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|105.0|||<|0.0001|TWO_SIDED|95.0|97.0|114.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||114|97|<0.0001
82598064|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|384.0|||<|0.0001|TWO_SIDED|95.0|358.0|413.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||413|358|<0.0001
82598065|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.0|||<|0.0001|TWO_SIDED|95.0|40.0|56.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||56|40|<0.0001
82654902|NCT00661999|165025331|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the primary hematopoietic response endpoint through Fisher's exact test, if the true percentage of patients that experience a hematopoietic response was at least 30% in the superior group, with a 2.5% type I error rate.||||0.73
82598066|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|892.0|||<|0.0001|TWO_SIDED|95.0|584.0|1192.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||1192|584|<0.0001
82598067|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|12258.0|||<|0.0001|TWO_SIDED|95.0|10482.0|14083.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||14083|10482|<0.0001
82598068|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|322.0|||<|0.0001|TWO_SIDED|95.0|245.0|398.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||398|245|<0.0001
82598069|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|841.0|||<|0.0001|TWO_SIDED|95.0|556.0|1078.0||Adjusted Cost Differences in Prescription Drug Costs, non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1078|556|<0.0001
82598070|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3248.0|||<|0.0001|TWO_SIDED|95.0|2790.0|3714.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||3714|2790|<0.0001
82598071|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|164.0|||<|0.0001|TWO_SIDED|95.0|138.0|190.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||190|138|<0.0001
82598072|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|628.0|||<|0.0001|TWO_SIDED|95.0|409.0|819.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||819|409|<0.0001
82598073|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.0|||<|0.0001|TWO_SIDED|95.0|18.0|42.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||42|18|<0.0001
82598074|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|235.0||||0.7628|TWO_SIDED|95.0|-1367.0|1798.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1798|-1367|0.7628
82598075|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2306.0|||<|0.0001|TWO_SIDED|95.0|2016.0|2603.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||2603|2016|<0.0001
82598076|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|63.0|||<|0.0001|TWO_SIDED|95.0|52.0|74.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||74|52|<0.0001
82598077|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.0|||<|0.0001|TWO_SIDED|95.0|179.0|245.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||245|179|<0.0001
82598078|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.0|||<|0.0001|TWO_SIDED|95.0|15.0|33.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||33|15|<0.0001
82598079|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|277.0||||0.0581|TWO_SIDED|95.0|-19.0|581.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||581|-19|0.0581
82598080|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5437.0|||<|0.0001|TWO_SIDED|95.0|3672.0|7142.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||7142|3672|<0.0001
82598081|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1019.0|||<|0.0001|TWO_SIDED|95.0|836.0|1191.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1191|836|<0.0001
82598082|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1047.0|||<|0.0001|TWO_SIDED|95.0|564.0|1486.0||Adjusted Cost Differences in Prescription Drug Costs, Non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1486|564|<0.0001
82598083|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|9128.0|||<|0.0001|TWO_SIDED|95.0|7346.0|11125.0||Adjusted Cost Differences in Hospitalizations|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||11125|7346|<0.0001
82598084|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|459.0|||<|0.0001|TWO_SIDED|95.0|326.0|622.0||Adjusted Cost Differences in Emergency Department Visits|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||622|326|<0.0001
82654903|NCT00661999|165025333|SUPERIORITY_OR_OTHER|||||||0.725||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the true percentage of patients that need transfusion was at least 30% in the superior group, with a 2.5% type I error rate.||||0.7250
82598085|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2427.0|||<|0.0001|TWO_SIDED|95.0|1587.0|3290.0||Adjusted Cost Differences in Outpatient Services|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||3290|1587|<0.0001
82598086|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|357.0|||<|0.0001|TWO_SIDED|95.0|225.0|525.0||Adjusted Cost Differences in Neurologists Visits|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||525|225|<0.0001
82598087|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|502.0|||<|0.0001|TWO_SIDED|95.0|234.0|768.0||Adjusted Cost Differences in Other Healthcare Services|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||768|234|<0.0001
82598088|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6483.0|||<|0.0001|TWO_SIDED|95.0|5329.0|7927.0||Adjusted Cost Differences in Epilepsy-Related Hospitalizations|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||7927|5329|<0.0001
82598089|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|150.0|||<|0.0001|TWO_SIDED|95.0|112.0|199.0||Adjusted Cost Differences in Epilepsy-Related Emergency Department Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||199|112|<0.0001
82598090|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|516.0|||<|0.0001|TWO_SIDED|95.0|401.0|645.0||Adjusted Cost Differences in Epilepsy-Related Outpatient Services|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||645|401|<0.0001
82654904|NCT00661999|165025333|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Fisher Exact|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 15% in the true percentage of patients that need transfusion was at least 30% in the superior group, with a 2.5% type I error rate.||||0.8700
82598091|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|158.0|||<|0.0001|TWO_SIDED|95.0|97.0|231.0||Adjusted Cost Differences in Epilepsy-Related Neurologist Visits|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||231|97|<0.0001
82598092|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|83.0|||<|0.0001|TWO_SIDED|95.0|58.0|113.0||Adjusted Cost Differences in Other Epilepsy-Related Healthcare Costs|Ordinary Least Squares Regression|Ordinary least squares regression was used to adjust differences. Covariates were gender, age, region, comorbidities, baseline treatment, and costs.|Confidence intervals were calculated using a nonparametric bootstrap with 999 replications.|||113|58|<0.0001
82598093|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14582.0|||<|0.0001|TWO_SIDED|95.0|12019.0|17097.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||17097|12019|<0.0001
82598094|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|420.0|||<|0.0001|TWO_SIDED|95.0|210.0|630.0||Adjusted Cost Differences in Prescription Drug Costs, AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||630|210|<0.0001
82598095|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|658.0|||<|0.0001|TWO_SIDED|95.0|217.0|1131.0||Adjusted Cost Differences in Prescription Drug Costs, Non-AEDs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||1131|217|<0.0001
82598096|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6040.0|||<|0.0001|TWO_SIDED|95.0|3442.0|8795.0||Adjusted Cost Differences in Hospitalizations, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||8795|3442|<0.0001
82598097|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|268.0||||0.002|TWO_SIDED|95.0|81.0|425.0||Adjusted Cost Differences in Emergency Department Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||425|81|0.0020
82598098|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.967|TWO_SIDED|95.0|-991.0|944.0||Adjusted Cost Differences in Outpatient Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||944|-991|0.9670
82598099|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|97.0||||0.2563|TWO_SIDED|95.0|-77.0|302.0||Adjusted Cost Differences in Neurologist Visits, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||302|-77|0.2563
82654905|NCT00661999|165025334|SUPERIORITY_OR_OTHER|||||||0.6639||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.6639
82654906|NCT00661999|165025334|SUPERIORITY_OR_OTHER|||||||0.566||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.5660
82499903|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||||TWO_SIDED|95.0|-22.9|4.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||4.1|-22.9|
82598100|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|328.0||||0.01|TWO_SIDED|95.0|90.0|588.0||Adjusted Cost Differences in Other Healthcare Services, All Medical Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||588|90|0.0100
82598101|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4984.0|||<|0.0001|TWO_SIDED|95.0|3168.0|7335.0||Adjusted Cost Differences in Hospitalizations, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||7335|3168|<0.0001
82598102|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|112.0|||<|0.0001|TWO_SIDED|95.0|70.0|166.0||Adjusted Cost Differences in Emergency Department Visits, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||166|70|<0.0001
82598103|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|236.0||||0.01|TWO_SIDED|95.0|70.0|403.0||Adjusted Cost Differences in Outpatient Services, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||403|70|0.01
82598104|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|65.0||||0.1061|TWO_SIDED|95.0|-22.0|145.0||Adjusted Cost Differences in Neurologist Visits, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||145|-22|0.1061
82598105|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|58.0|||<|0.0001|TWO_SIDED|95.0|28.0|93.0||Adjusted Cost Differences in Other Healthcare Services, Epilepsy-Related|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||93|28|<0.0001
82598106|NCT01390909|164910727|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7673.0|||<|0.0001|TWO_SIDED|95.0|4571.0|10989.0||Adjusted Cost Differences in Total Healthcare Costs|Ordinary Least Squares Regression|Covariates were gender, age, region, comorbidities, AEDs and non-AEDs known to increase seizure risk and baseline costs.||||10989|4571|<0.0001
82654907|NCT00661999|165025335|SUPERIORITY_OR_OTHER|||||||0.1124||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.1124
82598107|NCT02111564|164910728|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.136|TWO_SIDED|95.0|0.52|1.09|||Cox proportional hazards model|||||1.09|0.52|0.136
82598108|NCT02111564|164910729|SUPERIORITY||Hazard Ratio (HR)|1.88||||0.124|TWO_SIDED|95.0|0.84|4.23|||Cox proportional hazards model|||||4.23|0.84|0.124
82598109|NCT02111564|164910730|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.751|TWO_SIDED|95.0|0.62|1.42|||Cox proportional hazards model|||||1.42|0.62|0.751
82598110|NCT02111564|164910731|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.023|TWO_SIDED|95.0|0.22|0.89|||Cox proportional hazards model|||||0.89|0.22|0.023
82598111|NCT02111564|164910732|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.033|TWO_SIDED|95.0|0.54|0.97|||Cox proportional hazards model|||||0.97|0.54|0.033
82598112|NCT02111564|164910733|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.073|TWO_SIDED|95.0|0.6|1.02|||Cox proportional hazards model|||||1.02|0.60|0.073
82598113|NCT02111564|164910734|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.156|TWO_SIDED|95.0|0.58|1.09|||Cox proportional hazards model|||||1.09|0.58|0.156
82598114|NCT01968460|164910740|SUPERIORITY||Mean Difference (Net)|-4.67|STANDARD_ERROR_OF_MEAN|1.28||0.0004|TWO_SIDED|95.0|-7.2|-2.13||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-2.13|-7.20|0.0004
82598115|NCT01968460|164910740|SUPERIORITY||Mean Difference (Net)|-3.84|STANDARD_ERROR_OF_MEAN|1.25||0.0027|TWO_SIDED|95.0|-6.32|-1.36||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-1.36|-6.32|0.0027
82598116|NCT01968460|164910741|SUPERIORITY||Mean Difference (Net)|-1.85|STANDARD_ERROR_OF_MEAN|0.51||0.0004|TWO_SIDED|95.0|-2.86|-0.84||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.84|-2.86|0.0004
82654908|NCT00661999|165025335|SUPERIORITY_OR_OTHER|||||||0.2051||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in average hemoglobin levels through two-sided alternative, with a 2.5% type I error rate.||||0.2051
82598117|NCT01968460|164910741|SUPERIORITY||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|0.01||0.005|TWO_SIDED|95.0|-2.41|0.44||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||0.44|-2.41|0.005
82598118|NCT01968460|164910742|SUPERIORITY||Odds Ratio (OR)|8.1||||0.0165|TWO_SIDED|95.0|1.47|44.77||The overall significance level for this study was 5% using two-tailed tests.|Regression, Logistic|||A subject will be defined as a treatment responder in case that the improvement from baseline to the Week12 / Last Observed Value (LOV) in the CGI-S will be of 1 point or more. Baseline adjusted logistic regression (SAS® LOGISTIC procedure) stratified by GeoSite using the STRATA sub-command with the following effects: treatment group and baseline CGI-S measurement was used to test the between the active groups and placebo contrasts.||44.77|1.47|0.0165
82598119|NCT01968460|164910742|SUPERIORITY||Odds Ratio (OR)|4.23|STANDARD_ERROR_OF_MEAN|0.9||0.111|TWO_SIDED|95.0|0.72|24.9||The overall significance level for this study will be 5% using two-tailed tests.|Regression, Logistic|||||24.90|0.72|0.111
82598120|NCT01968460|164910743|SUPERIORITY||Mean Difference (Net)|-2.81|STANDARD_ERROR_OF_MEAN|1.0||0.0058|TWO_SIDED|95.0|-4.8|-0.83||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.83|-4.80|0.0058
82598121|NCT01968460|164910743|SUPERIORITY||Mean Difference (Net)|-2.32|STANDARD_ERROR_OF_MEAN|0.98||0.0191|TWO_SIDED|95.0|-4.26|-0.39||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|MMRM|||||-0.39|-4.26|0.0191
82598122|NCT01968460|164910744|SUPERIORITY||Mean Difference (Net)|-3.27|STANDARD_ERROR_OF_MEAN|1.24||0.0097|TWO_SIDED|95.0|-5.72|-0.8||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|Mixed Models Analysis|||||-0.80|-5.72|0.0097
82598123|NCT01968460|164910744|SUPERIORITY||Mean Difference (Net)|-2.45|STANDARD_ERROR_OF_MEAN|1.24||0.0509|TWO_SIDED|95.0|-4.91|-0.012||The overall significance level for this study will be 5% using two-tailed tests utilizing the hierarchical gate keeping approach to control the overall Type-I error rate in the strong sense.|Mixed Models Analysis|||||-0.012|-4.91|0.0509
82598124|NCT02597855|164910755|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Fisher Exact|||The difference of polyp regression rate between two groups were compared.||||<0.05
82598125|NCT02597855|164910756|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|The Mann-Whitney test was used for a comparison of best corrected visual acuity assessed at baseline, 3 months, and 6 months between type1 and type2.||best corrected visual acuity was compared between two groups||||<0.05
82598126|NCT02814565|164910823|SUPERIORITY|||||||0.6179|TWO_SIDED|95.0|||||Wilcoxon Rank Sum test|||The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.6179
82598127|NCT02814565|164910824|SUPERIORITY|||||||0.4338|||||||Wilcoxon Rank Sum Test|||Day 7. The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4338
82598128|NCT02814565|164910824|SUPERIORITY|||||||0.1657|||||||Wilcoxon Rank Sum Test|||Day 14. The 2-sample Wilcoxon rank sum test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.1657
82598129|NCT02814565|164910825|SUPERIORITY|||||||0.0393|||||||Wilcoxon Sum Rank Test|||The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0393
82598130|NCT02814565|164910826|SUPERIORITY|||||||0.033|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0330
82654909|NCT00661999|165025336|SUPERIORITY_OR_OTHER|||||||0.0648||95.0|||||Log Rank|||||||0.0648
82654910|NCT00661999|165025338|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.61
82654911|NCT00661999|165025338|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.44
82598131|NCT02814565|164910826|SUPERIORITY|||||||0.0262|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0262
82598132|NCT02814565|164910827|SUPERIORITY|||||||0.5756|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.5756
82598133|NCT02814565|164910827|SUPERIORITY|||||||0.4395|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4395
82598134|NCT02814565|164910827|SUPERIORITY|||||||0.0905|||||||Wilcoxon Sum Rank Test|||Day 14. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0905
82598135|NCT02814565|164910828|SUPERIORITY|||||||1|||||||Fisher Exact|||"Day 3. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||1.0000
82598136|NCT02814565|164910828|SUPERIORITY|||||||1|||||||Fisher Exact|||"Day 7. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||1.0000
82598137|NCT02814565|164910828|SUPERIORITY|||||||0.2757|||||||Fisher Exact|||"Day 14. A two-tailed Fisher's exact test to compare the number of responders between the Placebo and the Cyclobenzaprine HCl 15 mg treatment group to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance."||||0.2757
82598138|NCT02814565|164910829|SUPERIORITY|||||||0.302|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.3020
82598139|NCT02814565|164910829|SUPERIORITY|||||||0.2367|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2367
82499904|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-12.9|8.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||8.7|-12.9|
82598140|NCT02814565|164910829|SUPERIORITY|||||||0.025|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0250
82598141|NCT02814565|164910830|SUPERIORITY|||||||0.4428|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.4428
82598142|NCT02814565|164910830|SUPERIORITY|||||||0.1163|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.1163
82598143|NCT02814565|164910830|SUPERIORITY|||||||0.0489|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0489
82598144|NCT02814565|164910831|SUPERIORITY|||||||0.5275|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.5275
82598145|NCT02814565|164910831|SUPERIORITY|||||||0.088|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0880
82598146|NCT02814565|164910831|SUPERIORITY|||||||0.2542|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2542
82598147|NCT02814565|164910832|SUPERIORITY|||||||0.692|||||||Wilcoxon Sum Rank Test|||Day 3. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.6920
82598148|NCT02814565|164910832|SUPERIORITY|||||||0.0749|||||||Wilcoxon Sum Rank Test|||Day 7. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.0749
82598149|NCT02814565|164910832|SUPERIORITY|||||||0.2371|||||||Wilcoxon Sum Rank Test|||Day 15. The 2-sample Wilcoxon sum rank test was used to test a null hypothesis of no difference between the treatment groups against a two-sided alternative hypothesis at the 0.05 level of significance.||||0.2371
82598150|NCT02469090|164910841|SUPERIORITY||LS mean differnce|-7.6|STANDARD_ERROR_OF_MEAN|1.96||0.0002|TWO_SIDED|95.0|-11.5|-3.7||The null-hypothesis to be tested was: H0: APL-130277 is the same as placebo in its effect on the motor function against the 2-sided alternative: H1: Either of the treatment groups is superior to the other in its effect on the motor function.|LS mean difference|To control the family-wise type I error rate, the primary and secondary end points were tested in hierarchical order in the order presented||Mixed effects model for repeated measures (MMRM) was used to estimate the treatment difference(APL-130277-placebo) Observed change from pre-dose MDS-UPDRS Part III score values after 30 minutes were response values. Treatment group, visit and the interaction between the treatment group and visit were fixed factors. Change from pre-dose in MDS-UPDRS Part III score after 30 minutes at the last TV at which the randomized dose was given up through TV6 was used as a covariate||-3.7|-11.5|0.0002
82598151|NCT02469090|164910842|SUPERIORITY||Adjusted odds ratio|2.81||||0.0426|TWO_SIDED|95.0|1.036|7.644|||Adjusted Odds Ratio|||"This was analyzed using a generalized linear mixed model (with logit link function) for binomial data. The model included the observed outcomes as the response values, with treatment group, visit, and the interaction between treatment group and visit as fixed factors and the ON/OFF assessment at the last open-label titration visit at which the randomized dose was given as a covariate."||7.644|1.036|0.0426
82598152|NCT02469090|164910843|SUPERIORITY||Adjusted odds ratio|2.8||||0.0501|TWO_SIDED|95.0|1.0|7.84||The hierarchical testing stopped at this endpoint due to non-significant result. P-values for endpoints after this endpoint have not been presented and the confidence interval presented are unadjusted for multiplicity.|Adjusted odds ratio|||"This was analyzed using a generalized linear mixed model (with logit link function) for binomial data. The model included the observed outcomes as the response values, with treatment group, visit, and the interaction between treatment group and visit as fixed factors and the ON/OFF assessment at the last open-label titration visit at which the randomized dose was given as a covariate."||7.84|1.00|0.0501
82598153|NCT02469090|164910846|SUPERIORITY||LS mean difference|-1.1|||||TWO_SIDED|95.0|-3.159|0.959||||||||0.959|-3.159|
82598154|NCT02469090|164910847|SUPERIORITY||LS mean difference|47.6|||||TWO_SIDED|95.0|28.84|66.36||||||||66.36|28.84|
82598155|NCT02469090|164910848|SUPERIORITY||LS mean difference|1.979|||||TWO_SIDED|95.0|-2.162|6.12||||||||6.120|-2.162|
82598156|NCT02469090|164910849|SUPERIORITY||LS mean difference|-3.4|||||TWO_SIDED|95.0|-6.7|-0.2||||||||-0.2|-6.7|
82598157|NCT02469090|164910850|SUPERIORITY||Hazard ratio|3.4|||||TWO_SIDED|95.0|1.99|5.69||||||Median Time to effect for APL-130277 versus placebo patients||5.69|1.99|
82598158|NCT02163434|164910854|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82654912|NCT00661999|165025339|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.62
82654913|NCT00661999|165025339|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.30
82499905|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|||||TWO_SIDED|95.0|-18.1|5.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.4|-18.1|
82598159|NCT02163434|164910855|SUPERIORITY|||||||0.005|||||||Mixed Models Analysis|||||||0.005
82598160|NCT02163434|164910856|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82598161|NCT02163434|164910858|SUPERIORITY|||||||0.03|||||||Mixed Models Analysis|||||||0.03
82598162|NCT02163434|164910859|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|||||||0.06
82598163|NCT03823391|164910863|SUPERIORITY||Least Squares (LS) Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.215||0.022|TWO_SIDED|90.0|-0.89|-0.15|||Mixed-effect model repeated measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Between groups difference was a single-arm comparison of LS mean of ABBV-3373 estimated from the MMRM model above minus the historical mean of adalimumab (-2.13).|Two primary comparisons were performed between ABBV-3373 and adalimumab. The first was the comparison of ABBV-3373 to historical adalimumab reference value -2.13 based on a meta-analysis consisting of 242 subjects from 3 historical adalimumab studies in which the success criterion was 2-sided P value ≤ 0.1.||-0.15|-0.89|0.022
82598164|NCT03823391|164910863|SUPERIORITY|||||||0.899||||||Posterior probability|Historical data borrowing|Based on posterior distribution of means for each group, the probability of Treatment mean - Control mean \< 0 given the observed data was calculated.||The second comparison was ABBV-3373 to adalimumab with combined in-trial and borrowed historical adalimumab data using a Bayesian historical borrowing approach in which the success criterion was posterior probability of ABBV-3373 being better than adalimumab \> 95%. When borrowing 30 historical adalimumab subjects, the combined least squares mean change from Baseline was -2.29.||||0.899
82598165|NCT03823391|164910863|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.353||0.683|TWO_SIDED|90.0|-0.74|0.45|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|The mean difference in change from Baseline in DAS28 (CRP) at Week 12 between ABBV-3373 and adalimumab was also estimated only based on in-study data.||0.45|-0.74|0.683
82598166|NCT03823391|164910864|SUPERIORITY||LS Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|3.207||0.601|TWO_SIDED|90.0|-7.08|3.7|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||3.70|-7.08|0.601
82598167|NCT03823391|164910865|SUPERIORITY||LS Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|3.205||0.737|TWO_SIDED|90.0|-6.47|4.3|||Mixed Effect Model Repeated Measurement|Analysis includes treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||4.30|-6.47|0.737
82654914|NCT00661999|165025340|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.19
82598168|NCT03823391|164910866|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.418||0.612|TWO_SIDED|90.0|-0.92|0.49|||Mixed Effect Model Repeated Measurement|Analysis included treatment, visit, stratification factors, and treatment-by-visit interaction as fixed factors and Baseline value as covariate.|Treatment difference = ABBV-3373 - Adalimumab|||0.49|-0.92|0.612
82598169|NCT03823391|164910867|SUPERIORITY||Response Rate Difference|-4.0||||0.877|TWO_SIDED|90.0|-28.5|20.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for stratification factors.|Response rate difference = ABBV-3373 - Adalimumab|||20.5|-28.5|0.877
82598170|NCT03823391|164910868|SUPERIORITY||Response Rate Difference|-13.1||||0.426|TWO_SIDED|90.0|-37.2|11.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factors.|Response rate difference = ABBV-3373 - Adalimumab|||11.0|-37.2|0.426
82598171|NCT05030311|164910869|SUPERIORITY||Mean Difference (Final Values)|-6.22|STANDARD_ERROR_OF_MEAN|1.136|<|0.001|TWO_SIDED|95.0|-8.45|-4.0|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|||-4.00|-8.45|<0.001
82598172|NCT05030311|164910870|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.544|<|0.001|TWO_SIDED|95.0|-3.7|-1.56|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|ISS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-1.56|-3.70|<0.001
82598173|NCT05030311|164910871|SUPERIORITY||Mean Difference (Final Values)|-3.61|STANDARD_ERROR_OF_MEAN|0.635|<|0.001|TWO_SIDED|95.0|-4.85|-2.36|||Mixed Models Analysis||MMRM adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, visit week, baseline score and both interaction of treatment by visit week and interaction of baseline score by visit week.|HSS7 at Week 12 (Scenario 2 with ISS7 and HSS7 as co-primary efficacy endpoints)||-2.36|-4.85|<0.001
82598174|NCT05030311|164910872|SUPERIORITY||Odds Ratio (OR)|3.11|||<|0.001|TWO_SIDED|95.0|2.0|4.84|||Regression, Logistic|Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.||Disease activity control (UAS7 =\< 6) at Week 12||4.84|2.00|<0.001
82598175|NCT05030311|164910873|SUPERIORITY||Odds Ratio (OR)|3.83|||<|0.001|TWO_SIDED|95.0|2.16|6.82|||Regression, Logistic|Logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.||Complete absence of hives and itch (UAS7 = 0) at Week 12||6.82|2.16|<0.001
82654915|NCT00661999|165025340|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.17
82499389|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.055|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.091|-0.019|||ANCOVA|||Extension Month 27; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.019|-0.091|
82598176|NCT05030311|164910874|SUPERIORITY||Odds Ratio (OR)|15.67|||<|0.001|TWO_SIDED|95.0|6.18|39.77|||Regression, Logistic||Statistical model used logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics, and baseline UAS7 score.|||39.77|6.18|<0.001
82598177|NCT05030311|164910875|SUPERIORITY||Rate ratio|2.69|||<|0.001|TWO_SIDED|95.0|2.01|3.61|||Negative binomial regression model|Negative binomial regression model with log link, using treatment arm, geographical region, and prior exposure to anti-IgE biologics as covariates.||||3.61|2.01|<0.001
82598178|NCT05030311|164910876|SUPERIORITY||Odds Ratio (OR)|2.44|||<|0.001|TWO_SIDED|95.0|1.53|3.9|||Regression, Logistic||Statistical model used logistic regression adjusting for treatment arm, geographical region, prior exposure to anti-IgE biologics and baseline DLQI score.|||3.90|1.53|<0.001
82598179|NCT05030311|164910877|SUPERIORITY||Rate ratio|1.25|||<|0.001|TWO_SIDED|95.0|1.12|1.41|||Regression, Linear||Statistical model used a negative binomial regression with log link included treatment arm as fixed effect, geographical region, prior exposure to anti-IgE biologics, baseline AAS7 = 0 response as covariates.|Angioedema occurrence-free weeks (AAS7 = 0 response) up to Week 12||1.41|1.12|<0.001
82598180|NCT04175626|164910890|SUPERIORITY||||||<|0.0001|||||||Exact, binomial|||The primary endpoint was evaluated by performing an exact, binomial test comparing the rate of TLF for the Orsiro stent at 1 year to a performance goal of 6.9%, with Type I error (alpha) of 0.025 and power of 80%. The null hypothesis (Ho) was stated as: The TLF rate of the Orsiro stent at 1 year is greater than or equal to 6.9%. The alternative hypothesis (Ha) was stated as: The TLF rate of the Orsiro stent at 1 year is less than 6.9%.||||<0.0001
82598181|NCT03092726|164910911|SUPERIORITY||LS Mean (LSM) Difference|0.06|STANDARD_ERROR_OF_MEAN|0.26||0.59|TWO_SIDED|90.0|-0.38|0.5||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Differences of least squares (LS) means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a mixed-effect, repeated measures (MMRM) model with change from baseline to each week from weeks 1 to 8 as response, treatment, center (pooled where necessary), time (study weeks 1 to 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||0.50|-0.38|0.590
82598182|NCT03092726|164910915|SUPERIORITY||Difference of percentages|-6.6||||0.874|TWO_SIDED|90.0|-18.7|5.7||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||Week 8: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||5.7|-18.7|0.874
82598183|NCT03092726|164910915|SUPERIORITY||Differences of percentages|-5.6||||0.838|TWO_SIDED|90.0|-17.7|6.7||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||EOT: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||6.7|-17.7|0.838
82598184|NCT03092726|164910916|SUPERIORITY||Differences of percentages|2.2||||0.412|TWO_SIDED|90.0|-10.0|14.4||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||Week 8: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||14.4|-10.0|0.412
82598185|NCT03092726|164910916|SUPERIORITY||Differences of percentages|4.3||||0.269|TWO_SIDED|90.0|-7.9|16.4||1-sided p-value is for comparison of ASP8062 30 mg with placebo using Fisher's Exact method.|Fisher Exact|||EOT: Differences of the percentages were calculated by subtracting the percentage of placebo group from the percentage of ASP8062 30 mg group. Confidence Interval (CI) for each treatment group and the difference of the percentages was an exact unconditional confidence interval based on Santner-Snell approach.||16.4|-7.9|0.269
82598186|NCT03092726|164910917|SUPERIORITY||LSM Difference|-0.68|STANDARD_ERROR_OF_MEAN|2.03||0.369|TWO_SIDED|90.0|-4.05|2.68||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||2.68|-4.05|0.369
82598187|NCT03092726|164910917|SUPERIORITY||LSM Difference|-0.64|STANDARD_ERROR_OF_MEAN|2.34||0.393|TWO_SIDED|90.0|-4.51|3.24||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||3.24|-4.51|0.393
82598188|NCT03092726|164910917|SUPERIORITY||LSM Difference|0.86|STANDARD_ERROR_OF_MEAN|2.68||0.626|TWO_SIDED|90.0|-3.57|5.3|||MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||5.30|-3.57|0.626
82598189|NCT03092726|164910917|SUPERIORITY||LSM Difference|1.09|STANDARD_ERROR_OF_MEAN|2.57||0.664|TWO_SIDED|90.0|-3.16|5.34||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||5.34|-3.16|0.664
82598190|NCT03092726|164910918|SUPERIORITY||LSM Difference|0.16|STANDARD_ERROR_OF_MEAN|1.85||0.534|TWO_SIDED|90.0|-2.9|3.22||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||3.22|-2.90|0.534
82654916|NCT00661999|165025341|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.73
82654917|NCT00661999|165025341|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||t-test, 2 sided|||With 176 evaluable participants per treatment arm, there would have been \>=80% power to detect a difference across two treatment arms of 33% of the standard deviation in participant QOL through t-test/Wilcoxon test, with a 2.5% type I error rate. A 10 points shift on a 0-100 point scale in QOL measures is generally considered clinically relevant and specifically important in the use of UNISCALE, BFI and FACT-An.||||0.83
82598191|NCT03092726|164910918|SUPERIORITY||LSM Difference|1.46|STANDARD_ERROR_OF_MEAN|2.08||0.758|TWO_SIDED|90.0|-1.98|4.91||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||4.91|-1.98|0.758
82654918|NCT00661999|165025342|SUPERIORITY_OR_OTHER|||||||0.3852||95.0||||Test Comparison for Week 1 Level|Kruskal-Wallis|||||||0.3852
82654919|NCT00661999|165025342|SUPERIORITY_OR_OTHER|||||||0.0663||95.0||||Test Comparison for Week 7 Level.|Kruskal-Wallis|||||||0.0663
82654920|NCT00661999|165025342|SUPERIORITY_OR_OTHER|||||||0.322||95.0||||Test Comparison for Week 16 Level|Kruskal-Wallis|||||||0.3220
82654921|NCT00661999|165025343|SUPERIORITY_OR_OTHER|||||||0.1826||95.0||||Test Comparison for Week 1 Level.|Kruskal-Wallis|||||||0.1826
82598192|NCT03092726|164910918|SUPERIORITY||LSM Difference|1.7|STANDARD_ERROR_OF_MEAN|2.57||0.745|TWO_SIDED|90.0|-2.56|5.96||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||5.96|-2.56|0.745
82598193|NCT03092726|164910918|SUPERIORITY||LSM Difference|1.68|STANDARD_ERROR_OF_MEAN|2.43||0.755|TWO_SIDED|90.0|-2.34|5.69||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||5.69|-2.34|0.755
82598194|NCT03092726|164910919|SUPERIORITY||LSM Difference|0.19|STANDARD_ERROR_OF_MEAN|0.59||0.629|TWO_SIDED|90.0|-0.78|1.17||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 2: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.17|-0.78|0.629
82598195|NCT03092726|164910919|SUPERIORITY||LSM Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.73||0.41|TWO_SIDED|90.0|-1.37|1.04||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 4: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.04|-1.37|0.410
82598196|NCT03092726|164910919|SUPERIORITY||LSM Difference|0.06|STANDARD_ERROR_OF_MEAN|0.71||0.531|TWO_SIDED|90.0|-1.11|1.22||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described MMRM model.|MMRM|||Week 8: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using a MMRM model with change from baseline to weeks 2, 4 and 8 as response, treatment, center (pooled where necessary), time (study weeks 2, 4 and 8) and treatment-by-time interaction as fixed effects, baseline and baseline-by-time interaction as covariates.||1.22|-1.11|0.531
82654922|NCT00661999|165025343|SUPERIORITY_OR_OTHER|||||||0.0113||95.0||||Test comparison for week 7 level|Kruskal-Wallis|||||||0.0113
82654923|NCT00661999|165025343|SUPERIORITY_OR_OTHER|||||||0.3358||95.0||||Test Comparison for week 16 level|Kruskal-Wallis|||||||0.3358
82654924|NCT00661999|165025344|SUPERIORITY_OR_OTHER|||||||0.9022||95.0||||Test comparison for Baseline level.|Kruskal-Wallis|||||||0.9022
82654925|NCT00661999|165025344|SUPERIORITY_OR_OTHER|||||||0.0002||95.0||||Test Comparison for Week 7 Level.|Kruskal-Wallis|||||||0.0002
82598197|NCT03092726|164910919|SUPERIORITY||LSM Difference|0.17|STANDARD_ERROR_OF_MEAN|0.67||0.603|TWO_SIDED|90.0|-0.93|1.28||1-sided p-value is for comparison of ASP8062 30 mg with placebo from the above described ANCOVA model.|ANCOVA|||EOT: Differences of LS means were calculated by subtracting the LS mean of placebo group from the LS mean of ASP8062 30 mg group using an ANCOVA model that was performed with change from baseline at the EOT timepoint as response, treatment and center (pooled where necessary) as fixed effects and baseline as a covariate.||1.28|-0.93|0.603
82654926|NCT00661999|165025344|SUPERIORITY_OR_OTHER|||||||0.0022||95.0||||Test Comparison for Week 16 Level.|Kruskal-Wallis|||||||0.0022
82654927|NCT00661999|165025345|SUPERIORITY_OR_OTHER|||||||0.1137||95.0||||Test comparison for baseline level.|Kruskal-Wallis|||||||0.1137
82598198|NCT03092726|164910920|SUPERIORITY||Odds Ratio (OR)|1.07||||0.811|TWO_SIDED|90.0|0.68|1.67||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 2: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.67|0.68|0.811
82654928|NCT00661999|165025345|SUPERIORITY_OR_OTHER|||||||0.8042||95.0||||Test comparison for week 7 level.|Kruskal-Wallis|||||||0.8042
82654929|NCT00661999|165025345|SUPERIORITY_OR_OTHER|||||||0.2016||95.0||||Test comparison for week 16 level.|Kruskal-Wallis|||||||0.2016
82654930|NCT00661999|165025346|SUPERIORITY_OR_OTHER|||||||0.1139||95.0||||Test comparison for baseline level.|Kruskal-Wallis|||||||0.1139
82654931|NCT00661999|165025346|SUPERIORITY_OR_OTHER|||||||0.0424||95.0||||Test comparison for week 7 level.|Kruskal-Wallis|||||||0.0424
82654932|NCT00661999|165025346|SUPERIORITY_OR_OTHER|||||||0.2025||95.0||||Test comparison for week 16 level.|Kruskal-Wallis|||||||0.2025
82654933|NCT01508936|165025393|SUPERIORITY_OR_OTHER||slope difference|0.3007|STANDARD_ERROR_OF_MEAN|0.2559||0.2407|TWO_SIDED|||||The interaction was tested at the significance level 0.10 using the FAS|Regression, Linear||Active - Placebo|The primary analysis was the linear regression model with model effects including treatment (reslizumab or placebo), blood eosinophil count at baseline, and the interaction of treatment and eosinophil count. A significant treatment by baseline eosinophil interaction would indicate that treatment difference varies by the baseline eosinophil count.||||0.2407
82654934|NCT01508936|165025394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076|STANDARD_ERROR_OF_MEAN|0.0417||0.0697|TWO_SIDED|95.0|-0.006|0.158||Statistical significance level is 0.05.|Regression, Linear|treatment, blood eosinophil count at baseline, and the interaction of treatment and eosinophil count as fixed effects.|Active - Placebo|"The change from baseline over the 16 week treatment period was measured for the key secondary variables of:~* Lung function as measured by FEV1~* ACQ~Testing of the key secondary variables was performed using the sequential testing procedure in the order as specified above at the alpha level of 0.05."||0.158|-0.006|0.0697
82598199|NCT03092726|164910920|SUPERIORITY||Odds Ratio (OR)|0.79||||0.368|TWO_SIDED|90.0|0.5|1.22||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 4: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.22|0.50|0.368
82598200|NCT03092726|164910920|SUPERIORITY||Odds Ratio (OR)|0.78||||0.357|TWO_SIDED|90.0|0.5|1.21||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||Week 8: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.21|0.50|0.357
82598201|NCT03092726|164910920|SUPERIORITY||Odds Ratio (OR)|0.8||||0.407|TWO_SIDED|90.0|0.52|1.24||2-sided p-value is for the comparison of ASP8062 30 mg with placebo from the above described proportional odds model.|Proportional Odds model|||EOT: Odds ratio of ASP8062 30 mg versus placebo, associated 90% 2-sided CI and p-value was estimated using a proportional odds model including treatment group as a factor.||1.24|0.52|0.407
82598202|NCT01294800|164910921|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.7||||0.0564|TWO_SIDED|95.0|-1.37|0.02|||Constrained longitudinal data analysis|||||0.02|-1.37|0.0564
82598203|NCT01294800|164910921|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.5||||0.1844|TWO_SIDED|95.0|-1.16|0.22|||Constrained longitudinal data analysis|||||0.22|-1.16|0.1844
82598204|NCT01294800|164910921|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.3||||0.3386|TWO_SIDED|95.0|-1.04|0.36|||Constrained longitudinal data analysis|||||0.36|-1.04|0.3386
82598205|NCT01294800|164910922|SUPERIORITY_OR_OTHER||Difference in proportions of responders|5.7||||0.404|TWO_SIDED|95.0|-7.75|19.0|||A generalized linear mixed model|||||19.00|-7.75|0.404
82598206|NCT01294800|164910922|SUPERIORITY_OR_OTHER||Difference in proportions of responders|5.7||||0.39|TWO_SIDED|95.0|-7.73|18.81|||A generalized linear mixed model|||||18.81|-7.73|0.390
82654935|NCT01508936|165025395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.123|STANDARD_ERROR_OF_MEAN|0.0762||0.1072|TWO_SIDED|95.0|-0.273|0.027||significance level of 0.05|t-test, 2 sided|Fixed effects for treatment, hx of asthma exacerbation, sex, visit, and interaction of treatment and visit; covariates for height and baseline value|Active - Placebo|"The change from baseline over the 16 week treatment period was measured for the key secondary variables of:~* Lung function as measured by FEV1~* ACQ~Testing of the key secondary variables was performed using the sequential testing procedure in the order as specified above at the alpha level of 0.05."||0.027|-0.273|0.1072
82598207|NCT01294800|164910922|SUPERIORITY_OR_OTHER||Difference in proportions of responders|-4.9||||0.508|TWO_SIDED|95.0|-17.78|7.97|||A generalized linear mixed model|||||7.97|-17.78|0.508
82598208|NCT01294800|164910923|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.7||||0.0509|TWO_SIDED|95.0|0.0|1.43|||Constrained longitudinal data analysis|||||1.43|-0.00|0.0509
82598209|NCT01294800|164910923|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.5||||0.1847|TWO_SIDED|95.0|-0.23|1.19|||Constrained longitudinal data analysis|||||1.19|-0.23|0.1847
82598210|NCT01294800|164910923|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|0.5||||0.2021|TWO_SIDED|95.0|-0.25|1.19|||Constrained longitudinal data analysis|||||1.19|-0.25|0.2021
82598211|NCT00493038|164910926|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|2.1||||||95.0|-1.9|6.2|||||Mean difference denotes the difference of clinical cure rates between the two treatment groups (moxifloxacin minus amoxicillin/clavulanate).|Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.2|-1.9|
82598212|NCT00493038|164910927|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|-0.5||||||95.0|-7.9|6.8||||||Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||6.8|-7.9|
82598213|NCT00493038|164910928|NON_INFERIORITY_OR_EQUIVALENCE|"The non-inferiority margin was set to 15% in the protocol. Sample size was estimated using the method as described in Farrington-Manning (STATISTICS IN MEDICINE, Vol. 9; Farrington CP, Manning G: Test statistics and sample size formulae for comparative binomial trials with null hypothesis of non-zero risk difference..., pg.1447-1454 \[1990\]). Estimation was performed to achieve 90% power, based on the equivalence delta of 15%, and a clinical success rate of 80% in the per protocol population."|Mean Difference (Final Values)|1.7||||||95.0|-3.8|7.1||||||Calculated were 95% confidence intervals for the difference in success rates between treatment groups (moxifloxacin minus comparator). Method as described in Koch et al. ('Categorical Data Analysis' in Statistical methodology in the pharmaceutical sciences / edited by D. A. Berry, p. 415 ff., Marcel Dekker, 1990)||7.1|-3.8|
82598214|NCT03988335|164910935|OTHER|The primary endpoints were first tested at alpha of 10% (2-sided). If the larger p-value was less than 10% (2-sided), both primary endpoints were to be declared statistically significant. If the larger p-value was greater than 10%, but the smaller p-value was less than 5% (2-sided), then the primary endpoint with the smaller p-value was to be declared statistically significant.||||||0.24|||||||Hochberg's method|||||||0.24
82598215|NCT03988335|164910936|OTHER|The primary endpoints were first tested at alpha of 10% (2-sided). If the larger p-value was less than 10% (2sided), both primary endpoints were to be declared statistically significant. If the larger p-value was greater than 10%, but the smaller p-value was less than 5% (2-sided), then the primary endpoint with the smaller p-value was to be declared statistically significant.||||||0.804|||||||Hochberg's method|||||||0.804
82654936|NCT02518685|165025423|SUPERIORITY||Least-Square Mean Difference|6.7|||<|0.0001|TWO_SIDED|95.0|4.54|8.81|||multiple imputations|||||8.81|4.54|<0.0001
82598216|NCT02780648|164910968|OTHER|||||||0.824||||||This p-value represents the type III p-value for overall treatment phase variable significance. An a priori alpha level of 0.05 was used to determine statistical significance.|Mixed Models Analysis|||For Cohort B, pain scores were compared across treatment phase (before, during, and after) using ordinal logistic regression models with repeated measures.||||0.824
82598217|NCT02780648|164910969|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite global health status / quality of life score as the outcome.||||||0.27||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite global health status / quality of life scores across treatment phase.||||0.270
82598218|NCT02780648|164910970|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite physicial functioning composite score as the outcome.||||||0.179||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite physical functioning composite scores across treatment phase.||||0.179
82598219|NCT02780648|164910970|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite role functioning composite score as the outcome.||||||0.789||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite role functioning composite scores across treatment phase.||||0.789
82598220|NCT02780648|164910970|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite emotional functioning composite score as the outcome.||||||0.303||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite emotional functioning composite scores across treatment phase.||||0.303
82598221|NCT02780648|164910970|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite cognitive functioning composite score as the outcome.||||||0.989||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite cognitive functioning composite scores across treatment phase.||||0.989
82598222|NCT02780648|164910970|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite social functioning composite score as the outcome.||||||0.436||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite social functioning composite scores across treatment phase.||||0.436
82654937|NCT02518685|165025424|SUPERIORITY|Statistical success criterion for achieving the performance standard of (≥ 50%) of proportion of TPS subjects who have 5% or more TBL at the 12-Month Follow-up|Proportion of Subjects|66.8|||<|0.0001|TWO_SIDED|95.0|59.3|74.3|||Wilson's Midpoint Estimate|||||74.3|59.3|<0.0001
82598223|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite fatigue symptom score as the outcome.||||||0.659||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite fatigue symptom scores across treatment phase.||||0.659
82654938|NCT05665595|165025425|OTHER||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|0.87|1.8|||||Hazard Ratio based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by melanoma risk-based stage (IIB/IIC/clinical IIB and IIC/IIIA/IIIB vs IIIC/IIID/IV) and region of enrollment (Asia vs ROW).|||1.80|0.87|
82499390|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.022||||90.0|-0.081|-0.01|||ANCOVA|||Extension Month 30; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.010|-0.081|
82654939|NCT05771428|165025428|SUPERIORITY||LS Mean of Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.939||0.9819|TWO_SIDED|95.0|-1.87|1.83|||Mixed-effect Model Repeated Measurement|||||1.83|-1.87|0.9819
82654940|NCT05771428|165025428|SUPERIORITY||LS Mean of Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.931||0.6545|TWO_SIDED|95.0|-2.25|1.42|||Mixed-effect Model Repeated Measurement|||||1.42|-2.25|0.6545
82654941|NCT05771428|165025428|SUPERIORITY||LS Mean of Difference|0.25|STANDARD_ERROR_OF_MEAN|0.928||0.786|TWO_SIDED|95.0|-1.58|2.08|||Mixed-effect Model Repeated Measurement|||||2.08|-1.58|0.7860
82654942|NCT00076102|165025445|OTHER|||||||0.0301||||||The reported F statistic and p-value are representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Adaptive Behavior.|ANOVA|||F=5.45 under the null hypothesis||||0.0301
82654943|NCT00076102|165025445|OTHER|||||||0.0186||||||The reported p-value is representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Emotional Functioning.|ANOVA|||F = 6.56 under the null hypothesis||||0.0186
82654944|NCT00076102|165025445|OTHER|||||||0.0032||||||The reported p-value is representative of the difference in the Parent proxy Form and the Child Self-Report Form response for Medical/Physical Status.|ANOVA|||F=11.23 under the null hypothesis||||0.0032
82598224|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite nausea and vomiting symptom score as the outcome.||||||0.295||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite nausea and vomiting symptom scores across treatment phase.||||0.295
82654945|NCT00076102|165025446|OTHER|||||||0.6263|||||||ANOVA|||F=0.25 under the null hypothesis||||0.6263
82598225|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite pain symptom score as the outcome.||||||0.299||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite pain symptom scores across treatment phase.||||0.299
82598226|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite dyspnea symptom score as the outcome.||||||0.794||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite dyspnea symptom scores across treatment phase.||||0.794
82598227|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite insomnia symptom score as the outcome.||||||0.45||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite insomnia symptom scores across treatment phase.||||0.450
82598228|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite appetite loss symptom score as the outcome.||||||0.389||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite appetite loss symptom scores across treatment phase.||||0.389
82598229|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite constipation symptom score as the outcome.||||||0.011||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|The odds of having a higher constipation symptom composite score after treatment were less than during or before treatment.||The null hypothesis was that there was no difference in composite constipation symptom scores across treatment phase.||||0.011
82598230|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite diarrhea symptom score as the outcome.||||||0.101||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite diarrhea symptom scores across treatment phase.||||0.101
82654946|NCT00076102|165025446|OTHER|||||||0.3625|||||||ANOVA|||F= 0.87 under the null hypothesis||||0.3625
82654947|NCT00076102|165025446|OTHER|||||||0.5877|||||||ANOVA|||F=0.31 under the null hypothesis||||0.5877
82598231|NCT02780648|164910971|OTHER|Ordinal logistic regression models with repeated measures to account for multiple patient surveys were fit with treatment phase (before treatment, during treatment, and after treatment) as the predictor and composite financial difficulty symptom score as the outcome.||||||0.306||||||The a priori threshold for statistical significance was 0.05. P-value represents the omnibus p-value for treatment phase in the repeated-measures ordinal logistic regression model.|Regression, Logistic|||The null hypothesis was that there was no difference in composite financial difficulty symptom scores across treatment phase.||||0.306
82598232|NCT01097304|164910992|OTHER|||||||0.54|||||||t-test, 2 sided|||||||0.54
82654948|NCT00076102|165025446|OTHER|||||||0.2767|||||||ANOVA|||F=1.27 under the null hypothesis||||0.2767
82654949|NCT00076102|165025446|OTHER|||||||0.8466|||||||ANOVA|||F=0.04 under the null hypothesis||||0.8466
82654950|NCT00076102|165025446|OTHER|||||||0.6774|||||||ANOVA|||F=0.18 under the null hypothesis||||0.6774
82654951|NCT02207231|165025455|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||<0.001
82654952|NCT02207231|165025456|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||<0.001
82654953|NCT02207231|165025457|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
82654954|NCT02207231|165025457|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
82654955|NCT02207231|165025458|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
82654956|NCT02207231|165025458|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
82654957|NCT02207231|165025459|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 24||||< 0.001
82654958|NCT02207231|165025459|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||Week 48||||< 0.001
82654959|NCT02207231|165025460|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on analysis of variance (ANOVA) model stratified by investigator site (pooled).||||< 0.001
82654960|NCT02207231|165025461|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10.0%|Difference in Percentage|19.3|||<|0.001|TWO_SIDED|95.0|12.9|25.7|||MH Z-test|||p value is based on 1-sided Mantel Haenszel (MH) Z-test adjusted for investigator site (pooled).||25.7|12.9|< 0.001
82598233|NCT01097304|164910993|OTHER||||||<|0.0001|||||||signed rank test|||||||<0.0001
82598234|NCT01097304|164910994|OTHER||||||<|0.01|||||||signed rank test|||||||<0.01
82598235|NCT01097304|164910995|OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
82598236|NCT01180660|164911005|SUPERIORITY_OR_OTHER||Median Difference (Net)|19.0||||0.01|TWO_SIDED|95.0|3.0|27.0|||Regression, Linear|||A sample size of 22 subjects per group was estimated to achieve 90% power to detect a 16 point difference in the aggregated Qor-40 score for the two study groups to be compared assuming an overall standard deviation of 16 points similar to what was observed in a previous investigation.||27|3|.01
82598237|NCT00262873|164911009|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82598238|NCT00262873|164911010|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82598239|NCT00262873|164911011|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82598240|NCT00844753|164911015|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||Chi-squared|||||||0.47
82598241|NCT00844753|164911016|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Chi-squared|||||||0.95
82654961|NCT02207231|165025461|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82598242|NCT03440814|164911020|SUPERIORITY||Mean Difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|1.294||0.1983|TWO_SIDED|95.0|-4.24|0.89|||Mixed Models Analysis|MMRM analysis adjusted for baseline growth hormone use and HQ-CT total score. All available subject data were used with no imputation of missing data.|alpha=0.05 level of significance|||0.89|-4.24|0.1983
82598243|NCT03440814|164911021|SUPERIORITY|||||||0.0294|||||||Cochran-Mantel-Haenszel|Treatment groups were compared using CMH mean score test with modified ridit scores, stratified by the randomization stratification variables.||||||0.0294
82598244|NCT03440814|164911022|SUPERIORITY|||||||0.4089|||||||Cochran-Mantel-Haenszel|Treatment groups were compared using CMH mean score test with modified ridit scores, stratified by the randomization stratification variables.||||||0.4089
82598245|NCT03440814|164911023|SUPERIORITY||Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.458||0.0225|TWO_SIDED|95.0|-1.95|-0.15|||ANCOVA|ANCOVA adjusted for baseline body fat mass value as a covariate, and randomization stratification variables (as randomized) as factors.||||-0.15|-1.95|0.0225
82598246|NCT03440814|164911024|SUPERIORITY||Mean Difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|1.481||0.0369|TWO_SIDED|95.0|-6.06|-0.19|||Mixed Models Analysis|Linear mixed model for repeated measurements was used. All available data collected before the March 1, 2020 cutoff from each subject were included.|alpha=0.05 level of significance|||-0.19|-6.06|0.0369
82598247|NCT00852995|164911031|SUPERIORITY_OR_OTHER|||||||0.00028|TWO_SIDED||||||t-test, 2 sided|||||||0.00028
82598248|NCT00852995|164911031|SUPERIORITY_OR_OTHER|||||||0.0899|TWO_SIDED||||||t-test, 2 sided|||||||0.0899
82598249|NCT00852995|164911031|SUPERIORITY_OR_OTHER|||||||0.1586|TWO_SIDED||||||t-test, 2 sided|||||||0.1586
82598250|NCT00852995|164911031|SUPERIORITY_OR_OTHER|||||||0.0295|TWO_SIDED||||||t-test, 2 sided|||||||0.0295
82598251|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.037|TWO_SIDED|||||Treatment Week 01|ANCOVA|||||||.037
82598252|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.064|TWO_SIDED|||||Treatment Week 02|ANCOVA|||||||.064
82598253|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.161|TWO_SIDED|||||Treatment Week 03|ANCOVA|||||||.161
82598254|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|||||Treatment Week 04|ANCOVA|||||||.39
82598255|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.079|TWO_SIDED|||||Treatment Week 05|ANCOVA|||||||.079
82598256|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.069|TWO_SIDED|||||Treatment Week 06|ANCOVA|||||||.069
82598257|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||Treatment Week 07|ANCOVA|||||||.026
82598258|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.133|TWO_SIDED|||||Treatment Week 08|ANCOVA|||||||.133
82598259|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|||||Treatment Week 09|ANCOVA|||||||.089
82598260|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED|||||Treatment Week 10|ANCOVA|||||||.057
82598261|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.127|TWO_SIDED|||||Treatment Week 11|ANCOVA|||||||.127
82598262|NCT00852995|164911033|SUPERIORITY_OR_OTHER|||||||0.395|TWO_SIDED|||||Treatment Week 12|ANCOVA|||||||0.395
82598263|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0133|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.0133
82598264|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.3839|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.3839
82598265|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.5721|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.5721
82598266|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.232|TWO_SIDED|||||Visit 02|Cochran-Mantel-Haenszel|||||||0.232
82598267|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0787|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.0787
82598268|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.7919|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.7919
82598269|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.6881|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.6881
82598270|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.9832|TWO_SIDED|||||Visit 03|Cochran-Mantel-Haenszel|||||||0.9832
82598271|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0466|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.0466
82598272|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.8435|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.8435
82598273|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.8743|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.8743
82598274|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2884|TWO_SIDED|||||Visit 04|Cochran-Mantel-Haenszel|||||||0.2884
82598275|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0387|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.0387
82598276|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.8461|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.8461
82598277|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.9574|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.9574
82654962|NCT02207231|165025462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10.0%|Difference in Percentage|24.1|||<|0.001|TWO_SIDED|95.0|17.0|31.0|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||31.0|17.0|< 0.001
82598278|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2994|TWO_SIDED|||||Visit 05|Cochran-Mantel-Haenszel|||||||0.2994
82598279|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.1024|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.1024
82598280|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.8759|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.8759
82598281|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.9008|TWO_SIDED|||||Visit 06|Cochran-Mantel-Haenszel|||||||0.9008
82598282|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.4618|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.4618
82598283|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2439|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.2439
82598284|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.749|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.749
82598285|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.3749|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.3749
82598286|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED|||||Visit 07|Cochran-Mantel-Haenszel|||||||0.015
82654963|NCT02207231|165025462|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82654964|NCT02207231|165025463|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= 10%|Difference in percentage|18.0|||<|0.001|TWO_SIDED|95.0|12.4|23.8|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||23.8|12.4|< 0.001
82598287|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0078|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.0078
82598288|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.07
82598289|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.208|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.208
82598290|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0413|TWO_SIDED|||||Visit 08|Cochran-Mantel-Haenszel|||||||0.0413
82598291|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0054|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0054
82598292|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2031|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.2031
82598293|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0894|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0894
82598294|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0288|TWO_SIDED|||||Visit 09|Cochran-Mantel-Haenszel|||||||0.0288
82598295|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.6964|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.6964
82598296|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.59
82598297|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.7146|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.7146
82598298|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.5008|TWO_SIDED|||||Visit 10|Cochran-Mantel-Haenszel|||||||0.5008
82598299|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.1235|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.1235
82598300|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.5488|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.5488
82598301|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.4343|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.4343
82598302|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.1114|TWO_SIDED|||||Visit 11|Cochran-Mantel-Haenszel|||||||0.1114
82598303|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2119|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.2119
82598304|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.0194|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.0194
82598305|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.506|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.506
82598306|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.2317|TWO_SIDED|||||Visit 12|Cochran-Mantel-Haenszel|||||||0.2317
82598307|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.1144|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.1144
82598308|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.6786|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.6786
82598309|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.7735|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.7735
82598310|NCT00852995|164911034|SUPERIORITY_OR_OTHER|||||||0.758|TWO_SIDED|||||Visit 13|Cochran-Mantel-Haenszel|||||||0.758
82598311|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||Week 04|Cochran-Mantel-Haenszel|||||||0.017
82598312|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED|||||Week 04|Cochran-Mantel-Haenszel|||||||.041
82598313|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||Week 05|Cochran-Mantel-Haenszel|||||||.017
82598314|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Week 06|Cochran-Mantel-Haenszel|||||||.011
82598315|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|||||Week 07|Cochran-Mantel-Haenszel|||||||.014
82598316|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||Week 08|Cochran-Mantel-Haenszel|||||||.029
82598317|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.021|TWO_SIDED|||||Week 09|Cochran-Mantel-Haenszel|||||||.021
82598318|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED|||||Week 10|Cochran-Mantel-Haenszel|||||||.041
82598319|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.044|TWO_SIDED|||||Week 10|Cochran-Mantel-Haenszel|||||||.044
82598320|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||Week 11|Cochran-Mantel-Haenszel|||||||.013
82598321|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||Week 11|Cochran-Mantel-Haenszel|||||||.024
82598322|NCT00852995|164911035|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Week 12|Cochran-Mantel-Haenszel|||||||.027
82598323|NCT00852995|164911037|SUPERIORITY_OR_OTHER|||||||0.0211|TWO_SIDED|||||P-value for Kaplan-Meier Days to Closure|ANCOVA|||||||0.0211
82598324|NCT00852995|164911037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.83||||0.0212|TWO_SIDED|95.0|1.09|3.04|||Regression, Cox|||||3.04|1.09|.0212
82598325|NCT00852995|164911037|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||ANCOVA|||||||0.59
82654965|NCT02207231|165025463|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82654966|NCT02207231|165025464|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82598326|NCT00852995|164911037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.53|TWO_SIDED|95.0|0.69|2.05||This is the P-value for the Cox Hazard Ratio|Regression, Cox|||||2.05|.69|0.53
82598327|NCT00852995|164911037|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||ANCOVA|Kaplan-Meier Days to Closure||||||0.26
82598328|NCT00852995|164911037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.19|TWO_SIDED|95.0|0.84|2.44||This is the P-value for the Cox Proportional Hazard Ratio|Regression, Cox|||||2.44|0.84|0.19
82598329|NCT00852995|164911037|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||P-value for Kaplan Meier Days to Closure|ANCOVA|||||||0.10
82598330|NCT00852995|164911037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.06|TWO_SIDED|95.0|0.97|2.77||P-value for Cox Proportional Hazard Ratio|Regression, Cox|||||2.77|0.97|0.06
82598331|NCT02189850|164911053|SUPERIORITY|||||||0.923|||||||Cochran-Mantel-Haenszel|||||||0.923
82598332|NCT00271817|164911073|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-38.4|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-41.4|-35.4||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-35.4|-41.4|<0.001
82598333|NCT00271817|164911074|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.5|STANDARD_ERROR_OF_MEAN|1.5|<|0.001||95.0|-36.5|-30.6||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-30.6|-36.5|<0.001
82598334|NCT00271817|164911075|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|18.8|25.3||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||25.3|18.8|<0.001
82654967|NCT02207231|165025465|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on ANOVA model stratified by investigator site (pooled).||||< 0.001
82598335|NCT00271817|164911076|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-18.7|||<|0.001||95.0|-22.6|-14.7||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline LDL-C, baseline TG and gender|"Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic."|||-14.7|-22.6|<0.001
82654968|NCT02207231|165025466|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82654969|NCT00502775|165025477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.16|<|0.001||95.0|-1.2|-0.6||Symptom scores were grouped in 3 families: nasal, ocular, instantaneous. Within each family, results of hypothesis tests were adjusted using Hochberg's method.|ANCOVA|No other strata or covariates, other than investigator, were defined.|Mean Difference = Mean Change in Fluticasone Furoate - Mean Change in Fexofenadine|The primary efficacy measure, mean change from baseline over the two-week treatment period in NSS compared between fluticasone furoate and fexofenadine, was assessed at a significance level of α=0.05. If the null hypothesis of this comparison was rejected, then the secondary measures were subject to hypothesis testing. The study was powered at 90%.||-0.6|-1.2|<0.001
82598336|NCT00271817|164911077|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.5|STANDARD_ERROR_OF_MEAN|1.8|<|0.001||95.0|18.0|25.0||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||25.0|18.0|<0.001
82654970|NCT00502775|165025477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|0.16|<|0.001||95.0|-1.1|-0.4|||ANCOVA||Mean Difference = Mean Change in Fluticasone Furoate - Mean Change in Placebo|||-0.4|-1.1|<0.001
82654971|NCT00502775|165025477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.16||0.374||95.0|-0.2|0.5|||ANCOVA||Mean Difference = Mean Change in Fexofenadine - Mean Change in Placebo|||0.5|-0.2|0.374
82491946|NCT01153347|164677212|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|1.09||1|TWO_SIDED|95.0|-2.26|2.04|||MMRM|||Mixed model repeated measures (MMRM) includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.04|-2.26|1.000
82491947|NCT01153347|164677213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.01|STANDARD_ERROR_OF_MEAN|0.24||0.967|TWO_SIDED|95.0|0.64|1.6|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.60|0.64|0.967
82491948|NCT01153347|164677213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.21||0.67|TWO_SIDED|95.0|0.57|1.43|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.43|0.57|0.670
82491949|NCT01153347|164677213|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87|STANDARD_ERROR_OF_MEAN|0.21||0.544|TWO_SIDED|95.0|0.54|1.38|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.38|0.54|0.544
82598337|NCT00271817|164911078|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.6|||<|0.001||95.0|-21.8|-13.6||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline LDL-C, baseline TG and gender.|"Median difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic."|||-13.6|-21.8|<0.001
82598338|NCT00271817|164911079|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-10.4|-4.2||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Median difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-4.2|-10.4|<0.001
82598339|NCT00271817|164911080|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.6||0.004||95.0|-8.0|-1.5||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-1.5|-8.0|0.004
82598340|NCT00271817|164911081|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-7.7|-2.1||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Niacin|||-2.1|-7.7|<0.001
82598341|NCT00271817|164911082|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.7|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-10.4|-5.0||A fixed sequence testing procedure was employed where testing followed a prespecified order and each subsequent hypothesis was tested at the 0.05 level of significance only if all previously tested hypotheses have been rejected.|ANCOVA|ANCOVA with terms for treatment, baseline LDL-C, baseline TG, and gender.|Mean difference = Ezetimibe/Simvastatin + Niacin minus Ezetimibe/Simvastatin|||-5.0|-10.4|<0.001
82598342|NCT01411085|164911143|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.317|TWO_SIDED||||||t-test, 2 sided|||The assessment was between baseline and values for last 8 weeks.||||0.317
82598343|NCT01564862|164911145|SUPERIORITY_OR_OTHER||LS mean difference|1.75|STANDARD_ERROR_OF_MEAN|0.744||0.019|TWO_SIDED|95.0|0.28|3.21||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||3.21|0.28|0.019
82598344|NCT01564862|164911145|SUPERIORITY_OR_OTHER||LS mean difference|1.21|STANDARD_ERROR_OF_MEAN|0.733||0.099|TWO_SIDED|95.0|-0.23|2.65||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||2.65|-0.23|0.099
82598345|NCT01564862|164911145|SUPERIORITY_OR_OTHER||LS mean difference|0.54|STANDARD_ERROR_OF_MEAN|0.725||0.46|TWO_SIDED|95.0|-0.89|1.96||P-value was from an ANCOVA model with treatment and center as fixed factors and the baseline value as a covariate.|ANCOVA|||||1.96|-0.89|0.460
82598346|NCT01564862|164911146|SUPERIORITY_OR_OTHER||LS Mean difference|-2.6|STANDARD_ERROR_OF_MEAN|0.78||0.001|TWO_SIDED|95.0|-4.1|-1.0||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-1.0|-4.1|0.001
82598347|NCT01564862|164911146|SUPERIORITY_OR_OTHER||LS mean difference|-3.0|STANDARD_ERROR_OF_MEAN|0.77|<|0.001|TWO_SIDED|95.0|-4.5|-1.5||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-1.5|-4.5|<0.001
82598348|NCT01564862|164911147|SUPERIORITY_OR_OTHER||LS Mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.1211||0.017|TWO_SIDED|95.0|-0.528|-0.052||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-0.052|-0.528|0.017
82598349|NCT01564862|164911147|SUPERIORITY_OR_OTHER||LS mean difference|-0.404|STANDARD_ERROR_OF_MEAN|0.1194|<|0.001|TWO_SIDED|95.0|-0.638|-0.169||P-value was from a MMRM model with baseline\*week, center, week, treatment and week\*treatment as factors in the analysis.|Mixed Models Analysis|||||-0.169|-0.638|<0.001
82598350|NCT03809611|164911160|SUPERIORITY||Mean Difference (Net)|1.6|STANDARD_ERROR_OF_MEAN|1.77||0.1832|TWO_SIDED|90.0|-1.34|4.56||One-sided p-value for treatment difference|Mixed Models Analysis|||||4.56|-1.34|0.1832
82598351|NCT03809611|164911161|SUPERIORITY||Odds Ratio (OR)|1.9||||0.283|TWO_SIDED|90.0|0.72|4.78|||Cochran-Mantel-Haenszel|||||4.78|0.72|0.2830
82598352|NCT01262365|164911171|SUPERIORITY||Odds Ratio (OR)|1.307|||=|0.175|TWO_SIDED|95.0|0.888|1.923|||Regression, Logistic|p-values have been calculated using logistic regression with factors for treatment, region, and baseline disease status.||Odds Ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, region, and baseline disease status.||1.923|0.888|=0.175
82491950|NCT01153347|164677214|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.24||0.73|TWO_SIDED|95.0|0.55|1.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.53|0.55|0.730
82598353|NCT01262365|164911171|SUPERIORITY||Odds Ratio (OR)|1.164|||=|0.442|TWO_SIDED|95.0|0.79|1.714|||Regression, Logistic|p-values have been calculated using logistic regression with factors for treatment, region, and baseline disease status.||Odds Ratio: Epratuzumab/Placebo calculated using logistic regression with factors for treatment, region, and baseline disease status.||1.714|0.790|=0.442
82598354|NCT01394081|164911180|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||||||<.0001
82598355|NCT01394081|164911181|SUPERIORITY||||||<|0.0001|||||||Log Rank|log rank Mantel Cox χ2 = 25.4||||||<.0001
82598356|NCT04418765|164911205|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.9|-2.5||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 1 of testing order.|Mixed Models Analysis|||Analysis was performed using a restricted maximum likelihood (REML)-based mixed model for repeated measurements (MMRM) with month (Weeks 1-4, 5-8, 9-12, 13-16, 17-20, 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction. A testing strategy was applied to ensure protection of the type 1 error.||-2.5|-3.9|<0.0001
82598357|NCT04418765|164911205|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-3.4|-2.0||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 3 of testing order.|Mixed Models Analysis|||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-2.0|-3.4|<0.0001
82598358|NCT04418765|164911206|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|6.58|||<|0.0001|TWO_SIDED|95.0|4.41|10.01||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 2 of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||10.01|4.41|<0.0001
82654972|NCT00655642|165025493|NON_INFERIORITY_OR_EQUIVALENCE|Based on the aforementioned values, we calculated a sample size for each treatment arm of 131 patients. We increased this sample estimate to 150 per treatment arm (total of 600 patients) to account for anticipated study attrition. Based on an unplanned interim conditional power futility analysis done at 30% information fraction, the decision was made to end the trial early.The futility analysis found the observed differences were far less than what was deemed clinically important.|Median Difference (Final Values)|12.0|STANDARD_DEVIATION|25.0||0.16||||||Being aware of the multiple comparison issues, we deliberately chose the 0.01 alpha level following a Bonferroni type of correction so that the overall type I error rate is about 0.05.|Kruskal-Wallis|We computed the effect of the 3 treatments relative to ondansetron.|Change in VAS score was calculated as (VAS 30 min - VAS baseline). We calculated the differences in median VAS reductions for each arm relative to ondansetron.|The null hypothesis is that ondanestron is not more effective in reducing nausea than metoclopramide, promethazine or isotonic normal saline. The sample size was chosen to detect a 12-mm difference in VAS improvement between ondanestron and any other treatment arm (assuming a SD of 25mm) at 90% power and 0.01 alpha significance level. We chose the 0.01 alpha level following a Bonferroni type of correction so that the overall type I error rate is about 0.05.||||0.16
82598359|NCT04418765|164911206|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|4.91|||<|0.0001|TWO_SIDED|95.0|3.29|7.47||Testing continued only, if the previous comparison was statistically significant. Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 4 of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||7.47|3.29|<0.0001
82654973|NCT02016300|165025494|OTHER|||||||0.162|||||||Regression, Linear|||Difference between baseline and month 6.||||0.162
82654974|NCT02016300|165025494|OTHER|||||||0.094|||||||Regression, Linear|||Difference between baseline and month 12.||||0.094
82654975|NCT02016300|165025494|OTHER|||||||0.043|||||||Regression, Linear|||Difference between baseline and month 24.||||0.043
82654976|NCT02016300|165025495|OTHER|||||||0.387|||||||Regression, Linear|||Difference between baseline and month 6.||||0.387
82654977|NCT02016300|165025495|OTHER|||||||0.34|||||||Regression, Linear|||Difference between baseline and month 12.||||0.340
82654978|NCT02016300|165025495|OTHER|||||||0.179|||||||Regression, Linear|||Difference between baseline and month 24.||||0.179
82598360|NCT04418765|164911207|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.7|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-4.5|-3.0||Threshold for significance: p-value \<α, where α = 0.05. Here it is test no. 5a of testing order.|Mixed Models Analysis|Testing continued only, if the previous comparison was statistically significant.||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-3.0|-4.5|<0.0001
82598361|NCT04418765|164911207|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|95.0|-3.8|-2.2||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6a of testing order.|Mixed Models Analysis|Testing continued only, if the previous comparison was statistically significant.||"Analysis was performed using an REML-based MMRM with month (Weeks 1-4, Weeks 5-8, Weeks 9-12, Weeks 13-16, Weeks 17-20, Weeks 21-24), country, stratification factor (monthly MHDs at baseline: ≤14/\>14) and treatment as factors, baseline score as a continuous covariate, treatment-by-month interaction, baseline score-by-month interaction, and stratum-by-month interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error."||-2.2|-3.8|<0.0001
82598362|NCT04418765|164911208|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|11.43|||<|0.0001|TWO_SIDED|95.0|5.22|30.15||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 5b of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||30.15|5.22|<0.0001
82598363|NCT04418765|164911208|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Odds Ratio (OR)|9.19|||<|0.0001|TWO_SIDED|95.0|4.16|24.35||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6b of testing order.|Regression, Logistic|||"Analysis was performed using logistic regression model including baseline MMDs as a continuous covariate, and treatment and stratification factor (MHD at baseline: ≤14/\>14) as factors.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||24.35|4.16|<0.0001
82598364|NCT04418765|164911209|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-5.4|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-6.7|-4.2||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 5c of testing order.|Mixed Models Analysis|||"Analysis was performed using MMRM with the following fixed effects: visit, country, stratification factor (MHDs at baseline: ≤14/\>14) and treatment as factors, baseline HIT-6 Total Score as a continuous covariate, baseline score-by-visit interaction, treatment-by-visit interaction, and stratum-by-visit interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||-4.2|-6.7|<0.0001
82654979|NCT02016300|165025496|OTHER|||||||0.729|||||||Regression, Linear|||Difference between baseline and month 6.||||0.729
82654980|NCT02016300|165025496|OTHER|||||||0.958|||||||Regression, Linear|||Difference between baseline and month 12.||||0.958
82654981|NCT02016300|165025496|OTHER|||||||0.634|||||||Regression, Linear|||Difference between baseline and month 24.||||0.634
82654982|NCT02016300|165025497|OTHER|||||||0.733|||||||Regression, Linear|||Difference between baseline and month 6.||||0.733
82654983|NCT02016300|165025497|OTHER|||||||0.666|||||||Regression, Linear|||Difference between baseline and month 12.||||0.666
82654984|NCT02016300|165025497|OTHER|||||||0.854|||||||Regression, Linear|||Difference between baseline and month 24.||||0.854
82654985|NCT02016300|165025498|OTHER|||||||0.774|||||||Regression, Linear|||Difference between baseline and month 12.||||0.774
82654986|NCT02016300|165025498|OTHER|||||||0.414|||||||Regression, Linear|||Difference between baseline and month 24.||||0.414
82654987|NCT02016300|165025499|OTHER|||||||0.064|||||||Regression, Linear|||Difference between baseline and month 12.||||0.064
82598365|NCT04418765|164911209|OTHER|Testing sequence: 1. Change in MMDs (Weeks 1-12) 300 mg vs placebo; 2. 50% responders for MMDs (Weeks 1-12) 300 mg vs placebo; 3. Change in MMDs (Weeks 1-12) 100 mg vs placebo; 4. 50% responders for MMDs (Weeks 1-12) 100 mg vs placebo; 5a. Change in MMDs (Weeks 13-24), 5b. 75% responders for MMDs (Weeks 1-12), 5c. Change in HIT-6 (Week 12) 300 mg vs placebo; 6a. Change in MMDs (Weeks 13-24), 6b. 75% responders for MMDs (Weeks 1-12), 6c. Change in HIT-6 (Week 12) 100 mg vs placebo.|Mean Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-5.0|-2.5||Threshold for significance: The consecutive order of the smallest (p1), the second smallest (p2), and the largest p-value (p3) had to be \<α/3, \<α/2, and \<α, where α = 0.05. Here it is test no. 6c of testing order.|Mixed Models Analysis|||"Analysis was performed using MMRM with the following fixed effects: visit, country, stratification factor (MHDs at baseline: ≤14/\>14) and treatment as factors, baseline HIT-6 Total Score as a continuous covariate, baseline score-by-visit interaction, treatment-by-visit interaction, and stratum-by-visit interaction.~A testing strategy (sequence of tests) was applied to ensure protection of the type 1 error.~Testing continued only, if the previous comparison was statistically significant."||-2.5|-5.0|<0.0001
82598366|NCT01926782|164911246|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-52.4|||<|0.0001|TWO_SIDED|97.5|-59.8|-45.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||At Week 24||-45.0|-59.8|<0.0001
82598367|NCT01926782|164911246|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|97.5|-62.3|-48.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Week 21-24||-48.1|-62.3|<0.0001
82598368|NCT01926782|164911247|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-58.7|||<|0.0001|TWO_SIDED|97.5|-65.0|-52.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||At Week 24||-52.4|-65.0|<0.0001
82598369|NCT01926782|164911247|SUPERIORITY_OR_OTHER|Alirocumab 300 mg group was compared to placebo group using an appropriate contrast statement.|LS Mean Difference|-65.0|||<|0.0001|TWO_SIDED|97.5|-70.4|-59.5||Threshold for significance ≤ 0.025|Mixed Models Analysis|||Week 21-24||-59.5|-70.4|< 0.0001
82598370|NCT01926782|164911248|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.0|||<|0.0001|TWO_SIDED|97.5|-64.6|-53.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||-53.4|-64.6|<0.0001
82598371|NCT01926782|164911249|SUPERIORITY_OR_OTHER||LS Mean Difference|-62.0|||<|0.0001|TWO_SIDED|97.5|-67.7|-56.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-56.2|-67.7|<0.0001
82598372|NCT01926782|164911250|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.7|||<|0.0001|TWO_SIDED|97.5|-64.5|-53.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-53.0|-64.5|<0.0001
82598373|NCT01926782|164911251|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.3|||<|0.0001|TWO_SIDED|97.5|-62.3|-50.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-50.3|-62.3|<0.0001
82598374|NCT01926782|164911252|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.5|||<|0.0001|TWO_SIDED|97.5|-65.0|-54.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.1|-65.0|<0.0001
82598375|NCT01926782|164911253|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.4|||<|0.0001|TWO_SIDED|97.5|-64.8|-54.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-54.0|-64.8|<0.0001
82598376|NCT01926782|164911254|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.5|||<|0.0001|TWO_SIDED|97.5|-45.8|-33.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-33.1|-45.8|<0.0001
82598377|NCT01926782|164911255|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.2|||<|0.0001|TWO_SIDED|97.5|-53.2|-43.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.2|-53.2|<0.0001
82598378|NCT01926782|164911256|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.5|||<|0.0001|TWO_SIDED|97.5|-49.9|-39.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.1|-49.9|<0.0001
82598379|NCT01926782|164911257|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.3|||<|0.0001|TWO_SIDED|97.5|-55.0|-45.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-45.6|-55.0|<0.0001
82598380|NCT01926782|164911258|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.0|||<|0.0001|TWO_SIDED|97.5|-49.9|-36.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-36.2|-49.9|<0.0001
82598381|NCT01926782|164911259|SUPERIORITY_OR_OTHER||LS Mean Difference|-50.0|||<|0.0001|TWO_SIDED|97.5|-55.3|-44.8||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.8|-55.3|<0.0001
82598382|NCT01926782|164911260|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0|||<|0.0001|TWO_SIDED|97.5|-54.8|-43.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.3|-54.8|<0.0001
82598383|NCT01926782|164911261|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.8|||<|0.0001|TWO_SIDED|97.5|-57.6|-47.9||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.9|-57.6|<0.0001
82598384|NCT01926782|164911262|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.4|||<|0.0001|TWO_SIDED|97.5|-36.6|-26.3||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-26.3|-36.6|<0.0001
82598385|NCT01926782|164911263|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.0|||<|0.0001|TWO_SIDED|97.5|-38.9|-31.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-31.1|-38.9|<0.0001
82598386|NCT01926782|164911264|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.1|||<|0.0001|TWO_SIDED|97.5|-49.0|-39.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.2|-49.0|<0.0001
82598387|NCT01926782|164911265|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.8|||<|0.0001|TWO_SIDED|97.5|-49.7|-39.9||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.9|-49.7|<0.0001
82598388|NCT01926782|164911266|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.5|||<|0.0001|TWO_SIDED|97.5|-54.5|-44.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.6|-54.5|<0.0001
82598389|NCT01926782|164911267|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.1|||<|0.0001|TWO_SIDED|97.5|-52.2|-42.0||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-42.0|-52.2|<0.0001
82598390|NCT01926782|164911268|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.4|||<|0.0001|TWO_SIDED|97.5|-40.4|-32.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-32.4|-40.4|<0.0001
82654988|NCT02016300|165025499|OTHER|||||||0.276|||||||Regression, Linear|||Difference between baseline and month 24.||||0.276
82598391|NCT01926782|164911269|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.8|||<|0.0001|TWO_SIDED|97.5|-36.5|-29.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.1|-36.5|<0.0001
82598392|NCT01926782|164911270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|68.0|||<|0.0001|TWO_SIDED|97.5|20.9|221.0||Threshold for significance ≤ 0.025.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||221.0|20.9|<0.0001
82598393|NCT01926782|164911271|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.6|||<|0.0001|TWO_SIDED|97.5|13.7|47.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||47.8|13.7|<0.0001
82598394|NCT01926782|164911272|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|280.2|||<|0.0001|TWO_SIDED|97.5|56.7|1385.7||Threshold for significance ≤ 0.025.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1385.7|56.7|<0.0001
82598395|NCT01926782|164911273|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|41.3|||<|0.0001|TWO_SIDED|97.5|20.3|83.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model||83.8|20.3|<0.0001
82598396|NCT01926782|164911274|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|90.6|||<|0.0001|TWO_SIDED|97.5|16.5|498.3||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||498.3|16.5|<0.0001
82598397|NCT01926782|164911275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.5|||<|0.0001|TWO_SIDED|97.5|23.4|104.4||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by logistic regression model.||104.4|23.4|<0.0001
82598398|NCT01926782|164911276|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|297.1|||<|0.0001|TWO_SIDED|97.5|27.9|3160.6||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||3160.6|27.9|<0.0001
82654989|NCT02016300|165025500|OTHER|||||||0.02|||||||Regression, Linear|||Difference between baseline and month 12.||||0.020
82654990|NCT02016300|165025500|OTHER|||||||0.091|||||||Regression, Linear|||Difference between baseline and month 24.||||0.091
82654991|NCT01545076|165025508|SUPERIORITY||Difference in Percent|-24.6|||=|0.007|TWO_SIDED|95.0|-40.7|-6.21|||Fisher Exact|||||-6.21|-40.7|=0.007
82654992|NCT01545076|165025508|SUPERIORITY||Difference in Percent|-30.4|||<|0.001|TWO_SIDED|95.0|-46.0|-12.2|||Fisher Exact|||||-12.2|-46.0|<0.001
82654993|NCT01545076|165025509|OTHER||Median Difference (Net)|0.0|||=|0.005|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum|||||0|-1|=0.005
82654994|NCT01545076|165025509|OTHER||Median Difference (Net)|-1.0|||<|0.001|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum|||||0|-1|<0.001
82654995|NCT01545076|165025510|OTHER||Median Difference (Net)|7.6|||=|0.004|TWO_SIDED|95.0|2.0|14.0|||Wilcoxon rank sum|||||14|2|=0.004
82654996|NCT01545076|165025510|OTHER||Median Difference (Net)|5.7|||=|0.014|TWO_SIDED|95.0|0.7|11.7|||Wilcoxon rank sum|||||11.7|0.7|=0.014
82654997|NCT01545076|165025511|OTHER||Median Difference (Final Values)|2.0|||=|0.003|TWO_SIDED|95.0|1.0|4.0|||Wilcoxon rank sum|||||4|1|=0.003
82654998|NCT01545076|165025511|OTHER||Median Difference (Final Values)|2.0|||=|0.002|TWO_SIDED|95.0|1.0|4.0|||Wilcoxon rank sum|||||4|1|=0.002
82654999|NCT01545076|165025512|OTHER||Median Difference (Net)|3.0|||=|0.03|TWO_SIDED|95.0|0.0|9.0|||Wilcoxon rank sum|||||9|0|=0.03
82655000|NCT01545076|165025512|OTHER||Median Difference (Net)|5.0|||<|0.001|TWO_SIDED|95.0|2.0|9.0|||Wilcoxon rank sum|||||9|2|<0.001
82655001|NCT01546987|165025533|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.55|TWO_SIDED|95.0|0.47|1.48||One-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|Revised protocol due to early accrual closure (September 2014) computes that seventy events with five years of additional follow-up after early accrual closure provides 70% power (at one-sided alpha = 0.05) to detect a 40% reduction in the assumed rate control arm rate of is 0.08/year.||1.48|0.47|0.55
82598399|NCT01926782|164911277|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|77.7|||<|0.0001|TWO_SIDED|97.5|34.1|176.8||Threshold for significance ≤ 0.025.|Regression, Logistic|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used multiple imputation approach followed by logistic regression model.||176.8|34.1|<0.0001
82598400|NCT01926782|164911278|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-27.7|||<|0.0001|TWO_SIDED|97.5|-37.0|-18.3||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-18.3|-37.0|<0.0001
82598401|NCT01926782|164911279|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-29.1|||<|0.0001|TWO_SIDED|97.5|-35.5|-22.7||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-22.7|-35.5|<0.0001
82598402|NCT01926782|164911280|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-23.5|||<|0.0001|TWO_SIDED|97.5|-32.4|-14.5||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-14.5|-32.4|<0.0001
82598403|NCT01926782|164911281|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-26.6|||<|0.0001|TWO_SIDED|97.5|-32.8|-20.4||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-20.4|-32.8|<0.0001
82598404|NCT01926782|164911282|SUPERIORITY_OR_OTHER||LS Mean Difference|7.8||||0.0003|TWO_SIDED|97.5|3.1|12.6||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.6|3.1|0.0003
82598405|NCT01926782|164911283|SUPERIORITY_OR_OTHER||LS Mean Difference|5.1||||0.0004|TWO_SIDED|97.5|1.9|8.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.4|1.9|0.0004
82598406|NCT01926782|164911284|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.0004|TWO_SIDED|97.5|2.6|11.1||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant)||11.1|2.6|0.0004
82598407|NCT01926782|164911285|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.0007|TWO_SIDED|97.5|1.8|8.7||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||8.7|1.8|0.0007
82598408|NCT01926782|164911286|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.9||||0.0042|TWO_SIDED|97.5|-21.3|-2.6||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-2.6|-21.3|0.0042
82598409|NCT01926782|164911287|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-15.1|||<|0.0001|TWO_SIDED|97.5|-21.5|-8.6||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-8.6|-21.5|<0.0001
82598410|NCT01926782|164911288|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.1||||0.0004|TWO_SIDED|97.5|-22.9|-5.2||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-5.2|-22.9|0.0004
82598411|NCT01926782|164911289|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-13.6|||<|0.0001|TWO_SIDED|97.5|-20.3|-6.9||Threshold for significance ≤ 0.025.|Regression, Robust|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-6.9|-20.3|<0.0001
82598412|NCT01926782|164911290|SUPERIORITY_OR_OTHER||LS Mean Difference|6.6|||<|0.0001|TWO_SIDED|97.5|3.0|10.2||Threshold for significance ≤ 0.025.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.2|3.0|<0.0001
82598413|NCT01926782|164911291|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0306|TWO_SIDED|97.5|-0.1|5.4||Threshold for significance ≤ 0.025.|Mixed Models Analysis||Alirocumab 300 mg vs. Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||5.4|-0.1|0.0306
82598414|NCT01100944|164911303|SUPERIORITY_OR_OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||||||0.021
82598415|NCT01100944|164911312|SUPERIORITY_OR_OTHER|||||||0.3||||||Fold change at Cycle 2 Day 1 vs. pre was assessed. Only differences with p\<0.005 could be potentially considered statistically significant while those with 0.005\<p\<0.05 would represent trends towards a difference.|Wilcoxon signed rank test|||||||0.30
82655002|NCT01546987|165025534|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.27|TWO_SIDED|95.0|0.38|1.31||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|Revised protocol due to early accrual closure (September 2014) computes that 5-year survival of 78% and annual hazard rate of 0.055 for ADT + RT arm, with five years of additional follow-up after early accrual closure provides 28% power (at two-sided alpha = 0.05) to detect a 33% reduction in failure rate.||1.31|0.38|0.27
82598416|NCT01100944|164911312|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
82598417|NCT01100944|164911312|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
82598418|NCT01100944|164911313|SUPERIORITY_OR_OTHER|||||||0.76||||||Fold change at Cycle 2 Day 1 vs. pre was assessed.Only differences with p\<0.005 could be potentially considered statistically significant while those with 0.005\<p\<0.05 would represent trends towards a difference.|Wilcoxon signed rank test|||||||0.76
82598419|NCT01100944|164911313|SUPERIORITY_OR_OTHER|||||||0.0009||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0009
82598420|NCT01100944|164911313|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
82598421|NCT01100944|164911314|SUPERIORITY_OR_OTHER|||||||0.95||||||Fold change at Cycle 2 Day 1 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.95
82598422|NCT01100944|164911314|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 2 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
82598423|NCT01100944|164911314|SUPERIORITY_OR_OTHER|||||||0.0001||||||Fold change at Cycle 1 Day 3 vs. pre was assessed. p values calculated were done using a Wilcoxon signed rank test relative to a ratio of 1.|Wilcoxon signed rank test|||||||0.0001
82598424|NCT02296242|164911317|OTHER||Highest dose (mg) with no DLTs.|600.0|||||TWO_SIDED|||||||||In Part 1, 2 patients experienced DLTs in the 750 mg b.i.d. treatment group (2/7; 29%). There were no dose-limiting toxicities in the 600 mg b.i.d. group or 300 mg b.i.d. group. Therefore, based on these results, 600 mg b.i.d. was selected as the MTD dose (and RP2D dose) which was used as the treatment dose in Part 2 of the study.||||
82598425|NCT02499029|164911422|SUPERIORITY|||||||0.05|||||||Regression, Linear|||A series of hierarchical linear regression analyses were conducted to examine the effects of treatment group (NAC or placebo) on PTSD symptomatology, craving, substance use, and depression. Baseline levels of the respective outcome measures were entered in Step 1 of the model to adjust for any baseline differences. Treatment group was entered as the predictor in Step 2. The significance threshold was set at a p-value of .05 (two-sided) for all statistical tests.||||.05
82598426|NCT01707693|164911423|SUPERIORITY|repeated measures mixed model analysis of covariance, with the baseline measurement as a covariate.||||||0.023||||||P-value calculated from repeated measures model adjusting for age with a log transformation applied. P-values are one-sided.|ANCOVA|||||||0.023
82598427|NCT01707693|164911424|SUPERIORITY|||||||0.011||||||\* P-value calculated from repeated measures model adjusting for age with a log transformation applied.|ANCOVA|\* P-value calculated from repeated measures model adjusting for age with a log transformation applied.||||||0.011
82598428|NCT01707693|164911425|OTHER|2-sided Wilcoxon Rank Sum test||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
82598429|NCT01707693|164911426|OTHER|counts of stage of change||||||0.001|||||||Cochran-Mantel-Haenszel|2-sided Cochran-Armitage trend test||||||.001
82598430|NCT04472429|164911445|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0006|TWO_SIDED|95.0|0.47|0.84||tested at the 1-sided 2.5% level|stratified log-rank test||A stratified Cox regression with Efron's method for tie handling was used to estimate the hazard ratio.|||0.84|0.47|0.0006
82598431|NCT05130463|164911459|OTHER|||||||0.0011||||||Comparison of the change in HbA1c from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|||||||0.0011
82655003|NCT01546987|165025535|SUPERIORITY||Hazard Ratio (HR)|2.29|||<|0.001|TWO_SIDED|95.0|1.54|3.4|||Log Rank||Reference level = ADT + RT arm|||3.40|1.54|<0.001
82598432|NCT05130463|164911460|OTHER|||||||0.0014||||||Comparison of the change in HbA1c from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|||||||0.0014
82598433|NCT05130463|164911465|OTHER|||||||0.0008||||||Comparison of the change in FPG from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||FPG at baseline vs FPG after 12 weeks of treatment.||||0.0008
82598434|NCT05130463|164911466|OTHER|||||||0.0068||||||Comparison of the change in FPG from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||FPG at baseline vs FPG after 24 weeks of treatment.||||0.0068
82598435|NCT05130463|164911467|OTHER|||||||0.1867||||||Comparison of the change in body weight from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level||Body weight at baseline vs Body weight after 12 weeks of treatment.||||0.1867
82598436|NCT05130463|164911468|OTHER|||||||0.0003||||||Comparison of the change in body weight from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||Body weight at baseline vs Body weight after 24 weeks of treatment.||||0.0003
82598437|NCT05130463|164911469|OTHER|||||||0.002||||||Comparison of the change in SBP from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||SBP at baseline vs SBP after 12 weeks of treatment.||||0.0020
82598438|NCT05130463|164911469|OTHER|||||||0.0132||||||Comparison of the change in DBP from baseline to the values at 12 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||DBP at baseline vs DBP after 12 weeks of treatment.||||0.0132
82598439|NCT05130463|164911470|OTHER|||||||0.7591||||||Comparison of the change in SBP from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||SBP at baseline vs SBP after 24 weeks of treatment.||||0.7591
82598440|NCT05130463|164911470|OTHER|||||||0.5161||||||Comparison of the change in DBP from baseline to the values at 24 weeks post Esgliteo administration.|t-test, 2 sided|Paired t-test: Statistically significant at a 5% two-sided level.||DBP at baseline vs DBP after 24 weeks of treatment.||||0.5161
82655004|NCT01546987|165025536|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.99|TWO_SIDED|95.0|0.33|3.13|||Log Rank|||||3.13|0.33|0.99
82598441|NCT02573155|164911477|SUPERIORITY_OR_OTHER||Least Square Mean|0.111|STANDARD_ERROR_OF_MEAN|0.0265|<|0.0001|TWO_SIDED|95.0|0.0585|0.163|||ANCOVA|||||0.163|0.0585|<0.0001
82598442|NCT02573155|164911477|SUPERIORITY_OR_OTHER||Least square mean|0.21|STANDARD_ERROR_OF_MEAN|0.0272|<|0.0001||95.0|0.156|0.264|||ANCOVA|||||0.264|0.156|<0.0001
82598443|NCT00371865|164911484|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Mixed Models Analysis|||||||.27
82598444|NCT00371865|164911485|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||||||.90
82598445|NCT00371865|164911486|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|||||||.13
82598446|NCT00371865|164911487|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||.26
82598447|NCT00371865|164911488|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||||||.90
82598448|NCT01318109|164911519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.751|||||TWO_SIDED|95.0|-0.923|-0.579||||||||-0.579|-0.923|
82598449|NCT01318109|164911519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.858|||||TWO_SIDED|95.0|-1.019|-0.697||||||||-0.697|-1.019|
82598450|NCT01318109|164911520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.191|||||TWO_SIDED|95.0|-0.247|-0.135||||||||-0.135|-0.247|
82598451|NCT01318109|164911520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.192|||||TWO_SIDED|95.0|-0.242|-0.143||||||||-0.143|-0.242|
82598452|NCT01318109|164911521|SUPERIORITY_OR_OTHER||Hazard Ratio, log|-0.386|||||TWO_SIDED|95.0|-0.469|-0.303||||||||-0.303|-0.469|
82598453|NCT01318109|164911521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.403|||||TWO_SIDED|95.0|-0.484|-0.323||||||||-0.323|-0.484|
82598454|NCT01318109|164911522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.621|||||TWO_SIDED|95.0|-0.757|-0.486||||||||-0.486|-0.757|
82598455|NCT01318109|164911522|SUPERIORITY_OR_OTHER||Hazard Ratio, log|-0.692|||||TWO_SIDED|95.0|-0.814|-0.569||||||||-0.569|-0.814|
82598456|NCT01318109|164911523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.26|||||TWO_SIDED|95.0|-26.12|-12.4||||||||-12.40|-26.12|
82598457|NCT01318109|164911523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.27|||||TWO_SIDED|95.0|-30.43|-16.12||||||||-16.12|-30.43|
82598458|NCT01318109|164911524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.6|||||TWO_SIDED|95.0|-24.54|-10.66||||||||-10.66|-24.54|
82598459|NCT01318109|164911524|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.35|||||TWO_SIDED|95.0|-28.32|-14.39||||||||-14.39|-28.32|
82598460|NCT01318109|164911525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.87|||||TWO_SIDED|95.0|-25.95|-11.79||||||||-11.79|-25.95|
82598461|NCT01318109|164911525|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||||TWO_SIDED|95.0|-25.43|-10.9||||||||-10.90|-25.43|
82598462|NCT01318109|164911526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.24|||||TWO_SIDED|95.0|-26.32|-10.16||||||||-10.16|-26.32|
82598463|NCT01318109|164911526|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.38|||||TWO_SIDED|95.0|-30.87|-13.88||||||||-13.88|-30.87|
82598464|NCT01318109|164911527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.89|||||TWO_SIDED|95.0|-20.14|2.37||||||||2.37|-20.14|
82598465|NCT01318109|164911527|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.41|||||TWO_SIDED|95.0|-16.34|3.52||||||||3.52|-16.34|
82598466|NCT01328951|164911529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8183|TWO_SIDED|95.0|0.85|1.22|||Log Rank||The HR and 95% confidence interval (CI) were estimated by Cox regression.|Unstratified Analysis.||1.22|0.85|0.8183
82598467|NCT01328951|164911529|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.5256|TWO_SIDED|95.0|0.87|1.32|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Stratified Analysis: Stratified according to tumor histology, stage of disease, objective response at Baseline, bevacizumab use, smoking status, and region of enrollment.||1.32|0.87|0.5256
82598468|NCT01328951|164911530|SUPERIORITY_OR_OTHER||Difference in Event-Free Rate|-0.4||||0.9207|TWO_SIDED|95.0|-8.25|7.45|||Chi-squared|||||7.45|-8.25|0.9207
82598469|NCT01328951|164911532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4759|TWO_SIDED|95.0|0.8|1.11|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Unstratified Analysis.||1.11|0.80|0.4759
82598470|NCT01328951|164911532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1635|TWO_SIDED|95.0|0.72|1.06|||Log Rank||The HR and 95% CI were estimated by Cox regression.|Stratified Analysis: Stratified according to tumor histology, stage of disease, objective response at Baseline, bevacizumab use, smoking status, and region of enrollment.||1.06|0.72|0.1635
82598471|NCT01328951|164911533|SUPERIORITY_OR_OTHER||Difference in Event-Free Rate|-2.89||||0.4069|TWO_SIDED|95.0|-9.7|3.93|||Chi-squared|||||3.93|-9.70|0.4069
82598472|NCT01328951|164911534|SUPERIORITY_OR_OTHER||Difference in Response Rate|2.78||||0.1097|TWO_SIDED|95.0|-0.78|6.35|||Chi-squared||The 95% CI for difference in response rates was constructed using the Anderson-Hauck method.|||6.35|-0.78|0.1097
82598473|NCT01328951|164911534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||||TWO_SIDED|95.0|0.87|3.72|||||The 95% CI for OR was constructed using the Wald method.|||3.72|0.87|
82598474|NCT01328951|164911536|SUPERIORITY_OR_OTHER||Difference in Response Rate|1.99||||0.6062|TWO_SIDED|95.0|-5.74|9.72|||Chi-squared||The 95% CI for difference in response rates was constructed using the Anderson-Hauck method.|||9.72|-5.74|0.6062
82598475|NCT01328951|164911536|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|||||TWO_SIDED|95.0|0.79|1.49|||||The 95% CI for OR was constructed using the Wald method.|||1.49|0.79|
82598476|NCT06485479|164911537|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598477|NCT06485479|164911537|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598478|NCT06485479|164911537|SUPERIORITY|||||||0.56|||||||Regression, Linear|||||||.56
82598479|NCT06485479|164911538|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598480|NCT06485479|164911538|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598481|NCT06485479|164911538|SUPERIORITY|||||||0.35|||||||Regression, Linear|||||||.35
82598482|NCT06485479|164911539|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598483|NCT06485479|164911539|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598484|NCT06485479|164911539|SUPERIORITY|||||||0.62|||||||Regression, Linear|||||||.62
82598485|NCT06485479|164911540|SUPERIORITY|||||||0.03|||||||Regression, Linear|||||||.03
82598486|NCT06485479|164911540|SUPERIORITY|||||||0.17|||||||Regression, Linear|||||||.17
82598487|NCT06485479|164911540|SUPERIORITY|||||||0.33|||||||Regression, Linear|||||||.33
82598488|NCT06485479|164911541|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598489|NCT06485479|164911541|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||||||<.001
82598490|NCT06485479|164911541|SUPERIORITY|||||||0.38|||||||Regression, Linear|||||||.38
82598491|NCT06485479|164911542|SUPERIORITY|||||||0.6|||||||Regression, Linear|||||||.6
82598492|NCT06485479|164911542|SUPERIORITY|||||||0.65|||||||Regression, Linear|||||||.65
82598493|NCT06485479|164911542|SUPERIORITY|||||||0.4|||||||Regression, Linear|||||||.4
82598494|NCT05103332|164911553|SUPERIORITY||Difference in LS Mean|-12.1|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|95.0|-16.5|-7.6||MMRM: Fixed factors: treatment, visit, treatment-by-visit interaction, race (black/all other races); Covariates: Baseline (BA) 24-hour mean SBP using ABPM \& BA estimated glomerular filtration rate (eGFR). Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while participants were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-7.6|-16.5|<0.0001
82598495|NCT05103332|164911554|SUPERIORITY||Difference in LS Mean|-9.7|STANDARD_ERROR_OF_MEAN|1.61|<|0.0001|TWO_SIDED|95.0|-12.9|-6.6||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while participants were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-6.6|-12.9|<0.0001
82598496|NCT05103332|164911555|SUPERIORITY||Difference in LS Mean|-4.5|STANDARD_ERROR_OF_MEAN|1.89|=|0.0183|TWO_SIDED|95.0|-8.2|-0.8||MMRM: Fixed factors: treatment, visit, treatment-by-visit interaction, race (black/all other races); Covariates: Baseline (BA) 24-hour mean SBP using ABPM \& BA eGFR. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort \& handle primary \& key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for SBP, assessed using ABPM, while subjects were on \& within 2 weeks after stopping any escape medication were censored for this endpoint.||-0.8|-8.2|=0.0183
82598497|NCT05103332|164911556|SUPERIORITY||Difference in LS Mean|-18.5|STANDARD_ERROR_OF_MEAN|2.17|<|0.0001|TWO_SIDED|95.0|-22.8|-14.2||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-14.2|-22.8|<0.0001
82598498|NCT05103332|164911557|SUPERIORITY||Difference in LS Mean|-11.0|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-14.7|-7.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||-7.3|-14.7|<0.0001
82598499|NCT05103332|164911558|SUPERIORITY||Difference in LS Mean|-13.6|STANDARD_ERROR_OF_MEAN|1.66|<|0.0001|TWO_SIDED|95.0|-16.9|-10.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to indapamide) and placebo (add on to indapamide), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-10.3|-16.9|<0.0001
82655005|NCT01546987|165025537|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.48|TWO_SIDED|95.0|0.29|1.75||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT arm|Revised protocol due to early accrual closure (September 2014) computes that 5-year survival of 78% and annual hazard rate of 0.02 for ADT + RT arm, with five years of additional follow-up after early accrual closure provides 32% power (at two-sided alpha = 0.05) to detect a 50% reduction in failure rate.||1.75|0.29|0.48
82655006|NCT01546987|165025538|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.65|TWO_SIDED|95.0|0.45|1.63||Two-sided significance level = 0.05|Log Rank||Reference level = ADT + RT|||1.63|0.45|0.65
82655007|NCT01546987|165025540|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.76
82655008|NCT01546987|165025541|SUPERIORITY|||||||0.44|||||||t-test, 2 sided|||\[Bowel domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.44
82655009|NCT01546987|165025541|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||\[Urinary domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.13
82598500|NCT05103332|164911559|SUPERIORITY||Odds Ratio (OR)|12.39|||<|0.0001|TWO_SIDED|95.0|4.61|33.29||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||33.29|4.61|<0.0001
82598501|NCT05103332|164911570|SUPERIORITY||Difference in LS Mean|-10.2|STANDARD_ERROR_OF_MEAN|1.67|<|0.0001|TWO_SIDED|95.0|-13.4|-6.9||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-6.9|-13.4|<0.0001
82598502|NCT05103332|164911571|SUPERIORITY||Difference in LS Mean|-7.9|STANDARD_ERROR_OF_MEAN|1.36|<|0.0001|TWO_SIDED|95.0|-10.6|-5.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||-5.3|-10.6|<0.0001
82598503|NCT05103332|164911572|SUPERIORITY||Difference in LS Mean|-8.6|STANDARD_ERROR_OF_MEAN|1.16|<|0.0001|TWO_SIDED|95.0|-10.9|-6.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to amlodipine) and placebo (add on to amlodipine), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-6.3|-10.9|<0.0001
82598504|NCT05103332|164911573|SUPERIORITY||Odds Ratio (OR)|5.08|||<|0.0001|TWO_SIDED|95.0|2.43|10.61||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||10.61|2.43|<0.0001
82598505|NCT05103332|164911584|SUPERIORITY||Difference in LS Mean|-6.7|STANDARD_ERROR_OF_MEAN|1.76|=|0.0002|TWO_SIDED|95.0|-10.2|-3.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in order the endpoints are reported. Hierarchical testing sequence continued only when previous endpoint was statistically significant at nominal p-value \< 0.05. Data for office SBP assessed while participants were on and within 2 weeks after stopping any escape medication were censored for this endpoint.||-3.3|-10.2|=0.0002
82655010|NCT01546987|165025541|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||\[Sexual domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.50
82655011|NCT01546987|165025541|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||\[Hormonal domain\] One hundred thirty evaluable participants (arms combined), provides 81% power to detect a moderate effect size of 0.5 using a two-sample test of the difference in means with a two-sided type I error of 0.05.||||0.96
82655012|NCT01546987|165025552|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0104|TWO_SIDED|95.0|0.29|0.89|||Log Rank||Reference arm = ADT + RT arm|||0.89|0.29|0.0104
82655013|NCT02270736|165025554|SUPERIORITY||Least square mean (LS-mean) difference|-0.06|STANDARD_ERROR_OF_MEAN|0.019|=|0.0012|TWO_SIDED|95.0|-0.1|-0.03|||MMRM|||Least square mean (LS-Mean) is from a mixed model repeated measurement (MMRM) analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.03|-0.1|= 0.0012
82655014|NCT02270736|165025555|SUPERIORITY||Least square mean (LS-mean) difference|0.28|STANDARD_ERROR_OF_MEAN|0.127|=|0.032|TWO_SIDED|95.0|0.02|0.53|||MMRM|||LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline Modified Teacher Drooling Scale (mTDS) score as covariate.||0.53|0.02|= 0.032
82598506|NCT05103332|164911585|SUPERIORITY||Difference in LS Mean|-1.8|STANDARD_ERROR_OF_MEAN|1.42|=|0.2103|TWO_SIDED|95.0|-4.6|1.0||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline 24-hour mean SBP assessed by ABPM and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for SBP assessed by ABPM, were included in the analysis for this endpoint.||1.0|-4.6|=0.2103
82598507|NCT05103332|164911586|SUPERIORITY||Difference in LS Mean|-4.5|STANDARD_ERROR_OF_MEAN|1.14|<|0.0001|TWO_SIDED|95.0|-6.8|-2.3||MMRM model included treatment, visit, treatment-by-visit interaction, race (black or all other races) as fixed factors, with baseline office SBP and baseline eGFR as covariates. Unstructured covariance matrix was used.|MMRM||LS Mean Difference between zilebesiran (add on to olmesartan) and placebo (add on to olmesartan), 95% CI was calculated using MMRM model.|A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05. All collected data for office SBP were included in the analysis for this endpoint.||-2.3|-6.8|<0.0001
82598508|NCT05103332|164911587|SUPERIORITY||Odds Ratio (OR)|1.67|||=|0.123|TWO_SIDED|95.0|0.87|3.23||Logistic regression model included treatment and race (black or all other races) as factors and baseline 24-hour mean SBP and baseline eGFR as covariates.|Regression, Logistic|||A hierarchical testing procedure was used to control type I error at α=0.05 within each cohort and handle primary and key secondary endpoints analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when the previous endpoint was statistically significant at nominal p-value \< 0.05.||3.23|0.87|=0.1230
82598509|NCT04982250|164911619|SUPERIORITY||Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-26.0|11.0|||||Risk differences (RD) with 95% confidence intervals (CI) were estimated using regression models with Gaussian distributions, identify links, study group fixed effects, and index peer random effects (to adjust for clustering).|The sample size calculation was based on the primary PrEP initiation outcome at follow-up; 80 clusters (40 per study group) provided 80% power to detect a 17% difference in PrEP initiation between the enhanced (80%) and standard (63%) groups, assuming three referred peers per cluster (75% of those recommended), an intra-cluster correlation coefficient of 0.05, and an alpha level of 0.05.||11|-26|
82598510|NCT04982250|164911624|SUPERIORITY||Risk Difference (RD)|39.0|||||TWO_SIDED|95.0|24.0|54.0||||||||54|24|
82598511|NCT04982250|164911625|SUPERIORITY||Risk Difference (RD)|1.0|||||TWO_SIDED|95.0|-10.0|13.0||||||||13|-10|
82598512|NCT04982250|164911626|SUPERIORITY||Risk Difference (RD)|-19.0|||||TWO_SIDED|95.0|-40.0|2.0||||||||2|-40|
82598513|NCT04982250|164911627|SUPERIORITY||Median Difference (Final Values)|-16.9|||||TWO_SIDED|95.0|-36.3|2.5||||||||2.5|-36.3|
82598514|NCT04982250|164911628|SUPERIORITY||Median Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-0.2|1.1||||||||1.1|-0.2|
82598515|NCT03485820|164911635|SUPERIORITY||Mean Difference (Net)|1.3||||0.76|TWO_SIDED|95.0|-7.1|9.6||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||9.6|-7.1|0.76
82655015|NCT02270736|165025557|SUPERIORITY||Least square mean (LS-mean) difference|-0.09|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001|TWO_SIDED|95.0|-0.12|-0.05|||MMRM|||Statistical analysis at Week 8: LS-Mean is from a MMRM analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.05|-0.12|<0.0001
82598516|NCT03485820|164911636|SUPERIORITY||Mean Difference (Net)|-1.8||||0.6|TWO_SIDED|95.0|-8.6|5.0||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||5.0|-8.6|0.60
82598517|NCT03485820|164911637|SUPERIORITY||Mean Difference (Net)|-0.01||||0.83|TWO_SIDED|95.0|-0.06|0.05||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.05|-0.06|0.83
82655016|NCT02270736|165025557|SUPERIORITY||Least square mean (LS-mean) difference|-0.1|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|-0.14|-0.06|||MMRM|||Statistical analysis at Week 12: LS-Mean is from a MMRM analysis with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline uSFR score as covariate.||-0.06|-0.14|<0.0001
82655017|NCT02270736|165025558|SUPERIORITY||Least square mean (LS-mean) difference|0.4|STANDARD_ERROR_OF_MEAN|0.116|=|0.0008|TWO_SIDED|95.0|0.17|0.63|||MMRM|||Statistical analysis at Week 8: LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline mTDS score as covariate.||0.63|0.17|=0.0008
82598518|NCT03485820|164911638|SUPERIORITY||Mean Difference (Net)|0.39||||0.046|TWO_SIDED|95.0|0.01|0.77||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression , number of days in inpatient rehabilitation, and baseline calendar time.||0.77|0.01|0.046
82598519|NCT03485820|164911639|SUPERIORITY||Mean Difference (Net)|0.52||||0.02|TWO_SIDED|95.0|0.08|0.96||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.96|0.08|0.02
82598520|NCT03485820|164911640|SUPERIORITY||Mean Difference (Net)|-10.6||||0.07|TWO_SIDED|95.0|-21.9|0.8||P value shown is for group by time interaction.|Mixed Models Analysis||Between group differences in changes over time (COMPASS vs Education program)|A linear mixed effects model was used to assess the effects of time, group and the interaction of group and time on the outcome. A significant interaction of group and time would indicate that the two groups had significantly different changes in the outcome over time. The model adjusted for race, marital status, living situation, depression, number of days in inpatient rehabilitation, and baseline calendar time.||0.8|-21.9|0.07
82598521|NCT04289116|164911641|SUPERIORITY||Chi Square|1.36||||0.2|TWO_SIDED||||||Negative Binomial Regression|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.20
82598522|NCT04289116|164911641|SUPERIORITY||Chi Square|0.03||||0.58|TWO_SIDED||||||Negative Binomial Regression|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.58
82598523|NCT04289116|164911642|SUPERIORITY||Mean Difference (Final Values)|-1.82||||0.08|TWO_SIDED||||||t-test, 2 sided|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.08
82598524|NCT04289116|164911642|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.02|TWO_SIDED||||||t-test, 2 sided|||Analysis only includes participants who participated in the We Test - Index arm and Individual HIV Testing and Counseling - Index arm on their own.||||0.02
82598525|NCT04685876|164911643|SUPERIORITY|||||||0.355|||||||Regression, Linear|||||||0.355
82598526|NCT04685876|164911643|SUPERIORITY|||||||0.578|||||||Regression, Linear|||||||0.578
82598527|NCT04685876|164911645|SUPERIORITY|||||||0.248|||||||Regression, Cox|||||||0.248
82598528|NCT04685876|164911645|SUPERIORITY|||||||0.297|||||||Regression, Cox|||||||0.297
82655018|NCT02270736|165025558|SUPERIORITY||Least square mean (LS-mean) difference|0.4|STANDARD_ERROR_OF_MEAN|0.132|=|0.0026|TWO_SIDED|95.0|0.14|0.66|||MMRM|||Statistical analysis at Week 12: LS-Mean is from a MMRM analysis model with treatment group, pooled investigation sites, and age groups as fixed factors, visit\*treatment as interaction term, visit as repeated factor, and baseline mTDS score as covariate.||0.66|0.14|=0.0026
82598529|NCT04685876|164911646|SUPERIORITY|||||||0.748|||||||Mixed Models Analysis|||||||0.748
82598530|NCT04685876|164911646|SUPERIORITY|||||||0.395|||||||Mixed Models Analysis|||||||0.395
82655019|NCT00262600|165025563|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.|Cox Proportional Hazard|0.9|||<|0.0001||95.0|0.74|1.1||p-value for protocol specified margin of 1.46|Regression, Cox|||Non-inferiority comparison of dabigatran 110 mg to warfarin||1.10|0.74|<.0001
82655020|NCT00262600|165025563|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.|Cox Proportional Hazard|0.65|||<|0.0001||95.0|0.52|0.81||p-value for protocol specified margin of 1.46|Regression, Cox|||Non-inferiority comparison of dabigatran 150 mg to warfarin||0.81|0.52|<.0001
82598531|NCT04685876|164911647|SUPERIORITY|||||||0.152|||||||Regression, Linear|||||||0.152
82598532|NCT04685876|164911647|SUPERIORITY|||||||0.482|||||||Regression, Linear|||||||0.482
82598533|NCT01358864|164911653|SUPERIORITY_OR_OTHER||Adjusted percent difference|52.8|||<|0.0001|TWO_SIDED|95.0|42.4|63.2||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||63.2|42.4|<0.0001
82598534|NCT01358864|164911653|SUPERIORITY_OR_OTHER||Adjusted percent difference|48.5|||<|0.0001|TWO_SIDED|95.0|38.2|58.9||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||58.9|38.2|<0.0001
82598535|NCT01358864|164911653|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.4|||||TWO_SIDED|95.0|-6.0|14.9||||||||14.9|-6.0|
82598536|NCT01358864|164911653|SUPERIORITY_OR_OTHER||Adjusted percent difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.7||||||||10.7|-10.9|
82598537|NCT01358864|164911653|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 12 weeks vs historical rate of 20%.||||<0.0001
82598538|NCT01358864|164911653|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 24 weeks vs historical rate of 20%.||||0.0001
82598539|NCT01358864|164911655|SUPERIORITY_OR_OTHER||Adjusted percent difference|54.7|||<|0.0001|TWO_SIDED|95.0|44.4|65.0||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||65.0|44.4|<0.0001
82598540|NCT01358864|164911655|SUPERIORITY_OR_OTHER||Adjusted percent difference|50.4|||<|0.0001|TWO_SIDED|95.0|40.1|60.8||Adjusted for genotype and previous response to treatment|Cochran-Mantel-Haenszel|||||60.8|40.1|<0.0001
82598541|NCT01358864|164911655|SUPERIORITY_OR_OTHER||Adjusted percent difference|4.5|||||TWO_SIDED|95.0|-5.8|14.9||||||||14.9|-5.8|
82655021|NCT00262600|165025564|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.2206||95.0|0.83|1.04||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||1.04|0.83|0.2206
82655022|NCT00262600|165025564|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.83||||0.0015||95.0|0.74|0.93||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||0.93|0.74|0.0015
82655023|NCT00262600|165025565|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.98||||0.7508||95.0|0.87|1.11||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||1.11|0.87|0.7508
82598542|NCT01358864|164911655|SUPERIORITY_OR_OTHER||Adjusted percent difference|-0.1|||||TWO_SIDED|95.0|-10.9|10.7||||||||10.7|-10.9|
82598543|NCT01358864|164911655|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 12 weeks vs historical rate of 20%.||||<0.0001
82598544|NCT01358864|164911655|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Normal approximation|||Comparison is based on the Null:Faldaprevir 24 weeks vs historical rate of 20%.||||0.0001
82598545|NCT03194373|164911666|SUPERIORITY|Power to detect a 20% improvement in disease control rate (DCR). Based on historical data, the DCR in R/M HNSCC with single agent platinum therapy is 40%. We hypothesize that addition of Palbociclib will increase DCR at 12 weeks to 60%. Two-stage design. Type I error rate of 0.059 and power of 0.80 when the true response rate is 0.60 with alpha=0.05. The two-stage sample size calculations assume a null probability of 0.40.|Proportion|33.0|||||TWO_SIDED|95.0|13.0|59.0||||||||59|13|
82598546|NCT03194373|164911667|OTHER||||||||||||||||||Median survival times were computed using the Kaplan-Meier method with standard error computed using Greenwood's formula. All analyses were done using SAS 9.4 software.|||
82598547|NCT03194373|164911668|OTHER||||||||||||||||||Median survival times were computed using the Kaplan-Meier method with standard error computed using Greenwood's formula. All analyses were done using SAS 9.4 software.|||
82598548|NCT05853380|164911682|OTHER|The primary outcome was considered successful if the bootstrapped upper 95% confidence interval on the RMSD was \< 3.0. Power was assessed by bootstrapping 95% confidence intervals at different n sizes on a product development population.|RMSD|0.77|||||TWO_SIDED|95.0|0.67|0.87||||||Subjects with simultaneously collected HR and PR comparator data were assigned to the comparison group.|The upper 95% confidence interval on the RMSD was 0.87, meeting the significance threshold of \< 3.0. The study tested hypothesis of accuracy \< 3.0 RMSD by showing the upper 95% confidence interval on the RMSD was \< 3.0. The upper 95% confidence interval on the RMSD was 0.87, meeting the target threshold of \< 3.0.|0.87|0.67|
82598549|NCT04209855|164911683|SUPERIORITY||Cox Proportional Hazard|0.63|||<|0.0001|TWO_SIDED|95.0|0.513|0.785|||Log Rank|||||0.785|0.513|<0.0001
82655024|NCT00262600|165025565|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.0093||95.0|0.74|0.96||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using a Cox regression analysis with treatment in the model.||||0.96|0.74|0.0093
82598550|NCT00931359|164911700|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|Factors of treatment group and analysis center were considered||||||<0.001
82598551|NCT00931359|164911701|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||ANOVA|||||||0.019
82598552|NCT00313209|164911717|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|27.0|71.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||71|27|<0.0001
82598553|NCT00313209|164911718|SUPERIORITY_OR_OTHER||Mean Difference (Net)|60.0|STANDARD_ERROR_OF_MEAN|11.0|<|0.0001|TWO_SIDED|95.0|38.0|82.0||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||82|38|<0.0001
82598554|NCT00313209|164911719|SUPERIORITY_OR_OTHER||Rate ratio|0.79|STANDARD_ERROR_OF_MEAN|0.12||0.1408|TWO_SIDED|95.0|0.58|1.08||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|Poisson regression|||||1.08|0.58|0.1408
82598555|NCT00313209|164911720|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.2||0.4654|TWO_SIDED|95.0|-0.2|0.4||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||0.4|-0.2|0.4654
82598556|NCT00313209|164911721|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|0.9||0.5457|TWO_SIDED|95.0|-1.2|2.2||No adjustment of the significance level (0.05) was done as a hierarchical approach for hypotheses testing was used.|ANCOVA|Repeated measurements analysis (change from baseline over 24 weeks of treatment taking all post-randomization measurements into account).||||2.2|-1.2|0.5457
82598557|NCT02193074|164911722|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|50.68|||<|0.0001|TWO_SIDED|95.0|31.81|66.48|||Fisher Exact||exact unconditional confidence interval|||66.48|31.81|< 0.0001
82655025|NCT00262600|165025566|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.0026||95.0|0.7|0.93||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis is for adjudicated major bleeds||0.93|0.70|0.0026
82598558|NCT02193074|164911723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0046|||||||Log Rank|Based on log-rank test stratified by disease duration.||||||0.0046
82598559|NCT02193074|164911723|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.53||||0.0164|TWO_SIDED|95.0|0.3156|0.8902|||Cox proportional hazards model|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||0.8902|0.3156|0.0164
82598560|NCT02193074|164911724|SUPERIORITY_OR_OTHER_LEGACY||DIfference in percentages|68.53|||<|0.0001|TWO_SIDED|95.0|51.27|81.99|||Fisher Exact|||||81.99|51.27|< 0.0001
82598561|NCT02193074|164911725|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041|||||||Log Rank|Based on log-rank test stratified by disease duration (primary analysis).||||||0.0041
82655026|NCT00262600|165025566|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.93||||0.3146||95.0|0.81|1.07||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis is for adjudicated major bleeds||1.07|0.81|0.3146
82655027|NCT00262600|165025567|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.3|||<|0.0001||95.0|0.19|0.45||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis of ICH||0.45|0.19|<0.0001
82655028|NCT00262600|165025567|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.41|||<|0.0001||95.0|0.28|0.6||p-value is for superiority testing|Regression, Cox|Comparisons between treatment groups were performed using Cox regression analysis with treatment in the model.||Analysis of ICH||0.60|0.28|<0.0001
82655029|NCT05381948|165025570|OTHER||Least Square (LS) Mean|-0.12|STANDARD_ERROR_OF_MEAN|1.199||0.919|TWO_SIDED|95.0|-2.48|2.24|||Mixed Model for Repeated Measures (MMRM)|||||2.24|-2.48|0.919
82655030|NCT05381948|165025570|OTHER||LS Mean|-0.31|STANDARD_ERROR_OF_MEAN|1.187||0.795|TWO_SIDED|95.0|-2.63|2.02|||MMRM|||||2.02|-2.63|0.795
82655031|NCT00977106|165025607|SUPERIORITY_OR_OTHER|||||||0.472|||||||Chi-squared|||||||0.472
82598562|NCT02193074|164911725|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.372||||0.0082|TWO_SIDED|95.0|0.1787|0.7745|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening (sensitivity analysis).||||0.7745|0.1787|0.0082
82598563|NCT02193074|164911727|SUPERIORITY_OR_OTHER_LEGACY||Difference in percentages|30.21||||0.0004|TWO_SIDED|95.0|10.35|48.09|||Fisher Exact|||||48.09|10.35|0.0004
82598564|NCT02193074|164911728|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Log Rank|||||||0.0003
82598565|NCT02193074|164911728|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.24||||0.0014|TWO_SIDED|95.0|0.1002|0.5753|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||0.5753|0.1002|0.0014
82598566|NCT02193074|164911729|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3953|||||||Log Rank|||||||0.3953
82598567|NCT02193074|164911729|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.844||||0.6268|TWO_SIDED|95.0|0.427|1.6698|||Cox proportional hazards|Based on Cox proportional hazards model adjusted for each subject's disease duration at screening.||||1.6698|0.4270|0.6268
82598568|NCT03784079|164911840|OTHER||Emax|-1.937|||||TWO_SIDED|95.0|-2.484|-1.389||||||||-1.389|-2.484|
82598569|NCT03784079|164911840|OTHER||EC50|7.094|||||TWO_SIDED|95.0|0.585|13.602||||||||13.602|0.585|
82598570|NCT03784079|164911840|OTHER||s2e|0.137|||||TWO_SIDED|95.0|0.062|0.212||||||||0.212|0.062|
82598571|NCT03784079|164911841|OTHER||Emax|-1.929|||||TWO_SIDED|95.0|-2.479|-1.379||||||||-1.379|-2.479|
82598572|NCT03784079|164911841|OTHER||EC50|0.446|||||TWO_SIDED|95.0|0.03|0.861||||||||0.861|0.030|
82598573|NCT03784079|164911841|OTHER||s2e|0.139|||||TWO_SIDED|95.0|0.063|0.216||||||||0.216|0.063|
82598574|NCT03784079|164911842|OTHER||Emax|-1.926|||||TWO_SIDED|95.0|-2.498|-1.354||||||||-1.354|-2.498|
82598575|NCT03784079|164911842|OTHER||EC50|0.197|||||TWO_SIDED|95.0|0.007|0.386||||||||0.386|0.007|
82598576|NCT03784079|164911842|OTHER||s2e|0.144|||||TWO_SIDED|95.0|0.065|0.222||||||||0.222|0.065|
82655032|NCT00977106|165025608|SUPERIORITY_OR_OTHER|||||||0.377||||||Between-group test (equal variances)|Student t-test|||Change at Week 1||||0.377
82655033|NCT00977106|165025608|SUPERIORITY_OR_OTHER|||||||0.276|||||||Student t-test|Between-group test (unequal variances)||Change at Week 4||||0.276
82598577|NCT02600494|164911851|SUPERIORITY||Least Squares Mean Difference|0.9||||0.514|TWO_SIDED|95.0|-1.83|3.53||p-value is Hochberg-adjusted|Mixed Effects Model for Repeated Measure|||||3.53|-1.83|0.514
82598578|NCT02600494|164911851|SUPERIORITY||Least Squares Mean Difference|-1.0||||0.895|TWO_SIDED|95.0|-3.73|1.79||p-value is Hochberg adjusted|Mixed Effects Model for Repeated Measure|||||1.79|-3.73|0.895
82598579|NCT02600494|164911852|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.993|TWO_SIDED|95.0|0.712|1.4|||Regression, Cox|||||1.400|0.712|0.993
82598580|NCT02600494|164911852|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.665|TWO_SIDED|95.0|0.657|1.307|||Regression, Cox|||||1.307|0.657|0.665
82598581|NCT03124563|164911855|SUPERIORITY||||||=|0.006|||||||Mixed Models Analysis|Controlling for age, gender, and functional health||||||=.006
82598582|NCT03124563|164911856|SUPERIORITY|||||||0.034|||||||Mixed Models Analysis|Controlling for age, gender, and functional health||||||.034
82598583|NCT03124563|164911857|SUPERIORITY|||||||0.065|||||||Mixed Models Analysis|Controlling for age, gender, and education||||||.065
82598584|NCT03124563|164911858|SUPERIORITY|||||||0.308|||||||Mixed Models Analysis|Controlling for age, gender, and level of education||||||.308
82598585|NCT03124563|164911859|SUPERIORITY|||||||0.349|||||||ANOVA|||||||.349
82598586|NCT03124563|164911860|SUPERIORITY|||||||0.022|||||||Mixed Models Analysis|Controlling for age, gender, and level of education||||||.022
82598587|NCT04179175|164911889|OTHER||Hazard Ratio (HR)|0.87||||0.25|TWO_SIDED|95.0|0.59|1.29|||Log Rank|one-sided stratified log-rank test, with region and body weight (\<90 kg, ≥ 90 kg) as strata||||1.29|0.59|0.250
82598588|NCT04179175|164911889|OTHER||Hazard Ratio (HR)|0.7||||0.044|TWO_SIDED|95.0|0.47|1.05|||Log Rank|one-sided stratified log-rank test, with region and body weight (\<90 kg, ≥ 90 kg) as strata||||1.05|0.47|0.044
82598589|NCT01790503|164911930|OTHER||Hazard Ratio (HR)|0.98||||0.456|TWO_SIDED|95.0|0.71|1.36|||Log Rank|||||1.36|0.71|0.456
82598590|NCT01790503|164911930|OTHER||Hazard Ratio (HR)|1.05||||0.619|TWO_SIDED|95.0|0.77|1.43|||Log Rank|||||1.43|0.77|0.619
82598591|NCT01790503|164911930|OTHER||Hazard Ratio (HR)|0.9||||0.272|TWO_SIDED|95.0|0.65|1.26|||Log Rank|||||1.26|0.65|0.272
82655034|NCT00977106|165025610|SUPERIORITY_OR_OTHER|||||||0.502|||||||Student t-test|Between-group test (equal variances)||Change at Week 4||||0.502
82655035|NCT00977106|165025612|SUPERIORITY_OR_OTHER|||||||0.434||||||Between placebo and TCZ groups test (Equal Variances) at week 4|t-test, 1 sided|||||||0.434
82655036|NCT00977106|165025614|SUPERIORITY_OR_OTHER|||||||0.692|||||||Wilcoxon (Mann-Whitney)|||Change at Week 1||||0.692
82655037|NCT00977106|165025614|SUPERIORITY_OR_OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||Change at Week 4||||0.019
82655038|NCT00977106|165025615|SUPERIORITY_OR_OTHER|||||||0.137|||||||Wilcoxon (Mann-Whitney)|||Change at Week 1||||0.137
82655039|NCT00977106|165025615|SUPERIORITY_OR_OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Change at Week 4||||0.043
82655040|NCT02606500|165025659|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.9|||||||Regression, Logistic|||||||0.9
82655041|NCT02606500|165025660|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.5|||||||Regression, Logistic|||||||0.5
82655042|NCT02606500|165025661|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.3|||||||Regression, Logistic|||||||0.3
82655043|NCT02606500|165025662|NON_INFERIORITY|We hypothesized that Elonva 150 mcg is non-inferior for COH in obese women.||||||0.9|||||||Regression, Logistic|||||||0.9
82655044|NCT02606500|165025663|NON_INFERIORITY|We presumed Elonva 150 mcg in obese and normal weighing women yields comparable biochemical pregnancy rates.||||||0.4|||||||Regression, Logistic|||||||0.4
82598592|NCT01790503|164911931|OTHER|||||||0.44|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.440
82598593|NCT01790503|164911931|OTHER|||||||0.699|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||0.699
82598594|NCT01790503|164911931|OTHER|||||||0.003|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||0.003
82598595|NCT01790503|164911931|OTHER|||||||0.201|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.201
82655045|NCT00721409|165025691|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.488||||0.0004|TWO_SIDED|95.0|0.319|0.748||1-sided p-value from the log-rank test stratified by stratification factors per randomization and Part.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Stratified analysis was presented above.||0.748|0.319|0.0004
82655046|NCT00721409|165025691|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.299|||<|0.0001|TWO_SIDED|95.0|0.156|0.572||1-sided p-value from the log-rank test.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Unstratified analysis was presented above.||0.572|0.156|<0.0001
82655047|NCT00721409|165025691|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.508||||0.0046|TWO_SIDED|95.0|0.303|0.853||1-sided p-value from the log-rank test.|Log Rank|||The primary hypothesis to be tested was H0: λ=1 versus. HA: λ\<1, where λ was the palbociclib plus letrozole:letrozole alone hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Letrozole. Unstratified analysis was presented above.||0.853|0.303|0.0046
82655048|NCT00721409|165025704|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.897||||0.2812|TWO_SIDED|95.0|0.623|1.294||1-sided p-value from the log-rank test stratified by Part (α = 0.10).|Log Rank|||Stratified analysis was presented above. Hazard ratio was assuming proportional hazards, a hazard ratio less than 1 indicated a reduction in hazard rate in favor of palbociclib + letrozole.||1.294|0.623|0.2812
82598596|NCT01790503|164911933|OTHER||Hazard Ratio (HR)|0.94||||0.389|TWO_SIDED|95.0|0.6|1.47|||Log Rank|||||1.47|0.60|0.389
82598597|NCT01790503|164911933|OTHER||Hazard Ratio (HR)|0.94||||0.393|TWO_SIDED|95.0|0.63|1.42|||Log Rank|||||1.42|0.63|0.393
82598598|NCT01790503|164911933|OTHER||Hazard Ratio (HR)|0.98||||0.469|TWO_SIDED|95.0|0.63|1.54|||Log Rank|||||1.54|0.63|0.469
82598599|NCT01790503|164911934|OTHER|||||||0.063|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.063
82598600|NCT01790503|164911934|OTHER|||||||0.969|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||0.969
82598601|NCT01790503|164911934|OTHER||||||<|0.001|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||<0.001
82598602|NCT01790503|164911934|OTHER|||||||0.501|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.501
82598603|NCT01790503|164911935|OTHER|||||||0.705|||||||t-test, 2 sided|||Comparison between age subgroups: 18-64 years vs 65+ years||||0.705
82598604|NCT01790503|164911935|OTHER||||||>|0.999|||||||t-test, 2 sided|||Comparison between extent of surgery subgroups: complete resection vs partial resection||||>0.999
82598605|NCT01790503|164911935|OTHER|||||||0.099|||||||t-test, 2 sided|||Comparison between baseline KPS subgroups: 70-89 vs 90-100||||0.099
82598606|NCT01790503|164911935|OTHER|||||||0.348|||||||t-test, 2 sided|||Comparison between MGMT status subgroups: methylated vs unmethylated||||0.348
82598607|NCT00049673|164911940|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.18|TWO_SIDED|95.0|0.53|1.14|||Log Rank|||||1.14|0.53|0.18
82499906|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.1|||||TWO_SIDED|95.0|-38.9|-9.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-9.5|-38.9|
82598608|NCT00049673|164911941|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0001|TWO_SIDED|95.0|0.43|0.73|||Log Rank|||||0.73|0.43|0.0001
82598609|NCT01535729|164911943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.949|STANDARD_ERROR_OF_MEAN|0.167||0.756|TWO_SIDED|95.0|0.684|1.318|||Wald Chi-Squares|||Comparison between 70-74 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.318|0.684|0.756
82598610|NCT01535729|164911943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.744|STANDARD_ERROR_OF_MEAN|0.185||0.11|TWO_SIDED|95.0|0.518|1.07|||Wald Chi-Squares|||Comparison between 75-79 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.070|0.518|0.110
82598611|NCT01535729|164911943|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.054|STANDARD_ERROR_OF_MEAN|0.242||0.829|TWO_SIDED|95.0|0.656|1.692|||Wald Chi-Squares|||Comparison between ≥ 80 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.692|0.656|0.829
82598612|NCT01535729|164911958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.981|STANDARD_ERROR_OF_MEAN|0.143||0.895|TWO_SIDED|95.0|0.741|1.299|||Wald Chi-Squares|||Comparison between 70-74 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.299|0.741|0.895
82598613|NCT01535729|164911958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.689|STANDARD_ERROR_OF_MEAN|0.162||0.022|TWO_SIDED|95.0|0.501|0.947|||Wald Chi-Squares|||Comparison between 75-79 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||0.947|0.501|0.022
82655049|NCT00721409|165025704|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.837||||0.2803|TWO_SIDED|95.0|0.458|1.527||1-sided p-value from the unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above.||1.527|0.458|0.2803
82655050|NCT00721409|165025704|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.935||||0.3875|TWO_SIDED|95.0|0.59|1.48||1-sided p-value from the unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above.||1.480|0.590|0.3875
82598614|NCT01535729|164911958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.162|STANDARD_ERROR_OF_MEAN|0.212||0.479|TWO_SIDED|95.0|0.767|1.759|||Wald Chi-Squares|||Comparison between ≥ 80 years and 65-69 years was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor age.||1.759|0.767|0.479
82598615|NCT01535729|164911959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.732|STANDARD_ERROR_OF_MEAN|0.129||0.015|TWO_SIDED|95.0|0.569|0.941|||Wald Chi-Squares|||Comparison between female and male was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor gender.||0.941|0.569|0.015
82598616|NCT01535729|164911960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.902|STANDARD_ERROR_OF_MEAN|0.156||0|TWO_SIDED|95.0|1.402|2.582|||Wald Chi-Squares|||Comparison between ex-smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.582|1.402|0.000
82598617|NCT01535729|164911960|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.786|STANDARD_ERROR_OF_MEAN|0.183||0.002|TWO_SIDED|95.0|1.248|2.557|||Wald Chi-Squares|||Comparison between smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.557|1.248|0.002
82598618|NCT01535729|164911963|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.717|STANDARD_ERROR_OF_MEAN|0.15||0.027|TWO_SIDED|95.0|0.535|0.962|||Wald Chi-Squares|||Comparison between female and male was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor gender.||0.962|0.535|0.027
82598619|NCT01535729|164911964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.935|STANDARD_ERROR_OF_MEAN|0.179||0|TWO_SIDED|95.0|1.362|2.749|||Wald Chi-Squares|||Comparison between ex-smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.749|1.362|0.000
82598620|NCT01535729|164911964|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.882|STANDARD_ERROR_OF_MEAN|0.213||0.003|TWO_SIDED|95.0|1.239|2.859|||Wald Chi-Squares|||Comparison between smoker and non-smoker was reported. Parameter estimates, standard errors, Wald Chi-Squares, p-values, hazard ratios and confidence limits were based on a univariate Cox regression with factor smoking.||2.859|1.239|0.003
82598621|NCT02787850|164911972|OTHER||sucess proportion|86.8|||||TWO_SIDED|95.0|71.9|95.6||||||||95.6|71.9|
82598622|NCT02787850|164911972|OTHER||success proportion|76.7|||||TWO_SIDED|95.0|57.7|90.1||||||||90.1|57.7|
82598623|NCT02787850|164911972|OTHER||success proportion|87.7|||||TWO_SIDED|95.0|76.3|94.9||||||||94.9|76.3|
82655051|NCT00721409|165025705|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.5||||0.1347|TWO_SIDED|95.0|0.76|2.97||1-sided p-value is from the stratified exact test (1-sided, α =0.10)|Cochran-Mantel-Haenszel|||Objective Response CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||2.97|0.76|0.1347
82598624|NCT02787850|164911972|OTHER||success proportion|85.2|||||TWO_SIDED|95.0|66.3|95.8||||||||95.8|66.3|
82598625|NCT02322710|164912002|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the 95% confidence interval of the observed difference between healing rates at D21 (Urgotul® - Tullegras M.S.®) in the PP population did not exceed +10%.|Difference in Percentages|1.2|STANDARD_DEVIATION|4.5|||ONE_SIDED|97.5||10.0||||||||10.0||
82598626|NCT04227899|164912095|OTHER||||||<|0.0001|||||||One-sided Chi-square test|||||||<0.0001
82598627|NCT04227899|164912096|OTHER|||||||0.0019|||||||Farrington-Manning non-inferiority (NI)|||||||0.0019
82598628|NCT04227899|164912097|OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82598629|NCT04227899|164912098|OTHER|||||||0.0081|||||||One-sided Chi-square test|||||||0.0081
82598630|NCT02479802|164912099|OTHER||||||<|0.0001|||||||t-test, 1 sided|||Change from Baseline at Week 48.||||<0.0001
82655052|NCT00721409|165025705|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.37||||0.0849|TWO_SIDED|95.0|0.74|7.84||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||7.84|0.74|0.0849
82598631|NCT02479802|164912100|OTHER|||||||0.0006|||||||t-test, 1 sided|||Change from Baseline at Week 48.||||0.0006
82598632|NCT01784965|164912106|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82598633|NCT03806127|164912125|OTHER||Cochran-Mantel-Haenszel (CMH) Difference|-1.9|||||TWO_SIDED|90.0|-16.1|12.3|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus ≥ 6) strata, with weights proposed by Greenland and Robins.|||12.3|-16.1|
82598634|NCT03806127|164912126|OTHER||CMH Difference|9.1|||||TWO_SIDED|90.0|-4.8|22.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|IBS-D Participants||22.9|-4.8|
82598635|NCT03806127|164912126|OTHER||CMH Difference|-0.1|||||TWO_SIDED|90.0|-16.7|16.4|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|IBS-M Participants||16.4|-16.7|
82598636|NCT03806127|164912126|OTHER||CMH Difference|5.3|||||TWO_SIDED|90.0|-5.4|15.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|All Participants||15.9|-5.4|
82598637|NCT03806127|164912127|OTHER||CMH Difference|1.6|||||TWO_SIDED|90.0|-11.7|14.9|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus \>= 6) strata, with weights proposed by Greenland and Robins.|||14.9|-11.7|
82655053|NCT00721409|165025705|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.14||||0.4515|TWO_SIDED|95.0|0.48|2.76||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||2.76|0.48|0.4515
82655054|NCT00721409|165025706|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.93||||0.0471|TWO_SIDED|95.0|0.91|4.08||1-sided p-value is from the stratified exact test (1-sided, α =0.10)|Cochran-Mantel-Haenszel|||Objective Response CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||4.08|0.91|0.0471
82598638|NCT03806127|164912128|OTHER||CMH Difference|6.7|||||TWO_SIDED|90.0|-5.5|18.8|||||Difference in proportion and corresponding confidence interval were calculated using the CMH risk difference estimate stratified by randomized Baseline abdominal pain (\< 6 versus ≥ 6) strata, with weights proposed by Greenland and Robins.|||18.8|-5.5|
82655055|NCT00721409|165025706|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.34||||0.118|TWO_SIDED|95.0|0.65|8.66||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||8.66|0.65|0.1180
82655056|NCT00721409|165025706|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.72||||0.1631|TWO_SIDED|95.0|0.65|4.54||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||4.54|0.65|0.1631
82598639|NCT01077973|164912138|SUPERIORITY_OR_OTHER||Least-square (LS) mean difference|-1.12||||0.299|TWO_SIDED|95.0|-3.23|1.0||p-value was calculated using ANOVA model with treatment, baseline Pain Severity Rating (PSR), gender and treatment-by-baseline PSR terms.|ANOVA|||Treatment difference (Ibuprofen sodium-placebo) and 95 percent (%) confidence interval (CI): based on LS means from analysis of variance (ANOVA). Type I error was controlled at 0.05 significance level (2-sided) by stating pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium versus (vs.) placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.00|-3.23|0.299
82598640|NCT01077973|164912139|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.193|TWO_SIDED|95.0|0.52|1.14||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||Hazard Ratio (HR) and corresponding 95% CI were calculated based on the Wald statistic from the proportional hazards (PH) model. Type I error was controlled at 0.05 significance level (2-sided) by stating pair wise comparisons significant only if overall treatment effect among 3 treatment groups was significant and testing in a sequential order Ibuprofen sodium vs. placebo for SPRID 0-3 then Ibuprofen sodium vs. Ibuprofen (Motrin IB) for time to meaningful relief.||1.14|0.52|0.193
82598641|NCT01077973|164912140|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.304|TWO_SIDED|95.0|0.5|1.24||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.24|0.50|0.304
82598642|NCT01077973|164912140|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.936|TWO_SIDED|95.0|0.65|1.59||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.59|0.65|0.936
82598643|NCT01077973|164912141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.072|TWO_SIDED|95.0|0.41|1.04||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.04|0.41|0.072
82598644|NCT01077973|164912141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.652|TWO_SIDED|95.0|0.58|1.41||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.41|0.58|0.652
82598645|NCT01077973|164912141|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.108|TWO_SIDED|95.0|0.49|1.07||p-value was calculated using the PH model with treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|Proportional hazards model|||HR and corresponding 95% CI were calculated based on the Wald statistic from the PH model.||1.07|0.49|0.108
82598646|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.402|TWO_SIDED|95.0|-0.65|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.65|0.402
82655057|NCT00721409|165025708|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.18||||0.0009|TWO_SIDED|95.0|1.48|6.98||1-sided p-value is from the stratified exact test (1-sided, α =0.10).|Cochran-Mantel-Haenszel|||CBR CI was calculated using the exact Clopper-Pearson method. The stratified analysis presented above was based on CMH test stratified by Part. An Odds Ratio \>1 means better response in favor of palbociclib + letrozole arm.||6.98|1.48|0.0009
82655058|NCT00721409|165025708|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.18||||0.0065|TWO_SIDED|95.0|1.3|13.9||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||13.90|1.30|0.0065
82655059|NCT00721409|165025708|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.55||||0.0442|TWO_SIDED|95.0|0.89|7.7||Chi-square test was used (1-sided, α=0.10)|Chi-squared|||Unstratified analysis was presented above. Exact CI was based on Clopper-Pearson method.||7.70|0.89|0.0442
82655060|NCT00721409|165025709|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.399|||<|0.0001|TWO_SIDED|95.0|0.265|0.601||1-sided p-value is from the stratified log-rank test (α =0.10).|Log Rank|||Kaplan-Meier method was applied for median and 95% CI. Hazard ratio was based on assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of palbociclib + letrozole.||0.601|0.265|<0.0001
82491951|NCT01153347|164677214|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89|STANDARD_ERROR_OF_MEAN|0.23||0.671|TWO_SIDED|95.0|0.53|1.5|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.50|0.53|0.671
82598647|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.407|TWO_SIDED|95.0|-0.64|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.64|0.407
82598648|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.991|TWO_SIDED|95.0|-0.38|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.38|0.991
82598649|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.313|TWO_SIDED|95.0|-0.75|0.24||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.24|-0.75|0.313
82598650|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.621|TWO_SIDED|95.0|-0.62|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.62|0.621
82598651|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.533|TWO_SIDED|95.0|-0.54|0.28||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.28|-0.54|0.533
82598652|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.25||||0.352|TWO_SIDED|95.0|-0.79|0.28||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.28|-0.79|0.352
82598653|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.573|TWO_SIDED|95.0|-0.69|0.38||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.38|-0.69|0.573
82598654|NCT01077973|164912142|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.657|TWO_SIDED|95.0|-0.54|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-0.54|0.657
82598655|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.382|TWO_SIDED|95.0|-0.36|0.14||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.14|-0.36|0.382
82655061|NCT00721409|165025709|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.299|||<|0.0001|TWO_SIDED|95.0|0.156|0.572||1-sided p-value is from unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above. Kaplan-Meier method was applied for median and 95% CI.||0.572|0.156|<0.0001
82598656|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.242|TWO_SIDED|95.0|-0.39|0.1||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.10|-0.39|0.242
82598657|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|0.04||||0.72|TWO_SIDED|95.0|-0.17|0.24||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.24|-0.17|0.720
82598658|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.16||||0.235|TWO_SIDED|95.0|-0.43|0.11||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.11|-0.43|0.235
82655062|NCT00721409|165025709|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.486||||0.003|TWO_SIDED|95.0|0.288|0.822||1-sided p-value is from unstratified log-rank test (α=0.10).|Log Rank|||Unstratified analysis was presented above. Kaplan-Meier method was applied for median and 95% CI.||0.822|0.288|0.0030
82655063|NCT00721409|165025710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2||||0.69|TWO_SIDED|95.0|-0.7|1.0||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.0|-0.7|0.6900
82655064|NCT00721409|165025710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.3||||0.7125|TWO_SIDED|95.0|-1.8|1.2||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.2|-1.8|0.7125
82655065|NCT00721409|165025710|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.4012|TWO_SIDED|95.0|-0.6|1.5||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.5|-0.6|0.4012
82655066|NCT00721409|165025711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.3346|TWO_SIDED|95.0|-0.5|1.3||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Interference Scale.||1.3|-0.5|0.3346
82598659|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.07||||0.63|TWO_SIDED|95.0|-0.34|0.2||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.20|-0.34|0.630
82598660|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.1||||0.393|TWO_SIDED|95.0|-0.32|0.13||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.13|-0.32|0.393
82598661|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.14||||0.382|TWO_SIDED|95.0|-0.46|0.18||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.18|-0.46|0.382
82598662|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.995|TWO_SIDED|95.0|-0.32|0.32||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.32|-0.32|0.995
82598663|NCT01077973|164912143|SUPERIORITY_OR_OTHER||LS mean difference|-0.14||||0.287|TWO_SIDED|95.0|-0.41|0.12||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.12|-0.41|0.287
82598664|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.377|TWO_SIDED|95.0|-0.98|0.37||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.37|-0.98|0.377
82598665|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.34||||0.324|TWO_SIDED|95.0|-1.01|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-1.01|0.324
82598666|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|0.03||||0.902|TWO_SIDED|95.0|-0.52|0.59||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.59|-0.52|0.902
82655067|NCT00721409|165025711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.563|TWO_SIDED|95.0|-1.0|1.9||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Interference Scale.||1.9|-1.0|0.5630
82655068|NCT00721409|165025711|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.4427|TWO_SIDED|95.0|-0.7|1.6||P-values are based on 2-sample t-test.|t-test, 2 sided|||Statistical analysis presented above is for Pain Severity Scale.||1.6|-0.7|0.4427
82598667|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.42||||0.273|TWO_SIDED|95.0|-1.17|0.33||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-1.17|0.273
82598668|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.616|TWO_SIDED|95.0|-0.94|0.56||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.56|-0.94|0.616
82598669|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.471|TWO_SIDED|95.0|-0.85|0.39||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.39|-0.85|0.471
82598670|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.356|TWO_SIDED|95.0|-1.24|0.45||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|-1.24|0.356
82655069|NCT02419313|165025720|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED||||||Fisher Exact|||||||0.0007
82655070|NCT02419313|165025721|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Fisher Exact|||||||0.0008
82655071|NCT02419313|165025722|SUPERIORITY_OR_OTHER|||||||0.0105|TWO_SIDED||||||Fisher Exact|||||||0.0105
82655072|NCT00810368|165025723|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||2-tailed paired Student's t-tests between Week 0 and Week 12 responses (above) were anticipated to show significant benefits with carnosine treatment but no change with placebo. There were no corrections for multiple comparisons in the reported data.|t-test, 2 sided|Paired t-test||Description of Power Calculation: The planned sample size completing each arm was based on individual incremental improvements in the primary outcomes of : A) CFS Severity Scores (Baraniuk et al., Annals Allergy Astma Immunol, 1998), B) Instantaneous Fatigue (Kim et al. Journal of Rehab Res Dev, 2010), and C) increased accuracy of 4/35 letters for 2 back working memory task (Owen, Human Brain Mapping, 2005).||||0.30
82655073|NCT00810368|165025723|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED||||||t-test, 2 sided|||||||0.40
82655074|NCT00810368|165025724|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED|||||Using Fisher's Exact Test, we determined whether there was a significant difference in the number of participants complaining of IBS symptoms.|Fisher Exact|2 by 2 Fisher's Exact Test||||||0.018
82598671|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.15||||0.722|TWO_SIDED|95.0|-1.0|0.69||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|-1.00|0.722
82598672|NCT01077973|164912144|SUPERIORITY_OR_OTHER||LS mean difference|-0.24||||0.493|TWO_SIDED|95.0|-0.94|0.46||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.46|-0.94|0.493
82598673|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.27||||0.259|TWO_SIDED|95.0|-0.75|0.2||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.20|-0.75|0.259
82598674|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.378|TWO_SIDED|95.0|-0.69|0.26||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.26|-0.69|0.378
82598675|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.06||||0.762|TWO_SIDED|95.0|-0.45|0.33||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.33|-0.45|0.762
82598676|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.42||||0.281|TWO_SIDED|95.0|-1.17|0.34||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.34|-1.17|0.281
82655075|NCT00810368|165025725|SUPERIORITY_OR_OTHER|||||||0.0018|TWO_SIDED||||||t-test, 2 sided|||||||0.0018
82655076|NCT00810368|165025725|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.60
82655077|NCT00810368|165025727|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82655078|NCT00810368|165025728|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82598677|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.582|TWO_SIDED|95.0|-0.97|0.55||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.55|-0.97|0.582
82598678|NCT01077973|164912145|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.523|TWO_SIDED|95.0|-0.83|0.42||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.42|-0.83|0.523
82598679|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.45||||0.327|TWO_SIDED|95.0|-1.35|0.45||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.45|-1.35|0.327
82655079|NCT00810368|165025729|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
82655080|NCT00442936|165025787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.26|||<|0.001|TWO_SIDED|95.0|1.4|3.66|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.66|1.40|<0.001
82655081|NCT00442936|165025787|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.81|||<|0.001|TWO_SIDED|95.0|2.42|6.0|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||6.00|2.42|<0.001
82655082|NCT00442936|165025788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82|||<|0.001|TWO_SIDED|95.0|2.02|3.95|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.95|2.02|<0.001
82655083|NCT00442936|165025788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.001|TWO_SIDED|95.0|2.47|4.79|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.79|2.47|<0.001
82655084|NCT00442936|165025789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.54|2.97|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.97|1.54|<0.001
82655085|NCT00442936|165025789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.61|||<|0.001|TWO_SIDED|95.0|1.89|3.61|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.61|1.89|<0.001
82598680|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.32||||0.489|TWO_SIDED|95.0|-1.21|0.58||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.58|-1.21|0.489
82598681|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.726|TWO_SIDED|95.0|-0.88|0.61||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.61|-0.88|0.726
82598682|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.7||||0.32|TWO_SIDED|95.0|-2.09|0.69||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.69|-2.09|0.320
82598683|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.47||||0.506|TWO_SIDED|95.0|-1.86|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.86|0.506
82598684|NCT01077973|164912146|SUPERIORITY_OR_OTHER||LS mean difference|-0.23||||0.691|TWO_SIDED|95.0|-1.38|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||TOTPAR 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.38|0.691
82598685|NCT01077973|164912147|SUPERIORITY_OR_OTHER||LS mean difference|-0.72||||0.292|TWO_SIDED|95.0|-2.07|0.62||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference (Ibuprofen sodium - placebo) and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.62|-2.07|0.292
82598686|NCT01077973|164912147|SUPERIORITY_OR_OTHER||LS mean difference|-0.53||||0.439|TWO_SIDED|95.0|-1.87|0.82||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.82|-1.87|0.439
82598687|NCT01077973|164912147|SUPERIORITY_OR_OTHER||LS mean difference|-0.19||||0.733|TWO_SIDED|95.0|-1.31|0.92||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-2: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||0.92|-1.31|0.733
82598688|NCT01077973|164912147|SUPERIORITY_OR_OTHER||LS mean difference|-0.68||||0.526|TWO_SIDED|95.0|-2.8|1.43||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.43|-2.80|0.526
82598689|NCT01077973|164912147|SUPERIORITY_OR_OTHER||LS mean difference|-0.44||||0.624|TWO_SIDED|95.0|-2.19|1.31||p-value was calculated using ANOVA which was adjusted for treatment, baseline PSR, gender, and treatment-by-baseline terms. Statistical testing was done at 5% significance level (2-sided).|ANOVA|||SPRID 0-3: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and corresponding 95% CI were calculated based on LS means from the ANOVA model.||1.31|-2.19|0.624
82598690|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|3.02||||0.672|TWO_SIDED|95.0|-11.03|17.07||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on Cochran-Mantel-Haenszel (CMH) adjusted proportions and the corresponding standard error.||17.07|-11.03|0.672
82598691|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-4.47||||0.467|TWO_SIDED|95.0|-17.61|8.68||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.68|-17.61|0.467
82598692|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|7.55||||0.164|TWO_SIDED|95.0|-2.96|18.05||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.05|-2.96|0.164
82598693|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-7.52||||0.427|TWO_SIDED|95.0|-25.96|10.92||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.92|-25.96|0.427
82598694|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-5.66||||0.537|TWO_SIDED|95.0|-23.57|12.25||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.25|-23.57|0.537
82598695|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-1.83||||0.813|TWO_SIDED|95.0|-16.88|13.22||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||13.22|-16.88|0.813
82598696|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-5.5||||0.455|TWO_SIDED|95.0|-19.24|8.24||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.24|-19.24|0.455
82655086|NCT00442936|165025790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05|||<|0.001|TWO_SIDED|95.0|1.49|2.82|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.82|1.49|<0.001
82598697|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-4.02||||0.57|TWO_SIDED|95.0|-17.63|9.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.59|-17.63|0.570
82598698|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.792|TWO_SIDED|95.0|-13.8|10.5||p-value was calculated using CMH test which was adjusted which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.50|-13.80|0.792
82598699|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
82598700|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
82598701|NCT01077973|164912148|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
82598702|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|6.06||||0.48|TWO_SIDED|95.0|-10.86|22.99||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||22.99|-10.86|0.480
82598703|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|4.34||||0.612|TWO_SIDED|95.0|-12.55|21.23||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||21.23|-12.55|0.612
82598704|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|1.47||||0.839|TWO_SIDED|95.0|-12.6|15.55||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||0.5 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||15.55|-12.60|0.839
82598705|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-13.2||||0.13|TWO_SIDED|95.0|-29.4|2.99||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||2.99|-29.40|0.130
82598706|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-7.83||||0.331|TWO_SIDED|95.0|-23.39|7.73||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||7.73|-23.39|0.331
82655087|NCT00442936|165025790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37|||<|0.001|TWO_SIDED|95.0|1.73|3.25|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||3.25|1.73|<0.001
82655088|NCT00442936|165025791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.73|||<|0.001|TWO_SIDED|95.0|1.25|2.39|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.39|1.25|<0.001
82655089|NCT00442936|165025791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.006|TWO_SIDED|95.0|1.13|2.13|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.13|1.13|0.006
82598707|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-5.5||||0.45|TWO_SIDED|95.0|-19.59|8.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||8.59|-19.59|0.450
82598708|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
82598709|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
82598710|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
82598711|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-4.25||||0.556|TWO_SIDED|95.0|-17.82|9.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||9.33|-17.82|0.556
82598712|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-2.77||||0.689|TWO_SIDED|95.0|-16.24|10.69||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.69|-16.24|0.689
82598713|NCT01077973|164912149|SUPERIORITY_OR_OTHER||Difference in proportion|-1.65||||0.786|TWO_SIDED|95.0|-13.45|10.14||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||10.14|-13.45|0.786
82598714|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|3.89||||0.355|TWO_SIDED|95.0|-3.33|11.1||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.10|-3.33|0.355
82655090|NCT00442936|165025792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.8||||0.002|TWO_SIDED|95.0|1.47|5.35|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.35|1.47|0.002
82655091|NCT00442936|165025792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|3.15|10.51|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||10.51|3.15|<0.001
82598715|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|-1.21||||0.623|TWO_SIDED|95.0|-6.62|4.2||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||4.20|-6.62|0.623
82655092|NCT00442936|165025793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.78||||0.026|TWO_SIDED|95.0|1.07|2.97|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||2.97|1.07|0.026
82655093|NCT00442936|165025793|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.001|TWO_SIDED|95.0|2.08|5.35|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||5.35|2.08|<0.001
82655094|NCT00442936|165025794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.25||||0.021|TWO_SIDED|95.0|1.13|4.47|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||4.47|1.13|0.021
82655095|NCT00442936|165025794|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21|||<|0.001|TWO_SIDED|95.0|2.78|9.76|||Regression, Logistic||From logistic model adjusting for geographic region, baseline migraine severity, and age. An odds ratio \>1 is in favor of the first treatment group of the corresponding pairwise comparison.|||9.76|2.78|<0.001
82655096|NCT02428699|165025806|SUPERIORITY||Mean Difference (Net)|5.16|||<|0.0001|TWO_SIDED|95.0|2.79|7.53|||ANCOVA|Subject as random effect,treatment and period as fixed effects,subject and period level baseline values for plasma total and free acids as covariates|Difference is test minus reference such that a positive difference favors the test treatment.|||7.53|2.79|<.0001
82598716|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|5.1||||0.094|TWO_SIDED|95.0|-0.9|11.11||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||1 hour: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.11|-0.90|0.094
82598717|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|4.43||||0.565|TWO_SIDED|95.0|-10.43|19.29||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||19.29|-10.43|0.565
82598718|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|-2.09||||0.765|TWO_SIDED|95.0|-16.15|11.97||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||11.97|-16.15|0.765
82598719|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|6.47||||0.288|TWO_SIDED|95.0|-5.43|18.37||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||2 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.37|-5.43|0.288
82598720|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|-0.87||||0.928|TWO_SIDED|95.0|-20.0|18.27||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference (Ibuprofen sodium - placebo) and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||18.27|-20.00|0.928
82598721|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|-6.4||||0.495|TWO_SIDED|95.0|-25.14|12.33||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen (Motrin IB) - placebo\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||12.33|-25.14|0.495
82598722|NCT01077973|164912152|SUPERIORITY_OR_OTHER||Difference in proportion|5.46||||0.477|TWO_SIDED|95.0|-9.66|20.59||p-value was calculated using CMH test which was adjusted for baseline PSR, and gender. Statistical testing was done at 5% significance level (2-sided).|Cochran-Mantel-Haenszel|||3 hours: Treatment difference \[Ibuprofen sodium - Ibuprofen (Motrin IB)\] and its associated 95% CI was calculated based on CMH adjusted proportions and the corresponding standard error.||20.59|-9.66|0.477
82598723|NCT00608985|164912156|SUPERIORITY_OR_OTHER||Median Difference (Net)|-15.0|||<|0.0001|TWO_SIDED|95.0|-21.8|-8.8|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-8.8|-21.8|<0.0001
82598724|NCT00608985|164912156|SUPERIORITY_OR_OTHER||Median Difference (Net)|-26.8|||<|0.0001|TWO_SIDED|95.0|-34.3|-19.5|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-19.5|-34.3|<0.0001
82598725|NCT00608985|164912156|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.8||||0.0376|TWO_SIDED|95.0|-13.5|-0.3|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-0.3|-13.5|0.0376
82598726|NCT00608985|164912157|SUPERIORITY_OR_OTHER||Median Difference (Net)|-13.5||||0.0001|TWO_SIDED|95.0|-20.3|-6.5|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-6.5|-20.3|0.0001
82598727|NCT00608985|164912157|SUPERIORITY_OR_OTHER||Median Difference (Net)|-19.5|||<|0.0001|TWO_SIDED|95.0|-27.3|-12.3|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-12.3|-27.3|<0.0001
82598728|NCT00608985|164912157|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.5||||0.3358|TWO_SIDED|95.0|-3.8|11.0|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||11.0|-3.8|0.3358
82598729|NCT00608985|164912158|SUPERIORITY_OR_OTHER||Median Difference (Net)|-7.3||||0.0186|TWO_SIDED|95.0|-13.3|-1.3|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-1.3|-13.3|0.0186
82598730|NCT00608985|164912158|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.4||||0.0006|TWO_SIDED|95.0|-16.4|-4.6|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-4.6|-16.4|0.0006
82598731|NCT00608985|164912158|SUPERIORITY_OR_OTHER||Median Difference (Net)|-12.7|||<|0.0001|TWO_SIDED|95.0|-18.8|-6.6|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-6.6|-18.8|<0.0001
82598732|NCT00608985|164912159|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.3||||0.0035|TWO_SIDED|95.0|-15.3|-3.0|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-3.0|-15.3|0.0035
82598733|NCT00608985|164912159|SUPERIORITY_OR_OTHER||Median Difference (Net)|-9.5||||0.0006|TWO_SIDED|95.0|-15.0|-4.3|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-4.3|-15.0|0.0006
82598734|NCT00608985|164912159|SUPERIORITY_OR_OTHER||Median Difference (Net)|-16.0|||<|0.0001|TWO_SIDED|95.0|-22.0|-9.8|||Wilcoxon rank-sum|||Change from baseline to day 1\&2 compared with placebo||-9.8|-22.0|<0.0001
82598735|NCT00608985|164912160|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.0||||0.2237|TWO_SIDED|95.0|-11.0|2.5|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||2.5|-11.0|0.2237
82598736|NCT00608985|164912160|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.0||||0.0607|TWO_SIDED|95.0|-12.3|0.3|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||0.3|-12.3|0.0607
82598737|NCT00608985|164912160|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.5||||0.0017|TWO_SIDED|95.0|-17.3|-4.0|||Wilcoxon rank-sum|||Change from baseline to day 15\&16 compared with placebo||-4.0|-17.3|0.0017
82598738|NCT00608985|164912161|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.1||||0.1187|TWO_SIDED|95.0|-9.1|0.9|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||0.9|-9.1|0.1187
82598739|NCT00608985|164912161|SUPERIORITY_OR_OTHER||Median Difference (Net)|-7.1||||0.0017|TWO_SIDED|95.0|-11.5|-2.7|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-2.7|-11.5|0.0017
82598740|NCT00608985|164912161|SUPERIORITY_OR_OTHER||Median Difference (Net)|-6.1||||0.0121|TWO_SIDED|95.0|-10.8|-1.4|||Wilcoxon rank-sum|||Change from baseline to week 1\&2 compared with placebo||-1.4|-10.8|0.0121
82598741|NCT03728309|164912184|SUPERIORITY||Percentage Difference|53.5|||<|0.001|TWO_SIDED|95.0|43.5|63.5||The p-value and 95% CI are computed by pooling 30 imputed data sets using SAS PROC MIANALYZE with normal approximation.|SAS PROC MIANALYZE|||||63.5|43.5|<0.001
82598742|NCT03728309|164912186|SUPERIORITY||Mean Difference (Final Values)|28.0|STANDARD_ERROR_OF_MEAN|3.83|<|0.001|TWO_SIDED|95.0|21.0|36.0|||2-sample, t-test|||||36.0|21.0|<0.001
82598743|NCT03728309|164912187|SUPERIORITY||Percentage Difference|52.9|||<|0.001|TWO_SIDED|95.0|40.1|65.7|||Fisher's Exact Test||Comparison of treatment group versus control group at Month 1, responder rate difference, 95% CI for risk difference and p-value was estimated based on Fisher's exact test using mITT population with baseline AFLS score of 2 or 3 on both cheeks.|||65.7|40.1|<0.001
82598744|NCT03138876|164912201|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82598745|NCT01849770|164912222|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.23|STANDARD_ERROR_OF_MEAN|0.4||0.561|TWO_SIDED|95.0|-1.03|0.56|||Random slopes model|||||0.56|-1.03|0.561
82598746|NCT01849770|164912222|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.43||0.662|TWO_SIDED|95.0|-1.04|0.66|||Random slopes model|||||0.66|-1.04|0.662
82598747|NCT01849770|164912223|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.71|STANDARD_ERROR_OF_MEAN|1.25||0.178|TWO_SIDED|95.0|-0.8|4.22|||Random slopes model|||||4.22|-0.80|0.178
82598748|NCT01849770|164912223|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.94|STANDARD_ERROR_OF_MEAN|1.42||0.51|TWO_SIDED|95.0|-3.8|1.91|||Random slopes model|||||1.91|-3.80|0.510
82598749|NCT03403205|164912229|OTHER||LS Mean Difference|1.64|STANDARD_ERROR_OF_MEAN|0.254|<|0.0001|TWO_SIDED|95.0|1.14|2.13||Test was performed at a significance level of 0.05.|ANCOVA|||Analysis was performed using ANCOVA model, which included treatment, cohort, and baseline value. Missing imputation was performed: 1) for intermediate missing, interpolation was used to fill out missing values. 2) For participants who die, baseline dNCC was carried forward from discontinuation to week 48. 3) For others, multiple imputation was used to impute missing dNCC assuming data were missing not at random.||2.13|1.14|< 0.0001
82598750|NCT03403205|164912229|OTHER||LS Mean Difference|3.79|STANDARD_ERROR_OF_MEAN|0.584|<|0.0001|TWO_SIDED|95.0|2.65|4.94||Test was performed at a significance level of 0.05.|ANCOVA|||Analysis was performed using ANCOVA model, which included treatment, cohort, and baseline value. Missing imputation was performed: 1) for intermediate missing, interpolation was used to fill out missing values. 2) For participants who die, baseline dNCC was carried forward from discontinuation to week 48. 3) For others, multiple imputation was used to impute missing dNCC assuming data were missing not at random.||4.94|2.65|< 0.0001
82598751|NCT02682901|164912248|SUPERIORITY|||||||0.603||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.603
82598752|NCT02682901|164912249|SUPERIORITY|||||||0.068||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.068
82598753|NCT02682901|164912250|SUPERIORITY|||||||0.493||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means are statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.493
82598754|NCT02682901|164912251|SUPERIORITY|||||||0.524||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.524
82598755|NCT02682901|164912252|SUPERIORITY|||||||0.63||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.630
82598756|NCT02682901|164912253|SUPERIORITY|||||||0.537||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.537
82598757|NCT02682901|164912254|SUPERIORITY|||||||0.53||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.530
82598758|NCT02682901|164912255|SUPERIORITY|||||||0.005||||||Between treatment group (bromocriptine-QR vs. placebo) differences in change from baseline to week 24 was analyzed using Independent Samples T-tests. Means were statistically significantly different at the 5% level (P \< 0.05) two-sided.|t-test, 2 sided|||||||0.005
82598759|NCT03694925|164912288|OTHER||Specificity|0.871|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the number of the true negatives and the denominator is the number of total negatives.|||||
82598760|NCT03694925|164912288|OTHER||Specificity|0.957|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the number of the true negatives and the denominator is the number of total negatives.|||||
82598761|NCT03694925|164912288|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>14 mg/L cut off. Sensitivity is the number of true positives over the number of total positives.|||||
82598762|NCT03694925|164912288|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>50 mg/L cut off. Sensitivity is the number of true positives over the number of total positives.|||||
82598763|NCT03694925|164912288|OTHER||Positive predictive value|0.852|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
82598764|NCT03694925|164912288|OTHER||Positive predictive value|0.945|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>50mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
82598765|NCT03694925|164912288|OTHER||Negative predictive value|0.984|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
82598766|NCT03694925|164912288|OTHER||Negative predictive value|0.985|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
82598767|NCT03694925|164912289|OTHER||Specificity|0.829|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the number of the number of aseptic negatives and the denominator is the number of aseptics.|||||
82598768|NCT03694925|164912289|OTHER||Specificity|0.957|||||TWO_SIDED||||||||Specificity was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the number of the number of aseptic negatives and the denominator is the number of aseptics.|||||
82598769|NCT03694925|164912289|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>14 mg/L cut off. Sensitivity is the number of septic positives over the number of septics.|||||
82598770|NCT03694925|164912289|OTHER||Sensitivity|0.981|||||TWO_SIDED||||||||Sensitivity was calculated using 2x2 tables using \>50 mg/L cut off. Sensitivity is the number of septic positives over the number of septics.|||||
82598771|NCT03694925|164912289|OTHER||Positive predictive value|0.813|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
82598772|NCT03694925|164912289|OTHER||Positive predictive value|0.945|||||TWO_SIDED||||||||Positive predictive value was calculated using 2x2 tables using \>50mg/L cut off. The numerator is the septic positives and the denominator are the total positives.|||||
82598773|NCT03694925|164912289|OTHER||Negative predictive value|0.983|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>14 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.|||||
82598774|NCT03694925|164912289|OTHER||Negative predictive value|0.985|||||TWO_SIDED||||||||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. The numerator is the aseptic negatives and the denominator is the number of total negatives.||Negative predictive value was calculated using 2x2 tables using \>50 mg/L cut off. NPV=98.5%|||
82598775|NCT00487539|164912295|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82598776|NCT00487539|164912295|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82598777|NCT00487539|164912296|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82598778|NCT00487539|164912296|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82598779|NCT00487539|164912297|SUPERIORITY_OR_OTHER|||||||0.0014|||||||Chi-squared|||||||0.0014
82598780|NCT00487539|164912297|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||0.0001
82598781|NCT00487539|164912298|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|on the van der Waerden normal scores||||||<0.0001
82598782|NCT00487539|164912298|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|on the van der Waerden normal scores||||||<0.0001
82499391|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.036|STANDARD_ERROR_OF_MEAN|0.023||||90.0|-0.073|0.002|||ANCOVA|||Extension Month 33; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.002|-0.073|
82598783|NCT00720109|164912320|SUPERIORITY_OR_OTHER_LEGACY||Percentage|40.7|||<|0.001|TWO_SIDED|90.0|30.8|51.4|||Chi-squared|Chi-squared test equivalent to Z-test of proportions.||The a priori plan was to compare MRD positivity rate with that on a prior study, AALL0031 (n=72 Cohorts 1-5 of AALL0031 with 71% MRD positive). Out of 59 patients with end-Induction MRD on AALL0622, 40.7% were MRD positive. Per protocol, rates will be compared with a 2 sample Z-test of proportions, 1-sided test, alpha=5%.||51.4|30.8|<0.001
82598784|NCT00720109|164912321|SUPERIORITY_OR_OTHER_LEGACY||percentage|10.5|||=|0.13|TWO_SIDED|90.0|5.3|19.3|||Binomial Test||The pre-specified threshold for the estimated percentage of MRD positivity at End Consolidation was set to 16%. Results show an upper bound on the (Agresti-Coull) confidence interval of 19.3%.|||19.3|5.3|=0.13
82598785|NCT00866307|164912328|SUPERIORITY_OR_OTHER_LEGACY||Percentage|50.0|||||TWO_SIDED|90.0|35.6|64.4|||Agresti-Coull Confidence Interval|||Per protocol, percentage of high risk-High patients taking less than 49 weeks from day 1 of consolidation to day 1 of maintenance therapy is compared to a null fixed rate (\<=73%). A 90% two-sided Agresti-Coull confidence interval will be constructed and the lower bound examined. Will reject null if lower bound of confidence interval is above 73%.||64.4|35.6|
82598786|NCT00866307|164912329|SUPERIORITY_OR_OTHER_LEGACY||Percentage|53.3|||||TWO_SIDED|90.0|38.7|67.4|||Agresti-Coull Confidence Interval|||Per protocol, percentage receiving at least 8 doses is compared to a null fixed rate (\<=42%). A 90% two-sided Agresti-Coull confidence interval will be constructed. Will reject null if lower bound of confidence interval is above 42%.||67.4|38.7|
82598787|NCT01687712|164912331|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the two-sided 95% CI of the difference in pregnancy rates (Gonal-f® RFF - AFOLIA) did not exceed 8% (i.e. a one-sided hypothesis test at the 2.5% level of significance). The difference in rates (\& Wald CI) was estimated using a logistic regression model with binomial distribution and identity link, with treatment and site as factors.|Risk Difference (RD)|3.7|||||TWO_SIDED|95.0|-1.3|8.7|||||"Note that risk in this context is the risk of clinical pregnancy. The difference is in the direction Gonal-f® RFF - AFOLIA."|"The null and alternative hypotheses are as follows:~H0: p2- p1 \> ∆ and H1: p2- p1 ≤ ∆,~where p1 is the clinical pregnancy rate in the AFOLIA treatment group, p2 is the clinical pregnancy rate in the Gonal f® treatment group, and Δ is the non-inferiority margin of 8%."||8.7|-1.3|
82598788|NCT01687712|164912332|NON_INFERIORITY|Non-inferiority was demonstrated if the upper limit of the two-sided 95% CI of the difference in pregnancy rates (Gonal-f® RFF - AFOLIA) did not exceed 8% (i.e. a one-sided hypothesis test at the 2.5% level of significance). The difference in rates (\& Wald CI) was estimated using a logistic regression model with binomial distribution and identity link, with treatment and site as factors.|Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-2.5|8.1|||||"Note that risk in this context is the risk of clinical pregnancy. The difference is in the direction Gonal-f® RFF - AFOLIA."|"The null and alternative hypotheses are as follows:~H0: p2- p1 \> ∆ and H1: p2- p1 ≤ ∆,~where p1 is the clinical pregnancy rate in the AFOLIA treatment group, p2 is the clinical pregnancy rate in the Gonal f® treatment group, and Δ is the non-inferiority margin of 8%."||8.1|-2.5|
82598789|NCT01687712|164912336|SUPERIORITY|Comparisons were tested against a null of zero at the two-side 5% significance level.||||||0.612||||||P-values are based upon Type III sums of squares.|ANCOVA|Treatment group and Site are included as factors.||"The null and alternative hypotheses are as follows:~H0: p2- p1 = 0 and H1: p2- p1 ≠0,~where p1 is the least squares adjusted mean number of oocytes retrieved in the AFOLIA treatment group and p2 is the least squares adjusted mean number of oocytes retrieved in the Gonal f® treatment group."||||0.612
82598790|NCT04817111|164912357|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82598791|NCT04817111|164912359|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.21|||||||Wilcoxon (Mann-Whitney)|||||||0.21
82598792|NCT04817111|164912360|OTHER|Wilcoxon signed-rank test was used to test if the change from pre- vs. post-test outcome is different from zero.||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82598793|NCT01314716|164912374|SUPERIORITY_OR_OTHER||Differences in least squares mean|4.6||||0.011|TWO_SIDED|95.0|1.1|8.2||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||8.2|1.1|0.011
82598794|NCT01314716|164912375|SUPERIORITY_OR_OTHER||Difference in least squares mean|1.1||||0.56|TWO_SIDED|95.0|-2.7|5.0||P-value was based on T-test from mixed-effect model repeated measures (MMRM).|MMRM|||||5.0|-2.7|0.56
82598795|NCT02392429|164912436|NON_INFERIORITY|we tested the null hypothesis that the NPV of the post-treatment FLT PET/CT scan was less than or equal to the NPV of the day 14 nadir bone marrow biopsy (estimated to be 0.64 by Hussein et al) against the one-sided alternative hypothesis that the NPV was greater than 0.64 using the exact binomial test.|||||>|0.99|||||||binomial exact test|||||||>0.99
82598796|NCT02392429|164912437|NON_INFERIORITY|we tested the null hypothesis that the PPV of the post-treatment FLT PET/CT scan was less than or equal to the PPV of the day 14 nadir bone marrow biopsy (estimated to be 0.79by Hussein et al) against the one-sided alternative hypothesis that the PPV was greater than 0.79 using the exact binomial test.||||||0.06|||||||binomial exact test|||||||0.06
82598797|NCT02392429|164912441|EQUIVALENCE|no margin was assumed||||||0.68|||||||log-rank test|||Kaplan-Meier curves were constructed for the positive and negative scan groups, and the null hypothesis that the survival distributions of the two groups were equal was tested using the log-rank test.||||0.68
82598798|NCT02392429|164912442|EQUIVALENCE|no margin was assumed||||||0.08|||||||log-rank test|||Kaplan-Meier curves were constructed for the positive and negative scan groups, and the null hypothesis that the survival distributions of the two groups were equal was tested using the log-rank test.||||0.08
82598799|NCT06523491|164912443|SUPERIORITY||F value|23.31||||0|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of 1 and 2 NOLTREX courses with placebo was used ANCOVA adjusted for the baseline value with fixed factor of treatment group"||No sample size calculation was performed. In the survey took part 57 patients from the parent study and OLE. The study did not have a formal hypothesis. The between-group comparison of changes from baseline (OLE visit 0) in the WOMAC-T at the end of 12-month follow-up (EOF) visit was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.00
82598800|NCT06523491|164912443|SUPERIORITY||LS-means difference|353.18|STANDARD_ERROR_OF_MEAN|72.27||0|TWO_SIDED|95.0|178.91|527.45||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||527.45|178.91|0.00
82598801|NCT06523491|164912443|SUPERIORITY||LS-means difference|-292.19|STANDARD_ERROR_OF_MEAN|78.04||0|TWO_SIDED|95.0|-480.37|-104.01||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-104.01|-480.37|0.00
82598802|NCT06523491|164912443|SUPERIORITY||LS-means difference|-645.37|STANDARD_ERROR_OF_MEAN|95.68||0|TWO_SIDED|95.0|-876.07|-414.67||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-414.67|-876.07|0.00
82598803|NCT06523491|164912443|SUPERIORITY||F value|23.31||||0|TWO_SIDED|||||The threshold for statistical significance was p \<0.05.|ANCOVA|"To compare the efficacy of 1 and 2 NOLTREX courses with placebo was used ANCOVA adjusted for the baseline value with fixed factor of treatment group"||The between-group comparison of changes from baseline (study 1 visit 1) in the WOMAC-T at visit 5 was conducted using analysis of covariance (ANCOVA) and, as a post hoc test, the Tukey test.||||0.00
82655097|NCT04424407|165025832|OTHER|||||||0.008||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Fear \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.008
82598804|NCT06523491|164912443|SUPERIORITY||LS-means difference|-292.19|STANDARD_ERROR_OF_MEAN|78.04||0|TWO_SIDED|95.0|-480.37|-104.01|||Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-104.01|-480.37|0.00
82598805|NCT06523491|164912443|SUPERIORITY||[LS-means difference|-645.37|STANDARD_ERROR_OF_MEAN|95.68||0|TWO_SIDED|95.0|-876.07|-414.67||Difference between Least-square means was tested at a level of p \<0.05 via Tukey's multiple comparison test.|Tukey's HSD|||Post-hoc pairwise comparisons were performed using Tukey test.||-414.67|-876.07|0.00
82598806|NCT00130832|164912455|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|-0.5|||<|0.001||95.0|-2.2|1.4|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 1||1.4|-2.2|<0.001
82598807|NCT00130832|164912455|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|0.0|||<|0.001||95.0|-1.4|1.6|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 2||1.6|-1.4|<0.001
82598808|NCT00130832|164912455|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve neutralizing antibody titers \[NA\] ≥1:8 greater than -10%.|Seroprotection Rate Difference|-0.1|||<|0.001||95.0|-2.3|2.3|||Miettinen and Nurminen's|Comparing seroprotection rate difference with the non-inferiority margin of 0.10 with Miettinen and Nurminen's method.||Seroprotection rate (proportion of subjects who achieve the seroprotection criteria: neutralizing antibody titers \[NA\] ≥1:8) for poliovirus type 3||2.3|-2.3|<0.001
82598809|NCT00130832|164912456|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the GMT ratio (concomitant group over staggered group) greater than 0.50.|GMT Ratio|0.54||||0.277||95.0|0.42|0.69|||ANOVA|ANOVA model on log titer of serum anti-rotavirus IgA||||0.69|0.42|0.277
82598810|NCT00130832|164912456|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (concomitant group minus staggered group) for subjects who achieve 3-fold rise in serum anti-rotavirus IgA greater than -10%.|Percentage Point Difference|-4.4||||0.002||95.0|-8.0|-1.4|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method.|Percentage point difference (concomitant - staggered)|||-1.4|-8.0|0.002
82598811|NCT04401267|164912474|SUPERIORITY|||||||0.7139|||||||Fisher Exact|||||||0.7139
82598812|NCT05022641|164912488|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||.6
82598813|NCT05022641|164912489|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||.65
82598814|NCT05022641|164912490|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||.02
82598815|NCT05022641|164912491|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.6
82598816|NCT05022641|164912493|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||.6
82598817|NCT03881007|164912494|SUPERIORITY||Incidence rate ratio|1.17||||0.359|TWO_SIDED|95.0|0.84|1.64|||Mixed Models Analysis|||||1.64|0.84|0.359
82598818|NCT03881007|164912495|SUPERIORITY||Incidence rate ratio|5.78||||0.024|TWO_SIDED|95.0|1.52|136.56|||Mixed Models Analysis|||||136.56|1.52|0.024
82598819|NCT03881007|164912496|SUPERIORITY||Incidence rate ratio|1.09||||0.774|TWO_SIDED|95.0|0.61|1.95|||Mixed Models Analysis|||||1.95|0.61|0.774
82598820|NCT03881007|164912497|SUPERIORITY||incidence rate ratio|0.59||||0.323|TWO_SIDED|95.0|0.2|1.63|||Mixed Models Analysis|||||1.63|0.2|0.323
82598821|NCT03881007|164912499|SUPERIORITY||Incidence rate ratio|1.21||||0.279|TWO_SIDED|95.0|0.86|1.72|||Mixed Models Analysis|||||1.72|0.86|0.279
82598822|NCT03124784|164912504|EQUIVALENCE|ARMS\<= 3 %SpO2 Error per International Organization For Standardization (ISO) -80601-2-61 Pilot study Monte Carlo simulation provided 80% Power with 25 subjects for an expected ARMS\< 3 % SpO2.|ARMS|0.0|||||TWO_SIDED|||||||||Accuracy Root Mean Square (ARMS)|Per ISO-80601-2-61, the Root Mean Square difference (SpO2-SaO2) is the measure of merit for desaturation studies.|||
82499907|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0|||||TWO_SIDED|95.0|-9.9|14.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||14.4|-9.9|
82598823|NCT01202656|164912515|SUPERIORITY_OR_OTHER|||||||0.72|||||||Cochran-Mantel-Haenszel|||||||0.72
82598824|NCT01562548|164912526|SUPERIORITY_OR_OTHER||Least Squares Means Difference|-0.21||||0.68|TWO_SIDED|95.0|-1.23|0.8||P-value was associated with t-test for difference of LS means|t-test, 2 sided|The model included factors for treatment (as a fixed effect) and site (as a random effect).|Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was First named treatment - second named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||0.80|-1.23|0.68
82598825|NCT01562548|164912526|SUPERIORITY_OR_OTHER||Least Squares Means Difference|0.35||||0.52|TWO_SIDED|95.0|-0.72|1.42||P-value associated with t-test for difference of LS means|t-test, 2 sided||Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was First named treatment - second named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||1.42|-0.72|0.52
82598826|NCT01562548|164912526|SUPERIORITY_OR_OTHER||Least Squares Means Difference|0.24||||0.58|TWO_SIDED|95.0|-0.64|1.13||P-value associated with t-test for difference of LS means|t-test, 2 sided||Least Square mean from Mixed Model including factors for treatment (as a fixed effect) and site (as a random effect). Difference was Second named treatment - first named treatment|Null hypotheses was tested as: H01: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 600mg and placebo. H02: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and placebo. H03: There was no difference in the mean change from baseline of muscle spasm score between Guaifenesin 1200mg and Guaifenesin 600mg.||1.13|-0.64|0.58
82598827|NCT01764633|164912543|SUPERIORITY||Hazard Ratio (HR)|0.85|||<|0.0001|TWO_SIDED|95.0|0.79|0.92|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|The primary endpoint was compared between treatment groups at a significance level of 0.05.||0.92|0.79|< 0.0001
82598828|NCT01764633|164912544|SUPERIORITY||Hazard Ratio (HR)|0.8|||<|0.0001|TWO_SIDED|95.0|0.73|0.88|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary endpoint reached statistical significance at the 0.05 level, the key secondary endpoint (composite of cardiovascular death, myocardial infarction, and stroke) was tested at a significance level of 0.05.||0.88|0.73|< 0.0001
82598829|NCT01764633|164912545|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.6188|TWO_SIDED|95.0|0.88|1.25|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary and key secondary endpoints reached a statistical significance level of 0.05, then the endpoint of cardiovascular death was tested at a significance level of 0.05.||1.25|0.88|0.6188
82598830|NCT01764633|164912546|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.5368|TWO_SIDED|95.0|0.91|1.19|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints at an overall significant level of 0.01 by applying the Hochberg method.||1.19|0.91|0.5368
82598831|NCT01764633|164912547|SUPERIORITY||Hazard Ratio (HR)|0.73|||<|0.0001|TWO_SIDED|95.0|0.65|0.82|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.82|0.65|< 0.0001
82598832|NCT01764633|164912548|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0101|TWO_SIDED|95.0|0.66|0.95|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.95|0.66|0.0101
82598833|NCT01764633|164912549|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.71|0.86|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.86|0.71|< 0.0001
82598834|NCT01764633|164912550|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.8179|TWO_SIDED|95.0|0.86|1.13|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||1.13|0.86|0.8179
82598835|NCT01764633|164912551|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0035|TWO_SIDED|95.0|0.65|0.92|||Log Rank|Two-sided log-rank test stratified by randomization stratification factors (final screening LDL-C level and region).|Based on a Cox model stratified by the randomization stratification factors.|If the primary, key secondary, and endpoint of cardiovascular death reached a statistical significance level of 0.05, then the endpoint of all-cause death was tested at a significance level of 0.04 and remaining secondary endpoints were tested at an overall significance level of 0.01 by applying the Hochberg method.||0.92|0.65|0.0035
82598836|NCT04781816|164912562|SUPERIORITY||Least Square Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|7.53|||TWO_SIDED|90.0|-18.26|6.85||||||Analysis was performed using mixed model with repeated measurements (MMRM) including fixed effects for baseline CLASI-A, post-baseline visit, geographical region, disease subtype, baseline use of CQ/HCQ, intervention group, visit-by- intervention group interaction, and visit-by-baseline-CLASI-A interaction.||6.85|-18.26|
82598837|NCT01121393|164912582|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on PFS compared with gemcitabine / cisplatin chemotherapy.||||<0.0001
82598838|NCT01121393|164912582|SUPERIORITY||Hazard Ratio (HR)|0.281|||||TWO_SIDED|95.0|0.203|0.389||||||A Cox proportional-hazards model, stratified by EGFR mutation category was used to estimate the hazard ratio (HR) and 95% confidence interval (CI) between the 2 treatment arms.||0.389|0.203|
82598839|NCT01121393|164912583|SUPERIORITY||Odds Ratio (OR)|7.572|||<|0.0001|TWO_SIDED|95.0|4.522|12.679|||Regression, Logistic|||A logistic regression model, stratified by EGFR mutation category was used to compare the objective response rate between the 2 treatment arms.||12.679|4.522|<0.0001
82598840|NCT01121393|164912584|SUPERIORITY||Odds Ratio (OR)|3.843|||<|0.0001|TWO_SIDED|95.0|2.039|7.24|||Regression, Logistic|||stratified for EGFR mutation group||7.240|2.039|<0.0001
82598841|NCT01121393|164912585|SUPERIORITY|||||||0.4013|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on OS compared with gemcitabine / cisplatin chemotherapy.||||0.4013
82598842|NCT01121393|164912585|SUPERIORITY||Hazard Ratio (HR)|0.904|||||TWO_SIDED|95.0|0.715|1.144||||||A Cox proportional hazard model stratified (by EGFR mutation category stratification factor used at randomisation) was used to test the effect of afatinib on OS compared with gemcitabine / cisplatin chemotherapy.||1.144|0.715|
82598843|NCT01121393|164912589|SUPERIORITY||Mean Difference (Final Values)|-13.64|STANDARD_ERROR_OF_MEAN|1.76|<|0.0001|TWO_SIDED|95.0|-17.1|-10.19|||ANCOVA|adjusted for baseline sum of diameters and EGFR mutation group||||-10.19|-17.10|<0.0001
82598844|NCT01121393|164912592|SUPERIORITY|||||||0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||0.0001
82598845|NCT01121393|164912592|SUPERIORITY||Hazard Ratio (HR)|0.458|||||TWO_SIDED|95.0|0.303|0.692||||||Cox proportional hazard model stratified by EGFR mutation group||0.692|0.303|
82598846|NCT01121393|164912593|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||<0.0001
82598847|NCT01121393|164912593|SUPERIORITY||Hazard Ratio (HR)|0.534|||||TWO_SIDED|95.0|0.394|0.724||||||Cox proportional hazard model stratified by EGFR mutation group||0.724|0.394|
82598848|NCT01121393|164912594|SUPERIORITY|||||||0.022|TWO_SIDED||||||Log Rank|||A stratified log-rank test (by the epidermal growth factor receptor (EGFR) mutation category stratification factor used at randomisation) was used to test for the effect of afatinib on HRQOL compared with gemcitabine / cisplatin chemotherapy.||||0.0220
82598849|NCT01121393|164912594|SUPERIORITY||Hazard Ratio (HR)|0.699|||||TWO_SIDED|95.0|0.511|0.956||||||Cox proportional hazard model stratified by EGFR mutation group||0.956|0.511|
82598850|NCT02123485|164912600|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
82598851|NCT00119158|164912616|NON_INFERIORITY_OR_EQUIVALENCE|modified EASI (eczema area severity index) was considered equivalent if p value was greater than \>0.05|||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82598852|NCT04311086|164912661|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
82655098|NCT04424407|165025832|OTHER|||||||0.08||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Threat \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.08
82598853|NCT04311086|164912662|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
82598854|NCT04311086|164912663|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment||||>0.05
82499392|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.079|STANDARD_ERROR_OF_MEAN|0.025||||90.0|-0.121|-0.038|||ANCOVA|||Extension Month 36; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.038|-0.121|
82598855|NCT04311086|164912664|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
82598856|NCT04311086|164912668|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||<|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||<0.05
82598857|NCT04311086|164912669|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||<|0.05|||||||ANCOVA|||||||<0.05
82598858|NCT04311086|164912670|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
82598859|NCT04311086|164912671|OTHER|A propensity score will be estimated for each patient from a multivariable logistic regression model, which is the probability that the patient is in DYSTAL cohort. In this model, the DYSTAL cohort (binary variable) is the outcome variable, and the following covariates will be considered as independent variables for propensity score analysis model: baseline Office and 24-hour ABPM (continuous) SBP and DBP, age (continuous), gender (dichotomous), BMI (continuous), diabetes (dichotomous).|||||>|0.05|||||||ANCOVA|||Comparison to the SPYRAL HTN-OFF MED study (NCT02439749) using a propensity score stratification (sub classification) adjustment.||||>0.05
82598860|NCT01081795|164912699|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.4||||0.1646|TWO_SIDED|95.0|-1.0|0.2||Analysis of covariance (ANCOVA) method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.1646
82598861|NCT01081795|164912699|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.4479|TWO_SIDED|95.0|-0.8|0.4||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.4|-0.8|0.4479
82598862|NCT01081795|164912700|SUPERIORITY_OR_OTHER||LS mean difference|-0.5||||0.1547|TWO_SIDED|95.0|-1.1|0.2||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.1|0.1547
82598863|NCT01081795|164912700|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2624|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.2624
82598864|NCT01081795|164912701|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2464|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.2464
82598865|NCT01081795|164912701|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.3148|TWO_SIDED|95.0|-1.0|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.0|0.3148
82598866|NCT01081795|164912702|SUPERIORITY_OR_OTHER||LS mean difference|0.0||||0.8762|TWO_SIDED|95.0|-0.6|0.5||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.5|-0.6|0.8762
82598867|NCT01081795|164912702|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.3031|TWO_SIDED|95.0|-0.8|0.3||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-0.8|0.3031
82598868|NCT01081795|164912703|SUPERIORITY_OR_OTHER||LS mean difference|-0.3||||0.1145|TWO_SIDED|95.0|-0.7|0.1||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.1|-0.7|0.1145
82598869|NCT01081795|164912703|SUPERIORITY_OR_OTHER||LS mean difference|-0.2||||0.3971|TWO_SIDED|95.0|-0.6|0.2||Month 6: ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-0.6|0.3971
82598870|NCT01081795|164912704|SUPERIORITY_OR_OTHER||LS mean difference|-0.5||||0.1866|TWO_SIDED|95.0|-1.3|0.3||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.3|-1.3|0.1866
82598871|NCT01081795|164912704|SUPERIORITY_OR_OTHER||LS mean difference|-0.6||||0.1507|TWO_SIDED|95.0|-1.4|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.4|0.1507
82598872|NCT01081795|164912706|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.1743|TWO_SIDED|95.0|-1.0|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.1743
82598873|NCT01081795|164912706|SUPERIORITY_OR_OTHER||LS mean difference|-0.4||||0.2165|TWO_SIDED|95.0|-1.0|0.2||ANCOVA method using the treatment group as the factor and using the value obtained during the baseline measurement period as the covariate was used.|ANCOVA|||||0.2|-1.0|0.2165
82655099|NCT04424407|165025832|OTHER|||||||0.49||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Conscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Conscious Anger \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.49
82598874|NCT01081795|164912707|SUPERIORITY_OR_OTHER||Percentage difference|5.1||||0.3083|TWO_SIDED|95.0|-3.8|14.0||Month 6|Fisher Exact|||||14.0|-3.8|0.3083
82598875|NCT01081795|164912707|SUPERIORITY_OR_OTHER||Percentage difference|2.0||||0.7235|TWO_SIDED|95.0|-6.6|10.6||Month 6|Fisher Exact|||||10.6|-6.6|0.7235
82598876|NCT04673786|164912782|EQUIVALENCE|Predefined equivalence margin: -10% to 10%|Treatment difference (%) and 90% CI|2.05|||||TWO_SIDED|90.0|-0.23|4.32|||ANCOVA|Multiple imputation (MI) with the Missing at random (MAR) assumption was applied.||||4.32|-0.23|
82598877|NCT01639872|164912801|SUPERIORITY||difference in treatment means|0.014|STANDARD_ERROR_OF_MEAN|1.62||0.99|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.99
82598878|NCT01639872|164912802|SUPERIORITY||difference in treatment means|-0.32|STANDARD_ERROR_OF_MEAN|0.28||0.25|TWO_SIDED||||||Mixed Models Analysis||We report the estimated coefficient for difference in treatment means in a mixed model and its standard error.|||||.25
82598879|NCT02799069|164912803|NON_INFERIORITY|The sample size of 210 subjects per treatment arm (per protocol set) has a power of at least 90% to establish non-inferiority of BF-200 ALA to Metvix using a non-inferiority margin of -15% and assuming response rates of 70% for both BF-200 ALA and Metvix. The power calculation was based on a one-sided Z-test with continuity correction (unpooled) with a significance level of 0.025.The establishment of non-inferiority was performed for the PP set and verified for robustness on the ITT.|Difference to BF-200 ALA|14.0|||||ONE_SIDED|97.5|5.9||||||||||5.9|
82598880|NCT02799069|164912803|SUPERIORITY||Difference to BF-200 ALA|61.1||||0|TWO_SIDED|95.0|51.2|71.0|||Chi-squared|||"Superiority of BF-200 ALA compared to placebo:~A sample size of 264: 88 patients (BF-200 ALA: placebo) will have a power of more than 90% to establish superiority of BF-200 ALA over placebo, even if very conservative response rates of 65% for the BF-200 ALA group and 40% for placebo are assumed using a chi-square test with continuity correction and a two-sided significance level of 0.05."||71.0|51.2|0.0000
82598881|NCT02799069|164912804|NON_INFERIORITY|The sample size of 210 subjects per treatment arm (per protocol set) has a power of at least 90% to establish non-inferiority of BF-200 ALA to Metvix using a non-inferiority margin of -15% and assuming response rates of 70% for both BF-200 ALA and Metvix. The power calculation was based on a one-sided Z-test with continuity correction (unpooled) with a significance level of 0.025.The establishment of non-inferiority was performed for the PP set and verified for robustness on the ITT.|Difference to BF-200 ALA|14.2|||||ONE_SIDED|97.5|6.0||||||||||6.0|
82598882|NCT02799069|164912804|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|59.4||||0|TWO_SIDED|95.0|48.4|70.4|||Chi-squared|||||70.4|48.4|0.0000
82598883|NCT02799069|164912805|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|72.0||||0|TWO_SIDED|95.0|59.7|84.2|||Chi-squared|||||84.2|59.7|0.0000
82598884|NCT02799069|164912805|SUPERIORITY_OR_OTHER||Difference to BF-200 ALA|17.3|||||ONE_SIDED|97.5|6.6||||||||||6.6|
82598885|NCT01110200|164912852|SUPERIORITY_OR_OTHER||Treatment comparison ratio|0.917||||0.71|TWO_SIDED|95.0|0.581|1.447|||Negative bionomial regression model||Annualized rate estimates, the treatment comparison ratio, the confidence interval, and the p-value are from a negative binomial regression model with terms for treatment, country, randomization stratum, baseline severity, and time on treatment.|||1.447|0.581|0.710
82598886|NCT01844895|164912871|SUPERIORITY_OR_OTHER||geometric mean ratio|0.91|||||TWO_SIDED|90.0|0.83|1.0||||||A mixed-effect model of log (Cminss) with device and substudy baseline weight category (\< 60 kg,60-100 kg, \> 100 kg) as fixed effects and participant as a random effect was used. Point estimates and 90% CIs for device differences on the log scale were exponentiated to obtain estimates for ratios of geometric means on the original scale. No adjustment was made for multiplicity. PK comparability was concluded if the 90% CIs for the ratios of geometric means were contained within 80% to 125%.||1.00|0.83|
82598887|NCT02508194|164912877|SUPERIORITY||Vaccine efficacy|-7.1|||||TWO_SIDED|90.0|-106.9|44.3|||||The CI was estimated by an exact conditional method.|2 sided 90 percent (%) confidence interval (CI) was used to compare vaccine efficacy (VE). VE = (\[1 - relative risk (RR)\] \*100%), where RR was the RR of ARA-RI in the MEDI7510 group compared with the placebo group. A lower bound of the 90% CI greater than (\>) 0% would demonstrate the efficacy of MEDI7510.||44.3|-106.9|
82598888|NCT00511355|164912894|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0849||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0849
82598889|NCT00511355|164912896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598890|NCT00511355|164912897|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4191||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.4191
82598891|NCT00511355|164912898|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0010
82598892|NCT00511355|164912902|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3779||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.3779
82598893|NCT00511355|164912903|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5027||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.5027
82598894|NCT00511355|164912904|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0041||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0041
82598895|NCT00511355|164912905|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9662||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.9662
82598896|NCT00511355|164912906|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0004
82598897|NCT00511355|164912907|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0019
82598898|NCT00511355|164912908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9662||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.9662
82598899|NCT00511355|164912909|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0187||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0187
82598900|NCT00511355|164912910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598901|NCT00511355|164912911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6886||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.6886
82598902|NCT00511355|164912912|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598903|NCT00511355|164912913|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598904|NCT00511355|164912914|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0083||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0083
82598905|NCT00511355|164912915|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0455||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0455
82598906|NCT00511355|164912916|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0063||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0063
82598907|NCT00511355|164912917|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598908|NCT00511355|164912918|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82655100|NCT04424407|165025833|OTHER|||||||0.99||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Nonconscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Nonconscious Fear \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.99
82655101|NCT04424407|165025833|OTHER|||||||0.99||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (3) in the Nonconscious Faces task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Nonconscious Threat \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.99
82598909|NCT00511355|164912919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0078
82598910|NCT00511355|164912920|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0016||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0016
82598911|NCT00511355|164912921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0003
82598912|NCT00511355|164912922|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0009
82598913|NCT00511355|164912923|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0024||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.0024
82598914|NCT00511355|164912924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3653||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.3653
82598915|NCT00511355|164912925|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598916|NCT00511355|164912926|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598917|NCT00511355|164912927|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5668||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.5668
82598918|NCT00511355|164912928|SUPERIORITY_OR_OTHER_LEGACY|||||||0.177||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||0.1770
82598919|NCT00511355|164912929|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||No correction for multiple testing was made.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusted for age class applied on the changes from baseline.||P-value compares the change from baseline to Cycle 6 between treatment groups.||||<.0001
82598920|NCT00217087|164912950|SUPERIORITY_OR_OTHER|||||||0.0098|TWO_SIDED||||||Fisher Exact|||||||0.0098
82598921|NCT00217087|164912951|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Chi-squared|||||||0.34
82598922|NCT00217087|164912952|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Chi-squared|the only participant who reported a decrease quality of life related that to a recent surgery not their esophagus.||||||0.2
82598923|NCT00802685|164912953|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0|STANDARD_DEVIATION|8.0||0.858|TWO_SIDED|95.0|4.0|36.0|||Wilcoxon (Mann-Whitney)|||Null hypothesis: Oxygen duration (days) during the first 28 days will be equal between treatment arms.||36|4|0.858
82598924|NCT00802685|164912954|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.953||||0.8|TWO_SIDED|95.0|0.393|2.309|||Cochran-Mantel-Haenszel|||null hypothesis: The proportion of subjects on O2 at 36 wk PMA will be equal between treatment arms.||2.309|0.393|0.8
82598925|NCT03208231|164912955|SUPERIORITY|||||||0.79|||||||Fisher Exact|||||||0.79
82598926|NCT03208231|164912956|SUPERIORITY|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82598927|NCT06232317|164912991|SUPERIORITY|||||||0.61|||||||Kruskal-Wallis|||||||0.61
82598928|NCT06232317|164912992|SUPERIORITY|||||||0.014|||||||Kruskal-Wallis|||||||0.014
82598929|NCT06232317|164912997|SUPERIORITY|||||||0.011|||||||Fisher Exact|||||||0.011
82598930|NCT01250379|164913070|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0204|TWO_SIDED|95.0|0.65|0.97|||Log Rank||The 95% confidence interval (CI) was estimated using Cox proportional hazards methodology. The stratification factors used in the analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and lactate dehydrogenase (LDH) level.|||0.97|0.65|0.0204
82598931|NCT01250379|164913070|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0245|TWO_SIDED|95.0|0.67|0.97|||Log Rank||Unstratified analysis.|||0.97|0.67|0.0245
82598932|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59||||0.0088|TWO_SIDED|95.0|0.4|0.88|||Log Rank|||Subgroup analysis: HR-neg||0.88|0.40|0.0088
82598933|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.1196|TWO_SIDED|95.0|0.67|1.05|||Log Rank|||Subgroup analysis: HR-pos/HER-neg||1.05|0.67|0.1196
82598934|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.011|TWO_SIDED|95.0|0.43|0.9|||Log Rank|||Subgroup analysis: PFS \<6 months||0.90|0.43|0.0110
82598935|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0816|TWO_SIDED|95.0|0.65|1.03|||Log Rank|||Subgroup analysis: PFS ≥6 months||1.03|0.65|0.0816
82598936|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.0395|TWO_SIDED|95.0|0.31|0.98|||Log Rank|||Subgroup analysis: taxane chemo||0.98|0.31|0.0395
82598937|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.1385|TWO_SIDED|95.0|0.68|1.06|||Log Rank|||Subgroup analysis: non-taxane chemo||1.06|0.68|0.1385
82598938|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.41||||0.0029|TWO_SIDED|95.0|0.22|0.75|||Log Rank|||Subgroup analysis: vinorelbine chemo||0.75|0.22|0.0029
82598939|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0171|TWO_SIDED|95.0|0.62|0.96|||Log Rank|||Subgroup analysis: LDH ≤ 1.5 ULN||0.96|0.62|0.0171
82598940|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1797|TWO_SIDED|95.0|0.46|1.16|||Log Rank|||Subgroup analysis: LDH \> 1.5 ULN||1.16|0.46|0.1797
82598941|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.0229|TWO_SIDED|95.0|0.62|0.97|||Log Rank|||Subgroup analysis: \< 65 years of age||0.97|0.62|0.0229
82598942|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.2139|TWO_SIDED|95.0|0.51|1.16|||Log Rank|||Subgroup analysis: ≥ 65 years of age||1.16|0.51|0.2139
82598943|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.0021|TWO_SIDED|95.0|0.59|0.89|||Log Rank|||Subgroup analysis: \< 70 years of age||0.89|0.59|0.0021
82598944|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.5216|TWO_SIDED|95.0|0.64|2.39|||Log Rank|||Subgroup analysis: ≥ 70 years of age||2.39|0.64|0.5216
82598945|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.0148|TWO_SIDED|95.0|0.58|0.94|||Log Rank|||Subgroup analysis: \< 3 metastatic organ sites||0.94|0.58|0.0148
82598946|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.3102|TWO_SIDED|95.0|0.61|1.17|||Log Rank|||Subgroup analysis: ≥ 3 metastatic organ sites||1.17|0.61|0.3102
82598947|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0967|TWO_SIDED|95.0|0.64|1.04|||Log Rank|||Subgroup analysis: B-free ≤ 6 weeks||1.04|0.64|0.0967
82598948|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.0489|TWO_SIDED|95.0|0.51|1.0|||Log Rank|||Subgroup analysis: B-free \> 6 weeks||1.00|0.51|0.0489
82598949|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0176|TWO_SIDED|95.0|0.41|0.92|||Log Rank|||Subgroup analysis: D-free ≤ 24 months||0.92|0.41|0.0176
82598950|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.2318|TWO_SIDED|95.0|0.66|1.11|||Log Rank|||Subgroup analysis: D-free \> 24 months||1.11|0.66|0.2318
82598951|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0568|TWO_SIDED|95.0|0.26|1.03|||Log Rank|||Subgroup analysis: D-free ≤ 12 months||1.03|0.26|0.0568
82598952|NCT01250379|164913071|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.1143|TWO_SIDED|95.0|0.66|1.05|||Log Rank|||Subgroup analysis: D-free \> 12 months||1.05|0.66|0.1143
82598953|NCT01250379|164913072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.3457|TWO_SIDED|95.0|-4.2|12.4|||Chi-squared||The 95% CI was estimated using Hauck-Anderson methodology.|||12.4|-4.2|0.3457
82598954|NCT01250379|164913074|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9825|TWO_SIDED|95.0|0.51|1.99|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.99|0.51|0.9825
82598955|NCT01250379|164913074|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.3601|TWO_SIDED|95.0|0.73|2.34|||Log Rank||Unstratified analysis.|||2.34|0.73|0.3601
82491952|NCT01153347|164677214|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76|STANDARD_ERROR_OF_MEAN|0.2||0.308|TWO_SIDED|95.0|0.45|1.29|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.29|0.45|0.308
82491953|NCT01153347|164677215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|STANDARD_ERROR_OF_MEAN|0.4||0.905|TWO_SIDED|95.0|0.42|2.15|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.15|0.42|0.905
82491954|NCT01153347|164677215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93|STANDARD_ERROR_OF_MEAN|0.39||0.864|TWO_SIDED|95.0|0.41|2.14|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.14|0.41|0.864
82491955|NCT01153347|164677215|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98|STANDARD_ERROR_OF_MEAN|0.42||0.958|TWO_SIDED|95.0|0.43|2.25|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.25|0.43|0.958
82491956|NCT01153347|164677216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91|STANDARD_ERROR_OF_MEAN|0.3||0.778|TWO_SIDED|95.0|0.48|1.73|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.73|0.48|0.778
82491957|NCT01153347|164677216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22|STANDARD_ERROR_OF_MEAN|0.38||0.532|TWO_SIDED|95.0|0.66|2.24|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.24|0.66|0.532
82491958|NCT01153347|164677216|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85|STANDARD_ERROR_OF_MEAN|0.29||0.633|TWO_SIDED|95.0|0.44|1.64|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||1.64|0.44|0.633
82491959|NCT01153347|164677217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.42||0.949|TWO_SIDED|95.0|0.46|2.31|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.31|0.46|0.949
82491960|NCT01153347|164677217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.57|STANDARD_ERROR_OF_MEAN|0.62||0.253|TWO_SIDED|95.0|0.72|3.4|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||3.40|0.72|0.253
82491961|NCT01153347|164677217|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88|STANDARD_ERROR_OF_MEAN|0.39||0.763|TWO_SIDED|95.0|0.37|2.08|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization MADRS total score as a covariate.||2.08|0.37|0.763
82491962|NCT01153347|164677218|SUPERIORITY_OR_OTHER||LS mean|-1.0|STANDARD_ERROR_OF_MEAN|0.78||0.207|TWO_SIDED|95.0|-2.51|0.55|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.55|-2.51|0.207
82598956|NCT01250379|164913077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.108|TWO_SIDED|95.0|0.59|1.06|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.06|0.59|0.1080
82491963|NCT01153347|164677218|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.78||0.427|TWO_SIDED|95.0|-2.16|0.91|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.91|-2.16|0.427
82491964|NCT01153347|164677218|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.78||0.591|TWO_SIDED|95.0|-1.96|1.12|||ANCOVA|||Analysis of covariance (ANCOVA) with randomization HAMD-17 total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.12|-1.96|0.591
82491965|NCT01153347|164677219|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.551||95.0|-0.34|0.18|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.18|-0.34|0.551
82491966|NCT01153347|164677219|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.487|TWO_SIDED|95.0|-0.36|0.17|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.17|-0.36|0.487
82491967|NCT01153347|164677219|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.14||0.78|TWO_SIDED|95.0|-0.23|0.31|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization CGI-S total score as a covariate. Treatment, visit, and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.31|-0.23|0.780
82491968|NCT01153347|164677220|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|STANDARD_ERROR_OF_MEAN|0.23||0.908|TWO_SIDED|95.0|0.62|1.53|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.53|0.62|0.908
82491969|NCT01153347|164677220|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06|STANDARD_ERROR_OF_MEAN|0.24||0.803|TWO_SIDED|95.0|0.67|1.67|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.67|0.67|0.803
82491970|NCT01153347|164677220|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65|STANDARD_ERROR_OF_MEAN|0.15||0.066|TWO_SIDED|95.0|0.41|1.03|||Regression, Logistic||TC-5214 is the numerator in the OR, OR\>1 represents a result in favor of TC-5214.|Logistic regression model including treatment and pooled center as fixed effects and the randomization Clinical Global Impression Severity (CGI-S) as a covariate.||1.03|0.41|0.066
82491971|NCT01153347|164677221|SUPERIORITY_OR_OTHER||LS mean|-0.82|STANDARD_ERROR_OF_MEAN|0.645||0.202|TWO_SIDED|95.0|-2.091|0.442|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.442|-2.091|0.202
82491972|NCT01153347|164677221|SUPERIORITY_OR_OTHER||LS mean|-0.22|STANDARD_ERROR_OF_MEAN|0.647||0.738|TWO_SIDED|95.0|-1.487|1.055|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.055|-1.487|0.738
82598957|NCT01250379|164913077|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0625|TWO_SIDED|95.0|0.59|1.02|||Log Rank||Unstratified analysis.|||1.02|0.59|0.0625
82598958|NCT01250379|164913079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.1349|TWO_SIDED|95.0|0.68|1.05|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.05|0.68|0.1349
82598959|NCT01250379|164913079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0863|TWO_SIDED|95.0|0.68|1.03|||Log Rank||Unstratified analysis.|||1.03|0.68|0.0863
82491973|NCT01153347|164677221|SUPERIORITY_OR_OTHER||LS mean|-0.51|STANDARD_ERROR_OF_MEAN|0.65||0.433|TWO_SIDED|95.0|-1.787|0.767|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization HAM-A total score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.767|-1.787|0.433
82491974|NCT01153347|164677222|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.61||0.097|TWO_SIDED|95.0|-0.18|2.22|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-0.18|0.097
82491975|NCT01153347|164677222|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.882|TWO_SIDED|95.0|-1.29|1.11|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.11|-1.29|0.882
82491976|NCT01153347|164677222|SUPERIORITY_OR_OTHER||LS mean|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.1|TWO_SIDED|95.0|-0.19|2.23|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.23|-0.19|0.100
82491977|NCT01153347|164677223|SUPERIORITY_OR_OTHER||LS mean|0.8|STANDARD_ERROR_OF_MEAN|0.74||0.303|TWO_SIDED|95.0|-0.69|2.22|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.22|-0.69|0.303
82491978|NCT01153347|164677223|SUPERIORITY_OR_OTHER||LS mean|0.2|STANDARD_ERROR_OF_MEAN|0.74||0.793|TWO_SIDED|95.0|-1.26|1.65|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.65|-1.26|0.793
82491979|NCT01153347|164677223|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.75||0.762|TWO_SIDED|95.0|-1.7|1.25|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.25|-1.70|0.762
82491980|NCT01153347|164677224|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|0.91||0.339|TWO_SIDED|95.0|-2.65|0.92|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.92|-2.65|0.339
82491981|NCT01153347|164677224|SUPERIORITY_OR_OTHER||LS mean|-0.9|STANDARD_ERROR_OF_MEAN|0.91||0.321|TWO_SIDED|95.0|-2.7|0.89|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.89|-2.70|0.321
82491982|NCT01153347|164677224|SUPERIORITY_OR_OTHER||LS mean|-0.4|STANDARD_ERROR_OF_MEAN|0.92||0.68|TWO_SIDED|95.0|-2.2|1.43|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.43|-2.20|0.680
82491983|NCT01153347|164677225|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.97||0.737|TWO_SIDED|95.0|-2.23|1.58|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects the model; pooled center is a random effect.||1.58|-2.23|0.737
82491984|NCT01153347|164677225|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.98||0.547|TWO_SIDED|95.0|-2.52|1.33|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.33|-2.52|0.547
82598960|NCT01250379|164913081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0744|TWO_SIDED|95.0|0.65|1.02|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.02|0.65|0.0744
82598961|NCT01250379|164913081|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0503|TWO_SIDED|95.0|0.66|1.0|||Log Rank||Unstratified analysis.|||1.00|0.66|0.0503
82655102|NCT04424407|165025834|OTHER|||||||0.65||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (2) in the Emotion Regulation Scenes task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Emotion Regulation Scenes task Negative \> Neutral amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.65
82491985|NCT01153347|164677225|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.99||0.953|TWO_SIDED|95.0|-1.89|2.01|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization MADRS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.01|-1.89|0.953
82491986|NCT01153347|164677226|SUPERIORITY_OR_OTHER||LS mean|-0.6|STANDARD_ERROR_OF_MEAN|0.746||1|TWO_SIDED|95.0|-2.069|0.864||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.864|-2.069|1.000
82491987|NCT01153347|164677226|SUPERIORITY_OR_OTHER||LS mean|-0.52|STANDARD_ERROR_OF_MEAN|0.755||1|TWO_SIDED|95.0|-2.004|0.96||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.960|-2.004|1.000
82491988|NCT01153347|164677226|SUPERIORITY_OR_OTHER||LS mean|0.4|STANDARD_ERROR_OF_MEAN|0.761||1|TWO_SIDED|95.0|-1.095|1.896||The adjusted p-value protects the overall family-wise error rate by taking into account the multiple comparisons between the TC-5214 doses for both the primary efficacy variable (MADRS) and the key secondary efficacy variable (SDS).|MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SDS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.896|-1.095|1.000
82491989|NCT01153347|164677227|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.29||0.953|TWO_SIDED|95.0|-0.56|0.59|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.59|-0.56|0.953
82491990|NCT01153347|164677227|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.868|TWO_SIDED|95.0|-0.64|0.54|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.54|-0.64|0.868
82491991|NCT01153347|164677227|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.3||0.792|TWO_SIDED|95.0|-0.5|0.66|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS work/school domain score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.66|-0.50|0.792
82491992|NCT01153347|164677228|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.915|TWO_SIDED|95.0|-0.54|0.48|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.48|-0.54|0.915
82491993|NCT01153347|164677228|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.972|TWO_SIDED|95.0|-0.51|0.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.53|-0.51|0.972
82491994|NCT01153347|164677228|SUPERIORITY_OR_OTHER||LS mean|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.237|TWO_SIDED|95.0|-0.21|0.84|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS social life domain score. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.84|-0.21|0.237
82491995|NCT01153347|164677229|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.213|TWO_SIDED|95.0|-0.87|0.19|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.19|-0.87|0.213
82491996|NCT01153347|164677229|SUPERIORITY_OR_OTHER||LS mean|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.343|TWO_SIDED|95.0|-0.8|0.28|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.28|-0.80|0.343
82491997|NCT01153347|164677229|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.28||0.971|TWO_SIDED|95.0|-0.55|0.53|||MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization SDS family life/home responsibilities domain score. Treatment, visit and treatment by visit interaction are effects in the model; pooled center is a random effect.||0.53|-0.55|0.971
82491998|NCT01153347|164677230|SUPERIORITY_OR_OTHER||LS mean|2.1|STANDARD_ERROR_OF_MEAN|1.694||0.215|TWO_SIDED|95.0|-1.224|5.431|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||5.431|-1.224|0.215
82598962|NCT01250379|164913084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.7253|TWO_SIDED|95.0|0.76|1.21|||Log Rank||The 95% CI was estimated using Cox proportional hazards methodology. The stratification factors used in stratified analysis were hormone receptor status, first-line PFS, choice of chemotherapy, and LDH level.|||1.21|0.76|0.7253
82598963|NCT01250379|164913084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5332|TWO_SIDED|95.0|0.75|1.16|||Log Rank||Unstratified analysis.|||1.16|0.75|0.5332
82598964|NCT01327157|164913121|EQUIVALENCE|The comparison among the groups, from the results obtained by the Visual Analog Scale (VAS), was done through analysis of variance models (ANOVA) with two factors.|Mean Difference (Net)|0.5||||0.524|TWO_SIDED|||||Statistical significance was considered for values of p \<0.05 and it was used The Minitab statistical software, version 15.1 to obtain the results.|t-test, 1 sided|The comparison between the groups in each study period (initial) was done through the t-test for two independent samples.||"We assessed the quality of oral functions in the first query to check the status of discomfort before treatment in both groups, using VAS..~Statistical significance was considered for values of p \<0.05 and it was used The Minitab statistical software, version 15.1 to obtain the results"||||0.524
82598965|NCT01327157|164913122|EQUIVALENCE|"Only the treatment group was analysed. The dental contacts were evaluated in models and gnathostats demarcated after the points were counted in the models before and after treatment If an increase in the number of dental contacts after occlusal adjustment was detected, in relation of the models.~The models are made in the first and last query, after four visits with one month interval between them."|Mean Difference (Net)|5.0|STANDARD_DEVIATION|3.92|<|0.001|TWO_SIDED||||||t-test, 2 sided|||The brand carbon mark was done on the treatment group in the first and last query.||||<0.001
82598966|NCT01327157|164913123|EQUIVALENCE|The comparison among the groups, from the results obtained by the Visual Analog Scale (VAS), was done through analysis of variance models (ANOVA) with two factors. The comparison among the groups, in each period of the study (initial and final) was done through t test for two independent samples.|Mean Difference (Net)|2.4|STANDARD_DEVIATION|1.44||0.002|TWO_SIDED||||||t-test, 2 sided|||"We assessed the quality of oral functions in the last query to check the status of discomfort after ninety days in both groups, control and treatment, using VAS.~The statistical significance was considered to p\<0.05 values and it was used the Minitab statistics software, 15.1 version, to get the results."||||0.002
82598967|NCT01327157|164913124|OTHER|||||||0.705|||||||t-test, 1 sided|||||||0.705
82598968|NCT01327157|164913125|OTHER|||||||0.01|||||||t-test, 1 sided|||||||0.01
82598969|NCT04183335|164913140|SUPERIORITY||Odds Ratio (OR)|6.5|||<|0.0001|TWO_SIDED|95.0|2.78|15.41||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when primary outcome measure was statistically significant at two-sided 0.05.||15.41|2.78|<0.0001
82491999|NCT01153347|164677230|SUPERIORITY_OR_OTHER||LS mean|0.72|STANDARD_ERROR_OF_MEAN|1.702||0.673|TWO_SIDED|95.0|-2.624|4.062|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||4.062|-2.624|0.673
82492000|NCT01153347|164677230|SUPERIORITY_OR_OTHER||LS mean|-1.88|STANDARD_ERROR_OF_MEAN|1.716||0.275|TWO_SIDED|95.0|-5.248|1.494|||ANCOVA|||ANCOVA with randomization Q-LES-Q-SF % maximum total score as covariate, treatment as a fixed effect and pooled center as a random effect.||1.494|-5.248|0.275
82492001|NCT01153347|164677231|SUPERIORITY_OR_OTHER||LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.412|TWO_SIDED|95.0|-0.28|0.11|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.11|-0.28|0.412
82492002|NCT01153347|164677231|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.928|TWO_SIDED|95.0|-0.19|0.21|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||0.21|-0.19|0.928
82492003|NCT01153347|164677231|SUPERIORITY_OR_OTHER||LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.033|TWO_SIDED|95.0|-0.42|-0.02|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 15 score as covariate, treatment as a fixed effect and pooled center as a random effect.||-0.02|-0.42|0.033
82492004|NCT01153347|164677232|SUPERIORITY_OR_OTHER||LS mean|0.1|STANDARD_ERROR_OF_MEAN|0.1||0.353|TWO_SIDED|95.0|-0.1|0.28|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.28|-0.10|0.353
82492005|NCT01153347|164677232|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.721|TWO_SIDED|95.0|-0.16|0.23|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.23|-0.16|0.721
82492006|NCT01153347|164677232|SUPERIORITY_OR_OTHER||LS mean|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.666|TWO_SIDED|95.0|-0.24|0.15|||ANCOVA|||An analysis of covariance (ANCOVA) with randomization Q-LES-Q-SF item 16 as a fixed effect and pooled center as a random effect.||0.15|-0.24|0.666
82492007|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|-0.006|STANDARD_ERROR_OF_MEAN|0.0201||0.747|TWO_SIDED|95.0|-0.0459|0.0329||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0329|-0.0459|0.747
82492008|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|-0.013|STANDARD_ERROR_OF_MEAN|0.0203||0.524|TWO_SIDED|95.0|-0.0529|0.027||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0270|-0.0529|0.524
82498974|NCT02289417|164688929|SUPERIORITY||Stratified Difference|14.6||||0.1224|TWO_SIDED|95.0|-3.6|31.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||31.5|-3.6|0.1224
82655103|NCT04424407|165025834|OTHER|||||||0.65||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of contrasts (2) in the Emotion Regulation Scenes task. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of Emotion Regulation Scenes task Look Negative \> Decrease Negative amygdala reactivity was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.65
82598970|NCT04183335|164913141|SUPERIORITY||Odds Ratio (OR)|4.0||||0.0004|TWO_SIDED|95.0|1.81|8.98||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||8.98|1.81|0.0004
82598971|NCT04183335|164913142|SUPERIORITY||Odds Ratio (OR)|6.9|||<|0.0001|TWO_SIDED|95.0|2.49|19.05||Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||19.05|2.49|<0.0001
82598972|NCT04183335|164913143|SUPERIORITY||LS mean difference|-26.67|||<|0.0001|TWO_SIDED|95.0|-38.44|-14.9||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-14.90|-38.44|<0.0001
82598973|NCT04183335|164913144|SUPERIORITY||Least square mean difference|-6.19|||<|0.0001|TWO_SIDED|95.0|-8.34|-4.05||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-4.05|-8.34|<0.0001
82598974|NCT04183335|164913145|SUPERIORITY||Least square mean difference|-2.17|||<|0.0001|TWO_SIDED|95.0|-3.07|-1.28||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-1.28|-3.07|<0.0001
82598975|NCT04183335|164913146|SUPERIORITY||Least square mean difference|-2.6||||0.0082|TWO_SIDED|95.0|-4.52|-0.67||Threshold of significance at 0.05.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-0.67|-4.52|0.0082
82598976|NCT04183335|164913154|SUPERIORITY||LS mean difference|-0.7||||0.0119|TWO_SIDED|95.0|-1.25|-0.15||Threshold of significance at \<0.05 level.|ANCOVA||Dupilumab 300 mg Q2W versus Placebo|||-0.15|-1.25|0.0119
82598977|NCT00741156|164913168|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.09
82598978|NCT02944448|164913196|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.7093|TWO_SIDED|95.0|-0.4|0.5|||Mixed Models Analysis|||||0.5|-0.4|0.7093
82598979|NCT02944448|164913197|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.6007|TWO_SIDED|95.0|-13.1|7.6|||Mixed Models Analysis|||||7.6|-13.1|0.6007
82598980|NCT02944448|164913198|SUPERIORITY||Median Difference (Final Values)|-0.8||||0.4563|TWO_SIDED|95.0|-3.0|1.4|||Mixed Models Analysis|||||1.4|-3.0|0.4563
82598981|NCT02944448|164913199|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.8693|TWO_SIDED|95.0|-1.0|0.8|||Mixed Models Analysis|||||0.8|-1.0|0.8693
82598982|NCT02944448|164913200|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.6516|TWO_SIDED|95.0|-9.1|5.7|||Mixed Models Analysis|||||5.7|-9.1|0.6516
82598983|NCT02944448|164913201|SUPERIORITY||Odds Ratio (OR)|0.7||||0.1033|TWO_SIDED|95.0|0.5|1.1|||Regression, Logistic|Logistic regression, including treatment, baseline weekly pain score, and OA joint as independent variables.|Ratio between treatment odds of achieving a treatment response.|||1.1|0.5|0.1033
82598984|NCT02944448|164913202|SUPERIORITY||Odds Ratio (OR)|0.8||||0.2831|TWO_SIDED|95.0|0.5|1.2|||Regression, Logistic|Logistic regression, including treatment, baseline weekly pain score, and OA joint as independent variables.|Ratio between treatment odds of achieving a treatment response.|||1.2|0.5|0.2831
82598985|NCT02944448|164913203|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1959|TWO_SIDED|95.0|0.9|2.0|||Regression, Logistic|Logistic regression with treatment as a main effect and OA joint as a covariate.|"Ratio between treatment odds of having a PGIC of Very Much Improved or Much Improved."|||2.0|0.9|0.1959
82598986|NCT02944448|164913204|SUPERIORITY|||||||0.2858|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum test stratified by Primary OA joint (Hip or Knee) and Baseline Week Mean of the Daily NRS (\<6.7 or \>=6.7) (Van Elteren test).||||||0.2858
82598987|NCT02944448|164913205|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8002|TWO_SIDED|95.0|0.3|2.7|||Regression, Logistic|Logistic regression, including treatment, baseline pain score, and OA joint as independent variables.|Ratio between treatment odds of withdrawing from treatment due to lack of analgesic efficacy.|||2.7|0.3|0.8002
82598988|NCT02889796|164913246|SUPERIORITY||Difference in Response Rates|26.7|||<|0.001|TWO_SIDED|95.0|20.6|32.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||32.8|20.6|<0.001
82598989|NCT02889796|164913246|SUPERIORITY||Difference in Response Rates|19.9|||<|0.001|TWO_SIDED|95.0|13.6|26.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||26.2|13.6|<0.001
82499393|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.038||||90.0|-0.124|0.003|||ANCOVA|||Extension Month 39; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.003|-0.124|
82598990|NCT02889796|164913247|SUPERIORITY||Least Squares Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.36|-0.22||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|Mixed effects model for repeated measure|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from mixed effects model for repeated measures (MMRM). Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.22|-0.36|<0.001
82598991|NCT02889796|164913247|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.24|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.10|-0.24|<0.001
82598992|NCT02889796|164913248|SUPERIORITY||Difference in Response Rates|24.8|||<|0.001|TWO_SIDED|95.0|19.6|30.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||30.0|19.6|<0.001
82598993|NCT02889796|164913248|SUPERIORITY||Difference in Response Rates|14.5|||<|0.001|TWO_SIDED|95.0|9.7|19.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||19.3|9.7|<0.001
82598994|NCT02889796|164913248|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 using non-responder imputation (NRI).|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 12.||||<0.001
82598995|NCT02889796|164913248|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 using NRI.||||||0.002||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 12.||||0.002
82598996|NCT02889796|164913248|SUPERIORITY||Difference in Response Rates|10.4||||0.001|TWO_SIDED|95.0|3.9|17.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 12.||17.0|3.9|0.001
82598997|NCT02889796|164913248|SUPERIORITY||Difference in Response Rates|0.1||||0.99|TWO_SIDED|95.0|-6.2|6.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 12.||6.3|-6.2|0.99
82598998|NCT02889796|164913249|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.078|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.43|<0.001
82598999|NCT02889796|164913249|SUPERIORITY||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.078||0.001|TWO_SIDED|95.0|-0.4|-0.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.10|-0.40|0.001
82599000|NCT02889796|164913250|SUPERIORITY||Difference in Response Rates|26.3|||<|0.001|TWO_SIDED|95.0|20.2|32.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||32.4|20.2|<0.001
82599001|NCT02889796|164913250|SUPERIORITY||Difference in Response Rates|15.4|||<|0.001|TWO_SIDED|95.0|9.4|21.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||21.4|9.4|<0.001
82599002|NCT02889796|164913250|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) ≤ 3.2 using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 12||||<0.001
82599003|NCT02889796|164913250|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) ≤ 3.2 using NRI.||||||0.054||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 12||||0.054
82599004|NCT02889796|164913250|SUPERIORITY||Difference in Response Rates|6.3||||0.069|TWO_SIDED|95.0|-1.0|13.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 12||13.6|-1.0|0.069
82599005|NCT02889796|164913250|SUPERIORITY||Difference in Response Rates|-4.6||||0.18|TWO_SIDED|95.0|-11.8|2.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 12||2.6|-11.8|0.18
82499908|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7|||||TWO_SIDED|95.0|-15.5|10.7|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||10.7|-15.5|
82599006|NCT02889796|164913251|SUPERIORITY||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|0.47|<|0.001|TWO_SIDED|95.0|2.8|4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.6|2.8|<0.001
82599007|NCT02889796|164913251|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.46|<|0.001|TWO_SIDED|95.0|2.2|4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.0|2.2|<0.001
82599008|NCT02889796|164913252|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|1.7|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.7|<0.001
82599009|NCT02889796|164913252|SUPERIORITY||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|1.5|3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.7|1.5|<0.001
82599010|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|8.0|||<|0.001|TWO_SIDED|95.0|5.1|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||10.9|5.1|<0.001
82599011|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|4.8|||<|0.001|TWO_SIDED|95.0|2.3|7.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||7.3|2.3|<0.001
82599012|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|16.4|||<|0.001|TWO_SIDED|95.0|11.9|20.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||20.9|11.9|<0.001
82599013|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|7.0|||<|0.001|TWO_SIDED|95.0|3.1|10.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||10.9|3.1|<0.001
82599014|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|27.4|||<|0.001|TWO_SIDED|95.0|21.4|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||33.3|21.4|<0.001
82599015|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|16.7|||<|0.001|TWO_SIDED|95.0|10.9|22.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||22.5|10.9|<0.001
82599016|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|24.6|||<|0.001|TWO_SIDED|95.0|18.3|31.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||31.0|18.3|<0.001
82599017|NCT02889796|164913253|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||25.8|13.1|<0.001
82599018|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|2.3||||0.008|TWO_SIDED|95.0|0.5|4.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||4.1|0.5|0.008
82599019|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|0.8||||0.18|TWO_SIDED|95.0|-0.5|2.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||2.2|-0.5|0.18
82599020|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|7.6|||<|0.001|TWO_SIDED|95.0|4.6|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||10.6|4.6|<0.001
82599021|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|1.9||||0.067|TWO_SIDED|95.0|-0.3|4.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||4.0|-0.3|0.067
82599022|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|14.6|24.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12||24.1|14.6|<0.001
82599023|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|11.8|||<|0.001|TWO_SIDED|95.0|7.5|16.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12||16.2|7.5|<0.001
82599024|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|21.3|||<|0.001|TWO_SIDED|95.0|15.7|26.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||26.9|15.7|<0.001
82599025|NCT02889796|164913255|SUPERIORITY||Difference in Response Rates|14.6|||<|0.001|TWO_SIDED|95.0|9.2|20.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||20.0|9.2|<0.001
82492009|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|-0.014|STANDARD_ERROR_OF_MEAN|0.0206||0.502|TWO_SIDED|95.0|-0.0543|0.0267||Analysis for change in EQ-5D index score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||0.0267|-0.0543|0.502
82492010|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|1.9|STANDARD_ERROR_OF_MEAN|2.06||0.345|TWO_SIDED|95.0|-2.1|6.0||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||6.00|-2.10|0.345
82492011|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|1.5|STANDARD_ERROR_OF_MEAN|2.09||0.486|TWO_SIDED|95.0|-2.65|5.56||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||5.56|-2.65|0.486
82492012|NCT01153347|164677233|SUPERIORITY_OR_OTHER||LS mean|-1.2|STANDARD_ERROR_OF_MEAN|2.12||0.564|TWO_SIDED|95.0|-5.39|2.94||Analysis of change in EQ-5D VAS score from randomization (Week 8) to end of treatment (Week 16)|MMRM|||MMRM model includes treatment, pooled center, visit and treatment by visit interaction as explanatory variables and the randomization EQ-5D VAS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||2.94|-5.39|0.564
82599026|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|22.3|||<|0.001|TWO_SIDED|95.0|16.7|27.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||27.9|16.7|<0.001
82599027|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|12.6|||<|0.001|TWO_SIDED|95.0|7.2|17.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||17.9|7.2|<0.001
82599028|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|19.8|||<|0.001|TWO_SIDED|95.0|13.4|26.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||26.1|13.4|<0.001
82599029|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|13.8|||<|0.001|TWO_SIDED|95.0|7.5|20.2||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||20.2|7.5|<0.001
82599030|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|18.9|||<|0.001|TWO_SIDED|95.0|13.0|24.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||24.9|13.0|<0.001
82599031|NCT02889796|164913257|SUPERIORITY||Difference in Response Rates|18.6|||<|0.001|TWO_SIDED|95.0|12.6|24.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||24.5|12.6|<0.001
82599032|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|-0.22|-0.12||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.12|-0.22|<0.001
82599033|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.025|<|0.001|TWO_SIDED|95.0|-0.14|-0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.14|<0.001
82599034|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.028|<|0.001|TWO_SIDED|95.0|-0.24|-0.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.13|-0.24|<0.001
82599035|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.028|<|0.001|TWO_SIDED|95.0|-0.15|-0.04||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.04|-0.15|<0.001
82599036|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.34|-0.19||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.19|-0.34|<0.001
82655104|NCT04424407|165025835|OTHER|||||||0.86||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-dACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.86
82599037|NCT02889796|164913259|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.26|-0.11||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.11|-0.26|<0.001
82599038|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
82599039|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6||0.01|TWO_SIDED|95.0|-3.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-3.0|0.010
82599040|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82599041|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82599042|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-5.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-5.0|<0.001
82599043|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.6|<|0.001|TWO_SIDED|95.0|-4.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-4.0|<0.001
82599044|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-4.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-4.0|<0.001
82599045|NCT02889796|164913261|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.5|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82599046|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.002|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|0.002
82599047|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.047|TWO_SIDED|95.0|-2.0|0.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.0|-2.0|0.047
82599048|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82599049|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82599050|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82599051|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
82599052|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-3.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-3.0|<0.001
82599053|NCT02889796|164913263|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-2.0|-1.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.0|-2.0|<0.001
82599054|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-11.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-11.0|<0.001
82599055|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
82599056|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
82599057|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-5.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-7.0|-2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.0|-7.0|<0.001
82599058|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-13.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-16.0|-10.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-10.0|-16.0|<0.001
82599059|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
82599060|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-14.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-14.0|<0.001
82599061|NCT02889796|164913265|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-11.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-11.0|<0.001
82599062|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-10.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-10.0|<0.001
82599063|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-8.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-8.0|<0.001
82655105|NCT04424407|165025835|OTHER|||||||0.86||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-dmPFC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.86
82599064|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-11.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-11.0|<0.001
82599065|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-9.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-9.0|<0.001
82599066|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-10.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-10.0|<0.001
82599067|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-10.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-10.0|<0.001
82599068|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-8.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-11.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-11.0|<0.001
82599069|NCT02889796|164913267|SUPERIORITY||Least Squares Mean Difference|-7.0|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-10.0|-5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.0|-10.0|<0.001
82599070|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
82599071|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED|95.0|-8.0|-3.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.0|-8.0|<0.001
82599072|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-12.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-12.0|<0.001
82599073|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|-9.0|-4.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.0|-9.0|<0.001
82599074|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-12.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-15.0|-9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-9.0|-15.0|<0.001
82599075|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-10.0|STANDARD_ERROR_OF_MEAN|1.5|<|0.001|TWO_SIDED|95.0|-13.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-13.0|<0.001
82599076|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-14.0|-7.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.0|-14.0|<0.001
82599077|NCT02889796|164913269|SUPERIORITY||Least Squares Mean Difference|-9.0|STANDARD_ERROR_OF_MEAN|1.6|<|0.001|TWO_SIDED|95.0|-12.0|-6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.0|-12.0|<0.001
82599078|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-10.83|STANDARD_ERROR_OF_MEAN|0.952|<|0.001|TWO_SIDED|95.0|-12.7|-8.96||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-8.96|-12.70|<0.001
82599079|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-7.73|STANDARD_ERROR_OF_MEAN|0.947|<|0.001|TWO_SIDED|95.0|-9.58|-5.87||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.87|-9.58|<0.001
82599080|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-9.39|STANDARD_ERROR_OF_MEAN|0.989|<|0.001|TWO_SIDED|95.0|-11.33|-7.45||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-7.45|-11.33|<0.001
82599081|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-7.35|STANDARD_ERROR_OF_MEAN|0.987|<|0.001|TWO_SIDED|95.0|-9.29|-5.42||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.42|-9.29|<0.001
82599082|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-8.02|STANDARD_ERROR_OF_MEAN|0.961|<|0.001|TWO_SIDED|95.0|-9.9|-6.13||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-6.13|-9.90|<0.001
82599083|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-6.46|STANDARD_ERROR_OF_MEAN|0.96|<|0.001|TWO_SIDED|95.0|-8.35|-4.58||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.58|-8.35|<0.001
82599084|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-7.91|STANDARD_ERROR_OF_MEAN|1.007|<|0.001|TWO_SIDED|95.0|-9.88|-5.93||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.93|-9.88|<0.001
82599085|NCT02889796|164913271|SUPERIORITY||Least Squares Mean Difference|-6.59|STANDARD_ERROR_OF_MEAN|1.005|<|0.001|TWO_SIDED|95.0|-8.56|-4.62||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.62|-8.56|<0.001
82599086|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|12.3|||<|0.001|TWO_SIDED|95.0|5.7|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2.||18.9|5.7|<0.001
82599087|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|6.5||||0.043|TWO_SIDED|95.0|-0.1|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2.||13.1|-0.1|0.043
82655106|NCT04424407|165025835|OTHER|||||||0.83||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-pACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.83
82655107|NCT04424407|165025835|OTHER|||||||0.23||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-sgACC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.23
82655108|NCT04424407|165025835|OTHER|||||||0.83||||||P-values from linear mixed effects models were False Discovery Rate-adjusted (Benjamini-Hochberg method) for the number of mPFC regions (5). The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of amygdala-vmPFC connectivity from the Conscious Fear \> Neutral task/contrast was done by applying linear mixed effects models testing the effect of treatment-time on connectivity. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.83
82655109|NCT04424407|165025836|OTHER||||||<|0.0001||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in depression symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
82655110|NCT04424407|165025837|OTHER|||||||0.002||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in sleep efficiency was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.002
82655111|NCT04424407|165025838|OTHER||||||<|0.0001||||||P-values are from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in suicidal ideation score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
82599088|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|16.3|||<|0.001|TWO_SIDED|95.0|9.8|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||22.8|9.8|<0.001
82599089|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|8.1||||0.011|TWO_SIDED|95.0|1.5|14.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||14.7|1.5|0.011
82599090|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|21.0|||<|0.001|TWO_SIDED|95.0|14.9|27.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 12.||27.0|14.9|<0.001
82599091|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|13.6|||<|0.001|TWO_SIDED|95.0|7.3|19.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 12.||19.9|7.3|<0.001
82655112|NCT04424407|165025839|OTHER|||||||0.03||||||P-values are uncorrected from ordinal logistic regression model. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|A significant p-value here means that treatment was associated with reduced odds of being in a higher risk category.||Analysis of change in suicidal risk was done by applying ordinal logistic regression (proportional odds model) testing the effect of treatment-time on the probability of being in a higher risk category. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.03
82599092|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|16.6|||<|0.001|TWO_SIDED|95.0|10.5|22.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||22.8|10.5|<0.001
82655113|NCT04424407|165025845|OTHER|||||||0.28|||||||Mixed Models Analysis|||Analysis of change in sleep onset latency (PSG) was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.28
82499394|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.02||||90.0|-0.098|-0.033|||ANCOVA|||Extension Month 39 (LOCF); Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.033|-0.098|
82599093|NCT02889796|164913273|SUPERIORITY||Difference in Response Rates|14.1|||<|0.001|TWO_SIDED|95.0|7.8|20.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||20.3|7.8|<0.001
82599094|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.9|-0.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.6|-0.9|<0.001
82599095|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.5|-0.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.3|-0.5|<0.001
82599096|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.9|-0.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.7|-0.9|<0.001
82599097|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.7|-0.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.4|-0.7|<0.001
82599098|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
82599099|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
82655114|NCT04424407|165025846|OTHER|||||||0.33||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in number of awakenings derived from PSG was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.33
82599100|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-1.1|-0.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.8|-1.1|<0.001
82599101|NCT02889796|164913275|SUPERIORITY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.8|-0.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.5|-0.8|<0.001
82599102|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|9.5|||<|0.001|TWO_SIDED|95.0|5.8|13.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2||13.1|5.8|<0.001
82599103|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|4.5||||0.004|TWO_SIDED|95.0|1.4|7.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2||7.7|1.4|0.004
82599104|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|16.2|||<|0.001|TWO_SIDED|95.0|11.3|21.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4||21.1|11.3|<0.001
82599105|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|11.2|||<|0.001|TWO_SIDED|95.0|6.5|15.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4||15.8|6.5|<0.001
82599106|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|26.9|||<|0.001|TWO_SIDED|95.0|20.6|33.3||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24||33.3|20.6|<0.001
82599107|NCT02889796|164913277|SUPERIORITY||Difference in Response Rates|19.4|||<|0.001|TWO_SIDED|95.0|13.1|25.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24||25.8|13.1|<0.001
82599108|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|4.4|||<|0.001|TWO_SIDED|95.0|2.1|6.7||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 2.||6.7|2.1|<0.001
82599109|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|1.0||||0.17|TWO_SIDED|95.0|-0.5|2.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 2.||2.6|-0.5|0.17
82599110|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|10.7|||<|0.001|TWO_SIDED|95.0|7.1|14.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 4.||14.4|7.1|<0.001
82599111|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|5.8|||<|0.001|TWO_SIDED|95.0|2.6|9.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 4.||9.0|2.6|<0.001
82599112|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|32.2|||<|0.001|TWO_SIDED|95.0|26.4|38.0||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24.||38.0|26.4|<0.001
82599113|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|19.0|||<|0.001|TWO_SIDED|95.0|13.4|24.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24.||24.6|13.4|<0.001
82499395|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.024||||90.0|-0.085|-0.004|||ANCOVA|||Extension Follow Up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.004|-0.085|
82599114|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|12.7|||<|0.001|TWO_SIDED|95.0|5.6|19.9||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Adalimumab at Week 24.||19.9|5.6|<0.001
82599115|NCT02889796|164913279|SUPERIORITY||Difference in Response Rates|-0.5||||0.88|TWO_SIDED|95.0|-7.5|6.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Adalimumab at Week 24.||6.5|-7.5|0.88
82599116|NCT02889796|164913279|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 at using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 200 mg vs Adalimumab at Week 24.||||<0.001
82599117|NCT02889796|164913279|NON_INFERIORITY|For non-inferiority test, the approach proposed by Liu 2014 was used to demonstrate that each filgotinib dose preserves more than 50% of the effect of adalimumab on the response rate of DAS28 (CRP) \< 2.6 at using NRI.|||||<|0.001||||||P-value of non-inferiority test was calculated from approach proposed by \[Liu 2014\].|Method proposed by [Liu 2014]|||Filgotinib 100 mg vs Adalimumab at Week 24.||||<0.001
82599118|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-4.6|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-5.9|-3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.2|-5.9|<0.001
82599119|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.68|<|0.001|TWO_SIDED|95.0|-4.3|-1.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-1.6|-4.3|<0.001
82599120|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-6.6|-3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.8|-6.6|<0.001
82599121|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-3.9|STANDARD_ERROR_OF_MEAN|0.73|<|0.001|TWO_SIDED|95.0|-5.3|-2.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.4|-5.3|<0.001
82599122|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|0.69|<|0.001|TWO_SIDED|95.0|-7.3|-4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.6|-7.3|<0.001
82599123|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-4.4|STANDARD_DEVIATION|0.69|<|0.001|TWO_SIDED|95.0|-5.8|-3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.1|-5.8|<0.001
82599124|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-6.9|-4.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.5|-6.9|<0.001
82599125|NCT02889796|164913285|SUPERIORITY||Least Squares Mean Difference|-4.1|STANDARD_ERROR_OF_MEAN|0.62|<|0.001|TWO_SIDED|95.0|-5.3|-2.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.9|-5.3|<0.001
82599126|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-7.1|-4.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.4|-7.1|<0.001
82599127|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-3.6|STANDARD_ERROR_OF_MEAN|0.7|<|0.001|TWO_SIDED|95.0|-5.0|-2.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 2. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-2.2|-5.0|<0.001
82599128|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-7.6|-4.6||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-4.6|-7.6|<0.001
82599129|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.75|<|0.001|TWO_SIDED|95.0|-6.0|-3.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.1|-6.0|<0.001
82599130|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-6.8|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|-8.2|-5.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.4|-8.2|<0.001
82599131|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|0.71|<|0.001|TWO_SIDED|95.0|-6.5|-3.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.7|-6.5|<0.001
82599132|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-7.8|-5.3||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-5.3|-7.8|<0.001
82599133|NCT02889796|164913287|SUPERIORITY||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|0.65|<|0.001|TWO_SIDED|95.0|-6.1|-3.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-3.5|-6.1|<0.001
82599134|NCT02889796|164913289|SUPERIORITY||Least Squares Mean Difference|-0.39||||0.042|TWO_SIDED|95.0|-0.77|-0.01||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.01|-0.77|0.042
82599135|NCT02889796|164913289|SUPERIORITY||Least Squares Mean Difference|-0.39||||0.039|TWO_SIDED|95.0|-0.77|-0.02||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||-0.02|-0.77|0.039
82599136|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|6.6||||0.002|TWO_SIDED|95.0|2.2|11.1||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ 0.5.||11.1|2.2|0.002
82599137|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|3.9||||0.073|TWO_SIDED|95.0|-0.8|8.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ 0.5.||8.6|-0.8|0.073
82599138|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|7.0||||0.009|TWO_SIDED|95.0|1.5|12.5||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ 0.||12.5|1.5|0.009
82599139|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|5.0||||0.061|TWO_SIDED|95.0|-0.6|10.6||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ 0.||10.6|-0.6|0.061
82599140|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|5.5||||0.004|TWO_SIDED|95.0|1.6|9.4||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 200 mg vs Placebo at Week 24 for change in mTSS ≤ SDC (1.36).||9.4|1.6|0.004
82655115|NCT04424407|165025847|OTHER|||||||0.013||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in wake after sleep onset (WASO) was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.013
82599141|NCT02889796|164913290|SUPERIORITY||Difference in non-progression rate|4.7||||0.012|TWO_SIDED|95.0|0.7|8.8||P-value was calculated from the logistic regression with treatment groups and stratification factors in the model.|Regression, Logistic|||Filgotinib 100 mg vs Placebo at Week 24 for change in mTSS ≤ SDC (1.36).||8.8|0.7|0.012
82599142|NCT02889796|164913294|SUPERIORITY||Least Squares Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.9|3.4||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.4|1.9|<0.001
82599143|NCT02889796|164913294|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|1.0|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|1.0|<0.001
82599144|NCT02889796|164913294|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.1|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.1|<0.001
82599145|NCT02889796|164913294|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|2.0|4.1||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||4.1|2.0|<0.001
82599146|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|0.48|<|0.001|TWO_SIDED|95.0|0.9|2.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.8|0.9|<0.001
82599147|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.48||0.002|TWO_SIDED|95.0|0.6|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|0.6|0.002
82599148|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|0.52||0.006|TWO_SIDED|95.0|0.4|2.5||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.5|0.4|0.006
82599149|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|1.7|STANDARD_ERROR_OF_MEAN|0.52||0.001|TWO_SIDED|95.0|0.7|2.7||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.7|0.7|0.001
82599150|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.55||0.086|TWO_SIDED|95.0|-0.1|2.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||2.0|-0.1|0.086
82492013|NCT01153347|164677234|SUPERIORITY_OR_OTHER||LS mean|-1.4|STANDARD_ERROR_OF_MEAN|1.55||0.35|TWO_SIDED|95.0|-4.48|1.59|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.59|-4.48|0.350
82599151|NCT02889796|164913298|SUPERIORITY||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.55||0.12|TWO_SIDED|95.0|-0.2|1.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||1.9|-0.2|0.12
82599152|NCT02889796|164913302|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.8|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.8|<0.001
82492014|NCT01153347|164677234|SUPERIORITY_OR_OTHER||LS mean|-1.3|STANDARD_ERROR_OF_MEAN|1.56||0.393|TWO_SIDED|95.0|-4.41|1.73|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||1.73|-4.41|0.393
82599153|NCT02889796|164913302|SUPERIORITY||Least Squares Mean Difference|2.2|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|1.2|3.2||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.2|1.2|<0.001
82599154|NCT02889796|164913302|SUPERIORITY||Least Squares Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.5|3.8||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.8|1.5|<0.001
82599155|NCT02889796|164913302|SUPERIORITY||Least Squares Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.6|3.9||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||3.9|1.6|<0.001
82599156|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.049|TWO_SIDED|95.0|0.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|0.0|0.049
82599157|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.069|TWO_SIDED|95.0|0.0|5.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 4. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||5.0|-0.0|0.069
82492015|NCT01153347|164677234|SUPERIORITY_OR_OTHER||LS mean|0.5|STANDARD_ERROR_OF_MEAN|1.58||0.745|TWO_SIDED|95.0|-2.59|3.62|||MMRM|||MMRM model includes treatment, pooled center, visit, and treatment by visit interaction as explanatory variables and the randomization SIS total score as a covariate. Treatment, visit and treatment by visit interaction are fixed effects in the model; pooled center is a random effect.||3.62|-2.59|0.745
82599158|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|7.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|4.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|4.0|<0.001
82599159|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|6.0|STANDARD_ERROR_OF_MEAN|1.3|<|0.001|TWO_SIDED|95.0|4.0|9.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 12. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||9.0|4.0|<0.001
82599160|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|1.5||0.06|TWO_SIDED|95.0|0.0|6.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 200 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||6.0|-0.0|0.060
82599161|NCT02889796|164913308|SUPERIORITY||Least Squares Mean Difference|5.0|STANDARD_ERROR_OF_MEAN|1.5||0.003|TWO_SIDED|95.0|2.0|8.0||MMRM model included treatment, visit, treatment by visit, stratification factors, and baseline value as fixed effects, and participants being the random effect.|MMRM|||Filgotinib 100 mg vs Placebo at Week 24. LS-Mean, 95% CI, and P-value were provided from MMRM. Missing change scores were not imputed using the MMRM approach assuming an unstructured variance-covariance matrix for the repeated measures.||8.0|2.0|0.003
82599162|NCT04033367|164913351|SUPERIORITY||Least square mean difference|-15.52|||<|0.001|TWO_SIDED|95.0|-24.13|-6.9||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when primary outcome measure was statistically significant at two-sided 0.05 level.||-6.90|-24.13|<0.001
82599163|NCT04033367|164913352|SUPERIORITY||Least square mean difference|-27.87|||<|0.001|TWO_SIDED|95.0|-37.96|-17.78||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-17.78|-37.96|<0.001
82599164|NCT04033367|164913353|SUPERIORITY||Least square mean difference|-15.06|||<|0.001|TWO_SIDED|95.0|-20.56|-9.56||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-9.56|-20.56|<0.001
82655116|NCT04424407|165025848|OTHER|||||||0.66||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG TST was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.66
82655117|NCT04424407|165025849|OTHER|||||||0.96||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Delta absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.96
82599165|NCT04033367|164913354|SUPERIORITY||Least square mean difference|-2.08|||<|0.001|TWO_SIDED|95.0|-2.97|-1.18||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05 level.||-1.18|-2.97|<0.001
82599166|NCT04033367|164913355|SUPERIORITY||Least square mean difference|-3.61|||<|0.001|TWO_SIDED|95.0|-5.68|-1.53||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-1.53|-5.68|<0.001
82599167|NCT04033367|164913356|SUPERIORITY||Least square mean difference|9.97||||0.297|TWO_SIDED|95.0|-8.86|28.79||Threshold of significance at 0.05.|Mixed Models Analysis||Dupilumab versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures are reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||28.79|-8.86|0.297
82599168|NCT01415752|164913421|SUPERIORITY|||||||0.25||||||one-sided stratified log-rank test|Log Rank|one-sided stratified log-rank test||||||0.25
82599169|NCT01415752|164913422|SUPERIORITY|||||||0.178||||||one-sided stratified log-rank test|Log Rank|one-sided stratified log-rank test||||||0.178
82599170|NCT03066102|164913506|OTHER|||||||0.227||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on reposition error of scapular elevation. Muscle fatigue would increase reposition error during scapular elevation. One-way repeated measures analysis of variance.||||0.227
82599171|NCT03066102|164913506|OTHER|||||||0.764||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on reposition error of scapular protraction. Muscle fatigue would increase reposition error during scapular protraction. One-way repeated measures analysis of variance.||||0.764
82599172|NCT03066102|164913507|OTHER|||||||0.413||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.413
82599173|NCT03066102|164913507|OTHER|||||||0.984||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.984
82599174|NCT03066102|164913507|OTHER|||||||0.006||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scapular elevation.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.006
82599175|NCT03066102|164913507|OTHER|||||||0.154||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.154
82599176|NCT03066102|164913507|OTHER|||||||0.096||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.096
82599177|NCT03066102|164913507|OTHER|||||||0.037||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scapular protraction.~Muscle fatigue would change muscle activation during proprioception task. One-way repeated measures analysis of variance."||||0.037
82599178|NCT03066102|164913508|OTHER|||||||8.5e-05||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of serratus anterior during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.000085
82599179|NCT03066102|164913508|OTHER|||||||0.037||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of upper trapezius during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.037
82599180|NCT03066102|164913508|OTHER|||||||0.382||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle strength of lower trapezius during maximum voluntary isometric muscle contraction.~Muscle fatigue would decrease muscle strength during maximum voluntary isometric muscle contraction.~One-way repeated measures analysis of variance."||||0.382
82599181|NCT03066102|164913509|OTHER|||||||0.000467||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular posterior tilt during scaption. Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular posterior tilt during each angle of scaption.||||0.000467
82599182|NCT03066102|164913509|OTHER|||||||0.093||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.093
82492016|NCT05096221|164677235|SUPERIORITY||Least squares mean change difference|0.65|STANDARD_ERROR_OF_MEAN|0.55||0.2441|TWO_SIDED|95.0|-0.45|1.74|||Mixed model of repeated measures|||||1.74|-0.45|0.2441
82599183|NCT03066102|164913509|OTHER|||||||0.062||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.062
82599184|NCT03066102|164913509|OTHER|||||||0.04||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.04
82599185|NCT03066102|164913509|OTHER|||||||0.000147||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.000147
82599186|NCT03066102|164913509|OTHER|||||||1.2e-05||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.000012
82599187|NCT03066102|164913509|OTHER|||||||0.007||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.007
82599188|NCT03066102|164913509|OTHER|||||||0.059||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.059
82599189|NCT03066102|164913509|OTHER|||||||0.032||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular posterior tilt during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.032
82599190|NCT03066102|164913509|OTHER|||||||1.5e-05||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular internal rotation during scaption Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular internal rotation during each angle of scaption.||||0.000015
82599191|NCT03066102|164913509|OTHER|||||||0.296||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.296
82599192|NCT03066102|164913509|OTHER|||||||0.457||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.457
82599193|NCT03066102|164913509|OTHER|||||||0.311||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.311
82599194|NCT03066102|164913509|OTHER|||||||0.004||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.004
82599195|NCT03066102|164913509|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
82599196|NCT03066102|164913509|OTHER|||||||0.137||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.137
82599197|NCT03066102|164913509|OTHER|||||||0.636||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.636
82599198|NCT03066102|164913509|OTHER|||||||0.406||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular internal rotation during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.406
82599199|NCT03066102|164913509|OTHER|||||||0.001||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||The effects of muscle fatigue on scapular upward rotation during scaption. Muscle fatigue would change scapular kinematics during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on kinematics changed of scapular upward rotation during each angle of scaption.||||0.001
82599200|NCT03066102|164913509|OTHER|||||||0.65||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.650
82599201|NCT03066102|164913509|OTHER|||||||0.141||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.141
82599202|NCT03066102|164913509|OTHER|||||||0.021||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.021
82599203|NCT03066102|164913509|OTHER|||||||0.005||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during ascending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.005
82655118|NCT04424407|165025849|OTHER|||||||0.23||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Theta absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.23
82599204|NCT03066102|164913509|OTHER|||||||0.083||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 120 degree of scaption.~One-way repeated measures analysis of variance."||||0.083
82599205|NCT03066102|164913509|OTHER|||||||0.389||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 90 degree of scaption.~One-way repeated measures analysis of variance."||||0.389
82599206|NCT03066102|164913509|OTHER|||||||0.542||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 60 degree of scaption.~One-way repeated measures analysis of variance."||||0.542
82599207|NCT03066102|164913509|OTHER|||||||0.263||||||The level of statistical significance was adjusted at P\<0.00625. (0.05/8=0.00625)|ANOVA|||"The effects of time on kinematics changed of scapular upward rotation during descending 30 degree of scaption.~One-way repeated measures analysis of variance."||||0.263
82599208|NCT03066102|164913510|OTHER|||||||0.331||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of upper trapezius during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of upper trapezius during each angle of scaption."||||0.331
82599209|NCT03066102|164913510|OTHER|||||||0.627||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of lower trapezius during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of lower trapezius during each angle of scaption."||||0.627
82599210|NCT03066102|164913510|OTHER|||||||0.042||||||The level of statistical significance was set at P \< 0.05.|ANOVA|||"The effects of muscle fatigue on muscle activation of serratus anterior during scaption.~Muscle fatigue would change muscle activation during scaption. Two way (angle x time) repeated measures. If there was an interaction between time and angle, further one way repeated measures would use to access the effects of time on muscle activation changed of serratus anterior during each angle of scaption."||||0.042
82599211|NCT03066102|164913510|OTHER|||||||0.021||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 30\~60 degree of scaption.~One-way repeated measures analysis of variance."||||0.021
82599212|NCT03066102|164913510|OTHER|||||||0.018||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 60\~90 degree of scaption.~One-way repeated measures analysis of variance."||||0.018
82599213|NCT03066102|164913510|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during ascending 90\~120 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
82492017|NCT05096221|164677236|OTHER||||||<|0.0001|||||||Re-randomization test|||||||< 0.0001
82599214|NCT03066102|164913510|OTHER|||||||0.002||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 120\~90 degree of scaption.~One-way repeated measures analysis of variance."||||0.002
82599215|NCT03066102|164913510|OTHER|||||||0.035||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 90\~60 degree of scaption.~One-way repeated measures analysis of variance."||||0.035
82599216|NCT03066102|164913510|OTHER|||||||0.05||||||The level of statistical significance was adjusted at P\<0.0083. (0.05/6=0.0083)|ANOVA|||"The effects of time on muscle activation changed of serratus anterior during descending 60\~30 degree of scaption.~One-way repeated measures analysis of variance."||||0.05
82599217|NCT03066102|164913511|OTHER|||||||0.5||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of upper trapezius during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.5
82599218|NCT03066102|164913511|OTHER|||||||0.843||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of lower trapezius during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.843
82599219|NCT03066102|164913511|OTHER|||||||0.466||||||The level of statistical significance was set at P \< 0.05|ANOVA|||"The effects of muscle fatigue on muscle onset timing of serratus anterior during scaption.~Muscle fatigue would change muscle onset timing during scaption. One-way repeated measures analysis of variance."||||0.466
82599220|NCT01496066|164913515|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<.0001
82599221|NCT01496066|164913516|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
82599222|NCT01496066|164913517|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<.0001
82599223|NCT01496066|164913518|SUPERIORITY|||||||0.0318|||||||t-test, 2 sided|||||||.0318
82599224|NCT01496066|164913519|EQUIVALENCE|a two-group t-test of equivalence in means was used|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|99.0|-0.06|-0.02||||||||-0.02|-0.06|
82599225|NCT01789970|164913548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|||<|0.001|TWO_SIDED|95.0|0.26|1.0||5% significance level|ANCOVA|The model included treatment, study center, opioid status, and baseline WPI score.|Placebo - Hydrocodone ER|The least squares means of the change from baseline to week 12 in WPI were compared between the active drug and placebo treatment groups.||1.00|0.26|<0.001
82599226|NCT01789970|164913549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.58|||<|0.001|TWO_SIDED|95.0|0.25|0.91||5% significance level|ANCOVA|The model included treatment, study center, opioid status, and baseline WPI score.|Placebo - Hydrocodone ER|The least squares means of the change from baseline to week 12 in API were compared between the active drug and placebo treatment groups.||0.91|0.25|<0.001
82599227|NCT01789970|164913550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.059|TWO_SIDED|95.0|0.5|1.01||5% significance level|Wald chi-square|Cox proportional hazards model with treatment, baseline worst pain intensity (WPI), opioid status, and center in the model||||1.01|0.5|0.059
82599228|NCT01789970|164913551|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.0293|TWO_SIDED|95.0|0.47|0.96||5% significance level|Regression, Logistic|stratified by center with the following effects: treatment group, baseline API, and opioid status.|Hydrocodone ER / Placebo|API increase \>=30% and API \>=5||0.96|0.47|0.0293
82599229|NCT01789970|164913552|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.557|TWO_SIDED|95.0|-1.2|0.65||5% significance level|ANCOVA|Model with the following effects: treatment, study center, opioid status, and baseline RMDQ score.|Placebo - Hydrocodone ER|||0.65|-1.20|0.557
82599230|NCT03545906|164913569|SUPERIORITY||Mean Difference (Net)|1.0||||0.075|TWO_SIDED||||||t-test, 2 sided|||||||.075
82599231|NCT03545906|164913570|SUPERIORITY||Mean Difference (Net)|1.3||||0.018|TWO_SIDED||||||t-test, 2 sided|||||||.018
82599232|NCT03545906|164913571|SUPERIORITY||Mean Difference (Net)|1.2||||0.039|TWO_SIDED||||||t-test, 2 sided|||||||.039
82599233|NCT03545906|164913572|SUPERIORITY||Mean Difference (Net)|0.7||||0.265|TWO_SIDED||||||t-test, 2 sided|||||||.265
82599234|NCT03423342|164913574|SUPERIORITY||Mean Difference (Net)|30.2|STANDARD_ERROR_OF_MEAN|3.3|<|0.0001|TWO_SIDED|||||The updated p-value is calculated and not a threshold for statistical significance.|t-test, 2 sided|||||||<0.0001
82599235|NCT03423342|164913575|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82599236|NCT03423342|164913576|SUPERIORITY||Mean Difference (Net)|19.0|STANDARD_ERROR_OF_MEAN|48.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82599237|NCT03423342|164913577|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|17.0|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82655119|NCT04424407|165025849|OTHER|||||||0.11||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Alpha absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.11
82655120|NCT04424407|165025849|OTHER|||||||0.44||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Sigma absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.44
82655121|NCT04424407|165025849|OTHER|||||||0.68||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Beta-1 absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.68
82655122|NCT04424407|165025849|OTHER|||||||0.74||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Beta-2 absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.74
82599238|NCT03423342|164913578|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|3.1|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82599239|NCT03423342|164913579|SUPERIORITY||Mean Difference (Net)|0.81|STANDARD_ERROR_OF_MEAN|0.66|<|0.05|TWO_SIDED||||||t-test, 2 sided|||||||<0.05
82599240|NCT00355394|164913583|SUPERIORITY_OR_OTHER|||||||0.03|||||||Fisher Exact|||||||0.03
82599241|NCT00355394|164913584|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
82599242|NCT00355394|164913585|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.46
82599243|NCT00355394|164913586|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82599244|NCT00355394|164913587|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.01
82599245|NCT00355394|164913588|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.50
82599246|NCT01175902|164913592|NON_INFERIORITY_OR_EQUIVALENCE|"To prove the non-inferiority of Cosopt to Xalatan, the sample size calculation was based on the assumption that non-inferiority margin of trough IOP of 1.5mmHg. A sample size of n=21 patients per group, this study has 80% power (1-β=0.80) and α=0.05, crossover-designed analysis.~In this study, the upper limit of the 95% CI is expected above the maximal acceptable clinically significant difference of 1.5 mmHg of IOP."|Mean Difference (Final Values)|0.9||||0.05|TWO_SIDED|||||Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|t-test, 2 sided|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.|Comparison between two arms were made for IOP, systolic BP, diastolic BP and OPP at each time period.||||0.05
82599247|NCT00430508|164913598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.3|||<|0.0001||95.0|-6.97|-3.6|||ANCOVA|||||-3.6|-6.97|<0.0001
82599248|NCT00430508|164913598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4|||<|0.0001||95.0|-4.79|-2.03|||ANCOVA|||||-2.03|-4.79|<0.0001
82599249|NCT00430508|164913598|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9||||0.1788||95.0|-2.32|0.43|||ANCOVA|||||0.43|-2.32|0.1788
82599250|NCT00430508|164913599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.1|||<|0.0001||95.0|-5.54|-2.6|||ANCOVA|||||-2.6|-5.54|<0.0001
82599251|NCT00430508|164913599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001||95.0|-4.39|-1.98|||ANCOVA|||||-1.98|-4.39|<0.0001
82599252|NCT00430508|164913599|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1081||95.0|-2.19|0.22|||ANCOVA|||||0.22|-2.19|0.1081
82599253|NCT00430508|164913600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.4|||<|0.0001||95.0|-10.13|-4.66|||ANCOVA|||||-4.66|-10.13|<0.0001
82599254|NCT00430508|164913600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2|||<|0.0001||95.0|-7.4|-2.91|||ANCOVA|||||-2.91|-7.4|<0.0001
82599255|NCT00430508|164913600|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6||||0.0255||95.0|-4.79|-0.31|||ANCOVA|||||-0.31|-4.79|0.0255
82655123|NCT04424407|165025849|OTHER|||||||0.84||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in PSG Gamma absolute power was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.84
82655124|NCT04424407|165025850|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in insomnia symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
82599256|NCT00430508|164913601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.6|||<|0.0001||95.0|-9.0|-4.26|||ANCOVA|||||-4.26|-9.00|<0.0001
82599257|NCT00430508|164913601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.8|||<|0.0001||95.0|-6.7|-2.81|||ANCOVA|||||-2.81|-6.70|<0.0001
82599258|NCT00430508|164913601|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.0812||95.0|-3.66|0.21|||ANCOVA|||||0.21|-3.66|0.0812
82599259|NCT00430508|164913602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67||||||95.0|1.69|4.21|||Regression, Logistic|||||4.21|1.69|
82599260|NCT00430508|164913602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||||95.0|1.5|3.24|||Regression, Logistic|||||3.24|1.50|
82599261|NCT00430508|164913602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||||95.0|1.07|2.25|||Regression, Logistic|||||2.25|1.07|
82599262|NCT00430508|164913603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.1|||<|0.0001||95.0|-6.78|-3.36|||ANCOVA|||||-3.36|-6.78|<0.0001
82599263|NCT00430508|164913603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2|||<|0.0001||95.0|-4.54|-1.78|||ANCOVA|||||-1.78|-4.54|<0.0001
82599264|NCT00430508|164913603|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1452||95.0|-2.43|0.36|||ANCOVA|||||0.36|-2.43|0.1452
82599265|NCT00430508|164913604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.0|||<|0.0001||95.0|-6.79|-3.17|||ANCOVA|||||-3.17|-6.79|<0.0001
82599266|NCT00430508|164913604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3|||<|0.0001||95.0|-4.79|-1.87|||ANCOVA|||||-1.87|-4.79|<0.0001
82599267|NCT00430508|164913604|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1629||95.0|-2.52|0.42|||ANCOVA|||||0.42|-2.52|0.1629
82599268|NCT00430508|164913605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.5|||<|0.0001||95.0|-7.4|-3.62|||ANCOVA|||||-3.62|-7.40|<0.0001
82599269|NCT00430508|164913605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.6|||<|0.0009||95.0|-4.12|-1.07|||ANCOVA|||||-1.07|-4.12|<0.0009
82599270|NCT00430508|164913605|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0||||0.1985||95.0|-2.55|0.53|||ANCOVA|||||0.53|-2.55|0.1985
82599271|NCT01703858|164913608|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|98.68|STANDARD_DEVIATION|10.0||0|TWO_SIDED|90.0|92.501|105.272|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||105.272|92.501|0.0000
82599272|NCT01703858|164913608|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|70.16|STANDARD_DEVIATION|18.3||0.9644|TWO_SIDED|90.0|62.331|78.962|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||78.962|62.331|0.9644
82599273|NCT01703858|164913608|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|83.36|STANDARD_DEVIATION|18.8||0.2835|TWO_SIDED|90.0|73.648|94.346|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||94.346|73.648|0.2835
82599274|NCT01703858|164913608|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|117.18|STANDARD_DEVIATION|16.7||0.1599|TWO_SIDED|90.0|104.923|130.867|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||130.867|104.923|0.1599
82599275|NCT01703858|164913608|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|97.4|STANDARD_DEVIATION|15.8||0.002|TWO_SIDED|90.0|88.072|107.719|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||107.719|88.072|0.0020
82599276|NCT01703858|164913609|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|89.26|STANDARD_DEVIATION|25.3||0.1261|TWO_SIDED|90.0|75.893|104.973|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||104.973|75.893|0.1261
82599277|NCT01703858|164913609|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|54.57|STANDARD_DEVIATION|47.4||0.9808|TWO_SIDED|90.0|40.711|73.157|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||73.157|40.711|0.9808
82599278|NCT01703858|164913609|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|94.88|STANDARD_DEVIATION|43.2||0.1449|TWO_SIDED|90.0|72.175|124.731|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||124.731|72.175|0.1449
82599279|NCT01703858|164913609|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|169.46|STANDARD_DEVIATION|49.7||0.9463|TWO_SIDED|90.0|124.093|231.419|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||231.419|124.093|0.9463
82599280|NCT01703858|164913609|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|81.06|STANDARD_DEVIATION|33.3||0.4564|TWO_SIDED|90.0|65.811|99.848|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||99.848|65.811|0.4564
82655125|NCT04424407|165025851|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in SF-36 Mental Component Score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
82655126|NCT04424407|165025851|OTHER|||||||0.94||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in SF-36 Physical Component Score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||0.94
82655127|NCT04424407|165025852|OTHER||||||<|0.0001||||||P-values are uncorrected from linear mixed effects models. The a priori threshold for statistical significance was \< 0.05.|Mixed Models Analysis|||Analysis of change in anxiety symptom severity score was done by applying linear mixed effects models testing the effect of treatment-time. Random intercepts at the individual participant level are included to account for the clustering of observations within individuals across time. All statistical models include age and sex as covariates of non-interest.||||<0.0001
82655128|NCT02684578|165025859|SUPERIORITY|||||||0.39||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects regression|||||||0.39
82655129|NCT02684578|165025860|SUPERIORITY|||||||0.97||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects|||||||0.97
82655130|NCT02684578|165025861|SUPERIORITY|||||||0.12||||||The threshold for statistical significance was p = 0.05.|Linear mixed-effects|||||||0.12
82655131|NCT03499964|165025884|SUPERIORITY||||||<|0.0001|||||||Chi-squared, Corrected|||||||<0.0001
82655132|NCT03499964|165025886|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.003
82655133|NCT01193608|165025920|SUPERIORITY_OR_OTHER||Mean change|113.53||||0.599|TWO_SIDED|80.0|-170.3|397.35|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||397.35|-170.30|0.599
82655134|NCT01193608|165025922|SUPERIORITY_OR_OTHER||Mean change|48.85||||0.297|TWO_SIDED|80.0|-11.79|109.48|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||109.48|-11.79|0.297
82655135|NCT01193608|165025924|SUPERIORITY_OR_OTHER||Mean change|-15.26||||0.6|TWO_SIDED|80.0|-53.54|23.02|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||23.02|-53.54|0.600
82655136|NCT01193608|165025926|SUPERIORITY_OR_OTHER||Mean change|1.23||||0.603|TWO_SIDED|80.0|-1.89|4.35|||t-test, 2 sided||One sample paired t-test|Change from baseline, within group||4.35|-1.89|0.603
82655137|NCT02674334|165025946|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|STANDARD_ERROR_OF_MEAN|0.83||0.165|TWO_SIDED|95.0|-0.49|2.82||P-values were not adjusted for multiple inferences|ANOVA|Continuous responses were tested using RCB ANOVA.||||2.82|-.49|0.165
82655138|NCT02660242|165025962|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|Mixed model w/ repeated measures to account for correlation from cross-over design and multiple measures, adjusting for baseline glucose and period.||The mini-dose glucagon (MDG) condition was compared with each of the conditions. In the event that exercise was terminated early due to glucose \<70 mg/dL and the participant was treated for hypoglycemia (or if participant was treated for hypoglycemia during early recovery \[prior to the meal\]), the nadir glucose value was carried forward through the end of early recovery.||||<0.001
82655139|NCT02660242|165025963|OTHER|||||||0.99|||||||Mixed Models Analysis|Adjusted for subject effect, exercise session, and baseline blood glucose||||||0.99
82655140|NCT02660242|165025964|SUPERIORITY|||||||0.15|||||||Mixed Models Analysis|Adjusted for subject effect, exercise session, and baseline blood glucose||||||0.15
82655141|NCT02660242|165025965|SUPERIORITY|||||||0.99|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.99
82655142|NCT02660242|165025966|SUPERIORITY|||||||0.43|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.43
82655143|NCT02660242|165025967|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.16
82655144|NCT02660242|165025968|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.69
82655145|NCT02660242|165025969|SUPERIORITY|||||||0.67|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.67
82599281|NCT01703858|164913610|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|98.66|STANDARD_DEVIATION|9.9||0|TWO_SIDED|90.0|92.5|105.225|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|B : BI-113608 vs. A : BI-113608 - Comparison with oral solution||105.225|92.500|0.0000
82599282|NCT01703858|164913610|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|70.24|STANDARD_DEVIATION|18.3||0.9635|TWO_SIDED|90.0|62.43|79.038|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|C : BI-113608 vs. B : BI-113608 - Food effect||79.038|62.430|0.9635
82655146|NCT02660242|165025970|SUPERIORITY|||||||0.84|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.84
82655147|NCT02660242|165025971|SUPERIORITY|||||||0.63|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.63
82655148|NCT02660242|165025972|SUPERIORITY|||||||0.24|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.24
82655149|NCT02660242|165025973|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Accounted for correlation due to cross-over design and adjusted for exercise session||||||0.26
82492018|NCT05096221|164677237|SUPERIORITY||Least squares mean change difference|-0.64|STANDARD_ERROR_OF_MEAN|0.21||0.0025|TWO_SIDED|95.0|-1.06|-0.23|||Mixed model of repeated measures|||||-0.23|-1.06|0.0025
82655150|NCT04087395|165025974|NON_INFERIORITY|To achieve non-inferiority, the observed p-value must be \<= 0.5 taking into account of the non-inferiority margin (i.e., 10mm difference in Pain VAS between the two treatment groups).|||||<|0.0001||||||One-sided paired student t-test|t-test, 1 sided|||||||<0.0001
82655151|NCT02796664|165025983|OTHER|Equality test||||||0.462|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and cerebral ischemic events including ischemic stroke and transient ischemic attack. The number of participants who suffered ischemic stroke and the number of paticipants who suffered transient ischemic attack were analyzed together to test the null hypothesis in two by two table.||||0.462
82655152|NCT02796664|165025984|OTHER|Equality test||||||0.34|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and modified Rankin Scale at follow-up.||||0.34
82655153|NCT02796664|165025985|OTHER|Equality test||||||0.13|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and flow change in steno-occlusive lesion.||||0.13
82655154|NCT02796664|165025985|OTHER|Equality test||||||0.17|||||||Chi-squared|||The null hypothesis is that there is no relationship between ginseng administration and flow change in collateral vessel.||||0.17
82655155|NCT02796664|165025986|OTHER|Equality test||||||0.74|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and periventricular white matter lesions at follow-up.||||0.74
82655156|NCT02796664|165025986|OTHER|Equality test||||||0.95|||||||Fisher Exact|||The null hypothesis is that there is no relationship between ginseng administration and deep white matter lesions at follow-up.||||0.95
82655157|NCT02796664|165025987|OTHER|Equality test||||||0.23|||||||Chi-squared|||The null hypothesis is that there is no relationship between ginseng administration and parenchymal ischemic lesions at follow-up.||||0.23
82655158|NCT02796664|165025988|OTHER|Equality test||||||0.79|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no relationship between ginseng administration and drug compliance at follow-up.||||0.79
82655159|NCT00995553|165025994|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||ANOVA|||MATRICS Working Memory Index||||.06
82655160|NCT00995553|165025994|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||ANOVA|||MATRICS Attention Index||||.09
82655161|NCT00995553|165025995|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANOVA|||||||.73
82655162|NCT00918567|165026003|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.22|STANDARD_ERROR_OF_MEAN|1.93|<|0.05|TWO_SIDED|||||Also tested marginal effects defined as p \< .10.|Mixed Models Analysis|Tukey-Kramer adjustments for post-hoc differences of least squares comparisons||||||<.05
82599283|NCT01703858|164913610|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|83.46|STANDARD_DEVIATION|18.7||0.2771|TWO_SIDED|90.0|73.774|94.412|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. B : BI-113608 - Food effect||94.412|73.774|0.2771
82599284|NCT01703858|164913610|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|117.16|STANDARD_DEVIATION|16.6||0.1584|TWO_SIDED|90.0|104.958|130.787|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|E : BI-113608 vs. C : BI-113608 - Food effect||130.787|104.958|0.1584
82599285|NCT01703858|164913610|NON_INFERIORITY_OR_EQUIVALENCE|Assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMeans) with acceptance range of 80.00 to 125.00%|Ratio of Geometric means (%)|97.41|STANDARD_DEVIATION|15.8||0.002|TWO_SIDED|90.0|88.066|107.741|||ANOVA|Relative bioavailability was estimated by the ratios of the adjusted geometric means. CIs were calculated based on the residual error.|Analysis of variance includes the effects: sequence, subjects nested within sequences, period and treatment in crossover; subject and treatment in fixed sequence. Standard deviation is actually Intra individual geometric coefficient of variation.|D : BI-113608 vs. B : BI-113608 - Pantoprazole effect||107.741|88.066|0.0020
82599286|NCT02004873|164913659|SUPERIORITY_OR_OTHER||Kaplan-Meier survival probability (%)|96.0|||<|0.0001|TWO_SIDED|98.66|93.3|97.6||The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|z-test, 1-sided||"The major complication free rate (i.e. survival probability) was estimated using the Kaplan-Meier method.~The coverage level for the confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis."|"Null hypothesis: Major complication free rate at 6 months post-implant is less than or equal to 83%.~Alternative hypothesis: Major complication free rate at 6 months post-implant is greater than 83%."||97.6|93.3|<0.0001
82599287|NCT02004873|164913660|SUPERIORITY_OR_OTHER||Percentage of subjects (%)|98.3|||<|0.0001|TWO_SIDED|98.66|95.4|99.6||The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|Exact Binomial test||The coverage level for confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis.|"Null hypothesis: Percentage of subjects with an adequate pacing capture threshold at 6-months post-implant is less than or equal to 80%.~Alternative hypothesis: Percentage of subjects with an adequate pacing capture threshold at 6-months post-implant is greater than 80%."||99.6|95.4|<0.0001
82599288|NCT02004873|164913661|SUPERIORITY_OR_OTHER||Percentage of subjects (%)|99.6|||<|0.0001|TWO_SIDED|98.66|97.5|100.0||Holm adjustment for multiple comparisons for secondary objectives was used. The threshold for statistical significance was 0.0067, determined by the pre-specified alpha spending function for the interim analysis.|Exact Binomial test||The coverage level for confidence interval was 98.66%, determined by the pre-specified alpha spending function for the interim analysis.|"Null hypothesis: Percentage of subjects with VCMT within 0.5 Volts of auto decrement PCT at 6 months post-implant is less than or equal to 85%.~Alternative hypothesis: Percentage of subjects with VCMT within 0.5 Volts of auto decrement PCT at 6 months post-implant is greater than 85%."||100.0|97.5|<0.0001
82599289|NCT02004873|164913662|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin is 0.35. The Micra sensor indicated rate is considered proportional to the workload if the 90% CI for the Kay-Wilkoff slope parameter falls into \[0.65, 1.35\].|Slope|0.864|||<|0.001|TWO_SIDED|90.0|0.768|0.961||Holm adjustment for multiple comparisons for secondary objectives was used. Two One-sided Test (TOST) procedure was used at the 0.05 significance level.|t-test, 1 sided|Two One-sided Test (TOST)|A random effect linear regression model was used to assess if the Micra sensor-indicated rate was proportional to the workload using the Kay-Wilkoff model. The Kay-Wilkoff slope parameter was estimated along with its 90% CI.|Null hypothesis: Kay-Wilkoff slope parameter is \< 0.65 or \> 1.35 Alternative hypothesis: Kay-Wilkoff slope parameter is between 0.65 and 1.35||0.961|0.768|<0.001
82599290|NCT01459705|164913666|SUPERIORITY_OR_OTHER||Slope|-22.34|STANDARD_DEVIATION|4.69|||ONE_SIDED|||||||||||||
82599291|NCT01459705|164913666|SUPERIORITY_OR_OTHER||Slope|-13.3|STANDARD_ERROR_OF_MEAN|4.77|||TWO_SIDED|||||||||||||
82599292|NCT01459705|164913666|SUPERIORITY_OR_OTHER||Slope|9.04|STANDARD_ERROR_OF_MEAN|5.11|||TWO_SIDED|||||||||||||
82599293|NCT01459705|164913667|SUPERIORITY_OR_OTHER||Slope|15.07|STANDARD_DEVIATION|6.03|||TWO_SIDED|||||||||||||
82599294|NCT01459705|164913668|SUPERIORITY_OR_OTHER||Slope|13.91|STANDARD_ERROR_OF_MEAN|6.7|||TWO_SIDED|||||||||||||
82599295|NCT02171611|164913751|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|175.14|STANDARD_ERROR_OF_MEAN|50.7|||TWO_SIDED|90.0|141.904|216.149|||||Relative bioavailability was estimated by the ratio of the gMeans of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||216.149|141.904|
82655163|NCT00918567|165026004|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.51|<|0.05|TWO_SIDED|||||Also examined marginal effects, defined as p\<.10|Mixed Models Analysis|||||||<.05
82655164|NCT00918567|165026005|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.6|<|0.05|TWO_SIDED|||||Also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
82492019|NCT05096221|164677238|SUPERIORITY||Least squares mean change difference|-0.42|STANDARD_ERROR_OF_MEAN|0.15||0.0048|TWO_SIDED|95.0|-0.71|-0.13|||Mixed model of repeated measures|||||-0.13|-0.71|0.0048
82599296|NCT02171611|164913751|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|154.84|STANDARD_ERROR_OF_MEAN|46.6|||TWO_SIDED|90.0|127.425|188.161|||||Relative bioavailability was estimated by the ratio of the geometric means (gMeans) of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment (T2) vs. the Reference treatment (R). This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||188.161|127.425|
82599297|NCT02171611|164913752|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|175.4|STANDARD_ERROR_OF_MEAN|51.1|||TWO_SIDED|90.0|141.924|216.772|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||216.772|141.924|
82599298|NCT02171611|164913752|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|158.12|STANDARD_ERROR_OF_MEAN|46.7|||TWO_SIDED|90.0|130.052|192.255|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||192.255|130.052|
82655165|NCT00918567|165026006|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.09|<|0.05|TWO_SIDED|||||Also estimated marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
82655166|NCT00918567|165026007|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.07|<|0.05|TWO_SIDED|||||also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||<.05
82599299|NCT02171611|164913753|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|186.94|STANDARD_ERROR_OF_MEAN|57.7|||TWO_SIDED|90.0|147.659|236.665|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||236.665|147.659|
82599300|NCT02171611|164913753|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|166.59|STANDARD_ERROR_OF_MEAN|54.3|||TWO_SIDED|90.0|133.221|208.326|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||208.326|133.221|
82599301|NCT02171611|164913754|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|181.6|STANDARD_ERROR_OF_MEAN|53.9|||TWO_SIDED|90.0|145.428|226.776|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||226.776|145.428|
82599302|NCT02171611|164913754|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|166.83|STANDARD_ERROR_OF_MEAN|52.6|||TWO_SIDED|90.0|134.25|207.328|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual geometric coefficient variation (gCV).|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||207.328|134.25|
82599303|NCT02171611|164913755|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|182.17|STANDARD_ERROR_OF_MEAN|56.1|||TWO_SIDED|90.0|144.727|229.297|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||229.297|144.727|
82655167|NCT00918567|165026008|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.18|>|0.05|TWO_SIDED|||||Also tested marginal effects defined as p\<.10|Mixed Models Analysis|||||||>.05
82655168|NCT00918567|165026009|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.2|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
82655169|NCT00918567|165026010|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.05|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<0.05
82655170|NCT00918567|165026011|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|1.8|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
82655171|NCT00918567|165026012|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.15|<|0.05|TWO_SIDED|||||Also tested marginal effect (p\<.10)|Mixed Models Analysis|||||||<.05
82599304|NCT02171611|164913755|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|160.74|STANDARD_ERROR_OF_MEAN|52.0|||TWO_SIDED|90.0|129.633|199.306|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||199.306|129.633|
82599305|NCT02171611|164913756|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|182.25|STANDARD_ERROR_OF_MEAN|55.7|||TWO_SIDED|90.0|144.993|229.075|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T1) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||229.075|144.993|
82599306|NCT02171611|164913756|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means in %|164.01|STANDARD_ERROR_OF_MEAN|51.7|||TWO_SIDED|90.0|132.421|203.14|||||Relative bioavailability was estimated by the ratio of the gMean of Dabigatran etexilate 150 mg (T2) divided by Dabigatran etexilate 150 mg (R). Standard Error of the mean is actually the intra individual gCV.|An Analysis of variance (ANOVA) model was used on the logarithmic scale in order to compare the Test treatment vs. the Reference treatment. This model included effects for 'sequence', 'subjects within sequences', 'period' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.||203.14|132.421|
82599307|NCT06245551|164913802|OTHER|The analysis is applied to the All-subjects data.|Mean Difference (Final Values)|-17.52|||<|0.001|TWO_SIDED|95.0|-19.78|-15.25|||Mixed Models Analysis|||||-15.25|-19.78|<0.001
82599308|NCT06142643|164913811|OTHER|"A responder was defined by subjects with a score 1 (very much improved), 2 (much improved) or 3 (improved) on the GAIS.~Inferential analysis for the primary evaluation criterion For the derived outcome responder rate at M1 (1 month after injection) for the GAIS Investigator, a binomial exact test (bilateral approach) vs 60% was applied for the overall score. This test compared the proportion of improvement to 60%."|||||<|0.0001||||||Power of 80%, significant result (alpha = 5%).|t-test, 2 sided|Null hypothesis stated that less than 60% of subjects were responders with GAIS. Under the alternative hypothesis, 75% of subjects were responders.||||||<0.0001
82599309|NCT06142643|164913812|OTHER|"A responder was defined by subjects with a score 1 (very much improved), 2 (much improved) or 3 (improved) on the GAIS.~Inferential analysis for the primary evaluation criterion For the derived outcome responder rate at M1 (1 month after injection) for the GAIS Investigator, a binomial exact test (bilateral approach) vs 60% was applied for the overall score. This test compared the proportion of improvement to 60%."|||||<|0.0001||||||Power of 80%, significant result (alpha = 5%).|t-test, 2 sided|Null hypothesis stated that less than 60% of subjects were responders with GAIS. Under the alternative hypothesis, 75% of subjects were responders.||||||<0.0001
82599310|NCT02177201|164913820|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||Null hypothesis: The antiemetic effect was not significantly different for two groups in this study||||0.05
82655172|NCT00918567|165026013|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.19|<|0.05|TWO_SIDED|||||Also tested marginal effects (p\<.10)|Mixed Models Analysis|||||||<.05
82655173|NCT05905783|165026055|SUPERIORITY||Risk Difference (RD)|13.0|STANDARD_ERROR_OF_MEAN|5.5||0.0183|TWO_SIDED|95.0|2.2|23.7|||Cochran-Mantel-Haenszel|||||23.7|2.2|0.0183
82599311|NCT02177201|164913820|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared, Corrected|||77 patients was needed in each groups for an 20% effect size, 5% alpha and 80% statistical power for postoperative vomiting.||||<0.05
82599312|NCT02926950|164913821|SUPERIORITY||Difference in Least Squares (LS) Means|-0.47|STANDARD_ERROR_OF_MEAN|0.084|<|0.0001|TWO_SIDED|95.0|-0.64|-0.309|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline HbA1c as a covariate.||-0.309|-0.64|< 0.0001
82599313|NCT02926950|164913822|SUPERIORITY||Difference in LS Means|-1.572|STANDARD_ERROR_OF_MEAN|0.2457|<|0.0001|TWO_SIDED|95.0|-2.0538|-1.0909|||ANCOVA|||The change from baseline to Week 26 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and country as fixed effects, and baseline 2- hour postprandial glucose as a covariate.||-1.0909|-2.0538|< 0.0001
82599314|NCT02926950|164913823|SUPERIORITY||Difference in LS Means|-0.76|STANDARD_ERROR_OF_MEAN|0.2247|=|0.0007|TWO_SIDED|95.0|-1.2006|-0.3198|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline fasting plasma glucose as a covariate.||-0.3198|-1.2006|= 0.0007
82655174|NCT05905783|165026056|SUPERIORITY||Risk Difference (RD)|15.8|STANDARD_ERROR_OF_MEAN|4.67||0.0007|TWO_SIDED|95.0|6.7|25.0|||Cochran-Mantel-Haenszel|||||25.0|6.7|0.0007
82655175|NCT05905783|165026057|SUPERIORITY||Risk Difference (RD)|14.7|STANDARD_ERROR_OF_MEAN|4.4||0.0008|TWO_SIDED|95.0|6.1|23.4|||Cochran-Mantel-Haenszel|||||23.4|6.1|0.0008
82492020|NCT05096221|164677239|SUPERIORITY||Least squares mean change difference|-3.29|STANDARD_ERROR_OF_MEAN|2.52||0.1942|TWO_SIDED|95.0|-8.28|1.7|||Mixed model of repeated measures|||||1.70|-8.28|0.1942
82655176|NCT05905783|165026058|SUPERIORITY||Risk Difference (RD)|12.3|STANDARD_ERROR_OF_MEAN|6.16||0.0462|TWO_SIDED|95.0|0.2|24.3|||Cochran-Mantel-Haenszel|||||24.3|0.2|0.0462
82655177|NCT05905783|165026059|SUPERIORITY||Risk Difference (RD)|-2.8|STANDARD_ERROR_OF_MEAN|5.84||0.6285|TWO_SIDED|95.0|-14.3|8.6|||Cochran-Mantel-Haenszel|||||8.6|-14.3|0.6285
82655178|NCT05905783|165026060|SUPERIORITY||LS Mean Difference|-2.16||||0.0011|TWO_SIDED|95.0|-3.44|-0.88|||Mixed model repeated measures (MMRM)|||||-0.88|-3.44|0.0011
82492021|NCT05096221|164677240|SUPERIORITY||Least squares mean change difference|-0.36|STANDARD_ERROR_OF_MEAN|0.18||0.0412|TWO_SIDED|95.0|-0.71|-0.01|||Mixed model of repeated measures|||||-0.01|-0.71|0.0412
82599315|NCT02926950|164913824|SUPERIORITY||Difference in LS Means|-1.87|STANDARD_ERROR_OF_MEAN|0.369|<|0.0001|TWO_SIDED|95.0|-2.591|-1.144|||ANCOVA|||The change from baseline to Week 26 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and country as fixed effects, and baseline weight as a covariate.||-1.144|-2.591|< 0.0001
82599316|NCT02926950|164913825|SUPERIORITY||Difference in LS Means|-3.28|STANDARD_ERROR_OF_MEAN|1.422|=|0.0209|TWO_SIDED|95.0|-6.07|-0.497|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.0, \>8.0%) at screening, and country as fixed effects, and baseline SBP as a covariate.||-0.497|-6.07|= 0.0209
82599317|NCT02926950|164913826|SUPERIORITY||Difference in LS Means|-3.54|STANDARD_ERROR_OF_MEAN|0.992|=|0.0004|TWO_SIDED|95.0|-5.479|-1.592|||ANCOVA|||The change from baseline to Week 12 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤ 8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening, and country as fixed effects, and baseline SBP as a covariate.||-1.592|-5.479|= 0.0004
82655179|NCT05905783|165026061|SUPERIORITY||Risk Difference (RD)|24.6|STANDARD_ERROR_OF_MEAN|7.67||0.0013|TWO_SIDED|95.0|9.6|39.7|||Cochran-Mantel-Haenszel|||||39.7|9.6|0.0013
82655180|NCT05905783|165026062|SUPERIORITY||Risk Difference (RD)|16.3|STANDARD_ERROR_OF_MEAN|7.26||0.0245|TWO_SIDED|95.0|2.1|30.6|||Cochran-Mantel-Haenszel|||||30.6|2.1|0.0245
82655181|NCT03968224|165026065|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82655182|NCT03968224|165026066|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82655183|NCT03968224|165026067|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82655184|NCT03968224|165026068|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82655185|NCT01807637|165026118|SUPERIORITY||Mean Difference (Final Values)|9.1|STANDARD_ERROR_OF_MEAN|5.37||0.05|TWO_SIDED||||||Mixed Models Analysis|||||||.05
82655186|NCT01807637|165026119|SUPERIORITY||Mean Difference (Final Values)|-2.05|STANDARD_DEVIATION|1.12||0.05|TWO_SIDED||||||ANOVA|||||||.05
82492022|NCT05096221|164677241|SUPERIORITY||Least squares mean change difference|0.1|STANDARD_ERROR_OF_MEAN|0.05||0.0402|TWO_SIDED|95.0|0.0|0.19|||Mixed model of repeated measures|||||0.19|0.00|0.0402
82655187|NCT01807637|165026120|SUPERIORITY||Mean Difference (Final Values)|15.67|STANDARD_DEVIATION|3.41||0.05|TWO_SIDED||||||ANOVA|||||||.05
82655188|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|||<|0.001|TWO_SIDED|95.0|0.06|0.196|||Mixed Models Analysis|||||0.196|0.060|<0.001
82655189|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|||<|0.001|TWO_SIDED|95.0|0.077|0.216|||Mixed Models Analysis|||||0.216|0.077|<0.001
82655190|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.095||||0.006|TWO_SIDED|95.0|0.027|0.162|||Mixed Models Analysis|||||0.162|0.027|0.006
82655191|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001|TWO_SIDED|95.0|0.074|0.205|||Mixed Models Analysis|||||0.205|0.074|<0.001
82655192|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.186|||<|0.001|TWO_SIDED|95.0|0.113|0.259|||Mixed Models Analysis|||||0.259|0.113|<0.001
82655193|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079||||0.03|TWO_SIDED|95.0|0.008|0.151|||Mixed Models Analysis|||||0.151|0.008|0.030
82655194|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|||<|0.001|TWO_SIDED|95.0|0.064|0.204|||Mixed Models Analysis|||||0.204|0.064|<0.001
82655195|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.101|0.242|||Mixed Models Analysis|||||0.242|0.101|<0.001
82655196|NCT00950807|165026121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.003|TWO_SIDED|95.0|0.037|0.173|||Mixed Models Analysis|||||0.173|0.037|0.003
82655197|NCT00659607|165026147|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test for paired observations|||||||<0.0001
82655198|NCT00659607|165026148|SUPERIORITY_OR_OTHER|||||||0.2669|||||||Chi-squared|||||||0.2669
82655199|NCT00659607|165026149|SUPERIORITY_OR_OTHER|||||||0.9674|||||||Chi-squared|||||||0.9674
82655200|NCT00659607|165026150|SUPERIORITY_OR_OTHER|||||||0.9207|||||||Chi-squared|||||||0.9207
82492023|NCT05096221|164677242|SUPERIORITY||Least squares mean change difference|0.05|STANDARD_ERROR_OF_MEAN|0.07||0.4272|TWO_SIDED|95.0|-0.08|0.19|||Mixed model of repeated measures|||||0.19|-0.08|0.4272
82655201|NCT00659607|165026151|SUPERIORITY_OR_OTHER|||||||0.8249|||||||Fisher Exact|||||||0.8249
82655202|NCT00659607|165026152|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||t-test for paired observations|||||||<0.0001
82655203|NCT00659607|165026154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.0003|TWO_SIDED|95.0|1.121|4.151|||Chi-squared||The estimation of Odds Ratio and 95% Confidence Interval based on the logistic regression analysis|||4.151|1.121|0.0003
82655204|NCT00659607|165026155|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.0001|TWO_SIDED|95.0|1.642|6.776|||Chi-squared||The Estimation of Odds Ratio and 95% Confidence Interval based the logistic regression analysis|||6.776|1.642|<0.0001
82655205|NCT00659607|165026156|SUPERIORITY_OR_OTHER|||||||0.0075|||||||Chi-squared|||||||0.0075
82655206|NCT00659607|165026157|SUPERIORITY_OR_OTHER|||||||0.0007|||||||Chi-squared|||||||0.0007
82655207|NCT00659607|165026158|SUPERIORITY_OR_OTHER|||||||0.0393|||||||Chi-squared|||||||0.0393
82655208|NCT00659607|165026159|SUPERIORITY_OR_OTHER|||||||0.0245|||||||Chi-squared|||||||0.0245
82655209|NCT02899338|165026161|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using the analysis of variance (ANOVA)|Adjusted geometric mean ratio|101.71|STANDARD_ERROR_OF_MEAN|42.28|||TWO_SIDED|90.0|91.31|113.29|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual geometric coefficient of variation (gCV)|Comparison AI versus PFS||113.29|91.31|
82655210|NCT02899338|165026162|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using ANOVA|Adjusted geometric mean ratio|100.11|STANDARD_ERROR_OF_MEAN|23.72|||TWO_SIDED|90.0|94.17|106.43|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual gCV|Comparison AI versus PFS||106.43|94.17|
82655211|NCT02899338|165026163|EQUIVALENCE|The relative bioavailability of BI 695501 using AI (A) compared with BI 695501 using PFS (B) was estimated, in an exploratory manner, by the ratios of the geometric means (A/B) using ANOVA|Adjusted geometric mean ratio|103.19|STANDARD_ERROR_OF_MEAN|48.21|||TWO_SIDED|90.0|91.38|116.53|||ANOVA|The results are based on ANOVA model on the logarithmic scale with fixed effects for treatment and baseline body weight.|Standard error of the mean is actually the Inter-individual gCV|Comparison AI versus PFS||116.53|91.38|
82599318|NCT02926950|164913827|SUPERIORITY||Percentage Difference|5.4|||=|0.0238|TWO_SIDED|95.0|0.75|10.06|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening. Missing data at Week 26 were assigned a status of nonresponder in the analysis.||10.06|0.75|= 0.0238
82599319|NCT02926950|164913828|SUPERIORITY||Percentage Difference|13.9|||=|0.0001|TWO_SIDED|95.0|6.91|20.89|||Cochran-Mantel-Haenszel|||Percentage difference between treatment groups using the Cochran-Mantel-Haenszel test stratified by the randomization strata of HbA1c (≤8.0, \>8.0%) at screening, randomization strata of mean SBP (\<130, ≥130 mmHg) at screening. Missing data at Week 26 were assigned a status of nonresponder in the analysis.||20.89|6.91|= 0.0001
82599320|NCT03505021|164913845|SUPERIORITY||Mean Difference (Final Values)|0.258||||0.8253|TWO_SIDED|95.0|-2.032|2.547|||ANCOVA|||||2.547|-2.032|0.8253
82599321|NCT03505021|164913846|SUPERIORITY||Mean Difference (Final Values)|10.69||||0.4277|TWO_SIDED|95.0|-15.74|37.12|||ANCOVA|||||37.12|-15.74|0.4277
82599322|NCT03505021|164913847|SUPERIORITY||Hazard Ratio (HR)|1.051||||0.6733|TWO_SIDED|95.0|0.833|1.327|||Regression, Cox|||||1.327|0.833|0.6733
82599323|NCT03505021|164913848|SUPERIORITY||Mean Difference (Final Values)|3.762||||0.1295|TWO_SIDED|95.0|-1.129|8.654|||ANCOVA|||||8.654|-1.129|0.1295
82599324|NCT03505021|164913849|SUPERIORITY||Mean Difference (Final Values)|0.013||||0.623|TWO_SIDED|95.0|-0.04|0.066|||Mixed Models Analysis|||||0.066|-0.040|0.6230
82599325|NCT03505021|164913850|SUPERIORITY||Mean Difference (Final Values)|-0.272||||0.1752|TWO_SIDED|95.0|-0.666|0.122|||ANCOVA|||||0.122|-0.666|0.1752
82599326|NCT01664793|164913867|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|Chi-square tests for comparisons of between-arm changes in vaccination rates from pre to post intervention.||||||<0.05
82599327|NCT04137887|164913869|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the Confidence intervals (CIs) for relative vaccine effectiveness (rVE); expressed in percentage (%) was more than (\>) 0%.|Relative Vaccine Effectiveness|5.54|||||TWO_SIDED|95.0|-12.43|20.66|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|||20.66|-12.43|
82599328|NCT04137887|164913870|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the CIs for rVE, expressed in % was \> 0%.|Relative Vaccine Effectiveness|5.4|||||TWO_SIDED|95.0|-27.99|30.14|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|Statistical analysis for diseases of respiratory system.||30.14|-27.99|
82599329|NCT04137887|164913870|SUPERIORITY|Superiority of QIV-HD effectiveness over QIV-SD was demonstrated if the lower bound of the CIs for rVE, expressed in % was \> 0%.|Relative Vaccine Effectiveness|7.09|||||TWO_SIDED|95.0|-15.04|25.0|||||rVE: % reduction of 1st occurrence of cardiovascular/respiratory hospitalization cases in QIV-HD group compared to QIV-SD group. 2-sided 95% CIs for rVE was calculated by exact method assuming Binomial distribution of number of cases in both groups.|Statistical analysis for diseases of circulatory system.||25.00|-15.04|
82599330|NCT05064059|164913886|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.4183|TWO_SIDED|95.0|0.8|1.2||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.20|0.80|0.4183
82599331|NCT05064059|164913887|SUPERIORITY||Hazard Ratio (HR)|1.34||||0.9967|TWO_SIDED|95.0|1.09|1.64||One-sided nominal p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.64|1.09|0.9967
82599332|NCT05064059|164913888|SUPERIORITY||Difference in percentage|5.9||||0.0007|TWO_SIDED|95.0|2.5|10.1||One-sided, nominal p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Miettinen & Nurminen Method||Difference in percentage and 95% CI were based on the Miettinen \& Nurminen method stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||10.1|2.5|0.0007
82599333|NCT05064059|164913892|OTHER||Difference in Least Square (LS) Means|-3.08||||0.1318|TWO_SIDED|95.0|-7.09|0.93||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||0.93|-7.09|0.1318
82655212|NCT06179108|165026165|SUPERIORITY|||||||0.0009||||||Hochberg's step-down procedure was adopted to control type I error across the 50 and 75 mg arms.|Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||0.0009
82599334|NCT05064059|164913893|OTHER||Difference in LS Means|-0.95||||0.637|TWO_SIDED|95.0|-4.93|3.02||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||3.02|-4.93|0.6370
82655213|NCT06179108|165026165|SUPERIORITY|||||||0.0022||||||Hochberg's step-down procedure was adopted to control type I error across the 50 and 75 mg arms.|Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||0.0022
82599335|NCT05064059|164913894|OTHER||Difference in LS Means|3.86||||0.1846|TWO_SIDED|95.0|-1.85|9.57||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||9.57|-1.85|0.1846
82599336|NCT05064059|164913895|OTHER||Difference in LS Means|0.56||||0.841|TWO_SIDED|95.0|-4.96|6.08||Two-sided p-value based on t-test.|t-test, 2 sided||Calculated using a cLDA model with PRO scores as response variable with covariates for treatment by study visit interaction \& stratified by geographic region, presence of liver metastasis \& time from diagnosis of metastatic disease to randomization.|||6.08|-4.96|0.8410
82599337|NCT05064059|164913896|OTHER||Hazard Ratio (HR)|1.0||||0.5094|TWO_SIDED|95.0|0.64|1.58||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||1.58|0.64|0.5094
82599338|NCT05064059|164913897|OTHER||Hazard Ratio (HR)|1.51||||0.9704|TWO_SIDED|95.0|0.98|2.33||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||2.33|0.98|0.9704
82599339|NCT05064059|164913898|OTHER||Hazard Ratio (HR)|1.82||||0.9905|TWO_SIDED|95.0|1.11|2.98||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization.|||2.98|1.11|0.9905
82599340|NCT05064059|164913899|OTHER||Hazard Ratio (HR)|1.86||||0.9853|TWO_SIDED|95.0|1.06|3.26||One-sided p-value based on log-rank test stratified by geographic region (Asia Pacific; EMEA/Americas), presence of liver metastasis (Yes/No) and time from initial diagnosis of metastatic disease to randomization (\>=18 months, \<18 months).|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, presence of liver metastasis \& time from initial diagnosis of metastatic disease to randomization|||3.26|1.06|0.9853
82599341|NCT04316585|164913900|SUPERIORITY||Mean Difference (Final Values)|-2.28|||||TWO_SIDED|95.0|-9.19|8.28|||Bayesian Logistic Regression Model|The model was adjusted for treatment (GSK2982772 vs placebo), baseline PASI score and prior biologic use (yes/no).|Posterior median and 95% CrI for the true difference in proportion of responders (GSK2982772 - placebo).|Bayesian logistic regression. An informative prior was used for the placebo response in this statistical analysis, the prior for placebo response rate was of the form: 90% weight on Be (5.39, 69) and 10% on Be (1/3,1/3). The prior was derived from historical data from similar clinical trials using meta-analytic predictive prior (MAP) approach. All other parameters took vague priors.||8.28|-9.19|
82599342|NCT04316585|164913900|SUPERIORITY||Mean Difference (Final Values)|0.11|||||TWO_SIDED|95.0|-4.81|8.07|||Bayesian Logistic Regression Model|The model was adjusted for treatment (GSK2982772 vs placebo), baseline PASI score and prior biologic use (yes/no).|Posterior median and 95% CrI for the true difference in proportion of responders (GSK2982772 - placebo).|||8.07|-4.81|
82599343|NCT03195517|164913912|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599344|NCT03195517|164913913|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82655214|NCT06179108|165026165|SUPERIORITY|||||||0.0017|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline total PANSS score.||||||.0017
82655215|NCT06179108|165026166|SUPERIORITY|||||||0.0008|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0008
82655216|NCT06179108|165026166|SUPERIORITY|||||||0.0048|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0048
82492024|NCT05096221|164677243|SUPERIORITY||Least squares mean change difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.7324|TWO_SIDED|95.0|-0.24|0.17|||Mixed model of repeated measures|||||0.17|-0.24|0.7324
82599345|NCT03195517|164913914|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599346|NCT03195517|164913915|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599347|NCT03195517|164913916|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599348|NCT03195517|164913917|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599349|NCT03195517|164913918|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599350|NCT03195517|164913919|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599351|NCT03195517|164913920|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599352|NCT03195517|164913921|OTHER|||||||0.05|||||||t-test, 1 sided|||||||0.05
82599353|NCT00122135|164913967|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||||||.77
82599354|NCT03269344|164913968|SUPERIORITY|||||||0.11|||||||ANOVA|||||||0.11
82599355|NCT03269344|164913969|SUPERIORITY|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82599356|NCT03269344|164913970|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82599357|NCT03269344|164913971|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82599358|NCT03269344|164913972|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
82599359|NCT03269344|164913973|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82599360|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.34|||||TWO_SIDED|90.0|66.05|149.43||||||Buprenorphine||149.43|66.05|
82599361|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|163.88|||||TWO_SIDED|90.0|110.82|242.34||||||Buprenorphine||242.34|110.82|
82655217|NCT06179108|165026166|SUPERIORITY|||||||0.0026|||||||Mixed Models Analysis|MMRM included treatment group, pooled study site, visit, visit by treatment interaction and baseline CGI-S score.||||||0.0026
82655218|NCT00486837|165026204|SUPERIORITY_OR_OTHER|||||||0.197||95.0|||||ANCOVA|||||||0.197
82599362|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|281.43|||||TWO_SIDED|90.0|187.1|423.33||||||Buprenorphine||423.33|187.10|
82599363|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.43|||||TWO_SIDED|90.0|52.14|117.98||||||Buprenorphine||117.98|52.14|
82599364|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|126.66|||||TWO_SIDED|90.0|81.87|195.97||||||Buprenorphine||195.97|81.87|
82599365|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|208.94|||||TWO_SIDED|90.0|137.21|318.18||||||Buprenorphine||318.18|137.21|
82599366|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|358.83|||||TWO_SIDED|90.0|231.92|555.17||||||Buprenorphine||555.17|231.92|
82599367|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.09|||||TWO_SIDED|90.0|44.03|138.49||||||Norbuprenorphine||138.49|44.03|
82599368|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|74.78|||||TWO_SIDED|90.0|39.26|142.41||||||Norbuprenorphine||142.41|39.26|
82599369|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|11.45|||||TWO_SIDED|90.0|6.35|20.66||||||Norbuprenorphine||20.66|6.35|
82599370|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|71.08|||||TWO_SIDED|90.0|39.0|129.49||||||Norbuprenorphine||129.49|39.00|
82599371|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|109.9|||||TWO_SIDED|90.0|58.14|207.75||||||Norbuprenorphine||207.75|58.14|
82599372|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|105.23|||||TWO_SIDED|90.0|52.17|212.24||||||Norbuprenorphine||212.24|52.17|
82599373|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|16.12|||||TWO_SIDED|90.0|8.4|30.94||||||Norbuprenorphine||30.94|8.40|
82599374|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|79.3|||||TWO_SIDED|90.0|40.03|157.12||||||Naloxone||157.12|40.03|
82599375|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|317.58|||||TWO_SIDED|90.0|164.93|611.54||||||Naloxone||611.54|164.93|
82599376|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1401.85|||||TWO_SIDED|90.0|707.55|2777.46||||||Naloxone||2777.46|707.55|
82599377|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|105.78|||||TWO_SIDED|90.0|53.39|209.59||||||Naloxone||209.59|53.39|
82599378|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|74.97|||||TWO_SIDED|90.0|36.09|155.71||||||Naloxone||155.71|36.09|
82599379|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|300.22|||||TWO_SIDED|90.0|148.44|607.21||||||Naloxone||607.21|148.44|
82599380|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1325.22|||||TWO_SIDED|90.0|638.03|2752.55||||||Naloxone||2752.55|638.03|
82599381|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|85.87|||||TWO_SIDED|90.0|66.06|111.61||||||Naloxone-3-β-D-Glucuronide||111.61|66.06|
82599382|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|123.77|||||TWO_SIDED|90.0|96.27|159.13||||||Naloxone-3-β-D-Glucuronide||159.13|96.27|
82599383|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|91.26|||||TWO_SIDED|90.0|70.21|118.62||||||Naloxone-3-β-D-Glucuronide||118.62|70.21|
82599384|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|84.78|||||TWO_SIDED|90.0|65.23|110.2||||||Naloxone-3-β-D-Glucuronide||110.20|65.23|
82599385|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|101.28|||||TWO_SIDED|90.0|76.52|134.06||||||Naloxone-3-β-D-Glucuronide||134.06|76.52|
82599386|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|145.99|||||TWO_SIDED|90.0|111.43|191.26||||||Naloxone-3-β-D-Glucuronide||191.26|111.43|
82599387|NCT01846455|164913974|SUPERIORITY_OR_OTHER||ratio of parameter means, %|107.64|||||TWO_SIDED|90.0|81.33|142.47||||||Naloxone-3-β-D-Glucuronide||142.47|81.33|
82599388|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|120.02|||||TWO_SIDED|90.0|83.35|172.82||||||Buprenorphine||172.82|83.35|
82599389|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|107.85|||||TWO_SIDED|90.0|75.85|153.36||||||Buprenorphine||153.36|75.85|
82599390|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|171.76|||||TWO_SIDED|90.0|117.93|250.15||||||Buprenorphine||250.15|117.93|
82599391|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|112.82|||||TWO_SIDED|90.0|77.66|163.91||||||Buprenorphine||163.91|77.66|
82599392|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|106.38|||||TWO_SIDED|90.0|71.43|158.43||||||Buprenorphine||158.43|71.43|
82599393|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|95.59|||||TWO_SIDED|90.0|64.36|141.99||||||Buprenorphine||141.99|64.36|
82599394|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|152.24|||||TWO_SIDED|90.0|103.08|224.83||||||Buprenorphine||224.83|103.08|
82599395|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|135.17|||||TWO_SIDED|90.0|75.44|242.16||||||Norbuprenorphine||242.16|75.44|
82599396|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|67.87|||||TWO_SIDED|90.0|38.82|118.68||||||Norbuprenorphine||118.68|38.82|
82599397|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|48.39|||||TWO_SIDED|90.0|27.01|86.69||||||Norbuprenorphine||86.69|27.01|
82599398|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|76.59|||||TWO_SIDED|90.0|42.75|137.22||||||Norbuprenorphine||137.22|42.75|
82599399|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|176.48|||||TWO_SIDED|90.0|94.62|329.17||||||Norbuprenorphine||329.17|94.62|
82599400|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|88.62|||||TWO_SIDED|90.0|48.6|161.59||||||Norbuprenorphine||161.59|48.60|
82599401|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|63.17|||||TWO_SIDED|90.0|33.87|117.83||||||Norbuprenorphine||117.83|33.87|
82599402|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|100.41|||||TWO_SIDED|90.0|51.3|196.53||||||Naloxone||196.53|51.30|
82599403|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|270.0|||||TWO_SIDED|90.0|141.86|513.9||||||Naloxone||513.90|141.86|
82599404|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1129.81|||||TWO_SIDED|90.0|577.22|2211.44||||||Naloxone||2211.44|577.22|
82599405|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|126.25|||||TWO_SIDED|90.0|64.5|247.11||||||Naloxone||247.11|64.50|
82599406|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|79.53|||||TWO_SIDED|90.0|38.79|163.06||||||Naloxone||163.06|38.79|
82599407|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|213.86|||||TWO_SIDED|90.0|107.07|427.17||||||Naloxone||427.17|107.07|
82599408|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|894.91|||||TWO_SIDED|90.0|436.49|1834.8||||||Naloxone||1834.80|436.49|
82599409|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|111.03|||||TWO_SIDED|90.0|85.94|143.44||||||Naloxone-3-β-D-Glucuronide||143.44|85.94|
82599410|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|111.22|||||TWO_SIDED|90.0|87.02|142.16||||||Naloxone-3-β-D-Glucuronide||142.16|87.02|
82599411|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|83.09|||||TWO_SIDED|90.0|64.32|107.35||||||Naloxone-3-β-D-Glucuronide||107.35|64.32|
82599412|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|83.66|||||TWO_SIDED|90.0|64.75|108.08||||||Naloxone-3-β-D-Glucuronide||108.08|64.75|
82599413|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.72|||||TWO_SIDED|90.0|100.93|174.53||||||Naloxone-3-β-D-Glucuronide||174.53|100.93|
82599414|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.95|||||TWO_SIDED|90.0|102.12|173.1||||||Naloxone-3-β-D-Glucuronide||173.10|102.12|
82599415|NCT01846455|164913975|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.33|||||TWO_SIDED|90.0|75.54|130.61||||||Naloxone-3-β-D-Glucuronide||130.61|75.54|
82599416|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|125.19|||||TWO_SIDED|90.0|79.46|197.24||||||Buprenorphine||197.24|79.46|
82599417|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|220.97|||||TWO_SIDED|90.0|135.33|360.81||||||Buprenorphine||360.81|135.33|
82599418|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|249.28|||||TWO_SIDED|90.0|162.19|383.14||||||Buprenorphine||383.14|162.19|
82655219|NCT04817891|165026236|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82655220|NCT04817891|165026237|SUPERIORITY|||||||0.018||||||p value for the Ventral Attention Network (network segregation)|t-test, 2 sided|||||||0.018
82655221|NCT04817891|165026237|SUPERIORITY|||||||0.944||||||p value for the Cingulo Opercular Network (network segregation)|t-test, 2 sided|||||||0.944
82655222|NCT04817891|165026238|SUPERIORITY|||||||0.239|||||||t-test, 1 sided|||||||0.239
82599419|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|94.44|||||TWO_SIDED|90.0|56.44|158.02||||||Buprenorphine||158.02|56.44|
82599420|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|132.57|||||TWO_SIDED|90.0|78.86|222.84||||||Buprenorphine||222.84|78.86|
82599421|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|233.99|||||TWO_SIDED|90.0|135.63|403.68||||||Buprenorphine||403.68|135.63|
82599422|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|263.97|||||TWO_SIDED|90.0|155.52|448.03||||||Buprenorphine||448.03|155.52|
82599423|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|159.38|||||TWO_SIDED|90.0|78.21|324.79||||||Norbuprenorphine||324.79|78.21|
82599424|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|106.93|||||TWO_SIDED|90.0|52.47|217.91||||||Norbuprenorphine||217.91|52.47|
82599425|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|87.1|||||TWO_SIDED|90.0|42.74|177.5||||||Norbuprenorphine||177.50|42.74|
82599426|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|182.98|||||TWO_SIDED|90.0|89.79|372.89||||||Norbuprenorphine||372.89|89.79|
82599427|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|122.77|||||TWO_SIDED|90.0|60.24|250.19||||||Norbuprenorphine||250.19|60.24|
82599428|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|69.12|||||TWO_SIDED|90.0|33.45|142.82||||||Naloxone||142.82|33.45|
82599429|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|282.17|||||TWO_SIDED|90.0|141.59|562.3||||||Naloxone||562.30|141.59|
82599430|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1497.7|||||TWO_SIDED|90.0|724.85|3094.59||||||Naloxone||3094.59|724.85|
82599431|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|87.64|||||TWO_SIDED|90.0|40.3|190.59||||||Naloxone||190.59|40.30|
82599432|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|78.86|||||TWO_SIDED|90.0|34.34|181.12||||||Naloxone||181.12|34.34|
82599433|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|321.94|||||TWO_SIDED|90.0|144.65|716.52||||||Naloxone||716.52|144.65|
82599434|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|1708.83|||||TWO_SIDED|90.0|744.08|3924.47||||||Naloxone||3924.47|744.08|
82599435|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|84.2|||||TWO_SIDED|90.0|60.92|116.38||||||Naloxone-3-β-D-Glucuronide||116.38|60.92|
82599436|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|110.98|||||TWO_SIDED|90.0|82.02|150.17||||||Naloxone-3-β-D-Glucuronide||150.17|82.02|
82599437|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|81.97|||||TWO_SIDED|90.0|60.03|111.92||||||Naloxone-3-β-D-Glucuronide||111.92|60.03|
82599438|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|82.78|||||TWO_SIDED|90.0|59.89|114.42||||||Naloxone-3-β-D-Glucuronide||114.42|59.89|
82599439|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|101.71|||||TWO_SIDED|90.0|74.96|138.0||||||Naloxone-3-β-D-Glucuronide||138.00|74.96|
82599440|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|134.06|||||TWO_SIDED|90.0|101.07|177.82||||||Naloxone-3-β-D-Glucuronide||177.82|101.07|
82599441|NCT01846455|164913976|SUPERIORITY_OR_OTHER||ratio of parameter means, %|99.02|||||TWO_SIDED|90.0|73.93|132.61||||||Naloxone-3-β-D-Glucuronide||132.61|73.93|
82599442|NCT02066792|164913985|SUPERIORITY||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-0.81|-0.21||two-sided|Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||At 3 month follow-up||-.21|-.81|<.001
82599443|NCT02066792|164913985|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.15||0.635|TWO_SIDED|95.0|-0.37|0.23||Two-sided|Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||.23|-.37|.635
82655223|NCT04817891|165026239|SUPERIORITY|||||||0.168|||||||t-test, 1 sided|||||||0.168
82655224|NCT05065502|165026244|SUPERIORITY||Mean Difference (Net)|-0.261|STANDARD_ERROR_OF_MEAN|0.238||0.273|TWO_SIDED|95.0|-0.728|0.206||Significance level is set at 0.05.|Regression, Linear||Between-arm difference at 13-18 months post-baseline, controlling for rates 1-6 months pre-baseline|Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs of post-intervention period (months 13 to 18), controlling for use in pre-baseline period (months 0 to 6), averaged across three studies.||0.206|-0.728|0.273
82655225|NCT05065502|165026245|SUPERIORITY||Mean Difference (Net)|0.00138|||||TWO_SIDED|95.0|-0.0245|0.0272||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.0272|-0.0245|
82599444|NCT02066792|164913985|SUPERIORITY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.16||0.002|TWO_SIDED|95.0|-0.8|-0.18|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||||-.18|-.80|.002
82599445|NCT02066792|164913985|SUPERIORITY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.15||0.004|TWO_SIDED|95.0|-0.73|-0.14|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||-.14|-.73|.004
82599446|NCT02066792|164913985|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.16||0.008|TWO_SIDED|95.0|-0.72|-0.11|||Mixed Models Analysis|Four level multivariate MLM with measures nested within time, which was nested within subjects, who were nested within treatment cohort.||3 month follow-up||-.11|-.72|.008
82599447|NCT01449708|164913986|SUPERIORITY_OR_OTHER||Relative Risk|1.27||||0.04|TWO_SIDED|95.0|1.01|1.61|||Chi-squared|||||1.61|1.01|0.04
82599448|NCT01449708|164913988|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.04||||0.009|TWO_SIDED|95.0|1.28|7.29|||Chi-squared|||Grouping of surgical procedures into three categories, analysis using bonferroni correction, 1) ReY group( gastric bypass, conversion to gastric bypass and revision gastric bypass) 2) Gastric Band (GB), 3) sleeve gastrectomy (SG)||7.29|1.28|0.009
82599449|NCT00847587|164913992|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 8 additional hours was chosen to be clinically relevant, as many common medical interventions (such as epidural anesthesia, cesarean delivery, labor induction, and general stress) have been reported to delay time to lactogenesis stage II by up to 12 hours.|Mean Difference (Final Values)|0.03|STANDARD_DEVIATION|120.0|<|0.05|TWO_SIDED|95.0|-10.6|7.7|||t-test, 2 sided|||It was assumed that both groups would have a mean of 54 hours to lactogenesis with a common standard deviation of 12 hours based on previous reports of lactogenesis in women with uncomplicated vaginal deliveries. Setting the noninferiority margin at 8 additional hours, using an alpha 0.05 level comparison, to achieve 80% power a sample size of n=34 evaluable subjects was required in each group. The calculation was performed using N Solution 2007 Professional Software.||7.7|-10.6|<0.05
82599450|NCT00847587|164913993|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.61|STANDARD_DEVIATION|1.8|<|0.05|TWO_SIDED|95.0|-1.3|2.5|||t-test, 2 sided|||||2.5|-1.3|<0.05
82599451|NCT02723201|164913994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.402|||<|0.001|TWO_SIDED|90.0|0.32|0.505|||ANOVA|||Analysis of variance (ANOVA) was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90 percent (%) confidence interval (CI) was obtained by taking the antilog of the difference in the log transformed least square (LS) means and its CI, respectively.||0.505|0.320|<0.001
82599452|NCT02723201|164913994|SUPERIORITY_OR_OTHER||LS Mean Difference|1.216||||0.249|TWO_SIDED|90.0|1.016|1.455|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||1.455|1.016|0.249
82599453|NCT02723201|164913994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.055|||<|0.001|TWO_SIDED|90.0|0.041|0.074|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.074|0.041|<0.001
82599454|NCT02723201|164913994|SUPERIORITY_OR_OTHER||LS Mean Difference|0.685||||0.054|TWO_SIDED|90.0|0.499|0.939|||ANOVA|||ANOVA was performed on the natural logarithms of Cmax with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.939|0.499|0.054
82599455|NCT02723201|164913996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.648||||0.007|TWO_SIDED|90.0|0.497|0.844|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.844|0.497|0.007
82599456|NCT02723201|164913996|SUPERIORITY_OR_OTHER||LS Mean Difference|1.18||||0.423|TWO_SIDED|90.0|1.088|1.279|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||1.279|1.088|0.423
82599457|NCT02723201|164913996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.116|||<|0.001|TWO_SIDED|90.0|0.077|0.176|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.176|0.077|<0.001
82599458|NCT02723201|164913996|SUPERIORITY_OR_OTHER||LS Mean Difference|0.836||||0.037|TWO_SIDED|90.0|0.731|0.957|||ANOVA|||ANOVA was performed on the natural logarithms of AUC∞ with regimen as the fixed effects and participant as the random effect. The point estimate and 90% CI was obtained by taking the antilog of the difference in the log transformed LS means and its CI, respectively.||0.957|0.731|0.037
82599459|NCT01978093|164914002|NON_INFERIORITY|Lower limit of the standardized asymptotic 95% CI for the difference (HibCY group minus the PedHIB group) in the percentage of subjects with anti-PRP concentrations ≥1.0 mg/mL is to be≥-10% (clinical limit for non-inferiority).|Difference in percentage of subjects|0.96|||||TWO_SIDED|95.0|-2.12|4.3|||Group difference in proportions|Before concluding on the primary objectives for Rotarix, Prevnar 13 and Havrix, this primary objective regarding anti-PRP needs to be reached||Difference between HibCY and PedHIB groups in percentage of subjects with anti-PRP concentrations equal to or above the cut-off value of 1.0 µg/mL one month after the fourth dose in HibCY Group and third dose in PedHIB Group.||4.30|-2.12|
82599460|NCT01978093|164914003|NON_INFERIORITY|Non-inferiority is concluded if lower limit of the two-sided standardized asymptotic 97.5% CI on the ratio of anti-rotavirus IgA GMC (HibCY group over PedHIB group) is to be ≥0.5|Adjusted GMC ratios|1.21|||||TWO_SIDED|97.5|0.77|1.9|||ANCOVA|GMC adjusted for BS sub-cohorts;97.5% confidence interval calculated for adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 Post dose 3)\& Epoch 002 (Havrix \& Prevnar13 post dose 4),a Bonferroni correction is used in order to test these objectives(1.25% 1sided for Epoch 001 \& 002)|GMC ratios between HibCY and PedHIB groups for anti-Rota IgA concentrations 2 months after the second dose of Rotarix vaccine||1.90|0.77|
82655226|NCT05065502|165026246|SUPERIORITY||Mean Difference (Net)|23.0|||||TWO_SIDED|95.0|-23.3|69.3|||||Statistical Assumptions for Valid Inference of a typical Difference-in-Difference model were not met, Estimate computed from modelling Post-period, and adjusting for Pre-period.|Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in medication costs from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).||69.3|-23.3|
82655227|NCT05065502|165026247|SUPERIORITY||Median Difference (Net)|-0.599|||||TWO_SIDED|95.0|-1.08|-0.122||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in count of medication note reviews from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).|"Medication reviews per 1,000 patients (outcome multiplied by 1,000).~Statistical Assumptions for Valid Inference of a typical Difference-in-Difference model were not met, Estimate computed from modelling Post-period, and adjusting for Pre-period."|-0.122|-1.080|
82655228|NCT05065502|165026248|SUPERIORITY||Mean Difference (Net)|-0.05317|||||TWO_SIDED|95.0|-0.09073|0.01561||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in count of inappropriate use from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18)||0.01561|-0.09073|
82655229|NCT05065502|165026249|SUPERIORITY||Mean Difference (Net)|-0.12|||||TWO_SIDED|95.0|-1.44|1.2||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use from 6-months pre-baseline period to 6-month post-intervention period (months 13 to 18).||1.20|-1.44|
82655230|NCT05065502|165026250|SUPERIORITY||Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-0.83|0.42||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of of high-risk DOAC use attributable to chronic kidney disease for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6), ), controlling for the pre-baseline period (months 0 to 6).||0.42|-0.83|
82655231|NCT05065502|165026251|SUPERIORITY||Mean Difference (Net)|0.32|||||TWO_SIDED|95.0|-0.08|0.72||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use attributable to weight for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.72|-0.08|
82599461|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 1 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.95|1.47|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio (Ancova Model: adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix \& Prevnar13 post dose 4),Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 1 concentrations one month after the third dose.||1.47|0.95|
82599462|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 3 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.15|||||TWO_SIDED|97.5|0.93|1.42|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 3 concentrations one month after the third dose.||1.42|0.93|
82655232|NCT05065502|165026252|SUPERIORITY||Mean Difference (Net)|-0.18|||||TWO_SIDED|95.0|-0.7|0.33||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of high-risk DOAC use attributable to mis-dosing for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.33|-0.70|
82655233|NCT05065502|165026253|SUPERIORITY||Mean Difference (Net)|0.01007|||||TWO_SIDED|95.0|-0.02415|0.04429||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of CBTI receipt for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6)||0.04429|-0.02415|
82655234|NCT05065502|165026256|SUPERIORITY||Mean Difference (Net)|-0.0837|||||TWO_SIDED|95.0|-0.21014|0.04275||||||Between group comparison is done using between-arm difference (as 'AD+LEAP' minus 'AD only') in within-arm change in proportion of PIMs for the post-intervention period (months 13 to 18), controlling for the pre-baseline period (months 0 to 6).||0.04275|-0.21014|
82655235|NCT05065502|165026257|SUPERIORITY||Mean Difference (Net)|0.102|||||TWO_SIDED|95.0|-0.216|0.42||||||||0.420|-0.216|
82655236|NCT05065502|165026258|SUPERIORITY||Mean Difference (Net)|-0.0389|||||TWO_SIDED|95.0|-0.555|0.477||||||||0.477|-0.555|
82655237|NCT05065502|165026259|SUPERIORITY||Mean Difference (Net)|0.101|||||TWO_SIDED|95.0|-0.25|0.452||||||||0.452|-0.250|
82655238|NCT05065502|165026260|SUPERIORITY||Mean Difference (Net)|-0.0428|||||TWO_SIDED|95.0|-0.339|0.254||||||||0.254|-0.339|
82492025|NCT05096221|164677244|SUPERIORITY||Least squares mean change difference|0.19|STANDARD_ERROR_OF_MEAN|0.44||0.6554|TWO_SIDED|95.0|-0.67|1.06|||Mixed model of repeated measures|||||1.06|-0.67|0.6554
82655239|NCT03587207|165026285|OTHER|rMenBOMV+ACWY\_S is to be declared statistically inferior if the 2-sided 80% CIs of the between group ratio of the GMT with rMenBOMV+ACWY\_D as control is lower than 1 at 1 month after last vaccination. The following ANCOVA model is used: fixed-effect model including age strata, study group, strain and center as fixed effects. The pre vaccination (Baseline) log-transformed titer with centering at zero is included as a continuous covariate.|Geometric mean ratio|0.96|||||TWO_SIDED|80.0|0.83|1.1|||ANCOVA|An interaction between strain and pre-vaccination log transformed titer is included in the model to fit to the serogroup B test strain data only.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the pooled B strains, one month after last vaccination.||1.10|0.83|
82655240|NCT03587207|165026286|OTHER|M14459 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|1.0|||||TWO_SIDED|80.0|0.84|1.2|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.20|0.84|
82655241|NCT03587207|165026286|OTHER|96217 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|1.05||||||80.0|0.88|1.26|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.26|0.88|
82655242|NCT03587207|165026286|OTHER|NZ98/254 strain-Between group ratios for comparison of rMenBOMV+ACWY\_S and rMenBOMV+ACWY\_D groups|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.64|0.95|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.95|0.64|
82599463|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 4 is to be≥ 0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.08|||||TWO_SIDED|97.5|0.9|1.31|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 4 concentrations one month after the third dose.||1.31|0.90|
82599464|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 5 is to be ≥ 0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.95|1.47|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 5 concentrations one month after the third dose.||1.47|0.95|
82599465|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6A is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.29|||||TWO_SIDED|97.5|1.03|1.63|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6A concentrations one month after the third dose.||1.63|1.03|
82599466|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6B is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.17|||||TWO_SIDED|97.5|0.88|1.55|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6B concentrations one month after the third dose.||1.55|0.88|
82599467|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 7F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.11|||||TWO_SIDED|97.5|0.91|1.34|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 7F concentrations one month after the third dose.||1.34|0.91|
82599468|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 9V is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.25|||||TWO_SIDED|97.5|1.0|1.55|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 9V concentrations one month after the third dose.||1.55|1.00|
82499396|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031|STANDARD_ERROR_OF_MEAN|0.055||||90.0|-0.06|0.122|||ANCOVA|||Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.122|-0.060|
82599469|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 14 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.9|1.5|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 14 concentrations one month after the third dose.||1.50|0.90|
82599470|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 18C is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.24|||||TWO_SIDED|97.5|1.01|1.52|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 18C concentrations one month after the third dose.||1.52|1.01|
82599471|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19A is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.94|1.43|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19A concentrations one month after the third dose.||1.43|0.94|
82599472|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.07|||||TWO_SIDED|97.5|0.89|1.29|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19F concentrations one month after the third dose.||1.29|0.89|
82599473|NCT01978093|164914004|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 23F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.18|||||TWO_SIDED|97.5|0.91|1.53|||ANCOVA|GMC adjusted for BS subcohorts;97.5% CI for the adjusted GMC ratio(Ancova model:adjustment for BS subcohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix\&Prevnar13 post dose 4),a Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|GMC ratio between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 23F concentrations one month after the third dose.||1.53|0.91|
82599474|NCT01978093|164914005|NON_INFERIORITY|Lower limit of the two-sided standardized asymptotic 97.5% CI on the difference (HibCY group minus the PedHIB group) in the percentage of subjects with anti-HAV concentrations ≥15 mIU/mL is to be≥-10% (clinical limit for non-inferiority).|Difference in percentage of subjects|0.0|||||TWO_SIDED|97.5|-3.76|3.91|||Group difference in proportions||To be able to conclude independently on primary objectives of Epoch 001(Rotarix \& Prevnar13 post dose 3)\& Epoch 002(Havrix \& Prevnar13 post dose 4),Bonferroni correction is used to test these primary objectives(1.25% 1sided for Epoch 001 \& Epoch 002)|Difference between HibCY and PedHIB groups in percentage of subjects with anti-HAV concentrations equal to or above the cut-off value of 15 mIU/mL one month after the second Havrix dose.||3.91|-3.76|
82599475|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 1 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.25|||||TWO_SIDED|97.5|1.04|1.51|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 1 concentrations one month after the fourth dose||1.51|1.04|
82599476|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 3 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.01|||||TWO_SIDED|97.5|0.83|1.24|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 3 concentrations one month after the fourth dose||1.24|0.83|
82655243|NCT03587207|165026286|OTHER|M07-0241084 strain- Between group ratios for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.66|0.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.96|0.66|
82655244|NCT03587207|165026286|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.92|||||TWO_SIDED|80.0|0.74|1.14|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup A, one month after last vaccination.||1.14|0.74|
82492026|NCT04678661|164677251|SUPERIORITY|||||||0.207||||||Propensity score matching was used to form pairs of intervention and control participants. Specifically, a greedy matching procedure with a matching caliper of 0.2 of the standard deviation of the logit of the propensity score was used.|Regression, Linear|Model adjusted for covariates of age, race, baseline BMI, and baseline hemoglobin A1c.||||||.207
82599477|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 4 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.1|||||TWO_SIDED|97.5|0.92|1.31|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 4 concentrations one month after the fourth dose||1.31|0.92|
82599478|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 5 is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.06|||||TWO_SIDED|97.5|0.87|1.28|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 5 concentrations one month after the fourth dose||1.28|0.87|
82599479|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6A is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.21|||||TWO_SIDED|97.5|1.01|1.44|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6A concentrations one month after the fourth dose||1.44|1.01|
82599480|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 6B is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.13|||||TWO_SIDED|97.5|0.94|1.36|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 6B concentrations one month after the fourth dose||1.36|0.94|
82599481|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 7F is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.09|||||TWO_SIDED|97.5|0.93|1.29|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 7F concentrations one month after the fourth dose||1.29|0.93|
82599482|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 9V is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.12|||||TWO_SIDED|97.5|0.94|1.33|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 9V concentrations one month after the fourth dose||1.33|0.94|
82599483|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 14 is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.16|||||TWO_SIDED|97.5|0.96|1.41|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 14 concentrations one month after the fourth dose||1.41|0.96|
82599484|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 18C is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.14|||||TWO_SIDED|97.5|0.97|1.35|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 18C concentrations one month after the fourth dose||1.35|0.97|
82599485|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 19A is to be ≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.09|||||TWO_SIDED|97.5|0.9|1.31|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19A concentrations one month after the fourth dose||1.31|0.90|
82655245|NCT03587207|165026286|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|1.0|||||TWO_SIDED|80.0|0.78|1.27|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup C, one month after last vaccination.||1.27|0.78|
82599486|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB Group) for antibodies to S. pneumoniae serotype 19F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.12|||||TWO_SIDED|97.5|0.95|1.34|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 19F concentrations one month after the fourth dose||1.34|0.95|
82599487|NCT01978093|164914006|NON_INFERIORITY|Lower limit of the two-sided 97.5% CI on the GMC ratio (HibCY group over PedHIB group) for antibodies to S. pneumoniae serotype 23F is to be≥0.5 (clinical limit for non-inferiority).|Adjusted GMC ratio|1.22|||||TWO_SIDED|97.5|1.0|1.5|||ANCOVA|GMC adjusted for BS sub cohorts;97.5% CI for adjusted GMC ratio(Ancova model:adjustment for BS sub cohorts-pooled variance)|To be able to conclude independently on primary objectives of Epoch 001 \& Epoch 002, a Bonferroni correction is used to test these primary objectives(1.25% one-sided for Epoch 001 and Epoch 002)|GMC ratios between HibCY and PedHIB groups for antibodies to S. pneumoniae serotype 23F concentrations one month after the fourth dose||1.50|1.00|
82599488|NCT03193398|164914021|OTHER||Mean Difference (Net)|-1.3||||0.5939|TWO_SIDED|95.0|-6.3|3.6|||MMRM|MMRM: mixed model for repeated measures||Difference in LS Means (BTRX-246040 - Placebo)||3.6|-6.3|0.5939
82599489|NCT03193398|164914022|OTHER||Mean Difference (Net)|-1.0||||0.5503|TWO_SIDED|95.0|-4.4|2.3|||MMRM|MMRM: mixed model for repeated measures||Analysis of Change from Baseline in Investigator-administered MADRS-6 Total Score at week 8||2.3|-4.4|0.5503
82599490|NCT03193398|164914023|OTHER||Mean Difference (Net)|0.8||||0.3906|TWO_SIDED|95.0|-1.1|2.8|||MMRM|MMRM: mixed model for repeated measures||||2.8|-1.1|0.3906
82599491|NCT03193398|164914024|OTHER||Mean Difference (Net)|0.9||||0.4187|TWO_SIDED|95.0|-1.3|3.1||+/-|MMRM|MMRM: mixed model for repeated measures||||3.1|-1.3|0.4187
82599492|NCT03193398|164914025|OTHER||Mean Difference (Net)|-3.0||||0.4869|TWO_SIDED|95.0|-11.5|5.5|||MMRM|MMRM: mixed model for repeated measures||||5.5|-11.5|0.4869
82599493|NCT03193398|164914026|OTHER||Mean Difference (Net)|1.2||||0.5178|TWO_SIDED|95.0|-2.4|4.7|||MMRM|MMRM: mixed model for repeated measures||||4.7|-2.4|0.5178
82599494|NCT03083886|164914073|SUPERIORITY||Risk Ratio (RR)|0.93||||0.04|TWO_SIDED|95.0|0.87|0.997|||GEE with log link and Poisson errors|||||.997|.87|.04
82599495|NCT03083886|164914073|SUPERIORITY||Risk Ratio (RR)|1.4|||<|0.001|TWO_SIDED|95.0|1.35|1.45|||GEE with log link and Poisson errors|||||1.45|1.35|<0.001
82599496|NCT03083886|164914074|SUPERIORITY||Risk Difference (RD)|-5.8|||<|0.001|TWO_SIDED|95.0|-7.7|-3.9|||GEE with identity link and normal errors|||||-3.9|-7.7|<0.001
82599497|NCT03083886|164914074|SUPERIORITY||Risk Difference (RD)|-4.3|||<|0.001|TWO_SIDED|95.0|-5.9|-2.6|||GEE with identity link and normal errors|||||-2.6|-5.9|<0.001
82599498|NCT03083886|164914075|SUPERIORITY||Risk Difference (RD)|-7.5|||<|0.001|TWO_SIDED|95.0|-9.4|-5.7|||GEE with identity link and normal errors|||||-5.7|-9.4|<0.001
82599499|NCT03083886|164914075|SUPERIORITY||Risk Difference (RD)|-6.7|||<|0.001|TWO_SIDED|95.0|-8.4|-5.0|||GEE with identity link and normal errors|||||-5.0|-8.4|<0.001
82599500|NCT03083886|164914076|SUPERIORITY||Risk Difference (RD)|4.7|||<|0.001|TWO_SIDED|95.0|2.6|6.8|||GEE with identity link and normal errors|||||6.8|2.6|<0.001
82599501|NCT03083886|164914076|SUPERIORITY||Risk Difference (RD)|6.0|||<|0.001|TWO_SIDED|95.0|4.1|7.9|||GEE with identity link and normal errors|||||7.9|4.1|<0.001
82599502|NCT03083886|164914077|SUPERIORITY||Risk Difference (RD)|6.8|||<|0.001|TWO_SIDED|95.0|5.0|8.7|||GEE with identity link and normal errors|||||8.7|5.0|<0.001
82599503|NCT03083886|164914077|SUPERIORITY||Risk Difference (RD)|6.7|||<|0.001|TWO_SIDED|95.0|5.0|8.4|||GEE with identity link and normal errors|||||8.4|5.0|<0.001
82599504|NCT02475655|164914171|SUPERIORITY|||||||0.67||||||Not adjusted for multiple comparisons. One-sided 5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants experiencing safety milestones from Entry to Week 5.||||0.67
82599505|NCT02475655|164914174|SUPERIORITY||Mean Difference (Net)|0.85||||0.18|TWO_SIDED|90.0|0.69|1.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from baseline to week 4/5.||1.04|0.69|0.18
82599506|NCT02475655|164914176|SUPERIORITY|||||||0.4||||||Not adjusted for multiple comparisons. One-sided 5% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants experiencing safety milestones from Entry to Week 12.||||0.40
82599507|NCT02475655|164914180|SUPERIORITY||Mean Difference (Net)|1.31||||0.7|TWO_SIDED|90.0|-4.27|6.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to Week 1/2.||6.90|-4.27|0.70
82599508|NCT02475655|164914180|SUPERIORITY||Mean Difference (Net)|1.61||||0.69|TWO_SIDED|90.0|-5.06|8.29||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to Week 4/5.||8.29|-5.06|0.69
82599509|NCT02475655|164914180|SUPERIORITY||Mean Difference (Net)|6.35||||0.09|TWO_SIDED|90.0|0.16|12.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the change in creatinine clearance from Entry to 10/12.||12.5|0.16|0.09
82599510|NCT02475655|164914182|SUPERIORITY||Mean Difference (Net)|-0.02||||0.58|TWO_SIDED|90.0|-0.06|0.03||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to Week 1/2.||0.03|-0.06|0.58
82599511|NCT02475655|164914182|SUPERIORITY||Mean Difference (Net)|-0.01||||0.79|TWO_SIDED|90.0|-0.06|0.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to Week 4/5.||0.04|-0.06|0.79
82599512|NCT02475655|164914182|SUPERIORITY||Mean Difference (Net)|-0.07||||0.016|TWO_SIDED|90.0|-0.11|-0.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in creatinine from Entry to 10/12.||-0.02|-0.11|0.016
82599513|NCT02475655|164914184|SUPERIORITY||Mean Difference (Net)|-679.0||||0.018|TWO_SIDED|90.0|-1146.0|-212.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 1/2.||-212|-1146|0.018
82599514|NCT02475655|164914184|SUPERIORITY||Mean Difference (Net)|-651.0||||0.021|TWO_SIDED|90.0|-1110.0|-192.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 4/5.||-192|-1110|0.021
82599515|NCT02475655|164914184|SUPERIORITY||Mean Difference (Net)|33.6||||0.91|TWO_SIDED|90.0|-461.0|528.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in absolute neutrophil count (ANC) from Entry to Week 10/12.||528|-461|0.91
82599516|NCT02475655|164914186|SUPERIORITY||Mean Difference (Net)|-0.13||||0.45|TWO_SIDED|90.0|-0.42|0.15||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 1/2.||0.15|-0.42|0.45
82599517|NCT02475655|164914186|SUPERIORITY||Mean Difference (Net)|-0.55||||0.005|TWO_SIDED|90.0|-0.87|-0.23||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 4/5.||-0.23|-0.87|0.005
82599518|NCT02475655|164914186|SUPERIORITY||Mean Difference (Net)|0.15||||0.75|TWO_SIDED|90.0|-0.65|0.95||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in hemoglobin from Entry to Week 10/12.||0.95|-0.65|0.75
82599519|NCT02475655|164914188|SUPERIORITY||Mean Difference (Net)|37754.0|||<|0.001|TWO_SIDED|90.0|19609.0|55898.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 1/2.||55898|19609|<0.001
82599520|NCT02475655|164914188|SUPERIORITY||Mean Difference (Net)|27832.0||||0.012|TWO_SIDED|90.0|9849.0|45815.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 4/5.||45815|9849|0.012
82599521|NCT02475655|164914188|SUPERIORITY||Mean Difference (Net)|5376.0||||0.52|TWO_SIDED|90.0|-8592.0|19344.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in platelet values from Entry to Week 10/12.||19344|-8592|0.52
82599522|NCT02475655|164914190|SUPERIORITY||Mean Difference (Net)|4.96||||0.05|TWO_SIDED|90.0|0.78|9.14||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 1/2.||9.14|0.78|0.05
82599523|NCT02475655|164914190|SUPERIORITY||Mean Difference (Net)|8.15|||<|0.001|TWO_SIDED|90.0|4.47|11.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 4/5.||11.8|4.47|<0.001
82599524|NCT02475655|164914190|SUPERIORITY||Mean Difference (Net)|3.95||||0.025|TWO_SIDED|90.0|1.08|6.81||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Aspartate Aminotransferase (AST) (SGOT) values from Entry to Week 10/12.||6.81|1.08|0.025
82599525|NCT02475655|164914192|SUPERIORITY||Mean Difference (Net)|4.9||||0.02|TWO_SIDED|90.0|1.46|8.33||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 1/2.||8.33|1.46|0.020
82599526|NCT02475655|164914192|SUPERIORITY||Mean Difference (Net)|11.0||||0.004|TWO_SIDED|90.0|4.84|17.1||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 4/5.||17.1|4.84|0.004
82492027|NCT04678661|164677252|OTHER|||||||0.011|||||||t-test, 2 sided|||Independent t-test||||.011
82492028|NCT04678661|164677253|OTHER|||||||0.024|||||||t-test, 2 sided|||||||.024
82492029|NCT04678661|164677254|OTHER|||||||0.579|||||||t-test, 2 sided|||||||.579
82492030|NCT04678661|164677255|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
82492031|NCT04678661|164677256|OTHER|||||||0.269|||||||t-test, 2 sided|||||||.269
82599527|NCT02475655|164914192|SUPERIORITY||Mean Difference (Net)|4.64||||0.043|TWO_SIDED|90.0|0.88|8.39||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in Alanine Aminotransferase (ALT) (SGPT) values from Entry to Week 10/12.||8.39|0.88|0.043
82599528|NCT02475655|164914193|SUPERIORITY||Mean Difference (Net)|1.1||||0.56|TWO_SIDED|90.0|0.84|1.44||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from baseline to Week 10/12.||1.44|0.84|0.56
82599529|NCT02475655|164914193|SUPERIORITY||Mean Difference (Net)|1.37||||0.026|TWO_SIDED|90.0|1.09|1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Plasma Interleukin 6 (IL-6) from Week 4/5 to Week 10/12.||1.73|1.09|0.026
82599530|NCT02475655|164914194|SUPERIORITY||Mean Difference (Net)|0.89||||0.07|TWO_SIDED|90.0|0.8|0.99||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from baseline to Week 4/5.||0.99|0.80|0.07
82599531|NCT02475655|164914194|SUPERIORITY||Mean Difference (Net)|0.95||||0.59|TWO_SIDED|90.0|0.8|1.12||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from baseline to Week 12.||1.12|0.80|0.59
82655246|NCT03587207|165026286|OTHER|Serogroup W- Between group ratios for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.97|||||TWO_SIDED|80.0|0.79|1.18|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup W, one month after last vaccination.||1.18|0.79|
82655247|NCT03587207|165026286|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group|Geometric mean ratio|0.91|||||TWO_SIDED|80.0|0.69|1.19|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup Y, one month after last vaccination.||1.19|0.69|
82655248|NCT03587207|165026286|OTHER|M14459 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.86|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.22|0.86|
82655249|NCT03587207|165026286|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.79|||||TWO_SIDED|80.0|0.66|0.95|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B 96217 (NadA)strain, one month after last vaccination.||0.95|0.66|
82599532|NCT02475655|164914194|SUPERIORITY||Mean Difference (Net)|1.06||||0.56|TWO_SIDED|90.0|0.9|1.24||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in soluble CD14 (sCD14) from Week 4/5 to Week 12.||1.24|0.90|0.56
82599533|NCT02475655|164914195|SUPERIORITY||Mean Difference (Net)|142.1||||0.007|TWO_SIDED|90.0|57.6|227.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 2.||227|57.6|0.007
82599534|NCT02475655|164914195|SUPERIORITY||Mean Difference (Net)|74.3||||0.14|TWO_SIDED|90.0|-8.23|156.7||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 5.||156.7|-8.23|0.14
82599535|NCT02475655|164914195|SUPERIORITY||Mean Difference (Net)|-38.9||||0.54|TWO_SIDED|90.0|-143.0|65.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in CD4+ T cell counts from Baseline to Week 12.||65.5|-143|0.54
82599536|NCT02475655|164914195|SUPERIORITY||Mean Difference (Net)|-112.0||||0.12|TWO_SIDED|90.0|-231.0|5.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|There is no difference between the two arms in the change in CD4+ T cell counts from Week 5 to Week 12.||5.90|-231|0.12
82655250|NCT03587207|165026286|OTHER|NZ98/254 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.79|||||TWO_SIDED|80.0|0.65|0.97|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.97|0.65|
82492032|NCT04678661|164677259|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
82492033|NCT04678661|164677260|OTHER||||||<|0.001||||||Reported p-value was calculated.|t-test, 2 sided|||||||<.001
82599537|NCT02475655|164914197|SUPERIORITY||Risk Ratio (RR)|0.98||||0.94|TWO_SIDED|90.0|0.65|1.49||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Entry to Week 5.||1.49|0.65|0.94
82599538|NCT02475655|164914197|SUPERIORITY||Risk Ratio (RR)|0.74||||0.46|TWO_SIDED|90.0|0.37|1.46||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Entry to Week 12.||1.46|0.37|0.46
82599539|NCT02475655|164914197|SUPERIORITY||Risk Ratio (RR)|0.83||||0.59|TWO_SIDED|90.0|0.46|1.48||Not adjusted for multiple comparisons. Two-sided 10% alpha.|GEE|A GEE model for binary data was used to compare changes in iSCA because a substantial proportion of data was below the assay limit.|Risk ratio is Ruxolitinib risk divided by No Study Treatment risk.|Null hypothesis: There is no difference between the two arms in the change in HIV-1 RNA by iSCA from Week 5 to Week 12.||1.48|0.46|0.59
82599540|NCT02475655|164914198|SUPERIORITY||Mean Difference (Net)|0.88||||0.11|TWO_SIDED|90.0|0.76|1.01||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Tumor Necrosis Factor alpha (TNF alpha) from entry to Week 5.||1.01|0.76|0.11
82599541|NCT02475655|164914198|SUPERIORITY||Mean Difference (Net)|0.92||||0.71|TWO_SIDED|90.0|0.64|1.33||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Tumor Necrosis Factor alpha (TNF alpha) from entry to Week 12.||1.33|0.64|0.71
82599542|NCT02475655|164914199|SUPERIORITY||Mean Difference (Net)|1.27||||0.3|TWO_SIDED|90.0|0.87|1.86||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 1 beta (IL-1 beta) from entry to Week 5.||1.86|0.87|0.30
82599543|NCT02475655|164914199|SUPERIORITY||Mean Difference (Net)|1.59||||0.46|TWO_SIDED|90.0|0.56|4.49||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 1 beta (IL-1 beta) from entry to Week 12.||4.49|0.56|0.46
82599544|NCT02475655|164914200|SUPERIORITY||Mean Difference (Net)|1.29||||0.24|TWO_SIDED|90.0|0.9|1.84||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 7 (IL-7) from entry to Week 5.||1.84|0.90|0.24
82599545|NCT02475655|164914200|SUPERIORITY||Mean Difference (Net)|1.19||||0.46|TWO_SIDED|90.0|0.81|1.74||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 7 (IL-7) from entry to Week 12.||1.74|0.81|0.46
82599546|NCT02475655|164914205|SUPERIORITY||Mean Difference (Net)|1.15||||0.56|TWO_SIDED|90.0|0.77|1.72||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 10 (IL-10) from entry to Week 5.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|1.72|0.77|0.56
82599547|NCT02475655|164914205|SUPERIORITY||Mean Difference (Net)|0.97||||0.95|TWO_SIDED|90.0|0.47|2.01||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 10 (IL-10) from entry to Week 12.||2.01|0.47|0.95
82599548|NCT02475655|164914206|SUPERIORITY||Mean Difference (Net)|1.34||||0.002|TWO_SIDED|90.0|1.15|1.56||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in TInterleukin 15 (IL-15) from entry to Week 5.||1.56|1.15|0.002
82492034|NCT04678661|164677261|OTHER|||||||0.647|||||||t-test, 2 sided|||||||.647
82498975|NCT02289417|164688929|SUPERIORITY||Stratified Difference|19.4||||0.0401|TWO_SIDED|95.0|1.1|36.0|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||36.0|1.1|0.0401
82599549|NCT02475655|164914206|SUPERIORITY||Mean Difference (Net)|1.07||||0.6|TWO_SIDED|90.0|0.86|1.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in TInterleukin 15 (IL-15) from entry to Week 12.||1.34|0.86|0.60
82599550|NCT02475655|164914207|SUPERIORITY||Mean Difference (Net)|0.94||||0.4|TWO_SIDED|90.0|0.82|1.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 18 (IL-18) from entry to Week 5.||1.07|0.82|0.40
82599551|NCT02475655|164914207|SUPERIORITY||Mean Difference (Net)|1.03||||0.82|TWO_SIDED|90.0|0.83|1.27||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Interleukin 18 (IL-18) from entry to Week 12.||1.27|0.83|0.82
82599552|NCT02475655|164914208|SUPERIORITY||Mean Difference (Net)|1.5||||0.028|TWO_SIDED|90.0|1.11|2.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 1 (TGF beta-1) from entry to Week 5.||2.02|1.11|0.028
82599553|NCT02475655|164914208|SUPERIORITY||Mean Difference (Net)|2.04||||0.21|TWO_SIDED|90.0|0.79|5.25||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 1 (TGF beta-1) from entry to Week 12.||5.25|0.79|0.21
82599554|NCT02475655|164914209|SUPERIORITY||Mean Difference (Net)|1.39||||0.031|TWO_SIDED|90.0|1.08|1.79||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 2 (TGF beta-2) from entry to Week 5.||1.79|1.08|0.031
82599555|NCT02475655|164914209|SUPERIORITY||Mean Difference (Net)|0.96||||0.93|TWO_SIDED|90.0|0.46|2.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 2 (TGF beta-2) from entry to Week 12.||2.02|0.46|0.93
82599556|NCT02475655|164914210|SUPERIORITY||Mean Difference (Net)|1.57||||0.43|TWO_SIDED|90.0|0.61|4.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 3 (TGF beta-3) from entry to Week 5.||4.05|0.61|0.43
82599557|NCT02475655|164914210|SUPERIORITY||Mean Difference (Net)|0.68||||0.41|TWO_SIDED|90.0|0.3|1.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Transforming Growth Factor beta 3 (TGF beta-3) from entry to Week 12.||1.50|0.30|0.41
82655251|NCT03587207|165026286|NON_INFERIORITY|M07-0241084 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.73|||||TWO_SIDED|80.0|0.6|0.88|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.88|0.60|
82599558|NCT02475655|164914211|SUPERIORITY||Mean Difference (Net)|-0.34||||0.038|TWO_SIDED|90.0|-0.61|-0.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD4+ T-cells from Entry to Week 5.||-0.07|-0.61|0.038
82599559|NCT02475655|164914211|SUPERIORITY||Mean Difference (Net)|0.27||||0.07|TWO_SIDED|90.0|0.03|0.51||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD4+ T-cells from Entry to Week 12.||0.51|0.03|0.07
82599560|NCT02475655|164914212|SUPERIORITY||Mean Difference (Net)|-0.88||||0.05|TWO_SIDED|90.0|-1.62|-0.13||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 5.||-0.13|-1.62|0.05
82599561|NCT02475655|164914212|SUPERIORITY||Mean Difference (Net)|0.86||||0.16|TWO_SIDED|90.0|-0.16|1.88||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 12.||1.88|-0.16|0.16
82599562|NCT02475655|164914213|SUPERIORITY||Mean Difference (Net)|-1.71|||<|0.001|TWO_SIDED|90.0|-2.46|-0.97||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25hi+ among CD4+ T-cells from Entry to Week 5.||-0.97|-2.46|<0.001
82599563|NCT02475655|164914213|SUPERIORITY||Mean Difference (Net)|0.16||||0.68|TWO_SIDED|90.0|-0.5|0.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25hi+ among CD4+ T-cells from Entry to Week 12.||0.82|-0.50|0.68
82599564|NCT02475655|164914214|SUPERIORITY||Mean Difference (Net)|-0.01||||0.98|TWO_SIDED|90.0|-0.7|0.69||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25+ among CD8+ T-cells from Entry to Week 5.||0.69|-0.70|0.98
82599565|NCT02475655|164914214|SUPERIORITY||Mean Difference (Net)|-0.16||||0.79|TWO_SIDED|90.0|-1.13|0.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD25+ among CD8+ T-cells from Entry to Week 12.||0.82|-1.13|0.79
82599566|NCT02475655|164914215|SUPERIORITY||Mean Difference (Net)|3.49||||0.001|TWO_SIDED|90.0|1.75|5.22||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD4+ T-cells from Entry to Week 5.||5.22|1.75|0.001
82599567|NCT02475655|164914215|SUPERIORITY||Mean Difference (Net)|-1.3||||0.28|TWO_SIDED|90.0|-3.28|0.68||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.||Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD4+ T-cells from Entry to Week 12.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|0.68|-3.28|0.28
82599568|NCT02475655|164914216|SUPERIORITY||Mean Difference (Net)|6.54|||<|0.001|TWO_SIDED|90.0|3.76|9.31||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD8+ T-cells from Entry to Week 5.||9.31|3.76|<0.001
82599569|NCT02475655|164914216|SUPERIORITY||Mean Difference (Net)|-0.19||||0.92|TWO_SIDED|90.0|-3.56|3.18||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD127+ among CD8+ T-cells from Entry to Week 12.||3.18|-3.56|0.92
82599570|NCT02475655|164914217|SUPERIORITY||Mean Difference (Net)|-0.07||||0.82|TWO_SIDED|90.0|-0.61|0.47||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD4+ T-cells from Entry to Week 5.||0.47|-0.61|0.82
82655252|NCT03587207|165026286|OTHER|Serogroup A- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.56|||||TWO_SIDED|80.0|0.45|0.69|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogrpoup A, one month after last vaccination.||0.69|0.45|
82599571|NCT02475655|164914217|SUPERIORITY||Mean Difference (Net)|0.76||||0.033|TWO_SIDED|90.0|0.18|1.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD4+ T-cells from Entry to Week 12.||1.34|0.18|0.033
82599572|NCT02475655|164914218|SUPERIORITY||Mean Difference (Net)|0.01||||0.98|TWO_SIDED|90.0|-0.53|0.55||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD8+ T-cells from Entry to Week 5.||0.55|-0.53|0.98
82599573|NCT02475655|164914218|SUPERIORITY||Mean Difference (Net)|0.55||||0.37|TWO_SIDED|90.0|-0.46|1.57||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Ki67+ among CD8+ T-cells from Entry to Week 12.||1.57|-0.46|0.37
82599574|NCT02475655|164914219|SUPERIORITY||Mean Difference (Net)|-3.3|||<|0.001|TWO_SIDED|90.0|-4.72|-1.87||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD4+ T-cells from Entry to Week 5.||-1.87|-4.72|<0.001
82599575|NCT02475655|164914219|SUPERIORITY||Mean Difference (Net)|-0.73||||0.09|TWO_SIDED|90.0|-1.42|-0.03||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD4+ T-cells from Entry to Week 12.||-0.03|-1.42|0.09
82655253|NCT03587207|165026286|OTHER|Serogroup C- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.19|||||TWO_SIDED|80.0|0.94|1.52|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup C, one month after last vaccination.||1.52|0.94|
82499397|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.136|STANDARD_ERROR_OF_MEAN|0.062||||90.0|0.033|0.239|||ANCOVA|||Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.239|0.033|
82599576|NCT02475655|164914220|SUPERIORITY||Mean Difference (Net)|-5.4|||<|0.001|TWO_SIDED|90.0|-7.29|-3.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD8+ T-cells from Entry to Week 5.||-3.50|-7.29|<0.001
82599577|NCT02475655|164914220|SUPERIORITY||Mean Difference (Net)|-1.23||||0.11|TWO_SIDED|90.0|-2.51|0.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of Bcl2+ among CD8+ T-cells from Entry to Week 12.||0.05|-2.51|0.11
82599578|NCT02475655|164914221|SUPERIORITY||Mean Difference (Net)|-1.54||||0.26|TWO_SIDED|90.0|-3.78|0.7||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD4+ T-cells from Entry to Week 5.||0.70|-3.78|0.26
82599579|NCT02475655|164914221|SUPERIORITY||Mean Difference (Net)|-0.39||||0.74|TWO_SIDED|90.0|-2.41|1.62||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD4+ T-cells from Entry to Week 12.||1.62|-2.41|0.74
82599580|NCT02475655|164914222|SUPERIORITY||Mean Difference (Net)|0.55||||0.71|TWO_SIDED|90.0|-1.9|3.0||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD8+ T-cells from Entry to Week 5.||3.00|-1.90|0.71
82599581|NCT02475655|164914222|SUPERIORITY||Mean Difference (Net)|0.31||||0.83|TWO_SIDED|90.0|-2.15|2.78||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of a4b7+ among CD8+ T-cells from Entry to Week 12.||2.78|-2.15|0.83
82599582|NCT02475655|164914223|SUPERIORITY||Mean Difference (Net)|-1.33||||0.01|TWO_SIDED|90.0|-2.16|-0.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CX3CR1+ among CD4+ T-cells from Entry to Week 5.||-0.50|-2.16|0.010
82599583|NCT02475655|164914223|SUPERIORITY||Mean Difference (Net)|-0.17||||0.74|TWO_SIDED|90.0|-1.02|0.68||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CX3CR1+ among CD4+ T-cells from Entry to Week 12.||0.68|-1.02|0.74
82599584|NCT02475655|164914224|SUPERIORITY||Mean Difference (Net)|-3.24||||0.008|TWO_SIDED|90.0|-5.22|-1.27||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 5.||-1.27|-5.22|0.008
82599585|NCT02475655|164914224|SUPERIORITY||Median Difference (Net)|-0.17||||0.9|TWO_SIDED|90.0|-2.38|2.05||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in the expression of CD38+HLADR+ among CD8+ T-cells from Entry to Week 12.||2.05|-2.38|0.90
82599586|NCT02475655|164914227|SUPERIORITY||Mean Difference (Net)|1.39||||0.47|TWO_SIDED|90.0|-1.83|4.61||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) from Entry to Week 5.||4.61|-1.83|0.47
82599587|NCT02475655|164914227|SUPERIORITY||Mean Difference (Net)|2.21||||0.22|TWO_SIDED|90.0|-0.77|5.18||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) from Entry to Week 12.||5.18|-0.77|0.22
82599588|NCT02475655|164914228|SUPERIORITY||Mean Difference (Net)|-4.34||||0.28|TWO_SIDED|90.0|-11.0|2.35||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CD163+ from Entry to Week 5.||2.35|-11.0|0.28
82599589|NCT02475655|164914228|SUPERIORITY||Mean Difference (Net)|-9.81||||0.019|TWO_SIDED|90.0|-16.6|-3.02||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CD163+ from Entry to Week 12.||-3.02|-16.6|0.019
82599590|NCT02475655|164914229|SUPERIORITY||Mean Difference (Net)|-0.81||||0.55|TWO_SIDED|90.0|-3.02|1.41||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CCR2+ from Entry to Week 5.||1.41|-3.02|0.55
82599591|NCT02475655|164914229|SUPERIORITY||Mean Difference (Net)|-1.7||||0.09|TWO_SIDED|90.0|-3.36|-0.04||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CCR2+ from Entry to Week 12.||-0.04|-3.36|0.09
82599592|NCT02475655|164914230|SUPERIORITY||Mean Difference (Net)|-1.47||||0.15|TWO_SIDED|90.0|-3.17|0.23||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CX3CR1+ from Entry to Week 5.||0.23|-3.17|0.15
82599593|NCT02475655|164914230|SUPERIORITY||Mean Difference (Net)|-1.62||||0.37|TWO_SIDED|90.0|-4.59|1.35||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in classical monocytes (CD14+CD16-) expressing CX3CR1+ from Entry to Week 12.||1.35|-4.59|0.37
82599594|NCT02475655|164914231|SUPERIORITY||Mean Difference (Net)|-0.86||||0.39|TWO_SIDED|90.0|-2.51|0.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) from Entry to Week 5.||0.80|-2.51|0.39
82599595|NCT02475655|164914231|SUPERIORITY||Mean Difference (Net)|-0.7||||0.54|TWO_SIDED|90.0|-2.59|1.19||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) from Entry to Week 12.||1.19|-2.59|0.54
82599596|NCT02475655|164914232|SUPERIORITY||Mean Difference (Net)|-6.02||||0.1|TWO_SIDED|90.0|-12.0|-0.06||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CD163+ from Entry to Week 5.||-0.06|-12.0|0.10
82599597|NCT02475655|164914232|SUPERIORITY||Mean Difference (Net)|-6.39||||0.026|TWO_SIDED|90.0|-11.1|-1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CD163+ from Entry to Week 12.||-1.73|-11.1|0.026
82599598|NCT02475655|164914233|SUPERIORITY||Mean Difference (Net)|0.28||||0.95|TWO_SIDED|90.0|-7.26|7.82||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CCR2+ from Entry to Week 5.||7.82|-7.26|0.95
82599599|NCT02475655|164914233|SUPERIORITY||Mean Difference (Net)|-4.1||||0.43|TWO_SIDED|90.0|-12.6|4.45||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CCR2+ from Entry to Week 12.||4.45|-12.6|0.43
82655254|NCT03587207|165026286|OTHER|Serogroup W- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.06|||||TWO_SIDED|80.0|0.87|1.29|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup W, one month after last vaccination.||1.29|0.87|
82655255|NCT03587207|165026286|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.18|||||TWO_SIDED|80.0|0.9|1.55|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup Y, one month after last vaccination.||1.55|0.90|
82499398|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.068||||90.0|0.0|0.224|||ANCOVA|||Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.224|-0.000|
82599600|NCT02475655|164914234|SUPERIORITY||Mean Difference (Net)|1.23||||0.74|TWO_SIDED|90.0|-5.08|7.54||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CX3CR1+ from Entry to Week 5.||7.54|-5.08|0.74
82599601|NCT02475655|164914234|SUPERIORITY||Mean Difference (Net)|3.76||||0.42|TWO_SIDED|90.0|-3.94|11.5||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in inflammatory monocytes (CD14+CD16+) expressing CX3CR1+ from Entry to Week 12.||11.5|-3.94|0.42
82599602|NCT02475655|164914235|SUPERIORITY||Mean Difference (Net)|-0.63||||0.66|TWO_SIDED|90.0|-2.99|1.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) from Entry to Week 5.||1.73|-2.99|0.66
82599603|NCT02475655|164914235|SUPERIORITY||Mean Difference (Net)|-1.56||||0.27|TWO_SIDED|90.0|-3.93|0.8||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) from Entry to Week 12.||0.80|-3.93|0.27
82599604|NCT02475655|164914236|SUPERIORITY||Mean Difference (Net)|-7.1||||0.013|TWO_SIDED|90.0|-11.7|-2.46||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CD163+ from Entry to Week 5.||-2.46|-11.7|0.013
82655256|NCT03587207|165026286|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.85|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M14459(fHbp) strain, one month after last vaccination.||1.22|0.85|
82599605|NCT02475655|164914236|SUPERIORITY||Mean Difference (Net)|-1.49||||0.7|TWO_SIDED|90.0|-8.06|5.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CD163+ from Entry to Week 12.||5.07|-8.06|0.70
82599606|NCT02475655|164914237|SUPERIORITY||Mean Difference (Net)|0.01||||0.79|TWO_SIDED|90.0|-0.05|0.07||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CCR2+ from Entry to Week 5.||0.07|-0.05|0.79
82655257|NCT03587207|165026286|OTHER|96217 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.9|||||TWO_SIDED|80.0|0.75|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.09|0.75|
82599607|NCT02475655|164914237|SUPERIORITY||Mean Difference (Net)|0.01||||0.91|TWO_SIDED|90.0|-0.07|0.08||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CCR2+ from Entry to Week 12.||0.08|-0.07|0.91
82599608|NCT02475655|164914238|SUPERIORITY||Mean Difference (Net)|-2.85||||0.43|TWO_SIDED|90.0|-8.82|3.12||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CX3CR1+ from Entry to Week 5.||3.12|-8.82|0.43
82599609|NCT02475655|164914238|SUPERIORITY||Mean Difference (Net)|0.03||||0.99|TWO_SIDED|90.0|-6.53|6.6||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib mean minus No Study Treatment mean.|Null hypothesis: There is no difference between the two arms in the change in patrolling monocytes (CD14dimCD16+) expressing CX3CR1+ from Entry to Week 12.||6.60|-6.53|0.99
82599610|NCT02475655|164914239|SUPERIORITY||Median Difference (Net)|1.88||||0.007|TWO_SIDED|90.0|1.29|2.73||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Cellular HIV-1 DNA from entry to Week 5.||2.73|1.29|0.007
82599611|NCT02475655|164914239|SUPERIORITY||Mean Difference (Net)|1.31||||0.23|TWO_SIDED|90.0|0.9|1.9||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Cellular HIV-1 DNA from entry to Week 12.||1.90|0.90|0.23
82655258|NCT03587207|165026286|OTHER|NZ98/254 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.64|0.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.96|0.64|
82599612|NCT02475655|164914240|SUPERIORITY||Mean Difference (Net)|1.22||||0.32|TWO_SIDED|90.0|0.87|1.72||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in cellular HIV-1 total RNA from entry to Week 5.||1.72|0.87|0.32
82599613|NCT02475655|164914240|SUPERIORITY||Mean Difference (Net)|1.03||||0.91|TWO_SIDED|90.0|0.68|1.56||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in cellular HIV-1 total RNA from entry to Week 12.||1.56|0.68|0.91
82599614|NCT02475655|164914241|SUPERIORITY|||||||0.4||||||Not adjusted for multiple comparisons. Two-sided 10% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants with detectable CMV at any on-treatment time point (ever shedding at weeks 1, 2, 4, or 5).||||0.40
82599615|NCT02475655|164914241|SUPERIORITY|||||||0.87||||||Not adjusted for multiple comparisons. Two-sided 10% alpha.|Fisher Exact|Fisher's Exact Mid P-Value||Null hypothesis: There is no difference between the two arms in the percentage of participants with detectable CMV at any post-treatment time point (ever shedding at weeks 10 or 12).||||0.87
82599616|NCT02475655|164914245|SUPERIORITY||Mean Difference (Net)|0.53||||0.4|TWO_SIDED|90.0|0.15|1.88||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Integrated DNA from entry to Week 5.||1.88|0.15|0.40
82599617|NCT02475655|164914245|SUPERIORITY||Mean Difference (Net)|0.92||||0.93|TWO_SIDED|90.0|0.2|4.34||Not adjusted for multiple comparisons. Two-sided 10% alpha.|t-test, 2 sided|2-sample t-test with equal variance.|Mean difference is Ruxolitinib geometric mean minus No Study Treatment geometric mean. All values were log10 transformed prior to calculating change and conducting analyses and back transformed for presentation.|Null hypothesis: There is no difference between the two arms in the fold change in Integrated DNA from entry to Week 12.||4.34|0.20|0.93
82599618|NCT00756938|164914252|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.22||||0.753|TWO_SIDED|95.0|-6.45|8.9|||ANCOVA|Analysis of covariance (ANCOVA) model with terms for dose, weight (as a continuous covariate) and presence of co-morbidities/end organ damage||||8.90|-6.45|0.753
82655259|NCT03587207|165026286|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV group.|Geometric mean ratio|0.71|||||TWO_SIDED|80.0|0.58|0.86|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.86|0.58|
82655260|NCT03587207|165026286|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|3.6|||||TWO_SIDED|80.0|2.9|4.47|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||4.47|2.90|
82655261|NCT03587207|165026286|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|4.18|||||TWO_SIDED|80.0|3.28|5.31|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||5.31|3.28|
82655262|NCT03587207|165026286|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|3.07|||||TWO_SIDED|80.0|2.52|3.73|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.73|2.52|
82655263|NCT03587207|165026286|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and MenACWY group.|Geometric mean ratio|2.01|||||TWO_SIDED|80.0|1.53|2.65|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||2.65|1.53|
82655264|NCT03587207|165026286|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.85|1.22|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.22|0.85|
82655265|NCT03587207|165026286|OTHER|96217 strain- Between group ratios for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.86|||||TWO_SIDED|80.0|0.71|1.04|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||1.04|0.71|
82599619|NCT00756938|164914253|SUPERIORITY_OR_OTHER_LEGACY||Slope|1.81||||0.643|TWO_SIDED|95.0|-5.9|9.51|||ANCOVA|Analysis of covariance (ANCOVA) model with terms for dose, weight (as a continuous covariate) and presence of co-morbidities/end organ damage||||9.51|-5.90|0.643
82599620|NCT04823949|164914256|OTHER||Risk Ratio (RR)|1.59|||<|0.001|TWO_SIDED|95.0|1.33|1.88|||Chi-squared|||||1.88|1.33|<0.001
82599621|NCT04823949|164914257|OTHER||Risk Ratio (RR)|1.35||||0.53|TWO_SIDED|95.0|0.52|3.49|||Fisher Exact|||||3.49|0.52|.530
82599622|NCT04823949|164914258|OTHER||Risk Ratio (RR)|2.53||||0.059|TWO_SIDED|95.0|0.92|6.9|||Fisher Exact|||||6.90|0.92|.059
82492035|NCT04645953|164677281|SUPERIORITY|||||||0.7024|||||||ANOVA|||Null hypothesis is there was no difference between groups treated with AZ-010 (1 mg or 3 mg) and the placebo group in the mean number of vomiting/retching events in the 2 hours following. treatment. Baseline, body weight, height, body mass index, age as covariates, and the treatment group and study site as factors. All statistical tests were 2-sided with a significance value of ≤ 0.05.||||0.7024
82599623|NCT04823949|164914259|OTHER||Risk Ratio (RR)|0.84||||0.792|TWO_SIDED|95.0|0.23|3.04|||Fisher Exact|||||3.04|0.23|.792
82599624|NCT04823949|164914260|OTHER||Risk Ratio (RR)|1.11||||0.21|TWO_SIDED|95.0|0.94|1.31|||Chi-squared|||||1.31|0.94|.210
82599625|NCT00441545|164914264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113||95.0|||||ANCOVA|||||||0.1130
82599626|NCT00441545|164914265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0249||95.0|||||ANCOVA|||||||0.0249
82599627|NCT02347176|164914268|SUPERIORITY||Adjusted Mean Difference|-2.89|STANDARD_ERROR_OF_MEAN|1.968||0.143|TWO_SIDED|95.0|-6.78|0.99|||Mixed Model Repeated Measures Analysis|||||0.99|-6.78|0.143
82599628|NCT02347176|164914268|SUPERIORITY||Adjusted Mean Difference|-4.36|STANDARD_ERROR_OF_MEAN|1.951||0.027|TWO_SIDED|95.0|-8.22|-0.51|||Mixed Model Repeated Measures Analysis|||||-0.51|-8.22|0.027
82655266|NCT03587207|165026286|OTHER|NZ98/254 strain-Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|1.01|||||TWO_SIDED|80.0|0.82|1.24|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||1.24|0.82|
82655267|NCT03587207|165026286|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_D group and rMenBOMV group.|Geometric mean ratio|0.89|||||TWO_SIDED|80.0|0.73|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||1.09|0.73|
82655268|NCT03587207|165026286|OTHER|Serogroup A-Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|3.92|||||TWO_SIDED|80.0|3.15|4.88|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||4.88|3.15|
82655269|NCT03587207|165026286|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|4.19|||||TWO_SIDED|80.0|3.3|5.34|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||5.34|3.30|
82599629|NCT02347176|164914268|SUPERIORITY||Adjusted Mean Difference|-4.94|STANDARD_ERROR_OF_MEAN|1.932||0.011|TWO_SIDED|95.0|-8.76|-1.13|||Mixed Model Repeated Measures Analysis|||||-1.13|-8.76|0.011
82599630|NCT02347176|164914269|SUPERIORITY||Odds Ratio (OR)|0.98||||0.974|TWO_SIDED|95.0|0.29|3.32|||Regression, Logistic|||||3.32|0.29|0.974
82599631|NCT02347176|164914269|SUPERIORITY||Odds Ratio (OR)|1.85||||0.281|TWO_SIDED|95.0|0.61|5.65|||Regression, Logistic|||||5.65|0.61|0.281
82599632|NCT02347176|164914269|SUPERIORITY||Odds Ratio (OR)|2.83||||0.061|TWO_SIDED|95.0|0.95|8.37|||Regression, Logistic|||||8.37|0.95|0.061
82599633|NCT00411554|164914278|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin (Sitagliptin minus Voglibose) = 0.2 percent|Least-squares Mean Difference|-0.39|||<|0.001||95.0|-0.51|-0.28||"This p-value corresponds to a test of superiority that was performed after success was achieved in the test of non-inferiority (reported under Estimation below), according to the pre-specified analysis plan"|ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show non-inferiority and superiority to voglibose (closed procedure) and to estimate difference of two groups and its 95% confidence interval|||-0.28|-0.51|<0.001
82599634|NCT00411554|164914279|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-10.7|||<|0.001||95.0|-15.3|-6.2|||ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show superiority to voglibose and to estimate difference of two groups and its 95% confidence interval|||-6.2|-15.3|<0.001
82599635|NCT00411554|164914280|SUPERIORITY_OR_OTHER||Least-squares Mean Difference|-18.8|||<|0.001||95.0|-26.7|-10.9|||ANCOVA|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to compare two groups|ANCOVA model with terms of treatment, prior antihyperglycemic medication status and baseline was used to show superiority to voglibose and to estimate difference of two groups and its 95% confidence interval|||-10.9|-26.7|<0.001
82655270|NCT03587207|165026286|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|3.17|||||TWO_SIDED|80.0|2.6|3.87|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.87|2.60|
82655271|NCT03587207|165026286|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_D group and MenACWY group.|Geometric mean ratio|2.22|||||TWO_SIDED|80.0|1.68|2.92|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||2.92|1.68|
82655272|NCT03587207|165026286|OTHER|M14459- Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|1.05|||||TWO_SIDED|80.0|0.87|1.25|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after last vaccination.||1.25|0.87|
82599636|NCT00699907|164914286|SUPERIORITY_OR_OTHER|||||||0.012|||||||Wilcoxon Rank Sum Test|||||||0.012
82599637|NCT00699907|164914286|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599638|NCT00699907|164914287|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon Rank Sum Test|||||||0.010
82599639|NCT00699907|164914287|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
82599640|NCT00699907|164914288|SUPERIORITY_OR_OTHER|||||||0.0006|||||||Wilcoxon Rank Sum Test|||||||0.0006
82599641|NCT00699907|164914288|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599642|NCT00699907|164914289|SUPERIORITY_OR_OTHER|||||||0.009|||||||Wilcoxon Rank Sum Test|||||||0.009
82599643|NCT00699907|164914289|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599644|NCT00699907|164914290|SUPERIORITY_OR_OTHER|||||||0.037|||||||Wilcoxon Rank Sum Test|||||||0.037
82599645|NCT00699907|164914290|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599646|NCT00699907|164914291|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon Rank Sum Test|||||||0.010
82599647|NCT00699907|164914291|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599648|NCT00699907|164914292|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
82599649|NCT00699907|164914292|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Wilcoxon Rank Sum Test|||||||>0.05
82599650|NCT00699907|164914293|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon Rank Sum Test|||||||0.006
82599651|NCT00699907|164914293|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
82599652|NCT00699907|164914294|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon Rank Sum Test|||||||<0.0001
82599653|NCT00699907|164914294|SUPERIORITY_OR_OTHER|||||||0.005|||||||Wilcoxon Rank Sum Test|||||||0.005
82599654|NCT02161211|164914295|SUPERIORITY|||||||0.673|||||||Chi-squared|df = 2||Null hypothesis = no difference in frequency in relapse between groups||||.673
82599655|NCT02161211|164914296|SUPERIORITY||Wald Chi-squared|-0.278||||0.133|TWO_SIDED|95.0|-0.64|0.084|||Wald Chi-squared|Negative binomial regression with offset of natural log of possible drinking days||||.084|-.64|.133
82599656|NCT02161211|164914296|SUPERIORITY||Wald Chi-squared|0.101||||0.562|TWO_SIDED|95.0|-0.24|0.44|||Wald Chi-squared|||||.44|-.24|.562
82599657|NCT02161211|164914297|SUPERIORITY|||||||0.982|||||||ANOVA|F(2,105) = .019||||||.982
82499399|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.257|STANDARD_ERROR_OF_MEAN|0.071||||90.0|0.141|0.374|||ANCOVA|||Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.374|0.141|
82599658|NCT02161211|164914298|SUPERIORITY|||||||0.685|||||||Chi-squared|||Null hypothesis = no difference in proportion between the groups||||.685
82599659|NCT02161211|164914299|SUPERIORITY|||||||0.608|||||||Chi-squared|||Null hypothesis = no significant difference in frequency of hazardous drinking between groups||||.608
82655273|NCT03587207|165026286|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV group.|Geometric mean ratio|0.71|||||TWO_SIDED|80.0|0.59|0.86|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after last vaccination.||0.86|0.59|
82655274|NCT03587207|165026286|OTHER|NZ98/254 strain-Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.62|||||TWO_SIDED|80.0|0.5|0.76|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after last vaccination.||0.76|0.50|
82599660|NCT03889639|164914301|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95 percentage (%) confidence interval (CI) were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-56.16||||0.1673|TWO_SIDED|95.0|-193.99|17.05|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||17.05|-193.99|0.1673
82599661|NCT03889639|164914301|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-62.8||||0.354|TWO_SIDED|95.0|-356.24|41.91|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||41.91|-356.24|0.3540
82599662|NCT03889639|164914301|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|13.49||||0.7674|TWO_SIDED|95.0|-126.05|66.89|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||66.89|-126.05|0.7674
82599663|NCT03889639|164914301|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|85.02||||0.0178|TWO_SIDED|95.0|28.02|96.88|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||96.88|28.02|0.0178
82599664|NCT03889639|164914302|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|10.17||||0.7736|TWO_SIDED|95.0|-86.49|56.73|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||56.73|-86.49|0.7736
82599665|NCT03889639|164914302|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|37.07||||0.248|TWO_SIDED|95.0|-38.08|71.32|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||71.32|-38.08|0.2480
82599666|NCT03889639|164914302|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|38.5||||0.3081|TWO_SIDED|95.0|-56.61|75.85|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||75.85|-56.61|0.3081
82599667|NCT03889639|164914302|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model without adjusting for Baseline T2 lesion activity as all participants had at least one T2 lesion at Baseline.|Relative reduction in lesions|89.34||||0.0001|TWO_SIDED|95.0|68.39|96.41|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||96.41|68.39|0.0001
82599668|NCT03889639|164914303|SUPERIORITY|Relative reduction in lesions in SAR442168 5 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-62.16||||0.1525|TWO_SIDED|95.0|-214.44|16.38|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 5 mg/Placebo||16.38|-214.44|0.1525
82599669|NCT03889639|164914303|SUPERIORITY|Relative reduction in lesions in SAR442168 15 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|-47.38||||0.4606|TWO_SIDED|95.0|-312.91|47.4|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 15 mg/Placebo||47.40|-312.91|0.4606
82599670|NCT03889639|164914303|SUPERIORITY|Relative reduction in lesions in SAR442168 30 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|2.9||||0.949|TWO_SIDED|95.0|-138.96|60.54|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 30 mg/Placebo||60.54|-138.96|0.9490
82655275|NCT03587207|165026286|OTHER|M07-0241084 strain-Between group ratios for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.52|||||TWO_SIDED|80.0|0.42|0.63|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after last vaccination.||0.63|0.42|
82655276|NCT03587207|165026286|OTHER|Serogroup A- Between group ratios for comparison between MenABCWY group and MenACWY group|Geometric mean ratio|2.02|||||TWO_SIDED|80.0|1.62|2.51|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup A, one month after last vaccination.||2.51|1.62|
82599671|NCT03889639|164914303|SUPERIORITY|Relative reduction in lesions in SAR442168 60 mg (Cohorts 1 and 2) when compared with placebo (Cohort 2) with 95% CI were reported. Analysis was performed using a negative binomial regression model adjusted for Baseline gadolinium-enhancing T1-hyperintense lesion activity (presence/absence).|Relative reduction in lesions|65.05||||0.2324|TWO_SIDED|95.0|-96.21|93.77|||Negative binomial regression model|Threshold for significance for p-value was 0.05.||SAR442168 60 mg/Placebo||93.77|-96.21|0.2324
82599672|NCT03439033|164914308|SUPERIORITY||Risk Difference (RD)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.53|||McNemar||Risk difference reflects PSMA PET/MRI Scan detection proportion minus MRI scan detection proportion.|||0.53|0.30|<0.0001
82599673|NCT00993031|164914316|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.83||||0.76|TWO_SIDED|95.0|0.26|2.67|||Chi-squared|||||2.67|.26|.76
82599674|NCT00993031|164914317|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.76|TWO_SIDED|95.0|0.29|2.46|||Chi-squared|||||2.46|.29|.76
82599675|NCT00993031|164914318|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.75||||0.45|TWO_SIDED|95.0|0.36|1.59|||Chi-squared|||||1.59|.36|.45
82599676|NCT00993031|164914320|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.22||||0.21|TWO_SIDED|95.0|0.89|1.66|||Chi-squared|||||1.66|.89|.21
82599677|NCT00993031|164914321|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.34||||0.06|TWO_SIDED|95.0|0.98|1.83|||Chi-squared|||||1.83|.98|.06
82599678|NCT03506295|164914332|OTHER||Odds Ratio (OR)|0.496||||0.7878|TWO_SIDED|95.0|0.168|1.469|||Regression, Logistic|||||1.469|0.168|0.7878
82599679|NCT01834729|164914337|SUPERIORITY|||||||0.78|||||||Least squares means|||||||0.78
82599680|NCT01834729|164914338|SUPERIORITY|||||||0.57|||||||Least squares means|||||||0.57
82599681|NCT00143455|164914340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.236||||0.0556||95.0|0.995|1.536|||Cox Proportional Hazard Model|||A non-inferiority test was combined with a superiority test based on a closed testing procedure. The null hypothesis was to be rejected if the lower bound of the 2-sided 95% confidence interval for the hazard ratio (control/test) estimated from a Cox proportional hazards model, with an indicator for the control arm, was less than 0.80.||1.536|0.995|0.0556
82599682|NCT00143455|164914341|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.343||||0.143||95.0|0.905|1.993|||Chi-squared|||||1.993|0.905|0.143
82599683|NCT00143455|164914342|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority test was combined with a superiority test based on a closed testing procedure. The null hypothesis was to be rejected if the lower bound of the 2-sided 95% confidence interval for the hazard ratio (control/test) estimated from a Cox proportional hazards model, with an indicator for the control arm, was less than 0.80.|Hazard Ratio (HR)|1.35||||0.011||95.0|1.071|1.701|||Cox Proportional Hazard Model|||||1.701|1.071|0.0110
82599684|NCT00143455|164914343|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.354||||0.0831||95.0|0.961|1.908|||Cox Proportional Hazard Model|||||1.908|0.961|0.0831
82599685|NCT00143455|164914344|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.965||||0.7544||95.0|0.771|1.208|||Cox Proportional Hazard Model|||||1.208|0.771|0.7544
82599686|NCT04925752|164914409|SUPERIORITY||Rate Ratio|0.043|||<|0.0001|TWO_SIDED|95.0|0.01|0.182||p-value for rate ratio vs bHIV is from Wald test.|Wald test||Confidence Interval (CI) for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 01: LEN/bHIV\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than bHIV.||0.182|0.010|<0.0001
82599687|NCT04925752|164914409|SUPERIORITY||Rate Ratio|0.043|||<|0.0001|TWO_SIDED|95.0|0.01|0.182||p-value for rate ratio vs bHIV is from Wald test.|Wald test||CI for rate ratio vs bHIV is based on the delta method.|Null Hypothesis 02: LEN/bHIV\>= 0.8; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly and at least 20% lower than bHIV.||0.182|0.010|< 0.0001
82599688|NCT04925752|164914410|OTHER|Null Hypothesis 03: LEN - F/TDF\>= 0.8/100PY; Null hypothesis was to be rejected if HIV-1 incidence in LEN is not substantially greater than F/TDF (LEN is comparable to F/TDF).|Rate difference|-0.828|||<|0.0001|TWO_SIDED|95.0|-1.669|-0.255||p-value for rate difference (SC LEN minus F/TDF) is based on a hybrid approach.|Hybrid approach||Exact CI for rate difference versus F/TDF is based on a hybrid approach.|||-0.255|-1.669|<0.0001
82599689|NCT04925752|164914410|SUPERIORITY||Rate Ratio|0.111||||0.00245|TWO_SIDED|95.0|0.024|0.513||P-value for rate ratio versus F/TDF is from a Poisson model.|Poisson model||Confidence interval for rate ratio versus F/TDF is from a Poisson model.|Null Hypothesis 04: LEN vs F/TDF\>= 1; Null hypothesis was to be rejected if HIV-1 incidence in LEN was significantly lower than F/TDF.||0.513|0.024|0.00245
82599692|NCT03266016|164914448|SUPERIORITY||Odds Ratio (OR)|1.67||||0.045|TWO_SIDED|95.0|1.01|2.77|||Proportional Odds Logistic Regression|||This analysis is comparing length of weaning between REDvent acute group and control acute group.||2.77|1.01|.045
82599693|NCT03266016|164914448|SUPERIORITY||Proportional odds logistic regression|1.3|||||TWO_SIDED|95.0|0.7|2.6||||||Weaning Phase||2.6|0.7|
82655277|NCT03587207|165026286|OTHER|Serogroup C- Between group ratios for comparison of MenABCWY group and MenACWY group|Odds Ratio (OR)|4.99|||||TWO_SIDED|80.0|3.92|6.35|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup C, one month after last vaccination.||6.35|3.92|
82599694|NCT03266016|164914449|SUPERIORITY||Incident rate ratio|1.03|||||TWO_SIDED|95.0|0.84|1.25|||||Negative binomial model.|||1.25|0.84|
82599695|NCT03266016|164914450|SUPERIORITY||Odds Ratio (OR)|1.0|||||TWO_SIDED|95.0|0.4|2.7||||||||2.7|0.4|
82599696|NCT03266016|164914451|SUPERIORITY||Odds Ratio (OR)|1.04|||||TWO_SIDED|95.0|0.44|2.47||||||||2.47|0.44|
82599697|NCT03266016|164914452|SUPERIORITY||Proportional odds logistic regression|1.6|||||TWO_SIDED|95.0|1.01|2.55||||||||2.55|1.01|
82655278|NCT03587207|165026286|OTHER|Serogroup W- Between group ratios for comparison of MenABCWY group and MenACWY group|Geometric mean ratio|3.25|||||TWO_SIDED|80.0|2.66|3.96|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup W, one month after last vaccination.||3.96|2.66|
82655279|NCT03587207|165026286|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and MenACWY group|Geometric mean ratio|2.38|||||TWO_SIDED|80.0|1.81|3.12|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus MenACWY study groups, on the Meningitis serogroup Y, one month after last vaccination.||3.12|1.81|
82655280|NCT03587207|165026290|OTHER|Between group ratio is calculated as GMT for rMenBOMV+ACWY\_S Group over GMT for rMenBOMV+ACWY\_D Group. 80% CI are obtained from Analysis of Covariance model fitted to pooled Serogroup B Strains. The following ANCOVA model is used: fixed-effect model including age strata, study group, strain and center as fixed effects. The pre vaccination (Baseline) log-transformed titer with centering at zero is included as a continuous covariate.|Geometric mean ratio|1.02|||||TWO_SIDED|80.0|0.86|1.22|||ANCOVA|An interaction between strain and pre-vaccination log transformed titer is included in the model to fit to the serogroup B test strain data only.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the pooled B strains, one month after first vaccination.||1.22|0.86|
82599698|NCT00403260|164914494|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The primary efficacy analysis tested the non-inferiority of the PA group compared to the comparator group with regard to the PCR-corrected ACPR response rate at Day 28 using the 2-sided 95% confidence interval (CI) (Newcombe-Wilson score method without continuity correction). Non-inferiority of PA to MQ + AS was concluded if the lower limit of the CI for the difference was \>-5%.|ACPR percent difference|1.1||||0.106|TWO_SIDED|95.0|-0.2|3.1||If non-inferiority of PA was demonstrated, the p-value associated with a superiority test is calculated based on a 2-sided Chi-square test. If the calculated p-value is \<5%, then the superiority of PA compared to MQ+AS was statistically demonstrated.|Chi-squared|||"Null hypothesis: The PCR-corrected ACPR response rate at Day 28 for the PA group is inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (MQ + AS) by more than 5%.~Was tested versus the alternative:~Alternative hypothesis: the PCR-corrected ACPR response rate at Day 28 for the PA group is not inferior to the PCR-corrected ACPR response rate at Day 28 for the comparator group (MQ + AS) by more than -5%."||3.1|-0.2|0.106
82599699|NCT00805740|164914534|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.8|||||TWO_SIDED|95.0|-12.3|53.3||||||The 95 percent (%) confidence interval (CI) was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||53.3|-12.3|
82599700|NCT00805740|164914535|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.6|||||TWO_SIDED|95.0|-13.6|55.6||||||2-week follow-up: The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||55.6|-13.6|
82599701|NCT00805740|164914535|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1|||||TWO_SIDED|95.0|-23.3|47.3||||||6-week follow-up: The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||47.3|-23.3|
82599702|NCT00805740|164914537|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-6.1|||||TWO_SIDED|95.0|-39.0|27.9||||||The 95% CI was calculated using method of exact unconditional confidence limits for the difference. Global response (rates of success) by using a 2-sided 95% CI for the true difference in efficacy (Anidulafungin minus Caspofungin) was calculated. Statistical testing was done at 2.5% alpha.||27.9|-39.0|
82599703|NCT05227690|164914543|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24|=|0.1765|TWO_SIDED|95.0|-7.5|1.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||1.4|-7.5|=0.1765
82599704|NCT05227690|164914543|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.26|=|0.6007|TWO_SIDED|95.0|-5.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Emraclidine 10 mg versus Placebo||3.3|-5.6|=0.6007
82599705|NCT05227690|164914544|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124|=|0.2534|TWO_SIDED|95.0|-0.39|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Emraclidine 30 mg versus Placebo||0.10|-0.39|=0.2534
82599706|NCT05227690|164914544|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.125|=|0.6774|TWO_SIDED|95.0|-0.3|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Emraclidine 10 mg versus Placebo||0.19|-0.30|=0.6774
82599707|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.1|=|0.3596|TWO_SIDED|95.0|-3.2|1.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||1.2|-3.2|=0.3596
82599708|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.1|=|0.6053|TWO_SIDED|95.0|-2.7|1.6|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 1-- Emraclidine 10 mg versus Placebo||1.6|-2.7|=0.6053
82599709|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.54|=|0.8149|TWO_SIDED|95.0|-3.4|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||2.7|-3.4|=0.8149
82599710|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.55|=|0.9058|TWO_SIDED|95.0|-3.2|2.9|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 2-- Emraclidine 10 mg versus Placebo||2.9|-3.2|=0.9058
82599711|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.71|=|0.5419|TWO_SIDED|95.0|-4.4|2.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||2.3|-4.4|=0.5419
82599712|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.72|=|0.8585|TWO_SIDED|95.0|-3.1|3.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||3.7|-3.1|=0.8585
82599713|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.99|=|0.5521|TWO_SIDED|95.0|-5.1|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||2.7|-5.1|=0.5521
82599714|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|2.0|=|0.754|TWO_SIDED|95.0|-4.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 4-- Emraclidine 10 mg versus Placebo||3.3|-4.6|=0.7540
82599715|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.12|=|0.4842|TWO_SIDED|95.0|-5.7|2.7|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||2.7|-5.7|=0.4842
82599716|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|2.13|=|0.6999|TWO_SIDED|95.0|-5.0|3.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 5-- Emraclidine 10 mg versus Placebo||3.4|-5.0|=0.6999
82599717|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|2.24|=|0.1765|TWO_SIDED|95.0|-7.5|1.4|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||1.4|-7.5|=0.1765
82599718|NCT05227690|164914545|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|2.26|=|0.6007|TWO_SIDED|95.0|-5.6|3.3|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||3.3|-5.6|=0.6007
82655281|NCT03587207|165026291|OTHER|M14459 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|1.29|||||TWO_SIDED|80.0|1.02|1.63|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.63|1.02|
82655282|NCT03587207|165026291|OTHER|96217 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.93|||||TWO_SIDED|80.0|0.75|1.15|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.15|0.75|
82599719|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.061|=|0.5822|TWO_SIDED|95.0|-0.15|0.09|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 1-- Emraclidine 30 mg versus Placebo||0.09|-0.15|=0.5822
82599720|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.061|=|0.9244|TWO_SIDED|95.0|-0.11|0.13|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 1-- Emraclidine 10 mg versus Placebo||0.13|-0.11|=0.9244
82599721|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.088|=|0.9348|TWO_SIDED|95.0|-0.17|0.18|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 2-- Emraclidine 30 mg versus Placebo||0.18|-0.17|=0.9348
82492036|NCT04645953|164677281|SUPERIORITY|Null hypothesis is there was no difference between groups treated with AZ-010 (1 mg or 3 mg) and the placebo group in the mean number of vomiting/retching events in the 2 hours following. treatment. Baseline, body weight, height, body mass index, age as covariates, and the treatment group and study site as factors. Patients summarized by actual treatment received. Formal statistical tests (ANOVA, when performed) were 2-sided t-tests with a significance value of 0.05.||||||0.2051|||||||ANOVA|||||||0.2051
82492037|NCT04645953|164677282|SUPERIORITY|||||||0.0504|||||||Mixed Models Analysis|||Participants were asked to rate their anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||0.0504
82492038|NCT04645953|164677282|SUPERIORITY|Participants were asked to rate their anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||||0.8246|||||||Mixed Models Analysis|||||||0.8246
82599722|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.089|=|0.716|TWO_SIDED|95.0|-0.21|0.14|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 2-- Emraclidine 10 mg versus Placebo||0.14|-0.21|=0.7160
82599723|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1|=|0.6883|TWO_SIDED|95.0|-0.24|0.16|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.16|-0.24|=0.6883
82599724|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.1|=|0.5973|TWO_SIDED|95.0|-0.14|0.25|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.25|-0.14|=0.5973
82599725|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.11|=|0.1392|TWO_SIDED|95.0|-0.38|0.05|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 4-- Emraclidine 30 mg versus Placebo||0.05|-0.38|=0.1392
82599726|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.111|=|0.9421|TWO_SIDED|95.0|-0.21|0.23|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 4-- Emraclidine 10 mg versus Placebo||0.23|-0.21|=0.9421
82599727|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.116|=|0.5431|TWO_SIDED|95.0|-0.3|0.16|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 5-- Emraclidine 30 mg versus Placebo||0.16|-0.30|=0.5431
82655283|NCT03587207|165026291|OTHER|NZ98/254 strain- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|1.01|||||TWO_SIDED|80.0|0.8|1.29|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B NZ98/254 (PorA)strain, one month after first vaccination.||1.29|0.80|
82655284|NCT03587207|165026291|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Odds Ratio (OR)|1.08|||||TWO_SIDED|80.0|0.87|1.36|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.36|0.87|
82599728|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.117|=|0.816|TWO_SIDED|95.0|-0.2|0.26|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 5-- Emraclidine 10 mg versus Placebo||0.26|-0.20|=0.8160
82599729|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.124|=|0.2534|TWO_SIDED|95.0|-0.39|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.10|-0.39|=0.2534
82599730|NCT05227690|164914546|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.125|=|0.6774|TWO_SIDED|95.0|-0.3|0.19|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.19|-0.30|=0.6774
82599731|NCT05227690|164914547|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and Baseline value as a covariate.|Odds Ratio|1.9|||=|0.0904|TWO_SIDED|95.0|0.9|3.99|||Regression, Logistic|||Emraclidine 30 mg versus Placebo||3.99|0.90|=0.0904
82599732|NCT05227690|164914547|SUPERIORITY|Odds ratio, 95% confidence interval, and p-value were from a logistic regression with treatment group, geographic region and Baseline value as a covariate.|Odds Ratio|1.96|||=|0.0756|TWO_SIDED|95.0|0.93|4.13|||Regression, Logistic|||Emraclidine 10 mg versus Placebo||4.13|0.93|=0.0756
82599733|NCT05227690|164914554|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.05|=|0.2418|TWO_SIDED|95.0|0.0|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|0.0|=0.2418
82599734|NCT05227690|164914554|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.572|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.5720
82599735|NCT05227690|164914554|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06|=|0.7459|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|=0.7459
82599736|NCT05227690|164914554|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.06|=|0.6729|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.6729
82599737|NCT05227690|164914555|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.06|=|0.3783|TWO_SIDED|95.0|-0.1|0.2|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.2|-0.1|=0.3783
82655285|NCT03587207|165026291|OTHER|Serogroup A- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.77|||||TWO_SIDED|80.0|0.58|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup A, one month after first vaccination.||1.03|0.58|
82655286|NCT03587207|165026291|OTHER|Serogroup C- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D Group.|Geometric mean ratio|0.84|||||TWO_SIDED|80.0|0.62|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup C, one month after first vaccination.||1.13|0.62|
82655287|NCT03587207|165026291|OTHER|Serogroup W- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.88|||||TWO_SIDED|80.0|0.68|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup W, one month after first vaccination.||1.13|0.68|
82492039|NCT04645953|164677283|SUPERIORITY|||||||0.8299||||||Prior Episode Duration 1mg AZ-010|Mixed Models Analysis|||||||0.8299
82492040|NCT04645953|164677283|SUPERIORITY|||||||0.2346||||||Prior Episode Duration 3 mg AZ-010|Mixed Models Analysis|||||||0.2346
82492041|NCT04645953|164677283|SUPERIORITY|||||||0.3997||||||Prior Episode intensity 1mg AZ-010|Mixed Models Analysis|||||||0.3997
82655288|NCT03587207|165026291|OTHER|Serogroup Y- Between group ratio for comparison of rMenBOMV+ACWY\_S group and rMenBOMV+ACWY\_D group.|Geometric mean ratio|0.76|||||TWO_SIDED|80.0|0.54|1.08|||ANCOVA|The model is fitted to each serogroup/strain separately.||Immune interference due to stress to lymph nodes (lymph-node effect) in rMenBOMV+ACWY\_S versus rMenBOMV+ACWY\_D study groups, on the Meningitis serogroup Y, one month after first vaccination.||1.08|0.54|
82655289|NCT03587207|165026291|OTHER|M14459 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.87|||||TWO_SIDED|80.0|0.69|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.09|0.69|
82655290|NCT03587207|165026291|OTHER|96217 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.73|||||TWO_SIDED|80.0|0.58|0.9|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||0.90|0.58|
82655291|NCT03587207|165026291|OTHER|NZ98/254 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.78|||||TWO_SIDED|80.0|0.61|1.0|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.00|0.61|
82655292|NCT03587207|165026291|OTHER|M07-0241084 strain- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.86|||||TWO_SIDED|80.0|0.68|1.07|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.07|0.68|
82655293|NCT03587207|165026291|OTHER|Serogroup A- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.46|||||TWO_SIDED|80.0|0.35|0.62|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup A, one month after first vaccination.||0.62|0.35|
82655294|NCT03587207|165026291|OTHER|Serogroup C- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.22|||||TWO_SIDED|80.0|0.91|1.65|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup C, one month after first vaccination.||1.65|0.91|
82655295|NCT03587207|165026291|OTHER|Serogroup W- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|1.34|||||TWO_SIDED|80.0|1.04|1.72|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup W, one month after first vaccination.||1.72|1.04|
82599738|NCT05227690|164914555|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06|=|0.2242|TWO_SIDED|95.0|-0.2|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.0|-0.2|=0.2242
82599739|NCT05227690|164914555|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.8626|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.1|-0.1|=0.8626
82599740|NCT05227690|164914555|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05|=|0.6106|TWO_SIDED|95.0|-0.1|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.1|-0.1|=0.6106
82655296|NCT03587207|165026291|OTHER|Serogroup Y- Between group ratio for comparison of MenABCWY group and rMenBOMV+ACWY\_S group.|Geometric mean ratio|0.98|||||TWO_SIDED|80.0|0.7|1.38|||ANCOVA|The model is fitted to each serogroup/strain separately.||Other unknown interference in MenABCWY versus rMenBOMV+ACWY\_S study groups, on the Meningitis serogroup Y, one month after first vaccination.||1.38|0.70|
82655297|NCT03587207|165026291|OTHER|M14459 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group.|Geometric mean ratio|1.05|||||TWO_SIDED|80.0|0.83|1.32|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.32|0.83|
82655298|NCT03587207|165026291|OTHER|96217 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.8|||||TWO_SIDED|80.0|0.64|1.0|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.00|0.64|
82492042|NCT04645953|164677283|SUPERIORITY|||||||0.3997||||||Prior Episode intensity 3mg AZ-010|Mixed Models Analysis|||||||0.3997
82492043|NCT04645953|164677284|SUPERIORITY|||||||0.3847|||||||Mantel Haenszel|||||||0.3847
82492044|NCT04645953|164677284|SUPERIORITY|||||||0.1785|||||||Mantel Haenszel|||||||0.1785
82655299|NCT03587207|165026291|OTHER|NZ98/254 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.88|||||TWO_SIDED|80.0|0.69|1.13|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.13|0.69|
82599741|NCT05227690|164914556|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.4219|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 3-- Emraclidine 30 mg versus Placebo||0.1|0.0|=0.4219
82599742|NCT05227690|164914556|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.03|=|0.3933|TWO_SIDED|95.0|0.0|0.1|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 3-- Emraclidine 10 mg versus Placebo||0.1|0.0|=0.3933
82655300|NCT03587207|165026291|OTHER|M07-0241084 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_S group and rMenBOMV group|Geometric mean ratio|0.95|||||TWO_SIDED|80.0|0.76|1.19|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_S versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.19|0.76|
82655301|NCT03587207|165026291|OTHER|M14459 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.81|||||TWO_SIDED|80.0|0.64|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp) strain, one month after first vaccination.||1.03|0.64|
82599743|NCT05227690|164914556|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.7366|TWO_SIDED|95.0|0.0|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 30 mg - Placebo|Week 6-- Emraclidine 30 mg versus Placebo||0.0|0.0|=0.7366
82599744|NCT05227690|164914556|SUPERIORITY|Least-squares mean difference from Placebo and CIs were estimated using a mixed effects repeated measures model with fixed effects for treatment group, geographic region, visit, and treatment-by-visit interaction and Baseline value as a covariate. Participant was included as a random effect. An unstructured covariance structure was used.|LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.02|=|0.4639|TWO_SIDED|95.0|-0.1|0.0|||Mixed Model for Repeated Measures (MMRM)||Emraclidine 10 mg - Placebo|Week 6-- Emraclidine 10 mg versus Placebo||0.0|-0.1|=0.4639
82599745|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.85||||0.306|TWO_SIDED|90.0|0.65|1.11|||Mixed Models Analysis|||Week 2||1.11|0.65|0.306
82599746|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.81||||0.874|TWO_SIDED|90.0|0.6|1.09|||Mixed Models Analysis|||Week 4||1.09|0.60|0.874
82599747|NCT04669678|164914557|OTHER||Odds Ratio (OR)|1.04||||0.646|TWO_SIDED|90.0|0.91|1.19|||Mixed Models Analysis|||Week 8||1.19|0.91|0.646
82599748|NCT04669678|164914557|OTHER||Odds Ratio (OR)|1.02||||0.869|TWO_SIDED|90.0|0.82|1.28|||Mixed Models Analysis|||Week 12||1.28|0.82|0.869
82599749|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.51||||0.044|TWO_SIDED|90.0|0.3|0.88|||Mixed Models Analysis|||Week 2||0.88|0.30|0.044
82599750|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.36|||<|0.001|TWO_SIDED|90.0|0.28|0.46|||Mixed Models Analysis|||Week 4||0.46|0.28|<0.001
82599751|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.37|||<|0.001|TWO_SIDED|90.0|0.27|0.49|||Mixed Models Analysis|||Week 8||0.49|0.27|<0.001
82599752|NCT04669678|164914557|OTHER||Odds Ratio (OR)|0.44|||<|0.001|TWO_SIDED|90.0|0.35|0.54|||Mixed Models Analysis|||Week 12||0.54|0.35|<0.001
82599753|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.25||||0.641|TWO_SIDED|90.0|0.57|2.74|||Mixed Models Analysis|||Week 2||2.74|0.57|0.641
82599754|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.57||||0.204|TWO_SIDED|90.0|0.87|2.8|||Mixed Models Analysis|||Week 4||2.80|0.87|0.204
82655302|NCT03587207|165026291|OTHER|96217 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometric mean ratio|0.87|||||TWO_SIDED|80.0|0.69|1.09|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||1.09|0.69|
82599755|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.29||||0.415|TWO_SIDED|90.0|0.77|2.15|||Mixed Models Analysis|||Week 8||2.15|0.77|0.415
82599756|NCT04669678|164914558|OTHER||Odds Ratio (OR)|2.23||||0.027|TWO_SIDED|90.0|1.23|4.06|||Mixed Models Analysis|||Week 12||4.06|1.23|0.027
82599757|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.86||||0.274|TWO_SIDED|90.0|0.73|4.73|||Mixed Models Analysis|||Week 2||4.73|0.73|0.274
82599758|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.83||||0.065|TWO_SIDED|90.0|1.07|3.13|||Mixed Models Analysis|||Week 4||3.13|1.07|0.065
82599759|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.72||||0.252|TWO_SIDED|90.0|0.79|3.75|||Mixed Models Analysis|||Week 8||3.75|0.79|0.252
82599760|NCT04669678|164914558|OTHER||Odds Ratio (OR)|2.61||||0.002|TWO_SIDED|90.0|1.57|4.33|||Mixed Models Analysis|||Week 12||4.33|1.57|0.002
82599761|NCT04669678|164914558|OTHER||Odds Ratio (OR)|0.78||||0.46|TWO_SIDED|90.0|0.46|1.34|||Mixed Models Analysis|||Week 20||1.34|0.46|0.460
82599762|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.59||||0.019|TWO_SIDED|90.0|1.15|2.2|||Mixed Models Analysis|||Week 24||2.20|1.15|0.019
82599763|NCT04669678|164914558|OTHER||Odds Ratio (OR)|2.16||||0.061|TWO_SIDED|90.0|1.1|4.27|||Mixed Models Analysis|||Week 2||4.27|1.10|0.061
82599764|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.64||||0.106|TWO_SIDED|90.0|0.99|2.71|||Mixed Models Analysis|||Week 4||2.71|0.99|0.106
82599765|NCT04669678|164914558|OTHER||Odds Ratio (OR)|1.77||||0.144|TWO_SIDED|90.0|0.93|3.36|||Mixed Models Analysis|||Week 8||3.36|0.93|0.144
82599766|NCT04669678|164914558|OTHER||Odds Ratio (OR)|2.37||||0.011|TWO_SIDED|90.0|1.36|4.16|||Mixed Models Analysis|||Week 12||4.16|1.36|0.011
82599767|NCT02634580|164914569|SUPERIORITY||LS Mean Treatment Difference|-39.35|STANDARD_ERROR_OF_MEAN|3.93|<|0.0001|TWO_SIDED|95.0|-47.23|-31.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-31.48|-47.23|<0.0001
82599768|NCT02634580|164914570|SUPERIORITY||LS Mean Treatment Difference|-40.14|STANDARD_ERROR_OF_MEAN|4.26|<|0.0001|TWO_SIDED|95.0|-48.68|-31.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-31.60|-48.68|< 0.0001
82599769|NCT02634580|164914571|SUPERIORITY||LS Mean Treatment Difference|-77.6|STANDARD_ERROR_OF_MEAN|8.1|<|0.0001|TWO_SIDED|95.0|-93.9|-61.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-61.3|-93.9|<0.0001
82599770|NCT02634580|164914572|SUPERIORITY||LS Mean Treatment Difference|-79.4|STANDARD_ERROR_OF_MEAN|8.7|<|0.0001|TWO_SIDED|95.0|-96.7|-62.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-62.0|-96.7|<0.0001
82599771|NCT02634580|164914573|SUPERIORITY||Treatment Difference|56.41|||<|0.0001|TWO_SIDED|95.0|34.1|70.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Ezetimibe|||70.70|34.10|<0.0001
82599772|NCT02634580|164914574|SUPERIORITY||Treatment Difference|52.63|||<|0.0001|TWO_SIDED|95.0|30.36|67.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran Mantel Haenszel (CMH) test adjusted by the stratification factor (screening LDL-C level).|Evolocumab - Ezetimibe|||67.52|30.36|< 0.0001
82599773|NCT02634580|164914575|SUPERIORITY||LS Mean Treatment Difference|-25.44|STANDARD_ERROR_OF_MEAN|2.68|<|0.0001|TWO_SIDED|95.0|-30.8|-20.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.08|-30.80|<0.0001
82599774|NCT02634580|164914576|SUPERIORITY||LS Mean Treatment Difference|-25.83|STANDARD_ERROR_OF_MEAN|2.89|<|0.0001|TWO_SIDED|95.0|-31.63|-20.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.04|-31.63|<0.0001
82599775|NCT02634580|164914577|SUPERIORITY||LS Mean Treatment Difference|-33.53|STANDARD_ERROR_OF_MEAN|3.42|<|0.0001|TWO_SIDED|95.0|-40.38|-26.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-26.68|-40.38|< 0.0001
82599776|NCT02634580|164914578|SUPERIORITY||LS Mean Treatment Difference|-33.44|STANDARD_ERROR_OF_MEAN|3.75|<|0.0001|TWO_SIDED|95.0|-40.94|-25.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-25.94|-40.94|<0.0001
82599777|NCT02634580|164914579|SUPERIORITY||LS Mean Treatment Difference|-35.67|STANDARD_ERROR_OF_MEAN|3.31|<|0.0001|TWO_SIDED|95.0|-42.3|-29.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.04|-42.30|< 0.0001
82599778|NCT02634580|164914580|SUPERIORITY||LS Mean Treatment Difference|-36.6|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|95.0|-43.98|-29.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.22|-43.98|<0.0001
82599779|NCT02634580|164914581|SUPERIORITY||LS Mean Treatment Difference|-28.61|STANDARD_ERROR_OF_MEAN|3.32|<|0.0001|TWO_SIDED|95.0|-35.26|-21.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-21.97|-35.26|< 0.0001
82599780|NCT02634580|164914582|SUPERIORITY||LS Mean Treatment Difference|-27.05|STANDARD_ERROR_OF_MEAN|3.47|<|0.0001|TWO_SIDED|95.0|-34.0|-20.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.09|-34.00|< 0.0001
82599781|NCT02634580|164914583|SUPERIORITY||LS Mean Treatment Difference|-37.07|STANDARD_ERROR_OF_MEAN|3.28|<|0.0001|TWO_SIDED|95.0|-43.65|-30.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-30.50|-43.65|<0.0001
82655303|NCT03587207|165026291|OTHER|NZ98/254 strain -Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometrical mean ratio|0.87|||||TWO_SIDED|80.0|0.68|1.12|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||1.12|0.68|
82655304|NCT03587207|165026291|OTHER|M07-0241084 strain-Between group ratio for comparison of rMenBOMV\_ACWY\_D group and rMenBOMV group|Geometrical mean ratio|0.88|||||TWO_SIDED|80.0|0.7|1.1|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to rMenBOMV+ACWY\_D versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.10|0.70|
82655305|NCT03587207|165026291|OTHER|M14459 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.91|||||TWO_SIDED|80.0|0.71|1.15|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M14459 (fHbp)strain, one month after first vaccination.||1.15|0.71|
82655306|NCT03587207|165026291|OTHER|96217 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.58|||||TWO_SIDED|80.0|0.47|0.73|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B 96217 (NadA) strain, one month after first vaccination.||0.73|0.47|
82655307|NCT03587207|165026291|OTHER|NZ98/254 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.69|||||TWO_SIDED|80.0|0.54|0.89|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B NZ98/254 (PorA) strain, one month after first vaccination.||0.89|0.54|
82655308|NCT03587207|165026291|OTHER|M07-0241084 strain-Between group ratio for comparison of MenABCWY group and rMenBOMV group|Geometric mean ratio|0.82|||||TWO_SIDED|80.0|0.65|1.03|||ANCOVA|The model is fitted to each serogroup/strain separately.||To investigate possible effects on the immune response based on strains common to MenABCWY versus rMenBOMV study groups, on the Meningitis B M07-0241084 (NHBA) strain, one month after first vaccination.||1.03|0.65|
82655309|NCT01600495|165026324|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Mixed Models Analysis|||||||0.01
82599782|NCT02634580|164914584|SUPERIORITY||LS Mean Treatment Difference|-36.29|STANDARD_ERROR_OF_MEAN|3.54|<|0.0001|TWO_SIDED|95.0|-43.39|-29.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-29.20|-43.39|<0.0001
82599783|NCT02634580|164914585|SUPERIORITY||LS Mean Treatment Difference|-31.13|STANDARD_ERROR_OF_MEAN|5.34|<|0.0001|TWO_SIDED|95.0|-41.83|-20.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-20.43|-41.83|<0.0001
82599784|NCT02634580|164914586|SUPERIORITY||LS Mean Treatment Difference|-31.21|STANDARD_ERROR_OF_MEAN|6.17|<|0.0001|TWO_SIDED|95.0|-43.57|-18.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||-18.84|-43.57|<0.0001
82599785|NCT02634580|164914587|SUPERIORITY||LS Mean Treatment Difference|3.49|STANDARD_ERROR_OF_MEAN|7.31||0.63|TWO_SIDED|95.0|-11.15|18.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||18.13|-11.15|0.63
82599786|NCT02634580|164914588|SUPERIORITY||LS Mean Treatment Difference|11.79|STANDARD_ERROR_OF_MEAN|9.52||0.22|TWO_SIDED|95.0|-7.29|30.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||30.87|-7.29|0.22
82599787|NCT02634580|164914589|SUPERIORITY||LS Mean Treatment Difference|7.96|STANDARD_ERROR_OF_MEAN|3.08||0.012|TWO_SIDED|95.0|1.78|14.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||14.14|1.78|0.012
82599788|NCT02634580|164914590|SUPERIORITY||LS Mean Treatment Difference|5.59|STANDARD_ERROR_OF_MEAN|3.2||0.086|TWO_SIDED|95.0|-0.82|12.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||12.00|-0.82|0.086
82655310|NCT01600495|165026325|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.25
82655311|NCT01600495|165026327|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Fisher Exact|||Fisher's exact test||||<0.01
82655312|NCT04947579|165026356|SUPERIORITY||Stratified difference|2.4||||0.829|TWO_SIDED|95.0|-18.2|22.7|||Cochran-Mantel-Haenszel||CC99677 60 mg - Placebo|||22.7|-18.2|0.829
82655313|NCT04947579|165026356|SUPERIORITY||Stratified difference|7.3||||0.512|TWO_SIDED|95.0|-13.8|27.5|||Cochran-Mantel-Haenszel||CC99677 150 mg - Placebo|||27.5|-13.8|0.512
82655314|NCT04947579|165026357|SUPERIORITY||Stratified difference|3.3||||0.725|TWO_SIDED|95.0|-14.9|21.0|||Cochran-Mantel-Haenszel||CC99677 60 mg - Placebo|||21.0|-14.9|0.725
82492045|NCT04645953|164677285|SUPERIORITY|||||||0.9732|||||||Mantel Haenszel|||||||0.9732
82492046|NCT04645953|164677285|SUPERIORITY|||||||0.1471|||||||Mantel Haenszel|||||||0.1471
82655315|NCT04947579|165026357|SUPERIORITY||Stratfied difference|12.2||||0.219|TWO_SIDED|95.0|-7.2|30.5|||Cochran-Mantel-Haenszel||CC99677 150 mg - Placebo|||30.5|-7.2|0.219
82655316|NCT04947579|165026358|SUPERIORITY||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.167||0.299|TWO_SIDED|95.0|-0.5|0.16|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.16|-0.50|0.299
82655317|NCT04947579|165026358|SUPERIORITY||Difference in Adjusted Means|-0.12|STANDARD_ERROR_OF_MEAN|0.168||0.488|TWO_SIDED|95.0|-0.45|0.22|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||0.22|-0.45|0.488
82599789|NCT02634580|164914591|SUPERIORITY||LS Mean Treatment Difference|-0.67|STANDARD_ERROR_OF_MEAN|7.26||0.93|TWO_SIDED|95.0|-15.22|13.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||13.87|-15.22|0.93
82599790|NCT02634580|164914592|SUPERIORITY||LS Mean Treatment Difference|7.64|STANDARD_ERROR_OF_MEAN|9.88||0.44|TWO_SIDED|95.0|-12.15|27.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|Model includes treatment group, stratification factor (screening LDL-C level), scheduled visit and the interaction of treatment with scheduled visit.|Evolocumab - Ezetimibe|||27.43|-12.15|0.44
82599791|NCT02653768|164914595|OTHER|As noted above, a statistical test was not specified at this time point. Rather, the data for all time points were included in the model and are presented here descriptively.|Mean Difference (Final Values)|-5.1|||||TWO_SIDED|95.0|-8.2|-2.0||||||This analysis of between-group difference in change from baseline to 3-month follow-up. We have not included a p-value because there was no pre-specified hypothesis for this time point. Rather, these are additional data obtained from the overall model, for which the 9-month time point was primary and included a pre-specified hypothesis.||-2.0|-8.2|
82599792|NCT02653768|164914595|OTHER|As noted above, a statistical test was not specified at this time point. Rather, the data for all time points were included in the model and are presented here descriptively.|Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.2|2.3||||||This is the analysis of between-group difference in change from baseline to 6-month follow-up. We have not included a p-value because there was no pre-specified hypothesis for this time point. Rather, these are additional data obtained from the overall model, for which the 9-month time point was primary and included a pre-specified hypothesis.||2.3|-5.2|
82599793|NCT02653768|164914595|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.0003|TWO_SIDED|95.0|-10.5|-3.2|||Mixed Models Analysis|||This is the analysis of between-group difference in change from baseline to 9-month follow-up. This is the primary outcome assessment time point.||-3.2|-10.5|0.0003
82599794|NCT02653768|164914596|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.43|TWO_SIDED|95.0|-0.6|1.3|||Mixed Models Analysis|||This is the analysis between-group difference in change from baseline to 9-month follow-up for the 30 second chair stand.||1.3|-0.6|0.43
82599795|NCT02653768|164914597|OTHER||Mean Difference (Final Values)|-2.3||||0.23|TWO_SIDED|95.0|-6.1|1.5|||Mixed Models Analysis|||||1.5|-6.1|0.23
82599796|NCT05425563|164914607|OTHER||Slope|8.3269|STANDARD_ERROR_OF_MEAN|0.8792|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
82599797|NCT05425563|164914608|OTHER||Slope|8.0809|STANDARD_ERROR_OF_MEAN|0.5414|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
82599798|NCT05425563|164914609|OTHER||Slope|8.121|STANDARD_ERROR_OF_MEAN|0.481|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
82599799|NCT05425563|164914616|OTHER||Slope|34.613|STANDARD_ERROR_OF_MEAN|0.602|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
82599800|NCT05425563|164914617|OTHER||Slope|33.9754|STANDARD_ERROR_OF_MEAN|0.426||0.001|TWO_SIDED||||||Mixed Models Analysis|||||||.001
82599801|NCT05425563|164914618|OTHER||Slope|31.63|STANDARD_ERROR_OF_MEAN|0.422|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||< .001
82599802|NCT00584233|164914636|NON_INFERIORITY|The statistical test will be to assess non-inferiority. The non-inferiority margin is -0.04 in AUC. Key parameters are the number of participating patients, the number of radiologists reading the images in the study. Power analysis was conducted using the standard simulation from the ROC literature (Roe and Metz, Academic Radiology 1997). With a total of 100 participating patients and 4 participating readers, we achieve a power \>80% with a non-inferiority margin of -0.04.|Obuchowski Rockette methodology|0.05||||0.05|TWO_SIDED|95.0|0.025|0.975|||Obuchowski Rockette|||The analysis is intended to evaluate non-inferiority in observer performance between CE-bCT and CE-bMRI as assessed by the area under the ROC curve (AUC). The null hypothesis is that the observed difference in average AUC for CE-bCT and CE-bMRI will be outside of a non-inferiority margin of -0.04. See below for details of the power analyses.||.975|.025|0.05
82599803|NCT03178487|164914639|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|Response Rate Difference|26.1|||<|0.001|TWO_SIDED|95.0|12.6|39.5|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test adjusting for stratification factor of Screening hsCRP level.|Response Rate Difference = Upadacitinib - Placebo|||39.5|12.6|<0.001
82599804|NCT03178487|164914640|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|Least Squares (LS) Mean Difference|-0.91|||<|0.001|TWO_SIDED|95.0|-1.14|-0.68|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.68|-1.14|<0.001
82492047|NCT04645953|164677286|SUPERIORITY|||||||0.1337|||||||ANOVA|||The RINVR is an 8-part questionnaire with each item scored from 0-4, for a total scoring range of 0-32. A lower score indicates less distress related to nausea, vomiting, and retching. The data shown is collected within the first 24 hours after the first at-home dose.||||0.1337
82599805|NCT03178487|164914641|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.|LS Mean Difference|-6.71|||<|0.001|TWO_SIDED|95.0|-9.01|-4.41|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-4.41|-9.01|<0.001
82655318|NCT04947579|165026359|SUPERIORITY||Difference in Adjusted Means|0.01|STANDARD_ERROR_OF_MEAN|0.391||0.97|TWO_SIDED|95.0|-0.76|0.79|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.79|-0.76|0.970
82655319|NCT04947579|165026359|SUPERIORITY||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.393||0.668|TWO_SIDED|95.0|-0.95|0.61|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||0.61|-0.95|0.668
82599806|NCT03178487|164914642|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASDAI 50; within the group, the allocated α was adjusted based on the magnitude of p values.|Response Rate Difference|21.8||||0.002|TWO_SIDED|95.0|8.5|35.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|Response rate difference = Upadacitinib - Placebo|||35.0|8.5|0.002
82599807|NCT03178487|164914643|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including ASQoL; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-1.54||||0.016|TWO_SIDED|95.0|-2.78|-0.3|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.30|-2.78|0.016
82599808|NCT03178487|164914644|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including ASAS PR; within the group, the allocated α was adjusted based on the magnitude of p values.|Response Rate Difference|18.3|||<|0.001|TWO_SIDED|95.0|10.0|26.6|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|Response rate difference = Upadacitinib - Placebo|||26.6|10.0|<0.001
82599809|NCT03178487|164914645|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASFI; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-1.0||||0.001|TWO_SIDED|95.0|-1.6|-0.39|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.39|-1.60|0.001
82599810|NCT03178487|164914646|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including BASMI(lin); within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-0.22||||0.03|TWO_SIDED|95.0|-0.43|-0.02|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-0.02|-0.43|0.030
82599811|NCT03178487|164914647|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including MASES; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-0.84||||0.049|TWO_SIDED|95.0|-1.68|0.0|||Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.00|-1.68|0.049
82599812|NCT03178487|164914648|SUPERIORITY|To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint. The testing sequence included a group of endpoints tested by the Hochberg procedure, including WPAI; within the group, the allocated α was adjusted based on the magnitude of p values.|LS Mean Difference|-5.52||||0.19|TWO_SIDED|95.0|-13.82|2.78|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||2.78|-13.82|0.190
82599813|NCT03178487|164914649|OTHER|"To preserve the overall type I error rate at α=0.05 level, a step-down approach was used to test the primary and multiplicity-controlled key secondary endpoints. The testing began with the primary endpoint at α=0.05 and continued conditional on significance of higher-ranked endpoint.~ASAS HI was to be evaluated only if the group of endpoints tested by Hochberg procedure were all significant."|LS Mean Difference|-1.37||||0.007|TWO_SIDED|95.0|-2.37|-0.37||This comparison was not tested for statistical significance because the hierarchical testing procedures stopped during the Hochberg procedure.|Mixed Effect Model Repeated Measurement|MMRM model includes treatment, visit, treatment-by-visit interaction as fixed effects and Screening hsCRP level and Baseline value as covariates.|Treatment difference = Upadacitinib - Placebo|||-0.37|-2.37|0.007
82599814|NCT03178487|164914650|OTHER||Response Rate Difference|24.1||||0.001|TWO_SIDED|95.0|10.2|38.0||This comparison was not part of the pre-specified multiplicity testing sequence.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test adjusting for stratification factor of Screening hsCRP level.|||Response Rate Difference = Upadacitinib - Placebo|38.0|10.2|0.001
82599815|NCT03178487|164914651|OTHER||LS Mean Difference|-3.69|||<|0.001|TWO_SIDED|95.0|-5.31|-2.08||This comparison was not part of the pre-specified multiplicity testing sequence.|ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-2.08|-5.31|<0.001
82599816|NCT03178487|164914652|OTHER||LS Mean Difference|-6.21|||<|0.001|TWO_SIDED|95.0|-8.27|-4.14|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-4.14|-8.27|<0.001
82599817|NCT03178487|164914653|OTHER||LS Mean Difference|-2.55|||<|0.001|TWO_SIDED|95.0|-4.01|-1.08|||ANCOVA|ANCOVA model including treatment and Screening hsCRP level as fixed factors and Baseline value as covariate.|Treatment difference = Upadacitinib - Placebo|||-1.08|-4.01|<0.001
82655320|NCT04947579|165026360|SUPERIORITY||Difference in Adjusted Means|0.06|STANDARD_ERROR_OF_MEAN|0.416||0.89|TWO_SIDED|95.0|-0.77|0.88|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||0.88|-0.77|0.890
82655321|NCT04947579|165026360|SUPERIORITY||Difference in Adjusted Means|0.25|STANDARD_ERROR_OF_MEAN|0.417||0.545|TWO_SIDED|95.0|-0.57|1.08|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.08|-0.57|0.545
82655322|NCT04947579|165026361|SUPERIORITY||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.999||0.778|TWO_SIDED|95.0|-2.26|1.7|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||1.70|-2.26|0.778
82655323|NCT04947579|165026361|SUPERIORITY||Difference in Adjusted Means|-1.0|STANDARD_ERROR_OF_MEAN|1.022||0.33|TWO_SIDED|95.0|-3.02|1.03|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.03|-3.02|0.330
82599818|NCT04161495|164914656|NON_INFERIORITY|Non-inferiority would be established if the upper bound of the one-sided 97.5% CI was less than 4.|Mean difference|-2.3|||||TWO_SIDED|95.0|-3.49|-1.11||||||Hierarchical testing framework: used to control type I error for secondary OM analyses. Statistical testing of Arm A intra-participant comparison non-inferiority continued only when estimation of previous OM was statistically significant at 0.05 level. For Arm A intra-participant comparison, mean difference and 95% confidence interval (CI) were estimated by NB regression model in which treatment (BIVV001 prophylaxis vs historical prophylaxis vs historical prophylaxis) was treated as covariate.||-1.11|-3.49|
82599819|NCT04161495|164914658|SUPERIORITY|Superiority was declared if the upper bound of the one-sided 97.5% confidence interval was less than 1.|Rate ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.13|0.42|||Negative binomial regression mode|||Tested according to hierarchical testing procedure (only performed if the previous OM was statistically significant for the considered dosing regimen). For test about Arm A intra-participant comparison superiority, rate ratio and 95% CI were estimated using NB regression model in which treatment (BIVV001 prophylaxis vs historical prophylaxis) was treated as covariate.||0.42|0.13|<0.0001
82599820|NCT04161495|164914660|SUPERIORITY||LS mean difference|-6.74|STANDARD_ERROR_OF_MEAN|1.71||0.0001|TWO_SIDED|95.0|-10.13|-3.36|||Unstructured covariance matrix|An unstructured covariance matrix within a participant was used.||Testing according to hierarchical testing procedure. Only performed if previous OM \[Annualized Bleeding Rate During the Efficacy Period in Prophylaxis Arm - Superiority Analysis\] was statistically significant for considered dosing regimen). Least square (LS) mean difference, standard error and 95% confidence interval were estimated by mixed-effect model with repeated measures (MMRM) using visit as fixed effect and Baseline Haem-A-QOL physical health score as covariate.||-3.36|-10.13|0.0001
82599821|NCT04161495|164914661|SUPERIORITY||LS mean difference|-1.94|STANDARD_ERROR_OF_MEAN|0.67||0.0042|TWO_SIDED|95.0|-3.26|-0.63|||Unstructured covariance matrix|An unstructured covariance matrix within a participant was used.||Testing according to hierarchical testing procedure. Only performed if previous OM \[Change From Baseline in Haem-A-QOL Physical Health Score at Weeks 26 and 52: Prophylaxis Arm\] was statistically significant for considered dosing regimen). LS mean difference, standard error and 95% confidence interval were estimated by MMRM using visit as fixed effect and PROMIS Pain Intensity 3a score as covariate.||-0.63|-3.26|0.0042
82599822|NCT04161495|164914662|SUPERIORITY||LS mean difference|-1.54|STANDARD_ERROR_OF_MEAN|0.59||0.0101|TWO_SIDED|95.0|-2.7|-0.37||An unstructured covariance matrix within a participant was used.|Unstructured covariance matrix|||Testing according to hierarchical testing procedure (only performed if previous OM \[Change From Baseline in PROMIS Pain Intensity 3a First Item at Week 52: Prophylaxis Arm\] was statistically significant for considered dosing regimen). LS mean difference, standard error and 95% confidence interval were estimated by MMRM using visit as fixed effect and Baseline Haem-A-QOL physical health score as covariate.||-0.37|-2.70|0.0101
82599823|NCT00094757|164914715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.9|<|0.001|TWO_SIDED|95.0|-0.82|-0.39||Model terms: treatment, baseline, prior anti-hyperglycemic therapy status (on vs. not on prior therapy)|ANCOVA|||||-0.39|-0.82|<0.001
82599824|NCT00094757|164914715|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.48|STANDARD_DEVIATION|0.9|<|0.001|TWO_SIDED|95.0|-0.7|-0.26|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status (on vs. not on prior therapy)||||-0.26|-0.70|<0.001
82599825|NCT00094757|164914716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.7|STANDARD_DEVIATION|45.9|<|0.001|TWO_SIDED|95.0|-30.5|-8.9|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status||||-8.9|-30.5|<0.001
82599826|NCT00094757|164914716|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.9|STANDARD_DEVIATION|45.9|<|0.002|TWO_SIDED|95.0|-27.6|-6.1|||ANCOVA|Model terms: treatment, baseline, prior anti-hyperglycemic therapy status||||-6.1|-27.6|<0.002
82655324|NCT04947579|165026362|SUPERIORITY||Difference in Adjusted Means|-0.82|STANDARD_ERROR_OF_MEAN|1.567||0.6|TWO_SIDED|95.0|-3.93|2.28|||Longitudinal data analysis model||CC99677 60 mg - Placebo|||2.28|-3.93|0.600
82655325|NCT04947579|165026362|SUPERIORITY||Difference in Adjusted Means|-1.31|STANDARD_ERROR_OF_MEAN|1.605||0.416|TWO_SIDED|95.0|-4.49|1.87|||Longitudinal data analysis model||CC99677 150 mg - Placebo|||1.87|-4.49|0.416
82655326|NCT04947579|165026363|SUPERIORITY||Adjusted Mean|-6.26|STANDARD_ERROR_OF_MEAN|10.741||||95.0|-27.31|14.79||||||||14.79|-27.31|
82655327|NCT04947579|165026363|SUPERIORITY||Adjusted Mean|-18.58|STANDARD_ERROR_OF_MEAN|9.181|||TWO_SIDED|95.0|-36.57|-0.58||||||||-0.58|-36.57|
82492048|NCT04645953|164677286|SUPERIORITY|||||||0.7224|||||||ANOVA|||||||0.7224
82655328|NCT04947579|165026363|SUPERIORITY||Adjusted Mean|-12.16|STANDARD_ERROR_OF_MEAN|10.105|||TWO_SIDED|95.0|-31.96|7.65||||||||7.65|-31.96|
82655329|NCT00539539|165026366|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.001||||0.96|TWO_SIDED|95.0|-0.04|0.05|||t-test, 2 sided|||Average change in cluster-specific rates of ROSC.||0.05|-0.04|0.96
82655330|NCT00539539|165026367|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.8||||0.71|TWO_SIDED|95.0|-4.9|3.4|||t-test, 2 sided|||Average difference in cluster-specific rates.||3.4|-4.9|0.71
82655331|NCT00539539|165026368|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.015||||0.21|TWO_SIDED|95.0|-0.039|0.009|||t-test, 2 sided|By-cluster difference in outcome rates.||Average change in cluster-specific risk difference.||0.009|-0.039|0.21
82655332|NCT00539539|165026369|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.9||||0.016|TWO_SIDED|95.0|0.4|3.4|||Regression, Linear|Difference in means, adjusted for cluster.||Cluster adjusted difference in average CPR fraction.||3.4|0.4|0.016
82655333|NCT00539539|165026370|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.6||||0.005|TWO_SIDED|95.0|0.5|2.7|||Regression, Linear|Adjusted for randomization by cluster.||Cluster adjusted difference in means.||2.7|0.5|0.005
82492049|NCT04645953|164677287|SUPERIORITY|||||||0.0504|||||||Mixed Models Analysis|||Participants were asked to rate their abdominal pain, nausea, and anxiety/panic on scale of 0-100 at each time point. The higher the number, the more intense the symptom.||||0.0504
82599827|NCT00288080|164914719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0398|||||||Log Rank|||The study was designed to detect an improvement in the 4-year overall survival rate from 86% (AS+RT) to 93% (AS+RT+CT). Assuming an exponential survival distribution for each arm, then an absolute improvement of 7% in the 4-year overall survival rate translates to a 51% relative reduction (hazard ratio 0.49) in the yearly death rate. Under a 1-sided significance level of 0.05 and 90% power, at least 78 deaths and 486 cases were required to perform the primary endpoint analysis.||||0.0398
82599828|NCT00288080|164914720|SUPERIORITY_OR_OTHER_LEGACY|||||||0.22|||||||Log Rank|||Biochemical control rates at 4 years were calculated using the Kaplan-Meier method and compared by a two-sided log-rank test with a significance level of 0.05.||||0.22
82599829|NCT00288080|164914722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.21|||||||Log Rank|||Distant failure rates at 4 years were calculated using the Kaplan-Meier method and compared by a two-side log-rank test at the 0.05 significance level.||||0.21
82599830|NCT00288080|164914723|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0484|||||||Log Rank|||Disease-free survival rates were compared by a two-sided log-rank test at a significance level of 0.05.||||0.0484
82599831|NCT02340663|164914743|OTHER|||||||0.23|||||||t-test, 2 sided|||||||0.23
82599832|NCT02340663|164914744|OTHER|||||||0.045|||||||ANOVA|||||||0.045
82599833|NCT02340663|164914745|OTHER|||||||0.665|||||||t-test, 2 sided|||||||0.665
82599834|NCT02340663|164914746|OTHER|||||||0.249|||||||Wilcoxon (Mann-Whitney)|||||||0.249
82599835|NCT02340663|164914747|OTHER|||||||0.626|||||||Wilcoxon (Mann-Whitney)|||||||0.626
82599836|NCT02340663|164914748|OTHER|||||||0.695|||||||t-test, 2 sided|||||||0.695
82599837|NCT02340663|164914749|OTHER|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||||||0.255
82599838|NCT02340663|164914750|OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||.049
82599839|NCT02340663|164914753|OTHER|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.750
82599840|NCT02340663|164914754|OTHER||||||<|0.01||||||The P-value given is the computed value|Mixed Models Analysis|||||||<0.01
82599841|NCT02340663|164914755|OTHER|||||||0.544|||||||Wilcoxon (Mann-Whitney)|||||||0.544
82655334|NCT00539539|165026371|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7|||<|0.001|TWO_SIDED|95.0|-6.4|-3.0|||Regression, Linear|||Cluster adjusted difference in average compression rate.||-3.0|-6.4|<0.001
82492050|NCT04645953|164677287|SUPERIORITY|||||||0.8246|||||||Mixed Models Analysis|||||||0.8246
82599842|NCT02340663|164914756|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.220
82599843|NCT02340663|164914757|OTHER|||||||0.081|||||||Wilcoxon (Mann-Whitney)|||||||0.081
82599844|NCT02340663|164914758|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82599845|NCT02340663|164914759|OTHER|||||||0.731|||||||Wilcoxon (Mann-Whitney)|||||||0.731
82599846|NCT02340663|164914760|OTHER|||||||0.238|||||||Wilcoxon (Mann-Whitney)|||||||0.238
82599847|NCT02340663|164914761|OTHER|||||||0.952||||||"The P-value refers to the difference in group means, see Group Means row in the table."|ANOVA|||||||0.952
82599848|NCT02340663|164914762|OTHER|||||||0.53||||||"The P-value refers to the difference in group means, see Group Means row in the table."|ANOVA|||||||0.53
82599849|NCT02340663|164914763|OTHER|||||||0.292||||||"The P-value refers to the difference in group means, see Group Means row in the table."|Mixed Models Analysis|||||||0.292
82599850|NCT02340663|164914764|OTHER|||||||0.289|||||||Wilcoxon (Mann-Whitney)|||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.||||0.289
82599851|NCT02340663|164914765|OTHER|||||||0.287||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.287
82599852|NCT02340663|164914766|OTHER|||||||0.505||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.505
82599853|NCT02340663|164914767|OTHER|||||||0.643||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.643
82599854|NCT02340663|164914768|OTHER|||||||0.923||||||The P-value refers to the main effect of treatment group, i.e., differences between SOVA bite splints and Michigan bite splints.|Wilcoxon (Mann-Whitney)|||||||0.923
82599855|NCT00087646|164914769|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.006|TWO_SIDED|95.0|1.21|3.31|||Cochran-Mantel-Haenszel|||Group A Vs Group D||3.31|1.21|0.0060
82599856|NCT00087646|164914770|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9228|TWO_SIDED|95.0|0.63|1.51|||Cochran-Mantel-Haenszel|||||1.51|0.63|0.9228
82599857|NCT00087646|164914771|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.0006|TWO_SIDED|95.0|1.4|3.52|||Cochran-Mantel-Haenszel|||||3.52|1.40|0.0006
82599858|NCT00087646|164914772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.66|4.18|||Cochran-Mantel-Haenszel|||At Week 12||4.18|1.66|<.0001
82599859|NCT00087646|164914772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.1955|TWO_SIDED|95.0|0.89|1.79|||Cochran-Mantel-Haenszel|||At Week 24||1.79|0.89|0.1955
82599860|NCT00087646|164914772|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0883|TWO_SIDED|95.0|0.95|1.93|||Cochran-Mantel-Haenszel|||At Week 48||1.93|0.95|0.0883
82599861|NCT00087646|164914773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.31|||<|0.0001|TWO_SIDED|95.0|1.67|3.19|||Cochran-Mantel-Haenszel|||Groups A vs Groups D (Week 12)||3.19|1.67|<.0001
82599862|NCT00087646|164914773|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.3389|TWO_SIDED|95.0|0.85|1.6|||Cochran-Mantel-Haenszel|||Groups A vs Groups D (Week 24)||1.60|0.85|0.3389
82599863|NCT01331304|164914777|SUPERIORITY_OR_OTHER|||||||0.59||||||Because this study has co-primary outcomes (CGI-EI and NCAs), the analyses of the treatment effect in the two primary hypotheses each involved a two-tailed alpha-level of 0.025.|Mixed Models Analysis|||For the first co-primary aim, mixed-effects linear regression analyses compared the two intervention groups on the repeated assessments of the CGI-EI over 6 months.||||0.59
82655335|NCT00539539|165026372|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.4|||<|0.001|TWO_SIDED|95.0|-5.2|-1.5|||Regression, Linear|||Cluster adjusted difference in the average rate.||-1.5|-5.2|<0.001
82655336|NCT00539539|165026373|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.73|TWO_SIDED|95.0|-0.5|0.7|||Regression, Linear|||Cluster adjusted difference in average rate.||0.7|-0.5|0.73
82599864|NCT01331304|164914778|SUPERIORITY_OR_OTHER|||||||0.118|||||||Wilcoxon (Mann-Whitney)|||For the second co-primary, patient monthly rates of NCAs (determined by dividing total number of NCAs during follow-up by the length of follow-up - to account for attrition and resulting differential exposure time) for treatment groups were compared using a Wilcoxon rank-sum test.||||0.118
82599865|NCT01331304|164914779|SUPERIORITY|||||||0.11||||||Analysis of this secondary outcome was not corrected for multiple comparisons. Therefore, the a priori threshold for statistical significance was set at 0.05|Mixed Models Analysis|||Mixed-effects linear regression analyses compared the two intervention groups on the repeated collection of measures relevant to calculation of the Framingham Risk Score over 6 months||||0.11
82599866|NCT01331304|164914780|SUPERIORITY|||||||0.7||||||Analysis of this secondary outcome was not corrected for multiple comparisons. Therefore, the a priori threshold for statistical significance was set at 0.05|Mixed Models Analysis|||Mixed-effects linear regression analyses compared the two intervention groups on the repeated assessment of the LIFE-RIFT over 6 months||||0.70
82599867|NCT03850912|164914781|SUPERIORITY||Odds Ratio (OR)|1.104||||0.214|TWO_SIDED|95.0|0.944|1.29|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (chemo and surgical patients combined)||1.290|0.944|0.214
82599868|NCT03850912|164914781|SUPERIORITY||Odds Ratio (OR)|0.927||||0.565|TWO_SIDED|95.0|0.715|1.201|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.201|0.715|0.565
82599869|NCT03850912|164914781|SUPERIORITY||Odds Ratio (OR)|1.225||||0.042|TWO_SIDED|95.0|1.008|1.49|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.490|1.008|0.042
82599870|NCT03850912|164914782|OTHER||Odds Ratio (OR)|1.128||||0.05|TWO_SIDED|95.0|1.0|1.272|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.272|1.000|0.050
82599871|NCT03850912|164914782|OTHER||Odds Ratio (OR)|1.012||||0.903|TWO_SIDED|95.0|0.836|1.225|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.225|0.836|0.903
82599872|NCT03850912|164914782|OTHER||Odds Ratio (OR)|1.215||||0.014|TWO_SIDED|95.0|1.04|1.418|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.418|1.040|0.014
82599873|NCT03850912|164914783|OTHER||Odds Ratio (OR)|1.002||||0.978|TWO_SIDED|95.0|0.881|1.139|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.139|0.881|0.978
82599874|NCT03850912|164914783|OTHER||Odds Ratio (OR)|0.854||||0.126|TWO_SIDED|95.0|0.697|1.046|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.046|0.697|0.126
82599875|NCT03850912|164914783|OTHER||Odds Ratio (OR)|1.102||||0.254|TWO_SIDED|95.0|0.933|1.302|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.302|0.933|0.254
82599876|NCT03850912|164914784|OTHER||Odds Ratio (OR)|1.068||||0.209|TWO_SIDED|95.0|0.964|1.183|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology and surgical patients combined)||1.183|0.964|0.209
82655337|NCT01566409|165026398|NON_INFERIORITY_OR_EQUIVALENCE|The required sample size was based on a projected treatment success in the PEG group of 60%. With a power in excess of 80% and a critical level of significance of 0.05, 45 children were needed in each group to detect a 50% reduction in treatment effect in the placebo group, corresponding to 30% recovers without active maintenance treatment. Because of an expected drop-out rate of 25%, we aimed at including 115 children.||||||0.024|||||||Regression, Logistic|||||||0.024
82599877|NCT03850912|164914784|OTHER||Odds Ratio (OR)|0.992||||0.924|TWO_SIDED|95.0|0.85|1.159|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (medical oncology patients only)||1.159|0.850|0.924
82599878|NCT03850912|164914784|OTHER||Odds Ratio (OR)|1.122||||0.099|TWO_SIDED|95.0|0.979|1.286|||Regression, Logistic|||Adjusted analysis comparing control versus intervention patients (surgical patients only)||1.286|0.979|0.099
82599879|NCT03850912|164914785|SUPERIORITY||Difference|-1.328||||0.04|TWO_SIDED|95.0|-2.593|-0.062|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||-0.062|-2.593|0.04
82492051|NCT04645953|164677288|SUPERIORITY|||||||0.9664|||||||Mixed Models Analysis|||||||0.9664
82492052|NCT04645953|164677288|SUPERIORITY|||||||0.7919|||||||Mixed Models Analysis|||||||0.7919
82599880|NCT03850912|164914785|OTHER||Difference|-1.958||||0.004|TWO_SIDED|95.0|-3.269|-0.646|||Regression, Logistic|||Multivariable regression analyses (surgical cohort only)||-0.646|-3.269|0.004
82599881|NCT03850912|164914786|SUPERIORITY||Difference|-0.925||||0.09|TWO_SIDED|95.0|-1.985|0.136|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.136|-1.985|0.09
82599882|NCT03850912|164914786|SUPERIORITY||Difference|-1.516||||0.002|TWO_SIDED|95.0|-2.474|-0.557|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||-0.557|-2.474|0.002
82599883|NCT03850912|164914787|SUPERIORITY||Difference|-1.767||||0.17|TWO_SIDED|95.0|-2.532|0.433|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.433|-2.532|0.17
82599884|NCT03850912|164914787|SUPERIORITY||Difference|-2.198|||<|0.0001|TWO_SIDED|95.0|-3.259|-1.137|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||-1.137|-3.259|<0.0001
82599885|NCT03850912|164914788|SUPERIORITY||Difference|-0.8084||||0.2|TWO_SIDED|95.0|-2.048|0.431|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.431|-2.048|0.2
82599886|NCT03850912|164914788|SUPERIORITY||Difference|-0.652||||0.27|TWO_SIDED|95.0|-1.8|0.496|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||0.496|-1.800|0.27
82599887|NCT03850912|164914789|SUPERIORITY||Difference|-0.617||||0.23|TWO_SIDED|95.0|-1.62|0.386|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.386|-1.620|0.23
82599888|NCT03850912|164914789|SUPERIORITY||Difference|0.434||||0.39|TWO_SIDED|95.0|-0.563|1.431|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||1.431|-0.563|0.39
82599889|NCT03850912|164914790|SUPERIORITY||Difference|-0.7||||0.22|TWO_SIDED|95.0|-1.829|0.429|||Regression, Linear|||Multivariable regression analyses (medical oncology cohort only)||0.429|-1.829|0.22
82599890|NCT03850912|164914790|SUPERIORITY||Difference|-0.58||||0.28|TWO_SIDED|95.0|-1.632|0.472|||Regression, Linear|||Multivariable regression analyses (surgical cohort only)||0.472|-1.632|0.28
82655338|NCT02768298|165026400|SUPERIORITY||Least Squares (LS) Mean|0.32|STANDARD_ERROR_OF_MEAN|0.268||0.2327|TWO_SIDED|95.0|-0.21|0.85|||ANCOVA|||||0.85|-0.21|0.2327
82655339|NCT02768298|165026401|SUPERIORITY||LS Mean|-0.14|STANDARD_ERROR_OF_MEAN|0.277||0.6247|TWO_SIDED|95.0|-0.68|0.41|||ANCOVA|||||0.41|-0.68|0.6247
82655340|NCT02768298|165026402|SUPERIORITY||LS Mean|-1.23|STANDARD_ERROR_OF_MEAN|0.888||0.1678|TWO_SIDED|95.0|-2.98|0.52|||ANCOVA|||6 weeks||0.52|-2.98|0.1678
82655341|NCT02768298|165026402|SUPERIORITY||LS Mean|0.83|STANDARD_ERROR_OF_MEAN|0.809||0.3052|TWO_SIDED|95.0|-0.77|2.43|||ANCOVA|||3 months||2.43|-0.77|0.3052
82655342|NCT02768298|165026403|SUPERIORITY||LS Mean|0.87|STANDARD_ERROR_OF_MEAN|1.744||0.6181|TWO_SIDED|95.0|-2.58|4.32|||ANCOVA|||6 weeks||4.32|-2.58|0.6181
82655343|NCT02768298|165026403|SUPERIORITY||LS Mean|3.28|STANDARD_ERROR_OF_MEAN|2.124||0.1254|TWO_SIDED|95.0|-0.93|7.48|||ANCOVA|||3 months||7.48|-0.93|0.1254
82655344|NCT02768298|165026404|SUPERIORITY||LS Mean|-0.3|STANDARD_ERROR_OF_MEAN|0.317||0.3432|TWO_SIDED|95.0|-0.93|0.33|||ANCOVA|||Borg value dyspnea||0.33|-0.93|0.3432
82599891|NCT03850912|164914791|SUPERIORITY||Odds Ratio (OR)|0.842|||<|0.001|TWO_SIDED|95.0|0.776|0.913|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (chemo and surgical patients combined)||0.913|0.776|<0.001
82599892|NCT03850912|164914791|SUPERIORITY||Odds Ratio (OR)|0.78|||<|0.001|TWO_SIDED|95.0|0.688|0.885|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.885|0.688|<0.001
82599893|NCT03850912|164914791|SUPERIORITY||Odds Ratio (OR)|0.889||||0.032|TWO_SIDED|95.0|0.799|0.99|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.990|0.799|0.032
82599894|NCT03850912|164914792|SUPERIORITY||Odds Ratio (OR)|0.893|||<|0.001|TWO_SIDED|95.0|0.839|0.949|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.949|0.839|<0.001
82599895|NCT03850912|164914792|SUPERIORITY||Odds Ratio (OR)|0.872||||0.003|TWO_SIDED|95.0|0.796|0.954|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.954|0.796|0.003
82655345|NCT02768298|165026404|SUPERIORITY||LS Mean|0.16|STANDARD_ERROR_OF_MEAN|0.251||0.5319|TWO_SIDED|95.0|-0.34|0.65|||ANCOVA|||Borg value fatigue||0.65|-0.34|0.5319
82655346|NCT04603937|165026405|NON_INFERIORITY|The maximum clinically acceptable true difference between KSI-301 and aflibercept participants to be considered non-inferior is 4.5 ETDRS letters, i.e. the non-inferiority margin|Adjusted mean difference|-4.7|STANDARD_ERROR_OF_MEAN|0.97|>|0.9999|TWO_SIDED|95.04|-6.65|-2.81|||Mixed Models Analysis|MMRM model with treatment, visit, treatment by visit interaction, randomization stratification factors, and continuous baseline BCVA and OCT CST.||||-2.81|-6.65|> 0.9999
82655347|NCT04603937|165026406|NON_INFERIORITY|The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e. the non-inferiority margin is 10%|Difference of weighted percentages|0.6|||<|0.0001|TWO_SIDED|95.04|-0.7|2.0|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by study identifier and randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||2|-0.7|<0.0001
82655348|NCT04603937|165026407|NON_INFERIORITY|The maximum clinically acceptable non-inferiority margin between KSI-301 and aflibercept subjects is 10% to be considered non-inferior, i.e the non-inferiority margin is 10%|Difference of weighted percentages|1.2|||<|0.0001|TWO_SIDED|95.04|-1.4|3.9|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haentzel test stratified by randomization stratification variables.|Weighted percentages are based on weighted average of observed estimates across strata using CMH weights. The CI are based on the normal approximation to the binomial proportions.|||3.9|-1.4|<0.0001
82655349|NCT01611090|165026411|SUPERIORITY||Hazard Ratio (HR)|0.229|||<|0.0001|TWO_SIDED|95.0|0.183|0.286|||Log Rank|||||0.286|0.183|< 0.0001
82599896|NCT03850912|164914792|SUPERIORITY||Odds Ratio (OR)|0.909||||0.027|TWO_SIDED|95.0|0.835|0.989|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.989|0.835|0.027
82599897|NCT03850912|164914793|SUPERIORITY||Odds Ratio (OR)|0.636|||<|0.001|TWO_SIDED|95.0|0.593|0.682|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.682|0.593|<0.001
82599898|NCT03850912|164914793|SUPERIORITY||Odds Ratio (OR)|0.611|||<|0.001|TWO_SIDED|95.0|0.55|0.679|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.679|0.550|<0.001
82599899|NCT03850912|164914793|SUPERIORITY||Odds Ratio (OR)|0.655|||<|0.001|TWO_SIDED|95.0|0.597|0.719|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.719|0.597|<0.001
82655350|NCT04533646|165026431|OTHER||Mean Difference (Net)|1.1|||<|0.01|TWO_SIDED||||||Means testing||||comparison of means test was performed|||<0.01
82655351|NCT00336024|165026433|SUPERIORITY|||||||0.35|||||||Chi-squared|||The CR rates between these two groups will be compared at a significance level of 0.1 using one-sided Chi-square test.||||0.35
82655352|NCT00336024|165026435|SUPERIORITY|||||||0.2|||||||Log Rank|||The difference in incidence for the two treatment regimens will be compared using a one-sided log-rank test with a significance level 0.1.||||0.2
82655353|NCT00336024|165026436|SUPERIORITY|||||||1|||||||Fisher Exact|||The two groups will be compared for patterns of failure to detect a statistically significant difference using Fisher exact test.||||1.00
82655354|NCT00336024|165026437|SUPERIORITY|||||||0.74|||||||Log Rank|||Difference in incidence for the two treatment regimens will be compared using log-rank test.||||0.74
82655355|NCT00336024|165026438|SUPERIORITY|||||||1|||||||Fisher Exact|||The rate of acute hearing loss between two treatment regimens will be be compared using Fisher exact test.||||1.00
82655356|NCT00336024|165026444|SUPERIORITY|||||||0.8|||||||Fisher Exact|||The rate of chronic hearing loss between two treatment regimens will be be compared using Fisher exact test.||||0.8
82655357|NCT00336024|165026445|SUPERIORITY|||||||0.27|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase I. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.27
82655358|NCT00336024|165026445|SUPERIORITY|||||||0.07|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase II. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.07
82655359|NCT00336024|165026445|SUPERIORITY|||||||0.2|||||||Chi-squared|||Rates of gastrointestinal toxicities in Induction Phase III. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.2
82655360|NCT00336024|165026445|SUPERIORITY|||||||0.4|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase 1. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.4
82655361|NCT00336024|165026445|SUPERIORITY|||||||0.38|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase 2. The difference in the number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.38
82655362|NCT00336024|165026445|SUPERIORITY|||||||0.7|||||||Chi-squared|||Rates of gastrointestinal toxicities in Consolidation Phase III. The difference in number of patients with/without gastrointestinal toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.7
82655363|NCT00336024|165026446|SUPERIORITY|||||||0.08|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase I. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.08
82655364|NCT00336024|165026446|SUPERIORITY|||||||0.9|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase II. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.9
82655365|NCT00336024|165026446|SUPERIORITY|||||||0.17|||||||Chi-squared|||Rates of nutritional toxicities in Induction Phase III. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.17
82655366|NCT00336024|165026446|SUPERIORITY|||||||0.3|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase I. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.3
82599900|NCT03850912|164914794|SUPERIORITY||Odds Ratio (OR)|0.769|||<|0.001|TWO_SIDED|95.0|0.729|0.811|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology and surgical patients combined)||0.811|0.729|<0.001
82599901|NCT03850912|164914794|SUPERIORITY||Odds Ratio (OR)|0.795|||<|0.001|TWO_SIDED|95.0|0.737|0.858|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (medical oncology patients only)||0.858|0.737|<0.001
82599902|NCT03850912|164914794|SUPERIORITY||Odds Ratio (OR)|0.739|||<|0.001|TWO_SIDED|95.0|0.686|0.796|||Regression, Logistic|||Adjusted analysis comparing intervention responders versus non-responders (surgical patients only)||0.796|0.686|<0.001
82655367|NCT00336024|165026446|SUPERIORITY|||||||0.26|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase II. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.26
82655368|NCT00336024|165026446|SUPERIORITY|||||||0.17|||||||Chi-squared|||Rates of nutritional toxicities in Consolidation Phase III. The difference in number of patients with/without nutritional toxicities between the two treatment regimens will be compared using a Chi-square test.||||0.17
82655369|NCT02585258|165026448|SUPERIORITY||mean difference over 2-years|-0.37|||<|0.0001|ONE_SIDED|95.0||-0.23||one-sided.|Mixed Models Analysis||placebo is reference. Negative difference is beneficial, means lower disease activity in prednisolone group.|mixed model reports the effect of treatment, adjusted for stratification factors||-0.23||<0.0001
82655370|NCT02585258|165026449|SUPERIORITY||Risk Ratio (RR)|1.24||||0.02|ONE_SIDED|95.0|1.04|||one-sided|GEE||prednisolone/placebo|mixed model reports the effect of treatment, adjusted for stratification factors|||1.04|0.02
82655371|NCT02585258|165026450|SUPERIORITY||mean differences over 2 years|-1.67||||0.003|ONE_SIDED|95.0||-0.68||one-sided|Regression, Linear||placebo is reference. Negative difference means less damage progression in prednisolone group.|mixed model reports the effect of treatment, adjusted for stratification factors||-0.68||0.003
82655372|NCT01210001|165026493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|97.5|-0.69|-0.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in HbA1c was the first step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.27|-0.69|<0.0001
82655373|NCT01210001|165026493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|97.5|-0.82|-0.4||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in HbA1c was the first step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.40|-0.82|<0.0001
82655374|NCT01210001|165026494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.48|STANDARD_ERROR_OF_MEAN|3.71|<|0.0001|TWO_SIDED|97.5|-31.81|-15.15||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in FPG was the second step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline FPG|Difference calculated as empa 10mg minus placebo|||-15.15|-31.81|<0.0001
82655375|NCT01210001|165026494|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.46|STANDARD_ERROR_OF_MEAN|3.68|<|0.0001|TWO_SIDED|97.5|-36.73|-20.19||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in FPG was the second step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline FPG|Difference calculated as empa 25mg minus placebo|||-20.19|-36.73|<0.0001
82492053|NCT02218320|164677307|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.0
82599903|NCT00848354|164914817|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel chi-square test, stratified by country, was used to calculate p-value. Assuming ACR50 response at Week 24 to be 23% in the DMARD combination therapy group and 37% in the etanercept + methotrexate group, a study enrolling 276 participants assigned to etanercept + methotrexate and 138 participants assigned to DMARD combination therapy has 80% power to reject the null hypothesis of no difference in response rates testing at the type I error = 0.05 level.||||<0.0001
82599904|NCT00848354|164914818|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||Analysis of covariance (ANCOVA) model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||<0.0001
82599905|NCT00848354|164914819|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for vitality domain at Week 24.||||0.0003
82599906|NCT00848354|164914819|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for mental component at Week 24.||||0.0002
82599907|NCT00848354|164914819|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for physical component at Week 24.||||<0.0001
82599908|NCT00848354|164914820|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model on ranks of change in mTSS with treatment group and center main effects and the Baseline rank as covariate was used to calculate p-value.||||0.0270
82599909|NCT00848354|164914821|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82599910|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.39|||<|0.0001|TWO_SIDED|95.0|2.25|18.2||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||18.2|2.25|<0.0001
82599911|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.62|9.49||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||9.49|2.62|<0.0001
82599912|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.6|||<|0.0001|TWO_SIDED|95.0|2.19|5.94||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.94|2.19|<0.0001
82655376|NCT01210001|165026495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.95|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|97.5|-2.64|-1.27||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in body weight was the third step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline weight|Difference calculated as empa 10mg minus placebo|||-1.27|-2.64|<0.0001
82599913|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.1|||<|0.0001|TWO_SIDED|95.0|2.57|6.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.53|2.57|<0.0001
82599914|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED|95.0|2.51|6.16||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.16|2.51|<0.0001
82599915|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.82|||<|0.0001|TWO_SIDED|95.0|2.46|5.93||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||5.93|2.46|<0.0001
82599916|NCT00848354|164914824|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.39|||<|0.0001|TWO_SIDED|95.0|3.41|8.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||8.53|3.41|<0.0001
82599917|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84|||<|0.0001|TWO_SIDED|95.0|2.37|6.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||6.21|2.37|<0.0001
82599918|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34|||<|0.0001|TWO_SIDED|95.0|2.19|5.11||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.11|2.19|<0.0001
82599919|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9|||<|0.0001|TWO_SIDED|95.0|1.9|4.43||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||4.43|1.90|<0.0001
82599920|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.0001|TWO_SIDED|95.0|2.06|4.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||4.96|2.06|<0.0001
82599921|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.91|||<|0.0001|TWO_SIDED|95.0|2.46|6.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.21|2.46|<0.0001
82599922|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.45|6.22||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.22|2.45|<0.0001
82599923|NCT00848354|164914826|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.94|||<|0.0001|TWO_SIDED|95.0|3.13|7.78||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||7.78|3.13|<0.0001
82599924|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.19||||0.1086|TWO_SIDED|95.0|0.66|40.9||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||40.9|0.66|0.1086
82599925|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.58||||0.0392|TWO_SIDED|95.0|1.04|12.3||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||12.3|1.04|0.0392
82599926|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.27|||<|0.0001|TWO_SIDED|95.0|2.04|13.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||13.6|2.04|<0.0001
82599927|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.69|||<|0.0001|TWO_SIDED|95.0|2.39|13.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||13.6|2.39|<0.0001
82599928|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.78|||<|0.0001|TWO_SIDED|95.0|2.02|7.09||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||7.09|2.02|<0.0001
82599929|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.02|6.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.60|2.02|<0.0001
82599930|NCT00848354|164914828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2|||<|0.0001|TWO_SIDED|95.0|2.36|7.46||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||7.46|2.36|<0.0001
82599931|NCT00848354|164914830|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82599932|NCT00848354|164914832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.23|||<|0.0001|TWO_SIDED|95.0|3.88|10.0||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value.||10.00|3.88|<0.0001
82599933|NCT00848354|164914833|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.79|||<|0.0001|TWO_SIDED|95.0|3.49|17.39||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value.||17.39|3.49|<0.0001
82599934|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5|||<|0.0001|TWO_SIDED|95.0|2.24|5.46||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.46|2.24|<0.0001
82599935|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.91|8.55||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||8.55|2.91|<0.0001
82599936|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|2.93|12.02||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||12.02|2.93|<0.0001
82599937|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57|||<|0.0001|TWO_SIDED|95.0|2.27|9.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||9.21|2.27|<0.0001
82599938|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.08|||<|0.0001|TWO_SIDED|95.0|2.74|13.48||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.48|2.74|<0.0001
82655377|NCT01210001|165026495|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.81|STANDARD_ERROR_OF_MEAN|0.3|<|0.0001|TWO_SIDED|97.5|-2.49|-1.13||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa versus placebo change from baseline in body weight was the third step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline, baseline HbA1c and baseline weight|Difference calculated as empa 25mg minus placebo|||-1.13|-2.49|<0.0001
82655378|NCT01210001|165026496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.69|-0.21||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa vs placebo change from baseline in HbA1c for pio+met background only was the fourth step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.21|-0.69|<0.0001
82599939|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.86|||<|0.0001|TWO_SIDED|95.0|3.0|15.72||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||15.72|3.00|<0.0001
82599940|NCT00848354|164914834|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.64|||<|0.0001|TWO_SIDED|95.0|3.74|15.63||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||15.63|3.74|<0.0001
82599941|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.15|||<|0.0001|TWO_SIDED|95.0|2.04|4.86||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||4.86|2.04|<0.0001
82599942|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.41|||<|0.0001|TWO_SIDED|95.0|2.85|6.82||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||6.82|2.85|<0.0001
82599943|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.99|||<|0.0001|TWO_SIDED|95.0|2.5|6.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||6.38|2.50|<0.0001
82599944|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.9|||<|0.0001|TWO_SIDED|95.0|2.37|6.41||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.41|2.37|<0.0001
82599945|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.58|||<|0.0001|TWO_SIDED|95.0|3.19|9.76||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||9.76|3.19|<0.0001
82599946|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.49|||<|0.0001|TWO_SIDED|95.0|3.16|9.52||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||9.52|3.16|<0.0001
82599947|NCT00848354|164914836|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.59|||<|0.0001|TWO_SIDED|95.0|3.87|11.21||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.21|3.87|<0.0001
82599948|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.3|5.4||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.40|2.30|<0.0001
82599949|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.87|||<|0.0001|TWO_SIDED|95.0|3.07|7.71||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.71|3.07|<0.0001
82599950|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.0001|TWO_SIDED|95.0|2.98|8.41||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.41|2.98|<0.0001
82599951|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.55|7.58||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||7.58|2.55|<0.0001
82599952|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.81|||<|0.0001|TWO_SIDED|95.0|3.15|10.74||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||10.74|3.15|<0.0001
82599953|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.18|||<|0.0001|TWO_SIDED|95.0|3.25|11.73||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||11.73|3.25|<0.0001
82599954|NCT00848354|164914838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.45|||<|0.0001|TWO_SIDED|95.0|3.67|11.33||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.33|3.67|<0.0001
82492054|NCT01751178|164677310|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.061|||<|0.0001|TWO_SIDED|95.0|-0.081|-0.041||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GSI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two groups.||-0.041|-0.081|<0.0001
82492055|NCT01751178|164677310|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.07|||<|0.0001|TWO_SIDED|95.0|-0.09|-0.05||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GSI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups.||-0.050|-0.090|<0.0001
82492056|NCT01751178|164677311|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.1|-0.05||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis that there was no difference between the two treatment groups.||-0.05|-0.10|<0.0001
82492057|NCT01751178|164677311|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.08|||<|0.0001|TWO_SIDED|95.0|-0.11|-0.06||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline GI as a covariate.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups.||-0.06|-0.11|<0.0001
82492058|NCT01751178|164677312|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.98|-0.62||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups in Overall Plaque scores.||-0.62|-0.98|<0.0001
82492059|NCT01751178|164677312|SUPERIORITY_OR_OTHER||Adusted Mean Difference|-0.86|||<|0.0001|TWO_SIDED|95.0|-1.04|-0.68||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis stated that there was no difference between the two treatment groups in Overall Plaque Scores.||-0.68|-1.04|<0.0001
82492060|NCT01751178|164677313|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.69||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypotheses stated that there was no difference between the two treatments.||-0.69|-1.07|<0.0001
82492061|NCT01751178|164677313|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.16|-0.78||From ANCOVA with factors for treatment group, site, smoking status, number of bleeding sites strata and the baseline Plaque as a covariate|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypotheses stated that there was no difference between the two groups.||-0.78|-1.16|<0.0001
82492062|NCT03719612|164677314|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.38|STANDARD_DEVIATION|4.947||0.358|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.358
82492063|NCT03719612|164677314|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.12|STANDARD_DEVIATION|5.699||0.804|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.804
82492064|NCT03719612|164677314|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|4.412||0.371|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.371
82492065|NCT03719612|164677315|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-1.28|STANDARD_DEVIATION|3.952||0.03|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.030
82492066|NCT03719612|164677315|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.66|STANDARD_DEVIATION|4.466||0.312|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.312
82492067|NCT03719612|164677315|SUPERIORITY|Difference between Echo Enhanced and Echo Unenhanced|Mean Difference (Final Values)|-0.65|STANDARD_DEVIATION|4.725||0.347|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.347
82492068|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.977|0.988||||||Inter-Reader Variability Echo Enhanced||0.988|0.977|
82492069|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.953|||||TWO_SIDED|95.0|0.936|0.966||||||Inter-Reader Variability Echo Unenhanced||0.966|0.936|
82492070|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.97|||||TWO_SIDED|95.0|0.958|0.978||||||Inter-Reader Variability Echo Enhanced||0.978|0.958|
82492071|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.944|||||TWO_SIDED|95.0|0.923|0.959||||||Inter-Reader Variability Echo Unenhanced||0.959|0.923|
82492072|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.947|0.972||||||Inter-Reader Variability Echo Enhanced||0.972|0.947|
82492073|NCT03719612|164677316|OTHER||Intra-class Correlation Coefficient|0.942|||||TWO_SIDED|95.0|0.92|0.958||||||Inter-Reader Variability Echo Unenhanced||0.958|0.920|
82492074|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.978|0.988||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.988|0.978|
82492075|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.967|0.983||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.983|0.967|
82492076|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.963|0.981||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.981|0.963|
82492077|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.935|||||TWO_SIDED|95.0|0.91|0.952||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.952|0.910|
82599955|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.09||||0.0349|TWO_SIDED|95.0|1.05|9.13||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||9.13|1.05|0.0349
82655379|NCT01210001|165026496|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|97.5|-0.83|-0.36||Hierarchical testing to adjust for multiple comparisons within each dose level, alpha split equally between the doses (2.5%). Empa vs placebo change from baseline in HbA1c for pio+met background only was the fourth step in each hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal function at baseline and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.36|-0.83|<0.0001
82599956|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.87|||<|0.0001|TWO_SIDED|95.0|1.98|7.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.60|1.98|<0.0001
82599957|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.52|||<|0.0001|TWO_SIDED|95.0|2.1|5.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.88|2.10|<0.0001
82599958|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2|||<|0.0001|TWO_SIDED|95.0|2.02|5.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.06|2.02|<0.0001
82599959|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.78|6.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||6.96|2.78|<0.0001
82599960|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.8|6.9||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.90|2.80|<0.0001
82599961|NCT00848354|164914840|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.13|||<|0.0001|TWO_SIDED|95.0|3.82|9.85||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||9.85|3.82|<0.0001
82599962|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.25|||<|0.0001|TWO_SIDED|95.0|2.74|6.6||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||6.60|2.74|<0.0001
82492078|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.973|||||TWO_SIDED|95.0|0.962|0.98||||||Inter-Reader Variability End Diastolic Echo Enhanced||0.980|0.962|
82599963|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.6|||<|0.0001|TWO_SIDED|95.0|2.94|7.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.18|2.94|<0.0001
82599964|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.21|||<|0.0001|TWO_SIDED|95.0|3.15|8.61||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.61|3.15|<0.0001
82599965|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.77|||<|0.0001|TWO_SIDED|95.0|3.36|9.93||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||9.93|3.36|<0.0001
82599966|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.15|||<|0.0001|TWO_SIDED|95.0|3.91|13.09||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.09|3.91|<0.0001
82599967|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.43|||<|0.0001|TWO_SIDED|95.0|4.5|15.8||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||15.80|4.50|<0.0001
82655380|NCT03900624|165026510|SUPERIORITY|||||||0.632|||||||Wilcoxon (Mann-Whitney)|||||||0.632
82655381|NCT03900624|165026511|SUPERIORITY|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||||||0.725
82655382|NCT03900624|165026512|SUPERIORITY|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||||||0.725
82655383|NCT00863746|165026548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9934||||0.4687|TWO_SIDED|95.0|0.8409|1.1735||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||1.1735|0.8409|0.4687
82492079|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.924|||||TWO_SIDED|95.0|0.896|0.945||||||Inter-Reader Variability End Diastolic Echo Unenhanced||0.945|0.896|
82492080|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.989|||||TWO_SIDED|95.0|0.984|0.992||||||Inter-Reader Variability End Systolic Echo Enhanced||0.992|0.984|
82492081|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.983|||||TWO_SIDED|95.0|0.977|0.988||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.988|0.977|
82599968|NCT00848354|164914842|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.05|||<|0.0001|TWO_SIDED|95.0|3.5|10.47||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||10.47|3.50|<0.0001
82599969|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.4||||0.025|TWO_SIDED|95.0|0.96|56.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||56.88|0.96|0.0250
82655384|NCT00863746|165026549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6068|||<|0.0001|TWO_SIDED|95.0|0.5139|0.7165||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||0.7165|0.5139|<0.0001
82655385|NCT00863746|165026550|SUPERIORITY_OR_OTHER||CMH-adjusted difference in proportions|0.2263|||<|1e-06|TWO_SIDED|95.0|0.1575|0.2952|||Cochran-Mantel-Haenszel|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||||0.2952|0.1575|<0.000001
82599970|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0466|TWO_SIDED|95.0|1.0|5.45||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.45|1.00|0.0466
82599971|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0007|TWO_SIDED|95.0|1.5|5.36||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.36|1.50|0.0007
82599972|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.0001|TWO_SIDED|95.0|1.7|5.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.18|1.70|<0.0001
82599973|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.85|5.05||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||5.05|1.85|<0.0001
82599974|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.47|6.87||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.87|2.47|<0.0001
82599975|NCT00848354|164914844|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.51|||<|0.0001|TWO_SIDED|95.0|3.72|11.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.38|3.72|<0.0001
82655386|NCT00863746|165026551|SUPERIORITY_OR_OTHER||CMH-adjusted difference in proportions|0.039||||0.000876|TWO_SIDED|95.0|0.0137|0.0642|||Cochran-Mantel-Haenszel|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||||0.0642|0.0137|0.000876
82655387|NCT00863746|165026552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.542|||<|0.0001|TWO_SIDED|95.0|0.4526|0.6492||p-value of one-sided test (significance level 2.5%)|Log Rank|stratified by region, number of prior treatments, presence brain mets at baseline, prior EGFR inhibitor treatment||Test for superiority of Sorafenib over Placebo||0.6492|0.4526|<0.0001
82655388|NCT00863746|165026553|SUPERIORITY_OR_OTHER|||||||0.3121||||||p-value for test of treatment effect equal to 0.|Mixed Models Analysis|||||||0.3121
82599976|NCT00848354|164914846|SUPERIORITY_OR_OTHER|||||||0.3054||||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||||0.3054
82599977|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.4044|TWO_SIDED|95.0|0.58|7.53||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.53|0.58|0.4044
82599978|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53||||0.0388|TWO_SIDED|95.0|1.02|6.26||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||6.26|1.02|0.0388
82655389|NCT00863746|165026554|SUPERIORITY_OR_OTHER|||||||0.2948||||||p-value for test of treatment effect equal to 0|Mixed Models Analysis|||||||0.2948
82655390|NCT00863746|165026555|SUPERIORITY_OR_OTHER|||||||0.8344||||||p-value for test of treatment effect equal to 0|Mixed Models Analysis|||||||0.8344
82655391|NCT00863746|165026556|SUPERIORITY_OR_OTHER|||||||0.1438||||||p-value for test of treatment effect equal to 0.|Mixed Models Analysis|||||||0.1438
82655392|NCT00863746|165026557|SUPERIORITY_OR_OTHER|||||||0.9228||||||p-value for treatment effect equal to 0.|Mixed Models Analysis|||||||0.9228
82655393|NCT00153803|165026558|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.165|TWO_SIDED|95.0|0.65|1.33|||Log Rank|||||1.33|0.65|0.165
82655394|NCT00153803|165026559|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.32|TWO_SIDED|95.0|0.85|1.63|||Log Rank|||||1.63|0.85|0.32
82492082|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.978|0.989||||||Inter-Reader Variability End Systolic Echo Enhanced||0.989|0.978|
82599979|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.89||||0.0059|TWO_SIDED|95.0|1.31|6.34||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||6.34|1.31|0.0059
82599980|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3|||<|0.0001|TWO_SIDED|95.0|1.99|9.29||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||9.29|1.99|<0.0001
82655395|NCT03292653|165026564|SUPERIORITY||Difference in Least Squares (LS) Means|1.26|STANDARD_ERROR_OF_MEAN|3.64||0.736|TWO_SIDED|90.0|-5.4|7.93|||ANCOVA|||Analysis of Covariance (ANCOVA) model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic, ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||7.93|-5.4|0.736
82655396|NCT03292653|165026564|SUPERIORITY||Difference in LS Means|-1.02|STANDARD_ERROR_OF_MEAN|3.38||0.7694|TWO_SIDED|90.0|-7.22|5.18|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic, ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||5.18|-7.22|0.7694
82599981|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.94|||<|0.0001|TWO_SIDED|95.0|2.88|12.24||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||12.24|2.88|<0.0001
82599982|NCT00848354|164914846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.18|||<|0.0001|TWO_SIDED|95.0|3.61|23.32||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||23.32|3.61|<0.0001
82599983|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.4||||0.025|TWO_SIDED|95.0|0.96|56.88||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||56.88|0.96|0.0250
82599984|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.33||||0.0466|TWO_SIDED|95.0|1.0|5.45||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||5.45|1.00|0.0466
82599985|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.84||||0.0007|TWO_SIDED|95.0|1.5|5.36||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||5.36|1.50|0.0007
82599986|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.0001|TWO_SIDED|95.0|1.7|5.18||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||5.18|1.70|<0.0001
82599987|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.06|||<|0.0001|TWO_SIDED|95.0|1.85|5.05||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||5.05|1.85|<0.0001
82599988|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.0001|TWO_SIDED|95.0|2.47|6.87||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||6.87|2.47|<0.0001
82655397|NCT03292653|165026565|SUPERIORITY||Difference in LS Means|-0.04|STANDARD_ERROR_OF_MEAN|0.03||0.184|TWO_SIDED|90.0|-0.09|0.01|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||0.01|-0.09|0.184
82492083|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.948|||||TWO_SIDED|95.0|0.928|0.962||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.962|0.928|
82599989|NCT00848354|164914848|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.51|||<|0.0001|TWO_SIDED|95.0|3.72|11.38||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||11.38|3.72|<0.0001
82599990|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.53|||<|0.0001|TWO_SIDED|95.0|2.9|7.07||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||7.07|2.90|<0.0001
82599991|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.01|||<|0.0001|TWO_SIDED|95.0|2.36|6.8||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||6.80|2.36|<0.0001
82599992|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23|||<|0.0001|TWO_SIDED|95.0|2.82|9.72||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||9.72|2.82|<0.0001
82599993|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.25|||<|0.0001|TWO_SIDED|95.0|2.63|10.47||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||10.47|2.63|<0.0001
82655398|NCT03292653|165026565|SUPERIORITY||Difference in LS Means|-0.03|STANDARD_ERROR_OF_MEAN|0.03||0.3397|TWO_SIDED|90.0|-0.07|0.02|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||0.02|-0.07|0.3397
82655399|NCT03292653|165026566|SUPERIORITY||Difference in LS Means|-17.07|STANDARD_ERROR_OF_MEAN|9.12||0.094|TWO_SIDED|90.0|-33.79|-0.35|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||-0.35|-33.79|0.094
82492084|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.978|||||TWO_SIDED|95.0|0.969|0.984||||||Inter-Reader Variability End Systolic Echo Enhanced||0.984|0.969|
82492085|NCT03719612|164677317|OTHER||Intra-class Correlation Coefficient|0.942|||||TWO_SIDED|95.0|0.92|0.958||||||Inter-Reader Variability End Systolic Echo Unenhanced||0.958|0.920|
82492086|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.975|||||TWO_SIDED|95.0|0.956|0.986||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.986|0.956|
82599994|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.53|||<|0.0001|TWO_SIDED|95.0|3.16|13.48||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||13.48|3.16|<0.0001
82599995|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.38|||<|0.0001|TWO_SIDED|95.0|3.86|18.17||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||18.17|3.86|<0.0001
82599996|NCT00848354|164914850|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.84|||<|0.0001|TWO_SIDED|95.0|3.94|15.62||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||15.62|3.94|<0.0001
82599997|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.67|||<|0.0001|TWO_SIDED|95.0|2.35|5.73||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 2.||5.73|2.35|<0.0001
82599998|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.65|||<|0.0001|TWO_SIDED|95.0|3.0|7.22||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 4.||7.22|3.00|<0.0001
82599999|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96|||<|0.0001|TWO_SIDED|95.0|3.05|8.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 8.||8.06|3.05|<0.0001
82600000|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.34|||<|0.0001|TWO_SIDED|95.0|3.18|8.96||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 12.||8.96|3.18|<0.0001
82600001|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.7|||<|0.0001|TWO_SIDED|95.0|3.23|10.06||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 16.||10.06|3.23|<0.0001
82600002|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.88|||<|0.0001|TWO_SIDED|95.0|4.37|14.2||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 20.||14.20|4.37|<0.0001
82600003|NCT00848354|164914852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.73|||<|0.0001|TWO_SIDED|95.0|3.4|9.65||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|Fisher Exact|||Fisher's exact test was used to calculate the p-value. Statistical analysis presented above for Week 24.||9.65|3.40|<0.0001
82600004|NCT00848354|164914854|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600005|NCT00848354|164914856|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600006|NCT00848354|164914858|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600007|NCT00848354|164914860|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600008|NCT00848354|164914862|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 2.||||<0.0001
82600009|NCT00848354|164914862|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 4.||||0.0007
82600010|NCT00848354|164914862|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0009
82600011|NCT00848354|164914862|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 12.||||0.0007
82600012|NCT00848354|164914862|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0005
82600013|NCT00848354|164914862|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 20.||||<0.0001
82600014|NCT00848354|164914862|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600015|NCT00848354|164914864|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600016|NCT00848354|164914866|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600017|NCT00848354|164914868|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600018|NCT00848354|164914870|SUPERIORITY_OR_OTHER|||||||0.1975|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||0.1975
82600019|NCT00848354|164914871|SUPERIORITY_OR_OTHER|||||||0.0044|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value.||||0.0044
82600020|NCT00848354|164914872|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 2, Week 4, Week 8, Week 12, Week 16, Week 20, and Week 24 - independently).||||<0.0001
82600021|NCT00848354|164914874|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 2.||||<0.0001
82600022|NCT00848354|164914874|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 4.||||<0.0001
82600023|NCT00848354|164914874|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0002
82600024|NCT00848354|164914874|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 12.||||0.0007
82600025|NCT00848354|164914874|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0001
82600026|NCT00848354|164914874|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 20.||||<0.0001
82600027|NCT00848354|164914874|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0021
82600028|NCT00848354|164914875|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0001
82600029|NCT00848354|164914875|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
82600030|NCT00848354|164914875|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0003
82600031|NCT00848354|164914877|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
82600032|NCT00848354|164914877|SUPERIORITY_OR_OTHER|||||||0.0264|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0264
82600033|NCT00848354|164914877|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0002
82600034|NCT00848354|164914879|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0005
82600035|NCT00848354|164914879|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
82600036|NCT00848354|164914879|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600037|NCT00848354|164914881|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-values. ANCOVA was ran at each time-point shown, however as p-values obtained were identical, only one p-value is presented (which is applicable to each time-point - Week 8, Week 16, and Week 24 - independently).||||<0.0001
82600038|NCT00848354|164914882|SUPERIORITY_OR_OTHER|||||||0.0061|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0061
82600039|NCT00848354|164914882|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0730
82600040|NCT00848354|164914882|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600041|NCT00848354|164914883|SUPERIORITY_OR_OTHER|||||||0.0066|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0066
82600042|NCT00848354|164914883|SUPERIORITY_OR_OTHER|||||||0.0036|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0036
82600043|NCT00848354|164914883|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600044|NCT00848354|164914884|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
82600045|NCT00848354|164914884|SUPERIORITY_OR_OTHER|||||||0.0013|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0013
82600046|NCT00848354|164914884|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||0.0002
82600047|NCT00848354|164914885|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0021
82600048|NCT00848354|164914885|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||<0.0001
82600049|NCT00848354|164914885|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600050|NCT00848354|164914886|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||0.0062
82492087|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.936|||||TWO_SIDED|95.0|0.888|0.963||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.963|0.888|
82600051|NCT00848354|164914886|SUPERIORITY_OR_OTHER|||||||0.0007|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0007
82600052|NCT00848354|164914886|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600053|NCT00848354|164914887|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 8.||||<0.0001
82600054|NCT00848354|164914887|SUPERIORITY_OR_OTHER|||||||0.0073|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 16.||||0.0073
82600055|NCT00848354|164914887|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing was done at alpha = 0.05 level, two-sided, without any adjustment for multiple comparisons.|ANCOVA|||ANCOVA model with Baseline as covariate and factors for treatment and country as class variables was used to calculate p-value. Statistical analysis presented above for Week 24.||||<0.0001
82600056|NCT00915343|164914890|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.806|||<|0.0001|TWO_SIDED|95.0|0.753|0.862||Comparison of log S-cortisol AUC between OD and TID regimens was adjusted for both period effect and subject effect using generalized linear model (GLM) in statistical analysis system (SAS).|ANOVA||The quotient was defined as AUC0-24h for OD treatment divided by AUC0-24h for TID treatment.|||0.862|0.753|<0.0001
82600057|NCT00915343|164914891|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-111.989|||<|0.0001|TWO_SIDED|95.0|-133.98|89.999|||Fisher's non-parametric permutation test|||||89.999|-133.980|<0.0001
82600058|NCT00915343|164914892|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|110.417||||0.0357|TWO_SIDED|95.0|16.755|204.078|||Fisher's non-parametric permutation test|||||204.078|16.755|0.0357
82600059|NCT00915343|164914893|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-38.076|||<|0.0001|TWO_SIDED|95.0|-50.276|25.876|||Fisher's non-parametric permutation test|||||25.876|-50.276|<0.0001
82600060|NCT00915343|164914894|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-65.782||||0.0033|TWO_SIDED|95.0|-109.201|22.362|||Fisher's non-parametric permutation test|||||22.362|-109.201|0.0033
82600061|NCT00915343|164914895|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-148.015|||<|0.0001|TWO_SIDED|95.0|-189.469|-106.561|||Fisher's non-parametric permutation test|||||-106.561|-189.469|<0.0001
82600062|NCT00915343|164914896|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-108.306|||<|0.0001|TWO_SIDED|95.0|-140.193|-76.42|||Fisher's non-parametric permutation test|||||-76.420|-140.193|<0.0001
82600063|NCT00915343|164914897|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.27||||0.0214|TWO_SIDED|95.0|0.028|0.512|||Fisher's non-parametric permutation test|||||0.512|0.028|0.0214
82600064|NCT00915343|164914898|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-1.042||||0.0714|TWO_SIDED|95.0|-2.098|0.015|||Fisher's non-parametric permutation test|||||0.015|-2.098|0.0714
82600065|NCT00915343|164914899|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.007||||0.6687|TWO_SIDED|95.0|-0.038|0.024|||Fisher's non-parametric permutation test|||||0.024|-0.038|0.6687
82600066|NCT00915343|164914900|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.049||||0.028|TWO_SIDED|95.0|0.006|0.093|||Fisher's non-parametric permutation test|||||0.093|0.006|0.0280
82600067|NCT00915343|164914901|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|5.509||||0.0003|TWO_SIDED|95.0|0.751|10.268|||Fisher's non-parametric permutation test|||||10.268|0.751|0.0003
82600068|NCT00915343|164914902|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-13.8|||<|0.0001|TWO_SIDED|95.0|-20.533|-7.067|||Fisher's non-parametric permutation test|||||-7.067|-20.533|<0.0001
82600069|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.064||||0.0002|TWO_SIDED|95.0|1.032|1.097|||ANOVA||The quotient was defined as AUC0-4h for OD treatment divided by AUC0-4h for TID treatment.|AUC0-4h||1.097|1.032|0.0002
82600070|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.617|||<|0.0001|TWO_SIDED|95.0|0.563|0.675|||ANOVA||The quotient was defined as AUC4-12h for OD treatment divided by AUC4-12h for TID treatment.|AUC4-12h||0.675|0.563|<0.0001
82600071|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.472|||<|0.0001|TWO_SIDED|95.0|0.424|0.525|||ANOVA||The quotient was defined as AUC6-12h for OD treatment divided by AUC6-12h for TID treatment.|AUC6-12h||0.525|0.424|<0.0001
82600072|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.588||||0.0003|TWO_SIDED|95.0|0.446|0.775|||ANOVA||The quotient was defined as AUC12-24h for OD treatment divided by AUC12-24h for TID treatment.|AUC12-24h||0.775|0.446|0.0003
82600073|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.894|||<|0.0001|TWO_SIDED|95.0|0.856|0.935|||ANOVA||The quotient was defined as AUC0-10h for OD treatment divided by AUC0-10h for TID treatment.|AUC0-10h||0.935|0.856|<0.0001
82600074|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.695|||<|0.0001|TWO_SIDED|95.0|0.632|0.765|||ANOVA||The quotient was defined as AUC4-10h for OD treatment divided by AUC4-10h for TID treatment.|AUC4-10h||0.765|0.632|<0.0001
82600075|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.54|||<|0.0001|TWO_SIDED|95.0|0.482|0.605|||ANOVA||The quotient was defined as AUC6-10h for OD treatment divided by AUC6-10h for TID treatment.|AUC6-10h||0.605|0.482|<0.0001
82600076|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.412|||<|0.0001|TWO_SIDED|95.0|0.338|0.504|||ANOVA||The quotient was defined as AUC10-24h for OD treatment divided by AUC10-24h for TID treatment.|AUC10-24h||0.504|0.338|<0.0001
82492088|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.961|||||TWO_SIDED|95.0|0.931|0.978||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.978|0.931|
82492089|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.921|||||TWO_SIDED|95.0|0.864|0.955||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.955|0.864|
82600077|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.776|||<|0.0001|TWO_SIDED|95.0|0.714|0.843|||ANOVA||The quotient was defined as AUC(0-inf) for OD treatment divided by AUC(0-inf) for TID treatment.|AUC(0-inf)||0.843|0.714|<0.0001
82600078|NCT00915343|164914903|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.069||||0.877|TWO_SIDED|95.0|0.453|2.521|||ANOVA||The quotient was defined as AUC(24h-inf) for OD treatment divided by AUC(24h-inf) for TID treatment.|AUC(24h-inf)||2.521|0.453|0.8770
82600079|NCT00915343|164914904|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.806|||<|0.0001|TWO_SIDED|95.0|0.753|0.862|||ANOVA||The quotient was defined as AUCtau for OD treatment divided by AUCtau for TID treatment.|||0.862|0.753|<0.0001
82600080|NCT00915343|164914905|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.79|||<|0.0001|TWO_SIDED|95.0|0.734|0.851|||ANOVA||The quotient was defined as AUCtau/dose for OD treatment divided by AUCtau/dose for TID treatment.|||0.851|0.734|<0.0001
82600081|NCT00915343|164914906|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.785|||<|0.0001|TWO_SIDED|95.0|0.741|0.831|||ANOVA||The quotient was defined as AUC0-24h/dose for OD treatment divided by AUC0-24h/dose for TID treatment.|||0.831|0.741|<0.0001
82492090|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.947|||||TWO_SIDED|95.0|0.907|0.97||||||Inter-Reader Variability Echo Enhanced Sub-Optimal Echocardiograms||0.970|0.907|
82600082|NCT00915343|164914907|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.885|||<|0.0001|TWO_SIDED|95.0|0.844|0.926|||ANOVA||The quotient was defined as AUC0-10h/dose for OD treatment divided by AUC0-10h/dose for TID treatment.|||0.926|0.844|<0.0001
82600083|NCT00915343|164914908|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|1.053||||0.002|TWO_SIDED|95.0|1.02|1.086|||ANOVA||The quotient was defined as AUC0-4h/dose for OD treatment divided by AUC0-4h/dose for TID treatment.|||1.086|1.020|0.0020
82600084|NCT00915343|164914909|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001|||<|0.0001|TWO_SIDED|95.0|-0.001|0.0|||Fisher's non-parametric permutation test|||||-0.000|-0.001|<0.0001
82600085|NCT00915343|164914910|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001|||<|0.0001|TWO_SIDED|95.0|-0.002|-0.001|||Fisher's non-parametric permutation test|||||-0.001|-0.002|<0.0001
82600086|NCT00915343|164914911|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.055||||0.7827|TWO_SIDED|95.0|-0.444|0.334|||Fisher's non-parametric permutation test|||||0.334|-0.444|0.7827
82600087|NCT00915343|164914912|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.001||||0.0015|TWO_SIDED|95.0|-0.001|0.0|||Fisher's non-parametric permutation test|||||-0.000|-0.001|0.0015
82600088|NCT00915343|164914913|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|6.098|||<|0.0001|TWO_SIDED|95.0|2.94|12.646|||ANOVA||The quotient was defined as AUC Extrapolation for OD treatment divided by AUC Extrapolation for TID treatment.|||12.646|2.940|<0.0001
82600089|NCT00915343|164914914|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|33.532||||0.0396|TWO_SIDED|95.0|1.734|65.329|||Fisher's non-parametric permutation test|||||65.329|1.734|0.0396
82600090|NCT00915343|164914915|SUPERIORITY_OR_OTHER_LEGACY||Period-adjusted quotient|0.08||||0.1032|TWO_SIDED|95.0|-0.017|0.177|||Fisher's non-parametric permutation test|||||0.177|-0.017|0.1032
82600091|NCT00915343|164914916|SUPERIORITY_OR_OTHER_LEGACY||least square mean|-0.078||||0.3767|TWO_SIDED|95.0|-0.25|0.094|||Fisher's test|Fisher's non||Patient||0.094|-0.250|0.3767
82600092|NCT00915343|164914916|SUPERIORITY_OR_OTHER_LEGACY||least square mean|-0.064||||0.4625|TWO_SIDED|95.0|-0.235|0.107|||Fisher's test|Fisher's non||Investigator||0.107|-0.235|0.4625
82600093|NCT00915343|164914917|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6072|TWO_SIDED||||||Sign test|||Patient||||0.6072
82600094|NCT00915343|164914917|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||Sign test|||Investigator||||1.0000
82600095|NCT00915343|164914918|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.6||||0.3332|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||Comparison of Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Physical Component Score||||0.3332
82600096|NCT00915343|164914918|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|0.9||||0.3405|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||Comparison of Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Mental Component Score||||0.3405
82600097|NCT00915343|164914919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8418|TWO_SIDED||||||Wilcoxon Signed Rank|||Change From Baseline to 6 months in Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Physical Component Score||||0.8418
82600098|NCT00915343|164914919|SUPERIORITY_OR_OTHER_LEGACY|||||||0.355|TWO_SIDED||||||Wilcoxon Signed Rank test|||Change From Baseline to 6 months in Quality of Life (QoL) Assessed by Short Form-36 Survey (SF-36) For Mental Component Score||||0.3550
82600099|NCT00915343|164914920|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-2.9||||0.0823|TWO_SIDED||||||Fisher's|Fisher's non-parametric two-sample permutation test||||||0.0823
82600100|NCT00915343|164914921|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5982|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.5982
82600101|NCT00915343|164914922|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|2.3||||0.0632|TWO_SIDED||||||Fisher's test|Fisher's non-parametric two-sample permutation test||||||0.0632
82600102|NCT00915343|164914923|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8676|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.8676
82600103|NCT00915343|164914924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.9700
82600104|NCT00915343|164914925|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2624|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.2624
82600105|NCT00915343|164914926|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|1.28|||||TWO_SIDED|||||||||||||
82600106|NCT00915343|164914928|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Sign test|||||||<0.0001
82600107|NCT00915343|164914929|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-272.3||||0.0034|TWO_SIDED||||||Wilcoxon Signed Rank test|||||||0.0034
82655400|NCT03292653|165026566|SUPERIORITY||Difference in LS Means|-12.09|STANDARD_ERROR_OF_MEAN|8.49||0.1878|TWO_SIDED|90.0|-27.65|3.46|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||3.46|-27.65|0.1878
82492091|NCT03719612|164677318|OTHER||Intra-class Correlation Coefficient|0.903|||||TWO_SIDED|95.0|0.834|0.945||||||Inter-Reader Variability Echo Unenhanced Sub-Optimal Echocardiograms||0.945|0.834|
82492092|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.984|||||TWO_SIDED|95.0|0.971|0.991||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.991|0.971|
82492093|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.975|||||TWO_SIDED|95.0|0.956|0.986||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.986|0.956|
82600108|NCT04202679|164915045|SUPERIORITY||Odds Ratio (OR)|2.3||||0.0216|TWO_SIDED|95.0|1.08|5.0||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when primary outcome measure was statistically significant at two-sided 0.05.||5.00|1.08|0.0216
82600109|NCT04202679|164915046|SUPERIORITY||Odds Ratio (OR)|9.0|||<|0.0001|TWO_SIDED|95.0|3.56|22.66||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||22.66|3.56|<0.0001
82600110|NCT04202679|164915047|SUPERIORITY||Odds Ratio (OR)|4.4|||<|0.0001|TWO_SIDED|95.0|2.02|9.55||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||9.55|2.02|<0.0001
82600111|NCT04202679|164915048|SUPERIORITY||Odds Ratio (OR)|6.1||||0.0001|TWO_SIDED|95.0|2.03|18.11||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05||18.11|2.03|0.0001
82492094|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.959|0.987||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.987|0.959|
82492095|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.94|||||TWO_SIDED|95.0|0.896|0.966||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.966|0.896|
82492096|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.977|||||TWO_SIDED|95.0|0.959|0.987||||||Inter-Reader Variability End Diastolic Echo Enhanced Sub-Optimal Echocardiograms||0.987|0.959|
82600112|NCT04202679|164915049|SUPERIORITY||Odds Ratio (OR)|2.9||||0.0194|TWO_SIDED|95.0|1.13|7.52||Threshold of significance at 0.05 level.|Cochran-Mantel-Haenszel||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||7.52|1.13|0.0194
82600113|NCT04202679|164915050|SUPERIORITY||LS mean difference|-23.16|||<|0.0001|TWO_SIDED|95.0|-33.81|-12.51||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-12.51|-33.81|<0.0001
82600114|NCT04202679|164915051|SUPERIORITY||LS mean difference|-6.39|||<|0.0001|TWO_SIDED|95.0|-8.42|-4.36||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-4.36|-8.42|<0.0001
82600115|NCT04202679|164915052|SUPERIORITY||LS mean difference|-1.61||||0.0003|TWO_SIDED|95.0|-2.49|-0.73||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||-0.73|-2.49|0.0003
82600116|NCT04202679|164915053|SUPERIORITY||LS mean difference|0.54||||0.1658|TWO_SIDED|95.0|-0.22|1.3||Threshold of significance at 0.05 level.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||1.30|-0.22|0.1658
82600117|NCT04202679|164915061|SUPERIORITY||LS mean difference|-0.61||||0.037|TWO_SIDED|95.0|-1.18|-0.04||Threshold of significance was \<0.05.|ANCOVA||Dupilumab 300 mg q2w versus Placebo|||-0.04|-1.18|0.0370
82600118|NCT03048422|164915074|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|2.0|10.7||||||Difference in proportions for intention-to-treat analysis.||10.7|2.0|
82600119|NCT03048422|164915074|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|1.6|10.3||||||Difference in proportions for per-protocol analysis.||10.3|1.6|
82492097|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.923|||||TWO_SIDED|95.0|0.866|0.956||||||Inter-Reader Variability End Diastolic Echo Unenhanced Sub-Optimal Echocardiograms||0.956|0.866|
82492098|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.99|||||TWO_SIDED|95.0|0.982|0.994||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.994|0.982|
82492099|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.976|||||TWO_SIDED|95.0|0.957|0.986||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.986|0.957|
82492100|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.985|||||TWO_SIDED|95.0|0.973|0.991||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.991|0.973|
82492101|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.929|||||TWO_SIDED|95.0|0.876|0.959||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.959|0.876|
82492102|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.981|||||TWO_SIDED|95.0|0.966|0.989||||||Inter-Reader Variability End Systolic Echo Enhanced Sub-Optimal Echocardiograms||0.989|0.966|
82492103|NCT03719612|164677319|OTHER||Intra-class Correlation Coefficient|0.916|||||TWO_SIDED|95.0|0.855|0.952||||||Inter-Reader Variability End Systolic Echo Unenhanced Sub-Optimal Echocardiograms||0.952|0.855|
82492104|NCT01496248|164677321|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492105|NCT01496248|164677322|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492106|NCT01496248|164677323|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492107|NCT01496248|164677324|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82600120|NCT03048422|164915074|SUPERIORITY||Risk Difference (RD)|6.5||||0.005|TWO_SIDED|95.0|2.0|10.7|||Wald test of two proportions|||Difference in proportions for superiority and intention-to-treat analysis.||10.7|2.0|0.005
82600121|NCT03048422|164915075|SUPERIORITY||Risk Difference (RD)|-8.8||||0.043|TWO_SIDED|95.0|-17.3|-0.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||-0.3|-17.3|0.043
82600122|NCT03048422|164915075|SUPERIORITY||Risk Difference (RD)|0.2||||0.97|TWO_SIDED|95.0|-8.8|9.1|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||9.1|-8.8|0.97
82600123|NCT03048422|164915075|SUPERIORITY||Risk Difference (RD)|-8.6||||0.047|TWO_SIDED|95.0|-17.1|-0.1|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-0.1|-17.1|0.047
82600124|NCT03048422|164915076|SUPERIORITY||Risk Difference (RD)|-5.6||||0.098|TWO_SIDED|95.0|-14.2|2.9|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||2.9|-14.2|0.098
82600125|NCT03048422|164915076|SUPERIORITY||Risk Difference (RD)|2.6||||0.26|TWO_SIDED|95.0|-5.9|11.7|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TDF-EFV/FTC/TDF).||11.7|-5.9|0.26
82600126|NCT03048422|164915076|SUPERIORITY||Risk Difference (RD)|-2.8||||0.26|TWO_SIDED|95.0|-11.3|5.8|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF-EFV/FTC/TDF).||5.8|-11.3|0.26
82492108|NCT01496248|164677325|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82600127|NCT03048422|164915077|SUPERIORITY||Risk Difference (RD)|-3.2||||0.25|TWO_SIDED|95.0|-12.8|6.3|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of DTG+FTC/TAF - DTG+FTC/TDF.||6.3|-12.8|0.25
82600128|NCT03048422|164915077|SUPERIORITY||Risk Difference (RD)|-2.3||||0.32|TWO_SIDED|95.0|-12.1|7.5|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TDF-EFV/FTC/TDF.||7.5|-12.1|0.32
82600129|NCT03048422|164915077|SUPERIORITY||Risk Difference (RD)|-5.5||||0.11|TWO_SIDED|95.0|-14.3|3.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TAF-EFV/FTC/TDF.||3.2|-14.3|0.11
82600130|NCT03048422|164915078|SUPERIORITY||Risk Difference (RD)|15.6|||<|0.0001|TWO_SIDED|95.0|9.3|22.0|||Wald test of two proportions|||Difference in proportions between arms for intention-to-treat analysis with null hypothesis of no difference (DTG groups - EFV/FTC/TDF).||22.0|9.3|< 0.0001
82600131|NCT03048422|164915079|SUPERIORITY||Risk Difference (RD)|-0.1||||0.97|TWO_SIDED|95.0|-3.3|3.2|||Wald test of two proportions|||Difference in proportions for intention-to-treat analysis with null hypothesis of no difference between arms (DTG arms - EFV/FTC/TDF).||3.2|-3.3|0.97
82600132|NCT03048422|164915080|SUPERIORITY||Hazard Ratio (HR)|2.4|||<|0.001|TWO_SIDED|95.0|1.9|3.1|||Kaplan-Meier|||||3.1|1.9|< 0.001
82600133|NCT03048422|164915081|SUPERIORITY||Risk Difference (RD)|3.6||||0.19|TWO_SIDED|95.0|-1.8|9.1|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - DTG+FTC/TDF).||9.1|-1.8|0.19
82600134|NCT03048422|164915081|SUPERIORITY||Risk Difference (RD)|-11.5|||<|0.001|TWO_SIDED|95.0|-17.9|-5.2|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TDF - EFV/FTC/TDF).||-5.2|-17.9|< 0.001
82600135|NCT03048422|164915081|SUPERIORITY||Risk Difference (RD)|-7.9||||0.022|TWO_SIDED|95.0|-14.6|-1.2|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - EFV/FTC/TDF).||-1.2|-14.6|0.022
82600136|NCT03048422|164915082|SUPERIORITY||Risk Difference (RD)|2.1||||0.61|TWO_SIDED|95.0|-5.9|10.1|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - DTG+FTC/TDF).||10.1|-5.9|0.61
82600137|NCT03048422|164915082|SUPERIORITY||Risk Difference (RD)|-1.4||||0.74|TWO_SIDED|95.0|-9.4|6.6|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TDF - EFV/FTC/TDF).||6.6|-9.4|0.74
82600138|NCT03048422|164915082|SUPERIORITY||Risk Difference (RD)|0.7||||0.86|TWO_SIDED|95.0|-7.4|8.8|||Wald test of two proportions|||Difference between arms with null hypothesis of no difference (DTG+FTC/TAF - EFV/FTC/TDF).||8.8|-7.4|0.86
82600139|NCT03048422|164915083|SUPERIORITY||Risk Difference (RD)|4.3||||0.27|TWO_SIDED|95.0|-3.4|11.9|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG groups - EFV/FTC/TDF).||11.9|-3.4|0.27
82600140|NCT03048422|164915084|SUPERIORITY||Risk Difference (RD)|-0.1||||0.49|TWO_SIDED|95.0|-7.6|7.5|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference combined DTG arms-EFV/FTC/TDF.||7.5|-7.6|0.49
82492109|NCT01496248|164677326|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492110|NCT01496248|164677327|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492111|NCT01496248|164677328|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82492112|NCT02983825|164677331|SUPERIORITY|Wilcoxon signed-rank test for nonparametric matched-pairs||||||0.02|||||||Sign test|||"Within subject repeat analysis; V/Q mismatch (measured as degree of right shift in kPa) baseline vs best CPAP"||||0.02
82492113|NCT01776840|164677360|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.011|TWO_SIDED|95.0|0.59|0.96|||Log Rank|||||0.96|0.59|0.011
82600141|NCT03048422|164915085|SUPERIORITY||Risk Difference (RD)|4.1||||0.15|TWO_SIDED|95.0|-3.8|12.0|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of combined DTG arms - EFV/FTC/TDF.||12.0|-3.8|0.15
82600142|NCT03048422|164915086|SUPERIORITY||Risk Difference (RD)|-8.8||||0.043|TWO_SIDED|95.0|-17.3|-0.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||-0.3|-17.3|0.043
82600143|NCT03048422|164915086|SUPERIORITY||Risk Difference (RD)|-0.3||||0.95|TWO_SIDED|95.0|-9.3|8.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||8.6|-9.3|0.95
82600144|NCT03048422|164915086|SUPERIORITY||Risk Difference (RD)|-9.1||||0.037|TWO_SIDED|95.0|-17.6|-0.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-0.6|-17.6|0.037
82600145|NCT03048422|164915087|SUPERIORITY||Odds Ratio (OR)|0.73||||0.095|TWO_SIDED|95.0|0.5|1.06|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TAF - DTG+FTC/TDF).||1.06|0.50|0.095
82600146|NCT03048422|164915087|SUPERIORITY||Odds Ratio (OR)|0.83||||0.3|TWO_SIDED|95.0|0.58|1.19|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TDF - EFV/FTC/TDF).||1.19|0.58|0.30
82600147|NCT03048422|164915087|SUPERIORITY||Odds Ratio (OR)|0.6||||0.008|TWO_SIDED|95.0|0.42|0.88|||Regression, Ordinal|||Null hypothesis of odds ratio equal to 1, with odds of experiencing a worse outcome equal between groups (DTG+FTC/TAF - EFV/FTC/TDF).||0.88|0.42|0.008
82492114|NCT03285984|164677382|SUPERIORITY||Mean Difference (Net)|-0.21|||<|0.0001|TWO_SIDED|95.0|-0.27|-0.15||From ANCOVA model with factors for treatment group, period and subject (random effect), and subject-level baseline and period-level baseline|ANCOVA||Difference is first named treatment minus second-named treatment such that a negative difference favors the first named treatment|||-0.15|-0.27|<.0001
82600148|NCT03048422|164915088|SUPERIORITY||Risk Difference (RD)|0.5||||0.28|TWO_SIDED|95.0|-1.2|2.1|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||2.1|-1.2|0.28
82600149|NCT03048422|164915088|SUPERIORITY||Risk Difference (RD)|-0.1||||0.47|TWO_SIDED|95.0|-1.5|1.4|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||1.4|-1.5|0.47
82600150|NCT03048422|164915088|SUPERIORITY||Risk Difference (RD)|0.4||||0.31|TWO_SIDED|95.0|-1.3|2.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Survival probabilities were compared based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||2.2|-1.3|0.31
82600151|NCT03048422|164915089|SUPERIORITY|The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimated difference of DTG+FTC/TAF - DTG+FTC/TDF.|Risk Difference (RD)|-1.0||||0.2|TWO_SIDED|95.0|-3.4|1.3|||Z-test|||||1.3|-3.4|0.20
82600152|NCT03048422|164915089|SUPERIORITY||Risk Difference (RD)|-4.9||||0.008|TWO_SIDED|95.0|-8.9|-0.9|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TDF-EFV/FTC/TDF.||-0.9|-8.9|0.008
82600153|NCT03048422|164915089|SUPERIORITY||Risk Difference (RD)|-5.9|||<|0.001|TWO_SIDED|95.0|-9.7|-2.2|||Z-test|||The Kaplan-Meier method was used to estimate survival probabilities. Comparisons of survival probabilities was based on a Z-test using Greenwoods estimate of the standard error. The null hypothesis was no difference between arms, with estimate of risk difference DTG+FTC/TAF-EFV/FTC/TDF.||-2.2|-9.7|<0.001
82600154|NCT03048422|164915090|SUPERIORITY||Mean Difference (Final Values)|-0.093||||0.12|TWO_SIDED|95.0|-0.208|0.023|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TAF - DTG+FTC/TDF).||0.023|-0.208|0.12
82600155|NCT03048422|164915090|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.39|TWO_SIDED|95.0|-0.061|0.158|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TDF - EFV/FTC/TDF).||0.158|-0.061|0.39
82600156|NCT03048422|164915090|SUPERIORITY||Mean Difference (Final Values)|-0.045||||0.45|TWO_SIDED|95.0|-0.161|0.072|||Generalized Estimating Equation|||Null hypothesis of no difference in weekly change in creatinine clearance from baseline (DTG+FTC/TAF - EFV/FTC/TDF).||0.072|-0.161|0.45
82600157|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.94|TWO_SIDED|95.0|-11.3|10.5|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TAF - DTG+FTC/TDF).||10.5|-11.3|0.94
82600158|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.44|TWO_SIDED|95.0|-6.5|14.9|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TDF - EFV/FTC/TDF).||14.9|-6.5|0.44
82600159|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.18|TWO_SIDED|95.0|-1.8|9.3|||t-test, 2 sided|||Null hypothesis of no difference between arms at delivery (DTG+FTC/TAF - EFV/FTC/TDF).||9.3|-1.8|0.18
82492115|NCT01172522|164677412|SUPERIORITY_OR_OTHER||Other|0.0|||=|1|TWO_SIDED||||||Chi-squared||P values above 0.05 is considered statistically insignificant in this study.|||||=1
82600160|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|11.1||||0.27|TWO_SIDED|95.0|-8.9|31.1|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TAF - DTG+FTC/TDF).||31.1|-8.9|0.27
82600161|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|-11.4||||0.048|TWO_SIDED|95.0|-22.6|-0.1|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TDF - EFV/FTC/TDF).||-0.1|-22.6|0.048
82499400|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.156|STANDARD_ERROR_OF_MEAN|0.071||||90.0|0.04|0.273|||ANCOVA|||Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.273|0.040|
82600162|NCT03048422|164915091|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.98|TWO_SIDED|95.0|-21.0|20.5|||t-test, 2 sided|||Null hypothesis of no difference between arms at week 26 (DTG+FTC/TAF - EFV/FTC/TDF).||20.5|-21.0|0.98
82600163|NCT03048422|164915092|SUPERIORITY||Risk Difference (RD)|-0.9||||0.4|TWO_SIDED|95.0|-3.1|1.3|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - DTG+FTC/TDF).||1.3|-3.1|0.40
82600164|NCT03048422|164915092|SUPERIORITY||Risk Difference (RD)|-4.3||||0.023|TWO_SIDED|95.0|-8.0|-0.6|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TDF - EFV/FTC/TDF).||-0.6|-8.0|0.023
82600165|NCT03048422|164915092|SUPERIORITY||Risk Difference (RD)|-5.2||||0.003|TWO_SIDED|95.0|-8.7|-1.8|||Wald test of two proportions|||Null hypothesis of no difference between groups (DTG+FTC/TAF - EFV/FTC/TDF).||-1.8|-8.7|0.003
82655401|NCT03292653|165026567|SUPERIORITY||Difference in LS Means|-4.82|STANDARD_ERROR_OF_MEAN|5.8||0.4269|TWO_SIDED|90.0|-15.45|5.8|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||5.8|-15.45|0.4269
82655402|NCT03292653|165026567|SUPERIORITY||Difference in LS Means|-6.36|STANDARD_ERROR_OF_MEAN|5.39||0.2684|TWO_SIDED|90.0|-16.24|3.52|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||3.52|-16.24|0.2684
82655403|NCT03292653|165026568|SUPERIORITY||Difference in LS Means|847.2|STANDARD_ERROR_OF_MEAN|576.98||0.1761|TWO_SIDED|90.0|-210.46|1904.86|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||1904.86|-210.46|0.1761
82655404|NCT03292653|165026568|SUPERIORITY||Difference in LS Means|489.33|STANDARD_ERROR_OF_MEAN|579.35||0.4202|TWO_SIDED|90.0|-572.68|1551.34|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline plasma volume as the covariate.||1551.34|-572.68|0.4202
82655405|NCT03292653|165026569|SUPERIORITY||Difference in LS Means|13.75|STANDARD_ERROR_OF_MEAN|8.53||0.1242|TWO_SIDED|90.0|-1.03|28.53|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline erythropoietin as the covariate.||28.53|-1.03|0.1242
82655406|NCT03292653|165026569|SUPERIORITY||Difference in LS Means|0.1|STANDARD_ERROR_OF_MEAN|7.73||0.9903|TWO_SIDED|90.0|-13.49|13.3|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline erythropoietin as the covariate.||13.30|-13.49|0.9903
82655407|NCT03292653|165026570|SUPERIORITY||Difference in LS Means|-150.89|STANDARD_ERROR_OF_MEAN|116.09||0.2121|TWO_SIDED|90.0|-353.57|51.78|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline NT-proBNP as the covariate.||51.78|-353.57|0.2121
82655408|NCT03292653|165026570|SUPERIORITY||Difference in LS Means|-5.26|STANDARD_ERROR_OF_MEAN|96.88||0.9574|TWO_SIDED|90.0|-174.4|163.87|||ANCOVA|||ANCOVA model with fixed effects for treatment and stratification factors of baseline participant status (diabetic/non-diabetic), ejection fraction status (reduced/preserved) with baseline NT-proBNP as the covariate.||163.87|-174.4|0.9574
82499401|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.072||||90.0|0.065|0.3|||ANCOVA|||Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.300|0.065|
82600166|NCT03048422|164915094|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-3.6||||0.16|TWO_SIDED|95.0|-8.8|1.5|||Wald test of two proportions|||||1.5|-8.8|0.16
82600167|NCT03048422|164915094|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-2.7||||0.38|TWO_SIDED|95.0|-8.7|3.3|||Wald test of two proportions|||||3.3|-8.7|0.38
82600168|NCT03048422|164915094|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-6.3||||0.023|TWO_SIDED|95.0|-11.8|-0.9|||Wald test of two proportions|||||-0.9|-11.8|0.023
82600169|NCT03048422|164915095|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-6.2||||0.12|TWO_SIDED|95.0|-13.9|1.5|||Wald test of two proportions|||||1.5|-13.9|0.12
82600170|NCT03048422|164915095|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|2.0||||0.63|TWO_SIDED|95.0|-6.0|10.0|||Wald test of two proportions|||||10.0|-6.0|0.63
82600171|NCT03048422|164915095|NON_INFERIORITY|Equivalence margin was a 10% difference between groups.|Risk Difference (RD)|-4.2||||0.28|TWO_SIDED|95.0|-11.7|3.4|||Wald test of two proportions|||||3.4|-11.7|0.28
82600172|NCT03048422|164915096|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.011|TWO_SIDED|95.0|0.013|0.103|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.103|0.013|0.011
82600173|NCT03048422|164915096|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.19|TWO_SIDED|95.0|-0.014|0.07|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.070|-0.014|0.19
82600174|NCT03048422|164915096|SUPERIORITY||Mean Difference (Final Values)|0.086|||<|0.001|TWO_SIDED|95.0|0.04|0.133|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.133|0.040|< 0.001
82600175|NCT03048422|164915097|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.11|TWO_SIDED|95.0|-0.005|0.048|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.048|-0.005|0.11
82600176|NCT03048422|164915097|SUPERIORITY||Mean Difference (Final Values)|0.024||||0.055|TWO_SIDED|95.0|0.0|0.049|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.049|-0.000|0.055
82600177|NCT03048422|164915097|SUPERIORITY||Mean Difference (Final Values)|0.046|||<|0.001|TWO_SIDED|95.0|0.022|0.07|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.070|0.022|< 0.001
82600178|NCT03048422|164915098|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.041|TWO_SIDED|95.0|0.001|0.045|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - DTG+FTC/TDF).||0.045|0.001|0.041
82600179|NCT03048422|164915098|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.002|TWO_SIDED|95.0|0.013|0.055|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TDF - EFV/FTC/TDF).||0.055|0.013|0.002
82600180|NCT03048422|164915098|SUPERIORITY||Mean Difference (Final Values)|0.057|||<|0.001|TWO_SIDED|95.0|0.036|0.078|||Generalized Estimating Equation|||Null hypothesis of no difference between arms (DTG+FTC/TAF - EFV/FTC/TDF).||0.078|0.036|< 0.001
82600181|NCT00762515|164915110|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|baseline is used a factor||The null hypothesis states that there is no difference between groups.||||<0.05
82600182|NCT00762515|164915111|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANCOVA|baseline to be used a factor||The null hypothesis states that there is no difference between groups.||||<0.05
82600183|NCT01299766|164915138|SUPERIORITY||Risk Ratio (RR)|0.12||||0.02|TWO_SIDED|95.0|0.02|0.74|||Poisson regression with robust SE (GEE)|||Poisson regression with robust standard errors (GEE) was used to jointly model decline in HVLT-R Total Recall score ≥ 6 words at 6, 12, 18, and 24 months by treatment group. The model included time, treatment, time-by-treatment interaction terms, and baseline HVLT-R Total Recall score.||0.74|0.02|.02
82492116|NCT02319837|164677472|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.424|||<|0.0001|TWO_SIDED|95.0|0.296|0.607||Statistical significance can be declared if p-value \<0.05.|Log Rank|||||0.607|0.296|<0.0001
82600184|NCT01299766|164915139|SUPERIORITY||Difference in Slopes|2.47||||0.064|TWO_SIDED|95.0|-0.14|5.07|||Mixed Models Analysis|||Mixed effects linear regression was used to model the trajectory. Fixed effects for time (as a continuous variable), treatment group, time-by-treatment group interaction, and age at baseline were included. Random intercepts and slopes were included to account for within-subject correlation.||5.07|-.14|.064
82600185|NCT03160560|164915142|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||<0.010
82600186|NCT03160560|164915142|SUPERIORITY|||||||0.932|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||.932
82600187|NCT03160560|164915142|SUPERIORITY|||||||0.853|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.853
82600188|NCT03160560|164915142|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||Baseline-2, Week 6, Week 7, Week 8||||.032
82600189|NCT03160560|164915142|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||<0.001
82600190|NCT03160560|164915142|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Baseline, Week 1, Week 2, Week 3||||.750
82600191|NCT03160560|164915142|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.810
82600192|NCT03160560|164915142|SUPERIORITY|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Baseline 2, Week 6, Week 7, Week 8||||.006
82600193|NCT01354028|164915149|SUPERIORITY_OR_OTHER|||||||0.1303||95.0|||||Chi-squared|Degrees of freedom =1||"Null hypothesis: there will be no difference in sleep efficiency in preterm infants on the day of massage versus the day without massage.~Power calculation: the sample size was determined by convenience for this pilot study"||||0.1303
82600194|NCT01354028|164915152|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||Pearson's chi square|Chi-squared|Degrees of freedom=1||"Null hypothesis: there is no difference in massage therapy or no massage therapy in number of infants who will be asleep at the end of massage or the corresponding time frame on the non massage day.~Pearson's chi square=4.98"||||0.026
82492117|NCT02319837|164677473|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.631||||0.0049|TWO_SIDED|95.0|0.456|0.871||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.871|0.456|0.0049
82600195|NCT02109159|164915162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.44|TWO_SIDED|95.0|0.8|1.4|||Chi-squared||This analysis was conducted on an intention-to-treat (ITT) basis including all participants randomised.|||1.4|0.8|0.44
82600196|NCT02109159|164915162|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.47|TWO_SIDED|95.0|0.8|1.7|||Chi-squared||This analysis was conducted on a per-protocol (PP) basis including only those who watched the videos.|||1.7|0.8|0.47
82600197|NCT02109159|164915163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.53|TWO_SIDED|95.0|-0.02|0.04|||t-test, 2 sided||This analysis was conducted on an intention-to-treat (ITT) basis including all participants randomised.|||0.04|-0.02|0.53
82600198|NCT02109159|164915163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.56|TWO_SIDED|95.0|-0.5|0.8|||t-test, 2 sided||This analysis was conducted on a per-protocol (PP) basis including only those who watched the videos.|||0.8|-0.5|0.56
82600199|NCT01340209|164915223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.048||0.7971|TWO_SIDED|95.0|-0.082|0.106|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||0.106|-0.082|0.7971
82600200|NCT01340209|164915223|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.048||0.0203|TWO_SIDED|95.0|0.018|0.207|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||0.207|0.018|0.0203
82600201|NCT01340209|164915224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.037|STANDARD_ERROR_OF_MEAN|0.053||0.4944|TWO_SIDED|95.0|-0.141|0.068|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||0.068|-0.141|0.4944
82600202|NCT01340209|164915224|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.054||0.127|TWO_SIDED|95.0|-0.023|0.188|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||0.188|-0.023|0.1270
82655409|NCT03311646|165026607|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|0.07||||0.92|TWO_SIDED|95.0|-1.27|1.4||alpha=0.05.|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of carbon monoxide during VLNC condition to carbon monoxide during the NNC (baseline) condition.|Interaction p-value: p=0.27|1.4|-1.27|0.92
82655410|NCT03311646|165026608|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|1.13||||0.15|TWO_SIDED|95.0|-0.41|2.66||alpha=0.05|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of cigarette per day during VLNC condition to cigarette per day during the NNC (baseline) condition.|Interaction p=0.23|2.66|-0.41|0.15
82655411|NCT03311646|165026609|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|3.19|||<|0.001|TWO_SIDED|95.0|1.77|4.6|||Mixed Models Analysis||Mean Difference=VLNC-NNC|Comparison of Minnesota Nicotine Withdrawal Scale during VLNC condition to Minnesota Nicotine Withdrawal Scale during the NNC (baseline) condition.|Interaction p=0.95|4.60|1.77|<0.001
82655412|NCT03311646|165026610|OTHER|A linear mixed-model was used. The model included terms for cigarette nicotine content (VLNC/NNC), time, cohort, a random effect for subject, and a nicotine content x time interaction. Interaction was dropped when nonsignificant. Reported below is the effect of nicotine content as well as the interaction p-value.|Mean Difference (Final Values)|0.2||||0.84|TWO_SIDED|95.0|-2.0|2.5||alpha=0.05|Mixed Models Analysis||Mean Difference = VLNC-NNC|Comparison of carbon monoxide during VLNC condition to carbon monoxide during the NNC (baseline) condition.|Interaction p=0.94|2.5|-2.0|0.84
82655413|NCT02906709|165026632|SUPERIORITY||Difference in the Least Squares Means|-0.9|||<|0.001|TWO_SIDED|95.0|-1.15|-0.66|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior anti-hyperglycemic agent (AHA) therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|-0.66|-1.15|<0.001
82655414|NCT02906709|165026633|SUPERIORITY||Difference in % vs. Placebo|7.0|||||TWO_SIDED|95.0|-8.4|21.8|||||||Based on Miettinen \& Nurminen method.|21.8|-8.4|
82655415|NCT02906709|165026635|SUPERIORITY||Difference in % vs. Placebo|-4.1|||||TWO_SIDED|95.0|-12.8|0.4|||||||Based on Miettinen \& Nurminen method.|0.4|-12.8|
82655416|NCT02906709|165026637|SUPERIORITY||Difference in the Least Squares Means|-15.0||||0.002|TWO_SIDED|95.0|-24.5|-5.4|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior AHA therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|-5.4|-24.5|0.002
82655417|NCT02906709|165026638|SUPERIORITY||Percent Between-group Rate Difference|5.8||||0.065|TWO_SIDED|95.0|-0.7|11.5|||Miettinen & Nurminen method||||The estimated response rates and effective sample sizes were used to obtain the confidence intervals (CIs) for within-group response rates via the Wilson score method. The CI were calculated via the stratified (non-combination prior AHA therapy status) Miettinen \& Nurminen method.|11.5|-0.7|0.065
82655418|NCT02906709|165026639|SUPERIORITY||Percent Between-group Rate Difference|1.6||||0.334|TWO_SIDED|95.0|-4.7|5.8|||Miettinen & Nurminen method||||The estimated response rates and effective sample sizes were used to obtain the confidence intervals (CIs) for within-group response rates via the Wilson score method. The CI were calculated via the stratified (non-combination prior AHA therapy status) Miettinen \& Nurminen method.|5.8|-4.7|0.334
82600203|NCT01340209|164915225|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.498|STANDARD_ERROR_OF_MEAN|12.282||0.9677|TWO_SIDED|95.0|-23.634|24.63|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||24.630|-23.634|0.9677
82655419|NCT02906709|165026640|SUPERIORITY||Difference in the Least Squares Means|3.1|||<|0.001|TWO_SIDED|95.0|2.3|4.0|||Constrained Longitudinal Data Analysis||||Based on a Constrained Longitudinal Data Analysis model with terms for treatment, prior AHA therapy status (yes/no), time and the interaction of time by treatment, time by prior AHA therapy status and time by treatment by prior AHA status with the restriction of a common baseline mean between two treatment groups.|4.0|2.3|<0.001
82600204|NCT01340209|164915225|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|34.176|STANDARD_ERROR_OF_MEAN|12.346||0.0058|TWO_SIDED|95.0|9.919|58.432|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium Respimat 5 μg minus placebo||58.432|9.919|0.0058
82655420|NCT01124149|165026645|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.61|||<|0.001|TWO_SIDED|95.0|1.76|3.87|||Regression, Logistic|||||3.87|1.76|<0.001
82655421|NCT01124149|165026646|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.1|||<|0.001|TWO_SIDED|95.0|1.44|3.07|||Regression, Logistic|||||3.07|1.44|<0.001
82655422|NCT01644500|165026653|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.58|||<|0.001|TWO_SIDED|95.0|-0.76|-0.39|||Mixed Models Analysis|||||-0.39|-0.76|<0.001
82655423|NCT01644500|165026653|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.32|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13|||Mixed Models Analysis|||||-0.13|-0.50|<0.001
82655424|NCT01644500|165026654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.7|||<|0.001|TWO_SIDED|5.0|1.8|4.1||Treatment comparison for HbA1c ≤6.5%.|Fisher Exact|||||4.1|1.8|<0.001
82655425|NCT01644500|165026654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6|||<|0.001|TWO_SIDED|95.0|1.0|2.3||Treatment comparison for HbA1c ≤6.5%.|Fisher Exact|||||2.3|1.0|<0.001
82655426|NCT01644500|165026654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.9|||<|0.001|TWO_SIDED|95.0|1.8|4.5||Treatment comparison for HbA1c \<7.0%.|Fisher Exact|||||4.5|1.8|<0.001
82600205|NCT01340209|164915226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.646|STANDARD_ERROR_OF_MEAN|9.182||0.3468|TWO_SIDED|95.0|-9.388|26.68|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||26.680|-9.388|0.3468
82600206|NCT01340209|164915226|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.216|STANDARD_ERROR_OF_MEAN|9.238||0.5013||95.0|-11.927|24.359|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||24.359|-11.927|0.5013
82600207|NCT01340209|164915227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.458|STANDARD_ERROR_OF_MEAN|9.196||0.2132|TWO_SIDED|95.0|-6.601|29.517|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||29.517|-6.601|0.2132
82600208|NCT01340209|164915227|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.398|STANDARD_ERROR_OF_MEAN|9.245||0.0766|TWO_SIDED|95.0|-1.759|34.555|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||34.555|-1.759|0.0766
82600209|NCT01340209|164915228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.601|STANDARD_ERROR_OF_MEAN|1.038||0.5629|TWO_SIDED|95.0|-2.637|1.436|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 2.5 µg minus placebo||1.436|-2.637|0.5629
82600210|NCT01340209|164915228|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.564|STANDARD_ERROR_OF_MEAN|1.038||0.5871|TWO_SIDED|95.0|-1.473|2.601|||Mixed Models Analysis|adjusted for treatment, week, baseline, treatment\*week and baseline\*week||Difference calculated as Tiotropium 5 μg minus placebo||2.601|-1.473|0.5871
82600211|NCT03237065|164915235|SUPERIORITY||Risk Difference (RD)|-65.8|||<|0.0001|TWO_SIDED|95.0|-76.6|-49.8|||Cochran-Mantel-Haenszel|Rate difference with 95% Newcombe confidence intervals (CI) adjusted for stratum, using the Cochran-Mantel-Haenszel method.|Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95% CI, adjusting for strata (underlying disease and screening s-phosphate) using the Cochran-Mantel-Haenszel method.|"Power:~The power was set to 80%. Assuming incidences of 15% for iron isomaltoside/ferric derisomaltose and 40% for ferric carboxymaltose, 49 subjects in each treatment group were required to detect a difference between the treatment groups. The significance level was set to 5%."||-49.8|-76.6|<0.0001
82600212|NCT03237065|164915236|SUPERIORITY|||||||0.0511|||||||Log Rank|||The time with hypophosphatemia from baseline to day 35 was estimated by a Kaplan- Meier plot. The treatment groups were compared by a log-rank test. Only subjects who had one or more s-phosphate value(s) \<2 mg/dL were included.||||0.0511
82600213|NCT03237065|164915237|SUPERIORITY||Risk Difference (RD)|-44.6|||<|0.0001|TWO_SIDED|95.0|-57.7|-31.6|||Cochran-Mantel-Haenszel|||Iron isomaltoside/ferric derisomaltose was compared to ferric carboxymaltose by estimation of the risk difference and the associated 95 % CI, adjusting for strata (type of underlying disease (women with IDA due to gynaecological blood losses; yes/no) and screening s-phosphate level (\< or ≥ 3.5 mg/dL)) using the Cochran-Mantel-Haenszel method.||-31.6|-57.7|<0.0001
82600214|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|0.46|||<|0.0001|TWO_SIDED|95.0|0.3|0.62|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.62|0.30|<0.0001
82655427|NCT01644500|165026654|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.6||||0.192|TWO_SIDED|95.0|1.1|2.5||Treatment comparison for HbA1c \<7.0%.|Fisher Exact|||||2.5|1.1|0.192
82600215|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|0.54|||<|0.0001|TWO_SIDED|95.0|0.32|0.76|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.76|0.32|<0.0001
82600216|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|0.73|||<|0.0001|TWO_SIDED|95.0|0.49|0.96|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.96|0.49|<0.0001
82600217|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|1.22|||<|0.0001|TWO_SIDED|95.0|0.99|1.46|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.46|0.99|<0.0001
82600218|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|1.24|||<|0.0001|TWO_SIDED|95.0|0.98|1.51|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.51|0.98|<0.0001
82655428|NCT01644500|165026655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.15|-0.51|||Mixed Models Analysis|||||-0.51|-1.15|<0.001
82655429|NCT01644500|165026655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.38||||0.022|TWO_SIDED|95.0|-0.7|-0.05|||Mixed Models Analysis|||||-0.05|-0.70|0.022
82655430|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.67|||<|0.001|TWO_SIDED|95.0|-0.89|-0.45||Treatment comparison for morning (fasting).|Mixed Models Analysis|||||-0.45|-0.89|<0.001
82600219|NCT03237065|164915238|SUPERIORITY||Mean Difference (Final Values)|1.17|||<|0.0001|TWO_SIDED|95.0|0.91|1.43|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||1.43|0.91|<0.0001
82600220|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|13.99|||<|0.0001|TWO_SIDED|95.0|9.38|18.59|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||18.59|9.38|<0.0001
82600221|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|15.84|||<|0.0001|TWO_SIDED|95.0|9.45|22.23|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.23|9.45|<0.0001
82600222|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|21.66|||<|0.0001|TWO_SIDED|95.0|14.72|28.59|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||28.59|14.72|<0.0001
82600223|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|36.17|||<|0.0001|TWO_SIDED|95.0|29.28|43.06|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||43.06|29.28|<0.0001
82600224|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|37.86|||<|0.0001|TWO_SIDED|95.0|29.99|45.72|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||45.72|29.99|<0.0001
82600225|NCT03237065|164915239|SUPERIORITY||Mean Difference (Final Values)|34.53|||<|0.0001|TWO_SIDED|95.0|26.8|42.26|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||42.26|26.80|<0.0001
82600226|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-96.8|||<|0.0001|TWO_SIDED|95.0|-119.8|-73.8|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-73.8|-119.8|<0.0001
82600227|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-15.7||||0.1064|TWO_SIDED|95.0|-34.9|3.4|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||3.4|-34.9|0.1064
82600228|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-251.7|||<|0.0001|TWO_SIDED|95.0|-307.2|-196.2|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-196.2|-307.2|<0.0001
82600229|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-79.1|||<|0.0001|TWO_SIDED|95.0|-103.7|-54.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-54.5|-103.7|<0.0001
82600230|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-61.8|||<|0.0001|TWO_SIDED|95.0|-83.0|-40.5|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-40.5|-83.0|<0.0001
82655431|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.304|TWO_SIDED|95.0|-0.34|0.11||Treatment comparison for morning (fasting).|Mixed Models Analysis|||||0.11|-0.34|0.304
82600231|NCT03237065|164915241|SUPERIORITY||Mean Difference (Final Values)|-18.0||||0.0039|TWO_SIDED|95.0|-30.1|-5.9|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-5.9|-30.1|0.0039
82600232|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|-57.5||||0.1243|TWO_SIDED|95.0|-131.1|16.1|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||16.1|-131.1|0.1243
82600233|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|20.7||||0.5547|TWO_SIDED|95.0|-49.7|91.0|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||91.0|-49.7|0.5547
82600234|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|-155.7||||0.0005|TWO_SIDED|95.0|-234.7|-76.6|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-76.6|-234.7|0.0005
82600235|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|-27.3||||0.3516|TWO_SIDED|95.0|-86.0|31.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||31.5|-86.0|0.3516
82600236|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|-24.3||||0.1988|TWO_SIDED|95.0|-62.3|13.7|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||13.7|-62.3|0.1988
82600237|NCT03237065|164915242|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.4379|TWO_SIDED|95.0|-18.6|41.2|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||41.2|-18.6|0.4379
82600238|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.6869|TWO_SIDED|95.0|-1.06|0.7|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.70|-1.06|0.6869
82600239|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.1037|TWO_SIDED|95.0|-2.29|0.22|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.22|-2.29|0.1037
82499402|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.078||||90.0|0.06|0.319|||ANCOVA|||Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.319|0.060|
82600240|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|-1.62||||0.0213|TWO_SIDED|95.0|-2.99|-0.25|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.25|-2.99|0.0213
82600241|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|-1.91||||0.0176|TWO_SIDED|95.0|-3.47|-0.34|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.34|-3.47|0.0176
82600242|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|-1.37||||0.0999|TWO_SIDED|95.0|-3.01|0.27|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.27|-3.01|0.0999
82655432|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.36|||<|0.001|TWO_SIDED|95.0|-1.8|-0.92||Treatment comparison for morning (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.92|-1.80|<0.001
82655433|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.55||||0.015|TWO_SIDED|95.0|-0.99|-0.11||Treatment comparison for morning (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.11|-0.99|0.015
82655434|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.73|||<|0.001|TWO_SIDED|95.0|-1.1|-0.36||Treatment comparison for midday (pre-prandial) meal.|Mixed Models Analysis|||||-0.36|-1.10|<0.001
82655435|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.06||||0.74|TWO_SIDED|95.0|-0.43|0.31||Treatment comparison for midday (pre-prandial) meal.|Mixed Models Analysis|||||0.31|-0.43|0.740
82655436|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.56|||<|0.001|TWO_SIDED|95.0|-1.99|-1.13||Treatment comparison of midday (2 hours post-prandial) meal.|Mixed Models Analysis|||||-1.13|-1.99|<0.001
82600243|NCT03237065|164915243|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.8878|TWO_SIDED|95.0|-1.77|2.04|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||2.04|-1.77|0.8878
82600244|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|21.81|||<|0.0001|TWO_SIDED|95.0|17.66|25.95|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||25.95|17.66|<0.0001
82600245|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|4.64||||0.2923|TWO_SIDED|95.0|-4.05|13.33|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||13.33|-4.05|0.2923
82600246|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|19.56|||<|0.0001|TWO_SIDED|95.0|12.37|26.74|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||26.74|12.37|<0.0001
82600247|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|33.05|||<|0.0001|TWO_SIDED|95.0|25.96|40.14|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||40.14|25.96|<0.0001
82600248|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|21.82|||<|0.0001|TWO_SIDED|95.0|14.2|29.43|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||29.43|14.20|<0.0001
82655437|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.81|||<|0.001|TWO_SIDED|95.0|-1.24|-0.39||Treatment comparison of midday (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.39|-1.24|<0.001
82655438|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.67|||<|0.001|TWO_SIDED|95.0|-1.0|-0.34||Treatment comparison for evening (pre-prandial) meal.|Mixed Models Analysis|||||-0.34|-1.00|<0.001
82655439|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.08||||0.638|TWO_SIDED|95.0|-0.41|0.25||Treatment comparison for evening (pre-prandial) meal.|Mixed Models Analysis|||||0.25|-0.41|0.638
82655440|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.27|||<|0.001|TWO_SIDED|95.0|-1.68|-0.87||Treatment comparison for evening (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.87|-1.68|<0.001
82655441|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.03|TWO_SIDED|95.0|-0.85|-0.04||Treatment comparison for evening (2 hours post-prandial) meal.|Mixed Models Analysis|||||-0.04|-0.85|0.030
82655442|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.19|||<|0.001|TWO_SIDED|95.0|-1.56|-0.82||Treatment comparison for bedtime.|Mixed Models Analysis|||||-0.82|-1.56|<0.001
82655443|NCT01644500|165026656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.66|||<|0.001|TWO_SIDED|95.0|-1.03|-0.29||Treatment comparison for bedtime.|Mixed Models Analysis|||||-0.29|-1.03|<0.001
82655444|NCT01644500|165026657|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Treatment comparison for all hypoglycemic episodes.|Negative binomial regression model|||||||<0.001
82655445|NCT01644500|165026657|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Treatment comparison for all hypoglycemic episodes.|Negative binomial regression model|||||||<0.001
82655446|NCT01644500|165026657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Treatment comparison for nocturnal hypoglycemic episodes. Nocturnal hypoglycemic episodes are rounded off to 2 decimal places.|Negative binomial regression model|||||||0.008
82655447|NCT01644500|165026657|SUPERIORITY_OR_OTHER_LEGACY|||||||0.006||||||Treatment comparison for nocturnal hypoglycemic episodes. Nocturnal hypoglycemic episodes are rounded off to 2 decimal places.|Negative binomial regression model|||||||0.006
82655448|NCT01644500|165026658|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82655449|NCT01644500|165026658|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82600249|NCT03237065|164915244|SUPERIORITY||Mean Difference (Final Values)|9.03||||0.025|TWO_SIDED|95.0|1.16|16.9|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||16.90|1.16|0.0250
82600250|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.5134|TWO_SIDED|95.0|-0.22|0.11|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.11|-0.22|0.5134
82600251|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.7579|TWO_SIDED|95.0|-0.24|0.32|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.32|-0.24|0.7579
82600252|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3169|TWO_SIDED|95.0|-0.41|0.14|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.14|-0.41|0.3169
82600253|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|-0.47||||0.0018|TWO_SIDED|95.0|-0.76|-0.18|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.18|-0.76|0.0018
82600254|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.0003|TWO_SIDED|95.0|-0.77|-0.24|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-0.24|-0.77|0.0003
82600255|NCT03237065|164915245|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.1063|TWO_SIDED|95.0|-0.5|0.05|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.05|-0.50|0.1063
82600256|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|4.57||||0.2166|TWO_SIDED|95.0|-2.72|11.85|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||11.85|-2.72|0.2166
82600257|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|-4.64||||0.2997|TWO_SIDED|95.0|-13.47|4.19|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||4.19|-13.47|0.2997
82600258|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.9221|TWO_SIDED|95.0|-7.75|8.56|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||8.56|-7.75|0.9221
82655450|NCT01644500|165026659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|17.41|||<|0.001|TWO_SIDED|95.0|11.27|23.55|||ANCOVA|||Insulin HOMA2-%B||23.55|11.27|<0.001
82600259|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|-15.69||||0.0034|TWO_SIDED|95.0|-26.07|-5.32|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-5.32|-26.07|0.0034
82655451|NCT01644500|165026659|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|7.92||||0.012|TWO_SIDED|95.0|1.78|14.06|||ANCOVA|||Insulin HOMA2%B||14.06|1.78|0.012
82655452|NCT01644500|165026659|SUPERIORITY||Mean Difference (Net)|16.44|||<|0.001|TWO_SIDED|95.0|11.81|21.06|||ANCOVA|||C-Peptide-Based HOMA2-%B||21.06|11.81|<0.001
82655453|NCT01644500|165026659|SUPERIORITY||Mean Difference (Net)|9.99|||<|0.001|TWO_SIDED|95.0|5.36|14.62|||ANCOVA|||C-Peptide-Based HOMA2-%B||14.62|5.36|<0.001
82655454|NCT01644500|165026660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.34||||0.913|TWO_SIDED|95.0|-5.83|6.51|||ANCOVA|||Insulin-Based HOMA2%S||6.51|-5.83|0.913
82600260|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|-22.54||||0.0002|TWO_SIDED|95.0|-33.93|-11.16|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-11.16|-33.93|0.0002
82600261|NCT03237065|164915246|SUPERIORITY||Mean Difference (Final Values)|-24.81|||<|0.0001|TWO_SIDED|95.0|-35.42|-14.21|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-14.21|-35.42|<0.0001
82600262|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.3048|TWO_SIDED|95.0|-0.1|0.03|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.03|-0.10|0.3048
82600263|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.1641|TWO_SIDED|95.0|-0.02|0.13|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.13|-0.02|0.1641
82600264|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.1333|TWO_SIDED|95.0|-0.02|0.12|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.12|-0.02|0.1333
82600265|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.9385|TWO_SIDED|95.0|-0.17|0.16|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.16|-0.17|0.9385
82600266|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.0408|TWO_SIDED|95.0|0.0|0.14|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.14|0.00|0.0408
82600267|NCT03237065|164915247|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.2376|TWO_SIDED|95.0|-0.03|0.12|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.12|-0.03|0.2376
82600268|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.0882|TWO_SIDED|95.0|-0.67|0.05|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.05|-0.67|0.0882
82600269|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.0941|TWO_SIDED|95.0|-0.74|0.06|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.06|-0.74|0.0941
82600270|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|0.32||||0.0628|TWO_SIDED|95.0|-0.02|0.66|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.66|-0.02|0.0628
82655455|NCT01644500|165026660|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.14||||0.318|TWO_SIDED|95.0|-9.3|3.03|||ANCOVA|||Insulin-Based HOMA2%S||3.03|-9.30|0.318
82655456|NCT01644500|165026660|SUPERIORITY||Mean Difference (Net)|-1.39||||0.576|TWO_SIDED|95.0|-6.27|3.49|||ANCOVA|||C-Peptide-Based HOMA2-%S||3.49|-6.27|0.576
82655457|NCT01644500|165026660|SUPERIORITY||Mean Difference (Net)|-6.79||||0.007|TWO_SIDED|95.0|-11.68|-1.89|||ANCOVA|||C-Peptide-Based HOMA2-%S||-1.89|-11.68|0.007
82655458|NCT01644500|165026663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.18||||||Treatment comparison for SBP.|Mixed Models Analysis|||||||0.180
82655459|NCT01644500|165026663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.245||||||Treatment comparison for SBP.|Mixed Models Analysis|||||||0.245
82600271|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|0.46||||0.0056|TWO_SIDED|95.0|0.14|0.79|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.79|0.14|0.0056
82600272|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.0492|TWO_SIDED|95.0|0.0|0.55|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.55|0.00|0.0492
82600273|NCT03237065|164915249|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.0882|TWO_SIDED|95.0|-0.05|0.64|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||0.64|-0.05|0.0882
82600274|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-6.5||||0.6568|TWO_SIDED|95.0|-35.3|22.3|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||22.3|-35.3|0.6568
82600275|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-24.2||||0.4929|TWO_SIDED|95.0|-94.0|45.5|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||45.5|-94.0|0.4929
82600276|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-91.7||||0.0113|TWO_SIDED|95.0|-162.3|-21.1|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-21.1|-162.3|0.0113
82655460|NCT01644500|165026663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.717||||||Treatment comparison for DBP.|Mixed Models Analysis|||||||0.717
82655461|NCT01644500|165026663|SUPERIORITY_OR_OTHER_LEGACY|||||||0.619||||||Treatment comparison for DBP.|Mixed Models Analysis|||||||0.619
82655462|NCT01644500|165026664|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82655463|NCT01644500|165026664|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|||||||Mixed Models Analysis|||||||0.035
82655464|NCT01644500|165026667|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82600277|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-240.4|||<|0.0001|TWO_SIDED|95.0|-318.4|-162.3|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-162.3|-318.4|<0.0001
82655465|NCT01644500|165026667|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82655466|NCT01644500|165026668|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82655467|NCT01644500|165026668|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82655468|NCT01439165|165026687|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% Confidence Interval (CI) of the difference of seroprotection rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|0.0|||||TWO_SIDED|95.0|-0.4|1.2||||||Comparison of anti-tetanus seroprotection rate between the two groups||1.2|-0.4|
82655469|NCT01439165|165026687|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of seroprotection rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|0.42|||||TWO_SIDED|95.0|-0.3|2.1||||||Comparison of anti-diphtheria seroprotection rates between the two groups||2.1|-0.3|
82655470|NCT01439165|165026688|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|-7.12|||||TWO_SIDED|95.0|-12.0|-1.7||||||Comparison of the anti-tetanus booster response rates between the two groups||-1.7|-12.0|
82655471|NCT01439165|165026688|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) in Adacel-Td Adsorbed|-0.95|||||TWO_SIDED|95.0|-5.4|4.0||||||Comparison of the anti-diphteria booster response rates between the two groups||4.0|-5.4|
82655472|NCT01439165|165026689|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC ratio (Adacel/Historical Control)|1.04|||||TWO_SIDED|95.0|0.92|1.18||||||Comparison of anti-pertussis toxoid GMCs between Adacel and historical control groups||1.18|0.92|
82655473|NCT01439165|165026689|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|5.22|||||TWO_SIDED|95.0|4.51|6.05||||||Comparison of the anti-FHA GMCs between Adacel and historical Control groups||6.05|4.51|
82600278|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-135.1|||<|0.0001|TWO_SIDED|95.0|-196.1|-74.0|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-74.0|-196.1|<0.0001
82600279|NCT03237065|164915250|SUPERIORITY||Mean Difference (Final Values)|-67.7||||0.0039|TWO_SIDED|95.0|-113.2|-22.2|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-22.2|-113.2|0.0039
82600280|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|24.2||||0.0503|TWO_SIDED|95.0|0.0|48.5|||Mixed model for repeated measures|||"Day 1~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||48.5|-0.0|0.0503
82600281|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.5794|TWO_SIDED|95.0|-5.5|9.8|||Mixed model for repeated measures|||"Day 7~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||9.8|-5.5|0.5794
82600282|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|-62.2|||<|0.0001|TWO_SIDED|95.0|-70.1|-54.3|||Mixed model for repeated measures|||"Day 8~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-54.3|-70.1|<0.0001
82600283|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|-6.9||||0.0001|TWO_SIDED|95.0|-10.4|-3.5|||Mixed model for repeated measures|||"Day 14~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-3.5|-10.4|0.0001
82600284|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|-5.8||||0.0008|TWO_SIDED|95.0|-9.1|-2.4|||Mixed model for repeated measures|||"Day 21~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-2.4|-9.1|0.0008
82600285|NCT03237065|164915251|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.004|TWO_SIDED|95.0|-8.1|-1.6|||Mixed model for repeated measures|||"Day 35~Change from baseline was analysed using a Restricted Maximum Likelihood (REML)- based Mixed Model for Repeated Measures (MMRM) approach. All subjects with post baseline data were included with their observed data.~The model included the fixed, categorical effects of treatment, strata, day, treatment-by-day interaction, as well as the continuous, fixed covariates of the parameters baseline value, and baseline value-by-day interaction."||-1.6|-8.1|0.0040
82655474|NCT01439165|165026689|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|2.94|||||TWO_SIDED|95.0|2.46|3.51||||||Comparison of the anti-Pertactin GMCs between Adacel and historical Control groups||3.51|2.46|
82492118|NCT02319837|164677474|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.068|||<|0.0001|TWO_SIDED|95.0|0.033|0.141||Statistical significance can be declared if p-value \<0.02.|Log Rank|||||0.141|0.033|<0.0001
82600286|NCT03237065|164915252|SUPERIORITY||Risk Difference (RD)|-10.7||||0.009|TWO_SIDED|95.0|-18.8|-2.6|||Cochran-Mantel-Haenszel|||The rate difference with 95% Newcombe confidence interval, adjusted for stratum using the Cochran-Mantel-Haenszel method, could not be estimated due to lack of events. Thus, the unadjusted treatment difference is presented together with 95% Wald-based confidence interval. The p-value is based on the Cochran-Mantel-Haenszel statistics.||-2.6|-18.8|0.0090
82655475|NCT01439165|165026689|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the ratio of GMCs between groups is \> 0.66|GMC Ratio (Adacel/Historical Control)|2.18|||||TWO_SIDED|95.0|1.84|2.6||||||Comparison of the post-vaccination anti-Fimbriae (types 2 and 3) GMCs between Adacel and historical Control groups||2.60|1.84|
82655476|NCT01439165|165026690|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|16.12|||||TWO_SIDED|95.0|13.27|18.73||||||comparison of anti-pertussis toxoid booster response rates was performed between the Adacel and historical groups||18.73|13.27|
82492119|NCT02319837|164677474|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.331|||<|0.0001|TWO_SIDED|95.0|0.226|0.486||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.486|0.226|<0.0001
82600287|NCT04317274|164915290|OTHER||Slope|-0.19||||0.21|TWO_SIDED||||||Mixed Models Analysis|Note: original plan was to conduct ANOVAs, but failed tests of assumptions||We tested for interaction effect of order and video version within the high cholesterol group.||||0.21
82600288|NCT04317274|164915290|OTHER||Slope|-1.23|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Original plan was to conduct ANOVAs, but failed tests of assumptions||We tested for interaction effect of order and video version within the colorectal cancer group.||||<0.001
82600289|NCT04317274|164915291|OTHER||Slope|0.58|||<|0.001|TWO_SIDED||||||Pearson's correlation coefficient|||We examined the correlation between SDM Process and SDM-Q9 scores in the high cholesterol group.||||<.001
82600290|NCT04317274|164915291|OTHER||Slope|0.71|||<|0.001|TWO_SIDED||||||Pearson's correlation coefficient]|||We examined the correlation between SDM Process and SDM-Q9 scores in the colorectal cancer group.||||<.001
82600291|NCT01128829|164915329|SUPERIORITY_OR_OTHER|||||||0.025|||||||t-test, 2 sided|||Each subject served as their own control. We compared insulin concentrations when subjects consumed sucralose before a glucose load (experimental condition) with those on the day consumed water before a glucose load (control condition).||||0.025
82600292|NCT03434977|164915357|OTHER||Ratio|0.937|||||TWO_SIDED|90.0|0.89|0.986||||||The shown data were ratio of fed conditions divided by fasted conditions, taking anti-logs of the least square (LS) means difference (fed-fasted) or confidence interval (CI). The difference in LS means between treatment conditions (fed-fasted) and two-sided 90% CI were provided using a crossover analysis of variance (ANOVA) model. ANOVA model included log-transformed (natural log) PK parameters Cmax as dependent variable, and treatment condition, group, and period as independent variables.||0.986|0.890|
82600293|NCT03434977|164915358|OTHER||LS-Means Difference|0.9083|||||TWO_SIDED|90.0|0.1821|1.6345||||||The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (non-natural log) PK parameters tmax as dependent variable, and treatment condition, group, and period as independent variables.||1.6345|0.1821|
82600294|NCT03434977|164915359|OTHER||Ratio|0.998|||||TWO_SIDED|90.0|0.943|1.056||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters AUClast as dependent variable, and treatment condition, group, and period as independent variables.||1.056|0.943|
82600295|NCT03434977|164915360|OTHER||Ratio|0.997|||||TWO_SIDED|90.0|0.942|1.056||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters AUC∞ as dependent variable, and treatment condition, group, and period as independent variables.||1.056|0.942|
82600296|NCT03434977|164915361|OTHER||Ratio|0.985|||||TWO_SIDED|90.0|0.932|1.041||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters T1/2z as dependent variable, and treatment condition, group, and period as independent variables.||1.041|0.932|
82600297|NCT03434977|164915362|OTHER||Ratio|1.047|||||TWO_SIDED|90.0|1.006|1.091||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters MRTlast, ev as dependent variable, and treatment condition, group, and period as independent variables.||1.091|1.006|
82600298|NCT03434977|164915363|OTHER||Ratio|1.037|||||TWO_SIDED|90.0|0.996|1.081||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters MRT∞, ev as dependent variable, and treatment condition, group, and period as independent variables.||1.081|0.996|
82600299|NCT03434977|164915364|OTHER||Ratio|1.014|||||TWO_SIDED|90.0|0.959|1.071||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters λz as dependent variable, and treatment condition, group, and period as independent variables.||1.071|0.959|
82600300|NCT03434977|164915365|OTHER||Ratio|1.003|||||TWO_SIDED|90.0|0.947|1.062||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters CL/F as dependent variable, and treatment condition, group, and period as independent variables.||1.062|0.947|
82600301|NCT03434977|164915366|OTHER||Ratio|0.989|||||TWO_SIDED|90.0|0.916|1.068||||||The shown data were the ratio of the fed conditions divided by the fasted conditions, taking anti-logs of the LS means difference (fed-fasted) or CI. The difference in the LS means between treatment conditions (fed-fasted) and the two-sided 90% CI were provided using a crossover ANOVA model. The ANOVA model included log-transformed (natural log) PK parameters Vz/F as dependent variable, and treatment condition, group, and period as independent variables.||1.068|0.916|
82600302|NCT01724528|164915400|SUPERIORITY_OR_OTHER||Least squares means difference|-196.794|||<|0.0001|TWO_SIDED|95.0|-238.6|-154.988|||ANCOVA|||Treatment, TLS risk (intermediate/high) and sUA level at baseline (≤ 7.5 mg/dL and \> 7.5 mg/dL) were inserted in the ANCOVA model as covariates||-154.988|-238.600|<0.0001
82600303|NCT01724528|164915401|SUPERIORITY_OR_OTHER||Least squares means difference|4.097||||0.0903|TWO_SIDED|95.0|-0.6467|8.8406|||ANCOVA|||Treatment, TLS risk (intermediate/high) and sUA level at baseline (≤ 7.5 mg/dL and \> 7.5 mg/dL) were inserted in the ANCOVA model as covariates||8.8406|-0.6467|0.0903
82600304|NCT01724528|164915402|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0231||||0.1993|TWO_SIDED|95.0|-0.0153|0.0654|||Wilson's confidence interval|||||0.0654|-0.0153|0.1993
82600305|NCT01724528|164915403|SUPERIORITY_OR_OTHER||Relative risk|0.875||||0.8488|TWO_SIDED|95.0|0.4408|1.7369|||Chi-squared|||||1.7369|0.4408|0.8488
82600306|NCT01724528|164915404|SUPERIORITY_OR_OTHER||Relative risk|0.994||||1|TWO_SIDED|95.0|0.9691|1.0199|||Chi-squared|||||1.0199|0.9691|1.0000
82600307|NCT00466310|164915406|SUPERIORITY_OR_OTHER|||||||0.0149|TWO_SIDED|95.0||||Unadjusted p value is .0041|Wilcoxon (Mann-Whitney)|||A wilcoxon rank sum test was performed comparing baseline plasmalogen values, comparing schizophrenia subjects vs controls.P values from this analysis were adjusted for false discovery rates by the method of Storey and Tribshiani.||||0.0149
82600308|NCT05574062|164915407|NON_INFERIORITY|-7.5% non-inferiority margin|Mean Difference (Final Values)|9.88|||||TWO_SIDED|95.0|8.04|11.72|||Mixed Models Analysis||Mixed model adjusted for baseline (run-in) values|||11.72|8.04|
82600309|NCT05574062|164915408|NON_INFERIORITY|non-inferiority margin of 0.4% HbA1c|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.03|0.31|||Regression, Linear||Linear regression model adjusted for baseline (continuation phase period1) values|||0.31|-0.03|
82655477|NCT01439165|165026690|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10%|Difference (%) Adacel-Expected Booster|-4.21|||||TWO_SIDED|95.0|-7.23|-1.34||||||Comparison of the anti-FHA booster response rates between the Adacel and historical groups||-1.34|-7.23|
82655478|NCT01439165|165026690|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|-18.61|||||TWO_SIDED|95.0|-21.7|-15.6||||||Comparison of the anti-Pertactin booster response rates between Adacel and historical groups||-15.6|-21.7|
82655479|NCT01439165|165026690|NON_INFERIORITY|Non-inferiority concluded if the lower limit of the 2-sided 95% CI of the difference of booster response rates between groups is \> -10% .|Difference (%) Adacel-Expected Booster|-19.07|||||TWO_SIDED|95.0|-22.3|-16.0||||||Comparison of the anti-Fimbriae (types 2 and 3) booster response rates between Adacel and historical groups||-16.0|-22.3|
82600310|NCT05574062|164915409|NON_INFERIORITY|non- inferiority margin of 0.4%|Mean Difference (Final Values)|-0.61|||||TWO_SIDED|95.0|-0.76|-0.46|||Mixed Models Analysis||Mixed model adjusted for baseline (screening) values|||-0.46|-0.76|
82600311|NCT05574062|164915410|SUPERIORITY||Median Difference (Final Values)|9.88|||<|0.0001|TWO_SIDED|95.0|8.04|11.72|||Mixed Models Analysis||Mixed model adjusted for baseline (run-in) values|||11.72|8.04|<.0001
82655480|NCT00683020|165026713|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|0.9||0.03|TWO_SIDED|95.0|0.1|3.9|||Regression, Linear|Adjusted for baseline values.||||3.9|0.1|0.03
82655481|NCT00683020|165026714|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.4|STANDARD_ERROR_OF_MEAN|1.2||0.23|TWO_SIDED|95.0|-0.9|3.6|||Regression, Linear|Adjusted for baseline values.||||3.6|-0.9|0.23
82655482|NCT00683020|165026715|NON_INFERIORITY_OR_EQUIVALENCE|Days in comparison groups are not equal.|Rate Ratio|0.6||||0.25|TWO_SIDED|95.0|0.3|1.4|||Negative Binomial Models|Adjusted for baseline values.||||1.4|0.3|0.25
82655483|NCT00683020|165026716|NON_INFERIORITY_OR_EQUIVALENCE|Proportions in comparison groups are not equal.|Odds Ratio (OR)|0.5||||0.18|TWO_SIDED|95.0|0.2|1.4|||Regression, Logistic|Adjusted for baseline values.||||1.4|0.2|0.18
82655484|NCT00683020|165026717|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.1||0.008|TWO_SIDED|95.0|0.1|0.5|||Regression, Linear|Adjusted for baseline values.||||0.5|0.1|0.008
82655485|NCT00683020|165026718|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.87|TWO_SIDED|95.0|-0.2|0.2|||Regression, Linear|Adjusted for baseline values.||||0.2|-0.2|0.87
82600312|NCT05574062|164915411|SUPERIORITY||Mean Difference (Net)|-0.61|||<|0.0001|TWO_SIDED|95.0|-0.76|-0.46|||Mixed Models Analysis||Mixed model adjusted for baseline (screening) values|||-0.46|-0.76|<.0001
82600313|NCT05574062|164915412|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.1097|TWO_SIDED|95.0|-0.03|0.31|||Regression, Linear||Linear regression model adjusted for baseline (period1) values|||0.31|-0.03|0.1097
82600314|NCT05574062|164915413|NON_INFERIORITY|non inferiority margin of -7.5%|Mean Difference (Net)|1.17|||||TWO_SIDED|95.0|-0.04|2.38|||Regression, Linear||Linear regression adjusted for baseline (continuation phase period 1) values|||2.38|-0.04|
82600315|NCT05574062|164915414|SUPERIORITY||Mean Difference (Final Values)|1.17||||0.0581|TWO_SIDED|95.0|-0.04|2.38|||Regression, Linear||Linear regression adjusted for baseline (continuation phase period 1) values|||2.38|-0.04|0.0581
82600316|NCT06033079|164915420|SUPERIORITY||Odds Ratio (OR)|0.99|||||TWO_SIDED|95.0|0.32|2.95||||||||2.95|0.32|
82600317|NCT06033079|164915421|SUPERIORITY|||||||0.233|||||||Fisher Exact|||||||0.233
82600318|NCT06033079|164915422|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.3|2.37||||||||2.37|0.30|
82600319|NCT06033079|164915423|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.32|1.82||||||||1.82|0.32|
82600320|NCT06033079|164915424|SUPERIORITY||Odds Ratio (OR)|1.42|||||TWO_SIDED|95.0|0.34|7.51||||||||7.51|0.34|
82600321|NCT06033079|164915425|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.13|1.42||||||||1.42|0.13|
82600322|NCT06033079|164915426|SUPERIORITY||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|0.41|7.9||||||||7.90|0.41|
82600323|NCT02321436|164915431|OTHER|The treatment difference (Dysport® versus placebo) was tested using a non-parametric, two-sided, stratified log rank test.||||||0.0176||||||Significance level (α) = 5%|Log Rank|||||||0.0176
82600324|NCT02321436|164915431|OTHER|The treatment difference (Dysport® versus placebo) was tested using a non-parametric, two-sided, stratified Wilcoxon test.||||||0.048||||||Significance level (α) = 5%|Wilcoxon (Mann-Whitney)|||||||0.0480
82600325|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.0||||0.0005|TWO_SIDED|95.0|-1.54|-0.47||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 2 (Week 4).||-0.47|-1.54|0.0005
82600326|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.05||||0.0007|TWO_SIDED|95.0|-1.63|-0.47||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 3 (Week 6).||-0.47|-1.63|0.0007
82600327|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-1.05||||0.0006|TWO_SIDED|95.0|-1.62|-0.48||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 4 (Week 8).||-0.48|-1.62|0.0006
82600328|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.84||||0.0027|TWO_SIDED|95.0|-1.36|-0.31||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 5 (Week 10).||-0.31|-1.36|0.0027
82600329|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.83||||0.0052|TWO_SIDED|95.0|-1.39|-0.26||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 6 (Week 12).||-0.26|-1.39|0.0052
82600330|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.52||||0.2037|TWO_SIDED|95.0|-1.35|0.31||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 7 (Week 16).||0.31|-1.35|0.2037
82600331|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.15||||0.7656|TWO_SIDED|95.0|-1.25|0.94||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 8 (Week 20).||0.94|-1.25|0.7656
82600332|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.12||||0.8521|TWO_SIDED|95.0|-1.46|1.23||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 9 (Week 24).||1.23|-1.46|0.8521
82600333|NCT02321436|164915432|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.21||||0.6582|TWO_SIDED|95.0|-1.24|0.81||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 10 (Week 28).||0.81|-1.24|0.6582
82600334|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|0.8||||0.8754|TWO_SIDED|95.0|-9.5|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 2 (Week 4).||11.1|-9.5|0.8754
82600335|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.9||||0.8805|TWO_SIDED|95.0|-12.8|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 3 (Week 6).||11.1|-12.8|0.8805
82600336|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-2.2||||0.6992|TWO_SIDED|95.0|-14.0|9.6||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 4 (Week 8).||9.6|-14.0|0.6992
82600337|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-0.1||||0.9882|TWO_SIDED|95.0|-13.0|12.8||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 5 (Week 10).||12.8|-13.0|0.9882
82600338|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|4.6||||0.5646|TWO_SIDED|95.0|-11.9|21.2||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 6 (Week 12).||21.2|-11.9|0.5646
82600339|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-12.5||||0.2325|TWO_SIDED|95.0|-34.0|9.0||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 7 (Week 16).||9.0|-34.0|0.2325
82600340|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-14.1||||0.2441|TWO_SIDED|95.0|-39.4|11.1||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 8 (Week 20).||11.1|-39.4|0.2441
82600341|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-9.0||||0.4311|TWO_SIDED|95.0|-33.7|15.7||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 9 (Week 24).||15.7|-33.7|0.4311
82600342|NCT02321436|164915433|OTHER|Differences between treatment groups and p-values are based on an analysis of variance performed at each visit, taking into account treatment and spasticity status as fixed effects. Baseline value is value assessed at Visit 1.|Mean Difference (Final Values)|-4.5||||0.731|TWO_SIDED|95.0|-33.3|24.3||p value significance level = 5%|ANOVA|||Differences between treatment groups at Visit 10 (Week 28).||24.3|-33.3|0.7310
82600343|NCT02321436|164915434|OTHER|||||||0.6128||||||The Cochran-Mantel-Haenszel (CMH) p-value represents the strength of the association between treatment and global assessments of changes at the last visit, adjusted for symptomatic status at baseline.|Cochran-Mantel-Haenszel|p value significance level = 5%||||||0.6128
82655486|NCT00683020|165026719|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|1.6||0.49|TWO_SIDED|95.0|-2.1|4.2|||Regression, Linear|Adjusted for baseline values.||||4.2|-2.1|0.49
82600344|NCT00644787|164915438|NON_INFERIORITY_OR_EQUIVALENCE|Difference of 7.5 mm in VAS score was selected as the threshold value for clinical non-inferiority of Fentanyl 1-day transdermal patch to Fentanyl 3-day transdermal patch.|Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-3.5|6.23||||||||6.23|-3.50|
82600345|NCT01680900|164915452|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06||||0.05|TWO_SIDED|95.0|-2.6|-0.48|||Regression, Linear|||||-0.48|-2.60|0.05
82600346|NCT01680900|164915453|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82600347|NCT01680900|164915454|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|||<|0.05|TWO_SIDED|95.0|-0.75|-0.08|||Regression, Linear|||||-0.08|-0.75|<0.05
82600348|NCT01680900|164915458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.05|TWO_SIDED|95.0|-0.74|-0.21|||Regression, Linear|||||-0.21|-0.74|0.05
82600349|NCT01928381|164915459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.23||0.5695|TWO_SIDED|95.0|-0.34|0.61|||Mixed Models Analysis|||||0.61|-0.34|0.5695
82600350|NCT01928381|164915459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.23||0.8905|TWO_SIDED|95.0|-0.43|0.49|||Mixed Models Analysis|||||0.49|-0.43|0.8905
82600351|NCT01928381|164915459|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.23||0.4822|TWO_SIDED|95.0|-0.3|0.64|||Mixed Models Analysis|||||0.64|-0.30|0.4822
82600352|NCT01928381|164915460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.25||0.2237|TWO_SIDED|95.0|-0.2|0.82|||Mixed Models Analysis||In direction of Pregabalin|||0.82|-0.20|0.2237
82655487|NCT00683020|165026720|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.2||0.54|TWO_SIDED|95.0|-3.0|5.6|||Regression, Linear|Adjusted for baseline values.||||5.6|-3.0|0.54
82655488|NCT00683020|165026721|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.2||0.11|TWO_SIDED|95.0|-0.4|4.4|||Regression, Linear|Adjusted for baseline values.||||4.4|-0.4|0.11
82655489|NCT00683020|165026722|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.13|TWO_SIDED|95.0|-0.6|0.1|||Regression, Linear|Adjusted for baseline values.||||0.1|-0.6|0.13
82600353|NCT01928381|164915460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.25||0.0978|TWO_SIDED|95.0|-0.93|0.08|||Mixed Models Analysis||In direction of Pregabain, positive control|||0.08|-0.93|0.0978
82600354|NCT01928381|164915460|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.25||0.661|TWO_SIDED|95.0|-0.62|0.4|||Mixed Models Analysis|||||0.40|-0.62|0.6610
82600355|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|18.24|||<|0.001|TWO_SIDED|90.0|14.97|21.67||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||21.67|14.97|<.001
82600356|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|62.86|||<|0.001|TWO_SIDED|90.0|58.21|67.74||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||67.74|58.21|<.001
82600357|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|1.11||||0.128|TWO_SIDED|90.0|-0.1|2.33||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||2.33|-0.10|0.128
82600358|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|88.24|||<|0.001|TWO_SIDED|90.0|85.77|90.76||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||90.76|85.77|<.001
82600359|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|44.62|||<|0.001|TWO_SIDED|90.0|34.51|55.23||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||55.23|34.51|<.001
82600360|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|-17.13|||<|0.001|TWO_SIDED|90.0|-21.21|-13.25||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||-13.25|-21.21|<.001
82600361|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|70.0|||<|0.001|TWO_SIDED|90.0|58.46|82.2||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||82.20|58.46|<.001
82600362|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|-61.75|||<|0.001|TWO_SIDED|90.0|-68.76|-55.18||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||-55.18|-68.76|<.001
82600363|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|25.38|||<|0.001|TWO_SIDED|90.0|15.37|35.48||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||35.48|15.37|<.001
82600364|NCT01582308|164915465|SUPERIORITY_OR_OTHER||Least squares mean difference|87.13|||<|0.001|TWO_SIDED|90.0|80.06|94.61||P-value of between-treatment comparison of percent inhibition of DPP-4 activity.|Linear mixed effects model|||Analysis model included fixed effects terms for treatment and period.||94.61|80.06|<.001
82600365|NCT01641939|164915506|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.8589|TWO_SIDED|95.0|0.87|1.6||One sided p-value with correction for interim treatment selection due to adaptive seamless phase design.|Log Rank|Log-Rank test, inverse normal combination test.||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% Confidence Interval (CI) for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||1.60|0.87|0.8589
82600366|NCT01641939|164915507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.32|2.03||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||2.03|0.32|
82600367|NCT01641939|164915507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01|||||TWO_SIDED|95.0|0.82|4.92||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy.||4.92|0.82|
82600368|NCT01641939|164915507|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.23|0.96||||||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Trastuzumab Emtansine 3.6 mg||0.96|0.23|
82600369|NCT01641939|164915509|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.308|TWO_SIDED|95.0|0.89|1.43|||Log Rank|||The unstratified Cox proportional hazards model was used to estimate the hazard ratio. The 95% CI for median was computed using the method of Brookmeyer and Crowley. Reference group: Standard Taxane Therapy||1.43|0.89|0.308
82600370|NCT01815229|164915527|OTHER||||||<|0.05||||||P value applies to cell count at removal|t-test, 2 sided|||Tracheal lavages (TL) were done in intubated humans to obtain cell counts.||||<0.05
82600371|NCT01087541|164915554|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_DEVIATION|0.5|<|0.01||95.0|0.0|1.0|||t-test, 2 sided|||||1|0|<0.01
82600372|NCT01087541|164915556|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.0|STANDARD_DEVIATION|5.0|<|0.001|TWO_SIDED|95.0|2.0|15.0|||t-test, 2 sided|||||15|2|<0.001
82600373|NCT01970176|164915557|SUPERIORITY|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.8
82600374|NCT01970176|164915558|SUPERIORITY|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||||||0.25
82655490|NCT00683020|165026723|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|2.3||0.78|TWO_SIDED|95.0|-3.8|5.1|||Regression, Linear|Adjusted for baseline values.||||5.1|-3.8|0.78
82600375|NCT01970176|164915559|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82600376|NCT01394705|164915573|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||.65
82600377|NCT01394705|164915573|SUPERIORITY|||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.65
82655491|NCT00683020|165026724|NON_INFERIORITY_OR_EQUIVALENCE|Mean changes in comparison groups are not equal.|Mean Difference (Net)|2.1|STANDARD_ERROR_OF_MEAN|1.4||0.13|TWO_SIDED|95.0|-0.6|4.9|||Regression, Linear|Adjusted for baseline values.||||4.9|-0.6|0.13
82655492|NCT00048048|165026740|SUPERIORITY_OR_OTHER||Least square mean|0.979|STANDARD_ERROR_OF_MEAN|0.223|||TWO_SIDED|95.0|0.534|1.425|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X/ Week||1.425|0.534|
82600378|NCT01394705|164915574|SUPERIORITY|||||||0.76|||||||Wilcoxon (Mann-Whitney)|||||||0.76
82600379|NCT00353418|164915575|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.6119||95.0|0.68|1.93|||Cochran-Mantel-Haenszel|||"Sample sizes of 133 and 267 patients for RBV 800 mg daily and RBV 1000 or 1200 mg daily, respectively, provided the following probabilities of detecting the specified differences in SVR with a 0.05 level two-sided chi-square test of significance:~RBV 800 mg SVR - 0.30; RBV 1000 or 1200 mg SVR - 0.40; Probability - 0.49~RBV 800 mg SVR - 0.30; RBV 1000 or 1200 mg SVR - 0.45; Probability - 0.83"||1.93|0.68|0.6119
82600380|NCT03244033|164915651|SUPERIORITY||Odds Ratio (OR)|0.97||||0.91|TWO_SIDED|96.0|0.57|1.64|||Mixed Models Analysis|Adjusted for site (p\<.001) and for whether physician contextualized plan (AOR 2.14, p=.001), and random effects of physician and patient.||Logistic mixed effects regression modeling likelihood of red flag improved/resolved (vs. not) during outcome period with fixed effects of intervention, site, and whether contextual factor was incorporated into care plan, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||1.64|.57|.91
82600381|NCT03244033|164915652|SUPERIORITY||Odds Ratio (OR)|2.09||||0.02|TWO_SIDED|95.0|1.13|3.86|||Mixed Models Analysis|Adjusted for site, source of red flag, visible/concealed recorder, and random effects of physician and patient.|OR\>1 indicates greater likelihood in intervention group vs. control.|Logistic mixed effects regression modeling likelihood of provider probing red flag (vs. not) during visit with fixed effects of intervention, site, \\whether red flag was select on pre-visit questionnaire, and whether audiorecorder was visible to provider, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||3.86|1.13|0.02
82600382|NCT03244033|164915653|SUPERIORITY||Odds Ratio (OR)|2.67||||0.006|TWO_SIDED|95.0|1.32|5.41|||Mixed Models Analysis|Adjusted for site, source of factor, recorder visible/concealed, and random effects of physician and patient.|OR \> 1 indicates greater likelihood in intervention group vs. control.|Logistic mixed effects regression modeling likelihood of provider incorporating contextual factor into care plan (vs. not) at visit with fixed effects of intervention, site, whether red flag was select on pre-visit questionnaire, whether audiorecorder was visible to provider, whether factor was identified by provider probe, whether factor was revealed by patient, and random effects of patient and provider. Red flags may be clustered in patients; patients are clustered in providers.||5.41|1.32|.006
82600383|NCT04428411|164915654|OTHER|||||||0.35|||||||t-test, 2 sided|||||||0.35
82600384|NCT04428411|164915655|OTHER|||||||0.07|||||||t-test, 2 sided|||||||0.07
82600385|NCT04428411|164915656|OTHER|||||||0.41|||||||t-test, 2 sided|||||||0.41
82600386|NCT04428411|164915657|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82600387|NCT04428411|164915658|OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82600388|NCT04428411|164915659|OTHER|||||||0.09|||||||t-test, 2 sided|||||||0.09
82600389|NCT04428411|164915660|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
82600390|NCT04428411|164915661|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82600391|NCT04428411|164915662|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82600392|NCT04428411|164915663|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
82600393|NCT04428411|164915663|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
82600394|NCT04428411|164915664|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
82600395|NCT04428411|164915664|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
82600396|NCT04428411|164915665|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 4||||0.0001
82600397|NCT04428411|164915665|OTHER|||||||0.0001|||||||t-test, 2 sided|||Comparison between Baseline and Month 12||||0.0001
82600398|NCT02918019|164915676|OTHER||Rate Ratio|0.57||||0.0049|TWO_SIDED|95.0|0.39|0.84|||Poisson regression|||||0.84|0.39|0.0049
82600399|NCT02918019|164915676|OTHER||Rate Ratio|0.78||||0.1838|TWO_SIDED|95.0|0.54|1.12|||Poisson regression|||||1.12|0.54|0.1838
82600400|NCT02918019|164915676|OTHER||Rate Ratio|0.63||||0.0144|TWO_SIDED|95.0|0.44|0.91|||Poisson regression|||||0.91|0.44|0.0144
82600401|NCT00662792|164915677|SUPERIORITY||Difference of adjusted means|0.13|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.102|0.158|||ANOVA|Analysis of variance with terms for centre, patient with centre, treatment, and period.|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. salmeterol (Salm50DPI) for FEV1 AUC0-12||0.158|0.102|<0.0001
82600402|NCT00662792|164915677|SUPERIORITY||Difference of adjusted means|0.07|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.042|0.097|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs Tiotropium (Tio18GEL) for FEV1 AUC0- 12||0.097|0.042|<.0001
82600403|NCT00662792|164915677|OTHER||Difference of adjusted means|-0.024|STANDARD_ERROR_OF_MEAN|0.014||0.0914|TWO_SIDED|95.0|-0.052|0.004|||ANOVA|Analysis of variance with terms for centre, patient with centre, treatment, and period. α = 0.025 one-sided|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||0.004|-0.052|0.0914
82600404|NCT00662792|164915678|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Difference of adjusted means|0.064|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.036|0.093|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Non-Inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) for FEV1AUC12-24||0.093|0.036|<.0001
82655493|NCT00048048|165026740|SUPERIORITY_OR_OTHER||Least square mean|0.851|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.395|1.307|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X/ 2Week||1.307|0.395|
82600405|NCT00662792|164915678|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Difference of adjusted means|0.064|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.036|0.093|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of FEV1AUC12-24||0.093|0.036|<.0001
82600406|NCT00662792|164915678|OTHER||Difference of adjusted means|-0.057|STANDARD_ERROR_OF_MEAN|0.015||0.0001|TWO_SIDED|95.0|-0.086|-0.028|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||-0.028|-0.086|0.0001
82600407|NCT00662792|164915679|SUPERIORITY||Difference of adjusted means|0.134|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.102|0.166|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) of Peak FEV1||0.166|0.102|<.0001
82600408|NCT00662792|164915679|SUPERIORITY||Difference of adjusted means|0.066|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001|TWO_SIDED|95.0|0.034|0.098|||ANOVA|Analysis of with terms for centre, patient with centre, treatment, and period. α = 0.025 one-sided|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of PeakFEV1.||0.098|0.034|<.0001
82655494|NCT00048048|165026740|SUPERIORITY_OR_OTHER||Least square mean|0.932|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|95.0|0.488|1.377|||||To analyze the appropriateness of the chosen conversion factors, a second regression analysis was carried out. This regression was on the three conversion factor dose groups, using the regression slope estimates of Hb. This was not pre-specified.|All cohorts with dosing frequency 1X /3 Week||1.377|0.488|
82655495|NCT02194998|165026806|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort A's SVR12 rate \<= 70%.||||<0.01
82600409|NCT00662792|164915679|OTHER||Difference of adjusted means|-0.026|STANDARD_ERROR_OF_MEAN|0.016||0.1093|TWO_SIDED|95.0|-0.058|0.006|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S\_DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||0.006|-0.058|0.1093
82600410|NCT00662792|164915680|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as d=0.050 L.|Differences of adjusted means|0.058|STANDARD_ERROR_OF_MEAN|0.017||0.0008|TWO_SIDED|95.0|0.024|0.092|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Salm50DPI)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Salmeterol (Salm50DPI) of trough FEV1||0.092|0.024|0.0008
82600411|NCT00662792|164915680|NON_INFERIORITY|The non-inferiority margin for FEV1 endpoints was defined as a delta of 0.050 L.|Difference of adjusted means|0.029|STANDARD_ERROR_OF_MEAN|0.017||0.0857|TWO_SIDED|95.0|-0.004|0.063|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (Tio18GEL)|H1: Non-inferiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) of trough FEV1||0.063|-0.004|0.0857
82600412|NCT00662792|164915680|OTHER||Difference of adjusted means|-0.037|STANDARD_ERROR_OF_MEAN|0.017||0.0317|TWO_SIDED|95.0|-0.071|-0.003|||ANOVA|"Analysis of variance with terms for centre, patient with centre, treatment, and period.~α = 0.025 one-sided"|(T+S\_PE) - (T18GEL+S-DPI)|The Tiotropium free combination (T18GEL+S\_DPI) was included in order to characterise this treatment in comparison with the FDC Tiotropium/Salmeterol (T+S\_PE). No formal hypotheses were defined.||-0.003|-0.071|0.0317
82655496|NCT02194998|165026806|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.47||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort B's SVR12 rate \<= 70%.||||0.47
82600413|NCT00662792|164915681|SUPERIORITY||Difference of adjusted means|0.097|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.071|0.124|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Salm50DPI)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. salmeterol (Salm50DPI) for FEV1 AUC0-24||0.124|0.071|<.0001
82600414|NCT00662792|164915681|SUPERIORITY||Difference of adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.041|0.093|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Tio18GEL)|H1: Superiority of FDC Tiotropium/Salmeterol (T+S\_PE) vs. Tiotropium (TIO18GEL) for FEV1 AUC24||0.093|0.041|<.0001
82600415|NCT00662792|164915681|SUPERIORITY||Difference of adjusted means|-0.041|STANDARD_ERROR_OF_MEAN|0.014||0.0029|TWO_SIDED|95.0|-0.067|-0.014|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (T18GEL+S-DPI)|||-0.014|-0.067|0.0029
82600416|NCT00662792|164915682|SUPERIORITY||Difference of adjusted means|0.083|STANDARD_ERROR_OF_MEAN|0.025||0.001|TWO_SIDED|95.0|0.034|0.132|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided|(T+S\_PE) - (Tio18GEL)|||0.132|0.034|0.0010
82600417|NCT00662792|164915682|SUPERIORITY||Difference of adjusted means|0.176|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.127|0.226|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.226|0.127|<.0001
82600418|NCT00662792|164915682|SUPERIORITY||Difference of adjusted means|-0.045|STANDARD_ERROR_OF_MEAN|0.025||0.0757|TWO_SIDED|95.0|-0.095|0.005|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.005|-0.095|0.0757
82600419|NCT00662792|164915683|SUPERIORITY||Difference of adjusted means|0.085|STANDARD_ERROR_OF_MEAN|0.027||0.0015|TWO_SIDED|95.0|0.033|0.137|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.137|0.033|0.0015
82600420|NCT00662792|164915683|SUPERIORITY||Difference of adjusted means|0.118|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.066|0.171|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.171|0.066|<.0001
82600421|NCT00662792|164915683|SUPERIORITY||Difference of adjusted means|-0.085|STANDARD_ERROR_OF_MEAN|0.027||0.0017|TWO_SIDED|95.0|-0.138|-0.032|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.032|-0.138|0.0017
82600422|NCT00662792|164915684|SUPERIORITY||Difference of adjusted means|0.084|STANDARD_ERROR_OF_MEAN|0.024||0.0005|TWO_SIDED|95.0|0.037|0.131|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.131|0.037|0.0005
82600423|NCT00662792|164915684|SUPERIORITY||Difference of adjusted means|0.147|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.1|0.194|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.194|0.100|<.0001
82600424|NCT00662792|164915684|SUPERIORITY||Difference of adjusted means|-0.065|STANDARD_ERROR_OF_MEAN|0.024||0.0074|TWO_SIDED|95.0|-0.113|-0.018|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.018|-0.113|0.0074
82600425|NCT00662792|164915685|SUPERIORITY||Differences of adjusted means|0.051|STANDARD_ERROR_OF_MEAN|0.03||0.0898|TWO_SIDED|95.0|-0.008|0.109|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.109|-0.008|0.0898
82600426|NCT00662792|164915685|SUPERIORITY||Difference of adjusted means|0.142|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.083|0.201|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.201|0.083|<.0001
82600427|NCT00662792|164915685|SUPERIORITY||Difference of adjusted means|-0.057|STANDARD_ERROR_OF_MEAN|0.03||0.0601|TWO_SIDED|95.0|-0.116|0.002|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.002|-0.116|0.0601
82600428|NCT00662792|164915686|SUPERIORITY||Difference of adjusted means|-0.028|STANDARD_ERROR_OF_MEAN|0.031||0.3652|TWO_SIDED|95.0|-0.089|0.033|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.033|-0.089|0.3652
82600429|NCT00662792|164915686|SUPERIORITY||Difference of adjusted means|0.042|STANDARD_ERROR_OF_MEAN|0.031||0.1816|TWO_SIDED|95.0|-0.02|0.103|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.103|-0.020|0.1816
82600430|NCT00662792|164915686|SUPERIORITY||Difference of adjusted means|-0.095|STANDARD_ERROR_OF_MEAN|0.031||0.0026|TWO_SIDED|95.0|-0.157|-0.033|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-0.033|-0.157|0.0026
82600431|NCT00662792|164915687|SUPERIORITY||Difference of adjusted means|11.8|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|6.9|16.8|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||16.8|6.9|<.0001
82600432|NCT00662792|164915687|SUPERIORITY||Difference of adjusted means|24.2|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|19.2|29.2|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||29.2|19.2|<.0001
82600433|NCT00662792|164915687|SUPERIORITY||Difference of adjusted means|-3.4|STANDARD_ERROR_OF_MEAN|2.6||0.1804|TWO_SIDED|95.0|-8.5|1.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||1.6|-8.5|0.1804
82600434|NCT00662792|164915688|SUPERIORITY||Difference of adjusted means|8.5|STANDARD_ERROR_OF_MEAN|2.5||0.0008|TWO_SIDED|95.0|3.5|13.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||13.4|3.5|0.0008
82600435|NCT00662792|164915688|SUPERIORITY||Difference of adjusted means|10.6|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|5.6|15.5|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||15.5|5.6|<.0001
82600436|NCT00662792|164915688|SUPERIORITY||Difference of adjusted means|-12.9|STANDARD_ERROR_OF_MEAN|2.5|<|0.0001|TWO_SIDED|95.0|-17.9|-8.0|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S\_DPI)|||-8.0|-17.9|<.0001
82600437|NCT00662792|164915689|SUPERIORITY||Difference of adjusted means|10.1|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|5.7|14.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||14.6|5.7|<.0001
82600438|NCT00662792|164915689|SUPERIORITY||Difference of adjusted means|17.4|STANDARD_ERROR_OF_MEAN|2.3|<|0.0001|TWO_SIDED|95.0|12.9|21.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||21.9|12.9|<.0001
82600439|NCT00662792|164915689|SUPERIORITY||Difference of adjusted means|-8.2|STANDARD_ERROR_OF_MEAN|2.3||0.0004|TWO_SIDED|95.0|-12.7|-3.7|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S\_DPI)|||-3.7|-12.7|0.0004
82600440|NCT00662792|164915690|SUPERIORITY||Difference of adjusted means|13.1|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|7.2|18.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||18.9|7.2|<.0001
82600441|NCT00662792|164915690|SUPERIORITY||Difference of adjusted means|23.1|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|17.2|28.9|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||28.9|17.2|<.0001
82600442|NCT00662792|164915690|SUPERIORITY||Difference in adjusted means|-5.3|STANDARD_ERROR_OF_MEAN|3.0||0.0769|TWO_SIDED|95.0|-11.2|0.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.6|-11.2|0.0769
82600443|NCT00662792|164915691|SUPERIORITY||Difference of adjusted means|2.8|STANDARD_ERROR_OF_MEAN|3.2||0.3775|TWO_SIDED|95.0|-3.5|9.1|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||9.1|-3.5|0.3775
82600444|NCT00662792|164915691|SUPERIORITY||Difference of adjusted means|7.1|STANDARD_ERROR_OF_MEAN|3.2||0.0285|TWO_SIDED|95.0|0.7|13.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||13.4|0.7|0.0285
82600445|NCT00662792|164915691|SUPERIORITY||Difference of adjusted means|-8.9|STANDARD_ERROR_OF_MEAN|3.2||0.0065|TWO_SIDED|95.0|-15.2|-2.5|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||-2.5|-15.2|0.0065
82492120|NCT02319837|164677475|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.358|||<|0.0001|TWO_SIDED|95.0|0.263|0.488||Statistical significance can be declared if p-value \<0.02.|Log Rank|||||0.488|0.263|<0.0001
82492121|NCT02319837|164677475|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.411|0.709||Statistical significance can be declared if p-value \<0.03.|Log Rank|||||0.709|0.411|<0.0001
82600446|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|5.7|STANDARD_ERROR_OF_MEAN|2.4||0.0182|TWO_SIDED|95.0|1.0|10.4|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Morning PEF||10.4|1.0|0.0182
82600447|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|6.3|STANDARD_ERROR_OF_MEAN|2.4||0.0091|TWO_SIDED|95.0|1.6|11.1|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Morning PEF||11.1|1.6|0.0091
82600448|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|-8.0|STANDARD_ERROR_OF_MEAN|2.4||0.001|TWO_SIDED|95.0|-12.8|-3.3|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Morning PEF||-3.3|-12.8|0.0010
82600449|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|11.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.0001|TWO_SIDED|95.0|5.8|16.2|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Evening PEF||16.2|5.8|<.0001
82600450|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|23.3|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|18.1|28.6|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Evening PEF||28.6|18.1|<.0001
82600451|NCT00662792|164915695|SUPERIORITY||Difference of adjusted means|1.5|STANDARD_ERROR_OF_MEAN|2.7||0.5766|TWO_SIDED|95.0|-3.8|6.8|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Evening PEF||6.8|-3.8|0.5766
82600452|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|0.04|STANDARD_ERROR_OF_MEAN|0.016||0.0137|TWO_SIDED|95.0|0.008|0.071|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Morning FEV1||0.071|0.008|0.0137
82600453|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|0.027|STANDARD_ERROR_OF_MEAN|0.016||0.0981|TWO_SIDED|95.0|-0.005|0.059|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Morning FEV1||0.059|-0.005|0.0981
82600454|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|-0.022|STANDARD_ERROR_OF_MEAN|0.016||0.1827|TWO_SIDED|95.0|-0.054|0.01|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Morning FEV1||0.010|-0.054|0.1827
82600455|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|0.057|STANDARD_ERROR_OF_MEAN|0.018||0.0014|TWO_SIDED|95.0|0.022|0.092|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Evening FEV1||0.092|0.022|0.0014
82600456|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|0.105|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.07|0.14|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Evening FEV1||0.140|0.070|<.0001
82600457|NCT00662792|164915696|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.018||0.2584|TWO_SIDED|95.0|-0.015|0.056|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Evening FEV1||0.056|-0.015|0.2584
82600458|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0027|TWO_SIDED|95.0|-0.11|-0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Daytime||-0.02|-0.11|0.0027
82600459|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.4587|TWO_SIDED|95.0|-0.06|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Daytime||0.03|-0.06|0.4587
82600460|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|0.03|STANDARD_ERROR_OF_MEAN|0.02||0.1535|TWO_SIDED|95.0|-0.01|0.08|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Daytime||0.08|-0.01|0.1535
82600461|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.02||0.0002|TWO_SIDED|95.0|-0.14|-0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Night-time||-0.05|-0.14|0.0002
82600462|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.03||0.0006|TWO_SIDED|95.0|-0.14|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Night-time||-0.04|-0.14|0.0006
82600463|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.03||0.5784|TWO_SIDED|95.0|-0.06|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Night-time||0.04|-0.06|0.5784
82600464|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.02||0.0003|TWO_SIDED|95.0|-0.14|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|24 hours||-0.04|-0.14|0.0003
82655497|NCT02194998|165026806|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort C's SVR12 rate \<= 70%.||||<0.01
82655498|NCT02194998|165026806|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.24||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort D's SVR12 rate \<= 70%.||||0.24
82600465|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|-0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0042|TWO_SIDED|95.0|-0.12|-0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|24 hours||-0.02|-0.12|0.0042
82600466|NCT00662792|164915697|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.9978|TWO_SIDED|95.0|-0.05|0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|24 hours||0.05|-0.05|0.9978
82600467|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.33|STANDARD_ERROR_OF_MEAN|0.11||0.0029|TWO_SIDED|95.0|-0.55|-0.11|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Daytime||-0.11|-0.55|0.0029
82600468|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.36|STANDARD_ERROR_OF_MEAN|0.11||0.0012|TWO_SIDED|95.0|-0.58|-0.14|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Daytime||-0.14|-0.58|0.0012
82600469|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0829|TWO_SIDED|95.0|-0.02|0.25|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Daytime||0.25|-0.02|0.0829
82600470|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.0115|TWO_SIDED|95.0|-0.3|-0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Night-time||-0.04|-0.30|0.0115
82600471|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.1772|TWO_SIDED|95.0|-0.22|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Night-time||0.04|-0.22|0.1772
82600472|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|0.04|STANDARD_ERROR_OF_MEAN|0.11||0.6895|TWO_SIDED|95.0|-0.18|0.27|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Night-time||0.27|-0.18|0.6895
82600473|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0013|TWO_SIDED|95.0|-0.84|-0.21|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|Over 24 hours||-0.21|-0.84|0.0013
82600474|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|-0.47|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.78|-0.15|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|Over 24 hours||-0.15|-0.78|0.0040
82600475|NCT00662792|164915698|SUPERIORITY||Difference of adjusted means|0.16|STANDARD_ERROR_OF_MEAN|0.16||0.3287|TWO_SIDED|95.0|-0.16|0.48|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|Over 24 hours||0.48|-0.16|0.3287
82655499|NCT02194998|165026819|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort A's SVR24 rate \<= 70%.||||<0.01
82655500|NCT02194998|165026819|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.47||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort B's SVR24 rate \<= 70%.||||0.47
82600476|NCT00662792|164915699|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.9956|TWO_SIDED|95.0|-0.03|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.03|-0.03|0.9956
82492122|NCT02319837|164677477|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.443||||0.0002|TWO_SIDED|95.0|0.284|0.69|||Log Rank|||||0.690|0.284|0.0002
82600477|NCT00662792|164915699|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.71|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.02|-0.03|0.7100
82600478|NCT00662792|164915699|SUPERIORITY||Difference of adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.01||0.3659|TWO_SIDED|95.0|-0.02|0.04|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.04|-0.02|0.3659
82492123|NCT02319837|164677477|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.614||||0.0171|TWO_SIDED|95.0|0.409|0.92|||Log Rank|||||0.920|0.409|0.0171
82492124|NCT02319837|164677478|OTHER||difference of percentage of participants|25.9|||<|0.0001|TWO_SIDED|95.0|20.7|31.0||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||31.0|20.7|<0.0001
82492125|NCT02319837|164677478|OTHER||difference of percentage of participants|18.8|||<|0.0001|TWO_SIDED|95.0|13.0|24.6||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||24.6|13.0|<0.0001
82492126|NCT02319837|164677479|OTHER||difference of percentage of participants|7.5||||0.0439|TWO_SIDED|95.0|-0.2|15.2||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||15.2|-0.2|0.0439
82492127|NCT02319837|164677479|OTHER||difference of percentage of participants|-12.9||||0.0004|TWO_SIDED|95.0|-19.8|-6.1||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||-6.1|-19.8|0.0004
82492128|NCT02319837|164677480|OTHER||difference of percentage of participants|7.2||||0.0089|TWO_SIDED|95.0|1.7|12.8||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||12.8|1.7|0.0089
82492129|NCT02319837|164677480|OTHER||difference of percentage of participants|-5.0||||0.0326|TWO_SIDED|95.0|-9.4|-0.6||P-value was based on a Cochran-Mantel-Haenszel test stratified by screening PSA, PSA doubling time, and prior hormonal therapy.|Cochran-Mantel-Haenszel|||||-0.6|-9.4|0.0326
82492130|NCT02319837|164677481|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.693|||<|0.0001|TWO_SIDED|95.0|0.577|0.834|||Log Rank|||||0.834|0.577|<0.0001
82600479|NCT00662792|164915700|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.4416|TWO_SIDED|95.0|-0.04|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.02|-0.04|0.4416
82600480|NCT00662792|164915700|SUPERIORITY||Difference of adjusted means|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.7058|TWO_SIDED|95.0|-0.03|0.02|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.02|-0.03|0.7058
82600481|NCT00662792|164915700|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.1494|TWO_SIDED|95.0|-0.01|0.05|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.05|-0.01|0.1494
82492131|NCT02319837|164677481|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.655|||<|0.0001|TWO_SIDED|95.0|1.381|1.984|||Log Rank|||||1.984|1.381|<0.0001
82492132|NCT02319837|164677482|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.09|||<|0.0001|TWO_SIDED|95.0|0.051|0.157|||Log Rank|||||0.157|0.051|<0.0001
82492133|NCT02319837|164677483|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.546|||<|0.0001|TWO_SIDED|95.0|0.427|0.699|||Log Rank|||||0.699|0.427|<0.0001
82492134|NCT02319837|164677483|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.619|||<|0.0001|TWO_SIDED|95.0|0.488|0.785|||Log Rank|||||0.785|0.488|<0.0001
82492135|NCT02319837|164677484|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|0.261||||0.0001|TWO_SIDED|95.0|0.125|0.548|||Log Rank|||||0.548|0.125|0.0001
82499403|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.316|STANDARD_ERROR_OF_MEAN|0.077||||90.0|0.19|0.443|||ANCOVA|||Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.443|0.190|
82600482|NCT00662792|164915701|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.998|TWO_SIDED|95.0|-0.06|0.06|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.06|-0.06|0.9980
82600483|NCT00662792|164915701|SUPERIORITY||Difference of adjusted means|0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4618|TWO_SIDED|95.0|-0.04|0.08|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.08|-0.04|0.4618
82600484|NCT00662792|164915701|SUPERIORITY||Difference of adjusted means|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.0418|TWO_SIDED|95.0|0.0|0.12|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.12|0.00|0.0418
82600485|NCT00662792|164915702|SUPERIORITY||Difference of adjusted means|-0.02|STANDARD_ERROR_OF_MEAN|0.03||0.4206|TWO_SIDED|95.0|-0.08|0.03|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Tio18GEL)|||0.03|-0.08|0.4206
82600486|NCT00662792|164915702|SUPERIORITY||Difference of adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.03||0.8723|TWO_SIDED|95.0|-0.05|0.06|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (Salm50DPI)|||0.06|-0.05|0.8723
82600487|NCT00662792|164915702|SUPERIORITY||Difference of adjusted means|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.1005|TWO_SIDED|95.0|-0.01|0.11|||ANOVA|Analysis of variance with terms for centre, patient within centre, treatment, and period. α = 0.05 two-sided.|(T+S\_PE) - (T18GEL+S-DPI)|||0.11|-0.01|0.1005
82600488|NCT02474082|164915711|SUPERIORITY||Odds Ratio (OR)|16.61|||<|0.0001|TWO_SIDED|95.0|7.79|35.4|||Regression, Logistic|||||35.40|7.79|<.0001
82600489|NCT03285243|164915737|OTHER|||||||0.001||||||A priori, All p-values \< 0.05 were considered statistically significant.|Chi-squared|||||||0.001
82600490|NCT03285243|164915738|OTHER|||||||0.002||||||a priori, all p-values \< 0.05 were considered statistically significant.|Regression, Logistic|||||||0.002
82600491|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-79.456|STANDARD_ERROR_OF_MEAN|0.0819|<|0.0001|TWO_SIDED|80.0|-81.56|-77.11|||Mixed Models Analysis|||ABeta 1-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-77.11|-81.56|<0.0001
82600492|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-87.403|STANDARD_ERROR_OF_MEAN|0.0887|<|0.0001|TWO_SIDED|80.0|-88.8|-85.84|||Mixed Models Analysis|||ABeta 1-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-85.84|-88.80|<0.0001
82600493|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-83.83|STANDARD_ERROR_OF_MEAN|0.0905|<|0.0001|TWO_SIDED|80.0|-85.65|-81.78|||Mixed Models Analysis|||ABeta 1-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-81.78|-85.65|<0.0001
82600494|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-92.138|STANDARD_ERROR_OF_MEAN|0.1041|<|0.0001|TWO_SIDED|80.0|-93.15|-90.98|||Mixed Models Analysis|||ABeta 1-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-90.98|-93.15|<0.0001
82600495|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-84.814|STANDARD_ERROR_OF_MEAN|0.0971|<|0.0001|TWO_SIDED|80.0|-86.64|-82.74|||Mixed Models Analysis|||ABeta 1-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-82.74|-86.64|<0.0001
82600496|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-92.87|STANDARD_ERROR_OF_MEAN|0.1114|<|0.0001|TWO_SIDED|80.0|-93.85|-91.74|||Mixed Models Analysis|||ABeta 1-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-91.74|-93.85|<0.0001
82600497|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-79.465|STANDARD_ERROR_OF_MEAN|0.087|<|0.0001|TWO_SIDED|80.0|-81.69|-76.96|||Mixed Models Analysis|||ABeta x-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-76.96|-81.69|<0.0001
82600498|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-88.711|STANDARD_ERROR_OF_MEAN|0.0963|<|0.0001|TWO_SIDED|80.0|-90.06|-87.18|||Mixed Models Analysis|||ABeta x-38: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-87.18|-90.06|<0.0001
82600499|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-78.936|STANDARD_ERROR_OF_MEAN|0.0824|<|0.0001|TWO_SIDED|80.0|-81.11|-76.52|||Mixed Models Analysis|||ABeta x-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-76.52|-81.11|<0.0001
82600500|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-86.28|STANDARD_ERROR_OF_MEAN|0.0899|<|0.0001|TWO_SIDED|80.0|-87.82|-84.55|||Mixed Models Analysis|||ABeta x-40: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-84.55|-87.82|<0.0001
82600501|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-79.648|STANDARD_ERROR_OF_MEAN|0.0664|<|0.0001|TWO_SIDED|80.0|-81.36|-77.78|||Mixed Models Analysis|||ABeta x-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-77.78|-81.36|<0.0001
82600502|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-84.985|STANDARD_ERROR_OF_MEAN|0.0715|<|0.0001|TWO_SIDED|80.0|-86.34|-83.5|||Mixed Models Analysis|||ABeta x-42: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-83.50|-86.34|<0.0001
82600503|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|72.893|STANDARD_ERROR_OF_MEAN|0.0809|<|0.0001|TWO_SIDED|80.0|55.37|92.4|||Mixed Models Analysis|||sAPP-alpha: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||92.40|55.37|<0.0001
82600504|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|98.049|STANDARD_ERROR_OF_MEAN|0.0897|<|0.0001|TWO_SIDED|80.0|75.92|122.96|||Mixed Models Analysis|||sAPP-alpha: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||122.96|75.92|<0.0001
82600505|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-80.164|STANDARD_ERROR_OF_MEAN|0.0668|<|0.0001|TWO_SIDED|80.0|-81.84|-78.33|||Mixed Models Analysis|||sAPP-beta: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-78.33|-81.84|<0.0001
82600506|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-83.381|STANDARD_ERROR_OF_MEAN|0.0733|<|0.0001|TWO_SIDED|80.0|-84.92|-81.69|||Mixed Models Analysis|||sAPP-beta: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-81.69|-84.92|<0.0001
82600507|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-78.408|STANDARD_ERROR_OF_MEAN|0.0602|<|0.0001|TWO_SIDED|80.0|-80.06|-76.62|||Mixed Models Analysis|||Abeta total: General linear model with treatment, as the fixed effect and loge(baseline) as covariate||-76.62|-80.06|<0.0001
82600508|NCT02793232|164915791|SUPERIORITY||Percent change from baseline|-85.365|STANDARD_ERROR_OF_MEAN|0.0653|<|0.0001|TWO_SIDED|80.0|-86.57|-84.05|||Mixed Models Analysis|||Abeta total: General linear model with treatment, as the fixed effect and loge(baseline) as covariate.||-84.05|-86.57|<0.0001
82600509|NCT04849780|164915792|NON_INFERIORITY|It was calculated that 80 participants randomized in a 1:1 fashion between the two arms would have at least 80% power to detect a 5 points difference in mean change from baseline overall comfort. Sample size was determined using a 2-sided Satterthwaite t-test assuming unequal variances with an alpha level of 5%. A non-inferiority margin of -5 points was used.|Population Mean Difference|29.279|||||TWO_SIDED|95.0|24.602|33.732|||Bootstrapping methods||Population Mean difference was calculated as Arm 1 minus Arm 2|||33.732|24.602|
82600510|NCT04849780|164915793|NON_INFERIORITY|Sample size was determined based on the primary hypothesis only. A non-inferiority margin of 3 points was used.|LS Mean|-10.7|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-12.7|-8.6|||Heterogeneous Mixed model analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Arm 1 minus Arm 2 (subjects' own contact lens)|||-8.6|-12.7|
82600511|NCT04849780|164915794|NON_INFERIORITY|Sample size was determined based on the primary hypothesis only. A non-inferiority margin of -5 points was used.|LS Mean|25.9|STANDARD_ERROR_OF_MEAN|3.3|||TWO_SIDED|95.0|19.0|32.9|||Heterogeneous Mixed model analysis|The Kenward and Roger method was used for the denominator degrees of freedom.|Mean difference was calculated as Arm 2 (senofilcon A), minus Arm 2 (subjects' own contact lens)|||32.9|19.0|
82600512|NCT04849780|164915795|NON_INFERIORITY|A non-inferiority margin of 3 points was used.|LS Mean|-8.5|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-10.1|-7.0|||Heterogeneous mixed model analysis||Mean difference was calculated as Arm 2 (senofilcon A) minus Arm 2 (subjects' own contact lens)|||-7.0|-10.1|
82600513|NCT02979431|164915802|SUPERIORITY||||||<|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||<0.001
82600514|NCT02979431|164915802|SUPERIORITY||||||=|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||=0.001
82655501|NCT02194998|165026819|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.|||||<|0.01||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort C's SVR24 rate \<= 70%.||||<0.01
82655502|NCT02194998|165026819|SUPERIORITY|A one-sided exact binomial test was used against a null rate of 70% at a significance level of 5%.||||||0.24||||||No adjustments for multiple comparisons.|One-Sided Exact Binomial Test|||Null Hypothesis: Cohort D's SVR24 rate \<= 70%.||||0.24
82655503|NCT01458405|165026821|SUPERIORITY|||||||0.6453||||||Repeated measures multivariable linear regression with Baseline as a covariate and unstructured covariance.|Regression, Linear|||||||0.6453
82600515|NCT02979431|164915802|SUPERIORITY||||||<|0.001|||||||Log Rank|||The primary endpoint was analysed using log-rank test to compare time-to-BQL between each of the ALX-0171 treatment groups and the combined placebo group. The tests were performed in a sequential way to preserve the family-wise error rate at 0.05.||||<0.001
82600516|NCT02979431|164915803|SUPERIORITY||Mean Difference (Net)|-0.6452|STANDARD_ERROR_OF_MEAN|0.5843|=|0.271|TWO_SIDED||||||Mixed Models Analysis|||A comparison for change from Baseline in GSS to Day 2, 5 hours post-dose was performed using a contrast analysis on a longitudinal mixed model with random factor subject and fixed effects baseline value, treatment group and timepoint, including the treatment-by-timepoint interaction term. All data up to + including Day 3 were used in the longitudinal mixed model. The Kenward-Roger approximation of degrees of freedom was used.The model was fitted using an unstructured variance-covariance matrix.||||=0.271
82600517|NCT02979431|164915803|SUPERIORITY||Difference in LS means|-0.4904|STANDARD_ERROR_OF_MEAN|0.5862|=|0.404|TWO_SIDED||||||Mixed Models Analysis|||||||=0.404
82600518|NCT02979431|164915803|SUPERIORITY||Difference in LS means|-0.2156|STANDARD_ERROR_OF_MEAN|0.5842|=|0.713|TWO_SIDED||||||Mixed Models Analysis|||||||=0.713
82600519|NCT01405053|164915815|SUPERIORITY||LS Mean difference|2.601|STANDARD_ERROR_OF_MEAN|6.558||0.6928|TWO_SIDED|95.0|-10.5|15.7|||ANCOVA|||The primary statistical model for comparing the 2 treatment groups was an analysis of covariance (ANCOVA) mixed model for repeated measures with baseline score, age, and sex as covariates, and treatment, week, and treatment by week interaction as factors.||15.7|-10.5|0.6928
82600520|NCT03979274|164915854|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|98.53|||||TWO_SIDED|90.0|94.55|102.68||||||||102.68|94.55|
82600521|NCT03979274|164915855|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|97.59|||||TWO_SIDED|90.0|91.34|104.26||||||||104.26|91.34|
82600522|NCT03979274|164915858|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|99.73|||||TWO_SIDED|90.0|98.45|101.03||||||||101.03|98.45|
82600523|NCT03979274|164915859|EQUIVALENCE|Bio-equivalence Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%.|Geometric mean ratio|99.26|||||TWO_SIDED|90.0|97.7|100.85||||||||100.85|97.70|
82655504|NCT01345019|165026905|NON_INFERIORITY|A two-stage approach was used for the non-inferiority test. First, the fixed margin approach was used to ensure denosumab has an effect greater than placebo (ie, the non-inferiority margin M1, ie, the lower bound of the two-sided 95% confidence interval 1.28, is ruled out). Next, a synthesis method was used for the non-inferiority test of the hypothesis that denosumab preserved at least 50% of the effect of zoledronic acid (HR \[95% CI\] of 1.48 \[1.28, 1.71\] for placebo vs zoledronic acid.|Hazard Ratio (HR)|0.98||||0.01|TWO_SIDED|95.0|0.85|1.14|||Cox proportional hazards model|Based on a Cox proportional hazards model stratified by the randomization stratification factors.|A hazard ratio (denosumab:zoledronic acid) \< 1 favors denosumab|||1.14|0.85|0.010
82492136|NCT02319837|164677484|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|0.423||||0.0057|TWO_SIDED|95.0|0.226|0.794|||Log Rank|||||0.794|0.226|0.0057
82655505|NCT01345019|165026908|SUPERIORITY|The statistical inferences of the treatment effect on secondary efficacy endpoints (time to the first on study SRE \[superiority\] and time to first and subsequent on study SRE \[superiority, multiple event analysis\]) were to be conducted if denosumab was determined to be non-inferior to zoledronic acid. To control the overall type I error for multiple comparisons at a significant level of 0.05, these secondary efficacy endpoints were tested simultaneously using the Hochberg procedure.||||||0.82|||||||Log Rank|Based on a log rank test stratified by randomization stratification factors.||||||0.82
82600524|NCT02301403|164915865|SUPERIORITY||Odds Ratio (OR)|2.95|||<|0.001|TWO_SIDED|95.0|1.69|5.14|||Regression, Logistic|||||5.14|1.69|<.001
82600525|NCT01920711|164915870|SUPERIORITY||Rate Ratio|0.8698||||0.0587|TWO_SIDED|95.0|0.7526|1.0052||1-sided p-value 0.0294|Proportional Rates Model (LWYY)|Treatment as fixed-effect factor and stratified by region and with robust variance estimate.||Primary Composite Events||1.0052|0.7526|0.0587
82600526|NCT01920711|164915870|SUPERIORITY||Rate Ratio|0.8511||||0.0556|TWO_SIDED|95.0|0.7216|1.0039||1-sided p-value 0.0278|Joint Frality Model|Treatment and region as fixed-effect factors||Total Hospitalizations for heart failure||1.0039|0.7216|0.0556
82600527|NCT01920711|164915870|SUPERIORITY||Hazard Ratio (HR)|0.9531||||0.6241|TWO_SIDED|95.0|0.7863|1.1551||1-sided p-value 0.3120|Cox's proportional hazard model|||Cardiovascular Death||1.1551|0.7863|0.6241
82600528|NCT01920711|164915871|SUPERIORITY||Least Squares Mean of Difference|1.0264||||0.051|TWO_SIDED|95.0|-0.0047|2.0576|||Mixed Models Analysis|||Clinical Summary Score||2.0576|-0.0047|0.0510
82600529|NCT01920711|164915872|SUPERIORITY||Odds Ratio (OR)|1.4475||||0.0035|TWO_SIDED|95.0|1.1294|1.8552|||Repeated measures cumulative odds model|The response variable is the change from baseline to any scheduled time points up to Month 8.||NYHA Class Change||1.8552|1.1294|0.0035
82600530|NCT01920711|164915873|SUPERIORITY||Hazard Ratio (HR)|0.5041||||0.0014|TWO_SIDED|95.0|0.3312|0.7673|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Composite renal endpoint||0.7673|0.3312|0.0014
82600531|NCT01920711|164915873|SUPERIORITY||Hazard Ratio (HR)|0.9295||||0.9588|TWO_SIDED|95.0|0.0581|14.861|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Renal Death||14.861|0.0581|0.9588
82655506|NCT01345019|165026909|SUPERIORITY|The statistical inferences of the treatment effect on secondary efficacy endpoints (time to the first on study SRE \[superiority\] and time to first and subsequent on study SRE \[superiority, multiple event analysis\]) were to be conducted if denosumab was determined to be non-inferior to zoledronic acid. To control the overall type I error for multiple comparisons at a significant level of 0.05, these secondary efficacy endpoints were tested simultaneously using the Hochberg procedure.|Rate ratio|1.01||||0.84|TWO_SIDED|95.0|0.89|1.15|||Andersen-Gill model|Based on an Andersen-Gill model stratified by the randomization stratification factors.|A rate ratio (denosumab:zoledronic acid) \< 1 favors denosumab.|||1.15|0.89|0.84
82492137|NCT02319837|164677485|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|1.078||||0.4321|TWO_SIDED|95.0|0.894|1.301|||Log Rank|||||1.301|0.894|0.4321
82600532|NCT01920711|164915873|SUPERIORITY||Hazard Ratio (HR)|0.5774||||0.2484|TWO_SIDED|95.0|0.2272|1.4672|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||Reaching ESRD||1.4672|0.2272|0.2484
82600533|NCT01920711|164915873|SUPERIORITY||Hazard Ratio (HR)|0.4407||||0.0004|TWO_SIDED|95.0|0.2798|0.6942|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||\>=50% decline in eGFR from baseline||0.6942|0.2798|0.0004
82600534|NCT01920711|164915874|SUPERIORITY||Hazard Ratio (HR)|0.9696||||0.6846|TWO_SIDED|95.0|0.8352|1.1255|||Cox's proportional hazards model|Treatment as fixed factor and stratified by region.||All-cause mortality||1.1255|0.8352|0.6846
82600535|NCT03551743|164915938|SUPERIORITY||Least Squares Means (Difference)|-65.02||||0.0344|TWO_SIDED||||||ANCOVA|||||||0.0344
82600536|NCT03551743|164915938|SUPERIORITY||Least Squares Means (Difference)|-92.38||||0.0014|TWO_SIDED||||||ANCOVA|||||||0.0014
82600537|NCT03551743|164915938|SUPERIORITY||Least Squares Means (Difference)|-46.26||||0.0002|TWO_SIDED||||||ANCOVA|||||||0.0002
82600538|NCT03551743|164915939|SUPERIORITY||Least Squares Means (Difference)|88722.37||||0.0032|TWO_SIDED||||||ANCOVA|||||||0.0032
82600539|NCT03551743|164915939|SUPERIORITY||Least Squares Means (Difference)|151500.3||||0.0003|TWO_SIDED||||||ANCOVA|||||||0.0003
82600540|NCT03551743|164915939|SUPERIORITY||Least Squares Means (Difference)|198560.4||||0.0004|TWO_SIDED||||||ANCOVA|||||||0.0004
82600541|NCT03551743|164915940|SUPERIORITY||Least Squares Means (Difference)|-76.05||||0.1874|TWO_SIDED||||||ANCOVA|||||||0.1874
82600542|NCT03551743|164915940|SUPERIORITY||Least Squares Means (Difference)|-27.98||||0.386|TWO_SIDED||||||ANCOVA|||||||0.386
82600543|NCT03551743|164915940|SUPERIORITY||Least Squares Means (Difference)|-49.99|||<|0.0001|TWO_SIDED||||||ANCOVA|||||||<0.0001
82600544|NCT03550066|164915950|NON_INFERIORITY|The non-inferiority limit, d, is selected as the largest difference that is clinically acceptable. Here the non-inferiority limit is d=.6 (a medium to large effect size).||||||0.18||||||Threshold for statistical significance: \<.05|t-test, 2 sided|||||||0.18
82600545|NCT02105415|164915953|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.385|TWO_SIDED|95.0|-6.9|2.7|||ANCOVA|||5 minutes||2.7|-6.9|0.385
82600546|NCT02105415|164915953|SUPERIORITY||Mean Difference (Final Values)|-4.0||||0.241|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|||10 minutes||2.8|-10.8|0.241
82600547|NCT02105415|164915953|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.802|TWO_SIDED|95.0|-7.2|5.6|||ANCOVA|||15 minutes||5.6|-7.2|0.802
82492138|NCT02319837|164677485|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.09||||0.3702|TWO_SIDED|95.0|0.904|1.314|||Log Rank|||||1.314|0.904|0.3702
82600548|NCT02105415|164915954|SUPERIORITY|||||||0.605|||||||ANCOVA|||||||0.605
82600549|NCT02105415|164915955|SUPERIORITY|||||||0.212|||||||ANCOVA|||Pre-treatment||||0.212
82600550|NCT02105415|164915955|SUPERIORITY|||||||0.308|||||||ANCOVA|||New-onset pressors (within 3 minutes)||||0.308
82600551|NCT02105415|164915955|SUPERIORITY|||||||0.691|||||||ANCOVA|||Delayed-onset pressors (within 24 hrs)||||0.691
82600552|NCT02105415|164915957|SUPERIORITY|||||||0.911|||||||ANCOVA|||||||0.911
82492139|NCT02319837|164677486|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide + leuprolide.|Hazard Ratio (HR)|1.138||||0.1567|TWO_SIDED|95.0|0.954|1.357|||Log Rank|||||1.357|0.954|0.1567
82600553|NCT02105415|164915958|SUPERIORITY|||||||0.069|||||||ANCOVA|||Red blood cell||||0.069
82600554|NCT02105415|164915958|SUPERIORITY|||||||0.046|||||||ANCOVA|||Non-red blood cell||||0.046
82600555|NCT02105415|164915958|SUPERIORITY|||||||0.502|||||||ANCOVA|||Colloid||||0.502
82600556|NCT02105415|164915959|SUPERIORITY|||||||0.994|||||||ANCOVA|||||||0.994
82600557|NCT02105415|164915960|SUPERIORITY|||||||0.233|||||||ANCOVA|||||||0.233
82600558|NCT01844986|164916034|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.41||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.41|0.23|<0.0001
82600559|NCT01844986|164916034|SUPERIORITY||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.23|0.97||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \< 1 favours olaparib|||0.97|0.23|
82600560|NCT01844986|164916035|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.8903|TWO_SIDED|95.0|0.6|1.53||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||1.53|0.60|0.8903
82600561|NCT01844986|164916035|SUPERIORITY||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.29|2.28||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \< 1 favours olaparib|||2.28|0.29|
82600562|NCT01844986|164916036|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.23|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.23|<0.0001
82600563|NCT01844986|164916036|SUPERIORITY||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.23|0.99||Not applicable due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||0.99|0.23|
82600564|NCT01844986|164916037|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0002|TWO_SIDED|95.0|0.35|0.72||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.72|0.35|0.0002
82600565|NCT01844986|164916037|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.23|1.35||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.35|0.23|
82600566|NCT01844986|164916038|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.001|TWO_SIDED|95.0|-4.779|-1.216|||Mixed Models Analysis|Fixed effects for treatment, visit and baseline TOI with the treatment by visit and baseline TOI by visit interaction. Random patient effect.||||-1.216|-4.779|0.0010
82600567|NCT01844986|164916039|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
82600568|NCT01844986|164916039|SUPERIORITY||Hazard Ratio (HR)|0.58|||||TWO_SIDED|95.0|0.29|1.23||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.23|0.29|
82600569|NCT01844986|164916040|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.32|0.63||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.63|0.32|<0.0001
82600570|NCT01844986|164916040|SUPERIORITY||Hazard Ratio (HR)|0.55|||||TWO_SIDED|95.0|0.25|1.26||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.26|0.25|
82600571|NCT01844986|164916041|SUPERIORITY||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|95.0|0.51|0.79||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.79|0.51|<0.0001
82600572|NCT01844986|164916041|SUPERIORITY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.47|1.42||Not applicable, due to small sample size. China cohort designed to provide descriptive analysis only.|Regression, Cox|Model includes the stratification variable of response to first-line platinum chemotherapy as a covariate.|A hazard ratio \<1 favours Olaparib.|||1.42|0.47|
82600573|NCT01844986|164916042|SUPERIORITY||Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.4||Determined using a log-rank test stratified by response to previous platinum chemotherapy|Regression, Cox|Model includes a factor for response to previous platinum chemotherapy|A hazard ratio \< 1 favours olaparib|||0.40|0.22|<0.0001
82600574|NCT00930059|164916053|SUPERIORITY||LS mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.73||0.3353|TWO_SIDED|90.0|-1.52|0.9||The primary test of significance was 1-sided, and a nominal Type I error rate a = 0.05 was employed.|ANCOVA|||Least squares (LS) mean difference and p-values were based on analysis of covariance (ANCOVA) on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.90|-1.52|0.3353
82600575|NCT00930059|164916054|SUPERIORITY||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.72||0.6073|TWO_SIDED|90.0|-0.99|1.38||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 3: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||1.38|-0.99|0.6073
82600576|NCT00930059|164916054|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.73||0.3086|TWO_SIDED|90.0|-1.56|0.84||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 6: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.84|-1.56|0.3086
82600577|NCT00930059|164916054|SUPERIORITY||LS mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.73||0.197|TWO_SIDED|90.0|-1.82|0.58||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 9: LS mean difference and p-values were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||0.58|-1.82|0.1970
82600578|NCT00930059|164916055|SUPERIORITY||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.14||0.6547|TWO_SIDED|90.0|-0.18|0.29||No adjustments made for multiple comparisons.|Linear model|||Week 3: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.29|-0.18|0.6547
82600579|NCT00930059|164916055|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.14||0.702|TWO_SIDED|90.0|-0.16|0.31||No adjustments made for multiple comparisons.|Linear model|||Week 6: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.31|-0.16|0.7020
82600580|NCT00930059|164916055|SUPERIORITY||LS mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.1138|TWO_SIDED|90.0|-0.41|0.06||No adjustments made for multiple comparisons.|Linear model|||Week 9: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.06|-0.41|0.1138
82600581|NCT00930059|164916055|SUPERIORITY||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.15||0.0816|TWO_SIDED|90.0|-0.44|0.04||No adjustments made for multiple comparisons.|Linear model|||Week 12: Inferential statistics were based on linear model with fixed effects for visit (nominal scale) and visit by treatment interaction, and a random effect for participant.||0.04|-0.44|0.0816
82600582|NCT00930059|164916057|SUPERIORITY||LS mean difference|0.69|STANDARD_ERROR_OF_MEAN|0.96||0.7634|TWO_SIDED|90.0|-0.89|2.27||No adjustments have been made for multiple comparisons.|ANCOVA|||Change at Week 3: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.27|-0.89|0.7634
82600583|NCT00930059|164916057|SUPERIORITY||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|0.97||0.8077|TWO_SIDED|90.0|-0.75|2.45||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 6: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.45|-0.75|0.8077
82492140|NCT02319837|164677486|OTHER|Two-sided P-value was based on a stratified log-rank test by screening PSA, PSA doubling time, and prior hormonal therapy. Hazard ratio was based on a Cox regression model stratified by factors defined above and was relative to placebo + leuprolide with \< 1 favoring enzalutamide monotherapy.|Hazard Ratio (HR)|1.168||||0.0855|TWO_SIDED|95.0|0.981|1.391|||Log Rank|||||1.391|0.981|0.0855
82600584|NCT00930059|164916057|SUPERIORITY||LS mean difference|0.96|STANDARD_ERROR_OF_MEAN|0.98||0.835|TWO_SIDED|90.0|-0.66|2.57||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 9: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||2.57|-0.66|0.8350
82600585|NCT00930059|164916057|SUPERIORITY||LS mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.99||0.4377|TWO_SIDED|90.0|-1.78|1.48||No adjustments made for multiple comparisons.|ANCOVA|||Change at Week 12: LS mean difference and p-value were based on ANCOVA on change from baseline with treatment, baseline value, scheduled visit and visit by treatment interaction as covariates, and participant effect as random effect.||1.48|-1.78|0.4377
82600586|NCT02397473|164916074|SUPERIORITY||LSMean Difference|-3.47|STANDARD_ERROR_OF_MEAN|1.63||0.036|TWO_SIDED|95.0|-6.72|-0.23|||Mixed Models Analysis|||||-0.23|-6.72|0.036
82600587|NCT02397473|164916075|SUPERIORITY|||||||0.046|||||||ANCOVA|Koch's nonparametric randomization-based ANCOVA.||||||0.046
82600588|NCT02397473|164916076|SUPERIORITY||LSMean Difference|-0.83|STANDARD_ERROR_OF_MEAN|1.2||0.493|TWO_SIDED|95.0|-3.23|1.57|||Mixed Models Analysis|||||1.57|-3.23|0.493
82600589|NCT02397473|164916077|SUPERIORITY||Odds Ratio (OR)|3.046||||0.016|TWO_SIDED|95.0|1.242|7.469|||Mixed Models Analysis|||||7.469|1.242|0.016
82600590|NCT02397473|164916078|SUPERIORITY||Odds Ratio (OR)|1.312||||0.575|TWO_SIDED|95.0|0.502|3.426|||Mixed Models Analysis|||||3.426|.502|0.575
82600591|NCT02397473|164916079|SUPERIORITY||Odds Ratio (OR)|0.965||||0.91|TWO_SIDED|95.0|0.512|1.819|||Mixed Models Analysis|Pseudo-likelihood-based repeated measures.||||1.819|.512|0.910
82600592|NCT02397473|164916080|SUPERIORITY||Odds Ratio (OR)|0.929||||0.841|TWO_SIDED|95.0|0.449|1.923|||Mixed Models Analysis|Pseudolikelihood-based repeated measures model||||1.923|0.449|0.841
82600593|NCT01337973|164916086|SUPERIORITY||Coefficient estimate|0.82|||<|0.001|TWO_SIDED|95.0|0.37|1.84||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z value: -4.65|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||1.84|0.37|<0.001
82600594|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.62|||<|0.01|TWO_SIDED|95.0|0.3|1.29||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.83|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury perpetration % change from baseline||1.29|0.30|<0.01
82600595|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|1.16|||<|0.01|TWO_SIDED|95.0|0.36|3.77||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.31|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||3.77|0.36|<0.01
82600596|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.51|||<|0.05|TWO_SIDED|95.0|0.19|1.38||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.26|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||1.38|0.19|<0.05
82600597|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|1.22|||<|0.001|TWO_SIDED|95.0|0.66|2.28||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.79|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||2.28|0.66|<0.001
82600598|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.8|||<|0.05|TWO_SIDED|95.0|0.32|1.98||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.01|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner injury % change from baseline||1.98|0.32|<0.05
82600599|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.6|||<|0.001|TWO_SIDED|95.0|0.25|1.46||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.81|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||1.46|0.25|<0.001
82600600|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|1.05|||<|0.001|TWO_SIDED|95.0|0.45|2.44||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.74|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury perpetration % change from baseline||2.44|0.45|<0.001
82600601|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.48|||<|0.01|TWO_SIDED|95.0|0.13|1.78||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.59|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||1.78|0.13|<0.01
82600602|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|0.48|||>|0.05|TWO_SIDED|95.0|0.16|1.47||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -1.81|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||1.47|0.16|>0.05
82600603|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|1.12|||<|0.001|TWO_SIDED|95.0|0.6|2.08||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.10|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||2.08|0.60|<0.001
82600604|NCT01337973|164916086|SUPERIORITY||Coefficient Estimate|1.09|||<|0.01|TWO_SIDED|95.0|0.4|2.95||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.17|E-TAU arm is the referent group|Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner injury % change from baseline||2.95|0.40|<0.01
82492141|NCT03993132|164677523|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.91|1.11|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.11|0.91|
82600605|NCT01337973|164916086|SUPERIORITY||||||<|0.001||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -4.69||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall physical aggression % change from baseline||||<0.001
82600606|NCT01337973|164916086|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.32||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall injury % change from baseline||||<0.01
82600607|NCT01337973|164916086|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -2.90||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner physical aggression % change from baseline||||<0.01
82655507|NCT01345019|165026911|SUPERIORITY|If superiority of denosumab over zoledronic acid was established for both time to first SRE and time to first and subsequent SRE, the additional secondary endpoint (overall survival) was to be tested at a significance level of 0.05.|Hazard Ratio (HR)|0.9||||0.41|TWO_SIDED|95.0|0.7|1.16|||Cox proportional hazards model||A hazard ratio (denosumab:zoledronic acid) \< 1 favors denosumab.|The survival function of time to death for each treatment group was estimated using Kaplan-Meier method and the hazard ratio of denosumab compared with zoledronic acid and its 2-sided 95% CI were estimated using a Cox proportional hazards model stratified by the randomization stratification factors and including treatment groups, age, race group, geographic region, baseline creatinine clearance, baseline risk per cytogenetic based prognosis, and baseline ECOG as independent variables.||1.16|0.70|0.41
82655508|NCT00320112|165026916|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.004|TWO_SIDED|||||no differences between arms in baseline characteristics at \<0.1 level, further analyses adjusted for variables that could influence the outcome like insulin use, age, commodities. because no differences in results, unadjusted analyses are reported.|Regression, Linear|we used STATA 11's xtmixed command, which fits multi-level mixed-effects linear regression models, with clustering by assigned pairs.||||||0.004
82655509|NCT00320112|165026917|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||this is a priori design|Regression, Linear|||||||.91
82655510|NCT00320112|165026918|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Regression, Linear|||||||0.10
82655511|NCT00320112|165026919|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
82600608|NCT01337973|164916086|SUPERIORITY||||||>|0.05||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z Score: -1.02||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to partner injury % change from baseline||||>0.05
82600609|NCT01337973|164916086|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z Score: -4.01||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to non-partner physical aggression % change from baseline||||<0.01
82600610|NCT01337973|164916086|SUPERIORITY||||||<|0.01||||||The threshold for significance was p \< 0.05. Scores are reported stratified by whether they are less than .05 less than .01 and less than .001 respectively.|Wilcoxon Z|Wilcoxon Z score: -3.21||Bivariate analyses examined change from baseline to follow up of primary and secondary outcomes measures using Wilcoxon sign rank tests. This test applies to overall non-partner injury % change from baseline||||<0.01
82600611|NCT01337973|164916087|SUPERIORITY||Coefficient estimate|0.95|||<|0.001|TWO_SIDED|95.0|0.62|1.47||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -3.52|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||1.47|0.62|<0.001
82600612|NCT01337973|164916087|SUPERIORITY||coefficient estimate|0.49|||<|0.01|TWO_SIDED|95.0|0.18|1.32||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.98|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||1.32|0.18|<0.01
82600613|NCT01337973|164916087|SUPERIORITY||coefficient estimate|0.85|||<|0.05|TWO_SIDED|95.0|0.4|1.8||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.13|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||1.8|0.4|<0.05
82655512|NCT01199861|165026933|SUPERIORITY_OR_OTHER||Percent Inhibition|41.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/California/7/09 (H1N1) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
82655513|NCT01199861|165026933|SUPERIORITY_OR_OTHER||Percent Inhibition|-35.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/Perth/16/2009 (H3N2) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
82655514|NCT01199861|165026933|SUPERIORITY_OR_OTHER||Percent Inhibition|44.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the B/Brisbane/60/2008 strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo three weeks after a single dose of seasonal influenza vaccine.||||
82492142|NCT03993132|164677524|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|1.01|1.13|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.13|1.01|
82600614|NCT01337973|164916087|SUPERIORITY||coefficient estimate|0.84|||<|0.05|TWO_SIDED|95.0|0.54|1.32||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.48|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||1.32|0.54|<0.05
82600615|NCT01337973|164916087|SUPERIORITY||coefficient estimate|1.15|||<|0.001|TWO_SIDED|95.0|0.78|1.71||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -4.94|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||1.71|0.78|<0.001
82600616|NCT01337973|164916087|SUPERIORITY||coefficient estimate|0.61|||<|0.05|TWO_SIDED|95.0|0.17|2.16||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.56|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||2.16|0.17|<0.05
82600617|NCT01337973|164916087|SUPERIORITY||coefficient estimate|1.18|||<|0.01|TWO_SIDED|95.0|0.57|2.44||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.86|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||2.44|0.57|<0.01
82600618|NCT01337973|164916087|SUPERIORITY||coefficient estimate|0.95|||<|0.001|TWO_SIDED|95.0|0.61|1.48||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -3.51|E-TAU arm is the referent group|"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||1.48|0.61|<0.001
82600619|NCT01337973|164916087|SUPERIORITY||||||<|0.001||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -4.65||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to heavy drinking % change from baseline"||||<0.001
82600620|NCT01337973|164916087|SUPERIORITY||||||>|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -1.45||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to cocaine use % change from baseline"||||>0.05
82600621|NCT01337973|164916087|SUPERIORITY||||||>|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -1.5||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to marijuana use % change from baseline"||||>0.05
82600622|NCT01337973|164916087|SUPERIORITY||||||<|0.05||||||The threshold for significance was p\<0.05. Scores are reported stratified by whether they are less than 0.05, less than 0.01, and less than 0.001.|Wilcoxon Z|Wilcoxon Z value: -2.58||"Bivariate analyses examined change from baseline to follow up of substance use outcomes measures using Wilcoxon sign rank tests.~This test applies to illicit drug use % change from baseline"||||<0.05
82655515|NCT01199861|165026934|SUPERIORITY_OR_OTHER||Percent Inhibition|38.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/California/7/09 (H1N1) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
82600623|NCT00997516|164916107|SUPERIORITY_OR_OTHER|||||||0.01||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.01
82600624|NCT00997516|164916108|SUPERIORITY_OR_OTHER||||||<|0.01||||||Significant at p\<0.05|t-test, 2 sided|||||||<0.01
82600625|NCT00997516|164916117|SUPERIORITY_OR_OTHER|||||||0.86||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Overall body satisfaction||||0.86
82600626|NCT00997516|164916117|SUPERIORITY_OR_OTHER|||||||0.18||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Damage to body||||0.18
82600627|NCT00997516|164916117|SUPERIORITY_OR_OTHER|||||||0.04||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Physical attractiveness||||0.04
82600628|NCT00997516|164916117|SUPERIORITY_OR_OTHER|||||||0.34||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Masculinity/femininity||||0.34
82600629|NCT00997516|164916117|SUPERIORITY_OR_OTHER|||||||0.63||||||Significant at p\<0.05|Wilcoxon (Mann-Whitney)|||Looking at oneself naked||||0.63
82600630|NCT00997516|164916118|SUPERIORITY_OR_OTHER|||||||0.48||||||Significant at p\<0.05|t-test, 2 sided|||Cosmetic appearance of abdomen||||0.48
82600631|NCT00997516|164916118|SUPERIORITY_OR_OTHER|||||||0.09||||||Significant at p\<0.05|t-test, 2 sided|||Cosmetic appearance of scars||||0.09
82600632|NCT00997516|164916118|SUPERIORITY_OR_OTHER|||||||0.25||||||Significant at p\<0.05|t-test, 2 sided|||Satisfaction with scars||||0.25
82600633|NCT00997516|164916118|SUPERIORITY_OR_OTHER|||||||0.81||||||Significant at p\<0.05|t-test, 2 sided|||Discomfort of scars||||0.81
82600634|NCT00997516|164916118|SUPERIORITY_OR_OTHER||||||<|0.01||||||Significant at p\<0.05|t-test, 2 sided|||Overall impression of scars||||<0.01
82600635|NCT03021642|164916145|SUPERIORITY_OR_OTHER_LEGACY||Geometric Least square (LS) mean ratio|98.68|||||TWO_SIDED|90.0|93.67|103.96||||||||103.96|93.67|
82600636|NCT03021642|164916146|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|95.71|||||TWO_SIDED|90.0|88.43|103.59||||||||103.59|88.43|
82600637|NCT03021642|164916147|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS mean ratio|96.88|||||TWO_SIDED|90.0|90.8|103.36||||||||103.36|90.8|
82600638|NCT03021642|164916148|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Net)|0.0||||0.8981|TWO_SIDED|90.0|-1.0|1.025|||Wilcoxon signed-rank test|||||1.025|-1.000|0.8981
82600639|NCT00523991|164916295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001||95.0|0.18|0.27||"There was only one primary endpoint and the p-value was not adjusted for multiple comparisons.~Mean Difference (Final Values) means difference in LS-Means"|ANCOVA|The analysis of covariance model included treatment, site, and trough forced expiratory volume in 1 second at baseline in the model.||||0.27|0.18|<0.001
82600640|NCT00523991|164916299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|0.09|0.18||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Terms include treatment, site, and trough forced expiratory volume in 1 second at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.18|0.09|<0.001
82600641|NCT00523991|164916303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.19|0.29||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Terms include treatment, site, and peak forced expiratory volume in 1 second at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.29|0.19|<0.001
82600642|NCT00523991|164916319|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|||<|0.001||95.0|0.09|0.18||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"Terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.18|0.09|<0.001
82600643|NCT00523991|164916320|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||<|0.001||95.0|0.16|0.25||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.25|0.16|<0.001
82600644|NCT00523991|164916321|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23|||<|0.001||95.0|0.18|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium vesus placebo||0.28|0.18|<0.001
82600645|NCT00523991|164916322|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.2|0.29||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.29|0.20|<0.001
82600646|NCT00523991|164916323|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||<|0.001||95.0|0.2|0.3||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and peak forced expiratory volume in 1 second at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.30|0.20|<0.001
82600647|NCT00523991|164916327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31|||<|0.001||95.0|0.24|0.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity area under the curve at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.38|0.24|<0.001
82600648|NCT00523991|164916331|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||<|0.001||95.0|0.14|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and trough forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.28|0.14|<0.001
82600649|NCT00523991|164916335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001||95.0|0.24|0.42||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and peak forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.42|0.24|<0.001
82600650|NCT00523991|164916351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||<|0.001||95.0|0.14|0.28||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.28|0.14|<0.001
82600651|NCT00523991|164916352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29|||<|0.001||95.0|0.21|0.36||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.36|0.21|<0.001
82600652|NCT00523991|164916353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||<|0.001||95.0|0.23|0.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.38|0.23|<0.001
82600653|NCT00523991|164916354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||<|0.001||95.0|0.25|0.4||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms include treatment, site, and forced vital capacity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.40|0.25|<0.001
82600654|NCT00523991|164916355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|||<|0.001||95.0|0.26|0.45||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and forced vital capacity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.45|0.26|<0.001
82600655|NCT00523991|164916362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.927||95.0|-0.38|0.41||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms include treatment, site, and albuterol use at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.41|-0.38|0.927
82600656|NCT00523991|164916363|SUPERIORITY_OR_OTHER|||||||0.174||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.174
82600657|NCT00523991|164916364|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.186
82600658|NCT00523991|164916365|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.045
82600659|NCT00523991|164916366|SUPERIORITY_OR_OTHER|||||||0.223||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.223
82600660|NCT00523991|164916367|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.010
82655516|NCT01199861|165026934|SUPERIORITY_OR_OTHER||Percent Inhibition|-28.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the A/Perth/16/2009 (H3N2) strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
82600661|NCT00523991|164916368|SUPERIORITY_OR_OTHER|||||||0.086||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.086
82600662|NCT00523991|164916370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.64||||0.729||95.0|-2.97|4.24||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||4.24|-2.97|0.729
82600663|NCT00523991|164916371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.149||95.0|-5.9|0.9||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||0.90|-5.90|0.149
82600664|NCT00523991|164916372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.763||95.0|-4.0|2.93||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||2.93|-4.00|0.763
82600665|NCT00523991|164916373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.85||||0.313||95.0|-5.45|1.75||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||1.75|-5.45|0.313
82600666|NCT00523991|164916374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79||||0.682||95.0|-4.6|3.01||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||3.01|-4.60|0.682
82600667|NCT00523991|164916375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.76||||0.043||95.0|-7.39|-0.13||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||-0.13|-7.39|0.043
82600668|NCT00523991|164916377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.823||95.0|-6.01|4.79||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||4.79|-6.01|0.823
82600669|NCT00523991|164916378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.767||95.0|-7.86|5.81||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.81|-7.86|0.767
82600670|NCT00523991|164916379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.754||95.0|-4.12|5.67||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.67|-4.12|0.754
82600671|NCT00523991|164916380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.995||95.0|-6.31|6.27||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.27|-6.31|0.995
82600672|NCT00523991|164916381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19||||0.72||95.0|-7.77|5.39||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||5.39|-7.77|0.720
82600673|NCT00523991|164916382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88||||0.064||95.0|-12.1|0.35||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LS Means"||tiotropium versus placebo||0.35|-12.10|0.064
82600674|NCT00523991|164916384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.11||||0.718||95.0|-7.21|4.98||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||4.98|-7.21|0.718
82600675|NCT00523991|164916385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.912||95.0|-7.9|7.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||7.06|-7.90|0.912
82600676|NCT00523991|164916386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.79||||0.162||95.0|-1.55|9.13||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||9.13|-1.55|0.162
82600677|NCT00523991|164916387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59||||0.471||95.0|-4.51|9.69||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||9.69|-4.51|0.471
82600678|NCT00523991|164916388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.961||95.0|-6.52|6.84||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.84|-6.52|0.961
82600679|NCT00523991|164916389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.9||||0.158||95.0|-11.73|1.94||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||1.94|-11.73|0.158
82600680|NCT00523991|164916391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.74||||0.469||95.0|-3.01|6.49||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||6.49|-3.01|0.469
82600681|NCT00523991|164916392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.79||||0.079||95.0|-0.68|12.26||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||12.26|-0.68|0.079
82655517|NCT01199861|165026934|SUPERIORITY_OR_OTHER||Percent Inhibition|48.0||||||95.0|||||||One minus the back-transformed estimate for the treatment difference was interpreted as the relative inhibition of an immune response caused by fingolimod 0.5 mg compared to placebo; it was presented as a percentage and referred to as 'inhibition'.|The inhibition of an immune response to the B/Brisbane/60/2008 strain of the seasonal influenza vaccine was assessed by the relative difference of the geometric mean antibody titer ratio on fingolimod as compared to placebo six weeks after a single dose of seasonal influenza vaccine.||||
82600682|NCT00523991|164916393|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.051||95.0|-0.02|8.23||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||8.23|-0.02|0.051
82600683|NCT00523991|164916394|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.43||||0.075||95.0|-0.35|7.21||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||7.21|-0.35|0.075
82600684|NCT00523991|164916395|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.306||95.0|-1.39|4.38||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and work productivity at baseline Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||4.38|-1.39|0.306
82600685|NCT00523991|164916396|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.33||||0.363||95.0|-7.39|2.73||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and work productivity at baseline~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||2.73|-7.39|0.363
82499404|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.079||||90.0|-0.037|0.224|||ANCOVA|||Follow-up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.224|-0.037|
82600686|NCT00523991|164916398|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.668||95.0|-0.03|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and logarithm of baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.02|-0.03|0.668
82600687|NCT00523991|164916399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.78||95.0|-0.02|0.03||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.03|-0.02|0.780
82600688|NCT00523991|164916400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.61||95.0|-0.03|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.02|-0.03|0.610
82600689|NCT00523991|164916401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.554||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.554
82600690|NCT00523991|164916402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.549||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.549
82600691|NCT00523991|164916403|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.568||95.0|-0.02|0.04||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.04|-0.02|0.568
82600692|NCT00523991|164916405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.358||95.0|-0.18|0.07||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.07|-0.18|0.358
82600693|NCT00523991|164916406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.219||95.0|-0.2|0.05||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.05|-0.20|0.219
82600694|NCT00523991|164916407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05||||0.518||95.0|-0.1|0.19||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.19|-0.10|0.518
82600695|NCT00523991|164916408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.455||95.0|-0.09|0.21||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.21|-0.09|0.455
82600696|NCT00523991|164916409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.927||95.0|-0.16|0.15||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.15|-0.16|0.927
82600697|NCT00523991|164916410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.933||95.0|-0.17|0.16||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and logarithm of baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.16|-0.17|0.933
82600698|NCT00523991|164916411|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.996
82600699|NCT00523991|164916412|SUPERIORITY_OR_OTHER|||||||0.196||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.196
82600700|NCT00523991|164916413|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.800
82600701|NCT00523991|164916414|SUPERIORITY_OR_OTHER|||||||0.215||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.215
82600702|NCT00523991|164916415|SUPERIORITY_OR_OTHER|||||||0.205||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.205
82600703|NCT00523991|164916416|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.622
82600704|NCT00523991|164916417|SUPERIORITY_OR_OTHER|||||||0.446||95.0|||||Cochran-Mantel-Haenszel|Site as stratum||tiotropium versus placebo||||0.446
82600705|NCT00523991|164916419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.819||95.0|-0.05|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.06|-0.05|0.819
82499405|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.021|STANDARD_ERROR_OF_MEAN|0.075||||90.0|-0.103|0.145|||ANCOVA|||Follow-up Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.145|-0.103|
82600706|NCT00523991|164916420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.204||95.0|-0.1|0.02||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.02|-0.10|0.204
82600707|NCT00523991|164916421|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.67||95.0|-0.08|0.05||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.05|-0.08|0.670
82600708|NCT00523991|164916422|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.63||95.0|-0.09|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.06|-0.09|0.630
82600709|NCT00523991|164916423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.704||95.0|-0.1|0.07||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|terms for treatment, site, and baseline value Mean Difference (Final Values) means difference in LSMeans||tiotropium versus placebo||0.07|-0.10|0.704
82600710|NCT00523991|164916424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.579||95.0|-0.11|0.06||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||0.06|-0.11|0.579
82600711|NCT00523991|164916426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.54||||0.916||95.0|-464.02|416.94||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||416.94|-464.02|0.916
82600712|NCT00523991|164916427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.42||||0.899||95.0|-520.19|457.34||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||457.34|-520.19|0.899
82600713|NCT00523991|164916428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|181.99||||0.495||95.0|-341.75|705.73||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||placebo versus tiotropium||705.73|-341.75|0.495
82600714|NCT00523991|164916429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|258.83||||0.318||95.0|-250.37|768.03||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||768.03|-250.37|0.318
82600715|NCT00523991|164916430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|211.18||||0.45||95.0|-338.04|760.39||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||760.39|-338.04|0.450
82600716|NCT00523991|164916431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|51.46||||0.858||95.0|-512.2|615.12||All secondary analyses are exploratory and therefore no corrections for multiple hypotheses testing are made. The results have to be interpreted in a descriptive manner.|ANCOVA|"terms for treatment, site, and baseline value~Mean Difference (Final Values) means difference in LSMeans"||tiotropium versus placebo||615.12|-512.20|0.858
82600717|NCT01700192|164916435|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.8|||<|0.001|TWO_SIDED|95.0|-1.2|-0.4|||Wilcoxon (Mann-Whitney)|||||-0.40|-1.20|<0.001
82600718|NCT01700192|164916435|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-17.2|||||TWO_SIDED|95.0|-25.0|-9.7||||||||-9.7|-25.0|
82600719|NCT01700192|164916438|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.6|||<|0.001|TWO_SIDED|95.0|-1.0|-0.3|||Wilcoxon (Mann-Whitney)|||||-0.30|-1.00|<0.001
82600720|NCT01700192|164916438|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-15.5|||||TWO_SIDED|95.0|-24.4|-7.3||||||||-7.3|-24.4|
82600721|NCT01700192|164916439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.154|TWO_SIDED|95.0|-0.35|0.05|||Zero-inflated Log-normal Model|||||0.05|-0.35|0.154
82600722|NCT01700192|164916439|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-18.4|||||TWO_SIDED|95.0|-41.0|4.3||||||||4.3|-41|
82600723|NCT01700192|164916440|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.1|||<|0.001|TWO_SIDED|95.0|-1.7|-0.6|||Wilcoxon (Mann-Whitney)|||||-0.60|-1.70|<0.001
82600724|NCT01700192|164916440|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-16.7|||||TWO_SIDED|95.0|-24.6|-4.0||||||||-4.0|-24.6|
82600725|NCT01700192|164916441|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-6.1|||<|0.001|TWO_SIDED|95.0|-9.1|-3.1|||Wilcoxon (Mann-Whitney)|||||-3.10|-9.10|<0.001
82600726|NCT01700192|164916441|SUPERIORITY_OR_OTHER||Treatment Difference Relative to Placebo|-16.0|||||TWO_SIDED|95.0|-22.7|-8.3||||||||-8.3|-22.7|
82600727|NCT02435849|164916456|OTHER|testing the null hypothesis that ORR within 3 months is less than or equal to 20%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
82600728|NCT02435849|164916458|OTHER|testing the null hypothesis that ORR with MRD negative within 3 months is less than or equal to 15%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
82600729|NCT02435849|164916459|OTHER|testing the null hypothesis that ORR with MRD negative within 3 months is less than or equal to 15%|||||<|0.0001|||||||Clopper-Pearson|||||||<.0001
82600730|NCT03175549|164916491|SUPERIORITY||Mean Difference (Final Values)|5.53|STANDARD_ERROR_OF_MEAN|10.1||0.36|TWO_SIDED|95.0|-10.22|29.38||A priori threshold for significance was 0.05.|Mixed Models Analysis||Standard error was calculated using bootstrap methods which is considered best for MEM.|||29.38|-10.22|0.36
82600731|NCT03175549|164916492|SUPERIORITY||Slope|-0.067|STANDARD_ERROR_OF_MEAN|0.03|<|0.025|TWO_SIDED||||||t-test, 2 sided|||Posted results show mean change in drinking for the drug group relative to placebo for each day of the 11 days of ad libidum drinking (Days 1-11) permitted during the 14 days (2 weeks) of medication.||||<0.025
82600732|NCT03175549|164916492|SUPERIORITY||Slope|-0.067|STANDARD_ERROR_OF_MEAN|0.03||0.025|TWO_SIDED||||||Mixed Models Analysis|473 daily observations within 43 individuals.|The apremilast group showed a significantly more rapid reduction in drinks per day relative to placebo.|||||0.025
82600733|NCT01017952|164916493|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.04|TWO_SIDED|95.0|0.66|0.99|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.99|0.66|0.040
82600734|NCT01017952|164916493|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.024|TWO_SIDED|95.0|0.64|0.97|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.97|0.64|0.024
82600735|NCT01017952|164916493|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.69|||<|0.001|TWO_SIDED|95.0|0.56|0.85|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.85|0.56|<0.001
82600736|NCT01017952|164916494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.177|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox|||||1.06|0.71|0.177
82600737|NCT01017952|164916494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.036|TWO_SIDED|95.0|0.66|0.99|||Regression, Cox|||||0.99|0.66|0.036
82600738|NCT01017952|164916494|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.82|||Regression, Cox|||||0.82|0.54|<0.001
82600739|NCT01017952|164916495|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.154|TWO_SIDED|95.0|0.65|1.07|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.07|0.65|0.154
82600740|NCT01017952|164916495|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.041|TWO_SIDED|95.0|0.6|0.99|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.99|0.60|0.041
82600741|NCT01017952|164916495|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.65|||<|0.001|TWO_SIDED|95.0|0.51|0.84|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.84|0.51|<0.001
82600742|NCT01017952|164916496|SUPERIORITY_OR_OTHER||Least squares mean difference|0.034||||0.034|TWO_SIDED|95.0|0.003|0.066||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.066|0.003|0.034
82600743|NCT01017952|164916496|SUPERIORITY_OR_OTHER||Least squares mean difference|0.024||||0.143|TWO_SIDED|95.0|-0.008|0.056|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.056|-0.008|0.143
82600744|NCT01017952|164916496|SUPERIORITY_OR_OTHER||Least squares mean difference|0.026||||0.115|TWO_SIDED|95.0|-0.006|0.057|||Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.057|-0.006|0.115
82600745|NCT01064167|164916497|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|||Given that the frequency of RBC transfusion for OPCAB surgery is about 55%, to detect 35% reduction in TA group, with power=o.8 and α=0.05, a group of 107 patients in each arm is required. We estimated a crossover rate of 20%. The final sample size for randomization purposes increased to a total of 260 patients. The Chi-square test was used to test the differences in categorical variables between both groups.If one or more cells had an expected count less than 5, Fisher's Exact Test was used.||||<0.05
82600746|NCT01064167|164916498|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82600747|NCT00725075|164916499|SUPERIORITY_OR_OTHER||Mean Change From Baseline|-2.26||||0.267|TWO_SIDED|95.0|-6.25|1.74|||ANCOVA|ANCOVA model with the baseline value as covariate and with treatment group and center as fixed factors||Comparison of Mean Change in Baseline: Least Squared Estimates with Statistical Inference.||1.74|-6.25|0.267
82600748|NCT00725075|164916499|SUPERIORITY_OR_OTHER||Mean Change From Baseline|-0.08||||0.966|TWO_SIDED|95.0|-3.91|3.74|||ANCOVA|ANCOVA model with the baseline value as covariate and with treatment group and center as fixed factors||Comparison of Mean Change in Baseline: Least Squared Estimates with Statistical Inference.||3.74|-3.91|0.966
82600749|NCT01235962|164916533|SUPERIORITY||Adjusted Hazard Ratio|0.862||||0.1649|TWO_SIDED|95.0|0.699|1.063|||Stratified Log-Rank|||||1.063|0.699|0.1649
82600750|NCT01235962|164916534|SUPERIORITY||Adjusted Hazard Ratio|0.998||||0.988|TWO_SIDED|95.0|0.759|1.311|||Stratified Log-Rank|||||1.311|0.759|0.9880
82600751|NCT01235962|164916536|SUPERIORITY||Adjusted Hazard Ratio|0.802||||0.0126|TWO_SIDED|95.0|0.675|0.954|||Stratified Log-Rank|||||0.954|0.675|0.0126
82600752|NCT01235962|164916537|SUPERIORITY||Adjusted Hazard Ratio|1.001||||0.9959|TWO_SIDED|95.0|0.796|1.257|||Stratified Log-Rank|||||1.257|0.796|0.9959
82600753|NCT01235962|164916539|SUPERIORITY||Adjusted Hazard Ratio|0.693||||0.0201|TWO_SIDED|95.0|0.51|0.943|||Stratified Log-Rank|||||0.943|0.510|0.0201
82600754|NCT01235962|164916540|SUPERIORITY||Adjusted Hazard Ratio|1.004||||0.9865|TWO_SIDED|95.0|0.662|1.521|||Stratified Log-Rank|||||1.521|0.662|0.9865
82600755|NCT01235962|164916541|SUPERIORITY||Mean Difference (Week 52)|-3.397|||<|0.001|TWO_SIDED|95.0|-4.486|-2.307|||analysis of covariance|adjusted for baseline score using mixed-model||||-2.307|-4.486|<.001
82600756|NCT01235962|164916541|SUPERIORITY||Mean Difference (24M DFS FU)|-0.043||||0.93|TWO_SIDED|95.0|-1.003|0.917|||analysis of covariance|adjusted for baseline score using mixed-model||||0.917|-1.003|0.930
82600757|NCT01235962|164916541|SUPERIORITY||Mean Difference (36M DFS FU)|0.119||||0.828|TWO_SIDED|95.0|-0.958|1.196|||analysis of covariance|adjusted for baseline score using mixed-model||||1.196|-0.958|0.828
82600758|NCT01235962|164916541|SUPERIORITY||Mean Difference (48M DFS FU)|-0.347||||0.603|TWO_SIDED|95.0|-1.658|0.964|||analysis of covariance|adjusted for baseline score using mixed-model||||0.964|-1.658|0.603
82600759|NCT01235962|164916541|SUPERIORITY||Mean Difference (54M DFS FU)|-0.17||||0.841|TWO_SIDED|95.0|-1.843|1.503|||analysis of covariance|adjusted for baseline score using mixed-model||||1.503|-1.843|0.841
82600760|NCT01235962|164916542|SUPERIORITY||Mean Difference (Week 52)|-1.619|||<|0.001|TWO_SIDED|95.0|-2.283|-0.955|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.955|-2.283|<.001
82600761|NCT01235962|164916542|SUPERIORITY||Mean Difference (24 M DFS FU)|-0.114||||0.726|TWO_SIDED|95.0|-0.75|0.522|||analysis of covariance|adjusted for baseline score using mixed-model||||0.522|-0.750|0.726
82600762|NCT01235962|164916542|SUPERIORITY||Mean Difference (36 M DFS FU)|-0.09||||0.801|TWO_SIDED|95.0|-0.789|0.609|||analysis of covariance|adjusted for baseline score using mixed-model||||0.609|-0.789|0.801
82600763|NCT01235962|164916542|SUPERIORITY||Meat Difference (48 M DFS FU)|-0.212||||0.617|TWO_SIDED|95.0|-1.044|0.32|||analysis of covariance|adjusted for baseline score using mixed-model||||0.320|-1.044|0.617
82600764|NCT01235962|164916542|SUPERIORITY||Mean Difference (54 M DFS FU)|0.341||||0.565|TWO_SIDED|95.0|-0.828|1.51|||adjusted for baseline score using mixedm|||||1.510|-0.828|0.565
82600765|NCT01235962|164916543|SUPERIORITY||Mean Difference (Week 52)|-0.077||||0.238|TWO_SIDED|95.0|-0.205|0.051|||analysis of covariance|adjusted for baseline score using mixed-model||||0.051|-0.205|0.238
82600766|NCT01235962|164916543|SUPERIORITY||Mean Difference (24M DFS FU)|-0.052||||0.442|TWO_SIDED|95.0|-0.185|0.081|||analysis of covariance|adjusted for baseline score using mixed-model||||0.081|-0.185|0.442
82600767|NCT01235962|164916543|SUPERIORITY||Mean Difference (36M DFS FU)|0.016||||0.819|TWO_SIDED|95.0|-0.125|0.158|||analysis of covariance|adjusted for baseline score using mixed-model||||0.158|-0.125|0.819
82600768|NCT01235962|164916543|SUPERIORITY||Mean Difference (48M DFS FU)|-0.119||||0.223|TWO_SIDED|95.0|-0.311|0.073|||analysis of covariance|analysis of covariance adjusted for baseline score using mixed-model||||0.073|-0.311|0.223
82600769|NCT01235962|164916543|SUPERIORITY||Mean Difference (54M DFS FU)|-0.203||||0.085|TWO_SIDED|95.0|-0.435|0.028|||analysis of covariance|adjusted for baseline score using mixed-model||||0.028|-0.435|0.085
82600770|NCT01235962|164916544|SUPERIORITY||Mean Difference (Week 52)|-1.394|||<|0.001|TWO_SIDED|95.0|-1.66|-1.129|||analysis of covariance|adjusted for baseline score using mixed-model||||-1.129|-1.660|<.001
82600771|NCT01235962|164916544|SUPERIORITY||Mean difference (24M DFS FU)|0.117||||0.083|TWO_SIDED|95.0|-0.015|0.249|||analysis of covariance|adjusted for baseline score using mixed-model||||0.249|-0.015|0.083
82600772|NCT01235962|164916544|SUPERIORITY||Mean Difference (36M DFS FU)|0.081||||0.307|TWO_SIDED|95.0|-0.074|0.236|||analysis of covariance|adjusted for baseline score using mixed-model||||0.236|-0.074|0.307
82600773|NCT01235962|164916544|SUPERIORITY||Mean Difference (48M DFS FU)|-0.029||||0.796|TWO_SIDED|95.0|-0.249|0.191|||analysis of covariance|adjusted for baseline score using mixed-model||||0.191|-0.249|0.796
82600774|NCT01235962|164916544|SUPERIORITY||Mean Difference (54M DFS FU)|-0.016||||0.885|TWO_SIDED|95.0|-0.237|0.205|||analysis of covariance|adjusted for baseline score using mixed-models||||0.205|-0.237|0.885
82600775|NCT01235962|164916545|SUPERIORITY||Mean Differencec (Week 52)|-0.27||||0.143|TWO_SIDED|95.0|-0.633|0.092|||analysis of covariance|adjusted for baseline score using mixed-model||||0.092|-0.633|0.143
82600776|NCT01235962|164916545|SUPERIORITY||Mean Difference (24M DFS FU)|0.069||||0.736|TWO_SIDED|95.0|-0.336|0.475|||analysis of covariance|adjusted for baseline score using mixed-model||||0.475|-0.336|0.736
82600777|NCT01235962|164916545|SUPERIORITY||Mean Difference (36M DFS FU)|0.188||||0.397|TWO_SIDED|95.0|-0.247|0.623|||analysis of covariance|adjusted for baseline score using mixed-model||||0.623|-0.247|0.397
82600778|NCT01235962|164916545|SUPERIORITY||Mean Difference (48M DFS FU)|0.081||||0.781|TWO_SIDED|95.0|-0.488|0.649|||analysis of covariance|adjusted for baseline score using mixed-model||||0.649|-0.488|0.781
82600779|NCT01235962|164916545|SUPERIORITY||Mean Difference (54M DFS FU)|-0.278||||0.503|TWO_SIDED|95.0|-1.094|0.539|||analysis of covariance|adjusted for baseline score using mixed-model||||0.539|-1.094|0.503
82600780|NCT01235962|164916546|SUPERIORITY||Mean Difference (Week 52 thermo)|-0.717||||0.49|TWO_SIDED|95.0|-2.751|1.318|||analysis of covariance|adjusted for baseline score using mixed-model||||1.318|-2.751|0.490
82600781|NCT01235962|164916546|SUPERIORITY||Mean Difference (24M DFS FU- thermo)|-0.285||||0.788|TWO_SIDED|95.0|-2.358|1.788|||analysis of covariance|adjusted for baseline score using mixed-model||||1.788|-2.358|0.788
82600782|NCT01235962|164916546|SUPERIORITY||Mean Difference (36M DFS FU- thermo)|1.18||||0.266|TWO_SIDED|95.0|-0.901|3.262|||analysis of covariance|adjusted for baseline score using mixed-model||||3.262|-0.901|0.266
82600783|NCT01235962|164916546|SUPERIORITY||Mean Difference (48M DFS FU - thermo)|0.725||||0.57|TWO_SIDED|95.0|-1.779|3.229|||analysis of covariance|adjusted for baseline score using mixed-model||||3.229|-1.779|0.570
82600784|NCT01235962|164916546|SUPERIORITY||Mean Difference (54M DFS FU - thermo)|2.023||||0.346|TWO_SIDED|95.0|-2.205|6.251|||analysis of covariance|adjusted for baseline score using mixed-model||||6.251|-2.205|0.346
82600785|NCT01235962|164916546|SUPERIORITY||Mean Difference (Week 52 - UI)|-0.018||||0.111|TWO_SIDED|95.0|-0.04|0.004|||analysis of covariance|adjusted for baseline score using mixed-model||||0.004|-0.040|0.111
82600786|NCT01235962|164916546|SUPERIORITY||Mean Difference (24M DFS FU - UI)|-0.02||||0.094|TWO_SIDED|95.0|-0.044|0.003|||analysis of covariance|adjusted for baseline score using mixed-model||||0.003|-0.044|0.094
82600787|NCT01235962|164916546|SUPERIORITY||Mean Difference (36M DFS FU - UI)|0.01||||0.49|TWO_SIDED|95.0|-0.018|0.037|||analysis of covariance|adjusted for baseline score using mixed-model||||0.037|-0.018|0.490
82600788|NCT01235962|164916546|SUPERIORITY||Mean Difference (48M DFS FU - UI)|-0.009||||0.58|TWO_SIDED|95.0|-0.043|0.024|||analysis of covariance|adjusted for baseline score using mixed-model||||0.024|-0.043|0.580
82600789|NCT01235962|164916546|SUPERIORITY||Mean Difference (54M DFS FU - UI)|0.017||||0.473|TWO_SIDED|95.0|-0.029|0.063|||analysis of covariance|adjusted for baseline score using mixed-model||||0.063|-0.029|0.473
82600790|NCT01235962|164916547|SUPERIORITY||Mean Difference (Week 52)|-3.536|||<|0.001|TWO_SIDED|95.0|-4.466|-2.606|||analysis of covariance|adjusted for baseline score using mixed-model||||-2.606|-4.466|<.001
82600791|NCT01235962|164916547|SUPERIORITY||Mean difference (24M DFS FU)|-0.102||||0.812|TWO_SIDED|95.0|-0.942|0.738|||analysis of covariance|adjusted for baseline score using mixed-model||||0.738|-0.942|0.812
82600792|NCT01235962|164916547|SUPERIORITY||Mean Difference (36M DFS FU)|0.233||||0.621|TWO_SIDED|95.0|-0.69|1.155|||analysis of covariance|adjusted for baseline score using mixed-model||||1.155|-0.690|0.621
82600793|NCT01235962|164916547|SUPERIORITY||Mean Difference (48M DFS FU)|0.082||||0.878|TWO_SIDED|95.0|-0.959|1.122|||analysis of covariance|adjusted for baseline score using mixed-model||||1.122|-0.959|0.878
82600794|NCT01235962|164916547|SUPERIORITY||Mean Difference (54M DFS FU)|0.412||||0.533|TWO_SIDED|95.0|-0.887|1.712|||analysis of covariance|adjusted for baseline score using mixed-model||||1.712|-0.887|0.533
82600795|NCT01235962|164916548|SUPERIORITY||Mean Difference (Week 52)|-1.515|||<|0.001|TWO_SIDED|95.0|-2.078|-0.952|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.952|-2.078|<.001
82600796|NCT01235962|164916548|SUPERIORITY||Mean Difference (24M DFS FU)|0.014||||0.961|TWO_SIDED|95.0|-0.534|0.561|||analysis of covariance|adjusted for baseline score using mixed-model||||0.561|-0.534|0.961
82655518|NCT05630547|165026994|SUPERIORITY||LS Geometric Mean Ratio to Baseline|0.986||||0.8042|TWO_SIDED|95.0|0.881|1.103|||MMRM|||Analysis was performed using mixed-effect model with repeated measures (MMRM) including the fixed categorical effects of the treatment group, multiple sclerosis (MS) clinical subtype (relapsing remitting multiple sclerosis \[RRMS\], secondary progressive multiple sclerosis \[SPMS\], or primary progressive multiple sclerosis \[PPMS\]), visit, treatment-by-visit interaction, log-transformed baseline sNfL levels and log-transformed baseline sNfL levels-by-visit interaction.||1.103|0.881|0.8042
82655519|NCT00977470|165026997|EQUIVALENCE|All enrolled patients will be included in the intent-to-treat efficacy analyses. Based on historical patients with EGFR mutations treated with gefitinib, we expect median progression-free survival on the erlotinib-alone arm to be approximately 9 months. This trial can detect a difference in proportions alive without progression at 9 months from 50% in the erlotinib arm to 77% in the erlotinib plus HCQ arm, using an alpha of 0.15 and power of 85%, using the two-sided Likelihood Ratio test.||||||0.28|||||||Log Rank|||||||0.28
82655520|NCT00796822|165027004|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87|STANDARD_DEVIATION|1.09||0.44|TWO_SIDED|95.0|-1.53|3.28|||t-test, 2 sided|||The sample size was determined based on a two-sample, independent, two-tailed t-test with 5% type I error. Using the results from our pilot trial, we conservatively estimated a predicted absolute change in FMD of 3.5% with PTX (assuming no change with placebo) and we assumed a common standard deviation of 2.6%. A sample size of 10 per group was estimated to provide at least 80% power to detect this effect size. Allowing for a 20% dropout rate, we planned to recruit 13 subjects per group.||3.28|-1.53|0.44
82655521|NCT00796822|165027005|SUPERIORITY|There was no formal power calculation for this outcome measure as the study was powered on the primary outcome measure.|Median Difference (Net)|149.1|STANDARD_DEVIATION|151.8||0.03|TWO_SIDED|95.0|16.4|281.9|||t-test, 2 sided|||||281.9|16.4|0.03
82655522|NCT02364557|165027006|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.36|TWO_SIDED|70.0|0.71|1.17||One-side significance level = 0.15|Log Rank||Reference level = SOC arm|Assuming an increase in median PFS from 10.5 to 19 months (HR: 0.55), 69 events provide \>90% power to conclude superiority with 1-sided α = 0.15.||1.17|0.71|0.36
82655523|NCT02364557|165027009|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.91|TWO_SIDED|95.0|0.59|1.61||Two-sided significance level = 0.05|Gray's test||Reference level = SOC arm|||1.61|0.59|0.91
82600797|NCT01235962|164916548|SUPERIORITY||Mean Difference (36M DFS FU)|0.043||||0.888|TWO_SIDED|95.0|-0.555|0.641|||analysis of covariance|adjusted for baseline score using mixed-model||||0.641|-0.555|0.888
82600798|NCT01235962|164916548|SUPERIORITY||Mean Difference (48M DFS FU)|-0.061||||0.858|TWO_SIDED|95.0|-0.736|0.614|||analysis of covariance|adjusted for baseline score using mixed-model||||0.614|-0.736|0.858
82600799|NCT01235962|164916548|SUPERIORITY||Mean Difference (54M DFS FU)|0.452||||0.3|TWO_SIDED|95.0|-0.404|1.309|||analysis of covariance|adjusted for baseline score using mixed-model||||1.309|-0.404|0.300
82600800|NCT01235962|164916549|SUPERIORITY||Mean Difference (Week 52)|-0.103||||0.059|TWO_SIDED|95.0|-0.211|0.004|||analysis of covariance|adjusted for baseline score using mixed-model||||0.004|-0.211|0.059
82600801|NCT01235962|164916549|SUPERIORITY||Mean Difference (24M DFS FU)|-0.041||||0.487|TWO_SIDED|95.0|-0.155|0.074|||analysis of covariance|adjusted for baseline score using mixed-model||||0.074|-0.155|0.487
82600802|NCT01235962|164916549|SUPERIORITY||Mean Difference (36M DFS FU)|0.037||||0.885|TWO_SIDED|95.0|-0.085|0.16|||analysis of covariance|adjusted for baseline score using mixed-model||||0.160|-0.085|0.885
82600803|NCT01235962|164916549|SUPERIORITY||Mean Difference (48M DFS FU)|-0.032||||0.676|TWO_SIDED|95.0|-0.183|0.119|||analysis of covariance|adjusted for baseline score using mixed-model||||0.119|-0.183|0.676
82600804|NCT01235962|164916549|SUPERIORITY||Mean Difference (54M DFS FU)|-0.015||||0.859|TWO_SIDED|95.0|-0.183|0.153|||analysis of covariance|adjusted for baseline score using mixed-model||||0.153|-0.183|0.859
82600805|NCT01235962|164916550|SUPERIORITY||Mean Diffeence (Week 52)|-1.535|||<|0.001|TWO_SIDED|95.0|-1.769|-1.3|||analysis of covariance|adjusted for baseline score using mixed-model||||-1.300|-1.769|<.001
82600806|NCT01235962|164916550|SUPERIORITY||Mean Diffeence (24M DFS FU)|0.089||||0.127|TWO_SIDED|95.0|-0.025|0.202|||analysis of covariance|adjusted for baseline score using mixed-model||||0.202|-0.025|0.127
82492143|NCT03993132|164677525|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.84|1.08|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.08|0.84|
82600807|NCT01235962|164916550|SUPERIORITY||Mean Diffeence (36M DFS FU)|0.123||||0.069|TWO_SIDED|95.0|-0.009|0.255|||analysis of covariance|adjusted for baseline score using mixed-model||||0.255|-0.009|0.069
82600808|NCT01235962|164916550|SUPERIORITY||Mean Diffeence (48M DFS FU)|0.049||||0.544|TWO_SIDED|95.0|-0.11|0.208|||analysis of covariance|adjusted for baseline score using mixed-model||||0.208|-0.110|0.544
82600809|NCT01235962|164916550|SUPERIORITY||Mean Difference (54M DFS FU)|0.061||||0.518|TWO_SIDED|95.0|-0.124|0.246|||analysis of covariance|adjusted for baseline score using mixed-model||||0.246|-0.124|0.518
82655524|NCT02364557|165027011|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.9|TWO_SIDED|95.0|0.54|2.02||Two-sided significance level = 0.05.|Log Rank||Reference level = CTCs Absent|||2.02|0.54|0.90
82655525|NCT05097989|165027020|OTHER||Percentage Difference|-17.7||||0.2422|TWO_SIDED|90.0|-37.5|8.3|||ANCOVA|||||8.3|-37.5|0.2422
82655526|NCT05097989|165027020|OTHER||Percentage Difference|-6.0||||0.8701|TWO_SIDED|90.0|-49.3|74.4|||ANCOVA|||||74.4|-49.3|0.8701
82655527|NCT01822548|165027046|OTHER||||||<|0.05|||||||Regression, Linear|Generalized linear model (GLM)||||||<0.05
82655528|NCT01822548|165027046|SUPERIORITY||Slope|0.362|||<|0.05|TWO_SIDED|95.0|0.028|0.695|||ANOVA|adjustment for baseline value of EPC||||0.695|0.028|<0.05
82655529|NCT01822548|165027047|SUPERIORITY||Slope|-0.067|||<|0.05|TWO_SIDED|95.0|-0.358|0.224|||ANOVA|||||0.224|-0.358|<0.05
82655530|NCT00117949|165027049|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
82600810|NCT01235962|164916551|SUPERIORITY||Mean Diffeence (Week 52)|-0.374||||0.022|TWO_SIDED|95.0|-0.695|-0.053|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.053|-0.695|0.022
82600811|NCT01235962|164916551|SUPERIORITY||Mean Diffeence (24M DFS FU)|-0.104||||0.567|TWO_SIDED|95.0|-0.462|0.253|||analysis of covariance|adjusted for baseline score using mixed-model||||0.253|-0.462|0.567
82600812|NCT01235962|164916551|SUPERIORITY||Mean Difference (36M DFS FU)|0.072||||0.706|TWO_SIDED|95.0|-0.302|0.446|||analysis of covariance|adjusted for baseline score using mixed-model||||0.446|-0.302|0.706
82600813|NCT01235962|164916551|SUPERIORITY||Mean Difference (48M DFS FU)|0.12||||0.612|TWO_SIDED|95.0|-0.343|0.583|||analysis of covariance|adjusted for baseline score using mixed-model||||0.583|-0.343|0.612
82600814|NCT01235962|164916551|SUPERIORITY||Mean Difference (54M DFS FU)|-0.045||||0.87|TWO_SIDED|95.0|-0.587|0.496|||analysis of covariance|adjusted for baseline score using mixed-model||||0.496|-0.587|0.870
82600815|NCT01235962|164916552|SUPERIORITY||Mean Difference (Week 52 - thermo.)|-2.116||||0.018|TWO_SIDED|95.0|-3.872|-0.359|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.359|-3.872|0.018
82600816|NCT01235962|164916552|SUPERIORITY||Mean Difference (24M DFS FU - thermo)|-0.253||||0.778|TWO_SIDED|95.0|-2.014|1.508|||analysis of covariance|adjusted for baseline score using mixed-model||||1.508|-2.014|0.778
82600817|NCT01235962|164916552|SUPERIORITY||Mean Difference (36M DFS FU - thermo)|0.847||||0.376|TWO_SIDED|95.0|-1.03|2.724|||analysis of covariance|adjusted for baseline score using mixed-model||||2.724|-1.030|0.376
82600818|NCT01235962|164916552|SUPERIORITY||Mean Difference (48M DFS FU - thermo)|0.131||||0.905|TWO_SIDED|95.0|-2.032|2.294|||analysis of covariance|adjusted for baseline score using mixed-model||||2.294|-2.032|0.905
82600819|NCT01235962|164916552|SUPERIORITY||Mean Difference (54M DFS FU - thermo)|0.401||||0.768|TWO_SIDED|95.0|-2.269|3.071|||analysis of covariance|adjusted for baseline score using mixed-model||||3.071|-2.269|0.768
82600820|NCT01235962|164916552|SUPERIORITY||Mean Difference (Week 52 - UI)|-0.026||||0.007|TWO_SIDED|95.0|-0.044|-0.007|||analysis of covariance|adjusted for baseline score using mixed-model||||-0.007|-0.044|0.007
82600821|NCT01235962|164916552|SUPERIORITY||Mean Difference (24M DFS FU - UI)|-0.016||||0.13|TWO_SIDED|95.0|-0.036|0.005|||analysis of covariance|adjusted for baseline score using mixed-model||||0.005|-0.036|0.130
82600822|NCT01235962|164916552|SUPERIORITY||Mean Difference (36M DFS FU - UI)|0.007||||0.52|TWO_SIDED|95.0|-0.015|0.03|||analysis of covariance|adjusted for baseline score using mixed-model||||0.030|-0.015|0.520
82600823|NCT01235962|164916552|SUPERIORITY||Mean Difference (48M DFS FU - UI)|-0.014||||0.276|TWO_SIDED|95.0|-0.04|0.011|||analysis of covariance|adjusted for baseline score using mixed-model||||0.011|-0.040|0.276
82600824|NCT01235962|164916552|SUPERIORITY||Mean Difference (54M DFS FU - UI)|-0.007||||0.665|TWO_SIDED|95.0|-0.037|0.024|||analysis of covariance|adjusted for baseline score using mixed-model||||0.024|-0.037|0.665
82600825|NCT00993928|164916579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||Comparison of Q3: Percent change in sleep latency from baseline to week 7.||||0.85
82600826|NCT00993928|164916579|SUPERIORITY_OR_OTHER_LEGACY|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||Comparison of Q6A: Percent change in time to fall back asleep from baseline to week 7.||||0.86
82600827|NCT00993928|164916581|SUPERIORITY_OR_OTHER_LEGACY|||||||0.42|||||||Chi-squared|||||||0.42
82600828|NCT00993928|164916583|SUPERIORITY_OR_OTHER_LEGACY|||||||0.64|||||||t-test, 2 sided|||Compare percent change from baseline to week 7 Distress Thermometer score.||||0.64
82655531|NCT00117949|165027049|SUPERIORITY_OR_OTHER||Median days to insufficient T response|84.0||||||95.0|35.0|112.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response.||112|35|
82655532|NCT00117949|165027049|SUPERIORITY_OR_OTHER||Median days to insufficient T response|98.0||||||95.0|70.0|126.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response||126|70|
82600829|NCT01060059|164916600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.831|TWO_SIDED|95.0|0.62|1.46|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if Baseline Gender (Male vs. Female), was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.46|0.62|0.831
82600830|NCT01060059|164916600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.554|TWO_SIDED|95.0|0.74|1.76||Baseline Medical conditions (yes vs. no)|Regression, Logistic|||Logistic regression analysis was used to find factors associated with treatment choice at baseline. Covariates with more than 30% observations missing are omitted in this analysis. Weight was removed (high correlation with BMI) and also fasting blood glucose (lab value) was removed (high correlation with HbA1c). Missing values for remaining numeric covariates were replaced with means, and for categorical ones-with modes.||1.76|0.74|0.554
82600831|NCT01060059|164916600|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.714|TWO_SIDED|95.0|0.43|3.42||Baseline gastrointestinal symptoms (yes vs. no)|Regression, Logistic|||Logistic regression analysis was used to find factors associated with treatment choice at baseline. Covariates with more than 30% observations missing are omitted in this analysis. Weight was removed (high correlation with BMI) and also fasting blood glucose (lab value) was removed (high correlation with HbA1c). Missing values for remaining numeric covariates were replaced with means, and for categorical ones-with modes.||3.42|0.43|0.714
82600832|NCT01060059|164916601|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||<|0.001|TWO_SIDED|95.0|0.6|0.78|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if Baseline HbA1c was 1% more, was it associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.78|0.60|<0.001
82600833|NCT01060059|164916602|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.055|TWO_SIDED|95.0|0.96|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if longer duration of diabetes was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|0.96|0.055
82600834|NCT01060059|164916603|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97|||<|0.001|TWO_SIDED|95.0|0.95|0.99|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if older age (1 year older), was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.99|0.95|<0.001
82600835|NCT01060059|164916604|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19|||<|0.001|TWO_SIDED|95.0|1.15|1.23|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher BMI (1 kg/m\^2 higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.23|1.15|<0.001
82600836|NCT01060059|164916605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.026|TWO_SIDED|95.0|1.0|1.05|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if greater height (1 cm higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.05|1.00|0.026
82600837|NCT01060059|164916606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||0.007|TWO_SIDED|95.0|0.18|0.77|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline creatinine (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||0.77|0.18|0.007
82600838|NCT01060059|164916606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.094|TWO_SIDED|95.0|0.97|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting HDL cholesterol (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|0.97|0.094
82600839|NCT01060059|164916606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.259|TWO_SIDED|95.0|1.0|1.01|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting total cholesterol (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.01|1.00|0.259
82600840|NCT01060059|164916606|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.123|TWO_SIDED|95.0|1.0|1.0|||Regression, Logistic|If several variables had Spearman's rho \> 0.4 (for continuous) and Cramer's V \> 0.4 (for categorical covariates), only one was left in the model.||Logistic regression analysis was used to determine if higher baseline fasting triglycerides (1mg/dL higher) was associated with treatment choice at baseline. Odds ratios were determined and if the odds ratio was greater than 1, it indicated it is more likely to initiate exenatide treatment. Covariates with more than 30% observations missing were omitted in this analysis. Missing values for remaining numeric covariates were replaced with means, and for categorical ones - with modes.||1.00|1.00|0.123
82600841|NCT02302963|164916607|OTHER|Analysis of Variance|||||<|0.001|||||||GLM Repeated Measures|Repeated-measures general linear model was used to compare HCLC versus SAP data. A P-value of \< 0.001 was considered the threshold for significance.||||||<0.001
82600842|NCT00535925|164916614|OTHER||Cox Proportional Hazard|0.48|||<|0.05|TWO_SIDED||||||Regression, Cox|Cox Shared Frailty Model, adjusted for age, sex, SBP, Hb, eGFR, albuminuria, HbA1c, total cholesterol, triglycerides (log-scaled) to reduce bias risk.||||||<0.05
82600843|NCT01493180|164916633|SUPERIORITY_OR_OTHER|||||||0.576|||||||t-test, 2 sided|||||||0.576
82600844|NCT00546052|164916646|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.74||0.999||95.0|-0.02|0.06|||t-test, 1 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is + 0.5%.||0.06|-0.02|0.999
82600845|NCT00546052|164916647|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04|STANDARD_DEVIATION|0.62||0.999||95.0|0.01|0.07|||t-test, 1 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is + 0.5mmol/L.||0.07|0.01|0.999
82600846|NCT00546052|164916649|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.95|STANDARD_DEVIATION|13.34|<|0.001||95.0|-17.62|-16.27|||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is 0 mm Hg||-16.27|-17.62|<0.001
82655533|NCT00117949|165027049|SUPERIORITY_OR_OTHER||Median days to insufficient T response|35.0||||||95.0|14.0|98.0||||||Kaplan-Meier estimates of the time to meet insufficient testosterone (T) response||98|14|
82655534|NCT00117949|165027050|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Log Rank|Participants not castrated were censored as of the days from dosing for the last available observation.||||||0.003
82655535|NCT00117949|165027050|SUPERIORITY_OR_OTHER||Median time to castration (days)|3.0||||||95.0|3.0|7.0||||||Kaplan-Meier estimates of the median time to testosterone castration.||7|3|
82492144|NCT03993132|164677526|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.96|1.11|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.11|0.96|
82492145|NCT03993132|164677527|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.61|0.83|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.83|0.61|
82492146|NCT03993132|164677528|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.76|0.91|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.91|0.76|
82492147|NCT03993132|164677529|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.88|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.88|
82600847|NCT00546052|164916650|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.84|STANDARD_DEVIATION|8.39|<|0.001||95.0|-10.29|-9.39|||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null hypothesis value is 0 mm Hg.||-9.39|-10.29|<0.001
82600848|NCT00546052|164916651|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|5.4|<|0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||<0.001
82492148|NCT03993132|164677530|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.91|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.91|
82492149|NCT03993132|164677531|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.88|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.88|
82492150|NCT03993132|164677532|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.91|0.96|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||0.96|0.91|
82492151|NCT03993132|164677533|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.83|1.18|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.18|0.83|
82600849|NCT00546052|164916652|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.3|STANDARD_DEVIATION|5.2|<|0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||<0.001
82600850|NCT00546052|164916653|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.5|STANDARD_DEVIATION|32.1||0.084|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.084
82600851|NCT00546052|164916654|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.2|STANDARD_DEVIATION|18.0||0.654|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.654
82600852|NCT00546052|164916655|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.1|STANDARD_DEVIATION|43.5||0.336|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.336
82600853|NCT00546052|164916656|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|17.0||0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.001
82600854|NCT00546052|164916657|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.2|STANDARD_DEVIATION|63.8||0.001|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.001
82600855|NCT00546052|164916658|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.4|STANDARD_DEVIATION|8.7||0.613|||||||t-test, 2 sided|||Single Cohort Study. Statistical Analysis is based on change from baseline. Null Hypothesis value is 0.||||0.613
82600856|NCT04247425|164916663|SUPERIORITY|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.59
82600857|NCT04247425|164916664|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.02
82600858|NCT04247425|164916665|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||1.0
82600859|NCT04247425|164916666|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||Baseline compared to end of 12 week exercise intervention||||0.09
82600860|NCT02531646|164916690|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval (-0.25, 0.25)||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|Equivalence test|||||||0.000
82600861|NCT02531646|164916691|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence interval (-0.25, 0.25)||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|Equivalence test|||||||0.000
82600862|NCT02531646|164916692|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician.They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
82600863|NCT02531646|164916693|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
82600864|NCT02531646|164916694|SUPERIORITY_OR_OTHER|||||||0.007||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.007
82600865|NCT02531646|164916696|SUPERIORITY_OR_OTHER|||||||0||||||"Level of significance (alpha) = 0.05~All p-values were calculated (and verified) by our statistician. They were rounded to fit four digits."|t-test, 1 sided|||||||0.000
82600866|NCT01227902|164916744|SUPERIORITY_OR_OTHER||percentage of participants|40.0|||||TWO_SIDED|95.0|27.1|52.9|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||52.9|27.1|
82600867|NCT01227902|164916744|SUPERIORITY_OR_OTHER||percentage of participants|32.0|||||TWO_SIDED|95.0|19.1|44.9|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||44.9|19.1|
82600868|NCT01227902|164916744|SUPERIORITY_OR_OTHER||percentage of participants|50.0|||||TWO_SIDED|95.0|35.2|64.8|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||64.8|35.2|
82600869|NCT01227902|164916744|SUPERIORITY_OR_OTHER||percentage of participants|56.9|||||TWO_SIDED|95.0|43.3|70.5|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||70.5|43.3|
82600870|NCT01227902|164916744|SUPERIORITY_OR_OTHER||percentage of participants|44.5|||||TWO_SIDED|95.0|37.6|51.4|||||The estimated value represents the percentage of participants with a \>=50% reduction in partial-onset seizure frequency from Baseline.|||51.4|37.6|
82600871|NCT02363478|164916780|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|This statistical analysis applies to changes of amplitude of contractions, resting LES pressure and IRP between baseline and week 4.||||||<0.05
82600872|NCT02363478|164916783|SUPERIORITY_OR_OTHER|||||||0.05|||||||t-test, 2 sided|This statistical analysis applies to changes of amplitude of heartburn, regurgitation, chest pain and dysphagia between baseline and week 4.||||||0.05
82600873|NCT00680836|164916822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.26|TWO_SIDED|95.0|-1.0|0.3|||t-test, 2 sided|||||0.3|-1.0|0.26
82600874|NCT00680836|164916823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.98|TWO_SIDED|95.0|0.0|0.5|||t-test, 2 sided|||||0.5|0.0|0.98
82600875|NCT00680836|164916824|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.78|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.78
82600876|NCT00680836|164916825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.64|TWO_SIDED|95.0|-0.2|0.2|||Chi-squared|||||0.2|-0.2|0.64
82600877|NCT00680836|164916826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.72|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||||0.5|-0.7|0.72
82600878|NCT00680836|164916827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.86|TWO_SIDED|95.0|-0.5|0.6|||t-test, 2 sided|||||0.6|-0.5|0.86
82600879|NCT03968419|164916864|OTHER||Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-25.56|21.23||||||Difference in MPR rate||21.23|-25.56|
82600880|NCT00167245|164916867|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82600881|NCT00167245|164916868|SUPERIORITY_OR_OTHER_LEGACY|||||||0.45|||||||Generalized Estimating Equations|||||||0.45
82600882|NCT00167245|164916869|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.4|TWO_SIDED|95.0|-2.1|5.2|||t-test, 2 sided|||||5.2|-2.1|0.4
82655536|NCT00117949|165027050|SUPERIORITY_OR_OTHER||Median time to castration (days)|3.0||||||95.0|1.0|3.0||||||Kaplan-Meier estimates of the time to testosterone castration.||3|1|
82600883|NCT00804687|164916872|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.126|STANDARD_ERROR_OF_MEAN|0.066||0.0602||95.0|-0.258|0.006|||Linear mixed model|||||0.006|-0.258|0.0602
82600884|NCT00804687|164916872|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.195|STANDARD_ERROR_OF_MEAN|0.067||0.0043||95.0|-0.328|-0.063|||Linear mixed model|||||-0.063|-0.328|0.0043
82600885|NCT00804687|164916872|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-0.066|STANDARD_ERROR_OF_MEAN|0.07||0.3513|TWO_SIDED|95.0|-0.206|0.075|||Linear mixed model|||||0.075|-0.206|0.3513
82600886|NCT00804687|164916873|SUPERIORITY_OR_OTHER||Least Squares Mean difference|8.604|STANDARD_ERROR_OF_MEAN|2.267||0.0003||95.0|4.104|13.104|||Linear mixed model|||||13.104|4.104|0.0003
82600887|NCT00804687|164916873|SUPERIORITY_OR_OTHER||Least Squares Mean difference|4.699|STANDARD_ERROR_OF_MEAN|2.289||0.0428||95.0|0.155|9.243|||Linear mixed model|||||9.243|0.155|0.0428
82600888|NCT00804687|164916873|SUPERIORITY_OR_OTHER||Least Squares Mean difference|-3.905|STANDARD_ERROR_OF_MEAN|2.277||0.0895|TWO_SIDED|95.0|-8.424|0.614|||Linear mixed model|||||0.614|-8.424|0.0895
82600889|NCT00445302|164916884|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|87.09|||||TWO_SIDED|90.0|63.59|119.26||||||||119.26|63.59|
82600890|NCT00445302|164916884|SUPERIORITY_OR_OTHER||Ratio of least squares means(%)|106.6||||||90.0|78.99|143.87||||||||143.87|78.99|
82600891|NCT00445302|164916884|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|106.76||||||90.0|79.11|144.08||||||||144.08|79.11|
82600892|NCT00445302|164916887|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|121.74||||||90.0|91.86|161.43||||||||161.43|91.86|
82600893|NCT00445302|164916887|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|151.44||||||90.0|115.78|198.09||||||||198.09|115.78|
82600894|NCT00445302|164916887|SUPERIORITY_OR_OTHER||Ratio of least squares means (%)|169.51||||||90.0|129.59|221.72||||||||221.72|129.59|
82600895|NCT02642094|164917023|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|||||||0.0020
82600896|NCT02642094|164917024|SUPERIORITY|||||||0.0137|||||||t-test, 2 sided|||||||0.0137
82655537|NCT00117949|165027051|SUPERIORITY_OR_OTHER||Percentage of participants|0.0||||||95.0|0.0|0.0||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||0|0|
82600897|NCT02642094|164917025|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82600898|NCT02642094|164917026|SUPERIORITY|||||||0.0072|||||||t-test, 2 sided|||||||0.0072
82600899|NCT02642094|164917027|SUPERIORITY|||||||0.3093|||||||t-test, 2 sided|||||||0.3093
82655538|NCT00117949|165027051|SUPERIORITY_OR_OTHER||Percentage of participants|42.7||||||95.0|22.0|63.4||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||63.4|22|
82600900|NCT04871711|164917031|SUPERIORITY||Risk Difference (RD)|9.8||||0.006|TWO_SIDED|95.0|3.6|16.1||5% significance level (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||16.1|3.6|0.006
82600901|NCT04871711|164917032|SUPERIORITY||Risk Difference (RD)|24.1|||<|0.001|TWO_SIDED|95.0|15.5|32.6||Evaluated at 5% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.6|15.5|<0.001
82600902|NCT04871711|164917033|SUPERIORITY||Risk Difference (RD)|22.8|||<|0.001|TWO_SIDED|95.0|14.0|31.7||Evaluated at 5% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||31.7|14.0|<0.001
82600903|NCT04871711|164917034|SUPERIORITY||Risk Difference (RD)|12.3||||0.001|TWO_SIDED|95.0|5.7|18.9||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||18.9|5.7|0.001
82600904|NCT04871711|164917035|SUPERIORITY||Risk Difference (RD)|10.4|||<|0.001|TWO_SIDED|95.0|5.3|15.6||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||15.6|5.3|<0.001
82600905|NCT04871711|164917036|SUPERIORITY||Risk Difference (RD)|21.0|||<|0.001|TWO_SIDED|95.0|12.6|29.4||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||29.4|12.6|<0.001
82600906|NCT04871711|164917037|SUPERIORITY||Risk Difference (RD)|19.5|||<|0.001|TWO_SIDED|95.0|12.5|26.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||26.5|12.5|<0.001
82600907|NCT04871711|164917038|SUPERIORITY||Risk Difference (RD)|9.3||||0.004|TWO_SIDED|95.0|3.8|14.7||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||14.7|3.8|0.004
82600908|NCT04871711|164917039|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.001|TWO_SIDED|95.0|14.4|30.6||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||30.6|14.4|<0.001
82600909|NCT04871711|164917040|SUPERIORITY||Risk Difference (RD)|19.5|||<|0.001|TWO_SIDED|95.0|12.5|26.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||26.5|12.5|<0.001
82655539|NCT00117949|165027051|SUPERIORITY_OR_OTHER||Percentage of participants|61.6||||||95.0|41.8|81.3||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||81.3|41.8|
82655540|NCT00117949|165027051|SUPERIORITY_OR_OTHER||Percentage of participants|35.6||||||95.0|15.8|55.5||||||Kaplan-Meier estimates of the percentage of participants with sufficient testosterone suppression.||55.5|15.8|
82655541|NCT00117949|165027052|SUPERIORITY_OR_OTHER|||||||0.181||95.0|||||Cochran-Armitage Trend Test.|||||||0.181
82498976|NCT02289417|164688930|SUPERIORITY||Stratified Difference|5.2||||0.2472|TWO_SIDED|95.0|-5.7|16.7|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||16.7|-5.7|0.2472
82655542|NCT00117949|165027052|SUPERIORITY_OR_OTHER||Percentage of participants|10.0||||||95.0|0.3|44.5||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||44.5|0.3|
82600910|NCT04871711|164917041|SUPERIORITY||Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|12.4|30.9||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||30.9|12.4|<0.001
82600911|NCT04871711|164917042|SUPERIORITY||Risk Difference (RD)|23.9|||<|0.001|TWO_SIDED|95.0|15.2|32.7||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||32.7|15.2|<0.001
82600912|NCT04871711|164917043|SUPERIORITY||Risk Difference (RD)|19.6|||<|0.001|TWO_SIDED|95.0|11.8|27.5||Evaluated at 4% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||27.5|11.8|<0.001
82600913|NCT04871711|164917044|SUPERIORITY||Risk Difference (RD)|17.2|||<|0.001|TWO_SIDED|95.0|10.1|24.3||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||24.3|10.1|<0.001
82600914|NCT04871711|164917045|SUPERIORITY||Risk Difference (RD)|25.7|||<|0.001|TWO_SIDED|95.0|17.2|34.3||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||34.3|17.2|<0.001
82600915|NCT04871711|164917046|SUPERIORITY||Risk Difference (RD)|24.2|||<|0.001|TWO_SIDED|95.0|15.5|33.0||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||33.0|15.5|<0.001
82600916|NCT04871711|164917047|SUPERIORITY||Mean Difference (Net)|-35.2|||<|0.001|TWO_SIDED|95.0|-46.7|-23.8||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HECSI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-23.8|-46.7|<0.001
82600917|NCT04871711|164917048|SUPERIORITY||Mean Difference (Net)|-3.6|||<|0.001|TWO_SIDED|95.0|-4.7|-2.6||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline DLQI score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-2.6|-4.7|<0.001
82600918|NCT04871711|164917049|SUPERIORITY||Mean Difference (Net)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.2|-1.2||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.2|-2.2|<0.001
82655543|NCT00117949|165027052|SUPERIORITY_OR_OTHER||Percentage of participants|70.8||||||95.0|48.9|87.4||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||87.4|48.9|
82655544|NCT00117949|165027052|SUPERIORITY_OR_OTHER||Percentage of participants|79.2||||||95.0|57.8|92.9||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||92.9|57.8|
82655545|NCT00117949|165027052|SUPERIORITY_OR_OTHER||Percentage of participants|54.2||||||95.0|32.8|74.4||||||Kaplan Meier-estimates of the percentage of participants with testostestone serum levels below 0.5 ng/mL for at least 28 days.||74.4|32.8|
82655546|NCT00117949|165027053|SUPERIORITY_OR_OTHER|||||||0.046||95.0|||||Log Rank|||||||0.046
82655547|NCT00117949|165027053|SUPERIORITY_OR_OTHER||days|14.0||||||95.0|14.0|28.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||28|14|
82655548|NCT00117949|165027053|SUPERIORITY_OR_OTHER||days|14.0||||||95.0|14.0|28.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||28|14|
82655549|NCT00117949|165027053|SUPERIORITY_OR_OTHER||days|28.0||||||95.0|14.0|41.0||||||Kaplan-Meier estimates of the time (days) to 50% reduction in PSA||41|14|
82600919|NCT04871711|164917050|SUPERIORITY||Mean Difference (Net)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.3|-1.2||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD itch score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.2|-2.3|<0.001
82600920|NCT04871711|164917051|SUPERIORITY||Mean Difference (Net)|-1.6|||<|0.001|TWO_SIDED|95.0|-2.1|-1.0||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HESD pain score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-1.0|-2.1|<0.001
82600921|NCT04871711|164917052|SUPERIORITY||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-0.83|-0.45||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.45|-0.83|<0.001
82600922|NCT04871711|164917053|SUPERIORITY||Mean Difference (Net)|-0.6|||<|0.001|TWO_SIDED|95.0|-0.79|-0.4||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|ANCOVA|Adjusted for treatment, region, baseline IGA-CHE score, and baseline HEIS PDAL score.||Primary analysis of primary estimand 'composite'. Missing data for subjects who did not attend the visit was imputed as WOCF (including baseline value). For subjects who received rescue treatment or subjects who have permanently discontinued the IMP, observed data was considered non-response by using WOCF (including baseline value).||-0.40|-0.79|<0.001
82600923|NCT04871711|164917054|SUPERIORITY||Risk Difference (RD)|24.5|||<|0.001|TWO_SIDED|95.0|15.0|33.9||Evaluated at 1% significance level (two-sided) using hierarchical tests, alpha splitting and alpha recycling controlling overall type 1 error at 5% (two-sided).|Cochran-Mantel-Haenszel|Stratified by region and baseline IGA-CHE score.|Mantel-Haenszel risk difference, stratified by region and baseline IGA-CHE score.|Based on the primary analysis of the primary estimand 'composite'. Subjects with missing data, subjects who received rescue treatment, or subjects who permanently discontinued IMP were considered non-responders.||33.9|15.0|<0.001
82600924|NCT01665144|164917056|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0134|TWO_SIDED|95.0|0.65|0.95|||Cox proportional hazards model|||||0.95|0.65|0.0134
82600925|NCT01665144|164917057|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.4398|TWO_SIDED|95.0|0.8|1.1|||Cox proportional hazards model|||||1.10|0.80|0.4398
82600926|NCT01665144|164917058|SUPERIORITY||Mean Difference (Final Values)|-613.1|STANDARD_ERROR_OF_MEAN|95.39|<|0.0001|TWO_SIDED|95.0|-800.2|-426.0|||Mixed model for repeated measures|||Month 12||-426.0|-800.2|<0.0001
82600927|NCT01665144|164917058|SUPERIORITY||Mean Difference (Final Values)|-777.5|STANDARD_ERROR_OF_MEAN|108.62|<|0.0001|TWO_SIDED|95.0|-990.6|-564.4|||Mixed model for repeated measures|||Month 24||-564.4|-990.6|<0.0001
82492152|NCT03993132|164677534|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.97|1.16|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.16|0.97|
82600928|NCT01665144|164917058|SUPERIORITY||Mean Difference (Final Values)|-695.3|STANDARD_ERROR_OF_MEAN|92.79|<|0.0001|TWO_SIDED|95.0|-877.3|-513.3|||Mixed model for repeated measures|||Average over Month 12 and Month 24||-513.3|-877.3|<0.0001
82600929|NCT01665144|164917059|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.0058|TWO_SIDED|95.0|0.6|0.92|||Cox proportional hazards model|||||0.92|0.60|0.0058
82600930|NCT01665144|164917060|SUPERIORITY||ARR ratio|0.445|||<|0.0001|TWO_SIDED|95.0|0.337|0.587|||Negative binomial regression model|||||0.587|0.337|<0.0001
82600931|NCT01665144|164917061|SUPERIORITY||Hazard Ratio (HR)|0.54|||<|0.0001|TWO_SIDED|95.0|0.41|0.7|||Cox proportional hazards model|||||0.70|0.41|<0.0001
82600932|NCT01665144|164917063|SUPERIORITY||Mean Difference (Final Values)|-1.83|STANDARD_ERROR_OF_MEAN|1.03||0.0764|TWO_SIDED|95.0|-3.85|0.19|||Repeated measures model|||Month 12||0.19|-3.85|0.0764
82600933|NCT01665144|164917063|SUPERIORITY||Mean Difference (Final Values)|-1.23|STANDARD_ERROR_OF_MEAN|1.359||0.3671|TWO_SIDED|95.0|-3.89|1.44|||Repeated measures model|||Month 24||1.44|-3.89|0.3671
82600934|NCT01665144|164917064|SUPERIORITY||Rate ratio|0.126|||<|0.0001|TWO_SIDED|95.0|0.083|0.191|||Negative binomial regression model|||Month 12||0.191|0.083|<0.0001
82600935|NCT01665144|164917064|SUPERIORITY||Rate ratio|0.178|||<|0.0001|TWO_SIDED|95.0|0.087|0.362|||Negative binomial regression model|||Month 24||0.362|0.087|<0.0001
82600936|NCT01665144|164917065|SUPERIORITY||Rate ratio|0.266|||<|0.0001|TWO_SIDED|95.0|0.215|0.328|||Regression model|Repeated measures negative binomial regression model||Month 12||0.328|0.215|<0.0001
82600937|NCT01665144|164917065|SUPERIORITY||Rate ratio|0.142|||<|0.0001|TWO_SIDED|95.0|0.103|0.196|||Regression model|Repeated measures negative binomial regression model||Month 24||0.196|0.103|<0.0001
82600938|NCT01665144|164917066|SUPERIORITY||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.0367|<|0.0001|TWO_SIDED|95.0|0.103|0.247|||Repeated measures model|||Month 12||0.247|0.103|<0.0001
82600939|NCT01665144|164917066|SUPERIORITY||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.0549||0.0196|TWO_SIDED|95.0|0.021|0.236|||Repeated measures model|||Month 24||0.236|0.021|0.0196
82600940|NCT01665144|164917067|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.68|1.11|||Cox proportional hazard model|||Without superimposed relapses at baseline||1.11|0.68|
82600941|NCT01665144|164917067|SUPERIORITY||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.49|0.91|||Cox proportional hazard model|||With superimposed relapses at baseline||0.91|0.49|
82655550|NCT00117949|165027054|SUPERIORITY_OR_OTHER|||||||0.926||95.0|||||Log Rank|||||||0.926
82655551|NCT00117949|165027054|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|56.0||||||Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||56|35|
82492153|NCT03993132|164677535|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.72|1.06|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.06|0.72|
82600942|NCT01665144|164917067|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.06|||Cox proportional hazard model|||Without superimposed relapses post-treatment||1.06|0.69|
82600943|NCT01665144|164917067|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.53|1.19|||Cox proportional hazard model|||With superimposed relapses post-treatment||1.19|0.53|
82600944|NCT01665144|164917068|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.46|0.91|||Cox proportional hazard model|||Rapidly evolving patients||0.91|0.46|
82600945|NCT01665144|164917068|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.69|1.09|||Cox proportional hazard model|||Not rapidly evolving patients||1.09|0.69|
82492154|NCT03993132|164677536|OTHER|A Cox regression with selected variables based on previous literature, covariate data availability, examination of exposure group differences in the distribution of each covariate, and the association of covariates with the outcomes of interest was applied. The hazard ratio compare Empagliflozin versus Liraglutide (reference).|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.88|1.1|||||Hazard ratio compares empagliflozin versus liraglutide (reference).|||1.10|0.88|
82492155|NCT02805972|164677540|SUPERIORITY|"The null hypothesis is that there would be no difference across the Naloxone and placebo conditions.~The alternative hypothesis is that the cortisol value would be higher in the Naloxone condition than in the placebo condition."|Mean Difference (Final Values)|1.26||||0.067|TWO_SIDED|95.0|0.98|1.61||If the Winsorized value is excluded from analyses altogether, the P value is .012|t-test, 2 sided|Cortisol was log transformed for the statistical test, and the reported mean difference was exponentiated back to the original units of nmol/L below.||We compared cortisol values at 55 minutes, within person, across conditions. We Winsorized one participant's values for the placebo visit where values were between 2-4x above the 99th percentile value in the data and then log-transformed the data.||1.61|0.98|.067
82492156|NCT00939640|164677563|SUPERIORITY_OR_OTHER_LEGACY|||||||0.17|TWO_SIDED||||||Wilcoxon matched-pairs|||||||.17
82492157|NCT00939640|164677564|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02||95.0|||||Wilcoxon matched-pairs tests|||||||.02
82492158|NCT00939640|164677569|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
82600946|NCT01665144|164917069|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.65|0.99|||Cox proportional hazard model|||With moderate or severe course of disease||0.99|0.65|
82600947|NCT01665144|164917069|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.47|1.13|||Cox proportional hazard model|||Without moderate or severe course of disease||1.13|0.47|
82600948|NCT01913483|164917070|SUPERIORITY|||||||0.9458||||||The primary endpoint analysis was to assess the superiority of bivalirudin versus UFH in BARC ≥3 bleeds within the 48 hours post study drug initiation or at hospital discharge, whichever occurred first.|Chi-squared|||Assuming a bleeding event rate of 5.0% in the heparin control treatment group and 3.2% in the bivalirudin group (36% relative risk reduction, a sample size of 3900 participants was to provide more than 80% power with a two-tailed alpha level of 0.05). This estimate took into consideration that the interim efficacy analysis was to be performed when approximately 70% of participants were enrolled using the O'Brien-Fleming alpha spending function.||||0.9458
82600949|NCT00632853|164917075|SUPERIORITY|||||||0.8741|||||||Log Rank|||||||0.8741
82600950|NCT00695565|164917099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.168|TWO_SIDED|95.0|||||Mixed Models Analysis|||This analysis does not take into account the subjects' screening capsaicin response (measure of nociceptor function).||||0.168
82600951|NCT00695565|164917099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.2||||0.014|TWO_SIDED|95.0|||||Mixed Models Analysis|||"Each subject was screened for responsiveness of nociceptors in the skin to a capsaicin stimulus (rated on 0-10 pain scale; 0=no pain and 10=worst possible pain). The interaction term composed of treatment assignment and capsaicin threshold was examined at the prespecified alpha level of 0.1.~This analysis includes subjects with a capsaicin rating of ≥ 2. Thirty (30) subjects in the Placebo group and 33 subjects in the active Clonidine Topical Gel (ARC-4558) group had capsaicin scores ≥ 2."||||0.014
82600952|NCT01462266|164917122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.7||||0.009|TWO_SIDED|95.0|-8.3|-1.2|||Longitudinal data analysis|Adjusting for participant's use of metformin at Visit 1/Screening Visit (i.e., on metformin, or not on metformin)||||-1.2|-8.3|0.009
82492159|NCT00939640|164677570|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.02
82492160|NCT05263895|164677636|OTHER||Ratio of Adjusted Geometric means|90.54|||||TWO_SIDED|90.0|79.85|102.65||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||102.65|79.85|
82492161|NCT05263895|164677636|OTHER||Ratio of Adjusted Geometric Means|102.78|||||TWO_SIDED|90.0|90.65|116.53||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||116.53|90.65|
82600953|NCT01106846|164917127|SUPERIORITY_OR_OTHER|||||||0.947|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.947
82600954|NCT02288273|164917136|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|||||||<0.001
82600955|NCT02419508|164917145|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||< 0.001
82600956|NCT02419508|164917146|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82600957|NCT02419508|164917147|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82655552|NCT00117949|165027054|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|84.0||||||Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||84|35|
82655553|NCT00117949|165027054|SUPERIORITY_OR_OTHER||days|56.0||||||95.0|35.0|100.0|||||The upper confidence interval limit could not be calculated. For technical reasons it has been entered as 100.|Kaplan-Meier estimates of the time (days) to 90% reduction in PSA.||100|35|
82655554|NCT01658943|165027058|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Log Rank|||||||0.15
82655555|NCT03309956|165027061|SUPERIORITY|||||||0.23|||||||McNemar|||||||0.23
82655556|NCT02130466|165027067|OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.29|0.74|||||Cox regression model|||0.74|0.29|
82600958|NCT02419508|164917148|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82600959|NCT02419508|164917149|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82600960|NCT02419508|164917150|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82600961|NCT02419508|164917151|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82600962|NCT02851173|164917163|OTHER|||||||0.79|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. CU group.||||0.79
82600963|NCT02851173|164917163|OTHER|||||||0.87|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. MCI group.||||0.87
82600964|NCT02851173|164917163|OTHER|||||||0.16|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. CU group. 3 outliers removed, whose scores were outside 1.5 times the interquartile range.||||0.16
82600965|NCT02851173|164917164|OTHER|||||||0.22|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left middle frontal gyrus 1.||||0.22
82655557|NCT02130466|165027074|OTHER||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.38|0.95|||||Cox regression model|||0.95|0.38|
82655558|NCT04529109|165027135|SUPERIORITY|The superiority of the Test lens was concluded if the lower limit of the 95% credible interval was above 0.90.|Mean Proportion|0.9998|STANDARD_DEVIATION|0.0005|||TWO_SIDED|95.0|0.999|1.0|||Bayesian Binary model||Interval presented is a 95% Credible interval.|||1.000|0.999|
82492162|NCT05263895|164677636|OTHER||Ratio of Adjusted Geometric Means|138.15|||||TWO_SIDED|90.0|118.03|161.69||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||161.69|118.03|
82492163|NCT05263895|164677636|OTHER||Ratio of Adjusted Geometric Means|30.8|||||TWO_SIDED|90.0|25.7|35.2||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||35.20|25.70|
82600966|NCT02851173|164917164|OTHER|||||||0.69|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left medial frontal/superior frontal gyrus.||||0.69
82600967|NCT02851173|164917164|OTHER|||||||0.25|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right superior parietal lobule.||||0.25
82600968|NCT02851173|164917164|OTHER|||||||0.86|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left inferior parietal lobule.||||0.86
82600969|NCT02851173|164917164|OTHER|||||||0.28|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Left middle frontal gyrus 2.||||0.28
82600970|NCT02851173|164917164|OTHER|||||||0.12|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right superior frontal gyrus.||||0.12
82600971|NCT02851173|164917164|OTHER|||||||0.26|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. Right middle frontal gyrus.||||0.26
82600972|NCT02851173|164917164|OTHER|||||||0.83|||||||ANOVA|||The contract of interest was the Time x Treatment Group interaction. Right inferior frontal gyrus.||||0.83
82600973|NCT02851173|164917164|OTHER|||||||0.55|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left middle frontal gyrus 1.||||0.55
82600974|NCT02851173|164917164|OTHER|||||||0.76|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left medial frontal/superior frontal gyrus.||||0.76
82600975|NCT02851173|164917164|OTHER|||||||0.38|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right superior parietal lobule.||||0.38
82600976|NCT02851173|164917164|OTHER|||||||0.93|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left inferior parietal lobule.||||0.93
82600977|NCT02851173|164917164|OTHER|||||||0.41|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Left middle frontal gyrus 2.||||0.41
82600978|NCT02851173|164917164|OTHER|||||||0.06|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right superior frontal gyrus.||||0.06
82600979|NCT02851173|164917164|OTHER|||||||0.18|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right middle frontal gyrus.||||0.18
82600980|NCT02851173|164917164|OTHER|||||||0.84|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy). Right inferior frontal gyrus.||||0.84
82600981|NCT02851173|164917165|OTHER|||||||0.53|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction.||||0.53
82600982|NCT02851173|164917165|OTHER|||||||0.74|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy).||||0.74
82600983|NCT02851173|164917166|OTHER|||||||0.72|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction.||||0.72
82655559|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.4||||||95.0|-2.2|1.0||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.0|-2.2|
82492164|NCT05263895|164677637|OTHER||Ratio of Adjusted Geometric Means|91.26|||||TWO_SIDED|90.0|80.46|103.51||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||103.51|80.46|
82600984|NCT02851173|164917166|OTHER|||||||0.97|||||||ANOVA|||The contrast of interest was the Time x Treatment Group interaction. In this sub-group analysis, we performed a sub-population analysis (N=36), including only participants who performed the 2Back task to criterion (\>50% accuracy).||||0.97
82600985|NCT02324270|164917197|EQUIVALENCE|If the 90% CI for the ratio of mean changes between test and reference products was contained within the interval, \[0.80,1.25\], then the products were considered to be equivalent.|Ratio|1.01|||||TWO_SIDED|90.0|0.94|1.08||||||||1.08|0.94|
82600986|NCT02324270|164917198|SUPERIORITY|||||||0.01|||||||ANCOVA|||||||0.01
82600987|NCT02324270|164917198|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82600988|NCT03521791|164917199|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.133|||||||Chi-squared, Corrected|||||||0.133
82600989|NCT03521791|164917200|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
82600990|NCT03521791|164917201|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.333|||||||Chi-squared, Corrected|||||||0.333
82600991|NCT03521791|164917202|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.058|||||||Wilcoxon (Mann-Whitney)|||||||0.058
82600992|NCT03521791|164917203|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.394|||||||Fisher Exact|||||||0.394
82600993|NCT03521791|164917204|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.056|||||||t-test, 2 sided|||||||0.056
82600994|NCT03521791|164917206|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.114|||||||Fisher Exact|||||||0.114
82600995|NCT03521791|164917207|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.117|||||||Chi-squared, Corrected|||||||0.117
82492165|NCT05263895|164677637|OTHER||Ratio of Adjusted Geometric Means|102.49|||||TWO_SIDED|90.0|90.36|116.26||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||116.26|90.36|
82492166|NCT05263895|164677637|OTHER||Ratio of Adjusted Geometric Means|136.99|||||TWO_SIDED|90.0|117.09|160.27||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||160.27|117.09|
82655560|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-4.0|3.8||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥16 EU/mL threshold was calculated.||3.8|-4.0|
82655561|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.4||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.4|-1.6|
82600996|NCT03521791|164917208|NON_INFERIORITY|it is considered not inferior if the differences between the groups do not exceed 20%.||||||0.626|||||||Fisher Exact|||||||0.626
82600997|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|0.993||||0.791|TWO_SIDED|95.0|0.946|1.043|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 0 hr.|||1.043|0.946|0.791
82600998|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr.|||1.050|0.952|>0.999
82600999|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.001||||0.975|TWO_SIDED|95.0|0.953|1.051|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr 15 min.|||1.051|0.953|0.975
82601000|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 1 hr 45 min.|||1.050|0.952|>0.999
82601001|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.003||||0.908|TWO_SIDED|95.0|0.955|1.053|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 2 hr.|||1.053|0.955|0.908
82601002|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.025||||0.312|TWO_SIDED|95.0|0.977|1.077|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 2 hr 45 min.|||1.077|0.977|0.312
82601003|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.008||||0.763|TWO_SIDED|95.0|0.96|1.058|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr.|||1.058|0.960|0.763
82601004|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.095|||<|0.001|TWO_SIDED|95.0|1.043|1.15|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr 30 min.|||1.150|1.043|<0.001
82601005|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.046||||0.07|TWO_SIDED|95.0|0.996|1.098|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 3 hr 45 min.|||1.098|0.996|0.070
82601006|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|0.971||||0.238|TWO_SIDED|95.0|0.925|1.02|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 15 min.|||1.020|0.925|0.238
82601007|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|0.975||||0.298|TWO_SIDED|95.0|0.928|1.023|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 30 min.|||1.023|0.928|0.298
82601008|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|0.994||||0.821|TWO_SIDED|95.0|0.947|1.044|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 4 hr 45 min.|||1.044|0.947|0.821
82601009|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|0.991||||0.715|TWO_SIDED|95.0|0.944|1.04|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr.|||1.040|0.944|0.715
82492167|NCT05263895|164677637|OTHER||Ratio of Adjusted Geometric Means|29.77|||||TWO_SIDED|90.0|25.45|34.83||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||34.83|25.45|
82601010|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.008||||0.759|TWO_SIDED|95.0|0.96|1.058|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr 15 min.|||1.058|0.960|0.759
82601011|NCT01475734|164917209|SUPERIORITY_OR_OTHER||Ratio|1.0|||>|0.999|TWO_SIDED|95.0|0.952|1.05|||ANOVA||The estimated value represents the ratio of geometric least squares means (albiglutide 50 mg) to placebo at 5 hr 30 min.|||1.050|0.952|>0.999
82601012|NCT01773421|164917241|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric Least Square (LS) Mean Ratio|1.06|||||TWO_SIDED|90.0|0.97|1.15||||||||1.15|0.97|
82601013|NCT01773421|164917242|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric LS Mean Ratio|1.11|||||TWO_SIDED|90.0|1.02|1.2||||||||1.2|1.02|
82601014|NCT01773421|164917243|EQUIVALENCE|Log-transformed pharmacokinetic parameters were fit using a mixed effects model with sequence, treatment, period and sequence as fixed effects and participant as a random effect. Geometric LS means and geometric LS mean ratio were back-transformed to obtain the treatment estimates.|Geometric LS Mean Ratio|1.13|||||TWO_SIDED|90.0|1.0|1.27||||||||1.27|1|
82601015|NCT01276821|164917266|NON_INFERIORITY_OR_EQUIVALENCE|Non - Inferiority Analysis|Mean Difference (Final Values)|1.33|STANDARD_DEVIATION|1.3|<|0.05|TWO_SIDED|95.0|0.78|1.82|||t-test, 2 sided|||"Null Hypothesis Efficacy of nebulised hypertonic saline (3%) with L-Epinephrine is not higer than as compared to L-Epinephrine given with 0.9% normal saline in the management of children aged 6 weeks to 24 months with mild to moderately severe bronchiolitis.~Alternate Hypothesis:~Nebulised hypertonic saline (3%) with L-Epinephrine is superior to 0.9% Normal saline with L-Epinephrine in the management of children aged 6 weeks to 24 months with mild to moderately severe bronchiolitis."||1.82|0.78|<0.05
82601016|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.8127|TWO_SIDED|95.0|0.63|1.8||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||bFGF (high versus low)||1.80|0.63|0.8127
82655562|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.4||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥7.82 EU/mL threshold was calculated.||1.4|-1.6|
82655563|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.9||||||95.0|-5.0|2.9||||||For Pertussis FHA the difference in percentages between the two groups ( 13vPnC - 7vPnC) at ≥31 EU/mL threshold was calculated.||2.9|-5.0|
82655564|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.5|1.4||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.4|-1.5|
82655565|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.2||||||95.0|-7.8|1.0||||||For Pertactin the difference in percentages between the two groups ( 13vPnC - 7vPnC) at ≥40 EU/mL threshold was calculated.||1.0|-7.8|
82655566|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-3.6|5.0||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥10.0 mIU/mL threshold was calculated.||5.0|-3.6|
82655567|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.2||||||95.0|-9.1|2.4||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.15 μg/mL threshold was calculated.||2.4|-9.1|
82601017|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.0285|TWO_SIDED|95.0|1.06|3.08||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||E-selectin (high versus low)||3.08|1.06|0.0285
82601018|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.7478|TWO_SIDED|95.0|0.64|1.85||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||ICAM (high versus low)||1.85|0.64|0.7478
82655568|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-8.2|9.5||||||For Haemophilus influenzae type b the difference in percentages between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||9.5|-8.2|
82655569|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.8|1.6||||||For Diptheria the difference in percentages between the two groups ( 13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated.||1.6|-1.8|
82655570|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-3.5||||||95.0|-8.3|0.8||||||For Diptheria the difference in percentage between the two groups ( 13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||0.8|-8.3|
82655571|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|1.7||||||95.0|-3.9|7.1||||||For Tetanus the difference in percentage between the two groups ( 13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||7.1|-3.9|
82601019|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.6761|TWO_SIDED|95.0|0.58|2.33||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||PlGF (high versus low)||2.33|0.58|0.6761
82601020|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4601|TWO_SIDED|95.0|0.72|2.09||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGF A (high versus low)||2.09|0.72|0.4601
82601021|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.3193|TWO_SIDED|95.0|0.46|1.29||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGFR-1 (high versus low)||1.29|0.46|0.3193
82601022|NCT00700180|164917281|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.1758|TWO_SIDED|95.0|0.85|2.45||Multiple logistic regression model with treatment, biomarker level (dichotomized) and baseline prognostic factors as covariates.|Regression, Logistic|||VEGFR-2 (high versus low)||2.45|0.85|0.1758
82601023|NCT00700180|164917283|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9454|TWO_SIDED|95.0|0.78|1.31|||Log Rank|||||1.31|0.78|0.9454
82601024|NCT00700180|164917284|SUPERIORITY_OR_OTHER||Difference in Responses Rates|9.34||||0.1737|TWO_SIDED|95.0|-2.4|21.0|||Cochran-Mantel-Haenszel||Approximate 95% Confidence Interval (CI) for difference of two rates using Hauck-Anderson method.|||21.0|-2.4|0.1737
82601025|NCT00700180|164917285|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.75||||0.6148|TWO_SIDED|95.0|-8.2|11.7|||Cochran-Mantel-Haenszel||Approximate 95% CI for difference of two rates using Hauck-Anderson method|||11.7|-8.2|0.6148
82601026|NCT00700180|164917287|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.7587|TWO_SIDED|95.0|0.68|1.69|||Log Rank|||||1.69|0.68|0.7587
82601027|NCT00700180|164917289|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.312|TWO_SIDED|95.0|0.87|1.53|||Log Rank|||||1.53|0.87|0.3120
82601028|NCT03569202|164917325|SUPERIORITY||Mean Difference (Final Values)|1.8837||||0.662|TWO_SIDED|95.0|-6.7081|10.4756||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||10.4756|-6.7081|0.662
82601029|NCT03569202|164917325|OTHER||Mean Difference (Final Values)|-24.6445|||<|0.0001|TWO_SIDED|95.0|-30.7199|-18.5692||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-18.5692|-30.7199|<0.0001
82601030|NCT03569202|164917325|OTHER||Mean Difference (Final Values)|-26.5283|||<|0.0001|TWO_SIDED|95.0|-32.6036|-20.4529||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-20.4529|-32.6036|<0.0001
82601031|NCT03569202|164917326|OTHER||Mean Difference (Final Values)|-2.9808||||0.575|TWO_SIDED|95.0|-13.6005|7.639||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||7.6390|-13.6005|0.575
82601032|NCT03569202|164917326|OTHER||Mean Difference (Final Values)|-4.75||||0.2098|TWO_SIDED|95.0|-12.2593|2.7593||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||2.7593|-12.2593|0.2098
82601033|NCT03569202|164917326|OTHER||Mean Difference (Final Values)|-1.7692||||0.6381|TWO_SIDED|95.0|-9.2785|5.7401||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||5.7401|-9.2785|0.6381
82655572|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.1||||||95.0|-2.3|1.7||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||1.7|-2.3|
82601034|NCT03569202|164917327|OTHER||Mean Difference (Final Values)|0.8462||||0.271|TWO_SIDED|95.0|-0.6792|2.3715||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||2.3715|-0.6792|0.271
82601035|NCT03569202|164917327|OTHER||Mean Difference (Final Values)|1.7115||||0.0025|TWO_SIDED|95.0|0.633|2.7901||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||2.7901|0.6330|0.0025
82601036|NCT03569202|164917327|OTHER||Mean Difference (Final Values)|0.8654||||0.1134|TWO_SIDED|95.0|-0.2132|1.944||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||1.9440|-0.2132|0.1134
82601037|NCT03569202|164917328|OTHER||Mean Difference (Final Values)|2.1731||||0.412|TWO_SIDED|95.0|-3.1016|7.4477||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||7.4477|-3.1016|0.412
82601038|NCT03569202|164917328|OTHER||Mean Difference (Final Values)|0.01923||||0.9918|TWO_SIDED|95.0|-3.7105|3.749||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||3.7490|-3.7105|0.9918
82601039|NCT03569202|164917328|OTHER||Mean Difference (Final Values)|-2.1538||||0.2516|TWO_SIDED|95.0|-5.8836|1.5759||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||1.5759|-5.8836|0.2516
82601040|NCT03569202|164917329|OTHER||Mean Difference (Final Values)|0.5093||||0.047|TWO_SIDED|95.0|0.007267|1.0113||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||1.0113|0.007267|0.047
82601041|NCT03569202|164917329|OTHER||Mean Difference (Final Values)|0.5596||||0.0026|TWO_SIDED|95.0|0.2046|0.9146||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||0.9146|0.2046|0.0026
82601042|NCT03569202|164917329|OTHER||Mean Difference (Final Values)|0.05032||||0.777|TWO_SIDED|95.0|-0.3047|0.4053||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||0.4053|-0.3047|0.7770
82601043|NCT03569202|164917330|OTHER||Wilcoxon Z statistic|-0.7604||||0.447|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.447
82601044|NCT03569202|164917330|OTHER|||||||0.014||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.014
82601045|NCT03569202|164917330|OTHER|||||||0.07||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.070
82601046|NCT03569202|164917331|OTHER||Wilcoxon Z statistic|-0.6396||||0.522|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.522
82601047|NCT03569202|164917331|OTHER|||||||0.119||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.119
82601048|NCT03569202|164917331|OTHER|||||||0.9||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.900
82601049|NCT03569202|164917332|OTHER||Wilcoxon Z statistic|-0.5387||||0.59|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.590
82601050|NCT03569202|164917332|OTHER|||||||0.043||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.043
82601051|NCT03569202|164917332|OTHER|||||||0.442||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.442
82601052|NCT03569202|164917334|OTHER||Wilcoxon Z statistic|0.9208||||0.357|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.357
82601053|NCT03569202|164917334|OTHER|||||||0.001||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.001
82655573|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-1.0||||||95.0|-5.0|2.8||||||For Polio Type 2 the difference in percentage between the two groups ( 13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.8|-5.0|
82601054|NCT03569202|164917334|OTHER|||||||0.065||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.065
82601055|NCT03569202|164917335|OTHER||Wilcoxon Z statistic|1.044||||0.296|TWO_SIDED|||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Between-group comparison, change from baseline||||0.296
82601056|NCT03569202|164917335|OTHER|||||||0.012||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||0.012
82601057|NCT03569202|164917335|OTHER||||||>|0.05||||||A two-sided p-value less than 0.05 was considered statistically significant.|Wilcoxon rank sum test|||Within-group change from baseline||||>0.05
82601058|NCT03569202|164917337|OTHER||Mean Difference (Final Values)|-1.9911||||0.764|TWO_SIDED|95.0|-15.6117|11.6295||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Between-group comparison, change from baseline||11.6295|-15.6117|0.764
82601059|NCT03569202|164917337|OTHER||Mean Difference (Final Values)|-17.0625||||0.0038|TWO_SIDED|95.0|-27.928|-6.197||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-6.1970|-27.9280|0.0038
82655574|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.7||||||95.0|-1.6|2.9||||||For Polio Type 3 the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.9|-1.6|
82655575|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.7|-1.6|
82492168|NCT05263895|164677638|OTHER||Ratio of Adjusted Geometric Means|94.28|||||TWO_SIDED|90.0|80.77|110.05||||||Test: Nirmatrelvir (slower dissolution tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||110.05|80.77|
82601060|NCT03569202|164917337|OTHER||Mean Difference (Final Values)|-15.0714||||0.0011|TWO_SIDED|95.0|-23.285|-6.8579||A two-sided p-value less than 0.05 was considered statistically significant.|ANOVA|||Within-group change from baseline||-6.8579|-23.2850|0.0011
82601061|NCT01175005|164917344|SUPERIORITY_OR_OTHER|||||||0.001|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.001
82601062|NCT00454779|164917345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.629||||0.051|TWO_SIDED|95.0|0.395|1.002|||Regression, Cox|Stratified by IVRS randomization factors|Hazard ratio is presented as panitumumab plus chemotherapy:chemotherapy alone.|||1.002|0.395|0.051
82601063|NCT00454779|164917345|SUPERIORITY_OR_OTHER|||||||0.048|||||||Log Rank|Stratified by IVRS randomization factors||||||0.048
82601064|NCT00454779|164917346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.23|||||TWO_SIDED|95.0|-11.67|24.12|||||With Mantel-Haenszel weights within strata defined by randomization factors recorded in the IVRS|||24.12|-11.67|
82601065|NCT00454779|164917346|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||||95.0|0.57|3.33|||||Calculated from a logistic regression model with treatment indicator and randomization factors (recorded on the CRF) as covariates|||3.33|0.57|
82601066|NCT00454779|164917347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.78|||||TWO_SIDED|95.0|-8.29|23.85|||||With Mantel-Haenszel weights within strata defined by randomization factors recorded in the IVRS|||23.85|-8.29|
82601067|NCT00454779|164917347|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.76||||||95.0|0.62|5.26|||||Calculated from a logistic regression model with treatment indicator and randomization factors (recorded on the CRF) as covariates|||5.26|0.62|
82601068|NCT00454779|164917350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.103||||0.663|TWO_SIDED|95.0|0.709|1.717|||Regression, Cox|Stratified by IVRS randomization factors|Hazard ratio is presented as panitumumab plus chemotherapy:chemotherapy alone|||1.717|0.709|0.663
82601069|NCT00454779|164917350|SUPERIORITY_OR_OTHER|||||||0.666|||||||Log Rank|Stratified by IVRS randomization factors||||||0.666
82601070|NCT00168831|164917357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
82601071|NCT00168831|164917357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry,centre and baseline value|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
82601072|NCT00168831|164917358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.713|STANDARD_ERROR_OF_MEAN|1.052||0.0004||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||0.0004
82601073|NCT00168831|164917358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.445|STANDARD_ERROR_OF_MEAN|1.059||0.0012||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||0.0012
82601074|NCT00168831|164917359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.053|STANDARD_ERROR_OF_MEAN|0.165|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|||||<0.0001
82601075|NCT00168831|164917359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.075|STANDARD_ERROR_OF_MEAN|0.166|<|0.0001||95.0|||||ANCOVA|The means are adjusted for centre, smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|||||<0.0001
82601076|NCT00168831|164917360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.782||||0.0002|TWO_SIDED|95.0|0.687|0.89|||Poisson regression||Tiotropium Respimat 5mcg vs. Placebo|||0.890|0.687|0.0002
82601077|NCT00168831|164917360|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.725|||<|0.0001|TWO_SIDED|95.0|0.635|0.828|||Poisson regression||Tiotropium Respimat 10mcg vs. Placebo|||0.828|0.635|<0.0001
82655576|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-2.7||||||95.0|-7.3|1.8||||||For Pertussis PT the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥21 EU/mL threshold was calculated.||1.8|-7.3|
82655577|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated||1.7|-1.6|
82655578|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥7.82 EU/mL threshold was calculated||1.7|-1.6|
82655579|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.1||||||95.0|-4.3|4.1||||||For Pertussis FHA the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥162 EU/mL threshold was calculated||4.1|-4.3|
82655580|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-1.6|1.7||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥5 EU/mL threshold was calculated.||1.7|-1.6|
82655581|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.5||||||95.0|-4.7|3.7||||||For Pertactin the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥106 EU/mL threshold was calculated.||3.7|-4.7|
82655582|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|-0.4||||||95.0|-3.0|2.0||||||For hepatitis B the difference in percentages between the two groups (13vPnC - 7vPnC) at ≥10.0 mIU/mL threshold was calculated.||2.0|-3.0|
82655583|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|1.4||||||95.0|-0.8|4.2||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 0.15 μg/mL threshold was calculated||4.2|-0.8|
82601078|NCT00168831|164917404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82601079|NCT00168831|164917404|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.252|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|||||ANCOVA||Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601080|NCT00168831|164917405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82601081|NCT00168831|164917405|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.212|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601082|NCT00168831|164917406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.369|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82655584|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|4.0||||||95.0|-0.4|8.7||||||For Haemophilus influenzae type b the difference in percentage between the two groups (13vPnC - 7vPnC) at 1.0 μg/mL threshold was calculated.||8.7|-0.4|
82655585|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.3|2.0||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.01 IU/mL threshold was calculated.||2.0|-2.3|
82492169|NCT05263895|164677638|OTHER||Ratio of Adjusted Geometric Means|108.6|||||TWO_SIDED|90.0|93.04|126.76||||||Test: Nirmatrelvir (large particle size tablets)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||126.76|93.04|
82601083|NCT00168831|164917406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.393|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, smoking status at entry, centre and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601084|NCT00168831|164917407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.9|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82601085|NCT00168831|164917407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.7|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601086|NCT00168831|164917408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||<0.0001
82601087|NCT00168831|164917408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|39.1|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601088|NCT00168831|164917409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.2||0.0169||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 5mcg - Placebo|Analysis for week 48||||0.0169
82601089|NCT00168831|164917409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001||95.0|||||ANCOVA|ANCOVA analysis with terms for treatment, centre,smoking status at entry and baseline value.|Tiotropium Respimat 10mcg - Placebo|Analysis for week 48||||<0.0001
82601090|NCT02522767|164917428|SUPERIORITY||Odds Ratio (OR)|1.55|||>|0.05|TWO_SIDED|95.0|0.73|3.32||The p-value was based on chi-square test without a continuity correction.|Chi-squared|||Proportions were compared between treatment groups, at a two-sided 0.05 significance level.||3.32|0.73|>0.05
82601091|NCT02522767|164917431|SUPERIORITY||Odds Ratio (OR)|1.78|||>|0.05|TWO_SIDED|95.0|0.96|3.29||The p-value was based on chi-square test without a continuity correction.|Chi-squared|||Proportions were compared between treatment groups at a two-sided 0.05 significance level.||3.29|0.96|>0.05
82601092|NCT02522767|164917432|SUPERIORITY||Odds Ratio (OR)|1.3|||>|0.05|TWO_SIDED|95.0|0.78|2.15|||Generalized estimating equation approach|||Proportions were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||2.15|0.78|>0.05
82601093|NCT02522767|164917433|SUPERIORITY||Hazard Ratio (HR)|1.36|||>|0.05|TWO_SIDED|95.0|0.91|2.02||The p-value was based on log-rank test.|Log Rank||Hazard ratio and its 95% CI were obtained from Cox proportional hazards model with treatment group as a factor.|Times to normal stool pattern were compared between treatment groups, at a two-sided 0.05 significance level.||2.02|0.91|>0.05
82601094|NCT02522767|164917434|SUPERIORITY||Treatment difference|-0.24|||<|0.05|TWO_SIDED|95.0|-0.41|-0.08|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimate.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||-0.08|-0.41|<0.05
82601095|NCT02522767|164917435|SUPERIORITY||Treatment difference|-2.39|||>|0.05|TWO_SIDED|95.0|-5.46|0.67|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimate.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||0.67|-5.46|>0.05
82601096|NCT02522767|164917436|SUPERIORITY||Treatment difference|-289.69|||<|0.05|TWO_SIDED|95.0|-514.96|-64.42|||ANCOVA||An ANCOVA model was used to calculate estimates.|Changes from baseline were compared between treatment groups, at a two-sided 0.05 significance level.||-64.42|-514.96|<0.05
82601097|NCT02522767|164917437|SUPERIORITY||Treatment difference|12.8|||<|0.05|TWO_SIDED|95.0|5.1|20.5|||Repeated-measures ANCOVA||A repeated-measures ANCOVA model with an unstructured correlation matrix was used to calculate estimates.|Change from baseline scores were compared between treatment groups over 8 weeks, at a two-sided 0.05 significance level.||20.50|5.10|<0.05
82601098|NCT02288247|164917443|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.027|TWO_SIDED|95.0|0.53|0.96||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||0.96|0.53|0.027
82601099|NCT02288247|164917444|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.002|TWO_SIDED|95.0|0.41|0.82||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||0.82|0.41|0.002
82601100|NCT02288247|164917446|SUPERIORITY|||||||0.142||||||From the Cochran-Mantel-Haenszel test stratified by disease progression (radiographic, non-radiographic) in Period 1.|Cochran-Mantel-Haenszel|||||||0.142
82601101|NCT02288247|164917449|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.994|TWO_SIDED|95.0|0.47|2.13||From the Cox proportional hazards model with covariates for treatment and disease progression in Period 1 (radiographic, nonradiographic).|Cox proportional hazards model|||||2.13|0.47|0.994
82601102|NCT00356031|164917462|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<.05
82601103|NCT00356031|164917463|OTHER||||||<|0.05|||||||t-test, 1 sided|||||||<.05
82601104|NCT02167945|164917484|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82601105|NCT02167945|164917484|SUPERIORITY||Cox Proportional Hazard Ratio|0.126|||<|0.001|TWO_SIDED|95.0|0.044|0.358|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.358|0.044|<0.001
82601106|NCT02167945|164917485|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82655586|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.3|2.0||||||For Diphtheria the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated||2.0|-2.3|
82601107|NCT02167945|164917485|SUPERIORITY||Cox Proportional Hazard Ratio|0.031||||0.007|TWO_SIDED|95.0|0.003|0.38|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.380|0.003|0.007
82601108|NCT02167945|164917486|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82601109|NCT02167945|164917486|SUPERIORITY||Cox Proportional Hazard Ratio|0.038|||<|0.001|TWO_SIDED|95.0|0.009|0.156|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.156|0.009|<0.001
82601110|NCT02167945|164917487|SUPERIORITY|||||||0.86|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.860
82601111|NCT02167945|164917487|SUPERIORITY|||||||0.997||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.997
82601112|NCT02167945|164917488|SUPERIORITY|||||||0.608|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||0.608
82601113|NCT02167945|164917488|SUPERIORITY|||||||0.992||||||The Hazard Ratio for experiencing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to those who did not achieve SVR12 is infinite and the CI is not bounded due to zero events in one of the groups.|Cox proportional hazards model|||A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||||0.992
82601114|NCT02167945|164917489|SUPERIORITY||||||<|0.001|||||||Log-rank test|||Comparisons between participants in studies M14-222 and M14-423 who achieved SVR12 and those who did not were performed using a log-rank test.||||<0.001
82601115|NCT02167945|164917489|SUPERIORITY||Cox Proportional Hazard Ratio|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.313|||Cox proportional hazards model||The estimated value represents the hazard ratio for developing the event in the group of participants in studies M14-222 and M14-423 who achieved SVR12 compared to the group of participants in studies M14-222 and M14-423 who didn't achieve SVR12.|A Cox proportional hazards (PH) model was constructed. The covariates for the model included baseline age, BMI, HCV genotype 1 subtype (1b, non-1b), IL28B genotype (CC, non-CC), prior treatment history (naive, experienced), baseline HCV RNA levels, baseline fibrosis stage (F0-1, F2, F3, F4), baseline albumin, baseline creatinine clearance, baseline platelet count, history of diabetes (yes, no), APRI, race (white, other), and alcohol use status (current, former, non-drinker).||0.313|0.057|<0.001
82601116|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|0.79||0.026|TWO_SIDED|95.0|-3.3|-0.21|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.21|-3.30|0.026
82601117|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.74||0.472|TWO_SIDED|95.0|-1.97|0.91|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.91|-1.97|0.472
82601118|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.73||0.159|TWO_SIDED|95.0|-2.47|0.4|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.40|-2.47|0.159
82601119|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.84||0.125|TWO_SIDED|95.0|-2.95|0.36|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.36|-2.95|0.125
82601120|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.78||0.756|TWO_SIDED|95.0|-1.78|1.29|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.29|-1.78|0.756
82601121|NCT02167945|164917491|SUPERIORITY||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|0.78||0.315|TWO_SIDED|95.0|-2.32|0.75|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.75|-2.32|0.315
82601122|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|1.03||0.216|TWO_SIDED|95.0|-3.3|0.75|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.75|-3.30|0.216
82601123|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.95||0.074|TWO_SIDED|95.0|-3.58|0.17|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.17|-3.58|0.074
82601124|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.95||0.056|TWO_SIDED|95.0|-3.67|0.05|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.05|-3.67|0.056
82601125|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|1.02||0.411|TWO_SIDED|95.0|-2.84|1.16|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.16|-2.84|0.411
82601126|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.93||0.065|TWO_SIDED|95.0|-3.55|0.11|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||0.11|-3.55|0.065
82601127|NCT02167945|164917492|SUPERIORITY||LS Mean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.93||0.026|TWO_SIDED|95.0|-3.91|-0.25|||ANCOVA||F4 - F0-F1|F0-F1 vs F4 at Post-treatment Week 24||-0.25|-3.91|0.026
82601128|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.95||0.035|TWO_SIDED|95.0|-3.86|-0.14|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes (PRO) score and SVR12 status as covariates."||-0.14|-3.86|0.035
82601129|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-2.15|STANDARD_ERROR_OF_MEAN|0.88||0.015|TWO_SIDED|95.0|-3.88|-0.42|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 12~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.42|-3.88|0.015
82601130|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.88||0.048|TWO_SIDED|95.0|-3.46|-0.01|||ANCOVA||F4 - F0-F1|F0-F1 vs F4 at Post-treatment Week 12||-0.01|-3.46|0.048
82601131|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.99||0.466|TWO_SIDED|95.0|-2.67|1.22|||ANCOVA||F2 - F0-F1|"F0-F1 vs F2 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||1.22|-2.67|0.466
82601132|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.91||0.035|TWO_SIDED|95.0|-3.7|-0.13|||ANCOVA||F3 - F0-F1|"F0-F1 vs F3 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.13|-3.70|0.035
82601133|NCT02167945|164917493|SUPERIORITY||LS Mean Difference|-2.22|STANDARD_ERROR_OF_MEAN|0.91||0.015|TWO_SIDED|95.0|-4.01|-0.43|||ANCOVA||F4 - F0-F1|"F0-F1 vs F4 at Post-treatment Week 24~The difference between baseline fibrosis stage groups in mean change from baseline was analyzed using ANCOVA with baseline fibrosis stage (F0-F1, F2, F3 and F4) as a factor and baseline patient reported outcomes(PRO) score and SVR12 status as covariates."||-0.43|-4.01|0.015
82601134|NCT02623335|164917521|SUPERIORITY||Odds Ratio (OR)|1.32||||0.353|TWO_SIDED||||||Mixed Models Analysis|||Options questions||||0.353
82601135|NCT02623335|164917521|SUPERIORITY||Odds Ratio (OR)|0.97||||0.923|TWO_SIDED||||||Mixed Models Analysis|||Expectations questions||||0.923
82601136|NCT02623335|164917521|SUPERIORITY||Odds Ratio (OR)|1.41||||0.255|TWO_SIDED||||||Mixed Models Analysis|||Risks questions||||0.255
82601137|NCT02623335|164917521|SUPERIORITY||Odds Ratio (OR)|239047259.0||||0.094|TWO_SIDED||||||Mixed Models Analysis|||Advance directives questions||||0.094
82601138|NCT02623335|164917522|SUPERIORITY||Effect estimate|-0.04||||0.84|TWO_SIDED||||||Mixed Models Analysis|||Change in scores between T2 and T1||||0.84
82601139|NCT02623335|164917522|SUPERIORITY||Effect estimate|-0.15||||0.645|TWO_SIDED||||||Mixed Models Analysis|||Change in scores between T3 and T1||||0.645
82601140|NCT02623335|164917523|SUPERIORITY||Effect estimate|-0.37||||0.411|TWO_SIDED||||||Mixed Models Analysis|||||||0.411
82601141|NCT02623335|164917524|SUPERIORITY||Odds Ratio (OR)|1.39||||0.412|TWO_SIDED||||||Mixed Models Analysis|||||||0.412
82601142|NCT02623335|164917525|SUPERIORITY||Effect estimate|-0.25||||0.009|TWO_SIDED||||||Mixed Models Analysis|||||||0.009
82601143|NCT02623335|164917526|SUPERIORITY||Effect estimate|-0.72||||0.106|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.106
82601144|NCT02623335|164917526|SUPERIORITY||Effect estimate|-1.12||||0.007|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment post-enrollment (T3)||||0.007
82601145|NCT02623335|164917527|SUPERIORITY||Effect estimate|0.97||||0.034|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.034
82601146|NCT02623335|164917527|SUPERIORITY||Effect estimate|1.12||||0.019|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment (T3)||||0.019
82601147|NCT02623335|164917528|SUPERIORITY||Effect estimate|1.16||||0.022|TWO_SIDED||||||Mixed Models Analysis|||6-8 weeks post-enrollment (T2)||||0.022
82601148|NCT02623335|164917528|SUPERIORITY||Effect estimate|0.94||||0.053|TWO_SIDED||||||Mixed Models Analysis|||3-4 months post-enrollment post-enrollment (T3)||||0.053
82601149|NCT02623335|164917530|SUPERIORITY||Effect estimate|5.04||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
82601150|NCT01727258|164917572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.85|STANDARD_ERROR_OF_MEAN|1.72|<|0.001|TWO_SIDED|95.0|7.45|14.25||If Potassium Oxalate Mouthrinse is better than Colgate Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouthrinse and Colgate Regular. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||14.25|7.45|<0.001
82601151|NCT01727258|164917572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|1.729||0.314|TWO_SIDED|95.0|-5.16|1.67||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||1.67|-5.16|0.314
82601152|NCT01727258|164917572|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.6|STANDARD_ERROR_OF_MEAN|1.735|<|0.001|TWO_SIDED|95.0|9.17|16.03||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||16.03|9.17|<0.001
82601153|NCT01727258|164917573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.08|STANDARD_ERROR_OF_MEAN|1.177|<|0.001|TWO_SIDED|95.0|3.76|8.41||If Potassium Oxalate Mouthrinse is better than Colgate Regular (p\<0.05), testing would proceed to comparison of Wk 2 Mean Tactile Sensitivity Scores between Potassium Oxalate Mouthrinse and Sensodyne. Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.41|3.76|<0.001
82601154|NCT01727258|164917573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.183||0.881|TWO_SIDED|95.0|-2.16|2.52||The significance threshold level was 0.05 (two-sided). Family-wise error was controlled at 0.05.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||2.52|-2.16|0.881
82601155|NCT01727258|164917573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.91|STANDARD_ERROR_OF_MEAN|1.182|<|0.001|TWO_SIDED|95.0|3.57|8.24||Significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity (Yeaple probe) score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||8.24|3.57|<0.001
82492170|NCT05263895|164677638|OTHER||Ratio of Adjusted Geometric Means|264.12|||||TWO_SIDED|90.0|232.32|300.27||||||Test: Nirmatrelvir (SDD suspension)/ritonavir 300/100 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||300.27|232.32|
82601156|NCT01727258|164917574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.72|STANDARD_ERROR_OF_MEAN|2.866||0.02|TWO_SIDED|95.0|-12.38|-1.05||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.05|-12.38|0.020
82601157|NCT01727258|164917574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|2.86||0.964|TWO_SIDED|95.0|-5.52|5.78||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||5.78|-5.52|0.964
82601158|NCT01727258|164917574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.85|STANDARD_ERROR_OF_MEAN|2.845||0.017|TWO_SIDED|95.0|-12.47|-1.23||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-1.23|-12.47|0.017
82601159|NCT01727258|164917575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.92|STANDARD_ERROR_OF_MEAN|3.327||0.039|TWO_SIDED|95.0|-13.5|-0.35||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-0.35|-13.50|0.039
82601160|NCT01727258|164917575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.06|STANDARD_ERROR_OF_MEAN|3.317||0.13|TWO_SIDED|95.0|-1.5|11.61||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||11.61|-1.50|0.130
82601161|NCT01727258|164917575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.98|STANDARD_ERROR_OF_MEAN|3.313|<|0.001|TWO_SIDED|95.0|-18.53|-5.43||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean tactile sensitivity VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-5.43|-18.53|<0.001
82492171|NCT05263895|164677638|OTHER||Ratio of Adjusted Geometric Means|145.53|||||TWO_SIDED|90.0|128.01|165.45||||||Test: Nirmatrelvir (SDD suspension) 300 mg Reference: Nirmatrelvir (commercial tablets)/ritonavir 300/100 mg||165.45|128.01|
82601162|NCT01727258|164917576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.26|STANDARD_ERROR_OF_MEAN|3.163||0.01|TWO_SIDED|95.0|-14.51|-2.0||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-2.00|-14.51|0.010
82601163|NCT01727258|164917576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|STANDARD_ERROR_OF_MEAN|3.16||0.179|TWO_SIDED|95.0|-1.98|10.51||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||10.51|-1.98|0.179
82601164|NCT01727258|164917576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.52|STANDARD_ERROR_OF_MEAN|3.172|<|0.001|TWO_SIDED|95.0|-18.79|-6.25||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-6.25|-18.79|<0.001
82601165|NCT01727258|164917577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.93|STANDARD_ERROR_OF_MEAN|3.543|<|0.001|TWO_SIDED|95.0|-18.93|-4.93||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-4.93|-18.93|<0.001
82601166|NCT01727258|164917577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.54|STANDARD_ERROR_OF_MEAN|3.534||0.119|TWO_SIDED|95.0|-1.44|12.53||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||12.53|-1.44|0.119
82601167|NCT01727258|164917577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47|STANDARD_ERROR_OF_MEAN|3.566|<|0.001|TWO_SIDED|95.0|-24.52|-10.42||The significance threshold level was 0.05 (two-sided), with no multiple comparisons adjustment.|ANCOVA|Terms included treatment and baseline mean air stimulus VAS score.||The null hypothesis was no difference in mean outcome between treatment groups. The alternative hypothesis was a difference in mean outcome between treatment groups.||-10.42|-24.52|<0.001
82601168|NCT02063035|164917578|SUPERIORITY|||||||0.1318|||||||Wilcoxon (Mann-Whitney)|||||||0.1318
82601169|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601170|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601171|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601172|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601173|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.0|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601174|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.003|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0|||
82601175|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.035|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.001|||
82601176|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.176|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.018|||
82601177|NCT03604445|164917582|OTHER||Probability of DLT rate in [0.16, 0.33)|0.129|||||||||||||Posterior probabilities of the DLT rate lying in the intervals \[0.16, 0.33) (target dosing), and \[0.33,1\] (overdosing) are reported.|Bayesian logistic regression model (BLRM) with overdose control was used to determine the maximum tolerated dose (MTD), defined as highest dose with less than 25% risk of the true DLT rate being equal to or above 33%.|Probability of DLT rate in \[0.33, 1\] = 0.83|||
82601178|NCT00773279|164917586|NON_INFERIORITY_OR_EQUIVALENCE|"A two-sided 95 % Confidence Interval (CI) for the treatment difference, PDS290 minus FlexPen, in HbA1c after 12 weeks of treatment. PDS290 was to be declared non-inferior to FlexPen® if the upper limit of that CI would be less than the non-inferiority margin 0.40 % (absolute)."|Mean Difference (Final Values)|-0.047|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.127|0.032|||Linear mixed effect model|Linear mixed effect model with period and delivery systems as fixed effects, and subject as a random effect.||The null hypothesis is that PDS290 be not non-inferior to FlexPen® with respect to HbA1c after 12 weeks of treatment; non-inferiority margin is 0.4 % (absolute).||0.032|-0.127|
82601179|NCT02175680|164917594|SUPERIORITY||||||<|0.0001|||||||Wilcoxon Rank Sum|The time to Virologic Failure for the subjects treated with PRO 140 monotherapy was compared to historical data.|||The median time to Virologic Failure for historical controls was 29 days.|||<0.0001
82601180|NCT02986230|164917617|SUPERIORITY||Odds Ratio (OR)|1.07||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with logit link and binomial error distribution were used to test the effect of the intervention on the composite of cancer screening by 1 year post-index for breast, cervical, and colorectal cancer. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two contrasts were 2-sided with P-values \< 0.025 considered statistically significant.||||.025
82601181|NCT02986230|164917617|SUPERIORITY||Odds Ratio (OR)|0.91||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on the composite of cancer screening by 1 year post-index date for breast, cervical, and colorectal cancer. Model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in randomization process. Tests of the planned contrasts were 2-sided with P-values \< 0.025 considered statistically significant.||||.025
82601182|NCT02986230|164917618|SUPERIORITY||Odds Ratio (OR)|1.04||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of the HPV vaccination series by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
82601183|NCT02986230|164917618|SUPERIORITY||Odds Ratio (OR)|0.71||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of the HPV vaccination series by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
82601184|NCT02986230|164917619|SUPERIORITY||Odds Ratio (OR)|1.55||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the effect of the intervention on completion of lung cancer screening by 12 months post-index date. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
82601185|NCT02986230|164917619|SUPERIORITY||Odds Ratio (OR)|1.02||||0.025|TWO_SIDED|||||Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant, and odds ratios for key study group contrasts report 97.5% confidence intervals.|Mixed Models Analysis|Denominator degrees of freedom for variables in the model take into account the cluster-randomized design.||Generalized linear mixed models with a logit link and binomial error distribution were used to test the intervention effect on the completion of lung cancer screening by 12 months post-index. The model included two primary contrasts: CP-CDS vs. UC and CP-CDS+SDMT vs. UC and included pre-specified covariates and variables used in the randomization process. Tests of the two planned contrasts were 2-sided with P-values less than 0.025 considered statistically significant.||||.025
82601186|NCT03434379|164917620|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0006|TWO_SIDED|95.0|0.42|0.79|||Log Rank|||At CCOD 18 months; Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline alpha-fetoprotein (AFP: \<400 vs. \>/= 400 ng/mL).||0.79|0.42|0.0006
82601187|NCT03434379|164917620|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.0009|TWO_SIDED|95.0|0.52|0.85|||Log Rank|||At CCOD 30 months; Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline alpha-fetoprotein (AFP: \<400 vs. \>/= 400 ng/mL).||0.85|0.52|0.0009
82601188|NCT03434379|164917621|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.76|0.47|<0.0001
82492172|NCT05764408|164677644|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.49|1.35||||||||1.35|0.49|
82655587|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|3.8||||||95.0|-1.7|10.9||||||For Tetanus the difference in percentages between the two groups (13vPnC - 7vPnC) at 0.1 IU/mL threshold was calculated.||10.9|-1.7|
82655588|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 1 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
82601189|NCT03434379|164917622|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.0026|TWO_SIDED|95.0|0.25|0.76|||Log Rank|||At CCOD 18 months; Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.76|0.25|0.0026
82601190|NCT03434379|164917622|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0019|TWO_SIDED|95.0|0.35|0.8|||Log Rank|||At CCOD 30 months; Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.80|0.35|0.0019
82601191|NCT03434379|164917623|SUPERIORITY||Hazard Ratio (HR)|0.6||||0.0117|TWO_SIDED|95.0|0.4|0.9|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.90|0.40|0.0117
82601192|NCT03434379|164917624|SUPERIORITY||Odds Ratio (OR)|2.9|||<|0.0001|TWO_SIDED|95.0|1.68|5.01|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.01|1.68|<0.0001
82601193|NCT03434379|164917625|SUPERIORITY||Odds Ratio (OR)|3.39|||<|0.0001|TWO_SIDED|95.0|2.02|5.71|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.71|2.02|<0.0001
82492173|NCT05764408|164677645|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.39|1.86||||||||1.86|0.39|
82601194|NCT03434379|164917626|SUPERIORITY||Odds Ratio (OR)|6.15|||<|0.0001|TWO_SIDED|95.0|2.99|12.66|||Cochran-Mantel-Haenszel|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||12.66|2.99|<0.0001
82601195|NCT03434379|164917627|SUPERIORITY||Hazard Ratio (HR)|0.23||||0.0051|TWO_SIDED|95.0|0.08|0.7|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.70|0.08|0.0051
82601196|NCT03434379|164917628|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.0048|TWO_SIDED|95.0|0.12|0.73|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.73|0.12|0.0048
82601197|NCT03434379|164917629|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.4187|TWO_SIDED|95.0|0.16|2.15|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||2.15|0.16|0.4187
82601198|NCT03434379|164917630|SUPERIORITY||Hazard Ratio (HR)|0.59|||<|0.0001|TWO_SIDED|95.0|0.46|0.74|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.74|0.46|<.0001
82601199|NCT03434379|164917631|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.36|0.57|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.57|0.36|<.0001
82601200|NCT03434379|164917632|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0105|TWO_SIDED|95.0|0.53|0.92|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.92|0.53|0.0105
82601201|NCT03434379|164917633|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.0063|TWO_SIDED|95.0|0.52|0.9|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.90|0.52|0.0063
82601202|NCT03434379|164917634|SUPERIORITY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.35|0.57|||Log Rank|||Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.57|0.35|<.0001
82601203|NCT03434379|164917635|SUPERIORITY||Hazard Ratio (HR)|0.5||||0.0019|TWO_SIDED|95.0|0.32|0.78|||Log Rank|||AFP \<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.78|0.32|0.0019
82601204|NCT03434379|164917635|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0879|TWO_SIDED|95.0|0.42|1.06|||Log Rank|||AFP \>/= 400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||1.06|0.42|0.0879
82492174|NCT05764408|164677646|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||||||0.47
82492175|NCT05764408|164677648|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.81
82492176|NCT05764408|164677649|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.07|16.12||||||||16.12|0.07|
82492177|NCT01332500|164677654|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan tablets|paired t-test 2-sided|||||||<0.001
82492178|NCT01332500|164677654|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Non-steroidal anti-inflammatory drug tablets|paired t-test 2-sided|||||||<0.001
82601205|NCT03434379|164917636|SUPERIORITY||Hazard Ratio (HR)|0.5|||<|0.0001|TWO_SIDED|95.0|0.37|0.68|||Log Rank|||AFP\<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.68|0.37|<.0001
82601206|NCT03434379|164917636|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.2159|TWO_SIDED|95.0|0.53|1.15|||Log Rank|||AFP \>/=400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||1.15|0.53|0.2159
82601207|NCT03434379|164917637|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.31|0.57|||Log Rank|||AFP \<400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.57|0.31|<0.0001
82601208|NCT03434379|164917637|SUPERIORITY||Hazard Ratio (HR)|0.51||||0.0002|TWO_SIDED|95.0|0.35|0.73|||Log Rank|||AFP \>/=400 ng/mL and stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence).||0.73|0.35|0.0002
82601209|NCT03434379|164917638|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.39|0.73|||Log Rank|||Physical Functioning: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.73|0.39|<.0001
82601210|NCT03434379|164917638|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.0019|TWO_SIDED|95.0|0.46|0.84|||Log Rank|||Role Functioning: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.84|0.46|0.0019
82601211|NCT03434379|164917638|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0028|TWO_SIDED|95.0|0.46|0.85|||Log Rank|||GHS/QoL: Stratified by geographic region (Asia \[excluding Japan\] vs. rest of world), macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.85|0.46|0.0028
82601212|NCT03434379|164917643|SUPERIORITY||Odds Ratio (OR)|4.6||||0.0036|TWO_SIDED|95.0|1.53|13.86|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||13.86|1.53|0.0036
82655589|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 2 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
82655590|NCT00366899|165027168|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lowest limit of the 2-sided 95% CI for the difference between the two groups was \> -10%.|Difference|0.0||||||95.0|-2.4|2.1||||||For Polio Type 3 the difference in percentage between the two groups (13vPnC - 7vPnC) at ≥1:8 threshold was calculated.||2.1|-2.4|
82601213|NCT03434379|164917644|SUPERIORITY||Odds Ratio (OR)|4.71||||0.0013|TWO_SIDED|95.0|1.72|12.87|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||12.87|1.72|0.0013
82601214|NCT03434379|164917645|SUPERIORITY||Odds Ratio (OR)|5.05||||0.0052|TWO_SIDED|95.0|1.47|17.39|||Cochran-Mantel-Haenszel|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||17.39|1.47|0.0052
82601215|NCT03434379|164917646|SUPERIORITY||Hazard Ratio (HR)|0.37||||0.4581|TWO_SIDED|95.0|0.02|5.85|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||5.85|0.02|0.4581
82601216|NCT03434379|164917647|SUPERIORITY||Hazard Ratio (HR)|0.08||||0.01|TWO_SIDED|95.0|0.01|0.91|||Log Rank||Lower limit: \<0.01|Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.91|0.01|0.0100
82601217|NCT03434379|164917648|SUPERIORITY||Hazard Ratio (HR)|0.33||||0.3477|TWO_SIDED|95.0|0.03|3.69|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||3.69|0.03|0.3477
82601218|NCT03434379|164917649|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0103|TWO_SIDED|95.0|0.4|0.89|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.89|0.40|0.0103
82655591|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.98||||||95.0|0.87|1.1||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.87|
82601219|NCT03434379|164917650|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0002|TWO_SIDED|95.0|0.33|0.71|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.71|0.33|0.0002
82601220|NCT03434379|164917651|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0927|TWO_SIDED|95.0|0.43|1.07|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.07|0.43|0.0927
82601221|NCT03434379|164917652|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0861|TWO_SIDED|95.0|0.43|1.06|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.06|0.43|0.0861
82601222|NCT03434379|164917653|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.0004|TWO_SIDED|95.0|0.33|0.74|||Log Rank|||Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.74|0.33|0.0004
82655592|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.92|1.16||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.16|0.92|
82655593|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.87|1.17||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.17|0.87|
82601223|NCT03434379|164917654|SUPERIORITY||Hazard Ratio (HR)|0.45||||0.0035|TWO_SIDED|95.0|0.26|0.78|||Log Rank|||Physical Functioning: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.78|0.26|0.0035
82601224|NCT03434379|164917654|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.2214|TWO_SIDED|95.0|0.42|1.23|||Log Rank|||Role Functioning: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||1.23|0.42|0.2214
82601225|NCT03434379|164917654|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0135|TWO_SIDED|95.0|0.32|0.88|||Log Rank|||GHS/QoL: Stratified by macrovascular invasion and/or extrahepatic spread (presence vs. absence), and baseline AFP (\<400 vs. \>/= 400 ng/mL).||0.88|0.32|0.0135
82601226|NCT01469000|164917659|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.009|TWO_SIDED|95.0|0.48|0.93||1-sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||0.93|0.48|0.009
82601227|NCT01469000|164917660|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.64||||0.005|TWO_SIDED|95.0|0.46|0.9||1 sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||0.90|0.46|0.005
82601228|NCT01469000|164917661|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.105|TWO_SIDED|95.0|0.51|1.16||1 sided.|Regression, Cox|Adjusted for gender, performance status, previous adjuvant /neoadjuvant treatment, age, smoking history, mutation type, and country.||||1.16|0.51|0.105
82601229|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.77|1.78||||||Patient-rated Loss of Appetite: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.78|0.77|
82601230|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.6|1.42||||||Patient-rated Fatigue: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.42|0.60|
82601231|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|0.84|2.3||||||Patient-rated Cough: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||2.30|0.84|
82601232|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.65|1.71||||||Patient-rated Dyspnea: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.71|0.65|
82601233|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|0.57|||||TWO_SIDED|95.0|0.32|1.02||||||Patient-rated Hemoptysis: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.02|0.32|
82492179|NCT01332500|164677654|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||Opioid tablets|paired t-test 2-sided|||||||0.005
82601234|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.64|1.91||||||Patient-rated Pain: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.91|0.64|
82601235|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.68|1.77||||||Patient-rated Overall Symptoms: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.77|0.68|
82601236|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.38|||||TWO_SIDED|95.0|0.88|2.17||||||Patient-rated Interference: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||2.17|0.88|
82601237|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.72|1.74||||||Patient-rated Quality of Life: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (no symptoms) to 100 (as much as it could be).||1.74|0.72|
82601238|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.56|||||TWO_SIDED|95.0|0.97|2.49||||||Observer-rated Loss of Appetite: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.49|0.97|
82601239|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.26|||||TWO_SIDED|95.0|0.82|1.93||||||Observer-rated Fatigue: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.93|0.82|
82601240|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|0.72|2.15||||||Observer-rated Cough:Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.15|0.72|
82601241|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.09|||||TWO_SIDED|95.0|0.64|1.83||||||Observer-rated Dyspnea: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.83|0.64|
82601242|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.6|2.91||||||Observer-rated Hemoptysis: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||2.91|0.60|
82655594|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.01||||||95.0|0.89|1.15||||||For Pertussis FHA the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.89|
82492180|NCT01332500|164677654|SUPERIORITY_OR_OTHER|||||||0.336||95.0||||Ergot tablets|paired t-test 2-sided|||||||0.336
82492181|NCT01332500|164677654|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||Other tablets|paired t-test 2-sided|||||||0.162
82492182|NCT01332500|164677655|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plan costs|paired t-test 2-sided|||||||<0.001
82601243|NCT01469000|164917665|SUPERIORITY||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.41|1.03||||||Observer-rated Pain: Time to worsening of symptom (TWS) was measured from the date of randomization to the first date of a 15-millimeter(mm) worsening from baseline on a scale of 0 (Severe) to 100 (None). This scoring system is the reverse of the patient scale. The observer scale is a categorical 5-point scale and specific descriptors are provided with each questions for each of the scores (0,25,50,75 and 100)||1.03|0.41|
82601244|NCT03179436|164917742|OTHER||Percent Difference|2.4|||||TWO_SIDED|95.0|-8.7|14.1|||Percent Difference|Comparision based on Miettinen \& Nurminen method||||14.1|-8.7|
82601245|NCT01332071|164917760|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|96.58|||||TWO_SIDED|90.0|93.44|99.83|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.83|93.44|
82601246|NCT01332071|164917761|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|97.76|||||TWO_SIDED|90.0|93.25|102.5|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||102.50|93.25|
82601247|NCT01332071|164917762|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|96.47|||||TWO_SIDED|90.0|93.32|99.72|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.72|93.32|
82601248|NCT01332071|164917763|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|95.79|||||TWO_SIDED|90.0|91.67|100.1|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||100.10|91.67|
82601249|NCT01332071|164917764|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|94.86|||||TWO_SIDED|90.0|90.7|99.22|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||99.22|90.70|
82601250|NCT01332071|164917765|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill a specific regulatory demand of the Brazilian Regulatory Agency - ANVISA, in order to register a new dosage of medication.|Ratio T formulation/R formulation|97.88|||||TWO_SIDED|90.0|93.15|102.86|||||The ratios between the geometric means of the test (T) and reference (R) formulations was calculated.|||102.86|93.15|
82601251|NCT01634555|164917767|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.93|||||TWO_SIDED|90.0|0.83|1.05|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1 for Irinotecan .||||1.05|0.83|
82655595|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.83|1.07||||||For Pertussis PT the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.83|
82601252|NCT01634555|164917767|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.95|||||TWO_SIDED|90.0|0.88|1.04|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1 for Metabolite SN-38.||||1.04|0.88|
82601253|NCT01634555|164917769|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|1.04|||||TWO_SIDED|90.0|0.97|1.12|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1 for Irinotecan.||||1.12|0.97|
82601254|NCT01634555|164917769|SUPERIORITY_OR_OTHER||Ratio of Geo LS means|0.97|||||TWO_SIDED|90.0|0.85|1.12|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1 for Metabolite SN-38.||||1.12|0.85|
82601255|NCT01738971|164917778|SUPERIORITY_OR_OTHER||relative probability|3.13|||<|0.001||95.0|1.9|5.13|||t-test, 2 sided|see above description of analysis taking into account cluster randomisation||"Cluster randomised study design - statisitical analysis takes this into account. Analaysis was conducted at a cluster level and the proportions in each cluster using effective contraception were compared between groups by 2-sample t tests, weighted by the different number of patients in each cluster.~Comparison of number of women using effective contraception at 6-8 weeks in progestogen only pill group compared to control."||5.13|1.90|<0.001
82601256|NCT01738971|164917778|SUPERIORITY_OR_OTHER||relative probability|2.57||||0.006||95.0|1.55|4.27||see above comments regarding analysis taking cluster randomised account into consideration|t-test, 2 sided|||"Cluster randomised study design - statisitical analysis takes this into account. Analaysis was conducted at a cluster level and the proportions in each cluster using effective contraception were compared between groups by 2-sample t tests, weighted by the different number of patients in each cluster.~Comparison of number of women using effective contraception at 6-8 weeks in rapid access group compared to control."||4.27|1.55|0.006
82601257|NCT00692211|164917784|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.01|TWO_SIDED|95.0|1.04|2.32||Not adjusted for multiple comparisons, a priori threshold of 0.05|Regression, Logistic|||Study powered to detect 10% difference in proportion of screening adherence based on alpha of 0.05, beta 0.20.||2.32|1.04|0.01
82601258|NCT01641120|164917875|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||<.05
82601259|NCT01641120|164917876|SUPERIORITY_OR_OTHER|||||||0.193|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||0.193
82601260|NCT01641120|164917877|SUPERIORITY_OR_OTHER|||||||0.035|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||0.035
82601261|NCT01641120|164917878|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||Wilcoxon Signed Ranks|||||||.005
82655596|NCT00366899|165027169|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.94||||||95.0|0.82|1.07||||||For Pertussis PRN the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.82|
82655597|NCT00366899|165027172|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the geometric mean concentration (GMC)/geometric mean titer (GMT) ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.96||||||95.0|0.72|1.27||||||For Hepatitis b the geometric mean concentration (GMC) ratio (13vPnC/7vPnC) was calculated||1.27|0.72|
82655598|NCT00366899|165027172|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.72||||||95.0|0.54|0.96||||||For Hepatitis b the GMC ratio (13vPnC/7vPnC) was calculated||0.96|0.54|
82655599|NCT00366899|165027173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.99||||||95.0|0.75|1.3||||||or Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.30|0.75|
82655600|NCT00366899|165027173|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.03||||||95.0|0.81|1.3||||||For Haemophilus influenzae type b the GMC ratio (13vPnC/7vPnC) was calculated||1.30|0.81|
82655601|NCT00366899|165027174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.78||||||95.0|0.65|0.94||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.94|0.65|
82655602|NCT00366899|165027174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.67|1.08||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.67|
82655603|NCT00366899|165027174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.75||||||95.0|0.63|0.89||||||For diphtheria toxoid the GMC ratio (13vPnC/7vPnC) was calculated||0.89|0.63|
82655604|NCT00366899|165027174|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|1.25||||||95.0|0.88|1.79||||||For Tetanus the GMC ratio (13vPnC/7vPnC) was calculated||1.79|0.88|
82601262|NCT02554929|164917879|SUPERIORITY||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.42||0.002|TWO_SIDED|95.0|-0.91|0.74||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||Values above are for the primary outcome measure of the Anxiety Disorders Interview Schedule for DSM-IV, Clinical Severity Rating (ADIS-CSR) score for SAD.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||0.74|-0.91|0.002
82601263|NCT02554929|164917879|SUPERIORITY||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|0.62||0.002|TWO_SIDED|95.0|-0.95|1.48||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||Values above are for the primary outcome measure of the Anxiety Disorders Interview Schedule for DSM-IV, Clinical Severity Rating (ADIS-CSR) score for SM.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||1.48|-0.95|0.002
82601264|NCT02554929|164917882|SUPERIORITY||Mean Difference (Final Values)|1.89|STANDARD_ERROR_OF_MEAN|3.14||0.002|TWO_SIDED|95.0|-4.28|8.08||P value adjusted for multiple comparison; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis||The estimated value of the estimation parameter corresponds to the difference between change in CGAS scores for participants in the CBT arm, in comparison to those in the socialization arm, from pre-treatment to 6-month follow-up.|In our previous study, 42% participants in the CBT arm lost their primary diagnosis of social anxiety disorder (SAD) and/or selective mutism (SM) post-intervention versus none of the comparison group participants. In the present study, we conservatively estimated that 10% of comparison group children will lose their primary diagnosis. A sample size of 70 achieves a power of 81% to detect a 32% difference between treatments, using a two-sided Chi-squared test with a significance level of 0.05.||8.08|-4.28|0.002
82601265|NCT01916980|164917885|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Longitudinal Data Analysis|Model includes terms of visit, group and visit by group interaction; visit is treated as a categorical variable||Analysis of the change from Baseline in least squares (LS) mean for the Desloratadine: Eczema/Dermatitis group||||<0.001
82655605|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.87||||||95.0|0.7|1.08||||||For Polio Type 1 the GMC ratio (13vPnC/7vPnC) was calculated||1.08|0.70|
82655606|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.95||||||95.0|0.74|1.22||||||For Polio Type 2 the GMC ratio (13vPnC/7vPnC) was calculated||1.22|0.74|
82655607|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.88||||||95.0|0.68|1.13||||||For Polio Type 3 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.68|
82655608|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.69||||||95.0|0.55|0.86||||||For Polio Type 1 the GMC ratio (13vPnC/7vPnC) was calculated||0.86|0.55|
82655609|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.85||||||95.0|0.68|1.07||||||For Polio Type 2 the GMC ratio (13vPnC/7vPnC) was calculated||1.07|0.68|
82601266|NCT01916980|164917885|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Longitudinal Data Analysis|Model includes terms of visit, group and visit by group interaction; visit is treated as a categorical variable||Analysis of the change from Baseline in LS mean for the Desloratadine: Dermal Pruritus group||||<0.001
82601267|NCT03242954|164917905|SUPERIORITY||Cohen's f square|0.011|STANDARD_ERROR_OF_MEAN|0.208||0.5148|TWO_SIDED|95.0|0.001|0.101|||Regression, Linear|||||0.101|0.001|0.5148
82601268|NCT03242954|164917906|SUPERIORITY||Cohen's f square|0.306|STANDARD_ERROR_OF_MEAN|0.149|<|0.0001|TWO_SIDED|95.0|0.169|0.389|||Regression, Linear|||||0.389|0.169|<.0001
82601269|NCT03242954|164917907|SUPERIORITY||Cohen's f square|0.008|STANDARD_ERROR_OF_MEAN|0.213||0.4324|TWO_SIDED|95.0|0.001|0.073|||GEE Linear model|||||0.073|0.001|0.4324
82601270|NCT03242954|164917908|SUPERIORITY||Cohen's f square|0.26|STANDARD_ERROR_OF_MEAN|0.149|<|0.0001|TWO_SIDED|95.0|0.175|0.374|||GEE Linear model|||||0.374|0.175|<.0001
82601271|NCT00880750|164917909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A standard 90% confidence interval (CI) was constructed for the difference in least square means of the primary pharmacodynamic (PD) variable between the granules formulation and the reference chewable tablet formulation. A critical reference representing +/- 20% of the reference chewable tablet formulation least squares mean was constructed. PD equivalence was to be claimed if the 90% CI was completely contained within the critical reference range of (-3.47, 3.47).|Mean Difference (Final Values)|-1.35|||||TWO_SIDED|90.0|-2.18|-0.51|||Mixed Models Analysis|||||-0.51|-2.18|
82601272|NCT00880750|164917910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A standard 90% confidence interval (CI) was constructed for the difference in least square means of the primary pharmacodynamic (PD) variable between the granules formulation and the reference chewable tablet formulation. A critical reference representing +/- 20% of the reference chewable tablet formulation least squares mean was constructed. PD equivalence was to be claimed if the 90% CI was completely contained within the critical reference range of (-3.40, 3.40).|Mean Difference (Final Values)|-1.98|||||TWO_SIDED|90.0|-3.17|-0.8|||Mixed Models Analysis|||||-0.80|-3.17|
82601273|NCT00880750|164917911|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric LS means|1.34||||||90.0|1.26|1.42|||Mixed Models Analysis|After application of the log transformation AUC 0-48 was analysed using a mixed effect linear model.||The LS means and associated SEs for granules and tablets as well as the difference between granules and tablets were determined. From the LS mean and SE of the difference, a 90% CI was constructed for the difference of the logs of granules and tablets. An exponential transformation was applied to the lower and upper limits of the CI. This created a point estimate and 90% CI for the ratio of LS means for granules to tablets.||1.42|1.26|
82601274|NCT00880750|164917912|SUPERIORITY_OR_OTHER_LEGACY||Ratio of geometric LS means|1.26||||||90.0|1.2|1.33|||Mixed Models Analysis|After application of the log transformation Cmax was analysed using a mixed effect linear model.||The LS means and associated SEs for granules and tablets as well as the difference between granules and tablets were determined. From the LS mean and SE of the difference, a 90% CI was constructed for the difference of the logs of granules and tablets. An exponential transformation was applied to the lower and upper limits of the CI. This created a point estimate and 90% CI for the ratio of LS means for granules to tablets.||1.33|1.20|
82601275|NCT00880750|164917913|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.01||||||90.0|0.0|0.5|||Wilcoxon (Hodges-Lehmann)|The median difference and 90% CI for the median difference was then calculated based on Hodges-Lehmann estimate for Wilcoxon's Signed Rank test||||0.50|0.00|
82601276|NCT04660643|164917952|SUPERIORITY||LS Mean difference|-21.4|||<|0.001|TWO_SIDED|95.0|-22.9|-20.0|||Mixed Models Analysis|||||-20.0|-22.9|<.001
82601277|NCT04660643|164917953|SUPERIORITY||LS Mean difference|-15.9|||<|0.001|TWO_SIDED|95.0|-17.0|-14.9|||Mixed Models Analysis|||||-14.9|-17.0|<.001
82601278|NCT04660643|164917954|SUPERIORITY||LS Mean difference|-17.6|||<|0.001|TWO_SIDED|95.0|-18.8|-16.4|||Mixed Models Analysis|||||-16.4|-18.8|<.001
82601279|NCT04660643|164917955|SUPERIORITY||LS Mean difference|-12.9|||<|0.001|TWO_SIDED|95.0|-14.1|-11.7|||Mixed Models Analysis|||||-11.7|-14.1|<.001
82601280|NCT04660643|164917956|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-6.8|-6.0|||Mixed Models Analysis|||||-6.0|-6.8|<.001
82601281|NCT04660643|164917957|SUPERIORITY||LS Mean difference|-8.64|||<|0.001|TWO_SIDED|95.0|-10.14|-7.15|||Mixed Models Analysis|||||-7.15|-10.14|<.001
82601282|NCT04660643|164917958|SUPERIORITY||LS Mean difference|-0.33|||<|0.001|TWO_SIDED|95.0|-0.38|-0.28|||Mixed Models Analysis|||||-0.28|-0.38|<.001
82601283|NCT04660643|164917959|SUPERIORITY||LS Mean difference|-31.4|STANDARD_ERROR_OF_MEAN|3.37|<|0.001|TWO_SIDED|95.0|-37.7|-24.4|||Mixed Models Analysis|||||-24.4|-37.7|<.001
82601284|NCT04660643|164917960|SUPERIORITY||LS Mean difference|-5.54|STANDARD_ERROR_OF_MEAN|1.139|<|0.001|TWO_SIDED|95.0|-7.76|-3.28|||Mixed Models Analysis|||Total Cholesterol||-3.28|-7.76|<.001
82601285|NCT04660643|164917960|SUPERIORITY||LS Mean difference|-6.57|STANDARD_ERROR_OF_MEAN|1.709|<|0.001|TWO_SIDED|95.0|-9.87|-3.15|||Mixed Models Analysis|||LDL Cholesterol||-3.15|-9.87|<.001
82601286|NCT04660643|164917960|SUPERIORITY||LS Mean difference|3.2|STANDARD_ERROR_OF_MEAN|1.33||0.014|TWO_SIDED|95.0|0.6|5.8|||Mixed Models Analysis|||HDL Cholesterol||5.8|0.6|0.014
82601287|NCT04660643|164917960|SUPERIORITY||LS Mean difference|-19.7|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-24.0|-15.1|||Mixed Models Analysis|||VLDL Cholesterol||-15.1|-24.0|<.001
82601288|NCT04660643|164917960|SUPERIORITY||LS Mean difference|-20.6|STANDARD_ERROR_OF_MEAN|2.27|<|0.001|TWO_SIDED|95.0|-24.9|-16.0|||Mixed Models Analysis|||Triglycerides||-16|-24.9|<.001
82601289|NCT04660643|164917960|SUPERIORITY||LS Mean difference|-10.8|STANDARD_ERROR_OF_MEAN|3.79||0.008|TWO_SIDED|95.0|-17.9|-3.0|||Mixed Models Analysis|||FFA||-3.0|-17.9|0.008
82601290|NCT04660643|164917961|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-8.1|-4.6|||Mixed Models Analysis|||SBP||-4.6|-8.1|<.001
82601291|NCT04660643|164917961|SUPERIORITY||LS Mean difference|-3.6|||<|0.001|TWO_SIDED|95.0|-4.8|-2.4|||Mixed Models Analysis|||DBP||-2.4|-4.8|<.001
82601292|NCT04660643|164917962|SUPERIORITY||LS Mean difference|2.6|||<|0.001|TWO_SIDED|95.0|1.7|3.5|||ANCOVA|||||3.5|1.7|<.001
82601293|NCT04660643|164917963|SUPERIORITY||LS Mean difference|9.4|||<|0.001|TWO_SIDED|95.0|6.8|12.0|||ANCOVA|||||12.0|6.8|<0.001
82655610|NCT00366899|165027175|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for concomitant antigens was declared if the lower bound of the 2-sided, 95% CI for the GMC/GMT ratio (13vPnC group/7vPnC group) was \>0.5 (2-fold criterion).|Ratio|0.65||||||95.0|0.51|0.83||||||For Polio Type 3 the GMC ratio (13vPnC/7vPnC) was calculated||0.83|0.51|
82601294|NCT04660643|164917964|SUPERIORITY||Odds Ratio (OR)|95.91|||<|0.001|TWO_SIDED|95.0|54.72|168.09|||Regression, Logistic|||||168.09|54.72|<0.001
82601295|NCT04660643|164917965|SUPERIORITY||Odds Ratio (OR)|47.27|||<|0.001|TWO_SIDED|95.0|18.32|121.99|||Regression, Logistic|||≥5% body weight reduction from baseline||121.99|18.32|<0.001
82601296|NCT04660643|164917965|SUPERIORITY||Odds Ratio (OR)|71.51|||<|0.001|TWO_SIDED|95.0|34.46|148.39|||Regression, Logistic|||≥10% body weight reduction from baseline||148.39|34.46|<0.001
82601297|NCT04660643|164917965|SUPERIORITY||Odds Ratio (OR)|79.99|||<|0.001|TWO_SIDED|95.0|42.06|152.14|||Regression, Logistic|||≥15% body weight reduction from baseline||152.14|42.06|<0.001
82601298|NCT04660643|164917965|SUPERIORITY||Odds Ratio (OR)|140.84|||<|0.001|TWO_SIDED|95.0|66.06|300.29|||Regression, Logistic|||≥20% body weight reduction from baseline||300.29|66.06|<0.001
82601299|NCT04660643|164917966|SUPERIORITY||Hazard Ratio (HR)|0.013|||<|0.001|TWO_SIDED|95.0|0.004|0.046|||Log Rank||Unstratified hazard ratio from Cox proportional hazard model with Baseline Weight (kg), Analysis Country, Sex, IWRS MTD at Week 36, Weight at randomization (kg) as covariates.|||0.046|0.004|<.001
82601300|NCT04660643|164917967|SUPERIORITY||LS Mean difference|-6.4|||<|0.001|TWO_SIDED|95.0|-6.8|-6.0|||Mixed Models Analysis|||||-6.0|-6.8|<.001
82601301|NCT04660643|164917968|SUPERIORITY||LS Mean difference|-17.6|||<|0.001|TWO_SIDED|95.0|-18.8|-16.4|||Mixed Models Analysis|||||-16.4|-18.8|<.001
82601302|NCT04660643|164917969|SUPERIORITY||LS Mean difference|-16.4|||<|0.001|TWO_SIDED|95.0|-17.5|-15.4|||Mixed Models Analysis|||||-15.4|-17.5|<.001
82601303|NCT04660643|164917970|SUPERIORITY||LS Mean difference|-13.6|||<|0.001|TWO_SIDED|95.0|-15.1|-12.2|||Mixed Models Analysis|||||-12.2|-15.1|<.001
82601304|NCT04660643|164917971|SUPERIORITY||LS Mean difference|-8.92|||<|0.001|TWO_SIDED|95.0|-10.4|-7.43|||Mixed Models Analysis|||||-7.43|-10.40|<.001
82601305|NCT04660643|164917972|SUPERIORITY||LS Mean difference|-0.34|||<|0.001|TWO_SIDED|95.0|-0.39|-0.29|||Mixed Models Analysis|||||-0.29|-0.39|<.001
82601306|NCT04660643|164917973|SUPERIORITY||LS Mean difference|-34.6|STANDARD_ERROR_OF_MEAN|3.25|<|0.001|TWO_SIDED|95.0|-40.6|-27.9|||Mixed Models Analysis|||||-27.9|-40.6|<.001
82601307|NCT04660643|164917974|SUPERIORITY||LS Mean difference|-7.02|STANDARD_ERROR_OF_MEAN|1.158|<|0.001|TWO_SIDED|95.0|-9.27|-4.72|||Mixed Models Analysis|||Total Cholesterol||-4.72|-9.27|<.001
82601308|NCT04660643|164917974|SUPERIORITY||LS Mean difference|-7.62|STANDARD_ERROR_OF_MEAN|1.707|<|0.001|TWO_SIDED|95.0|-10.91|-4.21|||Mixed Models Analysis|||LDL Cholesterol||-4.21|-10.91|<.001
82601309|NCT04660643|164917974|SUPERIORITY||LS Mean difference|2.6|STANDARD_ERROR_OF_MEAN|1.418||0.064|TWO_SIDED|95.0|-0.14|5.43|||Mixed Models Analysis|||HDL Cholesterol||5.43|-0.14|0.064
82601310|NCT04660643|164917974|SUPERIORITY||LS Mean difference|-20.1|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-24.7|-15.3|||Mixed Models Analysis|||VLDL Cholesterol||-15.3|-24.7|<.001
82601311|NCT04660643|164917974|SUPERIORITY||LS Mean difference|-21.2|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-25.8|-16.4|||Mixed Models Analysis|||Triglycerides||-16.4|-25.8|<.001
82601312|NCT04660643|164917974|SUPERIORITY||LS Mean difference|-11.83|STANDARD_ERROR_OF_MEAN|3.793||0.004|TWO_SIDED|95.0|-18.98|-4.06|||Mixed Models Analysis|||FFA||-4.06|-18.98|0.004
82601313|NCT04660643|164917975|SUPERIORITY||LS Mean difference|-6.9|||<|0.001|TWO_SIDED|95.0|-8.7|-5.1|||Mixed Models Analysis|||SBP||-5.1|-8.7|<.001
82492183|NCT01332500|164677655|SUPERIORITY_OR_OTHER|||||||0.349||95.0||||Non-steroidal anti-inflammatory drug health plan costs|paired t-test 2-sided|||||||0.349
82601314|NCT04660643|164917975|SUPERIORITY||LS Mean difference|-3.8|||<|0.001|TWO_SIDED|95.0|-5.1|-2.6|||Mixed Models Analysis|||DBP||-2.6|-5.1|<.001
82601315|NCT04660643|164917976|SUPERIORITY||LS Mean difference|2.7|||<|0.001|TWO_SIDED|95.0|1.7|3.7|||ANCOVA|||||3.7|1.7|<.001
82601316|NCT04660643|164917977|SUPERIORITY||LS Mean difference|9.3|||<|0.001|TWO_SIDED|95.0|6.5|12.0|||ANCOVA|||||12.0|6.5|<.001
82601317|NCT03988907|164917978|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.08|||||TWO_SIDED|90.0|0.93|1.26||||||||1.26|0.93|
82601318|NCT03988907|164917979|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.11|||||TWO_SIDED|90.0|1.02|1.2||||||||1.20|1.02|
82601319|NCT03988907|164917980|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.16|||||TWO_SIDED|90.0|1.06|1.28||||||||1.28|1.06|
82601320|NCT03988907|164917981|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.12|||||TWO_SIDED|90.0|0.99|1.27||||||||1.27|0.99|
82601321|NCT03988907|164917982|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.2|||||TWO_SIDED|90.0|1.11|1.3||||||||1.30|1.11|
82601322|NCT03988907|164917983|OTHER|Descriptive statistics. A sample size of 26 evaluable participants ensures that the two-sided 90% confidence interval for the geometric population mean of the individual exposure ratios of Day 16 to Day 1 will lie within the 0.75 to 1.33 limits of the geometric population mean with at least 80% probability (power).|Ratio of Geometric Least Squares Means|1.27|||||TWO_SIDED|90.0|1.14|1.41||||||||1.41|1.14|
82601323|NCT03657459|164918092|SUPERIORITY|||||||0.0096|||||||Chi-squared|Pearsons Chi Square||||||0.0096
82601324|NCT03657459|164918093|SUPERIORITY|||||||0.9||||||no adjustment|Chi-squared|Pearson Chi-square||||||0.90
82601325|NCT00066690|164918100|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.1|TWO_SIDED|95.0|0.66|1.04|||Log Rank||Tamoxifen was the reference group in the estimation of the hazard ratio.|||1.04|0.66|0.1
82601326|NCT00066690|164918100|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.53|0.86|||||Tamoxifen was the reference group in the estimation of the hazard ratio.|||0.86|0.53|
82601327|NCT00066690|164918101|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.09|TWO_SIDED|95.0|0.3|1.03|||Log Rank||Tamoxifen was the reference group in the estimation of the hazard ratio.|||1.03|0.3|0.09
82601328|NCT00066690|164918101|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.49|0.83|||||Tamoxifen was the reference group in the estimation of the hazard ratio.|||0.83|0.49|
82601329|NCT00066690|164918102|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4|TWO_SIDED|95.0|0.66|1.18|||Log Rank||T was the reference group in the estimation of the hazard ratio.|||1.18|0.66|0.40
82601330|NCT00066690|164918102|SUPERIORITY||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.52|0.96|||||T was the reference group in the estimation of hazard ratio.|||0.96|0.52|
82601331|NCT00066690|164918103|SUPERIORITY|\[not specified\]|Hazard Ratio (HR)|0.67||||0.01|TWO_SIDED|95.0|0.48|0.92|||Log Rank||T was the reference group in the estimation of the hazard ratio|||0.92|0.48|0.01
82601332|NCT00066690|164918103|SUPERIORITY|\[not specified\]|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.62|1.15|||||T was the reference group in the estimation of hazard ratio|||1.15|0.62|
82601333|NCT02939131|164918104|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not. The study was designed for at least 80% power to detect an effect size of 0.8 standard deviations (SD), which corresponded to a difference of four points. We assumed an intracluster correlation coefficient (ICC) between 0.02 and 0.16 and allowed for 10% non-evaluability. In a pre-planned interim analysis, we estimated the ICC based on the entry QIDS-SR to be 0.10.|Mean Difference (Final Values)|-3.86||||0.01|TWO_SIDED|95.0|-6.79|-0.94|||t-test, 2 sided||We subtracted the mean of the ESC group from the mean of the COMB-R group. Because a lower score indicated less severe depressive symptoms, a negative value indicated superiority.|||-0.94|-6.79|0.01
82601334|NCT02939131|164918105|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|44.3|||<|0.001|TWO_SIDED|95.0|23.1|65.5|||t-test, 2 sided||We subtracted the group mean of the site percents with response for the ESC group from that of the COMB-R group. A positive value indicates the COMB-R group had a higher mean percent of participants with response compared to the ESC group.|||65.5|23.1|<0.001
82601335|NCT02939131|164918106|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|30.9||||0.01|TWO_SIDED|95.0|8.9|52.9|||t-test, 2 sided||We subtracted the group mean of the site percents with remission for the ESC group from the COMB-R group so a positive value indicates the COMB-R group has more participants with remission.|||52.9|8.9|0.01
82655611|NCT02848326|165027181|SUPERIORITY||Least squares mean difference|-1.15|STANDARD_ERROR_OF_MEAN|0.4||0.0039|TWO_SIDED|95.0|-1.93|-0.37||Mixed-effects model for repeated measures (MMRM) model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.37|-1.93|0.0039
82601336|NCT02939131|164918107|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|19.0||||0.86|TWO_SIDED|95.0|-223.0|262.0|||t-test, 2 sided||Group mean for ESC is subtracted from the group mean for COMB-R. The group means are the means of the site mean CD4 cell counts.|||262|-223|0.86
82601337|NCT02939131|164918108|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|0.17||||0.66|TWO_SIDED|95.0|-0.65|0.99|||t-test, 2 sided||We subtracted the group mean for the ESC group from the group mean of the COMB-R group. The group means are the means of the site mean log10 HIV RNA copies/mL.|||0.99|-0.65|0.66
82601338|NCT02939131|164918109|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.04|TWO_SIDED|95.0|0.1|4.0|||t-test, 2 sided||A positive difference indicates COMB-R group had a site-level average of more days in last 30 with missed HIV medication doses.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed HIV medication doses reported at week 24.||4.0|0.1|0.04
82601339|NCT02939131|164918109|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.96|TWO_SIDED|95.0|-5.0|5.2|||t-test, 2 sided||A positive difference reflects greater number of days with missed HIV medication doses in last 30 days for COMB-R group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed HIV medication doses reported at week 48.||5.2|-5.0|0.96
82601340|NCT02939131|164918110|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.27|TWO_SIDED|95.0|-1.1|0.4|||t-test, 2 sided||A positive difference means the COMB-R group rated adherence to HIV medications better than the ESC group.|Comparison of COMB-R and ESC groups, how good was participant at taking HIV medication doses; reported at week 24.||0.4|-1.1|0.27
82601341|NCT02939131|164918110|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.44|TWO_SIDED|95.0|-0.4|0.9|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how good was participant at taking HIV medication doses; reported at week 48.||0.9|-0.4|0.44
82601342|NCT02939131|164918111|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.14|TWO_SIDED|95.0|-1.1|0.2|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take HIV medication as instructed; reported at week 24.||0.2|-1.1|0.14
82601343|NCT02939131|164918111|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.49|TWO_SIDED|95.0|-0.6|1.1|||t-test, 2 sided||A positive difference would indicate the COMB-R group rated their adherence better than the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take HIV medication as instructed; reported at week 48.||1.1|-0.6|0.49
82601344|NCT02939131|164918112|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.05|TWO_SIDED|95.0|0.0|4.4|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group had more days with missed depression medications than those in the ESC group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed depression medication doses reported at week 24.||4.4|0.0|0.05
82601345|NCT02939131|164918112|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.53|TWO_SIDED|95.0|-12.5|7.1|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported more days with missed doses than those in the ESC group.|Comparison of COMB-R and ESC groups, number of days in last 30 with any missed depression medication doses reported at week 48.||7.1|-12.5|0.53
82601346|NCT02939131|164918113|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.13|TWO_SIDED|95.0|-1.5|0.2|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group were better at taking medications.|Comparison of COMB-R and ESC groups, how good was participant at taking depression medication; reported at week 24.||0.2|-1.5|0.13
82601347|NCT02939131|164918113|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.53|TWO_SIDED|95.0|-1.1|2.0|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group were better at taking their medications.|Comparison of COMB-R and ESC groups, how good was participant at taking depression medication; reported at week 48.||2.0|-1.1|0.53
82601348|NCT02939131|164918114|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.07|TWO_SIDED|95.0|-1.3|0.1|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported better adherence.|Comparison of COMB-R and ESC groups, how often did participant take depression medication as instructed; reported at week 24.||0.1|-1.3|0.07
82601349|NCT02939131|164918114|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.28|TWO_SIDED|95.0|-0.8|2.3|||t-test, 2 sided||A positive difference would indicate those in the COMB-R group reported better adherence than those in the ESC group.|Comparison of COMB-R and ESC groups, how often did participant take depression medication as instructed; reported at week 48.||2.3|-0.8|0.28
82601350|NCT02939131|164918115|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.44|TWO_SIDED|95.0|-0.6|0.3|||t-test, 2 sided|||||0.3|-0.6|0.44
82601351|NCT02939131|164918117|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.67|TWO_SIDED|95.0|-0.4|0.3|||t-test, 2 sided|||The average number of scheduled study visits through week 24 was computed for each site. The analysis was of these site-level averages. These values were compared between study groups||0.3|-0.4|0.67
82601352|NCT02939131|164918117|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.74|TWO_SIDED|95.0|-0.7|0.5|||t-test, 2 sided|||We computed the average number of scheduled study visits through week 48 for each site. We then averaged the site-level values and compared study groups.||0.5|-0.7|0.74
82601353|NCT02939131|164918118|SUPERIORITY||Mean Difference (Final Values)|-1.99||||0.14|TWO_SIDED|95.0|-4.74|0.76|||t-test, 2 sided||We subtracted the mean of the ESC group from the mean of the COMB-R group. Because a lower score indicated less severe depressive symptoms, a negative value indicated superiority.|We tested the null hypothesis that the treatment group means were equal vs. not.||0.76|-4.74|0.14
82601354|NCT02939131|164918119|SUPERIORITY||Mean Difference (Final Values)|25.3||||0.05|TWO_SIDED|95.0|0.5|50.0|||t-test, 2 sided||We subtracted the group mean of the site percents with response for the ESC group from that of the COMB-R group. A positive value indicates the COMB-R group had a higher mean percent of participants with response compared to the ESC group.|We tested the null hypothesis that the treatment group means were equal vs. not.||50.0|0.5|0.05
82601355|NCT02939131|164918120|SUPERIORITY||Mean Difference (Final Values)|16.3||||0.24|TWO_SIDED|95.0|-12.3|44.8|||t-test, 2 sided||We subtracted the group mean of the site percents with remission for the ESC group from the COMB-R group so a positive value indicates the COMB-R group has more participants with remission.|We tested the null hypothesis that the treatment group means were equal vs. not.||44.8|-12.3|0.24
82601356|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|6.79||||0.01|TWO_SIDED|95.0|2.3|11.28||This is the test of effect modification by sex at birth|t-test, 2 sided||A positive value indicates that the treatment difference (lower QIDS-SR score with COMB-R than with ESC) was greater for females compared to males.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||11.28|2.30|0.01
82655612|NCT02848326|165027181|SUPERIORITY||Least squares mean difference|-0.91|STANDARD_ERROR_OF_MEAN|0.33||0.0056|TWO_SIDED|95.0|-1.55|-0.27||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.27|-1.55|0.0056
82601357|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|-2.56||||0.23|TWO_SIDED|95.0|-7.05|1.93||This is the test of effect modification by age group|t-test, 2 sided||A negative value indicates the treatment difference is greater for younger compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||1.93|-7.05|0.23
82601358|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|-2.77||||0.31|TWO_SIDED|95.0|-8.48|2.95||This is the test of the effect modification of viral suppression status|t-test, 2 sided||A negative value indicates a greater treatment difference among those with viral suppression at study entry compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups.Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||2.95|-8.48|0.31
82655613|NCT02848326|165027181|SUPERIORITY||Least squares mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.33||0.0325|TWO_SIDED|95.0|-1.35|-0.06||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.06|-1.35|0.0325
82655614|NCT02848326|165027181|SUPERIORITY||Least squares mean difference|-1.39|STANDARD_ERROR_OF_MEAN|0.42||0.001|TWO_SIDED|95.0|-2.21|-0.56||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.56|-2.21|0.0010
82655615|NCT02848326|165027181|SUPERIORITY||Least squares mean difference|-1.29|STANDARD_ERROR_OF_MEAN|0.41||0.0016|TWO_SIDED|95.0|-2.09|-0.49||MMRM model included baseline monthly migraine days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.49|-2.09|0.0016
82601359|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.72|TWO_SIDED|95.0|-4.29|5.95||This is the test of effect modification by QIDS-SR depression level at study entry.|t-test, 2 sided||A positive value indicates a greater treatment difference among those with moderate levels of depression compared to severe depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups.Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||5.95|-4.29|0.72
82601360|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.91|TWO_SIDED|95.0|-5.91|5.31||This is the test of effect modification by mode of transmission|t-test, 2 sided||A negative value would indicate a greater treatment difference for those with perinatal HIV acquisition compared to behavioral acquisition.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||5.31|-5.91|0.91
82601361|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|1.33||||0.57|TWO_SIDED|95.0|-3.91|6.57||This is the test of effect modification by HIV CDC stage level|t-test, 2 sided||A positive value would indicate a greater treatment effect for those with less than HIV CDC Stage 3 compared to those with CDC Stage 3 HIV illness.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||6.57|-3.91|0.57
82601362|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|5.93||||0.1|TWO_SIDED|95.0|-1.73|13.59||This is the test of effect modification of CD4 Stage 3 at entry.|t-test, 2 sided||A positive value indicates a greater treatment effect among those with less than Stage 3 CD4 count at entry compared to those with Stage 3 CD4 count.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups..||13.59|-1.73|0.10
82601363|NCT02939131|164918121|SUPERIORITY||Mean Difference (Final Values)|-1.57||||0.58|TWO_SIDED|95.0|-7.74|4.6||This is the test of effect modification by Nadir Stage 3 level at study entry.|t-test, 2 sided||A negative value indicates a greater treatment effect among those with Stage 3 Nadir CD4 compare to those with less than Stage 3 Nadir CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences.This is equivalent to taking the differences of the treatment effects between subgroups. Note: For QIDS-SR, since a lower score reflects fewer depression symptoms, a positive treatment effect is a negative difference value between groups.||4.60|-7.74|0.58
82601364|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|-67.81||||0.01|TWO_SIDED|95.0|-116.53|-19.1||This is the test of effect modification by sex at birth.|t-test, 2 sided||A negative value indicates a greater treatment response (higher percent with response in COMB-R than in ESC group) among females compared to males.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||-19.10|-116.53|0.01
82601365|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|43.08||||0.09|TWO_SIDED|95.0|-8.23|94.38||This is the test of effect modification by age group.|t-test, 2 sided||A positive value reflects a greater treatment effect among younger participants compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.38|-8.23|0.09
82601366|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.93|TWO_SIDED|95.0|-51.13|55.49||This is the test of effect modification by viral suppression status.|t-test, 2 sided||A positive value would reflect a greater treatment response among those with suppressed viral status at entry compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||55.49|-51.13|0.93
82655616|NCT02848326|165027182|SUPERIORITY||Least squares mean difference|-1.38|STANDARD_ERROR_OF_MEAN|0.43||0.0014|TWO_SIDED|95.0|-2.23|-0.54||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.54|-2.23|0.0014
82655617|NCT02848326|165027182|SUPERIORITY||Least squares mean difference|-1.24|STANDARD_ERROR_OF_MEAN|0.36||0.0005|TWO_SIDED|95.0|-1.94|-0.55||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.55|-1.94|0.0005
82601367|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|3.36||||0.87|TWO_SIDED|95.0|-42.28|49.0||This is the test of effect modification by entry QIDS-SR depression level.|t-test, 2 sided||A positive value would indicate a greater treatment response for those with severe depressive symptoms at study entry compared to those with moderate depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||49.00|-42.28|0.87
82601368|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|41.65||||0.17|TWO_SIDED|95.0|-21.91|105.2||This is the test of effect modification by mode of transmission.|t-test, 2 sided||A positive value would indicate a larger treatment response for those with perinatal transmission compared to behavioral.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||105.20|-21.91|0.17
82601369|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|49.4||||0.17|TWO_SIDED|95.0|-26.02|124.83||This is the test of effect modification by HIV CDC stage.|t-test, 2 sided||A positive value reflects a greater treatment response for those with HIV CDC Stage 3 classification compared to those with CDC classification less than Stage 3.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||124.83|-26.02|0.17
82601370|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|11.69||||0.71|TWO_SIDED|95.0|-70.76|94.15||This is the test of effect modification by CD4 Stage at study entry.|t-test, 2 sided||A positive value would reflect greater treatment response for those with CD4 Stage 3 compared to those with less than Stage 3 CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.15|-70.76|0.71
82601371|NCT02939131|164918122|SUPERIORITY||Mean Difference (Final Values)|52.48||||0.02|TWO_SIDED|95.0|10.46|94.5||This is the test of effect modification by CD4 Nadir stage at study entry.|t-test, 2 sided||A positive value reflects a larger treatment response among those with Stage 3 Nadir CD4 compared to those with less than Stage 3 Nadir CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR response, a positive treatment effect is a positive difference between groups.||94.50|10.46|0.02
82601372|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|-45.06||||0.09|TWO_SIDED|95.0|-97.84|7.72||This is the test of effect modification by sex at birth|t-test, 2 sided||A negative value indicates a greater treatment effect (higher percent with remission for COMB-R than for ESC) among females.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||7.72|-97.84|0.09
82601373|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|1.41||||0.95|TWO_SIDED|95.0|-43.38|46.2||This is the test of effect modification by age group.|t-test, 2 sided||A positive value would reflect a larger treatment effect among younger participants compared to older participants.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||46.20|-43.38|0.95
82601374|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|5.59||||0.79|TWO_SIDED|95.0|-40.47|51.65||This is the test of effect modification by viral suppression status.|Wilcoxon (Mann-Whitney)||A positive value would reflect a greater treatment effect among those with suppressed viral load compared to those without viral suppression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||51.65|-40.47|0.79
82601375|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|-15.97||||0.42|TWO_SIDED|95.0|-58.88|26.94||This is the test of effect modification by QIDS-SR level at entry.|t-test, 2 sided||A negative value would reflect a greater treatment effect among those with moderate depression symptomatology at entry compared to those with severe depression.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||26.94|-58.88|0.42
82655618|NCT02848326|165027182|SUPERIORITY||Least squares mean difference|-0.94|STANDARD_ERROR_OF_MEAN|0.36||0.0087|TWO_SIDED|95.0|-1.64|-0.24||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.24|-1.64|0.0087
82601376|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|9.99||||0.68|TWO_SIDED|95.0|-41.24|61.22||This is the test of effect modification by mode of transmission.|t-test, 2 sided||A positive value would reflect a greater treatment effect among those with perinatal transmission compared to behavioral transmission.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||61.22|-41.24|0.68
82601377|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|-14.21||||0.57|TWO_SIDED|95.0|-70.62|42.2||This is the test of effect modification by HIV CDC stage.|t-test, 2 sided||A positive value would reflect a greater treatment response among those with HIV CDC Stage 3 classification compared to those with less than Stage 3 classification.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||42.20|-70.62|0.57
82601378|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|-44.97||||0.26|TWO_SIDED|95.0|-141.12|51.17||This is the test of effect modification by CD4 Stage.|t-test, 2 sided||A negative value would reflect a greater treatment effect among those with less than Stage 3 CD4 levels compared to those with Stage 3 CD4.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||51.17|-141.12|0.26
82601379|NCT02939131|164918123|SUPERIORITY||Mean Difference (Final Values)|9.53||||0.72|TWO_SIDED|95.0|-52.97|72.02||This is the test of effect modification by CD4 nadir stage.|t-test, 2 sided||A positive value would reflect a greater treatment effect by those with Stage 3 CD4 Nadir compared to those with less than Stage 3.|An interaction effect is computed based on subgroup differences within sites. The mean subgroup difference is computed for each treatment group and the interaction effect is the difference of those group mean differences. This is equivalent to taking the differences of the treatment effects between subgroups. Note: For the percent of participants with QIDS-SR remission, a positive treatment effect is a positive difference between groups.||72.02|-52.97|0.72
82601380|NCT02939131|164918124|SUPERIORITY||Mean Difference (Final Values)|9.9||||0.26|TWO_SIDED|95.0|-8.4|28.1|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with alcohol use ever at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||28.1|-8.4|0.26
82601381|NCT02939131|164918124|SUPERIORITY||Mean Difference (Final Values)|-6.3||||0.66|TWO_SIDED|95.0|-37.1|24.6|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with alcohol use ever at week 48 were computed for each site. These site-level percentages were compared across treatment groups.||24.6|-37.1|0.66
82601382|NCT02939131|164918125|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.71|TWO_SIDED|95.0|-22.3|31.7|||t-test, 2 sided||A positive value indicates higher site-level percentages in the COMB-R group.|The percent of participants with regular frequency alcohol use at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||31.7|-22.3|0.71
82601383|NCT02939131|164918125|SUPERIORITY||Mean Difference (Final Values)|26.7||||0.1|TWO_SIDED|95.0|-6.3|59.6|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group.|The percent of participants at each site with regular alcohol use at week 48 was computed. These site-level percents were compared across treatments||59.6|-6.3|0.10
82601384|NCT02939131|164918126|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.09|TWO_SIDED|95.0|-2.6|0.2|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group and vice versa.|The average number of drinks per day reported at week 24 was computed for each site and these site-level averages were compared across treatments.||0.2|-2.6|0.09
82601385|NCT02939131|164918126|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.79|TWO_SIDED|95.0|-0.8|1.0|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group and vice versa.|The site-level average numbers of drinks per day reported at week 48 were computed and these site-level averages were compared across treatment groups.||1.0|-0.8|0.79
82601386|NCT02939131|164918127|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.87|TWO_SIDED|95.0|-0.9|0.8|||t-test, 2 sided||A positive value would indicate site level averages were higher in the COMB-R group anc vice versa|The site-level average number of days with binge drinking at week 24 were computed and these site-level averages were compared across treatments.||0.8|-0.9|0.87
82655619|NCT02848326|165027182|SUPERIORITY||Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.46||0.0044|TWO_SIDED|95.0|-2.2|-0.41||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.41|-2.20|0.0044
82655620|NCT02848326|165027182|SUPERIORITY||Least squares mean difference|-1.39|STANDARD_ERROR_OF_MEAN|0.44||0.0017|TWO_SIDED|95.0|-2.26|-0.53||MMRM model included baseline monthly headache days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.53|-2.26|0.0017
82655621|NCT02848326|165027183|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0617|TWO_SIDED|95.0|0.98|2.31||Generalized linear mixed model (GLMM) for repeated measures with fixed factors(treatment group,visit), covariates(baseline migraine days), interactions(treatment group;baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.31|0.98|0.0617
82655622|NCT02848326|165027183|SUPERIORITY||Odds Ratio (OR)|1.46||||0.0369|TWO_SIDED|95.0|1.02|2.08||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.08|1.02|0.0369
82492184|NCT01332500|164677655|SUPERIORITY_OR_OTHER|||||||0.208||95.0||||Opioid health plan costs|paired t-test 2-sided|||||||0.208
82601387|NCT02939131|164918127|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.99|TWO_SIDED|95.0|-0.8|0.8|||t-test, 2 sided||A positive difference would indicate site level averages were higher in the COMB-R group and vice versa|The site-level average number of days with binge drinking reported at week 48 were computed and the site-level averages were compared across treatment groups.||0.8|-0.8|0.99
82601388|NCT02939131|164918128|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.77|TWO_SIDED|95.0|-19.7|26.0|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group and vice versa.|The percent of participants with tobacco use ever at week 24 were computed for each site. These site-level percentages were compared across treatment groups.||26.0|-19.7|0.77
82601389|NCT02939131|164918128|SUPERIORITY||Mean Difference (Final Values)|14.7||||0.2|TWO_SIDED|95.0|-8.9|38.4|||t-test, 2 sided||A positive value would indicate site-level percentages were higher in the COMB-R group.|The percent of participants with tobacco use ever at week 48 were computed for each site. These site-level percentages were compared across treatment groups.||38.4|-8.9|0.20
82601390|NCT02939131|164918129|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.09|TWO_SIDED|95.0|-2.8|33.3|||t-test, 2 sided||A positive difference would indicate the site level percentages were higher in the COMB-R group.|This is the analysis of regular use of tobacco at week 24. The percent of participants at each site with regular use was computed. These site-level percentages were compared across treatment groups.||33.3|-2.8|0.09
82601391|NCT02939131|164918129|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.21|TWO_SIDED|95.0|-14.0|55.3|||t-test, 2 sided||A positive difference indicates site-level percentages were higher in the COMB-R group.|This is the analysis of regular frequency use of tobacco at week 48. Site level percentages of the numbers of participants with regular tobacco use were computed and compared across treatment groups.||55.3|-14.0|0.21
82601392|NCT02939131|164918130|SUPERIORITY||Mean Difference (Final Values)|7.9||||0.41|TWO_SIDED|95.0|-12.4|28.3|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using marijuana (cannabis) reported at week 24 were computed and compared across treatment groups.||28.3|-12.4|0.41
82655623|NCT02848326|165027183|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0512|TWO_SIDED|95.0|1.0|2.03||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.03|1.00|0.0512
82655624|NCT02848326|165027183|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0113|TWO_SIDED|95.0|1.15|2.91||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measures|||||2.91|1.15|0.0113
82655625|NCT02848326|165027183|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0019|TWO_SIDED|95.0|1.3|3.18||GLMM for repeated measures with fixed factors (treatment group, visit), covariates (baseline migraine days), interactions (treatment group by visit; baseline migraine days by visit) with an unstructured covariance matrix.|GLMM for repeated measure|||||3.18|1.30|0.0019
82601393|NCT02939131|164918130|SUPERIORITY||Mean Difference (Final Values)|13.0||||0.26|TWO_SIDED|95.0|-10.9|36.8|||t-test, 2 sided||A positive value would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using marijuana (cannabis) reported at week 48 were computed and compared across treatment groups.||36.8|-10.9|0.26
82601394|NCT02939131|164918130|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.69|TWO_SIDED|95.0|-20.2|29.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using any illegal substance excluding marijuana (cannabis) reported at week 24 were computed and compared across treatment groups.||29.5|-20.2|0.69
82601395|NCT02939131|164918130|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.96|TWO_SIDED|95.0|-24.8|23.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|The site-level percentages of participants ever using any illegal substance excluding marijuana (cannabis) reported at week 48 were computed and compared across treatment groups.||23.5|-24.8|0.96
82601396|NCT02939131|164918131|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.53|TWO_SIDED|95.0|-23.9|44.1|||t-test, 2 sided||A positive difference indicates a higher site-level percentage of participants reporting regular use fof marijuana in the COMB-R group compared to the ESC group.|This is the analysis for regular use of marijuana (cannabis) at week 24. The percent of participants at each site reporting regular use (of those reporting any use) was computed. These site-level percentages were averaged and compared across treatments.||44.1|-23.9|0.53
82601397|NCT02939131|164918131|SUPERIORITY||Mean Difference (Final Values)|-0.1||||1|TWO_SIDED|95.0|-35.1|34.9|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular use of marijuana (cannabis) in the COMB-R group compared to the ESC group.|This is the analysis of regular use of marijuana (cannabis) at week 48. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||34.9|-35.1|1.0
82601398|NCT02939131|164918131|SUPERIORITY||Mean Difference (Final Values)|24.7||||0.18|TWO_SIDED|95.0|-16.2|65.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular substance use in the COMB-R group compared to the ESC group.|This is the analysis of regular use of any illegal substance, excluding cannabis, at week 24. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||65.5|-16.2|0.18
82655626|NCT02848326|165027184|SUPERIORITY||Least squares mean difference|-1.3|STANDARD_ERROR_OF_MEAN|0.35||0.0002|TWO_SIDED|95.0|-1.99|-0.6||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.60|-1.99|0.0002
82655627|NCT02848326|165027184|SUPERIORITY||Least squares mean difference|-1.44|STANDARD_ERROR_OF_MEAN|0.29|<|0.0001|TWO_SIDED|95.0|-2.01|-0.87||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.87|-2.01|<0.0001
82492185|NCT01332500|164677655|SUPERIORITY_OR_OTHER|||||||0.239||95.0||||Ergot health plan costs|paired t-test 2-sided|||||||0.239
82601399|NCT02939131|164918131|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.34|TWO_SIDED|95.0|-59.5|22.9|||t-test, 2 sided||A positive difference would indicate higher site-level percentages of regular substance use in the COMB-R group compared to the ESC group.|This is the analysis of regular use of any illegal substance, excluding cannabis, at week 48. Of those reporting ever used, the percent at each site reporting regular use was computed. These site-level percentages were averaged and compared across treatment groups.||22.9|-59.5|0.34
82601400|NCT02939131|164918132|SUPERIORITY||Mean Difference (Final Values)|13.4||||0.29|TWO_SIDED|95.0|-12.9|39.6|||t-test, 2 sided||A positive value would indicate higher site-level percents in the COMB-R group.|This is the analysis for week 24. The percentage of participants at a site who reported using sex as a commodity was calculated and the site-level percentages were averaged and compared across treatments.||39.6|-12.9|0.29
82601401|NCT02939131|164918132|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.7|TWO_SIDED|95.0|-17.0|24.5|||t-test, 2 sided||A positive difference would indicate site-level percentages were higher in the COMB-R group|This is the analysis for week 48. The percentage of participants at a site who reported using sex as a commodity was calculated and the site-level percentages were averaged and compared across treatments.||24.5|-17.0|0.70
82601402|NCT02939131|164918133|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.71|TWO_SIDED|95.0|-13.7|19.4|||t-test, 2 sided||A positive difference indicates the site-level averages were higher for the COMB-R group.|This is the analysis for week 24. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||19.4|-13.7|0.71
82655628|NCT02848326|165027184|SUPERIORITY||Least squares mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.29||0.0001|TWO_SIDED|95.0|-1.68|-0.54||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.54|-1.68|0.0001
82655629|NCT02848326|165027184|SUPERIORITY||Least squares mean difference|-1.35|STANDARD_ERROR_OF_MEAN|0.37||0.0003|TWO_SIDED|95.0|-2.08|-0.62||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.62|-2.08|0.0003
82655630|NCT02848326|165027184|SUPERIORITY||Least squares mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.36||0.0007|TWO_SIDED|95.0|-1.93|-0.52||MMRM model included baseline monthly acute medication use days as a covariate, treatment group and visit (month) as fixed factors, and treatment group-by-visit and baseline-by-visit as interaction terms.|MMRM|||||-0.52|-1.93|0.0007
82655631|NCT00414466|165027185|SUPERIORITY_OR_OTHER|||||||0.802||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.802
82655632|NCT00414466|165027185|SUPERIORITY_OR_OTHER|||||||0.874||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.874
82601403|NCT02939131|164918133|SUPERIORITY||Mean Difference (Final Values)|-4.7||||0.44|TWO_SIDED|95.0|-17.5|8.1|||t-test, 2 sided||A positive value would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||8.1|-17.5|0.44
82601404|NCT02939131|164918134|SUPERIORITY||Mean Difference (Final Values)|7.3||||0.23|TWO_SIDED|95.0|-5.3|19.8|||t-test, 2 sided||A positive value would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 24. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||19.8|-5.3|0.23
82601405|NCT02939131|164918134|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.73|TWO_SIDED|95.0|-17.5|12.7|||t-test, 2 sided||A positive difference would indicate site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Scores were averaged by site and the site-level averages were averaged and compared across treatment groups.||12.7|-17.5|0.73
82601406|NCT02939131|164918135|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.24|TWO_SIDED|95.0|-0.4|1.5|||t-test, 2 sided||A positive value would indicate site-level averages were higher in COMB-R group.|This is the analysis for week 24. Numbers of partners were averaged by site and the site-level averages were averaged and compared across treatment groups.||1.5|-0.4|0.24
82601407|NCT02939131|164918135|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.22|TWO_SIDED|95.0|-0.3|1.0|||t-test, 2 sided||A positive difference indicates site-level averages were higher in the COMB-R group.|This is the analysis for week 48. Numbers of partners were averaged by site and the site-level averages were averaged and compared across treatment groups.||1.0|-0.3|0.22
82655633|NCT00414466|165027185|SUPERIORITY_OR_OTHER|||||||0.899||95.0||||The a priori threshold for statistical significance was 0.05, two-sided.|Williams test for minimum effective dose|||Williams' test for Minimum Effective Dose was used to compare each active group to the placebo.||||0.899
82655634|NCT00414466|165027186|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
82655635|NCT00414466|165027186|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
82655636|NCT00414466|165027186|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. Hochberg's adjustment for multiple comparisons was used.|Fisher Exact|||||||1.000
82655637|NCT00414466|165027187|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||0.083
82492186|NCT01332500|164677655|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||Other health plan costs|paired t-test 2-sided|||||||0.583
82492187|NCT01332500|164677655|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total heath plan costs|paired t-test 2-sided|||||||<0.001
82655638|NCT00414466|165027187|SUPERIORITY_OR_OTHER|||||||1||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||1.000
82655639|NCT00414466|165027187|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||The a priori threshold for statistical significance was 0.05, two-sided. No adjustments for multiple comparisons were used.|Fisher Exact|||||||0.352
82601408|NCT02939131|164918136|SUPERIORITY||Mean Difference (Final Values)|-8.3||||0.57|TWO_SIDED|95.0|-40.4|23.9|||t-test, 2 sided||A positive value would indicate higher site-level percents of low frequency condom use in COMB-R treatment group and vice versa.|This is the analysis for week 24 data. We computed the percent of participants reporting low frequency of condom use in past three months by site, averaged the site-level percents and compared these averages across treatment arms.||23.9|-40.4|0.57
82601409|NCT02939131|164918136|SUPERIORITY||Mean Difference (Final Values)|-21.8||||0.15|TWO_SIDED|95.0|-53.1|9.5|||t-test, 2 sided||A positive difference would indicate higher site-level percentages in the COMB-R group and vice versa.|This is the analysis for week 48 data. We computed the percent of participants reporting low frequency of condom use in past three months by site, averaged the site-level percents and compared these averages across treatment arms.||9.5|-53.1|0.15
82601410|NCT02939131|164918137|SUPERIORITY||Mean Difference (Final Values)|-6.8||||0.65|TWO_SIDED|95.0|-40.9|27.2|||t-test, 2 sided||A positive difference would indicate site level percents were higher in the COMB-R group and vice versa.|We computed the site-level percentages of participants reporting low frequency condom use at week 24, then averaged the site-level percentages by treatment group and compared these group average percents.||27.2|-40.9|0.65
82601411|NCT02939131|164918137|SUPERIORITY||Mean Difference (Final Values)|-37.8||||0.02|TWO_SIDED|95.0|-69.7|-5.8|||t-test, 2 sided||A positive difference would indicate site-level percentages were higher in the COMB-R group and vice versa.|We computed the site-level percentages of participants reporting low frequency condom use at week 48, then averaged the site-level percentages by treatment group and compared these group average percents.||-5.8|-69.7|0.02
82601412|NCT02939131|164918138|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.33|TWO_SIDED|95.0|-3.0|8.1|||t-test, 2 sided||A positive difference indicates COMB-R participants attended more sessions than ESC|We averaged the number of counseling sessions for each site and compared these site-level averages.||8.1|-3.0|0.33
82655640|NCT03480425|165027204|SUPERIORITY||Mean Difference (Final Values)|0.12|STANDARD_DEVIATION|4.4|<|0.05|TWO_SIDED|95.0|-2.4|2.6|||t-test, 2 sided|||||2.6|-2.4|<0.05
82655641|NCT02086188|165027230|SUPERIORITY|||||||0.1911|||||||ANCOVA|||||||0.1911
82655642|NCT02086188|165027231|SUPERIORITY|||||||0.4271|||||||ANCOVA|||||||0.4271
82655643|NCT02086188|165027232|SUPERIORITY|||||||0.1723|||||||ANCOVA|||||||0.1723
82655644|NCT02086188|165027233|SUPERIORITY|||||||0.634|||||||ANCOVA|||||||0.6340
82601413|NCT02939131|164918143|SUPERIORITY||Mean Difference (Final Values)|18.7||||0.06|TWO_SIDED|95.0|-0.9|38.2|||t-test, 2 sided||A positive difference indicates more participants in the COMB-R group were taking medications, based on site-level percentages.|This is the analysis for the percent of participants on any psychiatric medication at week 24. Site-level percentages were compared across treatments.||38.2|-0.9|0.06
82601414|NCT02939131|164918143|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.06|TWO_SIDED|95.0|-0.7|35.5|||t-test, 2 sided||A positive difference means the site-level percentages of those taking medications were higher in the COMB-R group.|This is the analysis of the percent of participants on antidepressant medications. Site-level percentages were compared across treatments.||35.5|-0.7|0.06
82601415|NCT02939131|164918143|SUPERIORITY||Mean Difference (Final Values)|22.4||||0.02|TWO_SIDED|95.0|4.2|40.6|||t-test, 2 sided||A positive difference indicates the site-level percentages of those taking medications were higher in the COMB-R group.|This is the analysis of the percent of participants on SSRI antidepressant medications. Site-level percentages were compared across treatments.||40.6|4.2|0.02
82601416|NCT02939131|164918143|SUPERIORITY||Mean Difference (Final Values)|-3.9||||0.54|TWO_SIDED|95.0|-17.3|9.6|||t-test, 2 sided||A positive difference would indicate site-level percentages of those on medication were higher in the COMB-R group.|This is the analysis of the percent of participants on non-SSRI antidepressant medications. Site-level percentages were compared across treatments.||9.6|-17.3|0.54
82655645|NCT02086188|165027234|SUPERIORITY|||||||0.0091|||||||ANCOVA|||||||0.0091
82655646|NCT02564263|165027292|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.00894|TWO_SIDED|95.0|0.63|0.96||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW)|||0.96|0.63|0.00894
82655647|NCT02564263|165027293|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.00855|TWO_SIDED|95.0|0.52|0.94||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the esophagogastric junction \[EGJ\])|||0.94|0.52|0.00855
82655648|NCT02564263|165027294|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.0531|TWO_SIDED|95.0|0.75|1.05||One-sided p-value based on stratified maximum weighted log rank test: the maximum of the log-rank test statistic \& a weighted log-rank Fleming-Harrington (0,1) test statistic|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the esophagogastric junction \[EGJ\])|||1.05|0.75|0.0531
82655649|NCT02564263|165027295|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.287|TWO_SIDED|95.0|0.94|1.31||One-sided p-value based on stratified maximum weighted log rank test: the maximum of the log-rank test statistic \& a weighted log-rank Fleming-Harrington (0,1) test statistic|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the EGJ)|||1.31|0.94|0.287
82655650|NCT02564263|165027296|SUPERIORITY||Difference in Percentages|6.4||||0.0037|TWO_SIDED|95.0|1.7|11.2||One-sided p-value for testing. H0: difference in %=0 versus; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type I adenocarcinoma of the EGJ)|||11.2|1.7|0.0037
82655651|NCT02564263|165027297|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.216|TWO_SIDED|95.0|0.75|1.13||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW)|||1.13|0.75|0.216
82655652|NCT02564263|165027298|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.015|TWO_SIDED|95.0|0.54|0.97||One-sided p-value based on stratified log-rank test|Log Rank||Cox regression model with treatment as a covariate stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type 1 adenocarcinoma of the EGJ)|||0.97|0.54|0.015
82655653|NCT02564263|165027299|SUPERIORITY||Difference in Percentages|9.2||||0.0022|TWO_SIDED|95.0|3.0|15.8||One-sided p-value for testing. H0: difference in %=0; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW)|||15.8|3.0|0.0022
82655654|NCT02564263|165027300|SUPERIORITY||Difference in Percentages|15.1||||0.0006|TWO_SIDED|95.0|6.2|24.7||One-sided p-value for testing. H0: difference in %=0; H1: difference in %\>0.|Miettinen & Nurminen method||Miettinen \& Nurminen method stratified by geographic region (Asia vs RoW) \& tumor histology (SCC vs adenocarcinoma/Siewert type I adenocarcinoma of the EGJ)|||24.7|6.2|0.0006
82601417|NCT02939131|164918143|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.6|TWO_SIDED|95.0|-25.4|15.4|||t-test, 2 sided||A positive value would indicate the site-level percentages of those on medications were higher in the COMB-R group.|This is the analysis of the percent of participants on non-antidepressant psychiatric medications. Site-level percentages were compared across treatments.||15.4|-25.4|0.60
82601418|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|-3.8||||0.77|TWO_SIDED|95.0|-32.5|24.8|||t-test, 2 sided||A positive difference would indicate more time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on any psychiatric medication across treatment groups.||24.8|-32.5|0.77
82601419|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.91|TWO_SIDED|95.0|-37.3|33.5|||t-test, 2 sided||A positive difference would indicate more study time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on single SSRI psychiatric medication across treatment groups.||33.5|-37.3|0.91
82601420|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|-16.7||||0.4|TWO_SIDED|95.0|-60.2|26.9|||t-test, 2 sided||A positive value would indicate more time on medication in the COMB-R group.|This is the analysis comparing site-level mean percents of study time on SSRI+other psychiatric medication across treatment groups.||26.9|-60.2|0.40
82601421|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|-13.5||||0.52|TWO_SIDED|95.0|-67.0|40.1|||t-test, 2 sided||A positive difference would indicate more time on medication in COMB-R group.|This is the analysis comparing site-level mean percents of study time on a single non-SSRI psychiatric medication across treatment groups.||40.1|-67.0|0.52
82601422|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.96|TWO_SIDED|95.0|-778.0|785.7|||t-test, 2 sided|Because of sparseness, the confidence intervals for this site-level analysis are very large.|A positive difference indicates more time on medication in the COMB-R group. There was data from only one site in the ESC group and 2 sites in the COMB-R group. The confidence interval for the difference is quite large and the test is unreliable.|This is the analysis comparing site-level mean percents of study time on non-SSRI+other psychiatric medication across treatment groups. This analysis is unstable because of sparseness.||785.7|-778.0|0.96
82601423|NCT02939131|164918144|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.74|TWO_SIDED|95.0|-31.4|23.0|||t-test, 2 sided||A positive difference would reflect more time on medications in the COMB-R group|This is the analysis comparing site-level mean percents of study time on antidepressant medication across treatment groups.||23.0|-31.4|0.74
82601424|NCT02939131|164918145|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.29|TWO_SIDED|95.0|-2.8|8.2|||t-test, 2 sided||A positive difference would indicate the site level average interim counseling sessions was higher in the COMB-R group.|We compared the site-level average number of interim counseling sessions between treatment groups.||8.2|-2.8|0.29
82601425|NCT02939131|164918147|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.03|TWO_SIDED|95.0|0.02|0.38|||t-test, 2 sided||A positive difference indicates higher site-level averages in the COMB-R group.|The average score for all participants at each site was computed. These site-level averages were compared across treatment groups.||0.38|0.02|0.03
82601426|NCT02939131|164918148|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.69|TWO_SIDED|95.0|-0.43|0.29|||t-test, 2 sided||A positive difference would indicate the site-level averages were higher in the COMB-R group compared to the ESC group and vice versa|The average of scores for all participants' clinicians at each site was computed and these site-level averages were compared across treatments.||0.29|-0.43|0.69
82601427|NCT02939131|164918149|SUPERIORITY||Mean Difference (Final Values)|0.65||||0.004|TWO_SIDED|95.0|0.26|1.03|||t-test, 2 sided||A positive difference would indicate site-level averages were higher for the COMB-R group than the ESC group and vice versa.|The average scores for all participants' prescribing clinicians at each site were computed and these site-level averages were compared across treatment groups.||1.03|0.26|0.004
82601428|NCT02939131|164918150|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|0.16||||0.98|TWO_SIDED|95.0|-14.04|14.36|||t-test, 2 sided||We subtract group mean for ESC from group mean for COMB-R. The group means are the means of the site-level percentages of participants with events.|This is the analysis of new Grade 3+ signs/symptoms through week 24. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||14.36|-14.04|0.98
82601429|NCT02939131|164918150|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.|Mean Difference (Final Values)|2.57||||0.6|TWO_SIDED|95.0|-7.85|12.98|||t-test, 2 sided||We subtracted the group mean for the ESC group from that of the COMB-R group. The group mean is the mean of the site-specific percentages of participants with events.|This is the analysis of new Grade 3+ diagnoses through week 24.The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||12.98|-7.85|0.60
82655655|NCT03127137|165027329|SUPERIORITY|||||||0.05||||||The reported p-value was calculated.|Fisher Exact|||||||.05
82655656|NCT03127137|165027330|SUPERIORITY||Risk Ratio (RR)|1.53|||||TWO_SIDED|95.0|0.82|2.86||||||||2.86|.82|
82655657|NCT02319148|165027340|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|105.28|||||TWO_SIDED|90.0|92.11|120.34|||Mixed Models Analysis|||||120.34|92.11|
82655658|NCT02319148|165027340|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|92.54|||||TWO_SIDED|90.0|80.96|105.77|||Mixed Models Analysis|||||105.77|80.96|
82655659|NCT02319148|165027340|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|116.36|||||TWO_SIDED|90.0|101.86|132.92|||Mixed Models Analysis|||||132.92|101.86|
82655660|NCT02319148|165027341|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|90.16|||||TWO_SIDED|90.0|78.57|103.46|||Mixed Models Analysis|||||103.46|78.57|
82601430|NCT02939131|164918150|SUPERIORITY|We tested the null hypothesis that the treatment group means were equal vs. not.The group mean is the mean of the site-specific percentages of participants with events as defined above.|Mean Difference (Final Values)|4.4||||0.17|TWO_SIDED|95.0|-2.21|11.02|||t-test, 2 sided||The ESC group mean percent of participants reporting a trigger event was subtracted from the COMB-R group mean.|This is the analysis of the triggering events (psychiatric hospitalizations or suicide attempts) through week 24. A participant is counted once if they had reported any such event prior to the upper bound of the week 24 window. The percent of participants at each site with at least one such event were computed.The average of these site-level percents was calculated for each treatment arm. These averages were compared.||11.02|-2.21|0.17
82601431|NCT02939131|164918151|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.98|TWO_SIDED|95.0|-13.85|14.13|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new Grade 3+ signs/symptoms through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||14.13|-13.85|0.98
82601432|NCT02939131|164918151|SUPERIORITY||Mean Difference (Final Values)|5.64||||0.4|TWO_SIDED|95.0|-8.6|19.89|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new Grade 3+ diagnoses through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||19.89|-8.60|0.40
82601433|NCT02939131|164918151|SUPERIORITY||Mean Difference (Final Values)|3.01||||0.44|TWO_SIDED|95.0|-5.27|11.29|||t-test, 2 sided||A positive difference indicates more participants with events in the COMB-R group.|This is the analysis of new trigger events through week 48. The percent of participants at each site with at least one such event was computed. The average of these site-level percents was calculated for each treatment arm. These averages were compared.||11.29|-5.27|0.44
82601434|NCT03216382|164918168|SUPERIORITY|||||||0.93||||||The apriori threshold for significance was a = 0.05. The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.93
82601435|NCT03216382|164918169|SUPERIORITY|||||||0.74||||||this value represents the interaction between condition and the intervention time period The apriori threshold for significance was a = 0.05.|Mixed Models Analysis|||HLM piecewise analysis was used to examine linear change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on uncontrollability of worry||||.74
82601436|NCT03216382|164918169|SUPERIORITY|||||||0.44||||||this value represents the interaction between condition and the intervention time period (squared) The apriori threshold for significance was a = 0.05.|Mixed Models Analysis|||HLM piecewise analysis was used to examine quadratic change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on uncontrollability of worry||||.44
82601437|NCT03216382|164918170|SUPERIORITY|||||||0.17||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.17
82601438|NCT03216382|164918171|SUPERIORITY|||||||0.5||||||The apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time .|Mixed Models Analysis|||HLM piecewise analysis was used to examine linear change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on self-focused attention||||.50
82601439|NCT03216382|164918171|SUPERIORITY|||||||0.02||||||The apriori threshold for significance was a= 0.05. The p value reflects the test of an interaction between condition and intervention period (days 7-14, squared).|Mixed Models Analysis|||HLM piecewise analysis was used to examine quadratic change from day 1-7 (visit 1 to visit 2) and change from day 7-14 (visit 2 to visit 3) on self-focused attention||||.02
82601440|NCT03216382|164918172|SUPERIORITY|||||||0.46||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.46
82601441|NCT03216382|164918173|SUPERIORITY|||||||0.53||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.53
82601442|NCT03216382|164918174|SUPERIORITY|||||||0.07||||||the apriori threshold for significance was a = 0.05. The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.07
82601443|NCT03216382|164918175|SUPERIORITY|||||||0.58||||||the apriori threshold for significance was 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.58
82601444|NCT03216382|164918176|SUPERIORITY|||||||0.86||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.86
82601445|NCT03216382|164918177|SUPERIORITY|||||||0.39||||||the apriori threshold for significance was a = 0.05 The p value reflects the test of an interaction between condition and time.|ANOVA|||||||.39
82601446|NCT00254566|164918244|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-0.9||||||95.0|-5.8|3.9|||||Risk difference is the difference in percentage of participants with cure and the 95% Confidence Interval|95% Confidence Interval (CI) for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciporcal of the variance. Stratification will be by steriod use at time of randomization.||3.9|-5.8|
82601447|NCT00254566|164918245|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-2.5||||||95.0|-8.5|3.4|||||Risk difference is the difference in the percentage of participants with Cure and the 95% CI|95% CI for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciporcal of the variance. Stratification will be by steriod use at time of randomization.||3.4|-8.5|
82655661|NCT02319148|165027341|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.38|||||TWO_SIDED|90.0|92.7|122.07|||Mixed Models Analysis|||||122.07|92.70|
82655662|NCT02319148|165027341|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|101.71|||||TWO_SIDED|90.0|88.68|116.66|||Mixed Models Analysis|||||116.66|88.68|
82655663|NCT02319148|165027342|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.33|||||TWO_SIDED|90.0|79.49|104.94|||Mixed Models Analysis|||||104.94|79.49|
82655664|NCT02319148|165027342|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.97|||||TWO_SIDED|90.0|93.1|122.91|||Mixed Models Analysis|||||122.91|93.10|
82601448|NCT00254566|164918246|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority will be declared if the lower bound of the 95% CI around the difference in clinical success rates is greater than -10%|Risk Difference (RD)|-2.5||||||95.0|-8.5|3.4|||||Risk difference is the difference in percentage of participants with cure and the 95% Confidence|95% CI for the difference in cure rates will be constructed using a method of linear stratification that weights according to the reciprocal of the variance. Stratification will be by steroid use at time of randomization.||3.4|-8.5|
82601449|NCT00254566|164918247|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.6||||||95.0|-4.5|3.3|||||Risk difference is the difference in eradication rates of pathogens by treatment|||3.3|-4.5|
82601450|NCT00254566|164918248|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.33||||0.159||95.0|0.9|2.0||p-value was estimated from Cox's Proportional Hazard model with steriod use and country as factors and baseline FEV1 fitted as covariate|Regression, Cox|||Kaplan-Meier method was used to estimate time taken for 1st 25th quartile of subjects to experience recurrence of AECB. Estimate of median time to event couldn't be calculated because \<50% of subjects in analysis population experienced a recurrence. The ratio of the treatment groups' recurrence rate (hazard ratio) estimated using Cox proportional hazards model adjusting for steroid use, frequency of AECB in previous 12 months, country and baseline Forced expiratory volume in 1 second (FEV1).||2.0|0.9|0.159
82601451|NCT00254566|164918249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.57||95.0|-0.21|0.12|||ANCOVA|Estimated from ANCOVA with treatment, steriod use, and country fitted as factor and baseline CCQ total scores and FEV1 fitted as covariates||||0.12|-0.21|0.57
82601452|NCT00254566|164918249|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.82||95.0|-0.13|0.1|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.10|-0.13|0.82
82601453|NCT00254566|164918250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.81||95.0|-0.21|0.17|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.17|-0.21|0.81
82601454|NCT00254566|164918250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.87||95.0|-0.12|0.14|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.14|-0.12|0.87
82601455|NCT00254566|164918251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.385||95.0|-0.27|0.1|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.10|-0.27|0.385
82601456|NCT00254566|164918251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.56||95.0|-0.17|0.09|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.09|-0.17|0.56
82601457|NCT00254566|164918252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.62||95.0|-0.26|0.16|||ANCOVA|Estimated from ANCOVA with treatment, steriod use and country fitted as factors and baseline CCQ total score and FEV1 fitted as covariates||||0.16|-0.26|0.62
82601458|NCT00254566|164918252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8||95.0|-0.18|0.14|||Mixed Models Analysis|Estimated from linear mixed model with treatment, steroid use, FEV1, country and time point as factors and baseline CCQ scores as a covariate||||0.14|-0.18|0.80
82601459|NCT03222427|164918253|OTHER||Ratio of Geometric Least Squares Means|0.952|||||TWO_SIDED|90.0|0.769|1.18||||||||1.18|0.769|
82601460|NCT03106779|164918301|SUPERIORITY||treatment difference in the MMR rate|12.2||||0.029|TWO_SIDED|95.0|2.19|22.3|||Cochran-Mantel-Haenszel|Stratified by the randomization stratification factor, i.e. cytogenetic response status (MCyR vs no MCyR) at screening||||22.30|2.19|0.029
82601461|NCT04233229|164918328|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|27.4|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|15.0|39.8||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||39.8|15.0|<.001
82601462|NCT04233229|164918329|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) during diurnal period at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|23.0|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|10.6|35.5||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||35.5|10.6|<.001
82601463|NCT04233229|164918330|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time In Range (TIR) during nocturnal period at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|40.8|STANDARD_ERROR_OF_MEAN|7.2|<|0.001|TWO_SIDED|95.0|25.8|55.8||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||55.8|25.8|<.001
82601464|NCT04233229|164918331|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Above Range (TAR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|-27.7|STANDARD_ERROR_OF_MEAN|6.1|<|0.001|TWO_SIDED|95.0|-40.5|-15.0||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-15.0|-40.5|<.001
82601465|NCT04233229|164918332|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Above Range (TAR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|-20.1|STANDARD_ERROR_OF_MEAN|5.9||0.003|TWO_SIDED|95.0|-32.4|-7.9||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-7.9|-32.4|0.003
82655665|NCT02319148|165027342|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|102.69|||||TWO_SIDED|90.0|89.42|117.93|||Mixed Models Analysis|||||117.93|89.42|
82492188|NCT01332500|164677656|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plus copay costs|paired t-test 2-sided|||||||<0.001
82601466|NCT04233229|164918333|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Below Range (TBR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|0.1|STANDARD_ERROR_OF_MEAN|0.5||0.79|TWO_SIDED|95.0|-1.0|1.3||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||1.3|-1.0|0.79
82601467|NCT04233229|164918334|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and Time Below Range (TBR) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.84|TWO_SIDED|95.0|-0.3|0.4||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||0.4|-0.3|0.84
82601468|NCT04233229|164918335|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and glucose variability (% CV Coefficient of Variation) at baseline (during the last 14 days completed continuous glucose monitor recording at the end of the study selection period)|Adjusted means difference|3.7|STANDARD_ERROR_OF_MEAN|1.9||0.06|TWO_SIDED|95.0|-0.2|7.6||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||7.6|-0.2|0.060
82601469|NCT04233229|164918336|SUPERIORITY|Analysis of covariance (ANCOVA) model with 2 factors: HbA1c value at baseline and study group|Adjusted means difference|-1.3|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.9|-0.7||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||-0.7|-1.9|<.001
82601470|NCT04233229|164918337|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and total daily insulin dose at selection|Adjusted means difference|-18.5|STANDARD_ERROR_OF_MEAN|28.5||0.52|TWO_SIDED|95.0|-78.2|41.2||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||41.2|-78.2|0.52
82601471|NCT04233229|164918338|SUPERIORITY|Analysis of covariance (ANCOVA) model adjusted on the HbA1c stratification factor and body weight at study initiation visit|Adjusted means difference|2.8|STANDARD_ERROR_OF_MEAN|1.6||0.08|TWO_SIDED|95.0|-0.4|6.1||Study group effect|ANCOVA||Between-group adjusted means difference is calculated as analysis of covariance adjusted mean in Intervention Group - adjusted mean in Usual Care Group.|||6.1|-0.4|0.08
82601472|NCT04652804|164918339|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|1.0|1.19||||||Reference group: Low Intensity Intervention||1.19|1.00|
82601473|NCT04652804|164918339|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.9|1.05||||||Reference Group: Low Intensity Intervention||1.05|0.90|
82601474|NCT04652804|164918339|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.8|1.15||||||Reference group: High Intensity Intervention||1.15|0.80|
82601475|NCT04652804|164918339|SUPERIORITY||Risk Ratio (RR)|0.89|||||TWO_SIDED|95.0|0.77|1.04||||||Reference group: High Intensity Intervention||1.04|0.77|
82601476|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-0.16|||<|0.001|TWO_SIDED|95.0|-0.61|0.29||Significance criterion of 0.00694 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating needle to stimulating catheter on the mean time-weighted average pain score for a patient in the first 48 hours.||0.29|-0.61|< 0.001
82601477|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|0.16||||0.03|TWO_SIDED|95.0|-0.29|0.61||Significance criterion of 0.01735 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating catheter to stimulating needle on the mean time-weighted average pain score for a patient in the first 48 hours.||0.61|-0.29|0.03
82601478|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean catheter minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-0.12|||<|0.001|TWO_SIDED|95.0|-0.57|0.33||Significance criterion of 0.01041 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating catheter to ultrasound alone on the mean time-weighted average pain score for a patient in the first 48 hours.||0.33|-0.57|< 0.001
82601479|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean catheter is greater than 0.5 points).|Mean Difference (Final Values)|0.12||||0.02|TWO_SIDED|95.0|-0.33|0.57||Significance criterion of 0.01388 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing ultrasound alone to stimulating catheter on the mean time-weighted average pain score for a patient in the first 48 hours.||0.57|-0.33|0.02
82655666|NCT00755196|165027356|SUPERIORITY_OR_OTHER|||||||0.23|||||||2-sided sign test|||||||0.23
82492189|NCT01332500|164677656|SUPERIORITY_OR_OTHER|||||||0.177||95.0||||Non-steroidal, anti-inflammatory drug health plus copay costs|paired t-test 2-sided|||||||0.177
82601480|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-0.28|||<|0.001|TWO_SIDED|95.0|-0.72|0.16||Significance criterion of 0.00347 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing stimulating needle to ultrasound alone on the mean time-weighted average pain score for a patient in the first 48 hours.||0.16|-0.72|< 0.001
82601481|NCT00927368|164918388|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|0.28||||0.11|TWO_SIDED|95.0|-0.16|0.72||Significance criterion of 0.02082 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for pain was a linear regression model comparing ultrasound alone to stimulating needle on the mean time-weighted average pain score for a patient in the first 48 hours.||0.72|-0.16|0.11
82601482|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|5.0||||0.04|TWO_SIDED|95.0|-17.0|34.0||Significance criterion of 0.02082 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating catheter to stimulating needle on the log of cumulative opioid consumption score for a patient in the first 48 hours.||34|-17|0.04
82601483|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-5.0||||0.002|TWO_SIDED|95.0|-25.0|21.0||Significance criterion of 0.00347 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating needle to stimulating catheter on the log of cumulative opioid consumption score for a patient in the first 48 hours.||21|-25|0.002
82601484|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating catheter minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|3.0||||0.03|TWO_SIDED|95.0|-25.0|21.0||Significance criterion of 0.01735 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating catheter to ultrasound alone on the log of cumulative opioid consumption score for a patient in the first 48 hours.||21|-25|0.03
82601485|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating catheter is greater than 0.5 points).|Mean Difference (Final Values)|-3.0||||0.005|TWO_SIDED|95.0|-24.0|23.0||Significance criterion of 0.00694 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing ultrasound alone to stimulating catheter on the log of cumulative opioid consumption score for a patient in the first 48 hours.||23|-24|0.005
82601486|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean stimulating needle minus mean ultrasound alone is greater than 0.5 points).|Mean Difference (Final Values)|-2.0||||0.006|TWO_SIDED|95.0|-22.0|25.0||Significance criterion of 0.01041 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing stimulating needle to ultrasound alone on the log of cumulative opioid consumption score for a patient in the first 48 hours.||25|-22|0.006
82601487|NCT00927368|164918389|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority analysis used the 0.5-point noninferiority delta in a 1-tailed test of the treatment effect regression parameter (i.e., testing the null hypothesis that mean ultrasound alone minus mean stimulating needle is greater than 0.5 points).|Mean Difference (Final Values)|2.0||||0.02|TWO_SIDED|95.0|-20.0|29.0||Significance criterion of 0.01388 after adjusting for group sequential design and applying Holm Bonferroni procedure to account for multiple comparisons.|t-test, 2 sided|||The primary analysis for opioid was a linear regression model comparing ultrasound alone to stimulating needle on the log of cumulative opioid consumption score for a patient in the first 48 hours.||29|-20|0.02
82601488|NCT00927368|164918390|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||Stimulating needle versus stimulating catheter.||||0.11
82601489|NCT00927368|164918390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.0||||0.01|TWO_SIDED|95.0|6.0|75.0|||ANOVA|||Stimulating needle versus ultrasound guidance alone||75|6|0.01
82601490|NCT00927368|164918390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|67.0|||<|0.001|TWO_SIDED|95.0|31.0|102.0|||ANOVA|||Stimulating catheter versus ultrasound guidance alone||102|31|< 0.001
82601491|NCT00927368|164918391|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|14.0|||||TWO_SIDED||||||||Incremental cost (additional cost of stimulating needle compared to ultrasound alone).|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
82601492|NCT00927368|164918391|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|36.0|||||TWO_SIDED||||||||We estimated incremental cost, or additional cost of stimulating needle + catheter stimulation to stimulating needle alone.|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
82601493|NCT00927368|164918391|SUPERIORITY_OR_OTHER||incremental cost, measured in dollars|50.0|||||TWO_SIDED||||||||We calculated incremental cost, or the additional cost of stimulating needle + stimulating catheter to ultrasound alone.|We calculated incremental cost, defined as the additional cost of one strategy to the next less costly strategy.||||
82601494|NCT00964431|164918406|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.545|STANDARD_ERROR_OF_MEAN|1.8912|<|0.001|TWO_SIDED|95.0|5.816|13.275|||ANCOVA|||||13.275|5.816|<0.001
82601495|NCT01482910|164918439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.1|||<|0.0001|TWO_SIDED|95.0|6.8|13.4||Hierarchical testing procedure was used in the order of pre-defined fixed sequence (primary endpoint first, then confirmatory secondary efficacy point next). A two-sided significance level of 0.05 was used.|ANCOVA|ANCOVA with baseline BCVA as a covariate, and treatment group and baseline BCVA group (\<45 letters vs ≥45 letters) as fixed factors|Least square mean difference (EYLEA-PDT) was estimated from ANCOVA, where a positive value is in favor of EYLEA.|Null hypothesis: mean changes are identical in both groups. A sample size of 300 subjects with a 3:1 (EYLEA to PDT) randomization ratio is sufficient to detect the superiority of EYLEA to PDT assuming a two-sided alpha level of 0.05, a power of 90%, a treatment difference of 7.5 letters and a common standard deviation of 14 letters.||13.4|6.8|<0.0001
82601496|NCT01482910|164918440|SUPERIORITY_OR_OTHER||Risk Difference (RD)|6.6||||0.0359|TWO_SIDED|95.0|0.4|12.9||Hierarchical testing procedure was used in the order of pre-defined fixed sequence (primary endpoint first, then confirmatory secondary efficacy point next). A two-sided significance level of 0.05 was used.|Cochran-Mantel-Haenszel|CMH adjusted for baseline BCVA group (\<45 letters vs ≥45 letters)|Proportion difference (EYLEA-PDT) was estimated from CMH, where a positive value is in favor of EYLEA.|Null hypothesis: proportions are identical in both groups||12.9|0.4|0.0359
82601497|NCT01872338|164918441|SUPERIORITY||Incident Rate Ratio|0.5||||0.015|TWO_SIDED|95.0|0.29|0.87|||negative binomial regression|||||.87|.29|.015
82601498|NCT01872338|164918442|SUPERIORITY||Incident Rate Ratio|0.43||||0.01|TWO_SIDED|95.0|0.22|0.82|||negative binomial regression|||||.82|.22|.01
82601499|NCT01872338|164918443|SUPERIORITY|||||||0.34|||||||Regression, Linear|repeated measures, overall time by condition effect||||||.34
82601500|NCT01872338|164918444|SUPERIORITY|||||||0.23||||||repeated measures, overall time by condition effect|Regression, Linear|||||||.23
82601501|NCT03072160|164918461|OTHER|||||||0.926||||||CD4|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.926
82601502|NCT03072160|164918461|OTHER|||||||0.445||||||CD8|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.445
82601503|NCT03072160|164918461|OTHER|||||||0.21||||||Tregs|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.210
82601504|NCT03072160|164918461|OTHER|||||||0.78||||||Natural Killer (NK) cells|Wilcoxon signed-rank test||||A change is defined as being statistically significant (p\>0.05).|||0.780
82601505|NCT00236080|164918469|NON_INFERIORITY_OR_EQUIVALENCE|Number of participants analyzed was determined by those participants who had at least 1 postbaseline efficacy assessment. Sample size requirements were not based on statistical considerations. There were 20 patients in each of the 5 treatment groups, for a total of 100 patients. It is expected that the sample size will provide sufficient information for describing the specified evaluations.||||||0.1236||||||The p-value of Overall Treatment to Placebo|ANCOVA|This analysis adjusted for the difference among the treatment groups at baseline.||Sample size requirements were not based on statistical considerations. The null hypothesis was Ho: μplacebo = μ150 = μ200 = μ250 = μprovigil versus Ha: at least 2 of the means are different, where μ represented the change from baseline to the endpoint.||||0.1236
82601506|NCT00236080|164918470|NON_INFERIORITY_OR_EQUIVALENCE|Using the adjusted p value from Tukey's least significant difference (LSD) test for armodafinil at 200 mg/day. Sample size requirements were not based on statistical considerations. There were 20 patients in each of the 5 treatment groups, for a total of 100 patients.||||||0.0945||||||The p-value of Overall Treatment to Placebo|ANCOVA|||Sample size requirements were not based on statistical considerations. The null hypothesis was Ho: μplacebo = μ150 = μ200 = μ250 = μprovigil versus Ha: at least 2 of the means are different, where μ represented the change from baseline to the endpoint .||||0.0945
82601507|NCT01214044|164918471|OTHER|A paired t-test was done to see if the time of the dim light melatonin onset changed from baseline to post-treatment.||||||0.2||||||A priori threshold for significance was p = 0.05.|t-test, 2 sided|paired t-test||A within subjects comparison was done to compare the time of the dim light melatonin onset before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11).||||0.2
82601508|NCT01214044|164918472|OTHER|A paired t-test was done to see if the Hamilton-21 score decreased from baseline to post-treatment.||||||0.01||||||A priori threshold for significance was p = 0.05.|t-test, 1 sided|paired t-test||"We hypothesized that there would be a decrease in the Hamilton-21 score with escitalopram treatment.~A within subjects comparison was done to compare the Hamilton-21 score before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11)."||||0.01
82601509|NCT01214044|164918473|OTHER|A paired t-test was done to see if the Beck Depression Inventory-II score decreased from baseline to post-treatment.||||||0.14||||||A priori threshold for significance was p = 0.05.|t-test, 1 sided|paired t-test||"We hypothesized that there would be a decrease in the Beck Depression Inventory-II score with escitalopram treatment.~A within subjects comparison was done to compare the Beck Depression Inventory-II score before treatment with escitalopram (Study Visit 3) and after treatment with escitalopram (Study Visit 11)."||||0.14
82601510|NCT01214044|164918474|OTHER|Spearman's rank-order correlation (non-parametric test) was used.||||||0.06||||||Spearman's rho (rs) = 0.66|Spearman's rank-order correlation|||We hypothesized that there would be a correlation between the change in phase angle difference and the decrease in the Hamilton-21 score with escitalopram treatment. The phase angle difference is the interval, in hours, between the dim light melatonin onset (a marker of biological time) and the average midpoint of sleep during the prior week.||||0.06
82492190|NCT01332500|164677656|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||Opioid health plus copay costs|paired t-test 2-sided|||||||0.173
82601511|NCT01214044|164918474|OTHER|Spearman's rank-order correlation (non-parametric test) was used.||||||0.48||||||Spearman's rho (rs) = 0.02|Spearman's rank-order correlation|||We hypothesized that there would be a correlation between the change in phase angle difference and the decrease in the Beck Depression Inventory-II score with escitalopram treatment. The phase angle difference is the interval, in hours, between the dim light melatonin onset (a marker of biological time) and the average midpoint of sleep during the prior week.||||0.48
82601512|NCT00408694|164918475|OTHER|||||||||||||||||Null hypothesis, H0: Incidence of patients with either grade 4 hemorrhage or any grade 5 adverse event for the protocol treatment regimen ≤ 0.05. Alternative hypothesis, HA: Incidence of patients with either grade 4 hemorrhage or any grade 5 adverse event for the protocol treatment regimen ≥ 0.15.|If 3 of the first 14 patients or 4 of the first 42 patients experience the specified adverse events, then the regimen is considered unacceptable as calculated by the Fleming method for a two-stage design with type I error and the statistical power were set at 0.14 and 0.83, respectively.|||
82601513|NCT03543410|164918484|SUPERIORITY||Mean Difference (Final Values)|-3.29|STANDARD_ERROR_OF_MEAN|1.625||0.044|TWO_SIDED|95.0|-6.489|-0.09||nominal p-value|Mixed Models Analysis|||||-0.090|-6.489|0.044
82601514|NCT03543410|164918484|SUPERIORITY||Mean Difference (Final Values)|-3.128|STANDARD_ERROR_OF_MEAN|1.597||0.051|TWO_SIDED|95.0|-6.273|0.017||nominal p-value|Mixed Models Analysis|||||0.017|-6.273|0.051
82601515|NCT03543410|164918485|SUPERIORITY||Mean Difference (Final Values)|-0.281|STANDARD_ERROR_OF_MEAN|0.191||0.143|TWO_SIDED|95.0|-0.658|0.095||nominal p-value|Mixed Models Analysis|||||0.095|-0.658|0.143
82601516|NCT03543410|164918485|SUPERIORITY||Mean Difference (Final Values)|-0.219|STANDARD_ERROR_OF_MEAN|0.187||0.243|TWO_SIDED|95.0|-0.588|0.15||nominal p-value|Mixed Models Analysis|||||0.150|-0.588|0.243
82601517|NCT00820755|164918487|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.959||||0.1265|TWO_SIDED|95.0|0.736|1.25|||Log Rank|||Exploratory analysis to test the null hypothesis of no difference between maintenance therapy regimen. Model is adjusted by histology (interactive voice response system \[IVRS\]) and tumor response status at the end of combination therapy ('complete response \[CR\] or partial response \[PR\]' versus 'other').||1.250|0.736|0.1265
82601518|NCT00820755|164918489|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.774||||0.0622||95.0|0.613|0.976|||Log Rank|||Exploratory analysis to test the null hypothesis of no difference between maintenance therapy regimen. Model is adjusted by histology (IVRS) and tumor response status at the end of combination therapy ('CR or PR' versus 'other').||0.976|0.613|0.0622
82601519|NCT02551159|164918504|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.787|TWO_SIDED|95.0|0.69|1.32||2 sided|Log Rank|||Statistical analysis of number of deaths||1.32|0.69|0.787
82601520|NCT02551159|164918506|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.634|TWO_SIDED|95.0|0.8|1.39||2 sided|Log Rank|||||1.39|0.80|0.634
82601521|NCT02551159|164918508|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.287|TWO_SIDED|95.0|0.94|1.8||2 sided|Log Rank|||||1.80|0.94|0.287
82601522|NCT02551159|164918508|SUPERIORITY||Hazard Ratio (HR)|1.32||||0.028|TWO_SIDED|95.0|0.99|1.76||2 sided|Log Rank|||||1.76|0.99|0.028
82601523|NCT02551159|164918509|SUPERIORITY||Odds Ratio (OR)|0.19|||<|0.001|TWO_SIDED|95.0|0.1|0.37||2 sided|Regression, Logistic|||Statistical analysis of number with a response||0.37|0.10|<0.001
82601524|NCT02551159|164918509|SUPERIORITY||Odds Ratio (OR)|0.34|||<|0.001|TWO_SIDED|95.0|0.2|0.57||2 sided|Regression, Logistic|||Statistical analysis of number with a response||0.57|0.20|<0.001
82601525|NCT02551159|164918511|SUPERIORITY||Hazard Ratio (HR)|1.03||||0.811|TWO_SIDED|95.0|0.83|1.27||2 sided|Log Rank|||Statistical analysis of number of deaths||1.27|0.83|0.811
82601526|NCT02551159|164918511|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.624|TWO_SIDED|95.0|0.87|1.25|||Log Rank|||Statistical analysis of number of deaths||1.25|0.87|0.624
82601527|NCT02551159|164918514|SUPERIORITY||Hazard Ratio (HR)|1.36||||0.006|TWO_SIDED|95.0|1.1|1.68||2 sided|Log Rank|||||1.68|1.10|0.006
82601528|NCT02551159|164918514|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.008|TWO_SIDED|95.0|1.06|1.53||2 sided|Log Rank|||||1.53|1.06|0.008
82601529|NCT02551159|164918515|SUPERIORITY||Odds Ratio (OR)|0.21|||<|0.001|TWO_SIDED|95.0|0.13|0.33||2 sided|Regression, Logistic|||||0.33|0.13|<0.001
82492191|NCT01332500|164677656|SUPERIORITY_OR_OTHER|||||||0.191||95.0||||Ergot health plus copay costs|paired t-test 2-sided|||||||0.191
82492192|NCT01332500|164677656|SUPERIORITY_OR_OTHER|||||||0.254||95.0||||Other health plus copay costs|paired t-test 2-sided|||||||0.254
82601530|NCT02551159|164918515|SUPERIORITY||Odds Ratio (OR)|0.29|||<|0.001|TWO_SIDED|95.0|0.2|0.41||2 sided|Regression, Logistic|||||0.41|0.20|<0.001
82601531|NCT04506294|164918521|SUPERIORITY|||||||0.536|||||||t-test, 2 sided|||||||.536
82601532|NCT05523973|164918523|SUPERIORITY|||||||0.66|||||||Wilcoxon (Mann-Whitney)|||||||0.66
82601533|NCT05523973|164918524|SUPERIORITY|||||||1|||||||Chi-squared|||||||1.0
82601534|NCT05523973|164918525|SUPERIORITY|||||||0.09|||||||Sign test|||||||0.09
82601535|NCT05523973|164918526|SUPERIORITY|||||||0.722|||||||Sign test|||||||.722
82601536|NCT05523973|164918527|SUPERIORITY|||||||0.28|||||||Sign test|||||||.28
82601537|NCT05523973|164918528|SUPERIORITY|||||||0.15|||||||Sign test|||||||.15
82601538|NCT05523973|164918529|SUPERIORITY|||||||0.8|||||||Sign test|||||||.8
82601539|NCT05523973|164918530|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||||||.12
82601540|NCT05523973|164918531|SUPERIORITY|||||||0.92|||||||Sign test|||||||.92
82601541|NCT05888103|164918532|SUPERIORITY||LS Mean Difference|-47.5|||<|0.0001|TWO_SIDED|95.0|-52.35|-42.65|||ANCOVA|||||-42.65|-52.35|<0.0001
82601542|NCT05888103|164918533|SUPERIORITY||LS Mean Difference|-69.73|||<|0.0001|TWO_SIDED|95.0|-76.6|-62.86|||ANCOVA|||||-62.86|-76.60|<0.0001
82601543|NCT05888103|164918534|SUPERIORITY||LS Mean Difference|-77.83|||<|0.0001|TWO_SIDED|95.0|-85.86|-69.8|||ANCOVA|||||-69.80|-85.86|<0.0001
82601544|NCT05888103|164918535|SUPERIORITY||LS Mean Difference|-226.61|||<|0.0001|TWO_SIDED|95.0|-244.77|-208.45|||ANCOVA|||||-208.45|-244.77|<0.0001
82601545|NCT05888103|164918536|SUPERIORITY||LS Mean Difference|-31.49|||<|0.0001|TWO_SIDED|95.0|-34.91|-28.07|||ANCOVA|||||-28.07|-34.91|<0.0001
82601546|NCT05888103|164918537|SUPERIORITY||LS Mean Difference|-71.46|||<|0.0001|TWO_SIDED|95.0|-79.24|-63.69|||ANCOVA|||||-63.69|-79.24|<0.0001
82601547|NCT05888103|164918538|SUPERIORITY||LS Mean Difference|2.94||||0.3743|TWO_SIDED|95.0|-3.55|9.42|||ANCOVA|||||9.42|-3.55|0.3743
82601548|NCT05888103|164918539|SUPERIORITY||LS Mean Difference|1.07||||0.4228|TWO_SIDED|95.0|-1.54|3.68|||ANCOVA|||||3.68|-1.54|0.4228
82601549|NCT05888103|164918540|SUPERIORITY||LS Mean Difference|-40.57|||<|0.0001|TWO_SIDED|95.0|-44.57|-36.57|||ANCOVA|||||-36.57|-44.57|<0.0001
82601550|NCT05888103|164918541|SUPERIORITY||LS Mean Difference|-72.34|||<|0.0001|TWO_SIDED|95.0|-79.56|-65.13|||ANCOVA|||||-65.13|-79.56|<0.0001
82601551|NCT05888103|164918542|SUPERIORITY||LS Mean Difference|-36.84|||<|0.0001|TWO_SIDED|95.0|-40.72|-32.96|||ANCOVA|||||-32.96|-40.72|<0.0001
82601552|NCT05888103|164918543|SUPERIORITY||LS Mean Difference|-41.87|||<|0.0001|TWO_SIDED|95.0|-46.28|-37.47|||ANCOVA|||||-37.47|-46.28|<0.0001
82601553|NCT05888103|164918544|SUPERIORITY||LS Mean Difference|2.05||||0.3011|TWO_SIDED|95.0|-1.84|5.93|||ANCOVA|||||5.93|-1.84|0.3011
82601554|NCT05888103|164918545|SUPERIORITY||LS Mean Difference|3.13||||0.2403|TWO_SIDED|95.0|-2.09|8.35|||ANCOVA|||||8.35|-2.09|0.2403
82601555|NCT05888103|164918546|SUPERIORITY||LS Mean Difference|-30.27|||<|0.0001|TWO_SIDED|95.0|-40.58|-19.95|||ANCOVA|||||-19.95|-40.58|<0.0001
82601556|NCT05888103|164918547|SUPERIORITY||LS Mean Difference|0.68|||<|0.0001|TWO_SIDED|95.0|0.6|0.76|||ANCOVA|||||0.76|0.60|<0.0001
82601557|NCT05888103|164918548|SUPERIORITY||LS Mean Difference|3.01||||0.5877|TWO_SIDED|95.0|-7.88|13.91|||ANCOVA|||||13.91|-7.88|0.5877
82601558|NCT05888103|164918549|SUPERIORITY||LS Mean Difference|-7.96||||0.5019|TWO_SIDED|95.0|-31.17|15.26|||ANCOVA|||||15.26|-31.17|0.5019
82601559|NCT05900115|164918555|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.77|TWO_SIDED||||||Regression, Linear|||||||0.77
82601560|NCT05900115|164918556|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.02|STANDARD_ERROR_OF_MEAN|0.06||0.78|TWO_SIDED||||||Regression, Linear|||||||0.78
82601561|NCT05900115|164918557|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.13|STANDARD_ERROR_OF_MEAN|0.12||0.28|TWO_SIDED||||||Regression, Linear|||||||0.28
82601562|NCT05900115|164918558|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.05|STANDARD_ERROR_OF_MEAN|0.13||0.68|TWO_SIDED||||||Regression, Linear|||||||0.68
82601563|NCT05900115|164918559|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.32|STANDARD_ERROR_OF_MEAN|0.13||0.01|TWO_SIDED||||||Regression, Linear|||||||0.01
82601564|NCT05900115|164918560|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.18|TWO_SIDED||||||Regression, Linear|||||||0.18
82601565|NCT05900115|164918561|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.03|STANDARD_ERROR_OF_MEAN|0.12||0.83|TWO_SIDED||||||Regression, Linear|||||||0.83
82601566|NCT05900115|164918562|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.13||0.56|TWO_SIDED||||||Regression, Linear|||||||0.56
82601567|NCT05900115|164918563|EQUIVALENCE|To examine intervention effects on primary dichotomous outcomes at posttest, we used logistic regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Odds Ratio (OR)|1.11|STANDARD_ERROR_OF_MEAN|0.54||0.85|TWO_SIDED|95.0|0.38|3.2|||Regression, Logistic|||||3.20|.38|0.85
82492193|NCT01332500|164677656|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total health plus copay costs|paired t-test 2-sided|||||||<0.001
82601568|NCT05900115|164918564|EQUIVALENCE|To examine intervention effects on primary outcomes at posttest, we used linear regression in intent-to-treat analyses. Posttest scores were regressed onto pretest scores, covariates, and the treatment effect.|Slope|0.0|STANDARD_ERROR_OF_MEAN|0.05||1|TWO_SIDED||||||Regression, Linear|||||||1.00
82601569|NCT04024501|164918565|OTHER||Geometric Mean ratio|106.2|||||TWO_SIDED|90.0|91.73|122.96|||Mixed Model Analysis|The number of subjects in this analysis: 22||Pairwise comparison: Treatment 2/Treatment 1||122.96|91.73|
82601570|NCT04024501|164918565|OTHER||Geometric mean ratio|50.02|||||TWO_SIDED|90.0|42.34|59.1|||Mixed Model Analysis|The number of subjects in this analysis: 22||Pairwise comparison: Treatment 3/Treatment 1||59.10|42.34|
82601571|NCT04024501|164918565|OTHER||Geometric mean ratio|47.1|||||TWO_SIDED|90.0|39.85|55.68|||Mixed Model Analysis|The number of subjects in this analysis: 15||Pairwise comparison: Treatment 3/Treatment 2||55.68|39.85|
82601572|NCT04024501|164918565|OTHER||Geometric mean ratio|58.4|||||TWO_SIDED|90.0|49.49|68.92|||Mixed Model Analysis|The number of subjects in this analysis: 15||Pairwise comparison: Treatment 3/Treatment 4||68.92|49.49|
82601573|NCT04024501|164918565|OTHER||Geometric mean ratio|85.65|||||TWO_SIDED|90.0|73.78|99.43|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 4/Treatment 1||99.43|73.78|
82601574|NCT04024501|164918565|OTHER||Geometric mean ratio|80.65|||||TWO_SIDED|90.0|69.48|93.62|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 4/Treatment 2||93.62|69.48|
82601575|NCT04024501|164918565|OTHER||Geometric mean ratio|89.88|||||TWO_SIDED|90.0|77.61|104.09|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 1||104.09|77.61|
82601576|NCT04024501|164918565|OTHER||Geometric mean ratio|84.64|||||TWO_SIDED|90.0|72.94|98.2|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 2||98.20|72.94|
82601577|NCT04024501|164918565|OTHER||Geometric mean ratio|179.68|||||TWO_SIDED|90.0|151.57|212.99|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 3||212.99|151.57|
82601578|NCT04024501|164918565|OTHER||Geometric mean ratio|104.94|||||TWO_SIDED|90.0|90.18|122.11|||Mixed Model Analysis|The number of subjects in this analysis: 21||Pairwise comparison: Treatment 5/Treatment 4||122.11|90.18|
82601579|NCT04024501|164918566|OTHER||Geometric mean ratio|100.39|||||TWO_SIDED|90.0|84.94|118.65|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 2/Treatment 1||118.65|84.94|
82601580|NCT04024501|164918566|OTHER||Geometric mean ratio|41.26|||||TWO_SIDED|90.0|34.74|49.0|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 1||49.00|34.74|
82601581|NCT04024501|164918566|OTHER||Geometric mean ratio|41.1|||||TWO_SIDED|90.0|34.61|48.81|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 2||48.81|34.61|
82601582|NCT04024501|164918566|OTHER||Geometric mean ratio|53.55|||||TWO_SIDED|90.0|45.09|63.59|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 4||63.59|45.09|
82601583|NCT04024501|164918566|OTHER||Geometric mean ratio|77.05|||||TWO_SIDED|90.0|65.19|91.06|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 1||91.06|65.19|
82601584|NCT04024501|164918566|OTHER||Geometric mean ratio|76.75|||||TWO_SIDED|90.0|64.94|90.71|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 2||90.71|64.94|
82601585|NCT04024501|164918566|OTHER||Geometric mean ratio|84.23|||||TWO_SIDED|90.0|70.93|100.03|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 1||100.03|70.93|
82601586|NCT04024501|164918566|OTHER||Geometric mean ratio|83.9|||||TWO_SIDED|90.0|70.65|99.64|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 2||99.64|70.65|
82655667|NCT01604850|165027358|SUPERIORITY_OR_OTHER||Proportion difference|-22.4|||<|0.001|TWO_SIDED|95.0|-34.4|-10.3||P-value is from the Cochran-Mantel-Haenszel (CMH) test stratified by the randomization stratification factor (ie, presence/absence of cirrhosis, genotype 2 or 3).|Cochran-Mantel-Haenszel||The difference in proportions between treatment groups and associated 95% confidence interval (CI) are calculated based on stratum-adjusted Mantel-Haenszel proportions.|A sample size of 100 subjects in each group would provide over 97% power to detect at least 20% improvement in SVR12 rate from the assumed null rate of 25% using 2-sided exact 1-sample binomial test at significance level of 0.025.||-10.3|-34.4|< 0.001
82601587|NCT04024501|164918566|OTHER||Geometric mean ratio|204.16|||||TWO_SIDED|90.0|171.22|243.42|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 3||243.42|171.22|
82601588|NCT04024501|164918566|OTHER||Geometric mean ratio|109.32|||||TWO_SIDED|90.0|92.06|129.83|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 4||129.83|92.06|
82601589|NCT04024501|164918567|OTHER||Geometric mean ratio|124.99|||||TWO_SIDED|90.0|101.09|154.54|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 2/Treatment 1||154.54|101.09|
82492194|NCT01332500|164677657|SUPERIORITY_OR_OTHER|||||||0.866||95.0||||Triptan tablets|paired t-test 2-sided|||||||0.866
82601590|NCT04024501|164918567|OTHER||Geometric mean ratio|33.77|||||TWO_SIDED|90.0|27.15|42.01|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 1||42.01|27.15|
82601591|NCT04024501|164918567|OTHER||Geometric mean ratio|27.02|||||TWO_SIDED|90.0|21.72|33.61|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 2||33.61|21.72|
82601592|NCT04024501|164918567|OTHER||Geometric mean ratio|36.84|||||TWO_SIDED|90.0|29.61|45.82|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 3/Treatment 4||45.82|29.61|
82601593|NCT04024501|164918567|OTHER||Geometric mean ratio|91.69|||||TWO_SIDED|90.0|74.15|113.36|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 1||113.36|74.15|
82601594|NCT04024501|164918567|OTHER||Geometric mean ratio|73.36|||||TWO_SIDED|90.0|59.33|90.7|||Mixed Model Analysis|The number of subjects in this analysis: 25||Pairwise comparison: Treatment 4/Treatment 2||90.70|59.33|
82601595|NCT04024501|164918567|OTHER||Geometric mean ratio|67.62|||||TWO_SIDED|90.0|54.37|84.12|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 1||84.12|54.37|
82601596|NCT04024501|164918567|OTHER||Geometric mean ratio|54.11|||||TWO_SIDED|90.0|43.5|67.3|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 2||67.30|43.50|
82601597|NCT04024501|164918567|OTHER||Geometric mean ratio|200.23|||||TWO_SIDED|90.0|160.15|250.32|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 3||250.32|160.15|
82601598|NCT04024501|164918567|OTHER||Geometric mean ratio|73.76|||||TWO_SIDED|90.0|59.3|91.75|||Mixed Model Analysis|The number of subjects in this analysis: 23||Pairwise comparison: Treatment 5/Treatment 4||91.75|59.30|
82601599|NCT04187092|164918579|SUPERIORITY||||||<|0.05|||||||ANCOVA|||The 12-week changes in the KOOS scores, and the 12-week changes in the IKDC scores were analyzed by way of analysis of covariance (ANCOVA). Covariates: Age and sex of the subject, the subject's baseline outcome measure, the subject's baseline IKDC Total score, and the subject's standardized intake date (i.e., i.e., subject's intake date minus the intake date of the first enrolled subject) served as the ANCOVA concomitant adjustment variables||||<0.05
82601600|NCT02265913|164918611|EQUIVALENCE|provides 85% of success|Equivalence ratio|98.0|||||TWO_SIDED|90.0|92.0|105.0|||Fieller's method|||||105|92|
82601601|NCT00618722|164918617|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.043|TWO_SIDED|95.0|-0.9|0.0|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.0|-0.9|0.043
82601602|NCT00618722|164918617|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.05|TWO_SIDED|95.0|-0.8|0.0|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.0|-0.8|0.050
82601603|NCT00618722|164918617|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.249|TWO_SIDED|95.0|-0.7|0.2|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||0.2|-0.7|0.249
82601604|NCT00618722|164918618|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.003|TWO_SIDED|95.0|0.7|3.1|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||3.1|0.7|0.003
82601605|NCT00618722|164918618|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.03|TWO_SIDED|95.0|0.1|2.6|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||2.6|0.1|0.030
82601606|NCT00618722|164918618|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.012|TWO_SIDED|95.0|0.4|2.8|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||2.8|0.4|0.012
82601607|NCT00618722|164918619|SUPERIORITY_OR_OTHER||Difference from Placebo|38.9||||0.015|TWO_SIDED|95.0|12.6|65.2|||Fisher Exact|||||65.2|12.6|0.015
82601608|NCT00618722|164918619|SUPERIORITY_OR_OTHER||Difference from Placebo|28.9||||0.096|TWO_SIDED|95.0|0.4|57.5|||Fisher Exact|||||57.5|0.4|0.096
82601609|NCT00618722|164918619|SUPERIORITY_OR_OTHER||Difference from Placebo|44.7||||0.003|TWO_SIDED|95.0|20.6|68.8|||Fisher Exact|||||68.8|20.6|0.003
82601610|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.078|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.6|0.0|0.078
82601611|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.781|TWO_SIDED|95.0|-0.3|0.4|||Repeated easures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.4|-0.3|0.781
82601612|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.146|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 4||0.5|-0.1|0.146
82601613|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.076|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.6|0.0|0.076
82601614|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.975|TWO_SIDED|95.0|-0.3|0.3|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.3|-0.3|0.975
82601615|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.183|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 8||0.5|-0.1|0.183
82601616|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.017|TWO_SIDED|95.0|0.1|0.7|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.7|0.1|0.017
82601617|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.022|TWO_SIDED|95.0|0.1|0.7|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.7|0.1|0.022
82655668|NCT01249664|165027364|SUPERIORITY_OR_OTHER||Difference in least square means|14.1|||<|0.0001|TWO_SIDED|95.0|10.8|17.4||No adjustment on P value, this is for the primary efficacy analysis.|ANCOVA|ANCOVA model, including treatment groups and country (country designations) as fixed effects and baseline BCVA as a covariate.|The difference is calculated as Eylea minus Sham. A positive value indicates Eylea showed a higher change in BCVA total score until week 24 compared to Sham.|Null hypothesis was equality in change from baseline to Week 24 in BCVA total letter score between Eylea and Sham.||17.4|10.8|<0.0001
82655669|NCT01249664|165027365|SUPERIORITY_OR_OTHER||CMH adjusted difference|29.2||||0.0001|TWO_SIDED|95.0|14.4|44.0||No adjustment on P value, since this test was only conducted formally under the primary efficacy evaluation was significant.|Cochran-Mantel-Haenszel||A two-sided Cochran-Mantel-Haenszel method at level 5% weight-adjusted by country (country designations) was used to conduct the superiority test.|Null hypothesis of difference of Eylea minus Sham of 0 was tested.||44.0|14.4|0.0001
82601618|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.081|TWO_SIDED|95.0|0.0|0.6|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 12||0.6|0.0|0.081
82601619|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.51|TWO_SIDED|95.0|-0.2|0.4|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.2|0.510
82601620|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.33|TWO_SIDED|95.0|-0.5|0.2|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.2|-0.5|0.330
82601621|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.72|TWO_SIDED|95.0|-0.3|0.4|||Repeated Measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 16||0.4|-0.3|0.720
82601622|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.205|TWO_SIDED|95.0|-0.1|0.5|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.5|-0.1|0.205
82601623|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.41|TWO_SIDED|95.0|-0.5|0.2|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.2|-0.5|0.410
82601624|NCT00618722|164918620|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.436|TWO_SIDED|95.0|-0.2|0.4|||Repeated measures|Based on repeated measures analysis of variance with treatment, visit, center, treatment x visit as fixed effects and subject as a random effect.||Week 24||0.4|-0.2|0.436
82601625|NCT00618722|164918621|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6||||0.762|TWO_SIDED|95.0|-9.1|12.3|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||12.3|-9.1|0.762
82601626|NCT00618722|164918621|SUPERIORITY_OR_OTHER||LS mean Difference|5.2||||0.248|TWO_SIDED|95.0|-3.8|14.2|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||14.2|-3.8|0.248
82601627|NCT00618722|164918621|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3||||0.061|TWO_SIDED|95.0|-0.4|19.1|||ANCOVA|Based on analysis of covariance (ANCOVA) model with treatment as fixed effect and baseline SMF rating as covariate.||||19.1|-0.4|0.061
82601628|NCT00200057|164918623|SUPERIORITY_OR_OTHER||Proportion|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.81||No multiplicity adjustments were made for the primary outcome analysis. Two-tailed p-values were considered statistically significant if they were less than 0.05.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.81|0.64|<0.0001
82601629|NCT00200057|164918624|SUPERIORITY_OR_OTHER||Proportion|0.73|||<|0.0001|TWO_SIDED|95.0|0.64|0.81||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.81|0.64|<0.0001
82601630|NCT00200057|164918625|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
82601631|NCT00200057|164918626|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
82601632|NCT00200057|164918627|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
82601633|NCT00200057|164918628|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Wilcoxon signed-rank test|||||||<0.0001
82601634|NCT00200057|164918629|SUPERIORITY_OR_OTHER||Proportion|0.71|||<|0.0001|TWO_SIDED|95.0|0.62|0.79||The Hochberg procedure for multiplicity adjustment was used for all secondary objectives.|Exact Binomial|||The exact Binomial test (two-sided) for one-sample proportions was used to test the null hypothesis that the success rate is equal to 0.5.||0.79|0.62|<0.0001
82601635|NCT05512949|164918630|NON_INFERIORITY|The ID-dose regimen is considered non-inferior if the lower bound of the confidence interval (original scale) is no less than half that of the standard dose, giving a NI margin of 0.5 (NI= -0.301 log10 scale).|Geometric mean titer ratio (GMTR)|0.7||||0.045|TWO_SIDED|95.0|0.5|1.0||Significance can be considered if P \<0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|Two-sample t-test with unequal variance, noninferiority (NI) margin of 0.5 and two-sided type I error rate of 0.05.||The selection of the noninferiority (NI) margin was based on the pivotal Phase 3 trial by Pittman et al., in 2019 comparing one dose of ACAM2000 and the now licensed 2-dose standard MVA-BN regimen, which provided an estimated relative (peak) immune response of approximately 2-times higher for MVA-BN. An NI margin of 0.5 corresponds to an immune response of the lower-dose MVA-BN at least as high as what would be expected for ACAM2000.||1.0|0.5|0.045
82601636|NCT05512949|164918630|NON_INFERIORITY|The ID-dose regimen is considered non-inferior if the lower bound of the confidence interval (original scale) is no less than half that of the standard dose, giving a NI margin of 0.5 (NI= -0.301 log10 scale).|Geometric mean titer ratio (GMTR)|0.4||||0.162|TWO_SIDED|95.0|0.3|0.6||Significance can be considered if P \<0.05. Not adjusted for multiple comparisons.|t-test, 2 sided|Two-sample t-test with unequal variance, noninferiority (NI) margin of 0.5 and two-sided type I error rate of 0.05.||The selection of the noninferiority (NI) margin was based on the pivotal Phase 3 trial by Pittman et al., in 2019 comparing one dose of ACAM2000 and the now licensed 2-dose standard MVA-BN regimen, which provided an estimated relative (peak) immune response of approximately 2-times higher for MVA-BN. An NI margin of 0.5 corresponds to an immune response of the lower-dose MVA-BN at least as high as what would be expected for ACAM2000.||0.6|0.3|0.162
82601637|NCT05512949|164918633|SUPERIORITY|||||||0.888|||||||Wilcoxon (Mann-Whitney)|||||||0.888
82601638|NCT05512949|164918633|SUPERIORITY|||||||0.708|||||||Wilcoxon (Mann-Whitney)|||||||0.708
82601639|NCT01097629|164918652|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|26.3|||<|1e-05|TWO_SIDED|95.0|18.3|34.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSTm, had planned marginal power of 97.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||34.3|18.3|<0.00001
82655670|NCT01249664|165027366|SUPERIORITY_OR_OTHER||Difference in least square means|13.1|||<|0.0001|TWO_SIDED|95.0|9.4|16.7|||ANCOVA|||||16.7|9.4|<0.0001
82655671|NCT01249664|165027367|SUPERIORITY_OR_OTHER||CMH adjusted difference|50.5|||<|0.001|TWO_SIDED|95.0|35.0|66.0|||Cochran-Mantel-Haenszel|||||66.0|35.0|<0.001
82655672|NCT01249664|165027368|SUPERIORITY_OR_OTHER||CMH adjusted difference|64.0|||<|0.001|TWO_SIDED|95.0|47.8|80.3|||Cochran-Mantel-Haenszel|||||80.3|47.8|<0.001
82655673|NCT01249664|165027369|SUPERIORITY_OR_OTHER||CMH adjusted difference|21.0||||0.0308|TWO_SIDED|95.0|1.9|40.1|||Cochran-Mantel-Haenszel|||||40.1|1.9|0.0308
82655674|NCT01249664|165027370|SUPERIORITY_OR_OTHER||CMH adjusted difference|27.0||||0.0075|TWO_SIDED|95.0|7.2|46.8|||Cochran-Mantel-Haenszel|||||46.8|7.2|0.0075
82655675|NCT01249664|165027371|SUPERIORITY_OR_OTHER||CMH adjusted difference|42.7|||<|0.0001|TWO_SIDED|95.0|23.7|61.6|||Cochran-Mantel-Haenszel|||||61.6|23.7|<.0001
82655676|NCT01249664|165027372|SUPERIORITY_OR_OTHER||CMH adjusted difference|-6.5||||0.1478|TWO_SIDED|95.0|-15.2|2.3|||Cochran-Mantel-Haenszel|||||2.3|-15.2|0.1478
82655677|NCT01249664|165027373|SUPERIORITY_OR_OTHER||CMH adjusted difference|-25.8||||0.0006|TWO_SIDED|95.0|-40.6|-11.0|||Cochran-Mantel-Haenszel|||||-11.0|-40.6|0.0006
82655678|NCT01249664|165027374|SUPERIORITY_OR_OTHER||CMH adjusted difference|-32.2|||<|0.0001|TWO_SIDED|95.0|-48.1|-16.3|||Cochran-Mantel-Haenszel|||||-16.3|-48.1|<0.0001
82655679|NCT01249664|165027375|SUPERIORITY_OR_OTHER||CMH adjusted difference|-5.3||||0.2446|TWO_SIDED|95.0|-14.4|3.7|||Cochran-Mantel-Haenszel|||||3.7|-14.4|0.2446
82655680|NCT01249664|165027376|SUPERIORITY_OR_OTHER||CMH adjusted difference|-21.5||||0.0035|TWO_SIDED|95.0|-35.9|-7.0|||Cochran-Mantel-Haenszel|||||-7.0|-35.9|0.0035
82655681|NCT01249664|165027377|SUPERIORITY_OR_OTHER||CMH adjusted difference|-25.7||||0.0012|TWO_SIDED|95.0|-41.3|-10.1|||Cochran-Mantel-Haenszel|||||-10.1|-41.3|0.0012
82655682|NCT01249664|165027378|SUPERIORITY_OR_OTHER||Difference in least square means|-77.9|||<|0.0001|TWO_SIDED|95.0|-108.9|-46.9|||ANCOVA|||||-46.9|-108.9|<0.0001
82655683|NCT01249664|165027379|SUPERIORITY_OR_OTHER||Difference in least square means|-29.3||||0.065|TWO_SIDED|95.0|-60.4|1.8|||ANCOVA|||||1.8|-60.4|0.0650
82601640|NCT01097629|164918653|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|25.1|||<|1e-05||95.0|16.0|34.2||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSTm, had planned marginal power of 95.7%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||34.2|16.0|<0.00001
82601641|NCT01097629|164918654|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-29.4|||<|1e-05|TWO_SIDED|95.0|-36.6|-22.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 WASO, had planned marginal power of 99.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-22.3|-36.6|<0.00001
82601642|NCT01097629|164918655|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-29.4|||<|1e-05|TWO_SIDED|95.0|-36.7|-22.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 WASO, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-22.1|-36.7|<0.00001
82601643|NCT01097629|164918656|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.8||||3e-05|TWO_SIDED|95.0|-18.8|-6.9||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSOm, had planned marginal power of 99.9%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.9|-18.8|0.00003
82601644|NCT01097629|164918657|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.2||||3e-05|TWO_SIDED|95.0|-19.4|-7.0||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-7.0|-19.4|0.00003
82601645|NCT01097629|164918658|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-12.1||||4e-05|TWO_SIDED|95.0|-17.8|-6.4||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 LPS, had planned marginal power of 81.4%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.4|-17.8|0.00004
82601646|NCT01097629|164918659|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-3.6||||0.2651|TWO_SIDED|95.0|-10.1|2.8||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 LPS, had planned marginal power of 76.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||2.8|-10.1|0.26510
82601647|NCT01097629|164918660|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|26.4|||<|1e-05|TWO_SIDED|95.0|19.8|33.1|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSTm, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||33.1|19.8|<0.00001
82655684|NCT01249664|165027380|SUPERIORITY_OR_OTHER||Difference in least square means|-0.4808|||<|0.0001|TWO_SIDED|95.0|-0.599|-0.3626|||ANCOVA|||||-0.3626|-0.5990|<0.0001
82655685|NCT01249664|165027381|SUPERIORITY_OR_OTHER||Difference in least square means|-0.1346||||0.0256|TWO_SIDED|95.0|-0.2525|-0.0167|||ANCOVA|||||-0.0167|-0.2525|0.0256
82655686|NCT01249664|165027382|SUPERIORITY_OR_OTHER||Difference in least square means|-0.0045||||0.869|TWO_SIDED|95.0|-0.0579|0.049|||ANCOVA|||||0.0490|-0.0579|0.8690
82655687|NCT01249664|165027383|SUPERIORITY_OR_OTHER||Difference of least square means|5.21||||0.0104|TWO_SIDED|95.0|1.25|9.18|||ANCOVA|||||9.18|1.25|0.0104
82655688|NCT01249664|165027385|SUPERIORITY_OR_OTHER||Difference in least square means|-0.6648|||<|0.0001|TWO_SIDED|95.0|-0.8056|-0.5239|||ANCOVA|||||-0.5239|-0.8056|<0.0001
82492195|NCT01332500|164677657|SUPERIORITY_OR_OTHER|||||||0.094||95.0||||Non-steroidal anti-inflammatory drug tablets|paired t-test 2-sided|||||||0.094
82601648|NCT01097629|164918661|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-42.0|||<|1e-05|TWO_SIDED|95.0|-48.6|-35.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 WASO, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-35.3|-48.6|<0.00001
82601649|NCT01097629|164918662|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-13.1|||<|1e-05|TWO_SIDED|95.0|-17.7|-8.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, time by treatment interaction, and cohort (e-diary only, PSG-plus-e-diary).||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-8.4|-17.7|<0.00001
82601650|NCT01097629|164918663|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-21.7|||<|1e-05|TWO_SIDED|95.0|-28.6|-14.9|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 LPS, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-14.9|-28.6|<0.00001
82601651|NCT00132041|164918673|OTHER||Success rate|0.18|||||TWO_SIDED|95.0|0.091|0.317|||||logistic regression model without correcting for the clustering effect|logistic regression was used to estimate the success rate||0.317|0.091|
82601652|NCT00132041|164918673|OTHER||Success rate|0.19|||||TWO_SIDED|95.0|0.136|0.252||||||logistic regression model after specifying site as cluster (using GEE approach).||0.252|0.136|
82601653|NCT00132041|164918674|OTHER||Success rate|0.18|||||TWO_SIDED|95.0|0.091|0.317|||||logistic regression model without correcting for the clustering effect|logistic regression was used to estimate the success rate||0.317|0.091|
82655689|NCT00860405|165027388|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a coefficient of variation of 0.363 and a desired power of 90 % with a type I level of 2.5 %, N=11 patients per treatment group were needed. The power was calculated by means of the software SAS, version 9.1.3, PROC POWER. Nevertheless, more patients were required for the assessment of safety, therefore 2 × 30 patients were planned to be included in this study.|Ratio of LS-means|0.98|||||TWO_SIDED|95.0|0.84|1.16||Null hypothesis tested by calculating a 2-sided 95% CI for ratio of LS-means μVoluven/μHSA based on ANOVA incl.treatment+centre as effects. If 95% CI was within equivalence range(0.55, 1.82), significant equivalence was concluded (Type I error: 2.5%)|ANOVA|Primary endpoint specified + analysed for PP and ITT population. Confirmatory analysis based on PP population only, no adjustment for multiplicity.|Considered ratio: μVoluven/μHSA = LS-mean of Voluven®/LS-mean of HSA 5%|The aim of the study was to prove equivalence, i.e. H0: μVoluven/μHSA ≤ 0.55 or μVoluven/μHSA ≥ 1.82 H1: 0.55 \< μVoluven/μHSA \< 1.82 where μVoluven was the mean infused volume of Voluven® and μHSA was the mean infused volume of HSA 5%.||1.16|0.84|
82655690|NCT00497796|165027407|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on the ICH guidance, the hypothesis of non-inferiority can be tested using a one-sided 97.5% confidence interval's (CI) upper bound comparing with the non-inferiority margin of 5% (0.05).|Rate difference|0.041|||||TWO_SIDED|95.0|-0.038|0.119|||||Rate difference is the rate of maribavir minus the rate of ganciclovir|||0.119|-0.038|
82655691|NCT00497796|165027407|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.586||||0.2754|TWO_SIDED|95.0|0.682|3.69||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||||3.690|0.682|0.2754
82655692|NCT00497796|165027408|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.793||||0.0283|TWO_SIDED|95.0|1.065|3.02||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of the pp65 antigenemia assay||3.020|1.065|0.0283
82601654|NCT00132041|164918674|OTHER||Slope|-3.7913||||0.0004|TWO_SIDED|95.0|-5.9056|-1.6769|||Generlaized estimating equations|Multivariate logistic model. P-value for number of RFA sessions dichotomized 1: more than 1; using the latter as the reference.|This estimate is for the effect of a single RFA sessions (v multiple sessions) in the multivariate model response:18 mo success/failure; covariates: tumor size,repeated RFA, local tumor recurrence, remote tumor occurrence, and age and gender.|multivariate logistic regression model was fit using GEEs to correct for site clustering effects, in which, the response variable was success/failure at 18 months and the covariates were tumor size, whether or not a patient received repeated RFA, whether or not a local tumor recurrence occurred, whether or not a remote tumor occurrence occurred, and two common confounding factors - age and gender||-1.6769|-5.9056|0.0004
82601655|NCT00132041|164918675|OTHER||GEE|-0.9101||||0.0221|TWO_SIDED|95.0|-1.6894|-0.1308|||Generlaized Estimating Equations|multivariate GEE model using logistic link|Estimation parameter is for tumor size when controlling for other covariates.|Effect of tumor size in the multivariate model with response:18 mo success/failure; covariates: tumor size,repeated RFA, local tumor recurrence, remote tumor occurrence, and age and gender.||-0.1308|-1.6894|0.0221
82655693|NCT00497796|165027408|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.284||||0.0024|TWO_SIDED|95.0|1.338|3.9|||Cochran-Mantel-Haenszel|The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of CMV DNA PCR assay||3.900|1.338|0.0024
82655694|NCT00497796|165027408|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.177||||0.0053|TWO_SIDED|95.0|1.259|3.767||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia or CMV DNA PCR assay||3.767|1.259|0.0053
82601656|NCT00132041|164918677|OTHER||Mean Difference (Final Values)|-0.458|STANDARD_ERROR_OF_MEAN|0.2496||0.06|TWO_SIDED|||||assuming unequal variance (Satterthwaite p)|t-test, 2 sided||Difference represents the size of tumors that do no recur minus those that do.|the mean tumor size in the two groups, recurred and non recurred tumors, will be compared using a t-test assuming H0: recur=non-recurr||||0.06
82601657|NCT00132041|164918679|OTHER||Sensitivity|0.083|||||TWO_SIDED|95.0|0.0|0.38|||||Twelve tumors were detected in the liver specimens, but only one of those was identified by the CT central readers|||0.38|0.00|
82601658|NCT00132041|164918679|OTHER||Specificity|0.75|||||TWO_SIDED|95.0|0.194|0.994|||||The central CT readers correctly identified three out of the four patients without pathologic evidence of tumor|Specificity||0.994|0.194|
82601659|NCT00132041|164918681|OTHER|McNemar's Test to compare success rates after assuming transplants as successes versus after assuming transplants as failures.||||||0.0001|||||||McNemar|||||||0.0001
82601660|NCT05197803|164918682|SUPERIORITY||Mean Difference (Final Values)|3.32||||0.0001|ONE_SIDED||||||t-test, 1 sided|||The study compared the results between the unaided condition vs. aided condition (BTE)||||0.0001
82601661|NCT05197803|164918682|SUPERIORITY||Mean Difference (Final Values)|3.57||||0.0001|ONE_SIDED||||||t-test, 1 sided|||The study compared the results between the unaided condition vs. aided condition (RIC)||||0.0001
82601662|NCT01307033|164918732|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|0.2|||||TWO_SIDED|95.0|-1.7|2.2|||Constained logitudinal data analysis|Model included treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups||||2.2|-1.7|
82601663|NCT01307033|164918733|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares means|-2.3|||||TWO_SIDED|95.0|-5.0|0.5|||Constained longitudinal data analysis|Model included treatment, time and the interaction of time by treatment with a restriction of the same baseline mean across treatment groups||||0.5|-5.0|
82655695|NCT00497796|165027408|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.388||||0.2339|TWO_SIDED|95.0|0.811|2.377||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of initiation of anti-CMV therapy||2.377|0.811|0.2339
82601664|NCT02804763|164918762|SUPERIORITY||||||=|0.0727||||||The lowest p-value (z-statistic with the highest value) was used to establish proof of dose response.|MCP-Mod|||"Multiple contrast testing (MCP-mod methodology) was used to test for a statistically significant dose-response relationship between the primary endpoint (BICLA at Week 24) and dose, which would indicate a drug effect of DZP over Placebo.~The best fitting statistically significant model could be used to estimate the dose needed to achieve desired treatment effect."||||=0.0727
82601665|NCT02804763|164918763|SUPERIORITY||Odds Ratio (OR)|1.6|||=|0.2699|TWO_SIDED|95.0|0.7|3.8||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||3.8|0.7|=0.2699
82655696|NCT00497796|165027409|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Hazard Ratio|2.25|||<|0.0001|TWO_SIDED|95.0|1.62|3.14|||Log Rank||Maribavir versus ganciclovir; Cox's proportional hazards regression model: time = receipt of induction ALA and geographic region (US or Europe) + treatment.|Analysis of time to onset||3.14|1.62|<0.0001
82655697|NCT00497796|165027410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0008|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||Analysis of 100 days post-transplant||||0.0008
82655698|NCT00497796|165027410|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3742|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||Analysis of 6 months post-transplant||||0.3742
82655699|NCT00497796|165027411|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel|||||||0.0007
82655700|NCT00497796|165027412|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.041|||<|0.0001|TWO_SIDED|95.0|2.179|7.494||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia assay||7.494|2.179|<0.0001
82655701|NCT00497796|165027412|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.448|||<|0.0001|TWO_SIDED|95.0|3.404|12.213||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of CMV DNA PCR assay||12.213|3.404|<0.0001
82655702|NCT00497796|165027412|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.02|||<|0.0001|TWO_SIDED|95.0|3.342|10.843||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of pp65 antigenemia or CMV DNA PCR assay||10.843|3.342|<0.0001
82492196|NCT01332500|164677657|SUPERIORITY_OR_OTHER|||||||0.832||95.0||||Opioid tablets|paired t-test 2-sided|||||||0.832
82655703|NCT00497796|165027412|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|11.165|||<|0.0001|TWO_SIDED|95.0|4.146|30.069||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for receipt of induction ALA and geographic region (US or Europe).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus ganciclovir|Analysis of initiation of anti-CMV therapy||30.069|4.146|<0.0001
82655704|NCT04276883|165027423|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82655705|NCT04276883|165027423|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82655706|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 120 minutes post-dose||||<0.0001
82655707|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 120 minutes post-dose||||<0.0001
82655708|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
82601666|NCT02804763|164918763|SUPERIORITY||Odds Ratio (OR)|2.0|||=|0.1036|TWO_SIDED|95.0|0.9|4.8||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||4.8|0.9|=0.1036
82601667|NCT02804763|164918763|SUPERIORITY||Odds Ratio (OR)|1.9|||=|0.1518|TWO_SIDED|95.0|0.8|4.3||Generalized linear models with factors for treatment and corticosteroid strata were fit using a logit link function for the odds ratios and p-values.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||4.3|0.8|=0.1518
82601668|NCT02804763|164918763|SUPERIORITY||Difference vs PBO|11.6|||||TWO_SIDED|95.0|-9.2|32.4||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 1 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||32.4|-9.2|
82601669|NCT02804763|164918763|SUPERIORITY||Difference vs PBO|17.3|||||TWO_SIDED|95.0|-3.3|38.0||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 2 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||38.0|-3.3|
82601670|NCT02804763|164918763|SUPERIORITY||Difference vs PBO|15.0|||||TWO_SIDED|95.0|-5.5|35.4||Crude difference in proportion responding and standard Wald asymptotic 95 % CI based on the normal approximation to the binomial distribution.|Chi-squared||Difference and 95 % Wald CI in proportion of responders for SOC + DZP dose 3 iv Q4W (FAS) versus SOC + Placebo iv Q4W (FAS).|Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||35.4|-5.5|
82601671|NCT02804763|164918763|SUPERIORITY||LS Mean Difference vs PBO|11.9|||||TWO_SIDED|95.0|-8.7|32.5||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||32.5|-8.7|
82601672|NCT02804763|164918763|SUPERIORITY||LS Mean Difference vs PBO|17.6|||||TWO_SIDED|95.0|-3.2|38.3||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||38.3|-3.2|
82655709|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 90 minutes post-dose||||<0.0001
82655710|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
82655711|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 60 minutes post-dose||||<0.0001
82655712|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
82655713|NCT04276883|165027424|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 45 minutes post-dose||||<0.0001
82655714|NCT04276883|165027424|SUPERIORITY|||||||0.0006|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 30 minutes post-dose||||0.0006
82655715|NCT04276883|165027424|SUPERIORITY|||||||0.0028|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 30 minutes post-dose||||0.0028
82655716|NCT04276883|165027424|SUPERIORITY|||||||0.007|||||||Mixed Models Analysis|||180 Micrograms versus placebo; 20 minutes post-dose||||0.0070
82655717|NCT04276883|165027424|SUPERIORITY|||||||0.0092|||||||Mixed Models Analysis|||120 Micrograms versus placebo; 20 minutes post-dose||||0.0092
82655718|NCT00406848|165027465|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||The a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||Tested was the null hypothesis that there would be no difference in changes from baseline (Week 1) to Week 13 on the HAMD-17 Maier subscale between duloxetine and placebo treatment groups.||||0.397
82492197|NCT01332500|164677657|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||Ergot tablets|paired t-test 2-sided|||||||0.392
82601673|NCT02804763|164918763|SUPERIORITY||LS Mean Difference vs PBO|15.2|||||TWO_SIDED|95.0|-5.2|35.6||Generalized linear models with factors for treatment and corticosteroid strata were fit using an identity link function for the LS mean differences.|Chi-squared|||Missing values were imputed using modified non-responder imputation (mNRI) dataset: at most 1 missing BICLA (mNRI) component (scale) may have been carried forward from the immediately preceding visit, and missing data in the individual items within scales may have been carried forward from the immediately preceding visit. If there was still missing data after this limited imputation, the study participant was counted as a non-responder on the BICLA (mNRI) for that visit.||35.6|-5.2|
82601674|NCT02769728|164918843|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||The threshold for statistical significance was p = 0.05||||0.001
82601675|NCT02769728|164918844|SUPERIORITY|||||||0.081||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.081
82601676|NCT02769728|164918845|SUPERIORITY|||||||0.114||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.114
82601677|NCT02769728|164918846|SUPERIORITY|||||||0.021||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||0.021
82601678|NCT02769728|164918847|SUPERIORITY|||||||1||||||The threshold for statistical significance was p = 0.05|Friedman test|||||||1.00
82601679|NCT04698525|164918850|NON_INFERIORITY|"A new treatment (memantine) that is not much worse or non-inferior to the standard treatment (valproate) may be attractive if, compared to it, it is expected to cause fewer side effects or improve quality of life or if its dosing regimen is easier to tolerate."|Mean Difference (Final Values)|5.3|STANDARD_DEVIATION|14.0||0.9|TWO_SIDED|95.0|0.0|10.0||"Comparison between VPA and Memantine was:~0.9 p-value (two-tailed)"|Wilcoxon (Mann-Whitney)|"Memantine 3.534 z corrected for ties 0.0004 p-value (two-tailed)~VPA 3.418 z corrected for ties 0.0006 p-value (two-tailed)"||Null hypothesis: Memantine is as effective as valproate in treating episodic migraine.|We made also student t|10|0|0.9
82601680|NCT01107444|164918867|SUPERIORITY_OR_OTHER_LEGACY|||||||0.284||||||The t-test was based on the logarithm of the ratio of tumor size at Cycle 2 to that at baseline as this measure follows a normal distribution.|t-test, 1 sided|||||||0.284
82655719|NCT00406848|165027466|SUPERIORITY_OR_OTHER|||||||0.115||95.0||||p-value is for difference between duloxetine and placebo on change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.115
82655720|NCT00406848|165027466|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||p-value is for difference between duloxetine and placebo on change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.004
82601681|NCT01890421|164918886|SUPERIORITY||Sensitivity Difference|-0.7||||0.8694|ONE_SIDED|95.0|-8.5||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||-8.5|0.8694
82601682|NCT01890421|164918886|SUPERIORITY||Sensitivity Difference|29.1|||<|0.0001|ONE_SIDED|95.0|21.7||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||21.7|<0.0001
82601683|NCT01890421|164918886|SUPERIORITY||Sensitivity Difference|24.1|||<|0.0001|ONE_SIDED|95.0|16.6||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 3 for presence of a myocardial perfusion defect indicating significant cad per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - primary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||16.6|<0.0001
82601684|NCT01890421|164918887|SUPERIORITY||Sensitivity Difference]|7.4||||0.0455|ONE_SIDED|95.0|0.5||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 1.|||0.5|0.0455
82601685|NCT01890421|164918887|SUPERIORITY||Sensitivity Difference]|34.3|||<|0.0001|ONE_SIDED|95.0|25.2||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 2.|||25.2|<0.0001
82601686|NCT01890421|164918887|SUPERIORITY||Sensitivity Difference|30.6|||<|0.0001|ONE_SIDED|95.0|21.7||||McNemar 1-sided test,alpha level of 2.5%|||Statistical analysis 3 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - additional secondary analysis of sensitivity comparison based on the blinded readers' assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI evaluated by Reader 3.|||21.7|<0.0001
82655721|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.773||95.0||||p-value is for HAMD-17 total score change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.773
82655722|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||p-value is for HAMD-17 total score change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.084
82655723|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||p-value is for Maier subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.059
82601687|NCT01890421|164918892|SUPERIORITY||Sensitivity Difference|27.9|||<|0.0001|TWO_SIDED|95.0|18.5|35.8|||McNemar 2-sided test,alpha level of 5%|||Statistical analysis 1 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - secondary analysis of sensitivity comparison based on investigator's assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI. Maximum stenosis severity at least \>=50% by QCA.||35.8|18.5|<0.0001
82601688|NCT01890421|164918892|SUPERIORITY||Sensitivity Difference|27.9|||<|0.0001|TWO_SIDED|95.0|19.9|34.4|||McNemar 2-sided test,alpha level of 10%|||Statistical analysis 2 for presence of a myocardial perfusion defect indicating significant CAD per participant on gadobutrol-enhanced CMRI versus unenhanced wall motion CMRI images - secondary analysis of sensitivity comparison based on investigator's assessment. Sensitivity of gadobutrol-enhanced CMRI was compared with sensitivity of unenhanced CMRI. Maximum stenosis severity at least \>=50% by QCA.||34.4|19.9|<0.0001
82601689|NCT01260454|164918923|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||This is open-label, uncontrolled data; the comparison is made between each individual's baseline.||||0.03
82601690|NCT00091832|164918926|SUPERIORITY_OR_OTHER|||||||0.245|||||||ANCOVA|Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)||||||0.245
82601691|NCT00091832|164918927|SUPERIORITY_OR_OTHER|||||||0.848|||||||ANCOVA|Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)||||||0.848
82601692|NCT00091832|164918928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||||95.0|0.68|4.35|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.35|0.68|
82601693|NCT00091832|164918928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.29||||||95.0|0.51|3.24|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.24|0.51|
82601694|NCT00091832|164918928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||||95.0|0.34|2.29|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||2.29|0.34|
82601695|NCT00091832|164918928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||||95.0|0.51|3.2|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.20|0.51|
82601696|NCT00091832|164918928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.74||||||95.0|0.7|4.34|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.34|0.70|
82601697|NCT00091832|164918929|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||||95.0|0.69|4.79|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||4.79|0.69|
82601698|NCT00091832|164918929|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||||95.0|0.25|1.76|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.76|0.25|
82601699|NCT00091832|164918929|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.65||||||95.0|0.24|1.77|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.77|0.24|
82655724|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.488||95.0||||p-value is for Bech subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.488
82601700|NCT00091832|164918929|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||||95.0|0.22|1.58|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.58|0.22|
82601701|NCT00091832|164918929|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||||95.0|0.25|1.92|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||1.92|0.25|
82601702|NCT00091832|164918930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||||95.0|0.51|1.31|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.31|0.51|
82655725|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||p-value is for HAMD-17 Bech subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.048
82601703|NCT00091832|164918930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||||95.0|0.64|1.65|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.65|0.64|
82601704|NCT00091832|164918930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||||95.0|0.68|1.74|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.74|0.68|
82601705|NCT00091832|164918930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.09||||||95.0|0.68|1.74|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.74|0.68|
82601706|NCT00091832|164918930|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.14||||||95.0|0.71|1.83|||||A hazard ratio \>1 indicates that the time to 65% or more reduction in uNTx from baseline was shorter in the Denosumab-treated group than in the control group.|||1.83|0.71|
82601707|NCT00091832|164918941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.543||||||95.0|0.159|1.856|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.856|0.159|
82601708|NCT00091832|164918941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.544||||||95.0|0.159|1.859|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.859|0.159|
82601709|NCT00091832|164918941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.791||||||95.0|0.266|2.355|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||2.355|0.266|
82601710|NCT00091832|164918941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.073||||||95.0|0.389|2.963|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||2.963|0.389|
82601711|NCT00091832|164918941|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54||||||95.0|0.158|1.847|||||A hazard ratio \<1 indicates the time to the first skeletal-related event in the denosumab-treated group was longer than that in the control group.|||1.847|0.158|
82601712|NCT00091832|164918942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92||||||95.0|0.51|7.17|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.17|0.51|
82601713|NCT00091832|164918942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2||||||95.0|0.36|3.97|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||3.97|0.36|
82601714|NCT00091832|164918942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||||95.0|0.26|2.52|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||2.52|0.26|
82601715|NCT00091832|164918942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||||95.0|0.5|7.05|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.05|0.5|
82601716|NCT00091832|164918942|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.88||||||95.0|0.5|7.05|||||Adjusted for the stratum to which the participant was originally assigned by the Interactive Voice Response System (IVRS)|||7.05|0.5|
82601717|NCT01557166|164918974|SUPERIORITY_OR_OTHER||Estimated treatment difference|-6.1||||0.015||95.0|-11.0|-1.19|||ANCOVA|ANCOVA model was used with treatment, country and sex as fixed factors, and the baseline value of AHI, baseline BMI and baseline age as covariates.||Let μ liraglutide 3.0mg and μ placebo denote mean change in AHI for liraglutide 3.0 mg and placebo,respectively. The null-hypothesis and the alternative was H0: μliraglutide 3.0mg = μplacebo against the alternative HA: μliraglutide 3.0mg ≠ μplacebo.||-1.19|-11.0|0.015
82601718|NCT00874250|164918984|SUPERIORITY_OR_OTHER||Proportion|0.98||||0.0024|TWO_SIDED|95.0|0.895|0.996|||Binomial Test|||||0.996|0.895|0.0024
82601719|NCT00428597|164919065|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.418||||0.000118|TWO_SIDED|95.0|0.263|0.662||Log-rank test statistic and 2-sided p-value from the unstratified log-rank test|Log Rank||Hazard ratio based on the Cox Proportional hazards model|||0.662|0.263|0.000118
82601720|NCT00428597|164919066|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|9.3|||||TWO_SIDED|95.0|4.1|17.5|||||Confidence interval (CI) using exact method based on binomial distribution.|||17.5|4.1|
82655726|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.529||95.0||||p-value is for Core Mood subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.529
82601721|NCT00428597|164919069|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.409||||0.0204|TWO_SIDED|95.0|0.187|0.894||2-sided p-value from the unstratified log-rank test.|Log Rank||Hazard ratio based on the Cox Proportional hazards model.|||0.894|0.187|0.0204
82601722|NCT00428597|164919070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1543||||0.6799|TWO_SIDED|95.0|-4.3|6.6||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||6.6|-4.3|0.6799
82601723|NCT00428597|164919071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4404||||0.6058|TWO_SIDED|95.0|-6.9|4.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||4|-6.9|0.6058
82655727|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||p-value is for Core Mood subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.027
82601724|NCT00428597|164919072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5575||||0.3008|TWO_SIDED|95.0|-10.3|3.2||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||3.2|-10.3|0.3008
82601725|NCT00428597|164919073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7911||||0.323|TWO_SIDED|95.0|-2.8|8.3||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||8.3|-2.8|0.3230
82655728|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.749||95.0||||p-value is for Anxiety/Somatization subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.749
82655729|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.296||95.0||||p-value is for Anxiety/Somatization subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.296
82655730|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.984||95.0||||p-value is for Sleep subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.984
82655731|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||p-value is for Sleep subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.930
82655732|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.934||95.0||||p-value is for Retardation subscale change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.934
82492198|NCT01332500|164677657|SUPERIORITY_OR_OTHER|||||||0.752||95.0||||Other tablets|paired t-test 2-sided|||||||0.752
82601726|NCT00428597|164919074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5113||||0.7113|TWO_SIDED|95.0|-6.5|9.5||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||9.5|-6.5|0.7113
82601727|NCT00428597|164919075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6672||||0.6487|TWO_SIDED|95.0|-8.9|5.5||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||5.5|-8.9|0.6487
82601728|NCT00428597|164919076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88||||0.6545|TWO_SIDED|95.0|-6.4|10.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||10.1|-6.4|0.6545
82601729|NCT00428597|164919077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0035||||0.1936|TWO_SIDED|95.0|-10.0|2.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||2|-10|0.1936
82601730|NCT00428597|164919078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.3801|||<|0.0001|TWO_SIDED|95.0|14.3|28.4||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||28.4|14.3|<0.0001
82601731|NCT00428597|164919079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.23||||0.1339|TWO_SIDED|95.0|-1.6|12.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||12.1|-1.6|0.1339
82601732|NCT00428597|164919080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7816||||0.6138|TWO_SIDED|95.0|-5.1|8.7||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||8.7|-5.1|0.6138
82601733|NCT00428597|164919081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2778||||0.9367|TWO_SIDED|95.0|-6.6|7.1||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||7.1|-6.6|0.9367
82601734|NCT00428597|164919082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.753||||0.0372|TWO_SIDED|95.0|0.5|15.0||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||15|0.5|0.0372
82601735|NCT00428597|164919083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1463||||0.6939|TWO_SIDED|95.0|-4.6|6.9||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||6.9|-4.6|0.6939
82601736|NCT00428597|164919084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.5128||||0.3711|TWO_SIDED|95.0|-11.2|4.2||From repeated measures mixed-effects with intercept term, treatment, time from first dose, treatment-by-time interaction and baseline score (intercept and time from dose as random effects). No p-value adjustments were made for multiple comparisons.|Repeated Measures Mixed-Effects Model||Estimated mean difference with 95% CI and p-value were obtained from the repeated measures mixed-effects model using data from Cycle 2 through Cycle 10.|Cycle 2 through Cycle 10||4.2|-11.2|0.3711
82601737|NCT01116544|164919112|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005|TWO_SIDED|||||A priori threshold = 0.05|Wilcoxon (Mann-Whitney)|||||||<0.005
82601738|NCT01116544|164919113|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power analysis called for sample sizes of 32 participants in each treatment group. The study was close before reaching this number of participants.|||||<|0.001||||||Hypothesis: significant increase in score (post-tx - pre-tx) for both groups|ANCOVA|FMA scores adjusted for baseline differences.||||||<0.001
82601739|NCT01116544|164919114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED|||||Across both groups, whether score increased following completion of intervention|ANCOVA|||||||0.001
82601740|NCT01116544|164919115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||||||Across both treatment groups|ANCOVA|||||||0.001
82601741|NCT01116544|164919116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Data combined between 2 treatment groups||||0.001
82601742|NCT01116544|164919117|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||Both treatment groups combined||||>0.05
82601743|NCT02022826|164919174|OTHER||percentage of agreement|76.0||||0.0052|TWO_SIDED|95.0|69.0|83.0|||McNemar|||||83|69|0.0052
82601744|NCT02022826|164919175|OTHER||precentage of agreement|92.0||||1|TWO_SIDED|95.0|87.0|96.0|||McNemar|||||96|87|1.00
82601745|NCT02065453|164919197|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The data will be analyzed using linear regression, Kolmogorov-Smirnov test, and chi-square analysis.||||<0.001
82601746|NCT05195528|164919236|SUPERIORITY||Difference in least square mean|17.1|||<|0.0001|TWO_SIDED|95.0|11.81|22.45||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||22.45|11.81|<0.0001
82655733|NCT00406848|165027467|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||p-value is for Retardation subscale change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.123
82601747|NCT05195528|164919236|SUPERIORITY||Least square mean difference|16.7|||<|0.0001|TWO_SIDED|95.0|11.36|22.04||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||22.04|11.36|<0.0001
82601748|NCT05195528|164919237|SUPERIORITY||Least square mean difference|15.8|||<|0.0001|TWO_SIDED|95.0|9.93|21.6||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||21.60|9.93|<0.0001
82601749|NCT05195528|164919237|SUPERIORITY||Least square mean difference|13.7|||<|0.0001|TWO_SIDED|95.0|7.84|19.54||P-values were obtained from the general linear model with treatment group as factor and severity and frequency of heartburn at baseline as covariates.|General linear model|||||19.54|7.84|<0.0001
82601750|NCT01552902|164919238|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-3.4|||=|0.0013|TWO_SIDED|95.0|-5.4|-1.3|||Mixed Models Analysis|||The least squares mean (LSM), the difference in LSM and its 95% confidence interval (CI), and the p-value were from a mixed effects model for repeated measures that included treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on Restricted maximum likelihood (REML) method of estimation and utilized an unstructured covariance.||-1.3|-5.4|= 0.0013
82655734|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||p-value is for Severity of Worst Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.034
82601751|NCT01552902|164919238|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-8.5|||<|0.0001|TWO_SIDED|95.0|-11.0|-6.0|||Mixed Models Analysis|||The LSM, the difference in LSM and its 95% CI, and the p-value were from a mixed effects model for repeated measures that included treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on REML method of estimation and utilized an unstructured covariance.||-6|-11|< 0.0001
82601752|NCT01552902|164919238|SUPERIORITY_OR_OTHER_LEGACY||Difference in LSM|-5.1|||<|0.0001|TWO_SIDED|95.0|-7.6|-2.6|||Mixed Models Analysis|||The LSM, the difference in LSM and its 95% CI, and the p-value were from a mixed effects model for repeated measures that includes treatment group, visit, interaction of the treatment group with the visit as factors, baseline score as a covariate, and an adjustment for the interaction of the baseline score with the visit. The model was based on REML method of estimation and utilized an unstructured covariance.||-2.6|-7.6|< 0.0001
82601753|NCT02487108|164919252|OTHER||LS Mean Difference|38.9|||<|0.001|TWO_SIDED|95.0|19.931|57.855|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||57.855|19.931|<0.001
82601754|NCT02487108|164919252|OTHER||LS Mean Difference|44.0|||<|0.001|TWO_SIDED|95.0|25.122|62.881|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||62.881|25.122|<0.001
82601755|NCT02487108|164919252|OTHER||LS Mean Difference|53.4|||<|0.001|TWO_SIDED|95.0|34.589|72.282|||ANCOVA|||Analysis was performed using ANCOVA with treatment and center as factors and the baseline pain intensity score as a covariate.||72.282|34.589|<0.001
82601756|NCT03653390|164919301|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 6 months.||||||<0.01
82601757|NCT03653390|164919301|SUPERIORITY||Mean Difference (Net)|-1.24||||0.11|TWO_SIDED|95.0|-2.71|0.22|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Wellness Education - EnhanceWellness for Disability|||0.22|-2.71|0.11
82601758|NCT03653390|164919301|SUPERIORITY||Mean Difference (Net)|-2.4|||<|0.01|TWO_SIDED|95.0|-3.85|-0.95|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Control - EnhanceWellness for Disability|||-0.95|-3.85|<0.01
82601759|NCT03653390|164919301|SUPERIORITY||Mean Difference (Net)|-1.16||||0.16|TWO_SIDED|95.0|-2.64|0.32|||Tukey's HSD test|This test inherently adjusts for multiple comparisons.|Difference is calculated as Control - Wellness Education|||0.32|-2.64|0.16
82601760|NCT03653390|164919302|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 6 months.||||||<0.01
82601761|NCT03653390|164919302|SUPERIORITY||Mean Difference (Net)|-2.18||||0.018|TWO_SIDED|95.0|-4.05|-0.3||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||-0.30|-4.05|0.018
82601762|NCT03653390|164919302|SUPERIORITY||Mean Difference (Net)|-2.26||||0.012|TWO_SIDED|95.0|-4.12|-0.41||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||-0.41|-4.12|0.012
82492199|NCT01332500|164677658|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plan costs|paired t-test 2-sided|||||||<0.001
82601763|NCT03653390|164919302|SUPERIORITY||Mean Difference (Net)|-0.08||||0.99|TWO_SIDED|95.0|-1.98|1.81||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||1.81|-1.98|0.99
82601764|NCT03653390|164919303|SUPERIORITY|||||||0.382|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.382
82601765|NCT03653390|164919304|SUPERIORITY|||||||0.29|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.29
82601766|NCT03653390|164919305|SUPERIORITY|||||||0.057|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 3 months.||||||0.057
82601767|NCT03653390|164919306|SUPERIORITY|||||||0.21|||||||ANOVA|The ANOVA was conducted on the change in number of trips from baseline to 12 months.||||||0.21
82601768|NCT03653390|164919307|SUPERIORITY|||||||0.79|||||||ANOVA|The ANOVA was conducted on the change in radius of gyration from baseline to 12 months.||||||0.79
82601769|NCT03653390|164919308|SUPERIORITY|||||||0.26|||||||ANOVA|The ANOVA was conducted on the change in number of trips from baseline to 12 months.||||||0.26
82601770|NCT03653390|164919309|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change in minutes from baseline to 12 months.||||||<0.01
82601771|NCT03653390|164919309|SUPERIORITY||Mean Difference (Net)|-28.7||||0.57|TWO_SIDED|95.0|-95.7|38.4||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||38.4|-95.7|0.57
82601772|NCT03653390|164919309|SUPERIORITY||Mean Difference (Net)|66.6||||0.048|TWO_SIDED|95.0|0.56|132.6||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||132.6|0.56|0.048
82601773|NCT03653390|164919309|SUPERIORITY||Mean Difference (Net)|95.3|||<|0.01|TWO_SIDED|95.0|31.8|158.7||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||158.7|31.8|<0.01
82601774|NCT03653390|164919310|SUPERIORITY||||||<|0.01|||||||ANOVA|The ANOVA was conducted on the change scores from baseline to 12 months.||||||<0.01
82601775|NCT03653390|164919310|SUPERIORITY||Mean Difference (Net)|-1.55||||0.028|TWO_SIDED|95.0|-2.97|-0.13||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Wellness Education - EnhanceWellness for Disability|||-0.13|-2.97|0.028
82601776|NCT03653390|164919310|SUPERIORITY||Mean Difference (Net)|-2.15|||<|0.01|TWO_SIDED|95.0|-3.55|-0.75|||Tukey's HSD test||Difference is calculated as Control - EnhanceWellness for Disability|||-0.75|-3.55|<0.01
82601777|NCT03653390|164919310|SUPERIORITY||Mean Difference (Net)|-0.6||||0.59|TWO_SIDED|95.0|-2.03|0.83||This test inherently adjusts for multiple comparisons.|Tukey's HSD test||Difference is calculated as Control - Wellness Education|||0.83|-2.03|0.59
82601778|NCT05099640|164919313|OTHER||LS Mean Difference|-395.87|STANDARD_ERROR_OF_MEAN|33.848|<|0.0001|TWO_SIDED|95.0|-463.07|-328.66|||Mixed Models Analysis|||||-328.66|-463.07|<0.0001
82601779|NCT05099640|164919314|OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|4.973|<|0.0001|TWO_SIDED|95.0|-74.09|-54.35|||Mixed Models Analysis|||||-54.35|-74.09|<0.0001
82601780|NCT05099640|164919315|OTHER||Odds Ratio (OR)|30.33|||<|0.0001|TWO_SIDED|95.0|5.3|294.24|||Chi-squared|||||294.24|5.30|<0.0001
82601781|NCT05099640|164919316|OTHER||Odds Ratio (OR)|51.54|||<|0.0001|TWO_SIDED|95.0|12.28|245.34|||Chi-squared|||||245.34|12.28|<0.0001
82601782|NCT05099640|164919317|OTHER||LS Mean Difference|-289.89|STANDARD_ERROR_OF_MEAN|33.44|<|0.0001|TWO_SIDED|95.0|-356.29|-223.5|||Mixed Models Analysis|||Weeks 1 and 2: Sepiapterin vs. Placebo||-223.50|-356.29|<0.0001
82601783|NCT05099640|164919317|OTHER||LS Mean Difference|-375.47|STANDARD_ERROR_OF_MEAN|30.424|<|0.0001|TWO_SIDED|95.0|-435.88|-315.06|||Mixed Models Analysis|||Weeks 3 and 4: Sepiapterin vs. Placebo||-315.06|-435.88|<0.0001
82601784|NCT05099640|164919317|OTHER||LS Mean Difference|-395.87|STANDARD_ERROR_OF_MEAN|33.848|<|0.0001|TWO_SIDED|95.0|-463.07|-328.66|||Mixed Models Analysis|||Weeks 5 and 6: Sepiapterin vs. Placebo||-328.66|-463.07|<0.0001
82655735|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.1||95.0||||p-value is for Severity of Worst Pain - Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.100
82601785|NCT05099640|164919318|OTHER||LS Mean Difference|-42.52|STANDARD_ERROR_OF_MEAN|6.008|<|0.0001|TWO_SIDED|95.0|-54.45|-30.59|||Mixed Models Analysis|||Weeks 1 and 2: Sepiapterin vs. Placebo||-30.59|-54.45|<0.0001
82655736|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value is for Severity of Least Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.009
82601786|NCT05099640|164919318|OTHER||LS Mean Difference|-61.03|STANDARD_ERROR_OF_MEAN|4.531|<|0.0001|TWO_SIDED|95.0|-70.02|-52.03|||Mixed Models Analysis|||Weeks 3 and 4: Sepiapterin vs. Placebo||-52.03|-70.02|<0.0001
82601787|NCT05099640|164919318|OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|4.973|<|0.0001|TWO_SIDED|95.0|-74.09|-54.35|||Mixed Models Analysis|||Weeks 5 and 6: Sepiapterin vs. Placebo||-54.35|-74.09|<0.0001
82601788|NCT05099640|164919323|OTHER||LS Mean Difference|-492.23|STANDARD_ERROR_OF_MEAN|55.588|<|0.0001|TWO_SIDED|95.0|-614.59|-369.87|||Mixed Models Analysis|||||-369.87|-614.59|<0.0001
82601789|NCT05099640|164919324|OTHER||LS Mean Difference|-74.73|STANDARD_ERROR_OF_MEAN|10.436|<|0.0001|TWO_SIDED|95.0|-97.72|-51.74|||Mixed Models Analysis|||||-51.74|-97.72|<0.0001
82601790|NCT01552681|164919327|SUPERIORITY_OR_OTHER|||||||0.33|TWO_SIDED|||||P-value is testing for treatment effect using an analysis of covariance with adjustments for screening stimulated salivary flow.|ANCOVA|||Missing Week 24 assessments were imputed by carrying forward the last observed post-baseline value.||||0.33
82601791|NCT01360645|164919428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.12||||0.0001|TWO_SIDED|95.0|-4.7|-1.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||The primary analysis was performed on the Efficacy Sample by fitting a Mixed Model Repeated Measures (MMRM) analysis with an unstructured variance covariance structure in which the change from the end of Phase A (Week 8) in MADRS Total Score (at Weeks 9 to 14) was the dependent variable. The model included fixed class effect terms for treatment, trial site, visit week, and an interaction term of treatment by visit week.||-1.54|-4.70|0.0001
82601792|NCT01360645|164919429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.21||||0.0002|TWO_SIDED|95.0|-4.87|-1.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-1.54|-4.87|0.0002
82601793|NCT01360645|164919430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.0372|TWO_SIDED|95.0|-0.86|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-0.03|-0.86|0.0372
82601794|NCT01360645|164919431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0349|TWO_SIDED|95.0|-0.88|-0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||||-0.03|-0.88|0.0349
82601795|NCT01360645|164919432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.29||||0.008|TWO_SIDED|95.0|-2.25|-0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.34|-2.25|0.0080
82601796|NCT01360645|164919432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.72||||0.0045|TWO_SIDED|95.0|-2.91|-0.54|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.54|-2.91|0.0045
82601797|NCT01360645|164919432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63||||0.0001|TWO_SIDED|95.0|-3.96|-1.3|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-1.30|-3.96|0.0001
82601798|NCT01360645|164919432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.0004|TWO_SIDED|95.0|-4.01|-1.18|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-1.18|-4.01|0.0004
82601799|NCT01360645|164919432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.19||||0|TWO_SIDED|95.0|-4.68|-1.7|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-1.70|-4.68|0.0000
82601800|NCT01360645|164919433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.31||||0.0086|TWO_SIDED|95.0|-2.28|-0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.34|-2.28|0.0086
82601801|NCT01360645|164919433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52||||0.0149|TWO_SIDED|95.0|-2.74|-0.3|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.30|-2.74|0.0149
82601802|NCT01360645|164919433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.42||||0.0006|TWO_SIDED|95.0|-3.78|-1.05|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-1.05|-3.78|0.0006
82601803|NCT01360645|164919433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.52||||0.0009|TWO_SIDED|95.0|-4.0|-1.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-1.04|-4.00|0.0009
82601804|NCT01360645|164919433|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.28||||0|TWO_SIDED|95.0|-4.84|-3.28|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-3.28|-4.84|0.0000
82601805|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.0022|TWO_SIDED|95.0|-0.38|-0.08|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from Cochran-Mantel-Haenszel (CMH) row mean score differ test controlling for study center.||Statistical analysis for Week 9||-0.08|-0.38|0.0022
82601806|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.0115|TWO_SIDED|95.0|-0.38|-0.05|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 10||-0.05|-0.38|0.0115
82601807|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.0255|TWO_SIDED|95.0|-0.41|-0.03|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 11||-0.03|-0.41|0.0255
82601808|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0005|TWO_SIDED|95.0|-0.57|-0.16|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 12||-0.16|-0.57|0.0005
82601809|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0001|TWO_SIDED|95.0|-0.62|-0.2|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 13||-0.20|-0.62|0.0001
82601810|NCT01360645|164919434|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0005|TWO_SIDED|95.0|-0.6|-0.17|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 14||-0.17|-0.60|0.0005
82601811|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.001|TWO_SIDED|95.0|-0.4|-0.1|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 9||-0.10|-0.40|0.0010
82601812|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.029|TWO_SIDED|95.0|-0.37|-0.02|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 10||-0.02|-0.37|0.0290
82601813|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2||||0.0422|TWO_SIDED|95.0|-0.4|-0.01|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 11||-0.01|-0.40|0.0422
82601814|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.0003|TWO_SIDED|95.0|-0.61|-0.18|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 12||-0.18|-0.61|0.0003
82601815|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0002|TWO_SIDED|95.0|-0.64|-0.2|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 13||-0.20|-0.64|0.0002
82601816|NCT01360645|164919435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.0003|TWO_SIDED|95.0|-0.65|-0.19|||Cochran-Mantel-Haenszel|P-value and treatment difference (CI) are derived from CMH row mean score differ test controlling for study center.||Statistical analysis for Week 14||-0.19|-0.65|0.0003
82601817|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.0229|TWO_SIDED|95.0|-0.25|-0.02|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.02|-0.25|0.0229
82601818|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.0459|TWO_SIDED|95.0|-0.28|0.0|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.00|-0.28|0.0459
82601819|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21||||0.0097|TWO_SIDED|95.0|-0.37|-0.05|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||-0.05|-0.37|0.0097
82601820|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0038|TWO_SIDED|95.0|-0.42|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-0.08|-0.42|0.0038
82601821|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0001|TWO_SIDED|95.0|-0.54|-0.18|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-0.18|-0.54|0.0001
82601822|NCT01360645|164919436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0004|TWO_SIDED|95.0|-0.52|-0.15|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14.||-0.15|-0.52|0.0004
82601823|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0109|TWO_SIDED|95.0|-0.27|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.04|-0.27|0.0109
82601824|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.1286|TWO_SIDED|95.0|-0.25|0.03|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||0.03|-0.25|0.1286
82601825|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16||||0.0521|TWO_SIDED|95.0|-0.32|0.0|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.00|-0.32|0.0521
82601826|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.0084|TWO_SIDED|95.0|-0.42|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||-0.06|-0.42|0.0084
82601827|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35||||0.0003|TWO_SIDED|95.0|-0.54|-0.16|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||-0.16|-0.54|0.0003
82492200|NCT01332500|164677658|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||Non-steroidal anti-inflammatory drug health plan costs|paired t-test 2-sided|||||||0.054
82601828|NCT01360645|164919437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34||||0.0006|TWO_SIDED|95.0|-0.53|-0.15|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||-0.15|-0.53|0.0006
82601829|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.0139|TWO_SIDED|95.0|-2.82|-0.32|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.32|-2.82|0.0139
82601830|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53||||0.0436|TWO_SIDED|95.0|-3.01|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||-0.04|-3.01|0.0436
82601831|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.1903|TWO_SIDED|95.0|-2.75|0.55|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.55|-2.75|0.1903
82601832|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.47||||0.0951|TWO_SIDED|95.0|-3.21|0.26|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||0.26|-3.21|0.0951
82601833|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.75||||0.0626|TWO_SIDED|95.0|-3.59|0.09|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||0.09|-3.59|0.0626
82601834|NCT01360645|164919438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.96||||0.0435|TWO_SIDED|95.0|-3.87|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||-0.06|-3.87|0.0435
82601835|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71||||0.0069|TWO_SIDED|95.0|-2.95|-0.47|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 9||-0.47|-2.95|0.0069
82492201|NCT01332500|164677658|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Opioid health plan costs|paired t-test 2-sided|||||||0.590
82492202|NCT01332500|164677658|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Ergot health plan costs|paired t-test 2-sided|||||||0.382
82492203|NCT01332500|164677658|SUPERIORITY_OR_OTHER|||||||0.343||95.0||||Other health plan costs|paired t-test 2-sided|||||||0.343
82492204|NCT01332500|164677658|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Total health plan costs|paired t-test 2-sided|||||||<0.001
82601836|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.16||||0.1322|TWO_SIDED|95.0|-2.68|0.35|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 10||0.35|-2.68|0.1322
82601837|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.4055|TWO_SIDED|95.0|-2.41|0.98|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 11||0.98|-2.41|0.4055
82601838|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.26||||0.1715|TWO_SIDED|95.0|-3.08|0.55|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 12||0.55|-3.08|0.1715
82601839|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.1424|TWO_SIDED|95.0|-3.33|0.48|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 13||0.48|-3.33|0.1424
82601840|NCT01360645|164919439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.54||||0.127|TWO_SIDED|95.0|-3.52|0.44|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Week 14||0.44|-3.52|0.1270
82601841|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.3079|TWO_SIDED|95.0|-0.81|0.26|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 11||0.26|-0.81|0.3079
82601842|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.4771|TWO_SIDED|95.0|-0.73|0.34|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Work/School: Week 14||0.34|-0.73|0.4771
82655737|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.126||95.0||||p-value is for Severity of Least Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.126
82655738|NCT00406848|165027468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Severity of Average Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
82601843|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0195|TWO_SIDED|95.0|-0.92|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Social life: Week 11||-0.08|-0.92|0.0195
82655739|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for Severity of Average Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.013
82492205|NCT01332500|164677659|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Triptan health plus copay costs|paired t-test 2-sided|||||||<0.001
82492206|NCT01332500|164677659|SUPERIORITY_OR_OTHER|||||||0.146||95.0||||Non-steroidal anti-inflammatory drug health plus copay costs|paired t-test 2-sided|||||||0.146
82601844|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.0323|TWO_SIDED|95.0|-0.96|-0.04|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Social life: Week 14||-0.04|-0.96|0.0323
82601845|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63||||0.0058|TWO_SIDED|95.0|-1.07|-0.18|||Cochran-Mantel-Haenszel|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Family life: Week 11||-0.18|-1.07|0.0058
82601846|NCT01360645|164919440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.0129|TWO_SIDED|95.0|-1.07|-0.13|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||For Item: Family life: Week 14||-0.13|-1.07|0.0129
82601847|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.5151|TWO_SIDED|95.0|-0.71|0.36|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Work/School Week 11||0.36|-0.71|0.5151
82601848|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.608|TWO_SIDED|95.0|-0.7|0.41|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Work/School Week 14||0.41|-0.70|0.6080
82601849|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0267|TWO_SIDED|95.0|-0.92|-0.06|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Social life-Week 11||-0.06|-0.92|0.0267
82655740|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value is for Severity of Pain Right Now Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.016
82655741|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.058||95.0||||p-value is for Severity of Pain Right Now Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.058
82655742|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||p-value is for Interference with General Activity Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.011
82492207|NCT01332500|164677659|SUPERIORITY_OR_OTHER|||||||0.826||95.0||||Opioid health plus copay costs|paired t-test 2-sided|||||||0.826
82492208|NCT01332500|164677659|SUPERIORITY_OR_OTHER|||||||0.354||95.0||||Ergot health plus copay costs|paired t-test 2-sided|||||||0.354
82492209|NCT01332500|164677659|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||Other health plus copay costs|paired t-test 2-sided|||||||0.514
82655743|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||p-value is for Interference with General Activity Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.060
82601850|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0224|TWO_SIDED|95.0|-1.01|-0.08|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Social life-Week 14||-0.08|-1.01|0.0224
82601851|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0146|TWO_SIDED|95.0|-1.01|-0.11|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Family life-Week 11||-0.11|-1.01|0.0146
82601852|NCT01360645|164919441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.0113|TWO_SIDED|95.0|-1.09|-0.14|||Mixed Models Analysis|MMRM method was used with trial site; treatment group-visit; Baseline-visit interaction as an unstructured covariate.||Statistical analysis for Item: Family life-Week 14||-0.14|-1.09|0.0113
82601853|NCT01360645|164919442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.34||||0.0001|TWO_SIDED|95.0|-3.47|-1.22|||ANCOVA|||ANCOVA\_Last observation carry forward (LOCF) model with treatment and trial site as main effects, and baseline (end of Phase A \[Week 8\]) value as a covariate was used.||-1.22|-3.47|0.0001
82601854|NCT01360645|164919443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.29||||0.0002|TWO_SIDED|95.0|-3.47|-1.12|||ANCOVA|||||-1.12|-3.47|0.0002
82601855|NCT01360645|164919444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||0.0219|TWO_SIDED|95.0|-2.17|-0.17|||ANCOVA|||ANCOVA\_LOCF model with treatment and trial site as main effects, and baseline (end of Phase A \[Week 8\]) value as a covariate was used.||-0.17|-2.17|0.0219
82601856|NCT01360645|164919445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.0376|TWO_SIDED|95.0|-2.13|-0.06|||ANCOVA|||||-0.06|-2.13|0.0376
82601857|NCT01360645|164919446|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.63||||0.0176|TWO_SIDED|95.0|1.09|2.44|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.44|1.09|0.0176
82601858|NCT01360645|164919447|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.54||||0.0429|TWO_SIDED|95.0|1.01|2.35|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.35|1.01|0.0429
82601859|NCT01360645|164919448|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.68||||0.0586|TWO_SIDED|95.0|0.98|2.86|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.86|0.98|0.0586
82601860|NCT01360645|164919449|SUPERIORITY_OR_OTHER||Ratio of Remission Rate|1.67||||0.0671|TWO_SIDED|95.0|0.97|2.9|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.90|0.97|0.0671
82601861|NCT01360645|164919450|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.61||||0.0003|TWO_SIDED|95.0|1.23|2.1|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.10|1.23|0.0003
82601862|NCT01360645|164919451|SUPERIORITY_OR_OTHER||Ratio of Response Rate|1.69||||0.0002|TWO_SIDED|95.0|1.27|2.27|||Cochran-Mantel-Haenszel|CHM general association test controlling for trial site.||||2.27|1.27|0.0002
82601863|NCT01014585|164919452|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44||||0.0004|TWO_SIDED|95.0|0.27|0.71|||Log Rank|||||0.71|0.27|0.0004
82601864|NCT01014585|164919452|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|18.0||||||95.0||||||||||||
82601865|NCT01014585|164919452|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|45.0||||||95.0||||||||||||
82601866|NCT01014585|164919453|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.0002|TWO_SIDED|95.0|0.2|0.63|||Log Rank|||||0.63|0.20|0.0002
82601867|NCT01014585|164919453|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|22.0||||||95.0||||||||||||
82601868|NCT01014585|164919454|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8||||0.4104|TWO_SIDED|95.0|0.46|1.38|||Log Rank|||||1.38|0.46|0.4104
82601869|NCT01014585|164919454|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|18.0||||||95.0||||||||||||
82601870|NCT01014585|164919454|SUPERIORITY_OR_OTHER||Days until LTR at the 25th percentile|30.0||||||95.0||||||||||||
82601871|NCT02211261|164919481|OTHER||Percentage of Test relative to Reference|17.66|||||TWO_SIDED|90.0|8.44|36.95|||||PF-06293620 0.3 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||36.95|8.44|
82601872|NCT02211261|164919481|OTHER||Percentage of Test relative to Reference|32.73|||||TWO_SIDED|90.0|21.64|49.51|||||PF-06293620 1.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||49.51|21.64|
82601873|NCT02211261|164919481|OTHER||Percentage of Test relative to Reference|35.02|||||TWO_SIDED|90.0|23.6|51.95|||||PF-06293620 3.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||51.95|23.60|
82601874|NCT02211261|164919481|OTHER||Percentage of Test relative to Reference|53.18|||||TWO_SIDED|90.0|36.36|77.78|||||PF-06293620 6.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||77.78|36.36|
82601875|NCT02211261|164919483|OTHER||Percentage of Test relative to Reference|7.32|||||TWO_SIDED|90.0|4.7|11.4|||||PF-06293620 0.3 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||11.40|4.70|
82601876|NCT02211261|164919483|OTHER||Percentage of Test relative to Reference|32.19|||||TWO_SIDED|90.0|20.67|50.12|||||PF-06293620 1.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||50.12|20.67|
82601877|NCT02211261|164919483|OTHER||Percentage of Test relative to Reference|34.43|||||TWO_SIDED|90.0|22.57|52.52|||||PF-06293620 3.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||52.52|22.57|
82601878|NCT02211261|164919483|OTHER||Percentage of Test relative to Reference|51.47|||||TWO_SIDED|90.0|34.26|77.31|||||PF-06293620 6.0 mg/kg SC (SAD Cohorts) is Test, PF-06293620 1.0 mg/kg IV (SAD Cohorts) is Reference.|||77.31|34.26|
82601879|NCT00330187|164919506|SUPERIORITY||Odds Ratio (OR)|3.6||||0.07|TWO_SIDED|95.0|0.9|14.4|||Regression, Logistic|||||14.4|0.9|0.07
82601880|NCT01225562|164919512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.008|TWO_SIDED|95.0|0.75|0.96|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||0.96|0.75|0.0080
82601881|NCT01225562|164919512|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0043|TWO_SIDED|95.0|0.74|0.95|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||0.95|0.74|0.0043
82601882|NCT01225562|164919513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.1547|TWO_SIDED|95.0|0.71|1.06|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||1.06|0.71|0.1547
82601883|NCT01225562|164919513|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0676|TWO_SIDED|95.0|0.68|1.01|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||1.01|0.68|0.0676
82601884|NCT01225562|164919514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9851|TWO_SIDED|95.0|0.86|1.16|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||1.16|0.86|0.9851
82601885|NCT01225562|164919514|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.135|TWO_SIDED|95.0|0.76|1.04|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||1.04|0.76|0.1350
82601886|NCT01225562|164919515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.69|||<|0.0001|TWO_SIDED|95.0|1.96|3.7|||Regression, Cox||The hazard ratio shows ticagrelor 90 mg hazard / placebo hazard|||3.70|1.96|<0.0001
82601887|NCT01225562|164919515|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.32|||<|0.0001|TWO_SIDED|95.0|1.68|3.21|||Regression, Cox||The hazard ratio shows ticagrelor 60 mg hazard / placebo hazard|||3.21|1.68|<0.0001
82601888|NCT01649947|164919524|OTHER||Mean Difference (Net)|56.0||||0.01|TWO_SIDED|95.0|8.9|72.0|||t-test, 2 sided|||The analysis is comprised of evaluable patients who had measureable disease and received at least one cycle of therapy and had disease evaluated.||72|8.9|0.01
82601889|NCT01162421|164919534|SUPERIORITY_OR_OTHER||Difference in percentage|-1.3||||0.907|TWO_SIDED|95.0|-23.4|20.8|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||||20.8|-23.4|0.907
82601890|NCT01162421|164919535|SUPERIORITY_OR_OTHER||Difference in percentage|3.2||||0.762|TWO_SIDED|95.0|-17.7|24.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||24.1|-17.7|0.762
82601891|NCT01162421|164919535|SUPERIORITY_OR_OTHER||Difference in percentage|-5.3||||0.65|TWO_SIDED|95.0|-28.1|17.5|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||17.5|-28.1|0.650
82655744|NCT00406848|165027468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Mood Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
82492210|NCT01332500|164677659|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Total health plus copay costs|paired t-test 2-sided|||||||0.001
82601892|NCT01162421|164919536|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.382||0.027|TWO_SIDED|95.0|-1.62|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P= 0.05.||Month 6||-0.10|-1.62|0.027
82601893|NCT01162421|164919536|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.46|STANDARD_ERROR_OF_MEAN|0.667||0.033|TWO_SIDED|95.0|-2.79|-0.12||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P= 0.05.||Month 12||-0.12|-2.79|0.033
82601894|NCT01162421|164919536|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.22|STANDARD_ERROR_OF_MEAN|1.403||0.12|TWO_SIDED|95.0|-5.05|0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and baseline value as the covariate.|ANCOVA|||Month 24||0.60|-5.05|0.120
82601895|NCT01162421|164919537|SUPERIORITY_OR_OTHER||Difference in percentage|-11.7||||0.095|TWO_SIDED|95.0|-27.0|1.6||P-value is based on two sided Fisher's exact test.|Fisher Exact||Confidence interval is based on Wilson confidence limits.|||1.6|-27.0|0.095
82601896|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|12.1||||0.281|TWO_SIDED|95.0|-9.79|33.97|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||33.97|-9.79|0.281
82601897|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|27.0||||0.021|TWO_SIDED|95.0|4.98|48.93||The a priori threshold for statistical significance is P=0.05.|Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||48.93|4.98|0.021
82601898|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|6.7||||0.552|TWO_SIDED|95.0|-15.29|28.63|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||28.63|-15.29|0.552
82601899|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|-12.2||||0.281|TWO_SIDED|95.0|-34.04|9.72|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||9.72|-34.04|0.281
82492211|NCT01687998|164677660|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.006||||0.9054|TWO_SIDED|95.0|0.911|1.111|||Regression, Cox|||Primary Endpoint: Time to First Occurrence of the Composite Primary Endpoint of Cardiovascular (CV) Death, Myocardial Infarction (MI), Stroke, Coronary Revascularization, or Hospitalization for Unstable Angina (UA)||1.111|0.911|0.9054
82601900|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|-14.4||||0.209|TWO_SIDED|95.0|-36.64|7.78|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||7.78|-36.64|0.209
82655745|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for Interference with Mood Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.002
82601901|NCT01162421|164919538|SUPERIORITY_OR_OTHER||Difference in percentage|-19.6||||0.091|TWO_SIDED|95.0|-41.74|2.62|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||2.62|-41.74|0.091
82601902|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|15.6||||0.148|TWO_SIDED|95.0|-5.05|36.26|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||36.26|-5.05|0.148
82601903|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|20.7||||0.06|TWO_SIDED|95.0|-0.14|41.61|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||41.61|-0.14|0.060
82655746|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Interference with Walking Ability Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.019
82492212|NCT01687998|164677661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-37.11|||<|0.0001|TWO_SIDED|95.0|-38.15|-36.08|||ANOVA|||LDL-C||-36.08|-38.15|<0.0001
82655747|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||p-value is for Interference with Walking Ability Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.040
82655748|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Interference with Normal Work Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.003
82655749|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||p-value is for Interference with Normal Work Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.014
82655750|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for Interference with Relations with Other People Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.010
82655751|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||p-value is for Interference with Relations with Other People Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.010
82655752|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||p-value is for Interference with Sleep Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.015
82655753|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Interference with Sleep Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.005
82655754|NCT00406848|165027468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Enjoyment of Life Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
82655755|NCT00406848|165027468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Interference with Enjoyment of Life Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
82655756|NCT00406848|165027468|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Average Interference Score Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||<0.001
82655757|NCT00406848|165027468|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for Average Interference Score Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.001
82655758|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||p-value is for Overall Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.005
82655759|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||p-value is for Overall Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.204
82655760|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.078||95.0||||p-value is for Headaches Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.078
82655761|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.147||95.0||||p-value is for Headaches Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.147
82655762|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value is for Back Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.007
82655763|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||p-value is for Back Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.013
82655764|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||p-value is for Shoulder Pain Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.124
82655765|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.231||95.0||||p-value is for Shoulder Pain Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.231
82655766|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||p-value is for Interference with Daily Activities Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.006
82655767|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Interference with Daily Activities Week 25 main effect of treatment.|Mixed Models Analysis|Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit||||||0.019
82492213|NCT01687998|164677661|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|131.55|||<|0.0001|TWO_SIDED|95.0|130.01|133.09|||ANOVA|||HDL-C||133.09|130.01|<0.0001
82655768|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||p-value is for Time in Pain While Awake Week 13 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.002
82655769|NCT00406848|165027469|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||p-value is for Time in Pain While Awake Week 25 main effect of treatment.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.036
82655770|NCT00406848|165027470|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||p-value is for PGI-I at Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: PGI-I = Treatment + Pooled Investigator + Visit + Treatment\* Visit||||||0.214
82655771|NCT00406848|165027470|SUPERIORITY_OR_OTHER|||||||0.063||95.0||||p-value is for PGI-I at Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: PGI-I = Treatment + Pooled Investigator + Visit + Treatment\* Visit||||||.063
82655772|NCT00406848|165027471|SUPERIORITY_OR_OTHER|||||||0.162||95.0||||p-value is for change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.162
82655773|NCT00406848|165027471|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||p-value is for change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change =Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||.009
82655774|NCT00406848|165027472|SUPERIORITY_OR_OTHER|||||||0.555||95.0||||p-value is for change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.555
82655775|NCT00406848|165027472|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||p-value is for change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||.785
82655776|NCT00406848|165027473|SUPERIORITY_OR_OTHER|||||||0.255||95.0||||p-value is for change from baseline (Week 1) to Week 13.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.255
82655777|NCT00406848|165027473|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||p-value is for change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change = Treatment + Pooled Investigator + Baseline||||||0.038
82655778|NCT00406848|165027474|SUPERIORITY_OR_OTHER|||||||0.706||95.0||||p-values for Week 13 remission (HAMD17 ≤ 7).|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.706
82655779|NCT00406848|165027474|SUPERIORITY_OR_OTHER|||||||0.694||95.0||||p-values for Week 25 Remission HAMD17 ≤ 7|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.694
82655780|NCT00406848|165027474|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||p-values for Week 13 Remission - HAMD17 ≤ 10|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.864
82655781|NCT00406848|165027474|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||p-values for Week 25 Remission - HAMD17 ≤ 10|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Remission = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.817
82655782|NCT00406848|165027475|SUPERIORITY_OR_OTHER|||||||0.664||95.0||||p-value is for probability of response at Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Response = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.664
82655783|NCT00406848|165027475|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||p-value is for probability of response at Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model:Response = Treatment + Pooled Investigator + Visit + Baseline + Treatment\*Visit.||||||0.310
82655784|NCT00406848|165027477|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM)analysis model: Onset = Treatment + Visit + Baseline + Treatment\*Visit.||||||0.036
82655785|NCT00406848|165027478|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||p-value is for Systolic BP change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.637
82655786|NCT00406848|165027478|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||p-value is for Diastolic BP change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.001
82655787|NCT00406848|165027478|SUPERIORITY_OR_OTHER|||||||0.452||95.0||||p-value is for Systolic BP change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.452
82655788|NCT00406848|165027478|SUPERIORITY_OR_OTHER|||||||0.193||95.0||||p-value is for Diastolic BP change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.193
82655789|NCT00406848|165027479|SUPERIORITY_OR_OTHER|||||||0.121||95.0||||p-value is for change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.121
82655790|NCT00406848|165027479|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||p-value is for change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.038
82655791|NCT00406848|165027480|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Weight change from baseline (Week 1) to Week 13.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.003
82655792|NCT00406848|165027480|SUPERIORITY_OR_OTHER|||||||0.127||95.0||||p-value is for Weight change from baseline (Week 1) to Week 25.|Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) analysis model: Change = Treatment + Pooled Investigator + Visit + Treatment\* Visit + Baseline + Baseline\*Visit.||||||0.127
82655793|NCT00406848|165027481|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||p-value is for Diastolic Blood Pressure.|Fisher Exact|||||||0.135
82655794|NCT00406848|165027481|SUPERIORITY_OR_OTHER|||||||1||95.0||||p-value is for Pulse.|Fisher Exact|||Pulse||||1.00
82655795|NCT00406848|165027481|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||p-value is for Systolic Blood Pressure|Fisher Exact|||||||0.107
82655796|NCT00406848|165027481|SUPERIORITY_OR_OTHER|||||||0.235||95.0||||p-value is for Weight Change (gain)|Fisher Exact|||||||0.235
82601904|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|8.7||||0.451|TWO_SIDED|95.0|-13.85|31.29|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||31.29|-13.85|0.451
82601905|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|9.3||||0.413|TWO_SIDED|95.0|-12.82|31.43|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||31.43|-12.82|0.413
82601906|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|-7.3||||0.528|TWO_SIDED|95.0|-29.74|15.23|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||15.23|-29.74|0.528
82601907|NCT01162421|164919539|SUPERIORITY_OR_OTHER||Difference in percentage|-9.5||||0.399|TWO_SIDED|95.0|-31.61|12.56|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||12.56|-31.61|0.399
82601908|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|12.5||||0.111|TWO_SIDED|95.0|-1.7|27.06|||Fisher Exact|||Month 3||27.06|-1.70|0.111
82655797|NCT00406848|165027481|SUPERIORITY_OR_OTHER|||||||0.813||95.0||||p-value is for Weight Change (loss)|Fisher Exact|||||||0.813
82655798|NCT00406848|165027482|SUPERIORITY_OR_OTHER|||||||0.668||95.0||||p-value is for Sustained Hypertension|Fisher Exact|||||||0.668
82601909|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|19.6||||0.031|TWO_SIDED|95.0|2.74|36.53||The a priori threshold for statistical significance is P=0.05.|Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||36.53|2.74|0.031
82601910|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|2.8||||0.78|TWO_SIDED|95.0|-16.74|22.31|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||22.31|-16.74|0.780
82601911|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|16.5||||0.092|TWO_SIDED|95.0|-2.07|35.04|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||35.04|-2.07|0.092
82601912|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|10.8||||0.29|TWO_SIDED|95.0|-8.86|30.4|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||30.40|-8.86|0.290
82601913|NCT01162421|164919540|SUPERIORITY_OR_OTHER||Difference in percentage|-16.9||||0.116|TWO_SIDED|95.0|-37.86|4.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||4.01|-37.86|0.116
82655799|NCT00406848|165027482|SUPERIORITY_OR_OTHER|||||||0.201||95.0||||p-value is for Orthostatic Hypotension|Fisher Exact|||||||0.201
82655800|NCT00406848|165027484|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||p-value is for Platelet Count change from baseline (Week 1) to Week 13.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.003
82601914|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.9|-1.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 3||-1.2|-5.9|0.004
82601915|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.5|STANDARD_ERROR_OF_MEAN|1.12|<|0.001|TWO_SIDED|95.0|-6.8|-2.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-2.3|-6.8|<0.001
82601916|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|1.16||0.021|TWO_SIDED|95.0|-5.1|-0.4||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||-0.4|-5.1|0.021
82601917|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.96||0.037|TWO_SIDED|95.0|-4.0|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 12||-0.1|-4.0|0.037
82601918|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.58||0.702|TWO_SIDED|95.0|-3.7|2.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||2.5|-3.7|0.702
82601919|NCT01162421|164919541|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.15||0.644|TWO_SIDED|95.0|-2.8|1.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||1.8|-2.8|0.644
82601920|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.89||0.039|TWO_SIDED|95.0|-3.7|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||-0.1|-3.7|0.039
82601921|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.79|<|0.001|TWO_SIDED|95.0|-5.0|-1.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-1.8|-5.0|<0.001
82601922|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.81||0.008|TWO_SIDED|95.0|-3.8|-0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 9||-0.6|-3.8|0.008
82655801|NCT00406848|165027484|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Platelet Count change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||<0.001
82655802|NCT00406848|165027485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Uric Acid change from baseline (Week 1) to Week 13.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||<0.001
82655803|NCT00406848|165027485|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value is for Uric Acid change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||<0.001
82655804|NCT00406848|165027486|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||p-value is for Erythrocyte Count change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.014
82655805|NCT00406848|165027487|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||p-value is for Hemoglobin change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||0.019
82601923|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.71||0.028|TWO_SIDED|95.0|-3.0|-0.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 12||-0.2|-3.0|0.028
82601924|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.94||0.452|TWO_SIDED|95.0|-2.6|1.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||1.2|-2.6|0.452
82601925|NCT01162421|164919542|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.77||0.343|TWO_SIDED|95.0|-2.3|0.8||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||0.8|-2.3|0.343
82601926|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.8|STANDARD_ERROR_OF_MEAN|2.26||0.22|TWO_SIDED|95.0|-7.3|1.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||1.7|-7.3|0.220
82601927|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.2|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-11.0|-3.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-3.3|-11.0|<0.001
82601928|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.7|STANDARD_ERROR_OF_MEAN|1.87||0.05|TWO_SIDED|95.0|-7.5|0.0||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||0.0|-7.5|0.050
82601929|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.95||0.725|TWO_SIDED|95.0|-4.6|3.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||3.2|-4.6|0.725
82601930|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|2.31||0.837|TWO_SIDED|95.0|-5.1|4.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||4.1|-5.1|0.837
82601931|NCT01162421|164919543|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.83||0.661|TWO_SIDED|95.0|-4.5|2.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||2.9|-4.5|0.661
82601932|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.29||0.156|TWO_SIDED|95.0|-4.4|0.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||0.7|-4.4|0.156
82655806|NCT00406848|165027487|SUPERIORITY_OR_OTHER|||||||0.048||95.0||||p-value is for Mean Cell Hemoglobin Concentration change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.048
82655807|NCT00406848|165027488|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||p-value is for Chloride change from baseline (Week 1) to Week 25.|ANOVA|Model: Change = Treatment + Pooled Investigator||||||0.040
82601933|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.08|<|0.001|TWO_SIDED|95.0|-6.1|-1.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-1.9|-6.1|<0.001
82601934|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.19||0.04|TWO_SIDED|95.0|-4.9|-0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 9||-0.1|-4.9|0.040
82601935|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.14||0.492|TWO_SIDED|95.0|-3.1|1.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||1.5|-3.1|0.492
82601936|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.3||0.649|TWO_SIDED|95.0|-3.2|2.0||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||2.0|-3.2|0.649
82601937|NCT01162421|164919544|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.11||0.464|TWO_SIDED|95.0|-3.0|1.4||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||1.4|-3.0|0.464
82601938|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.3|STANDARD_ERROR_OF_MEAN|5.08||0.018|TWO_SIDED|95.0|-22.5|-2.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||-2.2|-22.5|0.018
82601939|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-25.5|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-37.3|-13.7||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.001.||Month 6||-13.7|-37.3|<0.001
82655808|NCT00406848|165027488|SUPERIORITY_OR_OTHER|||||||0.036||95.0||||p-value is for Fasting Glucose change from baseline (Week 1) to Week 25.|ANOVA|Model: Change=Treatment+Pooled Investigator||||||0.036
82655809|NCT00406848|165027489|SUPERIORITY_OR_OTHER|||||||0.019||95.0|||||Fisher Exact|||||||0.019
82655810|NCT00406848|165027490|SUPERIORITY_OR_OTHER|||||||0.815||95.0||||p-value is for QT Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.815
82655811|NCT00406848|165027490|SUPERIORITY_OR_OTHER|||||||0.721||95.0||||p-value is for QTcF Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.721
82601940|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.4|STANDARD_ERROR_OF_MEAN|5.84||0.113|TWO_SIDED|95.0|-21.0|2.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 9||2.3|-21.0|0.113
82655812|NCT00406848|165027490|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||p-value is for QTcB Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.376
82655813|NCT00406848|165027490|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||p-value is for PR Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.065
82655814|NCT00406848|165027490|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||p-value is for QRS Interval change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.110
82655815|NCT00406848|165027491|SUPERIORITY_OR_OTHER|||||||0.11||95.0||||p-value is for Successful Treatment Outcome defined with HAMD-17 ≤7 criteria.|Fisher Exact|||||||0.110
82655816|NCT00406848|165027491|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||p-value is for Successful Treatment Outcome defined with HAMD-17 ≤10 criteria.|Fisher Exact|||||||0.016
82655817|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.511||95.0||||p-value is for Composite Cognitive Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.511
82655818|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||p-value is for Composite Cognitive Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.300
82655819|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.922||95.0||||p-value is for Learning Trials Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.922
82601941|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|5.72||0.544|TWO_SIDED|95.0|-14.9|7.9||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||7.9|-14.9|0.544
82601942|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|5.96||0.916|TWO_SIDED|95.0|-12.5|11.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||11.2|-12.5|0.916
82601943|NCT01162421|164919545|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|5.86||0.983|TWO_SIDED|95.0|-11.8|11.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||11.6|-11.8|0.983
82601944|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3|STANDARD_ERROR_OF_MEAN|4.96||0.641|TWO_SIDED|95.0|-12.2|7.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.6|-12.2|0.641
82655820|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||p-value is for Learning Trials Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.190
82655821|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.85||95.0||||p-value is for Delayed Recall Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.850
82655822|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.158||95.0||||p-value is for Delayed Recall Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.158
82655823|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||p-value is for SDST Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.099
82655824|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.141||95.0||||p-value is for SDST Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.141
82655825|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.379||95.0||||p-value is for 2DCT Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.379
82655826|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.858||95.0||||p-value is for 2DCT Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.858
82655827|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.591||95.0||||p-value is for Trail Making Test Score change from baseline (Week 1) to Week 9.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.591
82655828|NCT00406848|165027492|SUPERIORITY_OR_OTHER|||||||0.242||95.0||||p-value is for Trail Making Test Score change from baseline (Week 1) to Week 25.|ANCOVA|Model: Change=Treatment+Pooled Investigator+Baseline||||||0.242
82655829|NCT01355081|165027493|SUPERIORITY_OR_OTHER||Least square means difference|-2.03|STANDARD_ERROR_OF_MEAN|1.241||0.1031|TWO_SIDED|95.0|-4.467|0.413|||ANCOVA|Change in MADRS total score as a dependent variable, treatment as a fixed effect and the baseline MADRS total score as a covariate.||||0.413|-4.467|0.1031
82655830|NCT01355081|165027493|SUPERIORITY_OR_OTHER||Least square mean difference|-1.04|STANDARD_ERROR_OF_MEAN|1.233||0.4008|TWO_SIDED|95.0|-3.461|1.387|||ANCOVA|Change in MADRS total score as a dependent variable, treatment as a fixed effect and the baseline MADRS total score as a covariate.||||1.387|-3.461|0.4008
82655831|NCT02719522|165027499|SUPERIORITY|The primary safety objective was to determine if the 2-sided 95% upper confidence interval of the primary safety endpoint was below the threshold of 15%|||||<|0.001|||||||Clopper-Pearson|||The primary safety objective was to determine if the 2-sided 95% upper confidence interval of the primary safety endpoint was below the threshold of 15%. Missing safety data for subjects who were lost to FU without any evidence of a major stroke/death were imputed in the analysis using multiple imputation. Subjects who withdrew from the study prior to completion and had experienced a major stroke or death were counted towards the primary safety endpoint as having experienced the event.||||<0.001
82655832|NCT00860028|165027532|SUPERIORITY_OR_OTHER_LEGACY|||||||0.36||95.0|||||Chi-squared|||||||0.36
82655833|NCT00860028|165027533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||General Linear Model|||||||0.06
82655834|NCT00860028|165027534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Fisher Exact|||||||0.03
82601945|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|5.61||0.358|TWO_SIDED|95.0|-16.4|6.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||6.0|-16.4|0.358
82601946|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2|STANDARD_ERROR_OF_MEAN|5.58||0.352|TWO_SIDED|95.0|-5.9|16.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||16.4|-5.9|0.352
82601947|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|5.28||0.99|TWO_SIDED|95.0|-10.5|10.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||10.6|-10.5|0.990
82601948|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|6.4|STANDARD_ERROR_OF_MEAN|5.36||0.238|TWO_SIDED|95.0|-4.3|17.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||17.1|-4.3|0.238
82601949|NCT01162421|164919546|SUPERIORITY_OR_OTHER||LS Mean Difference|7.1|STANDARD_ERROR_OF_MEAN|5.54||0.207|TWO_SIDED|95.0|-4.0|18.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||18.1|-4.0|0.207
82601950|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|5.28||0.85|TWO_SIDED|95.0|-11.5|9.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||9.5|-11.5|0.850
82601951|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.4|STANDARD_ERROR_OF_MEAN|5.49||0.129|TWO_SIDED|95.0|-19.4|2.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||2.5|-19.4|0.129
82601952|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|5.62||0.937|TWO_SIDED|95.0|-10.8|11.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||11.6|-10.8|0.937
82601953|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.59||0.67|TWO_SIDED|95.0|-13.5|8.8||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||8.8|-13.5|0.670
82601954|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|5.4|STANDARD_ERROR_OF_MEAN|5.67||0.341|TWO_SIDED|95.0|-5.9|16.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||16.7|-5.9|0.341
82601955|NCT01162421|164919547|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|STANDARD_ERROR_OF_MEAN|6.13||0.621|TWO_SIDED|95.0|-9.2|15.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||15.3|-9.2|0.621
82655835|NCT00936390|165027535|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.22|TWO_SIDED|95.0|0.65|1.11||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|This study was designed to detect an improvement in the 5-year overall survival rate from 90% (radiation alone arm) to 93.3% (radiation and androgen deprivation arm). Assuming an exponential survival distribution for each arm, this translates to a 34% relative reduction (hazard ratio 0.66) in the yearly death rate. At least 218 deaths provide 85% power with a 1-sided significance level of 0.025 and 85% power.||1.11|0.65|0.22
82601956|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|3.29||0.697|TWO_SIDED|95.0|-5.3|7.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.9|-5.3|0.697
82655836|NCT00936390|165027536|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.7||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.70|0.39|<0.001
82601957|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|4.51||0.744|TWO_SIDED|95.0|-10.5|7.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||7.5|-10.5|0.744
82601958|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|3.95||0.967|TWO_SIDED|95.0|-7.7|8.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||8.0|-7.7|0.967
82601959|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9|STANDARD_ERROR_OF_MEAN|3.3||0.377|TWO_SIDED|95.0|-3.7|9.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||9.5|-3.7|0.377
82601960|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|3.5||0.122|TWO_SIDED|95.0|-1.5|12.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||12.4|-1.5|0.122
82601961|NCT01162421|164919548|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|STANDARD_ERROR_OF_MEAN|3.42||0.49|TWO_SIDED|95.0|-4.4|9.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||9.2|-4.4|0.490
82601962|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.102|TWO_SIDED|95.0|-1.0|0.1||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 3||0.1|-1.0|0.102
82601963|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.29||0.003|TWO_SIDED|95.0|-1.5|-0.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 6||-0.3|-1.5|0.003
82655837|NCT00936390|165027536|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
82655838|NCT00936390|165027537|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.02|TWO_SIDED|95.0|0.22|0.9||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.90|0.22|0.020
82601964|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.214|TWO_SIDED|95.0|-0.9|0.2||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 9||0.2|-0.9|0.214
82601965|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.27||0.339|TWO_SIDED|95.0|-0.8|0.3||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 12||0.3|-0.8|0.339
82601966|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.973|TWO_SIDED|95.0|-0.6|0.6||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 18||0.6|-0.6|0.973
82601967|NCT01162421|164919549|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.755|TWO_SIDED|95.0|-0.6|0.5||P-values are two-sided and are based on repeated measures ANCOVA model with treatment group and visit as the fixed effects and Baseline value as the covariate.|ANCOVA|||Month 24||0.5|-0.6|0.755
82601968|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|9.4||||0.316|TWO_SIDED|95.0|-7.09|25.13|||Fisher Exact|Two-sided Fisher Exact test.||Month 3||25.13|-7.09|0.316
82601969|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|24.5||||0.014|TWO_SIDED|95.0|6.09|42.85|||Chi-squared|P-value is based on two-sided Pearson's chi-square test. The a priori threshold for statistical significance is P=0.05.||Month 6||42.85|6.09|0.014
82601970|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|-3.2||||0.762|TWO_SIDED|95.0|-24.1|17.66|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||17.66|-24.10|0.762
82601971|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|13.0||||0.22|TWO_SIDED|95.0|-7.46|33.54|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||33.54|-7.46|0.220
82601972|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|-3.5||||0.747|TWO_SIDED|95.0|-24.9|17.86|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||17.86|-24.90|0.747
82601973|NCT01162421|164919550|SUPERIORITY_OR_OTHER||Difference in percentage|-4.4||||0.701|TWO_SIDED|95.0|-26.8|18.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||18.01|-26.80|0.701
82655839|NCT00936390|165027537|SUPERIORITY|Cumulative incidence model||||||0.021||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||||||0.021
82655840|NCT00936390|165027539|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.11|0.57||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.57|0.11|<0.001
82601974|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|10.5||||0.318|TWO_SIDED|95.0|-9.83|30.78|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||30.78|-9.83|0.318
82601975|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|22.7||||0.047|TWO_SIDED|95.0|1.03|44.39|||Chi-squared|P-value is based on two-sided Pearson's chi-square test. The a priori threshold for statistical significance is P=0.05.||Month 6||44.39|1.03|0.047
82601976|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|5.0||||0.668|TWO_SIDED|95.0|-17.74|27.71|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||27.71|-17.74|0.668
82601977|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|7.8||||0.5|TWO_SIDED|95.0|-14.88|30.56|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||30.56|-14.88|0.500
82601978|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|-2.7||||0.816|TWO_SIDED|95.0|-25.52|20.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||20.10|-25.52|0.816
82601979|NCT01162421|164919551|SUPERIORITY_OR_OTHER||Difference in percentage|-10.7||||0.358|TWO_SIDED|95.0|-33.38|11.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.99|-33.38|0.358
82601980|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.444|TWO_SIDED|95.0|-12.17|28.0|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||28.00|-12.17|0.444
82601981|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|20.1||||0.076|TWO_SIDED|95.0|-1.53|41.83|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||41.83|-1.53|0.076
82655841|NCT00936390|165027539|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
82655842|NCT00936390|165027540|SUPERIORITY||Hazard Ratio (HR)|0.1||||0.0073|TWO_SIDED|95.0|0.01|0.8||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.80|0.01|0.0073
82601982|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|2.7||||0.816|TWO_SIDED|95.0|-20.1|25.52|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||25.52|-20.10|0.816
82601983|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|8.1||||0.485|TWO_SIDED|95.0|-14.61|30.87|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||30.87|-14.61|0.485
82601984|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|-2.7||||0.816|TWO_SIDED|95.0|-25.52|20.1|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||20.10|-25.52|0.816
82601985|NCT01162421|164919552|SUPERIORITY_OR_OTHER||Difference in percentage|-10.7||||0.358|TWO_SIDED|95.0|-33.38|11.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.99|-33.38|0.358
82601986|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|11.6||||0.316|TWO_SIDED|95.0|-10.84|33.99|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||33.99|-10.84|0.316
82655843|NCT00936390|165027540|SUPERIORITY|||||||0.007||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.007
82655844|NCT00936390|165027541|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.52|TWO_SIDED|95.0|0.7|1.2||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||1.20|0.70|0.52
82655845|NCT00936390|165027541|SUPERIORITY|||||||0.56||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.56
82601987|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|5.1||||0.63|TWO_SIDED|95.0|-15.43|25.54|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||25.54|-15.43|0.630
82601988|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|-0.4||||0.972|TWO_SIDED|95.0|-20.94|20.21|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||20.21|-20.94|0.972
82601989|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|-14.1||||0.186|TWO_SIDED|95.0|-34.83|6.7|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||6.70|-34.83|0.186
82601990|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|-12.6||||0.142|TWO_SIDED|95.0|-29.46|4.26|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||4.26|-29.46|0.142
82601991|NCT01162421|164919553|SUPERIORITY_OR_OTHER||Difference in percentage|-4.0||||0.727|TWO_SIDED|95.0|-20.34|11.52|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||11.52|-20.34|0.727
82601992|NCT01162421|164919554|SUPERIORITY_OR_OTHER||Difference in percentage|6.8||||0.486|TWO_SIDED|95.0|-9.21|22.22|||Fisher Exact|Two-sided Fisher Exact test.||||22.22|-9.21|0.486
82601993|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.13||0.809|TWO_SIDED|95.0|-0.23|0.29||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||0.29|-0.23|0.809
82601994|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.132||0.194|TWO_SIDED|95.0|-0.44|0.09||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||0.09|-0.44|0.194
82601995|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.132||0.863|TWO_SIDED|95.0|-0.24|0.29||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.29|-0.24|0.863
82601996|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.129||0.452|TWO_SIDED|95.0|-0.16|0.35||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.35|-0.16|0.452
82655846|NCT00936390|165027542|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.025|TWO_SIDED|95.0|0.41|0.95||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.95|0.41|0.025
82601997|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.141||0.738|TWO_SIDED|95.0|-0.23|0.33||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.33|-0.23|0.738
82601998|NCT01162421|164919555|SUPERIORITY_OR_OTHER||LS Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.148||0.572|TWO_SIDED|95.0|-0.21|0.38||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.38|-0.21|0.572
82601999|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|-11.9||||0.299|TWO_SIDED|95.0|-34.05|10.31|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||10.31|-34.05|0.299
82602000|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|-3.0||||0.796|TWO_SIDED|95.0|-25.77|19.77|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||19.77|-25.77|0.796
82602001|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|7.0||||0.54|TWO_SIDED|95.0|-15.3|29.22|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||29.22|-15.30|0.540
82602002|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|-9.6||||0.392|TWO_SIDED|95.0|-31.39|12.19|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||12.19|-31.39|0.392
82602003|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|-3.3||||0.776|TWO_SIDED|95.0|-25.96|19.37|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||19.37|-25.96|0.776
82602004|NCT01162421|164919556|SUPERIORITY_OR_OTHER||Difference in percentage|-16.1||||0.166|TWO_SIDED|95.0|-38.64|6.4|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||6.40|-38.64|0.166
82602005|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|-10.9||||0.283|TWO_SIDED|95.0|-30.84|9.01|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 3||9.01|-30.84|0.283
82602006|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|7.9||||0.444|TWO_SIDED|95.0|-12.17|28.0|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 6||28.00|-12.17|0.444
82602007|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|1.6||||0.885|TWO_SIDED|95.0|-20.16|23.38|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 9||23.38|-20.16|0.885
82602008|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|-1.0||||0.931|TWO_SIDED|95.0|-22.54|20.64|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 12||20.64|-22.54|0.931
82602009|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|2.2||||0.836|TWO_SIDED|95.0|-18.63|23.03|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 18||23.03|-18.63|0.836
82602010|NCT01162421|164919557|SUPERIORITY_OR_OTHER||Difference in percentage|2.2||||0.836|TWO_SIDED|95.0|-18.63|23.03|||Chi-squared|P-value is based on two-sided Pearson's chi-square test.||Month 24||23.03|-18.63|0.836
82602011|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.25||0.699|TWO_SIDED|95.0|-3.6|5.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||5.4|-3.6|0.699
82602012|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|STANDARD_ERROR_OF_MEAN|2.45||0.261|TWO_SIDED|95.0|-2.1|7.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||7.7|-2.1|0.261
82602013|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|2.36||0.514|TWO_SIDED|95.0|-6.2|3.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||3.2|-6.2|0.514
82655847|NCT00936390|165027542|SUPERIORITY|||||||0.025||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||0.025
82655848|NCT00936390|165027544|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82602014|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|2.5||0.283|TWO_SIDED|95.0|-7.7|2.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||2.3|-7.7|0.283
82602015|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.75||0.461|TWO_SIDED|95.0|-7.5|3.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||3.4|-7.5|0.461
82602016|NCT01162421|164919558|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.78||0.703|TWO_SIDED|95.0|-6.6|4.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||4.5|-6.6|0.703
82602017|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|-1.1||||1|TWO_SIDED|95.0|-17.94|15.16|||Fisher Exact|Two-sided Fisher Exact test.||Month 3||15.16|-17.94|1.000
82602018|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|-6.4||||0.468|TWO_SIDED|95.0|-22.34|8.81|||Fisher Exact|Two-sided Fisher Exact test.||Month 6||8.81|-22.34|0.468
82602019|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|-11.9||||0.142|TWO_SIDED|95.0|-27.88|3.16|||Fisher Exact|Two-sided Fisher Exact test.||Month 9||3.16|-27.88|0.142
82602020|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|4.6||||0.712|TWO_SIDED|95.0|-11.08|19.83|||Fisher Exact|Two-sided Fisher Exact test.||Month 12||19.83|-11.08|0.712
82655849|NCT00936390|165027545|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.13|TWO_SIDED|95.0|0.89|1.53||One-sided significance level 0.025 (reported p-value is one-sided)|Gray's test||Reference level = radiation therapy alone arm|||1.53|0.89|0.13
82655850|NCT00936390|165027546|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.001|TWO_SIDED|95.0|0.39|0.7||One-sided significance level 0.025 (reported p-value is two-sided)|Log Rank||Reference level = radiation therapy alone arm|Cause-specific hazard model||0.70|0.39|<0.001
82655851|NCT00936390|165027546|SUPERIORITY||||||<|0.001||||||One-sided significance level 0.025 (reported p-value is two-sided)|Gray's test|||Cumulative incidence model||||<0.001
82602021|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|7.2||||0.482|TWO_SIDED|95.0|-8.92|22.89|||Fisher Exact|Two-sided Fisher Exact test.||Month 18||22.89|-8.92|0.482
82602022|NCT01162421|164919559|SUPERIORITY_OR_OTHER||Difference in percentage|-6.2||||0.418|TWO_SIDED|95.0|-21.18|7.69|||Fisher Exact|Two-sided Fisher Exact test.||Month 24||7.69|-21.18|0.418
82602023|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|5.86||0.453|TWO_SIDED|95.0|-16.3|7.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||7.4|-16.3|0.453
82602024|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.9|STANDARD_ERROR_OF_MEAN|5.88||0.187|TWO_SIDED|95.0|-19.7|4.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||4.0|-19.7|0.187
82602025|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|6.31||0.598|TWO_SIDED|95.0|-16.1|9.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||9.4|-16.1|0.598
82602026|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|5.75||0.558|TWO_SIDED|95.0|-8.2|15.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||15.0|-8.2|0.558
82602027|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|6.4||0.669|TWO_SIDED|95.0|-10.1|15.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||15.6|-10.1|0.669
82602028|NCT01162421|164919560|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|6.16||0.865|TWO_SIDED|95.0|-11.3|13.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||13.5|-11.3|0.865
82602029|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.058||0.809|TWO_SIDED|95.0|-0.1|0.13||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||0.13|-0.10|0.809
82602030|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.062||0.447|TWO_SIDED|95.0|-0.08|0.17||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||0.17|-0.08|0.447
82655852|NCT00936390|165027547|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||End of RT||||0.38
82655853|NCT00936390|165027547|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||6 months post-RT||||0.032
82602031|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.062||0.579|TWO_SIDED|95.0|-0.16|0.09||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.09|-0.16|0.579
82602032|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.057||0.922|TWO_SIDED|95.0|-0.11|0.12||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.12|-0.11|0.922
82655854|NCT00936390|165027547|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||One year post-RT||||0.87
82655855|NCT00936390|165027547|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Five years post-RT||||0.67
82655856|NCT00936390|165027548|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||End of RT||||0.58
82655857|NCT00936390|165027548|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||Six months post-RT||||0.31
82655858|NCT00936390|165027548|SUPERIORITY|||||||0.36|||||||t-test, 2 sided|||One year post-RT||||0.36
82655859|NCT00936390|165027548|SUPERIORITY|||||||0.88|||||||t-test, 2 sided|||Five years post-RT||||0.88
82655860|NCT00936390|165027549|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of RT||||<0.001
82655861|NCT00936390|165027549|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Six months post-RT||||<0.001
82655862|NCT00936390|165027549|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||One year post-RT||||<0.001
82655863|NCT00936390|165027549|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||Five years post-RT||||0.18
82602033|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.064||0.894|TWO_SIDED|95.0|-0.14|0.12||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.12|-0.14|0.894
82602034|NCT01162421|164919561|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.07||0.611|TWO_SIDED|95.0|-0.17|0.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.10|-0.17|0.611
82602035|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|4.42||0.572|TWO_SIDED|95.0|-11.3|6.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||6.3|-11.3|0.572
82655864|NCT00936390|165027550|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||End of RT||||<0.001
82602036|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|7.9|STANDARD_ERROR_OF_MEAN|5.15||0.13|TWO_SIDED|95.0|-2.4|18.2||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||18.2|-2.4|0.130
82602037|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.26||0.649|TWO_SIDED|95.0|-12.9|8.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||8.1|-12.9|0.649
82602038|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|4.8||0.579|TWO_SIDED|95.0|-12.3|6.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||6.9|-12.3|0.579
82602039|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|5.03||0.826|TWO_SIDED|95.0|-11.1|8.9||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||8.9|-11.1|0.826
82602040|NCT01162421|164919562|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|5.72||0.675|TWO_SIDED|95.0|-13.8|9.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||9.0|-13.8|0.675
82602041|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.57||0.458|TWO_SIDED|95.0|-2.0|4.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 3||4.3|-2.0|0.458
82655865|NCT00936390|165027550|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Six months post-RT||||<0.001
82602042|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.76||0.419|TWO_SIDED|95.0|-4.9|2.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 6||2.1|-4.9|0.419
82602043|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.42||0.692|TWO_SIDED|95.0|-2.3|3.4||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||3.4|-2.3|0.692
82602044|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.69||0.357|TWO_SIDED|95.0|-1.8|5.0||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||5.0|-1.8|0.357
82602045|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.67||0.42|TWO_SIDED|95.0|-2.0|4.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||4.7|-2.0|0.420
82602046|NCT01162421|164919563|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|1.58||0.38|TWO_SIDED|95.0|-1.8|4.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||4.5|-1.8|0.380
82602047|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.28||0.046|TWO_SIDED|95.0|0.0|1.1||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.05.||Month 3||1.1|0.0|0.046
82602048|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.27||0.003|TWO_SIDED|95.0|0.3|1.3||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|The a priori threshold for statistical significance is P=0.01.||Month 6||1.3|0.3|0.003
82602049|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.24||0.204|TWO_SIDED|95.0|-0.2|0.8||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 9||0.8|-0.2|0.204
82655866|NCT00936390|165027550|SUPERIORITY|||||||0.0014|||||||t-test, 2 sided|||One year post-RT||||0.0014
82655867|NCT00936390|165027550|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||Five years post-RT||||0.90
82602050|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.22||0.227|TWO_SIDED|95.0|-0.2|0.7||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 12||0.7|-0.2|0.227
82655868|NCT00936390|165027551|SUPERIORITY|||||||0.046|||||||t-test, 2 sided|||End of RT||||0.046
82655869|NCT00936390|165027551|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||6 months post-RT||||0.82
82655870|NCT00936390|165027551|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||One year post-RT||||0.82
82655871|NCT00936390|165027551|SUPERIORITY|||||||0.79|||||||t-test, 2 sided|||Five years post-RT||||0.79
82655872|NCT04526210|165027587|OTHER||Geometric least square (LS) mean ratio|0.98|||||TWO_SIDED|90.0|0.9415|1.0205||||||||1.0205|0.9415|
82655873|NCT04526210|165027588|OTHER||Geometric LS mean ratio|0.978|||||TWO_SIDED|90.0|0.9344|1.0244||||||||1.0244|0.9344|
82655874|NCT04526210|165027589|OTHER||Geometric LS mean ratio|0.981|||||TWO_SIDED|90.0|0.9368|1.0269||||||||1.0269|0.9368|
82655875|NCT02999178|165027600|SUPERIORITY||Adjusted mean difference|106.96|STANDARD_ERROR_OF_MEAN|21.15|<|0.0001|TWO_SIDED|95.0|65.42|148.5||Treatment comparison of slopes was assessed through the treatment-by-time interaction coefficient. P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|"Fixed effects: Treatment, HRCT fibrotic pattern, baseline FVC (mL), treatment-by-time, baseline-by-time interactions.~Random effects: time, intercept."|Difference of adjusted annual rates of decline was calculated as Nintedanib - Placebo.|The decrease in FVC was assumed to be linear within each participant over 52 weeks. The intercepts and slopes were assumed to be normally distributed with unstructured covariance matrix. The within participant error was assumed to be independent and normally distributed with mean 0 and a common variance. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors (SEs).||148.50|65.42|<.0001
82602051|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.86|TWO_SIDED|95.0|-0.4|0.5||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 18||0.5|-0.4|0.860
82602052|NCT01162421|164919564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.22||0.476|TWO_SIDED|95.0|-0.3|0.6||P-values are two-sided and are based on ANCOVA model with treatment group as the fixed effect and Baseline value as the covariate.|ANCOVA|||Month 24||0.6|-0.3|0.476
82602053|NCT01948830|164919601|NON_INFERIORITY_OR_EQUIVALENCE|The following hypothesis was tested at a one-sided 0.025 level. Non-inferiority with respect to BCVA: H01: μtreat and extend - μmonthly ≤ - Δ versus HA1: μtreat and extend - μmonthly \> - Δ where μtreat and extend and μmonthly are the unknown mean changes from baseline in BCVA to Month 12 in the treat and extend regimen and the monthly regimen, respectively. Δ is the non-inferiority margin and is pre-defined to be 5 letters for the justification of the margin.|||||<|0.001|||||||ANCOVA|||||||<0.001
82602054|NCT01446419|164919615|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|P-value from ANCOVA with factors of tx group, analysis center and tx group by analysis center interaction, and a covariate of baseline ODI score.||||||0.019
82602055|NCT00654498|164919654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.52|STANDARD_ERROR_OF_MEAN|1.05|<|0.0001|TWO_SIDED|95.0|-6.58|-2.46|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-2.46|-6.58|<0.0001
82602056|NCT00654498|164919655|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
82602057|NCT00654498|164919656|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
82602058|NCT00654498|164919657|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|test stratified by centre||||||<0.0001
82602059|NCT00654498|164919658|SUPERIORITY_OR_OTHER|||||||0.1386||95.0|||||Chi-squared|||||||0.1386
82602060|NCT00654498|164919659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.48|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.14|-0.83|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.83|-2.14|<0.0001
82602061|NCT00654498|164919660|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-1.99|-0.73|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.73|-1.99|<0.0001
82602062|NCT00654498|164919661|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.33|<|0.0001|TWO_SIDED|95.0|-2.0|-0.72|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.72|-2.00|<0.0001
82602063|NCT00654498|164919662|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.26||0.0402|TWO_SIDED|95.0|-1.06|-0.02|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.02|-1.06|0.0402
82602064|NCT00654498|164919663|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.18||0.0771|TWO_SIDED|95.0|-0.69|0.04|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||0.04|-0.69|0.0771
82602065|NCT00654498|164919664|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.25||0.0048|TWO_SIDED|95.0|-1.2|-0.22|||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||-0.22|-1.20|0.0048
82602066|NCT00654498|164919665|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|ANCOVA with treatment and center as fixed factors and baseline as a covariate||||||<0.0001
82602067|NCT00954109|164919671|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82602068|NCT00954109|164919672|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82602069|NCT01583374|164919684|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-4.1||||0.4383|TWO_SIDED|95.0|-14.3|6.2|||Cochran-Mantel-Haenszel|2 sided p-value was based on CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel (CMH) weights|||6.2|-14.3|0.4383
82602070|NCT01583374|164919684|SUPERIORITY||Risk Difference (RD)|-1.7||||0.7427|TWO_SIDED|95.0|-12.0|8.5|||Cochran-Mantel-Haenszel|2 sided p-value was based on CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category|Adjusted difference in proportions is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||8.5|-12.0|0.7427
82602071|NCT01583374|164919685|SUPERIORITY||LS Mean Difference|-0.05||||0.8032|TWO_SIDED|95.0|-0.41|0.32|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.32|-0.41|0.8032
82602072|NCT01583374|164919685|SUPERIORITY||LS Mean Difference|-0.17||||0.3624|TWO_SIDED|95.0|-0.53|0.19|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.19|-0.53|0.3624
82602073|NCT01583374|164919686|SUPERIORITY||LS Mean Difference|0.03||||0.8618|TWO_SIDED|95.0|-0.33|0.4|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.40|-0.33|0.8618
82602074|NCT01583374|164919686|SUPERIORITY||LS Mean Difference|-0.09||||0.6262|TWO_SIDED|95.0|-0.45|0.27|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.27|-0.45|0.6262
82602075|NCT01583374|164919687|SUPERIORITY||Risk Difference (RD)|2.0||||0.6958|TWO_SIDED|95.0|-8.1|12.2|||Cochran-Mantel-Haenszel|2 sided p-value was based on the CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category.|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||12.2|-8.1|0.6958
82602076|NCT01583374|164919687|SUPERIORITY||Risk Difference (RD)|4.4||||0.4051|TWO_SIDED|95.0|-5.8|14.5|||Cochran-Mantel-Haenszel|2 sided p-value was based on the CMH test adjusting for C-reactive protein (CRP) category and baseline BASDAI score category.|Adjusted difference is the weighted average of the treatment differences across the 4 strata of screening CRP category and baseline BASDAI score category with the Cochran-Mantel-Haenszel weights.|||14.5|-5.8|0.4051
82602077|NCT01583374|164919688|SUPERIORITY||LS Mean Difference|0.25||||0.5126|TWO_SIDED|95.0|-0.49|0.99|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.99|-0.49|0.5126
82602078|NCT01583374|164919688|SUPERIORITY||LS Mean Difference|0.28||||0.4624|TWO_SIDED|95.0|-0.46|1.01|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.01|-0.46|0.4624
82602079|NCT01583374|164919689|SUPERIORITY||LS Mean Difference|0.29||||0.6997|TWO_SIDED|95.0|-1.18|1.76|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.76|-1.18|0.6997
82602080|NCT01583374|164919689|SUPERIORITY||LS Mean Difference|-0.04||||0.9587|TWO_SIDED|95.0|-1.5|1.42|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||1.42|-1.50|0.9587
82602081|NCT01583374|164919690|SUPERIORITY||LS Mean Difference|0.06||||0.3307|TWO_SIDED|95.0|-0.06|0.17|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.17|-0.06|0.3307
82602082|NCT01583374|164919690|SUPERIORITY||LS Mean Difference|0.03||||0.5938|TWO_SIDED|95.0|-0.08|0.14|||ANCOVA|Based on an ANCOVA model for change from baseline with treatment group, CRP and baseline BASDAI score as factors and baseline value as covariate.||||0.14|-0.08|0.5938
82492214|NCT01687998|164677662|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.991||||0.8463|TWO_SIDED|95.0|0.901|1.089|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of All-Cause Mortality, MI, Stroke, Coronary Revascularization, or Hospitalization for UA||1.089|0.901|0.8463
82602083|NCT01506882|164919694|SUPERIORITY_OR_OTHER||Percent|73.8|||||TWO_SIDED|95.0|60.9|84.2||||||"The primary efficacy variable was to be calculated as the proportion p=n/N of subjects (n) staying seizure free for 6 months out of the total number of subjects (N). For this proportion p, an exact 2-sided 95% confidence interval (CI) was computed based on the F distribution.~The hypothesis H0: p=0.4 was to be formally rejected in favor of H1: p\>0.4, if the lower confidence limit for p was greater than 0.4."||84.2|60.9|
82602084|NCT03694392|164919727|OTHER||Hazard Ratio (HR)|0.85|||<|0.05|TWO_SIDED|95.0|0.76|0.94||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.3% (5.9%, 23.8%)|||0.94|0.76|<0.05
82602085|NCT03694392|164919728|OTHER||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.65|1.09||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.9% (-9.2% to 35.2%)|||1.09|0.65|<0.05
82602086|NCT03694392|164919729|OTHER||Hazard Ratio (HR)|0.83|||<|0.05|TWO_SIDED|95.0|0.66|1.06||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 16.7% (-5.6% to 34.4%)|||1.06|0.66|<0.05
82602087|NCT03694392|164919730|OTHER||Hazard Ratio (HR)|0.98|||<|0.05|TWO_SIDED|95.0|0.88|1.08||Adjustment for multiplicity for the secondary outcomes was performed with the use of Holm's adjustment method.|Regression, Cox|Models were adjusted for age, age squared, sex, and race or ethnic group after weighting with stabilized facility-specific propensity scores.|Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 2.4% (-8.1% to 11.9%)|||1.08|0.88|<0.05
82602088|NCT03694392|164919731|OTHER||Hazard Ratio (HR)|1.16|||<|0.05|TWO_SIDED|95.0|0.75|1.8|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -15.7% (-79.5% to 25.5%)|||1.80|0.75|<0.05
82602089|NCT03694392|164919732|OTHER||Hazard Ratio (HR)|1.001|||<|0.05|TWO_SIDED|95.0|0.95|1.06|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -0.1% (-6.0% to 5.4%)|||1.06|0.95|<0.05
82602090|NCT03694392|164919733|OTHER||Hazard Ratio (HR)|1.8|||<|0.05|TWO_SIDED|95.0|-2.2|5.5|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 1.8% (-2.2% to 5.5%)|||5.5|-2.2|<0.05
82492215|NCT01687998|164677663|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.001||||0.9874|TWO_SIDED|95.0|0.901|1.112|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of CV Death, MI, or Coronary Revascularization||1.112|0.901|0.9874
82602091|NCT03694392|164919734|OTHER||Hazard Ratio (HR)|9.4|||<|0.05|TWO_SIDED|95.0|-5.4|22.1|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 9.4% (-5.4% to 22.1%)|||22.1|-5.4|<0.05
82655876|NCT02999178|165027601|SUPERIORITY||Adjusted mean difference|128.2|STANDARD_ERROR_OF_MEAN|29.17|<|0.0001|TWO_SIDED|95.0|70.81|185.59||Treatment comparison of slopes was assessed through the treatment-by-time interaction coefficient. P-value was not adjusted for multiple comparisons.|Mixed Models Analysis|Fixed effects: Treatment, baseline FVC (mL), treatment-by-time, baseline-by-time interactions. Random effects: time, intercept.|Difference of adjusted annual rates of decline was calculated as Nintedanib - Placebo.|The decrease in FVC was assumed to be linear within each participant over 52 weeks. The intercepts and slopes were assumed to be normally distributed with unstructured covariance matrix. The within participant error was assumed to be independent and normally distributed with mean 0 and a common variance. The Kenward-Roger approximation was used to estimate denominator degrees of freedom and adjust standard errors (SEs).||185.59|70.81|<.0001
82602092|NCT03694392|164919735|OTHER||Hazard Ratio (HR)|0.94|||<|0.05|TWO_SIDED|95.0|0.86|1.02|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 6.2% (-2.2% to 13.9%)|||1.02|0.86|<0.05
82602093|NCT03694392|164919736|OTHER||Hazard Ratio (HR)|1.07|||<|0.05|TWO_SIDED|95.0|0.75|1.52|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -6.9% (-51.6% to 24.6%)|||1.52|0.75|<0.05
82602094|NCT03694392|164919737|OTHER||Hazard Ratio (HR)|0.95|||<|0.05|TWO_SIDED|95.0|0.76|1.12|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 5.2% (-18.8% to 24.4%)|||1.12|0.76|<0.05
82602095|NCT03694392|164919738|OTHER||Hazard Ratio (HR)|0.89|||<|0.05|TWO_SIDED|95.0|0.85|0.93|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.8% (6.6% to 14.7%)|||0.93|0.85|<0.05
82602096|NCT03694392|164919739|OTHER||Hazard Ratio (HR)|1.001|||<|0.05|TWO_SIDED|95.0|0.94|1.06|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -0.1% (-6.2% to 5.6%)|||1.06|0.94|<0.05
82602097|NCT03694392|164919740|OTHER||Hazard Ratio (HR)|1.46|||<|0.05|TWO_SIDED|95.0|1.06|2.0|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -45.5% (-100.2% to -5.8%)|||2.00|1.06|<0.05
82602098|NCT03694392|164919741|OTHER||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.82|0.99|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.2% (1.4% to 18.2%)|||0.99|0.82|<0.05
82602099|NCT03694392|164919742|OTHER||Hazard Ratio (HR)|1.16|||<|0.05|TWO_SIDED|95.0|0.95|1.43|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: -16.2% (-43.0% to 5.5%)|||1.43|0.95|<0.05
82602100|NCT03694392|164919743|OTHER||Hazard Ratio (HR)|0.84|||<|0.05|TWO_SIDED|95.0|0.76|0.94|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 15.7% (6.0% to 24.5%)|||0.94|0.76|<0.05
82655877|NCT02999178|165027602|OTHER|No formal hypotheses were tested.|Adjusted mean difference|1.34|STANDARD_ERROR_OF_MEAN|0.84||0.1115|TWO_SIDED|95.0|-0.31|2.98|||Mixed Model Repeated Measures (MMRM)|Fixed effects: baseline K-BILD Total score, visit, treatment-by-visit and baseline-by-visit interactions, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||2.98|-0.31|0.1115
82602101|NCT03694392|164919744|OTHER||Hazard Ratio (HR)|0.9|||<|0.05|TWO_SIDED|95.0|0.6|1.34|||Regression, Cox||Relative vaccine effectiveness (95% CI) calculated as 1 minus the hazard ratio, expressed as a percentage: 10.3% (-33.9% to 39.9%)|||1.34|0.60|<0.05
82602102|NCT02357420|164919780|SUPERIORITY|||||||0.36|||||||Measures mixed effects model (MMRM)|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.36
82602103|NCT02357420|164919780|SUPERIORITY|||||||0.25|||||||MMRM|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.25
82602104|NCT02357420|164919780|SUPERIORITY|||||||0.59|||||||MMRM|MMRM analysis used treatment, week, treatment-by-week interaction as fixed factors and baseline values as the covariates.||||||0.59
82602105|NCT02908100|164919789|SUPERIORITY||Absolute Difference|6.4||||0.373|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.373
82602106|NCT02908100|164919789|SUPERIORITY||Absolute Difference|7.5||||0.339|TWO_SIDED|95.0|-7.3|22.4|||Cochran-Mantel-Haenszel|||||22.4|-7.3|0.339
82602107|NCT02908100|164919790|SUPERIORITY||Absolute Difference|8.7||||0.223|TWO_SIDED|95.0|-6.1|23.5|||Cochran-Mantel-Haenszel|||||23.5|-6.1|0.223
82655878|NCT02999178|165027603|OTHER|No formal hypotheses were tested.|Adjusted mean difference|1.53|STANDARD_ERROR_OF_MEAN|1.12||0.1747|TWO_SIDED|95.0|-0.68|3.74|||Mixed Model Repeated Measures (MMRM)|Fixed effects: baseline K-BILD Total score, visit, treatment-by-visit and baseline-by-visit interactions, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||3.74|-0.68|0.1747
82602108|NCT02908100|164919790|SUPERIORITY||Absolute Difference|3.0||||0.737|TWO_SIDED|95.0|-11.8|17.7|||Cochran-Mantel-Haenszel|||||17.7|-11.8|0.737
82602109|NCT02908100|164919791|SUPERIORITY||Absolute Difference|4.1||||0.614|TWO_SIDED|95.0|-10.7|18.9|||Cochran-Mantel-Haenszel|||||18.9|-10.7|0.614
82602110|NCT02908100|164919791|SUPERIORITY||Absolute Difference|4.1||||0.607|TWO_SIDED|95.0|-10.7|18.9|||Cochran-Mantel-Haenszel|||||18.9|-10.7|0.607
82602111|NCT02908100|164919792|SUPERIORITY||Absolute Difference|6.4||||0.41|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.410
82602112|NCT02908100|164919792|SUPERIORITY||Absolute Difference|6.4||||0.418|TWO_SIDED|95.0|-8.5|21.2|||Cochran-Mantel-Haenszel|||||21.2|-8.5|0.418
82602113|NCT02908100|164919793|SUPERIORITY||Absolute Difference|14.9||||0.378|TWO_SIDED|95.0|-14.0|43.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||43.7|-14|0.378
82602114|NCT02908100|164919793|SUPERIORITY||Absolute Difference|7.5||||0.732|TWO_SIDED|95.0|-21.7|36.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||36.7|-21.7|0.732
82602115|NCT02908100|164919793|SUPERIORITY||Absolute Difference|-0.4||||0.5|TWO_SIDED|95.0|-29.2|28.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||28.4|-29.2|0.500
82602116|NCT02908100|164919793|SUPERIORITY||Absolute Difference|8.6||||0.234|TWO_SIDED|95.0|-21.4|38.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||38.7|-21.4|0.234
82602117|NCT02908100|164919793|SUPERIORITY||Absolute Difference|15.5||||0.364|TWO_SIDED|95.0|-14.9|46.0|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||46|-14.9|0.364
82602118|NCT02908100|164919793|SUPERIORITY||Absolute Difference|15.2||||0.134|TWO_SIDED|95.0|-14.1|44.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||44.4|-14.1|0.134
82602119|NCT02908100|164919793|SUPERIORITY||Absolute Difference|-7.1||||0.83|TWO_SIDED|95.0|-37.6|23.3|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||23.3|-37.6|0.830
82602120|NCT02908100|164919793|SUPERIORITY||Absolute Difference|-2.2||||0.963|TWO_SIDED|95.0|-32.1|27.8|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||27.8|-32.1|0.963
82602121|NCT02908100|164919794|SUPERIORITY||Absolute Difference|19.0||||0.189|TWO_SIDED|95.0|-9.4|47.5|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||47.5|-9.4|0.189
82602122|NCT02908100|164919794|SUPERIORITY||Absolute Difference|6.7||||0.909|TWO_SIDED|95.0|-21.9|35.2|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q1||35.2|-21.9|0.909
82602123|NCT02908100|164919794|SUPERIORITY||Absolute Difference|-0.4||||0.5|TWO_SIDED|95.0|-29.2|28.4|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||28.4|-29.2|0.500
82602124|NCT02908100|164919794|SUPERIORITY||Absolute Difference|3.3||||0.234|TWO_SIDED|95.0|-27.1|33.8|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q2||33.8|-27.1|0.234
82602125|NCT02908100|164919794|SUPERIORITY||Absolute Difference|15.5||||0.364|TWO_SIDED|95.0|-14.9|46.0|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||46|-14.9|0.364
82602126|NCT02908100|164919794|SUPERIORITY||Absolute Difference|7.2||||0.31|TWO_SIDED|95.0|-22.0|36.3|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q3||36.3|-22|0.310
82602127|NCT02908100|164919794|SUPERIORITY||Absolute Difference|-2.1||||0.922|TWO_SIDED|95.0|-32.5|28.2|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||28.2|-32.5|0.922
82655879|NCT02999178|165027604|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.8||||0.3948|TWO_SIDED|95.0|0.48|1.34|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.34|0.48|0.3948
82602128|NCT02908100|164919794|SUPERIORITY||Absolute Difference|-5.9||||0.701|TWO_SIDED|95.0|-35.4|23.7|||Cochran-Mantel-Haenszel|||Plasmablast Signature Level Q4||23.7|-35.4|0.701
82655880|NCT02999178|165027605|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.67||||0.1985|TWO_SIDED|95.0|0.36|1.24|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.24|0.36|0.1985
82655881|NCT02999178|165027606|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.94||||0.8544|TWO_SIDED|95.0|0.47|1.86|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.86|0.47|0.8544
82655882|NCT02999178|165027607|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.68||||0.3291|TWO_SIDED|95.0|0.32|1.47|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||1.47|0.32|0.3291
82492216|NCT01687998|164677664|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.003||||0.9574|TWO_SIDED|95.0|0.893|1.127|||Regression, Cox|||Time to First Occurrence of the Composite Endpoint of CV Death, MI, Stroke, or Hospitalization for UA||1.127|0.893|0.9574
82602129|NCT02908100|164919795|SUPERIORITY||Absolute Difference|3.1||||0.692|TWO_SIDED|95.0|-10.9|17.1|||Cochran-Mantel-Haenszel|||Week 24||17.1|-10.9|0.692
82602130|NCT02908100|164919795|SUPERIORITY||Absolute Difference|1.9||||0.871|TWO_SIDED|95.0|-12.0|15.9|||Cochran-Mantel-Haenszel|||Week 24||15.9|-12|0.871
82602131|NCT02908100|164919795|SUPERIORITY||Absolute Difference|11.2||||0.105|TWO_SIDED|95.0|-2.8|25.1|||Cochran-Mantel-Haenszel|||Week 48||25.1|-2.8|0.105
82602132|NCT02908100|164919795|SUPERIORITY||Absolute Difference|7.7||||0.286|TWO_SIDED|95.0|-6.1|21.6|||Cochran-Mantel-Haenszel|||Week 48||21.6|-6.1|0.286
82602133|NCT02908100|164919796|SUPERIORITY||Absolute Difference|-1.6||||0.936|TWO_SIDED|95.0|-16.8|13.6|||Cochran-Mantel-Haenszel|||Week 24||13.6|-16.8|0.936
82602134|NCT02908100|164919796|SUPERIORITY||Absolute Difference|-2.9||||0.683|TWO_SIDED|95.0|-18.2|12.4|||Cochran-Mantel-Haenszel|||Week 24||12.4|-18.2|0.683
82602135|NCT02908100|164919796|SUPERIORITY||Absolute Difference|11.7||||0.086|TWO_SIDED|95.0|-3.4|26.8|||Cochran-Mantel-Haenszel|||Week 48||26.8|-3.4|0.086
82602136|NCT02908100|164919796|SUPERIORITY||Absolute Difference|0.9||||0.879|TWO_SIDED|95.0|-14.2|16.1|||Cochran-Mantel-Haenszel|||Week 48||16.1|-14.2|0.879
82602137|NCT02631538|164919811|OTHER||Least square (LS) mean difference|-2.86|STANDARD_ERROR_OF_MEAN|1.758|||TWO_SIDED|95.0|-6.38|0.67|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.67|-6.38|
82602138|NCT02631538|164919811|OTHER||LS mean difference|-0.99|STANDARD_ERROR_OF_MEAN|1.382|||TWO_SIDED|95.0|-3.75|1.78|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.78|-3.75|
82602139|NCT02631538|164919811|OTHER||LS mean difference|-0.63|STANDARD_ERROR_OF_MEAN|1.442|||TWO_SIDED|95.0|-3.52|2.26|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.26|-3.52|
82602140|NCT02631538|164919811|OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|1.732|||TWO_SIDED|95.0|-5.34|1.6|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.60|-5.34|
82602141|NCT02631538|164919811|OTHER||LS mean difference|0.35|STANDARD_ERROR_OF_MEAN|1.422|||TWO_SIDED|95.0|-2.5|3.2|||||Week 12. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.20|-2.50|
82602142|NCT02631538|164919811|OTHER||LS mean difference|-2.45|STANDARD_ERROR_OF_MEAN|1.607|||TWO_SIDED|95.0|-5.67|0.77|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.77|-5.67|
82655883|NCT02999178|165027610|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.65||||0.0017|TWO_SIDED|95.0|0.49|0.85|||Log Rank|Stratified by HRCT fibrotic pattern.|A Cox proportional hazards model, stratified by HRCT fibrotic pattern, was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||0.85|0.49|0.0017
82602143|NCT02631538|164919811|OTHER||LS mean difference|-1.46|STANDARD_ERROR_OF_MEAN|1.265|||TWO_SIDED|95.0|-3.99|1.08|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.08|-3.99|
82602144|NCT02631538|164919811|OTHER||LS mean difference|-0.07|STANDARD_ERROR_OF_MEAN|1.305|||TWO_SIDED|95.0|-2.68|2.55|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.55|-2.68|
82602145|NCT02631538|164919811|OTHER||LS mean difference|-1.0|STANDARD_ERROR_OF_MEAN|1.584|||TWO_SIDED|95.0|-4.17|2.18|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.18|-4.17|
82602146|NCT02631538|164919811|OTHER||LS mean difference|1.39|STANDARD_ERROR_OF_MEAN|1.29|||TWO_SIDED|95.0|-1.2|3.97|||||Week 24. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.97|-1.20|
82655884|NCT02999178|165027611|OTHER|No formal hypotheses were tested.|Hazard Ratio (HR)|0.64||||0.0081|TWO_SIDED|95.0|0.45|0.89|||Log Rank||A Cox proportional hazards model was used to estimate the hazard ratio calculated as Nintedanib divided by Placebo.|||0.89|0.45|0.0081
82655885|NCT02999178|165027612|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.7|||||TWO_SIDED|95.0|0.52|0.96|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred and binary covariate HRCT fibrotic pattern.|Ratio calculated as Nintedanib divided by Placebo.|||0.96|0.52|
82602147|NCT02631538|164919811|OTHER||LS mean difference|-0.97|STANDARD_ERROR_OF_MEAN|1.845|||TWO_SIDED|95.0|-4.66|2.73|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.73|-4.66|
82602148|NCT02631538|164919811|OTHER||LS mean difference|0.15|STANDARD_ERROR_OF_MEAN|1.449|||TWO_SIDED|95.0|-2.76|3.05|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.05|-2.76|
82602149|NCT02631538|164919811|OTHER||LS mean difference|0.85|STANDARD_ERROR_OF_MEAN|1.498|||TWO_SIDED|95.0|-2.15|3.86|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.86|-2.15|
82602150|NCT02631538|164919811|OTHER||LS mean difference|-1.11|STANDARD_ERROR_OF_MEAN|1.817|||TWO_SIDED|95.0|-4.76|2.53|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.53|-4.76|
82602151|NCT02631538|164919811|OTHER||LS mean difference|0.71|STANDARD_ERROR_OF_MEAN|1.476|||TWO_SIDED|95.0|-2.25|3.66|||||Week 36. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.66|-2.25|
82602152|NCT02631538|164919811|OTHER||LS mean difference|-2.8|STANDARD_ERROR_OF_MEAN|1.57|||TWO_SIDED|95.0|-5.95|0.34|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.34|-5.95|
82492217|NCT01687998|164677665|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.965||||0.5917|TWO_SIDED|95.0|0.846|1.1|||Regression, Cox|||Time to First Occurrence of Triple Composite Endpoint of CV Death, MI, or Stroke||1.100|0.846|0.5917
82602153|NCT02631538|164919811|OTHER||LS mean difference|-0.91|STANDARD_ERROR_OF_MEAN|1.237|||TWO_SIDED|95.0|-3.39|1.56|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.56|-3.39|
82602154|NCT02631538|164919811|OTHER||LS mean difference|-1.36|STANDARD_ERROR_OF_MEAN|1.275|||TWO_SIDED|95.0|-3.91|1.2|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.20|-3.91|
82602155|NCT02631538|164919811|OTHER||LS mean difference|-1.89|STANDARD_ERROR_OF_MEAN|1.548|||TWO_SIDED|95.0|-4.99|1.21|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.21|-4.99|
82602156|NCT02631538|164919811|OTHER||LS mean difference|-0.44|STANDARD_ERROR_OF_MEAN|1.261|||TWO_SIDED|95.0|-2.97|2.08|||||Week 52. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||2.08|-2.97|
82602157|NCT02631538|164919811|OTHER||LS mean difference|-3.99|STANDARD_ERROR_OF_MEAN|1.699|||TWO_SIDED|95.0|-7.39|-0.58|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||-0.58|-7.39|
82602158|NCT02631538|164919811|OTHER||LS mean difference|-1.87|STANDARD_ERROR_OF_MEAN|1.336|||TWO_SIDED|95.0|-4.54|0.81|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||0.81|-4.54|
82602159|NCT02631538|164919811|OTHER||LS mean difference|-1.35|STANDARD_ERROR_OF_MEAN|1.379|||TWO_SIDED|95.0|-4.12|1.41|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.41|-4.12|
82655886|NCT02999178|165027613|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.63|||||TWO_SIDED|95.0|0.43|0.94|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred.|Ratio calculated as Nintedanib divided by Placebo.|||0.94|0.43|
82492218|NCT02195583|164677672|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|Calculated from Analysis of Variance (ANOVA) model using treatment and study period as fixed factors and participant as random effect.||Linear contrasts were fitted in order to establish whether there was a dose-response relationship. Linear contrasts were for experimental dentifrice: non-zinc treatments.||||<0.0001
82602160|NCT02631538|164919811|OTHER||LS mean difference|-2.12|STANDARD_ERROR_OF_MEAN|1.674|||TWO_SIDED|95.0|-5.47|1.23|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||1.23|-5.47|
82602161|NCT02631538|164919811|OTHER||LS mean difference|0.51|STANDARD_ERROR_OF_MEAN|1.362|||TWO_SIDED|95.0|-2.21|3.24|||||Week 68. Analysis was performed using mixed effects repeated measures model, with Baseline, treatment, visit and interactions of visit with treatment as fixed effects and participant as a random effect.|||3.24|-2.21|
82602162|NCT01688050|164919823|OTHER|The primary safety endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|All-cause mortality rate (%)|2.0|||||TWO_SIDED|95.0|0.0|5.88|||||Wald method|||5.88|0|
82602163|NCT01688050|164919824|OTHER|The primary safety endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|Aortic injury-related mortality rate (%)|0.0|||||TWO_SIDED|95.0|0.0|7.1|||||Exact method|||7.1|0|
82602164|NCT01688050|164919825|OTHER|The primary effectiveness endpoint of this study is analyzed using only descriptive statistics and it is not analyzed for the purpose of statistical inference|Device success rate (%)|96.0|||||TWO_SIDED|95.0|90.6|100.0|||||Wald method|||100|90.6|
82602165|NCT00110019|164919833|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.863|TWO_SIDED|95.0|0.87|1.18|||Log Rank|Stratified log rank test is used for overall survival comparison, stratified on AJCC stage, ECOG Performance status and prior therapy status|Arm II is the reference group|||1.18|0.87|0.863
82602166|NCT00110019|164919834|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.092|TWO_SIDED|95.0|0.78|1.03||priori threshold for statistical significance: P\<0.05|Log Rank|Stratified log rank test is used for progression-free survival comparison, stratified on AJCC stage, ECOG Performance status and prior therapy status|Arm II is the reference group|||1.03|0.78|0.092
82602167|NCT00110019|164919835|SUPERIORITY_OR_OTHER|||||||0.427||95.0||||priori threshold for statistical significance: P\<0.05|Fisher Exact|||||||0.427
82602168|NCT01046695|164919840|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||Decrease in OME use in the TENS Unit during the first and second 24 hours.||||.005
82602169|NCT01046695|164919840|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||t-test, 2 sided|||Decrease in OME use in the Control Arm during the first and second 24 hours.||||.11
82602170|NCT01046695|164919841|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||t-test, 2 sided|||||||.70
82602171|NCT04426695|164919845|SUPERIORITY||Least Square (LS) Mean Difference|-0.25||||0.0663|TWO_SIDED|95.0|-0.51|0.02||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||||0.02|-0.51|0.0663
82602172|NCT04426695|164919845|SUPERIORITY||Least Square (LS) Mean Difference|-0.31||||0.0204||95.0|-0.57|0.05||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||||0.05|-0.57|0.0204
82602173|NCT04426695|164919845|SUPERIORITY||Least Square (LS) Mean Difference|-0.28||||0.0172|TWO_SIDED|95.0|-0.51|-0.05||P-value for change from baseline on log scale for each treatment group was based on the Analysis of covariance (ANCOVA) model with treatment group.|ANCOVA|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||-0.05|-0.51|0.0172
82602174|NCT04426695|164919846|SUPERIORITY|||||||0.0431||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0431
82602175|NCT04426695|164919846|SUPERIORITY|||||||0.7975||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.7975
82602176|NCT04426695|164919846|SUPERIORITY|||||||0.2048||||||P-value was derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.2048
82602177|NCT04426695|164919847|SUPERIORITY|||||||0.0039||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0039
82602178|NCT04426695|164919847|SUPERIORITY|||||||0.2415||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2415
82602179|NCT04426695|164919847|SUPERIORITY|||||||0.0195||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0195
82602180|NCT04426695|164919848|SUPERIORITY|||||||0.0085||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0085
82602181|NCT04426695|164919848|SUPERIORITY|||||||0.9902||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.9902
82602182|NCT04426695|164919848|SUPERIORITY|||||||0.1486||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.1486
82602183|NCT04426695|164919849|SUPERIORITY|||||||0.0092||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0092
82602184|NCT04426695|164919849|SUPERIORITY|||||||0.221||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2210
82602185|NCT04426695|164919849|SUPERIORITY|||||||0.0249||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0249
82602186|NCT04426695|164919850|SUPERIORITY|||||||0.0045||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0045
82602187|NCT04426695|164919850|SUPERIORITY|||||||0.0714||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0714
82602188|NCT04426695|164919850|SUPERIORITY|||||||0.0061||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0061
82602189|NCT04426695|164919851|SUPERIORITY|||||||0.0023||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0023
82602190|NCT04426695|164919851|SUPERIORITY|||||||0.3544||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3544
82602191|NCT04426695|164919851|SUPERIORITY|||||||0.0212||||||P-value was derived CMH test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< = 5 or n(1-p) \<= 5 in any treatment group, p-value was based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||To control alpha at a strict 0.05 level, this endpoint was tested hierarchically, with the virologic endpoint tested first. All hierarchical testing was done using the combined dose group.||||0.0212
82655887|NCT02999178|165027614|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.5|||||TWO_SIDED|95.0|0.36|0.68|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred and binary covariate HRCT fibrotic pattern.|Ratio calculated as Nintedanib divided by Placebo.|||0.68|0.36|
82655888|NCT02999178|165027615|OTHER|No formal hypotheses were tested.|Adjusted Odds Ratio|0.46|||||TWO_SIDED|95.0|0.31|0.69|||Regression, Logistic|Logistic regression model with continuous covariate baseline FVC % pred.|Ratio calculated as Nintedanib divided by Placebo.|||0.69|0.31|
82602192|NCT04426695|164919857|SUPERIORITY|||||||0.0575||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0575
82602193|NCT04426695|164919857|SUPERIORITY|||||||0.3133||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3133
82602194|NCT04426695|164919857|SUPERIORITY|||||||0.0849||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0849
82602195|NCT04426695|164919858|SUPERIORITY|||||||0.2167||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2167
82602196|NCT04426695|164919858|SUPERIORITY|||||||0.4123||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.4123
82602197|NCT04426695|164919858|SUPERIORITY|||||||0.2206||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2206
82602198|NCT04426695|164919859|SUPERIORITY|||||||0.0383||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0383
82655889|NCT02999178|165027616|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-3.53|STANDARD_ERROR_OF_MEAN|1.33|||TWO_SIDED|95.0|-6.14|-0.92|||Mixed Model Repeated Measures|Fixed effects: baseline, HRCT fibrotic pattern, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-0.92|-6.14|
82655890|NCT02999178|165027617|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-4.18|STANDARD_ERROR_OF_MEAN|1.68|||TWO_SIDED|95.0|-7.48|-0.88|||Mixed Model Repeated Measures|Fixed effects: baseline, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-0.88|-7.48|
82602199|NCT04426695|164919859|SUPERIORITY|||||||0.3296||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3296
82602200|NCT04426695|164919859|SUPERIORITY|||||||0.0766||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0766
82602201|NCT04426695|164919860|SUPERIORITY|||||||0.007||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0070
82602202|NCT04426695|164919860|SUPERIORITY|||||||0.0507||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0507
82602203|NCT04426695|164919860|SUPERIORITY|||||||0.0051||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0051
82602204|NCT04426695|164919861|SUPERIORITY|||||||0.0174||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0174
82602205|NCT04426695|164919861|SUPERIORITY|||||||0.29||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2900
82602206|NCT04426695|164919861|SUPERIORITY|||||||0.0454||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0454
82602207|NCT04426695|164919862|SUPERIORITY|||||||0.004||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0040
82602208|NCT04426695|164919862|SUPERIORITY|||||||0.0413||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0413
82602209|NCT04426695|164919862|SUPERIORITY|||||||0.0032||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0032
82602210|NCT04426695|164919863|SUPERIORITY|||||||0.0105||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0105
82655891|NCT02999178|165027618|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-6.09|STANDARD_ERROR_OF_MEAN|1.81|||TWO_SIDED|95.0|-9.65|-2.53|||Mixed Model Repeated Measures|Fixed effects: baseline, HRCT fibrotic pattern, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-2.53|-9.65|
82602211|NCT04426695|164919863|SUPERIORITY|||||||0.0622||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0622
82602212|NCT04426695|164919863|SUPERIORITY|||||||0.0088||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0088
82602213|NCT04426695|164919864|SUPERIORITY|||||||0.0275||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0275
82602214|NCT04426695|164919864|SUPERIORITY|||||||0.0223||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0223
82602215|NCT04426695|164919864|SUPERIORITY|||||||0.0072||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0072
82602216|NCT04426695|164919865|SUPERIORITY|||||||0.1032||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1032
82602217|NCT04426695|164919865|SUPERIORITY|||||||0.335||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3350
82602218|NCT04426695|164919865|SUPERIORITY|||||||0.1314||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1314
82602219|NCT04426695|164919866|SUPERIORITY|||||||0.00024||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.00024
82602220|NCT04426695|164919866|SUPERIORITY|||||||0.0054||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0054
82602221|NCT04426695|164919866|SUPERIORITY|||||||0.0005||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0005
82602222|NCT04426695|164919873|SUPERIORITY|||||||0.0533||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0533
82602223|NCT04426695|164919873|SUPERIORITY|||||||0.0411||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0411
82602224|NCT04426695|164919873|SUPERIORITY|||||||0.0229||||||P-value based on stratified log-rank test with the type of background standard-of-care and baseline serostatus as stratification factors.|Log Rank|||||||0.0229
82602225|NCT04426695|164919874|SUPERIORITY|||||||0.0218|||||||Stratified Log Rank Test|||||||0.0218
82602226|NCT04426695|164919874|SUPERIORITY|||||||0.0156|||||||Stratified Log Rank Test|||||||0.0156
82602227|NCT04426695|164919874|SUPERIORITY|||||||0.0067|||||||Stratified Log Rank Test|||||||0.0067
82602228|NCT04426695|164919878|SUPERIORITY|||||||0.2162||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2162
82602229|NCT04426695|164919878|SUPERIORITY|||||||0.8783||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.8783
82602230|NCT04426695|164919878|SUPERIORITY|||||||0.5583||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5583
82655892|NCT02999178|165027619|OTHER|No formal hypotheses were tested.|Adjusted mean difference|-7.28|STANDARD_ERROR_OF_MEAN|2.33|||TWO_SIDED|95.0|-11.86|-2.71|||Mixed Model Repeated Measures|Fixed effects: baseline, visit, treatment-by-visit interaction, baseline-by-visit interaction, random effect: participant.|Adjusted mean difference was calculated as Nintedanib - Placebo.|||-2.71|-11.86|
82602231|NCT04426695|164919878|SUPERIORITY|||||||0.7189||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.7189
82602232|NCT04426695|164919878|SUPERIORITY|||||||0.0429||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0429
82602233|NCT04426695|164919878|SUPERIORITY|||||||0.2103||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2103
82602234|NCT04426695|164919879|SUPERIORITY|||||||0.0223||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0223
82602235|NCT04426695|164919879|SUPERIORITY|||||||0.1256||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1256
82602236|NCT04426695|164919879|SUPERIORITY|||||||0.023||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0230
82655893|NCT00090857|165027620|SUPERIORITY_OR_OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.15
82602237|NCT04426695|164919879|SUPERIORITY|||||||0.1298||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1298
82602238|NCT04426695|164919879|SUPERIORITY|||||||0.2642||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2642
82602239|NCT04426695|164919879|SUPERIORITY|||||||0.097||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0970
82602240|NCT04426695|164919880|SUPERIORITY|||||||0.0147||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0147
82602241|NCT04426695|164919880|SUPERIORITY|||||||0.0669||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0669
82602242|NCT04426695|164919880|SUPERIORITY|||||||0.0094||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0094
82602243|NCT04426695|164919880|SUPERIORITY|||||||0.1306||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1306
82602244|NCT04426695|164919880|SUPERIORITY|||||||0.3576||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3576
82602245|NCT04426695|164919880|SUPERIORITY|||||||0.1476||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1476
82602246|NCT04426695|164919881|SUPERIORITY|||||||0.0481||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0481
82602247|NCT04426695|164919881|SUPERIORITY|||||||0.0535||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0535
82602248|NCT04426695|164919881|SUPERIORITY|||||||0.0199||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0199
82602249|NCT04426695|164919881|SUPERIORITY|||||||0.2784||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2784
82602250|NCT04426695|164919881|SUPERIORITY|||||||0.251||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2510
82602251|NCT04426695|164919881|SUPERIORITY|||||||0.1702||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1702
82602252|NCT04426695|164919882|SUPERIORITY|||||||0.05||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0500
82655894|NCT00090857|165027621|SUPERIORITY_OR_OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.70
82602253|NCT04426695|164919882|SUPERIORITY|||||||0.0663||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0663
82602254|NCT04426695|164919882|SUPERIORITY|||||||0.0229||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0229
82602255|NCT04426695|164919882|SUPERIORITY|||||||0.0208||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0208
82602256|NCT04426695|164919882|SUPERIORITY|||||||0.0388||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0388
82602257|NCT04426695|164919882|SUPERIORITY|||||||0.0092||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0092
82602258|NCT04426695|164919886|SUPERIORITY|||||||0.037|||||||stratified log-rank test|||||||0.0370
82492219|NCT02195583|164677672|SUPERIORITY_OR_OTHER|||||||0.2274||95.0|||||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.||Quadratic contrasts were fitted in order to establish whether there was a dose-response relationship. Quadratic contrasts are for experimental dentifrice: non-zinc treatments.||||0.2274
82602259|NCT04426695|164919886|SUPERIORITY|||||||0.1596|||||||stratified log-rank test|||||||0.1596
82602260|NCT04426695|164919886|SUPERIORITY|||||||0.0444|||||||stratified log-rank test|||||||0.0444
82602261|NCT04426695|164919886|SUPERIORITY|||||||0.1802|||||||stratified log-rank test|||||||0.1802
82602262|NCT04426695|164919886|SUPERIORITY|||||||0.0407|||||||stratified log-rank test|||||||0.0407
82602263|NCT04426695|164919886|SUPERIORITY|||||||0.0523|||||||stratified log-rank test|||||||0.0523
82602264|NCT04426695|164919887|SUPERIORITY|||||||0.0245|||||||ANCOVA|||||||0.0245
82602265|NCT04426695|164919887|SUPERIORITY|||||||0.0554|||||||ANCOVA|||||||0.0554
82602266|NCT04426695|164919887|SUPERIORITY|||||||0.0179|||||||ANCOVA|||||||0.0179
82602267|NCT04426695|164919887|SUPERIORITY|||||||0.0035|||||||ANCOVA|||||||0.0035
82602268|NCT04426695|164919887|SUPERIORITY|||||||0.0003|||||||ANCOVA|||||||0.0003
82602269|NCT04426695|164919887|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82602270|NCT04426695|164919888|SUPERIORITY|||||||0.0013|||||||ANCOVA|||||||0.0013
82602271|NCT04426695|164919888|SUPERIORITY|||||||0.001|||||||ANCOVA|||||||0.0010
82602272|NCT04426695|164919888|SUPERIORITY|||||||0.0002|||||||ANCOVA|||||||0.0002
82602273|NCT04426695|164919888|SUPERIORITY|||||||0.025|||||||ANCOVA|||||||0.0250
82602274|NCT04426695|164919888|SUPERIORITY|||||||0.0012|||||||ANCOVA|||||||0.0012
82602275|NCT04426695|164919888|SUPERIORITY|||||||0.0014|||||||ANCOVA|||||||0.0014
82602276|NCT04426695|164919889|SUPERIORITY|||||||0.0623|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0623
82602277|NCT04426695|164919889|SUPERIORITY|||||||0.0203|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0203
82602278|NCT04426695|164919889|SUPERIORITY|||||||0.0193|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0193
82602279|NCT04426695|164919889|SUPERIORITY|||||||0.1206|||||||MMRM|||Difference vs. Placebo by Day 29||||0.1206
82602280|NCT04426695|164919889|SUPERIORITY|||||||0.0911|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0911
82602281|NCT04426695|164919889|SUPERIORITY|||||||0.0645|||||||MMRM|||Difference vs. Placebo by Day 29||||0.0645
82602282|NCT04426695|164919890|SUPERIORITY|||||||0.0623|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0623
82602283|NCT04426695|164919890|SUPERIORITY|||||||0.0203|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0203
82602284|NCT04426695|164919890|SUPERIORITY|||||||0.0193|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0193
82602285|NCT04426695|164919890|SUPERIORITY|||||||0.1206|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.1206
82602286|NCT04426695|164919890|SUPERIORITY|||||||0.0911|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0911
82602287|NCT04426695|164919890|SUPERIORITY|||||||0.0645|||||||MMRM|||Percent Difference vs. Placebo at Day 29||||0.0645
82602288|NCT04426695|164919891|SUPERIORITY|||||||0.0481||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0481
82602289|NCT04426695|164919891|SUPERIORITY|||||||0.988||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.9880
82602290|NCT04426695|164919891|SUPERIORITY|||||||0.2498||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2498
82602291|NCT04426695|164919891|SUPERIORITY|||||||1||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||1.0000
82602292|NCT04426695|164919891|SUPERIORITY|||||||0.0457||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0457
82602293|NCT04426695|164919891|SUPERIORITY|||||||0.2153||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2153
82602294|NCT04426695|164919892|SUPERIORITY|||||||0.0811||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0811
82602295|NCT04426695|164919892|SUPERIORITY|||||||0.6701||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.6701
82602296|NCT04426695|164919892|SUPERIORITY|||||||0.2006||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2006
82602297|NCT04426695|164919892|SUPERIORITY|||||||0.3313||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3313
82602298|NCT04426695|164919892|SUPERIORITY|||||||0.5542||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5542
82602299|NCT04426695|164919892|SUPERIORITY|||||||0.2214||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2214
82602300|NCT04426695|164919893|SUPERIORITY|||||||0.0389||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0389
82602301|NCT04426695|164919893|SUPERIORITY|||||||0.5208||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5208
82602302|NCT04426695|164919893|SUPERIORITY|||||||0.1079||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1079
82602303|NCT04426695|164919893|SUPERIORITY|||||||0.3315||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3315
82602304|NCT04426695|164919893|SUPERIORITY|||||||0.5797||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.5797
82602305|NCT04426695|164919893|SUPERIORITY|||||||0.3036||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3036
82602306|NCT04426695|164919894|SUPERIORITY|||||||0.0364||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0364
82602307|NCT04426695|164919894|SUPERIORITY|||||||0.2795||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2795
82602308|NCT04426695|164919894|SUPERIORITY|||||||0.0588||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0588
82602309|NCT04426695|164919894|SUPERIORITY|||||||0.0364||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0364
82602310|NCT04426695|164919894|SUPERIORITY|||||||0.2795||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2795
82602311|NCT04426695|164919894|SUPERIORITY|||||||0.0588||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.0588
82602312|NCT04426695|164919895|SUPERIORITY|||||||0.2635||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2635
82602313|NCT04426695|164919895|SUPERIORITY|||||||0.8013||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.8013
82602314|NCT04426695|164919895|SUPERIORITY|||||||0.416||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.4160
82602315|NCT04426695|164919895|SUPERIORITY|||||||0.2194||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.2194
82602316|NCT04426695|164919895|SUPERIORITY|||||||0.324||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.3240
82602317|NCT04426695|164919895|SUPERIORITY|||||||0.1981||||||P-value is derived Cochran-Mantel-Haenszel (CMH) test stratified by the type of background standard-of-care (antiviral therapies and non-antiviral therapies). If np \< =5 or n(1-p) \<= 5 in any treatment group, p-value is based on Fisher Exact Test.|Cochran-Mantel-Haenszel|||||||0.1981
82602318|NCT04276207|164919914|SUPERIORITY||Mean Difference (Final Values)|-0.377||||0.145|TWO_SIDED|95.0|-0.896|0.142|||Mixed Models Analysis|||||0.142|-0.896|0.1450
82602319|NCT04276207|164919915|SUPERIORITY||Mean Difference (Final Values)|-0.262||||0.001|TWO_SIDED|95.0|-0.406|-0.117|||Mixed Models Analysis|||||-0.117|-0.406|0.0010
82602320|NCT04276207|164919916|SUPERIORITY||Mean Difference (Final Values)|-12.61||||0.0173|TWO_SIDED|95.0|-22.73|-2.49|||Mixed Models Analysis|||Day 1||-2.49|-22.73|0.0173
82602321|NCT04276207|164919916|SUPERIORITY||Mean Difference (Final Values)|-5.75||||0.0243|TWO_SIDED|95.0|-10.69|0.81|||Mixed Models Analysis|||Day 2||0.81|-10.69|0.0243
82602322|NCT04276207|164919917|SUPERIORITY|||||||0.945|||||||Mixed Models Analysis|||Day 1||||0.945
82602323|NCT04276207|164919917|SUPERIORITY|||||||0.888|||||||Mixed Models Analysis|||Day 2||||0.888
82602324|NCT01256177|164919920|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.22|STANDARD_ERROR_OF_MEAN|1.1||0.004|TWO_SIDED|95.0|-5.39|-1.04|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in MADRS total score based on observed cases (OC)||-1.04|-5.39|0.004
82602325|NCT01256177|164919921|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54||||0.001|TWO_SIDED|95.0|1.56|4.13|||Regression, Logistic|Odds ratio was modeled by logistic regression adjusted for centre, baseline score, and bipolar strata.|Quetiapine XR/Placebo|||4.13|1.56|0.001
82602326|NCT01256177|164919922|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.37||||0.001|TWO_SIDED|95.0|1.46|3.86|||Regression, Logistic|Odds ratio was modeled by logistic regression adjusted for centre, baseline score, and bipolar strata.|Quetiapine XR/Placebo|||3.86|1.46|0.001
82602327|NCT01256177|164919923|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-1.47|STANDARD_ERROR_OF_MEAN|0.67||0.029|TWO_SIDED|95.0|-2.79|-0.15|||Mixed Model Repeated Measure (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 1 in MADRS total score based on observed cases (OC)||-0.15|-2.79|0.029
82602328|NCT01256177|164919923|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.43|STANDARD_ERROR_OF_MEAN|0.88||0.006|TWO_SIDED|95.0|-4.16|-0.69|||Mixed Model Repeated Measure (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 2 in MADRS total score based on observed cases (OC)||-0.69|-4.16|0.006
82602329|NCT01256177|164919923|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.12|STANDARD_ERROR_OF_MEAN|0.95||0.001|TWO_SIDED|95.0|-5.0|-1.25|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 4 in MADRS total score based on observed cases (OC)||-1.25|-5.00|0.001
82602330|NCT01256177|164919923|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.08|STANDARD_ERROR_OF_MEAN|1.03||0.045|TWO_SIDED|95.0|-4.12|-0.05|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 6 in MADRS total score based on observed cases (OC)||-0.05|-4.12|0.045
82602331|NCT01256177|164919923|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-3.22|STANDARD_ERROR_OF_MEAN|1.1||0.004|TWO_SIDED|95.0|-5.39|-1.04|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in MADRS total score based on observed cases (OC)||-1.04|-5.39|0.004
82602332|NCT01256177|164919924|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-2.24|STANDARD_ERROR_OF_MEAN|0.83||0.007|TWO_SIDED|95.0|-3.88|-0.61|||Mixed Model Repeated Measures (MMRM)|Baseline HAM-D total value as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 in HAM-D total score based on observed cases (OC)||-0.61|-3.88|0.007
82602333|NCT01256177|164919925|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.51|STANDARD_ERROR_OF_MEAN|0.17||0.003|TWO_SIDED|95.0|-0.84|-0.17|||Mixed Model Repeated Measures (MMRM)|Baseline CGI-BP-S score for overall BP illness as covariate, trt, bipolar strata, visit, trt-visit interaction as fixed effect and centre as random.||Change from baseline to Week 8 assessment in the CGI-BP-S score for overall Bipolar (BP) illness based on observed cases (OC)||-0.17|-0.84|0.003
82602334|NCT01256177|164919925|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.47|STANDARD_ERROR_OF_MEAN|0.17||0.007|TWO_SIDED|95.0|-0.81|-0.13|||Mixed Model Repeated Measures (MMRM)|Baseline CGI-BP-S score for depression as covariate, trt, Bipolar strata, visit, trt-visit interaction as fixed effects and centre as random.||Change from Baseline to Week 8 assessment in the CGI-BP-S score of depression based on observed cases (OC)||-0.13|-0.81|0.007
82602335|NCT01256177|164919926|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.06||||0.004|TWO_SIDED|95.0|1.26|3.36|||Regression, Logistic|Odds ratio between treatment groups was modeled by logistic regression adjusted for centre, baseline score and bipolar Strata.|Quetiapine XR/Placebo|||3.36|1.26|0.004
82655895|NCT00090857|165027622|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density between arms was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.03
82602336|NCT01256177|164919927|SUPERIORITY_OR_OTHER||Least Square Mean difference vs Placebo|-0.22|STANDARD_ERROR_OF_MEAN|0.08||0.005|TWO_SIDED|95.0|-0.38|-0.07|||Mixed Model Repeated Measures (MMRM)|Baseline MADRS item 10 score as covariate, treatment, bipolar strata, visit, treatment-visit interaction as fixed effect and centre as random.||Change from Baseline to Week 8 in MADRS item 10 score for suicidal ideation based on observed cases (OC)||-0.07|-0.38|0.005
82602337|NCT01256177|164919928|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.26||||0.233|TWO_SIDED|95.0|0.03|2.38|||Regression, Logistic|Odds ratio between treatment groups was modeled by logistic regression adjusted for centre, strata and baseline score.|Quetiapine XR/Placebo|||2.38|0.03|0.233
82602338|NCT01110395|164919929|OTHER|Bland and Altman|Mean + SD|0.05|STANDARD_ERROR_OF_MEAN|1.96|||TWO_SIDED|||||Bland Altman|mean + SD|Bland Altman|We have provided all the information that is available to us. The PI has left the institution and we are unable to contact him. We have no further data to correct the errors.|We are unable to provide any further data that has been requested. We have supplied all the data that we can possibly provide because the PI has left the institution and we are unable to contact him. We have no other data.|There are no other statistical analysis. We have provided all the information that is available to us. We have no other data available to us because the PI has left the institution and we are unable to contact him.|||
82602339|NCT01110395|164919929|OTHER||||||<|0.05|||||||Mean + SD|||||||<0.05
82602340|NCT00849667|164919973|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4513|TWO_SIDED|95.0|0.81|1.21|||Log Rank|One-sided log rank test||||1.21|0.81|0.4513
82602341|NCT00849667|164919973|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0761|TWO_SIDED|95.0|0.7|1.06|||Log Rank|One-sided log rank test||||1.06|0.70|0.0761
82602342|NCT00849667|164919974|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.4823|TWO_SIDED|95.0|0.78|1.27|||Log Rank|One-sided log rank test||||1.27|0.78|0.4823
82602343|NCT00849667|164919974|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1616|TWO_SIDED|95.0|0.68|1.13|||Log Rank|One-sided log rank test||||1.13|0.68|0.1616
82602344|NCT00849667|164919975|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.2938|TWO_SIDED|95.0|0.72|1.21|||Log Rank|One-sided log-rank test||||1.21|0.72|0.2938
82602345|NCT00849667|164919975|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.0318|TWO_SIDED|95.0|0.58|1.02|||Log Rank|One-sided log-rank test||||1.02|0.58|0.0318
82602346|NCT00849667|164919976|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.5636|TWO_SIDED|95.0|0.85|1.21|||Log Rank|One-sided log-rank test||||1.21|0.85|0.5636
82602347|NCT00849667|164919976|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.156|TWO_SIDED|95.0|0.76|1.09|||Log Rank|One-sided log-rank test||||1.09|0.76|0.1560
82602348|NCT00849667|164919978|SUPERIORITY||Difference in percentage|1.8||||0.6864|TWO_SIDED|95.0|-5.4|9.0|||Cochran-Mantel-Haenszel|||||9.0|-5.4|0.6864
82602349|NCT00849667|164919978|SUPERIORITY||Difference in percentage|2.4||||0.4923|TWO_SIDED|95.0|-4.8|9.6|||Cochran-Mantel-Haenszel|||||9.6|-4.8|0.4923
82655896|NCT00090857|165027623|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Sample size for a detectable difference in the within participant change in bone density was calculated using standard deviations of one year change in bone density. Control estimates were 2.8% for spine and 3.85% for femoral neck. With 100 patients and 2:1 randomization (67 letrozole: 33 placebo), using a 1-sided Wilcoxon rank sum test with size 0.05, there is 80% power to detect as significant a true difference in change in the spine of 1.6% and in the femoral neck of 2.27%.||||0.06
82492220|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68||||0.595|TWO_SIDED|95.0|-1.84|3.2|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (1150 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||3.20|-1.84|0.5950
82602350|NCT00849667|164919981|SUPERIORITY||Difference in percentage|-0.4||||0.8106|TWO_SIDED|95.0|-4.9|4.1|||Cochran-Mantel-Haenszel|||50% serological response||4.1|-4.9|0.8106
82602351|NCT00849667|164919981|SUPERIORITY||Difference in percentage|5.1||||0.0064|TWO_SIDED|95.0|1.4|8.8|||Cochran-Mantel-Haenszel|||50% serological response||8.8|1.4|0.0064
82602352|NCT00849667|164919981|SUPERIORITY||Difference in percentage|4.1||||0.3005|TWO_SIDED|95.0|-2.0|10.2|||Cochran-Mantel-Haenszel|||75% serological response||10.2|-2.0|0.3005
82602353|NCT00849667|164919981|SUPERIORITY||Difference in percentage|3.7||||0.2445|TWO_SIDED|95.0|-2.5|9.9|||Cochran-Mantel-Haenszel|||75% serological response||9.9|-2.5|0.2445
82602354|NCT00849667|164919981|SUPERIORITY||Difference in percentage|5.3||||0.2797|TWO_SIDED|95.0|-2.8|13.4|||Cochran-Mantel-Haenszel|||Serologic response leading to normalization||13.4|-2.8|0.2797
82602355|NCT00849667|164919981|SUPERIORITY||Difference in percentage|4.9||||0.2136|TWO_SIDED|95.0|-3.2|13.0|||Cochran-Mantel-Haenszel|||Serologic response leading to normalization||13.0|-3.2|0.2136
82602356|NCT01262625|164920001|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|the pre-defined non-inferiority margin of 1.25|Hazard Ratio (HR)|1.03||||0.19|TWO_SIDED|95.0|0.61|1.75|||Regression, Cox|||||1.75|0.61|0.19
82602357|NCT01262625|164920002|SUPERIORITY|||||||0.08|||||||DeLong|(DeLong et al 1988)||||||0.08
82602358|NCT01262625|164920002|SUPERIORITY|||||||0.02|||||||DeLong|(DeLong et al 1988)||||||0.02
82602359|NCT04398732|164920020|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from Baseline in percent BSA at Month 12.||||0.0001
82602360|NCT04398732|164920021|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in DLQI at Month 12.||||0.0001
82602361|NCT04398732|164920022|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in PASI at Month 12.||||0.0001
82602362|NCT04398732|164920023|OTHER|||||||0.036|||||||Student's t-test|||Baseline||||0.036
82602363|NCT04398732|164920023|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
82602364|NCT04398732|164920023|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
82602365|NCT04398732|164920024|OTHER|||||||0.42|||||||Student's t-test|||Baseline||||0.42
82602366|NCT04398732|164920024|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
82602367|NCT04398732|164920024|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
82602368|NCT04398732|164920025|OTHER|||||||0.72|||||||Student's t-test|||Baseline||||0.72
82602369|NCT04398732|164920025|OTHER|||||||0.0001|||||||Student's t-test|||Month 4||||0.0001
82602370|NCT04398732|164920025|OTHER|||||||0.0001|||||||Student's t-test|||Month 12||||0.0001
82602371|NCT04398732|164920026|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from Baseline in percent BSA at Month 4.||||0.0001
82602372|NCT04398732|164920027|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in DLQI at Month 4.||||0.0001
82602373|NCT04398732|164920028|OTHER|||||||0.0001|||||||Student's t-test|||Statistical analysis was performed on change from baseline in PASI at Month 4.||||0.0001
82602374|NCT02086331|164920044|OTHER||||||||||||||||||Intraclass correlation of repeated measures - 0.96, p=0.08|||
82602375|NCT00510276|164920051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.82||||0.005|TWO_SIDED|95.0|1.44|8.2||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||8.20|1.44|0.005
82602376|NCT00510276|164920052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.9||||0.006|TWO_SIDED|95.0|1.68|10.12||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 relationship subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||10.12|1.68|0.006
82602377|NCT00510276|164920053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.73||||0.018|TWO_SIDED|95.0|1.0|10.46||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 relationship subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||10.46|1.00|0.018
82602378|NCT00510276|164920054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36||||0.034|TWO_SIDED|95.0|0.33|8.39||A gate-keeper strategy was applied to adjust for multiple tests.|Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 psychological health subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||8.39|0.33|0.034
82602379|NCT00510276|164920055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.4||||0.074|TWO_SIDED|95.0|-0.33|7.12||A gate-keeper strategy was applied to adjust for multiple tests.|ANCOVA|||Tested was the null hypothesis that there is no statistically significant difference in AAQOL-29 life outlook subscale score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||7.12|-0.33|0.074
82602380|NCT00510276|164920056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|||<|0.001|TWO_SIDED|95.0|-0.63|-0.24|||ANCOVA|ANCOVA with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in CGI-ADHD-S score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.24|-0.63|<0.001
82602381|NCT00510276|164920057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.04|||<|0.001|TWO_SIDED|95.0|-5.94|-2.15|||Mixed Models Analysis|||Tested was the null hypothesis that there is no statistically significant difference in CAARS-S:SV score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-2.15|-5.94|<0.001
82602382|NCT00510276|164920058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.02|TWO_SIDED|95.0|-0.45|-0.04|||ANCOVA|ANCOVA with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in PGI-I scores at 12-week endpoint between atomoxetine and placebo treatment groups.||-0.04|-0.45|0.020
82602383|NCT00510276|164920059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.282|TWO_SIDED|95.0|-1.19|0.35|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in MADRS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.35|-1.19|0.282
82602384|NCT00510276|164920060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.556|TWO_SIDED|95.0|-2.21|1.19|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in BAI score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||1.19|-2.21|0.556
82602385|NCT00510276|164920061|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Pearson's Correlation Coefficient|||Tested was the null hypothesis that AAQOL-29 total score and CAARS-Inv:SV total score are not correlated.||||<0.001
82602386|NCT00510276|164920062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.198|TWO_SIDED|95.0|-0.39|0.08|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of alcohol score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.08|-0.39|0.198
82602387|NCT00510276|164920063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.825|TWO_SIDED|95.0|-0.33|0.26|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of caffeine score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.26|-0.33|0.825
82602388|NCT00510276|164920065|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82||||0.233|TWO_SIDED|95.0|-0.53|2.17|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of nicotine score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||2.17|-0.53|0.233
82602389|NCT00510276|164920066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.676|TWO_SIDED|95.0|-0.24|0.37|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in TLFB incidence for use of marijuana score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.37|-0.24|0.676
82602390|NCT00510276|164920067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31||||0.382|TWO_SIDED|95.0|-1.0|0.39|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in Fagerstorm Test for Nicotine Dependence score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.39|-1.00|0.382
82602391|NCT00510276|164920068|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22||||0.656|TWO_SIDED|95.0|-1.24|0.78|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in SASS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.78|-1.24|0.656
82602392|NCT00510276|164920069|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.61||||0.201|TWO_SIDED|95.0|-4.08|0.86|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator.||Tested was the null hypothesis that there is no statistically significant difference in Driving Behavior Survey Self-Report score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.86|-4.08|0.201
82602393|NCT00510276|164920070|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.06|||<|0.001|TWO_SIDED|95.0|-7.39|-2.72|||Mixed Models Analysis|Adjusted for treatment, investigator, visit, treatment-by-visit interaction, baseline score, baseline score-by-visit interaction.||Tested was the null hypothesis that there is no difference in CAARS-Inv:SV score changes from baseline to 12-week endpoint between the atomoxetine group and the placebo group. With approximately 220 patients per arm, assuming a 68% completion rate and an estimated effect size of atomoxetine over placebo of 0.35, using a 5% significance level, the analysis was expected to have 90% power to detect a difference between atomoxetine and placebo at week 12.||-2.72|-7.39|<0.001
82602394|NCT00510276|164920071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.933|TWO_SIDED|95.0|-16.41|17.63|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in Driving Behavior Survey Other-Report score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||17.63|-16.41|0.933
82655897|NCT00090857|165027624|SUPERIORITY_OR_OTHER|||||||0.38|||||||Fisher Exact|||||||0.38
82655898|NCT00090857|165027625|SUPERIORITY_OR_OTHER|||||||0.02|||||||Fisher Exact|||||||0.02
82602395|NCT00510276|164920072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.95||||0.007|TWO_SIDED|95.0|-5.09|-0.81|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Behavioral regulation score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.81|-5.09|0.007
82602396|NCT00510276|164920073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58||||0.219|TWO_SIDED|95.0|-1.5|0.35|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A emotional control section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.35|-1.50|0.219
82602397|NCT00510276|164920074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.58||||0.002|TWO_SIDED|95.0|-12.37|-2.78|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A GEC section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-2.78|-12.37|0.002
82602398|NCT00510276|164920075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.644|TWO_SIDED|95.0|-0.47|0.29|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Inconsistency section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.29|-0.47|0.644
82602399|NCT00510276|164920076|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11||||0.097|TWO_SIDED|95.0|-0.02|0.25|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEFS-A infrequency score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.25|-0.02|0.097
82602400|NCT00510276|164920077|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97||||0.002|TWO_SIDED|95.0|-1.57|-0.37|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Inhibit Section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.37|-1.57|0.002
82602401|NCT00510276|164920078|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.67||||0.044|TWO_SIDED|95.0|-1.33|-0.02|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Initiate section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.02|-1.33|0.044
82602402|NCT00510276|164920079|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.49||||0.003|TWO_SIDED|95.0|-7.43|-1.55|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Metacognition section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-1.55|-7.43|0.003
82602403|NCT00510276|164920080|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.456|TWO_SIDED|95.0|-0.51|0.23|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A negativity section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.23|-0.51|0.456
82602404|NCT00510276|164920081|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65||||0.051|TWO_SIDED|95.0|-1.31|0.0|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Organization of Materials section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.00|-1.31|0.051
82602405|NCT00510276|164920082|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.002|TWO_SIDED|95.0|-2.19|-0.47|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Plan/Organize section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.47|-2.19|0.002
82602406|NCT00510276|164920083|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.045|TWO_SIDED|95.0|-1.04|-0.01|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A SHIFT section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.01|-1.04|0.045
82602407|NCT00510276|164920084|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83||||0.001|TWO_SIDED|95.0|-1.35|-0.32|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Self Monitor Section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.32|-1.35|0.001
82602408|NCT00510276|164920085|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71||||0.008|TWO_SIDED|95.0|-1.23|-0.19|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Task Monitor section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.19|-1.23|0.008
82655899|NCT00090857|165027626|SUPERIORITY_OR_OTHER|||||||0.2|||||||Fisher Exact|||||||0.20
82655900|NCT00090857|165027627|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||||||.88
82655901|NCT00090857|165027628|SUPERIORITY_OR_OTHER|||||||0.27|||||||Fisher Exact|||||||0.27
82655902|NCT00090857|165027629|SUPERIORITY_OR_OTHER|||||||0.6|||||||Fisher Exact|||||||.60
82655903|NCT00090857|165027630|SUPERIORITY_OR_OTHER|||||||0.58|||||||Fisher Exact|||||||.58
82655904|NCT00090857|165027631|SUPERIORITY_OR_OTHER|||||||0.49|||||||Fisher Exact|||||||.49
82655905|NCT05097326|165027632|OTHER|||||||0.44||||||a p-value \<0.05 would be considered statistically significant|Fisher Exact|||Analysis of total contractions||||0.44
82655906|NCT05097326|165027632|OTHER|||||||0.02||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Analysis of contractions per hour||||0.02
82655907|NCT05097326|165027633|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Comparison at 12 hours after labor induction||||0.04
82602409|NCT00510276|164920086|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|-1.98|-0.63|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in BRIEF-A Working Memory section score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||-0.63|-1.98|<0.001
82602410|NCT00510276|164920087|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.065|TWO_SIDED|95.0|-1.42|0.04|||ANCOVA|ANCOVA model with terms for baseline score, treatment, and investigator||Tested was the null hypothesis that there is no statistically significant difference in ESS score changes from baseline to 12-week endpoint between atomoxetine and placebo treatment groups.||0.04|-1.42|0.065
82602411|NCT00510276|164920088|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Cochran-Mantel-Haenszel|Tested was smoking status across treatment.||Tested was the null hypothesis that smoking status is not a predictor of response to atomoxetine treatment compared with placebo||||0.788
82602412|NCT00510276|164920089|SUPERIORITY_OR_OTHER|||||||0.482||95.0||||Tested was smoking status across treatment.|Cochran-Mantel-Haenszel|||Tested was the null hypothesis that smoking status is not a predictor of strong response to atomoxetine treatment compared with placebo||||0.482
82602413|NCT03486392|164920090|SUPERIORITY||Difference of least square (LS) Means|-6.75|STANDARD_ERROR_OF_MEAN|1.056|<|0.001|TWO_SIDED|95.0|-9.31|-4.19|||Dunnett's method|||||-4.19|-9.31|< 0.001
82602414|NCT03486392|164920090|SUPERIORITY||Difference of LS Means|-8.07|STANDARD_ERROR_OF_MEAN|0.921|<|0.001|TWO_SIDED|95.0|-10.31|-5.84|||Dunnett's method|||||-5.84|-10.31|< 0.001
82602415|NCT03486392|164920090|SUPERIORITY||Difference of LS Means|-10.04|STANDARD_ERROR_OF_MEAN|0.934|<|0.001|TWO_SIDED|95.0|-12.31|-7.78|||Dunnett's method|||||-7.78|-12.31|< 0.001
82602416|NCT03486392|164920090|SUPERIORITY||Difference of LS Means|-5.78|STANDARD_ERROR_OF_MEAN|0.91|<|0.001|TWO_SIDED|95.0|-7.99|-3.57|||Dunnett's method|||||-3.57|-7.99|< 0.001
82602417|NCT00331006|164920165|SUPERIORITY_OR_OTHER||Proportion|0.1875||||0.043|ONE_SIDED|95.0|0.053|||the a priori p-value was 0.05 for statistical significance|Exact Binomial|||The null hypothesis is that the proportion of participants in which the inhibitor level falls to less than 5 BU/mL between weeks 6 to 22 and remains below 5 BU/mL at 5-7 days following re-challenge with factor VIII is no more than 0.05|||.053|0.043
82602418|NCT00331006|164920166|SUPERIORITY_OR_OTHER||Proportion|0.25|||||TWO_SIDED|95.0|0.073|0.524|||Exact Binomial|||No hypothesis about the value of this proportion was specified in the study design||0.524|0.073|
82602419|NCT03213366|164920185|SUPERIORITY||Slope|-0.0095||||0.5783|TWO_SIDED|95.0|-0.04676|0.02776|||Mixed Models Analysis|||At 6 weeks.||0.02776|-0.04676|0.5783
82602420|NCT03213366|164920185|SUPERIORITY||Slope|-0.01692||||0.3185|TWO_SIDED|95.0|-0.05318|0.01933|||Mixed Models Analysis|||At 12 weeks.||0.01933|-0.05318|0.3185
82602421|NCT03213366|164920186|SUPERIORITY||Slope|0.03674||||0.07863|TWO_SIDED|95.0|-0.00516|0.07863|||Mixed Models Analysis|||At 6 weeks.||0.07863|-0.00516|0.07863
82655908|NCT05097326|165027633|OTHER|||||||0.17||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||Comparison of uterine tachysystole of total labor duration||||0.17
82602422|NCT03213366|164920186|SUPERIORITY||Slope|0.02594||||0.1999|TWO_SIDED|95.0|-0.01648|0.06836|||Mixed Models Analysis|||At 12 weeks.||0.06836|-0.01648|0.1999
82602423|NCT03213366|164920187|SUPERIORITY||Slope|0.000443||||0.8963|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.8963
82602424|NCT03213366|164920187|SUPERIORITY||Slope|0.004308||||0.3229|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks||||0.3229
82602425|NCT03213366|164920188|SUPERIORITY||Slope|0.008705||||0.2433|TWO_SIDED|||||This t-test was for the random effects model not for comparing the difference between the arms.|Mixed Models Analysis|||||||0.2433
82602426|NCT03213366|164920188|SUPERIORITY||Slope|0.01358||||0.0839|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0839
82602427|NCT03213366|164920189|SUPERIORITY||Slope|-0.302||||0.2114|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.2114
82602428|NCT03213366|164920189|SUPERIORITY||Slope|-0.03149||||0.2141|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.2141
82602429|NCT03213366|164920190|SUPERIORITY||Slope|0.0278||||0.0124|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.0124
82602430|NCT03213366|164920190|SUPERIORITY||Slope|0.03052||||0.0022|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0022
82602431|NCT03213366|164920191|SUPERIORITY||Slope|-0.05747||||0.1021|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.1021
82602432|NCT03213366|164920191|SUPERIORITY||Slope|-0.05101||||0.133|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.133
82602433|NCT03213366|164920192|SUPERIORITY||Slope|-0.0209||||0.0818|TWO_SIDED||||||Mixed Models Analysis|||At 6 weeks.||||0.0818
82602434|NCT03213366|164920192|SUPERIORITY||Slope|0.03103||||0.0334|TWO_SIDED||||||Mixed Models Analysis|||At 12 weeks.||||0.0334
82602435|NCT02532855|164920201|NON_INFERIORITY|For the primary hypothesis, sitagliptin will be considered non-inferior to dapagliflozin if the upper bound of the two-sided 95% confidence interval (CI) of the between-group difference in least squares mean change from baseline in A1C (sitagliptin minus dapagliflozin) is less than 0.3% (the non-inferiority margin). Longitudinal data analysis (LDA), Antihyperglycemic agent (AHA), Least squares means (LSM)|Difference in LSM (Sit. - Dap.)|-0.15|||||TWO_SIDED|95.0|-0.26|-0.04||||LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||-0.04|-0.26|
82602436|NCT02532855|164920201|SUPERIORITY||Difference in LSM (Sit. - Dap.)|-0.15||||0.006|TWO_SIDED|95.0|-0.26|-0.04|||Longitudinal data analysis|LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||-0.04|-0.26|0.006
82602437|NCT02532855|164920202|OTHER||Difference in % (Sit. - Dap.)|-2.8|||||TWO_SIDED|95.0|-10.7|5.1||||Miettinen \& Nurminen method||||5.1|-10.7|
82602438|NCT02532855|164920203|OTHER||Difference in % (Sit. - Dap.)|0.0|||||TWO_SIDED|95.0|-3.0|3.0||||Miettinen \& Nurminen method||||3.0|-3.0|
82655909|NCT05097326|165027634|OTHER|||||||0.63||||||a p-value \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.63
82655910|NCT05097326|165027635|OTHER|||||||0.01||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.01
82655911|NCT05097326|165027636|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison at complete cervical dilation||||0.04
82655912|NCT05097326|165027637|OTHER|||||||0.04||||||a p-value of \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||Comparison at postpartum transfer||||0.04
82655913|NCT05097326|165027638|OTHER|||||||0.68||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||0.68
82655914|NCT05097326|165027639|OTHER|||||||1||||||A p-value of \<0.05 would be considered significant.|Fisher Exact|||||||1
82602439|NCT02532855|164920204|SUPERIORITY||Difference in LSM (Sit. - Dap.)|-5.7||||0.138|TWO_SIDED|95.0|-13.3|1.8|||LDA|LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||1.8|-13.3|0.138
82602440|NCT02532855|164920205|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|-3.4|||||TWO_SIDED|95.0|-12.1|5.3||||The ANCOVA model included terms for treatment, background AHA, and the baseline 2-hour PPG value as a covariate.||||5.3|-12.1|
82602441|NCT02532855|164920206|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|-4.4|||||TWO_SIDED|95.0|-10.1|1.4||||The ANCOVA model included terms for treatment, background AHA, and the baseline glucagon AUC value as a covariate.||||1.4|-10.1|
82602442|NCT02532855|164920207|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|4.9|||||TWO_SIDED|95.0|-12.2|22.0||||The ANCOVA model included terms for treatment, background AHA, and the baseline insulin AUC value as a covariate.||||22.0|-12.2|
82602443|NCT02532855|164920208|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|0.6|||||TWO_SIDED|95.0|-0.1|1.3||||The ANCOVA model included terms for treatment, background AHA, and the baseline insulin AUC to glucagon AUC ratio value as a covariate.||||1.3|-0.1|
82602444|NCT02532855|164920209|OTHER|The percentage of participants was estimated using standard multiple imputation techniques from LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.|Difference in % (Sit. - Dap.)|15.5|||||TWO_SIDED|95.0|7.7|23.2||||Miettinen and Nurminen (M\&N) method with multiple imputation from a LDA Model.||||23.2|7.7|
82602445|NCT02532855|164920210|SUPERIORITY||Difference in the LSM (Sit. - Dap.)|3.5|||||TWO_SIDED|95.0|-1.2|8.3||||LDA model including terms for treatment, time, background AHA, the interaction of time and background AHA, and the interaction of time by treatment.||||8.3|-1.2|
82602446|NCT00666926|164920224|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|155.66|||||TWO_SIDED|90.0|109.66|220.95|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||220.95|109.66|
82602447|NCT00666926|164920225|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|315.72|||||TWO_SIDED|90.0|227.6|437.97|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||437.97|227.60|
82602448|NCT00666926|164920226|SUPERIORITY_OR_OTHER||Ratio (percent) test / reference|496.63|||||TWO_SIDED|90.0|206.24|1195.92|||||Ratio of adjusted geometric means Day 21 versus Day 1. Values have been transformed from the log scale.|Participants in the PF-00562271 125 mg BID cohort who received MDZ (test) administered prior to PF-00562271 (reference) dosing.||1195.92|206.24|
82602449|NCT01960855|164920235|OTHER||||||=|0.033|||||||Chi-squared|||||||= 0.033
82602450|NCT01960855|164920235|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
82602451|NCT01960855|164920235|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
82602452|NCT01960855|164920235|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
82602453|NCT01960855|164920236|OTHER||||||=|0.364|||||||Chi-squared|||||||= 0.364
82602454|NCT01960855|164920236|OTHER||||||=|0.014|||||||Chi-squared|||||||= 0.014
82602455|NCT01960855|164920236|OTHER||||||=|0.003|||||||Chi-squared|||||||= 0.003
82602456|NCT01960855|164920236|OTHER||||||=|0.008|||||||Chi-squared|||||||= 0.008
82602457|NCT01960855|164920237|OTHER||||||=|0.093|||||||Chi-squared|||||||= 0.093
82602458|NCT01960855|164920237|OTHER||||||<|0.001|||||||Chi-squared|||||||< 0.001
82602459|NCT01960855|164920237|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
82602460|NCT01960855|164920237|OTHER||||||=|0.004|||||||Chi-squared|||||||= 0.004
82602461|NCT01960855|164920238|OTHER||||||=|0.366|||||||Chi-squared|||||||= 0.366
82602462|NCT01960855|164920238|OTHER||||||=|0.17|||||||Chi-squared|||||||= 0.17
82602463|NCT01960855|164920238|OTHER||||||=|0.003|||||||Chi-squared|||||||= 0.003
82602464|NCT01960855|164920238|OTHER||||||=|0.028|||||||Chi-squared|||||||= 0.028
82602465|NCT01960855|164920239|OTHER||||||=|0.126|||||||Chi-squared|||||||= 0.126
82602466|NCT01960855|164920239|OTHER||||||=|0.072|||||||Chi-squared|||||||= 0.072
82602467|NCT01960855|164920239|OTHER||||||=|0.012|||||||Chi-squared|||||||= 0.012
82602468|NCT01960855|164920239|OTHER||||||=|0.021|||||||Chi-squared|||||||= 0.021
82602469|NCT02058147|164920240|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|-0.898|-0.665||Threshold for significance ≤0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Analysis was performed using Mixed-effect model with repeated measures (MMRM) with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction as a covariate.||-0.665|-0.898|<0.0001
82602470|NCT02058147|164920240|NON_INFERIORITY_OR_EQUIVALENCE|Predefined non-inferiority margin of 0.3%.|LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.048|||TWO_SIDED|95.0|-0.384|-0.194|||Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction as a covariate.||-0.194|-0.384|
82655915|NCT05097326|165027640|OTHER|||||||1||||||a p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||1
82655916|NCT05097326|165027641|OTHER|||||||0.9||||||A p-value \<0.05 would be considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.90
82655917|NCT05097326|165027642|OTHER|||||||0.17||||||a p-value \<0.05 would be considered statistically significant|Fisher Exact|||1 minute APGAR score||||0.17
82655918|NCT05097326|165027642|OTHER|||||||1||||||A p-value of \<0.05 would be statistically significant.|Fisher Exact|||APGAR score at 5 minutes||||1
82655919|NCT05097326|165027643|OTHER|||||||0.22||||||A p-value of \<0.05 would be considered statistically significant|Fisher Exact|||||||0.22
82655920|NCT01244126|165027644|SUPERIORITY_OR_OTHER||Kruskall Wallis ANOVA by ranks|0.21|STANDARD_DEVIATION|3.0||0.21|TWO_SIDED|95.0|||||Kruskal-Wallis|||The primary outcome of the study was the maximum postoperative FLACC pain score.||||0.21
82602471|NCT02058147|164920240|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.048|<|0.0001|TWO_SIDED|95.0|-0.384|-0.194||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Test of superiority was also performed as a secondary endpoint according to hierarchical testing procedure. Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline HbA1c value-by-visit interaction, as a covariate.||-0.194|-0.384|<0.0001
82602472|NCT02058147|164920241|SUPERIORITY_OR_OTHER||Difference in percentage|40.61|||<|0.0001|TWO_SIDED|95.0|33.63|47.59||Threshold for significance ≤0.05.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||47.59|33.63|<0.0001
82602473|NCT02058147|164920241|SUPERIORITY_OR_OTHER||Difference in percentage|36.38|||<|0.0001|TWO_SIDED|95.0|29.81|42.95||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Lixisenatide.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||42.95|29.81|<0.0001
82602474|NCT02058147|164920241|SUPERIORITY_OR_OTHER||Difference in percentage|14.31|||<|0.0001|TWO_SIDED|95.0|8.37|20.25||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|"HbA1c \<7.0%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||20.25|8.37|<0.0001
82602475|NCT02058147|164920241|SUPERIORITY_OR_OTHER||Difference in percentage|16.35|||<|0.0001|TWO_SIDED|95.0|10.13|22.58||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|"HbA1c ≤6.5%: Insulin Glargine/Lixisenatide FRC vs Insulin glargine.~Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening. This analysis was out of testing order."||22.58|10.13|<0.0001
82602476|NCT02058147|164920242|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.185|<|0.0001|TWO_SIDED|95.0|-2.498|-1.77||Threshold for significance ≤0.05. The hierarchical testing continued only when primary hypotheses (superiority: FRC to lixisenatide; non-inferiority: FRC to insulin glargine for HbA1c) was statistically significant.|ANCOVA||Insulin Glargine/Lixisenatide FRC vs Insulin glargine.|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0,≥8.0%), randomization strata of second OAD use at screening \& country as fixed effects \& baseline plasma glucose excursion value as a covariate. Hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially per pre-specified order.||-1.77|-2.498|<0.0001
82602477|NCT02058147|164920243|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-1.891|-0.91||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline body weight value-by-visit interaction as a covariate.||-0.91|-1.891|<0.0001
82655921|NCT01244126|165027645|SUPERIORITY_OR_OTHER||Kruskall Wallis ANOVA|0.34||||0.34||95.0|||||Kruskal-Wallis|||Kruskall Wallis test||||0.34
82602478|NCT02058147|164920244|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.144|<|0.0001|TWO_SIDED|95.0|-2.246|-1.682||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline FPG value-by-visit interaction as a covariate.||-1.682|-2.246|<0.0001
82655922|NCT05920161|165027646|SUPERIORITY|||||||0.023|||||||t-test, 1 sided|||||||0.023
82655923|NCT05920161|165027646|SUPERIORITY|||||||0.068|||||||t-test, 1 sided|||||||0.068
82655924|NCT05920161|165027647|SUPERIORITY|||||||0.281|||||||t-test, 1 sided|||Within-group A - B (null \>0)||||0.281
82655925|NCT05920161|165027647|SUPERIORITY|||||||0.645|||||||t-test, 1 sided|||Within-group A - B (null \>0)||||0.645
82655926|NCT05920161|165027647|SUPERIORITY|||||||0.245|||||||t-test, 2 sided|||Between-group comparison||||0.245
82655927|NCT05920161|165027648|SUPERIORITY|||||||0.143|||||||t-test, 1 sided|||||||0.143
82655928|NCT05920161|165027648|SUPERIORITY|||||||0.797||||||above chance 0.5|t-test, 1 sided|||||||0.797
82655929|NCT05920161|165027648|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||0.087
82655930|NCT05920161|165027649|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||A condition||||<0.0001
82655931|NCT05920161|165027649|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||B condition||||<0.0001
82655932|NCT05920161|165027649|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||X condition||||<0.0001
82655933|NCT05920161|165027650|SUPERIORITY||||||<|0|||||||t-test, 1 sided|||||||< 0.000
82655934|NCT05920161|165027650|SUPERIORITY|||||||0.0008|||||||t-test, 1 sided|||||||0.0008
82655935|NCT05920161|165027651|SUPERIORITY|||||||0.083|||||||t-test, 1 sided|||||||0.083
82655936|NCT05920161|165027651|SUPERIORITY|||||||0.088|||||||t-test, 1 sided|||||||0.088
82655937|NCT02424188|165027653|SUPERIORITY||Odds Ratio (OR)|5.9|||||TWO_SIDED|95.0|2.3|15.4||||||||15.4|2.3|
82655938|NCT02424188|165027654|SUPERIORITY||Odds Ratio (OR)|3.9|||||TWO_SIDED|95.0|1.2|12.3||||||||12.3|1.2|
82655939|NCT02424188|165027655|SUPERIORITY||Odds Ratio (OR)|4.8|||||TWO_SIDED|95.0|1.3|17.5||||||6 month comparison||17.5|1.3|
82655940|NCT02424188|165027655|SUPERIORITY||Odds Ratio (OR)|10.8|||||TWO_SIDED|95.0|2.4|48.6||||||12 month||48.6|2.4|
82602479|NCT02058147|164920245|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001|TWO_SIDED|95.0|-1.645|-1.158||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Lixisenatide|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline 7-point SMPG value-by-visit interaction as a covariate.||-1.158|-1.645|<0.0001
82602480|NCT02058147|164920245|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.101|<|0.0001|TWO_SIDED|95.0|-0.892|-0.495||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects and baseline 7-point SMPG value-by-visit interaction, as a covariate.||-0.495|-0.892|<0.0001
82602481|NCT02058147|164920246|SUPERIORITY_OR_OTHER||Difference in percentage|18.08|||<|0.0001|TWO_SIDED|95.0|12.15|24.01||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8%, ≥8%) and randomization strata of second OAD use at screening.||24.01|12.15|<0.0001
82602482|NCT02058147|164920247|SUPERIORITY_OR_OTHER||Difference in percentage|12.98|||<|0.0001|TWO_SIDED|95.0|7.5|18.45||Threshold for significance ≤ 0.05.|Cochran-Mantel-Haenszel||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using Cochran-Mantel-Haenszel method stratified on randomization strata of Week -1 HbA1c (\<8.0%, ≥8.0%) and randomization strata of second OAD use at screening.||18.45|7.5|< 0.0001
82602483|NCT02058147|164920248|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.99||0.4857|TWO_SIDED|95.0|-2.632|1.252||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Insulin Glargine/Lixisenatide FRC vs Insulin Glargine|Testing according to the hierarchical testing procedure (continued only if previous endpoints were statistically significant). Analysis was performed using MMRM model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of second OAD use at screening, visits, treatment-by-visit interaction, and country as fixed effects.||1.252|-2.632|0.4857
82602484|NCT01486199|164920290|EQUIVALENCE|alpha=0.05||||||0.002|||||||t-test, 2 sided|||Comparing absorptive clearance in CF children vs adult controls||||0.002
82602485|NCT01486199|164920291|EQUIVALENCE|alpha = 0.05||||||0.2|||||||t-test, 2 sided|||Comparison of mucociliary clearance in CF children compared to healthy adults||||0.20
82602486|NCT01486199|164920292|EQUIVALENCE|alpha=0.05||||||0.24|||||||Wilcoxon (Mann-Whitney)|||Comparing absorptive clearance at t=0 vs t=2 years in pediatric CF subjects||||0.24
82602487|NCT01486199|164920293|EQUIVALENCE|alpha=0.05||||||0.87|||||||Wilcoxon (Mann-Whitney)|||Comparing mucociliary clearance at t=0 and t=2yrs in pediatric CF subjects||||0.87
82655941|NCT02424188|165027657|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-1.7|2.3||||||6 months||2.3|-1.7|
82602488|NCT00508391|164920338|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis utilized an objective performance criteria of 63% with a clinically significant difference of 12%. For the non-inferiority hypothesis, the one-sided Type I error was set to 0.05 and the statistical power was set to 80%.|Objective Performance Criteria|63.0|||||ONE_SIDED|95.0|54.8||||Non-inferiority comparison|||"Efficacy was assessed in a non-inferiority, responder classification design where the proportion of total subjects classified as not worsened after changing from optimized to simultaneous biventricular pacing was compared to an objective performance criteria.~An effect of gender analysis was performed on the primary efficacy endpoint to compare the proportion of males and females classified as not worsened after changing from optimized to simultaneous biventricular pacing."|||54.8|
82602489|NCT00508391|164920339|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority hypothesis has a one-sided Type I error of 0.05 with an 80% statistical power.|Objective Performance Criteria|100.0|||||ONE_SIDED|95.0|97.6||||Non-inferiority comparison|||Safety will be evaluated in a non-inferiority format. The null hypothesis is the percent of subjects that did not experience an adverse event with an active interventricular delay feature at two months is inferior to 90% with a clinically significant difference of 10%|||97.6|
82602490|NCT00670007|164920363|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.279|||=|0.752|TWO_SIDED|95.0|-1.089|0.53||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% confidence interval \[CI\] being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for TLC + FRC combined) was a linear random regression model with country, inspiration state, time since Day 1 \[CE1226\_4001\], and treatment-by time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.530|-1.089|= 0.752
82602491|NCT00670007|164920363|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.371|||=|0.823|TWO_SIDED|95.0|-1.159|0.417||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% CI being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for TLC) was a linear random regression model with country, time since Day 1 \[CE1226\_4001\], and treatment-by-time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.417|-1.159|= 0.823
82655942|NCT02424188|165027657|SUPERIORITY||Mean Difference (Net)|1.6|||||TWO_SIDED|95.0|-1.5|4.7||||||18 months||4.7|-1.5|
82655943|NCT02424188|165027658|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.6|1.5||||||||1.5|-0.6|
82655944|NCT02424188|165027660|SUPERIORITY||Mean Difference (Net)|-16.2|||||TWO_SIDED|95.0|-30.2|-2.3||||||||-2.3|-30.2|
82655945|NCT02753842|165027667|SUPERIORITY||Mean Difference (Final Values)|1.39|||<|0.05|TWO_SIDED|95.0|0.52|2.26||The a priori threshold was p\<0.05.|Mixed Models Analysis|||Comparing fitted to standard condoms, the null hypothesis was no difference in pleasure.||2.26|0.52|<0.05
82602492|NCT00670007|164920363|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.176|||=|0.648|TWO_SIDED|95.0|-1.09|0.738||A 1-sided P-value \< 0.025 and a positive estimate of the treatment difference Early Start minus Delayed Start (ie, the lower bound of the 95% CI being \> zero) will indicate superiority of Early Start compared with Delayed Start.|Regression, Linear|||Analysis of the annual rate of change in lung density (for FRC) was a linear random regression model with country, time since Day 1 \[CE1226\_4001\], and treatment-by-time interaction as fixed effects and subject and subject-by-time interaction as random coefficients at a 1-sided significance level of 0.025.||0.738|-1.09|= 0.648
82602493|NCT00670007|164920364|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.53||||0.526|TWO_SIDED|95.0|-2.179|1.12||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for TLC + FRC combined) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect.||1.120|-2.179|0.526
82602494|NCT00670007|164920364|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.486||||0.558|TWO_SIDED|95.0|-2.126|1.154||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for TLC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||1.154|-2.126|0.558
82602495|NCT00670007|164920364|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.019||||0.984|TWO_SIDED|95.0|-1.858|1.895||Two-sided P-value|ANCOVA|||Analysis of the change in lung density (for FRC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||1.895|-1.858|0.984
82602496|NCT00670007|164920365|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|0.294||||0.883|TWO_SIDED|95.0|-3.645|4.233||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for TLC + FRC combined) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects and inspiration state as a repeated random effect.||4.233|-3.645|0.883
82602497|NCT00670007|164920365|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|-0.151||||0.941|TWO_SIDED|95.0|-4.172|3.87||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for TLC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||3.870|-4.172|0.941
82602498|NCT00670007|164920365|SUPERIORITY_OR_OTHER||Difference in lung density(adjusted P15)|1.787||||0.404|TWO_SIDED|95.0|-2.44|6.014||Two-sided P-value|ANCOVA|||Analysis of the percent change in lung density (for FRC) from baseline to 2 years was analyzed using an ANCOVA model with country, treatment, and baseline lung density as fixed effects.||6.014|-2.440|0.404
82602499|NCT00778830|164920403|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3176|||||TWO_SIDED|95.0|0.8078|2.1491||||||||2.1491|0.8078|
82602500|NCT01542307|164920414|SUPERIORITY_OR_OTHER|||||||0.674|||||||Wilcoxon (Mann-Whitney)|||||||0.674
82602501|NCT01542307|164920415|SUPERIORITY_OR_OTHER|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82602502|NCT01542307|164920416|SUPERIORITY_OR_OTHER|||||||0.38|||||||Wilcoxon (Mann-Whitney)|||||||0.38
82602503|NCT01542307|164920417|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82602504|NCT01542307|164920418|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||0.05
82602505|NCT01542307|164920419|SUPERIORITY_OR_OTHER|||||||0.004|||||||Fisher Exact|||||||0.004
82602506|NCT01542307|164920420|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82602507|NCT01542307|164920421|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fisher Exact|||||||0.16
82602508|NCT02591615|164920422|SUPERIORITY|||||||0.2176|||||||Fisher Exact|||||||0.2176
82602509|NCT02591615|164920423|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.84|TWO_SIDED|95.0|0.67|1.64|||Log Rank|||||1.64|0.67|0.84
82602510|NCT02863068|164920431|SUPERIORITY|||||||0.2967||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS for all participants between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for all participants.||||0.2967
82602511|NCT02863068|164920432|SUPERIORITY|||||||0.2818||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS)||||0.2818
82602512|NCT02863068|164920432|SUPERIORITY|||||||1|||||||Fisher Exact|Fisher's exact test was used to test for differences in frequencies between treatment arms||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms||||1.0
82602513|NCT02863068|164920433|SUPERIORITY|||||||0.3754||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms using a Wilcoxon signed rank test|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS)||||0.3754
82602514|NCT02863068|164920435|SUPERIORITY|||||||0.1165||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.1165
82602515|NCT02863068|164920435|SUPERIORITY|||||||0.4583||||||A matched pairs design was employed to test for changes in methemoglobin at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in methemoglobin from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.4583
82602516|NCT02863068|164920436|SUPERIORITY|||||||0.068||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.068
82602517|NCT02863068|164920436|SUPERIORITY|||||||0.5||||||A matched pairs design was employed to test for changes in total ulcerated surface area at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in total ulcerated surface area from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.5
82602518|NCT02863068|164920436|SUPERIORITY|||||||1|||||||Fisher Exact|Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants on Hydroxyurea (HU).||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants on Hydroxyurea (HU).||||1.0
82602519|NCT02863068|164920436|SUPERIORITY|||||||1|||||||Fisher Exact|Fisher's exact test was used to test for differences in frequencies between treatment arms for participants off Hydroxyurea (HU).||Difference in frequency of 25% total ulcerated surface area reduction between treatment arms for participants off Hydroxyurea (HU).||||1.0
82602520|NCT02863068|164920437|SUPERIORITY|||||||0.4298||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms for participants on Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS) for participants on Hydroxyurea (HU).||||0.4298
82602521|NCT02863068|164920437|SUPERIORITY|||||||0.2701||||||A matched pairs design was employed to test for changes in average pain at baseline and EOS between treatment arms for participants off Hydroxyurea (HU) using a Wilcoxon signed rank test.|Wilcoxon (Mann-Whitney)|||Change in average pain from baseline to end of study (EOS) for participants off Hydroxyurea (HU).||||0.2701
82602522|NCT01734655|164920440|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
82602523|NCT01734655|164920441|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
82602524|NCT01734655|164920442|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||correlation analysis|||||||<.01
82602525|NCT03932799|164920444|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, coronavirus disease (COVID)-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, and health care utilization during baseline period/acute phase.|Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.16|0.38||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Robust variance estimates"||0.38|0.16|<.001
82602526|NCT03932799|164920445|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, COVID-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, health care utilization during baseline period/acute phase, and time indicator for each time period (0,1,2).|Odds Ratio (OR)|0.83||||0.43|TWO_SIDED|95.0|0.53|1.31||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Generalized estimating equation|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Outcome modeled longitudinally over the 3 time periods (3-6, 6-9, and 9-12 months)~* Time periods clustered at the individual worker level~* Exchangeable working correlation structure~* Robust variance estimates"||1.31|0.53|.43
82602527|NCT03932799|164920448|SUPERIORITY|Adjusted for workers' compensation-based covariates: age, gender, urban/rural residence, COVID-19 era injury, days from injury to Report of Accident, injury type, injury complexity/severity, days from injury to first opioid prescription, more than 7 days of opioids in acute phase, health care utilization during baseline period/acute phase, and time indicator for each time period (0,1,2).|Odds Ratio (OR)|3.04||||0.002|TWO_SIDED|95.0|1.5|6.14||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Generalized estimating equation|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Outcome modeled longitudinally over the 3 time periods (3-6, 6-9, and 9-12 months)~* Time periods clustered at the individual worker level~* Exchangeable working correlation structure~* Robust variance estimates"||6.14|1.50|.002
82602528|NCT03932799|164920449|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey covariates: days from injury to baseline survey, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and physical therapy (PT) utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, quality of life.|Odds Ratio (OR)|0.97||||0.84|TWO_SIDED|95.0|0.71|1.32||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.32|0.71|.84
82602529|NCT03932799|164920450|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.03||||0.88|TWO_SIDED|95.0|0.71|1.49||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.49|0.71|.88
82602530|NCT03932799|164920451|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.74||||0.15|TWO_SIDED|95.0|0.49|1.11||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.11|0.49|.15
82602531|NCT03932799|164920452|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.85||||0.38|TWO_SIDED|95.0|0.6|1.21||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.21|0.60|.38
82655946|NCT02753842|165027668|SUPERIORITY||Odds Ratio (OR)|1.13|||>|0.05|TWO_SIDED|95.0|0.92|1.38|||Mixed Models Analysis|||A single item assessed whether participants preferred fitted condoms or standard condoms at the end of the study (the item word viewed by participants used the blinded identifiers of each condom type).||1.38|0.92|>0.05
82602532|NCT03932799|164920453|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.44||||0.12|TWO_SIDED|95.0|0.91|2.28||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Leisure or social activities outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.28|0.91|.12
82602533|NCT03932799|164920453|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.23||||0.42|TWO_SIDED|95.0|0.74|2.07||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Getting out with friends or family outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.07|0.74|.42
82602534|NCT03932799|164920453|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.98||||0.91|TWO_SIDED|95.0|0.63|1.51||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Doing household chores outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.51|0.63|.91
82602535|NCT03932799|164920453|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.19||||0.59|TWO_SIDED|95.0|0.64|2.21||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Using transportation outcome~* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||2.21|0.64|.59
82602536|NCT03932799|164920454|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.24||||0.22|TWO_SIDED|95.0|0.88|1.75||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.75|0.88|.22
82602537|NCT03932799|164920455|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.97||||0.02|TWO_SIDED|95.0|1.12|3.47||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||3.47|1.12|.02
82602538|NCT03932799|164920456|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|1.32||||0.1|TWO_SIDED|95.0|0.95|1.83||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.83|0.95|.10
82602539|NCT03932799|164920458|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|-0.01||||0.53|TWO_SIDED|95.0|-0.03|0.01||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.01|-0.03|.53
82655947|NCT02753842|165027670|SUPERIORITY||Odds Ratio (OR)|0.93|||>|0.05|TWO_SIDED|95.0|0.27|3.24|||logistic mixed effects model|||We assessed clinical condom failure for anal sex, comparing anal sex acts with fitted condoms to anal sex acts with standard condoms.||3.24|0.27|>0.05
82655948|NCT02753842|165027671|SUPERIORITY||Median Difference (Final Values)|1.06|||<|0.05|TWO_SIDED|95.0|0.18|1.94||The a priori threshold was p\<0.05.|Mixed Models Analysis|||Comparing thin to standard condoms, the null hypothesis was no difference in pleasure.||1.94|0.18|<0.05
82655949|NCT01494506|165027672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9416|TWO_SIDED|95.0|0.77|1.28|||Log Rank|Unstratified logrank test.||||1.28|0.77|0.9416
82655950|NCT01494506|165027672|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.012|TWO_SIDED|95.0|0.49|0.92|||Log Rank|Unstratified logrank test.||||0.92|0.49|0.012
82655951|NCT01494506|165027673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.1|TWO_SIDED|95.0|0.63|1.04|||Log Rank|||||1.04|0.63|0.100
82655952|NCT01494506|165027673|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.41|0.75|||Log Rank|||||0.75|0.41|<0.001
82602540|NCT03932799|164920459|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|0.16||||0.053|TWO_SIDED|95.0|0.0|0.32||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.32|-0.00|.053
82602541|NCT03932799|164920460|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|beta|0.22||||0.01|TWO_SIDED|95.0|0.05|0.38||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||0.38|0.05|.01
82602542|NCT03932799|164920461|SUPERIORITY|Adjusted for same covariates as primary outcomes, plus survey-based covariates: days from injury to baseline survey date, education, household income, race/ethnicity, working for pay, recovery expectations, anxious symptoms, depressive symptoms, pre-injury opioid, chiropractic and PT utilization during baseline period/acute phase, cannabis for injury pain, alcohol misuse risk, current tobacco use, pain intensity/interference, Functional Comorbidity Index, health status, and quality of life.|Odds Ratio (OR)|0.76||||0.35|TWO_SIDED|95.0|0.42|1.35||"* two-tailed test~* p-values \< 0.05 are statistically significant"|Regression, Logistic|||"* Primary predictor is binary (1 for Washington, 0 for Ohio)~* Models survey weighted~* Robust variance estimates"||1.35|0.42|.35
82602543|NCT02613208|164920478|OTHER|Correlation analysis|Spearman coefficient|0.392|||<|0.001|||||||Spearman's correlation analysis|||Correlation between CTC and CEA level considering baseline CTC count||||<0.001
82602544|NCT02613208|164920478|OTHER|Correlation analysis|Spearman coefficient|0.088||||0.444|||||||Spearman's correlation analysis|||Correlation between CTC and CEA level considering CTC count at cycle 2||||0.444
82602545|NCT02613208|164920480|OTHER|Correlation analysis|Spearman coefficient|0.373|||<|0.001|||||||Spearman's correlation analysis|||Correlation between CTC and CA 15.3 level considering baseline CTC count||||<0.001
82602546|NCT02613208|164920480|OTHER|Correlation analysis|Spearman coefficient|0.129||||0.241|||||||Spearman's correlation analysis|||Correlation between CTC and CA 15.3 level considering CTC count at cycle 2||||0.241
82602547|NCT01400932|164920536|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.0|||<|0.001|TWO_SIDED|95.0|-26.2|-15.8|||ANCOVA|||||-15.8|-26.2|<0.001
82602548|NCT01400932|164920537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1|ANCOVA|||||||<0.001
82602549|NCT01400932|164920537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2|ANCOVA|||||||<0.001
82602550|NCT01400932|164920537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4|ANCOVA|||||||<0.001
82602551|NCT01400932|164920537|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8|ANCOVA|||||||<0.001
82602552|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; IL|ANCOVA|||||||<0.001
82602553|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; IL|ANCOVA|||||||<0.001
82602554|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; IL|ANCOVA|||||||<0.001
82602555|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; IL|ANCOVA|||||||<0.001
82602556|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; IL|ANCOVA|||||||<0.001
82602557|NCT01400932|164920538|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Week 1; NIL|ANCOVA|||||||0.007
82602558|NCT01400932|164920538|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||Week 2; NIL|ANCOVA|||||||0.008
82602559|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; NIL|ANCOVA|||||||<0.001
82602560|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; NIL|ANCOVA|||||||<0.001
82602561|NCT01400932|164920538|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; NIL|ANCOVA|||||||<0.001
82602562|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; Total|ANCOVA|||||||<0.001
82602563|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; Total|ANCOVA|||||||<0.001
82602564|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; Total|ANCOVA|||||||<0.001
82602565|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; Total|ANCOVA|||||||<0.001
82602566|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; Total|ANCOVA|||||||<0.001
82602567|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1; IL|ANCOVA|||||||<0.001
82602568|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; IL|ANCOVA|||||||<0.001
82602569|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; IL|ANCOVA|||||||<0.001
82602570|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; IL|ANCOVA|||||||<0.001
82602571|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; IL|ANCOVA|||||||<0.001
82602572|NCT01400932|164920539|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||Week 1; NIL|ANCOVA|||||||0.002
82602573|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2; NIL|ANCOVA|||||||<0.001
82602574|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4; NIL|ANCOVA|||||||<0.001
82602575|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8; NIL|ANCOVA|||||||<0.001
82602576|NCT01400932|164920539|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12; NIL|ANCOVA|||||||<0.001
82602577|NCT01400932|164920540|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82602578|NCT01400932|164920541|SUPERIORITY_OR_OTHER|||||||0.174||95.0||||Week 1|ANCOVA|||||||0.174
82602579|NCT01400932|164920541|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||Week 2|ANCOVA|||||||0.013
82602580|NCT01400932|164920541|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Week 4|ANCOVA|||||||0.001
82655953|NCT01494506|165027674|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0264||||0.214|TWO_SIDED|95.0|-0.005|0.058|||Fisher Exact|||||0.058|-0.005|0.214
82602581|NCT01400932|164920541|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||Week 8|ANCOVA|||||||0.001
82602582|NCT01400932|164920541|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12|ANCOVA|||||||<0.001
82602583|NCT01400932|164920542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 1|ANCOVA|||||||<0.001
82602584|NCT01400932|164920542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 2|ANCOVA|||||||<0.001
82602585|NCT01400932|164920542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 4|ANCOVA|||||||<0.001
82602586|NCT01400932|164920542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 8|ANCOVA|||||||<0.001
82602587|NCT01400932|164920542|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Week 12|ANCOVA|||||||<0.001
82602588|NCT04656990|164920546|SUPERIORITY||Slope|17.1|||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82602589|NCT04656990|164920549|SUPERIORITY||Slope|3.4|||=|0.04|TWO_SIDED||||||Mixed Models Analysis|||||||=0.04
82602590|NCT00282243|164920560|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|88.79|||||TWO_SIDED|90.0|85.42|92.29|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of AUC0-24. Exposure at steady state was used for tacrolimus (steady state was defined as days 14 and 42) and for tacrolimus MR (steady state was defined as days 28 and 56). The natural log (ln) was used to transform AUC0-24 prior to analysis and the results were transformed back to the original scale for the presentation of results.||92.29|85.42|
82602591|NCT00282243|164920562|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of the natural log-transformed pharmacokinetic parameters fell within an 80% to 125% range, then the exposure between the two formulations was considered to be equivalent.|Ratio of means|81.4|||||TWO_SIDED|90.0|77.88|85.08|||||Tacrolimus/tacrolimus MR ratio of natural log transformed means expressed as a percent.|The method of analysis of variance with repeated measures was used for the comparisons of Cmin. Exposure at steady state was used for tacrolimus (steady state was defined as days 14 and 42) and for tacrolimus MR (steady state was defined as days 28 and 56). The natural log (ln) was used to transform Cmin prior to analysis and the results were transformed back to the original scale for the presentation of results.||85.08|77.88|
82602592|NCT01070329|164920595|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.75|-0.22||The P-value is for the main effect of treatment. The a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||||-0.22|-0.75|<0.001
82602593|NCT01070329|164920596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.77|-2.62||The a priori threshold for statistical significance is 0.05.|Mixed Models Analysis|||||-2.62|-5.77|<0.001
82602594|NCT01070329|164920597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.47|-0.42||This is the p-value for the Disrupt Work/School Work score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.42|-1.47|<0.001
82602595|NCT01070329|164920597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.97|||<|0.001|TWO_SIDED|95.0|-1.42|-0.53||This the p-value for the Disrupt Social Life/Leisure score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.53|-1.42|<0.001
82602596|NCT01070329|164920597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|||<|0.001|TWO_SIDED|95.0|-1.41|-0.49||This is the p-value for the Disrupt Family Life/Home score. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||||-0.49|-1.41|<0.001
82602597|NCT01070329|164920597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88|||<|0.001|TWO_SIDED|95.0|-4.16|-1.61||P-value for the SDS Total score. First gated secondary outcome measure. Gatekeeper strategy controlled experiment-wise type I error for 5 secondary outcomes with stepwise comparisons of treatments until outcome failed to be significant (p\>0.05).|Mixed Models Analysis|||||-1.61|-4.16|<0.001
82602598|NCT01070329|164920598|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the second gated secondary outcome measure. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes. Treatments were compared stepwise until an outcome failed to be significant (p\>0.05).|Cochran-Mantel-Haenszel|||||||<0.001
82602599|NCT01070329|164920599|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||This third gated secondary outcome measure failed to meet statistical significance. A gatekeeper strategy (Dmitrienko et al. 2003) controlled experiment-wise type I error for 5 secondary outcomes.|Cochran-Mantel-Haenszel|||||||0.173
82602600|NCT01070329|164920600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.81|||||TWO_SIDED|95.0|-4.13|-1.48|||Mixed Models Analysis|Fourth gated secondary outcome measure. Statistical significance was not evaluated; prior gated secondary outcome measure failed (p\>0.05).||||-1.48|-4.13|
82602601|NCT01070329|164920601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67||||0.05|TWO_SIDED|95.0|0.0|3.34||This is the p-value for the Change at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.34|0.00|0.050
82602602|NCT01070329|164920601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39||||0.071|TWO_SIDED|95.0|-0.12|2.9||This is the p-value for the Change up to Week 8. P-values were not adjusted for multiple comparisons; a priori statistical significance was 0.05.|ANCOVA|||||2.90|-0.12|0.071
82602603|NCT01070329|164920602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91||||0.05|TWO_SIDED|95.0|0.0|3.82||This is the p-value for the Change from Baseline in SBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.82|0.00|0.050
82602604|NCT01070329|164920602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.007|TWO_SIDED|95.0|0.5|3.1||This is the p-value for the Change from Baseline in DBP at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||3.10|0.50|0.007
82602605|NCT01070329|164920602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7||||0.063|TWO_SIDED|95.0|-0.09|3.5||This is the p-value for the Change from Baseline in SBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.50|-0.09|0.063
82602606|NCT01070329|164920602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.004|TWO_SIDED|95.0|0.6|3.02||This is the p-value for the Change from Baseline in DBP up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||3.02|0.60|0.004
82602607|NCT01070329|164920603|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.07|||||TWO_SIDED|95.0|-3.18|-0.96|||Mixed Models Analysis|Fifth gated secondary outcome measure. Statistical significance was not evaluated; the third gated secondary outcome measure failed (p\>0.05).||||-0.96|-3.18|
82602608|NCT01070329|164920604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54||||0.007|TWO_SIDED|95.0|-0.93|-0.15||This is the p-value for the Change from Baseline at Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.93|0.007
82602609|NCT01070329|164920604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.002|TWO_SIDED|95.0|-0.93|-0.22||This is the p-value for the Change from Baseline up to Week 8. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|ANCOVA|||||-0.22|-0.93|0.002
82602610|NCT01070329|164920605|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.021
82602611|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.85|-0.27||This is the p-value for the main effect of treatment for the BPI Severity for Worst Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.27|-0.85|<0.001
82602612|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.003|TWO_SIDED|95.0|-0.64|-0.13||This is the p-value for main effect of treatment for the BPI Severity for Least Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.13|-0.64|0.003
82602613|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.75|-0.22||This is the p-value for the main effect of treatment for the BPI Severity for Average Pain score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.22|-0.75|<0.001
82602614|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|||<|0.001|TWO_SIDED|95.0|-0.86|-0.27||This is the p-value for the main effect of treatment for the BPI Severity for Pain Right Now score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.27|-0.86|<0.001
82602615|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.008|TWO_SIDED|95.0|-0.75|-0.11||This is the p-value for the main effect of treatment for the BPI Pain Interference with General Activity score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.11|-0.75|0.008
82602616|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.48||||0.004|TWO_SIDED|95.0|-0.8|-0.15||This is the p-value for the main effect of treatment for the BPI Pain Interference with Mood score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.80|0.004
82602617|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.006|TWO_SIDED|95.0|-0.72|-0.12||This is the p-value for the main effect of treatment for the BPI Pain Interference with Walking Ability Score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.12|-0.72|0.006
82602618|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.012|TWO_SIDED|95.0|-0.72|-0.09||This is the p-value for the main effect of treatment for the BPI Pain Interference with Normal Work score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.09|-0.72|0.012
82655954|NCT01494506|165027674|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.069||||0.01|TWO_SIDED|95.0|0.018|0.12|||Fisher Exact|||||0.120|0.018|0.010
82602619|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.029|TWO_SIDED|95.0|-0.7|-0.04||This is the p-value for the main effect of treatment for the BPI Pain Interference with Relations with Others score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.04|-0.70|0.029
82602620|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.037|TWO_SIDED|95.0|-0.75|-0.02||This is the p-value for the main effect of treatment for the BPI Pain Interference with Sleep score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.02|-0.75|0.037
82602621|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.006|TWO_SIDED|95.0|-0.81|-0.14||This is the p-value for the main effect of treatment for the BPI Pain Interference with Enjoyment of Life score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.14|-0.81|0.006
82602622|NCT01070329|164920606|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.004|TWO_SIDED|95.0|-0.74|-0.15||This is the p-value for the main effect of treatment for the BPI Interference score. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.15|-0.74|0.004
82602623|NCT01070329|164920607|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001|TWO_SIDED|95.0|-0.9|-0.49||P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Mixed Models Analysis|||||-0.49|-0.90|<0.001
82602624|NCT01070329|164920608|SUPERIORITY_OR_OTHER|||||||0.116||95.0||||This is the p-value for Suicidal Ideation. P-values were not adjusted for multiple comparisons; a priori threshold for statistical significance was 0.05.|Fisher Exact|||||||0.116
82602625|NCT06062264|164920621|SUPERIORITY||Adjusted Risk Ratio|1.03|||||TWO_SIDED|95.0|1.0|1.06||||||Comparing the risk of receiving an influenza vaccination|Adjusted risk ratio. These results compare arms which received portal-based PCP video reminder messages to the arm receiving standard health system portal messages (control).|1.06|1.00|
82602626|NCT06062264|164920621|SUPERIORITY||Adjusted Risk Ratio|1.02|||||TWO_SIDED|95.0|0.99|1.06|||||Adjusted risk ratio. These results compare arms which received portal-based PCP video reminder messages to the arm receiving standard health system portal messages (control).|Comparing the risk of receiving an influenza vaccination||1.06|0.99|
82602627|NCT05256888|164920624|SUPERIORITY||Slope|-1.77|STANDARD_ERROR_OF_MEAN|1.08||0.11|TWO_SIDED||||||Regression, Linear|||"In a linear model to assess group effects on fatigue at 12 weeks, adjusting for baseline levels of fatigue:~Effect of group = -1.77±1.08, p=0.11, favoring the TRE group."||||0.11
82602628|NCT03706365|164920626|OTHER||Hazard Ratio (HR)|0.829||||0.2123|TWO_SIDED|95.0|0.619|1.111|||Log Rank|||||1.111|0.619|0.2123
82602629|NCT03706365|164920627|OTHER||Hazard Ratio (HR)|0.637||||0.0026|TWO_SIDED|95.0|0.474|0.856|||Log Rank|||||0.856|0.474|0.0026
82602630|NCT03706365|164920628|OTHER||Hazard Ratio (HR)|0.842||||0.2899|TWO_SIDED|95.0|0.611|1.16|||Log Rank|||||1.160|0.611|0.2899
82602631|NCT03706365|164920630|OTHER||Hazard Ratio (HR)|0.731||||0.3531|TWO_SIDED|95.0|0.377|1.419|||Log Rank|||||1.419|0.377|0.3531
82602632|NCT03706365|164920631|OTHER||Hazard Ratio (HR)|0.927||||0.6507|TWO_SIDED|95.0|0.669|1.285|||Log Rank|||||1.285|0.669|0.6507
82602633|NCT03706365|164920632|OTHER||Hazard Ratio (HR)|0.768||||0.1807|TWO_SIDED|95.0|0.522|1.131|||Log Rank|||||1.131|0.522|0.1807
82602634|NCT03706365|164920637|OTHER||Hazard Ratio (HR)|0.935||||0.697|TWO_SIDED|95.0|0.665|1.314|||Log Rank|||||1.314|0.665|0.6970
82602635|NCT03116113|164920640|SUPERIORITY||||||=|0.3181|||||||Fisher's Exact-Boschloo test|||||||=0.3181
82655955|NCT01494506|165027675|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.1008|TWO_SIDED|95.0|0.65|1.03|||Log Rank|Unstratified log rank test.||||1.03|0.65|0.1008
82602636|NCT03116113|164920640|SUPERIORITY||||||=|0.5177|||||||Fisher's Exact-Boschloo test|||||||=0.5177
82602637|NCT00600171|164920718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.064||||0.208|TWO_SIDED|95.0|-0.036|0.164|||ANCOVA|||||0.164|-0.036|0.208
82602638|NCT00600171|164920718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069||||0.169|TWO_SIDED|95.0|-0.029|0.168|||ANCOVA|||||0.168|-0.029|0.169
82602639|NCT00600171|164920718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.011|TWO_SIDED|95.0|0.03|0.23|||ANCOVA|||||0.230|0.030|0.011
82602640|NCT00600171|164920718|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.121||||0.016|TWO_SIDED|95.0|0.023|0.22|||ANCOVA|||||0.220|0.023|0.016
82602641|NCT00600171|164920718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162||||0.001|TWO_SIDED|95.0|0.062|0.261|||ANCOVA|||||0.261|0.062|0.001
82602642|NCT03683394|164920742|SUPERIORITY||Mean Difference (Net)|0.15||||0.008|TWO_SIDED|95.0|0.04|0.26||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||0.26|0.04|0.008
82602643|NCT03683394|164920743|SUPERIORITY||Mean Difference (Net)|0.11||||0.002|TWO_SIDED|95.0|0.02|0.21||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||0.21|0.02|0.002
82602644|NCT03683394|164920744|SUPERIORITY||Mean Difference (Net)|1.11||||0.03|TWO_SIDED|95.0|0.08|2.14||Adjusted for baseline value, sex, race/ethnicity education, comorbidity score and phone assessment.|Mixed Models Analysis|Treatment effects were estimated using linear mixed models (LMMs) for the changes from baseline to each follow-up assessment.||||2.14|0.08|0.03
82602645|NCT03683394|164920745|SUPERIORITY||Odds Ratio (OR)|0.68||||0.52|TWO_SIDED|95.0|0.19|2.19||Adjusted for age and sex.|Fisher Exact|In an exploratory outcome, we examined incidence of a low CASI score or a diagnosis of MCI or dementia by treatment group.||||2.19|0.19|0.52
82602646|NCT01058096|164920746|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-4.3||||0.0004|TWO_SIDED|95.0|-6.7|-1.9|||Mixed Models Analysis||cariprazine - placebo|||-1.9|-6.7|0.0004
82602647|NCT01058096|164920747|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.4||||0.0027|TWO_SIDED|95.0|-0.7|-0.1|||MMRM analysis||cariprazine - placebo|||-0.1|-0.7|0.0027
82602648|NCT00464204|164920759|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-331.0|STANDARD_DEVIATION|1033.0||0.0185|TWO_SIDED|95.0|-640.0|-21.0||One-sided t-test assuming unequal variances (as variances were significantly different between treatment groups).No multiple comparisons were made. A priori threshold for statistical significance for the confirmatory analysis on FAS: 0.025 one-sided.|t-test, 1 sided||Considered difference: Voluven® minus NaCl 0.9 %|"Null-hypothesis: The amount of study drug required to achieve initial hemodynamic stabilization in patients treated with Voluven® is higher than or equal to this amount in patients treated with NaCl.~Alternative hypothesis: The amount of study drug required to achieve initial hemodynamic stabilization is lower in patients treated with Voluven® than in patients treated with NaCl."||-21|-640|0.0185
82602649|NCT00531960|164920781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.806|TWO_SIDED|95.0|0.7|1.59|||Log Rank|||||1.59|0.70|0.8060
82602650|NCT00531960|164920783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||0.4063|TWO_SIDED|95.0|0.75|2.05|||Log Rank|||||2.05|0.75|0.4063
82602651|NCT00531960|164920784|SUPERIORITY_OR_OTHER||Difference in Response Rates|-17.28||||0.0444|TWO_SIDED|95.0|-34.8|0.3|||Chi-squared||The 95% CI for the difference of 2 rates was determined by using the Hauck-Anderson method.|||0.3|-34.8|0.0444
82602652|NCT00531960|164920785|SUPERIORITY_OR_OTHER||Difference in Disease Control Rates|-12.2||||0.0944|TWO_SIDED|95.0|-27.3|2.8|||Chi-squared||The 95% CI for the difference in disease control was determined using the Hauck-Anderson method.|||2.8|-27.3|0.0944
82602653|NCT00109473|164920807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.0||||0.02|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.02
82602654|NCT01879410|164920812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.063|0.139|||ANCOVA||Least squares mean difference=UMEC/VI 62.5/25 mcg minus FSC 250/50 mcg.|||0.139|0.063|<0.001
82602655|NCT00820573|164920818|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"A general unstructured variance-covariance matrix (ANOVA) was applied for measurements at different periods. Between-group comparisons after 6 wks of treatment were assessed using the ANOVA model at alpha=0.05 (two-sided).~16 subjects provide \~90% power to detect difference in EGP of 0.28 mg/kg.min (95% CI = 0.17 mg/kg.min)."||||<0.05
82655956|NCT01494506|165027675|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.6||||0.0002|TWO_SIDED|95.0|0.45|0.78|||Log Rank|Unstratified log rank test||||0.78|0.45|0.0002
82602656|NCT00820573|164920819|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||multivariate analysis was performed to compare results amongst all four groups||||<0.05
82602657|NCT00820573|164920820|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||ANOVA||||0.05
82602658|NCT00820573|164920821|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||||||0.05
82655957|NCT01494506|165027676|SUPERIORITY_OR_OTHER|||||||0.82|||||||Fisher Exact|||||||0.82
82655958|NCT01494506|165027676|SUPERIORITY_OR_OTHER|||||||0.8|||||||Fisher Exact|||||||0.80
82655959|NCT01494506|165027677|SUPERIORITY_OR_OTHER|||||||0.024|||||||Fisher Exact|||||||0.024
82655960|NCT01494506|165027677|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Fisher Exact|||||||<0.001
82655961|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Global Health Status||||0.6388
82655962|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.8445||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Global Health Status||||0.8445
82602659|NCT03183128|164920850|SUPERIORITY||Risk Ratio (RR)|0.32|||<|0.001|TWO_SIDED|95.0|0.18|0.58||P-value presented for both hypothesis tests: H0: RR≥1 and H0: RR≥0.833.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test was stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|||0.58|0.18|<0.001
82655963|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Physical Functioning||||0.6388
82655964|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.9435||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Physical Functioning||||0.9435
82602660|NCT03183128|164920851|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.19|0.67||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 4||0.67|0.19|<0.001
82602661|NCT03183128|164920851|SUPERIORITY||Hazard Ratio (HR)|0.4|||<|0.001|TWO_SIDED|95.0|0.24|0.65||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 12||0.65|0.24|<0.001
82602662|NCT03183128|164920851|SUPERIORITY||Hazard Ratio (HR)|0.46|||<|0.001|TWO_SIDED|95.0|0.3|0.73||P-value presented is for the hypothesis test: H0: RR ≥1.0.|Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel estimate is stratified by age (\<65 years, ≥65 years) and prior antibiotic regimen (vancomycin, fidaxomicin).|RR defined as the recurrence rates of SER-109 divided by Placebo. Cochran-Mantel-Haenszel estimate of RR, stratified by age group (\<65 years, ≥65 years) and prior antibiotic regimen for the qualifying episode (vancomycin, fidaxomicin), is reported.|CDI recurrence rates at Week 24||0.73|0.30|<0.001
82655965|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.2654||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Role functioning||||0.2654
82655966|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7674||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Role functioning||||0.7674
82655967|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.1628||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Emotional Functioning||||0.1628
82655968|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Emotional Functioning||||0.6712
82655969|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7738||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Cognitive Functioning||||0.7738
82655970|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Cognitive Functioning||||0.6712
82655971|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.3408||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Social Functioning||||0.3408
82655972|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Social Functioning||||0.6712
82655973|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6766||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Fatigue||||0.6766
82655974|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Fatigue||||0.6712
82655975|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Nausea and Vomiting||||0.6388
82655976|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7674||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Nausea and Vomiting||||0.7674
82655977|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.4993||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Pain||||0.4993
82655978|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Pain||||0.6712
82655979|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.2654||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Dyspnoea||||0.2654
82602663|NCT00364182|164920896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.5|||<|0.0001|TWO_SIDED|95.0|-36.5|-24.5||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||-24.5|-36.5|<0.0001
82602664|NCT00364182|164920896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.5|||<|0.0001|TWO_SIDED|95.0|-38.5|-26.6||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||-26.6|-38.5|<0.0001
82602665|NCT00364182|164920896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.0||||0.2167|TWO_SIDED|95.0|-1.2|5.2||P-values based on a model including terms for treatment regimen, treatment sequence, and the interaction of these terms with repeated measures on participants.|ANOVA|||||5.2|-1.2|0.2167
82602666|NCT00364182|164920897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.002|TWO_SIDED|95.0|0.1|0.6|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.6|0.1|0.002
82602667|NCT00364182|164920897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.021|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.8|0.1|0.021
82655980|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Dyspnoea||||0.6712
82655981|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7617||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Insomnia||||0.7617
82655982|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712|||||||Cochran-Mantel-Haenszel|||Comparison of Insomnia||||0.6712
82655983|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.9123||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Appetite loss||||0.9123
82655984|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Appetite loss||||0.6712
82602668|NCT00364182|164920897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.004|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.9|0.2|0.004
82602669|NCT00364182|164920897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4||||0.093|TWO_SIDED|95.0|-0.1|0.8|||ANOVA|||Mean difference in duration of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||0.8|-0.1|0.093
82602670|NCT00364182|164920898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.1|-0.4|0.000
82602671|NCT00364182|164920898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0|TWO_SIDED|95.0|-0.5|-0.2|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.2|-0.5|0.0000
82602672|NCT00364182|164920898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.002|TWO_SIDED|95.0|-0.5|-0.1|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.1|-0.5|0.002
82602673|NCT00364182|164920898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3||||0.031|TWO_SIDED|95.0|-0.5|0.0|||ANOVA|||Mean difference in quality of sleep on the first night (24 hours post-bleed) and the second night (48 hours post-bleed).||-0.0|-0.5|0.031
82602674|NCT00364182|164920902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.1||||0.544|TWO_SIDED|95.0|-9.2|4.9|||ANOVA|||||4.9|-9.2|0.544
82602675|NCT00364182|164920902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.592|TWO_SIDED|95.0|-7.5|4.3|||ANOVA|||||4.3|-7.5|0.592
82602676|NCT00364182|164920902|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.6||||0.131|TWO_SIDED|95.0|-1.1|8.4|||ANOVA|||||8.4|-1.1|0.131
82602677|NCT04343651|164920932|SUPERIORITY|||||||0.818|||||||ANCOVA|||||||0.818
82602678|NCT04343651|164920933|SUPERIORITY||Hazard Ratio (HR)|0.781||||0.4138|TWO_SIDED|95.0|0.43|1.41|||Likelihood test-Cox Prop. hazards model|Stratification factors: Baseline NEWS Total score and Age.||||1.41|0.43|0.4138
82655985|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7617||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Constipation||||0.7617
82655986|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Constipation||||0.6712
82655987|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.1628||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Diarrhoea||||0.1628
82655988|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6712||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Diarrhoea||||0.6712
82602679|NCT01265524|164920958|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.014|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.014
82602680|NCT01265524|164920962|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.0002|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.0002
82655989|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.6388||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Financial difficulties||||0.6388
82602681|NCT01265524|164920963|NON_INFERIORITY_OR_EQUIVALENCE|The efficacy and the safety analyses were done using the ITT population with Week 8/EOS data for the patients who did not complete the 8-week treatment period excluded. The ITT population included all randomized patients who received at least 1 dose of study drug.||||||0.072|TWO_SIDED|95.0||||Corrections for multiplicity were not performed and P values \< 0.05 were considered statistically significant.|ANCOVA|Continuous or ordinal data were analyzed using RM-ANCOVA using change from baseline values to compare CLP and placebo treatments.||||||0.072
82602682|NCT00821678|164920964|SUPERIORITY_OR_OTHER||Slope|-3.81||||0.002|TWO_SIDED|95.0|-6.19|-1.43|||Mixed Models Analysis|||||-1.43|-6.19|0.002
82602683|NCT00821678|164920965|SUPERIORITY_OR_OTHER||Slope|-0.25||||0.001|TWO_SIDED|95.0|-0.4|-0.1|||Mixed Models Analysis|||||-0.1|-0.4|0.001
82602684|NCT00821678|164920966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.48|TWO_SIDED|95.0|-0.33|0.7|||t-test, 2 sided|||||0.70|-0.33|0.48
82602685|NCT00821678|164920967|SUPERIORITY_OR_OTHER||Slope|2.67||||0.02|TWO_SIDED|95.0|0.45|4.91|||Mixed Models Analysis|||||4.91|0.45|0.02
82602686|NCT00821678|164920970|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.86||||0.65|TWO_SIDED|95.0|0.46|1.62|||Mixed Models Analysis|||||1.62|0.46|0.65
82602687|NCT00821678|164920971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.9|||<|0.001|TWO_SIDED|95.0|3.2|19.6|||Mixed Models Analysis|||||19.6|3.2|<0.001
82655990|NCT01494506|165027678|SUPERIORITY_OR_OTHER|||||||0.7308||||||For each experimental arm comparison p-values were adjusted for multiple domain comparisons using the Hochberg method.|Cochran-Mantel-Haenszel|||Comparison of Financial difficulties||||0.7308
82655991|NCT05216081|165027680|OTHER||Percentage of enrolled from eligible|69.4|||||TWO_SIDED|95.0|61.5|76.2||||||||76.2|61.5|
82655992|NCT05216081|165027681|OTHER||Percentage of enrolled from eligible|99.0|||||TWO_SIDED|95.0|94.7|99.8||||||||99.8|94.7|
82655993|NCT05216081|165027683|OTHER||Percentage screened positive for EM|15.8|||||TWO_SIDED|95.0|10.0|24.2||||||||24.2|10|
82602688|NCT04025632|164920989|SUPERIORITY||Wilcoxon-Mann-Whitney odds|0.55||||0.464|TWO_SIDED|95.0|0.19|1.57||Conducted using a 2-sided Van Elteren test, which represents an extension of the Wilcoxon rank sum test for comparing 2 treatments in a stratified experiment using within-stratum ranks assigning greater weight to rank sums from smaller strata.|2-sided Van Elteren test||The magnitude of association between treatment groups was expressed as in Wilcoxon-Mann-Whitney odds followed by the 95% confidence intervals.|||1.57|0.19|0.464
82602689|NCT04025632|164920991|SUPERIORITY||Odds Ratio (OR)|1.088||||0.919|TWO_SIDED|95.0|0.214|5.535||P-value for the comparison of treatment groups was calculated using logistic regression with investigational medicinal product and strata as fixed factors.|Regression, Logistic|||||5.535|0.214|0.919
82655994|NCT05216081|165027686|OTHER||Percentage who self-disclosed|57.1|||||TWO_SIDED|95.0|32.6|78.6||||||||78.6|32.6|
82602690|NCT04025632|164920992|SUPERIORITY||Least squares (LS) mean difference|-0.688||||0.496|TWO_SIDED|95.0|-2.781|1.404||Based on a linear model with treatment and strata (anti-3-hydroxy-3-methyl-glutaryl-coenzyme A reductase \[HMGCR\]+/anti-signal recognition particle \[SRP\]+) as fixed factors with Baseline 3TUG as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||1.404|-2.781|0.496
82602691|NCT04025632|164920993|SUPERIORITY||LS mean difference|3.89||||0.431|TWO_SIDED|95.0|-6.18|13.95||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline proximal MMT as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||13.95|-6.18|0.431
82602692|NCT04025632|164920994|SUPERIORITY||LS mean difference|-0.204||||0.8|TWO_SIDED|95.0|-1.855|1.448||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline Physician Global Activity VAS as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||1.448|-1.855|0.800
82602693|NCT04025632|164920995|SUPERIORITY||LS mean difference|-1.281||||0.221|TWO_SIDED|95.0|-3.39|0.829||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline Patient Global Activity VAS as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.829|-3.390|0.221
82602694|NCT04025632|164920996|SUPERIORITY||LS mean difference|-0.147||||0.508|TWO_SIDED|95.0|-0.601|0.307||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline HAQ as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.307|-0.601|0.508
82602695|NCT04025632|164920997|SUPERIORITY||LS mean difference|-0.143||||0.765|TWO_SIDED|95.0|-1.123|0.837|||Linear Mixed Effect Model|Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline MDAAT as a covariate.|The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||0.837|-1.123|0.765
82655995|NCT05216081|165027687|OTHER||Percentage substantiated by socialworker|75.0|||||TWO_SIDED|95.0|50.5|89.8||||||||89.8|50.5|
82655996|NCT01880073|165027689|OTHER||Proportion|0.875|||||TWO_SIDED|95.0|0.74|1.0||||||||1.00|0.74|
82655997|NCT01880073|165027690|OTHER||Proportion|0.125|||||TWO_SIDED|95.0|0.0|0.26||||||||0.26|0.00|
82655998|NCT01703832|165027693|SUPERIORITY_OR_OTHER|||||||0.1233||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.1233
82655999|NCT01703832|165027694|SUPERIORITY_OR_OTHER|||||||0.5153||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.5153
82656000|NCT00243932|165027706|SUPERIORITY_OR_OTHER_LEGACY|||||||0.14||95.0|||||futility (non-superiority)|||Null hypothesis: 2,700mg CoQ10 is at least 20% superior to placebo.||||0.14
82656001|NCT04084483|165027727|SUPERIORITY|||||||0.2175|||||||ANCOVA|||||||0.2175
82656002|NCT04084483|165027728|SUPERIORITY|||||||0.3852|||||||ANCOVA|||||||0.3852
82656003|NCT04084483|165027729|SUPERIORITY|||||||0.298|||||||ANCOVA|||||||0.2980
82656004|NCT04084483|165027730|SUPERIORITY|||||||0.0634|||||||ANCOVA|||||||0.0634
82656005|NCT04084483|165027731|SUPERIORITY|||||||0.7388|||||||ANCOVA|||Corneal Sum||||0.7388
82656006|NCT04084483|165027731|SUPERIORITY|||||||0.3717|||||||ANCOVA|||Corneal Sum||||0.3717
82602696|NCT04025632|164920998|SUPERIORITY||LS mean difference|5.53||||0.265|TWO_SIDED|95.0|-4.49|15.55||Based on a linear model with treatment and strata (anti-HMGCR+/anti-SRP+) as fixed factors with Baseline FACIT-Fatigue Scale as a covariate.|Linear Mixed Effect Model||The difference presented is zilucoplan 0.3 mg/kg minus placebo.|||15.55|-4.49|0.265
82602697|NCT00925600|164921003|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper bound of the 97.5% one-sided confidence interval, or equivalently upper bound of two-sided 95% confidence interval was less than the pre-specified non-inferiority bound of 10%.|Risk Difference (RD)|0.4|STANDARD_ERROR_OF_MEAN|3.4||0.0026|TWO_SIDED|95.0|-6.3|7.2|||Mantel Haenszel|||The primary endpoint was summarized with the point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||7.2|-6.3|0.0026
82602698|NCT00925600|164921004|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|2.1|||TWO_SIDED|95.0|-6.4|2.0||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||2.0|-6.4|
82602699|NCT00925600|164921005|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.3|STANDARD_ERROR_OF_MEAN|2.9|||TWO_SIDED|95.0|-5.9|5.3||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||5.3|-5.9|
82656007|NCT04084483|165027731|SUPERIORITY|||||||0.3164|||||||ANCOVA|||Conjunctival Sum||||0.3164
82656008|NCT04084483|165027731|SUPERIORITY|||||||0.1953|||||||ANCOVA|||Conjunctival Sum||||0.1953
82656009|NCT04084483|165027731|SUPERIORITY|||||||0.4645|||||||ANCOVA|||Total Eye Sum||||0.4645
82656010|NCT04084483|165027731|SUPERIORITY|||||||0.2135|||||||ANCOVA|||Total Eye Sum||||0.2135
82656011|NCT04084483|165027732|SUPERIORITY|||||||0.599|||||||ANCOVA|||||||0.5990
82656012|NCT04084483|165027732|SUPERIORITY|||||||0.2122|||||||ANCOVA|||||||0.2122
82656013|NCT04084483|165027733|SUPERIORITY|||||||0.9146|||||||ANCOVA|||||||0.9146
82602700|NCT00925600|164921006|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.2|STANDARD_ERROR_OF_MEAN|2.8|||TWO_SIDED|95.0|-7.6|3.3||||||The point estimate of absolute risk difference (difference in incidence rates, denosumab minus placebo) and the corresponding 95% confidence interval was constructed using the Mantel-Haenszel method adjusting for the stratification factors: baseline LOCS III status (\< 3.0 at all sites \[P, C, and NO\] vs. ≥ 3.0 at any of these sites), age group (\< 75, ≥ 75 years), and patient-reported history of cataract (yes/no).||3.3|-7.6|
82602701|NCT00624221|164921010|NON_INFERIORITY_OR_EQUIVALENCE|The sample size of 40 subjects was estimated based on having 80% power to determine greater than 10% difference in cell loss between groups with estimated standard deviation of 17 and estimated correlation of 0.5.||||||0.1|TWO_SIDED|95.0|||||paired difference t-test|||||||0.10
82602702|NCT02274688|164921040|SUPERIORITY||||||=|0.01|||||||Wald Chi-Square=11.29, df=3, P=0.01|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.01
82656014|NCT04084483|165027733|SUPERIORITY|||||||0.8494|||||||ANCOVA|||||||0.8494
82656015|NCT04084483|165027734|SUPERIORITY|||||||0.4747|||||||ANCOVA|||||||0.4747
82656016|NCT04084483|165027734|SUPERIORITY|||||||0.5619|||||||ANCOVA|||||||0.5619
82656017|NCT04084483|165027735|SUPERIORITY|||||||0.5985|||||||ANCOVA|||||||0.5985
82656018|NCT04084483|165027735|SUPERIORITY|||||||0.7626|||||||ANCOVA|||||||0.7626
82656019|NCT04084483|165027736|SUPERIORITY|||||||0.833|||||||ANCOVA|||||||0.8330
82656020|NCT04084483|165027736|SUPERIORITY|||||||0.2777|||||||ANCOVA|||||||0.2777
82656021|NCT04084483|165027737|SUPERIORITY|||||||0.9829|||||||ANCOVA|||||||0.9829
82656022|NCT04084483|165027737|SUPERIORITY|||||||0.8675|||||||ANCOVA|||||||0.8675
82656023|NCT04084483|165027738|SUPERIORITY|||||||0.5836|||||||ANCOVA|||||||0.5836
82656024|NCT04084483|165027738|SUPERIORITY|||||||0.2352|||||||ANCOVA|||||||0.2352
82656025|NCT04084483|165027739|SUPERIORITY|||||||0.7367|||||||ANCOVA|||Ocular Discomfort||||0.7367
82656026|NCT04084483|165027739|SUPERIORITY|||||||0.3865|||||||ANCOVA|||Ocular Discomfort||||0.3865
82656027|NCT04084483|165027739|SUPERIORITY|||||||0.8796|||||||ANCOVA|||Burning||||0.8796
82656028|NCT04084483|165027739|SUPERIORITY|||||||0.3515|||||||ANCOVA|||Burning||||0.3515
82656029|NCT04084483|165027739|SUPERIORITY|||||||0.6338|||||||ANCOVA|||Dryness||||0.6338
82656030|NCT04084483|165027739|SUPERIORITY|||||||0.4685|||||||ANCOVA|||Dryness||||0.4685
82656031|NCT04084483|165027739|SUPERIORITY|||||||0.4757|||||||ANCOVA|||Grittiness||||0.4757
82656032|NCT04084483|165027739|SUPERIORITY|||||||0.8803|||||||ANCOVA|||Grittiness||||0.8803
82656033|NCT04084483|165027739|SUPERIORITY|||||||0.8529|||||||ANCOVA|||Stinging||||0.8529
82656034|NCT04084483|165027739|SUPERIORITY|||||||0.7713|||||||ANCOVA|||Stinging||||0.7713
82656035|NCT04084483|165027740|SUPERIORITY|||||||0.138|||||||ANCOVA|||Burning/Stinging||||0.1380
82656036|NCT04084483|165027740|SUPERIORITY|||||||0.3334|||||||ANCOVA|||Burning/Stinging||||0.3334
82656037|NCT04084483|165027740|SUPERIORITY|||||||0.1008|||||||ANCOVA|||Itching||||0.1008
82656038|NCT04084483|165027740|SUPERIORITY|||||||0.4582|||||||ANCOVA|||Itching||||0.4582
82656039|NCT04084483|165027740|SUPERIORITY|||||||0.1511|||||||ANCOVA|||Foreign Body Sensation||||0.1511
82656040|NCT04084483|165027740|SUPERIORITY|||||||0.2555|||||||ANCOVA|||Foreign Body Sensation||||0.2555
82656041|NCT04084483|165027740|SUPERIORITY|||||||0.1546|||||||ANCOVA|||Blurry Vision||||0.1546
82656042|NCT04084483|165027740|SUPERIORITY|||||||0.0495|||||||ANCOVA|||Blurry Vision||||0.0495
82656043|NCT04084483|165027740|SUPERIORITY|||||||0.5791|||||||ANCOVA|||Eye Dryness||||0.5791
82656044|NCT04084483|165027740|SUPERIORITY|||||||0.0736|||||||ANCOVA|||Eye Dryness||||0.0736
82602703|NCT02274688|164921041|SUPERIORITY||||||=|0.23|||||||Wald Chi-Square=3.01, df=3, p=0.23|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.23
82602704|NCT02274688|164921042|SUPERIORITY||||||=|0.23|||||||Wald Chi-Square=4.25, df=3, p=0.23|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.23
82602705|NCT02274688|164921043|SUPERIORITY||||||=|0.55|||||||Wald Chi-Square=2.12, df=3, p=0.55|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.55
82602706|NCT02274688|164921044|SUPERIORITY||||||=|0.32|||||||Wald Chi-Square=3.52, df=3; p=0.32|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.32
82602707|NCT02274688|164921045|SUPERIORITY||||||=|0.26|||||||Wald Chi-Square=4.02, df=3, p=0.26|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.26
82602708|NCT02274688|164921046|SUPERIORITY||||||=|0.22|||||||Wald Chi-Square=4.44, df=3, p=0.22|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.22
82602709|NCT02274688|164921047|SUPERIORITY||||||=|0.08||||||F(3,507)=2.24, P=0.08|Regression Poisson|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||=0.08
82602710|NCT02274688|164921048|SUPERIORITY|||||||0.36|||||||Wald Chi-Square=3.24, df=3, p=0.36|||"Mixed Model Regression; Data from all 171 patients at all time points used in this intent-to-treat analytic approach.~We hypothesize intervention patients will demonstrate diminished outcome severity over time when compared to nurse notification patients, as evidenced by a significant group by time interaction effect."||||0.36
82602711|NCT00947531|164921049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.17|||<|0.0001|TWO_SIDED|95.0|-8.22|-4.13||P-value obtained from the F-test statistic of Cerebrolysin versus Placebo as part of ANCOVA (analysis of covariance). No adjustment for multiple comparisons was needed. The overall significance level alpha was fixed at alpha = 0.05 (two-sided).|ANCOVA|The study was designed to show significant differences in each of the two primary variables. No adjustment for multiple comparisons was needed.||The null-hypothesis stated no difference between the two treatment groups. A sample size of 103 evaluable patients per treatment group was estimated to allow for the detection of a significant group difference of 4.1 points in ADAS-cog+ weak 24 change score (standard deviation \[SD\] 9.0) in favor of Cerebrolysin with a power of 90% and a probability level of alpha-level 0.025 (one-sided).||-4.13|-8.22|< 0.0001
82602712|NCT01808612|164921069|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.264|TWO_SIDED|95.0|-0.55|2.0|||Mixed Models Analysis|||Approximately 522 participants were to be enrolled. Randomization was to be 2:1:3 (20 mg fluoxetine:40 mg fluoxetine:placebo). Assuming 5% of participants would have missing post-baseline data, the study had 85% power to detect an effect size of 0.33 (20 mg fluoxetine compared to placebo on HAMD21 total score) based on simulations with a 0.05 two-sided significance level.||2.00|-0.55|0.264
82602713|NCT00559273|164921076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The p-value was the probability that the number of responders is greater than or equal to the observed number, although the true response rate was smaller or equal to 60%. Null hypothesis (H0): p-value \<=0.6; alternate hypothesis (H1): p-value \>0.6.||||<0.0001
82602714|NCT00559273|164921076|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The p-value was the probability that the number of responders is greater than or equal to the observed number, although the true response rate was smaller or equal to 60%. Null hypothesis (H0): p-value \<=0.6; alternate hypothesis (H1): p-value \>0.6.||||<0.0001
82602715|NCT00559273|164921077|NON_INFERIORITY_OR_EQUIVALENCE|MIRCERA treatment was regarded as non-inferior to the darbepoetin alfa reference group if the lower limit of the CI was greater than -0.75 g/dL.|Adjusted Mean Difference|-0.036|STANDARD_ERROR_OF_MEAN|0.1097|<|0.0001|TWO_SIDED|95.0|-0.252|0.18|||ANCOVA|||||0.180|-0.252|<0.0001
82602716|NCT01570244|164921124|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|140.96|STANDARD_DEVIATION|8.1|||TWO_SIDED|90.0|133.84|148.47|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||148.47|133.84|
82602717|NCT01570244|164921125|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Odds Ratio (OR)|114.82|STANDARD_DEVIATION|13.2|||TWO_SIDED|90.0|105.49|124.97|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||124.97|105.49|
82602718|NCT01570244|164921126|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|171.37|STANDARD_DEVIATION|10.5|||TWO_SIDED|90.0|160.2|183.33|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Ethinylestradiol||183.33|160.20|
82602719|NCT01570244|164921129|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric mean ratio|140.53|STANDARD_DEVIATION|4.6|||TWO_SIDED|90.0|136.4|144.78|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||144.78|136.40|
82656045|NCT04084483|165027740|SUPERIORITY|||||||0.3666|||||||ANCOVA|||Photophobia||||0.3666
82602720|NCT01570244|164921130|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|115.28|STANDARD_DEVIATION|6.1|||TWO_SIDED|90.0|110.81|119.92|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||119.92|110.81|
82602721|NCT01570244|164921131|NON_INFERIORITY_OR_EQUIVALENCE|investigation of relative bioavailability (no formal testing)|Geometric Mean Ratio|153.85|STANDARD_DEVIATION|8.2|||TWO_SIDED|90.0|145.99|162.14|||ANOVA||the standard deviation is actually the geometric coefficient of variation|relative bioavailability comparison (Microgynon + Faldaprevir : Microgynon) of Levonorgestrel||162.14|145.99|
82602722|NCT05384041|164921134|SUPERIORITY|||||||0.056|||||||Regression, Linear|||Intent to Treat analyses||||0.056
82602723|NCT05384041|164921135|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||Difference (Active - Control) at Week 1||||0.048
82602724|NCT05384041|164921136|SUPERIORITY|||||||0.2595|||||||t-test, 2 sided|||Difference (Active-Control) at Week 1||||0.2595
82602725|NCT05384041|164921136|SUPERIORITY|||||||0.1286|||||||t-test, 2 sided|||Difference (Active-Control) at Week 2||||0.1286
82602726|NCT05384041|164921136|SUPERIORITY|||||||0.1449|||||||t-test, 2 sided|||Difference (Active-Control) at Week 4||||0.1449
82602727|NCT05384041|164921137|SUPERIORITY|||||||0.2065|||||||t-test, 2 sided|||Difference (Active-Control) at Week 1||||0.2065
82602728|NCT05384041|164921137|SUPERIORITY|||||||0.1349|||||||t-test, 2 sided|||Difference (Active-Control) at Week 2||||0.1349
82602729|NCT05384041|164921137|SUPERIORITY|||||||0.1142|||||||t-test, 2 sided|||Difference (Active-Control) at Week 4||||0.1142
82602730|NCT05384041|164921138|SUPERIORITY|||||||0.231|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.231
82656046|NCT04084483|165027740|SUPERIORITY|||||||0.039|||||||ANCOVA|||Photophobia||||0.0390
82602731|NCT05384041|164921138|SUPERIORITY|||||||0.192|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.192
82656047|NCT04084483|165027740|SUPERIORITY|||||||0.0655|||||||ANCOVA|||Pain||||0.0655
82656048|NCT04084483|165027740|SUPERIORITY|||||||0.1947|||||||ANCOVA|||Pain||||0.1947
82656049|NCT04084483|165027741|SUPERIORITY|||||||0.9274|||||||ANCOVA|||||||0.9274
82602732|NCT05384041|164921138|SUPERIORITY|||||||0.045|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.045
82602733|NCT05384041|164921140|SUPERIORITY|||||||0.005|||||||Regression, Linear|||||||0.005
82602734|NCT05384041|164921141|SUPERIORITY|||||||0.0026|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.0026
82602735|NCT05384041|164921141|SUPERIORITY|||||||0.4706|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.4706
82602736|NCT05384041|164921141|SUPERIORITY|||||||0.0197|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.0197
82602737|NCT05384041|164921141|SUPERIORITY|||||||0.4858|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.4858
82602738|NCT05384041|164921141|SUPERIORITY|||||||0.0183|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.0183
82602739|NCT05384041|164921141|SUPERIORITY|||||||0.7885|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.7885
82602740|NCT05384041|164921142|SUPERIORITY||||||<|0.001|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||<0.001
82602741|NCT05384041|164921142|SUPERIORITY|||||||0.45|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.450
82602742|NCT05384041|164921142|SUPERIORITY|||||||0.008|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.008
82602743|NCT05384041|164921142|SUPERIORITY|||||||0.438|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.438
82656050|NCT04084483|165027741|SUPERIORITY|||||||0.0888|||||||ANCOVA|||||||0.0888
82656051|NCT04538170|165027752|SUPERIORITY|||||||0.013||||||threshold for statistical significance|Fisher Exact|||Preliminary work showed that approximately 25% of patients report phantom pain after orchidectomy. A difference of 20% between the GAC and ORC groups was considered relevant. Power was set to 80% and the significance level to 5%, resulting in a minimum of 40 women to be recruited, which was fulfilled.||||0.013
82656052|NCT01682083|165027761|SUPERIORITY|Hazard ratio is obtained from the stratified Pike estimator. A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio, log|0.47|||<|0.0001|TWO_SIDED|95.0|0.39|0.58|||Log Rank|||The null hypothesis, H0: λ = 1 or reject it in favor of the alternative hypothesis, HA: λ ≠ 1, where λ is the hazard ratio (HR) of combination therapy relative to placebo.||0.58|0.39|< 0.0001
82656053|NCT01682083|165027762|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with dabrafenib + trametinib compared with Placebo.|Hazard Ratio, log|0.57||||0.006|TWO_SIDED|95.0|0.42|0.79|||Log Rank|the two-sided threshold for significance at this first interim analysis was p=0.000019||Hazard ratio is obtained from the stratified Pike estimator.||0.79|0.42|0.006
82602744|NCT05384041|164921142|SUPERIORITY|||||||0.016|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.016
82602745|NCT05384041|164921142|SUPERIORITY|||||||0.355|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.355
82602746|NCT05384041|164921143|SUPERIORITY|||||||0.046|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.046
82602747|NCT05384041|164921143|SUPERIORITY|||||||0.351|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.351
82602748|NCT05384041|164921143|SUPERIORITY|||||||0.053|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.053
82602749|NCT05384041|164921143|SUPERIORITY|||||||0.12|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.120
82602750|NCT05384041|164921143|SUPERIORITY|||||||0.17|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.170
82602751|NCT05384041|164921143|SUPERIORITY|||||||0.122|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.122
82602752|NCT05384041|164921144|SUPERIORITY|||||||0.044|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.044
82602753|NCT05384041|164921144|SUPERIORITY|||||||0.751|||||||Regression, Linear|||Difference (Active-Control) at Week 1||||0.751
82602754|NCT05384041|164921144|SUPERIORITY|||||||0.013|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.013
82602755|NCT05384041|164921144|SUPERIORITY|||||||0.318|||||||Regression, Linear|||Difference (Active-Control) at Week 2||||0.318
82602756|NCT05384041|164921144|SUPERIORITY|||||||0.173|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.173
82656054|NCT01682083|165027763|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio, log|0.51|||||TWO_SIDED|95.0|0.4|0.65||||||Hazard ratio is estimated using Pike estimator.||0.65|0.40|
82602757|NCT05384041|164921144|SUPERIORITY|||||||0.142|||||||Regression, Linear|||Difference (Active-Control) at Week 4||||0.142
82602758|NCT05384041|164921145|SUPERIORITY|||||||0.026|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.026
82602759|NCT05384041|164921145|SUPERIORITY|||||||0.241|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.241
82602760|NCT05384041|164921145|SUPERIORITY|||||||0.059|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.059
82602761|NCT05384041|164921145|SUPERIORITY|||||||0.478|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.478
82602762|NCT05384041|164921145|SUPERIORITY|||||||0.009|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.009
82602763|NCT05384041|164921145|SUPERIORITY|||||||0.729|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.729
82602764|NCT05384041|164921146|SUPERIORITY|||||||0.044|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.044
82602765|NCT05384041|164921146|SUPERIORITY|||||||0.067|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.067
82602766|NCT05384041|164921146|SUPERIORITY|||||||0.016|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.016
82602767|NCT05384041|164921146|SUPERIORITY|||||||0.006|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.006
82602768|NCT05384041|164921146|SUPERIORITY|||||||0.036|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.036
82602769|NCT05384041|164921146|SUPERIORITY|||||||0.016|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.016
82602770|NCT05384041|164921146|SUPERIORITY|||||||0.914|||||||Chi-squared|||Difference (Active-Control) at Week 1||||0.914
82602771|NCT05384041|164921146|SUPERIORITY|||||||0.887|||||||Chi-squared|||Difference (Active-Control) at Week 2||||0.887
82602772|NCT05384041|164921146|SUPERIORITY|||||||0.791|||||||Chi-squared|||Difference (Active-Control) at Week 4||||0.791
82602773|NCT01751971|164921199|SUPERIORITY||Mean Difference (Net)|10.5||||0.4|TWO_SIDED|95.0|-16.0|37.1|||t-test, 2 sided||Positive estimated value would represent a greater reduction in AHI with oxygen (% sham) in the high vs low loop gain group.|"Primary statistical comparison was the percent reduction in AHI----\[AHI(sham)-AHI(oxygen)\]/AHI(sham) %----between two phenotypic patient subgroups. Patient subgroups were defined by the loop gain (LG1) measured on the sham night as high or low (a priori cutoff LG1=0.7)."||37.1|-16|0.4
82602774|NCT01751971|164921199|SUPERIORITY||Mean Difference (Final Values)|17.4|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|10.7|24.1|||t-test, 2 sided||Direction of comparison: Positive estimation parameter would indicate lower AHI on oxygen versus sham.|Here we aimed to confirm that there was a difference between AHI on oxygen vs sham (overall, i.e. in unselected patients). This test, however was not part of our primary objective.||24.1|10.7|<0.001
82602775|NCT01751971|164921199|SUPERIORITY||Mean Difference (Net)|42.8||||0.001|TWO_SIDED|95.0|21.0|64.6|||t-test, 2 sided||Direction of comparison: Positive estimated value would indicate a greater percentage reduction in AHI (oxygen vs. sham) in favorable vs. unfavorable subgroups.|"The primary goal of the study was to identify a phenotypic subgroup of patients with sleep apnea that responds preferentially to oxygen (percent reduction in AHI----\[AHI(sham)-AHI(oxygen)\]/AHI(sham) %). We defined patient subgroups (favorable versus unfavorable) based on the four key phenotypic traits (loop gain, collapsibility, arousal threshold, muscle responses) measured on the sham night, with the use of multiple logistic regression and leave-one-out cross validation."||64.6|21.0|0.001
82602776|NCT01261559|164921206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.2|STANDARD_DEVIATION|10.0||0.003|TWO_SIDED|95.0|4.0|25.0|||Regression, Linear|A multivariate linear regression model was fitted for the main outcome of percent relative dose, with age, BMI, and bra cup size as covariates.||Powered to detect difference of 10% at 80% power if 66 or more subjects enrolled.||25|4|0.003
82602777|NCT02928952|164921209|SUPERIORITY|Assessed group by time differences from week 12 to week 24. Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.153|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.153
82602778|NCT02928952|164921209|SUPERIORITY|Assessed group by time differences from week 12 to week 24. Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.026|||||||Mixed Models Analysis|Adjusted for age and duration of diabetes.||||||0.026
82602779|NCT02928952|164921209|SUPERIORITY|Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.012|||||||Mixed Models Analysis|Models adjusted for age and duration of diabetes.||Within group analysis of intervention effect on Diabetes Distress (Problem Areas in Diabetes, PAID scale) over time stratified by hemoglobin A1c\<8.5% and =/\>8.5.||||0.012
82602780|NCT02928952|164921210|SUPERIORITY|The statistical analysis was applied to both groups.||||||0.604|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||.604
82602781|NCT02928952|164921211|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.911|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.911
82602782|NCT02928952|164921212|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.94|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||||||0.940
82602783|NCT02928952|164921213|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.305|||||||Mixed Models Analysis|All models adjusted for Age and Duration of Diabetes||The statistical analysis was applied to both groups.||||0.305
82602784|NCT02928952|164921214|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.228|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||||||0.228
82602785|NCT02928952|164921215|SUPERIORITY|Statistical Test of hypothesis. Differing sample sizes are due to attrition and missed research visits. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.671|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.671
82602786|NCT02928952|164921216|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.571|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.571
82602787|NCT02928952|164921217|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.003|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.003
82656055|NCT01682083|165027764|SUPERIORITY|A hazard ratio \<1 indicates a lower risk with Dabrafenib + Trametinib compared with Placebo.|Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.39|0.57||||||Hazard ratio is estimated using Pike estimator.||0.57|0.39|
82602788|NCT02928952|164921218|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.632|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.632
82602789|NCT02928952|164921219|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.219|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.219
82602790|NCT02928952|164921220|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.931|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.931
82602791|NCT02928952|164921221|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.627|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.627
82602792|NCT02928952|164921222|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.6|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.60
82602793|NCT02928952|164921223|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.461|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.461
82602794|NCT02928952|164921224|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.906|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.906
82602795|NCT02928952|164921225|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.856|||||||Mixed Models Analysis|All models were adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.856
82602796|NCT02928952|164921226|SUPERIORITY|Statistical Test of hypothesis. Analyzed as intention to treat in mixed models with imputation as last value moved forward.||||||0.89|||||||Mixed Models Analysis|All models adjusted for age and duration of diabetes.||The statistical analysis was applied to both groups.||||0.89
82602797|NCT01850615|164921227|SUPERIORITY_OR_OTHER||Treatment difference|-0.94|||||TWO_SIDED|95.0|-1.17|-0.72|||||Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval (CI) for the estimated treatment difference (faster aspart+basal minus basal only), which was calculated using the FAS, was below 0%.|Change from baseline in HbA1c after 18 weeks of treatment was analysed using a mixed-effect model for repeated measurements (MMRM) where all calculated changes in HbA1c from baseline at visits 16, 22 and 28 were included in the analysis. This model included treatment, region and strata as fixed factors, subject as random effect, baseline HbA1c as covariate and interaction between all fixed effects and visit, and between the covariate and visit.||-0.72|-1.17|
82602798|NCT02921425|164921235|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||.003
82602799|NCT02921425|164921237|OTHER|||||||0.007|||||||t-test, 2 sided|||||||.007
82602800|NCT02921425|164921238|OTHER|||||||0.026|||||||t-test, 2 sided|||||||.026
82656056|NCT00864097|165027765|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.039|TWO_SIDED|95.0|-0.81|-0.02|||ANCOVA|||LS means were estimated from the corresponding analysis of covariance (ANCOVA) model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.02|-0.81|0.039
82602801|NCT02921425|164921240|OTHER|||||||0.003||||||systolic blood pressure|t-test, 2 sided|||||||.003
82602802|NCT02921425|164921240|OTHER|||||||0.001|||||||t-test, 2 sided|||diastolic blood pressure||||.001
82602803|NCT02921425|164921242|OTHER|||||||0.019|||||||Wilcoxon (Mann-Whitney)|||||||.019
82602804|NCT01227967|164921246|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.0|STANDARD_ERROR_OF_MEAN|5.0||0.046|TWO_SIDED|95.0|-19.8|-0.2||P-value was not adjusted for multiple interim analyses.|Z-test, 2-sided|Comparison of randomized arms was based on the normal approximation to the binomial distribution.|The difference in percents was calculated as the percent detectable in the Combination Therapy minus the percent detectable in the Oseltamivir Monotherapy.|Assuming that pooled percentage of participants with virus detectable by PCR at Day 3 is 50%, assuming that the Combination Therapy was better than the Oseltamivir Monotherapy and that the detectable rate in the Combination Therapy was 42.5% compared to 57.5% in the Oseltamivir Monotherapy (a 15% reduction), and assuming 10% subjects with missing qPCR at Day 3, in a two-sided, two-sample 0.05-level t- test with 546 participants combined across both arms, there was 90% power.||-0.2|-19.8|0.046
82602805|NCT03403400|164921261|EQUIVALENCE|Comparison of variance|Test Statistics|0.893||||0.64|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between groups in mCTSIB Ha: There is a significant difference between groups in mCTSIB||||.640
82602806|NCT03403400|164921261|EQUIVALENCE|Comparison of variance|Test Statistics|0.196||||0.18|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the prescribed walking group and the control group in mCTSIB Ha: There is a significant difference between the prescribed walking group and the control group in mCTSIB||||.18
82602807|NCT03403400|164921262|EQUIVALENCE|comparison of variance|Test Statistics|0.803||||0.67|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in TUG Ha: There is a significant difference between the groups in TUG||||.67
82656057|NCT00864097|165027765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.2||0.011|TWO_SIDED|95.0|-0.91|-0.12|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.12|-0.91|0.011
82602808|NCT03403400|164921262|EQUIVALENCE|comparison of variance|Test Statistics|0.14||||0.71|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference in TUG between the prescribed walking and control group Ha: There is a significant difference in TUG between the prescribed walking and control group||||.71
82602809|NCT03403400|164921263|EQUIVALENCE|Comparison of variance|Test Statistics|0.803|STANDARD_DEVIATION|1.79||0.67|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in DGI Ha: There is a significant difference between the groups in DGI||||.67
82602810|NCT03403400|164921263|EQUIVALENCE|comparison of variance|Test Statistics|0.66||||0.42|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the prescribed walking group and the control group in DGI Ha: There is a significant difference between the prescribed walking group and control group in DGI||||.42
82602811|NCT03403400|164921264|EQUIVALENCE|comparison of variance|Test Statistics|4.386||||0.11|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference between the groups in DHI Ha: There is a significant difference between the groups in DHI||||.11
82602812|NCT03403400|164921264|EQUIVALENCE|comparison of variance|Test Statistics|4.351||||0.04|TWO_SIDED||||||Kruskal-Wallis|||Ho: There is no significant difference in DHI between the prescribed walking group and the control group Ha: There is a significant difference in DHI between the prescribed walking group and the control group||||.04
82656058|NCT00864097|165027765|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.2||0.005|TWO_SIDED|95.0|-0.97|-0.17|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.17|-0.97|0.005
82602813|NCT00565617|164921279|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||ANOVA|||||||0.009
82602814|NCT01375764|164921291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.94|STANDARD_ERROR_OF_MEAN|4.11|<|0.001|TWO_SIDED|95.0|-44.08|-27.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-27.80|-44.08|<0.001
82602815|NCT01375764|164921291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.82|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-35.97|-19.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-19.67|-35.97|<0.001
82602816|NCT01375764|164921291|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Tretament Difference|-26.01|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-34.08|-17.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-17.93|-34.08|<0.001
82602817|NCT01375764|164921292|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.29|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED|95.0|-53.73|-40.84||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab + ezetimibe and ezetimibe alone, and the alternative hypothesis was that a mean difference did exist.||-40.84|-53.73|<0.001
82602818|NCT01375764|164921293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-76.6|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-94.9|-58.3||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-58.3|-94.9|<0.001
82602819|NCT01375764|164921293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.5|STANDARD_ERROR_OF_MEAN|9.3|<|0.001|TWO_SIDED|95.0|-74.0|-37.1||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-37.1|-74.0|<0.001
82656059|NCT00864097|165027766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.2||0.01|TWO_SIDED|95.0|-0.91|-0.12|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.12|-0.91|0.010
82656060|NCT00864097|165027766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.2||0.002|TWO_SIDED|95.0|-1.03|-0.23|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.23|-1.03|0.002
82656061|NCT00864097|165027766|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.1|-0.3|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.30|-1.10|<0.001
82656062|NCT00864097|165027767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.08||0.022|TWO_SIDED|95.0|-0.32|-0.03|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.32|0.022
82656063|NCT00864097|165027767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.02|TWO_SIDED|95.0|-0.33|-0.03|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.33|0.020
82602820|NCT01375764|164921293|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.6|STANDARD_ERROR_OF_MEAN|9.2|<|0.001|TWO_SIDED|95.0|-70.8|-34.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-34.5|-70.8|<0.001
82602821|NCT01375764|164921294|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-91.9|STANDARD_ERROR_OF_MEAN|8.4|<|1|TWO_SIDED|95.0|-108.7|-75.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-75.0|-108.7|<0001
82602822|NCT01375764|164921295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.6|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-40.93|-26.28||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-26.28|-40.93|<0.001
82602823|NCT01375764|164921295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.66|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-33.99|-19.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-19.32|-33.99|<0.001
82602824|NCT01375764|164921295|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-24.86|STANDARD_ERROR_OF_MEAN|3.67|<|0.001|TWO_SIDED|95.0|-32.13|-17.59||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-17.59|-32.13|<0.001
82602825|NCT01375764|164921296|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.0|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|-50.81|-39.18||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-39.18|-50.81|<0.001
82602826|NCT01375764|164921297|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Teatment Difference|-29.88|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-36.84|-22.92||Testing based on a significance level of 0.05|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-22.92|-36.84|<0.001
82602827|NCT01375764|164921297|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.13|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-29.1|-15.16||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-15.16|-29.10|<0.001
82602828|NCT01375764|164921297|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.38|STANDARD_ERROR_OF_MEAN|3.49|<|0.001|TWO_SIDED|95.0|-28.29|-14.48||Testing based on a signficance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-14.48|-28.29|<0.001
82602829|NCT01375764|164921298|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.23|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-43.81|-32.64||Testing based on a significance level of 0.05|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-32.64|-43.81|<0.001
82602830|NCT01375764|164921299|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.95|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-37.56|-24.34||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-24.34|-37.56|<0.001
82602831|NCT01375764|164921299|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.91|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-30.53|-17.29||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-17.29|-30.53|<0.001
82602832|NCT01375764|164921299|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.36|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-28.92|-15.8||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-15.80|-28.92|<0.001
82602833|NCT01375764|164921300|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.92|STANDARD_ERROR_OF_MEAN|2.92|<|0.001|TWO_SIDED|95.0|-43.77|-32.07||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-32.07|-43.77|<0.001
82602834|NCT01375764|164921301|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.05|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-40.57|-27.52||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-27.52|-40.57|<0.001
82602835|NCT01375764|164921301|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.81|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-33.35|-20.27||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-20.27|-33.35|<0.001
82602836|NCT01375764|164921301|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.1|STANDARD_ERROR_OF_MEAN|3.27|<|0.001|TWO_SIDED|95.0|-31.57|-18.62||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (3 evolocumab alone dose groups and the ezetimibe group) and the stratification factors.|Ezetimibe is the reference.|||-18.62|-31.57|<0.001
82602837|NCT01375764|164921302|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.25|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-46.99|-35.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group (evolocumab + ezetimibe and ezetimibe alone) and the stratification factors.|Ezetimibe is the reference.|||-35.50|-46.99|<0.001
82602838|NCT01228903|164921309|EQUIVALENCE|(Doehner et al.) CHF patients on allopurinol (n= 14) had improved BA-FMD= 10.6 ± 2.0 (mean ± SE) vs placebo (n= 14, FMD= 6.7 ± 0.1); difference in means= 3.9. Yiginer et al. found a similar difference in metabolic syndrome. A sample size of 34/group will have 80% power to detect a difference in means of 3.9 (common standard deviation=5.6, two group t-test=0.050 two-sided significance). Accounting for a potential drop-out rate17%, n= 40/group was recruited.|Mean Difference (Net)|0.7||||0.47|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The estimated value represents the difference between the change from baseline in both groups.|The null hypothesis was the there will be no difference between the placebo and allopurinol. The power for the study was calculated (as appropriate) based on the prior literature.||||0.47
82602839|NCT02867761|164921315|SUPERIORITY||Odds Ratio (OR)|0.91||||0.65|TWO_SIDED|95.0|0.6|1.37|||Generalized Estimating Equation|||||1.37|0.60|0.65
82602840|NCT02867761|164921319|SUPERIORITY|||||||0.3|||||||Linear Mixed Effects Model|||||||0.30
82602841|NCT02867761|164921320|SUPERIORITY|||||||0.49|||||||Linear Mixed Effects Model|||||||0.49
82602842|NCT02867761|164921321|SUPERIORITY|||||||0.96|||||||Linear Mixed Effects Model|||||||0.96
82602843|NCT02867761|164921322|SUPERIORITY||||||<|0.001|||||||Linear Mixed Effects Model|||||||<0.001
82602844|NCT02867761|164921325|SUPERIORITY|||||||0.35|||||||Linear Mixed Effects Model|||P Value for percentage of days with any symptoms (shortness of breath, chest tightness, wheezing, cough, or sputum)||||0.35
82602845|NCT02867761|164921325|SUPERIORITY|||||||0.61|||||||Linear Mixed Effects Model|||P Value for percentage of days with shortness of breath||||0.61
82602846|NCT02867761|164921325|SUPERIORITY|||||||0.48|||||||Linear Mixed Effects Model|||P Value for percentage of days with chest tightness||||0.48
82602847|NCT02867761|164921325|SUPERIORITY|||||||0.81|||||||Linear Mixed Effects Model|||P Value for percentage of days with wheezing||||0.81
82602848|NCT02867761|164921325|SUPERIORITY|||||||0.17|||||||Linear Mixed Effects Model|||P Value for percentage of days with cough||||0.17
82602849|NCT02867761|164921325|SUPERIORITY|||||||0.64|||||||Linear Mixed Effects Model|||P Value for percentage of days with sputum||||0.64
82602850|NCT02867761|164921325|SUPERIORITY|||||||0.84|||||||Linear Mixed Effects Model|||P Value for percentage of days with use of albuterol.||||0.84
82602851|NCT01512264|164921337|OTHER|||||||0.006|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.58.||||0.006
82602852|NCT01512264|164921337|OTHER|||||||0.015|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the1 week of Sham Treatment + 2 weeks of nerTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.27.||||0.015
82602853|NCT01512264|164921337|OTHER|||||||0.203|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment + 1 week of nerTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.203
82602854|NCT01512264|164921337|OTHER|||||||0.01|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.63.||||0.010
82602855|NCT01512264|164921338|OTHER|||||||0.41|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and BNT test was calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.410
82602856|NCT01512264|164921338|OTHER|||||||0.618|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for 1 week of Sham Treatment + 2 weeks of nerTMS group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.57.||||0.618
82602857|NCT01512264|164921338|OTHER|||||||1|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for 2 weeks of Sham Treatment + 1 week of nerTMS group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 1.31.||||1.000
82602858|NCT01512264|164921338|OTHER|||||||0.019|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and BNT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 4.35.||||0.019
82602859|NCT01512264|164921340|OTHER|||||||0.118|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.69.||||0.118
82602860|NCT01512264|164921340|OTHER|||||||0.482|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.28.||||0.482
82602861|NCT01512264|164921340|OTHER|||||||0.368|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.37.||||0.368
82602862|NCT01512264|164921340|OTHER|||||||0.147|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.70.||||0.147
82602863|NCT01512264|164921341|OTHER|||||||0.41|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.54.||||0.410
82602864|NCT01512264|164921341|OTHER|||||||0.695|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.25.||||0.695
82602865|NCT01512264|164921341|OTHER|||||||0.175|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.25.||||0.175
82602866|NCT01512264|164921341|OTHER|||||||0.518|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and SFT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.60.||||0.518
82602867|NCT01512264|164921343|OTHER|||||||0.109|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.71.||||0.109
82602868|NCT01512264|164921343|OTHER|||||||0.485|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.28.||||0.485
82602869|NCT01512264|164921343|OTHER|||||||0.864|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.07.||||0.864
82602870|NCT01512264|164921343|OTHER|||||||0.341|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.43.||||0.341
82602871|NCT01512264|164921344|OTHER|||||||0.899|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.12.||||0.899
82602872|NCT01512264|164921344|OTHER|||||||0.519|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.19.||||0.519
82602873|NCT01512264|164921344|OTHER|||||||1|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.09.||||1.000
82602874|NCT01512264|164921344|OTHER|||||||0.14|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and COWAT test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.84.||||0.140
82602875|NCT01512264|164921346|OTHER|||||||0.52|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the rTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.24.||||0.520
82602876|NCT01512264|164921346|OTHER|||||||0.8|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.97.||||0.800
82602877|NCT01512264|164921346|OTHER|||||||0.148|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the 2 weeks of Sham Treatment +1 week of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -0.68.||||0.148
82656064|NCT00864097|165027767|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.4|-0.09|||ANCOVA|||LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.09|-0.40|0.002
82602878|NCT01512264|164921346|OTHER|||||||0.787|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 4 for the control group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 0.67.||||0.787
82602879|NCT01512264|164921347|OTHER|||||||0.239|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the rTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -3.12.||||0.239
82602880|NCT01512264|164921347|OTHER|||||||0.212|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 1 week of Sham Treatment + 2 weeks of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = 2.71.||||0.212
82602881|NCT01512264|164921347|OTHER|||||||0.12|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the 2 weeks of Sham Treatment +1 week of nerTMS group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -3.10.||||0.120
82602882|NCT01512264|164921347|OTHER|||||||0.263|||||||t-test, 2 sided|||paired t- test between time point 1 and time point 5 for the control group and WAB test were calculated. Cohen's d was calculated to determine the power of the test. The Cohen's d calculated for this test = -1.14.||||0.263
82656065|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.957|TWO_SIDED|95.0|-0.32|0.34|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.34|-0.32|0.957
82602883|NCT01194440|164921357|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Bonferonni|Adjusting for multiple comparisons in the analyses, a Bonferonni-corrected p-value of 0.05/5 = 0.01 to represent statistical significance was used.||The primary hypothesis of the study is that administration of zoledronic acid with letrozole would result in a significant decline in the percentage of women experiencing AIMSS compared to letrozole treatment alone (historical control).||||<0.001
82602884|NCT00854828|164921361|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82602885|NCT02411747|164921380|NON_INFERIORITY_OR_EQUIVALENCE|Beta: 0.8, p significant if p \> 0.005||||||0.34|||||||t-test, 2 sided|||Independent samples t-test||||0.34
82602886|NCT02149810|164921381|SUPERIORITY||Mean Difference (Net)|0.109||||0.28|TWO_SIDED|95.0|-0.09|0.31||The a priori threshold for statistical significance was p = 0.05.|Mixed Models Analysis|Linear mixed models, controlling for baseline score, were used to compare the SSM and TAU groups' change score from baseline to 12-week on SDNN.||The primary focus of this study was the interaction effect of treatment on heart rate variability at Weeks 0 and 12. On the assumption that this effect size is medium (Cohen's f = .25), calculations (using G\*Power) 23 indicate that a sample size of 80 yield power estimates of .99 for both the interaction and the main effect of time. The study enrolled 95 participants to account for participant attrition.||0.31|-0.09|0.28
82602887|NCT02149810|164921382|SUPERIORITY||Mean Difference (Net)|0.034||||0.89|TWO_SIDED|95.0|-0.44|0.51||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|Linear mixed models, controlling for baseline score, were used to compare the SSM and TAU groups' change score from baseline to 12-week on LF HRV.||||0.51|-0.44|0.89
82602888|NCT02149810|164921383|SUPERIORITY||Mean Difference (Net)|-2.66||||0.03|TWO_SIDED|95.0|-5.05|-0.26||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.26|-5.05|0.030
82602889|NCT02149810|164921384|SUPERIORITY||Mean Difference (Net)|-2.37||||0.021|TWO_SIDED|95.0|-4.37|-0.36||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.36|-4.37|0.021
82602890|NCT02149810|164921385|SUPERIORITY||Mean Difference (Net)|11.0||||0.22|TWO_SIDED|95.0|-7.01|29.01||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||29.01|-7.01|0.22
82602891|NCT02149810|164921386|SUPERIORITY||Mean Difference (Net)|1.91||||0.72|TWO_SIDED|95.0|-8.54|12.37||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||12.37|-8.54|0.72
82602892|NCT02149810|164921387|SUPERIORITY||Mean Difference (Net)|-0.8||||0.018|TWO_SIDED|95.0|-1.46|-0.15||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||-0.15|-1.46|0.018
82602893|NCT02149810|164921388|SUPERIORITY||Mean Difference (Net)|-0.14||||0.99|TWO_SIDED|95.0|-21.94|21.66||The a priori threshold for statistical significance was set at p = 0.05.|Mixed Models Analysis|||||21.66|-21.94|0.99
82602894|NCT02149810|164921389|SUPERIORITY||Odds Ratio (OR)|3.26||||0.049|TWO_SIDED|95.0|1.01|10.53||The a priori threshold for statistical significance was set at p = 0.05.|Regression, Linear|||Generalised linear models were used to compare the proportion of participants who responded to the intervention (≥50% decrease from baseline on the HRSD, defined a priori) at the end of intervention (week 12).||10.53|1.01|0.049
82602895|NCT02149810|164921390|SUPERIORITY||Odds Ratio (OR)|3.36||||0.04|TWO_SIDED|95.0|1.06|10.64||The a priori threshold for statistical significance was set at p = 0.05.|Regression, Linear|||Generalised linear models were used to compare the proportion of the proportion of participants who achieved remission (scores ≤7 on the HRSD, defined a priori) at the end of intervention (week 12).||10.64|1.06|0.040
82602896|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.7|||<|0.001|TWO_SIDED|95.0|0.63|0.77||Analysis of variance (ANOVA) model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 16||0.77|0.63|< 0.001
82602897|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.8||Analysis of variance (ANOVA) model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 18||0.80|0.64|< 0.001
82602898|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.66|||<|0.001|TWO_SIDED|95.0|0.6|0.74||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 31||0.74|0.60|< 0.001
82602899|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.73|||<|0.001|TWO_SIDED|95.0|0.67|0.8||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 33||0.80|0.67|< 0.001
82602900|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.6|0.76||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 45||0.76|0.60|< 0.001
82602901|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.64|0.78||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 52||0.78|0.64|< 0.001
82602902|NCT03158220|164921399|NON_INFERIORITY|Non-inferiority of GMT in 27-45 year-olds relative to 16-26 year-olds was demonstrated if the lower limit of the 95% confidence interval (CI) for the fold difference was greater than 0.5.|Fold Difference|0.69|||<|0.001|TWO_SIDED|95.0|0.63|0.76||ANOVA model with response of log individual titers and a fixed effect for age groups.|ANOVA||Fold difference calculated as GMT 27-45 year-olds/GMT 16-26 year-olds|Anti HPV 58||0.76|0.63|< 0.001
82602903|NCT03158220|164921402|OTHER||Difference in Percentages|-2.5||||0.212|TWO_SIDED|95.0|-6.4|1.4|||Miettinen & Nurminen||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||1.4|-6.4|0.212
82602904|NCT03158220|164921403|OTHER||Difference in Percentages|-1.9|||||TWO_SIDED|95.0|-7.3|3.4|||||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||3.4|-7.3|
82602905|NCT03158220|164921404|OTHER||Difference in Percentages|-1.0||||0.3|TWO_SIDED|95.0|-3.1|0.9|||Miettinen & Nurminen||Difference in percentages calculated as % Women 27-45 Years of Age minus % Women 16-26 Years of Age.|||0.9|-3.1|0.300
82602906|NCT00848120|164921436|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Week 24 versus baseline||||<0.001
82602907|NCT00848120|164921437|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||Week 24 versus baseline||||<0.001
82602908|NCT00848120|164921438|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|||Week 24 versus baseline||||0.001
82602909|NCT02525549|164921460|NON_INFERIORITY|provides 85% power of success|Equivalence ratio|93.12|||||TWO_SIDED|90.0|88.6|102.0|||Fieller's method|||||102.00|88.6|
82602910|NCT02525549|164921461|NON_INFERIORITY|provides 85% power of success|Equivalence ratio|98.7|||||TWO_SIDED|90.0|92.3|109.4|||Fieller's method|||||109.4|92.3|
82602911|NCT01439945|164921477|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|Weekly hot flash score was treated as a repeated measure for each patient.||||||0.13
82602912|NCT01439945|164921477|SUPERIORITY_OR_OTHER|||||||0.67|||||||ANOVA|Weekly hot flash score was treated as a repeated measure for each patient.||||||0.67
82602913|NCT01439945|164921478|SUPERIORITY_OR_OTHER|||||||0.25|||||||ANOVA|Weekly number of hot flashes were treated as a repeated measure for each patient.||||||0.25
82602914|NCT01439945|164921478|SUPERIORITY_OR_OTHER|||||||0.55||||||Weekly number of hot flashes were treated as a repeated measure for each patient.|ANOVA|||||||0.55
82656066|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.17||0.899|TWO_SIDED|95.0|-0.31|0.35|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.35|-0.31|0.899
82656067|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.17||0.022|TWO_SIDED|95.0|0.06|0.72|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.72|0.06|0.022
82602915|NCT01439945|164921481|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.00
82656068|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.18||0.052|TWO_SIDED|95.0|-0.7|0.0|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.00|-0.70|0.052
82656069|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.05|-0.34|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.34|-1.05|<0.001
82656070|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.18||0.008|TWO_SIDED|95.0|-0.84|-0.13|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.13|-0.84|0.008
82656071|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.058|TWO_SIDED|95.0|-0.72|0.01|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.01|-0.72|0.058
82656072|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.05|-0.32|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.32|-1.05|<0.001
82656073|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.12|-0.38|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.38|-1.12|<0.001
82602916|NCT01439945|164921482|SUPERIORITY_OR_OTHER|||||||0.47|||||||Kruskal-Wallis|||||||0.47
82602917|NCT01439945|164921482|SUPERIORITY_OR_OTHER|||||||0.09|||||||Kruskal-Wallis|||||||0.09
82602918|NCT01445678|164921511|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% confidence interval was greater than -10%.|Risk Difference (RD)|-4.2|||||TWO_SIDED|95.0|-8.91|0.54||||||||0.54|-8.91|
82602919|NCT01445678|164921512|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower bound of the 2-sided 95% confidence interval was greater than -10%.|Risk Difference (RD)|-1.0|||||TWO_SIDED|95.0|-4.52|2.59||||||||2.59|-4.52|
82602920|NCT01445678|164921513|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.1|||||TWO_SIDED|95.0|-7.23|0.89||||||||0.89|-7.23|
82602921|NCT01445678|164921514|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.4|||||TWO_SIDED|95.0|-3.4|2.33||||||||2.33|-3.4|
82656074|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.91|-0.15|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.15|-0.91|0.007
82602922|NCT01445678|164921515|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.1|||||TWO_SIDED|95.0|-9.09|0.94||||||||0.94|-9.09|
82602923|NCT01445678|164921516|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-0.88|2.37||||||||2.37|-0.88|
82602924|NCT02216695|164921528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35|||||TWO_SIDED|95.0|1.3|1.4|||Regression, Logistic||This is OR for 65 to 74 years age group with \< 65 years as the reference group|||1.40|1.30|
82602925|NCT02216695|164921528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||||TWO_SIDED|95.0|1.66|1.79|||Regression, Logistic||This is OR for age group 75 to 84 years age group with \< 65 years as reference|||1.79|1.66|
82602926|NCT02216695|164921528|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03|||||TWO_SIDED|95.0|1.89|2.19|||Regression, Logistic||This is OR for age group equal to greater than 85 years age group with \< 65 years as reference|||2.19|1.89|
82602927|NCT02216695|164921529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|1.1|1.3|||Regression, Logistic||This is the OR for 1998-2003 discharge period with 2003-08 as the reference group|||1.30|1.10|
82602928|NCT02216695|164921529|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.13|||||TWO_SIDED|95.0|1.07|1.18|||Regression, Logistic||This is the OR for 2008-13 discharge period with 2003-08 as the reference group|||1.18|1.07|
82602929|NCT02162862|164921552|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82602930|NCT02162862|164921552|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82602931|NCT02162862|164921552|OTHER|||||||0.102|||||||t-test, 2 sided|||||||.102
82602932|NCT02162862|164921553|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82602933|NCT02162862|164921553|OTHER|||||||0.646|||||||t-test, 2 sided|||||||.646
82602934|NCT02162862|164921553|OTHER||||||<|0.005|||||||t-test, 2 sided|||||||<0.005
82602935|NCT02064764|164921554|OTHER|Log-Rank Test For Comparing Treatment and Control||||||0.28|||||||Log Rank|||||||0.28
82602936|NCT02064764|164921555|OTHER|||||||0.7348|||||||Log Rank|||||||0.7348
82602937|NCT00988247|164921564|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-0.97|||<|0.001|TWO_SIDED|95.0|-1.5|-0.5|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.5|-1.5|<0.001
82602938|NCT00988247|164921565|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-0.96|||<|0.001|TWO_SIDED|95.0|-1.4|-0.5|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.5|-1.4|<0.001
82602939|NCT00988247|164921566|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-1.09|||<|0.001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.6|-1.6|<0.001
82602940|NCT00988247|164921567|SUPERIORITY_OR_OTHER_LEGACY||LS mean treatment diff from placebo]|-1.1|||<|0.001|TWO_SIDED|95.0|-1.6|-0.6|||ANCOVA|The repeated measures ANCOVA included covariate adjustment for baseline, treatment, week and the treatment by week interaction.||||-0.6|-1.6|<0.001
82602941|NCT00988247|164921568|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.3||||0.143|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|ANCOVA with treatment, baseline and pooled center in the model.||||0.1|-0.7|0.143
82656075|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.18|-0.41|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.41|-1.18|<0.001
82656076|NCT00864097|165027768|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.2|<|0.001|TWO_SIDED|95.0|-1.05|-0.28|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.28|-1.05|<0.001
82656077|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.15||0.754|TWO_SIDED|95.0|-0.25|0.35|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.35|-0.25|0.754
82602942|NCT00988247|164921569|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.49||||0.13|TWO_SIDED|95.0|-1.1|0.1|||ANCOVA|ANCOVA with treatment, baseline and pooled center in the model.||||0.1|-1.1|0.130
82602943|NCT03990870|164921580|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82602944|NCT03990870|164921583|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||0.35
82602945|NCT03990870|164921585|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82656078|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.16||0.706|TWO_SIDED|95.0|-0.36|0.25|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.25|-0.36|0.706
82602946|NCT01989221|164921586|SUPERIORITY||Mean Difference (Final Values)|0.55|STANDARD_DEVIATION|0.12|<|0.01|TWO_SIDED|95.0||||Threshold for statistical significance was p \< 0.05.|t-test, 2 sided||Mean GCSI-DD scores during one week at baseline were compared to mean GCSI-DD scores during the second week of Sancuso treatment.|||||<0.01
82602947|NCT01989221|164921587|OTHER||Mean Difference (Final Values)|1.01|STANDARD_DEVIATION|0.27|<|0.01|TWO_SIDED|95.0||||Threshold for statistical significance was p \< 0.05|t-test, 2 sided||Mean nausea and vomiting symptom scores during one week at baseline were compared to mean symptom scores during the second week of Sancuso treatment.|||||<0.01
82602948|NCT00542620|164921603|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.25% or equivalently if the p-value for the one-sided test of H0: D\>0.25% against HA: D=\<0.25%, was less than or equal to 2.5%, where D is the mean treatment difference (mixing injections minus separate injections).|Median Difference (Final Values)|-0.691||||0.001||95.0|-1.049|-0.334||If non-inferiority was confirmed, the superiority of the mixed injection group over separate injection group was to be investigated|ANCOVA|Baseline HbA1c as covariate||||-0.334|-1.049|0.001
82602949|NCT00542620|164921604|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.25% or equivalently if the p-value for the one-sided test of H0: D\>0.25% against HA: D=\<0.25%, was less than or equal to 2.5%, where D is the mean treatment difference (mixing injections minus separate injections).|Mean Difference (Final Values)|-0.594||||0.003||95.0|-0.97|-0.219||If non-inferiority was confirmed, the superiority of the mixed injection group over separate injection group was to be investigated.|ANCOVA|Baseline HbA1c as covariate.||||-0.219|-0.970|0.003
82656079|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.16||0.266|TWO_SIDED|95.0|-0.13|0.48|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.48|-0.13|0.266
82656080|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.195|TWO_SIDED|95.0|-0.58|0.12|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.12|-0.58|0.195
82602950|NCT00542620|164921605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.35|STANDARD_ERROR_OF_MEAN|14.59||0.573||95.0|-38.77|22.08|||ANCOVA|With adjustment on baseline fructosamine and the change in insulin administration mode||||22.08|-38.77|0.573
82602951|NCT00542620|164921606|SUPERIORITY_OR_OTHER|||||||0.063|||||||ANCOVA|With adjustment on baseline value||||||0.063
82602952|NCT00542620|164921607|SUPERIORITY_OR_OTHER|||||||0.389|||||||ANCOVA|With adjustment on baseline value||||||0.389
82602953|NCT00542620|164921608|SUPERIORITY_OR_OTHER|||||||0.856|||||||ANCOVA|With adjustment on baseline value||||||0.856
82602954|NCT00542620|164921609|SUPERIORITY_OR_OTHER|||||||0.917|||||||ANCOVA|With adjustment on baseline value||||||0.917
82602955|NCT00542620|164921610|SUPERIORITY_OR_OTHER|||||||0.209|||||||ANCOVA|With adjustment on baseline value||||||0.209
82602956|NCT00542620|164921611|SUPERIORITY_OR_OTHER|||||||0.22|||||||ANCOVA|With adjustment on baseline value||||||0.220
82602957|NCT00542620|164921612|SUPERIORITY_OR_OTHER|||||||0.234|||||||ANCOVA|With adjustment for baseline value||||||0.234
82602958|NCT00542620|164921613|SUPERIORITY_OR_OTHER|||||||0.534|||||||ANCOVA|With adjustment on baseline value||||||0.534
82602959|NCT00542620|164921614|SUPERIORITY_OR_OTHER|||||||0.722|||||||ANCOVA|With adjustment on baseline value||||||0.722
82602960|NCT00542620|164921615|SUPERIORITY_OR_OTHER|||||||0.727|||||||ANCOVA|With adjustment on baseline value||||||0.727
82602961|NCT00542620|164921616|SUPERIORITY_OR_OTHER|||||||0.411|||||||ANCOVA|With adjustment on baseline value||||||0.411
82602962|NCT00542620|164921617|SUPERIORITY_OR_OTHER|||||||0.471|||||||ANCOVA|With adjustment on baseline value||||||0.471
82602963|NCT00542620|164921620|SUPERIORITY_OR_OTHER|||||||0.127|||||||ANCOVA|With adjustment on baseline value||||||0.127
82602964|NCT00542620|164921621|SUPERIORITY_OR_OTHER|||||||0.1|||||||ANCOVA|With adjustment on baseline value||||||0.1
82656081|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.18|<|0.001|TWO_SIDED|95.0|-1.07|-0.36|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.36|-1.07|<0.001
82656082|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.019|TWO_SIDED|95.0|-0.78|-0.07|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.07|-0.78|0.019
82656083|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.126|TWO_SIDED|95.0|-0.64|0.08|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.08|-0.64|0.126
82602965|NCT00542620|164921622|SUPERIORITY_OR_OTHER|||||||0.166|||||||ANCOVA|With adjustment on baseline value||||||0.166
82602966|NCT00542620|164921623|SUPERIORITY_OR_OTHER|||||||0.023|||||||ANCOVA|With adjustment on baseline value||||||0.023
82602967|NCT00542620|164921624|SUPERIORITY_OR_OTHER|||||||0.439|||||||ANCOVA|With adjustment on baseline value||||||0.439
82602968|NCT00542620|164921625|SUPERIORITY_OR_OTHER|||||||0.202|||||||ANCOVA|With adjustment on baseline value||||||0.202
82602969|NCT00542620|164921626|SUPERIORITY_OR_OTHER|||||||0.665|||||||ANCOVA|With adjustment on baseline value||||||0.665
82602970|NCT00849017|164921634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.84|||<|0.0001|TWO_SIDED|95.0|-1.11|-0.58|||ANCOVA|||||-0.58|-1.11|<0.0001
82602971|NCT00849017|164921634|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04|||<|0.0001|TWO_SIDED|95.0|-1.31|-0.77|||ANCOVA|||||-0.77|-1.31|<0.0001
82602972|NCT01577238|164921713|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82602973|NCT01925209|164921726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|17.59|STANDARD_ERROR_OF_MEAN|14.331||0.221|TWO_SIDED|99.0|-19.63|54.8|||mixed model repeated measures|||||54.80|-19.63|0.2210
82602974|NCT01925209|164921726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.59|STANDARD_ERROR_OF_MEAN|14.176||0.1909|TWO_SIDED|99.0|-18.21|55.4|||mixed model repeated measure|||||55.40|-18.21|0.1909
82602975|NCT01925209|164921726|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.31|STANDARD_ERROR_OF_MEAN|14.121||0.9263|TWO_SIDED|99.0|-37.97|35.36|||mixed models repeated measures|||||35.36|-37.97|0.9263
82602976|NCT00110994|164921732|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.665||||0.068|TWO_SIDED|95.0|0.428|1.034|||log rank test|||||1.034|0.428|0.068
82602977|NCT00110994|164921733|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.992||||0.973|TWO_SIDED|95.0|0.627|1.57|||log rank test|||||1.570|0.627|0.973
82602978|NCT00110994|164921735|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.619||||0.039|TWO_SIDED|95.0|0.391|0.98|||log rank test|||||0.980|0.391|0.039
82602979|NCT00110994|164921736|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.427||||0.194|TWO_SIDED|95.0|0.114|1.601|||log rank test|||||1.601|0.114|0.194
82602980|NCT00110994|164921738|SUPERIORITY_OR_OTHER|||||||0.908||95.0|||||t-test, 2 sided|||||||0.908
82602981|NCT00110994|164921739|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||t-test, 2 sided|||||||0.890
82602982|NCT00110994|164921740|SUPERIORITY_OR_OTHER|||||||0.201||95.0|||||t-test, 2 sided|||||||0.201
82602983|NCT00110994|164921741|SUPERIORITY_OR_OTHER|||||||0.168||95.0|||||t-test, 2 sided|||||||0.168
82602984|NCT01950819|164921747|NON_INFERIORITY|p vale for non inferiority margin is 10 %|Odds Ratio (OR)|3.0||||0.001|TWO_SIDED|95.0|-1.4|7.3|||Logistic Regression Model|||calculated at month 12||7.3|-1.4|0.001
82602985|NCT01756456|164921789|SUPERIORITY|Each of the comparisons was conducted on the data for the Phase II segment of the study using a 2 × 2 chi-square test, based on the null hypothesis that there is no association between treatment (rhNGF or Vehicle Control) and response (Complete Healing at Week 4 \[Yes/No\]).|Difference in percentage|35.3|||<|0.001|TWO_SIDED|97.06|15.88|54.71|||Chi-squared|||Phase II||54.71|15.88|<0.001
82602986|NCT01756456|164921789|SUPERIORITY|Each of the comparisons was conducted on the data for the Phase II segment of the study using a 2 × 2 chi-square test, based on the null hypothesis that there is no association between treatment (rhNGF or Vehicle Control) and response (Complete Healing at Week 4 \[Yes/No\]).|Difference in percentage|38.4|||=|0.001|TWO_SIDED|97.06|18.96|57.83|||Chi-squared|||||57.83|18.96|=0.001
82602987|NCT01756456|164921790|SUPERIORITY||Difference in percentage|25.8|||=|0.016|TWO_SIDED|97.06|3.66|47.87|||Chi-squared|||||47.87|3.66|=0.016
82602988|NCT01756456|164921790|SUPERIORITY||Difference in percentage|34.7|||=|0.002|TWO_SIDED|97.06|11.91|57.41|||Chi-squared|||||57.41|11.91|=0.002
82602989|NCT01756456|164921791|SUPERIORITY||difference in percentage|2.4|||=|0.818|TWO_SIDED|97.06|-20.3|25.08|||Chi-squared|||At week 6 - reading center||25.08|-20.30|=0.818
82602990|NCT01756456|164921791|SUPERIORITY||difference in percentage|-6.3|||=|0.571|TWO_SIDED|97.06|-30.62|17.96|||Chi-squared|||at week 6 - central reading center||17.96|-30.62|=0.571
82602991|NCT01756456|164921791|SUPERIORITY||Difference in percentage|20.3|||=|0.064|TWO_SIDED|97.06|-3.11|43.79|||Chi-squared|||week 6 - investigator||43.79|-3.11|=0.064
82602992|NCT01756456|164921791|SUPERIORITY||Difference in percentage|23.1|||=|0.041|TWO_SIDED|97.06|-0.89|47.04|||Chi-squared|||week 6 - investigator||47.04|-0.89|=0.041
82656084|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.1|-0.37|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.37|-1.10|<0.001
82656085|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.19||0.001|TWO_SIDED|95.0|-0.98|-0.25|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.25|-0.98|0.001
82602993|NCT01756456|164921791|SUPERIORITY||Difference in percentage|21.9|||=|0.031|TWO_SIDED|97.06|0.07|43.64|||Chi-squared|||week 8 - central reading center||43.64|0.07|=0.031
82602994|NCT01756456|164921791|SUPERIORITY||difference in percentage|26.9|||=|0.008|TWO_SIDED|97.06|5.57|48.28|||Chi-squared|||week 8 - central reading center||48.28|5.57|=0.008
82656086|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.007|TWO_SIDED|95.0|-0.9|-0.15|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.15|-0.90|0.007
82656087|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.21|-0.44|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.44|-1.21|<0.001
82656088|NCT00864097|165027769|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.001|TWO_SIDED|95.0|-1.02|-0.25|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.25|-1.02|0.001
82656089|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.2|TWO_SIDED|95.0|-0.22|0.05|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.05|-0.22|0.200
82602995|NCT01756456|164921791|SUPERIORITY||Difference in percentage|26.1|||=|0.011|TWO_SIDED|97.06|4.18|48.01|||Chi-squared|||week 8 - investigator||48.01|4.18|=0.011
82656090|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.07||0.754|TWO_SIDED|95.0|-0.15|0.11|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.11|-0.15|0.754
82656091|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.07||0.449|TWO_SIDED|95.0|-0.08|0.18|||ANCOVA|||At Week 2: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.18|-0.08|0.449
82656092|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.07||0.062|TWO_SIDED|95.0|-0.27|0.01|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||0.01|-0.27|0.062
82602996|NCT01756456|164921791|SUPERIORITY||Difference in percentage|25.9|||=|0.014|TWO_SIDED|97.06|3.55|48.33|||Chi-squared|||week 8 - investigator||48.33|3.55|=0.014
82602997|NCT01756456|164921792|SUPERIORITY||difference in percentage|13.7|||=|0.065|TWO_SIDED|95.0|-0.19|27.57|||Chi-squared|||week 4||27.57|-0.19|=0.065
82602998|NCT01756456|164921792|SUPERIORITY||difference in percentage|12.4|||=|0.097|TWO_SIDED|95.0|-2.05|26.78|||Chi-squared|||week 4||26.78|-2.05|=0.097
82602999|NCT01756456|164921792|SUPERIORITY||difference in percentage|16.9|||=|0.036|TWO_SIDED|95.0|1.97|31.92|||Chi-squared|||week 6||31.92|1.97|=0.036
82603000|NCT01756456|164921792|SUPERIORITY||difference in percentage|15.6|||=|0.054|TWO_SIDED|95.0|0.04|31.12|||Chi-squared|||week 6||31.12|0.04|=0.054
82603001|NCT01756456|164921792|SUPERIORITY||difference in percentage|17.1|||=|0.043|TWO_SIDED|95.0|1.45|32.72|||Chi-squared|||week 8||32.72|1.45|=0.043
82603002|NCT01756456|164921792|SUPERIORITY||difference in percentage|11.4|||=|0.157|TWO_SIDED|95.0|-4.08|26.93|||Chi-squared|||week 8||26.93|-4.08|=0.157
82603003|NCT01756456|164921793|SUPERIORITY||least square mean difference|8.9|||=|0.022|TWO_SIDED|95.0|1.33|16.5|||ANCOVA|||||16.50|1.33|=0.022
82603004|NCT01756456|164921793|SUPERIORITY||least square mean difference|5.0|||=|0.213|TWO_SIDED|95.0|-2.9|12.88|||ANCOVA|||||12.88|-2.90|=0.213
82603005|NCT01756456|164921794|SUPERIORITY||difference in percentage|5.5|||=|0.592|TWO_SIDED|95.0|-14.53|25.48|||Chi-squared|||week 4||25.48|-14.53|=0.592
82603006|NCT01756456|164921794|SUPERIORITY|week 4|difference in percentage|-2.3|||=|0.835|TWO_SIDED|95.0|-24.01|19.4|||Chi-squared|||||19.40|-24.01|=0.835
82603007|NCT01756456|164921794|SUPERIORITY||difference in percentage|27.7|||=|0.008|TWO_SIDED|95.0|8.1|47.22|||Chi-squared|||week 6||47.22|8.10|=0.008
82603008|NCT01756456|164921794|SUPERIORITY||difference in percentage|12.4|||=|0.282|TWO_SIDED|95.0|-9.91|34.68|||Chi-squared|||week 6||34.68|-9.91|=0.282
82603009|NCT01756456|164921794|SUPERIORITY||difference in percentage|10.2|||=|0.303|TWO_SIDED|95.0|-9.15|29.45|||Chi-squared|||||29.45|-9.15|=0.303
82656093|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.36|-0.08|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.08|-0.36|0.002
82656094|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.026|TWO_SIDED|95.0|-0.3|-0.02|||ANCOVA|||At Week 4: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.02|-0.30|0.026
82656095|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.032|TWO_SIDED|95.0|-0.31|-0.01|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.01|-0.31|0.032
82656096|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.48|-0.19|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.19|-0.48|<0.001
82603010|NCT01756456|164921794|SUPERIORITY||difference in percentage|7.9|||=|0.442|TWO_SIDED|95.0|-12.13|27.92|||Chi-squared|||week 8||27.92|-12.13|=0.442
82603011|NCT01756456|164921795|SUPERIORITY||difference in percentage|-2.6|||=|0.597|TWO_SIDED|95.0|-22.87|17.71|||Chi-squared|||week 4||17.71|-22.87|=0.597
82603012|NCT01756456|164921795|SUPERIORITY||difference in percentage|-2.3|||>|0.999|TWO_SIDED|95.0|-23.26|18.71|||Chi-squared|||week 4||18.71|-23.26|>0.999
82603013|NCT01756456|164921795|SUPERIORITY||difference in percentage|-7.8|||=|0.183|TWO_SIDED|95.0|-28.7|13.76|||Chi-squared|||week 6||13.76|-28.70|=0.183
82603014|NCT01756456|164921795|SUPERIORITY||difference in percentage|-10.0|||=|0.116|TWO_SIDED|95.0|-31.41|11.88|||Chi-squared|||week 6||11.88|-31.41|=0.116
82603015|NCT01756456|164921795|SUPERIORITY||difference in percentage|-10.8|||=|0.134|TWO_SIDED|95.0|-31.3|10.35|||Chi-squared|||week 8||10.35|-31.30|=0.134
82603016|NCT01756456|164921795|SUPERIORITY||difference in percentage|-7.9|||=|0.307|TWO_SIDED|95.0|-29.51|13.52|||Chi-squared|||week 8||13.52|-29.51|=0.307
82603017|NCT01756456|164921797|SUPERIORITY||Odds Ratio (OR)|2.18|||=|0.041|TWO_SIDED|95.0|1.03|4.62|||Chi-squared|||week 4||4.62|1.03|=0.041
82656097|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.45|-0.16|||ANCOVA|||At Week 8: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.16|-0.45|<0.001
82603018|NCT01756456|164921797|SUPERIORITY||Odds Ratio (OR)|1.95|||=|0.081|TWO_SIDED|95.0|0.92|4.11|||Chi-squared|||week 4||4.11|0.92|=0.081
82603019|NCT01756456|164921797|SUPERIORITY||Odds Ratio (OR)|2.47|||=|0.04|TWO_SIDED|95.0|1.04|5.88|||Chi-squared|||week 8||5.88|1.04|=0.040
82603020|NCT01756456|164921797|SUPERIORITY||Odds Ratio (OR)|1.93|||=|0.132|TWO_SIDED|95.0|0.82|4.52|||Chi-squared|||week 8||4.52|0.82|=0.132
82603021|NCT01756456|164921802|SUPERIORITY||difference in percentage|15.8|||=|0.097|TWO_SIDED|95.0|-2.36|33.97|||Chi-squared|||week 4||33.97|-2.36|=0.097
82603022|NCT01756456|164921802|SUPERIORITY||difference in percentage|13.2|||=|0.175|TWO_SIDED|95.0|-5.72|32.15|||Chi-squared|||week 4||32.15|-5.72|=0.175
82603023|NCT01756456|164921802|SUPERIORITY||difference in percentage|16.9|||=|0.105|TWO_SIDED|95.0|-3.11|37.0|||Chi-squared|||week 6||37.00|-3.11|=0.105
82603024|NCT01756456|164921802|SUPERIORITY||difference in percentage|11.0|||=|0.3|TWO_SIDED|95.0|-9.64|31.57|||Chi-squared|||week 6||31.57|-9.64|=0.300
82603025|NCT01756456|164921802|SUPERIORITY||difference in percentage|27.5|||=|0.008|TWO_SIDED|95.0|8.33|46.67|||Chi-squared|||week 8||46.67|8.33|=0.008
82603026|NCT01756456|164921802|SUPERIORITY||difference in percentage|19.0|||=|0.068|TWO_SIDED|95.0|-0.91|38.83|||Chi-squared|||week 8||38.83|-0.91|=0.068
82603027|NCT01838044|164921803|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.287||0.6012|TWO_SIDED|95.0|-0.72|0.42|||Mixed Models Analysis|||Statistical analysis at Week 5 compared between two study arms.||0.42|-0.72|0.6012
82603028|NCT01838044|164921804|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.42|||<|0.0001|TWO_SIDED|95.0|1.02|1.83|||Mixed Models Analysis|||Statistical analysis of weekly mean pain NRS score in Arm B at Week 10.||1.83|1.02|<0.0001
82603029|NCT01838044|164921805|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.361||0.5128|TWO_SIDED|95.0|-0.48|0.95|||Mixed Models Analysis|||Statistical analysis of weekly mean pain NRS score in Arm B compared between two study arms at Week 10.||0.95|-0.48|0.5128
82603030|NCT01838044|164921807|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7251|TWO_SIDED|95.0|-0.22|0.32|||Mixed Models Analysis|||Statistical analysis at Week 5 based on comparison between treatment groups.||0.32|-0.22|0.7251
82603031|NCT01838044|164921807|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.13||0.1255|TWO_SIDED|95.0|-0.06|0.46|||Mixed Models Analysis|||Statistical analysis at Week 10 based on comparison between treatment groups.||0.46|-0.06|0.1255
82603032|NCT01838044|164921809|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.317||0.2856|TWO_SIDED|95.0|-0.97|0.29|||Mixed Models Analysis|||Statistical analysis at Week 5 compared between treatment groups.||0.29|-0.97|0.2856
82603033|NCT01838044|164921809|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.363||0.3987|TWO_SIDED|95.0|-1.02|0.41|||Mixed Models Analysis|||Statistical analysis at Week 10 compared between treatment groups.||0.41|-1.02|0.3987
82603034|NCT00706628|164921826|SUPERIORITY_OR_OTHER|||||||0.0577|||||||Fisher Exact|||||||0.0577
82603035|NCT00706628|164921826|SUPERIORITY_OR_OTHER|||||||0.0863|||||||Fisher Exact|||||||0.0863
82603036|NCT00706628|164921828|SUPERIORITY_OR_OTHER||Slope|1.4823|STANDARD_ERROR_OF_MEAN|0.149|||TWO_SIDED|95.0|1.1754|1.7892||||||||1.7892|1.1754|
82603037|NCT02730260|164921909|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||Test of the null hypothesis that directive and nondirective coaching have equal smoking cessation rates.||||0.41
82603038|NCT02730260|164921909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.8|||<|0.03|TWO_SIDED||||||Regression, Logistic|||Odds ratio based on the parameter estimate for the variable, IncomeAboveMedian (0=false, 1=true), from the logistic regression model representing the a priori hypothesis, which specified income, race, and intervention as independent and interacting variables, and smoking cessation at last contact as the dependent variable. An unbalanced variable, PriorQuit (0-=none in the past year, 1=at least one in the past year) was added to the a priori model.||||<0.03
82603039|NCT02730260|164921909|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||<|0.03|TWO_SIDED||||||Regression, Logistic|||Odds ratio for PriorQuit, from the logistic regression model representing the a priori hypothesis, which specified income, race, and intervention as independent and interacting variables, and smoking cessation at last contact as the dependent variable. This variable, PriorQuit (0-=none in the past year, 1=at least one in the past year) was added to the a priori model because it was not balanced after randomization.||||<0.03
82603040|NCT02440581|164921910|OTHER|T-tests||||||0.443|||||||t-test, 2 sided|||||||.443
82603041|NCT02440581|164921911|OTHER|T-tests||||||0.49|||||||t-test, 2 sided|||||||.490
82603042|NCT02440581|164921912|OTHER|T-tests|||||<|0.001|||||||t-test, 2 sided|||||||<.001
82603043|NCT02440581|164921913|OTHER|T-Tests||||||0.083|||||||t-test, 2 sided|||||||.083
82656098|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.07||0.038|TWO_SIDED|95.0|-0.3|-0.01|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.01|-0.30|0.038
82656099|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.37|-0.07|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.07|-0.37|0.003
82603044|NCT02440581|164921914|OTHER|T-tests||||||0.283|||||||t-test, 2 sided|||||||.283
82603045|NCT05032950|164921924|OTHER||Reference/Test Ratio|368.33|||||TWO_SIDED|90.0|318.91|425.41|||Mixed Models Analysis|||Natural log-transformed Cmax of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||425.41|318.91|
82603046|NCT05032950|164921925|OTHER||Reference/Test Ratio|1430.02|||||TWO_SIDED|90.0|1204.54|1697.71|||Mixed Models Analysis|||Natural log-transformed AUCinf of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1697.71|1204.54|
82603047|NCT05032950|164921926|OTHER||Test/Reference Ratio|1451.78|||||TWO_SIDED|90.0|1224.42|1721.35|||Mixed Models Analysis|||Natural log-transformed AUClast of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD) (Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1721.35|1224.42|
82603048|NCT05032950|164921931|OTHER||Test/Reference Ratio|387.2|||||TWO_SIDED|90.0|335.25|447.21|||Mixed Models Analysis|||Natural log-transformed Cmax of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||447.21|335.25|
82603049|NCT05032950|164921932|OTHER||Test/Reference Ratio|1645.15|||||TWO_SIDED|90.0|1385.75|1953.11|||Mixed Models Analysis|||Natural log-transformed AUCinf of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios||1953.11|1385.75|
82656100|NCT00864097|165027770|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.08||0.016|TWO_SIDED|95.0|-0.33|-0.03|||ANCOVA|||At Week 12: LS means were estimated from the corresponding ANCOVA model. The ANCOVA model included treatment as main effect, baseline value, and index joint as covariates and study site as random effect.||-0.03|-0.33|0.016
82656101|NCT01050647|165027795|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82656102|NCT01050647|165027796|SUPERIORITY||||||>|0.99|||||||Chi-squared|||||||>0.99
82656103|NCT01050647|165027797|SUPERIORITY|||||||0.59|||||||Chi-squared|||||||0.59
82656104|NCT01050647|165027798|SUPERIORITY|||||||0.16|||||||Wilcoxon (Mann-Whitney)|||||||0.16
82492221|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.93||||0.0002|TWO_SIDED|95.0|2.38|7.48|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (250 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||7.48|2.38|0.0002
82603050|NCT05032950|164921933|OTHER||Test/Reference Ratio|1677.25|||||TWO_SIDED|90.0|1414.59|1988.69|||Mixed Models Analysis|||Natural log-transformed AUClast of midazolam was analyzed using mixed effect model with treatment, period and sequence as fixed effects and participant in sequence as random effect. Estimates of the adjusted mean differences (AMD)(Test-Reference) and 90%CIs were obtained from the model. The AMD and 90%CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90%CI for the ratios.||1988.69|1414.59|
82603051|NCT01078805|164921977|SUPERIORITY_OR_OTHER|||||||0.0177||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 6 to 12 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0177
82603052|NCT01078805|164921977|SUPERIORITY_OR_OTHER|||||||0.0019||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 12 to 18 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0019
82603053|NCT01078805|164921977|SUPERIORITY_OR_OTHER|||||||0.0143||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 18 to 24 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0143
82656105|NCT01050647|165027799|SUPERIORITY|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||||||0.14
82656106|NCT02724800|165027800|NON_INFERIORITY|non-inferiority margin = 3.43|Mean Difference (Net)|2.2|||<|0.05|TWO_SIDED|95.0|-0.9|5.6||a priori|Mixed Models Analysis|||||5.6|-0.9|<0.05
82656107|NCT02724800|165027807|SUPERIORITY||Mean Difference (Final Values)|2.3|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82656108|NCT02724800|165027810|SUPERIORITY||Mean Difference (Final Values)|0.3|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82492222|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.25||||0.0013|TWO_SIDED|95.0|1.68|6.82|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1150 ppm) minus Sodium fluoride (250 ppm) such that a positive difference favors Sodium fluoride (1150 ppm).|||6.82|1.68|0.0013
82603054|NCT01078805|164921978|SUPERIORITY_OR_OTHER|||||||0.0689||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 6 to 12 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0689
82603055|NCT01078805|164921978|SUPERIORITY_OR_OTHER|||||||0.0412||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 12 to 18 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0412
82603056|NCT01078805|164921978|SUPERIORITY_OR_OTHER|||||||0.0631||95.0||||Comparison is between 0 to 6 months fracture incidence rate versus 18 to 24 months fracture incidence rate.|One-sample binomial proportion test|||||||0.0631
82603057|NCT01078805|164921979|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82492223|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.71|||<|0.0001|TWO_SIDED|95.0|5.2|10.21|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (1426 ppm).|||10.21|5.20|<0.0001
82603058|NCT01078805|164921980|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82603059|NCT02246621|164921993|SUPERIORITY||Hazard Ratio (HR)|0.54||||2e-06|TWO_SIDED|95.0|0.418|0.698|||Log Rank|||||0.698|0.418|0.000002
82603060|NCT02246621|164921995|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|||||||0.005
82603061|NCT02246621|164921997|SUPERIORITY|||||||0.501|||||||Cochran-Mantel-Haenszel|||||||0.501
82603062|NCT02246621|164921998|SUPERIORITY|||||||0.101|||||||Cochran-Mantel-Haenszel|||||||0.101
82603063|NCT02246621|164922002|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.02||0.688|TWO_SIDED||||||Mixed Models Analysis|||||||0.688
82603064|NCT02246621|164922003|SUPERIORITY||Mean Difference (Net)|-1.01|STANDARD_ERROR_OF_MEAN|1.39||0.466|TWO_SIDED||||||Mixed Models Analysis|||||||0.466
82603065|NCT02587338|164922026|SUPERIORITY|||||||0.74|||||||ANOVA|||||||0.74
82603066|NCT02587338|164922027|SUPERIORITY|||||||0.062|||||||t-test, 2 sided|||||||0.062
82603067|NCT01302808|164922028|OTHER||Maximum Tolerated Dose|8.0|||||TWO_SIDED|||||||||||||
82603068|NCT02078219|164922035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-29.28|||<|0.0001|TWO_SIDED|95.0|-36.99|-21.57|||ANCOVA, LOCF|||||-21.57|-36.99|<0.0001
82603069|NCT02078219|164922035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-49.25|||<|0.0001|TWO_SIDED|95.0|-56.97|-41.52|||ANCOVA, LOCF|||||-41.52|-56.97|<0.0001
82603070|NCT02078219|164922035|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-53.33|||<|0.0001|TWO_SIDED|95.0|-61.0|-45.67|||ANCOVA, LOCF|||||-45.67|-61.00|<0.0001
82603071|NCT03136107|164922039|EQUIVALENCE|Statistical criterion defined in ISO 24444:2010 is that the 95 %CI is within ±17 % of the mean SPF||||||||||||||||CI % values (which is the percentage that half the 95 % CI represents of the mean values).|Test product CI of ±16.4% and reference product CI of ±16.6% of the mean SPF.|||
82603072|NCT02689492|164922051|OTHER||Intercept|68.5027|STANDARD_DEVIATION|8.0355|||||||||||Standard deviation is actually standard error.|||||
82603073|NCT02689492|164922052|OTHER||Intercept|95.4051|STANDARD_DEVIATION|6.9951|||||||||||Standard deviation is actually standard error.|||||
82603074|NCT02689492|164922053|OTHER||Intercept|74.8895|STANDARD_DEVIATION|8.0048|||||||||||Standard deviation is actually standard error.|||||
82603075|NCT02732951|164922056|OTHER||Adjusted Mean|16.45|STANDARD_ERROR_OF_MEAN|16.45||0.3199|TWO_SIDED|95.0|-16.23|49.13|||Mixed model for repeated measurements|Kenward-Roger approximation was used for denominator degrees of freedom.|Fixed effects of treatment, prior anti-diabetic macular oedema treatment status, visit, treatment by visit interaction, baseline, baseline by visit interaction; patient as a random effect; unstructured covariance matrix for within patient errors.|Null hypothesis = The CSFT change from baseline at Week 12 is equal in both groups||49.13|-16.23|0.3199
82603076|NCT00110305|164922072|SUPERIORITY_OR_OTHER||Differences in response rate|0.5||||0.92|TWO_SIDED|95.0|-10.4|11.3||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and Nucleoside/tide reverse transcriptase inhibitors (N\[t\]RTIs) used, and baseline viral load as covariate.||||11.3|-10.4|0.92
82603077|NCT00110305|164922072|SUPERIORITY_OR_OTHER||Difference in response rate|-2.3||||0.56|TWO_SIDED|95.0|-13.6|9.0||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||9.0|-13.6|0.56
82603078|NCT00110305|164922072|SUPERIORITY_OR_OTHER||Difference in response rate|-2.8||||0.62|TWO_SIDED|95.0|-14.0|8.4||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||8.4|-14.0|0.62
82603079|NCT00110305|164922072|SUPERIORITY_OR_OTHER||Difference in response rate|-1.5||||0.8|TWO_SIDED|95.0|-10.5|7.5||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||7.5|-10.5|0.80
82603080|NCT00110305|164922073|SUPERIORITY_OR_OTHER||Difference in response rate|-4.8||||0.45|TWO_SIDED|95.0|-17.1|7.6||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and Nucleoside/tide reverse transcriptase inhibitors (N\[t\]RTIs) used, and baseline viral load as covariate.||||7.6|-17.1|0.45
82603081|NCT00110305|164922073|SUPERIORITY_OR_OTHER||Difference in response rate|-4.8||||0.45|TWO_SIDED|95.0|-17.3|7.7||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||7.7|-17.3|0.45
82603082|NCT00110305|164922073|SUPERIORITY_OR_OTHER||Difference in response rate|0.0||||0.99|TWO_SIDED|95.0|-12.9|12.8||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||12.8|-12.9|0.99
82603083|NCT00110305|164922073|SUPERIORITY_OR_OTHER||Differences in response|2.6||||0.63|TWO_SIDED|95.0|-8.1|13.3||The significance level for each comparison was 5% (two-sided). No further adjustment of this significance level was applied.|Regression, Logistic|This model with factors treatment, region, and N(t)RTIs used, and baseline viral load as covariate.||||13.3|-8.1|0.63
82603084|NCT00110305|164922075|SUPERIORITY_OR_OTHER||Difference in response rate|-2.8||||||95.0|-14.7|9.1||||||||9.1|-14.7|
82603085|NCT02300129|164922164|SUPERIORITY_OR_OTHER|||||||0.742|TWO_SIDED|||||P value associated to treatment effect in the model. Study design with a power of 80% and a type I error at 5% (two-sided).|ANOVA|Analysis of variance including sequence, subject (sequence), period and treatment as factors in the model||||||0.7420
82603086|NCT00522392|164922180|SUPERIORITY_OR_OTHER|||||||0.092|TWO_SIDED||||||Log Rank|||Stratified log rank test was used to compare progression-free survival between the two arms.||||0.092
82603087|NCT00522392|164922181|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED||||||Fisher Exact|||Fisher's exact test was used to compare the response rates between the two arms.||||0.029
82603088|NCT00522392|164922182|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Log Rank|||Stratified log-rank test was used to compare overall survival between the two arms.||||0.48
82603089|NCT06415305|164922192|SUPERIORITY||||||<|0.008|||||||Wilcoxon signed rank tests|||||||<0.008
82603090|NCT06415305|164922193|SUPERIORITY|||||||0.009|||||||Wilcoxon signed rank tests|||||||0.009
82603091|NCT06415305|164922194|SUPERIORITY|||||||0.008|||||||Wilcoxon signed rank tests|||||||0.008
82603092|NCT06415305|164922195|SUPERIORITY|||||||0.009|||||||Wilcoxon signed rank tests|||||||0.009
82603093|NCT03051633|164922210|SUPERIORITY|Event: Dichotimized self-reported first-time alcohol use in known participant history prior to data-collection, where substance use was not previously reported in prior measurement occasions of this four-wave longitudinal study. Episodes: Episodes represent the period of time between measurement occasions, as such, each episode represents the measured period of time between each wave of assessments. Censoring: If substance use was reported, censoring indicator indicates the risk period|Hazard Ratio (HR)|-0.42||||0.004|TWO_SIDED|95.0|-0.714|-0.126|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ratio rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time alcohol use during a given measurement period, given that students did not use alchohol in a previous measurement period. Thus for each model, we tested the following hypothesis: Controlling for age at first-assessment, students attending BUYOI-assigned schools will have a lower risk of substance use uptake by the end of their eighth-grade year, relative to students attending control schools.||-0.126|-0.714|.004
82603094|NCT03051633|164922211|SUPERIORITY|Event: dichotimized self-reported first-time alcohol intoxication in known participant history prior to data collection, where intoxication was not reported in prior measurement occasions. Episodes: Represent the period of time between measurement occasions, thus, each episode represents the measured period of time between each assessment wave. Censoring: Indicates the risk period during which particpants experienced intoxication uptake.|Hazard Ratio, log|-0.39||||0.037|TWO_SIDED|95.0|-0.762|-0.018|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ration rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time alcohol initiation during a given measurement period, given that students did not become intoxicated in a previous measurement period. Thus, for each model, we tested the following hypothesis: controlling for age at first assessment, students attending BUYOI-assigned schools will have a lower risk of substance use uptake at the end of their eight grade year||-0.018|-0.762|.037
82603095|NCT03051633|164922212|SUPERIORITY|Event: Dichotimized self-reported first-time marijuana use in known participant history prior to data-collection, where marijuana use was not previously reported in prior measurement occasions of this four-wave longitudinal study. Episodes: Episodes represent the period of time between measurement occasions, as such, each episode represents the measured period of time between each wave of assessments. Censoring: If marijuana use was reported, censoring indicator indicates the risk period.|Hazard Ratio, log|0.17||||0.228|TWO_SIDED|95.0|-0.104|0.444|||Regression, Logistic|Discrete time hazard model represents a survival analysis, with the outcome parameters reflecting a hazard ratio rather than odds.||Discrete time hazard represents the conditional probability that a student will experience first time marijuana use during a given measurement period, given that students did not use marijuana in a previous measurement period. Thus for each model, we tested the following hypothesis: Controlling for age at first-assessment, students attending BUYOI-assigned schools will have a lower risk of marijuana use uptake by the end of their eighth-grade year, relative to students attending control schools.||0.444|-0.104|0.228
82603096|NCT00393718|164922223|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority criterion: Upper limit of confidence interval of mean difference(= Liraglutide - Glibenclamide) is less than 0.4%. Superiority criterion: Upper limit of confidence interval of mean difference(= Liraglutide - Glibenclamide) is less than 0.0%.|Least Squares Mean|-0.5|||<|0.0001||95.0|-0.7|-0.3||p-value is for the null hypothesis for superiority. A significance level of a one-sided 2.5% was used for statistical hypothesis testing.|ANOVA|||"ANOVA model included HbA1C at baseline as a covariate and treatment group and pre-trial treatment as fixed effects.~Hypothesis for non-inferiority:~H0: μ0.9 - μG ≥ 0.4, H1: μ0.9 - μG \< 0.4,~Hypothesis for superiority:~H0: μ0.9 - μG ≥ 0.0, H1: μ0.9 - μG \< 0.0, where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively. When non-inferiority was confirmed, superiority was evaluated based on the closed testing procedure."||-0.30|-0.70|<0.0001
82656109|NCT01939197|165027824|NON_INFERIORITY|The primary efficacy endpoint was the non-inferiority of the percentage of participants in the GT1 Analysis Group in Part 2 achieving SVR12 compared to the historical SVR12 rate for sofosbuvir plus ribavirin (a non-inferiority threshold of the lower bound of the 95% CI of 74%).|||||||||||||||||"The historical SVR rate, as reported in the PHOTON-1 study, for sofosbuvir and RBV in HCV/HIV-1 coinfected adults is 76% (87/114) with a 95% confidence interval of (67%, 84%).~Reference: Sulkowski MS, Naggie S, Lalezari J, et al. Sofosbuvir and ribavirin for hepatitis C in patients with HIV coinfection. JAMA. 2014;312(4):353-61."|||
82656110|NCT01939197|165027825|OTHER|||||||1|||||||Fisher Exact|||||||1.000
82603097|NCT00393718|164922224|SUPERIORITY_OR_OTHER||Least Squares Mean|-0.49||||||95.0|-0.71|-0.27|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-0.27|-0.71|
82656111|NCT01939197|165027826|OTHER||||||||||||||||||"The Fisher exact test was performed as prespecified on the SAP but the p-value couldn't be calculated because SVR12 rates in both arms were 100%, hence p-value appeared as not available."|||
82656112|NCT02545998|165027838|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.510
82603098|NCT00393718|164922225|SUPERIORITY_OR_OTHER||Least Squares Mean|-12.9|||<|0.0001||95.0|-18.2|-7.5||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-7.5|-18.2|<0.0001
82603099|NCT00393718|164922226|SUPERIORITY_OR_OTHER||Least Squares Mean|-11.7||||||95.0|-18.6|-4.9|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-4.9|-18.6|
82603100|NCT00393718|164922227|SUPERIORITY_OR_OTHER||Least Squares Mean|-93.05|||<|0.0001||95.0|-119.61|-66.5||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-66.50|-119.61|<0.0001
82603101|NCT00393718|164922228|SUPERIORITY_OR_OTHER||Least Squares Mean|-74.51||||||95.0|-105.75|-43.27|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-43.27|-105.75|
82603102|NCT00393718|164922229|SUPERIORITY_OR_OTHER||Least Squares Mean|-17.63|||<|0.0001||95.0|-25.0|-10.27||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-10.27|-25.00|<0.0001
82603103|NCT00393718|164922230|SUPERIORITY_OR_OTHER||Least Squares Mean|-17.21||||||95.0|-26.32|-8.09|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-8.09|-26.32|
82603104|NCT00393718|164922231|SUPERIORITY_OR_OTHER||Least Squares Mean|-19.97|||<|0.0001||95.0|-27.99|-11.94||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-11.94|-27.99|<0.0001
82603105|NCT00393718|164922232|SUPERIORITY_OR_OTHER||Least Squares Mean|-13.03||||||95.0|-21.46|-4.6|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-4.60|-21.46|
82603106|NCT00393718|164922233|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.91|||<|0.0001||95.0|-2.34|-1.48||A significance level of a two-sided 5% was used for statistical hypothesis testing.|ANOVA|||The analysis was performed based on an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate. The following null hypothesis (H0) was statistically tested against the alternative hypothesis (H1). H0: μ0.9 = μG, H1: μ0.9 ≠ μG where μ0.9 and μG are population mean after 24-week treatment for liraglutide 0.9 mg/day and glibenclamide, respectively.||-1.48|-2.34|<0.0001
82603107|NCT00393718|164922234|SUPERIORITY_OR_OTHER||Least Squares Mean|-1.71||||||95.0|-2.25|-1.18|||ANOVA|||95% confidence interval for the mean difference (liraglutide - glibenclamide) was calculated under an ANOVA model with treatment group and pre-trial treatment as fixed effects and corresponding baseline value as a covariate, and no statistical testing was performed.||-1.18|-2.25|
82603108|NCT00393718|164922235|SUPERIORITY_OR_OTHER||Rate ratio|0.2||||||95.0|0.12|0.35|||Negative binomial regression model|||The relative risk for 'All hypoglycaemic episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.35|0.12|
82603109|NCT00393718|164922235|SUPERIORITY_OR_OTHER||Rate ratio|0.18||||||95.0|0.09|0.36|||Negative binomial regression model|||The relative risk for 'Minor episodes' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.36|0.09|
82603110|NCT00393718|164922235|SUPERIORITY_OR_OTHER||Rate ratio|0.2||||||95.0|0.11|0.34|||Negative binomial regression model|||The relative risk for 'Symptoms only' and 95% confidence interval are based on a generalised linear negative-binomial model, which included treatment group as a fixed effect and log of exposure time as an offset variable.||0.34|0.11|
82656113|NCT02545998|165027839|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82656114|NCT02545998|165027840|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82656115|NCT02545998|165027841|SUPERIORITY|||||||0.589|||||||Wilcoxon (Mann-Whitney)|||||||0.589
82656116|NCT02545998|165027842|SUPERIORITY|||||||0.471|||||||Wilcoxon (Mann-Whitney)|||||||0.471
82656117|NCT02545998|165027843|SUPERIORITY|||||||0.264|||||||Sign test|||||||0.264
82656118|NCT02933866|165027856|SUPERIORITY|||||||0.2961|||||||Cochran-Mantel-Haenszel|||||||0.2961
82656119|NCT01430741|165027858|SUPERIORITY_OR_OTHER||||||=|0.04|||||||Mixed Models Analysis|||Compared changes in service intensity among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.04
82656120|NCT01430741|165027859|SUPERIORITY_OR_OTHER||||||=|0.21|||||||Mixed Models Analysis|||Compared changes in alcohol dependence among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.21
82656121|NCT01430741|165027859|SUPERIORITY_OR_OTHER||||||=|0.07|||||||Mixed Models Analysis|||Compared changes in drug dependence among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.07
82492224|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.03|||<|0.0001|TWO_SIDED|95.0|4.51|9.55|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1150 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (1150 ppm).|||9.55|4.51|<0.0001
82603111|NCT03575104|164922253|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-11.62||||0.0001|TWO_SIDED|95.0|-17.604|-5.633||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.025; statistically significant = YES||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 25 mg vs placebo).||-5.633|-17.604|0.0001
82603112|NCT03575104|164922253|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-2.74||||0.3669|TWO_SIDED|95.0|-8.693|3.215||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00977; statistically significant = NO||Between-treatment analysis for change from baseline in WASO (min) to Month 1 (Daridorexant 10 mg vs placebo).||3.215|-8.693|0.3669
82603113|NCT03575104|164922254|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS Mean difference to placebo|-10.25||||0.0028|TWO_SIDED|95.0|-16.95|-3.548||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.01563; statistically significant = YES||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 25 mg vs placebo).||-3.548|-16.95|0.0028
82603114|NCT03575104|164922254|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS Mean difference to placebo|-1.95||||0.5686|TWO_SIDED|95.0|-8.666|4.764||Mixed effects model for repeated measures: change from baseline in WASO = baseline WASO + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in WASO (min) to Month 3 (Daridorexant 10 mg vs placebo).||4.764|-8.666|0.5686
82656122|NCT01430741|165027860|SUPERIORITY_OR_OTHER||||||=|0.14|||||||Mixed Models Analysis|||Compared mental health inpatient hospitalizations among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.14
82656123|NCT01430741|165027860|SUPERIORITY_OR_OTHER||||||=|0.19|||||||Mixed Models Analysis|||Compared medical inpatient hospitalizations among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.19
82656124|NCT01430741|165027861|SUPERIORITY_OR_OTHER||||||=|0.24|||||||Mixed Models Analysis|||Compared changes in mental health emergency department visits among Veterans served by case managers in the GTO group relative to the comparison group of Veterans, by fitting a series of mixed-effects regression models. Final mixed-effect models for all outcomes included fixed terms for group (GTO group vs. comparison), time, group x time interaction as well as control covariates.||||=.24
82656125|NCT01430741|165027862|SUPERIORITY_OR_OTHER||||||=|0.481|||||||Regression, Cox|||We used Kaplan-Meier survival curves to estimate the extent and timing of negative housing exits over time and Cox proportional hazards regression to assess the relationship between membership in the GTO group and risk of experiencing a negative housing exit, adjusting for a set of relevant covariates.||||=.481
82656126|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|1.08||||0.531|TWO_SIDED|95.0|0.85|1.37|||Regression, Logistic||||Arm 3 vs. Arm 1|1.37|0.85|0.531
82656127|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|0.84||||0.189|TWO_SIDED|95.0|0.65|1.09|||Regression, Logistic||||Arm 2 vs. Arm 1|1.09|0.65|0.189
82656128|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|1.29||||0.054|TWO_SIDED|95.0|0.1|1.66|||Regression, Logistic||||Arm 3 vs. Arm 2|1.66|0.10|0.054
82603115|NCT03575104|164922255|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-6.45||||0.0303|TWO_SIDED|95.0|-12.282|-0.614||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.025; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||-0.614|-12.282|0.0303
82603116|NCT03575104|164922255|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-2.61||||0.3782|TWO_SIDED|95.0|-8.41|3.197||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00195; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 1 (Daridorexant 10 mg vs placebo).||3.197|-8.41|0.3782
82603117|NCT03575104|164922256|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-9.01||||0.0053|TWO_SIDED|95.0|-15.339|-2.684||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00313; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||-2.684|-15.339|0.0053
82603118|NCT03575104|164922256|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-3.19||||0.3233|TWO_SIDED|95.0|-9.528|3.146||Mixed effects model for repeated measures: change from baseline in LPS = baseline LPS + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 10 mg vs placebo).||3.146|-9.528|0.3233
82603119|NCT03575104|164922257|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|16.13|||<|0.0001|TWO_SIDED|95.0|8.224|24.035||Hypothesis testing result: threshold for significance p = 0.0125; statistically significant = YES|Mixed Models Analysis|||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 25 mg vs placebo).||24.035|8.224|<.0001
82603120|NCT03575104|164922257|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|13.37|||=|0.0009|TWO_SIDED|95.0|5.507|21.226||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in sTST (min) to Month 1 (Daridorexant 10 mg vs placebo).||21.226|5.507|= 0.0009
82656129|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|1.05||||0.654|TWO_SIDED|95.0|0.84|1.32|||Regression, Logistic||||Arm 4 vs. Arm 3|1.32|0.84|0.654
82656130|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|1.36||||0.018|TWO_SIDED|95.0|1.05|1.74|||Regression, Logistic||||Arm 4 vs. Arm 2|1.74|1.05|0.018
82656131|NCT04567342|165027884|SUPERIORITY||Risk Ratio (RR)|1.14||||0.283|TWO_SIDED|95.0|0.9|1.44|||Regression, Logistic||||Arm 4 vs. Arm 1|1.44|0.90|0.283
82656132|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|1.93|||<|0.01|TWO_SIDED|95.0|1.42|2.62|||Regression, Logistic||||Arm 3 vs. Arm 1|2.62|1.42|<0.01
82656133|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|0.82||||0.318|TWO_SIDED|95.0|0.56|1.21|||Regression, Logistic||||Arm 2 vs. Arm 1|1.21|0.56|0.318
82656134|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|2.34|||<|0.01|TWO_SIDED|95.0|1.68|3.26|||Regression, Logistic||||Arm 3 vs. Arm 2|3.26|1.68|<0.01
82656135|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|1.08||||0.535|TWO_SIDED|95.0|0.85|1.36|||Regression, Logistic||||Arm 4 vs. Arm 3|1.36|0.85|0.535
82656136|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|2.52|||<|0.01|TWO_SIDED|95.0|1.82|3.5|||Regression, Logistic||||Arm 4 vs Arm 2|3.50|1.82|<0.01
82656137|NCT04567342|165027885|SUPERIORITY||Risk Ratio (RR)|2.07|||<|0.01|TWO_SIDED|95.0|1.53|2.8|||Regression, Logistic||||Arm 4 vs. Arm 1|2.80|1.53|<0.01
82603121|NCT03575104|164922258|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|19.06|||<|0.0001|TWO_SIDED|95.0|10.125|27.994||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00781; statistically significant = YES||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 25 mg vs placebo).||27.994|10.125|<.0001
82603122|NCT03575104|164922258|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|13.58|||=|0.0028|TWO_SIDED|95.0|4.691|22.475||Mixed effects model for repeated measures: change from baseline in sTST = baseline sTST + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in sTST (min) to Month 3 (Daridorexant 10 mg vs placebo).||22.475|4.691|= 0.0028
82656138|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|1.17||||0.192|TWO_SIDED|95.0|0.92|1.48|||Regression, Logistic||||Arm 3 vs. Arm 1|1.48|0.92|0.192
82603123|NCT03575104|164922259|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.75|||=|0.0733|TWO_SIDED|95.0|-1.581|0.071||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00625; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 25 mg vs placebo).||0.071|-1.581|= 0.0733
82603124|NCT03575104|164922259|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.43|||=|0.3048|TWO_SIDED|95.0|-1.251|0.392||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 1 (Daridorexant 10 mg vs placebo).||0.392|-1.251|= 0.3048
82603125|NCT03575104|164922260|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-1.25|||=|0.012|TWO_SIDED|95.0|-2.23|-0.276||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0.00391; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 25 mg vs placebo).||-0.276|-2.230|= 0.0120
82603126|NCT03575104|164922260|OTHER|The Type I error rate was controlled for the testing of multiple null hypotheses associated with the endpoint assessed at 1 and 3 months of treatment and the two dose levels studied. Each null hypothesis was tested against the alternative hypothesis that daridorexant improved the endpoint at the given dose and time point compared to placebo. The order of testing and the alpha level applied to each null hypothesis was based on the Bonferroni-based gatekeeping procedure (see SAP for details).|LS mean difference to placebo|-0.73|||=|0.1393|TWO_SIDED|95.0|-1.706|0.239||Mixed effects model for repeated measures: change from baseline in IDSIQ sleepiness domain score = baseline IDSIQ sleepiness domain score + age group (\< 65; ≥ 65 years) + treatment + visit + treatment × visit + baseline × visit.|Mixed Models Analysis|Hypothesis testing result: threshold for significance p = 0; statistically significant = NO||Between-treatment analysis for change from baseline in IDSIQ sleepiness domain score to Month 3 (Daridorexant 10 mg vs placebo).||0.239|-1.706|= 0.1393
82656139|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|0.81||||0.132|TWO_SIDED|95.0|0.62|1.06|||Regression, Logistic||||Arm 2 vs. Arm 1|1.06|0.62|0.132
82656140|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|1.44|||<|0.01|TWO_SIDED|95.0|1.11|1.86|||Regression, Logistic||||Arm 3 vs. Arm 2|1.86|1.11|<0.01
82656141|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|0.92||||0.462|TWO_SIDED|95.0|0.73|1.16|||Regression, Logistic||||Arm 4 vs. Arm 3|1.16|0.73|0.462
82656142|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|1.32||||0.039|TWO_SIDED|95.0|1.01|1.72|||Regression, Logistic||||Arm 4 vs. Arm 2|1.72|1.01|0.039
82656143|NCT04567342|165027886|SUPERIORITY||Risk Ratio (RR)|1.07||||0.57|TWO_SIDED|95.0|0.84|1.37|||Regression, Logistic||||Arm 4 vs. Arm 1|1.37|0.84|0.570
82656144|NCT04646109|165027917|SUPERIORITY|||||||0.43||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.43
82603127|NCT03575104|164922261|OTHER||LS mean difference to placebo|0.93||||0.2506|TWO_SIDED|95.0|0.82|1.05||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 10 mg vs placebo).||1.05|0.82|0.2506
82603128|NCT03575104|164922261|OTHER||LS mean difference to placebo|0.8||||0.0004|TWO_SIDED|95.0|0.71|0.91||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 1 (Daridorexant 25 mg vs placebo).||0.91|0.71|0.0004
82603129|NCT03575104|164922262|OTHER||LS mean difference to placebo|0.96||||0.5037|TWO_SIDED|95.0|0.84|1.09||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in log transformed LPS (min) to Month 3 (Daridorexant 10 mg vs placebo).||1.09|0.84|0.5037
82603130|NCT03575104|164922262|OTHER||LS mean difference to placebo|0.81||||0.0021|TWO_SIDED|95.0|0.71|0.93||Mixed effects model for repeated measures: log(value/baseline) = log(baseline) + age group(\< 65; ≥ 65 years) + treatment + visit + treatment x visit + log(baseline) x visit.|Mixed Models Analysis|||Between-treatment analysis for change from baseline in LPS (min) to Month 3 (Daridorexant 25 mg vs placebo).||0.93|0.71|0.0021
82603131|NCT01279057|164922317|EQUIVALENCE|If the 90% confidence intervals were contained within the interval 80.0% to 125.0%, then the two products were considered to be therapeutically equivalent.|Ratio Test/Ref. Least Squares (LS) Means|104.085|||||TWO_SIDED|90.0|87.421|124.21||||||||124.210|87.421|
82603132|NCT01279057|164922318|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82603133|NCT01279057|164922318|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
82603134|NCT01279057|164922319|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|106.635|||||TWO_SIDED|90.0|89.256|127.79||||||||127.790|89.256|
82603135|NCT01279057|164922320|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82603136|NCT01279057|164922320|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82603137|NCT01279057|164922321|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|115.877|||||TWO_SIDED|90.0|94.129|143.949||||||||143.949|94.129|
82603138|NCT01279057|164922322|SUPERIORITY|||||||0.0018|||||||ANCOVA|||||||0.0018
82603139|NCT01279057|164922322|SUPERIORITY|||||||0.0441|||||||ANCOVA|||||||0.0441
82492225|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.78||||0.0325|TWO_SIDED|95.0|0.23|5.32|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (250 ppm) minus Sodium fluoride (0 ppm) such that a positive difference favors Sodium fluoride (250 ppm).|||5.32|0.23|0.0325
82492226|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.16||||0.092|TWO_SIDED|95.0|-4.67|0.35|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as 'Sodium fluoride (1426 ppm) + zinc base A' minus Sodium fluoride (0 ppm) such that a positive difference favors 'Sodium fluoride (1426 ppm) + zinc base A'.|||0.35|-4.67|0.0920
82603140|NCT01279057|164922323|EQUIVALENCE|90% confidence intervals within the interval 80.0% to 125.0%.|Ratio Test/Ref. LS Means|117.712|||||TWO_SIDED|90.0|95.41|146.583||||||||146.583|95.410|
82492227|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56||||0.2185|TWO_SIDED|95.0|-4.04|0.93|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as 'Sodium fluoride (1426 ppm) + zinc base B' minus Sodium fluoride (0 ppm) such that a positive difference favors 'Sodium fluoride (1426 ppm) + zinc base B'.|||0.93|-4.04|0.2185
82603141|NCT01279057|164922324|SUPERIORITY|||||||0.0018|||||||ANCOVA|||||||0.0018
82603142|NCT01279057|164922324|SUPERIORITY|||||||0.0451|||||||ANCOVA|||||||0.0451
82603143|NCT00956930|164922325|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.122||||0.007|TWO_SIDED|95.0|0.027|0.557|||Log Rank|||||0.557|0.027|0.007
82603144|NCT02411448|164922350|OTHER||Hazard Ratio (HR)|0.591|||<|0.0001|TWO_SIDED|95.0|0.461|0.76|||Log Rank|||||0.760|0.461|<0.0001
82603145|NCT02411448|164922352|OTHER||Hazard Ratio (HR)|0.832||||0.4209|TWO_SIDED|95.0|0.532|1.303|||Log Rank|||||1.303|0.532|0.4209
82603146|NCT02411448|164922353|OTHER|||||||0.7413|||||||Cochran-Mantel-Haenszel|||||||0.7413
82603147|NCT02411448|164922354|OTHER|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.0000
82603148|NCT02411448|164922355|OTHER||Hazard Ratio (HR)|0.619||||0.0003|TWO_SIDED|95.0|0.477|0.805|||Log Rank|||||0.805|0.477|0.0003
82603149|NCT00624520|164922374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|891.0||||0.18|TWO_SIDED|||||Statistical Analysis presented for comparison groups Cognitive Behavioral Stress Management vs. Patient Education at 6 months post|ANOVA|||"Initial sample size calculation, based on previous published data of effects sizes of anger stress management on heart rate and blood pressure responses in a veteran population, indicated a study population of 138 patients should detect a reduction in Double Product response to mental stress following psychological intervention, with over 90% power, assuming 20% drop-out rate."||||0.18
82603150|NCT00624520|164922375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.0||||0.02|TWO_SIDED||||||ANOVA|||||||0.02
82603151|NCT00624520|164922376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.003|TWO_SIDED||||||ANOVA|||||||0.003
82603152|NCT00624520|164922377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.011|TWO_SIDED||||||ANOVA|||||||0.011
82603153|NCT00624520|164922378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0||||0.048|TWO_SIDED||||||ANOVA|||||||0.048
82603154|NCT00624520|164922379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82603155|NCT00624520|164922380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82603156|NCT00624520|164922381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.02||||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82603157|NCT00624520|164922382|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Fisher Exact|||||||0.21
82603158|NCT00624520|164922383|SUPERIORITY_OR_OTHER||Effect size (Cohen's d)|0.38||||0.025|TWO_SIDED|||||P-value refers to a repeated measures within-group comparison in the CBSM group using ANCOVA with baseline DP elevation as covariate from baseline to 3 months post.|ANCOVA||Range of Cohen's d for small effect is 0.20 - 0.50|||||0.025
82603159|NCT00624520|164922384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|80.0||||0.81|TWO_SIDED|||||Statistical Analysis presented for comparison groups Cognitive Behavioral Stress Management vs. Patient Education at 6 months post|ANOVA|||"Initial sample size calculation, based on previous published data of effects sizes of anger stress management on heart rate and blood pressure responses in a veteran population, indicated a study population of 138 patients should detect a reduction in Double Product response to mental stress following psychological intervention, with over 90% power, assuming 20% drop-out rate."||||0.81
82603160|NCT02649634|164922401|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05.|Mixed Models Analysis|||Linear mixed modelling (LMM) was used||||>.05
82603161|NCT02649634|164922402|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
82603162|NCT02649634|164922403|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.||||||0.65|||||||t-test, 2 sided|||Treatment adherence was analyzed via an independent sample t-test comparing the groups on mean number of TrymGym sessions missed.||||.65
82603163|NCT02649634|164922404|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
82603164|NCT02649634|164922405|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used||||>.05
82603165|NCT02649634|164922406|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603166|NCT02649634|164922407|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603167|NCT02649634|164922408|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82656145|NCT04646109|165027918|SUPERIORITY|||||||0.14||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.14
82656146|NCT04646109|165027919|SUPERIORITY|||||||0.68||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.68
82656147|NCT04646109|165027920|SUPERIORITY|||||||0.15||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.15
82656148|NCT04646109|165027921|SUPERIORITY|||||||0.37||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.37
82656149|NCT04646109|165027922|SUPERIORITY|||||||0.12||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.12
82656150|NCT04646109|165027923|SUPERIORITY|||||||0.22||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.22
82492228|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.87|||<|0.0001|TWO_SIDED|95.0|7.36|12.37|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus 'Sodium fluoride (1426 ppm) + zinc base A' such that a positive difference favors Sodium fluoride (1426 ppm).|||12.37|7.36|<0.0001
82656151|NCT04646109|165027926|SUPERIORITY|||||||0.1||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.10
82656152|NCT04646109|165027927|SUPERIORITY|||||||0.37||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.37
82656153|NCT04646109|165027928|SUPERIORITY|||||||0.03||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.03
82603168|NCT02649634|164922409|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603169|NCT02649634|164922410|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603170|NCT02649634|164922411|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603171|NCT02649634|164922412|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603172|NCT02649634|164922413|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603173|NCT02649634|164922414|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603174|NCT02649634|164922415|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603175|NCT02649634|164922416|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size (most recent meta-analysis on efficacy of MI on dietary behaviours yielded a medium effect size of .53; Burke et al., 2003). Additionally, for MLM, estimates involving the Level 2 variable (i.e., participants) require samples larger than 50 (Maas \& Hox, 2005). Others have suggested 30-50 participants (Scherbaum \& Ferreter, 2009).|||||>|0.05||||||Significance threshold is p=.05|Mixed Models Analysis|||Linear Mixed Modelling (LMM) was used.||||>.05
82603176|NCT02649634|164922417|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean global self efficacy rating on the WEL.||||>.05
82603177|NCT02649634|164922418|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean self efficacy rating on the ESE.||||>.05
82603178|NCT02649634|164922419|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean global self efficacy rating on the WEL.||||>.05
82656154|NCT04646109|165027929|SUPERIORITY|||||||0.39||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.39
82656155|NCT04646109|165027930|SUPERIORITY|||||||0.24||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.24
82656156|NCT04646109|165027931|SUPERIORITY|||||||0.56||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.56
82656157|NCT04646109|165027932|SUPERIORITY|||||||0.005||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.005
82656158|NCT04646109|165027933|SUPERIORITY|||||||0.03||||||A p\<0.05 value was considered statistically significant|Wilcoxon (Mann-Whitney)|||||||0.03
82656159|NCT04646109|165027934|SUPERIORITY|||||||0.01||||||A p\<0.05 value was considered statistically significant|Chi-squared|||||||0.01
82603179|NCT02649634|164922420|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Self-efficacy was analyzed via an independent sample t-test comparing the groups on mean self efficacy rating on the ESE.||||>.05
82603180|NCT02649634|164922421|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Importance of Change ratings were analyzed via an independent sample t-test comparing the groups on mean Importance of Change ratings on the 11-point visual analogue scales||||>.05
82603181|NCT02649634|164922422|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Readiness for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Readiness for Change ratings on the 11-point visual analogue scales||||>.05
82603182|NCT02649634|164922423|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Confidence for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Confidence for Change ratings on the 11-point visual analogue scales||||>.05
82603183|NCT02649634|164922424|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Importance of Change ratings were analyzed via an independent sample t-test comparing the groups on mean Importance of Change ratings on the 11-point visual analogue scales||||>.05
82603184|NCT02649634|164922425|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Readiness for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Readiness for Change ratings on the 11-point visual analogue scales||||>.05
82603185|NCT02649634|164922426|NON_INFERIORITY_OR_EQUIVALENCE|Estimated sample size needed was 90 (45/group). This was based on a sample size calculation for 2 groups with 0.05 alpha, 0.80 power, anticipating a medium effect size.|||||>|0.05||||||Significance threshold is p=.05|t-test, 2 sided|||Confidence for Change ratings were analyzed via an independent sample t-test comparing the groups on mean Confidence for Change ratings on the 11-point visual analogue scales||||>.05
82603186|NCT00125034|164922427|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.516||||0.064|TWO_SIDED|95.0|0.975|2.335|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||Assuming a difference in rate of best confirmed response of at least 20% between the 2 treatments, ie an approximately 70% response rate under cetuximab plus FOLFOX-4 \& 50% under FOLFOX-4 alone for the stratum with ECOG PS0-1 \& 66% and 45% respectively for the ECOG PS2 stratum, the common OddsR over the strata was expected to be 2.33. A sample size of approximately 146/group was calculated as necessary to detect a significant overall response of at least 2.33 at level α=0.05 with a power of 90%||2.335|0.975|0.064
82603187|NCT00125034|164922428|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.551||||0.0027|TWO_SIDED|95.0|1.38|4.717|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||||4.717|1.380|0.0027
82603188|NCT00125034|164922429|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.459||||0.029|TWO_SIDED|95.0|0.228|0.924|||stratified Cochran-Mantel-Haenszel test|Stratified odds ratio and Cochran-Mantel-Haenszel (CMH) statistics were calculated considering the randomization strata.||||0.924|0.228|0.0290
82603189|NCT00125034|164922430|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.931||||0.617|TWO_SIDED|95.0|0.705|1.23|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.230|0.705|0.6170
82603190|NCT00125034|164922431|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.567||||0.0064|TWO_SIDED|95.0|0.375|0.856|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||0.856|0.375|0.0064
82603191|NCT00125034|164922432|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.72||||0.0153|TWO_SIDED|95.0|1.104|2.679|||Stratified Log Rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||2.679|1.104|0.0153
82603192|NCT00125034|164922433|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.015||||0.905|TWO_SIDED|95.0|0.791|1.303|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.303|0.791|0.9050
82603193|NCT00125034|164922434|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.855||||0.3854|TWO_SIDED|95.0|0.599|1.219|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.219|0.599|0.3854
82603194|NCT00125034|164922435|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.2004|TWO_SIDED|95.0|0.873|1.906|||Stratified log rank|Kaplan-Meier method used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||||1.906|0.873|0.2004
82603195|NCT03400800|164922444|SUPERIORITY||Mean Difference (Final Values)|-53.5|||<|0.0001|TWO_SIDED|95.0|-56.66|-50.35||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-50.35|-56.66|<0.0001
82603196|NCT03400800|164922445|SUPERIORITY||Mean Difference (Final Values)|-49.17|||<|0.0001|TWO_SIDED|95.0|-51.57|-46.77||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-46.77|-51.57|<0.0001
82603197|NCT03400800|164922446|SUPERIORITY||Median Difference (Final Values)|-51.87|||<|0.0001|TWO_SIDED|95.0|-55.01|-48.72||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-48.72|-55.01|<.0001
82656160|NCT06176768|165027936|SUPERIORITY||Odds Ratio (OR)|3.4||||0.316|TWO_SIDED|95.0|0.3|40.4|||Cochran-Mantel-Haenszel|||||40.4|0.3|0.316
82603198|NCT03400800|164922447|SUPERIORITY||Mean Difference (Final Values)|-48.94|||<|0.0001|TWO_SIDED|95.0|-51.39|-46.48||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-46.48|-51.39|<0.0001
82603199|NCT03400800|164922448|SUPERIORITY||Mean Difference (Final Values)|-79.27|||<|0.0001|TWO_SIDED|95.0|-81.97|-76.57||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-76.57|-81.97|<0.0001
82603200|NCT03400800|164922449|SUPERIORITY||Mean Difference (Final Values)|-29.79|||<|0.0001|TWO_SIDED|95.0|-31.78|-27.81||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-27.81|-31.78|<0.0001
82603201|NCT03400800|164922450|SUPERIORITY||Mean Difference (Final Values)|-38.94|||<|0.0001|TWO_SIDED|95.0|-41.21|-36.67||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-36.67|-41.21|<0.0001
82603202|NCT03400800|164922451|SUPERIORITY||Mean Difference (Final Values)|-43.32|||<|0.0001|TWO_SIDED|95.0|-46.04|-40.6||The a priori threshold for statistical significance was \<0.05|ANCOVA||Represents the least squares means difference from Placebo|||-40.60|-46.04|<0.0001
82603203|NCT00896532|164922455|SUPERIORITY||LS Mean Difference from Placebo|8.7|||<|0.0001|TWO_SIDED|95.0|7.5|9.9||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||9.9|7.5|< 0.0001
82603204|NCT00896532|164922455|SUPERIORITY||LS Mean Difference from placebo|5.6|||<|0.0001|TWO_SIDED|95.0|4.3|6.9||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||6.9|4.3|< 0.0001
82603205|NCT00896532|164922455|SUPERIORITY||LS Mean Difference from Placebo|7.4|||<|0.0001|TWO_SIDED|95.0|6.1|8.7||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||8.7|6.1|< 0.0001
82603206|NCT00896532|164922455|SUPERIORITY||LS Mean Difference from Placebo|8.5|||<|0.0001|TWO_SIDED|95.0|7.3|9.8||P-value is adjusted by the Hochberg procedure for comparisons to placebo.|Linear Mixed Effects Model|||A linear mixed effects model was fit with the percent change from baseline to months 3, 6 and 12 in BMD of the lumbar spine as the dependent variable and baseline BMD, machine type, interaction of baseline BMD and machine type, geographic region (Latin America, North America, Europe), visit, treatment regimen (categorical), interaction of treatment regimen and visit as the independent variables.||9.8|7.3|< 0.0001
82603207|NCT00996203|164922480|SUPERIORITY_OR_OTHER||||||<|0.001||||||EQ-5D scores at Baseline Versus Week 24|t-test, 2 sided|||||||<0.001
82603208|NCT00996203|164922483|SUPERIORITY_OR_OTHER||||||<|0.001||||||General health at baseline Versus Week 24|t-test, 2 sided|||||||<0.001
82603209|NCT00996203|164922485|SUPERIORITY_OR_OTHER||||||<|0.001||||||Baseline Versus Week 24 DAS28 scores|t-test, 2 sided|||||||<0.001
82603210|NCT00996203|164922487|SUPERIORITY_OR_OTHER||||||<|0.001||||||Mean HAQ scores at Baseline Versus Week 24|t-test, 2 sided|||||||<0.001
82603211|NCT03094195|164922557|SUPERIORITY||least squares mean|-0.2|STANDARD_ERROR_OF_MEAN|0.56||0.689|TWO_SIDED|95.0|-1.3|0.9|||ANCOVA|Multiplicity adjustment for the pairwise comparisons has been performed using the Hochberg procedure. Adjusted p-value 0.689||||0.9|-1.3|0.689
82603212|NCT03094195|164922557|SUPERIORITY||LS Mean|-0.5|STANDARD_ERROR_OF_MEAN|0.54||0.35|TWO_SIDED|95.0|-1.6|0.6|||ANCOVA|Multiplicity adjustment for the pairwise comparisons has been performed using the Hochberg procedure. Adjusted p-value 0.689||||0.6|-1.6|0.350
82603213|NCT03094195|164922561|SUPERIORITY||Odds Ratio (OR)|0.9||||0.908|TWO_SIDED|95.0|0.3|3.2|||Regression, Logistic|||||3.2|0.3|0.908
82656161|NCT06176768|165027937|SUPERIORITY||Least square mean difference|-6.77|STANDARD_ERROR_OF_MEAN|4.63||0.175|TWO_SIDED|95.0|-17.15|3.6|||Mixed Model Repeated Measures Analysis|||||3.60|-17.15|0.175
82603214|NCT03094195|164922561|SUPERIORITY||Odds Ratio (OR)|1.4||||0.609|TWO_SIDED|95.0|0.4|4.5|||Regression, Logistic|||||4.5|0.4|0.609
82603215|NCT03094195|164922562|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8|TWO_SIDED|95.0|0.3|3.2|||Regression, Logistic|||||3.2|0.3|0.800
82603216|NCT03094195|164922562|SUPERIORITY||Odds Ratio (OR)|1.4||||0.653|TWO_SIDED|95.0|0.4|4.5|||Regression, Logistic|||||4.5|0.4|0.653
82603217|NCT03094195|164922564|SUPERIORITY||LS mean difference|0.6|STANDARD_ERROR_OF_MEAN|0.49||0.225|TWO_SIDED|95.0|-0.4|1.6|||ANCOVA|||||1.6|-0.4|0.225
82603218|NCT03094195|164922564|SUPERIORITY||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.53||0.914|TWO_SIDED|95.0|-1.0|1.1|||ANCOVA|||||1.1|-1.0|0.914
82603219|NCT01988090|164922568|SUPERIORITY|||||||0.7635|||||||Chi-squared|||||||0.7635
82603220|NCT01988090|164922570|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82603221|NCT02238847|164922572|NON_INFERIORITY|The prespecified non-inferiority margin was set at 20%. This was chosen to support a practical study size while still able to identify major differences if this were the case.|||||<|0.01||||||Reported p-value of \<0.01 is calculated p-value. (p\<0.05 was considered significant)|Exact Non-inferiority|||||||<0.01
82603222|NCT02238847|164922573|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
82603223|NCT03430986|164922631|SUPERIORITY||Least Squares (LS) Mean Difference|2.037|STANDARD_ERROR_OF_MEAN|0.1578|<|0.0001|TWO_SIDED|95.0|1.726|2.349|||MMRM|MMRM included treatment, timepoint, treatment-by-timepoint interaction as fixed effect using an unstructured covariance matrix.||||2.349|1.726|<0.0001
82656162|NCT06176768|165027938|SUPERIORITY||Least square mean difference|-2.36|STANDARD_ERROR_OF_MEAN|2.27||0.311|TWO_SIDED|95.0|-7.06|2.35|||Mixed Model Repeated Measures Analysis|||||2.35|-7.06|0.311
82603224|NCT03430986|164922632|SUPERIORITY||Percentage difference|68.4|||<|0.0001|TWO_SIDED|95.0|50.0|82.4|||Fisher Exact|2-sided test comparing responder rate between treatment group and control group.||||82.4|50.0|<0.0001
82603225|NCT01412957|164922651|SUPERIORITY_OR_OTHER||Normal score|-2.59||||0.0096|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|The primary hypothesis was that panitumumab plus BSC would improve overall survival compared to BSC alone. A comparison between treatments was performed using the log-rank test stratified by the randomization factors at a 5% significance level.||||0.0096
82603226|NCT01412957|164922652|SUPERIORITY_OR_OTHER||Normal score|-6.08|||<|0.0001|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|PFS in the ITT Analysis Set was tested at a significance level of 5% conditional on a significant treatment effect on overall survival in the ITT Analysis Set.||||<0.0001
82603227|NCT01412957|164922653|SUPERIORITY_OR_OTHER||Normal score|-2.47||||0.0135|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|Overall survival in the Wild-type RAS Efficacy Analysis Set was compared at a significance level of 5% conditional on a significant treatment effect for progression-free survival in the ITT Analysis Set.||||0.0135
82603228|NCT01412957|164922654|SUPERIORITY_OR_OTHER||Normal score|-5.98|||<|0.0001|||||||Log Rank|Log-rank test stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|A normal score \< 0 indicates fewer than expected events for the panitumumab plus BSC arm and therefore a longer time to event.|PFS in the Wild-type RAS Efficacy Analysis Set was to be compared at a significance level of 5% if overall survival in the wild-type RAS Efficacy Anaysis Set demonstrated a significant treatment effect.||||<0.0001
82603229|NCT01412957|164922655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.89|||<|0.0001|TWO_SIDED|95.0|7.47|123.77|||Stratified exact test|Stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|The odds ratio is defined as the odds of having an objective response in the panitumumab plus BSC arm relative to the odds in BSC alone arm.|ORR was not formally tested and the p-values are descriptive only. An exact test was used to test the hypothesis that the common odds ratio for panitumumab plus BSC relative to BSC alone for the objective response is equal to 1.0 stratified by the randomization factors.||123.77|7.47|<0.0001
82603230|NCT01412957|164922656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.0|||<|0.0001|TWO_SIDED|95.0|5.89|101.62|||Stratified exact test|Stratified by randomization factors: geographic region (Europe vs Asia vs rest of world) and ECOG performance status (0 or 1 vs 2).|The odds ratio is defined as the odds of having an objective response in the panitumumab plus BSC arm relative to the odds in BSC alone arm.|ORR was not formally tested and the p-values are descriptive only. An exact test was used to test the hypothesis that the common odds ratio for panitumumab plus BSC relative to BSC alone for the objective response is equal to 1.0 stratified by the randomization factors.||101.62|5.89|<0.0001
82603231|NCT04722991|164922660|OTHER|Bayesian inference with non-informative priors|Point estimate|-0.015|||||TWO_SIDED|95.0|-0.08|0.029|||||Median of posterior distribution|||0.029|-0.080|
82603232|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|83.8|||<|0.001|ONE_SIDED|97.5|61.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||61.0|<0.001
82603233|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|88.2|||<|0.001|ONE_SIDED|97.5|67.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||67.4|<0.001
82603234|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.999||97.5||||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|For strain A/H3N2, the vaccine efficacy of the CCI vaccine vs. placebo was not evaluable since no influenza case was observed in the placebo group.||Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain. Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks.||||0.999
82603235|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.394|ONE_SIDED|97.5|-410.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-410|0.394
82656163|NCT01226797|165027947|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.5834||||0.6668|TWO_SIDED|95.0|0.1|3.51|||Fisher Exact||Odds-ratio and confidence interval obtained from logistic regression with treatment as fixed effect|||3.51|0.10|0.6668
82656164|NCT01226797|165027948|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.1591||||0.155|TWO_SIDED|95.0|0.01|1.73|||Fisher Exact||Odds-ratio and confidence interval obtained from logistic regression with treatment as fixed effect.|||1.73|0.01|0.1550
82656165|NCT01226797|165027949|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.45||||0.1259|TWO_SIDED|95.0|-7.79|58.69||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 1||58.69|-7.79|0.1259
82603236|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|78.4||||0.004|ONE_SIDED|97.5|52.1|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||52.1|0.004
82603237|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|80.3||||0.002|ONE_SIDED|97.5|54.7|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||54.7|0.002
82603238|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY|||||||0.992||97.5||||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|For strain A/H3N2, the vaccine efficacy of the IVV vaccine vs. placebo was not evaluable since no influenza case was observed in the placebo group.||Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain. Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks.||||0.992
82603239|NCT00630331|164922677|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.4|ONE_SIDED|97.5|-429.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-429.4|0.400
82656166|NCT01226797|165027949|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.49||||0.3297|TWO_SIDED|95.0|-14.67|41.66||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||41.66|-14.67|0.3297
82656167|NCT01226797|165027949|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.17||||0.3925|TWO_SIDED|95.0|-21.04|51.39||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 3||51.39|-21.04|0.3925
82656168|NCT01226797|165027949|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|24.62||||0.208|TWO_SIDED|95.0|-14.85|64.09||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||64.09|-14.85|0.2080
82603240|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|58.7||||0.078|ONE_SIDED|97.5|33.5|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||33.5|0.078
82656169|NCT01226797|165027951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.87||||0.0577|TWO_SIDED|95.0|-0.78|44.53||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 1||44.53|-0.78|0.0577
82656170|NCT01226797|165027951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.3||||0.3669|TWO_SIDED|95.0|-11.71|30.3||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||30.30|-11.71|0.3669
82656171|NCT01226797|165027951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.09||||0.2482|TWO_SIDED|95.0|-10.62|38.8||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 3||38.80|-10.62|0.2482
82656172|NCT01226797|165027951|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|29.19||||0.0801|TWO_SIDED|95.0|-3.84|62.22||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||62.22|-3.84|0.0801
82656173|NCT01226797|165027959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.06||||0.0031|TWO_SIDED|95.0|-35.67|-8.44||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 2||-8.44|-35.67|0.0031
82656174|NCT01226797|165027959|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-16.34||||0.0015|TWO_SIDED|95.0|-25.64|-7.04||Treatment as fixed effect and baseline as covariate.|ANCOVA|||At Week 4||-7.04|-25.64|0.0015
82492229|NCT02195583|164677672|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.26|||<|0.0001|TWO_SIDED|95.0|6.77|11.75|||ANOVA|Calculated from ANOVA model using treatment and study period as fixed factors and participant as random effect.|Difference was calculated as Sodium fluoride (1426 ppm) minus 'Sodium fluoride (1426ppm) + zinc base B' such that a positive difference favors Sodium fluoride (1426 ppm).|||11.75|6.77|<0.0001
82656175|NCT00577460|165027962|SUPERIORITY_OR_OTHER|||||||0.0039||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) with factors treatment and country and covariate OL baseline||PPX ER versus Placebo||||0.0039
82656176|NCT00577460|165027962|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|Analysis of covariance (ANCOVA) with factors treatment and country and covariate OL baseline||PPX IR versus Placebo||||0.0001
82656177|NCT00577460|165027965|SUPERIORITY_OR_OTHER|||||||0.559||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.5590
82656178|NCT00577460|165027965|SUPERIORITY_OR_OTHER|||||||0.1289||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1289
82656179|NCT00577460|165027967|SUPERIORITY_OR_OTHER|||||||0.1073||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1073
82656180|NCT00577460|165027967|SUPERIORITY_OR_OTHER|||||||0.8694||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.8694
82656181|NCT00577460|165027968|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0009
82656182|NCT00577460|165027968|SUPERIORITY_OR_OTHER|||||||0.0573||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0573
82492230|NCT01292746|164677685|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|2 sided t-test for correlated samples.||||||<0.05
82603241|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|87.3||||0.104|ONE_SIDED|97.5|4.6|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||4.6|0.104
82603242|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.03|ONE_SIDED|97.5|36.3|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||36.3|0.030
82603243|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|50.0||||0.376|ONE_SIDED|97.5|17.5|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||17.5|0.376
82603244|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|58.6||||0.085|ONE_SIDED|97.5|32.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||32.9|0.085
82603245|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|100.0||||0.033|ONE_SIDED|97.5|33.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||33.9|0.033
82603246|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|73.6||||0.265|ONE_SIDED|97.5|-30.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-30.0|0.265
82603247|NCT00630331|164922678|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|51.7||||0.319|ONE_SIDED|97.5|19.4|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||19.4|0.319
82603248|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|69.5|||<|0.001|ONE_SIDED|97.5|55.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||55.0|<0.001
82603249|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|89.3|||<|0.001|ONE_SIDED|97.5|73.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||73.0|<0.001
82656183|NCT00577460|165027969|SUPERIORITY_OR_OTHER|||||||0.6434||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.6434
82656184|NCT00577460|165027969|SUPERIORITY_OR_OTHER|||||||0.2469||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.2469
82656185|NCT00577460|165027970|SUPERIORITY_OR_OTHER|||||||0.9741||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.9741
82656186|NCT00577460|165027970|SUPERIORITY_OR_OTHER|||||||0.762||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.7620
82656187|NCT00577460|165027974|SUPERIORITY_OR_OTHER|||||||0.0831||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0831
82656188|NCT00577460|165027974|SUPERIORITY_OR_OTHER|||||||0.0759||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0759
82656189|NCT00577460|165027975|SUPERIORITY_OR_OTHER|||||||0.1713||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.1713
82656190|NCT00577460|165027975|SUPERIORITY_OR_OTHER|||||||0.013||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0130
82656191|NCT00577460|165027976|SUPERIORITY_OR_OTHER|||||||0.0015||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0015
82656192|NCT00577460|165027976|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0002
82498977|NCT02289417|164688930|SUPERIORITY||Stratified Difference|3.1||||0.4628|TWO_SIDED|95.0|-7.5|14.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||14.6|-7.5|0.4628
82603250|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|75.6||||0.04|ONE_SIDED|97.5|35.1|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||35.1|0.040
82603251|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|49.9||||0.37|ONE_SIDED|97.5|18.2|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of CCI vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of CCI vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of CCI vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||18.2|0.37
82603252|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|63.0||||0.003|ONE_SIDED|97.5|46.7|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo (Overall)~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||46.7|0.003
82603253|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|81.5|||<|0.001|ONE_SIDED|97.5|60.9|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H1N1 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||60.9|<0.001
82603254|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|49.3||||0.53|ONE_SIDED|97.5|-9.0|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for A/H3N2 strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||-9.0|0.53
82603255|NCT00630331|164922679|SUPERIORITY_OR_OTHER_LEGACY||Vaccine Efficacy|53.2||||0.26|ONE_SIDED|97.5|22.2|||Adjusted p-values are from score statistic with Sidak correction testing the null hypothesis that the VE of IVV vs. placebo is \<= 40% (the relative risk, \>= 0.60). If adjusted p-value is \<0.025, then the comparison is statistically significant.|Sidak-corrected score CI|||"Vaccine efficacy (VE) of IVV vaccine vs. Placebo for B strain~Simultaneous one-sided 97.5% confidence interval (CI) for the VE of IVV vaccine relative to Placebo was based on the Sidak-corrected score CIs for the two relative risks."|||22.2|0.26
82603256|NCT02761967|164922713|EQUIVALENCE|The statistical power of the study for the temporal variables was 82%. Multiple linear regression models were obtained for the first and second stages and for the total duration of delivery.||||||0.776|||||||Chi-squared|||||||0.776
82603257|NCT02292771|164922716|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.3797|TWO_SIDED|95.0|-8.879|6.479|||Finite mixture model|||||6.479|-8.879|0.3797
82603258|NCT02292771|164922717|SUPERIORITY||Odds Ratio (OR)|1.0||||0.952|TWO_SIDED|95.0|0.44|2.18|||Regression, Logistic|||||2.18|0.44|0.9520
82603259|NCT02292771|164922718|SUPERIORITY||Odds Ratio (OR)|1.0||||0.952|TWO_SIDED|95.0|0.46|2.29|||Regression, Logistic|||||2.29|0.46|0.9520
82603260|NCT02292771|164922719|SUPERIORITY||Ratio|1.14|STANDARD_ERROR_OF_MEAN|0.222||0.5672|TWO_SIDED|95.0|0.73|1.76|||ANCOVA|||||1.76|0.73|0.5672
82603261|NCT02292771|164922720|SUPERIORITY||Odds Ratio (OR)|1.9||||0.5066|TWO_SIDED|95.0|0.3|11.71|||Regression, Logistic|||||11.71|0.30|0.5066
82603262|NCT02292771|164922726|SUPERIORITY||Odds Ratio (OR)|0.8||||0.779|TWO_SIDED|95.0|0.12|4.84|||Regression, Logistic|||||4.84|0.12|0.7790
82603263|NCT02292771|164922727|SUPERIORITY||Odds Ratio (OR)|1.2||||0.6646|TWO_SIDED|95.0|0.51|2.9|||Regression, Logistic|||||2.90|0.51|0.6646
82603264|NCT02292771|164922728|SUPERIORITY||Odds Ratio (OR)|2.3||||0.1432|TWO_SIDED|95.0|0.75|7.24|||Regression, Logistic|||||7.24|0.75|0.1432
82603265|NCT02292771|164922729|SUPERIORITY||Odds Ratio (OR)|1.5||||0.525|TWO_SIDED|95.0|0.43|5.15|||Regression, Logistic|||||5.15|0.43|0.5250
82603266|NCT02292771|164922730|SUPERIORITY||Odds Ratio (OR)|0.6||||0.4682|TWO_SIDED|95.0|0.13|2.58|||Regression, Logistic|||||2.58|0.13|0.4682
82603267|NCT03219164|164922765|NON_INFERIORITY|Non-inferiority of the 14-day treatment regimen was claimed if the lower bound of 1-sided 97.5% confidence limit of the treatment difference (14-day course group vs 28-day course group) was above the noninferiority margin of -20%.|Difference in percentage|-8.0|||||TWO_SIDED|95.0|-24.6|8.6|||||The difference in percentage between treatment groups, and the associated 95% CIs were constructed based on stratum-adjusted Mantel-Haenszel method using age as stratification factor.|||8.6|-24.6|
82603268|NCT03219164|164922767|OTHER||||||||||||||||||The historical pooled data from published results for the percentage of participants with successful PA eradication at 28 days post-treatment with TNS was estimated to be 77%.|||
82603269|NCT00961532|164922813|SUPERIORITY_OR_OTHER|||||||0.014|||||||t-test, 2 sided|||We tested the hypothesis that there would be a change from baseline to 60 minutes after the start of the desmopressin (DDAVP) infusion.||||0.014
82603270|NCT04574999|164922865|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603271|NCT04574999|164922866|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603272|NCT04574999|164922868|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603273|NCT04574999|164922869|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603274|NCT00391599|164922871|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Chi-squared|||||||0.15
82603275|NCT00391599|164922873|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82603276|NCT00206726|164922878|SUPERIORITY_OR_OTHER||CR rate|0.0833||||0.014||90.0|0.0334|0.1673||2-sided p-value computed from an exact binomial test comparing the observed rate versus 2% historical rate|exact binomial test|||Comparison of CR rate versus 2 percent (%) historic control (p-value and 90% confidence interval)||0.1673|0.0334|0.014
82603277|NCT00008385|164922887|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|1.25||||0.294|TWO_SIDED|95.0|0.64|2.37||This p value should be compared to the nominal p value of 0.0035 adjusting for the previous interim analyses|Log Rank||The 95% confidence interval was repeated confidence interval for the risk ratio|||2.37|0.64|0.294
82603278|NCT00008385|164922888|SUPERIORITY_OR_OTHER_LEGACY|||||||0.069|TWO_SIDED||||||Log Rank|||||||0.069
82603279|NCT00008385|164922889|SUPERIORITY_OR_OTHER_LEGACY|||||||0.154|TWO_SIDED||||||Log Rank|||||||0.154
82603280|NCT05148884|164922896|OTHER|||||||0.0016|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.0016
82603281|NCT05148884|164922896|OTHER|||||||0.6886|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.6886
82603282|NCT05148884|164922897|OTHER|||||||0.0281|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.0281
82603283|NCT05148884|164922897|OTHER|||||||0.7953|||||||Mixed Models Analysis|||Linear mixed model (LMM) of change from baseline with treatment, visit and the interaction treatment\*visit as fixed categorical effects and subject within treatment as a random effect. The baseline value of the dependent variable has been included in the model as a continuous covariate. Kenward-Roger's improved approximation for degrees of freedom (2009) has been used.||||0.7953
82603284|NCT01993888|164922914|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82603285|NCT03902080|164922958|SUPERIORITY||Least square mean difference|-0.74|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|-1.02|-0.46|||Mixed Models Analysis|||||-0.46|-1.02|<0.0001
82603286|NCT03902080|164922959|SUPERIORITY||Least Squares Means Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.211|<|0.0001|TWO_SIDED|95.0|-1.37|-0.54|||Mixed Models Analysis|||||-0.54|-1.37|<0.0001
82603287|NCT03902080|164922960|SUPERIORITY||Least Squares Means Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.07|=|0.0015|TWO_SIDED|95.0|-0.36|-0.09|||Mixed Models Analysis|||||-0.09|-0.36|=0.0015
82603288|NCT03902080|164922961|SUPERIORITY||Least Squares Means Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.269|=|0.0034|TWO_SIDED|95.0|-1.33|-0.27|||Mixed Models Analysis|||||-0.27|-1.33|=0.0034
82603289|NCT03902080|164922962|SUPERIORITY||Least Squares Means Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.2|-0.5|||Mixed Models Analysis|||||-0.5|-1.2|<0.0001
82603290|NCT03902080|164922963|SUPERIORITY||Least Squares Means Difference|15.07|STANDARD_ERROR_OF_MEAN|3.03|<|0.0001|TWO_SIDED|95.0|9.13|21.02|||Mixed Models Analysis|||||21.02|9.13|<0.0001
82603291|NCT01169779|164922977|SUPERIORITY_OR_OTHER||Least squares (LS) mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.099||0.0004|TWO_SIDED|95.0|-0.551|-0.162||Statistical testing:2-sided at significance level=0.05. Analysis of co-variance (ANCOVA) included treatment arms, randomization strata of screening HbA1c (\<8.0,\>=8.0%), sulfonylurea use (Yes,No), country as fixed effects, baseline HbA1c as covariate.|ANCOVA|||To detect a difference of 0.5% in change in HbA1c at Week 24 between lixisenatide arm and placebo arm, 190 patients per group would provide a power of 96% assuming common standard deviation of 1.3% with 2-sided test at 5% significance level.||-0.162|-0.551|0.0004
82603292|NCT00928070|164922988|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.65|STANDARD_ERROR_OF_MEAN|0.21||0.0018|TWO_SIDED|95.0|-1.05|-0.24||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Analysis of covariance (ANCOVA) model with terms for treatment, center, centered baseline, and centered baseline by treatment interaction was used to calculate p-value.||-0.24|-1.05|0.0018
82603293|NCT00928070|164922989|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.27|-0.38||Statistical testing, two-sided, was done at 5% significance level.|ANCOVA|||ANCOVA model with terms for treatment, center, centered baseline, and centered baseline by treatment interaction was used to calculate p-value.||-0.38|-1.27|0.0003
82603294|NCT00928070|164922990|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
82603295|NCT00928070|164922990|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0001
82603296|NCT00928070|164922992|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.24||0.0003|TWO_SIDED|95.0|-1.35|-0.4||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline as a covariate was used to calculate p-value.||-0.40|-1.35|0.0003
82603297|NCT00928070|164922992|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.84|STANDARD_ERROR_OF_MEAN|0.23||0.0003|TWO_SIDED|95.0|-1.29|-0.39||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline as a covariate was used to calculate p-value.||-0.39|-1.29|0.0003
82656193|NCT00577460|165027977|SUPERIORITY_OR_OTHER|||||||0.876||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.8760
82656194|NCT00577460|165027977|SUPERIORITY_OR_OTHER|||||||0.5113||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.5113
82656195|NCT00577460|165027978|SUPERIORITY_OR_OTHER|||||||0.0148||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0148
82603298|NCT00928070|164922993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
82603299|NCT00928070|164922993|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
82603300|NCT00928070|164922995|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.1|STANDARD_ERROR_OF_MEAN|0.34||0.0014|TWO_SIDED|95.0|-1.77|-0.43||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.43|-1.77|0.0014
82603301|NCT00928070|164922995|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.1|-0.7||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-0.70|-2.10|<0.0001
82603302|NCT00928070|164922996|SUPERIORITY_OR_OTHER|||||||0.0002|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 4: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0002
82603303|NCT00928070|164922996|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||<0.0001
82603304|NCT00928070|164922998|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.2511|TWO_SIDED|95.0|-0.39|0.1||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered Baseline value as a covariate was used to calculate p-value.||0.10|-0.39|0.2511
82603305|NCT00928070|164922998|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.0189|TWO_SIDED|95.0|-0.53|-0.05||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered Baseline value as a covariate was used to calculate p-value.||-0.05|-0.53|0.0189
82603306|NCT00928070|164922999|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% significance level.|Ranked ANCOVA|Testing for percent change from baseline was only carried out for given endpoint if corresponding numeric change result was statistically significant.||Change at Week 12: Ranked ANCOVA model with terms for treatment and center with ranked baseline value as a covariate was used to calculate p-value.||||0.0010
82603307|NCT00928070|164923001|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.67|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.04|-2.3||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-2.30|-7.04|0.0001
82603308|NCT00928070|164923001|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.97|STANDARD_ERROR_OF_MEAN|1.17|<|0.0001|TWO_SIDED|95.0|-7.27|-2.66||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-2.66|-7.27|<0.0001
82603309|NCT00928070|164923002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.0035|TWO_SIDED|95.0|-0.56|-0.11||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 4: =\<3.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<3.5/day and \>3.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||-0.11|-0.56|0.0035
82656196|NCT00577460|165027978|SUPERIORITY_OR_OTHER|||||||0.0201||95.0|||||ANCOVA|Analysis of covariance with factors for treatment, country and baseline as a covariate||||||0.0201
82656197|NCT03006978|165027993|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
82656198|NCT03006978|165027994|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
82656199|NCT03006978|165027995|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
82656200|NCT03006978|165027996|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
82656201|NCT03006978|165027997|SUPERIORITY||||||<|0.0001|||||||Simple mixed effects linear models|||||||<0.0001
82656202|NCT01988922|165028003|OTHER|Differences between CYP2B6\*1/\*1, CYP2B6\*1/\*6, and CYP2B6\*6/\*6 genotypes for pharmacokinetic parameters were analyzed using one-way ANOVA followed by the Student-Newman-Keuls test for multiple comparisons (Sigmaplot 12.5; Systat Software, Inc, USA). Nonnormal data were log transformed for analysis but reported as the nontransformed results.|||||<|0.05|||||||ANOVA|One-way ANOVA followed by the Student-Newman-Keuls test for multiple comparisons||||||<0.05
82656203|NCT04977336|165028033|SUPERIORITY|||||||0.3706|||||||ANCOVA|||||||0.3706
82656204|NCT04977336|165028033|SUPERIORITY|||||||0.5379|||||||ANCOVA|||||||0.5379
82656205|NCT04977336|165028033|SUPERIORITY|||||||0.3859|||||||ANCOVA|||||||0.3859
82656206|NCT04977336|165028033|SUPERIORITY|||||||0.0251|||||||ANCOVA|||||||0.0251
82656207|NCT04977336|165028034|SUPERIORITY|||||||0.2318|||||||ANCOVA|||||||0.2318
82656208|NCT04977336|165028034|SUPERIORITY|||||||0.7615|||||||ANCOVA|||||||0.7615
82656209|NCT04977336|165028034|SUPERIORITY|||||||0.387|||||||ANCOVA|||||||0.3870
82656210|NCT04977336|165028034|SUPERIORITY|||||||0.0823|||||||ANCOVA|||||||0.0823
82656211|NCT04977336|165028035|SUPERIORITY|||||||0.9986|||||||Cochran-Mantel-Haenszel|||||||0.9986
82656212|NCT04977336|165028035|SUPERIORITY|||||||0.4446|||||||Cochran-Mantel-Haenszel|||||||0.4446
82603310|NCT00928070|164923002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|1.21||0.7089|TWO_SIDED|95.0|-2.01|2.92||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 4: \>3.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<3.5/day and \>3.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||2.92|-2.01|0.7089
82603311|NCT00928070|164923002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.61|-0.21||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 12: =\<2.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<2.5/day and \>2.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||-0.21|-0.61|<0.0001
82603312|NCT00928070|164923002|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.47||0.7437|TWO_SIDED|95.0|-0.78|1.09||Statistical testing, two-sided, was done at 5% alpha level.|t-test, 2 sided|||Change at Week 12: \>2.5 undergarments- Protective undergarment usage was analyzed to compare treatments on separate subsets, based on baseline protective undergarment use (=\<2.5/day and \>2.5/day), using a 2 sample t-test. This method was applied because there was a statistically significant qualitative baseline by treatment interaction.||1.09|-0.78|0.7437
82603313|NCT00928070|164923003|SUPERIORITY_OR_OTHER|||||||0.0009|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Change at Week 4- deterioration, no change, minor improvement and major improvement: Cochran-Mantel-Haenszel (CMH) test with modified ridit scoring controlling for center was used to calculate p-value.||||0.0009
82603314|NCT00928070|164923003|SUPERIORITY_OR_OTHER|||||||0.0021|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Change at Week 12- deterioration, no change, minor improvement and major improvement: CMH test with modified ridit scoring controlling for center was used to calculate p-value.||||0.0021
82603315|NCT00928070|164923005|SUPERIORITY_OR_OTHER||Least squares mean difference|-9.15|STANDARD_ERROR_OF_MEAN|1.88|<|0.0001|TWO_SIDED|95.0|-12.85|-5.45||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-5.45|-12.85|<0.0001
82499406|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.082||||90.0|-0.023|0.248|||ANCOVA|||Extension Month 1; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.248|-0.023|
82603316|NCT00928070|164923005|SUPERIORITY_OR_OTHER||Least squares mean difference|-7.6|STANDARD_ERROR_OF_MEAN|2.03||0.0002|TWO_SIDED|95.0|-11.6|-3.61||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||-3.61|-11.60|0.0002
82603317|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|8.17|STANDARD_ERROR_OF_MEAN|2.08|<|0.0001|TWO_SIDED|95.0|4.09|12.25||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||12.25|4.09|<0.0001
82603318|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|6.96|STANDARD_ERROR_OF_MEAN|2.13||0.0012|TWO_SIDED|95.0|2.77|11.15||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||11.15|2.77|0.0012
82603319|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|4.0|STANDARD_ERROR_OF_MEAN|2.01||0.0472|TWO_SIDED|95.0|0.05|7.95||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||7.95|0.05|0.0472
82656213|NCT04977336|165028035|SUPERIORITY|||||||0.5978|||||||Cochran-Mantel-Haenszel|||||||0.5978
82656214|NCT04977336|165028035|SUPERIORITY|||||||0.0479|||||||Cochran-Mantel-Haenszel|||||||0.0479
82656215|NCT04977336|165028036|SUPERIORITY|||||||0.9895|||||||Cochran-Mantel-Haenszel|||||||0.9895
82656216|NCT04977336|165028036|SUPERIORITY|||||||0.2731|||||||Cochran-Mantel-Haenszel|||||||0.2731
82656217|NCT04977336|165028036|SUPERIORITY|||||||0.6492|||||||Cochran-Mantel-Haenszel|||||||0.6492
82656218|NCT04977336|165028036|SUPERIORITY|||||||0.5119|||||||Cochran-Mantel-Haenszel|||||||0.5119
82656219|NCT04977336|165028037|SUPERIORITY|||||||0.3158|||||||Cochran-Mantel-Haenszel|||||||0.3158
82656220|NCT04977336|165028037|SUPERIORITY|||||||0.3247|||||||Cochran-Mantel-Haenszel|||||||0.3247
82656221|NCT04977336|165028037|SUPERIORITY|||||||0.8424|||||||Cochran-Mantel-Haenszel|||||||0.8424
82656222|NCT04977336|165028037|SUPERIORITY|||||||0.2312|||||||Cochran-Mantel-Haenszel|||||||0.2312
82656223|NCT03298451|165028042|SUPERIORITY|||||||0.0035||||||The adjusted alpha levels (0.0398) for the two-sided superiority test were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|Log Rank|||The analysis was performed using stratified log-rank test adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). The values of the stratification factors were obtained from IVRS.||||0.0035
82656224|NCT03298451|165028042|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.66|0.92|||Regression, Cox|||The analysis was performed using a Cox proportional hazards model adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). Values of the variables used for adjustment were obtained from IVRS.||0.92|0.66|
82603320|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|2.46|STANDARD_ERROR_OF_MEAN|1.53||0.1087|TWO_SIDED|95.0|-0.55|5.46||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.46|-0.55|0.1087
82603321|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|5.79|STANDARD_ERROR_OF_MEAN|1.77||0.0012|TWO_SIDED|95.0|2.31|9.28||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 4: total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.28|2.31|0.0012
82603322|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|9.04|STANDARD_ERROR_OF_MEAN|2.19|<|0.0001|TWO_SIDED|95.0|4.75|13.33||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: concern domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||13.33|4.75|<0.0001
82603323|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|5.32|STANDARD_ERROR_OF_MEAN|2.22||0.0169|TWO_SIDED|95.0|0.96|9.67||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: coping domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.67|0.96|0.0169
82603324|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|4.05|STANDARD_ERROR_OF_MEAN|2.1||0.0546|TWO_SIDED|95.0|-0.08|8.17||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: sleep domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||8.17|-0.08|0.0546
82603325|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|2.35|STANDARD_ERROR_OF_MEAN|1.63||0.1497|TWO_SIDED|95.0|-0.85|5.55||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: social interaction domain- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||5.55|-0.85|0.1497
82603326|NCT00928070|164923007|SUPERIORITY_OR_OTHER||Least squares mean difference|5.53|STANDARD_ERROR_OF_MEAN|1.88||0.0034|TWO_SIDED|95.0|1.84|9.23||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||Change at Week 12: total- ANCOVA model with terms for treatment and center with centered baseline value as a covariate was used to calculate p-value.||9.23|1.84|0.0034
82603327|NCT00928070|164923008|SUPERIORITY_OR_OTHER||Least squares mean difference|16.25|STANDARD_ERROR_OF_MEAN|2.96|<|0.0001|TWO_SIDED|95.0|10.43|22.08||Statistical testing, two-sided, was done at 5% significance level.|ANOVA|||ANOVA model with treatment and center as factors was used to calculate p-value.||22.08|10.43|<0.0001
82603328|NCT00928070|164923009|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Statistical testing, two-sided, was done at 5% alpha level.|Cochran-Mantel-Haenszel|||Not satisfied, neither dissatisfied nor satisfied, satisfied: CMH test with modified ridit scoring controlling for center was used.||||<0.0001
82603329|NCT00928070|164923011|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.2788|TWO_SIDED|95.0|-0.51|0.15||Statistical testing, two-sided, was done at 5% alpha level.|ANCOVA|||ANCOVA model with terms for treatment, center, centered baseline value, and centered baseline by treatment interaction.||0.15|-0.51|0.2788
82603330|NCT00928070|164923012|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|4.0||||0.0021|TWO_SIDED|95.0|0.0|8.0||Statistical testing, two-sided, was done at 5% alpha level.|Van Elteren's test|||Change at Week 4: Van Elteren's test adjusted by baseline PVR quartile was used to calculate p-value. The median difference was based on Hodges-Lehmann estimate.||8.00|0.00|0.0021
82603331|NCT00928070|164923012|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|7.0|||<|0.0001|TWO_SIDED|95.0|3.0|11.0||Statistical testing, two-sided, was done at 5% alpha level.|Van Elteren's test|||Change at Week 12: Van Elteren's test adjusted by baseline PVR quartile was used to calculate p-value. The median difference was based on Hodges-Lehmann estimate.||11.00|3.00|<0.0001
82603332|NCT02348099|164923018|OTHER|"A student's paired t-test will be used to determine the difference if any in CV of Glucose between injection sites. In the third phase, area under the curve will be measured to determine differences between insulin absorption levels. Statistical analysis will be performed using SPSS version 15.0.0 and SAS version 8.2 A power calculation is a statistical method used to determine the minimum sample size needed to detect a statistically significant effect of a certain size."|Odds Ratio (OR)|95.0|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||"A student's paired t-test will be used to determine the difference if any in CV of glucose between injection sited.~If the null hypothesis is true, it suggests that any changes witnessed in an experiment are because of random chance and not because of changes made to variables in the experiment. A power calculation is a statistical method used to determine the minimum sample size needed to detect a statistically significant effect of a certain size."|a P-Value is \<0.01|||<0.01
82603333|NCT02304926|164923040|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603334|NCT02304926|164923041|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603335|NCT02304926|164923042|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603336|NCT02304926|164923043|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82603337|NCT02304926|164923044|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82603338|NCT02304926|164923045|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603339|NCT02304926|164923046|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603340|NCT02304926|164923047|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603341|NCT02304926|164923048|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603342|NCT02304926|164923049|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603343|NCT02304926|164923050|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603344|NCT02304926|164923051|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603345|NCT02304926|164923052|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603346|NCT02304926|164923053|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603347|NCT02304926|164923054|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603348|NCT02304926|164923055|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603349|NCT02304926|164923056|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603350|NCT02304926|164923057|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82603351|NCT02304926|164923058|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603352|NCT02304926|164923059|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82603353|NCT01355289|164923095|SUPERIORITY_OR_OTHER||Difference in % of Responders|31.62||||0.0236|TWO_SIDED|95.0|5.39|57.84|||Cochran-Mantel-Haenszel|||||57.84|5.39|0.0236
82603354|NCT01355289|164923095|SUPERIORITY_OR_OTHER||Difference in % of Responders|60.78||||0.0003|TWO_SIDED|95.0|36.3|85.27|||Cochran-Mantel-Haenszel|||||85.27|36.30|0.0003
82603355|NCT01355289|164923095|SUPERIORITY_OR_OTHER||Difference in % of Responders|58.4||||0.0003|TWO_SIDED|95.0|30.92|85.88|||Cochran-Mantel-Haenszel|||||85.88|30.92|0.0003
82603356|NCT00813995|164923105|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Pairwise comparison|ANCOVA|||||||<.001
82603357|NCT02507349|164923110|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||Time-by-treatment interaction||||<0.0001
82603358|NCT02507349|164923110|SUPERIORITY|||||||0.0033|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and age group 1) where age group 1 is defined by 0 (reference) if \<=35; 1 if (35\<age\<=49); 2 if age \>49.||||0.0033
82603359|NCT02507349|164923110|SUPERIORITY|||||||0.3164|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and SMI group). Participants with a diagnosis of major depression, schizoaffective or schizophrenia were classified into the SMI group and the reference group (Non-SMI) included diagnosis of anxiety, PTSD, depression/dysthymia/depression nos.||||0.3164
82603360|NCT02507349|164923110|SUPERIORITY|||||||0.0482|||||||Mixed Models Analysis|||Three-way interaction effect of time, treatment, and the basis subgroups (no symptoms =group 1; at least 1 severe symptom = group 2)||||0.0482
82603361|NCT02507349|164923110|SUPERIORITY|||||||0.9928|||||||Mixed Models Analysis|||Three-way interaction of Treatment, time, and subgroup of side effects. Subgroup of side effect= 0 if the response to the medication side effects question at baseline is 1, 2, or 3 (i.e. subgroup of participants who are minimally bothered by medication side effects at baseline); Subgroup of side effect= 1 if the response to the medication side effects question at baseline is 4-10 (i.e. subgroup of participants who are moderately or very bothered by medication side effects at baseline)||||0.9928
82603362|NCT02507349|164923111|SUPERIORITY|||||||0.6243|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.6243
82603363|NCT02507349|164923111|SUPERIORITY|||||||0.1969|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.1969
82603364|NCT02507349|164923111|SUPERIORITY|||||||0.0042|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and age group 1) where age group 1 is defined by 0 (reference) if \<=35; 1 if (35\<age\<=49); 2 if age \>49||||0.0042
82603365|NCT02507349|164923111|SUPERIORITY|||||||0.0002|||||||Mixed Models Analysis|||Three-way interaction effect (treatment, polynomial time, and SMI group). Participants with a diagnosis of major depression, schizoaffective or schizophrenia were classified into the SMI group and the reference group (Non-SMI) included diagnosis of anxiety, PTSD, depression/dysthymia/depression nos.||||0.0002
82603366|NCT02507349|164923111|SUPERIORITY|||||||0.7254|||||||Mixed Models Analysis|||Three-way interaction effect of time, treatment, and the basis subgroups (no symptoms =group 1; at least 1 severe symptom = group 2)||||0.7254
82603367|NCT02507349|164923111|SUPERIORITY|||||||0.058|||||||Mixed Models Analysis|||Three-way interaction of Treatment, time, and subgroup of side effects. Subgroup of side effect= 0 if the response to the medication side effects question at baseline is 1, 2, or 3 (i.e. subgroup of participants who are minimally bothered by medication side effects at baseline); Subgroup of side effect= 1 if the response to the medication side effects question at baseline is 4-10 (i.e. subgroup of participants who are moderately or very bothered by medication side effects at baseline)||||0.0580
82603368|NCT02507349|164923112|SUPERIORITY|||||||0.4677|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.4677
82603369|NCT02507349|164923112|SUPERIORITY|||||||0.094|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0940
82603370|NCT02507349|164923113|SUPERIORITY|||||||0.8733|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.8733
82603371|NCT02507349|164923113|SUPERIORITY|||||||0.0113|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0113
82603372|NCT02507349|164923114|SUPERIORITY|||||||0.2328|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.2328
82603373|NCT02507349|164923114|SUPERIORITY|||||||0.0005|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0005
82603374|NCT02507349|164923115|SUPERIORITY|||||||0.0033|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.0033
82603375|NCT02507349|164923116|SUPERIORITY|||||||0.1649|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.1649
82603376|NCT02507349|164923116|SUPERIORITY|||||||0.0016|||||||Mixed Models Analysis|||Test for change over time from baseline (Marginal Effect of Time)||||0.0016
82603377|NCT02507349|164923117|SUPERIORITY|||||||0.008|||||||Mixed Models Analysis|||Time-by-treatment interaction||||0.0080
82603378|NCT02507349|164923118|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82603379|NCT02507349|164923119|SUPERIORITY|||||||0.0003|||||||Mixed Models Analysis|||||||0.0003
82603380|NCT00754156|164923134|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence analysis|||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82603381|NCT03618030|164923139|OTHER|||||||0.0003|||||||ANOVA|||The primary efficacy analysis used a mixed-model repeated measures (MMRM) analysis on the full day laboratory classroom PERMP-T scores.||||.0003
82603382|NCT00860470|164923140|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.95||||0.36|TWO_SIDED|95.0|0.86|1.06|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.06|0.86|0.36
82603383|NCT00860470|164923141|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.78|TWO_SIDED|95.0|0.88|1.2|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.20|0.88|0.78
82603384|NCT00860470|164923142|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.81||||0.11|TWO_SIDED|95.0|0.63|1.04|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.04|0.63|0.11
82603385|NCT00860470|164923143|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.89||||0.02|TWO_SIDED|95.0|0.81|0.99|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.99|0.81|0.02
82603386|NCT00860470|164923144|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.91|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.91|0.80|<0.001
82603387|NCT00860470|164923145|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.75||||0.03|TWO_SIDED|95.0|0.57|0.97|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.97|0.57|0.03
82603388|NCT00860470|164923146|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.73|||<|0.001|TWO_SIDED|95.0|0.62|0.86|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.86|0.62|<0.001
82603389|NCT00860470|164923147|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.87||||0.87|TWO_SIDED|95.0|0.81|0.93|||Regression, Logistic||GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.93|0.81|0.87
82656225|NCT03298451|165028043|NON_INFERIORITY|Non-interiority for the comparison of arm Durva 1500 mg vs Sora 400 mg is declared if the upper limit of the two-sided alpha adjusted CI for HR is less than the NI margin of 1.08.|Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.67|0.73|1.03|||Regression, Cox||The 95.67% confidence interval were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|The analysis was performed using a Cox proportional hazards model adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). Values of the variables used for adjustment were obtained from IVRS.||1.03|0.73|
82603390|NCT00860470|164923148|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.88|||<|0.001|TWO_SIDED|95.0|0.85|0.91|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||0.91|0.85|<0.001
82603391|NCT00860470|164923149|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.98||||0.13|TWO_SIDED|95.0|0.96|1.01|||Regression, Logistic|Bonferroni-adjusted alpha=0.01 (for 5 comparisons)|GEE with log link function and exchangeable correlation was used to adjust confidence intervals for cluster randomised design; the iron-folic acid supplemented group was the referent.|||1.01|0.96|0.13
82603392|NCT00888238|164923154|SUPERIORITY_OR_OTHER||Least Squares Mean|1.7|||<|0.001||90.0|1.47|1.93|||ANOVA|||||1.93|1.47|<0.001
82603393|NCT00888238|164923155|SUPERIORITY_OR_OTHER||Least Squares Mean|1.3|||<|0.001||90.0|1.08|1.52|||ANOVA|||||1.52|1.08|<0.001
82498978|NCT02289417|164688931|SUPERIORITY||Stratified Difference|32.0||||0.0005|TWO_SIDED|95.0|13.8|47.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||47.4|13.8|0.0005
82603394|NCT01032629|164923180|SUPERIORITY||Hazard Ratio (HR)|0.93|||=|0.4576|TWO_SIDED|95.0|0.78|1.12|||Cox proportional hazard model|||Comparison for canagliflozin versus placebo is reported here.||1.12|0.78|=0.4576
82603395|NCT01032629|164923180|SUPERIORITY||Hazard Ratio (HR)|0.83|||=|0.0467|TWO_SIDED|95.0|0.68|1.0|||Cox proportional hazard model|||Comparison for canagliflozin versus placebo is reported here.||1.00|0.68|=0.0467
82603396|NCT01032629|164923180|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.112|TWO_SIDED|95.0|0.75|1.03|||Cox proportional hazard method|||Comparison for canagliflozin versus placebo is reported here.||1.03|0.75|0.1120
82603397|NCT01032629|164923181|SUPERIORITY||Difference of Least Square Mean|2.79|STANDARD_ERROR_OF_MEAN|2.224|=|0.21|TWO_SIDED|95.0|-1.571|7.154|||ANCOVA|||Comparison for canagliflozin versus placebo is reported here.||7.154|-1.571|=0.210
82603398|NCT01032629|164923181|SUPERIORITY||Difference of Least Square Mean|4.07|STANDARD_ERROR_OF_MEAN|2.261|=|0.072|TWO_SIDED|95.0|-0.368|8.504|||ANCOVA|||Comparison for canagliflozin versus placebo is reported here.||8.504|-0.368|=0.072
82603399|NCT01032629|164923182|SUPERIORITY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.67|0.97|||Regression, Logistic|||Comparison for canagliflozin versus placebo is reported here.||0.97|0.67|
82603400|NCT01032629|164923182|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.58|0.85|||Regression, Logistic|||Comparison for canagliflozin versus placebo is reported here.||0.85|0.58|
82603401|NCT01032629|164923183|OTHER||Difference of Least Square Mean|-0.03|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|95.0|-0.429|0.374||||||Comparison for canagliflozin versus placebo is reported here.||0.374|-0.429|
82603402|NCT01032629|164923183|OTHER||Difference of Least Square Mean|0.33|STANDARD_ERROR_OF_MEAN|0.206|||TWO_SIDED|95.0|-0.079|0.731||||||Comparison for canagliflozin versus placebo is reported here.||0.731|-0.079|
82499407|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.273|STANDARD_ERROR_OF_MEAN|0.089||||90.0|0.126|0.419|||ANCOVA|||Extension Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.419|0.126|
82603403|NCT01032629|164923184|OTHER||Geometric mean ratio|0.87|||||TWO_SIDED|95.0|0.8|0.94||||||Comparison for canagliflozin versus placebo is reported here.||0.940|0.800|
82603404|NCT01032629|164923184|OTHER||Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.77|0.91||||||Comparison for canagliflozin versus placebo is reported here.||0.910|0.770|
82603405|NCT01032629|164923185|OTHER||Difference of Least Square Mean|1.68|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|0.599|2.755||||||Comparison for canagliflozin versus placebo is reported here.||2.755|0.599|
82603406|NCT01032629|164923185|OTHER||Difference of Least Square Mean|1.24|STANDARD_ERROR_OF_MEAN|0.553|||TWO_SIDED|95.0|0.16|2.328||||||Comparison for canagliflozin versus placebo is reported here.||2.328|0.160|
82603407|NCT01032629|164923186|OTHER||Difference of Least Square Mean|-0.27|STANDARD_ERROR_OF_MEAN|0.045|||TWO_SIDED|95.0|-0.355|-0.177||||||Comparison for canagliflozin versus placebo is reported here.||-0.177|-0.355|
82603408|NCT01032629|164923186|OTHER||Difference of Least Square Mean|-0.32|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|95.0|-0.405|-0.227||||||Comparison for canagliflozin versus placebo is reported here.||-0.227|-0.405|
82603409|NCT01032629|164923187|OTHER||Difference of Least Square Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|-0.794|-0.374||||||Comparison for canagliflozin versus placebo is reported here.||-0.374|-0.794|
82603410|NCT01032629|164923187|OTHER||Difference of Least Square Mean|-0.73|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|95.0|-0.945|-0.523||||||Comparison for canagliflozin versus placebo is reported here.||-0.523|-0.945|
82603411|NCT01032629|164923188|OTHER||Difference of Least Square Mean|-2.96|STANDARD_ERROR_OF_MEAN|0.26||||95.0|-3.472|-2.454||||||Comparison for canagliflozin versus placebo is reported here.||-2.454|-3.472|
82603412|NCT01032629|164923188|OTHER||Difference of Least Square Mean|-3.61|STANDARD_ERROR_OF_MEAN|0.261|||TWO_SIDED|95.0|-4.125|-3.103||||||Comparison for canagliflozin versus placebo is reported here.||-3.103|-4.125|
82603413|NCT01032629|164923189|OTHER||Difference of Least Square Mean|-2.96|STANDARD_ERROR_OF_MEAN|0.532|||TWO_SIDED|95.0|-3.998|-1.914||||||Statistical analysis (Systolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-1.914|-3.998|
82603414|NCT01032629|164923189|OTHER||Difference of Least Square Mean|-4.53|STANDARD_ERROR_OF_MEAN|0.534|||TWO_SIDED|95.0|-5.579|-3.484||||||Statistical analysis (Systolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-3.484|-5.579|
82603415|NCT01032629|164923189|OTHER||Difference of Least Square Mean|-0.82|STANDARD_ERROR_OF_MEAN|0.314|||TWO_SIDED|95.0|-1.437|-0.205||||||Statistical analysis (Diastolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-0.205|-1.437|
82603416|NCT01032629|164923189|OTHER||Difference of Least Square Mean|-1.63|STANDARD_ERROR_OF_MEAN|0.316|||TWO_SIDED|95.0|-2.245|-1.007||||||Statistical analysis (Diastolic blood pressure) Comparison for canagliflozin versus placebo is reported here.||-1.007|-2.245|
82603417|NCT01032629|164923190|OTHER||Hodges-Lehman Estimate|0.02|||||TWO_SIDED|95.0|-0.04|0.07||||||Comparison for canagliflozin versus placebo is reported here.||0.070|-0.040|
82603418|NCT01032629|164923190|OTHER||Hodges-Lehman Estimate|0.02|||||TWO_SIDED|95.0|-0.03|0.08||||||Comparison for canagliflozin versus placebo is reported here.||0.080|-0.030|
82603419|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.18|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|0.105|0.259||||||Statistical analysis (Cholesterol) Comparison for canagliflozin versus placebo is reported here.||0.259|0.105|
82603420|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.23|STANDARD_ERROR_OF_MEAN|0.039|||TWO_SIDED|95.0|0.152|0.307||||||Statistical analysis (Cholesterol) Comparison for canagliflozin versus placebo is reported here.||0.307|0.152|
82603421|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.05|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|95.0|0.031|0.065||||||Statistical analysis (HDL-C)||0.065|0.031|
82603422|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.06|STANDARD_ERROR_OF_MEAN|0.009|||TWO_SIDED|95.0|0.04|0.075||||||Statistical analysis (HDL-C) Comparison for canagliflozin versus placebo is reported here.||0.075|0.040|
82603423|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.11|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.046|0.17||||||Statistical analysis (LDL-C) Comparison for canagliflozin versus placebo is reported here.||0.170|0.046|
82603424|NCT01032629|164923191|OTHER||Difference of Least Square Mean|0.16|STANDARD_ERROR_OF_MEAN|0.032|||TWO_SIDED|95.0|0.102|0.226||||||Statistical analysis (LDL-C) Comparison for canagliflozin versus placebo is reported here.||0.226|0.102|
82603425|NCT01032629|164923192|OTHER||Difference of Least Square Mean|0.02|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.04|0.076||||||||0.076|-0.040|
82499408|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.363|STANDARD_ERROR_OF_MEAN|0.087||||90.0|0.219|0.507|||ANCOVA|||Extension Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.507|0.219|
82603426|NCT01032629|164923192|OTHER||Difference of Least Square Mean|0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|95.0|-0.023|0.094||||||||0.094|-0.023|
82603427|NCT00348140|164923193|SUPERIORITY||Mean Difference (Net)|0.3||||0.739|TWO_SIDED|95.0|-1.2|1.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||1.8|-1.2|0.739
82603428|NCT00348140|164923193|SUPERIORITY||Mean Difference (Net)|0.8||||0.343|TWO_SIDED|95.0|-0.8|2.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||2.4|-0.8|0.343
82603429|NCT00348140|164923194|SUPERIORITY||Mean Difference (Net)|-0.1||||0.783|TWO_SIDED|95.0|-1.1|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.9|-1.1|0.783
82603430|NCT00348140|164923194|SUPERIORITY||Mean Difference (Net)|0.0||||0.94|TWO_SIDED|95.0|-1.1|1.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||1.1|-1.1|0.940
82603431|NCT00348140|164923195|SUPERIORITY||Mean Difference (Net)|-0.1|||=|0.763|TWO_SIDED|95.0|-1.1|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.8|-1.1|=0.763
82603432|NCT00348140|164923195|SUPERIORITY||Mean Difference (Net)|-0.1|||=|0.8|TWO_SIDED|95.0|-1.1|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.9|-1.1|=0.800
82603433|NCT00348140|164923196|SUPERIORITY||Mean Difference (Net)|-0.1||||0.611|TWO_SIDED|95.0|-0.7|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.4|-0.7|0.611
82603434|NCT00348140|164923196|SUPERIORITY||Mean Difference (Net)|-0.1||||0.741|TWO_SIDED|95.0|-0.6|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.4|-0.6|0.741
82603435|NCT00348140|164923197|SUPERIORITY||Mean Difference (Net)|0.0||||0.913|TWO_SIDED|95.0|-0.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.3|-0.4|0.913
82603436|NCT00348140|164923197|SUPERIORITY||Mean Difference (Net)|-0.1||||0.481|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.5|0.481
82603437|NCT00348140|164923198|SUPERIORITY||Mean Difference (Net)|-0.1||||0.557|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.4|0.557
82603438|NCT00348140|164923198|SUPERIORITY||Mean Difference (Net)|-0.1||||0.404|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|||0.2|-0.5|0.404
82603439|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.1||||0.633|TWO_SIDED|95.0|-0.5|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.8|-0.5|0.633
82603440|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.2||||0.575|TWO_SIDED|95.0|-0.4|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.8|-0.4|0.575
82603441|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.1||||0.82|TWO_SIDED|95.0|-0.6|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.7|-0.6|0.820
82603442|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.0||||0.908|TWO_SIDED|95.0|-0.7|0.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.6|-0.7|0.908
82603443|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.4||||0.292|TWO_SIDED|95.0|-0.3|1.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||1.1|-0.3|0.292
82603444|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.0||||0.978|TWO_SIDED|95.0|-0.7|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.7|-0.7|0.978
82603445|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|0.2||||0.691|TWO_SIDED|95.0|-0.6|1.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||1.0|-0.6|0.691
82603446|NCT00348140|164923199|SUPERIORITY||Mean Difference (Net)|-0.1||||0.849|TWO_SIDED|95.0|-0.9|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.8|-0.9|0.849
82603447|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|0.0||||0.938|TWO_SIDED|95.0|-0.2|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 12||0.2|-0.2|0.938
82603448|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|0.0||||0.887|TWO_SIDED|95.0|-0.2|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 12||0.2|-0.2|0.887
82603449|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|-0.1||||0.465|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.2|-0.4|0.465
82603450|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|0.1||||0.596|TWO_SIDED|95.0|-0.2|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.3|-0.2|0.596
82603451|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|-0.1||||0.452|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.2|-0.4|0.452
82603452|NCT00348140|164923200|SUPERIORITY||Mean Difference (Net)|-0.1||||0.429|TWO_SIDED|95.0|-0.4|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.2|-0.4|0.429
82603453|NCT00348140|164923201|SUPERIORITY||Mean Difference (Net)|-0.3||||0.386|TWO_SIDED|95.0|-0.8|0.3|||ANCOVA|||||0.3|-0.8|0.386
82603454|NCT00348140|164923201|SUPERIORITY||Mean Difference (Net)|0.0||||0.999|TWO_SIDED|95.0|-0.6|0.6|||ANCOVA|||||0.6|-0.6|0.999
82603455|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|1.1||||0.09|TWO_SIDED|95.0|-0.2|2.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||2.5|-0.2|0.090
82603456|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|0.0||||0.957|TWO_SIDED|95.0|-1.3|1.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||1.3|-1.3|0.957
82603457|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|0.7||||0.395|TWO_SIDED|95.0|-0.9|2.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||2.2|-0.9|0.395
82603458|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|-0.9||||0.275|TWO_SIDED|95.0|-2.5|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 16||0.7|-2.5|0.275
82656226|NCT03298451|165028043|SUPERIORITY|Superiority was tested sequentially per protocol as non-inferiority was satisfied.||||||0.0674||||||The adjusted alpha levels (0.0433) for the two-sided superiority test were derived based upon the exact number of OS events for each comparison using the Lan and DeMets approach that approximates the O'Brien Fleming spending function.|Log Rank|||The analysis was performed using stratified log-rank test adjusting for treatment, etiology of liver disease (HBV versus HCV versus others), ECOG (0 versus 1), and macro-vascular invasion (yes versus no). The values of the stratification factors were obtained from IVRS.||||0.0674
82603459|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|1.7||||0.039|TWO_SIDED|95.0|0.1|3.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||3.4|0.1|0.039
82603460|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|-0.1||||0.895|TWO_SIDED|95.0|-1.8|1.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||1.6|-1.8|0.895
82603461|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|0.1||||0.914|TWO_SIDED|95.0|-2.1|2.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||2.3|-2.1|0.914
82603462|NCT00348140|164923202|SUPERIORITY||Mean Difference (Net)|-0.9||||0.43|TWO_SIDED|95.0|-3.2|1.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||1.3|-3.2|0.430
82603463|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-0.2||||0.583|TWO_SIDED|95.0|-1.1|0.6|||Mixed model for repeated measures|||For Week 8||0.6|-1.1|0.583
82603464|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-0.2||||0.631|TWO_SIDED|95.0|-1.1|0.6|||Mixed model for repeated measures|||For Week 8||0.6|-1.1|0.631
82603465|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|0.1||||0.812|TWO_SIDED|95.0|-0.8|1.1|||Mixed model for repeated measures|||For Week 16||1.1|-0.8|0.812
82603466|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|0.0||||0.952|TWO_SIDED|95.0|-0.9|1.0|||Mixed model for repeated measures|||For Week 16||1.0|-0.9|0.952
82603467|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-0.9||||0.117|TWO_SIDED|95.0|-2.1|0.2|||Mixed model for repeated measures|||For Week 24||0.2|-2.1|0.117
82603468|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-1.0||||0.074|TWO_SIDED|95.0|-2.1|0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.1|-2.1|0.074
82603469|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-1.0||||0.141|TWO_SIDED|95.0|-2.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.3|-2.4|0.141
82603470|NCT00348140|164923203|SUPERIORITY||Mean Difference (Net)|-0.7||||0.331|TWO_SIDED|95.0|-2.1|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.7|-2.1|0.331
82603471|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|4.1||||0.251|TWO_SIDED|95.0|-2.9|11.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 12||11.2|-2.9|0.251
82603472|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|5.9||||0.113|TWO_SIDED|95.0|-1.4|13.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 12||13.2|-1.4|0.113
82603473|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|1.6||||0.723|TWO_SIDED|95.0|-7.1|10.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 24||10.2|-7.1|0.723
82603474|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|3.5||||0.482|TWO_SIDED|95.0|-6.3|13.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 24||13.2|-6.3|0.482
82603475|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|1.5||||0.785|TWO_SIDED|95.0|-9.5|12.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 36||12.6|-9.5|0.785
82603476|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|2.2||||0.711|TWO_SIDED|95.0|-9.4|13.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 36||13.8|-9.4|0.711
82603477|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|4.0||||0.484|TWO_SIDED|95.0|-7.2|15.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 48||15.2|-7.2|0.484
82603478|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|3.4||||0.572|TWO_SIDED|95.0|-8.5|15.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q1 Week 48||15.4|-8.5|0.572
82603479|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|6.8||||0.197|TWO_SIDED|95.0|-3.6|17.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 12||17.3|-3.6|0.197
82603480|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|7.4||||0.183|TWO_SIDED|95.0|-3.5|18.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 12||18.4|-3.5|0.183
82603481|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|10.0||||0.121|TWO_SIDED|95.0|-2.6|22.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 24||22.6|-2.6|0.121
82603482|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|6.8||||0.291|TWO_SIDED|95.0|-5.8|19.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 24||19.3|-5.8|0.291
82603483|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|7.0||||0.389|TWO_SIDED|95.0|-8.9|22.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 36||22.9|-8.9|0.389
82603484|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|-1.2||||0.865|TWO_SIDED|95.0|-15.0|12.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 36||12.6|-15.0|0.865
82603485|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|4.2||||0.596|TWO_SIDED|95.0|-11.3|19.6|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 48||19.6|-11.3|0.596
82603486|NCT00348140|164923204|SUPERIORITY||Mean Difference (Net)|-0.2||||0.975|TWO_SIDED|95.0|-14.7|14.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Q2 Week 48||14.2|-14.7|0.975
82656227|NCT01347710|165028059|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule|McNemar|Two-sided McNemar's (chi-squared) test superiority||||||<0.001
82498979|NCT02289417|164688931|SUPERIORITY||Stratified Difference|3.7||||0.6878|TWO_SIDED|95.0|-14.4|21.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||21.5|-14.4|0.6878
82603487|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-2.4||||0.043|TWO_SIDED|95.0|-4.7|-0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 12||-0.1|-4.7|0.043
82603488|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-2.2||||0.056|TWO_SIDED|95.0|-4.5|0.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 12||0.1|-4.5|0.056
82603489|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-0.4||||0.758|TWO_SIDED|95.0|-2.8|2.1|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 36||2.1|-2.8|0.758
82603490|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-2.0||||0.109|TWO_SIDED|95.0|-4.5|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 36||0.5|-4.5|0.109
82603491|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-2.6||||0.05|TWO_SIDED|95.0|-5.2|0.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 48||-0.0|-5.2|0.050
82603492|NCT00348140|164923205|SUPERIORITY||Mean Difference (Net)|-3.4||||0.009|TWO_SIDED|95.0|-6.0|-0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Thermometer score Week 48||-0.9|-6.0|0.009
82603493|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|0.01||||0.662|TWO_SIDED|95.0|-0.02|0.03|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Ultility score Week 12||0.03|-0.02|0.662
82603494|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|-0.01||||0.503|TWO_SIDED|95.0|-0.03|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Ultility score Week 12||0.02|-0.03|0.503
82603495|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|0.0||||0.892|TWO_SIDED|95.0|-0.03|0.03|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 36||0.03|-0.03|0.892
82603496|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|-0.03||||0.083|TWO_SIDED|95.0|-0.05|0.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 36||0.00|-0.05|0.083
82603497|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|-0.01||||0.366|TWO_SIDED|95.0|-0.05|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 48||0.02|-0.05|0.366
82603498|NCT00348140|164923206|SUPERIORITY||Mean Difference (Net)|0.0||||0.769|TWO_SIDED|95.0|-0.03|0.02|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Utility score Week 48||0.02|-0.03|0.769
82603499|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|-0.2||||0.529|TWO_SIDED|95.0|-0.7|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 12||0.3|-0.7|0.529
82603500|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|-0.1||||0.62|TWO_SIDED|95.0|-0.7|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 12||0.4|-0.7|0.620
82499409|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.278|STANDARD_ERROR_OF_MEAN|0.091||||90.0|0.128|0.428|||ANCOVA|||Extension Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.428|0.128|
82603501|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|-0.4||||0.284|TWO_SIDED|95.0|-1.0|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 36||0.3|-1.0|0.284
82603502|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|0.2||||0.488|TWO_SIDED|95.0|-0.4|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 36||0.9|-0.4|0.488
82656228|NCT01347710|165028060|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule in patients under going pharmacologic stress|McNemar|Two-sided McNemar's (chi-squared) test superiority||||||<0.001
82603503|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|0.2||||0.549|TWO_SIDED|95.0|-0.5|1.0|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 48||1.0|-0.5|0.549
82603504|NCT00348140|164923207|SUPERIORITY||Mean Difference (Net)|0.1||||0.78|TWO_SIDED|95.0|-0.6|0.9|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.9|-0.6|0.780
82603505|NCT00348140|164923208|SUPERIORITY||Mean Difference (Net)|-0.6||||0.106|TWO_SIDED|95.0|-1.3|0.1|||ANCOVA|||||0.1|-1.3|0.106
82603506|NCT00348140|164923208|SUPERIORITY||Mean Difference (Net)|-0.4||||0.229|TWO_SIDED|95.0|-1.2|0.3|||ANCOVA|||||0.3|-1.2|0.229
82603507|NCT00348140|164923209|SUPERIORITY||Mean Difference (Net)|-0.1||||0.324|TWO_SIDED|95.0|-0.3|0.1|||ANCOVA|||||0.1|-0.3|0.324
82603508|NCT00348140|164923209|SUPERIORITY||Mean Difference (Net)|0.0||||0.987|TWO_SIDED|95.0|-0.2|0.2|||ANCOVA|||||0.2|-0.2|0.987
82603509|NCT00348140|164923210|SUPERIORITY||Mean Difference (Net)|0.05||||0.038|TWO_SIDED|95.0|0.0|0.1|||ANCOVA|||||0.10|0.00|0.038
82603510|NCT00348140|164923210|SUPERIORITY||Mean Difference (Net)|0.13|||<|0.001|TWO_SIDED|95.0|0.08|0.18|||ANCOVA|||||0.18|0.08|<0.001
82603511|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|-0.1||||0.748|TWO_SIDED|95.0|-0.4|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.3|-0.4|0.748
82603512|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.1||||0.617|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 8||0.5|-0.3|0.617
82603513|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|-0.1||||0.708|TWO_SIDED|95.0|-0.5|0.3|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 16||0.3|-0.5|0.708
82603514|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|-0.2||||0.4|TWO_SIDED|95.0|-0.5|0.2|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|Week 16||0.2|-0.5|0.400
82603515|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.0||||0.928|TWO_SIDED|95.0|-0.4|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.4|-0.4|0.928
82603516|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.3||||0.178|TWO_SIDED|95.0|-0.1|0.7|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 24||0.7|-0.1|0.178
82603517|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.1||||0.626|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.5|-0.3|0.626
82603518|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.1||||0.608|TWO_SIDED|95.0|-0.3|0.5|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 36||0.5|-0.3|0.608
82603519|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.0||||0.865|TWO_SIDED|95.0|-0.5|0.4|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.4|-0.5|0.865
82603520|NCT00348140|164923223|SUPERIORITY||Mean Difference (Net)|0.3||||0.149|TWO_SIDED|95.0|-0.1|0.8|||Mixed model for repeated measures|Mixed model for repeated measures with restricted maximum likelihood estimation and an unstructured covariance matrix|Difference in adjusted least square means was shown (Active treatment minus Placebo); n = Number of participants with evaluable data|For Week 48||0.8|-0.1|0.149
82603521|NCT00516919|164923224|SUPERIORITY_OR_OTHER_LEGACY||F statistic|0.45|||=|0.51||95.0|||||ANCOVA|Covariate = Baseline (pre-treatment) BMI; Degrees of freedom = (1, 76)||Test for group differences in BMI at post-treatment, controlling for baseline BMI.||||=0.51
82603522|NCT00516919|164923224|SUPERIORITY_OR_OTHER_LEGACY||F statistic|0.69|||=|0.41||95.0|||||ANCOVA|Covariate = Baseline (pre-treatment) BMI; Degrees of freedom = (1, 76)||Test for group differences in BMI at 6-month follow-up, controlling for baseline BMI.||||=0.41
82603523|NCT00619957|164923228|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|4.53|||<|0.0001|TWO_SIDED|95.0|3.46|5.6|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||5.60|3.46|<0.0001
82656229|NCT01347710|165028060|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in females|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority||||||<0.001
82603524|NCT00619957|164923229|SUPERIORITY_OR_OTHER||LS Mean Difference|2.56|||<|0.0001|TWO_SIDED|95.0|1.66|3.47|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.47|1.66|<0.0001
82603525|NCT00619957|164923230|SUPERIORITY_OR_OTHER||LS Mean Difference|3.18|||<|0.0001|TWO_SIDED|95.0|2.19|4.16|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||4.16|2.19|<0.0001
82603526|NCT00619957|164923231|SUPERIORITY_OR_OTHER||LS Mean Difference|4.57|||<|0.0001|TWO_SIDED|95.0|3.49|5.66|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||5.66|3.49|<0.0001
82603527|NCT00619957|164923232|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.1856|TWO_SIDED|95.0|-0.19|0.99|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||0.99|-0.19|0.1856
82603528|NCT00619957|164923233|SUPERIORITY_OR_OTHER||LS Mean Difference|0.65||||0.0346|TWO_SIDED|95.0|0.05|1.25|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.25|0.05|0.0346
82603529|NCT00619957|164923234|SUPERIORITY_OR_OTHER||LS Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|0.98|2.41|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.41|0.98|<0.0001
82603530|NCT00619957|164923235|SUPERIORITY_OR_OTHER||LS Mean Difference|1.46|||<|0.0001|TWO_SIDED|95.0|0.76|2.17|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.17|0.76|<0.0001
82603531|NCT00619957|164923236|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.2538|TWO_SIDED|95.0|-0.36|1.36|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.36|-0.36|0.2538
82603532|NCT00619957|164923237|SUPERIORITY_OR_OTHER||LS Mean Difference|0.86||||0.0537|TWO_SIDED|95.0|-0.01|1.74|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.74|-0.01|0.0537
82603533|NCT00619957|164923238|SUPERIORITY_OR_OTHER||LS Mean Difference|1.24||||0.0081|TWO_SIDED|95.0|0.32|2.15|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||2.15|0.32|0.0081
82656230|NCT01347710|165028060|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule in patients with BMI \>/=30|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority||||||<0.001
82656231|NCT01347710|165028061|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.891|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in patients undergoing pharmacologic stress|Z test|z test for non inferiority for specificity||||||0.891
82603534|NCT00619957|164923239|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06||||0.0187|TWO_SIDED|95.0|0.18|1.94|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.94|0.18|0.0187
82603535|NCT00619957|164923240|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.1408|TWO_SIDED|95.0|-0.19|1.34|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.34|-0.19|0.1408
82603536|NCT00619957|164923241|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.0129|TWO_SIDED|95.0|0.23|1.92|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.92|0.23|0.0129
82603537|NCT00619957|164923242|SUPERIORITY_OR_OTHER||LS Mean Difference|2.31|||<|0.0001|TWO_SIDED|95.0|1.35|3.26|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.26|1.35|<0.0001
82603538|NCT00619957|164923243|SUPERIORITY_OR_OTHER||LS Mean Difference|2.15|||<|0.0001|TWO_SIDED|95.0|1.22|3.08|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.08|1.22|<0.0001
82603539|NCT00619957|164923244|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.6|||<|0.0001|TWO_SIDED|95.0|-51.52|-35.67|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-35.67|-51.52|<0.0001
82603540|NCT00619957|164923245|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.72|||<|0.0001|TWO_SIDED|95.0|-58.01|-31.43|||ANOVA|Fixed effects for treatment and pooled center||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-31.43|-58.01|<0.0001
82603541|NCT00619957|164923246|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.33|||<|0.0001|TWO_SIDED|95.0|-55.99|-28.67|||ANOVA|Fixed effects for treatment and pooled centers.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-28.67|-55.99|<0.0001
82603542|NCT00619957|164923247|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.55|||<|0.0001|TWO_SIDED|95.0|-59.38|-33.72|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-33.72|-59.38|<0.0001
82603543|NCT00619957|164923248|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.15|||<|0.0001|TWO_SIDED|95.0|-57.01|-33.29|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-33.29|-57.01|<0.0001
82656232|NCT01347710|165028061|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.546|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule in female patients|z test|z test for non-inferiority for specificity||||||.546
82499410|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.293|STANDARD_ERROR_OF_MEAN|0.091||||90.0|0.144|0.442|||ANCOVA|||Extension Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.442|0.144|
82603544|NCT00619957|164923249|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.88|||<|0.0001|TWO_SIDED|95.0|-23.43|-8.32|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-8.32|-23.43|<0.0001
82603545|NCT00619957|164923250|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.0|||<|0.0001|TWO_SIDED|95.0|-31.08|-12.91|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-12.91|-31.08|<0.0001
82603546|NCT00619957|164923251|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.96|||<|0.0001|TWO_SIDED|95.0|-30.75|-13.17|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-13.17|-30.75|<0.0001
82603547|NCT00619957|164923252|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.11||||0.0012|TWO_SIDED|95.0|-24.2|-6.02|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-6.02|-24.20|0.0012
82603548|NCT00619957|164923253|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.37||||0.0003|TWO_SIDED|95.0|-25.24|-7.49|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-7.49|-25.24|0.0003
82603549|NCT00619957|164923254|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.64|||<|0.0001|TWO_SIDED|95.0|-19.29|-11.99|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-11.99|-19.29|<0.0001
82603550|NCT00619957|164923255|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-25.61|-16.59|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.59|-25.61|<0.0001
82603551|NCT00619957|164923256|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.39|||<|0.0001|TWO_SIDED|95.0|-27.8|-16.98|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.98|-27.80|<0.0001
82603552|NCT00619957|164923257|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.15|||<|0.0001|TWO_SIDED|95.0|-39.84|-16.47|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.47|-39.84|<0.0001
82603553|NCT00619957|164923258|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.25|||<|0.0001|TWO_SIDED|95.0|-37.63|-16.87|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||-16.87|-37.63|<0.0001
82656233|NCT01347710|165028061|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.538|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule BMI \>/=30|z test|z test for non-inferiority for specificity||||||.538
82656234|NCT01347710|165028062|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LAD|McNemar|Two-sided McNemar (chi-squared) test superiority for sensitivity; LAD||||||<0.001
82656235|NCT01347710|165028062|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LCX|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; LCX||||||<0.001
82603554|NCT00619957|164923259|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.14||||0.8794|TWO_SIDED|95.0|-1.99|1.71|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.71|-1.99|0.8794
82603555|NCT00619957|164923260|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.47||||0.6658|TWO_SIDED|95.0|-2.62|1.67|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.67|-2.62|0.6658
82603556|NCT00619957|164923261|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.29||||0.784|TWO_SIDED|95.0|-2.39|1.81|||ANOVA|Fixed effects for treatment and pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.81|-2.39|0.7840
82498980|NCT02289417|164688932|SUPERIORITY||Stratified Difference|11.5||||0.1388|TWO_SIDED|95.0|-4.1|26.1|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||26.1|-4.1|0.1388
82603557|NCT00619957|164923262|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Controlled for pooled center.||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||||<0.0001
82603558|NCT00619957|164923263|SUPERIORITY_OR_OTHER||Relative Risk|0.771||||0.7284||95.0|0.184|3.226|||Log Rank|||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||3.226|0.184|0.7284
82603559|NCT00619957|164923264|SUPERIORITY_OR_OTHER||Relative Risk|0.688||||0.5293|TWO_SIDED|95.0|0.245|1.932|||Log Rank|||A total of 210 patients will be randomized to 35 mg once a week risedronate and placebo groups in 2:1 ratio. Sample size will allow detection of a difference of at least 3% in lumbar spine BMD percent change from Baseline at 24 months between risedronate and placebo with at least 90% power. This calculation is based on the assumptions that the common within-group standard deviation (SD) would be below 5%, and the dropout rate within 2 years is about 35%.||1.932|0.245|0.5293
82603560|NCT00723957|164923265|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04|||||ONE_SIDED|90.0||1.41|||Regression, Cox|||||1.41||
82603561|NCT00723957|164923265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5735|||||||Log Rank|||P-value is 1-sided||||0.5735
82603562|NCT00723957|164923266|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.78|||||ONE_SIDED|90.0||1.1|||Regression, Cox|||||1.10||
82603563|NCT00723957|164923266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.175|||||||Log Rank|||P-value is 1-sided||||0.1750
82603564|NCT00723957|164923267|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||||ONE_SIDED|90.0||1.15|||Regression, Cox|||||1.15||
82603565|NCT00723957|164923267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.316|ONE_SIDED||||||Log Rank|||P-value is 1-sided||||0.316
82603566|NCT00723957|164923273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.6|||||ONE_SIDED|90.0||2.1|||Regression, Cox||β3T+ subgroup|||2.10||
82603567|NCT00723957|164923273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.7|||||ONE_SIDED|90.0||0.9|||Regression, Cox||β3T- subgroup|||0.90||
82603568|NCT00723957|164923273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.1|||||ONE_SIDED|90.0||1.4|||Regression, Cox||Overall population|||1.40||
82603569|NCT00868790|164923276|SUPERIORITY_OR_OTHER||Least Squares Mean (LSM) Difference|-17.2||||0.013|TWO_SIDED|90.0|-28.3|-6.1|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-6.1|-28.3|0.013
82603570|NCT00868790|164923276|SUPERIORITY_OR_OTHER||LSM Difference|-23.4|||<|0.001|TWO_SIDED|90.0|-34.5|-12.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-12.4|-34.5|<0.001
82603571|NCT00868790|164923276|SUPERIORITY_OR_OTHER||LSM Difference|-34.9|||<|0.001|TWO_SIDED|95.0|-44.8|-25.0|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-25.0|-44.8|<0.001
82656236|NCT01347710|165028062|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; RCA|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; RCA||||||<0.001
82603572|NCT00868790|164923277|SUPERIORITY_OR_OTHER||LSM Difference|-11.5||||0.002|TWO_SIDED|90.0|-17.5|-5.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-5.4|-17.5|0.002
82603573|NCT00868790|164923277|SUPERIORITY_OR_OTHER||LSM Difference|-21.8|||<|0.001|TWO_SIDED|90.0|-27.8|-15.8|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-15.8|-27.8|<0.001
82656237|NCT01347710|165028062|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; Non-LAD|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity; Non-LAD||||||<0.001
82656238|NCT01347710|165028063|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.379|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LAD|z Test|z test for non-inferiority for specificity; LAD||||||.379
82656239|NCT01347710|165028063|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.358|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; LCX|Z Test|z test for non-inferiority for specificity; LCX||||||.358
82656240|NCT01347710|165028063|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.442|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; RCA|z Test|z test for non-inferiority for specificity; RCA||||||.442
82656241|NCT01347710|165028063|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.984|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI and SPECT MPI for majority rule in the localization of coronary artery disease; Non-LAD|z Test|z test for non-inferiority for specificity; non-LAD||||||.984
82656242|NCT01347710|165028064|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value of sensitivity for flurpiridaz F18 PET MPI vs. SPECT MPI for majority rule; multivessel disease|McNemar|p-Value based on two-sided McNemar's (Chi squared) test superiority||||||<0.001
82656243|NCT01347710|165028065|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.827|TWO_SIDED|||||p-Value of specificity for comparison of flurpiridaz F18 PET MPI vs. SPECT MPI in detecting multivessel disease|z test|p-Value based on one-sided z test for non-inferiority||||||0.827
82656244|NCT01347710|165028066|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Value for sensitivity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule; image quality of excellent or good|McNemar|p-Value based on two-sided McNemar's (Chi-squared) test superiority for sensitivity||||||<0.001
82656245|NCT01347710|165028067|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study protocol number BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.945|ONE_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs. SPECT MPI|Z Test|one-sided z test for non-inferiority for specificity||||||.945
82656246|NCT01347710|165028068|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Systematic review of literature and meta-analysis of diagnostic efficacy of SPECT MPI to evaluate the performance criteria of SPECT MPI in studies with various levels of control. Analysis of study BMS747158-201. Non-inferiority margin (delta) = 7%||||||0.954|TWO_SIDED|||||p-Value for specificity comparison of flurpiridaz F18 PET MPI vs SPECT MPI for majority rule; image quality excellent/good|z Test|p-Value based on on-sided z test for non-inferiority for specificity||||||0.954
82656247|NCT01347710|165028069|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Log Rank|||||||<0.001
82656248|NCT01347710|165028070|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||McNemar|p-Values are from 2-sided McNemar's test of comparison in proportion of patients with definitely diagnositic certainty between PET and SPECT||||||<0.001
82656249|NCT04591626|165028073|SUPERIORITY||LS Mean Difference|-0.95|||<|0.001|TWO_SIDED|95.0|-1.14|-0.77|||Mixed Models Analysis|||||-0.77|-1.14|<0.001
82656250|NCT04591626|165028074|SUPERIORITY||Odds Ratio (OR)|10.91|||<|0.001|TWO_SIDED|95.0|5.35|22.28|||Regression, Logistic|||||22.28|5.35|<0.001
82656251|NCT04591626|165028075|SUPERIORITY||LS Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.77|-0.6|||Mixed Models Analysis|||||-0.60|-1.77|<0.001
82656252|NCT04591626|165028076|SUPERIORITY||LS Mean Difference|-14.82|||<|0.001|TWO_SIDED|95.0|-20.57|-9.08|||Mixed Models Analysis|||||-9.08|-20.57|<0.001
82656253|NCT04591626|165028077|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.64|7.95|||Regression, Logistic||OR was determined using Logistic Regression model with Baseline HbA1c value + OAM use + Treatment as variables.|||7.95|2.64|<0.001
82656254|NCT04591626|165028078|SUPERIORITY||Odds Ratio (OR)|7.59|||<|0.001|TWO_SIDED|95.0|4.27|13.48|||Regression, Logistic||OR was determined using logistic regression model: Variable = Baseline HbA1c value + OAM use + Treatment as variables.|||13.48|4.27|<0.001
82603574|NCT00868790|164923277|SUPERIORITY_OR_OTHER||LSM Difference|-36.0|||<|0.001|TWO_SIDED|90.0|-42.0|-30.0|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-30.0|-42.0|<0.001
82603575|NCT00868790|164923277|SUPERIORITY_OR_OTHER||LSM Difference|-20.0||||0.001|TWO_SIDED|90.0|-30.0|-10.1|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-10.1|-30.0|0.001
82603576|NCT00868790|164923278|SUPERIORITY_OR_OTHER||LSM Difference|-14.9||||0.174|TWO_SIDED|90.0|-33.0|3.2|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||3.2|-33.0|0.174
82603577|NCT00868790|164923278|SUPERIORITY_OR_OTHER||LSM Difference|-20.4||||0.063|TWO_SIDED|90.0|-38.4|-2.4|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-2.4|-38.4|0.063
82603578|NCT00868790|164923278|SUPERIORITY_OR_OTHER||LSM Difference|-78.1|||<|0.001|TWO_SIDED|90.0|-96.4|-59.8|||LDA Model|Between-group difference (MK-3577-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-59.8|-96.4|<0.001
82603579|NCT00868790|164923278|SUPERIORITY_OR_OTHER||LSM Difference|-49.4|||<|0.001|TWO_SIDED|90.0|-66.9|-31.8|||LDA Model|Between-group difference (metformin-placebo) of LSM changes from BL to a given time point and 90% confidence intervals were estimated from LDA model.||Analysis based on an LDA model including terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). The LDA-model test was conducted at alpha level=0.10 (two sided).||-31.8|-66.9|<0.001
82603580|NCT00868790|164923279|SUPERIORITY_OR_OTHER||LSM Difference|-0.8||||0.742|TWO_SIDED|90.0|-4.6|3.1|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||3.1|-4.6|0.742
82603581|NCT00868790|164923279|SUPERIORITY_OR_OTHER||LSM Difference|4.5||||0.06|TWO_SIDED|90.0|0.6|8.4|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||8.4|0.6|0.060
82603582|NCT00868790|164923279|SUPERIORITY_OR_OTHER||LSM Difference|7.8||||0.002|TWO_SIDED|90.0|3.8|11.7|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||11.7|3.8|0.002
82603583|NCT00868790|164923279|SUPERIORITY_OR_OTHER||LSM Difference|-3.9||||0.248|TWO_SIDED|90.0|-10.2|2.3|||LDA Model|||LDL-C values after log transformation were analyzed using a constrained LDA model that included terms for treatment, period, the interaction of treatment by period, prior antihyperglycemic therapy status (yes/no), and randomization stratum (participation in domiciled visits \[yes/no\]). Percentage change from baseline in LDL-C after 4-week treatment was reported, after back-transformation using the delta method with an alpha-level of 0.10 (2-sided).||2.3|-10.2|0.248
82603584|NCT01763164|164923282|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||Hazard ratio was obtained from the stratified unadjusted Cox model. P-value was obtained from the one-sided stratified log-rank test.||0.80|0.47|< 0.001
82603585|NCT01763164|164923283|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.499|TWO_SIDED|95.0|0.75|1.33|||Log Rank|||Hazard ratio was obtained from the stratified unadjusted Cox model. P-value was obtained from the one-sided stratified log rank test.||1.33|0.75|0.499
82603586|NCT01763164|164923284|SUPERIORITY|||||||0.015|||||||Cochran-Mantel-Haenszel|||Confirmed ORR: The p-value (2-sided) was computed from stratified Cochran-Mantel-Haenszel chi-square test statistic.||||0.015
82492231|NCT00680017|164677695|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P values were based on 2 sided tests. Tests resulting in P values less than or equal to 0.050 (when rounded) were reported as statistically significant. No adjustments made for multiple comparisons since only 1 primary efficacy endpoint comparison."|Wilcoxon rank-sum test|||The null hypothesis was that percent change in triglycerides (TG) from baseline to Week 8 in the ABT-335 45 mg plus rosuvastatin 5 mg treatment group is equal to percent change in TG from baseline to Week 8 in the rosuvastatin 5 mg plus placebo treatment group. A sample size of 140 participants per treatment group was used to provide 98% power to detect a difference between the combination therapy arm and the rosuvastatin monotherapy arm in the percent change from Baseline to Week 8 in TG.||||<0.001
82656255|NCT04591626|165028079|SUPERIORITY||Odds Ratio (OR)|4.58|||<|0.001|TWO_SIDED|95.0|2.64|7.95|||Regression, Logistic||OR was determined using logistic regression model with Baseline HbA1c value + OAM use + Treatment as variables.|||7.95|2.64|<0.001
82656256|NCT04591626|165028080|SUPERIORITY||LS Mean Difference|-26.3|||<|0.001|TWO_SIDED|95.0|-33.0|-19.6|||Mixed Models Analysis|||||-19.6|-33.0|<0.001
82656257|NCT04591626|165028081|SUPERIORITY||LS Mean Difference|-4.0||||0.006|TWO_SIDED|95.0|-6.86|-1.14|||Mixed Models Analysis|||||-1.14|-6.86|0.006
82656258|NCT01968382|165028087|SUPERIORITY|||||||0.3198|||||||ANOVA|||||||0.3198
82603587|NCT01763164|164923284|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|||Confirmed ORR + Unconfirmed ORR: The p-value (2-sided) was computed from stratified Cochran-Mantel-Haenszel chi-square test statistic.||||0.002
82603588|NCT01763164|164923297|SUPERIORITY||Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.96|2.13|||Log Rank|||||2.13|0.96|
82603589|NCT01763164|164923300|SUPERIORITY||Hazard Ratio (HR)|2.2||||0.995|TWO_SIDED|95.0|1.19|4.06|||Log Rank|||Log-rank test and Cox PH model were stratified by American joint committee on cancer stage, prior line immunotherapy and ECOG performance status. P-value was one tailed and was based on the log-rank score test. Hazard ratio and 95% CI was based on a Wald test from Cox model.||4.06|1.19|0.995
82656259|NCT01968382|165028090|SUPERIORITY|||||||0.8462|||||||ANOVA|||||||0.8462
82656260|NCT03676803|165028102|OTHER||Mean Difference (Final Values)|10.6||||0.033|TWO_SIDED|||||p\<0.05 was defined as significant|ANOVA|||Comparison was made to 2 weeks minus baseline changes in phylum Firmicutes abundance between groups.||||0.033
82656261|NCT03676803|165028102|OTHER||Mean Difference (Final Values)|8.7||||0.097|TWO_SIDED|||||p\<0.05 was defined as significant.|ANOVA|||Comparison was made to 2 weeks minus baseline changes in phylum Bacteroidetes abundance between groups.||||0.097
82656262|NCT03676803|165028103|OTHER||Mean Difference (Final Values)|86.0||||0.49|TWO_SIDED||||||t-test, 2 sided|||Comparison was made to 2 weeks minus baseline in mixed spices intervention group||||0.49
82603590|NCT01264939|164923303|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.52|||<|0.0001|TWO_SIDED|95.0|-5.97|-3.08||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.08|-5.97|<0.0001
82656263|NCT03676803|165028103|OTHER||Mean Difference (Final Values)|55.7||||0.53|TWO_SIDED||||||t-test, 2 sided|||Comparison was made to 2 weeks minus baseline in placebo group||||0.53
82656264|NCT02480764|165028154|NON_INFERIORITY|A test for noninferiority was done using a margin of 1.5 mm Hg. A test for significant difference was performed at 5% level.|Least Square Mean Difference|-1.932|STANDARD_ERROR_OF_MEAN|1.4512||0.184|TWO_SIDED|95.0|-4.782|0.918||Change at Week 8: P-value was calculated using analysis of covariance (ANCOVA) model, with treatment group as a fixed effect and baseline trough sitting clinic SBP as a continuous covariate.|ANCOVA|||||0.918|-4.782|0.184
82656265|NCT02480764|165028154|NON_INFERIORITY|A test for noninferiority was done using a margin of 1.5 mm Hg. A test for significant difference was performed at 5% level.|Least Square Mean Difference|-3.685|STANDARD_ERROR_OF_MEAN|1.4344||0.01|TWO_SIDED|95.0|-6.502|-0.868||Change at Week 8: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic SBP as a continuous covariate.|ANCOVA|||||-0.868|-6.502|0.010
82656266|NCT02480764|165028155|OTHER||Least Square Mean Difference|-1.459|STANDARD_ERROR_OF_MEAN|0.9455||0.123|TWO_SIDED|95.0|-3.316|0.397||Change at Week 8: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic DBP as a continuous covariate.|ANCOVA|||||0.397|-3.316|0.123
82656267|NCT02480764|165028155|OTHER||Least Square Mean Difference|-2.822|STANDARD_ERROR_OF_MEAN|0.9354||0.003|TWO_SIDED|95.0|-4.659|-0.985||Change at 8 Week: P-value was calculated using ANCOVA model, with treatment group as a fixed effect and baseline trough sitting clinic DBP as a continuous covariate.|ANCOVA|||||-0.985|-4.659|0.003
82656268|NCT02480764|165028156|OTHER||Odds Ratio (OR)|0.877|STANDARD_ERROR_OF_MEAN|0.192||0.548|TWO_SIDED|95.0|0.571|1.347||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.347|0.571|0.548
82656269|NCT02480764|165028156|OTHER||Odds Ratio (OR)|0.979|STANDARD_ERROR_OF_MEAN|0.2136||0.921|TWO_SIDED|95.0|0.638|1.501||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.501|0.638|0.921
82656270|NCT02480764|165028157|OTHER||Odds Ratio (OR)|1.033|STANDARD_ERROR_OF_MEAN|0.2805||0.904|TWO_SIDED|95.0|0.607|1.759||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.759|0.607|0.904
82656271|NCT02480764|165028157|OTHER||Odds Ratio (OR)|1.074|STANDARD_ERROR_OF_MEAN|0.2897||0.79|TWO_SIDED|95.0|0.633|1.823||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.823|0.633|0.790
82656272|NCT02480764|165028158|OTHER||Odds Ratio (OR)|0.901|STANDARD_ERROR_OF_MEAN|0.1916||0.624|TWO_SIDED|95.0|0.594|1.367||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.367|0.594|0.624
82656273|NCT02480764|165028158|OTHER||Odds Ratio (OR)|1.103|STANDARD_ERROR_OF_MEAN|0.235||0.647|TWO_SIDED|95.0|0.726|1.674||P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.674|0.726|0.647
82656274|NCT02480764|165028159|OTHER||Odds Ratio (OR)|0.831|STANDARD_ERROR_OF_MEAN|0.1846||0.404|TWO_SIDED|95.0|0.537|1.284||Clinic SBP \<140 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.284|0.537|0.404
82656275|NCT02480764|165028159|OTHER||Odds Ratio (OR)|0.937|STANDARD_ERROR_OF_MEAN|0.2078||0.768|TWO_SIDED|95.0|0.606|1.447||Clinic SBP \<140 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.447|0.606|0.768
82603591|NCT01264939|164923304|SUPERIORITY_OR_OTHER||Least squares mean difference|-10.02|||<|0.0001|TWO_SIDED|95.0|-13.17|-6.86||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-6.86|-13.17|<0.0001
82603592|NCT01264939|164923305|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-7.72|-4.07||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.07|-7.72|<0.0001
82603593|NCT01264939|164923306|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.99|||<|0.0001|TWO_SIDED|95.0|1.47|2.68||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||2.68|1.47|<0.0001
82603594|NCT01264939|164923307|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82603595|NCT01264939|164923308|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82603596|NCT01264939|164923309|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.61|||<|0.0001|TWO_SIDED|95.0|-7.25|-3.96||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.96|-7.25|<0.0001
82603597|NCT01264939|164923310|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.67|||<|0.0001|TWO_SIDED|95.0|-6.28|-3.06||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.06|-6.28|<0.0001
82603598|NCT01264939|164923311|SUPERIORITY_OR_OTHER|||||||0.0006||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||0.0006
82603599|NCT01264939|164923312|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Multiplicity plan applied to the efficacy endpoints provided strong control of the type I error rate at 0.05 level by pre-specifying the hierarchical order of the efficacy endpoint tests.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82603600|NCT04666038|164923315|SUPERIORITY||Hazard Ratio (HR)|0.536||||0.0002|TWO_SIDED|95.0|0.385|0.746||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The Hazard Ratio (HR) \& 95% confidence interval (CI) were estimated from a stratified Cox proportional hazards model.|||0.746|0.385|0.0002
82656276|NCT02480764|165028159|OTHER||Odds Ratio (OR)|1.051|STANDARD_ERROR_OF_MEAN|0.2837||0.852|TWO_SIDED|95.0|0.62|1.784||Clinic DBP \<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.784|0.620|0.852
82656277|NCT02480764|165028159|OTHER||Odds Ratio (OR)|1.045|STANDARD_ERROR_OF_MEAN|0.2788||0.868|TWO_SIDED|95.0|0.62|1.763||Clinic DBP \<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||1.763|0.620|0.868
82656278|NCT02480764|165028159|OTHER||Odds Ratio (OR)|1.042|STANDARD_ERROR_OF_MEAN|0.2244||0.847|TWO_SIDED|95.0|0.684|1.59||Clinic SBP\<140 mm Hg and DBP\<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.590|0.684|0.847
82603601|NCT04666038|164923316|SUPERIORITY||Hazard Ratio (HR)|0.475|||<|0.0001|TWO_SIDED|95.0|0.338|0.669||The 2-sided nominal p-value was calculated based on a stratified log-rank test|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.669|0.338|<0.0001
82656279|NCT02480764|165028159|OTHER||Odds Ratio (OR)|1.172|STANDARD_ERROR_OF_MEAN|0.2517||0.46|TWO_SIDED|95.0|0.769|1.785||Clinic SBP\<140 mm Hg and DBP\<90 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||1.785|0.769|0.460
82656280|NCT02480764|165028160|OTHER||Odds Ratio (OR)|1.487|STANDARD_ERROR_OF_MEAN|0.3333||0.077|TWO_SIDED|95.0|0.958|2.307||Clinic SBP\<130 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.307|0.958|0.077
82603602|NCT04666038|164923317|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.7202|TWO_SIDED|95.0|0.679|1.749||The 2-sided p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||1.749|0.679|0.7202
82603603|NCT04666038|164923318|SUPERIORITY||Hazard Ratio (HR)|0.365|||<|0.0001|TWO_SIDED|95.0|0.254|0.524||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.524|0.254|<0.0001
82603604|NCT04666038|164923319|SUPERIORITY||Hazard Ratio (HR)|0.387|||<|0.0001|TWO_SIDED|95.0|0.28|0.534||The 2-sided nominal p-value was calculated based on a stratified log-rank test.|Log Rank||The HR and 95% CI were estimated from a stratified Cox proportional hazards model.|||0.534|0.280|<0.0001
82603605|NCT02116621|164923336|SUPERIORITY||Adjusted difference in differences|-1.36|||||TWO_SIDED|95.0|-2.91|0.19|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|||0.19|-2.91|
82603606|NCT02116621|164923337|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: -0.79 (-2.37 to 0.80); baseline to 26 weeks: -1.36 (-2.91 to 0.19); baseline to 52 weeks: 0.16 (-1.47 to 1.79)|||0.21
82603607|NCT02116621|164923338|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 0.31 (-1.18 to 1.81); baseline to 26 weeks: -1.41 (-2.87 to 0.06); baseline to 52 weeks: -1.24 (-2.77 to 0.30)|||0.06
82603608|NCT02116621|164923339|SUPERIORITY|||||||0.35|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks:-0.66 (-2.55 to 1.24); baseline to 26 weeks: 0.93 (-0.92 to 2.79); baseline to 52 weeks: 0.76 (-1.19 to 2.70)|||0.35
82603609|NCT02116621|164923340|SUPERIORITY|||||||0.86|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 0.30 (-1.01 to 1.61); baseline to 26 weeks: -0.17 (-1.45 to 1.12); baseline to 52 weeks: -0.26 (-1.61 to 1.09)|||0.86
82603610|NCT02116621|164923341|SUPERIORITY|||||||0.7|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.05 (-2.54 to 4.64); baseline to 26 weeks: 1.90 (-1.66 to 5.47); baseline to 52 weeks: 0.08 (-3.61 to 3.77).|||0.70
82603611|NCT02116621|164923342|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 4.24 (-2.73 to 11.20); baseline to 26 weeks: 4.64 (-2.25 to 11.54); baseline to 52 weeks: -1.91 (-9.07 to 5.26).|||0.20
82603612|NCT02116621|164923343|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.76 (-2.37 to 5.89); baseline to 26 weeks: 2.55 (-1.50 to 6.60); baseline to 52 weeks: 1.53 (-2.70 to 5.77).|||0.66
82603613|NCT02116621|164923344|SUPERIORITY|||||||0.44|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 7.77 (-2.87 to 18.42); baseline to 26 weeks: 7.29 (-3.16 to 17.75); baseline to 52 weeks: 4.13 (-6.81 to 15.07).|||0.44
82603614|NCT02116621|164923345|SUPERIORITY|||||||0.58|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 2.15 (-2.84 to 7.13); baseline to 26 weeks: 3.31 (-1.57 to 8.19); baseline to 52 weeks: 1.00 (-4.11 to 6.11).|||0.58
82603615|NCT02116621|164923346|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis||||Longitudinal analysis adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control). Baseline to 13 weeks: 1.81 (-4.41 to 8.02); baseline to 26 weeks: -1.57 (-7.68 to 4.54); baseline to 52 weeks: 1.11 (-5.27 to 7.48).|||0.73
82603616|NCT02116621|164923347|SUPERIORITY||Adjusted difference in differences|-1.41|||||TWO_SIDED|95.0|-2.87|0.06|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|||0.06|-2.87|
82603617|NCT02116621|164923348|SUPERIORITY||Adjusted difference in differences|0.93|||||TWO_SIDED|95.0|-0.92|2.79|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|2.79|-0.92|
82499411|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.094||||90.0|0.058|0.369|||ANCOVA|||Extension Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.369|0.058|
82603618|NCT02116621|164923349|SUPERIORITY||Adjusted difference in differences|-0.17|||||TWO_SIDED|95.0|-1.45|1.12|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|1.12|-1.45|
82603619|NCT02116621|164923350|SUPERIORITY||Adjusted difference in differences|1.9|||||TWO_SIDED|95.0|-1.66|5.47|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|5.47|-1.66|
82603620|NCT02116621|164923351|SUPERIORITY||Adjusted difference in differences|4.64|||||TWO_SIDED|95.0|-2.25|11.54|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|11.54|-2.25|
82603621|NCT02116621|164923352|SUPERIORITY||Adjusted difference in differences|2.55|||||TWO_SIDED|95.0|-1.5|6.6|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|6.60|-1.50|
82603622|NCT02116621|164923353|SUPERIORITY||Adjusted difference in differences|7.29|||||TWO_SIDED|95.0|-3.16|17.75|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|17.75|-3.16|
82603623|NCT02116621|164923354|SUPERIORITY||Adjusted difference in differences|3.31|||||TWO_SIDED|95.0|-1.57|8.19|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|8.19|-1.57|
82603624|NCT02116621|164923355|SUPERIORITY||Adjusted difference in differences|-1.57|||||TWO_SIDED|95.0|-7.68|4.54|||||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 26 weeks.|4.54|-7.68|
82603625|NCT02116621|164923356|SUPERIORITY||Mean Difference (Final Values)|11.9||||0.01|TWO_SIDED|95.0|2.59|21.24|||Regression, Linear|||||21.24|2.59|0.01
82603626|NCT02116621|164923357|SUPERIORITY||Adjusted difference in differences|-0.79|||||TWO_SIDED|95.0|-2.37|0.8|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||0.80|-2.37|
82603627|NCT02116621|164923358|SUPERIORITY||Adjusted difference in differences|0.31|||||TWO_SIDED|95.0|-1.18|1.81|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.81|-1.18|
82603628|NCT02116621|164923359|SUPERIORITY||Adjusted difference in differences|0.3|||||TWO_SIDED|95.0|-1.01|1.61|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.61|-1.01|
82603629|NCT02116621|164923360|SUPERIORITY||Adjusted difference in differences|-0.66|||||TWO_SIDED|95.0|-2.55|1.24|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||1.24|-2.55|
82603630|NCT02116621|164923361|SUPERIORITY||Adjusted difference in differences|1.05|||||TWO_SIDED|95.0|-2.54|4.64|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||4.64|-2.54|
82603631|NCT02116621|164923362|SUPERIORITY||Adjusted difference in differences|4.24|||||TWO_SIDED|95.0|-2.73|11.2|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||11.20|-2.73|
82603632|NCT02116621|164923363|SUPERIORITY||Adjusted difference in differences|1.76|||||TWO_SIDED|95.0|-2.37|5.89|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||5.89|-2.37|
82603633|NCT02116621|164923364|SUPERIORITY||Adjusted difference in differences|7.77|||||TWO_SIDED|95.0|-2.87|18.42|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||18.42|-2.87|
82603634|NCT02116621|164923365|SUPERIORITY||Adjusted difference in differences|2.15|||||TWO_SIDED|95.0|-2.84|7.13|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||7.13|-2.84|
82656281|NCT02480764|165028160|OTHER||Odds Ratio (OR)|1.914|STANDARD_ERROR_OF_MEAN|0.4229||0.003|TWO_SIDED|95.0|1.241|2.951||Clinic SBP\<130 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.951|1.241|0.003
82656282|NCT02480764|165028160|OTHER||Odds Ratio (OR)|1.427|STANDARD_ERROR_OF_MEAN|0.3414||0.137|TWO_SIDED|95.0|0.893|2.28||Clinic DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||2.280|0.893|0.137
82498981|NCT02289417|164688932|SUPERIORITY||Stratified Difference|13.5||||0.0788|TWO_SIDED|95.0|-1.6|27.7||Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Cochran-Mantel-Haenszel||Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||27.7|-1.6|0.0788
82603635|NCT02116621|164923366|SUPERIORITY||Adjusted difference in differences|1.81|||||TWO_SIDED|95.0|-4.41|8.02|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 13 weeks.|||8.02|-4.41|
82603636|NCT02116621|164923367|SUPERIORITY||Adjusted difference in differences|0.16|||||TWO_SIDED|95.0|-1.47|1.79|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||1.79|-1.47|
82603637|NCT02116621|164923368|SUPERIORITY||Adjusted difference in differences|-1.24|||||TWO_SIDED|95.0|-2.77|0.3|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||0.30|-2.77|
82603638|NCT02116621|164923369|SUPERIORITY||Adjusted difference in differences|-0.26|||||TWO_SIDED|95.0|-1.61|1.09|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||1.09|-1.61|
82603639|NCT02116621|164923370|SUPERIORITY||Adjusted difference in differences|0.76|||||TWO_SIDED|95.0|-1.19|2.7|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||2.70|-1.19|
82603640|NCT02116621|164923371|SUPERIORITY||Adjusted difference in differences|0.08|||||TWO_SIDED|95.0|-3.61|3.77|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||3.77|-3.61|
82603641|NCT02116621|164923372|SUPERIORITY||Adjusted difference in differences|-1.91|||||TWO_SIDED|95.0|-9.07|5.26|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||5.26|-9.07|
82603642|NCT02116621|164923373|SUPERIORITY||Adjusted difference in differences|1.53|||||TWO_SIDED|95.0|-2.7|5.77|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||5.77|-2.70|
82603643|NCT02116621|164923374|SUPERIORITY||Adjusted difference in differences|4.13|||||TWO_SIDED|95.0|-6.81|15.07|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||15.07|-6.81|
82603644|NCT02116621|164923375|SUPERIORITY||Adjusted difference in differences|1.0|||||TWO_SIDED|95.0|-4.11|6.11|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||6.11|-4.11|
82603645|NCT02116621|164923376|SUPERIORITY||Adjusted difference in differences|1.11|||||TWO_SIDED|95.0|-5.27|7.48|||||Adjusted difference in differences using mixed effects Gaussian model (Trialist intervention - control) from baseline to 52 weeks.|||7.48|-5.27|
82603646|NCT02116621|164923377|SUPERIORITY||Mean Difference (Final Values)|9.41||||0.054|TWO_SIDED|95.0|-0.15|18.96|||Regression, Linear|||||18.96|-0.15|0.054
82656283|NCT02480764|165028160|OTHER||Odds Ratio (OR)|2.017|STANDARD_ERROR_OF_MEAN|0.4816||0.003|TWO_SIDED|95.0|1.263|3.22||Clinic DBP \<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough DBP as a continuous covariate.|Regression, Logistic|||||3.220|1.263|0.003
82603647|NCT00484315|164923378|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the TAXUS Element stent was to be accepted if the Bayesian posterior probability that the difference in 12-month TLF between TAXUS Element and TAXUS Express was \< 4.1%, given the data, was at least 95%. The sample size of 1264 subjects (resulting in 1200 after accounting for 5% attrition) was determined through simulations based on Bayesian modeling.|Median Difference (Final Values)|-0.57|STANDARD_DEVIATION|0.0155||0.9996|ONE_SIDED|95.0||1.85||The p-value is the posterior probability that the difference in 12-month TLF between TAXUS Element and TAXUS Express was \< 4.1%, given the data observed.|Bayesian modeling||Values are based on the posterior distribution of the difference in TLF rates between TAXUS Element and TAXUS Express. The upper limit is the 1-Sided 95% posterior credible interval, based off the 95th percentile of the posterior distribution.|Bayesian modeling was used to determine if the 12-month TLF rate for the TAXUS Element stent was non-inferior to the 12-month TLF rate in the TAXUS Express2 control. The null hypothesis was that the TAXUS Element TLF rate is at least 4.1% greater than the TAXUS Express TLF rate. The alternative hypothesis was that the TAXUS Element TLF rate is less than 4.1% greater than the TAXUS Express TLF rate.||1.85||0.9996
82603648|NCT00484315|164923379|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the TAXUS Element stent was to be accepted if the Bayesian posterior probability that the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express was \< 0.20, given the data, was at least 95%. The sample size of 330 subjects (resulting in 280 after accounting for 15% attrition) was determined through simulations based on Bayesian modeling.|Mean Difference (Final Values)|-0.0294|STANDARD_DEVIATION|0.08253||0.997|ONE_SIDED|95.0||0.1078||P-value is posterior probability that the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express was \< 0.20, given the data observed. Non-inferiority was concluded, as this probability is greater than 95%.|Bayesian modeling||Based on posterior distribution of the difference in mean ln(9-month percent diameter stenosis) between TAXUS Element and TAXUS Express. Upper limit is 1-Sided 95% posterior credible interval, based off the 95th percentile of posterior distribution.|Natural log (ln) transformation was used to improve normality of the secondary endpoint distribution. Bayesian modeling was used to determine if the mean ln(9-month percent diameter stenosis) for the TAXUS Element stent was non-inferior to the mean ln(9-month %DS) for TAXUS Express. Null hypothesis was that the TAXUS Element mean was at least 0.20 greater than the TAXUS Express mean. Alternative hypothesis was that the TAXUS Element mean is less than 0.20 greater than the TAXUS Express TLF mean.||0.1078||0.9970
82603649|NCT04533711|164923405|SUPERIORITY||Mean Difference (Final Values)|8.35||||0.3086|TWO_SIDED|95.0|-7.68|24.38|||Mixed Models Analysis|||||24.38|-7.68|0.3086
82603650|NCT04533711|164923406|SUPERIORITY||Mean Difference (Final Values)|10.93||||0.182|TWO_SIDED|95.0|-5.06|26.92|||Mixed Models Analysis|||||26.92|-5.06|0.1820
82603651|NCT04533711|164923407|SUPERIORITY||Mean Difference (Final Values)|308.4||||0.094|TWO_SIDED|95.0|-50.2|667.1|||Mixed Models Analysis|||||667.1|-50.2|0.094
82603652|NCT04533711|164923408|SUPERIORITY||Mean Difference (Final Values)|352.0||||0.0691|TWO_SIDED|95.0|-25.2|729.2|||Mixed Models Analysis|||||729.2|-25.2|0.0691
82603653|NCT04533711|164923409|SUPERIORITY||Mean Difference (Final Values)|-5.85||||0.4953|TWO_SIDED|95.0|-22.6|10.94|||Mixed Models Analysis|||||10.94|-22.6|0.4953
82603654|NCT04533711|164923410|SUPERIORITY||Mean Difference (Final Values)|-2.25||||0.8041|TWO_SIDED|95.0|-20.0|15.49|||Mixed Models Analysis|||||15.49|-20.0|0.8041
82603655|NCT04533711|164923411|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.9645|TWO_SIDED|95.0|-2.86|2.99|||Mixed Models Analysis|||||2.99|-2.86|0.9645
82603656|NCT04533711|164923412|SUPERIORITY||Mean Difference (Final Values)|-2.68||||0.0989|TWO_SIDED|95.0|-5.85|0.49|||Mixed Models Analysis|||||0.49|-5.85|0.0989
82603657|NCT04533711|164923413|SUPERIORITY||Mean Difference (Final Values)|0.14||||0.7667|TWO_SIDED|95.0|-0.77|1.05|||Mixed Models Analysis|||||1.05|-0.77|0.7667
82603658|NCT04533711|164923414|SUPERIORITY||Mean Difference (Final Values)|-0.87||||0.0894|TWO_SIDED|95.0|-1.87|0.13|||Mixed Models Analysis|||||0.13|-1.87|0.0894
82603659|NCT00432237|164923500|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603660|NCT00432237|164923500|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603661|NCT00432237|164923501|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603662|NCT00432237|164923501|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603663|NCT00432237|164923502|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603664|NCT00432237|164923502|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603665|NCT00432237|164923503|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603666|NCT00432237|164923503|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603667|NCT00432237|164923504|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603668|NCT00432237|164923504|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603669|NCT00432237|164923505|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603670|NCT00432237|164923505|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603671|NCT00432237|164923506|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82499412|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.086||||90.0|0.101|0.386|||ANCOVA|||Extension Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.386|0.101|
82603672|NCT00432237|164923506|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603673|NCT00432237|164923507|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603674|NCT00432237|164923507|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|P-value constructed using a logistic model adjusting for baseline severity (moderate, severe), region (US, ex-US), treatment and age (continuous).||||||<0.001
82603675|NCT01354132|164923508|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||||||0.50
82603676|NCT01354132|164923509|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.39
82603677|NCT01354132|164923510|SUPERIORITY|||||||0.52|||||||t-test, 2 sided|||||||0.52
82603678|NCT01354132|164923511|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.71
82603679|NCT01354132|164923512|SUPERIORITY|||||||0.022|||||||t-test, 2 sided|||Speed of Processing||||0.022
82603680|NCT01354132|164923513|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||||||0.270
82603681|NCT01354132|164923514|SUPERIORITY|||||||0.153|||||||t-test, 2 sided|||||||0.153
82603682|NCT01354132|164923515|SUPERIORITY|||||||0.876|||||||t-test, 2 sided|||||||0.876
82603683|NCT01354132|164923516|SUPERIORITY|||||||0.464|||||||t-test, 2 sided|||||||0.464
82603684|NCT01354132|164923517|SUPERIORITY|||||||0.741|||||||t-test, 2 sided|||||||0.741
82603685|NCT01354132|164923518|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|||||||0.05
82603686|NCT01354132|164923519|SUPERIORITY|||||||0.33|||||||t-test, 2 sided|||||||0.33
82603687|NCT01354132|164923520|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|||||||0.90
82603688|NCT01354132|164923521|SUPERIORITY|||||||0.6732|||||||t-test, 1 sided|||||||0.6732
82603689|NCT01354132|164923522|SUPERIORITY|||||||0.8786|||||||t-test, 2 sided|||||||0.8786
82603690|NCT01354132|164923523|SUPERIORITY|||||||0.5622|||||||t-test, 2 sided|||||||0.5622
82603691|NCT01354132|164923524|SUPERIORITY|||||||0.9574|||||||t-test, 2 sided|||||||0.9574
82603692|NCT01354132|164923525|SUPERIORITY|||||||0.0043|||||||t-test, 2 sided|||||||0.0043
82603693|NCT01354132|164923526|SUPERIORITY|||||||0.3804|||||||t-test, 2 sided|||||||0.3804
82603694|NCT01354132|164923527|SUPERIORITY|||||||0.9403|||||||t-test, 2 sided|||||||0.9403
82603695|NCT01354132|164923528|SUPERIORITY|||||||0.9215|||||||t-test, 2 sided|||||||0.9215
82603696|NCT00862251|164923551|SUPERIORITY_OR_OTHER_LEGACY||Percent change in least-square means|-14.76|||<|0.001|TWO_SIDED|95.0|-19.61|-9.91|||Longitudinal data analysis (LDA)|||||-9.91|-19.61|<0.001
82603697|NCT00862251|164923552|SUPERIORITY_OR_OTHER_LEGACY||Percent change in Least Square Means|-13.62|||<|0.001|TWO_SIDED|95.0|-20.44|-6.79|||Longitudinal data analysis (LDA)|||||-6.79|-20.44|<0.001
82603698|NCT00862251|164923553|SUPERIORITY_OR_OTHER_LEGACY||Percent change in least squares mean|-15.73|||<|0.001|TWO_SIDED|95.0|-22.65|-8.81|||Longitudinal Data Analysis (LDA)|||||-8.81|-22.65|<0.001
82603699|NCT00862251|164923554|SUPERIORITY_OR_OTHER_LEGACY||Percent Change in Least Squares Means|-3.81||||0.06|TWO_SIDED|95.0|-7.78|0.17|||Longitudinal Data Analysis|||||0.17|-7.78|0.060
82603700|NCT00862251|164923555|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.9|||<|0.001|TWO_SIDED|95.0|2.5|6.2|||Regression, Logistic|||||6.2|2.5|<0.001
82603701|NCT00862251|164923555|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.9|||<|0.001|TWO_SIDED|95.0|1.3|2.6|||Regression, Logistic|||||2.6|1.3|<0.001
82603702|NCT00862251|164923556|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.5|||<|0.001|TWO_SIDED|95.0|2.3|8.5|||Regression, Logistic|||||8.5|2.3|<0.001
82603703|NCT00862251|164923557|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.5|||<|0.001|TWO_SIDED|95.0|1.9|6.6|||Regression, Logistic|||||6.6|1.9|<0.001
82603704|NCT00862251|164923558|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.33|||<|0.001|TWO_SIDED|95.0|-11.38|-5.28|||Longitudinal data analysis (LDA)|||||-5.28|-11.38|<0.001
82603705|NCT00862251|164923558|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.63||||0.039|TWO_SIDED|95.0|-5.13|-0.13|||Longitudinal data analysis (LDA)|||||-0.13|-5.13|0.039
82603706|NCT00862251|164923559|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.88||||0.316|TWO_SIDED|95.0|-8.53|2.77|||Longitudinal data analysis (LDA)|||||2.77|-8.53|0.316
82603707|NCT00862251|164923559|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.16||||0.356|TWO_SIDED|95.0|-6.75|2.43|||Longitudinal data analysis (LDA)|||||2.43|-6.75|0.356
82603708|NCT00862251|164923560|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.47||||0.756|TWO_SIDED|95.0|-2.5|3.45|||Longitudinal data analysis (LDA)|||||3.45|-2.50|0.756
82603709|NCT00862251|164923560|SUPERIORITY_OR_OTHER_LEGACY||Least Sqares Mean Difference|-0.52||||0.675|TWO_SIDED|95.0|-2.96|1.92|||Longitudinal data analysis (LDA)|||||1.92|-2.96|0.675
82603710|NCT00862251|164923561|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.62|||<|0.001|TWO_SIDED|95.0|-15.93|-7.31|||Longitudinal data analysis (LDA)|||||-7.31|-15.93|<0.001
82603711|NCT00862251|164923561|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.18||||0.078|TWO_SIDED|95.0|-6.71|0.35|||Longitudinal data analysis (LDA)|||||0.35|-6.71|0.078
82603712|NCT00862251|164923562|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-14.16|||<|0.001|TWO_SIDED|95.0|-20.23|-8.1|||Longitudinal data analysis (LDA)|||||-8.10|-20.23|<0.001
82603713|NCT00862251|164923562|SUPERIORITY_OR_OTHER_LEGACY||Least Sqares Mean Difference|-2.56||||0.313|TWO_SIDED|95.0|-7.53|2.41|||Longitudinal data analysis (LDA)|||||2.41|-7.53|0.313
82603714|NCT00862251|164923563|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.17|||<|0.001|TWO_SIDED|95.0|-12.1|-4.23|||Longitudinal data analysis (LDA)|||||-4.23|-12.10|<0.001
82603715|NCT00862251|164923563|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.83||||0.266|TWO_SIDED|95.0|-5.05|1.4|||Longitudinal data analysis (LDA)|||||1.40|-5.05|0.266
82603716|NCT00862251|164923564|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-11.45|||<|0.001|TWO_SIDED|95.0|-17.16|-5.75|||Longitudinal data analysis (LDA)|||||-5.75|-17.16|<0.001
82603717|NCT00862251|164923564|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.13||||0.371|TWO_SIDED|95.0|-6.81|2.54|||Longitudinal data analysis (LDA)|||||2.54|-6.81|0.371
82603718|NCT00862251|164923565|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.01|||<|0.001|TWO_SIDED|95.0|-11.46|-4.56|||Longitudinal data analysis (LDA)|||||-4.56|-11.46|<0.001
82603719|NCT00862251|164923565|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.95||||0.041|TWO_SIDED|95.0|-5.78|-0.12|||Longitudinal data analysis (LDA)|||||-0.12|-5.78|0.041
82603720|NCT00862251|164923566|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.57||||0.218|TWO_SIDED|95.0|-0.93|4.06|||Longitudinal data analysis (LDA)|||||4.06|-0.93|0.218
82603721|NCT00862251|164923566|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.22||||0.832|TWO_SIDED|95.0|-2.27|1.83|||Longitudinal data analysis (LDA)|||||1.83|-2.27|0.832
82603722|NCT00862251|164923567|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.91|||<|0.001|TWO_SIDED|95.0|-13.36|-4.47|||Longitudinal data analysis (LDA)|||||-4.47|-13.36|<0.001
82603723|NCT00862251|164923567|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.52||||0.175|TWO_SIDED|95.0|-6.17|1.13|||Longitudinal data analysis (LDA)|||||1.13|-6.17|0.175
82603724|NCT00862251|164923568|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.78||||0.749|TWO_SIDED|95.0|-19.88|14.32|||Longitudinal data analysis (LDA)|||||14.32|-19.88|0.749
82603725|NCT00862251|164923568|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|4.69||||0.494|TWO_SIDED|95.0|-8.73|18.1|||Longitudinal data analysis (LDA)|||||18.10|-8.73|0.494
82603726|NCT05617521|164923571|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients||||||0.008||||||The comparative analysis of the CIT was previously subjected to normality evaluation by the Shapiro-Wilk test. According to the rejection of normal distribution, comparative data analysis has been performed with a two-way Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||||||0.008
82603727|NCT05617521|164923572|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients.|||||<|0.001||||||For the comparison of abdominal pressure, Pearson chi-square test was used. The statistical significance level was accepted as p \<0.05|Chi-squared|||||||<0.001
82603728|NCT05617521|164923573|SUPERIORITY||||||<|0.001||||||The comparative analysis of the CIL was previously subjected to normality evaluation by the Shapiro-Wilk test. According to the rejection of normal distribution, comparative data analysis has been performed with a two-way Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||||||<0.001
82603729|NCT05617521|164923574|SUPERIORITY|||||||0.321|||||||Chi-squared|||||||0.321
82603730|NCT05617521|164923575|SUPERIORITY|||||||0.75|||||||Fisher Exact|||||||0.75
82603731|NCT05617521|164923576|SUPERIORITY|||||||0.005|||||||Chi-squared|||||||0.005
82603732|NCT05617521|164923577|OTHER|||||||0.8|||||||Fisher Exact|||||||0.8
82603733|NCT05617521|164923579|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82603734|NCT05617521|164923580|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603735|NCT05617521|164923581|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82603736|NCT05617521|164923582|SUPERIORITY|Sample size was assessed over the primary outcome of the study based on pre-experimental data estimation. It was calculated that 142 participants were needed to detect a 60-second difference in CIT, with 90% power and two-side alpha 0.05. It was found that 186 participants were needed to detect a 20% reduction in the use of ancillary maneuvers. As a preventive measure in case of withdrawal or exclusion, the sample was expanded by 10%, a total of 206 patients.||||||0.01||||||For the comparison of position change, Pearson chi-square test was used. The statistical significance level was accepted as p \<0.05|Chi-squared|||||||0.01
82603737|NCT05617521|164923583|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82603738|NCT00891995|164923584|SUPERIORITY_OR_OTHER|||||||0.49||||||One-sided p-value.|ANCOVA|Adjusted for baseline C-peptide AUC, age, gender and diabetic ketoacidosis.||||||0.49
82603739|NCT00891995|164923587|SUPERIORITY_OR_OTHER|||||||0.4||||||One-sided p-value|ANCOVA|Adjusted for baseline A1c, age, gender and Diabetic ketoacidosis||||||0.40
82603740|NCT02054702|164923594|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in PANSS total score from baseline to week 6 for brexpiprazole.||||<0.0001
82603741|NCT02054702|164923594|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in PANSS total score from baseline to week 6 for aripiprazole.||||<0.0001
82603742|NCT02054702|164923595|SUPERIORITY_OR_OTHER|||||||0.4244|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test composite battery score from baseline to week 6 for brexpiprazole.||||0.4244
82603743|NCT02054702|164923595|SUPERIORITY_OR_OTHER|||||||0.7623|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test composite battery score from baseline to week 6 for aripiprazole.||||0.7623
82603744|NCT02054702|164923596|SUPERIORITY_OR_OTHER|||||||0.8759|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery of early phase battery score from baseline to week 6 for aripiprazole.||||0.8759
82603745|NCT02054702|164923596|SUPERIORITY_OR_OTHER|||||||0.2176|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery of early phase battery score from baseline to week 6 for aripiprazole.||||0.2176
82603746|NCT02054702|164923597|SUPERIORITY_OR_OTHER|||||||0.842|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of GML from baseline to week 6 for brexpiprazole.||||0.8420
82603747|NCT02054702|164923597|SUPERIORITY_OR_OTHER|||||||0.3781|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of GML from baseline to week 6 for aripiprazole.||||0.3781
82603748|NCT02054702|164923598|SUPERIORITY_OR_OTHER|||||||0.1807|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of detection task from baseline to week 6 for brexpiprazole.||||0.1807
82603749|NCT02054702|164923598|SUPERIORITY_OR_OTHER|||||||0.2802|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of detection task from baseline to week 6 for aripiprazole.||||0.2802
82603750|NCT02054702|164923599|SUPERIORITY_OR_OTHER|||||||0.8622|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of identification task from baseline to week 6 for brexpiprazole.||||0.8622
82603751|NCT02054702|164923599|SUPERIORITY_OR_OTHER|||||||0.4848|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of identification task from baseline to week 6 for aripiprazole.||||0.4848
82656284|NCT02480764|165028160|OTHER||Odds Ratio (OR)|1.424|STANDARD_ERROR_OF_MEAN|0.3407||0.14|TWO_SIDED|95.0|0.891|2.276||Clinic SBP\<130 mm Hg and DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.276|0.891|0.140
82603752|NCT02054702|164923600|SUPERIORITY_OR_OTHER|||||||0.8588|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of one card learning task from baseline to week 6 for brexpiprazole.||||0.8588
82603753|NCT02054702|164923600|SUPERIORITY_OR_OTHER|||||||0.9928|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in cognitive test battery score of one card learning task from baseline to week 6 for aripiprazole.||||0.9928
82603754|NCT02054702|164923601|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in CGI-S from baseline to week 6 for brexpiprazole.||||<0.0001
82603755|NCT02054702|164923601|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|Mixed model repeated measures method with model terms: baseline, visit, and baseline by visit interaction.||Statistical analysis is mean change in CGI-S from baseline to week 6 were observed for aripiprazole.||||<0.0001
82603756|NCT02054702|164923604|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||ANCOVA|The analysis of covariance (ANCOVA) model with treatment group and total score at baseline as covariate was used for change from baseline comparisons.||Statistical analysis is mean change in SLOF total score from baseline to week 6 for brexpiprazole.||||<0.0001
82603757|NCT02054702|164923604|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in SLOF total score from baseline to week 6 for aripiprazole.||||<0.0001
82603758|NCT02054702|164923605|SUPERIORITY_OR_OTHER|||||||0.0392|TWO_SIDED||||||ANCOVA|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in BIS-11 item total score from baseline to week 6 for brexpiprazole.||||0.0392
82603759|NCT02054702|164923605|SUPERIORITY_OR_OTHER|||||||0.9716|TWO_SIDED||||||ANCOVA|The ANCOVA model, with treatment group as main effect and total score at baseline as covariate, was used for change from baseline comparisons.||Statistical analysis is mean change in BIS-11 item total score from baseline to week 6 for aripiprazole.||||0.9716
82603760|NCT04258579|164923612|OTHER|Estimation only.|Mean value at 6 weeks|19.13|||||TWO_SIDED|95.0|15.59|22.67||||||||22.67|15.59|
82603761|NCT04258579|164923612|OTHER|Estimation only.|Mean value at 9 weeks|16.87|||||TWO_SIDED|95.0|12.5|21.24||||||||21.24|12.50|
82603762|NCT04258579|164923612|OTHER|Estimation only.|Mean value at 12 weeks|15.0|||||TWO_SIDED|95.0|11.24|18.76||||||||18.76|11.24|
82603763|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 6 weeks, Domain 1|22.1|||||TWO_SIDED|95.0|19.7|24.5||||||||24.50|19.70|
82603764|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 6 weeks, Domain 2|19.9|||||TWO_SIDED|95.0|18.0|21.8||||||||21.80|18.00|
82603765|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 6 weeks, Domain 3|8.93|||||TWO_SIDED|95.0|7.68|10.18||||||||10.18|7.68|
82603766|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 6 weeks, Domain 4|26.63|||||TWO_SIDED|95.0|24.32|28.94||||||||28.94|24.32|
82603767|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 9 weeks, Domain 1|22.53|||||TWO_SIDED|95.0|19.87|25.23||||||||25.23|19.87|
82603768|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 9 weeks, Domain 2|21.0|||||TWO_SIDED|95.0|18.87|23.13||||||||23.13|18.87|
82603769|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 9 weeks, Domain 3|8.69|||||TWO_SIDED|95.0|7.39|9.99||||||||9.99|7.39|
82603770|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 9 weeks, Domain 4|27.38|||||TWO_SIDED|95.0|25.07|29.69||||||||29.69|25.07|
82603771|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 12 weeks, Domain 1|22.62|||||TWO_SIDED|95.0|20.18|25.06||||||||25.06|20.18|
82603772|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 12 weeks, Domain 2|21.58|||||TWO_SIDED|95.0|19.84|23.32||||||||23.32|19.84|
82603773|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 12 weeks, Domain 3|9.19|||||TWO_SIDED|95.0|7.92|10.46||||||||10.46|7.92|
82603774|NCT04258579|164923613|OTHER|Estimation only.|Mean value at 12 weeks, Domain 4|27.81|||||TWO_SIDED|95.0|25.53|30.09||||||||30.09|25.53|
82603775|NCT04258579|164923614|OTHER|Estimation only.|Mean value at baseline|22.45|||||TWO_SIDED|95.0|19.56|25.34||||||||25.34|19.56|
82603776|NCT04258579|164923614|OTHER|Estimation only.|Mean value at 6 weeks|20.53|||||TWO_SIDED|95.0|17.65|23.41||||||||23.41|17.65|
82603777|NCT04258579|164923615|OTHER|Estimation only.|Mean value at baseline, Domain 1|19.89|||||TWO_SIDED|95.0|17.24|22.54||||||||22.54|17.24|
82603778|NCT04258579|164923615|OTHER|Estimation only.|Mean value at baseline, Domain 2|22.46|||||TWO_SIDED|95.0|19.72|25.2||||||||25.20|19.72|
82603779|NCT04258579|164923615|OTHER|Estimation only.|Mean value at baseline, Domain 3|16.0|||||TWO_SIDED|95.0|13.72|18.28||||||||18.28|13.72|
82603780|NCT04258579|164923615|OTHER|Estimation only.|Mean value at baseline, Domain 4|17.79|||||TWO_SIDED|95.0|15.34|20.24||||||||20.24|15.34|
82603781|NCT04258579|164923615|OTHER|Estimation only.|Mean value at 6 weeks, Domain 1|22.79|||||TWO_SIDED|95.0|19.05|26.53||||||||26.53|19.05|
82603782|NCT04258579|164923615|OTHER|Estimation only.|Mean value at 6 weeks, Domain 2|26.7|||||TWO_SIDED|95.0|22.96|30.44||||||||30.44|22.96|
82603783|NCT04258579|164923615|OTHER|Estimation only.|Mean value at 6 weeks, Domain 3|17.45|||||TWO_SIDED|95.0|14.57|20.33||||||||20.33|14.57|
82603784|NCT04258579|164923615|OTHER|Estimation only.|Mean value at 6 weeks, Domain 4|20.69|||||TWO_SIDED|95.0|18.23|23.15||||||||23.15|18.23|
82603785|NCT02388295|164923618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.24||0.13|ONE_SIDED|||||Not adjusted|ANOVA||larger negative values (powered to detect -0.50)|Change from baseline within treatment arm||||0.13
82603786|NCT02388295|164923618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.25||0.91|ONE_SIDED|||||not adjusted|ANOVA||larger negative values (powered to detect -0.50)|Change from baseline||||0.91
82603787|NCT02388295|164923618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.25||0.68|ONE_SIDED||||||ANOVA|no adjustments|larger negagtive values (powereed to detect -0.50)|Change from baseline||||0.68
82603788|NCT02388295|164923618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.34||0.32|TWO_SIDED|||||no adjustment|ANOVA||Looking for negative direction to indicate treatment better than placebo|Secondary objective - comparison to placebo||||0.32
82603789|NCT02388295|164923618|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.36||0.45|TWO_SIDED|||||no adjustment|ANOVA||lookin for negative difference compared to placebo|Secondary objective||||0.45
82603790|NCT02076165|164923635|SUPERIORITY||||||=|0.12|||||||Fisher Exact|||Percentage of participants who completed all 5 treatment sessions, comparing ABC-I to CBT-I.||||=.120
82603791|NCT02076165|164923636|SUPERIORITY||Mean Difference (Final Values)|-0.711|STANDARD_ERROR_OF_MEAN|3.59|=|0.843|TWO_SIDED|95.0|-7.75|6.32|||Mixed Models Analysis||The average deviation, in minutes, between the recommended and actual bed time. Negative values indicate the number of minutes earlier than the recommended bed time that the participant went to bed, indicating greater non-adherence.|||6.32|-7.75|=.843
82603792|NCT02076165|164923637|SUPERIORITY||Mean Difference (Final Values)|-2.78|STANDARD_ERROR_OF_MEAN|5.17|=|0.59|TWO_SIDED|95.0|-12.91|7.35|||Mixed Models Analysis||The average deviation, in minutes, between the recommended and actual rise time. Positive values indicate the number of minutes later than the recommended rise time that the participant got out of bed, indicating greater non-adherence.|||7.35|-12.91|=0.590
82603793|NCT02076165|164923638|SUPERIORITY||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.048|=|0.979|TWO_SIDED|95.0|-0.093|0.096|||Mixed Models Analysis||The proportion of nights participants who did not follow the recommendation to get out of bed if awake more than 20 minutes. Higher numbers indicate greater non-adherence.|||0.096|-0.093|=0.979
82603794|NCT02076165|164923639|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For sleep diary estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.409|STANDARD_ERROR_OF_MEAN|2.02|=|0.004|TWO_SIDED|90.0|-2.92|3.74|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||3.74|-2.92|=0.004
82603795|NCT02076165|164923640|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For sleep diary estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.757|STANDARD_ERROR_OF_MEAN|2.12||0.003|TWO_SIDED|90.0|-2.72|4.23|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||4.23|-2.72|.003
82603796|NCT02076165|164923641|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For actigraphically-estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|0.68|STANDARD_ERROR_OF_MEAN|1.15|<|0.001|TWO_SIDED|90.0|-1.21|2.57|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||2.57|-1.21|<0.001
82603797|NCT02076165|164923642|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). For actigraphically-estimated sleep efficiency, this represents a difference of 5%.|Mean Difference (Net)|1.11|STANDARD_ERROR_OF_MEAN|1.37|<|0.001|TWO_SIDED|90.0|-1.14|3.36|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||3.36|-1.14|<.001
82603798|NCT02076165|164923643|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). With respect to ISI, this represents a 2 point difference between the treatment effects.|Mean Difference (Net)|0.501|STANDARD_ERROR_OF_MEAN|0.9|=|0.048|TWO_SIDED|90.0|-0.98|1.98|||Mixed Models Analysis||The parameter estimate is the improvement in the ISI score from baseline to post-treatment for ABCI group versus the same improvement in the CBTI group.|||1.98|-0.98|=0.048
82656285|NCT02480764|165028160|OTHER||Odds Ratio (OR)|1.769|STANDARD_ERROR_OF_MEAN|0.4136||0.015|TWO_SIDED|95.0|1.118|2.797||Clinic SBP\<130 mm Hg and DBP\<80 mm Hg: P-value was calculated using logistic regression model with treatment group as a fixed effect and baseline trough SBP as a continuous covariate.|Regression, Logistic|||||2.797|1.118|0.015
82603799|NCT02076165|164923644|NON_INFERIORITY|We elected to use a value of δ equivalent to an effect size of d=0.40. (i.e., 4/10ths SD). With respect to ISI, this represents a 2 point difference between the treatment effects.|Mean Difference (Net)|-0.57|STANDARD_ERROR_OF_MEAN|1.06|=|0.008|TWO_SIDED|90.0|-2.32|1.17|||Mixed Models Analysis||The parameter estimate is the improvement in the ISI score from baseline to 3-month follow-up for ABCI group versus the same improvement in the CBTI group.|||1.17|-2.32|=0.008
82603800|NCT02706938|164923664|OTHER|One tail paired t test.|Mean Difference (Final Values)|1.3267|STANDARD_DEVIATION|2.1604||0.0002|TWO_SIDED|95.0|0.6263|2.027||A priori threshold for statistical significance was 0.05|t-test, 1 sided|||||2.0270|0.6263|0.0002
82603801|NCT02706938|164923664|OTHER|McNemar's chi squared statistic|Risk Difference (RD)|-0.359||||0.0082|TWO_SIDED|95.0|-0.6255|-0.0924||A priori threshold for statistical significance was 0.05|McNemar|||||-0.0924|-0.6255|0.0082
82603802|NCT02706938|164923665|OTHER|One tail paired t test.|Mean Difference (Final Values)|-6.9131|STANDARD_DEVIATION|32.5093||0.099|TWO_SIDED|95.0|-17.5987|3.7724||A priori threshold for statistical significance was 0.05|t-test, 1 sided|||||3.7724|-17.5987|0.099
82603803|NCT02706938|164923665|OTHER|McNemar's chi squared statistic|Risk Difference (RD)|-0.0263||||0.8084|TWO_SIDED|95.0|-0.2651|0.2125||A priori threshold for statistical significance was 0.05|McNemar|||||0.2125|-0.2651|0.8084
82603804|NCT03377634|164923680|OTHER|Analysis of covariance on change in PROMIS Pain intensity, with group as fixed effect and controlling for baseline pain intensity||||||0.11|||||||ANCOVA|||||||0.11
82603805|NCT03377634|164923681|OTHER|Analysis of covariance on change in PROMIS pain interference, with group as fixed effect and controlling for baseline pain interference||||||0.99|||||||ANCOVA|||||||.99
82603806|NCT03377634|164923682|OTHER|Analysis of covariance on change in SPPB, with group as fixed effect and controlling for baseline SPPB||||||0.14|||||||ANCOVA|||||||.14
82656286|NCT01868009|165028169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The response was analyzed and adjusted for study inhaler use sequence and preference question version. The method accounted for participants who indicated no preference.|Cochran-Mantel-Haenszel|||||||<0.001
82603807|NCT03377634|164923683|OTHER|Analysis of covariance on change in weight, with group as fixed effect and controlling for baseline weight||||||0.11|||||||ANCOVA|||||||.11
82603808|NCT03377634|164923684|OTHER|Analysis of covariance on change in activity time, with group as fixed effect and controlling for baseline stepping time||||||0.65|||||||ANCOVA|||||||.65
82603809|NCT03377634|164923685|OTHER|Analysis of covariance on change in sitting time, with group as fixed effect and controlling for baseline sitting time||||||0.41|||||||ANCOVA|||||||.41
82603810|NCT03377634|164923686|OTHER|Analysis of covariance on change in sit to stand transitions, with group as fixed effect and controlling for baseline transitions||||||0.28|||||||ANCOVA|||||||.28
82603811|NCT01171612|164923703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.086||||0.479|TWO_SIDED|95.0|0.513|2.299|||Chi-squared|||Reference group were patients who maintained antiplatelet drugs (aspirin and/or clopidogrel) during the 4 days before surgery||2.299|0.513|0.479
82603812|NCT01171612|164923703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.638||||0.479|TWO_SIDED|95.0|0.733|3.662|||Chi-squared|||||3.662|0.733|0.479
82603813|NCT01957137|164923734|SUPERIORITY_OR_OTHER|||||||0.3773|||||||Mixed Models Analysis|The final model included cycling, period and the interaction between cycling and period.||||||0.3773
82603814|NCT01957137|164923735|SUPERIORITY_OR_OTHER|||||||0.2396|||||||Mixed Models Analysis|The final model included cycling and period.||||||0.2396
82603815|NCT01957137|164923736|SUPERIORITY_OR_OTHER|||||||0.8874|||||||Mixed Models Analysis|The final model included cycling and period.||||||0.8874
82603816|NCT01656772|164923743|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin d = -0.05. The null hypothesis was to be rejected if Z \> 1.645 or, equivalently, if the corresponding p-value was less than 0.05.||||||0.0405|TWO_SIDED|||||Adjusted to take into account the correlation between multiple PVs on the same subject. The sample estimate of the intraclass correlation coefficient was calculated as the Pearson sample correlation coefficient for all pairs of observations.|Farrington and Manning|||The primary effectiveness endpoint is the successful navigation and EGM recording of each pre-specified pulmonary vein (PV). The RF ablation treatment was not part of the investigational procedure. The null hypothesis was to be tested at the α = 0.05 significance level using a test statistic Z based on the Farrington and Manning likelihood score statistic with adjustment to take into account the correlation between multiple observations (PVs) on the same subject.||||0.0405
82603817|NCT01656772|164923744|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin d= 0.07. The one-sided null hypothesis was to be tested at the α = 0.05 significance level using a standard unpooled asymptotically normal test statistic. The null hypothesis was to be rejected if Z \< -1.7046 or, equivalently, if the corresponding p-value was less than 0.05.||||||0.0441|TWO_SIDED||||||Z-statistic|||||||.0441
82603818|NCT01651780|164923761|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Relative Risk|0.77||||0.2692|TWO_SIDED|95.0|0.48|1.23|||Chi-squared|||||1.23|0.48|0.2692
82603819|NCT01651780|164923762|NON_INFERIORITY_OR_EQUIVALENCE|If non-inferiority was confirmed, then superiority analysis was pursued.|Relative Risk|0.89||||0.4967|TWO_SIDED|95.0|0.64|1.24|||Chi-squared|||||1.24|0.64|0.4967
82603820|NCT01552343|164923804|SUPERIORITY_OR_OTHER|||||||0.0187||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Correlation - no adjustments||||0.0187
82603821|NCT01552343|164923804|SUPERIORITY_OR_OTHER|||||||0.0094||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - baseline # of voids||||0.0094
82603822|NCT01552343|164923804|SUPERIORITY_OR_OTHER|||||||0.0383||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - baseline NI total score||||0.0383
82603823|NCT01552343|164923804|SUPERIORITY_OR_OTHER|||||||0.0133||95.0||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Partial correlation - age category||||0.0133
82603824|NCT01552343|164923804|SUPERIORITY_OR_OTHER|||||||0.0128||95.0|||||t-test, 2 sided|The a priori threshold for statistical significance was 0.05.||Partial correlation - gender||||0.0128
82603825|NCT01552343|164923805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.7|||||TWO_SIDED|95.0|2.7|18.8|||||Non-Responders - Responders|Nocturia Impact (NI) Total Score (Q1-Q11)||18.8|2.7|
82603826|NCT01552343|164923805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-9.6|9.6|||||Non-Responders - Responders|Overall Impact Question (Q12)||9.6|-9.6|
82603827|NCT01552343|164923808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.6||||0.1471|TWO_SIDED|95.0|-20.3|3.1||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Nocturia Impact (NI) Total Score: Screening||3.1|-20.3|0.1471
82603828|NCT01552343|164923808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.6||||0.0318|TWO_SIDED|95.0|-26.0|-1.2||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Nocturia Impact (NI) Total Score: Baseline||-1.2|-26.0|0.0318
82603829|NCT01552343|164923808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.8||||0.0463|TWO_SIDED|95.0|-31.2|-0.3||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Overall Impact Question (Q12): Screening||-0.3|-31.2|0.0463
82603830|NCT01552343|164923808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.7||||0.0413|TWO_SIDED|95.0|-34.6|-0.7||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Overall Impact Question (Q12): Baseline||-0.7|-34.6|0.0413
82603831|NCT01552343|164923809|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.9647|TWO_SIDED|95.0|-6.6|6.3|||ANCOVA|Covariates baseline score, treatment and age stratum (\<65, \>=65).||Treatment effect. NI total scores are transformed to a 0-100 scale where 0 is good and 100 bad.||6.3|-6.6|0.9647
82603832|NCT03952559|164923839|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7261|TWO_SIDED|95.0|0.58|2.21|||Regression, Logistic|||||2.21|0.58|0.7261
82603833|NCT03952559|164923839|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0718|TWO_SIDED|95.0|0.95|3.41|||Regression, Logistic|||||3.41|0.95|0.0718
82603834|NCT03952559|164923839|SUPERIORITY||Odds Ratio (OR)|3.73|||<|0.0001|TWO_SIDED|95.0|2.02|6.89|||Regression, Logistic|||||6.89|2.02|<0.0001
82603835|NCT03952559|164923842|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9615|TWO_SIDED|95.0|0.59|1.74|||Regression, Logistic|||||1.74|0.59|0.9615
82656287|NCT01691248|165028180|SUPERIORITY_OR_OTHER||Percentage Difference|2.2||||0.2778|TWO_SIDED|95.0|-5.1|9.5||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||9.5|-5.1|0.2778
82656288|NCT01691248|165028181|SUPERIORITY_OR_OTHER||Percentage difference|0.6||||0.442|TWO_SIDED|95.0|-7.1|8.2||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||8.2|-7.1|0.4420
82656289|NCT01691248|165028182|SUPERIORITY_OR_OTHER||Percentage difference|1.9||||0.3091|TWO_SIDED|95.0|-5.5|9.2||1-sided Wald test for a difference in proportions using an unpooled estimate of variance.|One-sided Wald p-value||Placebo minus Fidaxomicin|||9.2|-5.5|0.3091
82603836|NCT03952559|164923842|SUPERIORITY||Odds Ratio (OR)|1.42||||0.201|TWO_SIDED|95.0|0.83|2.41|||Regression, Logistic|||||2.41|0.83|0.2010
82603837|NCT03952559|164923842|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0017|TWO_SIDED|95.0|1.38|3.95|||Regression, Logistic|||||3.95|1.38|0.0017
82603838|NCT03952559|164923843|SUPERIORITY||Odds Ratio (OR)|0.93||||0.8544|TWO_SIDED|95.0|0.43|2.01|||Regression, Logistic|||||2.01|0.43|0.8544
82603839|NCT03952559|164923843|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0561|TWO_SIDED|95.0|0.98|3.91|||Regression, Logistic|||||3.91|0.98|0.0561
82603840|NCT03952559|164923843|SUPERIORITY||Odds Ratio (OR)|2.99||||0.0012|TWO_SIDED|95.0|1.54|5.82|||Regression, Logistic|||||5.82|1.54|0.0012
82603841|NCT03952559|164923844|SUPERIORITY||LS Mean difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|1.349||0.2627|TWO_SIDED|95.0|-4.16|1.14|||Mixed Models Analysis|||||1.14|-4.16|0.2627
82603842|NCT03952559|164923844|SUPERIORITY||LS Mean difference (Final Values)|-1.67|STANDARD_ERROR_OF_MEAN|1.342||0.2135|TWO_SIDED|95.0|-4.31|0.97|||Mixed Models Analysis|||||0.97|-4.31|0.2135
82603843|NCT03952559|164923844|SUPERIORITY||LS Mean difference (Final Values)|-2.72|STANDARD_ERROR_OF_MEAN|1.347||0.0443|TWO_SIDED|95.0|-5.36|-0.07|||Mixed Models Analysis|||||-0.07|-5.36|0.0443
82603844|NCT03952559|164923845|SUPERIORITY||Odds Ratio (OR)|0.73||||0.4943|TWO_SIDED|95.0|0.3|1.78|||Regression, Logistic|||||1.78|0.30|0.4943
82603845|NCT03952559|164923845|SUPERIORITY||Odds Ratio (OR)|1.72||||0.1677|TWO_SIDED|95.0|0.8|3.7|||Regression, Logistic|||||3.70|0.80|0.1677
82603846|NCT03952559|164923845|SUPERIORITY||Odds Ratio (OR)|2.24||||0.0336|TWO_SIDED|95.0|1.06|4.7|||Regression, Logistic|||||4.70|1.06|0.0336
82603847|NCT03952559|164923846|SUPERIORITY||Odds Ratio (OR)|1.07||||0.8866|TWO_SIDED|95.0|0.42|2.77|||Regression, Logistic|||||2.77|0.42|0.8866
82603848|NCT03952559|164923846|SUPERIORITY||Odds Ratio (OR)|1.73||||0.2316|TWO_SIDED|95.0|0.7|4.26|||Regression, Logistic|||||4.26|0.70|0.2316
82603849|NCT03952559|164923846|SUPERIORITY||Odds Ratio, log|2.59||||0.0328|TWO_SIDED|95.0|1.08|6.22|||Regression, Logistic|||||6.22|1.08|0.0328
82603850|NCT03952559|164923847|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5361|TWO_SIDED|95.0|0.7|1.98|||Regression, Logistic|||||1.98|0.70|0.5361
82603851|NCT03952559|164923847|SUPERIORITY||Odds Ratio (OR)|1.23||||0.4417|TWO_SIDED|95.0|0.73|2.06|||Regression, Logistic|||||2.06|0.73|0.4417
82603852|NCT03952559|164923847|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0121|TWO_SIDED|95.0|1.16|3.43|||Regression, Logistic|||||3.43|1.16|0.0121
82603853|NCT03952559|164923848|SUPERIORITY||Odds Ratio (OR)|1.19||||0.7706|TWO_SIDED|95.0|0.37|3.78|||Regression, Logistic|||||3.78|0.37|0.7706
82603854|NCT03952559|164923848|SUPERIORITY||Odds Ratio (OR)|1.22||||0.7409|TWO_SIDED|95.0|0.38|3.86|||Regression, Logistic|||||3.86|0.38|0.7409
82603855|NCT03952559|164923848|SUPERIORITY||Odds Ratio (OR)|3.15||||0.0253|TWO_SIDED|95.0|1.15|8.63|||Regression, Logistic|||||8.63|1.15|0.0253
82603856|NCT03952559|164923849|SUPERIORITY||LS Mean difference (Final Values)|-3.89|STANDARD_ERROR_OF_MEAN|2.576||0.1317|TWO_SIDED|95.0|-8.95|1.17|||Mixed Models Analysis|||||1.17|-8.95|0.1317
82603857|NCT03952559|164923849|SUPERIORITY||LS Mean difference (Final Values)|-5.15|STANDARD_ERROR_OF_MEAN|2.564||0.0451|TWO_SIDED|95.0|-10.19|-0.11|||Mixed Models Analysis|||||-0.11|-10.19|0.0451
82603858|NCT03952559|164923849|SUPERIORITY||LS Mean difference (Final Values)|-7.62|STANDARD_ERROR_OF_MEAN|2.566||0.0031|TWO_SIDED|95.0|-12.66|-2.58|||Mixed Models Analysis|||||-2.58|-12.66|0.0031
82603859|NCT03952559|164923850|SUPERIORITY||Odds Ratio (OR)|0.53||||0.4238|TWO_SIDED|95.0|0.11|2.49|||Regression, Logistic|||||2.49|0.11|0.4238
82603860|NCT03952559|164923850|SUPERIORITY||Odds Ratio (OR)|1.5||||0.5118|TWO_SIDED|95.0|0.44|5.08|||Regression, Logistic|||||5.08|0.44|0.5118
82603861|NCT03952559|164923850|SUPERIORITY||Odds Ratio (OR)|3.92||||0.0129|TWO_SIDED|95.0|1.34|11.52|||Regression, Logistic|||||11.52|1.34|0.0129
82603862|NCT03952559|164923851|SUPERIORITY||LS Mean difference (Final Values)|-1.51|STANDARD_ERROR_OF_MEAN|2.168||0.4852|TWO_SIDED|95.0|-5.77|2.75|||Mixed Models Analysis|||||2.75|-5.77|0.4852
82603863|NCT03952559|164923851|SUPERIORITY||LS Mean difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|2.16||0.4205|TWO_SIDED|95.0|-5.98|2.5|||Mixed Models Analysis|||||2.50|-5.98|0.4205
82603864|NCT03952559|164923851|SUPERIORITY||LS Mean difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.161||0.0138|TWO_SIDED|95.0|-9.59|-1.1|||Mixed Models Analysis|||||-1.10|-9.59|0.0138
82603865|NCT03952559|164923852|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82603866|NCT03952559|164923852|SUPERIORITY|||||||0.54|||||||Fisher Exact|||||||0.540
82603867|NCT03952559|164923852|SUPERIORITY|||||||0.302|||||||Fisher Exact|||||||0.302
82603868|NCT03952559|164923853|SUPERIORITY||LS Mean difference (Final Values)|4.47|STANDARD_ERROR_OF_MEAN|5.03||0.375|TWO_SIDED|95.0|-5.41|14.35|||ANOVA|||||14.35|-5.41|0.375
82603869|NCT03952559|164923853|SUPERIORITY||LS Mean difference (Final Values)|3.12|STANDARD_ERROR_OF_MEAN|5.03||0.536|TWO_SIDED|95.0|-6.76|13.0|||ANOVA|||||13.00|-6.76|0.536
82603870|NCT03952559|164923853|SUPERIORITY||LS Mean difference (Final Values)|12.17|STANDARD_ERROR_OF_MEAN|5.03||0.016|TWO_SIDED|95.0|2.29|22.05|||ANOVA|||||22.05|2.29|0.016
82603871|NCT03952559|164923854|SUPERIORITY||LS Mean difference (Final Values)|-49.19|STANDARD_ERROR_OF_MEAN|27.28||0.073|TWO_SIDED|95.0|-102.81|4.42|||ANOVA|||||4.42|-102.81|0.073
82603872|NCT03952559|164923854|SUPERIORITY||LS Mean difference (Final Values)|-37.38|STANDARD_ERROR_OF_MEAN|27.29||0.172|TWO_SIDED|95.0|-91.0|16.23|||ANOVA|||||16.23|-91.00|0.172
82603873|NCT03952559|164923854|SUPERIORITY||LS Mean difference (Final Values)|-80.37|STANDARD_ERROR_OF_MEAN|27.28||0.004|TWO_SIDED|95.0|-133.98|-26.75|||ANOVA|||||-26.75|-133.98|0.004
82603874|NCT03952559|164923855|SUPERIORITY||LS Mean difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.372||0.0829|TWO_SIDED|95.0|-1.38|0.08|||Mixed Models Analysis|||||0.08|-1.38|0.0829
82603875|NCT03952559|164923855|SUPERIORITY||LS Mean difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.368||0.1752|TWO_SIDED|95.0|-1.22|0.22|||Mixed Models Analysis|||||0.22|-1.22|0.1752
82603876|NCT03952559|164923855|SUPERIORITY||LS Mean difference (Final Values)|-1.1|STANDARD_ERROR_OF_MEAN|0.366||0.0029|TWO_SIDED|95.0|-1.82|-0.38|||Mixed Models Analysis|||||-0.38|-1.82|0.0029
82603877|NCT03952559|164923856|SUPERIORITY||LS Mean difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.193||0.2688|TWO_SIDED|95.0|-0.6|0.17|||Mixed Models Analysis|||||0.17|-0.60|0.2688
82603878|NCT03952559|164923856|SUPERIORITY||LS Mean difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.193||0.0166|TWO_SIDED|95.0|-0.85|-0.09|||Mixed Models Analysis|||||-0.09|-0.85|0.0166
82603879|NCT03952559|164923856|SUPERIORITY||LS Mean difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.202||0.0908|TWO_SIDED|95.0|-0.75|0.06|||Mixed Models Analysis|||||0.06|-0.75|0.0908
82603880|NCT03952559|164923857|SUPERIORITY||LS Mean difference (Final Values)|-0.91|STANDARD_ERROR_OF_MEAN|0.956||0.3409|TWO_SIDED|95.0|-2.79|0.97|||Mixed Models Analysis|||||0.97|-2.79|0.3409
82603881|NCT03952559|164923857|SUPERIORITY||LS Mean difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.952||0.1022|TWO_SIDED|95.0|-3.43|0.31|||Mixed Models Analysis|||||0.31|-3.43|0.1022
82603882|NCT03952559|164923857|SUPERIORITY||LS Mean difference (Final Values)|-1.56|STANDARD_ERROR_OF_MEAN|0.953||0.1024|TWO_SIDED|95.0|-3.43|0.31|||Mixed Models Analysis|||||0.31|-3.43|0.1024
82603883|NCT03952559|164923858|SUPERIORITY||LS Mean difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.157||0.1436|TWO_SIDED|95.0|-0.54|0.08|||Mixed Models Analysis|||||0.08|-0.54|0.1436
82603884|NCT03952559|164923858|SUPERIORITY||LS Mean difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.154||0.0483|TWO_SIDED|95.0|-0.61|0.0|||Mixed Models Analysis|||||-0.00|-0.61|0.0483
82603885|NCT03952559|164923858|SUPERIORITY||LS Mean difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.154||0.0012|TWO_SIDED|95.0|-0.8|-0.2|||Mixed Models Analysis|||||-0.20|-0.80|0.0012
82603886|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|1.755||0.9183|TWO_SIDED|95.0|-3.27|3.63|||Mixed Models Analysis|||for 8 to \<18 years old||3.63|-3.27|0.9183
82603887|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|-1.08|STANDARD_ERROR_OF_MEAN|1.529||0.4805|TWO_SIDED|95.0|-4.09|1.93|||Mixed Models Analysis|||for 8 to \<18 years old||1.93|-4.09|0.4805
82603888|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|1.812||0.3488|TWO_SIDED|95.0|-5.26|1.86|||Mixed Models Analysis|||for 8 to \<18 years old||1.86|-5.26|0.3488
82603889|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|3.12||0.2388|TWO_SIDED|95.0|-4.85|7.66|||Mixed Models Analysis|||for 5 to \<8 years old||7.66|-4.85|0.2388
82603890|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|3.542||0.0098|TWO_SIDED|95.0|-10.23|3.98|||Mixed Models Analysis|||for 5 to \<8 years old||3.98|-10.23|0.0098
82603891|NCT03952559|164923859|SUPERIORITY||LS Mean difference (Final Values)|1.12|STANDARD_ERROR_OF_MEAN|3.14||0.1698|TWO_SIDED|95.0|-5.18|7.42|||Mixed Models Analysis|||for 5 to \<8 years old||7.42|-5.18|0.1698
82603892|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|1.813||0.8611|TWO_SIDED|95.0|-3.24|3.88|||Mixed Models Analysis|||for 8 to \<18 years old||3.88|-3.24|0.8611
82603893|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|1.571||0.5098|TWO_SIDED|95.0|-4.12|2.05|||Mixed Models Analysis|||for 8 to \<18 years old||2.05|-4.12|0.5098
82603894|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.87||0.1997|TWO_SIDED|95.0|-6.08|1.27|||Mixed Models Analysis|||for 8 to \<18 years old||1.27|-6.08|0.1997
82603895|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|3.351||0.1957|TWO_SIDED|95.0|-5.11|8.35|||Mixed Models Analysis|||for 5 to \<8 years old||8.35|-5.11|0.1957
82603896|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|3.864||0.0881|TWO_SIDED|95.0|-8.19|7.32|||Mixed Models Analysis|||for 5 to \<8 years old||7.32|-8.19|0.0881
82603897|NCT03952559|164923860|SUPERIORITY||LS Mean difference (Final Values)|1.51|STANDARD_ERROR_OF_MEAN|3.379||0.1604|TWO_SIDED|95.0|-5.27|8.28|||Mixed Models Analysis|||for 5 to \<8 years old||8.28|-5.27|0.1604
82603898|NCT03952559|164923861|SUPERIORITY||LS Mean difference (Final Values)|-0.67|STANDARD_ERROR_OF_MEAN|0.647||0.2987|TWO_SIDED|95.0|-1.93|0.59|||Mixed Models Analysis|||||0.59|-1.93|0.2987
82603899|NCT03952559|164923861|SUPERIORITY||LS Mean difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.632||0.3096|TWO_SIDED|95.0|-1.88|0.6|||Mixed Models Analysis|||||0.60|-1.88|0.3096
82603900|NCT03952559|164923861|SUPERIORITY||LS Mean difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.635||0.6341|TWO_SIDED|95.0|-1.55|0.95|||Mixed Models Analysis|||||0.95|-1.55|0.6341
82603901|NCT03952559|164923862|SUPERIORITY||LS Mean difference (Final Values)|5.27|STANDARD_ERROR_OF_MEAN|4.323||0.2871|TWO_SIDED|95.0|-6.54|17.09|||Mixed Models Analysis|||||17.09|-6.54|0.2871
82603902|NCT03952559|164923862|SUPERIORITY||LS Mean difference (Final Values)|4.73|STANDARD_ERROR_OF_MEAN|3.835||0.3093|TWO_SIDED|95.0|-7.83|17.29|||Mixed Models Analysis|||||17.29|-7.83|0.3093
82603903|NCT03952559|164923862|SUPERIORITY||LS Mean difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|3.788||0.2912|TWO_SIDED|95.0|-18.22|8.21|||Mixed Models Analysis|||||8.21|-18.22|0.2912
82603904|NCT03952559|164923863|SUPERIORITY|Absenteeism Change from Baseline|LS Mean difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|3.119||0.6079|TWO_SIDED|95.0|-7.74|4.54|||Mixed Models Analysis|||||4.54|-7.74|0.6079
82603905|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-1.85|STANDARD_ERROR_OF_MEAN|3.092||0.5492|TWO_SIDED|95.0|-7.94|4.24|||Mixed Models Analysis|||Absenteeism Change from Baseline||4.24|-7.94|0.5492
82603906|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-4.93|STANDARD_ERROR_OF_MEAN|3.281||0.1338|TWO_SIDED|95.0|-11.39|1.53|||Mixed Models Analysis|||Absenteeism Change from Baseline||1.53|-11.39|0.1338
82498982|NCT02289417|164688933|SUPERIORITY||Stratified Difference|24.8||||0.0046|TWO_SIDED|95.0|7.5|40.1|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||40.1|7.5|0.0046
82603907|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-0.94|STANDARD_ERROR_OF_MEAN|3.566||0.7928|TWO_SIDED|95.0|-7.96|6.08|||Mixed Models Analysis|||Presenteeism Change from Baseline||6.08|-7.96|0.7928
82603908|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|3.553||0.1366|TWO_SIDED|95.0|-12.3|1.69|||Mixed Models Analysis|||Presenteeism Change from Baseline||1.69|-12.30|0.1366
82603909|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-6.75|STANDARD_ERROR_OF_MEAN|3.792||0.076|TWO_SIDED|95.0|-14.21|0.71|||Mixed Models Analysis|||Presenteeism Change from Baseline||0.71|-14.21|0.0760
82603910|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-4.18|STANDARD_ERROR_OF_MEAN|4.561||0.3602|TWO_SIDED|95.0|-13.16|4.8|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||4.80|-13.16|0.3602
82603911|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-6.25|STANDARD_ERROR_OF_MEAN|4.516||0.1678|TWO_SIDED|95.0|-15.14|2.65|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||2.65|-15.14|0.1678
82603912|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-11.54|STANDARD_ERROR_OF_MEAN|4.808||0.017|TWO_SIDED|95.0|-21.0|-2.08|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-2.08|-21.00|0.0170
82603913|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-4.42|STANDARD_ERROR_OF_MEAN|3.174||0.1645|TWO_SIDED|95.0|-10.66|1.82|||Mixed Models Analysis|||Activity Impairment Change from Baseline||1.82|-10.66|0.1645
82603914|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-4.87|STANDARD_ERROR_OF_MEAN|3.158||0.124|TWO_SIDED|95.0|-11.07|1.34|||Mixed Models Analysis|||Activity Impairment Change from Baseline||1.34|-11.07|0.1240
82603915|NCT03952559|164923863|SUPERIORITY||LS Mean difference (Final Values)|-7.02|STANDARD_ERROR_OF_MEAN|3.163||0.027|TWO_SIDED|95.0|-13.23|-0.8|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-0.80|-13.23|0.0270
82603916|NCT03952559|164923864|SUPERIORITY||LS Mean difference (Final Values)|1.97|STANDARD_ERROR_OF_MEAN|2.778||0.4778|TWO_SIDED|95.0|-3.49|7.43|||Mixed Models Analysis|||||7.43|-3.49|0.4778
82603917|NCT03952559|164923864|SUPERIORITY||LS Mean difference (Final Values)|2.01|STANDARD_ERROR_OF_MEAN|2.743||0.4649|TWO_SIDED|95.0|-3.38|7.39|||Mixed Models Analysis|||||7.39|-3.38|0.4649
82603918|NCT03952559|164923864|SUPERIORITY||LS Mean difference (Final Values)|4.52|STANDARD_ERROR_OF_MEAN|2.755||0.1013|TWO_SIDED|95.0|-0.89|9.94|||Mixed Models Analysis|||||9.94|-0.89|0.1013
82603919|NCT03952559|164923865|SUPERIORITY||LS Mean difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.174||0.6574|TWO_SIDED|95.0|-0.27|0.42|||Mixed Models Analysis|||||0.42|-0.27|0.6574
82603920|NCT03952559|164923865|SUPERIORITY||LS Mean difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.172||0.9488|TWO_SIDED|95.0|-0.35|0.33|||Mixed Models Analysis|||||0.33|-0.35|0.9488
82603921|NCT03952559|164923865|SUPERIORITY||LS Mean difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.172||0.4546|TWO_SIDED|95.0|-0.47|0.21|||Mixed Models Analysis|||||0.21|-0.47|0.4546
82603922|NCT03952559|164923866|SUPERIORITY||LS Mean difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.36||0.8133|TWO_SIDED|95.0|-0.79|0.62|||Mixed Models Analysis|||||0.62|-0.79|0.8133
82603923|NCT03952559|164923866|SUPERIORITY||LS Mean difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.355||0.2517|TWO_SIDED|95.0|-1.11|0.29|||Mixed Models Analysis|||||0.29|-1.11|0.2517
82603924|NCT03952559|164923866|SUPERIORITY||LS Mean difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.354||0.0803|TWO_SIDED|95.0|-1.32|0.08|||Mixed Models Analysis|||||0.08|-1.32|0.0803
82603925|NCT01870739|164923891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0616||||0.7324|TWO_SIDED|95.0|-0.4178|0.2947|||Linear Model|Treatment as fixed effect and corresponding baseline as covariate.||||0.2947|-0.4178|0.7324
82603926|NCT01870739|164923892|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0371||||0.8614|TWO_SIDED|95.0|-0.4582|0.3839|||Linear Model|Treatment as a fixed effect and corresponding baseline as a covariate||||0.3839|-0.4582|0.8614
82603927|NCT01870739|164923893|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.0812||||0.7946|TWO_SIDED|95.0|-0.6987|0.5362|||Linear Model|Treatment as a fixed effect and corresponding baseline as a covariate||||0.5362|-0.6987|0.7946
82603928|NCT01986062|164923901|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603929|NCT01986062|164923902|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603930|NCT01986062|164923903|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603931|NCT01986062|164923904|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603932|NCT01986062|164923905|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603933|NCT01986062|164923906|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82603934|NCT01565980|164923918|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P-values for the comparison of least square (LS) means represent the effect of the trial arm. The effect sizes are calculated as Cohen's d: difference between LS means divided by the standard deviation.|Mixed Models Analysis|||The outcome measure was analyzed using linear mixed effects models (LME). The main effect of the trial arm was evaluated by averaging time 2 and time 3 values of the outcomes within the LME model. The resulting least square (LS) means and their standard errors are reported.||||<.05
82603935|NCT01565980|164923919|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
82603936|NCT01565980|164923920|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<.05
82603937|NCT01565980|164923921|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
82603938|NCT01565980|164923922|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
82603939|NCT01565980|164923923|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values below 0.05 are considered statistically significant in this study.|Mixed Models Analysis|||||||<0.05
82603940|NCT01565980|164923924|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||P values above 0.05 are considered statistically insignificant in this study.|Descriptive statistics for outcomes|||||||<0.05
82492232|NCT00680017|164677696|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||"P values were based on 2 sided tests. Tests resulting in P values less than or equal to 0.050 (when rounded) were reported as statistically significant. No adjustments made for multiple comparisons since only 1 secondary endpoint comparison."|ANCOVA|P-value obtained from an ANCOVA with corresponding baseline value as the covariate and an effect for treatment group.||The null hypothesis was that percent change in HDL-C from baseline to Week 8 in the ABT-335 45 mg plus rosuvastatin 5 mg treatment group is equal to percent change in HDL-C from baseline to Week 8 in the rosuvastatin 5 mg plus placebo treatment group. A sample size of 140 participants per treatment group was used to provide 82% power to detect a difference between the combination therapy arm and the rosuvastatin monotherapy arm in the percent change from Baseline to Week 8 in HDL-C.||||<0.001
82492233|NCT02165215|164677697|SUPERIORITY||Adjusted difference in response rates|7.7||||0.1942|TWO_SIDED|95.0|-4.2|19.2|||Cochran-Mantel-Haenszel|||||19.2|-4.2|0.1942
82603941|NCT00288574|164923937|SUPERIORITY|||||||0.57|||||||Chi-squared|||The proportion of patients successfully completing the trial in the fluoxetine and placebo groups was compared using the chi-squared statistic.||||0.57
82603942|NCT00288574|164923938|SUPERIORITY|||||||0.75||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in body weight, in fluoxetine vs placebo groups.||||0.75
82603943|NCT00288574|164923939|SUPERIORITY|||||||0.007||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment of BDI in fluoxetine versus placebo groups||||0.007
82603944|NCT00288574|164923940|SUPERIORITY|||||||0.79||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in BDI, in fluoxetine vs placebo groups.||||0.79
82603945|NCT00288574|164923941|SUPERIORITY|||||||0.69||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in RSES, in fluoxetine vs placebo groups.||||0.69
82603946|NCT00288574|164923942|SUPERIORITY|||||||0.78||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Q-LES-Q, in fluoxetine vs placebo groups.||||0.78
82603947|NCT00288574|164923943|SUPERIORITY|||||||0.19||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Drive for Thinness subscale, in fluoxetine vs placebo groups.||||0.19
82603948|NCT00288574|164923944|SUPERIORITY|||||||0.46||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment in Bulimia subscale, in fluoxetine vs placebo groups.||||0.46
82603949|NCT00288574|164923945|SUPERIORITY|||||||0.86||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment on Body Dissatisfaction subscale, in fluoxetine vs placebo groups.||||0.86
82603950|NCT00288574|164923946|SUPERIORITY|||||||0.25||||||Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.|Mixed Models Analysis|||Random effects regression analysis of change during treatment on Perfectionism subscale, in fluoxetine vs placebo groups.||||0.25
82603951|NCT00288574|164923947|SUPERIORITY|||||||0.26|||||||Mixed Models Analysis|Reported p values of secondary measures were not corrected for multiple comparisons. The Bonferroni corrected level of significance is \<0.005.||Random effects regression analysis of change during treatment on the YBC-EDS, in fluoxetine vs placebo groups.||||0.26
82603952|NCT01817790|164923962|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.36||||0.0024|TWO_SIDED|95.0|-0.59|-0.13||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in Daily rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.13|-0.59|0.0024
82603953|NCT01817790|164923963|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.33||||0.0057|TWO_SIDED|95.0|-0.56|-0.1||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.10|-0.56|0.0057
82603954|NCT01817790|164923964|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.41||||0.0009||95.0|-0.65|-0.17||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM rTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.17|-0.65|0.0009
82603955|NCT01817790|164923965|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0117|TWO_SIDED|95.0|-0.19|-0.02||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye itching/burning between the Fluticasone nasal spray and the placebo nasal spray.||-0.02|-0.19|0.0117
82603956|NCT01817790|164923966|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.15||||0.0005||95.0|-0.23|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye itching/burning between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.23|0.0005
82603957|NCT01817790|164923967|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.13||||0.0023||95.0|-0.22|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye Tearing/Watering between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.22|0.0023
82603958|NCT01817790|164923968|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.18|||<|0.0001||95.0|-0.26|-0.09||p-value was nor adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye Tearing/watering between the Fluticasone nasal spray and the placebo nasal spray.||-0.09|-0.26|<0.0001
82603959|NCT01817790|164923969|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0304||95.0|-0.18|-0.01||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM reflective symptom scores for Eye Redness between the Fluticasone nasal spray and the placebo nasal spray.||-0.01|-0.18|0.0304
82603960|NCT01817790|164923970|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.1||||0.0361||95.0|-0.19|-0.01||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in PM reflective symptom scores for Eye Redness between the Fluticasone nasal spray and the placebo nasal spray.||-0.01|-0.19|0.0361
82492234|NCT02165215|164677698|SUPERIORITY||Adjusted difference in remission rates|14.6||||0.1524|TWO_SIDED|95.0|-5.55|33.15||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||33.15|-5.55|0.1524
82603961|NCT01817790|164923971|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.28||||0.0129|TWO_SIDED|95.0|-0.5|-0.06||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in AM iTOSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.06|-0.50|0.0129
82603962|NCT01817790|164923972|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.14||||0.0002|TWO_SIDED|95.0|-0.22|-0.07||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in rNCSS between the Fluticasone nasal spray and the placebo nasal spray.||-0.07|-0.22|0.0002
82603963|NCT01817790|164923973|SUPERIORITY_OR_OTHER|||||||0.0118||95.0||||p-value was not adjusted for multiple comparisons.|Cochran-Mantel-Haenszel|Using this test controlling for investigative site. The response variable lied on ordinal scale of measurement.||Null hypothesis was that no difference exists in the end of treatment assessment of response between the Fluticasone nasal spray and the placebo nasal spray.||||0.0118
82603964|NCT01817790|164923974|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.01||||0.8586|TWO_SIDED|95.0|-0.12|0.1|||ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in objective assessment of conjunctival redness between the Fluticasone nasal spray and the placebo nasal spray.||0.10|-0.12|0.8586
82603965|NCT01817790|164923975|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.29||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in MiniRQLQ scores between the Fluticasone nasal spray and the placebo nasal spray.||-0.29|-0.65|<0.0001
82492235|NCT02165215|164677699|SUPERIORITY||Adjusted difference in remission rates|8.7||||0.1466|TWO_SIDED|95.0|-3.26|20.21||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||20.21|-3.26|0.1466
82603966|NCT01817790|164923976|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.49|||<|0.0001|TWO_SIDED|95.0|-0.68|-0.3||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Activities' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray||-0.30|-0.68|<0.0001
82603967|NCT01817790|164923977|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.64|-0.24||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Practical Problems' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.24|-0.64|<0.0001
82603968|NCT01817790|164923978|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.73|-0.33||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Nose Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.33|-0.73|<0.0001
82603969|NCT01817790|164923979|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.44|||<|0.0001|TWO_SIDED|95.0|-0.65|-0.23||p-value was not adjusted for multiple comparisons.|ANCOVA|Linear Fixed-effect Model; Treatment and site as fixed factors and baseline score as covariate.||Null hypothesis was that no difference exists in the mean change from baseline in 'Eye Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.23|-0.65|<0.0001
82603970|NCT01817790|164923980|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.64|-0.21||p-value was not adjusted for multiple comparisons.|ANCOVA|||Null hypothesis was that no difference exists in the mean change from baseline in 'Other Symptoms' domain of MiniRQLQ scores between the Flutical sone nasal spray and placebo nasal spray.||-0.21|-0.64|<0.0001
82603971|NCT00891202|164924000|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-30.03|STANDARD_ERROR_OF_MEAN|3.35|<|0.0001|TWO_SIDED|95.0|-36.82|-23.24|||ANCOVA|||Analysis was performed using analysis of covariance (ANCOVA) model fitted with treatment and baseline spleen severity (low spleen severity: spleen volume less than or equal to \[\<=\] 20 multiples of normal spleen volume, high spleen severity: spleen volume greater than \[\>\] 20 multiples of normal spleen volume).||-23.24|-36.82|<0.0001
82603972|NCT03532100|164924052|SUPERIORITY|||||||0.029|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.029
82603973|NCT03532100|164924052|SUPERIORITY|||||||0.047||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 3:1||||0.047
82603974|NCT03532100|164924052|SUPERIORITY|||||||0.016||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 2:1||||0.016
82603975|NCT03532100|164924052|SUPERIORITY|||||||0.34|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.340
82656290|NCT02777528|165028204|OTHER|Performance goal tested using Exact method calculation to estimate the 95% one-sided lower confidence level (95% LCL) on the proportion of participants with primary endpoint success. If the 95% LCL exceeded 0.60, then the null hypothesis was to be rejected and the PG was met.|95% Exact Lower Confidence Limit|0.745|||||TWO_SIDED|||||||||"Primary endpoint success was defined as the proportion of analysis-eligible participants without a primary endpoint event and with 1-Month imaging performed.~Results were tested against a performance goal (PG) of 0.60 (i.e. 60%), derived from outcomes from a systematic review of hybrid TEVAR repair literature.~Additionally, using a one-sided alpha of 0.05 and Exact Test, minimum power of 80%, the sample needed was 50 patients."||||
82492236|NCT02165215|164677700|SUPERIORITY||Adjusted difference in remission rates|10.9||||0.3083||95.0|-9.72|30.49||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||30.49|-9.72|0.3083
82603976|NCT03532100|164924052|SUPERIORITY|||||||0.04|||||||Regression, Linear|||Hypothesis testing for the association between outcome and coupling ratio was carried out using conditional F-tests with degrees of freedom estimated using the Kenward-Roger method.||||0.040
82492237|NCT02165215|164677701|SUPERIORITY||Adjusted difference in response rates|14.4||||0.0235|TWO_SIDED|95.0|1.84|26.28||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||26.28|1.84|0.0235
82603977|NCT03532100|164924052|SUPERIORITY|||||||0.036||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 3:1||||0.036
82603978|NCT03532100|164924052|SUPERIORITY|||||||0.028||||||Pairwise hypothesis testing was carried out with adjustments for multiple comparisons using Tukey's method.|Regression, Linear|||6:1 versus 2:1||||0.028
82603979|NCT02338843|164924072|SUPERIORITY||Odds Ratio (OR)|7.95|||<|0.001|TWO_SIDED|95.0|4.76|13.3|||Regression, Logistic|Stratified logistic regression model. Adjusted by baseline MAP and APACHE II, vasopressin use and average NED 6 hours prior to randomization.||||13.3|4.76|<0.001
82603980|NCT01252966|164924080|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69||||0.14|TWO_SIDED|95.0|0.42|1.13|||Regression, Logistic|||Longitudinal logistic regression with fitted generalized estimating equations (GEE) was used to estimate an overall treatment effect odds ratio including both the EOT and 6-month time points and relevant covariates (e.g., baseline smoking rate, age, Shipley IQ score). The study (n=213) had 80% power to detect small to medium effects on quit rates (corresponding to Cohen's one-sample d=0.38).||1.13|0.42|0.14
82603981|NCT01252966|164924082|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.30
82603982|NCT01252966|164924083|SUPERIORITY_OR_OTHER|||||||0.3|||||||Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.30
82603983|NCT01252966|164924084|SUPERIORITY_OR_OTHER|||||||0.033||||||Results would not survive correction for multiple hypothesis testing.|Regression, Linear|||Multiple regression models were used to estimate effects of treatment on change in cognitive performance. Age, Shipley IQ score, number of cigarettes smoked per day at baseline, and EOT smoking status were included as covariates.||||0.033
82603984|NCT03275870|164924094|OTHER|||||||0.042||||||p value \<0.05 used as threshold for significance|t-test, 2 sided|||||||0.042
82603985|NCT03275870|164924095|OTHER|||||||0.213||||||P value of \<0.05 used as threshold for significance|t-test, 2 sided|||||||0.213
82603986|NCT02747927|164924111|OTHER||VE|80.2|||<|0.001|TWO_SIDED|95.0|73.3|85.3||Statistical significance was concluded if the lower bound of the 95% CI for the VE was above 25%. Since the hypotheses was tested in a confirmatory manner at a 2-sided significance level of 5%, the calculated p-value was compared with 0.025.|Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Assuming true VE of 60% and, virologically confirmed cases of dengue fever induced by any dengue serotype occurring from 30 days post 2nd vaccination (Day 120) until end of Part 1 would provide at least 90% power to rule out vaccine effect of ≤25%.||85.3|73.3|<0.001
82603987|NCT02747927|164924112|OTHER||VE|90.4|||<|0.001|TWO_SIDED|95.0|82.6|94.7||Statistical significance was concluded if the lower bound of the 95% CI for the VE was above 0%. Since the hypotheses was tested in a confirmatory manner at a 2-sided significance level of 5%, the calculated p-value was compared with 0.025.|Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||94.7|82.6|<0.001
82603988|NCT02747927|164924113|OTHER||VE|69.8|||||TWO_SIDED|95.0|54.8|79.9|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||79.9|54.8|
82603989|NCT02747927|164924113|OTHER||VE|95.1|||||TWO_SIDED|95.0|89.9|97.6|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||97.6|89.9|
82603990|NCT02747927|164924113|OTHER||VE|48.8|||||TWO_SIDED|95.0|27.1|64.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||64.1|27.1|
82656291|NCT00890981|165028206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7||||0.0766||95.0|-0.4|7.8|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms with treatment-by-time interaction||7.8|-0.4|0.0766
82656292|NCT00890981|165028207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1648||95.0|-0.6|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|-0.6|0.1648
82656293|NCT00890981|165028208|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.0228||95.0|0.1|1.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms but without treatment-by-time interaction.||1.7|0.1|0.0228
82603991|NCT02747927|164924113|OTHER||VE|50.9|||||TWO_SIDED|95.0|-69.7|85.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||85.8|-69.7|
82603992|NCT02747927|164924114|OTHER||VE|66.2|||||TWO_SIDED|95.0|49.1|77.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||77.5|49.1|
82603993|NCT02747927|164924115|OTHER||VE|76.1|||||TWO_SIDED|95.0|68.5|81.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||81.9|68.5|
82656294|NCT00890981|165028209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7||||0.656||95.0|-2.5|4.0|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model includes linear, quadratic and cubic time terms but without treatment-by-time interaction.||4.0|-2.5|0.6560
82656295|NCT00890981|165028210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8||||0.0594||95.0|-0.1|3.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.7|-0.1|0.0594
82603994|NCT02747927|164924116|OTHER||VE|2.2|||||TWO_SIDED|95.0|-978.5|91.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||91.1|-978.5|
82603995|NCT02747927|164924125|OTHER||VE|47.4|||||TWO_SIDED|95.0|37.1|56.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region|||56.0|37.1|
82603996|NCT02747927|164924126|OTHER||VE|55.7|||||TWO_SIDED|95.0|34.5|70.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||70.0|34.5|
82603997|NCT02747927|164924127|OTHER||VE|73.5|||||TWO_SIDED|95.0|56.3|83.9|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||83.9|56.3|
82603998|NCT02747927|164924128|OTHER||VE|93.7|||||TWO_SIDED|95.0|72.4|98.6|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||98.6|72.4|
82603999|NCT02747927|164924129|OTHER||VE|79.4|||||TWO_SIDED|95.0|70.1|85.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||85.9|70.1|
82604000|NCT02747927|164924130|OTHER||VE|76.8|||||TWO_SIDED|95.0|57.1|87.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||87.4|57.1|
82604001|NCT02747927|164924130|OTHER||VE|85.7|||||TWO_SIDED|95.0|69.9|93.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||93.2|69.9|
82604002|NCT02747927|164924130|OTHER||VE|62.0|||||TWO_SIDED|95.0|-69.7|91.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||91.5|-69.7|
82604003|NCT02747927|164924130|OTHER||VE|77.2|||||TWO_SIDED|95.0|54.8|88.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||88.5|54.8|
82604004|NCT02747927|164924131|OTHER||VE|79.2|||||TWO_SIDED|95.0|57.8|89.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||89.7|57.8|
82604005|NCT02747927|164924131|OTHER||VE|86.0|||||TWO_SIDED|95.0|57.6|95.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||95.4|57.6|
82604006|NCT02747927|164924131|OTHER||VE|89.9|||||TWO_SIDED|95.0|13.5|98.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||98.8|13.5|
82604007|NCT02747927|164924131|OTHER||VE|42.7|||||TWO_SIDED|95.0|-307.5|92.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||92.0|-307.5|
82604008|NCT02747927|164924131|OTHER||VE|61.0|||||TWO_SIDED|95.0|-45.1|89.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||89.5|-45.1|
82604009|NCT02747927|164924132|OTHER||VE|79.6|||||TWO_SIDED|95.0|68.3|86.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||86.9|68.3|
82604010|NCT02747927|164924132|OTHER||VE|69.9|||||TWO_SIDED|95.0|36.4|85.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||85.8|36.4|
82604011|NCT02747927|164924132|OTHER||VE|84.9|||||TWO_SIDED|95.0|66.6|93.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||93.2|66.6|
82604012|NCT02747927|164924132|OTHER||VE|75.6|||||TWO_SIDED|95.0|-168.8|97.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||97.8|-168.8|
82604013|NCT02747927|164924132|OTHER||VE|81.0|||||TWO_SIDED|95.0|57.2|91.6|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||91.6|57.2|
82656296|NCT00890981|165028211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0032||95.0|0.9|4.3|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||4.3|0.9|0.0032
82656297|NCT00890981|165028212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4||||0.2897||95.0|-0.4|1.2|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear, quadratic and cubic time terms but without treatment-by-time interaction.||1.2|-0.4|0.2897
82492238|NCT02165215|164677702|SUPERIORITY||Adjusted difference in remission rates|12.8||||0.0293||95.0|1.13|23.89||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.89|1.13|0.0293
82604014|NCT02747927|164924133|OTHER||VE|93.8|||||TWO_SIDED|95.0|79.3|98.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||98.1|79.3|
82604015|NCT02747927|164924134|OTHER||VE|100.0|||||TWO_SIDED|95.0|-849.4|100.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||100.0|-849.4|
82604016|NCT02747927|164924135|OTHER||VE|67.2|||||TWO_SIDED|95.0|52.1|77.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||77.5|52.1|
82604017|NCT02747927|164924136|OTHER||VE|56.5|||||TWO_SIDED|95.0|16.2|77.4|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||77.4|16.2|
82604018|NCT02747927|164924136|OTHER||VE|86.6|||||TWO_SIDED|95.0|63.8|95.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||95.0|63.8|
82604019|NCT02747927|164924136|OTHER||VE|51.5|||||TWO_SIDED|95.0|9.9|73.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||73.9|9.9|
82604020|NCT02747927|164924136|OTHER||VE|85.5|||||TWO_SIDED|95.0|47.4|96.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||96.0|47.4|
82604021|NCT02747927|164924137|OTHER||VE|70.3|||||TWO_SIDED|95.0|39.1|85.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||85.5|39.1|
82604022|NCT02747927|164924137|OTHER||VE|57.3|||||TWO_SIDED|95.0|-27.2|85.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||85.7|-27.2|
82604023|NCT02747927|164924137|OTHER||VE|90.0|||||TWO_SIDED|95.0|14.0|98.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||98.8|14.0|
82604024|NCT02747927|164924137|OTHER||VE|36.1|||||TWO_SIDED|95.0|-138.1|82.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||82.9|-138.1|
82604025|NCT02747927|164924137|OTHER||VE|100.0|||||TWO_SIDED|95.0|43.1|100.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||100.0|43.1|
82604026|NCT02747927|164924138|OTHER||VE|65.7|||||TWO_SIDED|95.0|46.4|78.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||78.1|46.4|
82604027|NCT02747927|164924138|OTHER||VE|56.2|||||TWO_SIDED|95.0|0.8|80.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||80.7|0.8|
82604028|NCT02747927|164924138|OTHER||VE|85.1|||||TWO_SIDED|95.0|54.4|95.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||95.2|54.4|
82604029|NCT02747927|164924138|OTHER||VE|54.7|||||TWO_SIDED|95.0|8.3|77.6|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||77.6|8.3|
82604030|NCT02747927|164924138|OTHER||VE|75.5|||||TWO_SIDED|95.0|2.2|93.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||93.9|2.2|
82604031|NCT02747927|164924139|OTHER||VE|84.9|||||TWO_SIDED|95.0|53.7|95.1|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||95.1|53.7|
82604032|NCT02747927|164924141|OTHER||VE|74.3|||||TWO_SIDED|95.0|66.6|80.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||80.3|66.6|
82492239|NCT02165215|164677703|SUPERIORITY||Adjusted difference in remission rates|19.8||||0.0075|TWO_SIDED|95.0|5.16|33.11||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||33.11|5.16|0.0075
82604033|NCT02747927|164924142|OTHER||VE|69.0|||||TWO_SIDED|95.0|51.7|80.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||80.0|51.7|
82604034|NCT02747927|164924142|OTHER||VE|85.9|||||TWO_SIDED|95.0|74.5|92.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||92.2|74.5|
82604035|NCT02747927|164924142|OTHER||VE|54.1|||||TWO_SIDED|95.0|19.1|73.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||73.9|19.1|
82492240|NCT02165215|164677704|SUPERIORITY||Adjusted difference in remission rates|9.9||||0.1415||95.0|-4.47|23.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.13|-4.47|0.1415
82492241|NCT02165215|164677705|SUPERIORITY||Adjusted difference in remission rates|9.9||||0.1415||95.0|-4.47|23.13||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||23.13|-4.47|0.1415
82604036|NCT02747927|164924142|OTHER||VE|79.4|||||TWO_SIDED|95.0|62.4|88.7|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||88.7|62.4|
82604037|NCT02747927|164924143|OTHER||VE|75.3|||||TWO_SIDED|95.0|59.3|85.0|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||85.0|59.3|
82604038|NCT02747927|164924143|OTHER||VE|76.5|||||TWO_SIDED|95.0|50.0|88.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||88.9|50.0|
82604039|NCT02747927|164924143|OTHER||VE|89.9|||||TWO_SIDED|95.0|53.7|97.8|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||97.8|53.7|
82604040|NCT02747927|164924143|OTHER||VE|37.9|||||TWO_SIDED|95.0|-84.9|79.2|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||79.2|-84.9|
82604041|NCT02747927|164924143|OTHER||VE|78.4|||||TWO_SIDED|95.0|29.7|93.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-4||93.3|29.7|
82604042|NCT02747927|164924144|OTHER||VE|73.9|||||TWO_SIDED|95.0|64.4|80.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|Any Dengue Serotype||80.9|64.4|
82604043|NCT02747927|164924144|OTHER||VE|64.1|||||TWO_SIDED|95.0|37.8|79.3|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-1||79.3|37.8|
82604044|NCT02747927|164924144|OTHER||VE|84.9|||||TWO_SIDED|95.0|71.1|92.1|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-2||92.1|71.1|
82604045|NCT02747927|164924144|OTHER||VE|58.1|||||TWO_SIDED|95.0|18.5|78.5|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|DENV-3||78.5|18.5|
82604046|NCT02747927|164924144|OTHER||VE|79.7|||||TWO_SIDED|95.0|59.1|89.9|||Cox Proportional Hazard Model||VE and 95% CIs was estimated from Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||89.9|59.1|
82604047|NCT02747927|164924145|OTHER||VE|90.6|||||TWO_SIDED|95.0|78.8|95.8|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||95.8|78.8|
82604048|NCT02747927|164924146|OTHER||VE|100.0|||||TWO_SIDED|95.0|-849.4|100.0|||Cox Proportional Hazard Model||VE and two-sided 95% CIs are estimated from a Cox proportional hazard model with investigational product as a factor, adjusted for age, and stratified by region.|||100.0|-849.4|
82604049|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Bland-Altman for repeated measures|-0.16|STANDARD_DEVIATION|0.47|||TWO_SIDED|95.0|-1.1|0.77||||||Arterial outlet-nasopharyngeal temperatures||0.77|-1.10|
82604050|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.16|STANDARD_DEVIATION|0.4|||TWO_SIDED|95.0|-0.63|0.95|||Bland-Altman|||Arterial-venous inflow temperatures||0.95|-0.63|
82604051|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|-0.62|STANDARD_DEVIATION|0.69|||TWO_SIDED|95.0|-1.98|0.74|||Bland-Altman|||Arterial outlet-bladder||0.74|-1.98|
82604052|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.08|STANDARD_DEVIATION|0.74|||TWO_SIDED|95.0|-1.38|1.54|||Bland-Altman|||Arterial outlet- Tcore||1.54|-1.38|
82604053|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|0.53|||TWO_SIDED|95.0|-0.73|1.38||||||Nasopharyngeal-venous inflow temperatures||1.38|-0.73|
82604054|NCT04355013|164924161|OTHER|Agreement between different methods of temperature measurement (Bland-Altman plot with multiple measurements per individual).|Mean Difference (Final Values)|-0.46|STANDARD_DEVIATION|0.52|||TWO_SIDED|95.0|-1.5|0.59||||||Nasopharyngeal-bladder temperatures||0.59|-1.50|
82492242|NCT02165215|164677706|SUPERIORITY||Difference in Least Square Means|-2.8||||0.0266|TWO_SIDED|95.0|-5.3|-0.4||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-0.4|-5.3|0.0266
82604055|NCT04355013|164924161|OTHER|Bland-Altman for repeated measures|Bland-Altman for repeated measures|0.24|STANDARD_DEVIATION|0.58|||TWO_SIDED|95.0|-0.9|1.39||||||Nasopharyngeal-Tcore temperatures||1.39|-0.90|
82604056|NCT03293654|164924174|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.28|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.18|1.39|||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.|||1.39|1.18|
82604057|NCT03293654|164924174|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.12|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.03|1.22|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator.|||1.22|1.03|
82604058|NCT03293654|164924174|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25. The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.14|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.05|1.24|||||Ratio of GLSM, EU is the numerator and US Avastin acts as the denominator|||1.24|1.05|
82604059|NCT03293654|164924175|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.16|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.09|1.22|||||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator|1.22|1.09|
82604060|NCT03293654|164924175|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.16|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.09|1.22|||||MB02 represents the numerator and EU Avastin represents the denominator|||1.22|1.09|
82604061|NCT03293654|164924175|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.07|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.0|1.13|||||EU Avastin corresponds to the numerator and US Avastin corresponds to the denominator|||1.13|1|
82604062|NCT03293654|164924182|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.02|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.962|1.07|||||MB02 in numerator and EU Avastin in denominator|||1.07|0.962|
82604063|NCT03293654|164924182|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.06|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.996|1.13|||||MB02 is numerator and US Avastin is denominator|||1.13|0.996|
82604064|NCT03293654|164924182|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.983|1.11|||||EU Avastin in the numerator and US Avastin in the denominator|||1.11|0.983|
82604065|NCT03293654|164924183|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.02|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.969|1.07|||||MB02: EU Avastin|||1.07|0.969|
82604066|NCT03293654|164924183|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.06|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.998|1.12|||||MB02: US Avastin|||1.12|0.998|
82604067|NCT03293654|164924183|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.04|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.981|1.1|||||EU Avastin: US Avastin|||1.1|0.981|
82604068|NCT03293654|164924184|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|0.986|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|0.903|1.08|||||MB02: EU Avastin|||1.08|0.903|
82604069|NCT03293654|164924184|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.1|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.01|1.19|||||MB02: US Avastin|||1.19|1.01|
82656298|NCT00890981|165028213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9||||0.0067||95.0|1.1|6.7|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||6.7|1.1|0.0067
82604070|NCT03293654|164924184|EQUIVALENCE|Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25. The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate.|Ratio of GLSM|1.12|STANDARD_DEVIATION|0.05|||TWO_SIDED|90.0|1.02|1.22|||||EU Avastin: US Avastin|||1.22|1.02|
82656299|NCT00890981|165028214|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.0184||95.0|0.4|3.8|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.8|0.4|0.0184
82604071|NCT01933932|164924191|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93||||0.4355|TWO_SIDED|95.0|0.77|1.12|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.12|0.77|0.4355
82604072|NCT01933932|164924192|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.05||||0.6431|TWO_SIDED|95.0|0.85|1.3|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.30|0.85|0.6431
82656300|NCT00890981|165028215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.0911||95.0|-0.3|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|-0.3|0.0911
82656301|NCT00890981|165028216|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.1||||0.0035||95.0|0.7|3.5|||ANCOVA|||An analysis of covariance model was fit with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||3.5|0.7|0.0035
82656302|NCT00890981|165028217|SUPERIORITY_OR_OTHER||Ratio of Denosumab to Placebo|1.1||||0.0591||95.0|1.0|1.3|||ANCOVA|||ANCOVA based on the log transformed actual values with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||1.3|1.0|0.0591
82604073|NCT01933932|164924193|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.61||||0.0515|TWO_SIDED|95.0|1.0|2.62|||Regression, Logistic|Analysis stratified by WHO performance status at randomisation||||2.62|1.00|0.0515
82604074|NCT01933932|164924195|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.5007|TWO_SIDED|95.0|0.74|1.86|||Regression, Logistic|Analysis stratified by WHO performance status at randomisation||||1.86|0.74|0.5007
82604075|NCT01933932|164924196|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.3438|TWO_SIDED|95.0|0.74|1.11|||Log Rank|Analysis stratified by WHO performance status at randomisation.||||1.11|0.74|0.3438
82604076|NCT02275533|164924203|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.38|TWO_SIDED|95.0|0.54|1.56||One-sided p-value|Log Rank|||||1.56|0.54|0.38
82604077|NCT02275533|164924204|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.23|TWO_SIDED|95.0|0.4|1.51||One-sided p-value|Log Rank|||||1.51|0.40|0.23
82604078|NCT02275533|164924206|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82604079|NCT02157883|164924216|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Upper bound of the 90% CIs below 200%.|Geometric mean ratio|79.87|||||TWO_SIDED|90.0|73.15|87.21|||||AZD9291+itraconazole / AZD9291 alone. Results based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||87.21|73.15|
82604080|NCT02157883|164924217|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Upper bound of the 90% CIs below 200%.|Geometric mean ratio|124.17|||||TWO_SIDED|90.0|114.61|134.53|||||AZD9291+itraconazole / AZD9291 alone. Results based on linear mixed-effects model with treatment as fixed effect and patient as a random effect.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||134.53|114.61|
82604081|NCT02157883|164924224|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|75.87|||||TWO_SIDED|90.0|64.18|89.69|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||89.69|64.18|
82656303|NCT00890981|165028218|SUPERIORITY_OR_OTHER||Ratio of Denosumab to Placebo|1.2||||0.0079||95.0|1.0|1.3|||ANCOVA|||ANCOVA based on the log transformed actual values with main effects for randomized treatment in study 20050179, baseline value, time since last subcutaneous dose of denosumab or placebo in study 20050179 as a continuous variable, and the age stratification from 20050179. Model included linear time term but without treatment-by-time interaction.||1.3|1.0|0.0079
82656304|NCT00453362|165028219|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.017|TWO_SIDED|95.0|0.11|0.87||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Non-Responders.|The null hypothesis is that there is no difference in PFS between FDG Responders and FDG Non-Responders. The alternative hypothesis is that FDG Responders would have prolonged PFS compared with FDG Non-Responders.||0.87|0.11|0.017
82656305|NCT00453362|165028221|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.076|TWO_SIDED|95.0|0.06|1.42||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Progressive Disease.|The null hypothesis is that there is no difference in PFS between FDG Responders and FDG Progressive Disease. The alternative hypothesis is that FDG Responders would have a prolonged PFS compared to FDG Progressive Disease.||1.42|0.06|0.076
82656306|NCT00453362|165028223|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.17||||0.008|TWO_SIDED|95.0|0.04|0.73||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Non-Responders.|The null hypothesis is that there is no difference in PFS between FLT Responders and FLT Non-Responders. The alternative hypothesis is that FLT Responders would have prolonged PFS compared with FLT Non-Responders.||0.73|0.04|0.008
82656307|NCT00453362|165028224|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank|||The null hypothesis is that there is no difference between FLT Responders and FLT Progressive Disease. Alternative hypothesis is that FLT responders would have prolonged PFS compared to FLT Progressive Disease.||||0.049
82656308|NCT00453362|165028225|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.36||||0.073|TWO_SIDED|95.0|0.11|1.16||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Non-Responders.|The null hypothesis is that there is no difference in OS between FDG Responders and FDG Non-Responders. The alternative hypothesis is that FDG responders would have prolonged OS compared with FDG Non-Responders.||1.16|0.11|0.073
82656309|NCT00453362|165028228|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.618|TWO_SIDED|95.0|0.14|3.21||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FDG Progressive Disease.|The null hypothesis is that there is no difference in Overall Survival between FDG Responders and FDG Progressive Disease. The alternative hypothesis is that FDG Responders would have prolonged OS compared with FDG Progressive Disease.||3.21|0.14|0.618
82604082|NCT02157883|164924225|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|108.25|||||TWO_SIDED|90.0|94.36|124.19|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||124.19|94.36|
82604083|NCT02157883|164924226|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|44.33|||||TWO_SIDED|90.0|39.94|49.21|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||49.21|39.94|
82492243|NCT02165215|164677707|SUPERIORITY||Difference in Least Square Means|-1.2||||0.0175|TWO_SIDED|95.0|-2.2|-0.2||p-value has not been adjusted for multiplicity|Cochran-Mantel-Haenszel|||||-0.2|-2.2|0.0175
82656310|NCT00453362|165028229|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.38||||0.163|TWO_SIDED|95.0|0.09|1.57||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Non-Responders.|The null hypothesis is that there is no difference in OS between FLT Responders and FLT Non-Responders. The alternative hypothesis is that FLT Responders would have prolonged OS compared with FLT Non-Responders.||1.57|0.09|0.163
82604084|NCT02157883|164924227|SUPERIORITY_OR_OTHER_LEGACY||Geometric mean ratio|49.02|||||TWO_SIDED|90.0|43.7|54.99|||||AZD9291+itraconazole / AZD9291 alone. No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|Study sized so experiment-wise power for the upper bound of the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being below 200% was 90% (95% for each parameter). Within patient CV assumed to be 34%. A 50% increase in exposure was also assumed.||54.99|43.70|
82604085|NCT03155997|164924238|SUPERIORITY||Hazard Ratio (HR)|0.747||||0.00957|TWO_SIDED|95.0|0.598|0.932|||Log Rank|Stratified by Interactive Web Response Systems (IWRS) Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|Stratified by IWRS Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|||0.932|0.598|0.00957
82604086|NCT03155997|164924240|SUPERIORITY||Hazard Ratio (HR)|0.717|||||TWO_SIDED|95.0|0.559|0.92|||||Stratified by IWRS Geographical Region, IWRS Prior Treatment, IWRS Menopausal Status|||0.920|0.559|
82604087|NCT01111305|164924255|EQUIVALENCE|Equivalence is defined as p≥0.05||||||0.028|||||||Wilcoxon (Mann-Whitney)|||||||0.028
82604088|NCT03371355|164924300|SUPERIORITY||Mean Difference in % CFB|-24.0||||0.0343|TWO_SIDED|95.0|-41.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-2|-41|0.0343
82604089|NCT03371355|164924300|SUPERIORITY||Mean Difference in % CFB|-44.0|||<|0.0001|TWO_SIDED|95.0|-56.0|-28.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-28|-56|<0.0001
82604090|NCT03371355|164924300|SUPERIORITY||Mean Difference in % CFB|-37.0||||0.0009|TWO_SIDED|95.0|-52.0|-17.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|||-17|-52|0.0009
82604091|NCT03371355|164924301|SUPERIORITY||Least Squares Mean Difference|-49.87|||<|0.0001|TWO_SIDED|95.0|-62.68|-37.06|||ANCOVA|||||-37.06|-62.68|<0.0001
82604092|NCT03371355|164924301|SUPERIORITY||Least Squares Mean Difference|-71.66|||<|0.0001|TWO_SIDED|95.0|-84.47|-58.85|||ANCOVA|||||-58.85|-84.47|<0.0001
82604093|NCT03371355|164924301|SUPERIORITY||Least Squares Mean Difference|-59.74|||<|0.0001|TWO_SIDED|95.0|-74.04|-45.44|||ANCOVA|||||-45.44|-74.04|<0.0001
82604094|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-16.5||||0.0327|TWO_SIDED|95.0|-31.59|-1.39|||ANCOVA|||TC||-1.39|-31.59|0.0327
82656311|NCT00453362|165028230|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.35||||0.327|TWO_SIDED|95.0|0.04|3.16||This comparison is for hypothesis generation, rather than hypothesis testing. Thus the p-value is not adjusted for multiple comparisons, and the interpretation of p-value should be with caution.|Log Rank||The hazard ratio was estimated using a Cox Proportional Hazard Model. The hazard ratio is relative to FLT Progressive Disease.|The null hypothesis is that there is no difference in OS between FLT Responders and FLT Progressive Disease. The alternative hypothesis is that FLT Responders would have prolonged OS compared with FLT Progressive Disease.||3.16|0.04|0.327
82492244|NCT02165215|164677708|SUPERIORITY||Difference in Adjusted Mean|2.1||||0.6331|TWO_SIDED|95.0|-6.6|10.8||p-value has not been adjusted for multiplicity|ANCOVA|||||10.8|-6.6|0.6331
82604095|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-37.0|||<|0.0001|TWO_SIDED|95.0|-52.15|-21.94|||ANCOVA|||TC||-21.94|-52.15|<0.0001
82604096|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-31.6||||0.0003|TWO_SIDED|95.0|-48.23|-15.05|||ANCOVA|||TC||-15.05|-48.23|0.0003
82604097|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|7.5||||0.256|TWO_SIDED|95.0|-5.55|20.54|||ANCOVA|||LDL-C||20.54|-5.55|0.2560
82604098|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-8.6||||0.1795|TWO_SIDED|95.0|-21.26|4.05|||ANCOVA|||LDL-C||4.05|-21.26|0.1795
82604099|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-8.8||||0.2065|TWO_SIDED|95.0|-22.48|4.95|||ANCOVA|||LDL-C||4.95|-22.48|0.2065
82604100|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-2.7||||0.1515|TWO_SIDED|95.0|-6.43|1.01|||ANCOVA|||HDL-C||1.01|-6.43|0.1515
82604101|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-8.6|||<|0.0001|TWO_SIDED|95.0|-12.29|-4.91|||ANCOVA|||HDL-C||-4.91|-12.29|<0.0001
82604102|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-4.1||||0.0436|TWO_SIDED|95.0|-8.18|-0.12|||ANCOVA|||HDL-C||-0.12|-8.18|0.0436
82604103|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-9.1||||0.0224|TWO_SIDED|95.0|-16.94|-1.33|||ANCOVA|||VLDL-C||-1.33|-16.94|0.0224
82604104|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-15.4||||0.0001|TWO_SIDED|95.0|-22.94|-7.84|||ANCOVA|||VLDL-C||-7.84|-22.94|0.0001
82604105|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-10.8||||0.0091|TWO_SIDED|95.0|-18.86|-2.78|||ANCOVA|||VLDL-C||-2.78|-18.86|0.0091
82604106|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-13.9||||0.0748|TWO_SIDED|95.0|-29.12|1.42|||ANCOVA|||Non-HDL-C||1.42|-29.12|0.0748
82492245|NCT01948947|164677730|OTHER||||||<|0.0001|||||||ANOVA|||Change from Baseline to 1-Week Post-Treatment||||<0.0001
82492246|NCT01948947|164677730|OTHER||||||<|0.001|||||||ANOVA|||Change from Baseline to 1-Month Post-Treatment||||<0.001
82604107|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-28.4||||0.0004|TWO_SIDED|95.0|-43.68|-13.18|||ANCOVA|||Non-HDL-C||-13.18|-43.68|0.0004
82604108|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-27.4||||0.0016|TWO_SIDED|95.0|-44.08|-10.64|||ANCOVA|||Non-HDL-C||-10.64|-44.08|0.0016
82604109|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-2.44||||0.6005|TWO_SIDED|95.0|-11.68|6.8|||ANCOVA|||ApoB||6.80|-11.68|0.6005
82604110|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-9.83||||0.0374|TWO_SIDED|95.0|-19.07|-0.59|||ANCOVA|||ApoB||-0.59|-19.07|0.0374
82604111|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-5.28||||0.31|TWO_SIDED|95.0|-15.55|5.0|||ANCOVA|||ApoB||5.00|-15.55|0.3100
82656312|NCT04885296|165028232|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.32|||TWO_SIDED|95.0|-2.2|3.0|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||3.0|-2.2|
82656313|NCT04885296|165028233|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.62|||TWO_SIDED|95.0|-4.0|2.3|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||2.3|-4.0|
82656314|NCT04885296|165028234|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference (Test - Control) was greater than -5. A 5-point increase in an average CLUE score translates into 10% shift in the distribution of scores for population of soft disposable contact lens wearers.|LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|1.61|||TWO_SIDED|95.0|-4.7|1.7|||Linear Mixed Model|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|LS Mean difference was calculated as Test - Control|||1.7|-4.7|
82656315|NCT01882647|165028243|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"Treatment groups were compared with respect to the proportions of subjects with treatment success at Day 15 using the Cochran-Mantel-Haenszel (CMH) test stratified by analysis center."|Cochran-Mantel-Haenszel|Multiple imputation was used to impute missing data from the ITT population.||||||<0.001
82656316|NCT01882647|165028244|SUPERIORITY_OR_OTHER||||||<|0.001||||||The pre-specified threshold for statistical significance was ≤0.05.|Cochran-Mantel-Haenszel|Missing data was imputed as treatment failure.||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.001
82656317|NCT01882647|165028245|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.01
82604112|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-1.002||||0.0728|TWO_SIDED|95.0|-2.1|0.09|||ANCOVA|||ApoB-48||0.09|-2.10|0.0728
82604113|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-1.803||||0.0018|TWO_SIDED|95.0|-2.91|-0.69|||ANCOVA|||ApoB-48||-0.69|-2.91|0.0018
82604114|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-1.091||||0.0759|TWO_SIDED|95.0|-2.3|0.12|||ANCOVA|||ApoB-48||0.12|-2.30|0.0759
82604115|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-0.887||||0.8451|TWO_SIDED|95.0|-9.89|8.11|||ANCOVA|||ApoB-100||8.11|-9.89|0.8451
82604116|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-7.59||||0.0973|TWO_SIDED|95.0|-16.59|1.41|||ANCOVA|||ApoB-100||1.41|-16.59|0.0973
82604117|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-3.418||||0.5|TWO_SIDED|95.0|-13.45|6.61|||ANCOVA|||ApoB-100||6.61|-13.45|0.5000
82656318|NCT01882647|165028246|SUPERIORITY_OR_OTHER||||||<|0.01||||||The pre-specified threshold for statistical significance was ≤0.05.|Cochran-Mantel-Haenszel|||Treatment groups were compared with respect to each of the clinical signs of psoriasis (scaling, erythema and plaque elevation).||||<0.01
82656319|NCT02937701|165028249|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|9.37|||||TWO_SIDED|90.0|2.67|15.96||||||For the primary analysis of ACR20, the response difference (RD) was estimated by the Mantel-Haenszel (MH) estimate and the 90% confidence intervals (CIs) of RD were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use for RA).||15.96|2.67|
82492247|NCT01948947|164677731|OTHER||||||<|0.001||||||Change from Baseline to 1-Week post-treatment|ANOVA|||||||<0.001
82604118|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-4.753||||0.0008|TWO_SIDED|95.0|-7.47|-2.03|||ANCOVA|||ApoCIII||-2.03|-7.47|0.0008
82604119|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-8.499|||<|0.0001|TWO_SIDED|95.0|-11.18|-5.82|||ANCOVA|||ApoCIII||-5.82|-11.18|<0.0001
82604120|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-6.86|||<|0.0001|TWO_SIDED|95.0|-9.78|-3.93|||ANCOVA|||ApoCIII||-3.93|-9.78|<0.0001
82604121|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-16.8||||0.0003|TWO_SIDED|95.0|-25.8|-7.85|||ANCOVA|||ApoA1||-7.85|-25.80|0.0003
82604122|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-35.2|||<|0.0001|TWO_SIDED|95.0|-44.07|-26.24|||ANCOVA|||ApoA1||-26.24|-44.07|<0.0001
82492248|NCT01948947|164677731|OTHER||||||<|0.01||||||Change from Baseline to 1-Month post-treatment|ANOVA|||||||<0.01
82492249|NCT01948947|164677732|OTHER|||||||0.009|||||||ANOVA|||||||0.009
82604123|NCT03371355|164924302|SUPERIORITY||Least Squares Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-30.89|-11.39|||ANCOVA|||ApoA1||-11.39|-30.89|<0.0001
82604124|NCT03371355|164924303|SUPERIORITY||Least Squares Mean Difference|0.0128||||0.8299|TWO_SIDED|95.0|-0.1|0.13|||ANCOVA|||||0.13|-0.10|0.8299
82604125|NCT03371355|164924303|SUPERIORITY||Least Squares Mean Difference|-0.0144||||0.8102|TWO_SIDED|95.0|-0.13|0.1|||ANCOVA|||||0.10|-0.13|0.8102
82604126|NCT03371355|164924303|SUPERIORITY||Least Squares Mean Difference|-0.0146||||0.8223|TWO_SIDED|95.0|-0.14|0.11|||ANCOVA|||||0.11|-0.14|0.8223
82604127|NCT03371355|164924304|SUPERIORITY||Least Squares Mean Difference|7.8||||0.0604|TWO_SIDED|95.0|-0.35|16.02|||ANCOVA|||Lp(a)||16.02|-0.35|0.0604
82604128|NCT03371355|164924304|SUPERIORITY||Least Squares Mean Difference|1.6||||0.7048|TWO_SIDED|95.0|-6.61|9.74|||ANCOVA|||Lp(a)||9.74|-6.61|0.7048
82604129|NCT03371355|164924304|SUPERIORITY||Least Squares Mean Difference|-1.7||||0.7024|TWO_SIDED|95.0|-10.65|7.2|||ANCOVA|||Lp(a)||7.20|-10.65|0.7024
82604130|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-45.0|||<|0.0001|TWO_SIDED|95.0|-54.0|-33.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-33|-54|<0.0001
82604131|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-62.0|||<|0.0001|TWO_SIDED|95.0|-69.0|-54.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-54|-69|<0.0001
82604132|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-66.0|-47.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ANGPTL3||-47|-66|<0.0001
82604133|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0309|TWO_SIDED|95.0|-16.0|-1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-1|-16|0.0309
82604134|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-19.0|||<|0.0001|TWO_SIDED|95.0|-26.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-12|-26|<0.0001
82604135|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-17.0|||<|0.0001|TWO_SIDED|95.0|-25.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|TC||-9|-25|<0.0001
82604136|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|6.0||||0.4016|TWO_SIDED|95.0|-7.0|21.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||21|-7|0.4016
82604137|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.2589|TWO_SIDED|95.0|-18.0|6.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||6|-18|0.2589
82604138|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-12.0||||0.0616|TWO_SIDED|95.0|-24.0|1.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|LDL-C||1|-24|0.0616
82604139|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.1918|TWO_SIDED|95.0|-18.0|4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||4|-18|0.1918
82604140|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-24.0|||<|0.0001|TWO_SIDED|95.0|-32.0|-14.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||-14|-32|<0.0001
82604141|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.1132|TWO_SIDED|95.0|-21.0|3.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|HDL-C||3|-21|0.1132
82604142|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-24.0||||0.0177|TWO_SIDED|95.0|-40.0|-5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-5|-40|0.0177
82604143|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-38.0|||<|0.0001|TWO_SIDED|95.0|-51.0|-23.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-23|-51|<0.0001
82604144|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-30.0||||0.0033|TWO_SIDED|95.0|-45.0|-12.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|VLDL-C||-12|-45|0.0033
82604145|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-10.0||||0.0523|TWO_SIDED|95.0|-18.0|0.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||0|-18|0.0523
82604146|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-18.0||||0.0002|TWO_SIDED|95.0|-26.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-26|0.0002
82604147|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-19.0||||0.0004|TWO_SIDED|95.0|-28.0|-9.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Non-HDL-C||-9|-28|0.0004
82604148|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-3.0||||0.4204|TWO_SIDED|95.0|-12.0|5.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||5|-12|0.4204
82604149|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-9.0||||0.0441|TWO_SIDED|95.0|-16.0|0.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||0|-16|0.0441
82604150|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.1324|TWO_SIDED|95.0|-16.0|2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB||2|-16|0.1324
82604151|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-29.0||||0.1009|TWO_SIDED|95.0|-53.0|7.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||7|-53|0.1009
82604152|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-52.0||||0.0005|TWO_SIDED|95.0|-68.0|-28.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||-28|-68|0.0005
82604153|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-21.0||||0.3004|TWO_SIDED|95.0|-50.0|24.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-48||24|-50|0.3004
82604154|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-2.0||||0.6135|TWO_SIDED|95.0|-10.0|7.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||7|-10|0.6135
82604155|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-7.0||||0.1127|TWO_SIDED|95.0|-15.0|2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||2|-15|0.1127
82604156|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-5.0||||0.2576|TWO_SIDED|95.0|-14.0|4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoB-100||4|-14|0.2576
82604157|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-36.0||||0.0017|TWO_SIDED|95.0|-52.0|-16.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-16|-52|0.0017
82604158|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-58.0|||<|0.0001|TWO_SIDED|95.0|-68.0|-45.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-45|-68|<0.0001
82604159|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-47.0|||<|0.0001|TWO_SIDED|95.0|-61.0|-29.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoCIII||-29|-61|<0.0001
82604160|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-11.0||||0.0193|TWO_SIDED|95.0|-20.0|-2.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-2|-20|0.0193
82604161|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-26.0|||<|0.0001|TWO_SIDED|95.0|-33.0|-19.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-19|-33|<0.0001
82604162|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-14.0||||0.0063|TWO_SIDED|95.0|-23.0|-4.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|ApoAI||-4|-23|0.0063
82604163|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-2.0||||0.8873|TWO_SIDED|95.0|-21.0|23.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||23|-21|0.8873
82604164|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB|-8.0||||0.4404|TWO_SIDED|95.0|-27.0|15.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||15|-27|0.4404
82604165|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB]|-1.0||||0.9665|TWO_SIDED|95.0|-22.0|27.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|FFA||27|-22|0.9665
82604166|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB]|-7.0||||0.4133|TWO_SIDED|95.0|-21.0|10.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||10|-21|0.4133
82604167|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB]|-6.0||||0.475|TWO_SIDED|95.0|-20.0|11.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||11|-20|0.4750
82604168|NCT03371355|164924305|SUPERIORITY||Mean Difference in % CFB]|-4.0||||0.6354|TWO_SIDED|95.0|-20.0|15.0|||ANCOVA||Mean difference in percent (%) change from baseline (CFB) based on difference in least square mean (LSM) of log (Primary Analysis Time Point/Baseline) was estimated.|Lp\[a\]||15|-20|0.6354
82604169|NCT03371355|164924306|SUPERIORITY||Least Squares Mean Difference|-17.2||||0.1799|TWO_SIDED|95.0|-42.53|8.1|||ANCOVA|||||8.10|-42.53|0.1799
82604170|NCT03371355|164924306|SUPERIORITY||Least Squares Mean Difference|13.8||||0.2867|TWO_SIDED|95.0|-11.83|39.49|||ANCOVA|||||39.49|-11.83|0.2867
82604171|NCT03371355|164924306|SUPERIORITY||Least Squares Mean Difference|2.2||||0.8812|TWO_SIDED|95.0|-26.78|31.14|||ANCOVA|||||31.14|-26.78|0.8812
82604172|NCT03371355|164924307|SUPERIORITY||Least Squares Mean Difference|-0.28||||0.3995|TWO_SIDED|95.0|-0.94|0.38|||ANCOVA|||||0.38|-0.94|0.3995
82604173|NCT03371355|164924307|SUPERIORITY||Least Squares Mean Difference|0.08||||0.8155|TWO_SIDED|95.0|-0.59|0.75|||ANCOVA|||||0.75|-0.59|0.8155
82604174|NCT03371355|164924307|SUPERIORITY||Least Squares Mean Difference|0.16||||0.6466|TWO_SIDED|95.0|-0.54|0.86|||ANCOVA|||||0.86|-0.54|0.6466
82604175|NCT03371355|164924308|SUPERIORITY||Least Squares Mean Difference|1.39||||0.7393|TWO_SIDED|95.0|-9.66|6.89|||ANCOVA|||||6.89|-9.66|0.7393
82604176|NCT03371355|164924308|SUPERIORITY||Least Squares Mean Difference|-0.13||||0.9744|TWO_SIDED|95.0|-8.45|8.18|||ANCOVA|||||8.18|-8.45|0.9744
82604177|NCT03371355|164924308|SUPERIORITY||Least Squares Mean Difference|3.58||||0.4477|TWO_SIDED|95.0|-5.75|12.91|||ANCOVA|||||12.91|-5.75|0.4477
82604178|NCT03371355|164924309|SUPERIORITY||Least Squares Mean Difference|-1.794||||0.471|TWO_SIDED|95.0|-6.72|3.14|||ANCOVA|||||3.14|-6.72|0.4710
82604179|NCT03371355|164924309|SUPERIORITY||Least Squares Mean Difference|0.26||||0.9169|TWO_SIDED|95.0|-4.68|5.2|||ANCOVA|||||5.20|-4.68|0.9169
82604180|NCT03371355|164924309|SUPERIORITY||Least Squares Mean Difference|2.133||||0.4484|TWO_SIDED|95.0|-3.44|7.7|||ANCOVA|||||7.70|-3.44|0.4484
82604181|NCT03371355|164924310|SUPERIORITY||Least Squares Mean Difference|-23.2||||0.0916|TWO_SIDED|95.0|-50.17|3.83|||ANCOVA|||||3.83|-50.17|0.0916
82604182|NCT03371355|164924310|SUPERIORITY||Least Squares Mean Difference|-11.4||||0.4032|TWO_SIDED|95.0|-38.51|15.63|||ANCOVA|||||15.63|-38.51|0.4032
82604183|NCT03371355|164924310|SUPERIORITY||Least Squares Mean Difference|1.9||||0.8959|TWO_SIDED|95.0|-27.56|31.45|||ANCOVA|||||31.45|-27.56|0.8959
82604184|NCT03371355|164924311|SUPERIORITY||Least Squares Mean Difference|-0.052||||0.3202|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||||0.05|-0.16|0.3202
82604185|NCT03371355|164924311|SUPERIORITY||Least Squares Mean Difference|-0.01||||0.8485|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||||0.09|-0.11|0.8485
82604186|NCT03371355|164924311|SUPERIORITY||Least Squares Mean Difference|0.0314||||0.5812|TWO_SIDED|95.0|-0.08|0.14|||ANCOVA|||||0.14|-0.08|0.5812
82604187|NCT03371355|164924312|SUPERIORITY||Least Squares Mean Difference|0.43||||0.6157|TWO_SIDED|95.0|-1.28|2.15|||ANCOVA|||||2.15|-1.28|0.6157
82604188|NCT03371355|164924312|SUPERIORITY||Least Squares Mean Difference|0.01||||0.9869|TWO_SIDED|95.0|-1.66|1.69|||ANCOVA|||||1.69|-1.66|0.9869
82604189|NCT03371355|164924312|SUPERIORITY||Least Squares Mean Difference|-0.33||||0.7084|TWO_SIDED|95.0|-2.07|1.42|||ANCOVA|||||1.42|-2.07|0.7084
82656320|NCT02937701|165028249|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|9.3|||||TWO_SIDED|90.0|2.67|15.92|||||Response Difference is based on a generalized linear model with actual stratification variables (geographic region and prior biologic use for RA) as covariates in the model.|A sensitivity analysis with the RD estimate and CIs for RD of ACR20 estimated using a generalized linear model with geographic region and prior biologic use for RA as covariates was also conducted.||15.92|2.67|
82604190|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|2.79||||0.4431|TWO_SIDED|95.0|-4.41|10.0|||ANCOVA|||SBP||10.00|-4.41|0.4431
82604191|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|2.08||||0.563|TWO_SIDED|95.0|-5.05|9.22|||ANCOVA|||SBP||9.22|-5.05|0.5630
82604192|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|-1.63||||0.6634|TWO_SIDED|95.0|-9.06|5.79|||ANCOVA|||SBP||5.79|-9.06|0.6634
82604193|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|4.11||||0.0937|TWO_SIDED|95.0|-0.71|8.92|||ANCOVA|||DBP||8.92|-0.71|0.0937
82604194|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|3.49||||0.1522|TWO_SIDED|95.0|-1.31|8.28|||ANCOVA|||DBP||8.28|-1.31|0.1522
82604195|NCT03371355|164924313|SUPERIORITY||Least Squares Mean Difference|1.62||||0.5188|TWO_SIDED|95.0|-3.35|6.59|||ANCOVA|||DBP||6.59|-3.35|0.5188
82604196|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|0.57||||0.5299|TWO_SIDED|95.0|-1.24|2.39|||ANCOVA|||Weight||2.39|-1.24|0.5299
82604197|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|-0.12||||0.8919|TWO_SIDED|95.0|-1.89|1.65|||ANCOVA|||Weight||1.65|-1.89|0.8919
82604198|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|-0.4||||0.6653|TWO_SIDED|95.0|-2.25|1.44|||ANCOVA|||Weight||1.44|-2.25|0.6653
82604199|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|2.35||||0.4213|TWO_SIDED|95.0|-3.43|8.14|||ANCOVA|||SBP||8.14|-3.43|0.4213
82604200|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|1.23||||0.6696|TWO_SIDED|95.0|-4.49|6.96|||ANCOVA|||SBP||6.96|-4.49|0.6696
82604201|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|-1.23||||0.6819|TWO_SIDED|95.0|-7.2|4.73|||ANCOVA|||SBP||4.73|-7.20|0.6819
82604202|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|5.01||||0.1171|TWO_SIDED|95.0|-1.28|11.31|||ANCOVA|||DBP||11.31|-1.28|0.1171
82604203|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|3.94||||0.2155|TWO_SIDED|95.0|-2.33|10.21|||ANCOVA|||DBP||10.21|-2.33|0.2155
82604204|NCT03371355|164924314|SUPERIORITY||Least Squares Mean Difference|1.7||||0.6034|TWO_SIDED|95.0|-4.79|8.2|||ANCOVA|||DBP||8.20|-4.79|0.6034
82604205|NCT03371355|164924315|SUPERIORITY||Least Squares Mean Difference|0.98||||0.5752|TWO_SIDED|95.0|-2.48|4.44|||ANCOVA|||||4.44|-2.48|0.5752
82604206|NCT03371355|164924315|SUPERIORITY||Least Squares Mean Difference|4.09||||0.023|TWO_SIDED|95.0|0.58|7.59|||ANCOVA|||||7.59|0.58|0.0230
82604207|NCT03371355|164924315|SUPERIORITY||Least Squares Mean Difference|1.57||||0.3965|TWO_SIDED|95.0|-2.1|5.25|||ANCOVA|||||5.25|-2.10|0.3965
82604208|NCT03371355|164924316|SUPERIORITY||Least Squares Mean Difference|12.44||||0.3023|TWO_SIDED|95.0|-11.39|36.26|||ANCOVA|||||36.26|-11.39|0.3023
82604209|NCT03371355|164924316|SUPERIORITY||Least Squares Mean Difference|26.03||||0.035|TWO_SIDED|95.0|1.87|50.19|||ANCOVA|||||50.19|1.87|0.0350
82604210|NCT03371355|164924316|SUPERIORITY||Least Squares Mean Difference|12.27||||0.3374|TWO_SIDED|95.0|-13.02|37.55|||ANCOVA|||||37.55|-13.02|0.3374
82604211|NCT03371355|164924318|SUPERIORITY||Least Squares Mean Difference|-2.59||||0.4583|TWO_SIDED|95.0|-9.49|4.31|||ANCOVA|||||4.31|-9.49|0.4583
82604212|NCT03371355|164924318|SUPERIORITY||Least Squares Mean Difference|-5.71||||0.0943|TWO_SIDED|95.0|-12.43|1.0|||ANCOVA|||||1.00|-12.43|0.0943
82604213|NCT03371355|164924318|SUPERIORITY||Least Squares Mean Difference|-4.57||||0.1909|TWO_SIDED|95.0|-11.45|2.32|||ANCOVA|||||2.32|-11.45|0.1909
82604214|NCT03371355|164924319|SUPERIORITY||Least Squares Mean Difference|7.1||||0.1294|TWO_SIDED|95.0|-2.1|16.22|||ANCOVA|||ALT||16.22|-2.10|0.1294
82604215|NCT03371355|164924319|SUPERIORITY||Least Squares Mean Difference|14.8||||0.0012|TWO_SIDED|95.0|5.98|23.59|||ANCOVA|||ALT||23.59|5.98|0.0012
82604216|NCT03371355|164924319|SUPERIORITY||Least Squares Mean Difference|8.9||||0.0594|TWO_SIDED|95.0|-0.36|18.11|||ANCOVA|||ALT||18.11|-0.36|0.0594
82604217|NCT03371355|164924319|SUPERIORITY||[Least Squares Mean Difference|5.0||||0.073|TWO_SIDED|95.0|-0.47|10.45|||ANCOVA|||AST||10.45|-0.47|0.0730
82604218|NCT03371355|164924319|SUPERIORITY||Least Squares Mean Difference|8.4||||0.002|TWO_SIDED|95.0|3.17|13.7|||ANCOVA|||AST||13.70|3.17|0.0020
82604219|NCT03371355|164924319|SUPERIORITY||Least Squares Mean Difference|6.5||||0.02|TWO_SIDED|95.0|1.05|12.0|||ANCOVA|||AST||12.00|1.05|0.0200
82604220|NCT03371355|164924320|SUPERIORITY||Least Squares Mean Difference|-1.19||||0.4812|TWO_SIDED|95.0|-4.55|2.16|||ANCOVA|||||2.16|-4.55|0.4812
82604221|NCT03371355|164924320|SUPERIORITY||Least Squares Mean Difference|-1.53||||0.3679|TWO_SIDED|95.0|-4.88|1.83|||ANCOVA|||||1.83|-4.88|0.3679
82604222|NCT03371355|164924320|SUPERIORITY||Least Squares Mean Difference|-4.18||||0.021|TWO_SIDED|95.0|-7.72|-0.65|||ANCOVA|||||-0.65|-7.72|0.0210
82604223|NCT03371355|164924321|SUPERIORITY||Least Squares Mean Difference|-0.15||||0.6227|TWO_SIDED|95.0|-0.73|0.44|||ANCOVA|||||0.44|-0.73|0.6227
82604224|NCT03371355|164924321|SUPERIORITY||Least Squares Mean Difference|-0.38||||0.195|TWO_SIDED|95.0|-0.97|0.2|||ANCOVA|||||0.20|-0.97|0.1950
82492250|NCT01948947|164677732|OTHER||||||<|0.01||||||Change in Baseline to 1-month post-treatment|ANOVA|||||||<0.01
82604225|NCT03371355|164924321|SUPERIORITY||Least Squares Mean Difference|-0.38||||0.2271|TWO_SIDED|95.0|-1.0|0.24|||ANCOVA|||||0.24|-1.00|0.2271
82604226|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|17.06||||0.8591|TWO_SIDED|95.0|-173.57|207.69|||ANCOVA|||SAT||207.69|-173.57|0.8591
82604227|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|32.92||||0.7404|TWO_SIDED|95.0|-164.11|229.95|||ANCOVA|||SAT||229.95|-164.11|0.7404
82604228|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|-16.3||||0.8711|TWO_SIDED|95.0|-215.5|182.9|||ANCOVA|||SAT||182.90|-215.50|0.8711
82492251|NCT01948947|164677733|OTHER||||||=|0.033|||||||ANOVA|||||||=0.033
82492252|NCT03535844|164677735|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|independent t-test of change values||||||0.49
82604229|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|4.95||||0.9569|TWO_SIDED|95.0|-176.64|186.53|||ANCOVA|||VAT||186.53|-176.64|0.9569
82604230|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|-24.26||||0.8025|TWO_SIDED|95.0|-216.53|168.02|||ANCOVA|||VAT||168.02|-216.53|0.8025
82604231|NCT03371355|164924322|SUPERIORITY||Least Squares Mean Difference|22.02||||0.8202|TWO_SIDED|95.0|-170.09|214.12|||ANCOVA|||VAT||214.12|-170.09|0.8202
82604232|NCT03371355|164924323|SUPERIORITY||Least Squares Mean Difference|0.11||||0.9734|TWO_SIDED|95.0|-6.47|6.69|||ANCOVA|||||6.69|-6.47|0.9734
82604233|NCT03371355|164924323|SUPERIORITY||Least Squares Mean Difference|-0.7||||0.8333|TWO_SIDED|95.0|-7.25|5.86|||ANCOVA|||||5.86|-7.25|0.8333
82604234|NCT03371355|164924323|SUPERIORITY||Least Squares Mean Difference|1.66||||0.6207|TWO_SIDED|95.0|-4.99|8.31|||ANCOVA|||||8.31|-4.99|0.6207
82604235|NCT03371355|164924324|SUPERIORITY||Least Squares Mean Difference|0.01||||0.8026|TWO_SIDED|95.0|-0.04|0.06|||ANCOVA|||||0.06|-0.04|0.8026
82604236|NCT03371355|164924324|SUPERIORITY||Least Squares Mean Difference|-0.02||||0.4917|TWO_SIDED|95.0|-0.07|0.03|||ANCOVA|||||0.03|-0.07|0.4917
82604237|NCT03371355|164924324|SUPERIORITY||Least Squares Mean Difference|0.0||||0.8916|TWO_SIDED|95.0|-0.05|0.05|||ANCOVA|||||0.05|-0.05|0.8916
82604238|NCT03371355|164924325|SUPERIORITY||Least Squares Mean Difference|0.11||||0.728|TWO_SIDED|95.0|-0.5|0.71|||ANCOVA|||||0.71|-0.50|0.7280
82604239|NCT03371355|164924325|SUPERIORITY||Least Squares Mean Difference|-0.1||||0.7354|TWO_SIDED|95.0|-0.69|0.49|||ANCOVA|||||0.49|-0.69|0.7354
82604240|NCT03371355|164924325|SUPERIORITY||Least Squares Mean Difference|-0.23||||0.4682|TWO_SIDED|95.0|-0.84|0.39|||ANCOVA|||||0.39|-0.84|0.4682
82604241|NCT00584870|164924368|SUPERIORITY_OR_OTHER_LEGACY||Least squares (LS) Mean Difference|-1.17|STANDARD_ERROR_OF_MEAN|0.39||0.001|TWO_SIDED|80.0|-1.67|-0.67||p-value was based on repeated measures model from pairwise comparisons, and statistical test was 1-sided with 0.1 significance level.|Repeated Measures Model|||LS mean difference was estimated from the repeated measures model with baseline, center, treatment, week and treatment-by-week interaction as fixed main effects and participant as random effect.||-0.67|-1.67|0.001
82604242|NCT01015833|164924431|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.24|TWO_SIDED|95.0|0.8|1.4|||t-test, 1 sided|||||1.4|0.8|0.24
82604243|NCT01015833|164924433|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.98|TWO_SIDED|95.0|0.72|1.2|||t-test, 1 sided|||||1.2|0.72|0.98
82604244|NCT02630953|164924438|SUPERIORITY||Median Difference (Final Values)|-6.22||||0.24|TWO_SIDED|95.0|-41.15|28.7||Significance level was set at .05 a priori.|quantile regression|Bootstrapped standard errors (10,000 replications)||Using a series of quantile regression models with bootstrapped standard errors (10,000 replications) we examined the potential treatment effects on MVPA at follow-ups, controlling for baseline. Quantile regression models the median outcome instead of the mean, and are appropriate when data is skewed (as was the case in both self-reported and objectively measured MVPA).||28.70|-41.15|0.24
82604245|NCT02630953|164924439|SUPERIORITY||Median Difference (Final Values)|7.5||||0.73|TWO_SIDED|95.0|-32.37|47.37||Significance was set at .05 a priori|quantile regression|||Using a series of quantile regression models with bootstrapped standard errors (10,000 replications) we examined the potential treatment effects on MVPA at follow-up, controlling for baseline||47.37|-32.37|0.73
82604246|NCT02630953|164924440|SUPERIORITY||Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.035|>|0.06|TWO_SIDED|||||Significance level set at .05 a priori|Regression, Linear|||Using a series of generalized linear models with identity link, we examined treatment effects on biomarkers at 6 months controlling for baseline and potential confounders.||||>.06
82492253|NCT03535844|164677735|SUPERIORITY|||||||0.5672|||||||t-test, 1 sided|Paired t-test (Week 0 and Week 16)||||||0.5672
82492254|NCT03535844|164677735|SUPERIORITY|||||||0.788|||||||t-test, 2 sided|Paired t-test of change values||||||0.788
82604247|NCT01955707|164924471|SUPERIORITY_OR_OTHER||adjusted mean difference (log-scale)|0.08|||||TWO_SIDED|90.0|-0.09|0.26||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tissue plasminogen activator (tPA) use.||0.26|-0.09|
82604248|NCT01955707|164924471|SUPERIORITY_OR_OTHER||ratio of relative growth|1.09||||0.779|TWO_SIDED|90.0|0.91|1.3||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.30|0.91|0.779
82604249|NCT01955707|164924472|SUPERIORITY_OR_OTHER||adjusted mean difference (log-scale)|0.09|||||TWO_SIDED|90.0|-0.09|0.27||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.27|-0.09|
82604250|NCT01955707|164924472|SUPERIORITY_OR_OTHER||ratio of relative growth|1.09||||0.797|TWO_SIDED|90.0|0.92|1.31||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.31|0.92|0.797
82604251|NCT01955707|164924473|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|0.05|||||TWO_SIDED|90.0|-0.13|0.24||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to baseline using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.24|-0.13|
82604252|NCT01955707|164924473|SUPERIORITY_OR_OTHER||ratio of relative growth|1.05||||0.684|TWO_SIDED|90.0|0.88|1.27||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.27|0.88|0.684
82604253|NCT01955707|164924474|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|0.0|||||TWO_SIDED|90.0|-0.12|0.11||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to 24 hours using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.11|-0.12|
82604254|NCT01955707|164924474|SUPERIORITY_OR_OTHER||ratio of relative growth|1.0||||0.487|TWO_SIDED|90.0|0.89|1.12||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.12|0.89|0.487
82604255|NCT01955707|164924475|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|-0.02|||||TWO_SIDED|90.0|-0.14|0.1||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to 24 hours using an autoregressive variance-covariance matrix structure. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, and tPA use.||0.10|-0.14|
82604256|NCT01955707|164924475|SUPERIORITY_OR_OTHER||ratio of relative growth|0.98||||0.402|TWO_SIDED|90.0|0.87|1.11||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.11|0.87|0.402
82604257|NCT01955707|164924476|SUPERIORITY_OR_OTHER||Adjusted mean difference (log-scale)|-0.02|||||TWO_SIDED|90.0|-0.18|0.13||||||Treatment contrasts derived from a repeated measures mixed effects model modeling log relative growth relative to Day 5 using an autoregressive variance-covariance matrix structure. The model adjusts for for treatment, log baseline DWI volume, treatment time window, and tPA use.||0.13|-0.18|
82604258|NCT01955707|164924476|SUPERIORITY_OR_OTHER||ratio of relative growth|0.98||||0.394|TWO_SIDED|90.0|0.84|1.14||one-sided p-value|repeated measures mixed effects model||Adjusted mean (log-scale) back-transformed to the original scale as the estimated ratio of natalizumab to placebo. 90% confidence interval (log-scale) back-transformed to the original scale and reflect the interval around the ratio.|||1.14|0.84|0.394
82604259|NCT01955707|164924477|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|-0.25||||0.427|TWO_SIDED|90.0|-2.48|1.98||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at 24 hours. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||1.98|-2.48|0.427
82604260|NCT01955707|164924477|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|1.71||||0.896|TWO_SIDED|90.0|-0.52|3.94||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 5. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||3.94|-0.52|0.896
82604261|NCT01955707|164924477|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|3.15||||0.989|TWO_SIDED|90.0|0.89|5.4||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 30. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||5.40|0.89|0.989
82604262|NCT01955707|164924477|SUPERIORITY_OR_OTHER||adjusted mean change from baseline|1.93||||0.915|TWO_SIDED|90.0|-0.38|4.25||one-sided p-value|repeated measures mixed effects model|||Analysis of NIHSS score and change from Baseline at Day 90. The repeated measures mixed effects model is modeling absolute change in NIHSS score relative to baseline and using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, baseline NIHSS score and location of stroke.||4.25|-0.38|0.915
82604263|NCT01955707|164924478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.564|TWO_SIDED|90.0|0.55|1.45||One sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of distribution of mRS scores at Day 5. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||1.45|0.55|0.564
82604264|NCT01955707|164924478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.3||||0.077|TWO_SIDED|90.0|0.8|2.1||One-sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of distribution of mRS scores at Day 30. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||2.10|0.80|0.077
82604265|NCT01955707|164924478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.243|TWO_SIDED|90.0|0.71|1.86||One -sided p-value based on Van Elteren's test, adjusting for baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).|Van Elteren's test|||Analysis of the distribution of mRS scores at Day 90. Odds ratio from a proportional-odds logistic regression model assuming a common odds ratio across all cut points of the mRS score. Covariates include baseline DWI volume (\< median vs \>= median), treatment time window, location of stroke abnormality (cortical/subcortical), and tPA use (yes/no).||1.86|0.71|0.243
82604266|NCT01955707|164924479|SUPERIORITY_OR_OTHER||Adjusted mean|0.68||||0.455|TWO_SIDED|90.0|-9.19|10.56||one-sided p-value|repeated measures mixed effects model|||Analysis of Barthel Index at Day 5. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||10.56|-9.19|0.455
82604267|NCT01955707|164924479|SUPERIORITY_OR_OTHER||Adjusted mean|1.21||||0.42|TWO_SIDED|90.0|-8.76|11.19||one-sided p-value|repeated measures mixed effects model|||Analysis of Barthel Index at Day 30. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||11.19|-8.76|0.420
82604268|NCT01955707|164924479|SUPERIORITY_OR_OTHER||Adjusted mean|3.56||||0.283|TWO_SIDED|90.0|-6.64|13.75|||repeated measures mixed effects model|||Analysis of Barthel Index at Day 90/Final Visit. The repeated measures mixed effects model is modeling Barthel Index using an autoregressive variance-covariance matrix. The model adjusts for treatment, time, treatment by time, log baseline DWI volume, treatment time window, tPA use, and location of stroke.||13.75|-6.64|0.283
82604269|NCT04596891|164924490|OTHER|Repeated measures ANOVA|F ratio|20.62|||<|0.001|TWO_SIDED|95.0|||||ANOVA||The F ratio is used to evaluate the main effect of time in the ANOVA in relation to the critical F ratio.|No control group, open trial for feasibility/safety||||<0.001
82604270|NCT04596891|164924490|OTHER|Paired-samples t-test (baseline to post-treatment)|paired-samples t-test|5.2||||0.002|TWO_SIDED|95.0|-1.79|12.93|||t-test, 2 sided|||||12.93|-1.79|0.002
82604271|NCT04596891|164924495|OTHER|ANOVA|F ratio|8.46|||<|0.001|TWO_SIDED|95.0|||||ANOVA||The F ratio is used to evaluate the main effect of time in the ANOVA in relation to the critical F ratio. If it exceeds the critical F ratio, the null hypothesis (no effect of time) is rejected.|||||<0.001
82604272|NCT03896581|164924498|SUPERIORITY||Odds Ratio (OR)|11.139|||<|0.001|TWO_SIDED|95.0|5.402|22.969|||Regression, Logistic|||||22.969|5.402|<0.001
82604273|NCT03896581|164924499|SUPERIORITY||Least square (LS) mean difference|-0.326|||<|0.001|TWO_SIDED|95.0|-0.42|-0.233|||ANCOVA|||||-0.233|-0.420|<0.001
82604274|NCT03896581|164924501|SUPERIORITY||Odds Ratio (OR)|30.237|||<|0.001|TWO_SIDED|95.0|12.365|73.94|||Regression, Logistic|||||73.940|12.365|<0.001
82604275|NCT03896581|164924502|SUPERIORITY||LS mean difference|6.037|||<|0.001|TWO_SIDED|95.0|4.386|7.688|||ANCOVA|||||7.688|4.386|<0.001
82604276|NCT03896581|164924503|SUPERIORITY||Odds Ratio (OR)|13.089|||<|0.001|TWO_SIDED|95.0|6.119|27.999|||Regression, Logistic|||||27.999|6.119|<0.001
82604277|NCT04854499|164924515|SUPERIORITY||Hazard Ratio (HR)|1.314|||||TWO_SIDED|95.0|0.809|2.136|||||HR along with its 2-sided 95% confidence interval (CI) were estimated using the Cox proportional hazards regression model stratified by the stratification factors at randomization.|||2.136|0.809|
82604278|NCT04854499|164924519|SUPERIORITY||Hazard Ratio (HR)|1.094|||||TWO_SIDED|95.0|0.603|1.985||||||||1.985|0.603|
82604279|NCT04854499|164924520|OTHER||Odds Ratio (OR)|0.982|||||TWO_SIDED|95.0|0.449|2.147|||||The 2-sided 95% CI is based on Clopper-Pearson method.|||2.147|0.449|
82604280|NCT04854499|164924520|OTHER||Odds Ratio (OR)|0.943|||||TWO_SIDED|95.0|0.383|2.321|||||The 2-sided 95% CI is based on Clopper-Pearson method.|||2.321|0.383|
82604281|NCT00450580|164924580|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority can be concluded if the lower bound of a two-sided 95% confidence interval for the difference in response rates between the two treatment arms is greater than -12%.|Risk Difference (RD)|-0.9||||||95.0|-11.4|9.5||||||||9.5|-11.4|
82492255|NCT03535844|164677736|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|independent t-test of change values||||||0.67
82492256|NCT03535844|164677736|SUPERIORITY|||||||0.8203|||||||t-test, 2 sided|Paired t-test of change values||||||0.8203
82604282|NCT03932812|164924591|SUPERIORITY||Mean Difference (Net)|1.128|STANDARD_ERROR_OF_MEAN|1.622||0.206|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.206
82604283|NCT03932812|164924592|SUPERIORITY||Mean Difference (Final Values)|2.376|STANDARD_ERROR_OF_MEAN|1.793||0.101|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.101
82604284|NCT03932812|164924593|SUPERIORITY||Mean Difference (Net)|-0.201|STANDARD_ERROR_OF_MEAN|1.174||0.836|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.836
82604285|NCT03932812|164924594|SUPERIORITY||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.414||0.567|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|The outcome for this analyses is use of emergency care.||||0.567
82604286|NCT03932812|164924595|SUPERIORITY||Mean Difference (Final Values)|-0.363|STANDARD_ERROR_OF_MEAN|0.165||0.014|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|||||0.014
82604287|NCT03932812|164924596|SUPERIORITY||Mean Difference (Final Values)|0.467|STANDARD_ERROR_OF_MEAN|0.301||0.01|TWO_SIDED||||||Chi-squared||Estimated value: presented value is for month 6. Since the outcome measure is count data, a log link function is used. The reported p-value is the significance of the interaction effect between time and intervention.|||||0.010
82604288|NCT03932812|164924597|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|2.682||0.188|TWO_SIDED||||||Regression, Linear|We used generalized estimating equations to fit linear regression model for longitudinal data under the unstructured correlation matrix.|Estimated value: presented value is mean difference at month 6 from BL. Information from month 3 is included in the linear regression model. The reported p-value is the significance of the interaction effect between time and the intervention.|||||0.188
82604289|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-3.36|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-21.96|15.24|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 10 mg versus Placebo Day 1||15.24|-21.96|
82604290|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-11.81|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-30.01|6.4|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 50 mg versus Placebo Day 1||6.40|-30.01|
82604291|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-25.65|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-42.99|-8.32|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 125 mg versus Placebo Day 1||-8.32|-42.99|
82604292|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|14.74|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-5.06|34.53|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 10 mg versus Placebo Day 28||34.53|-5.06|
82604293|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|4.22|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-14.64|23.08|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 50 mg vs Placebo Day 28||23.08|-14.64|
82604294|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|6.65|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-11.18|24.47|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|GSK962040 125 mg versus Placebo Day 28||24.47|-11.18|
82604295|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-12.92|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-28.73|2.9|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of the Placebo arm||2.90|-28.73|
82604296|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|5.18|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-11.69|22.05|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 10 mg arm||22.05|-11.69|
82604297|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|3.11|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|-13.13|19.36|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 50 mg arm||19.36|-13.13|
82656321|NCT02937701|165028249|EQUIVALENCE|Clinical equivalence for the primary endpoint was to be evaluated sequentially by first comparing the 2-sided 90% CI for RD of ACR20 at week 22 between ABP 710 and infliximab with an equivalence margin of (-15%, 15%). If the first test was successful, RD of ACR20 at week 22 was to be further evaluated by comparing the 2-sided 90% CI between ABP 710 and infliximab with an equivalence margin of (-12%, 15%).|Response Difference|7.184|||||TWO_SIDED|90.0|0.748|13.62|||||The ACR core set includes tender joint count, swollen joint count, subject's global health assessment, investigator's global health assessment, subject's assessment of disease related pain, HAQ-DI, and CRP.|A post-hoc analysis was conducted to adjust for the impact of random imbalance in baseline demographic and disease characteristics between the 2 treatment groups. The MH estimate of RD and corresponding CIs were estimated using a nonparametric analysis of covariance method with stratification factors geographic region and prior biologic use, and adjustment for baseline covariates (ACR core set, age, use of oral corticosteroid, use of NSAID, body mass index categories, and methotrexate dose).||13.620|0.748|
82656322|NCT02937701|165028250|OTHER||Response Difference|8.03|||||TWO_SIDED|90.0|1.15|14.81||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||14.81|1.15|
82604298|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|19.39|STANDARD_DEVIATION|14.47|||TWO_SIDED|95.0|4.47|34.3|||||The least square means were estimated using a mixed model fitting treatment, visit, treatment\*visit and baseline gastric emptying half time as fixed effects, and participant as a random effect. Statistical analysis is reported using LS Means.|Day 28 versus Day 1 of GSK962040 125 mg arm||34.30|4.47|
82604299|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.225|||||TWO_SIDED|95.0|-0.32|-0.129|||Mixed Models Analysis|||Type 1 Diabetes, Day 1|Intercept estimate was 125.45 and between participant standard deviation was 21.63|-0.129|-0.320|
82604300|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.078|||||TWO_SIDED|95.0|-0.171|0.016|||Mixed Models Analysis|||Type 1 Diabetes, Day 28|Intercept estimate was 125.45 and between participant standard deviation was 21.63|0.016|-0.171|
82604301|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.225|||||TWO_SIDED|95.0|-0.32|-0.129|||Mixed Models Analysis|||Type 2 Diabetes, Day 1|Intercept estimate was 113.23 and between participant standard deviation was 21.63|-0.129|-0.320|
82604302|NCT01262898|164924600|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.078||||||95.0|-0.171|0.016|||Mixed Models Analysis|||Type 2 Diabetes, Day 28|Intercept estimate was 113.23 and between participant standard deviation was 21.63|0.016|-0.171|
82604303|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|12.9|||<|0.001|TWO_SIDED|95.0|9.5|16.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||16.3|9.5|<0.001
82656323|NCT02937701|165028250|OTHER||Response Difference|4.96|||||TWO_SIDED|90.0|-1.8|11.64||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.64|-1.80|
82656324|NCT02937701|165028250|OTHER||Response Difference|9.37|||||TWO_SIDED|90.0|-0.51|12.87||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||12.87|-0.51|
82604304|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|7.6|||<|0.001|TWO_SIDED|95.0|4.4|10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||10.9|4.4|<0.001
82604305|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|10.8|||<|0.001|TWO_SIDED|95.0|7.4|14.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||14.2|7.4|<0.001
82604306|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|7.8|||<|0.001|TWO_SIDED|95.0|4.6|10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||10.9|4.6|<0.001
82604307|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|7.6|||<|0.001|TWO_SIDED|95.0|4.2|11.0|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||11.0|4.2|<0.001
82492257|NCT03535844|164677736|SUPERIORITY|||||||0.3882|||||||t-test, 2 sided|Paired t-test of change values||||||0.3882
82492258|NCT03535844|164677737|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|independent t-test of change values||||||0.08
82604308|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|10.4|||<|0.001|TWO_SIDED|95.0|7.2|13.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||13.6|7.2|<0.001
82604309|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|5.2||||0.002|TWO_SIDED|95.0|1.9|8.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||8.6|1.9|0.002
82604310|NCT00792298|164924632|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|4.7||||0.003|TWO_SIDED|95.0|1.6|7.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||7.8|1.6|0.003
82604311|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-36.8|||<|0.001|TWO_SIDED|95.0|-49.4|-24.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-24.3|-49.4|<0.001
82604312|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-28.9|||<|0.001|TWO_SIDED|95.0|-42.1|-15.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.7|-42.1|<0.001
82604313|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-33.9|||<|0.001|TWO_SIDED|95.0|-46.4|-21.5|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-21.5|-46.4|<0.001
82604314|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-33.2|||<|0.001|TWO_SIDED|95.0|-46.3|-20.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-20.2|-46.3|<0.001
82604315|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-24.7|||<|0.001|TWO_SIDED|95.0|-37.1|-12.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-12.3|-37.1|<0.001
82656325|NCT02937701|165028251|OTHER||Response Difference|3.05|||||TWO_SIDED|90.0|-5.26|11.73||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.73|-5.26|
82604316|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-28.1|||<|0.001|TWO_SIDED|95.0|-41.0|-15.1|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.1|-41.0|<0.001
82604317|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-21.2|||<|0.001|TWO_SIDED|95.0|-33.5|-8.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.8|-33.5|<0.001
82656326|NCT02937701|165028251|OTHER||Response Difference|8.5|||||TWO_SIDED|90.0|-1.18|17.97||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.97|-1.18|
82492259|NCT03535844|164677738|SUPERIORITY|||||||0.7162|||||||t-test, 2 sided|independent t-test of change values||||||0.7162
82604318|NCT00792298|164924633|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-21.4||||0.001|TWO_SIDED|95.0|-34.2|-8.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.7|-34.2|0.001
82604319|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-25.4|||<|0.001|TWO_SIDED|95.0|-37.7|-13.1|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-13.1|-37.7|<0.001
82604320|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-9.5||||0.068|TWO_SIDED|95.0|-19.7|0.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||0.7|-19.7|0.068
82604321|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-23.1|||<|0.001|TWO_SIDED|95.0|-35.3|-10.9|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-10.9|-35.3|<0.001
82604322|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-3.8||||0.459|TWO_SIDED|95.0|-13.8|6.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||6.3|-13.8|0.459
82604323|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-9.4||||0.13|TWO_SIDED|95.0|-21.5|2.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||2.8|-21.5|0.130
82604324|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-22.3|||<|0.001|TWO_SIDED|95.0|-32.3|-12.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-12.3|-32.3|<0.001
82604325|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-3.4||||0.577|TWO_SIDED|95.0|-15.6|8.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||8.7|-15.6|0.577
82656327|NCT02937701|165028251|OTHER||Response Difference|3.31|||||TWO_SIDED|90.0|-4.61|11.7||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.70|-4.61|
82604326|NCT00792298|164924634|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-2.3||||0.644|TWO_SIDED|95.0|-12.2|7.5|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||7.5|-12.2|0.644
82656328|NCT02937701|165028251|OTHER||Response Difference|4.06|||||TWO_SIDED|90.0|-5.4|13.4||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.40|-5.40|
82656329|NCT02937701|165028251|OTHER||Response Difference|0.82|||||TWO_SIDED|90.0|-7.34|9.4||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.40|-7.34|
82656330|NCT02937701|165028251|OTHER||Response Difference|2.79|||||TWO_SIDED|90.0|-6.86|12.34||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||12.34|-6.86|
82604327|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-22.3||||0.007|TWO_SIDED|95.0|-38.3|-6.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-6.2|-38.3|0.007
82604328|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-19.6||||0.024|TWO_SIDED|95.0|-36.6|-2.6|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-2.6|-36.6|0.024
82604329|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-31.0|||<|0.001|TWO_SIDED|95.0|-46.9|-15.2|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-15.2|-46.9|<0.001
82604330|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-15.7||||0.063|TWO_SIDED|95.0|-32.3|0.8|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||0.8|-32.3|0.063
82604331|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-17.4||||0.03|TWO_SIDED|95.0|-33.1|-1.7|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-1.7|-33.1|0.030
82604332|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-24.6||||0.003|TWO_SIDED|95.0|-41.0|-8.3|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-8.3|-41.0|0.003
82604333|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Night 1|-19.1||||0.02|TWO_SIDED|95.0|-35.1|-3.0|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-3.0|-35.1|0.020
82604334|NCT00792298|164924635|SUPERIORITY_OR_OTHER||LS Mean Difference: Week 4|-20.2||||0.019|TWO_SIDED|95.0|-37.0|-3.4|||Mixed Models Analysis|||A fixed sequential testing procedure assessed statistical significance, beginning with the highest dose. The comparison of suvorexant vs placebo had to be significant at α=0.05 at both Night 1 and Week 4 in order to assess statistical significance of the comparison of suvorexant vs placebo for the next highest dose. If a non-significant result was observed at either time point, the differences between suvorexant and placebo for SE was considered nonsignificant for this and all lower doses.||-3.4|-37.0|0.019
82656331|NCT02937701|165028251|OTHER||Response Difference|-3.74|||||TWO_SIDED|90.0|-12.27|5.17||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||5.17|-12.27|
82604335|NCT03304522|164924640|SUPERIORITY||Least Squares (LS) Mean Difference|-1.085|||<|0.0001|TWO_SIDED|95.0|-1.876|-0.293|||Mixed-effects Model for Repeated Measure|||||-0.293|-1.876|<0.0001
82604336|NCT03304522|164924643|SUPERIORITY||LS Mean Difference|-1.111|||<|0.0001|TWO_SIDED|95.0|-1.911|-0.312|||Mixed-effects Model for Repeated Measure|||||-0.312|-1.911|<0.0001
82604337|NCT03304522|164924645|SUPERIORITY||LS Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-1.5|0.3|||Mixed-effects Model for Repeated Measure|||||0.3|-1.5|<0.0001
82604338|NCT00670709|164924649|SUPERIORITY_OR_OTHER_LEGACY||||||<|1e-07||95.0|||||t-test, 2 sided|||||||<0.0000001
82604339|NCT00670709|164924650|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.005||95.0|||||t-test, 2 sided|||HD subjects vs control subjects||||<0.005
82604340|NCT01360996|164924660|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||||||<.0001
82604341|NCT01360996|164924661|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82604342|NCT01360996|164924662|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82604343|NCT01360996|164924663|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82604344|NCT01360996|164924664|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||McNemar|||||||<0.0001
82604345|NCT01360996|164924665|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82604346|NCT01360996|164924666|SUPERIORITY_OR_OTHER||||||<|0.04|||||||ANOVA|||||||<0.04
82604347|NCT01173653|164924714|SUPERIORITY_OR_OTHER||Chi square|23.02|||<|0.05|||||||Chi-squared|||||||<0.05
82604348|NCT03529409|164924752|SUPERIORITY||Mean Difference (Net)|-0.287||||0.01|TWO_SIDED|95.0|-0.507|-0.066|||Mixed Models Analysis|||||-.066|-.507|.01
82604349|NCT03529409|164924753|SUPERIORITY||Mean Difference (Net)|1.95||||0.28|TWO_SIDED|95.0|-1.61|5.5||The overall omnibus test of the time by treatment interaction was p=.55. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||5.50|-1.61|.28
82604350|NCT03529409|164924754|SUPERIORITY||Mean Difference (Net)|157.0||||0.16|TWO_SIDED|95.0|-67.0|382.0||The overall omnibus test of the time by treatment interaction was p=.38. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||382|-67|.16
82604351|NCT03529409|164924755|SUPERIORITY||Mean Difference (Net)|0.25||||0.77|TWO_SIDED|95.0|-1.51|2.0||The overall omnibus test of the time by treatment interaction was p=.90. The estimate below is for post-treatment, comparing TAU to Khanya.|Mixed Models Analysis|||||2.00|-1.51|.77
82604352|NCT03529409|164924756|SUPERIORITY||Mean Difference (Net)|0.71||||0.63|TWO_SIDED|95.0|-2.24|3.67||The overall omnibus test of the time by treatment interaction was p=.55. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||3.67|-2.24|.63
82604353|NCT03529409|164924757|SUPERIORITY||Mean Difference (Net)|84.0||||0.44|TWO_SIDED|95.0|-136.0|304.0||The overall omnibus test of the time by treatment interaction was p=.38. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||304|-136|.44
82604354|NCT03529409|164924758|SUPERIORITY||Mean Difference (Net)|-0.16||||0.87|TWO_SIDED|95.0|-1.85|1.58||The overall omnibus test of the time by treatment interaction was p=.90. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||1.58|-1.85|.87
82604355|NCT03529409|164924763|SUPERIORITY||Mean Difference (Net)|-0.47||||0.65|TWO_SIDED|95.0|-2.49|1.55||The overall omnibus test of the time by treatment interaction was p=.89. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||1.55|-2.49|.65
82656332|NCT02937701|165028251|OTHER||Response Difference|1.12|||||TWO_SIDED|90.0|-8.89|11.08||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||11.08|-8.89|
82656333|NCT02937701|165028251|OTHER||Response Difference|-5.25|||||TWO_SIDED|90.0|-13.24|3.29||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||3.29|-13.24|
82604356|NCT03529409|164924764|SUPERIORITY||Mean Difference (Net)|3.3||||0.63|TWO_SIDED|95.0|-10.5|17.1||The overall omnibus test of the time by treatment interaction was p=.66. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||17.1|-10.5|.63
82604357|NCT03529409|164924765|SUPERIORITY||Mean Difference (Net)|-0.03||||0.85|TWO_SIDED|95.0|-0.34|0.28||The overall omnibus test of the time by treatment interaction was p=.94. The estimate below is for follow-up, comparing TAU to Khanya.|Mixed Models Analysis|||||.28|-.34|.85
82604358|NCT01272583|164924780|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||1.0
82604359|NCT01272583|164924781|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||GLP-1 intact|ANOVA|The Friedman Test was used for ANOVA||||||<0.001
82604360|NCT01272583|164924781|SUPERIORITY_OR_OTHER|||||||0.98||95.0||||GLP-1 Total|ANOVA|The Friedman Test was used for ANOVA.||||||0.98
82604361|NCT01272583|164924781|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||GIP intact|ANOVA|The Friedman Test was used for ANOVA.||||||0.049
82604362|NCT01272583|164924781|SUPERIORITY_OR_OTHER|||||||0.44||95.0||||GIP total|ANOVA|The Friedman Test was used for ANOVA||||||0.44
82604363|NCT01272583|164924782|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.14
82604364|NCT01272583|164924783|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.98
82604365|NCT01272583|164924784|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.22
82604366|NCT01272583|164924785|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.01
82604367|NCT01272583|164924785|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Dunn's Multiple Comparison Test|Post Hoc testing||||||<0.05
82604368|NCT01272583|164924786|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|The Friedman Test was used for ANOVA.||||||0.76
82604369|NCT02764541|164924808|EQUIVALENCE|The hypothesis is that there is no difference in anti-proliferative activity of Letrozole vs Tamoxifen by measuring the fold-change in percent Ki67 from baseline to day15 in log scale within hormone receptor positive breast cancer patients with invasive ductal carcinoma||||||0.0045|||||||Wilcoxon (Mann-Whitney)|||||||0.0045
82604370|NCT02764541|164924808|EQUIVALENCE|The hypothesis is that there is no difference in anti-proliferative activity of Letrozole vs Tamoxifen by measuring the fold-change in percent Ki67 from baseline to day15 in log scale within hormone receptor positive breast cancer patients with invasive lobular carcinoma||||||0.0161|||||||Wilcoxon (Mann-Whitney)|||||||0.0161
82604371|NCT02764541|164924809|EQUIVALENCE|The hypothesis is that there is no difference of pathologic response measured by RCB index between Arm C and Arm D||||||0.9288|||||||Wilcoxon (Mann-Whitney)|||||||0.9288
82604372|NCT02764541|164924811|EQUIVALENCE|The hypothesis is that there is no difference of pathologic response measured by RCB index between Arm C and Arm D|Mean Difference (Final Values)|0.02||||0.92|TWO_SIDED|95.0|-0.29|0.32|||Regression, Linear|||||0.32|-0.29|0.920
82604373|NCT02764541|164924812|EQUIVALENCE|The hypothesis is that there is no difference of RCB response rate between Arm C and Arm D||||||0.758|||||||Fisher Exact|||||||0.758
82604374|NCT00749190|164924814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|STANDARD_ERROR_OF_MEAN|0.1||0.0226|TWO_SIDED|95.0|-0.44|-0.03||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 1 mg minus placebo|||-0.03|-0.44|0.0226
82656334|NCT02937701|165028251|OTHER||Response Difference|-1.49|||||TWO_SIDED|90.0|-11.01|8.04||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||8.04|-11.01|
82656335|NCT02937701|165028252|OTHER||Response Difference|4.41|||||TWO_SIDED|90.0|-0.56|9.38||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.38|-0.56|
82656336|NCT02937701|165028252|OTHER||Response Difference|1.62|||||TWO_SIDED|90.0|-4.71|7.94||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.94|-4.71|
82656337|NCT02937701|165028252|OTHER||Response Difference|2.3|||||TWO_SIDED|90.0|-4.45|9.03||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.03|-4.45|
82656338|NCT02937701|165028252|OTHER||Response Difference|7.09|||||TWO_SIDED|90.0|0.27|13.83||||||The response difference at week 22 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.83|0.27|
82656339|NCT02937701|165028253|OTHER||Response Difference|-1.33|||||TWO_SIDED|90.0|-10.4|7.62||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.62|-10.40|
82656340|NCT02937701|165028253|OTHER||Response Difference|3.24|||||TWO_SIDED|90.0|-7.28|13.67||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.67|-7.28|
82656341|NCT02937701|165028253|OTHER||Response Difference|6.52|||||TWO_SIDED|90.0|-2.62|15.48||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||15.48|-2.62|
82604375|NCT00749190|164924814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.1||0.0002|TWO_SIDED|95.0|-0.59|-0.18||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 5 mg minus placebo|||-0.18|-0.59|0.0002
82604376|NCT00749190|164924814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.51||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 10 mg minus placebo|||-0.51|-0.91|<0.0001
82656342|NCT02937701|165028253|OTHER||Response Difference|10.74|||||TWO_SIDED|90.0|0.12|21.03||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||21.03|0.12|
82656343|NCT02937701|165028253|OTHER||Response Difference|0.56|||||TWO_SIDED|90.0|-8.54|9.59||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.59|-8.54|
82604377|NCT00749190|164924814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.91|-0.5||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 25 mg minus placebo|||-0.50|-0.91|<0.0001
82604378|NCT00749190|164924814|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.84|-0.43||P-values are regarded as descriptive, adjustment for multiple testing was not necessary.|ANCOVA|Based on ANCOVA with terms for treatment, number of previously used anti-diabetic medications, country and baseline.|Difference calculated as empagliflozin 50 mg minus placebo|||-0.43|-0.84|<0.0001
82604379|NCT04167345|164924892|SUPERIORITY||Mean Difference|1.7|||<|0.0001|TWO_SIDED|95.0|1.1|2.3|||t-test, 2 sided|||||2.3|1.1|<.0001
82604380|NCT04167345|164924892|SUPERIORITY||Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.1|2.9|||t-test, 2 sided|||||2.9|1.1|<.0001
82604381|NCT04167345|164924894|SUPERIORITY||Mean Difference|2.0||||0.0114|TWO_SIDED|95.0|0.5|3.4|||t-test, 2 sided|||||3.4|0.5|0.0114
82656344|NCT02937701|165028253|OTHER||Response Difference|2.93|||||TWO_SIDED|90.0|-7.62|13.39||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.39|-7.62|
82656345|NCT02937701|165028253|OTHER||Response Difference|-1.04|||||TWO_SIDED|90.0|-10.11|7.93||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.93|-10.11|
82656346|NCT02937701|165028253|OTHER||Response Difference|6.14|||||TWO_SIDED|90.0|-4.44|16.54||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||16.54|-4.44|
82656347|NCT02937701|165028253|OTHER||Response Difference|-5.43|||||TWO_SIDED|90.0|-14.39|3.71||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||3.71|-14.39|
82604382|NCT04167345|164924894|SUPERIORITY||Mean Difference|2.3||||0.0009|TWO_SIDED|95.0|1.1|3.5|||t-test, 2 sided|||||3.5|1.1|0.0009
82604383|NCT04063384|164924901|OTHER||||||<|0.05||||||The p-value was not adjusted for multiple comparisons.|Mixed Models Analysis||||Group (bipolar, healthy)-by-condition (alcohol, placebo)-by-time of subjective response interactions on subjective response to alcohol were modeled, covarying beverage condition order, biological sex, and age, with SEAS and DEQ subscale scores as the dependent variables. Time of subjective response (pre- and post-scan) and beverage condition (alcohol, placebo) were within-subject factors and group was an independent between-subject factor.|||<0.05
82604384|NCT04063384|164924902|OTHER||||||<|0.004||||||Results of primary models were considered significant at p ≤ 0.004 (Bonferroni correction for twelve ROI-to-ROI connections).|Mixed Models Analysis|||Power analysis suggests this sample size (n = 23 with bipolar disorder, n = 24 healthy comparison participants), at an alpha = 0.05, provides \> 80% statistical power to detect a within subject effect size (ES) d ≥ 0.6 in both subgroups and a between group ES d ≥ 0.8 in this fMRI analysis.|We used a mixed model to examine group by condition by hemisphere (left, right) interactions on ROI-to-ROI FC response to emotional stimuli (contrast: emotional stimuli - squares). Group was an independent between-subject factor, condition and hemisphere were within-subject factors, and ROI-to-ROI FC was the dependent variable.|||<0.004
82604385|NCT00951821|164924903|SUPERIORITY_OR_OTHER||Slope|-3.3||||0.46|TWO_SIDED|95.0|-12.1|5.5||Effect sizes were also calculated due to small sample size|Mixed Models Analysis||The reported statistic (-3.3) is the difference in the change from baseline to follow-up between the two treatment arms, estimated in a mixed effect regression model.|||5.5|-12.1|.46
82604386|NCT00951821|164924904|SUPERIORITY_OR_OTHER||Slope|0.4||||0.75|TWO_SIDED|95.0|-2.36|3.06|||Mixed Models Analysis||The statistic provided (0.4) is the difference in the change in BDI score from baseline to follow-up by treatment group.|||3.06|-2.36|.75
82604387|NCT04572633|164924920|OTHER||Wilson Score|95.5|||||TWO_SIDED|95.0|83.72|100.0|||||Bootstrap sampling with replacement method to account for potential within-subject lesion correlations. Subject is the bootstrap sampling unit, 1,000,000 iterations for bootstrap resampling, and the bias-corrected and accelerated method was used.|||100|83.72|
82604388|NCT04572633|164924921|OTHER||Wilson Score|6.8|||||TWO_SIDED|95.0|2.35|18.23||||||||18.23|2.35|
82604389|NCT02354833|164924951|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
82604390|NCT02354833|164924952|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||This analysis is comparing the percentage of participants with Nausea||||0.28
82604391|NCT02354833|164924952|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||This analysis is comparing the percentage of participants with Emesis||||< 0.001
82604392|NCT02354833|164924953|SUPERIORITY_OR_OTHER|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.10
82604393|NCT02354833|164924954|SUPERIORITY_OR_OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82604394|NCT05424276|164924955|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|1.895||0.686|TWO_SIDED|95.0|-4.522|2.985||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||2.985|-4.522|0.686
82604395|NCT05424276|164924955|SUPERIORITY||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|1.876||0.606|TWO_SIDED|95.0|-2.745|4.687||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||4.687|-2.745|0.606
82604396|NCT05424276|164924955|SUPERIORITY||Mean Difference (Net)|1.27|STANDARD_ERROR_OF_MEAN|1.925||0.509|TWO_SIDED|95.0|-2.539|5.086||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo from baseline to 12 weeks of treatment||5.086|-2.539|0.509
82604397|NCT05424276|164924956|SUPERIORITY||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|1.093||0.683|TWO_SIDED|95.0|-1.717|2.611||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||2.611|-1.717|0.683
82604398|NCT05424276|164924956|SUPERIORITY||Mean Difference (Net)|1.36|STANDARD_ERROR_OF_MEAN|1.08||0.212|TWO_SIDED|95.0|-0.783|3.495||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||3.495|-0.783|0.212
82656348|NCT02937701|165028253|OTHER||Response Difference|2.98|||||TWO_SIDED|90.0|-7.51|13.37||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.37|-7.51|
82604399|NCT05424276|164924956|SUPERIORITY||Mean Difference (Net)|0.45|STANDARD_ERROR_OF_MEAN|1.112||0.685|TWO_SIDED|95.0|-1.749|2.654||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo after 12 weeks of treatment||2.654|-1.749|0.685
82604400|NCT05424276|164924957|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.112||0.463|TWO_SIDED|95.0|-0.139|0.304||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of treatment||0.304|-0.139|0.463
82604401|NCT05424276|164924957|SUPERIORITY||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.11||0.133|TWO_SIDED|95.0|-0.051|0.383||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.383|-0.051|0.133
82604402|NCT05424276|164924957|SUPERIORITY||Mean Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.112||0.575|TWO_SIDED|95.0|-0.159|0.286||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.286|-0.159|0.575
82604403|NCT05424276|164924958|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.146||0.178|TWO_SIDED|95.0|-0.488|0.092||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 week of dosing||0.092|-0.488|0.178
82604404|NCT05424276|164924958|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.145||0.931|TWO_SIDED|95.0|-0.274|0.3||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.300|-0.274|0.931
82604405|NCT05424276|164924958|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.149||0.38|TWO_SIDED|95.0|-0.426|0.163||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.163|-0.426|0.380
82604406|NCT05424276|164924959|SUPERIORITY||Mean Difference (Net)|-0.98|STANDARD_ERROR_OF_MEAN|0.669||0.144|TWO_SIDED|95.0|-2.308|0.342||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.342|-2.308|0.144
82656349|NCT02937701|165028254|OTHER||Response Difference|-2.5|||||TWO_SIDED|90.0|-5.84|0.83||||||The response difference at week 2 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||0.83|-5.84|
82604407|NCT05424276|164924959|SUPERIORITY||Mean Difference (Net)|-1.41|STANDARD_ERROR_OF_MEAN|0.662||0.036|TWO_SIDED|95.0|-2.72|-0.096||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||-0.096|-2.720|0.036
82604408|NCT05424276|164924959|SUPERIORITY||Mean Difference (Net)|-1.17|STANDARD_ERROR_OF_MEAN|0.68||0.089|TWO_SIDED|95.0|-2.514|0.18||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.180|-2.514|0.089
82604409|NCT05424276|164924960|SUPERIORITY||Mean Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|1.668||0.916|TWO_SIDED|95.0|-3.127|3.477||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||3.477|-3.127|0.916
82604410|NCT05424276|164924960|SUPERIORITY||Mean Difference (Net)|2.35|STANDARD_ERROR_OF_MEAN|1.652||0.158|TWO_SIDED|95.0|-0.921|5.621||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||5.621|-0.921|0.158
82604411|NCT05424276|164924960|SUPERIORITY||Mean Difference (Net)|2.41|STANDARD_ERROR_OF_MEAN|1.694||0.157|TWO_SIDED|95.0|-0.941|5.768||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||5.768|-0.941|0.157
82604412|NCT05424276|164924961|SUPERIORITY||Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|0.645||0.297|TWO_SIDED|95.0|-1.952|0.602||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.602|-1.952|0.297
82604413|NCT05424276|164924961|SUPERIORITY||Mean Difference (Net)|-0.77|STANDARD_ERROR_OF_MEAN|0.639||0.233|TWO_SIDED|95.0|-2.032|0.5||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.500|-2.032|0.233
82604414|NCT05424276|164924961|SUPERIORITY||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.657||0.464|TWO_SIDED|95.0|-0.818|1.783||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.783|-0.818|0.464
82604415|NCT05424276|164924962|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|3.845||0.943|TWO_SIDED|95.0|-7.346|7.898||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||7.898|-7.346|0.943
82604416|NCT05424276|164924962|SUPERIORITY||Mean Difference (Net)|0.93|STANDARD_ERROR_OF_MEAN|3.769||0.806|TWO_SIDED|95.0|-6.547|8.402||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||8.402|-6.547|0.806
82604417|NCT05424276|164924962|SUPERIORITY||Mean Difference (Net)|1.02|STANDARD_ERROR_OF_MEAN|3.884||0.794|TWO_SIDED|95.0|-6.686|8.719||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||8.719|-6.686|0.794
82604418|NCT05424276|164924963|SUPERIORITY||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|0.654||0.173|TWO_SIDED|95.0|-2.193|0.4||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.400|-2.193|0.173
82656350|NCT02937701|165028254|OTHER||Response Difference|-2.43|||||TWO_SIDED|90.0|-7.47|2.64||||||The response difference at week 6 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||2.64|-7.47|
82604419|NCT05424276|164924963|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|0.644||0.393|TWO_SIDED|95.0|-1.828|0.725||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.725|-1.828|0.393
82604420|NCT05424276|164924963|SUPERIORITY||Mean Difference (Net)|-0.96|STANDARD_ERROR_OF_MEAN|0.648||0.141|TWO_SIDED|95.0|-2.246|0.323||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.323|-2.246|0.141
82656351|NCT02937701|165028254|OTHER||Response Difference|5.46|||||TWO_SIDED|90.0|-0.01|10.91||||||The response difference at week 14 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.91|-0.01|
82604421|NCT05424276|164924964|SUPERIORITY||Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.578||0.704|TWO_SIDED|95.0|-0.925|1.366||Study not sized for efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.366|-0.925|0.704
82604422|NCT05424276|164924964|SUPERIORITY||Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.564||0.506|TWO_SIDED|95.0|-0.742|1.494||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.494|-0.742|0.506
82604423|NCT05424276|164924964|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.578||0.888|TWO_SIDED|95.0|-1.227|1.063||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||1.063|-1.227|0.888
82604424|NCT05424276|164924965|SUPERIORITY||Mean Difference (Net)|0.04|STANDARD_ERROR_OF_MEAN|0.014||0.004|TWO_SIDED|95.0|0.013|0.067||Study was not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.067|0.013|0.004
82604425|NCT05424276|164924965|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.125|TWO_SIDED|95.0|-0.006|0.047||Study was not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.047|-0.006|0.125
82604426|NCT05424276|164924965|SUPERIORITY||Mean Difference (Net)|0.02|STANDARD_ERROR_OF_MEAN|0.014||0.179|TWO_SIDED|95.0|-0.009|0.046||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.046|-0.009|0.179
82604427|NCT05424276|164924966|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.095||0.321|TWO_SIDED|95.0|-0.283|0.094||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.094|-0.283|0.321
82656352|NCT02937701|165028254|OTHER||Response Difference|4.58|||||TWO_SIDED|90.0|-1.21|10.34||||||The response difference at week 22 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.34|-1.21|
82604428|NCT05424276|164924966|SUPERIORITY||Mean Difference (Net)|-0.07|STANDARD_ERROR_OF_MEAN|0.094||0.444|TWO_SIDED|95.0|-0.259|0.114||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.114|-0.259|0.444
82604429|NCT05424276|164924966|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.097||0.154|TWO_SIDED|95.0|-0.332|0.053||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.053|-0.332|0.154
82656353|NCT02937701|165028255|OTHER||Response Difference|0.2|||||TWO_SIDED|90.0|-8.12|8.02||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||8.02|-8.12|
82656354|NCT02937701|165028255|OTHER||Response Difference|-0.08|||||TWO_SIDED|90.0|-9.39|9.28||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 30 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.28|-9.39|
82656355|NCT02937701|165028255|OTHER||Response Difference|1.5|||||TWO_SIDED|90.0|-7.0|9.51||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||9.51|-7.00|
82656356|NCT02937701|165028255|OTHER||Response Difference|7.49|||||TWO_SIDED|90.0|-2.39|17.22||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 34 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.22|-2.39|
82656357|NCT02937701|165028255|OTHER||Response Difference|-0.5|||||TWO_SIDED|90.0|-9.03|7.59||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.59|-9.03|
82656358|NCT02937701|165028255|OTHER||Response Difference|3.39|||||TWO_SIDED|90.0|-6.41|13.14||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 38 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||13.14|-6.41|
82656359|NCT02937701|165028255|OTHER||Response Difference|-0.43|||||TWO_SIDED|90.0|-8.98|7.66||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||7.66|-8.98|
82656360|NCT02937701|165028255|OTHER||Response Difference|7.87|||||TWO_SIDED|90.0|-2.13|17.68||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 46 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||17.68|-2.13|
82656361|NCT02937701|165028255|OTHER||Response Difference|1.95|||||TWO_SIDED|90.0|-6.81|10.29||||||The response difference (ABP 710/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||10.29|-6.81|
82656362|NCT02937701|165028255|OTHER||Response Difference|12.06|||||TWO_SIDED|90.0|1.74|22.04||||||The response difference (Infliximab/ABP 710 minus Infliximab/Infliximab) at week 50 was estimated by the Mantel-Haenszel estimate; 90% confidence intervals were estimated from the stratified Newcombe confidence limits, adjusting for actual stratification factors (geographic region and prior biologic use).||22.04|1.74|
82604430|NCT05424276|164924967|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.104||0.95|TWO_SIDED|95.0|-0.199|0.212||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.212|-0.199|0.950
82604431|NCT05424276|164924967|SUPERIORITY||Mean Difference (Net)|-0.14|STANDARD_ERROR_OF_MEAN|0.102||0.189|TWO_SIDED|95.0|-0.338|0.067||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.067|-0.338|0.189
82604432|NCT05424276|164924967|SUPERIORITY||Mean Difference (Net)|-0.09|STANDARD_ERROR_OF_MEAN|0.105||0.374|TWO_SIDED|95.0|-0.301|0.114|||Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.114|-0.301|0.374
82604433|NCT05424276|164924968|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.058||0.803|TWO_SIDED|95.0|-0.101|0.131||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.131|-0.101|0.803
82656363|NCT02937701|165028256|OTHER||Mean Difference|-0.07|||||TWO_SIDED|90.0|-0.2|0.007||||||Week 2 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.007|-0.20|
82656364|NCT02937701|165028256|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.17|0.16||||||Week 6 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.16|-0.17|
82656365|NCT02937701|165028256|OTHER||Mean Difference|-0.04|||||TWO_SIDED|90.0|-0.21|0.14||||||Week 14 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.14|-0.21|
82656366|NCT02937701|165028256|OTHER||Mean Difference|-0.01|||||TWO_SIDED|90.0|-0.2|0.17||||||Week 22 difference between means (ABP 710 minus infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.17|-0.20|
82604434|NCT05424276|164924968|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.058||0.935|TWO_SIDED|95.0|-0.11|0.12||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.120|-0.110|0.935
82656367|NCT02937701|165028257|OTHER||Mean Difference|0.16|||||TWO_SIDED|90.0|-0.08|0.4||||||Week 30 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.40|-0.08|
82604435|NCT05424276|164924968|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.968|TWO_SIDED|95.0|-0.116|0.121||Study not sized to evaluate efficacy|Mixed Models Analysis|||Change relative to placebo at 12 weeks of dosing||0.121|-0.116|0.968
82604436|NCT00885365|164924996|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority is shown if the lower limit of the two-sided 95% confidence interval is above the non-inferiority margin set at -4.5%.|difference of least square means|-0.5||||0.64|TWO_SIDED|95.0|-2.58|1.59|||ANCOVA|||Based on previous studies, the difference between reference and placebo after 4-week treatment is assumed to be about 12% and the non-inferiority margin safely placed at 4.5%. With a between-patient SD of 13.5% and estimated difference between treatments of zero, sample size of 143 per group allows a 80% power to show the non-inferiority of Bramitob® versus TOBI®. Accounting for an expected dropout rate of 11%, a minimum of 160 participants per group is required.||1.59|-2.58|0.640
82604437|NCT00885365|164924998|SUPERIORITY_OR_OTHER||difference of least square means|-0.01||||0.634|TWO_SIDED|95.0|-0.08|0.05|||ANCOVA|||Analysis for Week 4||0.05|-0.08|0.634
82604438|NCT00885365|164924999|SUPERIORITY_OR_OTHER||difference of least square means|-0.55||||0.63|TWO_SIDED|95.0|-2.78|1.69|||ANCOVA|||Analysis for Week 4||1.69|-2.78|0.630
82656368|NCT02937701|165028257|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.27|0.28||||||Week 30 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.28|-0.27|
82656369|NCT02937701|165028257|OTHER||Mean Difference|0.11|||||TWO_SIDED|90.0|-0.12|0.35||||||Week 34 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.35|-0.12|
82656370|NCT02937701|165028257|OTHER||Mean Difference|-0.03|||||TWO_SIDED|90.0|-0.3|0.24||||||Week 34 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.24|-0.30|
82656371|NCT02937701|165028257|OTHER||Mean Difference|0.06|||||TWO_SIDED|90.0|-0.18|0.3||||||Week 38 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.30|-0.18|
82604439|NCT00885365|164925000|SUPERIORITY_OR_OTHER||difference of least square means|-0.02||||0.693|TWO_SIDED|95.0|-0.09|0.06|||ANCOVA|||Analysis for Week 4||0.06|-0.09|0.693
82604440|NCT00885365|164925001|SUPERIORITY_OR_OTHER||difference of least square means|0.51||||0.777|TWO_SIDED|95.0|-3.06|4.09|||ANCOVA|||Analysis for Week 4||4.09|-3.06|0.777
82604441|NCT00885365|164925002|SUPERIORITY_OR_OTHER||difference of least square means|0.04||||0.505|TWO_SIDED|95.0|-0.08|0.15|||ANCOVA|||Analysis for Week 4||0.15|-0.08|0.505
82604442|NCT00885365|164925003|SUPERIORITY_OR_OTHER||difference of least square means|0.04|STANDARD_ERROR_OF_MEAN|0.18||0.82|TWO_SIDED|95.0|-0.31|0.39||A priori threshold for statistical significance is \<= 0.050.|ANCOVA|treatment and country are fixed effects and baseline log10 bacterial load (CFU/g) value is a covariate||Analysis of Week 4 data||0.39|-0.31|0.820
82604443|NCT00885365|164925006|SUPERIORITY_OR_OTHER|||||||0.692||||||A priori threshold for statistical significance is \<= 0.050.|Cochran-Mantel-Haenszel|Test controlling for country.||Week 4||||0.692
82604444|NCT00885365|164925006|SUPERIORITY_OR_OTHER|||||||0.128||||||A priori threshold for statistical significance is \<= 0.050.|Cochran-Mantel-Haenszel|Test controlling for country.||Week 8||||0.128
82604445|NCT00004054|164925013|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.04||||0.81|TWO_SIDED|95.0|0.76|1.43|||Log Rank|||The original target sample size was 1440 patients with a requirement of 340 deaths to test the hypothesis of overall survival (OS) efficacy of the hormones and RT plus chemotherapy arm; the design is based on detecting a 6% absolute improvement in 5-year OS from 79% to 85%, or a 33% relative reduction in the yearly hazard rate, with 90% power and a 2-sided significance level of 0.05.||1.43|0.76|0.81
82604446|NCT00004054|164925014|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.82|TWO_SIDED|95.0|0.74|1.27|||Gray's test|2-sided significance level of 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.27|0.74|0.82
82604447|NCT00004054|164925015|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.09|TWO_SIDED|95.0|0.28|1.1|||Gray's test|2-sided significance level = 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.10|0.28|0.09
82604448|NCT00004054|164925016|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.42|TWO_SIDED|95.0|0.48|1.36|||Gray's test|2-sided significance level = 0.05|Fine-Gray regression model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.36|0.48|0.42
82656372|NCT02937701|165028257|OTHER||Mean Difference|-0.08|||||TWO_SIDED|90.0|-0.36|0.2||||||Week 38 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.20|-0.36|
82656373|NCT02937701|165028257|OTHER||Mean Difference|0.11|||||TWO_SIDED|90.0|-0.14|0.37||||||Week 46 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.37|-0.14|
82604449|NCT00004054|164925017|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.61|TWO_SIDED|95.0|0.75|1.19|||Log Rank|2-sided significance level = 0.05|Cox proportional hazards model was used to obtain the hazard ratio. Reference level = Hormones and RT.|||1.19|0.75|0.61
82604450|NCT00473876|164925018|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.38||||0.08||95.0|||||t-test, 1 sided|The differences between baseline and post-intervention (4 months) was analyzed using independent t-test, comparing metformin and placebo.||Null hypothesis: Metformin has no effect on peak VO2. We targetted 66 subjects and power calculation based on our previous observational study of CHF with insulin resistance with mean peak VO2 of 11.||||0.08
82604451|NCT00473876|164925019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.45|STANDARD_DEVIATION|10.72||0.034||95.0|||||t-test, 1 sided|Compare between metformin and placebo arm.||Null hypothesis: Metformin has no effect on the ratio between VCO2 (production of CO2) and VE (ventilation), it is also called the VE/VCO2 slope||||0.034
82604452|NCT01818297|164925051|SUPERIORITY||Risk Difference (RD)|11.5|STANDARD_ERROR_OF_MEAN|10.5||0.14|ONE_SIDED|95.0|-5.8|||Due to early termination, the study was insufficiently powered to test the primary objective. This analysis is exploratory and descriptive in nature and cannot be considered conclusive.|Z-test|The Z-test (using an unpooled standard deviation, without continuity correction) was used to test the difference in responder rates between groups.|The Estimation Parameter is the difference between the responder rates in the Treatment and Control groups. The difference is calculated as Treatment - Control. A positive number represents a higher responder rate in the Treatment group.|The original sample size estimate for the primary objective was based on the following assumptions: 109 subjects in each arm with a responder rate of 22% in the Control group and 40% in the Treatment group, and a one-sided α= 0.05 using a Z test with unpooled variance, would result in 90% power. Because the study terminated early, the actual sample size (32 in Treatment, 30 in Control) resulted in 47% power under the same assumptions.|||-5.8|0.14
82604453|NCT04373460|164925067|SUPERIORITY||Risk Difference (RD)|3.4||||0.005|TWO_SIDED|95.0|1.0|5.8|||Fisher Exact|||||5.8|1.0|0.005
82604454|NCT04373460|164925068|SUPERIORITY||Risk Difference (RD)|-0.05||||0.16|TWO_SIDED|95.0|-0.11|0.02|||Rate per person-years|||||0.02|-0.11|0.16
82604455|NCT04373460|164925069|SUPERIORITY||Incidence rate difference|0.18||||0.02|TWO_SIDED|95.0|0.03|0.32|||Rate per person-years|||||0.32|0.03|0.02
82604456|NCT04373460|164925070|SUPERIORITY||Risk Difference (RD)|0.01||||0.32|TWO_SIDED|95.0|-0.01|0.02|||Rate per person-years|||||0.02|-0.01|0.32
82604457|NCT04373460|164925075|SUPERIORITY|||||||0.65|||||||Fisher Exact|||||||0.65
82604458|NCT04373460|164925079|SUPERIORITY||Risk Ratio (RR)|0.525|||||TWO_SIDED|95.0|0.192|1.425||||||||1.425|0.192|
82604459|NCT03359902|164925124|SUPERIORITY||beta|1.4||||0.11|TWO_SIDED||||||Mixed Models Analysis|||"A linear mixed effects model was conducted to account for carryover and order effects in this crossover trial.~Assuming α = 0.05, two-sided test, and 60 participants in total. If the carryover effect is negligible, we will have 90% power to detect an effect size of 0.604 for memory improvement"||||0.11
82604460|NCT01795547|164925125|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of the primary endpoint was considered confirmed if the lower bound of the 2-sided 95% CI at Week 28 was \> -5 or equivalently if the p-value for the 1-sided test of H0: D ≤ -5 against H1: D \> -5 was ≤2.5%, where D was the mean treatment difference (aripiprazole minus paliperidone). Superiority was then tested as pre-specified with the FAS and demonstrated for aripiprazole over paliperidone, since the lower bound of the 95% CI was \>0.|Least Squares Mean Difference|4.666||||0.036|TWO_SIDED|95.0|0.316|9.015|||Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||Comparison of aripiprazole versus paliperidone was made using estimates from a mixed model for repeated measurements (MMRM) using an unstructured covariance matrix.||9.015|0.316|0.036
82604461|NCT01795547|164925126|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.492||||0.043|TWO_SIDED|95.0|-2.935|-0.049||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||-0.049|-2.935|0.043
82604462|NCT01795547|164925127|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.283||||0.004|TWO_SIDED|95.0|-0.477|-0.09||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||-0.090|-0.477|0.004
82604463|NCT01795547|164925128|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.331||||0.149|TWO_SIDED|95.0|-0.12|0.782||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||0.782|-0.120|0.149
82656374|NCT02937701|165028257|OTHER||Mean Difference|-0.05|||||TWO_SIDED|90.0|-0.34|0.25||||||Week 46 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.25|-0.34|
82604464|NCT01795547|164925129|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.753||||0.039|TWO_SIDED|95.0|0.093|3.412||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||3.412|0.093|0.039
82492260|NCT03535844|164677738|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 nitric oxide values||||||0.07
82492261|NCT03535844|164677738|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 nitric oxide values||||||<0.05
82492262|NCT03535844|164677739|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Independent t-test of change values||||||<0.05
82604465|NCT01795547|164925130|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.764||||0.07|TWO_SIDED|95.0|-0.143|3.672||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||3.672|-0.143|0.070
82604466|NCT01795547|164925131|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.922||||0.13|TWO_SIDED|95.0|-0.275|2.119||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||2.119|-0.275|0.130
82604467|NCT01795547|164925132|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.007||||0.561|TWO_SIDED|95.0|-2.402|4.417||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||4.417|-2.402|0.561
82604468|NCT01795547|164925133|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.695||||0.095|TWO_SIDED|95.0|-1.511|0.121||All secondary endpoints were tested without any hierarchical testing strategy and no adjustment for multiplicity|Mixed Models Analysis|The model uses an unstructured variance/covariance matrix.||||0.121|-1.511|0.095
82604469|NCT00151892|164925134|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|A 2-sided 95% confidence interval (CI) for the difference in the percentages of subjects in remission at 6 months of the two treatment groups will be computed. Non-inferiority of SPD476 to Asacol will be concluded if the lower limit of the 95% CI lies above the non-inferiority margin of -10%.|Difference in proportions|0.02||||||95.0|-0.04|0.08||||||The null hypothesis to be tested is that the true difference in proportions is less than or equal to -10%.||0.08|-0.04|
82604470|NCT05775289|164925146|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9705|TWO_SIDED|95.0|0.63|1.56|||Log Rank|||||1.56|0.63|0.9705
82604471|NCT05775289|164925147|SUPERIORITY||Odds Ratio (OR)|0.77||||0.4056|TWO_SIDED|95.0|0.42|1.43|||Cochran-Mantel-Haenszel|||||1.43|0.42|0.4056
82604472|NCT03726268|164925175|OTHER|||||||0.97|||||||Negative binomial regression|||||||0.970
82604473|NCT03726268|164925175|OTHER|||||||0.631|||||||Negative binomial regression|||||||0.631
82604474|NCT03726268|164925176|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82604475|NCT03726268|164925176|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82604476|NCT03726268|164925177|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82604477|NCT03726268|164925177|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82604478|NCT03726268|164925178|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82604479|NCT03726268|164925178|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82604480|NCT03726268|164925179|OTHER|||||||0.105|||||||Negative binomial regression|||||||0.105
82604481|NCT03726268|164925179|OTHER|||||||0.531|||||||Negative binomial regression|||||||0.531
82492263|NCT03535844|164677740|SUPERIORITY|||||||0.4855|||||||t-test, 2 sided|Independent t-test of change triglyceride values||||||0.4855
82604482|NCT04336397|164925182|SUPERIORITY||Odds Ratio (OR)|1.2||||0.04|TWO_SIDED|95.0|1.0|1.5|||Chi-squared|||||1.5|1.0|0.04
82604483|NCT04336397|164925182|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82492264|NCT03535844|164677740|SUPERIORITY|||||||0.1393|||||||t-test, 2 sided|Independent t-test of change total cholesterol values||||||0.1393
82492265|NCT03535844|164677740|SUPERIORITY|||||||0.2221|||||||t-test, 2 sided|Independent t-test of change LDL cholesterol values||||||0.2221
82492266|NCT03535844|164677740|SUPERIORITY|||||||0.078|||||||t-test, 2 sided|Independent t-test of change HDL cholesterol values||||||0.078
82604484|NCT03498521|164925217|SUPERIORITY||Stratified Cox proportional hazard|0.75||||0.0177|TWO_SIDED|95.0|0.59|0.95|||Stratified log-rank|||||0.95|0.59|0.0177
82604485|NCT01499173|164925248|SUPERIORITY||||||<|0.01||||||Actual p value shown here; not threshold.|multilevel linear regression|||||||<0.01
82604486|NCT01499173|164925249|SUPERIORITY|||||||0.34|||||||multilevel linear regression|||||||0.34
82604487|NCT01499173|164925250|OTHER|odds ratio|Odds Ratio (OR)|-0.5|||||TWO_SIDED|||||||||Odds ratio was calculated for each question comparing 1 week data with 1 month data||||
82604488|NCT03804671|164925254|OTHER|Absolute bioavailability. The statistical model was an ANOVA on the logarithmic scale including the fixed effect for 'formulation' and 'subject' as a random effect.|Ratio of the geometric means (T/R) %|70.32|||||TWO_SIDED|90.0|56.69|87.23|||||The geometric coefficient of variation (gCV) = 18.7. Ratio was calculated as (AUC0-∞/dose) oral /(AUC0-∞/dose) intravenous multiplied by 100.|||87.23|56.69|
82604489|NCT00603239|164925255|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No adjustments were made (alpha = 0.05).|ANCOVA|No adjustments for multiplicity were made.||Null hypothesis = Change from baseline in HbA1c is equal between the two treatment groups. Greater than 99% power to detect a difference between treatment groups of 0.88% in change in HbA1c from baseline using a 2-sided t-test at a significance level of 0.05.||||<0.001
82604490|NCT00603239|164925256|SUPERIORITY_OR_OTHER|||||||0.113||95.0||||No adjustments (alpha = 0.05).|CMH test|No adjustment for multiplicity.||Null hypothesis = Proportion of subjects with HbA1c \<= 7% is equal between the two treatment groups.||||0.113
82604491|NCT00603239|164925257|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||No adjustments (alpha = 0.05).|CMH test|No adjustment for multiplicity.||Null hypothesis = Proportion of subjects achieving HbA1c \<= 6.5% is equal between the two treatment groups.||||0.004
82604492|NCT00603239|164925258|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in FSG is equal between the two treatment groups.||||0.009
82604493|NCT00603239|164925259|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline to endpoint in body weight is equal between the two treatment groups.||||0.176
82604494|NCT00603239|164925261|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change form baseline in HOMA-B is equal between the two treatment groups.||||0.009
82604495|NCT00603239|164925262|SUPERIORITY_OR_OTHER|||||||0.794||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in HOMA-S is equal between the two treatment groups.||||0.794
82604496|NCT00603239|164925263|SUPERIORITY_OR_OTHER|||||||1||95.0||||No adjustments (alpha = 0.05).|Fisher Exact|No adjustment for multiplicity.||Null hypothesis = Incidence of minor hypoglycemia episodes is equal between the two treatment groups.||||1.00
82604497|NCT00603239|164925264|SUPERIORITY_OR_OTHER|||||||0.342||95.0||||No adjustments (alpha = 0.05).|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in IWQOL-Lite Total Score is equal between the two treatment groups. This statistical analysis is for the Total Score only.||||0.342
82604498|NCT00603239|164925265|SUPERIORITY_OR_OTHER|||||||0.186||95.0||||No adjustments (alpha = 0.05)|ANCOVA|No adjustment for multiplicity.||Null hypothesis = Change from baseline in EQ-5D score is equal between the two treatment groups. This statistical analysis is for the EQ-5D Health State Score only.||||0.186
82604499|NCT01147926|164925307|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82604500|NCT01276288|164925370|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.08|STANDARD_DEVIATION|11.8||0.0092|TWO_SIDED|90.0|97.11|118.07||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus HCT divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||118.07|97.11|0.0092
82604501|NCT01276288|164925370|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.83|STANDARD_DEVIATION|8.9||0.003|TWO_SIDED|90.0|100.14|116.11||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus TOR divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||116.11|100.14|0.0030
82604502|NCT01276288|164925371|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.78|STANDARD_DEVIATION|18.3||0.0199|TWO_SIDED|90.0|88.55|119.29||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ HCT divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||119.29|88.55|0.0199
82604503|NCT01276288|164925371|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|107.5|STANDARD_DEVIATION|11.3||0.0086|TWO_SIDED|90.0|97.9|118.04||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR divided by Empa"|ANOVA|Model was adjusted for sequence, period and treatment as fixed effects while subjects within sequences as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||118.04|97.90|0.0086
82604504|NCT01276288|164925372|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|96.27|STANDARD_DEVIATION|9.6||0.0008|TWO_SIDED|90.0|89.08|104.05||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus HCT divided by HCT"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||104.05|89.08|0.0008
82604505|NCT01276288|164925373|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|101.77|STANDARD_DEVIATION|17.1||0.0114|TWO_SIDED|90.0|88.63|116.85||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ HCT divided by HCT"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+HCT were included||116.85|88.63|0.0114
82604506|NCT01276288|164925374|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|101.44|STANDARD_DEVIATION|2.9|<|0.0001|TWO_SIDED|90.0|99.06|103.88||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa plus TOR divided by TOR"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||103.88|99.06|<0.0001
82604507|NCT01276288|164925374|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|104.42|STANDARD_DEVIATION|4.8|<|0.0001|TWO_SIDED|90.0|100.39|108.62||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M1 divided by TOR-M1"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||108.62|100.39|<0.0001
82604508|NCT01276288|164925374|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|103.19|STANDARD_DEVIATION|8.9||0.0005|TWO_SIDED|90.0|95.93|111.01||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M3 divided by TOR-M3"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||111.01|95.93|0.0005
82604509|NCT01276288|164925375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|104.43|STANDARD_DEVIATION|13.1||0.0066|TWO_SIDED|90.0|93.81|116.25||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR divided by TOR"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||116.25|93.81|0.0066
82604510|NCT01276288|164925375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.67|STANDARD_DEVIATION|10.6||0.0012|TWO_SIDED|90.0|94.13|111.97||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M1 divided by TOR-M1"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||111.97|94.13|0.0012
82656375|NCT02937701|165028257|OTHER||Mean Difference|0.0|||||TWO_SIDED|90.0|-0.24|0.24||||||Week 50 difference between means (ABP 710/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.24|-0.24|
82656376|NCT02937701|165028257|OTHER||Mean Difference|-0.2|||||TWO_SIDED|90.0|-0.47|0.08||||||Week 50 difference between means (Infliximab/ABP 710 minus Infliximab/Infliximab) and 90% CIs for difference between means were based on ANCOVA model with the DAS28-CRP change from baseline as the response and adjusted for the baseline DAS28-CRP measurement and the actual stratification factors: geographic region and prior biologic use for RA.||0.08|-0.47|
82656377|NCT01108094|165028273|OTHER|||||||0.04|||||||t-test, 2 sided|||"Percent change in Ki67 tumor proliferation biomarker from baseline to 1 month, for Cohort A1 (vismodegib-naive patients, n = 8).~Paired analysis of tumors shows percent change between baseline (prior to treatment) and post-itraconazole treatment in individual patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month of treatment."||||0.04
82604511|NCT01276288|164925375|NON_INFERIORITY_OR_EQUIVALENCE|No formal testing in a confirmatory sense|Geometric mean ratio|102.42|STANDARD_DEVIATION|5.8|<|0.0001|TWO_SIDED|90.0|97.65|107.42||"p-value for ratio outside interval 80-125%~Ratio calculated as Empa+ TOR-M3 divided by TOR-M3"|ANOVA|Model was adjusted for treatment as fixed effect and subject as random effect|Standard deviation is actually the geometric coefficient of variation (gCV) reflecting intra-subject variabilities|Only patients in sequences Empa/Empa+TOR were included||107.42|97.65|<0.0001
82604512|NCT00700804|164925459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|STANDARD_DEVIATION|2.5||0.05|||||||Mixed Models Analysis|Effects of calcium (Ca), protein \& their interaction were tested using repeated measures analysis of variance (subjects nested under High or Low Ca)|Reported analysis is the main effect of Calcium (High vs Low) from the Mixed Model Analysis which averages across the two levels of dietary protein. The main effect of protein and the calcium x protein interaction were not statistically significant.|||||0.05
82604513|NCT02901431|164925460|SUPERIORITY||Difference in Adjusted LSMeans|-0.16||||0.911|TWO_SIDED|90.0|-2.56|2.23|||Mixed Models Analysis|||||2.23|-2.56|0.911
82604514|NCT02901431|164925461|SUPERIORITY||Difference in adjused LSMean|0.29|||||TWO_SIDED|90.0|-1.85|2.43||||||Week 12||2.43|-1.85|
82604515|NCT02901431|164925461|SUPERIORITY||Difference in adjusted LSMean|-0.23|||||TWO_SIDED|90.0|-2.67|2.22||||||Week 24||2.22|-2.67|
82604516|NCT02901431|164925462|SUPERIORITY||Difference in adjusted LSMean|-0.22|||||TWO_SIDED|90.0|-2.36|1.92||||||Communication Domain Standard Score, Week 12||1.92|-2.36|
82604517|NCT02901431|164925462|SUPERIORITY||Difference in adjusted LSMean|0.71|||||TWO_SIDED|90.0|-1.6|3.02||||||Communication Domain Standard Score, Week 24||3.02|-1.60|
82604518|NCT02901431|164925462|SUPERIORITY||Difference in adjusted LSMean|0.51|||||TWO_SIDED|90.0|-2.1|3.12||||||Socialization Domain Standard Score, Week 12||3.12|-2.10|
82604519|NCT02901431|164925462|SUPERIORITY|Socialization Domain Standard Score, Week 24|Difference in adjusted LSMean|-0.61|||||TWO_SIDED|90.0|-3.74|2.51||||||||2.51|-3.74|
82604520|NCT02901431|164925462|SUPERIORITY|Daily Living Skills Domain Standard Score, Week 12|Difference in adjusted LSMean|2.14|||||TWO_SIDED|90.0|-0.63|4.9||||||||4.90|-0.63|
82604521|NCT02901431|164925462|SUPERIORITY|Daily Living Skills Domain Standard Score, Week 24|Differences in adjusted LSMean|0.18|||||TWO_SIDED|90.0|-2.87|3.22||||||||3.22|-2.87|
82656378|NCT01108094|165028273|OTHER|||||||0.079|||||||t-test, 1 sided|||"Percent change in Ki67 tumor proliferation biomarker - baseline vs 1 month - Cohort A, vismodegib-naive (n = 8) vs control patients Unpaired analysis shows percent change between individual tumors from control patients and itraconazole treated patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month of treatment."||||0.079
82656379|NCT01108094|165028273|OTHER|||||||0.652|||||||t-test, 2 sided|||"Percent change in Ki67 tumor proliferation biomarker - baseline vs 1 month - control patients Paired analysis of tumors shows percent change between baseline and after 1 month in individual patients.~% change was calculated from the difference between the mean of baseline Ki67 levels and the mean Ki67 levels after 1 month."||||0.652
82656380|NCT01108094|165028274|OTHER|||||||0.028|||||||t-test, 2 sided|||"Percentage change in GLI1 messenger RNA (mRNA) expression Paired analysis of tumors shows percent change between baseline (prior to treatment) and post itraconazole treatment in individual patients.~% change was calculated from the difference between the mean of baseline Gli levels and the mean Gli level after 1 month of treatment."|Wilcoxon signed rank test|||0.028
82604522|NCT02901431|164925468|SUPERIORITY||Difference of Adjusted LS Means|3.74|||||TWO_SIDED|90.0|0.78|6.7|||Mixed Models Analysis|||Week 12||6.70|0.78|
82604523|NCT02901431|164925468|SUPERIORITY||Difference of Adjusted LS means|2.28|||||TWO_SIDED|90.0|-0.73|5.29||||||Week 24||5.29|-0.73|
82604524|NCT02901431|164925470|SUPERIORITY||Difference in Adjusted LS Means|0.01||||0.992|TWO_SIDED|90.0|-1.99|2.01|||Mixed Models Analysis|||||2.01|-1.99|0.992
82604525|NCT04743856|164925524|OTHER|||||||0.63||||||Apriori p-value for significance was \<0.05. Models were not adjusted for additional covariates and multiple comparisons adjustment was not performed.|Mixed Models Analysis|Mixed models for binomial outcomes were run to determine if there were significant differences in meeting goal over time.||||||0.63
82604526|NCT04743856|164925525|OTHER||Mean Difference (Final Values)|-1106.28|STANDARD_ERROR_OF_MEAN|592.76||0.0665||||||Apriori significance level was p\<0.05. No adjustment for multiple comparisons was made.|Mixed Models Analysis|Models were not adjusted for additional variables.||||||0.0665
82604527|NCT04696861|164925541|SUPERIORITY|||||||0.961||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.961
82604528|NCT04696861|164925542|SUPERIORITY|||||||0.961||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.961
82604529|NCT04696861|164925543|SUPERIORITY|||||||0.368||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.368
82604530|NCT04696861|164925545|SUPERIORITY|||||||0.634||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.634
82604531|NCT04696861|164925546|SUPERIORITY|||||||0.832||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.832
82656381|NCT01108094|165028275|OTHER||Mean Difference (Final Values)|24.0|||||TWO_SIDED|95.0|18.2|30.0||||||Only tumors from 4 patients from cohort A (n = 42 BCCs) and all tumors from the 4 patients (n = 14 BCCs) in cohort B were observed for tumor size change. Percent change in tumor area from both cohorts (eight patients total with 57 tumors) was calculated only.||30|18.2|
82656382|NCT01108094|165028275|OTHER|||||||0.435|||||||t-test, 1 sided|||Average tumor size reductions were compared between Cohort A1 and Cohort B.||||0.435
82604532|NCT04696861|164925548|SUPERIORITY|||||||0.624||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||Generalized linear mixed models were conducted and odds ratios (ORs) were reported||||0.624
82604533|NCT04696861|164925549|SUPERIORITY|||||||0.833||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.833
82604534|NCT04696861|164925550|SUPERIORITY|||||||0.7||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.7
82604535|NCT04696861|164925551|SUPERIORITY|||||||0.79||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.79
82604536|NCT04696861|164925552|SUPERIORITY|||||||0.55||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.55
82604537|NCT04696861|164925553|SUPERIORITY|||||||0.823|||||||Mixed Models Analysis|||||||.823
82604538|NCT04696861|164925554|SUPERIORITY|||||||0.942|||||||Mixed Models Analysis|||||||.942
82604539|NCT04696861|164925555|SUPERIORITY|||||||0.207||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.207
82656383|NCT03290326|165028290|OTHER||||||<|0.01|||||||ANOVA|||One-way ANOVA was conducted to compare the effect of 40Hz tACS on EEG gamma-band spectral power. Power changes were expressed as percentage relative power variations, accordingly with the event-related synchronization/desynchronization (ERS/ERD) index.||||< 0.01
82604540|NCT04696861|164925556|SUPERIORITY|||||||0.594||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.594
82604541|NCT04696861|164925557|SUPERIORITY|||||||0.738||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.738
82604542|NCT04696861|164925558|SUPERIORITY|||||||0.845||||||Unitized unadjusted bivariate analyses instead of adjusted multivariable analysis. This was a pilot study to estimate the magnitude of effect sizes for informing further large interventions. The significance level was also not adjusted.|Mixed Models Analysis|||General linear mixed models||||0.845
82604543|NCT01813890|164925564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|105.61||||0.006|TWO_SIDED|95.0|32.0|179.2||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group|Based on participant availability in Taiwan it was expected that 60 subjects (20 per group) would be enrolled. In consultation with the Taiwan health authority, the overall two-sided significance level was set at 0.20 (0.10 for each tapentadol versus placebo comparison). Assuming a standard deviation of 134.4, this sample size would provide 71.5% power to detect a between-group difference in SPID48 of 94.1 and 81.2% power to detect a between-group difference of 107.52.||179.2|32.0|0.006
82656384|NCT05818137|165028299|OTHER||Change from baseline estimate|-99.2|||||TWO_SIDED|95.0|-129.6|-68.4|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||-68.4|-129.6|
82604544|NCT01813890|164925564|SUPERIORITY_OR_OTHER||Median Difference (Net)|126.58||||0.004|TWO_SIDED|95.0|49.5|203.7||P-value adjusted for multiple treatment group comparisons using the Hochberg method.|ANCOVA|ANCOVA model with treatment group and center as factors and baseline pain intensity as covariate.|Difference is SPID48 in tapentadol IR group minus SPID48 in placebo group.|Based on participant availability in Taiwan it was expected that 60 subjects (20 per group) would be enrolled. In consultation with the Taiwan health authority, the overall two-sided significance level was set at 0.20 (0.10 for each tapentadol versus placebo comparison). Assuming a standard deviation of 134.4, this sample size would provide 71.5% power to detect a between-group difference in SPID48 of 94.1 and 81.2% power to detect a between-group difference of 107.52.||203.7|49.5|0.004
82604545|NCT01707992|164925583|SUPERIORITY||Hazard Ratio (HR)|0.937|||=|0.7057|TWO_SIDED|95.0|0.668|1.313||Threshold for significance at 0.05 level.|Cox proportional hazards model|||The primary analysis for the comparison between laquinimod 0.6 mg versus placebo was conducted using the baseline adjusted Cox proportional hazards model. Categorical EDSS at baseline (less than or equal to \[\<=\] 4 or greater than \[\>\] 4), country/geographical region (CGR), categorical age at baseline (\<=38 or \>38), and T2 volume at baseline were included as covariates in the model.||1.313|0.668|= 0.7057
82604546|NCT04108429|164925598|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||generalized linear mixed model - this analysis accounts for repeated measures from each participant over the course of Weeks 1, 2, 4, 6 and 8||||.830
82604547|NCT04108429|164925599|SUPERIORITY|||||||0.759|||||||Mixed Models Analysis|||generalized linear mixed model - this analysis accounts for repeated measures from each participant over the course of Weeks 1, 2, 4, 6 and 8||||.759
82656385|NCT05818137|165028302|OTHER||Change from baseline estimate|41.8|||||TWO_SIDED|95.0|27.8|55.5|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||55.5|27.8|
82656386|NCT05818137|165028304|OTHER||Change from baseline estimate|-48.5|||||TWO_SIDED|95.0|-77.0|-24.8|||||The change from baseline estimate and associated 95% confidence interval (CI) based on the Hodges-Lehmann method.|||-24.8|-77.0|
82604548|NCT04108429|164925600|SUPERIORITY|||||||0.275|||||||Simulation Modeling Analysis (SMA) for T|||Counseling center utilization data were examined using Simulation Modeling Analysis (SMA) for Time-Series data to determine if there were changes in utilization between the pre-implementation and implementation phases. SMA evaluates the statistical significance of between-phase changes in data streams and also accounts for the presence of autocorrelation (the non-independence of data points in time-series data streams).||||.275
82604549|NCT04108429|164925602|SUPERIORITY|generalized linear mixed model||||||0.002|||||||Mixed Models Analysis|||||||.002
82604550|NCT04108429|164925603|SUPERIORITY|||||||0.489|||||||Mixed Models Analysis|||generalized linear mixed model||||.489
82604551|NCT04108429|164925604|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||generalized linear mixed model||||.001
82604552|NCT02511522|164925625|SUPERIORITY|||||||0.004|||||||Cochran-Mantel-Haenszel|Adjusting for stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.004
82604553|NCT02511522|164925626|SUPERIORITY|||||||0.068|||||||Log Rank|Stratified Log Rank test adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.068
82656387|NCT02252562|165028328|EQUIVALENCE|We hypothesized a potential 66% reduction from a baseline incidence of 0.16 on the basis of prior interventions, but we assumed for power considerations a more conservative reduction of 40% from a baseline incidence of 0.12 averaged across all patients in each arm. Assuming a 10% loss to follow-up, we required 1,600 patients per group for a power of 0.9 with a type 1 error of .05.|Odds Ratio (OR)|1.07|||||TWO_SIDED|95.0|0.82|1.4|||fixed effects univariable analysis|||||1.40|0.82|
82656388|NCT04099888|165028367|SUPERIORITY||||||||TWO_SIDED|95.0|||||||||The HR was estimated using an unstratified cox-proportional hazards model using the Efron approach for handling ties (Efron 1977), together with the associated 95% confidence intervals (CI) for the HR based on the Wald method. The effect of treatment is summarized by the hazard ratio (HR) together with its corresponding 95% Wald CI for the mITT population. No p-value will be reported.|||
82656389|NCT04099888|165028368|SUPERIORITY||||||||TWO_SIDED|95.0||||||||OS was analyzed using the modified intent-to-treat (mITT) analysis set, which included all randomized participants who received at least 1 dose of study treatment and had a RECIST assessment at baseline. Kaplan Meier Curve (KM) analysis of OS was completed for the mITT population, but the number of events was too small to draw any conclusions.|The HR was estimated using an unstratified cox-proportional hazards model using the Efron approach for handling ties (Efron 1977), together with the associated 95% confidence intervals (CI) for the HR based on the Wald method. The effect of treatment is summarized by the hazard ratio (HR) together with its corresponding 95% Wald CI for the mITT population. No p-value will be reported.|||
82604554|NCT02511522|164925627|SUPERIORITY|||||||0.45|||||||Cochran-Mantel-Haenszel|adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.45
82656390|NCT04099888|165028369|SUPERIORITY|||||||||||||||||BOR is summarized by randomized treatment group using the mITT analysis set.|The BOR is the best response recorded from the start of the treatment until disease progression or until the last evaluable assessment in the absence of progression. If a patient received subsequent anti-cancer therapy prior to progression, then BOR was calculated up to the point of starting the anti-cancer therapy.|||
82656391|NCT04099888|165028370|SUPERIORITY||||||||TWO_SIDED|95.0|||||||||The ORR is calculated as the proportion of patients who have at least one visit response with a complete response (CR) or partial response (PR). Objective responses do not require confirmation in a randomized study. Data obtained up until progression, or last evaluable assessment in the absence of progression, will be included in the analysis of ORR. Data obtained up until progression or subsequent therapy, or last evaluable assessment in the absence of progression or subsequent therapy, will be included in the analysis of ORR.|||
82656392|NCT04099888|165028371|SUPERIORITY|||||||||||||||||The DoR was calculated only for those with a documented response of CR or PR and is defined as the time from the date of first documented tumor response until the first date of documented disease progression or death, whichever is earlier.|DoR is listed only. In Arm A, the duration of response was 169 days in 1 participant before radiological progression was seen. In the other 2 participants in Arm A, the events were censored at 260 and 264 days, respectively. In Arm B, the duration of response was 85 days in 1 participant before radiological progression was seen. In the other 2 participants in Arm B, the events were censored at 1 day due to the early termination of the study.|||
82604555|NCT02511522|164925628|SUPERIORITY|||||||0.07|||||||Cochran-Mantel-Haenszel|adjusting for the stratification factor (Hepatocellular carcinoma versus liver metastases)||||||0.07
82604556|NCT02660580|164925629|EQUIVALENCE|MSB11022 was considered equivalent to EU-Humira if the 95% CI for the treatment difference was included in the equivalence interval \[-15%, 15%\]).|Least Square (LS) Mean difference|0.88|||||TWO_SIDED|95.0|-1.21|2.98||||||||2.98|-1.21|
82604557|NCT02660580|164925645|EQUIVALENCE|MSB11022 was considered equivalent to EU-Humira if the 95% stratified Newcombe Confidence Interval (CI) for the difference in percentage was included in the equivalence interval (-18, 18).|Percentage difference|-1.9|||||TWO_SIDED|95.0|-7.82|4.07||||||||4.07|-7.82|
82604558|NCT03783195|164925667|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.51|STANDARD_ERROR_OF_MEAN|0.59||0.4|TWO_SIDED|95.0|-1.77|0.76||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in liver fat as compared to high GRS group.||0.76|-1.77|0.40
82604559|NCT03783195|164925668|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.38|STANDARD_ERROR_OF_MEAN|0.93||0.71|TWO_SIDED|95.0|-3.33|2.57||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in liver fat as compared to high GRS group.||2.57|-3.33|0.71
82604560|NCT03783195|164925669|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.02|STANDARD_ERROR_OF_MEAN|4.8||0.0006|TWO_SIDED|95.0|-31.33|-10.72||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in VLDL-TG as compared to high GRS group.||-10.72|-31.33|0.0006
82604561|NCT03783195|164925670|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Median Difference (Net)|0.094|STANDARD_ERROR_OF_MEAN|0.17||0.59|TWO_SIDED|95.0|-0.27|0.46|||t-test, 2 sided|||This analysis focuses on the changes in the area under the curve (AUC) for measurements at different time points between the two GRS groups.||0.46|-0.27|0.59
82604562|NCT03783195|164925671|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.06|STANDARD_ERROR_OF_MEAN|7.77||0.017|TWO_SIDED|95.0|-37.75|-4.38||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum triglycerides as compared to high GRS group.||-4.38|-37.75|0.017
82604563|NCT03783195|164925672|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.022|STANDARD_ERROR_OF_MEAN|0.16||0.89|TWO_SIDED|95.0|-0.37|0.33|||t-test, 2 sided|||This analysis focuses on the changes in the area under the curve (AUC) for measurements baseline and 3hr timepoints at week 0 and week 3 between the two GRS groups.||0.33|-0.37|0.89
82604564|NCT03783195|164925673|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-4.36|STANDARD_ERROR_OF_MEAN|4.62||0.36|TWO_SIDED|95.0|-14.28|5.55||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have less increase in HDL cholesterol as compared to high GRS group.||5.55|-14.28|0.36
82604565|NCT03783195|164925674|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.16||0.67|TWO_SIDED|95.0|-0.27|0.4|||t-test, 2 sided|||||0.40|-0.27|0.67
82604566|NCT03783195|164925675|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-21.03|STANDARD_ERROR_OF_MEAN|11.53||0.09|TWO_SIDED|95.0|-45.76|3.69||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in LDL cholesterol as compared to high GRS group.||3.69|-45.76|0.09
82604567|NCT03783195|164925676|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.13||0.69|TWO_SIDED|95.0|-0.24|0.34|||t-test, 2 sided|||||0.34|-0.24|0.69
82604568|NCT03783195|164925677|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-29.61|STANDARD_ERROR_OF_MEAN|15.28||0.07|TWO_SIDED|95.0|-62.39|3.17||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in total cholesterol as compared to high GRS group.||3.17|-62.39|0.07
82604569|NCT03783195|164925678|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.036|STANDARD_ERROR_OF_MEAN|0.14||0.8|TWO_SIDED|95.0|-0.26|0.33|||t-test, 2 sided|||||0.33|-0.26|0.80
82604570|NCT03783195|164925679|OTHER||Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.25||0.17|TWO_SIDED|95.0|-0.18|0.91||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum uric acid as compared to high GRS group.||0.91|-0.18|0.17
82656393|NCT04099888|165028372|SUPERIORITY||||||||TWO_SIDED|95.0||||||||DCR is reported and includes any patient with a best response of stable disease, PR or CR.|The DCR and associated exact 95% CI is summarized for the mITT population. This was repeated for DCR-6, defined as the proportion of patients with CR, PR or SD at 6 months (recorded at least 24 weeks (+/-1 week) after randomization of study treatment and prior to any PD event).|||
82604571|NCT03783195|164925680|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.217|STANDARD_ERROR_OF_MEAN|0.17||0.22|TWO_SIDED|95.0|-0.58|0.15|||t-test, 2 sided|||||0.15|-0.58|0.22
82604572|NCT03783195|164925681|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.007||0.04|TWO_SIDED|95.0|-0.03|-0.0009||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum ALT as compared to high GRS group.||-0.0009|-0.03|0.04
82604573|NCT03783195|164925682|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.121|STANDARD_ERROR_OF_MEAN|0.19||0.53|TWO_SIDED|95.0|-0.52|0.28|||t-test, 2 sided|||||0.28|-0.52|0.53
82492267|NCT03535844|164677740|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 HDL cholesterol values||||||<0.05
82492268|NCT03535844|164677740|SUPERIORITY|||||||0.7261|||||||t-test, 2 sided|Paired t-test of Week 0 and Week 16 HDL cholesterol values||||||0.7261
82604574|NCT03783195|164925683|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|20.57|STANDARD_ERROR_OF_MEAN|17.5||0.25|TWO_SIDED|95.0|-16.9|58.08||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum AST as compared to high GRS group.||58.08|-16.9|0.25
82604575|NCT03783195|164925684|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2|TWO_SIDED|95.0|-0.59|0.13|||t-test, 2 sided|||||0.13|-0.59|0.20
82604576|NCT03783195|164925685|OTHER||Mean Difference (Net)|28.95|STANDARD_ERROR_OF_MEAN|21.78||0.21|TWO_SIDED|95.0|-17.76|75.67||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum ALP as compared to high GRS group.||75.67|-17.76|0.21
82604577|NCT03783195|164925686|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.054|STANDARD_ERROR_OF_MEAN|0.12||0.67|TWO_SIDED|95.0|-0.214|0.321|||t-test, 2 sided|||||0.321|-0.214|0.67
82604578|NCT03783195|164925687|OTHER|Both groups received the same intervention; however, their genetic make-up was different.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.09||0.41|TWO_SIDED|95.0|-0.12|0.28||All tests were individual tests.|Paired t-test|||The null hypothesis is that people with low GRS will have greater increase in serum GGT as compared to high GRS group.||0.28|-0.12|0.41
82604579|NCT03783195|164925688|OTHER|Both groups received the same intervention; however, their genetic make-up was different|Mean Difference (Net)|-0.109|STANDARD_ERROR_OF_MEAN|0.15||0.49|TWO_SIDED|95.0|-0.44|0.22|||t-test, 2 sided|||||0.22|-0.44|0.49
82604580|NCT02240134|164925689|SUPERIORITY||Odds Ratio (OR)|1.23||||0.68|TWO_SIDED|95.0|0.46|3.32|||Mixed Models Analysis||Odds ratio for air filter treatment relative to placebo|Mixed effects logistic regression model with presence of LRTI as outcome (yes or no); assigned treatment as primary exposure variable relative to placebo; adjusted for child age and person-time at-risk; nested random term: home:cohort:area. Results presented as odds ratios with 95% Confidence Intervals.||3.32|0.46|0.68
82604581|NCT02240134|164925689|SUPERIORITY||Odds Ratio (OR)|0.98||||0.96|TWO_SIDED|95.0|0.35|2.72|||Mixed Models Analysis||Odds ratio for filter treatment relative to placebo|Mixed effects logistic regression model with presence of LRTI as outcome (yes or no); assigned treatment as primary exposure variable relative to placebo; adjusted for child age and person-time at-risk; nested random term: home:cohort:area. Results presented as odds ratios with 95% Confidence Intervals.||2.72|0.35|0.96
82604582|NCT02240134|164925690|SUPERIORITY||percent differences in geometric mean PM|-6.96||||0.25|TWO_SIDED|95.0|-30.5|24.55|||Mixed Models Analysis|||Linear mixed model with natural-log transformed 6-day mean indoor PM2.5 as outcome; assigned treatment as primary exposure variable; adjusted for child age; nested random term: cohort:area. Results presented as effect estimates with 95% Confidence Intervals and reported as percent differences in geometric mean PM2.5.||24.55|-30.50|0.250
82604583|NCT02240134|164925690|SUPERIORITY||percent differences in geometric mean PM|11.77||||0.295|TWO_SIDED|95.0|-16.57|49.72||Statistical significance selected as 95% confidence interval of the estimation parameter that excludes the null value, 0.|Mixed Models Analysis||Difference in indoor PM2.5 for education treatment versus placebo.|Linear mixed model with natural-log transformed 6-day mean indoor PM2.5 as outcome; assigned treatment as primary exposure variable; adjusted for child age; nested random term: cohort:area. Results presented as effect estimates with 95% Confidence Intervals and reported as percent differences in geometric mean PM2.5.||49.72|-16.57|0.295
82604584|NCT03124459|164925702|SUPERIORITY||Mean Difference (Final Values)|13.5|STANDARD_ERROR_OF_MEAN|5.2||0.01|TWO_SIDED|90.0|4.9|22.1|||ANCOVA|||||22.1|4.9|0.01
82604585|NCT03124459|164925703|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.2||0.16|TWO_SIDED|90.0|-6.8|0.6|||ANCOVA|||||0.6|-6.8|0.16
82604586|NCT03124459|164925704|SUPERIORITY||Mean Difference (Final Values)|35.4|STANDARD_ERROR_OF_MEAN|23.5||0.13|TWO_SIDED|90.0|-3.2|74.0|||ANCOVA|||||74|-3.2|0.13
82604587|NCT03124459|164925705|SUPERIORITY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|5.5||0.73|TWO_SIDED|90.0|-7.1|10.9|||ANCOVA|||||10.9|-7.1|0.73
82604588|NCT03124459|164925706|SUPERIORITY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|4.7||0.51|TWO_SIDED|90.0|-4.6|10.9|||ANCOVA|||||10.9|-4.6|0.51
82604589|NCT03124459|164925711|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|3.9||0.63|TWO_SIDED|90.0|-8.4|4.6|||ANCOVA|||||4.6|-8.4|0.63
82604590|NCT01903876|164925714|NON_INFERIORITY_OR_EQUIVALENCE|equivalence||||||0.044|||||||ANCOVA|||||||.044
82604591|NCT01903876|164925715|NON_INFERIORITY_OR_EQUIVALENCE|equivalence||||||0.042|||||||ANCOVA|||||||.042
82604592|NCT05224258|164925748|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.38% with a margin of 0.4%.|Mean difference from baseline to exit|-0.2|||<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||t-test, 1 sided||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint|||-0.1|-0.4|<0.001
82604593|NCT05224258|164925748|NON_INFERIORITY|The overall mean change in HbA1c from baseline to end of 3-month study period. The mean change will be estimated and compared to a threshold of -0.5% with a margin of 0.4%.|Mean difference from baseline to exit|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.2|||Wilcoxon (Mann-Whitney)||This is one arm study, the differences of HbA1c from baseline to exit were summarized for this endpoint.|||-0.2|-0.5|<0.001
82492269|NCT03535844|164677741|SUPERIORITY|||||||0.1951|||||||t-test, 2 sided|Independent t-test of systolic blood pressure change values||||||0.1951
82492270|NCT03535844|164677741|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|Independent t-test of diastolic blood pressure change values||||||0.916
82604594|NCT05224258|164925749|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 65.3% with a margin of 7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|65.7|||<|0.001|TWO_SIDED|95.0|63.5|67.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||67.9|63.5|<0.001
82604595|NCT05224258|164925749|NON_INFERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 73.7% with a margin of 7.5% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.1|||<|0.001|TWO_SIDED|95.0|75.4|78.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||78.9|75.4|<0.001
82604596|NCT05224258|164925750|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) will be estimated and compared to a threshold of 0.71% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.3|||<|0.001|TWO_SIDED|95.0|0.3|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.4|0.3|<0.001
82604597|NCT05224258|164925750|NON_INFERIORITY|The mean % of time in hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) will be estimated and compared to a threshold of 0.86% with a margin of 2% and a significance level of 0.025 (one-sided).|Mean of Final Value|0.3|||<|0.001|TWO_SIDED|95.0|0.2|0.4|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Hypoglycemia (\< 54 mg/dL \[3.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||0.4|0.2|<0.001
82604598|NCT05224258|164925751|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 65.3% and a significance level of 0.025 (one-sided).|Mean of Final Value|65.7||||0.208|TWO_SIDED|95.0|63.5|67.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||67.9|63.5|0.208
82604599|NCT05224258|164925751|SUPERIORITY|The mean % of time in range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) will be estimated and compared to a threshold of 73.7% and a significance level of 0.025 (one-sided).|Mean of Final Value|77.1|||<|0.001|TWO_SIDED|95.0|75.4|78.9|||Wilcoxon (Mann-Whitney)||This is one arm study, the Percent of Time in Range (TIR 70-180 mg/dL \[3.9 -10.0 mmol/L\]) from the last 6-7 weeks of 3 month study period was summarized for this endpoint.|||78.9|75.4|<0.001
82604600|NCT05067127|164925752|SUPERIORITY||Difference in least squares (LS) mean|-1.143|||<|0.0001|TWO_SIDED|95.0|-1.436|-0.85|||MMRM|||An mixed-effect model for repeated measures (MMRM) including fixed categorical effect for treatment group, visit, disease type, baseline immunosuppressants use, stratification factors, and the visit-by-treatment group interactions as well as the continuous, fixed covariate of baseline log-transformed uPCR, was utilized to analyze the log-transformed ratio of uPCR at Week 26 compared to baseline.||-0.85|-1.436|<0.0001
82604601|NCT05067127|164925753|SUPERIORITY||Odds Ratio (OR)|27.516|||<|0.0001|TWO_SIDED|95.0|6.105|124.026|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline eGFR values, baseline log-transformed uPCR values, disease type, and stratification factors.||124.026|6.105|<0.0001
82604602|NCT05067127|164925754|SUPERIORITY||Odds Ratio (OR)|30.932|||<|0.0001|TWO_SIDED|95.0|8.401|113.897|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline log-transformed uPCR values, disease type, and stratification factors.||113.897|8.401|<0.0001
82604603|NCT05067127|164925755|SUPERIORITY||Difference in LS mean|-1.002||||0.2753|TWO_SIDED|95.0|-2.803|0.798|||ANCOVA|||Analysis of covariance (ANCOVA) model included treatment as fixed effect, adjusted for baseline C3G histologic index activity score, disease type, and stratification factors.||0.798|-2.803|0.2753
82604604|NCT05067127|164925756|SUPERIORITY||Odds Ratio (OR)|27.392|||<|0.0001|TWO_SIDED|95.0|6.477|115.852|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline C3c staining, disease type, and stratification factors.||115.852|6.477|<0.0001
82604605|NCT05067127|164925757|SUPERIORITY||Difference in LS mean|6.312||||0.0333|TWO_SIDED|95.0|0.501|12.122|||MMRM|||An MMRM model included fixed categorical effect for treatment group, visit, disease type, stratification factors, and the visit-by-treatment group interactions as well as the continuous, fixed covariate of baseline eGFR, was utilized to analyze the mean change from baseline to Week 26 in eGFR.||12.122|0.501|0.0333
82604606|NCT05067127|164925758|SUPERIORITY||Odds Ratio (OR)|5.753||||0.0006|TWO_SIDED|95.0|2.106|15.716|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline proteinuria values, disease type, and stratification factors.||15.716|2.106|0.0006
82656394|NCT04099888|165028373|SUPERIORITY|||||||||||||||||Change in tumor size in percentage was summarized for the subset of patients in the mITT analysis set who had measurable disease at baseline.|Tumor size is defined as the sum of the longest diameters (SoDs) of the RECIST 1.1 target lesions. Change in tumor size is defined as the best overall percentage change in tumor size from baseline. Percentage change in tumor size was determined for patients with measurable disease at baseline and was derived at each visit by the percentage change in the SoDs of target lesions compared to baseline.|||
82656395|NCT04099888|165028374|SUPERIORITY||||||||||||||||||Safety, including the incidence and characteristics of biliary/loco-regional tumour-related events leading to hospitalisation and/or interventions, will be summarised descriptively.|||
82656396|NCT04099888|165028375|SUPERIORITY||||||||||||||||||Safety events leading to hospitalisation and/or interventions, will be summarised descriptively.|||
82656397|NCT04099888|165028379|SUPERIORITY||||||||||||||||||As this study was terminated early, a reduced statistical analysis was conducted, and the HRQoL analyses were not conducted.|||
82656398|NCT00023309|165028380|SUPERIORITY_OR_OTHER|||||||0.0294||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in the treatment effect between the two groups||||0.0294
82656399|NCT00023309|165028381|SUPERIORITY_OR_OTHER|||||||0.0325||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0325
82604607|NCT05067127|164925759|SUPERIORITY||Odds Ratio (OR)|88.341||||0.0001|TWO_SIDED|95.0|8.863|880.544|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline albumin values, disease type, and stratification factors.||880.544|8.863|0.0001
82604608|NCT05067127|164925760|SUPERIORITY||Odds Ratio (OR)|999.999||||0.0094|TWO_SIDED|95.0|12.175|9999.999|||Logistic|||The logistic model included treatment group as independent variable and adjusted for baseline C3 levels, stratification factors and disease type.||9999.999|12.175|0.0094
82604609|NCT05067127|164925761|SUPERIORITY||Difference in LS mean|0.562||||0.7384|TWO_SIDED|95.0|-2.739|3.863|||ANCOVA|||The ANCOVA model included treatment as fixed effect, adjusted for baseline, disease type, and stratification factors.||3.863|-2.739|0.7384
82604610|NCT05067127|164925762|SUPERIORITY||Difference in LS mean|1.345||||0.5648|TWO_SIDED|95.0|-3.237|5.927|||ANCOVA|||The ANCOVA model included treatment as fixed effect, adjusted for baseline, disease type, and stratification factors.||5.927|-3.237|0.5648
82604611|NCT02073487|164925817|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
82656400|NCT00023309|165028382|SUPERIORITY_OR_OTHER|||||||0.0049||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0049
82656401|NCT00023309|165028383|SUPERIORITY_OR_OTHER|||||||0.0157||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0157
82656402|NCT00023309|165028384|SUPERIORITY_OR_OTHER|||||||0.0913||95.0|||||Fisher Exact|||Null hypothesis: there is no difference in treatment effect at week 196||||0.0913
82656403|NCT03952143|165028385|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.07||||0.321|TWO_SIDED|95.0|-0.07|0.21|||Mixed Models Analysis|||||0.21|-0.07|0.321
82656404|NCT03952143|165028386|SUPERIORITY||LS Mean Difference|-14.6|||<|0.001|TWO_SIDED|95.0|-21.9|-7.4|||ANCOVA|||||-7.4|-21.9|<0.001
82656405|NCT03952143|165028387|SUPERIORITY||LS Mean Difference|-21.8|||<|0.001|TWO_SIDED|95.0|-30.9|-12.6|||ANCOVA|||||-12.6|-30.9|<0.001
82656406|NCT03952143|165028388|SUPERIORITY||Relative rate|0.26|||||TWO_SIDED|95.0|0.02|2.86||||||||2.86|0.02|
82656407|NCT03952143|165028389|SUPERIORITY||Relative rate|0.9|||||TWO_SIDED|95.0|0.49|1.66||||||For ≤30 minutes post meal||1.66|0.49|
82656408|NCT03952143|165028389|SUPERIORITY||Relative rate|1.35|||||TWO_SIDED|95.0|0.79|2.31||||||For ≤ 1 hour post meal||2.31|0.79|
82656409|NCT03952143|165028389|SUPERIORITY||Relative rate|1.6|||||TWO_SIDED|95.0|1.06|2.42||||||For \>1 to ≤2 hours post meal||2.42|1.06|
82656410|NCT03952143|165028389|SUPERIORITY||Relative rate|1.53|||||TWO_SIDED|95.0|1.05|2.23||||||For ≤2 hours post meal||2.23|1.05|
82656411|NCT03952143|165028389|SUPERIORITY||Relative rate|0.97|||||TWO_SIDED|95.0|0.69|1.39||||||For \>2 to ≤4 hours post meal||1.39|0.69|
82656412|NCT03952143|165028389|SUPERIORITY||Relative rate|1.15|||||TWO_SIDED|95.0|0.84|1.57||||||For ≤4 hours post meal||1.57|0.84|
82656413|NCT03952143|165028390|SUPERIORITY||LS Mean Difference|-0.29|||||TWO_SIDED|95.0|-1.1|0.53||||||||0.53|-1.10|
82604612|NCT00826514|164925820|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.392|||TWO_SIDED|95.0|-1.15|0.209||||||Analysis was based on analysis of co-variance (ANCOVA) model with baseline value, age and treatment as covariates.||0.209|-1.150|
82604613|NCT00826514|164925823|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.42|STANDARD_ERROR_OF_MEAN|1.901|||TWO_SIDED|90.0|-4.754|1.905||||||Change at Week 6, CPSI Total Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.905|-4.754|
82604614|NCT00826514|164925823|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.06|STANDARD_ERROR_OF_MEAN|0.931|||TWO_SIDED|90.0|-2.701|0.591||||||Change at Week 6, CPSI PD Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.591|-2.701|
82604615|NCT00826514|164925823|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.38|STANDARD_ERROR_OF_MEAN|0.67|||TWO_SIDED|90.0|-0.789|1.541||||||Change at Week 6, CPSI US Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.541|-0.789|
82604616|NCT00826514|164925823|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.58|STANDARD_ERROR_OF_MEAN|0.697|||TWO_SIDED|90.0|-1.785|0.631||||||Change at Week 6, CPSI QoL Score: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.631|-1.785|
82604617|NCT00826514|164925824|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.18|STANDARD_ERROR_OF_MEAN|0.649|||TWO_SIDED|90.0|-0.99|1.348||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.348|-0.990|
82604618|NCT00826514|164925825|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.19|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|90.0|-1.829|1.452||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.452|-1.829|
82604619|NCT00826514|164925826|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-33.56|STANDARD_ERROR_OF_MEAN|17.026|||TWO_SIDED|90.0|-64.144|-2.968||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||-2.968|-64.144|
82656414|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|2.2|||||TWO_SIDED|95.0|-2.8|7.2||||||For Morning Premeal||7.2|-2.8|
82604620|NCT00826514|164925827|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.47|STANDARD_ERROR_OF_MEAN|0.489|||TWO_SIDED|90.0|-1.364|0.415||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.415|-1.364|
82656415|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|-5.3|||||TWO_SIDED|95.0|-12.6|2.0||||||For Morning 1-hour Postmeal||2.0|-12.6|
82656416|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|-5.4|||||TWO_SIDED|95.0|-12.5|1.7||||||For Morning 2-hour Postmeal||1.7|-12.5|
82656417|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|4.2|||||TWO_SIDED|95.0|-1.8|10.1||||||For Midday Premeal||10.1|-1.8|
82604621|NCT00826514|164925828|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-1.37|STANDARD_ERROR_OF_MEAN|0.99|||TWO_SIDED|90.0|-3.146|0.401||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.401|-3.146|
82604622|NCT00826514|164925829|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.04|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|90.0|-0.417|0.334||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||0.334|-0.417|
82604623|NCT00826514|164925830|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.765|||TWO_SIDED|90.0|-1.791|1.822||||||Change at Week 6: Analysis was based on ANCOVA model with baseline value, age, baseline pain stratification group and treatment as covariates.||1.822|-1.791|
82604624|NCT00826514|164925831|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.833|||||TWO_SIDED|90.0|0.763|4.407||||||Week 6: Logistic regression model with age, baseline pain stratification group and treatment as covariates.||4.407|0.763|
82604625|NCT00826514|164925831|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0|||||TWO_SIDED|90.0|0.388|2.575||||||Week 16: Logistic regression model with age, baseline pain stratification group and treatment as covariates.||2.575|0.388|
82604626|NCT05003115|164925866|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-6.36||||0.101|TWO_SIDED|95.0|-14.17|1.44|||Regression, Linear|||||1.44|-14.17|0.101
82604627|NCT05003115|164925867|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.1||||0.78|TWO_SIDED|95.0|-0.79|0.59|||Regression, Linear|||||0.59|-0.79|0.78
82604628|NCT05003115|164925868|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.95||||0.314|TWO_SIDED|95.0|-2.83|0.94|||Regression, Linear|||||0.94|-2.83|0.314
82604629|NCT05003115|164925869|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-1.04||||0.679|TWO_SIDED|95.0|-6.0|3.92|||Regression, Linear|||||3.92|-6.00|0.679
82604630|NCT05003115|164925870|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|0.01||||0.994|TWO_SIDED|95.0|-2.23|2.25|||Regression, Linear|||||2.25|-2.23|0.994
82656418|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|1.2|||||TWO_SIDED|95.0|-5.7|8.1||||||For Midday 1-hour Postmeal||8.1|-5.7|
82656419|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|1.9|||||TWO_SIDED|95.0|-5.1|8.9||||||For Midday 2-hour Postmeal||8.9|-5.1|
82656420|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|14.1|||||TWO_SIDED|95.0|7.6|20.6||||||For Evening Premeal||20.6|7.6|
82656421|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|2.0|||||TWO_SIDED|95.0|-5.1|9.1||||||For Evening 1-hour Postmeal||9.1|-5.1|
82656422|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|-0.2|||||TWO_SIDED|95.0|-7.3|6.8||||||For Evening 2-hour Postmeal||6.8|-7.3|
82656423|NCT03952143|165028391|SUPERIORITY||LS Mean Difference|1.7|||||TWO_SIDED|95.0|-4.7|8.1||||||For Bedtime||8.1|-4.7|
82656424|NCT03952143|165028392|SUPERIORITY||LS Mean Difference|2.8|||||TWO_SIDED|95.0|0.1|5.4||||||For Total Daily Insulin Dose||5.4|0.1|
82656425|NCT03952143|165028392|SUPERIORITY||LS Mean Difference|0.8|||||TWO_SIDED|95.0|0.0|1.5||||||For Daily Basal Insulin Dose||1.5|0.0|
82656426|NCT03952143|165028392|SUPERIORITY||LS Mean Difference|2.0|||||TWO_SIDED|95.0|-0.5|4.5||||||For Daily Prandial Insulin Dose||4.5|-0.5|
82656427|NCT03952143|165028393|SUPERIORITY||Odds Ratio (OR)|1.02||||0.924|TWO_SIDED|95.0|0.69|1.52|||Regression, Logistic|||For HbA1c \< 7%||1.52|0.69|0.924
82656428|NCT03952143|165028393|SUPERIORITY||Odds Ratio (OR)|0.98||||0.908|TWO_SIDED|95.0|0.64|1.49|||Regression, Logistic|||For HbA1c ≤6.5%||1.49|0.64|0.908
82604631|NCT05003115|164925871|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-1.22||||0.258|TWO_SIDED|95.0|-3.33|0.89|||Regression, Linear|||||0.89|-3.33|0.258
82604632|NCT05003115|164925872|SUPERIORITY||Mean Diff. Adjusting for Baseline Values|-0.4||||0.857|TWO_SIDED|95.0|-4.75|3.96|||Regression, Linear|||||3.96|-4.75|0.857
82604633|NCT01147809|164925879|SUPERIORITY_OR_OTHER||Percent difference|21.1||||0.103|TWO_SIDED|95.0|-3.9|52.5|||ANCOVA|||||52.5|-3.9|0.103
82604634|NCT01147809|164925901|SUPERIORITY_OR_OTHER||Percent difference|12.9||||0.407|TWO_SIDED|95.0|-15.6|51.1|||ANCOVA|||||51.1|-15.6|0.407
82656429|NCT01014728|165028406|SUPERIORITY_OR_OTHER|||||||0.937||95.0|||||t-test, 2 sided|||||||0.937
82656430|NCT01014728|165028407|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82656431|NCT01014728|165028408|SUPERIORITY_OR_OTHER|||||||0.461||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.461
82656432|NCT03661528|165028409|OTHER||Percentage proportion difference|13.4||||0.0032|TWO_SIDED|95.0|4.6|22.2|||Cochran-Mantel-Haenszel|||||22.2|4.6|0.0032
82656433|NCT03661528|165028410|OTHER||Difference in least squares mean|-185.99|||<|0.0001|TWO_SIDED|95.0|-199.93|-172.05|||ANCOVA|Analysis presented for ANCOVA based on ranks.||||-172.05|-199.93|<0.0001
82656434|NCT03249584|165028417|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||An improvement from baseline to 3 months post radiofrequency ablation in worst pain score will be demonstrated with an outcome which is statistically lower than zero.||||<0.0001
82656435|NCT00765648|165028448|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-9.3||||0.04|TWO_SIDED|95.0|-18.0|-0.6|||Chi-squared|||||-0.6|-18.0|0.04
82656436|NCT00765648|165028449|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<0.001
82656437|NCT00765648|165028450|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.76
82604635|NCT01147809|164925902|SUPERIORITY_OR_OTHER||Percent difference|-4.4||||0.802|TWO_SIDED|95.0|-33.5|37.4|||ANCOVA|||||37.4|-33.5|0.802
82604636|NCT01307423|164925910|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.1||||0.0062|TWO_SIDED|95.0|3.5|20.7|||Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||20.7|3.5|0.0062
82604637|NCT01307423|164925910|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.8||||0.001|TWO_SIDED|95.0|6.1|23.5|||Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|In order to maintain the Type 1 error at the 0.05 significance level, the Hochberg procedure was to be used. The results of the endpoint were to be considered statistically significant if both the 30 mg apremilast dose versus placebo comparison and the 20 mg versus placebo comparison were statistically significant at the 0.05 significance level, or one of the comparisons was statistically significant at the 0.025 level.||23.5|6.1|0.0010
82656438|NCT00765648|165028451|SUPERIORITY_OR_OTHER|||||||0.38|TWO_SIDED|95.0|||||Chi-squared|||||||0.38
82656439|NCT00765648|165028452|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED|95.0|||||Chi-squared|||||||0.18
82656440|NCT00765648|165028453|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.11
82656441|NCT02458469|165028500|SUPERIORITY|||||||0.019|||||||ANOVA|||||||0.019
82656442|NCT02458469|165028500|SUPERIORITY|||||||0.015|||||||Student-Newman-Keuls Method|||||||0.015
82656443|NCT02458469|165028500|SUPERIORITY|||||||0.231|||||||Student-Newman-Keuls Method|||||||0.231
82656444|NCT02458469|165028501|SUPERIORITY|||||||0.749|||||||ANOVA|||||||0.749
82656445|NCT03561883|165028511|SUPERIORITY||Least squares (LS) mean difference|-0.062||||0.5566|TWO_SIDED|95.0|-0.27|0.146|||MMRM||Treatment difference (IW-3718 - placebo)|Treatment difference calculated as least squares mean (LSM) change from baseline at Week 8; IW-3718 - placebo based on an mixed models repeated measures (MMRM) model with week (categorical), treatment group, week-by-treatment group and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.146|-0.270|0.5566
82656446|NCT03561883|165028512|SUPERIORITY||LS mean difference|-0.008||||0.9226|TWO_SIDED|95.0|-0.176|0.159|||MMRM|||Treatment difference calculated as LSM change from baseline at Week 8; IW-3718 - placebo based on an MMRM model with week (categorical), treatment group, week-by-treatment group and week-by-baseline value interactions, baseline esophagitis status (present vs. not present), and baseline WHSS (\< 3 vs. ≥ 3) as fixed effect terms and baseline value as a covariate, with subject as a random effect. An unstructured covariance structure was used.||0.159|-0.176|0.9226
82656447|NCT03561883|165028513|SUPERIORITY||Difference in Responder Rate|1.3|||||TWO_SIDED|95.0|-6.9|9.5|||||95% confidence interval (CI) for Difference in Responder Rates is obtained using the Newcombe CI.|||9.5|-6.9|
82656448|NCT03561883|165028513|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7424|TWO_SIDED|95.0|0.76|1.48|||Cochran-Mantel-Haenszel||Odds Ratio for Response (IW-3718 : placebo)|Treatment difference was calculated as the difference in the responder rates at Week 8; IW-3718 - placebo. The 95% CI for the difference in the responder rates was obtained using the Newcombe CI. P value was based on the odds ratio for the response rate (IW-3718:placebo) obtained from the Cochran-Mantel-Haenszel (CMH) tests controlling for baseline esophagitis status and baseline heartburn severity level (\< 3 vs. ≥ 3).||1.48|0.76|0.7424
82656449|NCT03561883|165028514|SUPERIORITY||Difference in Proportion Ratio|1.171||||0.4164|TWO_SIDED|95.0|0.8|1.714||Negative binomial model was used to deal with data overdispersion.|Negative binomial model||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||1.714|0.800|0.4164
82604638|NCT01307423|164925911|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.168||||0.0008|TWO_SIDED|95.0|-0.265|-0.071|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate.||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.071|-0.265|0.0008
82604639|NCT01307423|164925911|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.217|||<|0.0001|TWO_SIDED|95.0|-0.314|-0.12|||ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||Pairwise comparisons (30 mg vs placebo and 20 mg vs placebo) were conducted conditional on the primary endpoint results. If the primary endpoint was statistically significant for both apremilast dose groups, pairwise comparisons for the HAQ-DI were to be evaluated at the 0.05 level using the Hochberg procedure. If only one apremilast dose was statistically significant, then only the comparison between that apremilast dose and placebo was conducted for the HAQ-DI score, at the 0.025 level.||-0.120|-0.314|<.0001
82604640|NCT01307423|164925912|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1||||0.0002|TWO_SIDED|95.0|7.7|24.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.4|7.7|0.0002
82604641|NCT01307423|164925912|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.4||||0.0063|TWO_SIDED|95.0|3.3|19.4||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.4|3.3|0.0063
82604642|NCT01307423|164925913|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.168||||0.0014|TWO_SIDED|95.0|-0.271|-0.065||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and baseline value as a covariate||||-0.065|-0.271|0.0014
82604643|NCT01307423|164925913|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.219|||<|0.0001|TWO_SIDED|95.0|-0.322|-0.117||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and baseline value as a covariate||||-0.117|-0.322|<.0001
82604644|NCT01307423|164925914|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|2.38||||0.0043|TWO_SIDED|95.0|0.75|4.01||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and baseline value as a covariate||||4.01|0.75|0.0043
82604645|NCT01307423|164925914|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.18||||0.0002|TWO_SIDED|95.0|1.55|4.82||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and baseline value as a covariate||||4.82|1.55|0.0002
82604646|NCT01307423|164925915|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|14.4||||0.0037|TWO_SIDED|95.0|4.8|24.0||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.0|4.8|0.0037
82604647|NCT01307423|164925915|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|21.0|||<|0.0001|TWO_SIDED|95.0|11.3|30.7||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above.|Chi-squared||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||30.7|11.3|<.0001
82604648|NCT01307423|164925916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.0||||0.0485|TWO_SIDED|95.0|-10.0|0.0||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||||-0.0|-10.0|0.0485
82604649|NCT01307423|164925916|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-7.8||||0.0022|TWO_SIDED|95.0|-12.8|-2.8||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA|Based on an analysis of covariance (ANCOVA) model with treatment group as a factor, and the baseline value as a covariate||||-2.8|-12.8|0.0022
82656450|NCT03561883|165028514|OTHER|Negative binomial model was used to deal with data overdispersion|Difference in Proportion Ratio|0.034|||||TWO_SIDED|95.0|-0.054|0.123|||||Difference in Proportion Ratio, (1500 mg IW-3718 BID + PPI) - (Placebo + PPI)|Poisson regression including the fixed categorical effect of treatment, the baseline esophagitis status (present vs. not present) and baseline WHSS (\<3 vs. ≥3), the covariate of baseline proportion of heartburn-free days, and with the diary entry duration (in days) as a weight variable adjusted in the model was applied.||0.123|-0.054|
82492271|NCT03535844|164677742|SUPERIORITY|||||||0.9882|||||||t-test, 2 sided|independent t-test of malondialdehyde change values||||||0.9882
82604650|NCT01307423|164925917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1||||0.7696|TWO_SIDED|95.0|-0.8|0.6|||ANCOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||0.6|-0.8|0.7696
82604651|NCT01307423|164925917|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0||||0.0038|TWO_SIDED|95.0|-1.7|-0.3||Secondary endpoints from the placebo-controlled period (Weeks 16 and 24) were analyzed in a hierarchical fashion to control the Type I error rate as described above|ANCOVA||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.3|-1.7|0.0038
82604652|NCT01307423|164925918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-1.6|-0.2|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.2|-1.6|
82604653|NCT01307423|164925918|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.7|||||TWO_SIDED|95.0|-1.4|0.0|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.0|-1.4|
82604654|NCT01307423|164925919|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-4.91|||||TWO_SIDED|95.0|-7.04|-2.78|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-2.78|-7.04|
82604655|NCT01307423|164925919|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.65|||||TWO_SIDED|95.0|-7.78|-3.51|||||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-3.51|-7.78|
82604656|NCT01307423|164925920|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|||<|0.0001|TWO_SIDED|95.0|-0.67|-0.25|||ANCOVA||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.25|-0.67|<0.0001
82604657|NCT01307423|164925920|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|||<|0.0001|TWO_SIDED|95.0|-0.74|-0.32|||ANCOVA||Based on analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||-0.32|-0.74|<0.0001
82604658|NCT01307423|164925921|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|1.12|||||TWO_SIDED|95.0|-0.63|2.87|||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||2.87|-0.63|
82604659|NCT01307423|164925921|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|2.55|||||TWO_SIDED|95.0|0.8|4.31|||||Based on an analysis of covariance model for the change from baseline at Week 16, with treatment group as a factor and the baseline value as a covariate|||4.31|0.80|
82604660|NCT01307423|164925922|SUPERIORITY_OR_OTHER_LEGACY||LS Means Difference|1.97|||||TWO_SIDED|95.0|0.28|3.65|||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||3.65|0.28|
82604661|NCT01307423|164925922|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|3.72|||||TWO_SIDED|95.0|2.02|5.41|||||Based on an analysis of covariance model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||5.41|2.02|
82604662|NCT01307423|164925923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.5|||||TWO_SIDED|95.0|10.5|28.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||28.6|10.5|
82604663|NCT01307423|164925923|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|18.2|||||TWO_SIDED|95.0|9.2|27.2|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||27.2|9.2|
82604664|NCT01307423|164925924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.6|||||TWO_SIDED|95.0|-10.6|-0.5|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||-0.5|-10.6|
82656451|NCT02096718|165028515|SUPERIORITY_OR_OTHER||Ratio of gmeans|122.23|STANDARD_DEVIATION|28.3|||TWO_SIDED|90.0|95.743|156.045|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||156.045|95.743|
82656452|NCT02096718|165028515|SUPERIORITY_OR_OTHER||Ratio of gmeans|149.97|STANDARD_DEVIATION|41.9|||TWO_SIDED|90.0|105.266|213.671|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||213.671|105.266|
82604665|NCT01307423|164925924|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.7|||||TWO_SIDED|95.0|-10.8|-0.7|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate|||-0.7|-10.8|
82604666|NCT01307423|164925925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.3|||||TWO_SIDED|95.0|-1.0|0.4|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||0.4|-1.0|
82604667|NCT01307423|164925925|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.9|||||TWO_SIDED|95.0|-1.6|-0.2|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.2|-1.6|
82604668|NCT01307423|164925926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.0|||||TWO_SIDED|95.0|-1.7|-0.3|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.3|-1.7|
82604669|NCT01307423|164925926|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.6|||||TWO_SIDED|95.0|-1.4|0.1|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||0.1|-1.4|
82604670|NCT01307423|164925927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.07|||||TWO_SIDED|95.0|-7.31|-2.84|||||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-2.84|-7.31|
82604671|NCT01307423|164925927|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.14|||||TWO_SIDED|95.0|-7.38|-2.89|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-2.89|-7.38|
82604672|NCT01307423|164925928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.47|||<|0.0001|TWO_SIDED|95.0|-0.7|-0.23|||ANCOVA||Based on an analysis of covariance (Ancova) model for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.23|-0.70|<0.0001
82604673|NCT01307423|164925928|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46||||0.0001|TWO_SIDED|95.0|-0.69|-0.22|||ANCOVA||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||-0.22|-0.69|0.0001
82604674|NCT01307423|164925929|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.12|||||TWO_SIDED|95.0|-0.68|2.93|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||2.93|-0.68|
82604675|NCT01307423|164925929|SUPERIORITY_OR_OTHER_LEGACY||LS Mean difference|2.33|||||TWO_SIDED|95.0|0.52|4.15|||||Based on an analysis of covariance model (Ancova) for the change from baseline at Week 24, with treatment group as a factor and the baseline value as a covariate.|||4.15|0.52|
82604676|NCT01307423|164925930|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.6|||||TWO_SIDED|95.0|-10.2|15.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||15.5|-10.2|
82604677|NCT01307423|164925930|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.0|||||TWO_SIDED|95.0|4.2|29.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||29.8|4.2|
82604678|NCT01307423|164925931|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|-7.8|20.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||20.4|-7.8|
82604679|NCT01307423|164925931|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|1.9|||||TWO_SIDED|95.0|-12.6|16.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||16.4|-12.6|
82604680|NCT01307423|164925932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|16.1|||||TWO_SIDED|95.0|6.4|25.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||25.8|6.4|
82604681|NCT01307423|164925932|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|19.3|||||TWO_SIDED|95.0|9.6|29.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||29.1|9.6|
82604682|NCT01307423|164925933|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.0|||||TWO_SIDED|95.0|-6.8|18.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||18.8|-6.8|
82604683|NCT01307423|164925933|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|18.0|||||TWO_SIDED|95.0|5.3|30.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||30.6|5.3|
82604684|NCT01307423|164925934|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.1|25.9|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||25.9|-2.1|
82604685|NCT01307423|164925934|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|5.3|||||TWO_SIDED|95.0|-9.2|19.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.8|-9.2|
82604686|NCT01307423|164925935|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||||TWO_SIDED|95.0|8.8|26.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||26.8|8.8|
82492272|NCT03535844|164677743|SUPERIORITY|||||||0.4408|||||||t-test, 2 sided|Independent t-test of body fat % change values||||||0.4408
82492273|NCT03535844|164677744|SUPERIORITY|||||||0.1487|||||||t-test, 2 sided|Independent t-test of change values||||||0.1487
82604687|NCT01307423|164925935|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|11.4|||||TWO_SIDED|95.0|2.7|20.0|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||20.0|2.7|
82604688|NCT01307423|164925936|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.9|||||TWO_SIDED|95.0|1.3|12.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.5|1.3|
82604689|NCT01307423|164925936|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.8|||||TWO_SIDED|95.0|1.2|12.4|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.4|1.2|
82604690|NCT01307423|164925937|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.9|||||TWO_SIDED|95.0|-0.4|6.2|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||6.2|-0.4|
82604691|NCT01307423|164925937|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.8|||||TWO_SIDED|95.0|-0.4|6.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||6.1|-0.4|
82604692|NCT01307423|164925938|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.8|||||TWO_SIDED|95.0|3.2|16.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||16.3|3.2|
82604693|NCT01307423|164925938|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.3|||||TWO_SIDED|95.0|0.2|12.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution|||12.3|0.2|
82604694|NCT01307423|164925939|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-4.1|4.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||4.1|-4.1|
82604695|NCT01307423|164925939|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|0.6|||||TWO_SIDED|95.0|-3.7|4.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||4.8|-3.7|
82604696|NCT01307423|164925940|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|2.2|||||TWO_SIDED|95.0|-8.1|12.6|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||12.6|-8.1|
82604697|NCT01307423|164925940|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|17.8|||||TWO_SIDED|95.0|6.3|29.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||29.3|6.3|
82604698|NCT01307423|164925941|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|9.4|||||TWO_SIDED|95.0|-4.8|23.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||23.5|-4.8|
82604699|NCT01307423|164925941|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|7.1|||||TWO_SIDED|95.0|-7.2|21.5|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||21.5|-7.2|
82604700|NCT01307423|164925942|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|6.5|||||TWO_SIDED|95.0|-4.8|17.7|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||17.7|-4.8|
82604701|NCT01307423|164925942|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|3.4|27.1|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||27.1|3.4|
82604702|NCT01307423|164925943|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|10.5|||||TWO_SIDED|95.0|-3.8|24.8|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||24.8|-3.8|
82604703|NCT01307423|164925943|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|4.9|||||TWO_SIDED|95.0|-9.5|19.3|||||Two-sided 95% CI of the proportion difference is based on the normal approximation to the binomial distribution.|||19.3|-9.5|
82604704|NCT00064701|164925982|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-1.9|||||TWO_SIDED|95.2|-8.9|5.2||||||||5.2|-8.9|
82604705|NCT00064701|164925982|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.0|||||TWO_SIDED|95.2|-9.9|4.0||||||||4.0|-9.9|
82604706|NCT00064701|164925983|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.3|||||TWO_SIDED|95.0|-7.2|0.6||||||||0.6|-7.2|
82604707|NCT00064701|164925983|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|0.0|||||TWO_SIDED|95.0|-3.1|3.2||||||||3.2|-3.1|
82604708|NCT00064701|164925984|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|-3.8|||||TWO_SIDED|95.0|-8.5|0.9||||||||0.9|-8.5|
82604709|NCT00064701|164925984|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference|0.0|||||TWO_SIDED|95.0|-4.0|4.1||||||||4.1|-4.0|
82604710|NCT00064701|164925985|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 6 Months|-8.0|||||TWO_SIDED|95.0|-13.1|-3.0||||||Comparison of tacrolimus with cyclosporine at 6 months||-3.0|-13.1|
82604711|NCT00064701|164925985|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 6 Months|-3.8|||||TWO_SIDED|95.0|-9.5|1.8||||||Comparison of Tacrolimus Modified Release with Cyclosporine at 6 months||1.8|-9.5|
82604712|NCT00064701|164925985|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 12 Months|-6.1|||||TWO_SIDED|95.0|-12.0|-0.3||||||Comparison of tacrolimus with cyclosporine at 12 months||-0.3|-12.0|
82656453|NCT02096718|165028516|SUPERIORITY_OR_OTHER||Ratio of gmeans|101.16|STANDARD_DEVIATION|38.5|||TWO_SIDED|90.0|72.931|140.309|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||140.309|72.931|
82604713|NCT00064701|164925985|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for this study was pre-specified as 10%.|Incidence Difference at 12 months|-3.4|||||TWO_SIDED|95.0|-9.6|2.8||||||Comparison of Tacrolimus Modified Release with Cyclosporine at 12 months||2.8|-9.6|
82604714|NCT00064701|164925995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|||||TWO_SIDED|95.0|-6.5|5.5||||||||5.5|-6.5|
82492274|NCT03535844|164677745|SUPERIORITY|||||||0.9135|||||||t-test, 2 sided|Independent t-test of change values||||||0.9135
82604715|NCT00064701|164925995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|||||TWO_SIDED|95.0|-3.9|6.9||||||||6.9|-3.9|
82604716|NCT00064701|164925996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|||||TWO_SIDED|95.0|-9.1|6.6||||||||6.6|-9.1|
82604717|NCT00064701|164925996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-7.1|8.6||||||||8.6|-7.1|
82604718|NCT02930174|164926001|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.26|TWO_SIDED||||||ANOVA|||||||0.26
82604719|NCT02930174|164926002|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.342|TWO_SIDED||||||ANOVA|||||||0.342
82604720|NCT02930174|164926003|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.184|TWO_SIDED||||||ANOVA|||||||0.184
82604721|NCT02930174|164926004|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.283|TWO_SIDED||||||ANOVA|||||||0.283
82604722|NCT02930174|164926005|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.204|TWO_SIDED||||||ANOVA|||||||0.204
82604723|NCT02930174|164926006|EQUIVALENCE|Two devices were tested while measuring the differences in lung impedance under multiple pressure settings to determine whether the devices perform in an equivalent fashion. We looked at the mean differences between the 2 devices across the 4 pressure settings.|Mean Difference (Final Values)|0.1|STANDARD_DEVIATION|2.0||0.136|TWO_SIDED||||||ANOVA|||||||0.136
82604724|NCT04672083|164926013|OTHER||||||<|0.05|||||||ANOVA|||"CPT31 dose proportionality will be examined across dose groups using a power model approach or ANOVA model, as appropriate.PK parameters will be analyzed using a power model that will have the following form: parameter = intercept × dose\^slope + random error.~Using the natural log (ln) transformation, a power model can be expressed as a linear regression equation: ln(parameter) = intercept + slope × ln(dose) + random error. For dose proportionality, the slope = 1; for dose independence, = 0."||||<0.05
82604725|NCT04672083|164926014|OTHER||||||<|0.05|||||||ANOVA|||"CPT31 dose proportionality will be examined across dose groups using a power model approach or ANOVA model, as appropriate.PK parameters will be analyzed using a power model that will have the following form: parameter = intercept × dose\^slope + random error.~Using the natural log (ln) transformation, a power model can be expressed as a linear regression equation: ln(parameter) = intercept + slope × ln(dose) + random error. For dose proportionality, the slope = 1; for dose independence, = 0."||||<0.05
82604726|NCT04672083|164926015|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% confidence interval for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604727|NCT04672083|164926016|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604728|NCT04672083|164926017|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604729|NCT04672083|164926018|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604730|NCT04672083|164926019|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604731|NCT04672083|164926020|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantification.||||<0.05
82604732|NCT04672083|164926021|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantitation||||<0.05
82604733|NCT04672083|164926022|OTHER||||||<|0.05|||||||Regression, Linear|||Concentrations for all subjects in Cohorts 1-3 were below the limit of quantitation||||<0.05
82604734|NCT04672083|164926023|OTHER||||||<|0.05|||||||Regression, Linear|||The lack of fit test will be conducted for the statistical assessment of linearity assumption (AOL), and thus appropriateness of a power model. PK parameter is dose proportional if AOL is ruled acceptable and the 95% CI for the slope spans 1. If the AOL is ruled unacceptable for any PK parameter, its corresponding PK parameter normalized by dose administered will be ln-transformed and analyzed using an analysis of variance (ANOVA) model. The model will include dose as a factor.||||<0.05
82604735|NCT00046228|164926024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.91||||0.551||95.0|0.67|1.23||The null hypothesis was tested at the significance level of 0.049. If it is significant, the significance level of null hypotheses tested in the analyses 2 and 3 will be adjusted according to the modified Hochberg approach.|Log Rank|Independent Clinical Endpoints Committee confirmed components of primary endpoint except for death \& resuscitated v fib assessed by the investigator)||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the reteplase/abciximab facilitated PCI group versus the Primary PCI group is 15% in lower risk, 25% in medium risk, and 35% in high risk, the power of this comparison (1,000 subjects per group) is 83.4 %.||1.23|0.67|0.551
82604736|NCT00046228|164926024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.858||95.0|0.72|1.31|||Log Rank|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the Abciximab facilitated PCI versus the Primary PCI group is 12.7%, in lower risk, 17.9% in medium risk, and 25.0% in high risk, the power of this comparison (1000 subjects per group) is 54.1%||1.31|0.72|0.858
82492275|NCT03535844|164677746|SUPERIORITY|||||||0.5859|||||||t-test, 2 sided|Independent t-test of change values||||||0.5859
82604737|NCT00046228|164926024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.676||95.0|0.69|1.27|||Log Rank|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in terms of the primary efficacy outcome. Assuming the relative risk reduction for the reteplase/abciximab facilitated PCI versus the abciximab facilitated PCI group is 2.6% in lower risk, 8.7% in medium risk, and 13.3% in high risk, the power of this comparison (1,000 subjects per group) is 13.5%.||1.27|0.69|0.676
82604738|NCT00046228|164926025|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.247||95.0|0.57|1.16|||Chi-squared|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in complications of MI within 90 days.||1.16|0.57|0.247
82604739|NCT00046228|164926025|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.278||95.0|0.58|1.17|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in complications of MI within 90 days.||1.17|0.58|0.278
82604740|NCT00046228|164926025|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.944||95.0|0.68|1.43|||Chi-squared|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in complications of MI within 90 days.||1.43|0.68|0.944
82604741|NCT00046228|164926026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.494||95.0|0.74|1.84|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the primary PCI in 90-day all cause mortality.||1.84|0.74|0.494
82656454|NCT02096718|165028516|SUPERIORITY_OR_OTHER||Ratio of gmeans|121.71|STANDARD_DEVIATION|34.2|||TWO_SIDED|90.0|90.79|163.162|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||163.162|90.790|
82656455|NCT02096718|165028517|SUPERIORITY_OR_OTHER||Ratio of gmeans|122.44|STANDARD_DEVIATION|28.0|||TWO_SIDED|90.0|96.141|155.928|||ANOVA||Relative bioavailability comparison of afatinib for moderate vs. normal matched with moderate patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||155.928|96.141|
82656456|NCT02096718|165028517|SUPERIORITY_OR_OTHER||Ratio of gmeans|150.08|STANDARD_DEVIATION|41.5|||TWO_SIDED|90.0|105.626|213.25|||ANOVA||Relative bioavailability comparison of afatinib for severe vs. normal matched with severe patients was estimated by the ratios of the geometric means (gMean). Standard deviation is actually Inter individual geometric coefficient variation (gCV).|The ANOVA model was fitted using log-transformed values. The difference between the expected means of each comparison was estimated by the difference in the corresponding Least Square Means (point estimate), and 2-sided 90% confidence intervals based on the t-distribution. These quantities were then back-transformed to the original scale to give the point estimator (gMean), and interval estimates for the intersubject ratio of the gMeans for each renal function group.||213.250|105.626|
82656457|NCT02809183|165028556|OTHER|Single-group test|Group LS mean|-0.2|STANDARD_ERROR_OF_MEAN|0.4||0.5547|TWO_SIDED|95.0|-0.9|0.5||The null hypothesis is that the mean change from baseline within the Pooled Placebo treatment group = 0 mEq/L.|Mixed Models Analysis|||||0.5|-0.9|0.5547
82604742|NCT00046228|164926026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.338||95.0|0.79|1.95|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in 90-day all cause mortality.||1.95|0.79|0.338
82604743|NCT00046228|164926026|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.781||95.0|0.61|1.45|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in 90-day all cause mortality.||1.45|0.61|0.781
82604744|NCT00046228|164926027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.016||95.0|1.08|2.1|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the primary PCI in ST-segment resolution \>70% from baseline.||2.10|1.08|0.016
82604745|NCT00046228|164926027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.67||95.0|0.76|1.52|||Chi-squared|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in ST-segment resolution \>70% from baseline.||1.52|0.76|0.670
82604746|NCT00046228|164926027|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.042||95.0|1.01|1.93|||Chi-squared|||The null hypothesis is if retaplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in ST-segment resolution \>70% from baseline.||1.93|1.01|0.042
82604747|NCT00046228|164926028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.603||95.0|0.62|1.32|||Log Rank|||||1.32|0.62|0.603
82604748|NCT00046228|164926028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.765||95.0|0.73|1.52|||Log Rank|||||1.52|0.73|0.765
82604749|NCT00046228|164926028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.415||95.0|0.59|1.24|||Log Rank|||||1.24|0.59|0.415
82604750|NCT00046228|164926029|SUPERIORITY_OR_OTHER|||||||0.218||95.0|||||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in the risk of ICH.||||0.218
82604751|NCT00046228|164926029|SUPERIORITY_OR_OTHER|||||||0.497||95.0|||||Fisher Exact|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in the risk of ICH.||||0.497
82604752|NCT00046228|164926029|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in the risk of ICH.||||0.062
82604753|NCT00046228|164926030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.001||95.0|1.63|3.19|||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the primary PCI in the risk of non-ICH TIMI bleeding events.||3.19|1.63|<0.001
82604754|NCT00046228|164926030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.025||95.0|1.05|2.15|||Fisher Exact|||The null hypothesis is if abciximab facilitated PCI is the same as the primary PCI in the risk of non-ICH TIMI bleeding events.||2.15|1.05|0.025
82604755|NCT00046228|164926030|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.52||||0.008||95.0|1.12|2.05|||Fisher Exact|||The null hypothesis is if reteplase/abciximab facilitated PCI is the same as the abciximab facilitated PCI in the risk of non-ICH TIMI bleeding events.||2.05|1.12|0.008
82604756|NCT00046228|164926031|SUPERIORITY_OR_OTHER|||||||0.439||95.0|||||Fisher Exact|||||||0.439
82604757|NCT00046228|164926031|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Fisher Exact|||||||0.438
82604758|NCT00046228|164926031|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.000
82604759|NCT00046228|164926032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82604760|NCT00046228|164926032|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Fisher Exact|||||||0.020
82604761|NCT00046228|164926032|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82604762|NCT00046228|164926033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.434||95.0|0.69|1.18|||Chi-squared|||||1.18|0.69|0.434
82604763|NCT00046228|164926033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.589||95.0|0.71|1.22|||Chi-squared|||||1.22|0.71|0.589
82604764|NCT00046228|164926033|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.809||95.0|0.74|1.27|||Chi-squared|||||1.27|0.74|0.809
82656458|NCT02809183|165028556|OTHER|Single-group test|Group LS mean|3.2|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.4|4.0||The null hypothesis is that the mean change from baseline within the 1.5g TRC101 BID group = 0 mEq/L|Mixed Models Analysis|||The null hypothesis is that the mean change from baseline within the 1.5g TRC101 BID treatment group = 0 mEq/L.||4.0|2.4|< 0.0001
82604765|NCT03128957|164926043|EQUIVALENCE|Given the small sample permutation are feasible.||||||0.036|||||||permutation test|Given the non-parametric nature of spearman's correlation coefficient and a small sample we used a permutation test to calculate p-values.||Non-parametric covariance adjusted Spearman's correlation ρ\_s. To test the Null that Ho: ρ\_s.=0 vs alternative that Ha: ρ\_s.≠0, we used a method that calculates the probability that it would be greater than or equal to the observed ρ ̂, given the null hypothesis, by using a permutation test. An advantage of this approach is that it automatically takes into account the number of tied data values in the sample and the way they are treated in computing the rank correlation.||||0.036
82604766|NCT03128957|164926044|SUPERIORITY|||||||0.015|||||||Kruskal-Wallis|||Set point 1 (FiO2 0.3 and PaCO2 30 mmHg) compared to set point 2 (FiO2 1.0 and PaCO2 40 mmHg)||||0.015
82604767|NCT03128957|164926045|SUPERIORITY|||||||0.047|||||||Kruskal-Wallis|||Set point 1 (FiO2 0.3 and PaCO2 30 mmHg) compared to set point 2 (FiO2 1.0 and PaCO2 40 mmHg)||||0.047
82604768|NCT04211337|164926062|SUPERIORITY||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.165|0.475|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|||0.475|0.165|<0.0001
82604769|NCT04211337|164926063|SUPERIORITY||Hazard Ratio (HR)|0.254|||<|0.0001|TWO_SIDED|95.0|0.153|0.423|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|||0.423|0.153|<0.0001
82604770|NCT04211337|164926064|SUPERIORITY||Odds Ratio (OR)|3.7|||<|0.0001|TWO_SIDED|95.0|2.2|6.3||Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib)|Clopper-Pearson method|||||6.3|2.2|<0.0001
82604771|NCT04211337|164926065|SUPERIORITY||Hazard Ratio (HR)|0.275||||0.0004|TWO_SIDED|95.0|0.129|0.587|||Log Rank|Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).||||0.587|0.129|0.0004
82604772|NCT04211337|164926068|SUPERIORITY||Mean Difference (Final Values)|-0.16|||<|0.0001|TWO_SIDED|95.0|-0.23|-0.1||Stratified by RET mutation type (M918T vs. Others) and intended treatment if randomized to Arm B (Vandetanib vs. Cabozantinib).|Wilcoxon (Mann-Whitney)|||||-0.10|-0.23|<0.0001
82604773|NCT02848833|164926078|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
82604774|NCT02848833|164926081|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
82604775|NCT02848833|164926082|OTHER|Difference before administration versus after administration was analyzed using a paired t-test.|||||<|0.0001|||||||paired t-test|||||||<0.0001
82604776|NCT02848833|164926083|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
82604777|NCT02848833|164926084|OTHER||||||<|0.0001||||||Difference before administration versus after administration was analyzed using a paired t-test.|paired t-test|||||||<0.0001
82604778|NCT02847598|164926086|SUPERIORITY||Least squares (LS) mean Difference|-3.4||||0.037|TWO_SIDED|95.0|-6.7|-0.2|||MMRM|||A Mixed Effect Model Repeat Measurement (MMRM) model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||-0.2|-6.7|0.037
82604779|NCT02847598|164926087|SUPERIORITY||LS mean difference|-24.29||||0.015|TWO_SIDED|95.0|-43.7|-4.88|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-4.88|-43.70|0.015
82604780|NCT02847598|164926087|SUPERIORITY||LS mean difference|-33.42|||<|0.001|TWO_SIDED|95.0|-52.71|-14.12|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-14.12|-52.71|<0.001
82656459|NCT02809183|165028556|OTHER|Single-group test|Group LS mean|3.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.2|3.8||The null hypothesis is the 3g TRC101 BID treatment group mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||3.8|2.2|< 0.0001
82656460|NCT02809183|165028556|OTHER|Single-group test|Group LS mean|3.7|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.9|4.5||The null hypothesis is the 4.5g TRC101 BID treatment group mean change from baseline = 0 mEq/L|Mixed Models Analysis|||||4.5|2.9|< 0.0001
82604781|NCT02847598|164926087|SUPERIORITY||LS mean difference|-27.99||||0.001|TWO_SIDED|95.0|-44.55|-11.42|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-11.42|-44.55|0.001
82604782|NCT02847598|164926090|SUPERIORITY||LS Mean Difference|-9.93||||0.22|TWO_SIDED|95.0|-25.94|6.08|||MMRM|||Week 12: A MMRM model is performed, using treatment group study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||6.08|-25.94|0.220
82604783|NCT02847598|164926090|SUPERIORITY||LS Mean Difference|-8.96||||0.293|TWO_SIDED|95.0|-25.82|7.9|||MMRM|||Week 16: A MMRM model is performed, using treatment group (BIIB059 450 mg vs. placebo), study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region study visit-by-treatment interaction, baseline value of the endpoint, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||7.90|-25.82|0.293
82604784|NCT02847598|164926090|SUPERIORITY||LS Mean Difference|-15.74||||0.062|TWO_SIDED|95.0|-32.28|0.79|||MMRM|||Week 24: A MMRM model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||0.79|-32.28|0.062
82604785|NCT02847598|164926091|SUPERIORITY||LS mean difference|-30.36||||0.001|TWO_SIDED|95.0|-48.75|-11.97|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-11.97|-48.75|0.001
82604786|NCT02847598|164926091|SUPERIORITY||LS mean difference|-37.17|||<|0.001|TWO_SIDED|95.0|-55.46|-18.87|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-18.87|-55.46|<0.001
82604787|NCT02847598|164926091|SUPERIORITY||LS mean difference|-26.05||||0.001|TWO_SIDED|95.0|-41.71|-10.4|||MMRM|||A MMRM model is performed, using treatment group, study visit, study visit-by-treatment interaction, DLE (Yes/No), CLASI-A score (\<=10 vs. \>10) as fixed effect covariates.||-10.40|-41.71|0.001
82604788|NCT02847598|164926097|SUPERIORITY||LS Mean Difference|-1.7||||0.007|TWO_SIDED|95.0|-3.0|-0.5|||MMRM|||A MMRM model is performed, using treatment group, study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the outcome measure, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||-0.5|-3.0|0.007
82604789|NCT02847598|164926099|SUPERIORITY||LS mean difference|-0.16||||0.667|TWO_SIDED|95.0|-0.9|0.58|||MMRM|||A MMRM model is performed, using treatment group (BIIB059 450 mg vs. placebo), study visit, baseline corticosteroid usage level (\<=10 mg, \>10 mg), region, study visit-by-treatment interaction, baseline value of the endpoint, and baseline-by-visit interaction as fixed effect covariates. Statistical analysis for placebo and BIIB059 450 mg was planned and reported.||0.58|-0.90|0.667
82656461|NCT02809183|165028557|OTHER|Two-group test|Difference between group LS means|3.4|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.3|4.5||The null hypothesis is the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.5|2.3|< 0.0001
82656462|NCT02809183|165028557|OTHER|Two-group test|Difference between group LS means|3.2|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.2|4.3||The null hypothesis is the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.3|2.2|< 0.0001
82656463|NCT02809183|165028557|OTHER|Two-group test|Difference between group LS means|3.9|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.9|5.0||The null hypothesis is the difference between the treatment groups (4.5g TRC101 BID - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||5.0|2.9|< 0.0001
82656464|NCT02809183|165028558|OTHER|Single-group test|Group LS mean|3.3|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|3.0|3.7||The null hypothesis is that the mean change from baseline within the Combined TRC101 treatment group = 0 mEq/L.|Mixed Models Analysis|||||3.7|3.0|< 0.0001
82656465|NCT02809183|165028559|OTHER|Two-group test|Difference between group LS means|3.6|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.8|4.4||The null hypothesis is that the difference between treatment groups (Combined TRC101 - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.4|2.8|< 0.0001
82656466|NCT02809183|165028560|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
82656467|NCT02809183|165028560|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||< 0.0001
82656468|NCT02809183|165028560|OTHER|Two-group test||||||0.0074||||||The null hypothesis is that the difference between treatment groups (1.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0074
82656469|NCT02809183|165028560|OTHER|Two-group test||||||0.0012||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||0.0012
82656470|NCT02809183|165028560|OTHER|Two-group test||||||0.0032||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||0.0032
82656471|NCT02809183|165028560|OTHER|Two-group test||||||0.0013||||||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0013
82656472|NCT02809183|165028560|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
82492276|NCT03535844|164677747|SUPERIORITY|||||||0.9379|||||||t-test, 2 sided|Independent t-test of change values||||||0.9379
82604790|NCT03797001|164926168|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
82604791|NCT00960076|164926227|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.52|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|95.0|-0.73|-0.31||||||||-0.31|-0.73|
82604792|NCT00960076|164926228|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.32|STANDARD_ERROR_OF_MEAN|7.128|||TWO_SIDED|95.0|-37.36|-9.28||||||||-9.28|-37.36|
82604793|NCT00960076|164926229|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.18|STANDARD_ERROR_OF_MEAN|4.409|||TWO_SIDED|95.0|-21.86|-4.5||||||||-4.50|-21.86|
82604794|NCT00960076|164926230|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.2||||0.0459|TWO_SIDED|95.0|0.2|22.0|||ANCOVA|||||22.0|0.2|0.0459
82604795|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.108|0.157||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.157|0.108|<0.0001
82604796|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.078|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.127|0.078|<0.0001
82604797|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.096|0.145||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.145|0.096|< 0.0001
82604798|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.131|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.106|0.155||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.155|0.106|<0.0001
82604799|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.091|STANDARD_ERROR_OF_MEAN|0.012|<|0.0001|TWO_SIDED|95.0|0.066|0.115||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.115|0.066|<0.0001
82604800|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3394|TWO_SIDED|95.0|-0.013|0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.036|-0.013|0.3394
82604801|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.143|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.118|0.167||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.167|0.118|<0.0001
82604802|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.03|STANDARD_ERROR_OF_MEAN|0.012||0.0173|TWO_SIDED|95.0|0.005|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|0.005|0.0173
82604803|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.013||0.421|TWO_SIDED|95.0|-0.035|0.014||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.014|-0.035|0.4210
82604804|NCT01431287|164926234|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.012||0.0014|TWO_SIDED|95.0|0.015|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.064|0.015|0.0014
82604805|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.063|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.063|<0.0001
82604806|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.024|0.075||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.075|0.024|0.0001
82656473|NCT02809183|165028560|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||< 0.0001
82604807|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.067|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.042|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.092|0.042|<0.0001
82604808|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.087||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.087|0.037|<0.0001
82604809|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.0231|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|0.004|0.0231
82604810|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.013||0.1073|TWO_SIDED|95.0|-0.004|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.046|-0.004|0.1073
82604811|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.083|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.058|0.108||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.108|0.058|<0.0001
82604812|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.013||0.0029|TWO_SIDED|95.0|0.013|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|0.013|0.0029
82604813|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.005|STANDARD_ERROR_OF_MEAN|0.013||0.6939|TWO_SIDED|95.0|-0.02|0.03||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.030|-0.020|0.6939
82604814|NCT01431287|164926235|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0097|TWO_SIDED|95.0|0.008|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.058|0.008|0.0097
82604815|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.693|STANDARD_ERROR_OF_MEAN|0.553||0.0022|TWO_SIDED|95.0|-2.778|-0.608||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.608|-2.778|0.0022
82604816|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.233|STANDARD_ERROR_OF_MEAN|0.551||0.0252|TWO_SIDED|95.0|-2.313|-0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.153|-2.313|0.0252
82604817|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.031|STANDARD_ERROR_OF_MEAN|0.552||0.062|TWO_SIDED|95.0|-2.113|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.052|-2.113|0.0620
82604818|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.456|STANDARD_ERROR_OF_MEAN|0.548||0.4051|TWO_SIDED|95.0|-1.531|0.618||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.618|-1.531|0.4051
82604819|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.571|STANDARD_ERROR_OF_MEAN|0.55||0.2988|TWO_SIDED|95.0|-1.649|0.507||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.507|-1.649|0.2988
82656474|NCT02809183|165028560|OTHER|Two-group test|||||<|0.0006||||||The null hypothesis is that the difference between treatment groups (4.5g TRC101 BID - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||< 0.0006
82656475|NCT02809183|165028561|OTHER|Single-group test|Group LS mean|3.5|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|2.7|4.2||The null hypothesis is that the mean change from baseline within the 6g TRC101 QD group = 0 mEq/L.|Mixed Models Analysis|||||4.2|2.7|<0.0001
82492277|NCT03535844|164677748|SUPERIORITY|||||||0.9717|||||||t-test, 2 sided|t-test of change values||||||0.9717
82656476|NCT02809183|165028562|OTHER|Two-group test|Difference between group LS means|3.7|STANDARD_ERROR_OF_MEAN|0.5|<|0.0001|TWO_SIDED|95.0|2.6|4.7||The null hypothesis is the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||4.7|2.6|<0.0001
82604820|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.662|STANDARD_ERROR_OF_MEAN|0.545||0.2249|TWO_SIDED|95.0|-1.731|0.407||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.407|-1.731|0.2249
82604821|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.118|STANDARD_ERROR_OF_MEAN|0.549||0.0418|TWO_SIDED|95.0|-2.195|-0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.042|-2.195|0.0418
82604822|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.46|STANDARD_ERROR_OF_MEAN|0.557||0.4097|TWO_SIDED|95.0|-1.552|0.633||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.633|-1.552|0.4097
82604823|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.575|STANDARD_ERROR_OF_MEAN|0.556||0.3013|TWO_SIDED|95.0|-1.664|0.515||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.515|-1.664|0.3013
82604824|NCT01431287|164926236|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.554||0.8355|TWO_SIDED|95.0|-0.97|1.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||1.200|-0.970|0.8355
82604825|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.42|STANDARD_ERROR_OF_MEAN|0.135||0.0019|TWO_SIDED|95.0|0.155|0.684||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.684|0.155|0.0019
82604826|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.356|STANDARD_ERROR_OF_MEAN|0.135||0.0082|TWO_SIDED|95.0|0.092|0.619||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.619|0.092|0.0082
82604827|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.416|STANDARD_ERROR_OF_MEAN|0.135||0.002|TWO_SIDED|95.0|0.152|0.681||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.681|0.152|0.0020
82604828|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.29|STANDARD_ERROR_OF_MEAN|0.134||0.0307|TWO_SIDED|95.0|0.027|0.554||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.554|0.027|0.0307
82604829|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.352|STANDARD_ERROR_OF_MEAN|0.135||0.0088|TWO_SIDED|95.0|0.089|0.616||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.616|0.089|0.0088
82604830|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.003|STANDARD_ERROR_OF_MEAN|0.134||0.9801|TWO_SIDED|95.0|-0.259|0.266||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.266|-0.259|0.9801
82604831|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.294|STANDARD_ERROR_OF_MEAN|0.134||0.0289|TWO_SIDED|95.0|0.03|0.557||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.557|0.030|0.0289
82604832|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.136||0.6382|TWO_SIDED|95.0|-0.202|0.33||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.330|-0.202|0.6382
82492278|NCT03535844|164677751|SUPERIORITY|||||||0.7052|||||||t-test, 2 sided|Independent t-test of change values||||||0.7052
82492279|NCT03535844|164677751|SUPERIORITY|||||||0.07|||||||t-test, 2 sided|Paired t-test between Week 0 and Week 16 endothelin-1 concentrations||||||0.07
82604833|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.135||0.3525|TWO_SIDED|95.0|-0.14|0.391||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.391|-0.140|0.3525
82604834|NCT01431287|164926237|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.062|STANDARD_ERROR_OF_MEAN|0.135||0.6457|TWO_SIDED|95.0|-0.327|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.203|-0.327|0.6457
82604835|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0095|TWO_SIDED|95.0|0.008|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.008|0.0095
82604836|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.040|<0.0001
82604837|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.033|STANDARD_ERROR_OF_MEAN|0.013||0.0112|TWO_SIDED|95.0|0.007|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.007|0.0112
82604838|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.093|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.068|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.119|0.068|<0.0001
82604839|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.039|<0.0001
82604840|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.013||0.9514|TWO_SIDED|95.0|-0.024|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.026|-0.024|0.9514
82604841|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.069|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.119|0.069|<0.0001
82604842|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.032|STANDARD_ERROR_OF_MEAN|0.013||0.0131|TWO_SIDED|95.0|-0.057|-0.007||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.007|-0.057|0.0131
82604843|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.061|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|-0.086|-0.036||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.036|-0.086|<0.0001
82604844|NCT01431287|164926238|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.0243|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.054|0.004|0.0243
82604845|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.145|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.119|0.17||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.170|0.119|<0.0001
82656477|NCT02809183|165028563|OTHER|Two-group test|Difference between group LS means|-0.5|STANDARD_ERROR_OF_MEAN|0.6||0.4214|TWO_SIDED|95.0|-1.6|0.7||The null hypothesis is that the difference between treatment groups (3g TRC101 BID - 6g TRC101 QD) in the mean change from baseline = 0 mEq/L.|Mixed Models Analysis|||||0.7|-1.6|0.4214
82492280|NCT03535844|164677751|SUPERIORITY|||||||0.005||||||Paired t-test between Week 0 and Week 16 endothelin-1 concentrations|t-test, 2 sided|||||||0.005
82604846|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.085|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.136|0.085|<0.0001
82604847|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.119|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.094|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.094|<0.0001
82604848|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.081|0.132||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.132|0.081|<0.0001
82604849|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.059|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.110|0.059|<0.0001
82604850|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.026|STANDARD_ERROR_OF_MEAN|0.013||0.047|TWO_SIDED|95.0|0.0|0.051||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.051|0.000|0.0470
82604851|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.107|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.107|<0.0001
82604852|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0083|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.060|0.009|0.0083
82604853|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.013||0.3329|TWO_SIDED|95.0|-0.013|0.038||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.038|-0.013|0.3329
82604854|NCT01431287|164926239|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.022|STANDARD_ERROR_OF_MEAN|0.013||0.0958|TWO_SIDED|95.0|-0.004|0.047||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.047|-0.004|0.0958
82604855|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.105|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.105|<0.0001
82604856|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.112|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.086|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.139|0.086|<0.0001
82604857|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.092|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.092|<0.0001
82604858|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.092|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.144|0.092|<0.0001
82656478|NCT02809183|165028564|OTHER|Two-group test|||||<|0.0001||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 2 mEq/L = 0.|Fisher Exact|||||||< 0.0001
82656479|NCT02809183|165028564|OTHER|Two-group test||||||0.0003||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 3 mEq/L = 0.|Fisher Exact|||||||0.0003
82604859|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.072|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.125|0.072|<0.0001
82604860|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.3008|TWO_SIDED|95.0|-0.012|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.040|-0.012|0.3008
82604861|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.132|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.105|0.158||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.158|0.105|<0.0001
82604862|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.014||0.1484|TWO_SIDED|95.0|-0.007|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.046|-0.007|0.1484
82604863|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.014||0.9981|TWO_SIDED|95.0|-0.026|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.027|-0.026|0.9981
82604864|NCT01431287|164926240|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.013||0.148|TWO_SIDED|95.0|-0.007|0.046||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.046|-0.007|0.1480
82604865|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.040|<0.0001
82604866|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.005|TWO_SIDED|95.0|0.011|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.061|0.011|0.0050
82604867|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.089|0.039|<0.0001
82604868|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.037|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.088|0.037|<0.0001
82604869|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.013||0.0057|TWO_SIDED|95.0|0.01|0.061||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.061|0.010|0.0057
82604870|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.013||0.9633|TWO_SIDED|95.0|-0.025|0.026||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.026|-0.025|0.9633
82656480|NCT02809183|165028564|OTHER|Two-group test||||||0.0003||||||The null hypothesis is that the difference between treatment groups (6g TRC101 QD - Pooled Placebo) in the proportion of subjects whose serum bicarbonate increased from baseline to Day 15 by =\> 4 mEq/L = 0.|Fisher Exact|||||||0.0003
82656481|NCT02863575|165028577|SUPERIORITY||Least square (LS) means difference|2.68||||0.306|TWO_SIDED|95.0|-2.46|7.82|||ANCOVA|||||7.82|-2.46|0.306
82656482|NCT02863575|165028578|SUPERIORITY||LS mean difference|1.09||||0.056|TWO_SIDED|95.0|-0.03|2.2|||ANCOVA|||SPRID 0-2||2.20|-0.03|0.056
82656483|NCT02863575|165028578|SUPERIORITY||LS means difference|11.13|||<|0.001|TWO_SIDED|95.0|9.54|12.73|||ANCOVA|||SPRID 0-2||12.73|9.54|< 0.001
82656484|NCT02863575|165028578|SUPERIORITY||LS mean difference|10.05|||<|0.001|TWO_SIDED|95.0|8.45|11.64|||ANCOVA|||SPRID 0-2||11.64|8.45|< 0.001
82492281|NCT03535844|164677752|SUPERIORITY|||||||0.9426||||||Independent t-test of change values|t-test, 2 sided|||||||0.9426
82656485|NCT02863575|165028578|SUPERIORITY||LS mean difference|1.58||||0.177|TWO_SIDED|95.0|-0.72|3.87|||ANCOVA|||SPRID 0-4||3.87|-0.72|0.177
82604871|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.038|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.088|0.038|<0.0001
82604872|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.029|STANDARD_ERROR_OF_MEAN|0.013||0.025|TWO_SIDED|95.0|0.004|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.054|0.004|0.0250
82604873|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.002|STANDARD_ERROR_OF_MEAN|0.013||0.8949|TWO_SIDED|95.0|-0.023|0.027||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.027|-0.023|0.8949
82604874|NCT01431287|164926241|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0351|TWO_SIDED|95.0|0.002|0.052||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.052|0.002|0.0351
82604875|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.055|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.105|0.055|<0.0001
82604876|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.013||0.0002|TWO_SIDED|95.0|0.022|0.073||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.073|0.022|0.0002
82604877|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.101||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.101|0.051|<0.0001
82604878|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.061|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.036|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.086|0.036|<0.0001
82604879|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.044|STANDARD_ERROR_OF_MEAN|0.013||0.0007|TWO_SIDED|95.0|0.018|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.069|0.018|0.0007
82604880|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.013||0.7755|TWO_SIDED|95.0|-0.022|0.029||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.029|-0.022|0.7755
82604881|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.09||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.090|0.039|<0.0001
82604882|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.013||0.0118|TWO_SIDED|95.0|0.007|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.058|0.007|0.0118
82656486|NCT02863575|165028578|SUPERIORITY||LS mean difference|24.04|||<|0.001|TWO_SIDED|95.0|20.76|27.32|||ANCOVA|||SPRID 0-4||27.32|20.76|< 0.001
82656487|NCT02863575|165028578|SUPERIORITY||LS mean difference|22.46|||<|0.001|TWO_SIDED|95.0|19.18|25.75|||ANCOVA|||SPRID 0-4||25.75|19.18|< 0.001
82499413|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.227|STANDARD_ERROR_OF_MEAN|0.09||||90.0|0.079|0.376|||ANCOVA|||Extension Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.376|0.079|
82656488|NCT02863575|165028578|SUPERIORITY||LS mean difference|2.39||||0.201|TWO_SIDED|95.0|-1.28|6.06|||ANCOVA|||SPRID 0-6||6.06|-1.28|0.201
82656489|NCT02863575|165028578|SUPERIORITY||LS mean difference|34.3|||<|0.001|TWO_SIDED|95.0|29.06|39.55|||ANCOVA|||SPRID 0-6||39.55|29.06|< 0.001
82656490|NCT02863575|165028578|SUPERIORITY||LS mean difference|31.91|||<|0.001|TWO_SIDED|95.0|26.67|37.16|||ANCOVA|||SPRID 0-6||37.16|26.67|< 0.001
82656491|NCT02863575|165028578|SUPERIORITY||LS mean difference|40.85|||<|0.001|TWO_SIDED|95.0|33.49|48.2|||ANCOVA|||SPRID 0-8||48.20|33.49|< 0.001
82604883|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.013||0.2416|TWO_SIDED|95.0|-0.01|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.040|-0.010|0.2416
82604884|NCT01431287|164926242|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.013||0.1792|TWO_SIDED|95.0|-0.008|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.043|-0.008|0.1792
82604885|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.074|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.125|0.074|<0.0001
82604886|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.033|0.084||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.084|0.033|<0.0001
82604887|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.082|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.057|0.107||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.107|0.057|<0.0001
82604888|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.013||0.0002|TWO_SIDED|95.0|0.023|0.073||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.073|0.023|0.0002
82604889|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.013||0.0014|TWO_SIDED|95.0|0.016|0.067||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.067|0.016|0.0014
82604890|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.013||0.1747|TWO_SIDED|95.0|-0.008|0.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.043|-0.008|0.1747
82604891|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.04|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.091|0.040|<0.0001
82604892|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.041|STANDARD_ERROR_OF_MEAN|0.013||0.0016|TWO_SIDED|95.0|0.016|0.066||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.066|0.016|0.0016
82604893|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.013||0.0081|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.060|0.009|0.0081
82604894|NCT01431287|164926243|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.611|TWO_SIDED|95.0|-0.019|0.032||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.032|-0.019|0.6110
82604895|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.085|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.059|0.111||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.111|0.059|<0.0001
82604896|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.025|0.076||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.076|0.025|0.0001
82656492|NCT02863575|165028578|SUPERIORITY||LS mean difference|38.17|||<|0.001|TWO_SIDED|95.0|30.81|45.52|||ANCOVA|||SPRID 0-8||45.52|30.81|< 0.001
82656493|NCT02863575|165028579|SUPERIORITY||LS means difference|0.73||||0.066|TWO_SIDED|95.0|-0.05|1.5|||ANCOVA|||SPID 0-2||1.50|-0.05|0.066
82656494|NCT02863575|165028579|SUPERIORITY||LS means difference|7.55|||<|0.001|TWO_SIDED|95.0|6.44|8.66|||ANCOVA|||SPID 0-2||8.66|6.44|< 0.001
82604897|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.051|0.102||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.102|0.051|<0.0001
82604898|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.044|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.095|0.044|<0.0001
82604899|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.042|STANDARD_ERROR_OF_MEAN|0.013||0.0013|TWO_SIDED|95.0|0.016|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.068|0.016|0.0013
82604900|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.013||0.5274|TWO_SIDED|95.0|-0.017|0.034||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.034|-0.017|0.5274
82604901|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.078|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.052|0.103||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.103|0.052|<0.0001
82604902|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.035|STANDARD_ERROR_OF_MEAN|0.013||0.0083|TWO_SIDED|95.0|0.009|0.06||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.060|0.009|0.0083
82604903|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.007|STANDARD_ERROR_OF_MEAN|0.013||0.5744|TWO_SIDED|95.0|-0.018|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.033|-0.018|0.5744
82604904|NCT01431287|164926244|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.027|STANDARD_ERROR_OF_MEAN|0.013||0.0381|TWO_SIDED|95.0|0.001|0.053||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.053|0.001|0.0381
82604905|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.081|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.055|0.108||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.108|0.055|<0.0001
82656495|NCT02863575|165028579|SUPERIORITY||LS means difference|6.82|||<|0.001|TWO_SIDED|95.0|5.71|7.93|||ANCOVA|||SPID 0-2||7.93|5.71|< 0.001
82604906|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.053|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.027|0.079||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.079|0.027|<0.0001
82604907|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.065|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.039|0.091||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.091|0.039|<0.0001
82604908|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.055|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.029|0.081||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.081|0.029|<0.0001
82604909|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.013||0.0052|TWO_SIDED|95.0|0.011|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|0.011|0.0052
82656496|NCT02863575|165028579|SUPERIORITY||LS means difference|1.14||||0.165|TWO_SIDED|95.0|-0.47|2.74|||ANCOVA|||SPID 0-4||2.74|-0.47|0.165
82656497|NCT02863575|165028579|SUPERIORITY||LS means difference|16.35|||<|0.001|TWO_SIDED|95.0|14.05|18.64|||ANCOVA|||SPID 0-4||18.64|14.05|< 0.001
82656498|NCT02863575|165028579|SUPERIORITY||LS means difference|15.21|||<|0.001|TWO_SIDED|95.0|12.91|17.51|||ANCOVA|||SPID 0-4||17.51|12.91|< 0.001
82604910|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.016|STANDARD_ERROR_OF_MEAN|0.013||0.2273|TWO_SIDED|95.0|-0.01|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.042|-0.010|0.2273
82604911|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.013|<|0.0001|TWO_SIDED|95.0|0.045|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|0.045|<0.0001
82604912|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.013||0.033|TWO_SIDED|95.0|0.002|0.055||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.055|0.002|0.0330
82604913|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.013||0.4327|TWO_SIDED|95.0|-0.016|0.037||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.037|-0.016|0.4327
82604914|NCT01431287|164926245|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.013||0.1764|TWO_SIDED|95.0|-0.008|0.044||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.044|-0.008|0.1764
82604915|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.0241|TWO_SIDED|95.0|0.007|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.105|0.007|0.0241
82604916|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.051|0.148||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.148|0.051|<0.0001
82604917|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.025||0.0049|TWO_SIDED|95.0|0.021|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.119|0.021|0.0049
82604918|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.147|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.098|0.196||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.196|0.098|<0.0001
82604919|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.113|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.064|0.162||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.162|0.064|<0.0001
82656499|NCT02863575|165028579|SUPERIORITY||LS means difference|1.78||||0.172|TWO_SIDED|95.0|-0.78|4.34|||ANCOVA|||SPID 0-6||4.34|-0.78|0.172
82656500|NCT02863575|165028579|SUPERIORITY||LS means difference|23.37|||<|0.001|TWO_SIDED|95.0|19.71|27.03|||ANCOVA|||SPID 0-6||27.03|19.71|< 0.001
82656501|NCT02863575|165028579|SUPERIORITY||LS means difference|21.59|||<|0.001|TWO_SIDED|95.0|17.93|25.25|||ANCOVA|||SPID 0-6||25.25|17.93|< 0.001
82492282|NCT01847274|164677787|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.173|0.41||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort.|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.410|0.173|<0.0001
82656502|NCT02863575|165028579|SUPERIORITY||LS means difference|2.1||||0.249|TWO_SIDED|95.0|-1.47|5.67|||ANCOVA|||SPID 0-8||5.67|-1.47|0.249
82656503|NCT02863575|165028579|SUPERIORITY||LS means difference|27.88|||<|0.001|TWO_SIDED|95.0|22.78|32.99|||ANCOVA|||SPID 0-8||32.99|22.78|< 0.001
82656504|NCT02863575|165028579|SUPERIORITY||LS means difference|25.79|||<|0.001|TWO_SIDED|95.0|20.68|30.89|||ANCOVA|||SPID 0-8||30.89|20.68|< 0.001
82656505|NCT02863575|165028580|SUPERIORITY||LS means difference|0.36||||0.044|TWO_SIDED|95.0|0.01|0.71|||ANCOVA|||TOTPAR 0-2||0.71|0.01|0.044
82656506|NCT02863575|165028580|SUPERIORITY||LS means difference|3.59|||<|0.001|TWO_SIDED|95.0|3.09|4.09|||ANCOVA|||TOTPAR 0-2||4.09|3.09|< 0.001
82498983|NCT02289417|164688933|SUPERIORITY||Stratified Difference|6.0||||0.4476||95.0|-9.8|21.6|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||21.6|-9.8|0.4476
82656507|NCT02863575|165028580|SUPERIORITY||LS means difference|3.23|||<|0.001|TWO_SIDED|95.0|2.73|3.73|||ANCOVA|||TOTPAR 0-2||3.73|2.73|< 0.001
82656508|NCT02863575|165028580|SUPERIORITY||LS means difference|0.44||||0.224|TWO_SIDED|95.0|-0.27|1.15|||ANCOVA|||TOTPAR 0-4||1.15|-0.27|0.224
82604920|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.025||0.5831|TWO_SIDED|95.0|-0.063|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.035|-0.063|0.5831
82604921|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.133|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.182||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.182|0.084|<0.0001
82604922|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.043|STANDARD_ERROR_OF_MEAN|0.025||0.0822|TWO_SIDED|95.0|-0.092|0.006||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.006|-0.092|0.0822
82604923|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.077|STANDARD_ERROR_OF_MEAN|0.025||0.002|TWO_SIDED|95.0|-0.126|-0.028||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||-0.028|-0.126|0.0020
82604924|NCT01431287|164926246|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.034|STANDARD_ERROR_OF_MEAN|0.025||0.1774|TWO_SIDED|95.0|-0.015|0.083||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.083|-0.015|0.1774
82656509|NCT02863575|165028580|SUPERIORITY||LS means difference|7.69|||<|0.001|TWO_SIDED|95.0|6.68|8.71|||ANCOVA|||TOTPAR 0-4||8.71|6.68|< 0.001
82492283|NCT01847274|164677788|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.0001|TWO_SIDED|95.0|0.243|0.586||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort. Hierarchical testing: HRD+ subset tested first. If HRD+ subset demonstrated statistical significance, overall non-gBRCA cohort was then tested|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.586|0.243|<0.0001
82604925|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.219|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.169|0.268||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.268|0.169|<0.0001
82604926|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.143|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.094|0.193||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.193|0.094|<0.0001
82604927|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.209|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.16|0.258||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.258|0.160|<0.0001
82604928|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.153|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.104|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.203|0.104|<0.0001
82656510|NCT02863575|165028580|SUPERIORITY||LS means difference|7.25|||<|0.001|TWO_SIDED|95.0|6.23|8.27|||ANCOVA|||TOTPAR 0-4||8.27|6.23|< 0.001
82656511|NCT02863575|165028580|SUPERIORITY||LS means difference|0.61||||0.293|TWO_SIDED|95.0|-0.53|1.75|||ANCOVA|||TOTPAR 0-6||1.75|-0.53|0.293
82656512|NCT02863575|165028580|SUPERIORITY||LS means difference|10.93|||<|0.001|TWO_SIDED|95.0|9.3|12.56|||ANCOVA|||TOTPAR 0-6||12.56|9.30|< 0.001
82656513|NCT02863575|165028580|SUPERIORITY||LS means difference|10.32|||<|0.001|TWO_SIDED|95.0|8.69|11.95|||ANCOVA|||TOTPAR 0-6||11.95|8.69|< 0.001
82656514|NCT02863575|165028580|SUPERIORITY||LS means difference|0.58||||0.476|TWO_SIDED|95.0|-1.03|2.19|||ANCOVA|||TOTPAR 0-8||2.19|-1.03|0.476
82656515|NCT02863575|165028580|SUPERIORITY||LS means difference|12.96|||<|0.001|TWO_SIDED|95.0|10.66|15.26|||ANCOVA|||TOTPAR 0-8||15.26|10.66|< 0.001
82656516|NCT02863575|165028580|SUPERIORITY||LS means difference|12.38|||<|0.001|TWO_SIDED|95.0|10.08|14.68|||ANCOVA|||TOTPAR 0-8||14.68|10.08|< 0.001
82656517|NCT02863575|165028581|SUPERIORITY||LS means difference|0.01||||0.975|TWO_SIDED|95.0|-0.35|0.36|||ANCOVA|||PRID at 0.25 hour||0.36|-0.35|0.975
82656518|NCT02863575|165028581|SUPERIORITY||LS means difference|0.12||||0.654|TWO_SIDED|95.0|-0.4|0.63|||ANCOVA|||PRID at 0.25 hour||0.63|-0.40|0.654
82656519|NCT02863575|165028581|SUPERIORITY||LS means difference|0.11||||0.67|TWO_SIDED|95.0|-0.4|0.62|||ANCOVA|||PRID at 0.25 hour||0.62|-0.40|0.670
82656520|NCT02863575|165028581|SUPERIORITY||LS means difference|-0.04||||0.917|TWO_SIDED|95.0|-0.7|0.63|||ANCOVA|||PRID at 0.5 hour||0.63|-0.70|0.917
82604929|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.134|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.084|0.183||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.183|0.084|<0.0001
82604930|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.01|STANDARD_ERROR_OF_MEAN|0.025||0.6974|TWO_SIDED|95.0|-0.04|0.059||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.059|-0.040|0.6974
82604931|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.163|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.114|0.213||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.213|0.114|<0.0001
82604932|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.025||0.0027|TWO_SIDED|95.0|0.026|0.125||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.125|0.026|0.0027
82604933|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.056|STANDARD_ERROR_OF_MEAN|0.025||0.0269|TWO_SIDED|95.0|0.006|0.105||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.105|0.006|0.0269
82604934|NCT01431287|164926247|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.02|STANDARD_ERROR_OF_MEAN|0.025||0.4343|TWO_SIDED|95.0|-0.03|0.069||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.069|-0.030|0.4343
82604935|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.198|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.148|0.248||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.248|0.148|<0.0001
82604936|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.146|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.096|0.197||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.197|0.096|<0.0001
82656521|NCT02863575|165028581|SUPERIORITY||LS means difference|2.26|||<|0.001|TWO_SIDED|95.0|1.31|3.2|||ANCOVA|||PRID at 0.5 hour||3.20|1.31|< 0.001
82604937|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.158|0.258||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.258|0.158|<0.0001
82604938|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.193|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.143|0.242||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.242|0.143|<0.0001
82656522|NCT02863575|165028581|SUPERIORITY||LS means difference|2.29|||<|0.001|TWO_SIDED|95.0|1.35|3.24|||ANCOVA|||PRID at 0.5 hour||3.24|1.35|< 0.001
82656523|NCT02863575|165028581|SUPERIORITY||LS means difference|0.73||||0.039|TWO_SIDED|95.0|0.04|1.42|||ANCOVA|||PRID at 1 hour||1.42|0.04|0.039
82604939|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.106|0.206||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.206|0.106|<0.0001
82656524|NCT02863575|165028581|SUPERIORITY||LS means difference|6.11|||<|0.001|TWO_SIDED|95.0|5.12|7.1|||ANCOVA|||PRID at 1 hour||7.10|5.12|< 0.001
82656525|NCT02863575|165028581|SUPERIORITY||LS means difference|5.38|||<|0.001|TWO_SIDED|95.0|4.39|6.37|||ANCOVA|||PRID at 1 hour||6.37|4.39|< 0.001
82656526|NCT02863575|165028581|SUPERIORITY||LS means difference|0.84||||0.015|TWO_SIDED|95.0|0.16|1.52|||ANCOVA|||PRID at 1.5 hour||1.52|0.16|0.015
82656527|NCT02863575|165028581|SUPERIORITY||LS means difference|7.36|||<|0.001|TWO_SIDED|95.0|6.39|8.33|||ANCOVA|||PRID at 1.5 hour||8.33|6.39|< 0.001
82656528|NCT02863575|165028581|SUPERIORITY||LS means difference|6.52|||<|0.001|TWO_SIDED|95.0|5.55|7.49|||ANCOVA|||PRID at 1.5 hour||7.49|5.55|< 0.001
82656529|NCT02863575|165028581|SUPERIORITY||LS means difference|0.62||||0.071|TWO_SIDED|95.0|-0.05|1.3|||ANCOVA|||PRID at 2 hour||1.30|-0.05|0.071
82656530|NCT02863575|165028581|SUPERIORITY||LS means difference|7.62|||<|0.001|TWO_SIDED|95.0|6.65|8.58|||ANCOVA|||PRID at 2 hour||8.58|6.65|< 0.001
82656531|NCT02863575|165028581|SUPERIORITY||LS means difference|6.99|||<|0.001|TWO_SIDED|95.0|6.03|7.96|||ANCOVA|||PRID at 2 hour||7.96|6.03|< 0.001
82604940|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.025||0.698|TWO_SIDED|95.0|-0.06|0.04||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.040|-0.060|0.6980
82604941|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.233||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.233|0.132|<0.0001
82604942|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.026||0.0442|TWO_SIDED|95.0|0.001|0.102||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.102|0.001|0.0442
82604943|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.015|STANDARD_ERROR_OF_MEAN|0.026||0.5514|TWO_SIDED|95.0|-0.035|0.065||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.065|-0.035|0.5514
82604944|NCT01431287|164926248|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.036|STANDARD_ERROR_OF_MEAN|0.026||0.1569|TWO_SIDED|95.0|-0.014|0.086||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.086|-0.014|0.1569
82604945|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.202|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.15|0.253||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.253|0.150|<0.0001
82604946|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.234||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.234|0.132|<0.0001
82604947|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.218|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.167|0.269||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.269|0.167|<0.0001
82604948|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.181|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.13|0.232||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day\^interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.232|0.130|<0.0001
82604949|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.199|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.148|0.25||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.250|0.148|<0.0001
82604950|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.016|STANDARD_ERROR_OF_MEAN|0.026||0.5373|TWO_SIDED|95.0|-0.067|0.035||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.035|-0.067|0.5373
82604951|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.165|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.114|0.216||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.216|0.114|<0.0001
82656532|NCT02863575|165028581|SUPERIORITY||LS means difference|0.41||||0.243|TWO_SIDED|95.0|-0.28|1.09|||ANCOVA|||PRID at 3 hour||1.09|-0.28|0.243
82656533|NCT02863575|165028581|SUPERIORITY||LS means difference|6.83|||<|0.001|TWO_SIDED|95.0|5.85|7.8|||ANCOVA|||PRID at 3 hour||7.80|5.85|< 0.001
82656534|NCT02863575|165028581|SUPERIORITY||LS means difference|6.42|||<|0.001|TWO_SIDED|95.0|5.44|7.4|||ANCOVA|||PRID at 3 hour||7.40|5.44|< 0.001
82656535|NCT02863575|165028581|SUPERIORITY||LS means difference|0.08||||0.823|TWO_SIDED|95.0|-0.65|0.82|||ANCOVA|||PRID at 4 hour||0.82|-0.65|0.823
82656536|NCT02863575|165028581|SUPERIORITY||LS means difference|6.08|||<|0.001|TWO_SIDED|95.0|5.02|7.14|||ANCOVA|||PRID at 4 hour||7.14|5.02|< 0.001
82656537|NCT02863575|165028581|SUPERIORITY||LS means difference|6.0|||<|0.001|TWO_SIDED|95.0|4.94|7.05|||ANCOVA|||PRID at 4 hour||7.05|4.94|< 0.001
82656538|NCT02863575|165028581|SUPERIORITY||LS means difference|0.31||||0.438|TWO_SIDED|95.0|-0.48|1.11|||ANCOVA|||PRID at 5 hour||1.11|-0.48|0.438
82656539|NCT02863575|165028581|SUPERIORITY||LS means difference|5.47|||<|0.001|TWO_SIDED|95.0|4.33|6.6|||ANCOVA|||PRID at 5 hour||6.60|4.33|< 0.001
82604952|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.019|STANDARD_ERROR_OF_MEAN|0.026||0.4763|TWO_SIDED|95.0|-0.033|0.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.070|-0.033|0.4763
82656540|NCT02863575|165028581|SUPERIORITY||LS means difference|5.15|||<|0.001|TWO_SIDED|95.0|4.01|6.29|||ANCOVA|||PRID at 5 hour||6.29|4.01|< 0.001
82656541|NCT02863575|165028581|SUPERIORITY||LS means difference|0.5||||0.25|TWO_SIDED|95.0|-0.35|1.35|||ANCOVA|||PRID at 6 hour||1.35|-0.35|0.250
82656542|NCT02863575|165028581|SUPERIORITY||LS means difference|4.8|||<|0.001|TWO_SIDED|95.0|3.58|6.02|||ANCOVA|||PRID at 6 hour||6.02|3.58|< 0.001
82604953|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.037|STANDARD_ERROR_OF_MEAN|0.026||0.1613|TWO_SIDED|95.0|-0.015|0.088||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.088|-0.015|0.1613
82604954|NCT01431287|164926249|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.018|STANDARD_ERROR_OF_MEAN|0.026||0.4908|TWO_SIDED|95.0|-0.069|0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.033|-0.069|0.4908
82604955|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.072|0.173||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.173|0.072|<0.0001
82604956|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.026||0.0154|TWO_SIDED|95.0|0.012|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.012|0.0154
82604957|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.13|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.08|0.181||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.181|0.080|<0.0001
82604958|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.084|STANDARD_ERROR_OF_MEAN|0.026||0.0012|TWO_SIDED|95.0|0.033|0.134||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.134|0.033|0.0012
82604959|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.026||0.0061|TWO_SIDED|95.0|0.02|0.121||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.121|0.020|0.0061
82656543|NCT02863575|165028581|SUPERIORITY||LS means difference|4.3|||<|0.001|TWO_SIDED|95.0|3.08|5.52|||ANCOVA|||PRID at 6 hour||5.52|3.08|< 0.001
82656544|NCT02863575|165028581|SUPERIORITY||LS means difference|0.11||||0.818|TWO_SIDED|95.0|-0.8|1.01|||ANCOVA|||PRID at 7 hour||1.01|-0.80|0.818
82656545|NCT02863575|165028581|SUPERIORITY||LS means difference|3.53|||<|0.001|TWO_SIDED|95.0|2.23|4.82|||ANCOVA|||PRID at 7 hour||4.82|2.23|< 0.001
82656546|NCT02863575|165028581|SUPERIORITY||LS means difference|3.42|||<|0.001|TWO_SIDED|95.0|2.12|4.71|||ANCOVA|||PRID at 7 hour||4.71|2.12|< 0.001
82656547|NCT02863575|165028581|SUPERIORITY||LS means difference|0.18||||0.698|TWO_SIDED|95.0|-0.74|1.11|||ANCOVA|||PRID at 8 hour||1.11|-0.74|0.698
82656548|NCT02863575|165028581|SUPERIORITY||LS means difference|3.02|||<|0.001|TWO_SIDED|95.0|1.69|4.34|||ANCOVA|||PRID at 8 hour||4.34|1.69|< 0.001
82656549|NCT02863575|165028581|SUPERIORITY||LS means difference|2.83|||<|0.001|TWO_SIDED|95.0|1.51|4.16|||ANCOVA|||PRID at 8 hour||4.16|1.51|< 0.001
82656550|NCT02863575|165028582|SUPERIORITY||LS means difference|0.04||||0.575|TWO_SIDED|94.0|-0.09|0.16|||ANCOVA|||PRR score at 0.25 hour||0.16|-0.09|0.575
82656551|NCT02863575|165028582|SUPERIORITY||LS means difference|0.07||||0.426|TWO_SIDED|95.0|-0.11|0.25|||ANCOVA|||PRR score at 0.25 hour||0.25|-0.11|0.426
82656552|NCT02863575|165028582|SUPERIORITY||LS means difference|0.04||||0.686|TWO_SIDED|95.0|-0.14|0.22|||ANCOVA|||PRR score at 0.25 hour||0.22|-0.14|0.686
82656553|NCT02863575|165028582|SUPERIORITY||LS means difference|0.07||||0.543|TWO_SIDED|95.0|-0.15|0.29|||ANCOVA|||PRR score at 0.5 hour||0.29|-0.15|0.543
82656554|NCT02863575|165028582|SUPERIORITY||LS means difference|0.81|||<|0.001|TWO_SIDED|95.0|0.49|1.12|||ANCOVA|||PRR score at 0.5 hour||1.12|0.49|< 0.001
82656555|NCT02863575|165028582|SUPERIORITY||LS means difference|0.74|||<|0.001|TWO_SIDED|95.0|0.42|1.05|||ANCOVA|||PRR score at 0.5 hour||1.05|0.42|< 0.001
82656556|NCT02863575|165028582|SUPERIORITY||LS means difference|0.24||||0.038|TWO_SIDED|95.0|0.01|0.46|||ANCOVA|||PRR score at 1 hour||0.46|0.01|0.038
82656557|NCT02863575|165028582|SUPERIORITY||LS means difference|2.01|||<|0.001|TWO_SIDED|95.0|1.69|2.33|||ANCOVA|||PRR score at 1 hour||2.33|1.69|< 0.001
82656558|NCT02863575|165028582|SUPERIORITY||LS means difference|1.78|||<|0.001|TWO_SIDED|95.0|1.46|2.09|||ANCOVA|||PRR score at 1 hour||2.09|1.46|< 0.001
82656559|NCT02863575|165028582|SUPERIORITY||LS means difference|0.25||||0.024|TWO_SIDED|95.0|0.03|0.47|||ANCOVA|||PRR score at 1.5 hour||0.47|0.03|0.024
82656560|NCT02863575|165028582|SUPERIORITY||LS means difference|2.33|||<|0.001|TWO_SIDED|95.0|2.02|2.64|||ANCOVA|||PRR score at 1.5 hour||2.64|2.02|< 0.001
82604960|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.026||0.7518|TWO_SIDED|95.0|-0.059|0.042||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.042|-0.059|0.7518
82604961|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.026||0.0034|TWO_SIDED|95.0|0.025|0.126||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.126|0.025|0.0034
82604962|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.026||0.0209|TWO_SIDED|95.0|0.009|0.11||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.110|0.009|0.0209
82604963|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.026||0.0708|TWO_SIDED|95.0|-0.004|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|-0.004|0.0708
82604964|NCT01431287|164926250|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.013|STANDARD_ERROR_OF_MEAN|0.026||0.6148|TWO_SIDED|95.0|-0.038|0.064||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.064|-0.038|0.6148
82604965|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.164|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.114|0.215||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.215|0.114|<0.0001
82604966|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.026||0.0064|TWO_SIDED|95.0|0.02|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.122|0.020|0.0064
82604967|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.152|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.102|0.203||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.203|0.102|<0.0001
82604968|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.026||0.0035|TWO_SIDED|95.0|0.025|0.126||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.126|0.025|0.0035
82604969|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.026||0.0233|TWO_SIDED|95.0|0.008|0.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.109|0.008|0.0233
82656561|NCT02863575|165028582|SUPERIORITY||LS means difference|2.08|||<|0.001|TWO_SIDED|95.0|1.77|2.39|||ANCOVA|||PRR score at 1.5 hour||2.39|1.77|< 0.001
82604970|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.026||0.6413|TWO_SIDED|95.0|-0.039|0.063||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.063|-0.039|0.6413
82604971|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.026||0.0007|TWO_SIDED|95.0|0.037|0.138||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.138|0.037|0.0007
82656562|NCT02863575|165028582|SUPERIORITY||LS means difference|0.18||||0.103|TWO_SIDED|95.0|-0.04|0.4|||ANCOVA|||PRR score at 2 hour||0.40|-0.04|0.103
82656563|NCT02863575|165028582|SUPERIORITY||LS means difference|2.4|||<|0.001|TWO_SIDED|95.0|2.09|2.71|||ANCOVA|||PRR score at 2 hour||2.71|2.09|< 0.001
82656564|NCT02863575|165028582|SUPERIORITY||LS means difference|2.22|||<|0.001|TWO_SIDED|95.0|1.91|2.53|||ANCOVA|||PRR score at 2 hour||2.53|1.91|< 0.001
82656565|NCT02863575|165028582|SUPERIORITY||LS means difference|0.08||||0.448|TWO_SIDED|95.0|-0.13|0.29|||ANCOVA|||PRR score at 3 hour||0.29|-0.13|0.448
82656566|NCT02863575|165028582|SUPERIORITY||LS means difference|2.16|||<|0.001|TWO_SIDED|95.0|1.86|2.47|||ANCOVA|||PRR score at 3 hour||2.47|1.86|< 0.001
82656567|NCT02863575|165028582|SUPERIORITY||LS means difference|2.08|||<|0.001|TWO_SIDED|95.0|1.78|2.38|||ANCOVA|||PRR score at 3 hour||2.38|1.78|< 0.001
82656568|NCT02863575|165028582|SUPERIORITY||LS means difference|0.0||||0.997|TWO_SIDED|95.0|-0.23|0.23|||ANCOVA|||PRR score at 4 hour||0.23|-0.23|0.997
82656569|NCT02863575|165028582|SUPERIORITY||LS means difference|1.94|||<|0.001|TWO_SIDED|95.0|1.61|2.28|||ANCOVA|||PRR score at 4 hour||2.28|1.61|< 0.001
82656570|NCT02863575|165028582|SUPERIORITY||LS means difference|1.94|||<|0.001|TWO_SIDED|95.0|1.61|2.28|||ANCOVA|||PRR score at 4 hour||2.28|1.61|< 0.001
82656571|NCT02863575|165028582|SUPERIORITY||LS means difference|0.06||||0.656|TWO_SIDED|95.0|-0.19|0.31|||ANCOVA|||PRR score at 5 hour||0.31|-0.19|0.656
82656572|NCT02863575|165028582|SUPERIORITY||LS means difference|1.73|||<|0.001|TWO_SIDED|95.0|1.36|2.09|||ANCOVA|||PRR score at 5 hour||2.09|1.36|< 0.001
82604972|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.043|0.144||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.144|0.043|0.0003
82604973|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.077|STANDARD_ERROR_OF_MEAN|0.026||0.003|TWO_SIDED|95.0|0.026|0.127||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.127|0.026|0.0030
82604974|NCT01431287|164926251|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.026||0.5159|TWO_SIDED|95.0|-0.034|0.068||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.068|-0.034|0.5159
82604975|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.21|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.159|0.261||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.261|0.159|<0.0001
82656573|NCT02863575|165028582|SUPERIORITY||LS means difference|1.67|||<|0.001|TWO_SIDED|95.0|1.31|2.03|||ANCOVA|||PRR score at 5 hour||2.03|1.31|< 0.001
82656574|NCT02863575|165028582|SUPERIORITY||LS means difference|0.11||||0.425|TWO_SIDED|94.0|-0.16|0.38|||ANCOVA|||PRR score at 6 hour||0.38|-0.16|0.425
82656575|NCT02863575|165028582|SUPERIORITY||LS means difference|1.51|||<|0.001|TWO_SIDED|95.0|1.12|1.9|||ANCOVA|||PRR score at 6 hour||1.90|1.12|< 0.001
82656576|NCT02863575|165028582|SUPERIORITY||LS means difference|1.4|||<|0.001|TWO_SIDED|95.0|1.01|1.79|||ANCOVA|||PRR score at 6 hour||1.79|1.01|< 0.001
82656577|NCT02863575|165028582|SUPERIORITY||LS means difference|-0.03||||0.841|TWO_SIDED|95.0|-0.32|0.26|||ANCOVA|||PRR score at 7 hour||0.26|-0.32|0.841
82656578|NCT02863575|165028582|SUPERIORITY||LS means difference|1.1|||<|0.001|TWO_SIDED|95.0|0.69|1.52|||ANCOVA|||PRR score at 7 hour||1.52|0.69|< 0.001
82656579|NCT02863575|165028582|SUPERIORITY||LS means difference|1.13|||<|0.001|TWO_SIDED|95.0|0.72|1.55|||ANCOVA|||PRR score at 7 hour||1.55|0.72|< 0.001
82656580|NCT02863575|165028582|SUPERIORITY||LS means difference|0.0||||0.98||95.0|-0.3|0.3|||ANCOVA|||PRR score at 8 hour||0.30|-0.30|0.980
82656581|NCT02863575|165028582|SUPERIORITY||LS means difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.36|||ANCOVA|||PRR score at 8 hour||1.36|0.50|< 0.001
82656582|NCT02863575|165028582|SUPERIORITY||LS means difference|0.93|||<|0.001|TWO_SIDED|95.0|0.5|1.35|||ANCOVA|||PRR score at 8 hour||1.35|0.50|< 0.001
82656583|NCT02863575|165028583|SUPERIORITY||LS means difference|-0.03||||0.808|TWO_SIDED|95.0|-0.27|0.21|||ANCOVA|||PID score at 0.25 hour||0.21|-0.27|0.808
82656584|NCT02863575|165028583|SUPERIORITY||LS means difference|0.04||||0.804|TWO_SIDED|95.0|-0.3|0.39|||ANCOVA|||PID score at 0.25 hour||0.39|-0.30|0.804
82656585|NCT02863575|165028583|SUPERIORITY||LS means difference|0.07||||0.676|TWO_SIDED|95.0|-0.27|0.42|||ANCOVA|||PID score at 0.25 hr||0.42|-0.27|0.676
82656586|NCT02863575|165028583|SUPERIORITY||LS means difference|-0.1||||0.654|TWO_SIDED|95.0|-0.55|0.35|||ANCOVA|||PID score at 0.5 hour||0.35|-0.55|0.654
82656587|NCT02863575|165028583|SUPERIORITY||LS means difference|1.45|||<|0.001|TWO_SIDED|95.0|0.81|2.1|||ANCOVA|||PID score at 0.5 hour||2.10|0.81|< 0.001
82656588|NCT02863575|165028583|SUPERIORITY||LS means difference|1.55|||<|0.001|TWO_SIDED|95.0|0.91|2.2|||ANCOVA|||PID score at 0.5 hour||2.20|0.91|< 0.001
82656589|NCT02863575|165028583|SUPERIORITY||LS means difference|0.49||||0.045|TWO_SIDED|95.0|0.01|0.97|||ANCOVA|||PID score at 1 hour||0.97|0.01|0.045
82656590|NCT02863575|165028583|SUPERIORITY||LS means difference|4.1|||<|0.001||95.0|3.41|4.78|||ANCOVA|||PID score at 1 hour||4.78|3.41|< 0.001
82656591|NCT02863575|165028583|SUPERIORITY||LS means difference|3.6|||<|0.001|TWO_SIDED|95.0|2.92|4.29|||ANCOVA|||PID score at 1 hour||4.29|2.92|< 0.001
82656592|NCT02863575|165028583|SUPERIORITY||LS means difference|0.59||||0.015|TWO_SIDED|95.0|0.11|1.06|||ANCOVA|||PID score at 1.5 hour||1.06|0.11|0.015
82656593|NCT02863575|165028583|SUPERIORITY||LS means difference|5.03|||<|0.001|TWO_SIDED|95.0|4.35|5.71|||ANOVA|||PID score at 1.5 hour||5.71|4.35|< 0.001
82656594|NCT02863575|165028583|SUPERIORITY||LS means difference|4.44|||<|0.001|TWO_SIDED|95.0|3.76|5.12|||ANCOVA|||PID score at 1.5 hour||5.12|3.76|< 0.001
82656595|NCT02863575|165028583|SUPERIORITY||LS means difference|0.44||||0.066|TWO_SIDED|95.0|-0.03|0.91|||ANCOVA|||PID score at 2 hour||0.91|-0.03|0.066
82656596|NCT02863575|165028583|SUPERIORITY||LS means difference|5.22|||<|0.001|TWO_SIDED|95.0|4.54|5.89|||ANCOVA|||PID score at 2 hour||5.89|4.54|< 0.001
82656597|NCT02863575|165028583|SUPERIORITY||LS means difference|4.78|||<|0.001|TWO_SIDED|95.0|4.1|5.45|||ANCOVA|||PID score at 2 hour||5.45|4.10|< 0.001
82656598|NCT02863575|165028583|SUPERIORITY||LS means difference|0.32||||0.186|TWO_SIDED|95.0|-0.16|0.81|||ANCOVA|||PID score at 3 hour||0.81|-0.16|0.186
82656599|NCT02863575|165028583|SUPERIORITY||LS means difference|4.66|||<|0.001|TWO_SIDED|95.0|3.98|5.35|||ANCOVA|||PID score at 3 hour||5.35|3.98|< 0.001
82656600|NCT02863575|165028583|SUPERIORITY||LS means difference|4.34|||<|0.001|TWO_SIDED|95.0|3.65|5.03|||ANCOVA|||PID score at 3 hour||5.03|3.65|< 0.001
82604976|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.089|STANDARD_ERROR_OF_MEAN|0.026||0.0006|TWO_SIDED|95.0|0.038|0.141||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.141|0.038|0.0006
82604977|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.183|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.132|0.234||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.234|0.132|<0.0001
82604978|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.026||0.0094|TWO_SIDED|95.0|0.017|0.119||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.119|0.017|0.0094
82604979|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.062|STANDARD_ERROR_OF_MEAN|0.026||0.0174|TWO_SIDED|95.0|0.011|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.011|0.0174
82604980|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.028|STANDARD_ERROR_OF_MEAN|0.026||0.2888|TWO_SIDED|95.0|-0.023|0.079||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.079|-0.023|0.2888
82604981|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.095|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|0.044|0.146||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.146|0.044|0.0003
82604982|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.121|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.07|0.172||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.172|0.070|<0.0001
82604983|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.115|STANDARD_ERROR_OF_MEAN|0.026|<|0.0001|TWO_SIDED|95.0|0.064|0.166||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.166|0.064|<0.0001
82604984|NCT01431287|164926252|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.006|STANDARD_ERROR_OF_MEAN|0.026||0.8241|TWO_SIDED|95.0|-0.045|0.057||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.057|-0.045|0.8241
82604985|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.158|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.108|0.208||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.208|0.108|<0.0001
82656601|NCT02863575|165028583|SUPERIORITY||LS means difference|0.08||||0.75|TWO_SIDED|95.0|-0.43|0.6|||ANCOVA|||PID score at 4 hour||0.60|-0.43|0.750
82604986|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.072|STANDARD_ERROR_OF_MEAN|0.025||0.0048|TWO_SIDED|95.0|0.022|0.122||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.122|0.022|0.0048
82656602|NCT02863575|165028583|SUPERIORITY||LS means difference|4.14|||<|0.001|TWO_SIDED|95.0|3.4|4.87|||ANCOVA|||PID score at 4 hour||4.87|3.40|< 0.001
82656603|NCT02863575|165028583|SUPERIORITY||LS means difference|4.05|||<|0.001|TWO_SIDED|95.0|3.32|4.79|||ANCOVA|||PID score at 4 hour||4.79|3.32|< 0.001
82656604|NCT02863575|165028583|SUPERIORITY||LS means difference|0.26||||0.361|TWO_SIDED|95.0|-0.3|0.81|||ANCOVA|||PID score at 5 hour||0.81|-0.30|0.361
82656605|NCT02863575|165028583|SUPERIORITY||LS means difference|3.74|||<|0.001|TWO_SIDED|95.0|2.95|4.53|||ANCOVA|||PID score at 5 hour||4.53|2.95|< 0.001
82656606|NCT02863575|165028583|SUPERIORITY||LS means difference|3.48|||<|0.001|TWO_SIDED|95.0|2.69|4.27|||ANCOVA|||PID score at 5 hour||4.27|2.69|< 0.001
82656607|NCT02863575|165028583|SUPERIORITY||LS means difference|0.39||||0.195|TWO_SIDED|95.0|-0.2|0.98|||ANCOVA|||PID score at 6 hour||0.98|-0.20|0.195
82656608|NCT02863575|165028583|SUPERIORITY||LS means difference|3.29|||<|0.001|TWO_SIDED|95.0|2.44|4.13|||ANCOVA|||PID score at 6 hour||4.13|2.44|< 0.001
82656609|NCT02863575|165028583|SUPERIORITY||LS means difference|2.9|||<|0.001|TWO_SIDED|95.0|2.06|3.74|||ANCOVA|||PID score at 6 hour||3.74|2.06|< 0.001
82656610|NCT02863575|165028583|SUPERIORITY||LS means difference|0.14||||0.669|TWO_SIDED|95.0|-0.49|0.76|||ANCOVA|||PID score at 7 hour||0.76|-0.49|0.669
82604987|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.15|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.101|0.2||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.200|0.101|<0.0001
82656611|NCT02863575|165028583|SUPERIORITY||LS means difference|2.42|||<|0.001|TWO_SIDED|95.0|1.53|3.31|||ANCOVA|||PID score at 7 hour||3.31|1.53|< 0.001
82656612|NCT02863575|165028583|SUPERIORITY||LS means difference|2.29|||<|0.001|TWO_SIDED|95.0|1.4|3.18|||ANCOVA|||PID score at 7 hour||3.18|1.40|< 0.001
82604988|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.103|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.053|0.152||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.152|0.053|<0.0001
82604989|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.064|STANDARD_ERROR_OF_MEAN|0.025||0.0116|TWO_SIDED|95.0|0.014|0.113||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.113|0.014|0.0116
82604990|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.008|STANDARD_ERROR_OF_MEAN|0.025||0.7577|TWO_SIDED|95.0|-0.042|0.058||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom|spatial power covariance structure for within-patient errors|||0.058|-0.042|0.7577
82604991|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.111|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.061|0.16||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.160|0.061|<0.0001
82604992|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.086|STANDARD_ERROR_OF_MEAN|0.025||0.0007|TWO_SIDED|95.0|0.037|0.136||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.136|0.037|0.0007
82656613|NCT02863575|165028583|SUPERIORITY||LS means difference|0.18||||0.581|TWO_SIDED|95.0|-0.46|0.82|||ANCOVA|||PID score at 8 hour||0.82|-0.46|0.581
82656614|NCT02863575|165028583|SUPERIORITY||LS means difference|2.09|||<|0.001|TWO_SIDED|95.0|1.18|3.0|||ANCOVA|||PID score at 8 hour||3.00|1.18|< 0.001
82656615|NCT02863575|165028583|SUPERIORITY||LS means difference|1.91|||<|0.001|TWO_SIDED|95.0|1.0|2.82|||ANCOVA|||PID score at 8 hour||2.82|1.00|< 0.001
82656616|NCT02863575|165028584|SUPERIORITY|||||||0.028|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.028
82656617|NCT02863575|165028584|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656618|NCT02863575|165028584|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656619|NCT02863575|165028585|SUPERIORITY|||||||0.861|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.861
82604993|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.048|STANDARD_ERROR_OF_MEAN|0.025||0.0621|TWO_SIDED|95.0|-0.002|0.097||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.097|-0.002|0.0621
82604994|NCT01431287|164926253|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.025||0.1266|TWO_SIDED|95.0|-0.011|0.089||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.089|-0.011|0.1266
82656620|NCT02863575|165028585|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656621|NCT02863575|165028585|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656622|NCT02863575|165028586|SUPERIORITY|||||||0.838|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||0.838
82656623|NCT02863575|165028586|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656624|NCT02863575|165028586|SUPERIORITY||||||<|0.001|||||||Gehan-Wilcoxon test|P-value was calculated using the Gehan-Wilcoxon test, stratified by gender and baseline categorical pain severity terms.||||||<0.001
82656625|NCT05628675|165028592|OTHER||Effect size (Hedge's g)|0.32|||||TWO_SIDED|95.0|-0.33|0.96||||||Effect size calculation from Time 1 to Time 2 on MAAS||0.96|-0.33|
82656626|NCT05628675|165028592|OTHER||Effect size (Hedge's g)|0.72|||||TWO_SIDED|95.0|0.02|1.42||||||Effect size calculation from Time 1 to Time 3 on MAAS||1.42|0.02|
82656627|NCT05628675|165028593|OTHER||Effect size (Hedge's g)|0.36|||||TWO_SIDED|95.0|-0.29|1.01||||||Effect size calculation from Time 1 to Time 2 on P-PRFQ||1.01|-0.29|
82604995|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.104|0.209||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.209|0.104|<0.0001
82604996|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.087|STANDARD_ERROR_OF_MEAN|0.027||0.0013|TWO_SIDED|95.0|0.034|0.139||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.139|0.034|0.0013
82604997|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.17|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.118|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.223|0.118|<0.0001
82604998|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.102|STANDARD_ERROR_OF_MEAN|0.027||0.0001|TWO_SIDED|95.0|0.049|0.154||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.154|0.049|0.0001
82604999|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.027||0.0002|TWO_SIDED|95.0|0.048|0.153||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.153|0.048|0.0002
82605000|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.014|STANDARD_ERROR_OF_MEAN|0.027||0.6093|TWO_SIDED|95.0|-0.066|0.039||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.039|-0.066|0.6093
82605001|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.088|STANDARD_ERROR_OF_MEAN|0.027||0.0011|TWO_SIDED|95.0|0.035|0.14||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.140|0.035|0.0011
82605002|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.07|STANDARD_ERROR_OF_MEAN|0.027||0.0095|TWO_SIDED|95.0|0.017|0.123||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.123|0.017|0.0095
82605003|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.069|STANDARD_ERROR_OF_MEAN|0.027||0.0108|TWO_SIDED|95.0|0.016|0.121||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.121|0.016|0.0108
82605004|NCT01431287|164926254|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.027||0.9627|TWO_SIDED|95.0|-0.051|0.054||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|spatial power covariance structure for within-patient errors|||0.054|-0.051|0.9627
82605005|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.118|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.074|0.162||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.162|0.074|<0.0001
82605006|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.123|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.077|0.169||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.169|0.077|<0.0001
82605007|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.071|STANDARD_ERROR_OF_MEAN|0.022||0.0012|TWO_SIDED|95.0|0.028|0.114||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.114|0.028|0.0012
82605008|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.05|0.137||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.137|0.050|<0.0001
82605009|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.076|STANDARD_ERROR_OF_MEAN|0.023||0.001|TWO_SIDED|95.0|0.031|0.121||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.121|0.031|0.0010
82605010|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.023||0.0384|TWO_SIDED|95.0|0.003|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.092|0.003|0.0384
82605011|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.141|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.097|0.185||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.185|0.097|<0.0001
82605012|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.004|STANDARD_ERROR_OF_MEAN|0.023||0.8428|TWO_SIDED|95.0|-0.049|0.04||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.040|-0.049|0.8428
82605013|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.022||0.3048|TWO_SIDED|95.0|-0.065|0.02||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.020|-0.065|0.3048
82656628|NCT05628675|165028593|OTHER||Effect size (Hedge's g)|0.49|||||TWO_SIDED|95.0|-0.2|1.17||||||Effect size calculation from Time 1 to Time 3 on P-PRFQ||1.17|-0.20|
82656629|NCT05628675|165028594|OTHER||Effect size (Hedge's g)|1.48|||||TWO_SIDED|95.0|0.75|2.21||||||Effect size calculation from Time 1 to Time 2 on EPDS||2.21|0.75|
82605014|NCT01431287|164926255|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.018|STANDARD_ERROR_OF_MEAN|0.023||0.4311|TWO_SIDED|95.0|-0.027|0.063||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.063|-0.027|0.4311
82605015|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.098|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.057|0.139||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.139|0.057|<0.0001
82605016|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.106|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.063|0.149||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.149|0.063|<0.0001
82605017|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.051|STANDARD_ERROR_OF_MEAN|0.021||0.0136|TWO_SIDED|95.0|0.01|0.091||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.091|0.010|0.0136
82605018|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.075|STANDARD_ERROR_OF_MEAN|0.021||0.0003|TWO_SIDED|95.0|0.035|0.116||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.116|0.035|0.0003
82656630|NCT05628675|165028594|OTHER||Effect size (Hedge's g)|2.08|||||TWO_SIDED|95.0|1.28|2.88||||||Effect size calculation from Time 1 to Time 3 on EPDS||2.88|1.28|
82605019|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.0065|TWO_SIDED|95.0|0.016|0.101||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.101|0.016|0.0065
82605020|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.047|STANDARD_ERROR_OF_MEAN|0.021||0.0277|TWO_SIDED|95.0|0.005|0.089||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.089|0.005|0.0277
82605021|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.122|STANDARD_ERROR_OF_MEAN|0.021|<|0.0001|TWO_SIDED|95.0|0.081|0.164||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.164|0.081|<0.0001
82605022|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.008|STANDARD_ERROR_OF_MEAN|0.021||0.7116|TWO_SIDED|95.0|-0.049|0.034||Comments ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.034|-0.049|0.7116
82605023|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.024|STANDARD_ERROR_OF_MEAN|0.02||0.2332|TWO_SIDED|95.0|-0.065|0.016||Comments ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.016|-0.065|0.2332
82605024|NCT01431287|164926256|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.017|STANDARD_ERROR_OF_MEAN|0.021||0.4374|TWO_SIDED|95.0|-0.025|0.059||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.059|-0.025|0.4374
82605025|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.161|STANDARD_ERROR_OF_MEAN|0.043||0.0002|TWO_SIDED|95.0|0.077|0.244||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.244|0.077|0.0002
82605026|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.14|STANDARD_ERROR_OF_MEAN|0.045||0.0017|TWO_SIDED|95.0|0.053|0.228||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.228|0.053|0.0017
82605027|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.128|STANDARD_ERROR_OF_MEAN|0.042||0.0022|TWO_SIDED|95.0|0.046|0.21||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.210|0.046|0.0022
82605028|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.176|STANDARD_ERROR_OF_MEAN|0.042|<|0.0001|TWO_SIDED|95.0|0.093|0.259||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.259|0.093|<0.0001
82605029|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.108|STANDARD_ERROR_OF_MEAN|0.044||0.0141|TWO_SIDED|95.0|0.022|0.194||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.194|0.022|0.0141
82656631|NCT02532764|165028632|SUPERIORITY||Difference vs placebo|12.91|STANDARD_ERROR_OF_MEAN|6.53||0.0592|TWO_SIDED|95.0|-0.54|26.35||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||26.35|-0.54|0.0592
82605030|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.043||0.4581|TWO_SIDED|95.0|-0.053|0.118||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.118|-0.053|0.4581
82605031|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.208|STANDARD_ERROR_OF_MEAN|0.043|<|0.0001|TWO_SIDED|95.0|0.124|0.293||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.293|0.124|<0.0001
82605032|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.021|STANDARD_ERROR_OF_MEAN|0.043||0.6335|TWO_SIDED|95.0|-0.064|0.105||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.105|-0.064|0.6335
82605033|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.047|STANDARD_ERROR_OF_MEAN|0.041||0.253|TWO_SIDED|95.0|-0.129|0.034||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.034|-0.129|0.2530
82605034|NCT01431287|164926257|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.068|STANDARD_ERROR_OF_MEAN|0.043||0.1188|TWO_SIDED|95.0|-0.017|0.153||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.153|-0.017|0.1188
82656632|NCT02532764|165028632|SUPERIORITY||difference vs placebo|19.13|STANDARD_ERROR_OF_MEAN|6.56||0.0074|TWO_SIDED|95.0|5.62|32.64||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||32.64|5.62|0.0074
82656633|NCT02532764|165028632|SUPERIORITY||difference vs placebo|14.24|STANDARD_ERROR_OF_MEAN|6.6||0.0408|TWO_SIDED|95.0|0.64|27.83||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||27.83|0.64|0.0408
82605035|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.137|STANDARD_ERROR_OF_MEAN|0.041||0.0008|TWO_SIDED|95.0|0.057|0.217||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.217|0.057|0.0008
82656634|NCT02532764|165028632|SUPERIORITY||difference vs placebo|3.46|STANDARD_ERROR_OF_MEAN|6.87||0.6193|TWO_SIDED|95.0|-10.69|17.6||p-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||17.60|-10.69|0.6193
82656635|NCT02532764|165028634|SUPERIORITY||Difference vs placebo|23.17|STANDARD_ERROR_OF_MEAN|9.73||0.0321|TWO_SIDED|95.0|2.29|44.04||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||44.04|2.29|0.0321
82656636|NCT02532764|165028634|SUPERIORITY||Difference vs placebo|27.3|STANDARD_ERROR_OF_MEAN|9.17||0.01|TWO_SIDED|95.0|7.64|46.96||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||46.96|7.64|0.0100
82656637|NCT02532764|165028634|SUPERIORITY||Difference vs placebo|20.16|STANDARD_ERROR_OF_MEAN|8.62||0.0346|TWO_SIDED|95.0|1.68|38.64||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||38.64|1.68|0.0346
82605036|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.126|STANDARD_ERROR_OF_MEAN|0.043||0.0032|TWO_SIDED|95.0|0.042|0.209||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.209|0.042|0.0032
82605037|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.105|STANDARD_ERROR_OF_MEAN|0.04||0.0085|TWO_SIDED|95.0|0.027|0.183||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.183|0.027|0.0085
82605038|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.156|STANDARD_ERROR_OF_MEAN|0.04||0.0001|TWO_SIDED|95.0|0.077|0.235||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.235|0.077|0.0001
82656638|NCT02532764|165028634|SUPERIORITY||Difference vs placebo|10.84|STANDARD_ERROR_OF_MEAN|9.01||0.2485|TWO_SIDED|95.0|-8.47|30.16||p-values are presented for Day 33.|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline CFQ-R RSS as outcome variable and including treatment, baseline CFQ-R RSS value, time and interaction between time and treatment as covariates.||30.16|-8.47|0.2485
82605039|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.094|STANDARD_ERROR_OF_MEAN|0.042||0.0255|TWO_SIDED|95.0|0.011|0.176||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.176|0.011|0.0255
82605040|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.032|STANDARD_ERROR_OF_MEAN|0.041||0.4393|TWO_SIDED|95.0|-0.049|0.113||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.113|-0.049|0.4393
82605041|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.188|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|0.108|0.269||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.269|0.108|<0.0001
82605042|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.012|STANDARD_ERROR_OF_MEAN|0.041||0.7784|TWO_SIDED|95.0|-0.069|0.092||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.092|-0.069|0.7784
82605043|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.051|STANDARD_ERROR_OF_MEAN|0.039||0.1965|TWO_SIDED|95.0|-0.129|0.026||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.026|-0.129|0.1965
82605044|NCT01431287|164926258|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.063|STANDARD_ERROR_OF_MEAN|0.041||0.1315|TWO_SIDED|95.0|-0.019|0.144||ANCOVA model with categorical effect of treatment and baseline as covariate.|ANCOVA|||||0.144|-0.019|0.1315
82605045|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.141|STANDARD_ERROR_OF_MEAN|0.56||0.0001|TWO_SIDED|95.0|-3.239|-1.043||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-1.043|-3.239|0.0001
82605046|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.131|STANDARD_ERROR_OF_MEAN|0.56||0.0435|TWO_SIDED|95.0|-2.23|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.033|-2.230|0.0435
82656639|NCT02532764|165028636|SUPERIORITY||difference vs placebo|4.24|STANDARD_ERROR_OF_MEAN|3.18||0.1938|TWO_SIDED|95.0|-2.3|10.79||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariate||10.79|-2.30|0.1938
82656640|NCT02532764|165028636|SUPERIORITY||difference vs placebo|2.75|STANDARD_ERROR_OF_MEAN|3.18||0.3943|TWO_SIDED|95.0|-3.79|9.29||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||9.29|-3.79|0.3943
82605047|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.528|STANDARD_ERROR_OF_MEAN|0.559||0.0063|TWO_SIDED|95.0|-2.623|-0.432||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.432|-2.623|0.0063
82656641|NCT02532764|165028636|SUPERIORITY||difference vs placebo|0.53|STANDARD_ERROR_OF_MEAN|3.18||0.8688|TWO_SIDED|95.0|-6.01|7.07||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||7.07|-6.01|0.8688
82656642|NCT02532764|165028636|SUPERIORITY||difference vs placebo|-0.51|STANDARD_ERROR_OF_MEAN|3.35||0.8813|TWO_SIDED|95.0|-7.41|6.39||P-values are presented for Day 33|Mixed Models Analysis|||A mixed-model analysis was performed with repeated time measures on the change from baseline ppFEV1 as outcome variable and including treatment, baseline ppFEV1 value, time and interaction between time and treatment as covariates.||6.39|-7.41|0.8813
82656643|NCT02532764|165028638|SUPERIORITY||Difference vs placebo|10.19|STANDARD_ERROR_OF_MEAN|4.22||0.0301|TWO_SIDED|95.0|1.13|19.25||P-values are presented for Day 33|Mixed Models Analysis|||||19.25|1.13|0.0301
82656644|NCT02532764|165028638|SUPERIORITY||Difference vs placebo|7.99|STANDARD_ERROR_OF_MEAN|3.91||0.0601|TWO_SIDED|95.0|-0.39|16.37||P-values are presented for Day 33|Mixed Models Analysis|||||16.37|-0.39|0.0601
82656645|NCT02532764|165028638|SUPERIORITY||Difference vs placebo|3.5|STANDARD_ERROR_OF_MEAN|3.69||0.358|TWO_SIDED|95.0|-4.4|11.41||P-values are presented for Day 33|Mixed Models Analysis|||||11.41|-4.40|0.3580
82656646|NCT02532764|165028638|SUPERIORITY||Difference vs placebo|3.21|STANDARD_ERROR_OF_MEAN|3.89||0.4224|TWO_SIDED|95.0|-5.13|11.55||P-values are presented for Day 33|Mixed Models Analysis|||||11.55|-5.13|0.4224
82605048|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.517|STANDARD_ERROR_OF_MEAN|0.558||0.3545|TWO_SIDED|95.0|-1.611|0.577||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.577|-1.611|0.3545
82656647|NCT00262223|165028648|SUPERIORITY_OR_OTHER_LEGACY||Incidence Rate Ratio|1.6||||0.34|TWO_SIDED|95.0|0.61|4.23|||Generalized Estimating Equations|Negative binomial models with log link were applied to the alcohol consumption measure.||Between group analyses were conducted of time-by-treatment interaction that included the four study time points (baseline, end-of-treatment, 6-mos and 12-mos).||4.23|0.61|0.34
82605049|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.518|STANDARD_ERROR_OF_MEAN|0.559||0.3542|TWO_SIDED|95.0|-1.614|0.578||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.578|-1.614|0.3542
82605050|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.613|STANDARD_ERROR_OF_MEAN|0.556||0.2697|TWO_SIDED|95.0|-1.702|0.476||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.476|-1.702|0.2697
82605051|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.13|STANDARD_ERROR_OF_MEAN|0.559||0.0434|TWO_SIDED|95.0|-2.227|-0.033||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.033|-2.227|0.0434
82605052|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.563||0.0732|TWO_SIDED|95.0|-2.114|0.095||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.095|-2.114|0.0732
82605053|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.011|STANDARD_ERROR_OF_MEAN|0.563||0.0724|TWO_SIDED|95.0|-2.114|0.092||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.092|-2.114|0.0724
82656648|NCT00262223|165028649|SUPERIORITY_OR_OTHER_LEGACY||Parameter Estimate|-16.15||||0.04|TWO_SIDED|95.0|-31.18|-1.13||A trend-level time-by-treatment interaction (p = .096) was probed for simple effects, which revealed a significantly greater reduction in CAPS scores at end-of-treatment in the SS+Sertraline group relative to the SS+Placebo group.|Generalized Estimating Equations|||Generalized estimating equations (GEE) were utilized to model PTSD outcomes. This method is an extension of the generalized linear model that handles correlated data arising from repeated measurements, requires no parametric distribution assumption, and provides robust inference with respect to misspecification of the within-subject correlation. A temporal within-subjects autoregressive \[AR(1)\] correlation matrix was used to model participants across timepoints.||-1.13|-31.18|0.04
82656649|NCT00437658|165028655|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|-0.3||||0.963|TWO_SIDED|95.0|-13.4|12.7|||Pearson chi-squared||Difference in response rate = elogolix - DMPA-SC|||12.7|-13.4|0.9630
82656650|NCT00437658|165028655|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|-12.4||||0.101|TWO_SIDED|95.0|-26.7|1.8|||Pearson chi-squared||Difference in response rate = elogolix - DMPA-SC|||1.8|-26.7|0.1010
82605054|NCT01431287|164926259|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.001|STANDARD_ERROR_OF_MEAN|0.563||0.9983|TWO_SIDED|95.0|-1.102|1.104||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.104|-1.102|0.9983
82605055|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.852|STANDARD_ERROR_OF_MEAN|0.578||0.0014|TWO_SIDED|95.0|-2.985|-0.718||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.718|-2.985|0.0014
82605056|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.444|STANDARD_ERROR_OF_MEAN|0.576||0.4413|TWO_SIDED|95.0|-1.573|0.686||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.686|-1.573|0.4413
82605057|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.437|STANDARD_ERROR_OF_MEAN|0.578||0.0129|TWO_SIDED|95.0|-2.569|-0.304||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.304|-2.569|0.0129
82605058|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.056|STANDARD_ERROR_OF_MEAN|0.574||0.9222|TWO_SIDED|95.0|-1.182|1.07||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.070|-1.182|0.9222
82605059|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.029|STANDARD_ERROR_OF_MEAN|0.576||0.9602|TWO_SIDED|95.0|-1.157|1.1||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.100|-1.157|0.9602
82605060|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.415|STANDARD_ERROR_OF_MEAN|0.57||0.4669|TWO_SIDED|95.0|-1.533|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.703|-1.533|0.4669
82605061|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.471|STANDARD_ERROR_OF_MEAN|0.575||0.4126|TWO_SIDED|95.0|-1.598|0.656||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.656|-1.598|0.4126
82605062|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.408|STANDARD_ERROR_OF_MEAN|0.583||0.0158|TWO_SIDED|95.0|-2.551|-0.265||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.265|-2.551|0.0158
82605063|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.381|STANDARD_ERROR_OF_MEAN|0.582||0.0177|TWO_SIDED|95.0|-2.521|-0.24||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||-0.240|-2.521|0.0177
82605064|NCT01431287|164926260|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.027|STANDARD_ERROR_OF_MEAN|0.58||0.9624|TWO_SIDED|95.0|-1.164|1.109||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||1.109|-1.164|0.9624
82605065|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.595|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.329|0.862||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.862|0.329|<0.0001
82605066|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.64|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.373|0.907||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.907|0.373|<0.0001
82605067|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.423|STANDARD_ERROR_OF_MEAN|0.136||0.0019|TWO_SIDED|95.0|0.156|0.69||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.690|0.156|0.0019
82605068|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.446|STANDARD_ERROR_OF_MEAN|0.136||0.0011|TWO_SIDED|95.0|0.179|0.712||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.712|0.179|0.0011
82605069|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.468|STANDARD_ERROR_OF_MEAN|0.136||0.0006|TWO_SIDED|95.0|0.201|0.735||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.735|0.201|0.0006
82605070|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.172|STANDARD_ERROR_OF_MEAN|0.136||0.2045|TWO_SIDED|95.0|-0.094|0.438||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.438|-0.094|0.2045
82605071|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.618|STANDARD_ERROR_OF_MEAN|0.136|<|0.0001|TWO_SIDED|95.0|0.351|0.885||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.885|0.351|<0.0001
82605072|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.045|STANDARD_ERROR_OF_MEAN|0.137||0.7432|TWO_SIDED|95.0|-0.313|0.223||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.223|-0.313|0.7432
82605073|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.023|STANDARD_ERROR_OF_MEAN|0.136||0.8687|TWO_SIDED|95.0|-0.29|0.245||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.245|-0.290|0.8687
82605074|NCT01431287|164926261|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.022|STANDARD_ERROR_OF_MEAN|0.137||0.8709|TWO_SIDED|95.0|-0.29|0.246||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.246|-0.290|0.8709
82605075|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.63|STANDARD_ERROR_OF_MEAN|0.137|<|0.0001|TWO_SIDED|95.0|0.362|0.898||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.898|0.362|<0.0001
82605076|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.434|STANDARD_ERROR_OF_MEAN|0.137||0.0015|TWO_SIDED|95.0|0.166|0.703||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.703|0.166|0.0015
82605077|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.419|STANDARD_ERROR_OF_MEAN|0.137||0.0022|TWO_SIDED|95.0|0.151|0.687||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.687|0.151|0.0022
82605078|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.227|STANDARD_ERROR_OF_MEAN|0.137||0.0966|TWO_SIDED|95.0|-0.041|0.495||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.495|-0.041|0.0966
82605079|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.223|STANDARD_ERROR_OF_MEAN|0.137||0.1029|TWO_SIDED|95.0|-0.045|0.492||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.492|-0.045|0.1029
82656651|NCT00437658|165028656|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|9.5||||0.2048|TWO_SIDED|95.0|-5.2|24.2|||Pearson chi-squared||Difference in response rates = elagolix - DMPA-SC|||24.2|-5.2|0.2048
82656652|NCT00437658|165028656|NON_INFERIORITY|Statistical non-inferiority was defined when the lower bound of the 95% 2-sided confidence interval for the difference between an elagolix dose and DMPA-SC in the response rate was no less than -20% at week 24 for both dysmenorrhea and non-menstrual pelvic pain.|Difference in response rates|0.5||||0.9544|TWO_SIDED|95.0|-15.1|16.0|||Pearson chi-squared||Difference in response rates = elagolix - DMPA-SC|||16.0|-15.1|0.9544
82605080|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.211|STANDARD_ERROR_OF_MEAN|0.136||0.122|TWO_SIDED|95.0|-0.056|0.478||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.478|-0.056|0.1220
82605081|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.438|STANDARD_ERROR_OF_MEAN|0.137||0.0014|TWO_SIDED|95.0|0.17|0.707||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.707|0.170|0.0014
82605082|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.196|STANDARD_ERROR_OF_MEAN|0.137||0.1542|TWO_SIDED|95.0|-0.074|0.465||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.465|-0.074|0.1542
82605083|NCT01431287|164926262|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.192|STANDARD_ERROR_OF_MEAN|0.137||0.1626|TWO_SIDED|95.0|-0.077|0.461||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.461|-0.077|0.1626
82605084|NCT01431287|164926262|SUPERIORITY_OR_OTHER||djusted mean difference|0.004|STANDARD_ERROR_OF_MEAN|0.138||0.9765|TWO_SIDED|95.0|-0.265|0.274||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.274|-0.265|0.9765
82605085|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.647|STANDARD_ERROR_OF_MEAN|0.142|<|0.0001|TWO_SIDED|95.0|0.37|0.925||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.925|0.370|<0.0001
82605086|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.322|STANDARD_ERROR_OF_MEAN|0.141||0.0226|TWO_SIDED|95.0|0.045|0.6||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.600|0.045|0.0226
82605087|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.371|STANDARD_ERROR_OF_MEAN|0.142||0.0089|TWO_SIDED|95.0|0.093|0.649||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.649|0.093|0.0089
82605088|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.332|STANDARD_ERROR_OF_MEAN|0.141||0.0186|TWO_SIDED|95.0|0.056|0.609||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.609|0.056|0.0186
82605089|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.046|STANDARD_ERROR_OF_MEAN|0.142||0.7441|TWO_SIDED|95.0|-0.231|0.324||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.324|-0.231|0.7441
82605090|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.276|STANDARD_ERROR_OF_MEAN|0.14||0.0492|TWO_SIDED|95.0|0.001|0.551||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.551|0.001|0.0492
82605091|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.608|STANDARD_ERROR_OF_MEAN|0.141|<|0.0001|TWO_SIDED|95.0|0.332|0.884||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.884|0.332|<0.0001
82605092|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.325|STANDARD_ERROR_OF_MEAN|0.143||0.023|TWO_SIDED|95.0|0.045|0.605||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.605|0.045|0.0230
82605093|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.039|STANDARD_ERROR_OF_MEAN|0.142||0.7855|TWO_SIDED|95.0|-0.24|0.317||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.317|-0.240|0.7855
82605094|NCT01431287|164926263|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.286|STANDARD_ERROR_OF_MEAN|0.142||0.0442|TWO_SIDED|95.0|0.007|0.564||Mixed effect model repeated measures (MMRM) including fixed effects of treatment, planned test day, treatment by test day interaction, baseline, and baseline by test day interaction; patient as a random effect.|Mixed Models Analysis|Kenward-Roger approximation of denominator degrees of freedom.|Spatial power covariance structure for within-patient errors.|||0.564|0.007|0.0442
82605095|NCT00371267|164926293|SUPERIORITY_OR_OTHER||||||<|0.27|TWO_SIDED||||||Mixed Models Analysis|||||||<0.27
82605096|NCT00371267|164926294|SUPERIORITY_OR_OTHER||||||<|0.35|TWO_SIDED||||||Mixed Models Analysis|||||||<0.35
82605097|NCT00371267|164926295|SUPERIORITY_OR_OTHER||||||<|0.74|TWO_SIDED||||||Mixed Models Analysis|||||||<0.74
82605098|NCT00371267|164926296|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Mixed Models Analysis|||||||0.39
82605099|NCT00371267|164926297|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Mixed Models Analysis|||||||0.67
82605100|NCT00215150|164926326|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0|||||Wilcoxon Signed Rank Test|||Results are from a Wilcoxon signed rank test on the difference from endpoint to baseline for the intent to treat sample from the open label phase of the project.||||< 0.001
82605101|NCT00215150|164926326|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|95.0|||||Kruskal-Wallis|||Results are from a Kruskal Wallis test on the ziprasidone/placebo groups from the randomization phase of the project.||||> .05
82605102|NCT00824564|164926327|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-55.5|STANDARD_ERROR_OF_MEAN|58.63||0.348|TWO_SIDED|95.0|-172.7|61.7|||t-test, 2 sided|||The mean difference with associated standard error (SE), and corresponding 95% confidence interval (CI) for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||61.7|-172.7|0.348
82605103|NCT00824564|164926328|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.0|STANDARD_ERROR_OF_MEAN|32.78||0.466|TWO_SIDED|95.0|-41.3|89.3|||t-test, 2 sided|||The mean difference with associated SE and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||89.3|-41.3|0.466
82605104|NCT00824564|164926329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.3|STANDARD_ERROR_OF_MEAN|5.57||0.109|TWO_SIDED|95.0|-20.7|2.2|||t-test, 2 sided|||For 1 hour post-surgery, the mean difference with associated SE and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||2.2|-20.7|0.109
82605105|NCT00824564|164926329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|3.24||0.045|TWO_SIDED|95.0|-13.4|-0.1|||t-test, 2 sided|||For 4 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||-0.1|-13.4|0.045
82605106|NCT00824564|164926329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.8|STANDARD_ERROR_OF_MEAN|4.2||0.119|TWO_SIDED|95.0|-15.4|1.8|||t-test, 2 sided|||For 8 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||1.8|-15.4|0.119
82605107|NCT00824564|164926329|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|15.16||0.139|TWO_SIDED|95.0|-52.9|7.5|||t-test, 2 sided|||For 24 hour post-surgery, the mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||7.5|-52.9|0.139
82605108|NCT00824564|164926330|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.2|STANDARD_ERROR_OF_MEAN|132.1||0.849|TWO_SIDED|95.0|-238.2|288.6|||t-test, 2 sided|||The mean difference with associated SE, and corresponding 95% CI for the comparisons of tranexamic acid plus standard of care against Standard of care was presented along with the p-value for the test. Two-sample t-test was performed at 5% level of significance.||288.6|-238.2|0.849
82656653|NCT00437658|165028659|OTHER||Least squares mean|-5.5|||<|0.0001|TWO_SIDED|95.0|-6.2|-4.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in total CPSSS at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-4.8|-6.2|< 0.0001
82656654|NCT00437658|165028659|OTHER||Least squares mean|-5.2|||<|0.0001|TWO_SIDED|95.0|-5.8|-4.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in total CPSSS at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-4.5|-5.8|< 0.0001
82605109|NCT00824564|164926331|SUPERIORITY_OR_OTHER|||||||0.714|TWO_SIDED||||||Chi-squared|||Chi-square test was used at 5% level of significance.||||0.714
82605110|NCT00824564|164926332|SUPERIORITY_OR_OTHER||Least square means difference|0.37|STANDARD_ERROR_OF_MEAN|0.295||0.208|TWO_SIDED|95.0|-0.21|0.96|||Mixed Models Analysis|||For change at end of surgery, a Mixed Model Repeated Measures (MMRM) approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.96|-0.21|0.208
82656655|NCT00437658|165028659|OTHER||Least squares mean|-5.3|||<|0.0001|TWO_SIDED|95.0|-6.0|-4.6||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-4.6|-6.0|< 0.0001
82605111|NCT00824564|164926332|SUPERIORITY_OR_OTHER||Least square means difference|0.1|STANDARD_ERROR_OF_MEAN|0.255||0.682|TWO_SIDED|95.0|-0.4|0.61|||Mixed Models Analysis|||For change at 1 hour post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.61|-0.40|0.682
82605112|NCT00824564|164926332|SUPERIORITY_OR_OTHER||Least square means difference|0.14|STANDARD_ERROR_OF_MEAN|0.244||0.569|TWO_SIDED|95.0|-0.35|0.63|||Mixed Models Analysis|||For change at day 1 post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.63|-0.35|0.569
82605113|NCT00824564|164926332|SUPERIORITY_OR_OTHER||Least square means difference|0.2|STANDARD_ERROR_OF_MEAN|0.249||0.413|TWO_SIDED|95.0|-0.29|0.7|||Mixed Models Analysis|||For change at day 2 post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.70|-0.29|0.413
82605114|NCT00824564|164926332|SUPERIORITY_OR_OTHER||Least square means difference|0.11|STANDARD_ERROR_OF_MEAN|0.276||0.686|TWO_SIDED|95.0|-0.44|0.66|||Mixed Models Analysis|||For change at day 4/ET post-surgery, a MMRM approach was used to relate the dependent (outcome) variable and independent (treatment, time point, and treatment-by-time point interaction as factors and baseline value as co-variate) variables taking into account the within-participant correlation arising from the repeated measurements.||0.66|-0.44|0.686
82605115|NCT00824564|164926333|SUPERIORITY_OR_OTHER|||||||0.241|TWO_SIDED||||||Fisher Exact|||Fisher's exact test at 5% level of significance was used as the event rate was low and the expected count for any cell in the (unstratified) 2\*2 contingency table was less than 5.||||0.241
82605116|NCT03878147|164926338|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|2.39|STANDARD_ERROR_OF_MEAN|0.82|<|0.01|TWO_SIDED|95.0|0.78|4.01||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||4.01|0.78|<.01
82605117|NCT03878147|164926338|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|0.82|STANDARD_ERROR_OF_MEAN|0.82||0.32|TWO_SIDED|95.0|-0.8|2.44||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||2.44|-0.80|.32
82605118|NCT03878147|164926338|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|-1.79|STANDARD_ERROR_OF_MEAN|0.99||0.07|TWO_SIDED|95.0|-3.74|0.16||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.16|-3.74|.07
82605119|NCT03878147|164926338|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.96||0.83|TWO_SIDED|95.0|-2.1|1.68||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||1.68|-2.10|.83
82605120|NCT03878147|164926339|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.28||0.65|TWO_SIDED|95.0|-0.71|0.42||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.42|-0.71|.65
82656656|NCT00437658|165028660|OTHER||Least squares mean|-4.6|||<|0.0001|TWO_SIDED|95.0|-5.1|-4.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-4.0|-5.1|<0.0001
82605121|NCT03878147|164926339|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Median Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.29||0.95|TWO_SIDED|95.0|-0.54|0.58||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.58|-0.54|.95
82605122|NCT03878147|164926339|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Median Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.27||0.34|TWO_SIDED|95.0|-0.92|0.13||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.13|-0.92|.34
82605123|NCT03878147|164926339|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.33||0.81|TWO_SIDED|95.0|-0.73|0.58||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.58|-0.73|.81
82605124|NCT03878147|164926340|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Median Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.01|TWO_SIDED|95.0|0.004|0.043||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.043|0.004|.01
82605125|NCT03878147|164926340|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 6.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.02|TWO_SIDED|95.0|0.003|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.040|0.003|.02
82605126|NCT03878147|164926340|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.19|TWO_SIDED|95.0|-0.01|0.05||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.05|-0.01|.19
82605127|NCT03878147|164926340|SUPERIORITY|The key parameter was difference between least square means of trial arms at month 2.|Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.01||0.19|TWO_SIDED|95.0|-0.01|0.04||P-value was not adjusted for multiple comparisons. A priori threshold for statistical significance was .05.|Mixed Models Analysis|Baseline value of the outcome, child's age, sex, and HIV exposure status were included as covariates.|BPG minus waitlist control.|The null hypothesis was that the means of two arms were equal. The alternative hypothesis was that means of two arms were not equal. With this sample size, differences between arms corresponding to the unadjusted effect size Cohen's d=0.33 would be detectable as statistically significant with power of .80 in two-sided tests at .05 level of significance.||0.04|-0.01|.19
82605128|NCT05817045|164926341|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.01||||0.948|TWO_SIDED|95.0|0.777|1.31|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent recurrence or disease progression (until the end of the study) Full Analysis Set (FAS)||1.310|0.777|0.948
82605129|NCT05817045|164926341|SUPERIORITY|Per-Protocol Population|Hazard Ratio (HR)|1.02||||0.902|TWO_SIDED|95.0|0.774|1.337||adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score.|NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent symptom recurrence or disease progression (until the end of the study) Per-Protocol Population||1.337|0.774|0.902
82605130|NCT05817045|164926341|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.02||||0.859|TWO_SIDED|95.0|0.782|1.342|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19;|NPANCOVA analysis for time to sustained resolution of COVID-19 signs and symptoms without subsequent symptom recurrence or disease progression (until the end of the study) - Secondary Analysis (FAS excluding subjects that were qPCR negative at baseline)||1.342|0.782|0.859
82605131|NCT05817045|164926343|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.29||||0.017|TWO_SIDED|95.0|1.047|1.596|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virologic rebound (during the subject's remaining time on study) Full Analysis Set (FAS)||1.596|1.047|0.017
82605132|NCT05817045|164926343|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.33||||0.014|TWO_SIDED|95.0|1.059|1.665|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19;|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (Per-Protocol population)||1.665|1.059|0.014
82605133|NCT05817045|164926343|SUPERIORITY|adjusted for the following prognostic baseline covariates: baseline log10 nasopharyngeal viral load, ethnicity, hours since symptom onset, and baseline risk factor score|Hazard Ratio (HR)|1.35||||0.007|TWO_SIDED|95.0|1.086|1.69|||NPANCOVA||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|NPANCOVA analysis for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) - Secondary analysis - (FAS excluding subjects that were qPCR negative at baseline)||1.690|1.086|0.007
82605134|NCT05817045|164926343|SUPERIORITY|SARS-CoV-2 rapid antigen test type: Flowflex|Cox Proportional Hazard|1.46|||||TWO_SIDED|95.0|1.064|1.997|||||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|Cox proportional hazards model for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (FAS)||1.997|1.064|
82656657|NCT00437658|165028660|OTHER||Least squares mean|-4.4|||<|0.0001|TWO_SIDED|95.0|-5.0|-3.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-3.9|-5.0|<0.0001
82656658|NCT00437658|165028660|OTHER||Least squares mean|-4.5|||<|0.0001|TWO_SIDED|95.0|-5.1|-3.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in total CPSSS excluding dyspareunia at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-3.9|-5.1|< 0.0001
82656659|NCT00437658|165028661|OTHER||Least squares mean|-1.5|||<|0.0001|TWO_SIDED|95.0|-1.7|-1.2||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.2|-1.7|< 0.0001
82605135|NCT05817045|164926343|SUPERIORITY|SARS-CoV-2 rapid antigen test type: BinaxNOW|Cox Proportional Hazard|1.12|||||TWO_SIDED|95.0|0.801|1.561|||||For the HR calculation Sham was taken to be the reference group, meaning a HR \> 1 is favorable for RD-X19|Subgroup Analysis - Cox proportional hazards model for time to first of two negative SARS-CoV-2 antigen tests (with a minimum time between tests of six hours) without subsequent virological rebound (during the subject's remaining time on study) (FAS)||1.561|0.801|
82605136|NCT01773473|164926367|NON_INFERIORITY_OR_EQUIVALENCE|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.01|0.35||||||||0.35|-0.01|
82605137|NCT01053312|164926391|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.688||||0.098|TWO_SIDED||||||Regression, Linear|||Contralateral to the biopsy Site||||0.098
82605138|NCT01053312|164926391|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.482||||0.268|||||||Regression, Linear|||Ipsilateral to the biopsy Site||||0.268
82605139|NCT01053312|164926391|NON_INFERIORITY_OR_EQUIVALENCE|The level of association between SUVR and the amyloid levels was analyzed using a regression model.|R²|0.685||||0.099|||||||Regression, Linear|||Composite Region||||0.099
82605140|NCT02207907|164926460|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-17.491|||<|0.0001|TWO_SIDED|95.0|-20.317|-14.664|||ANCOVA|From ANCOVA analysis with treatment group and smoking status as factors and baseline MGI and BI as covariates|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-14.664|-20.317|<0.0001
82605141|NCT02207907|164926461|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.201|||<|0.0001|TWO_SIDED|95.0|-0.237|-0.165|||ANCOVA|From ANCOVA analysis with treatment group and smoking status as factors and baseline MGI and BI as covariates|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|||-0.165|-0.237|<0.0001
82605142|NCT01748799|164926470|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|||||The level for statistical significance was p\< 0.05.|ANOVA|||Omnibus analysis for Cannabis Withdrawal Scale (CWS) data was a Repeated measures ANOVA (including all the experimental conditions) followed by pair-wise comparisons. The level for statistical significance was p\< 0.05.||||<0.01
82605143|NCT01748799|164926470|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||The level for statistical significance was p\< 0.05.|ANOVA|||Omnibus analysis for Cannabis Withdrawal Checklist (CWC) data was a Repeated measures ANOVA (including all the experimental conditions) followed by pair-wise comparisons. The level for statistical significance was p\< 0.05.||||0.01
82605144|NCT02620020|164926475|SUPERIORITY||Least Squares (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.3876|TWO_SIDED|95.0|-0.88|0.34||Nominal p-value|Mixed Models Analysis|||||0.34|-0.88|0.3876
82605145|NCT02620020|164926475|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.018|TWO_SIDED|95.0|-1.32|-0.12||Nominal p-value|Mixed Models Analysis|||||-0.12|-1.32|0.0180
82605146|NCT02620020|164926475|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0288|TWO_SIDED|95.0|-1.26|-0.07||Nominal p-value|Mixed Models Analysis|||||-0.07|-1.26|0.0288
82605147|NCT02620020|164926477|SUPERIORITY||LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.73||0.0028|TWO_SIDED|95.0|-3.65|-0.77||Nominal p-value|Mixed Models Analysis|||||-0.77|-3.65|0.0028
82605148|NCT02620020|164926477|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.72||0.0068|TWO_SIDED|95.0|-3.36|-0.54||Nominal p-value|Mixed Models Analysis|||||-0.54|-3.36|0.0068
82605149|NCT02620020|164926477|SUPERIORITY||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.72||0.0006|TWO_SIDED|95.0|-3.88|-1.06||Nominal p-value|Mixed Models Analysis|||||-1.06|-3.88|0.0006
82605150|NCT02620020|164926478|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1501|TWO_SIDED|95.0|-0.46|0.07||Nominal p-value|Mixed Models Analysis|||||0.07|-0.46|0.1501
82605151|NCT02620020|164926478|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.2603|TWO_SIDED|95.0|-0.41|0.11||Nominal p-value|Mixed Models Analysis|||||0.11|-0.41|0.2603
82605152|NCT02620020|164926478|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.13||0.0135|TWO_SIDED|95.0|-0.59|-0.07||Nominal p-value|Mixed Models Analysis|||||-0.07|-0.59|0.0135
82605153|NCT01025635|164926490|SUPERIORITY_OR_OTHER_LEGACY|||||||0.017|||||||Cochran-Mantel-Haenszel|study center adjusted||||||0.017
82656660|NCT00437658|165028661|OTHER||Least squares mean|-1.4|||<|0.0001|TWO_SIDED|95.0|-1.6|-1.2||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.2|-1.6|< 0.0001
82605154|NCT01025635|164926491|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|with factors treatment group, study center, and baseline lesion count as covariate||||||<0.001
82605155|NCT01834404|164926554|SUPERIORITY_OR_OTHER|||||||0.057|TWO_SIDED||||||ANCOVA|||||||0.057
82605156|NCT01834404|164926555|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||ANCOVA|||||||0.052
82605157|NCT01834404|164926556|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||ANCOVA|||||||0.36
82492284|NCT01847274|164677789|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|95.0|0.338|0.607||Two-sided P-value. PFS was independently evaluated in gBRCAmut cohort and non-gBRCAmut cohort. Hierarchical testing: HRD+ subset tested first. If HRD+ subset demonstrated statistical significance, overall non-gBRCA cohort was then tested.|Log Rank|Strata: tm to progression after penultimate platinum tx; use of bevacizumab w/penultimate or last platinum tx; best response during last platinum tx.|Niraparib:Placebo, based on the stratified Cox Proportional Hazards Model using randomization stratification factors.|||0.607|0.338|<0.0001
82605158|NCT01834404|164926557|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||ANCOVA|||||||0.99
82605159|NCT01834404|164926558|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANCOVA|||||||0.45
82605160|NCT01834404|164926559|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANCOVA|||||||0.22
82605161|NCT01834404|164926560|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||||||0.032
82605162|NCT01834404|164926561|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||ANCOVA|||This p-value was based on a rank transformation.||||0.030
82605163|NCT01834404|164926562|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||ANCOVA|||||||0.35
82605164|NCT01834404|164926563|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANCOVA|||||||0.72
82605165|NCT01834404|164926564|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANCOVA|||||||0.90
82605166|NCT01834404|164926565|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.54
82605167|NCT01834404|164926566|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.26
82605168|NCT02537678|164926567|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.43||0.006|ONE_SIDED|97.5|-3.26||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 SD units.|Treatment difference = standard Trauma Focused -CBT - stepped care Trauma Focused-CBT||-3.26|.006
82605169|NCT02537678|164926568|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|1.49||0.004|ONE_SIDED|97.5|-3.47||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 SD units.|Treatment difference = standard Trauma Focused -CBT - stepped care Trauma Focused-CBT||-3.47|.004
82605170|NCT02537678|164926569|NON_INFERIORITY|We planned 0.41standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied 12-month assessment.|Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|1.2||0.001|ONE_SIDED|97.5|-2.5||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.50|.001
82605171|NCT02537678|164926570|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|0.79|STANDARD_ERROR_OF_MEAN|1.89|<|0.001|ONE_SIDED|97.5|-2.94||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.94|<0.001
82605172|NCT02537678|164926571|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.89|STANDARD_ERROR_OF_MEAN|2.25||0.044|ONE_SIDED|97.5|-6.33||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-6.33|.044
82605173|NCT02537678|164926572|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|1.75||0.002|ONE_SIDED|97.5|-3.07||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.07|0.002
82605174|NCT02537678|164926573|NON_INFERIORITY|We planned 0.41 standard deviation (SD) as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|1.52||0.016|ONE_SIDED|97.5|-4.06||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.06|0.016
82605175|NCT02537678|164926574|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.77||0.003|ONE_SIDED|97.5|-3.72||||t-test, 1 sided|||Based on the actual randomization of 183 participants (SC-TF-CBT=91; standard TF-CBT=92), we had more than 80% power to show that SC-TF-CBT is at least as effective as standard TF-CBT with alpha of .05 and a non-inferior margin of 0.41 standard deviation units.|Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.72|0.003
82605176|NCT02537678|164926575|NON_INFERIORITY|We planned 0.41 standard deviation the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|1.89||0.007|ONE_SIDED|97.5|-3.89||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.89|0.007
82605177|NCT02537678|164926576|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.01|STANDARD_ERROR_OF_MEAN|1.64||0.008|ONE_SIDED|97.5|-4.24||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.24|0.008
82605178|NCT02537678|164926577|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|1.78||0.015|ONE_SIDED|97.5|-4.88||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.88|0.015
82605179|NCT02537678|164926578|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-1.75|STANDARD_ERROR_OF_MEAN|1.99||0.024|ONE_SIDED|97.5|-5.68||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.68|0.024
82605180|NCT02537678|164926579|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.001|ONE_SIDED|97.5|-0.39||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.39|0.001
82605181|NCT02537678|164926580|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.22||0.003|ONE_SIDED|97.5|-0.47||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.47|0.003
82605182|NCT02537678|164926581|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|ONE_SIDED|97.5|-0.3||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.30|<0.001
82605183|NCT02537678|164926582|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.14||0.001|ONE_SIDED|97.5|-0.29||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.29|0.001
82605184|NCT02537678|164926583|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.16||0.004|ONE_SIDED|97.5|-0.38||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.38|0.004
82605185|NCT02537678|164926584|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|ONE_SIDED|97.5|-0.19||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-0.19|<0.001
82605186|NCT02537678|164926585|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|1.47||0.005|ONE_SIDED|97.5|-3.33||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.33|0.005
82605187|NCT02537678|164926586|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-1.47|STANDARD_ERROR_OF_MEAN|1.78||0.028|ONE_SIDED|97.5|-4.99||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-4.99|0.028
82605188|NCT02537678|164926587|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|1.62||0.009|ONE_SIDED|97.5|-3.64||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-3.64|0.009
82605189|NCT02537678|164926588|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-1.05|STANDARD_ERROR_OF_MEAN|0.9||0.006|ONE_SIDED|97.5|-2.82||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.82|0.006
82605190|NCT02537678|164926589|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-0.57|STANDARD_ERROR_OF_MEAN|0.88||0.001|ONE_SIDED|97.5|-2.31||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-2.31|0.001
82605191|NCT02537678|164926590|NON_INFERIORITY|We planned 0.41 standard deviation as the non-inferiority margin (which is less than half of the effect size) for the one-side testing. Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Median Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.83|<|0.001|ONE_SIDED|97.5|-1.43||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-1.43|<0.001
82605192|NCT02537678|164926591|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults. Non-inferiority analysis with alpha 2.5% was applied at post assessment.|Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|ONE_SIDED|97.5|-5.04||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.04|<0.001
82605193|NCT02537678|164926592|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults. Non-inferiority analysis with alpha 2.5% was applied at 6-month assessment.|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|2.27||0.003|ONE_SIDED|97.5|-6.87||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-6.87|0.003
82605194|NCT02537678|164926593|NON_INFERIORITY|For the non-inferiority margin for the PCL-5, the clinically significant change threshold is 10 points although adult PTSD trials have used -5 to -10 points. We used -8.8 as the margin which was based on an expert panel and prior studies with adults.Non-inferiority analysis with alpha 2.5% was applied at 12-month assessment.|Mean Difference (Final Values)|-1.74|STANDARD_ERROR_OF_MEAN|2.06|<|0.001|ONE_SIDED|97.5|-5.8||||t-test, 1 sided||||Treatment difference = standard TF-CBT - stepped care TF-CBT||-5.80|<0.001
82605195|NCT01478958|164926594|SUPERIORITY_OR_OTHER|||||||0.238||||||Overall diet effect. No post-hoc analyses required. Adjusted for multiple comparisons.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI, age, gender and intervention diet used as prognostic factors in model.||To detect a 2% inter-group difference in FMD (primary outcome) using a SD of 2.3, 90% power and 5% significance level, n=171 participants were required (n=57 per group), increasing to n=228 to include a 25% dropout rate.||||0.238
82605196|NCT01478958|164926594|SUPERIORITY_OR_OTHER|||||||0.021||||||Effect of the SFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||0.021
82605197|NCT01478958|164926594|SUPERIORITY_OR_OTHER||||||>|0.05||||||Effect of MUFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||>0.05
82605198|NCT01478958|164926594|SUPERIORITY_OR_OTHER||||||>|0.05||||||Effect of n-6 PUFA-rich diet relative to baseline.|General Linear Model Univariate Analysis|Baseline values for %FMD, BMI and age, gender and intervention diet were used as prognostic factors in the model.||||||>0.05
82656661|NCT00437658|165028661|OTHER||Least squares mean|-1.7|||<|0.0001|TWO_SIDED|95.0|-1.9|-1.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dysmenorrhea at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-1.4|-1.9|< 0.0001
82656662|NCT00437658|165028662|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.9||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.9|-1.4|< 0.0001
82605199|NCT01499290|164926599|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-3.5|||||TWO_SIDED|95.0|-8.64|1.58||||||The primary objective of this study (FDA agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the mMITT in adult subjects with cIAI.||1.58|-8.64|
82605200|NCT01499290|164926600|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-2.4|||||TWO_SIDED|95.0|-6.9|2.1||||||The co-primary objective of this study (ROW agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the MITT in adult subjects with cIAI.||2.10|-6.90|
82605201|NCT01499290|164926601|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was determined by comparing the lower limit of the 95% confidence interval for risk difference (corresponding to a 97.5% 1-sided lower bound) to the non-inferiority marging of -12.5%|Risk Difference (RD)|-0.8|||||TWO_SIDED|95.0|-4.61|2.89||||||The co-primary objective of this study (ROW agreed) was to determine the noninferiority in the clinical cure rate for CAZ-AVI compared to that for Meropenem at TOC in the CE in adult subjects with cIAI.||2.89|-4.61|
82605202|NCT00327444|164926612|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|31.8|STANDARD_ERROR_OF_MEAN|10.59||0.0019|TWO_SIDED|95.0|10.56|53.05||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference is estimated for aflibercept versus placebo (aflibercept-placebo).|||53.05|10.56|0.0019
82605203|NCT00327444|164926613|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|375.5|STANDARD_ERROR_OF_MEAN|205.99||0.016|TWO_SIDED|95.0|-46.48|797.42||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference was estimated for aflibercept versus placebo (aflibercept-placebo).|||797.42|-46.48|0.0160
82605204|NCT00327444|164926614|SUPERIORITY_OR_OTHER||Least squares (LS) Mean difference|-2.4|STANDARD_ERROR_OF_MEAN|0.94||0.0035|TWO_SIDED|95.0|-4.33|-0.54||Estimated using Wilcoxon rank-sum test with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks) at randomization.|ANOVA|Estimated from ANOVA model with stratification of baseline paracentesis (=\<2 weeks versus \>2 weeks).|The LS mean difference is estimated for aflibercept versus placebo (aflibercept-placebo).|||-0.54|-4.33|0.0035
82605205|NCT00805207|164926616|OTHER|||||||0.85|||||||t-test, 2 sided|||||||0.85
82605206|NCT00805207|164926616|OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.70
82605207|NCT00805207|164926616|OTHER|||||||0.88||||||P-value is the main effect of treatment (i.e., Before vs. After) from ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.88
82605208|NCT00805207|164926616|OTHER|||||||0.26||||||P-value is the main effect of group (i.e., Testosterone, Progesterone, Estrogen and Control) from ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.26
82605209|NCT00805207|164926616|OTHER|||||||0.98||||||P value is the group by treatment interaction from the ANOVA|ANOVA|VLDL-TG secretion rates were skewed and log transformed prior to performing ANOVA||||||0.98
82605210|NCT00805207|164926617|OTHER|||||||0.31|||||||t-test, 2 sided|||||||0.31
82656663|NCT00437658|165028662|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|2.0|-1.2|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.2|< 0.0001
82656664|NCT00437658|165028662|OTHER||Least squares mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in dyspareunia at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.5|-1.1|< 0.0001
82492285|NCT01847274|164677790|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.0005|TWO_SIDED|95.0|0.412|0.783||Two-sided p-value|Log Rank|||||0.783|0.412|0.0005
82605211|NCT00805207|164926617|OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
82605212|NCT00805207|164926617|OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
82605213|NCT00805207|164926617|OTHER|||||||0.87|||||||ANCOVA|||||||0.87
82605214|NCT00805207|164926617|OTHER|||||||0.57|||||||ANCOVA|||||||0.57
82605215|NCT00805207|164926618|OTHER|||||||0.94|||||||t-test, 2 sided|||||||0.94
82605216|NCT00805207|164926618|OTHER||||||<|0.05|||||||ANCOVA|||||||<0.05
82605217|NCT00805207|164926618|OTHER|||||||0.53|||||||ANCOVA|||||||0.53
82605218|NCT00805207|164926618|OTHER|||||||0.23|||||||ANCOVA|||||||0.23
82605219|NCT00805207|164926619|OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||||||0.80
82605220|NCT00805207|164926620|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82605221|NCT00805207|164926620|OTHER||||||<|0.01||||||P-value is the main effect of treatment (i.e., Before vs. After) from ANOVA|ANOVA|||||||<0.01
82605222|NCT00805207|164926620|OTHER|||||||0.96||||||P-value is the main effect of group (i.e., Testosterone, Progesterone, Estrogen and Control) from ANOVA|ANOVA|||||||0.96
82605223|NCT00805207|164926620|OTHER||||||<|0.05||||||P value is the group by treatment interaction from the ANOVA|ANOVA|||||||<0.05
82605224|NCT00805207|164926620|OTHER||||||<|0.01|||||||Tukey test|||||||<0.01
82605225|NCT00805207|164926620|OTHER||||||<|0.01|||||||Tukey test|||||||<0.01
82605226|NCT00805207|164926620|OTHER||||||>|0.1|||||||Tukey test|||||||>0.10
82605227|NCT00805207|164926620|OTHER||||||>|0.1|||||||Tukey test|||||||>0.10
82605228|NCT02249052|164926621|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-83.33|STANDARD_DEVIATION|25.0311|<|0.0001|TWO_SIDED|95.0|-95.394|-71.265|||t-test, 2 sided|||||-71.265|-95.394|<0.0001
82605229|NCT02249052|164926622|SUPERIORITY_OR_OTHER||Binomial proportion|0.8947|||<|0.0001|TWO_SIDED|95.0|0.6686|0.987|||Sign test|||||.9870|.6686|<.0001
82605230|NCT00552110|164926627|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Multiplicity for multiple treatment comparisons was not adjusted.|ANCOVA|Analysis of Covariance (ANCOVA); classification variables: treatment, center, dosing sequence (stratification variable); covariate: baseline score||"Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same mean change from baseline in AM/PM NOW TNSS as that of OXY twice daily.~Power calculation: The target randomization of 875 subjects (175 subjects per treatment arm) was needed to detect a treatment difference of 0.8 point or more in change from baseline in AM/PM NOW TNSS, with a two-sided alpha of 0.05 and 90% power, assuming a pooled standard deviation of 2.3 points."||||0.002
82605231|NCT00552110|164926627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same mean change from baseline in AM/PM NOW TNSS as that of OXY twice daily.||||<0.001
82605232|NCT00552110|164926627|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the administration of MFNS once daily has the same mean change from baseline in AM/PM NOW TNSS as that of placebo.||||<0.001
82605233|NCT00552110|164926628|SUPERIORITY_OR_OTHER_LEGACY|||||||0.021||95.0||||Multiplicity for multiple treatment comparisons was not adjusted.|ANCOVA|ANCOVA; classification variables: treatment, center, dosing sequence (stratification variable); covariate: baseline score||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same standardized AUC(0-4 hr) of the change from baseline in nasal congestion score as that of MFNS once daily.||||0.021
82605234|NCT00552110|164926628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the concurrent administration of MFNS and OXY once daily has the same standardized AUC (0-4hr) of the change from baseline in nasal congestion score as that of MFNS once daily||||<0.001
82605235|NCT00552110|164926628|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Null hypothesis: the administration of OXY twice daily has the same standardized AUC(0-4 hr) of the change from baseline in nasal congestion score as that of placebo||||<0.001
82605236|NCT00490542|164926681|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.4|||||TWO_SIDED|95.0|0.6|10.2||||||||10.2|0.6|
82605237|NCT00655928|164926688|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82605238|NCT01587989|164926705|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.327||||0.188|TWO_SIDED|95.0|-0.165|0.82|||t-test, 2 sided|||||0.820|-0.165|0.188
82605239|NCT01587989|164926705|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||ANCOVA|||At Week 12.||||0.015
82605240|NCT01587989|164926705|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED||||||ANCOVA|||Adjusted change in DAS28 score from Weeks 12-24.||||0.304
82656665|NCT00437658|165028663|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-1.0|-1.4|< 0.0001
82605241|NCT01587989|164926706|SUPERIORITY_OR_OTHER|||||||0.732|TWO_SIDED||||||Fisher Exact|||||||0.732
82605242|NCT01587989|164926707|SUPERIORITY_OR_OTHER|||||||0.207|TWO_SIDED||||||Fisher Exact|||||||0.207
82605243|NCT01587989|164926708|SUPERIORITY_OR_OTHER|||||||0.453|TWO_SIDED||||||Fisher Exact|||||||0.453
82605244|NCT01587989|164926709|SUPERIORITY_OR_OTHER|||||||0.084|TWO_SIDED||||||Fisher Exact|||||||0.084
82605245|NCT01587989|164926710|SUPERIORITY_OR_OTHER|||||||0.842|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.842
82492286|NCT01847274|164677791|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.454|0.74||Two-sided P-value.|Log Rank|||||0.740|0.454|<0.0001
82605246|NCT01587989|164926711|SUPERIORITY_OR_OTHER|||||||0.417|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Physical standardized value||||0.417
82605247|NCT01587989|164926711|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Mental standardized value||||0.112
82605248|NCT01587989|164926712|SUPERIORITY_OR_OTHER|||||||0.655|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Fatigue||||0.655
82605249|NCT01587989|164926712|SUPERIORITY_OR_OTHER|||||||0.839|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Pain||||0.839
82605250|NCT01587989|164926713|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Effectiveness||||0.580
82605251|NCT01587989|164926713|SUPERIORITY_OR_OTHER|||||||0.975|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Side-effects||||0.975
82605252|NCT01587989|164926713|SUPERIORITY_OR_OTHER|||||||0.421|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Convenience||||0.421
82605253|NCT01587989|164926713|SUPERIORITY_OR_OTHER|||||||0.277|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Global satisfaction||||0.277
82605254|NCT02811744|164926749|EQUIVALENCE|Equivalence was defined as no significant difference between study groups on a T-test.||||||0.5||||||No adjustments on the comparison. There was no multiple comparison adjustment for the p value, as this was the primary outcome. This is the experimental p value; the threshold for significance was 0.05.|t-test, 2 sided|||No power calculation. This is an exploratory study.||||0.5
82605255|NCT02091440|164926762|OTHER|Single group|Proportion|100.0|||||TWO_SIDED|95.0||||||||||||
82605256|NCT02091440|164926763|OTHER|Single group|Kaplan-Meier Survival|100.0|||||TWO_SIDED|||||||||||||
82605257|NCT02091440|164926764|OTHER|Single group|Incidence|1.24|||||TWO_SIDED|||||||||||||
82605258|NCT02091440|164926765|OTHER|Single group|Incidence|1.66|||||TWO_SIDED|||||||||||||
82605259|NCT02091440|164926766|OTHER|Single group|Change from baseline|19.4|STANDARD_DEVIATION|11.39|||TWO_SIDED|95.0|7.5|31.4|||||Confidence interval based on t-distribution.|||31.4|7.5|
82605260|NCT02091440|164926767|OTHER|Single group|Percentage change|-83.33|||||TWO_SIDED||||||||Percentage change from 24 months to screening in NYHA classes III and IV. Percentage change is 16.67% - 100% = -83.33%|||||
82605261|NCT02091440|164926768|OTHER|Single group|Change from baseline|130.0|STANDARD_DEVIATION|275.32|||TWO_SIDED|95.0|-158.9|418.9|||||Confidence interval based on t-distribution.|||418.9|-158.9|
82605262|NCT03576144|164926779|OTHER||Slope|1.0474|STANDARD_ERROR_OF_MEAN|0.0283|||TWO_SIDED|90.0|0.9997|1.0951|||ANCOVA||Standard Error of the mean is actually standard error of slope.Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for AUC0-12 of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.0951|0.9997|
82656666|NCT00437658|165028663|OTHER||Least squares mean|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.4|-1.0||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-1.0|-1.4|< 0.0001
82605263|NCT03576144|164926780|OTHER||Slope|1.0091|STANDARD_ERROR_OF_MEAN|0.038|||TWO_SIDED|90.0|0.9451|1.0732|||ANCOVA||Standard Error of the is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for Cmax of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.0732|0.9451|
82605264|NCT03576144|164926781|OTHER||Slope|1.052|STANDARD_ERROR_OF_MEAN|0.0325|||TWO_SIDED|90.0|0.9972|1.1069|||ANCOVA||Standard Error of the mean is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for AUCτ,ss of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.1069|0.9972|
82605265|NCT03576144|164926782|OTHER||Slope|1.0361|STANDARD_ERROR_OF_MEAN|0.0379|||TWO_SIDED|90.0|0.9722|1.1001|||ANCOVA||Standard Error of the mean is actually standard error of slope. Based on the estimate for the slope parameter (β), a 2-sided 90% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|Dose proportionality for Cmax,ss of BI 1265162 in plasma was assessed using a power model (regression model applied to log-transformed data). The corresponding ANCOVA model included the logarithm of the dose as a covariate. No statistical hypotheses were tested in a confirmatory sense.||1.1001|0.9722|
82605266|NCT00318292|164926831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.003||95.0|-3.2|-0.7|||t-test, 2 sided|||||-0.7|-3.2|.003
82605267|NCT03895203|164926891|SUPERIORITY||Odds Ratio (OR)|7.082|||<|0.001|TWO_SIDED|95.0|4.583|10.943|||Regression, Logistic|||||10.943|4.583|<0.001
82605268|NCT03895203|164926892|SUPERIORITY||Least square (LS) mean difference|-0.187|||<|0.001|TWO_SIDED|95.0|-0.249|-0.125|||ANCOVA|||||-0.125|-0.249|<0.001
82605269|NCT03895203|164926894|SUPERIORITY||Odds Ratio (OR)|63.039|||<|0.001|TWO_SIDED|95.0|22.211|178.918|||Regression, Logistic|||||178.918|22.211|<0.001
82605270|NCT03895203|164926895|SUPERIORITY||LS mean difference|4.337|||<|0.001|TWO_SIDED|95.0|3.229|5.444|||ANCOVA|||||5.444|3.229|<0.001
82605271|NCT03895203|164926896|SUPERIORITY||Odds Ratio (OR)|5.447|||<|0.001|TWO_SIDED|95.0|3.668|8.088|||Regression, Logistic|||||8.088|3.668|<0.001
82605272|NCT03895203|164926897|SUPERIORITY||LS mean difference|-0.327||||0.001|TWO_SIDED|95.0|-0.524|-0.13|||ANOVA|||||-0.130|-0.524|0.001
82605273|NCT03895203|164926898|SUPERIORITY||Odds Ratio (OR)|1.904||||0.008|TWO_SIDED|95.0|1.18|3.074|||Regression, Logistic|||||3.074|1.180|0.008
82605274|NCT03895203|164926899|SUPERIORITY||Odds Ratio (OR)|3.437||||0.002|TWO_SIDED|95.0|1.559|7.574|||Regression, Logistic|||||7.574|1.559|0.002
82656667|NCT00437658|165028663|OTHER||Least squares mean|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.3|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||"Within-group analysis of change from baseline in non-menstrual pelvic pain at week 24.~Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction."||-0.8|-1.3|< 0.0001
82656668|NCT00437658|165028664|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.8|-1.2|< 0.0001
82605275|NCT03895203|164926901|SUPERIORITY||LS mean difference|-0.281||||0.001|TWO_SIDED|95.0|-0.452|-0.111|||ANCOVA|||||-0.111|-0.452|0.001
82605276|NCT00310310|164926971|SUPERIORITY_OR_OTHER|||||||0.001|||||||t-test, 1 sided|||||||0.001
82656669|NCT00437658|165028664|OTHER||Least squares mean|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.8||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.8|-1.1|< 0.0001
82605277|NCT00310310|164926972|SUPERIORITY_OR_OTHER|||||||0.023|||||||t-test, 1 sided|||||||0.023
82605278|NCT00310310|164926973|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 1 sided|||||||0.8
82605279|NCT00310310|164926975|SUPERIORITY_OR_OTHER|||||||0.96|||||||t-test, 1 sided|||||||0.96
82605280|NCT00310310|164926976|SUPERIORITY_OR_OTHER|||||||0.59|||||||t-test, 1 sided|||||||0.59
82605281|NCT00310310|164926977|SUPERIORITY_OR_OTHER|||||||0|||||||t-test, 1 sided|||||||0.00
82605282|NCT00310310|164926978|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 1 sided|||||||0.02
82605283|NCT00310310|164926979|SUPERIORITY_OR_OTHER|||||||0.08|||||||t-test, 1 sided|||||||0.08
82605284|NCT00310310|164926980|SUPERIORITY_OR_OTHER|||||||0.38|||||||t-test, 1 sided|||||||0.38
82605285|NCT03193866|164926986|SUPERIORITY||Difference in proportion|1.5|||||TWO_SIDED|95.0|-1.8|4.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.9|-1.8|
82605286|NCT03193866|164926986|SUPERIORITY||Difference in proportion|-0.2|||||TWO_SIDED|95.0|-6.8|6.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.5|-6.8|
82605287|NCT03193866|164926986|SUPERIORITY||Difference in proportion|1.3|||||TWO_SIDED|95.0|-1.7|4.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.3|-1.7|
82605288|NCT03193866|164926986|SUPERIORITY||Difference in proportion|-0.9|||||TWO_SIDED|95.0|-4.3|2.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.4|-4.3|
82605289|NCT03193866|164926986|SUPERIORITY||Difference in proportion|1.7|||||TWO_SIDED|95.0|-1.3|4.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.6|-1.3|
82605290|NCT03193866|164926986|SUPERIORITY||Difference in proportion|0.3|||||TWO_SIDED|95.0|-2.7|3.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.3|-2.7|
82605291|NCT03193866|164926986|SUPERIORITY||Difference in proportion|1.2|||||TWO_SIDED|95.0|-2.0|4.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.4|-2.0|
82656670|NCT00437658|165028664|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic tenderness at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.1|< 0.0001
82656671|NCT00437658|165028665|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.0|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.0|< 0.0001
82656672|NCT00437658|165028665|OTHER||Least squares mean|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.7|-1.1|< 0.0001
82656673|NCT00437658|165028665|OTHER||Least squares mean|-0.8|||<|0.0001|TWO_SIDED|95.0|-0.9|-0.6|||t-test, 2 sided|||Within-group analysis of change from baseline in pelvic induration at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-0.6|-0.9|<0.0001
82656674|NCT00437658|165028666|OTHER||Least squares mean|-32.3|||<|0.0001|TWO_SIDED|95.0|-39.2|-25.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-25.4|-39.2|< 0.0001
82656675|NCT00437658|165028666|OTHER||Least squares mean|-32.9|||<|0.0001|TWO_SIDED|95.0|-39.4|-26.4||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-26.4|-39.4|< 0.0001
82492287|NCT01847274|164677792|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.0001|TWO_SIDED|95.0|0.268|0.561||Two-sided P-value.|Log Rank|||||0.561|0.268|<0.0001
82605292|NCT03193866|164926986|SUPERIORITY||Difference in proportion|2.0|||||TWO_SIDED|95.0|-3.2|7.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.1|-3.2|
82605293|NCT03193866|164926987|SUPERIORITY||Difference in proportion|0.7|||||TWO_SIDED|95.0|-7.5|8.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.8|-7.5|
82605294|NCT03193866|164926987|SUPERIORITY||Difference in proportion|-2.9|||||TWO_SIDED|95.0|-18.5|12.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||12.8|-18.5|
82605295|NCT03193866|164926987|SUPERIORITY||Difference in proportion|-0.1|||||TWO_SIDED|95.0|-8.8|8.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.6|-8.8|
82605296|NCT03193866|164926987|SUPERIORITY||Difference in proportion|-0.5|||||TWO_SIDED|95.0|-8.1|7.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.2|-8.1|
82605297|NCT03193866|164926987|SUPERIORITY||Difference in proportion|1.6|||||TWO_SIDED|95.0|-5.7|8.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.9|-5.7|
82605298|NCT03193866|164926987|SUPERIORITY||Difference in proportion|1.6|||||TWO_SIDED|95.0|-4.7|8.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.0|-4.7|
82605299|NCT03193866|164926987|SUPERIORITY||Difference in proportion|0.9|||||TWO_SIDED|95.0|-6.2|7.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.9|-6.2|
82605300|NCT03193866|164926987|SUPERIORITY||Difference in proportion|-1.6|||||TWO_SIDED|95.0|-10.8|7.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||7.5|-10.8|
82605301|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-2.5|3.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.3|-2.5|
82605302|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-4.5|||||TWO_SIDED|95.0|-12.5|3.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.4|-12.5|
82656676|NCT00437658|165028666|OTHER||Least squares mean|-35.8|||<|0.0001|TWO_SIDED|95.0|-43.0|-28.6||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-28.6|-43.0|< 0.0001
82605303|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-2.5|1.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.8|-2.5|
82605304|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-2.5|||||TWO_SIDED|95.0|-4.9|-0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.1|-4.9|
82605305|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-2.6|1.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.1|-2.6|
82605306|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-1.9|||||TWO_SIDED|95.0|-4.2|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-4.2|
82605307|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|-1.8|||||TWO_SIDED|95.0|-4.0|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-4.0|
82656677|NCT00437658|165028667|OTHER||Least squares mean|-18.2|||<|0.0001|TWO_SIDED|95.0|-23.3|-13.1||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in monthly mean VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-13.1|-23.3|< 0.0001
82656678|NCT00437658|165028667|OTHER||Least squares mean|-23.4|||<|0.0001|TWO_SIDED|95.0|-28.3|-18.5||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in monthly mean VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-18.5|-28.3|< 0.0001
82656679|NCT00437658|165028667|OTHER||Least squares mean|-17.9|||<|0.0001|TWO_SIDED|95.0|-23.1|-12.7||P-value for test of null hypothesis that the treatment group least squares mean is equal to zero.|t-test, 2 sided|||Within-group analysis of change from baseline in peak VAS for pelvic pain at week 24. Change from baseline was analyzed using a mixed-effects repeated measures (MERM) analysis of covariance model which included fixed effects for treatment, time, treatment-by-time interaction, a random effect for patient, and terms for baseline value and the baseline-by-time interaction.||-12.7|-23.1|< 0.0001
82605308|NCT03193866|164926988|SUPERIORITY||Mean Difference (Net)|2.6|||||TWO_SIDED|95.0|-0.6|5.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.8|-0.6|
82605309|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|2.3|||||TWO_SIDED|95.0|-2.2|6.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.8|-2.2|
82605310|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|-8.3|||||TWO_SIDED|95.0|-20.3|3.7||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.7|-20.3|
82605311|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-2.6|3.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.5|-2.6|
82492288|NCT01847274|164677793|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|95.0|0.428|0.727||Two-sided P-value.|Log Rank|||||0.727|0.428|<0.0001
82605312|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|-2.4|||||TWO_SIDED|95.0|-5.8|0.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.9|-5.8|
82605313|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-2.9|2.7||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.7|-2.9|
82605314|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|-1.5|||||TWO_SIDED|95.0|-4.5|1.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.6|-4.5|
82605315|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|-1.6|||||TWO_SIDED|95.0|-4.7|1.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.5|-4.7|
82605316|NCT03193866|164926989|SUPERIORITY||Mean Difference (Net)|2.3|||||TWO_SIDED|95.0|-1.7|6.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.4|-1.7|
82605317|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.39|||||TWO_SIDED|95.0|0.3|0.48||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.48|0.30|
82605318|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.27|||||TWO_SIDED|95.0|0.11|0.42||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.42|0.11|
82605319|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.17|||||TWO_SIDED|95.0|0.1|0.23||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.23|0.10|
82656680|NCT01866319|165028679|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|1e-05|TWO_SIDED|95.0|0.46|0.72|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||0.72|0.46|<0.00001
82605320|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.05|||||TWO_SIDED|95.0|-0.03|0.13||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.13|-0.03|
82492289|NCT01847274|164677794|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0302|TWO_SIDED|95.0|0.5|0.968||Two-sided P-value.|Log Rank|||||0.968|0.500|0.0302
82605321|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.14|||||TWO_SIDED|95.0|0.08|0.19||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.19|0.08|
82605322|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.09|||||TWO_SIDED|95.0|0.01|0.16||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.16|0.01|
82656681|NCT01866319|165028679|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.58|||<|1e-05|TWO_SIDED|95.0|0.47|0.72|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||0.72|0.47|<0.00001
82605323|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.14|||||TWO_SIDED|95.0|0.06|0.21||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.21|0.06|
82605324|NCT03193866|164926990|SUPERIORITY||Difference in proportion|0.23|||||TWO_SIDED|95.0|0.13|0.33||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.33|0.13|
82605325|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-71.6|||||TWO_SIDED|95.0|-76.6|-66.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-66.6|-76.6|
82605326|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-66.3|||||TWO_SIDED|95.0|-76.3|-56.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-56.4|-76.3|
82605327|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-47.3|||||TWO_SIDED|95.0|-53.0|-41.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-41.7|-53.0|
82605328|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-43.1|||||TWO_SIDED|95.0|-49.6|-36.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-36.6|-49.6|
82605329|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-41.3|||||TWO_SIDED|95.0|-46.4|-36.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-36.2|-46.4|
82605330|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-33.9|||||TWO_SIDED|95.0|-39.8|-28.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-28.0|-39.8|
82605331|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-33.9|||||TWO_SIDED|95.0|-39.7|-28.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-28.0|-39.7|
82656682|NCT01866319|165028679|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97||||0.75869|TWO_SIDED|95.0|0.77|1.21|||Log Rank|||Statistical testing was stratified by line of therapy (1st vs. 2nd), programmed cell death ligand 1 (PD-L1) status (positive vs. negative) and Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1)||1.21|0.77|0.75869
82605332|NCT03193866|164926991|SUPERIORITY||Difference in proportion|-49.8|||||TWO_SIDED|95.0|-58.0|-41.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-41.6|-58.0|
82605333|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-0.1|
82656683|NCT01866319|165028680|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.00052|TWO_SIDED|95.0|0.47|0.83|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||0.83|0.47|0.00052
82656684|NCT01866319|165028680|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69||||0.00358|TWO_SIDED|95.0|0.52|0.9|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||0.90|0.52|0.00358
82605334|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.3|0.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.4|-0.3|
82605335|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.2|
82605336|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.3|
82605337|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.1|
82605338|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-0.2|0.1||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.1|-0.2|
82605339|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.1|0.2||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.2|-0.1|
82605340|NCT03193866|164926992|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.1|0.3||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.3|-0.1|
82605341|NCT03193866|164926993|SUPERIORITY||Difference in proportion|4.8|||||TWO_SIDED|95.0|-2.2|11.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||11.9|-2.2|
82605342|NCT03193866|164926993|SUPERIORITY||Difference in proportion|9.0|||||TWO_SIDED|95.0|-2.6|20.6||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||20.6|-2.6|
82605343|NCT03193866|164926993|SUPERIORITY||Difference in proportion|-0.7|||||TWO_SIDED|95.0|-7.6|6.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.2|-7.6|
82605344|NCT03193866|164926993|SUPERIORITY||Difference in proportion|-2.6|||||TWO_SIDED|95.0|-9.4|4.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.1|-9.4|
82605345|NCT03193866|164926993|SUPERIORITY||Difference in proportion|-2.6|||||TWO_SIDED|95.0|-8.6|3.4||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||3.4|-8.6|
82656685|NCT01866319|165028680|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.51319||95.0|0.67|1.22|||Regression, Cox|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1).||1.22|0.67|0.51319
82605346|NCT03193866|164926993|SUPERIORITY||Difference in proportion|3.8|||||TWO_SIDED|95.0|-4.7|12.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||12.2|-4.7|
82605347|NCT03193866|164926993|SUPERIORITY||Difference in proportion|0.6|||||TWO_SIDED|95.0|-6.9|8.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||8.1|-6.9|
82605348|NCT03193866|164926993|SUPERIORITY||Difference in proportion|3.9|||||TWO_SIDED|95.0|-6.3|14.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||14.1|-6.3|
82605349|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-34.1|||||TWO_SIDED|95.0|-40.3|-27.9||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-27.9|-40.3|
82605350|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-32.2|||||TWO_SIDED|95.0|-43.0|-21.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-21.5|-43.0|
82605351|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-21.8|||||TWO_SIDED|95.0|-27.9|-15.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-15.7|-27.9|
82656686|NCT01866319|165028681|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|16.1||||0.00013|TWO_SIDED|95.0|7.8|24.5|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||24.5|7.8|0.00013
82656687|NCT01866319|165028681|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|17.2||||2e-05|TWO_SIDED|95.0|9.5|25.6|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||25.6|9.5|0.00002
82656688|NCT01866319|165028681|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|-1.1||||0.82636||95.0|-10.6|8.6|||Miettinen & Nurmimen|||Statistical testing was stratified by line of therapy (1st vs. 2nd), PD-L1) status (positive vs. negative) and ECOG performance status (0 vs. 1)||8.6|-10.6|0.82636
82656689|NCT00832377|165028835|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 peak IOP vs. baseline|paired t-test|||||||<0.0001
82656690|NCT00832377|165028836|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 trough IOP vs. baseline|paired t-test|||||||<0.0001
82656691|NCT00832377|165028837|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Week 12 8-HR IOP vs. baseline|paired t-test|||||||<0.0001
82656692|NCT01062256|165028845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.216|TWO_SIDED|95.0|0.64|1.1||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.10|0.64|0.216
82656693|NCT01062256|165028845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.513|TWO_SIDED|95.0|0.72|1.18||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.18|0.72|0.513
82656694|NCT01062256|165028845|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.459|TWO_SIDED|95.0|0.87|1.38||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 4-hour postdose period.||1.38|0.87|0.459
82656695|NCT01062256|165028846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.195|TWO_SIDED|95.0|0.65|1.09||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time) as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.09|0.65|0.195
82656696|NCT01062256|165028846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.438|TWO_SIDED|95.0|0.71|1.16||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site and baseline of cough bouts terms with log(exposure time)as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.16|0.71|0.438
82656697|NCT01062256|165028846|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.497|TWO_SIDED|95.0|0.87|1.34||p-values calculated from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site and baseline of cough bouts terms with log(exposure time)as the offset parameter.|Poisson regression model|||Pairwise comparison of number of cough bouts over 2-hour postdose period.||1.34|0.87|0.497
82656698|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.25|TWO_SIDED|95.0|0.64|1.12||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.12|0.64|0.250
82605352|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-7.8|||||TWO_SIDED|95.0|-14.5|-1.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-1.2|-14.5|
82605353|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-23.6|||||TWO_SIDED|95.0|-28.9|-18.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-18.3|-28.9|
82605354|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-12.7|||||TWO_SIDED|95.0|-18.9|-6.5||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-6.5|-18.9|
82605355|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-26.5|||||TWO_SIDED|95.0|-32.8|-20.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-20.2|-32.8|
82605356|NCT03193866|164926994|SUPERIORITY||Difference in proportion|-31.7|||||TWO_SIDED|95.0|-40.1|-23.2||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-23.2|-40.1|
82656699|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.802|TWO_SIDED|95.0|0.75|1.25||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.25|0.75|0.802
82656700|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.188|TWO_SIDED|95.0|0.94|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts within 15 minutes postdose||1.39|0.94|0.188
82605357|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-33.2|||||TWO_SIDED|95.0|-39.4|-27.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-27.0|-39.4|
82605358|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-30.6|||||TWO_SIDED|95.0|-41.4|-19.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-19.8|-41.4|
82656701|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.091|TWO_SIDED|95.0|0.58|1.04||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.04|0.58|0.091
82656702|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.465|TWO_SIDED|95.0|0.69|1.19||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.19|0.69|0.465
82656703|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.207|TWO_SIDED|95.0|0.92|1.46||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 15 and 30 minutes postdose||1.46|0.92|0.207
82656704|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.81||||0.122|TWO_SIDED|95.0|0.62|1.06||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.06|0.62|0.122
82605359|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-20.8|||||TWO_SIDED|95.0|-27.0|-14.7||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-14.7|-27.0|
82605360|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-7.0|||||TWO_SIDED|95.0|-13.6|-0.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.3|-13.6|
82605361|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-23.7|||||TWO_SIDED|95.0|-29.2|-18.3||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-18.3|-29.2|
82656705|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.165|TWO_SIDED|95.0|0.66|1.07||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.07|0.66|0.165
82656706|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.711|TWO_SIDED|95.0|0.83|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 30 and 45 minutes postdose||1.32|0.83|0.711
82656707|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.215|TWO_SIDED|95.0|0.64|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.11|0.64|0.215
82656708|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.367|TWO_SIDED|95.0|0.67|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.16|0.67|0.367
82656709|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.687|TWO_SIDED|95.0|0.82|1.35||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 45 and 60 minutes postdose||1.35|0.82|0.687
82605362|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-12.3|||||TWO_SIDED|95.0|-18.6|-6.1||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-6.1|-18.6|
82656710|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.73|TWO_SIDED|95.0|0.67|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.32|0.67|0.730
82656711|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.923|TWO_SIDED|95.0|0.74|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.39|0.74|0.923
82656712|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.573|TWO_SIDED|95.0|0.83|1.4||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 60 and 75 minutes postdose||1.40|0.83|0.573
82656713|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.289|TWO_SIDED|95.0|0.61|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.16|0.61|0.289
82656714|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.379|TWO_SIDED|95.0|0.64|1.18||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.18|0.64|0.379
82656715|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.785|TWO_SIDED|95.0|0.79|1.37||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 75 and 90 minutes postdose||1.37|0.79|0.785
82605363|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-25.3|||||TWO_SIDED|95.0|-31.7|-19.0||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-19.0|-31.7|
82605364|NCT03193866|164926995|SUPERIORITY||Difference in proportion|-29.5|||||TWO_SIDED|95.0|-38.2|-20.8||||||Data shown are adjusted difference in proportion, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-20.8|-38.2|
82605365|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|-0.03|||||TWO_SIDED|95.0|-0.07|0.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.00|-0.07|
82605366|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.09|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|-0.09|
82605367|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.03|0.03||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.03|-0.03|
82656716|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.82||||0.194|TWO_SIDED|95.0|0.6|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.11|0.60|0.194
82656717|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.212|TWO_SIDED|95.0|0.62|1.11||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.11|0.62|0.212
82656718|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.02||||0.901|TWO_SIDED|95.0|0.77|1.34||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 90 and 105 minutes postdose||1.34|0.77|0.901
82605368|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.03|0.05||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.05|-0.03|
82605369|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|0.01|||||TWO_SIDED|95.0|-0.02|0.04||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.04|-0.02|
82656719|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.6|TWO_SIDED|95.0|0.7|1.23||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.23|0.70|0.600
82656720|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.853|TWO_SIDED|95.0|0.74|1.29||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.29|0.74|0.853
82656721|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.736|TWO_SIDED|95.0|0.79|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 105 and 120 minutes postdose||1.39|0.79|0.736
82656722|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.744|TWO_SIDED|95.0|0.7|1.3||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.30|0.70|0.744
82656723|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.904|TWO_SIDED|95.0|0.72|1.33||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.33|0.72|0.904
82656724|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.828|TWO_SIDED|95.0|0.77|1.39||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 120 and 135 minutes postdose||1.39|0.77|0.828
82656725|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.147|TWO_SIDED|95.0|0.59|1.08||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.08|0.59|0.147
82656726|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.345|TWO_SIDED|95.0|0.65|1.16||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.16|0.65|0.345
82656727|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.532|TWO_SIDED|95.0|0.83|1.44||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 135 and 150 minutes postdose||1.44|0.83|0.532
82605370|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.01|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|-0.01|
82656728|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.261|TWO_SIDED|95.0|0.61|1.15||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.15|0.61|0.261
82656729|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.601|TWO_SIDED|95.0|0.69|1.24||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.24|0.69|0.601
82656730|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.47|TWO_SIDED|95.0|0.84|1.47||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 150 and 165 minutes postdose||1.47|0.84|0.470
82605371|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|0.0|0.06||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.06|0.00|
82656731|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.834|TWO_SIDED|95.0|0.71|1.32||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.32|0.71|0.834
82656732|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.628|TWO_SIDED|95.0|0.81|1.43||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.43|0.81|0.628
82656733|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.481|TWO_SIDED|95.0|0.83|1.48||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 165 and 180 minutes postdose||1.48|0.83|0.481
82656734|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.749|TWO_SIDED|95.0|0.65|1.37||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.37|0.65|0.749
82656735|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.97||||0.857|TWO_SIDED|95.0|0.7|1.35||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.35|0.70|0.857
82656736|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||0.847|TWO_SIDED|95.0|0.76|1.41||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 180 and 195 minutes postdose||1.41|0.76|0.847
82492290|NCT01847274|164677795|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0748|TWO_SIDED|95.0|0.627|1.022||Two-sided P-value.|Log Rank|||||1.022|0.627|0.0748
82605372|NCT03193866|164926996|SUPERIORITY||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|95.0|-0.06|0.03||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.03|-0.06|
82605373|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-3.3|5.2||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.2|-3.3|
82605374|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-1.5|||||TWO_SIDED|95.0|-9.4|6.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||6.4|-9.4|
82605375|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-4.2|1.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.4|-4.2|
82605376|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-5.9|0.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.8|-5.9|
82605377|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-2.9|2.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.5|-2.9|
82605378|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-4.0|1.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.8|-4.0|
82605379|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|-3.1|||||TWO_SIDED|95.0|-7.0|0.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.9|-7.0|
82605380|NCT03193866|164926997|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-2.9|5.4||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||5.4|-2.9|
82605381|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|-5.5|||||TWO_SIDED|95.0|-8.1|-2.9||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-2.9|-8.1|
82605382|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|-5.9|||||TWO_SIDED|95.0|-10.9|-1.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-1.0|-10.9|
82605383|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|-2.4|||||TWO_SIDED|95.0|-4.0|-0.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||-0.8|-4.0|
82605384|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-2.1|1.5||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||1.5|-2.1|
82605385|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.2|0.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||0.6|-2.2|
82605386|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|1.3|||||TWO_SIDED|95.0|-0.3|2.8||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||2.8|-0.3|
82605387|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|0.9|4.6||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.6|0.9|
82605388|NCT03193866|164926998|SUPERIORITY||Mean Difference (Final Values)|2.1|||||TWO_SIDED|95.0|0.2|4.0||||||Data shown are adjusted mean differences, stratified by DMT line with rituximab as reference, from multivariable linear regression adjusted for age, sex, year of treatment start, country of birth, geographical region, education level, duration since MS diagnosis, baseline EDSS and MSIS-29 scores, history of serious infection, malignancy, major adverse cardiovascular event, arrhythmia, use of antidepressants, diabetes. Confidence intervals are based on robust (Huber-White) standard errors.||4.0|0.2|
82605389|NCT02148029|164927067|SUPERIORITY||Mean Difference (Net)|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.34|TWO_SIDED|95.0|-1.1|3.1|||t-test, 2 sided||Mean difference = Exercise - Control|||3.1|-1.1|0.34
82605390|NCT02148029|164927068|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_ERROR_OF_MEAN|3.5||0.89|TWO_SIDED|95.0|-7.1|8.0|||t-test, 2 sided||Mean difference = Exercise - Control|||8.0|-7.1|0.89
82605391|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|-5.8|STANDARD_ERROR_OF_MEAN|7.2||0.43|TWO_SIDED|95.0|-20.3|8.4|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Physical Functioning (PF) domain score.||8.4|-20.3|0.43
82656737|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.146|TWO_SIDED|95.0|0.54|1.09||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.09|0.54|0.146
82656738|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.702|TWO_SIDED|95.0|0.69|1.29||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.29|0.69|0.702
82605392|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|3.3||0.13|TWO_SIDED|95.0|-1.6|11.6|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Role limitations due to Physical health problems (RP) domain score.||11.6|-1.6|0.13
82605393|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|2.7|STANDARD_ERROR_OF_MEAN|2.8||0.33|TWO_SIDED|95.0|-2.8|8.2|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Role limitations due to mental health or Emotional problems (RE) domain score.||8.2|-2.8|0.33
82605394|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|5.6|STANDARD_ERROR_OF_MEAN|7.1||0.43|TWO_SIDED|95.0|-8.7|20.0|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the energy/fatigue/Vitality (VT) domain score.||20.0|-8.7|0.43
82605395|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|-2.6|STANDARD_ERROR_OF_MEAN|5.6||0.64|TWO_SIDED|95.0|-13.8|8.6|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Mental Health/emotional well-being (MH) domain score.||8.6|-13.8|0.64
82656739|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.228|TWO_SIDED|95.0|0.88|1.69||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 195 and 210 minutes postdose||1.69|0.88|0.228
82605396|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|-3.9|STANDARD_ERROR_OF_MEAN|8.3||0.64|TWO_SIDED|95.0|-20.5|12.8|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Social Functioning (SF) domain score.||12.8|-20.5|0.64
82605397|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|9.5|STANDARD_ERROR_OF_MEAN|10.1||0.35|TWO_SIDED|95.0|-10.7|29.7|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the Bodily Pain (BP) domain score.||29.7|-10.7|0.35
82605398|NCT02148029|164927069|SUPERIORITY||Mean Difference (Net)|-3.5|STANDARD_ERROR_OF_MEAN|5.3||0.5|TWO_SIDED|95.0|-14.1|7.0|||t-test, 2 sided||Mean difference = Exercise - Control|Note that this analysis uses only 1 of the 8 SF-36 domain scores, the General Health (GH) domain score.||7.0|-14.1|0.50
82605399|NCT02148029|164927070|SUPERIORITY||Mean Difference (Net)|-33.9|STANDARD_ERROR_OF_MEAN|30.1||0.27|TWO_SIDED|95.0|-95.5|27.7|||t-test, 2 sided||Mean difference = Exercise - Control|||27.7|-95.5|0.27
82605400|NCT02148029|164927071|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.07|TWO_SIDED|95.0|-3.4|0.1|||t-test, 2 sided||Mean difference = Reflux - No reflux|||0.1|-3.4|0.07
82605401|NCT02148029|164927072|SUPERIORITY||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.4||0.91|TWO_SIDED|95.0|-0.8|0.9|||t-test, 2 sided||Mean difference = PTS - No PTS|||0.9|-0.8|0.91
82605402|NCT03619213|164927075|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0008|TWO_SIDED|95.0|0.73|0.92|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||0.92|0.73|0.0008
82605403|NCT03619213|164927076|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0085|TWO_SIDED|95.0|0.73|0.95|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||0.95|0.73|0.0085
82605404|NCT03619213|164927077|SUPERIORITY||Rate Ratio (RR)|0.77||||0.0003|TWO_SIDED|95.0|0.67|0.89|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization||Comparison Group: Placebo||0.89|0.67|0.0003
82605405|NCT03619213|164927078|SUPERIORITY||Rate Ratio (RR)|0.77||||0.0017|TWO_SIDED|95.0|0.65|0.9|||LWYY proportional rates model|Stratified by Type 2 Diabetes status at randomization||Comparison Group: Placebo||0.90|0.65|0.0017
82605406|NCT03619213|164927079|SUPERIORITY||Rate Ratio (RR)|1.11||||0.0086|TWO_SIDED|95.0|1.03|1.21||The p-value is obtained from a rank ANCOVA adjusted for baseline KCCQ score, stratified by T2DM status at randomisation.|Win Ratio|Stratified by Type 2 Diabetes status at randomization and including baseline score as a covariate.|The composite of change from baseline in KCCQ Total Symptom Score at 8 months, or death before 8 months.|Comparison Group: Placebo||1.21|1.03|0.0086
82605407|NCT03619213|164927080|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1678|TWO_SIDED|95.0|0.74|1.05|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||1.05|0.74|0.1678
82605408|NCT03619213|164927081|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.3425|TWO_SIDED|95.0|0.83|1.07|||Regression, Cox|Stratified by Type 2 Diabetes status at randomization.||Comparison Group: Placebo||1.07|0.83|0.3425
82605409|NCT03093402|164927082|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Median Difference (Final Values)|-0.9||||0.419|TWO_SIDED|95.0|-2.5|0.6||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for High JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.6|-2.5|0.4190
82605410|NCT03093402|164927082|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Median Difference (Final Values)|-1.2||||0.419|TWO_SIDED|95.0|-2.7|0.3||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for Medium JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.3|-2.7|0.4190
82605411|NCT03093402|164927082|SUPERIORITY|The fixed effects included treatment, time, time² , time- and time² by treatment interactions. The Screening FSS score and the Screening 7-day average maximum daily pain NRS were included as covariates. Within-subject random effects for intercept and slopes for time and time² were fit using an unstructured covariance matrix, assuming a different structure for placebo and pooled active treatment groups.|Mean Difference (Final Values)|-0.7||||0.419|TWO_SIDED|95.0|-2.2|0.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active treatment arms versus placebo.|Mixed Models Analysis||Mean difference in the change from Day 1 to Day 84 for Low JBT-101 - Placebo. The estimated mean change (95% confidence interval) from Day 1 to Day 84 for Placebo was -0.3 (-1.5, 0.9).|The null hypothesis is that linear trends from Day 1 to Day 84 are equivalent for each active JBT-101 cohort and placebo. The overall test is a 3 degree of freedom F test that simultaneously compares the estimated mean change from Day 1 to Day 84 for each of the 3 active JBT-101 cohorts versus placebo.||0.8|-2.2|0.4190
82605412|NCT03093402|164927092|SUPERIORITY|||||||0.594|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 29.||||0.594
82605413|NCT03093402|164927092|SUPERIORITY|||||||0.487|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 57.||||0.487
82605414|NCT03093402|164927092|SUPERIORITY|||||||0.76|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 85.||||0.760
82605415|NCT03093402|164927092|SUPERIORITY|||||||0.676|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each active treatment vs. placebo at Day 113.||||0.676
82605416|NCT03093402|164927093|SUPERIORITY|||||||0.796||||||This p-value is from an exact likelihood ratio test at Day 29 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.796
82605417|NCT03093402|164927093|SUPERIORITY|||||||0.955||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.955
82605418|NCT03093402|164927093|SUPERIORITY|||||||0.211||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.211
82605419|NCT03093402|164927093|SUPERIORITY|||||||0.481||||||This p-value is from an exact likelihood ratio test at Day 113 testing that the proportion of subjects with \>= 50% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.481
82605420|NCT03093402|164927094|SUPERIORITY|||||||0.79||||||This p-value is from an exact likelihood ratio test at Day 29 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.790
82605421|NCT03093402|164927094|SUPERIORITY|||||||0.843||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.843
82656740|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.13|TWO_SIDED|95.0|0.51|1.09||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.09|0.51|0.130
82656741|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.371|TWO_SIDED|95.0|0.6|1.21||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.21|0.60|0.371
82656742|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.43|TWO_SIDED|95.0|0.82|1.58||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 210 and 225 minutes postdose||1.58|0.82|0.430
82656743|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.177|TWO_SIDED|95.0|0.51|1.13||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.13|0.51|0.177
82605422|NCT03093402|164927094|SUPERIORITY|||||||0.637||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.637
82605423|NCT03093402|164927094|SUPERIORITY|||||||0.243||||||This p-value is from an exact likelihood ratio test at Day 113 testing that the proportion of subjects with \>= 75% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||||||0.243
82605424|NCT03093402|164927095|SUPERIORITY||||||>|0.999||||||This p-value is from an exact likelihood ratio test at Day 57 testing that the proportion of subjects with \>=100% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||>0.999
82605425|NCT03093402|164927095|SUPERIORITY|||||||0.861||||||This p-value is from an exact likelihood ratio test at Day 85 testing that the proportion of subjects with \>= 100% improvement is equal among the 4 treatment groups.|Exact Likelihood Ratio Test|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.861
82605426|NCT03093402|164927096|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.39|TWO_SIDED|95.0|-4.8|8.7||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for High JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||8.7|-4.8|0.390
82605427|NCT03093402|164927096|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.39|TWO_SIDED|95.0|-4.9|8.2||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for Medium JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||8.2|-4.9|0.390
82605428|NCT03093402|164927096|SUPERIORITY||Median Difference (Final Values)|-2.0||||0.39|TWO_SIDED|95.0|-8.6|4.6||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline tender joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline tender joint count for Low JBT-101 - Placebo. The estimated tender joint count mean change from baseline (95% confidence interval) for Placebo was -6.3 (-12.0, -0.7).|Each active JBT-101 cohort is compared to placebo.||4.6|-8.6|0.390
82656744|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.91||||0.58|TWO_SIDED|95.0|0.64|1.28||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.28|0.64|0.580
82605429|NCT03093402|164927097|SUPERIORITY||Median Difference (Final Values)|0.7||||0.556|TWO_SIDED|95.0|-1.6|3.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for High JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||3.0|-1.6|0.556
82605430|NCT03093402|164927097|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.556|TWO_SIDED|95.0|-2.5|2.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each JBT-101 cohort versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for Medium JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||2.0|-2.5|0.556
82605431|NCT03093402|164927097|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.556|TWO_SIDED|95.0|-3.1|1.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline swollen joint count at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline swollen joint count for High JBT-101 - Placebo. The estimated swollen joint count mean change from baseline (95% confidence interval) for Placebo was -4.0 (-5.7, -2.4).|Each active JBT-101 cohort is compared to placebo.||1.4|-3.1|0.556
82605432|NCT03093402|164927098|SUPERIORITY|||||||0.669|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 29.||||0.669
82605433|NCT03093402|164927098|SUPERIORITY|||||||0.432|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 57.||||0.432
82605434|NCT03093402|164927098|SUPERIORITY|||||||0.78|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 85.||||0.780
82605435|NCT03093402|164927098|SUPERIORITY|||||||0.285|||||||Mixed Models Analysis|||The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 113.||||0.285
82605436|NCT03093402|164927100|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 29.||||||0.872|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.872
82605437|NCT03093402|164927100|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 57.||||||0.895|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.895
82656745|NCT01062256|165028847|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.333|TWO_SIDED|95.0|0.84|1.7||p-values from Poisson regression model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), site, and baseline of cough bouts terms with log(exposure time)|Poisson regression model|||Pairwise comparison of the number of cough bouts between 225 and 240 minutes postdose||1.70|0.84|0.333
82656746|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.264|TWO_SIDED|95.0|-0.08|0.27||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.27|-0.08|0.264
82656747|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03||||0.737|TWO_SIDED|95.0|-0.2|0.14||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.14|-0.20|0.737
82656748|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13||||0.078|TWO_SIDED|95.0|-0.27|0.01||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 1 hour postdose||0.01|-0.27|0.078
82656749|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.125|TWO_SIDED|95.0|-0.04|0.36||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.36|-0.04|0.125
82656750|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04||||0.688|TWO_SIDED|95.0|-0.16|0.24||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.24|-0.16|0.688
82656751|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.166|TWO_SIDED|95.0|-0.29|0.05||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 2 hour postdose||0.05|-0.29|0.166
82605438|NCT03093402|164927100|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 85.||||||0.669|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.669
82605439|NCT03093402|164927100|SUPERIORITY|The dichotomous outcome is modeled using the generalized estimating equations approach under the binomial distribution with a logit link. The model includes fixed effects for visit, treatment and visit\*treatment interaction with an unstructured within-subject correlation structure across visits. The overall test p-value is a 3 degree-of-freedom test comparing each of the 3 active treatments vs. placebo at Day 113.||||||0.668|||||||Mixed Models Analysis|||JBT-101 High, JBT-101 Medium, JBT-101 Low, Placebo||||0.668
82605440|NCT03093402|164927101|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.82|TWO_SIDED|95.0|-2.3|1.5||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for High JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.5|-2.3|.820
82605441|NCT03093402|164927101|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.82|TWO_SIDED|95.0|-2.0|1.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for Medium JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.8|-2.0|.820
82605442|NCT03093402|164927101|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.82|TWO_SIDED|95.0|-2.6|1.1||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline SELENA-SLEDAI Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline SLEDAI score for Low JBT-101 - Placebo. The estimated Day 85 SLEDAI mean change from baseline (95% confidence interval) for Placebo was -2.2 (-3.6, -0.8).|Each active JBT-101 cohort is compared to placebo.||1.1|-2.6|.820
82605443|NCT03093402|164927102|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.244|TWO_SIDED|95.0|-3.0|4.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||4.4|-3.0|.244
82605444|NCT03093402|164927102|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.244|TWO_SIDED|95.0|-5.2|2.0||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for Medium JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||2.0|-5.2|.244
82656752|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.233|TWO_SIDED|95.0|-0.09|0.35||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.35|-0.09|0.233
82656753|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.848|TWO_SIDED|95.0|-0.24|0.19||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.19|-0.24|0.848
82605445|NCT03093402|164927102|SUPERIORITY||Median Difference (Final Values)|-2.6||||0.244|TWO_SIDED|95.0|-6.2|0.9||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline BILAG total score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline BILAG score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.3 (-7.0, -1.5).|Each active JBT-101 cohort is compared to placebo.||0.9|-6.2|.244
82605446|NCT03093402|164927103|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.408|TWO_SIDED|95.0|-0.27|0.4||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.40|-0.27|0.408
82605447|NCT03093402|164927103|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.408|TWO_SIDED|95.0|-0.4|0.26||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.26|-0.40|0.408
82656754|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.093|TWO_SIDED|95.0|-0.33|0.03||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 3 hour postdose||0.03|-0.33|0.093
82656755|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.406|TWO_SIDED|95.0|-0.14|0.34||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.34|-0.14|0.406
82605448|NCT03093402|164927103|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.408|TWO_SIDED|95.0|-0.5|0.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physician's Global Assessment (PGA) Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline PGA score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -0.43 (-0.70, -0.15).|Each active JBT-101 cohort is compared to placebo.||0.16|-0.50|0.408
82605449|NCT03093402|164927104|SUPERIORITY||Mean Difference (Final Values)|-21.48||||0.07|TWO_SIDED|95.0|-37.24|-5.72||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||-5.72|-37.24|0.070
82605450|NCT03093402|164927104|SUPERIORITY||Mean Difference (Final Values)|-10.4||||0.07|TWO_SIDED|95.0|-25.33|4.54||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for High JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||4.54|-25.33|0.070
82605451|NCT03093402|164927104|SUPERIORITY||Mean Difference (Final Values)|-10.81||||0.07|TWO_SIDED|95.0|-25.78|4.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Patient Global Assessment Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Mean difference in the change from baseline Patient Global Assessment score for Low JBT-101 - Placebo. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -5.27 (-16.11, 5.56).|Each active JBT-101 cohort is compared to placebo.||4.16|-25.78|0.070
82605452|NCT03093402|164927105|SUPERIORITY||Median Difference (Final Values)|0.3||||0.979|TWO_SIDED|95.0|-3.38|3.99||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physical Function T-score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||3.99|-3.38|0.979
82605453|NCT03093402|164927105|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.979|TWO_SIDED|95.0|-3.13|3.93||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline Physical Function T-score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||3.93|-3.13|0.979
82605454|NCT03093402|164927105|SUPERIORITY||Median Difference (Final Values)|0.77||||0.979|TWO_SIDED|95.0|-2.77|4.31||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Physical Function Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was 1.8 (-0.8, 4.3).|||4.31|-2.77|0.979
82656756|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.991|TWO_SIDED|95.0|-0.24|0.24||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.24|-0.24|0.991
82656757|NCT01062256|165028848|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.306|TWO_SIDED|95.0|-0.3|0.09||p-values from ANOVA model with treatment, gender, time stratum (dosing before or at 3:00 pm, or after 3:00 pm), and site terms.|ANOVA|||Pairwise comparison of change from baseline in cough severity at 4 hour postdose||0.09|-0.30|0.306
82605455|NCT03093402|164927106|SUPERIORITY||Mean Difference (Final Values)|-1.44||||0.788|TWO_SIDED|95.0|-6.14|3.26||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||3.26|-6.14|0.788
82605456|NCT03093402|164927106|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.788|TWO_SIDED|95.0|-6.07|2.96||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||2.96|-6.07|0.788
82605457|NCT03093402|164927106|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.788|TWO_SIDED|95.0|-4.0|4.94||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Anxiety T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.8 (-4.8, 1.2).|||4.94|-4.00|0.788
82656758|NCT01062256|165028849|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma statistic|0.15||||0.254|TWO_SIDED|95.0|-0.09|0.39||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.39|-0.09|0.254
82656759|NCT01062256|165028849|SUPERIORITY_OR_OTHER||weighted Goodman-Kruskal Gamma statistic|-0.01||||0.949|TWO_SIDED|95.0|-0.25|0.23||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.23|-0.25|0.949
82605458|NCT03093402|164927107|SUPERIORITY||Mean Difference (Final Values)|-1.49||||0.766|TWO_SIDED|95.0|-6.14|3.16||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||3.16|-6.14|0.766
82605459|NCT03093402|164927107|SUPERIORITY||Mean Difference (Final Values)|0.76||||0.766|TWO_SIDED|95.0|-3.6|5.11||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||5.11|-3.60|0.766
82605460|NCT03093402|164927107|SUPERIORITY||Mean Difference (Final Values)|-1.24||||0.766|TWO_SIDED|95.0|-5.55|3.07||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Depression T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.7(-4.6, 1.3).|||3.07|-5.55|0.766
82656760|NCT01062256|165028849|SUPERIORITY_OR_OTHER||weighted Goodman-Kruskal Gamma statistic|-0.12||||0.256|TWO_SIDED|95.0|-0.32|0.08||p-values from Cochran-Mantel-Haenszel test with modified ridit scores, controlling for gender, time stratum, and site.|Cochran-Mantel-Haenszel|||Pairwise comparison of global evaluation of study medication.||0.08|-0.32|0.256
82492291|NCT01847274|164677796|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.358|TWO_SIDED|95.0|0.606|1.198||Two-sided P-value.|Log Rank|||||1.198|0.606|0.3580
82605461|NCT03093402|164927108|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.982|TWO_SIDED|95.0|-6.04|5.17||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|||5.17|-6.04|0.982
82605462|NCT03093402|164927108|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.982|TWO_SIDED|95.0|-6.22|4.5||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|Each active JBT-101 cohort is compared to placebo.||4.50|-6.22|0.982
82605463|NCT03093402|164927108|SUPERIORITY||Mean Difference (Final Values)|-0.98||||0.982|TWO_SIDED|95.0|-6.32|4.36||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Fatigue T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 mean change from baseline and 95% confidence interval for the Placebo group was -4.7 (-8.3, -1.1).|||4.36|-6.32|0.982
82605464|NCT03093402|164927109|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.607|TWO_SIDED|95.0|-4.74|4.91||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||4.91|-4.74|0.607
82605465|NCT03093402|164927109|SUPERIORITY||Mean Difference (Final Values)|2.93||||0.607|TWO_SIDED|95.0|-1.85|7.71||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||7.71|-1.85|0.607
82605466|NCT03093402|164927109|SUPERIORITY||Mean Difference (Final Values)|1.44||||0.607|TWO_SIDED|95.0|-3.22|6.09||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Sleep Disturbance T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -3.5 (-6.8, -0.3).|Each active JBT-101 cohort is compared to placebo.||6.09|-3.22|0.607
82605467|NCT03093402|164927110|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.981|TWO_SIDED|95.0|-4.66|4.3||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.30|-4.66|0.981
82605468|NCT03093402|164927110|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.981|TWO_SIDED|95.0|-3.84|4.86||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.86|-3.84|0.981
82492292|NCT01847274|164677797|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.6868|TWO_SIDED|95.0|0.813|1.369||Two-sided P-value.|Log Rank|||||1.369|0.813|0.6868
82605469|NCT03093402|164927110|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.981|TWO_SIDED|95.0|-4.62|4.08||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Social Role Satisfaction T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 4.2 (0.8, 7.6).|||4.08|-4.62|0.981
82605470|NCT03093402|164927111|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.653|TWO_SIDED|95.0|-6.0|2.29||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||2.29|-6.00|0.653
82605471|NCT03093402|164927111|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.653|TWO_SIDED|95.0|-3.1|4.88||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||4.88|-3.10|0.653
82605472|NCT03093402|164927111|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.653|TWO_SIDED|95.0|-4.31|3.67||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Interference T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -4.9 (-7.6, -2.1).|Each active JBT-101 cohort is compared to placebo.||3.67|-4.31|0.653
82605473|NCT03093402|164927112|SUPERIORITY||Mean Difference (Final Values)|-1.13||||0.245|TWO_SIDED|95.0|-2.56|0.29||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.29|-2.56|0.245
82605474|NCT03093402|164927112|SUPERIORITY||Mean Difference (Final Values)|-0.56||||0.245|TWO_SIDED|95.0|-1.93|0.8||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.80|-1.93|0.245
82605475|NCT03093402|164927112|SUPERIORITY||Mean Difference (Final Values)|-1.28||||0.245|TWO_SIDED|95.0|-2.64|0.09||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Pain Intensity at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was -1.1 (-2.1, -0.1).|||0.09|-2.64|0.245
82605476|NCT03093402|164927113|SUPERIORITY||Mean Difference (Final Values)|-0.45||||0.608|TWO_SIDED|95.0|-4.45|3.54||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of High JBT-101 - Placebo in the change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||3.54|-4.45|0.608
82605477|NCT03093402|164927113|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.608|TWO_SIDED|95.0|-2.27|5.47||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Medium JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||5.47|-2.27|0.608
82605478|NCT03093402|164927113|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.608|TWO_SIDED|95.0|-2.25|5.45||This p-value is from the overall 3 degree of freedom test that simultaneously compares the mean difference in the change from baseline PROMIS Cognitive Function T-Score at Day 85 for each of the 3 JBT-101 cohorts versus placebo.|Mixed Models Analysis||Estimated mean difference of Low JBT-101 - Placebo in the mean change from baseline at Day 85. The estimated Day 85 change from baseline and 95% confidence interval for the Placebo group was 1.4 (-1.5, 4.4).|Each active JBT-101 cohort is compared to placebo.||5.45|-2.25|0.608
82605479|NCT02886702|164927130|EQUIVALENCE|90% confidence interval on the difference between the proportions to be within \[-20%, +20%\].|Risk Difference (RD)|-4.5||||||90.0|-12.6|3.6||p-value not calculated|Yates' corrected confidence interval|||||3.6|-12.6|
82605480|NCT02886702|164927130|SUPERIORITY|Last Observation Carried Forward (LOCF) for missing efficacy values||||||0.352|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.3520
82605481|NCT02886702|164927131|SUPERIORITY|||||||0.8105|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.8105
82605482|NCT02886702|164927131|SUPERIORITY|||||||0.0613|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.0613
82605483|NCT02886702|164927132|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||1.0000
82605484|NCT02886702|164927132|SUPERIORITY|||||||0.0712|||||||Cochran-Mantel-Haenszel|stratified by clinical site||||||0.0712
82605485|NCT00054847|164927133|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.07||||0.82|TWO_SIDED|95.0|0.62|1.84||Multiple logistic regression analysis was used to adjust for stratification factors and characteristics that were potentially predictive of graft patency. We also performed prespecified subgroup analyses and assessed treatment subgroup interaction.|Chi-squared|We performed as-treated and per-protocol analyses \& multiple imputations as sensitivity analyses to the intent-to-treat analysis on primary end point.||The study was designed to have 90% power to detect 1-year patency rates of 92% in radial artery vs 83% in saphenous vein grafts, with a 2-sided type I error of 5%and an expected 1-year catheterization completion rate of 65%.||1.84|.62|.82
82605486|NCT00054847|164927134|SUPERIORITY_OR_OTHER|||||||0.61|||||||Chi-squared|||||||.61
82605487|NCT00054847|164927135|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Chi-squared|||||||>.99
82605488|NCT00461175|164927166|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a two group test of equivalence in proportions. These calculations are based on the following assumptions: 1) one sided α of 0.025; 2) power (1-β) of 0.80; 3) non-inferiority limit on hazard ratio of 2; and 4) an incidence of 0.5 and 1.0 per 1000 insertions.|Hazard Ratio (HR)|1.61|||||TWO_SIDED|95.0|0.96|2.7|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, breastfeeding at time of insertion and parity status.|The null hypothesis to be tested was: The perforation incidence ratio for LNG IUS vs. copper IUD is higher than or equal to 2.||2.70|0.96|
82605489|NCT00461175|164927166|NON_INFERIORITY_OR_EQUIVALENCE|Sample size calculations were based on a two group test of equivalence in proportions. These calculations are based on the following assumptions: 1) one sided α of 0.025; 2) power (1-β) of 0.80; 3) non-inferiority limit on hazard ratio of 2; and 4) an incidence of 0.5 and 1.0 per 1000 insertions.|Hazard Ratio (HR)|1.65|||||TWO_SIDED|95.0|0.99|2.78|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, time since last delivery, experience of the inserting health care provider.|The null hypothesis to be tested was: The perforation incidence ratio for LNG IUS vs. copper IUD is higher than or equal to 2.||2.78|0.99|
82605490|NCT00461175|164927167|SUPERIORITY_OR_OTHER||Pearl Index|0.06|||||TWO_SIDED|95.0|0.04|0.09||||||||0.09|0.04|
82605491|NCT00461175|164927167|SUPERIORITY_OR_OTHER||Pearl Index|0.52|||||TWO_SIDED|95.0|0.42|0.64||||||||0.64|0.42|
82605492|NCT00461175|164927167|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16|||||TWO_SIDED|95.0|0.1|0.25|||||Hazard ratio was adjusted for the following prognostic factors: age, BMI, and parity.|||0.25|0.10|
82605493|NCT00331760|164927169|SUPERIORITY|||||||0.12|||||||Chi-squared|||A sample size of 42 patients provides 64% power to detect a reduction in short-term grade 2 or higher bowel AEs from historical rate of 40% to 25%.||||0.12
82605494|NCT00331760|164927169|SUPERIORITY|||||||0.043|||||||Chi-squared|||A sample size of 42 patients provides 88% power to detect a reduction in short-term grade 2 or higher bowel AEs from historical rate of 40% to 20%.||||0.043
82605495|NCT02514044|164927177|OTHER|"We also performed normalization by calculating the dependent variable as the percentage of change (proportional change) as it follows; (1) (post-active values - pre-active values)/ (pre-active values) and (2) (post-placebo values - pre-placebo values)/ (pre-placebo series). We compared the percentage of change in Bedside WAB-R® aphasia and language quotients and blood pressures for the experiments with active- and placebo drugs combined active tDCS with MIT using a two-tailed paired t-test."||||||0.008|||||||t-test, 2 sided|||We tested normality using the Kolmogorov-Smirnov (KS) test for all reported measures. We compared scores of Bedside WAB-R® subtests Bedside WAB-R® AQ and LQ from before the study intervention and after the intervention in both experiments by using a two-tailed and paired t-test.||||0.008
82605496|NCT02514044|164927178|OTHER|"We also performed normalization by calculating the dependent variable as the percentage of change (proportional change) as it follows; (1) (post-active values - pre-active values)/ (pre-active values) and (2) (post-placebo values - pre-placebo values)/ (pre-placebo series). We compared the percentage of change in Bedside WAB-R® aphasia and language quotients and blood pressures for the experiments with active- and placebo drugs combined active tDCS with MIT using a two-tailed paired t-test."||||||0.02|TWO_SIDED|95.0|||||t-test, 2 sided|||We tested normality using the Kolmogorov-Smirnov (KS) test for all reported measures. We compared scores of Bedside WAB-R® subtests Bedside WAB-R® AQ and LQ from before the study intervention and after the intervention in both experiments by using a two-tailed and paired t-test.||||0.02
82605497|NCT03093155|164927182|SUPERIORITY||Hazard Ratio (HR)|0.31|||<|0.001|TWO_SIDED|90.0|0.2|0.49|||Regression, Cox|||||0.49|0.20|<0.001
82605498|NCT03093155|164927183|SUPERIORITY|||||||0.003|||||||Fisher Exact|||||||0.003
82492293|NCT01847274|164677798|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.0061|TWO_SIDED|95.0|0.451|0.878||Two-sided P-value.|Log Rank|||||0.878|0.451|0.0061
82492294|NCT01847274|164677799|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.1674|TWO_SIDED|95.0|0.654|1.077||Two-sided P-value.|Log Rank|||||1.077|0.654|0.1674
82492295|NCT01847274|164677816|SUPERIORITY|||||||0.7969|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.7969
82605499|NCT03093155|164927184|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.018|TWO_SIDED|90.0|0.38|0.84|||Regression, Cox|||||0.84|0.38|0.018
82605500|NCT03093155|164927185|SUPERIORITY|||||||0.77|||||||Fisher Exact|||||||0.77
82605501|NCT03093155|164927186|SUPERIORITY|||||||0.068|||||||Fisher Exact|||The RECIST responses were categorized as SD/PD or NA compared to PR or Better as a binary outcome.||||0.068
82605502|NCT03417440|164927188|SUPERIORITY||Estimated mean change|-898.0||||0.37|TWO_SIDED|95.0|-2884.82|1088.82||A single model was run including variables indicating Proof Positive (yes/no), Coach Me (yes/no), and On Your Feet (yes/no) and their interaction terms.|Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||1088.82|-2884.82|.37
82492296|NCT01847274|164677816|SUPERIORITY|||||||0.8794|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.8794
82492297|NCT01847274|164677817|SUPERIORITY|||||||0.2399|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.2399
82492298|NCT01847274|164677817|SUPERIORITY|||||||0.4584|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.4584
82605503|NCT03417440|164927188|SUPERIORITY||Estimated mean change|-2602.1||||0.02|TWO_SIDED|95.0|-4687.44|-516.69||A single model was run including variables indicating Proof Positive (yes/no), Coach Me (yes/no), and On Your Feet (yes/no) and their interaction terms.|Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||-516.69|-4687.44|.02
82605504|NCT03417440|164927188|SUPERIORITY||Estimated mean change|-1244.9||||0.23|TWO_SIDED|95.0|-3287.6|797.85|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||797.85|-3287.60|.23
82605505|NCT03417440|164927188|SUPERIORITY||Estimated mean change|1468.5||||0.31|TWO_SIDED|95.0|-1368.93|4306.02|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||4306.02|-1368.93|0.31
82605506|NCT03417440|164927188|SUPERIORITY||Estimated mean change|388.1||||0.78|TWO_SIDED|95.0|-2397.51|3173.62|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||3173.62|-2397.51|0.78
82605507|NCT03417440|164927188|SUPERIORITY||Estimated mean change|1991.2||||0.17|TWO_SIDED|95.0|-865.52|4847.86|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||4847.86|-865.52|0.17
82605508|NCT03417440|164927188|SUPERIORITY||Estimated mean change|-590.7||||0.77|TWO_SIDED|95.0|-4591.17|3409.75|||Mixed Models Analysis|||The original mixed effects regression model effects consisted of three treatment main effects, three two-way treatment interactions, and one three-way treatment interaction. Values are unadjusted.||3409.75|-4591.17|0.77
82605509|NCT03417440|164927189|SUPERIORITY||Mean Difference (Net)|-23.0|STANDARD_DEVIATION|118.7||0.17|ONE_SIDED|90.0||8.3||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||8.3||0.17
82605510|NCT03417440|164927189|SUPERIORITY||Mean Difference (Net)|37.7|STANDARD_DEVIATION|117.8||0.94|ONE_SIDED|90.0||68.8||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||68.8||0.94
82605511|NCT03417440|164927189|SUPERIORITY||Mean Difference (Net)|52.0|STANDARD_DEVIATION|116.4||0.99|ONE_SIDED|90.0||82.7||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||82.7||0.99
82605512|NCT03417440|164927190|SUPERIORITY||Mean Difference (Net)|0.8|STANDARD_DEVIATION|51.0||0.47|ONE_SIDED|90.0|-12.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-12.5|0.47
82605513|NCT03417440|164927190|SUPERIORITY||Mean Difference (Net)|5.0|STANDARD_DEVIATION|51.0||0.315|ONE_SIDED|90.0|-8.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-8.3|0.315
82605514|NCT03417440|164927190|SUPERIORITY||Mean Difference (Net)|3.9|STANDARD_DEVIATION|51.0||0.355|ONE_SIDED|90.0|-9.4|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-9.4|0.355
82605515|NCT03417440|164927191|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.0||0.86|ONE_SIDED|90.0|-1.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.3|0.86
82605516|NCT03417440|164927191|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.0||0.38|ONE_SIDED|90.0|-0.6|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.6|0.38
82605517|NCT03417440|164927191|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|1.0||0.66|ONE_SIDED|90.0|-1.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.1|0.66
82605518|NCT03417440|164927192|SUPERIORITY||Mean Difference (Net)|-1.9|STANDARD_DEVIATION|19.2||0.69|ONE_SIDED|90.0|-6.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-6.9|0.69
82656761|NCT00891293|165028864|SUPERIORITY_OR_OTHER||Median Difference (Net)|3.3|STANDARD_DEVIATION|29.01||0.9999||95.0|-2.8|9.4|||ANOVA||Difference Between Percent Change from LOV111859/OM5 Baseline to LOV111860/OM5X End-of-Treatment and Percent Change from LOV111859/OM5 Baseline to LOV111821/OM5XX End-of-Treatment|For the MITT analysis, the method of last observation carried forward (LOCF) was applied. The LOCF is the value of a previous non-baseline visit (post-enrollment) carried forward to the subsequent visit, if missing.||9.4|-2.8|0.9999
82656762|NCT00262964|165028882|SUPERIORITY_OR_OTHER||||||<|0.019||95.0|||||t-test, 2 sided|||null hypothesis was no difference in hepatic insulin sensitivity between normal and high IHTG subjects||||<0.019
82656763|NCT00262964|165028883|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||a priori threshold for significance was P\<0.05.|t-test, 2 sided|||null hypothesis was that VLDL-TG production would not differ between the two groups.||||<0.001
82656764|NCT00262964|165028884|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||a priori threshold for significance was set at p = 0.05.|t-test, 2 sided|||null hypothesis was no difference in skeletal muscle insulin sensitivity between groups.||||<0.001
82605519|NCT03417440|164927192|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|19.2||0.6|ONE_SIDED|90.0|-6.0|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-6.0|0.60
82605520|NCT03417440|164927192|SUPERIORITY||Mean Difference (Net)|4.8|STANDARD_DEVIATION|19.0||0.11|ONE_SIDED|90.0|-0.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.2|0.11
82605521|NCT03417440|164927193|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.0||0.94|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.94
82605522|NCT03417440|164927193|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.1||0.73|ONE_SIDED|90.0|-0.4|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.4|0.73
82605523|NCT03417440|164927193|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.1||0.22|ONE_SIDED|90.0|-0.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.1|0.22
82605524|NCT03417440|164927194|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.3||0.46|ONE_SIDED|90.0|-0.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.3|0.46
82605525|NCT03417440|164927194|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.2||0.96|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.96
82605526|NCT03417440|164927194|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|1.3||0.495|ONE_SIDED|90.0|-0.3|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.3|0.495
82605527|NCT03417440|164927195|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|4.5||0.445|ONE_SIDED|90.0|-1.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.1|0.445
82605528|NCT03417440|164927195|SUPERIORITY||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|4.4||0.92|ONE_SIDED|90.0|-2.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-2.5|0.92
82605529|NCT03417440|164927195|SUPERIORITY||Mean Difference (Net)|0.7|STANDARD_DEVIATION|4.5||0.23|ONE_SIDED|90.0|-0.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.5|0.23
82605530|NCT03417440|164927196|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.1||0.78|ONE_SIDED|90.0|-0.5|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.5|0.78
82605531|NCT03417440|164927196|SUPERIORITY||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.1||0.98|ONE_SIDED|90.0|-0.7|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.7|0.98
82656765|NCT00262964|165028885|SUPERIORITY_OR_OTHER||||||<|0.002||95.0|||||t-test, 2 sided|||null hypothesis was that there would be no difference in adipose tissue insulin sensitivity due to IHTG levels.||||<0.002
82605532|NCT03417440|164927196|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|1.1||0.13|ONE_SIDED|90.0|-0.1|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.1|0.13
82656766|NCT00262964|165028886|SUPERIORITY_OR_OTHER|||||||0.301||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|Treatment effects determined by repeated-measures ANOVA. When significant interactions between time and group were found, a Student's t-test was used.||Student's t-test for paired samples was used to evaluate any difference between the two groups. The null hypothesis was that the IHTG percentage would be the same before and after treatment for subjects receiving fenofibrate.||||.301
82656767|NCT00262964|165028886|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|Treatment effects determined by repeated-measures ANOVA. When significant interactions between time and group were found, a Student's t-test was used.||A Student's t-test for paired samples was used to evaluate the effect of treatment. The null hypothesis was that the IHTG percentage for the NAFLD-niacin group at baseline and post-treatment would not change.||||.315
82656768|NCT00262964|165028887|SUPERIORITY_OR_OTHER|||||||0.708||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|||a Student's t-test for paired samples was used to evaluate the effect of treatment. Null hypothesis was that VLDL-apoB would be the same before and after 16 weeks on niacin in subjects with NAFLD.||||0.708
82605533|NCT03417440|164927197|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|4.3||0.285|ONE_SIDED|90.0||0.6||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||0.6||0.285
82605534|NCT03417440|164927197|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|4.3||0.5|ONE_SIDED|90.0||1.1||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||1.1||0.50
82605535|NCT03417440|164927197|SUPERIORITY||Mean Difference (Net)|1.2|STANDARD_DEVIATION|4.3||0.92|ONE_SIDED|90.0||2.3||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided|||||2.3||0.92
82605536|NCT03417440|164927198|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_DEVIATION|4.2||0.42|ONE_SIDED|90.0|-0.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.9|0.42
82605537|NCT03417440|164927198|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.2||0.82|ONE_SIDED|90.0|-1.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.9|0.82
82605538|NCT03417440|164927198|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|4.2||0.58|ONE_SIDED|90.0|-1.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.2|0.58
82605539|NCT03417440|164927199|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|4.0||0.45|ONE_SIDED|90.0|-0.9|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-0.9|0.45
82605540|NCT03417440|164927199|SUPERIORITY||Mean Difference (Net)|0.0|STANDARD_DEVIATION|3.9||0.49|ONE_SIDED|90.0|-1.0|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.0|0.49
82605541|NCT03417440|164927199|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|3.9||0.61|ONE_SIDED|90.0|-1.2|||a priori threshold for statistical significance=0.1 for 1-sided t-test; no adjustments for multiple comparisons made; if the outcome is not in the hypothesized direction, values that meet or exceed the 0.1 threshold will not be considered significant|t-test, 1 sided||||||-1.2|0.61
82605542|NCT03417440|164927200|SUPERIORITY|||||||0.84|||||||t-test, 2 sided|||||||.84
82605543|NCT03417440|164927200|SUPERIORITY|||||||0.96|||||||t-test, 2 sided|||||||.96
82656769|NCT00262964|165028887|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||A P-value \< 0.05 was considered statistically significant.|t-test, 2 sided|||A Student's t-test for paired samples was used to evaluate the effect of treatment. Null hypothesis was that VLDL-apoB would be the same before and after 8 weeks on fenofibrate in subjects with NAFLD.||||.022
82656770|NCT00262964|165028888|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||the null hypothesis was that fenofibrate would not change the VLDL-Tg clearance rate||||.020
82656771|NCT00262964|165028888|SUPERIORITY_OR_OTHER|||||||0.358||95.0||||a priori threshold for significance was \<0.05.|t-test, 2 sided|||the null hypothesis was that niacin would not change the VLDL-Tg clearance rate||||.358
82605544|NCT03417440|164927200|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||.41
82656772|NCT00262964|165028889|SUPERIORITY_OR_OTHER|||||||0.758||95.0||||a priori threshold for statistical significance was set at \<0.05.|t-test, 2 sided|||Null hypothesis is that fenofibrate would not effect VLDL-Tg production rates.||||0.758
82656773|NCT00262964|165028889|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||the a priori threshold for statistical significance was set at \<0.05.|t-test, 2 sided|||Null hypothesis is that niacin would not effect VLDL-Tg production rates.||||.023
82492299|NCT01847274|164677818|SUPERIORITY|||||||0.8566|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.8566
82605545|NCT03417440|164927201|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||||||.13
82605546|NCT03417440|164927201|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||||||0.20
82605547|NCT03417440|164927201|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||||||0.39
82605548|NCT03417440|164927202|OTHER||Spearman Correlation|-0.10435||||0.3116|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Self-efficacy for Physical Activity change and Daily Steps change across 4 months.||||0.3116
82605549|NCT03417440|164927202|OTHER||Spearman Correlation|0.17742||||0.0838|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Correlation between Self-regulation of Physical Activity change and Daily Steps change across 4 months.||||0.0838
82605550|NCT03417440|164927202|OTHER||Spearman Correlation|-0.09834||||0.351|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Family Social Support for Physical Activity change and Daily Steps change across 4 months.||||0.3510
82605551|NCT03417440|164927202|OTHER||Spearman Correlation|-0.04562||||0.6659|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Outcome Expectation for Physical Activity change and Daily Steps change across 4 months.||||0.6659
82605552|NCT03417440|164927202|OTHER||Spearman Correlation|-0.04831||||0.6402|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Aging Self-perceptions (Attitude Toward Own Aging) change and Daily Steps change across 4 months.||||0.6402
82605553|NCT03417440|164927202|OTHER||Spearman Correlation|0.13128||||0.2048|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Psychosocial Loss change and Daily Steps change across 4 months.||||0.2048
82656774|NCT00262964|165028890|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||the a priori threshold for statistical significance was p \<0.05|t-test, 2 sided|||Null hypothesis was that fenofibrate would not affect VLDL-Tg concentration. We compare the pre and post-treatment results of subjects receiving an 8 week course of fenofibrate.||||.024
82605554|NCT03417440|164927202|OTHER||Spearman Correlation|0.10022||||0.3445|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Physical Change change and Daily Steps change across 4 months.||||0.3445
82605555|NCT03417440|164927202|OTHER||Spearman Correlation|-0.00866||||0.934|TWO_SIDED||||||t distribution with n-2 degrees of freed|||Correlation between Views of Aging--Psychological Growth change and Daily Steps change across 4 months.||||0.9340
82605556|NCT03168867|164927284|SUPERIORITY||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<.05
82605557|NCT05292755|164927323|OTHER|One-way ANOVA was used to compare mean Faith's phylogenetic diversity before and after treatment for each intervention group at a two-tailed 95% confidence interval.||||||0.232|||||||ANOVA|||||||0.232
82605558|NCT05292755|164927324|OTHER|||||||0.224|||||||ANOVA|||ANOVA was used to compare mean Shannon's diversity indices before and after treatment for each intervention group at a two-tailed 95% confidence interval.||||0.224
82605559|NCT05292755|164927325|OTHER|||||||0.227|||||||Repeated measures Mann-U-Whitney|||Repeated measures Mann-U-Whitney tests were used to compare changes in weighted and unweighted UniFrac distances between intervention groups before and after intervention at a two-tailed 95% confidence interval.||||0.227
82605560|NCT01575912|164927337|OTHER|||||||0.121||||||using Mann Whitney test|Wilcoxon (Mann-Whitney)|||||||0.121
82605561|NCT01056107|164927340|SUPERIORITY_OR_OTHER|||||||0.0075||95.0|||||Dunnett's test|||||||0.0075
82605562|NCT01056107|164927340|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Dunnett's test|||||||<0.001
82605563|NCT01380899|164927350|SUPERIORITY|IHC analyses revealed intense α-synuclein positive immunostaining in PD patients, showing small nodular deposits from 1 to 2 μm in diameter in the SCL of the epidermis including the epidermal component adjacent to hair follicles, and in cells from PSUs, while control subjects presented null immunoreaction. The α-synuclein inclusions in the two groups of patients were morphologically similar but quantitatively different. These inclusions appeared to be juxtanuclear.|Median Difference (Net)|57.9|STANDARD_DEVIATION|8.85|<|0.01|TWO_SIDED|95.0|44.9|62.6||The presence of alpha-synuclein aggregates expressed as % of cells with inclusions was tested for normality (Shapiro-Wilk test). Then, with the nonparametric Kruskal-Wallis followed by Mann-Whitney U tests (software Statistica 7.0 at 95% confidence).|Kruskal-Wallis|The groups were analyzed with Kruskal-Wallis followed by Mann-Whitney U tests.|The expression of the abnormal protein (alpha-synuclein) must be different between the three groups (PD, AP, and control)|The patients were stratified according to the clinical diagnosis made on the basis of the clinical findings, the MRI, and the progression of the disease. Both the clinical diagnosis and the semiquantitative histological analysis were carried out independently and blind to each other. The presence of aggregates of abnormal a-synuclein, expressed as the percentage of cells with positive inclusions in each experimental group, was tested for normality with the Shapiro-Wilk test.|The patients were stratified according to the clinical diagnosis based on the clinical findings, the MRI, and the progression of the disease. Both the clinical diagnosis and the semiquantitative histological analysis were carried out independently and blind to each other. The presence of aggregates of abnormal α-synuclein, expressed as the percentage of cells with positive inclusions in each experimental group, was tested for normality with the Shapiro-Wilk test. Next, the groups were analyzed with the nonparametric Kruskal-Wallis followed by Mann-Whitney U tests. One independent analysis was performed for each structure, namely the epidermis, PSU, and EG. Assessments were performed using the software Statistica 7.0 (Tulsa, OK) at 95% confidence.|62.6|44.9|< 0.01
82605564|NCT03263091|164927356|OTHER||Odds Ratio (OR)|1.582||||0.217|TWO_SIDED|95.0|0.761|3.29|||Cochran-Mantel-Haenszel|||The odds ratio along with its 95% confidence interval (CI) were calculated based on the Cochran-Mantel-Haenszel (CMH) chi-square test adjusting for the stratification factors (EPO level, International Prognostic Scoring System - Revised \[IPSS-R\] risk category and RBC transfusion burden).||3.290|0.761|0.217
82605565|NCT01381094|164927381|SUPERIORITY||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|0.24|1.35||||||||1.35|0.24|
82605566|NCT01381094|164927381|SUPERIORITY||Mean Difference (Net)|0.76|||||TWO_SIDED|95.0|0.2|1.33||||||||1.33|0.20|
82605567|NCT01381094|164927381|SUPERIORITY||Mean Difference (Net)|1.28|||||TWO_SIDED|95.0|0.73|1.83||||||||1.83|0.73|
82605568|NCT01381094|164927381|SUPERIORITY||Mean Difference (Net)|1.45|||||TWO_SIDED|95.0|0.91|2.0||||||||2.00|0.91|
82605569|NCT01381094|164927381|SUPERIORITY||||||<|0.0001|TWO_SIDED||||||ANOVA|||||||<0.0001
82605570|NCT01381094|164927382|SUPERIORITY||||||=|0.9355|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.9355
82605571|NCT01381094|164927382|SUPERIORITY||||||=|0.6594|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.6594
82605572|NCT01381094|164927382|SUPERIORITY||||||=|0.0203|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0203
82605573|NCT01381094|164927382|SUPERIORITY||||||=|0.0369|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0369
82605574|NCT01381094|164927382|SUPERIORITY|p-value was based on the comparison within treatment group (Change from Baseline to Week 1).|||||=|0.3713|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.3713
82492300|NCT01847274|164677818|SUPERIORITY|||||||0.4705|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.4705
82605575|NCT01381094|164927382|SUPERIORITY||||||=|0.163|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1630
82605576|NCT01381094|164927382|SUPERIORITY||||||=|0.7615|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7615
82605577|NCT01381094|164927382|SUPERIORITY||||||=|0.004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0040
82605578|NCT01381094|164927382|SUPERIORITY||||||=|0.0003|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0003
82605579|NCT01381094|164927382|SUPERIORITY||||||=|0.3978|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.3978
82605580|NCT01381094|164927382|SUPERIORITY||||||=|0.0083|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0083
82605581|NCT01381094|164927382|SUPERIORITY||||||=|0.0323|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0323
82605582|NCT01381094|164927382|SUPERIORITY||||||=|0.0003|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0003
82605583|NCT01381094|164927382|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0001
82605584|NCT01381094|164927382|SUPERIORITY||||||=|0.423|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.4230
82605585|NCT01381094|164927382|SUPERIORITY||||||=|0.0023|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0023
82605586|NCT01381094|164927382|SUPERIORITY||||||=|0.0009|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0009
82605587|NCT01381094|164927382|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605588|NCT01381094|164927382|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605589|NCT01381094|164927382|SUPERIORITY||||||=|0.5291|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5291
82656775|NCT00262964|165028890|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||the a priori threshold for statistical significance was p\<0.05|t-test, 2 sided|||The null hypothesis was that niacin would not affect VLDL-Tg concentration. We compare the pre and post-treatment results of subjects receiving a 16 week course of niacin.||||<0.001
82605590|NCT01381094|164927382|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
82656776|NCT00262964|165028891|SUPERIORITY_OR_OTHER|||||||0.768||95.0||||A priori threshold for significance was set for p\<0.05.|t-test, 2 sided|||Null hypothesis was that fenofibrate would not affect adipose tissue insulin sensitivity. We compare the baseline and post-treatment results for adipose tissue insulin sensitivity in the subjects who received fenofibrate.||||.768
82605591|NCT01381094|164927382|SUPERIORITY||||||=|0.0222|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0222
82605592|NCT01381094|164927382|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
82605593|NCT01381094|164927382|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
82605594|NCT01381094|164927382|SUPERIORITY||||||=|0.9314|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9314
82605595|NCT01381094|164927383|SUPERIORITY||||||=|0.5219|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.5219
82492301|NCT01847274|164677819|SUPERIORITY|||||||0.8521|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.8521
82605596|NCT01381094|164927383|SUPERIORITY||||||=|0.6743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.6743
82605597|NCT01381094|164927383|SUPERIORITY||||||=|0.0078|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0078
82605598|NCT01381094|164927383|SUPERIORITY||||||=|0.0301|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0301
82605599|NCT01381094|164927383|SUPERIORITY||||||=|0.4502|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.4502
82605600|NCT01381094|164927383|SUPERIORITY||||||=|0.6967|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6967
82605601|NCT01381094|164927383|SUPERIORITY||||||=|0.7385|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7385
82605602|NCT01381094|164927383|SUPERIORITY||||||=|0.0176|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0176
82605603|NCT01381094|164927383|SUPERIORITY||||||=|0.0057|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0057
82605604|NCT01381094|164927383|SUPERIORITY||||||=|0.5551|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5551
82656777|NCT00262964|165028891|SUPERIORITY_OR_OTHER|||||||0.019||95.0||||A priori threshold for significance was set for p\<0.05.|t-test, 2 sided|||Null hypothesis was that niacin would not affect adipose tissue insulin sensitivity. Here we compare the baseline and post-treatment adipose tissue insulin sensitivity results for subjects who received a 16 week course of niacin||||.019
82605605|NCT01381094|164927383|SUPERIORITY||||||=|0.0086|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0086
82605606|NCT01381094|164927383|SUPERIORITY||||||=|0.2385|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2385
82656778|NCT00262964|165028892|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that fenofibrate would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results in subjects receiving an 8 week course of fenofibrate.||||.318
82656779|NCT00262964|165028892|SUPERIORITY_OR_OTHER|||||||0.025||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that niacin would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results for subjects receiving a 16 week course of niacin.||||.025
82656780|NCT00262964|165028893|SUPERIORITY_OR_OTHER|||||||0.419||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that fenofibrate would not affect hepatic insulin sensitivity. Here we compare the pre and post-treatment results of subjects receiving an 8 week course of fenofibrate.||||.419
82656781|NCT00262964|165028893|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||The a priori threshold for significance was set at p\<0.05.|t-test, 2 sided|||The null hypothesis was that niacin would not affect skeletal muscle insulin sensitivity. Here we compare the pre and post-treatment results of subjects receiving a 16 week course of niacin.||||.018
82605607|NCT01381094|164927383|SUPERIORITY||||||=|0.0007|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0007
82605608|NCT01381094|164927383|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0002
82605609|NCT01381094|164927383|SUPERIORITY||||||=|0.8895|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8895
82605610|NCT01381094|164927383|SUPERIORITY||||||=|0.0127|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0127
82656782|NCT03130699|165028931|SUPERIORITY|||||||0.95|||||||Regression, Logistic|||Analyses controlled for age, gender, employment and language.||||0.95
82656783|NCT03130699|165028932|SUPERIORITY|||||||0.37|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.37
82605611|NCT01381094|164927383|SUPERIORITY||||||=|0.0076|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0076
82605612|NCT01381094|164927383|SUPERIORITY||||||=|0.0007|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0007
82605613|NCT01381094|164927383|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605614|NCT01381094|164927383|SUPERIORITY||||||=|0.5522|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5522
82605615|NCT01381094|164927383|SUPERIORITY||||||=|0.0031|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0031
82605616|NCT01381094|164927383|SUPERIORITY||||||=|0.2188|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2188
82605617|NCT01381094|164927383|SUPERIORITY||||||=|0.0054|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0054
82605618|NCT01381094|164927383|SUPERIORITY||||||=|0.0037|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0037
82605619|NCT01381094|164927383|SUPERIORITY||||||=|0.9521|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9521
82605620|NCT01381094|164927384|SUPERIORITY||||||=|0.3943|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.3943
82656784|NCT03130699|165028933|SUPERIORITY|||||||0.26|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.26
82605621|NCT01381094|164927384|SUPERIORITY||||||=|0.2096|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.2096
82605622|NCT01381094|164927384|SUPERIORITY||||||=|0.0637|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0637
82605623|NCT01381094|164927384|SUPERIORITY||||||=|0.5016|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.5016
82605624|NCT01381094|164927384|SUPERIORITY||||||=|0.7549|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.7549
82605625|NCT01381094|164927384|SUPERIORITY||||||=|0.5991|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5991
82605626|NCT01381094|164927384|SUPERIORITY||||||=|0.4258|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.4258
82605627|NCT01381094|164927384|SUPERIORITY||||||=|0.0336|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0336
82605628|NCT01381094|164927384|SUPERIORITY||||||=|0.0258|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0258
82605629|NCT01381094|164927384|SUPERIORITY||||||=|0.2412|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.2412
82605630|NCT01381094|164927384|SUPERIORITY||||||=|0.0031|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0031
82656785|NCT03130699|165028934|SUPERIORITY|||||||0.9|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.90
82605631|NCT01381094|164927384|SUPERIORITY||||||=|0.7705|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7705
82605632|NCT01381094|164927384|SUPERIORITY||||||=|0.0024|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0024
82605633|NCT01381094|164927384|SUPERIORITY||||||=|0.0006|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0006
82605634|NCT01381094|164927384|SUPERIORITY||||||=|0.6189|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.6189
82605635|NCT01381094|164927384|SUPERIORITY||||||=|0.0075|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0075
82605636|NCT01381094|164927384|SUPERIORITY||||||=|0.0259|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0259
82605637|NCT01381094|164927384|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605638|NCT01381094|164927384|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605639|NCT01381094|164927384|SUPERIORITY||||||=|0.8898|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.8898
82605640|NCT01381094|164927384|SUPERIORITY||||||=|0.001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0010
82605641|NCT01381094|164927384|SUPERIORITY||||||=|0.2864|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2864
82605642|NCT01381094|164927384|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0002
82605643|NCT01381094|164927384|SUPERIORITY||||||=|0.0016|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0016
82605644|NCT01381094|164927384|SUPERIORITY||||||=|0.9697|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9697
82605645|NCT01381094|164927385|SUPERIORITY||||||=|1|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=1.0000
82605646|NCT01381094|164927385|SUPERIORITY||||||=|0.0055|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0055
82605647|NCT01381094|164927385|SUPERIORITY||||||=|0.0009|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0009
82605648|NCT01381094|164927385|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.0002
82605649|NCT01381094|164927385|SUPERIORITY||||||=|0.9722|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 1).||||=0.9722
82605650|NCT01381094|164927385|SUPERIORITY||||||=|1|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=1.0000
82605651|NCT01381094|164927385|SUPERIORITY||||||=|0.0008|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0008
82605652|NCT01381094|164927385|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0002
82605653|NCT01381094|164927385|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
82605654|NCT01381094|164927385|SUPERIORITY||||||=|0.6579|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6579
82605655|NCT01381094|164927385|SUPERIORITY||||||=|0.4102|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.4102
82605656|NCT01381094|164927385|SUPERIORITY||||||=|0.0023|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0023
82605657|NCT01381094|164927385|SUPERIORITY||||||=|0.0052|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0052
82605658|NCT01381094|164927385|SUPERIORITY||||||=|0.0017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0017
82605659|NCT01381094|164927385|SUPERIORITY||||||=|0.7378|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7378
82605660|NCT01381094|164927385|SUPERIORITY||||||=|0.3371|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3371
82605661|NCT01381094|164927385|SUPERIORITY||||||=|0.0916|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0916
82605662|NCT01381094|164927385|SUPERIORITY||||||=|0.4656|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4656
82605663|NCT01381094|164927385|SUPERIORITY||||||=|0.1629|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.1629
82605664|NCT01381094|164927385|SUPERIORITY||||||=|0.7032|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.7032
82605665|NCT01381094|164927385|SUPERIORITY||||||=|0.5194|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5194
82656786|NCT03130699|165028935|SUPERIORITY|||||||0.21|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.21
82492302|NCT01847274|164677819|SUPERIORITY|||||||0.9923|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.9923
82605666|NCT01381094|164927385|SUPERIORITY||||||=|0.8516|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.8516
82605667|NCT01381094|164927385|SUPERIORITY||||||=|0.0017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0017
82605668|NCT01381094|164927385|SUPERIORITY||||||=|0.0656|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0656
82605669|NCT01381094|164927385|SUPERIORITY||||||=|0.6495|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6495
82605670|NCT01381094|164927386|SUPERIORITY||||||=|0.2065|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.2065
82656787|NCT03130699|165028936|SUPERIORITY|||||||0.3|||||||Regression, Logistic|||Analyses controlled for age, gender, employment, and language.||||0.30
82656788|NCT03130699|165028937|SUPERIORITY|||||||0.9|||||||Regression, Logistic|||Analyses controlled for income.||||0.90
82492303|NCT01847274|164677820|SUPERIORITY|||||||0.9997|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.9997
82605671|NCT01381094|164927386|SUPERIORITY||||||=|0.1807|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.1807
82605672|NCT01381094|164927386|SUPERIORITY||||||=|0.7869|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.7869
82605673|NCT01381094|164927386|SUPERIORITY||||||=|0.4743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.4743
82605674|NCT01381094|164927386|SUPERIORITY||||||=|0.6407|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.6407
82605675|NCT01381094|164927387|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605676|NCT01381094|164927387|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
82605677|NCT01381094|164927387|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605678|NCT01381094|164927387|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605679|NCT01381094|164927387|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605680|NCT01381094|164927388|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
82605681|NCT01381094|164927388|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0004
82605682|NCT01381094|164927388|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
82605683|NCT01381094|164927388|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605684|NCT01381094|164927388|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0002
82605685|NCT01381094|164927389|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605686|NCT01381094|164927389|SUPERIORITY||||||=|0.0043|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0043
82605687|NCT01381094|164927389|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605688|NCT01381094|164927389|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605689|NCT01381094|164927389|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0001
82605690|NCT01381094|164927390|SUPERIORITY||||||=|0.0027|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0027
82605691|NCT01381094|164927390|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82605692|NCT01381094|164927390|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0001
82605693|NCT01381094|164927390|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||<0.0001
82656789|NCT03130699|165028938|SUPERIORITY|||||||0.72|||||||Regression, Logistic|||Analyses controlled for income.||||0.72
82656790|NCT03130699|165028939|SUPERIORITY|||||||0.61|||||||Regression, Logistic|||Analyses controlled for income.||||0.61
82656791|NCT03130699|165028940|SUPERIORITY|||||||0.49|||||||Regression, Logistic|||Analyses controlled for income.||||0.49
82605694|NCT01381094|164927390|SUPERIORITY||||||=|0.0005|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group.||||=0.0005
82605695|NCT01381094|164927396|SUPERIORITY||||||=|0.6051|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6051
82605696|NCT01381094|164927396|SUPERIORITY||||||=|0.5197|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5197
82605697|NCT01381094|164927396|SUPERIORITY||||||=|0.1073|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1073
82656792|NCT03130699|165028941|SUPERIORITY|||||||0.96|||||||Regression, Logistic|||Analyses controlled for income.||||0.96
82656793|NCT03130699|165028942|SUPERIORITY|||||||0.64|||||||Regression, Logistic|||Analyses controlled for income.||||0.64
82656794|NCT03130699|165028943|SUPERIORITY|||||||0.87|||||||Regression, Logistic|||Binary logistic analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.87
82656795|NCT03130699|165028944|SUPERIORITY|||||||0.58|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.58
82656796|NCT03130699|165028945|SUPERIORITY|||||||0.25|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.25
82656797|NCT03130699|165028946|SUPERIORITY|||||||0.11|||||||Regression, Logistic|||Binary logistic regression analyses were conducted for this outcome. Unstandardized regression coefficients represent logit coefficients.||||0.11
82605698|NCT01381094|164927396|SUPERIORITY||||||=|0.1321|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1321
82605699|NCT01381094|164927396|SUPERIORITY||||||=|0.4358|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.4358
82605700|NCT01381094|164927396|SUPERIORITY||||||=|0.8109|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8109
82605701|NCT01381094|164927396|SUPERIORITY||||||=|0.2575|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2575
82605702|NCT01381094|164927396|SUPERIORITY||||||=|0.8361|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8361
82605703|NCT01381094|164927396|SUPERIORITY||||||=|0.0294|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0294
82605704|NCT01381094|164927396|SUPERIORITY||||||=|0.8809|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.8809
82656798|NCT03130699|165028947|SUPERIORITY|||||||0.76|||||||Regression, Logistic|||Analyses controlled for income.||||0.76
82656799|NCT03130699|165028948|SUPERIORITY|||||||0.05|||||||Regression, Logistic|||Analyses controlled for income.||||0.05
82656800|NCT03130699|165028949|SUPERIORITY|||||||0.63|||||||Regression, Logistic|||Analyses controlled for income.||||0.63
82656801|NCT03130699|165028950|SUPERIORITY|||||||0.63|||||||Regression, Logistic|||Analyses is controlled for income.||||0.63
82656802|NCT03130699|165028951|SUPERIORITY|||||||0.002|||||||Regression, Logistic|||Analyses controlled for income.||||0.002
82656803|NCT03130699|165028952|SUPERIORITY|||||||0.008|||||||Regression, Logistic|||Analyses controlled for income.||||0.008
82656804|NCT00669864|165028957|SUPERIORITY_OR_OTHER||Estimated mean|-1.303|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001||95.0|-1.414|-1.192||A significant mean HbA1c decrease was to be declared if H0 is rejected at a significance level of 2.5%.|t-test, 1 sided|||The null hypothesis (H0): HbA1c after 16 weeks - HbA1c at baseline ≥ 0% against the alternative hypothesis (H1): HbA1c after 16 weeks - HbA1c at baseline \< 0%. If H0 rejected at a significance level of 2.5%, declare a significant mean HbA1c decrease||-1.192|-1.414|<0.0001
82656805|NCT03682900|165028963|SUPERIORITY||||||=|0||||||A one tailed test was used, as the intervention is expected to be superior than the control group. The criterion for significance was p \<. 05.|Mixed Models Analysis|There were no adjustments made for multiple comparisons.||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||= .000
82656806|NCT03682900|165028964|SUPERIORITY||||||=|0||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition||||= .000
82656807|NCT03682900|165028965|SUPERIORITY||||||=|0.044||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||=.044
82656808|NCT03682900|165028966|SUPERIORITY||||||=|0.033||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for significance is p\<.05.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||=.033
82605705|NCT01381094|164927396|SUPERIORITY||||||=|0.4971|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4971
82605706|NCT01381094|164927396|SUPERIORITY||||||=|0.3994|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3994
82605707|NCT01381094|164927396|SUPERIORITY||||||=|0.5022|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.5022
82605708|NCT01381094|164927396|SUPERIORITY||||||=|0.9916|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.9916
82656809|NCT03682900|165028967|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656810|NCT03682900|165028968|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82492304|NCT01847274|164677820|SUPERIORITY|||||||0.3518|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.3518
82605709|NCT01381094|164927396|SUPERIORITY||||||=|0.2292|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.2292
82605710|NCT01381094|164927396|SUPERIORITY||||||=|0.1331|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1331
82605711|NCT01381094|164927396|SUPERIORITY||||||=|0.5518|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5518
82605712|NCT01381094|164927396|SUPERIORITY||||||=|0.9032|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9032
82605713|NCT01381094|164927396|SUPERIORITY||||||=|0.2387|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2387
82605714|NCT01381094|164927396|SUPERIORITY||||||=|0.4251|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.4251
82656811|NCT03682900|165028969|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656812|NCT03682900|165028970|SUPERIORITY||||||<|0.001||||||"The a prior threshold for statistical significance is set at p\<.05; one tailed test, as the intervention is expected to be superior than the control group.~The p-value is not adjusted for multiple comparisons."|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656813|NCT03682900|165028971|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656814|NCT03682900|165028972|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656815|NCT03682900|165028973|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82605715|NCT01381094|164927397|SUPERIORITY||||||=|0.0448|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0448
82605716|NCT01381094|164927397|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0004
82605717|NCT01381094|164927397|SUPERIORITY||||||=|0.0813|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0813
82605718|NCT01381094|164927397|SUPERIORITY||||||=|0.0038|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0038
82605719|NCT01381094|164927397|SUPERIORITY||||||=|0.6861|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6861
82605720|NCT01381094|164927397|SUPERIORITY||||||=|0.0553|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0553
82605721|NCT01381094|164927397|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0004
82605722|NCT01381094|164927397|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
82605723|NCT01381094|164927397|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
82605724|NCT01381094|164927397|SUPERIORITY||||||=|0.7379|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.7379
82605725|NCT01381094|164927397|SUPERIORITY||||||=|0.072|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0720
82605726|NCT01381094|164927397|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0002
82605727|NCT01381094|164927397|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605728|NCT01381094|164927397|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605729|NCT01381094|164927397|SUPERIORITY||||||=|0.6781|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.6781
82605730|NCT01381094|164927397|SUPERIORITY||||||=|0.0524|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0524
82605731|NCT01381094|164927397|SUPERIORITY||||||=|0.0367|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0367
82605732|NCT01381094|164927397|SUPERIORITY||||||=|0.6671|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6671
82605733|NCT01381094|164927397|SUPERIORITY||||||=|0.6861|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.6861
82605734|NCT01381094|164927397|SUPERIORITY||||||=|0.9012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9012
82605735|NCT01381094|164927398|SUPERIORITY||||||=|0.3953|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.3953
82656816|NCT03682900|165028974|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656817|NCT03682900|165028975|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a gneral linear mixed model with students nested within schools and schools nested within condition.||||<.001
82605736|NCT01381094|164927398|SUPERIORITY||||||=|0.085|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0850
82605737|NCT01381094|164927398|SUPERIORITY||||||=|0.6045|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.6045
82605738|NCT01381094|164927398|SUPERIORITY||||||=|0.7743|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.7743
82605739|NCT01381094|164927398|SUPERIORITY||||||=|0.5326|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.5326
82605740|NCT01381094|164927398|SUPERIORITY||||||=|0.3465|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.3465
82605741|NCT01381094|164927398|SUPERIORITY||||||=|0.2756|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.2756
82605742|NCT01381094|164927398|SUPERIORITY||||||=|0.1414|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.1414
82605743|NCT01381094|164927398|SUPERIORITY||||||=|0.6941|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.6941
82605744|NCT01381094|164927398|SUPERIORITY||||||=|0.9403|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.9403
82605745|NCT01381094|164927398|SUPERIORITY||||||=|0.831|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.8310
82656818|NCT03682900|165028976|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlayzed using a general linear mixed model with students nested within schools and schools within condition.||||<.001
82492305|NCT01847274|164677821|SUPERIORITY|||||||0.9367|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.9367
82605746|NCT01381094|164927398|SUPERIORITY||||||=|0.0654|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0654
82605747|NCT01381094|164927398|SUPERIORITY||||||=|0.4169|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.4169
82605748|NCT01381094|164927398|SUPERIORITY||||||=|0.0103|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0103
82605749|NCT01381094|164927398|SUPERIORITY||||||=|0.3968|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.3968
82605750|NCT01381094|164927398|SUPERIORITY||||||=|0.0325|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0325
82656819|NCT03682900|165028977|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. Apriori, a p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed uisng a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82605751|NCT01381094|164927398|SUPERIORITY||||||=|0.2151|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2151
82605752|NCT01381094|164927398|SUPERIORITY||||||=|0.8436|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.8436
82605753|NCT01381094|164927398|SUPERIORITY||||||=|0.5962|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5962
82605754|NCT01381094|164927398|SUPERIORITY||||||=|0.3957|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.3957
82605755|NCT01381094|164927399|SUPERIORITY||||||=|0.0294|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0294
82605756|NCT01381094|164927399|SUPERIORITY||||||=|0.0021|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0021
82605757|NCT01381094|164927399|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0004
82605758|NCT01381094|164927399|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0001
82605759|NCT01381094|164927399|SUPERIORITY||||||=|0.0925|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0925
82605760|NCT01381094|164927399|SUPERIORITY||||||=|0.0433|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0433
82605761|NCT01381094|164927399|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
82605762|NCT01381094|164927399|SUPERIORITY||||||=|0.0005|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0005
82605763|NCT01381094|164927399|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
82605764|NCT01381094|164927399|SUPERIORITY||||||=|0.1626|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.1626
82605765|NCT01381094|164927399|SUPERIORITY||||||=|0.0366|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0366
82656820|NCT03682900|165028978|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is a priori considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear model with students nested within schools and schools nested within condition.||||<.001
82605766|NCT01381094|164927399|SUPERIORITY||||||=|0.0004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0004
82605767|NCT01381094|164927399|SUPERIORITY||||||=|0.0012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0012
82605768|NCT01381094|164927399|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605769|NCT01381094|164927399|SUPERIORITY||||||=|0.1779|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.1779
82605770|NCT01381094|164927399|SUPERIORITY||||||=|0.5867|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5867
82605771|NCT01381094|164927399|SUPERIORITY||||||=|0.1306|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1306
82605772|NCT01381094|164927399|SUPERIORITY||||||=|0.9889|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.9889
82605773|NCT01381094|164927399|SUPERIORITY||||||=|0.2026|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.2026
82605774|NCT01381094|164927399|SUPERIORITY||||||=|0.5703|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.5703
82605775|NCT01381094|164927400|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
82605776|NCT01381094|164927400|SUPERIORITY||||||=|0.0092|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0092
82656821|NCT03682900|165028979|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82492306|NCT01847274|164677821|SUPERIORITY|||||||0.2502|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2502
82605777|NCT01381094|164927400|SUPERIORITY||||||=|0.0012|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.0012
82605778|NCT01381094|164927400|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||<0.0001
82605779|NCT01381094|164927400|SUPERIORITY||||||=|0.1157|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 2).||||=0.1157
82605780|NCT01381094|164927400|SUPERIORITY||||||=|0.0069|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0069
82605781|NCT01381094|164927400|SUPERIORITY||||||=|0.0034|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0034
82605782|NCT01381094|164927400|SUPERIORITY||||||=|0.0067|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0067
82605783|NCT01381094|164927400|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||<0.0001
82605784|NCT01381094|164927400|SUPERIORITY||||||=|0.0401|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 4).||||=0.0401
82605785|NCT01381094|164927400|SUPERIORITY||||||=|0.0042|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0042
82605786|NCT01381094|164927400|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605787|NCT01381094|164927400|SUPERIORITY||||||=|0.0002|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0002
82605788|NCT01381094|164927400|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||<0.0001
82605789|NCT01381094|164927400|SUPERIORITY||||||=|0.0422|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Week 6).||||=0.0422
82605790|NCT01381094|164927400|SUPERIORITY||||||=|0.0232|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0232
82605791|NCT01381094|164927400|SUPERIORITY||||||=|0.0243|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0243
82605792|NCT01381094|164927400|SUPERIORITY||||||=|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0001
82605793|NCT01381094|164927400|SUPERIORITY||||||=|0.1089|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.1089
82605794|NCT01381094|164927400|SUPERIORITY||||||=|0.0833|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||p-value was based on the comparison within treatment group (Change from Baseline to Follow-up).||||=0.0833
82605795|NCT01381094|164927402|SUPERIORITY||||||=|0.5456|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.5456
82656822|NCT03682900|165028980|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82656823|NCT03682900|165028981|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were anlyzed using a general linear model mixed model with students nested within schools and schools nested within condition.||||<.001
82605796|NCT01381094|164927402|SUPERIORITY||||||=|0.0053|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.0053
82605797|NCT01381094|164927402|SUPERIORITY||||||<|0.0001|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||<0.0001
82656824|NCT03682900|165028982|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82492307|NCT01847274|164677822|SUPERIORITY|||||||0.5037|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.5037
82605798|NCT01381094|164927402|SUPERIORITY||||||=|0.004|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.0040
82605799|NCT01381094|164927402|SUPERIORITY||||||=|0.2017|||||||2 sided t-test/Wilcoxon Signed-rank Test|The comparison was made by using a 2-tailed, paired t-test (if the distribution was normal) or Wilcoxon Signed-Rank Test otherwise with an α=0.05.||||||=0.2017
82605800|NCT00486902|164927413|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Fisher Exact|||Sample size was determined assuming an incidence of breakthrough pain of 75% and an absolute difference between groups of -20 to +15%. This rate of request for analgesia in the first 24 h was based on data from a parallel study utilizing the same multimodal postoperative pain regimen for cesarean delivery. Group sample sizes of 90 achieve 80% power to detect this difference using the two-sided Z test with pooled variance. The significance level of the test was targeted at 0.05.||||0.86
82605801|NCT00486902|164927414|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.02
82605802|NCT00486902|164927415|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.24
82605803|NCT00486902|164927416|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||Fisher Exact|||||||0.87
82605804|NCT00486902|164927417|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Fisher Exact|||||||0.90
82605805|NCT00486902|164927418|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Fisher Exact|||||||0.24
82605806|NCT00486902|164927419|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82605807|NCT00486902|164927420|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.6||||0.02|TWO_SIDED|95.0|-1.1|-0.09|||Wilcoxon (Mann-Whitney)|||||-0.09|-1.1|0.02
82605808|NCT01552057|164927435|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32||||0.0988|TWO_SIDED|95.0|-0.7|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||0.06|-0.70|0.0988
82605809|NCT01552057|164927436|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0003|TWO_SIDED|95.0|-0.76|-0.22||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.22|-0.76|0.0003
82656825|NCT03682900|165028983|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schols and schools nested within condition.||||<.001
82605810|NCT01552057|164927437|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0012|TWO_SIDED|95.0|-0.71|-0.18||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.18|-0.71|0.0012
82605811|NCT01552057|164927438|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.35||||0.0073|TWO_SIDED|95.0|-9.26|-1.45||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-1.45|-9.26|0.0073
82605812|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.34||||0.0049|TWO_SIDED|95.0|1.32|7.35||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Physical Functioning||7.35|1.32|0.0049
82605813|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.76||||0.0003|TWO_SIDED|95.0|3.57|11.94||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Role-Physical||11.94|3.57|0.0003
82605814|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.67||||0.0002|TWO_SIDED|95.0|2.76|8.59||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Bodily Pain||8.59|2.76|0.0002
82605815|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.25||||0.0192|TWO_SIDED|95.0|0.53|5.96||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||General Health||5.96|0.53|0.0192
82605816|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7||||0.0002|TWO_SIDED|95.0|3.15|10.25||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Vitality||10.25|3.15|0.0002
82605817|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.04||||0.0014|TWO_SIDED|95.0|2.74|11.34||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Social Functioning||11.34|2.74|0.0014
82605818|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.12||||0.0002|TWO_SIDED|95.0|4.41|13.83||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Role-Emotional||13.83|4.41|0.0002
82605819|NCT01552057|164927439|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.91|||<|0.0001|TWO_SIDED|95.0|4.39|11.43||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||Mental Health||11.43|4.39|<0.0001
82605820|NCT01552057|164927440|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.85||||0.0002|TWO_SIDED|95.0|-4.32|-1.38||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-1.38|-4.32|0.0002
82605821|NCT01552057|164927441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28||||0.0029|TWO_SIDED|95.0|-2.12|-0.44||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||WPI||-0.44|-2.12|0.0029
82605822|NCT01552057|164927441|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.0906|TWO_SIDED|95.0|-0.79|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Symptom Severity||0.06|-0.79|0.0906
82656826|NCT03682900|165028984|SUPERIORITY||||||<|0.001||||||All probabilities for secondary outcomes were listed as p = .000 within the analysis program. A p value of \< .05 is considered significant. All statistical tests are one-tailed. The p-value is not adjusted for multiple comparisons.|Mixed Models Analysis|||Data were analyzed using a general linear mixed model with students nested within schools and schools nested within condition.||||<.001
82605823|NCT01552057|164927442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33||||0.0755|TWO_SIDED|95.0|-0.7|0.03||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Average Pain||0.03|-0.70|0.0755
82605824|NCT01552057|164927442|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47||||0.0232|TWO_SIDED|95.0|-0.88|-0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Worst Pain||-0.06|-0.88|0.0232
82605825|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56||||0.0126|TWO_SIDED|95.0|-0.99|-0.12||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Worst Pain||-0.12|-0.99|0.0126
82605826|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49||||0.0092|TWO_SIDED|95.0|-0.87|-0.12||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Least Pain||-0.12|-0.87|0.0092
82605827|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.0083|TWO_SIDED|95.0|-1.0|-0.15||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Pain Right Now||-0.15|-1.00|0.0083
82605828|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46||||0.0807|TWO_SIDED|95.0|-0.98|0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With General Activity||0.06|-0.98|0.0807
82605829|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.75||||0.0057|TWO_SIDED|95.0|-1.29|-0.22||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Mood||-0.22|-1.29|0.0057
82605830|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.1114|TWO_SIDED|95.0|-0.84|0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Walking Ability||0.09|-0.84|0.1114
82605831|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.1081|TWO_SIDED|95.0|-0.94|0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Normal Work||0.09|-0.94|0.1081
82605832|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.0264|TWO_SIDED|95.0|-1.04|-0.07||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Relationships With Other People||-0.07|-1.04|0.0264
82605833|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.3959|TWO_SIDED|95.0|-0.81|0.32||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Sleep||0.32|-0.81|0.3959
82605834|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.66||||0.0119|TWO_SIDED|95.0|-1.18|-0.15||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Interference With Enjoyment of Life||-0.15|-1.18|0.0119
82605835|NCT01552057|164927443|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52||||0.0222|TWO_SIDED|95.0|-0.96|-0.07||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||Average Interference||-0.07|-0.96|0.0222
82605836|NCT01552057|164927444|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.0113|TWO_SIDED|95.0|-0.71|-0.09||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.09|-0.71|0.0113
82605837|NCT01552057|164927445|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61||||0.0005|TWO_SIDED|95.0|-0.94|-0.27||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.27|-0.94|0.0005
82656827|NCT06354270|165028985|SUPERIORITY||Adjusted Mean Difference|-1.07|STANDARD_ERROR_OF_MEAN|0.111|<|0.0001|TWO_SIDED|95.0|-1.29|-0.85|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||-0.85|-1.29|<0.0001
82605838|NCT01552057|164927446|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|||<|0.0001|TWO_SIDED|95.0|-1.07|-0.37||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.37|-1.07|<0.0001
82605839|NCT01552057|164927447|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.0226|TWO_SIDED|95.0|-0.82|-0.06||Statistical tests were conducted at a 2-sided alpha level of 0.05.|MMRM|||||-0.06|-0.82|0.0226
82605840|NCT01552057|164927448|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38||||0.0408|TWO_SIDED|95.0|-0.74|-0.02||Statistical tests were conducted at a 2-sided alpha level of 0.05.|ANCOVA|||||-0.02|-0.74|0.0408
82605841|NCT04178590|164927450|SUPERIORITY|||||||0.429||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.429
82605842|NCT04178590|164927451|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605843|NCT04178590|164927452|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605844|NCT04178590|164927453|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605845|NCT04178590|164927454|SUPERIORITY|||||||0.575||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.575
82656828|NCT06354270|165028986|SUPERIORITY||Adjusted Mean Difference|36.72|STANDARD_ERROR_OF_MEAN|3.319|<|0.0001|TWO_SIDED|95.0|30.14|43.29|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||43.29|30.14|<0.0001
82605846|NCT04178590|164927455|SUPERIORITY|||||||0.575||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.575
82605847|NCT04178590|164927456|SUPERIORITY|||||||0.249||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.249
82605848|NCT04178590|164927457|SUPERIORITY|||||||0.871||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.871
82656829|NCT06354270|165028987|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.083|<|0.0001|TWO_SIDED|95.0|-0.79|-0.46|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||-0.46|-0.79|<0.0001
82492308|NCT01847274|164677822|SUPERIORITY|||||||0.164|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.1640
82605849|NCT04178590|164927458|SUPERIORITY|||||||0.773||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.773
82605850|NCT04178590|164927459|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605851|NCT04178590|164927460|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|p\<0.05||||||0.000
82605852|NCT04178590|164927461|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605853|NCT04178590|164927462|SUPERIORITY|||||||0.063||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.063
82605854|NCT04178590|164927463|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605855|NCT04178590|164927464|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605856|NCT04178590|164927465|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605857|NCT04178590|164927466|SUPERIORITY|||||||0.085||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.085
82605858|NCT04178590|164927467|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605859|NCT04178590|164927468|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605860|NCT04178590|164927469|SUPERIORITY|||||||0.895||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.895
82605861|NCT04178590|164927470|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
82605862|NCT04178590|164927471|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
82605863|NCT04178590|164927472|SUPERIORITY|||||||0.008||||||p\<0.05|McNemar|||||||0.008
82605864|NCT04178590|164927473|SUPERIORITY|||||||0.5||||||p\<0.05|McNemar|||||||0.500
82605865|NCT04178590|164927474|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
82605866|NCT04178590|164927475|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
82605867|NCT04178590|164927476|SUPERIORITY|||||||0.4||||||p\<0.05|McNemar|||||||0.40
82605868|NCT04178590|164927477|SUPERIORITY|||||||0.999|||||||McNemar|||||||0.999
82605869|NCT04178590|164927478|SUPERIORITY|||||||0.999||||||p\<0.05|McNemar|||||||0.999
82605870|NCT04178590|164927479|SUPERIORITY|||||||0.001||||||p\<0.05|McNemar|||||||0.001
82605871|NCT04178590|164927480|SUPERIORITY|||||||0.453||||||p\<0.05|McNemar|||||||0.453
82605872|NCT04178590|164927481|SUPERIORITY|||||||0.625||||||p\<0.05|McNemar|||||||0.625
82605873|NCT04178590|164927482|SUPERIORITY|||||||0.999|||||||McNemar|||||||0.999
82605874|NCT04178590|164927483|SUPERIORITY|||||||0||||||p\<0.05|McNemar|||||||0.000
82605875|NCT04178590|164927484|SUPERIORITY|||||||0.001||||||p\<0.05|McNemar|||||||0.001
82605876|NCT04178590|164927485|SUPERIORITY|||||||0.065||||||p\<0.05|McNemar|||||||0.065
82605877|NCT04178590|164927486|SUPERIORITY|||||||0.821||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.821
82605878|NCT04178590|164927487|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605879|NCT04178590|164927488|SUPERIORITY|||||||0.001||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.001
82605880|NCT04178590|164927489|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605881|NCT04178590|164927490|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605882|NCT04178590|164927491|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605883|NCT04178590|164927492|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605884|NCT04178590|164927493|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
82605885|NCT04178590|164927494|SUPERIORITY|||||||0.671||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.671
82605886|NCT04178590|164927495|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605887|NCT04178590|164927496|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605888|NCT04178590|164927497|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||||||0.000
82605889|NCT04178590|164927498|SUPERIORITY|||||||0.753||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.753
82605890|NCT04178590|164927499|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605891|NCT04178590|164927500|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82656830|NCT06354270|165028988|SUPERIORITY||Adjusted Mean Difference|14.31|STANDARD_ERROR_OF_MEAN|2.128|<|0.0001|TWO_SIDED|95.0|10.09|18.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|||18.52|10.09|<0.0001
82656831|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.252||0.196|TWO_SIDED|95.0|-0.83|0.17|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 28||0.17|-0.83|0.1960
82605892|NCT04178590|164927501|SUPERIORITY|||||||0||||||p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.000
82605893|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.562|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.357|0.885||||||Comparison at 6 h post first dose||0.885|0.357|
82605894|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.612|STANDARD_ERROR_OF_MEAN|0.281|||TWO_SIDED|95.0|0.349|1.072||||||Comparison at 12 h post first dose||1.072|0.349|
82605895|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.518|STANDARD_ERROR_OF_MEAN|0.319|||TWO_SIDED|95.0|0.274|0.981||||||Comparison at 18 h post first dose||0.981|0.274|
82605896|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.416|STANDARD_ERROR_OF_MEAN|0.326|||TWO_SIDED|95.0|0.217|0.796||||||Comparison at 24 h post first dose||0.796|0.217|
82605897|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.517|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|95.0|0.262|1.021||||||Comparison at 48 h post first dose||1.021|0.262|
82605898|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.661|STANDARD_ERROR_OF_MEAN|0.41|||TWO_SIDED|95.0|0.291|1.503||||||Comparison at 72 h post first dose||1.503|0.291|
82605899|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.908|STANDARD_ERROR_OF_MEAN|0.454|||TWO_SIDED|95.0|0.366|2.254||||||Comparison at 96 h post first dose||2.254|0.366|
82605900|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.768|STANDARD_ERROR_OF_MEAN|0.195|||TWO_SIDED|95.0|0.52|1.134||||||Comparison at 6 h post first dose||1.134|0.520|
82605901|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.701|STANDARD_ERROR_OF_MEAN|0.248|||TWO_SIDED|95.0|0.427|1.15||||||Comparison at 12 h post first dose||1.150|0.427|
82605902|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.578|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.329|1.015||||||Comparison at 18 h post first dose||1.015|0.329|
82656832|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.344||0.2287|TWO_SIDED|95.0|-1.08|0.28|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q7 (How intense are the sensations?): Change from Baseline at Day 56||0.28|-1.08|0.2287
82656833|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.28||0.235|TWO_SIDED|95.0|-0.89|0.22|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 28||0.22|-0.89|0.2350
82605903|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.41|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|95.0|0.231|0.728||||||Comparison at 24 h post first dose||0.728|0.231|
82605904|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.896|STANDARD_ERROR_OF_MEAN|0.308|||TWO_SIDED|95.0|0.484|1.657||||||Comparison at 48 h post first dose||1.657|0.484|
82605905|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.739|STANDARD_ERROR_OF_MEAN|0.374|||TWO_SIDED|95.0|0.35|1.563||||||Comparison at 72 h post first dose||1.563|0.350|
82605906|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.56|STANDARD_ERROR_OF_MEAN|0.431|||TWO_SIDED|95.0|0.659|3.697||||||Comparison at 96 h post first dose||3.697|0.659|
82605907|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.608|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|95.0|0.433|0.853||||||Comparison at 6 h post first dose||0.853|0.433|
82605908|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.674|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|95.0|0.437|1.039||||||Comparison at 12 h post first dose||1.039|0.437|
82605909|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.613|STANDARD_ERROR_OF_MEAN|0.247|||TWO_SIDED|95.0|0.374|1.004||||||Comparison at 18 h post first dose||1.004|0.374|
82605910|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.558|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.338|0.921||||||Comparison at 24 h post first dose||0.921|0.338|
82605911|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.725|STANDARD_ERROR_OF_MEAN|0.264|||TWO_SIDED|95.0|0.427|1.23||||||Comparison at 48 h post first dose||1.230|0.427|
82605912|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.73|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|95.0|0.384|1.386||||||Comparison at 72 h post first dose||1.386|0.384|
82605913|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.147|STANDARD_ERROR_OF_MEAN|0.359|||TWO_SIDED|95.0|0.559|2.353||||||Comparison at 96 h post first dose||2.353|0.559|
82605914|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.776|STANDARD_ERROR_OF_MEAN|0.167|||TWO_SIDED|95.0|0.556|1.082||||||Comparison at 6 h post first dose||1.082|0.556|
82605915|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.602|STANDARD_ERROR_OF_MEAN|0.212|||TWO_SIDED|95.0|0.394|0.919||||||Comparison at 12 h post first dose||0.919|0.394|
82605916|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.623|STANDARD_ERROR_OF_MEAN|0.24|||TWO_SIDED|95.0|0.386|1.007||||||Comparison at 18 h post first dose||1.007|0.386|
82605917|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.429|STANDARD_ERROR_OF_MEAN|0.245|||TWO_SIDED|95.0|0.263|0.7||||||Comparison at 24 h post first dose||0.700|0.263|
82605918|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.502|STANDARD_ERROR_OF_MEAN|0.259|||TWO_SIDED|95.0|0.299|0.842||||||Comparison at 48 h post first dose||0.842|0.299|
82605919|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.479|STANDARD_ERROR_OF_MEAN|0.317|||TWO_SIDED|95.0|0.255|0.903||||||Comparison at 72 h post first dose||0.903|0.255|
82605920|NCT00996840|164927522|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.579|STANDARD_ERROR_OF_MEAN|0.361|||TWO_SIDED|95.0|0.281|1.192||||||Comparison at 96 h post first dose||1.192|0.281|
82605921|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.484|STANDARD_ERROR_OF_MEAN|0.219|||TWO_SIDED|95.0|0.312|0.75||||||Comparison at 6 h post first dose||0.750|0.312|
82605922|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.7|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.399|1.229||||||Comparison at 12 h post first dose||1.229|0.399|
82656834|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.328||0.1818|TWO_SIDED|95.0|-1.09|0.21|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q8 (How bothered are you by any sensations?): Change from Baseline at Day 56||0.21|-1.09|0.1818
82605923|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.681|STANDARD_ERROR_OF_MEAN|0.305|||TWO_SIDED|95.0|0.37|1.254||||||Comparison at 18 h post first dose||1.254|0.370|
82605924|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.673|STANDARD_ERROR_OF_MEAN|0.302|||TWO_SIDED|95.0|0.368|1.231||||||Comparison at 24 h post first dose||1.231|0.368|
82605925|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.92|STANDARD_ERROR_OF_MEAN|0.351|||TWO_SIDED|95.0|0.456|1.857||||||Comparison at 48 h post first dose||1.857|0.456|
82605926|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.944|STANDARD_ERROR_OF_MEAN|0.376|||TWO_SIDED|95.0|0.445|2.002||||||Comparison at 72 h post first dose||2.002|0.445|
82605927|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.905|STANDARD_ERROR_OF_MEAN|0.321|||TWO_SIDED|95.0|0.476|1.723||||||Comparison at 96 h post first dose||1.723|0.476|
82605928|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.726|STANDARD_ERROR_OF_MEAN|0.199|||TWO_SIDED|95.0|0.488|1.08||||||Comparison at 6 h post first dose||1.080|0.488|
82605929|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.791|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|0.476|1.317||||||Comparison at 12 h post first dose||1.317|0.476|
82605930|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.725|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|95.0|0.417|1.26||||||Comparison at 18 h post first dose||1.260|0.417|
82605931|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.655|STANDARD_ERROR_OF_MEAN|0.273|||TWO_SIDED|95.0|0.379|1.13||||||Comparison at 24 h post first dose||1.130|0.379|
82605932|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.111|STANDARD_ERROR_OF_MEAN|0.323|||TWO_SIDED|95.0|0.583|2.12||||||Comparison at 48 h post first dose||2.120|0.583|
82605933|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.075|STANDARD_ERROR_OF_MEAN|0.346|||TWO_SIDED|95.0|0.539|2.146||||||Comparison at 72 h post first dose||2.146|0.539|
82656835|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.357||0.1316|TWO_SIDED|95.0|-1.25|0.17|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 28||0.17|-1.25|0.1316
82656836|NCT06354270|165028989|SUPERIORITY||Adjusted Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.417||0.0658|TWO_SIDED|95.0|-1.6|0.05|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Q9 (How well can you tolerate sensations?): Change from Baseline at Day 56||0.05|-1.60|0.0658
82656837|NCT06354270|165028990|SUPERIORITY||Adjusted Mean Difference|1.19|STANDARD_ERROR_OF_MEAN|4.862||0.8072|TWO_SIDED|95.0|-8.45|10.83|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||10.83|-8.45|0.8072
82605934|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.375|STANDARD_ERROR_OF_MEAN|0.313|||TWO_SIDED|95.0|0.735|2.574||||||Comparison at 96 h post first dose||2.574|0.735|
82605935|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.559|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.4|0.783||||||Comparison at 6 h post first dose||0.783|0.400|
82605936|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.83|STANDARD_ERROR_OF_MEAN|0.216|||TWO_SIDED|95.0|0.539|1.277||||||Comparison at 12 h post first dose||1.277|0.539|
82605937|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.987|STANDARD_ERROR_OF_MEAN|0.238|||TWO_SIDED|95.0|0.613|1.589||||||Comparison at 18 h post first dose||1.589|0.613|
82605938|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.924|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|95.0|0.582|1.467||||||Comparison at 24 h post first dose||1.467|0.582|
82605939|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.23|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|95.0|0.716|2.11||||||Comparison at 48 h post first dose||2.110|0.716|
82605940|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.289|STANDARD_ERROR_OF_MEAN|0.292|||TWO_SIDED|95.0|0.719|2.312||||||Comparison at 72 h post first dose||2.312|0.719|
82605941|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.752|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|95.0|1.053|2.916||||||Comparison at 96 h post first dose||2.916|1.053|
82605942|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.58|STANDARD_ERROR_OF_MEAN|0.163|||TWO_SIDED|95.0|0.419|0.803||||||Comparison at 6 h post first dose||0.803|0.419|
82605943|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.657|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|95.0|0.433|0.996||||||Comparison at 12 h post first dose||0.996|0.433|
82605944|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.747|STANDARD_ERROR_OF_MEAN|0.225|||TWO_SIDED|95.0|0.477|1.171||||||Comparison at 18 h post first dose||1.171|0.477|
82605945|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.657|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|95.0|0.421|1.024||||||Comparison at 24 h post first dose||1.024|0.421|
82605946|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.759|STANDARD_ERROR_OF_MEAN|0.261|||TWO_SIDED|95.0|0.451|1.279||||||Comparison at 48 h post first dose||1.279|0.451|
82605947|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.968|STANDARD_ERROR_OF_MEAN|0.282|||TWO_SIDED|95.0|0.55|1.701||||||Comparison at 72 h post first dose||1.701|0.550|
82605948|NCT00996840|164927523|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.744|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|95.0|0.45|1.229||||||Comparison at 96 h post first dose||1.229|0.450|
82605949|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.773|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|0.607|0.985||||||Comparison at 6 h post first dose||0.985|0.607|
82605950|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.795|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|95.0|0.583|1.084||||||Comparison at 12 h post first dose||1.084|0.583|
82605951|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.778|STANDARD_ERROR_OF_MEAN|0.189|||TWO_SIDED|95.0|0.533|1.135||||||Comparison at 18 h post first dose||1.135|0.533|
82605952|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.633|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|95.0|0.43|0.931||||||Comparison at 24 h post first dose||0.931|0.430|
82605953|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.662|STANDARD_ERROR_OF_MEAN|0.255|||TWO_SIDED|95.0|0.397|1.103||||||Comparison at 48 h post first dose||1.103|0.397|
82605954|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.465|STANDARD_ERROR_OF_MEAN|0.243|||TWO_SIDED|95.0|0.286|0.756||||||Comparison at 72 h post first dose||0.756|0.286|
82656838|NCT06354270|165028990|SUPERIORITY||Adjusted Mean Difference|0.28|STANDARD_ERROR_OF_MEAN|6.175||0.9641|TWO_SIDED|95.0|-11.96|12.52|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||12.52|-11.96|0.9641
82656839|NCT06354270|165028991|SUPERIORITY||Adjusted Mean Difference|0.86|STANDARD_ERROR_OF_MEAN|0.75||0.2538|TWO_SIDED|95.0|-0.63|2.35|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.35|-0.63|0.2538
82656840|NCT06354270|165028991|SUPERIORITY||Adjusted Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.922||0.7311|TWO_SIDED|95.0|-2.15|1.51|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||1.51|-2.15|0.7311
82656841|NCT06354270|165028992|SUPERIORITY||Adjusted Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|2.162||0.7202|TWO_SIDED|95.0|-3.51|5.06|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||5.06|-3.51|0.7202
82656842|NCT06354270|165028992|SUPERIORITY||Adjusted Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|2.532||0.9859|TWO_SIDED|95.0|-5.06|4.98|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||4.98|-5.06|0.9859
82656843|NCT06354270|165028993|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.78||0.5586|TWO_SIDED|95.0|-2.0|1.09|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||1.09|-2.00|0.5586
82656844|NCT06354270|165028993|SUPERIORITY||Adjusted Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.961||0.873|TWO_SIDED|95.0|-2.06|1.75|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||1.75|-2.06|0.8730
82656845|NCT06354270|165028994|SUPERIORITY||Adjusted Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|1.383||0.6191|TWO_SIDED|95.0|-3.43|2.05|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.05|-3.43|0.6191
82656846|NCT06354270|165028994|SUPERIORITY||Adjusted Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.669||0.9521|TWO_SIDED|95.0|-3.41|3.21|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||3.21|-3.41|0.9521
82656847|NCT06354270|165028995|SUPERIORITY||Adjusted Mean Difference|0.69|STANDARD_ERROR_OF_MEAN|0.795||0.3887|TWO_SIDED|95.0|-0.89|2.26|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||2.26|-0.89|0.3887
82656848|NCT06354270|165028995|SUPERIORITY||Adjusted Mean Difference|0.88|STANDARD_ERROR_OF_MEAN|0.989||0.373|TWO_SIDED|95.0|-1.08|2.84|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||2.84|-1.08|0.3730
82605955|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.525|STANDARD_ERROR_OF_MEAN|0.287|||TWO_SIDED|95.0|0.295|0.935||||||Comparison at 96 h post first dose||0.935|0.295|
82605956|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.952|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.768|1.18||||||Comparison at 6 h post first dose||1.180|0.768|
82656849|NCT06354270|165028996|SUPERIORITY||Adjusted Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.134||0.1591|TWO_SIDED|95.0|-0.08|0.46|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||0.46|-0.08|0.1591
82656850|NCT06354270|165028996|SUPERIORITY||Adjusted Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.144||0.3429|TWO_SIDED|95.0|-0.15|0.42|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||0.42|-0.15|0.3429
82656851|NCT06354270|165028997|SUPERIORITY||Adjusted Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.411||0.136|TWO_SIDED|95.0|-1.43|0.2|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 28||0.20|-1.43|0.1360
82656852|NCT06354270|165028997|SUPERIORITY||Adjusted Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.431||0.2914|TWO_SIDED|95.0|-1.31|0.4|||Mixed Model with Repeated Measures||Adjusted mean difference was calculated as Test toothpaste minus Reference toothpaste.|Change from Baseline at Day 56||0.40|-1.31|0.2914
82656853|NCT02016170|165029007|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed using a 95% confidence interval (CI) of the difference in mean PRU between prasugrel and ticagrelor (two arms combined). Under the assumption of 0 difference in mean PRU between ticagrelor 90 mg bid MD and prasugrel 10 mg qd MD and a common standard deviation of 60 PRU, a sample size of 24 patients per group allowed for the 95% CI to stay within ± 45 PRU with a 90% power and alpha=0.05.|Mean Difference (Final Values)|-18.0|||||TWO_SIDED|95.0|-41.0|5.0||||||||5|-41|
82656854|NCT02016170|165029008|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority was assessed using a 95% confidence interval (CI) of the difference in mean PRU between prasugrel and ticagrelor (two arms combined).|Mean Difference (Final Values)|-11.0|||||TWO_SIDED|95.0|-18.0|-4.0||||||||-4|-18|
82656855|NCT01395030|165029029|OTHER||||||||||||||||||"Analysis was performed using Gene Set Enrichment Analysis (GSEA version 19.0.24, Broad Institute, Cambridge, MA) implemented in GenePattern (Broad Institute, Cambridge, MA) by uploading expression array data to this cloud-computing genomics platform. The specific details of this statistical approach can be found in the following publicly available references:~Reich M, Liefeld T, Gould J, Lerner J, Tamayo P, Mesirov JP. GenePattern 2.0 Nature Genetics 38 no. 5 (2006): pp500-501~Subramanian A, Tamayo P, Mootha VK, Mukherjee S, Ebert BL, Gillette MA, Paulovich A, Pomeroy SL, Golub TR, Lander ES, Mesirov JP. Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles. PNAS. 2005;102(43);15545-15550."|||
82605957|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.965|STANDARD_ERROR_OF_MEAN|0.137|||TWO_SIDED|95.0|0.733|1.269||||||Comparison at 12 h post first dose||1.269|0.733|
82605958|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.992|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.71|1.387||||||Comparison at 18 h post first dose||1.387|0.710|
82605959|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.913|STANDARD_ERROR_OF_MEAN|0.171|||TWO_SIDED|95.0|0.649|1.285||||||Comparison at 24 h post first dose||1.285|0.649|
82605960|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.66|STANDARD_ERROR_OF_MEAN|0.233|||TWO_SIDED|95.0|0.415|1.051||||||Comparison at 48 h post first dose||1.051|0.415|
82605961|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.69|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|0.445|1.072||||||Comparison at 72 h post first dose||1.072|0.445|
82605962|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.724|STANDARD_ERROR_OF_MEAN|0.268|||TWO_SIDED|95.0|0.423|1.239||||||Comparison at 96 h post first dose||1.239|0.423|
82605963|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.95|STANDARD_ERROR_OF_MEAN|0.093|||TWO_SIDED|95.0|0.789|1.144||||||Comparison at 6 h post first dose||1.144|0.789|
82605964|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.985|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|95.0|0.777|1.249||||||Comparison at 12 h post first dose||1.249|0.777|
82605965|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.067|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|95.0|0.797|1.428||||||Comparison at 18 h post first dose||1.428|0.797|
82605966|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.922|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|0.686|1.239||||||Comparison at 24 h post first dose||1.239|0.686|
82605967|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.866|STANDARD_ERROR_OF_MEAN|0.198|||TWO_SIDED|95.0|0.583|1.287||||||Comparison at 48 h post first dose||1.287|0.583|
82605968|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.649|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|95.0|0.444|0.95||||||Comparison at 72 h post first dose||0.950|0.444|
82605969|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.722|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|95.0|0.457|1.14||||||Comparison at 96 h post first dose||1.140|0.457|
82605970|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.897|STANDARD_ERROR_OF_MEAN|0.091|||TWO_SIDED|95.0|0.748|1.075||||||Comparison at 6 h post first dose||1.075|0.748|
82605971|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.887|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.703|1.119||||||Comparison at 12 h post first dose||1.119|0.703|
82605972|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.846|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|95.0|0.638|1.123||||||Comparison at 18 h post first dose||1.123|0.638|
82605973|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.812|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|95.0|0.609|1.084||||||Comparison at 24 h post first dose||1.084|0.609|
82605974|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.58|STANDARD_ERROR_OF_MEAN|0.194|||TWO_SIDED|95.0|0.394|0.855||||||Comparison at 48 h post first dose||0.855|0.394|
82605975|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.439|STANDARD_ERROR_OF_MEAN|0.188|||TWO_SIDED|95.0|0.301|0.639||||||Comparison at 72 h post first dose||0.639|0.301|
82605976|NCT00996840|164927524|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.451|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|95.0|0.285|0.714||||||Comparison at 96 h post first dose||0.714|0.285|
82605977|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.85|STANDARD_ERROR_OF_MEAN|0.137|||TWO_SIDED|95.0|0.646|1.119||||||Comparison at 6 h post first dose||1.119|0.646|
82605978|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.072|STANDARD_ERROR_OF_MEAN|0.138|||TWO_SIDED|95.0|0.814|1.411||||||Comparison at 12 h post first dose||1.411|0.814|
82605979|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.08|STANDARD_ERROR_OF_MEAN|0.157|||TWO_SIDED|95.0|0.79|1.478||||||Comparison at 18 h post first dose||1.478|0.790|
82605980|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.951|STANDARD_ERROR_OF_MEAN|0.143|||TWO_SIDED|95.0|0.715|1.266||||||Comparison at 24 h post first dose||1.266|0.715|
82605981|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.918|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|95.0|0.655|1.285||||||Comparison at 48 h post first dose||1.285|0.655|
82605982|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.012|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|95.0|0.735|1.395||||||Comparison at 72 h post first dose||1.395|0.735|
82605983|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.168|STANDARD_ERROR_OF_MEAN|0.169|||TWO_SIDED|95.0|0.831|1.64||||||Comparison at 96 h post first dose||1.640|0.831|
82605984|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.912|STANDARD_ERROR_OF_MEAN|0.124|||TWO_SIDED|95.0|0.713|1.167||||||Comparison at 6 h post first dose||1.167|0.713|
82605985|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.963|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|0.753|1.233||||||Comparison at 12 h post first dose||1.233|0.753|
82605986|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.917|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|95.0|0.693|1.214||||||Comparison at 18 h post first dose||1.214|0.693|
82605987|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.87|STANDARD_ERROR_OF_MEAN|0.128|||TWO_SIDED|95.0|0.673|1.123||||||Comparison at 24 h post first dose||1.123|0.673|
82605988|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.141|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|95.0|0.84|1.55||||||Comparison at 48 h post first dose||1.550|0.840|
82605989|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.122|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|95.0|0.837|1.505||||||Comparison at 72 h post first dose||1.505|0.837|
82605990|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.474|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|95.0|1.063|2.045||||||Comparison at 96 h post first dose||2.045|1.063|
82605991|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.833|STANDARD_ERROR_OF_MEAN|0.107|||TWO_SIDED|95.0|0.672|1.031||||||Comparison at 6 h post first dose||1.031|0.672|
82605992|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.879|STANDARD_ERROR_OF_MEAN|0.109|||TWO_SIDED|95.0|0.707|1.092||||||Comparison at 12 h post first dose||1.092|0.707|
82605993|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.023|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|95.0|0.8|1.307||||||Comparison at 18 h post first dose||1.307|0.800|
82605994|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.95|STANDARD_ERROR_OF_MEAN|0.111|||TWO_SIDED|95.0|0.761|1.187||||||Comparison at 24 h post first dose||1.187|0.761|
82605995|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.968|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|95.0|0.743|1.262||||||Comparison at 48 h post first dose||1.262|0.743|
82605996|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.926|STANDARD_ERROR_OF_MEAN|0.127|||TWO_SIDED|95.0|0.718|1.193||||||Comparison at 72 h post first dose||1.193|0.718|
82605997|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|1.229|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|95.0|0.936|1.613||||||Comparison at 96 h post first dose||1.613|0.936|
82605998|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.923|STANDARD_ERROR_OF_MEAN|0.102|||TWO_SIDED|95.0|0.753|1.131||||||Comparison at 6 h post first dose||1.131|0.753|
82492309|NCT01847274|164677823|SUPERIORITY|||||||0.9599|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.9599
82492310|NCT01847274|164677823|SUPERIORITY|||||||0.247|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2470
82605999|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.768|STANDARD_ERROR_OF_MEAN|0.103|||TWO_SIDED|95.0|0.625|0.943||||||Comparison at 12 h post first dose||0.943|0.625|
82606000|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.826|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|0.655|1.042||||||Comparison at 18 h post first dose||1.042|0.655|
82606001|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.761|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|95.0|0.615|0.942||||||Comparison at 24 h post first dose||0.942|0.615|
82606002|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.781|STANDARD_ERROR_OF_MEAN|0.125|||TWO_SIDED|95.0|0.608|1.003||||||Comparison at 48 h post first dose||1.003|0.608|
82606003|NCT00996840|164927525|SUPERIORITY_OR_OTHER||Ratio (Treatment/Placebo)|0.668|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|0.524|0.851||||||Comparison at 72 h post first dose||0.851|0.524|
82606004|NCT00996840|164927525|OTHER||Ratio (Treatment/Placebo)|0.86|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|95.0|0.659|1.122||||||Comparison at 96 h post first dose||1.122|0.659|
82606005|NCT05127486|164927543|SUPERIORITY||Odds Ratio (OR)|1.06||||0.695|TWO_SIDED|95.0|0.81|1.38|||pseudo likelihood-based repeated measure|||||1.38|0.81|0.695
82606006|NCT05127486|164927544|SUPERIORITY||Odds Ratio (OR)|1.18|||||TWO_SIDED|95.0|0.89|1.56|||pseudo likelihood-based repeated measure|||||1.56|0.89|
82606007|NCT05127486|164927545|SUPERIORITY||Odds Ratio (OR)|1.26|||||TWO_SIDED|95.0|0.89|1.79|||pseudo likelihood-based repeated measure|||||1.79|0.89|
82606008|NCT05127486|164927546|SUPERIORITY||LS Mean difference|-0.37|||||TWO_SIDED|95.0|-0.82|0.09|||Mixed Models Analysis|||||0.09|-0.82|
82606009|NCT05127486|164927547|SUPERIORITY||LS Mean difference|-0.55|||||TWO_SIDED|95.0|-1.11|0.0|||Mixed Models Analysis|||||0.00|-1.11|
82606010|NCT05127486|164927548|SUPERIORITY||LS Mean difference|-0.36|||||TWO_SIDED|95.0|-0.9|0.18|||Mixed Models Analysis|||||0.18|-0.90|
82606011|NCT05127486|164927549|SUPERIORITY||LS Mean difference|-0.18|||||TWO_SIDED|95.0|-0.73|0.37|||Mixed Models Analysis|||||0.37|-0.73|
82606012|NCT05127486|164927550|SUPERIORITY||LS Mean difference|-0.49|||||TWO_SIDED|95.0|-0.86|-0.11|||Mixed Models Analysis|||||-0.11|-0.86|
82606013|NCT05127486|164927551|SUPERIORITY||LS Mean difference|4.39|STANDARD_ERROR_OF_MEAN|1.51|||TWO_SIDED|95.0|1.42|7.37|||ANCOVA|||Total score||7.37|1.42|
82606014|NCT05127486|164927551|SUPERIORITY||LS Mean difference|5.24|STANDARD_ERROR_OF_MEAN|1.7|||TWO_SIDED|95.0|1.9|8.58|||ANCOVA|||RF-R||8.58|1.90|
82606015|NCT05127486|164927551|SUPERIORITY||LS Mean difference|3.88|STANDARD_ERROR_OF_MEAN|1.44|||TWO_SIDED|95.0|1.06|6.71|||ANCOVA|||RF-P||6.71|1.06|
82606016|NCT05127486|164927551|SUPERIORITY||LS Mean difference|3.18|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-0.08|6.44|||ANCOVA|||EF||6.44|-0.08|
82606017|NCT05127486|164927552|SUPERIORITY||LS Mean difference|-2.43|STANDARD_ERROR_OF_MEAN|2.3|||TWO_SIDED|95.0|-6.94|2.08|||ANCOVA|||||2.08|-6.94|
82606018|NCT00775021|164927554|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.2334|STANDARD_ERROR_OF_MEAN|0.1618|||TWO_SIDED|95.0|-0.03501|0.2334|||Mixed Models Analysis||The mean difference is calculated as etafilconA minus nelfilcon A. Analysis is adjusted for lens type, period, lens type by period interaction, gender, lens type by gender interaction as fixed effects, subject nested within site as random effect.|The alternative hypothesis is that etafilcon A contact lenses will have equal to ro higher ratings of overall comfort than nelfilcon A contact lenses.||0.2334|-0.03501|
82606019|NCT00775021|164927555|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.108|STANDARD_ERROR_OF_MEAN|0.07768|||TWO_SIDED|98.7|-0.108|0.06501|||Mixed Models Analysis||Mean difference calculated etafilcon A minus nelfilcon A. Analysis adjusted for lens type, period, lens by period interaction, gender, lens by gender interaction as fixed effects, subject nested within site and eye within subject as random effect.|The alternative hypothesis is that eyes that wore etafilcon A contact lenses will have less inferior region corneal staining than eyes that wore nelfilcon A contact lenses.||0.06501|-0.1080|
82606020|NCT00775021|164927556|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.4001|STANDARD_ERROR_OF_MEAN|0.1799|||TWO_SIDED|98.7|-0.0055|0.4001|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etafilcon A contact lenses have equal to or higher comfort ratings at the end of the day than nelfilcon A.||0.4001|-0.0055|
82606021|NCT00775021|164927557|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|-0.1088|STANDARD_ERROR_OF_MEAN|0.1741|||TWO_SIDED|98.7|-0.5016|-0.1088|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etafilcon A contact lenses will have equal or higher ratings of initial comfort than nelfilcon A contact lenses.||-0.1088|-0.5016|
82606022|NCT00775021|164927558|NON_INFERIORITY_OR_EQUIVALENCE|Margin = -0.5|Mean Difference (Final Values)|0.2489|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|98.7|-0.1301|0.2489|||Mixed Models Analysis||The mean difference is calculated as etafilcon A minus nelfilcon A.|The alternative hypothesis is that etaflicon A contact lenses have equal to or higher ratings of ease of handling than nelfilcon A contact lenses.||0.2489|-0.1301|
82606023|NCT00363415|164927559|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.56|||<|0.01||95.0|1.27|1.92|||Log Rank|||||1.92|1.27|<0.01
82606024|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Sex: Male|Log Rank|||||||<0.001
82606025|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.023||95.0||||P-value for Sex: Female|Log Rank|||||||0.023
82656856|NCT01606306|165029053|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||Rank-ordered logistic regression (ROLR) was used to model the probability of best response for each treatment and bootstrapping was used to calculate confidence intervals.|rank-order logistic regression|ROLR is in the class of Discrete Choice models, which seek to estimate the probability that an individual responds best to a specific treatments.||The primary analysis tested the null hypothesis of all three treatments having equal probability to yield the best response as defined by the criteria defining the primary outcome. A sample size of 300 participants was selected to test the primary null hypothesis of all three treatments having equal probability (one-third) to yield the best response with statistical power of at least 0.90 if any one of the three treatments actually has probability of at least one-half to yield the best response.|The probabilistic construct of the Discrete Choice (DC) model does not reflect individual behavior that is intrinsically probabilistic, but rather population heterogeneity. DC models rely on stochastic assumptions to account for unobserved factors related to the treatments themselves and to characteristics of study participants. Specifically, that each treatment has an underlying utility that may differ from one individual to another. Mathematically, these utilities are represented by U\_t, where t denotes the treatment. Utility can be thought of as a latent variable quantifying treatment response where higher values indicate better response. The U\_t can be used to find the probability (P) of best response for each treatment by the following equation: P\_t = exp(U\_t) / \[exp(U\_A) + exp(U\_B) + exp(U\_C)\], where A, B, and C, denote the three study treatments. The primary analysis tested whether the three treatments have equal utility and, thus, equal probability of best response.|||<0.0001
82606026|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Race: Caucasian.|Log Rank|||||||<0.001
82606027|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-value for Race: Non-Caucasian.|Log Rank|||||||0.030
82606028|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for ECOG (Eastern Cooperative Oncology Group) Performance Status: 0 or 1.|Log Rank|||||||<0.001
82606029|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.519||95.0||||P-value for ECOG (Eastern Cooperative Oncology Group) Performance Status: 2.|Log Rank|||||||0.519
82492311|NCT01847274|164677824|SUPERIORITY|||||||0.5921|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Feet||||||0.5921
82606030|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.084||95.0||||P-value for Region: United States.|Log Rank|||||||0.084
82606031|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Region: European Union.|Log Rank|||||||0.001
82606032|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Region: Intercontinental Region.|Log Rank|||||||0.003
82606033|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for LDH (lactate dehydrogenase): \>Upper Limit of Normal.|Log Rank|||||||0.005
82606034|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Age: \<=65 years.|Log Rank|||||||<0.001
82606035|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Age: \>65 years.|Log Rank|||||||0.013
82606036|NCT00363415|164927560|SUPERIORITY_OR_OTHER|||||||0.092||95.0||||P-value for Number Metastatic Sites: \<=2.|Log Rank|||||||0.092
82606037|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Number Metastatic Sites: \>=3.|Log Rank|||||||<0.001
82606038|NCT00363415|164927560|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for History of Brain Metastases: No.|Log Rank|||||||<0.001
82606039|NCT03464045|164927580|OTHER||Hazard Ratio (HR)|0.8||||0.122|TWO_SIDED|95.0|0.61|1.06|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.06|0.61|0.122
82606040|NCT03464045|164927580|OTHER||Hazard Ratio (HR)|0.89||||0.417|TWO_SIDED|95.0|0.67|1.18|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.18|0.67|0.417
82606041|NCT03464045|164927580|OTHER||Hazard Ratio (HR)|0.88||||0.376|TWO_SIDED|95.0|0.66|1.17|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.17|0.66|0.376
82606042|NCT03464045|164927581|OTHER||Hazard Ratio (HR)|0.79||||0.22|TWO_SIDED|95.0|0.55|1.15|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.15|0.55|0.220
82606043|NCT03464045|164927581|OTHER||Hazard Ratio (HR)|0.91||||0.628|TWO_SIDED|95.0|0.63|1.32|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.32|0.63|0.628
82606044|NCT03464045|164927581|OTHER||Hazard Ratio (HR)|0.91||||0.632|TWO_SIDED|95.0|0.63|1.33|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.33|0.63|0.632
82606045|NCT03464045|164927582|OTHER||Hazard Ratio (HR)|0.84||||0.42|TWO_SIDED|95.0|0.54|1.29|||Regression, Cox||Crude hazard ratio of empagliflozin/DPP-4i|Crude HRs were calculated using a Cox proportional hazards model with as-treated exposure (continuous exposure to the study drugs, defined as having consecutive treatment episodes separated by a grace period of 30 days, starting from index date) as the only included variable. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.29|0.54|0.420
82606046|NCT03464045|164927582|OTHER||Hazard Ratio (HR)|0.89||||0.606|TWO_SIDED|95.0|0.57|1.38|||Regression, Cox||Base hazard ratio of empagliflozin/DPP-4i|"Base HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level to avoid converge failure.~Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes."||1.38|0.57|0.606
82606047|NCT03464045|164927582|OTHER||Hazard Ratio (HR)|0.89||||0.609|TWO_SIDED|95.0|0.57|1.38|||Regression, Cox||Adjusted hazard ratio of empagliflozin/DPP-4i|Adjusted HRs were calculated using a Cox proportional hazards model by adjusting for variables unbalanced after PS matching, and pre-specified time-varying covariates. To be included in the Cox model, each covariate is required to have a minimum of 5 events per category level. Country-level HRs were analyzed separately. Thereafter, random-effects meta-analyses were conducted to pool the HRs from all countries, accounting for potential heterogeneity between the country-level effect sizes.||1.38|0.57|0.609
82606048|NCT03905928|164927610|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise general linear model conducted in FSL software using a one-sample t-test on the tobacco\>strawberry condition contrasts conducted at the subject-level.|A whole-brain, one-sample t-test was used with a voxel threshold p \<.001 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
82606049|NCT03905928|164927611|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise repeated measures ANOVA conducted using FSL software on activation from baseline to post-intervention that differ by the nicotine groups (18 mg/ml vs. 0 mg/ml) for the tobacco\>strawberry condition contrasts calculated at the subject-level. The means and standard deviations presented are the average post-pre scan difference scores of the BOLD percentage signal change of tobacco \> strawberry contrasts for each group.|A whole-brain, repeated measures ANOVA was used with a voxel threshold p \<.025 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
82606050|NCT03905928|164927612|SUPERIORITY|||||||||||||||||This was a whole-brain, voxel-wise repeated measures ANOVA conducted using FSL software on activation from baseline to post-intervention between the flavor groups (tobacco vs. strawberry) for the tobacco\>strawberry condition contrasts calculated at the subject-level. The means and standard deviations presented are the average post-pre scan difference scores of the BOLD percentage signal change of tobacco \> strawberry contrasts for each group.|A whole-brain, repeated measures ANOVA was used with a voxel threshold p \<.025 and cluster threshold p\<.05. This method results in unique p-values for each cluster identified.|||
82606051|NCT03905928|164927613|SUPERIORITY|||||||0.573|||||||ANOVA|||We conducted a one-way ANOVA to compare the change in e-cigarette dependence (week 4 - week 2 PSECDI difference score) between the four e-cigarette groups.||||0.573
82656857|NCT00159965|165029063|SUPERIORITY_OR_OTHER||Risk Ratio, log|0.673|STANDARD_ERROR_OF_MEAN|0.369||0.29|TWO_SIDED|95.0|-0.051|1.396|||Overdispersed Poisson Regression|||Between-group seizure change. The primary hypothesis of this pilot randomized control trial (RCT) was to assess the magnitude of seizure frequency reduction by treatment, comparing placbo to sertraline. The alternative hypothesis is that patients treated with sertraline will show a significant decrease in seizures from baseline to exit.||1.396|-0.051|0.29
82656858|NCT00159965|165029063|SUPERIORITY_OR_OTHER||Risk Ratio, log|-0.598|STANDARD_ERROR_OF_MEAN|0.276||0.03|TWO_SIDED|95.0|-1.139|-0.073|||Overdispersed Poisson Regression|||Within-group seizure change. The hypothesis is that patients treated with sertraline will show a significant decrease in seizures from baseline to exit.||-0.073|-1.139|0.03
82492312|NCT01847274|164677824|SUPERIORITY|||||||0.7459|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.7459
82606052|NCT03905928|164927615|SUPERIORITY|||||||0.022|||||||ANOVA|||We conducted a one-way ANOVA to compare changes in self-reported craving across all groups.||||.022
82656859|NCT00159965|165029063|SUPERIORITY_OR_OTHER||Risk Ratio, log|0.077|STANDARD_ERROR_OF_MEAN|0.252||0.78|TWO_SIDED|95.0|-0.431|0.571|||Overdispersed Poisson Regression|||Within-group seizure change. The hypothesis is that patients treated with placebo will not show a significant decrease in seizures from baseline to exit.||0.571|-0.431|0.78
82656860|NCT00159965|165029064|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82606053|NCT02688647|164927657|SUPERIORITY|||||||0.5733|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage I-- Difference: Belumosudil-WC minus BSC-NC = 38.85 (95% CI: -126.99, 204.69) mL||||0.5733
82606054|NCT02688647|164927657|SUPERIORITY|||||||0.6967|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage II-- Difference: Belumosudil-WC minus BSC-NC = -39.96 (95% CI: -288.63, 208.71) mL||||0.6967
82606055|NCT02688647|164927657|SUPERIORITY|||||||0.5003|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||GAP Stage III-- Difference: Belumosudil-WC minus BSC-NC = 94.16 (95% CI: -1103.56, 1291.88) mL||||0.5003
82606056|NCT02688647|164927657|SUPERIORITY|||||||0.4866|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||No Prior Pirfenidone or Nintedanib-- Difference: Belumosudil-WC minus BSC-NC = -34.13 (95% CI: -137.08, 68.82)||||0.4866
82606057|NCT02688647|164927660|SUPERIORITY|GAP Stage I-- Difference: Belumosudil-WC minus BSC-NC = 1.88 (95% CI: -2.69, 6.45)||||||0.3391|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.3391
82606058|NCT02688647|164927660|SUPERIORITY|GAP Stage II-- Difference: Belumosudil-WC minus BSC-NC = -1.72 (95% CI: -8.13, 4.69)||||||0.5201|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.5201
82606059|NCT02688647|164927660|SUPERIORITY|GAP Stage III-- Difference: Belumosudil-WC minus BSC-NC = 2.48 (95% CI: -23.84, 28.81)||||||0.4426|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.4426
82606060|NCT02688647|164927660|SUPERIORITY|No Prior Use of Pirfenidone or Nintedanib-- Difference: Belumosudil-WC minus BSC-NC = 8.70 (95% CI: -78.76, -96.17)||||||0.426|||||||Mixed Models Analysis|Results are not stable due to small sample size and signal/noise ratio||||||0.4260
82606061|NCT02688647|164927670|SUPERIORITY|Cox Regression||||||0.8561|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.86 (0.16, 4.48)||||0.8561
82656861|NCT00159965|165029065|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656862|NCT00159965|165029066|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656863|NCT00159965|165029067|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656864|NCT00159965|165029068|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656865|NCT00159965|165029069|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82606062|NCT02688647|164927670|SUPERIORITY|Cox Regression||||||0.8608|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.87 (95% CI: 0.17, 4.33)||||0.8608
82606063|NCT02688647|164927671|SUPERIORITY|Cox Regression||||||0.0084|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.34 (95% CI: 0.14, 0.79)||||0.0084
82606064|NCT02688647|164927671|SUPERIORITY|Cox Regression||||||0.0508|TWO_SIDED|95.0|||||Log Rank|||Hazard Ratio: 0.47 (95% CI: 0.22, 1.03)||||0.0508
82606065|NCT02688647|164927673|SUPERIORITY|Cox Regression||||||0.4251|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.34 (95% CI: 0.02, 5.54)||||0.4251
82606066|NCT02688647|164927673|SUPERIORITY|Cox Regression||||||0.3294|TWO_SIDED|95.0|||||Log Rank|||Hazard ratio: 0.27 (95% CI: 0.02, 4.45)||||0.3294
82606067|NCT00707577|164927788|SUPERIORITY||||||<|0.05|||||||Regression, Linear|random effects regression models for panel data adjusted for clustering within team||||||<0.05
82606068|NCT00642642|164927831|SUPERIORITY_OR_OTHER|||||||0.0109||95.0||||a priori threshold for statistical significance was 0.05|McNemar|Paired test of proportions||"Null hypothesis: no difference in the response rates between the two treatment arms.~Statistical test: McNemar's paired test of proportions Significance level: two sided alpha of 0.05 for each of the two co-primary endpoints.~Assumptions for power calculations:~Response rate for azficel-T treated cheek = 40% Response rate for placebo treated cheek = 20% 10% dropout rate; dropouts counted as failures. Low correlation between cheeks \& 50% correlation between endpoints"||||0.0109
82606069|NCT00642642|164927832|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||a priori threshold for statistical significance = 0.05|McNemar|paired test of proportions||"Null hypothesis: no difference in the response rates between the two treatment arms.~Statistical test: McNemar's paired test of proportions Significance level: two sided alpha of 0.05 for each of the two co-primary endpoints.~Assumptions for power calculations:~Response rate for azficel-T treated cheek = 40% Response rate for placebo treated cheek = 20% 10% dropout rate; dropouts counted as failures. Low correlation between cheeks \& 50% correlation between endpoints"||||<0.0001
82606070|NCT01511445|164927851|NON_INFERIORITY|The noninferiority margin was specified as 15 NDI points (0-100 scale).|Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|2.96||0.641|TWO_SIDED|95.0|-7.3|4.5|||Fisher Exact||A negative value means that the PEEK change was slightly larger than the silicon nitride study arm.|The null hypothesis was that the mean change in NDI scores from pre-op to 24 months was equal in the two study arms.||4.5|-7.3|0.641
82606071|NCT01511445|164927852|NON_INFERIORITY|The definition of fusion is rotation on flexion-extension films of less than or equal to four degrees and translation less than 1.25 mm.||||||0.71|||||||Fisher Exact|||The null hypothesis was that the fusion rates would be equal in the two study arms. The comparison includes patients with flexion-extension films at 24 months (as-treated population).||||0.710
82606072|NCT00144170|164927856|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.5||||0.0001|TWO_SIDED|95.0|12.9|24.0|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||24.0|12.9|0.0001
82656866|NCT00159965|165029070|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656867|NCT00159965|165029071|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656868|NCT00159965|165029072|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656869|NCT00159965|165029073|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656870|NCT00159965|165029074|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656871|NCT00159965|165029075|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656872|NCT00159965|165029076|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82656873|NCT00970281|165029077|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The p-value was based on an analysis of variance (ANOVA) model that included treatment and site as a factor.|ANOVA|||Sample size of at least 45 participants per group was necessary to verify decreases in PANSS-EC total score were significantly greater in olanzapine group than placebo group using a t-test with a power of 90% and a 2-sided significance level of 5%.||||<0.001
82656874|NCT00970281|165029078|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||This is the p-value for 0.25 hour after first IM injection.|ANOVA|||||||0.009
82656875|NCT00970281|165029078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 0.50 hour after first IM injection.|ANOVA|||||||<0.001
82606073|NCT00144170|164927857|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82606074|NCT00144170|164927858|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.9||||0.0001|TWO_SIDED|95.0|18.6|31.1|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||31.1|18.6|0.0001
82606075|NCT00144170|164927859|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.8||||0.0001|TWO_SIDED|95.0|22.5|35.1|||Cochran-Mantel-Haenszel|||||35.1|22.5|0.0001
82606076|NCT00144170|164927860|SUPERIORITY_OR_OTHER||Risk Difference (RD)|29.4||||0.0001|TWO_SIDED|95.0|23.2|35.7|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||35.7|23.2|0.0001
82606077|NCT00144170|164927861|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.6||||0.0001|TWO_SIDED|95.0|20.5|32.6|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||32.6|20.5|0.0001
82606078|NCT00144170|164927862|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.1||||0.0001|TWO_SIDED|95.0|16.2|27.9|||Cochran-Mantel-Haenszel|Weighted by the size of enfuvirtide and protease inhibitor strata||||27.9|16.2|0.0001
82656876|NCT00970281|165029078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 1 hour after first IM injection.|ANOVA|||||||<0.001
82606079|NCT00144170|164927863|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.0||||0.0001|TWO_SIDED|95.0|13.3|24.7||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||24.7|13.3|0.0001
82606080|NCT00144170|164927864|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.7||||0.0001|TWO_SIDED|95.0|13.0|24.4||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||24.4|13.0|0.0001
82656877|NCT00970281|165029078|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||This is the p-value for the 1.5 hour after first IM injection.|ANOVA|||||||<0.001
82656878|NCT00970281|165029079|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANOVA|||||||0.008
82656879|NCT00970281|165029080|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Fisher Exact|||||||0.008
82656880|NCT00970281|165029081|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||This is the p-value for the 0.5 hour after the first IM injection.|Fisher Exact|||||||0.167
82656881|NCT00970281|165029081|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||This is the p-value for the 1 hour after the first IM injection.|Fisher Exact|||||||0.134
82606081|NCT00144170|164927865|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.2||||0.0001|TWO_SIDED|95.0|11.7|22.7||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.7|11.7|0.0001
82606082|NCT00144170|164927866|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.1||||0.0001|TWO_SIDED|95.0|11.7|22.4||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.4|11.7|0.0001
82606083|NCT00144170|164927867|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.3||||0.0001|TWO_SIDED|95.0|12.0|22.5||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||22.5|12.0|0.0001
82606084|NCT00144170|164927868|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.4||||0.0001|TWO_SIDED|95.0|11.2|21.5||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||21.5|11.2|0.0001
82606085|NCT00144170|164927869|SUPERIORITY_OR_OTHER||Risk Difference (RD)|16.2||||0.0001|TWO_SIDED|95.0|11.1|21.3||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||21.3|11.1|0.0001
82606086|NCT00144170|164927870|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.6||||0.0001|TWO_SIDED|95.0|10.6|20.6||Weighted by the size of enfuvirtide and protease inhibitor strata|Cochran-Mantel-Haenszel|||||20.6|10.6|0.0001
82606087|NCT00144170|164927871|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82606088|NCT00144170|164927872|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82606089|NCT00144170|164927873|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Log Rank|||||||0.0001
82606090|NCT00144170|164927947|SUPERIORITY_OR_OTHER|||||||0.1026||95.0|||||Log Rank|||||||0.1026
82606091|NCT00666562|164927977|SUPERIORITY_OR_OTHER|||||||0.046|TWO_SIDED||||||t-test, 2 sided|||||||0.046
82606092|NCT01976806|164928019|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.13|<|0.05|||||||Mixed Models Analysis|Compound-symmetry covariance structure with age, sex, BMI, race, baseline pocket depth, baseline RBC DHA level, and intervention group variables|Mean change in pocket depth (3-month follow-up minus baseline) among dental sites with baseline pocket depths \>=5 mm in the DHA intervention group versus the placebo group.|Intent-to-treat basis with a type I error rate of 0.05. The follow-up pocket depth, was assessed in linear mixed effects models with a compound-symmetry covariance structure and age, sex, BMI, race, baseline pocket depth, baseline red blood cell (RBC) DHA level (dichotomized at median), and intervention group as fixed-effect variables.||||<0.05
82606093|NCT04551014|164928031|NON_INFERIORITY|For polypectomy without submucosal injection of EverLiftTM to be considered non-inferior, we calculated that 115 polyps were needed in each group to achieve an alpha value of 0.05, power of 90%, and non-inferiority margin of -10%.||||||0.424|||||||t-test, 2 sided|||||||0.424
82606094|NCT04551014|164928032|SUPERIORITY||||||<|0.0001||||||P-value of \<0.05 was considered statistically significant.|t-test, 2 sided|||||||<0.0001
82606095|NCT04551014|164928033|SUPERIORITY|||||||0.697||||||P-value of \<0.05 was considered statistically significant.|Chi-squared|||||||0.697
82606096|NCT00963807|164928061|SUPERIORITY_OR_OTHER|||||||0.336|||||||t-test, 2 sided|||||||0.336
82606097|NCT00684177|164928064|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.4||||0.098|TWO_SIDED|95.0|-1.6|18.4|||Chi-squared|||||18.4|-1.6|0.098
82606098|NCT00684177|164928065|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.04|TWO_SIDED|95.0|0.6|23.6|||Chi-squared|||||23.6|0.6|0.04
82606099|NCT00684177|164928066|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.04|TWO_SIDED|95.0|0.6|23.6|||Chi-squared|||||23.6|0.6|0.04
82606100|NCT05818124|164928094|OTHER||Difference in Least Squares Mean|-0.48||||0.783|TWO_SIDED|95.0|-3.97|3.0|||ANOVA|||||3.00|-3.97|0.783
82656882|NCT00970281|165029081|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p-value for the 1.5 hour after the first IM injection.|Fisher Exact|||||||0.008
82656883|NCT00970281|165029081|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||This is the p-value for the 2 hours after the first IM injection.|Fisher Exact|||||||0.008
82656884|NCT00970281|165029081|SUPERIORITY_OR_OTHER|||||||0.204||95.0||||This is the p-value for the 24 hours after the first IM injection.|Fisher Exact|||||||0.204
82656885|NCT00970281|165029082|SUPERIORITY_OR_OTHER|||||||1||95.0||||This is the p-value for Parkinsonism.|Fisher Exact|||||||1.000
82606101|NCT05818124|164928095|OTHER||Difference in Least Squares Mean|-2.21||||0.032|TWO_SIDED|95.0|-4.21|-0.21|||ANOVA|||||-0.21|-4.21|0.032
82606102|NCT05818124|164928096|OTHER||Difference in Least Squares Mean|0.2||||0.756|TWO_SIDED|95.0|-1.07|1.47|||ANOVA|||||1.47|-1.07|0.756
82606103|NCT05818124|164928097|OTHER|Clopper and Pearson exact binomial method|Difference in Percentage|0.0|||||TWO_SIDED|95.0|-23.21|23.21||||||||23.21|-23.21|
82606104|NCT05818124|164928098|OTHER|Clopper and Pearson binomial method|Difference in percentage|-2.86|||||TWO_SIDED|95.0|-25.78|20.27||||||||20.27|-25.78|
82606105|NCT05818124|164928099|OTHER|Clopper and Pearson exact binomial method|Difference in Percentage|-8.57|||||TWO_SIDED|95.0|-30.26|13.38||||||||13.38|-30.26|
82606106|NCT05818124|164928100|OTHER|Clopper and Pearson binomial method|Difference in percentage|-5.71|||||TWO_SIDED|95.0|-25.18|13.97||||||||13.97|-25.18|
82656886|NCT03629249|165029148|SUPERIORITY|||||||0.714|||||||Wilcoxon (Mann-Whitney)|||||||0.714
82656887|NCT03629249|165029148|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|||||||0.734
82606107|NCT05818124|164928101|OTHER|Clopper and Pearson binomial method|Difference in percentage|-5.71|||||TWO_SIDED|95.0|-25.18|13.97||||||||13.97|-25.18|
82606108|NCT05818124|164928102|OTHER|Clopper and Pearson binomial method|Difference in percentage|-8.57|||||TWO_SIDED|95.0|-27.63|10.5||||||||10.50|-27.63|
82606109|NCT05818124|164928105|OTHER||Hazard Ratio (HR)|0.82||||0.3102|TWO_SIDED|95.0|0.51|1.33|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.33|0.51|0.3102
82606110|NCT05818124|164928106|OTHER||Hazard Ratio (HR)|0.55||||0.0779|TWO_SIDED|95.0|0.27|1.14|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.14|0.27|0.0779
82606111|NCT05818124|164928109|OTHER||Difference in Least Squares Mean|-3.79||||0.045|TWO_SIDED|95.0|-7.47|-0.1|||ANOVA|||||-0.10|-7.47|0.045
82606112|NCT05818124|164928110|OTHER||Difference in Least Squares Mean|-2.56||||0.226|TWO_SIDED|95.0|-6.81|1.69|||ANOVA|||||1.69|-6.81|0.226
82606113|NCT05818124|164928111|OTHER||Difference in Least Squares Mean|-1.6||||0.09|TWO_SIDED|95.0|-3.47|0.27|||ANOVA|||||0.27|-3.47|0.090
82656888|NCT03629249|165029149|SUPERIORITY|||||||0.665|||||||Wilcoxon (Mann-Whitney)|||||||0.665
82656889|NCT03629249|165029149|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.910
82606114|NCT05818124|164928112|OTHER||Difference in Least Squares Mean|0.74||||0.609|TWO_SIDED|95.0|-2.19|3.66|||ANOVA|||||3.66|-2.19|0.609
82606115|NCT05818124|164928113|OTHER|Difference in Least Squares Mean|Difference in Least Squares Mean|0.34||||0.614|TWO_SIDED|95.0|-1.04|1.72|||ANOVA|||||1.72|-1.04|0.614
82606116|NCT05818124|164928114|OTHER||Difference in Least Squares Mean|0.37||||0.608|TWO_SIDED|95.0|-1.09|1.83|||ANOVA|||||1.83|-1.09|0.608
82606117|NCT05818124|164928115|OTHER||Difference in Least Squares Mean|0.43||||0.288|TWO_SIDED|95.0|-0.39|1.25|||ANOVA|||||1.25|-0.39|0.288
82606118|NCT05818124|164928116|OTHER||Difference in Least Squares Mean|0.09||||0.842|TWO_SIDED|95.0|-0.8|0.97|||ANOVA|||||0.97|-0.80|0.842
82606119|NCT05818124|164928119|OTHER||Hazard Ratio (HR)|0.31||||0.0042|TWO_SIDED|95.0|0.14|0.71|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||0.71|0.14|0.0042
82606120|NCT05818124|164928120|OTHER||Hazard Ratio (HR)|0.69||||0.329|TWO_SIDED|95.0|0.33|1.46|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.46|0.33|0.3290
82606121|NCT05818124|164928121|OTHER||Hazard Ratio (HR)|0.6||||0.1502|TWO_SIDED|95.0|0.27|1.34|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||1.34|0.27|0.1502
82606122|NCT05818124|164928122|OTHER||Hazard Ratio (HR)|1.32||||0.4865|TWO_SIDED|95.0|0.59|2.92|||Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate|||2.92|0.59|0.4865
82606123|NCT05818124|164928125|OTHER||Difference in Least Squares Mean|-4.79||||0.313|TWO_SIDED|95.0|-14.36|4.78|||ANOVA|||||4.78|-14.36|0.313
82606124|NCT05818124|164928126|OTHER||Difference in Least Squares Mean|-6.87||||0.138|TWO_SIDED|95.0|-16.11|2.36|||ANOVA|||||2.36|-16.11|0.138
82606125|NCT05818124|164928127|OTHER||Difference in LS mean|0.74||||0.706|TWO_SIDED|95.0|-3.26|4.74|||ANOVA|||||4.74|-3.26|0.706
82606126|NCT05818124|164928128|OTHER||Difference in LS mean|-1.58||||0.367|TWO_SIDED|95.0|-5.1|1.95|||ANOVA|||||1.95|-5.10|0.367
82606127|NCT05818124|164928134|OTHER||Difference in LS Mean|-4.14||||0.177|TWO_SIDED|95.0|-10.2|1.92|||ANOVA|||||1.92|-10.20|0.177
82606128|NCT05818124|164928135|OTHER||Difference in LS mean|-0.97||||0.395|TWO_SIDED|95.0|-3.24|1.29|||ANOVA|||||1.29|-3.24|0.395
82606129|NCT05818124|164928147|OTHER|Difference in least squares mean|Difference in least squares means|-0.94||||0.11|TWO_SIDED|95.0|-2.1|0.22|||ANOVA|||||0.22|-2.10|0.110
82606130|NCT05818124|164928148|OTHER||Difference in least squares mean|-1.6||||0.09|TWO_SIDED|95.0|-3.47|0.27|||ANOVA|||||0.27|-3.47|0.090
82606131|NCT00619229|164928207|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.122|TWO_SIDED|95.0|-0.674|2.55||The criterion for significance (α) was set at one-sided α = 0.025, which means that only an effect in the expected direction was interpreted.|ANCOVA||For exploratory testing an Analysis of Variance-Covariance (ANCOVA) F-test with dependent variable 'difference in visual acuity', fixed factors 'treatment' and 'centre' and Baseline value as a covariate was used.|"The primary goal of the study was to test the following null hypothesis:~H0: μAlprostadil ≤ μPlacebo, against the alternative hypothesis H1: μAlprostadil \> μPlacebo, where μ denotes the mean differences in visual acuity between measurements at 3 months after the end of study drug infusion minus measurements at baseline as assessed as line difference on the standard ETDRS charts."||2.55|-0.674|0.1220
82606132|NCT01075178|164928221|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.81|||||ONE_SIDED|95.0||0.96|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||0.96||
82606133|NCT01075178|164928222|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.8|||||ONE_SIDED|95.0||0.95|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||0.95||
82606134|NCT01075178|164928223|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|1.05|||||ONE_SIDED|95.0||1.64|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||1.64||
82606135|NCT01075178|164928224|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was assessed with a 95% 1-sided confidence interval for which the upper bound of the difference in the event rates (CASES minus CONTROLS) will correspond to an odds ratio less than 2 (that is, the odds ratio calculated at the upper confidence bound of the difference in event rates will be less than 2).|Observed odds ratio|0.9|||||ONE_SIDED|95.0||2.19|||exact binomial||"Result provided for 95% Confidence Interval (1-Sided) is the odds ratio calculated at the upper bound of the 1-sided 95% confidence interval for the difference in event rates (CASES minus CONTROLS)."|The null hypothesis was that the odds ratio was greater than or equal to 2. The planned sample size of 2000 participants (1000 participants in each group) provided greater than 90% power to determine non-inferiority based on the odds ratio less than 2.||2.19||
82606136|NCT03431012|164928252|OTHER||||||>|0.05||||||Sidak corrections were used to adjust for multiple analyses.|ANCOVA|ANCOVAs, setting baseline intentions as a covariate, were performed to determine whether post-exposure mean intentions differed between groups.||We predicted that Virus Agency (VA) and Positive Framing (PF) would lead to greater adherence intentions, compared to the human agency (HA) and negative framing (NF) versions respectively.||||>.05
82606137|NCT03431012|164928253|OTHER||||||=|0.113||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher worry than the human agency assignment.||||=.113
82606138|NCT03431012|164928254|OTHER||||||=|0.809||||||Sidak corrections were used to adjust for multiple analyses|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher perceptions of susceptibility than the human agency assignment.||||=.809
82656890|NCT03633721|165029187|SUPERIORITY|||||||0.17|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.17
82656891|NCT03633721|165029188|SUPERIORITY|||||||0.18|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.18
82606139|NCT03431012|164928255|OTHER|||||||0.025||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, it was predicted that the Virus Agency would lead to higher perceptions of severity of the pandemic than the human agency assignment.||||0.025
82606140|NCT03431012|164928256|OTHER||||||=|0.199||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that the Agency Assignment would not affect self-efficacy, i.e. people's perceived ability to use the antivirals as recommended.||||=0.199
82606141|NCT03431012|164928257|OTHER||||||=|0.484||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that Positive framing of the side effects would lead to higher response efficacy.||||=0.484
82606142|NCT03431012|164928258|OTHER||||||=|0.494||||||Sidak corrections were used to adjust for multiple analyses.|MANOVA|||Based on the literature, we predicted that Positive framing of the side effects would lead to lower response costs compared to Negative Framing.||||=0.494
82606143|NCT00929240|164928261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.383|||<|0.0001|TWO_SIDED|95.0|0.266|0.551||Stratified by interactive voice/Web response system (IVRS), estrogen receptor (ER) status, visceral metastasis (yes/no), response to initial phase, and lactate dehydrogenase (LDH) level.|Log Rank||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|||0.551|0.266|<0.0001
82656892|NCT03633721|165029189|SUPERIORITY|||||||0.72|||||||ANOVA|||Hypothesis Being Tested in 2 way ANOVA is that the difference in the change from Baseline to the Average of 15 and 60 minutes post baseline while on cannabis Vs. the change while on placebo (i.e. the last row in the outcomes) is greater for HIV+ subjects than for HIV- subjects.||||0.72
82606144|NCT00929240|164928261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.429|||<|0.0001|TWO_SIDED|95.0|0.309|0.597|||Log Rank|Unstratified analysis||||0.597|0.309|<0.0001
82606145|NCT00929240|164928262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1||||0.113|TWO_SIDED|95.0|-2.1|20.3|||Chi-squared||CIs with Hauck-Anderson adjustment for difference in rates of bevacizumab + capecitabine arm to bevacizumab alone arm.|||20.3|-2.1|0.113
82656893|NCT01475474|165029194|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Signed-Rank Test|||Wilcoxon Signed-Rank Test used to evaluate median Percent Change-from-Baseline in ABL different from zero||||<0.001
82656894|NCT01475474|165029195|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon Signed-Rank Test|||Wilcoxon Signed-Rank Test used to evaluate median Percent Change-from-Baseline in Wexner score||||<0.001
82606146|NCT00929240|164928263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0||||0.58|TWO_SIDED|95.0|-2.6|4.6|||Chi-squared||CIs with Hauck-Anderson adjustment for difference in rates of Bevacizumab+Capecitabine group to Bevacizumab only group.|||4.6|-2.6|0.580
82606147|NCT00929240|164928265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425|||<|0.0003|TWO_SIDED|95.0|0.263|0.685||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|Log Rank|||||0.685|0.263|<0.0003
82606148|NCT00929240|164928265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.516||||0.002|TWO_SIDED|95.0|0.334|0.798||Unstratified analysis|Log Rank|||||0.798|0.334|0.002
82606149|NCT00929240|164928268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.383|||<|0.0001|TWO_SIDED|95.0|0.266|0.551||Stratified by IVRS, ER status, visceral metastasis (yes/no), response to initial phase, and LDH level.|Log Rank||Stratification variables are randomisation stratification parameters as of IVRS: ER status, Visceral metastasis (yes/no), Response to initial phase, LDH concentration level.|||0.551|0.266|<0.0001
82606150|NCT00929240|164928268|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.425|||<|0.0001|TWO_SIDED|95.0|0.305|0.591||Unstratified analysis|Log Rank||Hazard ratio was determined using the cox regression model.|||0.591|0.305|<0.0001
82606151|NCT03068715|164928272|SUPERIORITY|We assessed the superiority of active over sham.|||||<|0.001|||||||Mixed Models Analysis|||MADRS scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||<0.001
82656895|NCT01046253|165029221|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.0|||||TWO_SIDED|90.0|97.4|114.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||114|97.4|
82656896|NCT01046253|165029222|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|98.5|||||TWO_SIDED|90.0|93.3|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|93.3|
82606152|NCT03068715|164928273|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.001|||||||Mixed Models Analysis|||HDRS-17 scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||=0.001
82606153|NCT03068715|164928276|SUPERIORITY|We assessed the superiority of active over sham.|||||=|0.001|||||||Mixed Models Analysis|||HDRS-17 scores were assessed with generalized linear mixed models (GLMM) that used Satterthwaite approximation of degrees of freedom and robust estimation of coefficients to handle violations of model assumptions. Fixed effects of time, treatment group (sham vs. active) and their interaction were assessed.||||=0.001
82606154|NCT03068715|164928277|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.308|||||||t-test, 2 sided|Paired-t test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving active iTBS.||||=0.308
82606155|NCT03068715|164928277|SUPERIORITY|FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis. sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas.|||||=|0.778|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving sham iTBS.||||=0.778
82606156|NCT03068715|164928277|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.468|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving active iTBS.||||=0.468
82606157|NCT03068715|164928277|SUPERIORITY|FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis. sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas.|||||=|0.486|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving sham iTBS.||||=0.486
82606158|NCT03068715|164928278|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.447|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving active iTBS.||||=0.447
82606159|NCT03068715|164928278|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.115|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lsgACC\_lDMN in participants receiving sham iTBS.||||=0.115
82492313|NCT01847274|164677825|SUPERIORITY|||||||0.0259|||||||Pearson's Chi-squared test|||||||0.0259
82606160|NCT03068715|164928278|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.546|||||||t-test, 2 sided|Paired t-test was used for the statistics.||Functional connectivity between lDMN\_rDMN in participants receiving active iTBS.||||=0.546
82656897|NCT01046253|165029223|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Slope|98.0|||||TWO_SIDED|90.0|92.8|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|92.8|
82656898|NCT02289963|165029269|SUPERIORITY||Least Square (LS) Mean Difference|-63.4|||<|0.0001|TWO_SIDED|95.0|-71.6|-55.2||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/ Up to 150 mg Q2W vs. Placebo Q2W|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-55.2|-71.6|<0.0001
82606161|NCT03068715|164928278|SUPERIORITY|"FC was calculated as the correlation (Pearson) of the activity pattern across time between ROIs. All Pearson correlation coefficients were then transformed into Fisher's Z score for further analysis.~sgACC (BA25) was defined by Brodmann areas (BA). The 4 nodes of DMN were extracted from the Multi-Subject Dictionary Learning (MSDL) atlas."|||||=|0.607|||||||t-test, 2 sided|||Functional connectivity between lDMN\_rDMN in participants receiving sham iTBS.||||=0.607
82606162|NCT03068715|164928279|SUPERIORITY||P value of the interaction|0.11|||<|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons at this time.|Mixed Models Analysis|We were interested in the interaction between treatment condition and timepoint.||We conducted a linear mixed models analysis, with a focus on the interaction term. No power analysis for this measure because number of participants was determined by other primary study aims.||||<0.05
82606163|NCT03068715|164928280|SUPERIORITY|The SDNN (the standard deviation of the RR intervals) was recorded using ECG. It was not necessary to conduct a power analysis for this measure because the number of participants in the study was based on other considerations (primary treatment goals of the study).|P value of the interaction|0.245|||<|0.05|TWO_SIDED|||||For reporting purposes here the p value was not adjusted for multiple comparisons.|Mixed Models Analysis|We were interested in the significance of the interaction between treatment group and timepoint.||We used a linear mixed models analysis, with the fixed factors being treatment group and timepoint.||||<0.05
82606164|NCT02203149|164928289|SUPERIORITY_OR_OTHER||Difference in Percentage|-2.8|||||TWO_SIDED|95.0|-14.5|10.0|||Miettinen and Nurminen Method|||95% confidence intervals were provided for between-treatment differences in the percentage of participants with events, comparing participants in the Part 2 Immediate Treatment (Grazoprevir + Elbasvir) Arm with the Part 2 Deferred Treatment (Placebo) Arm during the double blinded period through FUWK4. These analyses were performed using the Miettinen and Nurminen method, an unconditional, asymptotic method.||10.0|-14.5|
82606165|NCT02203149|164928290|SUPERIORITY_OR_OTHER||Difference in Percentage|0.0|||||TWO_SIDED|95.0|-6.0|2.8|||Miettinen and Nurminen Method|||95% confidence intervals were provided for between-treatment differences in the percentage of participants with events, comparing participants in the Part 2 Immediate Treatment (Grazoprevir + Elbasvir) Arm with the Part 2 Deferred Treatment (Placebo) Arm during the double blinded period through FUWK4. These analyses were performed using the Miettinen and Nurminen method, an unconditional, asymptotic method.||2.8|-6.0|
82492314|NCT01847274|164677825|SUPERIORITY|||||||0.2798|||||||Pearson's Chi-squared test|Analysis for gBRCA Niraparib vs gBRCA Placebo-Hands||||||0.2798
82606166|NCT00432809|164928314|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|95.0|||||Chi-squared|||||||0.002
82606167|NCT00432809|164928314|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Chi-squared|||||||0.008
82606168|NCT00432809|164928314|SUPERIORITY_OR_OTHER|||||||0.59||95.0||||Not adjusted for multiple comparisons|Chi-squared|||||||0.59
82606169|NCT00432809|164928318|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606170|NCT00432809|164928318|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606171|NCT00432809|164928318|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
82606172|NCT00432809|164928319|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
82606173|NCT00432809|164928319|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.003
82606174|NCT00432809|164928319|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
82492315|NCT01847274|164677832|SUPERIORITY||Ratio of Least square mean|1.1|||||TWO_SIDED|90.0|0.997|1.216||||||||1.216|0.997|
82606175|NCT00432809|164928320|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606176|NCT00432809|164928320|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||||||0.003
82606177|NCT00432809|164928320|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||ANOVA|||||||0.23
82606178|NCT00432809|164928321|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||Medical Therapy vs. Gastric Bypass||||<0.001
82606179|NCT00432809|164928321|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606180|NCT00432809|164928321|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Chi-squared|||||||0.10
82606181|NCT00432809|164928322|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606182|NCT00432809|164928322|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606183|NCT00432809|164928322|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
82606184|NCT00432809|164928323|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606185|NCT00432809|164928323|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606186|NCT00432809|164928323|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANOVA|||||||0.02
82606187|NCT00432809|164928324|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606188|NCT00432809|164928324|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606189|NCT00432809|164928324|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
82606190|NCT00432809|164928325|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606191|NCT00432809|164928325|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82606192|NCT00432809|164928325|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
82606193|NCT00432809|164928326|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANOVA|||||||0.87
82606194|NCT00432809|164928326|SUPERIORITY_OR_OTHER|||||||0.67||95.0|||||ANOVA|||||||0.67
82606195|NCT00432809|164928326|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||||||0.46
82606196|NCT00432809|164928327|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
82606197|NCT00432809|164928327|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||||||0.001
82656899|NCT02289963|165029270|SUPERIORITY||LS Mean Difference|-66.2|||<|0.0001|TWO_SIDED|95.0|-73.9|-58.4||Threshold for significance was at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-58.4|-73.9|<0.0001
82656900|NCT02289963|165029271|SUPERIORITY||LS Mean Difference|-62.5|||<|0.0001|TWO_SIDED|95.0|-68.8|-56.3||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-56.3|-68.8|<0.0001
82606198|NCT00432809|164928327|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||||||0.98
82606199|NCT00432809|164928328|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.002
82606200|NCT00432809|164928328|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.08
82606201|NCT00432809|164928328|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.17
82656901|NCT02289963|165029272|SUPERIORITY||LS Mean Difference|-63.1|||<|0.0001|TWO_SIDED|95.0|-69.2|-57.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-57.0|-69.2|<0.0001
82606202|NCT00432809|164928329|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82606203|NCT00432809|164928329|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82606204|NCT00432809|164928329|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.59
82606205|NCT00432809|164928330|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606206|NCT00432809|164928330|SUPERIORITY_OR_OTHER|||||||1.001||95.0|||||Chi-squared|||||||1.001
82606207|NCT00432809|164928330|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Chi-squared|||||||0.68
82606208|NCT00432809|164928331|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606209|NCT00432809|164928331|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606210|NCT00432809|164928331|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||||||0.05
82606211|NCT00432809|164928332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606212|NCT00432809|164928332|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606213|NCT00432809|164928332|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82606214|NCT00432809|164928333|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606215|NCT00432809|164928333|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Chi-squared|||||||0.005
82606216|NCT00432809|164928333|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
82606217|NCT00432809|164928334|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606218|NCT00432809|164928334|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82606219|NCT00432809|164928334|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared|||||||0.20
82606220|NCT00432809|164928335|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606221|NCT00432809|164928335|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606222|NCT00432809|164928335|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared|||||||0.20
82606223|NCT00432809|164928336|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Chi-squared|||||||0.48
82606224|NCT00432809|164928336|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||Chi-squared|||||||0.46
82606225|NCT00432809|164928336|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Chi-squared|||||||0.06
82606226|NCT00432809|164928337|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606227|NCT00432809|164928337|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606228|NCT00432809|164928337|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||Chi-squared|||||||0.62
82606229|NCT00432809|164928338|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606230|NCT00432809|164928338|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82606231|NCT00432809|164928338|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Chi-squared|||||||0.03
82606232|NCT01564784|164928350|SUPERIORITY_OR_OTHER||Rate difference|51.4|||<|0.0001|TWO_SIDED|97.5|38.4|64.3|||1-sided p-value based on Chi-square test|If any cell count was \<5, p-value was based on Fisher's exact test||||64.3|38.4|<0.0001
82606233|NCT01564784|164928351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.751||||0.0105|TWO_SIDED|97.5|0.568|0.993|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.993|0.568|0.0105
82606234|NCT01564784|164928352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49||||0.0021|TWO_SIDED|95.0|0.297|0.809|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.809|0.297|0.0021
82606235|NCT01564784|164928353|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.0001|TWO_SIDED|97.5|0.336|0.602|||1-sided stratified log-rank p-value||Stratified HR, i.e., based on analysis stratified by randomization stratification factors.|||0.602|0.336|<0.0001
82606236|NCT01564784|164928354|SUPERIORITY_OR_OTHER||Rate difference|31.6|||<|0.0001|TWO_SIDED|95.0|22.6|40.6|||1-sided p-value based on Chi-square test|If any cell count was \<5, p-value was based on Fisher's exact test||||40.6|22.6|<0.0001
82606237|NCT01564784|164928355|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||||||<0.0001
82656902|NCT02289963|165029273|SUPERIORITY||LS Mean Difference|-46.3|||<|0.0001|TWO_SIDED|95.0|-53.0|-39.7||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-39.7|-53.0|<0.0001
82656903|NCT02289963|165029274|SUPERIORITY||LS Mean Difference|-49.2|||<|0.0001|TWO_SIDED|95.0|-55.3|-43.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-43.1|-55.3|<0.0001
82656904|NCT02289963|165029275|SUPERIORITY||LS Mean Difference|-51.5|||<|0.0001|TWO_SIDED|95.0|-58.4|-44.6||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-44.6|-58.4|<0.0001
82656905|NCT02289963|165029276|SUPERIORITY||LS Mean Difference|-54.2|||<|0.0001|TWO_SIDED|95.0|-60.6|-47.8||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-47.8|-60.6|<0.0001
82606238|NCT01564784|164928356|SUPERIORITY_OR_OTHER|||||||0.3168|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||Abnormal at Screening||||0.3168
82606239|NCT01564784|164928356|SUPERIORITY_OR_OTHER|||||||0.216|||||||1-sided p-value based on Chi-Square test|If any cell count is \<5, p-value was based on Fisher's exact test||Abnormal after remission||||0.2160
82606240|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9||||0.0139|TWO_SIDED|95.0|1.4|12.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Physical Functioning||12.3|1.4|0.0139
82606241|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.4||||0.0065|TWO_SIDED|95.0|3.2|19.5|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Role Functioning||19.5|3.2|0.0065
82606242|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3||||0.3307|TWO_SIDED|95.0|-6.9|2.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Emotional Functioning||2.3|-6.9|0.3307
82656906|NCT02289963|165029277|SUPERIORITY||LS Mean Difference|-35.2|||<|0.0001|TWO_SIDED|95.0|-40.3|-30.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-30.1|-40.3|<0.0001
82656907|NCT02289963|165029278|SUPERIORITY||LS Mean Difference|-46.1|||<|0.0001|TWO_SIDED|95.0|-51.2|-41.0||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-41.0|-51.2|<0.0001
82606243|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.8||||0.1904|TWO_SIDED|95.0|-1.4|7.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Cognitive Functioning||7.0|-1.4|0.1904
82606244|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.4||||0.0336|TWO_SIDED|95.0|0.7|16.1|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Social Functioning||16.1|0.7|0.0336
82606245|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.1572|TWO_SIDED|95.0|-1.7|10.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Global Health Status||10.3|-1.7|0.1572
82656908|NCT02289963|165029279|SUPERIORITY||LS Mean Difference|-51.2|||<|0.0001|TWO_SIDED|95.0|-56.4|-46.1||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-46.1|-56.4|<0.0001
82606246|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.7||||0.1281|TWO_SIDED|95.0|-10.8|1.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Dyspnoea||1.4|-10.8|0.1281
82606247|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.7||||0.6207|TWO_SIDED|95.0|-8.7|5.2|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Insomnia||5.2|-8.7|0.6207
82606248|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.7||||0.0193|TWO_SIDED|95.0|-16.0|-1.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Appetite Loss||-1.4|-16.0|0.0193
82606249|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.6249|TWO_SIDED|95.0|-4.4|7.3|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Constipation||7.3|-4.4|0.6249
82606250|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.0||||0.1534|TWO_SIDED|95.0|-7.2|1.1|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Diarrhoea||1.1|-7.2|0.1534
82606251|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.5||||0.4915|TWO_SIDED|95.0|-9.7|4.7|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Financial Difficulties||4.7|-9.7|0.4915
82606252|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.4||||0.1789|TWO_SIDED|95.0|-10.8|2.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Fatigue||2.0|-10.8|0.1789
82606253|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.6||||0.4578|TWO_SIDED|95.0|-6.0|2.7|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Nausea and Vomiting||2.7|-6.0|0.4578
82656909|NCT02289963|165029280|SUPERIORITY||LS Mean Difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-39.7|-31.9||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant.||-31.9|-39.7|<0.0001
82606254|NCT01564784|164928358|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7||||0.8428|TWO_SIDED|95.0|-7.3|6.0|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||Pain||6.0|-7.3|0.8428
82606255|NCT01564784|164928359|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.171|TWO_SIDED|95.0|-0.01|0.07|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||||0.07|-0.01|0.1710
82606256|NCT01564784|164928360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.6||||0.1172|TWO_SIDED|95.0|-1.2|10.4|||Mixed Models Analysis|Treatment, time, treatment-by-time interaction, and baseline included as covariate.||||10.4|-1.2|0.1172
82606257|NCT00332202|164928362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.541|TWO_SIDED|95.0|0.689|1.216|||Log Rank|||||1.216|0.689|0.541
82606258|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.606|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 2||||0.606
82606259|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.971|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 4||||0.971
82606260|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 6||||0.580
82606261|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 12||||0.265
82606262|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 18||||0.460
82606263|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.441|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 24||||0.441
82606264|NCT00332202|164928368|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 36||||0.357
82606265|NCT00332202|164928369|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 6||||0.267
82606266|NCT00332202|164928369|SUPERIORITY_OR_OTHER|||||||0.807|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 24||||0.807
82606267|NCT00332202|164928369|SUPERIORITY_OR_OTHER|||||||0.864|TWO_SIDED||||||Mixed Models Analysis|||Analysis for Month 33||||0.864
82606268|NCT00332202|164928370|SUPERIORITY||Hazard Ratio (HR)|0.768||||0.4|TWO_SIDED|95.0|0.415|1.42|||Regression, Cox|||||1.420|0.415|0.400
82606269|NCT00332202|164928370|SUPERIORITY||Hazard Ratio (HR)|1.309||||0.539|TWO_SIDED|95.0|0.557|3.08|||Regression, Cox|||||3.080|0.557|0.539
82606270|NCT00332202|164928371|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.775||||0.084|TWO_SIDED|95.0|0.947|3.329|||Regression, Cox|||||3.329|0.947|0.084
82606271|NCT00332202|164928371|SUPERIORITY||Hazard Ratio (HR)|1.286||||0.585|TWO_SIDED|95.0|0.527|3.137|||Regression, Cox|||||3.137|0.527|0.585
82606272|NCT00275561|164928397|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||Fisher Exact|||||||0.74
82606273|NCT00275561|164928398|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Fisher Exact|||||||0.49
82606274|NCT00275561|164928399|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||||||<0.001
82606275|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.99||||0.8918|TWO_SIDED|95.0|-15.5|13.52|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||13.52|-15.50|0.8918
82606276|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.89||||0.5183|TWO_SIDED|95.0|-19.91|10.14|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.14|-19.91|0.5183
82606277|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.89||||0.5718|TWO_SIDED|95.0|-17.59|9.8|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||9.80|-17.59|0.5718
82606278|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|3.37||||0.6591|TWO_SIDED|95.0|-11.82|18.56|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||18.56|-11.82|0.6591
82606279|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-3.02||||0.6921|TWO_SIDED|95.0|-18.17|12.13|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||12.13|-18.17|0.6921
82606280|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.39||||0.3513|TWO_SIDED|95.0|-19.98|7.2|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||7.20|-19.98|0.3513
82606281|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|8.96||||0.2346|TWO_SIDED|95.0|-5.96|23.88|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||23.88|-5.96|0.2346
82606282|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.24||||0.4138|TWO_SIDED|95.0|-8.92|21.39|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.39|-8.92|0.4138
82606283|NCT01587950|164928402|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.72||||0.6931|TWO_SIDED|95.0|-16.44|10.99|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero immediately post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.99|-16.44|0.6931
82606284|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.39||||0.3867|TWO_SIDED|95.0|-21.04|8.26|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.26|-21.04|0.3867
82606285|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.22||||0.1448|TWO_SIDED|95.0|-26.41|3.96|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||3.96|-26.41|0.1448
82606286|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.83||||0.4874|TWO_SIDED|95.0|-18.66|8.99|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.99|-18.66|0.4874
82606287|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-9.87||||0.2038|TWO_SIDED|95.0|-25.23|5.49|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||5.49|-25.23|0.2038
82606288|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-11.12||||0.1518|TWO_SIDED|95.0|-26.43|4.19|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||4.19|-26.43|0.1518
82606289|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.25||||0.8567|TWO_SIDED|95.0|-14.98|12.49|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||12.49|-14.98|0.8567
82606290|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.01||||0.1493|TWO_SIDED|95.0|-4.06|26.08|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, at 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||26.08|-4.06|0.1493
82656910|NCT02289963|165029281|SUPERIORITY||Odds Ratio (OR)|46.9|||<|0.0001|TWO_SIDED|95.0|18.4|119.4||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||119.4|18.4|<0.0001
82656911|NCT02289963|165029282|SUPERIORITY||Odds Ratio (OR)|70.0|||<|0.0001|TWO_SIDED|95.0|23.3|210.8||Threshold for significance at 0.05 level.|Regression, Logistic|Multiple imputation approach followed by logistic regression model|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||210.8|23.3|<0.0001
82606291|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|5.45||||0.4798|TWO_SIDED|95.0|-9.86|20.76|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||20.76|-9.86|0.4798
82656912|NCT02289963|165029283|SUPERIORITY||Adjusted Mean Difference|-33.611|||<|0.0001|TWO_SIDED|95.0|-41.883|-25.338||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.338|-41.883|<0.0001
82656913|NCT02289963|165029284|SUPERIORITY||LS Mean Difference|7.5||||0.0029|TWO_SIDED|95.0|2.6|12.4||Threshold for significance at 0.05 level.|Mixed Models Analysis||Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||12.4|2.6|0.0029
82492316|NCT01847274|164677833|SUPERIORITY||Ratio of Least square mean|1.068|||||TWO_SIDED|90.0|0.978|1.166||||||||1.166|0.978|
82492317|NCT01847274|164677834|SUPERIORITY||Ratio of Least square mean|0.785|||||TWO_SIDED|90.0|0.695|0.886||||||||0.886|0.695|
82606292|NCT01587950|164928403|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.56||||0.4255|TWO_SIDED|95.0|-19.42|8.29|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 10 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.29|-19.42|0.4255
82606293|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.96||||0.7769||95.0|-15.71|11.8||ANCOVA with factors for treatment group, application site, period and random effect for subject.|ANCOVA||Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||11.80|-15.71|0.7769
82606294|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.32||||0.3811|TWO_SIDED|95.0|-20.64|8.0|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.00|-20.64|0.3811
82606295|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.36||||0.5044||95.0|-17.35|8.63|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within each of the treatment was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.63|-17.35|0.5044
82606296|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-5.68||||0.4374|TWO_SIDED|95.0|-20.2|8.84|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject.|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||8.84|-20.20|0.4374
82606297|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Slope|-4.02||||0.5796|TWO_SIDED|95.0|-18.46|10.41|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||10.41|-18.46|0.5796
82606298|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.66||||0.7994|TWO_SIDED|95.0|-11.32|14.64|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favors the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05||14.64|-11.32|0.7994
82606299|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.75||||0.2784|TWO_SIDED|95.0|-6.42|21.93|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.93|-6.42|0.2784
82606300|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.68||||0.3581|TWO_SIDED|95.0|-7.75|21.12|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||21.12|-7.75|0.3581
82606301|NCT01587950|164928404|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.07||||0.8703|TWO_SIDED|95.0|-14.11|11.97|||ANCOVA|ANCOVA with factors for treatment group, application site, period and random effect for subject|Difference is first named treatment minus second named treatment such that a negative difference favours the first named treatment.|Null hypothesis suggested that mean change from baseline in the evaporative sensitivity within the treatments was zero, 20 minutes post treatment. Statistical tests were 2-sided with a significance level of 0.05.||11.97|-14.11|0.8703
82606302|NCT04068103|164928436|SUPERIORITY|||||||0.98||||||P value \<= 0.35 moves trial to phase III, \>0.35 stops trial for futility. Decision rule calls for early stopping due to futility.|Fisher Exact|||One-sided Fisher's Exact Test of ctDNA clearance by treatment arm.||||0.98
82606303|NCT02432807|164928443|SUPERIORITY|||||||0.2219|||||||Chi-squared|||||||0.2219
82606304|NCT02432807|164928444|SUPERIORITY|||||||0.1817|||||||Chi-squared|||||||0.1817
82656914|NCT02289963|165029285|SUPERIORITY||LS Mean Difference|-4.515||||0.311|TWO_SIDED|95.0|-13.25|4.219||Threshold for significance at 0.05 level.|Regression, Robust|Multiple imputation approach followed by a robust regression model.|Alirocumab 75 mg Q2W/Up to 150 mg Q2W vs. Placebo Q2W|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||4.219|-13.250|0.3110
82656915|NCT03422653|165029334|SUPERIORITY||Odds Ratio (OR)|2.72|||<|0.001|TWO_SIDED|95.0|1.72|4.3|||Cui, Hung, Wang|||||4.30|1.72|<0.001
82656916|NCT03422653|165029335|SUPERIORITY||Mean Difference (Final Values)|-1.3|STANDARD_ERROR_OF_MEAN|0.38|<|0.001|TWO_SIDED|95.0|-2.0|-0.5|||ANCOVA|||||-0.5|-2.0|<0.001
82656917|NCT03422653|165029336|SUPERIORITY||Mean Difference (Final Values)|-5.1|STANDARD_ERROR_OF_MEAN|1.44|<|0.001|TWO_SIDED|95.0|-8.0|-2.3|||ANCOVA|||||-2.3|-8.0|<0.001
82656918|NCT03422653|165029337|SUPERIORITY||Odds Ratio (OR)|2.89|||<|0.001|TWO_SIDED|95.0|1.75|4.76|||Cui, Hung, Wang|||||4.76|1.75|<0.001
82656919|NCT01101022|165029338|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.2|||<|0.0001|TWO_SIDED|95.0|-15.9|-6.4|||ANCOVA|||||-6.4|-15.9|<0.0001
82606305|NCT00190775|164928450|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.78|STANDARD_ERROR_OF_MEAN|1.11|<|0.001||95.0|||||Mixed Models Analysis|Model included visit, baseline, treatment, pooled investigator, child with ADHD, and treatment by visit.|Least Squares Mean Difference = Atomoxetine - Placebo.|Approximately 500 participants were randomized to atomoxetine or placebo (1:1) which provided at least 90% power to detect a treatment difference of 3.64 points on the CAARS-Inv:SV Total ADHD Symptoms Score assuming a SD of 9.85 based on 2-sided significance level of 0.05 using a 2-sample t-test. Mean and SD assumptions were associated with effect size of 0.37 and 30% missing data rate. These assumptions applied to Weeks 12 and 24 treatment effects. Marginal power at Weeks 12 and 24 was 86%.||||<0.001
82606306|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.905||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.905
82606307|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.491||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.491
82606308|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.600
82606309|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.052||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.052
82606310|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.514||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.514
82606311|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.515||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.515
82606312|NCT00190775|164928451|SUPERIORITY_OR_OTHER|||||||0.315||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.315
82656920|NCT01101022|165029339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.6|||<|0.0001|TWO_SIDED|95.0|13.5|29.7|||ANCOVA|||Performance and Daily Functioning||29.7|13.5|<0.0001
82606313|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.176
82656921|NCT01101022|165029339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.9|||<|0.0001|TWO_SIDED|95.0|7.8|22.0|||ANCOVA|||Daily Interference||22.0|7.8|<0.0001
82656922|NCT01101022|165029339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.5||||0.0003|TWO_SIDED|95.0|6.3|20.7|||ANCOVA|||Bother/Concern||20.7|6.3|0.0003
82606314|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.122
82606315|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.931||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.931
82656923|NCT01101022|165029339|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.8||||0.0302|TWO_SIDED|95.0|0.8|14.9|||ANCOVA|||Relationships/Communication||14.9|0.8|0.0302
82656924|NCT01101022|165029340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0016|TWO_SIDED|95.0|-7.8|-1.9|||ANCOVA|||Global Executive Composite||-1.9|-7.8|0.0016
82656925|NCT01101022|165029340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.1||||0.0355|TWO_SIDED|95.0|-6.0|-0.2|||ANCOVA|||Behavioral Regulation Index||-0.2|-6.0|0.0355
82606316|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
82606317|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.19||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.190
82606318|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.360
82606319|NCT00190775|164928452|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
82606320|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.575
82606321|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.705||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.705
82606322|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.686||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.686
82606323|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.618||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.618
82606324|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.903||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.903
82606325|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.807
82606326|NCT00190775|164928453|SUPERIORITY_OR_OTHER|||||||0.403||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.403
82656926|NCT01101022|165029340|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.7||||0.0003|TWO_SIDED|95.0|-8.7|-2.7|||ANCOVA|||Metacognition Index||-2.7|-8.7|0.0003
82656927|NCT01101022|165029341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.4||||0.0002|TWO_SIDED|95.0|-12.7|-4.0|||ANCOVA|||Behavioral Regulation Index||-4.0|-12.7|0.0002
82656928|NCT01101022|165029341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.6|||<|0.0001|TWO_SIDED|95.0|-16.3|-7.0|||ANCOVA|||Metacognition Index||-7.0|-16.3|<0.0001
82656929|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.3||||0.0001|TWO_SIDED|95.0|-12.6|-4.1|||ANCOVA|||Inhibit||-4.1|-12.6|0.0001
82656930|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7||||0.0018|TWO_SIDED|95.0|-10.8|-2.5|||ANCOVA|||Shift||-2.5|-10.8|0.0018
82606327|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.941||95.0||||P-Value for Task Accomplishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.941
82606328|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Role Performance.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
82606329|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.391||95.0||||P-Value for Communication.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.391
82606330|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.685||95.0||||P-Value for Affective Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.685
82606331|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.774||95.0||||P-Value for Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.774
82606332|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.36||95.0||||P-Value for Control.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.360
82606333|NCT00190775|164928454|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Values and Norms.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
82606334|NCT00190775|164928455|SUPERIORITY_OR_OTHER|||||||0.617||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.617
82606335|NCT00190775|164928455|SUPERIORITY_OR_OTHER|||||||0.789||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.789
82606336|NCT00190775|164928455|SUPERIORITY_OR_OTHER|||||||0.67||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.670
82606337|NCT00190775|164928455|SUPERIORITY_OR_OTHER|||||||0.018||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.018
82606338|NCT00190775|164928455|SUPERIORITY_OR_OTHER|||||||0.405||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.405
82656931|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.2||||0.0056|TWO_SIDED|95.0|-8.8|-1.5|||ANCOVA|||Emotional control||-1.5|-8.8|0.0056
82606339|NCT00190775|164928456|SUPERIORITY_OR_OTHER|||||||0.544||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.544
82606340|NCT00190775|164928456|SUPERIORITY_OR_OTHER|||||||0.494||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.494
82656932|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.2||||0.0001|TWO_SIDED|95.0|-12.3|-4.1|||ANCOVA|||Sef-monitor||-4.1|-12.3|0.0001
82606341|NCT00190775|164928456|SUPERIORITY_OR_OTHER|||||||0.547||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.547
82606342|NCT00190775|164928456|SUPERIORITY_OR_OTHER|||||||0.059||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.059
82606343|NCT00190775|164928456|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.918
82606344|NCT00190775|164928457|SUPERIORITY_OR_OTHER|||||||0.334||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.334
82606345|NCT00190775|164928457|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.087
82606346|NCT00190775|164928457|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.795
82606347|NCT00190775|164928457|SUPERIORITY_OR_OTHER|||||||0.955||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.955
82606348|NCT00190775|164928457|SUPERIORITY_OR_OTHER|||||||0.788||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.788
82606349|NCT00190775|164928458|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||P-Value for Total Dyadic Adjustment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.248
82606350|NCT00190775|164928458|SUPERIORITY_OR_OTHER|||||||0.163||95.0||||P-Value for Dyadic Consensus.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.163
82606351|NCT00190775|164928458|SUPERIORITY_OR_OTHER|||||||0.947||95.0||||P-Value for Dyadic Satisfaction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.947
82606352|NCT00190775|164928458|SUPERIORITY_OR_OTHER|||||||0.214||95.0||||P-Value for Affectional Expression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.214
82606353|NCT00190775|164928458|SUPERIORITY_OR_OTHER|||||||0.543||95.0||||P-Value for Dyadic Cohesion.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.543
82656933|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3|||<|0.0001|TWO_SIDED|95.0|-13.2|-5.4|||ANCOVA|||Initiate||-5.4|-13.2|<0.0001
82656934|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.3|||<|0.0001|TWO_SIDED|95.0|-16.0|-6.6|||ANCOVA|||Working memory||-6.6|-16.0|<0.0001
82656935|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.9|||<|0.0001|TWO_SIDED|95.0|-15.4|-6.4|||ANCOVA|||Plan/Organize||-6.4|-15.4|<0.0001
82656936|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.3||||0.0001|TWO_SIDED|95.0|-14.0|-4.7|||ANCOVA|||Task monitor||-4.7|-14.0|0.0001
82656937|NCT01101022|165029342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.9|||<|0.0001|TWO_SIDED|95.0|-12.5|-5.3|||ANCOVA|||Organization of materials||-5.3|-12.5|<0.0001
82656938|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.0048|TWO_SIDED|95.0|-7.4|-1.4|||ANCOVA|||Inhibit||-1.4|-7.4|0.0048
82656939|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.8||||0.0045|TWO_SIDED|95.0|-8.0|-1.5|||ANCOVA|||Shift||-1.5|-8.0|0.0045
82656940|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.3||||0.3605|TWO_SIDED|95.0|-4.0|1.5|||ANCOVA|||Emotional control||1.5|-4.0|0.3605
82606354|NCT00190775|164928459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.28|STANDARD_ERROR_OF_MEAN|1.05||0.001||95.0|||||Mixed Models Analysis|Model included visit, baseline, treatment, pooled investigator, child with ADHD, and treatment by visit.|Least Squares Mean Difference = Atomoxetine - Placebo.|Approximately 500 participants were randomized to atomoxetine or placebo (1:1) which provided at least 90% power to detect a treatment difference of 3.64 points on the CAARS-Inv:SV Total ADHD Symptoms Score assuming a SD of 9.85 based on 2-sided significance level of 0.05 using a 2-sample t-test. Mean and SD assumptions were associated with effect size of 0.37 and 30% missing data rate. These assumptions applied to Weeks 12 and 24 treatment effects. Marginal power at Weeks 12 and 24 was 86%.||||0.001
82606355|NCT00190775|164928460|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-Value for Total Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.446
82606356|NCT00190775|164928460|SUPERIORITY_OR_OTHER|||||||0.134||95.0||||P-Value for Life Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.134
82606357|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.056||95.0||||P-Value for Parent Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.056
82606358|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.459||95.0||||P-Value for Parent Domain Competence.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.459
82606359|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.435||95.0||||P-Value for Parent Domain Isolation.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.435
82606360|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.677||95.0||||P-Value for Parent Domain Attachment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.677
82606361|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.376||95.0||||P-Value for Parent Domain Health.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.376
82606362|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.176||95.0||||P-Value for Parent Domain Role Restriction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.176
82606363|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-Value for Parent Domain Depression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.030
82606364|NCT00190775|164928461|SUPERIORITY_OR_OTHER|||||||0.434||95.0||||P-Value for Parent Domain Spouse.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.434
82606365|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.578||95.0||||P-Value for Child Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.578
82606366|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.062||95.0||||P-Value for Defensive Responding.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.062
82606367|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.567||95.0||||P-Value for Child Domain Distractibility/Hyperactive.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.567
82606368|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.383||95.0||||P-Value for Child Domain Adaptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.383
82606369|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.963||95.0||||P-Value for Child Domain Reinforces Parent.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.963
82606370|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.075||95.0||||P-Value for Child Domain Demandingness.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.075
82606371|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.854||95.0||||P-Value for Child Domain Mood.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.854
82606372|NCT00190775|164928462|SUPERIORITY_OR_OTHER|||||||0.671||95.0||||P-Value for Child Domain Acceptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.671
82606373|NCT00190775|164928463|SUPERIORITY_OR_OTHER|||||||0.28||95.0||||P-Value for Total Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.280
82606374|NCT00190775|164928463|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||P-Value for Life Stress.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.34
82606375|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.103||95.0||||P-Value for Parent Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.103
82606376|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.182||95.0||||P-Value for Parent Domain Competence.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.182
82606377|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.161||95.0||||P-Value for Parent Domain Isolation.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.161
82606378|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-Value for Parent Domain Attachment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.472
82606379|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.949||95.0||||P-Value for Parent Domain Health.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.949
82606380|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.848||95.0||||P-Value for Parent Domain Role Restriction.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.848
82606381|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-Value for Parent Domain Depression.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.050
82606382|NCT00190775|164928464|SUPERIORITY_OR_OTHER|||||||0.84||95.0||||P-Value for Parent Domain Spouse.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.840
82606383|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-Value for Child Domain Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.785
82606384|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.081||95.0||||P-Value for Defensive Responding.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.081
82606385|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.518||95.0||||P-Value for Child Domain Distractibility/Hyperactive.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.518
82606386|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||P-Value for Child Domain Adaptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.883
82606387|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.439||95.0||||P-Value for Child Domain Reinforces Parent.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.439
82606388|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.167||95.0||||P-Value for Child Domain Demandingness.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.167
82606389|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.381||95.0||||P-Value for Child Domain Mood.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.381
82606390|NCT00190775|164928465|SUPERIORITY_OR_OTHER|||||||0.906||95.0||||P-Value for Child Domain Acceptability.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.906
82606391|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-Value for Parent Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.420
82606392|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.249||95.0||||P-Value for Parent Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.249
82606393|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.927||95.0||||P-Value for Parent Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.927
82606394|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.205||95.0||||P-Value for Parent Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.205
82606395|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.673||95.0||||P-Value for Parent Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.673
82606396|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.881||95.0||||P-Value for Parent Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.881
82606397|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-Value for Dysfunctional Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.808
82606398|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-Value for Negative Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.498
82606399|NCT00190775|164928466|SUPERIORITY_OR_OTHER|||||||0.283||95.0||||P-Value for Positive Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.283
82656941|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.2||||0.1468|TWO_SIDED|95.0|-5.1|0.8|||ANCOVA|||Self-monitor||0.8|-5.1|0.1468
82606400|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.784||95.0||||P-Value for Parent Involvement.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.784
82606401|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.864||95.0||||P-Value for Parent Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.864
82606402|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.884||95.0||||P-Value for Parent Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.884
82606403|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||P-Value for Parent Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.072
82606404|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-Value for Parent Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.120
82606405|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.925||95.0||||P-Value Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.925
82606406|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||P-Value for Dysfunctional Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.444
82606407|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.166||95.0||||P-Value for Negative Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.166
82606408|NCT00190775|164928467|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-Value for Positive Parenting Composite.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.875
82606409|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||P-Value for Child Involvement Mother.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.895
82656942|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5||||0.0002|TWO_SIDED|95.0|-8.3|-2.7|||ANCOVA|||Initiate||-2.7|-8.3|0.0002
82656943|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3||||0.0004|TWO_SIDED|95.0|-9.8|-2.9|||ANCOVA|||Working memory||-2.9|-9.8|0.0004
82606410|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-Value for Child Involvement Father.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.792
82606411|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.318||95.0||||P-Value for Child Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.318
82606412|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.914||95.0||||P-Value for Child Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.914
82606413|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.961||95.0||||P-Value for Child Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.961
82606414|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.807||95.0||||P-Value for Child Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.807
82606415|NCT00190775|164928468|SUPERIORITY_OR_OTHER|||||||0.827||95.0||||P-Value for Child Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.827
82606416|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.828||95.0||||P-Value for Child Involvement Mother.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.828
82606417|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.401||95.0||||P-Value for Child Involvement Father.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.401
82606418|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||P-Value for Child Positive Parenting.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.300
82606419|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.575||95.0||||P-Value for Child Poor Supervision.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.575
82606420|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.772||95.0||||P-Value for Child Inconsistent Discipline.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.772
82606421|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.918||95.0||||P-Value for Child Corporal Punishment.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.918
82606422|NCT00190775|164928469|SUPERIORITY_OR_OTHER|||||||0.636||95.0||||P-Value for Child Other Discipline Practice.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.636
82606423|NCT00190775|164928470|SUPERIORITY_OR_OTHER|||||||0.583||95.0||||P-Value for Total ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.583
82606424|NCT00190775|164928470|SUPERIORITY_OR_OTHER|||||||0.997||95.0||||P-Value for Hyperactive-Impulsive Symptom ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.997
82606425|NCT00190775|164928470|SUPERIORITY_OR_OTHER|||||||0.333||95.0||||P-Value for Inattention Symptom ADHD Score.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.333
82656944|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.9||||0.0015|TWO_SIDED|95.0|-7.9|-1.9|||ANCOVA|||Plan/Organize||-1.9|-7.9|0.0015
82656945|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.3||||0.0003|TWO_SIDED|95.0|-9.7|-2.9|||ANCOVA|||Task monitor||-2.9|-9.7|0.0003
82606426|NCT00190775|164928471|SUPERIORITY_OR_OTHER|||||||0.792||95.0||||P-Value for Oppositional Defiant Disorder Flag|Fisher Exact|||||||.792
82656946|NCT01101022|165029343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2||||0.0234|TWO_SIDED|95.0|-5.9|-0.4|||ANCOVA|||Organization of materials||-0.4|-5.9|0.0234
82606427|NCT00190775|164928471|SUPERIORITY_OR_OTHER|||||||0.675||95.0||||P-Value for Conduct Disorder Flag.|Fisher Exact|||||||0.675
82606428|NCT00190775|164928472|SUPERIORITY_OR_OTHER|||||||0.875||95.0||||P-Value for PSOC Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.875
82656947|NCT01101022|165029344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.1|||<|0.0001|TWO_SIDED|95.0|-14.9|-7.3|||ANCOVA|||||-7.3|-14.9|<0.0001
82656948|NCT01101022|165029347|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82606429|NCT00190775|164928472|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-Value for Satisfaction Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.569
82606430|NCT00190775|164928472|SUPERIORITY_OR_OTHER|||||||0.399||95.0||||P-Value for Efficacy Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.399
82606431|NCT00190775|164928473|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||P-Value for PSOC Total.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.365
82606432|NCT00190775|164928473|SUPERIORITY_OR_OTHER|||||||0.62||95.0||||P-Value for Satisfaction Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.620
82606433|NCT00190775|164928473|SUPERIORITY_OR_OTHER|||||||0.462||95.0||||P-Value for Efficacy Scale.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.462
82656949|NCT01101022|165029348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.1|||<|0.0001|TWO_SIDED|95.0|5.4|12.7|||ANCOVA|||Living with ADHD||12.7|5.4|<0.0001
82656950|NCT01101022|165029348|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.8|||<|0.0001|TWO_SIDED|95.0|6.0|15.5|||ANCOVA|||General Well-being||15.5|6.0|<0.0001
82656951|NCT01101022|165029349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.5||||0.0184|TWO_SIDED|95.0|0.1|1.0|||ANCOVA|||Question 1||1.0|0.1|0.0184
82656952|NCT01101022|165029349|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.0004|TWO_SIDED|95.0|-0.9|-0.3|||ANCOVA|||Question 4||-0.3|-0.9|0.0004
82656953|NCT01101022|165029350|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.5||||0.0019|TWO_SIDED|95.0|-9.0|-2.1|||ANCOVA|||||-2.1|-9.0|0.0019
82656954|NCT01101022|165029351|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.1||||0.0017|TWO_SIDED|95.0|-8.2|-1.9|||ANCOVA|||Inattention/Memory Problems||-1.9|-8.2|0.0017
82606434|NCT00190775|164928474|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-Value for Total Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.001
82606435|NCT00190775|164928474|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for Hyperactivity Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.004
82606436|NCT00190775|164928474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Inattention Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606437|NCT00190775|164928474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Total Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606438|NCT00190775|164928474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Hyperactivity Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606439|NCT00190775|164928474|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for Inattention Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606440|NCT00190775|164928475|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 8 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606441|NCT00190775|164928475|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606442|NCT00190775|164928476|SUPERIORITY_OR_OTHER|||||||0.553||95.0||||P-Value for 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.553
82606443|NCT00190775|164928476|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||P-Value for 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.797
82606444|NCT00190775|164928477|SUPERIORITY_OR_OTHER|||||||0.108||95.0||||P-Value for State Anxiety Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.108
82606445|NCT00190775|164928477|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-Value for Trait Anxiety Score at 12 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.026
82656955|NCT01101022|165029351|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.1||||0.0174|TWO_SIDED|95.0|-7.5|-0.7|||ANCOVA|||Hyperactivity/Restlessness||-0.7|-7.5|0.0174
82606446|NCT00190775|164928477|SUPERIORITY_OR_OTHER|||||||0.897||95.0||||P-Value is for State Anxiety Score at 24 Weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.897
82606447|NCT00190775|164928477|SUPERIORITY_OR_OTHER|||||||0.171||95.0||||P-Value is for Trait Anxiety Score at 24 weeks.|ANCOVA|Model included treatment, pooled investigator, child with ADHD, and baseline.||||||0.171
82606448|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.892||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.892
82606449|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.003
82606450|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.007
82606451|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.533||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.533
82606452|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.054
82606453|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.012||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.012
82606454|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.457||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.457
82656956|NCT01101022|165029351|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.0||||0.0063|TWO_SIDED|95.0|-6.8|-1.1|||ANCOVA|||Impulsivity/Emotional Liability||-1.1|-6.8|0.0063
82656957|NCT01101022|165029351|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.4||||0.0059|TWO_SIDED|95.0|-7.5|-1.3|||ANCOVA|||Problems with Self-concept||-1.3|-7.5|0.0059
82656958|NCT01101022|165029352|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.0||||0.0016|TWO_SIDED|95.0|8.4|33.6|||ANCOVA|||Life Productivity||33.6|8.4|0.0016
82656959|NCT01101022|165029352|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.1||||0.0242|TWO_SIDED|95.0|1.6|22.5|||ANCOVA|||Psychological Health||22.5|1.6|0.0242
82606455|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.001
82606456|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.021||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.021
82606457|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.710
82606458|NCT00190775|164928478|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||<0.001
82606459|NCT00190775|164928478|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
82606460|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.722||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.722
82606461|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.011
82606462|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
82606463|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.779||95.0||||P-Value for Hyper/Impulsive Scale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.779
82606464|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.004
82606465|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.002
82606466|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.716||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.716
82606467|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.071
82606468|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.034
82606469|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.938||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.938
82606470|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.004
82656960|NCT01101022|165029352|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.5||||0.0038|TWO_SIDED|95.0|4.2|20.8|||ANCOVA|||Life Outlook||20.8|4.2|0.0038
82656961|NCT01101022|165029352|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.3||||0.1752|TWO_SIDED|95.0|-3.4|18.0|||ANCOVA|||Relationships||18.0|-3.4|0.1752
82656962|NCT01101022|165029352|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|14.7||||0.0015|TWO_SIDED|95.0|5.9|23.6|||ANCOVA|||Total Score||23.6|5.9|0.0015
82656963|NCT00420303|165029368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47||||0.029||95.0|-32.93|-2.01|||ANCOVA|Treatment groups as fixed factors, baseline value as covariate||Comparison of adjusted means||-2.01|-32.93|0.029
82656964|NCT00420303|165029369|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.0||||0.02||95.0|1.44|69.26|||Generalized estimating equations (GEE)|Logit link, a binomial distribution and an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors.||||69.26|1.44|0.02
82606471|NCT00190775|164928479|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-Value for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.005
82606472|NCT00190775|164928480|SUPERIORITY_OR_OTHER|||||||0.546||95.0||||P-Value for Total ADHD Symptoms Score.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.546
82606473|NCT00190775|164928480|SUPERIORITY_OR_OTHER|||||||0.53||95.0||||P-Value for Hyper/Impulsive Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.530
82606474|NCT00190775|164928480|SUPERIORITY_OR_OTHER|||||||0.569||95.0||||P-Value for Inattention Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.569
82606475|NCT00190775|164928480|SUPERIORITY_OR_OTHER|||||||0.986||95.0||||P-Vaue for ADHD Index Subscale.|ANCOVA|Model included visit by therapy, pooled investigator, child with ADHD, and baseline.||||||0.986
82606476|NCT01440101|164928492|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value obtained from the Mann-Whitney U test stratified by the presence or absence of Gd+ lesions at baseline.|Wilcoxon (Mann-Whitney)|||||||<0.001
82606477|NCT01440101|164928495|SUPERIORITY_OR_OTHER||||||<|0.001||||||P-value obtained from the Van Elteren test stratified by the presence or absence of Gd+ lesions at baseline.|Van Elteren test|||||||<0.001
82606478|NCT01440101|164928496|SUPERIORITY_OR_OTHER|||||||0.006|||||||Wilcoxon rank sum test|||||||0.006
82606479|NCT01440101|164928497|SUPERIORITY_OR_OTHER||Difference in proportions|0.404|||<|0.001|TWO_SIDED|95.0|0.223|0.586|||Fisher Exact|||Relapse-free proportions compared using a two-sided Fisher exact test. In the analysis, participants with unknown status are considered to have relapsed.||0.586|0.223|<0.001
82656965|NCT00420303|165029370|SUPERIORITY_OR_OTHER|||||||0.007|||||||ANCOVA|Treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||||||0.007
82656966|NCT01475838|165029435|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the Stribild group was at least 12% worse than the PI+RTV+FTC/TDF group with respect to the percentage of participants maintaining HIV-1 RNA \< 50 copies/mL at Week 48. The alternative hypothesis was that the Stribild group was less than 12% worse than the PI+RTV+FTC/TDF group.|Difference in proportions|6.7||||0.025|TWO_SIDED|95.0|0.4|13.7|||Fisher Exact||The 95% confidence interval (CI) for the difference was from unconditional exact method using 2 inverted 1-sided tests with the standardized statistic using StatXact.|||13.7|0.4|0.025
82656967|NCT03765502|165029439|SUPERIORITY||||||<|0.0001|||||||McNemar|Crossover design: paired test||||||<.0001
82656968|NCT03765502|165029440|SUPERIORITY||||||<|0.0001|||||||McNemar|Crossover design: paired test||||||<.0001
82606480|NCT01440101|164928498|SUPERIORITY_OR_OTHER|||||||0.729||||||P-value for comparison between the treated and placebo groups was based on analysis of covariance, adjusted for the baseline VAS score.|ANCOVA|||Change from Baseline to Week 12||||0.729
82656969|NCT00048568|165029446|SUPERIORITY_OR_OTHER||Estimated Difference|28.2|||<|0.001|TWO_SIDED|95.0|19.8|36.7|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 20 response.|The study had a 99% power to detect a difference of 20% in ACR 20 between the 2 groups at the 5% level.||36.7|19.8|<0.001
82606481|NCT01440101|164928498|SUPERIORITY_OR_OTHER|||||||0.942||||||P-value for comparison between the treated and placebo groups was based on analysis of covariance, adjusted for the baseline VAS score.|ANCOVA|||Change from Baseline at Week 24||||0.942
82606482|NCT02469246|164928510|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% confidence interval (CI) approach, with a non-inferiority margin of 10%.|Difference in Percentages|-3.8||||0.15|TWO_SIDED|95.002|-8.9|1.1|||Fisher Exact||The difference in percentages and its 95.002% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of the primary efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||1.1|-8.9|0.15
82606483|NCT02469246|164928511|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|-6.3||||0.042|TWO_SIDED|95.0|-12.3|-0.3|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||-0.3|-12.3|0.042
82606484|NCT02469246|164928512|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|1.1||||0.45|TWO_SIDED|95.002|-1.0|3.5|||Fisher Exact||The difference in percentages and its 95.002% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||3.5|-1.0|0.45
82606485|NCT02469246|164928513|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 4%.|Difference in Percentages|1.4||||0.34|TWO_SIDED|95.0|-1.0|4.2|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the non-inferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||4.2|-1.0|0.34
82606486|NCT02469246|164928514|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 10%.|Difference in Percentages|-1.6||||0.62|TWO_SIDED|95.0|-7.4|4.2|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||4.2|-7.4|0.62
82656970|NCT00048568|165029447|SUPERIORITY_OR_OTHER||Estimated Difference|24.4|||<|0.001|TWO_SIDED|95.0|15.9|32.9||Based on the hierarchical testing procedure for the co-primary measures, the study had 98% power to detect 18% difference in HAQ response rate between the two arms at the 5% level.|Chi-squared, Corrected|This model includes treatment as the main factor and baseline value as a covariate.|Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving HAQ response at Day 365.|||32.9|15.9|<0.001
82606487|NCT02469246|164928515|NON_INFERIORITY|Non-inferiority was assessed using a 2-sided exact 95% CI approach, with a non-inferiority margin of 10%.|Difference in Percentages|-5.9||||0.069|TWO_SIDED|95.0|-12.2|0.4|||Fisher Exact||The difference in percentages and its 95% CI were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The analysis purpose of this efficacy endpoint was to assess the noninferiority of switching to F/TAF+3rd Agent relative to maintaining treatment with ABC/3TC+3rd Agent.||0.4|-12.2|0.069
82606488|NCT02469246|164928516|SUPERIORITY||Difference in LSM|-32.0||||0.026|TWO_SIDED|95.0|-61.0|-4.0||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||-4|-61|0.026
82606489|NCT02469246|164928517|SUPERIORITY||Difference in LSM|-39.0||||0.013|TWO_SIDED|95.0|-70.0|-8.0||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||-8|-70|0.013
82606490|NCT02469246|164928518|SUPERIORITY||Difference in LSM|0.179||||0.4|TWO_SIDED|95.0|-0.24|0.598||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.598|-0.240|0.40
82606491|NCT02469246|164928519|SUPERIORITY||Difference in LSM|0.165||||0.53|TWO_SIDED|95.0|-0.348|0.678||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.678|-0.348|0.53
82606492|NCT02469246|164928520|SUPERIORITY||Difference in LSM|0.151||||0.63|TWO_SIDED|95.0|-0.465|0.767||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.767|-0.465|0.63
82606493|NCT02469246|164928521|SUPERIORITY||Difference in LSM|-0.056||||0.89|TWO_SIDED|95.0|-0.825|0.713||P-value was adjusted by the third agent stratum (boosted protease inhibitors vs. others).|ANOVA||Difference in LSM and its 95% CI were adjusted by the third agent stratum (boosted protease inhibitors vs. others).|||0.713|-0.825|0.89
82606494|NCT00885079|164928538|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for change from baseline in the FCS score was determined by comparing the non-inferiority margin (0.4) with the upper limit of the confidence interval of the difference between the 2 treatment groups.|Mean Difference (Final Values)|-0.9|STANDARD_DEVIATION|2.1|<|0.05|TWO_SIDED|95.0|-1.47|-0.24||An analysis of change from baseline of FCS was performed using t-test. The level of singnificanse was 5 % (2-sided).|t-test, 2 sided|||||-0.24|-1.47|<0.05
82606495|NCT00885079|164928539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1|||<|0.05|||||||t-test, 2 sided|||||||<0.05
82606496|NCT03303989|164928548|SUPERIORITY|Efficacy of MMF was examined by the proportion of responders in MMF+Peg compared to PBO+Peg. Rates of the primary outcome were compared using proportions and 95% confidence intervals and tested for differences using Fisher's exact test.|||||<|0.01|TWO_SIDED|95.0|||||Fisher Exact|||Fisher's exact tests were performed to compare baseline and clinical characteristics between treatment groups as appropriate.||||<0.01
82606497|NCT01658514|164928549|SUPERIORITY_OR_OTHER||% Ratio of LS Means|51.5||||0.0011|TWO_SIDED|90.0|37.77|70.23||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Normal Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||70.23|37.77|0.0011
82606498|NCT01658514|164928549|SUPERIORITY_OR_OTHER||% Ratio of LS Means|73.8||||0.0733|TWO_SIDED|90.0|55.97|97.43||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Mild RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||97.43|55.97|0.0733
82656971|NCT00048568|165029448|SUPERIORITY_OR_OTHER|||||||0.029||95.0|||||Nonparametric ANCOVA|The rank of the change from baseline=dependent variable, treatment=the main factor, rank of baseline value as covariate.||||||0.029
82606499|NCT01658514|164928549|SUPERIORITY_OR_OTHER||% Ratio of LS Means|56.7||||0.0028|TWO_SIDED|90.0|42.25|76.1||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Moderate RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||76.10|42.25|0.0028
82606500|NCT01658514|164928549|SUPERIORITY_OR_OTHER||% Ratio of LS Means|52.4||||0.0025|TWO_SIDED|90.0|37.61|73.02||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Severe RI Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||73.02|37.61|0.0025
82606501|NCT01658514|164928550|SUPERIORITY_OR_OTHER||% Ratio of LS Means|65.5||||0.0474|TWO_SIDED|90.0|46.32|92.68||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Normal Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||92.68|46.32|0.0474
82606502|NCT01658514|164928550|SUPERIORITY_OR_OTHER||% Ratio of LS Means|77.3||||0.1691|TWO_SIDED|90.0|56.72|105.41||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Mild RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||105.41|56.72|0.1691
82606503|NCT01658514|164928550|SUPERIORITY_OR_OTHER||% Ratio of LS Means|56.6||||0.0064|TWO_SIDED|90.0|40.73|78.63||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Moderate RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||78.63|40.73|0.0064
82656972|NCT00048568|165029452|SUPERIORITY_OR_OTHER||Estimated Difference|33.4|||<|0.001|TWO_SIDED|95.0|25.1|41.7|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 20 response at Day 365.|||41.7|25.1|<0.001
82606504|NCT01658514|164928550|SUPERIORITY_OR_OTHER||% Ratio of LS Means|54.6||||0.0097|TWO_SIDED|90.0|37.68|79.11||p-values \<0.10 are considered statistically significant|ANOVA|Included treatment, renal group, sequence, period and treatment\*renal group as fixed effects and subject nested within sequence as a random effect.||For the Severe RI Renal Function Cohort. Met XR is the denominator for the % ratio of LS means and the comparator for the p-values.||79.11|37.68|0.0097
82606505|NCT01658514|164928551|SUPERIORITY_OR_OTHER|||||||0.9444|TWO_SIDED|||||R² for Placebo-adjusted Change from Pre-dose Value in Lactate Versus Metformin Concentration|Pearson Correlation|||||||0.9444
82606506|NCT01658514|164928551|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||R² for placebo-adjusted change from pre-dose value in lactate versus metformin concentration|Pearson Correlation|||||||<0.0001
82606507|NCT04325503|164928568|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.0905||||0.015|TWO_SIDED|95.0|0.022|0.159||A priori threshold statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 9||||0.159|0.022|0.015
82606508|NCT04325503|164928569|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.333||||0.694|TWO_SIDED|95.0|-1.55|2.216||A priori threshold for statistical significance is p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 8||||2.216|-1.550|0.694
82606509|NCT04325503|164928570|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|1.444||||0.103|TWO_SIDED|95.0|-0.363|3.252||A priori threshold for statistical significance was p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 8||||3.252|-0.363|0.103
82606510|NCT04325503|164928571|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|-2.09||||0.321|TWO_SIDED|95.0|-6.554|2.372||A priori threshold for statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 10||||2.372|-6.554|0.321
82606511|NCT04325503|164928572|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|0.185||||0.265|TWO_SIDED|95.0|-0.175|0.544|||t-test, 2 sided|Paired samples t-test, df = 7||||0.544|-0.175|0.265
82606512|NCT04325503|164928573|OTHER|A comparison is not being made between two different treatment groups.|Mean Difference (Net)|8.143||||0.027|TWO_SIDED|95.0|1.296|15.0||A priori threshold for statistical significance p \< 0.05|t-test, 2 sided|Paired samples t-test, df = 6||||15.0|1.296|0.0270
82606513|NCT04325503|164928574|OTHER|A comparison is not being made between two different treatment groups.||||||0.153||||||A priori threshold for statistical significance p \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.153
82606514|NCT01642212|164928585|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82606515|NCT01642212|164928586|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-6.75||||0.0096|TWO_SIDED|95.0|-11.808|-1.687||LS mean estimates were determined using an ANCOVA model including treatment group as a factor and the baseline score as a covariate.|ANCOVA|||||-1.687|-11.808|0.0096
82606516|NCT01642212|164928587|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.49||||0.2649|TWO_SIDED|95.0|-6.895|1.92||LS mean estimates were determined using the ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||1.920|-6.895|0.2649
82656973|NCT00048568|165029454|SUPERIORITY_OR_OTHER||Estimated Difference|23.0|||<|0.001|TWO_SIDED|95.0|15.0|31.1|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 50 response at Day 169.|||31.1|15.0|<0.001
82606517|NCT01642212|164928587|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-2.91||||0.2878|TWO_SIDED|95.0|-8.322|2.501||LS mean estimates were determined using the ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||2.501|-8.322|0.2878
82606518|NCT01642212|164928589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0001|TWO_SIDED||||||Fisher Exact|||Analysis of \</= 15 Eosinophils/HPF||||0.0001
82606519|NCT01642212|164928589|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||Analysis of \</= 1 Eosinophils/HPF||||<0.0001
82606520|NCT01642212|164928590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0206|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 30% DSQ score reduction||||0.0206
82606521|NCT01642212|164928590|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0275|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 50% DSQ score reduction||||0.0275
82606522|NCT01642212|164928591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|TWO_SIDED||||||Fisher Exact|||Analysis of response and \>/= 30% DSQ score reduction||||0.0026
82606523|NCT01642212|164928591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0199|TWO_SIDED||||||Fisher Exact|||Analysis of response and \>/= 50% DSQ score reduction||||0.0199
82606524|NCT01642212|164928592|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-22.34|||<|0.0001|TWO_SIDED|95.0|-30.345|-14.334|||ANCOVA|LS mean based on the ANCOVA model including treatment group as a factor and baseline as a covariate.||||-14.334|-30.345|<0.0001
82606525|NCT01642212|164928593|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-3.76|||<|0.0001|TWO_SIDED|95.0|-5.172|-2.358||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||||-2.358|-5.172|<0.0001
82606526|NCT01642212|164928594|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-35.5||||0.0002|TWO_SIDED|95.0|-53.438|-17.57||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of proximal eosinophil count||-17.570|-53.438|0.0002
82606527|NCT01642212|164928594|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-59.56|||<|0.0001|TWO_SIDED|95.0|-84.173|-34.948||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of mid- eosinophil count||-34.948|-84.173|<0.0001
82606528|NCT01642212|164928594|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-67.38|||<|0.0001|TWO_SIDED|95.0|-93.573|-41.18||LS mean estimates based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||Analysis of distal eosinophil count||-41.180|-93.573|<0.0001
82606529|NCT01642212|164928595|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-18.44||||0.0015|TWO_SIDED|95.0|-29.593|-7.293||LS mean estimates were based on the ANCOVA model including treatment group as a factor and baseline value as a covariate.|ANCOVA|||||-7.293|-29.593|0.0015
82606530|NCT01642212|164928596|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117|TWO_SIDED|||||P-value for comparison of the treatment difference was determined by Cochran-Mantel-Haenszel row mean score test.|Cochran-Mantel-Haenszel|||Analysis of distribution of scores across all responses||||0.1170
82606531|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1947|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of heartburn||||0.1947
82606532|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8029|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of chest pain||||0.8029
82606533|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4963|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of regurgitation||||0.4963
82606534|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5257|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of abdominal pain||||0.5257
82606535|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5219|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of nausea||||0.5219
82606536|NCT01642212|164928597|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2886|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. All responses (improved, no change, worsened) were analyzed collectively for each symptom.|Cochran-Mantel-Haenszel|||Analysis of vomiting||||0.2886
82606537|NCT01642212|164928600|SUPERIORITY_OR_OTHER_LEGACY|||||||0.16|TWO_SIDED|||||P-value for comparison of the treatment difference at baseline vs. final treatment evaluation was determined by a Cochran-Mantel-Haenszel row mean score test. Both responses (no change, worsened) were analyzed collectively.|Cochran-Mantel-Haenszel|||Analysis of symptoms of participants with no symptoms at baseline||||0.1600
82606538|NCT01642212|164928602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0606|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 30% DSQ+pain score reduction||||0.0606
82606539|NCT01642212|164928602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0165|TWO_SIDED||||||Pearson's chi-square|||Analysis of \>/= 50% DSQ+pain score reduction||||0.0165
82606540|NCT01642212|164928603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7817|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7817
82606541|NCT01642212|164928604|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.09||||0.1686|TWO_SIDED|95.0|-0.222|0.04||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||0.040|-0.222|0.1686
82606542|NCT01642212|164928604|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.03||||0.8046|TWO_SIDED|95.0|-0.269|0.21||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||0.210|-0.269|0.8046
82606543|NCT01642212|164928604|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|0.01||||0.9239|TWO_SIDED|95.0|-0.199|0.219||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 16||0.219|-0.199|0.9239
82606544|NCT01642212|164928605|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-0.73||||0.4835|TWO_SIDED|95.0|-2.806|1.339||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 8||1.339|-2.806|0.4835
82492318|NCT00304746|164677850|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||For a complete presentation of the above analysis, please see the published paper presenting the full results of this study.|mixed effects linear regression analysis|||Our primary analysis of efficacy was a mixed effects linear regression analysis comparing the rate of change of score on the HAM-D during the blinded treatment phase between groups. Our model for the mean of the outcome variable included terms for treatment, time (modeled as a continuous variable), and treatment-by-time. The measure of effect was the treatment-by-time interaction, which can be interpreted as the difference in slope with respect to time, of the outcome measure.||||0.71
82606545|NCT01642212|164928605|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.92||||0.0662|TWO_SIDED|95.0|-3.974|0.132||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 12||0.132|-3.974|0.0662
82606546|NCT01642212|164928605|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-1.8||||0.1091|TWO_SIDED|95.0|-4.006|0.41||Estimates are determined using an ANCOVA model including treatment group as a factor and baseline DSQ score as a covariate.|ANCOVA|||Analysis of Week 16||0.410|-4.006|0.1091
82606547|NCT00702143|164928635|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||0.0002
82606548|NCT00702143|164928635|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||<0.0001
82606549|NCT00702143|164928635|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Fisher Exact|||Fisher exact test comparing the proportion of amyloid positive subjects between clinical diagnosis groups||||0.0014
82606550|NCT00702143|164928637|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance P value testing for an overall difference in the mean cortical SUVR between the clinical diagnostic groups.||||<0.0001
82606551|NCT00702143|164928637|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||<0.0001
82606552|NCT00702143|164928637|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||<0.0001
82606553|NCT00702143|164928637|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||ANOVA|||Analysis of variance contrast P value testing for difference in the mean cortical SUVR||||0.0003
82656974|NCT00048568|165029455|SUPERIORITY_OR_OTHER||Estimated Difference|30.1|||<|0.001|TWO_SIDED|95.0|21.8|38.5|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving ACR 50 response at Day 365.|||38.5|21.8|<0.001
82606554|NCT03871491|164928652|SUPERIORITY||Risk Ratio (RR)|0.67|||<|0.001|TWO_SIDED|95.0|0.56|0.79||We calculated P values to test each of the primary hypotheses at an alpha level of 0.05 overall, with a nominal alpha level of 0.0001 at the interim analysis.|Regression, Logistic|Used multiple imputation for missing outcomes by means of logistic regression imputation.||The null hypothesis is there is no treatment effect on the incidence of maternal death or sepsis within 6 weeks (42 days) post-delivery||0.79|0.56|<0.001
82606555|NCT03871491|164928653|SUPERIORITY||Risk Ratio (RR)|1.02||||0.56|TWO_SIDED|95.0|0.95|1.09||We calculated P values to test each of the primary hypotheses at an alpha level of 0.05 overall, with a nominal alpha level of 0.0001 at the interim analysis.|Regression, Logistic|Used multiple imputation for missing outcomes by means of logistic regression imputation.||The null hypothesis is there is no treatment effect on the incidence of Intrapartum/Neonatal Death or Sepsis Within 4 Weeks (28 Days) Post-delivery in Intervention vs. Placebo Group||1.09|0.95|0.56
82606556|NCT03871491|164928654|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.55|0.77||||||||0.77|0.55|
82606557|NCT03871491|164928655|SUPERIORITY||Risk Ratio (RR)|4.04|||||TWO_SIDED|95.0|0.45|36.14||||||||36.14|0.45|
82606558|NCT03871491|164928657|SUPERIORITY||Risk Ratio (RR)|0.66|||||TWO_SIDED|95.0|0.55|0.79||||||||0.79|0.55|
82606559|NCT03871491|164928658|SUPERIORITY||Risk Ratio (RR)|0.57|||||TWO_SIDED|95.0|0.43|0.75||||||||0.75|0.43|
82606560|NCT03871491|164928659|SUPERIORITY||Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.65|0.99||||||||0.99|0.65|
82606561|NCT03871491|164928660|SUPERIORITY||Risk Ratio (RR)|0.69|||||TWO_SIDED|95.0|0.56|0.85||||||||0.85|0.56|
82656975|NCT00048568|165029457|SUPERIORITY_OR_OTHER||Estimated Difference|13.3|||<|0.001|TWO_SIDED|95.0|7.0|19.5|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA + MTX and MTX + PLA in the proportion of participants achieving ACR 70 response at Day 169.|||19.5|7.0|<0.001
82656976|NCT00048568|165029458|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.7|||<|0.001|TWO_SIDED|95.0|15.6|29.8|||Chi-squared, Corrected|||||29.8|15.6|<0.001
82656977|NCT00048568|165029460|SUPERIORITY_OR_OTHER||Estimated Difference|12.3|||<|0.001|TWO_SIDED|95.0|7.3|17.2|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving MCR.|||17.2|7.3|<0.001
82656978|NCT00048568|165029461|SUPERIORITY_OR_OTHER||Estimated Difference on Day 169|-1.15|||<|0.001|TWO_SIDED|95.0|-1.38|-0.91|||ANCOVA||Estimated difference between ABA + MTX and MTX + PLA on Day 169.|||-0.91|-1.38|<0.001
82656979|NCT00048568|165029461|SUPERIORITY_OR_OTHER||Estimated Difference on Day 365|-1.39|||<|0.001|TWO_SIDED|95.0|-1.63|-1.16|||ANCOVA||Estimated difference between ABA + MTX and MTX + PLA on Day 365.|||-1.16|-1.63|<0.001
82656980|NCT00048568|165029465|SUPERIORITY_OR_OTHER||Adjusted Mean Difference at Day 169|4.06|||<|0.001|TWO_SIDED|95.0|2.64|5.57|||ANCOVA|||Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||5.57|2.64|<0.001
82656981|NCT00048568|165029465|SUPERIORITY_OR_OTHER||Adjusted Mean Difference at Day 365|4.15|||<|0.001|TWO_SIDED|95.0|2.69|5.62|||ANCOVA|||Adjustment based on ANCOVA model with treatment as factor and baseline value as covariate.||5.62|2.69|<0.001
82656982|NCT00048568|165029466|SUPERIORITY_OR_OTHER||Estimated Difference|5.7||||0.002|TWO_SIDED|95.0|2.4|9.0|||Chi-squared, Corrected||Estimated difference between ABA + MTX and MTX + PLA is the estimated difference between ABA+MTX and MTX + PLA in the proportion of participants achieving extended MCR.|||9.0|2.4|0.002
82656983|NCT03831048|165029592|NON_INFERIORITY|The primary analysis of this endpoint will be performed using a linear probability model, with the following terms in the model: (1) treatment; and (2) the known donor and recipient risk factors listed above. Variables that make the model fail to converge will be dropped from the model. The test will be conducted at the one-sided 0.05 level of significance.|Mean Difference (Final Values)|-0.032|||<|0.0001|TWO_SIDED|90.0|-0.098|0.034||No multiple comparison adjustment.|Regression, Linear|||"The null and alternative hypotheses for the primary endpoint are as follows:~H0: pSOC - pDCD ≥ 0.20 vs. H1: pSOC - pDCD \< 0.20 where pDCD and pSOC represent the true survival proportions at the six months follow-up visit for DCD and SOC heart transplant patients, respectively."||0.034|-0.098|<0.0001
82606562|NCT03871491|164928661|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.95|1.01||||||||1.01|0.95|
82606563|NCT03871491|164928663|SUPERIORITY||Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.52|0.82||||||||0.82|0.52|
82606564|NCT03871491|164928664|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.7|1.15||||||||1.15|0.70|
82606565|NCT03871491|164928665|SUPERIORITY||Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.73|0.84||||||||0.84|0.73|
82606566|NCT03871491|164928666|SUPERIORITY||Risk Ratio (RR)|1.09|||||TWO_SIDED|95.0|0.84|1.41||||||||1.41|0.84|
82606567|NCT03871491|164928667|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.96|1.1||||||||1.1|0.96|
82656984|NCT03831048|165029593|OTHER|No hypothesis test.||||||||||||||||No null hypothesis test.|No statistical hypothesis testing. This endpoint will be summarized for the OCS Heart Population using counts and percentages and an exact (Clopper-Pearson) 95% confidence interval for the true percentage based on the binomial distribution. It will also be summarized for the modified OCS Heart Population, defined as the number of DCD hearts that were successfully transplanted after preservation and assessment on the OCS divided by the total number of DCD donor hearts that were instrumented on the OCS.|||
82492319|NCT02527161|164677910|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82606568|NCT03871491|164928668|SUPERIORITY||Risk Ratio (RR)|1.04|||||TWO_SIDED|95.0|0.73|1.47||||||||1.47|0.73|
82606569|NCT03871491|164928669|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.88|1.07||||||||1.07|0.88|
82606570|NCT03871491|164928671|SUPERIORITY||Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.96|1.21||||||||1.21|0.96|
82606571|NCT03871491|164928672|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.94|1.12||||||||1.12|0.94|
82606572|NCT03871491|164928673|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.93|1.0||||||||1.0|0.93|
82606573|NCT03871491|164928674|SUPERIORITY||Risk Ratio (RR)|2.68|||||TWO_SIDED|95.0|0.71|10.1||||||||10.1|0.71|
82656985|NCT01027780|165029601|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||Please note that this analysis tested the differences between groups following the intervention.|GEE|Generalized estimating equations (GEE) approach was used to assess robustness of population parameters, such as treatment effects.||||||.007
82656986|NCT01027780|165029602|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||Note that this is the p value for differences between groups immediately following the intervention|GEE|Generalized estimating equations (GEE) approach was used to assess robustness of population parameters, such as treatment effects.||||||.04
82606574|NCT05202808|164928677|NON_INFERIORITY|"The endothelial cell loss (ECL) at 6 months was compared between the LAL and Control groups. The statistical hypothesis is:~* H0: Median(LAL) - Median(control) ≥ 5% vs~* Ha: Median(LAL) - Median(control) \< 5%~The median ECL for the LAL group is at most 5% higher than the median ECL for the Control group.~The first co-primary safety endpoint is met if the median ECL of the LAL group is non-inferior to the Control group using a right-tail Wilcoxon test using a significance level of 0.05."|Median Difference (Final Values)|0.2|||<|0.0001|TWO_SIDED|90.0|-1.0|1.66|||Wilcoxon (Mann-Whitney)|||With a one-sided significance level of 0.05, a power of 0.80, a randomization ratio of 2:1, and then the Mann-Whitney-Wilcoxon asymptotic relative efficiency (A.R.E.) efficiency adjustment, the sample size per two-sample t-test is 192 LAL eyes and 96 Control eyes (total of 288), with an assumed dropout rate of 10%.||1.66|-1.00|<0.0001
82606575|NCT05202808|164928679|OTHER||Odds Ratio (OR)|4.61|||||TWO_SIDED|95.0|2.97|7.15|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and Control group is the denominator. At Month 6, the odds of achieving UCDVA of 20/20 or better were 4.61 times greater for the LAL group than the Control group.|||7.15|2.97|
82606576|NCT05202808|164928680|OTHER||Odds Ratio (OR)|20.74|||||TWO_SIDED|95.0|12.05|36.14|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and the Control group is the denominator. The odds of achieving Absolute MRCYL of 0.5D or less was 20.74 for the LAL group versus the Control group at month 6.|||36.14|12.05|
82606577|NCT05202808|164928681|OTHER||Odds Ratio (OR)|14.46|||||TWO_SIDED|95.0|8.89|23.57|||||Light adjustable lens (LAL) and Light Delivery Device (LDD) group is the numerator and the Control group is the denominator. The odds of achieving simultaneous Absolute MRSE and MRCL of 0.5 D or less was 14.46 in the LAL group vs. Control at month 6.|||23.57|8.89|
82606578|NCT04996797|164928682|SUPERIORITY||Risk Difference (RD)|25.0|||<|0.0001|TWO_SIDED|95.0|11.8|36.5|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||36.5|11.8|<.0001
82656987|NCT01027780|165029603|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||Difference between groups following intervention|ANOVA|||||||.03
82656988|NCT03227445|165029615|SUPERIORITY||Odds Ratio (OR)|6.88|||<|0.001|TWO_SIDED|95.0|1.97|54.28|||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.||"There are three intercurrent events identified which could impact upon the estimand of interest:~* The participant could withdraw from randomised study device sequence and therefore withdraw from the study~* The participant could change their standard COPD maintenance medication device to one delivered via ELLIPTA, DISKUS or HANDIHALER; these subjects should have been withdrawn from the study according to the protocol.~* The participant could attend the visit without the device/s they were randomised to, in which case correct use cannot be assessed as described in the protocol.~Rescue Medication use and change to maintenance COPD medication which is not delivered via ELLIPTA, DISKUS or HANDIHALER are not considered intercurrent events"|54.28|1.97|<0.001
82656989|NCT03227445|165029617|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Primary Estimand: Hypothetical)||||||<0.001
82606579|NCT04996797|164928685|SUPERIORITY||Risk Difference (RD)|30.8|||<|0.0001|TWO_SIDED|95.0|17.4|43.2|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||43.2|17.4|<0.0001
82606580|NCT04996797|164928686|SUPERIORITY||Risk Difference (RD)|43.8|||<|0.0001|TWO_SIDED|95.0|27.4|56.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||56.9|27.4|<.0001
82606581|NCT04996797|164928687|SUPERIORITY||Risk Difference (RD)|20.8||||0.0224||95.0|2.1|37.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factor of biologic status.|95% CI is estimated using Newcombe method for risk difference.|||37.9|2.1|0.0224
82606582|NCT04996797|164928688|SUPERIORITY||Risk Difference (RD)|13.1||||0.0223||95.0|1.8|24.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||24.6|1.8|0.0223
82606583|NCT04996797|164928689|SUPERIORITY||Risk Difference (RD)|28.6||||0.0009||95.0|12.1|42.9|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||42.9|12.1|0.0009
82606584|NCT04996797|164928690|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.0001||95.0|14.3|39.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||39.6|14.3|<0.0001
82606585|NCT04996797|164928691|SUPERIORITY||Risk Difference (RD)|17.9||||||95.0|-2.4|36.4|||||95% CI is estimated using Newcombe method for risk difference.|||36.4|-2.4|
82606586|NCT04996797|164928692|SUPERIORITY||Risk Difference (RD)|22.8||||||95.0|0.4|42.2|||||95% CI is estimated using Newcombe method for risk difference.|||42.2|0.4|
82606587|NCT04996797|164928693|SUPERIORITY||Risk Difference (RD)|10.2||||||95.0|-6.9|26.9|||||95% CI is estimated using Newcombe method for risk difference.|||26.9|-6.9|
82606588|NCT04996797|164928694|SUPERIORITY||Risk Difference (RD)|28.9||||||95.0|5.0|48.3|||||95% CI is estimated using Newcombe method for risk difference.|||48.3|5.0|
82606589|NCT04996797|164928695|SUPERIORITY||Risk Difference (RD)|22.2|||||TWO_SIDED|95.0|0.2|41.0|||||95% CI is estimated using Newcombe method for risk difference.|||41.0|0.2|
82606590|NCT04996797|164928696|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.0001|TWO_SIDED|95.0|14.3|39.6|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||39.6|14.3|<0.0001
82656990|NCT03227445|165029622|SUPERIORITY||Odds Ratio (OR)|8.85|||<|0.001|TWO_SIDED|95.0|3.45||The upper bound of the 95% CI could not be calculated due to the low number of events and is therefore displayed as NA.||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.||||3.45|<0.001
82656991|NCT03227445|165029623|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Supplementary Estimand: Composite)||||||<0.001
82606591|NCT04996797|164928697|SUPERIORITY||Risk Difference (RD)|22.2||||||95.0|0.2|41.0|||||95% CI is estimated using Newcombe method for risk difference.|||41.0|0.2|
82656992|NCT03227445|165029624|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Primary Estimand: Hypothetical)||||||<0.001
82656993|NCT03227445|165029625|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Sensitivity Analyses (Supplementary Composite Estimand)||||||<0.001
82656994|NCT03227445|165029626|SUPERIORITY||Odds Ratio (OR)|6.06|||<|0.001|TWO_SIDED|95.0|2.08|24.55|||stratified exact logistic model||Participants included in the model as fixed strata, treatment option was included in the exact statement and period included as fixed effects.|||24.55|2.08|<0.001
82656995|NCT00365300|165029632|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.004||||1|||||||Fisher Exact|||||||1.0
82656996|NCT00771537|165029641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED|95.0|0.5|0.96|||Regression, Logistic||Women in the 1-sided message group accepted testing at a lower rate (79.4%) than those in the control group (87.4%).|||.96|.50|0.05
82656997|NCT00771537|165029641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|STANDARD_ERROR_OF_MEAN|0.17||0.1|TWO_SIDED|95.0|0.54|1.04|||Regression, Logistic||Women in the 2-sided trivial group were no different in their acceptance rate of HIV testing (81.3%) than women in the control group (87.4%).|||1.04|.54|.10
82656998|NCT00771537|165029641|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92|STANDARD_ERROR_OF_MEAN|0.176||0.63|TWO_SIDED|95.0|0.65|1.3|||Regression, Logistic||Women in the 2-sided major group were no different in rates of accepting HIV testing (83.9%) than women in the control group (87.4%)|||1.30|.65|.63
82656999|NCT00771537|165029642|SUPERIORITY_OR_OTHER||Marginal Means|2.49|STANDARD_ERROR_OF_MEAN|0.037|<|0.6|TWO_SIDED|95.0|2.42|2.56|||ANOVA|Degrees of freedom = (1,978)|There was no significant effect for the 1-sided message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-way Analysis of Variance||2.56|2.42|<.60
82657000|NCT00771537|165029642|SUPERIORITY_OR_OTHER||Marginal Means|2.51|STANDARD_ERROR_OF_MEAN|0.036|<|0.25|TWO_SIDED|95.0|2.44|2.58|||ANOVA|degrees of freedom = (1,1028)|There was no significant effect for the 2-sided trivial message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-Way Analysis of Variance||2.58|2.44|<.25
82657001|NCT00771537|165029642|SUPERIORITY_OR_OTHER||Marginal Means|2.47|STANDARD_ERROR_OF_MEAN|0.036|<|0.91|TWO_SIDED|95.0|2.4|2.54|||ANOVA||There was no significant effect for the 2-sided major message compared to the control group on Willingness to Participate in an HIV vaccine clinical trial.|One-Way Analysis of Variance||2.54|2.40|<.91
82657002|NCT01029353|165029662|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.87|1.14|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis. Model included treatment, baseline risk of death or NDI, and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) as covariates.||1.14|0.87|
82657003|NCT01029353|165029662|OTHER|||||||0.03||||||Pre-specified threshold = 0.05|Robust Poisson regression|||A frequentist analysis. Using Robust Poisson regression with log link and center as repeated measure, and effect coding, test for an interaction between treatment (Initial Laparotomy/Initial Peritoneal Drain) and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) as covariates. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-operative diagnosis as covariates.||||0.03
82657004|NCT01029353|165029662|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.82, 1.11).|||
82657005|NCT01029353|165029662|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.75|1.26|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariate.|A frequentist analysis. Model included treatment, baseline risk of death or NDI, and pre-operative diagnosis (Necrotizing Enterocolitis (NEC) or Isolated Intestinal Perforation (IP)) covariates.||1.26|0.75|
82657006|NCT01029353|165029663|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.69|1.45|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.45|0.69|
82492320|NCT02527161|164677911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS Pain||||<0.0001
82606592|NCT04996797|164928698|SUPERIORITY||Risk Difference (RD)|33.1|||<|0.0001||95.0|17.2|46.8|||Cochran-Mantel-Haenszel|P-value is computed using Cochran-Mantel Haenszel (CMH) test with stratification factors of biologic status and CDx status.|95% CI is estimated using Newcombe method for risk difference.|||46.8|17.2|<0.0001
82606593|NCT04996797|164928699|SUPERIORITY||Risk Difference (RD)|19.6||||||95.0|-1.7|38.7|||||95% CI is estimated using Newcombe method for risk difference.|||38.7|-1.7|
82606594|NCT02747004|164928821|SUPERIORITY|||||||0.293||||||Two-sided P-value.|Log Rank|Stratified by the randomization factors of presence of liver metastases and prior use of Tamoxifen in the advanced/metastatic setting.||||||0.2930
82606595|NCT02747004|164928821|OTHER|Informal phase 2 non-inferiority.|Hazard Ratio (HR)|1.045|||||TWO_SIDED|95.0|0.711|1.535|||Log Rank|Stratified by the randomization factors of presence of liver metastases and prior use of Tamoxifen in the advanced/metastatic setting.||||1.535|0.711|
82606596|NCT05087030|164928831|NON_INFERIORITY|The analysis was performed with an ANCOVA model with %CfB in lumbar spine BMD at Week 52 as the dependent variable, covariates were treatment arm (RGB-14-P and US-licensed Prolia).|Estimated Difference|0.18|||||TWO_SIDED|90.0|-0.465|0.826|||ANCOVA|||||0.826|-0.465|
82606597|NCT05087030|164928831|SUPERIORITY|Non-Superiority Test|Estimated Difference|0.55|||||TWO_SIDED|90.0|-0.099|1.191|||ANCOVA|||||1.191|-0.099|
82606598|NCT05087030|164928832|OTHER||Geometric mean ratio|1.01||||0.494|TWO_SIDED|95.0|0.978|1.046|||ANCOVA|||Comparison between Study Treatment Groups||1.046|0.978|0.494
82606599|NCT05087030|164928833|OTHER||Estimated difference|-0.31||||0.199|TWO_SIDED|95.0|-0.792|0.165|||Mixed model repeated measures|||at Week 26||0.165|-0.792|0.199
82606600|NCT05087030|164928833|OTHER||Estimated difference|-0.16||||0.543|TWO_SIDED|95.0|-0.68|0.358|||mixed model repeated measures|||At Week 52||0.358|-0.680|0.543
82657007|NCT01029353|165029663|SUPERIORITY|A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|||||||||||||||||Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.69, 1.30).|||
82606601|NCT05087030|164928834|OTHER||Estimated Difference|0.03||||0.929|TWO_SIDED|95.0|-0.703|0.769|||mixed model for repeated measures|||Week 26||0.769|-0.703|0.929
82606602|NCT01444300|164928844|SUPERIORITY_OR_OTHER|||||||0.51|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo||||0.51
82606603|NCT01444300|164928845|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo after 12 weeks.||||0.7
82606604|NCT01444300|164928846|SUPERIORITY_OR_OTHER|||||||0.8|||||||t-test, 2 sided|||t test comparing change in outcome between active and placebo||||0.8
82606605|NCT03658954|164928877|SUPERIORITY|||||||0.75|||||||Mixed Models Analysis|||Testing for group effect.||||0.75
82606606|NCT03658954|164928878|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||Testing for group effect.||||0.05
82606607|NCT03658954|164928879|SUPERIORITY|||||||0.02|||||||Mixed Models Analysis|||Testing for group effect.||||0.02
82606608|NCT04885257|164928882|SUPERIORITY|||||||0.896|||||||Wilcoxon (Mann-Whitney)|||||||0.896
82606609|NCT00741819|164928895|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.0|STANDARD_DEVIATION|35.9|<|0.001||95.0|||||Wilcoxon signed rank test]||Change in 6MWD from Baseline was calculated for patients still remaining on study at Week 12.|Analysis of endpoints was descriptive in nature. Numeric endpoints for post-baseline assessments were compared to Baseline using Wilcoxon signed rank test, and p-values were calculated for descriptive purposes; no formal hypothesis testing was planned.||||<0.001
82606610|NCT00741819|164928896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_DEVIATION|7.7|<|0.001|||||||Wilcoxon signed rank test||Analysis based on Total CAMPHOR Score.|||||<0.001
82606611|NCT00741819|164928897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_DEVIATION|21.3||0.895||95.0|||||Wilcoxon signed-rank test||Side-Effects Score, change from Baseline to Week 12|||||0.895
82606612|NCT00741819|164928897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|38.3|STANDARD_DEVIATION|25.9|<|0.001||95.0|||||Wilcoxon signed-rank test||Convenience Score, change from Baseline to Week 12|||||<0.001
82606613|NCT00741819|164928897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.0|STANDARD_DEVIATION|23.7|<|0.001||95.0|||||Wilcoxon signed-rank test||Global Satisfaction, change from Baseline to Week 12|||||<0.001
82606614|NCT00741819|164928897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.9|STANDARD_DEVIATION|21.5|<|0.001||95.0|||||Wilcoxon signed rank test||Effectiveness score, change from Baseline to Week 12|||||<0.001
82606615|NCT00741819|164928899|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon signed-rank test|||||||0.001
82606616|NCT02863198|164928902|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82606617|NCT02863198|164928903|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82606618|NCT02863198|164928904|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|Chi-squared|||||||<0.05
82606619|NCT02863198|164928905|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82606620|NCT02863198|164928906|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|t-test, 2 sided|||||||<0.05
82606621|NCT02863198|164928907|SUPERIORITY_OR_OTHER||||||<|0.05||||||All included p-values are calculated from collected data and not threshold values for statical significance|Chi-squared|||||||<0.05
82606622|NCT00609622|164928908|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.705||||0.9963|TWO_SIDED|95.0|1.272|5.751|||Log Rank|||P-value was calculated from a 1-sided, log-rank test stratified for Eastern Cooperative Oncology Group (ECOG) Performance Status (0 vs. 1), Baseline Lactate Dehydrogenase (LDH): greater than (\>) 1.5 vs. less than or equal to (\<=) 1.5 \* upper limit of normal range (ULN), and Prior Adjuvant Treatment (yes vs. no).||5.751|1.272|0.9963
82606623|NCT00609622|164928909|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.618||||0.9289|TWO_SIDED|95.0|0.845|3.096|||Log Rank|||P-value was calculated from a 1-sided, log-rank test stratified for ECOG Performance Status (0 vs. 1), Baseline LDH: \>1.5 vs. \<=1.5 \* ULN, and Prior Adjuvant Treatment (yes vs. no).||3.096|0.845|0.9289
82657008|NCT01029353|165029664|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|0.78|1.34|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis. Estimate based on model fit using only data from study survivors.||1.34|0.78|
82657009|NCT01029353|165029664|SUPERIORITY|||||||||||||||||A Bayesian analysis among study survivors. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.99, 95% credible interval of (0.78, 1.25).|||
82657010|NCT01029353|165029665|SUPERIORITY||Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.66|1.06|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.06|0.66|
82657011|NCT01029353|165029665|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.65, 1.02).|||
82657012|NCT01029353|165029666|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.89|1.18|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.18|0.89|
82657013|NCT01029353|165029666|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.98, 95% credible interval of (0.84, 1.15).|||
82657014|NCT01029353|165029667|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.64|1.31|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.31|0.64|
82657015|NCT01029353|165029667|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.86, 95% credible interval of (0.64, 1.16).|||
82657016|NCT01029353|165029668|SUPERIORITY||Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.69|1.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.36|0.69|
82657017|NCT01029353|165029668|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.92, 95% credible interval of (0.68, 1.25).|||
82657018|NCT01029353|165029669|SUPERIORITY||Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.35|0.63|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||0.63|0.35|
82492321|NCT02527161|164677911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013|||||||ANOVA|||Change from 6 weeks to 3 months KOOS Pain||||0.0013
82492322|NCT02527161|164677911|SUPERIORITY|||||||0.3316|||||||ANOVA|||Change from 3 months to 6 months KOOS Pain||||0.3316
82657019|NCT01029353|165029669|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.51, 95% credible interval of (0.37, 0.69).|||
82657020|NCT01029353|165029670|SUPERIORITY||Risk Ratio (RR)|1.57|||||TWO_SIDED|95.0|1.04|2.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.36|1.04|
82606624|NCT00609622|164928912|SUPERIORITY_OR_OTHER||F-Distribution|3.956||||0.5898|TWO_SIDED|95.0|-10.412|18.324|||Chi-squared|||||18.324|-10.412|0.5898
82657021|NCT01029353|165029670|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.45, 95% credible interval of (0.92, 2.31).|||
82606625|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4||||0.0515|TWO_SIDED|95.0|-2.82|0.01|||t-test, 2 sided|||Differences in PWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.01|-2.82|0.0515
82657022|NCT01029353|165029671|SUPERIORITY||Risk Ratio (RR)|1.58|||||TWO_SIDED|95.0|0.71|3.5|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||3.50|0.71|
82657023|NCT01029353|165029671|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.31, 95% credible interval of (0.66, 2.62).|||
82657024|NCT01029353|165029672|SUPERIORITY|||||||||||||||||A frequentist analysis.|This analysis used model identical to other by treatment analyses for binary outcome. RR estimated from robust Poisson regression with log link, reference cell coding, center as repeated measure. RR: Initial Laparotomy over Peritoneal Drain. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates. However, adjusted RR estimates could not be calculated due to the iteration limit being excessed in PROC GENMOD.|||
82657025|NCT01029353|165029672|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.16, 95% credible interval of (0.50, 2.65).|||
82657026|NCT01029353|165029673|SUPERIORITY||Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.34|2.2|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.20|0.34|
82606626|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.45||||0.0876|TWO_SIDED|95.0|-3.11|0.22|||t-test, 2 sided|||Differences in PWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.22|-3.11|0.0876
82606627|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.81||||0.0522|TWO_SIDED|95.0|-3.64|0.02|||t-test, 2 sided|||Differences in PWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.02|-3.64|0.0522
82606628|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.64||||0.1339|TWO_SIDED|95.0|-3.81|0.52|||t-test, 2 sided|||Differences in PWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||0.52|-3.81|0.1339
82606629|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.05||||0.4233|TWO_SIDED|95.0|-3.68|1.57|||t-test, 2 sided|||Differences in PWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||1.57|-3.68|0.4233
82606630|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.97||||0.2211|TWO_SIDED|95.0|-5.18|1.24|||t-test, 2 sided|||Differences in PWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.24|-5.18|0.2211
82606631|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41||||0.8184|TWO_SIDED|95.0|-3.22|4.04|||t-test, 2 sided|||Differences in PWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||4.04|-3.22|0.8184
82606632|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.9||||0.038|TWO_SIDED|95.0|0.57|17.23|||t-test, 2 sided|||Differences in PWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||17.23|0.57|0.0380
82606633|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.6||||0.3266|TWO_SIDED|95.0|-6.61|17.81|||t-test, 2 sided|||Differences in PWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||17.81|-6.61|0.3266
82606634|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.75||||0.4667|TWO_SIDED|95.0|-16.26|27.76|||t-test, 2 sided|||Differences in PWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||27.76|-16.26|0.4667
82606635|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in PWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606636|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.5587|TWO_SIDED|95.0|-2.8|1.52|||t-test, 2 sided|||Differences in PWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.52|-2.80|0.5587
82657027|NCT01029353|165029673|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.93, 95% credible interval of (0.45, 1.91).|||
82657028|NCT01029353|165029674|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.37|1.42|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.42|0.37|
82492323|NCT02527161|164677911|SUPERIORITY|||||||0.3366|||||||ANOVA|||Change from 6 months to 1 year KOOS Pain||||0.3366
82606637|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.6122|TWO_SIDED|95.0|-1.37|0.81|||t-test, 2 sided|||Differences in SWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.81|-1.37|0.6122
82606638|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.4642|TWO_SIDED|95.0|-1.87|0.86|||t-test, 2 sided|||Differences in SWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.86|-1.87|0.4642
82606639|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.94||||0.2105|TWO_SIDED|95.0|-2.41|0.54|||t-test, 2 sided|||Differences in SWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.54|-2.41|0.2105
82606640|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.195|TWO_SIDED|95.0|-0.57|2.76|||t-test, 2 sided|||Differences in SWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||2.76|-0.57|0.1950
82606641|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6||||0.5779|TWO_SIDED|95.0|-1.55|2.75|||t-test, 2 sided|||Differences in SWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.75|-1.55|0.5779
82606642|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.67||||0.6314|TWO_SIDED|95.0|-2.15|3.5|||t-test, 2 sided|||Differences in SWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||3.50|-2.15|0.6314
82606643|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.51||||0.7554|TWO_SIDED|95.0|-2.85|3.87|||t-test, 2 sided|||Differences in SWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||3.87|-2.85|0.7554
82606644|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.94||||0.3781|TWO_SIDED|95.0|-13.22|5.34|||t-test, 2 sided|||Differences in SWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||5.34|-13.22|0.3781
82606645|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.85||||0.5715|TWO_SIDED|95.0|-13.83|8.13|||t-test, 2 sided|||Differences in SWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||8.13|-13.83|0.5715
82606646|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.58||||0.1271|TWO_SIDED|95.0|-19.08|3.93|||t-test, 2 sided|||Differences in SWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||3.93|-19.08|0.1271
82606647|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in SWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606648|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.6785|TWO_SIDED|95.0|-1.03|1.58|||t-test, 2 sided|||Differences in SWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.58|-1.03|0.6785
82606649|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.4623|TWO_SIDED|95.0|-1.63|0.74|||t-test, 2 sided|||Differences in EWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.74|-1.63|0.4623
82606650|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.9302|TWO_SIDED|95.0|-1.31|1.2|||t-test, 2 sided|||Differences in EWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||1.20|-1.31|0.9302
82606651|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.7502|TWO_SIDED|95.0|-1.84|1.33|||t-test, 2 sided|||Differences in EWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||1.33|-1.84|0.7502
82606652|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.9335|TWO_SIDED|95.0|-2.12|1.95|||t-test, 2 sided|||Differences in EWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.95|-2.12|0.9335
82657029|NCT01029353|165029674|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.75, 95% credible interval of (0.48, 1.16).|||
82606653|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.9191|TWO_SIDED|95.0|-2.4|2.17|||t-test, 2 sided|||Differences in EWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.17|-2.40|0.9191
82606654|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.675|TWO_SIDED|95.0|-3.46|2.27|||t-test, 2 sided|||Differences in EWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||2.27|-3.46|0.6750
82606655|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.88||||0.5874|TWO_SIDED|95.0|-4.2|2.43|||t-test, 2 sided|||Differences in EWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||2.43|-4.20|0.5874
82606656|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.27||||0.4507|TWO_SIDED|95.0|-7.53|16.06|||t-test, 2 sided|||Differences in EWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||16.06|-7.53|0.4507
82606657|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.9||||0.3087|TWO_SIDED|95.0|-4.28|12.08|||t-test, 2 sided|||Differences in EWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||12.08|-4.28|0.3087
82606658|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.9635|TWO_SIDED|95.0|-16.26|15.76|||t-test, 2 sided|||Differences in EWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||15.76|-16.26|0.9635
82606659|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in EWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82657030|NCT01029353|165029675|SUPERIORITY||Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.7|1.15|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.15|0.70|
82606660|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42||||0.6699|TWO_SIDED|95.0|-2.37|1.53|||t-test, 2 sided|||Differences in EWB between treatment arms (EOT) was analyzed from a two-sample t-test.||1.53|-2.37|0.6699
82606661|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.34||||0.0055|TWO_SIDED|95.0|-3.98|-0.7|||t-test, 2 sided|||Differences in FWB between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||-0.70|-3.98|0.0055
82606662|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.04||||0.2793|TWO_SIDED|95.0|-2.92|0.85|||t-test, 2 sided|||Differences in FWB between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.85|-2.92|0.2793
82606663|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.09||||0.2999|TWO_SIDED|95.0|-3.17|0.99|||t-test, 2 sided|||Differences in FWB between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.99|-3.17|0.2999
82606664|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.27||||0.327|TWO_SIDED|95.0|-3.82|1.29|||t-test, 2 sided|||Differences in FWB between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.29|-3.82|0.3270
82606665|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.9779|TWO_SIDED|95.0|-2.39|2.45|||t-test, 2 sided|||Differences in FWB between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.45|-2.39|0.9779
82606666|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.8344|TWO_SIDED|95.0|-4.25|3.45|||t-test, 2 sided|||Differences in FWB between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||3.45|-4.25|0.8344
82606667|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.46||||0.5494|TWO_SIDED|95.0|-3.5|6.41|||t-test, 2 sided|||Differences in FWB between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||6.41|-3.50|0.5494
82606668|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.0||||0.0136|TWO_SIDED|95.0|3.15|22.85|||t-test, 2 sided|||Differences in FWB between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||22.85|3.15|0.0136
82606669|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.78||||0.0247|TWO_SIDED|95.0|2.26|25.29|||t-test, 2 sided|||Differences in FWB between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||25.29|2.26|0.0247
82606670|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0||||0.3527|TWO_SIDED|95.0|-12.91|22.91|||t-test, 2 sided|||Differences in FWB between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||22.91|-12.91|0.3527
82606671|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in FWB between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606672|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.76||||0.1309|TWO_SIDED|95.0|-4.05|0.53|||t-test, 2 sided|||Differences in FWB between treatment arms (EOT) was analyzed from a two-sample t-test.||0.53|-4.05|0.1309
82606673|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.36||||0.051|TWO_SIDED|95.0|-2.72|0.01|||t-test, 2 sided|||Differences in CCS between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.01|-2.72|0.0510
82606674|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74||||0.3858|TWO_SIDED|95.0|-2.44|0.95|||t-test, 2 sided|||Differences in CCS between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.95|-2.44|0.3858
82606675|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.88||||0.3943|TWO_SIDED|95.0|-2.9|1.15|||t-test, 2 sided|||Differences in CCS between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||1.15|-2.90|0.3943
82606676|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.13||||0.3499|TWO_SIDED|95.0|-3.53|1.27|||t-test, 2 sided|||Differences in CCS between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||1.27|-3.53|0.3499
82606677|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.9567|TWO_SIDED|95.0|-2.64|2.5|||t-test, 2 sided|||Differences in CCS between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||2.50|-2.64|0.9567
82606678|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.77||||0.2901|TWO_SIDED|95.0|-5.12|1.58|||t-test, 2 sided|||Differences in CCS between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.58|-5.12|0.2901
82606679|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.07||||0.5857|TWO_SIDED|95.0|-5.05|2.92|||t-test, 2 sided|||Differences in CCS between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||2.92|-5.05|0.5857
82606680|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.9635|TWO_SIDED|95.0|-12.56|12.02|||t-test, 2 sided|||Differences in CCS between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||12.02|-12.56|0.9635
82606681|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4||||0.685|TWO_SIDED|95.0|-15.36|10.56|||t-test, 2 sided|||Differences in CCS between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||10.56|-15.36|0.6850
82606682|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.75||||0.4968|TWO_SIDED|95.0|-19.23|11.73|||t-test, 2 sided|||Differences in CCS between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||11.73|-19.23|0.4968
82606683|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in CCS between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606684|NCT00609622|164928914|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.58||||0.5891|TWO_SIDED|95.0|-2.71|1.55|||t-test, 2 sided|||Differences in CCS between treatment arms (EOT) was analyzed from a two-sample t-test.||1.55|-2.71|0.5891
82606685|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.5081|TWO_SIDED|95.0|-2.5|1.24|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||1.24|-2.50|0.5081
82606686|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.6977|TWO_SIDED|95.0|-2.67|1.79|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||1.79|-2.67|0.6977
82606687|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.76||||0.0797|TWO_SIDED|95.0|-5.85|0.33|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.33|-5.85|0.0797
82606688|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22||||0.5808|TWO_SIDED|95.0|-5.62|3.17|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||3.17|-5.62|0.5808
82606689|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03||||0.7046|TWO_SIDED|95.0|-6.44|4.38|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||4.38|-6.44|0.7046
82606690|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.18||||0.2052|TWO_SIDED|95.0|-2.4|10.76|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||10.76|-2.40|0.2052
82606691|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.27||||0.0483|TWO_SIDED|95.0|0.07|16.46|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||16.46|0.07|0.0483
82606692|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.93||||0.6832|TWO_SIDED|95.0|-16.41|24.26|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||24.26|-16.41|0.6832
82606693|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0||||0.9081|TWO_SIDED|95.0|-18.05|20.05|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||20.05|-18.05|0.9081
82606694|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.75||||0.7289|TWO_SIDED|95.0|-12.88|16.38|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||16.38|-12.88|0.7289
82606695|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606696|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.74||||0.6921|TWO_SIDED|95.0|-4.43|2.95|||t-test, 2 sided|||Differences in neurotoxicity between treatment arms (EOT) was analyzed from a two-sample t-test.||2.95|-4.43|0.6921
82606697|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.9788|TWO_SIDED|95.0|-0.19|0.19|||t-test, 2 sided|||Differences in item 13 between treatment arms (C4 of D1) was analyzed from a two-sample t-test.||0.19|-0.19|0.9788
82606698|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12||||0.2747|TWO_SIDED|95.0|-0.33|0.09|||t-test, 2 sided|||Differences in item 13 between treatment arms (C7 of D1) was analyzed from a two-sample t-test.||0.09|-0.33|0.2747
82606699|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.2776|TWO_SIDED|95.0|-0.5|0.14|||t-test, 2 sided|||Differences in item 13 between treatment arms (C10 of D1) was analyzed from a two-sample t-test.||0.14|-0.50|0.2776
82606700|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.27||||0.1403|TWO_SIDED|95.0|-0.62|0.09|||t-test, 2 sided|||Differences in item 13 between treatment arms (C13 of D1) was analyzed from a two-sample t-test.||0.09|-0.62|0.1403
82606701|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.9151|TWO_SIDED|95.0|-0.55|0.5|||t-test, 2 sided|||Differences in item 13 between treatment arms (C16 of D1) was analyzed from a two-sample t-test.||0.50|-0.55|0.9151
82606702|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.34||||0.3277|TWO_SIDED|95.0|-0.36|1.05|||t-test, 2 sided|||Differences in item 13 between treatment arms (C19 of D1) was analyzed from a two-sample t-test.||1.05|-0.36|0.3277
82606703|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||1|TWO_SIDED|95.0|-0.86|0.86|||t-test, 2 sided|||Differences in item 13 between treatment arms (C22 of D1) was analyzed from a two-sample t-test.||0.86|-0.86|1.0000
82606704|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.57||||0.5661|TWO_SIDED|95.0|-1.53|2.67|||t-test, 2 sided|||Differences in item 13 between treatment arms (C25 of D1) was analyzed from a two-sample t-test.||2.67|-1.53|0.5661
82606705|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.7309|TWO_SIDED|95.0|-2.95|2.15|||t-test, 2 sided|||Differences in item 13 between treatment arms (C28 of D1) was analyzed from a two-sample t-test.||2.15|-2.95|0.7309
82606706|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.25||||0.3273|TWO_SIDED|95.0|-2.16|4.66|||t-test, 2 sided|||Differences in item 13 between treatment arms (C31 of D1) was analyzed from a two-sample t-test.||4.66|-2.16|0.3273
82606707|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||<|0.0001|TWO_SIDED|95.0|0.0|0.0|||t-test, 2 sided|||Differences in item 13 between treatment arms (C34 of D1) was analyzed from a two-sample t-test.||0|0|<0.0001
82606708|NCT00609622|164928915|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06||||0.7108|TWO_SIDED|95.0|-0.39|0.27|||t-test, 2 sided|||Differences in item 13 between treatment arms (EOT) was analyzed from a two-sample t-test.||0.27|-0.39|0.7108
82606709|NCT01697345|164928939|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.092|STANDARD_DEVIATION|6.0378|<|0.0005|TWO_SIDED|95.0|-13.928|-6.256|||t-test, 2 sided|||||-6.256|-13.928|<0.0005
82606710|NCT01697345|164928940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3|STANDARD_DEVIATION|0.88|<|0.0005|TWO_SIDED|95.0|-1.859|-0.741|||t-test, 2 sided|||||-0.741|-1.859|<0.0005
82606711|NCT01697345|164928941|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.625|STANDARD_DEVIATION|1.369||0.002|TWO_SIDED|95.0|-2.495|-0.755|||t-test, 2 sided|||||-0.755|-2.495|0.002
82606712|NCT01697345|164928942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.5|STANDARD_DEVIATION|1.876||0.018|TWO_SIDED|95.0|-2.692|-0.308|||t-test, 2 sided|||||-0.308|-2.692|0.018
82606713|NCT01697345|164928943|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2|STANDARD_DEVIATION|1.18168||0.005|TWO_SIDED|95.0|-1.9508|-0.4492|||t-test, 2 sided|||||-.44920|-1.95080|0.005
82606714|NCT01697345|164928944|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_DEVIATION|1.355||0.001|TWO_SIDED|95.0|-2.761|-1.039|||t-test, 2 sided|||||-1.039|-2.761|0.001
82606715|NCT01697345|164928945|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.567|STANDARD_DEVIATION|1.793|<|0.0005|TWO_SIDED|95.0|-3.706|-1.428|||t-test, 2 sided|||||-1.428|-3.706|<0.0005
82606716|NCT02382133|164928958|SUPERIORITY|comparing nasal and forehead oximetry sensor pressure ulcer incidence|||||=|0.006|||||||Chi-squared|||||||=.006
82606717|NCT01245647|164928966|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
82606718|NCT01245647|164928967|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82606719|NCT01245647|164928968|SUPERIORITY_OR_OTHER|||||||0.46|||||||Fisher Exact|||||||0.46
82606720|NCT01245647|164928969|SUPERIORITY_OR_OTHER|||||||0.12||||||no significant difference by Fisher exact test|Fisher Exact|||||||0.12
82492324|NCT02527161|164677911|SUPERIORITY|||||||0.9826|||||||ANOVA|||Change from 1 year to 2 year KOOS Pain||||0.9826
82606721|NCT01245647|164928970|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.67
82606722|NCT02370121|164928971|SUPERIORITY_OR_OTHER|||||||0.57|||||||Wilcoxon (Mann-Whitney)|||||||0.57
82606723|NCT02370121|164928972|SUPERIORITY_OR_OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||0.07
82606724|NCT02370121|164928973|SUPERIORITY_OR_OTHER|||||||0.79|||||||Wilcoxon (Mann-Whitney)|||||||0.79
82606725|NCT02370121|164928974|SUPERIORITY_OR_OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.08
82606726|NCT02370121|164928975|SUPERIORITY_OR_OTHER|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82606727|NCT02370121|164928976|SUPERIORITY_OR_OTHER|||||||0.92|||||||Wilcoxon (Mann-Whitney)|||||||0.92
82606728|NCT02370121|164928977|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82606729|NCT02370121|164928978|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82606730|NCT02370121|164928979|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82606731|NCT02370121|164928980|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82606732|NCT02370121|164928981|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82606733|NCT02370121|164928982|SUPERIORITY_OR_OTHER|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||0.83
82606734|NCT02370121|164928983|SUPERIORITY_OR_OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82606735|NCT02370121|164928984|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82606736|NCT02370121|164928985|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82606737|NCT02370121|164928986|SUPERIORITY_OR_OTHER|||||||0.17|||||||Wilcoxon (Mann-Whitney)|||||||0.17
82606738|NCT02370121|164928987|SUPERIORITY_OR_OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82606739|NCT05198713|164928989|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82606740|NCT00045032|164928990|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606741|NCT00045032|164928990|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.54|||||TWO_SIDED|95.0|0.44|0.67|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.67|0.44|
82606742|NCT00045032|164928991|SUPERIORITY_OR_OTHER|||||||0|||||||Log Rank|||||||0.000
82606743|NCT00045032|164928991|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.43|||||TWO_SIDED|95.0|0.34|0.53|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.53|0.34|
82606744|NCT00045032|164928994|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606745|NCT00045032|164928994|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.67|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.67|
82606746|NCT00045032|164928994|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606747|NCT00045032|164928994|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.67|0.85|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.85|0.67|
82606748|NCT00045032|164928999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.68|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.68|
82606749|NCT00045032|164928999|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.69|0.87|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.87|0.69|
82657031|NCT01029353|165029675|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.91, 95% credible interval of (0.65, 1.27).|||
82657032|NCT01029353|165029676|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.44|1.36|||||RR: Initial Laparotomy over Peritoneal Drain. RR from robust Poisson regression with log link, reference cell coding, center as repeated measure. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||1.36|0.44|
82657033|NCT01029353|165029676|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.49, 1.33).|||
82657034|NCT01029353|165029677|SUPERIORITY||Mean Difference (Final Values)|-6.01|||||TWO_SIDED|95.0|-12.77|0.75|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||0.75|-12.77|
82657035|NCT01029353|165029677|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -2.68, 95% credible interval of (-7.11, 1.83).|||
82657036|NCT01029353|165029678|SUPERIORITY||Mean Difference (Final Values)|-8.75|||||TWO_SIDED|95.0|-17.05|-0.46|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||-0.46|-17.05|
82657037|NCT01029353|165029678|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -3.23, 95% credible interval of (-8.08, 1.68).|||
82657038|NCT01029353|165029679|SUPERIORITY||Mean Difference (Final Values)|6.59|||||TWO_SIDED|95.0|-9.09|22.27|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||22.27|-9.09|
82606750|NCT00045032|164929006|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.7962|TWO_SIDED|95.0|0.89|1.17|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.17|0.89|0.7962
82657039|NCT01029353|165029679|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was 1.65, 95% credible interval of (-3.97, 7.23).|||
82657040|NCT01029353|165029680|SUPERIORITY||Mean Difference (Final Values)|-2.56|||||TWO_SIDED|95.0|-13.02|7.91|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||7.91|-13.02|
82606751|NCT00045032|164929008|SUPERIORITY_OR_OTHER|||||||0.2379|||||||Log Rank|||||||0.2379
82606752|NCT00045032|164929008|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.47|1.21|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||1.21|0.47|
82606753|NCT00045032|164929009|SUPERIORITY_OR_OTHER|||||||0.003|||||||Log Rank|||||||0.003
82606754|NCT00045032|164929009|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.47|||||TWO_SIDED|95.0|0.28|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.28|
82606755|NCT00045032|164929012|SUPERIORITY_OR_OTHER|||||||0.0005|||||||Log Rank|||||||0.0005
82606756|NCT00045032|164929012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.65|0.88|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.88|0.65|
82606757|NCT00045032|164929012|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Log Rank|||||||0.0001
82606758|NCT00045032|164929012|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.63|0.86|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.86|0.63|
82606759|NCT00045032|164929014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.64|0.86|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.86|0.64|
82606760|NCT00045032|164929014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.62|0.83|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.83|0.62|
82606761|NCT00045032|164929016|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9156|TWO_SIDED|95.0|0.84|1.21|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.21|0.84|0.9156
82657041|NCT01029353|165029680|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -0.71, 95% credible interval of (-5.89, 4.48).|||
82657042|NCT01029353|165029681|SUPERIORITY||Mean Difference (Final Values)|-13.95|||||TWO_SIDED|95.0|-30.54|2.63|||||Mean Difference (MD): Laparotomy minus Drain. MD from mixed model using PROC MIXED in SAS, center as random effect, and reference cell coding. Model included treatment, baseline risk of death or NDI, and pre-op diagnosis (NEC/IP) as covariates.|A frequentist analysis.||2.63|-30.54|
82657043|NCT01029353|165029681|SUPERIORITY|||||||||||||||||A Bayesian analysis. Initial Laparotomy and Initial Peritoneal Drain were compared using a hierarchical linear regression. The SAS procedure PROC MCMC with reference cell coding was used. Center (random effect), treatment, pre-operative diagnosis, and baseline risk of death or NDI were binary covariates. Pre-operative diagnosis levels were NEC and IP. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=1000), treatment, baseline risk, and preop diagnosis parameters = Normal(mean=0, variance=10), random effect standard deviation = Half-Normal(mean=0, variance=10). The posterior median difference Initial Laparotomy minus Initial Drainage was -1.78, 95% credible interval of (-7.44, 3.87).|||
82606762|NCT00045032|164929018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606763|NCT00045032|164929018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.64|
82606764|NCT00045032|164929018|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82492325|NCT02527161|164677911|SUPERIORITY|||||||0.9276|||||||ANOVA|||Change from 2 year to 5 year KOOS Pain||||0.9276
82606765|NCT00045032|164929018|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.61|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.61|
82606766|NCT00045032|164929020|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4755|TWO_SIDED|95.0|0.8|1.11|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.11|0.80|0.4755
82606767|NCT00045032|164929022|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606768|NCT00045032|164929022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.67|0.87|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.87|0.67|
82606769|NCT00045032|164929022|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606770|NCT00045032|164929022|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.65|0.85|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.85|0.65|
82606771|NCT00045032|164929024|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.9626|TWO_SIDED|95.0|0.85|1.17|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.17|0.85|0.9626
82606772|NCT00045032|164929026|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606773|NCT00045032|164929026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.64|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.64|
82606774|NCT00045032|164929026|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606775|NCT00045032|164929026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.61|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.61|
82606776|NCT00045032|164929028|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.45|TWO_SIDED|95.0|0.8|1.1|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.10|0.80|0.4500
82606777|NCT00045032|164929030|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606778|NCT00045032|164929030|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.62|0.83|||||HR for Herceptin 1-Year Arm versus Observation Arm.|||0.83|0.62|
82606779|NCT00045032|164929030|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82606780|NCT00045032|164929030|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.59|0.79|||||HR for Herceptin 2-Year Arm versus Observation Arm.|||0.79|0.59|
82606781|NCT00045032|164929032|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.6823|TWO_SIDED|95.0|0.8|1.15|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.15|0.80|0.6823
82606782|NCT00045032|164929034|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.7251|TWO_SIDED|95.0|0.84|1.13|||Log Rank||HR for Herceptin 2-Year Arm versus Herceptin 1-Year Arm.|||1.13|0.84|0.7251
82606783|NCT02770807|164929038|SUPERIORITY||Least squares mean difference|-1.37||||0.0847|TWO_SIDED|95.0|-2.932|0.19|||Mixed model for repeated measures|||Least squares means, and p-values are derived from a mixed model repeated measures analysis with baseline modified ICARS value as covariate and the fixed effects of treatment, age, sex, region and visit and the interaction term treatment-by-visit.||0.190|-2.932|0.0847
82606784|NCT02770807|164929038|SUPERIORITY||Least squares mean difference|-1.4||||0.0765|TWO_SIDED|95.0|-2.957|0.152|||Mixed model for repeated measures|||Least squares means, and p-values are derived from a mixed model repeated measures analysis with baseline modified ICARS value as covariate and the fixed effects of treatment, age, sex, region and visit and the interaction term treatment-by-visit.||0.152|-2.957|0.0765
82606785|NCT02770807|164929039|SUPERIORITY||Odds Ratio (OR)|0.946||||0.8919|TWO_SIDED|95.0|0.426|2.099|||Regression, Logistic|||Logistic regression modeling (0/1), where 0 = No change or worsening and 1= improvement, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region as fixed effects.||2.099|0.426|0.8919
82606786|NCT02770807|164929039|SUPERIORITY||Odds Ratio (OR)|1.848||||0.1255|TWO_SIDED|95.0|0.842|4.053|||Regression, Logistic|||"Logistic regression modeling (0/1), where 0 = No change or worsening and 1= improvement, with age (at 2 levels:~\<10 years, ≥10 years), sex, treatment, region as fixed effects."||4.053|0.842|0.1255
82606787|NCT02770807|164929040|SUPERIORITY||Odds Ratio (OR)|1.369||||0.4583|TWO_SIDED|95.0|0.597|3.144|||Ordinal Logistic Regression Analysis|||Odds ratio, confidence limits, and p-value derived using a proportional odds ordinal logistic regression analysis, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region, visit, baseline CGI-S score, and treatment-by- visit interaction as fixed effects.||3.144|0.597|0.4583
82606788|NCT02770807|164929040|SUPERIORITY||Odds Ratio (OR)|1.371||||0.4585|TWO_SIDED|95.0|0.595|3.16|||Ordinal Logistic Regression Analysis|||Odds ratio, confidence limits, and p-value derived using a proportional odds ordinal logistic regression analysis, with age (at 2 levels: \<10 years, ≥10 years), sex, treatment, region, visit, baseline CGI-S score, and treatment-by- visit interaction as fixed effects.||3.160|0.595|0.4585
82606789|NCT02770807|164929041|SUPERIORITY||Least squares means difference|-13.33||||0.7029|TWO_SIDED|95.0|-82.261|55.601|||ANCOVA|||Least squares means difference, associated statistics, and p-values derived using ANCOVA, with age (at 2 levels: \<10 years, \>=10 years), sex, treatment, region, and baseline VABS score as fixed effects.||55.601|-82.261|0.7029
82606790|NCT02770807|164929041|SUPERIORITY||Least squares means difference|-77.31||||0.0328|TWO_SIDED|95.0|-148.201|-6.421|||ANCOVA|||Least squares means difference, associated statistics, and p-values derived using ANCOVA, with age (at 2 levels: \<10 years, \>=10 years), sex, treatment, region, and baseline VABS score as fixed effects.||-6.421|-148.201|0.0328
82606791|NCT00686205|164929096|SUPERIORITY_OR_OTHER||Clinical Specificity|99.94||||||95.0|99.88|99.97|||Binomial Exact|Sample size is based on power of 80%, alpha level of 0.05, using the binomial distribution when comparing to a lower bound of specificity at 99.84.||||99.97|99.88|
82606792|NCT00686205|164929097|SUPERIORITY_OR_OTHER||Clinical Sensitivity|100.0||||||95.0|99.76|100.0|||Binomial Exact|||||100.00|99.76|
82606793|NCT00265941|164929098|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.76|TWO_SIDED|95.0|0.88|1.32|||Log Rank||Reference arm = RT + cisplatin|A total of 945 patients were required (900 analyzable) to test for a 25% reduction in the hazard associated with progression-free survival with 84% statistical power using a one-sided log-rank test at the 0.025 significance level (0.0238 after 3 interim analyses).||1.32|0.88|0.76
82606794|NCT00265941|164929099|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.32|TWO_SIDED|95.0|0.74|1.21|||Log Rank|One-sided log-rank significance level of 0.025|Reference level = RT + cisplatin|Arms were compared using a one-sided log-rank test at the 0.025 significance level.||1.21|0.74|0.32
82606795|NCT00265941|164929100|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.97|TWO_SIDED|95.0|0.99|1.7|||Log Rank|One-sided significance level of 0.025|Reference level = RT + cisplatin|||1.70|0.99|0.97
82606796|NCT00265941|164929105|SUPERIORITY|||||||0.74|||||||Kolmogorov-Smirnov|2-sided significance level of 0.05||3 months||||0.74
82657044|NCT01029353|165029682|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.64|1.04|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.04|0.64|
82606797|NCT00265941|164929105|SUPERIORITY|||||||0.99|||||||Kolmogorov-Smirnov|2-sided significance level of 0.05||12 months||||0.99
82606798|NCT00265941|164929106|SUPERIORITY|||||||0.13|||||||Chi-squared|2-sided significance level of 0.05||Diet 3-month||||0.13
82606799|NCT00265941|164929106|SUPERIORITY|||||||0.87|||||||Chi-squared|2-sided significance level 0.05||Diet 12-month||||0.87
82606800|NCT00265941|164929106|SUPERIORITY|||||||0.39|||||||Chi-squared|2-sided significance level of 0.05||Eating 3-month||||0.39
82606801|NCT00265941|164929106|SUPERIORITY|||||||0.16|||||||Chi-squared|2-sided significance level of 0.05||Eating 12-month||||0.16
82606802|NCT00265941|164929106|SUPERIORITY|||||||0.81|||||||Chi-squared|2-sided significance level of 0.05||Speech 3-month||||0.81
82606803|NCT00265941|164929106|SUPERIORITY|||||||0.67|||||||Chi-squared|2-sided significance level of 0.05||Speech 12-month||||0.67
82606804|NCT00265941|164929107|SUPERIORITY|||||||0.016|||||||t-test, 2 sided|2-sided significance level of 0.05||||||0.016
82606805|NCT00265941|164929108|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.6|TWO_SIDED|95.0|0.79|1.51|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Progression-free survival is compared between favorable risk and unfavorable risk groups.||1.51|0.79|0.60
82606806|NCT00265941|164929108|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.37|TWO_SIDED|95.0|0.81|1.76|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Overall survival is compared between favorable risk and unfavorable risk groups.||1.76|0.81|0.37
82606807|NCT00265941|164929108|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.76|TWO_SIDED|95.0|0.6|1.46|||Log Rank|2-sided significance level = 0.05|Reference level = low EGFR|Local-regional failure||1.46|0.60|0.76
82606808|NCT00265941|164929109|SUPERIORITY||Hazard Ratio (HR)|0.3||||0.01|TWO_SIDED|95.0|0.12|0.75|||Log Rank|2-sided significance level = 0.05|Reference level = low|Progression-free survival is compared between low and high SUVmax groups.||0.75|0.12|0.01
82606809|NCT00265941|164929109|SUPERIORITY||Hazard Ratio (HR)|0.38||||0.1|TWO_SIDED|95.0|0.12|1.2|||Log Rank|2-sided significance level = 0.05|Reference level = low|Overall survival (OS) is compared between low and high SUVmax groups.||1.20|0.12|0.10
82606810|NCT00265941|164929109|SUPERIORITY||Hazard Ratio (HR)|0.31||||0.04|TWO_SIDED|95.0|0.1|0.97|||Log Rank|2-sided significance level = 0.05|Reference level = low|Loco-regional control (LRC) is compared between low and high SUVmax groups.||0.97|0.10|0.04
82606811|NCT02513940|164929116|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82606812|NCT02513940|164929117|SUPERIORITY|||||||0.001||||||"Pairwise comparisons:~Testosterone vs placebo: p=0.008 Progesterone vs placebo: p=0.73 Testosterone vs progesterone: p=0.0008"|Mixed Models Analysis|||||||0.001
82606813|NCT02513940|164929118|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|Repeated measures ANOVA||||||0.60
82606814|NCT02513940|164929119|SUPERIORITY|||||||0.0003||||||"Pairwise comparisons:~Testosterone vs placebo: p = 0.0001 Progesterone vs placebo: p = 0.25 Testosterone vs progesterone: p = 0.002"|Mixed Models Analysis|Repeated measures ANOVA||||||0.0003
82606815|NCT02513940|164929120|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Fatigue||||>0.99
82606816|NCT02513940|164929120|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||Rash at gel application site||||>0.99
82606817|NCT02966314|164929140|SUPERIORITY||Odds Ratio (OR)|18.7||||0.003|TWO_SIDED|95.0|2.77|126.47|||Regression, Logistic|Accounting for repeated measures||||126.47|2.77|0.003
82606818|NCT02966314|164929142|SUPERIORITY||Mean Difference (Final Values)|9.43||||0.03|TWO_SIDED|95.0|1.24|17.63|||Regression, Linear|||||17.63|1.24|0.03
82606819|NCT02966314|164929144|SUPERIORITY||Odds Ratio (OR)|32.8||||0.03|TWO_SIDED|95.0|1.49|720.54|||Regression, Logistic|Accounting for repeated measures||||720.54|1.49|0.03
82606820|NCT02966314|164929146|SUPERIORITY||Risk Ratio (RR)|6.9||||0.005|TWO_SIDED|95.0|1.9|25.3|||Regression, Linear|Accounting for multiple measures, using poisson distribution with natural log link||||25.3|1.9|0.005
82606821|NCT02015819|164929156|OTHER||||||||||||||||||MFD was determined to be 1.5x10\^8 in combination with oral 5-FC 37.5 mg/kg and leucovorin 25 mg every 6 hours for 7 days.|||
82657045|NCT01029353|165029682|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.95|1.31|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.31|0.95|
82606822|NCT02886715|164929198|EQUIVALENCE|90% Confidence Interval for the least-squares mean Test/Reference ratios to be within 80-125%|Test-to-Reference Ratio|98.75|||||TWO_SIDED|90.0|94.39|103.31||p-value was no calculated|ANOVA|with treatment and site as fixed effects in the model||||103.31|94.39|
82606823|NCT02886715|164929198|SUPERIORITY||Mean Difference (Final Values)|-5.17||||0.0185|TWO_SIDED|95.0|-9.46|-0.87|||ANOVA|with treatment and site as fixed effects in the model||||-0.87|-9.46|0.0185
82606824|NCT02886715|164929200|EQUIVALENCE|90% Confidence Interval for the least-squares mean Test/Reference ratios to be within 80-125%|Test-to-Reference Ratio|98.39|||||TWO_SIDED|90.0|93.42|103.61||p-value was no calculated|ANOVA|with treatment and site as fixed effects in the model||||103.61|93.42|
82606825|NCT02886715|164929200|SUPERIORITY||Mean Difference (Final Values)|-4.39||||0.0354|TWO_SIDED|95.0|-8.48|-0.3|||ANOVA|with treatment and site as fixed effects in the model||||-0.30|-8.48|0.0354
82606826|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.69||||||90.0|-12.62|-6.77|||||40 mg BID minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the analysis of variance (ANOVA) model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||-6.77|-12.62|
82606827|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||||90.0|-2.87|2.98|||||80 mg OD minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||2.98|-2.87|
82606828|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.75||||||90.0|6.83|12.67|||||80 mg OD minus 40 mg BID|The point estimate and 90% confidence interval of the difference of changes in SBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||12.67|6.83|
82606829|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.97||||||90.0|-5.5|-2.44|||||40 mg BID minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||-2.44|-5.50|
82606830|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||||90.0|-2.21|0.85|||||80 mg OD minus 40 mg OD|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||0.85|-2.21|
82606831|NCT00768560|164929204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.29||||||90.0|1.76|4.82|||||80 mg OD minus 40 mg BID|The point estimate and 90% confidence interval of the difference of changes in DBP from baseline was estimated by using the ANOVA model including the terms: group, subject within a group, dosage and administration and stage as fixed effects.||4.82|1.76|
82606832|NCT01128387|164929213|OTHER||Maximum Tolerated Dose|1.5|||||TWO_SIDED|||||||||Dose of Pantiumumab (in combination with Cisplatin \& Fluorouracil - see below)||||
82606833|NCT01128387|164929213|OTHER||Maximum Tolerated Dose|60.0|||||TWO_SIDED|||||||||Dose of Cisplatin||||
82606834|NCT01128387|164929213|OTHER||Maximum Tolerated Dose|750.0|||||TWO_SIDED|||||||||Dose of Fluorourcil||||
82606835|NCT01021111|164929215|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||The values from the three jumps were averaged in order to have one mean value per subject per session. Paired Student t-tests (baseline vs. follow-up) were used to evaluate the effects of the training.||||<0.01
82606836|NCT01021111|164929216|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Pearson|||The association between the change in the thigh coronal angular velocity from baseline to follow-up and the change in the knee abduction moment from baseline to follow-up was assessed with the Pearson correlation coefficient (R), alpha =0.05||||<0.05
82606837|NCT01535235|164929217|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82606838|NCT01535235|164929218|SUPERIORITY_OR_OTHER|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82606839|NCT00389207|164929219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.016||||0.684||95.0|-0.062|0.095||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Controlling for screening VL and CD4+ categories (only 373 NVP patients due to empty cells)||||0.095|-0.062|0.684
82606840|NCT00389207|164929219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.025||||0.584||95.0|-0.065|0.115||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||0.115|-0.065|0.584
82606841|NCT00389207|164929219|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|0.009||||0.855||95.0|-0.084|0.101||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||0.101|-0.084|0.855
82606842|NCT00389207|164929220|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.038||||0.321||95.0|-0.112|0.037||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD patients and N=193 ATZ/r patients.||||0.037|-0.112|0.321
82606843|NCT00389207|164929231|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.461||||0.0403||95.0|0.22|0.966|||Regression, Cox|||||0.966|0.220|0.0403
82606844|NCT00389207|164929235|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.097||||0.0109||95.0|-0.171|-0.022||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD+BID patients and N=193 ATZ/r patients||||-0.022|-0.171|0.0109
82606845|NCT00389207|164929235|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.072||||0.1033||95.0|-0.158|0.015||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||0.015|-0.158|0.1033
82606846|NCT00389207|164929235|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.122||||0.0073||95.0|-0.212|-0.033||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||-0.033|-0.212|0.0073
82657046|NCT01029353|165029682|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.81, 95% credible interval of (0.63, 1.00). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.09, 95% credible interval of (0.90, 1.33).|||
82657047|NCT01029353|165029683|SUPERIORITY||Risk Ratio (RR)|0.77|||||TWO_SIDED|95.0|0.52|1.13|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.13|0.52|
82606847|NCT00389207|164929236|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.117||||0.0031||95.0|-0.194|-0.04||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=373 NVP QD+BID patients and N=193 ATZ/r patients.||||-0.040|-0.194|0.0031
82606848|NCT00389207|164929236|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.096||||0.0365||95.0|-0.186|-0.006||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=186 NVP QD patients and N=193 ATZ/r patients.||||-0.006|-0.186|0.0365
82606849|NCT00389207|164929236|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 12% (or 0.12 as proportion)|Risk Difference (RD)|-0.139||||0.0033||95.0|-0.231|-0.046||Test for superiority following confirmation of non-inferiority|Cochran-Mantel-Haenszel|Analysis controlling for screening viral load and CD4+ count categories. N=187 NVP QD patients and N=193 ATZ/r patients.||||-0.046|-0.231|0.0033
82606850|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.001||||0.9784|TWO_SIDED|95.0|-0.065|0.066|||Cochran Chi-Squared|||week 48||0.066|-0.065|0.9784
82606851|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.064||||0.0331|TWO_SIDED|95.0|0.005|0.123|||Cochran Chi-Squared|||week 96||0.123|0.005|0.0331
82606852|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.058||||0.0691|TWO_SIDED|95.0|-0.005|0.121|||Cochran Chi-Squared|||week 144||0.121|-0.005|0.0691
82606853|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|-0.023||||0.4585|TWO_SIDED|95.0|-0.084|0.038|||Cochran Chi-Squared|||week 48||0.038|-0.084|0.4585
82606854|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.015||||0.5438|TWO_SIDED|95.0|-0.034|0.064|||Cochran Chi-Squared|||week 96||0.064|-0.034|0.5438
82492326|NCT02527161|164677912|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS Symptoms||||<0.0001
82657048|NCT01029353|165029683|SUPERIORITY||Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.79|2.06|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.06|0.79|
82657049|NCT01029353|165029683|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.82, 95% credible interval of (0.53, 1.20). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.18, 95% credible interval of (0.74, 1.87).|||
82657050|NCT01029353|165029684|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.42|1.27|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.27|0.42|
82657051|NCT01029353|165029684|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.85|1.45|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.45|0.85|
82657052|NCT01029353|165029684|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Pre-operative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.76, 95% credible interval of (0.48, 1.18). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.08, 95% credible interval of (0.83, 1.42).|||
82657053|NCT01029353|165029685|SUPERIORITY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.47|1.05|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.05|0.47|
82657054|NCT01029353|165029685|SUPERIORITY||Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.76|1.19|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.19|0.76|
82606855|NCT00389207|164929239|NON_INFERIORITY_OR_EQUIVALENCE|H0: Difference in proportions = 0|Difference in proportions|0.016||||0.5659|TWO_SIDED|95.0|-0.039|0.071|||Cochran Chi-Squared|||week 144||0.071|-0.039|0.5659
82606856|NCT00389207|164929240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.692||||0.0002||95.0|0.57|0.839|||Regression, Cox|||||0.839|0.570|0.0002
82606857|NCT00389207|164929240|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001||95.0|0.519|0.764|||Regression, Cox|||Cox regression on responders only (N=289 in Nevirapine QD+BID and N=175 in Atazanvir/ritonavir)||0.764|0.519|<0.0001
82606858|NCT00389207|164929241|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.762||||0.1329||95.0|0.535|1.086|||Regression, Cox|||||1.086|0.535|0.1329
82606859|NCT00389207|164929242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.731||||0.0444||95.0|0.539|0.992|||Regression, Cox|||||0.992|0.539|0.0444
82606860|NCT00636818|164929292|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
82606861|NCT00636818|164929293|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
82606862|NCT00636818|164929294|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
82606863|NCT00636818|164929295|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.013
82606864|NCT00636818|164929296|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
82606865|NCT00636818|164929297|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Word Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
82606866|NCT00636818|164929297|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Color Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.005
82606867|NCT00636818|164929297|SUPERIORITY_OR_OTHER|||||||0.144||95.0||||P-value for Color-Word Test: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.144
82606868|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.791||95.0||||P-value for Physical Component Summary: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.791
82657055|NCT01029353|165029685|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.73, 95% credible interval of (0.52, 0.96). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.95, 95% credible interval of (0.68, 1.32).|||
82657056|NCT01029353|165029686|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.61|1.06|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.06|0.61|
82606869|NCT00636818|164929298|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Component Summary: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
82606870|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Physical Functioning: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.037
82606871|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.446||95.0||||P-value for Role-Physical: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.446
82606872|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.365||95.0||||P-value for Bodily Pain: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.365
82606873|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.087||95.0||||P-value for General Health Perception: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.087
82606874|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||P-value for Vitality: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.043
82606875|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.086||95.0||||P-value for Social Functioning: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.086
82606876|NCT00636818|164929298|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for Role-Emotional: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||0.010
82606877|NCT00636818|164929298|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Mental Health: Change from Baseline. Change=Endpoint minus Baseline.|t-test, 2 sided|||||||<0.001
82606878|NCT04898166|164929309|SUPERIORITY|||||||0|||||||Chi-squared|Chi-square value 18.90 and its asymptotic significance .000||||||0.000
82606879|NCT04898166|164929310|SUPERIORITY|||||||0.081|||||||Chi-squared|Chi-square value 7.544 and its asymptotic significance .273||||||0.081
82606880|NCT02690701|164929320|SUPERIORITY|This superiority trial compares secukinumab with placebo with a view of demonstrating the superiority of secukinumab over placebo with regards to a specific outcome measure.|Least Square Mean|-0.053|STANDARD_ERROR_OF_MEAN|0.059||0.3712|TWO_SIDED|95.0|-0.169|0.064|||ANCOVA|||Statistical analysis (Analysis of Covariance) of change from baseline in target to background ratio for regions of the aorta at Week 12 (Full Analysis Set)||0.064|-0.169|0.3712
82606881|NCT02700451|164929350|EQUIVALENCE|Two-sided 95% confidence interval|||||<|0.001||||||Threshold for statistical significance was p = 0.05|Kruskal-Wallis|||The distribution of OME total in the first 72H is the same across these arms||||<0.001
82606882|NCT02700451|164929350|EQUIVALENCE|Two-sided 95% confidence interval|||||<|0.001||||||The thresholds for statistical significant was p = 0.05|Kruskal-Wallis|||The distribution of OME total to discharge is the same across these arms||||<0.001
82606883|NCT02700451|164929351|EQUIVALENCE|Two-sided||||||0.048|||||||Chi-squared|||Similar Distribution of opioid use between the 3 arms||||0.048
82606884|NCT02700451|164929352|EQUIVALENCE|Two-sided||||||0.595|||||||Chi-squared|||||||0.595
82606885|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.732|||||||Kruskal-Wallis|||The distribution of POD1 - Current pain level is the same across the 3 arms||||0.732
82606886|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.896|||||||Kruskal-Wallis|||The distribution of POD1 - Best pain level is the same across the 3 arms||||0.896
82606887|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.004|||||||Kruskal-Wallis|||The distribution of POD1 - Worst pain level is the same across the 3 arms||||0.004
82606888|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.325|||||||Kruskal-Wallis|||The distribution of POD3 - Current pain level is the same across the 3 arms||||0.325
82606889|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.283|||||||Kruskal-Wallis|||The distribution of POD3 - Best pain level is the same across the 3 arms||||0.283
82606890|NCT02700451|164929355|EQUIVALENCE|Two-sided 95% confidence interval||||||0.61|||||||Kruskal-Wallis|||The distribution of POD3 - Worst pain level is the same across the 3 arms||||0.610
82606891|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.016|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with General Activity is the same across the 3 arms||||0.016
82606892|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.294|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Mood is the same across the 3 arms||||0.294
82606893|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.016|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Walking Ability is the same across the 3 arms||||0.016
82606894|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.082|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Normal work is the same across the 3 arms||||0.082
82606895|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.117|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Relation with other is the same across the 3 arms||||0.117
82606896|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.061|||||||Fisher Exact|||The distribution of POD1 - Pain has interfered with Sleep is the same across the 3 arms||||0.061
82606897|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.023|||||||Kruskal-Wallis|||The distribution of POD1 - Pain has interfered with Enjoyment of life is the same across the 3 arms||||0.023
82492327|NCT02527161|164677912|SUPERIORITY|||||||0.0736|||||||ANOVA|||Change from 6 weeks to 3 months KOOS Symptoms||||0.0736
82606898|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.681|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with General Activity is the same across the 3 arms||||0.681
82606899|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.405|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Mood is the same across the 3 arms||||0.405
82606900|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.458|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Walking Ability is the same across the 3 arms||||0.458
82606901|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.482|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Normal work is the same across the 3 arms||||0.482
82606902|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.544|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Relation with other is the same across the 3 arms||||0.544
82606903|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.202|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Sleep is the same across the 3 arms||||0.202
82606904|NCT02700451|164929356|EQUIVALENCE|Two-sided 95% confidence interval||||||0.58|||||||Kruskal-Wallis|||The distribution of POD3 - Pain has interfered with Enjoyment of life is the same across the 3 arms||||0.580
82606905|NCT02700451|164929358|EQUIVALENCE|Two-sided 95% confidence interval||||||0.928|||||||Kruskal-Wallis|||The distribution of Total Drain output at 24H is the same across the 3 arms||||0.928
82606906|NCT02700451|164929358|EQUIVALENCE|Two-sided 95% confidence interval||||||0.906|||||||Kruskal-Wallis|||The distribution of Total Drain output at 48H is the same across the 3 arms||||0.906
82606907|NCT02700451|164929358|EQUIVALENCE|Two-sided 95% confidence interval||||||0.926|||||||Kruskal-Wallis|||The distribution of Total Drain output at 72H is the same across the 3 arms||||0.926
82606908|NCT02700451|164929358|EQUIVALENCE|Two-sided 95% confidence interval||||||0.934|||||||Kruskal-Wallis|||The distribution of Total Drain output at Discharge is the same across the 3 arms||||0.934
82606909|NCT02700451|164929359|EQUIVALENCE|Two-sided||||||0.078|||||||Chi-squared|||Proportion of patient receiving at least 1 transfusion is the same across the 3 arms||||0.078
82606910|NCT02700451|164929360|EQUIVALENCE|Two-sided 95% confidence interval||||||792|||||||Chi-squared|||||||0792
82606911|NCT02700451|164929361|EQUIVALENCE|Two-sided 95% confidence interval||||||0.034|||||||Kruskal-Wallis|||The distribution of Length of stay in day is the same across these arms||||0.034
82606912|NCT02700451|164929361|EQUIVALENCE|Two-sided 95% confidence interval||||||0.03|||||||Kruskal-Wallis|||The distribution of Length of stay in hour is the same across these arms||||0.030
82606913|NCT02700451|164929362|EQUIVALENCE|Two-sided 95% confidence interval||||||0.974|||||||ANOVA|||Comparison of the PCS score between the 3 arms||||0.974
82606914|NCT02700451|164929362|EQUIVALENCE|Two-sided 95% confidence interval||||||0.444|||||||ANOVA|||Comparison of the MCS between the 3 ams||||0.444
82606915|NCT02700451|164929363|EQUIVALENCE|Two-sided 95% confidence interval||||||0.215|||||||ANOVA|||||||0.215
82606916|NCT02700451|164929364|EQUIVALENCE|Two-sided 95% confidence interval||||||0.044|||||||ANOVA|||Comparison PCS score between the 3 arms||||0.044
82606917|NCT02700451|164929364|EQUIVALENCE|Two-sided 95% confidence interval||||||0.767|||||||ANOVA|||Comparison MCS score between the 3 arms||||0.767
82606918|NCT02700451|164929365|EQUIVALENCE|Two-sided 95% confidence interval||||||0.191|||||||ANOVA|||||||0.191
82492328|NCT02527161|164677912|SUPERIORITY|||||||0.4675|||||||ANOVA|||Change from 3 months to 6 months KOOS Symptoms||||0.4675
82492329|NCT02527161|164677912|SUPERIORITY|||||||0.0229|||||||ANOVA|||Change from 6 months to 1 year KOOS Symptoms||||0.0229
82492330|NCT02527161|164677912|SUPERIORITY|||||||0.9968|||||||ANOVA|||Change from 1 year to 2 year KOOS Symptoms||||0.9968
82492331|NCT02527161|164677912|SUPERIORITY|||||||0.7761|||||||ANOVA|||Change from 2 year to 5 year KOOS Symptoms||||0.7761
82492332|NCT02527161|164677913|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS ADL||||<0.0001
82606919|NCT02115308|164929386|SUPERIORITY|||||||0.001|||||||paired, t-test|non-adjusted||REST-TO-REGADENOSON STRESS||||0.001
82606920|NCT02115308|164929386|SUPERIORITY|||||||0.017||||||non-adjusted|paired, t-test|||REST-TO-REGADENOSON STRESS||||0.017
82606921|NCT02115308|164929386|SUPERIORITY|||||||0.495||||||non-adjusted|paired, t-test|||REST-TO-REGADENOSON STRESS||||0.495
82606922|NCT02115308|164929386|SUPERIORITY|||||||0.365|||||||t-test, 2 sided|non-adjusted||REST||||0.365
82606923|NCT02115308|164929386|SUPERIORITY|||||||0.602|||||||t-test, 2 sided|non adjusted||REST||||0.602
82606924|NCT02115308|164929386|SUPERIORITY|||||||0.915|||||||t-test, 2 sided|non adjusted||REST||||0.915
82606925|NCT02115308|164929386|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.033
82606926|NCT02115308|164929386|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.002
82606927|NCT02115308|164929386|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.087
82606928|NCT02115308|164929386|SUPERIORITY|||||||0.399|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS CHANGE||||0.399
82606929|NCT02115308|164929386|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS Change||||0.030
82606930|NCT02115308|164929386|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|non adjusted||REST-TO-STRESS Change||||0.048
82606931|NCT02115308|164929387|SUPERIORITY|||||||0.011||||||Non-adjusted.|paired, t-test|||Rest VS Regadenoson Stress||||0.011
82657057|NCT01029353|165029686|SUPERIORITY||Risk Ratio (RR)|1.17|||||TWO_SIDED|95.0|1.01|1.37|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.37|1.01|
82606932|NCT02115308|164929387|SUPERIORITY|||||||0.003||||||non-adjusted|paired t-test|||Rest VS Regadenoson Stress||||0.003
82606933|NCT02115308|164929387|SUPERIORITY|non-adjusted||||||0.39|||||||paired, t-test|||Rest VS Regadenoson Stress||||0.390
82606934|NCT02115308|164929387|SUPERIORITY|non-adjusted|||||<|0|||||||t-test, 2 sided|||REST||||<0.000
82606935|NCT02115308|164929387|SUPERIORITY|non-adjusted|||||<|0|||||||t-test, 2 sided|||REST||||<0.000
82606936|NCT02115308|164929387|SUPERIORITY|non-adjusted||||||0.022|||||||t-test, 2 sided|||REST||||0.022
82606937|NCT02115308|164929387|SUPERIORITY|||||||0.001||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||0.001
82606938|NCT02115308|164929387|SUPERIORITY||||||<|0||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||<0.000
82606939|NCT02115308|164929387|SUPERIORITY|||||||0.006||||||non-adjusted|t-test, 2 sided|||Regadenoson STRESS||||0.006
82606940|NCT02115308|164929387|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Change||||<0.000
82606941|NCT02115308|164929387|SUPERIORITY|||||||0.058|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Changes||||0.058
82606942|NCT02115308|164929387|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|non-adjusted||REST-TO-STRESS Change||||0.310
82606943|NCT02115308|164929388|SUPERIORITY|||||||0.001|||||||paired, t-test|non adjusted||REST vs STRESS||||0.001
82606944|NCT02115308|164929388|SUPERIORITY|||||||0.002|||||||paired, t-test|non adjusted||REST vs STRESS||||0.002
82606945|NCT02115308|164929388|SUPERIORITY|||||||0.721|||||||paired, t-test|non adjusted||REST vs STRESS||||0.721
82606946|NCT02115308|164929388|SUPERIORITY|||||||0.797|||||||t-test, 2 sided|non adjusted||REST||||0.797
82606947|NCT02115308|164929388|SUPERIORITY|||||||0.474|||||||t-test, 2 sided|non adjusted||REST||||0.474
82606948|NCT02115308|164929388|SUPERIORITY|||||||0.537|||||||t-test, 2 sided|non adjusted||||||0.537
82606949|NCT02115308|164929388|SUPERIORITY|||||||0.717|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.717
82606950|NCT02115308|164929388|SUPERIORITY|||||||0.041|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.041
82606951|NCT02115308|164929388|SUPERIORITY|||||||0.05|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.050
82606952|NCT02115308|164929388|SUPERIORITY|||||||0.908||||||non adjusted|t-test, 2 sided|||REST-to-STRESS Change||||0.908
82606953|NCT02115308|164929388|SUPERIORITY|||||||0.233|||||||t-test, 2 sided|non adjusted||||||0.233
82606954|NCT02115308|164929388|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.187
82606955|NCT02115308|164929390|SUPERIORITY|||||||0.008|||||||paired, t-test|non adjusted||REST vs STRESS||||0.008
82606956|NCT02115308|164929390|SUPERIORITY|||||||0.006|||||||paired, t-test|non adjusted||REST vs STRESS||||0.006
82606957|NCT02115308|164929390|SUPERIORITY|||||||0.428|||||||paired, t-test|non adjusted||REST vs STRESS||||0.428
82606958|NCT02115308|164929390|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST||||<0.000
82606959|NCT02115308|164929390|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST||||<0.000
82606960|NCT02115308|164929390|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|non adjusted||REST||||0.006
82606961|NCT02115308|164929390|SUPERIORITY|||||||0.002|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.002
82606962|NCT02115308|164929390|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||<0.000
82606963|NCT02115308|164929390|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|non adjusted||Regadenoson STRESS||||0.004
82606964|NCT02115308|164929390|SUPERIORITY||||||<|0|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||<0.000
82606965|NCT02115308|164929390|SUPERIORITY|||||||0.172|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.172
82606966|NCT02115308|164929390|SUPERIORITY|||||||0.957|||||||t-test, 2 sided|non adjusted||REST-to-STRESS Change||||0.957
82606967|NCT04233424|164929427|SUPERIORITY||Risk Ratio (RR)|-2.8||||0.152|TWO_SIDED|95.0|-6.7|1.0|||Cochran-Mantel-Haenszel|||||1.0|-6.7|0.152
82606968|NCT04233424|164929428|SUPERIORITY||Risk Ratio (RR)|-0.8||||0.6219|TWO_SIDED|95.0|-3.9|2.3|||Cochran-Mantel-Haenszel|||||2.3|-3.9|0.6219
82606969|NCT04233424|164929429|SUPERIORITY||Risk Ratio (RR)|-0.8||||0.4373|TWO_SIDED|95.0|-2.8|1.2|||Kaplan-Meier Analysis|||||1.2|-2.8|0.4373
82606970|NCT02698189|164929430|OTHER|80% Bayesian credible interval based on a prior distribution of Beta (1, 1).|||||||||||||||||80% 2-sided Bayesian credible interval: lower = 0.000; upper = 0.415|||
82606971|NCT02698189|164929430|OTHER|80% Bayesian credible interval based on a prior distribution of Beta (1, 1).|||||||||||||||||80% 2-sided Bayesian credible interval: lower = 0.040; upper = 0.391|||
82606972|NCT01126580|164929450|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.22|||<|0.001|TWO_SIDED|95.0|-0.36|-0.08||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||The study was designed with 90% power to detect non-inferiority of 1.5 mg LY2189265 vs Metformin on HbA1c change from baseline at the 26-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 2-sided alpha of 0.05 assuming no true difference between treatments. This corresponds to 223 participants per arm, with an assumed drop-out rate of 11%.||-0.08|-0.36|<0.001
82606973|NCT01126580|164929450|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.15|||<|0.001|TWO_SIDED|95.0|-0.29|-0.01||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.01|-0.29|<0.001
82606974|NCT01126580|164929450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.22||||0.002|TWO_SIDED|95.0|-0.36|-0.08||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.08|-0.36|0.002
82606975|NCT01126580|164929450|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.15||||0.02|TWO_SIDED|95.0|-0.29|-0.01||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.01|-0.29|0.020
82606976|NCT01126580|164929451|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.19|||<|0.001|TWO_SIDED|95.0|-0.35|-0.02||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||-0.02|-0.35|<0.001
82606977|NCT01126580|164929451|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.04|||<|0.001|TWO_SIDED|95.0|-0.2|0.12||The p-value is adjusted for multiplicity using a tree-gatekeeping strategy. To determine significance, the p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||||0.12|-0.20|<0.001
82606978|NCT01126580|164929451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.024|TWO_SIDED|95.0|-0.35|-0.02||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||-0.02|-0.35|0.024
82606979|NCT01126580|164929451|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.04||||0.299|TWO_SIDED|95.0|-0.2|0.12||Tree gatekeeping strategy to control the family-wise Type I error rate was applied.|ANCOVA|||Superiority analysis.||0.12|-0.20|0.299
82606980|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.023||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.023
82606981|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.021||||||Treatment comparison for HbA1c less than 7.0% at 26 weeks.|Regression, Logistic|||||||0.021
82606982|NCT01126580|164929452|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||<0.001
82606983|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.011||||||Treatment comparison for HbA1c less than or equal to 6.5% at 26 weeks.|Regression, Logistic|||||||0.011
82606984|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.001
82606985|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.269||||||Treatment comparison for HbA1c less than 7% at 52 weeks.|Regression, Logistic|||||||0.269
82606986|NCT01126580|164929452|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||<0.001
82606987|NCT01126580|164929452|SUPERIORITY_OR_OTHER|||||||0.134||||||Treatment comparison for HbA1c less than or equal to 6.5% at 52 weeks.|Regression, Logistic|||||||0.134
82606988|NCT01126580|164929453|SUPERIORITY_OR_OTHER|||||||0.079||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.079
82606989|NCT01126580|164929453|SUPERIORITY_OR_OTHER|||||||0.451||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.451
82606990|NCT01126580|164929453|SUPERIORITY_OR_OTHER|||||||0.025||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.025
82606991|NCT01126580|164929453|SUPERIORITY_OR_OTHER|||||||0.402||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.402
82606992|NCT01126580|164929454|SUPERIORITY_OR_OTHER|||||||0.061||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.061
82606993|NCT01126580|164929454|SUPERIORITY_OR_OTHER|||||||0.647||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.647
82606994|NCT01126580|164929454|SUPERIORITY_OR_OTHER|||||||0.022||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.022
82606995|NCT01126580|164929454|SUPERIORITY_OR_OTHER|||||||0.469||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.469
82606996|NCT01126580|164929455|SUPERIORITY_OR_OTHER|||||||0.811||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.811
82606997|NCT01126580|164929455|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.003
82606998|NCT01126580|164929455|SUPERIORITY_OR_OTHER|||||||0.44||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.440
82606999|NCT01126580|164929455|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.001
82607000|NCT01126580|164929456|SUPERIORITY_OR_OTHER|||||||0.75||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.750
82607001|NCT01126580|164929456|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison at 26 weeks.|ANCOVA|||||||0.003
82607002|NCT01126580|164929456|SUPERIORITY_OR_OTHER|||||||0.412||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.412
82607003|NCT01126580|164929456|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison at 52 weeks.|ANCOVA|||||||0.001
82607004|NCT01126580|164929457|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 26 weeks.|Mixed Models Analysis|||||||<0.001
82607005|NCT01126580|164929457|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 26 weeks.|Mixed Models Analysis|||||||<0.001
82607006|NCT01126580|164929457|SUPERIORITY_OR_OTHER||||||<|0.001||||||Treatment comparison of HOMA2-%B at 52 weeks.|Mixed Models Analysis|||||||<0.001
82607007|NCT01126580|164929457|SUPERIORITY_OR_OTHER|||||||0.003||||||Treatment comparison of HOMA2-%B at 52 weeks.|Mixed Models Analysis|||||||0.003
82607008|NCT01126580|164929457|SUPERIORITY_OR_OTHER|||||||0.001||||||Treatment comparison of HOMA2-%S at 26 weeks.|Mixed Models Analysis|||||||0.001
82607009|NCT01126580|164929457|SUPERIORITY_OR_OTHER|||||||0.01||||||Treatment comparison of HOMA2-%S at 26 weeks.|Mixed Models Analysis|||||||0.010
82607010|NCT01126580|164929457|SUPERIORITY_OR_OTHER|||||||0.077||||||Treatment comparison of HOMA2-%S at 52 weeks.|Mixed Models Analysis|||||||0.077
82607011|NCT01126580|164929457|SUPERIORITY_OR_OTHER|||||||0.004||||||Treatment comparison of HOMA2-%S at 52 weeks.|Mixed Models Analysis|||||||0.004
82607012|NCT01392183|164929549|SUPERIORITY||Hazard Ratio (HR)|1.36|||||TWO_SIDED|95.0|0.84|2.22|||||Adjusted Hazard Ratio comparing Median PFS of pazopanib (treatment group) to Temsirolimus (control group) as first line of treatment. HR \>1 treatment group performed better, \< 1 the control group performed better =1 groups performed equally.|||2.22|0.84|
82607013|NCT01392183|164929550|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.7|1.93|||||Adjusted HR comparing Median OS of pazopanib (treatment group) to Temsirolimus (control group) as first line of treatment. HR \>1 treatment group performed better, \< 1 the control group performed better =1 groups performed equally.|||1.93|0.7|
82607014|NCT03972488|164929551|SUPERIORITY||Hazard Ratio (HR)|0.276|||<|0.0001|TWO_SIDED|95.0|0.182|0.418|||Log Rank|Stratified one-sided P-value||||0.418|0.182|<0.0001
82657058|NCT01029353|165029686|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.80, 95% credible interval of (0.61, 1.01). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.15, 95% credible interval of (0.94, 1.42).|||
82607015|NCT03972488|164929552|SUPERIORITY||Stratified Odds Ratio|7.81|||<|0.0001|TWO_SIDED|95.0|3.32|18.4|||Stratified One-sided p-value|||||18.40|3.32|<0.0001
82607016|NCT03972488|164929553|SUPERIORITY||Hazard Ratio (HR)|0.856||||0.2222|TWO_SIDED|95.0|0.57|1.283|||Log Rank|Stratified one-sided P-value||Global Health Status||1.283|0.570|0.2222
82607017|NCT01232946|164929594|SUPERIORITY|||||||0.65|||||||Kruskal-Wallis|||||||0.65
82607018|NCT01232946|164929595|SUPERIORITY|||||||0.065|||||||Kruskal-Wallis|||||||0.065
82607019|NCT01232946|164929596|SUPERIORITY|||||||0.8|||||||Kruskal-Wallis|||||||0.80
82607020|NCT00473694|164929597|SUPERIORITY||Estimated Treatment Effect|17.29|||<|0.0001|TWO_SIDED|95.0|13.95|21.42||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.9 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.42|13.95|<0.0001
82607021|NCT00473694|164929598|SUPERIORITY||Estimated Treatment Effect|14.86|||<|0.0001|TWO_SIDED|95.0|10.18|21.67||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.9 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.67|10.18|<0.0001
82607022|NCT00473694|164929599|SUPERIORITY||Estimated Treatment Effect|15.84|||<|0.0001|TWO_SIDED|95.0|12.58|19.95||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.7 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||19.95|12.58|<0.0001
82607023|NCT00473694|164929600|SUPERIORITY||Estimated Treatment Effect|18.45|||<|0.0001|TWO_SIDED|95.0|13.98|24.35||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.7 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||24.35|13.98|<0.0001
82607024|NCT00473694|164929601|SUPERIORITY||Estimated Treatment Effect|17.04|||<|0.0001|TWO_SIDED|95.0|13.62|21.31||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.8 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||21.31|13.62|<0.0001
82607025|NCT00473694|164929602|SUPERIORITY||Estimated Treatment Effect|17.7|||<|0.0001|TWO_SIDED|95.0|12.85|24.38||A two-way ANOVA model was used with the logarithm of the recovery time taken as the response variable, and trial site and treatment group were the factors of the model.|ANOVA||The value for estimated treatment effect represents how many times faster the mean time to recovery of the T4/T1 ratio to 0.8 was for participants receiving sugammadex after NMB compared to participants receiving neostigmine after NMB.|||24.38|12.85|<0.0001
82607026|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.86||||0.2866|TWO_SIDED|95.0|0.66|1.13|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on ≥ 1 of EDSS, T25FW, or 9HPT at 2 years||1.13|0.66|0.2866
82607027|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.753|TWO_SIDED|95.0|0.74|1.53|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on EDSS||1.53|0.74|0.7530
82607028|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.9137|TWO_SIDED|95.0|0.74|1.3|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on T25FW||1.30|0.74|0.9137
82607029|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.56||||0.0012|TWO_SIDED|95.0|0.4|0.8|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (either hand)||0.80|0.40|0.0012
82607030|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.1251|TWO_SIDED|95.0|0.48|1.09|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (dominant hand)||1.09|0.48|0.1251
82607031|NCT01416181|164929648|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.0091|TWO_SIDED|95.0|0.39|0.87|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).||Confirmed progressors on 9HPT (non-dominant hand)||0.87|0.39|0.0091
82607032|NCT01416181|164929650|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.4369|TWO_SIDED|95.0|0.8|1.7|||Regression, Logistic|Based on logistic regression, adjusted for baseline EDSS (\<=5.5 or \>=6) and T25FW.|active/placebo|||1.70|0.80|0.4369
82607033|NCT01416181|164929651|SUPERIORITY_OR_OTHER|||||||0.5409|||||||ANCOVA|p-value for comparison between the active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL MSWS-12.||||||0.5409
82657059|NCT01029353|165029687|SUPERIORITY||Risk Ratio (RR)|0.68|||||TWO_SIDED|95.0|0.46|1.01|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.01|0.46|
82657060|NCT01029353|165029687|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.74|2.01|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.01|0.74|
82657061|NCT01029353|165029687|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.72, 95% credible interval of (0.48, 1.05). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.12, 95% credible interval of (0.71, 1.76).|||
82607034|NCT01416181|164929652|SUPERIORITY_OR_OTHER|||||||0.2586|||||||ANCOVA|p-value for comparison between active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL ABILHAND.||||||0.2586
82607035|NCT01416181|164929653|SUPERIORITY_OR_OTHER|||||||0.1529|||||||ANCOVA|p-value for comparison between active \& placebo groups at Wk 96 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL MSIS-29 physical score.||||||0.1529
82607036|NCT01416181|164929654|SUPERIORITY_OR_OTHER|||||||0.2424||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active and placebo groups at Week 96 is based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or \>=6) and BL brain volume.||Only participants with BL brain volume are included in the p-value calculation.||||0.2424
82607037|NCT01416181|164929655|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.78||||0.1052|TWO_SIDED|95.0|0.58|1.05|||Regression, Logistic|Based on logistic regression, adjusted for baseline EDSS (\<=5.5 or \>=6).||||1.05|0.58|0.1052
82607038|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.67||||0.0205|TWO_SIDED|95.0|0.47|0.94|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on ≥ 1 of EDSS, T25FW, or 9HPT at 156 weeks||0.94|0.47|0.0205
82607039|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.1305|TWO_SIDED|95.0|0.48|1.1|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on EDSS at 156 weeks||1.10|0.48|0.1305
82607040|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.1988|TWO_SIDED|95.0|0.57|1.12|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on T25FW at 156 weeks||1.12|0.57|0.1988
82492333|NCT02527161|164677913|SUPERIORITY|||||||0.0212|||||||ANOVA|||Change from 6 weeks to 3 months KOOS ADL||||0.0212
82607041|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.59||||0.0093|TWO_SIDED|95.0|0.39|0.88|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on 9HPT (either hand) at 156 weeks||0.88|0.39|0.0093
82607042|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.054|TWO_SIDED|95.0|0.39|1.01|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors onm 9HPT (dominant hand) at 156 weeks||1.01|0.39|0.0540
82657062|NCT01029353|165029688|SUPERIORITY||Risk Ratio (RR)|0.73|||||TWO_SIDED|95.0|0.51|1.04|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.04|0.51|
82657063|NCT01029353|165029688|SUPERIORITY||Risk Ratio (RR)|1.25|||||TWO_SIDED|95.0|0.82|1.93|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates. Reported results in this analysis restricted to infants with IP.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.93|0.82|
82657064|NCT01029353|165029688|SUPERIORITY|||||||||||||||||A Bayesian analysis. Within pre-operative diagnosis, Initial Laparotomy and Initial Peritoneal Drain were compared using log-binomial regression. Pre-operative diagnosis levels were NEC and IP. PROC MCMC with effect coding was used. Center (random effect), treatment, pre-operative diagnosis, baseline risk, and the treatment by Preoperative diagnosis were the covariates. Markov chain Monte Carlo (MCMC) characteristics: three chains, 10000 tunings, 10000 burn-ins, 1000000 samples, thinning=20.|Priors for model parameters: intercept = Normal(mean=0, variance=100), baseline risk and preop diagnosis parameters = Normal(mean=0, variance=1), treatment and the interaction term = Normal(mean=0, variance=0.31416), random effect standard deviation = Half-Normal(mean=0, variance=10). For the NEC pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 0.77, 95% credible interval of (0.51, 1.14). For the IP pre-operative diagnosis, the posterior median relative risk of Initial Laparotomy over Initial Drainage was 1.17, 95% credible interval of (0.76, 1.81).|||
82657065|NCT01029353|165029689|SUPERIORITY||Risk Ratio (RR)|0.53|||||TWO_SIDED|95.0|0.31|0.89|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||0.89|0.31|
82657066|NCT01029353|165029689|SUPERIORITY||Risk Ratio (RR)|0.44|||||TWO_SIDED|95.0|0.29|0.66|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||0.66|0.29|
82657067|NCT01029353|165029690|SUPERIORITY||Risk Ratio (RR)|1.44|||||TWO_SIDED|95.0|0.58|3.57|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||3.57|0.58|
82657068|NCT01029353|165029690|SUPERIORITY||Risk Ratio (RR)|1.63|||||TWO_SIDED|95.0|1.06|2.5|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.50|1.06|
82492334|NCT02527161|164677913|SUPERIORITY|||||||0.7173|||||||ANOVA|||Change from 3 months to 6 months KOOS ADL||||0.7173
82607043|NCT01416181|164929656|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.141|TWO_SIDED|95.0|0.44|1.12|||Regression, Logistic|Based on logistic regression, adjusted for Baseline EDSS (\<=5.5 or \>=6) and/or T25FW and/or 9HPT (either hand).|active/placebo|Confirmed progressors on 9HPT (non-dominant hand) at 156 weeks||1.12|0.44|0.1410
82607044|NCT01416181|164929657|SUPERIORITY_OR_OTHER|||||||0.0273|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||Week 156||||0.0273
82492335|NCT02527161|164677913|SUPERIORITY|||||||0.1834|||||||ANOVA|||Change from 6 months to 1 year KOOS ADL||||0.1834
82492336|NCT02527161|164677913|SUPERIORITY|||||||0.9957|||||||ANOVA|||Change from 1 year to 2 year KOOS ADL||||0.9957
82492337|NCT02527161|164677913|SUPERIORITY|||||||0.9999|||||||ANOVA|||Change from 6 months to 1 year KOOS ADL||||0.9999
82492338|NCT02527161|164677914|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS S\&R||||<0.0001
82492339|NCT02527161|164677914|SUPERIORITY|||||||0.0522|||||||ANOVA|||Change from 6 weeks to 3 months KOOS S\&R||||0.0522
82607045|NCT01416181|164929657|SUPERIORITY_OR_OTHER|||||||0.1974|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||CP Group: Week 156||||0.1974
82607046|NCT01416181|164929657|SUPERIORITY_OR_OTHER|||||||0.2506|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||NP Group: Week 156||||0.2506
82607047|NCT01416181|164929658|SUPERIORITY_OR_OTHER|||||||0.096|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||Overall: Week 156||||0.0960
82607048|NCT01416181|164929658|SUPERIORITY_OR_OTHER|||||||0.4957|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||CP Group: Week 156||||0.4957
82607049|NCT01416181|164929658|SUPERIORITY_OR_OTHER|||||||0.2916|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL T25FW.||NP Group: Week 156||||0.2916
82607050|NCT01416181|164929659|SUPERIORITY_OR_OTHER|||||||0.1119|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||Overall, Week 156||||0.1119
82607051|NCT01416181|164929659|SUPERIORITY_OR_OTHER|||||||0.1129|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||CP Group: Week 156||||0.1129
82607052|NCT01416181|164929659|SUPERIORITY_OR_OTHER|||||||0.2351|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||NP Group: Week 156||||0.2351
82607053|NCT01416181|164929660|SUPERIORITY_OR_OTHER|||||||0.0261|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||Overall: Week 156||||0.0261
82607054|NCT01416181|164929660|SUPERIORITY_OR_OTHER|||||||0.0585|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||CP Group: Week 156||||0.0585
82492340|NCT02527161|164677914|SUPERIORITY|||||||0.1696|||||||ANOVA|||Change from 3 months to 6 months KOOS S\&R||||0.1696
82607055|NCT01416181|164929660|SUPERIORITY_OR_OTHER|||||||0.6095|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (dominant hand).||NP Group: Week 156||||0.6095
82607056|NCT01416181|164929661|SUPERIORITY_OR_OTHER|||||||0.723|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||Overall: Week 156||||0.7230
82607057|NCT01416181|164929661|SUPERIORITY_OR_OTHER|||||||0.8781|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||CP Group: Week 156||||0.8781
82607058|NCT01416181|164929661|SUPERIORITY_OR_OTHER|||||||0.2751|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||NP Group: Week 156||||0.2751
82607059|NCT01416181|164929662|SUPERIORITY_OR_OTHER|||||||0.5051|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||Overall: Week 156||||0.5051
82607060|NCT01416181|164929662|SUPERIORITY_OR_OTHER|||||||0.7283|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||CP Group: Week 156||||0.7283
82607061|NCT01416181|164929662|SUPERIORITY_OR_OTHER|||||||0.1666|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 9HPT (non-dominant hand).||NP Group: Week 156||||0.1666
82607062|NCT01416181|164929663|SUPERIORITY_OR_OTHER|||||||0.433|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||Overall: Week 156||||0.4330
82607063|NCT01416181|164929663|SUPERIORITY_OR_OTHER|||||||0.7122|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||CP Group: Week 156||||0.7122
82492341|NCT02527161|164677914|SUPERIORITY|||||||0.6942|||||||ANOVA|||Change from 6 months to 1 year KOOS S\&R||||0.6942
82492342|NCT02527161|164677914|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year KOOS S\&R||||>0.9999
82492343|NCT02527161|164677914|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year KOOS S\&R||||>0.9999
82492344|NCT02527161|164677915|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KOOS QoL||||<0.0001
82492345|NCT02527161|164677915|SUPERIORITY|||||||0.0135|||||||ANOVA|||Change from 6 weeks to 3 months KOOS QoL||||0.0135
82607064|NCT01416181|164929663|SUPERIORITY_OR_OTHER|||||||0.3861|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||NP Group: Week 156||||0.3861
82607065|NCT01416181|164929664|SUPERIORITY_OR_OTHER|||||||0.7225|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||Overall: Week 156||||0.7225
82607066|NCT01416181|164929664|SUPERIORITY_OR_OTHER|||||||0.9121|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||CP Group: Week 156||||0.9121
82607067|NCT01416181|164929664|SUPERIORITY_OR_OTHER|||||||0.2594|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA, adjusted for BL EDSS (≤5.5 or ≥6).||NP Group: Week 156||||0.2594
82607068|NCT01416181|164929665|SUPERIORITY_OR_OTHER|||||||0.8066|||||||ANCOVA|p-value for comparison between active \& placebo groups at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL 6MWT.||Week 156||||0.8066
82607069|NCT01416181|164929667|SUPERIORITY_OR_OTHER|||||||0.7084|||||||ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL MSIS-29 physical score.||||||0.7084
82607070|NCT01416181|164929669|SUPERIORITY_OR_OTHER|||||||0.3465|||||||ANCOVA|p-value for comparison between active and placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (\<=5.5 or\>=6) and BL SDMT.||Week 156||||0.3465
82607071|NCT01416181|164929673|SUPERIORITY_OR_OTHER|||||||0.007||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL normalized brain volume.||Percentage change from Week 24 to Week 156||||0.0070
82607072|NCT01416181|164929674|SUPERIORITY_OR_OTHER|||||||0.5034||||||natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment|ANCOVA|p-value for comparison between active \& placebo at Week 156 based on ANCOVA model, adjusted for BL EDSS (≤5.5 or ≥6) \& BL WGM brain volume||Percentage hange from Baseline to Week 156||||0.5034
82607073|NCT01416181|164929675|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the active and placebo groups at Week 156 compared to Week 108 is based on negative binomial regression model, adjusted for baseline EDSS (\<=5.5 or \>=6) and baseline volume of T2 lesions.|negative binomial regression model|natalizumab participants had a baseline after 6 months of treatment and the placebo-to-natalizumab group had a baseline of initiation of treatment||Week 156||||< 0.0001
82607074|NCT01896232|164929734|NON_INFERIORITY_OR_EQUIVALENCE|Etelcalcetide was considered non-inferior to cinacalcet if the upper bound of the 2-sided 95% confidence interval (CI) of the treatment difference (cinacalcet - etelcalcetide) was \< 12%, the prespecified margin for non-inferiority.|Stratified Treatment Difference|-10.48|||||TWO_SIDED|95.0|-17.45|-3.51||||||"The analysis was conducted on the Full Analysis Set (683 participants). Imputation under the non-inferiority null method was applied to participants who did not have PTH data during the EAP.~The Mantel-Haenszel estimator was used to calculate the treatment difference between the proportions (Cinacalcet - Etelcalcetide) stratified by screening PTH level and region."||-3.51|-17.45|
82607075|NCT01896232|164929735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.65||||0.001|TWO_SIDED|95.0|1.21|2.23|||Cochran-Mantel-Haenszel||The CMH-stratified odds ratio is Etelcalcetide : Cinacalcet.|"Achievement of \> 50% reduction in mean predialysis serum PTH from baseline during the EAP was analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by screening PTH level and region.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||2.23|1.21|0.001
82607076|NCT01896232|164929736|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.004|TWO_SIDED|95.0|1.16|2.17|||Cochran-Mantel-Haenszel||The CMH stratified odds ratio is Etelcalcetide : Cinacalcet.|"Achievement of \> 30% reduction in mean predialysis serum PTH from baseline during the EAP was analyzed using the Cochran-Mantel-Haenszel test stratified by screening PTH level and region.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||2.17|1.16|0.004
82607077|NCT01896232|164929737|SUPERIORITY_OR_OTHER||Treatment Rate Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.15||0.27|TWO_SIDED|95.0|0.89|1.49|||Generalized Linear Mixed Model||The treatment rate ratio is Etelcalcetide : Cinacalcet.|"Analyzed using a generalized linear mixed model with Poisson regression, including screening value of the number of days of nausea and vomiting, treatment, stratification factors (screening PTH level and region), study weeks, and treatment by study weeks as covariates.~Superiority of etelcalcetide compared with cinacalcet was tested at the 5% significance level (2-sided)."||1.49|0.89|0.27
82607078|NCT01896232|164929738|SUPERIORITY_OR_OTHER||Treatment difference|-3.48|STANDARD_ERROR_OF_MEAN|0.65|||TWO_SIDED|95.0|-4.76|-2.21|||||Treatment difference is Etelcalcetide - Cinacalcet.|Analyzed using a repeated measures mixed effects model, including treatment group, randomization stratification factors (screening PTH level and region), study week, and study week by treatment as fixed effects.||-2.21|-4.76|
82607079|NCT01896232|164929739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.59|||||The CMH-stratified odds ratio is Etelcalcetide : Cinacalcet.|Analyzed using the Cochran-Mantel-Haenszel method stratified by screening PTH level and region.||1.59|0.83|
82607080|NCT01896232|164929740|SUPERIORITY_OR_OTHER||Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-0.18|0.12|||||Treatment difference is Etelcalcetide - Cinacalcet.|Analyzed using an analysis of covariance (ANCOVA) model adjusted for screening PTH level and region.||0.12|-0.18|
82657069|NCT01029353|165029691|SUPERIORITY||Risk Ratio (RR)|2.52|||||TWO_SIDED|95.0|0.84|7.55|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||7.55|0.84|
82607081|NCT01896232|164929741|SUPERIORITY_OR_OTHER||Treatment Rate Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|0.86|1.72|||||The treatment rate ratio is Etelcalcetide : Cinacalcet.|This analysis was conducted using a generalized linear mixed model with Poisson regression including screening value of the number of episodes of vomiting, treatment, stratification factors (screening PTH level and region), study weeks, and treatment by study weeks as covariates.||1.72|0.86|
82607082|NCT01485614|164929793|SUPERIORITY||Least Squares Means Difference|-0.19|||=|0.448|TWO_SIDED|95.0|-0.68|0.3|||Mixed Models Analysis|"The Least Squares (LS) Mean for the arm Sitagliptin is compared against that of Placebo (pooled)."||||0.30|-0.68|= 0.448
82607083|NCT01485614|164929795|OTHER||Difference in Percentage|2.4|||||TWO_SIDED|95.0|-10.0|14.9||"Percentage of participants with ≥1 adverse event for the arm Sitagliptin was compared against that of Placebo/Metformin with Miettinen \& Nurminen."||||||14.9|-10.0|
82607084|NCT01485614|164929797|OTHER||Difference in percentage|4.2|||||TWO_SIDED|95.0|-1.3|10.8||"Percentage of participants with ≥1 adverse event for the arm Sitagliptin was compared against that of Placebo/Metformin with Miettinen \& Nurminen."||||||10.8|-1.3|
82607085|NCT01485614|164929800|SUPERIORITY||Difference in percentage|6.7|||=|0.374|TWO_SIDED|95.0|-8.1|21.2||"Percentage of participants with an A1C goal (7.0%) in the arm Sitagliptin was compared against the arm Placebo (pooled)."|Miettinen and Nurminen||||For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method based on the Linear Discriminant Analysis (LDA) model was used to impute whether the participant had met the goal.|21.2|-8.1|= 0.374
82607086|NCT01485614|164929802|SUPERIORITY||Difference in percentage|3.6|||=|0.639|TWO_SIDED|95.0|-11.6|18.3|||Miettinen and Nurminen|"The percentage of participants with an A1C at the A1C goal (6.5%) in the arm Sitagliptin was compared against the arm Placebo (pooled)."|||For estimating the treatment difference, when the A1C result for a participant at Week 20 was not available, a multiple imputation method based on the LDA model was used to impute whether the participant had met the goal.|18.3|-11.6|= 0.639
82607087|NCT01485614|164929807|SUPERIORITY||Least Squares Means Difference|1.5|||=|0.849|TWO_SIDED|95.0|-14.4|17.5|||Mixed Models Analysis|"The Least Squares (LS) Mean for the arm Sitagliptin was compared against that of Placebo (pooled)."||||17.5|-14.4|= 0.849
82607088|NCT00733902|164929883|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.3||0.015|TWO_SIDED|95.0|-1.32|-0.14|||ANCOVA|||Analysis of Covariance (ANCOVA) was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-1.32|0.015
82607089|NCT00733902|164929883|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.3||0.005|TWO_SIDED|95.0|-1.43|-0.25|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.25|-1.43|0.005
82607090|NCT00733902|164929883|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-1.78|-0.61|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.61|-1.78|<0.001
82607091|NCT00733902|164929884|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.29||0.009|TWO_SIDED|95.0|-1.32|-0.19|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-1.32|0.009
82607092|NCT00733902|164929884|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.54|-0.41|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.54|<0.001
82607093|NCT00733902|164929884|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.24|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.8|-0.68|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.68|-1.80|<0.001
82607094|NCT00733902|164929885|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.1||0.001|TWO_SIDED|95.0|-0.52|-0.13|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.13|-0.52|0.001
82607095|NCT00733902|164929885|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.56|-0.17|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.56|<0.001
82492346|NCT02527161|164677915|SUPERIORITY|||||||0.0829|||||||ANOVA|||Change from 3 months to 6 months KOOS QoL||||0.0829
82607096|NCT00733902|164929885|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.31|||ANCOVA|||ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.31|-0.70|<0.001
82607097|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.27||0.326|TWO_SIDED|95.0|-0.8|0.27|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.27|-0.80|0.326
82607098|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.275|TWO_SIDED|95.0|-0.24|0.83|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.83|-0.24|0.275
82607099|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.27||0.918|TWO_SIDED|95.0|-0.51|0.56|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.56|-0.51|0.918
82607100|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.93|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.47|-0.4|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.40|-1.47|<0.001
82607101|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.27||0.013|TWO_SIDED|95.0|-1.22|-0.15|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.15|-1.22|0.013
82607102|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.57|-0.49|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.49|-1.57|<0.001
82607103|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.27||0.003|TWO_SIDED|95.0|-1.36|-0.28|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-1.36|0.003
82607104|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.27||0.006|TWO_SIDED|95.0|-1.29|-0.21|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.21|-1.29|0.006
82607105|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.87|-0.79|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.79|-1.87|<0.001
82607106|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.68|-0.53|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.53|-1.68|<0.001
82607107|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|0.29||0.002|TWO_SIDED|95.0|-1.48|-0.33|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.33|-1.48|0.002
82607108|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.29|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.87|-0.72|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.72|-1.87|<0.001
82607109|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.31||0.027|TWO_SIDED|95.0|-1.28|-0.08|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-1.28|0.027
82607110|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.31||0.071|TWO_SIDED|95.0|-1.15|0.05|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.05|-1.15|0.071
82607111|NCT00733902|164929886|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.18|STANDARD_ERROR_OF_MEAN|0.31|<|0.001|TWO_SIDED|95.0|-1.78|-0.58|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.78|<0.001
82607112|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.27||0.326|TWO_SIDED|95.0|-0.8|0.27|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.27|-0.80|0.326
82607113|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.27||0.275|TWO_SIDED|95.0|-0.24|0.83|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.83|-0.24|0.275
82607114|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.27||0.918|TWO_SIDED|95.0|-0.51|0.56|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.56|-0.51|0.918
82607115|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.39|-0.32|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.39|0.002
82607116|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.27||0.052|TWO_SIDED|95.0|-1.06|0.0|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.00|-1.06|0.052
82607117|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.44|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.44|-1.50|<0.001
82607118|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.27||0.006|TWO_SIDED|95.0|-1.26|-0.21|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.21|-1.26|0.006
82607119|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.27||0.004|TWO_SIDED|95.0|-1.28|-0.24|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-1.28|0.004
82607120|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.91|-0.86|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.86|-1.91|<0.001
82607121|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.5|-0.43|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.43|-1.50|<0.001
82607122|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.27||0.005|TWO_SIDED|95.0|-1.3|-0.23|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.23|-1.30|0.005
82607123|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.75|-0.69|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.69|-1.75|<0.001
82607124|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.28||0.061|TWO_SIDED|95.0|-1.07|0.02|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.02|-1.07|0.061
82607125|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.28||0.021|TWO_SIDED|95.0|-1.2|-0.1|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-1.20|0.021
82607126|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.85|-0.76|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.76|-1.85|<0.001
82607127|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.166|TWO_SIDED|95.0|-0.95|0.16|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.16|-0.95|0.166
82607128|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.28||0.167|TWO_SIDED|95.0|-0.95|0.16|||ANOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.16|-0.95|0.167
82607129|NCT00733902|164929887|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.75|-0.64|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.64|-1.75|<0.001
82607130|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.044|TWO_SIDED|95.0|-1.07|-0.02|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-1.07|0.044
82607131|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.875|TWO_SIDED|95.0|-0.57|0.48|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.48|-0.57|0.875
82607132|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.129|TWO_SIDED|95.0|-0.93|0.12|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.12|-0.93|0.129
82607133|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.51|-0.45|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.45|-1.51|<0.001
82607134|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.85|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.38|-0.32|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.38|0.002
82607135|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.23|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.76|-0.7|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.70|-1.76|<0.001
82607136|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.35|-0.3|||ANCOVA|||Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-1.35|0.002
82607137|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.27||0.001|TWO_SIDED|95.0|-1.39|-0.34|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.34|-1.39|0.001
82607138|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.94|-0.9|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.90|-1.94|<0.001
82607139|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.14|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.7|-0.58|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.58|-1.70|<0.001
82607140|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.01|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.57|-0.45|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.45|-1.57|<0.001
82607141|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.35|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.91|-0.79|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.79|-1.91|<0.001
82607142|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.29||0.021|TWO_SIDED|95.0|-1.26|-0.1|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.10|-1.26|0.021
82607143|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.29||0.029|TWO_SIDED|95.0|-1.22|-0.07|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.07|-1.22|0.029
82607144|NCT00733902|164929888|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.29|<|0.001|TWO_SIDED|95.0|-1.78|-0.62|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.62|-1.78|<0.001
82607145|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.27||0.044|TWO_SIDED|95.0|-1.07|-0.02|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-1.07|0.044
82607146|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.27||0.875|TWO_SIDED|95.0|-0.57|0.48|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.48|-0.57|0.875
82607147|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.27||0.129|TWO_SIDED|95.0|-0.93|0.12|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.12|-0.93|0.129
82607148|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.46|-0.41|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.41|-1.46|<0.001
82607149|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||L Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.27||0.004|TWO_SIDED|95.0|-1.28|-0.24|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.24|-1.28|0.004
82607150|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.19|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.71|-0.67|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.67|-1.71|<0.001
82607151|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.82|STANDARD_ERROR_OF_MEAN|0.26||0.002|TWO_SIDED|95.0|-1.33|-0.3|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-1.33|0.002
82607152|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.95|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-1.46|-0.43|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.43|-1.46|<0.001
82607153|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.53|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.04|-1.02|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-1.02|-2.04|<0.001
82607154|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.03|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.56|-0.51|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.51|-1.56|<0.001
82607155|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.52|-0.46|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.46|-1.52|<0.001
82607156|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.9|-0.85|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.85|-1.90|<0.001
82607157|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.27||0.03|TWO_SIDED|95.0|-1.12|-0.06|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-1.12|0.030
82607158|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.27||0.002|TWO_SIDED|95.0|-1.39|-0.32|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.32|-1.39|0.002
82607159|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.43|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-1.96|-0.9|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.90|-1.96|<0.001
82607160|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.28||0.085|TWO_SIDED|95.0|-1.03|0.07|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.07|-1.03|0.085
82607161|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.63|STANDARD_ERROR_OF_MEAN|0.28||0.026|TWO_SIDED|95.0|-1.18|-0.08|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.08|-1.18|0.026
82607162|NCT00733902|164929889|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.28|<|0.001|TWO_SIDED|95.0|-1.94|-0.84|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.84|-1.94|<0.001
82607163|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-0.49|<0.001
82607164|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.486|TWO_SIDED|95.0|-0.24|0.11|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.11|-0.24|0.486
82607165|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.42|-0.06|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-0.42|0.008
82607166|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.63|-0.26|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.26|-0.63|<0.001
82607167|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.64|-0.28|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-0.64|<0.001
82607168|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.76|-0.39|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.76|<0.001
82657070|NCT01029353|165029691|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.38|2.88|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.88|0.38|
82657071|NCT01029353|165029692|SUPERIORITY||Risk Ratio (RR)|1.78|||||TWO_SIDED|95.0|0.82|3.86|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||3.86|0.82|
82492347|NCT02527161|164677915|SUPERIORITY|||||||0.1729|||||||ANOVA|||Change from 6 months to 1 year KOOS QoL||||0.1729
82492348|NCT02527161|164677915|SUPERIORITY|||||||0.9687|||||||ANOVA|||Change from 1 year to 2 year KOOS QoL||||0.9687
82492349|NCT02527161|164677915|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year KOOS QoL||||>0.9999
82492350|NCT02527161|164677916|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks SF-12 PCS||||<0.0001
82492351|NCT02527161|164677916|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from 6 weeks to 3 months SF-12 PCS||||<0.0001
82492352|NCT02527161|164677916|SUPERIORITY|||||||0.8189|||||||ANOVA|||Change from 3 months to 6 months SF-12 PCS||||0.8189
82607169|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.53|-0.16|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.16|-0.53|<0.001
82607170|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.54|-0.17|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.54|<0.001
82607171|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.85|-0.49|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.49|-0.85|<0.001
82607172|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.63|-0.25|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.25|-0.63|<0.001
82607173|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.57|-0.19|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.19|-0.57|<0.001
82607174|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.8|-0.42|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.42|-0.80|<0.001
82607175|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.035|TWO_SIDED|95.0|-0.42|-0.02|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.02|-0.42|0.035
82607176|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.1||0.125|TWO_SIDED|95.0|-0.36|0.04|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.04|-0.36|0.125
82607177|NCT00733902|164929892|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.58|-0.18|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.18|-0.58|<0.001
82607178|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.14|-0.49|<0.001
82607179|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.486|TWO_SIDED|95.0|-0.24|0.11|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.11|-0.24|0.486
82607180|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.09||0.008|TWO_SIDED|95.0|-0.42|-0.06|||ANCOVA|||Change at Week 2: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.06|-0.42|0.008
82607181|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.64|-0.28|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.28|-0.64|<0.001
82607182|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.62|-0.26|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.26|-0.62|<0.001
82607183|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.75|-0.39|||ANCOVA|||Change at Week 4: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.75|<0.001
82607184|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.53|-0.16|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.16|-0.53|<0.001
82492353|NCT02527161|164677916|SUPERIORITY|||||||0.9845|||||||ANOVA|||Change from 6 months to 1 year SF-12 PCS||||0.9845
82607185|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.22|-0.58|<0.001
82607186|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.89|-0.52|||ANCOVA|||Change at Week 8: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.52|-0.89|<0.001
82607187|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.59|-0.22|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.22|-0.59|<0.001
82607188|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.55|-0.18|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.18|-0.55|<0.001
82607189|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.09|<|0.001|TWO_SIDED|95.0|-0.83|-0.46|||ANCOVA|||Change at Week 12: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.46|-0.83|<0.001
82607190|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.47|-0.09|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.09|-0.47|0.004
82607191|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.55|-0.17|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.17|-0.55|<0.001
82607192|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.77|-0.39|||ANCOVA|||Change at Week 16: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.39|-0.77|<0.001
82607193|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.1||0.09|TWO_SIDED|95.0|-0.37|0.03|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.03|-0.37|0.090
82607194|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.053|TWO_SIDED|95.0|-0.39|0.0|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||0.00|-0.39|0.053
82607195|NCT00733902|164929893|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.7|-0.3|||ANCOVA|||Change at Week 24: ANCOVA was performed with treatment as main effects, baseline value as a covariate, and study site as a random effect.||-0.30|-0.70|<0.001
82607196|NCT02210780|164929914|SUPERIORITY||Percentage Difference|34.0|||<|0.0001|TWO_SIDED|90.0|24.29|43.75|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||43.75|24.29|<0.0001
82607197|NCT02210780|164929915|SUPERIORITY||Percentage Difference|40.2|||<|0.0001|TWO_SIDED|90.0|29.4|51.01|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||51.01|29.40|<0.0001
82657072|NCT01029353|165029692|SUPERIORITY||Risk Ratio (RR)|1.16|||||TWO_SIDED|95.0|0.42|3.2|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||3.20|0.42|
82607198|NCT02210780|164929916|SUPERIORITY||Percentage Difference|34.0|||<|0.0001|TWO_SIDED|90.0|23.38|44.66|||Cochran-Mantel-Haenszel||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using Cochran-Mantel-Haenszel test stratified by randomization strata (moderate \[IGA=3\] vs. severe \[IGA=4\] AD).||44.66|23.38|<0.0001
82657073|NCT01029353|165029693|SUPERIORITY||Risk Ratio (RR)|1.68|||||TWO_SIDED|95.0|0.35|8.05|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||8.05|0.35|
82607199|NCT02210780|164929917|SUPERIORITY||LS Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.354|<|0.0001|TWO_SIDED|90.0|-2.72|-1.55|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using ANCOVA model which includes treatment, randomization strata, and baseline value as covariates.||-1.55|-2.72|<0.0001
82607200|NCT02210780|164929918|SUPERIORITY||LS Mean Difference|-17.8|STANDARD_ERROR_OF_MEAN|2.84|<|0.0001|TWO_SIDED|90.0|-22.5|-13.1|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using ANCOVA model that includes treatment, randomization strata and baseline value as covariates.||-13.1|-22.5|<0.0001
82607201|NCT02210780|164929920|SUPERIORITY||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.39|<|0.0001|TWO_SIDED|90.0|-3.0|-1.7|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using the ANCOVA model which includes treatment, randomization strata, and baseline values as covariates.||-1.7|-3.0|<0.0001
82607202|NCT02210780|164929921|SUPERIORITY||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|0.99|<|0.0001|TWO_SIDED|90.0|-9.9|-6.6|||ANCOVA||Dupilumab 300 mg qw vs. Placebo qw|Analysis was performed using the ANCOVA model which included treatment, randomization strata, and baseline value as covariates.||-6.6|-9.9|<0.0001
82607203|NCT01929083|164929964|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.04
82607204|NCT01929083|164929965|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.003
82607205|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||P value for incidence of fatigue/malaise|Fisher Exact|||||||0.04
82607206|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||p values for incidence of headache|Fisher Exact|||||||0.60
82607207|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||p value for incidence of mood changes|Fisher Exact|||||||0.23
82607208|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|||||p value for incidence of breast tenderness|Fisher Exact|||||||0.23
82607209|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||p value for incidence of hypotension|Fisher Exact|||||||0.48
82492354|NCT02527161|164677916|SUPERIORITY|||||||0.75|||||||ANOVA|||Change from 1 year to 2 year SF-12 PCS||||0.7500
82492355|NCT02527161|164677916|SUPERIORITY|||||||0.1376|||||||ANOVA|||Change from 2 year to 5 year SF-12 PCS||||0.1376
82607210|NCT01929083|164929966|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED|||||p value for incidence of vertigo requiring discontinuation of therapy|Fisher Exact|||||||0.48
82607211|NCT01929083|164929967|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.02
82607212|NCT01929083|164929968|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.002
82607213|NCT01929083|164929969|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED|||||p value for bradycardia|Fisher Exact|||||||0.65
82607214|NCT01929083|164929969|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED|||||p value for burning at infusion site|Fisher Exact|||||||>0.99
82607215|NCT01929083|164929969|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED|||||p value for transient QTc interval \> 500 ms|Fisher Exact|||||||> 0.99
82607216|NCT01929083|164929970|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.43
82607217|NCT01929083|164929971|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.36
82607218|NCT01929083|164929972|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||<0.0001
82657074|NCT01029353|165029693|SUPERIORITY||Risk Ratio (RR)|0.5|||||TWO_SIDED|95.0|0.1|2.44|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||2.44|0.10|
82607219|NCT01929083|164929973|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||t-test, 2 sided|Paired t-test||||||0.0001
82607220|NCT00283387|164929993|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||t-test, 2 sided|||||||0.007
82607221|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 1||||< 0.0001
82607222|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 2||||< 0.0001
82607223|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 3||||< 0.0001
82607224|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 4||||< 0.0001
82607225|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 5||||< 0.0001
82607226|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 6||||< 0.0001
82657075|NCT01029353|165029694|SUPERIORITY||Risk Ratio (RR)|1.29|||||TWO_SIDED|95.0|0.62|2.69|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||2.69|0.62|
82607227|NCT00500071|164930000|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Week 7||||< 0.0001
82607228|NCT00500071|164930001|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||||||< 0.0001
82607229|NCT00500071|164930004|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||||||< 0.0001
82607230|NCT00500071|164930005|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Global Executive Composite||||< 0.0001
82607231|NCT00500071|164930005|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Behavioral Recognition Index||||< 0.0001
82607232|NCT00500071|164930005|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||t-test, 1 sided|||Metacognition Index||||< 0.0001
82607233|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean neuropathy score from period 1 to period 2 between the two arms."|Difference in Change|-0.32||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in neuropathy score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean neuropathy score from period 1 to period 2 between the two arms"||||0.02
82607234|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean problems maintaining an erection score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in problems maintaining an erection score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean problems maintaining an erection score from period 1 to period 2 between the two arms"||||0.11
82607235|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dry mouth score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry mouth score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry mouth score from period 1 to period 2 between the two arms"||||0.02
82607236|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean ringing in ear score from period 1 to period 2 between the two arms."|Difference in Change|-0.29||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in ringing in ear score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean ringing in ear score from period 1 to period 2 between the two arms"||||0.01
82492356|NCT02527161|164677917|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 week VAS Rest||||<0.0001
82492357|NCT02527161|164677917|SUPERIORITY|||||||0.0031|||||||ANOVA|||Change from 6 weeks to 3 months VAS Rest||||0.0031
82657076|NCT01029353|165029694|SUPERIORITY||Risk Ratio (RR)|0.6|||||TWO_SIDED|95.0|0.27|1.32|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.32|0.27|
82657077|NCT01029353|165029695|SUPERIORITY||Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.41|1.36|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||1.36|0.41|
82657078|NCT01029353|165029695|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.69|1.42|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.42|0.69|
82657079|NCT01029353|165029696|SUPERIORITY||Risk Ratio (RR)|0.43|||||TWO_SIDED|95.0|0.04|4.45|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to NEC.||4.45|0.04|
82657080|NCT01029353|165029696|SUPERIORITY||Risk Ratio (RR)|0.81|||||TWO_SIDED|95.0|0.44|1.49|||||The model was fit using PROC GENMOD in SAS, using center as the repeated effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a robust Poisson regression model, with log link and center as repeated measure. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy over drain) when pre-operative diagnosis is equal to IP.||1.49|0.44|
82607237|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean vomit score from period 1 to period 2 between the two arms."|Difference in Change|-0.28||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in vomit score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean vomit score from period 1 to period 2 between the two arms"||||0.01
82607238|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dry eyes score from period 1 to period 2 between the two arms."|Difference in Change|-0.24||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry eyes score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry eyes score from period 1 to period 2 between the two arms"||||0.02
82607239|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean heartburn score from period 1 to period 2 between the two arms."|Difference in Change|-0.19||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in heartburn score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean heartburn score from period 1 to period 2 between the two arms"||||0.11
82607240|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean diarrhea score from period 1 to period 2 between the two arms."|Difference in Change|-0.16||||0.21|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in diarrhea score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean diarrhea score from period 1 to period 2 between the two arms"||||0.21
82657081|NCT01029353|165029697|SUPERIORITY||Mean Difference (Final Values)|-1.27|||||TWO_SIDED|95.0|-14.1|11.6|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||11.60|-14.10|
82657082|NCT01029353|165029697|SUPERIORITY||Mean Difference (Final Values)|-7.85|||||TWO_SIDED|95.0|-15.84|0.13|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||0.13|-15.84|
82607241|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean constipation score from period 1 to period 2 between the two arms."|Difference in Change|-0.14||||0.33|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in constipation score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean constipation score from period 1 to period 2 between the two arms"||||0.33
82607242|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean appetite change score from period 1 to period 2 between the two arms."|Difference in Change|-0.1||||0.46|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in appetite change score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean appetite change score from period 1 to period 2 between the two arms"||||0.46
82607243|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty remembering score from period 1 to period 2 between the two arms."|Difference in Change|-0.1||||0.46|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty remembering score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean difficulty remembering score from period 1 to period 2 between the two arms"||||0.46
82607244|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean fatigue score from period 1 to period 2 between the two arms."|Difference in Change|-0.07||||0.58|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fatigue score from period 1 to period 2 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean fatigue score from period 1 to period 2 between the two arms"||||0.58
82607245|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean cough score from period 1 to period 2 between the two arms."|Difference in Change|0.01||||0.92|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in cough score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean cough score from period 1 to period 2 between the two arms"||||0.92
82607246|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean urination score from period 1 to period 2 between the two arms."|Difference in Change|0.02||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in urination score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean urination score from period 1 to period 2 between the two arms"||||0.84
82607247|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean clumsy score from period 1 to period 2 between the two arms."|Difference in Change|0.03||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in clumsy score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean clumsy score from period 1 to period 2 between the two arms"||||0.83
82607248|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean fever score from period 1 to period 2 between the two arms."|Difference in Change|0.04||||0.72|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fever score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean fever score from period 1 to period 2 between the two arms"||||0.72
82607249|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean pain during sex score from period 1 to period 2 between the two arms."|Difference in Change|0.06||||0.48|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in pain during sex score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean pain during sex score from period 1 to period 2 between the two arms"||||0.48
82657083|NCT01029353|165029698|SUPERIORITY||Mean Difference (Final Values)|-11.57|||||TWO_SIDED|95.0|-27.15|4.01|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||4.01|-27.15|
82657084|NCT01029353|165029698|SUPERIORITY||Mean Difference (Final Values)|-7.63|||||TWO_SIDED|95.0|-17.46|2.2|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||2.20|-17.46|
82607250|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dizziness score from period 1 to period 2 between the two arms."|Difference in Change|0.08||||0.54|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dizziness score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean dizziness score from period 1 to period 2 between the two arms"||||0.54
82607251|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean muscle aches score from period 1 to period 2 between the two arms."|Difference in Change|0.09||||0.56|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in muscle aches score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean muscle aches score from period 1 to period 2 between the two arms"||||0.56
82607252|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean speech difficulties score from period 1 to period 2 between the two arms."|Difference in Change|0.1||||0.22|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in speech difficulties score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean speech difficulties score from period 1 to period 2 between the two arms"||||0.22
82607253|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean decreased sex drive score from period 1 to period 2 between the two arms."|Difference in Change|0.11||||0.4|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in decreased sex drive score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean decreased sex drive score from period 1 to period 2 between the two arms"||||0.40
82607254|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean anxiety score from period 1 to period 2 between the two arms."|Difference in Change|0.13||||0.35|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in anxiety score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean anxiety score from period 1 to period 2 between the two arms"||||0.35
82607255|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty concentrating score from period 1 to period 2 between the two arms."|Difference in Change|0.17||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty concentrating score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty concentrating score from period 1 to period 2 between the two arms"||||0.11
82607256|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean shortness of breath score from period 1 to period 2 between the two arms."|Difference in Change|0.2||||0.11|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in shortness of breath score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean shortness of breath score from period 1 to period 2 between the two arms"||||0.11
82607257|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty falling asleep score from period 1 to period 2 between the two arms."|Difference in Change|0.2||||0.15|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty falling asleep score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty falling asleep score from period 1 to period 2 between the two arms"||||0.15
82657085|NCT01029353|165029699|SUPERIORITY||Mean Difference (Final Values)|4.0|||||TWO_SIDED|95.0|-18.84|26.83|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||26.83|-18.84|
82607258|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean unplanned changes in weight score from period 1 to period 2 between the two arms."|Difference in Change|0.22||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in unplanned changes in weight score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean unplanned changes in weight score from period 1 to period 2 between the two arms"||||0.08
82607259|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean depression score from period 1 to period 2 between the two arms."|Difference in Change|0.34||||0.02|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in depression score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean depression score from period 1 to period 2 between the two arms"||||0.02
82607260|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty staying asleep score from period 1 to period 2 between the two arms."|Difference in Change|0.36||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty staying asleep score from period 1 to period 2 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty staying asleep score from period 1 to period 2 between the two arms"||||0.01
82607261|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dry mouth score from period 1 to period 3 between the two arms."|Difference in Change|-0.27||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry mouth score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry mouth score from period 1 to period 3 between the two arms"||||0.08
82607262|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean ringing in ear score from period 1 to period 3 between the two arms."|Difference in Change|-0.24||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in ringing in ear score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean ringing in ear score from period 1 to period 3 between the two arms"||||0.08
82607263|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dry eyes score from period 1 to period 3 between the two arms."|Difference in Change|-0.24||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dry eyes score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean dry eyes score from period 1 to period 3 between the two arms"||||0.08
82607264|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean maintaining an erection score from period 1 to period 3 between the two arms."|Difference in Change|-0.13||||0.71|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in maintaining an erection score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean maintaining an erection score from period 1 to period 3 between the two arms"||||0.71
82607265|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean vomit score from period 1 to period 3 between the two arms."|Difference in Change|-0.11||||0.41|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in vomit score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean vomit score from period 1 to period 3 between the two arms"||||0.41
82657086|NCT01029353|165029699|SUPERIORITY||Mean Difference (Final Values)|9.05|||||TWO_SIDED|95.0|-13.29|31.38|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||31.38|-13.29|
82657087|NCT01029353|165029700|SUPERIORITY||Mean Difference (Final Values)|-3.13|||||TWO_SIDED|95.0|-24.62|18.36|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||18.36|-24.62|
82657088|NCT01029353|165029700|SUPERIORITY||Mean Difference (Final Values)|-2.39|||||TWO_SIDED|95.0|-14.42|9.63|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates. Reported results in this analysis restricted to infants with IP.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||9.63|-14.42|
82492358|NCT02527161|164677917|SUPERIORITY|||||||0.299|||||||ANOVA|||Change from 3 months to 6 months VAS Rest||||0.2990
82607266|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean neuropathy score from period 1 to period 3 between the two arms."|Difference in Change|-0.08||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in neuropathy score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean neuropathy score from period 1 to period 3 between the two arms"||||0.84
82607267|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean urination score from period 1 to period 3 between the two arms."|Difference in Change|-0.07||||0.71|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in urination score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean urination score from period 1 to period 3 between the two arms"||||0.71
82607268|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean appetite change score from period 1 to period 3 between the two arms."|Difference in Change|-0.05||||0.88|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in appetite change score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean appetite change score from period 1 to period 3 between the two arms"||||0.88
82607269|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean shortness of breath score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in shortness of breath score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean shortness of breath score from period 1 to period 3 between the two arms"||||0.93
82607270|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty remembering score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty remembering score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean difficulty remembering score from period 1 to period 3 between the two arms"||||0.93
82607271|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean muscle aches score from period 1 to period 3 between the two arms."|Difference in Change|-0.03||||0.94|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in muscle aches score from period 1 to period 3 between the two arms.~Negative estimation parameter value indicates intervention arm better than control arm."|"The null hypothesis is that there is no difference in change in mean muscle aches score from period 1 to period 3 between the two arms"||||0.94
82607272|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean diarrhea score from period 1 to period 3 between the two arms."|Difference in Change|0.004||||0.97|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in diarrhea score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean diarrhea score from period 1 to period 3 between the two arms"||||0.97
82607273|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean fatigue score from period 1 to period 3 between the two arms."|Difference in Change|0.01||||0.95|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fatigue score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean fatigue score from period 1 to period 3 between the two arms"||||0.95
82607274|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean anxiety score from period 1 to period 3 between the two arms."|Difference in Change|0.01||||0.95|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in anxiety score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean anxiety score from period 1 to period 3 between the two arms"||||0.95
82607275|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean constipation score from period 1 to period 3 between the two arms."|Difference in Change|0.03||||0.93|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in constipation score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean constipation score from period 1 to period 3 between the two arms"||||0.93
82607276|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean fever score from period 1 to period 3 between the two arms."|Difference in Change|0.06||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in fever score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean fever score from period 1 to period 3 between the two arms"||||0.84
82657089|NCT01029353|165029701|SUPERIORITY||Mean Difference (Final Values)|-18.43|||||TWO_SIDED|95.0|-48.41|11.55|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to NEC.||11.55|-48.41|
82492359|NCT02527161|164677917|SUPERIORITY|||||||0.9832|||||||ANOVA|||Change from 6 months to 1 year VAS Rest||||0.9832
82607277|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean cough score from period 1 to period 3 between the two arms."|Difference in Change|0.07||||0.84|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in cough score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean cough score from period 1 to period 3 between the two arms"||||0.84
82607278|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean heartburn score from period 1 to period 3 between the two arms."|Difference in Change|0.11||||0.54|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in heartburn score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean heartburn score from period 1 to period 3 between the two arms"||||0.54
82607279|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean pain during sex score from period 1 to period 3 between the two arms."|Difference in Change|0.14||||0.13|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in pain during sex score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean pain during sex score from period 1 to period 3 between the two arms"||||0.13
82607280|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean clumsy score from period 1 to period 3 between the two arms."|Difference in Change|0.18||||0.18|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in clumsy score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean clumsy score from period 1 to period 3 between the two arms"||||0.18
82607281|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty falling asleep score from period 1 to period 3 between the two arms."|Difference in Change|0.19||||0.29|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty falling asleep score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty falling asleep score from period 1 to period 3 between the two arms"||||0.29
82607282|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty concentrating score from period 1 to period 3 between the two arms."|Difference in Change|0.2||||0.12|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty concentrating score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty concentrating score from period 1 to period 3 between the two arms"||||0.12
82607283|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean decreased sex drive score from period 1 to period 3 between the two arms."|Difference in Change|0.24||||0.1|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in decreased sex drive score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean decreased sex drive score from period 1 to period 3 between the two arms"||||0.10
82607284|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean speech difficulties score from period 1 to period 3 between the two arms."|Difference in Change|0.25||||0.01|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in speech difficulties score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean speech difficulties score from period 1 to period 3 between the two arms"||||0.01
82607285|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean unplanned changes in weight score from period 1 to period 3 between the two arms."|Difference in Change|0.26||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in unplanned changes in weight score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean unplanned changes in weight score from period 1 to period 3 between the two arms"||||0.08
82607286|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean dizziness score from period 1 to period 3 between the two arms."|Difference in Change|0.27||||0.08|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in dizziness score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean dizziness score from period 1 to period 3 between the two arms"||||0.08
82657090|NCT01029353|165029701|SUPERIORITY||Mean Difference (Final Values)|-11.95|||||TWO_SIDED|95.0|-31.96|8.06|||||The model was fit using PROC MIXED in SAS, using center as the random effect. Effect coding was used to represent the binary covariates.|This by treatment and by pre-operative diagnosis secondary analysis was completed by using a mixed linear regression model, using center as the random effect. Model included treatment, baseline risk of death or NDI, pre-op diagnosis (NEC/IP), and treatment by pre-op diagnosis as covariates. Reported results in this analysis restricted to model based treatment effect estimate (laparotomy minus drain) when pre-operative diagnosis is equal to IP.||8.06|-31.96|
82657091|NCT00849901|165029709|SUPERIORITY_OR_OTHER|||||||0.999||95.0|||||Mixed Models Analysis|||||||0.999
82657092|NCT03828734|165029721|SUPERIORITY|||||||0.263|||||||ANOVA|||||||0.263
82657093|NCT03828734|165029722|SUPERIORITY||||||<|1e-06|||||||ANOVA|||||||<0.000001
82492360|NCT02527161|164677917|SUPERIORITY|||||||0.9991|||||||ANOVA|||Change from 1 year to 2 year VAS Rest||||0.9991
82492361|NCT02527161|164677917|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year VAS Rest||||>0.9999
82607287|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean difficulty staying asleep score from period 1 to period 3 between the two arms."|Difference in Change|0.27||||0.09|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in difficulty staying asleep score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean difficulty staying asleep score from period 1 to period 3 between the two arms"||||0.09
82607288|NCT03182738|164930029|SUPERIORITY|"Linear mixed models to test difference in mean depression score from period 1 to period 3 between the two arms."|Difference in Change|0.38||||0.05|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in depression score from period 1 to period 3 between the two arms."|"The null hypothesis is that there is no difference in change in mean depression score from period 1 to period 3 between the two arms"||||0.05
82607289|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Fatigue PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-2.09||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Fatigue PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Fatigue PROMIS T-score from baseline to 3 months between two arms||||0.83
82607290|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Anxiety PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.94||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Anxiety PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Anxiety PROMIS T-score from baseline to 3 months between two arms||||0.83
82607291|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Depression PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.79||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Depression PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Depression PROMIS T-score from baseline to 3 months between two arms||||0.83
82607292|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Pain Interference PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|-0.78||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Pain Interference PROMIS T-score from baseline to 3 months between two arms|The null hypothesis is that there is no difference in change in Pain Interference PROMIS T-score from baseline to 3 months between two arms||||0.83
82607293|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.04||||0.98|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm"|The null hypothesis is that there is no difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 3 months between two arms||||0.98
82657094|NCT03828734|165029723|SUPERIORITY|||||||0.399|||||||ANOVA|||||||0.399
82657095|NCT02731157|165029725|OTHER||Mean Difference (Final Values)|0.65||||0.95|TWO_SIDED||||||ANOVA|||||||0.95
82657096|NCT02672553|165029745|SUPERIORITY||Median Difference (Final Values)|-12.5|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82607294|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Physical Function PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.55||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Physical Function PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Physical Function PROMIS T-score from baseline to 3 months between two arms.||||0.83
82657097|NCT02672553|165029746|SUPERIORITY||Median Difference (Final Values)|-10.5||||0.2077|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2077
82657098|NCT02003183|165029773|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_DEVIATION|0.1|<|0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This analysis applies to the Amygdala.||||<0.02
82657099|NCT01993875|165029805|SUPERIORITY|||||||0.129||||||Treatment p-value is from an analysis of co-variance (ANCOVA) using the SBM rate as the dependent variable, treatment as fixed effect, and baseline rate as random effect.|ANCOVA|||||||0.1290
82657100|NCT01993875|165029806|SUPERIORITY|||||||0.129||||||Treatment p-value is from an ANCOVA using the SBM rate as the dependent variable, treatment as fixed effect, and baseline rate as random effect.|ANCOVA|||||||0.1290
82657101|NCT01993875|165029807|SUPERIORITY|||||||0.2177||||||Treatment p-value is from an ANCOVA using the mean stool consistency score as the dependent variable, treatment as fixed effect, and the baseline consistency score as random effect.|ANCOVA|||||||0.2177
82657102|NCT01993875|165029808|SUPERIORITY|||||||0.2177||||||Treatment p-value is from an ANCOVA using the mean stool consistency score as the dependent variable, treatment as fixed effect, and the baseline consistency score as random effect.|ANCOVA|||||||0.2177
82657103|NCT01993875|165029809|SUPERIORITY|||||||0.0664||||||Treatment p-value is from an ANCOVA using the mean straining score as the dependent variable, treatment as fixed effect, and the baseline straining score as random effect.|ANCOVA|||||||0.0664
82657104|NCT01993875|165029810|SUPERIORITY|||||||0.0664||||||Treatment p-value is from an ANCOVA using the mean straining score as the dependent variable, treatment as fixed effect, and the baseline mean score as random effect.|ANCOVA|||||||0.0664
82657105|NCT01054599|165029820|OTHER||||||>|0.05|||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82607295|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.|Difference in Change|0.84||||0.83|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Sleep Disturbance PROMIS T-score from baseline to 3 months between two arms.||||0.83
82607296|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Physical Function PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|-0.43||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||The parameter was estimated using a difference in change in Physical Function PROMIS T-score from baseline to 6 months between two arms.|The null hypothesis is that there is no difference in change in Physical Function PROMIS T-score from baseline to 6 months between two arms.||||0.96
82607297|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Depression PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.07||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Depression PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Depression PROMIS T-score from baseline to 6 months between two arms.||||0.96
82607298|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.23||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model|||The null hypothesis is that there is no difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.|"The parameter was estimated using a difference in change in Satisfaction with Social Role PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|||0.96
82607299|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Anxiety PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|0.77||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Anxiety PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Anxiety PROMIS T-score from baseline to 6 months between two arms.||||0.96
82607300|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Pain Interference PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|1.05||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Pain Interference PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Pain Interference PROMIS T-score from baseline to 6 months between two arms.||||0.96
82607301|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Fatigue PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|1.5||||0.96|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Fatigue PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Fatigue PROMIS T-score from baseline to 6 months between two arms.||||0.96
82607302|NCT03182738|164930030|SUPERIORITY|Linear mixed models to test difference in mean score of Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.|Difference in Change|2.04||||0.64|TWO_SIDED|||||Calculated p-value given the null-hypothesis. P value was adjusted for multiple-test with a false discovery rate (FDR).|Linear mixed model||"The parameter was estimated using a difference in change in Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.~Positive estimation parameter value indicates intervention arm better than control arm."|The null hypothesis is that there is no difference in change in Sleep Disturbance PROMIS T-score from baseline to 6 months between two arms.||||0.64
82657106|NCT01054599|165029823|OTHER||||||>|0.05|||||||Wilcoxon Signed Ranks Test|||||||>0.05
82657107|NCT00743197|165029824|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|0|Other|0.0|STANDARD_DEVIATION|0.0||||||||0||||0||||
82657108|NCT01402947|165029851|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|1.013|||||TWO_SIDED|90.0|0.933|1.1|||ANOVA|||||1.100|0.933|
82657109|NCT01402947|165029852|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|If the 90% Confidence Intervals of the geometric mean ratio are wholly contained within the interval (0.80, 1.25), then the hypothesis of a drug interaction will be rejected.|Geometric Mean Ratio|0.999|||||TWO_SIDED|90.0|0.893|1.117|||ANOVA|||||1.117|0.893|
82657110|NCT02405195|165029857|OTHER|||||||0.638||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA throughout measurement period (before, during and after CPB).||||0.638
82657111|NCT02405195|165029858|OTHER|||||||0.972||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA||||0.972
82657112|NCT02405195|165029859|OTHER||||||<|0.001||||||Bonferroni-Holm adjustment for multiple comparisons was used|ANOVA|||Repeated measures ANOVA||||<0.001
82492362|NCT02527161|164677918|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks VAS Mob||||<0.0001
82607303|NCT03584009|164930035|SUPERIORITY||Risk Difference (RD)|-1.96||||0.7286|TWO_SIDED|95.0|-16.86|12.94||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Cochran-Mantel-Haenszel|||||12.94|-16.86|0.7286
82607304|NCT03584009|164930036|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.7853|TWO_SIDED|95.0|0.61|1.45||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Regression, Cox|||||1.45|0.61|0.7853
82607305|NCT03584009|164930037|SUPERIORITY||Risk Difference (RD)|-1.96||||0.5978|TWO_SIDED|95.0|-12.29|8.37||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Cochran-Mantel-Haenszel|||||8.37|-12.29|0.5978
82607306|NCT03584009|164930039|SUPERIORITY||Hazard Ratio (HR)|1.87||||0.0403|TWO_SIDED|95.0|1.02|3.43||P-value is based on Stratified Analysis (Stratified by BCL2 status (High vs Low) and Lines of Therapy (2 vs 1)).|Log Rank||Hazard ratios were estimated by Cox regression.|||3.43|1.02|0.0403
82657113|NCT01706926|165029862|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.193|<|0.001|TWO_SIDED|95.0|-1.06|-0.31|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95 percent (%) confidence interval (CI) was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.31|-1.06|<0.001
82657114|NCT01706926|165029862|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.96|STANDARD_ERROR_OF_MEAN|0.19|<|0.001|TWO_SIDED|95.0|-1.33|-0.58|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.58|-1.33|<0.001
82657115|NCT01706926|165029862|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.22|STANDARD_ERROR_OF_MEAN|0.193|<|0.001|TWO_SIDED|95.0|-1.6|-0.84|||Repeated measures model|||Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||-0.84|-1.60|<0.001
82657116|NCT01706926|165029863|SUPERIORITY_OR_OTHER||Percent difference|25.9|||<|0.001|TWO_SIDED|95.0|11.5|40.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||40.3|11.5|<0.001
82607307|NCT00509106|164930069|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Confidence Interval (CI) for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated based on the MITTE Population at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% for the MITTE populations.|Risk Difference (RD)|5.9|||||TWO_SIDED|95.0|-1.0|12.7|||||Risk difference corresponds to Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The confidence interval was calculated using the Miettinen and Nurminen method without adjustment.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared with that for ceftriaxone at TOC in the MITTE Population in adult subjects with CABP.||12.7|-1.0|
82607308|NCT02371629|164930115|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.033|STANDARD_ERROR_OF_MEAN|0.0169||0.051|TWO_SIDED|95.0|0.0|0.066|||Mixed model for repeated measure (MMRM)|||||0.066|0.000|0.051
82657117|NCT01706926|165029863|SUPERIORITY_OR_OTHER||Percent difference|36.5|||<|0.001|TWO_SIDED|95.0|22.5|50.5|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||50.5|22.5|<0.001
82657118|NCT01706926|165029863|SUPERIORITY_OR_OTHER||Percent difference|48.7|||<|0.001|TWO_SIDED|95.0|35.2|62.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||62.3|35.2|<0.001
82657119|NCT01706926|165029870|SUPERIORITY_OR_OTHER||Percent difference|16.0||||0.013|TWO_SIDED|95.0|3.9|28.2|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||28.2|3.9|0.013
82657120|NCT01706926|165029870|SUPERIORITY_OR_OTHER||Percent difference|13.5||||0.03|TWO_SIDED|95.0|1.8|25.3|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||25.3|1.8|0.030
82607309|NCT01073943|164930134|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the 1-sided 97.5% CI for the treatment difference (PICOPREP minus HalfLytely) was \>-9% for the percentage of responders. Superiority was demonstrated if the 1-sided 97.5% CI for treatment difference was \>0%.|Mean Difference (Net)|3.3|||||ONE_SIDED|97.5|-2.9||||||||||-2.9|
82607310|NCT01073943|164930135|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|-2.7|||||ONE_SIDED|97.5|-8.8||||||||||-8.8|
82607311|NCT01073943|164930136|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82607312|NCT01073943|164930137|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82657121|NCT01706926|165029870|SUPERIORITY_OR_OTHER||Percent difference|28.2|||<|0.001|TWO_SIDED|95.0|15.2|41.1|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|||41.1|15.2|<0.001
82657122|NCT01706926|165029871|SUPERIORITY_OR_OTHER||Percent difference|8.6||||0.079|TWO_SIDED|95.0|0.4|16.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||16.9|0.4|0.079
82657123|NCT01706926|165029871|SUPERIORITY_OR_OTHER||Percent difference|6.9||||0.133|TWO_SIDED|95.0|-0.8|14.6|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||14.6|-0.8|0.133
82607313|NCT01073943|164930138|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82607314|NCT01073943|164930139|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82607315|NCT01073943|164930140|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82607316|NCT01073943|164930141|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82607317|NCT01073943|164930143|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|4.5|||||ONE_SIDED|97.5|-0.1|||||||Mid colon comparison|||-0.1|
82607318|NCT01073943|164930143|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|3.2|||||ONE_SIDED|97.5|-1.5|||||||Recto-sigmoid colon comparison|||-1.5|
82607319|NCT01073943|164930143|NON_INFERIORITY_OR_EQUIVALENCE|If the lower bound of the 97.5% confidence interval exceeds -9.0% then PicoPrep will be declared non-inferior to HalfLytely. If the non-inferiority test is satisfied then a test for superiority will be performed by comparing the lower bound of the 97.5% confidence interval with 0.0%. If the lower bound of the confidence interval is above 0.0% then superiority will be declared.|Mean Difference (Net)|0.9|||||ONE_SIDED|97.5|-5.7|||||||Overall comparison: ascending colon, mid colon and recto-sigmoid colon|||-5.7|
82607320|NCT01051739|164930149|SUPERIORITY_OR_OTHER|||||||0.21||||||The a priori threshold of statistical significance is p\<0.05|Kaplan Meyer survival curves|||||||.21
82607321|NCT04871815|164930150|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||Body Aches||||0.200
82657124|NCT01706926|165029871|SUPERIORITY_OR_OTHER||Percent difference|10.2||||0.026|TWO_SIDED|95.0|1.5|18.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response). p-value estimated from fisher's exact test.|||18.9|1.5|0.026
82657125|NCT01706926|165029872|SUPERIORITY_OR_OTHER||Adjusted Mean difference|15.79|STANDARD_ERROR_OF_MEAN|6.007||0.009|TWO_SIDED|95.0|3.96|27.61|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||27.61|3.96|0.009
82657126|NCT01706926|165029872|SUPERIORITY_OR_OTHER||Adjusted mean difference|16.99|STANDARD_ERROR_OF_MEAN|5.879||0.004|TWO_SIDED|95.0|5.42|28.56|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||28.56|5.42|0.004
82607322|NCT04871815|164930150|SUPERIORITY|||||||0.0326|||||||Wilcoxon (Mann-Whitney)|||Headaches||||0.0326
82607323|NCT04871815|164930150|SUPERIORITY|||||||0.0043|||||||Wilcoxon (Mann-Whitney)|||Coughing/Sneezing||||0.0043
82607324|NCT04871815|164930150|SUPERIORITY|||||||0.0003|||||||Wilcoxon (Mann-Whitney)|||Trouble Breathing||||0.0003
82607325|NCT04871815|164930150|SUPERIORITY|||||||0.3714|||||||Wilcoxon (Mann-Whitney)|||Congestion||||0.3714
82607326|NCT04871815|164930150|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||Fatigue||||0.300
82607327|NCT04871815|164930150|SUPERIORITY|||||||0.2286|||||||Wilcoxon (Mann-Whitney)|||Loss of Smell/Taste||||0.2286
82607328|NCT04871815|164930150|SUPERIORITY|||||||0.999|||||||Wilcoxon (Mann-Whitney)|||Anxiety||||0.999
82607329|NCT04871815|164930151|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82607330|NCT04871815|164930152|SUPERIORITY|||||||0.1963|||||||ANOVA|||||||0.1963
82607331|NCT04871815|164930153|SUPERIORITY||||||<|0.0001|||||||ANOVA|||||||<0.0001
82607332|NCT04871815|164930153|SUPERIORITY|||||||0.0008||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 1 baseline (day 1 of study) vs Day 1 treatment (day 7 of study).||||0.0008
82607333|NCT04871815|164930153|SUPERIORITY||||||<|0.0001||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 1 baseline (day 1 of study) vs Day 7 treatment (day 14 of study).||||<0.0001
82607334|NCT04871815|164930153|SUPERIORITY|||||||0.0114||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day 7 baseline (day 7 of study) vs Day 1 treatment (day 7 of study).||||0.0114
82657127|NCT01706926|165029872|SUPERIORITY_OR_OTHER||Adjusted mean difference|27.47|STANDARD_ERROR_OF_MEAN|5.892|<|0.001|TWO_SIDED|95.0|15.87|39.07|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including a treatment by visit interaction term. Differences \<0 favored mavrilimumab.|||39.07|15.87|<0.001
82657128|NCT01706926|165029873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7|||<|0.001|TWO_SIDED|95.0|2.56|8.8|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios greater than (\>) one favored mavrilimumab.|||8.80|2.56|<0.001
82607335|NCT04871815|164930153|SUPERIORITY||||||<|0.0001||||||Tukey's Multiple comparison test (p-value is adjusted for multiple comparisons)|Tukey's HSD|||Day7 baseline (day 7 of study) vs Day 7 treatment (day 14 of study)||||<0.0001
82607336|NCT02120417|164930162|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.932||||0.762|TWO_SIDED|80.0|0.694|1.252|||Log Rank|The P-value was analyzed by Log-Rank Test stratified by Hormone Receptor Status.||||1.252|0.694|0.762
82607337|NCT00594399|164930173|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED|||||Omnibus test of difference between groups over time with Bonferroni correction and adjustment for baseline value of insulin|Mixed Models Analysis|||||||0.43
82607338|NCT00594399|164930176|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED|||||Omnibus test of difference between groups over time with Bonferroni correction and adjustment for baseline value of glucose|Mixed Models Analysis|||||||0.91
82607339|NCT00594399|164930179|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Omnibus test of difference between groups over time with adjustment for baseline value of physical activity|Mixed Models Analysis|||||||<0.001
82607340|NCT03830281|164930180|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|Mean Difference (Final Values)|0.02||||0.565|TWO_SIDED|95.0|-0.06|0.11|||Mixed Models Analysis|||||0.11|-0.06|0.565
82607341|NCT03830281|164930181|SUPERIORITY||LS Mean Difference|-24.1|||<|0.001|TWO_SIDED|95.0|-36.0|-12.2|||ANCOVA|||||-12.2|-36.0|<0.001
82607342|NCT03830281|164930182|SUPERIORITY||LS Mean Difference|-27.8|||<|0.001|TWO_SIDED|95.0|-42.6|-13.0|||ANCOVA|||||-13.0|-42.6|< 0.001
82607343|NCT03830281|164930183|SUPERIORITY||LS Mean Difference|0.7||||0.532|TWO_SIDED|95.0|-1.4|2.8|||Mixed Models Analysis|||Statistical analysis during daytime is reported.||2.8|-1.4|0.532
82607344|NCT03830281|164930183|SUPERIORITY||LS Mean Difference|0.4||||0.738|TWO_SIDED|95.0|-1.8|2.5|||Mixed Models Analysis|||Statistical analysis during 24-hour period is reported.||2.5|-1.8|0.738
82607345|NCT02201940|164930202|SUPERIORITY_OR_OTHER||||||<|0.001||||||Participants in the SOF/VEL group were compared to the performance goal of 85% using a 2-sided exact 1-sample binomial test at the 0.05 significance level.|Binomial test|||||||< 0.001
82607346|NCT03352245|164930211|SUPERIORITY||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.2||0.889|TWO_SIDED||||||Mixed Models Analysis|||||||0.889
82607347|NCT03352245|164930212|SUPERIORITY||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.88||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.20
82607348|NCT03352245|164930213|SUPERIORITY||Mean Difference (Net)|7.79|STANDARD_ERROR_OF_MEAN|5.51||0.166|TWO_SIDED||||||Mixed Models Analysis|||||||0.166
82607349|NCT03352245|164930214|SUPERIORITY||Mean Difference (Net)|-0.64|STANDARD_ERROR_OF_MEAN|3.41||0.853|TWO_SIDED||||||Mixed Models Analysis|||||||0.853
82607350|NCT03352245|164930215|SUPERIORITY||Mean Difference (Net)|17.04|STANDARD_ERROR_OF_MEAN|7.16||0.022|TWO_SIDED||||||Mixed Models Analysis|||||||0.022
82607351|NCT03352245|164930216|SUPERIORITY||Mean Difference (Net)|-0.43|STANDARD_ERROR_OF_MEAN|3.83||0.911|TWO_SIDED||||||Mixed Models Analysis|||||||0.911
82607352|NCT03352245|164930217|SUPERIORITY||Mean Difference (Net)|-5.18|STANDARD_ERROR_OF_MEAN|6.88||0.456|TWO_SIDED||||||Mixed Models Analysis|||||||0.456
82607353|NCT03352245|164930218|SUPERIORITY||Mean Difference (Net)|-2.05|STANDARD_ERROR_OF_MEAN|3.13||0.515|TWO_SIDED||||||Mixed Models Analysis|||||||0.515
82607354|NCT03352245|164930219|SUPERIORITY||Mean Difference (Net)|-8.65|STANDARD_ERROR_OF_MEAN|5.8||0.144|TWO_SIDED||||||Mixed Models Analysis|||||||0.144
82607355|NCT03352245|164930220|SUPERIORITY||Mean Difference (Net)|0.41|STANDARD_ERROR_OF_MEAN|6.28||0.948|TWO_SIDED||||||Mixed Models Analysis|||||||0.948
82607356|NCT03352245|164930221|SUPERIORITY||Mean Difference (Net)|-8.62|STANDARD_ERROR_OF_MEAN|7.45||0.254|TWO_SIDED||||||Mixed Models Analysis|||||||0.254
82607357|NCT03352245|164930222|SUPERIORITY||Mean Difference (Net)|-13.31|STANDARD_ERROR_OF_MEAN|6.62||0.051|TWO_SIDED||||||Mixed Models Analysis|||||||0.051
82607358|NCT03352245|164930223|SUPERIORITY||Mean Difference (Net)|4.07|STANDARD_ERROR_OF_MEAN|8.71||0.643|TWO_SIDED||||||Mixed Models Analysis|||||||0.643
82607359|NCT03352245|164930224|SUPERIORITY||Mean Difference (Net)|-9.11|STANDARD_ERROR_OF_MEAN|8.5||0.29|TWO_SIDED||||||Mixed Models Analysis|||||||0.290
82607360|NCT03352245|164930225|SUPERIORITY||Mean Difference (Net)|9.99|STANDARD_ERROR_OF_MEAN|5.49||0.077|TWO_SIDED||||||Mixed Models Analysis|||||||0.077
82607361|NCT03352245|164930226|SUPERIORITY||Mean Difference (Net)|5.27|STANDARD_ERROR_OF_MEAN|4.38||0.237|TWO_SIDED||||||Mixed Models Analysis|||||||0.237
82607362|NCT03352245|164930227|SUPERIORITY||Mean Difference (Net)|1.15|STANDARD_ERROR_OF_MEAN|6.49||0.861|TWO_SIDED||||||Mixed Models Analysis|||||||0.861
82607363|NCT01309737|164930254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|10.2|||<|0.0001|TWO_SIDED|95.0|5.33|17.68||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||17.68|5.33|<0.0001
82607364|NCT01309737|164930254|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.43|||<|0.0001|TWO_SIDED|95.0|8.99|30.59||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||30.59|8.99|<0.0001
82607365|NCT01309737|164930254|SUPERIORITY_OR_OTHER||Percent difference|13.08|STANDARD_ERROR_OF_MEAN|3.62||0.0003|TWO_SIDED|95.0|5.99|20.17|||Normal approximation|||||20.17|5.99|0.0003
82607366|NCT01309737|164930255|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|-45.73|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|-52.98|-38.49||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-38.49|-52.98|<0.0001
82657129|NCT01706926|165029873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.81|||<|0.001|TWO_SIDED|95.0|2.64|8.92|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios \>one favored mavrilimumab.|||8.92|2.64|<0.001
82607367|NCT01309737|164930255|SUPERIORITY_OR_OTHER||LS Mean Difference|-58.1|STANDARD_ERROR_OF_MEAN|3.69|<|0.0001|TWO_SIDED|95.0|-65.33|-50.86||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16,PASI90 response at Week 16, change in Dermatology Life Quality Index(DLQI) total score at Week 16,PGA response at Week 4,PASI75 at Week 4, change in DLQI total score at Week 4, percent change in Nail Psoriasis Severity Index(NAPSI) score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-50.86|-65.33|<0.0001
82607368|NCT01309737|164930255|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.36|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001|TWO_SIDED|95.0|-18.24|-6.48|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-6.48|-18.24|<0.0001
82607369|NCT01309737|164930256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.5|||<|0.0001||95.0|3.48|17.31||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||17.31|3.48|<0.0001
82607370|NCT01309737|164930256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.53|||<|0.0001|TWO_SIDED|95.0|8.08|46.22||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||46.22|8.08|<0.0001
82607371|NCT01309737|164930256|SUPERIORITY_OR_OTHER||Percent Difference|14.3|STANDARD_ERROR_OF_MEAN|3.36|<|0.0001|TWO_SIDED|95.0|7.72|20.88|||Normal Approximation|||||20.88|7.72|<0.0001
82607372|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.97|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001||95.0|-3.8|-2.14||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-2.14|-3.80|<0.0001
82607373|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|0.42|<|0.0001|TWO_SIDED|95.0|-5.13|-3.47||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 4: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.47|-5.13|<0.0001
82607374|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.35||0.0001|TWO_SIDED|95.0|-2.01|-0.65|||Mixed Models Analysis|||Week 4: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.65|-2.01|0.0001
82607375|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.46|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-5.51|-3.42||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-3.42|-5.51|<0.0001
82607376|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-6.1|STANDARD_ERROR_OF_MEAN|0.53|<|0.0001|TWO_SIDED|95.0|-7.14|-5.05||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||Week 16: For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-5.05|-7.14|<0.0001
82607377|NCT01309737|164930258|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.63|STANDARD_ERROR_OF_MEAN|0.43||0.0002|TWO_SIDED|95.0|-2.48|-0.79|||Mixed Models Analysis|||Week 16: LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||-0.79|-2.48|0.0002
82607378|NCT01309737|164930259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.63|||<|0.0001|TWO_SIDED|95.0|1.89|8.95||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||8.95|1.89|<.0001
82607379|NCT01309737|164930259|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.25|||<|0.0001|TWO_SIDED|95.0|4.08|19.95||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||19.95|4.08|<.0001
82607380|NCT01309737|164930259|SUPERIORITY_OR_OTHER||Percent difference|10.79|STANDARD_ERROR_OF_MEAN|3.02||0.0004|TWO_SIDED|95.0|4.87|16.71|||Normal Approximation|||||16.71|4.87|0.0004
82607381|NCT01309737|164930260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72||||0.1786|TWO_SIDED|95.0|0.74|4.62||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||4.62|0.74|0.1786
82607382|NCT01309737|164930260|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.18||||0.0003|TWO_SIDED|95.0|1.77|10.25||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested at significance level of 0.025 (2-sided).|Cochran-Mantel-Haenszel|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error.Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||10.25|1.77|0.0003
82607383|NCT01309737|164930260|SUPERIORITY_OR_OTHER||Percent Difference|6.72|STANDARD_ERROR_OF_MEAN|2.26||0.0029|TWO_SIDED|95.0|2.3|11.14|||Normal Approximation|||||11.14|2.30|0.0029
82607384|NCT01309737|164930261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.06|||<|0.0001|TWO_SIDED|95.0|5.02|16.45||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||16.45|5.02|<0.0001
82607385|NCT01309737|164930261|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.97|||<|0.0001||95.0|9.0|30.73||Cochran-Mantel-Haenszel statistics adjusted for pooled investigator sites was used for the analysis. Each hypothesis was tested against placebo at significance level of 0.05 (2-sided).|Cochran-Mantel-Haenszel|||For primary endpoint, step-down procedure used to preserve Type I error, sequential order of testing: PGA response for CP-690,550 10 mg versus (vs) placebo at Week 16; Psoriasis Area and Severity Index 75 (PASI75) response for CP-690,550 10 mg vs placebo at Week 16; PGA response for CP-690,550 5 mg vs placebo at Week 16; PASI75 response for CP-690,550 5 mg vs placebo at Week 16. If comparison at preceding step was significant, only then subsequent comparisons were significant.||30.73|9.00|<0.0001
82607386|NCT01309737|164930261|SUPERIORITY_OR_OTHER||Percent difference|13.62||||0.0002|TWO_SIDED|95.0|6.54|20.69|||Normal Approximation|||||20.69|6.54|0.0002
82657130|NCT01706926|165029873|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.11|||<|0.001|TWO_SIDED|95.0|3.85|13.4|||Proportional odds analysis||Odds ratio, 95% CI and p-value were was calculated using proportional odds analysis of response model including treatment as a factor. Odds ratios \>one favored mavrilimumab.|Analysis reported for change from baseline in DAS28 (CRP) at Day 85. An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.||13.40|3.85|<0.001
82657131|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|16.0||||0.004|TWO_SIDED|95.0|6.0|26.1|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||26.1|6.0|0.004
82657132|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|12.7||||0.014|TWO_SIDED|95.0|3.3|22.1|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||22.1|3.3|0.014
82657133|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|14.0||||0.007|TWO_SIDED|95.0|4.2|23.9|||Fisher Exact||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|DAS28 (CRP) remission: p-value estimated from fisher's exact test when number of placebo or active responders was less than 5.||23.9|4.2|0.007
82492363|NCT02527161|164677918|SUPERIORITY|||||||0.0062|||||||ANOVA|||Change from 6 weeks to 3 months VAS Mob||||0.0062
82607387|NCT01309737|164930262|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.44|STANDARD_ERROR_OF_MEAN|13.62||0.0062|TWO_SIDED|95.0|-64.19|-10.68||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-10.68|-64.19|0.0062
82607388|NCT01309737|164930262|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.79|STANDARD_ERROR_OF_MEAN|13.75||0.0025|TWO_SIDED|95.0|-68.8|-14.78||Mixed model analysis with fixed effects for treatment, visit, treatment-by-visit interaction,baseline value and repeated measures for visit. Unstructured covariance matrix was used. Each hypothesis was tested at significance level of 0.025 (2-sided).|Mixed Models Analysis|||For key secondary endpoint, family-wise step-down procedure was used to control Type I error. Sequential order of testing: percent change in BSA at Week 16, PASI90 response at Week 16, change in DLQI total score at Week 16, PGA response at Week 4, PASI75 response at Week 4, change in DLQI total score at Week 4, percent change in NAPSI score at Week 16. If comparison at preceding step was significant, then subsequent comparisons were significant.||-14.78|-68.80|0.0025
82607389|NCT01309737|164930262|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.35|STANDARD_ERROR_OF_MEAN|10.98||0.692|TWO_SIDED|95.0|-25.91|17.21|||Mixed Models Analysis|||LS mean difference was derived from mixed model with fixed effects for treatment, visit, treatment-by-visit interaction, baseline value and repeated measures for visit. Unstructured covariance matrix was used.||17.21|-25.91|0.6920
82607390|NCT01309737|164930266|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607391|NCT01309737|164930266|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607392|NCT01309737|164930266|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607393|NCT01309737|164930267|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607394|NCT01309737|164930267|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607395|NCT01309737|164930267|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607396|NCT01309737|164930268|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607397|NCT01309737|164930268|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607398|NCT01309737|164930268|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82607399|NCT03617926|164930330|SUPERIORITY|In case superiority is not proven, non-inferiority is tested. As non-inferiority margin (δ), a 7.5% worse cure rate is regarded as clinically not relevant. The following null hypothesis will be used: H0, NI: pT-pR \< δ, whereby δ = -7.5%. The lower, 95% confidence interval of the difference pT-pR will be used for the test. If H0, NI will be rejected, non-inferiority cannot be shown.||||||0.023||||||A priori treshold p value of 0.05 for statistical significance was set prior to study start.|Chi-squared|||"Efficacy analyses is performed on the ITT population (all subjects who were included and randomized in the study, with available baseline value of the primary endpoint and at least one follow-up visit). All statistical tests are performed at a 5% level of significance. The aim of this analysis is to show superiority for the cure rate of the test product versus a predefined limit of 70%. The following null hypothesis will be tested: H0, prim: pT - pR = 0 and Ha: pT - pR \> 15%~I"||||0.023
82607400|NCT01075087|164930392|SUPERIORITY_OR_OTHER||Median Difference (Net)|-5.5||||0.05|TWO_SIDED|90.0|-26.0|3.0|||Wilcoxon (Mann-Whitney)|||||3|-26|.05
82492364|NCT02527161|164677918|SUPERIORITY|||||||0.373|||||||ANOVA|||Change from 3 months to 6 months VAS Mob||||0.3730
82607401|NCT00087438|164930394|SUPERIORITY_OR_OTHER|||||||0.013||||||Test statistic = \[ln(estimated hazard rate) - ln(hypothesized hazard rates)\] / \[1/square root (number of patients with local progression by two years\]. Reject null hypothesis at an alpha level of 0.05 if test statistics is less than -1.645.|z-test, one-sided|||Null hypothesis = 60% two-year local control (0.02128/mo. hazard rate); alternative = 80% (0.0093/mo.) assuming at least approximately exponential distribution of time to local progression. Using the asymptotic properties of the ratio of the logarithms of hazard rates, less than 18 cases of local progression were required for a Type I error rate of 0.05 with 80% power to detect a difference in local control rates at least this large. Hazard rate estimated using life table two-year estimates.||||0.013
82607402|NCT01157117|164930401|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|12.0||||0.42|TWO_SIDED|95.0|-13.4|37.3||No adjustments were made to the p-value.|Fisher Exact|The a priori threshold for statistical significance is 0.05.||Number of participants who successfully consumed 10,000 mg of milk protein followed by an open feeding of milk was compared using Fisher's Exact test with the null hypothesis that there was no difference between treatment groups.||37.3|-13.4|0.42
82607403|NCT01486264|164930415|NON_INFERIORITY|Analysis of covariance (ANCOVA) model adjusted for the baseline TWSTRS Severity subscale score, was used to test the non-inferiority of Short Flex versus Long Flex treatment. Non-inferiority margin delta equal to (=) 2 points.|Least Square (LS) Mean difference|-1.4|STANDARD_ERROR_OF_MEAN|0.75|||TWO_SIDED|95.0|-2.9|0.1||||||||0.1|-2.9|
82607404|NCT00728416|164930443|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-0.31|||<|0.001|TWO_SIDED|95.0|-0.43|-0.19|||ANCOVA|||The change from Baseline in average AM/PM PRIOR nasal congestion score over 15 days: MFNS 200 mcg daily vs placebo. The difference in LS means (MFNS - Placebo) was calculated from an ANCOVA model with treatment, site and baseline AM/PM PRIOR Nasal Congestion Score as covariates.||-0.19|-0.43|<0.001
82607405|NCT00728416|164930444|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Means|-1.27|||<|0.001|TWO_SIDED|95.0|-1.72|-0.83|||ANCOVA|||The change from Baseline in average AM/PM PRIOR TNSS over 15 days: MFNS 200 mcg daily vs placebo. The difference in LS means (MFNS - Placebo) was calculated from an ANCOVA model with treatment, site and baseline AM/PM TNSS as covariates.||-0.83|-1.72|<0.001
82607406|NCT03119649|164930466|SUPERIORITY||Difference in LS Means|-3.3|STANDARD_ERROR_OF_MEAN|4.15||0.4291|TWO_SIDED|95.0|-11.6|5.0||P-value obtained from the Mixed Effects Model for Repeated Measures (MMRM) analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||5.0|-11.6|0.4291
82607407|NCT03119649|164930466|SUPERIORITY||Difference in LS Means|-4.1|STANDARD_ERROR_OF_MEAN|4.32||0.3477|TWO_SIDED|95.0|-12.8|4.6||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||4.6|-12.8|0.3477
82607408|NCT03119649|164930466|SUPERIORITY||Difference in LS Means|-15.8|STANDARD_ERROR_OF_MEAN|3.72|<|0.0001|TWO_SIDED|95.0|-23.2|-8.3||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||-8.3|-23.2|<0.0001
82607409|NCT03119649|164930466|SUPERIORITY||Difference in LS Means|-6.3|STANDARD_ERROR_OF_MEAN|3.76||0.0995|TWO_SIDED|95.0|-13.9|1.2||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||1.2|-13.9|0.0995
82607410|NCT03119649|164930467|SUPERIORITY||Difference in LS Means|1.1|STANDARD_ERROR_OF_MEAN|2.11||0.594|TWO_SIDED|95.0|-3.1|5.4||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||5.4|-3.1|0.5940
82607411|NCT03119649|164930467|SUPERIORITY||Difference in LS Means|0.6|STANDARD_ERROR_OF_MEAN|2.06||0.7553|TWO_SIDED|95.0|-3.5|4.8||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||4.8|-3.5|0.7553
82607412|NCT03119649|164930467|SUPERIORITY||Difference in LS Means|1.0|STANDARD_ERROR_OF_MEAN|1.94||0.5958|TWO_SIDED|95.0|-2.9|4.9||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||4.9|-2.9|0.5958
82607413|NCT03119649|164930467|SUPERIORITY||Difference in LS Means|2.3|STANDARD_ERROR_OF_MEAN|1.94||0.2403|TWO_SIDED|95.0|-1.6|6.2||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||6.2|-1.6|0.2403
82607414|NCT03119649|164930468|SUPERIORITY||Difference in LS Means|2.7|STANDARD_ERROR_OF_MEAN|4.81||0.5749|TWO_SIDED|95.0|-6.9|12.4||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 50 mg QD vs. Pooled Placebo||12.4|-6.9|0.5749
82607415|NCT03119649|164930468|SUPERIORITY||Difference in LS Means|1.6|STANDARD_ERROR_OF_MEAN|4.83||0.7381|TWO_SIDED|95.0|-8.1|11.3||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 100 mg QD vs. Pooled Placebo||11.3|-8.1|0.7381
82657134|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|24.7|||<|0.001|TWO_SIDED|95.0|12.7|36.6|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||36.6|12.7|<0.001
82607416|NCT03119649|164930468|SUPERIORITY||Difference in LS Means|6.8|STANDARD_ERROR_OF_MEAN|4.43||0.1282|TWO_SIDED|95.0|-2.0|15.7||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 200 mg QD vs. Pooled Placebo||15.7|-2.0|0.1282
82607417|NCT03119649|164930468|SUPERIORITY||Difference in LS Means|1.6|STANDARD_ERROR_OF_MEAN|4.43||0.7212|TWO_SIDED|95.0|-7.3|10.5||P-value obtained from the MMRM analysis with treatment as factor and baseline as covariate. Pairwise comparisons were not corrected for multiplicity.|ANCOVA|||Day 29: GLPG2222 400 mg QD vs. Pooled Placebo||10.5|-7.3|0.7212
82607418|NCT03815175|164930523|NON_INFERIORITY|"H0: Death/(MI\[1m-DAPT\]) - Death/(MI \[XIENCE V USA\]) ≥ δ HA: Death/MI(\[1m-DAPT\]) - Death/(MI \[XIENCE V USA: NCT00676520\]) \< δ~Where δ is the non-inferiority margin. The test will be carried out with a one-sided significance level of 0.025 and a non-inferiority margin (δ) of 2.5%."||||||0.0005|||||||Farrington-Manning method|||||||0.0005
82607419|NCT03815175|164930526|SUPERIORITY|"H0: B (1m-DAPT) - B (XIENCE V USA) ≥ 0 HA: B (1m-DAPT) - B (XIENCE V USA: NCT00676520) \< 0~B 1m-DAPT and B XIENCE V USA are bleeding rates (BARC type 2-5) between 1-month and 6-month follow-up for the pooled 1-month DAPT arm and XIENCE V USA historical control, respectively."||||||0.1888|||||||Farrington and Manning method|||||||0.1888
82607420|NCT03577990|164930563|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|0.125||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
82657135|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|23.1|||<|0.001|TWO_SIDED|95.0|11.5|34.8|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||34.8|11.5|<0.001
82657136|NCT01706926|165029874|SUPERIORITY_OR_OTHER||Percent difference|33.1|||<|0.001|TWO_SIDED|95.0|20.7|45.6|||Regression, Logistic||95% unconditional exact CI was calculated using a test of treatment difference in proportion of responders using logistic regression with treatment as a factor. Differences greater than zero favored mavrilimumab.|The analysis reported DAS28 (CRP) low disease activity response.||45.6|20.7|<0.001
82607421|NCT03577990|164930564|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|1250.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
82607422|NCT03577990|164930565|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|300.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
82607423|NCT03577990|164930567|SUPERIORITY|Our sample (N = 90) had approximately 80% power (assuming 5 dropouts per arm) to detect an effect size of ∼.205 or greater at the α = .05 level of statistical significance, given a realistic range of simulated unstructured covariance matrices. An 11% rate of attrition was anticipated to yield a final sample of 80 participants, an average of 40 per arm. Participants who dropped out of the study prior to receiving the allotted intervention were not included in the analysis.|Mean Difference (Final Values)|500.0||||0.05|TWO_SIDED|||||P-values were computed according to a mixed-effects repeated measures model, appropriately constrained to baseline if indicated.|mixed-effects repeated measures||||For both referent (compared by month and treatment group) and constrained longitudinal data analysis (cLDA) models, p-values were computed for the main group (G), time (T), and interaction (G x T) effects. For the first 3 months of the referent arm (IT), data were compared with usual care. Consequently, months 1 - 6 in the statistical analysis corresponds to calendar months 4 - 9 of the data collection. Months 1 - 9 of the intervention arm (ITEC) reflects months 1 - 9 of the collection. Additionally, for the cLDA model, data in the referent arm (IT) were accordingly shifted such that the starting point on the y-axis for both arms were the same (i.e. y = 0).|||.05
82607424|NCT03248128|164930569|SUPERIORITY||Least Square Mean Difference|0.083|||<|0.001|TWO_SIDED|95.0|0.037|0.129|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||0.129|0.037|<0.001
82607425|NCT03248128|164930570|SUPERIORITY||Least Square Mean Difference|3.2||||0.228|TWO_SIDED|95.0|-2.0|8.4|||ANCOVA|Analysis was performed using analysis of covariance (ANCOVA) with covariates of baseline, region, sex, age and treatment.||||8.4|-2.0|0.228
82607426|NCT03248128|164930571|SUPERIORITY||Least Square Mean Difference|6.2||||0.011|TWO_SIDED|95.0|1.4|10.9|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||10.9|1.4|0.011
82607427|NCT03248128|164930572|SUPERIORITY||Least Square Mean Difference|0.073||||0.002|TWO_SIDED|95.0|0.028|0.118|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||0.118|0.028|0.002
82657137|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.68|STANDARD_ERROR_OF_MEAN|1.237|<|0.001|TWO_SIDED|95.0|-8.12|-3.24|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-3.24|-8.12|<0.001
82657138|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-6.21|STANDARD_ERROR_OF_MEAN|1.211|<|0.001|TWO_SIDED|95.0|-8.6|-3.82|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-3.82|-8.60|<0.001
82657139|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.0|STANDARD_ERROR_OF_MEAN|1.219|<|0.001|TWO_SIDED|95.0|-9.4|-4.59|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in swollen joint count at Day 169.||-4.59|-9.40|<0.001
82657140|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.24|STANDARD_ERROR_OF_MEAN|1.922|<|0.001|TWO_SIDED|95.0|-11.02|-3.45|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-3.45|-11.02|<0.001
82607428|NCT03248128|164930573|SUPERIORITY||Least Square Mean Difference|-0.3||||0.87|TWO_SIDED|95.0|-4.5|3.8|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||3.8|-4.5|0.870
82607429|NCT03248128|164930574|SUPERIORITY||Least Square Mean Difference|0.0||||0.988|TWO_SIDED|95.0|-4.2|4.1|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||4.1|-4.2|0.988
82607430|NCT03248128|164930575|SUPERIORITY||Least Square Mean Difference|0.035||||0.124|TWO_SIDED|0.95|-0.01|0.08|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.080|-0.010|0.124
82607431|NCT03248128|164930576|SUPERIORITY||Least Square Mean Difference|-0.01||||0.91|TWO_SIDED|95.0|-0.1|0.09|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.09|-0.10|0.910
82607432|NCT03248128|164930577|SUPERIORITY||Least Square Mean Difference|1.3||||0.614|TWO_SIDED|95.0|-3.6|6.2|||ANCOVA|Analysis performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||6.2|-3.6|0.614
82607433|NCT03248128|164930578|SUPERIORITY||Least Square Mean Difference|1.3||||0.594|TWO_SIDED|95.0|-3.6|6.3|||ANCOVA|Analysis was performed using ANCOVA with covariates of baseline, region, sex, age and treatment.||||6.3|-3.6|0.594
82657141|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.45|STANDARD_ERROR_OF_MEAN|1.884|<|0.001|TWO_SIDED|95.0|-12.16|-4.74|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-4.74|-12.16|<0.001
82657142|NCT01706926|165029875|SUPERIORITY_OR_OTHER||Adjusted mean difference|-10.42|STANDARD_ERROR_OF_MEAN|1.901|<|0.001|TWO_SIDED|95.0|-14.17|-6.67|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|Analysis reported for change from baseline in tender joint count at Day 169.||-6.67|-14.17|<0.001
82657143|NCT01706926|165029876|SUPERIORITY_OR_OTHER||Adjusted mean difference|-7.94|STANDARD_ERROR_OF_MEAN|3.95||0.045|TWO_SIDED|95.0|-15.72|-0.17|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.17|-15.72|0.045
82607434|NCT03248128|164930579|SUPERIORITY||Least Square Mean Difference|0.028||||0.226|TWO_SIDED|95.0|-0.017|0.073|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.073|-0.017|0.226
82607435|NCT03248128|164930580|SUPERIORITY||Least Square Mean Difference|-0.02||||0.663|TWO_SIDED|95.0|-0.13|0.09|||Repeated measures analysis|||Analysis was performed using a repeated measures analysis adjusted for baseline, region, sex, age, treatment, visit, visit by baseline interaction and visit by treatment group interaction.||0.09|-0.13|0.663
82607436|NCT00803114|164930603|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22||||0.05||95.0|0.12|0.41|||Fisher Exact||Relative risk describes the risk of requiring additional analgesics in the first 24 hours postpartum with the denominator being the arm which received placebo.|Relative risk ratio estimation with 95% CI using exact methods||0.41|0.12|0.05
82607437|NCT00803114|164930604|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|0.8||0.05||95.0|-5.7|-2.3|||t-test, 2 sided|degrees of freedom 226|The epidural morphine group represents the baseline of comparison for difference in means, with the placebo group requiring additional analgesics earlier.|||-2.3|-5.7|0.05
82607438|NCT00803114|164930605|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|0.3||0.05||95.0|0.7|1.8|||t-test, 2 sided|degrees of freedom 212|Difference in VAS score when compared to the baseline group, subjects receiving epidural morphine|||1.8|0.7|0.05
82607439|NCT00803114|164930606|SUPERIORITY_OR_OTHER|||||||0.8||||||Fisher's exact test result did not reveal statistically significant differences between expected and real frequencies in any of the categories.|Fisher Exact|||||||0.80
82607440|NCT03040154|164930616|SUPERIORITY||Odds Ratio (OR)|2.67||||0.006|TWO_SIDED|95.0|1.33|5.35|||Regression, Logistic|||||5.35|1.33|0.006
82607441|NCT03430310|164930629|SUPERIORITY|||||||0.05|||||||ANCOVA|||||||0.05
82607442|NCT01446809|164930630|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.4
82607443|NCT01446809|164930631|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82607444|NCT00698516|164930677|SUPERIORITY_OR_OTHER||Greenwood variance|65.0|STANDARD_ERROR_OF_MEAN|7.07||0.017|TWO_SIDED|95.0|49.3|76.9||Historical data in target population showed 3-month PFS rates of \<=50%. Oral topotecan with IV bevacizumab would provide clinically meaningful improvement in 3-month PFS if it could demonstrate a 40% improvement relative to the historical data.|Z statistic|Z statistic was used to reject the null hypothesis provided Z\>=1.65, where Z = (KM estimate at 3 months - null hypothesis value \[50%\])/Greenwood SE.||||76.9|49.3|0.017
82607445|NCT00644592|164930687|SUPERIORITY_OR_OTHER||Ratio of mean effects|1.27|STANDARD_ERROR_OF_MEAN|0.16||0.015|TWO_SIDED|95.0|1.06|1.52|||t-test, 2 sided||The estimated mean log difference (SE) between the period 2 and period 1 effects and SE was estimated. This estimates twice the effect size\[since (B-A)-(A-B)=2B-2A\] so the actual estimate was based upon the antilog of half of this difference.|This is a crossover analysis. To convert to a ratio effect, the mean difference must be divided by two and antilogs take. The outcome represents a relative effect.||1.52|1.06|0.015
82607446|NCT03215277|164930696|SUPERIORITY||Mean Posterior Difference|0.23|||||TWO_SIDED|95.0|-0.14|0.6|||Regression, Linear|||Results were based on a complete case (ie, data as observed) Bayesian linear model with the change from Baseline in ASDAS as the independent variable. Treatment was included as a predictor in the model and Baseline ASDAS as a covariate. The mean posterior difference and 95% credible interval were presented for the BKZ vs CZP comparison.||0.60|-0.14|
82607447|NCT03215277|164930696|SUPERIORITY||PR[Diff > 0%](%)|88.4|||||TWO_SIDED||||||Regression, Linear|||Results were based on a complete case (ie, data as observed) Bayesian linear model with the change from Baseline in ASDAS as the independent variable. Treatment was included as a predictor in the model and Baseline ASDAS as a covariate. Pr\[Diff\>0%\](%) refers to the probability that the mean change from Baseline in ASDAS in the BKZ group was greater than the mean change from Baseline in ASDAS in the CZP group.||||
82607448|NCT00356915|164930735|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|This was stratified by analysis center.||P-Value from a Cochran-Mantel-Haenszel test, . The superiority analysis was restricted to the itraconazole 200-mg tablets and placebo tablets dosing groups.||||<0.001
82607449|NCT00356915|164930736|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority was established if the lower limit of the one-sided, 97.5% CI in the observed difference between the proportions of subjects by study drug with Complete Cure at week 52 (itraconazole 200-mg tablets minus itraconazole 100-mg capsules) was greater than -10%. No p-value was calculated for this endpoint.|Wald's CI|0.56|||||ONE_SIDED|97.5|-4.3||||Wald's CI|The statistical analysis used Wald's CI with Yates' continuity correction.||Comparison between the 2 itraconazole groups was based on lower bound of the 97.5% confidence interval for the difference. The non-inferiority analysis was restricted to the active dosing groups.|||-4.3|
82607450|NCT00356915|164930737|NON_INFERIORITY_OR_EQUIVALENCE|The assumption was that the Complete Cure rate at week 52 was 35% for the active dosing groups, a sample size of 552 ITT subjects per active group would have had a 93% power for testing the proportion of subjects with Complete Cure. These computations assumed a non inferiority margin of 10% and a one-sided significance level of 0.025. Power computations were performed using nQuery Advisor, Version 5.0.|Mean Difference (Final Values)|10.0|||<|0.001|ONE_SIDED|97.5|-1.1||||Wald's CI|The statistical analysis used Wald's CI with Yates' continuity correction.||The test for demonstrating non-inferiority was based on a margin of 10%. Thus, non-inferiority was established if the lower limit of the one-sided, 97.5% CI in the observed difference between the proportions of subjects by study drug with Complete Cure at week 52 (itraconazole 200-mg tablets minus itraconazole 100-mg capsules) was greater than -10%. The non-inferiority analysis was restricted to the active dosing groups.|||-1.1|< 0.001
82607451|NCT00356915|164930738|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|This was stratified by analysis center.||The superiority analysis was restricted to the itraconazole 200-mg tablets and placebo tablets dosing groups.||||<0.001
82607452|NCT00488631|164930739|SUPERIORITY_OR_OTHER|||||||0.01||||||A fixed sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level (i.e., testing golimumab 100 mg vs. placebo first, then, if positive, testing 50 mg vs. placebo).|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants in clinical response through Week 54 were summarized using the Cochran-Mantel-Haenszel (CMH) test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.010
82607453|NCT00488631|164930739|SUPERIORITY_OR_OTHER||||||<|0.001||||||A fixed sequence testing procedure was employed to control the overall Type I error rate at the 0.05 level (i.e., testing golimumab 100 mg vs. placebo first, then, if positive, testing 50 mg vs. placebo).|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants in clinical response through Week 54 were summarized using the Cochran-Mantel-Haenszel (CMH) test stratified by clinical remission status at Week 0 and the induction dose factor.||||<0.001
82657144|NCT01706926|165029876|SUPERIORITY_OR_OTHER||Adjusted mean difference|-8.11|STANDARD_ERROR_OF_MEAN|3.876||0.037|TWO_SIDED|95.0|-15.73|-0.48|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.48|-15.73|0.037
82657145|NCT01706926|165029876|SUPERIORITY_OR_OTHER||Adjusted mean difference|-11.32|STANDARD_ERROR_OF_MEAN|3.899||0.004|TWO_SIDED|95.0|-19.0|-3.65|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-3.65|-19.00|0.004
82657146|NCT01706926|165029877|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.85|STANDARD_ERROR_OF_MEAN|4.137||0.837|TWO_SIDED|95.0|-8.99|7.29|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||7.29|-8.99|0.837
82657147|NCT01706926|165029877|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19|STANDARD_ERROR_OF_MEAN|4.058||0.589|TWO_SIDED|95.0|-10.18|5.79|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||5.79|-10.18|0.589
82657148|NCT01706926|165029877|SUPERIORITY_OR_OTHER||Adjusted mean difference|-5.48|STANDARD_ERROR_OF_MEAN|4.083||0.18|TWO_SIDED|95.0|-13.52|2.55|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||2.55|-13.52|0.180
82657149|NCT01706926|165029878|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.397|<|0.001|TWO_SIDED|95.0|-2.2|-0.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.63|-2.20|<0.001
82607454|NCT00488631|164930740|SUPERIORITY_OR_OTHER|||||||0.122||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and Week 54 were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.122
82492365|NCT02527161|164677918|SUPERIORITY|||||||0.8499|||||||ANOVA|||Change from 6 months to 1 year VAS Mob||||0.8499
82607455|NCT00488631|164930740|SUPERIORITY_OR_OTHER|||||||0.004||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and Week 54 were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.004
82607456|NCT00488631|164930741|SUPERIORITY_OR_OTHER|||||||0.011||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with mucosal healing at both Week 30 and Week 54 were summarized using CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.011
82607457|NCT00488631|164930741|SUPERIORITY_OR_OTHER|||||||0.002||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with mucosal healing at both Week 30 and Week 54 were summarized using CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.002
82607458|NCT00488631|164930742|SUPERIORITY_OR_OTHER|||||||0.365||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and 54 among participants with clinical remission at Week 0 of maintenance study were summarized using CMH test stratified by the induction dose factor.||||0.365
82607459|NCT00488631|164930742|SUPERIORITY_OR_OTHER|||||||0.098||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at both Week 30 and 54 among participants with clinical remission at Week 0 of maintenance study were summarized using CMH test stratified by the induction dose factor.||||0.098
82607460|NCT00488631|164930743|SUPERIORITY_OR_OTHER|||||||0.279||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at Week 54 and not receiving concomitant corticosteroids among participants on corticosteroids at Week 0 of maintenance study were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.279
82607461|NCT00488631|164930743|SUPERIORITY_OR_OTHER|||||||0.423||||||Fixed sequence testing; 100 mg group was tested if it was positive for preceding endpoint, regardless whether 50 mg group was positive;50 mg group was tested if 100 mg group positive for same endpoint and 50 mg group positive for preceding endpoint.|Cochran-Mantel-Haenszel|||Statistical analysis for number of participants with clinical remission at Week 54 and not receiving concomitant corticosteroids among participants on corticosteroids at Week 0 of maintenance study were summarized using the CMH test stratified by clinical remission status at Week 0 and the induction dose factor.||||0.423
82657150|NCT01706926|165029878|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.46|STANDARD_ERROR_OF_MEAN|0.389|<|0.001|TWO_SIDED|95.0|-2.23|-0.69|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.69|-2.23|<0.001
82607462|NCT02039947|164930745|SUPERIORITY||Response rate|59.0|||<|0.0001|TWO_SIDED|95.0|47.3|70.4|||percent||Percent|||70.4|47.3|<.0001
82657151|NCT01706926|165029878|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.56|STANDARD_ERROR_OF_MEAN|0.391|<|0.001|TWO_SIDED|95.0|-2.33|-0.79|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.79|-2.33|<0.001
82607463|NCT01772134|164930753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|||<|0.001|TWO_SIDED|95.0|0.107|0.187|||Mixed Models Analysis|||||0.187|0.107|<0.001
82607464|NCT01772134|164930753|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.138|||<|0.001|TWO_SIDED|95.0|0.097|0.178|||Mixed Models Analysis|||||0.178|0.097|<0.001
82657152|NCT01706926|165029879|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.08|STANDARD_ERROR_OF_MEAN|0.108||0.479|TWO_SIDED|95.0|-0.29|0.14|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||0.14|-0.29|0.479
82492366|NCT02527161|164677918|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year VAS Mob||||>0.9999
82607465|NCT01740362|164930766|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|137.26|||||TWO_SIDED|90.0|96.77|194.69||||||1 way Analysis of Variance (ANOVA) on natural log-transformed AUC(0-∞) analyzed using linear model with degrees of renal impairment(creatinine clearance\[CLcr, discrete\]) evaluated using blood samples collected at screening as fixed effect. Statistical Analysis System (SAS) mixed procedure (PROC MIXED) was used. Anti-log of adjusted mean difference (CP-690,550\[mild renal insufficiency\] - CP-690,550\[normal renal function\]), 90% confidence interval (CI) were taken to estimate mean ratio and 90% CI.||194.69|96.77|
82607466|NCT01740362|164930766|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|142.59|||||TWO_SIDED|90.0|100.53|202.24||||||One way ANOVA on natural log-transformed AUC (0 - ∞) were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[moderate renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||202.24|100.53|
82607467|NCT01740362|164930766|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|222.71|||||TWO_SIDED|90.0|157.02|315.89||||||One way ANOVA on natural log-transformed AUC (0 - ∞) were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[severe renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||315.89|157.02|
82607468|NCT01740362|164930767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|93.15|||||TWO_SIDED|90.0|67.22|129.06||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[mild renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||129.06|67.22|
82607469|NCT01740362|164930767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|104.17|||||TWO_SIDED|90.0|75.18|144.34||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[moderate renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||144.34|75.18|
82607470|NCT01740362|164930767|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|117.65|||||TWO_SIDED|95.0|84.91|163.02||||||One way ANOVA on natural log-transformed Cmax were analyzed using linear model containing degrees of renal impairment (CLcr, discrete) calculated using blood samples collected at screening as fixed effects. SAS procedure PROC MIXED was used for analysis. Anti-log of the adjusted mean difference (CP-690,550 \[severe renal insufficiency\] - CP-690,550 \[normal renal function\]) and its corresponding 90% CI were taken to estimate the mean ratio and corresponding 90% CI.||163.02|84.91|
82607471|NCT03192904|164930779|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82607472|NCT03664726|164930922|SUPERIORITY|||||||0.0034||||||Comparison of differences by group|ANOVA|||||||0.0034
82607473|NCT03664726|164930923|SUPERIORITY|||||||0.76|||||||ANOVA|||||||0.76
82607474|NCT03664726|164930924|SUPERIORITY|||||||0.77|||||||ANOVA|||||||0.77
82607475|NCT02333227|164930941|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis||||We employed generalized linear mixed methods (GLMM) with binomial distribution to examine the association between study primary outcomes of baby's birth weight (\<2500) and gestational age at delivery (\<37 weeks including up to 36 and 6/7 weeks) and assignment to the study intervention group. To account for clustering of outcomes by cluster (sites), we used random slope/random intercept GLMM models with a cluster as a random effect (level 2) and treatment as a fixed effect (level 1), since random effect modeling is an individual-level analyses that accounts for within-cluster dependence by maximum likelihood estimation. A separate model was fit to each study outcome and corresponding relative risk with 95% confidence intervals (CI) estimated. Full information maximum likelihood estimation (FIML) allows for analyses to be performed with the full sample, under conditions of Missing Completely at Random (MCAR) and Missing at Random (MAR), and with missing data rates up to 50%.|||<0.05
82607476|NCT02333227|164930942|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Co-primary outcomes|We employed generalized linear mixed methods (GLMM) with binomial distribution to examine the association between study primary outcomes of baby's birth weight (\<2500) and gestational age at delivery (\<37 weeks including up to 36 and 6/7 weeks) and assignment to the study intervention group. To account for clustering of outcomes by cluster (sites), we used random slope/random intercept GLMM models with a cluster as a random effect (level 2) and treatment as a fixed effect (level 1), since random effect modeling is an individual-level analyses that accounts for within-cluster dependence by maximum likelihood estimation. A separate model was fit to each study outcome and corresponding relative risk with 95% confidence intervals (CI) estimated. Full information maximum likelihood estimation (FIML) allows for analyses to be performed with the full sample, under conditions of Missing Completely at Random (MCAR) and Missing at Random (MAR), and with missing data rates up to 50%.|||<0.05
82607477|NCT02333227|164930943|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82607478|NCT02333227|164930944|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis||||Specifically, the composite of periodontal disease was also created; this composite was positive if any of the following were detected: gingival bleeding, pockets of 4 mm or greater, or loss of attachment of 4 mm or greater. A scaled periodontal disease score was also created which was the sum of scores for gingival bleeding (+1 if bleeding was present, per tooth), gingival pockets (+1 for pockets of 4-5 mm and +2 for 6 mm or deeper, per tooth), and loss of attachment (+1 for 4-5 mm loss, +2 for 6-8 mm, +3 for 9-11 mm, and +4 for 12 mm or more, per tooth with values recorded for index teeth) divided by the number of teeth present.|||<0.05
82607479|NCT02333227|164930945|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82607480|NCT01982630|164930950|OTHER||Difference of Least Squares Means|-0.23|||||TWO_SIDED|90.0|-4.59|4.13|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.13|-4.59|
82607481|NCT01982630|164930950|OTHER||Difference of Least Squares Means|-6.25|||||TWO_SIDED|90.0|-10.48|-2.01|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-2.01|-10.48|
82607482|NCT01982630|164930950|OTHER||Difference of Least Squares Means|6.02|||||TWO_SIDED|90.0|1.81|10.22|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||10.22|1.81|
82607483|NCT01982630|164930950|OTHER||Difference of Least Squares Means|1.5|||||TWO_SIDED|90.0|-2.65|5.64|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.64|-2.65|
82607484|NCT01982630|164930950|OTHER||Difference of Least Squares Means|-4.52|||||TWO_SIDED|90.0|-8.52|-0.52|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-0.52|-8.52|
82607485|NCT01982630|164930950|OTHER||Difference of Least Squares Means|1.73|||||TWO_SIDED|90.0|-2.38|5.83|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.83|-2.38|
82607486|NCT01982630|164930951|OTHER||Difference of Least Squares Means|-2.11|||||TWO_SIDED|90.0|-4.55|0.32|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||0.32|-4.55|
82607487|NCT01982630|164930951|OTHER||Difference of Least Squares Means|2.53|||||TWO_SIDED|90.0|-0.61|5.66|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.66|-0.61|
82607488|NCT01982630|164930951|OTHER||Difference of Least Squares Means|4.64|||||TWO_SIDED|90.0|1.35|7.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||7.93|1.35|
82492367|NCT02527161|164677918|SUPERIORITY|||||||0.9958|||||||ANOVA|||Change from 2 year to 5 year VAS Mob||||0.9958
82607489|NCT01982630|164930952|OTHER||Difference of Least Squares Means|-0.65|||||TWO_SIDED|90.0|-5.01|3.71|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||3.71|-5.01|
82607490|NCT01982630|164930952|OTHER||Difference of Least Squares Means|-6.42|||||TWO_SIDED|90.0|-10.66|-2.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-2.19|-10.66|
82607491|NCT01982630|164930952|OTHER||Difference of Least Squares Means|5.77|||||TWO_SIDED|90.0|1.57|9.97|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||9.97|1.57|
82607492|NCT01982630|164930952|OTHER||Difference of Least Squares Means|-0.15|||||TWO_SIDED|90.0|-4.29|4.0|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.00|-4.29|
82607493|NCT01982630|164930952|OTHER||Difference of Least Squares Means|-5.91|||||TWO_SIDED|90.0|-9.91|-1.92|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||-1.92|-9.91|
82607494|NCT01982630|164930952|OTHER||Difference of Least Squares Means|0.51|||||TWO_SIDED|90.0|-3.6|4.62|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||4.62|-3.60|
82607495|NCT01982630|164930953|OTHER||Difference of Least Squares Means|-0.89|||||TWO_SIDED|90.0|-3.8|2.02|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||2.02|-3.80|
82607496|NCT01982630|164930953|OTHER||Difference of Least Squares Means|5.24|||||TWO_SIDED|90.0|1.34|9.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||9.15|1.34|
82607497|NCT01982630|164930953|OTHER||Difference of Least Squares Means|6.13|||||TWO_SIDED|90.0|2.05|10.22|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||10.22|2.05|
82607498|NCT01982630|164930954|OTHER||Difference of Least Squares Means|-0.57|||||TWO_SIDED|90.0|-3.71|2.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||2.57|-3.71|
82607499|NCT01982630|164930954|OTHER||Difference of Least Squares Means|7.77|||||TWO_SIDED|90.0|3.5|12.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.03|3.50|
82607500|NCT01982630|164930954|OTHER||Difference of Least Squares Means|8.34|||||TWO_SIDED|90.0|3.89|12.79|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.79|3.89|
82607501|NCT01982630|164930955|OTHER||Difference of Least Squares Means|1.35|||||TWO_SIDED|90.0|-2.4|5.09|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||5.09|-2.40|
82607502|NCT01982630|164930955|OTHER||Difference of Least Squares Means|8.29|||||TWO_SIDED|90.0|3.29|13.3|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||13.30|3.29|
82607503|NCT01982630|164930955|OTHER||Difference of Least Squares Means|6.95|||||TWO_SIDED|90.0|1.69|12.2|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.20|1.69|
82607504|NCT01982630|164930956|OTHER||Difference of Least Squares Means|2.46|||||TWO_SIDED|90.0|-1.42|6.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||6.34|-1.42|
82607505|NCT01982630|164930956|OTHER||Difference of Least Squares Means|9.61|||||TWO_SIDED|90.0|4.42|14.81|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||14.81|4.42|
82607506|NCT01982630|164930956|OTHER||Difference of Least Squares Means|7.15|||||TWO_SIDED|90.0|1.7|12.6|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline TWA0-24hr of heart rate as a covariate||||12.60|1.70|
82607507|NCT01982630|164930957|OTHER||Difference of Least Squares Means|-3.97|||||TWO_SIDED|90.0|-6.8|-1.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||-1.14|-6.80|
82607508|NCT01982630|164930957|OTHER||Difference of Least Squares Means|-0.7|||||TWO_SIDED|90.0|-4.33|2.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||2.93|-4.33|
82607509|NCT01982630|164930957|OTHER||Difference of Least Squares Means|3.26|||||TWO_SIDED|90.0|-0.54|7.06|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.06|-0.54|
82607510|NCT01982630|164930958|OTHER||Difference of Least Squares Means|-1.58|||||TWO_SIDED|90.0|-5.31|2.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||2.15|-5.31|
82607511|NCT01982630|164930958|OTHER||Difference of Least Squares Means|2.52|||||TWO_SIDED|90.0|-2.32|7.35|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.35|-2.32|
82607512|NCT01982630|164930958|OTHER||Difference of Least Squares Means|4.1|||||TWO_SIDED|90.0|-0.96|9.16|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||9.16|-0.96|
82607513|NCT01982630|164930959|OTHER||Difference of Least Squares Means|-3.48|||||TWO_SIDED|90.0|-7.31|0.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||0.34|-7.31|
82607514|NCT01982630|164930959|OTHER||Difference of Least Squares Means|3.96|||||TWO_SIDED|90.0|-1.11|9.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||9.03|-1.11|
82657153|NCT01706926|165029879|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.16|STANDARD_ERROR_OF_MEAN|0.106||0.124|TWO_SIDED|95.0|-0.37|0.04|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||0.04|-0.37|0.124
82657154|NCT01706926|165029879|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.26|STANDARD_ERROR_OF_MEAN|0.107||0.017|TWO_SIDED|95.0|-0.47|-0.05|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \<0 favored mavrilimumab.|||-0.05|-0.47|0.017
82657155|NCT01706926|165029880|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.64||||0.017|TWO_SIDED|95.0|0.45|0.92|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.92|0.45|0.017
82657156|NCT01706926|165029880|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.46|||<|0.001|TWO_SIDED|95.0|0.32|0.66|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.66|0.32|<0.001
82657157|NCT01706926|165029880|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.44|||<|0.001|TWO_SIDED|95.0|0.31|0.63|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.63|0.31|<0.001
82607515|NCT01982630|164930959|OTHER||Difference of Least Squares Means|7.44|||||TWO_SIDED|90.0|2.16|12.73|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||12.73|2.16|
82607516|NCT01982630|164930960|OTHER||Difference of Least Squares Means|0.03|||||TWO_SIDED|90.0|-4.51|4.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||4.57|-4.51|
82607517|NCT01982630|164930960|OTHER||Difference of Least Squares Means|4.7|||||TWO_SIDED|90.0|-1.33|10.73|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||10.73|-1.33|
82607518|NCT01982630|164930960|OTHER||Difference of Least Squares Means|4.66|||||TWO_SIDED|90.0|-1.67|11.0|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||11.00|-1.67|
82607519|NCT01982630|164930961|OTHER||Difference of Least Squares Means|3.34|||||TWO_SIDED|90.0|-0.7|7.39|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||7.39|-0.70|
82657158|NCT01706926|165029881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.72||||0.003|TWO_SIDED|95.0|0.58|0.89|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.89|0.58|0.003
82607520|NCT01982630|164930961|OTHER||Difference of Least Squares Means|8.88|||||TWO_SIDED|90.0|3.53|14.23|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||14.23|3.53|
82607521|NCT01982630|164930961|OTHER||Difference of Least Squares Means|5.54|||||TWO_SIDED|90.0|-0.08|11.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline peak heart rate as a covariate||||11.15|-0.08|
82607522|NCT01982630|164930962|OTHER||Difference of Least Squares Means|-3.55|||||TWO_SIDED|90.0|-6.98|-0.12|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||-0.12|-6.98|
82607523|NCT01982630|164930962|OTHER||Difference of Least Squares Means|1.05|||||TWO_SIDED|90.0|-3.38|5.49|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||5.49|-3.38|
82607524|NCT01982630|164930962|OTHER||Difference of Least Squares Means|4.61|||||TWO_SIDED|90.0|-0.02|9.23|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||9.23|-0.02|
82607525|NCT01982630|164930963|OTHER||Difference of Least Squares Means|-1.16|||||TWO_SIDED|90.0|-4.59|2.28|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||2.28|-4.59|
82607526|NCT01982630|164930963|OTHER||Difference of Least Squares Means|8.65|||||TWO_SIDED|90.0|3.99|13.31|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||13.31|3.99|
82607527|NCT01982630|164930963|OTHER||Difference of Least Squares Means|9.8|||||TWO_SIDED|90.0|4.96|14.65|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||14.65|4.96|
82657159|NCT01706926|165029881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.55|0.84|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.84|0.55|<0.001
82657160|NCT01706926|165029881|SUPERIORITY_OR_OTHER||Adjusted geometric mean ratio|0.61|||<|0.001|TWO_SIDED|95.0|0.49|0.75|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model including terms for baseline as a continuous covariate and treatment as a factor was used for the analysis. Ratio \<1 favored mavrilimumab.|||0.75|0.49|<0.001
82657161|NCT01706926|165029882|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.21|TWO_SIDED|95.0|-0.8|10.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||10.7|-0.8|0.210
82657162|NCT01706926|165029882|SUPERIORITY_OR_OTHER||Percent difference|1.1||||1|TWO_SIDED|95.0|-2.9|5.1|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||5.1|-2.9|1.000
82657163|NCT01706926|165029882|SUPERIORITY_OR_OTHER||Percent difference|3.8||||0.207|TWO_SIDED|95.0|-1.6|9.2|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||9.2|-1.6|0.207
82657164|NCT01706926|165029883|SUPERIORITY_OR_OTHER||Percent difference|4.9||||0.21|TWO_SIDED|95.0|-0.8|10.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||10.7|-0.8|0.210
82657165|NCT01706926|165029883|SUPERIORITY_OR_OTHER||Percent difference|2.3||||0.621|TWO_SIDED|95.0|-2.3|6.9|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||6.9|-2.3|0.621
82657166|NCT01706926|165029883|SUPERIORITY_OR_OTHER||Percent difference|6.4||||0.062|TWO_SIDED|95.0|0.0|12.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||12.7|0.0|0.062
82657167|NCT01706926|165029884|SUPERIORITY_OR_OTHER||Percent difference|3.7||||0.245|TWO_SIDED|95.0|-0.4|7.8|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||7.8|-0.4|0.245
82607528|NCT01982630|164930964|OTHER||Difference of Least Squares Means|-4.04|||||TWO_SIDED|90.0|-7.52|-0.56|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||-0.56|-7.52|
82607529|NCT01982630|164930964|OTHER||Difference of Least Squares Means|10.23|||||TWO_SIDED|90.0|5.57|14.89|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||14.89|5.57|
82657168|NCT01706926|165029884|SUPERIORITY_OR_OTHER||Percent difference|1.2||||1|TWO_SIDED|95.0|-1.1|3.5|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||3.5|-1.1|1.000
82657169|NCT01706926|165029884|SUPERIORITY_OR_OTHER||Percent difference|1.3||||0.494|TWO_SIDED|95.0|-1.2|3.7|||Fisher Exact||95% unconditional exact CI was calculated using the model of logit (response) with treatment as a factor. Differences \>0 favored mavrilimumab.|||3.7|-1.2|0.494
82657170|NCT01706926|165029885|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.18|STANDARD_ERROR_OF_MEAN|1.608||0.463|TWO_SIDED|95.0|-1.99|4.35|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||4.35|-1.99|0.463
82657171|NCT01706926|165029885|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.27|STANDARD_ERROR_OF_MEAN|1.574||0.151|TWO_SIDED|95.0|-0.83|5.37|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||5.37|-0.83|0.151
82657172|NCT01706926|165029885|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.92|STANDARD_ERROR_OF_MEAN|1.578||0.014|TWO_SIDED|95.0|0.81|7.02|||Repeated measures model||An estimate of the treatment difference and its 95% CI was computed by means of repeated measures model, adjusted for baseline and including terms for treatment group, visit and treatment by visit interaction. Differences \>0 favored mavrilimumab.|||7.02|0.81|0.014
82657173|NCT04349917|165029914|SUPERIORITY|||||||0.532|||||||t-test, 2 sided|||||||0.532
82607530|NCT01982630|164930964|OTHER||Difference of Least Squares Means|14.27|||||TWO_SIDED|90.0|9.38|19.15|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||19.15|9.38|
82607531|NCT01982630|164930965|OTHER||Difference of Least Squares Means|-2.12|||||TWO_SIDED|90.0|-5.7|1.47|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||1.47|-5.70|
82607532|NCT01982630|164930965|OTHER||Difference of Least Squares Means|13.34|||||TWO_SIDED|90.0|8.64|18.03|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||18.03|8.64|
82607533|NCT01982630|164930965|OTHER||Difference of Least Squares Means|15.45|||||TWO_SIDED|90.0|10.53|20.38|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||20.38|10.53|
82607534|NCT01982630|164930966|OTHER||Difference of Least Squares Means|2.11|||||TWO_SIDED|90.0|-1.47|5.7|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||5.70|-1.47|
82607535|NCT01982630|164930966|OTHER||Difference of Least Squares Means|10.43|||||TWO_SIDED|90.0|5.73|15.13|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||15.13|5.73|
82607536|NCT01982630|164930966|OTHER||Difference of Least Squares Means|8.32|||||TWO_SIDED|90.0|3.4|13.24|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline RMHR as a covariate||||13.24|3.40|
82607537|NCT01982630|164930982|OTHER||Difference of Least Squares Means|29.56|||||TWO_SIDED|90.0|4.34|54.77|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||54.77|4.34|
82607538|NCT01982630|164930982|OTHER||Difference of Least Squares Means|26.1|||||TWO_SIDED|90.0|2.02|50.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||50.19|2.02|
82607539|NCT01982630|164930982|OTHER||Difference of Least Squares Means|3.45|||||TWO_SIDED|90.0|-20.23|27.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||27.14|-20.23|
82607540|NCT01982630|164930982|OTHER||Difference of Least Squares Means|-26.45|||||TWO_SIDED|90.0|-49.96|-2.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-2.93|-49.96|
82607541|NCT01982630|164930982|OTHER||Difference of Least Squares Means|-29.9|||||TWO_SIDED|90.0|-52.04|-7.77|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-7.77|-52.04|
82607542|NCT01982630|164930982|OTHER||Difference of Least Squares Means|-56.0|||||TWO_SIDED|90.0|-79.53|-32.48|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-32.48|-79.53|
82607543|NCT01982630|164930983|OTHER||Difference of Least Squares Means|14.96|||||TWO_SIDED|90.0|-10.25|40.18|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||40.18|-10.25|
82607544|NCT01982630|164930983|OTHER||Difference of Least Squares Means|6.57|||||TWO_SIDED|90.0|-17.52|30.65|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||30.65|-17.52|
82657174|NCT04349917|165029915|SUPERIORITY|||||||0.579|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.579
82657175|NCT04349917|165029915|SUPERIORITY|||||||0.034|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.034
82607545|NCT01982630|164930983|OTHER||Difference of Least Squares Means|8.4|||||TWO_SIDED|90.0|-15.29|32.08|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||32.08|-15.29|
82607546|NCT01982630|164930983|OTHER||Difference of Least Squares Means|-35.23|||||TWO_SIDED|90.0|-58.75|-11.72|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.72|-58.75|
82607547|NCT01982630|164930983|OTHER||Difference of Least Squares Means|-43.63|||||TWO_SIDED|90.0|-65.77|-21.5|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-21.50|-65.77|
82607548|NCT01982630|164930983|OTHER||Difference of Least Squares Means|-50.2|||||TWO_SIDED|90.0|-73.72|-26.68|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-26.68|-73.72|
82607549|NCT01982630|164930984|OTHER||Difference of Least Squares Means|-31.2|||||TWO_SIDED|90.0|-56.59|-5.81|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-5.81|-56.59|
82607550|NCT01982630|164930984|OTHER||Difference of Least Squares Means|-25.12|||||TWO_SIDED|90.0|-50.25|0.01|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||0.01|-50.25|
82607551|NCT01982630|164930984|OTHER||Difference of Least Squares Means|-6.08|||||TWO_SIDED|90.0|-17.31|5.14|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||5.14|-17.31|
82607552|NCT01982630|164930985|OTHER||Difference of Least Squares Means|-27.48|||||TWO_SIDED|90.0|-52.87|-2.09|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-2.09|-52.87|
82657176|NCT04349917|165029916|SUPERIORITY|||||||0.296|||||||t-test, 2 sided|||Analysis for reconfiguration between rest and GNG regular task||||0.296
82657177|NCT04349917|165029916|SUPERIORITY|||||||0.169|||||||t-test, 2 sided|||Analysis for reconfiguration between rest and GNG reward task||||0.169
82657178|NCT04349917|165029917|SUPERIORITY|||||||0.118|||||||Pearson correlation|||Change in rest modularity vs change in GNG regular commission rate||||0.118
82607553|NCT01982630|164930985|OTHER||Difference of Least Squares Means|-30.59|||||TWO_SIDED|90.0|-55.72|-5.46|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||-5.46|-55.72|
82607554|NCT01982630|164930985|OTHER||Difference of Least Squares Means|3.11|||||TWO_SIDED|90.0|-8.11|14.34|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||14.34|-8.11|
82607555|NCT01982630|164930986|OTHER||Difference of Least Squares Means|4.59|||||TWO_SIDED|90.0|-20.88|30.06|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||30.06|-20.88|
82657179|NCT04349917|165029917|SUPERIORITY|||||||0.022|||||||Pearson correlation|||Change in rest modularity vs change in GNG regular omission rate||||0.022
82657180|NCT04349917|165029917|SUPERIORITY|||||||0.22|||||||Pearson correlation|||Change in rest modularity vs Change in GNG regular RT Variability||||0.220
82607556|NCT01982630|164930986|OTHER||Difference of Least Squares Means|-5.42|||||TWO_SIDED|90.0|-30.68|19.85|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||19.85|-30.68|
82607557|NCT01982630|164930986|OTHER||Difference of Least Squares Means|10.01|||||TWO_SIDED|90.0|-1.77|21.78|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||21.78|-1.77|
82607558|NCT01982630|164930987|OTHER||Difference of Least Squares Means|-14.98|||||TWO_SIDED|90.0|-40.53|10.57|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||10.57|-40.53|
82607559|NCT01982630|164930987|OTHER||Difference of Least Squares Means|-14.5|||||TWO_SIDED|90.0|-39.77|10.76|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||10.76|-39.77|
82607560|NCT01982630|164930987|OTHER||Difference of Least Squares Means|-0.48|||||TWO_SIDED|90.0|-12.47|11.52|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline FPG as a covariate||||11.52|-12.47|
82607561|NCT01982630|164930988|OTHER||Difference of Least Squares Means|-43.68|||||TWO_SIDED|90.0|-65.81|-21.55|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-21.55|-65.81|
82607562|NCT01982630|164930988|OTHER||Difference of Least Squares Means|-47.4|||||TWO_SIDED|90.0|-69.35|-25.45|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-25.45|-69.35|
82607563|NCT01982630|164930988|OTHER||Difference of Least Squares Means|3.72|||||TWO_SIDED|90.0|-5.76|13.19|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||13.19|-5.76|
82607564|NCT01982630|164930989|OTHER||Difference of Least Squares Means|-34.01|||||TWO_SIDED|90.0|-56.14|-11.88|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.88|-56.14|
82607565|NCT01982630|164930989|OTHER||Difference of Least Squares Means|-39.2|||||TWO_SIDED|90.0|-61.15|-17.26|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-17.26|-61.15|
82607566|NCT01982630|164930989|OTHER||Difference of Least Squares Means|5.2|||||TWO_SIDED|90.0|-4.28|14.67|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||14.67|-4.28|
82657181|NCT04349917|165029917|SUPERIORITY|||||||0.496|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward commission rate||||0.496
82607567|NCT01982630|164930990|OTHER||Difference of Least Squares Means|-23.73|||||TWO_SIDED|90.0|-45.89|-1.56|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-1.56|-45.89|
82607568|NCT01982630|164930990|OTHER||Difference of Least Squares Means|-33.95|||||TWO_SIDED|90.0|-55.93|-11.98|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-11.98|-55.93|
82607569|NCT01982630|164930990|OTHER||Difference of Least Squares Means|10.23|||||TWO_SIDED|90.0|0.56|19.89|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||19.89|0.56|
82607570|NCT01982630|164930991|OTHER||Difference of Least Squares Means|-23.49|||||TWO_SIDED|90.0|-45.65|-1.32|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-1.32|-45.65|
82607571|NCT01982630|164930991|OTHER||Difference of Least Squares Means|-29.76|||||TWO_SIDED|90.0|-51.74|-7.79|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||-7.79|-51.74|
82607572|NCT01982630|164930991|OTHER||Difference of Least Squares Means|6.27|||||TWO_SIDED|90.0|-3.39|15.93|||Linear Mixed Effects Model|Fixed effects for treatment, day and treatment by day interaction, a random effect for participant and baseline 24-hour WMG as a covariate||||15.93|-3.39|
82607573|NCT01273818|164931026|SUPERIORITY_OR_OTHER||Fscher exact test|||||0.198|TWO_SIDED||||||Fisher Exact||we did not need an estimation parameter such as odds or relative risk because of our experimental design and hypothesis of this study.|"Comparison Group Selection: our primary outcome is infection positive or negativeso, we compared the frequencies of being positive infections for these three groups. Our null hypothesis is  positive infection frequencies are same for three groups. We calculated post-hoc power for this design and found 0.99 for the percentages which shows positive infections respectively for Topical Gentamicin, cefazoline iv and topical gentamicin and iv cefazolin; 2.3%, 3.1% and 0%."||||0.198
82607574|NCT05300087|164931029|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for Cmax between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.014|||<|0.0001|TWO_SIDED|90.0|0.947|1.085|||ANOVA|||||1.085|0.947|<0.0001
82607575|NCT05300087|164931030|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for AUC(0-t) between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.022|||<|0.0001|TWO_SIDED|90.0|0.993|1.051|||ANOVA|||||1.051|0.993|<0.0001
82657182|NCT04349917|165029917|SUPERIORITY|||||||0.343|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward omission rate||||0.343
82657183|NCT04349917|165029917|SUPERIORITY|||||||0.988|||||||Pearson correlation|||Change in rest modularity vs change in GNG reward RT variability||||0.988
82657184|NCT04349917|165029917|SUPERIORITY|||||||0.892|||||||Pearson correlation|||Change in GNG regular modularity vs change in GNG regular commission rate||||0.892
82657185|NCT04349917|165029917|SUPERIORITY|||||||0.473|||||||Pearson correlation|||Change in GNG regular modularity vs change in GNG regular omission rate||||0.473
82492368|NCT02527161|164677919|SUPERIORITY|||||||0.3493|||||||ANOVA|||Change from preoperative to 6 weeks SF-12 MCS||||0.3493
82607576|NCT05300087|164931031|EQUIVALENCE|Bioequivalence would be demonstrated if the 90% confidence interval for the ratio of geometric means for AUC(0-inf) between the test and reference products were completely contained within the FDA defined acceptance range of 80.00%-125.00%.|Ratio of geometric least square mean|1.021|||<|0.0001|TWO_SIDED|90.0|0.994|1.048|||ANOVA|||||1.048|0.994|<0.0001
82607577|NCT05662332|164931036|NON_INFERIORITY|Noninferiority margin (NIM) was 0.4%|LS Mean Change difference|-0.03|||||TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|
82607578|NCT05662332|164931037|SUPERIORITY||LS Mean Change difference|-0.03||||0.684|TWO_SIDED|95.0|-0.18|0.12|||ANCOVA|||||0.12|-0.18|0.684
82607579|NCT05662332|164931038|SUPERIORITY||LS Mean Change difference|4.16||||0.155|TWO_SIDED|95.0|-1.58|9.9|||ANCOVA|||Week 52||9.90|-1.58|0.155
82607580|NCT05662332|164931039|SUPERIORITY||LS Mean Change difference|-43.7|||<|0.001|TWO_SIDED|95.0|-62.4|-25.0|||Mixed Models Analysis|||Week 52||-25.0|-62.4|<0.001
82607581|NCT05662332|164931040|SUPERIORITY||Relative Rate|0.57||||0.005|TWO_SIDED|95.0|0.39|0.84|||Negative binomial model|||||0.84|0.39|0.005
82607582|NCT05662332|164931042|SUPERIORITY||Relative Rate|0.58||||0.155|TWO_SIDED|95.0|0.28|1.23|||Negative binomial model|||||1.23|0.28|0.155
82607583|NCT05662332|164931044|SUPERIORITY||LS Mean difference (Final Values)|0.57||||0.033|TWO_SIDED|95.0|0.047|1.1|||Mixed Models Analysis|||||1.10|0.047|0.033
82607584|NCT05662332|164931045|SUPERIORITY||LS Mean difference (Final Values)|1.56||||0.071|TWO_SIDED|95.0|-0.13|3.25|||Mixed Models Analysis|||Week 52||3.25|-0.13|0.071
82607585|NCT05662332|164931048|SUPERIORITY||LS Mean difference (Final Values)|1.8||||0.072|TWO_SIDED|95.0|-0.2|3.8|||Mixed Models Analysis|||Week 52||3.8|-0.2|0.072
82657186|NCT04349917|165029917|SUPERIORITY|||||||0.409|||||||Pearson correlation|||Change in GNG regular modularity vs Change in GNG regular RT Variability||||0.409
82657187|NCT04349917|165029917|SUPERIORITY|||||||0.351|||||||Pearson correlation|||Change in GNG reward modularity vs change in GNG reward commission rate||||0.351
82657188|NCT04349917|165029917|SUPERIORITY|||||||0.238|||||||Pearson correlation|||Change in GNG reward modularity vs change in GNG reward omission rate||||0.238
82657189|NCT04349917|165029917|SUPERIORITY|||||||0.909|||||||Pearson correlation|||Change in GNG reward modularity vs Change in GNG reward RT Variability||||0.909
82657190|NCT04349917|165029918|SUPERIORITY|||||||0.806|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.806
82657191|NCT04349917|165029918|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.003
82657192|NCT04349917|165029919|SUPERIORITY|||||||0.093|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.093
82607586|NCT01696461|164931050|OTHER||||||||||||||||||Percentage of donors mobilized with plerixafor. No comparison group was analyzed.|||
82607587|NCT01696461|164931051|OTHER||||||||||||||||||This is a descriptive analysis. Percentage of donor experiencing toxicities was assessed at 30, 60, 120, and 240 minutes after administration of plerixafor on each day of collection and graded according to the National Cancer Institute Common Terminology Criteria for Adverse Events, version 4.0.3. Grade of maximum toxicity across all time points is reported.|||
82607588|NCT01696461|164931052|OTHER||||||||||||||||||This is a descriptive analysis. The number of donors experiencing toxicities was assessed at 30, 60, 120, and 240 minutes after administration of plerixafor on each day of collection and one, six, and 12 months post-donation. Toxicities were graded according to the National Cancer Institute Common Terminology Criteria for Adverse Events, version 4.0.3.|||
82607589|NCT01696461|164931053|OTHER||||||||||||||||||At 100 days after HCT, all patients in both the MAC and the RIC cohorts had achieved neutrophil engraftment. All patients in the MAC arm and 97% of patients in the RIC arm had achieved platelet engraftment. The median time to neutrophil engraftment was 13 and 15 days for MAC and RIC, respectively. The median time to platelet engraftment was 19 and 18 days for MAC and RIC, respectively.|||
82607590|NCT01696461|164931054|OTHER||||||||||||||||||"Full donor myeloid chimerism was achieved relatively quickly in both RIC and MAC groups (median 100% at day +28 in both RIC and MAC), but conversion to full donor T-cell chimerism appeared to be slower in the RIC patients.~T-cell chimerism for MAC patients: median donor cell % (range):~Day +28: 92(59-100)%, Day +100: 97(76-100)%, Day +180: 100(91-100)%, Day +365: 100(100-100)%~T-cell chimerism for RIC patients: median donor cell % (range):~Day +28: 80(50-100)%, Day +100: 84(64-100)%, Day +180: 95(74-100)%, Day +365: 100(87-100)%"|||
82657193|NCT04349917|165029919|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.0001
82657194|NCT04349917|165029920|SUPERIORITY|||||||0.075|||||||t-test, 2 sided|||Analysis for GNG regular task||||0.075
82607591|NCT01696461|164931055|OTHER||||||||||||||||||This is a descriptive outcome.There were no cases of primary graft failure.|||
82607592|NCT01696461|164931056|OTHER|||||||||||||||||The cumulative incidence of acute graft-vs-host disease was examined in the RIC and MAC groups but was not directly compared with a statistical test.|The incidence of acute GVHD was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. Death was treated as a competing risk.|||
82607593|NCT01696461|164931057|OTHER||||||||||||||||||Immune reconstitution was measured by CD3+CD4+ and CD3+CD8+ T cells in the peripheral blood of patients at days 28, 100, 180, and 365 after HCT. Notably, median CD3+CD4+ cell counts were \>200/µL at all times analyzed, including day 28 in both MAC and RIC groups.|||
82607594|NCT01696461|164931058|OTHER|||||||||||||||||Groups were not directly compared using a statistical test.|Percentage of recipients at-risk for CMV reactivation who experienced a reactivation.|||
82607595|NCT01696461|164931059|OTHER|||||||||||||||||The probability of treatment-related mortality and disease relapse/progression were examined in the RIC and MAC cohorts but were not directly compared between the two groups using a statistical test.|The incidence of treatment-related mortality and relapse was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. When computing the cumulative incidence probability of treatment-related mortality and relapse, relapse and treatment-related mortality, respectively, were considered as a competing risk.|||
82657195|NCT04349917|165029920|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||Analysis for GNG reward task||||0.0001
82657196|NCT01507051|165029941|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio|2.793|||<|0.0001||90.0|2.633|2.962|||ANOVA|||||2.962|2.633|<0.0001
82657197|NCT01507051|165029942|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio|6.151|||<|0.0001||90.0|5.598|6.759|||ANOVA|||||6.759|5.598|<0.0001
82657198|NCT01507051|165029969|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|95.17||||0.5008||95.0|82.2|110.2|||ANOVA|||||110.2|82.20|0.5008
82657199|NCT01507051|165029970|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|99.46||||0.9429||95.0|85.47|115.7|||ANOVA|||||115.7|85.47|0.9429
82607596|NCT01696461|164931060|OTHER|||||||||||||||||The probability of progression free survival and overall survival were examined in the RIC and MAC cohorts but were not directly compared between the two groups using a statistical test.|Kaplan-Meier curves were used to estimate the probability of progression-free survival and overall survival. Progression-free survival at 1 year was 53% (95% CI, 36% to 71%) after MAC and 64% (95% CI, 47% to 79%) after RIC. Overall survival at 1 year was 63% (95% CI, 46% to 79%) after MAC and 70% (95% CI, 53% to 84%) after RIC.|||
82607597|NCT01696461|164931061|OTHER|||||||||||||||||This outcome measure is descriptive.|This outcome measure is descriptive. The median cell dose and range are reported.|||
82607598|NCT01696461|164931062|OTHER|||||||||||||||||The cumulative incidence of chronic graft-vs-host disease was examined in the RIC and MAC groups but was not directly compared with a statistical test.|The incidence of chronic GVHD was quantified by computing the cumulative incidence probability and an appropriate 95% confidence interval. Death was treated as a competing event.|||
82607599|NCT01696461|164931063|OTHER||||||||||||||||||This is a descriptive analysis. There were no cases of secondary graft failure.|||
82607600|NCT01696461|164931064|OTHER||||||||||||||||||This outcome measure is descriptive. The median cell dose and range are reported.|||
82607601|NCT03542682|164931069|SUPERIORITY||Mean Difference (Final Values)|-55.67|||||TWO_SIDED|95.0|-124.63|13.3|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||13.30|-124.63|
82607602|NCT03542682|164931071|SUPERIORITY||Mean Difference (Final Values)|0.96|||||TWO_SIDED|95.0|-1.1|3.02|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||3.02|-1.10|
82607603|NCT03542682|164931072|SUPERIORITY||Mean Difference (Final Values)|131.85|||||TWO_SIDED|95.0|-246.7|510.41|||Mixed Models Analysis|The model adjusted for order of the clamps and accounting for within subject correlation.||||510.41|-246.70|
82607604|NCT04321343|164931077|SUPERIORITY||Mean Difference (Final Values)|-25.313|STANDARD_ERROR_OF_MEAN|9.587||0.0083|TWO_SIDED|95.0|-44.1036|-6.5227|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-6.5227|-44.1036|0.0083
82607605|NCT04321343|164931077|SUPERIORITY||Mean Difference (Final Values)|-21.003|STANDARD_ERROR_OF_MEAN|9.287||0.0237|TWO_SIDED|95.0|-39.2074|-2.7991|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-2.7991|-39.2074|0.0237
82607606|NCT04321343|164931077|SUPERIORITY||Mean Difference (Final Values)|-23.748|STANDARD_ERROR_OF_MEAN|9.053||0.0087|TWO_SIDED|95.0|-41.4923|-6.0035|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-6.0035|-41.4923|0.0087
82492369|NCT02527161|164677919|SUPERIORITY|||||||0.48|||||||ANOVA|||Change from 6 weeks to 3 months SF-12 MCS||||0.4800
82607607|NCT04321343|164931078|SUPERIORITY||Hodges-Lehmann midpoint estimate|-26.226|STANDARD_ERROR_OF_MEAN|10.252||0.0105|TWO_SIDED|95.0|-46.3208|-6.1313|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-6.1313|-46.3208|0.0105
82607608|NCT04321343|164931078|SUPERIORITY||Hodges-Lehmann midpoint estimate|-21.496|STANDARD_ERROR_OF_MEAN|9.873||0.0295|TWO_SIDED|95.0|-40.8475|-2.1451|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-2.1451|-40.8475|0.0295
82607609|NCT04321343|164931078|SUPERIORITY||Hodges-Lehmann midpoint estimate|-24.29|STANDARD_ERROR_OF_MEAN|9.746||0.0127|TWO_SIDED|95.0|-43.392|-5.1884|||Wilcoxon (Mann-Whitney)|Non-parametric pairwaise Wilcoxon tests using a multiple imputation procedure based on the fully conditional specification method.||||-5.1884|-43.3920|0.0127
82607610|NCT04321343|164931079|SUPERIORITY||Mean Difference (Final Values)|-4.671|STANDARD_ERROR_OF_MEAN|1.824||0.0105|TWO_SIDED|95.0|-8.2463|-1.0957|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-1.0957|-8.2463|0.0105
82607611|NCT04321343|164931079|SUPERIORITY||Mean Difference (Final Values)|-4.097|STANDARD_ERROR_OF_MEAN|1.743||0.0188|TWO_SIDED|95.0|-7.514|-0.6799|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-0.6799|-7.5140|0.0188
82607612|NCT04321343|164931079|SUPERIORITY||Mean Difference (Final Values)|-4.321|STANDARD_ERROR_OF_MEAN|1.689||0.0105|TWO_SIDED|95.0|-7.6307|-1.0104|||ANCOVA|ANCOVA model using a multiple imputation procedure based on the fully conditional specification method.|Mean difference (final values) is the difference in Least Squares (LS) Means estimated in the ANCOVA model.|||-1.0104|-7.6307|0.0105
82607613|NCT04321343|164931080|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1634|TWO_SIDED|95.0|0.677|10.087|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||10.087|0.677|0.1634
82607614|NCT04321343|164931080|SUPERIORITY||Odds Ratio (OR)|3.26||||0.0722|TWO_SIDED|95.0|0.899|11.831|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||11.831|0.899|0.0722
82607615|NCT04321343|164931080|SUPERIORITY||Odds Ratio (OR)|3.17||||0.0703|TWO_SIDED|95.0|0.909|11.052|||Cochran-Mantel-Haenszel|CMH with multiple imputation||||11.052|0.909|0.0703
82657200|NCT01507051|165029971|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|100.4||||0.9525||95.0|88.0|114.5|||ANOVA|||||114.5|88.00|0.9525
82657201|NCT01507051|165029972|SUPERIORITY_OR_OTHER||Geometric LS-Mean Ratio (%)|95.87||||0.4397||95.0|85.99|106.9|||ANOVA|||||106.9|85.99|0.4397
82492370|NCT02527161|164677919|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 3 months to 6 months SF-12 MCS||||>0.9999
82492371|NCT02527161|164677919|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 6 months to 1 year SF-12 MCS||||>0.9999
82492372|NCT02527161|164677919|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year SF-12 MCS||||>0.9999
82492373|NCT02527161|164677919|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 2 year to 5 year SF-12 MCS||||>0.9999
82492374|NCT02527161|164677920|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 6 weeks KSS Pain||||<0.0001
82607616|NCT04321343|164931081|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|8.2||0.4318|TWO_SIDED|95.0|-22.66|9.72|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||9.72|-22.66|0.4318
82607617|NCT04321343|164931081|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|8.0||0.8382|TWO_SIDED|95.0|-17.37|14.1|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||14.10|-17.37|0.8382
82607618|NCT04321343|164931081|SUPERIORITY||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|7.7||0.4982|TWO_SIDED|95.0|-9.92|20.33|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||20.33|-9.92|0.4982
82607619|NCT04321343|164931082|SUPERIORITY||Odds Ratio (OR)|0.72||||0.7137|TWO_SIDED|95.0|0.131|3.935|||Cochran-Mantel-Haenszel|||||3.935|0.131|0.7137
82607620|NCT04321343|164931082|SUPERIORITY||Odds Ratio (OR)|3.7||||0.0597|TWO_SIDED|95.0|0.937|14.58|||Cochran-Mantel-Haenszel|||||14.580|0.937|0.0597
82607621|NCT04321343|164931082|SUPERIORITY||Odds Ratio (OR)|2.61||||0.1749|TWO_SIDED|95.0|0.655|10.43|||Cochran-Mantel-Haenszel|||||10.430|0.655|0.1749
82607622|NCT04321343|164931083|SUPERIORITY||Mean Difference (Final Values)|-2.9|STANDARD_ERROR_OF_MEAN|8.8||0.7449|TWO_SIDED|95.0|-20.15|14.43|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||14.43|-20.15|0.7449
82607623|NCT04321343|164931083|SUPERIORITY||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|8.6||0.7255|TWO_SIDED|95.0|-19.93|13.9|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||13.90|-19.93|0.7255
82607624|NCT04321343|164931083|SUPERIORITY||Mean Difference (Final Values)|2.4|STANDARD_ERROR_OF_MEAN|8.2||0.7755|TWO_SIDED|95.0|-13.89|18.59|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||18.59|-13.89|0.7755
82607625|NCT04321343|164931084|SUPERIORITY||Odds Ratio (OR)|3.12||||0.1325|TWO_SIDED|95.0|0.703|13.806|||Cochran-Mantel-Haenszel|||||13.806|0.703|0.1325
82607626|NCT04321343|164931084|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9918|TWO_SIDED|95.0|0.201|4.898|||Cochran-Mantel-Haenszel|||||4.898|0.201|0.9918
82607627|NCT04321343|164931084|SUPERIORITY||Odds Ratio (OR)|4.78||||0.041|TWO_SIDED|95.0|1.053|21.714|||Cochran-Mantel-Haenszel|||||21.714|1.053|0.0410
82607628|NCT04321343|164931085|SUPERIORITY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|10.3||0.4413|TWO_SIDED|95.0|-28.25|12.36|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||12.36|-28.25|0.4413
82607629|NCT04321343|164931085|SUPERIORITY||Mean Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|10.2||0.0859|TWO_SIDED|95.0|-37.63|2.5|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.50|-37.63|0.0859
82607630|NCT04321343|164931085|SUPERIORITY||Median Difference (Final Values)|-2.7|STANDARD_ERROR_OF_MEAN|10.0||0.7887|TWO_SIDED|95.0|-22.31|16.97|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||16.97|-22.31|0.7887
82607631|NCT04321343|164931086|SUPERIORITY||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|3.7||0.1166|TWO_SIDED|95.0|-13.19|1.47|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.47|-13.19|0.1166
82607632|NCT04321343|164931086|SUPERIORITY||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|3.7||0.003|TWO_SIDED|95.0|-18.26|-3.8|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-3.80|-18.26|0.0030
82607633|NCT04321343|164931086|SUPERIORITY||Mean Difference (Final Values)|-8.8|STANDARD_ERROR_OF_MEAN|3.5||0.0131|TWO_SIDED|95.0|-15.79|-1.87|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-1.87|-15.79|0.0131
82607634|NCT04321343|164931087|SUPERIORITY||Mean Difference (Final Values)|-1.013|STANDARD_ERROR_OF_MEAN|1.481||0.4963|TWO_SIDED|95.0|-3.9701|1.9436|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||1.9436|-3.9701|0.4963
82657202|NCT04455633|165030009|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.249||0.007|TWO_SIDED|95.0|-1.16|-0.18|||MMRM model|||Mixed model repeated measures (MMRM) model included fixed effects of treatment, visit, treatment-by-week interaction, the randomization stratum of Baseline pain severity (moderate, severe), and the Baseline ADPS score as a covariate.||-0.18|-1.16|0.007
82657203|NCT04455633|165030009|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.254||0.03|TWO_SIDED|95.0|-1.06|-0.05|||MMRM model|||MMRM model included fixed effects of treatment, visit, treatment-by-week interaction, the randomization stratum of Baseline pain severity (moderate, severe), and the Baseline ADPS score as a covariate.||-0.05|-1.06|0.030
82607635|NCT04321343|164931087|SUPERIORITY||Mean Difference (Final Values)|-0.712|STANDARD_ERROR_OF_MEAN|1.402||0.6131|TWO_SIDED|95.0|-3.5109|2.0866|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||2.0866|-3.5109|0.6131
82607636|NCT04321343|164931087|SUPERIORITY||Mean Difference (Final Values)|-1.441|STANDARD_ERROR_OF_MEAN|1.362||0.2939|TWO_SIDED|95.0|-4.1593|1.2779|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||1.2779|-4.1593|0.2939
82607637|NCT04321343|164931088|SUPERIORITY||Mean Difference (Final Values)|-0.063|STANDARD_ERROR_OF_MEAN|0.211||0.7672|TWO_SIDED|95.0|-0.4845|0.3589|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.3589|-0.4845|0.7672
82607638|NCT04321343|164931088|SUPERIORITY||Mean Difference (Final Values)|-0.127|STANDARD_ERROR_OF_MEAN|0.198||0.5233|TWO_SIDED|95.0|-0.5216|0.2678|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2678|-0.5216|0.5233
82607639|NCT04321343|164931088|SUPERIORITY||Mean Difference (Final Values)|-0.279|STANDARD_ERROR_OF_MEAN|0.18||0.1263|TWO_SIDED|95.0|-0.6376|0.0805|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.0805|-0.6376|0.1263
82607640|NCT04321343|164931089|SUPERIORITY||Mean Difference (Final Values)|-0.028|STANDARD_ERROR_OF_MEAN|0.165||0.8662|TWO_SIDED|95.0|-0.3559|0.3002|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.3002|-0.3559|0.8662
82607641|NCT04321343|164931089|SUPERIORITY||Mean Difference (Final Values)|-0.094|STANDARD_ERROR_OF_MEAN|0.166||0.5726|TWO_SIDED|95.0|-0.4253|0.2369|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2369|-0.4253|0.5726
82607642|NCT04321343|164931089|SUPERIORITY||Mean Difference (Final Values)|-0.186|STANDARD_ERROR_OF_MEAN|0.153||0.2289|TWO_SIDED|95.0|-0.4907|0.1192|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.1192|-0.4907|0.2289
82607643|NCT04321343|164931090|SUPERIORITY||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.254||0.8595|TWO_SIDED|95.0|-0.5509|0.4607|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.4607|-0.5509|0.8595
82607644|NCT04321343|164931090|SUPERIORITY||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.25||0.3776|TWO_SIDED|95.0|-0.7194|0.2759|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.2759|-0.7194|0.3776
82607645|NCT04321343|164931090|SUPERIORITY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.232||0.0424|TWO_SIDED|95.0|-0.9426|0.017|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.0170|-0.9426|0.0424
82607646|NCT04321343|164931091|SUPERIORITY||Odds Ratio (OR)|3.31||||0.1084|TWO_SIDED|95.0|0.775|14.152|||Cochran-Mantel-Haenszel|||||14.152|0.775|0.1084
82607647|NCT04321343|164931091|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0562|TWO_SIDED|95.0|0.959|17.594|||Cochran-Mantel-Haenszel|||||17.594|0.959|0.0562
82607648|NCT04321343|164931091|SUPERIORITY||Odds Ratio (OR)|1.87||||0.3333|TWO_SIDED|95.0|0.501|6.948|||Cochran-Mantel-Haenszel|||||6.948|0.501|0.3333
82607649|NCT04321343|164931092|SUPERIORITY||Odds Ratio (OR)|1.21||||0.7677|TWO_SIDED|95.0|0.345|4.23|||Cochran-Mantel-Haenszel|||||4.230|0.345|0.7677
82607650|NCT04321343|164931092|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4828|TWO_SIDED|95.0|0.434|6.012|||Cochran-Mantel-Haenszel|||||6.012|0.434|0.4828
82607651|NCT04321343|164931092|SUPERIORITY||Odds Ratio (OR)|1.97||||0.2711|TWO_SIDED|95.0|0.598|6.486|||Cochran-Mantel-Haenszel|||||6.486|0.598|0.2711
82607652|NCT04321343|164931093|SUPERIORITY||Odds Ratio (OR)|1.44||||0.5981|TWO_SIDED|95.0|0.376|5.547|||Cochran-Mantel-Haenszel|||||5.547|0.376|0.5981
82607653|NCT04321343|164931093|SUPERIORITY||Odds Ratio (OR)|1.42||||0.6228|TWO_SIDED|95.0|0.363|5.572|||Cochran-Mantel-Haenszel|||||5.572|0.363|0.6228
82607654|NCT04321343|164931093|SUPERIORITY||Odds Ratio (OR)|0.9||||0.8799|TWO_SIDED|95.0|0.245|3.323|||Cochran-Mantel-Haenszel|||||3.323|0.245|0.8799
82607655|NCT04321343|164931094|SUPERIORITY||Odds Ratio (OR)|3.28||||0.1474|TWO_SIDED|95.0|0.625|17.208|||Cochran-Mantel-Haenszel|||||17.208|0.625|0.1474
82607656|NCT04321343|164931094|SUPERIORITY||Odds Ratio (OR)|2.65||||0.262|TWO_SIDED|95.0|0.481|14.631|||Cochran-Mantel-Haenszel|||||14.631|0.481|0.2620
82607657|NCT04321343|164931094|SUPERIORITY||Odds Ratio (OR)|0.7||||0.6935|TWO_SIDED|95.0|0.117|4.133|||Cochran-Mantel-Haenszel|||||4.133|0.117|0.6935
82492375|NCT02527161|164677920|SUPERIORITY|||||||0.9465|||||||ANOVA|||Change from 3 months to 6 months KSS Pain||||0.9465
82607658|NCT04321343|164931095|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6384|TWO_SIDED|95.0|-0.35|0.215|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.215|-0.350|0.6384
82607659|NCT04321343|164931095|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.0549|TWO_SIDED|95.0|-0.547|0.006|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.006|-0.547|0.0549
82607660|NCT04321343|164931095|SUPERIORITY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.14||0.003|TWO_SIDED|95.0|-0.683|-0.142|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.142|-0.683|0.0030
82607661|NCT04321343|164931096|SUPERIORITY||Mean Difference (Final Values)|-0.051|STANDARD_ERROR_OF_MEAN|0.389||0.8961|TWO_SIDED|95.0|-0.8165|0.7149|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7149|-0.8165|0.8961
82607662|NCT04321343|164931096|SUPERIORITY||Mean Difference (Final Values)|0.163|STANDARD_ERROR_OF_MEAN|0.384||0.671|TWO_SIDED|95.0|-0.5935|0.9204|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.9204|-0.5935|0.6710
82607663|NCT04321343|164931096|SUPERIORITY||Mean Difference (Final Values)|0.007|STANDARD_ERROR_OF_MEAN|0.364||0.9846|TWO_SIDED|95.0|-0.7092|0.7233|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.7233|-0.7092|0.9846
82607664|NCT04321343|164931097|SUPERIORITY||Mean Difference (Final Values)|-84.93|STANDARD_ERROR_OF_MEAN|36.75||0.0216|TWO_SIDED|95.0|-157.306|-12.558|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-12.558|-157.306|0.0216
82607665|NCT04321343|164931097|SUPERIORITY||Mean Difference (Final Values)|-46.61|STANDARD_ERROR_OF_MEAN|35.72||0.1931|TWO_SIDED|95.0|-116.957|23.738|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||23.738|-116.957|0.1931
82607666|NCT04321343|164931097|SUPERIORITY||Mean Difference (Final Values)|-63.4|STANDARD_ERROR_OF_MEAN|33.31||0.0581|TWO_SIDED|95.0|-129.002|2.194|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.194|-129.002|0.0581
82607667|NCT04321343|164931098|SUPERIORITY||Mean Difference (Final Values)|-0.256|STANDARD_ERROR_OF_MEAN|0.153||0.0958|TWO_SIDED|95.0|-0.5577|0.0456|||Mixed Models Analysis|Mixed Models Analysis|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0456|-0.5577|0.0958
82607668|NCT04321343|164931098|SUPERIORITY||Mean Difference (Final Values)|-0.273|STANDARD_ERROR_OF_MEAN|0.148||0.0659|TWO_SIDED|95.0|-0.5648|0.0181|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0181|-0.5648|0.0659
82607669|NCT04321343|164931098|SUPERIORITY||Mean Difference (Final Values)|-0.301|STANDARD_ERROR_OF_MEAN|0.138||0.0297|TWO_SIDED|95.0|-0.5728|-0.03|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.0300|-0.5728|0.0297
82607670|NCT04321343|164931099|SUPERIORITY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.175||0.2606|TWO_SIDED|95.0|-0.5423|0.1476|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.1476|-0.5423|0.2606
82607671|NCT04321343|164931099|SUPERIORITY||Mean Difference (Final Values)|-0.234|STANDARD_ERROR_OF_MEAN|0.17||0.1709|TWO_SIDED|95.0|-0.569|0.1016|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.1016|-0.5690|0.1709
82607672|NCT04321343|164931099|SUPERIORITY||Mean Difference (Final Values)|-0.321|STANDARD_ERROR_OF_MEAN|0.155||0.04|TWO_SIDED|95.0|-0.6274|-0.0148|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-0.0148|-0.6274|0.0400
82607673|NCT04321343|164931100|SUPERIORITY||Mean Difference (Final Values)|0.011|STANDARD_ERROR_OF_MEAN|0.012||0.3955|TWO_SIDED|95.0|-0.0139|0.0351|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0351|-0.0139|0.3955
82607674|NCT04321343|164931100|SUPERIORITY||Mean Difference (Final Values)|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.3081|TWO_SIDED|95.0|-0.0115|0.0362|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0362|-0.0115|0.3081
82607675|NCT04321343|164931100|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.011||0.1374|TWO_SIDED|95.0|-0.0053|0.0383|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||0.0383|-0.0053|0.1374
82607676|NCT04321343|164931101|SUPERIORITY||Mean Difference (Final Values)|-48.94|STANDARD_ERROR_OF_MEAN|20.86||0.0199|TWO_SIDED|95.0|-90.073|-7.817|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-7.817|-90.073|0.0199
82607677|NCT04321343|164931101|SUPERIORITY||Mean Difference (Final Values)|-29.77|STANDARD_ERROR_OF_MEAN|18.66||0.112|TWO_SIDED|95.0|-66.558|7.009|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||7.009|-66.558|0.1120
82607678|NCT04321343|164931101|SUPERIORITY||Mean Difference (Final Values)|-54.64|STANDARD_ERROR_OF_MEAN|17.9||0.0026|TWO_SIDED|95.0|-89.935|-19.34|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||-19.340|-89.935|0.0026
82607679|NCT04321343|164931102|SUPERIORITY||Mean Difference (Final Values)|1.674|STANDARD_ERROR_OF_MEAN|0.896||0.0639|TWO_SIDED|95.0|-0.098|3.447|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||3.4470|-0.0980|0.0639
82607680|NCT04321343|164931102|SUPERIORITY||Mean Difference (Final Values)|2.831|STANDARD_ERROR_OF_MEAN|0.867||0.0014|TWO_SIDED|95.0|1.1149|4.5464|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||4.5464|1.1149|0.0014
82657204|NCT04455633|165030010|SUPERIORITY||Difference in Percentage of Responders|9.6||||0.091|TWO_SIDED|95.0|-1.55|20.76|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the Cochran-Mantel-Haenszel (CMH) test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% confidence interval (CI) are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||20.76|-1.55|0.091
82657205|NCT04455633|165030010|SUPERIORITY||Difference in Percentage of Responders|-0.8||||0.883|TWO_SIDED|95.0|-10.95|9.4|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||9.40|-10.95|0.883
82607681|NCT04321343|164931102|SUPERIORITY||Mean Difference (Final Values)|4.876|STANDARD_ERROR_OF_MEAN|0.848|<|0.0001|TWO_SIDED|95.0|3.1982|6.5543|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||6.5543|3.1982|<0.0001
82607682|NCT04321343|164931103|SUPERIORITY||Mean Difference (Final Values)|1.183|STANDARD_ERROR_OF_MEAN|0.909||0.1944|TWO_SIDED|95.0|-0.608|2.9748|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.9748|-0.6080|0.1944
82607683|NCT04321343|164931103|SUPERIORITY||Mean Difference (Final Values)|2.459|STANDARD_ERROR_OF_MEAN|0.879||0.0056|TWO_SIDED|95.0|0.7268|4.1907|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||4.1907|0.7268|0.0056
82607684|NCT04321343|164931103|SUPERIORITY||Mean Difference (Final Values)|0.68|STANDARD_ERROR_OF_MEAN|0.858||0.4288|TWO_SIDED|95.0|-1.0111|2.372|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.3720|-1.0111|0.4288
82607685|NCT04321343|164931104|SUPERIORITY||Mean Difference (Final Values)|-1.251|STANDARD_ERROR_OF_MEAN|1.093||0.2564|TWO_SIDED|95.0|-3.4307|0.9295|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.9295|-3.4307|0.2564
82607686|NCT04321343|164931104|SUPERIORITY||Mean Difference (Final Values)|-1.598|STANDARD_ERROR_OF_MEAN|1.021||0.1222|TWO_SIDED|95.0|-3.6348|0.4392|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||0.4392|-3.6348|0.1222
82607687|NCT04321343|164931104|SUPERIORITY||Mean Difference (Final Values)|-2.22|STANDARD_ERROR_OF_MEAN|0.936||0.0206|TWO_SIDED|95.0|-4.088|-0.351|||Regression, Linear||Mean difference (final values) is the difference in LS Means estimated in the linear regression.|||-0.3510|-4.0880|0.0206
82607688|NCT04321343|164931105|SUPERIORITY||Odds Ratio (OR)|1.51||||0.5221|TWO_SIDED|95.0|0.436|5.201|||Cochran-Mantel-Haenszel|||||5.201|0.436|0.5221
82607689|NCT04321343|164931105|SUPERIORITY||Odds Ratio (OR)|1.62||||0.4828|TWO_SIDED|95.0|0.434|6.012|||Cochran-Mantel-Haenszel|||||6.012|0.434|0.4828
82607690|NCT04321343|164931105|SUPERIORITY||Odds Ratio (OR)|2.87||||0.0914|TWO_SIDED|95.0|0.853|9.636|||Cochran-Mantel-Haenszel|||||9.636|0.853|0.0914
82607691|NCT04321343|164931106|SUPERIORITY||Odds Ratio (OR)|2.71||||0.1854|TWO_SIDED|95.0|0.628|11.679|||Cochran-Mantel-Haenszel|||||11.679|0.628|0.1854
82607692|NCT04321343|164931106|SUPERIORITY||Odds Ratio (OR)|4.11||||0.0562|TWO_SIDED|95.0|0.959|17.594|||Cochran-Mantel-Haenszel|||||17.594|0.959|0.0562
82607693|NCT04321343|164931106|SUPERIORITY||Odds Ratio (OR)|1.53||||0.5223|TWO_SIDED|95.0|0.398|5.88|||Cochran-Mantel-Haenszel|||||5.880|0.398|0.5223
82607694|NCT04321343|164931107|SUPERIORITY||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.891||0.7532|TWO_SIDED|95.0|-1.4749|2.0356|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||2.0356|-1.4749|0.7532
82607695|NCT04321343|164931107|SUPERIORITY||Mean Difference (Final Values)|1.985|STANDARD_ERROR_OF_MEAN|0.858||0.0216|TWO_SIDED|95.0|0.2946|3.6763|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||3.6763|0.2946|0.0216
82607696|NCT04321343|164931107|SUPERIORITY||Mean Difference (Final Values)|0.224|STANDARD_ERROR_OF_MEAN|0.838||0.7893|TWO_SIDED|95.0|-1.4283|1.8771|||Mixed Models Analysis|Mixed Model Repeated Measures|Mean difference (final values) is the difference in LS Means estimated in the MMRM model.|||1.8771|-1.4283|0.7893
82607697|NCT01212445|164931124|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.192||||0.179|TWO_SIDED|95.0|0.096|0.325|||Fisher Exact|||The treatment success rate was defined as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.325|0.096|0.1790
82607698|NCT01212445|164931124|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.314||||1|TWO_SIDED|95.0|0.191|0.459|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.459|0.191|1.0000
82607699|NCT01212445|164931124|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.196||||0.2558|TWO_SIDED|95.0|0.098|0.331|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.331|0.098|0.2558
82607700|NCT01212445|164931124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|0.774|4.763|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 26.25 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence interval. There were no multiplicity adjustments."||4.763|0.774|
82657206|NCT04455633|165030011|SUPERIORITY||Difference in Percentage of Responders|4.8||||0.289|TWO_SIDED|95.0|-4.11|13.73|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||13.73|-4.11|0.289
82607701|NCT01212445|164931124|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.024|||||TWO_SIDED|95.0|0.386|2.72|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 39.375 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||2.720|0.386|
82607702|NCT01212445|164931126|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.077||||0.235|TWO_SIDED|95.0|0.021|0.185|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.185|0.021|0.2350
82657207|NCT04455633|165030011|SUPERIORITY||Difference in Percentage of Responders|-0.8||||0.837|TWO_SIDED|95.0|-8.85|7.16|||Cochran-Mantel-Haenszel|||Percentage of responders were analyzed using the CMH test stratified by the randomization factor of Baseline severity score (moderate, severe). The 95% CI are calculated using the asymptotic Wald method. Missing observations at Week 6 are imputed as nonresponses.||7.16|-8.85|0.837
82492376|NCT02527161|164677920|SUPERIORITY|||||||0.1215|||||||ANOVA|||Change from 6 months to 1 year KSS Pain||||0.1215
82492377|NCT02527161|164677920|SUPERIORITY|||||||0.9912|||||||ANOVA|||Change from 1 year to 2 years KSS Pain||||0.9912
82607703|NCT01212445|164931126|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.157||||0.5256|TWO_SIDED|95.0|0.07|0.286|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.286|0.070|0.5256
82607704|NCT01212445|164931126|SUPERIORITY_OR_OTHER||Treatment Success Rate|0.118||||0.7746|TWO_SIDED|95.0|0.044|0.239|||Fisher Exact|||The treatment success rate was calculated as the number of participants in a treatment group with treatment successes (BM with no straining or hard/lumpy stools) divided by the total number of participants in the treatment group. Treatment success rate was calculated for each dose group along with 95% confidence intervals (CI) based on exact binomial statistics. Treatment success rates were compared between each pair of treatments using an exact 2-sided test (Fisher's).||0.239|0.044|0.7746
82607705|NCT01212445|164931126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.233|||||TWO_SIDED|95.0|0.628|7.94|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 26.25 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||7.940|0.628|
82607706|NCT01212445|164931126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6|||||TWO_SIDED|95.0|0.424|6.043|||Regression, Logistic|||"Logistic regression analysis was performed with treatment success as the dichotomous dependent variable and dose (13.125g, 26.25g, or 39.375 g) as the independent variable. The main effects for the model were tested for significance at the 5% level.~The odds of response for the 39.375 g dose level versus the 13.125 g dose level were presented together with the associated 95% confidence intervals. There were no multiplicity adjustments."||6.043|0.424|
82607707|NCT01212445|164931127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.752||||0.1876|TWO_SIDED|95.0|-3.834|19.338|||ANCOVA|||||19.338|-3.834|0.1876
82607708|NCT01212445|164931127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.706||||0.768|TWO_SIDED|95.0|-9.729|13.141|||ANCOVA|||||13.141|-9.729|0.7680
82607709|NCT01212445|164931127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.046||||0.2941|TWO_SIDED|95.0|-17.412|5.32|||ANCOVA|||||5.320|-17.412|0.2941
82607710|NCT01212445|164931128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.302||||0.8109|TWO_SIDED|95.0|-12.059|9.454|||ANCOVA|||||9.454|-12.059|0.8109
82607711|NCT01212445|164931128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.075||||0.6995|TWO_SIDED|95.0|-12.693|8.544|||ANCOVA|||||8.544|-12.693|0.6995
82607712|NCT01212445|164931128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.772||||0.885|TWO_SIDED|95.0|-11.329|9.784|||ANCOVA|||||9.784|-11.329|0.8850
82607713|NCT01212445|164931129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.886||||0.0486|TWO_SIDED|95.0|0.078|25.695|||ANCOVA|||||25.695|0.078|0.0486
82607714|NCT01212445|164931129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.245||||0.8465|TWO_SIDED|95.0|-11.471|13.962|||ANCOVA|||||13.962|-11.471|0.8465
82607715|NCT01212445|164931129|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.641||||0.0744|TWO_SIDED|95.0|-24.449|1.167|||ANCOVA|||||1.167|-24.449|0.0744
82657208|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.298||0.014|TWO_SIDED|95.0|-1.32|-0.15|||MMRM model|||Pain at its Worst: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its worst score as a covariate.||-0.15|-1.32|0.014
82657209|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.29||0.017|TWO_SIDED|95.0|-1.27|-0.13|||MMRM model|||Pain at its Worst: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its worst score as a covariate.||-0.13|-1.27|0.017
82607716|NCT01212445|164931130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.4591|TWO_SIDED|95.0|-6.153|13.534|||ANCOVA|||||13.534|-6.153|0.4591
82657210|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.302||0.015|TWO_SIDED|95.0|-1.33|-0.15|||MMRM model|||Pain at its Least: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its least score as a covariate.||-0.15|-1.33|0.015
82657211|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.294||0.02|TWO_SIDED|95.0|-1.27|-0.11|||MMRM model|||Pain at its Least: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain at its least score as a covariate.||-0.11|-1.27|0.020
82492378|NCT02527161|164677920|SUPERIORITY|||||||0.8952|||||||ANOVA|||Change from 2 year to 5 year KSS Pain||||0.8952
82607717|NCT01212445|164931130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.887||||0.5546|TWO_SIDED|95.0|-6.765|12.539|||ANCOVA|||||12.539|-6.765|0.5546
82607718|NCT01212445|164931130|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.803||||0.8685|TWO_SIDED|95.0|-10.397|8.79|||ANCOVA|||||8.790|-10.397|0.8685
82607719|NCT01212445|164931131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.311||||0.1865|TWO_SIDED|95.0|-0.774|0.152|||ANCOVA|||||0.152|-0.774|0.1865
82607720|NCT01212445|164931131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.139||||0.553|TWO_SIDED|95.0|-0.602|0.323|||ANCOVA|||||0.323|-0.602|0.5530
82607721|NCT01212445|164931131|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172||||0.467|TWO_SIDED|95.0|-0.293|0.637|||ANCOVA|||||0.637|-0.293|0.4670
82607722|NCT03232073|164931170|SUPERIORITY||Treatment Effect (Rate Ratio)|0.779||||||95.0|0.629|0.965||||||||0.965|0.629|
82607723|NCT01672892|164931208|SUPERIORITY|||||||0.0476|||||||t-test, 1 sided|||Since there is no prior data using this tool in this patient population, an effect size of 0.4 was chosen to calculate sample size. Based on a two-sample t-test with one interim look and a two-sided alpha=0.05, a sample size of 225 is needed to achieve 85% statistical power. Assuming an attrition rate of 10% and noncompliance of 10%, 281 patients were required in order to ensure 225 evaluable patients for the primary endpoint analysis.||||0.0476
82607724|NCT01672892|164931209|SUPERIORITY|||||||0.4338|||||||Binomial test of proportions|2-sided significance level = 0.05||||||0.4338
82607725|NCT01672892|164931210|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|2-sided significance level of 0.05||Week 3 of RT||||0.04
82607726|NCT01672892|164931210|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|2-sided significance level of 0.05||Week 5 of RT||||0.03
82607727|NCT01672892|164931210|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|2-sided significance level of 0.05||4-6 weeks post-RT||||0.41
82607728|NCT01672892|164931211|SUPERIORITY|||||||0.54|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-G total score - 5 weeks||||0.54
82607729|NCT01672892|164931211|SUPERIORITY|||||||0.72|||||||t-test, 2 sided|FACT-G total score - 4-6 weeks post RT||FACT-G total score - 4-6 weeks post RT||||0.72
82607730|NCT01672892|164931211|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-Cx subscale score - 5 weeks||||0.01
82607731|NCT01672892|164931211|SUPERIORITY|||||||0.45|||||||t-test, 2 sided|2-sided significance level = 0.05||FACT-Cx subscale score - 4-6 weeks post RT||||0.45
82607732|NCT01672892|164931211|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|2-sided significance level = 0.0125||Physical subscale score - 5 weeks||||0.03
82607733|NCT01672892|164931211|SUPERIORITY|||||||0.9|||||||t-test, 2 sided|2-sided significance level = 0.0125||Physical subscale score - 4-6 weeks post RT||||0.9
82607734|NCT01672892|164931211|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|2-sided significance level = 0.0125||Functional subscale score - 5 weeks||||0.55
82607735|NCT01672892|164931211|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|2-sided significance level = 0.0125||Functional subscale score - 4-6 weeks post RT||||0.35
82607736|NCT01672892|164931211|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|2-sided significance level = 0.0125||Emotional subscale score - 5 weeks||||0.66
82607737|NCT01672892|164931211|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|2-sided significance level = 0.0125||Emotional subscale score - 4-6 weeks post RT||||0.09
82607738|NCT01672892|164931211|SUPERIORITY|||||||0.66|||||||t-test, 2 sided|2-sided significance level = 0.0125||Social subscale score - 5 weeks||||0.66
82607739|NCT01672892|164931211|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|2-sided significance level = 0.0125||Social subscale score - 4-6 weeks post RT||||0.35
82607740|NCT01672892|164931212|SUPERIORITY|||||||0.61|||||||t-test, 2 sided|2-sided significance level = 0.05||5 weeks||||0.61
82657212|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.309||0.005|TWO_SIDED|95.0|-1.48|-0.27|||MMRM model|||Pain Right Now: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain right now score as a covariate.||-0.27|-1.48|0.005
82657213|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.301||0.111|TWO_SIDED|95.0|-1.07|0.11|||MMRM model|||Pain Right Now: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain right now score as a covariate.||0.11|-1.07|0.111
82657214|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.31||0.399|TWO_SIDED|95.0|-0.87|0.35|||MMRM model|||Interference score averaged Over Questions 9A - G: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain interference score as a covariate.||0.35|-0.87|0.399
82657215|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.302||0.441|TWO_SIDED|95.0|-0.83|0.36|||MMRM model|||Interference score averaged Over Questions 9A - G: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline pain interference score as a covariate.||0.36|-0.83|0.441
82657216|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.346||0.575|TWO_SIDED|95.0|-0.87|0.49|||MMRM model|||General Activity: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline general activity score as a covariate.||0.49|-0.87|0.575
82657217|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.337||0.88|TWO_SIDED|95.0|-0.71|0.61|||MMRM model|||General Activity: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline general activity score as a covariate.||0.61|-0.71|0.880
82657218|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.368||0.978|TWO_SIDED|95.0|-0.73|0.71|||MMRM model|||Mood: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline mood score as a covariate.||0.71|-0.73|0.978
82607741|NCT01672892|164931212|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|2-sided significance level = 0.05||4-6 weeks post-RT||||0.67
82607742|NCT01672892|164931213|SUPERIORITY|||||||0.81|||||||Gray's test|Two-sided significance level = 0.05||||||0.81
82657219|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.358||0.877|TWO_SIDED|95.0|-0.65|0.76|||MMRM model|||Mood: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline mood score as a covariate.||0.76|-0.65|0.877
82607743|NCT01672892|164931214|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.21|TWO_SIDED|95.0|0.82|2.35|||Log Rank|Two-side significance level = 0.05|Reference level = Intensity-Modulated Radiation Therapy|||2.35|0.82|0.21
82607744|NCT01672892|164931215|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.53|TWO_SIDED|95.0|0.32|1.79|||Log Rank|Two-sided significance level = 0.05|Reference level = Intensity-Modulated Radiation Therapy|||1.79|0.32|0.53
82607745|NCT01672892|164931218|OTHER||||||<|0.0001|||||||nonparametric one-sample t-test|||Baseline||||<0.0001
82607746|NCT01672892|164931218|OTHER||||||<|0.0001|||||||nonparametric one-sample t-test|||Week 5||||<0.0001
82607747|NCT01672892|164931219|OTHER||||||<|0.0001|||||||One-sample t-test|||Bowel domain at baseline||||<0.0001
82607748|NCT01672892|164931219|OTHER||||||<|0.0001|||||||One-sample t-test|||Bowel domain at week 5||||<0.0001
82607749|NCT01672892|164931219|OTHER||||||<|0.0001|||||||One-sample t-test|||Urinary domain at baseline||||<0.0001
82607750|NCT01672892|164931219|OTHER||||||<|0.0001|||||||One-sample t-test|||Urinary domain at week 5||||<0.0001
82607751|NCT01672892|164931220|OTHER||||||<|0.0001|||||||Paired t-test|||Bowel domain||||<0.0001
82607752|NCT01672892|164931220|OTHER||||||<|0.0001|||||||Paired t-test|||Urinary domain||||<0.0001
82607753|NCT03528681|164931244|OTHER||Back-transformed mean difference|0.93|||<|0.001|TWO_SIDED|95.0|0.902|0.959|||Mixed Models Analysis|||Results are derived from a longitudinal model applied to log-transformed S-K measurements adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates. The back-transformation is to the original scale of the S-K measurement||0.959|0.902|<0.001
82607754|NCT03528681|164931244|OTHER||Back-transformed mean difference|0.85|||<|0.001|TWO_SIDED|95.0|0.825|0.876|||Mixed Models Analysis|||Results are derived from a longitudinal model applied to log-transformed S-K measurements adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates. The back-transformation is to the original scale of the S-K measurement||0.876|0.825|<0.001
82607755|NCT03528681|164931249|OTHER|The analysis uses a generalized mixed model which includes a random intercept and logit link. The model includes all S-K data values collected at the scheduled visits between Days 8-29, dichotomized as normal and abnormal, as response variables, and baseline covariates. Placebo is the reference group.|Odds Ratio (OR)|3.8|||<|0.001|TWO_SIDED|95.0|2.17|6.67|||Mixed Models Analysis|||||6.67|2.17|<0.001
82607756|NCT03528681|164931249|OTHER||Odds Ratio (OR)|11.63|||<|0.001|TWO_SIDED|95.0|6.45|21.0|||Mixed Models Analysis|||The analysis uses a generalized mixed model which includes a random intercept and logit link. The model includes all S-K data values collected at the scheduled visits between Days 8-29, dichotomized as normal and abnormal, as response variables, and baseline covariates. Placebo is the reference group.||21.00|6.45|<0.001
82607757|NCT03528681|164931250|OTHER|The model included normokalaemia status (yes, no) on Day 29 as binary response variables, and baseline covariates. Placebo is the reference group.|Odds Ratio (OR)|2.54||||0.035|TWO_SIDED|95.0|1.07|6.05|||Regression, Logistic|||||6.05|1.07|0.035
82607758|NCT03528681|164931250|OTHER||Odds Ratio (OR)|6.25|||<|0.001|TWO_SIDED|95.0|2.56|15.27|||Regression, Logistic|||The model included normokalaemia status (yes, no) on Day 29 as binary response variables, and baseline covariates. Placebo is the reference group.||15.27|2.56|<0.001
82607759|NCT03528681|164931251|OTHER||Median Difference (Final Values)|5.72|||<|0.001|TWO_SIDED|95.0|3.13|8.31|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||8.31|3.13|<0.001
82607760|NCT03528681|164931251|OTHER||Mean Difference (Final Values)|11.14|||<|0.001|TWO_SIDED|95.0|8.57|13.71|||Regression, Linear|||Results derived from a linear regression model with the following covariates: treatment group; baseline S-K values (Open-label phase and Randomized treatment phase); baseline eGFR; age category; country; baseline RAAS inhibitor, chronic kidney disease, heart failure, and diabetes mellitus statuses.||13.71|8.57|<0.001
82607761|NCT03528681|164931254|OTHER||Mean Difference (Final Values)|-105.248|||<|0.001|TWO_SIDED|95.0|-161.293|-49.203|||Mixed Models Analysis|||S-Aldo Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||-49.203|-161.293|<0.001
82607762|NCT03528681|164931254|OTHER||Median Difference (Final Values)|-137.267|||<|0.001|TWO_SIDED|95.0|-192.596|-81.937|||Mixed Models Analysis|||S-Aldo Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||-81.937|-192.596|<0.001
82657220|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.354||0.079|TWO_SIDED|95.0|-1.32|0.07|||MMRM model|||Walking Ability: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline walking ability score as a covariate.||0.07|-1.32|0.079
82657221|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.345||0.163|TWO_SIDED|95.0|-1.16|0.2|||MMRM model|||Walking Ability: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline walking ability score as a covariate.||0.20|-1.16|0.163
82657222|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.344||0.875|TWO_SIDED|95.0|-0.73|0.62|||MMRM model|||Normal Work: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline normal work score as a covariate.||0.62|-0.73|0.875
82657223|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.335||0.914|TWO_SIDED|95.0|-0.69|0.62|||MMRM model|||Normal Work: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline normal work score as a covariate.||0.62|-0.69|0.914
82607763|NCT03528681|164931254|OTHER||Mean Difference (Final Values)|0.014||||0.839|TWO_SIDED|95.0|-0.12|0.147|||Mixed Models Analysis|||P-Renin Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||0.147|-0.120|0.839
82657224|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.351||0.219|TWO_SIDED|95.0|-0.26|1.12|||MMRM model|||Relations with Other People: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline relations with other people score as a covariate.||1.12|-0.26|0.219
82657225|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.341||0.551|TWO_SIDED|95.0|-0.47|0.87|||MMRM model|||Relations with Other People: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline relations with other people score as a covariate.||0.87|-0.47|0.551
82657226|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.339||0.005|TWO_SIDED|95.0|-1.63|-0.3|||MMRM model|||Sleep: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline sleep score as a covariate.||-0.30|-1.63|0.005
82607764|NCT03528681|164931254|OTHER||Mean Difference (Final Values)|-0.062||||0.355|TWO_SIDED|95.0|-0.195|0.07|||Mixed Models Analysis|||P-Renin Results derived from a longitudinal mixed model adjusted for treatment, visit, treatment-by-visit interaction and baseline covariates||0.070|-0.195|0.355
82607765|NCT03528681|164931256|OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.27|0.57|||Regression, Cox|||The model included time to reoccurrence of hyperkalaemia as response variable (event: hyperkalaemia or discontinue treatment in RTP due to high S-K levels), baseline eGFR, OLP and RTP baseline S-K values as well as age (\< 55, 55-64, \> 64 years) and baseline binary indicators for RAASi, chronic kidney disease, heart failure, and diabetes mellitus as covariates. Placebo is the reference group||0.57|0.27|<0.001
82607766|NCT03528681|164931256|OTHER||Hazard Ratio (HR)|0.16|||<|0.001|TWO_SIDED|95.0|0.1|0.25|||Regression, Cox|||The model included time to reoccurrence of hyperkalaemia as response variable (event: hyperkalaemia or discontinue treatment in RTP due to high S-K levels), baseline eGFR, OLP and RTP baseline S-K values as well as age (\< 55, 55-64, \> 64 years) and baseline binary indicators for RAASi, chronic kidney disease, heart failure, and diabetes mellitus as covariates. Placebo is the reference group||0.25|0.10|<0.001
82607767|NCT01614457|164931272|SUPERIORITY_OR_OTHER||Least squares (LS) Mean Difference|2.1114||||0.1979|TWO_SIDED|95.0|-1.1305|5.3532|||Mixed Model Repeated Measures|||Analysis was based on mixed effects model for repeated measures (MMRM) with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, using compound symmetry covariance matrix.||5.3532|-1.1305|0.1979
82607768|NCT01614457|164931273|SUPERIORITY_OR_OTHER||LS Mean difference|0.2626||||0.778|TWO_SIDED|95.0|-1.5698|2.095||p-value for the treatment effect is from the slope of BMI (kg/m2) versus time (days).|Linear Mixed model|||Analysis was based on linear mixed model with dependent variable BMI and treatment as a fixed effect, adjustment for baseline percent predicted FEV1, age and visit by treatment interaction was included as covariates and intercept, visit were included as random effects.||2.0950|-1.5698|0.7780
82607769|NCT01614457|164931274|SUPERIORITY_OR_OTHER||LS Mean difference|-23.9693|||<|0.0001|TWO_SIDED|95.0|-28.0094|-19.9293|||Mixed Model Repeated Measures|||Analysis was based on MMRM with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, and sweat chloride, using a compound symmetry covariance matrix.||-19.9293|-28.0094|<0.0001
82607770|NCT01614457|164931275|SUPERIORITY_OR_OTHER||LS Mean difference|8.3874||||0.0091|TWO_SIDED|95.0|2.1658|14.609|||Mixed Model Repeated Measures|||Analysis was based on MMRM with dependent variable absolute change from baseline, with treatment group, visit and treatment by visit interaction as fixed effects, subject as random effect, and with adjustment for the continuous baseline value of age and percent predicted FEV1, and CFQ-R respiratory domain score, using compound symmetry covariance matrix.||14.6090|2.1658|0.0091
82607771|NCT01614457|164931276|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.928||||0.8556|TWO_SIDED||||||Cox Proportional Hazard Regression|||||||0.8556
82607772|NCT03518840|164931298|SUPERIORITY||Mean Difference (Final Values)|-1.9615|STANDARD_ERROR_OF_MEAN|0.3329|<|0.001|TWO_SIDED|95.0|-2.6299|-1.2932|||paired t-test, 2 sided|||The null hypothesis is that there is no change in the baseline ASLR score following four weeks of SIJ belt therapy.||-1.2932|-2.6299|<.001
82607773|NCT03518840|164931299|SUPERIORITY||Median Difference (Final Values)|-1.9474|STANDARD_ERROR_OF_MEAN|0.3353|<|0.001|TWO_SIDED|95.0|-2.619|-1.2757|||paired t-test, 2 sided|||The null hypothesis is that there is no change in the baseline NRS score following four weeks of SIJ belt therapy.||-1.2757|-2.6190|<.001
82607774|NCT01713348|164931340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|3.3||0.9345|TWO_SIDED|95.0|-1.29|1.19|||t-test, 2 sided|||||1.19|-1.29|0.9345
82607775|NCT01713348|164931340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_DEVIATION|3.5||0.0427|TWO_SIDED|95.0|0.05|2.73|||t-test, 2 sided|||Difference in time in range (70-180 mg/dL, 3.9 to 10.0 mmol/L) intervention arm compared to control arm.||2.73|0.05|0.0427
82607776|NCT01713348|164931341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_DEVIATION|1.18||0.8367|TWO_SIDED|95.0|-2.65|2.16|||ANCOVA|Performed for each type of Diabetes and adjusted for baseline Time in Range.||||2.16|-2.65|0.8367
82607777|NCT01713348|164931341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_DEVIATION|1.05||0.7969|TWO_SIDED|95.0|-1.86|2.4|||ANCOVA|Performed for each type of Diabetes and adjusted for baseline Time in Range.||||2.40|-1.86|0.7969
82607778|NCT01713348|164931342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.6||0.0352|TWO_SIDED|95.0|-0.51|-0.02|||t-test, 2 sided|||||-0.02|-0.51|0.0352
82607779|NCT01713348|164931342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.7||0.0506|TWO_SIDED|95.0|-0.54|0.0|||t-test, 2 sided|||||0.00|-0.54|0.0506
82607780|NCT01713348|164931343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_DEVIATION|8.0||0.058|TWO_SIDED|95.0|-6.4|0.1|||t-test, 2 sided|||||0.1|-6.4|0.0580
82607781|NCT01713348|164931343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_DEVIATION|12.0||0.0002|TWO_SIDED|95.0|-13.6|-4.9|||t-test, 2 sided|||||-4.9|-13.6|0.0002
82607782|NCT01713348|164931344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_DEVIATION|0.8||0.058|TWO_SIDED|95.0|-0.59|0.01|||t-test, 2 sided|||||0.01|-0.59|0.0580
82607783|NCT01713348|164931344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.8|STANDARD_DEVIATION|1.1||0.0002|TWO_SIDED|95.0|-1.24|-0.45|||t-test, 2 sided|||||-0.45|-1.24|0.0002
82607784|NCT03090191|164931364|SUPERIORITY|Lower bound of confidence interval greater than 20% demonstrate vaccine efficacy.|Vaccine efficacy|31.0|||||TWO_SIDED|96.4|-38.7|66.6|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 96.4% CI was estimated using Clopper-Pearson-Method.|||66.6|-38.7|
82607785|NCT03090191|164931365|SUPERIORITY|Lower bound of confidence interval greater than 20% demonstrate vaccine efficacy.|Vaccine efficacy|28.6|||||TWO_SIDED|96.4|-28.4|61.0|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 96.4% CI was estimated using Clopper-Pearson-Method.|||61.0|-28.4|
82607786|NCT03090191|164931374|SUPERIORITY||Vaccine efficacy|11.1|||||TWO_SIDED|98.2|-110.7|62.5|||||VE = 100\*(1 - Hazard Ratio). 98.2% CI was estimated using Proportional Means Model.|||62.5|-110.7|
82607787|NCT03090191|164931375|SUPERIORITY|||||||0.0172|||||||Wilcoxon Rank Sum Test (2-sided)|||||||0.0172
82607788|NCT03090191|164931376|SUPERIORITY||Ratio of proportions|0.0|||||TWO_SIDED|98.2|0.0|0.81||||||||0.81|0.00|
82607789|NCT03090191|164931377|SUPERIORITY||Vaccine efficacy|-69.3|||||TWO_SIDED|98.2|-1533.1|75.6|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of recurrent CDI incidence between Clostridium difficile vaccine group and placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||75.6|-1533.1|
82607790|NCT03090191|164931378|SUPERIORITY||Vaccine efficacy|14.9|||||TWO_SIDED|98.2|-74.6|58.5|||||VE = 100\*(1 - Hazard Ratio). 98.2% CI was estimated using Proportional Means Model|||58.5|-74.6|
82607791|NCT03090191|164931379|SUPERIORITY||Vaccine efficacy|-102.4|||||TWO_SIDED|98.2|-1770.1|67.2|||||VE = 100\*(1 - IRR), where IRR= the calculated ratio of recurrent CDI incidence between the Clostridium difficile vaccine group and the placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||67.2|-1770.1|
82607792|NCT03090191|164931380|SUPERIORITY||Vaccine efficacy|12.0|||||TWO_SIDED|98.2|-246.7|78.5|||||Vaccine efficacy(VE)=100\*(1-infection rate ratio\[IRR\]),IRR=calculated ratio of first primary CDI incidence between Clostridium difficile vaccine group and placebo group. 98.2% CI was estimated using Clopper-Pearson-Method.|||78.5|-246.7|
82607793|NCT00811252|164931423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32|STANDARD_ERROR_OF_MEAN|1.01||0.0011|TWO_SIDED|95.0|-5.31|-1.34||Since p-value \<0.05, hierarchically testing continued|ANCOVA||A statistical testing strategy was defined a priori for a single dose of vortioxetine that was tested versus placebo in the primary and key secondary efficacy analyses.|As soon as an endpoint was non-significant at the 0.05 level of significance, the testing procedure was stopped for all subsequent endpoints.||-1.34|-5.31|0.0011
82607794|NCT00811252|164931423|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.48|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|-7.5|-3.46||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-3.46|-7.50|<0.0001
82607795|NCT00811252|164931424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.13|STANDARD_ERROR_OF_MEAN|0.94||0.024|TWO_SIDED|95.0|-3.98|-0.28||Since p-value \<0.05, hierarchically testing continued|ANCOVA||A statistical testing strategy was defined a priori for a single dose of vortioxetine that was tested versus placebo in the primary and key secondary efficacy analyses.|As soon as an endpoint was non-significant at the 0.05 level of significance, the testing procedure was stopped for all subsequent endpoints.||-0.28|-3.98|0.0240
82607796|NCT00811252|164931424|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.22|STANDARD_ERROR_OF_MEAN|0.96|<|0.0001|TWO_SIDED|95.0|-6.1|-2.34||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-2.34|-6.10|<0.0001
82607797|NCT00811252|164931425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.85||0.2134|TWO_SIDED|95.0|-2.72|0.61||Since p-value \>0.05, hierarchically testing stopped here.|ANCOVA|||||0.61|-2.72|0.2134
82607798|NCT00811252|164931425|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|0.86||0.0002|TWO_SIDED|95.0|-4.99|-1.6||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-1.60|-4.99|0.0002
82607799|NCT00811252|164931426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.7||0.6879|TWO_SIDED|95.0|-1.67|1.1||A nominal p-value is provided.|ANCOVA|||||1.10|-1.67|0.6879
82607800|NCT00811252|164931426|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.25|STANDARD_ERROR_OF_MEAN|0.72||0.0827|TWO_SIDED|95.0|-2.65|0.16||A nominal p-value is provided.|ANCOVA|||||0.16|-2.65|0.0827
82607801|NCT00811252|164931427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.55||0.4482|TWO_SIDED|95.0|-1.49|0.66||A nominal p-value is provided.|ANCOVA|||||0.66|-1.49|0.4482
82607802|NCT00811252|164931427|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.56||0.7971|TWO_SIDED|95.0|-0.95|1.24||A nominal p-value is provided.|ANCOVA|||||1.24|-0.95|0.7971
82607803|NCT00811252|164931428|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.29|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|95.0|-6.32|-2.26||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-2.26|-6.32|<0.0001
82607804|NCT00811252|164931429|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|STANDARD_ERROR_OF_MEAN|0.74||0.0015|TWO_SIDED|95.0|-3.8|-0.91||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.91|-3.80|0.0015
82607805|NCT00811252|164931430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.88|-0.32||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.32|-0.88|<0.0001
82607806|NCT00811252|164931431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.56|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.82|-0.31||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||-0.31|-0.82|<0.0001
82607807|NCT00811252|164931432|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.23||0.0552|TWO_SIDED|95.0|-0.88|0.01||A nominal p-value is provided. No correction for multiplicity was made.|ANCOVA|||||0.01|-0.88|0.0552
82607808|NCT00811252|164931433|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.0008|TWO_SIDED|95.0|0.26|0.7||A nominal p-value is provided. No correction for multiplicity was made.|Regression, Logistic|||||0.70|0.26|0.0008
82607809|NCT00811252|164931434|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.47||||0.009|TWO_SIDED|95.0|0.27|0.83||A nominal p-value is provided. No correction for multiplicity was made.|Regression, Logistic|||||0.83|0.27|0.0090
82492379|NCT02527161|164677921|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from preoperative to 3 months KSS Function||||<0.0001
82607810|NCT04112914|164931511|SUPERIORITY||Mean Difference (Final Values)|0.27||||0.021|TWO_SIDED||||||Regression, Linear|||||||0.021
82607811|NCT04112914|164931512|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.638|TWO_SIDED||||||Regression, Linear|||||||0.638
82607812|NCT04112914|164931513|SUPERIORITY||Odds Ratio (OR)|1.77||||0.338|TWO_SIDED|95.0|0.55|5.72|||Regression, Logistic|||||5.72|0.55|0.338
82607813|NCT04112914|164931514|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.606|TWO_SIDED||||||Regression, Linear|||||||0.606
82607814|NCT04112914|164931515|SUPERIORITY||Mean Difference (Final Values)|0.12||||0.508|TWO_SIDED||||||Regression, Linear|||||||0.508
82607815|NCT04112914|164931516|SUPERIORITY||Mean Difference (Final Values)|0.45||||0.042|TWO_SIDED||||||Regression, Linear|||||||0.042
82607816|NCT04112914|164931517|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.128|TWO_SIDED||||||Regression, Linear|||||||0.128
82607817|NCT01244737|164931525|OTHER||Pearson correlation co-efficient|0.8|||<|0.001|TWO_SIDED|||||The a priori threshold for statistical significance was \< 0.05.|Regression, Linear|||This is a diagnostic test of FLT uptake (SUV max) as a predictor of cellular proliferation (MIB) and is performed as an analysis of correlation using each evaluable participant enrolled in either Arm 1 (New Diagnosis) or Arm 2 (Possible recurrent tumor). The groups (Arm 1 and Arm 2) provide pathways for enrollment. Correlation between the two measures of outcome (SUV max and MIB) is evaluated.||||< 0.001
82607818|NCT01244737|164931528|OTHER|Paired T-test to assess change in FLT uptake (SUV max) with chemotherapy.||||||0.04||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.04
82657227|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-1.04|STANDARD_ERROR_OF_MEAN|0.329||0.002|TWO_SIDED|95.0|-1.68|-0.39|||MMRM model|||Sleep: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline sleep score as a covariate.||-0.39|-1.68|0.002
82657228|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.361||0.955|TWO_SIDED|95.0|-0.73|0.69|||MMRM model|||Enjoyment of Life: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline enjoyment of life score as a covariate.||0.69|-0.73|0.955
82657229|NCT04455633|165030012|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.351||0.777|TWO_SIDED|95.0|-0.79|0.59|||MMRM model|||Enjoyment of Life: change from baseline was analyzed using MMRM model including fixed effects of treatment, visit, treatment-by-visit interaction, the randomization stratum of baseline pain severity (moderate, severe), and the baseline enjoyment of life score as a covariate.||0.59|-0.79|0.777
82657230|NCT04455633|165030014|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.163||0.031|TWO_SIDED|95.0|-0.67|-0.03|||ANOVA|||Analysis of variance (ANOVA) model was used for the analysis with treatment and the randomization stratum of baseline pain severity (moderate, severe) as fixed covariates.||-0.03|-0.67|0.031
82657231|NCT04455633|165030014|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.165||0.351|TWO_SIDED|95.0|-0.48|0.17|||ANOVA|||ANOVA model was used for the analysis with treatment and the randomization stratum of baseline pain severity (moderate, severe) as fixed covariates.||0.17|-0.48|0.351
82657232|NCT01328093|165030046|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-3.2|STANDARD_ERROR_OF_MEAN|0.7|<|0.001||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||<0.001
82657233|NCT01328093|165030047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||95.0||||P-value is for ≥7% increase.|Cochran-Mantel-Haenszel|||||||0.110
82657234|NCT01328093|165030047|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0||||P-value is for ≥7% decrease.|Cochran-Mantel-Haenszel|||||||<0.001
82607819|NCT03826914|164931533|SUPERIORITY||Median Difference (Net)|-0.43||||0.042|TWO_SIDED|95.0|-0.846|-0.015||The threshold of significance was P=0.05|Anaylsis of Covariance||Placebo - Cardioflex|The primary analysis was conducted using the post-treatment biomarker value, comparing the two groups, and controlling for their baseline values by using analysis of covariance. In this study, the dependent variable was the biomarkers being tested, the controlled independent variable was the treatment given and the uncontrolled variables were the baseline differences between participants.||-0.015|-0.846|0.042
82607820|NCT03826914|164931534|SUPERIORITY||Mean Difference (Final Values)|-6.772||||0.04|TWO_SIDED|95.0|-11.2|-2.24||The threshold of significance was P=0.05|Anaylsis of Covariance|||The primary analysis was conducted using the post-treatment biomarker value, comparing the two groups, and controlling for their baseline values by using analysis of covariance. In this study, the dependent variable was the biomarkers being tested, the controlled independent variable was the treatment given and the uncontrolled variables were the baseline differences between participants.||-2.24|-11.2|0.04
82607821|NCT03842137|164931535|SUPERIORITY||Slope|-0.53|STANDARD_ERROR_OF_MEAN|0.19||0.008|TWO_SIDED|95.0|-0.91|-0.15|||Regression, Linear|Utilizing a regression model, baseline craving scores, group condition, and their interaction are regressed on 2-week craving scores.||||-.15|-.91|.008
82607822|NCT03842137|164931536|SUPERIORITY|An ancova model was conducted comparing differences between tDCS and sham on post-stimulation theta burst rate, while controlling for pre-stimulation theta burst rate||||||0.005|||||||ANCOVA|||||||.005
82657235|NCT01328093|165030048|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.04|STANDARD_ERROR_OF_MEAN|0.04||0.353||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.353
82657236|NCT01328093|165030049|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.03|STANDARD_ERROR_OF_MEAN|0.09||0.698||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.698
82657237|NCT01328093|165030050|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.01|STANDARD_ERROR_OF_MEAN|0.07||0.924||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.924
82607823|NCT01442181|164931544|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue 3 month vs 6 month in minimally invasive group||||0.03
82607824|NCT01442181|164931544|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of the fatigue and energy was done in baseline-3 month, and 6 month in each group. Minimally Invasive: baseline vs 3 month||||0.01
82607825|NCT01442181|164931544|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue in medical therapy group; baseline vs 3 month||||0.49
82607826|NCT01442181|164931544|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Energy and fatigue 3 month vs 6 month||||0.06
82657238|NCT01328093|165030051|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|3.55|STANDARD_ERROR_OF_MEAN|1.77||0.045||95.0||||P-value is for PANSS Total Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.045
82657239|NCT01328093|165030051|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.21|STANDARD_ERROR_OF_MEAN|0.56||0.032||95.0||||P-value is for PANSS Positive Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.032
82607827|NCT00613626|164931566|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|3.0|STANDARD_ERROR_OF_MEAN|22.718||0.1|ONE_SIDED|90.0|||||Log Rank|||A one-sided log rank test with an overall sample size of 68 subjects (of which 34 are in arm A and 34 are in arm B) achieves 80% power at a 0.10 significance level to detect a difference of 3 months in PFS between 4 month median PFS and 7 month median PFS.||||0.10
82657240|NCT01328093|165030051|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.36|STANDARD_ERROR_OF_MEAN|0.54||0.509||95.0||||P-value is for PANSS Negative Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.509
82607828|NCT00613626|164931566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9518|TWO_SIDED|||||P-Value (2-tailed) is calculated based on the unstratified log-rank test.|Log Rank|Degrees of freedom=1||||||0.9518
82607829|NCT00613626|164931568|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2533|TWO_SIDED||||||Difference in Rates|P-value (two-tailed) is calculated based on an unadjusted, normal-distribution approximation for the difference in rates.||||||0.2533
82607830|NCT00613626|164931569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.872|TWO_SIDED||||||Difference in Rates|||||||0.8720
82607831|NCT00613626|164931570|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4577|TWO_SIDED||||||Log Rank|||||||0.4577
82607832|NCT00613626|164931571|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|0.05|||||TWO_SIDED|95.0|||||||Survival analysis of VEGF variants using cox proportional hazard analysis in arm A and arm B.|Data was not collected for safety lead-in participants and these participants were not included in the analysis.||||
82607833|NCT00613626|164931571|SUPERIORITY_OR_OTHER_LEGACY||Logistic Regression Analysis|0.05|||||TWO_SIDED|95.0|||||||Objective Response Analysis of VEGF variants using Logistic Regression Analysis in arm A and arm B|||||
82607834|NCT00397150|164931572|SUPERIORITY_OR_OTHER||Prevalence ratio|2.29|||||TWO_SIDED|95.0|1.33|3.92||||||||3.92|1.33|
82607835|NCT00397150|164931577|SUPERIORITY_OR_OTHER||Prevalence ratio|1.89|||||TWO_SIDED|95.0|1.7|2.11||||||||2.11|1.70|
82607836|NCT00397150|164931578|SUPERIORITY_OR_OTHER||Prevalence ratio|1.72|||||TWO_SIDED|95.0|1.12|2.63||||||||2.63|1.12|
82657241|NCT01328093|165030051|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|2.05|STANDARD_ERROR_OF_MEAN|1.0||0.04||95.0||||P-value is for PANSS General Psychopathology Score. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.040
82657242|NCT01328093|165030052|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|1.1|STANDARD_ERROR_OF_MEAN|2.1||0.601||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.601
82607837|NCT01299025|164931586|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82607838|NCT00004980|164931590|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.76|STANDARD_ERROR_OF_MEAN|0.514||0.005||95.0|-4.65|-0.86||a priori threshold for statistical significance was .05|t-test, 2 sided|degree of freedom = 48||||-.86|-4.65|.005
82607839|NCT00004980|164931591|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|STANDARD_ERROR_OF_MEAN|0.327||0.002||95.0|0.507|2.03||a priori threshold for statistical significance was .05|t-test, 2 sided|degrees of freedom = 48||null hypothesis is that the groups are the same||2.03|.507|.002
82607840|NCT00004980|164931592|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.949|STANDARD_ERROR_OF_MEAN|0.524||0.001||95.0|-1.45|-0.44||A priori threshold for statistical significance was .05|t-test, 2 sided|degrees of freedom = 46||||-.44|-1.45|.001
82607841|NCT00004980|164931593|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||a priori threshold for statistical significance = .05|Chi-squared|||||||.01
82607842|NCT01624194|164931594|OTHER|||||||0.0275|||||||General Linear Model (GLM)|||||||0.0275
82607843|NCT01624194|164931595|OTHER||||||>|0.05||||||Fisher's Exact Test was used to test for differences in adverse events between oxytocin-treated and placebo-treated individuals. A p-value of ≤0.05 would have been statistically significant.|Fisher Exact|||||||>0.05
82657243|NCT01328093|165030053|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.02|STANDARD_ERROR_OF_MEAN|0.02||0.322||95.0||||P-value is for ER/Facility (Psych) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.322
82607844|NCT01624194|164931596|OTHER||||||>|0.05|||||||Mixed Models Analysis|A mixed-models analysis was used to compare between groups, and between baseline and Week 4.||||||>0.05
82607845|NCT01624194|164931599|OTHER|||||||0.3395|||||||General Linear Model (GLM)|||||||0.3395
82607846|NCT01624194|164931607|OTHER|||||||0.9757|||||||General Linear Model (GLM)|||||||0.9757
82607847|NCT01624194|164931608|OTHER||||||>|0.05|||||||Mixed Models Analysis|A mixed-models analysis was used to compare between groups, and between baseline and Week 4.||||||>0.05
82607848|NCT01624194|164931609|OTHER||||||>|0.05|||||||Mixed Models Analysis|||||||>0.05
82607849|NCT01624194|164931610|OTHER||||||>|0.05||||||For all blood pressure analyses.|Mixed Models Analysis|||||||>0.05
82607850|NCT05480514|164931614|SUPERIORITY|A superiority margin of 0.90 was used. Superiority was concluded if the lower bound of the 95% central posterior credible interval was above 0.90.|Mean Posterior Proportion|0.9741|STANDARD_DEVIATION|0.01244|||TWO_SIDED|95.0|0.9445|0.9926|||Bayesian beta-binomial model|||||0.9926|0.9445|
82607851|NCT00002850|164931665|SUPERIORITY_OR_OTHER|||||||0.218|||||||Fisher Exact|Target accrual=70 patients per arm to provide 92% power to detect a difference of 0.31 vs. 0.08 in the proportion of patients with serious infection.||"H0: There is no significant difference in the incidence of severe bacterial infections among all three arms during the first 2 months of treatment at the two-sided 0.05 significance level.~Ha: There is a significant difference in the incidence of severe bacterial infections among all three arms during the first 2 months of treatment at the two-sided 0.05 significance level."||||0.218
82607852|NCT01167712|164931689|SUPERIORITY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.74|1.06||||||Estimated hazard of first progression or death for weekly paclitaxel treatment relative to standard 3 week paclitaxel.||1.06|.74|
82607853|NCT01167712|164931690|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.72|1.23||||||||1.23|.72|
82607854|NCT00914628|164931757|SUPERIORITY|||||||0.8974|||||||Log Rank|||||||0.8974
82607855|NCT00914628|164931757|SUPERIORITY|||||||0.7612|||||||Wilcoxon (Mann-Whitney)|||DFS- Intention-To-Treat population- from baseline to day 21||||0.7612
82492380|NCT02527161|164677921|SUPERIORITY|||||||0.0266|||||||ANOVA|||Change from 3 months to 6 months KSS Function||||0.0266
82492381|NCT02527161|164677921|SUPERIORITY|||||||0.988|||||||ANOVA|||Change from 6 months to 1 year KSS Function||||0.9880
82607856|NCT00914628|164931757|SUPERIORITY|||||||0.5995|||||||Log Rank|||||||0.5995
82607857|NCT00914628|164931757|SUPERIORITY|||||||0.4078|||||||Wilcoxon (Mann-Whitney)|||DFS- Intention-To-Treat population - day 21 after transplant||||0.4078
82607858|NCT00914628|164931757|SUPERIORITY|||||||0.3351|||||||Log Rank|||DFS- Per-Protocol Set||||0.3351
82607859|NCT00914628|164931757|SUPERIORITY|||||||0.1233|||||||Wilcoxon (Mann-Whitney)|||DFS- Per-Protocol Set||||0.1233
82607860|NCT00914628|164931757|EQUIVALENCE|||||||0.5995|||||||Log Rank|||DFS- Per-Protocol Set DFS-day 21 after transplant||||0.5995
82607861|NCT00914628|164931757|SUPERIORITY|||||||0.4078|||||||Wilcoxon (Mann-Whitney)|||DFS- Per-Protocol Set DFS-day 21 after transplant||||0.4078
82607862|NCT00914628|164931758|SUPERIORITY|||||||0.766|||||||Log Rank|Statistical analysis was performed on Intention-To-Treat population.||||||0.7660
82607863|NCT00914628|164931758|SUPERIORITY|||||||0.6706|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis has been performed for Intention-To-Treat population.||||0.6706
82607864|NCT00914628|164931758|SUPERIORITY|||||||0.7332|||||||Log Rank|||Statistical analysis has been performed for Per-Protocol Set)||||0.7332
82607865|NCT00914628|164931758|SUPERIORITY|||||||0.6439|||||||Wilcoxon (Mann-Whitney)|||Statistical analysis has been performed for Per-Protocol Set)||||0.6439
82607866|NCT00914628|164931759|SUPERIORITY|||||||0.1735|||||||Chi-squared|||This Statistical analysis refers to Immune reconstitution and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.1735
82607867|NCT00914628|164931759|SUPERIORITY|||||||0.5958|||||||Chi-squared|||This Statistical analysis refers to deaths without previous immune reconstitution, relapse or progression and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.5958
82607868|NCT00914628|164931759|SUPERIORITY|||||||0.2889|||||||Chi-squared|||This Statistical Analysis refers to patients with relapse or progression without previous immune reconstitution and was performed Gray's Test for Equality of Cumulative Incidence Functions||||0.2889
82607869|NCT00914628|164931759|SUPERIORITY|||||||0.1642|||||||Chi-squared|||This Statistical analysis refers to Immune reconstitution and was performed by Gray's Test for Equality of Cumulative Incidence Functions for Per-Protocol Set.||||0.1642
82607870|NCT00914628|164931759|SUPERIORITY|||||||0.8739|||||||Log Rank|||This Statistical analysis refers to deaths without previous immune reconstitution, relapse or progression and was performed by Gray's Test for Equality of Cumulative Incidence Functions for intention-To-Treat population||||0.8739
82607871|NCT00914628|164931759|SUPERIORITY|||||||0.2304|||||||Chi-squared|||This Statistical Analysis refers to patients with relapse or progression without previous immune reconstitution and was performed Gray's Test for Equality of Cumulative Incidence Functions||||0.2304
82657244|NCT01328093|165030053|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.04|STANDARD_ERROR_OF_MEAN|0.02||0.099||95.0||||P-value is for ER/Facility (Non-Psych) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.099
82607872|NCT00914628|164931764|SUPERIORITY|||||||0.3526|||||||Chi-squared|||This Statistical Analysis refers to ITT Patients with relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.3526
82607873|NCT00914628|164931764|SUPERIORITY|||||||0.4035|||||||Chi-squared|||this Gray's Statistical Analysis refers to ITT Deaths patients without previous relapse or progression and was performed with Test for Equality of Cumulative Incidence Functions||||0.4035
82607874|NCT00914628|164931764|SUPERIORITY|||||||0.2607|||||||Chi-squared|||this Gray's Statistical Analysis refers to PPS patients with relapse or progression and was performed with Test for Equality of Cumulative Incidence Functions||||0.2607
82607875|NCT00914628|164931764|SUPERIORITY|||||||0.5929|||||||Chi-squared|||this Gray's Statistical Analysis refers to PPS Deaths patients without previous relapse or progression and was performed with Test for Equality of Cumulative Incidence Function||||0.5929
82607876|NCT00914628|164931768|SUPERIORITY|||||||0.4035|||||||Chi-squared|||This Statistical Analysis refers to ITT Deaths without previous relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.4035
82607877|NCT00914628|164931768|SUPERIORITY|||||||0.3526|||||||Chi-squared|||This statistical test refers to Patients with relapse or progression and was performed to Gray's Test for Equality of Cumulative Incidence Functions.||||0.3526
82607878|NCT00914628|164931768|SUPERIORITY|||||||0.5929|||||||Chi-squared|||This Statistical Analysis refers to PPS Deaths without previous relapse or progression and was performed with Gray's Test for Equality of Cumulative Incidence Functions||||0.5929
82607879|NCT00914628|164931768|SUPERIORITY|||||||0.2607|||||||Chi-squared|||This statistical test refers to Patients with relapse or progression and was performed to Gray's Test for Equality of Cumulative Incidence Functions.||||0.2607
82607880|NCT00469079|164931781|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.002
82607881|NCT00469079|164931782|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|||||||Mixed Models Analysis|||Product use is by self-report and daily diaries.||||0.05
82607882|NCT00469079|164931783|SUPERIORITY_OR_OTHER_LEGACY||Other|0.0|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|A generalized linear mixed model was used for outcomes that had been repeatedly measured from baseline through the end of the treatment period.||This study was not powered to detect differences in smoking cessation rates between groups; however, smoking status was collected to obtain preliminary data. Point prevalence (no smoking during the previous 7 days) cigarette abstinence rates were calculated at the week-4 visit and at each of the 2 follow-up visits. Continuous abstinence rates were calculated for the 4 week period between the week 1 and week 4 visits. Abstinence at all visits was assessed by self-report and confirmed by CO.||||<0.05
82607883|NCT00469079|164931784|SUPERIORITY_OR_OTHER_LEGACY||Mean difference between 3 groups|0.0|||>|0.1|TWO_SIDED|95.0|||||Mixed Models Analysis|||A generalized linear mixed model was used for outcomes that had been repeatedly measured from baseline through the end of the treatment period. Each repeated-measures model included the treatment effect, a visit effect, the interaction between treatment and visit, the interaction between subject error and within-subject error terms.||||> 0.10
82607884|NCT01756157|164931801|SUPERIORITY_OR_OTHER_LEGACY||Mean difference|-0.61||||0.0523|TWO_SIDED|95.0|-1.23|0.01|||Paired t-test, 2 sided|||||0.01|-1.23|0.0523
82607885|NCT02799381|164931811|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-15.05|||<|0.0001|TWO_SIDED|95.0|-21.47|-8.63||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|||-8.63|-21.47|<0.0001
82657245|NCT01328093|165030053|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.07||0.787||95.0||||P-value is for Outpatient (Non-Psych or Dentist) visits. No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.787
82607886|NCT02799381|164931812|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|3.27|||<|0.0001|TWO_SIDED|95.0|1.71|4.83||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||4.83|1.71|<0.0001
82607887|NCT02799381|164931813|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-16.66|||<|0.0001|TWO_SIDED|95.0|-24.48|-8.85||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-8.85|-24.48|<0.0001
82607888|NCT02799381|164931814|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-2.11|||<|0.0001|TWO_SIDED|95.0|-2.78|-1.44||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-1.44|-2.78|<0.0001
82607889|NCT02799381|164931815|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-5.54|||=|0.0006|TWO_SIDED|95.0|-8.59|-2.49||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-2.49|-8.59|=0.0006
82607890|NCT02799381|164931816|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-2.35|||=|0.0002|TWO_SIDED|95.0|-3.51|-1.19||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||-1.19|-3.51|=0.0002
82607891|NCT02799381|164931817|SUPERIORITY|The likelihood-based mixed-effects model repeated measures (MMRM) analysis of the change from baseline to Week 12 used all observed data. The model included fixed, categorical effects for treatment, country, visit, and treatment-by-visit interaction, with continuous fixed covariates for baseline score and the baseline score-by-visit interaction.|LS Mean Difference|-4.05|||=|0.0762|TWO_SIDED|95.0|-8.55|0.44||Two-sided p-value|Mixed-effects model repeated measures||Levodopa-Carbidopa Intestinal Gel (LCIG) - Optimized Medical Treatment (OMT) at Week 12|If the primary efficacy variable was statistically significant, each of the secondary variables were to be tested using a fixed sequence as a gatekeeping procedure and at α level of 0.050. Testing was to cease at the point that a secondary variable failed to demonstrate statistical significance.||0.44|-8.55|=0.0762
82607892|NCT02698410|164931818|OTHER|||||||0.2968||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Comparison of DCR to 30% clinically relevant threshold.||||0.2968
82607893|NCT02698410|164931818|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
82607894|NCT02698410|164931818|OTHER|||||||0.0534||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Sensitivity Analyisis-1: Comparison of DCR to 30% clinically relevant threshold.||||0.0534
82657246|NCT01328093|165030054|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.02|STANDARD_ERROR_OF_MEAN|0.12||0.892||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.892
82657247|NCT01328093|165030055|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.8|STANDARD_ERROR_OF_MEAN|1.6||0.63||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.630
82657248|NCT01328093|165030056|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|-0.5|STANDARD_ERROR_OF_MEAN|1.2||0.679||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.679
82492382|NCT02527161|164677921|SUPERIORITY|||||||0.9699|||||||ANOVA|||Change from 1 year to 2 years KSS Function||||0.9699
82492383|NCT02527161|164677921|SUPERIORITY|||||||0.8575|||||||ANOVA|||Change from 2 year to 5 years KSS Function||||0.8575
82607895|NCT02698410|164931818|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Sensitivity Analyisis-1: Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
82607896|NCT02698410|164931818|OTHER|||||||0.032||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 30%.|Binomial proportion test|||Sensitivity Analyisis-2: Comparison of DCR to 30% clinically relevant threshold.||||0.032
82607897|NCT02698410|164931818|OTHER||||||<|0.0001||||||One-sided p-value estimated using an exact binomial proportion test for one-way tables comparing DCR to 10%.|Binomial proportion test|||Sensitivity Analyisis-2: Comparison of DCR to 10% clinically relevant threshold.||||<0.0001
82607898|NCT03952130|164931837|NON_INFERIORITY|Noninferiority margin = 0.4% for HbA1c|LS Mean Difference|0.07|||||TWO_SIDED|95.0|-0.11|0.24||||||||0.24|-0.11|
82607899|NCT03952130|164931838|SUPERIORITY||LS Mean Difference|-17.8||||0.003|TWO_SIDED|95.0|-29.4|-6.1|||ANCOVA|||||-6.1|-29.4|0.003
82607900|NCT03952130|164931839|SUPERIORITY||LS Mean Difference|-25.5||||0.001|TWO_SIDED|95.0|-41.1|-10.0|||ANCOVA|||||-10.0|-41.1|0.001
82607901|NCT03952130|164931840|OTHER||Relative rate|0.85||||0.834|TWO_SIDED|95.0|0.19|3.77|||Empirical method|||||3.77|0.19|0.834
82607902|NCT03952130|164931841|OTHER||Relative rate|1.0||||0.983|TWO_SIDED|95.0|0.72|1.38|||Negative binomial regression|||\<=30 minutes post meal||1.38|0.72|0.983
82607903|NCT03952130|164931841|OTHER||Relative rate|1.61||||0.076|TWO_SIDED|95.0|0.95|2.74|||Negative binomial regression|||\<=1 hour post meal||2.74|0.95|0.076
82657249|NCT01328093|165030057|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.17|STANDARD_ERROR_OF_MEAN|0.09||0.055||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.055
82657250|NCT01328093|165030058|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Differences|0.15|STANDARD_ERROR_OF_MEAN|1.11||0.891||95.0||||No adjustments for multiple comparisons were made. The treatment comparison was evaluated at a 2-sided significance level of 0.05.|Type III Tests|||||||0.891
82657251|NCT01328093|165030060|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064||95.0||||P-value is for Treatment-Emergent Suicidal Ideation.|Fisher Exact|||||||0.064
82657252|NCT01328093|165030060|SUPERIORITY_OR_OTHER_LEGACY|||||||0.205||95.0||||P-value is for Treatment-Emergent Suicidal Behavior.|Fisher Exact|||||||0.205
82607904|NCT03952130|164931841|OTHER||Relative rate|1.19||||0.409|TWO_SIDED|95.0|0.79|1.79|||Negative binomial regression|||\<=2 hours post meal||1.79|0.79|0.409
82607905|NCT03952130|164931841|OTHER||Relative rate|1.22||||0.217|TWO_SIDED|95.0|0.89|1.68|||Negative binomial regression|||\<=4 hours post meal||1.68|0.89|0.217
82607906|NCT03952130|164931841|OTHER||Relative rate|1.09||||0.703|TWO_SIDED|95.0|0.71|1.65|||Negative binomial regression|||\>1 to \<=2 hours post meal||1.65|0.71|0.703
82607907|NCT03952130|164931841|OTHER||Relative rate|1.24||||0.206|TWO_SIDED|95.0|0.89|1.73|||Negative binomial regression|||\>2 to \<=4 hours post meal||1.73|0.89|0.206
82607908|NCT03952130|164931841|OTHER||Relative rate|0.75||||0.082|TWO_SIDED|95.0|0.55|1.04|||Negative binomial regression|||\>4 hours post meal||1.04|0.55|0.082
82607909|NCT03952130|164931842|OTHER||LS Mean Difference|-0.29||||0.309|TWO_SIDED|95.0|-0.86|0.27|||Mixed Models Analysis|||||0.27|-0.86|0.309
82607910|NCT03952130|164931843|OTHER||LS Mean Difference|-15.7|||<|0.001|TWO_SIDED|95.0|-23.8|-7.7|||Mixed Models Analysis|||Morning premeal-fasting||-7.7|-23.8|<.001
82607911|NCT03952130|164931843|OTHER||LS Mean Difference|-14.0||||0.005|TWO_SIDED|95.0|-23.8|-4.2|||Mixed Models Analysis|||Morning 1-hour post meal||-4.2|-23.8|0.005
82607912|NCT03952130|164931843|OTHER||LS Mean Difference|-14.9||||0.004|TWO_SIDED|95.0|-25.0|-4.8|||Mixed Models Analysis|||Morning 2-hour post meal||-4.8|-25.0|0.004
82607913|NCT03952130|164931843|OTHER||LS Mean Difference|-2.3||||0.616|TWO_SIDED|95.0|-11.4|6.8|||Mixed Models Analysis|||Midday premeal||6.8|-11.4|0.616
82607914|NCT03952130|164931843|OTHER||LS Mean Difference|-9.1||||0.054|TWO_SIDED|95.0|-18.4|0.1|||Mixed Models Analysis|||Midday 1-hour post meal||0.1|-18.4|0.054
82607915|NCT03952130|164931843|OTHER||LS Mean Difference|-3.3||||0.483|TWO_SIDED|95.0|-12.6|6.0|||Mixed Models Analysis|||Midday 2-hour post meal||6.0|-12.6|0.483
82607916|NCT03952130|164931843|OTHER||LS Mean Difference|10.5||||0.064|TWO_SIDED|95.0|-0.6|21.7|||Mixed Models Analysis|||Evening premeal||21.7|-0.6|0.064
82607917|NCT03952130|164931843|OTHER||LS Mean Difference|-5.6||||0.262|TWO_SIDED|95.0|-15.5|4.2|||Mixed Models Analysis|||Evening 1-hour post meal||4.2|-15.5|0.262
82607918|NCT03952130|164931843|OTHER||LS Mean Difference|-7.8||||0.117|TWO_SIDED|95.0|-17.5|2.0|||Mixed Models Analysis|||Evening 2-hour post meal||2.0|-17.5|0.117
82607919|NCT03952130|164931843|OTHER||LS Mean Difference|-4.4||||0.414|TWO_SIDED|95.0|-15.1|6.2|||Mixed Models Analysis|||Bedtime||6.2|-15.1|0.414
82607920|NCT03952130|164931844|OTHER||LS Mean Difference|0.0||||0.947|TWO_SIDED|95.0|-0.7|0.6|||Mixed Models Analysis|||Basal insulin dose||0.6|-0.7|0.947
82607921|NCT03952130|164931844|OTHER||LS Mean Difference|0.7||||0.5|TWO_SIDED|95.0|-1.3|2.6|||Mixed Models Analysis|||Bolus insulin dose||2.6|-1.3|0.500
82607922|NCT03952130|164931844|OTHER||LS Mean Difference|0.6||||0.543|TWO_SIDED|95.0|-1.4|2.7|||Mixed Models Analysis|||Total insulin dose||2.7|-1.4|0.543
82607923|NCT03952130|164931845|OTHER||Odds Ratio (OR)|0.81||||0.462|TWO_SIDED|95.0|0.47|1.42|||Regression, Logistic|||For HbA1c \< 7%||1.42|0.47|0.462
82607924|NCT03952130|164931845|OTHER||Odds Ratio (OR)|0.54||||0.089|TWO_SIDED|95.0|0.26|1.1|||Regression, Logistic|||For HbA1c ≤6.5%||1.10|0.26|0.089
82607925|NCT04425850|164931859|OTHER||||||<|0.0001|||||||Chi-squared|||Chi-squared test on the percentage of subjects who contracted COVID-19 in each arm||||< 0.0001
82607926|NCT02907944|164931861|SUPERIORITY||Odds Ratio (OR)|1.09||||0.55|TWO_SIDED|95.0|0.82|1.45|||Generalized Estimating Equation|||||1.45|0.82|0.55
82607927|NCT02907944|164931861|SUPERIORITY||Odds Ratio (OR)|1.76||||0.09|TWO_SIDED|95.0|0.92|3.37|||Generalized Estimating Equation|||||3.37|0.92|0.09
82607928|NCT02907944|164931861|SUPERIORITY||Odds Ratio (OR)|1.4||||0.001|TWO_SIDED|95.0|1.14|1.71|||Generalized Estimating Equation|||||1.71|1.14|0.001
82657253|NCT04421508|165030062|SUPERIORITY||Odds Ratio (OR)|0.36||||0.6316|TWO_SIDED|95.0|||||Regression, Logistic|||||||0.6316
82657254|NCT04421508|165030062|SUPERIORITY||Odds Ratio (OR)|1.502||||0.4127|TWO_SIDED|95.0|0.567|3.977||Odds ratio, 95% CI and p-value are from a logistic regression model modelling the response using the covariates treatment, age, number of co-morbidities and baseline oxygem level|Regression, Logistic|||||3.977|0.567|0.4127
82607929|NCT02907944|164931862|SUPERIORITY||Odds Ratio (OR)|1.08||||0.59|TWO_SIDED|95.0|0.81|1.45|||Generalized Estimating Equation|||||1.45|0.81|0.59
82607930|NCT02907944|164931862|SUPERIORITY||Odds Ratio (OR)|1.77||||0.11|TWO_SIDED|95.0|0.88|3.55|||Generalized Estimating Equation|||||3.55|0.88|0.11
82607931|NCT02907944|164931862|SUPERIORITY||Odds Ratio (OR)|1.35||||0.005|TWO_SIDED|95.0|1.09|1.66|||Generalized Estimating Equation|||||1.66|1.09|0.005
82607932|NCT02559505|164931875|OTHER|||||||0.005||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.005
82607933|NCT02559505|164931875|OTHER|||||||0.024||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.024
82607934|NCT02559505|164931876|OTHER|||||||0.408||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.408
82607935|NCT02559505|164931876|OTHER|||||||0.004||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.004
82607936|NCT02559505|164931877|OTHER|||||||0.991||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.991
82607937|NCT02559505|164931877|OTHER|||||||0.334||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.334
82657255|NCT04421508|165030070|SUPERIORITY|||||||0.6635|||||||Chi-squared|||||||0.6635
82657256|NCT03980483|165030072|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0023|TWO_SIDED|0.95|1.19|2.21|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||2.21|1.19|0.0023
82657257|NCT03980483|165030072|SUPERIORITY||Odds Ratio (OR)|1.39||||0.0362|TWO_SIDED|0.95|1.02|1.89|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||1.89|1.02|0.0362
82607938|NCT02559505|164931878|OTHER|||||||0.226||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.226
82607939|NCT02559505|164931878|OTHER|||||||0.036||||||p-value for NP reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.036
82607940|NCT02559505|164931879|OTHER|||||||0.68||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.680
82607941|NCT02559505|164931879|OTHER|||||||0.002||||||p-value for H3 reactivity, difference of Acute Infected vs. Vaccinated.|ANCOVA|||||||0.002
82607942|NCT01584024|164931894|SUPERIORITY||||||=|0.003|||||||McNemar|||||||=0.003
82607943|NCT01584024|164931895|SUPERIORITY||||||=|0.17|||||||McNemar|||||||=0.17
82607944|NCT04331899|164931902|OTHER||Cox Proportional Hazard|0.81||||0.29|TWO_SIDED|95.0|0.56|1.19||Tests were conducted at the 0.05 level of significance.|Regression, Cox||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.19|0.56|0.29
82607945|NCT04331899|164931903|OTHER||Cox Proportional Hazard|-0.06||||0.91|TWO_SIDED|95.0|-1.23|1.11||Tests were conducted at the 0.05 level of significance.|Regression, Linear||Log change at Day 14. Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.11|-1.23|0.91
82607946|NCT04331899|164931904|OTHER||Cox Proportional Hazard|1.01||||0.95|TWO_SIDED|95.0|0.85|1.16||Tests were conducted at the 0.05 level of significance.|Regression, Linear||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.16|0.85|0.95
82607947|NCT04331899|164931905|OTHER||Cox Proportional Hazard|0.94||||0.76|TWO_SIDED|95.0|0.6|1.41||Tests were conducted at the 0.05 level of significance.|Regression, Cox||Cox proportional hazards model covariate-adjusted for age 50+ and sex.|||1.41|0.60|0.76
82607948|NCT00101361|164931907|NON_INFERIORITY_OR_EQUIVALENCE|the required sample size of 400 participants provided 85% power to detect an increase in healing from 25% in the placebo group to 40% in the oxandrolone group, as assuming a 0.05 (2-sided) type I error, 13% rate of loss to follow up, and a test of proportions by using an arcsine transformation.|Mean Difference (Final Values)|-5.7|||<|0.05|TWO_SIDED|95.0|-17.5|6.8|||Cochran-Mantel-Haenszel|||For spinal cord injury patients with a Stage III or IV pressure ulcer of the pelvic region who receive 24 weeks or less of optimized clinical care (i.e., guideline-driven care with nutritional support) compared with optimized clinical care and an oral anabolic steroid agent (oxandrolone) there will be no difference in the percent of healed pressure ulcers.||6.8|-17.5|<0.05
82607949|NCT02424539|164931908|OTHER||Mean Difference (Final Values)|-1.23|||<|0.001|TWO_SIDED|95.0|-1.68|-0.78|||ANCOVA||Least square (LS) mean difference between placebo and FF 55 µg QD has been presented using analysis of co-variance (ANCOVA) model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.78|-1.68|<0.001
82607950|NCT02424539|164931908|OTHER||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-1.77|-0.87|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.87|-1.77|<0.001
82607951|NCT02424539|164931909|OTHER||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.14|0.39|||Regression, Logistic||Odds ratio for FF 55 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.39|0.14|<0.001
82607952|NCT02424539|164931909|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.33|||Regression, Logistic||Odds ratio for FF 110 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.33|0.12|<0.001
82607953|NCT02424539|164931910|OTHER||Mean Difference (Final Values)|-2.15|||<|0.001|TWO_SIDED|95.0|-2.84|-1.46|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.46|-2.84|<0.001
82607954|NCT02424539|164931910|OTHER||Mean Difference (Final Values)|-1.98|||<|0.001|TWO_SIDED|95.0|-2.66|-1.29|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.29|-2.66|<0.001
82607955|NCT02424539|164931911|OTHER||Mean Difference (Final Values)|-0.1||||0.503|TWO_SIDED|95.0|-0.38|0.18|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.18|-0.38|0.503
82607956|NCT02424539|164931911|OTHER||Mean Difference (Final Values)|-0.25||||0.078|TWO_SIDED|95.0|-0.53|0.03|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.03|-0.53|0.078
82607957|NCT02424539|164931912|OTHER||Mean Difference (Final Values)|0.51||||0.048|TWO_SIDED|95.0|0.01|1.02|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||1.02|0.01|0.048
82607958|NCT02424539|164931912|OTHER||Mean Difference (Final Values)|0.66||||0.011|TWO_SIDED|95.0|0.16|1.17|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||1.17|0.16|0.011
82607959|NCT02424539|164931913|OTHER||Mean Difference (Final Values)|-1.36|||<|0.001|TWO_SIDED|95.0|-1.83|-0.9|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.90|-1.83|<0.001
82607960|NCT02424539|164931913|OTHER||Mean Difference (Final Values)|-1.46|||<|0.001|TWO_SIDED|95.0|-1.92|-0.99|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.99|-1.92|<0.001
82607961|NCT02424539|164931914|OTHER||Odds Ratio (OR)|0.2|||<|0.001|TWO_SIDED|95.0|0.12|0.34|||Regression, Logistic||Odds ratio for FF 55 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.34|0.12|<0.001
82607962|NCT02424539|164931914|OTHER||Odds Ratio (OR)|0.17|||<|0.001|TWO_SIDED|95.0|0.1|0.29|||Regression, Logistic||Odds ratio for FF 110 µg QD versus placebo has been presented using a logistic regression model with Wald's test with treatment, gender, age and type of Allergic Rhinitis as factors.|||0.29|0.10|<0.001
82657258|NCT03980483|165030072|SUPERIORITY||Odds Ratio (OR)|2.34|||<|0.0001|TWO_SIDED|0.95|1.62|3.37|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 05mg dose of Tofacitinib and placebo in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 05mg dose of Tofacitinib differs from placebo in the proportion of participants achieving ACR20 response at Week 12.||3.37|1.62|<0.0001
82657259|NCT03980483|165030072|SUPERIORITY||Odds Ratio (OR)|0.69||||0.023|TWO_SIDED|0.95|0.5|0.95|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 90mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 90mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.95|0.50|0.0230
82657260|NCT03980483|165030072|SUPERIORITY||Odds Ratio (OR)|0.59||||0.0013|TWO_SIDED|0.95|0.43|0.82|||Regression, Logistic|OR and corresponding 95% CI for OR are generated from the logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||The null hypothesis is defined as there is no difference between the 150mg dose of GSK3196165 and 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12, versus the alternative hypothesis that the 150mg dose of GSK3196165 differs from 05mg dose of Tofacitinib in the proportion of participants achieving ACR20 response at Week 12.||0.82|0.43|0.0013
82657261|NCT03980483|165030075|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 97.5 % Confidence Interval (CI) in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Mean Difference (Final Values)|-10.4|||||TWO_SIDED|0.975|-18.6|-2.3|||Regression, Logistic|Difference in proportion and 97.5% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-2.3|-18.6|
82607963|NCT02424539|164931915|OTHER||Mean Difference (Final Values)|-2.48|||<|0.001|TWO_SIDED|95.0|-3.23|-1.73|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.73|-3.23|<0.001
82607964|NCT02424539|164931915|OTHER||Mean Difference (Final Values)|-2.27|||<|0.001|TWO_SIDED|95.0|-3.03|-1.52|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-1.52|-3.03|<0.001
82607965|NCT02424539|164931916|OTHER||Mean Difference (Final Values)|-0.11||||0.442|TWO_SIDED|95.0|-0.38|0.17|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||0.17|-0.38|0.442
82607966|NCT02424539|164931916|OTHER||Mean Difference (Final Values)|-0.3||||0.035|TWO_SIDED|95.0|-0.57|-0.02|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||-0.02|-0.57|0.035
82492384|NCT02527161|164677922|SUPERIORITY|||||||0.8581|||||||ANOVA|||Change from preoperative to 3 months KSS Range of Motion||||0.8581
82607967|NCT02424539|164931917|OTHER||Mean Difference (Final Values)|1.88||||0.004|TWO_SIDED|95.0|0.6|3.16|||ANCOVA||LS mean difference between placebo and FF 55 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||3.16|0.60|0.004
82607968|NCT02424539|164931917|OTHER||Mean Difference (Final Values)|2.67|||<|0.001|TWO_SIDED|95.0|1.38|3.95|||ANCOVA||LS mean difference between placebo and FF 110 µg QD has been presented using ANCOVA model adjusted for treatment, Baseline value, gender, age and type of Allergic Rhinitis.|||3.95|1.38|<0.001
82607969|NCT04893265|164931929|SUPERIORITY||Mean Difference (Net)|0.0854|STANDARD_ERROR_OF_MEAN|0.1122||0.4471|TWO_SIDED|95.0|-0.1352|0.306|||Mixed Models Analysis|||||0.3060|-0.1352|0.4471
82607970|NCT04893265|164931930|SUPERIORITY||Odds Ratio (OR)|0.8378|||<|0.05|TWO_SIDED|95.0|0.4284|1.6385|||Mixed Models Analysis|Adjusted for Demographics, COVID-19 Cases Per 100K , Test Access, Social Network, Knowledge, Test Value with random intercepts for participation mode|Adjusted odds ratio|||1.6385|0.4284|<0.05
82607971|NCT04893265|164931931|SUPERIORITY||Odds Ratio (OR)|1.4306|||<|0.05|TWO_SIDED|95.0|0.6166|3.3192|||Mixed Models Analysis|Adjusted for Demographics, COVID-19 Cases Per 100K , Test Access, Social Network, Knowledge, Test Value with random intercepts for participation mode|Adjusted odds ratio|||3.3192|0.6166|<0.05
82607972|NCT04893265|164931932|SUPERIORITY||Mean Difference (Final Values)|0.08661|STANDARD_ERROR_OF_MEAN|0.08125|||TWO_SIDED|95.0|-0.07311|0.2463|||||Adjusted for Demographics, COVID Cases Per 100,000 Population, Test Access, Social Network, Knowledge, and Test Value with random intercepts for Dyad and Individual|||0.2463|-0.07311|
82607973|NCT00893789|164931935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8336||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.8336
82607974|NCT00893789|164931935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0514||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.0514
82607975|NCT00893789|164931935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||The analyses performed were not done in accordance to the study protocol as the study was terminated early and therefore the analyses done were underpowered, no adjustments for multiple comparisons (or step-down analysis rules) were applied.|ANCOVA|||"P-value for Change from Baseline at Endpoint."||||0.0010
82607976|NCT00893789|164931936|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7884||95.0|||||Pearson's chi-squared|||||||0.7884
82607977|NCT00893789|164931936|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2359||95.0|||||Pearson's chi-squared|||||||0.2359
82607978|NCT00893789|164931936|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4401||95.0|||||Pearson's chi-squared|||||||0.4401
82607979|NCT04419506|164931960|OTHER||Posterior difference|88.4|||||TWO_SIDED|95.0|29.5|154.2|||||Difference calculated as BI 1015550 - Placebo|Adjusted means in the placebo group were combined with the meta-analytic predictive priors derived based on the clinical trials in the nintedanib clinical development program in IPF. In order to evaluate the treatment effects, the posterior distribution for the treatment difference of BI 1015550 versus placebo with respect to the primary endpoint was used. The median of the posterior distribution for the treatment difference (and 95% credible intervals) was calculated.||154.2|29.5|
82607980|NCT04419506|164931960|OTHER||Posterior difference|62.4|||||TWO_SIDED|95.0|6.3|125.5|||||Difference calculated as BI 1015550 - Placebo|Adjusted means in the placebo group were combined with the meta-analytic predictive priors derived based on the clinical trials in the nintedanib clinical development program in IPF. In order to evaluate the treatment effects, the posterior distribution for the treatment difference of BI 1015550 versus placebo with respect to the primary endpoint was used. The median of the posterior distribution for the treatment difference (and 95% credible intervals) was calculated.||125.5|6.3|
82607981|NCT02586805|164931993|OTHER||% change in mean rate (vs placebo)|-75.609|||<|0.001|TWO_SIDED|95.0|-84.65|-61.243||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-61.243|-84.650|<0.001
82657262|NCT03980483|165030075|NON_INFERIORITY|Non-inferiority over tofacitinib on ACR20 was concluded if the lower limit of the multiplicity corrected 97.5% CI in the difference in proportions (GSK3196165 minus tofacitinib) was greater than -12%|Mean Difference (Final Values)|-13.0|||||TWO_SIDED|0.975|-21.2|-4.8|||Regression, Logistic|Difference in proportion and 97.5% CI are generated from logistic regression model adjusted for Baseline TJC68, Baseline SJC66 and Treatment Group.||||-4.8|-21.2|
82657263|NCT01239121|165030392|SUPERIORITY_OR_OTHER||Slope|0.6||||0.175|TWO_SIDED|95.0|-0.27|1.5|||Regression, Linear|||||1.5|-0.27|0.175
82657264|NCT01239121|165030393|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.964|TWO_SIDED|95.0|0.49|2.1|||Regression, Logistic|||||2.1|.49|0.964
82657265|NCT03657160|165030395|SUPERIORITY||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.27|0.73|||Log Rank|||||0.73|0.27|<0.001
82607982|NCT02586805|164931993|OTHER||% change in mean rate (vs placebo)|-73.271|||<|0.001|TWO_SIDED|95.0|-82.379|-59.456||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-59.456|-82.379|<0.001
82607983|NCT02586805|164931993|OTHER||% change in mean rate (vs placebo)|-86.921|||<|0.001|TWO_SIDED|95.0|-92.828|-76.15||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-76.150|-92.828|<0.001
82657266|NCT03657160|165030396|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0043|TWO_SIDED|95.0|0.37|0.86|||Log Rank|||||0.86|0.37|0.0043
82657267|NCT03657160|165030397|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.0204|TWO_SIDED|95.0|0.39|0.91|||Log Rank|||||0.91|0.39|0.0204
82607984|NCT02586805|164931994|OTHER||% change in mean rate (vs placebo)|-80.842|||<|0.001|TWO_SIDED|95.0|-89.169|-66.114||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-66.114|-89.169|<0.001
82607985|NCT02586805|164931994|OTHER||% change in mean rate (vs placebo)|-74.169|||<|0.001|TWO_SIDED|95.0|-83.733|-58.983||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-58.983|-83.733|<0.001
82607986|NCT02586805|164931994|OTHER||% change in mean rate (vs placebo)|-87.299|||<|0.001|TWO_SIDED|95.0|-93.494|-75.204||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-75.204|-93.494|<0.001
82607987|NCT02586805|164931995|OTHER||% change in mean rate (vs placebo)|-70.497|||<|0.001|TWO_SIDED|95.0|-82.696|-49.699||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-49.699|-82.696|<0.001
82607988|NCT02586805|164931995|OTHER||% change in mean rate (vs placebo)|-73.285|||<|0.001|TWO_SIDED|95.0|-84.316|-54.496||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-54.496|-84.316|<0.001
82607989|NCT02586805|164931995|OTHER||% change in mean rate (vs placebo)|-83.394|||<|0.001|TWO_SIDED|95.0|-91.618|-67.099||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1)||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-67.099|-91.618|<0.001
82607990|NCT02586805|164931996|OTHER||% change in mean rate (vs placebo)|-77.622|||<|0.001|TWO_SIDED|95.0|-86.253|-63.572||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-63.572|-86.253|<0.001
82607991|NCT02586805|164931996|OTHER||% change in mean rate (vs placebo)|-75.377|||<|0.001|TWO_SIDED|95.0|-84.115|-61.833||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-61.833|-84.115|<0.001
82607992|NCT02586805|164931996|OTHER||% change in mean rate (vs placebo)|-89.008|||<|0.001|TWO_SIDED|95.0|-94.325|-78.707||p-values are adjusted for multiple testing.|Chi-squared||% change in mean rate corresponds to 100% \* (estimated mean rate ratio - 1).||Results from Poisson regression model with fixed effects for treatment group (categorical) and normalized baseline attack rate (continuous), and logarithm of time in days each participant was observed during treatment period as offset variable in model. Pearson chi-square scaling of standards errors was employed to account for potential overdispersion. Mean estimates are Least Squares (LS) means.|-78.707|-94.325|<0.001
82657268|NCT03657160|165030398|SUPERIORITY||Hazard Ratio (HR)|0.48||||0.0668|TWO_SIDED|95.0|0.22|1.04|||Log Rank|||||1.04|0.22|0.0668
82657269|NCT03657160|165030399|SUPERIORITY||Hazard Ratio (HR)|0.63||||0.1458|TWO_SIDED|95.0|0.34|1.17|||Log Rank|||||1.17|0.34|0.1458
82657270|NCT03657160|165030400|SUPERIORITY||Hazard Ratio (HR)|0.64||||0.0105|TWO_SIDED|95.0|0.46|0.91|||Log Rank|||||0.91|0.46|0.0105
82657271|NCT00686959|165030404|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.831|TWO_SIDED|95.0|0.79|1.2|||Log Rank|||||1.20|0.79|0.831
82657272|NCT00686959|165030405|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.13|TWO_SIDED|95.0|0.71|1.04|||Log Rank|||||1.04|0.71|0.130
82657273|NCT00686959|165030406|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED||||||Log Rank|||||||0.458
82657274|NCT00686959|165030409|SUPERIORITY_OR_OTHER|||||||0.132|TWO_SIDED||||||Fisher Exact|||Relapsed within the radiation treatment field||||0.132
82657275|NCT00686959|165030409|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED||||||Fisher Exact|||Relapsed inside thorax, outside of radiation field||||0.337
82657276|NCT00686959|165030409|SUPERIORITY_OR_OTHER|||||||0.457|TWO_SIDED||||||Fisher Exact|||Relapsed distant disease||||0.457
82657277|NCT00686959|165030410|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Fisher Exact|||||||0.150
82607993|NCT00749606|164931999|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||Mixed Models Analysis|Mixed linear models analyzed within-subject variation in repeated measures over time. Intention to treat analysis used 5 imputations for missing data.||||||<0.01
82607994|NCT05139030|164932121|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL admix and bupivacaine HCI|Mean Difference (Final Values)|-65.8|STANDARD_ERROR_OF_MEAN|26.97||0.0074|TWO_SIDED|95.0|-118.7|-12.9|||ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||The superiority of EXPAREL admixed to bupivacaine HCI was evaluated using the Efficacy Analysis Set.||-12.9|-118.7|0.0074
82607995|NCT05139030|164932122|SUPERIORITY|A one-sided hypothesis test was performed at alpha=0.025 level of significance comparing EXPAREL admix and bupivacaine HCI|Mean Ratio|0.77||||0.0018|TWO_SIDED|95.0|0.64|0.92|||ANCOVA|Total opioid consumption was transformed to log scale. Main effect of treatment, covariates: pooled Investigator site (categorical); age (continuous)||The superiority of EXPAREL admixed to bupivacaine HCI was evaluated using the Efficacy Analysis Set.||0.92|0.64|0.0018
82607996|NCT05139030|164932123|SUPERIORITY||Hazard Ratio (HR)|0.7||||0.0127|TWO_SIDED|95.0|0.51|0.96|||Cox proportional hazards model|Cox proportional hazard model: treatment as main effect, pooled Investigator site as categorical, and age and height as continuous covariates||||0.96|0.51|0.0127
82607997|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.26||0.3674|TWO_SIDED|95.0|-0.6|0.4||Worst pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.4|-0.6|0.3674
82607998|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.1016|TWO_SIDED|95.0|-0.9|0.2||Worst pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.2|-0.9|0.1016
82607999|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.7|STANDARD_ERROR_OF_MEAN|0.34||0.0215|TWO_SIDED|95.0|-1.4|0.0||Worst pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.0|-1.4|0.0215
82608000|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.34||0.0794|TWO_SIDED|95.0|-1.2|0.2||Worst pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.2|-1.2|0.0794
82608001|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.29||0.3606|TWO_SIDED|95.0|-0.7|0.5||Average pain 0-24 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.5|-0.7|0.3606
82608002|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.28||0.0184|TWO_SIDED|95.0|-1.1|0.0||Average pain 24-48 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||-0.0|-1.1|0.0184
82657278|NCT01973348|165030431|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 12 subjects per group has been shown to be effective for estimating within-group means and variances when little prior data is available.(Julius, 2005) Based on collected data from 34 subjects and effective size difference of 0.1, we reestimate this study as a noninferiority trial with continuous outcome and power calculated as approximately 80%.||||||0.88|||||||t-test, 1 sided|||||||0.88
82657279|NCT02870920|165030445|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.07|TWO_SIDED|90.0|0.54|0.97|||Log Rank|||||0.97|0.54|0.07
82608003|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0476|TWO_SIDED|95.0|-1.1|0.1||Average pain 48-72 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.1|-1.1|0.0476
82608004|NCT05139030|164932124|SUPERIORITY||Least square mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.31||0.0529|TWO_SIDED|95.0|-1.1|0.1||Average pain 72-96 hours|ANCOVA|Main effect of treatment, categorical covariate of pooled Investigator site, and continuous covariates of age||||0.1|-1.1|0.0529
82608005|NCT03133767|164932131|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||||||0.608
82608006|NCT03133767|164932132|SUPERIORITY|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
82608007|NCT03133767|164932133|SUPERIORITY|||||||0.202|||||||Chi-squared|||||||0.202
82608008|NCT03133767|164932134|SUPERIORITY|||||||0.361|||||||Chi-squared|||||||0.361
82608009|NCT03133767|164932135|SUPERIORITY|||||||0.509|||||||Chi-squared|||||||0.509
82608010|NCT03429075|164932181|EQUIVALENCE|ANCOVA||||||0.17|||||||ANCOVA|||||||0.17
82608011|NCT05405166|164932226|NON_INFERIORITY|Non-inferiority was concluded if lower limit of relative risk 95% confidence interval (CI) was greater or equal to 0.839.|Relative risk|1.008||||0.0006|TWO_SIDED|95.0|0.903|1.126|||Farrington-Manning||Two-sided 95% CI estimated using Farrington-Manning method.|||1.126|0.903|0.0006
82608012|NCT05405166|164932227|NON_INFERIORITY|Applied anti-log procedure to convert original scale. Non-inferiority was concluded if lower limit of ratio of geometric mean 90% CI was greater or equal to 0.80.|Ratio of geometric mean|1.532|||||TWO_SIDED|90.0|1.316|1.784||||||||1.784|1.316|
82608013|NCT05405166|164932228|NON_INFERIORITY|Non-inferiority was concluded if lower limit of relative risk 95% CI was greater or equal to 0.6312.|Relative risk|1.011|||<|0.0001|TWO_SIDED|95.0|0.841|1.215|||Farrington-Manning||Two-sided 95% CI estimated using Farrington-Manning method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||1.215|0.841|<0.0001
82608014|NCT05405166|164932229|NON_INFERIORITY|Applied anti-log procedure to convert original scale. Non-inferiority was concluded if lower limit of ratio of geometric mean 90% CI was greater or equal to 0.80.|Ratio of geometric mean|1.302|||||TWO_SIDED|90.0|1.158|1.465||||||A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.05.||1.465|1.158|
82608015|NCT05405166|164932230|SUPERIORITY||Relative risk|0.061|||<|0.0001|TWO_SIDED|95.0|0.022|0.164|||Fisher Exact||Two-sided 95% CI estimated using Wald method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||0.164|0.022|<0.0001
82608016|NCT05405166|164932231|SUPERIORITY||Odds Ratio (OR)|2.036||||0.0001|TWO_SIDED|95.0|1.425|2.908||Stratified on multiple myeloma (MM) isotype (immunoglobulin G \[IgG\] versus non-IgG), body weight (\<=65 kg, \>65 to \<=85 kg, and \>85 kg), and number of prior lines (1 to 2 versus \>=3) according to IRT.|Cochran-Mantel-Haenszel||Two-sided 95% CI estimated using the Wald method.|A hierarchical test procedure was used to control the Type I error. Testing was performed sequentially for first 4 secondary endpoints in the order they are presented only if both co-primary endpoints achieved non-inferiority and continued when the previous endpoint was statistically significant at 1-sided significance level of 0.025.||2.908|1.425|0.0001
82608017|NCT04364854|164932350|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-2.31|1.87|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||1.87|-2.31|
82608018|NCT04364854|164932350|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-2.94|3.15|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||3.15|-2.94|
82492385|NCT02527161|164677922|SUPERIORITY|||||||0.7664|||||||ANOVA|||Change from 3 months to 6 months KSS Range of Motion||||0.7664
82608019|NCT04364854|164932350|OTHER|This study was not designed to perform a hypothesis test. No p-values will be reported.|Mean Difference (Net)|-0.78|||||TWO_SIDED|95.0|-2.9|1.33|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM, and age.|||1.33|-2.9|
82608020|NCT04364854|164932351|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.26|0.13|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||0.13|-0.26|
82608021|NCT04364854|164932351|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.21|0.28|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||0.28|-0.21|
82608022|NCT04364854|164932351|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.23|||||TWO_SIDED|95.0|-0.42|-0.04|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline SAQOL-39, and age.|||-0.04|-0.42|
82608023|NCT04364854|164932352|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.16|||||TWO_SIDED|95.0|-2.59|2.9|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Narrative, and age.|||2.9|-2.59|
82608024|NCT04364854|164932352|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.79|||||TWO_SIDED|95.0|-2.23|3.8|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM-Narrative, and age.|||3.8|-2.23|
82608025|NCT04364854|164932352|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-2.32|2.82|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Narrative, and age.|||2.82|-2.32|
82608026|NCT04364854|164932353|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-3.59|3.45|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||3.45|-3.59|
82608027|NCT04364854|164932353|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|0.27|||||TWO_SIDED|95.0|-4.27|4.8|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||4.8|-4.27|
82608028|NCT04364854|164932353|OTHER|This trial was not designed for hypothesis testing. No p-values will be reported.|Mean Difference (Net)|-2.11|||||TWO_SIDED|95.0|-5.77|1.56|||||Analyzed using a repeated measures model that included the following fixed affects: categorical visit by treatment group interaction, site, baseline aphasia severity score, baseline VPM - Procedural, and age.|||1.56|-5.77|
82608029|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Means Difference|-28.8|||<|0.001|TWO_SIDED|95.0|-41.6|-16.0||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||-16.0|-41.6|<0.001
82608030|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-50.5|||<|0.001|TWO_SIDED|95.0|-63.4|-37.5||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||-37.5|-63.4|<0.001
82608031|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Mean Difference|5.5||||0.395|TWO_SIDED|95.0|-7.3|18.3||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||18.3|-7.3|0.395
82492386|NCT02527161|164677922|SUPERIORITY|||||||0.7022|||||||ANOVA|||Change from 6 months to 1 year KSS Range of Motion||||0.7022
82492387|NCT02527161|164677922|SUPERIORITY||||||>|0.9999|||||||ANOVA|||Change from 1 year to 2 year KSS Range of Motion||||>0.9999
82492388|NCT02527161|164677922|SUPERIORITY|||||||0.2943|||||||ANOVA|||Change from 2 year to 5 year KSS Range of Motion||||0.2943
82492389|NCT02527161|164677923|SUPERIORITY|||||||0.0161|||||||ANOVA|||Change from 1 year to 2 year Forgotten Joint Score||||0.0161
82492390|NCT02527161|164677923|SUPERIORITY||||||<|0.0001|||||||ANOVA|||Change from 2 year to 5 year Forgotten Joint Score||||<0.0001
82608032|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Mean Difference|38.0|||<|0.001|TWO_SIDED|95.0|25.2|50.8||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||50.8|25.2|<0.001
82608033|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Mean Difference|56.0|||<|0.001|TWO_SIDED|95.0|43.1|68.9||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||68.9|43.1|<0.001
82608034|NCT00955110|164932362|SUPERIORITY_OR_OTHER||Least Square Mean Difference|66.8|||<|0.001|TWO_SIDED|95.0|53.9|79.7||A mixed-effect model for a crossover study was used, including treatment, period, treatment sequence and first-order carryover effect as fixed effects, pre-dose measurement as covariate, and subjects nested within treatment sequence as random effect.|ANCOVA|||||79.7|53.9|<0.001
82608035|NCT02128490|164932363|SUPERIORITY_OR_OTHER||Difference in Proportions|35.9|||<|0.001|TWO_SIDED|95.0|20.8|51.0|||Fisher Exact|||||51.0|20.8|<0.001
82608036|NCT02128490|164932363|SUPERIORITY_OR_OTHER||Difference in Proportions|44.7|||<|0.001|TWO_SIDED|95.0|28.9|60.5|||Fisher Exact|||||60.5|28.9|<0.001
82608037|NCT02128490|164932363|SUPERIORITY_OR_OTHER||Difference in Proportions|22.4||||0.034|TWO_SIDED|95.0|3.7|41.0|||Fisher Exact|||||41.0|3.7|0.034
82608038|NCT02128490|164932363|SUPERIORITY_OR_OTHER||Difference in Proportions|4.2||||0.817|TWO_SIDED|95.0|-18.2|26.6|||Fisher Exact|||||26.6|-18.2|0.817
82608039|NCT02128490|164932364|SUPERIORITY_OR_OTHER||Difference in Proportions|12.6||||0.224|TWO_SIDED|95.0|-3.9|29.0|||Fisher Exact|||||29.0|-3.9|0.224
82608040|NCT02128490|164932364|SUPERIORITY_OR_OTHER||Difference in Proportions|31.6||||0.004|TWO_SIDED|95.0|13.1|50.1|||Fisher Exact|||||50.1|13.1|0.004
82657280|NCT02870920|165030446|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.97|TWO_SIDED|90.0|0.76|1.34|||Log Rank|||||1.34|0.76|0.97
82657281|NCT04448678|165030451|OTHER|||||||0.0401|||||||t-test, 2 sided|||||||0.0401
82608041|NCT02128490|164932364|SUPERIORITY_OR_OTHER||Difference in Proportions|-17.5||||0.139|TWO_SIDED|95.0|-38.1|3.2|||Fisher Exact|||||3.2|-38.1|0.139
82608042|NCT02128490|164932364|SUPERIORITY_OR_OTHER||Difference in Proportions|4.3||||0.815|TWO_SIDED|95.0|-17.9|26.4|||Fisher Exact|||||26.4|-17.9|0.815
82608043|NCT02128490|164932365|SUPERIORITY_OR_OTHER||Difference in Proportions|53.8|||<|0.001|TWO_SIDED|95.0|38.2|69.5|||Fisher Exact|||||69.5|38.2|<0.001
82608044|NCT02128490|164932365|SUPERIORITY_OR_OTHER||Difference in Proportions|55.3|||<|0.001|TWO_SIDED|95.0|39.5|71.1|||Fisher Exact|||||71.1|39.5|<0.001
82608045|NCT02128490|164932365|SUPERIORITY_OR_OTHER||Difference in Proportions|21.4||||0.069|TWO_SIDED|95.0|-0.3|43.1|||Fisher Exact|||||43.1|-0.3|0.069
82608046|NCT02128490|164932365|SUPERIORITY_OR_OTHER||Difference in Proportions|-4.2||||0.817|TWO_SIDED|95.0|-26.6|18.2|||Fisher Exact|||||18.2|-26.6|0.817
82608047|NCT02243176|164932366|NON_INFERIORITY_OR_EQUIVALENCE|With a total sample size of 480 patients randomized and an expected drop-out rate of 20%, the trial will be powered at 90% to establish non-inferiority for the primary endpoint, at a one-sided alpha level of 0.025, with the non-inferiority margin of 0.4%, assuming the true effects are the same between treatments. The calculation is also based on the assumption that the standard deviation for the change in HbA1c is 1.2%.|Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.09||0.6236|TWO_SIDED|95.0|-0.22|0.13||This p value is for the hypothesis of superiority|Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|"H01: μS-μA≥ 0.4% vs Ha1: μS-μA\< 0.4%. Null hypothesis will be rejected if the upper limit of 2-sided 95% CI is below 0.4%.If the null hypothesis above (H01) is rejected, the following hypothesis will be tested to further establish superiority:~H02: μS-μA≥ 0 vs Ha2: μS-μA\< 0. This null hypothesis (H02) will be rejected if the upper limit of 2-sided 95% CI is below 0."||0.13|-0.22|0.6236
82608048|NCT02243176|164932367|NON_INFERIORITY_OR_EQUIVALENCE|With a total sample size of 480 patients randomized and an expected drop-out rate of 20%, the trial will be powered at 90% to establish non-inferiority for the primary endpoint, at a one-sided alpha level of 0.025, with the non-inferiority margin of 0.4%, assuming the true effects are the same between treatments. The calculation is also based on the assumption that the standard deviation for the change in HbA1c is 1.2%.|Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.09||0.7809|TWO_SIDED|95.0|-0.21|0.15||This p value is for the hypothesis of superiority|Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|"H01: μS-μA≥ 0.4% vs Ha1: μS-μA\< 0.4%. Null hypothesis will be rejected if the upper limit of 2-sided 95% CI is below 0.4%.If the null hypothesis above (H01) is rejected, the following hypothesis will be tested to further establish superiority:~H02: μS-μA≥ 0 vs Ha2: μS-μA\< 0. This null hypothesis (H02) will be rejected if the upper limit of 2-sided 95% CI is below 0."||0.15|-0.21|0.7809
82608049|NCT02243176|164932368|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.22|||<|0.0001|TWO_SIDED|95.0|0.12|0.39|||Cochran-Mantel-Haenszel|Stratefied by the baseline disease severity (HbA1c \< 8.0% and ≥ 8.0%)|RR = Saxagliptin/Acarbose|||0.39|0.12|<0.0001
82608050|NCT02243176|164932369|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.92||||0.5044|TWO_SIDED|95.0|0.74|1.15|||Cochran-Mantel-Haenszel|stratefied by baseline disease severity (HbA1c\<8%, \>=8%)||||1.15|0.74|0.5044
82608051|NCT02243176|164932370|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.28||||0.0518|TWO_SIDED|95.0|0.98|1.67|||Cochran-Mantel-Haenszel|Stratefied by the baseline disease severity (HbA1c \< 8.0% and ≥ 8.0%)|RR = Saxagliptin/Acarbose|||1.67|0.98|0.0518
82608052|NCT02243176|164932371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.18||0.8915|TWO_SIDED|95.0|-0.33|0.38|||Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|||0.38|-0.33|0.8915
82608053|NCT02243176|164932372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.249||0.2248|TWO_SIDED|95.0|-0.186|0.791|||ANCOVA||Mean difference=Saxagliptin - Acarbose|||0.791|-0.186|0.2248
82657282|NCT04448678|165030452|OTHER|||||||0.0049|||||||t-test, 2 sided|||||||0.0049
82657283|NCT04448678|165030453|OTHER|||||||0.297|||||||t-test, 2 sided|||||||0.297
82608054|NCT02243176|164932373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.48|STANDARD_ERROR_OF_MEAN|8.407||0.3739|TWO_SIDED|95.0|-9.039|24.005|||ANCOVA||Mean difference=Saxagliptin - Acarbose|||24.005|-9.039|0.3739
82608055|NCT02243176|164932374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.26||0.0078|TWO_SIDED|95.0|0.18|1.19|||Mixed Model Repeated Measures||Mean difference=Saxagliptin - Acarbose|||1.19|0.18|0.0078
82608056|NCT03063385|164932380|OTHER|\[Not specified\]|Slope|0.0153|STANDARD_ERROR_OF_MEAN|0.0067||0.0229|TWO_SIDED|95.0|0.0022|0.0285||Statistical significance taken at the 0.05 level|GEE modeling|P-value \& estimate rely on group x time interaction effect on primary outcome when controlling for self-efficacy. Used modified Baron \& Kenny method|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for self-efficacy as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0285|0.0022|.0229
82608057|NCT03063385|164932380|OTHER|\[Not specified\]|Slope|0.0151|STANDARD_ERROR_OF_MEAN|0.0067||0.0249|TWO_SIDED|95.0|0.0019|0.0282||Statistical significance taken at the 0.05 level|GEE modeling|P-value and estimate rely on group x time interaction effect on primary outcome when controlling for sexual communication attitudes. Same method B\&K|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for sexual communication attitudes as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0282|0.0019|0.0249
82608058|NCT03063385|164932380|OTHER|\[Not specified\]|Slope|0.0158|STANDARD_ERROR_OF_MEAN|0.0068||0.0204|TWO_SIDED|95.0|0.0025|0.0292||Statistical significance taken at the 0.05 level|GEE modeling|Reported P-value and estimate rely on the group x time interaction effect on primary outcome when controlling for subjective norms. Same method B\&K|\[Not specified\]|The intervention effect of sexual risk communication (primary outcome in parents) controlling for subjective norms as a mediator from baseline through 12 months was examined using longitudinal general estimating equations (GEE) modeling, with the Health promotion control condition as the reference category and adjusting for baseline sexual risk communication and average monthly income.||0.0292|0.0025|0.0204
82608059|NCT03523585|164932399|SUPERIORITY||Hazard Ratio (HR)|0.3589|||<|1e-06|TWO_SIDED|95.0|0.284|0.4535||Stratified Log-rank p-value|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.4535|0.2840|<0.000001
82608060|NCT03523585|164932400|SUPERIORITY||Hazard Ratio (HR)|0.6575||||0.0021|TWO_SIDED|95.0|0.5023|0.8605||Stratified Log-rank p-value|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.8605|0.5023|0.0021
82608061|NCT03523585|164932401|SUPERIORITY||||||<|0.0001||||||Cochran-Mantel-Haenszel test adjusted for stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|Cochran-Mantel-Haenszel|||Statistical Analysis for BICR Assessment||||<0.0001
82608062|NCT03523585|164932401|SUPERIORITY||||||<|0.0001||||||Cochran-Mantel-Haenszel test adjusted for stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|Cochran-Mantel-Haenszel|||Statistical Analysis for Investigator Assessment||||<0.0001
82608063|NCT03523585|164932403|SUPERIORITY||Hazard Ratio (HR)|0.2828|||<|1e-06|TWO_SIDED|95.0|0.227|0.3524||Stratified Log-rank p-value.|Log Rank|p value based on log-rank stratified by hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by IXRS|Hazard Ratio based on stratified Cox proportional hazards model with stratification factors: hormone receptor status, prior treatment with pertuzumab, and history of visceral disease, as defined by the IXRS.|||0.3524|0.2270|<0.000001
82608064|NCT03815292|164932404|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
82608065|NCT03815292|164932405|SUPERIORITY|||||||0.0445|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.0445
82608066|NCT03815292|164932406|SUPERIORITY|||||||0.0345|||||||Fisher Exact|||||||0.0345
82608067|NCT03815292|164932407|SUPERIORITY|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.04
82608068|NCT03815292|164932408|SUPERIORITY|||||||0.0016|||||||t-test, 2 sided|||This analysis applies to ∆ between baseline and after 24 weeks total scores row.||||0.0016
82608069|NCT03815292|164932409|SUPERIORITY|||||||0.0054|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Therapeutic effect row.||||0.0054
82608070|NCT03815292|164932409|SUPERIORITY|||||||0.78|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Side effects row.||||0.78
82608071|NCT03815292|164932409|SUPERIORITY|||||||0.0042|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to Efficiency index row.||||0.0042
82608072|NCT03815292|164932410|SUPERIORITY|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.77
82608073|NCT03815292|164932411|SUPERIORITY|||||||0.0118|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.0118
82608074|NCT03815292|164932412|SUPERIORITY|||||||0.058|||||||Wilcoxon (Mann-Whitney)|||This analysis applies to ∆ between 24 and 28 weeks total scores row.||||0.058
82608075|NCT01062399|164932425|OTHER||||||||||||||||||A dose level for RAD001 will be considered acceptable if no patient of the first 3patients or no more than 2 patients of the first 6 patients experience a DLT. If the current level is considered acceptable, then dose escalation will occur and the protocol will be reopened. Otherwise, the preceding acceptable dose level will be declared the MTD.|||
82608076|NCT01062399|164932426|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.79|TWO_SIDED|95.0|0.82|1.6|||Log Rank||Reference arm = RT + TMZ|Assuming exponential distribution with median PFS (mPFS) time for control of 6.7 mos. for the control arm, tt was hypothesized that there would be a 43% improvement in mPFS time, corresponding to a mPFS time of 9.6. This is equivalent to a hazard ratio of 0.7 for the experimental arm vs. control arm. With a 1-sided significance level = 0.15 and 85% power, a total of 134 PFS events out of 180 eligible patients were required to detect the projected effect size.||1.60|0.82|0.79
82608077|NCT01062399|164932427|SUPERIORITY||Hazard Ratio (HR)|1.67||||0.008|TWO_SIDED|95.0|1.14|2.45|||Log Rank|2-sided significance level = 0.05|Reference level = RT + TMZ|||2.45|1.14|0.008
82608078|NCT01475955|164932476|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Chi-squared|||Pearson chi-square||||0.0041
82608079|NCT01021007|164932565|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.005
82608080|NCT01021007|164932566|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.05
82608081|NCT01021007|164932567|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|ANCOVA method using treatment as the factor and the baseline score as a covariate||The null hypothesis states that there is no difference between groups.||||0.05
82608082|NCT03047005|164932568|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.07|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session. Model adjusted for stage 1 treatment condition.||||||.07
82608083|NCT03047005|164932569|SUPERIORITY|Analyses used all available data. Analyses to compare treatments were all intent-to-treat.||||||0.01|||||||Mixed Models Analysis|Analyses were performed for all randomized patients who attended the first treatment session. Model adjusted for stage 1 treatment condition.||||||.01
82657284|NCT03117569|165030457|NON_INFERIORITY|A total of 375 participants (2:1 randomisation) were planned for enrolment and evaluation as ITT population. Under the assumption that SVR12 rate would be 96% in both arms, the study had 80% power to show non-inferiority of the simplified monitoring strategy with a lower confidence bound for SVR12 in the simplified monitoring arm greater than 90% or with a lower confidence bound for the difference (simplified arm minus standard arm) in SVR12 greater than -6%.|Difference in Percentage of Participants|-3.2|||<|0.05|TWO_SIDED|95.0|-8.2|1.8|||t-test, 2 sided|||||1.8|-8.2|<0.05
82657285|NCT03018249|165030469|SUPERIORITY|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82657286|NCT03018249|165030470|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|-25.0|30.0||||||||30|-25|
82608084|NCT03293030|164932591|SUPERIORITY|Note: Our statistical test was run to identify the number of significant genes. The result is a number and there is no calculation of any comparative statistic such as an odds ratio.|||||<|0.05||||||P-value was adjusted for false discovery rate|Wilcoxon (Mann-Whitney)|||Single cell RNA-sequencing was used to calculate the number of differentially expressed genes in cutaneous CD4+ T cells between week 0 and week 12 in dupilumab-treated subjects. The calculation was performed in the software package Seurat (RRID:SCR\_016341) using the FindMarkers function, which utilizes a non-parametric Wilcoxon rank-sum test. Genes were considered significantly differentially expressed if the adjusted p-value \< 0.05 and the absolute value of log2(Fold Change) \> 1.0.||||<0.05
82608085|NCT04899271|164932592|SUPERIORITY|||||||0.807|||||||Chi-squared|||||||0.807
82608086|NCT04899271|164932593|SUPERIORITY|||||||0.746|||||||Chi-squared|||Comparison at month 6||||0.746
82608087|NCT04899271|164932593|SUPERIORITY|||||||0.201|||||||Chi-squared|||Comparison at month 18||||0.201
82608088|NCT04899271|164932594|SUPERIORITY|||||||0.867|||||||Chi-squared|||Comparison at month 6||||0.867
82608089|NCT04899271|164932594|SUPERIORITY|||||||0.769|||||||Chi-squared|||Comparison at month 12||||0.769
82608090|NCT04899271|164932594|SUPERIORITY|||||||0.776|||||||Chi-squared|||Comparison at month 18||||0.776
82608091|NCT04899271|164932595|SUPERIORITY|||||||0.521||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 6 for change from baseline||||0.521
82608092|NCT04899271|164932595|SUPERIORITY|||||||0.959||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.959
82608093|NCT04899271|164932595|SUPERIORITY|||||||0.773||||||Assumption of normality was confirmed by Kolmogorov-Smirnov test; the comparison between treatment arms was performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 18 for change from baseline||||0.773
82608094|NCT04899271|164932596|SUPERIORITY|||||||0.691|||||||t-test, 2 sided|Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.||Comparison at month 6 for change from baseline||||0.691
82608095|NCT04899271|164932596|SUPERIORITY|||||||0.685||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.685
82608096|NCT04899271|164932596|SUPERIORITY|||||||0.64||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||0.640
82608097|NCT04899271|164932597|SUPERIORITY|||||||0.867||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|||Comparison at month 6||||0.867
82608098|NCT04899271|164932597|SUPERIORITY|||||||0.769||||||Comparison between treatment arms is performed by means of a Chi-squared test|Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared and Fisher's Exact test separated with a /.||Comparison at month 12||||0.769
82657287|NCT03018249|165030471|SUPERIORITY||Mean Difference (Final Values)|21.8|||||TWO_SIDED|95.0|-16.7|45.3||||||||45.3|-16.7|
82657288|NCT01030965|165030477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|||<|0.001|TWO_SIDED|95.0|0.088|0.229|||Repeated Measures Analysis of Covariance|||||0.229|0.088|<0.001
82657289|NCT01030965|165030477|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.168|||<|0.001|TWO_SIDED|95.0|0.099|0.238|||Repeated Measures Analysis of Covariance|||||0.238|0.099|<0.001
82608099|NCT04899271|164932597|SUPERIORITY|||||||0.577|||||||Chi-squared|Comparison between treatment arms is performed by means of a Chi-squared test.||Comparison at month 18||||0.577
82608100|NCT04899271|164932598|SUPERIORITY|The effect of treatment on the cumulative number of severe hypoglycemic events was evaluated by means of a Cox proportional hazards model. The Andersen-Gill intensity model with model-based variance was utilized.|Hazard Ratio (HR)|1.271||||0.554|TWO_SIDED|95.0|0.573|2.819|||Cox proportional hazards model|Analysis is based on Cox proportional hazards model.||||2.819|0.573|0.554
82608101|NCT04899271|164932600|SUPERIORITY|||||||0.32||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 6 for change from baseline||||0.320
82608102|NCT04899271|164932600|SUPERIORITY|||||||0.398||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 12 for change from baseline||||0.398
82608103|NCT04899271|164932600|SUPERIORITY|||||||1||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||1.000
82608104|NCT04899271|164932601|SUPERIORITY|||||||0.892||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 6 for change from baseline||||0.892
82608105|NCT04899271|164932601|SUPERIORITY|||||||0.412||||||Assumption of normality is confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample t-test.|t-test, 2 sided|||Comparison at month 12 for change from baseline||||0.412
82608106|NCT04899271|164932601|SUPERIORITY|||||||0.371||||||Assumption of normality is not confirmed by Kolmogorov-Smirnov test; comparison between treatment arms is performed by means of two-sample Mann-Whitney U test.|Wilcoxon (Mann-Whitney)|||Comparison at month 18 for change from baseline||||0.371
82608107|NCT01121406|164932643|SUPERIORITY_OR_OTHER||Difference in Kaplan-Meier DC rates|-12.5|||||TWO_SIDED|95.0|-31.1|6.0|||||"95% CI using Greenwood´s variance estimate.~Volasertib (BI 6727) minus Cytotoxic."|Kaplan Meier estimates and confidence intervals (CI) were calculated using Greenwood's variance estimate within each treatment arm and the asymptotic CI for the difference in the rates found. The time was censored in those cases where there was no death or progression until the last trial visit||6.0|-31.1|
82608108|NCT01121406|164932644|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.66|1.53|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727) /Cytotoxic"|||1.53|0.66|
82608109|NCT01121406|164932645|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.63|1.42|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727) /Cytotoxic"|||1.42|0.63|
82608110|NCT01121406|164932648|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.73|1.7|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.70|0.73|
82608111|NCT01121406|164932649|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.4|1.61|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.61|0.40|
82608112|NCT01121406|164932650|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.37|1.65|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.65|0.37|
82608113|NCT01121406|164932651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.39|1.93|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.93|0.39|
82608114|NCT01121406|164932652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.69|||||TWO_SIDED|95.0|0.33|1.47|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||1.47|0.33|
82608115|NCT01121406|164932653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27|||||TWO_SIDED|95.0|0.09|0.77|||||"Cox proportional-hazards regression model, stratified by disease status at baseline (measurable vs. non measurable disease) and platinum resistant vs platinum refractory disease at baseline.~HR calculated as Volasertib (BI 6727)/ Cytotoxic"|||0.77|0.09|
82608116|NCT00892437|164932670|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis: the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than in the ATV+RTV+FTC/TDF group; alternative hypothesis: the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group. ATV+COBI+FTC/TDF was noninferior if the lower bound of the 2-sided 95% confidence interval (CI) of the baseline HIV-1 RNA stratum-weighted difference (COBI group - RTV group) in the response rate at Week 24 was greater than -12%.|Difference in percentages|-7.4|||||TWO_SIDED|95.0|-24.6|9.9|||||Difference in percentages of success and its 95% confidence interval (CI) were calculated based on baseline HIV-1 RNA stratum-adjusted Mantel-Haenszel (MH) proportion.|A total planned sample size of 75 subjects had 26% power to evaluate noninferiority with respect to the response rate of HIV-1 RNA \< 50 copies/mL at Week 24 if a response rate of 84% for both arms and a noninferiority margin of 0.12 were assumed.||9.9|-24.6|
82608117|NCT00892437|164932671|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was at least 12% worse than the response rate in ATV+RTV+FTC/TDF group; the alternative hypothesis was that the response rate in the ATV+COBI+FTC/TDF group was less than 12% worse than that in the ATV+RTV+FTC/TDF group.|Difference in percentages|-8.3|||||TWO_SIDED|95.0|-25.9|9.4|||||Difference in percentages of success and its 95% CI were calculated based on baseline HIV-1 RNA stratum-adjusted MH proportion.|||9.4|-25.9|
82657290|NCT01030965|165030477|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.08|0.22|||Repeated Measures Analysis of Covariance|||||0.220|0.080|<0.001
82608118|NCT00892437|164932672|SUPERIORITY_OR_OTHER||Difference in least squares mean (LSM)|-0.02||||0.87|TWO_SIDED|95.0|-0.25|0.22||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in least squares mean (LSM) and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||0.22|-0.25|0.87
82608119|NCT00892437|164932673|SUPERIORITY_OR_OTHER||Difference in LSM|-0.03||||0.82|TWO_SIDED|95.0|-0.3|0.23||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||0.23|-0.30|0.82
82608120|NCT00892437|164932674|SUPERIORITY_OR_OTHER||Difference in LSM|10.0||||0.78|TWO_SIDED|95.0|-63.0|84.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||84|-63|0.78
82608121|NCT00892437|164932675|SUPERIORITY_OR_OTHER||Difference in LSM|47.0||||0.29|TWO_SIDED|95.0|-41.0|134.0||P-values were obtained from an ANOVA model including baseline HIV-1 RNA category in the model.|ANOVA||The difference in LSM and its 95% CI were computed using ANOVA model, including baseline HIV-1 RNA category in the model.|||134|-41|0.29
82608122|NCT02750410|164932698|SUPERIORITY||LS mean percent difference|-1.5|||<|0.001|TWO_SIDED|95.0|-1.73|-1.28|||Mixed Models Analysis|||||-1.28|-1.73|<0.001
82608123|NCT02750410|164932699|SUPERIORITY||Odds Ratio (OR)|0.117||||0.003|TWO_SIDED|95.0|0.028|0.479|||Regression, Logistic|||analysis was based on repeated measures logistic regression||0.479|0.028|0.003
82608124|NCT02750410|164932700|SUPERIORITY||LS mean difference|-30.14|||<|0.001|TWO_SIDED|95.0|-41.37|-18.91|||Mixed Models Analysis|||||-18.91|-41.37|<0.001
82608125|NCT02750410|164932701|SUPERIORITY||LS mean difference|-26.59|||<|0.001|TWO_SIDED|95.0|-36.39|-16.78|||t-test, 2 sided|||Prebreakfast BG||-16.78|-36.39|<0.001
82608126|NCT02750410|164932701|SUPERIORITY||LS mean difference|-45.38|||<|0.001|TWO_SIDED|95.0|-61.77|-29.0|||t-test, 2 sided|||Breakfast 2-hour PPBG||-29.00|-61.77|<0.001
82608127|NCT02750410|164932701|SUPERIORITY||LS mean difference|-36.82|||<|0.001|TWO_SIDED|95.0|-49.2|-24.45|||t-test, 2 sided|||Prelunch BG||-24.45|-49.20|<0.001
82608128|NCT02750410|164932701|SUPERIORITY||LS mean difference|-50.16|||<|0.001|TWO_SIDED|95.0|-67.85|-32.46|||t-test, 2 sided|||Lunch 2-hour PPBG||-32.46|-67.85|<0.001
82608129|NCT02750410|164932701|SUPERIORITY||LS mean difference|-31.27|||<|0.001|TWO_SIDED|95.0|-44.05|-18.48|||t-test, 2 sided|||Predinner BG||-18.48|-44.05|<0.001
82608130|NCT02750410|164932701|SUPERIORITY||LS mean difference|-34.97|||<|0.001|TWO_SIDED|95.0|-52.55|-17.38|||t-test, 2 sided|||Dinner 2-hour PPBG||-17.38|-52.55|<0.001
82608131|NCT02750410|164932701|SUPERIORITY||LS mean difference|-41.45|||<|0.001|TWO_SIDED|95.0|-58.81|-24.09|||t-test, 2 sided|||Bedtime BG||-24.09|-58.81|<0.001
82608132|NCT02750410|164932702|SUPERIORITY||LS mean difference|0.1||||0.776|TWO_SIDED|95.0|-0.59|0.78|||Mixed Models Analysis|||||0.78|-0.59|0.776
82608133|NCT02580058|164932724|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.8253|TWO_SIDED|95.0|0.867|1.497|||Log Rank|1-sided||||1.497|0.867|0.8253
82608134|NCT02580058|164932724|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.2082|TWO_SIDED|95.0|0.672|1.179|||Log Rank|1-sided||||1.179|0.672|0.2082
82608135|NCT02580058|164932725|SUPERIORITY||Hazard Ratio (HR)|1.68|||>|0.9999|TWO_SIDED|95.0|1.31|2.16|||Log Rank|1-sided||||2.160|1.310|>0.9999
82608136|NCT02580058|164932725|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0301|TWO_SIDED|95.0|0.607|1.011|||Log Rank|1-sided||||1.011|0.607|0.0301
82608137|NCT02580058|164932744|OTHER||Geometric Mean Ratio (Test/Reference, %)|110.0|||||TWO_SIDED|90.0|95.4|126.7||||||Avelumab was the Reference treatment and Avelumab + PLD was the Test treatment||126.7|95.4|
82608138|NCT02580058|164932745|OTHER||Geometric Mean Ratio (Test/Reference, %)|90.0|||||TWO_SIDED|90.0|79.5|101.5||||||Avelumab was the Reference treatment and Avelumab + PLD was the Test treatment||101.5|79.5|
82608139|NCT02580058|164932746|OTHER||Geometric Mean Ratio (Test/Reference, %)|96.0|||||TWO_SIDED|90.0|87.0|106.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||106|87|
82608140|NCT02580058|164932747|OTHER||Geometric Mean Ratio (Test/Reference, %)|95.0|||||TWO_SIDED|90.0|88.0|104.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||104|88|
82608141|NCT02580058|164932748|OTHER||Geometric Mean Ratio (Test/Reference, %)|90.0|||||TWO_SIDED|90.0|76.0|107.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||107|76|
82608142|NCT02580058|164932749|OTHER||Geometric Mean Ratio (Test/Reference, %)|100.0|||||TWO_SIDED|90.0|60.0|168.0||||||PLD was the Reference treatment and Avelumab + PLD was the Test treatment.||168|60|
82608143|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-2.0|||||TWO_SIDED|95.0|-7.65|2.88||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||2.88|-7.65|
82608144|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-14.9|||||TWO_SIDED|95.0|-26.4|-3.21||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-3.21|-26.40|
82608145|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|0.06|||||TWO_SIDED|95.0|-5.84|6.05||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||6.05|-5.84|
82608146|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|2.06|||||TWO_SIDED|95.0|-1.71|7.25||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||7.25|-1.71|
82608147|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|2.12|||||TWO_SIDED|95.0|-4.09|8.89||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||8.89|-4.09|
82608148|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
82608149|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-6.92|||||TWO_SIDED|95.0|-16.19|1.89||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||1.89|-16.19|
82608150|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-1.94|||||TWO_SIDED|95.0|-9.07|4.86||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.86|-9.07|
82608151|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-4.86|||||TWO_SIDED|95.0|-14.4|4.39||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.39|-14.40|
82608152|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-19.0|||||TWO_SIDED|95.0|-30.1|-7.16||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-7.16|-30.10|
82608153|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|-12.19|||||TWO_SIDED|95.0|-21.66|-3.26||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||-3.26|-21.66|
82608154|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
82608155|NCT01193335|164932753|SUPERIORITY_OR_OTHER||Percent difference|0.02|||||TWO_SIDED|95.0|-4.54|4.68||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.68|-4.54|
82608156|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.8|||||TWO_SIDED|95.0|0.62|1.02||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.02|0.62|
82608157|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.56|||||TWO_SIDED|95.0|0.38|0.82||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.38|
82608158|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.74|||||TWO_SIDED|95.0|0.59|0.93||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.93|0.59|
82608159|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|1.23|||||TWO_SIDED|95.0|0.92|1.65||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.65|0.92|
82608160|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|1.0|||||TWO_SIDED|95.0|0.8|1.25||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.25|0.80|
82608161|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.72|||||TWO_SIDED|95.0|0.58|0.9||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.58|
82608162|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.64|||||TWO_SIDED|95.0|0.47|0.86||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.86|0.47|
82608163|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.7|||||TWO_SIDED|95.0|0.55|0.89||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.89|0.55|
82608164|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.96|||||TWO_SIDED|95.0|0.77|1.19||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.19|0.77|
82608165|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.54|||||TWO_SIDED|95.0|0.4|0.72||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.40|
82608166|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.61|||||TWO_SIDED|95.0|0.45|0.82||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.45|
82608167|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.71|||||TWO_SIDED|95.0|0.57|0.88||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.57|
82608168|NCT01193335|164932754|SUPERIORITY_OR_OTHER||GMC ratio|0.85|||||TWO_SIDED|95.0|0.68|1.07||||||Serotype 19: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.68|
82608169|NCT01193335|164932763|SUPERIORITY_OR_OTHER|||||||0.668|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.668
82608170|NCT01193335|164932763|SUPERIORITY_OR_OTHER|||||||0.051|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.051
82608171|NCT01193335|164932764|SUPERIORITY_OR_OTHER|||||||0.704|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.704
82608172|NCT01193335|164932764|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||>0.99
82608173|NCT01193335|164932765|SUPERIORITY_OR_OTHER|||||||0.531|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.531
82608174|NCT01193335|164932765|SUPERIORITY_OR_OTHER||||||>|0.99|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||>0.99
82608175|NCT01193335|164932766|SUPERIORITY_OR_OTHER|||||||0.183|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.183
82608176|NCT01193335|164932766|SUPERIORITY_OR_OTHER|||||||0.357|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.357
82608177|NCT01193335|164932767|SUPERIORITY_OR_OTHER|||||||0.794|TWO_SIDED||||||Fisher Exact|||AEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.794
82608178|NCT01193335|164932767|SUPERIORITY_OR_OTHER|||||||0.782|TWO_SIDED||||||Fisher Exact|||SAEs: Two sided Fisher exact test, was used to calculate difference between vaccine groups.||||0.782
82608179|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR Ratio|0.85|||||TWO_SIDED|95.0|0.63|1.14||||||Serotype 4: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.14|0.63|
82608180|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.24|||||TWO_SIDED|95.0|0.95|1.62||||||Serotype 6B: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.62|0.95|
82608181|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.19|||||TWO_SIDED|95.0|0.96|1.47||||||Serotype 9V: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.47|0.96|
82657291|NCT00824265|165030487|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.67||||0.0032|TWO_SIDED|95.0|0.51|0.88|||Log Rank|||||0.88|0.51|0.0032
82657292|NCT00824265|165030488|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.8||||0.1427|TWO_SIDED|95.0|0.59|1.09|||Log Rank|||||1.09|0.59|0.1427
82657293|NCT00824265|165030489|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.08||||0.449|TWO_SIDED|95.0|0.85|1.37|||Log Rank|||||1.37|0.85|0.4490
82608182|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|0.97|||||TWO_SIDED|95.0|0.74|1.26||||||Serotype 14: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.26|0.74|
82608183|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|0.8|||||TWO_SIDED|95.0|0.63|1.02||||||Serotype 18C: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.02|0.63|
82608184|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|0.88|||||TWO_SIDED|95.0|0.65|1.19||||||Serotype 19F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.19|0.65|
82608185|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.0|||||TWO_SIDED|95.0|0.74|1.33||||||Serotype 23F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale.||1.33|0.74|
82608186|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|0.84|||||TWO_SIDED|95.0|0.64|1.11||||||Serotype 1: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale.||1.11|0.64|
82608187|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.46|||||TWO_SIDED|95.0|1.03|2.05||||||Serotype 3: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||2.05|1.03|
82608188|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.0|||||TWO_SIDED|95.0|0.81|1.24||||||Serotype 5: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.24|0.81|
82608189|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.36|||||TWO_SIDED|95.0|1.02|1.82||||||Serotype 6A: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.82|1.02|
82608190|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|0.96|||||TWO_SIDED|95.0|0.78|1.18||||||Serotype 7F: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.18|0.78|
82608191|NCT01193335|164932768|SUPERIORITY_OR_OTHER||GMFR ratio|1.15|||||TWO_SIDED|95.0|0.88|1.52||||||Serotype 19A: GMFR ratio was calculated by back transforming the GMFR difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on Student t distribution for the ratio difference of logarithms of the measures (Group 1 - Group 2).||1.52|0.88|
82608192|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608193|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|-2.33|||||TWO_SIDED|95.0|-8.15|1.96||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||1.96|-8.15|
82657294|NCT00824265|165030490|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.77||||0.0878|TWO_SIDED|95.0|0.56|1.05|||Log Rank|||||1.05|0.56|0.0878
82657295|NCT00824265|165030491|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0036|TWO_SIDED|95.0|0.45|0.87|||Log Rank|||||0.87|0.45|0.0036
82657296|NCT00824265|165030492|SUPERIORITY_OR_OTHER_LEGACY|Participants in the ITT population|Hazard Ratio (HR)|0.77||||0.1143|TWO_SIDED|95.0|0.55|1.08|||Log Rank|||||1.08|0.55|0.1143
82657297|NCT00824265|165030492|SUPERIORITY_OR_OTHER_LEGACY|Participants who took anti-cancer therapies|Hazard Ratio (HR)|0.67||||0.0109|TWO_SIDED|95.0|0.48|0.94|||Log Rank|||||0.94|0.48|0.0109
82608194|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608195|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608196|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|1.15|||||TWO_SIDED|95.0|-3.13|6.24||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||6.24|-3.13|
82608197|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608198|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|-1.16|||||TWO_SIDED|95.0|-6.32|3.1||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||3.10|-6.32|
82657298|NCT00824265|165030495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Cochran-Mantel-Haenszel|||||||0.0003
82657299|NCT00824265|165030496|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0166|||||||Cochran-Mantel-Haenszel|||||||0.0166
82657300|NCT02158936|165030531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.37||||1|TWO_SIDED|95.0|0.21|0.65||One sided p value|Cochran-Mantel-Haenszel|Stratified by Interactive Voice Response System (IVRS) stratification factors||||0.65|0.21|1.000
82657301|NCT02158936|165030532|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.42||||0.164|TWO_SIDED|95.0|0.97|2.08|||Log Rank|||Confidence Intervals estimated using the Brookmeyer-Crowley method. Hazard ratios are estimated using the Pike estimator. A hazard ratio \<1 indicates a lower risk with eltrombopag compared with Placebo. Log-rank test stratified by IVRS stratification factors||2.08|0.97|0.164
82657302|NCT02158936|165030549|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.31|||||TWO_SIDED|90.0|0.99|1.74|||ANOVA|||||1.74|0.990|
82657303|NCT02158936|165030550|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.39|||||TWO_SIDED|90.0|0.97|1.99|||ANOVA|||||1.99|0.970|
82608199|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82657304|NCT00993187|165030554|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.8|||<|0.001|TWO_SIDED|95.0|-1.0|-0.6|||ANCOVA|||||-0.6|-1.0|<0.001
82657305|NCT00993187|165030557|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-23.5|||<|0.001|TWO_SIDED|95.0|-30.0|-16.9|||ANCOVA|||||-16.9|-30.0|<0.001
82608200|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|-8.72|||||TWO_SIDED|95.0|-21.93|4.42||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.42|-21.93|
82608201|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608202|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608203|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608204|NCT01193335|164932770|SUPERIORITY_OR_OTHER||Percent difference|0.0|||||TWO_SIDED|95.0|-4.25|4.31||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang, using the standardized test statistics and gamma=0.000001.||4.31|-4.25|
82608205|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||0.97|0.60|
82608206|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.51|||||TWO_SIDED|95.0|0.39|0.66||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.66|0.39|
82657306|NCT00993187|165030558|SUPERIORITY_OR_OTHER||Difference in percent|-14.7|||<|0.001|TWO_SIDED|95.0|-23.0|-7.0|||ANCOVA|||||-7.0|-23.0|<0.001
82657307|NCT00993187|165030559|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-1.72|||<|0.001|TWO_SIDED|95.0|-2.2|-1.25|||ANCOVA|||||-1.25|-2.20|<0.001
82657308|NCT00993187|165030560|SUPERIORITY_OR_OTHER||Difference in percent|41.01|||<|0.001|TWO_SIDED|95.0|30.0|51.0|||ANCOVA|||||51.0|30.0|<0.001
82657309|NCT00485472|165030561|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.36||||0.5438||95.0|-5.3|10.02|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||10.02|-5.30|0.5438
82657310|NCT00485472|165030562|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.83||||0.2022||95.0|-2.62|12.28|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||12.28|-2.62|0.2022
82657311|NCT00485472|165030563|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.79||||0.665||95.0|-6.36|9.93|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||9.93|-6.36|0.6650
82657312|NCT00485472|165030564|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.74||||0.3445||95.0|-11.65|33.13|||ANCOVA|||The ANCOVA analysis includes treatment and pooled site as factors and baseline score as covariate.||33.13|-11.65|0.3445
82657313|NCT00485472|165030566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.488||||0.0418||95.0|0.245|0.974|||Likelihood ratio test|||Analysis of 'response' based on a likelihood ratio test with treatment and pooled site as factors.||0.974|0.245|0.0418
82657314|NCT01492361|165030570|SUPERIORITY||Hazard Ratio (HR)|0.75||||1e-08|TWO_SIDED|95.0|0.68|0.83||The 2-sided alpha level for the primary analysis was adjusted to 0.0437 from 0.05 to account for the two interim analyses based on a group sequential design with O'Brien-Fleming boundaries generated using the Lan-DeMets alpha-spending function.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region||||0.83|0.68|0.00000001
82608207|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.64|||||TWO_SIDED|95.0|0.51|0.8||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.80|0.51|
82608208|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.66|1.12||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||1.12|0.66|
82608209|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||1.32|0.85|
82608210|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.73|||||TWO_SIDED|95.0|0.58|0.92||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the ratio difference of the logarithms of the measures.||0.92|0.58|
82608211|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.43|0.83||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.43|
82608212|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.96|||||TWO_SIDED|95.0|0.77|1.2||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.20|0.77|
82608213|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.6|||||TWO_SIDED|95.0|0.41|0.87||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.41|
82608214|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.7|||||TWO_SIDED|95.0|0.56|0.88||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.56|
82657315|NCT01492361|165030571|SUPERIORITY||Hazard Ratio (HR)|0.74||||6e-07|TWO_SIDED|95.0|0.65|0.83||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.83|0.65|0.0000006
82657316|NCT01492361|165030572|SUPERIORITY||Hazard Ratio (HR)|0.75|||<|0.0001|TWO_SIDED|95.0|0.66|0.86||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.86|0.66|<0.0001
82492391|NCT02100514|164677924|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-49.9|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|-54.0|-45.8|||MMRM|||Least square (LS) mean difference and associated 95% confidence interval (CI), and p-value were derived from an mixed effect model repeat measurement (MMRM) model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-45.8|-54.0|<0.001
82608215|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.41|0.7||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.70|0.41|
82608216|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.86|||||TWO_SIDED|95.0|0.71|1.03||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.71|
82608217|NCT01193335|164932772|SUPERIORITY_OR_OTHER||GMC Ratio|0.55|||||TWO_SIDED|95.0|0.42|0.72||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.42|
82608218|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.65|||||TWO_SIDED|95.0|0.51|0.82||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.82|0.51|
82608219|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.47|0.79||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.79|0.47|
82608220|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.75|||||TWO_SIDED|95.0|0.61|0.93||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.93|0.61|
82657317|NCT01492361|165030573|SUPERIORITY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.58|0.81||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.81|0.58|<0.0001
82499414|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.225|STANDARD_ERROR_OF_MEAN|0.089||||90.0|0.079|0.372|||ANCOVA|||Extension Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.372|0.079|
82608221|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.07||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.66|
82608222|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.08||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.08|0.66|
82608223|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.48|0.83||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.48|
82608224|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.61|||||TWO_SIDED|95.0|0.46|0.79||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.79|0.46|
82608225|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.64|1.03||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.64|
82608226|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.92|||||TWO_SIDED|95.0|0.73|1.15||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.73|
82608227|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.58|
82608228|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.9||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.57|
82657318|NCT01492361|165030574|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.55|0.78||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.78|0.55|<0.0001
82657319|NCT01492361|165030575|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0315|TWO_SIDED|95.0|0.66|0.98||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.98|0.66|0.0315
82657320|NCT01492361|165030576|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0018|TWO_SIDED|95.0|0.53|0.87||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.87|0.53|0.0018
82608229|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.0||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.00|0.69|
82608230|NCT01193335|164932773|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.49|0.81||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.81|0.49|
82608231|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.81|||||TWO_SIDED|95.0|0.63|1.04||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.04|0.63|
82608232|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.63|||||TWO_SIDED|95.0|0.48|0.83||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.48|
82608233|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.62|||||TWO_SIDED|95.0|0.46|0.84||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.84|0.46|
82608234|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.83|||||TWO_SIDED|95.0|0.61|1.12||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.12|0.61|
82608235|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.5|||||TWO_SIDED|95.0|0.37|0.67||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.67|0.37|
82657321|NCT01492361|165030577|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.0129|TWO_SIDED|95.0|0.55|0.93||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.93|0.55|0.0129
82608236|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.54|||||TWO_SIDED|95.0|0.4|0.72||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.40|
82608237|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.47|||||TWO_SIDED|95.0|0.35|0.64||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.64|0.35|
82608238|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.76|||||TWO_SIDED|95.0|0.61|0.94||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.94|0.61|
82608239|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.59|||||TWO_SIDED|95.0|0.39|0.9||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.90|0.39|
82608240|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.52|0.87||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.52|
82608241|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.52|0.88||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.52|
82608242|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.67|1.02||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.02|0.67|
82608243|NCT01193335|164932774|SUPERIORITY_OR_OTHER||GMC Ratio|0.51|||||TWO_SIDED|95.0|0.36|0.72||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.72|0.36|
82608244|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.8|||||TWO_SIDED|95.0|0.61|1.03||||||Serotype 4: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.61|
82657322|NCT01492361|165030578|SUPERIORITY||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||0.86|0.69|<0.0001
82608245|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.38|0.76||||||Serotype 6B: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.76|0.38|
82608246|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.74|||||TWO_SIDED|95.0|0.54|1.03||||||Serotype 9V: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.54|
82608247|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.77|||||TWO_SIDED|95.0|0.51|1.17||||||Serotype 14: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.51|
82608248|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.56|||||TWO_SIDED|95.0|0.4|0.78||||||Serotype 18C: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.78|0.40|
82608249|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.45|||||TWO_SIDED|95.0|0.29|0.71||||||Serotype 19F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.71|0.29|
82608250|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.56|||||TWO_SIDED|95.0|0.38|0.83||||||Serotype 23F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.83|0.38|
82608251|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.82|||||TWO_SIDED|95.0|0.63|1.07||||||Serotype 1: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.07|0.63|
82608252|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.66|||||TWO_SIDED|95.0|0.39|1.11||||||Serotype 3: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.11|0.39|
82608253|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.68|||||TWO_SIDED|95.0|0.5|0.92||||||Serotype 5: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.92|0.50|
82608254|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.67|||||TWO_SIDED|95.0|0.47|0.95||||||Serotype 6A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.95|0.47|
82608255|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.89|||||TWO_SIDED|95.0|0.7|1.13||||||Serotype 7F: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||1.13|0.70|
82608256|NCT01193335|164932775|SUPERIORITY_OR_OTHER||GMC Ratio|0.53|||||TWO_SIDED|95.0|0.37|0.78||||||Serotype 19A: Ratios of GMCs were calculated by back transforming the mean difference between vaccine groups on the logarithmic scale. CIs for the ratio were back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures.||0.78|0.37|
82608257|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.81||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.81|0.99|
82608258|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.59|2.2||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.20|0.59|
82608259|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.26|1.93||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.93|0.26|
82608260|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.8|1.98||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.98|0.80|
82608261|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.01|2.0||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.00|1.01|
82608262|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.82|1.89||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.89|0.82|
82657323|NCT01492361|165030579|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.0915|TWO_SIDED|95.0|0.74|1.02||Prespecified secondary end points were tested in a hierarchical fashion, in the order listed here, at the final alpha level of 0.0437.|Log Rank|Stratified by CV risk category, use of ezetimibe, and geographical region.||||1.02|0.74|0.0915
82608263|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.8|1.99||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.99|0.80|
82608264|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.56|1.15||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.56|
82608265|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.83|1.41||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.41|0.83|
82608266|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.36|0.94||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.94|0.36|
82608267|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.88|1.68||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.68|0.88|
82608268|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.78|1.39||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.39|0.78|
82608269|NCT01193335|164932781|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.89|1.51||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.51|0.89|
82608270|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.37|1.44||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.44|0.37|
82608271|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.37|1.71||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.71|0.37|
82608272|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.5|||||TWO_SIDED|95.0|0.76|3.12||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||3.12|0.76|
82608273|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.33|1.17||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.33|
82608274|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.24|1.55||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.55|0.24|
82608275|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.97|1.77||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.77|0.97|
82608276|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.35|1.46||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.46|0.35|
82608277|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|1.0|1.6||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.60|1.00|
82608278|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.68|1.33||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.33|0.68|
82608279|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.82|1.31||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.82|
82657324|NCT05150964|165030601|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05, Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (NAL/National Acoustic Laboratory or DSL/Desired Sensation Level) and ASG (Adaptive Situational Gain) setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor.~Null hypothesis: The hearing aid fitting prescription will have no effect on the speech reception thresholds."||||<0.05
82608280|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.24|1.04||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.04|0.24|
82608281|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|1.2|||||TWO_SIDED|95.0|0.58|2.53||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.53|0.58|
82608282|NCT01193335|164932782|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.52|1.37||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.37|0.52|
82608283|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.45|0.97||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.97|0.45|
82608284|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.54|1.4||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.40|0.54|
82608285|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.41|1.31||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.41|
82608286|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.14||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.14|0.54|
82608287|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.34|0.87||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.87|0.34|
82608288|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.31|1.1||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.10|0.31|
82608289|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.4|1.01||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.01|0.40|
82608290|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.38|0.81||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.81|0.38|
82608291|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.76|1.17||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.17|0.76|
82608292|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.45|0.91||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.91|0.45|
82608293|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.47|0.85||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.85|0.47|
82608294|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.15||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.74|
82608295|NCT01193335|164932783|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.52|0.88||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.88|0.52|
82608296|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.35|2.05||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.05|0.35|
82608297|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.41|2.63||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.63|0.41|
82657325|NCT05150964|165030601|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05, Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (NAL/National Acoustic Laboratory or DSL/Desired Sensation Level) and ASG (Adaptive Situational Gain) setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor.~Null hypothesis: The ASG setting will have no effect on the speech reception threshold."||||>0.05
82608298|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.22|1.53||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.53|0.22|
82608299|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.38|1.44||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.44|0.38|
82608300|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.3|||||TWO_SIDED|95.0|0.1|0.76||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.76|0.10|
82608301|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.25|1.3||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.30|0.25|
82608302|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.3|||||TWO_SIDED|95.0|0.11|0.65||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.65|0.11|
82608303|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.81|1.32||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.32|0.81|
82608304|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.56|1.37||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.37|0.56|
82608305|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.8|||||TWO_SIDED|95.0|0.51|1.23||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.23|0.51|
82608306|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.17|0.86||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.86|0.17|
82608307|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.64|1.97||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.97|0.64|
82608308|NCT01193335|164932784|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.27|0.97||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.97|0.27|
82608309|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.33|2.37||||||Serotype 4: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.37|0.33|
82608310|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.37|3.07||||||Serotype 6B: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||3.07|0.37|
82608311|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|1.7|||||TWO_SIDED|95.0|0.57|5.36||||||Serotype 9V: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||5.36|0.57|
82608312|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.9|||||TWO_SIDED|95.0|0.38|2.07||||||Serotype 14: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||2.07|0.38|
82608313|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.18|1.21||||||Serotype 18C: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.21|0.18|
82492392|NCT02100514|164677925|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-33.2|STANDARD_ERROR_OF_MEAN|1.48|<|0.001|TWO_SIDED|95.0|-36.1|-30.2|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-30.2|-36.1|<0.001
82608314|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.27|1.53||||||Serotype 19F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.53|0.27|
82657326|NCT05150964|165030602|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: The ASG setting will have no effect on the Word Recognition Scores."||||<0.05
82499415|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211|STANDARD_ERROR_OF_MEAN|0.095||||90.0|0.055|0.368|||ANCOVA|||Extension Month 27; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.368|0.055|
82608315|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.17|1.15||||||Serotype 23F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.15|0.17|
82608316|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|1.1|||||TWO_SIDED|95.0|0.96|1.31||||||Serotype 1: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.31|0.96|
82608317|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.41|1.14||||||Serotype 3: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.14|0.41|
82608318|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.49|0.92||||||Serotype 5: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.92|0.49|
82608319|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.4|||||TWO_SIDED|95.0|0.16|1.03||||||Serotype 6A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.03|0.16|
82608320|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.6|||||TWO_SIDED|95.0|0.27|1.48||||||Serotype 7F: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||1.48|0.27|
82657327|NCT05150964|165030602|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: The presentation level will have no effect on the Word Recognition Scores."||||<0.05
82608321|NCT01193335|164932785|SUPERIORITY_OR_OTHER||GMT Ratio|0.5|||||TWO_SIDED|95.0|0.22|0.91||||||Serotype 19A: Ratio of GMTs calculated by back transforming the mean difference between the groups on the logarithmic scale. CIs for the ratio were back transformations of a confidence interval based on the Student t distribution for the mean difference of the logarithms of the measures.||0.91|0.22|
82608322|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.33|5.99||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.99|-6.33|
82608323|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|-4.89|||||TWO_SIDED|95.0|-16.87|5.39||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.39|-16.87|
82608324|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|-6.85|||||TWO_SIDED|95.0|-24.28|10.67||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.67|-24.28|
82608325|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|3.03|||||TWO_SIDED|95.0|-3.68|10.57||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.57|-3.68|
82608326|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-6.57|5.88||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.88|-6.57|
82608327|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|3.45|||||TWO_SIDED|95.0|-3.32|11.91||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.91|-3.32|
82608328|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|1.52|||||TWO_SIDED|95.0|-6.73|9.94||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.94|-6.73|
82657328|NCT05150964|165030602|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null Hypothesis: Hearing aid prescription will have no effect on the Word Recognition Scores."||||<0.05
82608329|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Perecent Difference|-10.82|||||TWO_SIDED|95.0|-25.51|4.34||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.34|-25.51|
82608330|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|4.65|||||TWO_SIDED|95.0|0.04|11.48||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.48|0.04|
82608331|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|-16.06|||||TWO_SIDED|95.0|-29.15|-2.6||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.60|-29.15|
82608332|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|2.27|||||TWO_SIDED|95.0|-1.96|7.97||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.97|-1.96|
82608333|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|-2.15|||||TWO_SIDED|95.0|-7.55|2.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||2.10|-7.55|
82608334|NCT01193335|164932786|SUPERIORITY_OR_OTHER||Percent Difference|-1.09|||||TWO_SIDED|95.0|-5.96|3.18||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.18|-5.96|
82608335|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-9.08|||||TWO_SIDED|95.0|-25.11|7.49||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.49|-25.11|
82608336|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-5.39|||||TWO_SIDED|95.0|-21.03|10.4||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.40|-21.03|
82608337|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|6.53|||||TWO_SIDED|95.0|-7.16|21.16||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||21.16|-7.16|
82608338|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-7.88|||||TWO_SIDED|95.0|-20.28|3.35||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.35|-20.28|
82608339|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-10.73|||||TWO_SIDED|95.0|-29.01|8.11||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.11|-29.01|
82608340|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|7.11|||||TWO_SIDED|95.0|-1.52|17.65||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||17.65|-1.52|
82608341|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-13.37|||||TWO_SIDED|95.0|-29.57|3.31||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.31|-29.57|
82608342|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|8.09|||||TWO_SIDED|95.0|-0.52|17.81||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||17.81|-0.52|
82608343|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-7.38|||||TWO_SIDED|95.0|-22.86|8.29||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.29|-22.86|
82608344|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|0.51|||||TWO_SIDED|95.0|-8.82|10.08||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.08|-8.82|
82608345|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-20.19|||||TWO_SIDED|95.0|-35.45|-3.95||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.95|-35.45|
82608346|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|5.25|||||TWO_SIDED|95.0|-8.5|19.06||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||19.06|-8.50|
82608347|NCT01193335|164932787|SUPERIORITY_OR_OTHER||Percent Difference|-3.14|||||TWO_SIDED|95.0|-17.51|11.13||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.13|-17.51|
82657329|NCT05150964|165030603|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on multi-word recognition scores."||||<0.05
82657330|NCT05150964|165030603|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on multi-word recognition scores."||||>0.05
82657331|NCT05150964|165030603|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescription will have no effect on multi-word recognition scores."||||>0.05
82657332|NCT05150964|165030604|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on Nonword Detection scores."||||<0.05
82657333|NCT05150964|165030604|OTHER||||||<|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescription will have no effect on Nonword Detection scores."||||<0.05
82608348|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-5.59|5.89||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.89|-5.59|
82608349|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.08|||||TWO_SIDED|95.0|-6.81|7.37||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.37|-6.81|
82608350|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|-1.55|||||TWO_SIDED|95.0|-10.87|7.44||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.44|-10.87|
82608351|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-5.94|5.94||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.94|-5.94|
82608352|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|-1.61|||||TWO_SIDED|95.0|-8.66|4.25||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.25|-8.66|
82608353|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|-6.64|||||TWO_SIDED|95.0|-17.93|3.56||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.56|-17.93|
82608354|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.05|||||TWO_SIDED|95.0|-6.74|7.04||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||7.04|-6.74|
82608355|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|-6.48|||||TWO_SIDED|95.0|-16.37|2.75||||||Serotype 1: CI Parameter was percent difference between the groups. Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||2.75|-16.37|
82608356|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|1.27|||||TWO_SIDED|95.0|-3.37|6.85||||||Serotype 3: CI Parameter was percent difference between the groups. Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||6.85|-3.37|
82608357|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|-1.34|||||TWO_SIDED|95.0|-8.36|5.14||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.14|-8.36|
82608358|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.73|5.04||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||5.04|-4.73|
82608359|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.48|4.55||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.55|-4.48|
82608360|NCT01193335|164932788|SUPERIORITY_OR_OTHER||Percent Difference|0.0|||||TWO_SIDED|95.0|-4.48|4.55||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.55|-4.48|
82608361|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-7.5|||||TWO_SIDED|95.0|-24.5|9.9||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.9|-24.5|
82608362|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-5.9|||||TWO_SIDED|95.0|-23.6|11.8||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||11.8|-23.6|
82608363|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-10.7|||||TWO_SIDED|95.0|-27.6|6.0||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||6.0|-27.6|
82608364|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-4.3|||||TWO_SIDED|95.0|-17.0|8.4||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||8.4|-17.0|
82608365|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-23.0|||||TWO_SIDED|95.0|-40.0|-4.9||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-4.9|-40.0|
82608366|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-11.9|||||TWO_SIDED|95.0|-27.4|3.4||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||3.4|-27.4|
82657334|NCT05150964|165030604|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on Nonword Detection scores."||||>0.05
82608367|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-28.2|||||TWO_SIDED|95.0|-43.9|-11.0||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-11.0|-43.9|
82608368|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-0.3|||||TWO_SIDED|95.0|-10.9|10.3||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||10.3|-10.9|
82608369|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-1.2|||||TWO_SIDED|95.0|-17.5|15.1||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||15.1|-17.5|
82608370|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-10.6|||||TWO_SIDED|95.0|-25.3|4.5||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.5|-25.3|
82608371|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-18.6|||||TWO_SIDED|95.0|-33.3|-3.0||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.0|-33.3|
82608372|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|2.8|||||TWO_SIDED|95.0|-7.1|13.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||13.1|-7.1|
82608373|NCT01193335|164932789|SUPERIORITY_OR_OTHER||Percent Difference|-18.5|||||TWO_SIDED|95.0|-33.7|-2.8||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.8|-33.7|
82608374|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-7.9|||||TWO_SIDED|95.0|-25.2|9.9||||||Serotype 4: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||9.9|-25.2|
82608375|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|0.3|||||TWO_SIDED|95.0|-18.5|19.0||||||Serotype 6B: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||19.0|-18.5|
82608376|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|7.3|||||TWO_SIDED|95.0|-12.0|26.2||||||Serotype 9V: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||26.2|-12.0|
82608377|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-2.8|||||TWO_SIDED|95.0|-19.1|13.3||||||Serotype 14: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||13.3|-19.1|
82608378|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-17.9|||||TWO_SIDED|95.0|-34.6|-0.3||||||Serotype 18C: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-0.3|-34.6|
82608379|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-4.3|||||TWO_SIDED|95.0|-20.6|12.1||||||Serotype 19F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||12.1|-20.6|
82608380|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-21.1|||||TWO_SIDED|95.0|-37.8|-3.2||||||Serotype 23F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.2|-37.8|
82608381|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|5.6|||||TWO_SIDED|95.0|-2.7|15.2||||||Serotype 1: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||15.2|-2.7|
82608382|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-5.1|||||TWO_SIDED|95.0|-22.0|12.0||||||Serotype 3: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||12.0|-22.0|
82608383|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-14.4|||||TWO_SIDED|95.0|-26.7|-2.4||||||Serotype 5: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-2.4|-26.7|
82608384|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-20.4|||||TWO_SIDED|95.0|-36.8|-3.0||||||Serotype 6A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-3.0|-36.8|
82608385|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent Difference|-11.3|||||TWO_SIDED|95.0|-26.4|4.1||||||Serotype 7F: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||4.1|-26.4|
82608386|NCT01193335|164932790|SUPERIORITY_OR_OTHER||Percent difference|-21.6|||||TWO_SIDED|95.0|-37.7|-4.6||||||Serotype 19A: Exact 2-sided, 95% CI was computed based on the procedure of Chan and Zhang using the standardized test statistics and gamma=0.000001.||-4.6|-37.7|
82608387|NCT01733329|164932791|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Fisher Exact|||||||<0.01
82608388|NCT01733329|164932792|SUPERIORITY_OR_OTHER|||||||0.026|||||||Fisher Exact|||||||0.026
82608389|NCT01733329|164932793|SUPERIORITY_OR_OTHER|||||||0.058|||||||Fisher Exact|||||||0.058
82608390|NCT01733329|164932794|SUPERIORITY_OR_OTHER|||||||0.007|||||||Kruskal-Wallis|||||||0.007
82657335|NCT05150964|165030605|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: The ASG setting will have no effect on Rapid Word Learning scores."||||>0.05
82657336|NCT05150964|165030605|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Presentation level will have no effect on Rapid Word Learning scores."||||>0.05
82608391|NCT01078753|164932795|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.813||||0.009|TWO_SIDED|95.0|0.462|3.163||Desmopressin was considered to be superior to Placebo if the p-value for the comparison was \< 0.05 and the reduction from Baseline in number of wet nights was larger in the FE992026 group than in the Placebo group.|ANCOVA|Factors in the analysis were Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||3.163|0.462|0.009
82608392|NCT01078753|164932796|SUPERIORITY_OR_OTHER||Least Squares mean Difference|1.629||||0.018|TWO_SIDED|95.0|0.287|2.972|||ANCOVA|Factors in the analysis were Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||2.972|0.287|0.018
82608393|NCT01078753|164932797|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.183||||0.752|TWO_SIDED|95.0|-0.968|1.335|||ANCOVA|Factors in the analysis included Gender (male, female), age (6≤x≤9, 10≤x≤15), number of wet nights at Baseline (10≤x≤13, x=14), and treatment group.||||1.335|-0.968|0.752
82608394|NCT01015443|164932801|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.032||||0.921|TWO_SIDED|95.0|0.552|1.931|||Adjusted log rank|||||1.931|0.552|0.921
82608395|NCT00095303|164932808|SUPERIORITY_OR_OTHER||slope of linear trajectory of drug use|0.05||||0.27|TWO_SIDED|95.0|-0.04|0.14|||Mixed Models Analysis||The parameter estimated is the regression coefficient on the interaction of the BSFT treatment assignment and the linear time trend.|Null Hypothesis: BSFT will be significantly more effective than TAU in reducing adolescent drug abuse, defined as the percentage of drug use days in 28-day periods. The outcome variable is the percentage of days of drug use within a 28-day period. This variable constructed from the Timeline-Follow-back instrument and measured as the sum of the number of days with positive use in 28-day increments. Hypothesis tested using hierarchical linear models.||.14|-.04|.27
82608396|NCT00095303|164932810|SUPERIORITY_OR_OTHER||Slope|-0.1||||0.26|TWO_SIDED|95.0|-0.28|0.08|||Mixed Models Analysis||The parameter estimated is the regression coefficient on the interaction of BSFT treatment assignment and the linear time trend.|Null hypothesis: It is hypothesized that BSFT will be significantly more effective than TAU in decreasing adolescent externalizing problem behaviors||0.08|-0.28|.26
82608397|NCT00095303|164932826|SUPERIORITY_OR_OTHER||Rate Ratio|0.94||||0.21|TWO_SIDED|95.0|0.82|1.09|||GEE|||Null Hypothesis: BSFT will be significantly more effective than TAU in the rates of drug use, defined as the percentage of drug use days in last 90 days. The primary hypothesis will be evaluated in terms of % of days of drug use in the last 90 days, assessed by the timeline follow-back. The general analytic approach will use generalized estimating equation (GEE) with negative binomial distribution comparing the BSFT and TAU participants||1.09|.82|.21
82608398|NCT00095303|164932828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.006|TWO_SIDED|95.0|-0.71|-0.12|||GEE|||Null hypothesis: It is hypothesized that BSFT will be significantly more effective than TAU in the level of externalizing problem behaviors||-.12|-.71|<.006
82608399|NCT00095303|164932829|SUPERIORITY_OR_OTHER||Slope|0.12||||0.015|TWO_SIDED|95.0|0.03|0.22|||Mixed Models Analysis|||Null hypothesis: BSFT will be significantly more effective than TAU in improving family functioning.The four components of the 'Parenting Practices Inventory' will be used to create a composite for use in this analysis. The four component scales from the Parenting Practices Inventory are 'Positive Parenting', 'Discipline Effectiveness,' 'Avoidance of Discipline' and 'Monitoring' scales from the Pittsburgh Youth Survey. Hypothesis will be analyzed as using hierarchical linear models.||.22|.03|.015
82608400|NCT00095303|164932833|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.68||||0.12|TWO_SIDED|95.0|-0.18|1.54|||GEE|||||1.54|-.18|.12
82608401|NCT00095303|164932834|SUPERIORITY_OR_OTHER||Slope|0.33||||0.12|TWO_SIDED|95.0|-0.09|0.76|||GEE||The parameter estimated is the regression coefficient on the interaction of BSFT treatment assignment and the linear time trend.|Null hypothesis: BSFT will be significantly more effective than TAU in decreasing sexually risky behaviors. The total score of the 'HIV/Sex Risk Behaviors' measure will be used as the outcome.Hypothesis analyzed using the hierarchical linear model.||.76|-.09|.12
82608402|NCT00095303|164932838|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14||||0.23|TWO_SIDED|95.0|-0.09|0.37|||GEE|||||.37|-.09|.23
82608403|NCT01364467|164932844|OTHER|||||||0.013|||||||t-test, 2 sided|||||||0.013
82608404|NCT01364467|164932845|SUPERIORITY|||||||0.98|||||||t-test, 2 sided|||||||0.98
82608405|NCT01364467|164932845|SUPERIORITY|||||||0.65|||||||t-test, 2 sided|||||||0.65
82608406|NCT05490771|164932871|SUPERIORITY|||||||0.0341|||||||one-sided exact binomial test|||The ORR was compared against a null benchmark value of 5%. If the observed ORR were ≥5 of 31 (16%), it would then be concluded that the agent is promising and worthy of further investigation. When the number of analyzable cases (who were eligible and treated, and with outside assay results confirmed by the central MATCH assay) was \<31, the one-sided exact binomial test would be used for significance test with one-side type I error rate of 5%.||||0.0341
82608407|NCT04246047|164932874|SUPERIORITY||Hazard Ratio (HR)|0.41|||<|1e-05||95.0|0.31|0.53|||one-sided stratified log-rank||Hazard ratio was estimated using a Cox Proportional Hazards model stratified by the number of lines of prior therapy, prior bortezomib and revised international staging system (R-ISS) at screening, with a covariate of treatment.|||0.53|0.31|<0.00001
82608408|NCT00457639|164932931|SUPERIORITY||Mean Difference (Net)|13.8||||0.42|TWO_SIDED|95.0|-19.7|61.1|||Mixed Models Analysis|||||61.1|-19.7|0.42
82608409|NCT00457639|164932932|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.45|TWO_SIDED|95.0|-17.7|50.8|||Mixed Models Analysis|||||50.8|-17.7|0.45
82608410|NCT01477450|164932936|SUPERIORITY_OR_OTHER|||||||0.3|||||||Chi-squared|||||||0.3
82608411|NCT01477450|164932936|SUPERIORITY_OR_OTHER|||||||0.47|||||||Chi-squared|||||||0.47
82657337|NCT05150964|165030605|OTHER||||||>|0.05||||||Significance was indicated by p \<. 05 and Cohen's d was calculated to indicate effect size.|Mixed Models Analysis|||"A Linear Mixed Model Analysis was performed. The hearing aid prescription (DSL, NAL) and ASG setting (on, off) were entered as fixed factors while the individual participants were entered as a random factor. An additional fixed factor of presentation level (40, 70 dB SPL) was added to the analyses.~Null hypothesis: Hearing aid prescripton will have no effect on Rapid Word Learning scores."||||>0.05
82657338|NCT04006171|165030610|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82657339|NCT04006171|165030611|OTHER|||||||0.004|||||||Roc curve|||||||0.004
82657340|NCT04006171|165030612|OTHER|||||||0.171||||||p value for FSH|Wilcoxon (Mann-Whitney)|for FSH||||||0.171
82657341|NCT04006171|165030612|OTHER|||||||0.176||||||p value for LH|Wilcoxon (Mann-Whitney)|for LH||||||0.176
82608412|NCT01477450|164932936|SUPERIORITY_OR_OTHER|||||||1|||||||Chi-squared|||||||1.00
82608413|NCT00630032|164932947|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.175|TWO_SIDED|95.0|0.59|1.1|||Log Rank|||||1.10|0.59|0.175
82608414|NCT00630032|164932948|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.1687|TWO_SIDED|95.0|0.53|1.11|||Log Rank|||||1.11|0.53|0.1687
82608415|NCT00630032|164932949|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.6502|TWO_SIDED|95.0|0.45|1.63|||Log Rank|||||1.63|0.45|0.6502
82608416|NCT00630032|164932950|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0665|TWO_SIDED|95.0|0.49|1.02|||Log Rank|||||1.02|0.49|0.0665
82608417|NCT00630032|164932951|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.148|TWO_SIDED|95.0|0.59|1.08|||Log Rank|||||1.08|0.59|0.148
82608418|NCT00630032|164932952|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8968|TWO_SIDED|95.0|0.67|1.42|||Log Rank|||||1.42|0.67|0.8968
82608419|NCT03440112|164932961|SUPERIORITY||Chi-Squared|3.0039||||0.391|TWO_SIDED||||||Mixed Models Analysis|||A pair of random-intercept mixed linear models was fitted, a visit model and an interaction model. Visit model included fixed effect of visit and a random intercept by participant. Interaction model adds an interaction by treatment term on top of the visit model. Null hypothesis is that visit by treatment interaction does not explain significant additional variance in clinical outcome scores. Likelihood ratio test comparing the interaction model to the visit model was used to derive a p-value.||||0.391
82608420|NCT03440112|164932962|SUPERIORITY||Chi-Squared|9.4836||||0.02351|TWO_SIDED||||||Mixed Models Analysis|||A pair of random-intercept mixed linear models was fitted, a visit model and an interaction model. Visit model included fixed effect of visit and a random intercept by participant. Interaction model adds an interaction by treatment term on top of the visit model. Null hypothesis is that visit by treatment interaction does not explain significant additional variance in clinical outcome scores. Likelihood ratio test comparing the interaction model to the visit model was used to derive a p-value.||||0.02351
82608421|NCT03199911|164932963|SUPERIORITY||Risk Ratio (RR)|0.0||||0.025|TWO_SIDED||||||Fisher Exact|||||||0.025
82608422|NCT03199911|164932965|SUPERIORITY||Risk Ratio (RR)|1.3||||0.77|TWO_SIDED|95.0|0.42|4.03|||Fisher Exact|||||4.03|0.42|0.77
82608423|NCT03199911|164932966|SUPERIORITY||Risk Ratio (RR)|0.93||||1|TWO_SIDED|95.0|0.06|14.77|||Fisher Exact|||||14.77|0.06|1.00
82608424|NCT02874794|164933001|SUPERIORITY||Median Difference (Final Values)|-2.2||||0.7827|TWO_SIDED|95.0|-17.6|13.2|||ANCOVA|||||13.2|-17.6|0.7827
82608425|NCT02874794|164933004|SUPERIORITY||Ratio of Geometric Means|0.6667|||<|0.0001|TWO_SIDED|95.0|0.5858|0.7589|||ANCOVA|||||0.7589|0.5858|<.0001
82608426|NCT02874794|164933005|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.5792|TWO_SIDED|95.0|-0.58|0.33|||ANCOVA|||||0.33|-0.58|0.5792
82608427|NCT02874794|164933006|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.0001|TWO_SIDED|95.0|-4.02|-1.59|||ANCOVA|||||-1.59|-4.02|<.0001
82608428|NCT02874794|164933007|SUPERIORITY||Median Difference (Final Values)|-0.03||||0.8617|TWO_SIDED|95.0|-0.33|0.27|||ANCOVA|||||0.27|-0.33|0.8617
82608429|NCT02874794|164933008|SUPERIORITY||Median Difference (Final Values)|-1.75||||0.0007|TWO_SIDED|95.0|-2.76|-0.75|||ANCOVA|||vs Enalapril||-0.75|-2.76|0.0007
82608430|NCT02874794|164933009|SUPERIORITY||Median Difference (Final Values)|0.63||||0.2354|TWO_SIDED|95.0|-0.41|1.68|||ANCOVA|||||1.68|-0.41|0.2354
82608431|NCT02874794|164933010|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.8215|TWO_SIDED|95.0|-0.05|0.04|||ANCOVA|||||0.04|-0.05|0.8215
82608432|NCT02874794|164933011|SUPERIORITY||Median Difference (Final Values)|-1.58||||0.0452|TWO_SIDED|95.0|-3.13|-0.03|||ANCOVA|||||-0.03|-3.13|0.0452
82608433|NCT02874794|164933012|SUPERIORITY||Mean Difference (Final Values)|-1.97||||0.0242|TWO_SIDED|95.0|-3.68|-0.26|||ANCOVA|||||-0.26|-3.68|0.0242
82608434|NCT04328623|164933013|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82608435|NCT03715465|164933061|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.510
82608436|NCT03715465|164933062|SUPERIORITY|||||||0.411|||||||t-test, 2 sided|||Per diary||||0.411
82608437|NCT03715465|164933062|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Per wrist actigraphy||||0.920
82608438|NCT03715465|164933063|SUPERIORITY|||||||0.787|||||||t-test, 2 sided|||Per diary||||0.787
82608439|NCT03715465|164933063|SUPERIORITY|||||||0.916|||||||t-test, 2 sided|||Per wrist actigraphy||||0.916
82608440|NCT03715465|164933064|SUPERIORITY|||||||0.27|||||||t-test, 2 sided|||Per diary||||0.270
82608441|NCT03715465|164933064|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||Per wrist actigraphy||||0.406
82608442|NCT03715465|164933065|SUPERIORITY|||||||0.635|||||||t-test, 2 sided|||Per diary||||0.635
82608443|NCT03715465|164933065|SUPERIORITY|||||||0.383|||||||t-test, 2 sided|||Per wrist actigraphy||||0.383
82608444|NCT03715465|164933066|SUPERIORITY|||||||0.456|||||||t-test, 2 sided|||||||0.456
82657342|NCT04006171|165030613|OTHER|||||||0.306|||||||Wilcoxon (Mann-Whitney)|||||||0.306
82657343|NCT04006171|165030614|OTHER|||||||0.795|||||||Wilcoxon (Mann-Whitney)|||||||0.795
82657344|NCT04006171|165030615|OTHER|||||||0.852|||||||t-test, 2 sided|||||||0.852
82657345|NCT04006171|165030616|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82657346|NCT04006171|165030617|OTHER|||||||0.277|||||||Wilcoxon (Mann-Whitney)|||||||0.277
82657347|NCT04006171|165030618|OTHER|||||||0.006|||||||t-test, 2 sided|||||||0.006
82657348|NCT04006171|165030619|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82657349|NCT04006171|165030620|OTHER|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82657350|NCT04006171|165030621|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82657351|NCT04006171|165030622|OTHER|||||||0.947||||||for serum glucose|Wilcoxon (Mann-Whitney)|for serum glucose||||||0.947
82657352|NCT04006171|165030622|OTHER|||||||0.906||||||for total cholesterol|Wilcoxon (Mann-Whitney)|for total cholesterol||||||0.906
82657353|NCT04006171|165030622|OTHER|||||||0.428||||||for triglycerides|Wilcoxon (Mann-Whitney)|for triglycerides||||||0.428
82657354|NCT04006171|165030623|OTHER|||||||0.114||||||for high density lipoprotein|t-test, 2 sided|||||||0.114
82657355|NCT04006171|165030623|OTHER|||||||0.504||||||for low density lipoprotein|Wilcoxon (Mann-Whitney)|for low density lipoprotein||||||0.504
82608445|NCT03715465|164933067|SUPERIORITY|||||||0.402|||||||t-test, 2 sided|||||||0.402
82608446|NCT03715465|164933068|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||0.047
82608447|NCT03715465|164933069|SUPERIORITY|||||||0.525|||||||t-test, 2 sided|||||||0.525
82608448|NCT03715465|164933070|SUPERIORITY|||||||0.106|||||||t-test, 2 sided|||||||0.106
82608449|NCT03715465|164933071|SUPERIORITY|||||||0.059|||||||t-test, 2 sided|||||||0.059
82608450|NCT03715465|164933072|SUPERIORITY|||||||0.007|||||||t-test, 2 sided|||||||0.007
82608451|NCT03715465|164933073|SUPERIORITY|||||||0.246|||||||t-test, 2 sided|||||||0.246
82608452|NCT03715465|164933074|SUPERIORITY|||||||0.333|||||||t-test, 2 sided|||||||0.333
82608453|NCT04902885|164933081|SUPERIORITY|||||||0.0003|||||||non-parametric ANCOVA|||70 subjects (35 per group) provided approximately 95% power at the test level of α = 0.05 (2-sided) .Assuming a dropout rate of approximately 12%, the sample size for Part II was 80 subjects (40 per group)||||0.0003
82608454|NCT01142323|164933108|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0|||||Matched pairs|||||||0.008
82608455|NCT01142323|164933109|SUPERIORITY|||||||0.46|||||||Wilcoxon (Mann-Whitney)|||||||0.46
82608456|NCT03818815|164933115|SUPERIORITY|||||||0.62||||||The p-value was calculated using multiple imputation with number of imputations equal to percentage of missing data.|Regression, Logistic|||The summary statistics are based on subjects with non-missing data only.||||0.62
82608457|NCT03818815|164933116|SUPERIORITY|||||||0.07||||||The p-value was calculated using multiple imputation with number of imputations equal to percentage of missing data.|Regression, Logistic|||The summary statistics are based on subjects with non-missing data only.||||0.07
82608458|NCT01521845|164933127|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.001
82608459|NCT01521845|164933128|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.03
82608460|NCT01521845|164933129|SUPERIORITY_OR_OTHER|||||||1||95.0|||||not comparable|||||||1
82608461|NCT01882725|164933134|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82608462|NCT01882725|164933135|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82608463|NCT04207710|164933159|SUPERIORITY|||||||0.317||||||A priori threshold for significance was p\<0.05.|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Ethyl Chloride.||||0.317
82608464|NCT04207710|164933159|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Ethyl Chloride.||||0.317
82608465|NCT04207710|164933159|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Pain Ease.||||0.317
82657356|NCT04006171|165030624|OTHER|||||||0.713|||||||Wilcoxon (Mann-Whitney)|||||||0.713
82657357|NCT04006171|165030625|OTHER|||||||0.886|||||||Wilcoxon (Mann-Whitney)|||||||0.886
82657358|NCT02087904|165030642|SUPERIORITY||LS Mean Difference|-0.3||||0.834|TWO_SIDED|95.0|-3.13|2.53||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and Kellgren-Lawrence (K-L) grade as the main factors and baseline as a covariate.|ANCOVA|||||2.53|-3.13|0.834
82657359|NCT02087904|165030642|SUPERIORITY||LS Mean Difference|-2.9||||0.05|TWO_SIDED|95.0|-5.73|0.01||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.01|-5.73|0.05
82657360|NCT02087904|165030642|SUPERIORITY||LS Mean Difference|-1.2||||0.415|TWO_SIDED|95.0|-4.0|1.66||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.66|-4.00|0.415
82657361|NCT02087904|165030643|SUPERIORITY||LS Mean Difference|0.06||||0.145|TWO_SIDED|95.0|-0.021|0.141||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.141|-0.021|0.145
82657362|NCT02087904|165030643|SUPERIORITY||LS Mean Difference|-0.03||||0.52|TWO_SIDED|95.0|-0.11|0.056||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.056|-0.11|0.52
82608466|NCT04207710|164933159|SUPERIORITY|||||||0.317||||||A priori threshold was p\<0.05|Friedman|||Comparison of incidence of positive growth in samples obtained following application of ChloraPrep vs. ChloraPrep followed by Gebauer's Pain Ease.||||0.317
82608467|NCT04334148|164933163|OTHER|||||||0.2|||||||Fisher Exact|||||||0.200
82608468|NCT04334148|164933164|OTHER|||||||1|||||||Regression, Linear|||||||1.0
82608469|NCT04334148|164933165|SUPERIORITY|||||||0.802|||||||Chi-squared|||||||0.802
82608470|NCT00258154|164933183|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (Rotateq+INFANRIX hexa group minus Placebo+INFANRIX hexa group) for subjects who achieve serum antibody levels of ≥ 10 mIU/mL greater than -10%|Percentage point difference|0.0|||<|0.001||95.0|-3.7|3.6|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method|Percentage point difference (RotaTeq - Placebo)|||3.6|-3.7|<0.001
82608471|NCT00258154|164933185|NON_INFERIORITY_OR_EQUIVALENCE|non-inferiority criterion is that the lower limit of the 2-sided 95% confidence interval of the proportion difference (Rotateq+INFANRIX hexa group minus Placebo+INFANRIX hexa group) for subjects who achieve serum antibody levels of ≥ 0.15 μg/mL greater than -10%.|Percentage point difference|-3.7||||0.015||95.0|-9.3|1.3|||Miettinen and Nurminen's|Comparing percentage difference with the non-inferiority margin of 10 percentage point with Miettinen and Nurminen's method|Percentage point difference (RotaTeq - Placebo)|||1.3|-9.3|0.015
82608472|NCT03772327|164933213|SUPERIORITY||Mean Difference (Net)|0.333||||0.07|TWO_SIDED|95.0|-0.028|0.694|||t-test, 2 sided|A ratio of Week 12 to baseline TFV-DP levels was used rather than a raw difference as a ratio was normally distributed.|The mean difference is mean ratio (Week 12 TFV-DP level over the Week 0 TFV-DP level) in the Routine counseling + AdhereTech bottle arm less the mean ratio in the Routine counseling arm.|The power calculation was based on a null hypothesis of no difference in mean tenofovir-diphosphate (TFV-DP) concentrations between baseline versus week 12. Expected baseline mean (SD): 900 (404) fmol/punch. 12 week mean (SD): 1332 (597) fmol/punch in the AdhereTech bottle arm vs. 900 (404) fmol/punch in control arm. Type 1 error = 0.05, power = 80%, a sample size of 32 per arm (64 total) based on a two-sided t-test with equal variance.||0.694|-0.028|0.070
82608473|NCT03772327|164933214|EQUIVALENCE|Equivalence defined if a two-sided 2 sample proportion test accepts the null hypothesis with p \> 0.05.|Difference in proportions|0.045||||0.89|TWO_SIDED|95.0|-0.179|0.27|||Chi-squared, Corrected|degrees of freedom = 1|This is the proportion of those completing a week 12 visit less those completing a week 0 visit.|The null hypothesis is that the proportion of randomized participants that complete a week 12 visit is not lower in the AdhereTech bottle arm.||0.270|-0.179|0.89
82657363|NCT02087904|165030643|SUPERIORITY||LS Mean Difference|0.06||||0.159|TWO_SIDED|95.0|-0.023|0.139||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.139|-0.023|0.159
82657364|NCT02087904|165030644|SUPERIORITY||LS Mean Difference|0.22||||0.897|TWO_SIDED|95.0|-3.193|3.642||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||3.642|-3.193|0.897
82608474|NCT03772327|164933215|SUPERIORITY||Median Difference (Net)|-0.07||||0.328|TWO_SIDED||||||Kruskal-Wallis|Log transformation of viral load|Difference of log viral load at Week 12 less the log viral load at baseline|Null hypothesis: Mean HIV viral load is not significantly different in the AdhereTech bottle group compared to the routine counseling only group.||||0.328
82608475|NCT03772327|164933216|SUPERIORITY||Odds Ratio (OR)|0.395||||0.294|TWO_SIDED|95.0|0.058|2.044|||Fisher Exact||Odds ratio for change from HIV RNA ≥ 20 copies/mL at baseline to HIV RNA \< 20 copies/mL at week 12 due to the intervention (AdhereTech bottle).|Null hypothesis: There is no difference in proportion of participants that go from HIV RNA ≥ 20 copies/mL to HIV RNA \< 20 copies/mL between baseline to Week 12 in the AdhereTech bottle group compared the routine counseling group.||2.044|0.058|0.294
82608476|NCT03772327|164933218|SUPERIORITY||Difference in proportions|0.019||||1|TWO_SIDED|95.0|-0.237|0.276|||Chi-squared, Corrected|||Null hypothesis: Adherence in the AdhereTech bottle arm is not better than the control arm at Week 12.||0.276|-0.237|1
82608477|NCT04689828|164933219|SUPERIORITY||Hazard Ratio (HR)|0.41||||1e-08|TWO_SIDED|95.0|0.29|0.56|||Log Rank|Stratified||||0.56|0.29|0.00000001
82608478|NCT04689828|164933220|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.2|TWO_SIDED|95.0|0.72|1.14|||stratified Cox PH model|||||1.14|0.72|0.20
82608479|NCT02513446|164933259|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|176.1|||||TWO_SIDED|90.0|160.5|193.2|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||193.2|160.5|
82608480|NCT02513446|164933260|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|136.5|||||TWO_SIDED|90.0|109.9|169.4|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||169.4|109.9|
82608481|NCT02513446|164933261|SUPERIORITY_OR_OTHER||Adjusted gMean T/R ratio|174.8|||||TWO_SIDED|90.0|159.1|192.0|||ANOVA|Analysis of variance (ANOVA) on the logarithmic scale; Fixed effects: sequence, period and treatment; Random effects: subjects within sequences|Ratio of the treatment adjusted geometric means (gMean) of (T) versus (R).|||192.0|159.1|
82608482|NCT00843180|164933262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|0.0||0.8|TWO_SIDED|95.0|-5.4|4.2||unadjusted|t-test, 2 sided||this was a feasibility pilot study CI is descriptor of dispersion|comparison between groups by t-test||4.2|-5.4|0.80
82657365|NCT02087904|165030644|SUPERIORITY||LS Mean Difference|-1.07||||0.542|TWO_SIDED|95.0|-4.515|2.377||P-value for test of difference between ABT-981 100 dose group and Placebo at each post-baseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.377|-4.515|0.542
82657366|NCT02087904|165030644|SUPERIORITY||LS Mean Difference|-1.52||||0.385|TWO_SIDED|95.0|-4.95|1.916||P-value for test of difference between ABT-981 200 dose group and Placebo at each post-baseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.916|-4.95|0.385
82608483|NCT00843180|164933263|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.38|STANDARD_DEVIATION|0.0||0.29|TWO_SIDED|95.0|-6.9|2.1||unadjusted|t-test, 2 sided||CI serves as dispersion measure|||2.1|-6.9|0.29
82608484|NCT00843180|164933264|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.8|STANDARD_DEVIATION|0.0||0.78|TWO_SIDED|95.0|-31.9|24.3|||t-test, 2 sided||95% CI is dispersion parameter|||24.3|-31.9|0.78
82608485|NCT00843180|164933265|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|STANDARD_DEVIATION|0.0||0.7|TWO_SIDED|95.0|-9.5|13.2|||t-test, 2 sided|unadjusted|95%CI is dispersion measure|||13.2|-9.5|0.70
82608486|NCT02234622|164933292|SUPERIORITY||Mean Difference (Final Values)|-5.0|STANDARD_ERROR_OF_MEAN|1.6||0.002|TWO_SIDED|95.0|-8.2|-1.8|||Mixed Models Analysis|||||-1.8|-8.2|0.002
82608487|NCT02234622|164933293|SUPERIORITY||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|2.2||0.005|TWO_SIDED|95.0|-10.3|-1.8|||Mixed Models Analysis|||||-1.8|-10.3|0.005
82608488|NCT02234622|164933294|SUPERIORITY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|2.6||0.042|TWO_SIDED|95.0|-11.9|-1.6|||Mixed Models Analysis|||||-1.6|-11.9|0.042
82608489|NCT02234622|164933295|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.4||0.482|TWO_SIDED|95.0|-4.2|1.1|||Mixed Models Analysis|||||1.1|-4.2|0.482
82608490|NCT02234622|164933296|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.7||0.635|TWO_SIDED|95.0|-4.7|1.9|||Mixed Models Analysis|||||1.9|-4.7|0.635
82608491|NCT02234622|164933297|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|1.8||0.367|TWO_SIDED|95.0|-6.0|1.1|||Mixed Models Analysis|||||1.1|-6.0|0.367
82657367|NCT02087904|165030645|SUPERIORITY||LS Mean Difference|-0.08||||0.384|TWO_SIDED|95.0|-0.249|0.096||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.096|-0.249|0.384
82608492|NCT02234622|164933298|SUPERIORITY||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.668|TWO_SIDED|95.0|-0.5|1.0|||Mixed Models Analysis|||||1.0|-0.5|0.668
82608493|NCT05175170|164933374|OTHER||Mean Difference (Final Values)|-33.902|||<|0.001|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related knowledge. This paired-samples t-test compares participants' pre- and post-test knowledge scores.||||<.001
82608494|NCT05175170|164933374|OTHER||Mean Difference (Final Values)|-26.098|||<|0.001|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related knowledge. This paired-samples t-test compares participants' pre- and post-test knowledge scores.||||<.001
82608495|NCT05175170|164933375|OTHER||Mean Difference (Final Values)|-20.202||||0.002|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related decision self-efficacy. This paired-samples t-test compares participants' pre- and post-test decision self-efficacy scores.||||0.002
82608496|NCT05175170|164933375|OTHER||Mean Difference (Final Values)|-8.081||||0.051|TWO_SIDED||||||t-test, 1 sided|||The hypothesis of this analysis was that using the AFFRMED would increase fertility-related decision self-efficacy. This paired-samples t-test compares participants' pre- and post-test decision self-efficacy scores.||||0.051
82608497|NCT01650805|164933379|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||0.074
82608498|NCT01650805|164933381|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||<0.001
82608499|NCT01650805|164933382|SUPERIORITY_OR_OTHER|||||||0.317|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified Analysis by Sokal score||||||0.317
82608500|NCT01200433|164933385|NON_INFERIORITY_OR_EQUIVALENCE|"We tested a joint hypothesis that dexmedetomidine was noninferior to propofol both in terms of cerebral blood flow velocity and brain oxygenation during DBS surgery.~A total of 44 patients provided a 90% power at the 0.05 significance level to detect noninferiority of dexmedetomidine to propofol using a noninferiority ratio of geometric means of 0.80, assuming a coefficient of variation of 25% for each of the 2 primary outcomes. Both outcomes were expected to follow a log-normal distribution."|Ratio of Geometric Means|0.94||||0.011|TWO_SIDED|90.0|0.84|1.05|||t-test, 1 sided||Dexmedetomidine vs. propofol|||1.05|0.84|0.011
82608501|NCT01200433|164933386|NON_INFERIORITY_OR_EQUIVALENCE|"We tested a joint hypothesis that dexmedetomidine was noninferior to propofol both in terms of cerebral blood flow velocity and brain oxygenation during DBS surgery.~A total of 44 patients provided a 90% power at the 0.05 significance level to detect noninferiority of dexmedetomidine to propofol using a noninferiority ratio of geometric means of 0.80, assuming a coefficient of variation of 25% for each of the 2 primary outcomes. Both outcomes were expected to follow a log-normal distribution."|Ratio of Geometric Means|0.99|||<|0.001|TWO_SIDED|90.0|0.96|1.02|||t-test, 1 sided||Dexmedetomidine vs. propofol|||1.02|0.96|< 0.001
82608502|NCT01200433|164933388|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.0|||<|0.001|TWO_SIDED|99.0|0.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|0|<0.001
82608503|NCT01200433|164933389|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|1.0||||0.91|TWO_SIDED|99.0|0.86|1.18|||Wilcoxon (Mann-Whitney)|||||1.18|0.86|0.91
82608504|NCT01200433|164933391|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.9||||0.02|TWO_SIDED|99.0|-4.1|0.2|||Wilcoxon (Mann-Whitney)|||||0.2|-4.1|0.02
82608505|NCT01200433|164933392|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.0|||>|0.99|TWO_SIDED|99.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|>0.99
82608506|NCT02332915|164933424|SUPERIORITY|||||||0.0128|||||||t-test, 2 sided|dependent t-test||Null hypothesis is that there is no difference in mean effect size values for 2-week follow-up values for treated items for SPT-Intense and SPT-Traditional. The test was performed with a significance level of 0.05 (two-sided).||||.0128
82657368|NCT02087904|165030645|SUPERIORITY||LS Mean Difference|-0.15||||0.095|TWO_SIDED|95.0|-0.324|0.026||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.026|-0.324|0.095
82657369|NCT02087904|165030645|SUPERIORITY||LS Mean Difference|-0.14||||0.106|TWO_SIDED|95.0|-0.314|0.03||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.03|-0.314|0.106
82608507|NCT02332915|164933425|SUPERIORITY|||||||0.942|||||||t-test, 2 sided|dependent t-test||Null hypothesis is that there is no difference in mean effect size values for 2-week follow-up values for untreated (generalization) items for SPT-Intense and SPT-Traditional. The test was performed with a significance level of 0.05 (two-sided).||||.942
82608508|NCT02332915|164933426|OTHER||||||<|0.001|||||||t-test, 2 sided|||Null Hypothesis: No difference in pre-treatment and post-treatment intelligibility scores||||<.001
82608509|NCT05110300|164933442|SUPERIORITY|||||||0.0283||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0283
82608510|NCT05110300|164933443|SUPERIORITY|||||||0.3118||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3118
82608511|NCT05110300|164933444|SUPERIORITY|||||||0.213||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.213
82657370|NCT02087904|165030646|SUPERIORITY||LS Mean Difference|-1.1||||0.818|TWO_SIDED|95.0|-10.22|8.08||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||8.08|-10.22|0.818
82657371|NCT02087904|165030646|SUPERIORITY||LS Mean Difference|-7.6||||0.109|TWO_SIDED|95.0|-16.83|1.69||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.69|-16.83|0.109
82657372|NCT02087904|165030646|SUPERIORITY||LS Mean Difference|-3.4||||0.465|TWO_SIDED|95.0|-12.58|5.76||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||5.76|-12.58|0.465
82657373|NCT02087904|165030647|SUPERIORITY||LS Mean Difference|-2.1||||0.666|TWO_SIDED|95.0|-11.76|7.52||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||7.52|-11.76|0.666
82492393|NCT02100514|164677925|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-29.6|STANDARD_ERROR_OF_MEAN|1.66|||TWO_SIDED|95.0|-32.8|-26.3||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-26.3|-32.8|
82492394|NCT02100514|164677925|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-23.8|STANDARD_ERROR_OF_MEAN|1.65|||TWO_SIDED|95.0|-27.0|-20.5||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-20.5|-27.0|
82608512|NCT05110300|164933444|EQUIVALENCE|MDC of the inpatient stroke population for the BBS was used as the equivalence bounds. Equivalence bounds were set at +/- 6.9|||||<|0.001||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||||||<0.001
82608513|NCT05110300|164933444|SUPERIORITY|||||||0.32||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.320
82608514|NCT05110300|164933445|SUPERIORITY|||||||0.2612||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.2612
82608515|NCT05110300|164933446|SUPERIORITY|||||||0.541||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.5410
82657374|NCT02087904|165030647|SUPERIORITY||LS Mean Difference|-9.2||||0.065|TWO_SIDED|95.0|-18.95|0.56||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.56|-18.95|0.065
82657375|NCT02087904|165030647|SUPERIORITY||LS Mean Difference|-7.2||||0.145|TWO_SIDED|95.0|-16.84|2.49||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.49|-16.84|0.145
82657376|NCT02087904|165030648|SUPERIORITY||LS Mean Difference|-3.2||||0.558|TWO_SIDED|95.0|-14.03|7.59||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||7.59|-14.03|0.558
82657377|NCT02087904|165030648|SUPERIORITY||LS Mean Difference|-5.8||||0.295|TWO_SIDED|95.0|-16.77|5.11||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||5.11|-16.77|0.295
82608516|NCT05110300|164933447|SUPERIORITY|||||||0.6282||||||The a priori threshold for statistical significance was p\<0.05.|Wilcoxon (Mann-Whitney)|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.6282
82608517|NCT05110300|164933447|SUPERIORITY|||||||0.5056||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.5056
82608518|NCT05110300|164933448|SUPERIORITY|||||||0.558||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.5580
82608519|NCT05110300|164933449|SUPERIORITY|||||||0.0897||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|Mixed Models Analysis|Because some values are missing, these data were analyzed by fitting a mixed model, rather than by repeated measures ANOVA.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0897
82608520|NCT05110300|164933450|SUPERIORITY|||||||0.0549||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.0549
82608521|NCT05110300|164933450|SUPERIORITY|||||||0.05626||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.05626
82608522|NCT05110300|164933451|SUPERIORITY|||||||0.0706||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.0706
82608523|NCT05110300|164933452|SUPERIORITY|||||||0.1629||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.1629
82657378|NCT02087904|165030648|SUPERIORITY||LS Mean Difference|-6.8||||0.218|TWO_SIDED|95.0|-17.63|4.04||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||4.04|-17.63|0.218
82657379|NCT02087904|165030649|SUPERIORITY||LS Mean Difference|-0.6||||0.664|TWO_SIDED|95.0|-3.58|2.28||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.28|-3.58|0.664
82608524|NCT05110300|164933453|SUPERIORITY|||||||0.4271||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.4271
82608525|NCT05110300|164933453|SUPERIORITY|||||||0.419||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.4190
82608526|NCT05110300|164933454|SUPERIORITY|||||||0.3444||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3444
82608527|NCT05110300|164933455|SUPERIORITY|||||||0.3581||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANOVA|2-Way ANOVA with Fisher's LSD correction for multiple comparisons.||To evaluate if there were differences between pre- and post-intervention data, a 2-way analysis of variance (ANOVA) was utilized, with mixed-effects analysis being utilized when data was missing.||||0.3581
82608528|NCT05110300|164933456|SUPERIORITY|||||||0.906||||||The a priori threshold for statistical significance was p\<0.05.|t-test, 2 sided|||To evaluate differences in average outcome measure score change from baseline to last study session, a 2-sided t-test was used, with non-parametric analysis used as necessary.||||0.9060
82657380|NCT02087904|165030649|SUPERIORITY||LS Mean Difference|-2.7||||0.075|TWO_SIDED|95.0|-5.67|0.28||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.28|-5.67|0.075
82657381|NCT02087904|165030649|SUPERIORITY||LS Mean Difference|-2.4||||0.107|TWO_SIDED|95.0|-5.33|0.52||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.52|-5.33|0.107
82608529|NCT05110300|164933456|SUPERIORITY|||||||0.0848||||||The a priori threshold for statistical significance was p\<0.05. The p-value reported above was the calculated and resultant P-value for this analysis.|ANCOVA|ANCOVA, with the number of sessions completed as the covariate.||Because each participant may have had a different number of BWSS sessions completed, an ANCOVA was used to assess for mean differences in outcome score change while controlling for the number of BWSS sessions completed||||0.0848
82608530|NCT01843374|164933465|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92||||0.4081|TWO_SIDED|95.0|0.76|1.12||P-value was estimated using the method of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and Line of therapy.|Log Rank|The stratification factors included EORTC status and line of therapy as recorded in IVRS/IWRS.|Tremelimumab represents the numerator and Placebo the denominator|H0: No difference between tremelimumab and placebo H1: Difference between tremelimumab and placebo||1.12|0.76|0.4081
82608531|NCT01843374|164933466|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.011||||0.926|TWO_SIDED|95.0|0.793|1.289||Estimated using the methods of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and line of therapy.|Log Rank||Tremelimumab is the numerator and Placebo the denominator|||1.289|0.793|0.926
82608532|NCT01843374|164933467|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.81||||0.0325|TWO_SIDED|95.0|0.68|0.98||Estimated using the methods of Klein et al. 2007 and Whitehead and Whitehead 1991, stratified by EORTC status and line of therapy.|Log Rank|Stratification factors were EORTC status and Line of therapy|Tremelimumab is the numerator and placebo, the denominator|||0.98|0.68|0.0325
82608533|NCT02517515|164933483|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment (SVR12) for the treatment-naïve participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR12 must exceed 84% to achieve superiority.|percentage of participants|99.5|||||TWO_SIDED|95.0|97.0|99.9||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-naïve group, the sample size 180 treatment-naïve participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||99.9|97.0|
82657382|NCT02087904|165030650|SUPERIORITY||LS Mean Difference|0.5||||0.5|TWO_SIDED|95.0|-4.26|2.08||P-value for test of difference between ABT-981 25 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||2.08|-4.26|0.5
82657383|NCT02087904|165030650|SUPERIORITY||LS Mean Difference|-2.2||||0.186|TWO_SIDED|95.0|-5.39|1.05||P-value for test of difference between ABT-981 100 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||1.05|-5.39|0.186
82657384|NCT02087904|165030650|SUPERIORITY||LS Mean Difference|-2.3||||0.157|TWO_SIDED|95.0|-5.46|0.88||P-value for test of difference between ABT-981 200 mg dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment, age, K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.88|-5.46|0.157
82657385|NCT02087904|165030651|SUPERIORITY||LS Mean Difference|0.2||||0.319|TWO_SIDED|95.0|-0.23|0.69||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.69|-0.23|0.319
82657386|NCT02087904|165030651|SUPERIORITY||LS Mean Difference|-0.1||||0.564|TWO_SIDED|95.0|-0.6|0.33||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.33|-0.6|0.564
82657387|NCT02087904|165030651|SUPERIORITY||LS Mean Difference|0.0||||0.966|TWO_SIDED|95.0|-0.45|0.47||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.47|-0.45|0.966
82657388|NCT02087904|165030652|SUPERIORITY||LS Mean Difference|0.1||||0.602|TWO_SIDED|95.0|-0.41|0.7||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.7|-0.41|0.602
82657389|NCT02087904|165030652|SUPERIORITY||LS Mean Difference|0.0||||0.953|TWO_SIDED|95.0|-0.55|0.58||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.58|-0.55|0.953
82657390|NCT02087904|165030652|SUPERIORITY||LS Mean Difference|-0.1||||0.83|TWO_SIDED|95.0|-0.61|0.49||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.49|-0.61|0.83
82657391|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|0.7||||0.804|TWO_SIDED|95.0|-4.91|6.33||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||6.33|-4.91|0.804
82657392|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|-1.1||||0.699|TWO_SIDED|95.0|-6.9|4.63||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||4.63|-6.9|0.699
82657393|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|1.4||||0.636|TWO_SIDED|95.0|-4.37|7.14||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||7.14|-4.37|0.636
82657394|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|0.9||||0.756|TWO_SIDED|95.0|-4.91|6.76||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||6.76|-4.91|0.756
82608534|NCT02517515|164933483|SUPERIORITY|The superiority of the rate of sustained virologic response at 12 weeks after treatment for the treatment-experienced participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with sustained virologic response at 12 weeks after treatment must exceed 75% to achieve superiority.|percentage of participants|100.0|||||TWO_SIDED|95.0|97.4|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||100.0|97.4|
82608535|NCT02517515|164933484|SUPERIORITY|The superiority of the rate of sustained virologic response at 24 weeks after treatment (SVR24) for the treatment-naïve participants in the Double-blind 3-DAA group as compared with the historical rate for treatment-naïve patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% confidence interval (95% CI) for the percentage of participants with SVR24 must exceed 84% to achieve superiority.|percentage of participants|99.5|||||TWO_SIDED|95.0|97.0|99.9||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||99.9|97.0|
82608536|NCT02517515|164933484|SUPERIORITY|The superiority of the rate of sustained virologic response at 24 weeks after treatment (SVR24) for the treatment-experienced participants in the double-blind 3-DAA group as compared with the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV was analyzed; the lower confidence bound of the 2-sided 95% CI for the percentage of participants with SVR24 must exceed 75% to achieve superiority.|percentage of participants|100.0|||||TWO_SIDED|95.0|97.4|100.0||||||Based on a 2-sided significance level of 0.05 and an underlying rate of 96% for the Double-blind 3-DAA treatment-experienced group, the sample size 180 treatment-experienced participants provided \>90% power to demonstrate superiority of the regimen to the historical rate for treatment-experienced patients treated with TVR + pegIFN + RBV (80%) (based on one-sample chi-square test of a single binomial proportion for superiority).||100.0|97.4|
82608537|NCT02396147|164933502|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|87.09|||||TWO_SIDED|90.0|58.56|129.52|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (reference)\*100|||129.52|58.56|
82608538|NCT02396147|164933502|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|83.09|||||TWO_SIDED|90.0|59.95|115.18|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||115.18|59.95|
82608539|NCT02396147|164933502|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|78.59|||||TWO_SIDED|90.0|52.88|116.79|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||116.79|52.88|
82608540|NCT02396147|164933502|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.23|||||TWO_SIDED|90.0|67.98|130.61|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||130.61|67.98|
82608541|NCT02396147|164933503|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.53|||||TWO_SIDED|90.0|74.83|119.4|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (Reference) \*100|||119.40|74.83|
82657395|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|-5.6||||0.068|TWO_SIDED|95.0|-11.55|0.42||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||0.42|-11.55|0.068
82608542|NCT02396147|164933503|SUPERIORITY_OR_OTHER||Geometric Mean Ration|77.99|||||TWO_SIDED|90.0|64.29|94.61|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||94.61|64.29|
82608543|NCT02396147|164933503|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|81.08|||||TWO_SIDED|90.0|64.21|102.37|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||102.37|64.21|
82608544|NCT02396147|164933503|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|92.78|||||TWO_SIDED|90.0|76.48|112.55|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||112.55|76.48|
82608545|NCT02396147|164933504|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|94.43|||||TWO_SIDED|90.0|74.85|119.12|||||T4 Formulation B Fasted (test)/T2 Formulation Fasted (reference) \* 100|||119.12|74.85|
82608546|NCT02396147|164933504|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|78.09|||||TWO_SIDED|90.0|64.53|94.51|||||T4 Formulation C Fasted (test)/T2 Formulation Fasted (reference) \* 100|||94.51|64.53|
82657396|NCT02087904|165030653|SUPERIORITY||LS Mean Difference|-1.4||||0.649|TWO_SIDED|95.0|-7.34|4.58||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||4.58|-7.34|0.649
82608547|NCT02396147|164933504|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|81.16|||||TWO_SIDED|90.0|64.36|102.34|||||T4 Formulation B Fed (test)/T4 Formulation B Fasted (reference) \* 100|||102.34|64.36|
82608548|NCT02396147|164933504|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|92.99|||||TWO_SIDED|90.0|76.84|112.54|||||T4 Formulation C Fed (test)/T4 Formulation C Fasted (reference) \* 100|||112.54|76.84|
82608549|NCT01362322|164933526|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-diphtheria (anti-D) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted radio|0.96|||||TWO_SIDED|95.0|0.85|1.09|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to diphteria vaccine antigens, one month after booster vaccination.||1.09|0.85|
82657397|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|-1.0||||0.75|TWO_SIDED|95.0|-7.14|5.14||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||5.14|-7.14|0.75
82657398|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|-2.6||||0.409|TWO_SIDED|95.0|-8.82|3.6||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.6|-8.82|0.409
82608550|NCT01362322|164933526|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-tetanus (anti-T) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.97|||||TWO_SIDED|95.0|0.86|1.1|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to tetanus vaccine antigens, one month after booster vaccination.||1.1|0.86|
82608551|NCT01362322|164933527|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-pertussis toxoid (anti-PT) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.92|||||TWO_SIDED|95.0|0.82|1.04|||ANCOVA|||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to pertussis toxoid vaccine antigens, one month after booster vaccination.||1.04|0.82|
82608552|NCT01362322|164933527|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-filamentous haemagglutinin (anti-FHA) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted Ratio|0.92|||||TWO_SIDED|95.0|0.83|1.03||||||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to filamentous haemagglutinin vaccine antigens, one month after booster vaccination.||1.03|0.83|
82608553|NCT01362322|164933527|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit (UL) of the 95% confidence interval (CI) on the geometric mean concentration (GMC) ratios \[Boostrix-Prev Group over Boostrix-New Group\] for anti-pertactin (anti-PRN) antibodies was ≤ 1.5 (clinical limit for non-inferiority).|Adjusted ratio|0.98|||||TWO_SIDED|95.0|0.85|1.13||||||Analysis was performed to demonstrate that Boostrix administered using the new syringe presentation was non-inferior to Boostrix administered using the previous syringe presentation, in terms of immune response to pertactin vaccine antigens, one month after booster vaccination.||1.13|0.85|
82608554|NCT01009463|164933539|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.181|TWO_SIDED|95.0|0.72|1.06|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.06|0.72|0.181
82608555|NCT01009463|164933539|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66|||<|0.001|TWO_SIDED|95.0|0.54|0.81||Nominal p-value|Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||0.81|0.54|<0.001
82608556|NCT01009463|164933539|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.85||||0.109|TWO_SIDED|95.0|0.7|1.04|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.04|0.70|0.109
82608557|NCT01009463|164933540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.43|TWO_SIDED|95.0|0.76|1.13|||Regression, Cox|||||1.13|0.76|0.430
82608558|NCT01009463|164933540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.72||||0.002|TWO_SIDED|95.0|0.59|0.89||Nominal p-value|Regression, Cox|||||0.89|0.59|0.002
82608559|NCT01009463|164933540|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85||||0.114|TWO_SIDED|95.0|0.69|1.04|||Regression, Cox|||||1.04|0.69|0.114
82608560|NCT01009463|164933541|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.84||||0.125|TWO_SIDED|95.0|0.67|1.05|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable.||||1.05|0.67|0.125
82608561|NCT01009463|164933541|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.62|||<|0.001|TWO_SIDED|95.0|0.49|0.78||Nominal p-value|Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||0.78|0.49|<0.001
82657399|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|-3.0||||0.338|TWO_SIDED|95.0|-9.24|3.18||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.18|-9.24|0.338
82657400|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|0.7||||0.817|TWO_SIDED|95.0|-5.59|7.08||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||7.08|-5.59|0.817
82657401|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|-2.0||||0.544|TWO_SIDED|95.0|-8.37|4.43||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||4.43|-8.37|0.544
82657402|NCT02087904|165030654|SUPERIORITY||LS Mean Difference|-2.5||||0.437|TWO_SIDED|95.0|-8.91|3.86||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||3.86|-8.91|0.437
82608562|NCT01009463|164933541|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.064|TWO_SIDED|95.0|0.64|1.01|||Generalized Linear Model|Assuming Negative Binomial distribution with logarithm of time on treatment as an offset variable||||1.01|0.64|0.064
82608563|NCT01009463|164933542|SUPERIORITY_OR_OTHER||Least squares mean difference|0.041||||0.011|TWO_SIDED|95.0|0.009|0.072||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.072|0.009|0.011
82608564|NCT01009463|164933542|SUPERIORITY_OR_OTHER||Least squares mean difference|0.058|||<|0.001|TWO_SIDED|95.0|0.027|0.09||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.090|0.027|<0.001
82608565|NCT01009463|164933542|SUPERIORITY_OR_OTHER||Least squares mean difference|0.064|||<|0.001|TWO_SIDED|95.0|0.033|0.096||Nominal p-value|Mixed Models Analysis|Restricted maximum likelihood (REML)-based repeated measures approach (MMRM).||||0.096|0.033|<0.001
82608566|NCT00430781|164933543|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.535||90.0|0.65|1.7||Stratified log-rank test with one-sided p-value. p\<=0.0037 required for significance, and p\>0.4956 indicated futility.|Log Rank||The estimated value is the hazard ratio comparing combination to lapatinib monotherapy|||1.7|0.65|0.535
82608567|NCT00430781|164933546|SUPERIORITY_OR_OTHER|||||||0.237||95.0||||One-sided p-value.|Fisher Exact|||||||0.237
82608568|NCT00430781|164933550|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.66||||0.013||90.0|0.48|0.91||Stratified log-rank test with one-sided p-value.|Log Rank|||||0.91|0.48|0.013
82608569|NCT00917384|164933579|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.776||||0.0473||95.0|0.603|0.998|||Stratified Log-Rank Test|Stratified Log-Rank Test and HR stratified by randomization strata (weight loss over the prior 3 months, primary tumor site and geographical region).||||0.998|0.603|0.0473
82608570|NCT00917384|164933580|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.483|||<|0.0001|TWO_SIDED|95.0|0.376|0.62|||Stratified Log-Rank Test|Stratified Log-Rank Test and HR stratified by randomization strata (weight loss over the prior 3 months, primary tumor site and geographical region).||||0.620|0.376|<0.0001
82608571|NCT00917384|164933581|SUPERIORITY_OR_OTHER_LEGACY||Difference Between Arms|24.2|||<|0.0001|TWO_SIDED|95.0|14.9|33.6|||Normal Approximation|||||33.6|14.9|<0.0001
82608572|NCT01532453|164933593|SUPERIORITY_OR_OTHER|||||||0.0278|TWO_SIDED|||||Rank ANCOVA With treatment, center, gender, transplanted organ as factors and age of organ transplant as a covariable.|ANCOVA|||||||0.0278
82608573|NCT01532453|164933594|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.579|||<|0.05|TWO_SIDED|95.0|0.2703|1.2405|||ANCOVA|||||1.2405|0.2703|<0.05
82608574|NCT01458340|164933598|SUPERIORITY||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.69||0.6026|ONE_SIDED|95.0||3.2||α=0.05 significance level.|Mixed Model for Repeated Measures (MMRM)|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||3.2||0.6026
82608575|NCT01458340|164933598|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.69||0.4844|ONE_SIDED|95.0||2.7||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||2.7||0.4844
82608576|NCT01458340|164933599|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|2.17||0.5269|ONE_SIDED|95.0||3.7||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||3.7||0.5269
82608577|NCT01458340|164933599|SUPERIORITY||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|2.16||0.2092|ONE_SIDED|95.0||1.8||α=0.05 significance level.|MMRM|One-sided p-values were obtained from the pairwise comparisons between TD-9855 group and placebo group based on the final model.||||1.8||0.2092
82657403|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-2.2||||0.545|TWO_SIDED|95.0|-9.31|4.92||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||4.92|-9.31|0.545
82657404|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-0.4||||0.909|TWO_SIDED|95.0|-7.65|6.81||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||6.81|-7.65|0.909
82608578|NCT05218499|164933621|OTHER||Hazard Ratio (HR)|0.79||||0.0956|TWO_SIDED|95.0|0.6|1.06|||Regression, Cox||A hazard ratio value below 1 favors brigimadlin.|The primary estimator for the hazard ratio is the median unbiased estimator. The confidence interval (CI) for the hazard ratio is calculated as a repeated CI. The p-value is obtained using a weighted inverse normal method combining one-sided p-values from two stages.||1.06|0.60|0.0956
82608579|NCT05218499|164933622|OTHER||Odds Ratio (OR)|2.93|||||TWO_SIDED|95.0|1.52|5.67|||||An odds ratio value greater than 1 favors brigimadlin.|The primary estimator and CI for the odds ratio is by Cochran-Mantel-Haenszel.||5.67|1.52|
82608580|NCT05218499|164933624|OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.81|2.82|||||An odds ratio value greater than 1 favors brigimadlin.|Odds ratios are calculated from a logistic regression model with the stratification factor (locally advanced vs. metastatic) included as a covariate.||2.82|0.81|
82608581|NCT05218499|164933624|OTHER||Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.48|4.84|||||An odds ratio value greater than 1 favors brigimadlin.|Odds ratios are calculated from a logistic regression model with the stratification factor (locally advanced vs. metastatic) included as a covariate. Exact 95% confidence interval (CI) by Clopper and Pearson.||4.84|1.48|
82608582|NCT01575548|164933626|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.21|TWO_SIDED|95.0|0.54|1.29|||Log Rank|Stratified log rank test was used to compare DFS between the two arms.||||1.29|0.54|0.21
82608583|NCT01702805|164933639|SUPERIORITY||Risk Ratio (RR)|1.0||||0.93|TWO_SIDED|95.0|0.92|1.1|||Robust Poisson Regression|The relative risk was adjusted for birth-weight and center stratum.||Null hypothesis: A higher hemoglobin threshold for red-cell transfusions, as compared with a lower threshold, will not reduce nor increase the incidence of death or neurodevelopmental impairment in infants at 22 to 26 months of age corrected for prematurity.||1.10|0.92|0.93
82608584|NCT01238120|164933690|SUPERIORITY|||||||0.9168|||||||ANCOVA|||||||0.9168
82608585|NCT01238120|164933691|SUPERIORITY|||||||0.6536|||||||ANCOVA|||||||0.6536
82608586|NCT00736229|164933697|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison for the difference in Median glucose values during steady state across all three groups.|Kruskal-Wallis|||Median Glucose Values (mg/dl) after steady state were evaluated across the three groups (Exenatide,Moderate and Intensive) with a Kruskal-Wallis test.||||<0.001
82608587|NCT00736229|164933697|SUPERIORITY_OR_OTHER||||||<|0.001||||||Comparison of Median Glucose Values between Exenatide and Intensive Groups.|Wilcoxon (Mann-Whitney)|||Median Glucose Values (mg/dl) after steady state were evaluated between the Exenatide and Intensive study groups using a Wilcoxon Rank Sum tests.||||<0.001
82608588|NCT00736229|164933697|SUPERIORITY_OR_OTHER|||||||0.15||||||Comparison of Median Glucose Values between Exenatide and Moderate Groups.|Wilcoxon (Mann-Whitney)|||Median Glucose Values (mg/dl) after steady state were evaluated between the Exenatide and Moderate study groups using a Wilcoxon Rank Sum tests.||||0.15
82608589|NCT00736229|164933698|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Kruskal-Wallis|||Median Time (Hrs) to steady state was evaluated across the three groups (exenatide, moderate and intensive) with a Kruskal-Wallis test.||||<0.001
82608590|NCT00736229|164933698|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon (Mann-Whitney)|||Median time (hours) to steady state were evaluated between the Exenatide and Intensive study groups using a Wilcoxon Rank Sum tests.||||0.80
82608591|NCT00736229|164933698|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Median time (hours) to steady state were evaluated between the Exenatide and Moderate study groups using a Wilcoxon Rank Sum tests.||||<0.001
82608592|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|103.0|||||TWO_SIDED|90.0|90.7|117.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects.||||117|90.7|
82608593|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|92.6|||||TWO_SIDED|90.0|78.1|110.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects.||||110|78.1|
82608594|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|102.0|||||TWO_SIDED|90.0|85.7|120.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||120|85.7|
82608595|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|88.9|||||TWO_SIDED|90.0|78.4|101.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||101|78.4|
82608596|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|100.0|||||TWO_SIDED|90.0|87.7|114.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale||||114|87.7|
82608597|NCT02498652|164933744|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|101.0|||||TWO_SIDED|90.0|85.5|119.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||119|85.5|
82608598|NCT02498652|164933747|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|100.0|||||TWO_SIDED|90.0|94.3|107.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||107|94.3|
82608599|NCT02498652|164933747|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.0|||||TWO_SIDED|90.0|90.4|106.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||106|90.4|
82657405|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-4.0||||0.278|TWO_SIDED|95.0|-11.23|3.25||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Intermittent pain||3.25|-11.23|0.278
82657406|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-1.2||||0.732|TWO_SIDED|95.0|-8.42|5.92||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||5.92|-8.42|0.732
82657407|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-4.6||||0.216|TWO_SIDED|95.0|-11.86|2.69||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||2.69|-11.86|0.216
82657408|NCT02087904|165030655|SUPERIORITY||LS Mean Difference|-9.2||||0.014|TWO_SIDED|95.0|-16.42|-1.88||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Constant pain||-1.88|-16.42|0.014
82608600|NCT02498652|164933747|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|104.0|||||TWO_SIDED|90.0|94.5|114.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||114|94.5|
82608601|NCT02498652|164933747|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|92.0|||||TWO_SIDED|90.0|86.7|97.7|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||97.7|86.7|
82608602|NCT02498652|164933747|NON_INFERIORITY|Informal BE assessment using the conventional BE limits of 80% to 125%.|Geometric Least Squares Mean Ratio (%)|98.9|||||TWO_SIDED|90.0|91.0|107.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||107|91.0|
82608603|NCT02498652|164933747|NON_INFERIORITY_OR_EQUIVALENCE|Informal BE assessment using the conventional BE limits of 80% to 125%|Geometric Least Squares Mean Ratio (%)|97.5|||||TWO_SIDED|90.0|92.8|102.0|||Mixed Models Analysis|Fixed effect for treatment and random effects for subjects. GLMSRs are back-transformed to the original scale.||||102|92.8|
82608604|NCT06129487|164933762|SUPERIORITY|||||||0.256|||||||ANCOVA|||||||0.256
82608605|NCT00847613|164933763|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|36.48|||<|0.0001|TWO_SIDED|95.0|27.73|45.23||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||45.23|27.73|<0.0001
82608606|NCT00847613|164933763|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|26.13|||<|0.0001|TWO_SIDED|95.0|17.28|34.97||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of each dose of CP-690,550 to placebo.||34.97|17.28|<0.0001
82608607|NCT00847613|164933764|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.19||0.0376|TWO_SIDED|95.0|-0.79|-0.02||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Change at Month 6: Linear mixed model with treatment effect and site location as fixed effects and baseline value as covariate was used for the analysis.||-0.02|-0.79|0.0376
82608608|NCT00847613|164933764|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.2||0.0792|TWO_SIDED|95.0|-0.73|0.04||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||Change at Month 6: Linear mixed model with treatment effect and site location as fixed effects and baseline value as covariate was used for the analysis.||0.04|-0.73|0.0792
82608609|NCT00847613|164933765|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.49|-0.31||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in mTSS had to be significant.|Mixed Models Analysis|||Change at Month 3: Least squares mean difference and corresponding 95% confidence interval (CI) was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.31|-0.49|<0.0001
82608610|NCT00847613|164933765|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.05||0.0002|TWO_SIDED|95.0|-0.34|-0.16||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in mTSS had to be statistically significant.|Mixed Models Analysis|||Change at Month 3: Least squares mean difference and corresponding 95% CI was calculated using a mixed-effect repeated measure model with treatment, visit and treatment-by-visit interaction as fixed effect and participant as random effect.||-0.16|-0.34|0.0002
82608611|NCT00847613|164933766|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|14.4|||<|0.0001|TWO_SIDED|95.0|9.44|19.36||A step-down procedure was used to control for multiple comparisons. For comparison of 10 mg to placebo to be statistically significant in this measure, comparison of 10 mg to placebo in HAQ-DI had to be significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||19.36|9.44|<0.0001
82608612|NCT00847613|164933766|SUPERIORITY_OR_OTHER_LEGACY||Percent difference|5.61||||0.0034|TWO_SIDED|95.0|1.85|9.38||A step-down procedure was used to control for multiple comparisons. For comparison of 5 mg to placebo to be statistically significant, comparison of 10 mg to placebo and comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal approximation|||Normal approximation to the binomial distribution was used to test the superiority of CP-690,550 10 mg to placebo and two-sided 95% CI was evaluated for the difference in percentages.||9.38|1.85|0.0034
82608613|NCT00754390|164933829|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary calcium does not affect zinc absorption||||0.17
82608614|NCT00754390|164933829|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary Phytate does not affect zinc absorption||||0.0002
82608615|NCT00754390|164933829|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||Mixed Models Analysis|||Two-way mixed model analysis of variance was used to test for main effect of dietary calcium and phytate and their interaction. Null Hypothesis: Dietary calcium and dietary phytate do not affect zinc absorption. Eight women were required to detect a difference in zinc absorption of 7 percentage points with a power of 90%, alpha level of 0.05.||||0.09
82657409|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.0||||0.874|TWO_SIDED|95.0|-0.56|0.66||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.66|-0.56|0.874
82657410|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|-0.2||||0.451|TWO_SIDED|95.0|-0.86|0.38||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.38|-0.86|0.451
82657411|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.3||||0.331|TWO_SIDED|95.0|-0.31|0.93||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.93|-0.31|0.331
82657412|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.0||||0.932|TWO_SIDED|95.0|-0.73|0.67||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.67|-0.73|0.932
82608616|NCT04322708|164933830|SUPERIORITY||Percent Difference from Placebo|81.6|||<|0.0001|TWO_SIDED|95.0|71.5|89.0|||Fisher Exact|||||89.0|71.5|<0.0001
82608617|NCT04322708|164933830|SUPERIORITY||Percent Difference from Placebo|77.0|||<|0.0001|TWO_SIDED|95.0|66.1|85.4|||Fisher Exact|||||85.4|66.1|<0.0001
82608618|NCT04322708|164933831|SUPERIORITY||LSM Difference from Placebo|2.7||||0.247|TWO_SIDED|95.0|-1.9|7.3|||ANCOVA|||||7.3|-1.9|0.2470
82608619|NCT04322708|164933831|SUPERIORITY||LSM Difference from Placebo|-2.8||||0.2372|TWO_SIDED|95.0|-7.3|1.8|||ANCOVA|||||1.8|-7.3|0.2372
82608620|NCT04322708|164933832|SUPERIORITY||LSM Difference from Placebo|-95.7|||<|0.0001|TWO_SIDED|95.0|-109.0|-82.4|||ANCOVA|||||-82.4|-109|<0.0001
82608621|NCT04322708|164933832|SUPERIORITY||LSM Difference from Placebo|-96.2|||<|0.0001|TWO_SIDED|95.0|-110.0|-82.5|||ANCOVA|||||-82.5|-110|<0.0001
82608622|NCT04322708|164933833|SUPERIORITY||Percent Difference from Placebo|83.8|||<|0.0001|TWO_SIDED|95.0|74.4|90.8|||Fisher Exact|||||90.8|74.4|<0.0001
82608623|NCT04322708|164933833|SUPERIORITY||Percent Difference from Placebo|80.3|||<|0.0001|TWO_SIDED|95.0|69.8|87.9|||Fisher Exact|||||87.9|69.8|<0.0001
82608624|NCT04322708|164933834|SUPERIORITY||Percent Difference from Placebo|77.3|||<|0.0001|TWO_SIDED|95.0|66.4|85.5|||Fisher Exact|||||85.5|66.4|<0.0001
82608625|NCT04322708|164933834|SUPERIORITY||Percent Difference from Placebo|72.7|||<|0.0001|TWO_SIDED|95.0|61.3|81.9|||Fisher Exact|||||81.9|61.3|<0.0001
82608626|NCT04322708|164933835|SUPERIORITY||Percent Difference from Placebo|36.5|||<|0.0001|TWO_SIDED|95.0|22.9|49.5|||Fisher Exact|||||49.5|22.9|<0.0001
82608627|NCT04322708|164933835|SUPERIORITY||Percent Difference from Placebo|49.5|||<|0.0001|TWO_SIDED|95.0|35.9|61.0|||Fisher Exact|||||61.0|35.9|<0.0001
82608628|NCT04322708|164933836|SUPERIORITY||Percent Difference from Placebo|-4.8||||0.5561|TWO_SIDED|95.0|-19.2|10.0|||Fisher Exact|||||10.0|-19.2|0.5561
82608629|NCT04322708|164933836|SUPERIORITY||Percent Difference from Placebo|4.9||||0.5554|TWO_SIDED|95.0|-9.9|19.6|||Fisher Exact|||||19.6|-9.9|0.5554
82608630|NCT04322708|164933837|SUPERIORITY||LSM Difference from Placebo|-0.6||||0.9506|TWO_SIDED|95.0|-18.1|17.0|||ANCOVA|||||17.0|-18.1|0.9506
82608631|NCT04322708|164933837|SUPERIORITY||LSM Difference from Placebo|-17.6||||0.0511|TWO_SIDED|95.0|-35.4|0.1|||ANCOVA|||||0.1|-35.4|0.0511
82608632|NCT04322708|164933838|SUPERIORITY||LSM Difference from Placebo|2.6||||0.2007|TWO_SIDED|95.0|-1.4|6.7|||Mixed Models Analysis|||Weeks 23-24 Change from Baseline||6.7|-1.4|0.2007
82657413|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|-0.3||||0.344|TWO_SIDED|95.0|-1.07|0.37||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.37|-1.07|0.344
82657414|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.3||||0.489|TWO_SIDED|95.0|-0.47|0.97||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.97|-0.47|0.489
82608633|NCT04322708|164933838|SUPERIORITY||LSM Difference from Placebo|-2.7||||0.1889|TWO_SIDED|95.0|-6.8|1.3|||Mixed Models Analysis|||Weeks 23-24 Change from Baseline||1.3|-6.8|0.1889
82608634|NCT04322708|164933839|SUPERIORITY||LSM Difference from Placebo|-0.3||||0.498|TWO_SIDED|95.0|-1.3|0.6|||ANCOVA|||||0.6|-1.3|0.4980
82608635|NCT04322708|164933839|SUPERIORITY||LSM Difference from Placebo|0.2||||0.639|TWO_SIDED|95.0|-0.7|1.2|||ANCOVA|||||1.2|-0.7|0.6390
82608636|NCT04323488|164933847|OTHER|||||||0.925||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.925
82608637|NCT04323488|164933847|OTHER|||||||0.834||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.834
82608638|NCT04323488|164933847|OTHER|||||||0.18||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.180
82657415|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.2||||0.498|TWO_SIDED|95.0|-0.42|0.85||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.85|-0.42|0.498
82657416|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.2||||0.637|TWO_SIDED|95.0|-0.8|0.49||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.49|-0.8|0.637
82657417|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.3||||0.367|TWO_SIDED|95.0|-0.35|0.94||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.94|-0.35|0.367
82657418|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.1||||0.67|TWO_SIDED|95.0|-0.51|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.79|-0.51|0.67
82657419|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|-0.1||||0.776|TWO_SIDED|95.0|-0.76|0.57||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.57|-0.76|0.776
82608639|NCT04323488|164933847|OTHER|||||||0.091||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.091
82608640|NCT04323488|164933848|OTHER|||||||0.524||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.524
82608641|NCT04323488|164933848|OTHER|||||||0.379||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.379
82608642|NCT04323488|164933848|OTHER|||||||0.01||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.010
82608643|NCT04323488|164933848|OTHER|||||||0.017||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.017
82608644|NCT04323488|164933849|OTHER|||||||0.6||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.60
82608645|NCT04323488|164933849|OTHER|||||||0.03||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.03
82608646|NCT04323488|164933849|OTHER|||||||0.6|||||||t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.60
82608647|NCT04323488|164933849|OTHER|||||||0.03||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.03
82608648|NCT04323488|164933850|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||< 0.001
82608649|NCT04323488|164933850|OTHER|||||||0.29||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and post-intervention (within 2 weeks post-intervention)||||0.29
82608650|NCT04323488|164933850|OTHER||||||<|0.001||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||< 0.001
82608651|NCT04323488|164933850|OTHER|||||||0.26||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||Within-group analysis of change from baseline and 1 year follow up||||0.26
82608652|NCT05755438|164933860|SUPERIORITY||Odds Ratio (OR)|3.09||||0.0003|TWO_SIDED|95.0|1.659|5.744|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||5.744|1.659|0.0003
82608653|NCT05755438|164933860|SUPERIORITY||Response Rate Difference|23.9|STANDARD_DEVIATION|6.372|||TWO_SIDED|95.0|11.42|36.39||||||||36.39|11.42|
82608654|NCT05755438|164933861|SUPERIORITY||Odds Ratio (OR)|2.91||||0.0034|TWO_SIDED|95.0|1.4|6.033|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||6.033|1.400|0.0034
82608655|NCT05755438|164933861|SUPERIORITY||Response Rate Difference|16.77|STANDARD_ERROR_OF_MEAN|5.587|||TWO_SIDED|95.0|5.82|27.72||||||||27.72|5.82|
82608656|NCT05755438|164933862|SUPERIORITY||Odds Ratio (OR)|4.46||||0.0164|TWO_SIDED|95.0|1.206|16.485|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||16.485|1.206|0.0164
82608657|NCT05755438|164933862|SUPERIORITY||Response Rate Difference|8.75|STANDARD_ERROR_OF_MEAN|3.591|||TWO_SIDED|95.0|1.71|15.79||||||||15.79|1.71|
82608658|NCT05755438|164933863|SUPERIORITY||Odds Ratio (OR)|4.67||||0.0048|TWO_SIDED|95.0|1.486|14.647|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||14.647|1.486|0.0048
82657420|NCT02087904|165030656|SUPERIORITY||LS Mean Difference|0.3||||0.387|TWO_SIDED|95.0|-0.37|0.96||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.96|-0.37|0.387
82608659|NCT05755438|164933863|SUPERIORITY||Response Rate Difference|11.66|STANDARD_ERROR_OF_MEAN|4.06|||TWO_SIDED|95.0|3.71|19.62||||||||19.62|3.71|
82608660|NCT05755438|164933864|SUPERIORITY||Odds Ratio (OR)|3.5||||0.0064|TWO_SIDED|95.0|1.422|8.608|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by IGA-CPG-S score (2 or ≥3) and geographic region (North America or outside of North America).||||8.608|1.422|0.0064
82608661|NCT05755438|164933864|SUPERIORITY||Response Rate Difference|14.35|STANDARD_ERROR_OF_MEAN|5.008|||TWO_SIDED|95.0|4.54|24.17||||||||24.17|4.54|
82657421|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.2||||0.661|TWO_SIDED|95.0|-0.86|0.54||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.54|-0.86|0.661
82608662|NCT05755438|164933865|SUPERIORITY||Least squares Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.28||0.0005|TWO_SIDED|95.0|-1.54|-0.44|||Mixed Model for Repeated Measures (MMRM)|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||-0.44|-1.54|0.0005
82608663|NCT05755438|164933865|SUPERIORITY||Least Squares Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|0.352|<|0.0001|TWO_SIDED|95.0|-2.11|-0.73|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||-0.73|-2.11|<0.0001
82608664|NCT05755438|164933865|SUPERIORITY||Least Squares Mean Difference|-1.69|STANDARD_ERROR_OF_MEAN|0.378|<|0.0001|TWO_SIDED|95.0|-2.43|-0.94|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||-0.94|-2.43|<0.0001
82608665|NCT05755438|164933865|SUPERIORITY||Least Squares Mean Difference|-1.67|STANDARD_ERROR_OF_MEAN|0.386|<|0.0001|TWO_SIDED|95.0|-2.43|-0.91|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||-0.91|-2.43|<0.0001
82608666|NCT05755438|164933868|SUPERIORITY||Hazard Ratio (HR)|1.925|||<|0.0001|TWO_SIDED|95.0|1.406|2.636|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||2.636|1.406|<0.0001
82608667|NCT05755438|164933869|SUPERIORITY||Hazard Ratio (HR)|2.111||||0.0002|TWO_SIDED|95.0|1.419|3.139|||Log Rank|Log-rank test stratified by randomization stratification factors between treatment and vehicle.|Cox regression model stratified by stratification factors (Baseline IGA 2/3, Region North America/ Outside of North America) was conducted to compare the difference in hazard rate between treatment and vehicle.|||3.139|1.419|0.0002
82608668|NCT05755438|164933872|SUPERIORITY||Least Squares Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.264||0.0111|TWO_SIDED|95.0|-1.2|-0.16|||Mixed Model for Repeated Measures|||Week 2||-0.16|-1.20|0.0111
82499416|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.092||||90.0|0.18|0.483|||ANCOVA|||Extension Month 30; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.483|0.180|
82608669|NCT05755438|164933872|SUPERIORITY||Least Squares Mean Difference|-1.15|STANDARD_ERROR_OF_MEAN|0.342||0.001|TWO_SIDED|95.0|-1.82|-0.47|||Mixed Model for Repeated Measures|||Week 4||-0.47|-1.82|0.0010
82608670|NCT05755438|164933872|SUPERIORITY||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.372||0.0034|TWO_SIDED|95.0|-1.84|-0.37|||Mixed Model for Repeated Measures|||Week 8||-0.37|-1.84|0.0034
82608671|NCT05755438|164933872|SUPERIORITY||Least Squares Mean Difference|-1.13|STANDARD_ERROR_OF_MEAN|0.387||0.0038|TWO_SIDED|95.0|-1.9|-0.37|||Mixed Model for Repeated Measures|||Week 12||-0.37|-1.90|0.0038
82608672|NCT05755438|164933878|SUPERIORITY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.826||0.8028|TWO_SIDED|95.0|-1.84|1.42|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||1.42|-1.84|0.8028
82608673|NCT05755438|164933878|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.928||0.7151|TWO_SIDED|95.0|-2.17|1.49|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||1.49|-2.17|0.7151
82608674|NCT05755438|164933878|SUPERIORITY||Least Squares Mean Difference|-1.08|STANDARD_ERROR_OF_MEAN|0.947||0.2569|TWO_SIDED|95.0|-2.95|0.79|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||0.79|-2.95|0.2569
82608675|NCT05755438|164933878|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|0.971||0.1555|TWO_SIDED|95.0|-3.3|0.53|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||0.53|-3.30|0.1555
82608676|NCT05755438|164933880|SUPERIORITY||Least Squares Mean Difference|4.9|STANDARD_ERROR_OF_MEAN|2.722||0.0736|TWO_SIDED|95.0|-0.47|10.27|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 2||10.27|-0.47|0.0736
82608677|NCT05755438|164933880|SUPERIORITY||Least Squares Mean Difference|3.31|STANDARD_ERROR_OF_MEAN|2.729||0.2265|TWO_SIDED|95.0|-2.07|8.69|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 4||8.69|-2.07|0.2265
82608678|NCT05755438|164933880|SUPERIORITY||Least Squares Mean Difference|7.31|STANDARD_ERROR_OF_MEAN|3.061||0.018|TWO_SIDED|95.0|1.27|13.35|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 8||13.35|1.27|0.0180
82608679|NCT05755438|164933880|SUPERIORITY||Least Squares Mean Difference|5.9|STANDARD_ERROR_OF_MEAN|3.119||0.06|TWO_SIDED|95.0|-0.25|12.06|||Mixed Model for Repeated Measures|MMRM model: (Response Variable = Treatment + Stratification Factors \[IGA-CPG-S/Region\] + Visit + Treatment\*Visit)||Week 12||12.06|-0.25|0.0600
82608680|NCT03478683|164933923|NON_INFERIORITY|Non-inferiority was to be demonstrated, if the lower bound of the two-sided 95 percentage (%) confidence interval around the (FF/UMEC/VI versus BUD/FOR+TIO) treatment difference was above -50 milliliter.|Mean Difference (Net)|0.015|STANDARD_ERROR_OF_MEAN|0.0143|||TWO_SIDED|95.0|-0.013|0.043|||||The primary treatment effect estimated (hypothetical effect) excluded data following intercurrent events: discontinuation of treatment, taking wrong treatment, taking prohibited medication, unblinding, noncompliance, COPD exacerbation or pneumonia.|||0.043|-0.013|
82608681|NCT03478683|164933924|SUPERIORITY||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.0139||0.481|TWO_SIDED|95.0|-0.037|0.018||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 2 using p-values.|Mixed model repeated measures||Day 2|||0.018|-0.037|0.481
82492395|NCT02100514|164677926|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-45.7|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-49.7|-41.7|||MMRM|||Week 12: LS mean difference and associated 95% CI, and p-value were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-41.7|-49.7|<0.001
82608682|NCT03478683|164933924|SUPERIORITY||Mean Difference (Net)|0.061|STANDARD_ERROR_OF_MEAN|0.0124|<|0.001|TWO_SIDED|95.0|0.037|0.086||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 28 using p-values.|Mixed model repeated measures||Day 28|||0.086|0.037|<0.001
82608683|NCT03478683|164933924|SUPERIORITY||Mean Difference (Net)|0.058|STANDARD_ERROR_OF_MEAN|0.0133|<|0.001|TWO_SIDED|95.0|0.032|0.084||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 84 using p-values.|Mixed model repeated measures||Day 84|||0.084|0.032|<0.001
82608684|NCT03478683|164933924|SUPERIORITY||Mean Difference (Net)|0.038|STANDARD_ERROR_OF_MEAN|0.014||0.007|TWO_SIDED|95.0|0.01|0.066||Only if superiority is achieved on the primary study endpoint, then inferences can be made on change from Baseline in trough FEV1 on Day 85 using p-values.|Mixed model repeated measures||Day 85|||0.066|0.010|0.007
82608685|NCT03478683|164933925|SUPERIORITY||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.011||0.415|TWO_SIDED|95.0|-0.03|0.013||Only if superiority is achieved on the primary study endpoint, then inferences can be made on weighted mean change from Baseline in FEV1 over 0-24 hours on Day 1 using p-values.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.013|-0.030|0.415
82608686|NCT03478683|164933926|SUPERIORITY||Mean Difference (Net)|0.013|STANDARD_ERROR_OF_MEAN|0.0138||0.335|TWO_SIDED|95.0|-0.014|0.04||The analysis was performed using mixed model repeated measures analysis, which included covariates of Baseline FEV1, geographical region, treatment, visit, visit by treatment and visit by Baseline interaction.|Mixed model repeated measures||The treatment effect to be estimated was hypothetical effect if all participants stayed on their randomized study treatment. Only on treatment data was included in analysis.|||0.040|-0.014|0.335
82608687|NCT02625402|164933927|EQUIVALENCE|Knowledge scores within 10% points|Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|7.6|<|0.05|TWO_SIDED|95.0|-8.8|21.5|||t-test, 2 sided|||||21.5|-8.8|<0.05
82608688|NCT00770861|164933938|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Between-treatment comparison of efficacy was performed by ANCOVA, with treatment, baseline BMI, center as factors \& baseline value as a covariate.||H0 - There was no difference in BP reduction between Neb and Placebo. The efficacy analyses were based on the ITT population for the double-blind treatment phase. The LOCF was used to impute missing postbaseline values. Sensitivity analyses were based on observed cases for all efficacy parameters. All statistical tests were two-sided hypothesis tests performed at the 5% level of significance for main effects. All confidence intervals were two-sided 95% confidence intervals.||||<0.0001
82608689|NCT00770861|164933939|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||||||0.001
82657422|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.6||||0.122|TWO_SIDED|95.0|-1.26|0.15||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.15|-1.26|0.122
82608690|NCT03439345|164933981|SUPERIORITY|For the time-to-event analyses, survival analytic methods will be used to evaluate the time to the first event during the entire study period. Cox proportional hazards regression analyses, adjusted for baseline covariates used in minimised randomisation, will be used to estimate the hazard ratios, 95% confidence intervals and corresponding p-values, comparing all participants allocated active fenofibrate with all those allocated placebo.|Hazard Ratio (HR)|0.73||||0.006|TWO_SIDED|95.0|0.58|0.91|||Regression, Cox|Adjusted for baseline covariates used in minimised randomisation.||||0.91|0.58|0.006
82608691|NCT03439345|164933982|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.72||||0.005|TWO_SIDED|95.0|0.57|0.91|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.91|0.57|0.005
82608692|NCT03439345|164933983|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.58||||0.08|TWO_SIDED|95.0|0.31|1.06|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.06|0.31|0.08
82608693|NCT03439345|164933984|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.74||||0.003|TWO_SIDED|95.0|0.61|0.9|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.90|0.61|0.003
82608694|NCT03439345|164933985|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.66||||0.001|TWO_SIDED|95.0|0.52|0.85|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.85|0.52|0.001
82608695|NCT03439345|164933986|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.5||||0.008|TWO_SIDED|95.0|0.3|0.84|||Regression, Cox|||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.84|0.30|0.008
82608696|NCT03439345|164933987|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for the baseline visual acuity.|Mean Difference (Final Values)|0.0||||0.36|TWO_SIDED|95.0|-0.01|0.01|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||0.01|-0.01|0.36
82657423|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.2||||0.507|TWO_SIDED|95.0|-0.94|0.47||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.47|-0.94|0.507
82657424|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.1||||0.892|TWO_SIDED|95.0|-0.85|0.74||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.74|-0.85|0.892
82657425|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.3||||0.433|TWO_SIDED|95.0|-1.12|0.48||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.48|-1.12|0.433
82657426|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|0.0||||0.92|TWO_SIDED|95.0|-0.84|0.76||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.76|-0.84|0.92
82657427|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|0.0||||0.957|TWO_SIDED|95.0|-0.68|0.71||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.71|-0.68|0.957
82657428|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.4||||0.222|TWO_SIDED|95.0|-1.13|0.26||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.26|-1.13|0.222
82492396|NCT02100514|164677926|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-40.9|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-45.3|-36.5||||||Week 24: LS mean difference and associated 95% CI, were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-36.5|-45.3|
82608697|NCT03439345|164933988|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline VFQ-25 composite score.|Mean Difference (Final Values)|0.0||||0.58|TWO_SIDED|95.0|-1.0|1.0|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||1|-1|0.58
82608698|NCT03439345|164933989|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline EQ-5D Index Score.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.02|0.02|||Regression, Cox|||The estimates were derived from linear mixed model repeated measures.||0.02|-0.02|0.93
82608699|NCT03439345|164933990|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for baseline EQ-5D Visual Analogue Score.|Mean Difference (Final Values)|-1.0||||0.43|TWO_SIDED|95.0|-2.0|1.0|||Regression, Cox|||The estimates were derived from a linear mixed model repeated measures||1|-2|0.43
82608700|NCT03439345|164933991|OTHER||Mean Difference (Final Values)|-254.0|||||TWO_SIDED|95.0|-1062.0|624.0||||||||624|-1062|
82608701|NCT03439345|164933992|OTHER||Incremental cost-effectiveness ratio|614.0|||||TWO_SIDED||||||||£614 cost per QALY gained based on probabilistic analysis|||||
82608702|NCT03439345|164933993|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.58|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.58|
82657429|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.4||||0.209|TWO_SIDED|95.0|-1.15|0.25||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.25|-1.15|0.209
82608703|NCT03439345|164933994|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.4|1.0||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.00|0.40|
82608704|NCT03439345|164933995|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.52|0.97||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.97|0.52|
82657430|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|0.1||||0.813|TWO_SIDED|95.0|-0.62|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.79|-0.62|0.813
82657431|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.5||||0.135|TWO_SIDED|95.0|-1.25|0.17||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.17|-1.25|0.135
82657432|NCT02087904|165030657|SUPERIORITY||LS Mean Difference|-0.1||||0.679|TWO_SIDED|95.0|-0.85|0.57||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.57|-0.85|0.679
82657433|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|0.0||||0.978|TWO_SIDED|95.0|-0.76|0.79||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.79|-0.76|0.978
82657434|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|0.0||||0.925|TWO_SIDED|95.0|-0.75|0.82||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.82|-0.75|0.925
82657435|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.2||||0.659|TWO_SIDED|95.0|-0.96|0.61||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||7-day recall period||0.61|-0.96|0.659
82657436|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.2||||0.633|TWO_SIDED|95.0|-1.1|0.67||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.67|-1.1|0.633
82608705|NCT03439345|164933996|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.55|1.07||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.07|0.55|
82608706|NCT03439345|164933997|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.51|1.21||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.21|0.51|
82608707|NCT03439345|164933998|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.54|0.93||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.93|0.54|
82608708|NCT03439345|164933999|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.28|0.93||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.93|0.28|
82608709|NCT03439345|164934000|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.77|||||TWO_SIDED|95.0|0.6|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.60|
82608710|NCT03439345|164934001|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.49|0.95||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.95|0.49|
82657437|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.3||||0.46|TWO_SIDED|95.0|-1.23|0.56||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.56|-1.23|0.46
82657438|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.2||||0.663|TWO_SIDED|95.0|-1.1|0.7||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Activity pain||0.7|-1.1|0.663
82657439|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.1||||0.696|TWO_SIDED|95.0|-0.89|0.59||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.59|-0.89|0.696
82657440|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.4||||0.278|TWO_SIDED|95.0|-1.16|0.34||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.34|-1.16|0.278
82657441|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.4||||0.357|TWO_SIDED|95.0|-1.1|0.4||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (before)||0.4|-1.1|0.357
82657442|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.1||||0.761|TWO_SIDED|95.0|-0.87|0.64||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.64|-0.87|0.761
82657443|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.5||||0.218|TWO_SIDED|95.0|-1.02|0.51||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.51|-1.02|0.218
82657444|NCT02087904|165030658|SUPERIORITY||LS Mean Difference|-0.3||||0.513|TWO_SIDED|95.0|-1.02|0.51||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Performance pain (after)||0.51|-1.02|0.513
82657445|NCT02087904|165030659|SUPERIORITY||LS Mean Difference|0.1||||0.728|TWO_SIDED|95.0|-0.52|0.75||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.75|-0.52|0.728
82657446|NCT02087904|165030659|SUPERIORITY||LS Mean Difference|-0.4||||0.219|TWO_SIDED|95.0|-1.06|0.24||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.24|-1.06|0.219
82657447|NCT02087904|165030659|SUPERIORITY||LS Mean Difference|-0.1||||0.673|TWO_SIDED|95.0|-0.79|0.51||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.51|-0.79|0.673
82657448|NCT02087904|165030660|SUPERIORITY||LS Mean Difference|0.0||||0.984|TWO_SIDED|95.0|-0.73|0.71||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.71|-0.73|0.984
82657449|NCT02087904|165030660|SUPERIORITY||LS Mean Difference|-0.5||||0.145|TWO_SIDED|95.0|-1.26|0.19||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.19|-1.26|0.145
82657450|NCT02087904|165030660|SUPERIORITY||LS Mean Difference|-0.2||||0.527|TWO_SIDED|95.0|-0.96|0.49||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.49|-0.96|0.527
82657451|NCT02087904|165030661|SUPERIORITY||LS Mean Difference|0.1||||0.836|TWO_SIDED|95.0|-0.71|0.87||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.87|-0.71|0.836
82657452|NCT02087904|165030661|SUPERIORITY||LS Mean Difference|-0.1||||0.738|TWO_SIDED|95.0|-0.94|0.66||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.66|-0.94|0.738
82657453|NCT02087904|165030661|SUPERIORITY||LS Mean Difference|-0.4||||0.3|TWO_SIDED|95.0|-1.22|0.38||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||||0.38|-1.22|0.3
82657454|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|0.5||||0.992|TWO_SIDED|95.0|-101.59|102.62||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||102.62|-101.59|0.992
82657455|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|3.6||||0.948|TWO_SIDED|95.0|-103.95|111.1||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||111.10|-103.95|0.948
82657456|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|-33.1||||0.523|TWO_SIDED|95.0|-134.76|68.65||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||68.65|-134.76|0.523
82657457|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|4.2||||0.799|TWO_SIDED|95.0|-28.47|36.95||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||36.95|-28.47|0.799
82657458|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|9.0||||0.609|TWO_SIDED|95.0|-25.62|43.64||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||43.64|-25.62|0.609
82657459|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|1.6||||0.923|TWO_SIDED|95.0|-30.97|34.19||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||34.19|-30.97|0.923
82657460|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|2.1||||0.937|TWO_SIDED|95.0|-49.88|54.08||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||54.08|-49.88|0.937
82657461|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|4.1||||0.882|TWO_SIDED|95.0|-50.68|58.95||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||58.95|-50.68|0.882
82657462|NCT02087904|165030662|SUPERIORITY||LS Mean Difference|13.8||||0.602|TWO_SIDED|95.0|-38.05|65.55||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||65.55|-38.05|0.602
82657463|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-41.7||||0.554|TWO_SIDED|95.0|-180.49|97.04||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||97.04|-180.49|0.554
82657464|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|2.7||||0.97|TWO_SIDED|95.0|-140.86|146.31||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||146.31|-140.86|0.97
82657465|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-26.1||||0.713|TWO_SIDED|95.0|-165.47|113.32||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||113.32|-165.47|0.713
82657466|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-25.1||||0.272|TWO_SIDED|95.0|-70.12|19.88||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||19.88|-70.12|0.272
82657467|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|11.1||||0.64|TWO_SIDED|95.0|-35.63|57.8||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||57.8|-35.63|0.64
82657468|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-11.8||||0.608|TWO_SIDED|95.0|-56.94|33.38||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||33.38|-56.94|0.608
82657469|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-40.3||||0.319|TWO_SIDED|95.0|-119.88|39.3||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||39.3|-119.88|0.319
82657470|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|24.4||||0.56|TWO_SIDED|95.0|-58.05|106.91||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||106.91|-58.05|0.56
82657471|NCT02087904|165030663|SUPERIORITY||LS Mean Difference|-28.1||||0.489|TWO_SIDED|95.0|-107.97|51.82||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||51.82|-107.97|0.489
82657472|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.0||||0.972|TWO_SIDED|95.0|-0.015|0.015||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.015|-0.015|0.972
82657473|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|-0.001||||0.929|TWO_SIDED|95.0|-0.017|0.015||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.015|-0.017|0.929
82657474|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|-0.005||||0.543|TWO_SIDED|95.0|-0.02|0.01||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.01|-0.02|0.543
82657475|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.008||||0.752|TWO_SIDED|95.0|-0.043|0.059||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.059|-0.043|0.752
82657476|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.011||||0.691|TWO_SIDED|95.0|-0.042|0.064||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.064|-0.042|0.691
82657477|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.01||||0.71|TWO_SIDED|95.0|-0.041|0.06||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.06|-0.041|0.71
82499417|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462|STANDARD_ERROR_OF_MEAN|0.097||||90.0|0.302|0.622|||ANCOVA|||Extension Month 33; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.622|0.302|
82657478|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.0||||0.965|TWO_SIDED|95.0|-0.019|0.02||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.02|-0.019|0.965
82657479|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|-0.002||||0.885|TWO_SIDED|95.0|-0.022|0.019||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.019|-0.022|0.885
82657480|NCT02087904|165030664|SUPERIORITY||LS Mean Difference|0.001||||0.887|TWO_SIDED|95.0|-0.018|0.021||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.021|-0.018|0.887
82657481|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.005||||0.619|TWO_SIDED|95.0|-0.024|0.014||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.014|-0.024|0.619
82657482|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.001||||0.952|TWO_SIDED|95.0|-0.02|0.019||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.019|-0.02|0.952
82657483|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.003||||0.765|TWO_SIDED|95.0|-0.022|0.016||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Global knee||0.016|-0.022|0.765
82657484|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.04||||0.258|TWO_SIDED|95.0|-0.11|0.03||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.03|-0.11|0.258
82657485|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|0.023||||0.535|TWO_SIDED|95.0|-0.049|0.094||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.094|-0.049|0.535
82657486|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.006||||0.866|TWO_SIDED|95.0|-0.076|0.064||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial central condyle + plateau||0.064|-0.076|0.866
82657487|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.012||||0.413|TWO_SIDED|95.0|-0.041|0.017||P-value for test of difference between ABT-981 25 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.017|-0.041|0.413
82657488|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|0.012||||0.445|TWO_SIDED|95.0|-0.018|0.042||P-value for test of difference between ABT-981 100 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.042|-0.018|0.445
82657489|NCT02087904|165030665|SUPERIORITY||LS Mean Difference|-0.003||||0.835|TWO_SIDED|95.0|-0.032|0.026||P-value for test of difference between ABT-981 200 mg dose group and Placebo at each postbaseline time point was from an ANCOVA model with treatment, age, and K-L grade as the main factors and baseline as a covariate.|ANCOVA|||Medial condyle + plateau||0.026|-0.032|0.835
82657490|NCT02087904|165030666|SUPERIORITY||Response Rate Difference|7.0||||0.311|TWO_SIDED|95.0|-7.3|21.4||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||21.4|-7.3|0.311
82657491|NCT02087904|165030666|SUPERIORITY||Response Rate Difference|5.5||||0.435|TWO_SIDED|95.0|-8.9|19.9||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||19.9|-8.9|0.435
82657492|NCT02087904|165030666|SUPERIORITY||Response Rate Difference|5.5||||0.435|TWO_SIDED|95.0|-8.9|19.9||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||19.9|-8.9|0.435
82657493|NCT02087904|165030667|SUPERIORITY||Response Rate Difference|2.4||||0.744|TWO_SIDED|95.0|-11.9|16.8||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||16.8|-11.9|0.744
82657494|NCT02087904|165030667|SUPERIORITY||Response Rate Difference|4.3||||0.581|TWO_SIDED|95.0|-10.1|18.7||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||18.7|-10.1|0.581
82657495|NCT02087904|165030667|SUPERIORITY||Response Rate Difference|10.4||||0.146|TWO_SIDED|95.0|-3.5|24.3||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||24.3|-3.5|0.146
82657496|NCT02087904|165030668|SUPERIORITY||Response Rate Difference|-1.3||||0.824|TWO_SIDED|95.0|-14.9|12.4||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||12.4|-14.9|0.824
82657497|NCT02087904|165030668|SUPERIORITY||Response Rate Difference|0.8||||0.964|TWO_SIDED|95.0|-12.8|14.5||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||14.5|-12.8|0.964
82657498|NCT02087904|165030668|SUPERIORITY||Response Rate Difference|2.1||||0.763|TWO_SIDED|95.0|-11.3|15.6||P-value for test of difference between each ABT-981 dose group and Placebo was from a Cochran-Mantel-Haenszel test using age group and K-L grade as stratification factors.|Cochran-Mantel-Haenszel|||||15.6|-11.3|0.763
82608711|NCT03439345|164934002|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.53|1.06||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.06|0.53|
82608712|NCT03439345|164934003|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.55|3.57||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||3.57|0.55|
82608713|NCT03439345|164934004|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.7|||||TWO_SIDED|95.0|0.48|1.03||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.03|0.48|
82608714|NCT03439345|164934005|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.56|0.99||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||0.99|0.56|
82608715|NCT03439345|164934006|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation and for the baseline UACR.|Hazard Ratio (HR)|-12.4|||||TWO_SIDED|95.0|-25.8|3.5|||||Estimates are in %.|Linear mixed model repeated measures analyses were conducted to estimate the trial-averaged percentage difference in geometric mean UACR between the randomised treatment groups. UACR data at baseline was available for 312 participants allocated fenofibrate and 310 participants allocated placebo.||3.5|-25.8|
82608716|NCT03439345|164934007|SUPERIORITY|"Adjusted for baseline covariates used in minimised randomisation.~."|Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.69|1.6||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.60|0.69|
82608717|NCT03439345|164934008|SUPERIORITY|Adjusted for baseline covariates used in minimised randomisation.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|95.0|0.11|1.12||||||Cox proportional hazards regression analyses were used to estimate the hazard ratio and 95% confidence intervals, comparing all participants allocated active fenofibrate with all those allocated placebo.||1.12|0.11|
82608718|NCT03704051|164934010|EQUIVALENCE|A priori power analysis based on pilot testing with 12 dyads indicated that a sample size of at least 40 dyads would provide 80% power to detect significant within-subjects (condition, i.e., breastfeeding directly from the breast vs. bottle-feeding expressed breast milk) effects at an α = 0.05 Type I error level.||||||0.634|||||||Mixed Models Analysis|All models adjusted for order of conditions, time since last feeding and infant age.||||||0.634
82657499|NCT00440557|165030707|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in Hb from baseline to the average of the last 8 weeks of treatment through Week 22 of -0.3 g/dL between standard-tx group (TIW) and test-tx group (QW), a pooled standard deviation of 1.7 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 250 participants (125 per group) will provide 90% power to demonstrate that the test treatment group is not inferior to the standard-treatment group for an overall 2-sided 0.05 significance level|Difference of Least Squares Means|-0.17|STANDARD_ERROR_OF_MEAN|0.106||||95.0|-0.38|0.037||This comparison between QW and TIW was performed prior to comparing Q2W with TIW in the statistical analysis 2 according to a planned stepdown procedure for controlling multiplicity.||||The null hypothesis is the mean change in Hb concentration from baseline to the average of the last 8 weeks of treatment (tX) through Week 22 in the QW group is not lower than that of the TIW group by more than 1 g/dL.||0.037|-0.380|
82608719|NCT03704051|164934011|EQUIVALENCE|A priori power analysis based on pilot testing with 12 dyads indicated that a sample size of at least 40 dyads would provide 80% power to detect significant within-subjects (condition, i.e., breastfeeding directly from the breast vs. bottle-feeding expressed breast milk) effects at an α = 0.05 Type I error level.||||||0.115|||||||Mixed Models Analysis|All models adjusted for order of conditions, time since last feeding and infant age.||||||0.115
82608720|NCT02495077|164934012|SUPERIORITY||Mean Difference (Final Values)|-4.9||||0.099|TWO_SIDED|95.0|-10.73|0.93|||Mixed Models Analysis|||Mean eGFR of the two treatment groups was compared. The p-value, estimated month 24 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence intervals result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group. Random effects for the intercept and eGFR collection day were utilized in the model.||0.93|-10.73|0.099
82608721|NCT02495077|164934013|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82608722|NCT02495077|164934014|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82608723|NCT02495077|164934016|SUPERIORITY|||||||0.746|||||||Fisher Exact|||||||0.746
82608724|NCT02495077|164934017|SUPERIORITY|||||||0.242|||||||Chi-squared|||||||0.242
82608725|NCT02495077|164934019|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82608726|NCT02495077|164934020|SUPERIORITY|||||||0.497|||||||Fisher Exact|||||||0.497
82608727|NCT02495077|164934021|SUPERIORITY|||||||0.622|||||||Fisher Exact|||||||0.622
82608728|NCT02495077|164934023|SUPERIORITY|||||||0.011|||||||Chi-squared|||||||0.011
82608729|NCT02495077|164934024|SUPERIORITY|||||||0.135|||||||Cochran-Mantel-Haenszel|||||||0.135
82608730|NCT02495077|164934025|SUPERIORITY|||||||0.157|||||||Chi-squared|||||||0.157
82608731|NCT02495077|164934026|SUPERIORITY|||||||0.071|||||||Chi-squared|||||||0.071
82608732|NCT02495077|164934027|SUPERIORITY|||||||0.543|||||||t-test, 2 sided|||||||0.543
82608733|NCT02495077|164934028|SUPERIORITY|||||||0.617|||||||t-test, 2 sided|||||||0.617
82608734|NCT02495077|164934029|SUPERIORITY|||||||0.275|||||||t-test, 2 sided|||||||0.275
82608735|NCT02495077|164934030|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||||||0.300
82608736|NCT02495077|164934031|SUPERIORITY|||||||0.152|||||||t-test, 2 sided|||||||0.152
82608737|NCT02495077|164934032|SUPERIORITY|||||||0.181|||||||t-test, 2 sided|||||||0.181
82608738|NCT02495077|164934033|SUPERIORITY||Mean Difference (Final Values)|-1.03||||0.639|TWO_SIDED|95.0|-5.37|3.3|||Mixed Models Analysis|||Day 7. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 7 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from day 7 and months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 7. Random effects for the intercept and eGFR collection day were utilized in the model.||3.30|-5.37|0.639
82608739|NCT02495077|164934034|SUPERIORITY||Mean Difference (Final Values)|-1.56||||0.51|TWO_SIDED|95.0|-6.22|3.1|||Mixed Models Analysis|||Day 30. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 30 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 30. Random effects for the intercept and eGFR collection day were utilized in the model.||3.10|-6.22|0.510
82608740|NCT02495077|164934034|SUPERIORITY||Mean Difference (Final Values)|-1.85||||0.43|TWO_SIDED|95.0|-6.45|2.76|||Mixed Models Analysis|||Day 90. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 90 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 90. Random effects for the intercept and eGFR collection day were utilized in the model.||2.76|-6.45|0.430
82608741|NCT02495077|164934034|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.328|TWO_SIDED|95.0|-6.86|2.31|||Mixed Models Analysis|||Day 180. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 180 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 180. Random effects for the intercept and eGFR collection day were utilized in the model.||2.31|-6.86|0.328
82608742|NCT02495077|164934035|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.725|TWO_SIDED|95.0|-5.58|3.89|||Mixed Models Analysis|||Day 7. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 7 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from day 7 and months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 7. Random effects for the intercept and eGFR collection day were utilized in the model.||3.89|-5.58|0.725
82608743|NCT02495077|164934036|SUPERIORITY||Mean Difference (Final Values)|-1.35||||0.601|TWO_SIDED|95.0|-6.41|3.72|||Mixed Models Analysis|||Day 30. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 30 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 30. Random effects for the intercept and eGFR collection day were utilized in the model.||3.72|-6.41|0.601
82608744|NCT02495077|164934036|SUPERIORITY||Mean Difference (Final Values)|-1.64||||0.519|TWO_SIDED|95.0|-6.66|3.37|||Mixed Models Analysis|||Day 90. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 90 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 90. Random effects for the intercept and eGFR collection day were utilized in the model.||3.37|-6.66|0.519
82657500|NCT00440557|165030707|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a difference in the mean change in Hb from baseline to the average of the last 8 weeks of treatment through Week 22 of -0.3 g/dL between standard-tx group (TIW) and test-tx group (QW), a pooled standard deviation of 1.7 g/dL, and a noninferiority margin of 1 g/dL, a sample size of approximately 250 participants (125 per group) will provide 90% power to demonstrate that the test treatment group is not inferior to the standard-treatment group for an overall 2-sided 0.05 significance level|Difference of Least Squares Means|-0.43|STANDARD_ERROR_OF_MEAN|0.107||||95.0|-0.641|-0.221||Since the non-inferiority was declared in the statistical analysis 1, this comparison between Q2W and TIW was then performed according to a planned stepdown procedure for controlling multiplicity.||||The null hypothesis is the mean change in Hb concentration from baseline to the average of the last 8 weeks of treatment through Week 22 in the Q2W group is not lower than that of the TIW group by more than 1 g/dL.||-0.221|-0.641|
82657501|NCT00440557|165030708|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-7.8||||||95.0|-17.2|1.7||||||||1.7|-17.2|
82657502|NCT00440557|165030708|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-15.0||||||95.0|-25.0|-5.0||||||||-5.0|-25.0|
82657503|NCT00440557|165030709|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.26||||||95.0|-0.564|0.043|||ANOVA|||||0.043|-0.564|
82657504|NCT00440557|165030709|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.45||||||95.0|-0.755|-0.147|||ANOVA|||||-0.147|-0.755|
82657505|NCT00440557|165030710|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-3.9||||||95.0|-9.5|1.6||||||||1.6|-9.5|
82657506|NCT00440557|165030710|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-5.5||||||95.0|-11.4|0.3||||||||0.3|-11.4|
82657507|NCT00440557|165030711|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-2.7||||||95.0|-14.2|8.7||||||||8.7|-14.2|
82657508|NCT00440557|165030711|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-9.9||||||95.0|-21.7|1.8||||||||1.8|-21.7|
82657509|NCT00440557|165030712|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|2.6||||||95.0|-9.6|14.8||||||||14.8|-9.6|
82657510|NCT00440557|165030712|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-3.0||||||95.0|-15.0|9.0||||||||9.0|-15.0|
82657511|NCT00440557|165030713|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|0.03||||||95.0|-0.21|0.27|||ANOVA|||||0.270|-0.210|
82657512|NCT00440557|165030713|SUPERIORITY_OR_OTHER||Difference of Least Squares Means|-0.07||||||95.0|-0.315|0.166|||ANOVA|||||0.166|-0.315|
82657513|NCT00440557|165030714|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-8.8||||||95.0|-16.0|-1.9||||||||-1.9|-16|
82657514|NCT00440557|165030714|SUPERIORITY_OR_OTHER||Difference in Percentage of Participants|-10.0||||||95.0|-18.0|-3.2||||||||-3.2|-18.0|
82608745|NCT02495077|164934036|SUPERIORITY||Mean Difference (Final Values)|-2.09||||0.411|TWO_SIDED|95.0|-7.08|2.91|||Mixed Models Analysis|||Day 180. Mean eGFR of the two treatment groups was compared. The p-value, estimated day 180 eGFR within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available eGFR data from months 1, 3, 6, 12, 18, and 24 to compare the experimental group to the control group at day 180. Random effects for the intercept and eGFR collection day were utilized in the model.||2.91|-7.08|0.411
82608746|NCT02495077|164934037|SUPERIORITY|||||||0.569|||||||Chi-squared|||||||0.569
82608747|NCT02495077|164934038|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82608748|NCT02495077|164934039|SUPERIORITY|||||||0.451|||||||Chi-squared|||||||0.451
82608749|NCT02495077|164934040|SUPERIORITY|||||||0.614|||||||t-test, 2 sided|||||||0.614
82608750|NCT02495077|164934041|SUPERIORITY|||||||0.71|||||||t-test, 2 sided|||||||0.710
82608751|NCT02495077|164934042|SUPERIORITY|||||||0.622|||||||Fisher Exact|||||||0.622
82608752|NCT02495077|164934043|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.256|TWO_SIDED|95.0|-0.36|1.35|||Mixed Models Analysis|||24 Hours/Day 1. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 24 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 24 hours/day 1. A random effect for the intercept was utilized in the model.||1.35|-0.36|0.256
82608753|NCT02495077|164934043|SUPERIORITY||Mean Difference (Final Values)|0.37||||0.391|TWO_SIDED|95.0|-0.48|1.23|||Mixed Models Analysis|||48 Hours/Day 2. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 48 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 48 hours/day 2. A random effect for the intercept was utilized in the model.||1.23|-0.48|0.391
82608754|NCT02495077|164934043|SUPERIORITY||Mean Difference (Final Values)|0.56||||0.199|TWO_SIDED|95.0|-0.3|1.42|||Mixed Models Analysis|||72 Hours/Day 3. Mean serum creatinine of the two treatment groups was compared. The p-value, estimated 72 hour creatinine level within each treatment group, estimate of the treatment group difference, and estimated 95% confidence interval result from a repeated measures mixed model using available serum creatinine data from 24, 48, and 72 hours to compare the experimental group to the control group at 72 hours/day 3. A random effect for the intercept was utilized in the model.||1.42|-0.30|0.199
82608755|NCT02495077|164934044|SUPERIORITY|||||||0.812|||||||Log Rank|||||||0.812
82608756|NCT02495077|164934045|SUPERIORITY|||||||0.576|||||||Chi-squared|||||||0.576
82608757|NCT02495077|164934046|SUPERIORITY|||||||0.311|||||||t-test, 2 sided|||||||0.311
82608758|NCT02495077|164934047|SUPERIORITY|||||||0.418|||||||t-test, 2 sided|||||||0.418
82608759|NCT02495077|164934048|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.030
82608760|NCT02495077|164934049|SUPERIORITY|||||||0.153|||||||Chi-squared|||||||0.153
82608761|NCT02495077|164934050|SUPERIORITY|||||||0.171|||||||Fisher Exact|||||||0.171
82608762|NCT02495077|164934051|SUPERIORITY|||||||0.163|||||||Chi-squared|||||||0.163
82608763|NCT02495077|164934052|SUPERIORITY|||||||0.572|||||||Chi-squared|||||||0.572
82608764|NCT02495077|164934053|SUPERIORITY|||||||0.973|||||||Chi-squared|||||||0.973
82608765|NCT02495077|164934054|SUPERIORITY|||||||0.152|||||||Chi-squared|||||||0.152
82608766|NCT02495077|164934055|SUPERIORITY|||||||0.004|||||||Chi-squared|||||||0.004
82608767|NCT02495077|164934056|SUPERIORITY||||||>|0.999|||||||Fisher Exact|||||||>0.999
82608768|NCT02495077|164934057|SUPERIORITY|||||||0.347|||||||Chi-squared|||||||0.347
82608769|NCT03230097|164934086|OTHER||Hazard Ratio (HR)|0.849||||0.7873|TWO_SIDED|95.0|0.258|2.795|||Regression, Cox|Stratified (by baseline use of antipsychotic medication) Cox proportional hazards model was used. Treatment effect and NAPLS risk score as covariates.|Ratio = BI 409306/placebo.|||2.795|0.258|0.7873
82608770|NCT03230097|164934088|OTHER||Adjusted mean difference|1.77||||0.5212|TWO_SIDED|95.0|-3.773|7.315|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 24. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||7.315|-3.773|0.5212
82608771|NCT03230097|164934088|OTHER||Adjusted mean difference|3.18||||0.3127|TWO_SIDED|95.0|-3.071|9.425|||Mixed Models Analysis||Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM), see endpoint description for details.|BI 409306 vs. placebo of change from baseline at week 52. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||9.425|-3.071|0.3127
82608772|NCT03230097|164934089|OTHER||Adjusted mean difference|-4.99||||0.1602|TWO_SIDED|95.0|-12.033|2.057|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||2.057|-12.033|0.1602
82608773|NCT03230097|164934090|OTHER||Adjusted mean difference|-0.8||||0.5858|TWO_SIDED|95.0|-3.749|2.153|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, positive items score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||2.153|-3.749|0.5858
82608774|NCT03230097|164934090|OTHER||Adjusted mean difference|1.43||||0.3445|TWO_SIDED|95.0|-1.604|4.462|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, negative items score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||4.462|-1.604|0.3445
82608775|NCT03230097|164934090|OTHER||Adjusted mean difference|1.71||||0.7154|TWO_SIDED|95.0|-7.772|11.196|||Mixed Models Analysis|||BI 409306 vs. placebo of change from baseline at week 52, total score. Restricted maximum likelihood (REML) mixed effects model with repeated measurements (MMRM) including fixed, categorical effects of treatment, visit, treatment by visit interaction, baseline North American Prodromal Longitudinal Study (NAPLS) risk score, baseline use of antipsychotic medication and continuous fixed covariates of baseline score and baseline-by-visit interaction.||11.196|-7.772|0.7154
82608776|NCT05740813|164934093|SUPERIORITY||Disease Rate Ratio|1.06|STANDARD_DEVIATION|0.12|||TWO_SIDED|95.0|0.85|1.324||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. ABBV-CLS-7262 slowed progression) was 0.3117 for Dose 1. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter mode|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by ABBV-CLS-7262 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model incorporates participant-level random effects in the baseline value of the ALSFRS-R (intercept) and in the rate of progression (slope); covariate effects to account for covariate-explainable differences in rates of progression based on participant-specific baseline covariates; regimen-specific differences in baseline values, rates of progression and measurement error. Covariates include time since onset of symptoms, pre-baseline slope of ALSFRS-R, riluzole, edaravone, and Relyvrio use at the time of baseline as indicated in concomitant medication logs, and log-transformed baseline serum NfL.|1.324|0.850|
82608777|NCT05740813|164934093|SUPERIORITY||Disease Rate Ratio|0.96|STANDARD_DEVIATION|0.119|||TWO_SIDED|95.0|0.753|1.22||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. ABBV-CLS-7262 slowed progression) was 0.6426. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by ABBV-CLS-7262 relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model incorporates participant-level random effects in the baseline value of the ALSFRS-R (intercept) and in the rate of progression (slope); covariate effects to account for covariate-explainable differences in rates of progression based on participant-specific baseline covariates; regimen-specific differences in baseline values, rates of progression and measurement error. Covariates include time since onset of symptoms, pre-baseline slope of ALSFRS-R, riluzole, edaravone, and Relyvrio use at the time of baseline as indicated in concomitant medication logs, and log-transformed baseline serum NfL.|1.220|0.753|
82608778|NCT05740813|164934094|SUPERIORITY||Mean Difference (Net)|-0.547|STANDARD_ERROR_OF_MEAN|0.5639||0.3325|TWO_SIDED|95.0|-1.657|0.562|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|0.562|-1.657|0.3325
82608779|NCT05740813|164934094|SUPERIORITY||Mean Difference (Net)|0.095|STANDARD_ERROR_OF_MEAN|0.6732||0.8878|TWO_SIDED|95.0|-1.23|1.42|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.420|-1.230|0.8878
82608780|NCT05740813|164934095|SUPERIORITY||Mean Difference (Net)|-1.42|STANDARD_ERROR_OF_MEAN|2.1066||0.5008|TWO_SIDED|95.0|-5.563|2.723|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|2.723|-5.563|0.5008
82608781|NCT05740813|164934095|SUPERIORITY||Mean Difference (Net)|2.261|STANDARD_ERROR_OF_MEAN|2.5292||0.3721|TWO_SIDED|95.0|-2.714|7.236|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|7.236|-2.714|0.3721
82608782|NCT05740813|164934097|SUPERIORITY||Mean Difference (Net)|1.796|STANDARD_ERROR_OF_MEAN|4.222||0.6707|TWO_SIDED|95.0|-6.506|10.099|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|10.099|-6.506|0.6707
82608783|NCT05740813|164934097|SUPERIORITY||Mean Difference (Net)|12.318|STANDARD_ERROR_OF_MEAN|5.011||0.0144|TWO_SIDED|95.0|2.463|22.172|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|22.172|2.463|0.0144
82608784|NCT05740813|164934098|SUPERIORITY||Mean Difference (Net)|1.092||||0.0253|TWO_SIDED|95.0|1.011|1.179|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|Least squares mean difference between ABBV-CLS-7262 Dose 1 24-week change from baseline and placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.179|1.011|0.0253
82608785|NCT05740813|164934098|SUPERIORITY||Mean Difference (Net)|1.073||||0.1364|TWO_SIDED|95.0|0.978|1.175|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|Least squares mean difference between ABBV-CLS-7262 Dose 2 24-week change from baseline and placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|1.175|0.978|0.1364
82608786|NCT05740813|164934099|SUPERIORITY||Mean Difference (Net)|-0.058|STANDARD_ERROR_OF_MEAN|2.1327||0.9782|TWO_SIDED|95.0|-4.254|4.137|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 1 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|4.137|-4.254|0.9782
82608787|NCT05740813|164934099|SUPERIORITY||Mean Difference (Net)|-1.652|STANDARD_ERROR_OF_MEAN|2.5101||0.5108|TWO_SIDED|95.0|-6.59|3.286|||Mixed Models Analysis|Covariates: baseline (BL) use edaravone, riluzole, Relyvrio, BL log-trans. NfL, SVC, time since onset, pre-BL ALSFRS-R slope, interactions with visit|ABBV-CLS-7262 Dose 2 24-week change from baseline relative to placebo 24-week change from baseline.||Model adjusted for covariates including baseline (BL) use of edaravone, riluzole and Relyvrio, BL log-transformed NfL, and SVC, time since onset, pre-BL ALSFRS-R slope and interaction with visit.|3.286|-6.590|0.5108
82608788|NCT05740813|164934100|SUPERIORITY|||||||0.6481|||||||Log Rank|Dose 1. See Other Statistical Analysis for model adjustment details.|||Cox proportional hazards model adjusted for age at baseline, time since ALS symptom onset, delta FRS, baseline log-transformed serum NfL level, use of riluzole at baseline, use of riluzole at baseline, and use of Relyvrio at baseline.|||0.6481
82608789|NCT05740813|164934100|SUPERIORITY|||||||0.6344|||||||Log Rank|Dose 2. See Other Statistical Analysis for model adjustment details.|||Cox proportional hazards model adjusted for age at baseline, time since ALS symptom onset, delta FRS, baseline log-transformed serum NfL level, use of riluzole at baseline, use of riluzole at baseline, and use of Relyvrio at baseline.|||0.6344
82657515|NCT02549092|165030739|SUPERIORITY||Least Squares (LS) Mean of Difference|-8.21|STANDARD_ERROR_OF_MEAN|9.91||0.41|TWO_SIDED|95.0|-27.98|11.55||P value is from the mixed model repeated measures (MMRM) with the model: change from Baseline=treatment, country, visit, Baseline, treatment-by-visit, and Baseline-by-visit. Unstructured variance-covariance structure was used in the MMRM analysis.|mixed model repeated measures|Adjusted for multiplicity using the Hochberg procedure to control the family-wise error rate at a pre-specified significance level (alpha = 0.05).|Difference of LCIG - OMT|||11.55|-27.98|0.410
82657516|NCT02549092|165030740|SUPERIORITY||LS Mean of Difference|1.57|STANDARD_ERROR_OF_MEAN|2.37||0.509|TWO_SIDED|95.0|-3.16|6.3||The P value is from the MMRM with the model: change from Baseline = treatment, country, visit, Baseline, treatment-by-visit, and Baseline-by-visit. The unstructured variance-covariance structure was used in the MMRM analysis.|mixed model repeated measures|Adjusted for multiplicity using the Hochberg procedure to control the family-wise error rate at a pre-specified significance level (alpha = 0.05).|Difference of LCIG - OMT|||6.30|-3.16|0.509
82657517|NCT02549092|165030741|SUPERIORITY||LS mean difference|-3.81|STANDARD_ERROR_OF_MEAN|3.59||0.291|TWO_SIDED|95.0|-10.96|3.34||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||3.34|-10.96|0.291
82492397|NCT02100514|164677926|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-32.5|STANDARD_ERROR_OF_MEAN|2.17|||TWO_SIDED|95.0|-36.7|-28.2||||||Week 52: LS mean difference and associated 95% CI, were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-28.2|-36.7|
82492398|NCT02100514|164677927|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-45.0|STANDARD_ERROR_OF_MEAN|1.99|<|0.001|TWO_SIDED|95.0|-48.9|-41.1|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-41.1|-48.9|<0.001
82608790|NCT00780403|164934154|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||Statistical tests were performed at the significance level of 5%, without multiplicity adjustment.|Mainland-Gart Test|The p-value was derived from Mainland-Gart Test applied to a 2 (treatment sequence) by 2 (preferred period) contingency table.||The Mainland-Gart test was applied to the preference rates in the subjects who showed a preference, to assess the difference in preference rates between RediTab and Zyrtec.||||<0.0001
82608791|NCT03959189|164934168|SUPERIORITY||mixed effects model|-0.0796|STANDARD_ERROR_OF_MEAN|0.2768||0.7746|TWO_SIDED|95.0|-0.6|0.5|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following ERX-963 versus placebo. In the primary analysis of SSS, the cohort 1 and cohort 2 data were combined for ERX-963 and placebo treatments.||0.5|-0.6|0.7746
82608792|NCT03959189|164934168|SUPERIORITY||mixed effects model|-0.2608|STANDARD_ERROR_OF_MEAN|0.3589||0.47|TWO_SIDED|95.0|-1.0|0.5|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following 1 mg ERX-963 versus placebo. In this analysis of SSS, the effect of 1 mg ERX-963 treatment was compared to the effect of placebo treatment.||0.5|-1.0|0.4700
82608793|NCT03959189|164934168|SUPERIORITY||mixed effects model|0.1016|STANDARD_ERROR_OF_MEAN|0.4272||0.8127|TWO_SIDED|95.0|-0.8|1.0|||Mixed Models Analysis|||A mixed effects model will be used to compare SSS effects following 2 mg ERX-963 versus placebo. In this analysis of SSS, the effect of 2 mg ERX-963 treatment was compared to the effect of placebo treatment.||1.0|-0.8|0.8127
82608794|NCT01480180|164934174|OTHER||Poisson estimate|3.7|||<|0.001|TWO_SIDED|95.0|2.94|4.66||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||4.66|2.94|<0.001
82608795|NCT01480180|164934176|OTHER||Poisson estimate|3.27|||<|0.001|TWO_SIDED|95.0|2.59|4.11||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||4.11|2.59|<0.001
82608796|NCT01480180|164934178|OTHER||Poisson estimate|2.35|||<|0.001|TWO_SIDED|95.0|1.87|2.95||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||2.95|1.87|<0.001
82608797|NCT01480180|164934178|OTHER||Poisson estimate|4.39|||<|0.001|TWO_SIDED|95.0|3.09|6.24||P-values are from the 1-sided test of the null hypothesis that the ABR is at least 8.5 evaluated at the 2.5% level.|Poisson regression|||The analysis is based on a Poisson regression model allowing for over-dispersion. For participants withdrawing prematurely, the log planned treatment duration is used as offset; for completers, the log actual treatment duration is used.||6.24|3.09|<0.001
82608798|NCT03476850|164934296|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.883|TWO_SIDED||||||Mixed Models Analysis|||An a priori sample size calculation found 24 subjects per group (48 total) provided \>80% power to detect a 2 unit difference in patient reported pain based on a 2-sided test and significance level a = 0.05 assuming at least 3 measures per subject and a within subject covariance having a compound symmetric structure with a standard deviation in pain score of 3 units and within subject correlation of 0.5.||||.883
82608799|NCT03476850|164934297|SUPERIORITY||Median Difference (Final Values)|0.25||||0.977|TWO_SIDED||||||ANOVA|||||||.977
82608800|NCT03476850|164934298|SUPERIORITY||Odds Ratio (OR)|4.9||||0.009|TWO_SIDED||||||Chi-squared|||||||.009
82608801|NCT03476850|164934300|SUPERIORITY||Median Difference (Final Values)|18.0||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.110
82657518|NCT02549092|165030742|SUPERIORITY||LS Mean of Difference|-2.3|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.84|-1.82||Analysis of covariance (ANCOVA) model: FINAL = treatment, country.|ANCOVA||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||-1.82|-2.84|< 0.001
82492399|NCT02100514|164677927|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-40.5|STANDARD_ERROR_OF_MEAN|2.21|||TWO_SIDED|95.0|-44.8|-36.1||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-36.1|-44.8|
82608802|NCT03476850|164934301|SUPERIORITY||Median Difference (Final Values)|0.26||||0.719|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.719
82608803|NCT02912364|164934302|OTHER||Mean Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|95.0|0.13|0.34|||t-test, 2 sided|degrees of freedom = 22||||.34|.13|< .001
82608804|NCT02912364|164934303|OTHER||Mean Difference (Final Values)|0.54|||<|0.001|TWO_SIDED|95.0|0.3|0.79|||t-test, 2 sided|Degrees of freedom = 22.||||.79|.30|< .001
82608805|NCT00144300|164934334|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.07||||||95.0|0.71|1.6||||||||1.60|0.71|
82608806|NCT00524303|164934379|SUPERIORITY_OR_OTHER||Percent difference|-9.0|||||TWO_SIDED|95.0|-38.1|17.9|||||Approximate 95% confidence interval for the difference in response rates between the trastuzumab arm and the lapatinib arm was calculated.|||17.9|-38.1|
82608807|NCT00524303|164934379|SUPERIORITY_OR_OTHER||Percent difference|20.0|||||TWO_SIDED|95.0|-8.0|49.4|||||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the transtuzumab + lapatinib arm was calculated.|||49.4|-8.0|
82608808|NCT00524303|164934380|SUPERIORITY_OR_OTHER||Percent Difference|7.0||||0.627|TWO_SIDED|95.0|-17.8|32.5|||Fisher Exact||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the lapatinib arm was calculated.|||32.5|-17.8|0.627
82608809|NCT00524303|164934380|SUPERIORITY_OR_OTHER||Percent Difference|0.0||||1|TWO_SIDED|95.0|-25.1|25.1|||Fisher Exact||Approximate 95% confidence interval for the difference in response rates between the transtuzumab arm and the transtuzumab + lapatinib arm was calculated.|||25.1|-25.1|1.000
82608810|NCT04090164|164934407|OTHER||Odds Ratio (OR)|2.406||||0.0027|TWO_SIDED|95.0|1.341|4.316|||Fisher Exact|||Fisher exact test was used for testing of association of Breast Cancer diagnosis with anti-HCV test status.||4.316|1.341|0.0027
82657519|NCT02549092|165030743|SUPERIORITY||LS mean difference|-2.79|STANDARD_ERROR_OF_MEAN|0.99||0.006|TWO_SIDED|95.0|-4.77|-0.81||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Statistical significance for the 3 key secondary efficacy endpoints (PDQ-8 index score, CGI-C score, and UPDRS Part II) could only be evaluated using the Hochberg procedure for multiplicity control if both primary endpoints had been statistically significant after multiplicity adjustment.||-0.81|-4.77|0.006
82657520|NCT02549092|165030744|SUPERIORITY||LS mean difference|0.08|STANDARD_ERROR_OF_MEAN|0.99||0.933|TWO_SIDED|95.0|-1.89|2.06||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Cardiovascular including falls||2.06|-1.89|0.933
82657521|NCT02549092|165030744|SUPERIORITY||LS mean difference|1.05|STANDARD_ERROR_OF_MEAN|2.35||0.655|TWO_SIDED|95.0|-3.63|5.74||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Sleep/fatigue||5.74|-3.63|0.655
82657522|NCT02549092|165030744|SUPERIORITY||LS mean difference|-1.85|STANDARD_ERROR_OF_MEAN|3.67||0.616|TWO_SIDED|95.0|-9.18|5.48||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Mood/cognition||5.48|-9.18|0.616
82657523|NCT02549092|165030744|SUPERIORITY||LS mean difference|0.39|STANDARD_ERROR_OF_MEAN|0.84||0.645|TWO_SIDED|95.0|-1.3|2.08||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Perceptual problems/hallucinations||2.08|-1.30|0.645
82657524|NCT02549092|165030744|SUPERIORITY||LS mean difference|-0.94|STANDARD_ERROR_OF_MEAN|2.04||0.645|TWO_SIDED|95.0|-5.03|3.14||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Attention/memory||3.14|-5.03|0.645
82657525|NCT02549092|165030744|SUPERIORITY||LS mean difference|-2.58|STANDARD_ERROR_OF_MEAN|1.34||0.058|TWO_SIDED|95.0|-5.25|0.09||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Gastrointestinal tract||0.09|-5.25|0.058
82657526|NCT02549092|165030744|SUPERIORITY||LS mean difference|-1.18|STANDARD_ERROR_OF_MEAN|2.17||0.588|TWO_SIDED|95.0|-5.52|3.15||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Urinary||3.15|-5.52|0.588
82657527|NCT02549092|165030744|SUPERIORITY||LS mean difference|-0.78|STANDARD_ERROR_OF_MEAN|1.05||0.464|TWO_SIDED|95.0|-2.88|1.33||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Sexual function||1.33|-2.88|0.464
82499418|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.41|STANDARD_ERROR_OF_MEAN|0.115||||90.0|0.221|0.6|||ANCOVA|||Extension Month 36; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.600|0.221|
82657528|NCT02549092|165030744|SUPERIORITY||LS mean difference|-1.29|STANDARD_ERROR_OF_MEAN|1.76||0.468|TWO_SIDED|95.0|-4.8|2.23||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|Repeated measures model||Difference of LCIG - OMT|Miscellaneous||2.23|-4.80|0.468
82657529|NCT02549092|165030745|SUPERIORITY||LS Mean of Difference|-0.58|STANDARD_ERROR_OF_MEAN|1.26||0.643|TWO_SIDED|95.0|-3.09|1.92||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Motor symptoms at night||1.92|-3.09|0.643
82657530|NCT02549092|165030745|SUPERIORITY||LS Mean of Difference|0.24|STANDARD_ERROR_OF_MEAN|0.82||0.769|TWO_SIDED|95.0|-1.39|1.87||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|PD symptoms at night||1.87|-1.39|0.769
82657531|NCT02549092|165030745|SUPERIORITY||LS Mean of Difference|1.99|STANDARD_ERROR_OF_MEAN|0.84||0.02|TWO_SIDED|95.0|0.32|3.66||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Disturbed sleep||3.66|0.32|0.020
82657532|NCT02549092|165030746|SUPERIORITY||LS Mean of Difference|0.19|STANDARD_ERROR_OF_MEAN|0.46||0.672|TWO_SIDED|95.0|-0.72|1.1||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part I score||1.10|-0.72|0.672
82657533|NCT02549092|165030746|SUPERIORITY||LS Mean of Difference|-2.22|STANDARD_ERROR_OF_MEAN|2.13||0.302|TWO_SIDED|95.0|-6.47|2.04||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part III score||2.04|-6.47|0.302
82657534|NCT02549092|165030746|SUPERIORITY||LS Mean of Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.61||0.007|TWO_SIDED|95.0|-2.91|-0.48||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Part IV score||-0.48|-2.91|0.007
82657535|NCT02549092|165030747|SUPERIORITY||LS Mean of Difference|-1.54|STANDARD_ERROR_OF_MEAN|1.5||0.307|TWO_SIDED|95.0|-4.52|1.44||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|||1.44|-4.52|0.307
82608811|NCT04090164|164934407|OTHER||Odds Ratio (OR)|7.032||||0.0034|TWO_SIDED|95.0|1.582|31.25|||Fisher Exact|||Fisher exact test was used to test the association of Breast Cancer diagnosis with anti-HCV test result in women younger than 45 years.||31.25|1.582|0.0034
82608812|NCT03414359|164934410|NON_INFERIORITY|As there is no existing data in the literature that clearly defines a clinically significant reduction in the onset time of anesthesia, the non-inferiority margin was defined a priori based on clinical reasoning.||||||0.1||||||The a priori threshold for statistical significance is, \<0.05|Wilcoxon (Mann-Whitney)|||To exclude a clinically important difference between the LEBF group and the chloroprocaine group, given a standard deviation of 4 minutes, and a non-inferiority margin of 3 minutes difference between groups, 62 mother-infant dyads (31 mother-infant dyads in each arm) are required to have a significance level of 5% and a power of 90%. In total, 70 female patients were recruited to account for any withdrawals.||||0.10
82608813|NCT01877655|164934412|SUPERIORITY||Odds Ratio (OR)|1.27||||0.205|TWO_SIDED|95.0|0.87|1.85||P-value based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Cochran-Mantel-Haenszel||Odds ratio (ASP0113 vs placebo) and 95% CI was based on CMH general association test stratified by donor-recipient relatedness \& donor CMV serostatus.|Analysis of all-cause mortality and adjudicated CMV EOD. Analysis was completed using the Cochran-Mantel-Haenszel (CMH) test at the 1-sided 5% level stratified by use of antithymocyte globulin (ATG) and by receipt of a kidney from a living or deceased donor.||1.85|0.87|0.205
82608814|NCT01877655|164934413|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.748|TWO_SIDED|95.0|0.76|1.22||P-value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazard Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of CMV viremia through 1 year posttransplant. CMV viremia was defined by the protocol as CMV plasma viral load ≥ 1000 IU/mL as assessed by the central laboratory. The 95% CI was based on cumulative incidence function CMV viremia rate at 1 year.||1.22|0.76|0.748
82608815|NCT01877655|164934414|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.888|TWO_SIDED|95.0|0.8|1.29||P-value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazard Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of CMV-specific antiviral therapy (AVT) through 1 year. Time to first adjudicated CMV-specific therapy was defined as time to the start of AVT for CMV viremia. CMV-specific AVT was determined by the adjudication committee. Rate was based on cumulative incidence function estimate at 1 year.||1.29|0.80|0.888
82608816|NCT01877655|164934415|SUPERIORITY||Odds Ratio (OR)|1.05||||0.802|TWO_SIDED|95.0|0.73|1.51||P value based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Cochran-Mantel-Haenszel||Odds ratio (ASP0113 vs placebo) and 95% CI based on CMH general association test stratified by donor recipient relatedness and donor CMV serostatus.|Analysis of composite of CMV viremia and adjudicated CMV-AVT. The CMV viremia was defined by the protocol as CMV plasma viral load ≥ 1000 IU/mL as assessed by the central laboratory. CMV-specific AVT was determined by the adjudication committee. Participants with no posttransplant viral load data were excluded from the analysis.||1.51|0.73|0.802
82608817|NCT01877655|164934416|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.928|TWO_SIDED|95.0|0.8|1.28||P value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazards Model|Parameter estimate from cox proportional hazard model (ASP0113 v placebo) with treatment \& randomization strata adjusted for death as a competing risk||Analysis of rate of adjudicated CMV AVT or CMV EOD. Time to first CMV-specific AVT was defined as time to the start of AVT for CMV viremia or CMV EOD. CMV-specific AVT and EOD and were determined by the adjudication committee. Rate based on cumulative incidence function estimate at 1 year.||1.28|0.80|0.928
82608818|NCT01877655|164934417|SUPERIORITY||Odds Ratio (OR)|1.18||||0.393|TWO_SIDED|95.0|0.81|1.73||P value based on cox proportional hazards model parameter estimate for the treatment effect.|Cox Proportional Hazards Model||Odds ratio (ASP0113 vs placebo) and 95% CI based on CMH general association test stratified by donor-recipient relatedness and donor CMV serostatus.|Analysis of all-cause mortality at 1 year. Participants with unknown survival status at 1 year were considered dead for this analysis.||1.73|0.81|0.393
82657536|NCT02549092|165030748|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.46||0.868|TWO_SIDED|95.0|-0.99|0.84||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|||0.84|-0.99|0.868
82492400|NCT02100514|164677927|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-32.7|STANDARD_ERROR_OF_MEAN|2.2|||TWO_SIDED|95.0|-37.0|-28.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-28.4|-37.0|
82608819|NCT00095121|164934419|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||End of double-blind treatment|Fisher Exact|||After unblinding the results, due to the small number of responders in the placebo group, it was determined that a statistical exact test would be more appropriate in the evaluation of treatment group differences than the originally planned 95% confidence intervals of the difference between the groups. Therefore, the results were analyzed by study visit, and a Fisher exact test was used to evaluate treatment differences between the adefovir dipivoxil and placebo groups.||||<0.001
82608820|NCT00095121|164934435|SUPERIORITY_OR_OTHER|||||||0.051||||||Comparison of HBeAg Loss|Fisher Exact|||||||0.051
82608821|NCT00095121|164934435|SUPERIORITY_OR_OTHER|||||||0.051||||||Comparison of HBeAg Seroconversion|Fisher Exact|||||||0.051
82608822|NCT01093612|164934511|OTHER||||||<|0.001|||||||Wilcoxon rank-sum|||||||<0.001
82608823|NCT01093612|164934512|OTHER||||||<|0.001|||||||Wilcoxon rank-sum|||||||<0.001
82608824|NCT03191786|164934519|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.025|TWO_SIDED|95.0|0.63|0.97|||Log Rank|||Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.||0.97|0.63|0.025
82608825|NCT03191786|164934520|SUPERIORITY||Difference in OS Rates|6.5|||||TWO_SIDED|95.0|-3.3|16.3||||||OS Rate at 6 Months||16.3|-3.3|
82608826|NCT03191786|164934520|SUPERIORITY||Difference in OS Rates|5.1|||||TWO_SIDED|95.0|-4.9|15.0||||||OS Rate at 12 Months||15.0|-4.9|
82608827|NCT03191786|164934520|SUPERIORITY||Difference in OS Rates|7.4|||||TWO_SIDED|95.0|-1.6|16.5||||||OS Rate at 18 Months||16.5|-1.6|
82608828|NCT03191786|164934520|SUPERIORITY||Difference in OS Rates|11.9|||||TWO_SIDED|95.0|4.4|19.5||||||OS Rate at 24 Months||19.5|4.4|
82608829|NCT03191786|164934522|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.182|TWO_SIDED|95.0|0.7|1.07|||Log Rank|||Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.||1.07|0.70|0.182
82608830|NCT03191786|164934527|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|1.01||||0.975||95.0|0.57|1.78|||Log Rank|||Time to deterioration for Dyspnoea (single item QLQ-C30)||1.78|0.57|0.975
82608831|NCT03191786|164934527|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.89||||0.62|TWO_SIDED|95.0|0.55|1.42|||Log Rank|||Time to deterioration for Fatigue (multi items QLQ-C30)||1.42|0.55|0.620
82608832|NCT03191786|164934528|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|1.16||||0.653|TWO_SIDED|95.0|0.6|2.26|||Log Rank|||Time to deterioration for Cough (single item QLQ-LC13)||2.26|0.60|0.653
82608833|NCT03191786|164934528|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.51||||0.036|TWO_SIDED|95.0|0.27|0.97|||Log Rank|||Time to deterioration for Chest pain (single item QLQ-LC13)||0.97|0.27|0.036
82608834|NCT03191786|164934528|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.7||||0.125|TWO_SIDED|95.0|0.45|1.11|||Log Rank|||Time to deterioration for Dyspnoea (multiple items QLQ-LC13)||1.11|0.45|0.125
82608835|NCT03191786|164934528|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.75||||0.362|TWO_SIDED|95.0|0.41|1.39|||Log Rank|||Time to deterioration for Arm and/or shoulder pain (single item QLQ-LC13)||1.39|0.41|0.362
82608836|NCT03191786|164934528|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.68||||0.041|TWO_SIDED|95.0|0.46|0.99|||Log Rank|||Time to Confirmed Deterioration for the Composite of the 3 following symptoms: cough, dyspnoea (multi-items QLQ-LC13) and chest pain||0.99|0.46|0.041
82608837|NCT03191786|164934529|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.84||||0.272|TWO_SIDED|95.0|0.61|1.15|||Log Rank|||SP263 TC\>=1%||1.15|0.61|0.272
82499419|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.451|STANDARD_ERROR_OF_MEAN|0.161||||90.0|0.183|0.718|||ANCOVA|||Extension Month 39; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.718|0.183|
82608838|NCT03191786|164934530|SUPERIORITY|Stratified analysis. Histologic subtype, PD-L1 IHC status and brain metastases (Yes/No) were added as stratification factors.|Hazard Ratio (HR)|0.87||||0.366|TWO_SIDED|95.0|0.64|1.18|||Log Rank|||SP263 TC\>=1%||1.18|0.64|0.366
82608839|NCT05278104|164934535|OTHER|No formal hypothesis was tested.|Least square mean difference|-0.4|||||TWO_SIDED|95.0|-2.6|1.7|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the BIS-11 score at baseline as covariate and treatment as fixed factor.||1.7|-2.6|
82608840|NCT05278104|164934536|OTHER|No formal hypothesis was tested.|Least square mean difference|-2.2|||||TWO_SIDED|95.0|-4.6|0.3|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the BIS-11 score at baseline as covariate and treatment as fixed factor.||0.3|-4.6|
82608841|NCT05278104|164934537|OTHER|No formal hypothesis was tested.|Least square mean|0.2|||||TWO_SIDED|95.0|-2.1|2.4|||||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the S-UPPS-P score at baseline as covariate and treatment as fixed factor.||2.4|-2.1|
82608842|NCT05278104|164934538|OTHER|No formal hypothesis was tested.|Least square mean difference|0.9|||||TWO_SIDED|95.0|-1.3|3.1|||ANCOVA||The treatment effect was estimated regardless of concomitant/rescue medication use or nausea/vomiting (treatment policy). Treatment discontinuation was handled with a while-on-treatment strategy.|Change from baseline was analyzed with an ANCOVA model with the S-UPPS-P score at baseline as covariate and treatment as fixed factor.||3.1|-1.3|
82608843|NCT01709799|164934556|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,90.577)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||< .001
82608844|NCT01709799|164934556|SUPERIORITY_OR_OTHER|||||||0.995|TWO_SIDED|||||The p-value is not adjusted for multiple comparisons, and the a priori threshold for statistical significance was 0.05|Mixed Models Analysis|Degrees of freedom are (4,90.564)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.995
82608845|NCT01709799|164934557|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,97.137)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<.001
82608846|NCT01709799|164934557|SUPERIORITY_OR_OTHER|||||||0.254|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,97.108)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.254
82608847|NCT01709799|164934558|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,99.647)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
82608848|NCT01709799|164934558|SUPERIORITY_OR_OTHER|||||||0.781|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,99.601)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.781
82608849|NCT01709799|164934559|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,102.315)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
82608850|NCT01709799|164934559|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,102.216)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.026
82608851|NCT01709799|164934560|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,93.240)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||<0.001
82608852|NCT01709799|164934560|SUPERIORITY_OR_OTHER|||||||0.313|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,93.167)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.313
82608853|NCT01709799|164934561|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (2,115.573)||Occasion main effect. Null hypothesis is no improvement (Occasion main effect has p-value \> .05)||||0.630
82608854|NCT01709799|164934561|SUPERIORITY_OR_OTHER|||||||0.498|TWO_SIDED|||||P-value is not adjusted for multiple comparisons, and p \< .05 is the a priori threshold for statistical significance|Mixed Models Analysis|degrees of freedom are (4,115.593)||Occasion by arm interaction. Null hypothesis of no group differences in improvement (Interaction has p-value \> .05)||||0.498
82608855|NCT03167619|164934562|SUPERIORITY||MLE assuming exponential distribution|0.18||||0.0023|TWO_SIDED|95.0|0.11|0.27|||Chi-squared|Comparison to mean of historical control|Presence of patients with long PFS may have violated exponential assumption.|Assumed median PFS = 2.0 months as historical control, transformed to rate of 0.35/month||0.27|0.11|0.0023
82608856|NCT03167619|164934563|SUPERIORITY||MLE assuming exponential distribution|0.11|||<|0.0001|TWO_SIDED|95.0|0.07|0.19|||Chi-squared|Comparison to mean of historical control|Presence of patients with long PFS may have violated exponential assumption.|Assumed median PFS = 2.0 months as historical control, transformed to rate of 0.35/month||0.19|0.07|<0.0001
82608857|NCT01943539|164934578|SUPERIORITY||Effect Size|0.62||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
82657537|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-1.14|STANDARD_ERROR_OF_MEAN|3.28||0.728|TWO_SIDED|95.0|-7.68|5.39||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Total score||5.39|-7.68|0.728
82608858|NCT02333331|164934582|SUPERIORITY||Mean Difference (Final Values)|0.28||||0.274|TWO_SIDED|95.0|-0.64|1.21|||Mixed Models Analysis|||||1.21|-0.64|0.274
82608859|NCT02333331|164934582|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.32|TWO_SIDED|95.0|-0.83|1.35|||Mixed Models Analysis|||||1.35|-0.83|0.320
82608860|NCT02333331|164934582|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.134|TWO_SIDED|95.0|-0.24|0.87|||Mixed Models Analysis|||||0.87|-0.24|0.134
82608861|NCT02333331|164934583|SUPERIORITY||Mean Difference (Final Values)|-3.32||||0.576|TWO_SIDED|95.0|-37.6|30.95|||Mixed Models Analysis|||||30.95|-37.6|0.576
82608862|NCT02333331|164934583|SUPERIORITY||Mean Difference (Final Values)|19.6||||0.178|TWO_SIDED|95.0|-22.2|61.41|||Mixed Models Analysis|||||61.41|-22.2|0.178
82608863|NCT02333331|164934583|SUPERIORITY||Mean Difference (Final Values)|10.31||||0.163|TWO_SIDED|95.0|-10.4|30.98|||Mixed Models Analysis|||||30.98|-10.4|0.163
82608864|NCT02333331|164934584|SUPERIORITY||Mean Difference (Net)|0.0||||0.488|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||||0.10|-0.10|0.488
82608865|NCT02333331|164934584|SUPERIORITY||Mean Difference (Net)|0.1||||0.055|TWO_SIDED|95.0|-0.02|0.22|||Mixed Models Analysis|||||0.22|-0.02|0.055
82608866|NCT02333331|164934584|SUPERIORITY||Mean Difference (Net)|0.03||||0.161|TWO_SIDED|95.0|-0.03|0.09|||Mixed Models Analysis|||||0.09|-0.03|0.161
82608867|NCT02333331|164934585|SUPERIORITY||Mean Difference (Net)|1.01||||0.213|TWO_SIDED|95.0|0.99|1.03|||Mixed Models Analysis|||||1.03|0.99|0.213
82608868|NCT02333331|164934585|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.03|1.09|||Mixed Models Analysis|||||1.09|1.03|<0.001
82608869|NCT02333331|164934585|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.05|1.08|||Mixed Models Analysis|||||1.08|1.05|<0.001
82608870|NCT02333331|164934586|SUPERIORITY||Mean Difference (Net)|1.0||||0.458|TWO_SIDED|95.0|0.98|1.02|||Mixed Models Analysis|||||1.02|0.98|0.458
82608871|NCT02333331|164934586|SUPERIORITY||Mean Difference (Net)|1.05|||<|0.001|TWO_SIDED|95.0|1.03|1.08|||Mixed Models Analysis|||||1.08|1.03|<0.001
82608872|NCT02333331|164934586|SUPERIORITY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|1.04|1.07|||Mixed Models Analysis|||||1.07|1.04|<0.001
82608873|NCT02158533|164934594|SUPERIORITY||Least squares mean difference|-1.8|STANDARD_ERROR_OF_MEAN|1.14||0.109|TWO_SIDED|95.0|-4.1|0.4||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 2mg/2mg was compared to placebo (i.e., ALKS 5461 2mg/2mg S1 vs Placebo S1; and ALKS 5461 2mg/2mg S2 vs Placebo S2. The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 0.5mg/0.5mg compared to placebo.||0.4|-4.1|0.109
82608874|NCT02158533|164934594|SUPERIORITY||Least squares mean difference|0.0|STANDARD_ERROR_OF_MEAN|1.17||0.975|TWO_SIDED|95.0|-2.3|2.3||Hypothesis tests were two-sided with an alpha of 0.05. Control of type 1 error inflation due to multiplicity was achieved by pre-specifying a fixed sequence for statistical tests.|Mixed Models Analysis|ALKS 5461 was compared to pbo using stage-specific MMRM for MADRS-10 Change from Baseline. Model-derived estimates were combined using equal weights.|Estimates below zero favor ALKS 5461.|Analysis was conducted for each stage separately and overall efficacy was based on combined stage analysis where stage-specific estimates were combined using pre-specified equal weights. Within each stage ALKS 5461 0.5mg/0.5mg was compared to placebo (i.e., ALKS 5461 0.5mg/0.5mg S1 vs Placebo S1; and ALKS 5461 0.5mg/0.5mg S2 vs Placebo S2). The pre-specified order of hypothesis tests was ALKS 5461 2/2 compared to placebo followed by ALKS 5461 0.5/0.5 compared to placebo.||2.3|-2.3|0.975
82608875|NCT00320671|164934599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Analysis|Cumulative Response Rates|56.8||||0.61|TWO_SIDED|95.0|43.9|69.9|||Log Rank||Only the subjects taking risperidone were analysed in this section|||69.9|43.9|.61
82608876|NCT00320671|164934599|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence Analysis|Cumulative Response Rates|62.8||||0.61|TWO_SIDED|95.0|50.8|74.8|||Log Rank||Only subjects taking aripiprazole were analysed in this section|||74.8|50.8|.61
82608877|NCT00345605|164934605|SUPERIORITY_OR_OTHER||Slope|0.5|||||TWO_SIDED||||||||Assuming r=0.5 between two measurements from the same subject, 12 subjects would provide a power of 0.8 to detect a 10% reduction in primary endpoints at an alpha value of 0.05.|For sample size calculation, we used the means and standard deviation for PT, PTT. Assuming r=0.5 between two measurements from the same subject, 12 subjects would provide a power of 0.8 to detect a 10% reduction in primary endpoints at an alpha value of 0.05.||||
82608878|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.45|||||||Kruskal-Wallis|||Applies to gene expression of NAD(P)H Quinone Dehydrogenase 1 (NQ01) in alveolar macrophages||||0.45
82608879|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.4|||||||Kruskal-Wallis|||Applies to gene expression of Heme Oxygenase 1 (HO1) in alveolar macrophages||||0.40
82608880|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.75|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C1 (AKR1C1) in alveolar macrophages||||0.75
82608881|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.49|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C3 (AKR1C3) in alveolar macrophages||||0.49
82657538|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.71||0.916|TWO_SIDED|95.0|-1.5|1.35||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Musculoskeletal pain score||1.35|-1.50|0.916
82657539|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|0.07|STANDARD_ERROR_OF_MEAN|0.68||0.919|TWO_SIDED|95.0|-1.28|1.42||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Chronic pain score||1.42|-1.28|0.919
82499420|NCT00137046|164689611|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.032|STANDARD_ERROR_OF_MEAN|0.124||||90.0|-0.174|0.237|||ANCOVA|||Extension Follow Up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline HbA1c, and Center.||0.237|-0.174|
82608882|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.88|||||||Kruskal-Wallis|||Applies to gene expression of nuclear factor erythroid 2 like 2 (Nrf2) in alveolar macrophages||||0.88
82608883|NCT01335971|164934612|SUPERIORITY_OR_OTHER|||||||0.71|||||||Kruskal-Wallis|||Applies to gene expression of Kelch Like ECH Associated Protein 1 (Keap1) in alveolar macrophages||||0.71
82608884|NCT01335971|164934613|SUPERIORITY_OR_OTHER|||||||0.68|||||||Kruskal-Wallis|||Applies to gene expression of Nrf2 in bronchial epithelial cells||||0.68
82608885|NCT01335971|164934614|SUPERIORITY_OR_OTHER|||||||0.69|||||||Kruskal-Wallis|||Applies to gene expression of NAD(P)H Quinone Dehydrogenase 1 (NQ01) in bronchial epithelial cells||||0.69
82608886|NCT01335971|164934614|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Applies to gene expression of Kelch Like ECH Associated Protein 1 (Keap1) in bronchial epithelial cells||||<0.01
82608887|NCT01335971|164934615|SUPERIORITY_OR_OTHER|||||||0.53|||||||Kruskal-Wallis|||Applies to gene expression of Heme Oxygenase 1 (HO1) in bronchial epithelial cells||||0.53
82608888|NCT01335971|164934616|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C1 (AKR1C1) in bronchial epithelial cells.||||<0.01
82608889|NCT01335971|164934617|SUPERIORITY_OR_OTHER|||||||0.06|||||||Kruskal-Wallis|||Applies to gene expression of Aldo-Keto Reductase Family 1 Member C3 (AKR1C3) in bronchial epithelial cells.||||0.06
82608890|NCT01335971|164934618|SUPERIORITY_OR_OTHER|||||||0.2|||||||Kruskal-Wallis|||||||0.20
82608891|NCT01335971|164934619|SUPERIORITY_OR_OTHER|||||||0.41|||||||Kruskal-Wallis|||Applies to C-reactive protein concentration||||0.41
82608892|NCT01335971|164934619|SUPERIORITY_OR_OTHER|||||||0.07|||||||Kruskal-Wallis|||Applies to Interleukin-6 concentration||||0.07
82608893|NCT01335971|164934619|SUPERIORITY_OR_OTHER|||||||0.65|||||||Kruskal-Wallis|||Applies to Interleukin-8 concentration||||0.65
82608894|NCT01335971|164934620|SUPERIORITY_OR_OTHER|||||||0.71|||||||Kruskal-Wallis|||Applies to interleukin-8 results||||0.71
82608895|NCT01335971|164934620|SUPERIORITY_OR_OTHER|||||||0.33|||||||Kruskal-Wallis|||Applies to secretory leukoprotease inhibitor results||||0.33
82608896|NCT01335971|164934621|SUPERIORITY_OR_OTHER|||||||0.8|||||||Kruskal-Wallis|||Applies to isoprostane results.||||0.80
82608897|NCT01335971|164934621|SUPERIORITY_OR_OTHER|||||||0.35|||||||Kruskal-Wallis|||Applies to thiobarbituric acid reactive substances results.||||0.35
82657540|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|0.63|STANDARD_ERROR_OF_MEAN|1.53||0.68|TWO_SIDED|95.0|-2.42|3.68||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Fluctuation related pain score||3.68|-2.42|0.680
82657541|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-0.37|STANDARD_ERROR_OF_MEAN|1.24||0.767|TWO_SIDED|95.0|-2.83|2.09||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Nocturnal pain score||2.09|-2.83|0.767
82608898|NCT01335971|164934621|SUPERIORITY_OR_OTHER|||||||0.53|||||||Kruskal-Wallis|||Applies to total antioxidants results.||||0.53
82608899|NCT01389128|164934641|OTHER||||||<|0.01|||||||Chi-squared|||||||<0.01
82608900|NCT01389128|164934644|OTHER|||||||0.68|||||||Chi-squared|||||||0.68
82608901|NCT02439775|164934683|SUPERIORITY|||||||0.1194||||||p\<0.05 required for significance|ANCOVA|||||||0.1194
82608902|NCT05483127|164934699|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, sequence) and random (subject) effects. Difference=P1fA - MDT. Sign (negative or positive) is retained with the rounded value.|||-0.00||
82608903|NCT00440401|164934754|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Normal approximation to the binominal distribution is used to construct the asymptotic confidence intervals||||||<0.0001
82608904|NCT00440401|164934755|SUPERIORITY_OR_OTHER||||||<|0.0006||95.0|||||Cochran-Mantel-Haenszel|Normal approximation to the binominal distribution is used to construct the asymptotic confidence intervals||||||<0.0006
82608905|NCT01165229|164934779|OTHER|The efficacy of Herpes Zoster subunit (HZ/su) vaccine against herpes zoster disease was demonstrated if the lower limit (LL) of the two-sided 95% Confidence Interval (CI) of VE was above 10%.|Vaccine efficacy|90.02|||<|0.0001|TWO_SIDED|95.0|83.54|94.32|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A 70-79 YOA group and Zoster-022 Placebo 70-79 YOA group.||94.32|83.54|<0.0001
82608906|NCT01165229|164934779|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|89.08|||<|0.0001|TWO_SIDED|95.0|74.65|96.16|||Poisson exact method|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo Zoster-022 Placebo \>=80YOA Group||96.16|74.65|<0.0001
82657542|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.51||0.804|TWO_SIDED|95.0|-1.15|0.9||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Orofacial pain score||0.90|-1.15|0.804
82608907|NCT01165229|164934779|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|89.79|||<|0.0001|TWO_SIDED|95.0|84.29|93.66|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Herpes Zoster (HZ) disease between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||93.66|84.29|<0.0001
82608908|NCT01165229|164934780|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|93.04|||<|0.0001|TWO_SIDED|95.0|72.47|99.19|||Poisson exact test|||Comparison of vaccine efficacy in prevention of Post-Herpetic Neuralgia (PHN) between Zoster-022/006 Pooled GSK1437173A 70-79YOA Group and Zoster-022/006 Pooled Placebo 70-79YOA Group||99.19|72.47|<0.0001
82608909|NCT01165229|164934780|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|71.16||||0.1844|TWO_SIDED|95.0|-51.51|97.08|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A \>=80YOA Group and Zoster-022/006 Pooled Placebo \>=80YOA Group||97.08|-51.51|0.1844
82608910|NCT01165229|164934780|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|88.78|||<|0.0001|TWO_SIDED|95.0|68.7|97.1|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A \>=70YOA Group and Zoster-022/006 Pooled Placebo \>=70YOA Group||97.10|68.70|<0.0001
82657543|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-1.81|STANDARD_ERROR_OF_MEAN|0.79||0.025|TWO_SIDED|95.0|-3.38|-0.23||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Discoloration and edema score||-0.23|-3.38|0.025
82608911|NCT01165229|164934781|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.27|||<|0.0001|TWO_SIDED|95.0|86.04|94.85|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 Pooled GSK1437173A 70-79YOA Group and Zoster-022/006 Pooled Placebo 70-79YOA Group||94.85|86.04|<0.0001
82608912|NCT01165229|164934781|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.37|||<|0.0001|TWO_SIDED|95.0|80.22|96.94|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 Pooled GSK1437173A \>=80YOA Group and Zoster-022/006 Pooled Placebo \>=80YOA Group||96.94|80.22|<0.0001
82608913|NCT01165229|164934781|OTHER|The efficacy of HZ/su vaccine against herpes zoster disease was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 10%|Vaccine efficacy|91.3|||<|0.0001|TWO_SIDED|95.0|86.88|94.46|||Poisson exact test|||Comparison of vaccine efficacy in prevention of herpes zoster disease between Zoster-022/006 pooled GSK1437173A \>=70 YOA Group and Zoster-022/006 Pooled Placebo \>=70YOA Group||94.46|86.88|<0.0001
82608914|NCT01165229|164934782|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|90.8|||<|0.0001|TWO_SIDED|95.0|62.57|98.95|||Poisson exact test|||Comparison of of Vaccine Efficacy (VE) in prevention of PHN between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 placebo 70-79YOA Group||98.95|62.57|<0.0001
82657544|NCT02549092|165030749|SUPERIORITY||LS Mean of Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.47||0.93|TWO_SIDED|95.0|-0.99|0.9||The repeated measures model: change = treatment, country, visit, baseline, treatment \* visit, baseline \* visit. The unstructured variance-covariance structure is used.|repeated measures model||Difference of LCIG - OMT|Radicular pain score||0.90|-0.99|0.930
82657545|NCT02549092|165030750|SUPERIORITY||LS Mean of Difference|-2.4|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|-2.89|-1.87||ANCOVA model: FINAL = treatment, country.|ANCOVA||Difference of LCIG - OMT|||-1.87|-2.89|< 0.001
82608915|NCT01165229|164934782|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|65.76||||0.3072|TWO_SIDED|95.0|-91.58|96.62|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||96.62|-91.58|0.3072
82608916|NCT01165229|164934782|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|85.49|||<|0.0001|TWO_SIDED|95.0|58.52|96.3|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||96.30|58.52|<0.0001
82608917|NCT01165229|164934783|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|21.7||||0.3749|TWO_SIDED|95.0|-34.4|54.39|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||54.39|-34.40|0.3749
82608918|NCT01165229|164934783|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|51.76||||0.2466|TWO_SIDED|95.0|-65.55|85.95|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo\>=80YOA Group||85.95|-65.55|0.2466
82608919|NCT01165229|164934783|OTHER|The efficacy of HZ/su vaccine against duration of severe worst HZ associated pain was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|28.4||||0.1877|TWO_SIDED|95.0|-17.69|56.44|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo\>=70YOA Group||56.44|-17.69|0.1877
82608920|NCT01165229|164934786|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.2533|TWO_SIDED|95.0|-144.13|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||100.00|-144.13|0.2533
82608921|NCT01165229|164934786|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.5024|TWO_SIDED|95.0|-435.14|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||100.00|-435.14|0.5024
82608922|NCT01165229|164934786|OTHER|Efficacy of the HZ/su vaccine against overall and HZ related hospitalizations was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|100.0||||0.0636|TWO_SIDED|95.0|-9.92|100.0|||Poisson exact test|||Comparison of VE in reduction of overall and HZ related hospitalizations between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||100.00|-9.92|0.0636
82608923|NCT01165229|164934787|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%.|Vaccine efficacy|-65.69||||0.4947|TWO_SIDED|95.0|-827.06|73.62|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||73.62|-827.06|0.4947
82608924|NCT01165229|164934787|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-558.05|100.0|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||100.00|-558.05|1.0000
82608925|NCT01165229|164934787|OTHER|Efficacy of the HZ/su vaccine against HZ related complications was demonstrated if the LL of the VE was above 0%|Vaccine efficacy|0.97||||1|TWO_SIDED|95.0|-433.32|83.16|||Poisson exact test|||Comparison of VE in reduction of HZ related complications between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||83.16|-433.32|1.0000
82608926|NCT01165229|164934788|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|43.42||||0.0112|TWO_SIDED|95.0|10.77|70.53|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||70.53|10.77|0.0112
82608927|NCT01165229|164934788|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of the VE was above 0%|Vaccine efficacy|27.03||||0.3903|TWO_SIDED|95.0|-26.43|73.2|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||73.20|-26.43|0.3903
82608928|NCT01165229|164934788|OTHER|Efficacy of the HZ/su vaccine against use of pain medications was demonstrated if the LL of the two-sided 95% CI of VE was above 0%.|Vaccine efficacy|39.6||||0.0083|TWO_SIDED|95.0|10.79|64.75|||Poisson exact test|||Comparison of VE in reduction in use of pain medication between Zoster-022 GSK1437173A \>=70YOA group and Zoster-022 Placebo \>=70YOA Group||64.75|10.79|0.0083
82608929|NCT01165229|164934789|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|58.94||||0.0232|TWO_SIDED|95.0|11.45|80.96|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A 70-79YOA Group and Zoster-022 Placebo 70-79YOA Group||80.96|11.45|0.0232
82608930|NCT01165229|164934789|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|-14.56||||0.8324|TWO_SIDED|95.0|-303.3|67.46|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A \>=80YOA Group and Zoster-022 Placebo \>=80YOA Group||67.46|-303.30|0.8324
82657546|NCT02495467|165030784|SUPERIORITY||Mean Difference (Final Values)|1.03||||0.0132|TWO_SIDED|95.0|0.22|1.84|||Mixed Models Analysis|||||1.84|0.22|0.0132
82657547|NCT02495467|165030785|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0122|TWO_SIDED|95.0|0.09|0.73|||Mixed Models Analysis|||||0.73|0.09|0.0122
82657548|NCT02495467|165030786|SUPERIORITY||Mean Difference (Final Values)|0.39|||<|0.0001|TWO_SIDED|95.0|0.21|0.57|||Mixed Models Analysis|||||0.57|0.21|<0.0001
82492401|NCT02100514|164677928|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-51.6|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-56.7|-46.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-46.6|-56.7|<0.001
82492402|NCT02100514|164677928|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-46.4|STANDARD_ERROR_OF_MEAN|2.94|||TWO_SIDED|95.0|-52.2|-40.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-40.6|-52.2|
82608931|NCT01165229|164934789|OTHER|Efficacy of the HZ/su vaccine against duration of pain medication associated with HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the hazard ratio was above 0%.|Vaccine efficacy|49.25||||0.0404|TWO_SIDED|95.0|2.92|73.47|||Poisson exact test|||Comparison of VE in reduction in duration of pain medication associated with HZ between Zoster-022 GSK1437173A \>=70YOA Group and Zoster-022 Placebo \>=70YOA Group||73.47|2.92|0.0404
82608932|NCT01165229|164934798|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||0.0081|TWO_SIDED|95.0|40.88|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A 50-59YOA Group and Zoster-022/006 Pooled Placebo 50-59YOA Group.Comparison of vaccine efficacy for groups 70-79 and above 80 YOA are presented in outcome measure 2.||100.00|40.88|0.0081
82608933|NCT01165229|164934798|OTHER|The efficacy of HZ/su vaccine against PHN was demonstrated if the lower limit of the of the 2-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||0.5097|TWO_SIDED|95.0|-442.83|100.0|||Poisson exact test|||Comparison of vaccine efficacy in prevention of PHN between Zoster-022/006 Pooled GSK1437173A 60-69YOA Group and Zoster-022/006 Pooled Placebo 60-69YOA Group||100.00|-442.83|0.5097
82608934|NCT01165229|164934799|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-649.86|100.0|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 50-59 YOA Group versus Zoster-022/006 Pooled Placebo 50-59 YOA Group||100.00|-649.86|1.0000
82608935|NCT01165229|164934799|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|100.0||||1|TWO_SIDED|95.0|-3938.7|100.0|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 60-69 YOA Group versus Zoster-022/006 Pooled Placebo 60-69 YOA Group||100.00|-3938.70|1.0000
82608936|NCT01165229|164934799|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|21.6||||1|TWO_SIDED|95.0|-149.41|78.91|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A 70-79 YOA Group versus Zoster-022/006 Pooled Placebo 70-79 YOA Group||78.91|-149.41|1.0000
82608937|NCT01165229|164934799|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|-223.81||||0.1528|TWO_SIDED|95.0|-883.05|18.84|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A \>=80 YOA Group versus Zoster-022/006 Pooled Placebo\>=80 YOA Group||18.84|-883.05|0.1528
82608938|NCT01165229|164934799|OTHER|The efficacy of HZ/su vaccine in reduction of PHN in subjects with confirmed HZ episodes was demonstrated if the LL of the two-sided 95% CI of VE was above 0%|Vaccine efficacy|0.29||||0.5417|TWO_SIDED|95.0|-161.53|65.57|||Poisson exact test|||Comparison of Vaccine efficacy in reduction of PHN incidence in subjects with confirmed HZ episode in Zoster-022/006 Pooled GSK1437173A \>=50 YOA Group versus Zoster-022/006 Pooled Placebo \>=50 YOA Group||65.57|-161.53|0.5417
82608939|NCT01165229|164934800|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|23.75||||0.2885|TWO_SIDED|95.0|-25.8|53.78|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A 70-79YOA Group and Zoster-022/006 pooled Placebo 70-79YOA Group||53.78|-25.80|0.2885
82608940|NCT01165229|164934800|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|54.93||||0.194|TWO_SIDED|95.0|-50.03|86.46|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A \>=80 YOA Group and Zoster-022/006 pooled Placebo \>=80 YOA Group||86.46|-50.03|0.1940
82608941|NCT01165229|164934800|OTHER|The VE of HZ/su against duration of severe worst pain in subjects with confirmed HZ was demonstrated if the LL of the two-sided 95% CI of VE derived from the Hazard ratio was above 0%.|Vaccine efficacy|30.48||||0.1243|TWO_SIDED|95.0|-10.52|56.27|||Poisson exact test|||Comparison of VE in reduction of duration of severe worst HZ associated pain between Zoster-022/006 pooled GSK1437173A \>=70 YOA Group and Zoster-022/006 pooled Placebo\>=70 YOA Group||56.27|-10.52|0.1243
82608942|NCT01184989|164934835|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability analysis|Ratio|102.16|STANDARD_DEVIATION|22.8||||90.0|97.64|106.893|||Geometric Mean||Dispersion value is actually the intraindividual gCV.|Estimated local measurements are compared to HPLC-MS/MS measurements. The comparison was done for the 136 quantifiable measurements.||106.893|97.640|
82608943|NCT01184989|164934836|NON_INFERIORITY_OR_EQUIVALENCE|Bioavailability analysis|Ratio|92.37|STANDARD_DEVIATION|23.5||||90.0|90.079|94.719|||Geometric Mean||The Dispersion Value is actually the intraindividual gCV.|Estimated central measurements are compared to HPLC-MS/MS measurements. The comparison was done for the 468 quantifiable measurements.||94.719|90.079|
82608944|NCT01570491|164934838|SUPERIORITY_OR_OTHER|||||||0.83|||||||Kruskal-Wallis|||"We hypothesized that real-time US guidance would result in a 20% lower number of attempts compared to the control group.~At the 0.05 level of significance with a power of 0.8, we will require a minimum of 20 patients per group, therefore we planned to recruit 40 patients in total."||||0.83
82608945|NCT01570491|164934839|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82608946|NCT01570491|164934840|SUPERIORITY|||||||0.09|||||||Kruskal-Wallis|||||||0.09
82608947|NCT01570491|164934841|SUPERIORITY|||||||0.06|||||||Kruskal-Wallis|||||||0.06
82608948|NCT01515072|164934842|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08||||0.38|TWO_SIDED|95.0|-0.37|0.21||This is an unadjusted comparison. P value \< 0.05|t-test, 2 sided|Adjusted analyses for the RIPC effect are provided below.|0.08 less organs per donor in the RIPC group.|Sample Size and Power estimation: A sample size of at least 150 donors in each arm was estimated to provide 80% power to detect a difference of 0.44 of an organ recovered and 0.48 of an organ transplanted per donor. The difference criterion was chosen based on published results achieved with hormonal resuscitation in organ donors. 6 Pooled standard deviations (organs recovered: 1.35; organs transplanted: 1.5) from data of two OPOs were used.||0.21|-0.37|0.38
82608949|NCT01515072|164934843|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03||||0.7|TWO_SIDED|95.0|-0.33|0.26||This is an unadjusted analysis. P \< 0.05|t-test, 2 sided|Adjusted analyses are provided below.|0.03 less organs per donor in the RIPC group.|Sample Size A sample size of at least 150 donors in each arm was estimated to provide 80% power to detect a difference of 0.44 of an organ recovered and 0.48 of an organ transplanted per donor. The difference criterion was chosen based on published results achieved with hormonal resuscitation in organ donors. 6 Pooled standard deviations (organs recovered: 1.35; organs transplanted: 1.5) from data of two OPOs were used.||0.26|-0.33|0.70
82608950|NCT01515072|164934844|SUPERIORITY_OR_OTHER|||||||0.63||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.63
82608951|NCT01515072|164934845|SUPERIORITY_OR_OTHER|||||||0.86|||||||Wilcoxon (Mann-Whitney)|||||||0.86
82608952|NCT01515072|164934846|SUPERIORITY_OR_OTHER|||||||0.55||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.55
82608953|NCT01515072|164934847|SUPERIORITY_OR_OTHER|||||||0.55||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.55
82608954|NCT01515072|164934848|SUPERIORITY_OR_OTHER|||||||0.48||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.48
82657549|NCT02495467|165030787|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.0055|TWO_SIDED|95.0|0.12|0.69|||Mixed Models Analysis|||||0.69|0.12|0.0055
82492403|NCT02100514|164677928|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-37.4|STANDARD_ERROR_OF_MEAN|3.03|||TWO_SIDED|95.0|-43.3|-31.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-31.4|-43.3|
82608955|NCT01515072|164934849|SUPERIORITY_OR_OTHER|||||||0.04||||||P\<0.05|Wilcoxon (Mann-Whitney)|This is an unadjusted comparison||||||0.04
82608956|NCT01515072|164934850|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.7||||0.53|TWO_SIDED|95.0|-10.1|19.5||P\<0.05|Regression, Linear|Final flow was modeled on RIPC and adjusted for donor stratum and duration of perfusion|Data shown above is the the adjusted mean difference in final flow in RIPC group|||19.5|-10.1|0.53
82608957|NCT01515072|164934851|SUPERIORITY_OR_OTHER|||||||0.97|||||||Wilcoxon (Mann-Whitney)|||||||0.97
82608958|NCT01515072|164934852|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.07|TWO_SIDED|95.0|0.95|2.76||Adjusted analysis with recipient age as a continuous variable, sex, race as black versus not black, body mass index, diabetes, hypertension,antigen mismatches, donor age as a continuous variable and trial site.|Chi-squared|||||2.76|0.95|0.07
82608959|NCT01515072|164934852|SUPERIORITY_OR_OTHER|||||||0.36||||||Unadjusted analysis|Chi-squared|||||||0.36
82608960|NCT01515072|164934853|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.006|TWO_SIDED|95.0|0.03|0.17|||Regression, Linear|Final resistance was modeled on RIPC and adjusted for donor stratum and duration of perfusion.|Data shown above is the adjusted mean difference in final resistance in the RIPC group.|||0.17|0.03|0.006
82608961|NCT01515072|164934854|SUPERIORITY_OR_OTHER|||||||0.5|||||||Fisher Exact|This is an unadjusted comparison||||||0.50
82608962|NCT01515072|164934855|SUPERIORITY_OR_OTHER|||||||0.03|||||||Log Rank|This is an unadjusted comparison||||||0.03
82608963|NCT01515072|164934856|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.19||||0.01|TWO_SIDED|95.0|0.04|0.9|||Log Rank|Results of adjusted Cox proportional hazard analyses for six month death-censored kidney graft survival are shown below|The proportional hazard ratio favors RIPC group|||0.90|0.04|0.01
82608964|NCT01515072|164934857|SUPERIORITY_OR_OTHER|||||||0.37|||||||Log Rank|This is an unadjusted comparison||||||0.37
82608965|NCT05370157|164934858|SUPERIORITY||Mean Difference (Net)|4.25|STANDARD_ERROR_OF_MEAN|0.85||0.03|TWO_SIDED|95.0|0.76|7.74|||Regression, Linear|Satterthwaite Approximation||Intent-to-treat analyses tested changes in knowledge from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||7.74|0.76|.03
82608966|NCT05370157|164934859|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.3|TWO_SIDED|95.0|-0.4|0.2|||Regression, Linear|Satterthwaite Approximation||Intent-to-treat analyses tested changes in skill use from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.20|-0.40|.30
82657550|NCT02495467|165030788|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.001|TWO_SIDED|95.0|0.2|0.76|||Mixed Models Analysis|||||0.76|0.20|0.001
82657551|NCT02495467|165030789|SUPERIORITY||Means ratio|0.995||||0.7999|TWO_SIDED|95.0|0.96|1.032|||Generalized Linear Mixed Model|||||1.032|0.960|0.7999
82657552|NCT02495467|165030790|SUPERIORITY||Means ratio|0.989||||0.6746|TWO_SIDED|95.0|0.937|1.043|||Generalized Linear Mixed Model|||||1.043|0.937|0.6746
82657553|NCT02495467|165030791|SUPERIORITY||Means ratio|1.075||||0.0959|TWO_SIDED|95.0|0.987|1.17|||Generalized Linear Mixed Model|||||1.170|0.987|0.0959
82657554|NCT02495467|165030792|SUPERIORITY||Means ratio|1.522|||<|0.0001|TWO_SIDED|95.0|1.267|1.829|||Generalized Linear Mixed Model|||||1.829|1.267|<0.0001
82657555|NCT02495467|165030793|SUPERIORITY||Means ratio|1.32||||0.0005|TWO_SIDED|95.0|1.128|1.545|||Generalized Linear Mixed Model|||||1.545|1.128|0.0005
82608967|NCT05370157|164934863|SUPERIORITY||Mean Difference (Net)|-0.23|STANDARD_ERROR_OF_MEAN|0.25||0.45|TWO_SIDED|95.0|-1.25|0.79|||Regression, Linear|||Intent-to-treat analyses tested changes in psychological safety from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.79|-1.25|.45
82608968|NCT05370157|164934864|SUPERIORITY||Mean Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.1||0.89|TWO_SIDED|95.0|-0.44|0.4|||Regression, Linear|||Intent-to-treat analyses tested changes in learning behavior from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||0.40|-0.44|.89
82608969|NCT05370157|164934865|SUPERIORITY||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.36||0.85|TWO_SIDED|95.0|-1.51|1.36|||Regression, Linear|||Intent-to-treat analyses tested changes in team performance from baseline to follow-up using linear mixed models. Mixed models analyses were conducted in R using the lme4 package and restricted maximum likelihood estimation (REML). Models included fixed effects of time (baseline vs. follow-up), intervention condition, and their interaction as well as random effects for person and team. We used the clubSandwich package to calculate cluster robust standard errors.||1.36|-1.51|.85
82608970|NCT01508676|164934866|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||.04
82608971|NCT00609128|164934889|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|ANOVA with preplanned comparisons was used to generate two tailed P values. Paired t tests were used to make appropriate post-ANOVA comparisons.||"tears were collected in season from eyes of allergic patients with or without olopatadine treatment, that is one eye was treated and the patients other eye was not.~Tears from each patient's eyes were pooled to provide enough volume."||||<0.05
82608972|NCT01499576|164934895|SUPERIORITY_OR_OTHER||percent agreement|89.2|||||TWO_SIDED|||||||||||||
82608973|NCT01499576|164934896|SUPERIORITY_OR_OTHER||Kappa index of agreement|0.808|||<|0.01|TWO_SIDED||||||Kappa index of agreement|||||||<0.01
82608974|NCT01499576|164934897|SUPERIORITY_OR_OTHER||persent of adverse event|10.48|||||TWO_SIDED|||||||||||||
82608975|NCT01254344|164934904|NON_INFERIORITY_OR_EQUIVALENCE|"Assuming a 70% rate (i.e., proportion of participants with success of prophylaxis) for both groups and a significance level of 0.025, at least 200 evaluable participants per group were needed to have 90% probability that the lower limit of the 95% (two-sided) confidence interval for the difference in the response rates between the 2 groups was greater than -15 percentage points."|Difference in percentage of prophylaxis|0.1|||||TWO_SIDED|95.0|-5.2|5.5|||Miettinen and Nurminen|||||5.5|-5.2|
82608976|NCT01254344|164934905|SUPERIORITY_OR_OTHER||Difference in percentage of prophylaxis|1.3|||||TWO_SIDED|95.0|-2.2|5.1|||Miettinen and Nurminen|||||5.1|-2.2|
82608977|NCT00195351|164934914|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.0||||0.009||95.0|-13.1|5.1|||t-test, 2 sided|||||5.1|-13.1|0.009
82608978|NCT00195351|164934915|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-3.4||||0.02||95.0|-14.5|7.8|||t-test, 2 sided|||||7.8|-14.5|0.020
82608979|NCT00195351|164934916|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.9||||0.015||95.0|-13.9|8.1|||Method of Mehrotra and Railkar|||||8.1|-13.9|0.015
82608980|NCT03249350|164934993|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.49|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.49
82608981|NCT03249350|164934994|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.19||0.92|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.92
82608982|NCT03249350|164934995|SUPERIORITY||||||<|0.001|||||||ANOVA|Main effect of group, F=13.58.||Cognitive Behavioral Components||||<0.001
82657556|NCT02495467|165030794|SUPERIORITY||||||<|0.0001|||||||Prescott Test (Exact)|||||||<0.0001
82608983|NCT03249350|164934995|SUPERIORITY|||||||0.08|||||||ANOVA|Main effect of group, F=3.02.||Behavioral Modification Components||||0.08
82608984|NCT03249350|164934996|SUPERIORITY||Slope|-0.11|STANDARD_ERROR_OF_MEAN|0.07||0.09|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.09
82608985|NCT03249350|164934997|SUPERIORITY||Slope|-0.004|STANDARD_ERROR_OF_MEAN|0.06||0.95|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.95
82608986|NCT03249350|164934998|SUPERIORITY||Slope|0.02|STANDARD_ERROR_OF_MEAN|0.11||0.88|TWO_SIDED||||||Mixed Models Analysis|||APQ - Poor Monitoring - Parent Report Mixed effects regression model tested for between-group differences in change over time.||||0.88
82608987|NCT03249350|164934999|SUPERIORITY||Slope|0.16|STANDARD_ERROR_OF_MEAN|0.09||0.06|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.06
82608988|NCT03249350|164935000|SUPERIORITY||Slope|-0.06|STANDARD_ERROR_OF_MEAN|0.09||0.5|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.50
82608989|NCT03249350|164935001|SUPERIORITY||Slope|0.32|STANDARD_ERROR_OF_MEAN|0.15||0.03|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.03
82608990|NCT03249350|164935002|SUPERIORITY||Slope|-0.21|STANDARD_ERROR_OF_MEAN|0.33||0.54|TWO_SIDED||||||Mixed Models Analysis|||GAIN - Substance Frequency Mixed effects regression model tested for between-group differences in change over time.||||0.54
82608991|NCT03249350|164935003|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.09||0.89|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.89
82608992|NCT03249350|164935004|SUPERIORITY||Slope|0.05|STANDARD_ERROR_OF_MEAN|0.05||0.31|TWO_SIDED||||||Mixed Models Analysis|||BISBAS Drive - Youth Report. Mixed effects regression model tested for between-group differences in change over time.||||0.31
82657557|NCT02495467|165030795|SUPERIORITY|||||||0.0003|||||||Prescott Test (Exact)|||||||0.0003
82657558|NCT03611608|165030855|SUPERIORITY||Mean Difference (Final Values)|263.54|||<|0.001|ONE_SIDED|90.0|207.86||||t-test, 1 sided||||||207.86|<0.001
82657559|NCT04625114|165030858|SUPERIORITY||Mean Difference (Final Values)|1.183||||0.511|TWO_SIDED||||||Mixed Models Analysis|||||||0.511
82657560|NCT04625114|165030859|SUPERIORITY||Cox Proportional Hazard|0.965||||0.921|TWO_SIDED|95.0|0.48|1.942|||Regression, Cox|||||1.942|0.480|0.921
82657561|NCT01629381|165030861|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.3||||0.03|TWO_SIDED|95.0|-11.3|-0.4|||Fisher Exact|||||-0.4|-11.3|0.03
82657562|NCT01629381|165030863|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-5.3||||0.03|TWO_SIDED|95.0|-11.7|-0.1|||Fisher Exact|||||-0.1|-11.7|0.03
82657563|NCT01629381|165030864|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-2.0||||0.53|TWO_SIDED|95.0|-8.0|3.7|||Fisher Exact|||||3.7|-8.0|0.53
82657564|NCT02158494|165030865|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 2 weeks||||0.41
82657565|NCT02158494|165030865|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 14 weeks||||0.47
82492404|NCT02100514|164677929|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-46.6|STANDARD_ERROR_OF_MEAN|3.59|<|0.001||95.0|-53.7|-39.5|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-39.5|-53.7|<0.001
82499421|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.81|STANDARD_ERROR_OF_MEAN|6.33||||90.0|-25.24|-4.39|||ANCOVA|||Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.39|-25.24|
82608993|NCT03249350|164935005|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.05||0.35|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.35
82608994|NCT03249350|164935006|SUPERIORITY||Slope|0.08|STANDARD_ERROR_OF_MEAN|0.05||0.13|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.13
82608995|NCT03249350|164935007|SUPERIORITY||Slope|-0.04|STANDARD_ERROR_OF_MEAN|0.04||0.3|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.30
82608996|NCT03249350|164935008|SUPERIORITY||Slope|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.7|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.70
82608997|NCT03249350|164935009|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.04||0.89|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.89
82608998|NCT03249350|164935010|SUPERIORITY||Slope|-0.5|STANDARD_ERROR_OF_MEAN|0.27||0.06|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.06
82608999|NCT03249350|164935011|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.01||0.11|TWO_SIDED||||||Mixed Models Analysis|||EATQ Effortful Control - Youth Report Mixed effects regression model tested for between-group differences in change over time.||||0.11
82657566|NCT02158494|165030865|SUPERIORITY|||||||0.99|||||||t-test, 2 sided|||P-Value for Sensory Organization Test results at 26 weeks||||0.99
82657567|NCT00854308|165030937|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.086||||0.6873|TWO_SIDED|95.0|0.727|1.622|||Log Rank||The hazard ratio was estimated using Cox Regression and was stratified for smoking status, Eastern Cooperative Oncology Group (ECOG) performance status and histology. The hazard ratio is relative to Placebo + Erlotinib.|The null hypothesis is that there is no difference in PFS between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have prolonged PFS compared with Placebo + Erlotinib.||1.622|0.727|0.6873
82657568|NCT00854308|165030938|SUPERIORITY_OR_OTHER|||||||0.7101||95.0||||P-value was stratified for smoking status, ECOG performance status and histology.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference in Objective Response between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have better Objective Response compared with Placebo + Erlotinib.||||0.7101
82657569|NCT00854308|165030939|SUPERIORITY_OR_OTHER|||||||0.3671||95.0||||P-value was stratified for smoking status, ECOG performance status and histology.|Cochran-Mantel-Haenszel|||The null hypothesis is that there is no difference in Objective Response between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have better Objective Response compared with Placebo + Erlotinib||||0.3671
82657570|NCT00854308|165030940|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.529||||0.0418|TWO_SIDED|95.0|0.284|0.986|||Log Rank||The hazard ratio was estimated using Cox Regression and was stratified for smoking status, ECOG performance status and histology. The hazard ratio is relative to Placebo + Erlotinib.|The null hypothesis is that there is no difference in PFS between MetMab + Erlotinib and Placebo + Erlotinib. The alternate hypothesis is that MetMab + Erlotinib would have prolonged PFS compared with Placebo + Erlotinib.||0.986|0.284|0.0418
82657571|NCT01390844|165030942|SUPERIORITY_OR_OTHER||Difference in Percentage|34.63|||<|0.0001|TWO_SIDED|95.0|20.24|47.18|||Miettinen and Numinen|||Between-Group Comparison||47.18|20.24|<0.0001
82657572|NCT01390844|165030943|SUPERIORITY_OR_OTHER||Difference in Percentage|33.83||||0.0063|TWO_SIDED|95.0|10.15|52.18|||Miettinen and Numinen|||Between-Group Comparison||52.18|10.15|0.0063
82657573|NCT01390844|165030944|SUPERIORITY_OR_OTHER||Difference in Percentage|35.05|||<|0.0001|TWO_SIDED|95.0|20.51|47.72|||Miettinen and Numinen|||Between-Group Comparison||47.72|20.51|<0.0001
82657574|NCT01390844|165030945|SUPERIORITY_OR_OTHER||Difference in Percentage|33.18||||0.0086|TWO_SIDED|95.0|8.96|51.83|||Miettinen and Numinen|||Between-Group Comparison||51.83|8.96|0.0086
82657575|NCT01390844|165030946|SUPERIORITY_OR_OTHER||Difference in Percentage|29.08|||<|0.001|TWO_SIDED|95.0|15.26|42.22|||Miettinen and Nurminen|||Between-Group Comparison||42.22|15.26|<0.001
82657576|NCT01390844|165030947|SUPERIORITY_OR_OTHER||Difference in Percentage|36.13||||0.004|TWO_SIDED|95.0|12.12|55.01|||Mittienen and Nurminen|||Between-Group Comparison||55.01|12.12|0.004
82657577|NCT02079766|165030957|OTHER|||||||0.2959||||||No adjustments for multiple comparisons or multiplicity were made for this study. No a priori threshold for significance was chosen.|Fisher Exact|||Evaluated the association between the overall brain uptake and the study group||||0.2959
82657578|NCT02079766|165030958|OTHER|||||||0.5163||||||No adjustments for multiple comparisons or multiplicity were made for this study. No a priori threshold for significance was chosen.|ANOVA|MMSE score as the response variable and flortaucipir uptake score (4 levels) as the fixed effect||Measured differences in clinical presentation using MMSE between subjects with no visual flortaucipir uptake, and those with mild uptake.||||0.5163
82657579|NCT00113425|165030959|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|95.0|||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in papule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.01
82609000|NCT03249350|164935012|SUPERIORITY||Slope|-0.0001|STANDARD_ERROR_OF_MEAN|0.009||0.99|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.99
82609001|NCT03249350|164935013|SUPERIORITY||Slope|-0.0007|STANDARD_ERROR_OF_MEAN|0.003||0.82|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.82
82609002|NCT03249350|164935014|SUPERIORITY||Slope|0.25|STANDARD_ERROR_OF_MEAN|0.21||0.23|TWO_SIDED||||||Mixed Models Analysis|||Peer Delinquency||||0.23
82657580|NCT00113425|165030960|SUPERIORITY_OR_OTHER|||||||0.43|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in pustule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.43
82609003|NCT03249350|164935015|SUPERIORITY||Slope|0.04|STANDARD_ERROR_OF_MEAN|0.13||0.73|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.73
82609004|NCT03249350|164935016|SUPERIORITY||Slope|0.11|STANDARD_ERROR_OF_MEAN|0.11||0.31|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression model tested for between-group differences in change over time.||||0.31
82609005|NCT01450137|164935029|SUPERIORITY||Risk Difference (RD)|0.45||||0.0301|TWO_SIDED|95.0|0.11|0.79|||Fisher Exact|||||0.79|0.11|0.0301
82609006|NCT01450137|164935030|SUPERIORITY||Risk Difference (RD)|0.65||||0.001|TWO_SIDED|95.0|0.36|0.94|||Fisher Exact|||||0.94|0.36|0.0010
82609007|NCT01450137|164935031|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82609008|NCT01450137|164935032|SUPERIORITY||Mean Difference (Final Values)|25.0||||0.0005|TWO_SIDED|95.0|11.0|39.0|||z-test||Difference between restricted mean survival time at 12 months|||39|11|0.0005
82609009|NCT01332435|164935033|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82609010|NCT01332435|164935033|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Chi-squared|||||||0.0002
82657581|NCT00113425|165030961|SUPERIORITY_OR_OTHER|||||||0.79|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in cysts for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.79
82609011|NCT01332435|164935034|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82609012|NCT01332435|164935034|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Chi-squared|||||||0.0006
82609013|NCT01332435|164935035|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82609014|NCT01332435|164935035|SUPERIORITY_OR_OTHER|||||||0.0699||95.0|||||Chi-squared|||||||0.0699
82609015|NCT01332435|164935036|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
82609016|NCT01332435|164935036|SUPERIORITY_OR_OTHER|||||||0.8645||95.0|||||Regression, Linear|||||||0.8645
82609017|NCT01332435|164935037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
82609018|NCT01332435|164935037|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|||||||<0.001
82609019|NCT02082184|164935059|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.114||0.8222|TWO_SIDED||||||ANCOVA|||||||0.8222
82609020|NCT02082184|164935060|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.58||0.7925|TWO_SIDED||||||ANCOVA|||||||0.7925
82609021|NCT02082184|164935061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.134|<|0.001|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \<70 mg/dL||||<0.001
82609022|NCT02082184|164935061|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.068||0.0014|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \<55 mg/dL||||0.0014
82609023|NCT02082184|164935062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.065||0.0164|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<70 mg/dL||||0.0164
82609024|NCT02082184|164935062|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.037||0.0017|TWO_SIDED||||||ANCOVA|||Statistical analysis of frequency of episodes \<55 mg/dL||||0.0017
82609025|NCT02082184|164935063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|0.63||0.597|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>180 mg/dL||||0.5970
82609026|NCT02082184|164935063|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8729|TWO_SIDED||||||ANCOVA|||Statistical analysis of time spent \>240 mg/dL||||0.8729
82609027|NCT02082184|164935066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.31||0.6075|TWO_SIDED||||||ANCOVA|||Perceived frequency of hyperglycaemia||||0.6075
82609028|NCT02082184|164935066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2295|TWO_SIDED||||||ANCOVA|||Perceived frequency of hypoglycaemia||||0.2295
82609029|NCT02082184|164935066|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1|STANDARD_ERROR_OF_MEAN|0.8|<|0.001|TWO_SIDED||||||ANCOVA|||Total treatment satisfaction score||||<0.001
82609030|NCT00443560|164935067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.3|||<|0.01||95.0|2.3|4.5|||Chi-squared, Corrected|||||4.5|2.3|<0.01
82657582|NCT00113425|165030962|SUPERIORITY_OR_OTHER|||||||0.1|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in closed comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.10
82657583|NCT00113425|165030963|SUPERIORITY_OR_OTHER|||||||0.73|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in open comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.73
82657584|NCT00113425|165030964|SUPERIORITY_OR_OTHER|||||||0.02|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in erythematous macules for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.02
82657585|NCT00113425|165030965|SUPERIORITY_OR_OTHER|||||||0.003|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in acne severity for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.003
82609031|NCT00443560|164935068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.2|||<|0.01||95.0|9.9|15.0|||Chi-squared, Corrected|||||15.0|9.9|<0.01
82609032|NCT00443560|164935069|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82609033|NCT01466751|164935077|SUPERIORITY_OR_OTHER||Type III Tests of Fixed Effects|8.687||||0.004|TWO_SIDED|||||A-priori threshold for statistical significance: p \< 0.05. No correction for multiple comparisons. The omnibus effect from the linear mixed model for the Treatment Arm x Time Interaction was utilized to establish significance of the effect.|Mixed Models Analysis|Numerator degrees of freedom=1, Denominator degrees of freedom = 168||A linear mixed model was utilized to test the null hypothesis that the intervention groups would show equivalent performance change on the outcome measure from baseline to the 3 month time points.||||0.004
82609034|NCT01466751|164935078|SUPERIORITY_OR_OTHER||Type III Tests of Fixed Effects|2.032||||0.156|TWO_SIDED|||||No adjustment for multiple comparisons. The a priori threshold was: p \< 0.05.|Mixed Models Analysis|Numerator degrees of freedom: 1, Denominator degrees of freedom: 168||A linear mixed model was used to test the null hypothesis that the two treatment groups would display no differential changes in amygdala BOLD signal from baseline to 3 months as a main effect or in interaction with facial affect type (fear or happy) or by brain hemisphere (left or right).||||0.156
82609035|NCT02413255|164935087|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0195||||0.465|TWO_SIDED|90.0|0.9752|1.0637|||Power Model|||||1.0637|0.9752|0.465
82609036|NCT02413255|164935088|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.1124||||0.126|TWO_SIDED|90.0|0.9913|1.2336|||Power Model|||Day 1||1.2336|0.9913|0.126
82609037|NCT02413255|164935088|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.09||||0.114|TWO_SIDED|90.0|0.9962|1.1838|||Power Model|||Day 9||1.1838|0.9962|0.114
82609038|NCT02413255|164935089|SUPERIORITY|||||||0.5402|||||||ANOVA|Statistical analysis results were obtained using Analysis of Variance (ANOVA) with dose level as a fixed effect.||||||0.5402
82609039|NCT02413255|164935090|SUPERIORITY|||||||0.7824|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||Day 1||||0.7824
82609040|NCT02413255|164935090|SUPERIORITY|||||||0.4056|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||Day 9||||0.4056
82609041|NCT02413255|164935091|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0606||||0.019|TWO_SIDED|90.0|1.0187|1.1026|||Power Model|||||1.1026|1.0187|0.019
82609042|NCT02413255|164935092|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0789||||0.258|TWO_SIDED|90.0|0.9628|1.195|||Power Model|||Day 1||1.1950|0.9628|0.258
82609043|NCT02413255|164935092|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0929||||0.144|TWO_SIDED|90.0|0.9878|1.198|||Power Model|||Day 9||1.1980|0.9878|0.144
82609044|NCT02413255|164935095|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0799||||0.003|TWO_SIDED|90.0|1.0371|1.1227|||Power Model|||||1.1227|1.0371|0.003
82609045|NCT02413255|164935096|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0897||||0.201|TWO_SIDED|90.0|0.9735|1.206|||Power Model|||||1.2060|0.9735|0.201
82609046|NCT02413255|164935097|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0188||||0.49|TWO_SIDED|90.0|0.9734|1.0642|||Power Model|||||1.0642|0.9734|0.490
82492405|NCT02100514|164677929|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-39.7|STANDARD_ERROR_OF_MEAN|4.12||||95.0|-47.9|-31.6||||||Week 24: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-31.6|-47.9|
82609047|NCT02413255|164935098|EQUIVALENCE|Dose proportionality is declared when the 90% confidence interval of the slope lies entirely within the critical region (0.9679, 1.0321) for the dose range of 0.1 mg to 105 mg.|Slope|1.0846||||0.224|TWO_SIDED|90.0|0.969|1.2002|||Power Model|||||1.2002|0.9690|0.224
82609048|NCT02413255|164935105|SUPERIORITY||||||<|0.0001|||||||ANOVA|Statistical analysis results were obtained using ANOVA with dose level as a fixed effect.||||||<.0001
82609049|NCT02413255|164935121|OTHER||Estimated Ratio|1.121|||||TWO_SIDED|90.0|0.772|1.628||||||||1.628|0.772|
82609050|NCT02413255|164935121|OTHER||Estimated Ratio|1.156|||||TWO_SIDED|90.0|0.796|1.678||||||||1.678|0.796|
82609051|NCT02413255|164935121|OTHER||Estimated Ratio|0.982|||||TWO_SIDED|90.0|0.676|1.425||||||||1.425|0.676|
82609052|NCT02413255|164935121|OTHER||Estimated Ratio|1.055|||||TWO_SIDED|90.0|0.701|1.587||||||||1.587|0.701|
82609053|NCT02413255|164935121|OTHER||Estimated Ratio|1.105|||||TWO_SIDED|90.0|0.761|1.604||||||||1.604|0.761|
82609054|NCT02413255|164935121|OTHER||Estimated Ratio|1.225|||||TWO_SIDED|90.0|0.844|1.778||||||||1.778|0.844|
82609055|NCT02413398|164935122|SUPERIORITY||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.1|<|0.001|TWO_SIDED|95.0|-0.53|-0.15|||Mixed Models Analysis|||Difference in adjusted mean change from baseline (MMRM model)||-0.15|-0.53|<0.001
82609056|NCT02413398|164935123|SUPERIORITY||Mean Difference (Final Values)|-1.43|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.15|-0.69|||Mixed Models Analysis|||Difference in adjusted mean percent change from baseline (MMRM)||-0.69|-2.15|<0.001
82609057|NCT02413398|164935124|SUPERIORITY||Mean Difference (Final Values)|-16.59|STANDARD_ERROR_OF_MEAN|5.15||0.001|TWO_SIDED|95.0|-26.73|-6.45|||Mixed Models Analysis|||Difference in adjusted mean change from baseline versus placebo (MMRM)||-6.45|-26.73|0.001
82609058|NCT02413398|164935125|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|1.6|<|0.05|TWO_SIDED|95.0|-6.3|0.0|||Mixed Models Analysis|||Difference in adjusted mean change from baseline vs. placebo (MMRM)||0.0|-6.3|<0.050
82609059|NCT01494038|164935126|NON_INFERIORITY|Calculate the difference between the immediate arm incidence rate and the deferred arm incidence rate; if the upper bound of the 95% confidence interval is lower than a 5% difference in incidence rates, non-inferiority will be considered to be proven.|Incidence rate difference|0.1|||||TWO_SIDED|95.0|-4.77|4.98||||||||4.98|-4.77|
82609060|NCT01494038|164935127|SUPERIORITY|||||||0.093|||||||Fisher Exact|mid-P adjustment||||||0.093
82609061|NCT01494038|164935129|SUPERIORITY|||||||0.288|||||||Fisher Exact|mid-P adjustment||||||0.288
82609062|NCT01494038|164935130|SUPERIORITY|||||||0.073|||||||Fisher Exact|mid-P adjustment||||||0.073
82657586|NCT00113425|165030966|SUPERIORITY_OR_OTHER|||||||0.62|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in papule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.62
82657587|NCT00113425|165030967|SUPERIORITY_OR_OTHER|||||||0.85|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in pustule acne lesions for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.85
82657588|NCT00113425|165030968|SUPERIORITY_OR_OTHER|||||||0.49|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in cysts for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.49
82609063|NCT01494038|164935131|SUPERIORITY|||||||0.264|||||||Fisher Exact|mid-P adjustment||||||0.264
82609064|NCT01494038|164935132|SUPERIORITY|||||||0.012|||||||Fisher Exact|Mid-P adjustment||||||0.012
82657589|NCT00113425|165030969|SUPERIORITY_OR_OTHER|||||||0.21|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in closed comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.21
82609065|NCT01494038|164935135|SUPERIORITY|||||||0.279|||||||Fisher Exact|mid-P adjustment||||||0.279
82609066|NCT01494038|164935136|SUPERIORITY|||||||0.893|||||||Fisher Exact|mid-P adjustment||||||.893
82609067|NCT01494038|164935137|SUPERIORITY||Incidence rate difference|0.01|||||TWO_SIDED|95.0|-0.94|0.96||||||||0.96|-0.94|
82609068|NCT01494038|164935138|SUPERIORITY||Incidence rate difference|0.02|||||TWO_SIDED|95.0|-1.02|1.07||||||||1.07|-1.02|
82609069|NCT01494038|164935139|SUPERIORITY||Incidence rate difference|-1.43|||||TWO_SIDED|95.0|-4.17|1.32||||||||1.32|-4.17|
82609070|NCT01494038|164935140|SUPERIORITY||Incidence rate difference|-0.39|||||TWO_SIDED|95.0|-1.33|0.56||||||||0.56|-1.33|
82609071|NCT01494038|164935141|SUPERIORITY||Incidence rate difference|-0.38|||||TWO_SIDED|95.0|-1.72|0.97||||||||0.97|-1.72|
82609072|NCT01494038|164935142|SUPERIORITY||Incidence rate difference|-1.69|||||TWO_SIDED|95.0|-4.48|1.1||||||||1.1|-4.48|
82609073|NCT01494038|164935143|SUPERIORITY||Incidence rate difference|-1.3|||||TWO_SIDED|95.0|-3.86|1.25||||||||1.25|-3.86|
82609074|NCT01494038|164935144|SUPERIORITY||Incidence rate difference|2.14|||||TWO_SIDED|95.0|-7.86|12.13||||||||12.13|-7.86|
82609075|NCT01494038|164935145|SUPERIORITY||Incidence rate difference|6.89|||||TWO_SIDED|95.0|-0.08|13.86||||||||13.86|-0.08|
82609076|NCT01494038|164935146|SUPERIORITY||Incidence rate difference|5.49|||||TWO_SIDED|95.0|-13.7|24.68||||||||24.68|-13.7|
82609077|NCT01494038|164935147|SUPERIORITY||Incidence rate difference|15.88|||||TWO_SIDED|95.0|2.11|29.65||||||||29.65|2.11|
82609078|NCT01494038|164935148|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
82609079|NCT01494038|164935149|SUPERIORITY||Incidence rate difference|3.38|||||TWO_SIDED|95.0|-1.31|8.07||||||||8.07|-1.31|
82609080|NCT01494038|164935150|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
82609081|NCT01494038|164935151|SUPERIORITY||Incidence rate difference|3.39|||||TWO_SIDED|95.0|-1.46|8.25||||||||8.25|-1.46|
82609082|NCT01494038|164935152|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
82609083|NCT01494038|164935153|SUPERIORITY||Incidence rate difference|3.38|||||TWO_SIDED|95.0|-1.31|8.07||||||||8.07|-1.31|
82609084|NCT01494038|164935154|SUPERIORITY||Incidence rate difference|-0.82|||||TWO_SIDED|95.0|-4.63|3.0||||||||3|-4.63|
82609085|NCT01494038|164935155|SUPERIORITY||Incidence rate difference|3.39|||||TWO_SIDED|95.0|-1.46|8.25||||||||8.25|-1.46|
82609086|NCT01494038|164935160|OTHER|Measuring agreement between the tests|||||<|0.0001|||||||Chi-squared|McNemars test||||||< 0.0001
82609087|NCT01494038|164935160|OTHER|Agreement between tests|Kappa coefficient|0.42|||||TWO_SIDED|95.0|0.35|0.5||||||||0.50|0.35|
82657590|NCT00113425|165030970|SUPERIORITY_OR_OTHER|||||||0.27|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in open comedones for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.27
82657591|NCT00113425|165030971|SUPERIORITY_OR_OTHER|||||||0.04|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in erythematous macules for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.04
82657592|NCT00113425|165030972|SUPERIORITY_OR_OTHER|||||||0.01|||||||paired t-test, 2-sided|||Null Hypothesis = There is no difference between change from baseline in acne severity for the treated side of the face compared to the change from baseline for the untreated side of the face in all patients||||0.01
82657593|NCT01523899|165031092|SUPERIORITY||Mean Difference (Final Values)|0.145|||||TWO_SIDED|95.0||||Pearson chi squared, Fisher exact, 2 sample t-tests||||||||
82657594|NCT01523899|165031093|SUPERIORITY||||||>|0.05|||||||Chi-squared|||||||>0.05
82657595|NCT00705536|165031137|SUPERIORITY_OR_OTHER|||||||0.0006||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0006
82657596|NCT00705536|165031137|SUPERIORITY_OR_OTHER|||||||0.0002||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0002
82657597|NCT00705536|165031138|SUPERIORITY_OR_OTHER|||||||0.0003||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0003
82657598|NCT00705536|165031138|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
82609088|NCT01494038|164935161|OTHER|Agreement between tests||||||0.22|||||||Chi-squared|McNemar's test||||||0.22
82609089|NCT01494038|164935161|OTHER|Agreement between tests|Kappa coefficient|0.11|||||TWO_SIDED|95.0|0.001|0.21||||||||0.21|0.001|
82609090|NCT01494038|164935162|OTHER|Agreement between tests|||||<|0.0001|||||||Chi-squared|McNemar's test||||||< 0.0001
82609091|NCT01494038|164935162|OTHER|Agreement between tests|Kappa coefficient|0.46|||||TWO_SIDED|95.0|0.39|0.53||||||||0.53|0.39|
82609092|NCT00537940|164935167|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|0.0||||0.8708|TWO_SIDED|95.0|-6.0|7.0|||Ranked ANCOVA|||Rank analysis of covariance (ANCOVA) model was used to derive p-value with treatment as main effect and cluster as cofactor, percent change in 28-day seizure counts between Baseline and treatment periods as dependent variable. Median differences and 95% confidence interval (CI) were based on Hodges-Lehmann estimation.||7.0|-6.0|0.8708
82609093|NCT00537940|164935168|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.92||||0.662|TWO_SIDED|95.0|0.635|1.335|||Regression, Logistic|||The odds ratio and its 95% CI are calculated by exponentiating the log odds ratio and 95% CI that correspond to the treatment contrast in the logistic regression model with treatment as fixed effect and Baseline term and country as covariate. All statistical tests for secondary efficacy parameters were two sided and performed at significance level of α = 0.05. The above statistical analysis applies to All Partial Seizures - FAS Population.||1.335|0.635|0.662
82609094|NCT00537940|164935169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9232|TWO_SIDED|||||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.9232
82609095|NCT00537940|164935169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6361|TWO_SIDED|||||Simple Partial: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6361
82609096|NCT00537940|164935169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9075|TWO_SIDED|||||Complex partial: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.9075
82609097|NCT00537940|164935169|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4203|TWO_SIDED|||||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.4203
82609098|NCT00537940|164935170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5069|TWO_SIDED|||||All partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.5069
82609099|NCT00537940|164935170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4721|TWO_SIDED|||||Simple partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.4721
82499422|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.83|STANDARD_ERROR_OF_MEAN|6.27||||90.0|-35.16|-14.51|||ANCOVA|||Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.51|-35.16|
82609100|NCT00537940|164935170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6054|TWO_SIDED|||||Complex partial seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6054
82609101|NCT00537940|164935170|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6603|TWO_SIDED|||||SGTC seizure: p-value was calculated from the 2-sided Fisher's exact test.|Fisher Exact|||||||0.6603
82609102|NCT00537940|164935172|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1881|TWO_SIDED|||||p-value is calculated using Fisher Exact Test.|Fisher Exact|||||||0.1881
82609103|NCT00537940|164935173|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.38||0.5643|TWO_SIDED|95.0|-0.53|0.97|||ANCOVA|||Baseline, HADS-A: ANCOVA model was used to calculate least square (LS) mean estimates of the treatment difference along with 95% CI, with main effects of treatment and and country as covariates.||0.97|-0.53|0.5643
82609104|NCT00537940|164935173|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.32||0.7712|TWO_SIDED|95.0|-0.73|0.54|||ANCOVA|||Change at Week 21 / ET , HADS-A: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country as covariates.||0.54|-0.73|0.7712
82609105|NCT00537940|164935173|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.35||0.4236|TWO_SIDED|95.0|-0.41|0.97|||Ranked ANCOVA|||Baseline, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.97|-0.41|0.4236
82609106|NCT00537940|164935173|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.29||0.5492|TWO_SIDED|95.0|-0.75|0.4|||Ranked ANCOVA|||Change at Week 21/ET, HADS-D: ANCOVA model was used to calculate LS mean estimates of the treatment1difference along with 95% CI, with main effects of treatment and combined center, and for post-baseline assessments baseline was included as a covariate.||0.40|-0.75|0.5492
82609107|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|3.25|STANDARD_ERROR_OF_MEAN|2.07||0.116|TWO_SIDED|95.0|-0.81|7.31|||ANCOVA|||Baseline Sleep disturbance: ANCOVA model was used to calculate least square (LS) mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||7.31|-0.81|0.1160
82609108|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|1.68||0.849|TWO_SIDED|95.0|-3.62|2.98|||ANCOVA|||Week 21 Sleep disturbance: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.98|-3.62|0.8490
82609109|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|1.19|STANDARD_ERROR_OF_MEAN|2.82||0.6728|TWO_SIDED|95.0|-4.34|6.73|||ANCOVA|||Baseline snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.73|-4.34|0.6728
82609110|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|2.3||0.3954|TWO_SIDED|95.0|-2.56|6.47|||ANCOVA|||Week 21 snoring: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.47|-2.56|0.3954
82609111|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|4.03|STANDARD_ERROR_OF_MEAN|2.52||0.1106|TWO_SIDED|95.0|-0.92|8.98|||ANCOVA|||Baseline Awaken Short of Breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||8.98|-0.92|0.1106
82609112|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-1.93|STANDARD_ERROR_OF_MEAN|2.11||0.3603|TWO_SIDED|95.0|-6.09|2.22|||ANCOVA|||Week 21 Awaken Short of Breath: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.22|-6.09|0.3603
82609113|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.14||0.8312|TWO_SIDED|95.0|-0.3|0.24|||ANCOVA|||Baseline Quantity of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||0.24|-0.30|0.8312
82609114|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.2||0.9101|TWO_SIDED|95.0|-0.38|0.42|||ANCOVA|||Week 21 Quantity of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||0.42|-0.38|0.9101
82609115|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-2.37|STANDARD_ERROR_OF_MEAN|2.45||0.3346|TWO_SIDED|95.0|-7.19|2.45|||ANCOVA|||Baseline Adequacy of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.45|-7.19|0.3346
82609116|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|2.05||0.7491|TWO_SIDED|95.0|-4.69|3.37|||ANCOVA|||Week 21 Adequacy of Sleep: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||3.37|-4.69|0.7491
82609117|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|2.98|STANDARD_ERROR_OF_MEAN|1.9||0.1162|TWO_SIDED|95.0|-0.74|6.71|||ANCOVA|||Baseline Somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.71|-0.74|0.1162
82609118|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|2.06|STANDARD_ERROR_OF_MEAN|1.66||0.2163|TWO_SIDED|95.0|-1.21|5.32|||ANCOVA|||Week 21 Somnolence: ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||5.32|-1.21|0.2163
82609119|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|3.45|STANDARD_ERROR_OF_MEAN|1.61||0.0321|TWO_SIDED|95.0|0.3|6.61|||ANCOVA|||Baseline Sleep Problem Index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||6.61|0.30|0.0321
82609120|NCT00537940|164935174|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference (Final Values)|0.34|STANDARD_ERROR_OF_MEAN|1.28||0.7889|TWO_SIDED|95.0|-2.17|2.85|||ANCOVA|||Week 21 Sleep Problem Index (9): ANCOVA model was used to calculate LS mean estimates of the treatment difference along with 95% CI, with main effects of treatment and country; for post-baseline, baseline was included as a covariate.||2.85|-2.17|0.7889
82609121|NCT00537940|164935175|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.653||||0.0252|TWO_SIDED|95.0|0.449|0.948|||Regression, Logistic|||Baseline: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||0.948|0.449|0.0252
82609122|NCT00537940|164935175|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.811||||0.3459|TWO_SIDED|95.0|0.524|1.254|||Regression, Logistic|||Week 21: Logistic regression model was used to estimate odds ratio and corresponding 95% CI of treatment difference, with treatment as fixed effect and for post-baseline assessments baseline was included as a covariate.||1.254|0.524|0.3459
82657599|NCT00705536|165031139|SUPERIORITY_OR_OTHER|||||||0.0059||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0059
82609123|NCT03952546|164935209|NON_INFERIORITY|The test for non-inferiority was carried out by calculating the upper 95% confidence limit (one sided confidence interval) for the difference in estimated blood loss (δ = Unipolar electrocautery system - Saline-coupled bipolar sealer), with the margin of inferiority (δ), set at 200 cc.||||||0.1254|||||||t-test, 1 sided|||||||0.1254
82609124|NCT03952546|164935210|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82609125|NCT00685178|164935216|SUPERIORITY||F-value for main effect of Condition|2.21||||0.531|TWO_SIDED|||||Using the proportion of negative urine samples obtained, the four groups were compared to determine whether there are any group differences in cocaine abstinence (as measured by negative urine samples).|Chi-squared||F-value for main effect of Drug Condition|||||0.531
82609126|NCT00685178|164935217|SUPERIORITY||Spearmann's rank correlation|0.969|||<|0.001|TWO_SIDED||||||ANOVA||CR subjects only|Analyses were performed to measure the correlation between CR groups (topiramate + CR and Placebo + CR) and abstinence.||||<0.001
82609127|NCT00685178|164935217|SUPERIORITY||Spearmann's rank correlation|0.494|||<|0.001|TWO_SIDED||||||Generalized Estimating Equation (GEE)||NonCR subjects only|Analyses were performed to measure the correlation between Non-CR groups (topiramate + NonCR and Placebo + NonCR) and abstinence.||||<0.001
82657600|NCT00705536|165031139|SUPERIORITY_OR_OTHER|||||||0.0105||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0105
82657601|NCT00705536|165031140|SUPERIORITY_OR_OTHER|||||||0.0002||||||Treatment comparison for Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0002
82657602|NCT00705536|165031140|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
82657603|NCT00705536|165031141|SUPERIORITY_OR_OTHER|||||||0.3019||||||Treatment comparison for Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.3019
82657604|NCT00705536|165031142|SUPERIORITY_OR_OTHER|||||||0.0401||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0401
82657605|NCT00705536|165031142|SUPERIORITY_OR_OTHER|||||||0.0004||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0004
82657606|NCT00705536|165031143|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humalog alone and Humalog +rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
82609128|NCT00077623|164935221|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority were based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.141|||<|0.0001|TWO_SIDED|97.5|-0.098|0.38||The p-value for the non-inferiority test can be derived via the t-test.|ANCOVA, CI for difference between groups|||The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL (Per Protocol Population)||0.380|-0.098|<0.0001
82609129|NCT00077623|164935221|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority were based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity .|Mean Difference between groups|-0.022|||<|0.0001|TWO_SIDED|97.5|-0.262|0.217||The p-value for the non-inferiority test can be derived via the t-test.|ANCOVA, CI for difference between groups|||The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL (Per Protocol Population)||0.217|-0.262|<0.0001
82609130|NCT01334125|164935230|SUPERIORITY_OR_OTHER|||||||0.903|TWO_SIDED|||||Individual two-way mixed ANOVA models were fitted for each of our outcomes of interest, with treatment type (metformin or placebo) as the fixed effect, and baseline values, age, gender, and BMI as covariates.|ANOVA|||Analyses were based on the intent-to-treat principle and were performed using SPSS v.22 (IBM Corporation, Armonk, NY).||||0.903
82609131|NCT01334125|164935231|SUPERIORITY_OR_OTHER|||||||0.578|TWO_SIDED|95.0||||Individual two-way mixed ANOVA models were fitted for each of our outcomes of interest, with treatment type (metformin or placebo) as the fixed effect, and baseline values, age, gender, and BMI as covariates.|ANOVA|||Analyses were based on the intent-to-treat principle and were performed using SPSS v.22 (IBM Corporation, Armonk, NY).||||0.578
82609132|NCT01334125|164935232|SUPERIORITY_OR_OTHER|||||||0.057|||||||ANOVA|||Two way ANOVA comparison of the means of the adiponectin/leptin ratios between the metformin and placebo groups||||0.057
82609133|NCT01334125|164935233|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||p value represents the analysis for minor hypoglycemia||||1.00
82609134|NCT01334125|164935233|SUPERIORITY_OR_OTHER|||||||1|||||||t-test, 2 sided|||p value represents the analysis of the nocturnal hypoglycemia||||1.00
82609135|NCT00401973|164935270|SUPERIORITY_OR_OTHER|||||||0.065||95.0||||P-value for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|Mixed Models Analysis|Repeated Measures Analysis||To detect a difference between treatment arms of 3.06 kg in mean weight change from baseline to endpoint, 150 patients must be enrolled in stepped intervention arm and 50 in control arm. Assuming a standard deviation of 6.87 kg, there is 80% power to detect a difference between treatment arms on a 1-sided 2-sample t-test at the 5% significance level. Primary analysis was the comparison of mean weight change for 'olanzapine only' versus pooled 'olanzapine \& adjunctive treatment' arm at Week 22.||||0.065
82609136|NCT00401973|164935270|SUPERIORITY_OR_OTHER|||||||0.113||95.0|||||Mixed Models Analysis|Repeated Measures Analysis||Hypothesis=weight gain associated with olanzapine can be prevented or mitigated with an adjunctive pharmacological algorithm.||||0.113
82609137|NCT00401973|164935270|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||Mixed Models Analysis|Repeated Measures Analysis||||||0.036
82657607|NCT00705536|165031143|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||<0.0001
82609138|NCT00401973|164935271|SUPERIORITY_OR_OTHER|||||||0.498||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.498
82609139|NCT00401973|164935271|SUPERIORITY_OR_OTHER|||||||0.637||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.637
82609140|NCT00401973|164935271|SUPERIORITY_OR_OTHER|||||||0.125||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.125
82609141|NCT00401973|164935272|SUPERIORITY_OR_OTHER|||||||0.173||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.173
82609142|NCT00401973|164935272|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.016
82609143|NCT00401973|164935272|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.029
82609144|NCT00401973|164935273|SUPERIORITY_OR_OTHER|||||||0.017||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.017
82609145|NCT00401973|164935273|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.015
82609146|NCT00401973|164935273|SUPERIORITY_OR_OTHER|||||||0.071||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.071
82609147|NCT00401973|164935274|SUPERIORITY_OR_OTHER|||||||0.152||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.152
82609148|NCT00401973|164935274|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.350
82609149|NCT00401973|164935274|SUPERIORITY_OR_OTHER|||||||0.123||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.123
82609150|NCT00401973|164935275|SUPERIORITY_OR_OTHER|||||||0.499||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.499
82609151|NCT00401973|164935275|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.833
82657608|NCT00705536|165031145|SUPERIORITY_OR_OTHER|||||||0.5589||||||Treatment comparison of Humalog alone and Humalog + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.5589
82657609|NCT00705536|165031145|SUPERIORITY_OR_OTHER|||||||0.0067||||||Treatment comparison of Humulin-R alone and Humulin-R + rHuPH20 using a pairwise t-test.|ANOVA|||||||0.0067
82657610|NCT00549718|165031151|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82657611|NCT00549718|165031152|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||<0.05
82657612|NCT00722124|165031195|SUPERIORITY_OR_OTHER|||||||0.615||95.0|||||Fisher Exact|1 sided||Data were compared between treatment groups using Fisher's Exact test.||||0.615
82609152|NCT00401973|164935275|SUPERIORITY_OR_OTHER|||||||0.339||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.339
82609153|NCT00401973|164935276|SUPERIORITY_OR_OTHER|||||||0.278||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.278
82609154|NCT00401973|164935276|SUPERIORITY_OR_OTHER|||||||0.976||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.976
82609155|NCT00401973|164935276|SUPERIORITY_OR_OTHER|||||||0.049||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.049
82609156|NCT00401973|164935277|SUPERIORITY_OR_OTHER|||||||0.122||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.122
82609157|NCT00401973|164935277|SUPERIORITY_OR_OTHER|||||||0.225||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.225
82609158|NCT00401973|164935277|SUPERIORITY_OR_OTHER|||||||0.124||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.124
82609159|NCT00401973|164935278|SUPERIORITY_OR_OTHER|||||||0.02||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.020
82609160|NCT00401973|164935278|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||P-value for Change from Baseline|ANCOVA|||||||0.037
82609161|NCT00401973|164935278|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.038
82609162|NCT00401973|164935279|SUPERIORITY_OR_OTHER|||||||0.474||95.0||||P-value for Change from Baseline for Olanzapine versus pooled olanzapine+amantadine and olanzapine+metformin.|ANCOVA|||||||0.474
82609163|NCT00401973|164935279|SUPERIORITY_OR_OTHER|||||||0.404||95.0||||P-value for Change from Baseline.|ANCOVA|||||||0.404
82609164|NCT00401973|164935279|SUPERIORITY_OR_OTHER|||||||0.652||95.0||||P-value for Change from Baseline|ANCOVA|||||||0.652
82609165|NCT05099991|164935308|NON_INFERIORITY|Non-inferiority would be demonstrated with a mean increase in procedure of 5 minutes.|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-7.8|8.2||||||||8.2|-7.8|
82609166|NCT05099991|164935309|OTHER|||||||0.07|||||||Fisher Exact|||||||0.07
82609167|NCT05299892|164935351|OTHER||Mean Difference (Final Values)|6.46153||||0.005|TWO_SIDED|95.0|1.79|12.99|||ANOVA|||An ANOVA was conducted for the three SE conditions (off, moderate, strong) at 50 dBA .Post -hoc comparisons were done using Bonferroni's correction. Below result is the mean comparison between SE of and SE moderate. Analysis of age effects was not completed.||12.99|1.79|.005
82609168|NCT05299892|164935351|OTHER||Mean Difference (Final Values)|9.00961|||<|0.001|TWO_SIDED|95.0|3.91|15.11|||ANOVA|||An ANOVA was conducted for the three SE conditions (off, moderate, strong) at 50 dBA . Post -hoc comparisons were done using Bonferroni's correction. Below result is the mean comparison between SE of and SE strong. An analysis of age effects was not completed.||15.11|3.91|<.001
82609169|NCT05299892|164935351|OTHER||||||<|0.001|||||||t-test, 2 sided|||Null hypothesis: There will be no significant differences between the mean unaided CNC score at 50 dBA and the mean aided CNC score with SE off.||||<0.001
82609170|NCT00149214|164935355|SUPERIORITY_OR_OTHER||Percentage of Participants|16.5||||||95.0|10.5|24.2||||||Confidence Interval for pathological complete response in the Pemetrexed treatment arm.||24.2|10.5|
82609171|NCT00149214|164935355|SUPERIORITY_OR_OTHER||Percentage of Participants|20.2||||||95.0|13.4|28.5||||||Confidence Interval for pathological complete response in the Cyclophosphamide treatment group.||28.5|13.4|
82609172|NCT00756002|164935360|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|Least Squares (LS) means from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||One subject did not have postsleep questionnaire data on day 2; however, had polysomnography data recorded. Analysis was based on LOCF data.||||<0.001
82609173|NCT00756002|164935361|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609174|NCT00756002|164935362|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609175|NCT00756002|164935363|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||One subject did not have postsleep questionnaire data on day 2; however, had polysomnography data recorded. Analysis was based on LOCF data.||||0.003
82609176|NCT00756002|164935364|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609177|NCT00756002|164935365|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609178|NCT00756002|164935366|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609179|NCT00756002|164935367|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609180|NCT00756002|164935368|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609181|NCT00756002|164935369|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82657613|NCT00722124|165031195|SUPERIORITY_OR_OTHER|||||||0.826||95.0|||||Fisher Exact|1 sided||Data were compared between treatment groups using Fisher's Exact test.||||0.826
82657614|NCT00581139|165031197|SUPERIORITY|||||||0.02|||||||ANOVA|||||||.02
82657615|NCT00581139|165031199|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
82657616|NCT00581139|165031200|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
82657617|NCT00581139|165031201|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||.01
82657618|NCT00581139|165031202|SUPERIORITY|||||||0.02|||||||ANOVA|||||||.02
82657619|NCT00581139|165031203|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
82657620|NCT00581139|165031204|SUPERIORITY|||||||0.04|||||||ANOVA|||||||.04
82657621|NCT00637299|165031216|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 1 sided|||||||<0.01
82657622|NCT00637299|165031217|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
82657623|NCT03247556|165031218|SUPERIORITY||Least Square Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.93||0.0082|TWO_SIDED|95.0|-8.9|-1.3|||Mixed Model for Repeated Measures|||||-1.3|-8.9|0.0082
82657624|NCT03247556|165031218|SUPERIORITY||Least Square Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.93||0.0712|TWO_SIDED|95.0|-7.3|0.3|||Mixed Model for Repeated Measures|||||0.3|-7.3|0.0712
82657625|NCT03247556|165031219|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.0051|TWO_SIDED|95.0|-0.8|-0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||-0.1|-0.8|0.0051
82657626|NCT03247556|165031219|SUPERIORITY||Least Square Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.17||0.0995|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|ANCOVA model with baseline Clinical Global Impression-Severity of Illness (CGI-S) score and treatment as fixed independent variables.||||0.1|-0.6|0.0995
82657627|NCT03247556|165031220|SUPERIORITY||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.26||0.1377|TWO_SIDED|95.0|-4.3|0.6|||ANCOVA|||||0.6|-4.3|0.1377
82657628|NCT03247556|165031220|SUPERIORITY||Least Square Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.25||0.313|TWO_SIDED|95.0|-3.7|1.2|||ANCOVA|||||1.2|-3.7|0.3130
82657629|NCT03247556|165031221|SUPERIORITY||Least Square Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.049||0.0698|TWO_SIDED|95.0|-0.19|0.01|||ANCOVA|||||0.01|-0.19|0.0698
82657630|NCT03247556|165031221|SUPERIORITY||Least Square Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.05||0.9756|TWO_SIDED|95.0|-0.1|0.1|||ANCOVA|||||0.10|-0.10|0.9756
82657631|NCT03247556|165031222|SUPERIORITY||Risk Difference (RD)|15.3||||0.0349|TWO_SIDED|95.0|1.3|29.3|||Regression, Logistic|||||29.3|1.3|0.0349
82657632|NCT03247556|165031222|SUPERIORITY||Risk Difference (RD)|13.1||||0.0698|TWO_SIDED|95.0|-0.9|27.0|||Regression, Logistic|||||27.0|-0.9|0.0698
82657633|NCT03247556|165031223|SUPERIORITY||Least Square Mean Difference|-7.3|STANDARD_ERROR_OF_MEAN|4.76||0.1259|TWO_SIDED|95.0|-16.6|2.0|||ANCOVA|||||2.0|-16.6|0.1259
82657634|NCT03247556|165031223|SUPERIORITY||Least Square Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|4.78||0.7417|TWO_SIDED|95.0|-7.8|10.9|||ANCOVA|||||10.9|-7.8|0.7417
82657635|NCT03247556|165031224|SUPERIORITY||Least Square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.97||0.0484|TWO_SIDED|95.0|-3.8|0.0|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||-0.0|-3.8|0.0484
82657636|NCT03247556|165031224|SUPERIORITY||Least Square Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.96||0.2084|TWO_SIDED|95.0|-3.1|0.7|||ANCOVA|||This analysis pertains to the Hyperactivity/Impulsivity subscale score||0.7|-3.1|0.2084
82657637|NCT03247556|165031224|SUPERIORITY||Least Square Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|1.06||0.0042|TWO_SIDED|95.0|-5.1|-1.0|||ANCOVA|||This analysis pertains to the Inattention subscale score||-1.0|-5.1|0.0042
82657638|NCT03247556|165031224|SUPERIORITY||Least Square Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|1.06||0.1392|TWO_SIDED|95.0|-3.6|0.5|||ANCOVA|||This analysis pertains to the Inattention subscale score||0.5|-3.6|0.1392
82657639|NCT03247556|165031225|SUPERIORITY||Least Square Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.07||0.381|TWO_SIDED|95.0|-3.0|1.2|||ANCOVA|||||1.2|-3.0|0.3810
82657640|NCT03247556|165031225|SUPERIORITY||Least Square Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|1.08||0.0432|TWO_SIDED|95.0|-4.3|-0.1|||ANCOVA|||||-0.1|-4.3|0.0432
82657641|NCT03247556|165031226|SUPERIORITY|||||||0.1433|||||||Chi-squared|||This analysis pertains to Week 1||||0.1433
82657642|NCT03247556|165031226|SUPERIORITY|||||||0.0114|||||||Chi-squared|||This analysis pertains to Week 2||||0.0114
82657643|NCT03247556|165031226|SUPERIORITY|||||||0.0008|||||||Chi-squared|||This analysis pertains to Week 3||||0.0008
82657644|NCT03247556|165031226|SUPERIORITY|||||||0.0197|||||||Chi-squared|||This analysis pertains to Week 4||||0.0197
82657645|NCT03247556|165031226|SUPERIORITY|||||||0.0573|||||||Chi-squared|||This analysis pertains to Week 5||||0.0573
82657646|NCT03247556|165031226|SUPERIORITY|||||||0.0105|||||||Chi-squared|||This analysis pertains to Week 6||||0.0105
82657647|NCT03247556|165031226|SUPERIORITY|||||||0.0004|||||||Chi-squared|||This analysis pertains to Week 7||||0.0004
82657648|NCT03247556|165031226|SUPERIORITY|||||||0.2573|||||||Chi-squared|||This analysis pertains to Week 1||||0.2573
82657649|NCT03247556|165031226|SUPERIORITY|||||||0.165|||||||Chi-squared|||This analysis pertains to Week 2||||0.1650
82657650|NCT03247556|165031226|SUPERIORITY|||||||0.0372|||||||Chi-squared|||This analysis pertains to Week 3||||0.0372
82657651|NCT03247556|165031226|SUPERIORITY|||||||0.1711|||||||Chi-squared|||This analysis pertains to Week 4||||0.1711
82657652|NCT03247556|165031226|SUPERIORITY|||||||0.1428|||||||Chi-squared|||This analysis pertains to Week 5||||0.1428
82657653|NCT03247556|165031226|SUPERIORITY|||||||0.2148|||||||Chi-squared|||This analysis pertains to Week 6||||0.2148
82657654|NCT03247556|165031226|SUPERIORITY|||||||0.0662|||||||Chi-squared|||This analysis pertains to Week 7||||0.0662
82657655|NCT00445003|165031243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.6|||<|0.001|TWO_SIDED|95.0|2.2|9.0||adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between two study eyes|ANCOVA||adjusted for multiple comparison|||9.0|2.2|<.001
82657656|NCT00445003|165031243|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||<|0.001|TWO_SIDED|95.0|3.2|10.1||adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between two study eyes|ANCOVA||adjusted for multiple comparisons|||10.1|3.2|<.001
82609182|NCT00756002|164935370|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609183|NCT00756002|164935371|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values are from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609184|NCT00756002|164935372|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||LS means from ANCOVA model with effects for treatment \& pooled center, with Baseline as a covariate. P-values from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|||||||<0.001
82609185|NCT00756002|164935373|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||LS means from ANCOVA model with effects for treatment \& pooled center, with Baseline as a covariate. P-values from t-tests of the ANCOVA model for the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|||||||0.043
82609186|NCT00756002|164935374|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.005
82609187|NCT00756002|164935375|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.010
82609188|NCT00756002|164935376|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.002
82609189|NCT00756002|164935377|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.006
82609190|NCT00756002|164935378|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
82609191|NCT00756002|164935379|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
82657657|NCT00445003|165031245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.0|||<|0.01|TWO_SIDED|95.0|-64.0|-6.0||Adjusted for baseline optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-6|-64|<.01
82657658|NCT00445003|165031245|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-100.0|||<|0.001|TWO_SIDED|95.0|-128.0|-71.0||adjusted for baseline optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-71|-128|<.001
82609192|NCT00756002|164935380|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with the Baseline value as a covariate.||||||<0.001
82609193|NCT00756002|164935381|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609194|NCT00756002|164935382|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609195|NCT00756002|164935383|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609196|NCT00756002|164935384|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609197|NCT00756002|164935385|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609198|NCT00756002|164935386|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||<0.001
82609199|NCT00756002|164935387|SUPERIORITY_OR_OTHER|||||||0.785||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.785
82657659|NCT00445003|165031247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.44|TWO_SIDED|95.0|-3.7|7.5||Adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||7.5|-3.7|0.44
82657660|NCT00445003|165031247|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2||||0.63|TWO_SIDED|95.0|-4.4|6.8||Adjusted for baseline visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||6.8|-4.4|0.63
82657661|NCT00445003|165031250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.001|TWO_SIDED|95.0|-1.0|-0.2||adjusted for baseline retinal volume, optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-0.2|-1.0|0.001
82657662|NCT00445003|165031250|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7|||<|0.001|TWO_SIDED|95.0|-2.1|-1.3||adjusted for baseline retinal volume, optical coherence tomography retinal thickness and visual acuity, number of planned panretinal photocoagulation sittings, and correlation between 2 study eyes|ANCOVA||adjusted for multiple comparisons|||-1.3|-2.1|<.001
82657663|NCT00528606|165031251|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Mantel-Haenszel|||p-value based on Cochran-Mantel-Haenszel test comparing treatment groups, stratified by baseline severity group and joint type.||||<0.001
82657664|NCT00959660|165031286|SUPERIORITY||||||<|0.001||||||Main effects analysis with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||<0.001
82609200|NCT00756002|164935388|SUPERIORITY_OR_OTHER|||||||0.422||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.422
82609201|NCT00756002|164935389|SUPERIORITY_OR_OTHER|||||||0.665||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.665
82657665|NCT00959660|165031286|SUPERIORITY||||||<|0.001||||||Main effects analysis with Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||<0.001
82609202|NCT00756002|164935390|SUPERIORITY_OR_OTHER|||||||0.228||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.228
82609203|NCT00756002|164935391|SUPERIORITY_OR_OTHER|||||||0.099||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.099
82657666|NCT00959660|165031287|SUPERIORITY|||||||0.004||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||0.004
82657667|NCT00959660|165031287|SUPERIORITY|||||||0.43||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||||||0.43
82657668|NCT00959660|165031288|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Body Fat Mass||||<0.001
82657669|NCT00959660|165031288|SUPERIORITY|||||||0.001||||||Main effects analysis of Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Body Fat Mass||||0.001
82657670|NCT00959660|165031288|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Non-Bone Lean Mass||||<0.001
82657671|NCT00959660|165031288|SUPERIORITY|||||||0.25||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Total Non-Bone Lean Mass||||0.25
82609204|NCT00756002|164935392|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.005
82609205|NCT00756002|164935393|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.004
82609206|NCT00756002|164935394|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.001
82657672|NCT00959660|165031289|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Subcutaneous Fat||||<0.001
82657673|NCT00959660|165031289|SUPERIORITY|||||||0.26||||||Main effects analysis for Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Subcutaneous Fat||||0.26
82657674|NCT00959660|165031289|SUPERIORITY||||||<|0.001||||||Main effects analyses with Diet vs. No Diet.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Skeletal Muscle||||<0.001
82657675|NCT00959660|165031289|SUPERIORITY|||||||0.26||||||Main effects analysis of Exercise vs. No Exercise.|ANCOVA|Least Square Mean at follow up adjusted for the following covariates: baseline measure of the outcome measure, sex, and beta blocker usage.||Thigh Skeletal Muscle||||0.26
82657676|NCT01212874|165031333|SUPERIORITY_OR_OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.21
82657677|NCT01212874|165031334|SUPERIORITY_OR_OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82657678|NCT04638153|165031336|OTHER||least square mean difference|0.2|||||TWO_SIDED|95.0|-0.2|0.6|||||Month 3|Results based on Mixed-Effect Repeated Measures (MMRM) analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.6|-0.2|
82657679|NCT04638153|165031336|OTHER||Least square mean difference|0.5|||||TWO_SIDED|95.0|0.1|0.9|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.9|0.1|
82657680|NCT04638153|165031336|OTHER||Least square mean difference|-0.3|||||TWO_SIDED|95.0|-0.7|0.1|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.7|
82657681|NCT04638153|165031336|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.1|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.4|
82657682|NCT04638153|165031336|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.4|
82657683|NCT04638153|165031336|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.2|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.4|
82657684|NCT04638153|165031336|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
82657685|NCT04638153|165031336|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
82657686|NCT04638153|165031336|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
82657687|NCT04638153|165031336|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.2|0.2|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-0.2|
82657688|NCT04638153|165031336|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-0.2|0.3|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.3|-0.2|
82657689|NCT04638153|165031336|OTHER||Least square mean difference|-0.1|||||TWO_SIDED|95.0|-0.4|0.1|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-0.4|
82657690|NCT04638153|165031346|OTHER||Least square mean difference|0.3|||||TWO_SIDED|95.0|-0.5|1.2|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.2|-0.5|
82657691|NCT04638153|165031346|OTHER||Least square mean difference|1.0|||||TWO_SIDED|95.0|0.2|1.8|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.8|0.2|
82657692|NCT04638153|165031346|OTHER||Least square mean difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.1|||||Month 3|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.1|-1.5|
82657693|NCT04638153|165031346|OTHER||Least square mean difference|-0.5|||||TWO_SIDED|95.0|-1.6|0.6|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.6|-1.6|
82657694|NCT04638153|165031346|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-0.4|1.9|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.9|-0.4|
82657695|NCT04638153|165031346|OTHER||Least square mean difference|-1.2|||||TWO_SIDED|95.0|-2.3|-0.1|||||Month 6|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||-0.1|-2.3|
82657696|NCT04638153|165031346|OTHER||Least square mean difference|0.0|||||TWO_SIDED|95.0|-0.8|0.7|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.7|-0.8|
82657697|NCT04638153|165031346|OTHER||Least square mean difference|0.6|||||TWO_SIDED|95.0|-0.2|1.5|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.5|-0.2|
82657698|NCT04638153|165031346|OTHER||Least square mean difference|-0.7|||||TWO_SIDED|95.0|-1.5|0.2|||||Month 9|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||0.2|-1.5|
82609207|NCT00756002|164935395|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.004
82657699|NCT04638153|165031346|OTHER||Least square mean difference|0.1|||||TWO_SIDED|95.0|-1.3|1.5|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.5|-1.3|
82609208|NCT00756002|164935396|SUPERIORITY_OR_OTHER|||||||0.04||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.040
82609209|NCT00756002|164935397|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.814
82609210|NCT00756002|164935398|SUPERIORITY_OR_OTHER|||||||0.929||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.929
82609211|NCT00756002|164935399|SUPERIORITY_OR_OTHER|||||||0.591||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.591
82609212|NCT00756002|164935400|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.015
82609213|NCT00756002|164935401|SUPERIORITY_OR_OTHER|||||||0.097||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.097
82609214|NCT00756002|164935402|SUPERIORITY_OR_OTHER|||||||0.028||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.028
82609215|NCT00756002|164935403|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.003
82609216|NCT00756002|164935404|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-values for differences are obtained using t-tests from the ANCOVA model of the overall treatment comparison. Statistical significance was determined at the 0.05 level.|ANCOVA|LS means are from an ANCOVA model with effects for treatment and pooled center, with Baseline as a covariate.||||||0.111
82609217|NCT04329923|164935408|SUPERIORITY||Cox Proportional Hazard|0.58||||0.28|TWO_SIDED||||||Regression, Cox|||||||0.28
82609218|NCT03351244|164935425|OTHER||Hazard Ratio (HR)|1.097||||0.7735|TWO_SIDED|95.0|0.585|2.056|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||2.056|0.585|0.7735
82609219|NCT03351244|164935425|OTHER||Hazard Ratio (HR)|0.91||||0.7809|TWO_SIDED|95.0|0.468|1.77|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.770|0.468|0.7809
82609220|NCT03351244|164935425|OTHER||Hazard Ratio (HR)|1.005||||0.9862|TWO_SIDED|95.0|0.576|1.753|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.753|0.576|0.9862
82609221|NCT03351244|164935426|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.38||||0.5289|TWO_SIDED|95.0|-0.809|1.57|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.570|-0.809|0.5289
82609222|NCT03351244|164935426|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.21||||0.744|TWO_SIDED|95.0|-1.055|1.475|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.475|-1.055|0.7440
82609223|NCT03351244|164935426|OTHER|A restricted maximum likelihood-based approach using a mixed model with repeated measurements was applied.|Placebo-corrected adjusted mean|0.31||||0.5659|TWO_SIDED|95.0|-0.745|1.358|||Mixed model with repeated measurements|The analysis included the fixed, categorical effects of treatment at each visit, and the fixed continuous effects of baseline at each visit.||||1.358|-0.745|0.5659
82609224|NCT03351244|164935429|OTHER||Hazard Ratio (HR)|1.006||||0.9938|TWO_SIDED|95.0|0.203|4.989|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||4.989|0.203|0.9938
82609225|NCT03351244|164935429|OTHER||Hazard Ratio (HR)|1.116||||0.893|TWO_SIDED|95.0|0.225|5.531|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||5.531|0.225|0.8930
82609226|NCT03351244|164935429|OTHER||Hazard Ratio (HR)|1.058||||0.936|TWO_SIDED|95.0|0.265|4.233|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||4.233|0.265|0.9360
82609227|NCT03351244|164935431|OTHER||Hazard Ratio (HR)|0.788||||0.6362|TWO_SIDED|95.0|0.293|2.118|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||2.118|0.293|0.6362
82609228|NCT03351244|164935431|OTHER||Hazard Ratio (HR)|0.612||||0.3782|TWO_SIDED|95.0|0.205|1.826|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.826|0.205|0.3782
82609229|NCT03351244|164935431|OTHER||Hazard Ratio (HR)|0.703||||0.4253|TWO_SIDED|95.0|0.296|1.671|||Regression, Cox|The model included the treatment effect as the only covariate and was stratified by country.||||1.671|0.296|0.4253
82609230|NCT02951273|164935442|SUPERIORITY|||||||0.0276|||||||repeated measure mixed model|||||||0.0276
82609231|NCT02951273|164935443|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
82609232|NCT02951273|164935444|SUPERIORITY|||||||0.6025|||||||Regression, Linear|||||||0.6025
82609233|NCT02951273|164935445|SUPERIORITY|||||||0.3213|||||||repeated measure mixed model|||||||0.3213
82609234|NCT02951273|164935446|SUPERIORITY|||||||0.0005||||||The reported p-value was calculated|repeated measure mixed model|||||||0.0005
82609235|NCT02951273|164935447|SUPERIORITY|||||||0.5404|||||||repeated measure mixed model|||||||0.5404
82609236|NCT02951273|164935448|SUPERIORITY|||||||0.8947|||||||repeated measure mixed model|||||||0.8947
82609237|NCT02951273|164935449|SUPERIORITY|||||||0.0068|||||||Linear mixed models|||||||0.0068
82609238|NCT02951273|164935450|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
82657700|NCT04638153|165031346|OTHER||Least square mean difference|0.7|||||TWO_SIDED|95.0|-1.4|2.8|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||2.8|-1.4|
82492406|NCT02100514|164677929|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-33.4|STANDARD_ERROR_OF_MEAN|4.02||||95.0|-41.3|-25.5||||||Week 52: LS mean difference and associated 95% CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-25.5|-41.3|
82609239|NCT02951273|164935451|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|||||||<0.0001
82609240|NCT02951273|164935452|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
82609241|NCT02951273|164935453|SUPERIORITY||||||<|0.0001|||||||repeated measure mixed model|||||||<0.0001
82609242|NCT00121225|164935458|SUPERIORITY|||||||0.029|||||||Fisher Exact|||||||0.029
82609243|NCT00315302|164935459|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|0.24||0.21||95.0|-0.2|0.8|||ANCOVA||The difference was calculated as atropine plus plano group minus atropine group|"The primary analysis was a treatment group comparison of logMAR visual acuity scores in the amblyopic eye obtained 18 weeks after randomization, adjusted for baseline acuity scores in an analysis of covariance (ANCOVA) model.~The primary analysis included only patients with visual acuity of 20/40 to 20/100; sample size was based upon a two-sided alpha of 0.05, with 90% power to detect a difference if the true difference in change from baseline between groups was 0.075 logMAR at 18 weeks."||0.8|-0.2|0.21
82609244|NCT00315302|164935460|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Regression, Logistic|proportion 20/25 as a function of treatment group controlling for baseline acuity||"Null hypothesis: proportion 20/25 or better at 18wks in atropine group = proportion 20/25 or better at 18wks in atropine plus plano group~Alternative hypothesis: proportion 20/25 or better at 18wks in atropine group NOT equal to proportion 20/25 or better at 18wks in atropine plus plano group"||||.03
82609245|NCT00315302|164935461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.5|STANDARD_DEVIATION|3.1|||TWO_SIDED|95.0|3.2|5.8||||||95% confidence interval calculated within treatment group on the amount of change from baseline||5.8|3.2|
82609246|NCT00315302|164935461|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|STANDARD_DEVIATION|3.7|||TWO_SIDED|95.0|3.7|6.4||||||95% confidence interval calculated within treatment group on the amount of change from baseline||6.4|3.7|
82609247|NCT00315302|164935462|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Regression, Logistic|proportion 20/25 as a function of treatment group controlling for baseline acuity||"Null hypothesis: proportion 3 or more lines better at 18wks in atropine group = proportion 3 or more lines better at 18wks in atropine plus plano group~Alternative hypothesis: proportion 3 or more lines better at 18wks in atropine group NOT equal to proportion 3 or more lines better at 18wks in atropine plus plano group"||||0.39
82609248|NCT00315302|164935463|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test to evaluate difference in change from baseline in stereoacuity by treatment group||All patients without respect to cause of amblyopia.||||0.39
82609249|NCT00315302|164935464|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Wilcoxon (Mann-Whitney)|Wilcoxon rank sum test to evaluate difference in change from baseline in stereoacuity by treatment group||Among anisometropic patients only||||0.90
82609250|NCT00315302|164935466|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Fisher Exact|||"Null hypothesis: proportion 1 or more lines worse and worse than 20/20 at 18wks same in both groups;~Alternate: proportion 1 or more lines worse and worse than 20/20 at 18wks same in both groups"||||0.003
82609251|NCT02273973|164935538|SUPERIORITY||Difference in Response Rates|10.71||||0.049|TWO_SIDED|95.0|0.11|21.32|||Cochran-Mantel-Haenszel|||||21.32|0.11|0.0490
82609252|NCT02273973|164935539|SUPERIORITY||Difference in Response Rates|1.21||||0.3698|TWO_SIDED|95.0|-1.12|3.55|||Fisher Exact|||||3.55|-1.12|0.3698
82609253|NCT02273973|164935540|SUPERIORITY||Difference in Response Rates|18.19||||0.0332|TWO_SIDED|95.0|2.57|33.81|||Cochran-Mantel-Haenszel|||||33.81|2.57|0.0332
82609254|NCT02273973|164935541|SUPERIORITY||Difference in Response Rates|1.37||||0.4803|TWO_SIDED|95.0|-1.3|4.04|||Fisher Exact|||||4.04|-1.30|0.4803
82609255|NCT02273973|164935542|SUPERIORITY||Difference in Response Rates|5.2||||0.5017|TWO_SIDED|95.0|-9.2|19.61|||Cochran-Mantel-Haenszel|||||19.61|-9.20|0.5017
82609256|NCT02273973|164935543|SUPERIORITY||Difference in Response Rates|1.05||||1|TWO_SIDED|95.0|-2.65|4.75|||Fisher Exact|||||4.75|-2.65|1.0000
82609257|NCT02273973|164935544|SUPERIORITY||Difference in Response Rates|21.14||||0.0115|TWO_SIDED|95.0|5.59|36.68|||Cochran-Mantel-Haenszel|||||36.68|5.59|0.0115
82609258|NCT02273973|164935545|SUPERIORITY||Difference in Response Rates|2.66||||0.7928|TWO_SIDED|95.0|-11.88|17.2|||Cochran-Mantel-Haenszel|||||17.20|-11.88|0.7928
82609259|NCT02273973|164935546|SUPERIORITY||Difference in Response Rates|9.45||||0.2659|TWO_SIDED|95.0|-5.8|24.7|||Cochran-Mantel-Haenszel|||||24.70|-5.80|0.2659
82609260|NCT02273973|164935547|SUPERIORITY||Difference in Response Rates|7.63||||0.3299|TWO_SIDED|95.0|-6.34|21.6|||Cochran-Mantel-Haenszel|||||21.60|-6.34|0.3299
82609261|NCT02273973|164935548|SUPERIORITY||Difference in Response Rates|10.68||||0.1554|TWO_SIDED|95.0|-3.96|25.32|||Cochran-Mantel-Haenszel|||||25.32|-3.96|0.1554
82609262|NCT02273973|164935549|SUPERIORITY||Difference in Response Rates|2.41||||0.787|TWO_SIDED|95.0|-11.82|16.63|||Cochran-Mantel-Haenszel|||||16.63|-11.82|0.7870
82609263|NCT02273973|164935550|SUPERIORITY||Ratio of Least square mean|0.83||||0.117|TWO_SIDED|95.0|0.65|1.05|||Regression, Linear|||Statistical analysis for changes in Ki67 levels from Baseline to Week 3.||1.05|0.65|0.117
82609264|NCT02273973|164935550|SUPERIORITY||Ratio of Least square mean|1.25||||0.105|TWO_SIDED|95.0|0.95|1.65|||Regression, Linear|||Statistical analysis for changes in Ki67 levels from Baseline to Surgery.||1.65|0.95|0.105
82609265|NCT02273973|164935552|SUPERIORITY||Least squares mean difference|-13.32||||0.002|TWO_SIDED|95.0|-21.67|-4.96|||Regression, Linear|||||-4.96|-21.67|0.002
82657701|NCT04638153|165031346|OTHER||Least square mean difference|-0.6|||||TWO_SIDED|95.0|-2.6|1.4|||||Month 12|Results based on MMRM analysis with gender as a covariate, participant (and/or time) as a random effect; treatment, visit, treatment-by-visit interaction, age and gender as fixed effects using an unstructured covariance matrix.||1.4|-2.6|
82657702|NCT00259012|165031459|SUPERIORITY_OR_OTHER|||||||0.087|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.087
82657703|NCT00259012|165031459|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.019
82657704|NCT00259012|165031460|SUPERIORITY_OR_OTHER|||||||0.255|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline||||0.255
82609266|NCT01225068|164935635|SUPERIORITY_OR_OTHER||effect size|0.22||||||||||no p value for effect size calculations ES is dimensionless; ES (Cohen's d) is a well described statistical construct and is calculated from the difference between the means (here at baseline and 6 weeks) divided by the pooled standard deviation.|effect size is endpoint and not comparis|no p value for effect size calculations||effect size is endpoint and not comparison||||
82609267|NCT03334214|164935692|SUPERIORITY|||||||0.003|||||||ANOVA|||||||0.003
82609268|NCT03334214|164935693|SUPERIORITY|||||||0.026|||||||ANOVA|||||||0.026
82609269|NCT03334214|164935696|SUPERIORITY|||||||0.024|||||||ANOVA|||||||0.024
82609270|NCT03334214|164935697|SUPERIORITY|||||||0.0774|||||||Cochran-Mantel-Haenszel|The p-value is obtained using Cochran-Mantel-Haenszel (CMH) test stratified by the baseline liver fat stratum (\<20%, ≥20%) stratification factor.||||||0.0774
82609271|NCT03334214|164935698|SUPERIORITY|||||||0.183|||||||ANOVA|||||||0.183
82609272|NCT03334214|164935699|SUPERIORITY|||||||0.682|||||||ANOVA|||Total Cholesterol||||0.682
82609273|NCT03334214|164935699|SUPERIORITY|||||||0.716|||||||ANOVA|||ApoB||||0.716
82657705|NCT00259012|165031460|SUPERIORITY_OR_OTHER|||||||0.031|||||||t-test, 2 sided|paired||Within group comparison between steady state and baseline.||||0.031
82657706|NCT00259012|165031461|SUPERIORITY_OR_OTHER|||||||0.099|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.099
82657707|NCT00259012|165031461|SUPERIORITY_OR_OTHER|||||||0.016|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.016
82609274|NCT03334214|164935699|SUPERIORITY|||||||0.717|||||||ANOVA|||HDL||||0.717
82609275|NCT03334214|164935699|SUPERIORITY|||||||0.463|||||||ANOVA|||LDL-C||||0.463
82609276|NCT03334214|164935699|SUPERIORITY|||||||0.555|||||||ANOVA|||Non-HDL||||0.555
82609277|NCT03334214|164935699|SUPERIORITY|||||||0.619|||||||ANOVA|||Triglycerides||||0.619
82609278|NCT03334214|164935699|SUPERIORITY|||||||0.698|||||||ANOVA|||VLDL-C||||0.698
82609279|NCT03334214|164935700|SUPERIORITY|||||||0.902|||||||ANOVA|||FPG||||0.902
82609280|NCT03334214|164935700|SUPERIORITY|||||||0.267|||||||Van Elteren test|||HOMA-IR||||0.267
82609281|NCT03334214|164935700|SUPERIORITY|||||||0.2|||||||Van Elteren test|||Insulin||||0.200
82609282|NCT03334214|164935701|SUPERIORITY|||||||0.933|||||||ANOVA|||||||0.933
82609283|NCT00091793|164935703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|||<|0.0001||95.0|6.2|7.8|||ANCOVA|||||7.8|6.2|<0.0001
82609284|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rise (GMFR) was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.46|0.32|
82609285|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.3|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.41|0.30|
82609286|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.61|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.61|0.44|
82657708|NCT00259012|165031462|SUPERIORITY_OR_OTHER|||||||0.347|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.347
82657709|NCT00259012|165031462|SUPERIORITY_OR_OTHER|||||||0.012|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.012
82657710|NCT00259012|165031463|SUPERIORITY_OR_OTHER|||||||0.339|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.339
82657711|NCT00259012|165031463|SUPERIORITY_OR_OTHER|||||||0.003|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.003
82657712|NCT00259012|165031464|SUPERIORITY_OR_OTHER|||||||0.982|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.982
82657713|NCT00259012|165031464|SUPERIORITY_OR_OTHER|||||||0.534|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.534
82657714|NCT00259012|165031465|SUPERIORITY_OR_OTHER|||||||0.166|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.166
82657715|NCT00259012|165031465|SUPERIORITY_OR_OTHER|||||||0.119|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.119
82657716|NCT00259012|165031466|SUPERIORITY_OR_OTHER|||||||0.387|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.387
82657717|NCT00259012|165031466|SUPERIORITY_OR_OTHER|||||||0.021|||||||t-test, 2 sided|||Within group comparison between steady state and baseline||||0.021
82609287|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
82609288|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.18|0.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.24|0.18|
82609289|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.41|0.31|
82609290|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.32|0.19|
82609291|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
82609292|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.30|0.17|
82609293|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.25|0.39|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.39|0.25|
82499423|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.16|STANDARD_ERROR_OF_MEAN|6.92||||90.0|-37.56|-14.75|||ANCOVA|||Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.75|-37.56|
82609294|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.27|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.38|0.27|
82609295|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.60|0.44|
82609296|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.20|0.10|
82609297|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
82609298|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.09|0.16|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.16|0.09|
82609299|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.41|
82609300|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.43|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.43|
82609301|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.38|0.59|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.59|0.38|
82609302|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.6|1.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.00|0.60|
82609303|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.51|0.75|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.75|0.51|
82609304|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.86|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|0.86|
82609305|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.41|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.80|0.41|
82609306|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.73|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.73|0.39|
82609307|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.78|1.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.67|0.78|
82609308|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.71|1.08|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.08|0.71|
82609309|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.54|0.75|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.75|0.54|
82609310|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.78|1.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.06|0.78|
82609311|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.51|0.29|
82609312|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.56|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.56|0.39|
82609313|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.53|
82609314|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.49|
82609315|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.52|0.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.63|0.52|
82609316|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.53|0.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.66|0.53|
82609317|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.64|0.42|
82609318|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.60|0.44|
82609319|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.63|0.88|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.88|0.63|
82609320|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.15|0.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.26|0.15|
82609321|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.23|0.35|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.35|0.23|
82609322|NCT01025336|164935722|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.28|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.43|0.28|
82609323|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.56|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.56|0.42|
82609324|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.56|0.72|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.72|0.56|
82609325|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.45|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.45|0.35|
82609326|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.44|0.57|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.57|0.44|
82609327|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.85|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.85|0.60|
82657718|NCT02781727|165031470|NON_INFERIORITY|Non-inferiority comparison with a non-inferiority margin of 2 cm/year, followed by a test of superiority if non-inferiority is established.||||||0.0088||||||P-value is based on a test of superiority|ANCOVA with multiple imputation|two-sided||ANCOVA model with multiple imputation. For each imputed data set, an ANCOVA model with by visit AHV as the dependent variable; treatment and gender as factors; and baseline age, baseline peak GH levels (log transformed) at stimulation test, and baseline height SDS - average parental height SDS as covariates were fitted.||||0.0088
82657719|NCT01312922|165031534|SUPERIORITY||Odds Ratio (OR)|0.987||||1|TWO_SIDED|95.0|0.456|2.14|||Fisher Exact|||||2.140|0.456|1.000
82499424|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.46|STANDARD_ERROR_OF_MEAN|6.74||||90.0|-30.56|-8.36|||ANCOVA|||Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-8.36|-30.56|
82609328|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.63|0.97|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.97|0.63|
82609329|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.81|1.08|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.08|0.81|
82609330|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.74|0.99|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.99|0.74|
82609331|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
82609332|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 6A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
82609333|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.45|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.45|0.31|
82609334|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.59|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.59|0.40|
82657720|NCT01312922|165031534|SUPERIORITY||Odds Ratio (OR)|1.031||||1|TWO_SIDED|95.0|0.476|2.233|||Fisher Exact|||||2.233|0.476|1.000
82609335|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.58|0.96|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 7F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.96|0.58|
82609336|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.67|1.13|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.13|0.67|
82609337|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.37|0.67|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.67|0.37|
82609338|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.57|1.12|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.12|0.57|
82609339|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.09|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.09|0.85|
82609340|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.04|1.43|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.04|
82609341|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.48|0.62|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.62|0.48|
82609342|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.59|0.83|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.83|0.59|
82657721|NCT00515203|165031545|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Cochran-Mantel-Haenszel|||||||0.0019
82657722|NCT00515203|165031546|SUPERIORITY_OR_OTHER|||||||0.3651|||||||Cochran-Mantel-Haenszel|||||||0.3651
82609343|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.57|0.72|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.72|0.57|
82609344|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.65|0.79|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.65|
82609345|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.66|0.93|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.93|0.66|
82609346|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.05|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||1.05|0.75|
82609347|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.27|0.37|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 23F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.37|0.27|
82609348|NCT01025336|164935723|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.48|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: Geometric mean fold rises (GMFRs) were calculated using all subjects with available data from both the 1 Month Postvaccination 2 and 1 Year Postvaccination 2 blood draws.||0.48|0.34|
82657723|NCT00515203|165031547|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Fisher Exact|||||||0.0008
82657724|NCT00515203|165031548|SUPERIORITY_OR_OTHER|||||||0.0008|||||||Fisher Exact|||||||0.0008
82657725|NCT00515203|165031549|SUPERIORITY_OR_OTHER|||||||0.2098|||||||Fisher Exact|||||||0.2098
82657726|NCT00840632|165031618|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|93.26||||||90.0|83.39|104.31|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.31|83.39|
82657727|NCT00840632|165031619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.35||||||90.0|92.08|109.36|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.36|92.08|
82609349|NCT01025336|164935724|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.22|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.22|0.85|
82609350|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.02|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.02|0.79|
82609351|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.69|0.9|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.90|0.69|
82609352|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.1|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.10|0.82|
82609353|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.98|1.32|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.32|0.98|
82609354|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.62|0.81|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.81|0.62|
82609355|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.41|
82657728|NCT00840632|165031620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.17||||||90.0|92.71|106.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.08|92.71|
82657729|NCT00840632|165031621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|102.93||||||90.0|99.8|106.15|||||Informational Purposes Only|||106.15|99.80|
82609356|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.82|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.82|0.60|
82609357|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.47|0.76|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.76|0.47|
82609358|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|0.87|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.87|0.67|
82609359|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.3|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.30|0.96|
82609360|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.02|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.02|0.75|
82609361|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.79|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.48|
82609362|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.32|0.46|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.46|0.32|
82609363|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|0.94|1.75|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.75|0.94|
82609364|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.32|2.19|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.19|1.32|
82609365|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.14|1.6|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.60|1.14|
82609366|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.2|2.01|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.01|1.20|
82609367|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.24|2.26|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.26|1.24|
82609368|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.26|4.3|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||4.30|2.26|
82609369|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.0|||||TWO_SIDED|95.0|1.53|2.75|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.75|1.53|
82609370|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.48|2.95|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.95|1.48|
82657730|NCT00840632|165031622|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.24||||||90.0|98.11|102.43|||||Informational Purposes Only|||102.43|98.11|
82492407|NCT02100514|164677930|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-30.8|STANDARD_ERROR_OF_MEAN|3.14|<|0.001||95.0|-36.9|-24.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-24.6|-36.9|<0.001
82492408|NCT02100514|164677930|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-27.5|STANDARD_ERROR_OF_MEAN|3.23||||95.0|-33.9|-21.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-21.2|-33.9|
82609371|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.7|||||TWO_SIDED|95.0|1.97|3.7|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.70|1.97|
82609372|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.9|||||TWO_SIDED|95.0|1.99|4.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||4.29|1.99|
82609373|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.23|2.05|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.05|1.23|
82609374|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.18|1.78|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.78|1.18|
82609375|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.04|1.42|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.04|
82609376|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.19|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.19|0.82|
82609377|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.29|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.29|0.96|
82609378|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.89|1.2|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.20|0.89|
82609379|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.46|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|1.07|
82609380|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.4|||||TWO_SIDED|95.0|1.24|1.61|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.61|1.24|
82609381|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.96|1.27|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.27|0.96|
82609382|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rises|2.1|||||TWO_SIDED|95.0|1.56|2.8|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.80|1.56|
82609383|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.3|||||TWO_SIDED|95.0|1.82|2.88|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.88|1.82|
82609384|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.18|1.9|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.90|1.18|
82609385|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.48|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.48|0.89|
82609386|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.63|0.85|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.85|0.63|
82609387|NCT01025336|164935724|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|0.99|1.51|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.51|0.99|
82609388|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.31|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.31|1.03|
82609389|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.16|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.16|0.91|
82609390|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.37|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.37|1.07|
82609391|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.91|1.13|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.13|0.91|
82609392|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.6|2.68|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.68|1.60|
82609393|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.4|||||TWO_SIDED|95.0|1.82|3.24|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.24|1.82|
82609394|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.55|2.03|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.03|1.55|
82609395|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.54|2.09|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.09|1.54|
82609396|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.07|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.07|0.79|
82609397|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.48|2.55|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.55|1.48|
82609398|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.53|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.53|1.05|
82609399|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.5|2.51|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.51|1.50|
82609400|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.6|||||TWO_SIDED|95.0|1.98|3.5|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.50|1.98|
82609401|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.31|2.18|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.18|1.31|
82657731|NCT00840632|165031623|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|100.1||||||90.0|98.12|102.12|||||Informational Purposes Only|||102.12|98.12|
82609402|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.37|2.61|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.61|1.37|
82609403|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.4|||||TWO_SIDED|95.0|1.76|3.38|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.38|1.76|
82609404|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.33|1.86|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.86|1.33|
82609405|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.38|2.01|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.01|1.38|
82609406|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.1|1.42|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.10|
82609407|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.55|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.55|1.14|
82609408|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.43|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.14|
82609409|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.28|1.67|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.67|1.28|
82657732|NCT01136382|165031631|SUPERIORITY_OR_OTHER||LS mean difference|13.6|STANDARD_ERROR_OF_MEAN|3.1|<|0.0001|TWO_SIDED|95.0|7.5|19.7||To address multiplicity, a step-down procedure was used. If the treatment difference for the primary variable, morning PEF, was statistically significant (p\<0.05), then the key secondary variable, FEV1, was tested at the 0.05 level of significance.|ANCOVA|||Change from baseline to treatment period average was analyzed using an analysis of covariance (ANCOVA) model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||19.7|7.5|<0.0001
82609410|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|2.2|||||TWO_SIDED|95.0|1.8|2.6|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.60|1.80|
82609411|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.53|2.31|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.31|1.53|
82609412|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.44|2.06|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.06|1.44|
82609413|NCT01025336|164935725|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.24|1.84|||||Confidence intervals (CIs) are back transformations of a confidence interval based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.84|1.24|
82609414|NCT01025336|164935726|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.19|0.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.29|0.19|
82609415|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.17|0.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.25|0.17|
82609416|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.2|0.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.29|0.20|
82609417|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.2|0.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.30|0.20|
82609418|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.31|0.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.42|0.31|
82609419|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.18|0.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.26|0.18|
82609420|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.18|0.10|
82609421|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.12|0.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.20|0.12|
82609422|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.1|0.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.18|0.10|
82609423|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.13|0.22|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.22|0.13|
82609424|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
82609425|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.25|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.38|0.25|
82609426|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.08|0.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.14|0.08|
82609427|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.1|||||TWO_SIDED|95.0|0.06|0.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.10|0.06|
82609428|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.46|0.22|
82609429|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.4|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.60|0.40|
82609430|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.43|0.29|
82609431|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.59|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.59|0.29|
82609432|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.17|0.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.38|0.17|
82609433|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.21|0.36|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.36|0.21|
82609434|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.27|0.56|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.56|0.27|
82609435|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.13|0.28|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.28|0.13|
82492409|NCT02100514|164677930|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-49.4|STANDARD_ERROR_OF_MEAN|18.27|||TWO_SIDED|95.0|-85.2|-13.5||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-13.5|-85.2|
82609436|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.2|0.39|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.39|0.20|
82609437|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.28|0.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.67|0.28|
82609438|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.83|0.48|
82609439|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.49|0.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.74|0.49|
82609440|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.65|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.65|0.42|
82609441|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.2|0.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.32|0.20|
82609442|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.28|0.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.43|0.28|
82609443|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.29|0.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.45|0.29|
82609444|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.3|0.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.41|0.30|
82609445|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.35|0.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.45|0.35|
82609446|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.51|0.36|
82609447|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.35|0.58|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.58|0.35|
82609448|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.39|0.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.62|0.39|
82609449|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.54|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.54|0.34|
82609450|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.23|0.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.42|0.23|
82609451|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.2|||||TWO_SIDED|95.0|0.15|0.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.24|0.15|
82609452|NCT01025336|164935726|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.69|0.42|
82609453|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.50|0.36|
82609454|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.36|0.48|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.48|0.36|
82609455|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.33|0.44|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.44|0.33|
82609456|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.26|0.37|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.37|0.26|
82609457|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.42|0.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.68|0.42|
82499425|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-39.97|STANDARD_ERROR_OF_MEAN|6.65||||90.0|-50.93|-29.0|||ANCOVA|||Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-29.00|-50.93|
82609458|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.64|1.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.14|0.64|
82609459|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.6|0.82|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.82|0.60|
82609460|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.86|1.18|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.18|0.86|
82609461|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.3|||||TWO_SIDED|95.0|0.22|0.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.33|0.22|
82609462|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.81|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.46|0.81|
82609463|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.34|0.51|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.51|0.34|
82609464|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.66|1.09|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.09|0.66|
82609465|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.37|0.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.68|0.37|
82609466|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.43|0.77|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.77|0.43|
82609467|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.4|||||TWO_SIDED|95.0|0.3|0.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.60|0.30|
82609468|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.47|0.98|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.98|0.47|
82492410|NCT02100514|164677931|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|5.5|STANDARD_ERROR_OF_MEAN|1.06|<|0.001|TWO_SIDED|95.0|3.4|7.6|||MMRM|||Week 12: LS mean difference and associated 95% CI and p-value were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.6|3.4|<0.001
82609469|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.72|1.01|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.01|0.72|
82609470|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.71|1.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.00|0.71|
82499426|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.08|STANDARD_ERROR_OF_MEAN|7.02||||90.0|-27.65|-4.51|||ANCOVA|||Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.51|-27.65|
82609471|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.5|0.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.66|0.50|
82609472|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.56|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.80|0.56|
82609473|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.54|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.69|0.54|
82609474|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.78|1.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.05|0.78|
82609475|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.59|0.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.80|0.59|
82609476|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.7|||||TWO_SIDED|95.0|0.53|0.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.83|0.53|
82609477|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.51|0.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||0.74|0.51|
82609478|NCT01025336|164935727|SUPERIORITY_OR_OTHER||Geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.75|1.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the 1 Month Postvaccination 1 and 1 Year Postvaccination 2 blood draws.||1.15|0.75|
82609479|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|6.05|10.67|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.67|6.05|
82609480|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.3|||||TWO_SIDED|95.0|6.65|10.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.45|6.65|
82609481|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.8|||||TWO_SIDED|95.0|3.71|6.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.14|3.71|
82609482|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.2|||||TWO_SIDED|95.0|2.59|3.91|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.91|2.59|
82609483|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.4|||||TWO_SIDED|95.0|3.67|5.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.26|3.67|
82609484|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.6|||||TWO_SIDED|95.0|2.2|3.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.14|2.20|
82609485|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.9|||||TWO_SIDED|95.0|7.8|21.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||21.34|7.80|
82609486|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.0|||||TWO_SIDED|95.0|6.26|12.92|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||12.92|6.26|
82609487|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.5|||||TWO_SIDED|95.0|3.71|8.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.07|3.71|
82609488|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.2|||||TWO_SIDED|95.0|4.35|8.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.80|4.35|
82609489|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.6|||||TWO_SIDED|95.0|9.71|16.3|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.30|9.71|
82609490|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.5|||||TWO_SIDED|95.0|5.59|10.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.02|5.59|
82609491|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|15.1|||||TWO_SIDED|95.0|9.56|23.81|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||23.81|9.56|
82609492|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.3|||||TWO_SIDED|95.0|8.66|17.38|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||17.38|8.66|
82609493|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.5|||||TWO_SIDED|95.0|4.29|9.89|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.89|4.29|
82609494|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|20.8|||||TWO_SIDED|95.0|12.59|34.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||34.24|12.59|
82609495|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|21.4|||||TWO_SIDED|95.0|14.56|31.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||31.46|14.56|
82609496|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.1|||||TWO_SIDED|95.0|7.24|17.01|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||17.01|7.24|
82609497|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|32.2|||||TWO_SIDED|95.0|19.75|52.57|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||52.57|19.75|
82609498|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|47.2|||||TWO_SIDED|95.0|34.0|65.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||65.43|34.00|
82609499|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|19.4|||||TWO_SIDED|95.0|12.95|29.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||29.17|12.95|
82609500|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.8|||||TWO_SIDED|95.0|7.79|21.13|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||21.13|7.79|
82609501|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.6|||||TWO_SIDED|95.0|8.56|18.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.68|8.56|
82657733|NCT01136382|165031632|SUPERIORITY_OR_OTHER||LS mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.022||0.0047|TWO_SIDED|95.0|0.02|0.11||To address multiplicity, a step-down procedure was used. If the treatment difference for the primary variable, morning PEF, was statistically significant (p\<0.05), then the key secondary variable, FEV1, was tested at the 0.05 level of significance.|ANCOVA|||Change from baseline to treatment period average was analyzed using an analysis of covariance (ANCOVA) model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.11|0.02|0.0047
82657734|NCT01136382|165031633|SUPERIORITY_OR_OTHER||LS mean difference|10.8|STANDARD_ERROR_OF_MEAN|3.0||0.0004|TWO_SIDED|95.0|4.9|16.7|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||16.7|4.9|0.0004
82657735|NCT01136382|165031634|SUPERIORITY_OR_OTHER||LS mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.0673|TWO_SIDED|95.0|0.0|0.08|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.08|0.00|0.0673
82657736|NCT01136382|165031635|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.044||0.0216|TWO_SIDED|95.0|0.01|0.19|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||0.19|0.01|0.0216
82657737|NCT01136382|165031636|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0004|TWO_SIDED|95.0|-0.31|-0.09||Analysis for change in daytime asthma symptom score from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.09|-0.31|0.0004
82657738|NCT01136382|165031636|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.11||0.0015|TWO_SIDED|95.0|-0.55|-0.13||Analysis for change in total asthma symptom score from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.13|-0.55|0.0015
82499427|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.54|STANDARD_ERROR_OF_MEAN|6.76||||90.0|-24.69|-2.39|||ANCOVA|||Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-2.39|-24.69|
82609502|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.8|||||TWO_SIDED|95.0|4.54|10.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.10|4.54|
82609503|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.8|||||TWO_SIDED|95.0|8.16|20.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||20.02|8.16|
82609504|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.5|||||TWO_SIDED|95.0|8.15|16.23|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.23|8.15|
82609505|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|5.75|11.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||11.25|5.75|
82657739|NCT01136382|165031637|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.06||0.0079|TWO_SIDED|95.0|-0.26|-0.04|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.04|-0.26|0.0079
82609506|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|20.0|||||TWO_SIDED|95.0|12.99|30.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||30.76|12.99|
82609507|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|22.3|||||TWO_SIDED|95.0|16.5|30.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||30.06|16.50|
82609508|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|9.8|||||TWO_SIDED|95.0|7.07|13.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||13.63|7.07|
82609509|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.0|||||TWO_SIDED|95.0|8.82|16.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.34|8.82|
82609510|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|13.0|||||TWO_SIDED|95.0|10.21|16.66|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.66|10.21|
82609511|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.6|||||TWO_SIDED|95.0|5.86|9.94|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.94|5.86|
82609512|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.2|||||TWO_SIDED|95.0|8.05|18.34|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.34|8.05|
82609513|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|17.2|||||TWO_SIDED|95.0|12.77|23.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||23.24|12.77|
82609514|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.5|||||TWO_SIDED|95.0|8.01|16.45|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.45|8.01|
82609515|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|12.0|||||TWO_SIDED|95.0|7.89|18.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||18.19|7.89|
82609516|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.7|||||TWO_SIDED|95.0|5.02|8.92|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.92|5.02|
82609517|NCT01025336|164935728|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.7|||||TWO_SIDED|95.0|3.52|6.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.29|3.52|
82609518|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.7|||||TWO_SIDED|95.0|3.05|4.49|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.49|3.05|
82609519|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.3|||||TWO_SIDED|95.0|1.92|2.81|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||2.81|1.92|
82609520|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.83|2.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||2.50|1.83|
82609521|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.5|||||TWO_SIDED|95.0|1.32|1.74|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||1.74|1.32|
82609522|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|8.0|||||TWO_SIDED|95.0|5.82|11.09|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||11.09|5.82|
82609523|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.9|||||TWO_SIDED|95.0|4.25|8.21|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||8.21|4.25|
82609524|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.9|||||TWO_SIDED|95.0|3.96|6.0|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||6.00|3.96|
82499428|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.86|STANDARD_ERROR_OF_MEAN|7.29||||90.0|-30.88|-6.84|||ANCOVA|||Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-6.84|-30.88|
82609525|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.58|3.79|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.79|2.58|
82609526|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|11.9|||||TWO_SIDED|95.0|8.56|16.49|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||16.49|8.56|
82609527|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.5|||||TWO_SIDED|95.0|2.59|4.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.76|2.59|
82609528|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.5|||||TWO_SIDED|95.0|4.61|9.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.03|4.61|
82609529|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.1|||||TWO_SIDED|95.0|2.32|4.24|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.24|2.32|
82609530|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|7.4|||||TWO_SIDED|95.0|5.23|10.33|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||10.33|5.23|
82609531|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.6|||||TWO_SIDED|95.0|4.07|7.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||7.69|4.07|
82609532|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.6|||||TWO_SIDED|95.0|2.5|5.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.20|2.50|
82609533|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.9|||||TWO_SIDED|95.0|2.1|4.04|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||4.04|2.10|
82609534|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.9|||||TWO_SIDED|95.0|2.26|3.71|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.71|2.26|
82609535|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.8|||||TWO_SIDED|95.0|2.23|3.63|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.63|2.23|
82609536|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.1|||||TWO_SIDED|95.0|3.16|5.2|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.20|3.16|
82609537|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.5|||||TWO_SIDED|95.0|2.06|3.14|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.14|2.06|
82609538|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|3.0|||||TWO_SIDED|95.0|2.46|3.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.60|2.46|
82609539|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.7|||||TWO_SIDED|95.0|2.24|3.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.15|2.24|
82657740|NCT01136382|165031638|SUPERIORITY_OR_OTHER||LS mean difference|-4.7|STANDARD_ERROR_OF_MEAN|1.78||0.0095|TWO_SIDED|95.0|-8.2|-1.1||Analysis for change in nighttime awakenings from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-1.1|-8.2|0.0095
82609540|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|5.9|||||TWO_SIDED|95.0|4.55|7.76|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||7.76|4.55|
82609541|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|4.0|||||TWO_SIDED|95.0|3.13|5.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||5.17|3.13|
82609542|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|6.9|||||TWO_SIDED|95.0|5.16|9.25|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||9.25|5.16|
82609543|NCT01025336|164935729|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.8|||||TWO_SIDED|95.0|2.24|3.4|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 1 and 1 Year Postvaccination 2 blood draws.||3.40|2.24|
82609544|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.08|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 1: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.08|1.02|
82609545|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.5|||||TWO_SIDED|95.0|1.14|1.99|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 3: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.99|1.14|
82609546|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.22|3.06|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 4: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.06|1.22|
82609547|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.7|||||TWO_SIDED|95.0|1.15|2.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 5: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.56|1.15|
82609548|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|2.2|||||TWO_SIDED|95.0|1.36|3.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 6A: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.53|1.36|
82657741|NCT01136382|165031638|SUPERIORITY_OR_OTHER||LS mean difference|-3.9|STANDARD_ERROR_OF_MEAN|1.15||0.0007|TWO_SIDED|95.0|-6.2|-1.7||Analysis for change in nighttime awakenings with reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-1.7|-6.2|0.0007
82609549|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.15|2.91|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 6B: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.91|1.15|
82609550|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|2.8|||||TWO_SIDED|95.0|1.8|4.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 7F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||4.44|1.80|
82609551|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.7|||||TWO_SIDED|95.0|0.99|2.96|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 9V: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.96|0.99|
82609552|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.1|||||TWO_SIDED|95.0|0.73|1.62|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 14: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.62|0.73|
82609553|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.02|2.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 18C: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.39|1.02|
82609554|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.38|2.45|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 19A: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.45|1.38|
82499429|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.56|STANDARD_ERROR_OF_MEAN|8.12||||90.0|-9.83|16.96|||ANCOVA|||Follow-up Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin.Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||16.96|-9.83|
82609555|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|2.2|||||TWO_SIDED|95.0|1.53|3.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 19F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.12|1.53|
82609556|NCT01025336|164935730|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.18|2.82|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS-23vPS/13vPnC)\].|Serotype 23F: Ratio of GMT (13vPnC/23vPS to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.82|1.18|
82609557|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.25|1.02|
82609558|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.78|1.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.44|0.78|
82609559|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.8|||||TWO_SIDED|95.0|1.06|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.00|1.06|
82609560|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.41|1.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.04|0.41|
82609561|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|3.1|||||TWO_SIDED|95.0|1.82|5.24|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||5.24|1.82|
82609562|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|2.4|||||TWO_SIDED|95.0|1.43|4.11|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||4.11|1.43|
82609563|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|0.96|3.0|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.00|0.96|
82609564|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.6|||||TWO_SIDED|95.0|0.88|3.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||3.04|0.88|
82609565|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.64|1.54|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.54|0.64|
82609566|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.71|1.93|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.93|0.71|
82657742|NCT01136382|165031639|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07||0.0001|TWO_SIDED|95.0|-0.4|-0.1||Analysis for change in daytime reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.1|-0.4|0.0001
82609567|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|1.01|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.04|1.01|
82609568|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.84|2.06|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.06|0.84|
82609569|NCT01025336|164935731|SUPERIORITY_OR_OTHER||Ratio of GMT|3.1|||||TWO_SIDED|95.0|1.89|5.2|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||5.20|1.89|
82609570|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.72|1.51|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.51|0.72|
82609571|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.52|0.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.94|0.52|
82609572|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.58|1.47|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.47|0.58|
82609573|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.25|0.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.59|0.25|
82609574|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.85|2.32|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.32|0.85|
82609575|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.82|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.13|0.82|
82609576|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.6|||||TWO_SIDED|95.0|0.37|0.97|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.97|0.37|
82609577|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.54|1.7|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.70|0.54|
82609578|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.59|1.41|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.41|0.59|
82609579|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|1.17|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.17|0.48|
82609580|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.58|1.05|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||1.05|0.58|
82609581|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|0.6|||||TWO_SIDED|95.0|0.41|0.88|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||0.88|0.41|
82609582|NCT01025336|164935732|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.05|2.81|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 13vPnC/23vPS)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 13vPnC/23vPS) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale.||2.81|1.05|
82609583|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.27|2.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 1: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.40|1.27|
82609584|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.95|1.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 3: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.59|0.95|
82609585|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.03|2.29|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 4: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.29|1.03|
82609586|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.95|1.97|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 5: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.97|0.95|
82609587|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|2.2|||||TWO_SIDED|95.0|1.42|3.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||3.31|1.42|
82609588|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.88|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 6B: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.04|0.88|
82609589|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|0.95|2.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 7F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.40|0.95|
82609590|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.2|||||TWO_SIDED|95.0|0.7|1.99|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 9V: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.99|0.70|
82609591|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.57|1.25|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 14: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.25|0.57|
82609592|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.06|2.12|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 18C: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.12|1.06|
82657743|NCT01136382|165031639|SUPERIORITY_OR_OTHER||LS mean difference|-0.5|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.7|-0.2||Analysis for change in total reliever medication use from baseline to treatment period average.|ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.2|-0.7|<0.0001
82657744|NCT01136382|165031640|SUPERIORITY_OR_OTHER||LS mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||Change from baseline to treatment period average was analyzed using an ANCOVA model with terms for treatment, age group (\<8 years and ≥8 years of age) and country with baseline as a covariate.||-0.1|-0.3|<0.0001
82609593|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.97|1.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19A: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||1.69|0.97|
82609594|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|1.8|||||TWO_SIDED|95.0|1.21|2.53|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 19F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||2.53|1.21|
82609595|NCT01025336|164935733|SUPERIORITY_OR_OTHER||Ratio of GMT|2.3|||||TWO_SIDED|95.0|1.54|3.42|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/13vPnC - 23vPS/13vPnC)\]|Serotype 23F: Ratio of GMT (13vPnC/13vPnC to 23vPS/13vPnC) was calculated by back transforming the mean difference between vaccine sequence on the logarithmic scale||3.42|1.54|
82609596|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.8|1.63|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 1: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.63|0.80|
82609597|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.77|1.39|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 3: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.39|0.77|
82609598|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.68|1.69|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 4: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.69|0.68|
82609599|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.03|2.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 5: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.31|1.03|
82657745|NCT01136382|165031641|SUPERIORITY_OR_OTHER|||||||0.0004|||||||Log Rank|||||||0.0004
82657746|NCT00963482|165031642|SUPERIORITY_OR_OTHER||||||=|0.111||95.0||||not adjusted for multiple comparisons due to only two groups p\<.05, two-tailed|Chi-squared|||"H0: EG is equal in smoking quit rates compared to CG. H1: EG is superior in smoking quit rates compared to CG"||||=.111
82609600|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|2.7|||||TWO_SIDED|95.0|1.66|4.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 6A: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||4.55|1.66|
82609601|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|3.7|||||TWO_SIDED|95.0|2.25|5.94|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 6B: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||5.94|2.25|
82609602|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|6.2|||||TWO_SIDED|95.0|3.85|9.98|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 7F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||9.98|3.85|
82609603|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|4.2|||||TWO_SIDED|95.0|2.43|7.4|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 9V: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||7.40|2.43|
82609604|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.89|2.13|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 14: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.13|0.89|
82609605|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.06|2.57|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 18C: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.57|1.06|
82609606|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|2.0|||||TWO_SIDED|95.0|1.5|2.78|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 19A: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.78|1.50|
82609607|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|3.4|||||TWO_SIDED|95.0|2.3|5.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 19F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||5.04|2.30|
82609608|NCT01025336|164935734|SUPERIORITY_OR_OTHER||Ratio of GMT|2.1|||||TWO_SIDED|95.0|1.37|3.37|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(13vPnC/23vPS - 23vPS)\]|Serotype 23F: Ratio of GMT (13vPnC/23vPS to 23vPS) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||3.37|1.37|
82657747|NCT02653664|165031712|SUPERIORITY|||||||0.39||||||Statistical significance was set at p=.05|ANOVA|||Based on our prior work comparing similar interventions, assuming decreases in average pain intensity of 0.3 points (on a 0-10 scale) for ED, between 0.8 to 1.4 points for HYP, and between 0.6 to 1 for MM, with standard deviations (SD) ranging from 0.15 to 1, significance level of 0.05, and using ANOVA as the statistical method, we calculated that 80 participants per arm at immediate post-treatment would provide at least 80% power to detect between-groups differences as specified.||||.39
82609609|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|0.9|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 1: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.90|0.48|
82609610|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.64|1.09|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 3: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.09|0.64|
82609611|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.3|||||TWO_SIDED|95.0|0.2|0.44|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 4: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.44|0.20|
82609612|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.9|||||TWO_SIDED|95.0|0.59|1.26|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 5: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.26|0.59|
82609613|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.2|||||TWO_SIDED|95.0|0.11|0.26|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 6A: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.26|0.11|
82609614|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.49|1.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 6B: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.22|0.49|
82657748|NCT02653664|165031713|SUPERIORITY|||||||0.05||||||Statistical significance was set at p=.05.|ANOVA|||||||.05
82657749|NCT02653664|165031714|SUPERIORITY||||||<|0.001||||||Statistical significance was set at p= .05|ANOVA|||||||<.001
82609615|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|1.1|||||TWO_SIDED|95.0|0.68|1.76|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 7F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.76|0.68|
82609616|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|0.9|2.55|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 9V: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.55|0.90|
82609617|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|1.5|||||TWO_SIDED|95.0|1.02|2.3|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 14: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.30|1.02|
82609618|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.52|1.14|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 18C: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.14|0.52|
82609619|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.62|1.08|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 19A: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.08|0.62|
82609620|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|1.3|||||TWO_SIDED|95.0|0.89|1.98|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 19F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.98|0.89|
82609621|NCT01025336|164935735|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.26|0.59|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC - 13vPnC)\].|Serotype 23F: Ratio of GMT (23vPs/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.59|0.26|
82609622|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.85|1.22|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.22|0.85|
82609623|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.1|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.10|0.82|
82609624|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.5|||||TWO_SIDED|95.0|0.41|0.69|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.69|0.41|
82609625|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.8|||||TWO_SIDED|95.0|0.67|0.87|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.87|0.67|
82609626|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.6|||||TWO_SIDED|95.0|0.48|0.79|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||0.79|0.48|
82609627|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.32|2.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.19|1.32|
82657750|NCT01287013|165031746|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82657751|NCT01287013|165031747|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82609628|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.24|2.26|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.26|1.24|
82657752|NCT01287013|165031748|OTHER||||||<|0.04|||||||t-test, 2 sided|||||||<0.04
82657753|NCT01287013|165031749|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82657754|NCT01287013|165031750|SUPERIORITY_OR_OTHER||||||=|0.67|||||||t-test, 2 sided|||||||=0.67
82657755|NCT01179048|165031752|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.3 or if the p-value for the one-sided test of H0: HR \>=1.3 against Ha: HR \<1.3 was less than 2.5% (or equivalent to 5% in two-sided test). If non-inferiority was established for the primary outcome, a test for superiority was to be performed.|Hazard Ratio (HR)|0.868|||<|0.001|TWO_SIDED|95.0|0.778|0.968||p-value is reported for one-sided (α-level 0.025) test for non-inferiority (hazard ratio \>=1.3).|Regression, Cox|||The primary endpoint was evaluated using the Cox regression model to estimate the hazard ratio (HR) (liraglutide/placebo) and the 2-sided 95% confidence interval (CI) including treatment group as factor. Non-inferiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.3 or if the p-value for the one-sided test of H0: HR \>=1.3 against Ha: HR \<1.3 was less than 2.5% (or equivalent to 5% in two-sided test).||0.968|0.778|<0.001
82609629|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.48|2.95|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.95|1.48|
82609630|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.23|2.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.05|1.23|
82609631|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.0|||||TWO_SIDED|95.0|0.82|1.19|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.19|0.82|
82609632|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.46|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.46|1.07|
82609633|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.56|2.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.80|1.56|
82609634|NCT01025336|164935736|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.1|||||TWO_SIDED|95.0|0.89|1.48|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.48|0.89|
82609635|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|0.7|||||TWO_SIDED|95.0|0.48|0.92|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 1: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.92|0.48|
82609636|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.76|1.28|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 3: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.28|0.76|
82657756|NCT01179048|165031752|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.868||||0.005|TWO_SIDED|95.0|0.778|0.968||p-value is reported for one-sided (α-level 0.025) test for superiority (hazard ratio\>=1.0).|Regression, Cox|||If non-inferiority was established for the primary outcome, a test for superiority was performed. Superiority of liraglutide versus placebo was considered confirmed, if the upper limit of the two-sided 95% CI for the hazard ratio was below 1.0 or equivalent if the p-value for the one-sided test of H0: HR \>=1.0 against Ha: HR \<1.0 was less than 2.5% (or equivalent to 5% in two-sided test).||0.968|0.778|0.005
82609637|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.88|2.22|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 4: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.22|0.88|
82609638|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.93|1.95|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 5: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.95|0.93|
82609639|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|0.4|||||TWO_SIDED|95.0|0.27|0.66|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 6A: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||0.66|0.27|
82609640|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.64|1.56|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 6B: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.56|0.64|
82609641|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.14|3.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 7F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||3.04|1.14|
82657757|NCT01179048|165031753|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.881|||||TWO_SIDED|95.0|0.807|0.962|||Regression, Cox|The analysis was done using a Cox regression model with treatment as a fixed factor including all randomised subjects.||||0.962|0.807|
82609642|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.7|||||TWO_SIDED|95.0|1.01|2.85|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 9V: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.85|1.01|
82609643|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.9|||||TWO_SIDED|95.0|1.26|2.87|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 14: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.87|1.26|
82609644|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.57|1.19|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 18C: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.19|0.57|
82609645|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.0|||||TWO_SIDED|95.0|0.75|1.31|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 19A: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.31|0.75|
82609646|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|1.4|||||TWO_SIDED|95.0|0.93|2.04|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 19F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||2.04|0.93|
82609647|NCT01025336|164935737|SUPERIORITY_OR_OTHER||Ratio of GMT|0.8|||||TWO_SIDED|95.0|0.5|1.15|||||CIs for the ratio are back transformations of a CI based on the Student t distribution for the mean difference of the logarithms of the measures \[(23vPS/13vPnC-13vPnC)\].|Serotype 23F: Ratio of GMT (23vPS/13vPnC to 13vPnC) was calculated by back transforming the mean difference between vaccine sequence/group on the logarithmic scale.||1.15|0.50|
82609648|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.03|1.31|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 1: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.31|1.03|
82657758|NCT01179048|165031754|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.847|||||TWO_SIDED|95.0|0.739|0.971|||Regression, Cox|The analysis was done using a Cox regression model with treatment as a fixed factor including all randomised subjects.||||0.971|0.739|
82657759|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.783|||||TWO_SIDED|95.0|0.656|0.934|||Regression, Cox|||Analysis for percentage of subjects experiencing cardiovascular death was done by Cox regression model with treatment as fixed factor.||0.934|0.656|
82657760|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.894|||||TWO_SIDED|95.0|0.721|1.107|||Regression, Cox|||Analysis for percentage of subjects experiencing non-fatal stroke was done by Cox regression model with treatment as fixed factor||1.107|0.721|
82609649|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.2|||||TWO_SIDED|95.0|1.07|1.37|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 3: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.37|1.07|
82657761|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878|||||TWO_SIDED|95.0|0.747|1.031|||Regression, Cox|||Analysis for percentage of subjects experiencing non-fatal myocardial infarction was done by Cox regression model with treatment as fixed factor||1.031|0.747|
82657762|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.763|1.258|||Regression, Cox|||Analysis for percentage of subjects experiencing hospitalisation for unstable angina pectoris was done by Cox regression model with treatment as fixed factor||1.258|0.763|
82657763|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.912|||||TWO_SIDED|95.0|0.797|1.044|||Regression, Cox|||Analysis for percentage of subjects experiencing coronary revascularisation was done by Cox regression model with treatment as fixed factor||1.044|0.797|
82657764|NCT01179048|165031755|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872|||||TWO_SIDED|95.0|0.727|1.046|||Regression, Cox|||Analysis for percentage of subjects experiencing hospitalisation for heart failure was done by Cox regression model with treatment as fixed factor||1.046|0.727|
82609650|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.1|||||TWO_SIDED|95.0|1.6|2.68|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 4: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.68|1.60|
82609651|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.8|||||TWO_SIDED|95.0|1.55|2.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 5: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.03|1.55|
82609652|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|0.9|||||TWO_SIDED|95.0|0.79|1.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.07|0.79|
82657765|NCT01179048|165031756|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.841|||||TWO_SIDED|95.0|0.73|0.969|||Regression, Cox|||Analysis for percentage of subjects experiencing a first microvascular event was done by Cox regression model with treatment as fixed factor.||0.969|0.730|
82657766|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.782|||||TWO_SIDED|95.0|0.666|0.918|||Regression, Cox|||Analysis for percentage of subjects experiencing a composite nephropathy event was done by Cox regression model with treatment as fixed factor.||0.918|0.666|
82657767|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.738|||||TWO_SIDED|95.0|0.602|0.905|||Regression, Cox|||Analysis for percentage of subjects experiencing a new onset of persistant macroalbuminaria event was done by Cox regression model with treatment as fixed factor.||0.905|0.602|
82609653|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.05|1.53|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 6B: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.53|1.05|
82609654|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.6|||||TWO_SIDED|95.0|1.98|3.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 7F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||3.50|1.98|
82609655|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.9|||||TWO_SIDED|95.0|1.37|2.61|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 9V: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.61|1.37|
82609656|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.6|||||TWO_SIDED|95.0|1.33|1.86|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 14: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.86|1.33|
82609657|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.1|1.42|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 18C: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.42|1.10|
82609658|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.3|||||TWO_SIDED|95.0|1.14|1.43|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19A: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||1.43|1.14|
82609659|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|2.2|||||TWO_SIDED|95.0|1.8|2.6|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 19F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.60|1.80|
82609660|NCT01025336|164935738|SUPERIORITY_OR_OTHER||geometric mean fold rise|1.7|||||TWO_SIDED|95.0|1.44|2.06|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the concentrations.|Serotype 23F: GMFR was calculated using all participants with available data from both the Prevaccination 2 and 1 Year Postvaccination 2 blood draws.||2.06|1.44|
82657768|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.667|1.189|||Regression, Cox|||Analysis for percentage of subjects experiencing persistent doubling of serum creatinine was done by Cox regression model with treatment as fixed factor.||1.189|0.667|
82492411|NCT02100514|164677931|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|5.4|STANDARD_ERROR_OF_MEAN|1.14||||95.0|3.2|7.6||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||7.6|3.2|
82609661|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.2|||||TWO_SIDED|95.0|0.87|1.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 1: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.64|0.87|
82657769|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.869|||||TWO_SIDED|95.0|0.607|1.244|||Regression, Cox|||Analysis for percentage of subjects experiencing a need for continuous renal-replacement therapy was done by Cox regression model with treatment as fixed factor.||1.244|0.607|
82657770|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.593|||||TWO_SIDED|95.0|0.521|4.869|||Regression, Cox|||Analysis for percentage of subjects experiencing death due to renal disease was done by Cox regression model with treatment as fixed factor.||4.869|0.521|
82499430|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|STANDARD_ERROR_OF_MEAN|8.2||||90.0|-31.32|-4.27|||ANCOVA|||Extension Month 1; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-4.27|-31.32|
82657771|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.149|||||TWO_SIDED|95.0|0.869|1.519|||Regression, Cox|||Analysis for percentage of subjects experiencing composite retinopathy was done by Cox regression model with treatment as fixed factor.||1.519|0.869|
82609662|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.63|1.08|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 3: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.08|0.63|
82609663|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.25|2.8|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 4: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.80|1.25|
82609664|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.71|1.53|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 5: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.53|0.71|
82609665|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|7.3|||||TWO_SIDED|95.0|4.67|11.44|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||11.44|4.67|
82657772|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.159|||||TWO_SIDED|95.0|0.869|1.546|||Regression, Cox|||Analysis for percentage of subjects experiencing treatment with photocoagulation or intravitreal agents was done by Cox regression model with treatment as fixed factor.||1.546|0.869|
82609666|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|2.6|||||TWO_SIDED|95.0|1.61|4.17|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6B: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||4.17|1.61|
82609667|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|2.0|||||TWO_SIDED|95.0|1.22|3.29|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 7F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||3.29|1.22|
82609668|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|0.96|2.77|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 9V: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.77|0.96|
82609669|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|0.8|||||TWO_SIDED|95.0|0.54|1.28|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 14: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.28|0.54|
82609670|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.92|2.07|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 18C: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||2.07|0.92|
82609671|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|1.01|1.83|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.83|1.01|
82609672|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|1.2|||||TWO_SIDED|95.0|0.77|1.78|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||1.78|0.77|
82609673|NCT01025336|164935739|SUPERIORITY_OR_OTHER||Ratio|3.0|||||TWO_SIDED|95.0|1.97|4.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 23F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale.||4.64|1.97|
82657773|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.335|||||TWO_SIDED|95.0|0.004|30.847|||Regression, Cox|||Analysis for percentage of subjects experiencing development of diabetes-related blindness was done by Cox regression model with treatment as fixed factor.||30.847|0.004|
82657774|NCT01179048|165031757|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.454|||||TWO_SIDED|95.0|0.845|2.502|||Regression, Cox|||Analysis for percentage of subjects experiencing vitreous haemorrhage was done by Cox regression model with treatment as fixed factor.||2.502|0.845|
82492412|NCT02100514|164677931|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|6.0|STANDARD_ERROR_OF_MEAN|1.2||||95.0|3.6|8.3||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||8.3|3.6|
82609674|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.15|2.15|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 1: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.15|1.15|
82609675|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.76|1.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 3: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.32|0.76|
82609676|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.8|||||TWO_SIDED|95.0|1.09|3.05|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 4: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||3.05|1.09|
82609677|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.95|1.96|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 5: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.96|0.95|
82609678|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|4.8|||||TWO_SIDED|95.0|3.05|7.5|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||7.50|3.05|
82609679|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|2.3|||||TWO_SIDED|95.0|1.4|3.64|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 6B: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||3.64|1.40|
82609680|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.0|||||TWO_SIDED|95.0|0.58|1.62|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 7F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.62|0.58|
82609681|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.4|||||TWO_SIDED|95.0|0.83|2.32|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 9V: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.32|0.83|
82609682|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|0.9|||||TWO_SIDED|95.0|0.58|1.4|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 14: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||1.40|0.58|
82609683|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.6|||||TWO_SIDED|95.0|1.09|2.41|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 18C: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.41|1.09|
82609684|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.5|||||TWO_SIDED|95.0|1.1|2.03|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19A: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.03|1.10|
82609685|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.3|||||TWO_SIDED|95.0|0.89|2.02|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 19F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.02|0.89|
82609686|NCT01025336|164935740|SUPERIORITY_OR_OTHER||Ratio|1.9|||||TWO_SIDED|95.0|1.27|2.97|||||CIs for the GMFR are back transformations of a CI based on the Student t distribution for the mean logarithm of the measures \[(13vPnC - 23vPS)\].|Serotype 23F: Ratio of GMT (13vPnC to 23vPS) was calculated by back transforming the mean difference between vaccine group on the logarithmic scale||2.97|1.27|
82609687|NCT02723630|164935764|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|100.52||||0.8826|TWO_SIDED|90.0|94.84|106.53||P-value for the formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and mean treatment difference.|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.53|94.84|0.8826
82609688|NCT02723630|164935764|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|96.03||||0.1095|TWO_SIDED|90.0|92.11|100.12||P-value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and mean treatment difference.|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||100.12|92.11|0.1095
82609689|NCT02723630|164935765|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|100.8||||0.8121|TWO_SIDED|90.0|95.31|106.61||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.61|95.31|0.8121
82609690|NCT02723630|164935765|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|96.51||||0.163|TWO_SIDED|90.0|92.53|100.65||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||100.65|92.53|0.1630
82609691|NCT02723630|164935766|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|99.68||||0.9427|TWO_SIDED|90.0|92.45|107.47||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||107.47|92.45|0.9427
82609692|NCT02723630|164935766|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|93.5||||0.0403|TWO_SIDED|90.0|88.63|98.64||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||98.64|88.63|0.0403
82609693|NCT02723630|164935767|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|100.29||||0.9373|TWO_SIDED|90.0|94.37|106.58||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||106.58|94.37|0.9373
82609694|NCT02723630|164935767|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|95.17||||0.0682|TWO_SIDED|90.0|91.03|99.5||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||99.50|91.03|0.0682
82609695|NCT02723630|164935768|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|98.73||||0.8448|TWO_SIDED|90.0|88.57|110.06||P value for formulation|Mixed Models Analysis||Geometric Least Squares Mean Ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||110.06|88.57|0.8448
82609696|NCT02723630|164935768|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|90.64||||0.0498|TWO_SIDED|90.0|83.51|98.38||P value for formulation|Mixed Models Analysis||Geometric LS Mean ratio was back-transformed least squares mean and treatment difference mean|The effect of crystalline polymorph forms in the drug product on the PK parameters of lenvatinib was estimated using a mixed linear model of logarithmically transformed values of the primary PK parameters with fixed effects for treatment, period, and sequence and a random effect for participant within sequence.||98.38|83.51|0.0498
82609697|NCT02255838|164935782|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|paired t-test||||||<0.05
82609698|NCT01512368|164935792|SUPERIORITY_OR_OTHER||Slope|0.089|STANDARD_ERROR_OF_MEAN|0.063|<|0.001|TWO_SIDED|95.0|0.034|0.144||All reported p values are based on two-sided tests considering ≤0.05 as significant.|Regression, Linear|Adjusted for age, time of exercise, creatinine, waist to hip ratio, fat percentage, body mass index, mean rest heart rate, blood pressure.|Metabolic equivalents (METs) consumed were independently associated with the log of delta (final-basal) FGF21 levels.|"FGF21 was log transformed to approximate normality before analyses. Null hypothesis was Ho = Y1 (FGF21 level at baseline) = Y2 (FGF21 level after two weeks of exercising). Power calculation was 80% with 60 participants evaluated (one group). To evaluate the effect of exercise on clinical and biochemical parameters, we used the difference between final - basal levels (delta)."||0.144|0.034|<0.001
82609699|NCT02532543|164935806|SUPERIORITY|||||||0.863|||||||ANOVA|||||||0.863
82609700|NCT02532543|164935807|SUPERIORITY|||||||0.718|||||||ANOVA|||Comparison between each arm/group at 2 mm from the height of the bone crest||||0.718
82609701|NCT02532543|164935807|SUPERIORITY|||||||0.853|||||||ANOVA|||Comparison between each arm/group at 4 mm from the height of the bone crest||||0.853
82609702|NCT02532543|164935808|SUPERIORITY|||||||0.718|||||||ANOVA|||Comparison between each arm/group of change in mid buccal bone height||||0.718
82609703|NCT02532543|164935808|SUPERIORITY|||||||0.999|||||||ANOVA|||Comparison between each arm/group of change in mid palatal bone height||||0.999
82609704|NCT02532543|164935808|SUPERIORITY|||||||0.44|||||||ANOVA|||Comparison between each arm/group of change in mesial bone height||||0.440
82609705|NCT02532543|164935808|SUPERIORITY|||||||0.729|||||||ANOVA|||Comparison between each arm/group of change in distal bone height||||0.729
82609706|NCT02532543|164935809|SUPERIORITY|||||||0.613|||||||ANOVA|||||||0.613
82609707|NCT02532543|164935810|SUPERIORITY|||||||0.492|||||||ANOVA|||Comparison between each arm/group at 2 mm from the height of the bone crest||||0.492
82609708|NCT02532543|164935810|SUPERIORITY|||||||0.917|||||||ANOVA|||Comparison between each arm/group at 4 mm from the height of the bone crest||||0.917
82609709|NCT02532543|164935811|SUPERIORITY|||||||0.353|||||||ANOVA|||Comparison between each arm/group of change in mid buccal soft tissue height||||0.353
82609710|NCT02532543|164935811|SUPERIORITY|||||||0.823|||||||ANOVA|||Comparison between each arm/group of change in mid palatal soft tissue height||||0.823
82609711|NCT02532543|164935811|SUPERIORITY|||||||0.243|||||||ANOVA|||Comparison between each arm/group of change in mesial soft tissue height||||0.243
82609712|NCT02532543|164935811|SUPERIORITY|||||||0.756|||||||ANOVA|||Comparison between each arm/group of change in distal soft tissue height||||0.756
82609713|NCT01144637|164935831|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 1 / Group 2)|1.1012|||||TWO_SIDED|95.0|0.9992|1.2136||||||||1.2136|0.9992|
82609714|NCT01144637|164935831|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 1 / Group 3)|0.9444|||||TWO_SIDED|95.0|0.8554|1.0427||||||||1.0427|0.8554|
82609715|NCT01144637|164935831|EQUIVALENCE|The equivalence margins to show that the 3 vaccine lots are equivalent in terms of PRNT GMTs at Week 6 was predefined as \[0.5; 2\] for the GMT ratios (pairwise)|GMT ratio (Group 2 / Group 3)|0.8577|||||TWO_SIDED|95.0|0.7753|0.9488||||||||0.9488|0.7753|
82609716|NCT00906789|164935843|NON_INFERIORITY_OR_EQUIVALENCE|Given a continuous confidence score (0-100), the trapezoidal method was used to obtain the area under the LROC with bootstrapping at 10,000 iterations to obtain the 95% confidence interval (CI). Acceptance criteria for tests of non-inferiority and superiority were previously set at 95% CI upper bound of ΔAUCUA-SV less than δ=0.1 and δ=0, respectively. If the 95% CI upper bound difference of UA-SV is less than 0.1, then SV is non-inferior. If it is 0 or less than 0, then SV is superior.||||||0.05|||||||Bootstraping|||The sample size of 351 patients, in a 2:1 ratio of nodule absent to present patients was selected to provide 80% power to detect a difference in areas under the curve of 0.10 or greater. This sample size was calculated using PASS software (Hintze, 2008). Settings: • α = 0.025. • one-sided test • AUCA = 0.80 and AUCSV = 0.90.• 2:1 ratio of patients with nodules to those without • areas calculated for the entire curves • correlation 0.3\* • discrete data. • standard deviation ratios of 1\*.||||0.05
82609717|NCT02334267|164935846|SUPERIORITY_OR_OTHER||||||<|0.0001||||||trend analysis over time|Mixed Models Analysis|||||||<0.0001
82609718|NCT02334267|164935847|SUPERIORITY_OR_OTHER|||||||0.4||||||trend analysis over time|Mixed Models Analysis|||||||0.4
82609719|NCT02334267|164935848|SUPERIORITY_OR_OTHER|||||||0.003||||||trend analysis over time|Mixed Models Analysis|||||||0.003
82609720|NCT02334267|164935849|SUPERIORITY_OR_OTHER||||||<|0.0001||||||trend analysis over time|Mixed Models Analysis|||||||<0.0001
82609721|NCT00923091|164935850|SUPERIORITY_OR_OTHER|||||||0.0071||95.0|||||ANCOVA|||||||0.0071
82609722|NCT00923091|164935850|SUPERIORITY_OR_OTHER|||||||0.0323||95.0|||||ANCOVA|||||||0.0323
82609723|NCT00923091|164935850|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|||||||0.0080
82609724|NCT00923091|164935850|SUPERIORITY_OR_OTHER|||||||0.0071||95.0|||||ANCOVA|||||||0.0071
82609725|NCT00923091|164935850|SUPERIORITY_OR_OTHER|||||||0.0107||95.0|||||ANCOVA|||||||0.0107
82609726|NCT00923091|164935851|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
82609727|NCT00923091|164935851|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||ANCOVA|||||||0.0008
82609728|NCT00923091|164935851|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82609729|NCT00923091|164935851|SUPERIORITY_OR_OTHER|||||||0.0034||95.0|||||ANCOVA|||||||0.0034
82609730|NCT00923091|164935851|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|||||||0.0006
82609731|NCT00923091|164935852|SUPERIORITY_OR_OTHER|||||||0.0295||95.0|||||Cochran-Mantel-Haenszel|||||||0.0295
82609732|NCT00923091|164935852|SUPERIORITY_OR_OTHER|||||||0.2529||95.0|||||Cochran-Mantel-Haenszel|||||||0.2529
82609733|NCT00923091|164935852|SUPERIORITY_OR_OTHER|||||||0.0037||95.0|||||Cochran-Mantel-Haenszel|||||||0.0037
82609734|NCT00923091|164935852|SUPERIORITY_OR_OTHER|||||||0.2033||95.0|||||Cochran-Mantel-Haenszel|||||||0.2033
82609735|NCT00923091|164935852|SUPERIORITY_OR_OTHER|||||||0.2529||95.0|||||Cochran-Mantel-Haenszel|||||||0.2529
82609736|NCT00923091|164935853|SUPERIORITY_OR_OTHER|||||||0.1135||95.0|||||ANCOVA|||||||0.1135
82609737|NCT00923091|164935854|SUPERIORITY_OR_OTHER|||||||0.2765||95.0|||||ANCOVA|||||||0.2765
82609738|NCT00923091|164935855|SUPERIORITY_OR_OTHER|||||||0.4964||95.0|||||Cochran-Mantel-Haenszel|||||||0.4964
82609739|NCT00923091|164935856|SUPERIORITY_OR_OTHER|||||||0.1301||95.0|||||ANCOVA|||||||0.1301
82609740|NCT00923091|164935856|SUPERIORITY_OR_OTHER|||||||0.01301||95.0|||||ANCOVA|||||||0.01301
82609741|NCT00923091|164935857|SUPERIORITY_OR_OTHER|||||||0.0503||95.0|||||ANCOVA|||||||0.0503
82609742|NCT00467649|164935872|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||Fisher Exact|||||||0.0180
82609743|NCT03240081|164935884|NON_INFERIORITY|We set 2 points (20%) as the margin of difference when defining and evaluating non-inferiority in comparing the 2 arms at 4 weeks.|Median Difference (Final Values)|2.0||||0.08|TWO_SIDED|||||Threshold for significance \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.08
82609744|NCT03240081|164935885|NON_INFERIORITY|We set 2 points (20%) as the margin of difference when evaluating non-inferiority in comparing the 2 arms at 4 weeks.|Median Difference (Final Values)|2.0||||0.95|ONE_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.95
82609745|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|4.657||||0.005|TWO_SIDED|95.0|1.584|13.686||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||13.686|1.584|0.005
82609746|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|2.478||||0.114|TWO_SIDED|95.0|0.805|7.632||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.632|0.805|0.114
82609747|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|3.499||||0.026|TWO_SIDED|95.0|1.16|10.555||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||10.555|1.160|0.026
82609748|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|3.943||||0.012|TWO_SIDED|95.0|1.348|11.534||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||11.534|1.348|0.012
82609749|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|1.223||||0.746|TWO_SIDED|95.0|0.361|4.151||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.151|0.361|0.746
82609750|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|5.562||||0.001|TWO_SIDED|95.0|1.932|16.013||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||16.013|1.932|0.001
82609751|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|2.979||||0.05|TWO_SIDED|95.0|0.999|8.882||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||8.882|0.999|0.050
82609752|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|4.418||||0.006|TWO_SIDED|95.0|1.521|12.834||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||12.834|1.521|0.006
82609753|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|4.165||||0.009|TWO_SIDED|95.0|1.425|12.178||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||12.178|1.425|0.009
82609754|NCT03114969|164935886|SUPERIORITY||Odds Ratio (OR)|1.209||||0.761|TWO_SIDED|95.0|0.357|4.095||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.095|0.357|0.761
82609755|NCT03114969|164935887|SUPERIORITY||Odds Ratio (OR)|2.292||||0.1|TWO_SIDED|95.0|0.853|6.163||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||6.163|0.853|0.100
82609756|NCT03114969|164935887|SUPERIORITY||Odds Ratio (OR)|2.642||||0.051|TWO_SIDED|95.0|0.994|7.022||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.022|0.994|0.051
82609757|NCT03114969|164935888|SUPERIORITY||Odds Ratio (OR)|3.995|||<|0.001|TWO_SIDED|95.0|1.808|8.829||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||8.829|1.808|<0.001
82609758|NCT03114969|164935888|SUPERIORITY||Odds Ratio (OR)|2.181||||0.069|TWO_SIDED|95.0|0.94|5.059||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.059|0.940|0.069
82609759|NCT03114969|164935888|SUPERIORITY||Odds Ratio (OR)|4.855|||<|0.001|TWO_SIDED|95.0|2.339|10.08||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||10.080|2.339|<0.001
82609760|NCT03114969|164935888|SUPERIORITY||Odds Ratio (OR)|2.71||||0.01|TWO_SIDED|95.0|1.274|5.764||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.764|1.274|0.010
82609761|NCT03114969|164935889|SUPERIORITY||Odds Ratio (OR)|2.503||||0.108|TWO_SIDED|95.0|0.818|7.659||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.659|0.818|0.108
82609762|NCT03114969|164935889|SUPERIORITY||Odds Ratio (OR)|2.409||||0.122|TWO_SIDED|95.0|0.792|7.331||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.331|0.792|0.122
82609763|NCT03114969|164935890|SUPERIORITY||Odds Ratio (OR)|4.887||||0.001|TWO_SIDED|95.0|1.851|12.903||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||12.903|1.851|0.001
82609764|NCT03114969|164935890|SUPERIORITY||Odds Ratio (OR)|5.484|||<|0.001|TWO_SIDED|95.0|2.106|14.284||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||14.284|2.106|<0.001
82609765|NCT03114969|164935891|SUPERIORITY||Odds Ratio (OR)|3.941|||<|0.001|TWO_SIDED|95.0|1.863|8.337||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||8.337|1.863|<0.001
82657775|NCT03203447|165031763|SUPERIORITY||Difference in percentages|-7.1||||0.191|TWO_SIDED|95.0|-17.9|3.6||The a priori threshold for statistical significance was 0.050. Prior to evaluating the results of the CMH test, a Breslow-Day test with Tarone's adjustment was conducted to confirm the homogeneity of the odds ratios between RVO strata.|Cochran-Mantel-Haenszel|The CMH test was stratified by the type of retinal vein occlusion, i.e., branch vs. central.|Estimated value was calculated as the percentage of subjects in the Active arm meeting the primary endpoint minus the percentage of subjects in the Control arm meeting the primary endpoint.|Based on a Pearson chi-square test, a total sample size of approximately 460 subjects provided 90% power to detect a difference of 15% between the Active and Control arms assuming the Control arm showed a proportion of 0.50 at 8 weeks. The primary analysis was a test of superiority of the Active arm over the Control arm, and was based on a Cochran-Mantel-Haenszel chi-square test stratified by type of retinal vein occlusion.||3.6|-17.9|0.191
82609766|NCT03114969|164935891|SUPERIORITY||Odds Ratio (OR)|2.391||||0.03|TWO_SIDED|95.0|1.088|5.256||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.256|1.088|0.030
82609767|NCT03114969|164935891|SUPERIORITY||Odds Ratio (OR)|4.728|||<|0.001|TWO_SIDED|95.0|2.388|9.364||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||9.364|2.388|<0.001
82609768|NCT03114969|164935891|SUPERIORITY||Odds Ratio (OR)|2.957||||0.002|TWO_SIDED|95.0|1.473|5.936||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.936|1.473|0.002
82609769|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|2.404||||0.045|TWO_SIDED|95.0|1.018|5.676||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||5.676|1.018|0.045
82609770|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|1.823||||0.172|TWO_SIDED|95.0|0.77|4.319||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.319|0.770|0.172
82609771|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|2.989||||0.016|TWO_SIDED|95.0|1.229|7.272||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||7.272|1.229|0.016
82609772|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|1.747||||0.179|TWO_SIDED|95.0|0.775|3.937||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||3.937|0.775|0.179
82609773|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|1.189||||0.69|TWO_SIDED|95.0|0.509|2.775||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||2.775|0.509|0.690
82609774|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|3.363||||0.004|TWO_SIDED|95.0|1.48|7.639||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||7.639|1.480|0.004
82609775|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|2.848||||0.012|TWO_SIDED|95.0|1.264|6.42||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||6.420|1.264|0.012
82609776|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|4.63|||<|0.001|TWO_SIDED|95.0|1.986|10.791||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||10.791|1.986|<0.001
82609777|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|2.037||||0.081|TWO_SIDED|95.0|0.916|4.528||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator.|||4.528|0.916|0.081
82609778|NCT03114969|164935892|SUPERIORITY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.438|2.283||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||2.283|0.438|1.000
82609779|NCT03114969|164935893|SUPERIORITY||Odds Ratio (OR)|1.935||||0.067|TWO_SIDED|95.0|0.955|3.921||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||3.921|0.955|0.067
82609780|NCT03114969|164935893|SUPERIORITY||Odds Ratio (OR)|2.523||||0.007|TWO_SIDED|95.0|1.283|4.961||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.961|1.283|0.007
82609781|NCT03114969|164935894|SUPERIORITY||Odds Ratio (OR)|2.399||||0.008|TWO_SIDED|95.0|1.252|4.596||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||4.596|1.252|0.008
82657776|NCT00324168|165031766|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009||||0.82|TWO_SIDED|95.0|-0.085|0.068|||Regression, Linear|Adjusted for enrollment BSCVA||||0.068|-0.085|0.82
82609782|NCT03114969|164935894|SUPERIORITY||Odds Ratio (OR)|1.812||||0.082|TWO_SIDED|95.0|0.926|3.544||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||3.544|0.926|0.082
82609783|NCT03114969|164935894|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.135|6.905||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||6.905|2.135|<0.001
82609784|NCT03114969|164935894|SUPERIORITY||Odds Ratio (OR)|3.231|||<|0.001|TWO_SIDED|95.0|1.81|5.766||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.766|1.810|<0.001
82609785|NCT03114969|164935895|SUPERIORITY||Odds Ratio (OR)|1.931||||0.12|TWO_SIDED|95.0|0.842|4.428||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||4.428|0.842|0.120
82657777|NCT00324168|165031767|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.4|TWO_SIDED|95.0|-0.09|0.15|||Regression, Linear|||||0.15|-0.09|0.40
82657778|NCT00324168|165031768|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.873|TWO_SIDED|95.0|-0.07|0.08|||Regression, Linear|||||0.08|-0.07|0.873
82657779|NCT00324168|165031769|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.44|TWO_SIDED|95.0|0.76|1.12|||Regression, Cox|||||1.12|0.76|0.44
82657780|NCT00324168|165031770|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Fisher Exact|||||||>0.99
82657781|NCT00324168|165031771|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.39|TWO_SIDED|95.0|-0.12|0.05|||Regression, Linear|||||0.05|-0.12|0.39
82657782|NCT00324168|165031772|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.04||0.78||95.0|-0.09|0.07|||Regression, Linear|||||0.07|-0.09|0.78
82657783|NCT00324168|165031773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.3|TWO_SIDED|95.0|-0.011|0.35|||Regression, Linear|||Nocardia spp||0.35|-.011|0.30
82609786|NCT03114969|164935895|SUPERIORITY||Odds Ratio (OR)|1.636||||0.232|TWO_SIDED|95.0|0.73|3.664||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||3.664|0.730|0.232
82609787|NCT03114969|164935896|SUPERIORITY||Odds Ratio (OR)|4.217|||<|0.001|TWO_SIDED|95.0|2.019|8.807||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||8.807|2.019|<0.001
82609788|NCT03114969|164935896|SUPERIORITY||Odds Ratio (OR)|5.41|||<|0.001|TWO_SIDED|95.0|2.66|11.005||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator.|||11.005|2.660|<0.001
82609789|NCT03114969|164935897|SUPERIORITY||Odds Ratio (OR)|2.477||||0.007|TWO_SIDED|95.0|1.274|4.815||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||4.815|1.274|0.007
82609790|NCT03114969|164935897|SUPERIORITY||Odds Ratio (OR)|2.748||||0.006|TWO_SIDED|95.0|1.328|5.683||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||5.683|1.328|0.006
82609791|NCT03114969|164935897|SUPERIORITY||Odds Ratio (OR)|3.896|||<|0.001|TWO_SIDED|95.0|2.133|7.118||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||7.118|2.133|<0.001
82609792|NCT03114969|164935897|SUPERIORITY||Odds Ratio (OR)|4.777|||<|0.001|TWO_SIDED|95.0|2.508|9.1||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator.|||9.100|2.508|<0.001
82609793|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|7.347||||0.176|TWO_SIDED|95.0|0.408|132.143||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||132.143|0.408|0.176
82609794|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|9.3||||0.128|TWO_SIDED|95.0|0.526|164.465||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||164.465|0.526|0.128
82609795|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|20.454||||0.038|TWO_SIDED|95.0|1.19|351.613||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||351.613|1.190|0.038
82609796|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|18.776||||0.041|TWO_SIDED|95.0|1.131|311.669||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||311.669|1.131|0.041
82609797|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|8.873||||0.141|TWO_SIDED|95.0|0.484|162.775||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||162.775|0.484|0.141
82657784|NCT00324168|165031773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.01||||0.86||95.0|-0.12|0.1|||Regression, Linear|||Streptococcus pneumoniae||0.10|-0.12|0.86
82657785|NCT00324168|165031773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.65|TWO_SIDED|95.0|-0.34|0.55|||Regression, Linear|||Moraxella spp||0.55|-0.34|0.65
82657786|NCT00324168|165031773|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.67|TWO_SIDED|95.0|-0.2|0.13|||Regression, Linear|||Pseudomonas aeruginosa||0.13|-0.20|0.67
82657787|NCT00324168|165031774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.08||||0.33|TWO_SIDED|95.0|-0.08|0.25|||Regression, Linear|||\<20/40||0.25|-0.08|0.33
82657788|NCT00324168|165031774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.85|TWO_SIDED|95.0|-0.09|0.11|||Regression, Linear|||20/40 to 20/800||0.11|-0.09|0.85
82657789|NCT00324168|165031774|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.03|TWO_SIDED|95.0|-0.31|-0.02|||Regression, Linear|||CF or worse||-0.02|-0.31|0.03
82657790|NCT00324168|165031775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06||||0.31|TWO_SIDED|95.0|-0.05|0.17|||Regression, Linear|||\>0-33%||0.17|-0.05|0.31
82657791|NCT00324168|165031775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.94|TWO_SIDED|95.0|-0.13|0.14|||Regression, Linear|||\>33%-67%||0.14|-0.13|0.94
82657792|NCT00324168|165031775|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.07|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||\>67%-100%||0.01|-0.31|0.07
82609798|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|10.215||||0.126|TWO_SIDED|95.0|0.519|200.904||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||200.904|0.519|0.126
82609799|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|13.717||||0.082|TWO_SIDED|95.0|0.715|263.125||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||263.125|0.715|0.082
82609800|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|28.283||||0.024|TWO_SIDED|95.0|1.561|512.532||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||512.532|1.561|0.024
82609801|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|21.736||||0.038|TWO_SIDED|95.0|1.183|399.541||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||399.541|1.183|0.038
82609802|NCT03114969|164935898|SUPERIORITY||Odds Ratio (OR)|7.603||||0.188|TWO_SIDED|95.0|0.371|155.763||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||155.763|0.371|0.188
82609803|NCT03114969|164935899|SUPERIORITY||Odds Ratio (OR)|7.781||||0.147|TWO_SIDED|95.0|0.488|124.117||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||124.117|0.488|0.147
82609804|NCT03114969|164935899|SUPERIORITY||Odds Ratio (OR)|9.786||||0.12|TWO_SIDED|95.0|0.553|173.301||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||173.301|0.553|0.120
82609805|NCT03114969|164935900|SUPERIORITY||Odds Ratio (OR)|2.089||||0.395|TWO_SIDED|95.0|0.383|11.389||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||11.389|0.383|0.395
82609806|NCT03114969|164935900|SUPERIORITY||Odds Ratio (OR)|3.25||||0.166|TWO_SIDED|95.0|0.612|17.244||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.244|0.612|0.166
82609807|NCT03114969|164935900|SUPERIORITY||Odds Ratio (OR)|3.196||||0.175|TWO_SIDED|95.0|0.596|17.14||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.140|0.596|0.175
82609808|NCT03114969|164935900|SUPERIORITY||Odds Ratio (OR)|5.408||||0.042|TWO_SIDED|95.0|1.059|27.61||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||27.610|1.059|0.042
82609809|NCT03114969|164935901|SUPERIORITY||Odds Ratio (OR)|12.145||||0.09|TWO_SIDED|95.0|0.68|216.818||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||216.818|0.680|0.090
82657793|NCT00324168|165031776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.53|TWO_SIDED|95.0|-0.1|0.2|||Regression, Linear|||0-1.90 mm||0.20|-0.10|0.53
82657794|NCT00324168|165031776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.95|TWO_SIDED|95.0|-0.15|0.16|||Regression, Linear|||1.91-2.70 mm||0.16|-0.15|0.95
82657795|NCT00324168|165031776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03||||0.7|TWO_SIDED|95.0|-0.12|0.18|||Regression, Linear|||2.71-4.06 mm||0.18|-0.12|0.70
82609810|NCT03114969|164935901|SUPERIORITY||Odds Ratio (OR)|9.991||||0.13|TWO_SIDED|95.0|0.508|196.435||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||196.435|0.508|0.130
82609811|NCT03114969|164935902|SUPERIORITY||Odds Ratio (OR)|11.907||||0.079|TWO_SIDED|95.0|0.753|188.208||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||188.208|0.753|0.079
82609812|NCT03114969|164935902|SUPERIORITY||Odds Ratio (OR)|15.06||||0.063|TWO_SIDED|95.0|0.866|262.042||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||262.042|0.866|0.063
82609813|NCT03114969|164935903|SUPERIORITY||Odds Ratio (OR)|2.67||||0.239|TWO_SIDED|95.0|0.521|13.69||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||13.690|0.521|0.239
82609814|NCT03114969|164935903|SUPERIORITY||Odds Ratio (OR)|2.929||||0.2|TWO_SIDED|95.0|0.567|15.125||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||15.125|0.567|0.200
82609815|NCT03114969|164935903|SUPERIORITY||Odds Ratio (OR)|4.269||||0.078|TWO_SIDED|95.0|0.848|21.489||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||21.489|0.848|0.078
82609816|NCT03114969|164935903|SUPERIORITY||Odds Ratio (OR)|5.132||||0.046|TWO_SIDED|95.0|1.031|25.55||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||25.550|1.031|0.046
82609817|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|3.483||||0.02|TWO_SIDED|95.0|1.218|9.961||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||9.961|1.218|0.020
82609818|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|2.284||||0.143|TWO_SIDED|95.0|0.757|6.895||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.895|0.757|0.143
82657796|NCT00324168|165031776|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15||||0.07|TWO_SIDED|95.0|-0.31|0.01|||Regression, Linear|||4.07-8.90 mm||0.01|-0.31|0.07
82657797|NCT00358449|165031789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55||||0.865|TWO_SIDED|95.0|0.04|5.44|||Regression, Logistic|||||5.44|0.04|0.865
82609819|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|5.268||||0.006|TWO_SIDED|95.0|1.615|17.187||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||17.187|1.615|0.006
82609820|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|4.655||||0.009|TWO_SIDED|95.0|1.478|14.666||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||14.666|1.478|0.009
82609821|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|1.274||||0.679|TWO_SIDED|95.0|0.405|4.005||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.005|0.405|0.679
82657798|NCT00358449|165031789|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.21||||0.19|TWO_SIDED|95.0|0.01|2.07|||Regression, Logistic|||||2.07|0.01|0.190
82657799|NCT00358449|165031792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128||||0.551|TWO_SIDED|95.0|-0.303|0.56|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.560|-0.303|0.551
82609822|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|3.804||||0.01|TWO_SIDED|95.0|1.372|10.544||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||10.544|1.372|0.010
82609823|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|2.555||||0.083|TWO_SIDED|95.0|0.886|7.369||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||7.369|0.886|0.083
82609824|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|5.93||||0.002|TWO_SIDED|95.0|1.89|18.611||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||18.611|1.890|0.002
82609825|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|4.929||||0.007|TWO_SIDED|95.0|1.556|15.612||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Incruse/Anoro Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||15.612|1.556|0.007
82609826|NCT03114969|164935904|SUPERIORITY||Odds Ratio (OR)|1.208||||0.746|TWO_SIDED|95.0|0.385|3.788||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.788|0.385|0.746
82609827|NCT03114969|164935905|SUPERIORITY||Odds Ratio (OR)|1.502||||0.404|TWO_SIDED|95.0|0.578|3.905||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.905|0.578|0.404
82609828|NCT03114969|164935905|SUPERIORITY||Odds Ratio (OR)|1.591||||0.33|TWO_SIDED|95.0|0.625|4.05||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.050|0.625|0.330
82609829|NCT03114969|164935906|SUPERIORITY||Odds Ratio (OR)|1.738||||0.189|TWO_SIDED|95.0|0.761|3.968||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||3.968|0.761|0.189
82609830|NCT03114969|164935906|SUPERIORITY||Odds Ratio (OR)|2.079||||0.086|TWO_SIDED|95.0|0.901|4.799||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.799|0.901|0.086
82609831|NCT03114969|164935906|SUPERIORITY||Odds Ratio (OR)|1.95||||0.082|TWO_SIDED|95.0|0.918|4.142||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.142|0.918|0.082
82657800|NCT00358449|165031792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.593||95.0|-0.331|0.572|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.572|-0.331|0.593
82657801|NCT00358449|165031792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.334||||0.239|TWO_SIDED|95.0|-0.232|0.901|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.901|-0.232|0.239
82657802|NCT00358449|165031792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.211||||0.488|TWO_SIDED|95.0|-0.401|0.823|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.823|-0.401|0.488
82657803|NCT00358449|165031793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.356||||0.139|TWO_SIDED|95.0|-0.121|0.833|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.833|-0.121|0.139
82657804|NCT00358449|165031793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.371||||0.145||95.0|-0.133|0.874|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.874|-0.133|0.145
82657805|NCT00358449|165031793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.433||||0.095|TWO_SIDED|95.0|-0.08|0.946|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.946|-0.080|0.095
82657806|NCT00358449|165031793|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.343||||0.219|TWO_SIDED|95.0|-0.214|0.899|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.899|-0.214|0.219
82609832|NCT03114969|164935906|SUPERIORITY||Odds Ratio (OR)|2.415||||0.018|TWO_SIDED|95.0|1.161|5.024||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.024|1.161|0.018
82609833|NCT03114969|164935907|SUPERIORITY||Odds Ratio (OR)|1.51||||0.472|TWO_SIDED|95.0|0.492|4.633||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.633|0.492|0.472
82609834|NCT03114969|164935907|SUPERIORITY||Odds Ratio (OR)|1.402||||0.553|TWO_SIDED|95.0|0.459|4.283||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||4.283|0.459|0.553
82609835|NCT03114969|164935908|SUPERIORITY||Odds Ratio (OR)|2.523||||0.052|TWO_SIDED|95.0|0.993|6.407||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.407|0.993|0.052
82609836|NCT03114969|164935908|SUPERIORITY||Odds Ratio (OR)|2.757||||0.029|TWO_SIDED|95.0|1.107|6.862||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.862|1.107|0.029
82609837|NCT03114969|164935909|SUPERIORITY||Odds Ratio (OR)|2.434||||0.024|TWO_SIDED|95.0|1.123|5.276||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.276|1.123|0.024
82657807|NCT00358449|165031794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59||||0.832|TWO_SIDED|95.0|-13.47|16.65|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||16.65|-13.47|0.832
82657808|NCT00358449|165031794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.92||||0.622|TWO_SIDED|95.0|-12.01|19.84|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||19.84|-12.01|0.622
82609838|NCT03114969|164935909|SUPERIORITY||Odds Ratio (OR)|2.389||||0.035|TWO_SIDED|95.0|1.061|5.376||Analysis was performed using logistic regression with treatment cohort as fixed effect and adjusting for the covariate of time on current primary DPI.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.376|1.061|0.035
82609839|NCT03114969|164935909|SUPERIORITY||Odds Ratio (OR)|2.889||||0.003|TWO_SIDED|95.0|1.434|5.819||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||5.819|1.434|0.003
82609840|NCT03114969|164935909|SUPERIORITY||Odds Ratio (OR)|2.974||||0.003|TWO_SIDED|95.0|1.461|6.055||Sensitivity analysis was performed using logistic regression with treatment cohort as fixed effect. Time on current primary device was removed from the model for this sensitivity analysis as it was confounded with primary device/treatment cohort.|Regression, Logistic||Odds ratio was calculated considering Relvar Ellipta+\[Relvar Ellipta+LAMA\] as comparator. Note: Statistical testing with a small number of events may produce unusual results; odds ratios and confidence intervals should be interpreted with caution.|||6.055|1.461|0.003
82609841|NCT03322657|164935910|SUPERIORITY||Hazard Ratio (HR)|3.8|||<|0.001|TWO_SIDED|95.0|2.2|6.5|||Cox proportional hazard model|||||6.5|2.2|<0.001
82609842|NCT03322657|164935911|SUPERIORITY||Median Difference (Final Values)|6.3||||0.13|TWO_SIDED|95.0|-2.0|14.0|||Wilcoxon (Mann-Whitney)|||||14|-2.0|0.13
82657809|NCT00358449|165031794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.83||||0.317|TWO_SIDED|95.0|-11.86|35.52|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||35.52|-11.86|0.317
82609843|NCT03322657|164935912|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.3|TWO_SIDED|95.0|0.43|1.34|||Cox proportional hazard model|||||1.34|0.43|0.30
82609844|NCT03322657|164935913|SUPERIORITY||Mean Difference (Final Values)|0.33||||0.21|TWO_SIDED|95.0|-0.35|1.0|||t-test, 2 sided|||||1.00|-0.35|0.21
82609845|NCT03322657|164935914|SUPERIORITY||Mean Difference (Final Values)|0.82||||0.04|TWO_SIDED|95.0|-0.18|1.81|||t-test, 2 sided|||||1.81|-0.18|0.04
82609846|NCT03443024|164935950|SUPERIORITY|||||||0.0165|||||||ANCOVA|||||||0.0165
82609847|NCT03443024|164935950|SUPERIORITY|||||||0.0022|TWO_SIDED|95.0|||||ANCOVA|||||||0.0022
82609848|NCT03443024|164935950|SUPERIORITY|||||||0.0005|TWO_SIDED|95.0|||||ANCOVA|||||||0.0005
82609849|NCT03443024|164935951|SUPERIORITY|||||||0.061|||||||Cochran-Mantel-Haenszel|||||||0.0610
82609850|NCT03443024|164935951|SUPERIORITY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||||||0.0021
82657810|NCT00358449|165031794|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.1||||0.246|TWO_SIDED|95.0|-10.91|41.11|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||41.11|-10.91|0.246
82657811|NCT00358449|165031795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.28||||0.046|TWO_SIDED|95.0|0.39|38.18|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||38.18|0.39|0.046
82609851|NCT03443024|164935951|SUPERIORITY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||||||0.0005
82609852|NCT03443024|164935952|SUPERIORITY|||||||0.1917|||||||Cochran-Mantel-Haenszel|||||||0.1917
82609853|NCT03443024|164935952|SUPERIORITY|||||||0.0392|||||||Cochran-Mantel-Haenszel|||||||0.0392
82609854|NCT03443024|164935952|SUPERIORITY|||||||0.0023|||||||Cochran-Mantel-Haenszel|||||||0.0023
82609855|NCT03443024|164935953|SUPERIORITY|||||||0.2043|||||||Cochran-Mantel-Haenszel|||||||0.2043
82609856|NCT03443024|164935953|SUPERIORITY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||||||0.0021
82609857|NCT03443024|164935953|SUPERIORITY|||||||0.0018|||||||Cochran-Mantel-Haenszel|||||||0.0018
82609858|NCT03443024|164935954|SUPERIORITY|||||||0.0554|||||||Cochran-Mantel-Haenszel|||||||0.0554
82609859|NCT03443024|164935954|SUPERIORITY|||||||0.0037|||||||Cochran-Mantel-Haenszel|||||||0.0037
82609860|NCT03443024|164935954|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||||||0.0008
82609861|NCT03443024|164935955|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|||||||0.0800
82609862|NCT03443024|164935955|SUPERIORITY|||||||0.0062|||||||Cochran-Mantel-Haenszel|||||||0.0062
82609863|NCT03443024|164935955|SUPERIORITY|||||||0.0006|||||||Cochran-Mantel-Haenszel|||||||0.0006
82609864|NCT03443024|164935956|SUPERIORITY|||||||0.0773|||||||ANCOVA|||||||0.0773
82609865|NCT03443024|164935956|SUPERIORITY|||||||0.0459|||||||ANCOVA|||||||0.0459
82609866|NCT03443024|164935956|SUPERIORITY|||||||0.0062|TWO_SIDED|95.0|||||ANCOVA|||||||0.0062
82609867|NCT03443024|164935957|SUPERIORITY|||||||0.0047|||||||ANCOVA|||||||0.0047
82609868|NCT03443024|164935957|SUPERIORITY|||||||0.0002|TWO_SIDED|95.0|||||ANCOVA|||||||0.0002
82609869|NCT03443024|164935957|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82657812|NCT00358449|165031795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.21||||0.16|TWO_SIDED|95.0|-5.83|34.25|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||34.25|-5.83|0.160
82609870|NCT03443024|164935958|SUPERIORITY|||||||0.6674|||||||Cochran-Mantel-Haenszel|||||||0.6674
82609871|NCT03443024|164935958|SUPERIORITY|||||||0.1166|||||||Cochran-Mantel-Haenszel|||||||0.1166
82657813|NCT00358449|165031795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.69||||0.078|TWO_SIDED|95.0|-2.1|37.48|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||37.48|-2.10|0.078
82609872|NCT03443024|164935958|SUPERIORITY|||||||0.0119|||||||Cochran-Mantel-Haenszel|||||||0.0119
82609873|NCT03443024|164935959|SUPERIORITY|||||||0.2371|||||||Cochran-Mantel-Haenszel|||||||0.2371
82609874|NCT03443024|164935959|SUPERIORITY|||||||0.1067|||||||Cochran-Mantel-Haenszel|||||||0.1067
82609875|NCT03443024|164935959|SUPERIORITY|||||||0.0008|||||||Cochran-Mantel-Haenszel|||||||0.0008
82609876|NCT03443024|164935960|SUPERIORITY|||||||0.4631|||||||ANCOVA|||||||0.4631
82609877|NCT03443024|164935960|SUPERIORITY|||||||0.0368|||||||ANCOVA|||||||0.0368
82609878|NCT03443024|164935960|SUPERIORITY|||||||0.0232|||||||ANCOVA|||||||0.0232
82609879|NCT03443024|164935961|SUPERIORITY|||||||0.4729|||||||ANCOVA|||||||0.4729
82609880|NCT03443024|164935961|SUPERIORITY|||||||0.0282|||||||ANCOVA|||||||0.0282
82609881|NCT03443024|164935961|SUPERIORITY|||||||0.0506|||||||ANCOVA|||||||0.0506
82609882|NCT00624338|164935964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.518|TWO_SIDED|95.0|0.74|1.82||Odds ratios were calculated from a logistic regression model adjusted for race and disease severity reported at screening.|Regression, Logistic|||||1.82|0.74|0.518
82609883|NCT00624338|164935964|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.49||||0.003|TWO_SIDED|95.0|0.31|0.78||Odds ratios were calculated from a logistic regression model adjusted for race and disease severity reported at screening.|Regression, Logistic|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||0.78|0.31|0.003
82609884|NCT00624338|164935965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.984||||0.929|TWO_SIDED|95.0|0.69|1.4||Cox proportional hazards model was performed to calculate hazard ratios and adjusted for race and disease severity at time of screening.|Regression, Cox|||||1.40|0.69|0.929
82609885|NCT00624338|164935965|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.562||||0.009|TWO_SIDED|95.0|0.36|0.87||Cox proportional hazards model was performed to calculate hazard ratios and adjusted for race and disease severity at time of screening.|Regression, Cox|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||0.87|0.36|0.009
82609886|NCT00624338|164935966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.215||||0.412|TWO_SIDED|95.0|0.76|1.94||Odds ratios were calculated from a logistic regression model, adjusted for race and disease severity reported at screening.|Regression, Logistic|||||1.94|0.76|0.412
82609887|NCT00624338|164935966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.722||||0.198|TWO_SIDED|95.0|0.44|1.19||Odds ratios were calculated from a logistic regression model, adjusted for race and disease severity reported at screening.|Regression, Logistic|Atacicept 150 mg arm was discontinued prematurely. The analysis of 150 mg was considered post-hoc.||||1.19|0.44|0.198
82609888|NCT05593432|164935969|SUPERIORITY||Response Rate Difference|29.4|STANDARD_ERROR_OF_MEAN|11.17||0.0129|TWO_SIDED|95.0|7.55|51.33||stratified by Baseline Investigator's Global Assessment (IGA) score (3 or 4)|Cochran-Mantel-Haenszel||stratified by Baseline IGA score (3 or 4)|||51.33|7.55|0.0129
82609889|NCT05593432|164935969|SUPERIORITY||Odds Ratio (OR)|4.04|||||TWO_SIDED|95.0|1.32|12.38|||||stratified by Baseline IGA score (3 or 4)|||12.38|1.32|
82609890|NCT05593432|164935970|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Response Rate Difference|30.6|STANDARD_ERROR_OF_MEAN|11.68||0.0141|TWO_SIDED|95.0|7.71|53.51|||Cochran-Mantel-Haenszel|stratified by Baseline IGA score (3 or 4)||||53.51|7.71|0.0141
82609891|NCT05593432|164935970|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Odds Ratio (OR)|4.16|||||TWO_SIDED|95.0|1.31|13.17|||||stratified by Baseline IGA score (3 or 4)|||13.17|1.31|
82657814|NCT00358449|165031795|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|21.11||||0.055|TWO_SIDED|95.0|-0.51|42.74|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||42.74|-0.51|0.055
82609892|NCT05593432|164935972|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Response Rate Difference|40.3|STANDARD_ERROR_OF_MEAN|12.09||0.0027|TWO_SIDED|95.0|16.61|64.0|||Cochran-Mantel-Haenszel|stratified by Baseline IGA score (3 or 4)||||64.00|16.61|0.0027
82609893|NCT05593432|164935972|EQUIVALENCE|A Cochran-Mantel-Haenszel test stratified by Baseline IGA score (3 or 4) at a 2-sided α = 0.05 level was used for the comparison between ruxolitinib 1.5% cream BID and vehicle cream BID at Week 16.|Odds Ratio (OR)|6.67|||||TWO_SIDED|95.0|1.85|24.02|||||stratified by Baseline IGA score (3 or 4)|||24.02|1.85|
82609894|NCT05593432|164935974|EQUIVALENCE|A log-rank test stratified by randomization stratification factor, Baseline IGA score (3 or 4), was used for between-treatment group comparisons. The hazard ratio and its 95% confidence interval was estimated based on the stratified Cox regression model. using Efron's method accounting for ties.|Hazard Ratio (HR)|2.85||||0.0008|TWO_SIDED|95.0|1.51|5.381|||Log Rank|stratified by Baseline IGA score (3 or 4) between ruxolitinib 1.5% cream and vehicle cream|Cox regression model stratified by Baseline IGA score (3 or 4) was conducted to compare the difference in hazard rate between ruxolitinib 1.5% cream and vehicle cream|||5.381|1.510|0.0008
82609895|NCT01476787|164935995|SUPERIORITY|||||||0.128|||||||Cochran-Mantel-Haenszel|||||||0.128
82609896|NCT01476787|164935996|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.406|TWO_SIDED|95.0|0.756|1.12|||Log Rank|||||1.120|0.756|0.406
82609897|NCT01476787|164935998|SUPERIORITY||Hazard Ratio (HR)|1.038|||||TWO_SIDED|95.0|0.854|1.261||||||||1.261|0.854|
82609898|NCT01476787|164935999|SUPERIORITY||Hazard Ratio (HR)|1.04|||||TWO_SIDED|95.0|0.775|1.395||||||||1.395|0.775|
82609899|NCT01476787|164936000|SUPERIORITY||Hazard Ratio (HR)|0.809|||||TWO_SIDED|95.0|0.651|1.006|||Regression, Cox|||||1.006|0.651|
82609900|NCT04458857|164936018|OTHER||LS mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.44||0.021|TWO_SIDED|95.0|-1.9|-0.16|||ANCOVA|||||-0.16|-1.90|0.0210
82609901|NCT04800315|164936041|SUPERIORITY||Mean Difference (Final Values)|-21.76||||0.003|TWO_SIDED|95.0|-35.81|-7.7|||ANCOVA|||||-7.70|-35.81|0.003
82609902|NCT04800315|164936041|SUPERIORITY||Mean Difference (Final Values)|-13.38||||0.057|TWO_SIDED|95.0|-27.19|0.43|||ANCOVA|||||0.43|-27.19|0.057
82609903|NCT04800315|164936041|SUPERIORITY||Mean Difference (Final Values)|-16.28||||0.029|TWO_SIDED|95.0|-30.88|-1.68|||ANCOVA|||||-1.68|-30.88|0.029
82609904|NCT04800315|164936042|OTHER|Risk Difference|Risk Difference VS Placebo|24.0||||0.004|TWO_SIDED|95.0|8.8|39.2|||Cochran-Mantel-Haenszel|||||39.2|8.8|0.004
82609905|NCT04800315|164936042|OTHER|Risk Difference|Risk Difference VS Placebo|15.3||||0.061|TWO_SIDED|95.0|0.8|29.8|||Cochran-Mantel-Haenszel|||||29.8|0.8|0.061
82609906|NCT04800315|164936042|OTHER|Risk Difference|Risk Difference VS Placebo|28.9|||<|0.001|TWO_SIDED|95.0|13.6|44.2|||Cochran-Mantel-Haenszel|||||44.2|13.6|<0.001
82609907|NCT04800315|164936043|OTHER|Risk Difference|Difference VS Placebo|23.7||||0.018|TWO_SIDED|95.0|6.2|41.2|||Cochran-Mantel-Haenszel|||||41.2|6.2|0.018
82609908|NCT04800315|164936043|OTHER|Risk Difference|Difference VS Placebo|21.8||||0.033|TWO_SIDED|95.0|4.3|39.3|||Cochran-Mantel-Haenszel|||||39.3|4.3|0.033
82609909|NCT04800315|164936043|OTHER|Risk Difference|Difference VS Placebo|26.7||||0.006|TWO_SIDED|95.0|9.3|44.0|||Cochran-Mantel-Haenszel|||||44.0|9.3|0.006
82609910|NCT04800315|164936044|OTHER|Risk Difference|Risk Difference|18.1|||||TWO_SIDED|95.0|2.3|33.9|||Cochran-Mantel-Haenszel|||||33.9|2.3|
82609911|NCT04800315|164936044|OTHER|Risk Difference|Risk Difference|10.5|||||TWO_SIDED|95.0|-4.6|25.7|||Cochran-Mantel-Haenszel|||||25.7|-4.6|
82609912|NCT04800315|164936044|SUPERIORITY||Risk Difference|15.9|||||TWO_SIDED|95.0|0.4|31.4|||Cochran-Mantel-Haenszel|||||31.4|0.4|
82609913|NCT04800315|164936045|SUPERIORITY||Mean Difference (Final Values)|-28.16|||||TWO_SIDED|95.0|-41.89|-14.44|||ANCOVA|||||-14.44|-41.89|
82609914|NCT04800315|164936045|SUPERIORITY||Mean Difference (Final Values)|-14.36|||||TWO_SIDED|95.0|-27.26|-1.46|||ANCOVA|||||-1.46|-27.26|
82609915|NCT04800315|164936045|SUPERIORITY||Mean Difference (Final Values)|-19.07|||||TWO_SIDED|95.0|-33.53|-4.62|||ANCOVA|||||-4.62|-33.53|
82609916|NCT04800315|164936046|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-22.5|||||TWO_SIDED|95.0|-41.46|-3.54|||ANCOVA|||||-3.54|-41.46|
82609917|NCT04800315|164936046|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-13.17|||||TWO_SIDED|95.0|-30.67|4.33|||ANCOVA|||||4.33|-30.67|
82609918|NCT04800315|164936046|OTHER|Adjusted Mean Difference VS Placebo|Adjusted Mean Difference VS Placebo|-16.32|||||TWO_SIDED|95.0|-36.4|3.75|||ANCOVA|||||3.75|-36.40|
82609919|NCT04800315|164936047|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|18.5||||0.042|TWO_SIDED|95.0|2.7|34.3|||Cochran-Mantel-Haenszel|||||34.3|2.7|0.042
82609920|NCT04800315|164936047|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|19.9||||0.029|TWO_SIDED|95.0|4.1|35.7|||Cochran-Mantel-Haenszel|||||35.7|4.1|0.029
82609921|NCT04800315|164936047|OTHER|Risk Difference VS Placebo|Risk Difference VS Placebo|18.0||||0.052|TWO_SIDED|95.0|2.3|33.6|||Cochran-Mantel-Haenszel|||||33.6|2.3|0.052
82609922|NCT04800315|164936049|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-23.12|||||TWO_SIDED|95.0|-41.48|-4.76|||ANCOVA|||||-4.76|-41.48|
82609923|NCT04800315|164936049|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-8.28|||||TWO_SIDED|95.0|-25.16|8.59|||ANCOVA|||||8.59|-25.16|
82609924|NCT04800315|164936049|OTHER|Adjusted mean difference VS Placebo|Adjusted mean difference VS Placebo|-10.87|||||TWO_SIDED|95.0|-29.39|7.66|||ANCOVA|||||7.66|-29.39|
82609925|NCT01662999|164936060|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.943|||||TWO_SIDED|90.0|0.867|1.026|||Mixed Models Analysis|||The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.026|0.867|
82609926|NCT01662999|164936061|SUPERIORITY_OR_OTHER||Ration of adjusted geometric mean|0.984|||||TWO_SIDED|90.0|0.961|1.008|||Mixed Models Analysis|||Treatment B versus C in AUC(INF). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.008|0.961|
82609927|NCT01662999|164936063|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.99|||||TWO_SIDED|90.0|0.966|1.014|||Mixed Models Analysis|||Treatment B versus C in AUC(0-T). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.014|0.966|
82609928|NCT01662999|164936065|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.927|||||TWO_SIDED|90.0|0.883|0.972|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||0.972|0.883|
82609929|NCT01662999|164936067|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.055|||||TWO_SIDED|90.0|1.004|1.109|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite of saxagliptin). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.109|1.004|
82609930|NCT01662999|164936068|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.991|||||TWO_SIDED|90.0|0.96|1.022|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.022|0.960|
82609931|NCT01662999|164936069|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.991|||||TWO_SIDED|90.0|0.961|1.022|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.022|0.961|
82609932|NCT01662999|164936070|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.085|||||TWO_SIDED|90.0|1.058|1.113|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.113|1.058|
82609933|NCT01662999|164936071|SUPERIORITY_OR_OTHER||ratio of adjusted geometric mean|1.085|||||TWO_SIDED|90.0|1.058|1.113|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of 5-OH saxagliptin (metabolite). The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.113|1.058|
82609934|NCT01662999|164936072|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|0.994|||||TWO_SIDED|90.0|0.96|1.03|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the Pharmacokinetics of saxagliptin total active moiety. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.030|0.960|
82609935|NCT01662999|164936073|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric mean|1.046|||||TWO_SIDED|90.0|1.029|1.064|||Mixed Models Analysis|||This analysis assesses the effect of concomitant administration of dapagliflozin on the AUC(0-T) of saxagliptin total active moiety. The statistical model includes treatment and period as fixed effects and measurements within each participant as repeated measurements. The adjusted geometric means are from the mixed model.||1.064|1.029|
82609936|NCT01751646|164936102|OTHER|||||||0.1166||||||P-value from Wilcoxon rank sum test for change between baseline and Week 48 Vitamin D vs. Placebo|Wilcoxon (Mann-Whitney)|||||||0.1166
82609937|NCT01751646|164936104|OTHER|||||||0.8383|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.8383
82609938|NCT01751646|164936107|OTHER|||||||0.1378|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.1378
82609939|NCT01751646|164936109|OTHER|||||||0.4686|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.4686
82657815|NCT00358449|165031796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.324||||0.241|TWO_SIDED|95.0|-0.226|0.873|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.873|-0.226|0.241
82657816|NCT00358449|165031796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26||||0.371|TWO_SIDED|95.0|-0.32|0.839|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.839|-0.320|0.371
82657817|NCT00358449|165031796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.353||||0.291|TWO_SIDED|95.0|-0.317|1.023|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.023|-0.317|0.291
82657818|NCT00358449|165031796|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.176||||0.653|TWO_SIDED|95.0|-0.965|0.614|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.614|-0.965|0.653
82657819|NCT00358449|165031797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.06||||0.123|TWO_SIDED|95.0|-4.0|32.13|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||32.13|-4.00|0.123
82609940|NCT01751646|164936111|OTHER|||||||0.7601|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.7601
82609941|NCT01751646|164936113|OTHER|||||||0.3978|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.3978
82609942|NCT01751646|164936115|OTHER|||||||0.1187|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.1187
82609943|NCT01751646|164936118|OTHER|||||||0.5098|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.5098
82609944|NCT01751646|164936119|OTHER|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.2550
82609945|NCT01751646|164936120|OTHER|||||||0.6499|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.6499
82609946|NCT01751646|164936121|OTHER|||||||0.2348|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.2348
82609947|NCT01751646|164936124|OTHER|||||||0.2648|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.2648
82609948|NCT01751646|164936127|OTHER|||||||0.3728|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.3728
82609949|NCT01751646|164936130|OTHER|||||||0.7825|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.7825
82657820|NCT00358449|165031797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.62||||0.551|TWO_SIDED|95.0|-13.29|24.54|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||24.54|-13.29|0.551
82609950|NCT01751646|164936133|OTHER|||||||0.195|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.1950
82609951|NCT01751646|164936136|OTHER|||||||0.7127|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.7127
82609952|NCT01751646|164936139|OTHER|||||||0.4676|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4676
82609953|NCT01751646|164936142|OTHER|||||||0.021|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0210
82609954|NCT01751646|164936145|OTHER|||||||0.0144|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0144
82609955|NCT01751646|164936148|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||< 0.0001
82609956|NCT01751646|164936151|OTHER|||||||0.0814|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.0814
82657821|NCT00358449|165031797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.04||||0.141|TWO_SIDED|95.0|-5.61|37.7|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||37.70|-5.61|0.141
82657822|NCT00358449|165031797|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.42||||0.666|TWO_SIDED|95.0|-30.74|19.9|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||19.90|-30.74|0.666
82657823|NCT00358449|165031798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088||||0.572|TWO_SIDED|95.0|-0.224|0.4|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.400|-0.224|0.572
82657824|NCT00358449|165031798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.012||||0.942|TWO_SIDED|95.0|-0.35|0.326|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.326|-0.350|0.942
82657825|NCT00358449|165031798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.005||||0.96|TWO_SIDED|95.0|-0.188|0.197|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.197|-0.188|0.960
82657826|NCT00358449|165031798|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.317|TWO_SIDED|95.0|-0.105|0.315|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.315|-0.105|0.317
82657827|NCT00358449|165031799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.13||||0.666|TWO_SIDED|95.0|-6.39|4.12|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||4.12|-6.39|0.666
82657828|NCT00358449|165031799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.16||||0.45|TWO_SIDED|95.0|-7.87|3.56|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||3.56|-7.87|0.450
82657829|NCT00358449|165031799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6||||0.215|TWO_SIDED|95.0|-12.0|2.81|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||2.81|-12.00|0.215
82657830|NCT00358449|165031799|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51||||0.898|TWO_SIDED|95.0|-8.61|7.58|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||7.58|-8.61|0.898
82609957|NCT01751646|164936154|OTHER|||||||0.4808|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4808
82609958|NCT01751646|164936157|OTHER|||||||0.387|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.3870
82609959|NCT01751646|164936160|OTHER|||||||0.429|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D) vs. Group B (Placebo)||||0.4290
82609960|NCT01751646|164936161|OTHER|||||||0.9186|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.9186
82609961|NCT01751646|164936162|OTHER|||||||0.4016|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.4016
82609962|NCT01751646|164936163|OTHER|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.5810
82609963|NCT01751646|164936164|OTHER|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||Test for change between baseline and Week 48 Group A (Vitamin D3) vs. Group B (Placebo)||||0.1570
82609964|NCT01751646|164936170|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of change from baseline to week 48||||<0.0001
82609965|NCT01751646|164936170|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of change from baseline to Week 48||||<0.0001
82609966|NCT01751646|164936173|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of Week 48 difference from baseline||||< 0.0001
82609967|NCT01751646|164936173|OTHER||||||<|0.0001|||||||Wilcoxon Signed Rank Test|||Test of Week 48 difference from baseline||||< 0.0001
82609968|NCT01151137|164936185|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.294||||0.0019|TWO_SIDED|95.0|1.337|3.936||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for stroke, systemic arterial embolism, myocardial infarction or cardiovascular death~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||3.936|1.337|0.0019
82609969|NCT01151137|164936186|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.947|||<|0.0001|TWO_SIDED|95.0|1.448|2.617||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for unscheduled cardiovascular hospitalization or death from any cause~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||2.617|1.448|<0.0001
82609970|NCT01151137|164936188|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.115||||0.046|TWO_SIDED|95.0|0.996|4.49||A priori threshold for statistical significance: 0.05|Log Rank|2-sided Log-rank's asymptotic test|"Hazard ratio (HR) of Dronedarone versus placebo for cardiovascular death~HR and confidence interval were estimated using Cox regression model with treatment group as the only factor."|As a consequence of the early termination of the study, the analysis was performed for information only without any adjustment.||4.490|0.996|0.0460
82609971|NCT01933672|164936199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-31.24|||||TWO_SIDED|80.0|-36.35|-26.12||||||Change from baseline||-26.12|-36.35|
82609972|NCT01933672|164936199|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-31.33|||||TWO_SIDED|80.0|-37.29|-25.37||||||Change from baseline||-25.37|-37.29|
82609973|NCT01933672|164936199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.24|||||TWO_SIDED|80.0|-24.99|-13.5||||||Change from baseline||-13.50|-24.99|
82609974|NCT01933672|164936199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.99|||||TWO_SIDED|80.0|-19.81|-4.17||||||There was no hypothesis to be tested. Difference in change from baseline in WMDG between the 2 treatment groups was calculated based on the mixed effects repeated measures model.||-4.17|-19.81|
82609975|NCT01933672|164936199|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.09|||||TWO_SIDED|80.0|-19.81|-4.17||||||There was no hypothesis to be tested. Difference in change from baseline in WMDG between the 2 treatment groups was calculated based on the mixed effects repeated measures model.||-4.17|-19.81|
82609976|NCT01933672|164936200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.92|||||TWO_SIDED|80.0|-27.0|-16.85||||||Compared with Baseline||-16.85|-27.00|
82609977|NCT01933672|164936200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|||||TWO_SIDED|80.0|-26.3|-15.1||||||Compared with Baseline||-15.10|-26.30|
82609978|NCT01933672|164936200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.51|||||TWO_SIDED|80.0|-22.24|-10.78||||||Compared with Baseline||-10.78|-22.24|
82609979|NCT01933672|164936200|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-5.41|||||TWO_SIDED|80.0|-11.74|0.92||||||Change from baseline in FPG was analyzed in a mixed model analysis of covariance (ANCOVA) with regimen, period, sequence, treatment × period, and carryover as fixed effects. Subjects within sequences were modelled as random effects, with each subject's period-specific baseline response included, as fixed covariates.||0.92|-11.74|
82657831|NCT00358449|165031800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038||||0.762|TWO_SIDED|95.0|-0.217|0.294|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.294|-0.217|0.762
82657832|NCT00358449|165031800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.159||||0.235|TWO_SIDED|95.0|-0.426|0.108|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.108|-0.426|0.235
82657833|NCT00358449|165031800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089||||0.607|TWO_SIDED|95.0|-0.259|0.436|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.436|-0.259|0.607
82609980|NCT01933672|164936200|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.19|||||TWO_SIDED|80.0|-10.86|2.49||||||Change from baseline in FPG was analyzed in a mixed model analysis of covariance (ANCOVA) with regimen, period, sequence, treatment × period, and carryover as fixed effects. Subjects within sequences were modelled as random effects, with each subject's period-specific baseline response included, as fixed covariates.||2.49|-10.86|
82609981|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06|||||TWO_SIDED|80.0|-0.19|0.07||||||Compared with Baseline （Pre-breakfast）||0.07|-0.19|
82609982|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|80.0|-0.09|0.21||||||Compared with Baseline (Pre-breakfast)||0.21|-0.09|
82609983|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|80.0|0.16|0.45||||||Compared with Baseline (Pre-breakfast)||0.45|0.16|
82609984|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36|||||TWO_SIDED|80.0|-0.56|-0.36||||||Pre-breakfast; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.36|-0.56|
82609985|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24|||||TWO_SIDED|80.0|-0.45|-0.03||||||Pre-breakfast; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.03|-0.45|
82609986|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|||||TWO_SIDED|80.0|-0.08|0.48||||||Compared with Baseline (Pre-lunch)||0.48|-0.08|
82609987|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.7|||||TWO_SIDED|80.0|0.38|1.03||||||Compared with Baseline (Pre-lunch)||1.03|0.38|
82609988|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||||TWO_SIDED|80.0|-0.26|0.37||||||Compared with Baseline (Pre-lunch)||0.37|-0.26|
82609989|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14||||||80.0|-0.28|0.57||||||Pre-lunch; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.57|-0.28|
82609990|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65|||||TWO_SIDED|80.0|0.19|1.11||||||Pre-lunch; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||1.11|0.19|
82609991|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.36|||||TWO_SIDED|80.0|0.03|0.68||||||Compared with Baseline (Pre-dinner)||0.68|0.03|
82609992|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|80.0|-0.08|0.67||||||Compared with Baseline (Pre-dinner)||0.67|-0.08|
82609993|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|80.0|-0.05|0.68||||||Compared with Baseline (Pre-dinner)||0.68|-0.05|
82609994|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.04|||||TWO_SIDED|80.0|-0.45|0.53||||||Pre-dinner; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.53|-0.45|
82609995|NCT01933672|164936201|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|||||TWO_SIDED|80.0|-0.55|0.51||||||Pre-dinner; Time-matched change from baseline in pre-meal C-peptide on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.51|-0.55|
82609996|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|||||TWO_SIDED|80.0|-0.75|1.07||||||Compared with Baseline （Pre-breakfast）||1.07|-0.75|
82657834|NCT00358449|165031800|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.068||||0.716|TWO_SIDED|95.0|-0.308|0.443|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.443|-0.308|0.716
82657835|NCT00358449|165031801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.691|TWO_SIDED|95.0|-0.365|0.545|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.545|-0.365|0.691
82657836|NCT00358449|165031801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.161||||0.5|TWO_SIDED|95.0|-0.639|0.317|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.317|-0.639|0.500
82609997|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46|||||TWO_SIDED|80.0|-0.58|1.51||||||Compared with Baseline (Pre-breakfast)||1.51|-0.58|
82609998|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||||TWO_SIDED|80.0|0.58|2.63||||||Compared with Baseline (Pre-breakfast)||2.63|0.58|
82609999|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.45|||||TWO_SIDED|80.0|-2.84|-0.05||||||Pre-breakfast; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||-0.05|-2.84|
82610000|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.14|||||TWO_SIDED|80.0|-2.63|0.35||||||Pre-breakfast; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.35|-2.63|
82610001|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|||||TWO_SIDED|80.0|-0.5|3.88||||||Compared with Baseline (Pre-lunch)||3.88|-0.50|
82610002|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.07|||||TWO_SIDED|80.0|1.56|6.58||||||Compared with Baseline (Pre-lunch)||6.58|1.56|
82610003|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|||||TWO_SIDED|80.0|-2.42|2.4||||||Compared with Baseline (Pre-lunch)||2.40|-2.42|
82610004|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|80.0|-1.62|5.01||||||Pre-lunch; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||5.01|-1.62|
82610005|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.08|||||TWO_SIDED|80.0|0.54|7.62||||||Pre-lunch; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||7.62|0.54|
82610006|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||||TWO_SIDED|80.0|-3.66|2.27||||||Compared with Baseline (Pre-dinner)||2.27|-3.66|
82610007|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.06|||||TWO_SIDED|80.0|1.7|8.43||||||Compared with Baseline (Pre-dinner)||8.43|1.70|
82610008|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.42|||||TWO_SIDED|80.0|-0.1|6.94||||||Compared with Baseline (Pre-dinner)||6.94|-0.10|
82610009|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.12|||||TWO_SIDED|80.0|-8.42|0.18||||||Pre-dinner; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||0.18|-8.42|
82610010|NCT01933672|164936202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|||||TWO_SIDED|80.0|-2.6|5.89||||||Pre-dinner; Time-matched change from baseline in pre-meal insulin on Day 14 was analyzed using a mixed effects model with sequence, period, treatment, the treatment by-time interaction, period-specific baseline and carryover as fixed effects. Subjects within sequences were modeled as random effects.||5.89|-2.60|
82657837|NCT00358449|165031801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.187||||0.568|TWO_SIDED|95.0|-0.474|0.849|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.849|-0.474|0.568
82657838|NCT00358449|165031801|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.076||||0.832|TWO_SIDED|95.0|-0.643|0.794|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.794|-0.643|0.832
82657839|NCT00358449|165031802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.515|TWO_SIDED|95.0|-3.45|1.76|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||1.76|-3.45|0.515
82657840|NCT00358449|165031802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9||||0.496|TWO_SIDED|95.0|-1.74|3.54|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||3.54|-1.74|0.496
82657841|NCT00358449|165031802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.05||||0.657|TWO_SIDED|95.0|-5.82|3.72|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||3.72|-5.82|0.657
82657842|NCT00358449|165031802|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.01||||0.691|TWO_SIDED|95.0|-6.11|4.09|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||4.09|-6.11|0.691
82610011|NCT01933672|164936205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|||||TWO_SIDED|80.0|0.21|1.39||||||Compared with baseline||1.39|0.21|
82610012|NCT01933672|164936205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|||||TWO_SIDED|80.0|-0.43|0.93||||||Compared with baseline||0.93|-0.43|
82610013|NCT01933672|164936205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|||||TWO_SIDED|80.0|-0.92|0.4||||||Compared with baseline||0.40|-0.92|
82610014|NCT01933672|164936205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|||||TWO_SIDED|80.0|0.17|1.95||||||||1.95|0.17|
82610015|NCT01933672|164936205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|||||TWO_SIDED|80.0|-0.45|1.47||||||||1.47|-0.45|
82610016|NCT01282814|164936214|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|115.85|||||TWO_SIDED|90.0|108.45|123.72|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||123.72|108.45|
82610017|NCT01282814|164936215|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|109.97|||||TWO_SIDED|90.0|103.68|116.63|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||116.63|103.68|
82610018|NCT01282814|164936216|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|106.46|||||TWO_SIDED|90.0|101.45|111.71|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.71|101.45|
82610019|NCT01676116|164936230|SUPERIORITY_OR_OTHER||Treatment contrast|-0.94|||<|0.001|TWO_SIDED|95.0|-1.11|-0.78|||ANCOVA|||||-0.78|-1.11|<0.001
82610020|NCT01287117|164936239|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.96||||0.001|TWO_SIDED|95.0|-4.71|-1.21||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-1.21|-4.71|0.0010
82610021|NCT01287117|164936239|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.95||||0.0012|TWO_SIDED|95.0|-4.72|-1.18||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.18|-4.72|0.0012
82610022|NCT01287117|164936239|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.8|||<|0.0001|TWO_SIDED|95.0|-7.49|-4.1||A multiplicity type I error control plan was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided).|ANCOVA|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.10|-7.49|<0.0001
82610023|NCT01287117|164936240|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.75||||0.0035|TWO_SIDED|95.0|-9.59|-1.92||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-1.92|-9.59|0.0035
82610024|NCT01287117|164936240|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.54||||0.0008|TWO_SIDED|95.0|-10.33|-2.75||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-2.75|-10.33|0.0008
82657843|NCT00358449|165031803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3||||0.142|TWO_SIDED|95.0|-0.105|0.704|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.704|-0.105|0.142
82610025|NCT01287117|164936240|SUPERIORITY_OR_OTHER||Least squares mean difference|-12.8|||<|0.0001|TWO_SIDED|95.0|-16.44|-9.16||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-9.16|-16.44|<0.0001
82610026|NCT01287117|164936241|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.75||||0.0149|TWO_SIDED|95.0|-4.95|-0.54||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||-0.54|-4.95|0.0149
82657844|NCT00358449|165031803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354||||0.115|TWO_SIDED|95.0|-0.09|0.798|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.798|-0.090|0.115
82657845|NCT00358449|165031803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182||||0.465|TWO_SIDED|95.0|-0.319|0.683|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.683|-0.319|0.465
82657846|NCT00358449|165031803|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121||||0.649|TWO_SIDED|95.0|-0.417|0.66|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.660|-0.417|0.649
82657847|NCT00358449|165031804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.37||||0.077|TWO_SIDED|95.0|-0.042|0.782|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.782|-0.042|0.077
82657848|NCT00358449|165031804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.356||||0.12|TWO_SIDED|95.0|-0.097|0.809|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.809|-0.097|0.120
82657849|NCT00358449|165031804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.345|TWO_SIDED|95.0|-0.326|0.906|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.906|-0.326|0.345
82610027|NCT01287117|164936241|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.44||||0.0017|TWO_SIDED|95.0|-5.57|-1.32||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.32|-5.57|0.0017
82610028|NCT01287117|164936241|SUPERIORITY_OR_OTHER||Least squares mean difference|-6.93|||<|0.0001|TWO_SIDED|95.0|-9.1|-4.76||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly number of hives score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-4.76|-9.10|<0.0001
82610029|NCT01287117|164936242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.39||||0.0879|TWO_SIDED|95.0|0.95|2.03||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups.||2.03|0.95|0.0879
82610030|NCT01287117|164936242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.49||||0.0301|TWO_SIDED|95.0|1.04|2.14||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||2.14|1.04|0.0301
82610031|NCT01287117|164936242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.34|||<|0.0001|TWO_SIDED|95.0|1.63|3.36||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cox proportional hazards model|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||3.36|1.63|<0.0001
82610032|NCT01287117|164936243|SUPERIORITY_OR_OTHER|||||||0.0148||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.0148
82610033|NCT01287117|164936243|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||||<0.0001
82610034|NCT01287117|164936243|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82610035|NCT01287117|164936244|SUPERIORITY_OR_OTHER|||||||0.0118||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.0118
82610036|NCT01287117|164936244|SUPERIORITY_OR_OTHER|||||||0.0226||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||||0.0226
82610037|NCT01287117|164936244|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline weekly itch severity score (\< 13 vs ≥ 13) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82610038|NCT01287117|164936245|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.34||||0.0124|TWO_SIDED|95.0|-4.17|-0.51||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||-0.51|-4.17|0.0124
82657850|NCT00358449|165031804|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128||||0.7|TWO_SIDED|95.0|-0.541|0.798|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||0.798|-0.541|0.700
82492413|NCT02100514|164677932|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-44.2|STANDARD_ERROR_OF_MEAN|2.39||||95.0|-48.8|-39.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-39.5|-48.8|
82492414|NCT02100514|164677932|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-36.2|STANDARD_ERROR_OF_MEAN|2.42|||TWO_SIDED|95.0|-40.9|-31.4||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-31.4|-40.9|
82492415|NCT02100514|164677933|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.1|STANDARD_ERROR_OF_MEAN|2.55||||95.0|-15.1|-5.1||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-5.1|-15.1|
82492416|NCT02100514|164677933|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-9.0|STANDARD_ERROR_OF_MEAN|4.5||||95.0|-17.9|-0.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-17.9|
82492417|NCT02100514|164677933|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-8.2|STANDARD_ERROR_OF_MEAN|3.04||||95.0|-14.1|-2.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-2.2|-14.1|
82492418|NCT02100514|164677934|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|4.1|STANDARD_ERROR_OF_MEAN|0.85||||95.0|2.5|5.8||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||5.8|2.5|
82492419|NCT02100514|164677934|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|3.8|STANDARD_ERROR_OF_MEAN|0.86||||95.0|2.2|5.5||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||5.5|2.2|
82492420|NCT02100514|164677934|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|4.3|STANDARD_ERROR_OF_MEAN|0.97||||95.0|2.4|6.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||6.2|2.4|
82492421|NCT02100514|164677935|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|1.1|STANDARD_ERROR_OF_MEAN|0.9||||95.0|-0.7|2.8||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.8|-0.7|
82492422|NCT02100514|164677935|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|0.9|STANDARD_ERROR_OF_MEAN|1.04||||95.0|-1.1|3.0||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.0|-1.1|
82492423|NCT02100514|164677935|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|0.8|STANDARD_ERROR_OF_MEAN|0.95||||95.0|-1.0|2.7||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||2.7|-1.0|
82492424|NCT02100514|164677936|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.1|STANDARD_ERROR_OF_MEAN|2.55||||95.0|-15.1|-5.1||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-5.1|-15.1|
82492425|NCT02100514|164677936|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-9.0|STANDARD_ERROR_OF_MEAN|4.5||||95.0|-17.9|-0.2||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-17.9|
82492426|NCT02100514|164677936|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-8.2|STANDARD_ERROR_OF_MEAN|3.04||||95.0|-14.1|-2.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-2.2|-14.1|
82492427|NCT02100514|164677937|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.8|STANDARD_ERROR_OF_MEAN|3.18||||95.0|-73.0|-60.5||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-60.5|-73.0|
82657851|NCT00358449|165031805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.79||||0.609|TWO_SIDED|95.0|-8.79|5.22|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||5.22|-8.79|0.609
82610039|NCT01287117|164936245|SUPERIORITY_OR_OTHER||Least squares mean difference|-3.16||||0.0012|TWO_SIDED|95.0|-5.05|-1.27||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||-1.27|-5.05|0.0012
82610040|NCT01287117|164936245|SUPERIORITY_OR_OTHER||Least squares mean difference|-5.73|||<|0.0001|TWO_SIDED|95.0|-7.59|-3.87||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline weekly size of largest hive score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-3.87|-7.59|<0.0001
82610041|NCT01287117|164936246|SUPERIORITY_OR_OTHER||Least squares mean difference|0.26||||0.7956|TWO_SIDED|95.0|-1.76|2.28||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||2.28|-1.76|0.7956
82610042|NCT01287117|164936246|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.31||||0.2286|TWO_SIDED|95.0|-3.46|0.84||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups.||0.84|-3.46|0.2286
82610043|NCT01287117|164936246|SUPERIORITY_OR_OTHER||Least squares mean difference|-4.08|||<|0.0001|TWO_SIDED|95.0|-5.96|-2.2||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|ANCOVA|Covariates included in the analysis were baseline overall DLQI score (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||-2.20|-5.96|<0.0001
82610044|NCT01287117|164936247|SUPERIORITY_OR_OTHER|||||||0.4867||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.4867
82610045|NCT01287117|164936247|SUPERIORITY_OR_OTHER|||||||0.1747||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.1747
82610046|NCT01287117|164936247|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Stratified Wilcoxon|Stratification variables included in the analysis were presence of angioedema at baseline (yes vs no) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82610047|NCT01287117|164936248|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 75 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.4580
82610048|NCT01287117|164936248|SUPERIORITY_OR_OTHER|||||||0.2087||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 150 mg groups. The p-value was not evaluated for statistical significance in accordance with the type I error rate control plan.||||0.2087
82657852|NCT00358449|165031805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59||||0.882|TWO_SIDED|95.0|-8.55|7.38|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||7.38|-8.55|0.882
82657853|NCT00358449|165031805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.595|TWO_SIDED|95.0|-7.68|4.47|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||4.47|-7.68|0.595
82657854|NCT00358449|165031805|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45||||0.895|TWO_SIDED|95.0|-7.34|6.44|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||6.44|-7.34|0.895
82657855|NCT00358449|165031806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.513||||0.062|TWO_SIDED|95.0|-0.028|1.055|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||1.055|-0.028|0.062
82610049|NCT01287117|164936248|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||A pre-specified hierarchical order of testing was employed to adjust for the comparison of multiple omalizumab groups to the placebo group in order to maintain an overall type I error rate of 0.05 (2-sided) within each dose.|Cochran-Mantel-Haenszel|Covariates included in the analysis were baseline UAS7 (\< median vs ≥ median) and baseline weight (\< 80 kg vs ≥ 80 kg).||The null hypothesis was that there was no difference between the placebo and the omalizumab 300 mg groups.||||<0.0001
82610050|NCT02042131|164936249|SUPERIORITY|||||||0.082|||||||Log Rank|||Omnibus test of all three groups||||.082
82610051|NCT02042131|164936249|SUPERIORITY|||||||0.028|||||||Log Rank|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||.028
82610052|NCT02042131|164936249|SUPERIORITY||Cox Proportional Hazard|0.24||||0.04|TWO_SIDED|95.0|0.06|0.96|||Regression, Cox|||Planned contrast #1: TAU vs. S-CRP/E-CRP||0.96|0.06|.040
82610053|NCT02042131|164936250|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Omnibus test comparing all three groups.||||<0.001
82610054|NCT02042131|164936250|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||<0.001
82610055|NCT02042131|164936251|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Planned contrast #1: TAU vs. S-CRP/E-CRP||||<0.001
82610056|NCT02042131|164936252|SUPERIORITY|||||||0.04|||||||Chi-squared|||Omnibus test of all groups||||0.040
82610057|NCT02042131|164936252|SUPERIORITY||Odds Ratio (OR)|0.1||||0.045|TWO_SIDED|95.0|0.002|0.9|||Chi-squared|||Planned contrast #2: E-CRP vs. TAU/S-CRP||0.9|0.002|0.045
82610058|NCT01274897|164936253|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|71.0|||||TWO_SIDED|95.0|71.0|81.0||The immune response considered sufficient if for serogroup A the lower limit of the two-sided 95% Clopper-Pearson confidence interval (CI) of the percentage of subjects with hSBA seroresponse is ≥50%.|Clopper and Pearson||For serogroup A.|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||81|71|
82610059|NCT01274897|164936253|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|82.0|||||TWO_SIDED|95.0|82.0|90.0||The immune response was considered sufficient if for serogroup C, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For the serogroup C|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||90|82|
82492428|NCT02100514|164677938|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.1|STANDARD_ERROR_OF_MEAN|5.4||||95.0|-76.7|-55.4||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction and geographical region. An unstructured variance covariance matrix was used.||-55.4|-76.7|
82610060|NCT01274897|164936253|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|23.0|||||TWO_SIDED|95.0|23.0|33.0||The immune response was considered sufficient if for serogroup W, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For the serogroup W|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||33|23|
82610061|NCT01274897|164936253|SUPERIORITY_OR_OTHER||Lower limit of the two-sided 95% CI|63.0|||||TWO_SIDED|95.0|63.0|74.0||The immune response was considered sufficient if for serogroup Y, the lower limit of the two-sided 95% CI of the percentage of subjects with hSBA seroresponse was ≥50%.|Clopper and Pearson||For serogroup Y|The null hypothesis associated with the primary immunogenicity objective is that for at least one of the four serogroups, the percentage of subjects with hSBA seroresponse at 29 days postvaccination is \< 50%.||74|63|
82610062|NCT05635838|164936257|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.506||0.0215|TWO_SIDED|95.0|-2.21|-0.18|||ANCOVA|||||-0.18|-2.21|0.0215
82492429|NCT02100514|164677939|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-66.5|STANDARD_ERROR_OF_MEAN|2.77||||95.0|-72.0|-61.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-61.1|-72.0|
82610063|NCT05635838|164936259|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-0.68|STANDARD_ERROR_OF_MEAN|0.485||0.1671|TWO_SIDED|95.0|-1.65|0.29|||ANCOVA|||||0.29|-1.65|0.1671
82610064|NCT05635838|164936260|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|0.19|STANDARD_ERROR_OF_MEAN|0.728||0.7982|TWO_SIDED|95.0|-1.27|1.64|||ANCOVA|||||1.64|-1.27|0.7982
82492430|NCT02100514|164677940|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-69.1|STANDARD_ERROR_OF_MEAN|3.08||||95.0|-75.2|-63.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-63.1|-75.2|
82610065|NCT05635838|164936261|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|0.94|STANDARD_ERROR_OF_MEAN|0.73||0.2031|TWO_SIDED|95.0|-0.52|2.4|||ANCOVA|||||2.40|-0.52|0.2031
82610066|NCT05635838|164936263|SUPERIORITY|Response Variable = Treatment + Baseline AN Count Category (≥3 to 4, ≥5 to 10) + Visit + Treatment\*Visit|least squares mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.683||0.2387|TWO_SIDED|95.0|-2.2|0.56|||ANCOVA|||||0.56|-2.20|0.2387
82610067|NCT02031146|164936271|OTHER|||||||0.29|||||||Two sample test of proportion in Stata|||||||0.29
82610068|NCT02031146|164936272|OTHER|||||||0.69|||||||Log Rank|||||||0.69
82610069|NCT02031146|164936273|OTHER|||||||0.04|||||||Log Rank|||||||0.04
82610070|NCT05165394|164936274|SUPERIORITY||Least-Squares Mean Treatment Difference|-3.9|STANDARD_ERROR_OF_MEAN|3.5||0.8663|ONE_SIDED|90.0|-8.4|||Significance level = 0.1|ANCOVA||Confidence interval and p-value are one-sided for test of null hypothesis that the LS mean difference between NBI-1065846 and placebo in DARS total score at Day 57 is greater than or equal to zero.||||-8.4|0.8663
82610071|NCT05165394|164936275|SUPERIORITY||Least-Squares Mean Treatment Difference|-1.1|STANDARD_ERROR_OF_MEAN|3.0||0.7008|TWO_SIDED|95.0|-7.1|4.8|||ANCOVA||NBI-1065846 - Placebo|||4.8|-7.1|0.7008
82610072|NCT05165394|164936276|SUPERIORITY|||||||0.9051|||||||Cochran-Mantel-Haenszel Chi-square test|||CGI-S scores at Day 57 for NBI-1065846 compared to placebo.||||0.9051
82610073|NCT01582282|164936290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.64||||0.028|||||||ANCOVA|||||||0.028
82610074|NCT01582282|164936290|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|40.72||||0.009|||||||ANCOVA|||||||0.009
82610075|NCT01582282|164936291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53||||0.013|||||||ANCOVA|||||||0.013
82610076|NCT01582282|164936291|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.65||||0.003|||||||ANCOVA|||||||0.003
82610077|NCT01582282|164936292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.48||||0.808|||||||ANCOVA|||||||0.808
82610078|NCT01582282|164936292|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.328|||||||ANCOVA|||||||0.328
82610079|NCT01582282|164936293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.1||||0.508|||||||ANCOVA|||||||0.508
82610080|NCT01582282|164936293|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.43||||0.962|||||||ANCOVA|||||||0.962
82657856|NCT00358449|165031806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241||||0.425|TWO_SIDED|95.0|-0.369|0.852|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||0.852|-0.369|0.425
82610081|NCT01582282|164936294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.84||||0.363|||||||ANCOVA|||||||0.363
82610082|NCT01582282|164936294|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.978|||||||ANCOVA|||||||0.978
82610083|NCT01582282|164936295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.14||||0.785|||||||ANCOVA|||||||0.785
82610084|NCT01582282|164936295|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.45||||0.811|||||||ANCOVA|||||||0.811
82610085|NCT00492622|164936296|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.|||||<|0.01||||||\<0.01 is used for determining the level of significance.|paired t-tests|||||||< 0.01
82610086|NCT00492622|164936297|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.|||||||||||||||||P\<0.05 was used as the level of significance with ANOVA for this endpoint.|||
82610087|NCT00492622|164936298|EQUIVALENCE|Primary study objective was to compare the pharmacokinetics of omeprazole between IR and DR omeprazole in patients with GERD associated with gastroparesis.||||||0.95||||||An analysis of variance model was used to compare AUC between IR and DR omeprazole using the natural logarithmic transformation. The model included the following factors: treatment, period, sequence and patient nested within the sequence.|ANOVA|||||||0.95
82610088|NCT02839746|164936315|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline convenience with that of Visit 2.||||<0.0001
82610089|NCT02839746|164936315|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline satisfaction with that of Visit 2.||||<0.0001
82610090|NCT02839746|164936316|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of Baseline convenience with that of Visit 3.||||<0.0001
82610091|NCT02839746|164936316|OTHER|Within group comparison of Baseline satisfaction with that of Visit 3.|||||<|0.0001|||||||non-parametric Wilcoxon signed-rank]|||||||<0.0001
82610092|NCT02839746|164936317|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of visit 2 convenience with that of Visit 3.||||<0.0001
82610093|NCT02839746|164936317|OTHER||||||<|0.0001|||||||non-parametric Wilcoxon signed-rank|||Within group comparison of visit 2 satisfaction with that of Visit 3.||||<0.0001
82610094|NCT02767570|164936334|SUPERIORITY||Mean Difference (Net)|-1.2||||0.001|TWO_SIDED|95.0|-1.9|-0.5||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|For the primary hypothesis that there would be a greater reduction in pain for the altered compared to the consistent FPA group, an effect size of 0.57 was assumed. To achieve 80% power with an alpha of 0.05, 39 participants per group were needed, so our recruitment goal was 40 subjects per group.||-0.5|-1.9|0.001
82610095|NCT02767570|164936335|SUPERIORITY||Mean Difference (Net)|-0.26|||<|0.001|TWO_SIDED|95.0|-0.39|-0.13||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||-0.13|-0.39|<0.001
82610096|NCT02767570|164936336|SUPERIORITY||Mean Difference (Net)|-3.74||||0.006|TWO_SIDED|95.0|-6.42|-1.05||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||-1.05|-6.42|0.006
82610097|NCT02767570|164936337|SUPERIORITY||Mean Difference (Net)|-0.06||||0.93|TWO_SIDED|95.0|-1.42|1.3||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||1.30|-1.42|0.93
82610098|NCT02767570|164936338|SUPERIORITY||Mean Difference (Net)|-0.29||||0.85|TWO_SIDED|95.0|-3.38|2.8||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||2.80|-3.38|0.85
82610099|NCT02767570|164936339|SUPERIORITY||Mean Difference (Net)|0.0||||0.99|TWO_SIDED|95.0|-0.89|0.9||The threshold for statistical significance was p=0.05.|Regression, Linear||Difference = Altered FPA - Consistent FPA|||0.90|-0.89|0.99
82610100|NCT04426630|164936340|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||Heart failure patients in Uganda were enrolled in an mHealth program at the Uganda Heart Institute. The program intended to promote self-care for heart failure and improve patient healthcare quality of life.||||<0.001
82610101|NCT04426630|164936341|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
82610102|NCT04426630|164936342|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
82610103|NCT04426630|164936343|SUPERIORITY|||||||0.028|||||||Chi-squared|Wilcoxon sign-rank test used to compared baseline outcomes to 6 month outcomes.||Heart failure patients in Uganda were enrolled in an mHealth program at the Uganda Heart Institute. The program intended to promote self-care for heart failure and improve patient healthcare quality of life.||||0.028
82610104|NCT04426630|164936344|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82610105|NCT04426630|164936345|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82610106|NCT04426630|164936346|SUPERIORITY|||||||0.23|||||||Chi-squared|||||||0.23
82492431|NCT02100514|164677941|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-71.3|STANDARD_ERROR_OF_MEAN|3.14||||95.0|-77.5|-65.1||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-65.1|-77.5|
82657857|NCT00358449|165031806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.082|TWO_SIDED|95.0|-0.096|1.516|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.516|-0.096|0.082
82657858|NCT00358449|165031806|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25||||0.564|TWO_SIDED|95.0|-0.631|1.132|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||1.132|-0.631|0.564
82610107|NCT04426630|164936347|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82610108|NCT04426630|164936348|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
82610109|NCT04426630|164936349|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||<0.001
82610110|NCT04426630|164936350|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Wilcoxon signed rank test||||||0.07
82610111|NCT04426630|164936351|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<0.001
82610112|NCT02786537|164936359|SUPERIORITY|Superiority test derived by comparing whether the 95% CI includes zero.|Mean Difference (Net)|-1.7|||||TWO_SIDED|95.0|-3.6|0.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|PROD vs. SOF/LDV based regimens as reported in PRO (ALL PATIENTS WHO STARTED TREATMENT BY ARM AS TREATED), population limited to as randomization date of the last PrOD patient start date - RBV FREE REGIMENS||0.3|-3.6|
82610113|NCT02786537|164936359|SUPERIORITY||Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-0.4|3.1|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method. CI for median derived from PROC QUANTREG.|RBV free EBR/GZR regimen compared to PrOD in consideration that RBV usage was determined by provider and not study randomization.||3.1|-0.4|
82610114|NCT02786537|164936360|SUPERIORITY|Superiority test completed by comparing whether the 95% CI includes zero.|Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-0.6|1.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|Analysis based on RBV free EBR/GZR regimen vs SOF/LDV (all patients who started treatment by arm as treated)||1.0|-0.6|
82610115|NCT02786537|164936362|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|0.0|1.0|||||The comparisons between regimens can be viewed as superiority test, by comparing whether the 95% CI includes zero|Analysis of EBR/GZR vs. SOF/LDV irrespective of RBV usage in consideration that RBV usage was determined by provider and not study randomization.||1.0|0.0|
82610116|NCT02786537|164936363|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-4.2|7.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis based on RBV free SOF/LDV vs. PrOD in consideration that RBV usage was determined by provider and not study randomization and limited RBV sample size.||7.0|-4.2|
82610117|NCT02786537|164936363|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero.|Mean Difference (Net)|1.4|||||TWO_SIDED|95.0|-4.2|7.0|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free PrOD vs. SOF/LDV regimens (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date)||7.0|-4.2|
82610118|NCT02786537|164936364|SUPERIORITY|Superiority test comparison based on whether the 95% CI includes zero|Mean Difference (Net)|-0.2|||||TWO_SIDED|95.0|-1.6|1.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free EBR/GZR vs. SOF/LDV (all patients who started treatment by arm as treated)||1.3|-1.6|
82610119|NCT02786537|164936367|SUPERIORITY|Superiority test based on whether the 95% CI includes zero|Mean Difference (Net)|1.8|||||TWO_SIDED|95.0|-1.9|5.5|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free EBR/GZR vs. PrOD regimens as reported in PRO (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date). Analysis limited to RBV free regimen in consideration RBV usage determined by provider and not study randomization.||5.5|-1.9|
82610120|NCT02786537|164936367|SUPERIORITY|Superiority test based on whether the 95% CI includes zero|Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-4.6|2.7|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|RBV free SOF/LDV vs. PrOD regimens as reported in PRO (all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date)||2.7|-4.6|
82610121|NCT02786537|164936368|SUPERIORITY|Superiority test comparison based on presence of zero in 95% CI.|Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-1.4|1.6|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis limited to RBV free regimens in consideration that RBV usage determined by provider and not study randomization. All patients who started treatment by arm as treated.||1.6|-1.4|
82610122|NCT02786537|164936371|SUPERIORITY|Superiority test determined by comparing presence of zero in CI.|Mean Difference (Net)|-4.3|||||TWO_SIDED|95.0|-9.9|1.3|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method|Analysis based on RBV free regimens -all patients who started treatment by arm as treated, population is limited to as randomization date of the last PrOD patient start date.||1.3|-9.9|
82610123|NCT02786537|164936371|SUPERIORITY|Superiority comparison by viewing presence of zero in CI.|Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-3.4|9.4||||||RBV free regimens as reported in PRO (all patients who started treatment by arm as treated, population limited to as randomization date of the last PrOD patient start date)||9.4|-3.4|
82610124|NCT02786537|164936373|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-3.6|2.1|||||CI for mean derived from PROC TTEST, difference in mean and its 95%CI was calculated by Satterthwaite method.|Analysis based on RBV free regimens in consideration that RBV usage was determined by provider and not study randomization. Population includes patients who started treatment by arm as treated.||2.1|-3.6|
82657859|NCT00358449|165031807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45||||0.27|TWO_SIDED|95.0|-7.77|26.67|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 9-12.|||26.67|-7.77|0.270
82610125|NCT02786537|164936382|EQUIVALENCE|Pre-specified equivalence range +/-5%|Mean Difference (Net)|-2.3|||||TWO_SIDED|95.0|-15.3|11.3||||||||11.3|-15.3|
82610126|NCT01330381|164936383|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9002|||||||Cochran-Mantel-Haenszel|||||||0.9002
82610127|NCT01330381|164936384|SUPERIORITY_OR_OTHER_LEGACY|||||||0.352|||||||Cochran-Mantel-Haenszel|||||||0.3520
82610128|NCT01330381|164936385|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5228|||||||Cochran-Mantel-Haenszel|||||||0.5228
82610129|NCT01330381|164936394|SUPERIORITY_OR_OTHER_LEGACY|||||||0.377|||||||Chi-squared|||||||0.377
82610130|NCT01330381|164936397|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1599|||||||Van Elteren test|||||||0.1599
82610131|NCT01330381|164936398|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003|||||||Van Elteren test|||||||0.0003
82610132|NCT01330381|164936399|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4647|||||||Van Elteren test|||||||0.4647
82610133|NCT01330381|164936400|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Van Elteren test|||||||<0.0001
82610134|NCT01330381|164936401|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3044|||||||Van Elteren test|||||||0.3044
82610135|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|16.0|||||TWO_SIDED|95.0|5.0|29.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup A of two doses of MenABCWY combination vaccine to that of one dose of MenACWY vaccine.||29|5|
82610136|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between MenABCWY and MenACWY groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|32.0|||||TWO_SIDED|95.0|21.0|44.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup C of two doses of ABCWY+OMV combination vaccine to that of one dose of MenACWY vaccine.||44|21|
82610137|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|15.0|||||TWO_SIDED|95.0|0.0|30.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup W-135 of two doses of ABCWY+OMV combination vaccine to that of one dose of MenACWY vaccine.||30|0|
82610138|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of ABCWY+OMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+OMV - ACWY)|18.0|||||TWO_SIDED|95.0|5.0|31.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup Y of two doses MenABCWY combination vaccine to that of one dose of MenACWY vaccine.||31|5|
82610139|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of ACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|18.0|||||TWO_SIDED|95.0|7.0|30.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup A of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||30|7|
82610140|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|30.0|||||TWO_SIDED|95.0|18.0|42.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup C of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||42|18|
82610141|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days after the last vaccination.|Group Difference % (ABCWY+qOMV - ACWY)|19.0|||||TWO_SIDED|95.0|4.0|33.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup W-135 of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||33|4|
82610142|NCT01272180|164936402|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The immune response of MenABCWY+qOMV group was considered to be non-inferior to that of MenACWY group if the lower limit of the two-sided 95% confidence interval on the difference between groups in percentage of subjects with seroresponse is greater than -10% for each of A, C, W-135and Y serogroups, at 30 days.|Group Difference % (ABCWY+qOMV - ACWY)|15.0|||||TWO_SIDED|95.0|3.0|29.0||||||Non-inferiority of seroresponse against N.meningitidis serogroup Y of two doses of MenABCWY+qOMV combination vaccine to that of one dose of MenACWY vaccine.||29|3|
82610143|NCT01873950|164936431|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
82610144|NCT01873950|164936432|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
82657860|NCT00358449|165031807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.12||||0.664|TWO_SIDED|95.0|-15.11|23.36|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||23.36|-15.11|0.664
82657861|NCT00358449|165031807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.57||||0.381|TWO_SIDED|95.0|-13.81|34.94|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||34.94|-13.81|0.381
82610145|NCT01873950|164936433|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||For each ECG biomarker and treatment, the null hypothesis is that there is no difference in the biomarker change from baseline between the treatment and placebo.|Mixed Models Analysis|For each ECG biomarker and treatment, the placebo-corrected change from baseline was computed using linear mixed effect model.||||||<0.05
82610146|NCT01221233|164936490|SUPERIORITY||Median Difference (Final Values)|17.6||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||1.000
82610147|NCT00196937|164936519|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference \[Cervarix (15-25 years) Group minus Cervarix (26-45 years) Group\] was below 10%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.97|2.29||||||Immune response to anti-HPV-16 in terms of SCR: To evaluate if the immunogenicity (as determined by ELISA) of the Cervarix vaccine, one month after the third dose (Month 7), in young women 26 - 45 years of age is non-inferior to that in women 15 - 25 years of age.||2.29|-1.97|
82610148|NCT00196937|164936519|NON_INFERIORITY|Non-inferiority with respect to seroconversion was shown if, for both anti-HPV-16 and anti-HPV-18 antibodies, the upper limit of the 95% confidence interval (CI) for the difference \[Cervarix (15-25 years) Group minus Cervarix (26-45 years) Group\] was below 10%.|Difference in SCR|0.0|||||TWO_SIDED|95.0|-1.87|2.03||||||Immune response to anti-HPV-18 in terms of SCR: To evaluate if the immunogenicity (as determined by ELISA) of the Cervarix vaccine, one month after the third dose (Month 7), in young women 26 - 45 years of age is non-inferior to that in women 15 - 25 years of age.||2.03|-1.87|
82610149|NCT03368404|164936541|NON_INFERIORITY|A sample size of 33 evaluable patients per treatment group was calculated to provide at least 90% power to demonstrate non-inferiority of CBL-102 to Vismed Multi. Assumptions included a non-inferiority margin of 2 grades and a standard deviation of 2.5|Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.4|||TWO_SIDED|95.0|-1.34|0.13|||||Treatment difference : CBL-102 - Vismed Multi|||0.13|-1.34|
82610150|NCT03368404|164936542|SUPERIORITY|||||||0.0592||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||0.0592
82610151|NCT03368404|164936543|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
82610152|NCT03368404|164936544|SUPERIORITY||||||>|0.05||||||Significance level 0.05|ANCOVA|Adjustment for baseline||||||>0.05
82610153|NCT03368404|164936545|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
82610154|NCT03368404|164936546|SUPERIORITY|||||||0.0176||||||Significance level 0.05|ANCOVA|||Change from Baseline in Global Sum Score of Dry Eye Symptoms at Day 28 (Visit 4)||||0.0176
82657862|NCT00358449|165031807|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49||||0.672|TWO_SIDED|95.0|-20.87|31.86|||ANCOVA||P-value, 95% CI, and estimated value are presented for Weeks 21-24.|||31.86|-20.87|0.672
82610155|NCT03368404|164936546|SUPERIORITY|||||||0.001||||||Significance level 0.05|ANCOVA|Adjustment to baseline||Change from Baseline in Global Sum Score of Dry Eye Symptoms at Day 90 (Visit 5)||||0.0010
82610156|NCT03368404|164936547|SUPERIORITY|||||||0.0251||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) dimension:~Daily Activities"||||0.0251
82610157|NCT03368404|164936547|SUPERIORITY|||||||0.0015||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) dimension:~Difficulties with work and handicap"||||0.0015
82610158|NCT03368404|164936547|SUPERIORITY|||||||0.2024||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Giving up makeup"||||0.2024
82610159|NCT03368404|164936547|SUPERIORITY|||||||0.0421||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Acknowledgement of the Disease"||||0.0421
82610160|NCT03368404|164936547|SUPERIORITY|||||||0.3945||||||Significance level 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Acceptance of the disease"||||0.3945
82610161|NCT03368404|164936547|SUPERIORITY|||||||0.0536||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Fear for the Future"||||0.0536
82610162|NCT03368404|164936547|SUPERIORITY|||||||0.1998||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality if Life (OSD-QoL®) dimension:~Emotional well-being"||||0.1998
82610163|NCT03368404|164936547|SUPERIORITY|||||||0.0306||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||"Ocular Surface Disease-Quality of Life (OSD-QoL®) questions:~Global Question"||||0.0306
82610164|NCT03368404|164936548|SUPERIORITY||||||>|0.05||||||Significance level of 0.05|ANCOVA|Adjustment for baseline||||||>0.05
82610165|NCT03368404|164936549|SUPERIORITY||||||>|0.05||||||Significance level 0.05|ANCOVA|Adjustment for baseline||||||>0.05
82610166|NCT03368404|164936550|SUPERIORITY|||||||0.0017||||||Significance level of 0.05|Wilcoxon (Mann-Whitney)|||||||0.0017
82610167|NCT02973815|164936567|OTHER||Mean Difference (Final Values)|-0.062|STANDARD_ERROR_OF_MEAN|0.065||0.342|TWO_SIDED|95.0|-0.194|0.067|||Regression, Linear|||This was adjusted for the baseline BMI-Z score, child sex, baseline child age, and economic assistance||0.067|-0.194|0.342
82610168|NCT02973815|164936568|OTHER||Mean Difference (Net)|1.25|STANDARD_ERROR_OF_MEAN|0.73104||0.09|TWO_SIDED|95.0|-0.2|2.71|||Regression, Linear|||Adjusted for: baseline HFI Fruit value, and economic assistance status||2.71|-0.20|0.09
82610169|NCT02973815|164936569|OTHER||Mean Difference (Net)|1.23|STANDARD_ERROR_OF_MEAN|0.61||0.047|TWO_SIDED|95.0|0.02|2.44|||Regression, Linear|||Adjusted for: baseline HFI Vegetable value, and economic assistance status||2.44|0.02|0.047
82610170|NCT02973815|164936570|OTHER||Mean Difference (Net)|0.48|STANDARD_ERROR_OF_MEAN|0.2||0.019|TWO_SIDED|95.0|0.08|0.88|||Regression, Linear|||Adjusted for: baseline healthfulness score and economic assistance status||0.88|0.08|0.019
82610171|NCT02973815|164936571|OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.12||0.218|TWO_SIDED|95.0|-0.4|0.09|||Regression, Linear|||Adjusted for: baseline vegetable intake, child age (baseline), parent education status (bachelors or higher vs lower)||0.09|-0.4|0.218
82610172|NCT02973815|164936572|OTHER||Mean Difference (Net)|0.37|STANDARD_ERROR_OF_MEAN|0.2||0.066|TWO_SIDED|95.0|-0.03|0.77|||Regression, Linear|||Adjusted for: baseline fruit intake, child age (baseline), parent education status (bachelors or higher vs lower)||0.77|-0.03|0.066
82657863|NCT00358449|165031808|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||Cochran-Mantel-Haenszel|||||||0.400
82657864|NCT00358449|165031808|SUPERIORITY_OR_OTHER|||||||0.111||95.0|||||Cochran-Mantel-Haenszel|||||||0.111
82610173|NCT02973815|164936573|OTHER||Mean Difference (Net)|-4.79|STANDARD_ERROR_OF_MEAN|4.41||0.28|TWO_SIDED|95.0|-13.56|3.98|||Regression, Linear|||Adjusted for: baseline MVPA, child age (baseline), and child sex||3.98|-13.56|0.28
82610174|NCT02973815|164936574|OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.17||0.928|TWO_SIDED|95.0|-0.31|0.34|||Regression, Linear|||Adjusted for: baseline screentime, child age (baseline), and child sex||0.34|-0.31|0.928
82610175|NCT03037905|164936588|SUPERIORITY||Mean Difference (Final Values)|-6.7||||0.2|TWO_SIDED|95.0|-17.1|3.7|||Mixed Models Analysis|||||3.7|-17.1|0.20
82610176|NCT03037905|164936589|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.6|TWO_SIDED|95.0|-5.9|10.3|||Mixed Models Analysis|||||10.3|-5.9|0.60
82610177|NCT03037905|164936590|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.76|TWO_SIDED|95.0|-7.0|5.1|||Mixed Models Analysis|||||5.1|-7.0|.76
82610178|NCT03037905|164936591|SUPERIORITY|||||||0.83|||||||Wilcoxon (Mann-Whitney)|||||||.83
82610179|NCT01524289|164936616|SUPERIORITY||Difference in Least Squares (LS) Means|-39.7|||<|0.001|TWO_SIDED|95.0|-45.7|-33.7|||Constrained Longitudinal Data Analysis|Between group comparison of percent change from baseline performed using Constrained Longitudinal Data Analysis (cLDA) model.||||-33.7|-45.7|<0.001
82610180|NCT01524289|164936617|OTHER|Pre-specified|Difference in Percentages|-2.1|||||TWO_SIDED|95.0|-11.5|8.4|||||||Miettinen and Nurminen|8.4|-11.5|
82610181|NCT01524289|164936618|OTHER|Pre-specified|Difference in Percentages|4.5|||||TWO_SIDED|95.0|-4.8|12.6|||||||Miettinen and Nurminen|12.6|-4.8|
82610182|NCT01524289|164936619|OTHER|Pre-specified|Difference in Percentages|-0.9|||||TWO_SIDED|95.0|-8.9|5.6|||||||Miettinen \& Nurminen|5.6|-8.9|
82610183|NCT01524289|164936620|OTHER|Pre-specified|Difference in Percentages|1.0|||||TWO_SIDED|95.0|-5.5|6.1|||||||Miettinen and Nurminen|6.1|-5.5|
82610184|NCT01524289|164936621|OTHER|Pre-Specified|Difference in Percentages|-8.4||||0.168|TWO_SIDED|95.0|-20.1|3.5|||Miettinen and Nurminen|||||3.5|-20.1|0.168
82610185|NCT01524289|164936622|OTHER|Pre-specified|Difference in Percentages|-7.4||||0.179|TWO_SIDED|95.0|-18.7|3.3|||Miettinen and Nurminen|||||3.3|-18.7|0.179
82610186|NCT01524289|164936623|OTHER|Pre-specified|Difference in Percentages|-13.9||||0.011|TWO_SIDED|95.0|-25.0|-3.1|||Miettinen and Nurminen|||||-3.1|-25.0|0.011
82610187|NCT01524289|164936624|OTHER|Pre-specified|Difference in Percentages|1.5||||0.696|TWO_SIDED|95.0|-6.8|8.4|||Miettinen and Nurminen|||||8.4|-6.8|0.696
82610188|NCT01524289|164936625|OTHER|Pre-specified|Difference in Percentages|0.5||||0.48|TWO_SIDED|95.0|-3.2|2.8|||Miettinen and Nurminen|||||2.8|-3.2|0.480
82610189|NCT01524289|164936626|OTHER|Pre-specified|Difference in Percentages|0.5||||0.722|TWO_SIDED|95.0|-4.0|3.5|||Miettinen and Nurminen|||||3.5|-4.0|0.722
82492432|NCT02100514|164677942|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-47.7|STANDARD_ERROR_OF_MEAN|2.12||||95.0|-51.9|-43.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-43.6|-51.9|
82610190|NCT01524289|164936627|OTHER|Pre-specified|Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-3.7|1.9|||Miettinen and Nurminen|||||1.9|-3.7|>0.999
82610191|NCT01524289|164936628|OTHER|Pre-specified|Difference in Percentages|0.5||||0.722|TWO_SIDED|95.0|-4.0|3.5|||Miettinen and Nurminen|||||3.5|-4.0|0.722
82610192|NCT01524289|164936629|OTHER|Pre-specified|Difference in Percentages|-1.0||||0.157|TWO_SIDED|95.0|-5.4|0.9|||Miettinen and Nurminen|||||0.9|-5.4|0.157
82610193|NCT01524289|164936630|OTHER|Pre-specified|Difference in Percentages|-1.0||||0.157|TWO_SIDED|95.0|-5.4|0.9|||Miettinen and Nurminen|||||0.9|-5.4|0.157
82610194|NCT01524289|164936631|OTHER|Pre-specified|Difference in Percentages|1.5||||0.218|TWO_SIDED|95.0|-2.2|4.3|||Miettinen and Nurminen|||||4.3|-2.2|0.218
82610195|NCT01524289|164936632|OTHER|Pre-specified|Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-3.6|1.9|||Miettinen and Nurminen|||||1.9|-3.6|>0.999
82610196|NCT01524289|164936633|SUPERIORITY||Difference in Least Squares (LS) Means|102.1|||<|0.001|TWO_SIDED|95.0|94.2|110.1|||Constrained Longitudinal Data Analysis|||||110.1|94.2|<0.001
82610197|NCT01524289|164936634|SUPERIORITY||Difference in LS Means|-36.4|||<|0.001|TWO_SIDED|95.0|-41.7|-31.1|||Constrained Longitudinal Data Analysis|||||-31.1|-41.7|<0.001
82610198|NCT01524289|164936635|SUPERIORITY||Difference in LS Means|-24.8|||<|0.001|TWO_SIDED|95.0|-29.5|-20.1|||Constrained Longitudinal Data Analysis|||||-20.1|-29.5|<0.001
82610199|NCT01524289|164936636|SUPERIORITY||Difference in LS Means|32.9|||<|0.001|TWO_SIDED|95.0|28.2|37.6|||Constrained Longitudinal Data Analysis|||||37.6|28.2|<0.001
82610200|NCT01524289|164936637|SUPERIORITY||Median Difference (Final Values)|-27.9|||<|0.001|TWO_SIDED|95.0|-34.7|-21.2|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate of the median difference between treatments with a corresponding distribution-free confidence interval (CI) based on Wilcoxon's rank sum test.|||-21.2|-34.7|<0.001
82610201|NCT02104180|164936638|NON_INFERIORITY|An estimate of the difference between the pain felt by patient during the two dressings removals along with a 95% confidence interval (CI) has been derived. If the upper limit of the confidence interval was less than 13 mm, clinical non-inferiority of Tulle Gras versus Urgotul has been demonstrated.|Mean Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-1.339|1.864|||||The pain intensity has been analyzed using analysis of variance (ANOVA). The model for this cross-over study included sequence, period and treatment as fixed effects and subject within sequence as random effect.|||1.864|-1.339|
82610202|NCT02218203|164936661|OTHER|We report the interaction between the lidocaine dose response and dextromethorphan dose response. The type of statistical test was a linear regression model with Chi-square test.|Lidocaine dose*dextromethorphan dose|0.0042|STANDARD_ERROR_OF_MEAN|0.002||0.0322|TWO_SIDED|95.0|0.0004|0.0081|||Pearson's Chi-squared test||The estimated value is an estimated interaction term, and not a P-value.|We performed a lidocaine dose response clinical trial nested within a dextromethorphan clinical trial to evaluate a potential interaction between lidocaine dose and dextromethorphan dose (pain intensity; Gracely scale).||0.0081|0.0004|0.0322
82610203|NCT03425656|164936668|NON_INFERIORITY|We used a non-inferiority margin of 0.25 for the primary endpoint.|Mean Difference (Net)|-0.03||||0.73|TWO_SIDED|95.0|-0.23|0.16|||Chi-squared|||||0.16|-0.23|0.73
82610204|NCT03425656|164936669|OTHER|||||||0.72|||||||Fisher Exact|||||||0.72
82610205|NCT03425656|164936670|OTHER||Chi-squared|0.42||||0.42|TWO_SIDED||||||Chi-squared|||||||0.42
82610206|NCT03425656|164936671|NON_INFERIORITY|We used a non-inferiority margin of 0.25 for the primary endpoint.||||||0.59|||||||Chi-squared|||||||0.59
82610207|NCT01821677|164936673|SUPERIORITY|||||||0.16|||||||ANCOVA|||||||0.16
82610208|NCT01821677|164936673|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
82610209|NCT01821677|164936673|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
82610210|NCT01821677|164936674|SUPERIORITY|||||||0.42|||||||ANCOVA|||||||0.42
82610211|NCT01821677|164936674|SUPERIORITY|||||||0.28|||||||ANCOVA|||||||0.28
82610212|NCT01821677|164936674|SUPERIORITY|||||||0.14|||||||ANCOVA|||||||0.14
82610213|NCT03461965|164936675|OTHER|p-value \< 0.05 was considered statistically significant||||||0.007|||||||t-test, 2 sided|||Comparing total responses that were correct across all participants in both arms||||0.007
82610214|NCT03461965|164936676|OTHER|p-value \< 0.05 was considered statistically significant||||||0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||0.0001
82610215|NCT03461965|164936676|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.03|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.03
82610216|NCT03461965|164936676|OTHER|p-value \< 0.05 was considered statistically significant||||||0.352|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.352
82657865|NCT00358449|165031809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.3||||0.421|TWO_SIDED|95.0|-71.1|34.4|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 12|||34.4|-71.1|0.421
82657866|NCT00358449|165031809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.633|TWO_SIDED|95.0|-44.6|40.5|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 12|||40.5|-44.6|0.633
82657867|NCT00358449|165031809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3||||0.92|TWO_SIDED|95.0|-76.3|45.7|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 24|||45.7|-76.3|0.920
82657868|NCT00358449|165031809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-33.8||||0.105|TWO_SIDED|95.0|-79.2|11.6|||van Elteren test||P-value, 95% CI, and Estimated value are presented for Change from Baseline at Week 24|||11.6|-79.2|0.105
82610217|NCT03461965|164936677|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
82610218|NCT03461965|164936677|OTHER|p-value \< 0.05 was considered statistically significant||||||0.04|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||0.04
82610219|NCT03461965|164936677|OTHER|p-value \< 0.05 was considered statistically significant||||||0.052|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.052
82610220|NCT03461965|164936678|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
82610221|NCT03461965|164936678|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.0001|||||||t-test, 2 sided|||Difference of pre (baseline) and post-test scores within each treatment group||||<0.0001
82610222|NCT03461965|164936678|OTHER|p-value \< 0.05 was considered statistically significant||||||0.208|||||||t-test, 2 sided|paired t-test||Comparing change in scores (post-stage minus baseline) between experimental and control groups||||0.208
82610223|NCT03461965|164936679|OTHER|p-value \< 0.05 was considered statistically significant|||||<|0.03|||||||Chi-squared|||||||<0.03
82610224|NCT02680301|164936682|EQUIVALENCE|Wilcoxon sign- rank test values with ranks from change in cream efficacy ratings minus change in ointment efficacy ratings.||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82610225|NCT02209597|164936688|SUPERIORITY||||||<|0.05|ONE_SIDED|90.0|||||ANOVA|||||||<0.05
82610226|NCT01855789|164936691|NON_INFERIORITY|Non-inferiority of TCZ + PBO was claimed if the upper bound of the 95% confidence interval (CI) for the mean difference was below 0.6.|Estimated Mean Difference|0.318|STANDARD_ERROR_OF_MEAN|0.139|||TWO_SIDED|95.0|0.045|0.592||||||Analysis of covariance (ANCOVA) model included Week 24 DAS28 as a covariate, treatment group, and the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>/=2.6 to \</=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>/=100 kg qw), participant anti-tumor necrosis factor (anti-TNF) exposure (Yes/No).||0.592|0.045|
82610227|NCT01855789|164936692|SUPERIORITY||ACR 20 Response Rate Difference|-10.2||||0.0746|TWO_SIDED|95.0|-20.2|-0.2|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-0.2|-20.2|0.0746
82610228|NCT01855789|164936692|SUPERIORITY||ACR 20 Response Rate Difference|-8.8||||0.1159|TWO_SIDED|95.0|-19.3|1.6|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||1.6|-19.3|0.1159
82610229|NCT01855789|164936692|SUPERIORITY||ACR 20 Response Rate Difference|-8.2|||||TWO_SIDED|95.0|-15.8|-0.6|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||-0.6|-15.8|
82657869|NCT00358449|165031810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.63||||0.747|TWO_SIDED|95.0|-20.68|15.41|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 12|||15.41|-20.68|0.747
82657870|NCT00358449|165031810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.352|TWO_SIDED|95.0|-24.41|11.01|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 12|||11.01|-24.41|0.352
82657871|NCT00358449|165031810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.25||||0.525|TWO_SIDED|95.0|-29.69|11.2|||van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline values at Week 24|||11.20|-29.69|0.525
82610230|NCT01855789|164936693|SUPERIORITY||ACR 50 Response Rate Difference|-13.6||||0.0377|TWO_SIDED|95.0|-24.8|-2.4|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-2.4|-24.8|0.0377
82610231|NCT01855789|164936693|SUPERIORITY||ACR 50 Response Rate Difference|-15.0||||0.013|TWO_SIDED|95.0|-26.2|-3.7|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-3.7|-26.2|0.0130
82610232|NCT01855789|164936693|SUPERIORITY||ACR 50 Response Rate Difference|-10.9|||||TWO_SIDED|95.0|-21.4|-0.4|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||-0.4|-21.4|
82610233|NCT01855789|164936694|SUPERIORITY||ACR 70 Response Rate Difference|-8.2||||0.3599|TWO_SIDED|95.0|-19.2|2.9|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||2.9|-19.2|0.3599
82610234|NCT01855789|164936694|SUPERIORITY||ACR 70 Response Rate Difference|-11.6||||0.0663|TWO_SIDED|95.0|-22.8|-0.3|||Cochran-Mantel-Haenszel||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-0.3|-22.8|0.0663
82610235|NCT01855789|164936694|SUPERIORITY||ACR 70 Response Rate Difference|-8.2|||||TWO_SIDED|95.0|-19.4|3.1|||||Observed difference in percentages (TCZ + PBO minus TCZ + MTX) and the asymptotic Wald 95% CI is presented.|Week 24||3.1|-19.4|
82610236|NCT01855789|164936695|SUPERIORITY||DAS28 Worsening Rate Difference|7.5||||0.2371|TWO_SIDED|95.0|-2.4|17.3|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and worsening in DAS28, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||17.3|-2.4|0.2371
82610237|NCT01855789|164936695|SUPERIORITY||DAS28 Worsening Rate Difference|3.4||||0.4811|TWO_SIDED|95.0|-6.9|13.7|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and worsening in DAS28, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||13.7|-6.9|0.4811
82610238|NCT01855789|164936696|SUPERIORITY||DAS28 Remission Rate Difference|-9.5||||0.1062|TWO_SIDED|95.0|-20.9|1.8|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||1.8|-20.9|0.1062
82492433|NCT02100514|164677943|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-10.4|STANDARD_ERROR_OF_MEAN|1.06||||95.0|-12.5|-8.3||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-8.3|-12.5|
82610239|NCT01855789|164936696|SUPERIORITY||DAS28 Remission Rate Difference|-6.8||||0.3611|TWO_SIDED|95.0|-18.2|4.6|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||4.6|-18.2|0.3611
82610240|NCT01855789|164936697|SUPERIORITY||Low DAS28 Rate Difference|-13.6||||0.0228|TWO_SIDED|95.0|-24.0|-3.3|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 40: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||-3.3|-24.0|0.0228
82610241|NCT01855789|164936697|SUPERIORITY||Low DAS28 Rate Difference|-5.4||||0.3665|TWO_SIDED|95.0|-16.3|5.4|||Cochran-Mantel-Haenszel||TCZ + PBO minus TCZ + MTX|Week 52: Analysis of association between treatment group and response, stratified by the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>=2.6 to \<=3.2), baseline weight-by-dosing group (\<80 kg q2w, \<80 kg qw, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw), participant anti-TNF exposure (Yes/No).||5.4|-16.3|0.3665
82610242|NCT01855789|164936698|SUPERIORITY||Estimated Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|95.0|-0.21|0.68|||||TCZ + PBO minus TCZ + MTX|ANCOVA model included Week 24 bone erosion as a covariate, treatment group, and the randomization stratification factors: DAS28 remission status at Week 24 (\<2.6, \>/=2.6 to \</=3.2), participant anti-TNF exposure (Yes/No), baseline weight-by-dosing group (\<80 kg q2w, 80-\<100 kg q2w, 80-\<100 kg qw, \>=100 kg qw).||0.68|-0.21|
82610243|NCT01863758|164936702|SUPERIORITY_OR_OTHER||Annualized number of bleeding episodes|3.13|||<|0.05|TWO_SIDED|95.0|2.56|3.8|||2-sided, 1-sample Poisson test||The annualized number of bleeding episodes in study GENA-01 was 49.36.|This study was considered as showing efficacy if the annualized number of bleeding episodes (BE) was reduced by 50% compared to the number of BEs observed in study GENA-01 (NCT00989196).||3.80|2.56|<0.05
82610244|NCT01863758|164936703|SUPERIORITY_OR_OTHER||Annualized number of spontaneous BEs|1.9|||<|0.05|TWO_SIDED|95.0|1.46|2.43|||2-sided, 1-sample Poisson test||The annualized number of spontaneous bleeding episodes in study GENA-01 was 32.23|This study was considered as showing efficacy if the annualized number of spontaneous bleeding episodes (BE) was reduced by 50% compared to the number of spontaneous BEs observed in study GENA-01 (NCT00989196).||2.43|1.46|<0.05
82610245|NCT02606877|164936707|OTHER||T1/R1 Ratio (%)|88.58|STANDARD_DEVIATION|45.1|||TWO_SIDED|90.0|65.4|119.97|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||119.97|65.40|
82610246|NCT02606877|164936708|OTHER||T1/R1 Ratio (%)|80.63|STANDARD_DEVIATION|74.6|||TWO_SIDED|90.0|51.27|126.79|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||126.79|51.27|
82610247|NCT02606877|164936709|OTHER||T2/R2 Ratio (%)|97.17|STANDARD_DEVIATION|14.1|||TWO_SIDED|90.0|87.84|107.48|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T2 and R2 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||107.48|87.84|
82610248|NCT02606877|164936710|OTHER||T2/R2 Ratio (%)|99.49|STANDARD_DEVIATION|17.4|||TWO_SIDED|90.0|87.94|112.56|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T2 and R2 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||112.56|87.94|
82610249|NCT02606877|164936711|OTHER||T1/R1 Ratio (%)|89.49|STANDARD_DEVIATION|44.3|||TWO_SIDED|90.0|66.33|120.73|||ANOVA|The analysis of variance (ANOVA) model on a logarithmic scale including effects: 'subject' and 'treatment'.|To get,geometric mean ratio and Confidence Interval,least square estimates of log-transformed PK endpoint for T1 and R1 were back transformed to original scale. Standard Deviation is actually the intra-individual geometric Coefficient of Variance(%).|||120.73|66.33|
82610250|NCT00538642|164936732|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82610251|NCT01306058|164936765|NON_INFERIORITY|Paired T-test. Two tailed.|||||<|0.05|||||||Wilcoxon signed rank test|||||||<0.05
82610252|NCT01306058|164936766|NON_INFERIORITY|Paired T-test. Two tailed.|||||<|0.0001||||||Cycle 1 day 15 vs. cycle 1 day 1|Wilcoxon signed rank test|||||||<0.0001
82610253|NCT01306058|164936766|NON_INFERIORITY|Cycle 2 day 1 vs. cycle 1 day 1. Paired T-test. Two tailed.|||||<|0.0001|||||||Wilcoxon signed rank test|||||||<0.0001
82610254|NCT01306058|164936766|NON_INFERIORITY|eos (end of study) vs. cycle 1 day 1. Paired T-test. Two tailed.||||||0.0009|||||||Wilcoxon signed rank test|||||||0.0009
82492434|NCT02100514|164677944|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|2.6|STANDARD_ERROR_OF_MEAN|0.52||||95.0|1.6|3.6||||||LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||3.6|1.6|
82492435|NCT02100514|164677945|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.6|STANDARD_ERROR_OF_MEAN|0.08||||95.0|-1.8|-1.5||||||Week 12: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.5|-1.8|
82610255|NCT00984659|164936773|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01||||0.713|TWO_SIDED|95.0|-0.03|0.05|||t-test, 2 sided|||||0.05|-0.03|0.713
82610256|NCT00984659|164936777|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Analysis of covariance (ANCOVA) adjusted for age, gender, and percent predicted Forced Expiratory volume in one second (FEV1) at Screening.|ANCOVA|||||||<0.001
82610257|NCT00984659|164936778|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||ANCOVA adjusted for age, gender, and percent predicted FEV1 at Screening.|ANCOVA|||||||<0.001
82610258|NCT00984659|164936779|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||ANCOVA adjusted for age, gender, and percent predicted FEV1 at Screening|ANCOVA|||||||0.008
82610259|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.18|0.31||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 8|ANCOVA|||||0.31|0.18|<0.001
82610260|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.12|||<|0.001||95.0|0.06|0.19||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 15|ANCOVA|||||0.19|0.06|<0.001
82610261|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||<|0.001||95.0|0.06|0.16||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 22|ANCOVA|||||0.16|0.06|<0.001
82610262|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|||<|0.001||95.0|0.06|0.17||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 29|ANCOVA|||||0.17|0.06|<0.001
82610263|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13|||<|0.001||95.0|0.08|0.18||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 36|ANCOVA|||||0.18|0.08|<0.001
82610264|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.18||95.0|-0.03|0.15||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Day 43|ANCOVA|||||0.15|-0.03|0.180
82657872|NCT00358449|165031810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.79||||0.071|TWO_SIDED|95.0|-35.21|-0.38|||Van Elteren test||P-value, 95% CI, and Estimated value are presented for change from baseline at week 24|||-0.38|-35.21|0.071
82610265|NCT00984659|164936781|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.307||95.0|-0.07|0.23||ANCOVA adjusted for age, gender, and SOBDA Baseline score; difference between responders and non-responders during Week prior to Visit 3/PD|ANCOVA|||||0.23|-0.07|0.307
82610266|NCT00984659|164936785|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|||<|0.001||95.0|0.14|0.34||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for CGI-C responders and non-responders|ANCOVA|||||0.34|0.14|<0.001
82610267|NCT00984659|164936786|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.3|||<|0.001|TWO_SIDED|95.0|0.21|0.4||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for CRQ-SAS Dyspnea Domain responders and non-responders|ANCOVA|||||0.40|0.21|<0.001
82610268|NCT00984659|164936787|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.03||||0.535||95.0|-0.08|0.15||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparision of mean SOBDA score for Physician-Completed mMRC responders and non-responders|ANCOVA|||||0.15|-0.08|0.535
82610269|NCT00984659|164936787|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.08||||0.08||95.0|-0.02|0.19||ANCOVA adjusted for age, gender, and SOBDA Baseline score; comparison of mean SOBDA score for Participant-Completed mMRC responders and non-responders|ANCOVA|||||0.19|-0.02|0.08
82610270|NCT02424149|164936793|SUPERIORITY_OR_OTHER|||||||0.77|||||||t-test, 2 sided|||||||0.77
82610271|NCT02424149|164936794|SUPERIORITY_OR_OTHER|||||||0.73|||||||t-test, 2 sided|||||||0.73
82610272|NCT02424149|164936795|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82657873|NCT05327491|165031833|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.962|||||TWO_SIDED|90.0|0.88|1.053||||||||1.053|0.880|
82657874|NCT05327491|165031834|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.968|||||TWO_SIDED|90.0|0.907|1.033||||||||1.033|0.907|
82657875|NCT05327491|165031835|EQUIVALENCE|It was concluded that the test treatment is bioequivalent to the reference treatment if the 90% CI for the ratio of Geometric Least Squares Mean (GLSM) was completely contained within the predefined interval of (0.8000, 1.2500).|Ratio of GLSM|0.967|||||TWO_SIDED|90.0|0.908|1.029||||||||1.029|0.908|
82610273|NCT02424149|164936796|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
82610274|NCT02424149|164936797|SUPERIORITY_OR_OTHER|||||||0.04|||||||Fisher Exact|||||||0.04
82610275|NCT03472534|164936850|OTHER|The p-value for the overall F-test was used to determine if the mean irritation scores were equal for all four products.|||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82610276|NCT03237845|164936900|SUPERIORITY||Risk Difference (RD)|7.6||||0.0006|TWO_SIDED|95.0|3.3|11.9|||Cochran-Mantel-Haenszel|||||11.9|3.3|0.0006
82610277|NCT03237845|164936901|SUPERIORITY||Risk Difference (RD)|12.4|||<|0.0001|TWO_SIDED|95.0|6.9|17.9|||Cochran-Mantel-Haenszel|||||17.9|6.9|< 0.0001
82657876|NCT00813293|165031850|SUPERIORITY|||||||0.794|||||||Wilcoxon (Mann-Whitney)|||Assuming the two trial arms were independent, the standard deviation was 0.5cm for both arms and a sample size of 16 evaluable patients (8 per arm), the study had an 84% power at a 5% (two-sided) significance level to detect 0.8cm difference in ablation zone size. In order to allow a 20% drop-out rate, a total of 20 subjects were accrued.||||.794
82657877|NCT00533273|165031855|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<.001
82610278|NCT03237845|164936902|SUPERIORITY||Risk Difference (RD)|15.1|||<|0.0001|TWO_SIDED|95.0|9.4|20.8|||Cochran-Mantel-Haenszel|||||20.8|9.4|< 0.0001
82610279|NCT03237845|164936903|SUPERIORITY||Risk Difference (RD)|9.9||||0.0039|TWO_SIDED|95.0|3.2|16.6|||Cochran-Mantel-Haenszel|||||16.6|3.2|0.0039
82610280|NCT03237845|164936904|SUPERIORITY||Risk Difference (RD)|15.3|||<|0.0001|TWO_SIDED|95.0|9.4|21.2|||Cochran-Mantel-Haenszel|||||21.2|9.4|< 0.0001
82610281|NCT03237845|164936905|SUPERIORITY||Risk Difference (RD)|4.8||||0.2084|TWO_SIDED|95.0|-2.7|12.2||P-Value ≥ 0.05; therefore, all secondary outcome measures listed after this outcome measure in the hierarchy were not tested.|Cochran-Mantel-Haenszel|||||12.2|-2.7|0.2084
82610282|NCT03865407|164936918|SUPERIORITY|||||||0.1839|||||||t-test, 2 sided|||||||0.1839
82610283|NCT03865407|164936919|SUPERIORITY|||||||0.3036|||||||t-test, 2 sided|||||||0.3036
82610284|NCT03865407|164936920|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82610285|NCT03865407|164936921|SUPERIORITY|||||||0.1421|||||||t-test, 2 sided|||||||0.1421
82610286|NCT03865407|164936922|SUPERIORITY|||||||0.0022|||||||t-test, 2 sided|||||||0.0022
82610287|NCT03865407|164936923|SUPERIORITY|||||||0.3032|||||||t-test, 2 sided|||||||0.3032
82610288|NCT03291197|164936931|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Our study was not powered to perform statistical analysis though was still conduct to look for a trend in reduction of VAS.||||0.043
82610289|NCT01645280|164936933|SUPERIORITY_OR_OTHER|||||||0.184|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.184
82610290|NCT01645280|164936933|SUPERIORITY_OR_OTHER|||||||0.13|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.130
82610291|NCT01645280|164936933|SUPERIORITY_OR_OTHER|||||||0.642|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.642
82610292|NCT01645280|164936933|SUPERIORITY_OR_OTHER|||||||0.832|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.832
82610293|NCT01645280|164936934|SUPERIORITY_OR_OTHER|||||||0.019|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.019
82610294|NCT01645280|164936934|SUPERIORITY_OR_OTHER|||||||0.025|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.025
82610295|NCT01645280|164936934|SUPERIORITY_OR_OTHER|||||||0.248|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.248
82610296|NCT01645280|164936934|SUPERIORITY_OR_OTHER|||||||0.045|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.045
82657878|NCT00533273|165031856|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<.001
82657879|NCT00533273|165031857|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82657880|NCT00533273|165031858|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82610297|NCT01645280|164936935|SUPERIORITY_OR_OTHER|||||||0.381|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.381
82610298|NCT01645280|164936935|SUPERIORITY_OR_OTHER|||||||0.543|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.543
82610299|NCT01645280|164936935|SUPERIORITY_OR_OTHER|||||||0.629|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.629
82610300|NCT01645280|164936935|SUPERIORITY_OR_OTHER|||||||0.273|||||||Cochran-Mantel-Haenszel|Screening CRP level (\>= 1.50 mg/dL; \< 1.50 mg/dL) was used as stratification factors.||||||0.273
82610301|NCT01645280|164936936|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.060
82610302|NCT01645280|164936936|SUPERIORITY_OR_OTHER|||||||0.134|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.134
82610303|NCT01645280|164936936|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.280
82657881|NCT00533273|165031860|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|||||||.014
82657882|NCT00533273|165031861|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<.0001
82492436|NCT02100514|164677945|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.1||||95.0|-1.6|-1.3||||||Week 24: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.3|-1.6|
82610304|NCT01645280|164936936|SUPERIORITY_OR_OTHER|||||||0.345|||||||ANCOVA|Treatment, screening CRP level (\>=1.50 mg/dL, \<1.50mg/dL) and baseline score as covariates.||||||0.345
82610305|NCT00234104|164936940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09||||0.0074||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0074
82610306|NCT00234104|164936940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.0459||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0459
82610307|NCT00234104|164936940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32||||0.001||95.0|||||t-test, 2 sided|Dunnett's test was used||||||0.0010
82610308|NCT01633060|164936995|OTHER|Comparison of progression-free survival (PFS) (based on local investigator assessment) between the two treatment groups using a stratified log-rank test at one-sided 2.5% level of significance|Hazard Ratio (HR)|0.67|||<|0.001|ONE_SIDED|95.0|0.53||||Log Rank||||||0.53|<0.001
82610309|NCT01852344|164937123|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||0.159
82610310|NCT01852344|164937123|SUPERIORITY|||||||0.159|||||||t-test, 2 sided|||||||0.159
82610311|NCT01852344|164937124|SUPERIORITY|||||||0.236|||||||t-test, 2 sided|||||||0.236
82610312|NCT01852344|164937125|SUPERIORITY|||||||0.032|||||||t-test, 2 sided|||||||0.032
82610313|NCT01065428|164937173|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82610314|NCT01065428|164937174|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 2 sided|||||||<0.05
82610315|NCT00995371|164937175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52|||<|0.05|TWO_SIDED|95.0|1.09|3.96|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||3.96|1.09|<0.05
82610316|NCT00995371|164937175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|||>|0.05|TWO_SIDED|95.0|-1.43|1.55|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||1.55|-1.43|>0.05
82610317|NCT00995371|164937176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.33|||<|0.05|TWO_SIDED|95.0|3.35|19.31|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||19.31|3.35|<0.05
82610318|NCT00995371|164937176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.65|||>|0.05||95.0|-4.12|15.41|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||15.41|-4.12|>0.05
82610319|NCT00995371|164937177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.05||95.0|0.61|3.77|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||3.77|0.61|<0.05
82610320|NCT00995371|164937177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||>|0.05||95.0|-0.66|2.66|||t-test, 2 sided|||The mean change from baseline was assessed for VAS using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||2.66|-0.66|>0.05
82610321|NCT00995371|164937178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.13|||<|0.05||95.0|7.43|24.83|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||24.83|7.43|<0.05
82610322|NCT00995371|164937178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.17|||>|0.05||95.0|-1.24|13.58|||t-test, 2 sided|||The mean change from baseline was assessed for ODI using a paired t-test. The resulting p-values are to be considered as descriptive statistics. Two-sided test with 5% Type I error was used.||13.58|-1.24|>0.05
82610323|NCT03851510|164937201|OTHER|95% confidence of prevalence measure.|prevalence|46.3|||||TWO_SIDED|95.0|32.6|60.4||||||All participants that were consented, eligible, and completed the Vector EFL screening (supine).||60.4|32.6|
82610324|NCT02613572|164937205|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82610325|NCT02613572|164937206|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||||||0.009
82657883|NCT00533273|165031862|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82657884|NCT00533273|165031863|SUPERIORITY||||||<|0.001|||||||ANOVA|||||||<.001
82657885|NCT02794974|165031873|SUPERIORITY|||||||0.236|||||||Fisher Exact|||||||0.236
82657886|NCT02794974|165031874|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82657887|NCT02794974|165031875|SUPERIORITY||Odds Ratio|4.5||||0.209|TWO_SIDED|95.0|0.63|32.2|||Odds Ratio|||||32.2|0.63|0.209
82657888|NCT02794974|165031876|SUPERIORITY||Odds Ratio|2.5||||0.44|TWO_SIDED|95.0|0.49|12.77|||Odds Ratio|||||12.77|0.49|0.44
82657889|NCT02794974|165031877|SUPERIORITY||Odds Ratio|1.88||||0.695|TWO_SIDED|95.0|0.37|9.45|||Odds Ratio|||||9.45|0.37|0.695
82657890|NCT00615069|165031915|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0|||||Log Rank|||Log-rank test of freedom from major adverse events through 1 year, 31 mm GORE EXCLUDER® Test Subjects vs historical open surgical control Subjects.||||0.003
82657891|NCT00615069|165031916|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.241|||||TWO_SIDED|95.0|0.428|3.603||||||Estimation of Hazard ratio of the 31 mm GORE EXCLUDER® Test Subjects vs original GORE EXCLUDER® AAA Endoprosthesis Subjects (original PMA subjects) using Cox Regression, not a powered analysis.||3.603|0.428|
82657892|NCT00454909|165031918|SUPERIORITY||Difference in percentage|11.2|||||TWO_SIDED|95.0|3.87|19.18||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup A (hSBA-MenA) antibody titers ≥ 1:8 one month after vaccination.||19.18|3.87|
82657893|NCT00454909|165031918|SUPERIORITY||Difference in percentage|-2.77|||||TWO_SIDED|95.0|-5.08|0.4||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup C (hSBA-MenC) antibody titers ≥ 1:8 one month after vaccination.||0.40|-5.08|
82657894|NCT00454909|165031918|SUPERIORITY||Difference in percentage|14.93|||||TWO_SIDED|95.0|8.24|22.71||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup W-135 (hSBA-MenW -135) antibody titers ≥ 1:8 one month after vaccination.||22.71|8.24|
82610326|NCT02613572|164937207|SUPERIORITY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82610327|NCT02613572|164937208|SUPERIORITY|||||||0.3|||||||Mixed Models Analysis|||||||0.30
82657895|NCT00454909|165031918|SUPERIORITY||Difference in percentage|13.4|||||TWO_SIDED|95.0|7.9|20.1||||||Evaluation of the immunogenicity induced by Nimenrix™ conjugate vaccine as compared to Menactra® vaccine in terms of percentage of subjects with serum bactericidal assay using human complement against N. meningitidis serogroup Y (hSBA-MenY) antibody titers ≥ 1:8 one month after vaccination.||20.10|7.90|
82499431|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.71|STANDARD_ERROR_OF_MEAN|7.72||||90.0|-33.44|-7.99|||ANCOVA|||Extension Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-7.99|-33.44|
82610328|NCT02613572|164937209|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||||||0.14
82610329|NCT02613572|164937210|SUPERIORITY|||||||0.69|||||||Mixed Models Analysis|||||||0.69
82657896|NCT02996682|165031928|SUPERIORITY||||||<|0.001||||||P-value was from the 2-sided exact 1-sample binomial test for the superiority of each treatment group over pre-specified rate of 1%.|2-sided exact 1-sample binomial test|||A sample size of 50 participants in each treatment group would provide over 99% power to detect at least 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.025.||||<0.001
82657897|NCT02996682|165031928|SUPERIORITY||||||<|0.001||||||P-value was from the 2-sided exact 1-sample binomial test for the superiority of each treatment group over pre-specified rate of 1%.|2-sided exact 1-sample binomial test|||A sample size of 50 participants in each treatment group would provide over 99% power to detect at least 40% improvement in SVR12 rate from the assumed spontaneous rate of 1% or less using a 2-sided exact 1-sample binomial test at significance level of 0.025.||||<0.001
82657898|NCT01941030|165031965|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.022|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty reduction of calcium out of lumen gain.||||0.0220
82657899|NCT01941030|165031966|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.6228|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-balloon angioplasty minimum lumen area stenosis.||||0.6228
82657900|NCT01941030|165031967|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.4528|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty plaque area.||||0.4528
82657901|NCT01941030|165031968|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.3573|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty dense calcium area.||||0.3573
82657902|NCT01941030|165031969|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.6073|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty necrotic core area.||||0.6073
82657903|NCT01941030|165031970|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.2149|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty fibrous plaque area.||||0.2149
82610330|NCT01145391|164937220|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence||||||0.5||95.0||||For systolic blood pressure|Mixed Models Analysis|||||||0.50
82610331|NCT01333189|164937229|SUPERIORITY_OR_OTHER||||||=|0.329|TWO_SIDED||||||Mixed Models Analysis|||||||=0.329
82610332|NCT01333189|164937230|SUPERIORITY_OR_OTHER||||||=|0.891|TWO_SIDED||||||Mixed Models Analysis|||||||=0.891
82610333|NCT01333189|164937231|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||Mixed Models Analysis|||||||=0.021
82610334|NCT01333189|164937232|SUPERIORITY_OR_OTHER||||||=|0.509|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.509
82610335|NCT01333189|164937232|SUPERIORITY_OR_OTHER||||||=|0.5|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.500
82610336|NCT01333189|164937232|SUPERIORITY_OR_OTHER||||||=|0.607|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.607
82610337|NCT01333189|164937233|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||Mixed Models Analysis|||||||=0.068
82610338|NCT01333189|164937234|SUPERIORITY_OR_OTHER||||||=|0.48|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.480
82610339|NCT01333189|164937234|SUPERIORITY_OR_OTHER||||||=|0.12|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.120
82610340|NCT01333189|164937234|SUPERIORITY_OR_OTHER||||||=|0.668|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.668
82610341|NCT01333189|164937235|SUPERIORITY_OR_OTHER||||||=|0.511|TWO_SIDED||||||Mixed Models Analysis|||||||=0.511
82610342|NCT01333189|164937236|SUPERIORITY_OR_OTHER||||||=|0.402|TWO_SIDED||||||Mixed Models Analysis|||||||=0.402
82610343|NCT01333189|164937237|SUPERIORITY_OR_OTHER||||||=|0.021|TWO_SIDED||||||Mixed Models Analysis|||||||=0.021
82610344|NCT01333189|164937238|SUPERIORITY_OR_OTHER||||||=|0.686|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.686
82610345|NCT01333189|164937238|SUPERIORITY_OR_OTHER||||||=|0.434|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.434
82610346|NCT01333189|164937238|SUPERIORITY_OR_OTHER||||||=|0.227|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.227
82610347|NCT01333189|164937239|SUPERIORITY_OR_OTHER||||||=|0.068|TWO_SIDED||||||Mixed Models Analysis|||||||=0.068
82610348|NCT01333189|164937240|SUPERIORITY_OR_OTHER||||||=|0.16|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the hip||||=0.160
82610349|NCT01333189|164937240|SUPERIORITY_OR_OTHER||||||=|0.008|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the knee||||=0.008
82610350|NCT01333189|164937240|SUPERIORITY_OR_OTHER||||||=|0.877|TWO_SIDED||||||Mixed Models Analysis|||Internal moment at the ankle||||=0.877
82610351|NCT00435539|164937280|SUPERIORITY_OR_OTHER|||||||0.4783|||||||Fisher Exact|||||||0.4783
82610352|NCT00435539|164937280|SUPERIORITY_OR_OTHER|||||||0.0932|||||||Fisher Exact|||||||0.0932
82610353|NCT00435539|164937280|SUPERIORITY_OR_OTHER|||||||0.0721|||||||Fisher Exact|||||||0.0721
82610354|NCT00435539|164937281|SUPERIORITY_OR_OTHER|||||||0.4762|||||||Fisher Exact|||||||0.4762
82610355|NCT00435539|164937281|SUPERIORITY_OR_OTHER|||||||0.4762|||||||Fisher Exact|||||||0.4762
82610356|NCT00435539|164937281|SUPERIORITY_OR_OTHER|||||||0.5343|||||||Fisher Exact|||||||0.5343
82610357|NCT03216265|164937305|OTHER||Least Square Mean difference|-1.44|||<|0.0001|TWO_SIDED|95.0|-2.1|-0.78|||ANCOVA|Analysis model (ANCOVA) included participant as random effect, treatment arm and side of body as fixed effects, and baseline value as covariate.|Difference is the first named treatment adjusted (LS) mean change from baseline (Visit 2) minus the second named treatment adjusted mean change from baseline (Visit 2).|||-0.78|-2.10|<0.0001
82610358|NCT01539837|164937325|SUPERIORITY||||||<|0.01||||||calculated|Pairwise comparisons,post-hoc Bonferoni|||||||<0.01
82610359|NCT00849693|164937326|SUPERIORITY_OR_OTHER|||||||0.193||95.0|||||Mixed Models Analysis|||||||0.193
82610360|NCT03849560|164937399|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for antigen H1N1 in group Grippol® Quadri and groups Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.22|||||TWO_SIDED|95.0|0.82|1.82||||||||1.82|0.82|
82610361|NCT03849560|164937399|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for antigen H3N2 in group Grippol® Quadri and groups Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.54|||||TWO_SIDED|95.0|1.08|2.3||||||||2.30|1.08|
82610362|NCT03849560|164937399|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for YAMA antigen in group Grippol® Quadri and group Grippol® Plus, trivalent (Yamagata lineage)|Odds Ratio, log|1.39|||||TWO_SIDED|95.0|0.9|2.15||||||||2.15|0.90|
82610363|NCT03849560|164937399|NON_INFERIORITY|Odds ratio was calculated to compare seroconversion for VICT antigen in group Grippol® Quadri and group Grippol® Plus, trivalent (Victoria lineage)|Odds Ratio, log|1.05|||||TWO_SIDED|95.0|0.68|1.63||||||||1.63|0.68|
82610364|NCT03849560|164937400|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) vaccines for the strain A/H1N1 if the upper limit of the two-sided 95% Confidence Interval (CI) of the ratio of means of geometric antibody titers for H1N1 was ≤1.5|Mean Difference (Final Values)|0.8933|||||TWO_SIDED|95.0|0.7762|1.03||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) for the strain A/H1N1||1.030|0.7762|
82610365|NCT03849560|164937400|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) vaccines for the strain A/H3N2 if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for H3N2 was ≤1.5|Median Difference (Final Values)|0.8913|||||TWO_SIDED|95.0|0.7516|1.0593||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) and Grippol® Plus, trivalent (Victoria lineage) for the strain A/H3N2||1.0593|0.7516|
82610366|NCT03849560|164937400|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Yamagata lineage) vaccine for the strain B/Yamagata if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for Yamagata antigen was ≤1|Mean Difference (Final Values)|0.8185|||||TWO_SIDED|95.0|0.6918|0.9683||||||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Yamagata lineage) for the strain B/Yamagata||0.9683|0.6918|
82610367|NCT03849560|164937400|NON_INFERIORITY|The Grippol® Quadri vaccine considered non-inferior to Grippol® Plus, trivalent (Victoria lineage) vaccine for the strain B/Victoria if the upper limit of the two-sided 95% CI of the ratio of means of geometric antibody titers for Victoria antigen was ≤1|Mean Difference (Final Values)|1.0328||||0.05|TWO_SIDED|95.0|0.857|1.2445|||ANCOVA|||Non-inferiority of Grippol® Quadri over Grippol® Plus, trivalent (Victoria lineage) for the strain B/Victoria||1.2445|0.8570|0.05
82610368|NCT03849560|164937401|NON_INFERIORITY|Seroprotection for strain A/H1N1 in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage) groups||||||0.758|||||||Fisher Exact|||||||0.758
82610369|NCT03849560|164937401|NON_INFERIORITY|Seroprotection for strain A/H3N2 in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage)+Grippol® Plus, trivalent (Victoria lineage) groups||||||0.282|||||||Fisher Exact|||||||0.282
82610370|NCT03849560|164937401|NON_INFERIORITY|Seroprotection for strain B/Yamagata in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Yamagata lineage) group||||||0.352|||||||Fisher Exact|||||||0.352
82610371|NCT03849560|164937401|NON_INFERIORITY|Seroprotection for strain B/Victoria in Grippol® Quadri group in comparison to Grippol® Plus, trivalent (Victoria lineage) group||||||0.815|||||||Fisher Exact|||||||0.815
82610372|NCT03849560|164937402|OTHER|||||||0.452|||||||Log Rank|||||||0.452
82610373|NCT03849560|164937402|OTHER|||||||0.639|||||||Log Rank|||||||0.639
82610374|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of mean geometri|4.86|||||TWO_SIDED|95.0|4.22|5.6||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Quadri group||5.60|4.22|
82610375|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.32|||||TWO_SIDED|95.0|4.53|6.24||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Quadri group||6.24|4.53|
82610376|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Yamagata should be ˃ 2.5|Coefficient of increase of GMT|5.47|||||TWO_SIDED|95.0|4.78|6.25||||||Coefficient of increase of mean geometric antibody titer for Yamagata in Grippol® Quadri group||6.25|4.78|
82610377|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Victoria should be ˃ 2.5|Coefficient of increase of GMT|4.77|||||TWO_SIDED|95.0|4.14|5.49||||||Coefficient of increase of mean geometric antibody titer for Victoria in Grippol® Quadri group||5.49|4.14|
82610378|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of GMT|4.21|||||TWO_SIDED|95.0|3.59|4.94||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Plus, trivalent (Yamagata lineage) group||4.94|3.59|
82610379|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.22|||||TWO_SIDED|95.0|4.45|6.12||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Plus, trivalent (Yamagata lineage) group||6.12|4.45|
82610380|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Yamagata should be ˃ 2.5|Coefficient of increase of GMT|4.04|||||TWO_SIDED|95.0|3.48|4.69||||||Coefficient of increase of mean geometric antibody titer for Yamagata in Grippol® Plus, trivalent (Yamagata lineage) group||4.69|3.48|
82610381|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H1N1 should be ˃ 2.5|Coefficient of increase of GMT|4.6|||||TWO_SIDED|95.0|3.97|5.34||||||Coefficient of increase of mean geometric antibody titer for H1N1 in Grippol® Plus, trivalent (Victoria lineage) group||5.34|3.97|
82610382|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for H3N2 should be ˃ 2.5|Coefficient of increase of GMT|5.17|||||TWO_SIDED|95.0|4.38|6.12||||||Coefficient of increase of mean geometric antibody titer for H3N2 in Grippol® Plus, trivalent (Victoria lineage) group||6.12|4.38|
82610383|NCT03849560|164937404|OTHER|The lower limit of the two-sided 95% CI (log 10) on coefficient of increase of mean geometric antibody titer for Victoria should be ˃ 2.5|Coefficient of increase of GMT|4.72|||||TWO_SIDED|95.0|4.0|5.56||||||Coefficient of increase of mean geometric antibody titer for Victoria in Grippol® Plus, trivalent (Victoria lineage) group||5.56|4.00|
82657904|NCT01941030|165031971|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.0579|||||||Wilcoxon (Mann-Whitney)|Data failed to meet the assumption for normality per the Shapiro-Wilk test.||Null hypothesis: no difference in populations for post-balloon angioplasty fibrofatty plaque area.||||0.0579
82610384|NCT00149825|164937448|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||Chi-squared|This is a one-tailed test||We hypothesized that compared with MED+CTRL, a greater percent of participants randomized to MED+CBTI will experience remission of depression||||.13
82610385|NCT00149825|164937449|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Chi-squared|||We hypothesized that compared with MED+CTRL, a greater percent of participants in MED+CBTI will experience remission of insomnia.||||.05
82610386|NCT00069121|164937452|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.0038|TWO_SIDED|95.0|0.69|0.93||This test used a two-sided significance level of 5%.|Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.93|0.69|0.0038
82610387|NCT00069121|164937453|OTHER|Descriptive analysis only.|Hazard Ratio (HR)|0.78||||0.0015|TWO_SIDED|95.0|0.67|0.91|||Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.91|0.67|0.0015
82610388|NCT00069121|164937455|OTHER|Descriptive analysis only.|Hazard Ratio (HR)|0.83||||0.0367|TWO_SIDED|95.0|0.7|0.99|||Log Rank||The hazard ratio was calculated as XELOX versus 5-FU/LV arms.|||0.99|0.70|0.0367
82610389|NCT00942708|164937457|OTHER|Single group evaluation of change in PVR between 12 weeks and baseline (T-test for one group, 2-sided, p\<0.05 considered significant)||||||0.09|||||||t-test, 1 sided|||||||0.09
82610390|NCT02342561|164937476|SUPERIORITY_OR_OTHER|||||||0.601|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||At end of surgery||||0.601
82610391|NCT02342561|164937476|SUPERIORITY_OR_OTHER|||||||0.823|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||After skin disinfection||||0.823
82657905|NCT01941030|165031972|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.076|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-final balloon FFR value with 600 mcg adenosine.||||0.076
82610392|NCT02342561|164937477|SUPERIORITY_OR_OTHER|||||||0.731|TWO_SIDED||||||Fisher Exact|||Difference in prevalence of CoNs between the 2 groups was analysed. The null-hypothesis was no difference.||||0.731
82610393|NCT01707147|164937484|OTHER||Mean Difference (Final Values)|-0.77|STANDARD_DEVIATION|1.5|<|0.0001|TWO_SIDED|95.0|-0.83|-0.71|||Paired t-test||p-value of paired t-test for change from baseline is presented. 95% confidence interval for the mean was calculated using t-distribution.|||-0.71|-0.83|<0.0001
82610394|NCT01707147|164937487|OTHER||Mean Difference (Final Values)|-18.05|STANDARD_DEVIATION|61.84|<|0.0001|TWO_SIDED|95.0|-20.98|-15.12|||Paired t-test||p-value of paired t-test for change from baseline is presented. 95% confidence interval for the mean was calculated using t-distribution.|||-15.12|-20.98|<0.0001
82657906|NCT01941030|165031972|OTHER|No pre-specified hypothesis test or power calculation specified in protocol.||||||0.205|||||||t-test, 2 sided|||Null hypothesis: no difference in populations for post-final balloon FFR value with 1200 mcg adenosine.||||0.205
82657907|NCT04166032|165031973|OTHER|||||||0.21|||||||t-test, 2 sided|||||||0.210
82657908|NCT01918800|165031994|SUPERIORITY_OR_OTHER|||||||0.64||||||No adjustment for multiple comparisons. A priori threshold for clinical significance was 7 point improvement.|paired t test|||||||.64
82657909|NCT01918800|165031995|SUPERIORITY_OR_OTHER|||||||0.04||||||No adjustments for multiple comparisons.|paired t test|||||||0.04
82657910|NCT01918800|165031996|SUPERIORITY_OR_OTHER|||||||0.35||||||No adjustment for multiple comparisons|Paired t test|||||||0.35
82657911|NCT01918800|165031997|SUPERIORITY|||||||0.8||||||The p value in this case is for the SF-36 Physical|Wilcoxon (Mann-Whitney)|||||||0.8
82657912|NCT01918800|165031997|SUPERIORITY|||||||0.09|||||||Wilcoxon (Mann-Whitney)|||The p value in this case refers to the SF-36 Mental||||.09
82657913|NCT01918800|165031998|SUPERIORITY_OR_OTHER|||||||0.521||||||This p value applies to the RAPA Cardiovascular|Wilcoxon (Mann-Whitney)|||||||0.521
82657914|NCT01918800|165031998|SUPERIORITY|||||||0.4199|||||||Wilcoxon (Mann-Whitney)|||This p values is for the RAPA Strength||||0.4199
82657915|NCT01918800|165031998|SUPERIORITY|||||||0.854|||||||Wilcoxon (Mann-Whitney)|||||||0.854
82657916|NCT01918800|165031999|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82657917|NCT01918800|165032000|SUPERIORITY_OR_OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82657918|NCT01874951|165032086|NON_INFERIORITY_OR_EQUIVALENCE|An initial power analysis at the time of protocol development suggested that with 6 patients in each treatment group, we could expect a 79% chance of achieving significance (2-sided p \< 0.05) if the true response rate to low-dose naltrexone (LDN) was 80% and the true placebo response rate was 20%.||||||0.55||||||Threshold of statistical significance is 0.05.|Chi-squared|Chi-squared value was 1.5.||Response rates were based on attaining a reduction in the HAM-D-17 scale of 50% or greater compared to baseline. We hypothesized that naltrexone would produce a significantly greater response rate than placebo.||||0.55
82657919|NCT02028715|165032093|SUPERIORITY||Mean Difference (Final Values)|5.55501|STANDARD_ERROR_OF_MEAN|5.96535||0.356|TWO_SIDED|95.0|-6.3904|17.50042|||t-test for Equality of Means|||||17.50042|-6.39040|.356
82657920|NCT02028715|165032094|SUPERIORITY||Median Difference (Final Values)|11.51818|STANDARD_ERROR_OF_MEAN|6.98569||0.105|TWO_SIDED|95.0|-2.49963|25.53599|||t-test for Equality of Means|||||25.53599|-2.49963|.105
82657921|NCT02028715|165032095|SUPERIORITY|||||||0.029|||||||ANOVA|||||||.029
82657922|NCT02028715|165032096|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.643|||||||ANOVA|||||||.643
82657923|NCT02028715|165032097|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.217|||||||ANOVA|||||||.217
82657924|NCT02028715|165032098|SUPERIORITY|Within subjects Analysis of Variance (ANOVA) of time, sphericity assumed, was used for pain, nausea, bloating and pruritus.||||||0.647|||||||ANOVA|||||||.647
82657925|NCT02028715|165032099|SUPERIORITY||Mean Difference (Final Values)|0.054|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|95.0|-0.587|0.695||||||||.695|-.587|
82657926|NCT01710657|165032103|SUPERIORITY_OR_OTHER||% Reduction over Placebo|39.6|||<|0.001|TWO_SIDED|95.0|30.5|47.6||Significant at the 0.05 level. This testing procedure is considered a closed testing procedure and no adjustment of the significance level was necessary.|ANCOVA|||"To avoid inflation of Type I error, hypothesis testing followed predefined hierarchical procedure starting LCM 400 mg/day treatment group versus the placebo group.~If the test was not statistically significant, the procedure stopped and no Groups were declared different from placebo. If the test was statistically significant, the treatment group was considered different from placebo and the procedure continued with the LCM 200 mg/day treatment group."||47.6|30.5|<0.001
82657927|NCT01710657|165032103|SUPERIORITY_OR_OTHER||% Reduction over Placebo|29.4|||<|0.001|TWO_SIDED|95.0|18.7|38.7||Significant at the 0.05 level. This testing procedure is considered a closed testing procedure and no adjustment of the significance level was necessary.|ANCOVA|||"To avoid inflation of Type I error, hypothesis testing followed predefined hierarchical procedure starting LCM 400 mg/day treatment group versus the placebo group.~If the test was not statistically significant, the procedure stopped and no Groups were declared different from placebo. If the test was statistically significant, the treatment group was considered different from placebo and the procedure continued with the LCM 200 mg/day treatment group."||38.7|18.7|< 0.001
82657928|NCT02589808|165032110|OTHER|||||||0.0005|||||||Kappa|||||||0.0005
82657929|NCT02334722|165032128|SUPERIORITY||Median Difference (Final Values)|-2.5||||0.7824|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.7824
82657930|NCT01969747|165032139|SUPERIORITY_OR_OTHER||Adjusted mean|76.09|STANDARD_ERROR_OF_MEAN|8.77|<|0.0001|TWO_SIDED|95.0|58.6|93.59|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 2.5 mg with Placebo||93.59|58.60|<0.0001
82657931|NCT01969747|165032139|SUPERIORITY_OR_OTHER||Adjusted mean|106.39|STANDARD_ERROR_OF_MEAN|8.85|<|0.0001|TWO_SIDED|95.0|88.73|124.05|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 10 mg with Placebo||124.05|88.73|<0.0001
82657932|NCT01969747|165032139|SUPERIORITY_OR_OTHER||Adjusted mean|104.81|STANDARD_ERROR_OF_MEAN|8.99|<|0.0001|TWO_SIDED|95.0|86.88|122.74|||ANCOVA||The model includes baseline UGE as linear covariate(s) and treatment as fixed effect(s).|Comparison of Empagliflozin 25 mg with Placebo||122.74|86.88|<0.0001
82657933|NCT04000815|165032140|OTHER||||||<|0.017||||||p-value is adjusted for multiple comparisons|Kruskal-Wallis|||||||<0.017
82657934|NCT04000815|165032141|OTHER||||||<|0.05|||||||Bi-variate correlation analysis|Bi-variate correlation analyses were performed in groups 1 and 2 between serum CNP and FSH and between serum CNP and LH using Spearman test.||||||<0.05
82657935|NCT04000815|165032142|OTHER||||||<|0.05|||||||Bi-variate correlation|Spearman test was applied.||||||<0.05
82657936|NCT04000815|165032143|OTHER||||||<|0.05|||||||Bi-variate correlation analyses|Bi-variate correlation analyses were performed for all subjects in groups 1 and 2 between serum CNP and E2 using Spearman test.||||||<0.05
82657937|NCT00840099|165032205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of Means x 100|100.91||||||90.0|95.82|106.26|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.26|95.82|
82657938|NCT00840099|165032206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.79||||||90.0|100.69|104.94|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.94|100.69|
82657939|NCT00840099|165032207|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.75||||||90.0|100.62|104.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.93|100.62|
82657940|NCT00840099|165032208|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the Mean x 100|100.47||||||90.0|93.28|108.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.20|93.28|
82657941|NCT00840099|165032209|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Ratio of the mean|104.15||||||90.0|96.35|112.58|||||Bioequivalence is established when 80% Confidence Interval falls within 80 - 125|||112.58|96.35|
82610395|NCT00035815|164937532|SUPERIORITY_OR_OTHER|||||||0.529||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis of MMT was calculated as a ratio of change from baseline to last follow-up to time to duration until last follow-up. For the patients that died during the study period, the last follow-up time was considered as the time of death with a zero score for MMT measurement. Analysis was performed using intention to treat approach. Comparison of rate of change in MMT scores between the placebo and IGF-1 group was made using two sample t-test or Wilcoxon rank sum test as appropriate.||||0.529
82610396|NCT00035815|164937533|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.415|TWO_SIDED|95.0|0.77|1.4|||Regression, Cox|||Patients who elected to proceed to tracheostomy were assessed on the day of their procedure. Subjects who continuously utilized NIPPV for greater than 10 days were assessed as being ventilator-dependent on the first day they began continuous NIPPV. Survival between groups was compared using the Cox-proportional Hazards model.||1.4|0.77|0.415
82610397|NCT00035815|164937534|SUPERIORITY_OR_OTHER|||||||0.321||95.0|||||Wilcoxon (Mann-Whitney)|||The final secondary outcome measure was the rate of change in the ALSFRS-r score. The ALSFRS-r was completed at each visit (randomization and then at 3, 6, 12, 18 and 24 months post-randomization). As with the MMT scores a score of 0 was imputed on the day of death. Analysis of the ALSFRS-r scores as a secondary outcome was performed in similar manner as MMT score.||||0.321
82610398|NCT02858193|164937630|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies.|Geometric means ratio|111.63||||0.0482|TWO_SIDED|94.12|100.51|123.99||"treatment p-value reported"|ANOVA||Estimated value and limits are expressed in %|||123.99|100.51|0.0482
82610399|NCT02858193|164937632|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies|geometric means ratio|109.41||||0.0002|TWO_SIDED|94.12|104.93|114.07||"treatment p-value is reported"|ANOVA||Estimated value and limits are expressed in%|||114.07|104.93|0.0002
82610400|NCT02858193|164937633|EQUIVALENCE|Acceptance criterion for bioequivalence was that 94.12% confidence intervals (CIs) of the T/R ratios of the geometric means of the analysed PK parameters were within the 80.00-125.00% range according to the current guidelines for bioequivalence studies.||||||0.593|||||||Friedman|||||||0.5930
82610401|NCT05652660|164937637|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|120.5|||||TWO_SIDED|90.0|104.77|138.59|||||The ratios (and 90% CIs) are expressed as percentages.|Rosuvastatin administered alone as the Reference and ARV-471 coadministered with rosuvastatin as the Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||138.59|104.77|
82610402|NCT05652660|164937638|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|110.56|||||TWO_SIDED|90.0|103.53|118.06|||||The ratios (and 90% CIs) are expressed as percentages.|Rosuvastatin administered alone as the Reference and ARV-471 coadministered with rosuvastatin as the Test. Natural log transformed AUClast was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||118.06|103.53|
82610403|NCT00112151|164937647|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.025|TWO_SIDED|||||A one-sided P-value of \<0.025 was used to define statistical significance|Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (any T). The primary analysis was conducted in the PRT groups and compared CS-PFP at 12 months with any T to placebo, adjusted for baseline CS-PFP score.||||<0.025
82610404|NCT00112151|164937647|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.025|TWO_SIDED|||||A one-sided P-value of \<0.025 was used to define statistical significance.|Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (any T). To address whether the effects of any T on physical function are the same without PRT, the analysis was also conducted in the No PRT groups, comparing CS-PFP at 12 months with any T to placebo, adjusted for baseline CS-PFP score.||||<0.025
82610405|NCT00112151|164937648|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average upper body strength with any T to placebo in subjects assigned to PRT.||||<0.05
82610406|NCT00112151|164937648|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average upper body strength with any T to placebo in subjects assigned to no PRT.||||<0.05
82610407|NCT00112151|164937649|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average lower body strength with any T to placebo in subjects assigned to PRT.||||<0.05
82610408|NCT00112151|164937649|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in average lower body strength with any T to placebo in subjects assigned to no PRT.||||<0.05
82610409|NCT00112151|164937650|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in leg extensor power with any T to placebo in subjects assigned to PRT.||||<0.05
82657942|NCT00840099|165032210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|104.06||||||90.0|95.85|112.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.97|95.85|
82657943|NCT02163837|165032223|SUPERIORITY|the study was exploratory, the number of patients included was not calculated|||||<|0.05|||||||McNemar|||Mc Nemar symetry test for repeated measures and paired t-tests as appropriated||||<0.05
82657944|NCT01171690|165032251|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||Matched pairs t test|||Matched pairs||||0.01
82610410|NCT00112151|164937650|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in leg extensor power with any T to placebo in subjects assigned to no PRT.||||<0.05
82610411|NCT00112151|164937651|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to PRT.||||<0.05
82610412|NCT00112151|164937651|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to no PRT.||||<0.05
82610413|NCT00112151|164937652|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat free mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to PRT.||||<0.05
82610414|NCT00112151|164937652|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED||||||Regression, Linear|||As prespecified, the lower- and higher-range T groups were combined (Any T). The analysis compared change from baseline to 12 months in fat free mass measured by dual x-ray absorptiometry (DXA) with any T to placebo in subjects assigned to no PRT.||||<0.05
82610415|NCT03191396|164937673|NON_INFERIORITY|HbA1c non-inferiority was tested using a non-inferiority margin of 0.3.|Treatment difference|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.56||The non-inferiority p-value is calculated as two times the one-sided p-value from a t-distributed test statistic comparing the treatment contrast with 0.3.|ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|The responses are analysed using an ANCOVA with treatment and stratification factor as fixed factors and baseline value as covariate. Before analysis, missing data were multiple imputed using observed data from subjects within the same group defined by randomised treatment, using a regression model including stratification factor as categorical effect and data from baseline and all previous visits as covariates.||-0.56|-0.82|<0.0001
82610416|NCT03191396|164937673|SUPERIORITY||Treatment difference|-0.69|||<|0.0001|TWO_SIDED|95.0|-0.82|-0.56|||ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|||-0.56|-0.82|<0.0001
82610417|NCT03191396|164937674|SUPERIORITY||Treatment difference|-3.83|||<|0.0001|TWO_SIDED|95.0|-4.57|-3.09|||ANCOVA||Semaglutide 1.0 mg - Liraglutide 1.2 mg|||-3.09|-4.57|<0.0001
82610418|NCT03726671|164937726|OTHER|||||||0.0247|||||||Repeated measures ANOVA|||Betaine IER||||0.0247
82610419|NCT03726671|164937726|OTHER||||||<|0.0001|||||||Repeated measures ANOVA|||Choline IER||||<0.0001
82610420|NCT03726671|164937726|OTHER|||||||0.0002|||||||Repeated measures ANOVA|||Phosphatidylcholine IER||||0.0002
82610421|NCT03726671|164937727|OTHER||Odds Ratio (OR)|7.16|||<|0.001|TWO_SIDED|95.0|3.48|14.7|||Fisher Exact|||||14.7|3.48|<0.001
82610422|NCT03726671|164937727|OTHER||Odds Ratio (OR)|4.09||||0.01|TWO_SIDED|95.0|2.06|8.11|||Fisher Exact|||||8.11|2.06|0.01
82610423|NCT03726671|164937727|OTHER||Odds Ratio (OR)|1.75||||0.086|TWO_SIDED|95.0|0.86|3.58|||Fisher Exact|||||3.58|0.86|0.086
82610424|NCT03726671|164937728|OTHER|||||||0.6985|||||||t-test, 2 sided|||Betaine IER||||0.6985
82610425|NCT03726671|164937728|OTHER|||||||0.035|||||||t-test, 2 sided|||Choline IER||||0.0350
82610426|NCT03726671|164937728|OTHER|||||||0.6864|||||||t-test, 2 sided|||Phosphatidylcholine IER||||0.6864
82610427|NCT03726671|164937729|EQUIVALENCE|There are linear combinations of metabolites that differentiate (non-equivalent) the 25% choline diet from the 100% choline diet.|||||<|0.049|||||||Paired 2-sided t-test||||Supervised OPLSDA was used to determine the variable importance to projections of metabolites/signals that differentiated the 25% and 100% choline diet arms.|||<0.049
82610428|NCT03726671|164937730|OTHER|||||||0.9567|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Pre-Menopausal Females||||0.9567
82610429|NCT03726671|164937730|OTHER|||||||0.0899|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Post-Menopausal Females||||0.0899
82657945|NCT03553823|165032289|SUPERIORITY||Difference secukinumab vs guselkumab|20.0||||0.1715|TWO_SIDED|95.0|-13.3|50.3|||Fisher Exact|The statistical model was the Fisher's exact test for the difference in proportions.||"Proportion of subjects whose plaque achieves clear or almost clear status (TCS = 0-2)"||50.3|-13.3|0.1715
82610430|NCT03726671|164937730|OTHER|||||||0.9003|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Betaine IER in Males||||0.9003
82610431|NCT03726671|164937730|OTHER|||||||0.9932|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Pre-Menopausal Females||||0.9932
82610432|NCT03726671|164937730|OTHER|||||||0.3984|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Post-Menopausal Females||||0.3984
82610433|NCT03726671|164937730|OTHER|||||||0.308|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Choline IER in Males||||0.3080
82610434|NCT03726671|164937730|OTHER|||||||0.7603|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Pre-Menopausal Females||||0.7603
82610435|NCT03726671|164937730|OTHER|||||||0.2995|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Post-Menopausal Females||||0.2995
82610436|NCT03726671|164937730|OTHER|||||||0.0003|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||Diet x SNP interaction effect on Phosphatidylcholine IER in Males||||0.0003
82610437|NCT03726671|164937730|OTHER|||||||0.1303|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Pre-Menopausal Females||||0.1303
82610438|NCT03726671|164937730|OTHER|||||||0.0015|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Post-Menopausal Females||||0.0015
82610439|NCT03726671|164937730|OTHER|||||||0.4185|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Betaine IER in Males||||0.4185
82610440|NCT03726671|164937730|OTHER|||||||0.3464|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Pre-Menopausal Females||||0.3464
82610441|NCT03726671|164937730|OTHER|||||||0.0019|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Post-Menopausal Females||||0.0019
82610442|NCT03726671|164937730|OTHER|||||||0.2091|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Choline IER in Males||||0.2091
82610443|NCT03726671|164937730|OTHER|||||||0.8141|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Pre-Menopausal Females||||0.8141
82610444|NCT03726671|164937730|OTHER|||||||0.0187|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Post-Menopausal Females||||0.0187
82657946|NCT03603314|165032290|SUPERIORITY|||||||0.3419|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3419
82610445|NCT03726671|164937730|OTHER|||||||0.0107|||||||Mixed Models Analysis|The model evaluates effects from SNP, diet and SNP x diet interaction. Due to crossover design, period and sequence effects were adjusted in the model||SNP effect on Phosphatidylcholine IER in Males||||0.0107
82610446|NCT03726671|164937731|OTHER|||||||0.0842|||||||Mixed Models Analysis|||||||0.0842
82610447|NCT03726671|164937731|OTHER|||||||0.0819|||||||Wilcoxon (Mann-Whitney)|Non-parametric method was used due to data deviation from normality.||||||0.0819
82610448|NCT03726671|164937731|OTHER|||||||0.9015|||||||t-test, 2 sided|||||||0.9015
82610449|NCT03726671|164937731|OTHER|||||||0.1191|||||||Wilcoxon (Mann-Whitney)|Non-parametric method was used due to data deviation from normality.||||||0.1191
82610450|NCT03726671|164937732|OTHER|||||||0.2351|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. betaine IER||||0.2351
82610451|NCT03726671|164937732|OTHER|||||||0.4501|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.4501
82610452|NCT03726671|164937732|OTHER|||||||0.4136|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.4136
82610453|NCT03726671|164937732|OTHER|||||||0.9463|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Betaine IER||||0.9463
82610454|NCT03726671|164937732|OTHER|||||||0.0675|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.0675
82610455|NCT03726671|164937732|OTHER|||||||0.2863|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.2863
82610456|NCT03726671|164937732|OTHER|||||||0.5552|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Betaine IER||||0.5552
82610457|NCT03726671|164937732|OTHER|||||||0.4209|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Phosphatidylcholine IER||||0.4209
82610458|NCT03726671|164937732|OTHER|||||||0.6647|||||||Pearson's Correlation Coefficient|||Liver choline concentration vs. Choline IER||||0.6647
82610459|NCT01269125|164937735|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|STANDARD_ERROR_OF_MEAN|0.0||0.8|TWO_SIDED|95.0|-0.2|0.3|||Chi-squared|||||0.3|-0.2|0.80
82610460|NCT01269125|164937739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.05|STANDARD_ERROR_OF_MEAN|0.0||0.8||95.0|-0.2|0.3|||Chi-squared|||||0.3|-0.2|0.80
82610461|NCT01269125|164937739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-0.1|STANDARD_ERROR_OF_MEAN|0.0||0.48||95.0|-0.4|0.2|||Chi-squared|||In order to handle the problem of small sample size combined with the inability to identify the theoretical statistical distribution of data, bootstrap techniques are used (10). Ader and co-workers recommend the bootstrap procedure when (a) the theoretical distribution is complicated or unknown, and/or (b) power calculations have to be performed and a small sample is available (11). Finally, the bootstrap distribution has been used in order to calculate all the confidence intervals.||0.2|-0.4|0.48
82610462|NCT01269125|164937739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-0.15|STANDARD_ERROR_OF_MEAN|0.0||0.22||95.0|-0.4|0.1|||Chi-squared|||In order to handle the problem of small sample size combined with the inability to identify the theoretical statistical distribution of data, bootstrap techniques are used (10). Ader and co-workers recommend the bootstrap procedure when (a) the theoretical distribution is complicated or unknown, and/or (b) power calculations have to be performed and a small sample is available (11). Finally, the bootstrap distribution has been used in order to calculate all the confidence intervals.||0.1|-0.4|0.22
82657947|NCT03603314|165032290|SUPERIORITY|||||||0.5181|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.5181
82610463|NCT02340104|164937740|EQUIVALENCE|Geometric Least Square (LS) Means values were calculated using Log pharmacokinetic (PK) model with treatment, participant, random error as model with treatment as a fixed effect and participant and error as random effects.|Ratio of Geometric LS Means|0.789|||||TWO_SIDED|90.0|0.769|0.81|||||Geometric Least Square (LS) Means values were calculated using Log pharmacokinetic (PK) model with treatment, participant, random error as independent variables, where participant was fitted as a random effect.|||0.810|0.769|
82610464|NCT01040832|164937742|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||0.793|TWO_SIDED|95.0|0.7|1.6|||Stratified log rank|||||1.6|0.7|0.793
82610465|NCT01040832|164937743|SUPERIORITY_OR_OTHER||||||>|0.999||95.0|||||Cochran-Mantel-Haenszel|||||||>0.999
82610466|NCT01040832|164937744|SUPERIORITY_OR_OTHER|||||||0.557||95.0|||||Cochran-Mantel-Haenszel|||||||0.557
82610467|NCT00417612|164937778|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|TWO_SIDED||||||ANOVA|||||||0.007
82610468|NCT01981122|164937809|SUPERIORITY|||||||0.095|||||||Mixed Models Analysis|Repeated Measures||||||.095
82610469|NCT01592851|164937810|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.83|||<|0.0001|TWO_SIDED|95.0|-1.03|-0.63||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.63|-1.03|<0.0001
82610470|NCT01592851|164937811|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.26||||0.0006|TWO_SIDED|95.0|-0.41|-0.12||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.12|-0.41|0.0006
82610471|NCT01592851|164937812|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.45|||<|0.0001|TWO_SIDED|95.0|-0.63|-0.28||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a negative difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||-0.28|-0.63|<0.0001
82610472|NCT01592851|164937813|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|19.42|||<|0.0001|TWO_SIDED|95.0|13.7|25.15||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||25.15|13.70|<0.0001
82610473|NCT01592851|164937814|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.84||||0.0021|TWO_SIDED|95.0|2.54|11.13||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||11.13|2.54|0.0021
82610474|NCT01592851|164937815|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|3.87||||0.007|TWO_SIDED|95.0|1.08|6.65||No adjustment made for multiple comparisons, as primary comparison was pre-specified.|ANCOVA|ANCOVA with treatment as fixed factor and baseline Schiff Score as covariate.|Difference is 0.454% SnF minus 0.76% NaMFP such that a positive difference favours first named treatment.|Null hypothesis considered change from baseline to be same for both treatments.||6.65|1.08|0.0070
82657948|NCT03603314|165032291|SUPERIORITY|||||||0.3666|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3666
82610475|NCT00521339|164937838|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82610476|NCT00521339|164937839|SUPERIORITY_OR_OTHER_LEGACY|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
82610477|NCT00521339|164937840|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82610478|NCT00521339|164937841|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82610479|NCT00521339|164937842|SUPERIORITY_OR_OTHER_LEGACY|||||||0.632|||||||Wilcoxon (Mann-Whitney)|||||||0.632
82610480|NCT00521339|164937843|SUPERIORITY_OR_OTHER_LEGACY|||||||0.242|||||||Wilcoxon (Mann-Whitney)|||||||0.242
82610481|NCT00521339|164937844|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329|||||||Wilcoxon (Mann-Whitney)|||||||0.329
82610482|NCT00521339|164937845|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.130
82610483|NCT00521339|164937847|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.008
82610484|NCT00521339|164937848|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
82610485|NCT00521339|164937849|SUPERIORITY_OR_OTHER_LEGACY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82610486|NCT00521339|164937851|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||||||0.014
82610487|NCT00521339|164937852|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
82610488|NCT00521339|164937853|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82610489|NCT00521339|164937854|SUPERIORITY_OR_OTHER_LEGACY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||||||0.018
82610490|NCT00521339|164937855|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82610491|NCT00521339|164937856|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
82610492|NCT00521339|164937857|SUPERIORITY_OR_OTHER_LEGACY|||||||0.217|||||||Wilcoxon (Mann-Whitney)|||||||0.217
82610493|NCT00521339|164937858|SUPERIORITY_OR_OTHER_LEGACY|||||||0.539|||||||Wilcoxon (Mann-Whitney)|||||||0.539
82610494|NCT00521339|164937859|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169|||||||Wilcoxon (Mann-Whitney)|||||||0.169
82610495|NCT00521339|164937860|SUPERIORITY_OR_OTHER_LEGACY|||||||0.339|||||||Wilcoxon (Mann-Whitney)|||||||0.339
82610496|NCT00521339|164937861|SUPERIORITY_OR_OTHER_LEGACY|||||||0.898|||||||Wilcoxon (Mann-Whitney)|||||||0.898
82610497|NCT00521339|164937862|SUPERIORITY_OR_OTHER_LEGACY|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
82610498|NCT02940886|164937873|NON_INFERIORITY|Non-inferiority could be claimed if the lower bound of the 95% confidence interval (CI) was above -0.5 g/dL.|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.13|0.13|||||Mixed Model for Repeated Measurement was used for testing and included the fixed categorical effects of treatment, week, treatment-by-week interaction, strata, and the continuous covariates of baseline Hb and baseline Hb-by-week interaction.|"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose treatment group and with N=500 subjects in the iron sucrose treatment group, assuming no difference between the treatment groups and assuming a common standard deviation (SD) of 1.5 g/dL, the power was 100% for demonstrating non-inferiority of the change in Hb from baseline to week 8, using a non-inferiority margin of -0.5 g/dL.~The significance level was set to 5%."||0.13|-0.13|
82610499|NCT02940886|164937874|OTHER||95% two-sided CI (iron isomaltoside)|0.3|||||TWO_SIDED|95.0|0.06|0.88||||||"Power:~With N=1000 subjects in the iron isomaltoside/ferric derisomaltose, the power was 88% to demonstrate that the upper bound of the 95% CI of the incidence of treatment-emergent serious and/or severe non-serious hypersensitivity AEs was less than 3%.~The significance level was set to 5%."||0.88|0.06|
82610500|NCT02940886|164937874|OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|95.0|-0.91|0.71||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the individual trial with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.71|-0.91|
82610501|NCT02940886|164937874|NON_INFERIORITY|Non-inferiority can be claimed if the upper bound of the 95% CI is below 1.5 % point.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-0.57|0.48||||||Risk difference between iron isomaltoside/ferric derisomaltose and iron sucrose was assessed for the pooled FERWON-IDA and FERWON-NEPHRO trials (2008 subjects treated with iron isomaltoside/ferric derisomaltose and 1000 subjects treated with iron sucrose) with 95% Newcombe CI adjusted for stratum using the Cochran-Mantel-Haenszel method.||0.48|-0.57|
82610502|NCT02940886|164937875|SUPERIORITY|||||||0.5695|||||||Fisher Exact|||Adjudicated and confirmed treatment-emergent composite cardiovascular AEs. Any treatment emergent composite cardiovascular AEs were included in the statistical evaluation. The overall incidence of adjudicated and confirmed composite cardiovascular AEs was tabulated and compared between the treatment groups by a Fisher's exact test.||||0.5695
82610503|NCT02940886|164937876|SUPERIORITY|||||||0.3913|||||||Log Rank|||The time to first adjudicated and confirmed composite cardiovascular AEs was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a log-rank test.||||0.3913
82610504|NCT02940886|164937878|SUPERIORITY||Odds Ratio (OR)|2.44||||0.0077|TWO_SIDED|95.0|1.27|4.72|||Repeated measures logistic regressioin|||"Week 1~Hb increase of ≥2 g/dL from baseline to week 1.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||4.72|1.27|0.0077
82610505|NCT02940886|164937878|SUPERIORITY||Odds Ratio (OR)|2.42|||<|0.0001|TWO_SIDED|95.0|1.8|3.26|||Repeated measures logistic regressioin|||"Week 2~Hb increase of ≥2 g/dL from baseline to week 2.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||3.26|1.80|<0.0001
82657949|NCT03603314|165032291|SUPERIORITY|||||||0.5776|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.5776
82657950|NCT03603314|165032292|SUPERIORITY|||||||0.4094|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4094
82492437|NCT02100514|164677945|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-1.4|STANDARD_ERROR_OF_MEAN|0.12||||95.0|-1.6|-1.2||||||Week 52: LS mean difference and associated 95% CI were derived from MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-1.2|-1.6|
82499432|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|STANDARD_ERROR_OF_MEAN|7.8||||90.0|-11.06|14.66|||ANCOVA|||Extension Month 6; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||14.66|-11.06|
82610506|NCT02940886|164937878|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1049|TWO_SIDED|95.0|0.96|1.58|||Repeated measures logistic regressioin|||"Week 4~Hb increase of ≥2 g/dL from baseline to week 4.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.58|0.96|0.1049
82610507|NCT02940886|164937878|SUPERIORITY||Odds Ratio (OR)|1.05||||0.7032|TWO_SIDED|95.0|0.8|1.38|||Repeated measures logistic regressioin|||"Week 8~Hb increase of ≥2 g/dL from baseline to week 8.~Proportion of Hb responders to each week was analysed using a repeated measures logistic regression model with treatment, visit, strata, and treatment by visit interaction as fixed effects and baseline value as covariate."||1.38|0.80|0.7032
82610508|NCT02940886|164937879|SUPERIORITY|||||||0.088|||||||Log Rank|||Time to Hb response was estimated using the Kaplan-Meier method and the hypothesis of no treatment difference was assessed by a 2-sided log-rank test.||||0.0880
82610509|NCT02940886|164937880|SUPERIORITY||Odds Ratio (OR)|1.14||||0.242|TWO_SIDED|95.0|0.92|1.41|||Regression, Logistic|||The proportion of subjects who achieved a Hb level of \>12 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects. The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value.||1.41|0.92|0.2420
82610510|NCT02940886|164937881|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8746|TWO_SIDED|95.0|0.81|1.28|||Regression, Logistic|||"The proportion of subjects who achieved an increase in Hb concentration ≥2 g/dL at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose was presented with 95% CI and corresponding p-value."||1.28|0.81|0.8746
82610511|NCT02940886|164937882|SUPERIORITY||Odds Ratio (OR)|4.52|||<|0.0001|TWO_SIDED|95.0|3.58|5.71|||Regression, Logistic|||"Proportion of subject who achieved a s-ferritin level of ≥100 ng/mL AND a TSAT of 20-50% at any time from week 1 to week 8 was analysed using a logistic regression model with treatment and strata as fixed effects.~The estimated treatment ratio of iron isomaltoside/ferric derisomaltose versus iron sucrose is presented with 95% CI and corresponding p-value."||5.71|3.58|<0.0001
82610512|NCT02940886|164937883|SUPERIORITY||Mean Difference (Final Values)|0.26|||<|0.0001|TWO_SIDED|95.0|0.19|0.34|||Mixed model for repeated measures|||"Week 1~Change in Hb concentration from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.34|0.19|<0.0001
82610513|NCT02940886|164937883|SUPERIORITY||Mean Difference (Final Values)|0.29|||<|0.0001|TWO_SIDED|95.0|0.19|0.38|||Mixed model for repeated measures|||"Week 2~Change in Hb concentration from baseline to week 2 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.38|0.19|<0.0001
82610514|NCT02940886|164937883|SUPERIORITY||Mean Difference (Final Values)|0.09||||0.1091|TWO_SIDED|95.0|-0.02|0.2|||Mixed model for repeated measures|||"Week 4~Change in Hb concentration from baseline to week 4 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates."||0.20|-0.02|0.1091
82610515|NCT02940886|164937884|SUPERIORITY||Mean Difference (Final Values)|267.7|||<|0.0001|TWO_SIDED|95.0|246.3|289.0|||Mixed model for repeated measures|||"Week 1~Change in concentrations of s-ferritin from baseline to week 1 was analysed using a MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||289.0|246.3|<0.0001
82610516|NCT02940886|164937884|SUPERIORITY||Mean Difference (Final Values)|41.7|||<|0.0001|TWO_SIDED|95.0|25.6|57.8|||Mixed model for repeated measures|||"Week 2~Change in concentrations of s-ferritin from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||57.8|25.6|<0.0001
82610517|NCT02940886|164937884|SUPERIORITY||Mean Difference (Final Values)|-9.0||||0.115|TWO_SIDED|95.0|-20.3|2.2|||Mixed model for repeated measures|||"Week 4~Change in concentrations of s-ferritin from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.2|-20.3|0.1150
82610518|NCT02940886|164937884|SUPERIORITY||Mean Difference (Final Values)|-8.3||||0.0812|TWO_SIDED|95.0|-17.7|1.0|||Mixed model for repeated measures|||"Week 8~Change in concentrations of s-ferritin from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.0|-17.7|0.0812
82610519|NCT02940886|164937885|SUPERIORITY||Mean Difference (Final Values)|11.4|||<|0.0001|TWO_SIDED|95.0|10.1|12.7|||Mixed model for repeated measures|||"Week 1~Change in TSAT from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||12.7|10.1|<0.0001
82610520|NCT02940886|164937885|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.0001|TWO_SIDED|95.0|1.2|3.6|||Mixed model for repeated measures|||"Week 2~Change in TSAT from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||3.6|1.2|0.0001
82610521|NCT02940886|164937885|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.0162|TWO_SIDED|95.0|0.2|2.1|||Mixed model for repeated measures|||"Week 4~Change in TSAT from baseline to week 4 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||2.1|0.2|0.0162
82657951|NCT03603314|165032292|SUPERIORITY|||||||0.4602|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4602
82499433|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.72|STANDARD_ERROR_OF_MEAN|9.02||||90.0|-23.61|6.17|||ANCOVA|||Extension Month 9; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||6.17|-23.61|
82610522|NCT02940886|164937885|SUPERIORITY||Mean Difference (Final Values)|0.9||||0.0569|TWO_SIDED|95.0|0.0|1.8|||Mixed model for repeated measures|||"Week 8~Change in TSAT from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, include 95% CIs and corresponding p-value."||1.8|0.0|0.0569
82657952|NCT03603314|165032293|SUPERIORITY|||||||0.1269|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.1269
82610523|NCT02940886|164937886|SUPERIORITY||Mean Difference (Final Values)|43.7|||<|0.0001|TWO_SIDED|95.0|38.1|49.3|||Mixed model for repeated measures|||"Week 1~Change in s-iron from baseline to week 1 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||49.3|38.1|<0.0001
82610524|NCT02940886|164937886|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.0375|TWO_SIDED|95.0|0.3|9.8|||Mixed model for repeated measures|||"Week 2~Change in s-iron from baseline to week 2 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||9.8|0.3|0.0375
82610525|NCT02940886|164937886|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.6027|TWO_SIDED|95.0|-4.0|2.3|||Mixed model for repeated measures|||"Week 4~Change in s-iron from baseline to week 4 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||2.3|-4.0|0.6027
82610526|NCT02940886|164937886|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.8207|TWO_SIDED|95.0|-2.7|3.4|||Mixed model for repeated measures|||"Week 8~Change in s-iron from baseline to week 8 was analysed using a Mixed Model for Repeated Measurement (MMRM) including treatment, week, treatment-by-week interaction, and strata as factors and baseline value and baseline value-by-week interaction as covariates.~The estimated treatment differences based on the least square means of the treatment-by-week interaction effects are presented by week, including 95% CIs and corresponding p-value."||3.4|-2.7|0.8207
82610527|NCT02940886|164937887|SUPERIORITY||Mean Difference (Final Values)|1.02||||0.0422|TWO_SIDED|95.0|0.04|2.01|||Mixed model for repeated measures|||"Week 1~Change in fatigue symptoms score from baseline to week 1 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||2.01|0.04|0.0422
82610528|NCT02940886|164937887|SUPERIORITY||Mean Difference (Final Values)|-0.39||||0.4646|TWO_SIDED|95.0|-1.44|0.66|||Mixed model for repeated measures|||"Week 2~Change in fatigue symptoms score from baseline to week 2 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.66|-1.44|0.4646
82610529|NCT02940886|164937887|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.5703|TWO_SIDED|95.0|-1.39|0.76|||Mixed model for repeated measures|||"Week 8~Change in fatigue symptoms score from baseline to week 8 was analysed using MMRM including treatment, week, treatment-by-week interaction, and strata as factors and baseline score and baseline score-by-week interaction as covariates."||0.76|-1.39|0.5703
82610530|NCT00634543|164937907|NON_INFERIORITY_OR_EQUIVALENCE|Non inferiority was demonstrated if lower confidence limit of 2-sided 95% CI was less than the non-inferiority margin of 1.39.|Mean Difference (Net)|0.39||||0.2143|TWO_SIDED|95.0|-0.23|1.01|||t-test, 2 sided|P-value was calculated for change from baseline in pain intensity score at Day 43.||||1.01|-0.23|0.2143
82610531|NCT00634543|164937908|SUPERIORITY_OR_OTHER|||||||0.7539|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 15.||||||0.7539
82610532|NCT00634543|164937908|SUPERIORITY_OR_OTHER|||||||0.5905|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 29.||||||0.5905
82657953|NCT03603314|165032293|SUPERIORITY|||||||0.2257|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.2257
82657954|NCT03603314|165032294|SUPERIORITY|||||||0.3121|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.3121
82610533|NCT00634543|164937908|SUPERIORITY_OR_OTHER|||||||0.7407|||||||Chi-squared|P-value was evaluated for pain relief in tramadol hydrochloride/ acetaminophen versus gabapentin groups at Day 43.||||||0.7407
82610534|NCT00634543|164937909|SUPERIORITY_OR_OTHER|||||||0.3504|||||||Chi-squared|P-value was evaluated for all categories (bad, no change, good and very good).||||||0.3504
82610535|NCT00634543|164937910|SUPERIORITY_OR_OTHER|||||||0.569|||||||Chi-squared|P-value was evaluated for all categories (bad, no change, good and very good).||||||0.5690
82657955|NCT03603314|165032294|SUPERIORITY|||||||0.4965|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.4965
82610536|NCT04243369|164937917|OTHER|Only descriptive statistics was provided. The rate and the exact 95% CI of the rate using the Clopper-Pearson Exact method is calculated.|Rate|100.0|||||TWO_SIDED|95.0|88.4|100.0||||||||100|88.4|
82610537|NCT01954628|164937929|SUPERIORITY_OR_OTHER||Least sqaure mean difference|23.7||||0.759|TWO_SIDED|95.0|-128.3|175.7||AAC were compared between treatments using an analysis of variance model adjusting for treatment and region as factors and including the baseline score as a covariate.|ANOVA|||Sample size based on area above the daily EXACT score curve (AAC) from Day 1 to Day 29 from subjects with an acute COPD exacerbation, collected over 28 days. Assuming a residual SD of 500 points, a sample size of 200 subjects per arm would be expected to have an 80% power to detect a true treatment difference in the AAC of 140 points over 12-weeks treatment, using a 2-sided test; alpha-level of 0.05.This difference corresponds to a mean daily improvement of 1.67 points on the EXACT symptom score||175.7|-128.3|0.759
82610538|NCT01954628|164937930|SUPERIORITY_OR_OTHER||Least sqaure mean difference|-0.34||||0.588|TWO_SIDED|95.0|-1.57|0.89|||ANOVA|||ANOVA model with fixed factors treatment, region and baseline total CAT score as covariate were used. Missing post-treatment data were imputed using the Last Observation Carried Forward principle.||0.89|-1.57|0.588
82610539|NCT01954628|164937931|SUPERIORITY_OR_OTHER||Least sqaure mean difference|1.083||||0.646|TWO_SIDED|95.0|0.771|1.52|||Negative binomial regression model|Negative binomial regression model with fixed factors treatment, region and time in study as offset.||The number of subjects with at least one COPD exacerbation were summarised by treatment group.||1.520|0.771|0.646
82610540|NCT01954628|164937934|SUPERIORITY_OR_OTHER|||||||0.226|||||||ANOVA|||Missing post-treatment data was imputed using the Last Observation Carried Forward principle.||||0.226
82610541|NCT01650779|164937943|SUPERIORITY_OR_OTHER|||||||0.0002|||||||One sample t-test|||Baseline versus Month 2: Analysis was performed using one sample t-test.||||0.0002
82610542|NCT01650779|164937943|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||Baseline versus Month 4: Analysis was performed using one sample t-test.||||<0.0001
82610543|NCT01650779|164937943|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||One sample t-test|||Baseline versus Month 6: Analysis was performed using one sample t-test.||||<0.0001
82610544|NCT01650779|164937944|SUPERIORITY_OR_OTHER|||||||0.1178|||||||One sample t-test|||Baseline versus Month 2: Analysis was performed using one sample t-test.||||0.1178
82610545|NCT01650779|164937944|SUPERIORITY_OR_OTHER|||||||0.1176|||||||One sample t-test|||Baseline versus Month 4: Analysis was performed using one sample t-test.||||0.1176
82610546|NCT01650779|164937944|SUPERIORITY_OR_OTHER|||||||0.0322|||||||One sample t-test|||Baseline versus Month 6: Analysis was performed using one sample t-test.||||0.0322
82610547|NCT01650779|164937945|SUPERIORITY_OR_OTHER|||||||0.5811|||||||One sample test of median (sign test)|||Baseline versus Month 2: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.5811
82610548|NCT01650779|164937945|SUPERIORITY_OR_OTHER|||||||0.7744|||||||One sample test of median (sign test)|||Baseline versus Month 4: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.7744
82657956|NCT03603314|165032295|SUPERIORITY|||||||0.0976|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.0976
82657957|NCT03603314|165032295|SUPERIORITY|||||||0.1762|||||||Mixed Models Analysis|||The null and alternative hypotheses for Part 1 of the study were as follows, where μH, μL and μP were defined as the mean change in PTA of the high dose, low dose, and placebo respectively: H0H: μH - μP = 0, HAH: μH - μP \<0 (greater decrease on high dose) H0L: μL - μP = 0, HAL: μL - μP \<0 (greater decrease on low dose)||||0.1762
82610549|NCT01650779|164937945|SUPERIORITY_OR_OTHER|||||||0.3877|||||||One sample test of median (sign test)|||Baseline versus Month 6: Analysis was performed using one sample test of median (sign test). The percent change and absolute change from baseline in urine GL-3 levels were not normally distributed and thus medians were evaluated.||||0.3877
82610550|NCT01183858|164937977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||0.671|TWO_SIDED|95.0|0.83|1.33||Unstratified analysis.|Log Rank|||||1.33|0.83|0.671
82610551|NCT01183858|164937983|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.625|TWO_SIDED|95.0|0.84|1.33|||Log Rank|||||1.33|0.84|0.625
82610552|NCT00641147|164938001|SUPERIORITY|||||||0.58|||||||t-test, 2 sided|||||||0.58
82610553|NCT00641147|164938001|SUPERIORITY|||||||0.57|||||||ANCOVA|||||||0.57
82610554|NCT00641147|164938002|SUPERIORITY|||||||0.76|||||||t-test, 2 sided|||||||0.76
82657958|NCT01389102|165032296|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82657959|NCT01389102|165032296|SUPERIORITY_OR_OTHER|||||||0.0099||95.0|||||ANCOVA|||||||0.0099
82657960|NCT01389102|165032296|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||ANCOVA|||||||0.0004
82657961|NCT01389102|165032297|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82657962|NCT01389102|165032297|SUPERIORITY_OR_OTHER|||||||0.0406||95.0|||||ANCOVA|||||||0.0406
82657963|NCT01389102|165032297|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82610555|NCT00641147|164938003|SUPERIORITY|||||||0.85|||||||Chi-squared|||||||0.85
82610556|NCT00641147|164938004|SUPERIORITY|||||||0.16|||||||Chi-squared|||||||0.16
82610557|NCT00641147|164938005|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82610558|NCT00641147|164938006|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
82610559|NCT00641147|164938007|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.24
82610560|NCT00641147|164938008|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
82610561|NCT00641147|164938009|SUPERIORITY|||||||0.93|||||||t-test, 2 sided|||||||0.93
82610562|NCT00641147|164938010|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82610563|NCT00641147|164938011|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82610564|NCT00641147|164938012|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|||||||0.09
82610565|NCT00641147|164938016|SUPERIORITY|||||||0.95|||||||Chi-squared|||||||0.95
82610566|NCT01629667|164938022|SUPERIORITY_OR_OTHER||Least square mean difference|-1.77||||0.14|TWO_SIDED|95.0|-4.13|0.59|||ANCOVA|||||0.59|-4.13|0.140
82610567|NCT01629667|164938022|SUPERIORITY_OR_OTHER||Least square mean difference|-1.41||||0.234|TWO_SIDED|95.0|-3.73|0.91|||ANCOVA|||||0.91|-3.73|0.234
82610568|NCT03065530|164938087|OTHER||||||<|0.05|||||||Kruskal-Wallis|||The sample size was calculated on the basis of an our initial pilot study, and the SD was 1.4 between the four groups. We hypothesized that the differences in VAS between the four groups and the SDs would be 15%. A power analysis suggested that there will be 80% power to detect differences at an α=0.05 significance level (two-tailed), including 24 individuals per treatment group. Considering the exclusion of 25% of patients, 30 parturients were eventually recruited in each group.||||<0.05
82657964|NCT00050778|165032299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.24||||0.0006|TWO_SIDED|95.0|0.11|0.545||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0165.|Cox Proportional Hazards Regression|||Cox proportional hazards (PH) regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.545|0.110|0.0006
82610569|NCT01745055|164938112|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|103.06|||||TWO_SIDED|90.0|99.0|107.29||||||Natural log transformed, AUC (0-12) of CP-690,550 was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.29|99.00|
82610570|NCT01745055|164938113|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|102.71|||||TWO_SIDED|90.0|93.79|112.47||||||Natural log transformed, Cmax of CP-690,550 was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||112.47|93.79|
82610571|NCT01745055|164938114|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|89.53|||||TWO_SIDED|90.0|77.38|103.57||||||Natural log transformed, AUClast of MTX was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||103.57|77.38|
82610572|NCT01745055|164938115|SUPERIORITY_OR_OTHER||Ratio of Adjusted Geometric Means|87.25|||||TWO_SIDED|90.0|76.03|100.12||||||Natural log transformed, Cmax of MTX was analyzed using mixed effect model with treatment as fixed effects and participant as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||100.12|76.03|
82610573|NCT01720667|164938137|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Comparison of 24 hour seizure termination rates using a Fisher's exact test.||||<0.001
82610574|NCT01720667|164938138|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Comparison of seizure cessation at 48 hours using Fisher's exact test||||<0.001
82610575|NCT02052960|164938161|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.86|TWO_SIDED|95.0|0.736|1.359|||Log Rank|||||1.359|0.736|0.86
82610576|NCT02052960|164938162|SUPERIORITY||Mean Difference (Net)|-1.9||||0.77|TWO_SIDED|95.0|-14.5|10.7|||Chi-squared|||||10.7|-14.5|0.77
82610577|NCT02052960|164938163|SUPERIORITY||Mean Difference (Net)|-1.21||||0.83|TWO_SIDED|95.0|-12.05|9.63|||Chi-squared|||||9.63|-12.05|0.83
82610578|NCT02052960|164938164|SUPERIORITY||Hazard Ratio (HR)|1.057||||0.7|TWO_SIDED|95.0|0.814|1.372|||Log Rank|||||1.372|0.814|0.70
82492438|NCT02100514|164677946|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.4|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.4|-0.3||||||Week 12: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.4|
82657965|NCT00050778|165032299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||0.0021|TWO_SIDED|95.0|0.151|0.658||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0165.|Cox Proportional Hazards Regression|||Cox PH regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.658|0.151|0.0021
82492439|NCT02100514|164677946|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.02||||95.0|-0.3|-0.3||||||Week 24: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.3|-0.3|
82492440|NCT02100514|164677946|SUPERIORITY_OR_OTHER||LS mean difference compared to placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.04||||95.0|-0.4|-0.2||||||Week 52: LS mean difference and associated 95% confidence interval CI were derived from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region and triglyceride subgroup. An unstructured variance covariance matrix was used.||-0.2|-0.4|
82657966|NCT00050778|165032299|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28|||<|0.0001|TWO_SIDED|95.0|0.152|0.515|||Cox Proportional Hazards Regression|||Cox PH regression model using treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country) as covariates was used.||0.515|0.152|<0.0001
82492441|NCT02100514|164677947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|53.9||||||95.0|32.08|90.59||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||90.59|32.08|
82492442|NCT02100514|164677947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.0||||||95.0|11.15|26.07||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||26.07|11.15|
82492443|NCT02100514|164677947|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.1||||||95.0|6.18|13.48||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||13.48|6.18|
82492444|NCT02100514|164677948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|156.4||||||95.0|48.84|501.11||||||Week 12: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||501.11|48.84|
82610579|NCT02052960|164938165|SUPERIORITY||Hazard Ratio (HR)|1.012||||0.96|TWO_SIDED|95.0|0.734|1.396|||Log Rank|||||1.396|0.734|0.96
82610580|NCT00949650|164938273|SUPERIORITY_OR_OTHER|||||||0.0002||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0002
82492445|NCT02100514|164677948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|110.8||||||95.0|39.77|308.46||||||Week 24: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||308.46|39.77|
82492446|NCT02100514|164677948|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|43.3||||||95.0|19.52|96.13||||||Week 52: Odds ratio, associated 95% CI were derived from a logistic regression model with fixed effects for treatment group, baseline value, geographical region and triglyceride subgroup.||96.13|19.52|
82492447|NCT02096731|164677955|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.12|||||TWO_SIDED|95.0|0.92|1.37|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.37|0.92|
82492448|NCT02096731|164677956|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.69|1.1|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.10|0.69|
82657967|NCT00050778|165032300|SUPERIORITY_OR_OTHER||Rate ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.196|0.552||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0040.|Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.552|0.196|<0.0001
82492449|NCT02096731|164677957|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|1.03|1.3|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.30|1.03|
82492450|NCT02096731|164677958|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.81|1.36|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.36|0.81|
82492451|NCT02096731|164677959|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|1.23|1.5|||||"HR adjusted for 10 year age groups, sex, calendar year of cohort entry, the decile of propensity score, ipratropium use prior to cohort entry and time since entry into base cohort.~Ratio calculated as combination therapy divided by monotherapy."|||1.50|1.23|
82657968|NCT00050778|165032300|SUPERIORITY_OR_OTHER||Rate ratio|0.23|||<|0.0001|TWO_SIDED|95.0|0.126|0.431||An alpha-sharing approach was used to adjust for multiple treatment group comparisons, endpoints, and two pre-planned interim analyses, including a Lan-Demets error-spending function. Pre-specified threshold for statistical significance was 0.0040.|Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.431|0.126|<0.0001
82657969|NCT00050778|165032300|SUPERIORITY_OR_OTHER||Rate ratio|0.28|||<|0.0001|TWO_SIDED|95.0|0.176|0.441|||Andersen-Gill Model|||Treatment effects were estimated using an Anderson-Gill multiplicative intensity model with robust variance estimation. Covariates included treatment group, Baseline EDSS group (grouped by less than or equal to 1.5 and greater than 1.5), and country (investigative center grouped by country).||0.441|0.176|<0.0001
82492452|NCT01786668|164677976|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.8|||||TWO_SIDED|95.0|5.0|30.3|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||30.3|5.0|
82492453|NCT01786668|164677976|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.9|||||TWO_SIDED|95.0|8.4|37.7|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||37.7|8.4|
82492454|NCT01786668|164677976|SUPERIORITY_OR_OTHER||Risk Difference (RD)|27.3|||||TWO_SIDED|95.0|10.7|43.4|||Emax Model|||Emax model - 95% Confidence Interval represents 95% Credible Interval||43.4|10.7|
82492455|NCT01786668|164677977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.75|STANDARD_ERROR_OF_MEAN|9.77||0.271|TWO_SIDED|95.0|-8.41|29.9|||Normal approximation for two proportions|||||29.90|-8.41|0.271
82492456|NCT01786668|164677977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|39.59|STANDARD_ERROR_OF_MEAN|8.8|<|0.001|TWO_SIDED|95.0|22.35|56.83|||Normal approximation for two proportions|||||56.83|22.35|<0.001
82492457|NCT01786668|164677977|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.59|STANDARD_ERROR_OF_MEAN|9.74||0.134|TWO_SIDED|95.0|-4.5|33.69|||Normal approximation for two proportions|||||33.69|-4.50|0.134
82492458|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.93|STANDARD_ERROR_OF_MEAN|9.24||0.162|TWO_SIDED|95.0|-5.17|31.04|||Normal approximation for two proportions|||Week 2||31.04|-5.17|0.162
82657970|NCT00050778|165032301|SUPERIORITY_OR_OTHER||Treatment effect|62.64||||0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||0.0001
82492459|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.24|STANDARD_ERROR_OF_MEAN|9.02||0.561|TWO_SIDED|95.0|-12.44|22.92|||Normal approximation for two proportions|||Week 2||22.92|-12.44|0.561
82492460|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 2||24.97|-10.65|0.430
82492461|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.74|STANDARD_ERROR_OF_MEAN|9.57||0.123|TWO_SIDED|95.0|-4.01|33.5|||Normal approximation for two proportions|||Week 4||33.50|-4.01|0.123
82492462|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.44|STANDARD_ERROR_OF_MEAN|9.54||0.019|TWO_SIDED|95.0|3.74|41.13|||Normal approximation for two proportions|||Week 4||41.13|3.74|0.019
82492463|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.74|STANDARD_ERROR_OF_MEAN|9.57||0.123|TWO_SIDED|95.0|-4.01|33.5|||Normal approximation for two proportions|||Week 4||33.50|-4.01|0.123
82492464|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.56|STANDARD_ERROR_OF_MEAN|9.75||0.135|TWO_SIDED|95.0|-4.55|33.66|||Normal approximation for two proportions|||Week 8||33.66|-4.55|0.135
82492465|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.02|STANDARD_ERROR_OF_MEAN|9.36||0.003|TWO_SIDED|95.0|9.68|46.36|||Normal approximation for two proportions|||Week 8||46.36|9.68|0.003
82492466|NCT01786668|164677978|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.71|STANDARD_ERROR_OF_MEAN|9.79||0.274|TWO_SIDED|95.0|-8.48|29.9|||Normal approximation for two proportions|||Week 8||29.90|-8.48|0.274
82492467|NCT01786668|164677979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|1.123||0.427|TWO_SIDED|95.0|-3.11|1.32|||ANCOVA|||||1.32|-3.11|0.427
82492468|NCT01786668|164677979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|STANDARD_ERROR_OF_MEAN|1.13||0.039|TWO_SIDED|95.0|-4.58|-0.12|||ANCOVA|||||-0.12|-4.58|0.039
82492469|NCT01786668|164677979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.74|STANDARD_ERROR_OF_MEAN|1.131||0.016|TWO_SIDED|95.0|-4.97|-0.51|||ANCOVA|||||-0.51|-4.97|0.016
82492470|NCT01786668|164677980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.517||0.05|TWO_SIDED|95.0|-5.99|0.0|||ANCOVA|||||-0.00|-5.99|0.050
82492471|NCT01786668|164677980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.42|STANDARD_ERROR_OF_MEAN|1.52|<|0.001|TWO_SIDED|95.0|-8.42|-2.42|||ANCOVA|||||-2.42|-8.42|<0.001
82492472|NCT01786668|164677980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.47|STANDARD_ERROR_OF_MEAN|1.525|<|0.001|TWO_SIDED|95.0|-9.48|-3.46|||ANCOVA|||||-3.46|-9.48|<0.001
82492473|NCT01786668|164677981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.52||0.221|TWO_SIDED|95.0|-1.66|0.39|||ANCOVA|||||0.39|-1.66|0.221
82492474|NCT01786668|164677981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.52|<|0.001|TWO_SIDED|95.0|-2.83|-0.78|||ANCOVA|||||-0.78|-2.83|<0.001
82492475|NCT01786668|164677981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.71|STANDARD_ERROR_OF_MEAN|0.523||0.001|TWO_SIDED|95.0|-2.75|-0.68|||ANCOVA|||||-0.68|-2.75|0.001
82492476|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
82492477|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
82492478|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.62|STANDARD_ERROR_OF_MEAN|7.31||0.824|TWO_SIDED|95.0|-12.71|15.95|||Normal approximation for two proportions|||Week 2||15.95|-12.71|0.824
82492479|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.16|STANDARD_ERROR_OF_MEAN|8.09||0.104|TWO_SIDED|95.0|-2.69|29.01|||Normal approximation for two proportions|||Week 4||29.01|-2.69|0.104
82492480|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.01|STANDARD_ERROR_OF_MEAN|8.26||0.04|TWO_SIDED|95.0|0.81|33.2|||Normal approximation for two proportions|||Week 4||33.20|0.81|0.040
82492481|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.47|STANDARD_ERROR_OF_MEAN|7.62||0.473|TWO_SIDED|95.0|-9.46|20.4|||Normal approximation for two proportions|||Week 4||20.40|-9.46|0.473
82492482|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.4|STANDARD_ERROR_OF_MEAN|8.86||0.875|TWO_SIDED|95.0|-15.97|18.76|||Normal approximation for two proportions|||Week 8||18.76|-15.97|0.875
82492483|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 8||24.97|-10.65|0.430
82492484|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.09|STANDARD_ERROR_OF_MEAN|9.15||0.32|TWO_SIDED|95.0|-8.84|27.01|||Normal approximation for two proportions|||Week 8||27.01|-8.84|0.320
82492485|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.7|STANDARD_ERROR_OF_MEAN|8.82||0.01|TWO_SIDED|95.0|5.41|39.99|||Normal approximation for two proportions|||Week 12||39.99|5.41|0.010
82492486|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.55|STANDARD_ERROR_OF_MEAN|8.87||0.003|TWO_SIDED|95.0|9.16|43.93|||Normal approximation for two proportions|||Week 12||43.93|9.16|0.003
82492487|NCT01786668|164677982|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.85|STANDARD_ERROR_OF_MEAN|8.74||0.031|TWO_SIDED|95.0|1.72|35.99|||Normal approximation for two proportions|||Week 12||35.99|1.72|0.031
82492488|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.23|STANDARD_ERROR_OF_MEAN|6.95||0.028|TWO_SIDED|95.0|1.61|28.86|||Normal approximation for two proportions|||Week 2||28.86|1.61|0.028
82492489|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 2||17.47|-6.23|0.353
82492490|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.31|STANDARD_ERROR_OF_MEAN|6.8||0.05|TWO_SIDED|95.0|-0.02|26.64|||Normal approximation for two proportions|||Week 2||26.64|-0.02|0.050
82492491|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.39|STANDARD_ERROR_OF_MEAN|6.64||0.086|TWO_SIDED|95.0|-1.62|24.39|||Normal approximation for two proportions|||Week 4||24.39|-1.62|0.086
82492492|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.93|STANDARD_ERROR_OF_MEAN|7.43||0.002|TWO_SIDED|95.0|8.37|37.48|||Normal approximation for two proportions|||Week 4||37.48|8.37|0.002
82492493|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|21.0|STANDARD_ERROR_OF_MEAN|7.32||0.004|TWO_SIDED|95.0|6.65|35.36|||Normal approximation for two proportions|||Week 4||35.36|6.65|0.004
82492494|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.35|STANDARD_ERROR_OF_MEAN|7.03||0.106|TWO_SIDED|95.0|-2.43|25.13|||Normal approximation for two proportions|||Week 8||25.13|-2.43|0.106
82492495|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.5|STANDARD_ERROR_OF_MEAN|8.02|<|0.001|TWO_SIDED|95.0|16.79|48.22|||Normal approximation for two proportions|||Week 8||48.22|16.79|<0.001
82492496|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|19.04|STANDARD_ERROR_OF_MEAN|7.54||0.012|TWO_SIDED|95.0|4.27|33.81|||Normal approximation for two proportions|||Week 8||33.81|4.27|0.012
82492497|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.54|STANDARD_ERROR_OF_MEAN|7.47||0.635|TWO_SIDED|95.0|-11.1|18.19|||Normal approximation for two proportions|||Week 12||18.19|-11.10|0.635
82492498|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|34.31|STANDARD_ERROR_OF_MEAN|8.6|<|0.001|TWO_SIDED|95.0|17.45|51.18|||Normal approximation for two proportions|||Week 12||51.18|17.45|<0.001
82492499|NCT01786668|164677983|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.78|STANDARD_ERROR_OF_MEAN|8.45||0.007|TWO_SIDED|95.0|6.21|39.34|||Normal approximation for two proportions|||Week 12||39.34|6.21|0.007
82492500|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.136||0.175|TWO_SIDED|95.0|-0.46|0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.08|-0.46|0.175
82492501|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.77|-0.24|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||-0.24|-0.77|<0.001
82492502|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.136|<|0.001|TWO_SIDED|95.0|-0.74|-0.2|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||-0.20|-0.74|<0.001
82492503|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.141||0.003|TWO_SIDED|95.0|-0.7|-0.15|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.15|-0.70|0.003
82492504|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.9|-0.34|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.34|-0.90|<0.001
82492505|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.141|<|0.001|TWO_SIDED|95.0|-0.86|-0.31|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.31|-0.86|<0.001
82492506|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.158||0.026|TWO_SIDED|95.0|-0.66|-0.04|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.04|-0.66|0.026
82492507|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.157|<|0.001|TWO_SIDED|95.0|-0.94|-0.32|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.32|-0.94|<0.001
82492508|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.159|<|0.001|TWO_SIDED|95.0|-0.9|-0.27|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.27|-0.90|<0.001
82492509|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.171||0.002|TWO_SIDED|95.0|-0.89|-0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.21|-0.89|0.002
82492510|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.171|<|0.001|TWO_SIDED|95.0|-1.07|-0.39|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.39|-1.07|<0.001
82492511|NCT01786668|164677984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.172|<|0.001|TWO_SIDED|95.0|-1.03|-0.35|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.35|-1.03|<0.001
82492512|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.24|STANDARD_ERROR_OF_MEAN|7.99||0.159|TWO_SIDED|95.0|-4.41|26.89|||Normal approximation for two proportions|||Week 2||26.89|-4.41|0.159
82492513|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.39|STANDARD_ERROR_OF_MEAN|8.6|<|0.001|TWO_SIDED|95.0|15.54|49.24|||Normal approximation for two proportions|||Week 2||49.24|15.54|<0.001
82492514|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.7|STANDARD_ERROR_OF_MEAN|8.5||0.004|TWO_SIDED|95.0|8.04|41.36|||Normal approximation for two proportions|||Week 2||41.36|8.04|0.004
82492515|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.7|STANDARD_ERROR_OF_MEAN|8.82||0.01|TWO_SIDED|95.0|5.41|39.99|||Normal approximation for two proportions|||Week 4||39.99|5.41|0.010
82492516|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|38.08|STANDARD_ERROR_OF_MEAN|8.82|<|0.001|TWO_SIDED|95.0|20.79|55.38|||Normal approximation for two proportions|||Week 4||55.38|20.79|<0.001
82492517|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|32.32|STANDARD_ERROR_OF_MEAN|8.88|<|0.001|TWO_SIDED|95.0|14.9|49.73|||Normal approximation for two proportions|||Week 4||49.73|14.90|<0.001
82492518|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|14.82|STANDARD_ERROR_OF_MEAN|9.39||0.114|TWO_SIDED|95.0|-3.58|33.22|||Normal approximation for two proportions|||Week 8||33.22|-3.58|0.114
82657971|NCT00050778|165032301|SUPERIORITY_OR_OTHER||Treatment effect|76.71|||<|0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||<0.0001
82492519|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.2|STANDARD_ERROR_OF_MEAN|9.33||0.001|TWO_SIDED|95.0|11.92|48.49|||Normal approximation for two proportions|||Week 8||48.49|11.92|0.001
82492520|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|30.2|STANDARD_ERROR_OF_MEAN|9.33||0.001|TWO_SIDED|95.0|11.92|48.49|||Normal approximation for two proportions|||Week 8||48.49|11.92|0.001
82492521|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|24.47|STANDARD_ERROR_OF_MEAN|9.33||0.009|TWO_SIDED|95.0|6.18|42.76|||Normal approximation for two proportions|||Week 12||42.76|6.18|0.009
82492522|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|36.01|STANDARD_ERROR_OF_MEAN|9.15|<|0.001|TWO_SIDED|95.0|18.09|53.94|||Normal approximation for two proportions|||Week 12||53.94|18.09|<0.001
82492523|NCT01786668|164677985|SUPERIORITY_OR_OTHER||Risk Difference (RD)|28.32|STANDARD_ERROR_OF_MEAN|9.3||0.002|TWO_SIDED|95.0|10.09|46.55|||Normal approximation for two proportions|||Week 12||46.55|10.09|0.002
82492524|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
82492525|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
82492526|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 2||13.91|-2.45|0.170
82492527|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.66|STANDARD_ERROR_OF_MEAN|5.52||0.306|TWO_SIDED|95.0|-5.17|16.48|||Normal approximation for two proportions|||Week 4||16.48|-5.17|0.306
82492528|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.66|STANDARD_ERROR_OF_MEAN|5.52||0.306|TWO_SIDED|95.0|-5.17|16.48|||Normal approximation for two proportions|||Week 4||16.48|-5.17|0.306
82492529|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.5|STANDARD_ERROR_OF_MEAN|5.99||0.113|TWO_SIDED|95.0|-2.24|21.24|||Normal approximation for two proportions|||Week 4||21.24|-2.24|0.113
82492530|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.73|STANDARD_ERROR_OF_MEAN|6.08||0.775|TWO_SIDED|95.0|-10.18|13.65|||Normal approximation for two proportions|||Week 8||13.65|-10.18|0.775
82657972|NCT00050778|165032301|SUPERIORITY_OR_OTHER||Treatment effect|70.13|||<|0.0001|||||||Cox Proportional Hazards Regression|||Cox PH regression model with treatment group indicator, Baseline EDSS and country as covariates was used.||||<0.0001
82657973|NCT00050778|165032302|SUPERIORITY_OR_OTHER|||||||0.0885|||||||ANCOVA|||Ranked analysis of covariance (ANCOVA) model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0885
82492531|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|17.12|STANDARD_ERROR_OF_MEAN|7.43||0.021|TWO_SIDED|95.0|2.56|31.68|||Normal approximation for two proportions|||Week 8||31.68|2.56|0.021
82492532|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.27|STANDARD_ERROR_OF_MEAN|7.17||0.064|TWO_SIDED|95.0|-0.79|27.34|||Normal approximation for two proportions|||Week 8||27.34|-0.79|0.064
82657974|NCT00050778|165032302|SUPERIORITY_OR_OTHER|||||||0.0195|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0195
82657975|NCT00050778|165032302|SUPERIORITY_OR_OTHER|||||||0.0215|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T1 brain volume, EDSS group, country, and treatment as covariates was used.||||0.0215
82492533|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.47|STANDARD_ERROR_OF_MEAN|7.09||0.292|TWO_SIDED|95.0|-6.42|21.36|||Normal approximation for two proportions|||Week 12||21.36|-6.42|0.292
82492534|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.31|STANDARD_ERROR_OF_MEAN|7.38||0.125|TWO_SIDED|95.0|-3.16|25.78|||Normal approximation for two proportions|||Week 12||25.78|-3.16|0.125
82492535|NCT01786668|164677986|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.24|STANDARD_ERROR_OF_MEAN|7.51||0.078|TWO_SIDED|95.0|-1.49|27.96|||Normal approximation for two proportions|||Week 12||27.96|-1.49|0.078
82492536|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
82492537|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
82492538|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.92|STANDARD_ERROR_OF_MEAN|1.9||0.313|TWO_SIDED|95.0|-1.81|5.66|||Normal approximation for two proportions|||Week 2||5.66|-1.81|0.313
82492539|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.04|STANDARD_ERROR_OF_MEAN|2.72||0.989|TWO_SIDED|95.0|-5.37|5.29|||Normal approximation for two proportions|||Week 4||5.29|-5.37|0.989
82657976|NCT00050778|165032303|SUPERIORITY_OR_OTHER|||||||0.3077|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.3077
82657977|NCT00050778|165032303|SUPERIORITY_OR_OTHER|||||||0.3632|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.3632
82657978|NCT00050778|165032303|SUPERIORITY_OR_OTHER|||||||0.2758|||||||ANCOVA|||Ranked ANCOVA model using Baseline MRI-T2 lesion volume, EDSS group, country, and treatment as covariates was used.||||0.2758
82492540|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.81|STANDARD_ERROR_OF_MEAN|3.77||0.313|TWO_SIDED|95.0|-3.58|11.2|||Normal approximation for two proportions|||Week 4||11.20|-3.58|0.313
82492541|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.73|STANDARD_ERROR_OF_MEAN|4.17||0.17|TWO_SIDED|95.0|-2.45|13.91|||Normal approximation for two proportions|||Week 4||13.91|-2.45|0.170
82492542|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.81|STANDARD_ERROR_OF_MEAN|3.77||0.313|TWO_SIDED|95.0|-3.58|11.2|||Normal approximation for two proportions|||Week 8||11.20|-3.58|0.313
82492543|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|2.72||0.989|TWO_SIDED|95.0|-5.37|5.29|||Normal approximation for two proportions|||Week 8||5.29|-5.37|0.989
82492544|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.65|STANDARD_ERROR_OF_MEAN|4.53||0.091|TWO_SIDED|95.0|-1.22|16.52|||Normal approximation for two proportions|||Week 8||16.52|-1.22|0.091
82492545|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 12||17.47|-6.23|0.353
82657979|NCT00064753|165032329|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.99||||0.93|TWO_SIDED|95.0|0.84|1.17||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.17|0.84|0.93
82657980|NCT00064753|165032330|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.15||||0.19|TWO_SIDED|95.0|0.93|1.43||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.43|0.93|0.19
82657981|NCT00064753|165032331|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.04||||0.67|TWO_SIDED|95.0|0.86|1.26||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.26|0.86|0.67
82657982|NCT00064753|165032332|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.08||||0.61|TWO_SIDED|95.0|0.8|1.45||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.45|0.80|0.61
82492546|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.62|STANDARD_ERROR_OF_MEAN|6.05||0.353|TWO_SIDED|95.0|-6.23|17.47|||Normal approximation for two proportions|||Week 12||17.47|-6.23|0.353
82492547|NCT01786668|164677987|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.54|STANDARD_ERROR_OF_MEAN|6.26||0.228|TWO_SIDED|95.0|-4.73|19.81|||Normal approximation for two proportions|||Week 12||19.81|-4.73|0.228
82492548|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.31||0.926|TWO_SIDED|95.0|-0.64|0.58|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.58|-0.64|0.926
82492549|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.308||0.718|TWO_SIDED|95.0|-0.72|0.5|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.50|-0.72|0.718
82492550|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.31||0.57|TWO_SIDED|95.0|-0.43|0.79|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.79|-0.43|0.570
82492551|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.343||0.384|TWO_SIDED|95.0|-0.97|0.38|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.38|-0.97|0.384
82492552|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.341||0.334|TWO_SIDED|95.0|-1.0|0.34|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.34|-1.00|0.334
82492553|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.343||0.474|TWO_SIDED|95.0|-0.92|0.43|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.43|-0.92|0.474
82492554|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|STANDARD_ERROR_OF_MEAN|0.381||0.445|TWO_SIDED|95.0|-1.04|0.46|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.46|-1.04|0.445
82492555|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.38||0.174|TWO_SIDED|95.0|-1.27|0.23|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.23|-1.27|0.174
82492556|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.383||0.217|TWO_SIDED|95.0|-1.23|0.28|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.28|-1.23|0.217
82492557|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.396||0.024|TWO_SIDED|95.0|-1.69|-0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.12|-1.69|0.024
82492558|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.396||0.01|TWO_SIDED|95.0|-1.81|-0.24|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.24|-1.81|0.010
82492559|NCT01786668|164677988|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.399||0.038|TWO_SIDED|95.0|-1.62|-0.04|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.04|-1.62|0.038
82610581|NCT00949650|164938273|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.576||||0.0002||95.0|0.426|0.778|||Regression, Cox|Cox Proportional Hazard (PH) regression stratified by epidermal growth factor receptor (EGFR) mutation group and race.|Afatinib 40 mg versus Pemetrexed/Cisplatin Chemotherapy.|||0.778|0.426|0.0002
82610582|NCT00949650|164938274|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.802|||<|0.0001||95.0|2.855|8.075|||Regression, Logistic|Logistic regression stratified for EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||8.075|2.855|<0.0001
82657983|NCT00064753|165032333|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.12||||0.64|TWO_SIDED|95.0|0.69|1.81||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||1.81|0.69|0.64
82610583|NCT00949650|164938275|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.288||||0.0118||95.0|1.202|4.356|||Regression, Logistic|Logistic regression stratified for EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||4.356|1.202|0.0118
82610584|NCT00949650|164938276|SUPERIORITY_OR_OTHER|||||||0.7916||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.7916
82610585|NCT00949650|164938276|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.385||95.0|0.66|1.174|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||1.174|0.660|0.3850
82610586|NCT00949650|164938277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.82|||<|0.0001||95.0|-13.64|-5.99|||ANCOVA|Adjusted for baseline SoD, EGFR mutation group and race.|Afatinib 40 mg-Pemetrexed/Cisplatin Chemotherapy.|||-5.99|-13.64|<0.0001
82610587|NCT00949650|164938280|SUPERIORITY_OR_OTHER|||||||0.0062||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0062
82610588|NCT00949650|164938280|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.589||||0.2133||95.0|0.401|0.866|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||0.866|0.401|0.2133
82657984|NCT00064753|165032334|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.8||||0.66|TWO_SIDED|95.0|0.3|2.15||P was calculated with stratified proportional hazards models stratified by country|Regression, Cox|||||2.15|0.30|0.66
82657985|NCT00064753|165032335|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.84||||0.28|TWO_SIDED|95.0|0.62|1.15|||Regression, Cox|||||1.15|0.62|0.28
82610589|NCT00949650|164938281|SUPERIORITY_OR_OTHER|||||||0.0129||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.0129
82610590|NCT00949650|164938281|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0078||95.0|0.499|0.927|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||0.927|0.499|0.0078
82610591|NCT00949650|164938282|SUPERIORITY_OR_OTHER|||||||0.1882||||||Two-sided p-value from log-rank test stratified by EGFR mutation group and race.|Log Rank|||||||0.1882
82610592|NCT00949650|164938282|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.826||||0.0427||95.0|0.618|1.104|||Regression, Cox|Cox PH regression stratified by EGFR mutation group and race.|Afatinib 40 mg vs. Pemetrexed/Cisplatin Chemotherapy, if HR\<1 then favours Afatinib 40 mg.|||1.104|0.618|0.0427
82610593|NCT03165981|164938323|SUPERIORITY||Risk Ratio (RR)|0.87||||0.7588|TWO_SIDED|95.0|0.36|2.1|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.10|0.36|0.7588
82610594|NCT03165981|164938324|SUPERIORITY||Risk Ratio (RR)|0.97||||0.9412|TWO_SIDED|95.0|0.39|2.4|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.40|0.39|.9412
82610595|NCT03165981|164938325|SUPERIORITY|||||||0.3408|||||||Mantel Haenszel|Mantel Haenzel is stratified by site.||||||0.3408
82610596|NCT03165981|164938326|SUPERIORITY||Risk Ratio (RR)|0.87||||0.8325|TWO_SIDED|95.0|0.24|3.13|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||3.13|0.24|0.8325
82610597|NCT03165981|164938327|SUPERIORITY|||||||0.3408|||||||Mantel Haenszel|Mantel Haenzel is stratified by site.||||||0.3408
82610598|NCT03165981|164938328|SUPERIORITY||Risk Ratio (RR)|0.73||||0.6101|TWO_SIDED|95.0|0.21|2.48|||Mantel Haenszel|Mantel Haenzel is stratified by site.|RR is adjusted by site.|||2.48|0.21|0.6101
82610599|NCT03165981|164938329|SUPERIORITY|||||||0.848|||||||Wilcoxon (Mann-Whitney)|||||||0.848
82610600|NCT03165981|164938331|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82610601|NCT01894516|164938348|SUPERIORITY||Difference in percentage rates|37.5|||<|0.0001|TWO_SIDED|95.0|22.4|52.6||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||52.6|22.4|< 0.0001
82610602|NCT01894516|164938348|SUPERIORITY||Difference in percentage rates|36.5|||<|0.0001|TWO_SIDED|95.0|21.3|51.8||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||51.8|21.3|< 0.0001
82610603|NCT01894516|164938348|SUPERIORITY||Difference in percentage rates|43.3|||<|0.0001|TWO_SIDED|95.0|28.4|58.2||P-value has been corrected for multiplicity according to Hommel's closed-testing method.|Regression, Logistic|||Pairwise comparisons of each group vs. the placebo group using a logistic regression model with factors treatment group, geographical region, and prior use of biologics.||58.2|28.4|< 0.0001
82610604|NCT01438710|164938359|SUPERIORITY_OR_OTHER|||||||0.0048|TWO_SIDED|95.0|||||t-test, 2 sided|||The mean change (i.e., absolute change) from baseline (Day 7, pre-conversion) on FTM overall score to Day 14 (post-conversion) was evaluated using paired t-test (at 0.05 significance level, two sided). An estimation of mean change from baseline and the corresponding 95% confidence interval (CI) were provided.||||0.0048
82610605|NCT03270085|164938365|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82610606|NCT03270085|164938366|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
82610607|NCT03270085|164938367|SUPERIORITY|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82610608|NCT00151411|164938391|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.54|TWO_SIDED|95.0|-9.9|18.4|||Mixed Models Analysis|||||18.4|-9.9|0.54
82610609|NCT00151411|164938392|SUPERIORITY||Rate Ratio|2.5||||0.07|TWO_SIDED|95.0|0.9|6.6|||Zero-altered negative binomial model||Placebo is the reference group, i.e. for the rate ratio, Metformin represents the numerator and Placebo the denominator.|This statistical analysis models the probability of ovulation.||6.6|0.9|0.07
82610610|NCT00151411|164938392|SUPERIORITY||rate ratio|1.2||||0.51|TWO_SIDED|95.0|0.7|1.9|||Zero-altered negative binomial model||Placebo is the reference group, i.e. for the rate ratio, Metformin represents the numerator and Placebo the denominator.|This statistical analysis models the count of ovulations provided a woman actually ovulated.||1.9|0.7|0.51
82610611|NCT00151411|164938393|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.05|TWO_SIDED|95.0|0.1|9.0|||Mixed Models Analysis|||||9.0|0.1|0.05
82610612|NCT02773758|164938407|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-1.29|||<|0.0001|TWO_SIDED|95.0|-1.509|-1.071|||ANCOVA|From ANCOVA model with change from baseline in Schiff Sensitivity Score as response and treatment and baseline Schiff sensitivity score as covariates.|Difference is first named dentifrice minus second named dentifrice such that a negative difference favours first named dentifrice.|||-1.071|-1.509|<0.0001
82610613|NCT01819935|164938410|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.72|1.2||||||Propensity Cox proportional hazards regression model was used.||1.20|0.72|
82610614|NCT01819935|164938411|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75|||||TWO_SIDED|95.0|0.53|1.05||||||Propensity Cox proportional hazards regression model was used.||1.05|0.53|
82610615|NCT01819935|164938412|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02|||||TWO_SIDED|95.0|0.9|1.15||||||Propensity Cox proportional hazards regression model was used.||1.15|0.90|
82610616|NCT01819935|164938413|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.39|1.09||||||Propensity Cox proportional hazards regression model was used.||1.09|0.39|
82610617|NCT01819935|164938414|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.68|1.37||||||Propensity Cox proportional hazards regression model was used.||1.37|0.68|
82610618|NCT01819935|164938415|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.68|1.13||||||Propensity Cox proportional hazards regression model was used.||1.13|0.68|
82610619|NCT01819935|164938416|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.54|1.48||||||Propensity Cox proportional hazards regression model was used.||1.48|0.54|
82610620|NCT01819935|164938417|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24|||||TWO_SIDED|95.0|1.06|1.45||||||Propensity Cox proportional hazards regression model was used.||1.45|1.06|
82657986|NCT00064753|165032336|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.95||||0.7|TWO_SIDED|95.0|0.73|1.23|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||1.23|0.73|0.70
82657987|NCT00064753|165032337|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.49|TWO_SIDED|95.0|0.79|1.65|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||1.65|0.79|0.49
82610621|NCT02988986|164938431|SUPERIORITY|Based on prior data for Ki67 changes in the tamoxifen arm alone, we will assume null hypothesis and alternative hypotheses of 60% and 80% reduction in Ki67, respectively. A sample of 25 patients will provide 86% power to detect the hypothesized reduction in Ki67 with 5% alpha based on a two-sided, one sample t-test of mean percent change in Ki67 level.|||||=|0.0023|||||||Wilcoxon (Mann-Whitney)|||The primary endpoint was the change in Ki67 after 6 weeks of treatment.||||=0.0023
82610622|NCT00474630|164938470|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.28|||<|0.001||95.0|-4.34|-2.22|||ANCOVA|||||-2.22|-4.34|<0.001
82610623|NCT00474630|164938471|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49|||<|0.001|TWO_SIDED|95.0|-0.71|-0.27|||ANCOVA|||||-0.27|-0.71|<0.001
82610624|NCT00474630|164938472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.44|||<|0.001|TWO_SIDED|95.0|2.15|5.5|||Regression, Logistic|||||5.50|2.15|<0.001
82610625|NCT00474630|164938473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.4||||0.007|TWO_SIDED||||||ANCOVA|||||||0.007
82610626|NCT00474630|164938474|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.32|||<|0.001|TWO_SIDED|95.0|1.8|4.84|||ANCOVA|||||4.84|1.80|<0.001
82610627|NCT00474630|164938475|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.85||||0.065|TWO_SIDED|95.0|-16.21|0.5|||ANCOVA|||||0.50|-16.21|0.065
82610628|NCT00474630|164938476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.08|||||TWO_SIDED|95.0|-3.57|-0.59||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.59|-3.57|
82610629|NCT00474630|164938477|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.75|||||TWO_SIDED|95.0|1.79|7.88||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||7.88|1.79|
82610630|NCT00474630|164938478|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46|||||TWO_SIDED|95.0|1.5|4.04||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.04|1.50|
82610631|NCT00474630|164938479|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.55|||||TWO_SIDED|95.0|0.35|0.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.86|0.35|
82610632|NCT00474630|164938480|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.43|||||TWO_SIDED|95.0|0.27|7.57||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||7.57|0.27|
82610633|NCT00474630|164938481|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.63|||||TWO_SIDED|95.0|0.55|12.67||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||12.67|0.55|
82610634|NCT00474630|164938482|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.89|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82610635|NCT00474630|164938483|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.13|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82610636|NCT00474630|164938484|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.64|||||TWO_SIDED|95.0|1.36|5.14||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||5.14|1.36|
82610637|NCT00474630|164938485|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.37|||||TWO_SIDED|95.0|-0.77|3.51||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.51|-0.77|
82610638|NCT00474630|164938486|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.62|||||TWO_SIDED|||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||
82610639|NCT00474630|164938488|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.98|||||TWO_SIDED|95.0|-9.22|-0.74||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||-0.74|-9.22|
82610640|NCT00474630|164938489|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.43|||||TWO_SIDED|95.0|-7.48|4.62||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||4.62|-7.48|
82610641|NCT00474630|164938490|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.16|||||TWO_SIDED|95.0|-1.02|3.33||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||3.33|-1.02|
82610642|NCT00474630|164938491|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.41|||||TWO_SIDED|95.0|-1.04|1.86||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.86|-1.04|
82610643|NCT00474630|164938492|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.62|||||TWO_SIDED|95.0|0.59|2.65||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||2.65|0.59|
82657988|NCT00064753|165032338|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.14||||0.78|TWO_SIDED|95.0|0.46|2.8|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||2.80|0.46|0.78
82657989|NCT00064753|165032339|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.61||||0.5|TWO_SIDED|95.0|0.15|2.57|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||2.57|0.15|0.50
82657990|NCT00064753|165032340|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.3||||0.6|TWO_SIDED|95.0|0.48|3.5|||Regression, Cox|P was calculated with stratified proportional hazards models stratified by country||||3.50|0.48|0.60
82610644|NCT00474630|164938493|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.43|||||TWO_SIDED|95.0|-0.42|1.27||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||1.27|-0.42|
82610645|NCT00474630|164938494|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04|||||TWO_SIDED|96.0|-0.76|0.85||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||||Due to pre-specified hypothesis testing design, no formal statistical inference testing was performed.||0.85|-0.76|
82610646|NCT03069690|164938514|SUPERIORITY||Mean Difference (Net)|-0.3996|STANDARD_ERROR_OF_MEAN|2.665||0.8|TWO_SIDED|95.0|-5.649|4.85||The value was not adjusted for multiple comparisons.|ANCOVA|||||4.850|-5.649|.80
82610647|NCT03069690|164938514|SUPERIORITY||Mean Difference (Net)|-3.387|STANDARD_ERROR_OF_MEAN|2.755||0.8|TWO_SIDED|95.0|-8.813|2.039||The value was not adjusted for multiple comparisons.|ANCOVA|||||2.039|-8.813|.80
82610648|NCT03069690|164938514|SUPERIORITY||Mean Difference (Net)|-1.1729|STANDARD_ERROR_OF_MEAN|2.72||0.8|TWO_SIDED|95.0|-6.53|4.184||The value was not adjusted for multiple comparisons.|ANCOVA|||||4.184|-6.530|.80
82610649|NCT01380093|164938533|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.9|||<|0.0001|TWO_SIDED|95.0|-31.7|-18.1||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||Least square (LS) mean and 95% confidence interval (CI) were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.1|-31.7|<0.0001
82610650|NCT01380093|164938533|SUPERIORITY_OR_OTHER||LS Mean Difference|11.9||||0.0009|TWO_SIDED|95.0|5.1|18.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.6|5.1|0.0009
82610651|NCT01380093|164938533|SUPERIORITY_OR_OTHER||LS Mean Difference|36.8|||<|0.0001|TWO_SIDED|95.0|30.0|43.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||43.6|30.0|<0.0001
82610652|NCT01380093|164938534|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.7|||<|0.0001|TWO_SIDED|95.0|-20.2|-11.1||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence. Planned power of at least 89% assumed a mean difference of 15 to 30 points and a standard deviation of paired differences of 15 to 20 points, with conservative multiple comparison adjustment for alpha of 0.025.||-11.1|-20.2|<0.0001
82610653|NCT01380093|164938534|SUPERIORITY_OR_OTHER||LS Mean Difference|13.4|||<|0.0001|TWO_SIDED|95.0|8.9|18.0||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.0|8.9|<0.0001
82610654|NCT01380093|164938534|SUPERIORITY_OR_OTHER||LS Mean Difference|29.1|||<|0.0001|TWO_SIDED|95.0|24.6|33.7||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.7|24.6|<0.0001
82610655|NCT01380093|164938535|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.1|||<|0.0001|TWO_SIDED|95.0|-61.2|-41.0||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-41.0|-61.2|<0.0001
82610656|NCT01380093|164938535|SUPERIORITY_OR_OTHER||LS Mean Difference|24.6|||<|0.0001|TWO_SIDED|95.0|14.5|34.6||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.6|14.5|<0.0001
82610657|NCT01380093|164938535|SUPERIORITY_OR_OTHER||LS Mean Difference|75.7|||<|0.0001|TWO_SIDED|95.0|65.6|85.8||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||85.8|65.6|<0.0001
82610658|NCT01380093|164938536|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.9|||<|0.0001|TWO_SIDED|95.0|-11.8|-6.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-6.0|-11.8|<0.0001
82610659|NCT01380093|164938536|SUPERIORITY_OR_OTHER||LS Mean Difference|5.2||||0.0006|TWO_SIDED|95.0|2.3|8.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.1|2.3|0.0006
82610660|NCT01380093|164938536|SUPERIORITY_OR_OTHER||LS Mean Difference|14.1|||<|0.0001|TWO_SIDED|95.0|11.2|17.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17.0|11.2|<0.0001
82492560|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-4.15|STANDARD_ERROR_OF_MEAN|6.75||0.539|TWO_SIDED|95.0|-17.38|9.08|||Normal approximation for two proportions|||Week 2||9.08|-17.38|0.539
82610661|NCT01380093|164938537|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.8|||<|0.0001|TWO_SIDED|95.0|-62.0|-35.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.5|-62.0|<0.0001
82610662|NCT01380093|164938537|SUPERIORITY_OR_OTHER||LS Mean Difference|29.0|||<|0.0001|TWO_SIDED|95.0|15.8|42.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||42.3|15.8|<0.0001
82610663|NCT01380093|164938537|SUPERIORITY_OR_OTHER||LS Mean Difference|77.8|||<|0.0001|TWO_SIDED|95.0|64.5|91.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||91.0|64.5|<0.0001
82610664|NCT01380093|164938538|SUPERIORITY_OR_OTHER||LS Mean Difference|-68.6|||<|0.0001|TWO_SIDED|95.0|-95.0|-42.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-42.2|-95.0|<0.0001
82610665|NCT01380093|164938538|SUPERIORITY_OR_OTHER||LS Mean Difference|56.5|||<|0.0001|TWO_SIDED|95.0|30.1|82.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||82.8|30.1|<0.0001
82610666|NCT01380093|164938538|SUPERIORITY_OR_OTHER||LS Mean Difference|125.1|||<|0.0001|TWO_SIDED|95.0|98.7|151.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||151.5|98.7|<0.0001
82610667|NCT01380093|164938539|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.0||||0.0001|TWO_SIDED|95.0|-112.8|-39.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-39.2|-112.8|0.0001
82610668|NCT01380093|164938539|SUPERIORITY_OR_OTHER||LS Mean Difference|66.5||||0.0006|TWO_SIDED|95.0|29.8|103.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||103.2|29.8|0.0006
82610669|NCT01380093|164938539|SUPERIORITY_OR_OTHER||LS Mean Difference|142.5|||<|0.0001|TWO_SIDED|95.0|105.7|179.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||179.3|105.7|<0.0001
82610670|NCT01380093|164938540|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.2||||0.0011|TWO_SIDED|95.0|-136.5|-35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.9|-136.5|0.0011
82610671|NCT01380093|164938540|SUPERIORITY_OR_OTHER||LS Mean Difference|69.8||||0.0071|TWO_SIDED|95.0|19.7|120.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||120.0|19.7|0.0071
82610672|NCT01380093|164938540|SUPERIORITY_OR_OTHER||LS Mean Difference|156.0|||<|0.0001|TWO_SIDED|95.0|105.7|206.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||206.3|105.7|<0.0001
82657991|NCT00565448|165032353|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0||||The Fisher's exact test was used to compare the CR proportions.|Fisher Exact|||There was no formal power calculation. A selection design was used to determine how many participants would be accrued to correctly select the treatment group with the best CR rate with 80% probability.||||1.0000
82610673|NCT01380093|164938541|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0||||0.1254|TWO_SIDED|95.0|-0.6|4.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.7|-0.6|0.1254
82610674|NCT01380093|164938541|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.4592|TWO_SIDED|95.0|-3.6|1.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.6|-3.6|0.4592
82610675|NCT01380093|164938541|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0||||0.0251|TWO_SIDED|95.0|-5.6|-0.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.4|-5.6|0.0251
82610676|NCT01380093|164938542|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.4|||<|0.0001|TWO_SIDED|95.0|-19.9|-11.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.0|-19.9|<0.0001
82610677|NCT01380093|164938542|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3|||<|0.0001|TWO_SIDED|95.0|4.8|13.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||13.7|4.8|<0.0001
82610678|NCT01380093|164938542|SUPERIORITY_OR_OTHER||LS Mean Difference|24.7|||<|0.0001|TWO_SIDED|95.0|20.3|29.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||29.1|20.3|<0.0001
82610679|NCT01380093|164938543|SUPERIORITY_OR_OTHER||LS Mean Difference|-116.1|||<|0.0001|TWO_SIDED|95.0|-136.5|-95.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-95.7|-136.5|<0.0001
82610680|NCT01380093|164938543|SUPERIORITY_OR_OTHER||LS Mean Difference|59.7|||<|0.0001|TWO_SIDED|95.0|39.3|80.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||80.1|39.3|<0.0001
82610681|NCT01380093|164938543|SUPERIORITY_OR_OTHER||LS Mean Difference|175.8|||<|0.0001|TWO_SIDED|95.0|155.4|196.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||196.2|155.4|<0.0001
82610682|NCT01380093|164938544|SUPERIORITY_OR_OTHER||LS Mean Difference|-202.2|||<|0.0001|TWO_SIDED|95.0|-239.0|-165.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-165.3|-239.0|<0.0001
82610683|NCT01380093|164938544|SUPERIORITY_OR_OTHER||LS Mean Difference|122.5|||<|0.0001|TWO_SIDED|95.0|85.7|159.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||159.2|85.7|<0.0001
82657992|NCT03693430|165032410|SUPERIORITY|Week 104 responses were analysed using an analysis of covariance model with randomised treatment as factor and baseline body weight as covariate. Missing observations were multiple (x1000) imputed from retrieved subjects of the same randomised treatment arm.|Treatment difference|-12.55|||<|0.0001|TWO_SIDED|95.0|-15.33|-9.77|||ANCOVA|||Treatment policy estimand||-9.77|-15.33|<.0001
82657993|NCT03693430|165032410|SUPERIORITY|All responses prior to first discontinuation of treatment (or initiation of other anti-obesity medication or bariatric surgery) were included in a mixed model for repeated measurements with randomised treatment as factor and baseline body weight as covariate, all nested within visit.|Treatment difference|-16.05|||<|0.0001|TWO_SIDED|95.0|-18.64|-13.45|||MMRM (Mixed model repeated measurement)|||Hypothetical estimand||-13.45|-18.64|<0.0001
82657994|NCT03693430|165032411|SUPERIORITY||Odds Ratio (OR)|4.99|||<|0.0001|TWO_SIDED|95.0|2.95|8.42|||Regression, Logistic|||Treatment policy estimand||8.42|2.95|<0.0001
82657995|NCT03693430|165032411|SUPERIORITY||Odds Ratio (OR)|18.06|||<|0.0001|TWO_SIDED|95.0|10.04|32.49|||MMRM|||Hypothetical estimand||32.49|10.04|<0.0001
82657996|NCT02373098|165032450|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||CCL5=RANTES||||0.000
82657997|NCT02373098|165032450|OTHER|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||IL17A||||0.035
82657998|NCT02373098|165032450|OTHER|||||||0.911|||||||Wilcoxon (Mann-Whitney)|||CXCL13||||0.911
82657999|NCT02373098|165032450|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||IL6||||1.000
82658000|NCT02373098|165032450|OTHER|||||||0.934|||||||Wilcoxon (Mann-Whitney)|||IL8||||0.934
82658001|NCT02373098|165032450|OTHER|||||||0.727|||||||Wilcoxon (Mann-Whitney)|||IL13||||0.727
82658002|NCT02373098|165032450|OTHER|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||IL23||||0.179
82658003|NCT02373098|165032450|OTHER|||||||0.208|||||||Wilcoxon (Mann-Whitney)|||VLA4||||0.208
82658004|NCT02373098|165032450|OTHER|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||CXCL10=IP-10 (CXCR3 ligand)||||0.730
82658005|NCT02373098|165032450|OTHER|||||||0.725|||||||Wilcoxon (Mann-Whitney)|||CCL2=MCP-1||||0.725
82658006|NCT02373098|165032450|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||IL4||||0.057
82658007|NCT02373098|165032450|OTHER|||||||0.724|||||||Wilcoxon (Mann-Whitney)|||TNF alpha||||0.724
82658008|NCT02373098|165032450|OTHER|||||||0.662|||||||Wilcoxon (Mann-Whitney)|||IL22||||0.662
82610684|NCT01380093|164938544|SUPERIORITY_OR_OTHER||LS Mean Difference|324.6|||<|0.0001|TWO_SIDED|95.0|287.7|361.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||361.5|287.7|<0.0001
82610685|NCT01380093|164938545|SUPERIORITY_OR_OTHER||LS Mean Difference|-253.0|||<|0.0001|TWO_SIDED|95.0|-301.5|-204.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-204.5|-301.5|<0.0001
82658009|NCT02373098|165032451|OTHER|||||||0.256|||||||Wilcoxon (Mann-Whitney)|||CD3 abs||||0.256
82658010|NCT02373098|165032451|OTHER|||||||0.587|||||||Wilcoxon (Mann-Whitney)|||CD19 abs||||0.587
82658011|NCT02373098|165032451|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||NK abs||||0.300
82658012|NCT02373098|165032451|OTHER|||||||0.096|||||||Wilcoxon (Mann-Whitney)|||NKT abs||||0.096
82658013|NCT02373098|165032451|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||Hi CD16CD56 abs||||0.270
82658014|NCT02373098|165032451|OTHER|||||||0.902|||||||Wilcoxon (Mann-Whitney)|||CD4CD25||||0.902
82658015|NCT02373098|165032451|OTHER|||||||0.283|||||||Wilcoxon (Mann-Whitney)|||Hi CD4CD25||||0.283
82658016|NCT02373098|165032454|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD3 %||||0.017
82658017|NCT02373098|165032454|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||CD19 %||||0.300
82658018|NCT02373098|165032454|OTHER|||||||0.657|||||||Wilcoxon (Mann-Whitney)|||NK %||||0.657
82658019|NCT02373098|165032454|OTHER|||||||0.439|||||||Wilcoxon (Mann-Whitney)|||NKT %||||0.439
82658020|NCT02373098|165032454|OTHER|||||||0.449|||||||Wilcoxon (Mann-Whitney)|||Hi CD16CD56 %||||0.449
82658021|NCT02373098|165032454|OTHER|||||||0.356|||||||Wilcoxon (Mann-Whitney)|||CD3CD4||||0.356
82658022|NCT02373098|165032454|OTHER|||||||0.787|||||||Wilcoxon (Mann-Whitney)|||CD3CD8||||0.787
82658023|NCT02373098|165032454|OTHER|||||||0.121|||||||Wilcoxon (Mann-Whitney)|||CD3CD4||||0.121
82658024|NCT02373098|165032454|OTHER|||||||0.209|||||||Wilcoxon (Mann-Whitney)|||CD3CD8||||0.209
82658025|NCT02373098|165032454|OTHER|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||CD4+IFNg+ (in CD4+)||||0.069
82658026|NCT02373098|165032454|OTHER|||||||0.402|||||||Wilcoxon (Mann-Whitney)|||CD4+IL17+ (in CD4+)||||0.402
82658027|NCT02373098|165032454|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD8+IFNg+ (in CD8+)||||0.017
82658028|NCT02373098|165032454|OTHER|||||||0.017|||||||Wilcoxon (Mann-Whitney)|||CD8+IL17+ (in CD8+)||||0.017
82658029|NCT02373098|165032454|OTHER|||||||0.026|||||||Wilcoxon (Mann-Whitney)|||IFNg+ (in CD4+CD25+)||||0.026
82658030|NCT02373098|165032454|OTHER|||||||0.168|||||||Wilcoxon (Mann-Whitney)|||IL17+ (in CD4+CD25+)||||0.168
82658031|NCT02373098|165032454|OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||CD4+IL10+ (in CD4+)||||0.004
82658032|NCT02373098|165032454|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD4+IL4+ (in CD4+)||||0.013
82658033|NCT02373098|165032454|OTHER|||||||0.171|||||||Wilcoxon (Mann-Whitney)|||CD4-CD8-IL4+ (in CD4-CD8-)||||0.171
82658034|NCT02373098|165032454|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD8+IL10+ (in CD8+)||||0.013
82658035|NCT02373098|165032454|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||CD8+IL4+ (in CD8+)||||0.013
82658036|NCT02373098|165032454|OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||IL10+ (in CD4+CD25+)||||0.007
82658037|NCT02373098|165032454|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||IL4+ (in CD4+CD25+)||||0.001
82610686|NCT01380093|164938545|SUPERIORITY_OR_OTHER||LS Mean Difference|151.9|||<|0.0001|TWO_SIDED|95.0|103.5|200.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||200.2|103.5|<0.0001
82610687|NCT01380093|164938545|SUPERIORITY_OR_OTHER||LS Mean Difference|404.9|||<|0.0001|TWO_SIDED|95.0|356.4|453.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||453.3|356.4|<0.0001
82610688|NCT01380093|164938546|SUPERIORITY_OR_OTHER||LS Mean Difference|-306.8|||<|0.0001|TWO_SIDED|95.0|-370.9|-242.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-242.6|-370.9|<0.0001
82610689|NCT01380093|164938546|SUPERIORITY_OR_OTHER||LS Mean Difference|168.6|||<|0.0001|TWO_SIDED|95.0|104.7|232.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||232.6|104.7|<0.0001
82610690|NCT01380093|164938546|SUPERIORITY_OR_OTHER||LS Mean Difference|475.4|||<|0.0001|TWO_SIDED|95.0|411.3|539.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||539.6|411.3|<0.0001
82610691|NCT01380093|164938547|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2||||0.5607|TWO_SIDED|95.0|-0.6|1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.0|-0.6|0.5607
82610692|NCT01380093|164938547|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.2|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.2|<0.0001
82610693|NCT01380093|164938547|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8|||<|0.0001|TWO_SIDED|95.0|1.0|2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.6|1.0|<0.0001
82610694|NCT01380093|164938548|SUPERIORITY_OR_OTHER||LS Mean Difference|-15.3|||<|0.0001|TWO_SIDED|95.0|-20.3|-10.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-10.3|-20.3|<0.0001
82610695|NCT01380093|164938548|SUPERIORITY_OR_OTHER||LS Mean Difference|11.2|||<|0.0001|TWO_SIDED|95.0|6.3|16.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||16.2|6.3|<0.0001
82610696|NCT01380093|164938548|SUPERIORITY_OR_OTHER||LS Mean Difference|26.5|||<|0.0001|TWO_SIDED|95.0|21.5|31.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||31.5|21.5|<0.0001
82610697|NCT01380093|164938549|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.7|||<|0.0001|TWO_SIDED|95.0|-59.5|-35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.9|-59.5|<0.0001
82610698|NCT01380093|164938549|SUPERIORITY_OR_OTHER||LS Mean Difference|28.3|||<|0.0001|TWO_SIDED|95.0|16.5|40.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||40.1|16.5|<0.0001
82610699|NCT01380093|164938549|SUPERIORITY_OR_OTHER||LS Mean Difference|76.0|||<|0.0001|TWO_SIDED|95.0|64.2|87.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||87.8|64.2|<0.0001
82610700|NCT01380093|164938550|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.3|||<|0.0001|TWO_SIDED|95.0|-132.9|-85.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-85.6|-132.9|<0.0001
82610701|NCT01380093|164938550|SUPERIORITY_OR_OTHER||LS Mean Difference|67.0|||<|0.0001|TWO_SIDED|95.0|43.5|90.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||90.6|43.5|<0.0001
82610702|NCT01380093|164938550|SUPERIORITY_OR_OTHER||LS Mean Difference|176.3|||<|0.0001|TWO_SIDED|95.0|152.6|199.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||199.9|152.6|<0.0001
82610703|NCT01380093|164938551|SUPERIORITY_OR_OTHER||LS Mean Difference|-190.8|||<|0.0001|TWO_SIDED|95.0|-234.2|-147.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-147.3|-234.2|<0.0001
82610704|NCT01380093|164938551|SUPERIORITY_OR_OTHER||LS Mean Difference|134.7|||<|0.0001|TWO_SIDED|95.0|91.5|178.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||178.0|91.5|<0.0001
82610705|NCT01380093|164938551|SUPERIORITY_OR_OTHER||LS Mean Difference|325.5|||<|0.0001|TWO_SIDED|95.0|282.1|368.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||368.9|282.1|<0.0001
82610706|NCT01380093|164938552|SUPERIORITY_OR_OTHER||LS Mean Difference|-244.9|||<|0.0001|TWO_SIDED|95.0|-302.0|-187.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-187.7|-302.0|<0.0001
82610707|NCT01380093|164938552|SUPERIORITY_OR_OTHER||LS Mean Difference|166.5|||<|0.0001|TWO_SIDED|95.0|109.5|223.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||223.5|109.5|<0.0001
82610708|NCT01380093|164938552|SUPERIORITY_OR_OTHER||LS Mean Difference|411.4|||<|0.0001|TWO_SIDED|95.0|354.3|468.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||468.6|354.3|<0.0001
82610709|NCT01380093|164938553|SUPERIORITY_OR_OTHER||LS Mean Difference|-310.0|||<|0.0001|TWO_SIDED|95.0|-384.5|-235.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-235.5|-384.5|<0.0001
82610710|NCT01380093|164938553|SUPERIORITY_OR_OTHER||LS Mean Difference|185.2|||<|0.0001|TWO_SIDED|95.0|110.8|259.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||259.5|110.8|<0.0001
82610711|NCT01380093|164938553|SUPERIORITY_OR_OTHER||LS Mean Difference|495.1|||<|0.0001|TWO_SIDED|95.0|420.6|569.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||569.7|420.6|<0.0001
82610712|NCT01380093|164938554|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.5|||<|0.0001|TWO_SIDED|95.0|-38.7|-22.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-22.3|-38.7|<0.0001
82610713|NCT01380093|164938554|SUPERIORITY_OR_OTHER||LS Mean Difference|30.8|||<|0.0001|TWO_SIDED|95.0|22.6|39.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||39.0|22.6|<0.0001
82610714|NCT01380093|164938554|SUPERIORITY_OR_OTHER||LS Mean Difference|61.3|||<|0.0001|TWO_SIDED|95.0|53.1|69.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||69.5|53.1|<0.0001
82610715|NCT01380093|164938555|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1||||0.8671|TWO_SIDED|95.0|-1.0|0.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.8|-1.0|0.8671
82610716|NCT01380093|164938555|SUPERIORITY_OR_OTHER||LS Mean Difference|1.8||||0.0001|TWO_SIDED|95.0|0.9|2.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.7|0.9|0.0001
82610717|NCT01380093|164938555|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9|||<|0.0001|TWO_SIDED|95.0|1.0|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.0|<0.0001
82610718|NCT01380093|164938556|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.0|||<|0.0001|TWO_SIDED|95.0|-17.0|-9.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.0|-17.0|<0.0001
82610719|NCT01380093|164938556|SUPERIORITY_OR_OTHER||LS Mean Difference|8.8|||<|0.0001|TWO_SIDED|95.0|4.8|12.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||12.8|4.8|<0.0001
82610720|NCT01380093|164938556|SUPERIORITY_OR_OTHER||LS Mean Difference|21.8|||<|0.0001|TWO_SIDED|95.0|17.8|25.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||25.8|17.8|<0.0001
82610721|NCT01380093|164938557|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.3|||<|0.0001|TWO_SIDED|95.0|-55.3|-35.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-35.3|-55.3|<0.0001
82610722|NCT01380093|164938557|SUPERIORITY_OR_OTHER||LS Mean Difference|24.5|||<|0.0001|TWO_SIDED|95.0|14.6|34.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.5|14.6|<0.0001
82610723|NCT01380093|164938557|SUPERIORITY_OR_OTHER||LS Mean Difference|69.8|||<|0.0001|TWO_SIDED|95.0|59.9|79.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||79.8|59.9|<0.0001
82610724|NCT01380093|164938558|SUPERIORITY_OR_OTHER||LS Mean Difference|-109.1|||<|0.0001|TWO_SIDED|95.0|-129.3|-88.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-88.8|-129.3|<0.0001
82610725|NCT01380093|164938558|SUPERIORITY_OR_OTHER||LS Mean Difference|60.1|||<|0.0001|TWO_SIDED|95.0|39.9|80.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||80.4|39.9|<0.0001
82610726|NCT01380093|164938558|SUPERIORITY_OR_OTHER||LS Mean Difference|169.2|||<|0.0001|TWO_SIDED|95.0|148.9|189.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||189.5|148.9|<0.0001
82610727|NCT01380093|164938559|SUPERIORITY_OR_OTHER||LS Mean Difference|-207.0|||<|0.0001|TWO_SIDED|95.0|-242.0|-172.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-172.1|-242.0|<0.0001
82610728|NCT01380093|164938559|SUPERIORITY_OR_OTHER||LS Mean Difference|118.7|||<|0.0001|TWO_SIDED|95.0|83.9|153.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||153.5|83.9|<0.0001
82610729|NCT01380093|164938559|SUPERIORITY_OR_OTHER||LS Mean Difference|325.8|||<|0.0001|TWO_SIDED|95.0|290.8|360.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||360.7|290.8|<0.0001
82610730|NCT01380093|164938560|SUPERIORITY_OR_OTHER||LS Mean Difference|-268.2|||<|0.0001|TWO_SIDED|95.0|-313.2|-223.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-223.2|-313.2|<0.0001
82610731|NCT01380093|164938560|SUPERIORITY_OR_OTHER||LS Mean Difference|147.0|||<|0.0001|TWO_SIDED|95.0|102.1|191.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||191.9|102.1|<0.0001
82610732|NCT01380093|164938560|SUPERIORITY_OR_OTHER||LS Mean Difference|415.2|||<|0.0001|TWO_SIDED|95.0|370.2|460.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||460.2|370.2|<0.0001
82610733|NCT01380093|164938561|SUPERIORITY_OR_OTHER||LS Mean Difference|-336.0|||<|0.0001|TWO_SIDED|95.0|-395.4|-276.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-276.6|-395.4|<0.0001
82610734|NCT01380093|164938561|SUPERIORITY_OR_OTHER||LS Mean Difference|165.6|||<|0.0001|TWO_SIDED|95.0|106.4|224.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||224.8|106.4|<0.0001
82610735|NCT01380093|164938561|SUPERIORITY_OR_OTHER||LS Mean Difference|501.6|||<|0.0001|TWO_SIDED|95.0|442.2|561.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||561.0|442.2|<0.0001
82610736|NCT01380093|164938562|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.8|||<|0.0001|TWO_SIDED|95.0|-40.7|-26.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-26.8|-40.7|<0.0001
82610737|NCT01380093|164938562|SUPERIORITY_OR_OTHER||LS Mean Difference|26.7|||<|0.0001|TWO_SIDED|95.0|19.7|33.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.6|19.7|<0.0001
82610738|NCT01380093|164938562|SUPERIORITY_OR_OTHER||LS Mean Difference|60.4|||<|0.0001|TWO_SIDED|95.0|53.4|67.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||67.4|53.4|<0.0001
82610739|NCT01380093|164938563|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.3345|TWO_SIDED|95.0|-0.4|1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.3|-0.4|0.3345
82610740|NCT01380093|164938563|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|||<|0.0001|TWO_SIDED|95.0|1.5|3.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.3|1.5|<0.0001
82658038|NCT02373098|165032454|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||CD4+TNFa+ (in CD4+)||||0.002
82610741|NCT01380093|164938563|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|||<|0.0001|TWO_SIDED|95.0|1.1|2.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.8|1.1|<0.0001
82610742|NCT01380093|164938564|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0||||0.0453|TWO_SIDED|95.0|-2.0|0.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.0|-2.0|0.0453
82610743|NCT01380093|164938564|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3||||0.5637|TWO_SIDED|95.0|-0.7|1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.3|-0.7|0.5637
82610744|NCT01380093|164938564|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.011|TWO_SIDED|95.0|0.3|2.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.3|0.3|0.0110
82610745|NCT01380093|164938565|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.9||||0.0041|TWO_SIDED|95.0|-8.2|-1.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.6|-8.2|0.0041
82610746|NCT01380093|164938565|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.2178|TWO_SIDED|95.0|-1.2|5.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.3|-1.2|0.2178
82610747|NCT01380093|164938565|SUPERIORITY_OR_OTHER||LS Mean Difference|7.0|||<|0.0001|TWO_SIDED|95.0|3.7|10.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||10.3|3.7|<0.0001
82658039|NCT02373098|165032454|OTHER|||||||0.107|||||||Wilcoxon (Mann-Whitney)|||CD4+IL9+ (in CD4+)||||0.107
82658040|NCT02373098|165032454|OTHER|||||||0|||||||Wilcoxon (Mann-Whitney)|||CD8+TNFa+ (in CD8+)||||0.000
82610748|NCT01380093|164938566|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.4||||0.0001|TWO_SIDED|95.0|-28.8|-9.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.9|-28.8|0.0001
82610749|NCT01380093|164938566|SUPERIORITY_OR_OTHER||LS Mean Difference|6.9||||0.151|TWO_SIDED|95.0|-2.6|16.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||16.3|-2.6|0.1510
82610750|NCT01380093|164938566|SUPERIORITY_OR_OTHER||LS Mean Difference|26.2|||<|0.0001|TWO_SIDED|95.0|16.8|35.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||35.7|16.8|<0.0001
82610751|NCT01380093|164938567|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|95.0|-75.9|-34.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-34.4|-75.9|<0.0001
82610752|NCT01380093|164938567|SUPERIORITY_OR_OTHER||LS Mean Difference|18.5||||0.0796|TWO_SIDED|95.0|-2.2|39.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||39.2|-2.2|0.0796
82610753|NCT01380093|164938567|SUPERIORITY_OR_OTHER||LS Mean Difference|73.6|||<|0.0001|TWO_SIDED|95.0|52.9|94.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||94.4|52.9|<0.0001
82610754|NCT01380093|164938568|SUPERIORITY_OR_OTHER||LS Mean Difference|-82.8|||<|0.0001|TWO_SIDED|95.0|-112.9|-52.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-52.7|-112.9|<0.0001
82610755|NCT01380093|164938568|SUPERIORITY_OR_OTHER||LS Mean Difference|26.9||||0.078|TWO_SIDED|95.0|-3.1|56.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||56.9|-3.1|0.0780
82610756|NCT01380093|164938568|SUPERIORITY_OR_OTHER||LS Mean Difference|109.7|||<|0.0001|TWO_SIDED|95.0|79.6|139.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||139.8|79.6|<0.0001
82610757|NCT01380093|164938569|SUPERIORITY_OR_OTHER||LS Mean Difference|-111.9|||<|0.0001|TWO_SIDED|95.0|-153.7|-70.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-70.2|-153.7|<0.0001
82610758|NCT01380093|164938569|SUPERIORITY_OR_OTHER||LS Mean Difference|33.9||||0.1089|TWO_SIDED|95.0|-7.8|75.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||75.5|-7.8|0.1089
82610759|NCT01380093|164938569|SUPERIORITY_OR_OTHER||LS Mean Difference|145.8|||<|0.0001|TWO_SIDED|95.0|104.1|187.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||187.5|104.1|<0.0001
82610760|NCT01380093|164938570|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.7|||<|0.0001|TWO_SIDED|95.0|-18.8|-8.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-8.6|-18.8|<0.0001
82610761|NCT01380093|164938570|SUPERIORITY_OR_OTHER||LS Mean Difference|6.0||||0.0215|TWO_SIDED|95.0|0.9|11.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.1|0.9|0.0215
82658041|NCT02373098|165032454|OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||CD8+IL9+ (in CD8+)||||0.022
82610762|NCT01380093|164938570|SUPERIORITY_OR_OTHER||LS Mean Difference|19.7|||<|0.0001|TWO_SIDED|95.0|14.6|24.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||24.8|14.6|<0.0001
82610763|NCT01380093|164938571|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.3||||0.0007|TWO_SIDED|95.0|-3.6|-1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.0|-3.6|0.0007
82610764|NCT01380093|164938571|SUPERIORITY_OR_OTHER||LS Mean Difference|1.3||||0.0455|TWO_SIDED|95.0|0.0|2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.6|0.0|0.0455
82610765|NCT01380093|164938571|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6|||<|0.0001|TWO_SIDED|95.0|2.3|4.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.9|2.3|<0.0001
82610766|NCT01380093|164938572|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3||||0.3749|TWO_SIDED|95.0|-0.9|0.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.3|-0.9|0.3749
82610767|NCT01380093|164938572|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1||||0.7939|TWO_SIDED|95.0|-0.5|0.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.7|-0.5|0.7939
82658042|NCT02373098|165032454|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||TNFa+ (in CD4+CD25+)||||0.001
82658043|NCT02373098|165032454|OTHER|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||IL9+ (in CD4+CD25+)||||0.127
82658044|NCT03252353|165032472|SUPERIORITY|||||||0.0079|||||||Regression, Logistic|The adjusted proportion of responders is 58.16 for Octreotide Capsule Treatment Group vs. 19.42 for the Placebo||The proportion of \[IGF-1/GH\] responders was compared between treatment groups using an exact logistic regression model with categorical covariates for treatment group, prior SRL dose, and baseline \[IGF-1/GH\] level||||0.0079
82610768|NCT01380093|164938572|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4||||0.2524|TWO_SIDED|95.0|-0.3|1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.0|-0.3|0.2524
82610769|NCT01380093|164938573|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7||||0.1211|TWO_SIDED|95.0|-3.8|0.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.5|-3.8|0.1211
82610770|NCT01380093|164938573|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4||||0.1997|TWO_SIDED|95.0|-0.7|3.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.5|-0.7|0.1997
82610771|NCT01380093|164938573|SUPERIORITY_OR_OTHER||LS Mean Difference|3.1||||0.0057|TWO_SIDED|95.0|0.9|5.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.2|0.9|0.0057
82610772|NCT01380093|164938574|SUPERIORITY_OR_OTHER||LS Mean Difference|-9.8||||0.0057|TWO_SIDED|95.0|-16.7|-3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.0|-16.7|0.0057
82610773|NCT01380093|164938574|SUPERIORITY_OR_OTHER||LS Mean Difference|4.5||||0.1918|TWO_SIDED|95.0|-2.3|11.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.4|-2.3|0.1918
82610774|NCT01380093|164938574|SUPERIORITY_OR_OTHER||LS Mean Difference|14.4|||<|0.0001|TWO_SIDED|95.0|7.5|21.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||21.2|7.5|<0.0001
82610775|NCT01380093|164938575|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.5||||0.0013|TWO_SIDED|95.0|-50.2|-12.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-12.9|-50.2|0.0013
82610776|NCT01380093|164938575|SUPERIORITY_OR_OTHER||LS Mean Difference|14.9||||0.1136|TWO_SIDED|95.0|-3.7|33.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.5|-3.7|0.1136
82610777|NCT01380093|164938575|SUPERIORITY_OR_OTHER||LS Mean Difference|46.5|||<|0.0001|TWO_SIDED|95.0|27.8|65.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||65.1|27.8|<0.0001
82658045|NCT03252353|165032473|SUPERIORITY|||||||0.0007|||||||Regression, Logistic|The adjusted proportion of responders is 77.66 for Octreotide Capsule Treatment Group vs. 30.40 for the Placebo||The proportion of \[IGF-1/GH\] responders was compared between treatment groups using an exact logistic regression model with categorical covariates for treatment group, prior SRL dose, and baseline \[IGF-1/GH\] level||||0.0007
82658046|NCT03252353|165032474|SUPERIORITY|||||||0.0029|||||||Fisher Exact|||||||0.0029
82610778|NCT01380093|164938576|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.6||||0.0006|TWO_SIDED|95.0|-83.2|-24.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-24.0|-83.2|0.0006
82610779|NCT01380093|164938576|SUPERIORITY_OR_OTHER||LS Mean Difference|23.2||||0.1207|TWO_SIDED|95.0|-6.3|52.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||52.7|-6.3|0.1207
82610780|NCT01380093|164938576|SUPERIORITY_OR_OTHER||LS Mean Difference|76.8|||<|0.0001|TWO_SIDED|95.0|47.3|106.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||106.4|47.3|<0.0001
82610781|NCT01380093|164938577|SUPERIORITY_OR_OTHER||LS Mean Difference|-75.8||||0.0008|TWO_SIDED|95.0|-118.6|-33.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-33.0|-118.6|0.0008
82610782|NCT01380093|164938577|SUPERIORITY_OR_OTHER||LS Mean Difference|31.8||||0.141|TWO_SIDED|95.0|-10.8|74.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||74.5|-10.8|0.1410
82610783|NCT01380093|164938577|SUPERIORITY_OR_OTHER||LS Mean Difference|107.7|||<|0.0001|TWO_SIDED|95.0|64.9|150.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||150.5|64.9|<0.0001
82658047|NCT00855738|165032477|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3: p-value versus baseline.||||<0.0001
82658048|NCT00855738|165032477|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||<0.0001
82658049|NCT00855738|165032478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3 \>=25% reduction: p-value versus baseline.||||<0.0001
82658050|NCT00855738|165032478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 3 \>=75% reduction: p-value versus baseline.||||<0.0001
82658051|NCT00855738|165032478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: \>=25% reduction: p-value versus baseline.||||<0.0001
82610784|NCT01380093|164938578|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.0|||<|0.0001|TWO_SIDED|95.0|-14.4|-5.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-5.6|-14.4|<0.0001
82610785|NCT01380093|164938578|SUPERIORITY_OR_OTHER||LS Mean Difference|4.3||||0.0529|TWO_SIDED|95.0|-0.1|8.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.7|-0.1|0.0529
82610786|NCT01380093|164938578|SUPERIORITY_OR_OTHER||LS Mean Difference|14.3|||<|0.0001|TWO_SIDED|95.0|9.9|18.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||18.7|9.9|<0.0001
82610787|NCT01380093|164938579|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8||||0.0806|TWO_SIDED|95.0|-3.8|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-3.8|0.0806
82610788|NCT01380093|164938579|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.2769|TWO_SIDED|95.0|-0.9|3.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.1|-0.9|0.2769
82610789|NCT01380093|164938579|SUPERIORITY_OR_OTHER||LS Mean Difference|2.9||||0.0056|TWO_SIDED|95.0|0.9|5.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.0|0.9|0.0056
82610790|NCT01380093|164938580|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8||||0.11|TWO_SIDED|95.0|-1.7|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-1.7|0.1100
82610791|NCT01380093|164938580|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||0.9421|TWO_SIDED|95.0|-1.0|0.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.9|-1.0|0.9421
82610792|NCT01380093|164938580|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7||||0.1266|TWO_SIDED|95.0|-0.2|1.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.7|-0.2|0.1266
82610793|NCT01380093|164938581|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6||||0.0723|TWO_SIDED|95.0|-5.3|0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.2|-5.3|0.0723
82610794|NCT01380093|164938581|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1||||0.4515|TWO_SIDED|95.0|-1.7|3.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.8|-1.7|0.4515
82610795|NCT01380093|164938581|SUPERIORITY_OR_OTHER||LS Mean Difference|3.6||||0.0121|TWO_SIDED|95.0|0.8|6.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||6.4|0.8|0.0121
82610796|NCT01380093|164938582|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.0||||0.0059|TWO_SIDED|95.0|-18.7|-3.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.3|-18.7|0.0059
82610797|NCT01380093|164938582|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.28|TWO_SIDED|95.0|-3.5|11.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||11.8|-3.5|0.2800
82610798|NCT01380093|164938582|SUPERIORITY_OR_OTHER||LS Mean Difference|15.1||||0.0002|TWO_SIDED|95.0|7.5|22.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||22.8|7.5|0.0002
82610799|NCT01380093|164938583|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.7||||0.0001|TWO_SIDED|95.0|-54.8|-18.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.6|-54.8|0.0001
82610800|NCT01380093|164938583|SUPERIORITY_OR_OTHER||LS Mean Difference|13.2||||0.1488|TWO_SIDED|95.0|-4.8|31.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||31.2|-4.8|0.1488
82610801|NCT01380093|164938583|SUPERIORITY_OR_OTHER||LS Mean Difference|49.9|||<|0.0001|TWO_SIDED|95.0|31.8|67.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||67.9|31.8|<0.0001
82610802|NCT01380093|164938584|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.1|||<|0.0001|TWO_SIDED|95.0|-88.5|-31.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-31.6|-88.5|<0.0001
82610803|NCT01380093|164938584|SUPERIORITY_OR_OTHER||LS Mean Difference|20.4||||0.1556|TWO_SIDED|95.0|-8.0|48.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||48.7|-8.0|0.1556
82658052|NCT00855738|165032478|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: \>=75% reduction: p-value versus baseline.||||<0.0001
82658053|NCT00855738|165032479|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0039|TWO_SIDED||||||McNemar|||Month 3: p-value versus baseline.||||0.0039
82658054|NCT00855738|165032479|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||<0.0001
82610804|NCT01380093|164938584|SUPERIORITY_OR_OTHER||LS Mean Difference|80.4|||<|0.0001|TWO_SIDED|95.0|52.0|108.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||108.9|52.0|<0.0001
82610805|NCT01380093|164938585|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.0||||0.0001|TWO_SIDED|95.0|-124.8|-43.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-43.2|-124.8|0.0001
82610806|NCT01380093|164938585|SUPERIORITY_OR_OTHER||LS Mean Difference|27.4||||0.1826|TWO_SIDED|95.0|-13.3|68.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||68.1|-13.3|0.1826
82610807|NCT01380093|164938585|SUPERIORITY_OR_OTHER||LS Mean Difference|111.4|||<|0.0001|TWO_SIDED|95.0|70.6|152.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||152.2|70.6|<0.0001
82610808|NCT01380093|164938586|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.7|||<|0.0001|TWO_SIDED|95.0|-16.4|-7.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-7.0|-16.4|<0.0001
82610809|NCT01380093|164938586|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2||||0.0811|TWO_SIDED|95.0|-0.5|8.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||8.9|-0.5|0.0811
82610810|NCT01380093|164938586|SUPERIORITY_OR_OTHER||LS Mean Difference|15.9|||<|0.0001|TWO_SIDED|95.0|11.1|20.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||20.6|11.1|<0.0001
82610811|NCT01380093|164938587|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5||||0.0007|TWO_SIDED|95.0|-3.8|-1.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.1|-3.8|0.0007
82610812|NCT01380093|164938587|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0||||0.1631|TWO_SIDED|95.0|-0.4|2.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.3|-0.4|0.1631
82610813|NCT01380093|164938587|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|||<|0.0001|TWO_SIDED|95.0|2.1|4.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.8|2.1|<0.0001
82610814|NCT01380093|164938588|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2||||0.2117|TWO_SIDED|95.0|-3.1|0.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.7|-3.1|0.2117
82610815|NCT01380093|164938588|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1||||0.0345|TWO_SIDED|95.0|0.2|4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.0|0.2|0.0345
82658055|NCT00855738|165032480|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82610816|NCT01380093|164938588|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0011|TWO_SIDED|95.0|1.4|5.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.2|1.4|0.0011
82610817|NCT01380093|164938589|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.2||||0.0002|TWO_SIDED|95.0|-18.4|-6.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-6.0|-18.4|0.0002
82610818|NCT01380093|164938589|SUPERIORITY_OR_OTHER||LS Mean Difference|8.4||||0.0081|TWO_SIDED|95.0|2.3|14.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||14.6|2.3|0.0081
82610819|NCT01380093|164938589|SUPERIORITY_OR_OTHER||LS Mean Difference|20.6|||<|0.0001|TWO_SIDED|95.0|14.4|26.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||26.8|14.4|<0.0001
82610820|NCT01380093|164938590|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.2|||<|0.0001|TWO_SIDED|95.0|-55.6|-20.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-20.8|-55.6|<0.0001
82610821|NCT01380093|164938590|SUPERIORITY_OR_OTHER||LS Mean Difference|34.4||||0.0002|TWO_SIDED|95.0|17.0|51.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||51.7|17.0|0.0002
82610822|NCT01380093|164938590|SUPERIORITY_OR_OTHER||LS Mean Difference|72.6|||<|0.0001|TWO_SIDED|95.0|55.2|90.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||90.0|55.2|<0.0001
82658056|NCT00855738|165032491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1797|TWO_SIDED||||||t-test, 2 sided|||Depression domain: P-value vs baseline.||||0.1797
82658057|NCT00855738|165032491|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0433|TWO_SIDED||||||t-test, 2 sided|||Anxiety domain: P-value vs baseline.||||0.0433
82658058|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8284|TWO_SIDED||||||t-test, 2 sided|||Energy: p-value versus baseline.||||0.8284
82658059|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6299|TWO_SIDED||||||t-test, 2 sided|||Emotions (mood): p-value versus baseline.||||0.6299
82658060|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6162|TWO_SIDED||||||t-test, 2 sided|||Daily activities: p-value versus baseline.||||0.6162
82658061|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5609|TWO_SIDED||||||t-test, 2 sided|||Mental function: p-value versus baseline.||||0.5609
82658062|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4635|TWO_SIDED||||||t-test, 2 sided|||Medication effects (physical/ mental): p-value versus baseline.||||0.4635
82658063|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||t-test, 2 sided|||Worry about seizures (impact of seizures): p-value versus baseline.||||<0.0001
82658064|NCT00855738|165032492|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0258|TWO_SIDED||||||t-test, 2 sided|||Overall quality of life: p-value versus baseline.||||0.0258
82658065|NCT00855738|165032493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7822|TWO_SIDED||||||t-test, 2 sided|||Month 3: p-value versus baseline.||||0.7822
82658066|NCT00855738|165032493|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4471|TWO_SIDED||||||t-test, 2 sided|||Month 6: p-value versus baseline.||||0.4471
82658067|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2452|TWO_SIDED||||||t-test, 2 sided|||Sleep disturbance: p-value versus baseline.||||0.2452
82658068|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Snoring: p-value verus baseline.||||1.0000
82658069|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4253|TWO_SIDED||||||t-test, 2 sided|||Awake short of breath: p-value versus baseline.||||0.4253
82658070|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0572|TWO_SIDED||||||t-test, 2 sided|||Quantity: p-value versus baseline.||||0.0572
82658071|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0625|TWO_SIDED||||||t-test, 2 sided|||Adequacy: p-value versus baseline.||||0.0625
82658072|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.554|TWO_SIDED||||||t-test, 2 sided|||Somnolence: p-value versus baseline.||||0.5540
82658073|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4204|TWO_SIDED||||||t-test, 2 sided|||Sleep problems (summary 6): p-value versus baseline.||||0.4204
82658074|NCT00855738|165032494|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4869|TWO_SIDED||||||t-test, 2 sided|||Sleep problems (summary 9): p-value versus baseline.||||0.4869
82658075|NCT00855738|165032495|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0863|TWO_SIDED||||||McNemar|||Month 6: p-value versus baseline.||||0.0863
82658076|NCT00855738|165032496|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0226|TWO_SIDED||||||t-test, 2 sided|||Number of visits to a specialist because of epilepsy: p-value versus baseline.||||0.0226
82658077|NCT00855738|165032496|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|TWO_SIDED||||||t-test, 2 sided|||Number of visits to the emergency room because of epilepsy: p-value versus baseline.||||0.0017
82658078|NCT00855738|165032497|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3141|TWO_SIDED||||||t-test, 2 sided|||P-value versus baseline.||||0.3141
82658079|NCT00855738|165032498|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0708|TWO_SIDED||||||t-test, 2 sided|||Cessation of usual occupation: p-value versus baseline.||||0.0708
82658080|NCT00855738|165032498|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Requirement of informal caregiver: p-value versus baseline.||||1.0000
82658081|NCT00855738|165032498|SUPERIORITY_OR_OTHER_LEGACY|||||||1|TWO_SIDED||||||t-test, 2 sided|||Required admission to ICU: p-value versus baseline.||||1.0000
82658082|NCT00154102|165032548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.853||||0.0479|TWO_SIDED|95.0|0.728|1.0|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The study was planned with 633 progression events, in order to provide 80% power to test the null hypothesis of no difference in PFS time between treatment groups, assuming a hazard ratio (HR) of 0.8 of cetuximab + chemotherapy (CTX) over CTX alone. Significance level was fixed at 5%. The two-sided stratified log-rank test was employed, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and Karnovsky Performance Scale (KPS):\<80 vs. ≥80)||1.000|0.728|0.0479
82658083|NCT00154102|165032549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.696||||0.0012|TWO_SIDED|95.0|0.558|0.867|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.867|0.558|0.0012
82658084|NCT00154102|165032550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.171||||0.2648|TWO_SIDED|95.0|0.887|1.544|||Stratified log rank|Kaplan-Meier method was used to estimate median PFS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.544|0.887|0.2648
82658085|NCT00154102|165032551|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.878||||0.0419|TWO_SIDED|95.0|0.774|0.995|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.995|0.774|0.0419
82658086|NCT00154102|165032552|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.0093|TWO_SIDED|95.0|0.67|0.946|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||0.946|0.670|0.0093
82658087|NCT00154102|165032553|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.7549|TWO_SIDED|95.0|0.834|1.284|||Stratified log rank|Kaplan-Meier method was used to estimate median OS time. HR was calculated using Cox proportional hazards model stratified by randomization strata.||The two-sided stratified log-rank test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.284|0.834|0.7549
82658088|NCT00154102|165032554|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.0038|TWO_SIDED|95.0|1.12|1.77|||Stratified cochran-mantel haenszel test|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.77|1.12|0.0038
82610823|NCT01380093|164938591|SUPERIORITY_OR_OTHER||LS Mean Difference|-100.3|||<|0.0001|TWO_SIDED|95.0|-142.2|-58.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-58.4|-142.2|<0.0001
82610824|NCT01380093|164938591|SUPERIORITY_OR_OTHER||LS Mean Difference|93.9|||<|0.0001|TWO_SIDED|95.0|52.1|135.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||135.7|52.1|<0.0001
82492561|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.47|STANDARD_ERROR_OF_MEAN|7.62||0.473|TWO_SIDED|95.0|-9.46|20.4|||Normal approximation for two proportions|||Week 2||20.40|-9.46|0.473
82492562|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-2.22|STANDARD_ERROR_OF_MEAN|6.95||0.749|TWO_SIDED|95.0|-15.85|11.4|||Normal approximation for two proportions|||Week 2||11.40|-15.85|0.749
82492563|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.52||0.393|TWO_SIDED|95.0|-9.43|23.98|||Normal approximation for two proportions|||Week 4||23.98|-9.43|0.393
82492564|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.51|STANDARD_ERROR_OF_MEAN|8.2||0.854|TWO_SIDED|95.0|-14.57|17.59|||Normal approximation for two proportions|||Week 4||17.59|-14.57|0.854
82492565|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.28|STANDARD_ERROR_OF_MEAN|8.52||0.393|TWO_SIDED|95.0|-9.43|23.98|||Normal approximation for two proportions|||Week 4||23.98|-9.43|0.393
82492566|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.16|STANDARD_ERROR_OF_MEAN|9.09||0.43|TWO_SIDED|95.0|-10.65|24.97|||Normal approximation for two proportions|||Week 8||24.97|-10.65|0.430
82610825|NCT01380093|164938591|SUPERIORITY_OR_OTHER||LS Mean Difference|194.2|||<|0.0001|TWO_SIDED|95.0|152.3|236.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||236.1|152.3|<0.0001
82610826|NCT01380093|164938592|SUPERIORITY_OR_OTHER||LS Mean Difference|-147.4|||<|0.0001|TWO_SIDED|95.0|-205.1|-89.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-89.6|-205.1|<0.0001
82610827|NCT01380093|164938592|SUPERIORITY_OR_OTHER||LS Mean Difference|134.1|||<|0.0001|TWO_SIDED|95.0|76.5|191.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||191.7|76.5|<0.0001
82492567|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.24|STANDARD_ERROR_OF_MEAN|9.02||0.561|TWO_SIDED|95.0|-12.44|22.92|||Normal approximation for two proportions|||Week 8||22.92|-12.44|0.561
82610828|NCT01380093|164938592|SUPERIORITY_OR_OTHER||LS Mean Difference|281.5|||<|0.0001|TWO_SIDED|95.0|223.7|339.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||339.2|223.7|<0.0001
82610829|NCT01380093|164938593|SUPERIORITY_OR_OTHER||LS Mean Difference|-201.4|||<|0.0001|TWO_SIDED|95.0|-279.3|-123.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-123.6|-279.3|<0.0001
82610830|NCT01380093|164938593|SUPERIORITY_OR_OTHER||LS Mean Difference|169.1|||<|0.0001|TWO_SIDED|95.0|91.5|246.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||246.7|91.5|<0.0001
82492568|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.93|STANDARD_ERROR_OF_MEAN|9.24||0.162|TWO_SIDED|95.0|-5.17|31.04|||Normal approximation for two proportions|||Week 8||31.04|-5.17|0.162
82492569|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|22.62|STANDARD_ERROR_OF_MEAN|9.11||0.013|TWO_SIDED|95.0|4.76|40.49|||Normal approximation for two proportions|||Week 12||40.49|4.76|0.013
82492570|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.78|STANDARD_ERROR_OF_MEAN|9.07||0.038|TWO_SIDED|95.0|1.01|36.55|||Normal approximation for two proportions|||Week 12||36.55|1.01|0.038
82492571|NCT01786668|164677989|SUPERIORITY_OR_OTHER||Risk Difference (RD)|18.78|STANDARD_ERROR_OF_MEAN|9.07||0.038|TWO_SIDED|95.0|1.01|36.55|||Normal approximation for two proportions|||Week 12||36.55|1.01|0.038
82492572|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.272||0.164|TWO_SIDED|95.0|-0.92|0.16|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.16|-0.92|0.164
82492573|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.271||0.129|TWO_SIDED|95.0|-0.95|0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.12|-0.95|0.129
82492574|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.272||0.66|TWO_SIDED|95.0|-0.66|0.42|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.42|-0.66|0.660
82610831|NCT01380093|164938593|SUPERIORITY_OR_OTHER||LS Mean Difference|370.5|||<|0.0001|TWO_SIDED|95.0|292.7|448.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||448.4|292.7|<0.0001
82610832|NCT01380093|164938594|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.4|||<|0.0001|TWO_SIDED|95.0|-23.8|-9.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.0|-23.8|<0.0001
82610833|NCT01380093|164938594|SUPERIORITY_OR_OTHER||LS Mean Difference|25.7|||<|0.0001|TWO_SIDED|95.0|18.3|33.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||33.1|18.3|<0.0001
82492575|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.297||0.256|TWO_SIDED|95.0|-0.92|0.25|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.25|-0.92|0.256
82492576|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.296||0.048|TWO_SIDED|95.0|-1.17|0.0|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.00|-1.17|0.048
82492577|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.297||0.318|TWO_SIDED|95.0|-0.88|0.29|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.29|-0.88|0.318
82492578|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.35||0.522|TWO_SIDED|95.0|-0.92|0.47|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.47|-0.92|0.522
82610834|NCT01380093|164938594|SUPERIORITY_OR_OTHER||LS Mean Difference|42.1|||<|0.0001|TWO_SIDED|95.0|34.7|49.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||49.5|34.7|<0.0001
82610835|NCT01380093|164938595|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4||||0.0253|TWO_SIDED|95.0|-2.6|-0.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.2|-2.6|0.0253
82610836|NCT01380093|164938595|SUPERIORITY_OR_OTHER||LS Mean Difference|2.8|||<|0.0001|TWO_SIDED|95.0|1.6|4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.0|1.6|<0.0001
82610837|NCT01380093|164938595|SUPERIORITY_OR_OTHER||LS Mean Difference|4.2|||<|0.0001|TWO_SIDED|95.0|3.0|5.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.4|3.0|<0.0001
82610838|NCT01380093|164938596|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1||||0.0062|TWO_SIDED|95.0|-3.7|-0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.6|-3.7|0.0062
82610839|NCT01380093|164938596|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5||||0.4998|TWO_SIDED|95.0|-1.0|2.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.0|-1.0|0.4998
82610840|NCT01380093|164938596|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7||||0.0008|TWO_SIDED|95.0|1.1|4.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.2|1.1|0.0008
82610841|NCT01380093|164938597|SUPERIORITY_OR_OTHER||LS Mean Difference|-7.0||||0.0009|TWO_SIDED|95.0|-11.1|-3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.0|-11.1|0.0009
82610842|NCT01380093|164938597|SUPERIORITY_OR_OTHER||LS Mean Difference|2.2||||0.2693|TWO_SIDED|95.0|-1.8|6.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||6.3|-1.8|0.2693
82610843|NCT01380093|164938597|SUPERIORITY_OR_OTHER||LS Mean Difference|9.3|||<|0.0001|TWO_SIDED|95.0|5.3|13.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||13.3|5.3|<0.0001
82610844|NCT01380093|164938598|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.2||||0.0042|TWO_SIDED|95.0|-27.2|-5.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-5.3|-27.2|0.0042
82610845|NCT01380093|164938598|SUPERIORITY_OR_OTHER||LS Mean Difference|8.7||||0.1139|TWO_SIDED|95.0|-2.2|19.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||19.6|-2.2|0.1139
82610846|NCT01380093|164938598|SUPERIORITY_OR_OTHER||LS Mean Difference|25.0|||<|0.0001|TWO_SIDED|95.0|14.1|35.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||35.9|14.1|<0.0001
82610847|NCT01380093|164938599|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.9|||<|0.0001|TWO_SIDED|95.0|-42.1|-27.7||p-value adjusted for multiple comparisons with Hochberg adjustment. At least one primary outcome for each of drug liking and high was required to be significant with adjusted p-value less than or equal to 0.05.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-27.7|-42.1|<0.0001
82658089|NCT00154102|165032555|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.069|||<|0.0001|TWO_SIDED|95.0|1.515|2.826|||Cochran-Mantel-Haenszel|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||2.826|1.515|<0.0001
82492579|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69|STANDARD_ERROR_OF_MEAN|0.35||0.05|TWO_SIDED|95.0|-1.38|0.0|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.00|-1.38|0.050
82610848|NCT01380093|164938599|SUPERIORITY_OR_OTHER||LS Mean Difference|27.2|||<|0.0001|TWO_SIDED|95.0|20.1|34.4||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||34.4|20.1|<0.0001
82610849|NCT01380093|164938599|SUPERIORITY_OR_OTHER||LS Mean Difference|62.1|||<|0.0001|TWO_SIDED|95.0|54.9|69.4||p-value adjusted for multiple comparisons with Hochberg adjustment.|Mixed Models Analysis|||LS mean and 95% CI were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||69.4|54.9|<0.0001
82610850|NCT01380093|164938600|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.1||||0.0039|TWO_SIDED|95.0|-58.5|-11.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.7|-58.5|0.0039
82610851|NCT01380093|164938600|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3||||0.1026|TWO_SIDED|95.0|-4.0|42.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||42.7|-4.0|0.1026
82610852|NCT01380093|164938600|SUPERIORITY_OR_OTHER||LS Mean Difference|54.4|||<|0.0001|TWO_SIDED|95.0|31.0|77.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||77.8|31.0|<0.0001
82610853|NCT01380093|164938601|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.3||||0.0051|TWO_SIDED|95.0|-73.1|-13.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-13.5|-73.1|0.0051
82610854|NCT01380093|164938601|SUPERIORITY_OR_OTHER||LS Mean Difference|25.3||||0.0941|TWO_SIDED|95.0|-4.4|55.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||55.0|-4.4|0.0941
82610855|NCT01380093|164938601|SUPERIORITY_OR_OTHER||LS Mean Difference|68.6|||<|0.0001|TWO_SIDED|95.0|38.8|98.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||98.4|38.8|<0.0001
82610856|NCT01380093|164938602|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.0||||0.0083|TWO_SIDED|95.0|-85.0|-13.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-13.1|-85.0|0.0083
82610857|NCT01380093|164938602|SUPERIORITY_OR_OTHER||LS Mean Difference|32.3||||0.0766|TWO_SIDED|95.0|-3.5|68.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||68.1|-3.5|0.0766
82610858|NCT01380093|164938602|SUPERIORITY_OR_OTHER||LS Mean Difference|81.3|||<|0.0001|TWO_SIDED|95.0|45.4|117.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||117.3|45.4|<0.0001
82610859|NCT01380093|164938603|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.0||||0.0018|TWO_SIDED|95.0|-12.9|-3.1|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.1|-12.9|0.0018
82610860|NCT01380093|164938603|SUPERIORITY_OR_OTHER||LS Mean Difference|4.8||||0.0527|TWO_SIDED|95.0|-0.1|9.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||9.7|-0.1|0.0527
82610861|NCT01380093|164938603|SUPERIORITY_OR_OTHER||LS Mean Difference|12.8|||<|0.0001|TWO_SIDED|95.0|7.9|17.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17.7|7.9|<0.0001
82610862|NCT01380093|164938604|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4||||0.3986|TWO_SIDED|95.0|-1.4|0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.6|-1.4|0.3986
82610863|NCT01380093|164938604|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5||||0.0023|TWO_SIDED|95.0|0.6|2.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.5|0.6|0.0023
82658090|NCT00154102|165032556|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.3475|TWO_SIDED|95.0|0.544|1.242|||Cochran-Mantel-Haenszel|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.242|0.544|0.3475
82610864|NCT01380093|164938604|SUPERIORITY_OR_OTHER||LS Mean Difference|1.9||||0.0002|TWO_SIDED|95.0|1.0|2.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.9|1.0|0.0002
82610865|NCT01380093|164938605|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.2||||0.0029|TWO_SIDED|95.0|-18.0|-4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4|-18|0.0029
82610866|NCT01380093|164938605|SUPERIORITY_OR_OTHER||LS Mean Difference|8.1||||0.0286|TWO_SIDED|95.0|1.0|15.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||15|1|0.0286
82610867|NCT01380093|164938605|SUPERIORITY_OR_OTHER||LS Mean Difference|19.3|||<|0.0001|TWO_SIDED|95.0|12.0|27.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||27|12|<0.0001
82610868|NCT01380093|164938606|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.0||||0.005|TWO_SIDED|95.0|-22.0|-4.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4|-22|0.0050
82610869|NCT01380093|164938606|SUPERIORITY_OR_OTHER||LS Mean Difference|8.2||||0.07|TWO_SIDED|95.0|-1.0|17.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||17|-1|0.0700
82610870|NCT01380093|164938606|SUPERIORITY_OR_OTHER||LS Mean Difference|21.2|||<|0.0001|TWO_SIDED|95.0|12.0|30.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||30|12|<0.0001
82610871|NCT01380093|164938607|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|||<|0.0001|TWO_SIDED|95.0|0.5|0.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.9|0.5|<0.0001
82610872|NCT01380093|164938607|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-0.3|-0.8|<0.0001
82610873|NCT01380093|164938607|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-1.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.0|-1.5|<0.0001
82610874|NCT01380093|164938608|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4|||<|0.0001|TWO_SIDED|95.0|1.9|2.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||2.9|1.9|<0.0001
82610875|NCT01380093|164938608|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|||<|0.0001|TWO_SIDED|95.0|-2.2|-1.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.3|-2.2|<0.0001
82610876|NCT01380093|164938608|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.1|||<|0.0001|TWO_SIDED|95.0|-4.6|-3.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-3.6|-4.6|<0.0001
82610877|NCT01380093|164938609|SUPERIORITY_OR_OTHER||LS Mean Difference|4.9|||<|0.0001|TWO_SIDED|95.0|3.9|5.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||5.8|3.9|<0.0001
82610878|NCT01380093|164938609|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.3|||<|0.0001|TWO_SIDED|95.0|-6.3|-4.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-4.3|-6.3|<0.0001
82610879|NCT01380093|164938609|SUPERIORITY_OR_OTHER||LS Mean Difference|-10.1|||<|0.0001|TWO_SIDED|95.0|-11.1|-9.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-9.2|-11.1|<0.0001
82610880|NCT01380093|164938610|SUPERIORITY_OR_OTHER||LS Mean Difference|8.6|||<|0.0001|TWO_SIDED|95.0|6.6|10.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||10.7|6.6|<0.0001
82610881|NCT01380093|164938610|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.8|||<|0.0001|TWO_SIDED|95.0|-15.9|-11.8|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-11.8|-15.9|<0.0001
82610882|NCT01380093|164938610|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.4|||<|0.0001|TWO_SIDED|95.0|-24.5|-20.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-20.4|-24.5|<0.0001
82610883|NCT01380093|164938611|SUPERIORITY_OR_OTHER||LS Mean Difference|11.7|||<|0.0001|TWO_SIDED|95.0|8.7|14.7|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||14.7|8.7|<0.0001
82658091|NCT00154102|165032557|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.6004|TWO_SIDED|95.0|0.67|1.26|||Stratified cochran-mantel haenszel test|||The two-sided stratified Cochran-Mantel-Haenszel (CMH) test was employed at the 5% significance level, considering the randomization strata (region: Western Europe, Eastern Europe, outside Europe and KPS:\<80 vs. ≥80)||1.26|0.67|0.6004
82610884|NCT01380093|164938611|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|||<|0.0001|TWO_SIDED|95.0|-24.5|-18.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-18.6|-24.5|<0.0001
82610885|NCT01380093|164938611|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.2|||<|0.0001|TWO_SIDED|95.0|-36.2|-30.2|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-30.2|-36.2|<0.0001
82610886|NCT01380093|164938612|SUPERIORITY_OR_OTHER||LS Mean Difference|17.5|||<|0.0001|TWO_SIDED|95.0|11.6|23.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||23.3|11.6|<0.0001
82610887|NCT01380093|164938612|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.7|||<|0.0001|TWO_SIDED|95.0|-43.6|-31.9|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-31.9|-43.6|<0.0001
82658092|NCT00154102|165032559|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.02||||0.002|TWO_SIDED|95.0|1.45|6.27|||Cochran-Mantel-Haenszel|||||6.27|1.45|0.002
82658093|NCT01811953|165032563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.55|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|99.531|105.653|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||105.653|99.531|<0.0001
82658094|NCT01811953|165032563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|98.88|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.879|103.059|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.059|94.879|<0.0001
82658095|NCT01811953|165032563|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|106.0|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|102.728|109.386|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.386|102.728|<0.0001
82658096|NCT01811953|165032564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|96.13|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|91.25|101.26|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||101.26|91.25|<0.0001
82492580|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.352||0.337|TWO_SIDED|95.0|-1.03|0.36|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.36|-1.03|0.337
82610888|NCT01380093|164938612|SUPERIORITY_OR_OTHER||LS Mean Difference|-55.2|||<|0.0001|TWO_SIDED|95.0|-61.1|-49.3|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-49.3|-61.1|<0.0001
82610889|NCT01380093|164938613|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|||<|0.0001|TWO_SIDED|95.0|0.8|1.4|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.4|0.8|<0.0001
82610890|NCT01380093|164938613|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|||<|0.0001|TWO_SIDED|95.0|-2.1|-1.5|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-1.5|-2.1|<0.0001
82610891|NCT01380093|164938613|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.9|||<|0.0001|TWO_SIDED|95.0|-3.2|-2.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||-2.6|-3.2|<0.0001
82610892|NCT01380093|164938614|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5||||0.0262|TWO_SIDED|95.0|0.3|4.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||4.6|0.3|0.0262
82610893|NCT01380093|164938614|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.418|TWO_SIDED|95.0|-1.3|3.0|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||3.0|-1.3|0.4180
82610894|NCT01380093|164938614|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.6||||0.1479|TWO_SIDED|95.0|-3.7|0.6|||Mixed Models Analysis|||LS mean, 95% CI, and unadjusted p-value were calculated using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.6|-3.7|0.1479
82610895|NCT01380093|164938615|SUPERIORITY_OR_OTHER||LS Mean Difference|0.21||||0.0181|TWO_SIDED|90.0|0.07|0.35|||Mixed Models Analysis|||Tmax was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.35|0.07|0.0181
82610896|NCT01380093|164938616|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.75|||<|0.0001|TWO_SIDED|90.0|0.68|0.83|||Mixed Models Analysis|||Natural log transformed Cmax was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.83|0.68|<0.0001
82610897|NCT01380093|164938617|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.77||||0.0004|TWO_SIDED|90.0|0.69|0.86|||Mixed Models Analysis|||Natural log transformed AUC (0-1) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.86|0.69|0.0004
82610898|NCT01380093|164938618|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.86||||0.0065|TWO_SIDED|90.0|0.79|0.94|||Mixed Models Analysis|||Natural log transformed AUC (0-2) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||0.94|0.79|0.0065
82610899|NCT01380093|164938619|SUPERIORITY_OR_OTHER||Geometric mean ratio|0.98||||0.6399|TWO_SIDED|90.0|0.91|1.06|||Mixed Models Analysis|||Natural log transformed AUC (0-4) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.06|0.91|0.6399
82610900|NCT01380093|164938620|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.0||||0.9057|TWO_SIDED|90.0|0.94|1.08|||Mixed Models Analysis|||Natural log transformed AUC (0-8) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.08|0.94|0.9057
82610901|NCT01380093|164938621|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.03||||0.425|TWO_SIDED|90.0|0.97|1.1|||Mixed Models Analysis|||Natural log transformed AUC (0-12) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.10|0.97|0.4250
82610902|NCT01380093|164938622|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.1||||0.0204|TWO_SIDED|90.0|1.03|1.18|||Mixed Models Analysis|||Natural log transformed AUC (0-24) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.18|1.03|0.0204
82610903|NCT01380093|164938623|SUPERIORITY_OR_OTHER||Geometric mean ratio|1.32||||0.0005|TWO_SIDED|90.0|1.17|1.49|||Mixed Models Analysis|||Natural log transformed AUC (0-∞) was analyzed using linear mixed model with fixed effects for sequence, period and treatment, and a random effect for participant nested in sequence.||1.49|1.17|0.0005
82610904|NCT00201201|164938647|SUPERIORITY_OR_OTHER|||||||0.035||95.0|||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic (1,161)=4.44,p=0.035).||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use. Non-parametric tests (Cochran-Mantel-Haenszel statistic), based on rank scores, controlling for participant code were used for the transformed behavior risk scores within groups.||||0.035
82610905|NCT00201201|164938648|SUPERIORITY_OR_OTHER|||||||0.0204||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||.0204
82610906|NCT00201201|164938649|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||.0001
82610907|NCT00201201|164938650|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANOVA|||Repeated measures linear-mixed model ANOVA methodology was employed as each participant was measured on 4 visits and the 4 repeated measures are likely dependent. We used study group (intervention vs. control) and visit as categorical variables and controlled for gender, age, APRN, income, education, computer use.||||0.0001
82610908|NCT00201201|164938651|SUPERIORITY_OR_OTHER|||||||0.0431||95.0|||||t-test, 2 sided|||||||0.0431
82610909|NCT00201201|164938652|SUPERIORITY_OR_OTHER||||||<|0.1||95.0|||||t-test, 2 sided|||Analyzed at 0 and 12 weeks.||||<.10
82610910|NCT01753518|164938692|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.053
82610911|NCT01753518|164938693|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||Chi-squared|||||||0.73
82610912|NCT01753518|164938694|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||Fisher Exact|||Comparison for staple expulsion or suture trimming||||0.25
82610913|NCT01753518|164938694|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Fisher Exact|||Comparison for Surgical Site Infection||||0.06
82610914|NCT01753518|164938694|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Fisher Exact|||Comparison for Superficial Wound Separation||||0.21
82610915|NCT01753518|164938694|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||Fisher Exact|||Comparison for Seroma||||0.49
82610916|NCT01753518|164938694|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||Fisher Exact|||Comparison for Hematoma||||0.50
82610917|NCT01753518|164938695|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Tylenol use.||||0.48
82610918|NCT01753518|164938695|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Ibuprofen use.||||0.30
82610919|NCT01753518|164938695|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Toradol use.||||0.85
82610920|NCT01753518|164938695|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the arms for Oxycodone use.||||0.78
82610921|NCT01753518|164938697|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Fisher Exact|||"Comparison for negative responses to Appearance of incision question."||||0.51
82610922|NCT01753518|164938697|SUPERIORITY_OR_OTHER|||||||0.098|TWO_SIDED||||||Chi-squared|||"Comparison for negative responses to Would recommend treatment to friends question."||||0.098
82610923|NCT01753518|164938697|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Chi-squared|||"Comparison of negative responses to Willingness to use treatment again question."||||0.57
82610924|NCT01753518|164938697|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Fisher Exact|||"Comparison of negative responses to Overall satisfaction question."||||0.41
82610925|NCT01753518|164938698|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Chi-squared|||"Comparison between arms for appearance of incision."||||0.85
82610926|NCT01753518|164938698|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||Chi-squared|||"Comparison between arms for recommend treatment."||||0.004
82610927|NCT01753518|164938698|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"Comparison between arms for willingness to use treatment again."||||<0.001
82610928|NCT01753518|164938699|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82610929|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar painful.||||0.35
82610930|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.48|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar itching.||||0.48
82610931|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar color is different.||||0.034
82610932|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.041|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar stiffness is different.||||0.041
82610933|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar thickness is different.||||0.23
82610934|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: scar more irregular.||||0.13
82610935|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for patient: overall opinion.||||0.11
82610936|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: vascularity.||||0.68
82610937|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: pigmentation.||||0.18
82610938|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.75|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: thickness||||0.75
82610939|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: relief.||||0.36
82610940|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: pliability.||||0.78
82610941|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: surface area.||||0.76
82610942|NCT01753518|164938700|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between arms for observer: overall opinion.||||0.97
82610943|NCT00553787|164938702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|0.328|<|0.0001|TWO_SIDED|95.0|7.96|9.25||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||9.25|7.96|<0.0001
82610944|NCT00553787|164938702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.58|STANDARD_ERROR_OF_MEAN|0.403|<|0.0001|TWO_SIDED|95.0|5.79|7.37||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||7.37|5.79|<0.0001
82610945|NCT00553787|164938702|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|STANDARD_ERROR_OF_MEAN|0.402|<|0.0001|TWO_SIDED|95.0|1.24|2.82||Intersection-union method applied in a step-down testing approach|ANCOVA|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||2.82|1.24|<0.0001
82610946|NCT00553787|164938703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.03|STANDARD_ERROR_OF_MEAN|0.955|<|0.0001|TWO_SIDED|95.0|7.34|11.11||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||11.11|7.34|<0.0001
82610947|NCT00553787|164938703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.27|STANDARD_ERROR_OF_MEAN|0.768|<|0.0001|TWO_SIDED|95.0|4.93|7.97||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||7.97|4.93|<0.0001
82610948|NCT00553787|164938703|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44|STANDARD_ERROR_OF_MEAN|0.169||0.0018|TWO_SIDED|95.0|1.15|1.81||Intersection-union method applied in a step-down testing approach|Regression, Logistic|||With at least 500 subjects in each of the 3 arms in this trial, the trial has more than 90% power to detect a difference of at least 3.1% between combination and placebo treatment assuming a standard deviation of 5.3% and a significance level of 0.05.||1.81|1.15|0.0018
82610949|NCT01088412|164938704|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.77|||||TWO_SIDED|95.0|2.24|5.96||||||Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.||5.96|2.24|
82610950|NCT01088412|164938705|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.71|||||TWO_SIDED|95.0|0.39|1.2||||||Epidemiological comparison between incidence of primary malignancies in study versus general population registry data, stratified by age and gender.||1.20|0.39|
82610951|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.03|||||TWO_SIDED|95.0|2.14|4.15||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All DM (T1, T2 and DM Not Otherwise Specified \[NOS\] Combined)"||4.15|2.14|
82610952|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|2.74|||||TWO_SIDED|95.0|1.72|4.15||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD DM (T1, T2 and DM NOS Combined)"||4.15|1.72|
82610953|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|4.91|||||TWO_SIDED|95.0|1.8|10.69||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS DM (T1, T2 and DM NOS Combined)"||10.69|1.80|
82610954|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.1|||||TWO_SIDED|95.0|0.84|7.93||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS DM (T1, T2 and DM NOS Combined)"||7.93|0.84|
82610955|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|11.83||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D DM (T1, T2 and DM NOS Combined)"||11.83|0.00|
82610956|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.0|||||TWO_SIDED|95.0|0.36|10.83||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA DM (T1, T2 and DM NOS Combined)"||10.83|0.36|
82610957|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|4.55|||||TWO_SIDED|95.0|1.24|11.66||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other DM (T1, T2 and DM NOS Combined)"||11.66|1.24|
82610958|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|24.3||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown DM (T1, T2 and DM NOS Combined)"||24.30|0.00|
82610959|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.92|||||TWO_SIDED|95.0|0.56|1.44||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All T1 DM."||1.44|0.56|
82610960|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.76|||||TWO_SIDED|95.0|0.36|1.4||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD T1DM."||1.40|0.36|
82610961|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|1.5|||||TWO_SIDED|95.0|0.31|4.38||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS T1DM."||4.38|0.31|
82610962|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|1.42|||||TWO_SIDED|95.0|0.29|4.14||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS T1DM."||4.14|0.29|
82610963|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|7.23||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D T1DM."||7.23|0.00|
82610964|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|3.38||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA T1DM."||3.38|0.00|
82610965|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio]|2.09|||||TWO_SIDED|95.0|0.43|6.1||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other T1DM."||6.10|0.43|
82610966|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio]|0.0|||||TWO_SIDED|95.0|0.0|14.84||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown T1DM."||14.84|0.00|
82610967|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.79|||||TWO_SIDED|95.0|2.24|5.96||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for All T2 DM."||5.96|2.24|
82610968|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.93|||||TWO_SIDED|95.0|2.03|6.87||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for GHD T2DM."||6.87|2.03|
82610969|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|6.46|||||TWO_SIDED|95.0|1.33|18.89||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for TS T2DM."||18.89|1.33|
82610970|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|7.52||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for ISS T2DM."||7.52|0.00|
82658097|NCT01811953|165032564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|99.34|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.56|106.62|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||106.62|92.56|<0.0001
82610971|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|31.16||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SHOX-D T2DM."||31.16|0.00|
82610972|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|7.9|||||TWO_SIDED|95.0|0.96|28.52||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for SGA T2DM."||28.52|0.96|
82610973|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|3.0|||||TWO_SIDED|95.0|0.08|16.7||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Other T2DM."||16.70|0.08|
82610974|NCT01088412|164938712|SUPERIORITY_OR_OTHER||Standardized Incidence Ratio|0.0|||||TWO_SIDED|95.0|0.0|63.97||||||"Epidemiological comparison between incidence of type 2 diabetes in study versus general population registry data, stratified by age and ethnicity.~Standardized Incidence Ratio for Unknown T2DM."||63.97|0.00|
82610975|NCT03494725|164938719|SUPERIORITY|||||||0.757||||||Outcome was subjected to transformation to meet model assumptions. The threshold for statistical significance was p=0.05.|Mixed Models Analysis|Linear mixed model||The sample size was computed for a repeated measurement ANOVA with two groups and seven repeated measurements (power=0.85, α=0.05, f=0.1). The calculation resulted in a group size of 56 participants each, which was rounded up to 60 participants per treatment group to account for attrition.||||0.757
82610976|NCT00514449|164938758|OTHER||number of voxels in a cluster|2037.0||||0.004|TWO_SIDED|||||p value is adjusted for multiple comparisons|ANCOVA||Time by treatment group interaction term|||||0.004
82610977|NCT04083144|164938760|SUPERIORITY||η2|0.01||||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
82610978|NCT04083144|164938761|SUPERIORITY||η2|0.16||||0.76|TWO_SIDED||||||Mixed Models Analysis|||||||0.76
82610979|NCT04083144|164938762|SUPERIORITY||η2|0.02||||0.98|TWO_SIDED||||||Mixed Models Analysis|||||||0.98
82610980|NCT04083144|164938763|SUPERIORITY||η2|0.07||||0.24|TWO_SIDED||||||Mixed Models Analysis|||||||0.24
82610981|NCT04083144|164938764|SUPERIORITY||η2|0.17||||0.26|TWO_SIDED||||||Mixed Models Analysis|||||||0.26
82610982|NCT02708212|164938771|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||The two-sample t test will be used to compare the total doses of fentanyl and midazolam between the two study groups.||||<0.0001
82610983|NCT02708212|164938772|SUPERIORITY_OR_OTHER|||||||0.0012|||||||t-test, 2 sided|||The two-sample t test will be used to compare the total doses of midazolam between the two study groups.||||0.0012
82610984|NCT02708212|164938773|SUPERIORITY_OR_OTHER|||||||0.6967|||||||t-test, 2 sided|||||||0.6967
82610985|NCT01832961|164938896|OTHER||||||<|0.05|||||||Friedman's Test|Friedman's test followed by Dunn's multiple comparison||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect of size used to calculate responsiveness and classified as small (0.2), moderate (0.5) and large (0.8).|||<0.05
82610986|NCT01832961|164938897|OTHER||||||<|0.05|||||||Friedman's Test|||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect size was used to calculate responsiveness and classifed as small (0.2), moderate (0.5) and large (0.8)|||<0.05
82658098|NCT01811953|165032564|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean difference|100.81|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|95.74|106.14|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||106.14|95.74|<0.0001
82658099|NCT01811953|165032565|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.33|STANDARD_ERROR_OF_MEAN|1.017|<|0.0001|TWO_SIDED|90.0|99.315|105.43|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||105.430|99.315|<0.0001
82658100|NCT01811953|165032565|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|98.82|STANDARD_ERROR_OF_MEAN|1.024|<|0.0001|TWO_SIDED|90.0|94.784|103.037|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.037|94.784|<0.0001
82658101|NCT01811953|165032565|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|105.98|STANDARD_ERROR_OF_MEAN|1.018|<|0.0001|TWO_SIDED|90.0|102.73|109.329|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.329|102.730|<0.0001
82492581|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.373||0.214|TWO_SIDED|95.0|-1.2|0.27|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.27|-1.20|0.214
82492582|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.372||0.011|TWO_SIDED|95.0|-1.69|-0.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.22|-1.69|0.011
82610987|NCT01832961|164938898|OTHER||||||<|0.05|||||||Friedman's Test|||The statistical analysis compared the results: immediately after to baseline values, after 20 minutes of rest to baseline values and after 20 minutes of rest to values immediately after using Friedman's Test followed by Dunn's multiple comparison test|The effect size was used to calculate responsiveness and classifed as small (0.2), moderate (0.5) and large (0.8)|||<0.05
82610988|NCT01832961|164938899|OTHER||||||<|0.05|||||||T-test|T-test was used to comparisons before and after FeNO results||||||<0.05
82610989|NCT01832961|164938900|OTHER||||||<|0.05|||||||T-test|||||||<0.05
82610990|NCT01164501|164938904|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|-0.62|-0.39||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 25 mg versus placebo in mild or moderate renal impaired patients was the first step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication, renal impairment and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.39|-0.62|<0.0001
82610991|NCT01164501|164938905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.72|-0.32||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 25 mg versus placebo in mild renal impaired patients was the second step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 10mg minus placebo|||-0.32|-0.72|<0.0001
82492583|NCT01786668|164677990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.81|STANDARD_ERROR_OF_MEAN|0.375||0.031|TWO_SIDED|95.0|-1.55|-0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.08|-1.55|0.031
82610992|NCT01164501|164938905|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.88|-0.49||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 10 mg versus placebo in mild renal impaired patients was the third step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.49|-0.88|<0.0001
82610993|NCT01164501|164938906|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.56|-0.28||Hierarchical testing to adjust for multiple comparisons, no adjustment in p-values. Empa 10 mg versus placebo in moderate renal impaired patients was the fourth step in the hierarchical sequence.|ANCOVA|Based on ANCOVA with terms for treatment, background antidiabetic medication and baseline HbA1c.|Difference calculated as empa 25mg minus placebo|||-0.28|-0.56|<0.0001
82610994|NCT01096667|164938927|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.97||||0.034|TWO_SIDED|80.0|-5.05|-0.89||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.89|-5.05|0.034
82610995|NCT01096667|164938927|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.0||||0.01|TWO_SIDED|80.0|-6.17|-1.82||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.82|-6.17|0.010
82610996|NCT01096667|164938927|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.69||||0.012|TWO_SIDED|80.0|-5.78|-1.6||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.60|-5.78|0.012
82610997|NCT01096667|164938927|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.21||||0.024|TWO_SIDED|80.0|-5.3|-1.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.13|-5.30|0.024
82610998|NCT01096667|164938929|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.7||||0.018|TWO_SIDED|80.0|-5.94|-1.46||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.46|-5.94|0.018
82610999|NCT01096667|164938929|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.43||||0.008|TWO_SIDED|80.0|-6.78|-2.09||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-2.09|-6.78|0.008
82611000|NCT01096667|164938929|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.99||||0.002|TWO_SIDED|80.0|-7.24|-2.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-2.74|-7.24|0.002
82611001|NCT01096667|164938929|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.92||||0.013|TWO_SIDED|80.0|-6.16|-1.67||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.67|-6.16|0.013
82611002|NCT01096667|164938930|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.19||||0.152|TWO_SIDED|80.0|-4.93|0.54||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.54|-4.93|0.152
82611003|NCT01096667|164938930|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.18||||0.078|TWO_SIDED|80.0|-6.06|-0.3||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.30|-6.06|0.078
82611004|NCT01096667|164938930|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.02||||0.174|TWO_SIDED|80.0|-4.79|0.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.74|-4.79|0.174
82611005|NCT01096667|164938930|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.01||||0.174|TWO_SIDED|80.0|-4.77|0.74||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.74|-4.77|0.174
82492584|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.106||0.982|TWO_SIDED|95.0|-0.21|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.21|-0.21|0.982
82611006|NCT01096667|164938932|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.01||||0.047|TWO_SIDED|80.0|-7.09|-0.94||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-0.94|-7.09|0.047
82611007|NCT01096667|164938932|SUPERIORITY_OR_OTHER||Difference in least squares means|-7.16||||0.002|TWO_SIDED|80.0|-10.25|-4.07||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-4.07|-10.25|0.002
82611008|NCT01096667|164938932|SUPERIORITY_OR_OTHER||Difference in least squares means|-6.2||||0.005|TWO_SIDED|80.0|-9.28|-3.11||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-3.11|-9.28|0.005
82611009|NCT01096667|164938932|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.37||||0.033|TWO_SIDED|80.0|-7.41|-1.33||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.33|-7.41|0.033
82611010|NCT01096667|164938934|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.66||||0.007|TWO_SIDED|80.0|-4.03|-1.29||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.29|-4.03|0.007
82611011|NCT01096667|164938934|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.11||||0.003|TWO_SIDED|80.0|-4.55|-1.67||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.67|-4.55|0.003
82611012|NCT01096667|164938934|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.27||||0.018|TWO_SIDED|80.0|-3.65|-0.88||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-0.88|-3.65|0.018
82611013|NCT01096667|164938934|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.19||||0.021|TWO_SIDED|80.0|-3.56|-0.82||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-0.82|-3.56|0.021
82611014|NCT01096667|164938935|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.99||||0.004|TWO_SIDED|80.0|-4.43|-1.55||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.55|-4.43|0.004
82611015|NCT01096667|164938935|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.75||||0.01|TWO_SIDED|80.0|-4.26|-1.24||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.24|-4.26|0.010
82611016|NCT01096667|164938935|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.64||||0.01|TWO_SIDED|80.0|-4.09|-1.19||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.19|-4.09|0.010
82492585|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.106||0.151|TWO_SIDED|95.0|-0.36|0.06|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.06|-0.36|0.151
82611017|NCT01096667|164938935|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.57||||0.011|TWO_SIDED|80.0|-4.0|-1.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate. p-value is one-sided.||||-1.13|-4.00|0.011
82611018|NCT01096667|164938936|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.5||||0.048|TWO_SIDED|80.0|-4.43|-0.57||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.57|-4.43|0.048
82611019|NCT01096667|164938936|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.54||||0.013|TWO_SIDED|80.0|-5.58|-1.51||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.51|-5.58|0.013
82611020|NCT01096667|164938936|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.88||||0.111|TWO_SIDED|80.0|-3.82|0.09||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.09|-3.82|0.111
82611021|NCT01096667|164938936|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.58||||0.148|TWO_SIDED|80.0|-3.51|0.36||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.36|-3.51|0.148
82611022|NCT01096667|164938938|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.2||||0.196|TWO_SIDED|80.0|-3.01|0.6||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.60|-3.01|0.196
82611023|NCT01096667|164938938|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.05||||0.229|TWO_SIDED|80.0|-2.86|0.77||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.77|-2.86|0.229
82611024|NCT01096667|164938938|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.02||||0.017|TWO_SIDED|80.0|-4.83|-1.2||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.20|-4.83|0.017
82611025|NCT01096667|164938938|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.84||||0.021|TWO_SIDED|80.0|-4.63|-1.06||P-value is one-sided.|Mixed Measures Repeated Model|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.06|-4.63|0.021
82611026|NCT01096667|164938940|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.22||||0.039|TWO_SIDED|80.0|-3.83|-0.61||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.61|-3.83|0.039
82611027|NCT01096667|164938940|SUPERIORITY_OR_OTHER||Difference in least squares means|0.07||||0.521|TWO_SIDED|80.0|-1.63|1.77||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||1.77|-1.63|0.521
82611028|NCT01096667|164938940|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.39||||0.031|TWO_SIDED|80.0|-4.02|-0.75||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.75|-4.02|0.031
82611029|NCT01096667|164938940|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.56||||0.11|TWO_SIDED|80.0|-3.19|0.07||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.07|-3.19|0.110
82611030|NCT01096667|164938941|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.38||||0.007|TWO_SIDED|80.0|-5.13|-1.63||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-1.63|-5.13|0.007
82611031|NCT01096667|164938941|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.48||||0.37|TWO_SIDED|80.0|-2.33|1.38||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||1.38|-2.33|0.370
82611032|NCT01096667|164938941|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.65||||0.029|TWO_SIDED|80.0|-4.43|-0.87||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||-0.87|-4.43|0.029
82611033|NCT01096667|164938941|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.64||||0.118|TWO_SIDED|80.0|-3.42|0.13||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.13|-3.42|0.118
82611034|NCT01096667|164938942|SUPERIORITY_OR_OTHER||Difference in least squares means|0.02||||0.506|TWO_SIDED|80.0|-1.96|2.0||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||2.00|-1.96|0.506
82611035|NCT01096667|164938942|SUPERIORITY_OR_OTHER||Difference in least squares means|1.61||||0.838|TWO_SIDED|80.0|-0.49|3.71||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||3.71|-0.49|0.838
82611036|NCT01096667|164938942|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.82||||0.123|TWO_SIDED|80.0|-3.82|0.19||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.19|-3.82|0.123
82611037|NCT01096667|164938942|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.07||||0.246|TWO_SIDED|80.0|-3.06|0.93||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||0.93|-3.06|0.246
82611038|NCT01096667|164938944|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.2||||0.005|TWO_SIDED|80.0|-6.3|-2.1||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-2.10|-6.30|0.005
82611039|NCT01096667|164938944|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.12||||0.248|TWO_SIDED|80.0|-3.23|0.99||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||0.99|-3.23|0.248
82611040|NCT01096667|164938944|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.84||||0.01|TWO_SIDED|80.0|-5.95|-1.73||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.73|-5.95|0.010
82611041|NCT01096667|164938944|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.33||||0.02|TWO_SIDED|80.0|-5.4|-1.25||P-value is one-sided.|Mixed Model for Repeated Measures|With terms for treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline as the covariate.||||-1.25|-5.40|0.020
82611042|NCT01096667|164938946|SUPERIORITY_OR_OTHER||Difference in least squares means|42.18||||0|TWO_SIDED|80.0|31.42|52.94||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||52.94|31.42|0.000
82611043|NCT01096667|164938946|SUPERIORITY_OR_OTHER||Difference in least squares means|60.39||||0|TWO_SIDED|80.0|49.47|71.31||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||71.31|49.47|0.000
82611044|NCT01096667|164938946|SUPERIORITY_OR_OTHER||Difference in least squares means|70.34||||0|TWO_SIDED|80.0|59.58|81.1||P-value is one-sided. P-value rounded to thousandths.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||81.10|59.58|0.000
82611045|NCT01096667|164938946|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.63||||0.713|TWO_SIDED|80.0|-15.22|5.96||P-value is one-sided.|ANCOVA|Based on ANCOVA with treatment as fixed effect and baseline as a covariate.||||5.96|-15.22|0.713
82611046|NCT01096667|164938948|SUPERIORITY_OR_OTHER||Difference in least squares means|-18.1||||0.007|TWO_SIDED|80.0|-27.45|-8.75||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-8.75|-27.45|0.007
82611047|NCT01096667|164938948|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.81||||0|TWO_SIDED|80.0|-44.19|-25.43||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-25.43|-44.19|0.000
82611048|NCT01096667|164938948|SUPERIORITY_OR_OTHER||Difference in least squares means|-35.42||||0|TWO_SIDED|80.0|-44.78|-26.07||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-26.07|-44.78|0.000
82611049|NCT01096667|164938948|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.61||||0.467|TWO_SIDED|80.0|-9.86|8.65||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||8.65|-9.86|0.467
82611050|NCT01096667|164938949|SUPERIORITY_OR_OTHER||Difference in least squares means|-5.54||||0.224|TWO_SIDED|80.0|-14.89|3.82||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||3.82|-14.89|0.224
82611051|NCT01096667|164938949|SUPERIORITY_OR_OTHER||Difference in least squares means|-17.0||||0.011|TWO_SIDED|80.0|-26.39|-7.61||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-7.61|-26.39|0.011
82611052|NCT01096667|164938949|SUPERIORITY_OR_OTHER||Difference in least squares means|-26.59||||0|TWO_SIDED|80.0|-35.84|-17.33||P-value is one-sided. P-value rounded to thousandths.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||-17.33|-35.84|0.000
82611053|NCT01096667|164938949|SUPERIORITY_OR_OTHER||Difference in least squares means|8.65||||0.886|TWO_SIDED|80.0|-0.56|17.87||P-value is one-sided.|Mixed Model for Repeated Measures|With treatment, visit, and treatment-by-visit interaction as fixed effects, participant as random effect and baseline FPG as the covariate.||||17.87|-0.56|0.886
82611054|NCT01462292|164938954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.946||||0.554|TWO_SIDED|95.0|-39.122|21.229||Due to the two comparisons for the two different doses, the type 1 error rate (5% overall) was preserved by utilizing a hierarchical approach, testing the 6mg/kg GSK2402968 dose first|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, centre grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg||21.229|-39.122|0.554
82611055|NCT01462292|164938954|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.099||||0.069|TWO_SIDED|95.0|-2.21|56.408||Due to the two comparisons for the two different doses, the type 1 error rate (5% overall) was preserved by utilising a hierarchical approach, testing the 6mg/kg GSK2402968 dose first|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, centre grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg||56.408|-2.210|0.069
82611056|NCT01462292|164938955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.387||||0.699|TWO_SIDED|95.0|-1.618|2.392||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||2.392|-1.618|0.699
82611057|NCT01462292|164938955|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.831||||0.384|TWO_SIDED|95.0|-1.072|2.735||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||2.735|-1.072|0.384
82611058|NCT01462292|164938956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.002||||0.997|TWO_SIDED|95.0|-0.883|0.886||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment,centre grouping and baseline||Placebo (combined) Vs GSK2402968 3 mg/kg/week, Ascent Week 24||0.886|-0.883|0.997
82492586|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.106||0.205|TWO_SIDED|95.0|-0.34|0.07|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.07|-0.34|0.205
82611059|NCT01462292|164938956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.803||||0.064|TWO_SIDED|95.0|-1.655|0.048||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 6 mg/kg/week, Ascent, Week 24||0.048|-1.655|0.064
82611060|NCT01462292|164938956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.685||||0.311|TWO_SIDED|95.0|-2.033|0.662||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 3 mg/kg/week, Descent Week 24||0.662|-2.033|0.311
82611061|NCT01462292|164938956|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.412||||0.523|TWO_SIDED|95.0|-1.702|0.878||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Placebo (combined) Vs GSK2402968 6 mg/kg/week, Descent Week 24||0.878|-1.702|0.523
82611062|NCT01462292|164938957|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.564||||0.05|TWO_SIDED|95.0|0.0|1.127||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, centre grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||1.127|0.000|0.050
82611063|NCT01462292|164938957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037||||0.89|TWO_SIDED|95.0|-0.498|0.571||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||0.571|-0.498|0.890
82611064|NCT01462292|164938958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.356||||0.723|TWO_SIDED|95.0|-10.936|15.648||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model includes terms for Treatment, Centre Grouping and Baseline Muscle Strength Total Score||Treatment difference: Placebo Vs GSK2402968 3 mg||15.648|-10.936|0.723
82611065|NCT01462292|164938958|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.821||||0.898|TWO_SIDED|95.0|-12.034|13.676||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model includes terms for Treatment, Centre Grouping and Baseline Muscle Strength Total Score||Treatment difference: Placebo Vs GSK2402968 6mg||13.676|-12.034|0.898
82611066|NCT01462292|164938960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.49||||0.684|TWO_SIDED|95.0|-2.9|1.92||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 3 mg||1.92|-2.90|0.684
82611067|NCT01462292|164938960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.18||||0.873|TWO_SIDED|95.0|-2.49|2.12||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|ANCOVA|Model included terms for treatment, center grouping and baseline||Treatment difference: Placebo Vs GSK2402968 6 mg||2.12|-2.49|0.873
82611068|NCT01462292|164938962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-892.88||||0.61|TWO_SIDED|95.0|-4391.1|2605.35||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg, Week 24||2605.35|-4391.10|0.610
82611069|NCT01462292|164938962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2054.86||||0.248|TWO_SIDED|95.0|-5587.33|1477.6||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 3 mg, Week 48||1477.60|-5587.33|0.248
82611070|NCT01462292|164938962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1305.46||||0.439|TWO_SIDED|95.0|-4668.41|2057.48||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg, Week 24||2057.48|-4668.41|0.439
82611071|NCT01462292|164938962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|167.39||||0.921|TWO_SIDED|95.0|-3208.98|3543.77||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Mixed Model Repeated Measures|Model included terms for treatment, visit, treatment by visit, center grouping, baseline and baseline by visit||Treatment difference: Placebo Vs GSK2402968 6 mg, Week 48||3543.77|-3208.98|0.921
82611072|NCT01462292|164938969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.41||||0.541|TWO_SIDED|95.0|0.02|7.01||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Regression, Logistic|Model includes terms for Treatment and Centre Grouping||Placebo (combined), GSK2402968 3 mg/kg/week||7.01|0.02|0.541
82611073|NCT01462292|164938969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.36||||0.417|TWO_SIDED|95.0|0.03|4.27||No adjustment for multiplicity was made, so p-values should not be used to make conclusions with regards to statistical significance|Regression, Logistic|Model includes terms for Treatment and Centre Grouping||Placebo (combined), GSK2402968 6 mg/kg/week||4.27|0.03|0.417
82611074|NCT01748695|164938982|SUPERIORITY_OR_OTHER|||||||0.834||||||Based on a linear mixed measures model with treatment and period included as fixed effects, subject included as a random effect and between- and within- subject baseline covariates included.|Regression, Linear|||||||0.834
82611075|NCT00377299|164938985|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||0.05
82611076|NCT00377299|164938986|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
82611077|NCT00377299|164938987|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
82611078|NCT00377299|164938988|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
82611079|NCT00377299|164938989|SUPERIORITY_OR_OTHER||||||>|0.05||95.0||||Significance was set at a p value of ≤ 0.05.|ANCOVA|||||||>0.05
82611080|NCT01507246|164939015|SUPERIORITY_OR_OTHER||Ratio of geometric means|2.62||||0.0251|TWO_SIDED|95.0|1.14|6.03|||least-squares mean ratio||Group 1 represents the numerator.|Null hypothesis: Mean ratio of geometric least-squares mean for each group is identical.||6.03|1.14|0.0251
82611081|NCT01507246|164939016|SUPERIORITY_OR_OTHER||Ratio of geometric means|1.24||||0.02767|TWO_SIDED|95.0|1.03|1.49|||least-squares mean ratio||Group 1 represents the numerator.|Null hypothesis = distribution of costs is identical between the two groups.||1.49|1.03|0.02767
82611082|NCT02975349|164939019|SUPERIORITY||Lesion rate ratio|1.45||||0.2947|TWO_SIDED|95.0|0.72|2.91|||Negative Binomial model|||||2.91|0.72|0.2947
82611083|NCT02975349|164939019|SUPERIORITY||Lesion rate ratio|0.3||||0.0015|TWO_SIDED|95.0|0.14|0.63|||Negative Binomial model|||||0.63|0.14|0.0015
82611084|NCT02975349|164939019|SUPERIORITY||Lesion rate ratio|0.44||||0.0313|TWO_SIDED|95.0|0.21|0.93|||Negative Binomial model|||||0.93|0.21|0.0313
82611085|NCT02975349|164939020|SUPERIORITY||Qualified relapse rate ratio|1.66||||0.2692|TWO_SIDED|95.0|0.67|4.09|||Negative Binomial model|||||4.09|0.67|0.2692
82658102|NCT01811953|165032566|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.12|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|96.255|108.351|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||108.351|96.255|<0.0001
82611086|NCT02975349|164939020|SUPERIORITY||Qualified relapse rate ratio|0.31||||0.0896|TWO_SIDED|95.0|0.08|1.2|||Negative Binomial model|||||1.20|0.08|0.0896
82658103|NCT01811953|165032566|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|106.52|STANDARD_ERROR_OF_MEAN|1.063||0.0082|TWO_SIDED|90.0|95.863|118.353|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||118.353|95.863|0.0082
82492587|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.118||0.898|TWO_SIDED|95.0|-0.25|0.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.22|-0.25|0.898
82492588|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.118||0.37|TWO_SIDED|95.0|-0.34|0.13|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.13|-0.34|0.370
82611087|NCT02975349|164939020|SUPERIORITY||Qualified relapse rate ratio|0.23||||0.0633|TWO_SIDED|95.0|0.05|1.09|||Negative Binomial model|||||1.09|0.05|0.0633
82611088|NCT02975349|164939021|SUPERIORITY||Odds Ratio (OR)|0.75||||0.5609|TWO_SIDED|95.0|0.29|1.95|||Logistic model|||||1.95|0.29|0.5609
82611089|NCT02975349|164939021|SUPERIORITY||Odds Ratio (OR)|2.79||||0.0689|TWO_SIDED|95.0|0.92|8.41|||Logistic model|||||8.41|0.92|0.0689
82611090|NCT02975349|164939021|SUPERIORITY||Odds Ratio (OR)|2.08||||0.1767|TWO_SIDED|95.0|0.72|5.99|||Logistic model|||||5.99|0.72|0.1767
82611091|NCT02975349|164939022|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.407|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.4070
82611092|NCT02975349|164939022|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.5829|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.5829
82658104|NCT01811953|165032566|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|104.352|STANDARD_ERROR_OF_MEAN|1.031|<|0.0001|TWO_SIDED|90.0|99.152|110.224|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||110.224|99.152|<0.0001
82492589|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.119||0.288|TWO_SIDED|95.0|-0.36|0.11|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.11|-0.36|0.288
82611093|NCT02975349|164939022|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.2732|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon rank-sum test|||||0.00|0.00|0.2732
82611094|NCT02975349|164939034|SUPERIORITY||Lesion rate ratio|1.36||||0.3676|TWO_SIDED|95.0|0.7|2.65|||Negative Binomial|||||2.65|0.70|0.3676
82611095|NCT02975349|164939034|SUPERIORITY||Lesion rate ratio|0.27||||0.0005|TWO_SIDED|95.0|0.13|0.57|||Negative Binomial|||||0.57|0.13|0.0005
82611096|NCT02975349|164939034|SUPERIORITY||Lesion rate ratio|0.41||||0.0157|TWO_SIDED|95.0|0.2|0.85|||Negative Binomial|||||0.85|0.20|0.0157
82611097|NCT02975349|164939035|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9731|TWO_SIDED|95.0|-0.25|0.25|||Wilcoxon rank-sum test|||||0.25|-0.25|0.9731
82611098|NCT02975349|164939035|SUPERIORITY||Hodges-Lehmann estimate|-0.25||||0.0017|TWO_SIDED|95.0|-0.5|0.0|||Wilcoxon rank-sum test|||||0.00|-0.50|0.0017
82611099|NCT02975349|164939035|SUPERIORITY||Hodges-Lehmann estimate|-0.5|||<|0.0001|TWO_SIDED|95.0|-0.75|-0.25|||Wilcoxon rank-sum test|||||-0.25|-0.75|< 0.0001
82611100|NCT02975349|164939036|SUPERIORITY||Lesion Rate ratio|1.29||||0.4807|TWO_SIDED|95.0|0.63|2.65|||Negative Binomial|||||2.65|0.63|0.4807
82611101|NCT02975349|164939036|SUPERIORITY||Lesion Rate ratio|0.5||||0.062|TWO_SIDED|95.0|0.24|1.04|||Negative Binomial|||||1.04|0.24|0.0620
82611102|NCT02975349|164939036|SUPERIORITY||Lesion Rate ratio|0.42||||0.0189|TWO_SIDED|95.0|0.2|0.87|||Negative Binomial|||||0.87|0.20|0.0189
82611103|NCT02975349|164939037|SUPERIORITY||Difference in least squares means|0.02||||0.8776|TWO_SIDED|95.0|-0.24|0.28|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||0.28|-0.24|0.8776
82611104|NCT02975349|164939037|SUPERIORITY||Difference in least squares means|-0.41||||0.0019|TWO_SIDED|95.0|-0.66|-0.15|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||-0.15|-0.66|0.0019
82611105|NCT02975349|164939037|SUPERIORITY||Difference in least squares means|-0.36||||0.0063|TWO_SIDED|95.0|-0.62|-0.1|||Mixed Effect Model for Repeat Measures||Difference in least squares means of change from baseline in cube root of volume measured in centimeter.|||-0.10|-0.62|0.0063
82611106|NCT02975349|164939038|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.9315|TWO_SIDED|95.0|-0.004|0.009|||Wilcoxon rank-sum test|||||0.009|-0.004|0.9315
82611107|NCT02975349|164939038|SUPERIORITY||Hodges-Lehmann estimate|-0.014||||0.0008|TWO_SIDED|95.0|-0.05|0.0|||Wilcoxon rank-sum test|||||0.000|-0.050|0.0008
82611108|NCT02975349|164939038|SUPERIORITY||Hodges-Lehmann estimate|-0.018||||0.0014|TWO_SIDED|95.0|-0.042|0.0|||Wilcoxon rank-sum test|||||0.000|-0.042|0.0014
82611109|NCT00945750|164939057|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the AUC geometric mean ratio (famotidine CT without water/famotidine FCT with water) is within the hypothesized interval (0.80 and 1.25), then the primary hypothesis of bioequivalence between CT without water and FCT with water is accepted.|Geometric Mean Ratio|1.01||||||90.0|0.94|1.09||||||||1.09|0.94|
82611110|NCT00945750|164939058|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the Cmax geometric mean ratio (famotidine CT without water/famotidine FCT with water) is within the hypothesized interval (0.80 and 1.25), then the primary hypothesis of bioequivalence between CT without water and FCT with water is accepted.|Geometric Mean Ratio|1.03||||||90.0|0.93|1.14||||||||1.14|0.93|
82611111|NCT00945750|164939059|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.11||||||90.0|1.04|1.2||||||||1.20|1.04|
82611112|NCT00945750|164939060|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.12||||||90.0|1.02|1.24||||||||1.24|1.02|
82658105|NCT01811953|165032567|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|94.87|STANDARD_ERROR_OF_MEAN|1.038||0.0001|TWO_SIDED|90.0|88.931|101.21|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||101.210|88.931|0.0001
82492590|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.135||0.242|TWO_SIDED|95.0|-0.42|0.11|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.11|-0.42|0.242
82611113|NCT02531035|164939061|SUPERIORITY||Percentage difference|13.4|||<|0.001|TWO_SIDED|95.0|8.97|17.81||P-values from Cochran-Mantel-Haenszel test stratified by different levels of stratification factors of BMI at Screening(\<25 kg/m\^2,\>=25 kg/m\^2),Week -2 A1C(\<=9.0%, \>9.0%),and using continuous subcutaneous insulin infusion(CSII) at Screening(yes,no).|Cochran-Mantel-Haenszel|||||17.81|8.97|< 0.001
82611114|NCT02531035|164939062|SUPERIORITY||Least Squares Mean Difference|-0.46|||<|0.001|TWO_SIDED|95.0|-0.54|-0.38|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m\^2, \>=25 kg/m\^2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline A1C-by-time interaction as a covariate.||-0.38|-0.54|< 0.001
82611115|NCT02531035|164939063|SUPERIORITY||Least squares mean difference|-2.98|||<|0.001|TWO_SIDED|95.0|-3.31|-2.66|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m\^2, \>=25 kg/m\^2), randomization stratum of Week -2 A1C (\<=9%, \>9%), randomization stratum of Use of CSII at Screening (Yes, No), time (study week), and a treatment-by-time interaction as fixed categorical effects, and Baseline weight-by-time interaction as a covariate.||-2.66|-3.31|< 0.001
82611116|NCT02531035|164939064|SUPERIORITY||Least Squares Mean Difference|-3.5|||=|0.002|TWO_SIDED|95.0|-5.7|-1.3|||MMRM|||Testing according to the hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m2, \>=25 kg/m2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), and a treatment-by- time interaction as fixed categorical effects, and Baseline SBP-by-time interaction as a covariate.||-1.3|-5.7|= 0.002
82611117|NCT02531035|164939065|SUPERIORITY||Least squares mean difference|-12.32|||<|0.001|TWO_SIDED|95.0|-18.17|-6.48|||MMRM|||Testing according to hierarchical procedure. Post-Baseline LS means and p-values were obtained from MMRM model with treatment, randomization stratum of BMI at Screening (\<25 kg/m2, \>=25 kg/m2), randomization stratum of Week -2 A1C (\<=9.0%, \>9.0%), randomization stratum of use of CSII at Screening (yes, no), time (study week), a treatment-by-time interaction as fixed categorical effects, and Baseline mean daily bolus insulin dose-by-time interaction as a covariate.||-6.48|-18.17|< 0.001
82611118|NCT03990766|164939066|SUPERIORITY||Risk Difference (RD)|3.3|||||TWO_SIDED|95.0|-35.6|42.3||||||||42.3|-35.6|
82611119|NCT03990766|164939067|SUPERIORITY||Median Difference (Net)|1.0|||||TWO_SIDED|95.0|-3.0|5.0||||||||5|-3|
82611120|NCT03990766|164939068|SUPERIORITY||Median Difference (Net)|-10.0|||||TWO_SIDED|95.0|-15.0|-4.0||||||The within-subject change in QOD-NS scores from baseline and 6 weeks was calculated for each individual patient. Then the median of all the patients' change in score for each cohort was calculated. Because these were within-subject changes in scores, the median difference values for each cohort do not necessarily correspond with simply subtracting the median change in score in the theophylline cohort from the median change in score in the placebo cohort.||-4|-15|
82611121|NCT03990766|164939069|SUPERIORITY||Median Difference (Net)|7.0|||||TWO_SIDED|95.0|-2.0|17.0||||||The within-subject change in ODOR scores from baseline and 6 weeks was calculated for each individual patient. Then the median of all the patients' change in score for each cohort was calculated. Because these were within-subject changes in scores, the median difference values for each cohort do not necessarily correspond with simply subtracting the median change in score in the theophylline cohort from the median change in score in the placebo cohort. We confirmed the reported results.||17|-2|
82492591|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.135||0.12|TWO_SIDED|95.0|-0.48|0.06|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.06|-0.48|0.120
82611122|NCT01543490|164939073|SUPERIORITY|Statistical hypotheses testing for the primary efficacy endpoint was 2-sided and performed using a significance (alpha) level of 0.05.|Risk Difference (RD)|8.5|STANDARD_ERROR_OF_MEAN|4.03||0.0354|TWO_SIDED|95.0|0.2|16.6||The p-value was from a 2-sided Fisher's exact test.|Fisher Exact|The point estimate of treatment effect (ISV-305 compared with Vehicle) was reported using Fisher's exact test.|The risk difference was obtained by taking the difference in proportions (ISV-305 minus Vehicle). A 2-sided exact unconditional 95% confidence interval (CI) was calculated.|||16.6|0.2|0.0354
82611123|NCT01543490|164939074|SUPERIORITY|Statistical hypotheses testing for the secondary efficacy endpoint was 2-sided and performed using a significance (alpha) level of 0.05, and missing data imputed using the LOCF approach.|Risk Difference (RD)|7.1|STANDARD_ERROR_OF_MEAN|4.07||0.1036|TWO_SIDED|95.0|-1.3|15.0||The p-value was from a 2-sided Fisher's exact test.|Fisher Exact|The point estimate of treatment effect (ISV-305 compared with Vehicle) was reported using Fisher's exact test.|The risk difference was obtained by taking the difference in proportions (ISV-305 minus Vehicle). A 2-sided exact unconditional 95% CI was calculated.|||15.0|-1.3|0.1036
82611124|NCT04192448|164939075|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|1.82||||0.28|TWO_SIDED|95.0|-29.82|26.19|||t-test, 1 sided|This t-test examined the difference in sexual aggression intentions between those in the Alcohol condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of sexual aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||26.19|-29.82|.28
82611125|NCT04192448|164939075|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-1.0||||0.39|TWO_SIDED|95.0|-33.01|35.01|||t-test, 1 sided|This t-test examined the difference in sexual aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Anger condition and those in the Control condition. A negative value indicates greater likelihood of sexual aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||35.01|-33.01|.39
82658106|NCT01811953|165032567|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|97.97|STANDARD_ERROR_OF_MEAN|1.035|<|0.0001|TWO_SIDED|90.0|92.339|103.935|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||103.935|92.339|<0.0001
82658107|NCT01811953|165032567|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|102.95|STANDARD_ERROR_OF_MEAN|1.034|<|0.0001|TWO_SIDED|90.0|97.166|109.082|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||109.082|97.166|<0.0001
82658108|NCT01811953|165032568|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|94.89|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|89.8|100.26|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '1 Empagliflozin/Metformin (T)' divided by the geometric mean of '3 Empagliflozin + Metformin (R)'.|||100.26|89.80|<0.0001
82658109|NCT01811953|165032568|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|99.31|STANDARD_ERROR_OF_MEAN|1.04|<|0.0001|TWO_SIDED|90.0|92.14|107.03|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '2 Empagliflozin/Metformin (T)' divided by the geometric mean of '4 Empagliflozin + Metformin (R)'.|||107.03|92.14|<0.0001
82658110|NCT01811953|165032568|NON_INFERIORITY_OR_EQUIVALENCE|The assessment of bioequivalence was based upon 2-sided 90% confidence intervals (CIs) for the ratio of the geometric means (gMean), test/reference, for the primary endpoints using an acceptance range of 80.00 to 125.00%.|Geometric mean ratio|100.74|STANDARD_ERROR_OF_MEAN|1.03|<|0.0001|TWO_SIDED|90.0|95.77|105.96|||ANOVA||The geometric mean ratio was calculated as the geometric mean of '5 Empagliflozin/Metformin (T)' divided by the geometric mean of '6 Empagliflozin + Metformin (R)'.|||105.96|95.77|<0.0001
82658111|NCT02055963|165032574|OTHER|||||||0.98|||||||Wilcoxon Rank Sum Test|||||||0.98
82658112|NCT01049334|165032603|SUPERIORITY_OR_OTHER||least-square means difference|-151.5||||0.0201|TWO_SIDED|95.0|-278.9|-24.0||The a priori threshold for statistical significance is 0.05. No adjustments for statistical multiplicity were required.|ANOVA|Treatment as a fixed effect and baseline STPIS as a covariate.||||-24.0|-278.9|0.0201
82377510|NCT03901092|164462166|OTHER||Fleiss' kappa|0.87|||||TWO_SIDED|95.0|0.83|0.91||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The primary hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.91|0.83|
82611126|NCT04192448|164939076|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|0.25||||0.33|TWO_SIDED|95.0|-2.88|2.63|||t-test, 1 sided|This t-test examined the difference in physical aggression intentions between those in the Alcohol Condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of physical aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||2.63|-2.88|.33
82611127|NCT04192448|164939076|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-0.25||||0.33|TWO_SIDED|95.0|-2.53|2.88|||t-test, 1 sided|The t-test examined the difference in physical aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Anger condition and those in the Control condition. A negative value indicates greater likelihood of physical aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||2.88|-2.53|.33
82611128|NCT04192448|164939077|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|0.67||||0.23|TWO_SIDED|95.0|-8.0|6.67|||t-test, 1 sided|The t-test examined differences in psychological aggression intentions between those in the Alcohol condition and those in the Sober condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A positive value indicates greater likelihood of psych aggression among those in the Alcohol condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||6.67|-8.00|.23
82611129|NCT04192448|164939077|OTHER|Target sample size was 200 participants. Power calculation was determined using nQuery version 8.4.1 for the 2x2 design, using 50 subject per group (including a conservative 10% dropout). Power calculation estimated 80% power to detect an effect size of 0.3 in both factors with no interaction, and greater power if there is an interaction effect. Current enrollment indicates study is underpowered. Because there are not enough participants to conduct an ANOVA or ANCOVA, t-tests were conducted.|Mean Difference (Final Values)|-0.17||||0.44|TWO_SIDED|95.0|-10.84|11.17|||t-test, 1 sided|The t-test examined the difference in psychological aggression intentions between those in the Anger condition and those in the Control condition.|The estimation parameter refers to the mean difference in the outcome between those in the Alcohol condition and those in the Sober condition. A negative value indicates greater likelihood of psych aggression among those in the Control condition.|The number of participants enrolled in the study constrained the type of statistical analyses able to be conducted. Indeed, the Sober x Anger condition could not be compared to the other arms because no participants were randomly assigned to that arm.||11.17|-10.84|.44
82658113|NCT01049334|165032604|SUPERIORITY_OR_OTHER||least-square means difference|-19.6|||<|0.0001|TWO_SIDED|95.0|-29.2|-9.9||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-9.9|-29.2|<.0001
82658114|NCT01049334|165032605|SUPERIORITY_OR_OTHER||least-square means difference|-22.3|||<|0.0001|TWO_SIDED|95.0|-31.7|-12.9||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-12.9|-31.7|<0.0001
82658115|NCT01049334|165032606|SUPERIORITY_OR_OTHER||least-square means difference|-181.7||||0.0071|TWO_SIDED|95.0|-313.7|-50.0||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-50.0|-313.7|0.0071
82658116|NCT01049334|165032607|SUPERIORITY_OR_OTHER||least-square means difference|-20.8|||<|0.0001|TWO_SIDED|95.0|-30.2|-11.2||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-11.2|-30.2|<0.0001
82492592|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.136||0.031|TWO_SIDED|95.0|-0.56|-0.03|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||-0.03|-0.56|0.031
82611130|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 1.5 hours post-dose||||<0.0001
82611131|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 2.5 hours post-dose||||<0.0001
82611132|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 5.0 hours post-dose||||<0.0001
82611133|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 7.5 hours post-dose||||<0.0001
82611134|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 10.0 hours post-dose||||<0.0001
82611135|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 12.0 hours post-dose||||<0.0001
82611136|NCT00500149|164939084|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0||||The primary efficacy variable will be onset of effect, which will be determined from the results of inferential analyses across multiple time points. No adjustment will be made to the levels of significance as a result of the multiple comparisons.|ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 13.0 hours post-dose||||<0.0001
82611137|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED||||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 1.5 hours post-dose||||< 0.0001
82611138|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 2.5 hours post-dose||||<0.0001
82611139|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 5.0 hours post-dose||||<0.0001
82611140|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 7.5 hours post-dose||||<0.0001
82611141|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 10.0 hours post-dose||||<0.0001
82611142|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 12.0 hours post-dose||||<0.001
82611143|NCT00500149|164939085|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||ANCOVA|Using a linear mixed model that includes sequence, period, and treatment group as fixed effects and subject-within-sequence as a random effect.||Statistical analysis of SKAMP scores at 13.0 hours post-dose||||<0.0001
82611144|NCT00089843|164939094|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|3.2|||<|0.0001|TWO_SIDED|95.0|1.8|4.6||This p value was for the effect of Actonel (risedronate) on bone mineral density of the spine.|Factorial analysis|||Factorial analysis||4.6|1.8|<0.0001
82611145|NCT00089843|164939094|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-0.6||||0.41|TWO_SIDED|95.0|-2.0|0.8||This p value was for the effect of testosterone on bone mineral density of the spine.|Factorial analysis|||Factorial analysis||0.8|-2.0|0.41
82611146|NCT00089843|164939095|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-41.0||||0.002|TWO_SIDED|95.0||||This p value was for the effect of Actonel (risedronate).|Factorial analysis|||Factorial analysis||||0.002
82611147|NCT00089843|164939095|SUPERIORITY_OR_OTHER_LEGACY||Percent change between 0 and 12 months|-11.0||||0.39||95.0||||This p value was for the effect of testosterone.|Factorial analysis|||Factorial analysis||||0.39
82658117|NCT01049334|165032608|SUPERIORITY_OR_OTHER||least-square means difference|-137.6||||0.0393|TWO_SIDED|95.0|-268.5|-6.8||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|Treatment as a fixed effect and baseline of the variable predicted as a covariate||||-6.8|-268.5|0.0393
82611148|NCT01157169|164939096|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|110.49|||||TWO_SIDED|90.0|101.67|120.07|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120.07|101.67|
82611149|NCT01157169|164939097|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|105.91|||||TWO_SIDED|90.0|99.74|112.45|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||112.45|99.74|
82611150|NCT01157169|164939098|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.97|||||TWO_SIDED|90.0|97.18|111.24|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||111.24|97.18|
82611151|NCT01157169|164939099|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|93.28|||||TWO_SIDED|90.0|85.37|101.93|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.93|85.37|
82611152|NCT01157169|164939100|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|94.19|||||TWO_SIDED|90.0|87.44|101.46|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||101.46|87.44|
82611153|NCT01157169|164939101|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|95.06|||||TWO_SIDED|90.0|86.56|104.39|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||104.39|86.56|
82611154|NCT00663858|164939102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.592|STANDARD_ERROR_OF_MEAN|0.662||0.371|TWO_SIDED|95.0|-1.894|0.709|||ANOVA|||||0.709|-1.894|0.371
82611155|NCT00663858|164939102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.711|STANDARD_ERROR_OF_MEAN|0.722||0.3253|TWO_SIDED|95.0|-709.0|2.132|||ANCOVA|||||2.132|-0709|0.3253
82611156|NCT00663858|164939102|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.324|STANDARD_ERROR_OF_MEAN|0.62||0.0333|TWO_SIDED|95.0|-2.542|-0.106|||ANCOVA|||||-0.106|-2.542|0.0333
82611157|NCT02435173|164939106|SUPERIORITY||Adjusted means difference|-0.24|STANDARD_ERROR_OF_MEAN|0.06||0.0012|TWO_SIDED|95.0|-0.37|-0.11|||ANCOVA|Treatment as a fixed effect and log10 transformed baseline SPD as a covariate.||||-0.11|-0.37|0.0012
82611158|NCT02435173|164939107|SUPERIORITY||Adjusted means difference|40.13|STANDARD_ERROR_OF_MEAN|5.04|<|0.0001|TWO_SIDED|95.0|28.51|51.75|||ANCOVA|Treatment as a fixed effect and baseline as a covariate.||||51.75|28.51|<0.0001
82658118|NCT01049334|165032609|SUPERIORITY_OR_OTHER|||||||0.0459||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0459
82658119|NCT01049334|165032610|SUPERIORITY_OR_OTHER|||||||0.8383||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.8383
82658120|NCT01049334|165032611|SUPERIORITY_OR_OTHER|||||||0.0005|TWO_SIDED|95.0||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0005
82658121|NCT01049334|165032612|SUPERIORITY_OR_OTHER|||||||0.0005||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0005
82658122|NCT01049334|165032613|SUPERIORITY_OR_OTHER|||||||0.0002||||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||0.0002
82658123|NCT01049334|165032614|SUPERIORITY_OR_OTHER||least-square means difference|-156.3||||0.0435|TWO_SIDED|95.0|-307.9|-4.6||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|ANOVA|||||-4.6|-307.9|0.0435
82492593|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.157||0.28|TWO_SIDED|95.0|-0.48|0.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.14|-0.48|0.280
82611159|NCT01371838|164939154|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measure (clinical cure rate) between the ceftaroline group and the ceftriaxone group was calculated in CE Population at the TOC visit. Noninferiority was concluded if the lower limit of the 95% CI was higher than -10% in CE Population. If non-inferioirity was achieved then a test of superioirty was conducted whereby if lower limit of 95% CI for the difference was \>0% superioirty was concluded.|Risk Difference (RD)|9.9|||||TWO_SIDED|95.0|2.8|17.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|The primary objective of this study was to determine the noninferiority in the clinical cure rate for ceftaroline compared to that for ceftriaxone at TOC in the CE in adult subjects with CABP.||17.1|2.8|
82611160|NCT01371838|164939155|SUPERIORITY_OR_OTHER||Risk Difference (RD)|10.7|||||TWO_SIDED|95.0|4.9|16.4||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||16.4|4.9|
82611161|NCT01371838|164939156|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.5|||||TWO_SIDED|95.0|1.8|15.4||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||15.4|1.8|
82611162|NCT01371838|164939157|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.0|||||TWO_SIDED|95.0|6.8|19.2||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments. If lower limit of 95% CI for the risk difference was \>0% superioirty was concluded in this population.|||19.2|6.8|
82611163|NCT01371838|164939158|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|2.7|27.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||27.1|2.7|
82611164|NCT01371838|164939159|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.2|25.8||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||25.8|-2.2|
82611165|NCT01371838|164939162|SUPERIORITY_OR_OTHER||Risk Difference (RD)|15.2|||||TWO_SIDED|95.0|2.7|27.1||||RD is (Ceftaroline-Ceftriaxone) microbiologically favourable outcome rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||27.1|2.7|
82611166|NCT01371838|164939163|SUPERIORITY_OR_OTHER||Risk Difference (RD)|11.9|||||TWO_SIDED|95.0|-2.2|25.8||||RD is (Ceftaroline-Ceftriaxone) microbiologically favourable outcome rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||25.8|-2.2|
82611167|NCT01371838|164939164|SUPERIORITY_OR_OTHER||Risk Difference (RD)|13.0|||||TWO_SIDED|95.0|6.8|19.2||||RD is Ceftaroline minus Ceftriaxone overall success rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||19.2|6.8|
82611168|NCT01371838|164939165|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.9|||||TWO_SIDED|95.0|2.8|17.1||||RD is Ceftaroline clinical cure rate minus Ceftriaxone clinical cure rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||17.1|2.8|
82611169|NCT01371838|164939166|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|95.0|-2.5|3.0||||RD is Ceftaroline minus Ceftriaxone No-relapse rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||3.0|-2.5|
82611170|NCT01371838|164939167|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.1|||||TWO_SIDED|95.0|-2.4|4.5||||RD is Ceftaroline minus Ceftriaxone No-relapse rate. The CI was calculated by Miettinen and Nurminen method without adjustment.|CI for risk difference was estimated by 95% Miettinen and Nurminen CI without adjustments.|||4.5|-2.4|
82611171|NCT00641043|164939173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.71|-0.3|||ANCOVA|||Linagliptin vs. Placebo||-0.30|-0.71|<0.0001
82611172|NCT00641043|164939174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001||95.0|-0.52|-0.24|||ANCOVA|||Linagliptin vs. Placebo||-0.24|-0.52|<0.0001
82611173|NCT00641043|164939175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.67|-0.32|||ANCOVA|||Linagliptin vs. Placebo||-0.32|-0.67|<0.0001
82611174|NCT00641043|164939176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001||95.0|-0.7|-0.32|||ANCOVA|||Linagliptin vs. Placebo||-0.32|-0.70|<0.0001
82611175|NCT00641043|164939177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.2|STANDARD_ERROR_OF_MEAN|3.5|<|0.0001||95.0|-21.1|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-21.1|<0.0001
82611176|NCT00641043|164939178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|3.0|<|0.0001||95.0|-22.3|-10.5|||ANCOVA|||Linagliptin vs. Placebo||-10.5|-22.3|<0.0001
82611177|NCT00641043|164939179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|STANDARD_ERROR_OF_MEAN|3.2|<|0.0001||95.0|-19.5|-7.0|||ANCOVA|||Linagliptin vs. Placebo||-7.0|-19.5|<0.0001
82611178|NCT00641043|164939180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001||95.0|-20.5|-7.3|||ANCOVA|||Linagliptin vs. Placebo||-7.3|-20.5|<0.0001
82611179|NCT00641043|164939181|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.103||||0.0051||95.0|1.25|3.539|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||3.539|1.25|0.0051
82611180|NCT00641043|164939183|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.348||||0.3547||95.0|0.716|2.537|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||2.537|0.716|0.3547
82611181|NCT00641043|164939185|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.823|||<|0.0001||95.0|2.286|6.394|||Regression, Logistic|||"Linagliptin vs. Placebo~The odds-ratio is based on a logistic regression model including baseline HbA1c and previous antidiabetes medication."||6.394|2.286|<0.0001
82611182|NCT03088605|164939196|SUPERIORITY||Mean Difference (Net)|-0.3||||0.02|TWO_SIDED|90.0|-0.7|0.0|||ANCOVA|||Change from Baseline. ANCOVA model includes baseline scores as a covariate||0|-0.7|0.02
82611183|NCT03088605|164939197|SUPERIORITY||Mean Difference (Net)|-1.0||||0.0001|TWO_SIDED|90.0|-1.4|0.5|||ANCOVA|||Change form baseline. ANCOVA model includes baseline score as a covariate.||0.5|-1.4|0.0001
82611184|NCT03088605|164939198|SUPERIORITY||Mean Difference (Net)|-1.42||||0.03|TWO_SIDED|90.0|-2.36|-0.47|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||-0.47|-2.36|0.03
82611185|NCT03088605|164939199|SUPERIORITY||Mean Difference (Net)|0.199||||0.39|TWO_SIDED|90.0|-0.177|0.575|||ANCOVA|||Change from Baseline; ANCOVA model includes baseline score as a covariate.||0.575|-0.177|0.39
82611186|NCT03088605|164939200|SUPERIORITY||Mean Difference (Net)|0.2||||0.97|TWO_SIDED|90.0|-1.7|2.0|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||2.0|-1.7|0.97
82611187|NCT03088605|164939201|SUPERIORITY||Mean Difference (Net)|-0.23||||0.06|TWO_SIDED|90.0|-0.48|0.03|||ANCOVA|||Change from baseline. ANCOVA model includes baseline score as a covariate.||0.03|-0.48|0.06
82611188|NCT03567291|164939219|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.78|TWO_SIDED|95.0|-3.4|2.6|||ANCOVA|||||2.6|-3.4|0.78
82611189|NCT01103349|164939220|SUPERIORITY||Adjusted mean treatment differences|3.87|STANDARD_DEVIATION|1.494||0.005|TWO_SIDED|95.0|0.931|6.809||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (BI671800 ED 400 mg bid) ≤ Mean FEV1 % predicted trough change from baseline (placebo)||6.809|0.931|0.0050
82611190|NCT01103349|164939220|SUPERIORITY||Adjusted mean treatment differences|2.369|STANDARD_DEVIATION|1.567||0.0657||95.0|-0.713|5.452||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (Montelukast 10 mg qd) ≤ Mean FEV1 % predicted trough change from baseline (placebo)||5.452|-0.713|0.0657
82611191|NCT01103349|164939220|SUPERIORITY||Adjusted mean treatment differences|1.501|STANDARD_DEVIATION|1.602||0.1748|TWO_SIDED|95.0|-1.652|4.653||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||H0: Mean FEV1 % predicted trough change from baseline (BI671800 ED 400 mg bid) ≤ Mean FEV1 % predicted trough change from baseline (Montelukast 10 mg qd)||4.653|-1.652|0.1748
82611192|NCT01103349|164939221|SUPERIORITY||Adjusted mean treatment differences|-0.28|STANDARD_DEVIATION|0.118||0.0092|TWO_SIDED|95.0|-0.512|-0.048||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||-0.048|-0.512|0.0092
82611193|NCT01103349|164939221|SUPERIORITY||Adjusted mean treatment differences|-0.18|STANDARD_DEVIATION|0.124||0.0732|TWO_SIDED|95.0|-0.423|0.063||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.063|-0.423|0.0732
82611194|NCT01103349|164939221|SUPERIORITY||Adjusted mean treatment differences|-0.1|STANDARD_DEVIATION|0.126||0.2139|TWO_SIDED|95.0|-0.347|0.147||α=0.025 one-sided|Mixed Models Analysis|MMRM with baseline, treatment, day, treatment by day interaction and baseline by day interaction as fixed effects and patient as a random effect.||||0.147|-0.347|0.2139
82611195|NCT00958568|164939228|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||Power estimate assumes approximately 1230 participants enter SPII. With a 60% drop-out/disqualification rate in SPII, then 492 participants enter SPIII. If 26% of participants drop out during SPIII, then 364 participants enter SPIV. Assuming 20% drop-out rate, 25% relapse rate on OFC and 40% relapse rate for fluoxetine (hazard ratio = 0.56), the log-rank test is 80% powered to detect a difference at a 2-sided 0.05 level. A total of 95 relapse events during SPIV should satisfy these assumptions.||||<0.001
82611196|NCT00958568|164939229|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
82611197|NCT00958568|164939230|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
82611198|NCT00958568|164939231|SUPERIORITY_OR_OTHER|||||||0.713||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||0.713
82611199|NCT00958568|164939232|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Relapse rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||<0.001
82611200|NCT00958568|164939233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||<0.001
82611201|NCT00958568|164939234|SUPERIORITY_OR_OTHER|||||||0.831||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||0.831
82611202|NCT00958568|164939235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Log Rank|||||||<0.001
82611203|NCT00958568|164939239|SUPERIORITY_OR_OTHER|||||||0.047||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Cochran-Mantel-Haenszel|Remission rates were analyzed using the Cochran-Mantel-Haenszel test adjusting for country.||||||0.047
82611204|NCT00958568|164939240|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.91|STANDARD_ERROR_OF_MEAN|0.78|<|0.001|TWO_SIDED|95.0|-4.46|-1.36||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-1.36|-4.46|<0.001
82611205|NCT00958568|164939241|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.82|||<|0.001|TWO_SIDED|95.0|-5.39|-2.24||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment and country.||||-2.24|-5.39|<0.001
82611206|NCT00958568|164939242|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.11||0.002|TWO_SIDED|95.0|-0.55|-0.12||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-0.12|-0.55|0.002
82611207|NCT00958568|164939245|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.94|STANDARD_ERROR_OF_MEAN|0.72||0.007|TWO_SIDED|95.0|-3.36|-0.53||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment and country.||||-0.53|-3.36|0.007
82611208|NCT00958568|164939246|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611209|NCT00958568|164939247|SUPERIORITY_OR_OTHER|||||||0.248||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.248
82611210|NCT00958568|164939248|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611211|NCT00958568|164939249|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.91|STANDARD_ERROR_OF_MEAN|4.47||0.839|TWO_SIDED|95.0|-9.71|7.89||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||7.89|-9.71|0.839
82611212|NCT00958568|164939250|SUPERIORITY_OR_OTHER|||||||0.352||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.352
82611213|NCT00958568|164939250|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611214|NCT00958568|164939250|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611215|NCT00958568|164939251|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|4.12||0.703|TWO_SIDED|95.0|-9.69|6.54||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||6.54|-9.69|0.703
82611216|NCT00958568|164939252|SUPERIORITY_OR_OTHER|||||||0.139||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.139
82611217|NCT00958568|164939252|SUPERIORITY_OR_OTHER|||||||0.746||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.746
82611218|NCT00958568|164939252|SUPERIORITY_OR_OTHER|||||||0.458||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.458
82611219|NCT00958568|164939253|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.73|STANDARD_ERROR_OF_MEAN|1.15||0.001|TWO_SIDED|95.0|-5.99|-1.47||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||-1.47|-5.99|0.001
82611220|NCT00958568|164939254|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.004
82611221|NCT00958568|164939255|SUPERIORITY_OR_OTHER|||||||1||95.0||||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611222|NCT00958568|164939256|SUPERIORITY_OR_OTHER||LS Mean Difference|13.27|STANDARD_ERROR_OF_MEAN|7.62||0.083|TWO_SIDED|95.0|-1.72|28.26||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||28.26|-1.72|0.083
82611223|NCT00958568|164939257|SUPERIORITY_OR_OTHER|||||||0.029||95.0||||P-value is for Borderline to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.029
82611224|NCT00958568|164939257|SUPERIORITY_OR_OTHER|||||||0.014||95.0||||P-value is for Normal to Borderline. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.014
82611225|NCT00958568|164939257|SUPERIORITY_OR_OTHER|||||||0.054||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.054
82611226|NCT00958568|164939258|SUPERIORITY_OR_OTHER||LS Mean Difference|5.89|STANDARD_ERROR_OF_MEAN|1.87||0.002|TWO_SIDED|95.0|2.22|9.56||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||9.56|2.22|0.002
82611227|NCT00958568|164939259|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||P-value is for Impaired to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.031
82611228|NCT00958568|164939259|SUPERIORITY_OR_OTHER|||||||1||95.0||||P-value is for Normal to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||1.00
82611229|NCT00958568|164939259|SUPERIORITY_OR_OTHER|||||||0.344||95.0||||P-value is for Normal to Impaired. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.344
82611230|NCT00958568|164939259|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||P-value is for Normal/Impaired to High. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.072
82611231|NCT00958568|164939260|SUPERIORITY_OR_OTHER||LS Mean Difference|3.92|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|2.96|4.88||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||4.88|2.96|<0.001
82611232|NCT00958568|164939261|SUPERIORITY_OR_OTHER||||||<|0.001||||||The threshold for statistical significance was 0.05.|Fisher Exact|||||||<0.001
82611233|NCT00958568|164939262|SUPERIORITY_OR_OTHER|||||||0.392||95.0||||P-value is for suicidal ideation. The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|Fisher Exact|||||||0.392
82611234|NCT00958568|164939263|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|STANDARD_ERROR_OF_MEAN|1.95||0.421|TWO_SIDED|95.0|-5.42|2.27||The test was run using an a priori 2-sided threshold for statistical significance of 0.05. No adjustments were made for multiple comparisons.|t-test, 2 sided|The model adjusted for baseline (Week 20), treatment, country, visit, and treatment-by-visit interaction.||||2.27|-5.42|0.421
82611235|NCT00283712|164939267|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||1|TWO_SIDED|90.0|-0.22|0.22|||Fisher Exact|||The study goals were to gather evidence of safety and possible efficacy of infliximab for treatment of pemphigus vulgaris (PV). The analyses focused on estimation rather than hypothesis testing; therefore, there was not sufficient power to detect plausible treatment differences unless they were very large. The sample size reflects a balance between the desire to meet study goals and to expose as few participants as possible until the safety of infliximab for treatment of PV has been clarified.||0.22|-0.22|1.00
82611236|NCT00283712|164939267|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||1|TWO_SIDED|90.0|0.02|42.67|||Fisher Exact|||||42.67|0.02|1.00
82611237|NCT00283712|164939268|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.1|||||TWO_SIDED|90.0|-0.26|0.06||||||||0.06|-0.26|
82611238|NCT00283712|164939269|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||1|TWO_SIDED|90.0|-0.31|0.36||All secondary analyses are considered supplemental supportive analyses|Fisher Exact|||The primary endpoint analysis was replicated using the per-protocol population.||0.36|-0.31|1.00
82611239|NCT00283712|164939269|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||1|TWO_SIDED|90.0|0.02|38.35||All secondary analyses are considered supplemental supportive analyses|Fisher Exact|||The primary endpoint analysis was replicated using the per-protocol population.||38.35|0.02|1.00
82611240|NCT00283712|164939270|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2||||0.65|TWO_SIDED|90.0|-0.15|0.55|||Fisher Exact|||||0.55|-0.15|0.65
82611241|NCT00283712|164939270|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.65|TWO_SIDED|90.0|0.06|2.79|||Fisher Exact|||||2.79|0.06|0.650
82611242|NCT00283712|164939280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||1|TWO_SIDED|90.0|-0.3|0.3|||Fisher Exact|||||0.3|-0.3|1.00
82611243|NCT02747043|164939284|EQUIVALENCE|Clinical equivalence of the primary endpoint will first be demonstrated by comparing the 1-sided 95% lower confidence limit of the RD of ORR by week 28 between ABP 798 and rituximab with a noninferiority margin of -15%. If this is successful, the 1-sided upper 95% confidence limit of the RD of ORR by week 28 will be compared with a nonsuperiority margin of +35.5%.|Risk Difference (RD)|7.7|||||TWO_SIDED|90.0|-1.4|16.8|||||The 2-sided 90% confidence limits of the risk difference (RD) of ORR by week 28 used a generalized linear model adjusted for the stratification factors (geographic region and age group).|||16.8|-1.4|
82611244|NCT02747043|164939284|OTHER||Risk Difference (RD)|7.7|||||TWO_SIDED|95.0|-3.2|18.6||||||||18.6|-3.2|
82611245|NCT02747043|164939285|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|90.0|-9.3|11.2||||||The 2-sided 90% confidence limits of the risk difference (RD) of ORR at week 12 used a generalized linear model adjusted for the stratification factors (geographic region and age group).||11.2|-9.3|
82611246|NCT02747043|164939285|OTHER||Risk Difference (RD)|0.9|||||TWO_SIDED|95.0|-11.3|13.2||||||The 2-sided 95% confidence limits of the risk difference (RD) of ORR at week 12 used a generalized linear model adjusted for the stratification factors (geographic region and age group).||13.2|-11.3|
82611247|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|4.0|||||TWO_SIDED|95.0|-8.3|16.3||||||Percentage risk difference for 'Any adverse event of interest'||16.3|-8.3|
82611248|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.1|||||TWO_SIDED|95.0|-12.1|12.3||||||Percentage risk difference for 'Infusion reactions including hypersensitivity'||12.3|-12.1|
82611249|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.7|||||TWO_SIDED|95.0|-11.8|13.0||||||Percentage risk difference for 'Hematological reactions'||13.0|-11.8|
82611250|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-11.8|13.2||||||Percentage risk difference in 'Cardiac disorders'||13.2|-11.8|
82611251|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|1.6|||||TWO_SIDED|95.0|-10.9|14.0||||||Percentage risk difference in 'Serious infections'||14.0|-10.9|
82611252|NCT02747043|164939291|OTHER|Risk difference (ABP 798 - Rituximab) and CIs were estimated by Wald asymptotic confidence limits, or exact confidence limits if n \< 25 for either treatment.|Risk Difference (RD)|0.8|||||TWO_SIDED|95.0|-11.7|13.2||||||Percentage risk difference in 'Severe mucocutaneous reactions'||13.2|-11.7|
82611253|NCT03136705|164939295|SUPERIORITY||trend analysis|1.009||||0.3738|TWO_SIDED|95.0|0.989|1.031|||Mixed Models Analysis|||linear mixed model for repeated measures data||1.031|0.989|0.3738
82611254|NCT03136705|164939296|SUPERIORITY||trend analysis|0.0043||||0.854|TWO_SIDED|95.0|-0.0414|0.0499|||Mixed Models Analysis|||linear mixed model for repeated measures data||0.0499|-0.0414|0.854
82611255|NCT03136705|164939297|SUPERIORITY||trend analysis|20.38||||0.0648|TWO_SIDED|95.0|-1.26|42.03|||Mixed Models Analysis|||linear mixed model for repeated measures data||42.03|-1.26|0.0648
82611256|NCT00909090|164939312|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|||||||0.01
82611257|NCT00909090|164939313|SUPERIORITY|||||||0.21|||||||Regression, Linear|||Analysis compared mean differences between placebo and intervention at the 12-month time point.||||0.21
82611258|NCT00909090|164939314|SUPERIORITY|||||||0.01|||||||t-test, 1 sided|||Analysis compared mean change from baseline to 12-month time points.||||0.01
82611259|NCT00909090|164939315|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||analysis conducted on mean change over one year, between groups||||0.02
82611260|NCT02926573|164939320|SUPERIORITY||Median Difference (Final Values)|0.26|||||TWO_SIDED|95.0|-0.27|0.94||||||||0.94|-0.27|
82611261|NCT02926573|164939321|SUPERIORITY||Percent Difference|9.2|||||TWO_SIDED|95.0|-3.0|21.0||||||||21|-3.0|
82611262|NCT02926573|164939323|SUPERIORITY||Percent Difference|-2.0|||||TWO_SIDED|95.0|-15.0|11.0|||||"The estimation parameter is based on those participants who answered they were very satisfied with overall pain control."|||11|-15|
82611263|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-3.4|18.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||18.3|-3.4|
82611264|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|8.7|||||TWO_SIDED|95.0|-2.9|20.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||20.3|-2.9|
82611265|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|7.2|||||TWO_SIDED|95.0|-4.6|18.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||18.9|-4.6|
82611266|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|5.1|||||TWO_SIDED|95.0|-6.6|16.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|||16.8|-6.6|
82611267|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|7.4|||||TWO_SIDED|95.0|-3.6|18.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||18.3|-3.6|
82611268|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-5.6|21.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||21.6|-5.6|
82611269|NCT02926573|164939324|SUPERIORITY||Mean Difference (Final Values)|10.1|||||TWO_SIDED|95.0|-3.5|23.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||23.8|-3.5|
82611270|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|10.7|||||TWO_SIDED|95.0|-0.9|22.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||22.3|-0.9|
82611271|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|9.1|||||TWO_SIDED|95.0|-3.4|21.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||21.6|-3.4|
82611272|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|6.3|||||TWO_SIDED|95.0|-6.1|18.6|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||18.6|-6.1|
82611273|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-7.3|17.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|||17.8|-7.3|
82611274|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|11.2|||||TWO_SIDED|95.0|-1.4|23.8|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||23.8|-1.4|
82611275|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|14.9|||||TWO_SIDED|95.0|-0.1|29.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||29.9|-0.1|
82611276|NCT02926573|164939325|SUPERIORITY||Mean Difference (Final Values)|11.6|||||TWO_SIDED|95.0|-2.8|26.0|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||26.0|-2.8|
82611277|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-14.7|11.9|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7AM.|||11.9|-14.7|
82611278|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|5.3|||||TWO_SIDED|95.0|-8.6|19.2|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 10AM.|||19.2|-8.6|
82611279|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|10.9|||||TWO_SIDED|95.0|-2.4|24.2|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 1 7PM.|||24.2|-2.4|
82611280|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|7.0|||||TWO_SIDED|95.0|-6.6|20.7|||||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7AM.|20.7|-6.6|
82611281|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|8.0|||||TWO_SIDED|95.0|-6.4|22.3|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 10AM.|||22.3|-6.4|
82611282|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|15.7|||||TWO_SIDED|95.0|-0.4|31.7|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 2 7PM.|||31.7|-0.4|
82492594|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.157||0.099|TWO_SIDED|95.0|-0.57|0.05|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.05|-0.57|0.099
82611283|NCT02926573|164939326|SUPERIORITY||Mean Difference (Final Values)|16.7|||||TWO_SIDED|95.0|0.0|33.4|||||This statistical analysis is for the mean difference between the 2 arms at Post-Operative Day 3 7AM.|||33.4|0.0|
82611284|NCT00611455|164939330|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86|||<|0.001|TWO_SIDED|95.0|1.67|4.91|||Cochran-Mantel-Haenszel|||||4.91|1.67|<0.001
82658124|NCT01049334|165032615|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0||||The a priori threshold for statistical significance is 0.05. Closed-sequential approach to control type I error: analyses through secondary outcomes #2-13 in the order listed will proceed until a p-value \>0.05 occurs.|Wilcoxon (Mann-Whitney)|||||||<.0001
82658125|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.1448|TWO_SIDED|95.0|0.0|0.1|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 2||0.1|-0.0|0.1448
82658126|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.1538|TWO_SIDED|95.0|0.0|0.3|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 4||0.3|-0.0|0.1538
82658127|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.1407|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 6||0.5|-0.1|0.1407
82658128|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.2906|TWO_SIDED|95.0|-0.2|0.7|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 8||0.7|-0.2|0.2906
82658129|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.2||||0.4758|TWO_SIDED|95.0|-0.4|0.8|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 10||0.8|-0.4|0.4758
82658130|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.1||||0.6975|TWO_SIDED|95.0|-0.6|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 12||0.9|-0.6|0.6975
82658131|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|0.0||||0.937|TWO_SIDED|95.0|-0.8|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 14||0.9|-0.8|0.9370
82658132|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-0.1||||0.8493|TWO_SIDED|95.0|-1.1|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 16||0.9|-1.1|0.8493
82658133|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-0.3||||0.6732|TWO_SIDED|95.0|-1.4|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 18||0.9|-1.4|0.6732
82658134|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-0.4||||0.5414|TWO_SIDED|95.0|-1.8|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 20||0.9|-1.8|0.5414
82658135|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-0.6||||0.4313|TWO_SIDED|95.0|-2.1|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 22||0.9|-2.1|0.4313
82658136|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-0.8||||0.3501|TWO_SIDED|95.0|-2.4|0.9|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 24||0.9|-2.4|0.3501
82658137|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-1.0||||0.2679|TWO_SIDED|95.0|-2.8|0.8|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 26||0.8|-2.8|0.2679
82658138|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-1.2||||0.2137|TWO_SIDED|95.0|-3.2|0.7|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 28||0.7|-3.2|0.2137
82377511|NCT03901092|164462169|OTHER||Fleiss' kappa|0.84|||||TWO_SIDED|95.0|0.8|0.88||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The primary hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.88|0.80|
82658139|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-1.5||||0.1715|TWO_SIDED|95.0|-3.6|0.6|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 30||0.6|-3.6|0.1715
82658140|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-1.8||||0.134|TWO_SIDED|95.0|-4.1|0.5|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 32||0.5|-4.1|0.1340
82658141|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-2.0||||0.103|TWO_SIDED|95.0|-4.5|0.4|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 34||0.4|-4.5|0.1030
82658142|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-2.4||||0.0788|TWO_SIDED|95.0|-5.0|0.3|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 36||0.3|-5.0|0.0788
82658143|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-2.7||||0.062|TWO_SIDED|95.0|-5.5|0.1|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 38||0.1|-5.5|0.0620
82658144|NCT01049334|165032616|SUPERIORITY_OR_OTHER||least-square means difference|-3.0||||0.0476|TWO_SIDED|95.0|-6.0|0.0|||ANOVA|Baseline STPIS fitted as a covariate||Minutes post dose: 40||-0.0|-6.0|0.0476
82658145|NCT01049334|165032617|SUPERIORITY_OR_OTHER|||||||0.0273||95.0|||||Log Rank|||||||0.0273
82658146|NCT01049334|165032618|SUPERIORITY_OR_OTHER|||||||0.0098||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0098
82658147|NCT01297348|165032619|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.01|||||TWO_SIDED|95.0|1.23|3.29||||||Incidence rate ratio (Lybrel/EE-20) along with corresponding 95 percent (%) confidence interval (CI) was reported for current users.||3.29|1.23|
82658148|NCT01297348|165032619|SUPERIORITY_OR_OTHER||Incidence rate ratio|2.99|||||TWO_SIDED|95.0|0.39|22.8||||||Incidence rate ratio (Lybrel/EE-20) along with corresponding 95% CI was reported for past users.||22.80|0.39|
82658149|NCT01297348|165032619|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.49|||||TWO_SIDED|95.0|2.02|6.02||||||Incidence rate ratio (Lybrel/Levo-20) along with corresponding 95% CI was reported for current users.||6.02|2.02|
82658150|NCT01297348|165032619|SUPERIORITY_OR_OTHER||Incidence rate ratio|3.07|||||TWO_SIDED|95.0|0.34|27.47||||||Incidence rate ratio (Lybrel/Levo-20) along with corresponding 95% CI was reported for past users.||27.47|0.34|
82658151|NCT01297348|165032620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.85|2.67||||||Current user, case and matched control: Odds ratio (Lybrel/EE-20) and 95% CI were estimated using conditional logistic regression, conditional on matching factors (age, calendar time, exposure status and database).||2.67|0.85|
82658152|NCT01297348|165032620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.53|||||TWO_SIDED|95.0|0.98|6.54||||||Current user, case and matched control: Odds ratio (Lybrel/Levo-20) and 95% CI were estimated using conditional logistic regression, conditional on matching factors (age, calendar time, exposure status and database).||6.54|0.98|
82658153|NCT02058498|165032644|SUPERIORITY_OR_OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82611285|NCT01678846|164939379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4|||<|0.0001|TWO_SIDED|95.0|0.26|0.64|||Regression, Logistic||An odds ratio of less than 1 would demonstrate a protective effect of the intervention. Unadjusted odds ratio presented, accounting for correlation between students within schools.|Does the Toolkit intervention reduce physical violence from school staff to Ugandan primary school students.||0.64|0.26|<0.0001
82611286|NCT04382651|164939395|SUPERIORITY||Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|2.225||0.33|TWO_SIDED|90.0|-2.7|4.7||1-Sided|ANCOVA|||||4.7|-2.7|0.33
82611287|NCT01507545|164939406|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.7335|TWO_SIDED|95.0|0.76|1.67|||One-sided log-rank test|||||1.67|0.76|0.7335
82611288|NCT01507545|164939407|SUPERIORITY||Hazard Ratio (HR)|1.43||||0.9498|TWO_SIDED|95.0|0.93|2.19|||One-sided log-rank test|||||2.19|0.93|0.9498
82611289|NCT01507545|164939408|SUPERIORITY||Difference of arms|-2.4||||0.333|TWO_SIDED|95.0|-6.992|2.23|||Fisher Exact|||||2.230|-6.992|0.333
82611290|NCT01873742|164939413|OTHER|The BDI's Cronbach's alpha was .93 at start of therapy, and .95 at the end of therapy.|Mean Difference (Final Values)|1.01|||<|0.05|TWO_SIDED||||||Mixed Models Analysis|||||||<0.05
82611291|NCT00044044|164939423|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82611292|NCT00044044|164939424|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82611293|NCT00044044|164939425|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82611294|NCT00044044|164939426|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||||||<0.05
82611295|NCT00638846|164939518|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.739|||||TWO_SIDED|97.4|1.136|1.739|||Generalized Linear Model||Odds ratio was senofilcon A toric / balafilcon A toric|Alternative hypothesis is senofilcon A toric is superior to balfilcon A toric by having less degrees of rotation||1.739|1.136|
82611296|NCT00638846|164939519|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.138|||||TWO_SIDED|97.4|0.624|1.138|||Generalized Linear Model||Odds ratio was senofilcon A toric/balafilcon A toric|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having less degrees of instability.||1.138|0.624|
82611297|NCT00638846|164939520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1307|STANDARD_ERROR_OF_MEAN|0.2856|||TWO_SIDED|97.5|-1.1307|-0.568|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon At toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having less time required to fit.||-0.5680|-1.1307|
82658154|NCT03988803|165032646|OTHER||Ratio of the geometric means (T/R1)|94.8|STANDARD_ERROR_OF_MEAN|12.2|||TWO_SIDED|90.0|87.14|103.14|||ANOVA||Standard error of the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||103.14|87.14|
82377512|NCT03901092|164462170|OTHER||Fleiss' kappa|0.9|||||TWO_SIDED|95.0|0.85|0.95||||||Fleiss' kappa is a statistical measure for assessing the reliability of agreement between a fixed number of raters when assigning categorical ratings to a number of items or classifying items. The hypothesis to be tested was that the lower bound of two-sided 95% confidence interval of Fleiss' Kappa will be greater than or equal to 0.6.||0.95|0.85|
82611298|NCT00638846|164939521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.368|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|97.4|0.07001|0.368|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A is superior to balafilcon A.||0.3680|0.07001|
82611299|NCT00638846|164939522|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin is -0.4.|Mean Difference (Final Values)|-0.0688|STANDARD_ERROR_OF_MEAN|0.1648|||TWO_SIDED|97.5|-0.0688|-0.0197|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric by having a lower grade fo corneal staining.||-0.0197|-0.0688|
82611300|NCT00638846|164939523|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.368|STANDARD_ERROR_OF_MEAN|0.1331|||TWO_SIDED|97.4|0.07001|0.368|||Mixed Models Analysis||The mean difference is calculated as senofilcon A toric minus balafilcon A toric.|Alternative hypothesis is that senofilcon A toric is superior to balafilcon A toric.||0.3680|0.07001|
82611301|NCT04799782|164939527|SUPERIORITY|||||||0.015|||||||t-test, 2 sided|||||||0.015
82611302|NCT04799782|164939528|SUPERIORITY|||||||0.82|||||||t-test, 2 sided|||||||0.82
82611303|NCT02989727|164939529|SUPERIORITY||ANOVA estimate|1.88|STANDARD_ERROR_OF_MEAN|3.51||0.59|TWO_SIDED||||||ANOVA|||Weighted ANOVA models were used to compare change scores between lamotrigine and placebo groups while testing for interactions by melancholic status. The estimate and test reported is for the the interaction between treatment condition and melancholic status.||||.59
82611304|NCT02989727|164939530|SUPERIORITY||ANOVA estimate|0.5|STANDARD_ERROR_OF_MEAN|2.56||0.84|TWO_SIDED||||||ANOVA|||Weighted ANOVA models were used to compare change scores between lamotrigine and placebo groups while testing for interactions by melancholic status. The estimate and test reported is for the the interaction between treatment condition and melancholic status.||||.84
82611305|NCT02989727|164939531|SUPERIORITY||Cox Proportional Hazard|1.2|STANDARD_ERROR_OF_MEAN|0.1||0.08|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at anytime point and 0 indicating no response."||||.08
82611306|NCT02989727|164939531|SUPERIORITY||Cox Proportional Hazard|1.08|STANDARD_ERROR_OF_MEAN|0.12||0.53|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at anytime point and 0 indicating no response."||||.53
82611307|NCT02989727|164939539|SUPERIORITY||Cox Proportional Hazard|1.27|STANDARD_ERROR_OF_MEAN|0.11||0.02|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at any time point and 0 indicating no response."||||.02
82611308|NCT02989727|164939539|SUPERIORITY||Cox Proportional Hazard|1.05|STANDARD_ERROR_OF_MEAN|0.13||0.73|TWO_SIDED||||||Regression, Cox|||"Weighted Cox regression with treatment condition (lamotrigine vs. placebo) predicting treatment response. Response is defined as a score reduction of at least 50% from baseline. The outcome variable is binary coded with 1 being a response at any time point and 0 indicating no response."||||.73
82611309|NCT03551522|164939563|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|11.02||||0.0874|TWO_SIDED|95.0|-1.63|23.67|||ANCOVA|||||23.67|-1.63|0.0874
82611310|NCT03551522|164939563|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|6.54||||0.3151|TWO_SIDED|95.0|-6.28|19.37|||ANCOVA|||||19.37|-6.28|0.3151
82611311|NCT03551522|164939563|OTHER|The LS Means, confidence intervals, and p-values come from an ANCOVA model with relative (percent) change from baseline as the dependent variable and treatment and stratification groups (diabetic status and fibrosis stage) as factors and baseline as a covariate.|LS Mean of Difference|7.78||||0.2313|TWO_SIDED|95.0|-5.01|20.58|||ANCOVA|||||20.58|-5.01|0.2313
82611312|NCT00969618|164939573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for total ADHD symptoms score.|Paired t-test|||||||<0.001
82611313|NCT00969618|164939573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for inattention subscale score.|Paired t-test|||||||<0.001
82611314|NCT00969618|164939573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for hyperactivity/impulsivity subscale score.|Paired t-test|||||||<0.001
82611315|NCT00969618|164939573|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for ADHD index subscale score.|Paired t-test|||||||<0.001
82611316|NCT00969618|164939574|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
82611317|NCT00969618|164939575|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is GEC subscale score.|Paired t-test|||||||<0.001
82611318|NCT00969618|164939575|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for behavioral regulation subscale score.|Paired t-test|||||||<0.001
82492595|NCT01786668|164677991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.158||0.014|TWO_SIDED|95.0|-0.7|-0.08|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.08|-0.70|0.014
82611319|NCT00969618|164939575|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for metacognition subscale score.|Paired t-test|||||||<0.001
82611320|NCT00969618|164939576|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Paired t-test|||||||0.200
82611321|NCT00969618|164939577|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Paired t-test|||||||<0.001
82492596|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.387||0.895|TWO_SIDED|95.0|-0.81|0.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.71|-0.81|0.895
82611322|NCT00969618|164939578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for GEC subscale score.|Paired t-test|||||||<0.001
82611323|NCT00969618|164939578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for behavioral regulation subscale score.|Paired t-test|||||||<0.001
82611324|NCT00969618|164939578|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value is for metacognition subscale score.|Paired t-test|||||||<0.001
82611325|NCT00969618|164939579|SUPERIORITY_OR_OTHER|||||||0.384||95.0|||||Paired t-test|||||||0.384
82611326|NCT05136885|164939580|SUPERIORITY||Disease Rate Ratio|0.87|STANDARD_DEVIATION|0.111|||TWO_SIDED|95.0|0.665|1.102||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. (Trehalose) slowed progression) was (0.8772). NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by Trehalose relative to placebo.Note: reported Confidence Interval is actually a Bayesian credible interval."||The DRR parameter for active treatment represents the relative change to the rate of decline of ALSFRS-R and the rate of mortality of treated participant relative to a placebo participant. The estimated DRR can also be interpreted as the average rate of decline in function and mortality. The model includes covariates for baseline use of edaravone, baseline use of riluzole, baseline use of Relyvrio, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, serum NfL concentration and random effects for regimen and participant-specific slopes.|1.102|0.665|
82611327|NCT05136885|164939582|SUPERIORITY||Mean Difference (Net)|-0.55|STANDARD_ERROR_OF_MEAN|1.79||0.7607|TWO_SIDED|95.0|-4.06|2.97|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, pre-baseline ALSFRS-R slope, and baseline log-transformed NfL.|Trehalose 24-week change from baseline relative to placebo 24-week change from baseline.|||2.97|-4.06|0.7607
82611328|NCT05136885|164939583|SUPERIORITY||Mean Difference (Net)|0.92|STANDARD_ERROR_OF_MEAN|3.204||0.7737|TWO_SIDED|95.0|-5.37|7.21|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, pre-baseline ALSFRS-R slope, and baseline log-transformed NfL.|Trehalose 24-week change from baseline relative to placebo 24-week change from baseline.|||7.21|-5.37|0.7737
82611329|NCT05136885|164939584|SUPERIORITY|||||||0.2137|||||||Log Rank|||||||0.2137
82611330|NCT03825042|164939615|SUPERIORITY||Mean Difference (Final Values)|-21.01||||0|TWO_SIDED|95.0|-26.8|-15.2|||ANCOVA|||||-15.20|-26.80|0.0000
82611331|NCT03825042|164939616|SUPERIORITY||Mean Difference (Final Values)|-6.08||||0|TWO_SIDED|95.0|-8.45|-3.61|||ANCOVA|||||-3.61|-8.45|0.0000
82611332|NCT03825042|164939617|SUPERIORITY||Mean Difference (Final Values)|-14.56||||0|TWO_SIDED|95.0|-20.02|-9.11|||ANCOVA|||||-9.11|-20.02|0.0000
82611333|NCT04003155|164939623|SUPERIORITY||LSMean Difference|-1.87|STANDARD_ERROR_OF_MEAN|0.42|<|0.001||95.0|-2.69|-1.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Least squares Mean (LSM), Standard error (SE), Confidence interval (CI), Mixed model repeated measures (MMRM), Change from Baseline (CFB), Dependent variable (dv), Treatment (tr), Week (wk), Baseline (bl), Weight (wt)||-1.05|-2.69|<0.001
82611334|NCT04003155|164939623|SUPERIORITY||LSMean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.42|<|0.001||95.0|-2.89|-1.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.25|-2.89|<0.001
82492597|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.83|STANDARD_ERROR_OF_MEAN|0.386||0.033|TWO_SIDED|95.0|-1.59|-0.07|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.07|-1.59|0.033
82611335|NCT04003155|164939623|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
82611336|NCT04003155|164939623|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
82611337|NCT04003155|164939624|SUPERIORITY||LSMean difference|-2.39|STANDARD_ERROR_OF_MEAN|0.44|<|0.001||95.0|-3.25|-1.52||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.52|-3.25|<0.001
82611338|NCT04003155|164939624|SUPERIORITY||LSMean Difference|-2.55|STANDARD_ERROR_OF_MEAN|0.43|<|0.001||95.0|-3.4|-1.7||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-1.70|-3.40|<0.001
82611339|NCT04003155|164939624|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
82611340|NCT04003155|164939624|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
82611341|NCT04003155|164939625|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.06||0.012||95.0|-0.27|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.03|-0.27|0.012
82611342|NCT04003155|164939625|SUPERIORITY||LSMean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.06||0.002||95.0|-0.3|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.07|-0.30|0.002
82611343|NCT04003155|164939625|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
82611344|NCT04003155|164939625|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
82611345|NCT04003155|164939626|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002||95.0|-0.39|-0.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.09|-0.39|0.002
82611346|NCT04003155|164939626|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.08||0.007||95.0|-0.35|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||-0.06|-0.35|0.007
82611347|NCT04003155|164939626|SUPERIORITY|||||||0.012|||||||Hochberg|||||||0.012
82611348|NCT04003155|164939626|SUPERIORITY|||||||0.007|||||||Hochberg|||||||0.007
82611349|NCT04003155|164939627|SUPERIORITY||LSMean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.8||0.489||95.0|-2.0|1.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||1.0|-2.0|0.489
82611350|NCT04003155|164939627|SUPERIORITY||LSMean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.7||0.155||95.0|-2.5|0.4||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||||0.4|-2.5|0.155
82611351|NCT04003155|164939628|SUPERIORITY||LSMean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-2.53|-1.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-1.09|-2.53|<0.001
82611352|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-1.25|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-1.97|-0.53||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.53|-1.97|<0.001
82611353|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-1.97|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.75|-1.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.19|-2.75|<0.001
82611354|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-1.83|STANDARD_ERROR_OF_MEAN|0.39|<|0.001|TWO_SIDED|95.0|-2.6|-1.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-1.05|-2.60|<0.001
82611355|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-1.99|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.79|-1.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.19|-2.79|<0.001
82611356|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.9|-1.31||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-1.31|-2.90|<0.001
82611357|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.07|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.87|-1.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.27|-2.87|<0.001
82611358|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.18|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.98|-1.39||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-1.39|-2.98|<0.001
82611359|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.11|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-2.92|-1.3||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.30|-2.92|<0.001
82611360|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.41|<|0.001|TWO_SIDED|95.0|-3.19|-1.59||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-1.59|-3.19|<0.001
82611361|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-2.95|-1.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.25|-2.95|<0.001
82611362|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.27|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.11|-1.42||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-1.42|-3.11|<0.001
82611363|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.25|-1.54||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.54|-3.25|<0.001
82611364|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.39|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.23|-1.55||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-1.55|-3.23|<0.001
82611365|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.08|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-2.93|-1.22||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.22|-2.93|<0.001
82611366|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.0|-1.31||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-1.31|-3.00|<0.001
82611367|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.21|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.05|-1.37||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.37|-3.05|<0.001
82611368|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.16|STANDARD_ERROR_OF_MEAN|0.42|<|0.001|TWO_SIDED|95.0|-2.98|-1.33||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-1.33|-2.98|<0.001
82611369|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.48|STANDARD_ERROR_OF_MEAN|0.44|<|0.001|TWO_SIDED|95.0|-3.34|-1.62||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.62|-3.34|<0.001
82611370|NCT04003155|164939628|SUPERIORITY||LSMean Difference|-2.45|STANDARD_ERROR_OF_MEAN|0.43|<|0.001|TWO_SIDED|95.0|-3.3|-1.6||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-1.60|-3.30|<0.001
82611371|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.006|TWO_SIDED|95.0|-0.17|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.03|-0.17|0.006
82611372|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.04||0.006|TWO_SIDED|95.0|-0.17|-0.03||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-0.03|-0.17|0.006
82611373|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.05||0.003|TWO_SIDED|95.0|-0.24|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.05|-0.24|0.003
82377513|NCT03901092|164462171|OTHER||Cohen's kappa|0.89|||||TWO_SIDED|95.0|0.69|1.0||||||Cohen's kappa statistic for Reader 1||1.00|0.69|
82611374|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|-0.25|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-0.06|-0.25|0.002
82611375|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.06||0.004|TWO_SIDED|95.0|-0.27|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.05|-0.27|0.004
82611376|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.003|TWO_SIDED|95.0|-0.28|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-0.06|-0.28|0.003
82611377|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.29|-0.05||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.05|-0.29|0.006
82611378|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.004|TWO_SIDED|95.0|-0.29|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-0.06|-0.29|0.004
82611379|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.003|TWO_SIDED|95.0|-0.33|-0.07||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.07|-0.33|0.003
82611380|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.38|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-0.13|-0.38|<0.001
82611381|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.11|-0.37|<0.001
82611382|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.39|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-0.13|-0.39|<0.001
82658155|NCT03988803|165032647|OTHER||Ratio of the geometric means (T/R1)|99.34|STANDARD_ERROR_OF_MEAN|12.3|||TWO_SIDED|90.0|91.22|108.18|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||108.18|91.22|
82611383|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.15||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.15|-0.41|<0.001
82611384|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.37|-0.11||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-0.11|-0.37|<0.001
82611385|NCT04003155|164939629|SUPERIORITY||MMRM|-0.26|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.41|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.12|-0.41|<0.001
82611386|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.07||0.004|TWO_SIDED|95.0|-0.35|-0.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-0.06|-0.35|0.004
82611387|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.13||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.13|-0.43|<0.001
82658156|NCT03988803|165032648|OTHER||Ratio of the geometric means (T/R2)|103.69|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|99.99|107.52|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||107.52|99.99|
82377514|NCT03901092|164462171|OTHER||Cohen's kappa|0.71|||||TWO_SIDED|95.0|0.41|1.0||||||Cohen's kappa statistic for Reader 2||1.00|0.41|
82658157|NCT03988803|165032649|OTHER||Ratio of the geometric means (T/R2)|107.45|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|90.0|102.66|112.45|||ANOVA||Standard error fo the mean is the geometric coefficient of variation|The statistical model used for the analysis of the primary endpoints was an analysis of variance (ANOVA) model on the logarithmic scale. That was, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model. The model used included effects accounting for the following sources of variation: subjects and treatment. The effect 'subjects' was considered as random, whereas the effect 'treatment' was considered as fixed.||112.45|102.66|
82658158|NCT01032083|165032672|EQUIVALENCE|For the primary outcome, linear regression was used to determine mean difference between treatment groups. Differences between groups are presented as mean differences with associated 95% confidence interval (CI). Baseline values for variables were included as covariates in regression models and adjusted according to analysis of covariance. All analyses were conducted under the intention-to-treat principle.|Mean Difference (Final Values)|-1.54||||0.36|TWO_SIDED|95.0|-4.91|1.8|||Regression, Linear|||||1.80|-4.91|0.36
82611388|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|-0.37|-0.08||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-0.08|-0.37|0.002
82611389|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.43|-0.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.12|-0.43|<0.001
82611390|NCT04003155|164939629|SUPERIORITY||LSMean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.08||0.002|TWO_SIDED|95.0|-0.4|-0.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-0.09|-0.40|0.002
82611391|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-15.52|STANDARD_ERROR_OF_MEAN|3.29|<|0.001|TWO_SIDED|95.0|-21.99|-9.06||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-9.06|-21.99|<0.001
82611392|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-12.22|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-18.69|-5.74||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 1||-5.74|-18.69|<0.001
82611393|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-17.3|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-24.32|-10.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-10.27|-24.32|<0.001
82611394|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-18.29|STANDARD_ERROR_OF_MEAN|3.57|<|0.001|TWO_SIDED|95.0|-25.3|-11.29||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 2||-11.29|-25.30|<0.001
82611395|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-18.13|STANDARD_ERROR_OF_MEAN|3.63|<|0.001|TWO_SIDED|95.0|-25.25|-11.0||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-11.00|-25.25|<0.001
82611396|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-21.19|STANDARD_ERROR_OF_MEAN|3.61|<|0.001|TWO_SIDED|95.0|-28.29|-14.09||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 3||-14.09|-28.29|<0.001
82611397|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-16.75|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-24.24|-9.26||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-9.26|-24.24|<0.001
82611398|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-21.05|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-28.5|-13.61||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 4||-13.61|-28.50|<0.001
82611399|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-17.57|STANDARD_ERROR_OF_MEAN|3.79|<|0.001|TWO_SIDED|95.0|-25.02|-10.12||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-10.12|-25.02|<0.001
82611400|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-21.78|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-29.18|-14.39||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 5||-14.39|-29.18|<0.001
82611401|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-18.39|STANDARD_ERROR_OF_MEAN|3.89|<|0.001|TWO_SIDED|95.0|-26.03|-10.75||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-10.75|-26.03|<0.001
82377515|NCT03901092|164462171|OTHER||Cohen's kappa|0.6|||||TWO_SIDED|95.0|0.24|0.95||||||Cohen's kappa statistic for Reader 3||0.95|0.24|
82611402|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-23.83|STANDARD_ERROR_OF_MEAN|3.85|<|0.001|TWO_SIDED|95.0|-31.39|-16.27||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 6||-16.27|-31.39|<0.001
82611403|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-18.29|STANDARD_ERROR_OF_MEAN|4.09|<|0.001|TWO_SIDED|95.0|-26.33|-10.25||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-10.25|-26.33|<0.001
82611404|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-21.41|STANDARD_ERROR_OF_MEAN|4.04|<|0.001|TWO_SIDED|95.0|-29.35|-13.48||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 7||-13.48|-29.35|<0.001
82611405|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-20.16|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.14|-12.19||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-12.19|-28.14|<0.001
82611406|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-21.17|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-29.04|-13.3||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 8||-13.30|-29.04|<0.001
82611407|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-16.67|STANDARD_ERROR_OF_MEAN|4.1|<|0.001|TWO_SIDED|95.0|-24.73|-8.61||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-8.61|-24.73|<0.001
82611408|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-18.89|STANDARD_ERROR_OF_MEAN|4.05|<|0.001|TWO_SIDED|95.0|-26.84|-10.94||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 9||-10.94|-26.84|<0.001
82611409|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-17.88|STANDARD_ERROR_OF_MEAN|4.01|<|0.001|TWO_SIDED|95.0|-25.77|-9.99||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-9.99|-25.77|<0.001
82611410|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-19.5|STANDARD_ERROR_OF_MEAN|3.96|<|0.001|TWO_SIDED|95.0|-27.28|-11.72||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 10||-11.72|-27.28|<0.001
82611411|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-20.32|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-28.3|-12.35||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-12.35|-28.30|<0.001
82658159|NCT01032083|165032673|EQUIVALENCE|For the primary outcome, linear regression was used to determine mean difference between treatment groups. Differences between groups are presented as mean differences with associated 95% confidence interval (CI). Baseline values for variables were included as covariates in regression models and adjusted according to analysis of covariance. All analyses were conducted under the intention-to-treat principle.|Mean Difference (Final Values)|2.4||||0.68|TWO_SIDED|95.0|-9.0|14.0|||Regression, Linear|||||14|-9|0.68
82611412|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-22.14|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-30.0|-14.28||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 11||-14.28|-30.00|<0.001
82611413|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-20.08|STANDARD_ERROR_OF_MEAN|4.13|<|0.001|TWO_SIDED|95.0|-28.19|-11.96||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-11.96|-28.19|<0.001
82611414|NCT04003155|164939630|SUPERIORITY||LSMean Difference|-24.18|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-32.16|-16.2||LSM, SE, CI, \& p-values come from MMRM analysis of covariance model with CFB as dv \& trt group, wk \& smoking status as factors, with bl measurement \& bl wt as covariates, as well as an interaction of trt by wk \& interaction of bl measurement by wk.|MMRM|||Week 12||-16.20|-32.16|<0.001
82611415|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.245|||<|0.001|TWO_SIDED|95.0|1.823|5.999||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||5.999|1.823|<0.001
82611416|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.964|||<|0.001|TWO_SIDED|95.0|1.658|5.497||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 1||5.497|1.658|<0.001
82658160|NCT01171989|165032676|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.27|2.84||||||Difference in percentage anti-PRP ≥ 0.15 μg/mL||2.84|-3.27|
82658161|NCT01171989|165032677|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.27|2.86||||||Difference between groups for rSBA-MenC ≥1:8||2.86|-3.27|
82611417|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.187||||0.001|TWO_SIDED|95.0|1.363|3.549||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||3.549|1.363|0.001
82611418|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.847|||<|0.001|TWO_SIDED|95.0|1.786|4.601||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||4.601|1.786|<0.001
82611419|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.096||||0.002|TWO_SIDED|95.0|1.326|3.345||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||3.345|1.326|0.002
82611420|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.333|||<|0.001|TWO_SIDED|95.0|2.121|5.302||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||5.302|2.121|<0.001
82611421|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.061||||0.001|TWO_SIDED|95.0|1.323|3.233||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||3.233|1.323|0.001
82611422|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.025|||<|0.001|TWO_SIDED|95.0|1.947|4.746||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.746|1.947|<0.001
82611423|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.363|3.357||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||3.357|1.363|<0.001
82611424|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.223|||<|0.001|TWO_SIDED|95.0|2.067|5.08||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||5.080|2.067|<0.001
82611425|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.049||||0.002|TWO_SIDED|95.0|1.317|3.21||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||3.210|1.317|0.002
82611426|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.097|||<|0.001|TWO_SIDED|95.0|1.994|4.858||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||4.858|1.994|<0.001
82611427|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|1.984||||0.002|TWO_SIDED|95.0|1.28|3.097||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||3.097|1.280|0.002
82611428|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.062|||<|0.001|TWO_SIDED|95.0|1.977|4.788||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||4.788|1.977|<0.001
82611429|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.748|||<|0.001|TWO_SIDED|95.0|1.774|4.294||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||4.294|1.774|<0.001
82611430|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.379|||<|0.001|TWO_SIDED|95.0|1.536|3.712||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||3.712|1.536|<0.001
82492598|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.388||0.044|TWO_SIDED|95.0|-1.55|-0.02|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||-0.02|-1.55|0.044
82611431|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.051||||0.001|TWO_SIDED|95.0|1.329|3.186||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||3.186|1.329|0.001
82611432|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.701|||<|0.001|TWO_SIDED|95.0|1.75|4.204||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||4.204|1.750|<0.001
82377516|NCT03901092|164462171|OTHER||Cohen's kappa|0.89|||||TWO_SIDED|95.0|0.67|1.0||||||Cohen's kappa statistic for Reader 4||1.00|0.67|
82611433|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.725|||<|0.001|TWO_SIDED|95.0|1.742|4.306||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||4.306|1.742|<0.001
82611434|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.921|||<|0.001|TWO_SIDED|95.0|2.505|6.214||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||6.214|2.505|<0.001
82611435|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.104|||<|0.001|TWO_SIDED|95.0|1.363|3.27||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.270|1.363|<0.001
82611436|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|2.953|||<|0.001|TWO_SIDED|95.0|1.912|4.602||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.602|1.912|<0.001
82611437|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|1.894||||0.005|TWO_SIDED|95.0|1.22|2.961||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||2.961|1.220|0.005
82611438|NCT04003155|164939631|SUPERIORITY||Odds Ratio (OR)|3.156|||<|0.001|TWO_SIDED|95.0|2.035|4.944||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||4.944|2.035|<0.001
82611439|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.158||||0.322|TWO_SIDED|95.0|0.398|64.304||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||64.304|0.398|0.322
82611440|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.925||||0.225|TWO_SIDED|95.0|0.569|77.353||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 2||77.353|0.569|0.225
82611441|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|6.334||||0.089|TWO_SIDED|95.0|1.064|120.422||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||120.422|1.064|0.089
82611442|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|5.026||||0.143|TWO_SIDED|95.0|0.797|96.916||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 3||96.916|0.797|0.143
82611443|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|1.257||||0.711|TWO_SIDED|95.0|0.37|4.468||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||4.468|0.370|0.711
82611444|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|1.57||||0.441|TWO_SIDED|95.0|0.508|5.328||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 4||5.328|0.508|0.441
82611445|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|5.351||||0.032|TWO_SIDED|95.0|1.383|35.172||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||35.172|1.383|0.032
82658162|NCT01171989|165032677|NON_INFERIORITY|Criterion for evaluation of Non-inferiority: the upper limit of Standardised asymptotic 95% confidence interval lower or equal to 10%|Difference in percentage|0.0|||||TWO_SIDED|95.0|-3.02|2.86||||||Difference between groups for rSBA-MenC ≥1:8||2.86|-3.02|
82611446|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.059||||0.175|TWO_SIDED|95.0|0.693|21.086||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 5||21.086|0.693|0.175
82611447|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|4.225||||0.071|TWO_SIDED|95.0|1.039|28.29||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||28.290|1.039|0.071
82611448|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|5.22||||0.035|TWO_SIDED|95.0|1.348|34.323||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 6||34.323|1.348|0.035
82611449|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|7.064||||0.011|TWO_SIDED|95.0|1.912|45.64||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||45.640|1.912|0.011
82611450|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|6.949||||0.012|TWO_SIDED|95.0|1.881|44.892||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 7||44.892|1.881|0.012
82611451|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|5.344||||0.032|TWO_SIDED|95.0|1.381|35.134||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||35.134|1.381|0.032
82611452|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|7.514||||0.008|TWO_SIDED|95.0|2.055|48.354||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 8||48.354|2.055|0.008
82611453|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.238||||0.026|TWO_SIDED|95.0|1.222|10.148||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||10.148|1.222|0.026
82611454|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.438||||0.019|TWO_SIDED|95.0|1.311|10.714||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 9||10.714|1.311|0.019
82611455|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|2.626||||0.037|TWO_SIDED|95.0|1.101|6.951||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||6.951|1.101|0.037
82611456|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|2.758||||0.027|TWO_SIDED|95.0|1.167|7.263||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 10||7.263|1.167|0.027
82658163|NCT00627016|165032725|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance for the comparison of the primary endpoint was determined at 0.05 level.|Wilcoxon (Mann-Whitney)|||||||<0.001
82377517|NCT03901092|164462171|OTHER||Cohen's kappa|0.79|||||TWO_SIDED|95.0|0.52|1.0||||||Cohen's kappa statistic for Reader 5||1.00|0.52|
82611457|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|1.69||||0.21|TWO_SIDED|95.0|0.753|3.968||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||3.968|0.753|0.210
82611458|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|2.01||||0.087|TWO_SIDED|95.0|0.923|4.634||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 11||4.634|0.923|0.087
82611459|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|2.1||||0.148|TWO_SIDED|95.0|0.795|6.157||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||6.157|0.795|0.148
82611460|NCT04003155|164939632|SUPERIORITY||Odds Ratio (OR)|3.262||||0.015|TWO_SIDED|95.0|1.329|9.194||Based on logistic regression with treatment group and smoking status (current vs former/never) as factors and mean frequency of vasomotor symptoms at baseline as a covariate.|Regression, Logistic|||Week 12||9.194|1.329|0.015
82611461|NCT01666444|164939669|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.22||||0.923|ONE_SIDED|92.0||1.48||P-value is for a one-sided hypothesis test.|Log Rank|The logrank test is stratified for platinum-free interval (\<= 6 months vs \> 6 months), and performance status (0 vs 1).|Treatment Hazard ratio for overall survival (PLD+VTX relative to PLD+placebo). Survival is measured from date of enrollment and randomization on the study until death from any cause, or date of last contact.|The null hypothesis is that the hazards of death are equal for both treatment groups. The primary assessment of this hypothesis was done with a stratified logrank test and the study was to be considered sufficiently mature to assess this hypothesis when at least 211 deaths had occurred among all individuals enrolled. Type I error was to be set to 0.08 for a one-sided test and the power for detecting a 30% reduction in the hazard (hazard ratio=0.70) due to VTX-2337 was 88.2%.||1.48||0.923
82611462|NCT01666444|164939670|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.21||||0.943|ONE_SIDED|98.0||1.56||P-value is for a one-sided hypothesis test.|Log Rank|The logrank test is stratified for platinum-free interval (\<= 6 months vs \> 6 months), and performance status (0 vs 1).||The null hypothesis is that the hazards of first progression or death are equal for both treatment groups. The primary assessment was to use a stratified logrank test and the study was to be considered sufficiently mature when survival is mature for analysis. Type I error was to be set to 0.02 for a one-sided test and the power for detecting a 31% reduction in the hazard (hazard ratio=0.69) due to VTX-2337 was expected to be approximately 83%.||1.56||0.943
82611463|NCT04315363|164939705|EQUIVALENCE|Two by two Mixed Analysis of Variance (ANOVA) models (i.e., within-subject effect: pre- and post- intervention \* between-subject effect: intervention and control group) were estimated to investigate the primary outcome changes (i.e., sedentary time) before and after the intervention.||||||0.8|||||||ANOVA|||||||0.8
82611464|NCT04315363|164939706|EQUIVALENCE|Two by two Mixed Analysis of Variance (ANOVA) models (i.e., within-subject effect: pre- and post- intervention \* between-subject effect: intervention and control group) were estimated to investigate the secondary outcome changes (i.e., moderate-to-vigorous physical activity) before and after the intervention.||||||0.35|||||||ANOVA|||||||0.35
82611465|NCT00103194|164939757|SUPERIORITY_OR_OTHER||PSA response rate|0.0|||||TWO_SIDED|90.0|0.0|8.2||||||||8.2|0|
82611466|NCT00103194|164939758|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Mixed Models Analysis|The analysis is testing the null hypothesis that there is no difference between the pre-treatment and post-treatment PSA slopes.||||||0.006
82611467|NCT02546856|164939761|NON_INFERIORITY|For the hypothesis that the relative dose of BBs would reach 52% by the end of the study and using an equivalence margin of 7%, we would need 157 patients per group for an alpha level of significance of 0.05 and a statistical power of 80% (beta of 0.80).|Mean Difference (Final Values)|14.8|||<|0.001|TWO_SIDED|95.0|7.5|22.1|||t-test, 2 sided|||||22.1|7.5|<0.001
82611468|NCT02546856|164939762|EQUIVALENCE|equivalence margin of 5%|Difference in percentages|1.4||||0.52|TWO_SIDED|95.0|-3.33|6.32|||Chi-squared|||||6.32|-3.33|0.52
82611469|NCT02546856|164939763|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|2.1||||0.31|TWO_SIDED|95.0|-1.9|6.1|||Chi-squared|||||6.1|-1.9|0.31
82611470|NCT02546856|164939764|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|-0.63||||0.85|TWO_SIDED|95.0|-7.1|5.85|||Chi-squared|||||5.85|-7.1|0.85
82611471|NCT02546856|164939765|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|2.12||||0.44|TWO_SIDED|95.0|-3.3|7.54|||Chi-squared|||||7.54|-3.3|0.44
82492599|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26|STANDARD_ERROR_OF_MEAN|0.411||0.53|TWO_SIDED|95.0|-1.07|0.55|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.55|-1.07|0.530
82611472|NCT02546856|164939767|NON_INFERIORITY|equivalence margin of 5%|Difference in percentages|0.7||||0.56|TWO_SIDED|95.0|-1.6|3.04|||Chi-squared|||||3.04|-1.6|0.56
82611473|NCT02546856|164939771|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|0.07||||0.96|TWO_SIDED|95.0|-2.69|2.83|||t-test, 2 sided|||||2.83|-2.69|0.96
82611474|NCT02546856|164939772|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|16.47||||0.97|TWO_SIDED|95.0|-781.0|748.0|||t-test, 2 sided|||||748|-781|0.97
82611475|NCT02546856|164939773|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|7.28||||0.44|TWO_SIDED|95.0|-11.27|25.83|||t-test, 2 sided|||||25.83|-11.27|0.44
82611476|NCT02546856|164939775|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|-0.91||||0.75|TWO_SIDED|95.0|-6.63|4.81|||t-test, 2 sided|||||4.81|-6.63|0.75
82611477|NCT02546856|164939776|NON_INFERIORITY|Equivalence margin of 5%|Mean Difference (Final Values)|0.04||||0.2|TWO_SIDED|95.0|-0.2|0.28|||t-test, 2 sided|||||0.28|-0.2|0.20
82492600|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.65|STANDARD_ERROR_OF_MEAN|0.411||0.114|TWO_SIDED|95.0|-1.46|0.16|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.16|-1.46|0.114
82611478|NCT02546856|164939777|EQUIVALENCE|equivalence margin of 5%|Difference in percentages|-5.5||||0.01|TWO_SIDED|95.0|-9.7|-1.4|||Chi-squared|||||-1.4|-9.7|0.01
82611479|NCT02546856|164939778|NON_INFERIORITY|Equivalence margin of 5%|Difference in percentages|-0.68||||0.71|TWO_SIDED|95.0|-4.2|2.87|||Chi-squared|Equivalence margin of 7%||||2.87|-4.2|0.71
82611480|NCT02546856|164939779|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|16.5|||<|0.001|TWO_SIDED|95.0|8.7|24.3|||t-test, 2 sided|||||24.3|8.7|<0.001
82611481|NCT02546856|164939780|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|0.9||||0.93|TWO_SIDED|95.0|-15.1|17.1|||t-test, 2 sided|||||17.1|-15.1|0.93
82611482|NCT02546856|164939781|NON_INFERIORITY|Equivalence margin of 7%|Mean Difference (Final Values)|0.5||||0.86|TWO_SIDED|95.0|-7.1|8.2|||t-test, 2 sided|||||8.2|-7.1|0.86
82611483|NCT00591227|164939788|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||t-test, 1 sided|||||||0.58
82611484|NCT04655586|164939793|SUPERIORITY|||||||0.4715||||||All rNAPc2 vs. Heparin|Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.4715
82611485|NCT04655586|164939794|SUPERIORITY|||||||0.1883|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.1883
82611486|NCT04655586|164939797|SUPERIORITY|||||||1|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||1.0
82611487|NCT04655586|164939798|SUPERIORITY|||||||0.0254|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.0254
82611488|NCT04655586|164939799|SUPERIORITY|||||||0.0535|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.0535
82658164|NCT00627016|165032726|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was only declared if the primary endpoint was statistically significant at 0.05 level. The multiplicity between the two secondary endpoints was adjusted by Hommel-Simes method to maintain the overall 0.05 level.|Fisher Exact|||||||<0.001
82611489|NCT04655586|164939800|SUPERIORITY|||||||0.83|||||||Wilcoxon Rank Sum|||All rNAPc2 doses (lower and higher) were pooled and compared to Heparin for statistical analysis presentation.||||0.8300
82611490|NCT02927171|164939828|OTHER|||||||0.17|||||||t-test, 1 sided|||||||0.17
82611491|NCT02677701|164939833|SUPERIORITY||Mean Difference (Net)|3.44||||0.0846|TWO_SIDED|95.0|-0.48|7.35|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||7.35|-0.48|0.0846
82611492|NCT02677701|164939834|SUPERIORITY||Mean Difference (Net)|1.31||||0.51|TWO_SIDED|95.0|-2.64|5.26|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||5.26|-2.64|0.51
82611493|NCT02677701|164939835|SUPERIORITY||Mean Difference (Net)|-2.89||||0.17|TWO_SIDED|95.0|-7.01|1.22|||Regression, Linear|Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).||||1.22|-7.01|0.17
82611494|NCT02677701|164939836|SUPERIORITY||Mean Difference (Net)|1.53||||0.56|TWO_SIDED|95.0|-3.7|6.77||Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).|Regression, Linear|||||6.77|-3.70|0.56
82611495|NCT02677701|164939837|SUPERIORITY||Mean Difference (Net)|0.75||||0.043|TWO_SIDED|95.0|0.03|1.47||Adjusted for baseline: ppFEV1 (25%-50%, \>50%-75%, \>75%), azithromycin use (current vs. non-current), inhaled tobramycin type (powder vs. solution).|Regression, Linear|||||1.47|0.03|0.043
82611496|NCT01214434|164939921|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||Chi-squared|||||||>0.05
82611497|NCT01214434|164939923|SUPERIORITY_OR_OTHER||||||=|0.03||95.0|||||t-test, 2 sided|||||||=0.03
82611498|NCT01214434|164939924|SUPERIORITY_OR_OTHER||||||=|0.6||95.0|||||t-test, 2 sided|||||||=0.6
82611499|NCT01214434|164939925|SUPERIORITY_OR_OTHER||||||=|0.24||95.0|||||t-test, 2 sided|||||||=.24
82611500|NCT01214434|164939926|SUPERIORITY_OR_OTHER||||||=|0.8||95.0|||||t-test, 2 sided|||||||=0.8
82611501|NCT03503773|164939944|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.2682|TWO_SIDED|95.0|-4.8|1.7|||ANCOVA||There was no formal hypothesis testing conducted in the study. 95% CIs are intended to be descriptive in nature only|The null hypothesis to be tested is that there is no difference in the change in 24 hour mean SBP between treatment and sham control. The Type I error rate for rejecting the null hypothesis will be set at an alpha level of 0.05.||1.7|-4.8|0.2682
82611502|NCT03503773|164939945|SUPERIORITY|||||||0.6964|||||||ANCOVA|||Difference between treatment arms||||0.6964
82611503|NCT03503773|164939946|SUPERIORITY|||||||0.0775|||||||ANCOVA|||Between group difference||||0.0775
82611504|NCT03503773|164939948|SUPERIORITY|||||||0.4734|||||||ANCOVA|||Between group difference||||0.4734
82611505|NCT03503773|164939950|SUPERIORITY|||||||0.0341|||||||ANCOVA|||||||0.0341
82611506|NCT03503773|164939952|SUPERIORITY||Mean Difference (Final Values)|-0.029||||0.573|TWO_SIDED|95.0|-0.132|0.073|||Fisher Exact|||||0.073|-0.132|0.573
82611507|NCT02285010|164939991|NON_INFERIORITY|Definition: 50% reduction of morphine consumption Type I error (alpha) 0.05, Type II error (beta) 80%||||||0.6|||||||Wilcoxon (Mann-Whitney)|||||||0.60
82611508|NCT02285010|164939992|NON_INFERIORITY|Alpha 0.05, Beta 80%||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.10
82611509|NCT02285010|164939993|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.33|||||||Wilcoxon (Mann-Whitney)|||for NRS at rest||||0.33
82611510|NCT02285010|164939993|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.75|||||||Wilcoxon (Mann-Whitney)|||for NRS at movement||||0.75
82611511|NCT02285010|164939994|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.16|||||||Chi-squared|||For pruritus||||0.16
82611512|NCT02285010|164939994|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.66|||||||Chi-squared|||For Nausea||||0.66
82611513|NCT02285010|164939994|NON_INFERIORITY|alpha 0.05, beta 80%||||||0.46|||||||Chi-squared|||For Vomiting||||0.46
82611514|NCT02285010|164939994|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.54|||||||Chi-squared|||For Dizziness||||0.54
82611515|NCT02285010|164939994|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.05|||||||Chi-squared|||For visual disturbance||||0.05
82611516|NCT02285010|164939995|NON_INFERIORITY|Alpha 0.05, beta 80%||||||0.05||||||P-Value 0.05 was calculated.|Chi-squared|||||||0.05
82611517|NCT05341466|164940009|SUPERIORITY||Mean Difference (Net)|0.528|STANDARD_ERROR_OF_MEAN|0.188||0.0098|||||||Mixed Models Analysis|||||||0.0098
82658165|NCT00627016|165032727|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was only declared if the primary endpoint was statistically significant at 0.05 level. The multiplicity between the two secondary endpoints was adjusted by Hommel-Simes method to maintain the overall 0.05 level.|Fisher Exact|||||||<0.001
82611518|NCT05341466|164940009|OTHER||Adjusted R-squared|0.418||||0.014|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus step length asymmetry.||||0.014
82611519|NCT05341466|164940009|OTHER||Adjusted R-squared|0.496||||0.006|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus step time asymmetry.||||0.006
82658166|NCT00829530|165032728|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|88.87||||||90.0|80.31|98.34|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.34|80.31|
82658167|NCT00829530|165032729|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|94.96||||||90.0|89.77|100.45|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.45|89.77|
82658168|NCT00829530|165032730|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|95.24||||||90.0|90.13|100.63|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.63|90.13|
82658169|NCT00829530|165032731|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.85||||||90.0|91.95|106.27|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106.27|91.95|
82658170|NCT00829530|165032732|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.62||||||90.0|97.8|103.52|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||103.52|97.8|
82658171|NCT01382719|165032740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0215|STANDARD_DEVIATION|2.9|<|0.05|TWO_SIDED|95.0|0.0|1.0|||Van Elteren|||||1.0|0.0|<0.05
82658172|NCT01382719|165032740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0012|STANDARD_DEVIATION|0.0012|<|0.05|TWO_SIDED|95.0|0.0|0.06|||Van Elteren|||||0.06|0.00|<0.05
82492601|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.415||0.297|TWO_SIDED|95.0|-1.25|0.38|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.38|-1.25|0.297
82658173|NCT01382719|165032741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0496|||<|0.05|||||||ANCOVA|||||||<0.05
82658174|NCT01382719|165032742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0079|||<|0.05|TWO_SIDED|95.0|0.0|1.0|||Van Elteren|||||1.00|0.00|<0.05
82611520|NCT05341466|164940009|OTHER||Adjusted R-squared|0.666||||0.001|||||||Regression, Linear|||Linear regression analyses performed with the change in the MEP amplitude versus changes in net metabolic power.||||0.001
82611521|NCT05341466|164940010|SUPERIORITY||Median Difference (Net)|-0.0042|STANDARD_DEVIATION|0.0232||0.744|||||||ANOVA|||||||0.744
82611522|NCT05341466|164940011|SUPERIORITY||Mean Difference (Net)|0.01|STANDARD_DEVIATION|0.0231||0.269|||||||ANOVA|||||||0.269
82611523|NCT05341466|164940012|SUPERIORITY||Median Difference (Net)|-0.4|STANDARD_DEVIATION|0.681||0.02|||||||ANOVA|||||||0.020
82611524|NCT01208181|164940058|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-0.29||||0.004|TWO_SIDED|95.0|-0.49|-0.09|||Tukey-Ciminera-Heysetrend test|||||-0.09|-0.49|0.004
82611525|NCT01208181|164940058|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-0.27||||0.034|TWO_SIDED|95.0|-0.48|-0.06|||Tukey-Ciminera-Heysetrend test|||||-0.06|-0.48|0.034
82611526|NCT01208181|164940059|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-7.99|||<|0.001|TWO_SIDED|95.0|-11.85|-4.13|||Tukey-Ciminera-Heyse trend test|||||-4.13|-11.85|<0.001
82611527|NCT01208181|164940059|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-10.7|||<|0.001|TWO_SIDED|95.0|-14.74|-6.66|||Tukey-Ciminera-Heyse trend test|||||-6.66|-14.74|<0.001
82658175|NCT01382719|165032743|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0012|||<|0.05|||||||Van Elteren|||||||<0.05
82658176|NCT01382719|165032744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0013|||<|0.05|||||||Van Elteren|||||||<0.05
82658177|NCT01382719|165032745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1161|||<|0.05|||||||Van Elteren|||||||<0.05
82658178|NCT01382719|165032746|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0133|||<|0.05|||||||ANCOVA|||||||<0.05
82658179|NCT02511782|165032747|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82658180|NCT02511782|165032748|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82658181|NCT05093205|165032782|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 120 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 3).|Specified in comments|122.48|||||TWO_SIDED|90.0|106.96|140.25|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||140.25|106.96|
82658182|NCT05093205|165032782|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 200 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 5).|Specified in comments|143.83|||||TWO_SIDED|90.0|122.64|168.68|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||168.68|122.64|
82658183|NCT05093205|165032783|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 120 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 3).|Specified in comments|104.46|||||TWO_SIDED|90.0|92.56|117.89|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||117.89|92.56|
82658184|NCT05093205|165032783|OTHER|0.15 mg LE \& 0.03 mg EE was the Reference treatment (Part B Period 1), PF-06882961 200 mg BID + 0.15 mg LE \& 0.03 mg EE was the Test treatment (Period 5).|Specified in comments|92.77|||||TWO_SIDED|90.0|81.05|106.19|||Mixed Models Analysis||A mixed effects model with treatment as a fixed effect and participant as a random effect was used was applied to calculate the ratio (Test/Reference) of adjusted means and 90% CIs for Ratio. The ratio (and 90% CI) is expressed as percentage.|||106.19|81.05|
82611528|NCT01208181|164940060|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|0.02||||0.73|TWO_SIDED|95.0|-0.1|0.14|||Tukey-Ciminera-Heysetrend test|||||0.14|-0.10|0.730
82611529|NCT01208181|164940061|SUPERIORITY_OR_OTHER_LEGACY||Difference in least squares mean|-2.71||||0.019|TWO_SIDED|95.0|-4.98|-0.45|||Tukey-Ciminera-Heyse trend test|||||-0.45|-4.98|0.019
82611530|NCT01208181|164940062|SUPERIORITY_OR_OTHER_LEGACY||Difference in the least squares mean|1.61||||0.327|TWO_SIDED|80.0|-0.49|3.71|||covariance model|||||3.71|-0.49|0.327
82611531|NCT00465738|164940102|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% Newcombe-Wilson confidence interval for the difference between the response rates of the groups was calculated. The lower bound of the Newcombe-Wilson CI for the difference of proportions was compared to the non-inferiority margin of -25%.|difference in response rates|10.6|||||TWO_SIDED|95.0|-4.4|24.9|||||difference in response rates = response rate for high volume dilution group (20 U/ml) - response rate for low volume dilution group (50 U/ml)|Null hypothesis: The response rate for the low volume dilution group (50 U/ml) is greater than the response rate for the high volume dilution group (20 U/ml).||24.9|-4.4|
82611532|NCT01591018|164940194|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||||||Pre-study calculations using chi-square test with a continuity correction showed that ≥60 patients in each group were needed to reach a significant difference with an alpha value of 0.05 (two-tailed) and a beta value of 0.8.|Chi-squared, Corrected|||Sample size was based on an expected 20% reduction of new ischemic lesions on DW-MRI in the sonolysis group (estimated prevalence, 10%) compared with the control group (estimated prevalence, 30%).||||<0.05
82611533|NCT00631488|164940202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.9||||0.002|TWO_SIDED|95.0|5.2|22.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 24-hour WMG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour WMG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval (CI) for the between group difference.||22.7|5.2|0.002
82611534|NCT00631488|164940202|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.8|||<|0.001|TWO_SIDED|95.0|-26.5|-9.2|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 24-hour WMG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour WMG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-9.2|-26.5|<0.001
82611535|NCT00631488|164940203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.1||||0.05|TWO_SIDED|95.0|0.0|18.2|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 24-hour FPG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour FPG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||18.2|0.0|0.050
82492602|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.37||0.377|TWO_SIDED|95.0|-1.06|0.4|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.40|-1.06|0.377
82658185|NCT02979353|165032805|SUPERIORITY||Risk Ratio (RR)|0.96||||0.017|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 1 applies to the Hospital Discharge timepoint (average 3 days after study enrollment)||||0.017
82611536|NCT00631488|164940203|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.1|||<|0.001|TWO_SIDED|95.0|-28.0|-10.1|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 24-hour FPG than sitagliptin+metformin. Using a standard deviation (SD) of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 24-hour FPG between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-10.1|-28.0|<0.001
82611537|NCT00631488|164940204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.6||||0.056|TWO_SIDED|95.0|-0.6|45.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-hr Glucose AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Glucose Total AUC between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||45.8|-0.6|0.056
82611538|NCT00631488|164940204|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.6|||<|0.001|TWO_SIDED|95.0|-67.3|-21.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-hr Glucose AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants per group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Glucose Total AUC between any 2 treatment groups for a two-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% confidence interval for the between group difference.||-21.8|-67.3|<0.001
82658186|NCT02979353|165032805|SUPERIORITY||Risk Ratio (RR)|0.86|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 2 applies to the Post-Acute Care Discharge time point (occurred on average 31 days after study enrollment)||||<0.0001
82658187|NCT02979353|165032805|SUPERIORITY||Risk Ratio (RR)|0.85|||<|0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis|||Statistical Analysis 3 applies to the 90 Day Follow-Up After PAC Discharge (occurred, on average, 122 days after study enrollment)||||<0.0001
82658188|NCT02979353|165032806|SUPERIORITY||Mean Difference (Net)|-0.28||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 1 applies to the Hospital Discharge time point (occurred, on average, 3 days after study enrollment)||||0.02
82611539|NCT00631488|164940205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.2||||0.001|TWO_SIDED|95.0|1.7|6.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-Hour Total GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Total GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||6.7|1.7|0.001
82611540|NCT00631488|164940205|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.2|||<|0.001|TWO_SIDED|95.0|10.7|15.7|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-Hour Total GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Total GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||15.7|10.7|<0.001
82658189|NCT02979353|165032806|SUPERIORITY||Mean Difference (Net)|-0.59|||<|1e-05|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 2 applies to Post-Acute Care Discharge time point (occurred, on average, 31 days after study enrollment).||||<0.00001
82658190|NCT02979353|165032806|SUPERIORITY||Mean Difference (Net)|-0.35||||0.01|TWO_SIDED|95.0|||||Regression, Linear|||Statistical Analysis 3 applies to 90-Day Follow Up After PAC Discharge time point (occurred, on average, 122 after study enrollment).||||0.01
82658191|NCT02597101|165032807|OTHER|REML mixed model|REML mixed model|0.05|||<|0.05|TWO_SIDED|||||Using REML mixed model analysis, differences between study arms resulting in a p\<0.05 would represent statistically-significant differences.|REML mixed model|||The primary efficacy endpoint is the improvement of insulin sensitivity by 40% or greater at 6 months compared to baseline, assessed by the hyperinsulinemic-euglycemic clamp method.||||<0.05
82658192|NCT03897088|165032832|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82658193|NCT03897088|165032841|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82658194|NCT03897088|165032842|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
82658195|NCT03897088|165032843|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82658196|NCT03897088|165032844|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82611541|NCT00631488|164940206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7|||<|0.001|TWO_SIDED|95.0|-9.5|-3.8|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+sitagliptin provide greater reduction in 2-Hour Active GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Active GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference||-3.8|-9.5|<0.001
82658197|NCT03897088|165032845|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
82658198|NCT03897088|165032846|SUPERIORITY||||||<|1e-05||||||Log Rank Test p-Value|Kaplan-Meier Estimates|||||||<0.00001
82658199|NCT03897088|165032847|SUPERIORITY||||||<|1e-05||||||Log Rank Test p-Value|Kaplan-Meier Estimates|||||||<0.00001
82658200|NCT03897088|165032848|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||||||<0.00001
82658201|NCT03897088|165032849|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||PASI-75||||<0.00001
82658202|NCT03897088|165032849|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||PASI-90||||<0.00001
82658203|NCT03897088|165032849|SUPERIORITY|||||||4e-05|||||||Cochran-Mantel-Haenszel|||PASI-100||||0.00004
82658204|NCT03897088|165032850|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82658205|NCT03897088|165032851|SUPERIORITY||||||<|1e-05|||||||Mixed Models Analysis|||Week 16||||<0.00001
82658206|NCT03897088|165032852|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 16||||<0.00001
82658207|NCT03897088|165032853|SUPERIORITY||||||<|1e-05||||||Week 16|Cochran-Mantel-Haenszel|||||||<0.00001
82658208|NCT03897088|165032854|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 12||||<0.00001
82658209|NCT03897088|165032855|SUPERIORITY||||||<|1e-05|||||||Cochran-Mantel-Haenszel|||Week 12||||<0.00001
82658210|NCT04320849|165032870|OTHER||Slope|0.0675|||||ONE_SIDED|90.0||0.106||||||"The following set of hypotheses were used to evaluate the relationship between lead stiffness and curvature in the extravenous region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.106||
82658211|NCT04320849|165032871|OTHER||Slope|0.199|||||ONE_SIDED|90.0||0.397||||||"The following set of hypotheses will be used to evaluate the relationship between lead stiffness and curvature in the intracardiac region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.397||
82658212|NCT04320849|165032872|OTHER||Slope|-0.015|||||ONE_SIDED|90.0||0.0123||||||"The following set of hypotheses were used to evaluate the relationship between lead stiffness and curvature in the connector region:~H0: a ≥ 0 Ha: a \< 0 where a represents the coefficient for stiffness in the following model: log (curvature) = a\*stiffness + b + normally distributed error."||0.0123||
82658213|NCT00323193|165032873|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANOVA|||||||.720
82658214|NCT00323193|165032874|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||.710
82658215|NCT02268500|165032963|SUPERIORITY|||||||0.89|||||||Chi-squared|||||||0.89
82658216|NCT02268500|165032964|SUPERIORITY|||||||0.43|||||||Chi-squared|||||||0.43
82658217|NCT02268500|165032965|SUPERIORITY|||||||0.03|||||||Chi-squared|||||||0.03
82658218|NCT02268500|165032966|SUPERIORITY|||||||0.76|||||||Chi-squared|||||||0.76
82658219|NCT02268500|165032967|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82658220|NCT02227121|165032968|SUPERIORITY_OR_OTHER||Percentage|92.86|||||ONE_SIDED|95.0|70.3|||||||Null Hypothesis: Percentage of Subjects with Successful VF Termination ≤ 65% Alternative Hypothesis: Percentage of Subjects with Successful VF Termination \> 65%|||70.3|
82658221|NCT03929367|165032969|OTHER|Modeling of change of plasma oxytocin concentration over time using nonlinear canonical compartment model.|Bayesian information criterion|2.0|||||TWO_SIDED|||||||||||||
82611542|NCT00631488|164940206|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.3|||<|0.001|TWO_SIDED|95.0|-14.1|-8.5|||Longitudinal Data Analysis|||Hypothesis: After 4 weeks of treatment, MK-0893+metformin provide greater reduction in 2-Hour Active GLP-1 Total AUC than sitagliptin+metformin. Using a SD of 23.5 mg/dL, a sample size of 40 participants/group had 80% power to detect a true difference of 15 mg/dL in the mean change from BL in 2-Hour Active GLP-1 Total AUC between any 2 treatment groups for a 2-sided test at alpha=0.05, with a half-width of 10.3 mg/dL around the 95% CI for the between group difference.||-8.5|-14.1|<0.001
82611543|NCT02639182|164940207|SUPERIORITY|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.||||||0.983||||||The stratification factors were the ECOG PS at baseline and the number of prior systemic renal cell carcinoma (RCC) regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|||||||0.983
82611544|NCT02639182|164940208|SUPERIORITY|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.|Hazard Ratio (HR)|1.423||||0.11|TWO_SIDED|95.0|0.924|2.192||The stratification factors were the ECOG PS at baseline and the number of prior systemic RCC regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|||||2.192|0.924|0.110
82611545|NCT02639182|164940209|SUPERIORITY||Odds Ratio (OR)|0.4||||0.062|TWO_SIDED|95.0|0.1|1.1||A Cochran-Mantel-Haenszel (CMH) analysis of the ORR, stratified for baseline ECOG-PS and number of prior systemic therapies for RCC, was conducted at a two-sided significance level of 0.05.|Cochran-Mantel-Haenszel|Stratified Mantel-Haenszel estimate of the odds ratio for experiencing objective response, with the axitinib arm as the reference level, was reported.||||1.1|0.1|0.062
82611546|NCT02639182|164940210|SUPERIORITY||Hazard Ratio (HR)|0.376||||0.439||95.0|0.031|4.482||The stratification factors were the ECOG PS at baseline and the number of prior systemic RCC regimens, without any other covariate(s). The model contained terms for treatment group and stratum.|Log Rank|The difference between treatment groups was tested using a stratified log rank test at a one-sided 0.1 significance level.||||4.482|0.031|0.439
82611547|NCT02639182|164940211|SUPERIORITY|||||||0.746||||||Test conducted at a 2-sided significance level of 0.05. The stratification factors were the ECOG PS at baseline and number of prior systemic RCC regimens.|Log Rank|||||||0.746
82611548|NCT02639182|164940212|SUPERIORITY|A CMH analysis of the DCR, stratified for baseline ECOG-PS and number of prior systemic therapies for RCC, was conducted at a two-sided significance level of 0.05.|Odds Ratio (OR)|0.5||||0.152|TWO_SIDED|95.0|0.2|1.3||The stratified Mantel-Haenszel estimate of the odds ratio for experiencing objective response, with the axitinib arm as the reference level, was reported as a measure of relative treatment effect, along with its two-sided 95% CI.|Cochran-Mantel-Haenszel|||||1.3|0.2|0.152
82611549|NCT01097616|164940229|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.6|||<|1e-05|TWO_SIDED|95.0|12.0|27.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSTm, had planned marginal power of 97.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||27.1|12.0|<0.00001
82611550|NCT01097616|164940230|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.7|||<|1e-05|TWO_SIDED|95.0|11.9|27.6||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSTm, had planned marginal power of 95.7%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||27.6|11.9|<0.00001
82492603|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04|STANDARD_ERROR_OF_MEAN|0.37||0.006|TWO_SIDED|95.0|-1.77|-0.31|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.31|-1.77|0.006
82611551|NCT01097616|164940231|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-26.3|||<|1e-05|TWO_SIDED|95.0|-33.5|-19.2||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 WASO, had planned marginal power of 99.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-19.2|-33.5|<0.00001
82492604|NCT01786668|164677992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.373||0.017|TWO_SIDED|95.0|-1.64|-0.17|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||-0.17|-1.64|0.017
82611552|NCT01097616|164940232|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-22.9|||<|1e-05|TWO_SIDED|95.0|-30.3|-15.4||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 WASO, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-15.4|-30.3|<0.00001
82658222|NCT03929367|165032980|SUPERIORITY|Light touch detection frequency was compared over time in comparison to baseline using a one way analysis of variance for repeated measures. A power analysis was not performed for this secondary outcome measure.||||||0.89||||||No effect|ANOVA|||||||.89
82611553|NCT01097616|164940233|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-7.4||||0.00298|TWO_SIDED|95.0|-12.3|-2.5||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 sTSOm, had planned marginal power of 99.9%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-2.5|-12.3|0.00298
82611554|NCT01097616|164940234|SUPERIORITY_OR_OTHER||[Difference in Least Squares Means|-8.4||||0.00019|TWO_SIDED|95.0|-12.8|-4.0||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-4.0|-12.8|0.00019
82611555|NCT01097616|164940235|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-11.2||||2e-05|TWO_SIDED|95.0|-16.3|-6.1||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 1 LPS, had planned marginal power of 81.4%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-6.1|-16.3|0.00002
82611556|NCT01097616|164940236|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-9.4||||0.00037|TWO_SIDED|95.0|-14.6|-4.3||By multiplicity strategy above, overall Type I error among primary hypotheses was controlled at two-sided 5% significance level.|Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Month 3 LPS, had planned marginal power of 76.2%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints; the same approach was used for sleep onset endpoints.||-4.3|-14.6|0.00037
82611557|NCT01097616|164940237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|13.6||||7e-05|TWO_SIDED|95.0|6.9|20.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||20.3|6.9|0.00007
82611558|NCT01097616|164940237|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|21.4|||<|1e-05|TWO_SIDED|95.0|15.5|27.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSTm, had planned marginal power of 98.3%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||27.4|15.5|<0.00001
82611559|NCT01097616|164940238|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|16.3||||0.00016|TWO_SIDED|95.0|7.9|24.8|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||24.8|7.9|0.00016
82611560|NCT01097616|164940239|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|10.7||||0.01711|TWO_SIDED|95.0|1.9|19.5|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||19.5|1.9|0.01711
82611561|NCT01097616|164940240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-32.5|||<|1e-05|TWO_SIDED|95.0|-39.3|-25.7|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-25.7|-39.3|<0.00001
82611562|NCT01097616|164940240|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-38.4|||<|1e-05|TWO_SIDED|95.0|-44.5|-32.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 WASO, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-32.3|-44.5|<0.00001
82611563|NCT01097616|164940241|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-26.4|||<|1e-05|TWO_SIDED|95.0|-34.3|-18.4|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-18.4|-34.3|<0.00001
82611564|NCT01097616|164940242|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-16.6||||9e-05|TWO_SIDED|95.0|-24.8|-8.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-8.3|-24.8|0.00009
82611565|NCT01097616|164940243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.6||||0.01564|TWO_SIDED|95.0|-10.2|-1.1|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-1.1|-10.2|0.01564
82611566|NCT01097616|164940243|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.7||||0.00609|TWO_SIDED|95.0|-9.7|-1.6|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Week 1 sTSOm, had planned marginal power of 99.6%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-1.6|-9.7|0.00609
82611567|NCT01097616|164940244|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.4||||0.05191|TWO_SIDED|95.0|-10.9|0.0|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||0.0|-10.9|0.05191
82611568|NCT01097616|164940245|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-5.2||||0.03771|TWO_SIDED|95.0|-10.2|-0.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-0.3|-10.2|0.03771
82611569|NCT01097616|164940248|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-9.6||||0.00041|TWO_SIDED|95.0|-14.9|-4.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance and sleep onset endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either the subjective or objective Month 3 endpoint must be significant to test the Week 1/Night 1 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-4.3|-14.9|0.00041
82611570|NCT01097616|164940248|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3||||2e-05|TWO_SIDED|95.0|-15.0|-5.5|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||The null hypothesis, that suvorexant HD did not differ from placebo for Night 1 LPS, had planned marginal power of 100.0%. Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints and either subjective or objective Month 3 endpoint must be significant to test Week 1/Night 1 endpoints. The same approach was used for sleep onset endpoints.||-5.5|-15.0|0.00002
82611571|NCT01097616|164940249|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-10.3||||0.0004|TWO_SIDED|95.0|-16.0|-4.6|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-4.6|-16.0|0.00040
82611572|NCT01097616|164940250|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-8.1||||0.00606|TWO_SIDED|95.0|-13.8|-2.3|||Longitudinal Data Analysis|Model terms: baseline value, age group, region, gender, treatment, time, and time by treatment interaction.||Sleep maintenance (sTSTm, WASO) and sleep onset (sTSOm, LPS) endpoints were tested at two-sided 2.5% significance level. Both Month 1 endpoints for sleep maintenance must be significant to test Month 3 endpoints. A sleep maintenance LD endpoint was tested if ≥1 HD Month 3 endpoint for sleep maintenance and corresponding HD endpoint were significant. The same approach was used for sleep onset endpoints.||-2.3|-13.8|0.00606
82377518|NCT02800642|164462184|OTHER||||||<|0.0001|||||||Exact one-sided 1-sample binomial test|||"The null hypothesis the proportion of participants with a ≥ 15-letter gain in BCVA at Week 76 is ≤ 40% on the 2.5% level of significance (one-sided) was performed using the following criterion: If the p value is less than 2.5%, the null hypothesis will be rejected. Otherwise, the null hypothesis will be regarded as not rejected and may still be true"||||<0.0001
82611573|NCT00117338|164940270|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.775||95.0|-0.06|0.08|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.08|-0.06|0.775
82611574|NCT00117338|164940271|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.931||95.0|-0.41|0.45|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.45|-0.41|0.931
82611575|NCT00117338|164940272|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.99||||0.975||95.0|0.61|1.61|||Regression, Logistic|Model terms: treatment and baseline FEV1 as covariate||||1.61|0.61|0.975
82611576|NCT00117338|164940273|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.02||||0.612||95.0|-0.05|0.09|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.09|-0.05|0.612
82611577|NCT00117338|164940274|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.01||||0.774||95.0|-0.06|0.08|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.08|-0.06|0.774
82611578|NCT00117338|164940275|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.04||||0.173||95.0|-0.02|0.11|||ANCOVA|Model terms: treatment, region (US, non-US) and baseline FEV1 as covariate||||0.11|-0.02|0.173
82611579|NCT00117338|164940276|SUPERIORITY_OR_OTHER_LEGACY|||||||0.58||95.0|||||ANCOVA|ANCOVA model (Nonparametric) based on Tukey's normalized ranks with terms treatment, region (US, non-US) and baseline FEV1 as covariate||||||0.580
82611580|NCT01342640|164940302|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 20 was analyzed using paired t-test.||||<0.0001
82658223|NCT03929367|165032987|SUPERIORITY|Sustained heat score at the end of each 5 minute session was compared to baseline across time using a one-way analysis of variance for repeated measures. Power analysis was not performed for this secondary outcome measure.||||||0.014|||||||ANOVA|||||||0.014
82611581|NCT01342640|164940303|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 24 was analyzed using paired t-test.||||<.0001
82611582|NCT01342640|164940304|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired t-test|||Change from baseline in mean Hb levels at Week 28 was analyzed using paired t-test.||||<.0001
82611583|NCT00479466|164940307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.6|||<|0.001|TWO_SIDED|95.0|-44.0|-17.3|||ANCOVA|||||-17.3|-44.0|<0.001
82611584|NCT00479466|164940307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.6|||<|0.001|TWO_SIDED|95.0|-59.7|-33.4|||ANCOVA|||||-33.4|-59.7|<0.001
82611585|NCT00479466|164940307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-51.1|||<|0.001|TWO_SIDED|95.0|-64.3|-38.0|||ANCOVA|||||-38.0|-64.3|<0.001
82611586|NCT00479466|164940307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-61.2|||<|0.001|TWO_SIDED|95.0|-74.6|-47.8|||ANCOVA|||||-47.8|-74.6|<0.001
82611587|NCT00479466|164940307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|||<|0.001|TWO_SIDED|95.0|-48.6|-22.4|||ANCOVA|||||-22.4|-48.6|<0.001
82611588|NCT00479466|164940308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15|||<|0.001|TWO_SIDED|95.0|-1.53|-0.76|||ANCOVA|||||-0.76|-1.53|<0.001
82611589|NCT00479466|164940308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.53|||<|0.001|TWO_SIDED|95.0|-1.91|-1.15|||ANCOVA|||||-1.15|-1.91|<0.001
82611590|NCT00479466|164940308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.69|||<|0.001|TWO_SIDED|95.0|-2.07|-1.31|||ANCOVA|||||-1.31|-2.07|<0.001
82611591|NCT00479466|164940308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.06|||<|0.001|TWO_SIDED|95.0|-2.45|-1.68|||ANCOVA|||||-1.68|-2.45|<0.001
82611592|NCT00479466|164940308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.32|||<|0.001|TWO_SIDED|95.0|-1.7|-0.95|||ANCOVA|||||-0.95|-1.70|<0.001
82611593|NCT00479466|164940309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-56.8|||<|0.001|TWO_SIDED|95.0|-79.4|-34.3|||ANCOVA|||||-34.3|-79.4|<0.001
82611594|NCT00479466|164940309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-70.0|||<|0.001|TWO_SIDED|95.0|-91.8|-48.2|||ANCOVA|||||-48.2|-91.8|<0.001
82611595|NCT00479466|164940309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-87.4|||<|0.001|TWO_SIDED|95.0|-109.4|-65.3|||ANCOVA|||||-65.3|-109.4|<0.001
82611596|NCT00479466|164940309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-101.6|||<|0.001|TWO_SIDED|95.0|-124.2|-79.1|||ANCOVA|||||-79.1|-124.2|<0.001
82611597|NCT00479466|164940309|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-60.8|||<|0.001|TWO_SIDED|95.0|-82.7|-38.8|||ANCOVA|||||-38.8|-82.7|<0.001
82611598|NCT03626415|164940315|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Mean|94.4|||||TWO_SIDED|90.0|62.96|141.55|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||141.55|62.96|
82611599|NCT03626415|164940315|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adusted Geometric Means|105.53|||||TWO_SIDED|90.0|70.38|158.24|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||158.24|70.38|
82611600|NCT03626415|164940316|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|133.33|||||TWO_SIDED|90.0|86.17|206.28|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||206.28|86.17|
82611601|NCT03626415|164940316|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Mean|153.99|||||TWO_SIDED|90.0|99.52|238.25|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||238.25|99.52|
82611602|NCT03626415|164940317|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|75.94|||||TWO_SIDED|90.0|57.39|100.47|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||100.47|57.39|
82611603|NCT03626415|164940317|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|84.14|||||TWO_SIDED|90.0|63.59|111.33|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||111.33|63.59|
82611604|NCT03626415|164940318|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|95.74|||||TWO_SIDED|90.0|72.71|126.08|||ANOVA|||Mild Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||126.08|72.71|
82658224|NCT01569152|165033006|SUPERIORITY_OR_OTHER||Difference of percentages|43.9|||<|0.001|TWO_SIDED|95.0|24.52|63.28|||Cochran-Mantel-Haenszel|||||63.28|24.52|<0.001
82658225|NCT01569152|165033007|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.98|||<|0.001|TWO_SIDED|95.0|-1.53|-0.43|||Constrained Longitudinal Data Analysis|||||-0.43|-1.53|<0.001
82611605|NCT03626415|164940318|OTHER|The ratio and 90% confidence interval were expressed as percentages.|Ratio of Adjusted Geometric Means|114.82|||||TWO_SIDED|90.0|87.19|151.2|||ANOVA|||Moderate Hepatic Impairment (Test) versus Normal Hepatic Function (Reference)||151.20|87.19|
82611606|NCT04498910|164940323|SUPERIORITY||Difference in Estimated change|-1.1|STANDARD_ERROR_OF_MEAN|1.2|||TWO_SIDED|95.0|-3.6|1.2|||Bayesian Mixed Model Analysis|||||1.2|-3.6|
82611607|NCT04498910|164940324|SUPERIORITY||Difference in Estimated change|-1.5|STANDARD_ERROR_OF_MEAN|1.3|||TWO_SIDED|95.0|-4.2|1.0|||Bayesian Mixed Model Analysis|||||1.0|-4.2|
82611608|NCT02345434|164940350|SUPERIORITY||Mean Difference (Final Values)|3.53|||||TWO_SIDED|95.0|-6.35|13.4||||||||13.4|-6.35|
82611609|NCT02345434|164940351|SUPERIORITY||Mean Difference (Final Values)|-0.79|||||TWO_SIDED|95.0|-3.68|2.1||||||||2.1|-3.68|
82611610|NCT01703819|164940355|SUPERIORITY_OR_OTHER|||||||0.7726||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOVAs.||||0.7726
82611611|NCT01703819|164940356|SUPERIORITY_OR_OTHER|||||||0.5702||||||Threshold less than or equal to 0.05. The final analysis demonstrated reasonable doubt of the implicit normality assumption of the two sets of AUC data, thus medians presented for efficacy analysis. Need for further investigation (ex-post analyses).|ANCOVA|||The null-hypotheses of no treatment differences were tested by the two-sided t-tests from the respective ANCOV As.||||0.5702
82611612|NCT02064439|164940395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34||||0.0001|TWO_SIDED|95.0|0.2|0.59||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.59|0.20|0.0001
82611613|NCT02064439|164940395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26|||<|0.0001|TWO_SIDED|98.0|0.14|0.47||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.47|0.14|<0.0001
82611614|NCT02064439|164940395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.4328|TWO_SIDED|95.0|0.65|2.75||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||2.75|0.65|0.4328
82658226|NCT01569152|165033008|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.11|||<|0.001|TWO_SIDED|95.0|-1.62|-0.6|||Constrained Longitudinal Data Analysis|||||-0.60|-1.62|<0.001
82611615|NCT02064439|164940396|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.01||||0.3235|TWO_SIDED|95.0|0.5|8.04||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||8.04|0.50|0.3235
82611616|NCT02064439|164940396|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.64||||0.5005|TWO_SIDED|95.0|0.39|6.84||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||6.84|0.39|0.5005
82611617|NCT02064439|164940396|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.23||||0.7337|TWO_SIDED|95.0|0.37|4.03||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||4.03|0.37|0.7337
82377519|NCT02800642|164462185|OTHER||||||=|0.8822|||||||Exact one-sided 1-sample binomial test|||"The null hypothesis the proportion of participants with a mean treatment interval of ≥ 8 weeks is ≤ 50% on the 2.5% level of significance (one-sided) was performed using the following criterion: If the p value is less than 2.5%, the null hypothesis will be rejected. Otherwise, the null hypothesis will be regarded as not rejected and may still be true"||||=0.8822
82611618|NCT02064439|164940397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.34|||<|0.0001|TWO_SIDED|95.0|0.2|0.57||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.57|0.20|<0.0001
82611619|NCT02064439|164940397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.0001|TWO_SIDED|95.0|0.19|0.54||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||0.54|0.19|<0.0001
82611620|NCT02064439|164940397|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.8172|TWO_SIDED|95.0|0.57|2.06||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||Statistical analysis was performed on the first occurrence of the composite outcome.||2.06|0.57|0.8172
82611621|NCT02064439|164940398|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.3318|TWO_SIDED|95.0|0.69|3.02||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||3.02|0.69|0.3318
82611622|NCT02064439|164940398|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.9726|TWO_SIDED|95.0|0.44|2.2||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||2.20|0.44|0.9726
82611623|NCT02064439|164940398|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.3137|TWO_SIDED|95.0|0.7|3.06||P-value and hazard ratio estimates based on stratified proportional hazards model, with stratification based index event (DVT or PE with or without DVT).|Wald test|||||3.06|0.70|0.3137
82658227|NCT01569152|165033009|SUPERIORITY_OR_OTHER||Difference in percentages|14.63||||0.044|TWO_SIDED|95.0|0.83|28.44|||Cochran-Mantel-Haenszel|||||28.44|0.83|0.044
82658228|NCT01569152|165033012|SUPERIORITY_OR_OTHER||Difference in percentages|31.71||||0.004|TWO_SIDED|95.0|11.29|52.13|||Cochran-Mantel-Haenszel|||||52.13|11.29|0.004
82658229|NCT01569152|165033013|SUPERIORITY_OR_OTHER||Difference in percentages|29.27||||0.007|TWO_SIDED|95.0|8.9|49.63|||Cochran-Mantel-Haenszel|||||49.63|8.90|0.007
82611624|NCT03350750|164940399|SUPERIORITY||ANCOVA Model Effect (Open vs. Closed)|0.22||||0.071|TWO_SIDED|95.0|-0.02|0.46|||ANCOVA||This is the coefficient for an indicator variable comparing the Open versus Closed shunt group, in a linear regression model with Month 4 gait velocity as the outcome and Baseline gait velocity included as a predictor along with treatment.|||0.46|-0.02|0.071
82611625|NCT03350750|164940400|SUPERIORITY|||||||0.337|||||||ANCOVA|||||||0.337
82611626|NCT03350750|164940401|SUPERIORITY|||||||0.007|||||||ANCOVA|||||||0.007
82611627|NCT03350750|164940402|SUPERIORITY|||||||0.201|||||||ANCOVA|||||||0.201
82611628|NCT03350750|164940403|SUPERIORITY|||||||0.172|||||||ANCOVA|||||||0.172
82611629|NCT03350750|164940404|SUPERIORITY|||||||0.78|||||||ANCOVA|||||||0.780
82611630|NCT03350750|164940405|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82611631|NCT03350750|164940406|SUPERIORITY|||||||0.24|||||||t-test, 2 sided|||||||0.240
82611632|NCT03350750|164940407|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
82611633|NCT03350750|164940408|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
82611634|NCT03350750|164940409|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.040
82611635|NCT03350750|164940410|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
82611636|NCT03350750|164940411|SUPERIORITY|||||||0.235|||||||Fisher Exact|Fisher's exact test with a mid-p-value correction||||||0.235
82611637|NCT02433288|164940414|SUPERIORITY_OR_OTHER|||||||0.0019|||||||Log Rank|||||||0.0019
82611638|NCT02433288|164940415|SUPERIORITY_OR_OTHER|||||||0.0017|||||||Chi-squared|||||||0.0017
82611639|NCT02433288|164940416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.24|STANDARD_ERROR_OF_MEAN|3.39|<|0.0001|TWO_SIDED|95.0|-26.91|-13.57|||t-test, 2 sided|||||-13.57|-26.91|<0.0001
82611640|NCT02433288|164940417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|1.6||0.3939|TWO_SIDED|95.0|-4.56|1.8|||t-test, 2 sided|||||1.80|-4.56|0.3939
82611641|NCT02433288|164940418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.63|STANDARD_ERROR_OF_MEAN|1.99||0.7514|TWO_SIDED|95.0|-3.27|4.53|||ANCOVA|linear model including terms for randomized group and baseline LDL-C||||4.53|-3.27|0.7514
82611642|NCT00858702|164940419|SUPERIORITY_OR_OTHER|||||||0.0158||95.0||||No consideration for multiplicity|Fisher Exact|||||||0.0158
82611643|NCT00858702|164940420|SUPERIORITY_OR_OTHER|||||||0.0566||95.0||||No consideration for multiplicity|Fisher Exact|||||||0.0566
82611644|NCT00858702|164940421|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||No consideration for multiplicity|Fisher Exact|||||||<0.001
82611645|NCT01849250|164940432|SUPERIORITY|||||||0.5|||||||ANCOVA|||||||.50
82611646|NCT01849250|164940435|SUPERIORITY|||||||0.19|||||||ANCOVA|||||||.19
82611647|NCT01849250|164940436|SUPERIORITY|||||||0.52|||||||ANOVA|||||||.52
82611648|NCT01849250|164940437|SUPERIORITY|||||||0.12|||||||ANCOVA|||||||.12
82611649|NCT00367640|164940439|SUPERIORITY_OR_OTHER|||||||0.0006|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.0006
82611650|NCT00367640|164940439|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.0001
82611651|NCT00367640|164940439|SUPERIORITY_OR_OTHER|||||||0.4606|TWO_SIDED|||||ANCOVA of the average RTSS, with treatment and pooled sites as factors, and retrospective RTSS, asthma and sensitised status as covariates.|ANCOVA|||A step-down approach is performed to address the multiplicity issue.||||0.4606
82611652|NCT00062738|164940526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.7|||<|0.05|TWO_SIDED|95.0|0.8|15.9|||Fisher Exact|||For the responder analysis, an LOCF approach was used in which a clinical response was operationally defined as at least a 50% reduction in the HAM-D score from baseline to 8 weeks. Clinical response was cross-tabulated with treatment and Fisher exact test was used to distinguish differences among these groups.||15.9|0.8|<.05
82611653|NCT02544984|164940530|SUPERIORITY|||||||0.473|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||The numbers of unscheduled clinic visits due to respiratory symptoms are compared.||||0.473
82611654|NCT02544984|164940530|SUPERIORITY|||||||0.505|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Unscheduled clinic visits due to symptoms other than respiratory symptoms are compared||||0.505
82611655|NCT02544984|164940530|SUPERIORITY|||||||0.047|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Numbers of emergency room visits are compared||||0.047
82611656|NCT02544984|164940530|SUPERIORITY|||||||0.675|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||Numbers of hospital admissions are compared||||0.675
82611657|NCT02544984|164940531|SUPERIORITY|||||||0.435|||||||negative binomial model|negative binomial model adjusting for use of Synagis and tracheostomy||||||0.435
82611658|NCT02075255|164940561|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|33.3|||<|0.001|TWO_SIDED|95.0|16.7|50.0|||Wilcoxon (Mann-Whitney)||Hodges-Lehmann estimate is used.|||50.00|16.70|<0.001
82611659|NCT02075255|164940561|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|37.5|||<|0.001|TWO_SIDED|95.0|20.8|50.0|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||50.00|20.80|<0.001
82611660|NCT02075255|164940562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.09|||<|0.001|TWO_SIDED|95.0|2.22|7.57|||proportional odds model|Controlling for treatment group, region, and baseline OCS dose.||||7.57|2.22|<0.001
82611661|NCT02075255|164940562|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12|||<|0.001|TWO_SIDED|95.0|2.22|7.63|||proportional odds model|Controlling for treatment group, region, and baseline OCS dose.||||7.63|2.22|<0.001
82611662|NCT02075255|164940563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|50.0|||<|0.001|TWO_SIDED|95.0|25.0|66.7|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||66.70|25.00|<0.001
82611663|NCT02075255|164940563|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|50.0|||<|0.001|TWO_SIDED|95.0|25.0|66.7|||Wilcoxon (Mann-Whitney)||Hodges Lehmann estimate is used.|||66.70|25.00|<0.001
82611664|NCT02075255|164940564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.001|TWO_SIDED|95.0|1.79|7.22|||Cochran-Mantel-Haenszel|Controlling for region.||||7.22|1.79|<0.001
82611665|NCT02075255|164940564|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.57|5.86|||Cochran-Mantel-Haenszel|Controlling for region.||||5.86|1.57|<0.001
82611666|NCT02075255|164940565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23|||<|0.001|TWO_SIDED|95.0|1.92|14.21|||Cochran-Mantel-Haenszel|Controlling for region.||||14.21|1.92|<0.001
82611667|NCT02075255|164940565|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.19||||0.002|TWO_SIDED|95.0|1.58|11.12|||Cochran-Mantel-Haenszel|Controlling for region.||||11.12|1.58|0.002
82611668|NCT02075255|164940566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.012|TWO_SIDED|95.0|0.21|0.83|||Cochran-Mantel-Haenszel|Controlling for region.||||0.83|0.21|0.012
82611669|NCT02075255|164940566|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.053|TWO_SIDED|95.0|0.27|1.01|||Cochran-Mantel-Haenszel|Controlling for region.||||1.01|0.27|0.053
82611670|NCT02075255|164940567|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.16|||<|0.001|TWO_SIDED|95.0|1.6|6.23|||Cochran-Mantel-Haenszel|Controlling for region.||||6.23|1.60|<0.001
82611671|NCT02075255|164940567|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.74||||0.002|TWO_SIDED|95.0|1.41|5.31|||Cochran-Mantel-Haenszel|Controlling for region.||||5.31|1.41|0.002
82611672|NCT02075255|164940568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.001|TWO_SIDED|95.0|0.16|0.65|||Cochran-Mantel-Haenszel|Controlling for region.||||0.65|0.16|0.001
82611673|NCT02075255|164940568|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.28|||<|0.001|TWO_SIDED|95.0|0.14|0.56|||Cochran-Mantel-Haenszel|Controlling for region.||||0.56|0.14|<0.001
82611674|NCT02075255|164940569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.22|0.66|||Regression, Cox|Including covariates treatment group, region, number of exacerbations in the previous year.||||0.66|0.22|<0.001
82611675|NCT02075255|164940569|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.32|||<|0.001|TWO_SIDED|95.0|0.17|0.57|||Regression, Cox|Including covariates treatment group, region, number of exacerbations in the previous year.||||0.57|0.17|<0.001
82611676|NCT02075255|164940570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.291|TWO_SIDED|95.0|0.14|1.64|||Regression, Cox|Including covariates treatment group, region, any exacerbations in the previous year requiring hospitalization or ER visit.||||1.64|0.14|0.291
82611677|NCT02075255|164940570|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.12||||0.042|TWO_SIDED|95.0|0.01|0.63|||Regression, Cox|Including covariates treatment group, region, any exacerbations in the previous year requiring hospitalization or ER visit.||||0.63|0.01|0.042
82611678|NCT02075255|164940571|SUPERIORITY_OR_OTHER||Rate ratio|0.45||||0.003|TWO_SIDED|95.0|0.27|0.76|||negative binomial model|Including covariates treatment group, region, number of exacerbations in the previous year. The log of follow-up time is used as offset variable.||||0.76|0.27|0.003
82611679|NCT02075255|164940571|SUPERIORITY_OR_OTHER||Rate ratio|0.3|||<|0.001|TWO_SIDED|95.0|0.17|0.53|||negative binomial model|Including covariates treatment group, region, number of exacerbations in the previous year. The log of follow-up time is used as offset variable.||||0.53|0.17|<0.001
82611680|NCT02075255|164940572|SUPERIORITY_OR_OTHER||Rate ratio|0.44||||0.187|TWO_SIDED|95.0|0.13|1.49|||negative binomial model|Covariates include treatment, region, any exacerbations in the previous year requiring hospitalization/ER. Log of follow-up time is the offset.||||1.49|0.13|0.187
82611681|NCT02075255|164940572|SUPERIORITY_OR_OTHER||Rate ratio|0.07||||0.018|TWO_SIDED|95.0|0.01|0.63|||negative binomial model|Covariates include treatment, region, any exacerbations in the previous year requiring hospitalization/ER. Log of follow-up time is the offset.||||0.63|0.01|0.018
82611682|NCT02075255|164940574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.105||||0.153|TWO_SIDED|95.0|-0.04|0.251|||Mixed Models Analysis|Including covariates: treatment group, region, baseline pre-BD FEV1 value, visit, and visit by treatment interaction.||||0.251|-0.040|0.153
82611683|NCT02075255|164940574|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112||||0.129|TWO_SIDED|95.0|-0.033|0.258|||Mixed Models Analysis|Including covariates: treatment group, region, baseline pre-BD FEV1 value, visit, and visit by treatment interaction.||||0.258|-0.033|0.129
82611684|NCT02075255|164940575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.947|TWO_SIDED|95.0|-0.35|0.32|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.32|-0.35|0.947
82611685|NCT02075255|164940575|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.291|TWO_SIDED|95.0|-0.51|0.16|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.16|-0.51|0.291
82611686|NCT02075255|164940576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.18|0.18|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.18|-0.18|0.998
82611687|NCT02075255|164940576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.177|TWO_SIDED|95.0|-0.3|0.05|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.05|-0.30|0.177
82611688|NCT02075255|164940577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.973|TWO_SIDED|95.0|-0.17|0.17|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.17|-0.17|0.973
82611689|NCT02075255|164940577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.48|TWO_SIDED|95.0|-0.23|0.11|||Mixed Models Analysis|Include covariates: treatment group, baseline asthma symptom score, region, visit, and treatment by visit interaction.||||0.11|-0.23|0.480
82611690|NCT02075255|164940578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.397|TWO_SIDED|95.0|-1.44|0.57|||Mixed Models Analysis|Include covariates: treatment group, baseline total asthma rescue medication use, region, visit, and treatment by visit interaction.||||0.57|-1.44|0.397
82611691|NCT02075255|164940578|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.41||||0.006|TWO_SIDED|95.0|-2.42|-0.41|||Mixed Models Analysis|Include covariates: treatment group, baseline total asthma rescue medication use, region, visit, and treatment by visit interaction.||||-0.41|-2.42|0.006
82611692|NCT02075255|164940579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.25||||0.143|TWO_SIDED|95.0|-6.58|45.07|||Mixed Models Analysis|Include covariates: treatment group, baseline morning PEF, region, visit, and treatment by visit interaction.||||45.07|-6.58|0.143
82611693|NCT02075255|164940579|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.01||||0.023|TWO_SIDED|95.0|4.26|55.76|||Mixed Models Analysis|Include covariates: treatment group, baseline morning PEF, region, visit, and treatment by visit interaction.||||55.76|4.26|0.023
82611694|NCT02075255|164940580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.19||||0.237|TWO_SIDED|95.0|-10.08|40.46|||Mixed Models Analysis|Include covariates: treatment group, baseline evening PEF, region, visit, and treatment by visit interaction.||||40.46|-10.08|0.237
82611695|NCT02075255|164940580|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.52||||0.014|TWO_SIDED|95.0|6.32|56.71|||Mixed Models Analysis|Include covariates: treatment group, baseline evening PEF, region, visit, and treatment by visit interaction.||||56.71|6.32|0.014
82611696|NCT02075255|164940581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.02||||0.742|TWO_SIDED|95.0|-0.08|0.11|||Mixed Models Analysis|Including covariates: treatment group, baseline proportion of nights with noctural awakenings, region, visit, and treatment by visit interaction.||||0.11|-0.08|0.742
82611697|NCT02075255|164940581|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.693|TWO_SIDED|95.0|-0.11|0.07|||Mixed Models Analysis|Including covariates: treatment group, baseline proportion of nights with noctural awakenings, region, visit, and treatment by visit interaction.||||0.07|-0.11|0.693
82611698|NCT02075255|164940582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.24||||0.139|TWO_SIDED|95.0|-0.55|0.08|||Mixed Models Analysis|Include covariates: treatment group, baseline ACQ-6 score, region, visit, and treatment by visit interaction.||||0.08|-0.55|0.139
82611699|NCT02075255|164940582|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.001|TWO_SIDED|95.0|-0.86|-0.23|||Mixed Models Analysis|Include covariates: treatment group, baseline ACQ-6 score, region, visit, and treatment by visit interaction.||||-0.23|-0.86|0.001
82611700|NCT02075255|164940583|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.165||||0.658|TWO_SIDED|95.0|0.592|2.295|||Regression, Logistic|Including covariates: treatment group, baseline ACQ-6 score, region, number of exacerbations in the previous year.||||2.295|0.592|0.658
82611701|NCT02075255|164940583|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.661||||0.155|TWO_SIDED|95.0|0.826|3.34|||Regression, Logistic|Including covariates: treatment group, baseline ACQ-6 score, region, number of exacerbations in the previous year.||||3.340|0.826|0.155
82611702|NCT02075255|164940584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.151|TWO_SIDED|95.0|-0.08|0.53|||Mixed Models Analysis|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, visit, and treatment by visit interaction.||||0.53|-0.08|0.151
82611703|NCT02075255|164940584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.004|TWO_SIDED|95.0|0.14|0.76|||Mixed Models Analysis|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, visit, and treatment by visit interaction.||||0.76|0.14|0.004
82611704|NCT02075255|164940585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.538||||0.22|TWO_SIDED|95.0|0.773|3.06|||Regression, Logistic|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, number of exacerbations in the previous year.||||3.060|0.773|0.220
82611705|NCT02075255|164940585|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.783||||0.108|TWO_SIDED|95.0|0.882|3.605|||Regression, Logistic|Including covariates: treatment group, region, baseline AQLQ(S)+12 score, number of exacerbations in the previous year.||||3.605|0.882|0.108
82611706|NCT02075255|164940589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-162.2|||<|0.001|TWO_SIDED|95.0|-220.1|-104.3|||Mixed Models Analysis|Include covariates: treatment group, baseline eosinophil count, region, visit, treatment by visit|Percent change|||-104.3|-220.1|<0.001
82611707|NCT02075255|164940589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-159.4|||<|0.001|TWO_SIDED|95.0|-217.9|-100.9|||Mixed Models Analysis|Include covariates: treatment group, baseline eosinophil count, region, visit, treatment by visit.|Percent change|||-100.9|-217.9|<0.001
82611708|NCT01748760|164940638|SUPERIORITY_OR_OTHER|||||||0.87|TWO_SIDED||||||Chi-squared|||||||.87
82611709|NCT03245814|164940639|SUPERIORITY||Odds Ratio (OR)|0.22|||<|0.001|TWO_SIDED|95.0|0.12|0.42|||Ordinal cumulative probability model|Covariates included baseline score \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.42|0.12|<.001
82611710|NCT03245814|164940640|SUPERIORITY||Odds Ratio (OR)|0.21|||<|0.001|TWO_SIDED|95.0|0.11|0.4|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.40|0.11|<.001
82611711|NCT03245814|164940641|SUPERIORITY||Odds Ratio (OR)|0.45||||0.02|TWO_SIDED|95.0|0.23|0.86|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.86|0.23|.02
82611712|NCT03245814|164940642|SUPERIORITY||Odds Ratio (OR)|0.25|||<|0.001|TWO_SIDED|95.0|0.13|0.5|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.50|0.13|<.001
82611713|NCT03245814|164940643|SUPERIORITY||Odds Ratio (OR)|0.34||||0.001|TWO_SIDED|95.0|0.18|0.64|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.64|0.18|.001
82611714|NCT03245814|164940644|SUPERIORITY||Odds Ratio (OR)|2.83||||0.003|TWO_SIDED|95.0|1.47|5.45|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||5.45|1.47|.003
82611715|NCT03245814|164940645|SUPERIORITY||Odds Ratio (OR)|0.24|||<|0.001|TWO_SIDED|95.0|0.12|0.48|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.48|0.12|<.001
82611716|NCT03245814|164940646|SUPERIORITY||Odds Ratio (OR)|3.84|||<|0.001|TWO_SIDED|95.0|2.0|7.38|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||7.38|2.00|<.001
82611717|NCT03245814|164940647|SUPERIORITY||Odds Ratio (OR)|4.49|||<|0.001|TWO_SIDED|95.0|2.28|8.83|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||8.83|2.28|<.001
82611718|NCT03245814|164940648|SUPERIORITY||Odds Ratio (OR)|3.73|||<|0.001|TWO_SIDED|95.0|1.88|7.4|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||7.40|1.88|<.001
82611719|NCT03245814|164940649|SUPERIORITY||Odds Ratio (OR)|2.33||||0.02|TWO_SIDED|95.0|1.22|4.47|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||4.47|1.22|.02
82658230|NCT01569152|165033014|SUPERIORITY_OR_OTHER||Difference in percentages|9.76||||0.039|TWO_SIDED|95.0|0.67|18.84|||Cochran-Mantel-Haenszel|||||18.84|0.67|0.039
82611720|NCT03245814|164940650|SUPERIORITY||Odds Ratio (OR)|0.39||||0.009|TWO_SIDED|95.0|0.2|0.75|||Ordinal cumulative probability model|Covariates included baseline scores \& demographic/clinical characteristics. Multiple imputation was used to account for uncertainty (missingness).||||0.75|0.20|.009
82611721|NCT03245814|164940651|SUPERIORITY||Slope|0.42|STANDARD_ERROR_OF_MEAN|0.14||0.002|TWO_SIDED||||||Mixed Models Analysis|Mixed effects regression models to account for repeated measures (multiple assessments per day) within individuals.||||||0.002
82611722|NCT00510692|164940664|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06||||0.005|TWO_SIDED|95.0|-1.78|-0.35|||ANCOVA|||||-0.35|-1.78|0.005
82611723|NCT01765712|164940672|SUPERIORITY||Mean Difference (Final Values)|0.48||||0.55|TWO_SIDED|95.0|-1.99|1.03|||t-test, 2 sided|||||1.03|-1.99|0.55
82611724|NCT01845077|164940677|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.3|||||TWO_SIDED|90.0|95.3|103.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.5|95.3|
82611725|NCT01845077|164940677|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|101.5|||||TWO_SIDED|90.0|98.4|104.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||One patient was excluded from this analysis due to the lack of the 72h sample for the L+M1000 fed treatment.||104.7|98.4|
82611726|NCT01845077|164940677|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|100.9|||||TWO_SIDED|90.0|98.2|103.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.7|98.2|
82611727|NCT01845077|164940678|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|94.9|||||TWO_SIDED|90.0|86.8|103.6|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.6|86.8|
82611728|NCT01845077|164940678|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.8|||||TWO_SIDED|90.0|90.2|103.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.8|90.2|
82492605|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.414||0.8|TWO_SIDED|95.0|-0.92|0.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.71|-0.92|0.800
82611729|NCT01845077|164940678|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|108.6||||||90.0|99.5|118.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||118.5|99.5|
82611730|NCT01845077|164940679|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|103.7|||||TWO_SIDED|90.0|97.1|110.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||110.8|97.1|
82611731|NCT01845077|164940679|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|105.3|||||TWO_SIDED|90.0|99.9|111.0|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||111.0|99.9|
82611732|NCT01845077|164940679|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.9|||||TWO_SIDED|90.0|90.2|104.1|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||104.1|90.2|
82611733|NCT01845077|164940680|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.9|||||TWO_SIDED|90.0|86.8|108.2|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||108.2|86.8|
82611734|NCT01845077|164940680|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.7|||||TWO_SIDED|90.0|96.1|103.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.5|96.1|
82611735|NCT01845077|164940680|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|95.9|||||TWO_SIDED|90.0|86.7|106.0|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||106.0|86.7|
82611736|NCT01845077|164940681|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.8|||||TWO_SIDED|90.0|86.6|108.2|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||108.2|86.6|
82658231|NCT01569152|165033015|SUPERIORITY_OR_OTHER||Difference in percentages|12.2||||0.018|TWO_SIDED|95.0|2.18|22.21|||Cochran-Mantel-Haenszel|||||22.21|2.18|0.018
82611737|NCT01845077|164940681|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.4|||||TWO_SIDED|90.0|95.6|103.4|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||103.4|95.6|
82611738|NCT01845077|164940681|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|99.3|||||TWO_SIDED|90.0|90.1|109.5|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||109.5|90.1|
82611739|NCT01845077|164940682|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|96.5|||||TWO_SIDED|90.0|84.8|109.8|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||109.8|84.8|
82611740|NCT01845077|164940682|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|103.2|||||TWO_SIDED|90.0|98.9|107.7|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||107.7|98.9|
82611741|NCT01845077|164940682|NON_INFERIORITY_OR_EQUIVALENCE|Standard acceptance criterion for bioequivalence: 90% confidence interval is completely within the bounds of 80-125%. No formal hypothesis test was conducted as study is exploratory.|Ratio of geometric means|107.7|||||TWO_SIDED|90.0|92.5|125.4|||ANOVA|ANOVA on the logarithmic scale, adjusted for subjects within sequences as random effect and sequence, period and treatment as fixed effects.||||125.4|92.5|
82611742|NCT01004107|164940683|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||< 0.0001
82611743|NCT01004107|164940684|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82611744|NCT01004107|164940685|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82611745|NCT01004107|164940686|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82611746|NCT01004107|164940689|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611747|NCT01004107|164940690|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82611748|NCT00394914|164940700|SUPERIORITY_OR_OTHER|||||||0.973|||||||Cochran-Mantel-Haenszel|||||||0.973
82611749|NCT00394914|164940701|SUPERIORITY_OR_OTHER|||||||0.425|||||||Cochran-Mantel-Haenszel|||||||0.425
82611750|NCT00872898|164940728|SUPERIORITY_OR_OTHER||Least squares mean difference|-2.2||||0.1197|TWO_SIDED|95.0|-4.9|0.6|||mixed-model for repeated measures|||||0.6|-4.9|0.1197
82611751|NCT00872898|164940729|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.9781|TWO_SIDED|95.0|-7.2|7.0|||mixed-model for repeated measures|||||7.0|-7.2|0.9781
82611752|NCT00872898|164940730|SUPERIORITY_OR_OTHER||Least squares mean difference|-1.4||||0.1459|TWO_SIDED|95.0|-3.2|0.5|||mixed-model for repeated measures|||||0.5|-3.2|0.1459
82492606|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|0.413||0.113|TWO_SIDED|95.0|-0.16|1.47|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||1.47|-0.16|0.113
82611753|NCT00872898|164940731|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.8||||0.1344|TWO_SIDED|95.0|-1.9|0.3|||mixed-model for repeated measures|||||0.3|-1.9|0.1344
82611754|NCT00872898|164940732|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.7|TWO_SIDED|95.0|-1.5|1.0|||mixed-model for repeated measures|||||1.0|-1.5|0.7000
82611755|NCT00872898|164940733|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.1||||0.9069|TWO_SIDED|95.0|-1.3|1.1|||mixed-model for repeated measures|||||1.1|-1.3|0.9069
82611756|NCT00872898|164940734|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.3||||0.4679|TWO_SIDED|95.0|-1.2|0.6|||mixed-model for repeated measures|||||0.6|-1.2|0.4679
82611757|NCT00872898|164940735|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9598|TWO_SIDED|95.0|-1.3|1.3|||mixed-model for repeated measures|||||1.3|-1.3|0.9598
82611758|NCT00872898|164940736|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.9898|TWO_SIDED|95.0|-1.3|1.3|||mixed-model for repeated measures|||||1.3|-1.3|0.9898
82611759|NCT00872898|164940737|SUPERIORITY_OR_OTHER||Least squares mean difference|0.5||||0.4228|TWO_SIDED|95.0|-0.7|1.6|||mixed-model for repeated measures|||||1.6|-0.7|0.4228
82611760|NCT00872898|164940738|SUPERIORITY_OR_OTHER||Least squares mean difference|1.4||||0.0201|TWO_SIDED|95.0|0.2|2.5|||mixed-model for repeated measures|||||2.5|0.2|0.0201
82611761|NCT00872898|164940739|SUPERIORITY_OR_OTHER||Least squares mean difference|-0.2||||0.6889|TWO_SIDED|95.0|-1.3|0.9|||mixed-model for repeated measures|||||0.9|-1.3|0.6889
82611762|NCT00872898|164940740|SUPERIORITY_OR_OTHER||Least squares mean difference|0.2||||0.7481|TWO_SIDED|95.0|-0.9|1.2|||mixed-model for repeated measures|||||1.2|-0.9|0.7481
82492607|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|STANDARD_ERROR_OF_MEAN|0.414||0.064|TWO_SIDED|95.0|-1.59|0.05|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.05|-1.59|0.064
82611763|NCT00872898|164940741|SUPERIORITY_OR_OTHER||Least squares mean difference|0.0||||0.95|TWO_SIDED|95.0|-1.2|1.1|||mixed-model for repeated measures|||||1.1|-1.2|0.9500
82611764|NCT02099799|164940749|SUPERIORITY||Mean Difference (Final Values)|-12.0||||0.189|TWO_SIDED||||||Mixed Models Analysis|||||||0.189
82611765|NCT02099799|164940750|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.572|TWO_SIDED||||||Mixed Models Analysis|||||||0.572
82611766|NCT02099799|164940751|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.799|TWO_SIDED||||||Mixed Models Analysis|||||||0.799
82611767|NCT02099799|164940752|SUPERIORITY||Mean Difference (Final Values)|1312.0|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82611768|NCT02099799|164940753|SUPERIORITY|||||||0.2265|||||||t-test, 2 sided|||||||0.2265
82611769|NCT02099799|164940754|SUPERIORITY|||||||0.8897|||||||t-test, 2 sided|||||||0.8897
82611770|NCT03290300|164940758|OTHER||||||<|0.0001||||||The pre-specified threshold for statistical significance was p\<0.05.|ANOVA|Repeated measures ANOVA with multiple comparisons to baseline||||||<0.0001
82611771|NCT02179398|164940766|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Chi-squared|||||||1
82611772|NCT02179398|164940767|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|95.0|||||Chi-squared|||||||1
82611773|NCT02179398|164940768|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|95.0|||||Chi-squared|||Power calculation suggested 97 patients should be enrolled in each group to give 80% power at the 5% level of significance to detect a 20% difference in antibiotic prescription rate||||0.810
82611774|NCT02519231|164940774|SUPERIORITY||Mean Difference (Net)|-1.76|STANDARD_ERROR_OF_MEAN|5.0||0.11|TWO_SIDED|95.0||||The threshold for statistical significance was p =0.05|t-test, 2 sided|For days with bleeding/spotting outcomes, we used independent t-tests to compare the unadjusted mean difference between groups.|Treatment Difference = Naproxen - Placebo|We originally planned to enroll 60 subjects based on other similar studies that evaluated treatment for bleeding among women using contraception; as reported by Cohen et al., a sample size of 42 provided 80% power to detect a difference of 7 bleeding/spotting days in 30 days by two-sample t-test, allowing for an expected 20% drop-out.|We designed the study to include another site, in addition to the UW site enrolled participants. After 6 months of failed active recruitment at the other site, we discontinued that site from the study. Resources did not permit us to contract with an alternative recruitment site, and thus the protocol was revised to enroll 32 participants at the Seattle site only.|||.11
82611775|NCT02519231|164940775|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82611776|NCT01240811|164940803|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
82611777|NCT01240811|164940803|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
82658232|NCT01569152|165033018|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.75||||0.028|TWO_SIDED|95.0|-8.99|-0.52|||Constrained Longitudinal Data Analysis|||||-0.52|-8.99|0.028
82658233|NCT01569152|165033019|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.65||||0.11|TWO_SIDED|95.0|-5.91|0.62|||Constrained Longitudinal Data Analysis|||||0.62|-5.91|0.110
82658234|NCT01569152|165033020|SUPERIORITY_OR_OTHER||Difference in least squares means|-10.56||||0.002|TWO_SIDED|95.0|-16.97|-4.15|||Constrained Longitudinal Data Analysis|||||-4.15|-16.97|0.002
82611778|NCT01240811|164940804|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|||Difference in paired change in Nugent score from baseline to 2 months||||0.08
82492608|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.368||0.972|TWO_SIDED|95.0|-0.74|0.71|||Mixed Models Analysis|||Week 4||0.71|-0.74|0.972
82492609|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.368||0.44|TWO_SIDED|95.0|-0.44|1.01|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||1.01|-0.44|0.440
82611779|NCT01240811|164940805|SUPERIORITY|||||||0.46|||||||Kruskal-Wallis|||Change in quantity of H2O2 producing Lactobacilli species by qPCR||||0.46
82611780|NCT01240811|164940805|SUPERIORITY|||||||0.62|||||||Kruskal-Wallis|||Change in quantity of Garnerella vaginalis species by qPCR||||0.62
82611781|NCT02316470|164940822|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611782|NCT02316470|164940822|SUPERIORITY_OR_OTHER|||||||0.0261|||||||Cochran-Mantel-Haenszel|||||||0.0261
82611783|NCT02316470|164940822|SUPERIORITY_OR_OTHER|||||||0.0364|||||||Cochran-Mantel-Haenszel|||||||0.0364
82611784|NCT02316470|164940822|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611785|NCT02316470|164940822|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611786|NCT02316470|164940822|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611787|NCT02316470|164940822|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82611788|NCT02316470|164940823|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was \<0.0001 at each time point (Day 14, 28, 35, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
82611789|NCT02316470|164940824|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was \<0.0001 at each time point (Day 14, 28, 35, 56, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
82611790|NCT02316470|164940825|SUPERIORITY_OR_OTHER||||||<|0.0001||||||the p-value was \<0.0001 at each time point (Day 14, 28, 35, 56, 120, 210)|Fisher-Freeman-Halton Test|||statistical test was applied across all treatment groups at each of the listed time points.||||<0.0001
82611791|NCT04011436|164940946|SUPERIORITY|In the bivariate analysis, a comparison was initially made of each of the domains of the Kujala test, for the assessment of pain at baseline, assessing the differences between the intervention groups using the chi-square or Fisher's exact tests. The Spearman correlation coefficient was used to evaluate the relationship between two continuous variables, such as Q angle and anterior knee pain, assessing the correlation marginally and conditionally on each of the treatment groups.|difference in frequency distribution|0.05|||<|0.05|TWO_SIDED|95.0|0.025|0.05|||Fisher Exact|we also used Chi-squared for the domains of pain and limp.||||0.05|0.025|<0.05
82658235|NCT01569152|165033023|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.84|||<|0.001|TWO_SIDED|95.0|-29.98|-11.71|||Constrained Longitudinal Data Analysis|||||-11.71|-29.98|<0.001
82658236|NCT01569152|165033024|SUPERIORITY_OR_OTHER||Difference in least squares means|-19.48|||<|0.001|TWO_SIDED|95.0|-29.69|-9.28|||Constrained Longitudinal Data Analysis|||||-9.28|-29.69|<0.001
82658237|NCT01569152|165033025|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.69|||<|0.001|TWO_SIDED|95.0|-31.29|-10.09|||Constrained Longitudinal Data Analysis|||||-10.09|-31.29|<0.001
82658238|NCT01569152|165033026|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62|||<|0.001|TWO_SIDED|95.0|-0.84|-0.4|||Constrained Longitudinal Data Analysis|||||-0.40|-0.84|< 0.001
82658239|NCT01569152|165033027|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.59||||0.007|TWO_SIDED|95.0|-2.73|-0.45|||Constrained Longitudinal Data Analysis|||||-0.45|-2.73|0.007
82658240|NCT01569152|165033028|SUPERIORITY_OR_OTHER||Difference in least squares means|-4.9||||0.315|TWO_SIDED|95.0|-14.54|4.74|||Constrained Longitudinal Data Analysis|||||4.74|-14.54|0.315
82658241|NCT01569152|165033030|SUPERIORITY_OR_OTHER||Difference in percentages|31.71|||<|0.001|TWO_SIDED|95.0|15.56|47.86|||Cochran-Mantel-Haenszel|||||47.86|15.56|<0.001
82611792|NCT04011436|164940947|SUPERIORITY|For the analysis of the differences in medians between the groups, taking into account that the outcomes did not present a normal distribution, and assuming the assumption of independence of the variables, the non-parametric Mann-Whitney U test was used.|Median Difference (Final Values)|0.058|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated Value was done for the assessment of change in pain with Visual Analogue Scale.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
82611793|NCT04011436|164940948|SUPERIORITY||Median Difference (Final Values)|0.75|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated value was calculated for Change in Patellofemoral Misalignment With Q Angle´s Exam.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
82611794|NCT04011436|164940949|SUPERIORITY||Median Difference (Final Values)|0.001|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated Value was calculated for the change in core strength with McGill´s Exam.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
82611795|NCT04011436|164940950|SUPERIORITY||Median Difference (Final Values)|0.67|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||"Estimated value was calculated for the change in Quadriceps and Gluteus Strength With Squat´s Test.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||||<0.05
82611796|NCT04011436|164940951|SUPERIORITY||Median Difference (Final Values)|0.55|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||"Estimated value was calculated for the change in Static Balance with Single Leg Stance.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||<0.05
82611797|NCT04011436|164940952|SUPERIORITY||Median Difference (Final Values)|0.492|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||"Estimated value was calculated for the change in the total amount of Physical Activity reported in minutes.~The dispersion parameter that was calculated were interquartile ranges for the differences in medians between groups."|||<0.05
82611798|NCT04760314|164940953|SUPERIORITY||Risk Difference (RD)|22.6|||<|0.001|TWO_SIDED|95.0|11.6|33.6|||Cochran-Mantel-Haenszel|||||33.6|11.6|<0.001
82611799|NCT04760314|164940953|SUPERIORITY||Risk Difference (RD)|27.3|||<|0.001|TWO_SIDED|95.0|17.5|37.0|||Cochran-Mantel-Haenszel|||||37.0|17.5|<0.001
82611800|NCT04760314|164940954|SUPERIORITY||Risk Difference (RD)|33.2|||<|0.001|TWO_SIDED|95.0|20.6|45.8|||Cochran-Mantel-Haenszel|||||45.8|20.6|<0.001
82611801|NCT04760314|164940954|SUPERIORITY||Risk Difference (RD)|37.6|||<|0.001|TWO_SIDED|95.0|26.2|49.0|||Cochran-Mantel-Haenszel|||||49.0|26.2|<0.001
82611802|NCT04760314|164940955|SUPERIORITY||LS Mean Difference|-34.5|||<|0.001|TWO_SIDED|95.0|-44.1|-24.9|||ANCOVA|||||-24.9|-44.1|<0.001
82611803|NCT04760314|164940955|SUPERIORITY||LS Mean Difference|-38.99|||<|0.001|TWO_SIDED|95.0|-47.7|-30.3|||ANCOVA|||||-30.3|-47.7|<0.001
82611804|NCT04760314|164940956|SUPERIORITY||Risk Difference (RD)|18.4||||0.003|TWO_SIDED|95.0|6.8|29.9|||Cochran-Mantel-Haenszel|||||29.9|6.8|0.003
82492610|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.369||0.311|TWO_SIDED|95.0|-1.1|0.35|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.35|-1.10|0.311
82611805|NCT04760314|164940956|SUPERIORITY||Risk Difference (RD)|24.2|||<|0.001|TWO_SIDED|95.0|13.9|34.5|||Cochran-Mantel-Haenszel|||||34.5|13.9|<0.001
82611806|NCT04760314|164940957|SUPERIORITY||Risk Difference (RD)|1.2||||0.404|TWO_SIDED|95.0|-1.2|3.6|||Cochran-Mantel-Haenszel|||||3.6|-1.2|0.404
82611807|NCT04760314|164940958|SUPERIORITY||Risk Difference (RD)|1.8||||0.294|TWO_SIDED|95.0|-1.6|5.1|||Cochran-Mantel-Haenszel|||||5.1|-1.6|0.294
82611808|NCT04760314|164940958|SUPERIORITY||Risk Difference (RD)|3.7||||0.138|TWO_SIDED|95.0|-0.5|7.8|||Cochran-Mantel-Haenszel|||||7.8|-0.5|0.138
82611809|NCT04760314|164940959|SUPERIORITY||Risk Difference (RD)|9.2||||0.013|TWO_SIDED|95.0|1.8|16.5|||Cochran-Mantel-Haenszel|||||16.5|1.8|0.013
82611810|NCT04760314|164940959|SUPERIORITY||Risk Difference (RD)|16.2||||0.001|TWO_SIDED|95.0|8.1|24.3|||Cochran-Mantel-Haenszel|||||24.3|8.1|0.001
82611811|NCT04760314|164940960|SUPERIORITY||Risk Difference (RD)|20.6||||0.001|TWO_SIDED|95.0|8.7|32.4|||Cochran-Mantel-Haenszel|||||32.4|8.7|0.001
82611812|NCT04760314|164940960|SUPERIORITY||Risk Difference (RD)|29.2|||<|0.001|TWO_SIDED|95.0|17.9|40.4|||Cochran-Mantel-Haenszel|||||40.4|17.9|<0.001
82611813|NCT02345161|164940989|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|0.171|STANDARD_ERROR_OF_MEAN|0.0118|<|0.001|TWO_SIDED|95.0|0.148|0.194|||Mixed Model Repeated Measures|||||0.194|0.148|<0.001
82611814|NCT02345161|164940990|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|0.179|STANDARD_ERROR_OF_MEAN|0.0242|<|0.001|TWO_SIDED|95.0|0.131|0.226|||Mixed Model Repeated Measures|||||0.226|0.131|<0.001
82611815|NCT02345161|164940991|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|-2.2|STANDARD_ERROR_OF_MEAN|0.64|<|0.001|TWO_SIDED|95.0|-3.5|-1.0|||Mixed Model Repeated Measures|||||-1.0|-3.5|<0.001
82611816|NCT02345161|164940992|SUPERIORITY_OR_OTHER||Adjusted LS mean difference|-2.7|STANDARD_ERROR_OF_MEAN|1.44||0.065|TWO_SIDED|95.0|-5.5|0.2|||Mixed Model Repeated Measures|||||0.2|-5.5|0.065
82611817|NCT02345161|164940993|SUPERIORITY_OR_OTHER||LS Mean difference|0.57|STANDARD_ERROR_OF_MEAN|0.138|<|0.001|TWO_SIDED|95.0|0.3|0.84|||Mixed effect repeated measures model|||||0.84|0.30|<0.001
82611818|NCT02345161|164940994|SUPERIORITY_OR_OTHER||LS Mean difference|0.34|STANDARD_ERROR_OF_MEAN|0.317||0.279|TWO_SIDED|95.0|-0.28|0.97|||Mixed effect repeated measures model|||||0.97|-0.28|0.279
82611819|NCT02345161|164940995|SUPERIORITY_OR_OTHER||LS Mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.817|TWO_SIDED|95.0|-0.9|1.1|||ANCOVA|||||1.1|-0.9|0.817
82611820|NCT02345161|164940996|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.767|TWO_SIDED|95.0|-2.1|1.6|||ANCOVA|||||1.6|-2.1|0.767
82611821|NCT02345161|164940997|SUPERIORITY_OR_OTHER||Rate ratio|0.65||||0.002|TWO_SIDED|95.0|0.49|0.86|||Generalized linear modeL|Generalized linear model assuming a negative binomial distribution||||0.86|0.49|0.002
82611822|NCT02345161|164940998|SUPERIORITY_OR_OTHER||Rate ratio|0.56||||0.006|TWO_SIDED|95.0|0.37|0.85|||Generalized Linear model|Generalized linear model assuming a negative binomial distribution||||0.85|0.37|0.006
82611823|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.15|<|0.001|TWO_SIDED|95.0|-1.25|-0.66|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 1-4|||-0.66|-1.25|<0.001
82611824|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.183|<|0.001|TWO_SIDED|95.0|-1.59|-0.87|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 5-8|||-0.87|-1.59|<0.001
82611825|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-1.18|STANDARD_ERROR_OF_MEAN|0.201|<|0.001|TWO_SIDED|95.0|-1.57|-0.78|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 9-12|||-0.78|-1.57|<0.001
82611826|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-1.33|STANDARD_ERROR_OF_MEAN|0.213|<|0.001|TWO_SIDED|95.0|-1.75|-0.91|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 13-16|||-0.91|-1.75|<0.001
82611827|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-1.41|STANDARD_ERROR_OF_MEAN|0.223|<|0.001|TWO_SIDED|95.0|-1.85|-0.97|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 17-20|||-0.97|-1.85|<0.001
82611828|NCT02345161|164940999|SUPERIORITY_OR_OTHER||Mixed Model Repeated Measures|-1.35|STANDARD_ERROR_OF_MEAN|0.224|<|0.001|TWO_SIDED|95.0|-1.79|-0.91|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 21-24|||-0.91|-1.79|<0.001
82611829|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.08|<|0.001|TWO_SIDED|95.0|-0.67|-0.36|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 1-4|||-0.36|-0.67|<0.001
82611830|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.098|<|0.001|TWO_SIDED|95.0|-0.88|-0.5|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 5-8|||-0.50|-0.88|<0.001
82611831|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.69|STANDARD_ERROR_OF_MEAN|0.108|<|0.001|TWO_SIDED|95.0|-0.9|-0.48|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 9-12|||-0.48|-0.90|<0.001
82611832|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.75|STANDARD_ERROR_OF_MEAN|0.115|<|0.001|TWO_SIDED|95.0|-0.97|-0.52|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 13-16|||-0.52|-0.97|<0.001
82611833|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-1.03|-0.56|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 17-20|||-0.56|-1.03|<0.001
82611834|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.77|STANDARD_ERROR_OF_MEAN|0.122|<|0.001|TWO_SIDED|95.0|-1.01|-0.54|||Mixed Model Repeated Measures||Breathlessness EXACT-RS Score, Week 21-24|||-0.54|-1.01|<0.001
82611835|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.044|<|0.001|TWO_SIDED|95.0|-0.26|-0.09|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 1-4|||-0.09|-0.26|<0.001
82611836|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.053|<|0.001|TWO_SIDED|95.0|-0.31|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 5-8|||-0.10|-0.31|<0.001
82492611|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.629||0.501|TWO_SIDED|95.0|-1.66|0.82|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.82|-1.66|0.501
82611837|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.058||0.004|TWO_SIDED|95.0|-0.28|-0.05|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 9-12|||-0.05|-0.28|0.004
82611838|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.22|STANDARD_ERROR_OF_MEAN|0.061|<|0.001|TWO_SIDED|95.0|-0.34|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 13-16|||-0.10|-0.34|<0.001
82611839|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.24|STANDARD_ERROR_OF_MEAN|0.064|<|0.001|TWO_SIDED|95.0|-0.36|-0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 17-20|||-0.11|-0.36|<0.001
82611840|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.065|<|0.001|TWO_SIDED|95.0|-0.35|-0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS Score, Week 21-24|||-0.10|-0.35|<0.001
82611841|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.049|<|0.001|TWO_SIDED|95.0|-0.37|-0.18|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 1-4|||-0.18|-0.37|<0.001
82611842|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.06|<|0.001|TWO_SIDED|95.0|-0.46|-0.23|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 5-8|||-0.23|-0.46|<0.001
82611843|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.34|STANDARD_ERROR_OF_MEAN|0.066|<|0.001|TWO_SIDED|95.0|-0.47|-0.21|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 9-12|||-0.21|-0.47|<0.001
82611844|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.068|<|0.001|TWO_SIDED|95.0|-0.51|-0.25|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 13-16|||-0.25|-0.51|<0.001
82611845|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.071|<|0.001|TWO_SIDED|95.0|-0.53|-0.26|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 17-20|||-0.26|-0.53|<0.001
82611846|NCT02345161|164940999|SUPERIORITY_OR_OTHER||LS Mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.072|<|0.001|TWO_SIDED|95.0|-0.5|-0.22|||Mixed Model Repeated Measures||Chest EXACT-RS Scores, Week 21-24|||-0.22|-0.50|<0.001
82611847|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.52|STANDARD_ERROR_OF_MEAN|0.311||0.094|TWO_SIDED|95.0|-1.13|0.09|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 1-4|||0.09|-1.13|0.094
82611848|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.07|STANDARD_ERROR_OF_MEAN|0.371||0.004|TWO_SIDED|95.0|-1.8|-0.34|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 5-8|||-0.34|-1.80|0.004
82611849|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.97|STANDARD_ERROR_OF_MEAN|0.419||0.022|TWO_SIDED|95.0|-1.79|-0.14|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 9-12|||-0.14|-1.79|0.022
82611850|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.01|STANDARD_ERROR_OF_MEAN|0.445||0.024|TWO_SIDED|95.0|-1.88|-0.13|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 13-16|||-0.13|-1.88|0.024
82611851|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.481||0.021|TWO_SIDED|95.0|-2.06|-0.17|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 17-20|||-0.17|-2.06|0.021
82611852|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.11|STANDARD_ERROR_OF_MEAN|0.481||0.022|TWO_SIDED|95.0|-2.05|-0.16|||Mixed Model Repeated Measures||EXACT-RS Score, Week 21-24|||-0.16|-2.05|0.022
82611853|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.32|STANDARD_ERROR_OF_MEAN|0.492||0.008|TWO_SIDED|95.0|-2.29|-0.35|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 25-28|||-0.35|-2.29|0.008
82611854|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.43|STANDARD_ERROR_OF_MEAN|0.494||0.004|TWO_SIDED|95.0|-2.4|-0.46|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 29-32|||-0.46|-2.40|0.004
82611855|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.519||0.004|TWO_SIDED|95.0|-2.52|-0.48|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 33-36|||-0.48|-2.52|0.004
82611856|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.23|STANDARD_ERROR_OF_MEAN|0.507||0.016|TWO_SIDED|95.0|-2.22|-0.23|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 37-40|||-0.23|-2.22|0.016
82611857|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.49|STANDARD_ERROR_OF_MEAN|0.513||0.04|TWO_SIDED|95.0|-2.5|-0.48|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 41-44|||-0.48|-2.50|0.04
82658242|NCT01706536|165033032|SUPERIORITY||Least Squares Mean (SE)|0.1168|STANDARD_ERROR_OF_MEAN|0.04055||0.0043|TWO_SIDED|95.0|0.0369|0.1966|||Least squares mean (SE)|In order to control for Type I error rate, a gate keeping methodology was used.||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.1966|0.0369|0.0043
82611858|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.53|STANDARD_ERROR_OF_MEAN|0.525||0.007|TWO_SIDED|95.0|-2.56|-0.5|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 45-49|||-0.50|-2.56|0.007
82611859|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-1.42|STANDARD_ERROR_OF_MEAN|0.524||0.007|TWO_SIDED|95.0|-2.45|-0.39|||Mixed Model Repeated Measures||EXACT-RS Scores, Week 49-52|||-0.39|-2.45|0.007
82611860|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.33|STANDARD_ERROR_OF_MEAN|0.169||0.051|TWO_SIDED|95.0|-0.66|0.0|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 1-4|||0.00|-0.66|0.051
82611861|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.207||0.003|TWO_SIDED|95.0|-1.02|-0.2|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 5-8|||-0.20|-1.02|0.003
82611862|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.61|STANDARD_ERROR_OF_MEAN|0.234||0.01|TWO_SIDED|95.0|-1.07|-0.15|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 9-12|||-0.15|-1.07|0.010
82611863|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.62|STANDARD_ERROR_OF_MEAN|0.247||0.013|TWO_SIDED|95.0|-1.1|-0.13|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 13-16|||-0.13|-1.10|0.013
82611864|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.67|STANDARD_ERROR_OF_MEAN|0.265||0.012|TWO_SIDED|95.0|-1.19|-0.15|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 17-20|||-0.15|-1.19|0.012
82611865|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.64|STANDARD_ERROR_OF_MEAN|0.268||0.018|TWO_SIDED|95.0|-1.16|-0.11|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 21-24|||-0.11|-1.16|0.018
82611866|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.275||0.006|TWO_SIDED|95.0|-1.3|-0.21|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 25-28|||-0.21|-1.30|0.006
82611867|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.276||0.002|TWO_SIDED|95.0|-1.4|-0.31|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 29-32|||-0.31|-1.40|0.002
82611868|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.95|STANDARD_ERROR_OF_MEAN|0.288||0.001|TWO_SIDED|95.0|-1.51|-0.38|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 33-36|||-0.38|-1.51|0.001
82611869|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.76|STANDARD_ERROR_OF_MEAN|0.287||0.008|TWO_SIDED|95.0|-1.32|-0.2|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 37-40|||-0.20|-1.32|0.008
82611870|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.82|STANDARD_ERROR_OF_MEAN|0.294||0.006|TWO_SIDED|95.0|-1.4|-0.24|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 41-44|||-0.24|-1.40|0.006
82611871|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.85|STANDARD_ERROR_OF_MEAN|0.299||0.004|TWO_SIDED|95.0|-1.44|-0.27|||Breathlessness score, Week 41-44||Breathlessness EXACT-RS score, Week 45-48|||-0.27|-1.44|0.004
82611872|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.294||0.003|TWO_SIDED|95.0|-1.45|-0.3|||Mixed Model Repeated Measures||Breathlessness EXACT-RS score, Week 49-52EXA|||-0.30|-1.45|0.003
82611873|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.02|STANDARD_ERROR_OF_MEAN|0.091||0.84|TWO_SIDED|95.0|-0.2|0.16|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 1-4|||0.16|-0.20|0.840
82611874|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.15|STANDARD_ERROR_OF_MEAN|0.106||0.167|TWO_SIDED|95.0|-0.36|-0.06|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 5-8|||-0.06|-0.36|0.167
82611875|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.117||0.359|TWO_SIDED|95.0|-0.34|0.12|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 9-12|||0.12|-0.34|0.359
82611876|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.124||0.36|TWO_SIDED|95.0|-0.36|0.13|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 13-16|||0.13|-0.36|0.360
82611877|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.09|STANDARD_ERROR_OF_MEAN|0.134||0.49|TWO_SIDED|95.0|-0.36|0.17|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 17-20|||0.17|-0.36|0.490
82611878|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.12|STANDARD_ERROR_OF_MEAN|0.138||0.388|TWO_SIDED|95.0|-0.39|0.15|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 21-24|||0.15|-0.39|0.388
82611879|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.137||0.218|TWO_SIDED|95.0|-0.44|0.1|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 25-28|||0.10|-0.44|0.218
82611880|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.2|STANDARD_ERROR_OF_MEAN|0.136||0.138|TWO_SIDED|95.0|-0.47|0.07|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 29-32|||0.07|-0.47|0.138
82611881|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.239|TWO_SIDED|95.0|-0.44|0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 33-36|||0.11|-0.44|0.239
82611882|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.138||0.417|TWO_SIDED|95.0|-0.38|0.16|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 37-40|||0.16|-0.38|0.417
82611883|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.25|STANDARD_ERROR_OF_MEAN|0.144||0.078|TWO_SIDED|95.0|-0.54|0.03|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 41-44|||0.03|-0.54|0.078
82611884|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.14||0.058|TWO_SIDED|95.0|-0.54|0.01|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 45-48|||0.01|-0.54|0.058
82611885|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.17|STANDARD_ERROR_OF_MEAN|0.141||0.231|TWO_SIDED|95.0|-0.45|0.11|||Mixed Model Repeated Measures||Cough and sputum EXACT-RS score, Week 49-52|||0.11|-0.45|0.231
82611886|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.18|STANDARD_ERROR_OF_MEAN|0.097||0.068|TWO_SIDED|95.0|-0.37|0.01|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 1-4|||0.01|-0.37|0.068
82611887|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.32|STANDARD_ERROR_OF_MEAN|0.118||0.006|TWO_SIDED|95.0|-0.56|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 5-8|||-0.09|-0.56|0.006
82611888|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.27|STANDARD_ERROR_OF_MEAN|0.131||0.042|TWO_SIDED|95.0|-0.53|-0.01|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 9-12|||-0.01|-0.53|0.042
82611889|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.136||0.027|TWO_SIDED|95.0|-0.57|-0.03|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 13-16|||-0.03|-0.57|0.027
82611890|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.38|STANDARD_ERROR_OF_MEAN|0.146||0.01|TWO_SIDED|95.0|-0.67|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 17-20|||-0.09|-0.67|0.010
82611891|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.144||0.01|TWO_SIDED|95.0|-0.66|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 21-24|||-0.09|-0.66|0.010
82611892|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.148|||TWO_SIDED|95.0|-0.7|-0.12|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 25-28|||-0.12|-0.70|
82492612|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.629||0.543|TWO_SIDED|95.0|-1.63|0.86|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.86|-1.63|0.543
82611893|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.152||0.011|TWO_SIDED|95.0|-0.68|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 29-32|||-0.09|-0.68|0.011
82611894|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.4|STANDARD_ERROR_OF_MEAN|0.157||0.011|TWO_SIDED|95.0|-0.71|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 33-36|||-0.09|-0.71|0.011
82611895|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.37|STANDARD_ERROR_OF_MEAN|0.151||0.014|TWO_SIDED|95.0|-0.67|-0.07|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 37-40|||-0.07|-0.67|0.014
82611896|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.42|STANDARD_ERROR_OF_MEAN|0.153||0.007|TWO_SIDED|95.0|-0.72|-0.12|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 41-44|||-0.12|-0.72|0.007
82611897|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.006|TWO_SIDED|95.0|-0.76|-0.13|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 45-48|||-0.13|-0.76|0.006
82611898|NCT02345161|164941000|SUPERIORITY_OR_OTHER||LS Mean difference|-0.41|STANDARD_ERROR_OF_MEAN|0.163||0.013|TWO_SIDED|95.0|-0.73|-0.09|||Mixed Model Repeated Measures||Chest EXACT-RS score, Week 49-52|||-0.09|-0.73|0.013
82611899|NCT02345161|164941009|SUPERIORITY_OR_OTHER||LS mean difference|1.8|STANDARD_ERROR_OF_MEAN|0.81||0.023|TWO_SIDED|95.0|0.3|3.4|||Mixed Model Repeated Measures||For QTcF|||3.4|0.3|0.023
82658243|NCT01706536|165033032|SUPERIORITY||Least Squares Mean (SE)|0.1284|STANDARD_ERROR_OF_MEAN|0.04089||0.0019|TWO_SIDED|95.0|0.0479|0.2089||In order to control for Type I error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2089|0.0479|0.0019
82611900|NCT02345161|164941009|SUPERIORITY_OR_OTHER||LS mean difference|-0.6|STANDARD_ERROR_OF_MEAN|0.78||0.471|TWO_SIDED|95.0|-2.1|1.0|||Mixed Model Repeated Measures||For PR interval|||1.0|-2.1|0.471
82611901|NCT02345161|164941010|SUPERIORITY_OR_OTHER||LS mean difference|-1.1|STANDARD_ERROR_OF_MEAN|1.83||0.564|TWO_SIDED|95.0|-4.7|2.5|||Mixed Model Repeated Measures||For QTcF|||2.5|-4.7|0.564
82611902|NCT02345161|164941010|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|1.57||0.908|TWO_SIDED|95.0|-2.9|3.3|||Mixed Model Repeated Measures||For PR interval|||3.3|-2.9|0.908
82611903|NCT02345161|164941013|SUPERIORITY_OR_OTHER||LS mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.849|TWO_SIDED|95.0|-1.0|1.2|||Mixed Model Repeated Measures||Week 24, SBP|||1.2|-1.0|0.849
82611904|NCT02345161|164941013|SUPERIORITY_OR_OTHER||LS mean difference|0.2|STANDARD_ERROR_OF_MEAN|0.38||0.613|TWO_SIDED|95.0|-0.6|0.9|||Mixed Model Repeated Measures||Week 24, DBP|||0.9|-0.6|0.613
82611905|NCT02345161|164941014|SUPERIORITY_OR_OTHER||: LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|1.19||0.183|TWO_SIDED|95.0|-3.9|0.8|||Mixed Model Repeated Measures||Week 52, SBP|||0.8|-3.9|0.183
82611906|NCT02345161|164941014|SUPERIORITY_OR_OTHER||LS mean difference|-0.9|STANDARD_ERROR_OF_MEAN|0.75||0.253|TWO_SIDED|95.0|-2.3|0.6|||Mixed Model Repeated Measures||Week 52, DBP|||0.6|-2.3|0.253
82611907|NCT02345161|164941016|SUPERIORITY_OR_OTHER||LS mean difference|0.3|STANDARD_ERROR_OF_MEAN|0.45||0.526|TWO_SIDED|95.0|-0.6|1.2|||Mixed Model Repeated Measures|||||1.2|-0.6|0.526
82611908|NCT02345161|164941017|SUPERIORITY_OR_OTHER||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.96||0.007|TWO_SIDED|95.0|0.7|4.5|||Mixed Model Repeated Measures|||||4.5|0.7|0.007
82611909|NCT00090285|164941038|SUPERIORITY_OR_OTHER||Risk Difference (RD)|90.6||||||95.0|70.1|98.2|||||Confidence Interval (CI) based on binomial tail probabilities and not from a dispersion parameter.|||98.2|70.1|
82658244|NCT01706536|165033032|SUPERIORITY||Least Squares Mean (SE)|0.1462|STANDARD_ERROR_OF_MEAN|0.04037||0.0004|TWO_SIDED|95.0|0.0667|0.2257||in order to control for Type 1 error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2257|0.0667|0.0004
82658245|NCT01706536|165033032|SUPERIORITY||Least Squares Mean (SE)|0.177|STANDARD_ERROR_OF_MEAN|0.03953|<|0.0001|TWO_SIDED|95.0|0.0992|0.2548||in order to control for type I error rate, a gate keeping methodology was used|Least squares mean (SE)|||A sample size of 45 subjects per treatment arm provides approximately 80% power to detect a 0.12 L treatment difference in mean change in trough FEV1 between an active arm and the placebo arm at a significance level of 0.05 using a 2-group t-test and assumes a standard deviation for change in trough FEV1 of 200. Assuming a 20% discontinuation rate, approximately 55 subjects were enrolled into each treatment arm.||0.2548|0.0992|<0.0001
82658246|NCT02801877|165033060|SUPERIORITY|||||||0.3|||||||Log Rank|Chi square= 4.1 on 3 degrees of freedom||Log-rank test of adherence, defined as time to last engagement with mobile application suite.||||0.3
82658247|NCT02801877|165033061|SUPERIORITY|||||||0.9|||||||Mixed Models Analysis|F(3, 835)=0.19||Interactive effect of time and group, adjusting for baseline PHQ-9, randomization strata, main and interactive effects of time, coach, coach\*time, hub, and hub\*time.||||0.90
82658248|NCT02801877|165033062|SUPERIORITY|||||||0.53|||||||Mixed Models Analysis|F(3, 835)=0.73||Interactive effect of time and group, adjusting for baseline GAD-7, randomization strata, main and interactive effects of time, coach, coach\*time, hub, and hub\*time.||||0.53
82658249|NCT01993030|165033117|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Growth of Granulation Tissue between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to the Participants with healthy granulation tissue and the Participants with unhealthy granulation tissue category."||||0.49
82658250|NCT01993030|165033118|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Inflammatory Reaction between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to the Participants with Inflammatory Reaction and the Participants without Inflammatory Reaction category."||||0.36
82658251|NCT01993030|165033119|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|t-test, 2 sided|||Two-sided t-test was performed to assess statistically significant differences of the data of the VAS score between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.||||0.11
82658252|NCT01993030|165033120|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|Fisher Exact|||"Two-sided Fisher's exact test was performed to assess statistically significant differences of the data of the Number of Participants with Exudation between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.~This Statistical Analysis applies to No exudation and Little exudation category."||||0.11
82658253|NCT01993030|165033121|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Values of p \< 0.05 were considered to be significantly different.|t-test, 2 sided|||Two-sided t-test was performed to assess statistically significant differences of the data of the Time to Wound Healing between the group treated with the HQ® Matrix Medical Wound Dressing and that treated with the Sidaiyi® wound dressing.||||0.02
82658254|NCT00377260|165033163|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of clinical treatment failures by the on-therapy visit.||||< .001
82658255|NCT00377260|165033164|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of clinical failures by the end of therapy.||||< .001
82658256|NCT00377260|165033165|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the symptom burden as measured by the respective mean scores over time.||||.02
82658257|NCT00377260|165033166|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children who develop worsening symptoms within the first 3 days of treatment.||||.24
82658258|NCT00377260|165033167|SUPERIORITY_OR_OTHER|||||||0.35||95.0||||A weighted regression model was used with weights equal to the number of days information regarding analgesic use was reported by the parents.|Regression, Linear|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the average number of doses of analgesic medication administered by parents.||||.35
82658259|NCT00377260|165033168|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with protocol-defined diarrhea.||||.04
82611910|NCT00090285|164941046|SUPERIORITY_OR_OTHER||Risk Difference (RD)|77.5||||||95.0|39.6|93.3||||||||93.3|39.6|
82611911|NCT00090285|164941047|SUPERIORITY_OR_OTHER||Risk Difference (RD)|85.5||||||95.0|77.0|91.3|||||CI based on binomial tail probabilities and not from a dispersion parameter. Hochberg multiplicity adjustment applied to the CI.|||91.3|77.0|
82611912|NCT00090285|164941048|SUPERIORITY_OR_OTHER||Risk Difference (RD)|51.0||||||95.0|40.3|59.9|||||CI based on binomial tail probabilities and not from a dispersion parameter. Hochberg multiplicity adjustment applied to the CI.|||59.9|40.3|
82611913|NCT02238028|164941059|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Paired t-test,2 sided|||Paired Student's t tests were used in the absence and presence of wearing respirators. HRV was log-transformed before regression analyses. Linear mixed-effect models were applied to investigate the effects of wearing respirators. Age, sex, body mass index, PM2.5 concentration, 48-h mean temperature and 48-h mean humidity were introduced into the model as fixed-effect terms. At last, we incorporated random-effect intercepts for subjects to account for correlations between repeated measurements.||||<0.05
82611914|NCT02238028|164941060|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Paired t-test,2 sided|||||||<0.05
82611915|NCT02385123|164941098|OTHER||||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611916|NCT02385123|164941099|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611917|NCT02385123|164941100|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611918|NCT02385123|164941101|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people|||
82611919|NCT02385123|164941102|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611920|NCT02385123|164941103|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611921|NCT02385123|164941104|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611922|NCT02385123|164941105|OTHER|||||||||||||||||A single group analysis was used to determine this outcome measure.|A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611923|NCT02385123|164941106|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82658260|NCT00377260|165033168|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with diaper dermatitis.||||<.01
82658261|NCT00377260|165033168|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with oral thrush.||||.07
82611924|NCT02385123|164941107|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611925|NCT02385123|164941108|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611926|NCT02385123|164941109|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611927|NCT02385123|164941110|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611928|NCT02385123|164941111|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611929|NCT02385123|164941113|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611930|NCT02385123|164941114|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611931|NCT02385123|164941115|OTHER|Single group analysis.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611932|NCT02385123|164941116|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611933|NCT02385123|164941117|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611934|NCT02385123|164941118|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82611935|NCT02385123|164941119|OTHER|A single group analysis was used to determine this outcome measure.|||||||||||||||||A single group analysis was used to determine this outcome measure. These are basic science, hypothesis-generating studies with limited numbers of participants and no control group. The outcomes have no comparisons built into them - the outcomes are stating what the cell counts are, what the antibody titers are, what percentage of people seroconverted, etc. As such, we cannot report any p-values etc. for comparisons (e.g. with unvaccinated people).|||
82658262|NCT00377260|165033168|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with vomiting.||||>.99
82611936|NCT01327339|164941133|SUPERIORITY_OR_OTHER||percentage of participants|5.9|||||TWO_SIDED|95.0|4.3|7.8|||||The estimated value represents the percentage of participants with an adverse event.|||7.8|4.3|
82611937|NCT00700752|164941136|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1636|STANDARD_ERROR_OF_MEAN|0.1887|||TWO_SIDED|95.0|0.789|1.1636|||Mixed Models Analysis||The mean difference is calculated as senofilcon A minus balafilcon A.|Alternative hypothesis is senofilcon A is superior to balafilcon A for comfort.||1.1636|0.7890|
82611938|NCT00784784|164941138|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.23||||0.25|TWO_SIDED|95.0|0.01|4.8|||Fisher Exact|||That in a year with mismatch between influenza vaccine antigen and infecting H3N2 strain, seasonal (10-13 weeks) antiviral prophylaxis in adults will provide better protection from symptomatic influenza infection than trivalent inactivated split virus influenza vaccine.||4.8|0.01|0.25
82611939|NCT03320512|164941154|SUPERIORITY||Average Treatment Effect|0.15||||0.04965|TWO_SIDED|95.0|0.0|0.29|||TMLE estimation of ATE and Wald test|Targeted Maximum Likelihood Estimation (TMLE) Average Treatment Effect (ATE)||Month 3 The analysis includes the intent-to-treat population||0.29|0.00|0.04965
82611940|NCT03320512|164941154|SUPERIORITY||Average Treatment Effect|-0.04||||0.62|TWO_SIDED|95.0|-0.21|0.13|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population||0.13|-0.21|0.62
82611941|NCT03320512|164941155|SUPERIORITY||Average Treatment Effect|0.12||||0.11|TWO_SIDED|95.0|-0.03|0.26|||TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population||0.26|-0.03|0.11
82611942|NCT03320512|164941155|SUPERIORITY||Average Treatment Effect|0.06||||0.38|TWO_SIDED|95.0|-0.08|0.21|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population||0.21|-0.08|0.38
82611943|NCT03320512|164941156|SUPERIORITY||Average Treatment Effect|0.04||||0.68|TWO_SIDED|95.0|-0.09|0.16||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.16|-0.09|0.68
82611944|NCT03320512|164941156|SUPERIORITY||Average Treatment Effect|0.11||||0.53|TWO_SIDED|95.0|-0.03|0.25||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.25|-0.03|0.53
82611945|NCT03320512|164941157|SUPERIORITY||Average Treatment Effect|0.06||||0.53|TWO_SIDED|95.0|-0.02|0.15||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.15|-0.02|0.53
82611946|NCT03320512|164941157|SUPERIORITY||Average Treatment Effect|0.0||||0.96|TWO_SIDED|95.0|-0.12|0.12||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.12|-0.12|0.96
82611947|NCT03320512|164941158|SUPERIORITY||Average Treatment Effect|0.08||||0.93|TWO_SIDED|95.0|-0.84|1.0||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.00|-0.84|0.93
82611948|NCT03320512|164941158|SUPERIORITY||Average Treatment Effect|-1.12||||0.6|TWO_SIDED|95.0|-4.16|1.91||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.91|-4.16|0.60
82611949|NCT03320512|164941159|SUPERIORITY||Average Treatment Effect|0.73||||0.6|TWO_SIDED|95.0|-1.03|2.48||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||2.48|-1.03|0.60
82611950|NCT03320512|164941159|SUPERIORITY||Average Treatment Effect|-0.91||||0.6|TWO_SIDED|95.0|-2.86|1.04||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||1.04|-2.86|0.60
82611951|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.06||||0.6|TWO_SIDED|95.0|-0.2|0.08||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Gonorrhea The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.08|-0.20|0.60
82611952|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.06||||0.6|TWO_SIDED|95.0|-0.21|0.09||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Gonorrhea The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.09|-0.21|0.60
82611953|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.13||||0.53|TWO_SIDED|95.0|-0.3|0.03||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Chlamydia The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.03|-0.30|0.53
82611954|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.08||||0.6|TWO_SIDED|95.0|-0.24|0.08||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Chlamydia The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.08|-0.24|0.60
82611955|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.11||||0.53|TWO_SIDED|95.0|-0.25|0.04||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 3 Syphillis The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.04|-0.25|0.53
82611956|NCT03320512|164941160|SUPERIORITY||Average Treatment Effect|-0.07||||0.6|TWO_SIDED|95.0|-0.2|0.07||P-values adjusted using the Benjamini Hochberg procedure.|TMLE estimation of ATE and Wald test|||Month 6 Syphillis The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.07|-0.20|0.60
82611957|NCT03320512|164941161|SUPERIORITY||Average Treatment Effect|0.11|||||TWO_SIDED|95.0|-0.07|0.29|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.29|-0.07|
82611958|NCT03320512|164941161|SUPERIORITY||Average Treatment Effect|0.19|||||TWO_SIDED|95.0|0.03|0.34|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.34|0.03|
82611959|NCT03320512|164941161|SUPERIORITY||Average Treatment Effect|-0.06|||||TWO_SIDED|95.0|-0.27|0.15|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.15|-0.27|
82611960|NCT03320512|164941161|SUPERIORITY||Average Treatment Effect|-0.02|||||TWO_SIDED|95.0|-0.21|0.16|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.16|-0.21|
82611961|NCT03320512|164941162|SUPERIORITY||Average Treatment Effect|0.11|||||TWO_SIDED|95.0|-0.05|0.26|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.26|-0.05|
82611962|NCT03320512|164941162|SUPERIORITY||Average Treatment Effect|0.13|||||TWO_SIDED|95.0|-0.04|0.29|||||TMLE estimation of ATE and Wald Confidence Interval|Month 3 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.29|-0.04|
82611963|NCT03320512|164941162|SUPERIORITY||Average Treatment Effect|0.09|||||TWO_SIDED|95.0|-0.08|0.26|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3 vs. Control.||0.26|-0.08|
82611964|NCT03320512|164941162|SUPERIORITY||Average Treatment Effect|0.03|||||TWO_SIDED|95.0|-0.13|0.19|||||TMLE estimation of ATE and Wald Confidence Interval|Month 6 The analysis includes the intent-to-treat population and compares P3+ vs. Control.||0.19|-0.13|
82611965|NCT03320512|164941163|SUPERIORITY||Average Treatment Effect|0.09||||0.11|TWO_SIDED|95.0|-0.02|0.19|||TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.19|-0.02|0.11
82611966|NCT03320512|164941163|SUPERIORITY||Average Treatment Effect|-0.01||||0.82|TWO_SIDED|95.0|-0.14|0.11|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||0.11|-0.14|0.82
82611967|NCT03320512|164941164|SUPERIORITY||Average Treatment Effect|8.95||||0.05|TWO_SIDED|95.0|0.07|17.83||The a priori threshold for statistical significance is 0.025.|TMLE estimation of ATE and Wald test|||Month 3 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||17.83|0.07|0.05
82611968|NCT03320512|164941164|SUPERIORITY||Average Treatment Effect|-3.69||||0.45|TWO_SIDED|95.0|-13.33|5.95|||TMLE estimation of ATE and Wald test|||Month 6 The analysis includes the intent-to-treat population and compares P3 and P3+ vs. Control.||5.95|-13.33|0.45
82611969|NCT03320512|164941165|SUPERIORITY||Incremental cost effectiveness ratio|25.79|||||TWO_SIDED|95.0|-194.05|236.81|||||The confidence interval was created using percentile bootstrap.|Participants were included if they were at an active site with cost data and had a 3-month binary TFV measure.||236.81|-194.05|
82611970|NCT01520922|164941179|SUPERIORITY_OR_OTHER||Percentage of participants|95.0|||||TWO_SIDED|95.0|84.53|99.44|||||The estimated value represents the percentage of participants with OR (CR+CRi+nPR+PR) while receiving ofatumumab + bendamustine 90 mg/m\^2.|||99.44|84.53|
82611971|NCT01520922|164941179|SUPERIORITY_OR_OTHER||Percentage of participants|74.0|||||TWO_SIDED|95.0|59.67|84.74|||||The estimated value represents the percentage of participants with OR (CR+CRi+nPR+PR) while receiving ofatumumab + bendamustine 70 mg/m\^2.|||84.74|59.67|
82611972|NCT04036136|164941207|EQUIVALENCE|The equivalence margin is 0.|Mean Difference (Final Values)|-0.36||||0.724|TWO_SIDED|95.0|-2.41|1.68|||ANCOVA|||Model covariates are Baseline SHAPS, age, and sex.||1.68|-2.41|0.724
82611973|NCT04036136|164941208|EQUIVALENCE|The equivalence margin is 0.|Mean Difference (Final Values)|-0.043||||0.292|TWO_SIDED|95.0|-0.124|0.038|||Regression, Linear|||Model covariates are Baseline fMRI, age, and sex.||0.038|-0.124|0.292
82611974|NCT04036136|164941209|EQUIVALENCE|The equivalence margin is 0.|Median Difference (Final Values)|-0.148||||0.084|TWO_SIDED|95.0|-0.316|0.02||The equivalence margin is 0.|Regression, Linear|||Model covariates are Baseline fMRI, age, and sex.||0.020|-0.316|0.084
82611975|NCT00515463|164941218|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||||95.0|-0.7|0.7|||||Risk difference \> 0 indicates that incidence of binding anti-denosumab antibodies in denosumab PFS is greater than denosumab vial. 95% CI based on a normal approximation with continuity correction.|||0.7|-0.7|
82611976|NCT00515463|164941219|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||||95.0|-0.7|0.7||||||||0.7|-0.7|
82611977|NCT00916721|164941292|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|Multiple significance testing:we adjusted p-value by controlling the expected proportion of falsely rejected hypotheses:false discovery rate,Benjamini||||||0.05
82611978|NCT02101411|164941346|OTHER|The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Hazard Ratio (HR)|1.19|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|||||The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Chi-squared|The differences among the three PRU groups (\<85, 85-208,\>208) and ADEs were compared using the Chi-squared test.||The differences among the three PRU groups (\<85, 85-208,\>208) and MACE rate at 24 months were compared using the Chi-squared test. was recorded.||||0.002
82611979|NCT02101411|164941346|OTHER|The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Hazard Ratio (HR)|1.02|STANDARD_DEVIATION|0.005||0.002|TWO_SIDED|||||The Chi-squared test was used for comparisons of all categorical variables. If 20% of the cells had an expected value \< 5, then Fisher's exact test was used.|Chi-squared|||The differences among the three PRU groups (\<85, 85-208,\>208) and ADEs were compared using the Chi-squared test.||||0.002
82611980|NCT02260193|164941362|SUPERIORITY||Least Squares Mean Differences|0.29|||||TWO_SIDED|95.0|-0.25|0.82||||||||0.82|-0.25|
82611981|NCT02260193|164941362|SUPERIORITY||Least Squares Mean Differences|0.36|||||TWO_SIDED|95.0|-0.19|0.9||||||||0.90|-0.19|
82611982|NCT02260193|164941362|SUPERIORITY||Least Squares Mean Differences|0.07|||||TWO_SIDED|95.0|-0.48|0.61||||||||0.61|-0.48|
82611983|NCT02260193|164941363|SUPERIORITY||Least Squares Mean Differences|0.04|||||TWO_SIDED|95.0|-0.54|0.61||||||||0.61|-0.54|
82611984|NCT02260193|164941363|SUPERIORITY||Least Squares Mean Differences|0.1|||||TWO_SIDED|95.0|-0.49|0.7||||||||0.70|-0.49|
82611985|NCT02260193|164941363|SUPERIORITY||Least squares mean difference|0.07|||||TWO_SIDED|95.0|-0.53|0.66||||||||0.66|-0.53|
82611986|NCT02260193|164941364|SUPERIORITY||Least squares mean difference|-0.34|||||TWO_SIDED|95.0|-0.71|0.04||||||||0.04|-0.71|
82611987|NCT02260193|164941364|SUPERIORITY||Least squares mean difference|-0.11|||||TWO_SIDED|95.0|-0.5|0.29||||||||0.29|-0.50|
82611988|NCT02260193|164941364|SUPERIORITY||Least squares mean difference|0.23|||||TWO_SIDED|95.0|-0.16|0.62||||||||0.62|-0.16|
82611989|NCT00336492|164941387|SUPERIORITY_OR_OTHER|||||||0.146|||||||Chi-squared|||||||0.146
82611990|NCT00128206|164941446|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.51|||>|0.05||95.0|0.13|2.01|||Chi-squared|||The null hypothesis was that there would be no difference in toxicity by study group, and a sample of 360 participants (180 in each group)was estimated to have sufficient power to detect a difference.||2.01|.13|>.05
82611991|NCT00494871|164941479|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 2.0|Hazard Ratio (HR)|1.11||||0.025|TWO_SIDED|95.0|0.87|1.42|||Regression, Cox|||||1.42|0.87|0.025
82611992|NCT00494871|164941480|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||||TWO_SIDED|95.0|0.24|1.0||||||||1.00|0.24|
82611993|NCT00494871|164941481|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||||TWO_SIDED|95.0|0.34|1.22||||||||1.22|0.34|
82611994|NCT00494871|164941482|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.41|1.34||||||||1.34|0.41|
82611995|NCT00494871|164941483|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.46|||||TWO_SIDED|95.0|0.22|0.98||||||||0.98|0.22|
82611996|NCT00494871|164941484|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.06|15.85||||||||15.85|0.06|
82611997|NCT00494871|164941485|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.93|||||TWO_SIDED|95.0|0.3|28.16||||||||28.16|0.30|
82611998|NCT00494871|164941486|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.97|||||TWO_SIDED|95.0|0.6|14.7||||||||14.70|0.60|
82611999|NCT00494871|164941487|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.48|||||TWO_SIDED|95.0|0.16|1.4||||||||1.40|0.16|
82612000|NCT00494871|164941488|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37|||||TWO_SIDED|95.0|0.43|4.31||||||||4.31|0.43|
82612001|NCT00494871|164941489|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.5|1.43||||||||1.43|0.50|
82612002|NCT00494871|164941490|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.92|1.56||||||||1.56|0.92|
82612003|NCT03918642|164941497|SUPERIORITY||Mean Difference (Net)|-1.59|||<|0.001|TWO_SIDED|95.0|-2.35|-0.83|||Mixed Models Analysis|||||-0.83|-2.35|<0.001
82612004|NCT03918642|164941498|SUPERIORITY||Mean Difference (Net)|-1.01||||0.01|TWO_SIDED|95.0|-1.78|-0.24|||Mixed Models Analysis|||||-0.24|-1.78|0.01
82612005|NCT03918642|164941499|SUPERIORITY||Mean Difference (Net)|0.28|||<|0.001|TWO_SIDED|95.0|0.12|0.45|||Mixed Models Analysis|||||0.45|0.12|<0.001
82612006|NCT03918642|164941500|SUPERIORITY||Mean Difference (Net)|-1.42||||0.14|TWO_SIDED|95.0|-3.3|0.46|||Mixed Models Analysis|||||0.46|-3.30|0.14
82612007|NCT03918642|164941501|SUPERIORITY||Mean Difference (Net)|0.21||||0.85|TWO_SIDED|95.0|-1.99|2.42|||Mixed Models Analysis|||||2.42|-1.99|0.85
82612008|NCT03918642|164941502|SUPERIORITY||Mean Difference (Net)|-3.06||||0.03|TWO_SIDED|95.0|-5.88|-0.25|||Mixed Models Analysis|||||-0.25|-5.88|0.03
82612009|NCT03918642|164941503|SUPERIORITY||Mean Difference (Net)|-2.39||||0.02|TWO_SIDED|95.0|-4.33|-0.45|||Mixed Models Analysis|||||-0.45|-4.33|0.02
82612010|NCT03918642|164941504|SUPERIORITY||Mean Difference (Net)|-2.49||||0.006|TWO_SIDED|95.0|-4.3|-0.68|||Mixed Models Analysis|||||-0.68|-4.30|0.006
82612011|NCT03918642|164941505|SUPERIORITY||Mean Difference (Net)|-1.95||||0.11|TWO_SIDED|95.0|-4.34|0.45|||Mixed Models Analysis|||||0.45|-4.34|0.11
82612012|NCT03918642|164941506|SUPERIORITY||Mean Difference (Net)|-4.39||||0.03|TWO_SIDED|95.0|-8.44|-0.34|||Mixed Models Analysis|||||-0.34|-8.44|0.03
82612013|NCT03918642|164941507|SUPERIORITY||Mean Difference (Net)|-3.76||||0.07|TWO_SIDED|95.0|-7.83|0.32|||Mixed Models Analysis|||||0.32|-7.83|0.07
82612014|NCT03918642|164941508|SUPERIORITY||Mean Difference (Net)|1.23||||0.005|TWO_SIDED|95.0|0.36|2.1|||Mixed Models Analysis|||||2.10|0.36|0.005
82612015|NCT03918642|164941509|SUPERIORITY||Mean Difference (Net)|0.95||||0.17|TWO_SIDED|95.0|-0.4|2.29|||Mixed Models Analysis|||||2.29|-0.40|0.17
82612016|NCT03918642|164941510|SUPERIORITY||Mean Difference (Net)|-1.85||||0.11|TWO_SIDED|95.0|-4.14|0.44|||Mixed Models Analysis|||||0.44|-4.14|0.11
82612017|NCT03918642|164941511|SUPERIORITY||Mean Difference (Net)|-2.57||||0.11|TWO_SIDED|95.0|-5.73|0.6|||Mixed Models Analysis|||||0.60|-5.73|0.11
82612018|NCT03918642|164941512|SUPERIORITY||Mean Difference (Net)|-0.78||||0.33|TWO_SIDED|95.0|-2.33|0.78|||Mixed Models Analysis|||||0.78|-2.33|0.33
82612019|NCT03918642|164941513|SUPERIORITY||Mean Difference (Net)|-0.3||||0.69|TWO_SIDED|95.0|-1.74|1.14|||Mixed Models Analysis|||||1.14|-1.74|0.69
82612020|NCT03918642|164941514|SUPERIORITY||Mean Difference (Net)|1.46|||<|0.001|TWO_SIDED|95.0|0.77|2.15|||Mixed Models Analysis|||||2.15|0.77|<0.001
82612021|NCT03918642|164941515|SUPERIORITY||Mean Difference (Net)|1.24|||<|0.001|TWO_SIDED|95.0|0.62|1.86|||Mixed Models Analysis|||||1.86|0.62|<0.001
82612022|NCT03918642|164941516|SUPERIORITY||Odds Ratio (OR)|21.54|||<|0.001|TWO_SIDED|95.0|4.66|99.56|||Mixed Models Analysis|||||99.56|4.66|<0.001
82612023|NCT03918642|164941517|SUPERIORITY||Odds Ratio (OR)|7.24||||0.006|TWO_SIDED|95.0|1.74|30.06|||Mixed Models Analysis|||||30.06|1.74|0.006
82612024|NCT03918642|164941518|SUPERIORITY||Odds Ratio (OR)|11.77||||0.002|TWO_SIDED|95.0|2.38|58.25|||Mixed Models Analysis|||||58.25|2.38|0.002
82658263|NCT00377260|165033168|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with rash.||||>.99
82658264|NCT00377260|165033168|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with mastoiditis.||||.99
82658265|NCT00377260|165033168|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the proportion of children with perforation of their tympanic membrane.||||.08
82612025|NCT03918642|164941519|SUPERIORITY||Odds Ratio (OR)|6.58||||0.05|TWO_SIDED|95.0|0.99|43.67|||Mixed Models Analysis|||||43.67|0.99|0.05
82612026|NCT03918642|164941520|SUPERIORITY||Odds Ratio (OR)|13.93||||0.06|TWO_SIDED|95.0|0.86|225.44|||Mixed Models Analysis|||||225.44|0.86|0.06
82612027|NCT03918642|164941521|SUPERIORITY||Odds Ratio (OR)|5.61||||0.22|TWO_SIDED|95.0|0.35|89.3|||Mixed Models Analysis|||||89.30|0.35|0.22
82612028|NCT00972244|164941531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.0987|<|0.0001|TWO_SIDED|95.0|-0.67|-0.28||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.28|-0.67|<0.0001
82612029|NCT00972244|164941531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.1009|<|0.0001|TWO_SIDED|95.0|-0.65|-0.26||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.26|-0.65|<0.0001
82612030|NCT00972244|164941531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.099|<|0.0001|TWO_SIDED|95.0|-0.92|-0.53||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.53|-0.92|<0.0001
82612031|NCT00972244|164941531|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.79|STANDARD_ERROR_OF_MEAN|0.1018|<|0.0001|TWO_SIDED|95.0|-0.99|-0.59||significant at alpha=0.015 (2-sided) applying Dunnett's adjustment. A sequential closed testing procedure was used to control Type I error rate across the primary and key secondary endpoints.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0 (with alpha = 0.015 applying Dunnett's adjustment, two-sided)||-0.59|-0.99|<0.0001
82612032|NCT00972244|164941532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-26.08|STANDARD_ERROR_OF_MEAN|4.7589|<|0.0001|TWO_SIDED|95.0|-35.45|-16.7||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-16.70|-35.45|<0.0001
82612033|NCT00972244|164941532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.42|STANDARD_ERROR_OF_MEAN|4.71|<|0.0001|TWO_SIDED|95.0|-38.7|-20.14||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-20.14|-38.70|<0.0001
82612034|NCT00972244|164941532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-32.94|STANDARD_ERROR_OF_MEAN|4.7402|<|0.0001|TWO_SIDED|95.0|-42.28|-23.6||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-23.60|-42.28|<0.0001
82612035|NCT00972244|164941532|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-41.37|STANDARD_ERROR_OF_MEAN|4.8358|<|0.0001|TWO_SIDED|95.0|-50.9|-31.85||significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|ANCOVA|with treatment group (all treatment groups included) as fixed effect and baseline value as covariate.||The null hypothesis is given as H0: mean(treat) minus mean(placebo) = 0 versus HA: mean(treat) minus mean(placebo) =/= 0||-31.85|-50.90|<0.0001
82612036|NCT00972244|164941533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.2||||1|TWO_SIDED|95.0|-9.1|7.6||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||7.6|-9.1|1.0000
82612037|NCT00972244|164941533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.3||||0.2057|TWO_SIDED|95.0|-2.3|18.8||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||18.8|-2.3|0.2057
82612038|NCT00972244|164941533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.2||||0.6203|TWO_SIDED|95.0|-6.2|13.2||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||13.2|-6.2|0.6203
82612039|NCT00972244|164941533|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.7||||0.205|TWO_SIDED|95.0|-2.0|19.5||not significant at alpha=0.05 (2-sided). Primary and key secondary endpoints are tested following a sequential closed testing procedure within treatment group.|Fisher Exact|||H0: proportion(treat) minus proportion(placebo) = 0 versus HA: proportion(treat) minus proportion(placebo) =/= 0||19.5|-2.0|0.2050
82612040|NCT00907881|164941556|SUPERIORITY_OR_OTHER|||||||0.0002|||||||Regression, Linear|Pearson correlation coefficient||||||0.0002
82612041|NCT03864237|164941563|SUPERIORITY||beta coefficient for condition|0.53|STANDARD_ERROR_OF_MEAN|0.93||0.568|TWO_SIDED|95.0|-1.31|2.37|||Regression, Linear|Regression controls for baseline value of outcome and sex to determine pre-post change in the outcome as a function of condition.||||2.37|-1.31|0.568
82612042|NCT03864237|164941564|SUPERIORITY||beta coefficient for condition|1.22|STANDARD_ERROR_OF_MEAN|0.69||0.077|TWO_SIDED|95.0|-0.13|2.59|||Regression, Linear|||||2.59|-0.13|0.077
82612043|NCT03864237|164941565|SUPERIORITY||beta coefficient for condition|-1.21|STANDARD_ERROR_OF_MEAN|1.17||0.3|TWO_SIDED|95.0|-3.52|1.11|||Regression, Linear|||||1.11|-3.52|0.30
82612044|NCT03864237|164941566|SUPERIORITY||beta coefficient for condition|0.84|STANDARD_ERROR_OF_MEAN|1.09||0.44|TWO_SIDED|95.0|-1.31|3.0|||Regression, Linear|||||3.0|-1.31|0.44
82612045|NCT03864237|164941567|SUPERIORITY||Beta coefficient for condition|-0.25|STANDARD_ERROR_OF_MEAN|1.29||0.845|TWO_SIDED|95.0|-2.81|2.3|||Regression, Linear|||||2.30|-2.81|0.845
82612046|NCT03864237|164941568|SUPERIORITY||Beta coefficient for condition|0.3|STANDARD_ERROR_OF_MEAN|1.01||0.77|TWO_SIDED|95.0|-1.72|2.31|||Regression, Linear|||||2.31|-1.72|0.77
82612047|NCT03864237|164941569|SUPERIORITY||Beta coefficient for condition|1.77|STANDARD_ERROR_OF_MEAN|1.4||0.21|TWO_SIDED|95.0|-1.0|4.54|||Regression, Linear|||||4.54|-1.0|0.21
82612048|NCT05057988|164941576|OTHER|paired T test|Mean Difference (Net)|1.04|STANDARD_DEVIATION|1.8|<|0.001|TWO_SIDED|95.0|0.53|1.55|||t-test, 2 sided|||||1.55|0.53|<.001
82612049|NCT05057988|164941577|OTHER|Paired T test|Mean Difference (Net)|0.98|STANDARD_DEVIATION|8.17||0.208|TWO_SIDED|95.0|-1.42|3.37|||t-test, 2 sided|||||3.37|-1.42|.208
82612050|NCT05057988|164941578|OTHER|Paired T test|Mean Difference (Net)|0.86|STANDARD_DEVIATION|1.2|<|0.001|TWO_SIDED|95.0|0.52|1.2|||t-test, 2 sided|||||1.20|0.52|<.001
82612051|NCT05057988|164941579|OTHER|Paired t test|Mean Difference (Net)|0.81|STANDARD_DEVIATION|5.65||0.328|TWO_SIDED|95.0|-0.84|2.47|||t-test, 1 sided|||||2.47|-.84|.328
82612052|NCT05057988|164941580|OTHER|Paired T test|Mean Difference (Final Values)|2.71|STANDARD_DEVIATION|4.95|<|0.001|TWO_SIDED|95.0|1.26|4.16|||t-test, 1 sided|||||4.16|1.26|<.001
82612053|NCT05057988|164941581|OTHER|Paired T test|Mean Difference (Final Values)|0.65|STANDARD_DEVIATION|6.38||0.486|TWO_SIDED|95.0|-1.22|2.53|||t-test, 1 sided|||||2.53|-1.22|.486
82612054|NCT05057988|164941582|OTHER|Paired T test|Mean Difference (Final Values)|-0.24|STANDARD_DEVIATION|7.57||0.832|TWO_SIDED|95.0|-2.46|1.99|||t-test, 2 sided|||||1.99|-2.46|.832
82612055|NCT05057988|164941583|OTHER|Paired T test|Mean Difference (Net)|-0.43|STANDARD_DEVIATION|3.06||0.34|TWO_SIDED|95.0|-1.33|0.47|||t-test, 2 sided|||||0.47|-1.33|.340
82612056|NCT05057988|164941585|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.31||0.37|TWO_SIDED|95.0|-0.34|0.89|||t-test, 2 sided|paired sample t test||paired sample t test||0.89|-0.34|0.370
82612057|NCT05057988|164941585|OTHER|Paired T test|Mean Difference (Net)|0.28|STANDARD_DEVIATION|2.09||0.37|TWO_SIDED|95.0|-0.34|0.89|||t-test, 2 sided|||||.89|-.34|.370
82612058|NCT01397071|164941662|OTHER||Mean Difference (Final Values)|2.2||||0.052|TWO_SIDED|95.0|||||t-test, 2 sided|||Comparison of change in PAT measurements was made to beef alone vs. beef with avocado 2 hours post-ingestion||||0.052
82612059|NCT01397071|164941663|OTHER||% of baseline|0.58||||0.03|TWO_SIDED|||||Significance is defined as p\<0.05.|t-test, 2 sided|||Comparison was made to beef patty alone vs. beef patty with avocado added 3 hours post-ingestion.||||0.03
82612060|NCT02145156|164941664|SUPERIORITY_OR_OTHER|||||||0.36|||||||Fisher Exact|||||||.36
82612061|NCT02145156|164941664|SUPERIORITY_OR_OTHER|||||||0.18|||||||Fisher Exact|||||||.18
82612062|NCT02145156|164941664|SUPERIORITY_OR_OTHER|||||||0.22|||||||Fisher Exact|||||||.22
82612063|NCT02145156|164941664|SUPERIORITY_OR_OTHER|||||||0.88|||||||Fisher Exact|||||||.88
82612064|NCT02145156|164941665|SUPERIORITY_OR_OTHER|||||||0.35|||||||Fisher Exact|||||||0.35
82612065|NCT02145156|164941665|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.0
82612066|NCT02145156|164941665|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
82612067|NCT02145156|164941665|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
82612068|NCT02145156|164941666|SUPERIORITY_OR_OTHER|||||||0.37|||||||Fisher Exact|||||||0.37
82612069|NCT02145156|164941666|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
82658266|NCT00377260|165033169|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with at least one AOM pathogen present.||||.002
82658267|NCT00377260|165033169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pneumoniae present.||||<.001
82612070|NCT02145156|164941666|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||.25
82612071|NCT02145156|164941666|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||||||.70
82612072|NCT02145156|164941667|SUPERIORITY_OR_OTHER|||||||0.59|||||||Fisher Exact|||||||0.59
82612073|NCT02145156|164941667|SUPERIORITY_OR_OTHER|||||||0.52|||||||Fisher Exact|||||||.52
82612074|NCT02145156|164941667|SUPERIORITY_OR_OTHER|||||||0.71|||||||Fisher Exact|||||||.71
82612075|NCT02145156|164941667|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||.34
82612076|NCT02145156|164941668|SUPERIORITY_OR_OTHER|||||||0.16|||||||Fisher Exact|||||||0.16
82658268|NCT00377260|165033169|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Haemophilus influenzae present.||||.85
82612077|NCT02145156|164941668|SUPERIORITY_OR_OTHER|||||||0.15|||||||Fisher Exact|||||||.15
82612078|NCT02145156|164941668|SUPERIORITY_OR_OTHER|||||||0.98|||||||Fisher Exact|||||||.98
82612079|NCT02145156|164941668|SUPERIORITY_OR_OTHER|||||||0.34|||||||Fisher Exact|||||||.34
82612080|NCT02145156|164941669|SUPERIORITY_OR_OTHER|||||||0.37|||||||Fisher Exact|||||||0.37
82612081|NCT02145156|164941669|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||||||.23
82612082|NCT02145156|164941669|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||.25
82612083|NCT02145156|164941669|SUPERIORITY_OR_OTHER|||||||0.7|||||||Fisher Exact|||||||.70
82612084|NCT02145156|164941670|SUPERIORITY_OR_OTHER|||||||0.87|||||||Chi-squared|||||||0.87
82612085|NCT02145156|164941670|SUPERIORITY_OR_OTHER|||||||0.62|||||||Chi-squared|||||||0.62
82612086|NCT02145156|164941670|SUPERIORITY_OR_OTHER|||||||0.81|||||||Chi-squared|||||||0.81
82612087|NCT02145156|164941670|SUPERIORITY_OR_OTHER|||||||0.76|||||||Chi-squared|||||||0.76
82612088|NCT02145156|164941671|SUPERIORITY_OR_OTHER|||||||0.7|||||||Chi-squared|||||||0.70
82612089|NCT02145156|164941671|SUPERIORITY_OR_OTHER|||||||0.41|||||||Chi-squared|||||||0.41
82612090|NCT02145156|164941671|SUPERIORITY_OR_OTHER|||||||0.59|||||||Chi-squared|||||||0.59
82612091|NCT02145156|164941671|SUPERIORITY_OR_OTHER|||||||0.74|||||||Chi-squared|||||||0.74
82612092|NCT02145156|164941672|SUPERIORITY_OR_OTHER|||||||0.38|||||||Chi-squared|||||||0.38
82612093|NCT02145156|164941672|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||0.17
82612094|NCT02145156|164941672|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.60
82612095|NCT02145156|164941672|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
82612096|NCT02145156|164941673|SUPERIORITY_OR_OTHER|||||||0.39|||||||Chi-squared|||||||0.39
82612097|NCT02145156|164941673|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
82612098|NCT02145156|164941673|SUPERIORITY_OR_OTHER|||||||0.49|||||||Chi-squared|||||||0.49
82612099|NCT02145156|164941673|SUPERIORITY_OR_OTHER|||||||0.14|||||||Chi-squared|||||||0.14
82612100|NCT02145156|164941674|SUPERIORITY_OR_OTHER|||||||0.09|||||||Chi-squared|||||||0.09
82612101|NCT02145156|164941674|SUPERIORITY_OR_OTHER|||||||0.51|||||||Chi-squared|||||||0.51
82612102|NCT02145156|164941674|SUPERIORITY_OR_OTHER|||||||0.15|||||||Chi-squared|||||||0.15
82612103|NCT02145156|164941674|SUPERIORITY_OR_OTHER|||||||0.03|||||||Chi-squared|||||||0.03
82612104|NCT02145156|164941675|SUPERIORITY_OR_OTHER|||||||0.38|||||||Chi-squared|||||||0.38
82612105|NCT02145156|164941675|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||0.17
82612106|NCT02145156|164941675|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.60
82612107|NCT02145156|164941675|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
82612108|NCT01847547|164941678|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.05||||||95.0|0.64|1.7|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.70|0.64|
82612109|NCT01847547|164941679|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||||95.0|0.69|1.36|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.36|0.69|
82612110|NCT01847547|164941680|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.24||||||95.0|0.62|2.45|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.45|0.62|
82612111|NCT01847547|164941681|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.29||||||95.0|0.15|0.59|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.59|0.15|
82612112|NCT01847547|164941682|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.31||||||95.0|0.15|0.67|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible.||0.67|0.15|
82612113|NCT01847547|164941683|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27||||||95.0|0.09|0.84|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.84|0.09|
82612114|NCT01847547|164941684|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||||95.0|0.78|2.01|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.01|0.78|
82612115|NCT01847547|164941686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||||95.0|0.48|1.14|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.14|0.48|
82612116|NCT01847547|164941687|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||||95.0|0.47|2.2|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.20|0.47|
82612117|NCT01847547|164941688|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65||||||95.0|0.21|1.98|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and very few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.98|0.21|
82612118|NCT01847547|164941689|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||||95.0|0.5|1.08|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.08|0.50|
82612119|NCT01847547|164941690|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||||95.0|0.21|0.76|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||0.76|0.21|
82612120|NCT01847547|164941691|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.58|1.55|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||1.55|0.58|
82612121|NCT01847547|164941692|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||||95.0|0.32|5.72|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and very few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||5.72|0.32|
82612122|NCT01847547|164941693|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||||95.0|0.83|3.08|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||3.08|0.83|
82612123|NCT01847547|164941694|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||||95.0|0.57|3.7|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||3.70|0.57|
82612124|NCT01847547|164941695|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||||95.0|0.67|1.35|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible.||1.35|0.67|
82612125|NCT01847547|164941696|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||||95.0|0.79|2.01|||Regression, Cox||Cox Proportional Hazard's regression following propensity score matching.|These current feasibility data are limited by a small sample size, short follow up, and few outcome events resulting in wide 95% confidence intervals. At this early stage, no comparative conclusions are possible. Future data with an increased number of patients are planned.||2.01|0.79|
82612126|NCT02795767|164941737|OTHER||ABR Ratio|0.01|||||TWO_SIDED|95.0|0.006|0.023|||||Emicizumab QW is the numerator and Prophylactic/Episodic Bypassing Agent is the denominator.|||0.023|0.006|
82612127|NCT02795767|164941738|OTHER||ABR Ratio|0.1|||||TWO_SIDED|95.0|0.051|0.21|||||Emicizumab QW is the numerator and Prophylactic/Episodic Bypassing Agent is the denominator.|||0.210|0.051|
82612128|NCT02553915|164941767|OTHER|Comparisons were made for each biomarker within each arm pre and post 12 weeks of treatment.|||||<|0.1|||||||Kruskal-Wallis|||To evaluate whether a dose-response relationship exists between dose of EPA and decrease either in plasma IL-6 levels or in mitogen-stimulated PBMC TNF-α expression and secretion, when compared with placebo. \[Time Frame: 12 weeks\]. Comparisons were made within each arm pre and post 12 weeks of treatment.||||<0.10
82612129|NCT02553915|164941768|SUPERIORITY||||||<|0.1|||||||ANOVA|||"To evaluate:~1. whether EPA treatment produces a decrease in ratings of depression severity, when compared with placebo-treated subjects; and~2. whether the changes in IL-6 or mitogen- stimulated PBMC TNF-α expression mediate changes observed in ratings of depression.~\[Time Frame: 12 weeks\]"||||<0.1
82612130|NCT02553915|164941769|OTHER||||||<|0.01|||||||Kruskal-Wallis|||Change in IDS-C30 scores were compared pre and post 12 weeks of treatment with each intervention, within each arm.||||<0.01
82612131|NCT02553915|164941770|OTHER|Exploratory.|||||<|0.1|||||||Spearman Rank Order Correlation|||To evaluate whether EPA treatment produces decreases in mitogen-stimulated PBMC IL-6. \[Time Frame: 12 weeks\] Comparisons were made between pre and post treatment levels in each of the 4 treatment arms.||||<0.1
82612132|NCT02553915|164941771|OTHER|Exploratory|||||<|0.1|||||||Spearman Rank Order Correlation|||To evaluate whether EPA treatment produces decreases in the expression of inflammation pathway-related genes. \[Time Frame: 12 weeks\] (We evaluated gene expression of IL-6 and TNF-α.)||||<0.1
82612133|NCT00477451|164941823|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.200
82612134|NCT00477451|164941824|SUPERIORITY|||||||0.368|||||||Wilcoxon (Mann-Whitney)|||||||0.368
82612135|NCT00477451|164941825|SUPERIORITY|||||||0.207|||||||t-test, 2 sided|||||||0.207
82612136|NCT01426386|164941826|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|7.9|||<|0.001|TWO_SIDED|95.0|5.69|10.18||The a priori threshold for statistical significance was 5% (two-sided)|ANCOVA|Number of oocytes retrieved as dependent variable, centre and AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factors and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||10.18|5.69|<0.001
82612137|NCT01426386|164941827|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|11.1|||<|0.001|TWO_SIDED|95.0|6.78|15.48||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Follicular volume as dependent variable, centre and AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factors and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||15.48|6.78|<0.001
82612138|NCT01426386|164941828|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|0.8|||<|0.001|TWO_SIDED|95.0|0.56|1.11||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Log(estradiol) as dependent variable, AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factor, log(dose) and log(baseline estradiol) as covariates||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||1.11|0.56|<0.001
82612139|NCT01426386|164941830|OTHER|Based on the ANCOVA model the slope of the dose-response curve was estimated. Null hypothesis: Slope of dose-response curve equal to 0 (zero)|Slope of the dose-response curve|3.2|||<|0.001|TWO_SIDED|95.0|1.71|4.78||No adjustment for multiplicity was applied for the secondary endpoints|ANCOVA|Fertilised oocytes as dependent variable, AMH strata (5.0-14.9 pmol/L and 15.0-44.9 pmol/L) as factor and log(dose) as covariate||The dose-response relationship was analysed using an analysis of covariance (ANCOVA) model||4.78|1.71|<0.001
82612140|NCT01426386|164941832|OTHER|Treatment groups were compared using the chi-squared test.||||||0.248||||||No adjustment for multiplicity was applied for the secondary endpoints|Chi-squared|||||||0.248
82612141|NCT03694522|164941836|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.0727|TWO_SIDED|95.0|0.44|1.04|||Stratified log-rank test|Adjusted for randomization stratification factors of geographic region and administration of mFOLFOX6 single dose prior to randomization.|Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||1.04|0.44|0.0727
82612142|NCT03694522|164941837|SUPERIORITY||Hazard Ratio (HR)|0.58||||0.0268|TWO_SIDED|95.0|0.35|0.95|||Stratified log-rank test|Adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||0.95|0.35|0.0268
82612143|NCT03694522|164941838|SUPERIORITY||Difference|13.1||||0.106|TWO_SIDED|95.0|-2.8|29.0|||Cochran-Mantel-Haenszel|P-value was calculated based on stratum-adjusted Cochran-Mantel-Haenszel (CMH) proportions||||29.0|-2.8|0.1060
82612144|NCT03694522|164941840|SUPERIORITY||Hazard Ratio (HR)|0.6|||||TWO_SIDED|95.0|0.38|0.94|||||Hazard ratio and 95% CIs were calculated using the Cox proportional hazards model, adjusted for randomization stratification factors, including geographic region and administration of mFOLFOX6 single dose prior to randomization.|||0.94|0.38|
82612145|NCT02760407|164941841|SUPERIORITY||Risk Difference (RD)|0.27|||<|0.0001|TWO_SIDED|97.5|0.183|0.352|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rate for the 64 mg q4w treatment group at Week 12 was expected to be at least 50% resulting in an expected difference in ACR20 response rates of 25 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.352|0.183|<0.0001
82612146|NCT02760407|164941841|SUPERIORITY||Risk Difference (RD)|0.258|||<|0.0001|TWO_SIDED|97.5|0.171|0.341|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rate for the 64 mg q2w treatment group at Week 12 was expected to be at least 55%, resulting in an expected difference in ACR20 response rate of 30 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.341|0.171|<0.0001
82612147|NCT02760407|164941842|SUPERIORITY||Risk Difference (RD)|0.224|||<|0.0001|TWO_SIDED|95.0|0.148|0.298|||Chi-squared|2x2 chi-square test||The ACR20 response rate for adalimumab was expected to be at least 52.5% at Week 12.||0.298|0.148|<0.0001
82612148|NCT02760407|164941842|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined non-inferiority margin of -12%.|Risk Difference (RD)|0.045|||||TWO_SIDED|97.5|-0.022|0.112||||||A noninferiority margin of 12% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.112|-0.022|
82612149|NCT02760407|164941842|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined non-inferiority margin of -12%.|Risk Difference (RD)|0.034|||||TWO_SIDED|97.5|-0.035|0.102||||||A noninferiority margin of 12% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.102|-0.035|
82612150|NCT02760407|164941843|SUPERIORITY||Risk Difference (RD)|0.332|||<|0.0001|TWO_SIDED|97.5|0.257|0.397|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 is estimated to be 10% in the placebo group and 22% in the 64 mg q4w OKZ group, resulting in an expected difference of 12 percentage points between respective OKZ group and placebo.||0.397|0.257|<0.0001
82612151|NCT02760407|164941843|SUPERIORITY||Risk Difference (RD)|0.325|||<|0.0001|TWO_SIDED|97.5|0.25|0.391|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 is estimated to be 10% in the placebo group and 30% in the 64 mg q2w OKZ group, resulting in an expected difference of 20 percentage points between respective OKZ group and placebo.||0.391|0.250|<0.0001
82612152|NCT02760407|164941844|SUPERIORITY||Risk Difference (RD)|0.256|||<|0.0001|TWO_SIDED|95.0|0.191|0.313|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity response rate for adalimumab was expected to be at least 27% at Week 12.||0.313|0.191|<0.0001
82612153|NCT02760407|164941844|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined noninferiority margin of -7.5%.|Risk Difference (RD)|0.076|||||TWO_SIDED|97.5|0.004|0.147||||||A noninferiority margin of 7.5% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.147|0.004|
82612154|NCT02760407|164941844|NON_INFERIORITY|Non-Inferiority for each OKZ dosing regimen versus Adalimumab is achieved if the lower limit of the 97.5% confidence interval is greater than the protocol defined noninferiority margin of -7.5%.|Risk Difference (RD)|0.069|||||TWO_SIDED|97.5|-0.003|0.141||||||A noninferiority margin of 7.5% was used for the comparison between OKZ and adalimumab with respect to this endpoint.||0.141|-0.003|
82612155|NCT02760407|164941845|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|97.5|-0.29|-0.09|||ANCOVA|||||-0.09|-0.29|<0.0001
82612156|NCT02760407|164941845|SUPERIORITY||Least Squares Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.046|<|0.0001|TWO_SIDED|97.5|-0.33|-0.12|||ANCOVA|||||-0.12|-0.33|<0.0001
82612157|NCT02760407|164941845|OTHER||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.046|||TWO_SIDED|95.0|-0.28|-0.1||||||||-0.10|-0.28|
82658269|NCT00377260|165033169|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Moraxella catarrhalis present.||||<.001
82612158|NCT02760407|164941846|SUPERIORITY||Risk Difference (RD)|0.275|||<|0.0001|TWO_SIDED|97.5|0.192|0.349|||Chi-squared|2x2 chi-square test||||0.349|0.192|<0.0001
82612159|NCT02760407|164941846|SUPERIORITY||Risk Difference (RD)|0.278|||<|0.0001|TWO_SIDED|97.5|0.195|0.353|||Chi-squared|2x2 chi-square test||||0.353|0.195|<0.0001
82612160|NCT02760407|164941846|OTHER||Risk Difference (RD)|0.237|||||TWO_SIDED|95.0|0.165|0.303||||||||0.303|0.165|
82612161|NCT02760407|164941847|SUPERIORITY||Risk Difference (RD)|0.08||||0.0003|TWO_SIDED|97.5|0.031|0.123|||Chi-squared|2x2 chi-square test||||0.123|0.031|0.0003
82612162|NCT02760407|164941847|SUPERIORITY||Risk Difference (RD)|0.069||||0.001|TWO_SIDED|97.5|0.02|0.111|||Chi-squared|2x2 chi-square test||||0.111|0.020|0.001
82612163|NCT02760407|164941847|OTHER||Risk Difference (RD)|0.089|||||TWO_SIDED|95.0|0.046|0.127||||||||0.127|0.046|
82612164|NCT02522377|164941848|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|1.22|STANDARD_ERROR_OF_MEAN|3.28||0.72|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.72
82612165|NCT02522377|164941849|SUPERIORITY|Superiority test based upon group differences pooled across infusions in mixed effect model|Mean Difference (Final Values)|1.98|STANDARD_ERROR_OF_MEAN|6.4||0.77|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=7.836.|Midazolam - Ketamine Infusions|||||0.77
82612166|NCT02522377|164941850|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|0.98|STANDARD_ERROR_OF_MEAN|1.12||0.4|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.40
82612167|NCT02522377|164941851|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|1.78|STANDARD_ERROR_OF_MEAN|0.54||0.009|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.3634.|Midazolam - Ketamine Infusions|||||0.009
82658270|NCT00377260|165033169|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pyogenes present.||||.28
82612168|NCT02522377|164941852|SUPERIORITY|Superiority test based upon group differences pooled across infusions|Mean Difference (Final Values)|3.72|STANDARD_ERROR_OF_MEAN|3.71||0.34|TWO_SIDED||||||Mixed Models Analysis|Model includes main effect for treatment group and infusion number categorically. Satterthwaite DF=9.987.|Midazolam - Ketamine Infusions|||||0.34
82612169|NCT02522377|164941853|SUPERIORITY||Odds Ratio (OR)|0.36||||0.58|TWO_SIDED|95.0|0.01|7.2|||Fisher Exact||Odds Ratio of Midazolam (numerator) to Ketamine Infusions (denominator)|||7.20|0.01|0.58
82612170|NCT01158950|164941854|SUPERIORITY|||||||0.032||||||The threshold for statistical significance was set to p \< 0.05.|Fisher transformation|||The comparison group represents the difference in ICR and the baseline impulsiveness scale.||||0.032
82612171|NCT01158950|164941855|SUPERIORITY||||||<|0.05||||||The threshold is set to p \< 0.05, corrected for multiple comparisons.|Fisher transformation|Statistical tests are computed across multiple subregions (voxels) within each area. Thus, the correlation coefficient above is a summary score.||||||< 0.05
82612172|NCT02116972|164941871|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.0821|TWO_SIDED|95.0|-1.22|0.07|||Logitudinal mixed effects model|||The step-down testing procedure to control for multiplicity would be voided if the primary endpoint is not met and analyses proceeded for exploratory purposes.||0.07|-1.22|0.0821
82612173|NCT02428140|164941890|SUPERIORITY||Risk Ratio (RR)|3.29||||0.003|TWO_SIDED|95.0|1.45|7.42|||t-test, 2 sided|||||7.42|1.45|0.003
82612174|NCT02428140|164941891|SUPERIORITY||Risk Difference (RD)|10.7||||0.005|TWO_SIDED|95.0|3.4|17.9|||t-test, 2 sided|||||17.9|3.4|.005
82612175|NCT02428140|164941892|SUPERIORITY||Risk Difference (RD)|2.7||||0.28|TWO_SIDED|95.0|-1.0|6.3|||t-test, 2 sided|||||6.3|-1.0|0.28
82612176|NCT02428140|164941894|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.8|1.8||||||||1.8|-1.8|
82612177|NCT02428140|164941895|SUPERIORITY||Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-3.2|3.2||||||||3.2|-3.2|
82612178|NCT02961764|164941919|SUPERIORITY||Odds Ratio (OR)|0.289|||<|0.001|TWO_SIDED|95.0|0.156|0.532|||Fisher Exact|||||0.532|0.156|<0.001
82612179|NCT02961764|164941920|SUPERIORITY|||||||0.005|||||||t-test, 1 sided|||||||0.005
82612180|NCT02961764|164941921|SUPERIORITY|||||||0.05|||||||t-test, 1 sided|||||||0.050
82612181|NCT02961764|164941923|SUPERIORITY|||||||0.002|||||||t-test, 1 sided|||||||0.002
82612182|NCT03461289|164941955|SUPERIORITY||Difference of Proportion|0.71|||<|0.0001|TWO_SIDED|95.0|0.48|0.87|||Fisher Exact||||Data for the current study were compared to historical control data (Finkel et al 2014 - PubMed 25080519) where 6 out of 23 (26.1%) babies were alive and did not need mechanical ventilation at 14 months of age.|0.87|0.48|<0.0001
82612183|NCT00839098|164941972|SUPERIORITY_OR_OTHER|||||||0.27|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.27
82612184|NCT00839098|164941973|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82612185|NCT00839098|164941974|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.04
82612186|NCT00839098|164941975|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82612187|NCT00839098|164941976|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82612188|NCT00839098|164941977|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED|||||P values below 0.05 were considered statistically significant in this study.|Wilcoxon (Mann-Whitney)|||||||>0.05
82612189|NCT00839098|164941978|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||>0.05
82612190|NCT01377467|164941992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.059|STANDARD_ERROR_OF_MEAN|0.967|<|0.001|TWO_SIDED|95.0|3.137|6.98|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|We calculated that a sample size of 43 patients per group would provide a statistical power of 86% to detect a 4% difference in the percentage change of areal BMD at the total lumbar spine at 12 months, using a two-sided t-test with an α-level of 0.05 and assuming a mean ± SD change of 4 ± 6% in the denosumab group and 0 ± 6% in the control group. To account for a dropout rate of 5%, it was planned to randomize a total of 90 patients.||6.980|3.137|<0.001
82612191|NCT01377467|164941993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.895|STANDARD_ERROR_OF_MEAN|0.887||0.035|TWO_SIDED|95.0|0.132|3.659|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.659|0.132|0.035
82612192|NCT01377467|164941994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.059|STANDARD_ERROR_OF_MEAN|1.201||0.38|TWO_SIDED|95.0|-1.329|3.447|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.447|-1.329|0.380
82612193|NCT01377467|164941995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.567|STANDARD_ERROR_OF_MEAN|0.806|<|0.001|TWO_SIDED|95.0|2.975|6.178|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||6.178|2.975|<0.001
82612194|NCT01377467|164941996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.756|STANDARD_ERROR_OF_MEAN|0.662||0.009|TWO_SIDED|95.0|0.44|3.072|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||3.072|0.440|0.009
82612195|NCT01377467|164941997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.035|STANDARD_ERROR_OF_MEAN|1.085||0.064|TWO_SIDED|95.0|-0.122|4.193|||ANCOVA||Percentage change in BMD was compared between the two treatment groups while controlling for the effects of baseline BMD.|||4.193|-0.122|0.064
82612196|NCT01377467|164941998|SUPERIORITY_OR_OTHER||between-subjects effect|10.466|||<|0.001|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p=0.007. Time\*treatment interaction: p=0.002. The a priori threshold for statistical significance is \<0.05.|||||<0.001
82612197|NCT01377467|164941999|SUPERIORITY_OR_OTHER||between-subjects effect|275622.016|||<|0.001|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.012. The a priori threshold for statistical significance is \<0.05.|||||<0.001
82612198|NCT01377467|164942000|SUPERIORITY_OR_OTHER||between-subjects effect|0.717||||0.014|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p\<0.001. The a priori threshold for statistical significance is \<0.05.|||||0.014
82612199|NCT01377467|164942001|SUPERIORITY_OR_OTHER||between-subjects effect|0.707||||0.068|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.047. The a priori threshold for statistical significance is \<0.05.|||||0.068
82612200|NCT01377467|164942002|SUPERIORITY_OR_OTHER||between-subjects effect|99952.126||||0.114|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.047. The a priori threshold for statistical significance is \<0.05.|||||0.114
82612201|NCT01377467|164942003|SUPERIORITY_OR_OTHER||between-subjects effect|84.83||||0.578|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.593. The a priori threshold for statistical significance is \<0.05.|||||0.578
82612202|NCT01377467|164942004|SUPERIORITY_OR_OTHER||between-subjects effect|248.686||||0.607|TWO_SIDED||||||repeated measures GLM||Within-subjects effect: p\<0.001. Time\*treatment interaction: p=0.296. The a priori threshold for statistical significance is \<0.05.|||||0.607
82612203|NCT01377467|164942005|SUPERIORITY_OR_OTHER||z value|-2.342||||0.019|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.019
82612204|NCT01377467|164942006|SUPERIORITY_OR_OTHER||z value|-2.049||||0.042|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.042
82612205|NCT01377467|164942007|SUPERIORITY_OR_OTHER||z value|-0.937||||0.371|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.371
82612206|NCT01377467|164942008|SUPERIORITY_OR_OTHER||z value|-2.752||||0.005|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.005
82612207|NCT01377467|164942009|SUPERIORITY_OR_OTHER||z value|-2.166||||0.031|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.031
82612208|NCT01377467|164942010|SUPERIORITY_OR_OTHER||z value|-1.288||||0.212|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.212
82612209|NCT01377467|164942011|SUPERIORITY_OR_OTHER||z value|-1.64||||0.108|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.108
82612210|NCT01377467|164942012|SUPERIORITY_OR_OTHER||z value|-1.991||||0.048|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.048
82612211|NCT00633139|164942014|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4013|TWO_SIDED||||||ANCOVA|||||||0.4013
82612212|NCT00633139|164942015|SUPERIORITY_OR_OTHER_LEGACY|||||||0.275|TWO_SIDED|95.0|||||ANCOVA|||||||0.2750
82612213|NCT00633139|164942016|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1363|TWO_SIDED|95.0|||||ANCOVA|||||||0.1363
82612214|NCT02160977|164942017|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82612215|NCT02160977|164942018|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82612216|NCT02160977|164942019|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82612217|NCT03151148|164942083|SUPERIORITY||Risk Ratio (RR)|0.56||||0.075|TWO_SIDED|95.0|0.29|1.06|||Negative Binomial Regression|Negative binomial generalized linear model, adjusting for site, offset by follow-up days within the outcome measure time frame|TMT represents the numerator, placebo represents the denominator|||1.06|0.29|0.075
82612218|NCT03151148|164942084|SUPERIORITY||Risk Difference (RD)|-0.28||||0.044|TWO_SIDED|95.0|-0.51|-0.04|||Chi-squared||95% exact unconditional confidence interval is based on the Santner and Snell method|||-0.04|-0.51|0.044
82612219|NCT03151148|164942085|SUPERIORITY||Risk Ratio (RR)|0.63||||0.121|TWO_SIDED|95.0|0.36|1.13|||Negative Binomial Regression|Negative binomial generalized linear model, adjusting for site, offset by follow-up days within the outcome measure time frame|TMT represents the numerator, placebo represents the denominator|||1.13|0.36|0.121
82612220|NCT03151148|164942086|SUPERIORITY||Risk Difference (RD)|-0.25||||0.053|TWO_SIDED|95.0|-0.46|-0.04|||Chi-squared||95% exact unconditional confidence interval is based on the Santner and Snell method|||-0.04|-0.46|0.053
82612221|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|2.76||||0.261|TWO_SIDED|95.0|0.469|16.226|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||16.226|0.469|0.261
82612222|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|0.41||||0.319|TWO_SIDED|95.0|0.069|2.393|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.393|0.069|0.319
82612223|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|1.02||||0.978|TWO_SIDED|95.0|0.174|6.027|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.027|0.174|0.978
82612224|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|3.44||||0.177|TWO_SIDED|95.0|0.57|20.749|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||20.749|0.570|0.177
82612225|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|1.7||||0.558|TWO_SIDED|95.0|0.288|9.973|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.973|0.288|0.558
82612226|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|1.04||||0.977|TWO_SIDED|95.0|0.082|13.151|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.151|0.082|0.977
82612227|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|33.86||||0.007|TWO_SIDED|95.0|2.672|429.219|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||429.219|2.672|0.007
82612228|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|11.97||||0.055|TWO_SIDED|95.0|0.945|151.752|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||151.752|0.945|0.055
82612229|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|0.93||||0.957|TWO_SIDED|95.0|0.062|13.875|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.875|0.062|0.957
82612230|NCT03151148|164942091|SUPERIORITY||Geometric mean ratio (GMR)|1.78||||0.654|TWO_SIDED|95.0|0.141|22.607|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||22.607|0.141|0.654
82612231|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|2.722||||0.432|TWO_SIDED|95.0|0.2227|33.2594|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||33.2594|0.2227|0.432
82612232|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|0.147||||0.133|TWO_SIDED|95.0|0.0121|1.8018|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.8018|0.0121|0.133
82658271|NCT00377260|165033170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children colonized with penicillin-susceptible Streptococcus pneumoniae.||||< .001
82658272|NCT00377260|165033171|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with at least one AOM pathogen present.||||.10
82658273|NCT00377260|165033171|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pneumoniae present.||||.03
82612233|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|0.371||||0.437|TWO_SIDED|95.0|0.0304|4.5392|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.5392|0.0304|0.437
82612234|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|1.247||||0.863|TWO_SIDED|95.0|0.1002|15.5231|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.5231|0.1002|0.863
82612235|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|0.615||||0.702|TWO_SIDED|95.0|0.0503|7.5106|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.5106|0.0503|0.702
82612236|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|0.465||||0.675|TWO_SIDED|95.0|0.0128|16.8576|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||16.8576|0.0128|0.675
82612237|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|32.638||||0.057|TWO_SIDED|95.0|0.8994|1184.4298|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1184.4298|0.8994|0.057
82612238|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|11.539||||0.181|TWO_SIDED|95.0|0.318|418.7586|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||418.7586|0.3180|0.181
82612239|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|0.895||||0.953|TWO_SIDED|95.0|0.0219|36.5559|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||36.5559|0.0219|0.953
82612240|NCT03151148|164942093|SUPERIORITY||Geometric mean ratio (GMR)|1.719||||0.767|TWO_SIDED|95.0|0.0474|62.3828|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||62.3828|0.0474|0.767
82612241|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|1.395||||0.488|TWO_SIDED|95.0|0.5429|3.5835|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.5835|0.5429|0.488
82612242|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|2.823||||0.03|TWO_SIDED|95.0|1.1038|7.221|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.2210|1.1038|0.030
82612243|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|2.077||||0.127|TWO_SIDED|95.0|0.8122|5.3135|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.3135|0.8122|0.127
82612244|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|0.789||||0.623|TWO_SIDED|95.0|0.3065|2.0331|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.0331|0.3065|0.623
82612245|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|0.627||||0.328|TWO_SIDED|95.0|0.245|1.6028|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.6028|0.2450|0.328
82612246|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|2.231||||0.242|TWO_SIDED|95.0|0.5799|8.5866|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.5866|0.5799|0.242
82612247|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|1.977||||0.321|TWO_SIDED|95.0|0.5137|7.6055|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.6055|0.5137|0.321
82612248|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|1.86||||0.366|TWO_SIDED|95.0|0.4833|7.1564|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.1564|0.4833|0.366
82612249|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|3.713||||0.068|TWO_SIDED|95.0|0.908|15.1856|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.1856|0.9080|0.068
82658274|NCT00377260|165033171|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Haemophilus influenzae present.||||.96
82658275|NCT00377260|165033171|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Moraxella catarrhalis present.||||.79
82612250|NCT03151148|164942095|SUPERIORITY||Geometric mean ratio (GMR)|2.858||||0.13|TWO_SIDED|95.0|0.7328|11.1434|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||11.1434|0.7328|0.130
82612251|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|3.16||||0.233|TWO_SIDED|95.0|0.476|20.952|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||20.952|0.476|0.233
82612252|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.08||||0.008|TWO_SIDED|95.0|0.012|0.514|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.514|0.012|0.008
82612253|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.04||||0.001|TWO_SIDED|95.0|0.007|0.298|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.298|0.007|0.001
82612254|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.09||||0.017|TWO_SIDED|95.0|0.013|0.651|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.651|0.013|0.017
82612255|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.04||||0.001|TWO_SIDED|95.0|0.007|0.292|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.292|0.007|0.001
82612256|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.358|TWO_SIDED|95.0|0.366|15.967|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.967|0.366|0.358
82612257|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.1||||0.019|TWO_SIDED|95.0|0.016|0.683|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.683|0.016|0.019
82612258|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.11||||0.023|TWO_SIDED|95.0|0.017|0.739|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.739|0.017|0.023
82658276|NCT00377260|165033171|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||Regression, Logistic|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of culture results with Streptococcus pyogenes present.||||.98
82658277|NCT00377260|165033172|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Logistic|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the proportion of children colonized with penicillin-susceptible Streptococcus pneumoniae.||||.04
82612259|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.09||||0.017|TWO_SIDED|95.0|0.013|0.647|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.647|0.013|0.017
82612260|NCT03151148|164942096|SUPERIORITY||Geometric mean ratio (GMR)|0.37||||0.299|TWO_SIDED|95.0|0.056|2.436|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.436|0.056|0.299
82612261|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|1.49||||0.538|TWO_SIDED|95.0|0.415|5.38|||Mixed Models Analysis|||"TMT vs Placebo on Lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|5.380|0.415|0.538
82612262|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.88||||0.849|TWO_SIDED|95.0|0.245|3.18|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.180|0.245|0.849
82612263|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.4||||0.155|TWO_SIDED|95.0|0.11|1.424|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.424|0.110|0.155
82612264|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.45||||0.242|TWO_SIDED|95.0|0.117|1.722|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.722|0.117|0.242
82612265|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.47||||0.258|TWO_SIDED|95.0|0.129|1.735|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.735|0.129|0.258
82658278|NCT00377260|165033173|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the probability of middle ear effusion at the on-therapy visit.||||.03
82658279|NCT00377260|165033174|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the probability of middle ear effusion at the end-of-therapy visit.||||.006
82658280|NCT00377260|165033175|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||The analysis was ITT. The number of participants equals the number of children for which at least one ear has an interpretable tympanogram at the follow-up visit.||||.04
82658281|NCT00377260|165033176|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding visits to primary care provider.||||.20
82612266|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|1.26||||0.726|TWO_SIDED|95.0|0.349|4.52|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.520|0.349|0.726
82612267|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.32||||0.08|TWO_SIDED|95.0|0.088|1.145|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.145|0.088|0.080
82612268|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.81||||0.748|TWO_SIDED|95.0|0.225|2.917|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.917|0.225|0.748
82612269|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|1.23||||0.76|TWO_SIDED|95.0|0.327|4.617|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.617|0.327|0.760
82612270|NCT03151148|164942097|SUPERIORITY||Geometric mean ratio (GMR)|0.79||||0.713|TWO_SIDED|95.0|0.219|2.832|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.832|0.219|0.713
82612271|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|12.08|||<|0.001|TWO_SIDED|95.0|3.524|41.435|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||41.435|3.524|<0.001
82612272|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|2.58||||0.131|TWO_SIDED|95.0|0.753|8.853|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.853|0.753|0.131
82612273|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|2.2||||0.21|TWO_SIDED|95.0|0.64|7.527|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.527|0.640|0.210
82612274|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|3.98||||0.031|TWO_SIDED|95.0|1.138|13.29|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||13.290|1.138|0.031
82658282|NCT00377260|165033177|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding visits to emergency room||||.90
82658283|NCT00377260|165033178|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.22||||0.14||95.0|||||Regression, Cox|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.|The Amoxicillin-Clavulanate arm represents the numerator and the Placebo arm represents the denominator.|Null hypothesis: There is no difference between the two groups regarding the time to resolution of symptoms where resolution is defined as AOM-SOS score \<=1.||||.14
82658284|NCT00377260|165033179|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.04||95.0|||||Regression, Cox|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.|The Amoxicillin-Clavulanate arm represents the numerator and the Placebo arm represents the denominator.|Null hypothesis: There is no difference between the two groups regarding the time to resolution of symptoms where resolution is defined as AOM-SOS score \<=1 on two consecutive occasions.||||.04
82658285|NCT00377260|165033180|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Generalized estimating equations|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the number of antibiotic prescriptions, exclusive of the blinded study medication.||||<.001
82658286|NCT00377260|165033181|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the visits at which family member reported missing work, i.e. number of such visits / total number of follow-up assessment visits.||||.93
82612275|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|1.64||||0.429|TWO_SIDED|95.0|0.479|5.63|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.630|0.479|0.429
82612276|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|9.26||||0.01|TWO_SIDED|95.0|1.712|50.043|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||50.043|1.712|0.010
82612277|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|3.45||||0.15|TWO_SIDED|95.0|0.637|18.627|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||18.627|0.637|0.150
82612278|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|5.47||||0.048|TWO_SIDED|95.0|1.012|29.578|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||29.578|1.012|0.048
82612279|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|3.98||||0.13|TWO_SIDED|95.0|0.665|23.821|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||23.821|0.665|0.130
82658287|NCT00377260|165033182|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Generalized estimating equations|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two groups regarding the visits at which family member reported making special daycare arrangements, i.e. number of such visits / total number of follow-up assessment visits.||||.66
82658288|NCT00377260|165033183|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the on-therapy visit.||||.71
82658289|NCT00377260|165033184|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the end-of-therapy visit.||||.04
82658290|NCT00377260|165033185|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Regression, Linear|The comparison adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the groups regarding the mean parental satisfaction score at the follow-visit visit.||||.005
82612280|NCT03151148|164942098|SUPERIORITY||Geometric mean ratio (GMR)|13.74||||0.002|TWO_SIDED|95.0|2.542|74.304|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||74.304|2.542|0.002
82612281|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|3.68||||0.001|TWO_SIDED|95.0|1.689|8.028|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.028|1.689|0.001
82612282|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.027|TWO_SIDED|95.0|1.109|5.267|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.267|1.109|0.027
82612283|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|1.76||||0.153|TWO_SIDED|95.0|0.81|3.847|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.847|0.810|0.153
82612284|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|1.76||||0.16|TWO_SIDED|95.0|0.799|3.884|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.884|0.799|0.160
82612285|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|1.32||||0.489|TWO_SIDED|95.0|0.603|2.868|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.868|0.603|0.489
82612286|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|3.1||||0.044|TWO_SIDED|95.0|1.032|9.295|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.295|1.032|0.044
82612287|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|0.87||||0.805|TWO_SIDED|95.0|0.29|2.614|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.614|0.290|0.805
82612288|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|3.62||||0.022|TWO_SIDED|95.0|1.205|10.859|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||10.859|1.205|0.022
82612289|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|4.83||||0.01|TWO_SIDED|95.0|1.458|15.978|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||15.978|1.458|0.010
82612290|NCT03151148|164942099|SUPERIORITY||Geometric mean ratio (GMR)|2.19||||0.169|TWO_SIDED|95.0|0.716|6.692|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs Non-Lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.692|0.716|0.169
82612291|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.176||||0.035|TWO_SIDED|95.0|0.0351|0.8807|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.8807|0.0351|0.035
82612292|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.214||||0.06|TWO_SIDED|95.0|0.0427|1.0702|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.0702|0.0427|0.060
82612293|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.182||||0.038|TWO_SIDED|95.0|0.0363|0.91|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.9100|0.0363|0.038
82612294|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.329||||0.179|TWO_SIDED|95.0|0.065|1.6691|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.6691|0.0650|0.179
82612295|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.136||||0.015|TWO_SIDED|95.0|0.0271|0.6805|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.6805|0.0271|0.015
82612296|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.302||||0.309|TWO_SIDED|95.0|0.0299|3.0493|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.0493|0.0299|0.309
82658291|NCT00377260|165033186|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Regression, Linear|The comparison was adjusted for site, history of recurrent acute otitis media and exposure to other children.||Null hypothesis: There is no difference between the two treatment groups regarding the mean weighted average acute otitis media - severity of symptom (AOM-SOS) score (symptom burden), post-enrollment, over the first 7 days of therapy.||||.01
82658292|NCT01391793|165033187|SUPERIORITY|||||||0.16|||||||Regression, Logistic|The p-value is adjusted for the stratification variable, duration of fever, and for age at baseline (\<24 months, \>=24 months).||Null hypothesis: There is no difference between the two treatment arms regarding the proportion of children with renal scarring at the outcome DMSA renal scan.||||0.16
82612297|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.372||||0.401|TWO_SIDED|95.0|0.0369|3.7569|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.7569|0.0369|0.401
82612298|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.591||||0.655|TWO_SIDED|95.0|0.0586|5.9658|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.9658|0.0586|0.655
82612299|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|0.43||||0.488|TWO_SIDED|95.0|0.0395|4.6836|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||4.6836|0.0395|0.488
82612300|NCT03151148|164942100|SUPERIORITY||Geometric mean ratio (GMR)|1.485||||0.737|TWO_SIDED|95.0|0.1471|14.9869|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||14.9869|0.1471|0.737
82612301|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.248||||0.011|TWO_SIDED|95.0|0.0844|0.7281|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||0.7281|0.0844|0.011
82612302|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.656||||0.44|TWO_SIDED|95.0|0.2245|1.9178|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.9178|0.2245|0.440
82612303|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.479||||0.178|TWO_SIDED|95.0|0.164|1.4007|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.4007|0.1640|0.178
82658293|NCT01391793|165033188|SUPERIORITY|||||||0.25|||||||Test of equality - 2 Poisson parameters|The method used is a conditional test.||Null hypothesis: There is no difference between the two treatment arms regarding the proportion of children with severe renal scarring at the outcome DMSA renal scan.||||0.25
82658294|NCT01391793|165033189|SUPERIORITY|||||||0.07|||||||Generalized estimating equations|The p-value is adjusted for the stratification variable, duration of fever, and for age at baseline (\<24 months, \>=24 months).||Null hypothesis: There is no difference between the two treatment arms regarding the mean proportion of children with renal scarring at the outcome DMSA scan taken across the 3 radiologists.||||0.07
82658295|NCT01015625|165033190|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|1.77||||0.042|TWO_SIDED|95.0|1.01|3.09|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter overall survival time for surgery relative to no surgery.|To determine the effect of local therapy (surgery, Arm A) compared to systemic therapy only (Arm B) in synchronous metastasized breast cancer patients in terms of overall survival. Overall survival is defined as the time from randomization to death from any cause. Participants last known to be alive were censored at their last contact date or at the data cut-off date whichever came first.||3.09|1.01|0.042
82612304|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.478||||0.18|TWO_SIDED|95.0|0.1624|1.4091|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.4091|0.1624|0.180
82612305|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.357||||0.06|TWO_SIDED|95.0|0.1222|1.0441|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within TMT at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.0441|0.1222|0.060
82612306|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.498||||0.373|TWO_SIDED|95.0|0.1068|2.3188|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 0~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2.3188|0.1068|0.373
82612307|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.281||||0.106|TWO_SIDED|95.0|0.0604|1.3106|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.3106|0.0604|0.106
82612308|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|1.168||||0.843|TWO_SIDED|95.0|0.2507|5.4434|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.4434|0.2507|0.843
82612309|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|1.559||||0.587|TWO_SIDED|95.0|0.3122|7.7818|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||7.7818|0.3122|0.587
82612310|NCT03151148|164942101|SUPERIORITY||Geometric mean ratio (GMR)|0.707||||0.661|TWO_SIDED|95.0|0.1495|3.3426|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Change from baseline is based on the difference in log10 post-baseline and log10 baseline values. Lesional represents the numerator and Non-Lesional the denominator.|"Lesional vs. Non-lesional within Placebo at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.3426|0.1495|0.661
82612311|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|1197.16|||<|0.001|TWO_SIDED|95.0|525.563|2726.953|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||2726.953|525.563|<0.001
82658296|NCT01015625|165033191|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|1.45||||0.147|TWO_SIDED|95.0|0.87|2.42|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter time to distant progression for surgery relative to no surgery.|To determine the effect of local therapy (surgery) compared to systemic therapy only in synchronous metastasized breast cancer patients in terms of time from randomization to distant progression. Distant progression is defined as detection of new lesions or progression of existing metastases in locations different then breast. Participants last known to be alive without a distant progression were censored at their last contact date or at the data cut-off date whichever came first.||2.42|0.87|0.147
82658297|NCT01015625|165033192|SUPERIORITY|A two-sided significance level of 5% was used.|Cox Proportional Hazard|0.95||||0.89|TWO_SIDED|95.0|0.45|2.02|||Log Rank||From the Cox Proportional hazard model with surgery vs no surgery fitted as a covariate. A hazard ratio \> 1.0 indicates a higher average event rate and a shorter time to local progression for surgery relative to no surgery.|To determine the effect of local therapy (surgery) compared to systemic therapy only in synchronous metastasized breast cancer patients in terms of time from randomization to local progression. Local progression is defined as recurrence in breast with localization mamma, chest wall or axilla. Participants last known to be alive, who did not experience a local progression were censored at their last contact date or at the data cut-off date whichever came first.||2.02|0.45|0.890
82658298|NCT03834870|165033259|OTHER||Percentage of enrolled from eligible|84.05|||||TWO_SIDED|95.0|81.98|86.1||||||||86.10|81.98|
82658299|NCT03834870|165033260|OTHER||Percentage of enrolled from eligible|99.01|||||TWO_SIDED|95.0|98.4|99.6||||||||99.60|98.40|
82658300|NCT00286754|165033269|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI versus UC for BP control and SBP separately). This p-value is for comparison of SMI vs. UC|Wilcoxon (Mann-Whitney)|||The study was an effectiveness trial of 2 active interventions, each compared with an active standard of care control group. We expected that 54% of patients on BP-lowering therapy would be properly controlled with HEI and 43% with UC, whereas we expected SMI to increase this to 69% control in 6 months. BP control and SBP were compared at 6 months across treatment arms using a 2.5% type I error (Bonferroni adjustment), ie, 1.25% for each of the 4 comparisons.||||0.001
82658301|NCT00286754|165033269|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI versus UC for BP control and SBP separately). This p-value is for comparison of HEI vs. UC|Wilcoxon (Mann-Whitney)|||||||0.108
82658302|NCT00286754|165033270|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a 2.5% type I error (Bonferroni adjustment), 1.25% for each of the 4 comparisons (SMI versus UC and HEI vs UC for BP control and SBP separately). This p-value is for SMI vs UC|Wilcoxon (Mann-Whitney)|||The study was designed as an effectiveness trial of 2 active interventions, each compared with an active standard of care control group. The study was not powered to test comparisons between the 2 active intervention arms.||||0.009
82658303|NCT00286754|165033270|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|||||BP control and SBP were compared at 6 months across treatment arms using a Bonferroni adjustment of 1.25% for each of the 4 comparisons (SMI versus UC and HEI vs UC for BP control and SBP separately). This p-value is for comparison of HEI vs. UC|Wilcoxon (Mann-Whitney)|||||||0.047
82658304|NCT00286754|165033271|SUPERIORITY_OR_OTHER||||||<|3e-06|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||<0.000003
82658305|NCT00286754|165033271|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||0.012
82658306|NCT00286754|165033271|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED|||||Change in BP control were compared by treatment arm using a 1.67% type I error (with Bonferroni adjustment), ie, 1.67% for each assessment of change in proportion with BP under control from baseline to 6 months by SMI, HEI or UC (3 tests).|McNemar|||||||0.89
82658307|NCT00286754|165033272|SUPERIORITY_OR_OTHER||||||<|0.009|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||<0.009
82658308|NCT00286754|165033272|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.008
82658309|NCT00286754|165033272|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.9
82658310|NCT00286754|165033273|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Wilcoxon (Mann-Whitney)|||||||0.880
82658311|NCT00286754|165033273|SUPERIORITY_OR_OTHER|||||||0.318|TWO_SIDED|||||Change in SBP were compared by treatment arm using a 1.67% type I error (Bonferroni adjustment), ie, 1.67% for each of the 3 comparisons by arm (6-month-baseline for SMI, HEI and UC separately).|Wilcoxon (Mann-Whitney)|||||||0.318
82658312|NCT00286754|165033274|SUPERIORITY_OR_OTHER|||||||0.306|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Wilcoxon (Mann-Whitney)|||||||0.306
82658313|NCT00286754|165033274|SUPERIORITY_OR_OTHER|||||||0.205|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.205
82612312|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|779.24|||<|0.001|TWO_SIDED|95.0|342.093|1774.996|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1774.996|342.093|<0.001
82612313|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|673.56|||<|0.001|TWO_SIDED|95.0|295.697|1534.265|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1534.265|295.697|<0.001
82612314|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|60.12|||<|0.001|TWO_SIDED|95.0|24.92|145.027|||Mixed Models Analysis|||"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|145.027|24.920|<0.001
82612315|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|3.79||||0.002|TWO_SIDED|95.0|1.636|8.767|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.767|1.636|0.002
82612316|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|757.38|||<|0.001|TWO_SIDED|95.0|331.143|1732.242|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1732.242|331.143|<0.001
82612317|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|199.71|||<|0.001|TWO_SIDED|95.0|87.636|455.127|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||455.127|87.636|<0.001
82612318|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|508.45|||<|0.001|TWO_SIDED|95.0|223.113|1158.715|||Mixed Models Analysis|||"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."|All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|1158.715|223.113|<0.001
82658314|NCT00286754|165033275|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.011
82658315|NCT00286754|165033275|SUPERIORITY_OR_OTHER|||||||0.638|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.638
82658316|NCT00286754|165033276|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.012
82658317|NCT00286754|165033276|SUPERIORITY_OR_OTHER|||||||0.333|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.333
82658318|NCT00286754|165033277|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.581
82658319|NCT00286754|165033277|SUPERIORITY_OR_OTHER|||||||0.502|TWO_SIDED|||||Since we are performing 3 tests, we will adjust the type I error to 0.017|Chi-squared|||||||0.502
82612319|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|107.86|||<|0.001|TWO_SIDED|95.0|45.568|255.313|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||255.313|45.568|<0.001
82658320|NCT00910663|165033292|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.01||||||90.0|90.01|104.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.55|90.01|
82658321|NCT00910663|165033293|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.81||||||90.0|100.23|105.45|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.45|100.23|
82658322|NCT00910663|165033294|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.35||||||90.0|100.51|106.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.27|100.51|
82658323|NCT02726581|165033295|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.62|1.3||||||||1.30|0.62|
82658324|NCT02726581|165033296|SUPERIORITY||Hazard Ratio (HR)|0.79|||||TWO_SIDED|95.0|0.53|1.19||||||||1.19|0.53|
82658325|NCT02726581|165033297|SUPERIORITY||Odds Ratio (OR)|0.76|||||TWO_SIDED|95.0|0.39|1.46||||||||1.46|0.39|
82658326|NCT02865850|165033300|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.31|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|95.0|-0.53|-0.1||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||-0.10|-0.53|
82612320|NCT03151148|164942102|SUPERIORITY||Geometric mean ratio (GMR)|16.09|||<|0.001|TWO_SIDED|95.0|7.058|36.657|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||36.657|7.058|<0.001
82612321|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|142.89|||<|0.001|TWO_SIDED|95.0|58.484|349.119|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||349.119|58.484|<0.001
82612322|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|35.19|||<|0.001|TWO_SIDED|95.0|14.402|85.972|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||85.972|14.402|<0.001
82612323|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|41.64|||<|0.001|TWO_SIDED|95.0|17.043|101.739|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||101.739|17.043|<0.001
82612324|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|3.61||||0.008|TWO_SIDED|95.0|1.395|9.33|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||9.330|1.395|0.008
82612325|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|1.39||||0.474|TWO_SIDED|95.0|0.561|3.458|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||3.458|0.561|0.474
82612326|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|266.87|||<|0.001|TWO_SIDED|95.0|108.86|654.231|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||654.231|108.860|<0.001
82612327|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|51.07|||<|0.001|TWO_SIDED|95.0|20.907|124.768|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||124.768|20.907|<0.001
82612328|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|74.96|||<|0.001|TWO_SIDED|95.0|30.686|183.125|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||183.125|30.686|<0.001
82658327|NCT02865850|165033301|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.30 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|0.97|||=|0.995|TWO_SIDED|95.0|0.536|1.761|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.761|0.536|=0.9950
82612329|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|26.06|||<|0.001|TWO_SIDED|95.0|10.262|66.169|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||66.169|10.262|<0.001
82612330|NCT03151148|164942103|SUPERIORITY||Geometric mean ratio (GMR)|3.41||||0.007|TWO_SIDED|95.0|1.397|8.338|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||8.338|1.397|0.007
82612331|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|51.1|||<|0.001|TWO_SIDED|95.0|21.692|120.379|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||120.379|21.692|<0.001
82612332|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|12.87|||<|0.001|TWO_SIDED|95.0|5.463|30.317|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||30.317|5.463|<0.001
82612333|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|11.46|||<|0.001|TWO_SIDED|95.0|4.863|26.986|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||26.986|4.863|<0.001
82612334|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|2.42||||0.058|TWO_SIDED|95.0|0.971|6.024|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||6.024|0.971|0.058
82612335|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|0.75||||0.526|TWO_SIDED|95.0|0.315|1.805|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||1.805|0.315|0.526
82612336|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|55.53|||<|0.001|TWO_SIDED|95.0|23.49|131.279|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 0 (post-treatment)~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||131.279|23.490|<0.001
82658328|NCT02865850|165033301|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4877|TWO_SIDED|95.0|0.833|1.113|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 355 and 377 respectively; median time to first event (Q1, Q3) = 46.14 (24.71, 77.14) weeks versus 47.00 (22.43, 74.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.113|0.833|=0.4877
82492613|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.636||0.287|TWO_SIDED|95.0|-1.93|0.57|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.57|-1.93|0.287
82612337|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|11.78|||<|0.001|TWO_SIDED|95.0|5.0|27.755|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 4~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||27.755|5.000|<0.001
82612338|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|23.17|||<|0.001|TWO_SIDED|95.0|9.833|54.579|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 7~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||54.579|9.833|<0.001
82612339|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|11.05|||<|0.001|TWO_SIDED|95.0|4.516|27.052|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 8~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||27.052|4.516|<0.001
82612340|NCT03151148|164942104|SUPERIORITY||Geometric mean ratio (GMR)|2.43||||0.042|TWO_SIDED|95.0|1.031|5.724|||Mixed Models Analysis||All reported statistics are back-transformed into the original units of measurement. Baseline is defined as the pre-dose value at treatment initiation/Day 0. TMT represents the numerator and Placebo the denominator.|"TMT vs Placebo on Non-lesional Skin at Day 11~A random effects linear model with the log10 transformed numeric response variable was used, adjusting for treatment group, baseline value, site, lesional swab status, and study day, in addition to all pairwise interactions between day, group and lesional swab status and a 3-way interaction. Random effects of subject and time point nested within subject were also included in the model."||5.724|1.031|0.042
82612341|NCT01614769|164942110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.41|||||TWO_SIDED|90.0|-22.98|51.8||||||||51.80|-22.98|
82612342|NCT01614769|164942110|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.33|||||TWO_SIDED|90.0|-2.08|72.74||||||||72.74|-2.08|
82612343|NCT01614769|164942111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.21|0.0||||||||0.00|-0.21|
82612344|NCT01614769|164942111|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|90.0|-0.24|-0.03||||||||-0.03|-0.24|
82612345|NCT01614769|164942112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.03|||||TWO_SIDED|90.0|-11.12|1.05||||||||1.05|-11.12|
82612346|NCT01614769|164942112|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.27|||||TWO_SIDED|90.0|-13.3|-1.24||||||||-1.24|-13.30|
82612347|NCT04688346|164942115|NON_INFERIORITY|t-test|Mean Difference (Final Values)|1.0||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82612348|NCT01958671|164942121|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.99|||<|0.001|TWO_SIDED|95.0|-1.22|-0.76|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.76|-1.22|<0.001
82612349|NCT01958671|164942121|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.16|||<|0.001|TWO_SIDED|95.0|-1.39|-0.93|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.93|-1.39|<0.001
82612350|NCT01958671|164942122|SUPERIORITY_OR_OTHER||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-13.1|8.1|||||Based on Miettinen \& Nurminen method.|||8.1|-13.1|
82612351|NCT01958671|164942122|SUPERIORITY_OR_OTHER||Difference in percentage|-4.2|||||TWO_SIDED|95.0|-14.8|6.6|||||Based on Miettinen \& Nurminen method.|||6.6|-14.8|
82612352|NCT01958671|164942123|SUPERIORITY_OR_OTHER||Difference in percentage|-2.0|||||TWO_SIDED|95.0|-7.7|3.3|||||Based on Miettinen \& Nurminen method.|||3.3|-7.7|
82612353|NCT01958671|164942123|SUPERIORITY_OR_OTHER||Difference in percentage|-2.6|||||TWO_SIDED|95.0|-8.2|2.7|||||Based on Miettinen \& Nurminen method.|||2.7|-8.2|
82612354|NCT01958671|164942124|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.53|||<|0.001|TWO_SIDED|95.0|-42.76|-26.29|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-26.29|-42.76|<0.001
82612355|NCT01958671|164942124|SUPERIORITY_OR_OTHER||Difference in least squares means|-44.01|||<|0.001|TWO_SIDED|95.0|-52.28|-35.74|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-35.74|-52.28|<0.001
82612356|NCT01958671|164942125|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.76|||<|0.001|TWO_SIDED|95.0|-2.57|-0.95|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.95|-2.57|<0.001
82612357|NCT01958671|164942125|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.16|||<|0.001|TWO_SIDED|95.0|-2.98|-1.34|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-1.34|-2.98|<0.001
82612358|NCT01958671|164942126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.59|||<|0.001|TWO_SIDED|95.0|1.85|6.95|||Regression, Logistic|Fixed effects for treatment, prior antihyperglycemic medication, covariates for baseline A1C and baseline eGFR.||||6.95|1.85|<0.001
82612359|NCT01958671|164942126|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.77|||<|0.001|TWO_SIDED|95.0|3.46|13.24|||Regression, Logistic|Fixed effects for treatment, prior antihyperglycemic medication, covariates for baseline A1C and baseline||||13.24|3.46|<0.001
82612360|NCT01958671|164942128|SUPERIORITY_OR_OTHER||Difference in least squares means|-69.03|||<|0.001|TWO_SIDED|95.0|-83.24|-54.83|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-54.83|-83.24|<0.001
82612361|NCT01958671|164942128|SUPERIORITY_OR_OTHER||Difference in least squares means|-67.33|||<|0.001|TWO_SIDED|95.0|-81.73|-52.93|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-52.93|-81.73|<0.001
82612362|NCT01958671|164942130|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.31||||0.015|TWO_SIDED|95.0|-5.98|-0.65||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.65|-5.98|0.015
82612363|NCT01958671|164942130|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.71||||0.213|TWO_SIDED|95.0|-4.4|0.98|||Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||0.98|-4.40|0.213
82612364|NCT01958671|164942132|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-1.8||||0.039|TWO_SIDED|95.0|-3.51|-0.09||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||-0.09|-3.51|0.039
82612365|NCT01958671|164942132|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0.669|TWO_SIDED|95.0|-2.09|1.35||Nominal p-value|Constrained longitudinal data analysis|Fixed effects for treatment, time, prior anti-hyperglycemic medication, baseline eGFR and the interaction of time by treatment.||||1.35|-2.09|0.669
82612366|NCT00859898|164942173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.1056|<|0.0001|TWO_SIDED|95.0|-0.74|-0.32||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant. Two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||||-0.32|-0.74|<0.0001
82612367|NCT00859898|164942173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.1072|<|0.0001|TWO_SIDED|95.0|-0.75|-0.33||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant. Two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||||-0.33|-0.75|<0.0001
82612368|NCT00859898|164942173|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of dapagliflozin 10 mg versus metformin XR was demonstrated when the upper limit of the two-sided 95% confidence interval of the difference in change in HbA1c from baseline to Week 24 (LOCF) between dapagliflozin 10 mg and metformin XR was less than 0.35%.|Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1054|||TWO_SIDED|95.0|-0.22|0.2|||ANCOVA|treatment group as an effect and the baseline value as a covariate||||0.20|-0.22|
82612369|NCT00859898|164942173|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.1054||0.9144|TWO_SIDED|95.0|-0.22|0.2||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||When testing for superiority, significance is claimed only if dapagliflozin 10 mg is superior to metformin XR||0.20|-0.22|0.9144
82612370|NCT00859898|164942174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.9|STANDARD_ERROR_OF_MEAN|3.558|<|0.0001|TWO_SIDED|95.0|-20.9|-7.0||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-7.0|-20.9|<0.0001
82612371|NCT00859898|164942174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-25.5|STANDARD_ERROR_OF_MEAN|3.59|<|0.0001|TWO_SIDED|95.0|-32.6|-18.5||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-18.5|-32.6|<0.0001
82612372|NCT00859898|164942174|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority of dapagliflozin 10 mg versus metformin XR was demonstrated when the upper limit of the two-sided 95% confidence interval of the difference in change FPG from baseline to Week 24 (LOCF) between dapagliflozin 10 mg and metformin XR was less than 15 mg/dL.|Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|3.566|||TWO_SIDED|95.0|-18.6|-4.6|||ANCOVA|treatment group as an effect and the baseline value as a covariate||||-4.6|-18.6|
82612373|NCT00859898|164942174|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|3.566||0.0012|TWO_SIDED|95.0|-18.6|-4.6||two-sided significance level at α=0.05.|ANCOVA|treatment group as an effect and the baseline value as a covariate.||When testing for superiority, significance is claimed only if dapagliflozin 10 mg is superior to metformin XR||-4.6|-18.6|0.0012
82612374|NCT00859898|164942175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.9|STANDARD_ERROR_OF_MEAN|4.598||0.0012|TWO_SIDED|95.0|5.9|23.9||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||23.9|5.9|0.0012
82658329|NCT02865850|165033302|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|-0.07|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|95.0|-0.34|0.19||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.19|-0.34|
82612375|NCT00859898|164942175|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3|STANDARD_ERROR_OF_MEAN|4.73||0.0165|TWO_SIDED|95.0|2.1|20.6||Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|Regression, Logistic|Logistic regression based on the methodology of Zhang, Tsiatis and Davidian and Tsiatis, Davidian, Zhang and Lu, with adjustment for baseline HbA1c.||The probability of response was modeled using a logistic regression model with baseline HbA1c as the covariate. Treatment group estimates of response rate were then obtained by integrating each group's modeled probability of response over the observed distribution of baseline covariate (combined across groups).||20.6|2.1|0.0165
82612376|NCT00859898|164942176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.1807||0.0133|TWO_SIDED|95.0|-0.81|-0.09||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|: treatment group as an effect and the baseline HbA1c value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.09|-0.81|0.0133
82612377|NCT00859898|164942176|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53|STANDARD_ERROR_OF_MEAN|0.1817||0.0036|TWO_SIDED|95.0|-0.89|-0.18||two-sided significance level at α=0.05. Dapagliflozin 10 mg plus metformin XR treatment group had to be superior to both monotherapy treatment groups to be considered significant.|ANCOVA|treatment group as an effect and the baseline HbA1c value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.18|-0.89|0.0036
82612378|NCT00859898|164942177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.97|STANDARD_ERROR_OF_MEAN|0.3401|<|0.0001|TWO_SIDED|95.0|-2.64|-1.3||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline value as a covariate.||A hierarchical closed testing procedure was implemented to control the familywise type I error rate related to this endpoint at the two-sided 0.05 level. Statistical testing was only performed if the dapagliflozin 10 mg plus metformin XR group was statistically significantly superior to both control groups for the primary efficacy endpoint. Tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-1.30|-2.64|<0.0001
82612379|NCT00859898|164942177|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|0.3362|<|0.0001|TWO_SIDED|95.0|-2.03|-0.71||two-sided significance level at α=0.05|ANCOVA|treatment group as an effect and the baseline value as a covariate||Statistical tests were only performed for a given secondary endpoint if all previous sequential tests versus that treatment group were also significant.||-0.71|-2.03|<0.0001
82612380|NCT02417233|164942193|OTHER||Odds Ratio (OR)|0.958||||0.848|TWO_SIDED|95.0|0.62|1.49|||Regression, Logistic|||||1.49|0.62|0.848
82612381|NCT02417233|164942193|OTHER||Odds Ratio (OR)|1.492||||0.125|TWO_SIDED|95.0|0.9|2.49|||Regression, Logistic|||||2.49|0.90|0.125
82612382|NCT02417233|164942194|OTHER||Odds Ratio (OR)|0.866||||0.636|TWO_SIDED|96.0|0.48|1.57|||Regression, Logistic|||||1.57|0.48|0.636
82612383|NCT02417233|164942194|OTHER||Odds Ratio (OR)|1.401||||0.165|TWO_SIDED|95.0|0.87|2.26|||Regression, Logistic|||||2.26|0.87|0.165
82612384|NCT02417233|164942195|OTHER||Odds Ratio (OR)|1.48||||0.16|TWO_SIDED|95.0|0.86|2.55|||Regression, Logistic|||||2.55|0.86|0.16
82612385|NCT02417233|164942195|OTHER||Odds Ratio (OR)|1.82||||0.03|TWO_SIDED|95.0|1.06|3.14|||Regression, Logistic|||||3.14|1.06|0.03
82658330|NCT02865850|165033303|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.04|||=|0.8871|TWO_SIDED|95.0|0.618|1.743|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.743|0.618|=0.8871
82658331|NCT02865850|165033303|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.4096|TWO_SIDED|95.0|0.84|1.096|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first MACE plus hospitalization for heart failure or thromboembolic event Excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 420 and 449 respectively; median time to first event (Q1, Q3) = 42.07 (21.50, 71.14) weeks versus 45.29 (22.29, 72.43) weeks, respectively.||1.096|0.840|=0.4096
82658332|NCT02865850|165033304|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.36|||=|0.521|TWO_SIDED|95.0|0.67|2.771|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||2.771|0.670|=0.5210
82612386|NCT02417233|164942196|OTHER||Odds Ratio (OR)|0.27||||0.24|TWO_SIDED|95.0|0.03|2.45|||Regression, Logistic|||||2.45|0.03|0.24
82612387|NCT02417233|164942196|OTHER||Odds Ratio (OR)|2.68||||0.2|TWO_SIDED|95.0|0.59|12.16|||Regression, Logistic|||||12.16|0.59|0.20
82612388|NCT02417233|164942197|OTHER||Odds Ratio (OR)|1.943||||0.093|TWO_SIDED|95.0|0.9|4.21|||Regression, Logistic|||||4.21|0.90|0.093
82612389|NCT02417233|164942197|OTHER||Odds Ratio (OR)|1.764||||0.152|TWO_SIDED|95.0|0.81|3.83|||Regression, Logistic|||||3.83|0.81|0.152
82612390|NCT00532883|164942199|SUPERIORITY_OR_OTHER|||||||0.93||95.0||||This is a global test comparing all four treatment arms.|Mixed Models Analysis|||F-test from a longitudinal mixed model (controlling for baseline measurement)testing the hypothesis of no difference in mean percent dense cells between the four treatment groups at Visit 6. The study was originally powered to detect a difference of 20%, but it was stopped early.||||0.93
82612391|NCT02202031|164942210|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.6222|TWO_SIDED|95.0|-0.73|1.21|||ANCOVA|change from baseline, adjusted for baseline value||||1.21|-0.73|0.6222
82612392|NCT02202031|164942211|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.7695|TWO_SIDED|95.0|-0.64|0.47|||ANCOVA|change from baseline, adjusted for baseline value||||0.47|-0.64|0.7695
82612393|NCT02202031|164942212|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.6456|TWO_SIDED|95.0|-0.24|0.39|||ANCOVA|change from baseline value, adjusted for baseline value||||0.39|-0.24|0.6456
82612394|NCT02202031|164942213|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.919|TWO_SIDED|95.0|-0.66|0.6|||ANCOVA|change from baseline, adjusted for baseline value||||0.60|-0.66|0.9190
82612395|NCT02202031|164942214|SUPERIORITY||Mean Difference (Final Values)|1.16||||0.5358|TWO_SIDED|95.0|-2.51|4.84|||ANCOVA|change from baseline, adjusted for baseline value.||||4.84|-2.51|0.5358
82612396|NCT02202031|164942215|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.4663|TWO_SIDED|95.0|-2.9|6.34|||ANCOVA|change from baseline, adjusted for baseline value||||6.34|-2.90|0.4663
82612397|NCT02202031|164942216|SUPERIORITY||Mean Difference (Final Values)|2.17||||0.3134|TWO_SIDED|95.0|-2.05|6.38|||ANCOVA|change from baseline, adjusted for baseline value||||6.38|-2.05|0.3134
82612398|NCT02202031|164942217|SUPERIORITY||Mean Difference (Final Values)|-1.76||||0.5146|TWO_SIDED|95.0|-7.05|3.53|||ANCOVA|change from baseline, adjusted for baseline value||||3.53|-7.05|0.5146
82612399|NCT02202031|164942218|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.3611|TWO_SIDED|95.0|-0.44|0.16|||ANCOVA|change from baseline, adjusted for baseline value||||0.16|-0.44|0.3611
82612400|NCT02202031|164942219|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.6722|TWO_SIDED|95.0|-2.43|1.57|||ANCOVA|change from baseline, adjusted for baseline value||||1.57|-2.43|0.6722
82612401|NCT02202031|164942220|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.0786|TWO_SIDED|95.0|-1.4|0.07|||ANCOVA|change from baseline, adjusted for baseline value||||0.07|-1.4|0.0786
82612402|NCT02202031|164942221|SUPERIORITY||Mean Difference (Final Values)|-1.04||||0.2284|TWO_SIDED|95.0|-2.87|0.79|||ANCOVA|change from baseline, adjusted for baseline value||||0.79|-2.87|0.2284
82612403|NCT02202031|164942222|SUPERIORITY||Mean Difference (Final Values)|-1.71||||0.0335|TWO_SIDED|95.0|-3.28|-0.13|||ANCOVA|change from baseline, adjusted for baseline value||||-0.13|-3.28|0.0335
82612404|NCT02202031|164942223|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.8408|TWO_SIDED|95.0|-0.66|0.81|||ANCOVA|change from baseline, adjusted for baseline value||||0.81|-0.66|0.8408
82612405|NCT02202031|164942224|SUPERIORITY|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic|Mean Difference (Final Values)|0.14||||0.5578|TWO_SIDED|95.0|-0.32|0.6|||ANCOVA|||||0.60|-0.32|0.5578
82612406|NCT02202031|164942225|SUPERIORITY|||||||0.5578|||||||ANCOVA|Adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||||0.5578
82612407|NCT02202031|164942226|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.7301|TWO_SIDED|95.0|-0.79|0.31|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||0.31|-0.79|0.7301
82612408|NCT02202031|164942227|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.6646|TWO_SIDED|95.0|-0.89|0.04|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic||||0.04|-0.89|0.6646
82612409|NCT02202031|164942228|SUPERIORITY|||||||0.4993|||||||ANCOVA|Adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||||0.4993
82612410|NCT02202031|164942229|SUPERIORITY||Mean Difference (Final Values)|0.59||||0.7506|TWO_SIDED|95.0|-3.05|4.23|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||4.23|-3.05|0.7506
82612411|NCT02202031|164942230|SUPERIORITY||Mean Difference (Final Values)|-1.55||||0.6268|TWO_SIDED|95.0|-6.98|3.87|||ANCOVA|adjusted for baseline value, diabetes and the following medications: beta-blockers, alpha-agonists, and sympathomimetic.||||3.87|-6.98|0.6268
82612412|NCT00321984|164942235|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82612413|NCT00321984|164942235|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82612414|NCT00321984|164942235|SUPERIORITY_OR_OTHER|||||||0.72941||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.72941
82612415|NCT00321984|164942237|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82612416|NCT00321984|164942237|SUPERIORITY_OR_OTHER||||||<|1e-05||||||The overall 0.0025 level of significance for the multiple comparisons of each dexlansoprazole MR dose to placebo was controlled using Hochberg's method.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||<0.00001
82612417|NCT00321984|164942237|SUPERIORITY_OR_OTHER|||||||0.3146||||||Statistical significance was determined at 0.0025 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||The comparison between the two treatment groups was made using Wilcoxon rank-sum test.||||0.31460
82612418|NCT05232097|164942239|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: the median of differences of the rumination score before and after therapy equals 0.||||0.005
82612419|NCT05232097|164942240|OTHER|||||||0.11|||||||Chi-squared|||The null hypothesis is that the same number of patients has intragastric pressure peaks indicating rumination before and after therapy.||||0.11
82612420|NCT05232097|164942241|OTHER|||||||0.06|||||||t-test, 2 sided|||Null hypothesis: The differences of means of 15D before and after therapy equals 0.||||0.060
82658333|NCT02865850|165033304|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.5007|TWO_SIDED|95.0|0.795|1.144|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 225 and 242 respectively; median time to first event (Q1, Q3) = 43.29 (21.71, 77.14) weeks versus 45.79 (21.14, 73.86) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.144|0.795|=0.5007
82658334|NCT02865850|165033305|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|1.1|||=|0.9527|TWO_SIDED|95.0|0.452|2.666|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||2.666|0.452|=0.9527
82492614|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.519||0.82|TWO_SIDED|95.0|-0.91|1.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||1.14|-0.91|0.820
82612421|NCT05232097|164942242|OTHER|||||||0.865|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The median of differences of WHODAS 2.0 before and after therapy equals 0.||||0.865
82612422|NCT05232097|164942243|OTHER|||||||0.149|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis : the differences of median BDI before and after behavioral therapy equals 0.||||0.149
82612423|NCT05232097|164942244|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The differences of median of BAI before and after behavioral therapy equals 0.||||1.000
82612424|NCT05232097|164942245|OTHER|||||||0.102|||||||Wilcoxon (Mann-Whitney)|||Null hypothesis: The differences of median weight before and after therapy equals 0.||||0.102
82612425|NCT02746679|164942287|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
82612426|NCT02746679|164942288|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82612427|NCT02746679|164942289|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82612428|NCT02746679|164942290|SUPERIORITY_OR_OTHER|||||||0.024|||||||Chi-squared|||||||0.024
82612429|NCT02746679|164942291|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
82612430|NCT02746679|164942292|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.001
82612431|NCT02746679|164942293|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.003
82612432|NCT02746679|164942294|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.024
82612433|NCT02746679|164942295|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.004
82612434|NCT02746679|164942296|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
82612435|NCT02746679|164942297|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||<0.001
82612436|NCT02746679|164942298|SUPERIORITY_OR_OTHER|||||||0.277|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.277
82612437|NCT02746679|164942299|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANOVA|The comparison of the change from baseline to 8 weeks later between MBSR Group and wait-list control group.||||||0.001
82612438|NCT01422304|164942321|SUPERIORITY_OR_OTHER_LEGACY||Risk Ratio (RR)|0.7|||||TWO_SIDED|95.0|0.38|1.29|||Cochran-Mantel-Haenszel||Relative risk is Sugammadex versus Usual Care|Cochran-Mantel-Haenszel method was stratified for renal function (estimated creatinine clearance \< or ≥ 60 mL/min) and prophylactic antithrombotic therapy (including low molecular weight heparin \[LMWH\], including unfractionated heparin \[UFH\], or not including either LMWH or UFH)||1.29|0.38|
82612439|NCT01422304|164942322|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR) (%)|5.5|||||TWO_SIDED|95.0|3.7|7.3|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline aPTT value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 10 minutes post dose calculated with log of aPTT values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||7.3|3.7|
82612440|NCT01422304|164942322|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|0.9||||||95.0|-0.9|2.8|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline aPTT value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 60 minutes post dose calculated with log of aPTT values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||2.8|-0.9|
82658335|NCT02865850|165033305|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.96|||=|0.6284|TWO_SIDED|95.0|0.766|1.195|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 150 and 160 respectively; median time to first event (Q1, Q3) = 43.71 (27.43, 77.14) weeks versus 49.29 (24.43, 74.07) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.195|0.766|=0.6284
82612441|NCT01422304|164942323|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|3.0|||||TWO_SIDED|95.0|1.3|4.7|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline PT(INR) value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 10 minutes post dose calculated with log of PT(INR) values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||4.7|1.3|
82612442|NCT01422304|164942323|SUPERIORITY_OR_OTHER_LEGACY||GMR (%)|0.9|||||TWO_SIDED|95.0|-1.0|2.9|||Constrained Longitudinal Data Analysis|Model included those in APaT population with any baseline or post baseline PT(INR) value in 10 or 60 minute window (Sugammadex, Usual Care N=567, 548)|Estimate of difference in Sugammadex versus Usual Care change from baseline at 60 minutes post dose calculated with log of PT(INR) values as dependent variable. Results transformed back to GMR of respective changes (expressed as %, = \[GMR - 1\]\*100).|Model was restricted to have no difference between treatment groups for baseline assessment, and was adjusted for center, usual care group (active reversal or spontaneous recovery), renal function (estimated creatinine clearance \< or ≥ 60 mL/min), prophylactic antithrombotic therapy (including LMWH, including UFH, or not including either LMWH or UFH), type of hip/knee surgical procedure, and the interaction of time by treatment.||2.9|-1.0|
82612443|NCT01422304|164942324|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-0.6|||||TWO_SIDED|95.0|-3.0|1.8|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.8|-3.0|
82612444|NCT01422304|164942325|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-1.4|||||TWO_SIDED|95.0|-3.4|0.5|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||0.5|-3.4|
82612445|NCT01422304|164942326|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-0.9|||||TWO_SIDED|95.0|-3.1|1.2|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.2|-3.1|
82658336|NCT02865850|165033306|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.78|||=|0.5115|TWO_SIDED|95.0|0.388|1.555|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0016 has been reported in this section.||1.555|0.388|=0.5115
82658337|NCT02865850|165033306|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.30 (per EMA).|Hazard Ratio (HR)|0.95|||=|0.4878|TWO_SIDED|95.0|0.812|1.118|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0016 (NCT02865850) and AKB-6548-CI-0017 (NCT02892149). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 291 and 310 respectively; median time to first event (Q1, Q3) = 50.00 (29.71, 79.00) weeks versus 49.57 (25.86, 77.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.118|0.812|=0.4878
82658338|NCT01844375|165033318|EQUIVALENCE|equivalence analysis||||||0.75|||||||Kruskal-Wallis|||||||0.75
82612446|NCT01422304|164942327|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|0.3|||||TWO_SIDED|95.0|-0.7|1.5|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||1.5|-0.7|
82612447|NCT01422304|164942329|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-45.0|30.5|||Generalized Linear Model||Difference is Sugammadex versus Usual Care. A negative value indicates that the average adjusted drainage volume was lower in the sugammadex treatment group.|Generalized Linear Model was adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site.||30.5|-45.0|
82612448|NCT01422304|164942330|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-2.7|||||TWO_SIDED|95.0|-7.4|2.0|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence, adjusted for strata and investigational site|Miettinen and Nurminen Method was adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site||2.0|-7.4|
82612449|NCT01422304|164942331|SUPERIORITY_OR_OTHER_LEGACY||GMR|1.1|||||TWO_SIDED|95.0|0.98|1.24|||Generalized Linear Model||GMR is Sugammadex versus Usual Care|Generalized Linear Model was applied to transfusion volume transformed to the log-scale, adjusted for strata (renal function and use of prophylactic antithrombotic therapy) and investigational site. Result and 95% Confidence Interval was transformed back to the original scale.||1.24|0.98|
82612450|NCT01422304|164942332|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-0.4|3.1|||Generalized Linear Model||Difference is Sugammadex versus Usual Care. A positive value indicates that the average adjusted reduction in Hgb at Visit 3 (bleeding index) was lower in the sugammadex treatment group.|Generalized Linear Model was adjusted for strata (renal function and use of prophylactic antithrombotic therapy), investigational site and baseline hemoglobin value.||3.1|-0.4|
82612451|NCT01422304|164942333|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (%)|-1.6|||||TWO_SIDED|95.0|-6.3|3.1|||Miettinen and Nurminen||Risk difference (%) = Sugammadex incidence - Usual Care incidence|||3.1|-6.3|
82612452|NCT00866294|164942353|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4|||<|0.001|TWO_SIDED|95.0|-3.8|-1.1||The hypothesis test was conducted with a two-sided significance level of 5% to show the superiority of paroxetine CR relative to placebo.|ANCOVA|The primary analysis was based on an ANCOVA with a model adjusting for baseline HAM-D total score and region (Japan and South Korea).|Mean difference = paroxetine CR minus placebo|||-1.1|-3.8|<0.001
82612453|NCT00492401|164942363|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||Expression levels of miR-29b in pre treatment marrow samples from responding or non responding patients were compared using Wilcoxon rank sum tests||||.02
82612454|NCT00492401|164942363|SUPERIORITY_OR_OTHER|||||||0.06|||||||Wilcoxon (Mann-Whitney)|||Expression levels of DNMT3a in pre treatment marrow samples from responding or non responding patients were compared using Wilcoxon rank sum tests||||.06
82658339|NCT01376167|165033347|SUPERIORITY||Hazard Ratio (HR)|0.299|||<|0.001|TWO_SIDED|95.0|0.222|0.404||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.404|0.222|<0.001
82658340|NCT01376167|165033347|SUPERIORITY||Hazard Ratio (HR)|0.262|||<|0.001|TWO_SIDED|95.0|0.178|0.387||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.387|0.178|<0.001
82658341|NCT01376167|165033347|SUPERIORITY||Odds Ratio (OR)|0.241|||<|0.001|TWO_SIDED|95.0|0.152|0.382||Logistic regression model was fitted with region and treatment as covariates. Participants with a zero P vivax asexual parasite count at Baseline were excluded from the analysis.|Regression, Logistic||Odds ratios \< 1 suggested a smaller chance of recurrence compared to CQ Only.|||0.382|0.152|<0.001
82658342|NCT01376167|165033347|SUPERIORITY||Odds Ratio (OR)|0.198|||<|0.001|TWO_SIDED|95.0|0.117|0.335||Logistic regression model was fitted with region and treatment as covariates. Participants with a zero P vivax asexual parasite count at Baseline were excluded from the analysis.|Regression, Logistic||Odds ratios \< 1 suggested a smaller chance of recurrence compared to CQ Only.|||0.335|0.117|<0.001
82658343|NCT01376167|165033348|SUPERIORITY||Hazard Ratio (HR)|0.271|||<|0.001|TWO_SIDED|95.0|0.195|0.376||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.376|0.195|<0.001
82658344|NCT01376167|165033348|SUPERIORITY||Hazard Ratio (HR)|0.255|||<|0.001|TWO_SIDED|95.0|0.167|0.39||The Cox proportional hazards model was fitted with region and treatment as covariates.|Cox Proportional Hazards Model||A hazard ratio\<1 indicated a lower chance of relapse compared to CQ only.|||0.390|0.167|<0.001
82658345|NCT00834756|165033371|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|96.0||||||90.0|87.96|104.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.78|87.96|
82658346|NCT00834756|165033372|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.63||||||90.0|92.34|105.35|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.35|92.34|
82658347|NCT00834756|165033373|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.37||||||90.0|93.95|107.21|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.21|93.95|
82658348|NCT02193165|165033377|SUPERIORITY_OR_OTHER|||||||0.434|TWO_SIDED||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. Baseline groups are balanced and baseline scores for each intervention group should not be significantly different. Significance will be determined by p\<0.5||||0.434
82658349|NCT02193165|165033378|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between groups determined by P\<0.05||||<0.001
82658350|NCT02193165|165033379|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between groups will be determined at P\<0.05||||<0.001
82658351|NCT02193165|165033380|SUPERIORITY_OR_OTHER|||||||0.816|TWO_SIDED||||||ANOVA|||Means and standard deviations. 1 factor ANOVA to balance treatment groups to show no difference between groups. The null hypothesis states that there is no difference between groups. Differences will be noted at P\<0.05. Baseline groups are balanced and baseline scores for each intervention group should not be significantly different||||0.816
82658352|NCT02193165|165033381|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between intervention groups will be determined @ P\<0.05||||<0.001
82658353|NCT02193165|165033382|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|95.0||||1 factor ANCOVA to determine difference between groups with baseline as covariate. The F statistic is used to determine significance. If significance is found then a Tukey's multiple comparison is done.|ANCOVA|||The null hypothesis states that there is no difference between groups. ANCOVA adjusting for baseline. Significant differences between intervention groups will be determined @ P\<0.05||||<0.001
82658354|NCT04239872|165033383|SUPERIORITY||Mean Difference (Net)|-0.00778||||0.8412|TWO_SIDED|95.0|-0.09209|0.07653||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 11 pairs of data, DF=10|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.07653|-0.09209|0.8412
82658355|NCT04239872|165033384|SUPERIORITY||Mean Difference (Net)|-0.06907||||0.6504|TWO_SIDED|95.0|-0.3955|0.2573||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 12 pairs of data, DF=11|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.2573|-0.3955|0.6504
82658356|NCT04239872|165033385|SUPERIORITY||Mean Difference (Net)|0.5307||||0.0024|TWO_SIDED|95.0|0.2372|0.8243||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 11 pairs of data, DF=10|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.8243|0.2372|0.0024
82612455|NCT01797029|164942388|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Fisher Exact|||||||<0.0001
82612456|NCT02273323|164942411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.43|TWO_SIDED|0.23|-0.37|0.83|||Mixed Models Analysis|||Estimated effect of tea vs placebo||0.83|-0.37|0.43
82612457|NCT02273323|164942412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.71||||0.2|TWO_SIDED|95.0|-0.4|1.82|||Mixed Models Analysis|Subject=random factor; treatment, on/off medication, period = fixed effects||Estimated effect of tea vs. placebo||1.82|-0.40|0.20
82612458|NCT02273323|164942413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35|||||TWO_SIDED|95.0|-5.26|2.55|||Mixed Models Analysis|||||2.55|-5.26|
82612459|NCT02273323|164942414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.16|1.37|||Mixed Models Analysis|||||1.37|-2.16|
82612460|NCT02273323|164942415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.89|||||TWO_SIDED|95.0|-4.65|0.87|||Mixed Models Analysis|||||0.87|-4.65|
82612461|NCT02273323|164942416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||||TWO_SIDED|95.0|-0.73|4.09|||Mixed Models Analysis|||||4.09|-0.73|
82658357|NCT04239872|165033386|SUPERIORITY||Mean Difference (Net)|0.5643||||0.0013|TWO_SIDED|95.0|0.2938|0.8348||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 9 pairs of data, DF=8|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.8348|0.2938|0.0013
82492615|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.52||0.711|TWO_SIDED|95.0|-0.83|1.22|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||1.22|-0.83|0.711
82612462|NCT03117049|164942417|SUPERIORITY||Hazard Ratio (HR)|0.56|||<|0.0001|TWO_SIDED|96.37|0.43|0.71|||Stratified log-rank test|||||0.71|0.43|<0.0001
82612463|NCT03117049|164942418|SUPERIORITY||Stratified hazard ratio|0.85|||||TWO_SIDED|95.0|0.63|1.14||||||||1.14|0.63|
82612464|NCT03117049|164942419|SUPERIORITY||Odds Ratio (OR)|1.55|||||TWO_SIDED|95.0|1.11|2.17||||||||2.17|1.11|
82612465|NCT03117049|164942420|SUPERIORITY||Odds Ratio (OR)|0.77|||||TWO_SIDED|95.0|0.46|1.31||||||||1.31|0.46|
82612466|NCT00121810|164942423|SUPERIORITY_OR_OTHER||Median Difference (Net)|18.7||||0.012||95.0|4.2|33.2||P value comparing the treatment groups calculated using ANCOVA model treatment and baseline calcineurin inhibitor (cyclosporine or tacrolimus) as factors and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||The primary analysis tested the null hypothesis that mean percent change from baseline to 12 months for Group 1 (mycophenolate mofetil + sirolimus) was equal to that for Group 2 (mycophenolate mofetil + cyclosporine or tacrolimus) based on the intent-to-treat population.||33.2|4.2|0.012
82612467|NCT00121810|164942424|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3||||0.543||95.0|-9.6|18.2||P value comparing the treatment groups calculated using ANCOVA model treatment and baseline calcineurin inhibitor (cyclosporine or tacrolimus) type as factors and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||||18.2|-9.6|0.543
82612468|NCT00121810|164942425|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.8||||0.003||95.0|-17.9|-3.7||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||-3.7|-17.9|0.003
82612469|NCT00121810|164942425|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.0||||0.108||95.0|-35.4|3.5||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||3.5|-35.4|0.108
82492616|NCT01786668|164677994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.524||0.424|TWO_SIDED|95.0|-1.45|0.61|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.61|-1.45|0.424
82612470|NCT00121810|164942425|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-24.4||||0.039||95.0|-47.7|-1.2||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||-1.2|-47.7|0.039
82612471|NCT00121810|164942426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.7|||<|0.001||95.0|4.1|13.3||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||13.3|4.1|<0.001
82612472|NCT00121810|164942426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|6.9||||0.029||95.0|0.7|13.1||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||13.1|0.7|0.029
82612473|NCT00121810|164942426|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.8||||0.015||95.0|1.7|15.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||15.9|1.7|0.015
82612474|NCT00121810|164942427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5|||<|0.001||95.0|4.2|12.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||6 months||12.9|4.2|<0.001
82612475|NCT00121810|164942427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.8||||0.059||95.0|-0.2|11.9||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||12 months||11.9|-0.2|0.059
82612476|NCT00121810|164942427|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.5||||0.036||95.0|0.5|14.5||P value comparing the two treatment groups is calculated using ANCOVA with treatment and baseline calcineurin inhibitor type (cyclosporine or tacrolimus) as factors, and baseline measurement and time from transplant to randomization as covariates.|ANCOVA|||24 months||14.5|0.5|0.036
82612477|NCT03103750|164942431|SUPERIORITY|||||||0.016|||||||Mixed Models Analysis|||The primary hypothesis of calcitriol-related differences in amphetamine-induced dopamine release was determined by significance of the main effect of medication (calcitriol vs. placebo) on %change in BPND (i.e., post-Amp relative to pre-Amp scans) at a threshold of p\<0.05.||||0.016
82612478|NCT03103750|164942433|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82612479|NCT01522651|164942435|OTHER|Pairwise Comparative analysis|Percentage Difference|-19.8|STANDARD_ERROR_OF_MEAN|25.7||0.493|TWO_SIDED|95.0|-57.5|51.5||An equal-slopes analysis of covariance (ANCOVA) model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||51.5|-57.5|0.493
82612480|NCT01522651|164942435|OTHER|Pairwise Comparative analysis|Percentage Difference|8.8|STANDARD_ERROR_OF_MEAN|32.9||0.78|TWO_SIDED|95.0|-40.2|98.2||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||98.2|-40.2|0.780
82612481|NCT01522651|164942435|OTHER|Pairwise Comparative analysis|Percentage Difference|-57.0|STANDARD_ERROR_OF_MEAN|13.4||0.008|TWO_SIDED|95.0|-76.8|-20.1||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||-20.1|-76.8|0.008
82612482|NCT01522651|164942435|OTHER|Pairwise Comparative analysis|Percentage Difference|-42.6|STANDARD_ERROR_OF_MEAN|17.5||0.072|TWO_SIDED|95.0|-68.7|5.2||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||5.2|-68.7|0.072
82612483|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.315||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.315
82612484|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.049||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.049
82612485|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.275||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.275
82612486|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.002||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.002
82612487|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.028||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.028
82612488|NCT01522651|164942435|OTHER|Pairwise Comparative analysis||||||0.334||||||An equal-slopes ANCOVA model was fitted to log-transformed AFB over 12 weeks, with baseline AFB as the covariate. AFB values \< 1% (\> 99%) were set to 1% (99%) before transformation.|ANCOVA|||||||0.334
82612489|NCT02658656|164942438|SUPERIORITY||Risk Ratio (RR)|0.91||||0.798|TWO_SIDED|95.0|0.45|1.85|||Chi-squared|||||1.85|.45|0.798
82612490|NCT02658656|164942439|SUPERIORITY||Risk Ratio (RR)|0.97||||0.935|TWO_SIDED|95.0|0.44|2.15|||Chi-squared|||||2.15|0.44|0.935
82612491|NCT02658656|164942440|SUPERIORITY||Risk Ratio (RR)|0.93||||0.829|TWO_SIDED|95.0|0.49|1.79|||Chi-squared|||||1.79|0.49|0.829
82612492|NCT02658656|164942441|SUPERIORITY||Risk Ratio (RR)|1.09||||0.809|TWO_SIDED|95.0|0.56|2.11|||Chi-squared|||||2.11|0.56|0.809
82612493|NCT02658656|164942442|SUPERIORITY||Risk Ratio (RR)|1.15||||0.717|TWO_SIDED|95.0|0.54|2.47|||Chi-squared|||||2.47|0.54|0.717
82612494|NCT02658656|164942443|SUPERIORITY||Risk Ratio (RR)|1.11||||0.738|TWO_SIDED|95.0|0.61|2.02|||Chi-squared|||||2.02|0.61|0.738
82612495|NCT02772965|164942473|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.08|TWO_SIDED|95.0|0.45|1.05|||Log Rank|||||1.05|0.45|0.08
82612496|NCT02772965|164942474|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.4||0.32|TWO_SIDED||||||Mixed Models Analysis|||||||0.32
82612497|NCT02772965|164942475|SUPERIORITY||Mean Difference (Final Values)|-0.7|STANDARD_ERROR_OF_MEAN|1.8||0.69|TWO_SIDED||||||Mixed Models Analysis|||||||0.69
82612498|NCT02772965|164942476|SUPERIORITY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|1.6||0.72|TWO_SIDED||||||Mixed Models Analysis|||||||0.72
82612499|NCT02772965|164942477|SUPERIORITY||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|1.9||0.64|TWO_SIDED||||||Mixed Models Analysis|||||||0.64
82612500|NCT02772965|164942478|SUPERIORITY||Risk Ratio (RR)|0.71||||0.08|TWO_SIDED|95.0|0.49|1.04|||Chi-squared|||||1.04|0.49|0.08
82612501|NCT03046472|164942479|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82612502|NCT03046472|164942480|OTHER||||||<|0.001|||||||ANOVA|||||||<0.001
82612503|NCT03046472|164942481|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82612504|NCT02778867|164942505|OTHER|||||||0.58||||||α \< 0.05|Fisher Exact|Two-sided||||||0.58
82612505|NCT02778867|164942506|OTHER|||||||0.06||||||α \< 0.05|Fisher Exact|Two sided||||||0.06
82612506|NCT02778867|164942509|OTHER|||||||0.9||||||α \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.90
82612507|NCT02778867|164942510|OTHER|||||||0.22||||||α \< 0.05|t-test, 2 sided|Two sample t-test||||||0.22
82612508|NCT02778867|164942511|OTHER|||||||0.71||||||α \< 0.05|Wilcoxon (Mann-Whitney)|||||||0.71
82612509|NCT01290484|164942512|SUPERIORITY_OR_OTHER||Mean percentage volume change|-3.47||||||||||||||||||
82612510|NCT00960440|164942513|SUPERIORITY_OR_OTHER||Percentage Difference|23.69|STANDARD_ERROR_OF_MEAN|5.73|<|0.0001|TWO_SIDED|95.0|12.45|34.92||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% confidence interval (CI) was evaluated for the difference in percentages.||34.92|12.45|<0.0001
82612511|NCT00960440|164942513|SUPERIORITY_OR_OTHER||Percentage Difference|17.23|STANDARD_ERROR_OF_MEAN|5.7||0.0024|TWO_SIDED|95.0|6.06|28.41||A step-down procedure was used to control for multiple comparisons. In order for the comparison to 5 mg to be statistically significant, the comparison to 10 mg had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||28.41|6.06|0.0024
82612512|NCT00960440|164942514|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.38|-0.17||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in ACR20 had to be significant.|Mixed Models Analysis|||Least squares mean difference (LS Mean Difference) and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatment, visit, treatment by visit interaction, and geographic region as fixed effects and participants as a random effect.||-0.17|-0.38|<0.0001
82612513|NCT00960440|164942514|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.05|<|0.0001|TWO_SIDED|95.0|-0.36|-0.15||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as the comparison of 5 mg to placebo in ACR20 had to be statistically significant.|Mixed Models Analysis|||LS Mean Difference and corresponding 95% CI was calculated using a mixed effect repeated measure model with treatment, visit, treatment by visit interaction, and geographic region as fixed effects and participants as a random effect.||-0.15|-0.36|<0.0001
82612514|NCT00960440|164942515|SUPERIORITY_OR_OTHER||Percentage Difference|9.53|STANDARD_ERROR_OF_MEAN|3.05||0.0017|TWO_SIDED|95.0|3.54|15.51||A step-down procedure was used to control for multiple comparisons. For the comparison of 10 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 10 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||15.51|3.54|0.0017
82612515|NCT00960440|164942515|SUPERIORITY_OR_OTHER||Percentage Difference|5.05|STANDARD_ERROR_OF_MEAN|2.57||0.0496|TWO_SIDED|95.0|0.0|10.1||Step-down procedure: For the comparison of 5 mg to placebo to be statistically significant in this measure, the comparison of 10 mg to placebo as well as comparison of 5 mg to placebo in HAQ-DI had to be statistically significant.|Normal Approximation|||Normal approximation for the difference in binomial proportions was used to test the superiority of CP-690,550 5 mg to placebo and 2-sided 95% CI was evaluated for the difference in percentages.||10.10|0.00|0.0496
82612516|NCT03504774|164942560|OTHER||Mean Difference (Net)|0.6||||0.3|TWO_SIDED||||||Mixed Models Analysis|||analysis of the change from baseline in CD28 expression||||0.30
82612517|NCT03504774|164942561|OTHER||Mean Difference (Net)|0.9||||0.82|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 52||||0.82
82612518|NCT03504774|164942561|OTHER||Mean Difference (Net)|1.2||||0.053|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis on the change from baseline to week 58||||0.053
82612519|NCT03504774|164942561|OTHER||Mean Difference (Net)|0.3||||0.062|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from week 52 to week 58||||0.062
82658358|NCT04239872|165033387|SUPERIORITY||Mean Difference (Net)|-0.1135||||0.2041|TWO_SIDED|95.0|-0.2964|0.06929||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 15 pairs of data, DF=14|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.06929|-0.2964|0.2041
82658359|NCT04239872|165033388|SUPERIORITY||Mean Difference (Net)|1.095|||<|0.0001|TWO_SIDED|95.0|0.7736|1.416||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.416|0.7736|<0.0001
82492617|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.203||0.785|TWO_SIDED|95.0|-0.34|0.46|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.46|-0.34|0.785
82492618|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.203||0.605|TWO_SIDED|95.0|-0.3|0.51|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.51|-0.30|0.605
82612520|NCT03504774|164942561|OTHER||Mean Difference (Net)|0.2||||0.3|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 52||||0.30
82612521|NCT03504774|164942561|OTHER||Mean Difference (Net)|1.0||||0.54|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from baseline to week 58||||0.54
82612522|NCT03504774|164942561|OTHER||Mean Difference (Net)|1.2||||0.82|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change from week 52 to week 58||||0.82
82612523|NCT03504774|164942562|OTHER||Mean Difference (Net)|4.8||||0.25|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 52||||0.25
82612524|NCT03504774|164942562|OTHER||Mean Difference (Net)|10.8||||0.24|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 58||||0.24
82612525|NCT03504774|164942562|OTHER||Mean Difference (Net)|6.0||||0.61|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from week 52 to week 58||||0.61
82612526|NCT03504774|164942562|OTHER||Mean Difference (Net)|8.5||||0.034|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 52||||0.034
82612527|NCT03504774|164942562|OTHER||Mean Difference (Net)|0.8||||0.45|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from baseline to week 58||||0.45
82612528|NCT03504774|164942562|OTHER||Mean Difference (Net)|7.7||||0.12|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in INFG from week 52 to week 58||||0.12
82612529|NCT03504774|164942562|OTHER||Mean Difference (Net)|1.0||||0.83|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 52||||0.83
82612530|NCT03504774|164942562|OTHER||Mean Difference (Net)|2.0||||0.67|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 58||||0.67
82612531|NCT03504774|164942562|OTHER||Mean Difference (Net)|1.0||||0.8|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from week 52 to week 58||||0.80
82612532|NCT03504774|164942562|OTHER||Mean Difference (Net)|1.7||||0.46|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 52||||0.46
82612533|NCT03504774|164942562|OTHER||Mean Difference (Net)|3.2||||0.48|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from baseline to week 58||||0.48
82612534|NCT03504774|164942562|OTHER||Mean Difference (Net)|3.2||||0.25|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL4 from week 52 to week 58||||0.25
82612535|NCT03504774|164942562|OTHER||Mean Difference (Net)|2.6||||0.14|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 52||||0.14
82612536|NCT03504774|164942562|OTHER||Mean Difference (Net)|0.6||||0.73|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 58||||0.73
82612537|NCT03504774|164942562|OTHER||Mean Difference (Net)|2.0||||0.16|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from week 52 to week 58||||0.16
82612538|NCT03504774|164942562|OTHER||Mean Difference (Net)|1.8||||0.47|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 52||||0.47
82612539|NCT03504774|164942562|OTHER||Mean Difference (Net)|1.1||||0.84|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from baseline to week 58||||0.84
82612540|NCT03504774|164942562|OTHER||Mean Difference (Net)|0.7||||0.55|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in IL10 from week 52 to week 58||||0.55
82612541|NCT03504774|164942563|OTHER||Mean Difference (Net)|2269.0||||0.23|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 52||||0.23
82612542|NCT03504774|164942563|OTHER||Mean Difference (Net)|1311.0||||0.12|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 58||||0.12
82612543|NCT03504774|164942563|OTHER||Mean Difference (Net)|958.0||||0.79|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from week 52 to week 58||||0.79
82612544|NCT03504774|164942563|OTHER||Mean Difference (Net)|347.0||||0.29|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 52||||0.29
82612545|NCT03504774|164942563|OTHER||Mean Difference (Net)|4364.0||||0.29|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from baseline to week 58||||0.29
82612546|NCT03504774|164942563|OTHER||Mean Difference (Net)|4017.0||||0.42|TWO_SIDED||||||Mixed Models Analysis|||within-group analysis of change in GPR15 from week 52 to week 58||||0.42
82612547|NCT00719576|164942568|SUPERIORITY|The Wilks lambda test statistic and associated single P value from the MANOVA model were used to test the statistical significance of the difference in the co-primary endpoint between MACI and microfracture.||||||0.001|||||||MANOVA|||The changes from Baseline to Week 104 in KOOS Pain and Function (SRA) scores (co-primary efficacy parameter) were analyzed with a multivariate analysis of variance (MANOVA) model, with the last observation carried forward (LOCF) method for handling missing data. Terms included in the model are treatment and center as class variables and baseline KOOS pain and Function (SRA) as continuous covariates.||||0.001
82612548|NCT00719576|164942569|SUPERIORITY_OR_OTHER_LEGACY|||||||0.717||||||Differences between groups were tested using analysis of variance|ANOVA|ANOVA with terms for treatment and center||||||.717
82612549|NCT00719576|164942570|SUPERIORITY|||||||0.92|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Row Mean Score Chi-Square||Differences between groups were tested by the Cochran-Mantel-Haenszel row mean score chi-squared test for defect fill.||||.920
82612550|NCT00719576|164942571|SUPERIORITY|||||||0.016||||||KOOS Response Rate: a participant is regarded as a responder for KOOS if a 10-point improvement in both KOOS Pain and Function (SRA) scores was achieved with respect to Baseline. Otherwise, the patient is regarded as a nonresponder.|Cochran-Mantel-Haenszel|p-value was calculated for response categories 'Responded' and 'Not responded' using a Cochran-Mantel-Haenszel χ2 Test stratified by Center||Differences between groups were tested by the Cochran-Mantel-Haenszel chi-squared test stratified by center for responders.||||0.016
82612551|NCT00719576|164942573|SUPERIORITY||||||<|0.001||||||KOOS activities of daily living p-value \<0.001|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||<0.001
82612552|NCT00719576|164942573|SUPERIORITY|||||||0.029||||||KOOS knee-related quality of life p-value 0.029|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||0.029
82612553|NCT00719576|164942573|SUPERIORITY||||||<|0.001||||||KOOS other symptoms p-value \<0.001|ANCOVA|||Analysis of covariance was conducted with treatment and center as fixed effects and Baseline subscale as covariate, conducted at α = 0.05 level of significance. Last observation carried forward was used for missing data imputation.||||<0.001
82612554|NCT02214186|164942596|SUPERIORITY_OR_OTHER||||||<|0.05|ONE_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
82612555|NCT02214186|164942597|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
82612556|NCT02214186|164942598|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|ANOVA for repeated measures||||||<0.05
82612557|NCT02214186|164942599|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
82612558|NCT02214186|164942600|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|ANOVA for repeated measures.||||||>0.05
82612559|NCT02214186|164942601|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Mann-Whitney followed by Friedman test||||||<0.05
82612560|NCT02214186|164942602|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82612561|NCT02214186|164942603|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|ANOVA for repeated measures.||||||<0.05
82658360|NCT04239872|165033389|SUPERIORITY||Mean Difference (Net)|1.469|||<|0.0001|TWO_SIDED|95.0|1.112|1.825||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.825|1.112|<0.0001
82612562|NCT02214186|164942604|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82612563|NCT01525849|164942605|NON_INFERIORITY_OR_EQUIVALENCE|Significance level=0.025 (1-sided alpha), power=90%, delta=0.8, true difference=0, SD for both arms=1.0. A total sample size of 72 participants (36 per arm) was required to test the hypothesis.|||||<|0.001|||||||t-test, 1 sided|||Non-inferiority test to demonstrate that the long-term (1-year) change in sinus symptoms (overall SNOT-20 score) after balloon dilation is not worse than after FESS.||||<0.001
82612564|NCT01525849|164942606|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 1 sided|||Test for superiority of balloon dilation over FESS. Significance level=0.025 (1-sided alpha), power=90%, BD estimate=0.5, FESS estimate=1.5, SD for both arms=1.0. A total sample size of 46 participants (23 per arm) was required to test the hypothesis.||||<0.0001
82612565|NCT01525849|164942607|SUPERIORITY_OR_OTHER|||||||0.628|||||||t-test, 2 sided|||||||0.628
82612566|NCT01525849|164942609|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82612567|NCT01469013|164942610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82612568|NCT01469013|164942612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||Cochran-Armitage trend test|||||||0.009
82612569|NCT00339183|164942630|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-2.91||||0.0036|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer progression-free survival time.|An overall 5% significance level was used to compare treatments with respect to both overall survival (OS) and PFS. A 4% and 1% level (2-sided) was used to independently test OS and PFS, respectively.||||0.0036
82612570|NCT00339183|164942630|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.46||||0.1448|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer progression-free survival time.|PFS in the Mutant Efficacy Analysis Set was compared at a 1% level conditional upon first demonstrating a significant difference in PFS in the Wild-type KRAS Efficacy Analysis Set.||||0.1448
82612571|NCT00339183|164942631|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-1.57||||0.1154|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer overall survival time.|An overall 5% significance level was used to compare treatments with respect to both overall survival (OS) and PFS. A 4% and 1% level (2-sided) was used to independently test OS and PFS, respectively.||||0.1154
82612572|NCT00339183|164942631|SUPERIORITY_OR_OTHER_LEGACY||Normal score|-0.6||||0.5503|||||||Stratified log-rank test|P-value based on a 2-sided log-rank test stratified by ECOG (0 or 1 vs. 2), prior bevacizumab exposure, and prior oxaliplatin exposure (yes or no).|A normal score \<0 indicates fewer than expected events for the Panitumumab plus FOLFIRI arm and therefore a longer overall survival time.|The treatment effect on OS in the Mutant KRAS Efficacy Analysis Set was compared at the 4% level conditional on first demonstrating a significant OS treatment effect in the Wild-type KRAS Efficacy Analysis Set.||||0.5503
82658361|NCT04239872|165033390|SUPERIORITY||Mean Difference (Net)|1.549|||<|0.0001|TWO_SIDED|95.0|1.081|2.017||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||2.017|1.081|<0.0001
82612573|NCT00339183|164942632|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.33|||<|0.0001|TWO_SIDED|95.0|3.21|8.6|||Stratified exact test|Adjusted for ECOG score, prior bevacizumab exposure, prior oxaliplatin exposure.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFIRI alone arm.|||8.60|3.21|<0.0001
82612574|NCT00339183|164942632|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.56|1.76|||Stratified exact test|Adjusted for ECOG score, prior bevacizumab exposure, prior oxaliplatin exposure.|The odds ratio is defined as the odds of having an objective response in the panitumumab plus arm relative to the odds on the FOLFIRI alone arm.|||1.76|0.56|1.0000
82612575|NCT00076219|164942636|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09|STANDARD_ERROR_OF_MEAN|0.12||0.47|TWO_SIDED|95.0|0.86|1.4|||Regression, Logistic|||||1.40|0.86|0.47
82612576|NCT04392011|164942651|OTHER||AUC ratio (geometric mean)|1.39|||||TWO_SIDED|90.0|1.23|1.57||||||||1.57|1.23|
82612577|NCT04392011|164942652|OTHER||AUC ratio (geometric mean)|0.99|||||TWO_SIDED|90.0|0.83|1.19||||||||1.19|0.83|
82658362|NCT04239872|165033391|SUPERIORITY||Mean Difference (Net)|-115.6||||0.5543|TWO_SIDED|95.0|-584.8|353.6||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 6 pairs of data, DF=5|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||353.6|-584.8|0.5543
82492619|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.204||0.175|TWO_SIDED|95.0|-0.68|0.12|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||0.12|-0.68|0.175
82612578|NCT04392011|164942654|OTHER||Cmax ratio (midazolam)|1.5|||||TWO_SIDED|90.0|1.32|1.7||||||||1.70|1.32|
82612579|NCT04392011|164942654|OTHER||Cmax ratio (dextromethorphan)|0.96|||||TWO_SIDED|90.0|0.78|1.19||||||||1.19|0.78|
82612580|NCT04392011|164942656|OTHER||half-life ratio (dextromethorphan)|1.0|||||TWO_SIDED|90.0|0.92|1.08||||||||1.08|0.92|
82612581|NCT04392011|164942656|OTHER||half-life ratio (midazolam)|1.07|||||TWO_SIDED|90.0|0.98|1.17||||||||1.17|0.98|
82612582|NCT03078608|164942721|SUPERIORITY||F statistic|0.0||||1|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||1.00
82612583|NCT03078608|164942722|SUPERIORITY||F statistic|2.58||||0.11|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.11
82612584|NCT03078608|164942723|SUPERIORITY||F statistic|0.07||||0.79|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.79
82612585|NCT03078608|164942724|SUPERIORITY||F statistic|1.17||||0.29|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.29
82612586|NCT03078608|164942725|SUPERIORITY||F statistic|0.18||||0.67|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.67
82612587|NCT03078608|164942726|SUPERIORITY||F statistic|1.41||||0.24|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.24
82612588|NCT03078608|164942727|SUPERIORITY||F statistic|1.36||||0.25|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.25
82612589|NCT03078608|164942728|SUPERIORITY||F statistic|0.53||||0.47|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.47
82658363|NCT04239872|165033392|SUPERIORITY||Mean Difference (Net)|1.328||||0.0003|TWO_SIDED|95.0|0.842|1.814||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 8 pairs of data, DF=7|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.814|0.8420|0.0003
82492620|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.232||0.482|TWO_SIDED|95.0|-0.29|0.62|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.62|-0.29|0.482
82612590|NCT03078608|164942729|SUPERIORITY||F statistic|1.54||||0.23|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.23
82612591|NCT03078608|164942730|SUPERIORITY||F statistic|0.8||||0.39|TWO_SIDED||||||ANOVA|Repeated measures ANOVA||||||0.39
82612592|NCT03303339|164942731|OTHER||Maximum Tolerated Dose|60.0|||||TWO_SIDED|||||||||||||
82612593|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.54|0.92||||||Public insurance||0.92|0.54|
82612594|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.92|||||TWO_SIDED|95.0|1.5|2.46||||||Diabetes support service available||2.46|1.50|
82492621|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.231||0.288|TWO_SIDED|95.0|-0.7|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.21|-0.70|0.288
82612595|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.85|||||TWO_SIDED|95.0|1.38|2.49||||||Baseline HbA1c \> 7.80 (reference:HbA1c≤7.80 median)||2.49|1.38|
82612596|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.54|||||TWO_SIDED|95.0|1.15|2.07||||||Baseline HbA1c missing (reference:HbA1c≤7.80 median)||2.07|1.15|
82492622|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.233||0.278|TWO_SIDED|95.0|-0.71|0.21|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||0.21|-0.71|0.278
82612597|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|1.46|||||TWO_SIDED|95.0|1.13|1.88||||||Diabetes duration \> 11 years||1.88|1.13|
82612598|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|0.98|||||TWO_SIDED|95.0|0.97|1.0||||||Age (per year increase)||1.00|0.97|
82612599|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|10.5|||||TWO_SIDED|95.0|3.3|33.41||||||Baseline insulin therapy: combination||33.41|3.30|
82612600|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|5.71|||||TWO_SIDED|95.0|1.77|18.37||||||Baseline insulin therapy: prandial only||18.37|1.77|
82612601|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy.|Odds Ratio (OR)|4.16|||||TWO_SIDED|95.0|3.02|5.73||||||Baseline insulin therapy: pre-mixed only||5.73|3.02|
82612602|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy. IPC ranges from 1-5 with higher scores indicating more discrimination.|Odds Ratio (OR)|0.5|||||TWO_SIDED|95.0|0.39|0.65||||||Discrimination domain of the IPC||0.65|0.39|
82612603|NCT01400971|164942746|OTHER|Multivariable logistic regression model examined baseline participant-, physician-, and healthcare system-related factors associated with the occurrence of any change in insulin therapy. Diabetes Distress Scale ranges from 1-6 with higher scores indicating more distress.|Odds Ratio (OR)|0.74|||||TWO_SIDED|95.0|0.57|0.95||||||Diabetes Distress Scale total score \> 2||0.95|0.57|
82612610|NCT02222129|164942797|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Statistical analysis was performed using SAS, version 9.2 (Statistical Analysis Software, Cary, NC). All power calculations were at the 80% level with an alpha of 0.05. Based upon opioid consumption data previously reported for robotic-assisted laparoscopic prostatectomy, a sample size of 74 would be necessary to detect a 10 mg difference in morphine equivalents totaled over the entire hospital stay. (Webster TM, Herrell SD, Chang SS, et al. The Journal of Urology 2005;174(3):912-914.||||0.39
82612611|NCT02144220|164942810|SUPERIORITY_OR_OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
82612612|NCT03242759|164942844|OTHER|||||||0.505|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.505
82612613|NCT03242759|164942844|OTHER|||||||0.181|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.181
82612614|NCT03242759|164942845|OTHER|||||||0.571|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.571
82492623|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.254||0.134|TWO_SIDED|95.0|-0.12|0.88|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.88|-0.12|0.134
82612615|NCT03242759|164942845|OTHER|||||||0.232|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.232
82658364|NCT04239872|165033393|SUPERIORITY||Mean Difference (Net)|-0.09023||||0.2824|TWO_SIDED|95.0|-0.2613|0.08082||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 19 pairs of data, DF=18|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.08082|-0.2613|0.2824
82492624|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.254||0.397|TWO_SIDED|95.0|-0.29|0.72|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.72|-0.29|0.397
82612616|NCT03242759|164942846|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
82612617|NCT03242759|164942846|OTHER|||||||0.375|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.375
82612618|NCT03242759|164942847|OTHER|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.027
82612619|NCT03242759|164942847|OTHER|||||||0.938|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.938
82612620|NCT03242759|164942848|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.001
82612621|NCT03242759|164942848|OTHER|||||||0.048|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.048
82612622|NCT03242759|164942849|OTHER|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.018
82612623|NCT03242759|164942849|OTHER|||||||0.125|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.125
82612624|NCT03242759|164942850|OTHER|||||||0.073|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.073
82612625|NCT03242759|164942850|OTHER|||||||0.755|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.755
82612626|NCT03242759|164942851|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
82612627|NCT03242759|164942851|OTHER|||||||0.281|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.281
82612628|NCT03242759|164942852|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
82612629|NCT03242759|164942852|OTHER|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.008
82612630|NCT03242759|164942853|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
82612631|NCT03242759|164942853|OTHER|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.031
82612632|NCT03242759|164942855|OTHER||||||<|0.001|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||< 0.001
82612633|NCT03242759|164942855|OTHER|||||||0.939|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.939
82612634|NCT03242759|164942856|OTHER|||||||0.169|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.169
82612635|NCT03242759|164942856|OTHER|||||||0.545|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.545
82612636|NCT03242759|164942857|OTHER|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||Intra-group difference comparing to baseline was analyzed.||||0.333
82612637|NCT03242759|164942857|OTHER|||||||0.786|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.786
82612638|NCT03242759|164942858|OTHER|||||||0.245|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.245
82658365|NCT04239872|165033394|SUPERIORITY||Mean Difference (Net)|0.6269||||0.0002|TWO_SIDED|95.0|0.3488|0.905||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.9050|0.3488|0.0002
82492625|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.257||0.964|TWO_SIDED|95.0|-0.5|0.52|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||0.52|-0.50|0.964
82492626|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38|STANDARD_ERROR_OF_MEAN|0.269||0.155|TWO_SIDED|95.0|-0.15|0.91|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.91|-0.15|0.155
82492627|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19|STANDARD_ERROR_OF_MEAN|0.269||0.491|TWO_SIDED|95.0|-0.34|0.72|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.72|-0.34|0.491
82612639|NCT03242759|164942858|OTHER|||||||0.454|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.454
82612640|NCT03242759|164942859|OTHER|||||||0.543|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.543
82612641|NCT03242759|164942859|OTHER|||||||0.733|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.733
82612642|NCT03242759|164942860|OTHER|||||||0.046|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.046
82612643|NCT03242759|164942860|OTHER|||||||0.898|||||||Paired t-test|||Intra-group difference comparing to baseline was analyzed.||||0.898
82612644|NCT03415464|164942863|OTHER|||||||0.134|||||||Chi-squared|||||||0.134
82612645|NCT02986958|164942900|OTHER|We used generalized estimating equations with an exchangeable correlation structure to assess the direction, magnitude, and statistical significance of between-group differences. Regression models included treatment assignment and patient-level covariates (patient age, gender, and MMSE score) that were postulated as affecting communication outcomes. Statistical tests were 2-sided with a significance level of 0.05. Analyses were performed in SAS statistical software, version 9.4 (SAS, Cary, NC).|Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.08||0.046|TWO_SIDED||||||t-test, 2 sided|||||||0.046
82612646|NCT00798967|164942908|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0||||Cochran-Mantel-Haenszel (CMH) test adjusted for the randomization stratification variable (\<= 6 or \> 6 L/week of PN at baseline)|Cochran-Mantel-Haenszel|||||||0.002
82612647|NCT00798967|164942909|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||Last Dosing Visit||||< 0.001
82612648|NCT01354691|164942910|SUPERIORITY||||||<|0.67|||||||ANCOVA|||||||<0.67
82612649|NCT01354691|164942911|SUPERIORITY||||||<|0.21|||||||ANCOVA|||||||<0.21
82612650|NCT01354691|164942912|SUPERIORITY||||||<|0.78|||||||ANCOVA|||||||<0.78
82612651|NCT01354691|164942913|SUPERIORITY||||||=|0.83|||||||ANCOVA|||||||=0.83
82612652|NCT01354691|164942914|SUPERIORITY||||||=|0.77|||||||ANCOVA|||||||=.77
82612653|NCT00227877|164942915|SUPERIORITY||Adjusted Relative Risk Ratio|1.39|STANDARD_ERROR_OF_MEAN|0.18|<|0.05|TWO_SIDED|95.0|1.08|1.8|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.80|1.08|< 0.05
82612654|NCT00227877|164942916|SUPERIORITY||Adjusted Relative Risk Ratio|0.7|STANDARD_ERROR_OF_MEAN|0.25||0.32|TWO_SIDED|95.0|0.34|1.42|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.42|0.34|.32
82612655|NCT00227877|164942917|SUPERIORITY||Adjusted Relative Risk Ratio|1.8|STANDARD_ERROR_OF_MEAN|0.55||0.05|TWO_SIDED|95.0|0.99|3.27|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|||Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|3.27|.99|0.05
82612656|NCT00227877|164942918|SUPERIORITY||Adjusted Relative Risk Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.16||0.23|TWO_SIDED|95.0|0.53|1.16|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age; gender; parent education; number of parents in home; visit type; perceived parent, sibling, and peer substance use; provider gender; and connectedness to provider.|||1.16|.53|0.23
82612657|NCT00227877|164942919|SUPERIORITY||Adjusted Relative Risk Ratio|1.52|STANDARD_ERROR_OF_MEAN|0.34||0.07|TWO_SIDED|95.0|0.97|2.36|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age and gender.|||2.36|.97|.07
82612658|NCT00227877|164942920|SUPERIORITY||Adjusted Relative Risk Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.41||0.93|TWO_SIDED|95.0|0.42|2.21|||Regression, Logistic||Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age and gender.|||2.21|.42|.93
82612659|NCT00227877|164942921|SUPERIORITY||Adjusted Relative Risk Ratio|0.85|STANDARD_ERROR_OF_MEAN|0.5||0.78|TWO_SIDED|95.0|0.27|2.7|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Cessation)/(Control Cessation) controlling for age and gender.|||2.70|.27|.78
82612660|NCT00227877|164942922|SUPERIORITY||Adjusted Relative Risk Ratio|0.74|STANDARD_ERROR_OF_MEAN|0.15||0.13|TWO_SIDED|95.0|0.51|1.09|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention Initiation)/(Control Initiation) controlling for age and gender.|||1.09|.51|.13
82612661|NCT00227877|164942923|SUPERIORITY||Adjusted Relative Risk Ratio|0.66|STANDARD_ERROR_OF_MEAN|0.11||0.66|TWO_SIDED|95.0|0.48|0.91|||Regression, Logistic|Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Risk Ratio: (Intervention)/(Control) controlling for age; gender; parent education; number of parents in home; visit type; provider gender; connectedness to provider, and baseline DRWI risk.|||.91|.48|.66
82612662|NCT00227877|164942924|SUPERIORITY||Adjusted Relative Risk Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.13||0.35|TWO_SIDED|95.0|0.64|1.17||Group Conditional Risk Ratio adjusting for the multi-site sample design using GEE logistic regression (SUDAAN 10.0)|Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; parent education; number of parents in home; visit type; provider gender; connectedness to provider, and baseline DRWI risk.|||1.17|.64|.35
82612663|NCT00227877|164942925|SUPERIORITY||Adjusted Relative Risk Ratio|0.63|STANDARD_ERROR_OF_MEAN|0.1|<|0.01|TWO_SIDED|95.0|0.46|0.87|||Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; connectedness to provider, and baseline DRWI risk.|||.87|.46|<.01
82658366|NCT04239872|165033395|SUPERIORITY||Mean Difference (Net)|0.8946|||<|0.0001|TWO_SIDED|95.0|0.6671|1.122||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.122|0.6671|<0.0001
82492628|NCT01786668|164677995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.271||0.515|TWO_SIDED|95.0|-0.71|0.36|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||0.36|-0.71|0.515
82612664|NCT00227877|164942926|SUPERIORITY||Adjusted Relative Risk Ratio|0.73|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|0.54|0.98|||Regression, Logistic||Risk Ratio: (Intervention)/(Control) controlling for age; gender; connectedness to provider, and baseline DRWI risk.|||.98|.54|< 0.05
82612665|NCT03141307|164942933|EQUIVALENCE|95% margin|||||<|0.001||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.001
82612666|NCT03141307|164942934|EQUIVALENCE|95% margin|||||<|0.05||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.05
82612667|NCT03141307|164942935|EQUIVALENCE|95% margin|||||=|0.502||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||=.502
82612668|NCT03141307|164942936|EQUIVALENCE|95% margin|||||=|0.071||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||=.071
82612669|NCT03141307|164942937|EQUIVALENCE|95% margin|||||=|0.124||||||a prior threshold for statistical significance set for p \< .05.|t-test, 2 sided|||||||=.124
82612670|NCT03141307|164942938|EQUIVALENCE|95% margin|||||<|0.05||||||a priori threshold for statistical significance set for p \< .05|t-test, 2 sided|||||||<.05
82612671|NCT01663740|164942945|SUPERIORITY_OR_OTHER||Mean Difference|-40.166|STANDARD_ERROR_OF_MEAN|14.1387||0.0075|TWO_SIDED|95.0|-68.869|-11.463|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from Baseline to EOT|||-11.463|-68.869|0.0075
82612672|NCT01663740|164942946|SUPERIORITY_OR_OTHER||Mean Difference|1.758|STANDARD_ERROR_OF_MEAN|2.646||0.5109|TWO_SIDED|95.0|-3.619|7.135|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from Baseline to EOT|||7.135|-3.619|0.5109
82612673|NCT01663740|164942946|SUPERIORITY_OR_OTHER||Mean Difference|-1.051|STANDARD_ERROR_OF_MEAN|3.2058||0.7449|TWO_SIDED|95.0|-7.566|5.464|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from Baseline to end of FU|||5.464|-7.566|0.7449
82612674|NCT01663740|164942947|SUPERIORITY_OR_OTHER||Mean Difference|2.869|STANDARD_ERROR_OF_MEAN|3.2934||0.394|TWO_SIDED|95.0|-4.001|9.739|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline TUNEL score,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in TUNEL score from EOT to end of FU|||9.739|-4.001|0.3940
82612675|NCT01663740|164942948|SUPERIORITY_OR_OTHER||Mean Difference|0.155|STANDARD_ERROR_OF_MEAN|0.3687||0.6773|TWO_SIDED|95.0|-0.594|0.903|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from Basline to EOT|||0.903|-0.594|0.6773
82612676|NCT01663740|164942948|SUPERIORITY_OR_OTHER||Mean Difference|-0.128|STANDARD_ERROR_OF_MEAN|0.3343||0.7046|TWO_SIDED|95.0|-0.806|0.551|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from Baseline to end of FU|||0.551|-0.806|0.7046
82612677|NCT01663740|164942949|SUPERIORITY_OR_OTHER||Mean Difference|-0.128|STANDARD_ERROR_OF_MEAN|0.3684||0.7323|TWO_SIDED|95.0|-0.888|0.633|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline semen volume,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in seminal volume from EOT to end of FU|||0.633|-0.888|0.7323
82658367|NCT04239872|165033396|SUPERIORITY||Mean Difference (Net)|0.973|||<|0.0001|TWO_SIDED|95.0|0.7597|1.186||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.186|0.7597|<0.0001
82658368|NCT04239872|165033397|SUPERIORITY||Mean Difference (Net)|0.9827|||<|0.0001|TWO_SIDED|95.0|0.7758|1.19||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.19|0.7758|<0.0001
82658369|NCT04239872|165033398|SUPERIORITY||Mean Difference (Net)|0.9181|||<|0.0001|TWO_SIDED|95.0|0.6573|1.179||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 19 pairs of data, DF=18|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.179|0.6573|<0.0001
82658370|NCT04239872|165033403|SUPERIORITY||Mean Difference (Net)|-0.05652||||0.3283|TWO_SIDED|95.0|-0.1762|0.06829||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 15 pairs of data, DF=14|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.06829|-0.1762|0.3283
82658371|NCT04239872|165033404|SUPERIORITY||Mean Difference (Net)|0.3411||||0.0058|TWO_SIDED|95.0|0.1189|0.5633||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5633|0.1189|0.0058
82658372|NCT04239872|165033405|SUPERIORITY||Mean Difference (Net)|0.2976||||0.0213|TWO_SIDED|95.0|0.05266|0.5426||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5426|0.05266|0.0213
82658373|NCT04239872|165033406|SUPERIORITY||Mean Difference (Net)|0.312||||0.014|TWO_SIDED|95.0|0.07454|0.5495||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.5495|0.07454|0.014
82612678|NCT01663740|164942950|SUPERIORITY_OR_OTHER||Mean Difference|51.267|STANDARD_ERROR_OF_MEAN|36.6869||0.1756|TWO_SIDED|95.0|-24.626|127.159|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from EOT to end of FU|||127.159|-24.626|0.1756
82658374|NCT04239872|165033407|SUPERIORITY||Mean Difference (Net)|0.2524||||0.1393|TWO_SIDED|95.0|-0.09153|0.5962||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.5962|-0.09153|0.1393
82658375|NCT04239872|165033408|SUPERIORITY||Mean Difference (Net)|0.2921||||0.0009|TWO_SIDED|95.0|0.1414|0.4427||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.4427|0.1414|0.0009
82658376|NCT04239872|165033409|SUPERIORITY||Mean Difference (Net)|0.2433||||0.0008|TWO_SIDED|95.0|0.1195|0.3671||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.3671|0.1195|0.0008
82658377|NCT04239872|165033410|SUPERIORITY||Mean Difference (Net)|0.3306||||0.1515|TWO_SIDED|95.0|-0.1356|0.7969||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 16 pairs of data, DF=15|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.7969|-0.1356|0.1515
82658378|NCT04239872|165033411|SUPERIORITY||Mean Difference (Net)|0.04851||||0.1712|TWO_SIDED|95.0|-0.02327|0.1203||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 17 pairs of data, DF=16|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.1203|-0.02327|0.1712
82492629|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|STANDARD_ERROR_OF_MEAN|1.312||0.006|TWO_SIDED|95.0|1.06|6.24|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.24|1.06|0.006
82612679|NCT01663740|164942951|SUPERIORITY_OR_OTHER||Mean Difference|-10.195|STANDARD_ERROR_OF_MEAN|19.5745||0.6058|TWO_SIDED|95.0|-49.934|29.543|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm density,age,\& duration of pre-transplant dialysis as explanatory variables.|Change in sperm density from Baseline to end of FU|||29.543|-49.934|0.6058
82612680|NCT01663740|164942952|SUPERIORITY_OR_OTHER||Mean Difference|-21.828|STANDARD_ERROR_OF_MEAN|9.1214||0.0222|TWO_SIDED|95.0|-40.346|-3.311|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from Baseline to EOT|||-3.311|-40.346|0.0222
82612681|NCT01663740|164942952|SUPERIORITY_OR_OTHER||Mean Difference|-9.802|STANDARD_ERROR_OF_MEAN|8.3702||0.2495|TWO_SIDED|95.0|-26.795|7.19|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from Baseline to end of FU|||7.190|-26.795|0.2495
82612682|NCT01663740|164942953|SUPERIORITY_OR_OTHER||Mean Difference|-11.683|STANDARD_ERROR_OF_MEAN|12.2576||0.3505|TWO_SIDED|95.0|-37.039|13.674|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm motility,age,duration of pre-transplant dialysis as explanatory variables.|Change in total motility of sperm from EOT to end of FU|||13.674|-37.039|0.3505
82612683|NCT01663740|164942954|SUPERIORITY_OR_OTHER||Mean Difference|-5.741|STANDARD_ERROR_OF_MEAN|6.7578||0.4021|TWO_SIDED|95.0|-19.524|8.042|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from Baseline to EOT|||8.042|-19.524|0.4021
82612684|NCT01663740|164942954|SUPERIORITY_OR_OTHER||Mean Difference|-1.854|STANDARD_ERROR_OF_MEAN|5.1817||0.7229|TWO_SIDED|95.0|-12.423|8.714|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from Baseline to end of FU|||8.714|-12.423|0.7229
82612685|NCT01663740|164942955|SUPERIORITY_OR_OTHER||Mean Difference|-2.95|STANDARD_ERROR_OF_MEAN|7.7598||0.708|TWO_SIDED|95.0|-19.192|13.291|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline sperm morphology,age,pre-transplant dialysis duration as explanatory variables.|Change in sperm morphology from EOT to end of FU|||13.291|-19.192|0.7080
82612686|NCT01663740|164942956|SUPERIORITY_OR_OTHER||Mean Difference|-1.861|STANDARD_ERROR_OF_MEAN|1.6512||0.2673|TWO_SIDED|95.0|-5.213|1.491|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from Baseline to EOT|||1.491|-5.213|0.2673
82658379|NCT04239872|165033412|SUPERIORITY||Mean Difference (Net)|0.2789||||0.1188|TWO_SIDED|95.0|-0.07934|0.6371||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 18 pairs of data, DF=17|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||0.6371|-0.07934|0.1188
82612687|NCT01663740|164942956|SUPERIORITY_OR_OTHER||Mean Difference|-1.114|STANDARD_ERROR_OF_MEAN|1.6147||0.4949|TWO_SIDED|95.0|-4.392|2.164|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from Baseline to end of FU|||2.164|-4.392|0.4949
82612688|NCT01663740|164942957|SUPERIORITY_OR_OTHER||Mean Difference|0.047|STANDARD_ERROR_OF_MEAN|1.51||0.9753|TWO_SIDED|95.0|-3.063|3.157|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline testosterone,age,duration of pre-transplant dialysis as explanatory variables.|Change in total testosterone level from EOT to end of FU|||3.157|-3.063|0.9753
82612689|NCT01663740|164942958|SUPERIORITY_OR_OTHER||Mean Difference|0.076|STANDARD_ERROR_OF_MEAN|0.6347||0.9053|TWO_SIDED|95.0|-1.214|1.366|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in LH level from Baseline to EOT|||1.366|-1.214|0.9053
82612690|NCT01663740|164942958|SUPERIORITY_OR_OTHER||Mean Difference|-1.215|STANDARD_ERROR_OF_MEAN|0.4477||0.0104|TWO_SIDED|95.0|-2.125|-0.305|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in LH level from Baseline to end of FU|||-0.305|-2.125|0.0104
82612691|NCT01663740|164942959|SUPERIORITY_OR_OTHER||Mean Difference|-1.065|STANDARD_ERROR_OF_MEAN|0.4057||0.0143|TWO_SIDED|95.0|-1.899|-0.231|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline LH concentration,age,\& pre-transplant dialysis duration as explanatory variables.|Change in LH level from EOT to end of FU|||-0.231|-1.899|0.0143
82612692|NCT01663740|164942960|SUPERIORITY_OR_OTHER||Mean Difference|2.541|STANDARD_ERROR_OF_MEAN|1.7274||0.1505|TWO_SIDED|95.0|-0.969|6.052|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from Baseline to EOT|||6.052|-0.969|0.1505
82612693|NCT01663740|164942960|SUPERIORITY_OR_OTHER||Mean Difference|-0.983|STANDARD_ERROR_OF_MEAN|0.6739||0.1539|TWO_SIDED|95.0|-2.352|0.387|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from Baseline to end of FU|||0.387|-2.352|0.1539
82612694|NCT01663740|164942961|SUPERIORITY_OR_OTHER||Mean Difference|-1.474|STANDARD_ERROR_OF_MEAN|0.8084||0.0798|TWO_SIDED|95.0|-3.136|0.188|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline FSH concentration,age,pre-transplant dialysis duration as explanatory variables.|Change in FSH level from EOT to end of FU|||0.188|-3.136|0.0798
82612695|NCT01663740|164942962|SUPERIORITY_OR_OTHER||Mean Difference|-0.104|STANDARD_ERROR_OF_MEAN|23.466||0.9965|TWO_SIDED|95.0|-47.792|47.585|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from Baseline to EOT|||47.585|-47.792|0.9965
82612696|NCT01663740|164942962|SUPERIORITY_OR_OTHER||Mean Difference|15.272|STANDARD_ERROR_OF_MEAN|20.6031||0.4636|TWO_SIDED|95.0|-26.599|57.142|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from Baseline to end of FU|||57.142|-26.599|0.4636
82612697|NCT01663740|164942963|SUPERIORITY_OR_OTHER||Mean Difference|8.74|STANDARD_ERROR_OF_MEAN|17.0805||0.6134|TWO_SIDED|95.0|-26.438|43.917|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline prolactin level,age,pre-transplant dialysis duration as explanatory variables.|Change in prolactin level from EOT to end of FU|||43.917|-26.438|0.6134
82612698|NCT01663740|164942964|SUPERIORITY_OR_OTHER||Mean Difference|8.142|STANDARD_ERROR_OF_MEAN|11.9301||0.5002|TWO_SIDED|95.0|-16.223|32.506|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables.|Change in inhibin B level from Baseline to EOT|||32.506|-16.223|0.5002
82658380|NCT04239872|165033413|SUPERIORITY||Mean Difference (Net)|0.8956|||<|0.0001|TWO_SIDED|95.0|0.7205|1.071||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 14 pairs of data, DF=13|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||1.071|0.7205|<0.0001
82612699|NCT01663740|164942964|SUPERIORITY_OR_OTHER||Mean Difference|40.682|STANDARD_ERROR_OF_MEAN|17.6084||0.0279|TWO_SIDED|95.0|4.72|76.643|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables.|Change in inhibin B level from Baseline to end of FU|||76.643|4.720|0.0279
82612700|NCT01663740|164942965|SUPERIORITY_OR_OTHER||Mean Difference|25.881|STANDARD_ERROR_OF_MEAN|22.1348||0.2548|TWO_SIDED|95.0|-20.024|71.786|||Mixed Models Analysis|Model adjusted for Cohort,visit,Cohort by visit interaction,baseline inhibin B level,age,pre-transplant dialysis duration as explanatory variables|Change in inhibin B level from EOT to end of FU|||71.786|-20.024|0.2548
82612701|NCT01663740|164942966|SUPERIORITY_OR_OTHER||Difference in Percentage|14.3|||||TWO_SIDED|95.0|-19.3|45.3|||||Change in abnormal to abnormal sperm density from Baseline to EOT|||45.3|-19.3|
82612702|NCT01663740|164942966|SUPERIORITY_OR_OTHER||Difference in Percentage|5.0|||||TWO_SIDED|95.0|-34.3|43.3|||||Change in abnormal to abnormal sperm density from Baseline to end of FU|||43.3|-34.3|
82612703|NCT01663740|164942966|SUPERIORITY_OR_OTHER||Difference in Percentage|17.9|||||TWO_SIDED|95.0|-15.3|48.8|||||Change in normal to abnormal sperm density from Baseline to EOT|||48.8|-15.3|
82658381|NCT04239872|165033415|SUPERIORITY||Mean Difference (Net)|0.3199||||0.0475|TWO_SIDED|95.0|0.004686|0.6351||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 8 pairs of data, DF=7|Treatment difference of transformed (log10) data = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups. To obtain normal distribution, data used in the statistical analysis were transformed to the log10.||0.6351|0.004686|0.0475
82658382|NCT04239872|165033416|SUPERIORITY||Mean Difference (Net)|50.38||||0.0004|TWO_SIDED|95.0|27.46|73.3||The threshold for statistical significance was set at p=0.05.|t-test, 2 sided|Paired t-test was used; there were 13 pairs of data, DF=12|Treatment difference = Calcium mouthwash before fluoride mouthwash - Fluoride mouthwash|A paired t-test was used to compare the two groups.||73.30|27.46|0.0004
82612704|NCT01663740|164942967|SUPERIORITY_OR_OTHER||Difference in Percentage|4.1|||||TWO_SIDED|95.0|-34.5|42.5|||||Change in abnormal to abnormal sperm density from EOT to end of FU|||42.5|-34.5|
82612705|NCT01663740|164942968|SUPERIORITY_OR_OTHER||Difference in Percentage|1.3|||||TWO_SIDED|95.0|-31.3|33.7|||||Improvement from Baseline to EOT|||33.7|-31.3|
82612706|NCT01663740|164942968|SUPERIORITY_OR_OTHER||Difference in Percentage|6.7|||||TWO_SIDED|95.0|-31.1|44.4|||||Improvement from Baseline to end of FU|||44.4|-31.1|
82612707|NCT01663740|164942969|SUPERIORITY_OR_OTHER||Difference in Percentage|-11.8|||||TWO_SIDED|95.0|-50.0|29.3|||||Improvement from EOT to end of FU|||29.3|-50.0|
82612708|NCT01663740|164942970|SUPERIORITY_OR_OTHER||Difference in Percentage|-31.0|||||TWO_SIDED|95.0|-59.7|2.7|||||Improvement from Baseline to EOT|||2.7|-59.7|
82612709|NCT01663740|164942970|SUPERIORITY_OR_OTHER||Difference in Percentage|10.0|||||TWO_SIDED|95.0|-29.7|47.7|||||Improvement from Baseline to end of FU|||47.7|-29.7|
82612710|NCT01663740|164942971|SUPERIORITY_OR_OTHER||Difference in Percentage|-9.9|||||TWO_SIDED|95.0|-47.2|27.9|||||Improvement from EOT to end of FU|||27.9|-47.2|
82612711|NCT02522481|164942972|SUPERIORITY|||||||0.0896|||||||McNemar|||Sensitivity: superiority test comparing CE-DSE and UE-DSE based on the difference||||0.0896
82612712|NCT02522481|164942972|SUPERIORITY||||||<|0.0001|||||||McNemar|||Specificity: superiority test comparing CE-DSE and UE-DSE based on the difference||||<0.0001
82612713|NCT00410280|164942977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.44||||0.0947|TWO_SIDED|95.0|-14.04|1.15|||ANOVA|||Repeated measures analysis of variance (ANOVA) model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95 % confidence interval (CI) and p-value were derived from the model.||1.15|-14.04|0.0947
82612714|NCT00410280|164942978|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.24||||0.2673|TWO_SIDED|95.0|-11.84|3.35|||ANOVA|||Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||3.35|-11.84|0.2673
82612715|NCT00410280|164942979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8||||0.0391|TWO_SIDED|95.0|-46.35|-1.24|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-1.24|-46.35|0.0391
82612716|NCT00410280|164942979|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.17||||0.1326|TWO_SIDED|95.0|-39.72|5.39|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||5.39|-39.72|0.1326
82612717|NCT00410280|164942980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.76||||0.0423|TWO_SIDED|95.0|-19.16|-0.35|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-0.35|-19.16|0.0423
82612718|NCT00410280|164942980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.06||||0.3902|TWO_SIDED|95.0|-13.46|5.35|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||5.35|-13.46|0.3902
82612719|NCT00410280|164942981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.05||||0.0302|TWO_SIDED|95.0|-36.21|-1.9|||ANOVA|||Day 14: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||-1.90|-36.21|0.0302
82612720|NCT00410280|164942981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.19||||0.1289|TWO_SIDED|95.0|-30.34|3.97|||ANOVA|||Day 35: Repeated measures ANOVA model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participant was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-value were derived from the model.||3.97|-30.34|0.1289
82612721|NCT00410280|164942982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.8469|TWO_SIDED|95.0|-0.79|0.96|||Mixed Models Analysis|||Screening: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.96|-0.79|0.8469
82612722|NCT00410280|164942982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9995|TWO_SIDED|95.0|-0.86|0.86|||Mixed Models Analysis|||Day 14: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.86|-0.86|0.9995
82612723|NCT00410280|164942982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.528|TWO_SIDED|95.0|-1.14|0.59|||Mixed Models Analysis|||Day 35: Mixed model with fixed effects for treatment, time and interaction between treatment and time, and random effects for participants was used. Point estimate for difference between the treatment groups, corresponding 95% CI and p-values were derived from the model.||0.59|-1.14|0.5280
82612724|NCT02026908|164943048|OTHER|Paired T- test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated with threshold of significance \<0.05.|t-test, 2 sided||A p-value was calculated. Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|||||0.0001
82612725|NCT02026908|164943049|OTHER|Paired t test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.0001
82658383|NCT01472341|165033433|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED||||||Multivariate regression analysis|HOMA %B was the response variable and other study parameters were independent variables.||||||0.24
82658384|NCT01472341|165033434|SUPERIORITY_OR_OTHER|||||||0.001|||||||Multivariate regression analysis|PI/I ratio was the response variable and other study parameters were independent variables.||||||0.001
82658385|NCT01472341|165033435|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Multivariate regression analysis|HOMA %B was the response variable and other study parameters were independent variables.||||||<0.0001
82612726|NCT02026908|164943050|OTHER|Paired T test|p value|0.05||||0.0001|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated with threshold of significance \<0.05.|||||0.0001
82612727|NCT02026908|164943051|OTHER|Paired T Test|p value|0.05||||0.0001|TWO_SIDED|||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided|||||||0.0001
82612728|NCT02026908|164943052|OTHER|Paired T test|p value|0.05||||0.008|TWO_SIDED|0.0||||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|t-test, 2 sided||P value was calculated and a value of \<0.05 was considered significant. A p-value was calculated. Comments: Pretreatment (baseline) values for each parameter are compared to post-treatment values in a paired fashion.|||||0.008
82612729|NCT00408421|164943053|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for treatment effect at last visit. Effects evaluated based on 2-sided significance level=0.05. Model: treatment, NSAID use, investigator, week, treatment-by-week interaction, baseline score and baseline-by-week interaction.|Mixed-Effects Model Repeated Measures|No adjustments for multiple comparisons were made.||Null hypothesis: the difference in 24-hour average pain score between duloxetine and placebo treatment groups at last visit of treatment phase is zero. This study will have at least 80% power to detect a treatment group difference of 1.0 point in the baseline-to-endpoint mean change on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups based on Baseline Observation Carried Forward (BOCF).||||<0.001
82612730|NCT00408421|164943054|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.53||||0.001||95.0|-0.84|-0.21||Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made.|ANCOVA|||An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), PGI severity at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean outcome measure at endpoint.||-0.21|-0.84|0.001
82612731|NCT00408421|164943055|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.41||||0.003||95.0|-2.33|-0.48||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.48|-2.33|0.003
82612732|NCT00408421|164943056|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.65||||0.004||95.0|-1.09|-0.22||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.22|-1.09|0.004
82612733|NCT00408421|164943057|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.18||||0.001||95.0|-8.33|-2.03||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-2.03|-8.33|0.001
82612734|NCT00408421|164943058|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.42||||0.004||95.0|-10.72|-2.11||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-2.11|-10.72|0.004
82612735|NCT00408421|164943059|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.83||||0.005||95.0|-1.4|-0.25||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-Baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.25|-1.40|0.005
82612736|NCT00408421|164943060|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for treatment effect at last visit. Effects evaluated based on 2-sided significance level=0.05. Model: treatment, NSAID use, investigator, week, treatment-by-week interaction, baseline score and baseline-by-week interaction.|Mixed-Effects Model Repeated Measures|No adjustments for multiple comparisons were made.||||||<0.001
82612737|NCT00408421|164943061|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.87||||0.039||95.0|-1.69|-0.05||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.05|-1.69|0.039
82612738|NCT00408421|164943062|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.001||95.0|-0.56|-0.14||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.14|-0.56|0.001
82612739|NCT00408421|164943063|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.06|||<|0.001||95.0|-1.66|-0.46||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.46|-1.66|<0.001
82612740|NCT00408421|164943064|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.76||||0.004||95.0|-1.28|-0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.24|-1.28|0.004
82612741|NCT00408421|164943065|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.97|||<|0.001||95.0|-1.52|-0.42||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.42|-1.52|<0.001
82612742|NCT00408421|164943066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.91||||0.003||95.0|-1.5|-0.32||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.32|-1.50|0.003
82658386|NCT00678639|165033485|SUPERIORITY_OR_OTHER||Median cost difference|588.0|||||TWO_SIDED|95.0|336.0|811.0|||Hodges-Lehmann (median cost difference)|Distribution-free 95% CIs calculated using the method of Moses.|Results favored a reduced cost in the OU-CMR group.|H0: The median costs are not different among the study groups. HA: The median cost is different among groups. Power calculation was based on detecting a mean cost difference of $2000. Data was found to be non-normally distributed and therefore nonparametric comparisons were implemented.||811|336|
82658387|NCT00678639|165033486|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Fisher Exact|||"H0: There is no difference in correct cardiovascular admission decisions among groups.~Ha: A difference exists among study groups. Sample size was based upon 47 analyzable participants per study arm were required to provide 88% power to detect a 30% difference in the outcome."||||<0.001
82658388|NCT03506386|165033502|OTHER||||||<|0.0001||||||Statistical differences among eligible performed, eligible not performed and not eligible participants were estimated by Log Rank test.|Log Rank|||||||< 0.0001
82658389|NCT01546545|165033504|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation was performed. This was the first pilot and feasibility study. This data will be used to power future studies.||||||0.02|||||||t-test, 2 sided|||||||0.02
82658390|NCT01546545|165033505|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No power calculation was performed. This was a pilot and feasibility study.||||||0.02|||||||t-test, 2 sided|||||||0.02
82658391|NCT00986245|165033510|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.4|||<|0.05|||||||Sign test|||The UPDRS-part3 was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test.||||<0.05
82658392|NCT00986245|165033511|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.0|||<|0.05|||||||Sign test|||The Hoehn and Yahr stage was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test.||||<0.05
82658393|NCT00986245|165033512|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.3|||<|0.05|||||||Sign test|||"The Overall quality of sleep was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
82658394|NCT00986245|165033513|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Net)|0.2|||<|0.05|||||||Sign test|||"The Nocturnal off-symptoms was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
82658395|NCT00986245|165033514|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|||<|0.05||||||80% power|Sign test|||"The Early morning off symptoms was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
82658396|NCT00986245|165033515|NON_INFERIORITY_OR_EQUIVALENCE|80% power|Mean Difference (Final Values)|0.1|||<|0.05|||||||Sign test|||"The Epworth sleep scale was compared between the Once-daily of Ropinirole PR arm and the Twice-daily of Ropinirole PR using the Wilcoxon signed rank test."||||<0.05
82492630|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|STANDARD_ERROR_OF_MEAN|1.305||0.004|TWO_SIDED|95.0|1.23|6.37|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.37|1.23|0.004
82658397|NCT00986245|165033516|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|||<|0.05|||||||Sign test|||||||<0.05
82658398|NCT01214850|165033523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.185||||0.3828|TWO_SIDED|95.0|0.809|1.737|||Regression, Logistic|||Vaccine Group Odds Ratios for carriage of virulent ST strain of N. meningitidis group B in 4CMenB group as compared to the control group at 1 month after receiving the 2nd rMenB+OMV NZ vaccination||1.737|0.809|0.3828
82658399|NCT01214850|165033524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.555|1.273|||Regression, Logistic|||Vaccine Group Odds Ratios for carriage of combined N. meningitidis serogroups A, C, W, Y in the MenACWY-CRM group compared to Control group at 1 month after receiving 1 injection of MenACWY vaccine||1.273|0.555|
82658400|NCT03221374|165033574|OTHER|Linear mixed effect model to test the overall BCI learning between MBSR and control groups||||||0.003||||||The threshold for statistical analysis was p = 0.05.|Mixed Models Analysis|||||||0.003
82658401|NCT03221374|165033574|EQUIVALENCE|This independent t-test will test if the two groups (MBSR, control) exhibit a statistically significant difference in terms of BCI performance from baseline.|Mean Difference (Net)|8.98||||0.024|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|t-test, 2 sided||The difference between BCI performance improvement in MBSR cohort and control cohort.|||||0.024
82658402|NCT03221374|165033575|EQUIVALENCE|This WRS test will determine if the MBSR group breath counting accuracy was significantly greater than the postintervention levels of controls.|Mean Difference (Net)|15.4|||<|0.001|TWO_SIDED|||||The threshold for statistical analysis was p = 0.05|Wilcoxon (Mann-Whitney)|||||||<0.001
82658403|NCT03221374|165033576|EQUIVALENCE|The null hypothesis is that the FMI scores of the two groups have equal medians.|Mean Difference (Final Values)|7.9|||<|0.01|TWO_SIDED|||||significant if p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
82658404|NCT03221374|165033576|EQUIVALENCE|The null hypothesis is that the MAAS scores of the two groups have equal medians.|Mean Difference (Final Values)|0.69|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82658405|NCT03221374|165033576|OTHER|This statistical test is about the correlation between baseline up-down BCI performance and the FMI score. A linear regression model is used to test if the slope is non-zero.|correlation coefficient|0.42|||<|0.05|TWO_SIDED|||||significant if p\<0.05|Regression, Linear|||||||<0.05
82658406|NCT03221374|165033576|OTHER|This statistical test is about the correlation between baseline up-down BCI performance and the MAAS score. A linear regression model is used to test if the slope is non-zero.|correlation coefficient|0.41|||<|0.05|TWO_SIDED||||||Regression, Linear|||||||<0.05
82658407|NCT02567968|165033577|SUPERIORITY|||||||0.002|||||||paired t-test|||||||0.002
82658408|NCT00302952|165033589|SUPERIORITY_OR_OTHER_LEGACY|||||||0.79||||||Adjustments were made for baseline ln(CRP), baseline DAS28-CRP score, race, methotrexate use, anti-TNF use, and disease duration.|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group. Log transformed CRP was analyzed to meet the heterogeneity assumption for ANCOVA models.||||0.79
82492631|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.36|STANDARD_ERROR_OF_MEAN|1.328||0.001|TWO_SIDED|95.0|1.74|6.98|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Physical Health Score||6.98|1.74|0.001
82612743|NCT00408421|164943067|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.71||||0.019||95.0|-1.3|-0.12||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.12|-1.30|0.019
82612744|NCT00408421|164943068|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4||||0.164||95.0|-0.97|0.17||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.17|-0.97|0.164
82612745|NCT00408421|164943069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.63||||0.049||95.0|-1.25|0.0||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.00|-1.25|0.049
82612746|NCT00408421|164943070|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51||||0.093||95.0|-1.1|0.08||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.08|-1.10|0.093
82612747|NCT00408421|164943071|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29||||0.287||95.0|-0.82|0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.24|-0.82|0.287
82658409|NCT00302952|165033591|SUPERIORITY_OR_OTHER_LEGACY|||||||0.91||||||Adjustments were made for baseline DAS28-CRP score.|ANCOVA|ANOVA was performed on participants with a DAS28-CRP score at Day 84.||The p-value compares Lovastatin with the Placebo treatment group.||||0.91
82658410|NCT00302952|165033592|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-11.0||||0.39|TWO_SIDED|95.0|-35.9|14.0|||Chi-squared||The difference in percentages is calculated as Lovastatin - Placebo.|The p-value compares Lovastatin with the Placebo treatment group.||14.0|-35.9|0.39
82658411|NCT00302952|165033593|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||Adjustments were made for baseline serum IgM RF by ELISA test result. In the ANCOVA model, baseline value was a covariate; therefore, an adjustment was performed.|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group.||||0.19
82658412|NCT00302952|165033594|SUPERIORITY_OR_OTHER_LEGACY|||||||0.35||||||Adjustments were made for baseline serum anti-CCP by ELISA|ANCOVA|||The p-value compares Lovastatin with the Placebo treatment group.||||0.35
82492632|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|1.857||0.857|TWO_SIDED|95.0|-4.0|3.33|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||3.33|-4.00|0.857
82658413|NCT00336479|165033604|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.985||||0.0014|TWO_SIDED|95.0|1.525|5.842|||Regression, Logistic|Treatment, weight, race and baseline HCV RNA as factors||||5.842|1.525|0.0014
82658414|NCT00336479|165033604|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.0204|TWO_SIDED|95.0|1.127|4.178|||Regression, Logistic|||||4.178|1.127|0.0204
82658415|NCT00336479|165033605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.586||||0.0051|TWO_SIDED|95.0|1.331|5.025|||Regression, Logistic|||||5.025|1.331|0.0051
82658416|NCT00336479|165033605|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.976||||0.0418|TWO_SIDED|95.0|1.026|3.807|||Regression, Logistic|||||3.807|1.026|0.0418
82612748|NCT00408421|164943072|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.64||||0.033||95.0|-1.23|-0.05||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.05|-1.23|0.033
82612749|NCT00408421|164943073|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.78||||0.015||95.0|-1.4|-0.15||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.15|-1.40|0.015
82612750|NCT00408421|164943074|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.56||||0.029||95.0|-1.06|-0.06||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||-0.06|-1.06|0.029
82612751|NCT00408421|164943075|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||Fisher Exact|||This study will also have at least 85% power to detect a treatment group difference of 25% in the response rates (≥30% reduction from baseline) based on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups.||||0.033
82612752|NCT00408421|164943076|SUPERIORITY_OR_OTHER|||||||0.075||95.0|||||Fisher Exact|||This study will also have at least 85% power to detect a treatment group difference of 25% in the response rates (≥30% reduction from baseline) based on the weekly mean of 24-hour average pain severity between duloxetine and placebo treatment groups.||||0.075
82612753|NCT00408421|164943077|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.83||||0.088||95.0|-0.28|3.94||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.94|-0.28|0.088
82612754|NCT00408421|164943078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.87||||0.08||95.0|-0.22|3.96||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.96|-0.22|0.080
82658417|NCT02008565|165033619|SUPERIORITY|||||||0.092||||||significance assessed at type 1 error alpha=0.05|Mixed Models Analysis|The models were adjusted for baseline Irritable Bowel Syndrome (IBS) status and clinical site.||||||0.092
82658418|NCT00617305|165033635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-248.93|STANDARD_DEVIATION|241.978|||TWO_SIDED|95.0|-337.7|-160.2||||||Mean change from Baseline to Week 24||-160.2|-337.7|
82658419|NCT00617305|165033635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-291.8|STANDARD_DEVIATION|205.864|||TWO_SIDED|95.0|-619.4|35.78||||||Mean change from Baseline to Week 24||35.78|-619.4|
82658420|NCT00617305|165033635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-253.83|STANDARD_DEVIATION|235.787|||TWO_SIDED|95.0|-334.8|-172.8||||||Mean change from Baseline to Week 24||-172.8|-334.8|
82658421|NCT00617305|165033635|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-291.8|STANDARD_DEVIATION|205.864|||TWO_SIDED|95.0|-619.4|35.78||||||Mean change from Baseline to Week 24||35.78|-619.4|
82658422|NCT00617305|165033636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.38|STANDARD_DEVIATION|7.954|||TWO_SIDED|95.0|-8.29|-2.46||||||Mean change from Baseline to Week 24||-2.46|-8.29|
82492633|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.73|STANDARD_ERROR_OF_MEAN|1.848||0.35|TWO_SIDED|95.0|-1.91|5.37|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||5.37|-1.91|0.350
82612755|NCT00408421|164943079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|||<|0.001||95.0|0.03|0.1||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.10|0.03|<0.001
82612756|NCT00408421|164943080|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.23||||0.641||95.0|-1.19|0.74||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.74|-1.19|0.641
82612757|NCT00408421|164943081|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.193||95.0|-1.17|0.24||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANCOVA||Mean Difference = Duloxetine minus Placebo|An analysis of covariance (ANCOVA) model was used which contains the terms of treatment, NSAID use (Yes/No), the outcome score at baseline, and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.24|-1.17|0.193
82612758|NCT00408421|164943082|SUPERIORITY_OR_OTHER|||||||0.003||95.0||||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA|ANOVA on ranked data.||An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Rank-transformed data will be used in the analysis given the view that the change scores for most of the laboratory analytes are not normally distributed. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||||0.003
82658423|NCT00617305|165033636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.75|STANDARD_DEVIATION|8.732|||TWO_SIDED|95.0|-29.64|-1.86||||||Mean change from Baseline to Week 24||-1.86|-29.64|
82658424|NCT00617305|165033636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.56|STANDARD_DEVIATION|8.589|||TWO_SIDED|95.0|-9.51|-3.61||||||Mean change from Baseline to Week 24||-3.61|-9.51|
82658425|NCT00617305|165033636|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.75|STANDARD_DEVIATION|8.732|||TWO_SIDED|95.0|-29.64|-1.86||||||Mean change from Baseline to Week 24||-1.86|-29.64|
82658426|NCT00617305|165033637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.06|STANDARD_DEVIATION|4.442|||TWO_SIDED|95.0|-1.69|1.56||||||Mean change from Baseline to Week 24||1.56|-1.69|
82658427|NCT00617305|165033637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_DEVIATION|4.082|||TWO_SIDED|95.0|-10.5|2.5||||||Mean change from Baseline to Week 24||2.50|-10.50|
82658428|NCT00617305|165033637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.51|STANDARD_DEVIATION|4.527|||TWO_SIDED|95.0|-2.07|1.04||||||Mean change from Baseline to Week 24||1.04|-2.07|
82658429|NCT00617305|165033637|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.0|STANDARD_DEVIATION|4.082|||TWO_SIDED|95.0|-10.5|2.5||||||Mean change from Baseline to Week 24||2.50|-10.50|
82658430|NCT00617305|165033638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.84|STANDARD_DEVIATION|1.053|||TWO_SIDED|95.0|0.43|1.25||||||Mean change from Baseline to Week 24||1.25|0.43|
82658431|NCT00617305|165033638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.685|||TWO_SIDED|95.0|-0.77|1.42||||||Mean change from Baseline to Week 24||1.42|-0.77|
82612759|NCT00408421|164943083|SUPERIORITY_OR_OTHER|||||||0.026||95.0||||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA|ANOVA on ranked data.||An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Rank-transformed data will be used in the analysis given the view that the change scores for most of the laboratory analytes are not normally distributed. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||||0.026
82658432|NCT00617305|165033638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.78|STANDARD_DEVIATION|1.021|||TWO_SIDED|95.0|0.41|1.15||||||Mean change from Baseline to Week 24||1.15|0.41|
82658433|NCT00617305|165033638|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.33|STANDARD_DEVIATION|0.685|||TWO_SIDED|95.0|-0.77|1.42||||||Mean change from Baseline to Week 24||1.42|-0.77|
82658434|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.2|STANDARD_DEVIATION|44.84|||TWO_SIDED|95.0|-3.9|28.4||||||Mean change from Baseline to Week 4 (LOCF)||28.4|-3.9|
82658435|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.8|STANDARD_DEVIATION|21.19|||TWO_SIDED|95.0|-26.0|41.5||||||Mean change from Baseline to Week 4 (LOCF)||41.5|-26.0|
82658436|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|107.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658437|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.7|STANDARD_DEVIATION|42.68|||TWO_SIDED|95.0|-2.7|26.2||||||Mean change from Baseline to Week 4 (LOCF)||26.2|-2.7|
82658438|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|27.6|STANDARD_DEVIATION|48.03|||TWO_SIDED|95.0|-32.0|87.2||||||Mean change from Baseline to Week 4 (LOCF)||87.2|-32.0|
82658439|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.6|STANDARD_DEVIATION|41.46|||TWO_SIDED|95.0|-1.4|28.5||||||Mean change from Baseline to Week 12 (LOCF)||28.5|-1.4|
82658440|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_DEVIATION|59.09|||TWO_SIDED|95.0|-91.5|96.5||||||Mean change from Baseline to Week 12 (LOCF)||96.5|-91.5|
82658441|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82658442|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.4|STANDARD_DEVIATION|42.83|||TWO_SIDED|95.0|-2.1|26.9||||||Mean change from Baseline to Week 12 (LOCF)||26.9|-2.1|
82658443|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|19.4|STANDARD_DEVIATION|63.61|||TWO_SIDED|95.0|-59.6|98.4||||||Mean change from Baseline to Week 12 (LOCF)||98.4|-59.6|
82658444|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.1|STANDARD_DEVIATION|48.67|||TWO_SIDED|95.0|0.5|35.6||||||Mean change from Baseline to Week 24 (LOCF)||35.6|0.5|
82658445|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.5|STANDARD_DEVIATION|29.56|||TWO_SIDED|95.0|-56.5|37.5||||||Mean change from Baseline to Week 24 (LOCF)||37.5|-56.5|
82658446|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|87.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658447|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|15.0|STANDARD_DEVIATION|47.44|||TWO_SIDED|95.0|-1.0|31.1||||||Mean change from Baseline to Week 24 (LOCF)||31.1|-1.0|
82658448|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.8|STANDARD_DEVIATION|50.18|||TWO_SIDED|95.0|-52.5|72.1||||||Mean change from Baseline to Week 24 (LOCF)||72.1|-52.5|
82658449|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_DEVIATION|77.24|||TWO_SIDED|95.0|-25.6|30.1||||||Mean change from Baseline to Week 36 (LOCF)||30.1|-25.6|
82658450|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.0|STANDARD_DEVIATION|93.16|||TWO_SIDED|95.0|-182.2|114.2||||||Mean change from Baseline to Week 36 (LOCF)||114.2|-182.2|
82658451|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|67.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658452|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.8|STANDARD_DEVIATION|78.5|||TWO_SIDED|95.0|-28.4|24.8||||||Mean change from Baseline to Week 36 (LOCF)||24.8|-28.4|
82658453|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.8|STANDARD_DEVIATION|92.46|||TWO_SIDED|95.0|-128.6|101.0||||||Mean change from Baseline to Week 36 (LOCF)||101.0|-128.6|
82658454|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.6|STANDARD_DEVIATION|82.07|||TWO_SIDED|95.0|-15.0|44.2||||||Mean change from Baseline to Week 48 (LOCF)||44.2|-15.0|
82658455|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-49.8|STANDARD_DEVIATION|126.75|||TWO_SIDED|95.0|-251.4|151.9||||||Mean change from Baseline to Week 48 (LOCF)||151.9|-251.4|
82658456|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|67.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658457|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.4|STANDARD_DEVIATION|88.11|||TWO_SIDED|95.0|-22.4|37.3||||||Mean change from Baseline to Week 48 (LOCF)||37.3|-22.4|
82612760|NCT00408421|164943084|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8||||0.459||95.0|-1.32|2.92||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||2.92|-1.32|0.459
82612761|NCT00408421|164943085|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.09||||0.326||95.0|-1.1|3.28||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||3.28|-1.10|0.326
82612762|NCT00408421|164943086|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.16||||0.069||95.0|-0.25|6.56||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||6.56|-0.25|0.069
82612763|NCT00408421|164943087|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.107||95.0|-1.2|0.12||P-value for Change from Baseline. Treatment effects and interaction effects were evaluated based on a two-sided significance level of 0.05. No adjustments for multiple comparisons were made. Change=Endpoint-baseline.|ANOVA||Mean Difference = Duloxetine minus Placebo|An analysis of variance (ANOVA) model was used which contains the terms of treatment and investigator. Type III sum-of-squares for the least-squares mean (LSMean) was used to test the null hypothesis that there is no treatment difference on the mean change from baseline to the endpoint of the outcome measure.||0.12|-1.20|0.107
82612764|NCT03478878|164943088|SUPERIORITY||Mean Difference (Final Values)|1.83||||0.705|TWO_SIDED|95.0|-9.43|13.11||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 2 for Cohort 1)."||13.11|-9.43|0.705
82658458|NCT00617305|165033639|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.4|STANDARD_DEVIATION|121.55|||TWO_SIDED|95.0|-177.3|124.5||||||Mean change from Baseline to Week 48 (LOCF)||124.5|-177.3|
82658459|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|-1.1|0.0||||||Mean change from Baseline to Week 4 (LOCF)||0.0|-1.1|
82658460|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|1.5|||TWO_SIDED|95.0|-1.6|3.1||||||Mean change from Baseline to Week 4 (LOCF)||3.1|-1.6|
82658461|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658462|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.54|||TWO_SIDED|95.0|-0.9|0.1||||||Mean change from Baseline to Week 4 (LOCF)||0.1|-0.9|
82658463|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4|STANDARD_DEVIATION|1.52|||TWO_SIDED|95.0|-1.5|2.3||||||Mean change from Baseline to Week 4 (LOCF)||2.3|-1.5|
82658464|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.45|||TWO_SIDED|95.0|-1.1|0.0||||||Mean change from Baseline to Week 12 (LOCF)||0.0|-1.1|
82658465|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5|STANDARD_DEVIATION|2.38|||TWO_SIDED|95.0|-2.3|5.3||||||Mean change from Baseline to Week 12 (LOCF)||5.3|-2.3|
82612765|NCT03478878|164943088|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.577|TWO_SIDED|95.0|-27.43|31.02||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the treatment completion visit (Month 1 for Cohort 2)."||31.02|-27.43|0.577
82612766|NCT03478878|164943089|SUPERIORITY||Mean Difference (Final Values)|1.87||||0.646|TWO_SIDED|95.0|-7.6|11.35||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 3 for Cohort 1)."||11.35|-7.60|0.646
82612767|NCT03478878|164943089|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.405|TWO_SIDED|95.0|-19.3|23.9||Result of statistical analyses were considered significant if the p-value from the two-sided test was \<0.05. No adjustments for multiplicity were made.|Student's paired t-test||The estimate was the difference in mean change in RIT between baseline and the treatment completion visit.|"Analysis: Student's paired t-test on study eyes alone at a two-sided Type I error rate of 5%.~Null hypothesis: the mean RIT at Baseline = the mean RIT at the post-treatment follow-up visit (Month 2 for Cohort 2)."||23.90|-19.30|0.405
82658466|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82658467|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|1.67|||TWO_SIDED|95.0|-0.9|0.2||||||Mean change from Baseline to Week 12 (LOCF)||0.2|-0.9|
82658468|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2|STANDARD_DEVIATION|2.17|||TWO_SIDED|95.0|-1.5|3.9||||||Mean change from Baseline to Week 12 (LOCF)||3.9|-1.5|
82658469|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|1.81|||TWO_SIDED|95.0|-1.5|-0.2||||||Mean change from Baseline to Week 24 (LOCF)||-0.2|-1.5|
82612768|NCT01254604|164943109|NON_INFERIORITY_OR_EQUIVALENCE|The study was planned to enroll 248 subjects (124 per treatment group) to yield approximately 230 evaluable subjects (115 per treatment group). The study had power of 90% to test the primary hypothesis. The power and sample size were based on the following assumptions for treatment difference in change from baseline in IOP at Week 4: α = 0.025 (1-sided), Non-inferiority margin = 1.5 mmHg, True treatment difference = 0 mmHg, Standard deviation = 3.5 mmHg.|Difference in Least Squares Means|-1.7|||||TWO_SIDED|95.0|-2.6|-0.7|||ANCOVA|Analysis model includes terms for treatment, baseline IOP and ocular diagnosis (open-angle glaucoma or ocular hypertension)|Difference is tafluprost - timolol|The study hypothesis was that tafluprost is non-inferior to timolol with respect to change from baseline in diurnal IOP at Week 4 in participants with open-angle glaucoma or ocular hypertension. The study hypothesis would be met if the upper bound of the two-sided 95% confidence interval for the between-treatment difference in mean diurnal IOP change from baseline at Week4 (tafluprost - timolol) was ≤1.5 mmHg.||-0.7|-2.6|
82612769|NCT01254604|164943110|SUPERIORITY_OR_OTHER||Difference in percentage|19.5|||||TWO_SIDED|95.0|5.7|33.4|||Stratified Miettinen and Nurminen method|Participants were stratified by baseline IOP (\<26 mmHg or ≥26 mmHg at 0800 hours) and ocular diagnosis (open-angle glaucoma or ocular hypertension)|Between-group difference in percentage of participants with ≥25% reduction in IOP at Week 4 = percentage (tafluprost) - percentage (timolol)|||33.4|5.7|
82612770|NCT01254604|164943111|SUPERIORITY_OR_OTHER||Difference in percentage|-3.9|||||TWO_SIDED|95.0|-17.3|9.4|||Miettinen and Nurminen||Between-group difference in percentage of participants with an AE = percentage (tafluprost) - percentage (timolol)|||9.4|-17.3|
82612771|NCT01254604|164943112|SUPERIORITY_OR_OTHER||Difference in percentage|1.1|||||TWO_SIDED|95.0|-3.5|5.7|||Miettinen and Nurminen||Between-group difference in percentage of participants discontinued study drug due to an AE = percentage (tafluprost) - percentage (timolol)|||5.7|-3.5|
82612772|NCT01703286|164943122|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|0.884||||0.5403|TWO_SIDED|90.0|0.633|1.235|||ANOVA|||||1.235|0.633|0.5403
82612773|NCT01703286|164943122|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|0.884||||0.5402|TWO_SIDED|90.0|0.632|1.235|||ANOVA|||||1.235|0.632|0.5402
82612774|NCT01703286|164943122|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.0||||0.9989|TWO_SIDED|90.0|0.715|1.397|||ANOVA|||||1.397|0.715|0.9989
82612775|NCT01703286|164943123|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.208||||0.3885|TWO_SIDED|90.0|0.84|1.738|||ANOVA|||||1.738|0.840|0.3885
82612776|NCT01703286|164943123|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.251||||0.3105|TWO_SIDED|90.0|0.868|1.801|||ANOVA|||||1.801|0.868|0.3105
82612777|NCT01703286|164943123|SUPERIORITY_OR_OTHER||Geometric mean ratio (net)|1.035||||0.8749|TWO_SIDED|90.0|0.721|1.485|||ANOVA|||||1.485|0.721|0.8749
82612778|NCT01703286|164943124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05|STANDARD_ERROR_OF_MEAN|0.048||0.2982|TWO_SIDED|90.0|-0.13|0.03|||ANOVA|||||0.030|-0.130|0.2982
82612779|NCT01703286|164943124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.021|STANDARD_ERROR_OF_MEAN|0.048||0.6601|TWO_SIDED|90.0|-0.059|0.101|||ANOVA|||||0.101|-0.059|0.6601
82612780|NCT01703286|164943124|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.072|STANDARD_ERROR_OF_MEAN|0.048||0.1412|TWO_SIDED|90.0|-0.009|0.152|||ANOVA|||||0.152|-0.009|0.1412
82612781|NCT00931892|164943131|OTHER|||||||0.67|||||||t-test, 2 sided|||||||0.670
82612782|NCT00931892|164943132|OTHER|||||||0.409|||||||t-test, 2 sided|||||||0.409
82612783|NCT00931892|164943133|OTHER|||||||0.387|||||||t-test, 2 sided|||||||0.387
82612784|NCT00931892|164943133|OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
82612785|NCT00931892|164943134|SUPERIORITY|||||||0.01|||||||ANOVA|||P Value for IgA anti-tTG||||0.010
82612786|NCT00931892|164943134|SUPERIORITY|||||||0.036|||||||ANOVA|||P Value for IgA/IgG anti-DGP||||0.036
82612787|NCT00931892|164943134|SUPERIORITY|||||||0.013|||||||ANOVA|||P Value for IgA anti-tTG||||0.013
82612788|NCT00931892|164943134|SUPERIORITY|||||||0.006|||||||ANOVA|||P Value for IgA/IgG anti-DGP||||0.006
82612789|NCT00931892|164943136|OTHER|||||||0.05|||||||t-test, 2 sided|||P Value for Celiac Symptom Index (CSI) score for Day 3 of Gluten Challenge||||0.05
82612790|NCT00931892|164943136|OTHER|||||||0.02|||||||t-test, 2 sided|||P Value for Celiac Symptom Index (CSI) Score from baseline to Day 14||||0.020
82612791|NCT00931892|164943136|SUPERIORITY|||||||0.06|||||||ANOVA|||P Value for Celiac Symptom Index (CSI)score between high gluten group and low gluten group across study||||0.060
82612792|NCT00931892|164943138|OTHER|||||||0.01|||||||t-test, 2 sided|||P Value for the Gastrointestinal Symptom Rating Scale (GSRS) on Day 3 of the Gluten Challenge||||0.01
82612793|NCT00931892|164943138|OTHER|||||||0.012|||||||t-test, 2 sided|||P Value for Gastrointestinal Symptom Rating Scale (GSRS) from baseline to Day 14 of Gluten Challenge||||0.012
82612794|NCT00931892|164943138|SUPERIORITY|||||||0.09|||||||ANOVA|||P Value for Gastrointestinal Symptom Rating Scale (GSRS) between high gluten group and low gluten group across study||||0.090
82612795|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.047||||||"P- value for social function"|Wilcoxon signed-rank test|||||||0.047
82612796|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.688||||||"P- value of  symptom/problem list "|Wilcoxon signed-rank test|||||||0.688
82612797|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.772||||||"P- value of  effects of kidney disease "|Wilcoxon signed-rank test|||||||0.772
82612798|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.301||||||"P-value of  burden of kidney disease "|Wilcoxon signed-rank test|||||||0.301
82612799|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.25||||||"P-value of  work status "|Wilcoxon signed-rank test|||||||0.250
82612800|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.895||||||"P-value of  cognitive function "|Wilcoxon signed-rank test|||||||0.895
82612801|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.281||||||"P-value of  quality of social interaction "|Wilcoxon signed-rank test|||||||0.281
82612802|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  sleep "|Wilcoxon signed-rank test|||||||1.00
82612803|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  social support "|Wilcoxon signed-rank test|||||||1.00
82612804|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.943||||||"P-value of  dialysis staff encouragement "|Wilcoxon signed-rank test|||||||0.943
82612805|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||1||||||"P-value of  overall health "|Wilcoxon signed-rank test|||||||1.00
82612806|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.09||||||"P-value of  patient satisfaction "|Wilcoxon signed-rank test|||||||0.090
82612807|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.391||||||"P-value of  physical functioning "|Wilcoxon signed-rank test|||||||0.391
82612808|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.438||||||"P-value of  role-physical "|Wilcoxon signed-rank test|||||||0.438
82612809|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.424||||||"P-value of  pain "|Wilcoxon signed-rank test|||||||0.424
82612810|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.169||||||"P-value of  general health "|Wilcoxon signed-rank test|||||||0.169
82612811|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.858||||||"P-value of  emotional well-being "|Wilcoxon signed-rank test|||||||0.858
82612812|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.156||||||"P-value of  role-emotional "|Wilcoxon signed-rank test|||||||0.156
82612813|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.084||||||"P-value of  energy/fatigue "|Wilcoxon signed-rank test|||||||0.084
82658470|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|0.75|||TWO_SIDED|95.0|-1.8|0.6||||||Mean change from Baseline to Week 24 (LOCF)||0.6|-1.8|
82658471|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658472|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|1.72|||TWO_SIDED|95.0|-1.4|-0.3||||||Mean change from Baseline to Week 24 (LOCF)||-0.3|-1.4|
82658473|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|0.71|||TWO_SIDED|95.0|-1.4|0.4||||||Mean change from Baseline to Week 24 (LOCF)||0.4|-1.4|
82658474|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|1.79|||TWO_SIDED|95.0|-1.2|0.1||||||Mean change from Baseline to Week 36 (LOCF)||0.1|-1.2|
82658475|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|2.0|||TWO_SIDED|95.0|-2.2|4.2||||||Mean change from Baseline to Week 36 (LOCF)||4.2|-2.2|
82658476|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658477|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|1.85|||TWO_SIDED|95.0|-1.0|0.2||||||Mean change from Baseline to Week 36 (LOCF)||0.2|-1.0|
82612814|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.583||||||"P-value of  SF-12 physical composite "|Wilcoxon signed-rank test|||||||0.583
82612815|NCT01876732|164943140|SUPERIORITY_OR_OTHER|||||||0.358||||||"p-value of  SF-12 mental composite "|Wilcoxon signed-rank test|||||||0.358
82612816|NCT00305006|164943150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.0|<|0.01|TWO_SIDED|95.0||||ANOVA|ANOVA|||ANOVA||||<0.01
82612817|NCT01996319|164943152|SUPERIORITY_OR_OTHER||null hypoth|0.2021|||<|0.0001|TWO_SIDED|95.0|0.1583|0.246|||ANCOVA|||||0.2460|0.1583|<0.0001
82612818|NCT01996319|164943153|SUPERIORITY_OR_OTHER||Null hypoth|36.7126||||0.0399|TWO_SIDED|95.0|1.7241|71.7011|||ANCOVA|||||71.7011|1.7241|0.0399
82612819|NCT04964063|164943207|OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.47|-1.19|||ANOVA||Q1: How intense are the sensation|||-1.19|-1.47|<.0001
82612820|NCT04964063|164943207|OTHER||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.77|-1.45|||ANOVA||Q2: How bothered are you by any sensation|||-1.45|-1.77|<.0001
82612821|NCT04964063|164943207|OTHER||Mean Difference (Final Values)|-1.17|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.33|-1.0|||ANOVA||Q3: How well can you tolerate sensations|||-1.00|-1.33|<.0001
82612822|NCT04964063|164943208|OTHER||Median Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-1.98|-1.7|||ANOVA||Q1: How intense are the sensation|||-1.70|-1.98|<.0001
82612823|NCT04964063|164943208|OTHER||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.33|-2.02|||ANOVA||Q2: How bothered are you by any sensation|||-2.02|-2.33|<.0001
82612824|NCT04964063|164943208|OTHER||Mean Difference (Final Values)|-1.45|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-1.61|-1.29|||ANOVA||Q3: How well can you tolerate sensations|||-1.29|-1.61|<.0001
82612825|NCT04964063|164943209|OTHER||Mean Difference (Final Values)|-2.29|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.43|-2.15|||ANOVA||Q1: How intense are the sensation|||-2.15|-2.43|<.0001
82612826|NCT04964063|164943209|OTHER||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.79|-2.47|||ANOVA||Q2: How bothered are you by any sensation|||-2.47|-2.79|<.0001
82612827|NCT04964063|164943209|OTHER||Mean Difference (Final Values)|-1.86|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.02|-1.7|||ANOVA||Q3: How well can you tolerate sensations|||-1.70|-2.02|<.0001
82612828|NCT04964063|164943210|OTHER||Mean Difference (Final Values)|-2.54|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.68|-2.4|||ANOVA||Q1: How intense are the sensation|||-2.40|-2.68|<.0001
82612829|NCT04964063|164943210|OTHER||Mean Difference (Final Values)|-2.89|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.05|-2.73|||ANOVA||Q2: How bothered are you by any sensation|||-2.73|-3.05|<.0001
82612830|NCT04964063|164943210|OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.2|-1.87|||ANOVA||Q3: How well can you tolerate sensations|||-1.87|-2.20|<.0001
82612831|NCT04964063|164943211|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-2.84|-2.55|||ANOVA||Q1: How intense are the sensation|||-2.55|-2.84|<.0001
82612832|NCT04964063|164943211|OTHER||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.15|-2.83|||ANOVA||Q2: How bothered are you by any sensation|||-2.83|-3.15|<.0001
82612833|NCT04964063|164943211|OTHER||Mean Difference (Final Values)|-2.18|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.35|-2.02|||ANOVA||Q3: How well can you tolerate sensations|||-2.02|-2.35|<.0001
82612834|NCT04964063|164943212|OTHER||Median Difference (Final Values)|-2.94|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-3.08|-2.79|||ANOVA||Q1: How intense are the sensation|||-2.79|-3.08|<.0001
82658478|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|1.79|||TWO_SIDED|95.0|-1.4|3.0||||||Mean change from Baseline to Week 36 (LOCF)||3.0|-1.4|
82658479|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|2.12|||TWO_SIDED|95.0|-1.4|0.1||||||Mean change from Baseline to Week 48 (LOCF)||0.1|-1.4|
82658480|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.0|STANDARD_DEVIATION|3.46|||TWO_SIDED|95.0|-4.5|6.5||||||Mean change from Baseline to Week 48 (LOCF)||6.5|-4.5|
82658481|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82612835|NCT04964063|164943212|OTHER||Median Difference (Final Values)|-3.24|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-3.4|-3.08|||ANOVA||Q2: How bothered are you by any sensation|||-3.08|-3.40|<.0001
82612836|NCT04964063|164943212|OTHER||Mean Difference (Final Values)|-2.37|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-2.53|-2.21|||ANOVA||Q3: How well can you tolerate sensations|||-2.21|-2.53|<.0001
82612837|NCT04964063|164943214|OTHER||Mean Difference (Final Values)|-17.93|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-20.81|-15.05|||ANOVA|||||-15.05|-20.81|<.0001
82612838|NCT04964063|164943215|OTHER||Mean Difference (Final Values)|-31.2|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-34.04|-28.36|||ANOVA|||||-28.36|-34.04|<.0001
82612839|NCT04964063|164943216|OTHER||Mean Difference (Final Values)|-39.45|STANDARD_ERROR_OF_MEAN|1.9|<|0.0001|TWO_SIDED|95.0|-42.3|-36.59|||ANOVA|||||-36.59|-42.30|<.0001
82612840|NCT04964063|164943217|OTHER||Mean Difference (Final Values)|-44.37|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-47.24|-41.49|||ANOVA|||||-41.49|-47.24|<.0001
82612841|NCT04964063|164943218|OTHER||Mean Difference (Final Values)|-48.04|STANDARD_ERROR_OF_MEAN|1.93|<|0.0001|TWO_SIDED|95.0|-50.96|-45.12|||ANOVA|||||-45.12|-50.96|<.0001
82658482|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|2.3|||TWO_SIDED|95.0|-1.3|0.3||||||Mean change from Baseline to Week 48 (LOCF)||0.3|-1.3|
82658483|NCT00617305|165033640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8|STANDARD_DEVIATION|3.03|||TWO_SIDED|95.0|-3.0|4.6||||||Mean change from Baseline to Week 48 (LOCF)||4.6|-3.0|
82658484|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.1|STANDARD_DEVIATION|3.98|||TWO_SIDED|95.0|-2.7|0.4||||||Mean change from Baseline to Week 12 (LOCF)||0.4|-2.7|
82612842|NCT04964063|164943219|OTHER||Mean Difference (Final Values)|-52.47|STANDARD_ERROR_OF_MEAN|1.91|<|0.0001|TWO_SIDED|95.0|-55.33|-49.62|||ANOVA|||||-49.62|-55.33|<.0001
82612843|NCT04964063|164943221|OTHER||Mean Difference (Final Values)|-2.45|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-2.88|-2.02|||ANOVA|||||-2.02|-2.88|<.0001
82612844|NCT04964063|164943222|OTHER||Mean Difference (Final Values)|-4.27|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-4.69|-3.85|||ANOVA|||||-3.85|-4.69|<.0001
82612845|NCT04964063|164943223|OTHER||Mean Difference (Final Values)|-5.71|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-6.13|-5.28|||ANOVA|||||-5.28|-6.13|<.0001
82612846|NCT04964063|164943224|OTHER||Mean Difference (Final Values)|-6.45|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-6.88|-6.02|||ANOVA|||||-6.02|-6.88|<.0001
82612847|NCT04964063|164943225|OTHER||Median Difference (Final Values)|-7.01|STANDARD_ERROR_OF_MEAN|0.26|<|0.0001|TWO_SIDED|95.0|-7.45|-6.58|||ANOVA|||||-6.58|-7.45|<.0001
82612848|NCT04964063|164943226|OTHER||Mean Difference (Final Values)|-7.44|STANDARD_ERROR_OF_MEAN|0.25|<|0.0001|TWO_SIDED|95.0|-7.87|-7.01|||ANOVA|||||-7.01|-7.87|<.0001
82612849|NCT04964063|164943228|OTHER||Mean Difference (Final Values)|-6.33|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-7.46|-5.2|||ANOVA|||||-5.20|-7.46|<.0001
82612850|NCT04964063|164943229|OTHER||Mean Difference (Final Values)|-11.53|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-12.64|-10.41|||ANOVA|||||-10.41|-12.64|<.0001
82612851|NCT04964063|164943230|OTHER||Mean Difference (Final Values)|-14.54|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-15.66|-13.42|||ANOVA|||||-13.42|-15.66|<.0001
82612852|NCT04964063|164943231|OTHER||Median Difference (Final Values)|-16.54|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-17.67|-15.41|||ANOVA|||||-15.41|-17.67|<.0001
82612853|NCT04964063|164943232|OTHER||Mean Difference (Final Values)|-17.73|STANDARD_ERROR_OF_MEAN|0.73|<|0.0001|TWO_SIDED|95.0|-18.87|-16.58|||ANOVA|||||-16.58|-18.87|<.0001
82612854|NCT04964063|164943233|OTHER||Mean Difference (Final Values)|-18.84|STANDARD_ERROR_OF_MEAN|0.72|<|0.0001|TWO_SIDED|95.0|-19.96|-17.72|||ANOVA|||||-17.72|-19.96|<.0001
82612855|NCT04964063|164943235|OTHER||Mean Difference (Final Values)|-2.04|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-2.52|-1.56|||ANOVA|||||-1.56|-2.52|<.0001
82612856|NCT04964063|164943236|OTHER||Mean Difference (Final Values)|-3.69|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-4.17|-3.22|||ANOVA|||||-3.22|-4.17|<.0001
82612857|NCT04964063|164943237|OTHER||Mean Difference (Final Values)|-4.67|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-5.15|-4.2|||ANOVA|||||-4.20|-5.15|<.0001
82612858|NCT04964063|164943238|OTHER||Mean Difference (Final Values)|-5.24|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-5.72|-4.76|||ANOVA|||||-4.76|-5.72|<.0001
82612859|NCT04964063|164943239|OTHER||Mean Difference (Final Values)|-5.63|STANDARD_ERROR_OF_MEAN|0.32|<|0.0001|TWO_SIDED|95.0|-6.12|-5.14|||ANOVA|||||-5.14|-6.12|<.0001
82612860|NCT04964063|164943240|OTHER||Mean Difference (Final Values)|-6.24|STANDARD_ERROR_OF_MEAN|0.31|<|0.0001|TWO_SIDED|95.0|-6.72|-5.77|||ANOVA|||||-5.77|-6.72|<.0001
82612861|NCT04964063|164943242|OTHER||Mean Difference (Final Values)|-5.25|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-6.06|-4.44|||ANOVA|||||-4.44|-6.06|<.0001
82612862|NCT04964063|164943243|OTHER||Mean Difference (Final Values)|-8.52|STANDARD_ERROR_OF_MEAN|0.47|<|0.0001|TWO_SIDED|95.0|-9.32|-7.72|||ANOVA|||||-7.72|-9.32|<.0001
82612863|NCT04964063|164943244|OTHER||Mean Difference (Final Values)|-10.55|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-11.35|-9.75|||ANOVA|||||-9.75|-11.35|<.0001
82612864|NCT04964063|164943245|OTHER||Mean Difference (Final Values)|-11.6|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-12.41|-10.79|||ANOVA|||||-10.79|-12.41|<.0001
82612865|NCT04964063|164943246|OTHER||Mean Difference (Final Values)|-12.63|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-13.45|-11.81|||ANOVA|||||-11.81|-13.45|<.0001
82612866|NCT04964063|164943247|OTHER||Mean Difference (Final Values)|-13.88|STANDARD_ERROR_OF_MEAN|0.48|<|0.0001|TWO_SIDED|95.0|-14.69|-13.08|||ANOVA|||||-13.08|-14.69|<.0001
82612867|NCT04964063|164943249|OTHER||Mean Difference (Final Values)|-1.88|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.43|-1.33|||ANOVA|||||-1.33|-2.43|<.0001
82612868|NCT04964063|164943250|OTHER||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-3.74|-2.65|||ANOVA|||||-2.65|-3.74|<.0001
82612869|NCT04964063|164943251|OTHER||Mean Difference (Final Values)|-3.98|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-4.53|-3.44|||ANOVA|||||-3.44|-4.53|<.0001
82612870|NCT04964063|164943252|OTHER||Mean Difference (Final Values)|-4.55|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-5.1|-4.0|||ANOVA|||||-4.00|-5.10|<.0001
82658485|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_DEVIATION|4.86|||TWO_SIDED|95.0|-6.5|9.0||||||Mean change from Baseline to Week 12 (LOCF)||9.0|-6.5|
82658486|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82658487|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.09|||TWO_SIDED|95.0|-2.3|0.6||||||Mean change from Baseline to Week 12 (LOCF)||0.6|-2.3|
82658488|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_DEVIATION|4.45|||TWO_SIDED|95.0|-4.9|6.1||||||Mean change from Baseline to Week 12 (LOCF)||6.1|-4.9|
82658489|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|5.0|||TWO_SIDED|95.0|-2.7|1.1||||||Mean change from Baseline to Week 24 (LOCF)||1.1|-2.7|
82658490|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.3|STANDARD_DEVIATION|4.03|||TWO_SIDED|95.0|-7.7|5.2||||||Mean change from Baseline to Week 24 (LOCF)||5.2|-7.7|
82658491|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658492|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9|STANDARD_DEVIATION|4.84|||TWO_SIDED|95.0|-2.6|0.9||||||Mean change from Baseline to Week 24 (LOCF)||0.9|-2.6|
82658493|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.4|STANDARD_DEVIATION|3.51|||TWO_SIDED|95.0|-5.8|3.0||||||Mean change from Baseline to Week 24 (LOCF)||3.0|-5.8|
82658494|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|5.2|||TWO_SIDED|95.0|-2.3|1.7||||||Mean change from Baseline to Week 36 (LOCF)||1.7|-2.3|
82658495|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.65|||TWO_SIDED|95.0|-8.1|6.6||||||Mean change from Baseline to Week 36 (LOCF)||6.6|-8.1|
82658496|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658497|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|5.07|||TWO_SIDED|95.0|-2.2|1.5||||||Mean change from Baseline to Week 36 (LOCF)||1.5|-2.2|
82658498|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|4.02|||TWO_SIDED|95.0|-5.8|4.2||||||Mean change from Baseline to Week 36 (LOCF)||4.2|-5.8|
82658499|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|6.33|||TWO_SIDED|95.0|-2.8|2.1||||||Mean change from Baseline to Week 48 (LOCF)||2.1|-2.8|
82658500|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5|STANDARD_DEVIATION|6.86|||TWO_SIDED|95.0|-11.4|10.4||||||Mean change from Baseline to Week 48 (LOCF)||10.4|-11.4|
82658501|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.0|STANDARD_DEVIATION|0.0||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658502|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|6.28|||TWO_SIDED|95.0|-2.7|1.9||||||Mean change from Baseline to Week 48 (LOCF)||1.9|-2.7|
82658503|NCT00617305|165033641|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6|STANDARD_DEVIATION|5.94|||TWO_SIDED|95.0|-8.0|6.8||||||Mean change from Baseline to Week 48 (LOCF)||6.8|-8.0|
82658504|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.5||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658505|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.28||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658506|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.49||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658507|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|0.28||||||||||||Mean change from Baseline to Week 4 (LOCF)||||
82658508|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.63||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82492634|NCT01786668|164677996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.876||0.49|TWO_SIDED|95.0|-2.4|5.0|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||Mental Health Score||5.00|-2.40|0.490
82658509|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.07||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82492635|NCT01786668|164677997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.048||0.125|TWO_SIDED|95.0|-0.02|0.17|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.17|-0.02|0.125
82658510|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.64||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82658511|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.07||||||||||||Mean change from Baseline to Week 12 (LOCF)||||
82658512|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.83||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658513|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.34||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658514|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.81||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658515|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.7|STANDARD_DEVIATION|0.34||||||||||||Mean change from Baseline to Week 24 (LOCF)||||
82658516|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.92||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658517|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|0.9||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658518|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.91||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658519|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8|STANDARD_DEVIATION|0.9||||||||||||Mean change from Baseline to Week 36 (LOCF)||||
82658520|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.91||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658521|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.77||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658522|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.88||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658523|NCT00617305|165033643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3|STANDARD_DEVIATION|0.77||||||||||||Mean change from Baseline to Week 48 (LOCF)||||
82658524|NCT03435081|165033663|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|2.31|9.15|||Regression, Logistic|||||9.15|2.31|<0.001
82658525|NCT03435081|165033664|SUPERIORITY||Odds Ratio (OR)|2.51||||0.033|TWO_SIDED|95.0|1.08|5.83|||Regression, Logistic|||||5.83|1.08|0.033
82658526|NCT03435081|165033664|SUPERIORITY||Odds Ratio (OR)|5.29|||<|0.001|TWO_SIDED|95.0|2.4|11.68|||Regression, Logistic|||||11.68|2.40|<0.001
82612871|NCT04964063|164943253|OTHER||Median Difference (Final Values)|-5.04|STANDARD_ERROR_OF_MEAN|0.36|<|0.0001|TWO_SIDED|95.0|-5.6|-4.48|||ANOVA|||||-4.48|-5.60|<.0001
82612872|NCT04964063|164943254|OTHER||Mean Difference (Final Values)|-6.07|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-6.62|-5.53|||ANOVA|||||-5.53|-6.62|<.0001
82612873|NCT04964063|164943256|OTHER||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.04||0.1091|TWO_SIDED|95.0|-0.12|0.01|||ANOVA|||||0.01|-0.12|0.1091
82612874|NCT04964063|164943257|OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.19|-0.06|||ANOVA|||||-0.06|-0.19|<.0001
82612875|NCT04964063|164943258|OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.23|-0.1|||ANOVA|||||-0.10|-0.23|<.0001
82612876|NCT04964063|164943259|OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.24|-0.11|||ANOVA|||||-0.11|-0.24|<.0001
82658527|NCT03435081|165033665|SUPERIORITY||Odds Ratio (OR)|1.71||||0.167|TWO_SIDED|95.0|0.8|3.63|||Regression, Logistic|||||3.63|0.80|0.167
82612877|NCT04964063|164943260|OTHER||Median Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.26|-0.13|||ANOVA|||||-0.13|-0.26|<.0001
82612878|NCT04964063|164943261|OTHER||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.04|<|0.0001|TWO_SIDED|95.0|-0.31|-0.18|||ANOVA|||||-0.18|-0.31|<.0001
82612879|NCT04964063|164943263|OTHER||Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-1.95|-1.45|||ANOVA|||||-1.45|-1.95|<.0001
82612880|NCT04964063|164943264|OTHER||Mean Difference (Final Values)|-2.69|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-2.94|-2.44|||ANOVA|||||-2.44|-2.94|<.0001
82612881|NCT04964063|164943265|OTHER||Mean Difference (Final Values)|-3.09|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-3.35|-2.84|||ANOVA|||||-2.84|-3.35|<.0001
82612882|NCT04964063|164943266|OTHER||Mean Difference (Final Values)|-3.44|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-3.69|-3.19|||ANOVA|||||-3.19|-3.69|<.0001
82612883|NCT04964063|164943267|OTHER||Median Difference (Final Values)|-3.8|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-4.06|-3.55|||ANOVA|||||-3.55|-4.06|<.0001
82612884|NCT04964063|164943268|OTHER||Mean Difference (Final Values)|-4.26|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-4.51|-4.0|||ANOVA|||||-4.00|-4.51|<.0001
82612885|NCT01035606|164943272|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<.01
82612886|NCT01035606|164943273|SUPERIORITY||||||<|0.01|||||||t-test, 2 sided|||||||<.01
82612887|NCT01809262|164943274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.02||0.0005||95.0|0.031|0.109|||ANCOVA|||||0.109|0.031|0.0005
82612888|NCT01809262|164943274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.06|0.138|||ANCOVA|||||0.138|0.060|<0.0001
82612889|NCT01809262|164943274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.113|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.074|0.152|||ANCOVA|||||0.152|0.074|<0.0001
82612890|NCT01809262|164943274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.08|0.158|||ANCOVA|||||0.158|0.080|<0.0001
82612891|NCT01809262|164943275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.108|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.077|0.139|||ANCOVA|||||0.139|0.077|<0.0001
82612892|NCT01809262|164943275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.155|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.124|0.186|||ANCOVA|||||0.186|0.124|<0.0001
82612893|NCT01809262|164943275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.13|0.192|||ANCOVA|||||0.192|0.130|<0.0001
82612894|NCT01809262|164943275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.161|0.223|||ANCOVA|||||0.223|0.161|<0.0001
82612895|NCT01809262|164943276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.068|0.131|||ANCOVA|||||0.131|0.068|<0.0001
82612896|NCT01809262|164943276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.107|0.171|||ANCOVA|||||0.171|0.107|<0.0001
82612897|NCT01809262|164943276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.122|0.185|||ANCOVA|||||0.185|0.122|<0.0001
82612898|NCT01809262|164943276|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.016|<|0.0001||95.0|0.152|0.215|||ANCOVA|||||0.215|0.152|<0.0001
82612899|NCT01809262|164943277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.056|0.117|||ANCOVA|||||0.117|0.056|<0.0001
82612900|NCT01809262|164943277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.087|0.148|||ANCOVA|||||0.148|0.087|<0.0001
82612901|NCT01809262|164943277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.138|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.107|0.168|||ANCOVA|||||0.168|0.107|<0.0001
82612902|NCT01809262|164943277|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.132|0.193|||ANCOVA|||||0.193|0.132|<0.0001
82612903|NCT01809262|164943278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.074|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.041|0.108|||ANCOVA|||||0.108|0.041|<0.0001
82612904|NCT01809262|164943278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.096|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.062|0.13|||ANCOVA|||||0.130|0.062|<0.0001
82612905|NCT01809262|164943278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.089|0.156|||ANCOVA|||||0.156|0.089|<0.0001
82612906|NCT01809262|164943278|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001||95.0|0.107|0.174|||ANCOVA|||||0.174|0.107|<0.0001
82612907|NCT01809262|164943279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.084|0.158|||ANCOVA|||||0.158|0.084|<0.0001
82612908|NCT01809262|164943279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.129|0.203|||ANCOVA|||||0.203|0.129|<0.0001
82612909|NCT01809262|164943279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.139|0.214|||ANCOVA|||||0.214|0.139|<0.0001
82658528|NCT03435081|165033666|SUPERIORITY||Odds Ratio (OR)|2.23||||0.131|TWO_SIDED|95.0|0.79|6.31|||Regression, Logistic|||||6.31|0.79|0.131
82658529|NCT03435081|165033666|SUPERIORITY||Odds Ratio (OR)|6.73|||<|0.001|TWO_SIDED|95.0|2.63|17.19|||Regression, Logistic|||||17.19|2.63|<0.001
82612910|NCT01809262|164943279|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.176|0.25|||ANCOVA|||||0.250|0.176|<0.0001
82612911|NCT01809262|164943280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.306|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.21|0.402|||ANCOVA|||||0.402|0.210|<0.0001
82612912|NCT01809262|164943280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.355|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.258|0.452|||ANCOVA|||||0.452|0.258|<0.0001
82612913|NCT01809262|164943280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.253|0.447|||ANCOVA|||||0.447|0.253|<0.0001
82612914|NCT01809262|164943280|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.455|STANDARD_ERROR_OF_MEAN|0.049|<|0.0001||95.0|0.359|0.551|||ANCOVA|||||0.551|0.359|<0.0001
82612915|NCT01505491|164943286|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|113.22|STANDARD_ERROR_OF_MEAN|1.086||0.1163|TWO_SIDED|90.0|98.752|129.812|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||129.812|98.752|0.1163
82658530|NCT03435081|165033667|SUPERIORITY||Mean Difference (Final Values)|-12.59|STANDARD_ERROR_OF_MEAN|7.079||0.077|TWO_SIDED|95.0|-26.54|1.36|||Mixed Models Analysis|||||1.36|-26.54|0.077
82612916|NCT01505491|164943286|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|132.24|STANDARD_ERROR_OF_MEAN|1.094||0.7345|TWO_SIDED|90.0|113.984|153.412|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||153.412|113.984|0.7345
82612917|NCT01505491|164943286|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|86.51|STANDARD_ERROR_OF_MEAN|1.09||0.1833|TWO_SIDED|90.0|74.974|99.83|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||99.830|74.974|0.1833
82612918|NCT01505491|164943287|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|109.42|STANDARD_ERROR_OF_MEAN|1.073||0.0303|TWO_SIDED|90.0|97.384|122.935|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||122.935|97.384|0.0303
82612919|NCT01505491|164943287|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|128.88|STANDARD_ERROR_OF_MEAN|1.08||0.6547|TWO_SIDED|90.0|113.492|146.365|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||146.365|113.492|0.6547
82612920|NCT01505491|164943287|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|86.24|STANDARD_ERROR_OF_MEAN|1.077||0.1572|TWO_SIDED|90.0|76.238|97.564|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||97.564|76.238|0.1572
82612921|NCT01505491|164943288|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|110.3|STANDARD_ERROR_OF_MEAN|1.063||0.0212|TWO_SIDED|90.0|99.687|122.035|||ANOVA||Bio-equivalence of BI 695501 vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||122.035|99.687|0.0212
82612922|NCT01505491|164943288|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|117.53|STANDARD_ERROR_OF_MEAN|1.066||0.17|TWO_SIDED|90.0|105.638|130.757|||ANOVA||Bio-equivalence of BI 695501 vs. Humira EU was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||130.757|105.638|0.1700
82612923|NCT01505491|164943288|EQUIVALENCE|p-value for ratio outside interval 80% to 125%|Geometric mean ratio (%)|96.53|STANDARD_ERROR_OF_MEAN|1.064||0.0016|TWO_SIDED|90.0|87.064|107.017|||ANOVA||Bio-equivalence of Humira EU vs. Humira US was estimated by the ratios of the adjusted geometric means (gMean). Standard error of the mean is actually geometric standard error.|ANOVA (analysis of variance) model on the logarithm scale was used with 'treatment' and 'age' as fixed effect.||107.017|87.064|0.0016
82612924|NCT03408873|164943310|OTHER||Mean Difference (Final Values)|-31.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612925|NCT03408873|164943310|OTHER||Mean Difference (Final Values)|-11.7||||0.12|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 28 participants with baseline data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.12
82658531|NCT03435081|165033667|SUPERIORITY||Mean Difference (Final Values)|-20.3|STANDARD_ERROR_OF_MEAN|6.875||0.004|TWO_SIDED|95.0|-33.85|-6.75|||Mixed Models Analysis|||||-6.75|-33.85|0.004
82658532|NCT03435081|165033668|SUPERIORITY||Odds Ratio (OR)|1.24||||0.733|TWO_SIDED|95.0|0.36|4.36|||Regression, Logistic|||||4.36|0.36|0.733
82658533|NCT03435081|165033668|SUPERIORITY||Odds Ratio (OR)|5.42||||0.002|TWO_SIDED|95.0|1.93|15.22|||Regression, Logistic|||||15.22|1.93|0.002
82658534|NCT03435081|165033669|SUPERIORITY||Odds Ratio (OR)|3.08||||0.012|TWO_SIDED|95.0|1.29|7.36|||Regression, Logistic|||||7.36|1.29|0.012
82658535|NCT03435081|165033669|SUPERIORITY||Odds Ratio (OR)|5.32|||<|0.001|TWO_SIDED|95.0|2.31|12.28|||Regression, Logistic|||||12.28|2.31|<0.001
82658536|NCT03435081|165033670|SUPERIORITY||Mean Difference (Final Values)|-0.21|STANDARD_ERROR_OF_MEAN|0.273||0.433|TWO_SIDED|95.0|-0.75|0.32|||Mixed Models Analysis|||||0.32|-0.75|0.433
82612926|NCT03408873|164943311|OTHER||Mean Difference (Final Values)|-19.6||||0.0599|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.0599
82612927|NCT03408873|164943311|OTHER||Mean Difference (Final Values)|-3.2||||0.63|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 28 participants with baseline data only 11 had Week 24 data. Statistical Analysis was conducted for 11 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.63
82612928|NCT03408873|164943313|OTHER||Mean Difference (Final Values)|-10.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data only 19 had Week 24 data. Statistical Analysis was conducted for 19 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612929|NCT03408873|164943314|OTHER||Mean Difference (Final Values)|-8.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 19 had Week 24 data. Statistical Analysis was conducted for 19 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612930|NCT03408873|164943314|OTHER||Mean Difference (Final Values)|-5.8|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||<0.001
82658537|NCT03435081|165033670|SUPERIORITY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.269||0.029|TWO_SIDED|95.0|-1.12|-0.06|||Mixed Models Analysis|||||-0.06|-1.12|0.029
82658538|NCT03435081|165033671|SUPERIORITY||Mean Difference (Final Values)|-1.12|STANDARD_ERROR_OF_MEAN|0.441||0.012|TWO_SIDED|95.0|-1.99|-0.25|||Mixed Models Analysis|||||-0.25|-1.99|0.012
82658539|NCT03435081|165033671|SUPERIORITY||Mean Difference (Final Values)|-1.36|STANDARD_ERROR_OF_MEAN|0.433||0.002|TWO_SIDED|95.0|-2.22|-0.51|||Mixed Models Analysis|||||-0.51|-2.22|0.002
82658540|NCT03435081|165033672|SUPERIORITY||Odds Ratio (OR)|1.69||||0.105|TWO_SIDED|95.0|0.9|3.2|||Regression, Logistic|||||3.20|0.90|0.105
82492636|NCT01786668|164677997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.048||0.207|TWO_SIDED|95.0|-0.03|0.16|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.16|-0.03|0.207
82612931|NCT03408873|164943315|OTHER||Mean Difference (Final Values)|-16.6|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612932|NCT03408873|164943315|OTHER|We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24) to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.|Mean Difference (Final Values)|-8.1||||0.003|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||0.003
82612933|NCT03408873|164943316|OTHER|We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data.|Mean Difference (Final Values)|-1.8|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82612934|NCT03408873|164943316|OTHER||Mean Difference (Final Values)|-1.3|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two time-points: difference between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant with complete data) between these time-points to determine whether the population medians differed.||||<0.001
82658541|NCT03435081|165033672|SUPERIORITY||Odds Ratio (OR)|3.67|||<|0.001|TWO_SIDED|95.0|2.02|6.68|||Regression, Logistic|||||6.68|2.02|<0.001
82658542|NCT03435081|165033673|SUPERIORITY||Odds Ratio (OR)|3.81||||0.144|TWO_SIDED|95.0|0.63|22.85|||Regression, Logistic|||||22.85|0.63|0.144
82658543|NCT03435081|165033673|SUPERIORITY||Odds Ratio (OR)|3.1||||0.227|TWO_SIDED|95.0|0.5|19.4|||Regression, Logistic|||||19.40|0.50|0.227
82658544|NCT03435081|165033674|SUPERIORITY||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|3.921||0.316|TWO_SIDED|95.0|-11.67|3.79|||Mixed Models Analysis|||||3.79|-11.67|0.316
82612935|NCT03408873|164943317|OTHER||Mean Difference (Final Values)|0.8||||0.0566|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two sets of time-points: 1) difference between screen and week 24, and 2) between baseline and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant) between these time-points to determine whether the population medians differed.||||0.0566
82612936|NCT03408873|164943318|OTHER||Mean Difference (Final Values)|-3.4|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared for the primary and secondary outcomes across two time-points: difference between screen and week 24. A non-parametric Wilcoxon signed-rank test compared these repeated measurements (matched on participant with complete data) between these time-points to determine whether the population medians differed.||||<0.001
82612937|NCT03408873|164943319|OTHER||Mean Difference (Final Values)|17.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612938|NCT03408873|164943320|OTHER||Mean Difference (Final Values)|16.9|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between baseline \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with baseline data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. The mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612939|NCT03408873|164943321|OTHER||Mean Difference (Final Values)|14.7|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 29 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612940|NCT03408873|164943322|OTHER||Mean Difference (Final Values)|19.2|||<|0.001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||<0.001
82612941|NCT03408873|164943323|OTHER||Mean Difference (Final Values)|-0.5||||0.73|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.73
82658545|NCT03435081|165033674|SUPERIORITY||Mean Difference (Final Values)|-11.81|STANDARD_ERROR_OF_MEAN|3.758||0.002|TWO_SIDED|95.0|-19.23|-4.4|||Mixed Models Analysis|||||-4.40|-19.23|0.002
82658546|NCT03435081|165033675|SUPERIORITY||Odds Ratio (OR)|1.39||||0.683|TWO_SIDED|95.0|0.29|6.78|||Regression, Logistic|||||6.78|0.29|0.683
82612942|NCT03408873|164943324|OTHER||Mean Difference (Final Values)|-10.7||||0.02|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||We compared the repeated measure outcome across 2 time-points (difference between screen \& week 24 to determine whether the population medians differed matched on participant with complete data. Of the 30 participants with screen data, only 21 had Week 24 data. Statistical Analysis was conducted for 21 participants with data at the 2 timepoints. Thus, the mean difference reported is not consistent with the mean values reported because only those with complete data were included in the analysis.||||0.02
82612943|NCT01600131|164943325|SUPERIORITY||Slope|-0.68|STANDARD_ERROR_OF_MEAN|1.72||0.693|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.693
82612944|NCT01600131|164943326|SUPERIORITY||Slope|-2.17|STANDARD_ERROR_OF_MEAN|2.07||0.693|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group x time interaction|||||0.693
82612945|NCT01600131|164943327|SUPERIORITY||Slope|-2.08|STANDARD_ERROR_OF_MEAN|1.08||0.055|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.055
82612946|NCT01600131|164943328|SUPERIORITY||Slope|-1.08|STANDARD_ERROR_OF_MEAN|1.15||0.346|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.346
82612947|NCT01600131|164943330|SUPERIORITY||Slope|-0.72|STANDARD_ERROR_OF_MEAN|1.79||0.688|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.688
82612948|NCT01600131|164943331|SUPERIORITY||Slope|-1.52|STANDARD_ERROR_OF_MEAN|1.87||0.418|TWO_SIDED|||||a priori \<.05|Mixed Models Analysis||group X time interaction|||||0.418
82612949|NCT01600131|164943332|SUPERIORITY||Slope|-1.94|STANDARD_ERROR_OF_MEAN|1.45||0.18|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.180
82612950|NCT01600131|164943333|SUPERIORITY||Slope|-0.63|STANDARD_ERROR_OF_MEAN|0.65||0.332|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.332
82612951|NCT01600131|164943334|SUPERIORITY||Slope|-0.56|STANDARD_ERROR_OF_MEAN|0.56||0.318|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.318
82612952|NCT01600131|164943335|SUPERIORITY||Slope|2.33|STANDARD_ERROR_OF_MEAN|1.31||0.077|TWO_SIDED|||||a priori \<.05|Mixed Models Analysis||group X time interaction|||||0.077
82612953|NCT01600131|164943336|SUPERIORITY||Slope|1.5|STANDARD_ERROR_OF_MEAN|1.46||0.305|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.305
82612954|NCT01600131|164943339|SUPERIORITY||Slope|-0.62|STANDARD_ERROR_OF_MEAN|0.94||0.514|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.514
82658547|NCT03435081|165033675|SUPERIORITY||Odds Ratio (OR)|2.25||||0.277|TWO_SIDED|95.0|0.52|9.68|||Regression, Logistic|||||9.68|0.52|0.277
82658548|NCT03435081|165033676|SUPERIORITY||Mean Difference (Final Values)|-6.02|STANDARD_ERROR_OF_MEAN|2.996||0.046|TWO_SIDED|95.0|-11.93|-0.12|||Mixed Models Analysis|||||-0.12|-11.93|0.046
82612955|NCT01600131|164943340|SUPERIORITY||Slope|-1.61|STANDARD_ERROR_OF_MEAN|0.94||0.09|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.090
82612956|NCT01600131|164943341|SUPERIORITY||Slope|6.71|STANDARD_ERROR_OF_MEAN|2.57||0.009|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.009
82612957|NCT01600131|164943342|SUPERIORITY||Slope|4.29|STANDARD_ERROR_OF_MEAN|3.53||0.225|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.225
82612958|NCT01600131|164943343|SUPERIORITY||Slope|3.75|STANDARD_ERROR_OF_MEAN|4.89||0.443|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.443
82612959|NCT01600131|164943344|SUPERIORITY||Slope|7.39|STANDARD_ERROR_OF_MEAN|5.23||0.158|TWO_SIDED||||||Mixed Models Analysis||group x time interaction|||||0.158
82612960|NCT01600131|164943345|SUPERIORITY||Slope|7.28|STANDARD_ERROR_OF_MEAN|3.64||0.046|TWO_SIDED|||||a priori \<.05 threshold|Mixed Models Analysis||group X time interaction|||||0.046
82658549|NCT03435081|165033676|SUPERIORITY||Mean Difference (Final Values)|-7.72|STANDARD_ERROR_OF_MEAN|2.911||0.009|TWO_SIDED|95.0|-13.46|-1.98|||Mixed Models Analysis|||||-1.98|-13.46|0.009
82658550|NCT03435081|165033677|SUPERIORITY|||||||0.598|||||||Fisher Exact|||||||0.598
82658551|NCT03435081|165033677|SUPERIORITY|||||||0.785|||||||Fisher Exact|||||||0.785
82658552|NCT03435081|165033678|SUPERIORITY||Mean Difference (Final Values)|-12.27|STANDARD_ERROR_OF_MEAN|6.562||0.063|TWO_SIDED|95.0|-25.21|0.66|||Mixed Models Analysis|||||0.66|-25.21|0.063
82612961|NCT01600131|164943346|SUPERIORITY||Slope|5.54|STANDARD_ERROR_OF_MEAN|3.83||0.149|TWO_SIDED||||||Mixed Models Analysis||group X time interaction|||||0.149
82612962|NCT01600131|164943347|SUPERIORITY||Slope|4.16|STANDARD_ERROR_OF_MEAN|1.95||0.034|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.034
82612963|NCT01600131|164943348|SUPERIORITY||Slope|-0.3|STANDARD_ERROR_OF_MEAN|1.52||0.846|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.846
82612964|NCT01600131|164943349|SUPERIORITY||Slope|1.67|STANDARD_ERROR_OF_MEAN|2.17||0.0442|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||.0442
82612965|NCT01600131|164943350|SUPERIORITY||Slope|1.98|STANDARD_ERROR_OF_MEAN|1.88||0.293|TWO_SIDED|||||a priori \<0.05|Mixed Models Analysis||group X time interaction|||||0.293
82612966|NCT02487745|164943377|SUPERIORITY||Odds Ratio (OR)|2.29||||0.05|TWO_SIDED|95.0|||||Regression, Logistic|||||||.05
82612967|NCT02487745|164943378|SUPERIORITY||Odds Ratio (OR)|3.88||||0.05|TWO_SIDED|95.0|||||Regression, Logistic|||||||.05
82612968|NCT00406315|164943389|SUPERIORITY_OR_OTHER_LEGACY||One-sided upper confidence limit|-0.53|||||ONE_SIDED|95.0|||||||A one-sided 95% confidence interval (CI) was constructed for the mean weight change from baseline to infer whether there was a significant decrease in weight.|Week 16.||||
82612969|NCT00406315|164943389|SUPERIORITY_OR_OTHER_LEGACY||One-sided upper confidence limit|-0.33|||||ONE_SIDED|95.0|||||||A one-sided 95% CI was constructed for the mean weight change from baseline to infer whether there was a significant decrease in weight.|Week 16 LOCF. Based on past information, the standard deviation of the mean weight difference was expected to be 2.2. The sample size of the study was estimated so that the one-sided CI of the mean weight decrease has a certain width. To obtain a one-sided CI with a width of 0.27 kg, a sample size of 180 subjects was needed. In other words, we were 95% certain that the true mean weight decrease was in an interval starting from the observed weight decrease and extending 0.27 kg unit above it.||||
82612970|NCT00406315|164943390|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.0|||||TWO_SIDED|95.0|-8.48|2.41||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.41|-8.48|
82612971|NCT00406315|164943391|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.2|||||TWO_SIDED|95.0|-1.82|1.44||||||HDL. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||1.44|-1.82|
82612972|NCT00406315|164943391|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.5|||||TWO_SIDED|95.0|-7.07|2.09||||||LDL. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.09|-7.07|
82612973|NCT00406315|164943391|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.6|||||TWO_SIDED|95.0|-16.44|13.15||||||Triglycerides. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||13.15|-16.44|
82612974|NCT00406315|164943392|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.1|||||TWO_SIDED|95.0|-0.02|0.14||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.14|-0.02|
82612975|NCT00406315|164943393|SUPERIORITY_OR_OTHER_LEGACY||Mean|3.0|||||TWO_SIDED|95.0|-0.09|6.15||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||6.15|-0.09|
82612976|NCT00406315|164943394|SUPERIORITY_OR_OTHER_LEGACY||Mean|134.8|||||TWO_SIDED|95.0|-20.43|289.98||||||The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||289.98|-20.43|
82612977|NCT00406315|164943395|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.9|||||TWO_SIDED|95.0|-5.93|0.11||||||Waist. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.11|-5.93|
82612978|NCT00406315|164943395|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.0|||||TWO_SIDED|95.0|-6.2|0.1||||||Hip. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.10|-6.20|
82612979|NCT00406315|164943396|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.05|||||TWO_SIDED|95.0|-0.32|0.42||||||Total Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.42|-0.32|
82612980|NCT00406315|164943396|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.03|||||TWO_SIDED|95.0|-0.05|0.11||||||Global Severity Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.11|-0.05|
82612981|NCT00406315|164943396|SUPERIORITY_OR_OTHER_LEGACY||Mean|0.01|||||TWO_SIDED|95.0|-0.06|0.07||||||Global Incapacitation Score. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||0.07|-0.06|
82658553|NCT03435081|165033678|SUPERIORITY||Mean Difference (Final Values)|-21.85|STANDARD_ERROR_OF_MEAN|6.437|<|0.001|TWO_SIDED|95.0|-34.54|-9.17|||Mixed Models Analysis|||||-9.17|-34.54|<0.001
82658554|NCT03435081|165033679|SUPERIORITY||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.536||0.217|TWO_SIDED|95.0|-4.93|1.12|||Mixed Models Analysis|||||1.12|-4.93|0.217
82658555|NCT03435081|165033679|SUPERIORITY||Mean Difference (Final Values)|-4.77|STANDARD_ERROR_OF_MEAN|1.487||0.002|TWO_SIDED|95.0|-7.7|-1.84|||Mixed Models Analysis|||||-1.84|-7.70|0.002
82658556|NCT03435081|165033680|SUPERIORITY||Mean Difference (Final Values)|-0.25|STANDARD_ERROR_OF_MEAN|0.178||0.155|TWO_SIDED|95.0|-0.6|0.1|||Mixed Models Analysis|||||0.10|-0.60|0.155
82612982|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-10.22|||||TWO_SIDED|95.0|-12.7|-7.75||||||Total Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-7.75|-12.70|
82612983|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-6.61|||||TWO_SIDED|95.0|-8.59|-4.63||||||Total Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-4.63|-8.59|
82612984|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-3.3|||||TWO_SIDED|95.0|-4.07|-2.53||||||Positive Subscale Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-2.53|-4.07|
82612985|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.43|||||TWO_SIDED|95.0|-3.03|-1.83||||||Positive Subscale Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-1.83|-3.03|
82612986|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.67|||||TWO_SIDED|95.0|-2.36|-0.99||||||Negative Subscale Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.99|-2.36|
82612987|NCT00406315|164943397|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.92|||||TWO_SIDED|95.0|-1.48|-0.35||||||Negative Subscale Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.35|-1.48|
82658557|NCT03435081|165033680|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.174||0.017|TWO_SIDED|95.0|-0.76|-0.07|||Mixed Models Analysis|||||-0.07|-0.76|0.017
82612988|NCT00406315|164943398|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.76|||||TWO_SIDED|95.0|-0.9|-0.61||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.61|-0.90|
82612989|NCT00406315|164943398|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.47|||||TWO_SIDED|95.0|-0.58|-0.36||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.36|-0.58|
82612990|NCT00406315|164943399|SUPERIORITY_OR_OTHER_LEGACY||Mean|2.7|||||TWO_SIDED|95.0|2.52|2.88||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||2.88|2.52|
82612991|NCT00406315|164943399|SUPERIORITY_OR_OTHER_LEGACY||Mean|3.2|||||TWO_SIDED|95.0|3.02|3.34||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||3.34|3.02|
82612992|NCT00406315|164943400|SUPERIORITY_OR_OTHER_LEGACY||Mean|-2.55|||||TWO_SIDED|95.0|-3.27|-1.83||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-1.83|-3.27|
82612993|NCT00406315|164943400|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.58|||||TWO_SIDED|95.0|-2.16|-0.99||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.99|-2.16|
82612994|NCT00406315|164943401|SUPERIORITY_OR_OTHER_LEGACY||Mean|-4.61|||||TWO_SIDED|95.0|-5.95|-3.26||||||Total Score, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-3.26|-5.95|
82612995|NCT00406315|164943401|SUPERIORITY_OR_OTHER_LEGACY||Mean|-4.21|||||TWO_SIDED|95.0|-5.57|-2.85||||||Total Score, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-2.85|-5.57|
82612996|NCT00406315|164943401|SUPERIORITY_OR_OTHER_LEGACY||Mean|-1.02|||||TWO_SIDED|95.0|-1.31|-0.73||||||Global Rating, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.73|-1.31|
82612997|NCT00406315|164943401|SUPERIORITY_OR_OTHER_LEGACY||Mean|-0.88|||||TWO_SIDED|95.0|-1.13|-0.63||||||Global Rating, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||-0.63|-1.13|
82612998|NCT00406315|164943402|SUPERIORITY_OR_OTHER_LEGACY||Mean|7.88|||||TWO_SIDED|95.0|6.07|9.69||||||Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.69|6.07|
82612999|NCT00406315|164943402|SUPERIORITY_OR_OTHER_LEGACY||Mean|5.27|||||TWO_SIDED|95.0|3.89|6.65||||||Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||6.65|3.89|
82613000|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|10.49|||||TWO_SIDED|95.0|5.95|15.02||||||Effectiveness, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||15.02|5.95|
82613001|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|10.49|||||TWO_SIDED|95.0|5.95|15.02||||||Effectiveness, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||15.02|5.95|
82613002|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|18.49|||||TWO_SIDED|95.0|11.94|25.04||||||Side Effect, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||25.04|11.94|
82613003|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|18.49|||||TWO_SIDED|95.0|11.94|25.04||||||Side Effect, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||25.04|11.94|
82613004|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|6.45|||||TWO_SIDED|95.0|2.98|9.93||||||Convenience, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.93|2.98|
82613005|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|6.45|||||TWO_SIDED|95.0|2.98|9.93||||||Convenience, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||9.93|2.98|
82613006|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|15.32|||||TWO_SIDED|95.0|9.97|20.68||||||Global Satisfaction, Week 16. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||20.68|9.97|
82613007|NCT00406315|164943403|SUPERIORITY_OR_OTHER_LEGACY||Mean|15.32|||||TWO_SIDED|95.0|9.97|20.68||||||Global Satisfaction, Week 16 LOCF. The arithmetic mean and the corresponding 2-sided 95% CI are reported. All CIs are unadjusted for any multiplicity.||20.68|9.97|
82613008|NCT01041573|164943529|SUPERIORITY_OR_OTHER_LEGACY|||||||0.641|||||||Fisher Exact|||||||0.641
82658558|NCT03435081|165033681|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.565||0.345|TWO_SIDED|95.0|-0.58|1.65|||Mixed Models Analysis|||Anxiety||1.65|-0.58|0.345
82613009|NCT01041573|164943529|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82613010|NCT01276847|164943554|SUPERIORITY_OR_OTHER|||||||0.016||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.016
82613011|NCT01276847|164943554|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.007
82613012|NCT01276847|164943554|SUPERIORITY_OR_OTHER|||||||0.00015||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.00015
82658559|NCT03435081|165033681|SUPERIORITY||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.543||0.336|TWO_SIDED|95.0|-1.59|0.55|||Mixed Models Analysis|||Anxiety||0.55|-1.59|0.336
82658560|NCT03435081|165033681|SUPERIORITY||Mean Difference (Final Values)|0.43|STANDARD_ERROR_OF_MEAN|0.465||0.353|TWO_SIDED|95.0|-0.48|1.35|||Mixed Models Analysis|||Depression||1.35|-0.48|0.353
82658561|NCT03435081|165033681|SUPERIORITY||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.446||0.34|TWO_SIDED|95.0|-1.31|0.45|||Mixed Models Analysis|||Depression||0.45|-1.31|0.340
82658562|NCT03435081|165033682|SUPERIORITY||Mean Difference (Final Values)|-1.5|STANDARD_ERROR_OF_MEAN|1.228||0.224|TWO_SIDED|95.0|-3.92|0.92|||Mixed Models Analysis|||||0.92|-3.92|0.224
82658563|NCT03435081|165033682|SUPERIORITY||Mean Difference (Final Values)|-3.5|STANDARD_ERROR_OF_MEAN|1.184||0.004|TWO_SIDED|95.0|-5.83|-1.16|||Mixed Models Analysis|||||-1.16|-5.83|0.004
82658564|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-3.36|STANDARD_ERROR_OF_MEAN|5.956||0.575|TWO_SIDED|95.0|-15.3|8.57|||Mixed Models Analysis|||Absenteeism Change from Baseline||8.57|-15.30|0.575
82658565|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-1.07|STANDARD_ERROR_OF_MEAN|5.664||0.851|TWO_SIDED|95.0|-12.43|10.3|||Mixed Models Analysis|||Absenteeism Change from Baseline||10.30|-12.43|0.851
82658566|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-11.75|STANDARD_ERROR_OF_MEAN|5.212||0.026|TWO_SIDED|95.0|-22.05|-1.45|||Mixed Models Analysis|||Presenteeism Change from Baseline||-1.45|-22.05|0.026
82658567|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-15.9|STANDARD_ERROR_OF_MEAN|5.056||0.002|TWO_SIDED|95.0|-25.89|-5.91|||Mixed Models Analysis|||Presenteeism Change from Baseline||-5.91|-25.89|0.002
82613013|NCT01276847|164943554|SUPERIORITY_OR_OTHER|||||||0.000184||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.000184
82613014|NCT01276847|164943555|SUPERIORITY_OR_OTHER|||||||0.397||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.397
82613015|NCT01276847|164943555|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.010
82613016|NCT01276847|164943555|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.002
82613017|NCT01276847|164943555|SUPERIORITY_OR_OTHER|||||||0.000215||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.000215
82613018|NCT01276847|164943556|SUPERIORITY_OR_OTHER|||||||0.787||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 1||||0.787
82613019|NCT01276847|164943556|SUPERIORITY_OR_OTHER|||||||0.577||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 2||||0.577
82613020|NCT01276847|164943556|SUPERIORITY_OR_OTHER|||||||0.053||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 4||||0.053
82613021|NCT01276847|164943556|SUPERIORITY_OR_OTHER|||||||0.098||95.0||||unadjusted 1-sided p-value, α = 0.05|Wilcoxon (Mann-Whitney)|One-sample test||Week 16||||0.098
82613022|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.6|STANDARD_ERROR_OF_MEAN|4.87|<|0.0001|TWO_SIDED|95.0|13.0|32.2|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||32.20|13.00|<0.0001
82613023|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|21.2|STANDARD_ERROR_OF_MEAN|4.87|<|0.0001|TWO_SIDED|95.0|11.6|30.81|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||30.81|11.6|<0.0001
82658568|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-12.85|STANDARD_ERROR_OF_MEAN|6.237||0.041|TWO_SIDED|95.0|-25.18|-0.51|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-0.51|-25.18|0.041
82658569|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-16.27|STANDARD_ERROR_OF_MEAN|6.034||0.008|TWO_SIDED|95.0|-28.2|-4.34|||Mixed Models Analysis|||Overall Work Impairment Change from Baseline||-4.34|-28.20|0.008
82658570|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-9.64|STANDARD_ERROR_OF_MEAN|4.219||0.023|TWO_SIDED|95.0|-17.95|-1.32|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-1.32|-17.95|0.023
82658571|NCT03435081|165033683|SUPERIORITY||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|4.115||0.001|TWO_SIDED|95.0|-21.4|-5.17|||Mixed Models Analysis|||Activity Impairment Change from Baseline||-5.17|-21.40|0.001
82658572|NCT03435081|165033684|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.026||0.482|TWO_SIDED|95.0|-0.03|0.07|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.07|-0.03|0.482
82658573|NCT03435081|165033684|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.026||0.043|TWO_SIDED|95.0|0.0|0.1|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.10|0.00|0.043
82658574|NCT03435081|165033684|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_ERROR_OF_MEAN|0.037||0.656|TWO_SIDED|95.0|-0.06|0.09|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.09|-0.06|0.656
82613024|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|23.7|STANDARD_ERROR_OF_MEAN|4.85|<|0.0001|TWO_SIDED|95.0|14.13|33.23|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||33.23|14.13|<0.0001
82613025|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|12.5|STANDARD_ERROR_OF_MEAN|4.85||0.0107|TWO_SIDED|95.0|2.93|22.05|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||22.05|2.93|0.0107
82613026|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|4.88||0.7772|TWO_SIDED|95.0|-11.0|8.23||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||8.23|-11.00|0.7772
82613027|NCT01899144|164943557|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-11.2|STANDARD_ERROR_OF_MEAN|4.87||0.0226|TWO_SIDED|95.0|-20.8|-1.59||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||-1.59|-20.80|0.0226
82613028|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.26|0.64|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.64|0.26|<0.0001
82613029|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.21|0.59|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.59|0.21|<0.0001
82658575|NCT03435081|165033684|SUPERIORITY||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.036||0.057|TWO_SIDED|95.0|0.0|0.14|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.14|-0.00|0.057
82613030|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.45|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|0.26|0.64|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.64|0.26|<0.0001
82613031|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.1||0.0062|TWO_SIDED|95.0|0.08|0.45|||ANOVA|Mixed effect analysis of variance with fixed effects of sequence, treatment group, and period, and random effect for the patient within sequence|Active - Placebo|"The mean difference between each active group and placebo was tested in a sequential manner:~* Albuterol MDPI 180 mcg to placebo~* Albuterol MDPI 90 mcg to placebo~* ProAir HFA 180 mcg to placebo~* ProAir HFA 90 mcg to placebo Each test was 2 sided and done at the 0.05 level of significance. However, if a test was not significant at this level, no further tests were done. This sequential process assured that the overall alpha level for the entire series was not greater than 0.05."||0.45|0.08|0.0062
82613032|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.05|STANDARD_ERROR_OF_MEAN|0.1||0.6342|TWO_SIDED|95.0|-0.23|0.14||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||0.14|-0.23|0.6342
82613033|NCT01899144|164943558|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.0488|TWO_SIDED|95.0|-0.38|0.0||0.05 level of significance|ANOVA||90 mcg - 180 mcg|Pre-specified, exploratory analysis||0.00|-0.38|0.0488
82613034|NCT00751881|164943562|SUPERIORITY_OR_OTHER||Relative risk reduction (%)|36.3||||0.0001|TWO_SIDED|95.0||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with teriflunomide 14 mg compared to placebo|"Null hypothesis:~* H1: No difference between teriflunomide 14 mg and placebo~* H2: No difference between teriflunomide 7 mg and placebo~The study was sized to have 94% power to detect a 25% relative risk reduction in ARR with teriflunomide compared to placebo at a 2-sided 0.05 significance level."||||0.0001
82613035|NCT00751881|164943562|SUPERIORITY_OR_OTHER||Relative Risk Reduction (%)|22.3||||0.0183|TWO_SIDED|95.0||||"Step down approach used to adjust for multiplicity:~* H1 tested first~* H2 tested only if the comparison H1 was statistically significant~A priori threshold for statistical significance for both comparisons ≤0.05"|Regression, Poisson||Relative risk reduction with teriflunomide 7 mg compared to placebo|||||0.0183
82658576|NCT03435081|165033685|SUPERIORITY||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|2.597||0.609|TWO_SIDED|95.0|-6.45|3.79|||Mixed Models Analysis|||||3.79|-6.45|0.609
82658577|NCT03435081|165033685|SUPERIORITY||Mean Difference (Final Values)|3.48|STANDARD_ERROR_OF_MEAN|2.503||0.166|TWO_SIDED|95.0|-1.46|8.41|||Mixed Models Analysis|||||8.41|-1.46|0.166
82658578|NCT03435081|165033686|SUPERIORITY||Odds Ratio (OR)|1.96||||0.258|TWO_SIDED|95.0|0.61|6.26|||Regression, Logistic|||||6.26|0.61|0.258
82658579|NCT03435081|165033686|SUPERIORITY||Odds Ratio (OR)|2.99||||0.052|TWO_SIDED|95.0|0.99|8.97|||Regression, Logistic|||||8.97|0.99|0.052
82658580|NCT00420238|165033687|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.83||||0.019|TWO_SIDED|95.0|-16.5|-1.51|||ANCOVA||Least squares mean difference = mean difference final value.|Comparison of least squares means. Primary analysis: analysis of covariance (ANCOVA) with treatment as a factor and BASDAI baseline as a covariate.||-1.51|-16.5|0.019
82658581|NCT00420238|165033688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.92||||0.098|TWO_SIDED|95.0|0.82|10.42|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||10.42|0.82|0.098
82658582|NCT00420238|165033688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.02||||0.197|TWO_SIDED|95.0|0.69|5.88|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||5.88|0.69|0.197
82613036|NCT00751881|164943563|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|31.5||||0.0442|TWO_SIDED|95.0||||"Step down approach:~* S1 tested only if both comparisons on the primary outcome measure were statistically significant~* S2 tested only if the comparison S1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative reduction in the hazard rate with teriflunomide 14 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|"Null hypothesis:~* S1: No difference between teriflunomide 14 mg and placebo~* S2: No difference between teriflunomide 7 mg and placebo~The study was also sized to have 75% power to detect a 37% hazard ratio reduction in time to disability progression with teriflunomide compared to placebo."||||0.0442
82613037|NCT00751881|164943563|SUPERIORITY_OR_OTHER||Hazard ratio reduction (%)|4.5||||0.762|TWO_SIDED|95.0||||"Step down approach:~* S1 tested only if both comparisons on the primary outcome measure were statistically significant~* S2 tested only if the comparison S1 was statistically significant~A priori threshold for statistical significance ≤0.05"|Log Rank|Two-sided Log-rank test stratified by region of enrollment and baseline EDSS stratum|Relative reduction in the hazard rate with teriflunomide 7 mg compared to placebo (estimated from a Cox proportional hazard model with treatment arm, region of enrollment and baseline EDSS stratum as covariates)|||||0.7620
82613038|NCT00064662|164943622|SUPERIORITY_OR_OTHER||Other|0.0||||0.01||95.0|||||Log Rank|||Time to event analysis of 24 month success rates. Null hypothesis is that the distributions in the two groups are equal.||||0.01
82658583|NCT00420238|165033688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3||||0.087|TWO_SIDED|95.0|0.89|5.95|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||5.95|0.89|0.087
82658584|NCT00420238|165033688|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.83||||0.031|TWO_SIDED|95.0|1.1|7.29|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors.||7.29|1.10|0.031
82658585|NCT00420238|165033689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.31|TWO_SIDED|95.0|0.62|4.57|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||4.57|0.62|0.310
82658586|NCT00420238|165033689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.61||||0.309|TWO_SIDED|95.0|0.65|3.99|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||3.99|0.65|0.309
82658587|NCT00420238|165033689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.61||||0.001|TWO_SIDED|95.0|1.81|11.74|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.74|1.81|0.001
82613039|NCT00064662|164943623|SUPERIORITY_OR_OTHER||Chi-square|16.2|||<|0.001||95.0|||||Log Rank|||Time to event analysis of cumulative success rates in the two groups. Null hypothesis is that the distributions are equal in the two groups.||||<0.001
82613040|NCT00064662|164943623|SUPERIORITY_OR_OTHER||Other|0.0|||<|0.0001||95.0|||||Kalpan Meier (Wald statistic)|||Kaplan Meier time-to-event analysis of cumulative success rates. Used Wald test of equality of survival distributions.||||<0.0001
82613041|NCT03008590|164943624|SUPERIORITY|||||||0.9||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.90
82613042|NCT03008590|164943625|SUPERIORITY|||||||0.22||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.22
82613043|NCT03008590|164943626|SUPERIORITY|||||||0.02||||||Although significance was pre-specified at P\<0.05, it is suspected that this result is spurious due to multiple comparisons|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.02
82613044|NCT03008590|164943627|SUPERIORITY|||||||0.3||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.3
82613045|NCT03008590|164943628|SUPERIORITY|||||||0.04||||||Although significance was pre-specified at P\<0.05, it is suspected that this result is spurious due to multiple comparisons|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.04
82613046|NCT03008590|164943629|SUPERIORITY|||||||0.78||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.78
82613047|NCT03008590|164943630|SUPERIORITY|||||||0.92||||||Significance pre-specified at P\<0.05|Mixed Models Analysis|||Data from the primary or secondary outcome measures were the dependent variables. The patient was the random effect. Dependent fixed effects variables included treatment at the time of data collection (naltrexone or placebo), group (naltrexone first or placebo first), and week (4, 8, 12, and 16).||||0.92
82613048|NCT01000064|164943647|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.053
82658588|NCT00420238|165033689|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.14||||0.003||95.0|1.65|10.42|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in the etanercept group than in the placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||10.42|1.65|0.003
82492637|NCT01786668|164677997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.049||0.013|TWO_SIDED|95.0|0.03|0.22|||ANCOVA|ANCOVA model includes fixed effects for treatment group and baseline value as a covariate.||||0.22|0.03|0.013
82613049|NCT01000064|164943648|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.052
82613050|NCT01000064|164943649|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82613051|NCT01000064|164943650|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82613052|NCT01000064|164943651|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||||||0.003
82613053|NCT01000064|164943652|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||0.040
82613054|NCT01000064|164943653|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED||||||t-test, 2 sided|||||||0.047
82613055|NCT01850563|164943674|OTHER||Hazard Ratio (HR)|0.87||||0.76|TWO_SIDED||||||Kaplan-Meier|||||||0.76
82613056|NCT01850563|164943676|OTHER||Hazard Ratio (HR)|0.82||||0.76|TWO_SIDED||||||Kaplan-Meier|||||||0.76
82613057|NCT02369835|164943725|OTHER|||||||0.8872|||||||Chi-squared|||||||.8872
82613058|NCT03074162|164943728|EQUIVALENCE|The statistical model was an variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with R.|Geometric Mean (gMean) Ratio (%)|45.54|STANDARD_ERROR_OF_MEAN|35.99|||TWO_SIDED|90.0|40.11|51.7|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/R) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation.|||51.70|40.11|
82613059|NCT03074162|164943728|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with A.|Geometric Mean (gMean) Ratio (%)|85.56|STANDARD_ERROR_OF_MEAN|42.05|||TWO_SIDED|90.0|74.11|98.77|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/A) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation|||98.77|74.11|
82613060|NCT03074162|164943729|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with R.|Geometric Mean (gMean) Ratio (%)|49.6|STANDARD_ERROR_OF_MEAN|38.13|||TWO_SIDED|90.0|43.39|56.71|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/R) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation.|||56.71|43.39|
82613061|NCT03074162|164943729|EQUIVALENCE|The statistical model was an analysis of variance (ANOVA) on the logarithmic scale including fixed effects for sequence, subject nested within sequence, period and treatment for comparison of B with A.|Geometric Mean (gMean) Ratio (%)|83.57|STANDARD_ERROR_OF_MEAN|72.45|||TWO_SIDED|90.0|66.33|105.31|||ANOVA|Only the data for the comparison under investigation were included in the statistical analysis.|gMean Ratio=(B/A) \*100. Standard Error of the mean is actually intra-individual geometric coefficient of variation|||105.31|66.33|
82613062|NCT02948777|164943733|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82613063|NCT02948777|164943734|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82613064|NCT02948777|164943735|OTHER|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82613065|NCT02948777|164943736|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82613066|NCT02948777|164943737|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82613067|NCT02948777|164943738|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82613068|NCT02948777|164943739|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82613069|NCT02948777|164943740|OTHER|||||||0.22|||||||Wilcoxon (Mann-Whitney)|||||||0.22
82613070|NCT02948777|164943741|OTHER|||||||0.31|||||||Kruskal-Wallis|||||||0.31
82613071|NCT02948777|164943742|OTHER|||||||0.61|||||||Wilcoxon (Mann-Whitney)|||||||0.61
82613072|NCT02948777|164943743|OTHER|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82613073|NCT02948777|164943744|OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82613074|NCT02948777|164943745|OTHER|||||||0.027|||||||Wilcoxon (Mann-Whitney)|||||||0.027
82658589|NCT00420238|165033691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13||||0.259|TWO_SIDED|95.0|0.57|7.94|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||7.94|0.57|0.259
82658590|NCT00420238|165033691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.54||||0.44||95.0|0.51|4.64|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||4.64|0.51|0.440
82658591|NCT00420238|165033691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.046||95.0|1.02|8.16|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||8.16|1.02|0.046
82658592|NCT00420238|165033691|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85||||0.014||95.0|1.31|11.32|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.32|1.31|0.014
82658593|NCT00420238|165033693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.01||||0.204|TWO_SIDED|95.0|0.55|16.53|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||16.53|0.55|0.204
82613075|NCT02948777|164943746|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
82613076|NCT02948777|164943747|OTHER|||||||0.59|||||||Wilcoxon (Mann-Whitney)|||||||0.59
82613077|NCT02948777|164943748|OTHER|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
82613078|NCT02948777|164943749|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82613079|NCT02948777|164943750|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1
82613080|NCT02948777|164943751|OTHER|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82613081|NCT02948777|164943752|OTHER|||||||0.013|||||||Wilcoxon (Mann-Whitney)|||||||0.013
82613082|NCT02948777|164943753|OTHER|||||||0.91|||||||Wilcoxon (Mann-Whitney)|||||||0.91
82613083|NCT02948777|164943754|OTHER|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82613084|NCT02948777|164943756|OTHER|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||||||0.84
82613085|NCT02948777|164943757|OTHER|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||||||0.89
82613086|NCT03242928|164943758|SUPERIORITY||Mean Difference (Final Values)|-0.087|STANDARD_ERROR_OF_MEAN|0.037|=|0.021|TWO_SIDED|95.0|-0.161|-0.013|||ANCOVA|||||-0.013|-0.161|= 0.021
82613087|NCT03242928|164943759|SUPERIORITY||Mean Difference (Final Values)|-0.177|STANDARD_ERROR_OF_MEAN|0.077|=|0.025|TWO_SIDED|95.0|-0.331|-0.023|||ANOVA|||||-0.023|-0.331|= 0.025
82613088|NCT03242928|164943760|SUPERIORITY||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.038|=|0.072|TWO_SIDED|95.0|-0.146|0.006|||ANCOVA|||||0.006|-0.146|= 0.072
82613089|NCT00431847|164943856|SUPERIORITY_OR_OTHER||Slope|-0.0323|STANDARD_ERROR_OF_MEAN|0.00619|<|0.0001|TWO_SIDED|95.0|-0.0448|-0.02013|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.02013|-0.0448|<0.0001
82613090|NCT00431847|164943856|SUPERIORITY_OR_OTHER||Chi Squared|2.65||||0.4492|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4492
82613091|NCT00431847|164943856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.108|STANDARD_ERROR_OF_MEAN|0.2308||0.64|TWO_SIDED|95.0|-0.5621|0.3461|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.|Estimated intercept group difference|A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3461|-0.5621|0.640
82613092|NCT00431847|164943856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3299|STANDARD_ERROR_OF_MEAN|0.3372||0.3286|TWO_SIDED|95.0|-0.3334|0.9932|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.9932|-0.3334|0.3286
82613093|NCT00431847|164943856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.8591|STANDARD_ERROR_OF_MEAN|0.4716||0.0694|TWO_SIDED|95.0|-0.06841|1.7866|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.7866|-0.06841|0.0694
82613094|NCT00431847|164943857|SUPERIORITY_OR_OTHER||Slope|-0.02332|STANDARD_ERROR_OF_MEAN|0.003777|<|0.0001|TWO_SIDED|95.0|-0.03076|-0.01589|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01589|-0.03076|<0.0001
82613095|NCT00431847|164943857|SUPERIORITY_OR_OTHER||Chi-Squared|2.49||||0.4772|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4772
82613096|NCT00431847|164943857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07724|STANDARD_ERROR_OF_MEAN|0.1503||0.6077|TWO_SIDED|95.0|-0.2184|0.3729|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3729|-0.2184|0.6077
82613097|NCT00431847|164943857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2004|STANDARD_ERROR_OF_MEAN|0.2194||0.3616|TWO_SIDED|95.0|-0.2311|0.6319|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.6319|-0.2311|0.3616
82613098|NCT00431847|164943857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3082|STANDARD_ERROR_OF_MEAN|0.3066||0.3155|TWO_SIDED|95.0|-0.2948|0.9112|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.9112|-0.2948|0.3155
82658594|NCT00420238|165033693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
82658595|NCT00420238|165033693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.73||||0.121||95.0|0.71|19.69|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||19.69|0.71|0.121
82613099|NCT00431847|164943858|SUPERIORITY_OR_OTHER||Slope|-0.02746|STANDARD_ERROR_OF_MEAN|0.004202|<|0.0001|TWO_SIDED|95.0|-0.03573|-0.01919|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01919|-0.03573|<0.0001
82613100|NCT00431847|164943858|SUPERIORITY_OR_OTHER||Chi-Squared|3.4||||0.3345|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3345
82613101|NCT00431847|164943858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0386|STANDARD_ERROR_OF_MEAN|0.1718||0.8223|TWO_SIDED|95.0|-0.2993|0.3765|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3765|-0.2993|0.8223
82613102|NCT00431847|164943858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2919|STANDARD_ERROR_OF_MEAN|0.2506||0.2448|TWO_SIDED|95.0|-0.2009|0.7848|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.7848|-0.2009|0.2448
82613103|NCT00431847|164943858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.4482|STANDARD_ERROR_OF_MEAN|0.3502||0.2014|TWO_SIDED|95.0|-0.2405|1.1369|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.1369|-0.2405|0.2014
82613104|NCT00431847|164943859|SUPERIORITY_OR_OTHER||Slope|-0.0403|STANDARD_ERROR_OF_MEAN|0.007196|<|0.0001|TWO_SIDED|95.0|-0.5446|-0.02613|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-0.02613|-0.5446|<0.0001
82613105|NCT00431847|164943859|SUPERIORITY_OR_OTHER||Chi-Squared|3.19||||0.3631|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3631
82613106|NCT00431847|164943859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1004|STANDARD_ERROR_OF_MEAN|0.2746||0.7148|TWO_SIDED|95.0|-0.6404|0.4396|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.4396|-0.6404|0.7148
82613107|NCT00431847|164943859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.3568|STANDARD_ERROR_OF_MEAN|0.4009||0.3741|TWO_SIDED|95.0|-0.4318|1.1453|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.1453|-0.4318|0.3741
82613108|NCT00431847|164943859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2969|STANDARD_ERROR_OF_MEAN|0.5609||0.0213|TWO_SIDED|95.0|0.1938|2.4|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.4000|0.1938|0.0213
82613109|NCT00431847|164943860|SUPERIORITY_OR_OTHER||Slope|-0.02776|STANDARD_ERROR_OF_MEAN|0.004706|<|0.0001|TWO_SIDED|95.0|-0.03702|-0.0185|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.01850|-0.03702|<0.0001
82613110|NCT00431847|164943860|SUPERIORITY_OR_OTHER||Chi-Squared|3.88||||0.2752|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.2752
82658596|NCT00420238|165033693|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.36||||0.058||95.0|0.96|11.8|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||11.80|0.96|0.058
82658597|NCT00420238|165033695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.5||||0.287|TWO_SIDED|95.0|0.35|35.14|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||35.14|0.35|0.287
82613111|NCT00431847|164943860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.3079|STANDARD_ERROR_OF_MEAN|0.1918||0.1094|TWO_SIDED|95.0|-0.6851|0.06941|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.06941|-0.6851|0.1094
82613112|NCT00431847|164943860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0428|STANDARD_ERROR_OF_MEAN|0.28||0.8786|TWO_SIDED|95.0|-0.5079|0.5935|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.5935|-0.5079|0.8786
82613113|NCT00431847|164943860|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6759|STANDARD_ERROR_OF_MEAN|0.391||0.0847|TWO_SIDED|95.0|-0.09297|1.4448|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.4448|-0.09297|0.0847
82613114|NCT00431847|164943861|SUPERIORITY_OR_OTHER||Slope|-0.03645|STANDARD_ERROR_OF_MEAN|0.005913|<|0.0001|TWO_SIDED|95.0|-0.04808|-0.02481|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.02481|-0.04808|<0.0001
82613115|NCT00431847|164943861|SUPERIORITY_OR_OTHER||Chi-Squared|3.16||||0.3677|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3677
82613116|NCT00431847|164943861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05816|STANDARD_ERROR_OF_MEAN|0.221||0.7926|TWO_SIDED|95.0|-0.4929|0.3766|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.3766|-0.4929|0.7926
82613117|NCT00431847|164943861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1708|STANDARD_ERROR_OF_MEAN|0.3212||0.5953|TWO_SIDED|95.0|-0.461|0.8026|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.8026|-0.4610|0.5953
82613118|NCT00431847|164943861|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6873|STANDARD_ERROR_OF_MEAN|0.4482||0.1261|TWO_SIDED|95.0|-0.1943|1.5689|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.5689|-0.1943|0.1261
82613119|NCT00431847|164943862|SUPERIORITY_OR_OTHER||Slope|-0.4831|STANDARD_ERROR_OF_MEAN|0.1243||0.0002|TWO_SIDED|95.0|-0.7286|-0.2377|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.2377|-0.7286|0.0002
82613120|NCT00431847|164943862|SUPERIORITY_OR_OTHER||Chi-Squared|3.2||||0.3617|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.3617
82613121|NCT00431847|164943862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.1574|STANDARD_ERROR_OF_MEAN|2.7573||0.2532|TWO_SIDED|95.0|-2.2715|8.5863|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||8.5863|-2.2715|0.2532
82658598|NCT00420238|165033695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8||||0.169||95.0|0.51|44.94|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||44.94|0.51|0.169
82658599|NCT00420238|165033695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
82613122|NCT00431847|164943862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.2227|STANDARD_ERROR_OF_MEAN|3.9633||0.758|TWO_SIDED|95.0|-6.5833|9.0286|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||9.0286|-6.5833|0.7580
82613123|NCT00431847|164943862|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.1649|STANDARD_ERROR_OF_MEAN|5.3759||0.1837|TWO_SIDED|95.0|-17.7484|3.4187|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.4187|-17.7484|0.1837
82613124|NCT00431847|164943863|SUPERIORITY_OR_OTHER||Slope|0.4741|STANDARD_ERROR_OF_MEAN|0.03909|<|0.0001|TWO_SIDED|95.0|0.3971|0.5511|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.5511|0.3971|<0.0001
82613125|NCT00431847|164943863|SUPERIORITY_OR_OTHER||Chi-Squared|1.83||||0.6075|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6075
82613126|NCT00431847|164943863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9534|STANDARD_ERROR_OF_MEAN|1.2763||0.4558|TWO_SIDED|95.0|-3.4675|1.5607|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.5607|-3.4675|0.4558
82613127|NCT00431847|164943863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.3505|STANDARD_ERROR_OF_MEAN|1.977||0.0914|TWO_SIDED|95.0|-7.2442|0.5432|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||0.5432|-7.2442|0.0914
82613128|NCT00431847|164943863|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.37|STANDARD_ERROR_OF_MEAN|3.0921||0.007|TWO_SIDED|95.0|-14.4589|-2.281|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-2.2810|-14.4589|0.007
82613129|NCT00431847|164943864|SUPERIORITY_OR_OTHER||Slope|-0.2169|STANDARD_ERROR_OF_MEAN|0.04148|<|0.0001|TWO_SIDED|95.0|-0.2987|-0.1352|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1352|-0.2987|<0.0001
82613130|NCT00431847|164943864|SUPERIORITY_OR_OTHER||Chi-Squared|6.37||||0.095|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.0950
82613131|NCT00431847|164943864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.7246|STANDARD_ERROR_OF_MEAN|1.3351||0.5878|TWO_SIDED|95.0|-1.9056|3.3547|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.3547|-1.9056|0.5878
82613132|NCT00431847|164943864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2466|STANDARD_ERROR_OF_MEAN|2.0697||0.9053|TWO_SIDED|95.0|-4.3231|3.8299|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.8299|-4.3231|0.9053
82613133|NCT00431847|164943864|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.3457|STANDARD_ERROR_OF_MEAN|3.2285||0.4682|TWO_SIDED|95.0|-8.7034|4.012|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.0120|-8.7034|0.4682
82658600|NCT00420238|165033695|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.48||||0.073||95.0|0.87|23.07|||GEE model||An odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors.||23.07|0.87|0.073
82658601|NCT00420238|165033697|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.95||||0.018|TWO_SIDED|95.0|-18.19|-1.72|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-1.72|-18.19|0.018
82658602|NCT00420238|165033698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.54||||0.089|TWO_SIDED|95.0|-18.4|1.33|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||1.33|-18.40|0.089
82613134|NCT00431847|164943865|SUPERIORITY_OR_OTHER||Slope|0.04639|STANDARD_ERROR_OF_MEAN|0.03562||0.1938|TWO_SIDED|95.0|-0.02369|0.1165|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.1165|-0.02369|0.1938
82613135|NCT00431847|164943865|SUPERIORITY_OR_OTHER||Chi-Squared|2.43||||0.4884|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4884
82613136|NCT00431847|164943865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6174|STANDARD_ERROR_OF_MEAN|1.3991||0.6593|TWO_SIDED|95.0|-2.1348|3.3696|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.3696|-2.1348|0.6593
82613137|NCT00431847|164943865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.4575|STANDARD_ERROR_OF_MEAN|2.0263||0.0889|TWO_SIDED|95.0|-0.528|7.4431|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.4431|-0.5280|0.0889
82613138|NCT00431847|164943865|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4499|STANDARD_ERROR_OF_MEAN|2.8061||0.8727|TWO_SIDED|95.0|-5.9692|5.0694|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||5.0694|-5.9692|0.8727
82613139|NCT00431847|164943866|SUPERIORITY_OR_OTHER||Slope|-0.523|STANDARD_ERROR_OF_MEAN|0.08855|<|0.0001|TWO_SIDED|95.0|-0.6973|-0.3486|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.3486|-0.6973|<.0001
82613140|NCT00431847|164943866|SUPERIORITY_OR_OTHER||Chi-Squared|4.89||||0.18|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.1800
82613141|NCT00431847|164943866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.302|STANDARD_ERROR_OF_MEAN|2.8198||0.4151|TWO_SIDED|95.0|-3.253|7.857|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.8570|-3.2530|0.4151
82613142|NCT00431847|164943866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.3376|STANDARD_ERROR_OF_MEAN|4.314||0.3157|TWO_SIDED|95.0|-4.1592|12.8344|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||12.8344|-4.1592|0.3157
82613143|NCT00431847|164943866|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.825|STANDARD_ERROR_OF_MEAN|6.9715||0.0911|TWO_SIDED|95.0|-1.904|25.5541|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||25.5541|-1.9040|0.0911
82613144|NCT00431847|164943867|SUPERIORITY_OR_OTHER||Slope|-0.2888|STANDARD_ERROR_OF_MEAN|0.09078||0.0016|TWO_SIDED|95.0|-0.4675|-0.11|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1100|-0.4675|0.0016
82658603|NCT00420238|165033698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.02||||0.11||95.0|-17.89|1.85|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||1.85|-17.89|0.110
82658604|NCT00420238|165033698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73||||0.004||95.0|-24.6|-4.86|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||-4.86|-24.60|0.004
82613145|NCT00431847|164943867|SUPERIORITY_OR_OTHER||Chi-Squared|6.33||||0.0966|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.0966
82613146|NCT00431847|164943867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.9879|STANDARD_ERROR_OF_MEAN|2.4264||0.2195|TWO_SIDED|95.0|-1.7938|7.7697|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.7697|-1.7938|0.2195
82613147|NCT00431847|164943867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.4636|STANDARD_ERROR_OF_MEAN|3.7381||0.5105|TWO_SIDED|95.0|-9.8289|4.9018|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.9018|-9.8289|0.5105
82613148|NCT00431847|164943867|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.3871|STANDARD_ERROR_OF_MEAN|6.1087||0.0903|TWO_SIDED|95.0|-22.4174|1.6433|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||1.6433|-22.4174|0.0903
82613149|NCT00431847|164943868|SUPERIORITY_OR_OTHER||Slope|-0.04113|STANDARD_ERROR_OF_MEAN|-0.04113||0.6602|TWO_SIDED|95.0|-0.2252|0.1429|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.1429|-0.2252|0.6602
82613150|NCT00431847|164943868|SUPERIORITY_OR_OTHER||Chi-Squared|1.53||||0.6764|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6764
82613151|NCT00431847|164943868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.4902|STANDARD_ERROR_OF_MEAN|2.6357||0.3458|TWO_SIDED|95.0|-2.7036|7.684|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||7.6840|-2.7036|0.3458
82613152|NCT00431847|164943868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.2518|STANDARD_ERROR_OF_MEAN|4.0583||0.1969|TWO_SIDED|95.0|-13.2466|2.743|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.7430|-13.2466|0.1969
82613153|NCT00431847|164943868|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.9796|STANDARD_ERROR_OF_MEAN|6.5287||0.048|TWO_SIDED|95.0|-25.8429|-0.1162|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||-0.1162|-25.8429|0.0480
82613154|NCT00431847|164943869|SUPERIORITY_OR_OTHER||Slope|-0.2349|STANDARD_ERROR_OF_MEAN|0.1003||0.0199|TWO_SIDED|95.0|-0.4323|-0.03745|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.03745|-0.4323|0.0199
82613155|NCT00431847|164943869|SUPERIORITY_OR_OTHER||Chi-Squared|2.6||||0.4577|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4577
82658605|NCT00420238|165033698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.27||||0.065||95.0|-19.14|0.59|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interactions as fixed factors, baseline value as a covariate, and patients as a random factor.||0.59|-19.14|0.065
82658606|NCT00420238|165033700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.99||||0.002|TWO_SIDED|95.0|-17.7|-4.28|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-4.28|-17.70|0.002
82613156|NCT00431847|164943869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9502|STANDARD_ERROR_OF_MEAN|2.8797||0.7417|TWO_SIDED|95.0|-6.624|4.7236|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.7236|-6.6240|0.7417
82613157|NCT00431847|164943869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.258|STANDARD_ERROR_OF_MEAN|4.4523||0.7778|TWO_SIDED|95.0|-7.5129|10.0289|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||10.0289|-7.5129|0.7778
82613158|NCT00431847|164943869|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.5232|STANDARD_ERROR_OF_MEAN|7.2532||0.2411|TWO_SIDED|95.0|-5.7608|22.8073|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||22.8073|-5.7608|0.2411
82613159|NCT00431847|164943870|SUPERIORITY_OR_OTHER||Slope|0.1629|STANDARD_ERROR_OF_MEAN|0.08284||0.0504|TWO_SIDED|95.0|-0.00029|0.3261|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||0.3261|-0.00029|0.0504
82613160|NCT00431847|164943870|SUPERIORITY_OR_OTHER||Chi-Squared|1.45||||0.6942|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.6942
82613161|NCT00431847|164943870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.5241|STANDARD_ERROR_OF_MEAN|2.4216||0.5297|TWO_SIDED|95.0|-3.2469|6.2951|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||6.2951|-3.2469|0.5297
82613162|NCT00431847|164943870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.7679|STANDARD_ERROR_OF_MEAN|3.7464||0.3155|TWO_SIDED|95.0|-11.1478|3.612|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||3.6120|-11.1478|0.3155
82613163|NCT00431847|164943870|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.7558|STANDARD_ERROR_OF_MEAN|6.092||0.1105|TWO_SIDED|95.0|-21.7515|2.2399|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||2.2399|-21.7515|0.1105
82613164|NCT00431847|164943871|SUPERIORITY_OR_OTHER||Slope|-0.2979|STANDARD_ERROR_OF_MEAN|0.07538||0.001|TWO_SIDED|95.0|-0.4465|-0.1493|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury.||-0.1493|-0.4465|0.001
82613165|NCT00431847|164943871|SUPERIORITY_OR_OTHER||Chi-Squared|2.72||||0.4361|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.4361
82613166|NCT00431847|164943871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.9001|STANDARD_ERROR_OF_MEAN|2.6015||0.7297|TWO_SIDED|95.0|-6.0247|4.2246|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||4.2246|-6.0247|0.7297
82658607|NCT00420238|165033701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33||||0.054|TWO_SIDED|95.0|-16.81|0.15|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||0.15|-16.81|0.054
82658608|NCT00420238|165033701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.02||||0.011||95.0|-19.5|-2.54|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-2.54|-19.50|0.011
82613167|NCT00431847|164943871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.2896|STANDARD_ERROR_OF_MEAN|4.0186||0.2868|TWO_SIDED|95.0|-3.625|12.2043|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||12.2043|-3.6250|0.2868
82613168|NCT00431847|164943871|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.0118|STANDARD_ERROR_OF_MEAN|6.2663||0.1516|TWO_SIDED|95.0|-3.327|21.3505|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||21.3505|-3.3270|0.1516
82613169|NCT00431847|164943872|SUPERIORITY_OR_OTHER||Slope|-0.9776|STANDARD_ERROR_OF_MEAN|0.1426|<|0.0001|TWO_SIDED|95.0|-1.2584|-0.6967|||Mixed Models Analysis|||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group. The overall slope of the model (below) is reported as a continuous variable for time since injury. T||-0.6967|-1.2584|<0.0001
82613170|NCT00431847|164943872|SUPERIORITY_OR_OTHER||Chi-Squared|0.78||||0.8548|TWO_SIDED||||||Chi-squared|Degrees of Freedom: 3||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The time interaction component of the model is reported below.||||0.8548
82613171|NCT00431847|164943872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.3635|STANDARD_ERROR_OF_MEAN|3.8899||0.3882|TWO_SIDED|95.0|-4.3026|11.0296|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||11.0296|-4.3026|0.3882
82613172|NCT00431847|164943872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5029|STANDARD_ERROR_OF_MEAN|5.9044||0.9322|TWO_SIDED|95.0|-12.1376|11.1317|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||11.1317|-12.1376|0.9322
82613173|NCT00431847|164943872|SUPERIORITY_OR_OTHER||Mean Difference (Net)|21.1166|STANDARD_ERROR_OF_MEAN|9.2462||0.0233|TWO_SIDED|95.0|2.8992|39.3341|||Mixed Models Analysis|RA groups treated as classification variables with No RA group as reference.||A Linear Mixed Effects Model is utilized to examine the longitudinal progression of each outcome related to RA administration while adjusting for injury severity and length of stay of initial hospitalization for injury. The main treatment effect (RA group) is treated as a classification variable with the No RA group used as the reference group.||39.3341|2.8992|0.0233
82613174|NCT02142894|164943873|EQUIVALENCE|The results are analyzed in a 2x2 contingency table with 95%CI.|2 x 2 contingency table|87.9|||||TWO_SIDED|95.0|72.7|95.2||||||||95.2|72.7|
82613175|NCT02853331|164943878|SUPERIORITY||Hazard Ratio (HR)|0.69||||0.00012|TWO_SIDED|95.0|0.56|0.84|||Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||0.84|0.56|0.00012
82613176|NCT02853331|164943879|SUPERIORITY||Hazard Ratio (HR)|0.53||||5e-05|TWO_SIDED|95.0|0.38|0.74|||Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||0.74|0.38|0.00005
82613177|NCT02853331|164943880|SUPERIORITY||Difference in percentages|23.6|||<|0.0001|TWO_SIDED|95.0|17.2|29.9|||Miettinen & Nurminen method|H0: difference in %=0 versus H1: difference in % \>0|Difference in percentages based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||29.9|17.2|<0.0001
82613178|NCT02853331|164943881|SUPERIORITY||Difference in percentages|11.0|||||TWO_SIDED|95.0|4.8|17.0|||||Difference in percentages based on Miettinen \& Nurminen method stratified by IMDC risk group (favorable vs. intermediate vs. poor) and geographic region (North America vs. Western Europe vs. Rest of World).|||17.0|4.8|
82613179|NCT01455428|164943896|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.188||0.0002|TWO_SIDED|95.0|-1.08|-0.34||Primary analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.34|-1.08|0.0002
82613180|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.149||0.001|TWO_SIDED|95.0|-0.79|-0.2||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.20|-0.79|0.0010
82613181|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.94|-0.35||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.35|-0.94|<0.0001
82613182|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.151||0.0001|TWO_SIDED|95.0|-0.88|-0.29||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.29|-0.88|0.0001
82613183|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.152||0.0009|TWO_SIDED|95.0|-0.81|-0.21||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.21|-0.81|0.0009
82613184|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.153||0.0009|TWO_SIDED|95.0|-0.81|-0.21||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.21|-0.81|0.0009
82613185|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.153||0.0001|TWO_SIDED|95.0|-0.89|-0.29||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.29|-0.89|0.0001
82613186|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.01|-0.41||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.41|-1.01|<0.0001
82613187|NCT01455428|164943897|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.154|<|0.0001|TWO_SIDED|95.0|-1.0|-0.4||All analyses were 2-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.40|-1.00|<0.0001
82613188|NCT01455428|164943899|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.2||0.0079|TWO_SIDED|95.0|-0.93|-0.14||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.14|-0.93|0.0079
82613189|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.172||0.0024|TWO_SIDED|95.0|-0.86|-0.19||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 1 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.19|-0.86|0.0024
82613190|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.173||0.0002|TWO_SIDED|95.0|-0.99|-0.31||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 2 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.31|-0.99|0.0002
82613191|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.173||0.0012|TWO_SIDED|95.0|-0.91|-0.22||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 3 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.22|-0.91|0.0012
82613192|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.174||0.0101|TWO_SIDED|95.0|-0.79|-0.11||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 4 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.11|-0.79|0.0101
82613193|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.0258|TWO_SIDED|95.0|-0.73|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 5 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.73|0.0258
82613194|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.175||0.026|TWO_SIDED|95.0|-0.74|-0.05||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 6 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.05|-0.74|0.0260
82658609|NCT00420238|165033701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.75||||0.003||95.0|-21.23|-4.27|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-4.27|-21.23|0.003
82613195|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.175||0.0062|TWO_SIDED|95.0|-0.83|-0.14||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 7 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.14|-0.83|0.0062
82613196|NCT01455428|164943900|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.176||0.0081|TWO_SIDED|95.0|-0.81|-0.12||Analysis was two-sided and performed at the 0.05 significance level.|Mixed Model Repeated Measures Analysis|||Week 8 Modelled Results. The model used was a linear mixed model with treatment, week, center, and treatment by week interaction as factors, and the baseline value as a covariate. A compound symmetry covariance structure is specified.||-0.12|-0.81|0.0081
82613197|NCT01455428|164943901|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007||||||Analysis was two-sided and performed at the 0.05 significance level|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel test comparing pregabalin to placebo adjusted for center.||||0.0007
82613198|NCT01455428|164943904|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-8.18|STANDARD_ERROR_OF_MEAN|1.932|<|0.0001|TWO_SIDED|95.0|-11.99|-4.37||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-4.37|-11.99|<0.0001
82613199|NCT01455428|164943905|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.107||0.0007|TWO_SIDED|95.0|-0.58|-0.16||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-0.16|-0.58|0.0007
82613200|NCT01455428|164943907|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-7.21|STANDARD_ERROR_OF_MEAN|2.464||0.0039|TWO_SIDED|95.0|-12.08|-2.35||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||-2.35|-12.08|0.0039
82613201|NCT01455428|164943908|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.73|STANDARD_ERROR_OF_MEAN|2.783||0.5351|TWO_SIDED|95.0|-3.76|7.22||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||7.22|-3.76|0.5351
82613202|NCT01455428|164943909|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|2.579||0.8892|TWO_SIDED|95.0|-5.45|4.73||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||4.73|-5.45|0.8892
82613203|NCT01455428|164943910|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.147||0.0035|TWO_SIDED|95.0|0.14|0.72||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||0.72|0.14|0.0035
82613204|NCT01455428|164943911|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.8||||0.0972|TWO_SIDED|95.0|0.9|3.6||Analysis was two-sided and performed at the 0.05 significance level.|Regression, Logistic|||Analysis performed using a logistic regression model with treatment and center as factors, and baseline value as a covariate.||3.60|0.90|0.0972
82613205|NCT01455428|164943912|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.8|STANDARD_ERROR_OF_MEAN|3.161||0.5702|TWO_SIDED|95.0|-4.44|8.03||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||8.03|-4.44|0.5702
82658610|NCT00420238|165033701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.29|||<|0.001||95.0|-23.7|-6.82|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-6.82|-23.7|<0.001
82613206|NCT01455428|164943913|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.87|STANDARD_ERROR_OF_MEAN|2.194||0.6929|TWO_SIDED|95.0|-3.46|5.2||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||5.20|-3.46|0.6929
82658611|NCT00420238|165033703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.59||||0.039|TWO_SIDED|95.0|-18.69|-0.49|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-0.49|-18.69|0.039
82658612|NCT00420238|165033704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.28||||0.254|TWO_SIDED|95.0|-17.13|4.57|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||4.57|-17.13|0.254
82658613|NCT00420238|165033704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17||||0.348||95.0|-16.02|5.68|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||5.68|-16.02|0.348
82658614|NCT00420238|165033704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.72||||0.014||95.0|-24.57|-2.88|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-2.88|-24.57|0.014
82658615|NCT00420238|165033704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.69|||<|0.001||95.0|-30.54|-8.84|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-8.84|-30.54|<0.001
82658616|NCT00420238|165033706|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.49||||0.071|TWO_SIDED|95.0|-17.73|0.75|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.75|-17.73|0.071
82658617|NCT00420238|165033707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.57||||0.511|TWO_SIDED|95.0|-14.31|7.17|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||7.17|-14.31|0.511
82658618|NCT00420238|165033707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.57||||0.401||95.0|-15.31|6.17|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||6.17|-15.31|0.401
82658619|NCT00420238|165033707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.45||||0.023||95.0|-23.19|-1.71|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-1.71|-23.19|0.023
82613207|NCT01455428|164943914|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.84|STANDARD_ERROR_OF_MEAN|1.92||0.1403|TWO_SIDED|95.0|-6.63|0.94||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis performed using a general linear model with treatment and center as factors, and baseline value as a covariate.||0.94|-6.63|0.1403
82613208|NCT01455428|164943915|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.62|STANDARD_ERROR_OF_MEAN|0.118|<|0.0001|TWO_SIDED|95.0|-0.86|-0.39||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis was performed using a general linear model with treatment and center as factors.||-0.39|-0.86|<0.0001
82613209|NCT01455428|164943916|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.113|<|0.0001|TWO_SIDED|95.0|-0.72|-0.27||Analysis was two-sided and performed at the 0.05 significance level.|ANOVA|||Analysis was performed using a general linear model with treatment and center as factors.||-0.27|-0.72|<0.0001
82658620|NCT00420238|165033707|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.25||||0.01||95.0|-24.99|-3.51|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.51|-24.99|0.010
82658621|NCT00420238|165033709|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.25||||0.127|TWO_SIDED|95.0|-12.03|1.53|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline as a covariate.||1.53|-12.03|0.127
82658622|NCT00420238|165033710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43||||0.914|TWO_SIDED|95.0|-8.23|7.38|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||7.38|-8.23|0.914
82613210|NCT01455428|164943918|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.315||0.506|TWO_SIDED|95.0|-0.83|0.41||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis was performed using a general linear model with treatment and center as factors, and the baseline value as a covariate.||0.41|-0.83|0.5060
82613211|NCT01455428|164943919|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.285||0.7247|TWO_SIDED|95.0|-0.66|0.46||Analysis was two-sided and performed at the 0.05 significance level.|ANCOVA|||Analysis was performed using a general linear model with treatment and center as factors, and the baseline value as a covariate.||0.46|-0.66|0.7247
82613212|NCT00257192|164943927|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.8|STANDARD_ERROR_OF_MEAN|1.26||0.153|TWO_SIDED|95.0|-4.28|0.67||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|P-value for final analysis is to be adjusted due to planned interim analysis (0.0462).||Sample size for 85% power 2-tailed 0.05 significance level based on expected difference of -5 with average within-group standard deviation=13 was 276 subjects (2 to 1 ratio of enrollment: 184 ziprasidone, 92 placebo). Interim analysis at 60 percent (%) enrollment (ITT population): may stop trial early for efficacy (2-sided p-value less than (\<) 0.0124) or for futility (2-sided p-value greater than (\>) 0.4772; The final analysis is to employ a 2-sided p-value \<0.0462.||0.67|-4.28|0.1530
82613213|NCT00257192|164943928|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.21|STANDARD_ERROR_OF_MEAN|0.14||0.1289|TWO_SIDED|95.0|-0.48|0.06||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|Hochberg procedure was applied to p-value to preserve type I error in the analysis of key secondary endpoints (PANSS total score and CGI-S).||Difference from placebo||0.06|-0.48|0.1289
82613214|NCT00257192|164943929|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-2.57|STANDARD_ERROR_OF_MEAN|2.0||0.1987||95.0|-6.5|1.36||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|Hochberg procedure was applied to p-value to preserve type I error in the analysis of key secondary endpoints (PANSS total score and CGI-S).||Total score: difference from placebo||1.36|-6.50|0.1987
82613215|NCT00257192|164943930|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-1.33|STANDARD_ERROR_OF_MEAN|0.65||0.0412|TWO_SIDED|95.0|-2.61|-0.05||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|||Positive score: difference from placebo||-0.05|-2.61|0.0412
82613216|NCT00257192|164943930|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.43|STANDARD_ERROR_OF_MEAN|0.58||0.4661|TWO_SIDED|95.0|-1.57|0.72||Mixed effects repeated measures (MMRM) analysis of covariance model with subject as random effect, treatment, region, visit, and visit-by-treatment interaction as fixed effects and baseline score as a covariate.|ANCOVA|||Negative score: difference from placebo||0.72|-1.57|0.4661
82658623|NCT00420238|165033710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.4||||0.544||95.0|-10.21|5.41|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||5.41|-10.21|0.544
82492638|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.72|STANDARD_ERROR_OF_MEAN|1.232||0.163|TWO_SIDED|95.0|-0.71|4.15|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||4.15|-0.71|0.163
82613217|NCT00257192|164943931|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|-0.19|STANDARD_ERROR_OF_MEAN|0.14||0.182|TWO_SIDED|95.0|-0.47|0.09||Mixed effects MMRM with subject as random effect, treatment, region, visit and visit-by-treatment interaction as fixed effects.|ANOVA|||Difference from placebo||0.09|-0.47|0.1820
82613218|NCT00257192|164943939|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean|1.34|STANDARD_ERROR_OF_MEAN|1.19||0.2613|TWO_SIDED|95.0|-1.01|3.69||SAS PROC MIXED to fit a mixed model analysis of covariance with treatment and region as fixed effects and baseline score as covariate.|ANCOVA|Observed cases at Week 6.||Neurocognitive Index score at Week 6: difference from placebo||3.69|-1.01|0.2613
82613219|NCT00570739|164943946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.15||||0.0123|TWO_SIDED|95.0|-0.27|-0.03||P-Value is for the LS mean difference between treatment groups|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 weeks||-0.03|-0.27|0.0123
82613220|NCT00570739|164943946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18||||0.0201|TWO_SIDED|95.0|-0.33|-0.03||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-0.03|-0.33|0.0201
82613221|NCT00570739|164943946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.0239|TWO_SIDED|95.0|-0.36|-0.03||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||-0.03|-0.36|0.0239
82613222|NCT00570739|164943946|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.25||||0.0046|TWO_SIDED|95.0|-0.42|-0.08||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||-0.08|-0.42|0.0046
82613223|NCT00570739|164943947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.1112|TWO_SIDED|95.0|-11.3|1.2|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 Weeks||1.2|-11.3|0.1112
82613224|NCT00570739|164943947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3||||0.2167|TWO_SIDED|95.0|-8.6|2.0|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||2.0|-8.6|0.2167
82613225|NCT00570739|164943947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.7269|TWO_SIDED|95.0|-7.0|4.9|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||4.9|-7.0|0.7269
82613226|NCT00570739|164943947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.5||||0.4063|TWO_SIDED|95.0|-8.4|3.4|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||3.4|-8.4|0.4063
82613227|NCT00570739|164943947|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.1||||0.4909|TWO_SIDED|95.0|-8.0|3.9|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||3.9|-8.0|0.4909
82613228|NCT00570739|164943948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.303||||0.7606|TWO_SIDED|95.0|-2.259|1.653||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 4 weeks||1.653|-2.259|0.7606
82613229|NCT00570739|164943948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.015||||0.1782|TWO_SIDED|95.0|-2.477|0.447||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 weeks||0.447|-2.477|0.1782
82658624|NCT00420238|165033710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.21||||0.039||95.0|-16.02|-0.4|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-0.40|-16.02|0.039
82658625|NCT00420238|165033710|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54||||0.004||95.0|-19.35|-3.73|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.73|-19.35|0.004
82658626|NCT00420238|165033713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.86||||0.122|TWO_SIDED|95.0|-15.57|1.85|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||1.85|-15.57|0.122
82658627|NCT00420238|165033713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.45||||0.145||95.0|-15.16|2.26|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||2.26|-15.16|0.145
82658628|NCT00420238|165033713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.55||||0.005||95.0|-21.26|-3.84|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.84|-21.26|0.005
82658629|NCT00420238|165033713|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.95||||0.008||95.0|-20.66|-3.24|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.24|-20.66|0.008
82658630|NCT00420238|165033717|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.94||||0.139|TWO_SIDED|95.0|-13.84|1.96|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||1.96|-13.84|0.139
82613230|NCT00570739|164943948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.504||||0.0332|TWO_SIDED|95.0|-2.887|-0.121||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 12 weeks||-0.121|-2.887|0.0332
82613231|NCT00570739|164943948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176||||0.861|TWO_SIDED|95.0|-1.805|2.158||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||2.158|-1.805|0.8610
82613232|NCT00570739|164943948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.8196|TWO_SIDED|95.0|-1.599|2.019||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||2.019|-1.599|0.8196
82613233|NCT00570739|164943949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153||||0.1078|TWO_SIDED|95.0|-0.34|0.034||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks||0.034|-0.340|0.1078
82613234|NCT00570739|164943949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.141||||0.1146|TWO_SIDED|95.0|-0.317|0.035||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks (LOCF)||0.035|-0.317|0.1146
82613235|NCT00570739|164943950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0||||0.9933|TWO_SIDED|95.0|-9.3|9.4||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks||9.4|-9.3|0.9933
82613236|NCT00570739|164943950|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.8203|TWO_SIDED|95.0|-10.5|8.3||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 weeks LOCF||8.3|-10.5|0.8203
82613237|NCT00570739|164943951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0||||0.195|TWO_SIDED|95.0|-17.5|3.6||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 weeks||3.6|-17.5|0.1950
82613238|NCT00570739|164943951|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.7||||0.1583|TWO_SIDED|95.0|-18.3|3.0||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||3.0|-18.3|0.1583
82613239|NCT00570739|164943952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.3663|TWO_SIDED|95.0|-16.1|6.0||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||6.0|-16.1|0.3663
82613240|NCT00570739|164943952|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.6||||0.2524|TWO_SIDED|95.0|-17.9|4.7||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||4.7|-17.9|0.2524
82613241|NCT00570739|164943953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.051||||0.8158|TWO_SIDED|95.0|-7.828|9.929||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||9.929|-7.828|0.8158
82613242|NCT00570739|164943953|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.565||||0.7433|TWO_SIDED|95.0|-10.966|7.836||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.836|-10.966|0.7433
82613243|NCT00570739|164943954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215||||0.5161|TWO_SIDED|95.0|-0.437|0.867||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||0.867|-0.437|0.5161
82613244|NCT00570739|164943954|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.8319|TWO_SIDED|95.0|-0.581|0.722||P-Value is for the LS Mean Difference between treatment groups.|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||0.722|-0.581|0.8319
82613245|NCT00570739|164943955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.19|||<|0.0001|TWO_SIDED|95.0|-22.61|-13.76|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-13.76|-22.61|<0.0001
82613246|NCT00570739|164943955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.08|||<|0.0001|TWO_SIDED|95.0|-22.09|-12.08|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-12.08|-22.09|<0.0001
82613247|NCT00570739|164943955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.33|||<|0.0001|TWO_SIDED|95.0|-20.96|-11.69|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-11.69|-20.96|<0.0001
82613248|NCT00570739|164943956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.4|||<|0.0001|TWO_SIDED|95.0|-15.99|-8.81|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-8.81|-15.99|<0.0001
82613249|NCT00570739|164943956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.28|||<|0.0001|TWO_SIDED|95.0|-13.23|-5.34|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-5.34|-13.23|<0.0001
82613250|NCT00570739|164943956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.33|||<|0.0001|TWO_SIDED|95.0|-11.98|-4.67|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Week LOCF||-4.67|-11.98|<0.0001
82613251|NCT00570739|164943957|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|2.63||||0.2026|TWO_SIDED|95.0|-1.43|6.7|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||6.70|-1.43|0.2026
82613252|NCT00570739|164943957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32||||0.4506|TWO_SIDED|95.0|-2.12|4.75|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||4.75|-2.12|0.4506
82613253|NCT00570739|164943957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.2609|TWO_SIDED|95.0|-1.35|4.97|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||4.97|-1.35|0.2609
82613254|NCT00570739|164943958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.81|||<|0.0001|TWO_SIDED|95.0|-11.53|-6.08|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-6.08|-11.53|<0.0001
82613255|NCT00570739|164943958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.94|||<|0.0001|TWO_SIDED|95.0|-10.23|-3.66|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-3.66|-10.23|<0.0001
82613256|NCT00570739|164943958|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.09||||0.0001|TWO_SIDED|95.0|-9.14|-3.05|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-3.05|-9.14|0.0001
82613257|NCT00570739|164943959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.05||||0.0171|TWO_SIDED|95.0|-0.33|13.99||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 8 weeks||13.99|-0.33|0.0171
82613258|NCT00570739|164943959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.71|||<|0.0001|TWO_SIDED|95.0|9.66|25.54||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 16 Weeks||25.54|9.66|<0.0001
82613259|NCT00570739|164943959|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.62|||<|0.0001|TWO_SIDED|95.0|11.18|25.74||The P-Value was from the non-parametric ANCOVA stratified by country.|ANCOVA|The median difference was calculated using Hodges-Lehmann point estimate and corresponding 95% CI was constructed using the method of Moses.||Baseline to 16 Weeks LOCF||25.74|11.18|<0.0001
82613260|NCT00570739|164943960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.81||||0.0496|TWO_SIDED|95.0|0.0|5.62|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 weeks||5.62|0.0|0.0496
82613261|NCT00570739|164943960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65||||0.0117|TWO_SIDED|95.0|0.82|6.47|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||6.47|0.82|0.0117
82613262|NCT00570739|164943960|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.43||||0.0009|TWO_SIDED|95.0|1.83|7.03|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.03|1.83|0.0009
82613263|NCT00570739|164943961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.56|||<|0.0001|TWO_SIDED|95.0|-14.74|-8.38|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||-8.38|-14.74|<0.0001
82658631|NCT00420238|165033718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89||||0.857|TWO_SIDED|95.0|-8.88|10.67|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||10.67|-8.88|0.857
82658632|NCT00420238|165033718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.1||||0.304||95.0|-14.88|4.67|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||4.67|-14.88|0.304
82658633|NCT00420238|165033718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.9||||0.047||95.0|-19.68|-0.13|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-0.13|-19.68|0.047
82658634|NCT00420238|165033718|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.65||||0.007||95.0|-23.43|-3.88|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Comparison of leasts squares means. Mixed-model analysis of covariance (ANCOVA) using an auto-regressive correlation structure with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate, and patients as a random factor.||-3.88|-23.43|0.007
82658635|NCT00420238|165033721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.003|TWO_SIDED|95.0|0.06|0.31|||ANCOVA||Least squares mean difference = mean difference final value.|Vital Capacity: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.31|0.06|0.003
82658636|NCT00420238|165033721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.006|TWO_SIDED|95.0|0.05|0.31|||ANCOVA||Least squares mean difference = mean difference final value.|Forced Vital Capacity: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.31|0.05|0.006
82613264|NCT00570739|164943961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.53||||0.0001|TWO_SIDED|95.0|-13.14|-5.92|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||-5.92|-13.14|0.0001
82613265|NCT00570739|164943961|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.97|||<|0.0001|TWO_SIDED|95.0|-11.35|-4.59|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||-4.59|-11.35|<0.0001
82613266|NCT00570739|164943962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.57||||0.0003|TWO_SIDED|95.0|5.76|19.38|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 8 Weeks||19.38|5.76|0.0003
82613267|NCT00570739|164943962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.52||||0.0003|TWO_SIDED|95.0|6.64|22.4|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks||22.40|6.64|0.0003
82613268|NCT00570739|164943962|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.08|||<|0.0001|TWO_SIDED|95.0|7.95|22.2|||ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||22.20|7.95|<0.0001
82613269|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.84||||0.0363|TWO_SIDED|95.0|0.44|13.24||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Very Low Density Lipoprotein (VLDL) Particles||13.24|0.44|0.0363
82613270|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.39||||0.0347|TWO_SIDED|95.0|0.46|12.31||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Very Low Density Lipoprotein (VLDL) Particles||12.31|0.46|0.0347
82613271|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.31||||0.0028|TWO_SIDED|95.0|0.8|3.81||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||VLDL Chylomicron Particles||3.81|0.80|0.0028
82613272|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.34||||0.001|TWO_SIDED|95.0|0.96|3.73||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||VLDL Chylomicron Particles||3.73|0.96|0.0010
82613273|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.13||||0.0006|TWO_SIDED|95.0|3.1|11.21||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Particles||11.21|3.10|0.0006
82613274|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.13||||0.0003|TWO_SIDED|95.0|3.35|10.91||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Particles||10.91|3.35|0.0003
82658637|NCT00420238|165033721|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.205|TWO_SIDED|95.0|-0.04|0.17|||ANCOVA||Least squares mean difference = mean difference final value.|Forced Expitatory Volume in 1 second: Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.17|-0.04|0.205
82658638|NCT00420238|165033722|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.59||||0.03|TWO_SIDED|95.0|-4.93|-0.26|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis oaf covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||-0.26|-4.93|0.030
82658639|NCT00420238|165033723|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23||||0.035|TWO_SIDED|95.0|-0.45|-0.02|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as covariate.||-0.02|-0.45|0.035
82658640|NCT00420238|165033724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09||||0.515|TWO_SIDED|95.0|-0.38|0.19|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.19|-0.38|0.515
82658641|NCT00420238|165033724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14||||0.316||95.0|-0.43|0.14|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.14|-0.43|0.316
82658642|NCT00420238|165033724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.008||95.0|-0.67|-0.1|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-0.10|-0.67|0.008
82658643|NCT00420238|165033724|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37||||0.011||95.0|-0.65|-0.08|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-0.08|-0.65|0.011
82658644|NCT00420238|165033736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.613|TWO_SIDED|95.0|-0.22|0.37|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA) with treatment as a factor and baseline value as a covariate.||0.37|-0.22|0.613
82658645|NCT00420238|165033737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.744|TWO_SIDED|95.0|-0.34|0.47|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.47|-0.34|0.744
82658646|NCT00420238|165033737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.625||95.0|-0.5|0.3|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.30|-0.50|0.625
82658647|NCT00420238|165033737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.325||95.0|-0.2|0.6|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.60|-0.20|0.325
82658648|NCT00420238|165033737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.76||95.0|-0.34|0.46|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits, and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||0.46|-0.34|0.760
82658649|NCT00420238|165033739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.72||||0.49|TWO_SIDED|95.0|-18.35|8.91|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||8.91|-18.35|0.490
82658650|NCT00420238|165033739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.09||||0.651||95.0|-16.73|10.54|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||10.54|-16.73|0.651
82658651|NCT00420238|165033739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.84||95.0|-15.12|12.34|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||12.34|-15.12|0.840
82658652|NCT00420238|165033739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.02||||0.562||95.0|-17.81|9.77|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||9.77|-17.81|0.562
82658653|NCT00420238|165033741|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.73|||<|0.0001|TWO_SIDED|95.0|-19.44|-10.03|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA)with treatment as a factor and baseline vlue as a covariate.||-10.03|-19.44|<0.0001
82492639|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|1.232||0.955|TWO_SIDED|95.0|-2.36|2.5|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||2.50|-2.36|0.955
82613275|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.88||||0.175|TWO_SIDED|95.0|-7.04|1.29||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||1.29|-7.04|0.1750
82613276|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.23||||0.1007|TWO_SIDED|95.0|-7.1|0.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||0.63|-7.10|0.1007
82613277|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-199.3|||<|0.0001|TWO_SIDED|95.0|-272.9|-125.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-125.8|-272.9|<0.0001
82613278|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-186.1||||0.0001|TWO_SIDED|95.0|-255.9|-116.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-116.3|-255.9|0.0001
82613279|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7||||0.0466|TWO_SIDED|95.0|-23.3|-0.2||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein Particles||-0.2|-23.3|0.0466
82613280|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.7||||0.057|TWO_SIDED|95.0|-21.8|0.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein Particles||0.3|-21.8|0.0570
82492640|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.27|STANDARD_ERROR_OF_MEAN|1.237||0.826|TWO_SIDED|95.0|-2.17|2.71|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 2||2.71|-2.17|0.826
82613281|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-77.7||||0.0004|TWO_SIDED|95.0|-120.3|-35.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||-35.0|-120.3|0.0004
82613282|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-69.3||||0.0007|TWO_SIDED|95.0|-109.2|-29.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||-29.3|-109.2|0.0007
82613283|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-109.9||||0.0124|TWO_SIDED|95.0|-195.8|-23.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||-23.9|-195.8|0.0124
82613284|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-106.8||||0.0098|TWO_SIDED|95.0|-187.6|-26.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||-26.0|-187.6|0.0098
82613285|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.2||||0.102|TWO_SIDED|95.0|-35.6|3.2||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||3.2|-35.6|0.1020
82613286|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.4||||0.0997|TWO_SIDED|95.0|-33.8|3.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||3.0|-33.8|0.0997
82613287|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-93.7||||0.0069|TWO_SIDED|95.0|-161.6|-25.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||-25.9|-161.6|0.0069
82613288|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-91.4||||0.0052|TWO_SIDED|95.0|-155.2|-27.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||-27.5|-155.2|0.0052
82613289|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94||||0.0524|TWO_SIDED|95.0|-0.01|1.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.90|-0.01|0.0524
82613290|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.0301|TWO_SIDED|95.0|0.1|1.91||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.91|0.10|0.0301
82613291|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45||||0.0416|TWO_SIDED|95.0|0.02|0.89||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||0.89|0.02|0.0416
82613292|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.46||||0.0333|TWO_SIDED|95.0|0.04|0.88||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||0.88|0.04|0.0333
82613293|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.69||||0.0693|TWO_SIDED|95.0|-0.05|1.44||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.44|-0.05|0.0693
82613294|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85||||0.0187|TWO_SIDED|95.0|0.14|1.56||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.56|0.14|0.0187
82613295|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3||||0.5765|TWO_SIDED|95.0|-1.34|0.75||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.75|-1.34|0.5765
82613296|NCT00570739|164943963|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.4762|TWO_SIDED|95.0|-1.35|0.63||P-Value is for the LS Mean Difference between treatment group|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.63|-1.35|0.4762
82613297|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21||||0.0652|TWO_SIDED|95.0|-0.14|4.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||4.57|-0.14|0.0652
82613298|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74||||0.0137|TWO_SIDED|95.0|0.57|4.92||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||4.92|0.57|0.0137
82613299|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.05||||0.4726|TWO_SIDED|95.0|-0.2|0.09||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotien Particles||0.09|-0.20|0.4726
82613300|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.5715|TWO_SIDED|95.0|-0.17|0.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotein Particles||0.10|-0.17|0.5715
82613301|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08||||0.0083|TWO_SIDED|95.0|0.02|0.15||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.15|0.02|0.0083
82492641|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.54|STANDARD_ERROR_OF_MEAN|1.322||0.246|TWO_SIDED|95.0|-1.07|4.14|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||4.14|-1.07|0.246
82613302|NCT00570739|164943964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0022|TWO_SIDED|95.0|0.03|0.15||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.15|0.03|0.0022
82613303|NCT00570739|164943965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.0||||0.0036|TWO_SIDED|95.0|8.6|43.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||43.5|8.6|0.0036
82613304|NCT00570739|164943965|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.2||||0.001|TWO_SIDED|95.0|11.2|43.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||43.3|11.2|0.0010
82613305|NCT00570739|164943966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.8||||0.0008|TWO_SIDED|95.0|12.5|47.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||47.0|12.5|0.0008
82613306|NCT00570739|164943966|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.7||||0.0002|TWO_SIDED|95.0|14.9|46.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||46.6|14.9|0.0002
82613307|NCT00570739|164943967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6||||0.0033|TWO_SIDED|95.0|0.9|4.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||4.3|0.9|0.0033
82613308|NCT00570739|164943967|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8||||0.0008|TWO_SIDED|95.0|1.2|4.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.4|1.2|0.0008
82613309|NCT00570739|164943968|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.26||||0.0035|TWO_SIDED|95.0|-0.44|-0.09||P-Value is for the LS mean difference between the treatment groups|ANCOVA|The Ancova model includes treatment and country as fixed effects and baseline lab value as a covariate.||||-0.09|-0.44|0.0035
82613310|NCT00570739|164943969|SUPERIORITY_OR_OTHER|||||||0.5848||95.0|||||Cochran-Mantel-Haenszel|Stratified by country.||Baseline to 4 Weeks||||0.5848
82613311|NCT00570739|164943969|SUPERIORITY_OR_OTHER|||||||0.8147||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 weeks||||0.8147
82613312|NCT00570739|164943969|SUPERIORITY_OR_OTHER|||||||0.4957||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 12 Weeks||||0.4957
82613313|NCT00570739|164943969|SUPERIORITY_OR_OTHER|||||||0.0467||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0467
82613314|NCT00570739|164943969|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Cochran-Mantel-Haenszel|Stratified by country.||Baseline to 16 Weeks LOCF||||0.0589
82613315|NCT00570739|164943969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9||||0.0049|TWO_SIDED|95.0|1.38|6.1|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||6.10|1.38|0.0049
82613316|NCT00570739|164943969|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.44||||0.0092|TWO_SIDED|95.0|1.25|4.76|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.76|1.25|0.0092
82613317|NCT00570739|164943970|SUPERIORITY_OR_OTHER|||||||0.0008||95.0|||||Cochran-Mantel-Haenszel|Startified by country||Baseline to 4 Weeks||||0.0008
82613318|NCT00570739|164943970|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||0.0280
82613319|NCT00570739|164943970|SUPERIORITY_OR_OTHER|||||||0.0414||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 12 Weeks||||0.0414
82613320|NCT00570739|164943970|SUPERIORITY_OR_OTHER|||||||0.084||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0840
82658654|NCT00420238|165033742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.37|||<|0.0001|TWO_SIDED|95.0|-18.17|-6.58|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and atients as a random factor.||-6.58|-18.17|<0.0001
82658655|NCT00420238|165033742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.45|||<|0.0001||95.0|-23.25|-11.65|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-11.65|-23.25|<0.0001
82658656|NCT00420238|165033742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.95|||<|0.0001||95.0|-22.75|-11.15|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-11.15|-22.75|<0.0001
82658657|NCT00420238|165033742|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-18.16|||<|0.0001||95.0|-23.96|-12.36|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors, baseline value as a covariate and patients as a random factor.||-12.36|-23.96|<0.0001
82658658|NCT00420238|165033744|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.24|||<|0.0001|TWO_SIDED|95.0|-18.23|-8.25|||ANCOVA||Least squares mean difference = mean difference final value.|Analysis of covariance (ANCOVA), with treatment as a factor and baseline value as a covariate.||-8.25|-18.23|<0.0001
82658659|NCT00420238|165033745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.32|||<|0.0001|TWO_SIDED|95.0|-20.55|-8.1|||ANCOVA||Least squares mean difference = mean difference final value.|Week 2: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.10|-20.55|<0.0001
82658660|NCT00420238|165033745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.98|||<|0.0001||95.0|-21.2|-8.76|||ANCOVA||Least squares mean difference = mean difference final value.|Week 4: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.76|-21.20|<0.0001
82658661|NCT00420238|165033745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.19|||<|0.0001||95.0|-21.41|-8.96|||ANCOVA||Least squares mean difference = mean difference final value.|Week 8: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.96|-21.41|<0.0001
82658662|NCT00420238|165033745|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.41|||<|0.0001||95.0|-20.63|-8.19|||ANCOVA||Least squares mean difference = mean difference final value.|Week 12: Mixed model analysis of covariance (ANCOVA), using an auto-regressive correlation structure, with treatment groups, visits and their interactions as fixed factors, baseline as a covariate and patients as a random factor.||-8.19|-20.63|<0.0001
82658663|NCT00420238|165033748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.87||||0.184|TWO_SIDED|95.0|0.74|4.7|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||4.70|0.74|0.184
82613321|NCT00570739|164943970|SUPERIORITY_OR_OTHER|||||||0.0589||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||0.0589
82658664|NCT00420238|165033748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.62||||0.036||95.0|1.06|6.46|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||6.46|1.06|0.036
82658665|NCT00420238|165033748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.96||||0.001||95.0|1.89|13.03|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||13.03|1.89|0.001
82658666|NCT00420238|165033748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.065||95.0|0.95|5.96|||GEE model||An odds-ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||5.96|0.95|0.065
82658667|NCT00420238|165033750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.57||||0.004|TWO_SIDED|95.0|1.64|12.74|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 2: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||12.74|1.64|0.004
82613322|NCT00570739|164943970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.19||||0.0095|TWO_SIDED|95.0|1.21|3.96|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||3.96|1.21|0.0095
82613323|NCT00570739|164943970|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.0088|TWO_SIDED|95.0|1.2|3.6|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||3.60|1.20|0.0088
82613324|NCT00570739|164943971|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||<0.0001
82613325|NCT00570739|164943971|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||<0.0001
82613326|NCT00570739|164943971|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||<0.0001
82613327|NCT00570739|164943971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.59|||<|0.0001|TWO_SIDED|95.0|2.78|11.23|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||11.23|2.78|<0.0001
82613328|NCT00570739|164943971|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.8|||<|0.0001|TWO_SIDED|95.0|2.53|9.1|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||9.10|2.53|<0.0001
82613329|NCT00570739|164943972|SUPERIORITY_OR_OTHER|||||||0.0004||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 8 Weeks||||0.0004
82613330|NCT00570739|164943972|SUPERIORITY_OR_OTHER|||||||0.0326||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks||||0.0326
82613331|NCT00570739|164943972|SUPERIORITY_OR_OTHER|||||||0.0157||95.0|||||Cochran-Mantel-Haenszel|Stratified by country||Baseline to 16 Weeks LOCF||||0.0157
82613332|NCT00570739|164943972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.49||||0.087|TWO_SIDED|95.0|0.88|7.07|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||7.07|0.88|0.0870
82613333|NCT00570739|164943972|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.86||||0.00439|TWO_SIDED|95.0|1.03|7.94|||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate.||Baseline to 16 Weeks LOCF||7.94|1.03|0.00439
82658668|NCT00420238|165033750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.46||||0.054||95.0|0.99|6.12|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 4: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||6.12|0.99|0.054
82613334|NCT00570739|164943973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.7959|TWO_SIDED|95.0|-1.32|1.72||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||1.72|-1.32|0.7959
82613335|NCT00570739|164943973|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15||||0.8371|TWO_SIDED|95.0|-1.28|1.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.57|-1.28|0.8371
82613336|NCT00570739|164943974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0033||||0.4584|TWO_SIDED|95.0|-0.0122|0.0055||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.0055|-0.0122|0.4584
82613337|NCT00570739|164943974|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0035||||0.4039|TWO_SIDED|95.0|-0.0118|0.0048||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.0048|-0.0118|0.4039
82613338|NCT00570739|164943975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.59|||<|0.0001|TWO_SIDED|95.0|-21.07|-10.11||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate.||||-10.11|-21.07|<0.0001
82613339|NCT00570739|164943976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.46||||0.2289|TWO_SIDED|95.0|-27.53|6.62||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||6.62|-27.53|0.2289
82613340|NCT00570739|164943976|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.54||||0.1997|TWO_SIDED|95.0|-29.22|6.14||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||6.14|-29.22|0.1997
82613341|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.81||||0.0144|TWO_SIDED|95.0|2.57|23.05||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Triglycerides||23.05|2.57|0.0144
82613342|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.12||||0.0037|TWO_SIDED|95.0|4.63|23.61||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Triglycerides||23.61|4.63|0.0037
82613343|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.79||||0.006|TWO_SIDED|95.0|6.59|39.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Very Low Density Lipoprotein Triglycerides||39.00|6.59|0.0060
82613344|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.72||||0.0013|TWO_SIDED|95.0|9.71|39.73||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated Very Low Density Lipoprotein Triglycerides||39.73|9.71|0.0013
82613345|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.35||||0.0005|TWO_SIDED|95.0|3.71|13.0|||ANCOVA|||Calculated High Density Lipoprotein-Cholesterol||13.00|3.71|0.0005
82613346|NCT00570739|164943977|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.69||||0.0001|TWO_SIDED|95.0|4.27|13.11||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Calculated High Density Lipoprotein-Cholesterol||13.11|4.27|0.0001
82613347|NCT00570739|164943978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.8804|TWO_SIDED|95.0|0.63|2.34||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||2.34|0.63|0.8804
82613348|NCT00570739|164943978|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.5525|TWO_SIDED|95.0|0.73|2.6||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||2.60|0.73|0.5525
82613349|NCT00570739|164943978|SUPERIORITY_OR_OTHER|||||||0.5648||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.5648
82613350|NCT00570739|164943978|SUPERIORITY_OR_OTHER|||||||0.317||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.3170
82613351|NCT00570739|164943979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.9008|TWO_SIDED|95.0|0.66|4.06||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||4.06|0.66|0.9008
82613352|NCT00570739|164943979|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.9035|TWO_SIDED|95.0|0.6|3.37||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||3.37|0.60|0.9035
82613353|NCT00570739|164943979|SUPERIORITY_OR_OTHER|||||||0.2874||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2874
82613354|NCT00570739|164943979|SUPERIORITY_OR_OTHER|||||||0.4344||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.4344
82613355|NCT00570739|164943980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.62|||<|0.0001|TWO_SIDED|95.0|-24.61|-14.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-14.63|-24.61|<0.0001
82613356|NCT00570739|164943980|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.47|||<|0.0001|TWO_SIDED|95.0|-23.24|-11.69||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-11.69|-23.24|<0.0001
82658669|NCT00420238|165033750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.26|||<|0.001||95.0|2.27|17.31|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 8: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||17.31|2.27|<0.001
82492642|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|STANDARD_ERROR_OF_MEAN|1.318||0.467|TWO_SIDED|95.0|-1.64|3.56|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||3.56|-1.64|0.467
82613357|NCT00570739|164943981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.47|||<|0.0001|TWO_SIDED|95.0|-16.26|-8.69||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-8.69|-16.26|<0.0001
82613358|NCT00570739|164943981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.28|||<|0.0001|TWO_SIDED|95.0|-15.15|-5.41||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-5.41|-15.15|<0.0001
82613359|NCT00570739|164943981|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.06||||0.0002|TWO_SIDED|95.0|-13.69|-4.42||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-4.42|-13.69|0.0002
82613360|NCT00570739|164943982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.96||||0.0357|TWO_SIDED|95.0|0.27|7.66||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||7.66|0.27|0.0357
82613361|NCT00570739|164943982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.6878|TWO_SIDED|95.0|-5.01|3.31||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||3.31|-5.01|0.6878
82613362|NCT00570739|164943982|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5||||0.7972|TWO_SIDED|95.0|-4.37|3.36||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||3.36|-4.37|0.7972
82613363|NCT00570739|164943983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.91|||<|0.0001|TWO_SIDED|95.0|-12.02|-5.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-5.80|-12.02|<0.0001
82613364|NCT00570739|164943983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.26|||<|0.0001|TWO_SIDED|95.0|-12.25|-4.26||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-4.26|-12.25|<0.0001
82613365|NCT00570739|164943983|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.23||||0.0002|TWO_SIDED|95.0|-11.03|-3.44||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-3.44|-11.03|0.0002
82613366|NCT00570739|164943984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.5||||0.0257|TWO_SIDED|95.0|0.43|6.57||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||6.57|0.43|0.0257
82613367|NCT00570739|164943984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13||||0.2238|TWO_SIDED|95.0|-1.32|5.58||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||5.58|-1.32|0.2238
82613368|NCT00570739|164943984|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78||||0.2763|TWO_SIDED|95.0|-1.44|4.99||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||4.99|-1.44|0.2763
82613369|NCT00570739|164943985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.83|||<|0.0001|TWO_SIDED|95.0|-13.68|-5.98||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||-5.98|-13.68|<0.0001
82613370|NCT00570739|164943985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.67||||0.0004|TWO_SIDED|95.0|-13.4|-3.94||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||-3.94|-13.40|0.0004
82613371|NCT00570739|164943985|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.09||||0.0004|TWO_SIDED|95.0|-12.5|-3.68||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-3.68|-12.50|0.0004
82613372|NCT00570739|164943986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.8||||0.0007|TWO_SIDED|95.0|5.87|21.74||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||21.74|5.87|0.0007
82613373|NCT00570739|164943986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.58||||0.0901|TWO_SIDED|95.0|-1.83|24.99||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||24.99|-1.83|0.0901
82613374|NCT00570739|164943986|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.45||||0.0918|TWO_SIDED|95.0|-1.71|22.62||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a||Baseline to 16 Weeks LOCF||22.62|-1.71|0.0918
82613375|NCT00570739|164943987|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|15.78||||0.0005|TWO_SIDED|95.0|6.27|25.83||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 8 Weeks||25.83|6.27|0.0005
82658670|NCT00420238|165033750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.88||||0.025||95.0|1.14|7.27|||GEE model||Odds ratio greater than 1 indicates the odds of response is greater in etanercept group than in placebo group.|Week 12: Generalized estimating equation (GEE) model, using a logit link, binomial distribution and an auto-regressive correlation structure, with treatment groups, visits and their interaction as fixed factors.||7.27|1.14|0.025
82658671|NCT00048581|165033752|SUPERIORITY_OR_OTHER||Est. Weighted. Diff: Day 169 ACR 20|30.8|||<|0.001|TWO_SIDED|95.0|20.6|41.1||The a priori threshold for statistical significance was 5%. ACR 20 RR at 6 mos for PLA was expected to be \~25%. A sample of 256 in the ABA arm and 128 in PLA arm will yield a 96% power to detect a difference of 20% in ACR 20 at 5% significance level.|Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|The first coprimary endpoint efficacy analysis tested for differences in ACR 20 response rate (RR) between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving placebo plus background DMARDs on Day 169. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||41.1|20.6|<0.001
82613376|NCT00570739|164943987|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|16.07||||0.0011|TWO_SIDED|95.0|6.33|26.02||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks||26.02|6.33|0.0011
82613377|NCT00570739|164943987|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|14.33||||0.0009|TWO_SIDED|95.0|5.11|23.84||P-Value is from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks LOCF||23.84|5.11|0.0009
82613378|NCT00570739|164943988|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.29||||0.6523|TWO_SIDED|95.0|-17.5|10.32||P-Value was from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks||10.32|-17.50|0.6523
82613379|NCT00570739|164943988|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.38||||0.3934|TWO_SIDED|95.0|-17.51|8.77||P-Value was from the non-parametric ANCOVA stratified by country|ANCOVA|Non-parametric|The median difference was calculated using Hodges-Lehmann point estimates and corresponding 95% confidence interval was constructed using the method of Moses.|Baseline to 16 Weeks LOCF||8.77|-17.51|0.3934
82613380|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.9838|TWO_SIDED|95.0|-8.66|8.84||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total VLDL Particles||8.84|-8.66|0.9838
82613381|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.53||||0.7157|TWO_SIDED|95.0|-6.73|9.79||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total VLDL Particles||9.79|-6.73|0.7157
82613382|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.44|||<|0.0001|TWO_SIDED|95.0|1.25|3.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large VLDL Chylomicron Particles||3.63|1.25|<0.0001
82613383|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39|||<|0.0001|TWO_SIDED|95.0|1.27|3.51||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large VLDL Chylomicron Particles||3.51|1.27|<0.0001
82613384|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.04||||0.0577|TWO_SIDED|95.0|-0.17|10.24||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Chylomicron Particles||10.24|-0.17|0.0577
82613385|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.24||||0.039|TWO_SIDED|95.0|0.27|10.22||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium VLDL Chylomicron Particles||10.22|0.27|0.0390
82613386|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.49||||0.0044|TWO_SIDED|95.0|-12.61|-2.37||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||-2.37|-12.61|0.0044
82613387|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.24||||0.0118|TWO_SIDED|95.0|-11.09|-1.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small VLDL Particles||-1.40|-11.09|0.0118
82613388|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-110.6||||0.0293|TWO_SIDED|95.0|-209.9|-11.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-11.3|-209.9|0.0293
82613389|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-112.7||||0.0202|TWO_SIDED|95.0|-207.6|-17.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total Low Density Lipoprotein (LDL) Particles||-17.8|-207.6|0.0202
82613390|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4||||0.9629|TWO_SIDED|95.0|-15.2|14.5|||ANCOVA|||Intermediate Density Lipoprotein (LDL) Particles||14.5|-15.2|0.9629
82658672|NCT00048581|165033753|SUPERIORITY_OR_OTHER||Est. of Weighted Diff: Day 169 HAQ|24.0|||<|0.001|TWO_SIDED|95.0|13.8|34.2||If the ACR20 analysis was not significant (5% level), then the comparison for HAQ response was not undertaken. If ACR20 comparison was significant (5% level), then CMH Chi-square test compared HAQ response between groups (5% level).|Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|All comparisons of changes from baseline and construction of confidence intervals for continuous measures were based on an ANCOVA model with treatment as the main factor and baseline value as covariate.|The two primary efficacy analyses tested first for differences in ACR 20 followed by testing HAQ response rates between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs on Day 169. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||34.2|13.8|<0.001
82658673|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 20|12.3||||0.001|TWO_SIDED|95.0|4.6|20.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||20.0|4.6|0.001
82613391|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.7485|TWO_SIDED|95.0|-16.5|11.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Intermediate Density Lipoprotein (LDL) Particles||11.9|-16.5|0.7485
82613392|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.6||||0.1007|TWO_SIDED|95.0|-139.7|12.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||12.5|-139.7|0.1007
82613393|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-63.8||||0.0768|TWO_SIDED|95.0|-134.6|6.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large LDL Particles||6.9|-134.6|0.0768
82613394|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.7||||0.4143|TWO_SIDED|95.0|-162.7|67.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||67.3|-162.7|0.4143
82613395|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-46.9||||0.402|TWO_SIDED|95.0|-157.1|63.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small LDL Particles||63.3|-157.1|0.4020
82613396|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.6378|TWO_SIDED|95.0|-29.1|17.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||17.9|-29.1|0.6378
82613397|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.7||||0.5528|TWO_SIDED|95.0|-29.1|15.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium Small LDL Particles||15.6|-29.1|0.5528
82613398|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-42.0||||0.373|TWO_SIDED|95.0|-134.8|50.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||50.8|-134.8|0.3730
82613399|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.0||||0.3764|TWO_SIDED|95.0|-129.0|49.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Small LDL Particles||49.0|-129.0|0.3764
82613400|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.01||||0.9807|TWO_SIDED|95.0|-1.2|1.17||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.17|-1.20|0.9807
82613401|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.8615|TWO_SIDED|95.0|-1.23|1.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Total High Density Lipoprotein (HDL) Particles||1.03|-1.23|0.8615
82613402|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.0364|TWO_SIDED|95.0|0.04|1.14||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||1.14|0.04|0.0364
82613403|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.034|TWO_SIDED|95.0|0.04|1.08||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Large HDL Particles||1.08|0.04|0.0340
82613404|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.6587|TWO_SIDED|95.0|-0.68|1.07||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.07|-0.68|0.6587
82613405|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.19||||0.6554|TWO_SIDED|95.0|-0.63|1.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Medium HDL Particles||1.00|-0.63|0.6554
82658674|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 50|2.3||||0.001|TWO_SIDED|95.0|-0.8|5.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||5.5|-0.8|0.001
82492643|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|1.328||0.948|TWO_SIDED|95.0|-2.53|2.7|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 4||2.70|-2.53|0.948
82613406|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.1957|TWO_SIDED|95.0|-2.06|0.42||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.42|-2.06|0.1957
82613407|NCT00570739|164943989|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.85||||0.1622|TWO_SIDED|95.0|-2.03|0.34||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Small HDL Particles||0.34|-2.03|0.1622
82613408|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.99|||<|0.0001|TWO_SIDED|95.0|3.51|8.48||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||8.48|3.51|<0.0001
82613409|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.31|||<|0.0001|TWO_SIDED|95.0|3.0|7.63||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Very Low Density Lipoprotein Particles||7.63|3.00|<0.0001
82613410|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.1742|TWO_SIDED|95.0|-0.3|0.05||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Low Density Lipoprotein Particles||0.05|-0.30|0.1742
82613411|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11||||0.187|TWO_SIDED|95.0|-0.28|0.06|||ANCOVA|||Low Density Lipoprotein Particles||0.06|-0.28|0.1870
82613412|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.09||||0.0063|TWO_SIDED|95.0|0.03|0.16||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.16|0.03|0.0063
82613413|NCT00570739|164943990|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.002|TWO_SIDED|95.0|0.04|0.16||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||High Density Lipoprotein Particles||0.16|0.04|0.0020
82613414|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.4||||0.0022|TWO_SIDED|95.0|8.9|39.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated Total Triglycerides||39.9|8.9|0.0022
82613415|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.3||||0.0013|TWO_SIDED|95.0|9.6|39.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated Total Triglycerides||39.1|9.6|0.0013
82613416|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.3||||0.0006|TWO_SIDED|95.0|11.5|41.0||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes: Calculated Very Low Density Triglycerides||41.0|11.5|0.0006
82613417|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.5||||0.0003|TWO_SIDED|95.0|12.5|40.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes: Calculated Very Low Density Triglycerides||40.6|12.5|0.0003
82613418|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1257|TWO_SIDED|95.0|-0.4|3.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated High Density Lipoprotein-Cholesterol||3.5|-0.4|0.1257
82613419|NCT00570739|164943991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5||||0.1054|TWO_SIDED|95.0|-0.3|3.3||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Changes in Calculated High Density Lipoprotein-Cholesterol||3.3|-0.3|0.1054
82613420|NCT00570739|164943992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2971|TWO_SIDED|95.0|-0.11|0.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||0.03|-0.11|0.2971
82613421|NCT00570739|164943992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04||||0.2567|TWO_SIDED|95.0|-0.11|0.03||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||0.03|-0.11|0.2567
82613422|NCT00570739|164943992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.06||||0.1081|TWO_SIDED|95.0|-0.13|0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 12 Weeks||0.01|-0.13|0.1081
82613423|NCT00570739|164943992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.079|TWO_SIDED|95.0|-0.17|0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.01|-0.17|0.0790
82658675|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 15 ACR 70|0.8||||0.784|TWO_SIDED|95.0|-1.3|2.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||2.9|-1.3|0.784
82492644|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|STANDARD_ERROR_OF_MEAN|1.479||0.255|TWO_SIDED|95.0|-1.23|4.61|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.61|-1.23|0.255
82613424|NCT00570739|164943992|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.0206|TWO_SIDED|95.0|-0.18|-0.01||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||-0.01|-0.18|0.0206
82613425|NCT00570739|164943993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.3||||0.0009|TWO_SIDED|95.0|-6.8|-1.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||-1.8|-6.8|0.0009
82613426|NCT00570739|164943993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.0||||0.1184|TWO_SIDED|95.0|-4.5|0.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||0.5|-4.5|0.1184
82613427|NCT00570739|164943993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8||||0.0615|TWO_SIDED|95.0|-5.8|0.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 12 Weeks||0.1|-5.8|0.0615
82613428|NCT00570739|164943993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3||||0.3617|TWO_SIDED|95.0|-7.2|2.6||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||2.6|-7.2|0.3617
82613429|NCT00570739|164943993|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6||||0.2372|TWO_SIDED|95.0|-7.0|1.7||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.7|-7.0|0.2372
82613430|NCT00570739|164943994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.921||||0.2982|TWO_SIDED|95.0|-0.821|2.663||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 4 Weeks||2.663|-0.821|0.2982
82613431|NCT00570739|164943994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.695||||0.2361|TWO_SIDED|95.0|-0.458|1.848||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 8 Weeks||1.848|-0.458|0.2361
82613432|NCT00570739|164943994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.218||||0.0413|TWO_SIDED|95.0|-2.388|-0.049|||ANCOVA|||Baseline to 12 Weeks||-0.049|-2.388|0.0413
82613433|NCT00570739|164943994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.434||||0.7858|TWO_SIDED|95.0|-3.583|2.715|||ANCOVA|||Baseline to 16 Weeks||2.715|-3.583|0.7858
82613434|NCT00570739|164943994|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.493||||0.7314|TWO_SIDED|95.0|-3.321|2.335|||ANCOVA|||Baseline to 16 Weeks LOCF||2.335|-3.321|0.7314
82613435|NCT00570739|164943995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.089||||0.553|TWO_SIDED|95.0|-0.385|0.207||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.207|-0.385|0.5530
82613436|NCT00570739|164943995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.105||||0.4554|TWO_SIDED|95.0|-0.383|0.172||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.172|-0.383|0.4554
82613437|NCT00570739|164943996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.8583|TWO_SIDED|95.0|-10.7|8.9||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||8.9|-10.7|0.8583
82613438|NCT00570739|164943996|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.2||||0.7975|TWO_SIDED|95.0|-10.5|8.1||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||8.1|-10.5|0.7975
82613439|NCT00570739|164943997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.0||||0.233||95.0|-18.5|4.5||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||4.5|-18.5|0.2330
82613440|NCT00570739|164943997|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.1412|TWO_SIDED|95.0|-19.2|2.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||2.8|-19.2|0.1412
82613441|NCT00570739|164943998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4||||0.8192|TWO_SIDED|95.0|-13.7|10.8||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||10.8|-13.7|0.8192
82613442|NCT00570739|164943998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.7513|TWO_SIDED|95.0|-13.5|9.7||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||9.7|-13.5|0.7513
82658676|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 20|14.0||||0.005|TWO_SIDED|95.0|4.0|24.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||24.0|4.0|0.005
82613443|NCT00570739|164943999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.91||||0.4301|TWO_SIDED|95.0|-24.156|10.336||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||10.336|-24.156|0.4301
82613444|NCT00570739|164943999|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.17||||0.5369|TWO_SIDED|95.0|-21.661|11.321||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||11.321|-21.661|0.5369
82613445|NCT00570739|164944000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.151||||0.7447|TWO_SIDED|95.0|-1.068|0.765||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.765|-1.068|0.7447
82613446|NCT00570739|164944000|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.029||||0.9476|TWO_SIDED|95.0|-0.853|0.911||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.911|-0.853|0.9476
82613447|NCT00570739|164944001|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||<0.0001
82613448|NCT00570739|164944001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.23||||0.0018|TWO_SIDED|95.0|2.06|13.58||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||13.58|2.06|0.0018
82613449|NCT00570739|164944001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.46||||0.0019|TWO_SIDED|95.0|1.89|10.54||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||10.54|1.89|0.0019
82613450|NCT00570739|164944001|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.0005
82613451|NCT00570739|164944001|SUPERIORITY_OR_OTHER|||||||0.0007||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.0007
82613452|NCT00570739|164944002|SUPERIORITY_OR_OTHER|||||||0.0104||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.0104
82613453|NCT00570739|164944002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.2224|TWO_SIDED|95.0|0.53|9.39||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||9.39|0.53|0.2224
82613454|NCT00570739|164944002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.21||||0.199|TWO_SIDED|95.0|0.53|9.33||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||9.33|0.53|0.1990
82613455|NCT00570739|164944002|SUPERIORITY_OR_OTHER|||||||0.2778||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2778
82613456|NCT00570739|164944002|SUPERIORITY_OR_OTHER|||||||0.2785||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.2785
82613457|NCT00570739|164944003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.68||||0.5353|TWO_SIDED|95.0|-2.84|1.48||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||1.48|-2.84|0.5353
82613458|NCT00570739|164944003|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.62||||0.5475|TWO_SIDED|95.0|-2.64|1.4||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||1.40|-2.64|0.5475
82613459|NCT00570739|164944004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0116||||0.0678|TWO_SIDED|95.0|-0.0241|0.0009||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||0.0009|-0.0241|0.0678
82613460|NCT00570739|164944004|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.0112||||0.0585|TWO_SIDED|95.0|-0.0228|0.0004||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||0.0004|-0.0228|0.0585
82613461|NCT00570739|164944005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0||||0.7051|TWO_SIDED|95.0|-18.64|12.64||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks||12.64|-18.64|0.7051
82613462|NCT00570739|164944005|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8||||0.5267|TWO_SIDED|95.0|-19.72|10.13||P-Value is for the LS Mean Difference between treatment groups|ANCOVA|The ANCOVA model includes treatment and country as fixed effects and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||10.13|-19.72|0.5267
82613463|NCT00570739|164944006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.5882|TWO_SIDED|95.0|0.4|1.83||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||1.83|0.40|0.5882
82613464|NCT00570739|164944006|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.93||||0.7098|TWO_SIDED|95.0|0.44|1.96||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||1.96|0.44|0.7098
82613465|NCT00570739|164944006|SUPERIORITY_OR_OTHER|||||||0.6835||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.6835
82613466|NCT00570739|164944006|SUPERIORITY_OR_OTHER|||||||0.8461||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.8461
82613467|NCT00570739|164944007|SUPERIORITY_OR_OTHER|||||||0.2079||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 4 Weeks||||0.2079
82613468|NCT00570739|164944007|SUPERIORITY_OR_OTHER|||||||0.4053||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.4053
82613469|NCT00570739|164944007|SUPERIORITY_OR_OTHER|||||||0.5752||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 12 Weeks||||0.5752
82613470|NCT00570739|164944007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.84||||0.7994|TWO_SIDED|95.0|0.25|2.29||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||2.29|0.25|0.7994
82613471|NCT00570739|164944007|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.996|TWO_SIDED|95.0|0.32|3.03||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||3.03|0.32|0.9960
82613472|NCT00570739|164944007|SUPERIORITY_OR_OTHER|||||||0.7783||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.7783
82613473|NCT00570739|164944007|SUPERIORITY_OR_OTHER|||||||0.9774||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.9774
82613474|NCT00570739|164944008|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 4 Weeks||||<0.0001
82613475|NCT00570739|164944008|SUPERIORITY_OR_OTHER|||||||0.4058||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 8 Weeks||||0.4058
82613476|NCT00570739|164944008|SUPERIORITY_OR_OTHER|||||||0.0254||95.0||||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 12 Weeks||||0.0254
82613477|NCT00570739|164944008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.62||||0.1499|TWO_SIDED|95.0|0.74|3.55||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||3.55|0.74|0.1499
82613478|NCT00570739|164944008|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.08||||0.042|TWO_SIDED|95.0|0.97|4.45||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||4.45|0.97|0.0420
82613479|NCT00570739|164944008|SUPERIORITY_OR_OTHER|||||||0.224||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2240
82613480|NCT00570739|164944008|SUPERIORITY_OR_OTHER|||||||0.0593||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.0593
82613481|NCT00570739|164944009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.4794|TWO_SIDED|95.0|0.31|1.4||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||1.40|0.31|0.4794
82613482|NCT00570739|164944009|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.6667|TWO_SIDED|95.0|0.37|1.55||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks LOCF||1.55|0.37|0.6667
82613483|NCT00570739|164944009|SUPERIORITY_OR_OTHER|||||||0.2768||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.2768
82613484|NCT00570739|164944009|SUPERIORITY_OR_OTHER|||||||0.4395||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.4395
82613485|NCT00570739|164944010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.43||||0.1375|TWO_SIDED|95.0|0.89|6.64||P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.|Cochran-Mantel-Haenszel|||Baseline to 16 Weeks||6.64|0.89|0.1375
82613486|NCT00570739|164944010|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.22||||0.1996|TWO_SIDED|95.0|0.85|5.82|||Cochran-Mantel-Haenszel|P-Value for comparing percentages was from the Cochran-Mantel-Haenszel test stratified by country.||Baseline to 16 Weeks LOCF||5.82|0.85|0.1996
82613487|NCT00570739|164944010|SUPERIORITY_OR_OTHER|||||||0.0829||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks||||0.0829
82613488|NCT00570739|164944010|SUPERIORITY_OR_OTHER|||||||0.1037||95.0|||||Regression, Logistic|Contained treatment and country as factors and baseline lab value as a covariate||Baseline to 16 Weeks LOCF||||0.1037
82613489|NCT02086565|164944014|SUPERIORITY||Group differences in expected 12 month c|-0.21|||||TWO_SIDED|95.0|-0.56|0.15||||||||0.15|-0.56|
82613490|NCT02086565|164944015|SUPERIORITY||Group differences in expected 12 month c|0.19|||||TWO_SIDED|95.0|-0.27|0.68|||||Estimation parameter: Other. Group differences in expected 12 month change from baseline|||0.68|-0.27|
82613491|NCT02086565|164944016|SUPERIORITY||Group differences in expected 12 month c|-0.6|||||TWO_SIDED|95.0|-2.21|0.97||||||||0.97|-2.21|
82613492|NCT02086565|164944017|SUPERIORITY||Group differences in expected 12 month c|-0.53|||||TWO_SIDED|95.0|-1.08|-0.24||||||||-0.24|-1.08|
82613493|NCT02086565|164944018|SUPERIORITY||Group differences in expected 12 month c|-0.09|||||TWO_SIDED|95.0|-0.24|0.06||||||||0.06|-0.24|
82613494|NCT00739297|164944026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.04||||||95.0|-0.01|0.08|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.08|-0.01|
82613495|NCT00739297|164944026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.1||||||95.0|0.04|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.04|
82613496|NCT00739297|164944026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|0.02|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|0.02|
82613497|NCT00739297|164944026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|-0.01|
82613498|NCT00739297|164944026|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.04|0.13|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.13|0.04|
82613499|NCT00739297|164944027|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.19||||||95.0|0.04|0.34|||||Repeated measures model with terms for treatment (Albuterol/Placebo), dose, treatment-by-dose interaction and baseline FEV1|||0.34|0.04|
82613500|NCT00739297|164944028|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|-0.01|0.12|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.12|-0.01|
82613501|NCT00739297|164944028|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.07||||||95.0|0.0|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|-0.00|
82613502|NCT00739297|164944028|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.11|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.11|-0.01|
82613503|NCT00739297|164944028|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.06||||||95.0|-0.03|0.14|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.14|-0.03|
82613504|NCT00739297|164944028|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.01|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.01|
82613505|NCT00739297|164944029|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.04||||||95.0|-0.03|0.1|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.10|-0.03|
82613506|NCT00739297|164944029|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.09||||||95.0|0.01|0.17|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.17|0.01|
82613507|NCT00739297|164944029|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.05||||||95.0|-0.01|0.1|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.10|-0.01|
82613508|NCT00739297|164944029|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.07||||||95.0|-0.02|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|-0.02|
82613509|NCT00739297|164944029|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least-Squares Means|0.08||||||95.0|0.01|0.15|||||Mixed effects model with terms for treatment (including dose of montelukast), period and baseline covariate.|||0.15|0.01|
82613510|NCT00325442|164944030|SUPERIORITY_OR_OTHER||Hodges-Lehmann|11.0||||0.072|TWO_SIDED|95.0|0.0|22.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||22|0|0.072
82613511|NCT00325442|164944031|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.062|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank-sum test|||Change in Borg dyspnea score from Baseline to Week 16||0.0|-1.0|0.062
82613512|NCT00325442|164944032|SUPERIORITY_OR_OTHER|||||||0.491||95.0|||||Fisher Exact|||||||0.491
82613513|NCT00325442|164944033|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.011|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon sum-rank test|||Change in dyspnea-fatigue index from Baseline to Week 16||1.0|0.0|0.011
82613514|NCT00325442|164944035|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|13.0||||0.015|TWO_SIDED|95.0|3.0|23.0|||ANCOVA|||Change in 6MWD from Baseline to Week 12||23.0|3.0|0.015
82613515|NCT00325442|164944036|SUPERIORITY_OR_OTHER||Hodges-Lehmann|9.0||||0.051|TWO_SIDED|95.0|0.0|18.0|||ANCOVA|||Change in 6MWD from Baseline to Week 8||18.0|0.0|0.051
82613516|NCT00325442|164944037|SUPERIORITY_OR_OTHER||Hodges-Lehmann ( H-L)|4.0||||0.238|TWO_SIDED|95.0|-2.4|12.0|||ANCOVA|||Change in 6MWD from Baseline to Week 4||12.0|-2.4|0.238
82613517|NCT00325442|164944038|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|24.0||||0.121|TWO_SIDED|95.0|0.0|45.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||45|0|0.121
82613518|NCT00325442|164944039|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|15.0||||0.069|TWO_SIDED|95.0|-7.0|41.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||41|-7|0.069
82613519|NCT00325442|164944040|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|4.0||||0.889|TWO_SIDED|95.0|-15.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-15|0.889
82613520|NCT00325442|164944041|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|0.0||||0.966|TWO_SIDED|95.0|-23.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-23|0.966
82613521|NCT00325442|164944043|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|5.0||||0.853|TWO_SIDED|95.0|-16.0|28.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||28|-16|0.853
82613522|NCT00325442|164944044|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|7.0||||0.327|TWO_SIDED|95.0|-7.0|21.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||21|-7|0.327
82613523|NCT00325442|164944045|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|29.5||||0.085|TWO_SIDED|95.0|1.0|73.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||73|1|0.085
82613524|NCT00325442|164944046|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|5.0||||0.615|TWO_SIDED|95.0|-12.0|24.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||24|-12|0.615
82613525|NCT00325442|164944047|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|17.0||||0.23|TWO_SIDED|95.0|-6.0|40.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||40|-6|0.230
82613526|NCT00325442|164944048|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|10.0||||0.209|TWO_SIDED|95.0|-6.0|28.0|||ANCOVA|||Change in 6MWD from Baseline to Week 16||28|-6|0.209
82613527|NCT00844428|164944063|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|80.0|||||TWO_SIDED|95.0|56.0|94.0||||||"With a total of 20 patients enrolled between both protocols and, assuming that the true expected probability of TMA Event-Free for eculizumab-treated patients is 40%, then the study had 93.5% power to detect a statistically significant difference. Up to approximately 30 patients were to be enrolled.~All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS."||94|56|
82613528|NCT00844428|164944064|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
82613529|NCT00844428|164944065|SUPERIORITY_OR_OTHER||Percent of complete TMA response|25.0|||||TWO_SIDED|95.0|9.0|49.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||49|9|
82613530|NCT00844428|164944066|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
82613531|NCT00844428|164944067|SUPERIORITY_OR_OTHER||LS mean change from baseline|6.75||||0.5423|TWO_SIDED|95.0|-15.73|29.23|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||29.23|-15.73|0.5423
82613532|NCT00844428|164944068|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
82492645|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.96|STANDARD_ERROR_OF_MEAN|1.479||0.187|TWO_SIDED|95.0|-0.96|4.87|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.87|-0.96|0.187
82613533|NCT00844428|164944069|SUPERIORITY_OR_OTHER||Percent of TMA event-free responders|95.0|||||TWO_SIDED|95.0|75.0|100.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||100|75|
82613534|NCT00844428|164944070|SUPERIORITY_OR_OTHER||Percent of hematologic normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||99|68|
82613535|NCT00844428|164944071|SUPERIORITY_OR_OTHER||Percent of complete TMA response|55.0|||||TWO_SIDED|95.0|32.0|77.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||77|32|
82613536|NCT00844428|164944072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.29|||<|0.0001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||||<0.0001
82613537|NCT00844428|164944073|SUPERIORITY_OR_OTHER||LS mean change from baseline|-3.68||||0.7307|TWO_SIDED|95.0|-25.15|17.79|||ANOVA|Change from baseline were analyzed using a repeated measurement ANOVA model with time and baseline as fixed effects and subject as a random effect.||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years with aHUS.||17.79|-25.15|0.7307
82613538|NCT00844428|164944074|SUPERIORITY_OR_OTHER||Percent of platelet count normalization|90.0|||||TWO_SIDED|95.0|68.0|99.0||||||All analyses were based on the pooled data from the two protocols: C08-003A (adult) and C08-003B (adolescent), a similar protocol, for patients \<18 years||99|68|
82613539|NCT00455858|164944081|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-1.356|||<|0.0001||95.0|-1.368|-1.344|||t-test|||||-1.344|-1.368|<.0001
82613540|NCT00455858|164944082|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-1.338|||<|0.0001||95.0|-1.35|-1.327|||t-test|||||-1.327|-1.350|<.0001
82613541|NCT00455858|164944083|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-69.553|||<|0.0001||95.0|-70.047|-69.06|||Paired t-test|||Estimated mean decrease in FPG at week 12||-69.060|-70.047|<.0001
82613542|NCT00455858|164944083|SUPERIORITY_OR_OTHER_LEGACY||Least Square Mean|-72.159|||<|0.0001||95.0|-72.647|-71.671|||Paired t-test|||Estimated mean decrease in FPG at week 20||-71.671|-72.647|<.0001
82613543|NCT02137772|164944086|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-23.5|||<|0.0001|TWO_SIDED|95.0|-32.5|-14.6||A 1-sided p-value ≤0.0249 for the risk difference was used for declaring statistical significance|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-14.6|-32.5|<0.0001
82613544|NCT02137772|164944087|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Nominal 2-sided p-value|Log Rank|The log rank test was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||||<0.0001
82613545|NCT02137772|164944088|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-31.3|||<|0.0001|TWO_SIDED|95.0|-39.9|-22.6||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-22.6|-39.9|<0.0001
82613546|NCT02137772|164944089|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-0.4||||0.4056|TWO_SIDED|95.0|-4.0|3.2||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||3.2|-4.0|0.4056
82613547|NCT02137772|164944090|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-1.0||||0.2258|TWO_SIDED|95.0|-3.5|1.5||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||1.5|-3.5|0.2258
82613548|NCT02137772|164944091|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-31.0|||<|0.0001|TWO_SIDED|95.0|-39.6|-22.4||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-22.4|-39.6|<0.0001
82613549|NCT02137772|164944092|SUPERIORITY_OR_OTHER_LEGACY||Risk Difference (RD)|-23.3|||<|0.0001|TWO_SIDED|95.0|-32.3|-14.3||Nominal 1-sided p-value|Mantel Haenszel|The Mantel Haenszel analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||-14.3|-32.3|<0.0001
82613550|NCT02137772|164944093|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Nominal 2-sided p-value|Log Rank|The log rank test analysis was adjusted for sample size for each stratum (high or low risk for CMV reactivation)||||||<0.0001
82613551|NCT00772967|164944121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.611||||0.089||90.0|-1.36|0.14||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||0.14|-1.36|0.089
82613552|NCT00772967|164944121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.804||||0.043||90.0|-1.57|-0.04||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.04|-1.57|0.043
82613553|NCT00772967|164944122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.518||||0.048||90.0|-1.03|-0.01||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.01|-1.03|0.048
82613554|NCT00772967|164944122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.03||||0.001||90.0|-1.54|-0.53||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.53|-1.54|0.001
82658677|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 50|5.6||||0.06|TWO_SIDED|95.0|-0.2|11.4|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||11.4|-0.2|0.06
82613555|NCT00772967|164944123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.658||||0.052||90.0|-1.32|0.01||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||0.01|-1.32|0.052
82613556|NCT00772967|164944123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.15||||0.003||90.0|-1.81|-0.49||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.49|-1.81|0.003
82613557|NCT00772967|164944124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.875||||0.019||90.0|-1.56|-0.19||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.19|-1.56|0.019
82613558|NCT00772967|164944124|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.07||||0.007||90.0|-1.77|-0.37||1-sided, alpha = 0.05|ANCOVA|Baseline measurement included as covariate: Time-weighted average pain intensity during pretreatment walk||||-0.37|-1.77|0.007
82613559|NCT04172831|164944136|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.16||0.01|TWO_SIDED|95.0|-0.7|-0.1|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.1|-0.7|0.010
82613560|NCT04172831|164944137|SUPERIORITY||Odds Ratio (OR)|1.44||||0.058|TWO_SIDED|95.0|0.99|2.1|||Regression, Logistic|||||2.10|0.99|0.058
82613561|NCT04172831|164944138|SUPERIORITY||LS Mean Difference|-4.3|STANDARD_ERROR_OF_MEAN|1.6||0.007|TWO_SIDED|95.0|-7.5|-1.2|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.2|-7.5|0.007
82613562|NCT04172831|164944139|SUPERIORITY||LS Mean Difference|-4.4|STANDARD_ERROR_OF_MEAN|1.69||0.009|TWO_SIDED|95.0|-7.7|-1.1|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.1|-7.7|0.009
82613563|NCT04172831|164944140|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-4.5|-1.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-1.3|-4.5|<0.001
82613564|NCT04172831|164944141|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.76||0.018|TWO_SIDED|95.0|-3.3|-0.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.3|-3.3|0.018
82613565|NCT04172831|164944142|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.17|<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Model Repeated Measures||Treatment Difference = TNX-102 - Placebo|||-0.3|-0.9|<0.001
82613566|NCT01651260|164944150|SUPERIORITY_OR_OTHER||upper probability of failure|0.05||||||||||Minimum sample size of 60 subjects was required based on the ability of the device to perform at an observed level of non-failure equivalent to an expected upper probability of failure not to exceed 5%.|||Minimum sample size of 60 subjects was required based on the ability of the device to perform at an observed level of non-failure equivalent to an expected upper probability of failure not to exceed 5%.|||||
82613567|NCT02389946|164944215|NON_INFERIORITY|Non-inferiority of the 12-month TLF rate for the Orsiro stent vs. the Xience stent was assessed as the primary endpoint. The null hypothesis H0 was that the Orsiro stent would have a primary endpoint (12-month TLF) rate equal to or exceeding that of the Xience group by the non-inferiority margin or more. The alternative hypothesis HA was that the Orsiro stent would have a 12-month TLF rate less than the Xience group rate plus the non-inferiority margin of 3.85%.|Posterior Probability of non-inferioriry|100.0|||||TWO_SIDED|||||||||Bayesian calculation using a hierarchical model to incorporate data from previous BIOFLOW-II and BIOFLOW-IV trials.||||
82613568|NCT02389946|164944216|OTHER|||||||0.415|||||||Fisher Exact|||||||0.415
82613569|NCT01605396|164944225|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.565|TWO_SIDED|80.0|0.81|1.72|||Regression, Cox|||Hazard ratio (HR) and p-value for treatment difference based on Cox regression model with Efron tie handling for treatment comparison (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm).||1.72|0.81|0.565
82613570|NCT01605396|164944227|OTHER||Difference of Percentages|-10.0||||0.267|TWO_SIDED|95.0|-27.8|8.0|||Miettinen and Nurminen's Method|||Miettinen and Nurminen's method was used to compare ORR between the two treatment arms (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm), and to calculate a p-value and 95% confidence interval (CI) for the difference in response rates.||8.0|-27.8|0.267
82613571|NCT01605396|164944228|OTHER||Hazard Ratio (HR)|1.38||||0.562|TWO_SIDED|95.0|0.46|4.13|||Regression, Cox|||HR and p-value for treatment difference based on Cox regression model with Efron tie handling for treatment comparison (Ridaforolimus + Dalotuzumab + Exemestane arm versus Ridaforolimus + Exemestane arm).||4.13|0.46|0.562
82613572|NCT04598165|164944237|SUPERIORITY||Risk Ratio (RR)|1.25||||0.314|TWO_SIDED|95.0|0.81|1.92||The primary intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and taking into account a 10% attrition. Multiple imputation with chain equations (MICE) was used to impute missing values for any outcome with greater than 10% missingness. Any variables associated with the outcome or outcome missingness were included in the imputation model.||1.92|0.81|0.314
82613573|NCT04598165|164944238|SUPERIORITY||Risk Ratio (RR)|1.36||||0.217|TWO_SIDED|95.0|0.84|2.21||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and taking into account a 10% attrition. Multiple imputation with chain equations (MICE) was used to impute missing values for any outcome with greater than 10% missingness. Any variables associated with the outcome or outcome missingness were included in the imputation model.||2.21|0.84|0.217
82613574|NCT04598165|164944239|SUPERIORITY||Risk Ratio (RR)|1.04||||0.064|TWO_SIDED|95.0|1.0|1.08||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.05 in early initiation of breast feeding assuming 80% uptake in controls.||1.08|1.00|0.064
82613575|NCT04598165|164944240|SUPERIORITY||Risk Ratio (RR)|0.99||||0.363|TWO_SIDED|95.0|0.98|1.01||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.05 in exclusive breast feeding assuming 80% uptake in controls.||1.01|0.98|0.363
82613576|NCT04598165|164944241|SUPERIORITY||Risk Ratio (RR)|1.01||||0.093|TWO_SIDED|95.0|1.0|1.02||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in application of substances to the cord or delaying first bath assuming 50% in controls.||1.02|1.00|0.093
82613577|NCT04598165|164944242|SUPERIORITY||Risk Ratio (RR)|1.03||||0.353|TWO_SIDED|95.0|0.97|1.09||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in application of substances to the cord or delaying first bath assuming 50% in controls.||1.09|0.97|0.353
82613578|NCT04598165|164944243|SUPERIORITY||Risk Ratio (RR)|1.14||||0.751|TWO_SIDED|95.0|0.5|2.61||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.53 in provision of Kangaroo Mother Care assuming 25% in controls.||2.61|0.50|0.751
82658678|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 29 ACR 70|1.6||||0.473|TWO_SIDED|95.0|-1.8|4.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||4.9|-1.8|0.473
82613579|NCT04598165|164944244|SUPERIORITY||Risk Ratio (RR)|1.0||||0.431|TWO_SIDED|95.0|1.0|1.01||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.04 in number of danger signs correctly named assuming median of 3 in controls.||1.01|1.00|0.431
82613580|NCT04598165|164944245|SUPERIORITY||Risk Ratio (RR)|1.03||||0.321|TWO_SIDED|95.0|0.98|1.08||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson regression||SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 1.11 in appropriate care seeking assuming 1 clinic visit in the 6-weeks postpartum for controls.||1.08|0.98|0.321
82613581|NCT04598165|164944246|SUPERIORITY||Risk Ratio (RR)|1.01||||0.65|TWO_SIDED|95.0|0.98|1.04||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Poisson generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator.|We estimated a sample size of 5000 to detect a risk ratio of ≤0.53 assuming a neonatal mortality rate of 23 per 1000 in the control arm with 80% power and, 95% confidence and assuming 10% attrition. With this sample size, assuming alpha=0.0045 (Bonferroni adjusted for 11 tests), we also had 80% power to detect a risk ratio of 0.76 in elevated depression symptoms assuming 19% in controls.||1.04|0.98|0.650
82613582|NCT04598165|164944247|SUPERIORITY||Coefficient|0.09||||0.071|TWO_SIDED|95.0|-0.007|0.18||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Linear generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator. Coefficient (95% CI) for linear GEE using enrollment, 2- and 6-week visits.|||0.18|-0.007|0.071
82613583|NCT04598165|164944248|SUPERIORITY||Coefficient|0.02||||0.19|TWO_SIDED|95.0|-0.01|0.04||The intention to treat analysis was adjusted for differences in exposure to other SMS programs and phone ownership. We corrected for multiple comparisons using the Benjamini-Hochberg method. The threshold for statistical significance was p=0.05.|Linear generalized estimating equations||n (%) are values at 6-week visit, and RR compares change over time for enrollment, 2- and 6-week visits. SMS group is the numerator. Coefficient (95% CI) for linear GEE using enrollment, 2- and 6-week visits.|||0.04|-0.01|0.190
82613584|NCT01323673|164944249|SUPERIORITY_OR_OTHER|||||||0.151||95.0||||Cochran-Mantel-Haenszel (CMH) test stratified by center was used for analysis.|Cochran-Mantel-Haenszel|||||||0.151
82613585|NCT04430582|164944257|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||0.90
82613586|NCT04430582|164944258|OTHER|||||||0.24|||||||Wilcoxon (Mann-Whitney)|||||||0.24
82613587|NCT04430582|164944259|OTHER|||||||0.74|||||||Wilcoxon (Mann-Whitney)|||||||0.74
82613588|NCT04430582|164944260|OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82613589|NCT04430582|164944261|OTHER|||||||0.7|||||||Wilcoxon (Mann-Whitney)|||||||0.70
82613590|NCT04430582|164944262|OTHER|||||||0.95|||||||Kruskal-Wallis|||||||0.95
82613591|NCT04430582|164944263|OTHER|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||0.48
82613592|NCT04430582|164944264|OTHER|||||||0.85|||||||Wilcoxon (Mann-Whitney)|||||||0.85
82613593|NCT04430582|164944265|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82613594|NCT04430582|164944266|OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82613595|NCT04430582|164944267|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82613596|NCT04430582|164944268|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82613597|NCT04430582|164944269|OTHER|||||||0.3|||||||Wilcoxon (Mann-Whitney)|||||||0.30
82492646|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|1.497||0.373|TWO_SIDED|95.0|-1.62|4.29|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 8||4.29|-1.62|0.373
82613598|NCT04430582|164944270|OTHER|||||||0.045|||||||Wilcoxon (Mann-Whitney)|||||||0.045
82613599|NCT04430582|164944271|OTHER|||||||0.37|||||||Wilcoxon (Mann-Whitney)|||||||0.37
82613600|NCT03625986|164944281|OTHER||Mean Difference (Final Values)|-186.68||||0.0039|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0039
82613601|NCT03625986|164944282|OTHER||Mean Difference (Final Values)|-0.06||||0.8103|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8103
82613602|NCT03625986|164944283|OTHER||Mean Difference (Final Values)|-3.14||||0.0105|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0105
82613603|NCT03625986|164944284|OTHER||Mean Difference (Final Values)|2415.93||||0.0182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0182
82613604|NCT03625986|164944285|OTHER||Mean Difference (Final Values)|1.18||||0.8429|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.8429
82613605|NCT03625986|164944286|OTHER||Mean Difference (Final Values)|0.49||||0.4881|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.4881
82613606|NCT03625986|164944287|OTHER||Mean Difference (Final Values)|1.76||||0.0835|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0835
82613607|NCT03625986|164944288|OTHER||Mean Difference (Final Values)|-0.96||||0.043|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.043
82613608|NCT03625986|164944289|OTHER||Odds Ratio (OR)|4.35||||0.0052|TWO_SIDED||||||Fisher Exact|||||||0.0052
82613609|NCT03625986|164944290|OTHER||Mean Difference (Final Values)|-1.95||||0.0797|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.0797
82613610|NCT03625986|164944291|OTHER||Mean Difference (Final Values)|-1.44||||0.1084|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1084
82613611|NCT03625986|164944292|OTHER||Mean Difference (Final Values)|3.81||||0.3469|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3469
82613612|NCT03625986|164944293|OTHER||Odds Ratio (OR)|3.3632||||0.0272|TWO_SIDED||||||Fisher Exact|||||||0.0272
82613613|NCT03625986|164944294|OTHER||Mean Difference (Final Values)|0.6||||0.589|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.589
82613614|NCT03625986|164944295|OTHER||Mean Difference (Final Values)|-0.3||||0.5448|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.5448
82613615|NCT03625986|164944296|OTHER||Mean Difference (Final Values)|15.3||||0.65|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.65
82613616|NCT03625986|164944297|OTHER||Mean Difference (Final Values)|-4.0||||0.1567|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.1567
82613617|NCT02078713|164944312|SUPERIORITY||Odds Ratio (OR)|0.89||||0.46|TWO_SIDED|95.0|0.65|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.22|0.65|0.46
82613618|NCT02078713|164944312|SUPERIORITY||Odds Ratio (OR)|0.79||||0.16|TWO_SIDED|95.0|0.57|1.1||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.10|0.57|0.16
82613619|NCT02078713|164944313|SUPERIORITY||Odds Ratio (OR)|1.45||||0.03|TWO_SIDED|95.0|1.03|2.05||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||2.05|1.03|0.03
82613620|NCT02078713|164944314|SUPERIORITY||Odds Ratio (OR)|1.61||||0.01|TWO_SIDED|95.0|1.11|2.33||P-value calculated in imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||2.33|1.11|0.01
82613621|NCT02078713|164944315|SUPERIORITY||Odds Ratio (OR)|1.11||||0.62|TWO_SIDED|95.0|0.74|1.67||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.67|0.74|0.62
82613622|NCT02078713|164944316|SUPERIORITY||Relative risk ratio|1.1||||0.85|TWO_SIDED|95.0|0.4|3.04||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who wished provider had been less involved to right amount (ref)||3.04|0.40|0.85
82613623|NCT02078713|164944316|SUPERIORITY||Relative risk ratio|1.6||||0.24|TWO_SIDED|95.0|0.73|3.5||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who reported they wished their providers had been more involved, compared to right amount (ref)||3.50|0.73|0.24
82613624|NCT02078713|164944317|SUPERIORITY||Relative risk ratio|1.0||||0.997|TWO_SIDED|95.0|0.45|2.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who wished provider had expressed preference less strongly to right amount (ref).||2.25|0.45|0.997
82613625|NCT02078713|164944317|SUPERIORITY||Relative risk ratio|0.69||||0.16|TWO_SIDED|95.0|0.41|1.16||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patients who reported they wished provider had expressed preference more strongly, compared to right amount (ref).||1.16|0.41|0.16
82613626|NCT02078713|164944318|SUPERIORITY|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|Odds Ratio (OR)|1.3||||0.13|TWO_SIDED|95.0|0.93|1.82||P-value calculated in multiply imputed dataset.|Regression, Logistic||The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.82|0.93|0.13
82613627|NCT02078713|164944319|SUPERIORITY||Relative risk ratio|1.13||||0.5|TWO_SIDED|95.0|0.79|1.61||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of patient decision to both (ref)||1.61|0.79|0.50
82613628|NCT02078713|164944319|SUPERIORITY||Relative risk ratio|2.14||||0.09|TWO_SIDED|95.0|0.89|5.15||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation value represents the relative risk of the outcome in the intervention group, compared to relative risk in the control group.|Comparison of provider decision to both (ref)||5.15|0.89|0.09
82613629|NCT02078713|164944320|SUPERIORITY||Odds Ratio (OR)|1.27||||0.12|TWO_SIDED|95.0|0.94|1.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.71|0.94|0.12
82613630|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.18||||0.41|TWO_SIDED|95.0|0.8|1.74||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of overall score||1.74|0.80|0.41
82613631|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0496|TWO_SIDED|95.0|1.0|1.8|||Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of informed decision subscale||1.80|1.00|0.0496
82613632|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.45||||0.03|TWO_SIDED|95.0|1.03|2.05||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of uncertainty subscale of DCS||2.05|1.03|0.03
82613633|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5|TWO_SIDED|95.0|0.8|1.59||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of effective decision subscale||1.59|0.80|0.5
82613634|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.17||||0.31|TWO_SIDED|95.0|0.86|1.59||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of values clarity subscale||1.59|0.86|0.31
82613635|NCT02078713|164944321|SUPERIORITY||Odds Ratio (OR)|1.06||||0.73|TWO_SIDED|95.0|0.76|1.49||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of support subscale||1.49|0.76|0.73
82613636|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.27||||0.12|TWO_SIDED|95.0|0.94|1.72||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - pills are more effective than condoms||1.72|0.94|0.12
82613637|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|2.65|||<|0.0001|TWO_SIDED|95.0|1.94|3.62||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - IUDs are more effective than pills||3.62|1.94|<0.0001
82613638|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0004|TWO_SIDED|95.0|1.29|2.44||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - depo is more effective than condoms||2.44|1.29|0.0004
82613639|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.92||||0.0002|TWO_SIDED|95.0|1.36|2.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - IUDs are an option for nulliparous young women||2.71|1.36|0.0002
82613640|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.86||||0.001|TWO_SIDED|95.0|1.28|2.71||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Methods causing periods to stop are safe.||2.71|1.28|0.001
82613641|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.15||||0.36|TWO_SIDED|95.0|0.85|1.57||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - LARC can be removed early||1.57|0.85|0.36
82613642|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|2.76|||<|0.0001|TWO_SIDED|95.0|1.72|4.41||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - Copper IUD can act as EC||4.41|1.72|<0.0001
82613643|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|0.77||||0.49|TWO_SIDED|95.0|0.36|1.63||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a regression model in a multiply imputed dataset. This outcome was not adjusted for site due to model being unable to run with imputed data.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - After sex, there is something you can do to prevent pregnancy||1.63|0.36|0.49
82613644|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|0.73||||0.31|TWO_SIDED|95.0|0.39|1.34||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a regression model in a multiply imputed dataset. This outcome was not adjusted for site due to model being unable to run with imputed data.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of knowledge - EC can prevent pregnancy after sex||1.34|0.39|0.31
82613645|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.33||||0.08|TWO_SIDED|95.0|0.96|1.84||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - pill does not affect fertility||1.84|0.96|0.08
82613646|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.65||||0.002|TWO_SIDED|95.0|1.2|2.26||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.||Comparison of correct knowledge - patch does not affect fertility|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|2.26|1.2|0.002
82613647|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.7||||0.002|TWO_SIDED|95.0|1.23|2.35||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - ring does not affect fertility||2.35|1.23|0.002
82613648|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|0.94||||0.77|TWO_SIDED|95.0|0.62|1.43||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Depo does affect fertility||1.43|0.62|0.77
82613649|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.61||||0.002|TWO_SIDED|95.0|1.19|2.17||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Hormonal IUD does not affect fertility||2.17|1.19|0.002
82613650|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.56||||0.004|TWO_SIDED|95.0|1.15|2.1||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Non-hormonal IUD does not affect fertility||2.1|1.15|0.004
82613651|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|1.54||||0.005|TWO_SIDED|95.0|1.14|2.07||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of correct knowledge - Implant does not affect fertility||2.07|1.14|0.005
82658679|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 20|22.0|||<|0.001|TWO_SIDED|95.0|11.3|32.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||32.8|11.3|<0.001
82613652|NCT02078713|164944322|SUPERIORITY||Odds Ratio (OR)|2.47|||<|0.0001|TWO_SIDED|95.0|1.75|3.49||P-value calculated in multiply imputed dataset.|Regression, Logistic||OR calculated in multiply imputed dataset. Intervention patients had 2.47 times the odds of control patients to give correct answer.|Comparison of correct knowledge - composite IUD knowledge item (all correct responses on items related to IUD knowledge, versus any incorrect)||3.49|1.75|<0.0001
82613653|NCT02078713|164944323|SUPERIORITY||Odds Ratio (OR)|1.19||||0.25|TWO_SIDED|95.0|0.88|1.61||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving top score at baseline||1.61|0.88|0.25
82613654|NCT02078713|164944323|SUPERIORITY||Odds Ratio (OR)|0.9||||0.5|TWO_SIDED|95.0|0.66|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention groups in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving top score at 4 months post-enrollment||1.22|0.66|0.5
82613655|NCT02078713|164944323|SUPERIORITY||Odds Ratio (OR)|0.83||||0.23|TWO_SIDED|95.0|0.6|1.13||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of percentage of patients giving a top score on the 5-point Likert scale at 7 months post-enrollment.||1.13|0.60|0.23
82492647|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66|STANDARD_ERROR_OF_MEAN|1.643||0.313|TWO_SIDED|95.0|-1.58|4.9|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||4.90|-1.58|0.313
82613656|NCT02078713|164944324|SUPERIORITY||Odds Ratio (OR)|0.91||||0.55|TWO_SIDED|95.0|0.66|1.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.25|0.66|0.55
82613657|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|1.22||||0.13|TWO_SIDED|95.0|0.92|1.6||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating for hormonal IUD. Patients excluded from analysis if they had not heard of hormonal IUD.||1.6|0.92|0.13
82613658|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.99||||0.92|TWO_SIDED|95.0|0.75|1.3||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on non-hormonal IUD. Patients were excluded from this analysis if they reported not having heard of the non-hormonal IUD in the post-visit survey.||1.3|0.75|0.92
82613659|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.85||||0.17|TWO_SIDED|95.0|0.67|1.07||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating of implant||1.07|0.67|0.17
82613660|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.71||||0.009|TWO_SIDED|95.0|0.54|0.92||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on condoms. Patients were excluded from this analysis if they reported not having heard of condoms in the post-visit survey.||0.92|0.54|0.009
82613661|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.86||||0.26|TWO_SIDED|95.0|0.65|1.12||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the shot (Depo Provera). Patients were excluded from this analysis if they reported not having heard of the the shot (Depo Provera) in the post-visit survey.||1.12|0.65|0.26
82613662|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.85||||0.23|TWO_SIDED|95.0|0.64|1.11||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the pill. Patients were excluded from this analysis if they reported not having heard of the pill in the post-visit survey.||1.11|0.64|0.23
82613663|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.92||||0.55|TWO_SIDED|95.0|0.69|1.22||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the patch. Patients were excluded from this analysis if they reported not having heard of the patch in the post-visit survey.||1.22|0.69|0.55
82613664|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.97||||0.84|TWO_SIDED|95.0|0.76|1.25||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the pull-out method. Patients were excluded from this analysis if they reported not having heard of the pull-out method in the post-visit survey.||1.25|0.76|0.84
82613665|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.81||||0.07|TWO_SIDED|95.0|0.64|1.02||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on the ring. Patients were excluded from this analysis if they reported not having heard of the ring in the post-visit survey.||1.02|0.64|0.07
82613666|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.59||||0.002|TWO_SIDED|95.0|0.42|0.82||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on female sterilization/tubal ligation. Patients were excluded from this analysis if they reported not having heard of female sterilization/tubal ligation in the post-visit survey.||0.82|0.42|0.002
82613667|NCT02078713|164944325|SUPERIORITY||Odds Ratio (OR)|0.58||||0.005|TWO_SIDED|95.0|0.4|0.85||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of rating on male sterilization/vasectomy. Patients were excluded from this analysis if they reported not having heard of male sterilization/vasectomy in the post-visit survey.||0.85|0.4|0.005
82492648|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.95|STANDARD_ERROR_OF_MEAN|1.642||0.017|TWO_SIDED|95.0|0.71|7.19|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||7.19|0.71|0.017
82613668|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.55||||0.27|TWO_SIDED|95.0|0.71|3.42||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of hormonal IUD||3.42|0.71|0.27
82613669|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.65||||0.18|TWO_SIDED|95.0|0.8|3.4||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of non-hormonal IUD||3.40|0.80|0.18
82613670|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.29||||0.5|TWO_SIDED|95.0|0.62|2.69||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of implant||2.69|0.62|0.5
82613671|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.7||||0.32|TWO_SIDED|95.0|0.59|4.89||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of the patch||4.89|0.59|0.32
82613672|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.38||||0.37|TWO_SIDED|95.0|0.68|2.81||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of ring||2.81|0.68|0.37
82613673|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.49||||0.39|TWO_SIDED|95.0|0.6|3.73||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of male sterilization (vasectomy)||3.73|0.60|0.39
82613674|NCT02078713|164944326|SUPERIORITY||Odds Ratio (OR)|1.49||||0.39|TWO_SIDED|95.0|0.6|3.73||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison of patients who newly heard of female sterilization||3.73|0.6|0.39
82613675|NCT02078713|164944327|SUPERIORITY||Odds Ratio (OR)|1.27||||0.18|TWO_SIDED|95.0|0.9|1.81||P-value calculated from multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|"The odds ratio represents the odds of the intervention group rating their appointment as much better, in the numerator, over the odds of the control group giving this rating in the denominator."|Patients excluded from test if they reported not having had a previous contraceptive counseling appointment.||1.81|0.90|0.18
82613676|NCT02078713|164944328|SUPERIORITY||Mean Difference (Final Values)|11.81|||<|0.001|TWO_SIDED|95.0|8.54|18.66||P-value calculated in multiple imputed dataset|Regression, Linear|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation parameter is a beta coefficient from a linear regression model, calculated in an imputed dataset. It represents additional minutes in an intervention visit versus a control visit.|||18.66|8.54|<0.001
82613677|NCT02078713|164944329|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.63|TWO_SIDED|95.0|-3.19|5.29||P-value calculated in multiply imputed dataset|Regression, Linear|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The estimation parameter is a beta coefficient from a linear regression model, calculated in an imputed dataset. It represents additional minutes in an intervention visit versus a control visit.|||5.29|-3.19|0.63
82613678|NCT02078713|164944330|SUPERIORITY||Observed coefficient|-3.97|STANDARD_ERROR_OF_MEAN|3.34||0.24|TWO_SIDED|95.0|-10.62|2.68|||Regression, Linear||Tool group is compared to control group (ref). Bootstrapping used for standard error.|Test of follow-up score of emotional exhaustion subscale of Maslach Burnout Inventory, controlling for baseline score and site||2.68|-10.62|0.24
82613679|NCT02078713|164944330|SUPERIORITY||Observed coefficient|-1.52|STANDARD_ERROR_OF_MEAN|1.91||0.36|TWO_SIDED|95.0|-4.76|1.72|||Regression, Linear||Tool group is compared to control group (ref). Bootstrapping used for standard error|Linear regression of follow-up score for depersonalization subscale of Maslach Burnout Inventory, controlling for baseline score and site.||1.72|-4.76|0.36
82613680|NCT02078713|164944330|SUPERIORITY||Slope|-1.64|STANDARD_ERROR_OF_MEAN|1.34||0.28|TWO_SIDED|95.0|-4.61|1.34|||Regression, Linear||Tool group compared to control group (ref). Bootstrapping used for standard error.|Linear regression of follow-up score for personal accomplishment subscale of Maslach Burnout Inventory, controlling for site and baseline score.||1.34|-4.61|0.28
82613681|NCT02078713|164944331|SUPERIORITY||Odds Ratio (OR)|1.06||||0.78|TWO_SIDED|95.0|0.69|1.65||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|||1.65|0.69|0.78
82613682|NCT02078713|164944332|SUPERIORITY||Odds Ratio (OR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.35||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.35|0.66|0.75
82613683|NCT02078713|164944332|SUPERIORITY||Odds Ratio (OR)|1.07||||0.71|TWO_SIDED|95.0|0.75|1.53||P-value calculated in multiply imputed dataset.|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.53|0.75|0.71
82613684|NCT02078713|164944333|SUPERIORITY||Odds Ratio (OR)|0.94||||0.75|TWO_SIDED|95.0|0.66|1.34||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||1.34|0.66|0.75
82613685|NCT02078713|164944333|SUPERIORITY||Odds Ratio (OR)|1.17||||0.37|TWO_SIDED|95.0|0.83|1.64||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||1.64|0.83|0.37
82613686|NCT02078713|164944334|SUPERIORITY||Odds Ratio (OR)|1.27||||0.63|TWO_SIDED|95.0|0.48|3.37||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 4 months post-enrollment||3.37|0.48|0.63
82613687|NCT02078713|164944334|SUPERIORITY||Odds Ratio (OR)|1.83||||0.11|TWO_SIDED|95.0|0.88|3.8||P-value calculated in multiply imputed dataset|Regression, Logistic|We ran a mixed effect regression model in a multiply imputed dataset, using fixed effects for study site and random effects for provider seen.|The odds ratio represents the odds of the intervention group in the numerator over the odds of the control group in the denominator.|Comparison at 7 months post-enrollment||3.80|0.88|0.11
82613688|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-1.19|||<|0.0001|TWO_SIDED|95.0|-1.58|-0.8|||ANOVA|Confidence interval (CIs) for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Placebo. The estimates are from an analysis of variance (ANOVA) model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.80|-1.58|<0.0001
82613689|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-0.95|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.57|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.57|-1.33|<0.0001
82613690|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-0.97|||<|0.0001|TWO_SIDED|95.0|-1.35|-0.59|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.8 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.59|-1.35|<0.0001
82613691|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-0.61||||0.0002|TWO_SIDED|95.0|-0.98|-0.23|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.4 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.23|-0.98|0.0002
82613692|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-0.41||||0.0324|TWO_SIDED|95.0|-0.79|-0.02|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.2 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.02|-0.79|0.0324
82613693|NCT00696657|164944335|SUPERIORITY||Estimated treatment differences|-0.09||||0.9772|TWO_SIDED|95.0|-0.46|0.28|||ANOVA|CIs for treatment differences versus placebo are based on Dunnett's method.||"The comparison sequence should be read as Semaglutide 0.1 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.28|-0.46|0.9772
82613694|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.35|||||TWO_SIDED|95.0|-0.64|-0.06|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.06|-0.64|
82613695|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.11|||||TWO_SIDED|95.0|-0.39|0.18|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.18|-0.39|
82613696|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.13|||||TWO_SIDED|95.0|-0.42|0.16|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.16|-0.42|
82613697|NCT00696657|164944335|OTHER||Estimated treatment differences|0.24|||||TWO_SIDED|95.0|-0.05|0.52|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.4 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.52|-0.05|
82613698|NCT00696657|164944335|OTHER||Estimated treatment differences|0.44|||||TWO_SIDED|95.0|0.15|0.73|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.2 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.73|0.15|
82613699|NCT00696657|164944335|OTHER||Estimated treatment differences|0.75|||||TWO_SIDED|95.0|0.48|1.03|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.1 mg - Liraglutide 1.8 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||1.03|0.48|
82613700|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.84|||||TWO_SIDED|95.0|-1.12|-0.56|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Liraglutide 1.8 mg - Placebo . The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.56|-1.12|
82613701|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.51|||||TWO_SIDED|95.0|-0.8|-0.22|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 1.6 mg (with titration) - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.22|-0.80|
82613702|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.27|||||TWO_SIDED|95.0|-0.56|0.02|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg (with titration) - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.02|-0.56|
82613703|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.29|||||TWO_SIDED|95.0|-0.58|0.01|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.8 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.01|-0.58|
82613704|NCT00696657|164944335|OTHER||Estimated treatment differences|0.08|||||TWO_SIDED|95.0|-0.22|0.37|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.4 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.37|-0.22|
82613705|NCT00696657|164944335|OTHER||Estimated treatment differences|0.28|||||TWO_SIDED|95.0|-0.02|0.57|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.2 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.57|-0.02|
82613706|NCT00696657|164944335|OTHER||Estimated treatment differences|0.59|||||TWO_SIDED|95.0|0.31|0.88|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Semaglutide 0.1 mg - Liraglutide 1.2 mg. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||0.88|0.31|
82613707|NCT00696657|164944335|OTHER||Estimated treatment differences|-0.68|||||TWO_SIDED|95.0|-0.97|-0.4|||ANOVA|CIs for treatment differences versus liraglutide are not corrected for multiple testing.||"The comparison sequence should be read as Liraglutide 1.2 mg - Placebo. The estimates are from an ANOVA model with treatment, country and previous treatment as fixed effects and baseline HbA1c as covariate."||-0.40|-0.97|
82613708|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 clearance beta 2 microglobilin Optiflux vs Revaclear.||||<0.001
82613709|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value is not adjusted for multiple comparisons and a p\<0.05 is considered significant.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance beta 2 microglobulin Optiflux vs ELISIO.||||<0.001
82613710|NCT02433210|164944399|SUPERIORITY||||||=|0.178||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 clearance beta 2 microglobulin Revaclear vs ELISIO..||||=0.178
82613711|NCT02433210|164944399|SUPERIORITY||||||=|0.016||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Optiflux vs Revaclear.||||=0.016
82613712|NCT02433210|164944399|SUPERIORITY||||||=|0.033||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Optiflux vs ELISIO.||||=0.033
82613713|NCT02433210|164944399|SUPERIORITY||||||=|0.935|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Clearance of myoglobin Revaclear vs ELISIO.||||=0.935
82613714|NCT02433210|164944399|SUPERIORITY||||||=|0.463|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of urea nitrogen Optiflux vs Revaclaer.||||=0.463
82658680|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 50|6.5||||0.076|TWO_SIDED|95.0|-0.6|13.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||13.7|-0.6|0.076
82613715|NCT02433210|164944399|SUPERIORITY||||||=|0.392|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of urea nitrogen Optiflux vs ELISIO.||||=0.392
82613716|NCT02433210|164944399|SUPERIORITY||||||=|0.597|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance urea nitrogen Revaclear vs ELISIO.||||=0.597
82613717|NCT02433210|164944399|SUPERIORITY||||||=|0.162|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Optiflux vs Revaclear.||||=0.162
82613718|NCT02433210|164944399|SUPERIORITY|||||||0.186|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Optiflux vs ELISIO.||||0.186
82613719|NCT02433210|164944399|SUPERIORITY|No Significant difference.||||||0.624|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea nitrogen clearance Optiflux vs Revaclear.||||0.624
82613720|NCT02433210|164944399|SUPERIORITY|||||||0.732|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea nitrogen clearance Optiflux vs ELISIO.||||0.732
82613721|NCT02433210|164944399|SUPERIORITY|||||||0.427|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Urea Nitrogen clearance Revaclear vs Optiflux.||||0.427
82613722|NCT02433210|164944399|SUPERIORITY|||||||0.379|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Optiflux vs Revaclear..||||0.379
82613723|NCT02433210|164944399|SUPERIORITY|||||||0.318|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Optiflux vs ELISIO.||||0.318
82613724|NCT02433210|164944399|SUPERIORITY||||||=|0.914|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Creatinine clearance Revaclear vs ELISIO.||||=0.914
82613725|NCT02433210|164944399|SUPERIORITY||||||=|0.623|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Optiflux vs Revaclear.||||=0.623
82613726|NCT02433210|164944399|SUPERIORITY||||||=|0.403|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and equal variance was used. If data failed either non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Optiflux vs ELISIO.||||=0.403
82613727|NCT02433210|164944399|SUPERIORITY||||||=|0.85|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 1 Phosphate clearance Revaclear vs ELISIO.||||=0.850
82613728|NCT02433210|164944399|SUPERIORITY||||||=|0.815|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of creatinine Revaclear vs ELISIO.||||=0.815
82613729|NCT02433210|164944399|SUPERIORITY||||||=|0.367|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of Phosphate Optiflux vs Revaclear.||||=0.367
82613730|NCT02433210|164944399|SUPERIORITY||||||=|0.821|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of phosphate Optiflux vs Elisio.||||=0.821
82613731|NCT02433210|164944399|SUPERIORITY||||||=|0.364|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance phosphate Revaclear vs ELISIO.||||=0.364
82613732|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of beta 2 microglobulin Optiflux vs Revaclear.||||<0.001
82613733|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of beta 2 microglobulin Optiflux vs ELISIO.||||<0.001
82613734|NCT02433210|164944399|SUPERIORITY||||||=|0.254|||||||t-test, 2 sided|||Session 2 Clearance of beta 2 microglobulin Revaclear vs ELISIO.||||=0.254
82613735|NCT02433210|164944399|SUPERIORITY||||||=|0.079|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of myoglobin Optiflux vs Revaclear.||||=0.079
82613736|NCT02433210|164944399|SUPERIORITY||||||=|0.086|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance of myoglobin Optiflux vs ELISIO.||||=0.086
82613737|NCT02433210|164944399|SUPERIORITY||||||=|0.888|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 2 Clearance myoglobin Revaclear vs ELISIO.||||=0.888
82613738|NCT02433210|164944399|SUPERIORITY||||||=|0.663||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Optiflux vs Revaclear.||||=0.663
82613739|NCT02433210|164944399|SUPERIORITY||||||=|0.391|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Optiflux vs ELISIO.||||=0.391
82613740|NCT02433210|164944399|SUPERIORITY||||||=|0.214|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of urea nitrogen Revaclear vs ELISIO.||||=0.214
82613741|NCT02433210|164944399|SUPERIORITY||||||=|0.918|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Optiflux vs Revaclear.||||=0.918
82613742|NCT02433210|164944399|SUPERIORITY||||||=|0.394|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Optiflux vs ELISIO.||||=0.394
82613743|NCT02433210|164944399|SUPERIORITY||||||=|0.211|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of creatinine Revaclear vs ELISIO.||||=0.211
82613744|NCT02433210|164944399|SUPERIORITY||||||=|0.222|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of phosphate Optiflux vs ELISIO.||||=0.222
82613745|NCT02433210|164944399|SUPERIORITY||||||=|0.162|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of phosphate Revaclear vs ELISIO.||||=0.162
82613746|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of beta 2 microglobulin Optiflux vs Revaclear.||||<0.001
82613747|NCT02433210|164944399|SUPERIORITY||||||=|0.025||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of beta 2 microglobulin Optiflux vs ELISIO.||||=0.025
82658681|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 57 ACR 70|5.1||||0.019|TWO_SIDED|95.0|0.7|9.4|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||9.4|0.7|0.019
82613748|NCT02433210|164944399|SUPERIORITY||||||=|0.903|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of beta 2 microglobulin Revaclear vs ELISIO.||||=0.903
82613749|NCT02433210|164944399|SUPERIORITY||||||=|0.003||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearances of myoglobin Optiflux vs Revaclear.||||=0.003
82613750|NCT02433210|164944399|SUPERIORITY||||||<|0.001||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of myoglobin Optiflux vs ELISIO.||||<0.001
82613751|NCT02433210|164944399|SUPERIORITY||||||=|0.472|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Session 3 Clearance of myoglobin Revaclear vs ELISIO.||||=0.472
82613752|NCT02433210|164944400|SUPERIORITY||||||=|0.216||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.216
82613753|NCT02433210|164944400|SUPERIORITY|No significant difference|||||=|0.216||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.216
82613754|NCT02433210|164944400|SUPERIORITY|No significant difference|||||=|0.952||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.952
82613755|NCT02433210|164944400|SUPERIORITY|No Significant difference|||||=|0.714||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.714
82613756|NCT02433210|164944400|SUPERIORITY||||||=|0.156||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.156
82613757|NCT02433210|164944400|SUPERIORITY||||||=|0.427||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.427
82613758|NCT02433210|164944400|SUPERIORITY||||||=|0.487||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.487
82658682|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 20|28.0|||<|0.001|TWO_SIDED|95.0|17.4|38.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||38.7|17.4|<0.001
82658683|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 50|12.0||||0.002|TWO_SIDED|95.0|4.1|19.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||19.8|4.1|0.002
82658684|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 85 ACR 70|5.1||||0.033|TWO_SIDED|95.0|0.4|9.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||9.8|0.4|0.033
82658685|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 20|25.9|||<|0.001|TWO_SIDED|95.0|15.1|36.8|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)||Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||36.8|15.1|<0.001
82658686|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 50|14.2|||<|0.001|TWO_SIDED|95.0|6.6|21.9|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)||If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||21.9|6.6|<0.001
82658687|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 113 ACR 70|7.8||||0.002|TWO_SIDED|95.0|2.6|13.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||13.0|2.6|0.002
82658688|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 20|35.5|||<|0.001|TWO_SIDED|95.0|24.6|46.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||46.5|24.6|<0.001
82658689|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 50|20.9|||<|0.001|TWO_SIDED|95.0|12.2|29.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||29.5|12.2|<0.001
82658690|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 141 ACR 70|10.2|||<|0.001|TWO_SIDED|95.0|4.4|16.0|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||16.0|4.4|<0.001
82613759|NCT02433210|164944400|SUPERIORITY|Failed normality test|||||=|0.111||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|The difference in the median values between the two groups is not \> enough to exclude that the difference is due to random sampling variability||No significant difference||||=0.111
82613760|NCT02433210|164944400|SUPERIORITY|Failed normality test|||||=|0.198||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.198
82613761|NCT02433210|164944400|SUPERIORITY||||||=|0.007||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||Showed a significant difference||||=0.007
82613762|NCT02433210|164944400|SUPERIORITY||||||=|0.202||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.202
82613763|NCT02433210|164944400|SUPERIORITY||||||=|0.54||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||No significant difference||||=0.540
82613764|NCT02433210|164944401|SUPERIORITY||||||=|0.204|||||||Wilcoxon (Mann-Whitney)|||||||=0.204
82613765|NCT02433210|164944401|SUPERIORITY||||||=|0.234|||||||Wilcoxon (Mann-Whitney)|||||||=0.234
82613766|NCT02433210|164944401|SUPERIORITY||||||=|0.015||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the \<0.050 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either then the non-parametric Mann-Whitney Rank Sum Test was used.||||||=0.015
82613767|NCT02433210|164944401|SUPERIORITY||||||=|0.413||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.413
82613768|NCT02433210|164944401|SUPERIORITY||||||=|0.314||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.314
82613769|NCT02433210|164944401|SUPERIORITY||||||=|0.769||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.769
82613770|NCT02433210|164944402|SUPERIORITY||||||=|0.376|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.376
82613771|NCT02433210|164944402|SUPERIORITY|||||||1||||||The p value was not adjusted for multiple comparisons and the difference was considered significant at the p\<0.05 level.|Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||1.000
82613772|NCT02433210|164944402|SUPERIORITY|||||||0.713|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||0.713
82613773|NCT02433210|164944402|SUPERIORITY||||||=|0.424|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.424
82613774|NCT02433210|164944402|SUPERIORITY||||||=|0.23|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.230
82613775|NCT02433210|164944402|SUPERIORITY||||||=|0.678|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.678
82613776|NCT02433210|164944402|SUPERIORITY||||||=|0.643|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.643
82613777|NCT02433210|164944402|SUPERIORITY||||||=|0.43|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.430
82613778|NCT02433210|164944402|SUPERIORITY||||||=|0.295|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.295
82613779|NCT02433210|164944402|SUPERIORITY||||||=|0.723|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.723
82613780|NCT02433210|164944402|SUPERIORITY||||||=|0.749|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.749
82613781|NCT02433210|164944402|SUPERIORITY||||||=|0.967|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.967
82613782|NCT02433210|164944403|SUPERIORITY||||||=|0.67|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.670
82613783|NCT02433210|164944403|SUPERIORITY||||||=|0.993|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.993
82613784|NCT02433210|164944403|SUPERIORITY||||||=|0.65|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.650
82613785|NCT02433210|164944403|SUPERIORITY||||||=|0.299|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.299
82613786|NCT02433210|164944403|SUPERIORITY||||||=|0.659|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.659
82613787|NCT02433210|164944403|SUPERIORITY||||||=|0.176|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.176
82613788|NCT02433210|164944403|SUPERIORITY||||||=|0.853|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.853
82613789|NCT02433210|164944403|SUPERIORITY||||||=|0.494|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.494
82613790|NCT02433210|164944403|SUPERIORITY||||||=|0.631|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.631
82613791|NCT02433210|164944403|SUPERIORITY||||||=|0.37|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.370
82613792|NCT02433210|164944403|SUPERIORITY||||||=|0.95|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.950
82613793|NCT02433210|164944403|SUPERIORITY||||||=|0.377|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.377
82613794|NCT02433210|164944404|SUPERIORITY||||||=|0.534|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.534
82613795|NCT02433210|164944404|SUPERIORITY||||||=|0.578|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.578
82613796|NCT02433210|164944404|SUPERIORITY||||||=|0.225|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.225
82613797|NCT02433210|164944404|SUPERIORITY||||||=|0.125|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.125
82613798|NCT02433210|164944404|SUPERIORITY||||||=|0.466|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.466
82613799|NCT02433210|164944404|SUPERIORITY||||||=|0.534|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.534
82613800|NCT02433210|164944404|SUPERIORITY||||||=|0.584|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.584
82613801|NCT02433210|164944404|SUPERIORITY||||||=|0.981|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.981
82613802|NCT02433210|164944404|SUPERIORITY||||||=|0.568|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.568
82613803|NCT02433210|164944404|SUPERIORITY||||||=|0.24|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.240
82613804|NCT02433210|164944404|SUPERIORITY||||||=|0.724|||||||Wilcoxon (Mann-Whitney)|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.724
82613805|NCT02433210|164944404|SUPERIORITY||||||=|0.445|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.445
82613806|NCT02433210|164944405|SUPERIORITY||||||=|0.114|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.114
82613807|NCT02433210|164944405|SUPERIORITY||||||=|0.292|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.292
82613808|NCT02433210|164944405|SUPERIORITY||||||=|0.714|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.714
82613809|NCT02433210|164944405|SUPERIORITY||||||=|0.176|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.176
82613810|NCT02433210|164944405|SUPERIORITY||||||=|0.19|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.190
82613811|NCT02433210|164944405|SUPERIORITY|||||||-0.009|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||-0.009
82613812|NCT02433210|164944405|SUPERIORITY||||||=|0.911|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.911
82613813|NCT02433210|164944405|SUPERIORITY||||||=|0.388|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.388
82613814|NCT02433210|164944405|SUPERIORITY||||||=|0.337|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.337
82613815|NCT02433210|164944405|SUPERIORITY||||||=|0.575|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.575
82613816|NCT02433210|164944405|SUPERIORITY||||||=|0.88|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.880
82613817|NCT02433210|164944405|SUPERIORITY||||||=|0.731|||||||t-test, 2 sided|Shapiro-Wilk test for Normality and an equal variance was used. If data failed either, non-parametric Mann-Whitney Rank sum test was used.||||||=0.731
82613818|NCT04494633|164944409|SUPERIORITY|||||||0.482314|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, t-test with 61 degrees of freedom.||||||0.482314
82613819|NCT04494633|164944410|SUPERIORITY|||||||0.876964|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, t test with 61 degrees of freedom.||||||.876964
82613820|NCT04494633|164944411|SUPERIORITY|||||||0.66602|||||||t-test, 2 sided|The change for each group was analyzed using a 2-tailed, unpaired, independent means, with 61 degrees of freedom.||||||.66602
82613821|NCT04494633|164944412|SUPERIORITY|||||||0.726421|||||||t-test, 2 sided|Two-tailed unpaired t test comparing change for control (Pre to 2 weeks later) to case (Pre- to 2 weeks post) with 61 degrees of freedom.||||||.726421
82613822|NCT04494633|164944413|SUPERIORITY|||||||0.908468|||||||t-test, 2 sided|The statistical test used was a 2 tailed, unpaired t test with 61 degrees of freedom.||||||0.908468
82613823|NCT04494633|164944414|SUPERIORITY|||||||0.468104|||||||t-test, 2 sided|The groups were compared using a two tailed unpaired t test with 61 degrees of freedom.||||||.468104
82613824|NCT01808118|164944456|OTHER||||||<|0.001||||||2-sided Pearson's chi-square test|Chi-squared|||||||<0.001
82613825|NCT01808118|164944475|OTHER||||||<|0.001|||||||Log Rank|||The statistical test was performed at a 2-sided significance level of 0.05. Time to flare analysis showed statistically significant lower risk of flare in the adalimumab group than in the placebo group.||||<0.001
82613826|NCT01993329|164944524|SUPERIORITY||Geometric means ratio|1.108||||0.616|TWO_SIDED|95.0|0.734|1.673|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.673|0.734|0.616
82658691|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 20|30.8|||<|0.001|TWO_SIDED|95.0|20.0|41.7|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|Differences in ACR 20 between the treatment arm receiving ABA plus background DMARDs and the treatment arm receiving PLA plus background DMARDs were compared using a 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test (.05 level of significance), with stratification based on baseline history of anti-TNF status (current or prior use).||41.7|20.0|<0.001
82613827|NCT01993329|164944524|SUPERIORITY||Geometric means ratio|1.016||||0.939|TWO_SIDED|95.0|0.673|1.534|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.534|0.673|0.939
82613828|NCT01993329|164944524|SUPERIORITY||Geometric means ratio|0.917||||0.671|TWO_SIDED|95.0|0.607|1.384|||ANOVA||Analysis was based on an ANOVA model with log (base 2) PC20 methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||1.384|0.607|0.671
82613829|NCT01993329|164944525|SUPERIORITY||Mean Difference (Final Values)|-0.111||||0.066|TWO_SIDED|95.0|-0.23|0.008|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect.|||0.008|-0.230|0.066
82613830|NCT01993329|164944525|SUPERIORITY||Mean Difference (Final Values)|-0.012||||0.843|TWO_SIDED|95.0|-0.131|0.107|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect|||0.107|-0.131|0.843
82613831|NCT01993329|164944525|SUPERIORITY||Mean Difference (Final Values)|-0.099||||0.098|TWO_SIDED|95.0|-0.218|0.02|||ANOVA||Analysis is based on an ANOVA model with minimum highest FEV1 after methacholine challenge at each period as dependent variable, treatment and period as fixed effects and participant as random effect|||0.020|-0.218|0.098
82613832|NCT05070429|164944526|SUPERIORITY||Maximum likelihood (MLE)|-0.035||||0.92|TWO_SIDED|95.0|-0.727|0.657||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|generalized linear model (GLM)|generalized linear model (GLM) with an identity link|Confidence intervals and p-values were obtained using a bias-corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare average daily hours of hearing aid use at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the primary outcome.||0.657|-0.727|0.92
82613833|NCT05070429|164944527|SUPERIORITY||Maximum likelihood (MLE)|-0.011||||0.87|TWO_SIDED|95.0|-0.147|0.125|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare treatment satisfaction at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||0.125|-0.147|0.87
82613834|NCT05070429|164944528|SUPERIORITY||Maximum likelihood (MLE)|0.059||||0.66|TWO_SIDED|95.0|-0.201|0.32|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare primary COSI goal achievement at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||0.320|-0.201|0.66
82613835|NCT05070429|164944529|SUPERIORITY||Maximum likelihood (MLE)|-1.96||||0.38|TWO_SIDED|95.0|-6.349|2.435|||generalized linear model (GLM)||To account for the non-normal distribution of the outcome, confidence intervals and p-values were obtained using a bias corrected and accelerated bootstrap resampling procedure with 10,000 replicates.|Used a weighted regression model with an identity link to compare hearing-specific quality of life at one-year post-randomization between participants assigned to the telehealth HHC or conventional HHC. Inverse probability of treatment weights will be calculated and included in the model for the secondary outcome.||2.435|-6.349|0.38
82658692|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 50|16.6|||<|0.001|TWO_SIDED|95.0|8.6|24.5|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of weighted difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 50 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 50 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||24.5|8.6|<0.001
82613836|NCT02311478|164944531|OTHER|Given that this is a observational cohort design we do not use either non-inferiority or equivalence analysis. Using ANOVA we test for differences in the number of days per month of bleeding between the 90 days pre-insertion, the 90 days following insertion, and 91-180 days following insertion.|Mean Difference (Net)|1.77|STANDARD_ERROR_OF_MEAN|0.28|<|0.05|TWO_SIDED|95.0|1.2|2.3||The p-value is not adjusted for multiple comparisons.|ANOVA|df=2||The null hypothesis is that there is no difference between the number of days of bleeding per month at baseline and the days of bleeding per month during 90 days after insertion, and months or 91-180 days following insertion.||2.3|1.2|<0.05
82613837|NCT02311478|164944531|EQUIVALENCE|α of 0.05 or lower.|Mean Difference (Final Values)|0.93|||<|0.05|TWO_SIDED|95.0|0.36|1.5|||t-test, 2 sided|||The estimation parameter compares the 90 days following to the 90 days prior.||1.5|0.36|<0.05
82613838|NCT03041116|164944541|SUPERIORITY||Difference in LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|0.8|=|0.9115|TWO_SIDED|95.0|-1.69|1.51||p-value was derived from test of contrast between treatment effects using LSM estimate, adjusted for baseline score and age group from Type III analysis. The test of contrast at Week 24 was considered the primary comparison.|Mixed Models Analysis|||||1.51|-1.69|=0.9115
82613839|NCT03041116|164944543|SUPERIORITY||Difference in LS Mean|2.0|STANDARD_ERROR_OF_MEAN|1.38|=|0.1421|TWO_SIDED|95.0|-0.7|4.78||p-value was derived from the test of contrast between treatment effects using the LSM estimate, adjusted for baseline score and age group from the Type III analysis. The test of contrast at week 24 was considered the primary comparison.|Mixed Models Analysis|||||4.78|-0.7|=0.1421
82613840|NCT00943319|164944545|OTHER||Median Survival time|161.0|||||TWO_SIDED|95.0|121.0|305.0|||Product limit survival estimate|||||305|121|
82613841|NCT00943319|164944546|OTHER||Median Disease Free Survival Time|172.0|||||TWO_SIDED|95.0|85.0|436.0||||||Estimated median survival time||436|85|
82613842|NCT02043301|164944547|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|120.96|||||TWO_SIDED|90.0|101.99|143.45|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||143.45|101.99|
82613843|NCT02043301|164944547|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|94.93|||||TWO_SIDED|90.0|80.2|112.38|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||112.38|80.20|
82613844|NCT02043301|164944548|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|127.65|||||TWO_SIDED|90.0|107.19|152.02|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||152.02|107.19|
82613845|NCT02043301|164944548|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|86.16|||||TWO_SIDED|90.0|72.49|102.4|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||102.40|72.49|
82613846|NCT02043301|164944549|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|129.98|||||TWO_SIDED|90.0|106.76|158.27|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Thigh (Test) versus Abdomen (Reference)||158.27|106.76|
82613847|NCT02043301|164944549|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|100.27|||||TWO_SIDED|90.0|82.54|121.82|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed body weight as a covariate.||Upper Arm (Test) versus Abdomen (Reference)||121.82|82.54|
82613848|NCT02043301|164944554|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.35|||||TWO_SIDED|90.0|84.659|111.943|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||111.943|84.659|
82613849|NCT02043301|164944554|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|103.96|||||TWO_SIDED|90.0|90.405|119.557|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||119.557|90.405|
82613850|NCT02043301|164944555|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.1|||||TWO_SIDED|90.0|86.558|108.926|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||108.926|86.558|
82613851|NCT02043301|164944555|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|93.52|||||TWO_SIDED|90.0|83.359|104.912|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||104.912|83.359|
82613852|NCT02043301|164944556|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|97.1|||||TWO_SIDED|90.0|86.558|108.926|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||108.926|86.558|
82613853|NCT02043301|164944556|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|93.52|||||TWO_SIDED|90.0|83.359|104.912|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||104.912|83.359|
82613854|NCT02043301|164944558|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|102.51|||||TWO_SIDED|90.0|97.555|107.717|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||107.717|97.555|
82613855|NCT02043301|164944558|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|102.02|||||TWO_SIDED|90.0|97.131|107.151|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||107.151|97.131|
82613856|NCT02043301|164944559|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|79.09|||||TWO_SIDED|90.0|60.883|102.735|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||102.735|60.883|
82613857|NCT02043301|164944559|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|91.15|||||TWO_SIDED|90.0|70.269|118.248|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||118.248|70.269|
82613858|NCT02043301|164944560|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|79.09|||||TWO_SIDED|90.0|60.883|102.735|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||102.735|60.883|
82613859|NCT02043301|164944560|SUPERIORITY_OR_OTHER|Ratios (and 90% confidence intervals) were expressed as percentages.|Adjusted Geometric Means Ratio (%)|91.15|||||TWO_SIDED|90.0|70.269|118.248|||ANCOVA|ANCOVA model with treatment group as a fixed effect and log-transformed baseline LDL-C as a covariate.||||118.248|70.269|
82613860|NCT02436577|164944576|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|93.16|||||TWO_SIDED|90.0|85.8|101.15|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.15|85.80|
82613861|NCT02436577|164944576|SUPERIORITY_OR_OTHER||Geometric mean ratio|93.67|||||TWO_SIDED|90.0|87.88|99.84|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.84|87.88|
82613862|NCT02436577|164944576|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.79|||||TWO_SIDED|90.0|88.27|106.14|||ANOVA|||Statistical Assessment of Bioequivalence for metabolite AR-C124910XX Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||106.14|88.27|
82613863|NCT02436577|164944576|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.32|||||TWO_SIDED|90.0|85.04|100.23|||ANOVA|||Statistical Assessment of Bioequivalence for metabolite AR-C124910XX Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||100.23|85.04|
82613864|NCT02436577|164944577|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|97.76|||||TWO_SIDED|90.0|94.46|101.18|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.18|94.46|
82613865|NCT02436577|164944577|SUPERIORITY_OR_OTHER||Geometric Mean ratio|96.38|||||TWO_SIDED|90.0|93.24|99.63|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.63|93.24|
82613866|NCT02436577|164944577|SUPERIORITY_OR_OTHER||Geometric mean ratio|98.43|||||TWO_SIDED|90.0|94.75|102.25|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||102.25|94.75|
82613867|NCT02436577|164944577|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.15|||||TWO_SIDED|90.0|91.59|98.85|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||98.85|91.59|
82613868|NCT02436577|164944578|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|97.75|||||TWO_SIDED|90.0|94.4|101.21|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||101.21|94.40|
82613869|NCT02436577|164944578|SUPERIORITY_OR_OTHER||Geometric mean ratio|96.5|||||TWO_SIDED|90.0|93.31|99.8|||ANOVA|||Statistical Assessment of Bioequivalence for Ticagrelor Following Ticagrelor OD Tablets Compared to Ticagrelor IR Tablets.||99.80|93.31|
82613870|NCT02436577|164944578|SUPERIORITY_OR_OTHER||Geometric mean ratio|98.46|||||TWO_SIDED|90.0|94.85|102.2|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||102.20|94.85|
82613871|NCT02436577|164944578|SUPERIORITY_OR_OTHER||Geometric mean ratio|95.47|||||TWO_SIDED|90.0|91.99|99.08|||ANOVA|||Statistical assessment of metabolite AR-C124910XX relative bioavailability following ticagrelor OD tablets administered compared to ticagrelor IR tablets.||99.08|91.99|
82613872|NCT03650452|164944592|SUPERIORITY||Hodges-Lehmann Estimation|-30.48||||0.0007|TWO_SIDED|95.0|-46.99|-13.19||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed Analysis of Covariance (ANCOVA) adjusting for baseline seizure frequency and indication.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-13.19|-46.99|0.0007
82613873|NCT03650452|164944593|SUPERIORITY||Hodges-Lehmann Estimate|-25.93||||0.0024|TWO_SIDED|95.0|-43.96|-10.69||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency and indication.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-10.69|-43.96|0.0024
82613874|NCT03650452|164944594|SUPERIORITY||Hodges-Lehmann Estimate|-50.0||||0.0001|TWO_SIDED|95.0|-75.03|-25.09||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||-25.09|-75.03|0.0001
82613875|NCT03650452|164944595|SUPERIORITY||Hodges-Lehmann Estimate|-16.22||||0.147|TWO_SIDED|95.0|-39.5|4.49||The p-value is 2-sided and it is for the difference of percent change from baseline between TAK-935 and Placebo were computed using Rank Transformed ANCOVA adjusting for baseline seizure frequency.|Ranked ANCOVA||The location shift (TAK-935 - Placebo) and Asymptotic 95% confidence interval between TAK-935 and Placebo (TAK-935 - Placebo) were based on Hodges-Lehmann Estimation from un-adjusted rank statistics.|||4.49|-39.50|0.1470
82613876|NCT03650452|164944598|SUPERIORITY||Least Square (LS) Mean|0.1|STANDARD_DEVIATION|0.21||0.6829|TWO_SIDED|95.0|-0.32|0.49||The p-value is 2-sided and it is for the difference (TAK-935 - Placebo) of change from baseline between TAK-935 and Placebo was computed using MMRM.|Mixed-Model Repeated Measure (MMRM)||The MMRM model included treatment and visit as factors along with treatment\*visit interaction and baseline score as a covariate; and visit as repeated measure.|||0.49|-0.32|0.6829
82613877|NCT02531373|164944622|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-4.0|||||TWO_SIDED|95.0|-13.5|3.1||||||||3.1|-13.5|
82613878|NCT02531373|164944622|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-6.0|||||TWO_SIDED|95.0|-16.3|1.2||||||||1.2|-16.3|
82613879|NCT02531373|164944622|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-3.9|||||TWO_SIDED|95.0|-13.3|3.2||||||||3.2|-13.3|
82613880|NCT02531373|164944622|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-1.9|||||TWO_SIDED|95.0|-10.2|5.1||||||||5.1|-10.2|
82613881|NCT02531373|164944623|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.2||||||||7.2|-6.9|
82613882|NCT02531373|164944623|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.2||||||||7.2|-6.9|
82613883|NCT02531373|164944623|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|7.1||||||||7.1|-6.9|
82613884|NCT02531373|164944623|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-6.9|6.9||||||||6.9|-6.9|
82613885|NCT02531373|164944624|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|20.3||||0.029|TWO_SIDED|95.0|2.1|37.3|||Miettinen and Nurminen method|||||37.3|2.1|0.029
82613886|NCT02531373|164944624|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|22.3||||0.016|TWO_SIDED|95.0|4.3|39.1|||Miettinen and Nurminen method|||||39.1|4.3|0.016
82613887|NCT02531373|164944624|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|1.1||||0.908|TWO_SIDED|95.0|-17.7|19.9|||Miettinen and Nurminen method|||||19.9|-17.7|0.908
82613888|NCT02531373|164944624|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|23.1||||0.011|TWO_SIDED|95.0|5.4|39.6|||Miettinen and Nurminen method|||||39.6|5.4|0.011
82613889|NCT02531373|164944625|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-0.5||||0.943|TWO_SIDED|95.0|-14.0|12.9|||Miettinen and Nurminen method|||||12.9|-14.0|0.943
82613890|NCT02531373|164944625|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|-2.5||||0.711|TWO_SIDED|95.0|-16.4|11.2|||Miettinen and Nurminen method|||||11.2|-16.4|0.711
82613891|NCT02531373|164944625|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|3.7||||0.529|TWO_SIDED|95.0|-8.7|16.4|||Miettinen and Nurminen method|||||16.4|-8.7|0.529
82613892|NCT02531373|164944625|EQUIVALENCE|Miettinen and Nurminen method|Risk Difference (RD)|5.8||||0.298|TWO_SIDED|95.0|-5.8|18.2|||Miettinen and Nurminen method|||||18.2|-5.8|0.298
82613893|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.61|1.1||||||Serotype 1||1.10|0.61|
82613894|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.77|||||TWO_SIDED|95.0|1.33|2.35||||||Serotype 3||2.35|1.33|
82613895|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.28|||||TWO_SIDED|95.0|0.91|1.81||||||Serotype 4||1.81|0.91|
82613896|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.95|||||TWO_SIDED|95.0|0.59|1.51||||||Serotype 5||1.51|0.59|
82613897|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.5||||||95.0|0.29|0.86||||||Serotype 6A||0.86|0.29|
82613898|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.58|2.1||||||Serotype 6B||2.10|0.58|
82613899|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.75|||||TWO_SIDED|95.0|0.55|1.03||||||Serotype 7F||1.03|0.55|
82613900|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.74|1.75||||||Serotype 9V||1.75|0.74|
82613901|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.86|||||TWO_SIDED|95.0|0.58|1.27||||||Serotype 14||1.27|0.58|
82613902|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.63||||||95.0|0.43|0.92||||||Serotype 18C||0.92|0.43|
82613903|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.9|||||TWO_SIDED|95.0|0.64|1.26||||||Serotype 19A||1.26|0.64|
82613904|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.62|1.11||||||Serotype 19F||1.11|0.62|
82613905|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|81.47|||||TWO_SIDED|95.0|60.51|109.68||||||Serotype 22F (non-Prevnar serotype)||109.68|60.51|
82613906|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.56|1.47||||||Serotype 23F||1.47|0.56|
82613907|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|22.23|||||TWO_SIDED|95.0|11.77|41.97||||||Serotype 33F (non-Prevnar serotype)||41.97|11.77|
82613908|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.68|1.23||||||Serotype 1||1.23|0.68|
82613909|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|2.11|||||TWO_SIDED|95.0|1.6|2.8||||||Serotype 3||2.80|1.60|
82613910|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.82|1.62||||||Serotype 4||1.62|0.82|
82613911|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.83|||||TWO_SIDED|95.0|0.53|1.31||||||Serotype 5||1.31|0.53|
82613912|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.54|||||TWO_SIDED|95.0|0.31|0.92||||||Serotype 6A||0.92|0.31|
82613913|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.8|||||TWO_SIDED|95.0|0.42|1.5||||||Serotype 6B||1.50|0.42|
82613914|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.97|||||TWO_SIDED|95.0|0.71|1.31||||||Serotype 7F||1.31|0.71|
82613915|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.64|1.49||||||Serotype 9V||1.49|0.64|
82613916|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.93|||||TWO_SIDED|95.0|0.63|1.37||||||Serotype 14||1.37|0.63|
82613917|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.79|||||TWO_SIDED|95.0|0.55|1.16||||||Serotype 18C||1.16|0.55|
82613918|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.63|1.22||||||Serotype 19A||1.22|0.63|
82613919|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|1.08|||||TWO_SIDED|95.0|0.81|1.44||||||Serotype 19F||1.44|0.81|
82613920|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|89.87|||||TWO_SIDED|95.0|67.02|120.51||||||Serotype 22F (non-Prevnar serotype)||120.51|67.02|
82613921|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.61|1.57||||||Serotype 23F||1.57|0.61|
82613922|NCT02531373|164944626|EQUIVALENCE|2-sample t-test|Risk Ratio (RR)|18.38|||||TWO_SIDED|95.0|9.82|34.41||||||Serotype 33F (non-Prevnar serotype)||34.41|9.82|
82613923|NCT00623467|164944638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|STANDARD_DEVIATION|0.86|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613924|NCT00623467|164944638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_DEVIATION|0.74|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613925|NCT00623467|164944638|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.53|STANDARD_DEVIATION|0.54|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613926|NCT00623467|164944639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|STANDARD_DEVIATION|0.8|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613927|NCT00623467|164944639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_DEVIATION|0.94|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613928|NCT00623467|164944639|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|STANDARD_DEVIATION|0.74|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613929|NCT00623467|164944640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93|STANDARD_DEVIATION|0.82|<|0.0001||||||for contrast enhancement|paired t-test|||||||<0.0001
82613930|NCT00623467|164944640|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.12|STANDARD_DEVIATION|0.74|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613931|NCT00623467|164944640|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.57|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613932|NCT00623467|164944641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|STANDARD_DEVIATION|0.77|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613933|NCT00623467|164944641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|0.71|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613934|NCT00623467|164944641|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.78|STANDARD_DEVIATION|0.53|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613935|NCT00623467|164944642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|5.31|||||||||||for BR1|||||
82613936|NCT00623467|164944642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_DEVIATION|8.77|||||||||||for BR2|||||
82613937|NCT00623467|164944642|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_DEVIATION|4.2|||||||||||for BR3|||||
82613938|NCT00623467|164944642|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.32|STANDARD_DEVIATION|3.53|||TWO_SIDED|95.0|-0.07|0.704|||95% confidence interval for paired means||confidence interval provided for average reader, lower limit is compared to noninferiority margin|||0.704|-0.070|
82613939|NCT00623467|164944643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.89|STANDARD_DEVIATION|0.68|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
82613940|NCT00623467|164944643|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.74|STANDARD_DEVIATION|0.65|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613941|NCT00623467|164944644|NON_INFERIORITY_OR_EQUIVALENCE|noninferiority margin = -0.35|Mean Difference (Final Values)|0.21|STANDARD_DEVIATION|1.6||||95.0|0.03|0.381|||||lower limit of the confidence interval is compared to the noninferiority margin|||0.381|0.030|
82613942|NCT00623467|164944645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|STANDARD_DEVIATION|1.47|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613943|NCT00623467|164944645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.75|STANDARD_DEVIATION|1.34|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613944|NCT00623467|164944645|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|STANDARD_DEVIATION|1.03|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613945|NCT00623467|164944646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|STANDARD_DEVIATION|1.38|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613946|NCT00623467|164944646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|STANDARD_DEVIATION|1.6|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613947|NCT00623467|164944646|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|STANDARD_DEVIATION|1.25|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613948|NCT00623467|164944647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|STANDARD_DEVIATION|1.39|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613949|NCT00623467|164944647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_DEVIATION|1.3|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613950|NCT00623467|164944647|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.91|STANDARD_DEVIATION|1.02|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613951|NCT00623467|164944648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|STANDARD_DEVIATION|1.32|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613952|NCT00623467|164944648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_DEVIATION|1.27|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613953|NCT00623467|164944648|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77|STANDARD_DEVIATION|0.99|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613954|NCT00623467|164944649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|STANDARD_DEVIATION|0.48|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613955|NCT00623467|164944649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|STANDARD_DEVIATION|0.46|<|0.0001||||||for border delineation|paired t test|||||||<0.0001
82613956|NCT00623467|164944649|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|0.32|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613957|NCT00623467|164944650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|STANDARD_DEVIATION|0.4|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613958|NCT00623467|164944650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.27|STANDARD_DEVIATION|0.38|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613959|NCT00623467|164944650|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|STANDARD_DEVIATION|0.34|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613960|NCT00623467|164944651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21|STANDARD_DEVIATION|0.37|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613961|NCT00623467|164944651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|STANDARD_DEVIATION|0.45|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613962|NCT00623467|164944651|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|STANDARD_DEVIATION|0.3|<|0.0001||||||for internal morphology|paired t test|||||||<0.0001
82613963|NCT00623467|164944652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.32|STANDARD_DEVIATION|0.34|<|0.0001||||||for contrast enhancement|paired t-test|||||||< 0.0001
82613964|NCT00623467|164944652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_DEVIATION|0.3|<|0.0001||||||for border delineation|paired t test|||||||< 0.0001
82613965|NCT00623467|164944652|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_DEVIATION|0.22|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613966|NCT00623467|164944654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|STANDARD_DEVIATION|1.0|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
82613967|NCT00623467|164944654|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.66|STANDARD_DEVIATION|0.9|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613968|NCT00623467|164944655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_DEVIATION|0.63|<|0.0001||||||for border delineation|paired t-test|||||||< 0.0001
82613969|NCT00623467|164944655|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|STANDARD_DEVIATION|0.64|<|0.0001||||||for internal morphology|paired t test|||||||< 0.0001
82613970|NCT00623467|164944656|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.4||||0.0002|||||||McNemar|||||||0.0002
82613971|NCT00623467|164944657|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.3||||0.0001|||||||McNemar|||||||0.0001
82613972|NCT00623467|164944658|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.0285|||||||McNemar|||||||0.0285
82613973|NCT00623467|164944659|SUPERIORITY_OR_OTHER||Risk Difference (RD)|8.5||||0.0004|||||||McNemar|||||||0.0004
82613974|NCT00623467|164944660|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-12.5||||0.0588|||||||McNemar|||||||0.0588
82613975|NCT00623467|164944661|SUPERIORITY_OR_OTHER||Risk Difference (RD)|5.0||||0.0093|||||||McNemar|||||||0.0093
82613976|NCT00623467|164944662|SUPERIORITY_OR_OTHER||Risk Difference (RD)|20.6||||0.0003|||||||McNemar|||||||0.0003
82613977|NCT00623467|164944663|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||1|||||||McNemar|||||||1.0000
82613978|NCT00623467|164944664|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.8||||0.0016|||||||McNemar|||||||0.0016
82613979|NCT00623467|164944665|SUPERIORITY_OR_OTHER||Risk Difference (RD)|7.9||||0.0253|||||||McNemar|||||||0.0253
82613980|NCT00623467|164944666|SUPERIORITY_OR_OTHER||Risk Difference (RD)|2.5||||0.0253|||||||McNemar|||||||0.0253
82613981|NCT00623467|164944667|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44|STANDARD_DEVIATION|0.7|<|0.0001|||||||paired t-test|||||||< 0.0001
82613982|NCT00623467|164944668|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84|STANDARD_DEVIATION|0.81|<|0.0001|||||||paired t-test|||||||< 0.0001
82613983|NCT03691623|164944691|SUPERIORITY||LS Mean Difference|-588.08|||<|0.001|TWO_SIDED|95.0|-719.8|-456.35|||ANCOVA|||||-456.35|-719.8|< 0.001
82613984|NCT03691623|164944691|SUPERIORITY||LS Mean Difference|-564.63|||<|0.001|TWO_SIDED|95.0|-689.23|-440.02|||ANCOVA|||||-440.02|-689.23|< 0.001
82613985|NCT03691623|164944691|SUPERIORITY||LS Mean Difference|-716.08|||<|0.001|TWO_SIDED|95.0|-879.92|-552.24|||ANCOVA|||||-552.24|-879.92|< 0.001
82613986|NCT03691623|164944691|SUPERIORITY||LS Mean Difference|-736.23|||<|0.001|TWO_SIDED|95.0|-916.36|-556.11|||ANCOVA|||||-556.11|-916.36|< 0.001
82613987|NCT03691623|164944692|SUPERIORITY||LS Mean Difference|-355.91|||<|0.001|TWO_SIDED|95.0|-506.12|-205.69|||ANCOVA|||||-205.69|-506.12|< 0.001
82613988|NCT03691623|164944692|SUPERIORITY||LS Mean Difference|-326.64|||<|0.001|TWO_SIDED|95.0|-469.68|-183.6|||ANCOVA|||||-183.6|-469.68|< 0.001
82613989|NCT03691623|164944692|SUPERIORITY||LS Mean Difference|-313.98|||=|0.001|TWO_SIDED|95.0|-494.27|-133.69|||ANCOVA|||||-133.69|-494.27|= 0.001
82613990|NCT03691623|164944692|SUPERIORITY||LS Mean Difference|-312.73|||=|0.003|TWO_SIDED|95.0|-508.05|-117.4|||ANCOVA|||||-117.4|-508.05|= 0.003
82613991|NCT03691623|164944693|SUPERIORITY||LS Mean Difference|-3.7|||<|0.001|TWO_SIDED|95.0|-5.3|-2.0|||ANCOVA|||||-2|-5.3|< 0.001
82613992|NCT03691623|164944693|SUPERIORITY||LS Mean Difference|-3.9|||<|0.001|TWO_SIDED|95.0|-5.5|-2.4|||ANCOVA|||||-2.4|-5.5|< 0.001
82613993|NCT03691623|164944693|SUPERIORITY||LS Mean Difference|-3.0|||=|0.002|TWO_SIDED|95.0|-4.9|-1.2|||ANCOVA|||||-1.2|-4.9|= 0.002
82613994|NCT03691623|164944693|SUPERIORITY||LS Mean Difference|-2.9|||=|0.006|TWO_SIDED|95.0|-4.9|-0.9|||ANCOVA|||||-0.9|-4.9|= 0.006
82613995|NCT03691623|164944695|SUPERIORITY||LS Mean Difference|-0.82|||=|0.199|TWO_SIDED|95.0|-2.09|0.44|||ANCOVA|||||0.44|-2.09|= 0.199
82613996|NCT03691623|164944695|SUPERIORITY||LS Mean Difference|0.22|||=|0.714|TWO_SIDED|95.0|-0.98|1.43|||ANCOVA|||||1.43|-0.98|= 0.714
82613997|NCT03691623|164944695|SUPERIORITY||LS Mean Difference|-0.19|||=|0.844|TWO_SIDED|95.0|-2.15|1.77|||ANCOVA|||||1.77|-2.15|= 0.844
82613998|NCT03691623|164944695|SUPERIORITY||LS Mean Difference|-1.34|||=|0.21|TWO_SIDED|95.0|-3.46|0.79|||ANCOVA|||||0.79|-3.46|= 0.21
82613999|NCT03691623|164944696|SUPERIORITY||LS Mean Difference|-1.01|||=|0.145|TWO_SIDED|95.0|-2.37|0.36|||ANCOVA|||||0.36|-2.37|= 0.145
82614000|NCT03691623|164944696|SUPERIORITY||LS Mean Difference|-0.65|||=|0.352|TWO_SIDED|95.0|-2.03|0.73|||ANCOVA|||||0.73|-2.03|= 0.352
82614001|NCT03691623|164944696|SUPERIORITY||LS Mean Difference|-2.85|||=|0.002|TWO_SIDED|95.0|-4.55|-1.15|||ANCOVA|||||-1.15|-4.55|= 0.002
82614002|NCT03691623|164944696|SUPERIORITY||LS Mean Difference|-3.4|||<|0.001|TWO_SIDED|95.0|-5.19|-1.61|||ANCOVA|||||-1.61|-5.19|< 0.001
82614003|NCT03691623|164944697|SUPERIORITY||LS Mean Difference|-24.081|||<|0.001|TWO_SIDED|95.0|-36.554|-11.607|||ANCOVA|||||-11.607|-36.554|< 0.001
82614004|NCT03691623|164944697|SUPERIORITY||LS Mean Difference|-25.954|||<|0.001|TWO_SIDED|95.0|-37.695|-14.213|||ANCOVA|||||-14.213|-37.695|< 0.001
82614005|NCT03691623|164944697|SUPERIORITY||LS Mean Difference|-18.13|||<|0.001|TWO_SIDED|95.0|-27.176|-9.083|||ANCOVA|||||-9.083|-27.176|< 0.001
82614006|NCT03691623|164944697|SUPERIORITY||LS Mean Difference|-19.329|||<|0.001|TWO_SIDED|95.0|-29.106|-9.552|||ANCOVA|||||-9.552|-29.106|< 0.001
82614007|NCT03691623|164944698|SUPERIORITY||LS Mean Difference|-2.1292|||<|0.001|TWO_SIDED|95.0|-2.8491|-1.4093|||ANCOVA|||||-1.4093|-2.8491|< 0.001
82614008|NCT03691623|164944698|SUPERIORITY||LS Mean Difference|-2.1129|||<|0.001|TWO_SIDED|95.0|-2.7938|-1.4319|||ANCOVA|||||-1.4319|-2.7938|< 0.001
82614009|NCT03691623|164944698|SUPERIORITY||LS Mean Difference|-3.2191|||<|0.001|TWO_SIDED|95.0|-4.1915|-2.2467|||ANCOVA|||||-2.2467|-4.1915|< 0.001
82614010|NCT03691623|164944698|SUPERIORITY||LS Mean Difference|-2.7831|||<|0.001|TWO_SIDED|95.0|-3.8522|-1.714|||ANCOVA|||||-1.714|-3.8522|< 0.001
82614011|NCT03691623|164944699|SUPERIORITY||LS Mean Difference|-2.01|||<|0.001|TWO_SIDED|95.0|-2.67|-1.35|||ANCOVA|||||-1.35|-2.67|< 0.001
82614012|NCT03691623|164944699|SUPERIORITY||LS Mean Difference|-1.78|||<|0.001|TWO_SIDED|95.0|-2.4|-1.16|||ANCOVA|||||-1.16|-2.4|< 0.001
82614013|NCT03691623|164944699|SUPERIORITY||LS Mean Difference|-1.98|||=|0.009|TWO_SIDED|95.0|-3.43|-0.54|||ANCOVA|||||-0.54|-3.43|= 0.009
82614014|NCT03691623|164944699|SUPERIORITY||LS Mean Difference|-2.41|||=|0.004|TWO_SIDED|95.0|-4.0|-0.82|||ANCOVA|||||-0.82|-4|= 0.004
82614015|NCT03691623|164944700|SUPERIORITY||LS Mean Difference|-2.1|||<|0.001|TWO_SIDED|95.0|-3.04|-1.17|||ANCOVA|||||-1.17|-3.04|< 0.001
82614016|NCT03691623|164944700|SUPERIORITY||LS Mean Difference|-2.0|||<|0.001|TWO_SIDED|95.0|-2.89|-1.11|||ANCOVA|||||-1.11|-2.89|< 0.001
82614017|NCT03691623|164944700|SUPERIORITY||LS Mean Difference|-1.97|||<|0.001|TWO_SIDED|95.0|-3.06|-0.89|||ANCOVA|||||-0.89|-3.06|< 0.001
82614018|NCT03691623|164944700|SUPERIORITY||LS Mean Difference|-2.46|||<|0.001|TWO_SIDED|95.0|-3.64|-1.29|||ANCOVA|||||-1.29|-3.64|< 0.001
82614019|NCT03691623|164944701|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
82614020|NCT03691623|164944701|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
82614021|NCT03691623|164944701|SUPERIORITY||||||=|0.001|||||||Log Rank|||||||= 0.001
82614022|NCT03691623|164944701|SUPERIORITY||||||<|0.001|||||||Log Rank|||||||< 0.001
82614023|NCT02606045|164944737|SUPERIORITY||Mean Difference (Final Values)|46.0||||0.039|TWO_SIDED|95.0|2.0|90.0|||Mixed Models Analysis|||||90|2|0.039
82614024|NCT02606045|164944738|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.998|TWO_SIDED|95.0|-0.7|0.7|||Mixed Models Analysis|||||0.7|-0.7|0.998
82614025|NCT02606045|164944739|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.168|TWO_SIDED|95.0|-1.0|5.8|||Mixed Models Analysis|||||5.8|-1.0|0.168
82614026|NCT02606045|164944740|SUPERIORITY||Mean Difference (Final Values)|-2.5||||0.055|TWO_SIDED|95.0|-4.9|0.1|||Mixed Models Analysis|||||0.1|-4.9|0.055
82614027|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.681|TWO_SIDED|95.0|-4.8|3.2|||Mixed Models Analysis|||||3.2|-4.8|0.681
82614028|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.633|TWO_SIDED|95.0|-12.4|7.6|||Mixed Models Analysis|||Role limitations of physical health||7.6|-12.4|0.633
82614029|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.362|TWO_SIDED|95.0|-5.7|15.3|||Mixed Models Analysis|||Role limitations of emotional health||15.3|-5.7|0.362
82614030|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.375|TWO_SIDED|95.0|-7.4|2.8|||Mixed Models Analysis|||Energy/fatigue||2.8|-7.4|0.375
82614031|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.068|TWO_SIDED|95.0|-0.3|7.4|||Mixed Models Analysis|||Emotional well-being||7.4|-0.3|0.068
82614032|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|4.5||||0.189|TWO_SIDED|95.0|-2.3|11.3|||Mixed Models Analysis|||Social functioning||11.3|-2.3|0.189
82614033|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.489|TWO_SIDED|95.0|-9.2|4.5|||Mixed Models Analysis|||Pain||4.5|-9.2|0.489
82614034|NCT02606045|164944741|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.786|TWO_SIDED|95.0|-3.2|4.3|||Mixed Models Analysis|||General Health||4.3|-3.2|0.786
82614035|NCT02606045|164944742|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.098|TWO_SIDED|95.0|-2.3|0.2|||Mixed Models Analysis|||Physically Unhealthy Days||0.2|-2.3|0.098
82614036|NCT02606045|164944742|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.557|TWO_SIDED|95.0|-1.6|3.0|||Mixed Models Analysis|||Mentally Unhealthy Days||3.0|-1.6|0.557
82614037|NCT02606045|164944743|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.266|TWO_SIDED|95.0|0.8|2.7|||Mixed Models Analysis|||Cycle Severity Rating||2.7|0.8|0.266
82614038|NCT01671085|164944748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-50.49|||<|0.001|TWO_SIDED|90.0|-71.27|-29.7||P-value is for Day 43.|Mixed Effects Model Analysis|||||-29.70|-71.27|<0.001
82614039|NCT01671085|164944748|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.11|||<|0.001|TWO_SIDED|90.0|-65.91|-24.31||P-value is for Day 57.|Mixed Effects Models Analysis|||||-24.31|-65.91|<0.001
82614040|NCT00637273|164944749|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.63|STANDARD_ERROR_OF_MEAN|0.131|<|0.0001|TWO_SIDED|95.0|0.37|0.89||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANOVA|Analysis of Variance (ANOVA) model includes treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors.||Null hypothesis: no difference across treatments. Alternative hypothesis: a difference exists between exenatide once weekly and at least one comparator group (sitagliptin or pioglitazone). Power: Assuming 10% dropout, delta=0.5%, and common SD=1.2%, 450 subjects would provide \>90% power to detect a treatment difference (alpha=0.05, two-sided) in the change in HbA1c between exenatide once weekly and sitagliptin or pioglitazone, with Hochberg's multiplicity adjustment method.||0.89|0.37|<.0001
82614041|NCT00637273|164944749|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.32|STANDARD_ERROR_OF_MEAN|0.131||0.0165|TWO_SIDED|95.0|0.06|0.57||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANOVA|Analysis of Variance (ANOVA) model includes treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors.||Null hypothesis: no difference across treatments. Alternative hypothesis: a difference exists between exenatide once weekly and at least one comparator group (sitagliptin or pioglitazone). Power: Assuming 10% dropout, delta=0.5%, and common SD=1.2%, 450 subjects would provide \>90% power to detect a treatment difference (alpha=0.05, two-sided) in the change in HbA1c between exenatide once weekly and sitagliptin or pioglitazone, with Hochberg's multiplicity adjustment method.||0.57|0.06|0.0165
82614042|NCT00637273|164944750|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target of \<7% at Week 26 were compared between treatments using a Cochran Mantel Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||<.0001
82614043|NCT00637273|164944750|SUPERIORITY_OR_OTHER|||||||0.0015|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentage of subjects achieving HbA1c target of \<7% at Week 26 were compared between treatments using a Cochran Mantel Haenszel (CMH) test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0015
82614044|NCT00637273|164944751|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.5% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||<.0001
82614045|NCT00637273|164944751|SUPERIORITY_OR_OTHER|||||||0.012|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.5% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0120
82614046|NCT00637273|164944752|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.0% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.1700
82614047|NCT00637273|164944752|SUPERIORITY_OR_OTHER|||||||0.0091|TWO_SIDED|||||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|Cochran-Mantel-Haenszel|||Analysis: Percentages of subjects achieving HbA1c target of \<=6.0% at Week 26 were compared between treatments using a CMH test, in which baseline HbA1c stratum (\<9% or \>=9%) and country served as stratification factors. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||||0.0091
82614048|NCT00637273|164944753|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.54|STANDARD_ERROR_OF_MEAN|0.416||0.0002|TWO_SIDED|95.0|0.72|2.35||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 26 was analyzed by an analysis of covariance (ANCOVA) model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of body weight as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||2.35|0.72|0.0002
82614049|NCT00637273|164944753|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|5.1|STANDARD_ERROR_OF_MEAN|0.415|<|0.0001|TWO_SIDED|95.0|4.28|5.91||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in body weight from baseline (Day 1) to Week 26 was analyzed by an analysis of covariance (ANCOVA) model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of body weight as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||5.91|4.28|<.0001
82614050|NCT00637273|164944754|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|15.5|STANDARD_ERROR_OF_MEAN|4.95||0.0038|TWO_SIDED|95.0|5.7|25.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 26 was analyzed using an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting plasma glucose as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||25.2|5.7|0.0038
82614051|NCT00637273|164944754|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.4|STANDARD_ERROR_OF_MEAN|4.98||0.3729|TWO_SIDED|95.0|-5.3|14.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting plasma glucose from baseline (Day 1) to Week 26 was analyzed using an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting plasma glucose as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||14.2|-5.3|0.3729
82658693|NCT00048581|165033754|SUPERIORITY_OR_OTHER||Est. of Diff: Day 169 ACR 70|8.7||||0.003|TWO_SIDED|95.0|2.7|14.6|||Cochran-Mantel-Haenszel|All statistical tests and CI were 2-sided. Percentage of participants with response compared by estimate of difference (Est of Weighted Diff)|Differences in ACR response between the two treatment groups represent the weighted average of the individual stratum differences.|If ACR20 comparison was significant (5% level), then CMH Chi-square test compared ACR 70 response between groups (5% level). If the ACR20 analysis was not significant (5% level), then the comparison for ACR 70 response was not undertaken. A 2-sided Cochran-Mantel-Haenszel (CMH) Chi-square test was used to compare these two treatment groups at the .05 level of significance, with stratification based on baseline history of anti-TNF status (current or prior use).||14.6|2.7|0.003
82614052|NCT00637273|164944755|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|1.26||0.0055|TWO_SIDED|95.0|1.3|6.3||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of systolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||6.3|1.3|0.0055
82658694|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 PCS|3.63|||<|0.001|TWO_SIDED|95.0|1.89|5.38|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.38|1.89|<0.001
82614053|NCT00637273|164944755|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|1.25||0.1117|TWO_SIDED|95.0|-0.5|4.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in systolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of systolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||4.5|-0.5|0.1117
82614054|NCT00637273|164944756|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.75||0.1685|TWO_SIDED|95.0|-0.4|2.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of diastolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||2.5|-0.4|0.1685
82614055|NCT00637273|164944756|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.75||0.1685|TWO_SIDED|95.0|-2.6|0.4||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in diastolic blood pressure from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of diastolic blood pressure as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||0.4|-2.6|0.1685
82614056|NCT00637273|164944757|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|3.7|STANDARD_ERROR_OF_MEAN|3.31||0.2686|TWO_SIDED|95.0|-2.8|10.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting total cholesterol from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting total cholesterol as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||10.2|-2.8|0.2686
82614057|NCT00637273|164944757|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.8|STANDARD_ERROR_OF_MEAN|3.3||0.0814|TWO_SIDED|95.0|0.3|13.2||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting total cholesterol from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting total cholesterol as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||13.2|0.3|0.0814
82614058|NCT00637273|164944758|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.8||0.9546|TWO_SIDED|95.0|-1.6|1.5||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting HDL from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting HDL as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||1.5|-1.6|0.9546
82614059|NCT00637273|164944758|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|4.2|STANDARD_ERROR_OF_MEAN|0.79|<|0.0001|TWO_SIDED|95.0|2.6|5.7||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Change in fasting HDL from baseline (Day 1) to Week 26 was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting HDL as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||5.7|2.6|<.0001
82614060|NCT00637273|164944759|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.04||0.9718|TWO_SIDED|95.0|0.93|1.08||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 26 to baseline (Day 1), expressed as the ratio, was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting triglycerides as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||1.08|0.93|0.9718
82614061|NCT00637273|164944759|SUPERIORITY_OR_OTHER||Geometric Least Squares Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.035||0.0062|TWO_SIDED|95.0|0.82|0.96||Adjusted p-value was derived using Hochberg's procedure for multiple treatment comparisons.|ANCOVA|||Analysis: Triglycerides data were logarithm-transformed and the change at Week 26 to baseline (Day 1), expressed as the ratio, was analyzed by an ANCOVA model including treatment, country, and baseline HbA1c stratum (\<9.0% or \>=9.0%) as factors, and baseline value of fasting triglycerides as a covariate. Null hypothesis: no difference across treatments. Power: based on the primary measurement.||0.96|0.82|0.0062
82614062|NCT01345786|164944803|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|137.5||||||90.0|131.0|144.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||144.4|131|
82614063|NCT01345786|164944803|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|111.8||||||90.0|107.5|116.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||116.4|107.5|
82614064|NCT01345786|164944804|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|107.3||||||90.0|99.0|116.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||116.4|99|
82614065|NCT01345786|164944804|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.6||||||90.0|99.2|108.2|||||"Commercial Batch Test / Phase 3 Batch Reference.~In addition to the participants/profiles excluded, 1 participant from the Phase 3 Batch Reference group did not contribute to this comparison."|||108.2|99.2|
82614066|NCT01345786|164944805|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|110.0||||||90.0|106.4|113.7|||||Commercial Batch Test / Phase 3 Batch Reference.|Analysis for AUClast||113.7|106.4|
82614067|NCT01345786|164944805|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.3||||||90.0|100.9|105.7|||||Commercial Batch Test / Phase 3 Batch Reference|Analysis for AUC last||105.7|100.9|
82614068|NCT01345786|164944805|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|108.1||||||90.0|104.7|111.6|||||Commercial Batch Test / Phase 3 Batch Reference.|Analysis for AUC infinity||111.6|104.7|
82614069|NCT01345786|164944805|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|103.1||||||90.0|100.5|105.8|||||Commercial Batch Test / Phase 3 Batch Reference|Analysis for AUC infinity||105.8|100.5|
82614070|NCT01345786|164944806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|101.5||||||90.0|96.7|106.4|||||Commercial Batch Test / Phase 3 Batch Reference.|||106.4|96.7|
82614071|NCT01345786|164944806|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Acceptance criteria of 80 - 125% were used for bioequivalence evaluations (bioequivalence concluded when 90% confidence interval fully contained within acceptance criteria).|Ratio (Test/Ref %)|101.3||||||90.0|98.1|104.7|||||"Commercial Batch Test / Phase 3 Batch Reference.~In addition to the participants/profiles excluded, 1 participant from the Phase 3 Batch Reference group did not contribute to this comparison."|||104.7|98.1|
82614072|NCT04436510|164944813|SUPERIORITY||Disease Rate Ratio|0.98|STANDARD_DEVIATION|0.118|||TWO_SIDED|95.0|0.769|1.237||Posterior probability that the disease rate ratio (DRR) is less than 1 (i.e. verdiperstat slowed progression) was 0.57467. NOTE: p-value is not provided for Bayesian model.|Bayesian shared-parameter model|A Bayesian shared-parameter model of change in disease severity as measured by ALSFRS-R total score and mortality.|"DDR \<1 imply slowing of disease progression by verdiperstat relative to placebo. Note: reported Confidence Interval is actually a Bayesian credible interval."||The model includes covariates for baseline use of edaravone, baseline use of riluzole, months since onset of symptoms, and pre-baseline slope of ALSFRS-R, and random effects for regimen and participant-specific slopes.|1.237|0.769|
82614073|NCT04436510|164944815|SUPERIORITY||Mean Difference (Net)|0.29|STANDARD_ERROR_OF_MEAN|2.054||0.8875|TWO_SIDED|95.0|-3.74|4.32|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Verdiperstat 24-week change from baseline relative to placebo 24-week change from baseline.|||4.32|-3.74|0.8875
82614074|NCT04436510|164944816|SUPERIORITY||Mean Difference (Net)|3.57|STANDARD_ERROR_OF_MEAN|3.848||0.3538|TWO_SIDED|95.0|-3.99|11.13|||Mixed Models Analysis|Covariates include baseline use of edaravone and riluzole, months since symptom onset, and pre-baseline ALSFRS-R slope.|Verdiperstat 24-week change from baseline relative to placebo 24-week change from baseline.|||11.13|-3.99|0.3538
82614075|NCT04436510|164944817|SUPERIORITY|||||||0.318|||||||Log Rank|||||||0.318
82614076|NCT03596177|164944852|SUPERIORITY||Mean Difference (Net)|-2.58||||0.011|TWO_SIDED|90.0|-4.15|-1.0|||ANCOVA|||||-1.00|-4.15|0.011
82614077|NCT03596177|164944853|SUPERIORITY||Mean Difference (Net)|-45.481||||0.002|TWO_SIDED|90.0|-67.777|-23.186|||ANCOVA|||Statistical Analysis for Day 32||-23.186|-67.777|0.002
82614078|NCT03596177|164944853|SUPERIORITY||Mean Difference (Net)|-41.323||||0.011|TWO_SIDED|90.0|-66.74|-15.907|||ANCOVA|||Statistical Analysis for Day 59||-15.907|-66.740|0.011
82614079|NCT03596177|164944854|SUPERIORITY||Mean Difference (Net)|-1551.194|||<|0.001|TWO_SIDED|90.0|-2190.515|-911.873|||ANCOVA|||Statistical Analysis for Day 32||-911.873|-2190.515|<0.001
82614080|NCT03596177|164944854|SUPERIORITY||Mean Difference (Net)|-1332.515||||0.015|TWO_SIDED|90.0|-2187.711|-477.318|||ANCOVA|||Statistical Analysis for Day 59||-477.318|-2187.711|0.015
82658695|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 MCS|2.57||||0.017|TWO_SIDED|95.0|0.47|4.67|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.67|0.47|0.017
82614081|NCT03596177|164944855|SUPERIORITY||Mean Difference (Net)|-3.173||||0.384|TWO_SIDED|90.0|-9.368|3.022|||ANCOVA|||||3.022|-9.368|0.384
82614082|NCT03596177|164944856|SUPERIORITY||Mean Difference (Net)|-10.039||||0.351|TWO_SIDED|90.0|-28.287|8.209|||ANCOVA|||||8.209|-28.287|0.351
82614083|NCT03596177|164944857|SUPERIORITY||Mean Difference (Net)|0.186||||0.968|TWO_SIDED|90.0|-7.858|8.229|||ANCOVA|||||8.229|-7.858|0.968
82614084|NCT03596177|164944858|SUPERIORITY||Mean Difference (Net)|0.867||||0.58|TWO_SIDED|90.0|-1.81|3.545|||ANCOVA|||||3.545|-1.810|0.580
82614085|NCT03596177|164944859|SUPERIORITY||Mean Difference (Net)|-3.645||||0.324|TWO_SIDED|90.0|-9.894|2.603|||ANCOVA|||||2.603|-9.894|0.324
82614086|NCT03596177|164944860|SUPERIORITY||Mean Difference (Net)|-5.672||||0.412|TWO_SIDED|90.0|-17.415|6.072|||ANCOVA|||||6.072|-17.415|0.412
82614087|NCT03596177|164944861|SUPERIORITY||Mean Difference (Net)|7.357||||0.177|TWO_SIDED|90.0|-1.742|16.456|||ANCOVA|||||16.456|-1.742|0.177
82614088|NCT03596177|164944862|SUPERIORITY||Mean Difference (Net)|15.186||||0.168|TWO_SIDED|90.0|-3.151|33.523|||ANCOVA|||||33.523|-3.151|0.168
82614089|NCT03596177|164944863|SUPERIORITY||Mean Difference (Net)|-2.54||||0.009|TWO_SIDED|90.0|-4.05|-1.03|||ANCOVA|||||-1.03|-4.05|0.009
82614090|NCT03596177|164944864|SUPERIORITY||Mean Difference (Net)|-5.122||||0.107|TWO_SIDED|90.0|-10.364|0.119|||ANCOVA|||||0.119|-10.364|0.107
82614091|NCT03596177|164944865|SUPERIORITY||Mean Difference (Net)|-1.848||||0.085|TWO_SIDED|90.0|-3.605|-0.091|||ANCOVA|||||-0.091|-3.605|0.085
82614092|NCT03596177|164944866|SUPERIORITY||Mean Difference (Net)|-3.159||||0.204|TWO_SIDED|90.0|-7.326|1.007|||ANCOVA|||||1.007|-7.326|0.204
82614093|NCT03596177|164944867|SUPERIORITY||Mean Difference (Net)|-0.019||||0.145|TWO_SIDED|90.0|-0.041|0.003|||ANCOVA|||||0.003|-0.041|0.145
82658696|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Physical Function|1.7||||0.052|TWO_SIDED|95.0|-0.01|3.41|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||3.41|-0.01|0.052
82614094|NCT03596177|164944868|SUPERIORITY||Mean Difference (Net)|-26.001||||0.001|TWO_SIDED|90.0|-37.801|-14.201|||ANCOVA|||||-14.201|-37.801|0.001
82614095|NCT03596177|164944869|SUPERIORITY||Mean Difference (Net)|-12.332||||0.01|TWO_SIDED|90.0|-19.726|-4.938|||ANCOVA|||||-4.938|-19.726|0.010
82614096|NCT01301742|164944882|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|158.5|STANDARD_DEVIATION|7.5|||TWO_SIDED|90.0|151.77|165.53|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual geometric coefficient of variation (gCV)|||165.53|151.77|
82614097|NCT01301742|164944883|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|115.0|STANDARD_DEVIATION|13.8|||TWO_SIDED|90.0|106.15|124.59|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual gCV|||124.59|106.15|
82614098|NCT01301742|164944884|NON_INFERIORITY_OR_EQUIVALENCE|Ratio calculated as empa and gemfibrozil divided by empa alone|Geometric Mean Ratio|158.29|STANDARD_DEVIATION|7.7|||TWO_SIDED|90.0|151.41|165.49|||ANOVA|Based on ANOVA with terms for sequence, subjects within sequence, period and treatment.|Standard deviation is actually the intra-individual gCV|||165.49|151.41|
82614099|NCT00337467|164944885|SUPERIORITY_OR_OTHER||Percentage of Participants|21.3|||||TWO_SIDED|95.0|11.9|33.7|||exact binomial methods|Given the small sample size, the 95% confidence interval is made with exact binomial methods.||||33.7|11.9|
82614100|NCT00337467|164944886|SUPERIORITY_OR_OTHER||Percentage of Participants|34.4|||||TWO_SIDED|95.0|22.7|47.7|||exact binomial methods|Given the small sample size, the 95% confidence interval is made with exact binomial methods.||||47.7|22.7|
82614101|NCT00337467|164944891|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|61.0|STANDARD_ERROR_OF_MEAN|24.3|||TWO_SIDED|95.0|12.3|109.8|||normal approximation for 95% CI|||||109.8|12.3|
82614102|NCT00337467|164944892|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|53.0|STANDARD_ERROR_OF_MEAN|30.0|||TWO_SIDED|95.0|-7.1|113.7|||normal approximation for 95% CI|||||113.7|-7.1|
82614103|NCT00337467|164944893|SUPERIORITY_OR_OTHER||Mean Change (Final Values)|63.0|STANDARD_ERROR_OF_MEAN|32.9|||TWO_SIDED|95.0|-4.0|129.1|||normal approximation for 95% CI|||||129.1|-4.0|
82614104|NCT00337467|164944895|SUPERIORITY_OR_OTHER||Mean Change|9.0|STANDARD_ERROR_OF_MEAN|3.0|||TWO_SIDED|95.0|2.5|14.6|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Total Cholesterol at Week 48||14.6|2.5|
82614105|NCT00337467|164944895|SUPERIORITY_OR_OTHER||Mean Change|2.0|STANDARD_ERROR_OF_MEAN|3.1|||TWO_SIDED|95.0|-3.9|8.8|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting HDL Cholesterol at Week 48||8.8|-3.9|
82614106|NCT00337467|164944895|SUPERIORITY_OR_OTHER||Mean Change|12.0|STANDARD_ERROR_OF_MEAN|4.1|||TWO_SIDED|95.0|4.0|20.8|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Non-HDL Cholesterol at Week 48||20.8|4.0|
82614107|NCT00337467|164944895|SUPERIORITY_OR_OTHER||Mean Change|20.0|STANDARD_ERROR_OF_MEAN|5.8|||TWO_SIDED|95.0|8.0|31.7|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting LDL Cholesterol at Week 48||31.7|8.0|
82614108|NCT00337467|164944895|SUPERIORITY_OR_OTHER||Mean Change|17.0|STANDARD_ERROR_OF_MEAN|8.6|||TWO_SIDED|95.0|-0.4|34.4|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Triglycerides at Week 48||34.4|-0.4|
82614109|NCT00337467|164944896|SUPERIORITY_OR_OTHER||Mean Change|14.0|STANDARD_ERROR_OF_MEAN|3.2||||95.0|6.9|20.1|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Total Cholesterol at Week 96||20.1|6.9|
82614110|NCT00337467|164944896|SUPERIORITY_OR_OTHER||Mean Change|2.0|STANDARD_ERROR_OF_MEAN|3.9|||TWO_SIDED|95.0|-6.0|10.2|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting HDL Cholesterol at Week 96||10.2|-6.0|
82614111|NCT00337467|164944896|SUPERIORITY_OR_OTHER||Mean Change|19.0|STANDARD_ERROR_OF_MEAN|4.4|||TWO_SIDED|95.0|10.3|28.4|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Non-HDL Cholesterol at Week 96||28.4|10.3|
82614112|NCT00337467|164944896|SUPERIORITY_OR_OTHER||Mean Change|29.0|STANDARD_ERROR_OF_MEAN|6.5|||TWO_SIDED|95.0|15.3|42.0|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting LDL Cholesterol at Week 96||42.0|15.3|
82614113|NCT00337467|164944896|SUPERIORITY_OR_OTHER||Mean Change|16.0|STANDARD_ERROR_OF_MEAN|12.5|||TWO_SIDED|95.0|-9.5|41.6|||normal approximation for 95% CI|||Percent Change from Baseline in Fasting Triglycerides at Week 96||41.6|-9.5|
82614114|NCT03141086|164944899|SUPERIORITY||Mean Difference (Final Values)|1.711||||0.1272|TWO_SIDED|95.0|-1.34|4.762|||ANOVA|||||4.762|-1.340|0.1272
82614115|NCT03141086|164944900|SUPERIORITY||Mean Difference (Final Values)|2.866||||0.0607|TWO_SIDED|95.0|-0.821|6.553|||Mixed Models Analysis|||3.5 hours post dose||6.553|-0.821|0.0607
82614116|NCT03141086|164944900|SUPERIORITY||Mean Difference (Net)|1.975||||0.0919|TWO_SIDED|95.0|-1.024|4.973|||Mixed Models Analysis|||5.5 hours post dose||4.973|-1.024|0.0919
82614117|NCT03141086|164944900|SUPERIORITY||Mean Difference (Net)|1.576||||0.0811|TWO_SIDED|95.0|-0.697|3.848|||Mixed Models Analysis|||7.5 hours post dose||3.848|-0.697|0.0811
82614118|NCT03141086|164944900|SUPERIORITY||Mean Difference (Net)|0.879||||0.2026|TWO_SIDED|95.0|-1.268|3.026|||Mixed Models Analysis|||9.5 hours post dose||3.026|-1.268|0.2026
82614119|NCT04083222|164944913|SUPERIORITY||||||<|0.001||||||P-value was analyzed using Analysis of Variance (ANOVA) with treatment and screening angiotensin-converting enzyme inhibitor/ angiotensin receptor blockers (ACEi/ARB) dose status stratification factor.|ANOVA|||||||< 0.001
82614120|NCT04083222|164944914|SUPERIORITY|||||||0.399||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.399
82614121|NCT04083222|164944914|SUPERIORITY|||||||0.338||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||0.338
82614122|NCT04083222|164944914|SUPERIORITY|||||||0.207||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||0.207
82614123|NCT04083222|164944914|SUPERIORITY|||||||0.927||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||0.927
82614124|NCT04083222|164944914|SUPERIORITY|||||||0.146||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||0.146
82658697|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Role-Physical|3.01||||0.007|TWO_SIDED|95.0|0.83|5.19|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.19|0.83|0.007
82614125|NCT04083222|164944914|SUPERIORITY|||||||0.055||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||0.055
82614126|NCT04083222|164944914|SUPERIORITY|||||||0.095||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||0.095
82614127|NCT04083222|164944914|SUPERIORITY|||||||0.046||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||0.046
82614128|NCT04083222|164944914|SUPERIORITY|||||||0.246||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 57||||0.246
82614129|NCT04083222|164944914|SUPERIORITY|||||||0.17||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||0.170
82614130|NCT04083222|164944914|SUPERIORITY|||||||0.527||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||0.527
82614131|NCT04083222|164944914|SUPERIORITY|||||||0.167||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||0.167
82614132|NCT04083222|164944914|SUPERIORITY|||||||0.266||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.266
82614133|NCT04083222|164944914|SUPERIORITY|||||||0.078||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.078
82614134|NCT04083222|164944915|SUPERIORITY|||||||0.661||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.661
82614135|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||<0.001
82614136|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||<0.001
82614137|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||<0.001
82614138|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||<0.001
82614139|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||<0.001
82614140|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||<0.001
82614141|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||<0.001
82614142|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 57||||<0.001
82614143|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||<0.001
82614144|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||<0.001
82614145|NCT04083222|164944915|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||<0.001
82614146|NCT04083222|164944915|SUPERIORITY|||||||0.106||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.106
82614147|NCT04083222|164944915|SUPERIORITY|||||||0.318||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.318
82614148|NCT04083222|164944916|SUPERIORITY|||||||0.609||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 3||||0.609
82614149|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 8||||<0.001
82614150|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 15||||<0.001
82658698|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Bodily Pain|5.62|||<|0.001|TWO_SIDED|95.0|3.77|7.47|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.47|3.77|<0.001
82614151|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 22||||<0.001
82614152|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 29||||<0.001
82614153|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 36||||<0.001
82614154|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 43||||<0.001
82614155|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 50||||<0.001
82614156|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 64||||<0.001
82614157|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 78||||<0.001
82614158|NCT04083222|164944916|SUPERIORITY||||||<|0.001||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 92||||<0.001
82658699|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: General Health|2.51||||0.001|TWO_SIDED|95.0|0.99|4.02|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.02|0.99|0.001
82614159|NCT04083222|164944916|SUPERIORITY|||||||0.112||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 120||||0.112
82614160|NCT04083222|164944916|SUPERIORITY|||||||0.371||||||P-value was analyzed using ANOVA with treatment and screening ACE/ARB dose status stratification factor.|ANOVA|||Day 141||||0.371
82614161|NCT04400318|164944917|SUPERIORITY||Odds Ratio (OR)|9.81|||<|0.001|TWO_SIDED|95.0|3.13|30.82|||Cochran-Mantel-Haenszel|||Odds Ratio, 95% confidence interval (CI) of the odds ratio and p-value between the dupilumab and placebo group based on the Cochran-Mantel-Haenszel (CMH) test adjusted by ICS dose level (medium/high) and region (Eastern Europe/ROW).||30.82|3.13|<0.001
82614162|NCT04400318|164944918|SUPERIORITY||Least square mean difference|21.76|STANDARD_ERROR_OF_MEAN|14.022||0.138|TWO_SIDED|95.0|-7.73|51.25|||MMRM|||The mixed model for repeated measures (MMRM) included study intervention, baseline value, region, ICS dose level, visits, study intervention by visit interaction, and baseline by visit interaction terms all as fixed effects. Region, ICS, study intervention and visits were considered as categorical parameters.||51.25|-7.73|0.138
82614163|NCT04400318|164944919|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure is reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only 2 secondary outcome measures (#4 and #5) were included in this procedure.|Least square mean difference|-4.92|STANDARD_ERROR_OF_MEAN|0.798|<|0.001|TWO_SIDED|95.0|-6.5|-3.34|||MMRM|||MMRM model included study intervention (dupilumab, placebo), baseline value of global lung UCSF mucus scoring, region (Eastern Europe/ROW), ICS dose level (medium/high), visit (up to Week 24), study intervention-by-visit interaction and baseline-by-visit interaction as covariates.||-3.34|-6.50|<0.001
82614164|NCT04400318|164944920|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measure is reported and continued when previous outcome measure was statistically significant at two-sided 0.05. Only 2 secondary outcome measures (#4 and #5) were included in this procedure.|Least square mean difference|-53.45|STANDARD_ERROR_OF_MEAN|39.562||0.18|TWO_SIDED|95.0|-132.09|25.19|||MMRM|||MMRM model included study intervention (dupilumab, placebo), baseline value of trimmed distal \[s\]iRaw at TLC, region (Eastern Europe/ROW), ICS dose level (medium/high), visit (up to Week 24), study intervention-by-visit interaction, and baseline-by-visit interaction as covariates.||25.19|-132.09|0.180
82614165|NCT01109004|164944932|SUPERIORITY|||||||0.87||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.87
82614166|NCT01109004|164944932|SUPERIORITY|||||||0.37||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.37
82614167|NCT01109004|164944932|SUPERIORITY|||||||0.27||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.27
82614168|NCT01109004|164944933|SUPERIORITY|||||||0.92||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.92
82614169|NCT01109004|164944933|SUPERIORITY|||||||0.21||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.21
82614170|NCT01109004|164944933|SUPERIORITY|||||||0.22||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with disease progression at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.22
82614171|NCT01109004|164944934|SUPERIORITY|||||||0.26||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.26
82614172|NCT01109004|164944934|SUPERIORITY|||||||0.53||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.53
82614173|NCT01109004|164944934|SUPERIORITY|||||||0.57||||||Two sided testing was performed at a significance level of 0.05|Log Rank|||The null hypothesis is that the percentages of participants with OS at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.57
82614174|NCT01109004|164944935|SUPERIORITY|||||||0.63||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving Tandem auto transplant and RVD consolidation therapy.||||0.63
82614175|NCT01109004|164944935|SUPERIORITY|||||||0.15||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving Tandem auto transplant and Lenalidomide maintenance therapy.||||0.15
82614176|NCT01109004|164944935|SUPERIORITY|||||||0.33||||||Two sided testing was performed at a significance level of 0.05|Gray's test|Death prior to disease progression was treated as a competing risk||The null hypothesis is that the percentages of participants with TRM at 38 months post-randomization are equal for those receiving RVD consolidation and Lenalidomide maintenance therapy.||||0.33
82614177|NCT04657016|164944943|SUPERIORITY||Mean Difference (Net)|-24.5|||<|0.001|TWO_SIDED|95.0|-26.1|-22.8|||Mixed Models Analysis|||||-22.8|-26.1|<0.001
82658700|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Vitality|3.17||||0.001|TWO_SIDED|95.0|1.24|5.1|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.10|1.24|0.001
82614178|NCT04657016|164944944|SUPERIORITY||Odds Ratio (OR)|130.36|||<|0.001|TWO_SIDED|95.0|69.98|242.84|||Regression, Logistic|||||242.84|69.98|<0.001
82614179|NCT04657016|164944945|SUPERIORITY||Odds Ratio (OR)|101.6|||<|0.001|TWO_SIDED|95.0|39.17|263.55|||Regression, Logistic|||||263.55|39.17|<0.001
82614180|NCT04657016|164944946|SUPERIORITY||Odds Ratio (OR)|153.95|||<|0.001|TWO_SIDED|95.0|78.9|300.37|||Regression, Logistic|||||300.37|78.90|<0.001
82614181|NCT04657016|164944947|SUPERIORITY||Odds Ratio (OR)|144.48|||<|0.001|TWO_SIDED|95.0|62.65|333.21|||Regression, Logistic|||||333.21|62.65|<0.001
82614182|NCT04657016|164944948|SUPERIORITY||Odds Ratio (OR)|118.06|||<|0.001|TWO_SIDED|95.0|40.08|347.74|||Regression, Logistic|||||347.74|40.08|<0.001
82614183|NCT04657016|164944949|SUPERIORITY||Mean Difference (Net)|-17.9|||<|0.001|TWO_SIDED|95.0|-19.5|-16.3|||Mixed Models Analysis|||||-16.3|-19.5|<0.001
82614184|NCT04657016|164944950|SUPERIORITY||Mean Difference (Net)|-25.0|||<|0.001|TWO_SIDED|95.0|-26.9|-23.2|||Mixed Models Analysis|||||-23.2|-26.9|<0.001
82614185|NCT04657016|164944951|SUPERIORITY||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-9.6|-8.3|||Mixed Models Analysis|||||-8.3|-9.6|<0.001
82614186|NCT04657016|164944952|SUPERIORITY||Mean Difference (Net)|-10.2|||<|0.001|TWO_SIDED|95.0|-12.2|-8.1|||Mixed Models Analysis|||||-8.1|-12.2|<0.001
82614187|NCT04657016|164944953|SUPERIORITY||Mean Difference (Net)|-5.7|||<|0.001|TWO_SIDED|95.0|-7.2|-4.3|||Mixed Models Analysis|||||-4.3|-7.2|<0.001
82614188|NCT04657016|164944954|SUPERIORITY||Mean Difference (Net)|-7.79|STANDARD_ERROR_OF_MEAN|1.348|<|0.001|TWO_SIDED|95.0|-10.4|-5.1|||Mixed Models Analysis|||||-5.10|-10.40|<0.001
82614189|NCT04657016|164944955|SUPERIORITY||Mean Difference (Net)|11.4|STANDARD_ERROR_OF_MEAN|1.67|<|0.001|TWO_SIDED|95.0|8.2|14.7|||Mixed Models Analysis|||||14.7|8.2|<0.001
82614190|NCT04657016|164944956|SUPERIORITY||Mean Difference (Net)|-11.5|STANDARD_ERROR_OF_MEAN|1.97|<|0.001|TWO_SIDED|95.0|-15.3|-7.53|||Mixed Models Analysis|||||-7.53|-15.30|<0.001
82614191|NCT04657016|164944957|SUPERIORITY||Mean Difference (Net)|-27.8|STANDARD_ERROR_OF_MEAN|2.25|<|0.001|TWO_SIDED|95.0|-32.1|-23.2|||Mixed Models Analysis|||||-23.2|-32.1|<0.001
82614192|NCT04657016|164944958|SUPERIORITY||Mean Difference (Net)|-28.0|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|-32.3|-23.4|||Mixed Models Analysis|||||-23.4|-32.3|<0.001
82614193|NCT04657016|164944959|SUPERIORITY||Mean Difference (Net)|-21.3|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-28.4|-13.6|||Mixed Models Analysis|||||-13.6|-28.4|<0.001
82614194|NCT04657016|164944960|SUPERIORITY||Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-13.5|-8.8|||Mixed Models Analysis|||||-8.8|-13.5|<0.001
82614195|NCT04657016|164944961|SUPERIORITY||Mean Difference (Net)|-0.47|||<|0.001|TWO_SIDED|95.0|-0.53|-0.42|||Mixed Models Analysis|||||-0.42|-0.53|<0.001
82614196|NCT04657016|164944962|SUPERIORITY||Mean Difference (Net)|-48.1|STANDARD_ERROR_OF_MEAN|3.04|<|0.001|TWO_SIDED|95.0|-53.7|-41.7|||Mixed Models Analysis|||||-41.7|-53.7|<0.001
82614197|NCT04657016|164944963|SUPERIORITY||Mean Difference (Net)|3.8|||<|0.001|TWO_SIDED|95.0|2.8|4.9|||ANCOVA|||||4.9|2.8|<0.001
82614198|NCT04657016|164944964|SUPERIORITY||Mean Difference (Net)|12.8|||<|0.001|TWO_SIDED|95.0|9.7|16.0|||ANCOVA|||||16.0|9.7|<0.001
82614199|NCT00701727|164944965|SUPERIORITY_OR_OTHER|||||||0.019|||||||t-test, 2 sided|||||||0.019
82614200|NCT00701727|164944966|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82614201|NCT00701727|164944967|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82614202|NCT00701727|164944968|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||||||0.12
82614203|NCT00701727|164944969|SUPERIORITY_OR_OTHER||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82614204|NCT00701727|164944970|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82614205|NCT00701727|164944971|SUPERIORITY_OR_OTHER|||||||0.95|||||||t-test, 2 sided|||||||0.95
82614206|NCT00738543|164945020|NON_INFERIORITY_OR_EQUIVALENCE|A minimal sample of 20 volunteers was calculated to to find a difference of 200 CFU/mL, with a power of 80% and bilateral error of 5%.|||||<|0.05||||||Post-hoc test of Kruskal-Wallis for multiple comparisons of Z values was used to determine which arm was different.|Kruskal-Wallis|2 degrees of freedom corrected for ties||The null hypothesis established that the three medians were equal. To test significant differences for non-normally distributed data, a range test (Kruskal-Wallis) was used.||||<0.05
82614207|NCT00738543|164945022|NON_INFERIORITY_OR_EQUIVALENCE|The minimal sample of 20 volunteers was calculated to find a difference of 200 CFU/mL.|||||<|0.05||95.0||||Post-hoc test of Kruskal-Wallis for multiple comparisons of Z values was used to determine which arm was different.|Kruskal-Wallis|2 degrees of freedom corrected for ties||The null hypothesis established that the 3 medians were equal. To test significant differences for non-normally distributed data, a range test (Kruskal-Wallis) was used. The alpha level for significance was established at 5%. A minimal sample of 20 volunteers was calculated for a power of 80%, and bilateral error of 5%.||||<0.05
82614208|NCT05137041|164945094|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82614209|NCT05137041|164945096|SUPERIORITY||Least Square Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.17||0.015|TWO_SIDED|95.0|-0.817|-0.137|||ANCOVA|The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).||||-0.137|-0.817|0.015
82614210|NCT05137041|164945097|SUPERIORITY||Least Square Mean Difference|-15.9|STANDARD_ERROR_OF_MEAN|8.47||0.103|TWO_SIDED|95.0|-32.661|0.828||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||0.828|-32.661|0.103
82614211|NCT05137041|164945098|SUPERIORITY||Least Square Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|0.511|1.581||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||1.581|0.511|<0.001
82614212|NCT05137041|164945099|SUPERIORITY||Least Square Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.82||0.121|TWO_SIDED|95.0|-2.976|0.25||The p-value was adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|ANCOVA|||||0.250|-2.976|0.121
82614213|NCT05137041|164945100|SUPERIORITY|||||||0.564||||||The p-value is adjusted using a False Discovery Rate approach (Benjamini-Hochberg).|Log Rank|||||||0.564
82614214|NCT05137041|164945101|SUPERIORITY|||||||0.289|||||||Log Rank|||||||0.289
82614215|NCT05137041|164945102|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||Change from Baseline at Day 1 Evening||||0.001
82614216|NCT05137041|164945102|SUPERIORITY|||||||0.035|||||||Satterthwaite t-test|||Change from Baseline at Day 2 Morning||||0.035
82614217|NCT05137041|164945102|SUPERIORITY|||||||0.004|||||||Satterthwaite t-test|||Change from Baseline at Day 2 Evening||||0.004
82614218|NCT05137041|164945102|SUPERIORITY|||||||0.007|||||||Satterthwaite t-test|||Change from Baseline at Day 3 Morning||||0.007
82614219|NCT05137041|164945102|SUPERIORITY|||||||0.005|||||||Satterthwaite t-test|||Change from Baseline at Day 3 Evening||||0.005
82614220|NCT05137041|164945102|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||Change from Baseline at Day 4 Morning||||0.001
82614221|NCT05137041|164945102|SUPERIORITY|||||||0.007|||||||Satterthwaite t-test|||Change from Baseline at Day 4 Evening||||0.007
82614222|NCT05137041|164945102|SUPERIORITY|||||||0.096|||||||Satterthwaite t-test|||Change from Baseline at Day 5 Morning||||0.096
82614223|NCT05137041|164945102|SUPERIORITY|||||||0.015|||||||Satterthwaite t-test|||Change from Baseline at Day 5||||0.015
82614224|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 1 Evening||||<0.001
82614225|NCT05137041|164945103|SUPERIORITY|||||||0.001|||||||Satterthwaite t-test|||VRS: Day 2 Morning||||0.001
82614226|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 2 Evening||||<0.001
82614227|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 3 Morning||||<0.001
82614228|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 3 Evening||||<0.001
82614229|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 4 Morning||||<0.001
82614230|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 4 Evening||||<0.001
82614231|NCT05137041|164945103|SUPERIORITY|||||||0.024|||||||Satterthwaite t-test|||VRS: Day 5 Morning||||0.024
82614232|NCT05137041|164945103|SUPERIORITY||||||<|0.001|||||||Satterthwaite t-test|||VRS: Day 5||||<0.001
82614233|NCT05137041|164945104|SUPERIORITY||Least Square Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.415|0.903|||ANCOVA|||||0.903|0.415|<0.001
82614234|NCT03470922|164945147|SUPERIORITY||Cox Proportional Hazard|0.75||||0.0055|TWO_SIDED|95.0|0.62|0.92|||Log Rank|Log-rank test stratified by LAG-3 (≥ 1% vs \< 1%), BRAF (mutation positive vs mutation wild-type), AJCC M-stage (M0/M1any\[0\] vs M1any\[1\])||||0.92|0.62|0.0055
82614235|NCT00059215|164945168|SUPERIORITY_OR_OTHER|||||||0.933||95.0|||||Fisher Exact|||||||0.933
82614236|NCT00059215|164945168|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Log Rank|||||||0.590
82614237|NCT00059215|164945169|SUPERIORITY_OR_OTHER|||||||0.945||95.0|||||Fisher Exact|||||||0.945
82614238|NCT00059215|164945169|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Log Rank|||||||0.260
82614239|NCT00059215|164945170|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82614240|NCT00059215|164945170|SUPERIORITY_OR_OTHER|||||||0.544||95.0|||||Log Rank|||||||0.544
82614241|NCT00059215|164945171|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Fisher Exact|||||||0.370
82614242|NCT04985799|164945172|NON_INFERIORITY|For the sample size, a total of 143 participants, or 72 participants per group was needed, based on a 90% effectiveness for both slings 14% non-inferiority margin, 80% power, alpha of 0.05 and a 20% dropout rate.|Risk Difference (RD)|14.8||||0.04|TWO_SIDED|95.0|1.1|28.5|||Chi-squared|||||28.5|1.1|0.04
82614243|NCT04985799|164945173|NON_INFERIORITY|For the sample size, a total of 143 participants, or 72 participants per group was needed, based on a 90% effectiveness for both slings 14% non-inferiority margin, 80% power, alpha of 0.05 and a 20% dropout rate.|Risk Difference (RD)|7.4||||0.29|TWO_SIDED|95.0|-6.2|21.1|||Chi-squared|||||21.1|-6.2|0.29
82614244|NCT04985799|164945175|SUPERIORITY|||||||0.11|||||||Chi-squared|||||||0.11
82614245|NCT03703375|164945185|SUPERIORITY||Hazard Ratio (HR)|0.67||||0.0541|TWO_SIDED|95.0|0.41|1.09|||Stratified Cox|Stratified Cox proportional hazards model||||1.09|0.41|0.0541
82614246|NCT03703375|164945186|SUPERIORITY||Hazard Ratio (HR)|0.56||||0.0166|TWO_SIDED|95.0|0.32|0.96|||Efron|Stratified Cox proportional hazards model||||0.96|0.32|0.0166
82614247|NCT03703375|164945187|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.2139|TWO_SIDED|95.0|0.51|1.33|||Stratified Cox|Stratified Cox proportional hazards model||||1.33|0.51|0.2139
82614248|NCT01984346|164945225|SUPERIORITY||Mean Difference (Net)|16.7||||0.0472|TWO_SIDED|95.0|0.1|33.2||A prior threshold for statistical significance was 0.05|Chi-square test|||||33.2|0.1|0.0472
82614249|NCT00372190|164945249|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82614250|NCT01623531|164945253|SUPERIORITY||Mann-Whitney U test|386.0|STANDARD_ERROR_OF_MEAN|47.5||0.908|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The distributions of cumulative transfusion units did not differ significantly between patients receiving either RiaSTAP (median = 0, IQR = 0-1) or Placebo (median = 0, IQR = 0.1), U = 386, SE = 47.60, p = .908.|Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that the data were not normally distributed, and primary outcomes were zero inflated. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug.||||.908
82614251|NCT01623531|164945254|SUPERIORITY||Mean Difference (Net)|-0.498|STANDARD_ERROR_OF_MEAN|0.239||0.047|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.047
82614252|NCT01623531|164945255|SUPERIORITY||Mean Difference (Net)|-0.004|STANDARD_ERROR_OF_MEAN|0.0116||0.729|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.729
82614253|NCT01623531|164945256|SUPERIORITY||Mean Difference (Net)|-0.321|STANDARD_ERROR_OF_MEAN|3.699||0.93|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|We tested the null hypothesis of no difference in primary and secondary outcomes between groups 24 hours after infusion of the study drug. Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals. For normally distributed data unequal variance t tests were used.||||.93
82614254|NCT01623531|164945257|SUPERIORITY||Mean Difference (Net)|-11.821|STANDARD_ERROR_OF_MEAN|8.471||0.169|TWO_SIDED||||||t-test, 2 sided|Unequal variances assumed.|Unequal variances T-test comparing placebo to RiaSTAP.|||||.169
82614255|NCT01623531|164945258|SUPERIORITY||Mann-Whitney U test|450.5|STANDARD_ERROR_OF_MEAN|54.163||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.035
82614256|NCT01623531|164945259|SUPERIORITY||Mann-Whitney U test|337.5|STANDARD_ERROR_OF_MEAN|51.591||0.794|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.794
82614257|NCT01623531|164945260|SUPERIORITY||Mann-Whitney U test|335.5|STANDARD_ERROR_OF_MEAN|52.957||0.828|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.828
82614258|NCT01623531|164945261|SUPERIORITY||Mann-Whitney U test|396.0|STANDARD_ERROR_OF_MEAN|60.944||0.941|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.941
82614259|NCT01623531|164945262|SUPERIORITY||Mann-Whitney U test|494.5|STANDARD_ERROR_OF_MEAN|60.783||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.09
82614260|NCT01623531|164945263|SUPERIORITY||Mann-Whitney U test|418.5|STANDARD_ERROR_OF_MEAN|60.93||0.658|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.658
82614261|NCT01623531|164945264|SUPERIORITY||Mann-Whitney U test|472.5|STANDARD_ERROR_OF_MEAN|60.727||0.182|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.182
82614262|NCT01623531|164945265|SUPERIORITY||Mann-Whitney U test|428.0|STANDARD_ERROR_OF_MEAN|60.919||0.549|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.549
82614263|NCT01623531|164945266|SUPERIORITY||Mann-Whitney U test|530.5|STANDARD_ERROR_OF_MEAN|60.816||0.022|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||The distribution of FIBTEM MCF (maximum clot firmness) was significantly different between RiaSTAP (median = 27 mm, IQR = 24, 30), and placebo (median = 23 mm, IQR = 22, 27) groups, U-test = 530.5, SE = 60.816, p = .022).|Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that the FIBTEM MCF data was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.022
82614264|NCT01623531|164945267|SUPERIORITY||Mann-Whitney U test|437.0|STANDARD_ERROR_OF_MEAN|60.93||0.455|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.455
82614265|NCT01623531|164945268|SUPERIORITY||Mann-Whitney U test|432.5|STANDARD_ERROR_OF_MEAN|60.819||0.5|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Normality among study outcomes was investigated with Shapiro-Wilk tests, histograms, boxplots, and graphing of residuals, revealing that this variable was not normally distributed. Therefore, we used non-parametric Mann-Whitney U-tests with a 2-sided type I error rate of 5%. We tested the null hypothesis of no difference in secondary outcomes between groups 24 hours after infusion of the study drug.||||.5
82614266|NCT01623531|164945269|SUPERIORITY|||||||1|||||||Fisher Exact|Significance (2-sided) using Fisher's Exact Test.||||||1.0
82614267|NCT04184622|164945275|SUPERIORITY||Least Square (LS) Mean Difference (Net)|-13.5|||<|0.001|TWO_SIDED|95.0|-14.6|-12.5|||Mixed Models Analysis|||||-12.5|-14.6|<0.001
82658701|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Social Functioning|4.69|||<|0.001|TWO_SIDED|95.0|2.59|6.79|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.79|2.59|<0.001
82658702|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Role Emotional|0.97||||0.494|TWO_SIDED|95.0|-1.82|3.77|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||3.77|-1.82|0.494
82614268|NCT04184622|164945275|SUPERIORITY||LS Mean Difference (Net)|-18.9|||<|0.001|TWO_SIDED|95.0|-20.0|-17.8|||Mixed Models Analysis|||||-17.8|-20.0|<0.001
82614269|NCT04184622|164945275|SUPERIORITY||LS Mean Difference (Net)|-20.1|||<|0.001|TWO_SIDED|95.0|-21.2|-19.0|||Mixed Models Analysis|||||-19.0|-21.2|<0.001
82614270|NCT04184622|164945276|SUPERIORITY||Odds Ratio (OR)|23.99|||<|0.001|TWO_SIDED|95.0|17.43|33.02|||Regression, Logistic|||||33.02|17.43|<0.001
82614271|NCT04184622|164945276|SUPERIORITY||Odds Ratio (OR)|73.63|||<|0.001|TWO_SIDED|95.0|46.98|115.39|||Regression, Logistic|||||115.39|46.98|<0.001
82614272|NCT04184622|164945276|SUPERIORITY||Odds Ratio (OR)|75.48|||<|0.001|TWO_SIDED|95.0|47.86|119.03|||Regression, Logistic|||||119.03|47.86|<0.001
82614273|NCT04184622|164945277|SUPERIORITY||LS Mean Difference (Net)|-10.7|||<|0.001|TWO_SIDED|95.0|-11.2|-10.1|||Mixed Models Analysis|||||-10.1|-11.2|<0.001
82614274|NCT04184622|164945278|SUPERIORITY||Odds Ratio (OR)|19.03|||<|0.001|TWO_SIDED|95.0|14.15|25.6|||Regression, Logistic|||||25.60|14.15|<0.001
82614275|NCT04184622|164945278|SUPERIORITY||Odds Ratio (OR)|44.17|||<|0.001|TWO_SIDED|95.0|31.75|61.45|||Regression, Logistic|||||61.45|31.75|<.001
82614276|NCT04184622|164945278|SUPERIORITY||Odds Ratio (OR)|65.64|||<|0.001|TWO_SIDED|95.0|45.94|93.77|||Regression, Logistic|||||93.77|45.94|<.001
82614277|NCT04184622|164945279|SUPERIORITY||Odds Ratio (OR)|17.08|||<|0.001|TWO_SIDED|95.0|11.83|24.66|||Regression, Logistic|||||24.66|11.83|<0.001
82614278|NCT04184622|164945279|SUPERIORITY||Odds Ratio (OR)|51.84|||<|0.001|TWO_SIDED|95.0|35.42|75.88|||Regression, Logistic|||||75.88|35.42|<0.001
82614279|NCT04184622|164945279|SUPERIORITY||Odds Ratio (OR)|66.63|||<|0.001|TWO_SIDED|95.0|45.23|98.16|||Regression, Logistic|||||98.16|45.23|<0.001
82614280|NCT04184622|164945280|SUPERIORITY||Odds Ratio (OR)|36.93|||<|0.001|TWO_SIDED|95.0|18.37|74.22|||Regression, Logistic|||||74.22|18.37|<0.001
82614281|NCT04184622|164945280|SUPERIORITY||Odds Ratio (OR)|109.45|||<|0.001|TWO_SIDED|95.0|54.5|219.81|||Regression, Logistic|||||219.81|54.50|<0.001
82614282|NCT04184622|164945280|SUPERIORITY||Odds Ratio (OR)|150.59|||<|0.001|TWO_SIDED|95.0|74.85|302.97|||Regression, Logistic|||||302.97|74.85|<0.001
82658703|NCT00048581|165033775|SUPERIORITY_OR_OTHER||Adj Diff: Day 85 Mental Health|2.59||||0.009|TWO_SIDED|95.0|0.65|4.54|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.54|0.65|0.009
82658704|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 PCS|5.46|||<|0.001|TWO_SIDED|95.0|3.64|7.29|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.29|3.64|<0.001
82614283|NCT04184622|164945281|SUPERIORITY||LS Mean Difference (Net)|-11.2|||<|0.001|TWO_SIDED|95.0|-12.3|-10.0|||Mixed Models Analysis|||||-10.0|-12.3|<0.001
82614284|NCT04184622|164945281|SUPERIORITY||LS Mean Difference (Net)|-16.0|||<|0.001|TWO_SIDED|95.0|-17.2|-14.9|||Mixed Models Analysis|||||-14.9|-17.2|<0.001
82614285|NCT04184622|164945281|SUPERIORITY||LS Mean Difference (Net)|-16.5|||<|0.001|TWO_SIDED|95.0|-17.7|-15.4|||Mixed Models Analysis|||||-15.4|-17.7|<0.001
82614286|NCT04184622|164945282|SUPERIORITY||LS Mean Difference (Net)|2.3|||<|0.001|TWO_SIDED|95.0|1.6|2.9|||ANCOVA|||||2.9|1.6|<0.001
82614287|NCT04184622|164945283|SUPERIORITY||Estimate Difference|-22.7|||<|0.001|TWO_SIDED|95.0|-25.6|-19.8|||Mixed Models Analysis|||||-19.8|-25.6|<0.001
82614288|NCT04184622|164945284|SUPERIORITY||Estimate Difference|-4.91|||<|0.001|TWO_SIDED|95.0|-6.4|-3.41|||Mixed Models Analysis|||||-3.41|-6.40|<0.001
82658705|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 MCS|3.04||||0.005|TWO_SIDED|95.0|0.91|5.17|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.17|0.91|0.005
82658706|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Physical Function|4.03|||<|0.001|TWO_SIDED|95.0|2.08|5.98|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||5.98|2.08|<0.001
82658707|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Role-Physical|5.22|||<|0.001|TWO_SIDED|95.0|3.1|7.35|||ANCOVA|||||7.35|3.10|<0.001
82614289|NCT04184622|164945285|SUPERIORITY||Estimate Difference|7.65|||<|0.001|TWO_SIDED|95.0|5.85|9.49|||Mixed Models Analysis|||||9.49|5.85|<0.001
82614290|NCT04184622|164945286|SUPERIORITY||LS Mean Difference (Net)|-6.8|||<|0.001|TWO_SIDED|95.0|-7.9|-5.7|||Mixed Models Analysis|||||-5.7|-7.9|<0.001
82614291|NCT04184622|164945287|SUPERIORITY||Estimate Difference|-41.2|||<|0.001|TWO_SIDED|95.0|-44.9|-37.3|||Mixed Models Analysis|||||-37.3|-44.9|<0.001
82614292|NCT04184622|164945288|SUPERIORITY||LS Mean Difference (Net)|-13.2|||<|0.0001|TWO_SIDED|95.0|-15.3|-11.1|||Mixed Models Analysis|||||-11.1|-15.3|<.0001
82614293|NCT04184622|164945288|SUPERIORITY||LS Mean Difference (Net)|-17.7|||<|0.0001|TWO_SIDED|95.0|-19.8|-15.7|||Mixed Models Analysis|||||-15.7|-19.8|<.0001
82614294|NCT04184622|164945288|SUPERIORITY||LS Mean Difference (Net)|-20.7|||<|0.0001|TWO_SIDED|95.0|-22.8|-18.6|||Mixed Models Analysis|||||-18.6|-22.8|<.0001
82614295|NCT04184622|164945289|SUPERIORITY||Hazard Ratio (HR)|0.06|||<|0.0001|TWO_SIDED|95.0|0.03|0.13|||Regression, Cox|||||0.13|0.03|<0.0001
82614296|NCT04184622|164945290|SUPERIORITY||Hazard Ratio (HR)|0.12|||<|0.0001|TWO_SIDED|95.0|0.07|0.21|||Regression, Cox|||||0.21|0.07|<0.0001
82614297|NCT04184622|164945291|SUPERIORITY||LS Mean Difference (Net)|-5.1|||<|0.001|TWO_SIDED|95.0|-5.5|-4.6|||Mixed Models Analysis|||||-4.6|-5.5|<0.001
82614298|NCT04184622|164945291|SUPERIORITY||LS Mean Difference (Net)|-7.2|||<|0.001|TWO_SIDED|95.0|-7.7|-6.8|||Mixed Models Analysis|||||-6.8|-7.7|<0.001
82658708|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Bodily Pain|6.24|||<|0.001|TWO_SIDED|95.0|4.37|8.11|||ANCOVA|||||8.11|4.37|<0.001
82614299|NCT04184622|164945291|SUPERIORITY||LS Mean Difference (Net)|-7.7|||<|0.001|TWO_SIDED|95.0|-8.2|-7.3|||Mixed Models Analysis|||||-7.3|-8.2|<0.001
82614300|NCT04184622|164945292|SUPERIORITY||LS Mean Difference (Net)|-0.33|||<|0.001|TWO_SIDED|95.0|-0.36|-0.3|||Mixed Models Analysis|||||-0.30|-0.36|<0.001
82614301|NCT04184622|164945292|SUPERIORITY||LS Mean Difference (Net)|-0.42|||<|0.001|TWO_SIDED|95.0|-0.45|-0.38|||Mixed Models Analysis|||||-0.38|-0.45|<0.001
82614302|NCT04184622|164945292|SUPERIORITY||LS Mean Difference (Net)|-0.44|||<|0.001|TWO_SIDED|95.0|-0.48|-0.41|||Mixed Models Analysis|||||-0.41|-0.48|<0.001
82614303|NCT04184622|164945293|SUPERIORITY||LS Mean Difference (Net)|-8.59|||<|0.001|TWO_SIDED|95.0|-9.97|-7.2|||Mixed Models Analysis|||||-7.20|-9.97|<0.001
82614304|NCT04184622|164945293|SUPERIORITY||LS Mean Difference (Net)|-10.59|||<|0.001|TWO_SIDED|95.0|-11.98|-9.21|||Mixed Models Analysis|||||-9.21|-11.98|<0.001
82614305|NCT04184622|164945293|SUPERIORITY||LS Mean Difference (Net)|-11.42|||<|0.001|TWO_SIDED|95.0|-12.8|-10.3|||Mixed Models Analysis|||||-10.30|-12.80|<0.001
82614306|NCT04184622|164945294|SUPERIORITY||Estimate Difference|-6.06|||<|0.001|TWO_SIDED|95.0|-8.32|-3.75|||Mixed Models Analysis|||||-3.75|-8.32|<0.001
82614307|NCT04184622|164945295|SUPERIORITY||Estimate Difference|-23.3|||<|0.001|TWO_SIDED|95.0|-26.1|-20.4|||Mixed Models Analysis|||||-20.4|-26.1|<0.001
82614308|NCT04184622|164945296|SUPERIORITY||Estimate Difference|-11.3|||<|0.001|TWO_SIDED|95.0|-16.1|-6.2|||Mixed Models Analysis|||||-6.2|-16.1|<0.001
82614309|NCT04184622|164945297|SUPERIORITY||LS Mean Difference (Net)|-4.2|||<|0.001|TWO_SIDED|95.0|-5.0|-3.5|||Mixed Models Analysis|||||-3.5|-5.0|<0.001
82614310|NCT04184622|164945298|SUPERIORITY||Odds Ratio (OR)|29.79|||<|0.0001|TWO_SIDED|95.0|17.73|50.05|||Regression, Logistic|||||50.05|17.73|<.0001
82614311|NCT04184622|164945298|SUPERIORITY||Odds Ratio (OR)|35.05|||<|0.0001|TWO_SIDED|95.0|20.63|59.53|||Regression, Logistic|||||59.53|20.63|<.0001
82614312|NCT04184622|164945298|SUPERIORITY||Odds Ratio (OR)|55.05|||<|0.0001|TWO_SIDED|95.0|29.61|102.34|||Regression, Logistic|||||102.34|29.61|<.0001
82658709|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 General Health|3.27|||<|0.001|TWO_SIDED|95.0|1.64|4.9|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.90|1.64|<0.001
82658710|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Vitality|4.78|||<|0.001|TWO_SIDED|95.0|2.76|6.79|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.79|2.76|<0.001
82658711|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Social Functioning|4.92|||<|0.001|TWO_SIDED|95.0|2.71|7.12|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||7.12|2.71|<0.001
82658712|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Day 169 Role Emotional|3.54||||0.013|TWO_SIDED|95.0|0.74|6.33|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||6.33|0.74|0.013
82658713|NCT00048581|165033777|SUPERIORITY_OR_OTHER||Adj Diff: Mental Health|2.7||||0.006|TWO_SIDED|95.0|0.79|4.6|||ANCOVA|||Differences in mean changes from baseline between the 2 treatment groups (ABA and PLA) in PCS, MCS, and the 8 subscale scores at Day 85 were compared using ANCOVA models. Adjusted difference (Adj Diff) from PLA group with 95% CIs and p-values were calculated, and adjustment was based on ANCOVA model with treatment group as factor and baseline value as covariate.||4.60|0.79|0.006
82658714|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: HAQ-DI|-0.34|||<|0.001|TWO_SIDED|95.0|-0.44|-0.23|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline = Adj M Chg From BL||-0.23|-0.44|<0.001
82658715|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Dressing and Grooming|-0.32|||<|0.001|TWO_SIDED|95.0|-0.49|-0.14|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg From BL||-0.14|-0.49|<0.001
82658716|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Arising|-0.32|||<|0.001|TWO_SIDED|95.0|-0.47|-0.16|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg From BL||-0.16|-0.47|<0.001
82658717|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Eating|-0.48|||<|0.001|TWO_SIDED|95.0|-0.65|-0.3|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline = Adj M Chg From BL||-0.30|-0.65|<0.001
82658718|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Walking|-0.26||||0.003|TWO_SIDED|95.0|-0.44|-0.09|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.09|-0.44|0.003
82658719|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Hygiene|-0.22||||0.01|TWO_SIDED|95.0|-0.39|-0.05|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.05|-0.39|0.010
82658720|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Reaching|-0.43|||<|0.001|TWO_SIDED|95.0|-0.61|-0.25|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.25|-0.61|<0.001
82658721|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Gripping|-0.32|||<|0.001|TWO_SIDED|95.0|-0.49|-0.15|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.15|-0.49|<0.001
82614313|NCT04184622|164945299|SUPERIORITY||LS Mean Difference (Net)|7.7|||<|0.001|TWO_SIDED|95.0|5.6|9.8|||ANCOVA|||||9.8|5.6|<0.001
82614314|NCT04184622|164945299|SUPERIORITY||LS Mean Difference (Net)|10.7|||<|0.001|TWO_SIDED|95.0|8.6|12.8|||ANCOVA|||||12.8|8.6|<0.001
82614315|NCT04184622|164945299|SUPERIORITY||LS Mean Difference (Net)|11.7|||<|0.001|TWO_SIDED|95.0|9.6|13.8|||ANCOVA|||||13.8|9.6|<0.001
82614316|NCT02795988|164945302|SUPERIORITY||Cox proportional hazard regression model|0.603||||0.078|TWO_SIDED|80.0|0.38|0.957||1-sided p-value was calculated from Log-rank test stratified by factor tumor stage which used for randomization at screening.|Log Rank|||||0.957|0.380|0.078
82614317|NCT04705597|164945315|SUPERIORITY||Odds Ratio (OR)|1.366||||0.3312|TWO_SIDED|95.0|0.728|2.562|||Regression, Logistic|||||2.562|0.728|0.3312
82614318|NCT04705597|164945317|SUPERIORITY||Odds Ratio (OR)|0.574||||0.4561|TWO_SIDED|95.0|0.133|2.475|||Regression, Logistic|||Day 14||2.475|0.133|0.4561
82614319|NCT04705597|164945317|SUPERIORITY||Odds Ratio (OR)|0.521||||0.1559|TWO_SIDED|95.0|0.212|1.282|||Regression, Logistic|||Day 28||1.282|0.212|0.1559
82614320|NCT04705597|164945317|SUPERIORITY||Odds Ratio (OR)|0.498||||0.1293|TWO_SIDED|95.0|0.203|1.226|||Regression, Logistic|||Day 57||1.226|0.203|0.1293
82658722|NCT00048581|165033779|SUPERIORITY_OR_OTHER||Adj M Chg from BL: Activities|-0.4|||<|0.001|TWO_SIDED|95.0|-0.58|-0.22|||ANCOVA|||Mean changes from baseline in HAQ disability index were compared between treatment groups using analysis of covariance (ANCOVA) models and 95% confidence intervals were calculated. This analysis was based on the LOCF data set. Similar analyses were also conducted for each of the 8 individual categories: 1) dressing and grooming; 2) arising; 3) eating; 4) walking; 5) hygiene; 6) reach; 7) grip; and 8) common daily activities. Adjusted Mean Change From Baseline= Adj M Chg from BL||-0.22|-0.58|<0.001
82658723|NCT03966365|165033846|OTHER|||||||0.706|||||||Wilcoxon (Mann-Whitney)|||||||0.706
82658724|NCT03966365|165033847|OTHER|||||||0.622|||||||Wilcoxon (Mann-Whitney)|||||||0.622
82614321|NCT04705597|164945318|SUPERIORITY|||||||0.2687|||||||Log Rank|||Statistical analysis was only performed for Day 28. This is timeframe used for the primary endpoint||||0.2687
82614322|NCT04705597|164945319|SUPERIORITY|||||||0.3977|||||||Log Rank|||||||0.3977
82614323|NCT04705597|164945320|SUPERIORITY|||||||0.2229|||||||Log Rank|||||||0.2229
82614324|NCT04705597|164945321|SUPERIORITY||Odds Ratio (OR)|1.388||||0.2941|TWO_SIDED|95.0|0.752|2.561|||Regression, Logistic|||||2.561|0.752|0.2941
82614325|NCT04705597|164945322|SUPERIORITY|||||||0.3325|||||||Log Rank|||||||0.3325
82614326|NCT04705597|164945323|SUPERIORITY||Mean Difference (Final Values)|0.64||||0.0254|TWO_SIDED|95.0|0.08|1.2||Change at Day 14|ANCOVA|||||1.2|0.08|0.0254
82658725|NCT03966365|165033848|OTHER|||||||0.081|||||||Chi-squared, Corrected|||Green lissamine treatment groups||||0.081
82658726|NCT03966365|165033848|OTHER|||||||0.49|||||||Chi-squared, Corrected|||Fluorescein treatment groups||||0.490
82658727|NCT03966365|165033849|OTHER|||||||0.253|||||||Wilcoxon (Mann-Whitney)|||||||0.253
82658728|NCT03966365|165033850|OTHER|||||||0.031|||||||Chi-squared, Corrected|||||||0.031
82658729|NCT03966365|165033852|OTHER|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||||||0.651
82614327|NCT04705597|164945323|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.1109|TWO_SIDED|95.0|-0.12|1.18|||ANCOVA|||Change at Day 28||1.18|-0.12|0.1109
82614328|NCT04705597|164945323|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.864|TWO_SIDED|95.0|-0.1|0.12|||ANCOVA|||Change at Day 57||0.12|-0.10|0.8640
82614329|NCT04705597|164945324|SUPERIORITY||Odds Ratio (OR)|2.046||||0.0919|TWO_SIDED|95.0|0.89|4.706|||Regression, Logistic|||||4.706|0.89|0.0919
82614330|NCT04705597|164945325|SUPERIORITY||Mean Difference (Final Values)|3.83||||0.749|TWO_SIDED|95.0|-0.42|8.08|||ANCOVA|||||8.08|-0.42|0.749
82614331|NCT04705597|164945326|SUPERIORITY||Mean Difference (Final Values)|3.69||||0.1769|TWO_SIDED|95.0|-1.75|9.13|||ANCOVA|||||9.13|-1.75|0.1769
82614332|NCT04705597|164945327|SUPERIORITY||Odds Ratio (OR)|0.54||||0.2621|TWO_SIDED|95.0|0.184|1.586|||Regression, Logistic|||||1.586|0.184|0.2621
82614333|NCT04705597|164945328|SUPERIORITY||Mean Difference (Final Values)|2.81||||0.2265|TWO_SIDED|95.0|-1.76|7.37|||ANCOVA|||||7.37|-1.76|0.2265
82614334|NCT04705597|164945329|SUPERIORITY||Odds Ratio (OR)|1.223||||0.5497|TWO_SIDED|95.0|0.633|2.364|||Regression, Logistic|||||2.364|0.633|0.5497
82614335|NCT04705597|164945330|SUPERIORITY||Mean Difference (Final Values)|4.89||||0.1172|TWO_SIDED|95.0|-1.27|11.05|||ANCOVA|||||11.05|-1.27|0.1172
82614336|NCT04705597|164945331|SUPERIORITY||Odds Ratio (OR)|0.914||||0.853|TWO_SIDED|95.0|0.353|2.368|||Regression, Logistic|||||2.368|0.353|0.853
82614337|NCT04705597|164945332|SUPERIORITY||Mean Difference (Final Values)|3.16||||0.1991|TWO_SIDED|95.0|-1.86|8.18|||ANCOVA|||||8.18|-1.86|0.1991
82614338|NCT04705597|164945333|SUPERIORITY||Odds Ratio (OR)|4.103||||0.0166|TWO_SIDED|95.0|1.293|13.027|||Regression, Logistic|||||13.027|1.293|0.0166
82614339|NCT04705597|164945334|SUPERIORITY||Mean Difference (Final Values)|4.56||||0.1297|TWO_SIDED|95.0|-1.51|10.64|||ANCOVA|||||10.64|-1.51|0.1297
82614340|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.1916|TWO_SIDED|95.0|-0.35|0.07|||ANCOVA|||Baseline||0.07|-0.35|0.1916
82614341|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.1097|TWO_SIDED|95.0|-0.44|0.05|||ANCOVA|||Treatment Day 2||0.05|-0.44|0.1097
82614342|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0276|TWO_SIDED|95.0|-0.63|-0.04|||ANCOVA|||Treatment Day 3||-0.04|-0.63|0.0276
82614343|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.36||||0.0463|TWO_SIDED|95.0|-0.71|-0.01|||ANCOVA|||Treatment Day 4||-0.01|-0.71|0.0463
82614344|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.0969|TWO_SIDED|95.0|-0.71|0.06|||ANCOVA|||Treatment Day 5||0.06|-0.71|0.0969
82614345|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.4367|TWO_SIDED|95.0|-0.57|0.25|||ANCOVA|||Treatment Day 6||0.25|-0.57|0.4367
82614346|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.6685|TWO_SIDED|95.0|-0.54|0.35|||ANCOVA|||Treatment Day 7||0.35|-0.54|0.6685
82614347|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.28||||0.2287|TWO_SIDED|95.0|-0.73|0.18|||ANCOVA|||Treatment Day 8||0.18|-0.73|0.2287
82614348|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.43||||0.1061|TWO_SIDED|95.0|-0.96|0.09|||ANCOVA|||Treatment Day 9||0.09|-0.96|0.1061
82658730|NCT03567174|165033870|SUPERIORITY||Mean Difference (Net)|-0.306||||0.125|TWO_SIDED|95.0|-0.697|0.085|||Mixed Models Analysis|||||0.085|-0.697|0.125
82614349|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.54||||0.0415|TWO_SIDED|95.0|-1.06|-0.02|||ANCOVA|||Treatment Day 10||-0.02|-1.06|0.0415
82614350|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.1236|TWO_SIDED|95.0|-1.0|0.12|||ANCOVA|||Treatment Day 11||0.12|-1.00|0.1236
82614351|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.71||||0.0097|TWO_SIDED|95.0|-1.23|-0.18|||ANCOVA|||Treatment Day 12||-0.18|-1.23|0.0097
82614352|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.57||||0.0157|TWO_SIDED|95.0|-1.02|-0.11|||ANCOVA|||Treatment Day 13||-0.11|-1.02|0.0157
82614353|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.84||||0.001|TWO_SIDED|95.0|-1.32|-0.36|||ANCOVA|||Treatment Day 14||-0.36|-1.32|0.0010
82614354|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.644|TWO_SIDED|95.0|-0.4|0.25|||ANCOVA|||Time of Discharge Visit||0.25|-0.40|0.6440
82614355|NCT04705597|164945335|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9869|TWO_SIDED|95.0|-0.6|0.59|||ANCOVA|||Follow up Day 28||0.59|-0.60|0.9869
82614356|NCT04705597|164945336|SUPERIORITY||Mean Difference (Final Values)|1.69||||0.2399|TWO_SIDED|95.0|-1.14|4.52|||ANCOVA|||||4.52|-1.14|0.2399
82614357|NCT04705597|164945337|SUPERIORITY||Odds Ratio (OR)|0.869||||0.8081|TWO_SIDED|95.0|0.28|2.695|||Regression, Logistic|||||2.695|0.28|0.8081
82658731|NCT06358820|165033892|SUPERIORITY|\>0.15 g/dL change in albumin from baseline to month 6 was anticipated.|Mean Difference (Final Values)|3.77|||<|0.0125|TWO_SIDED|95.0|3.15|4.39||A 2-sided P value less than 0.05 was considered statistically significant. However, the significance level (α) was adjusted to 0.0125 to account for multiple testing.|ANOVA||The main analysis was based on LOCF for missing value.|Outcome Measure were assessed at baseline and every month during the 6-month study.||4.39|3.15|<0.0125
82614358|NCT04705597|164945338|SUPERIORITY||Odds Ratio (OR)|1.436||||0.3193|TWO_SIDED|95.0|0.704|2.929|||Regression, Logistic|||||2.929|0.704|0.3193
82614359|NCT00390780|164945349|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Expected cure rate: 70% Type I error: 2.5% Type II error: 5%"|comparison of proportion clinical cure|0.15|||>|0.025|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025|one-sided test|||"Analyses for ITT and PP populations:~H0: clinical cure rate for miconazole Lauriad minus clinical cure rate for clotrimazole troches is less than or equal to -0.15 H1: clinical cure rate for miconazole Lauriad minus clinical cure rate for Mycelex troches is greater than -0.15"|||-0.15|>0.025
82614360|NCT00390780|164945350|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Expected cure rate: 70% Type I error: 2.5% Type II error: 5%"|comparison of proportion clinical cure|0.15|||>|0.025|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|one-sided noninferiority test|||"Analysis for ITT and PP populations:~H0: clinical cure rate for miconazole Lauriad minus clinical cure rate for clotrimazole troches is less than or equal to -0.15 H1: clinical cure rate for miconazole Lauriad minus clinical cure rate for Mycelex troches is greater than -0.15"|||-0.15|>0.025
82614361|NCT00390780|164945351|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.0974|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.0974
82614362|NCT00390780|164945351|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|Compare proportion of clinical success|0.15||||0.1115|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.1115
82614363|NCT00390780|164945352|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.8787|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.8787
82614364|NCT00390780|164945352|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of clinical success|0.15||||0.7969|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: clinical success rate for miconazole Lauriad minus clinical success rate for clotrimazole troches is less than or equal to -0.15 H1: clinical success rate for miconazole Lauriad minus clinical success rate for Mycelex troches is greater than -0.15"|||-0.15|0.7969
82614365|NCT00390780|164945353|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of partial response|0.15||||0.882|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for ITT population:~H0: partial response rate for miconazole Lauriad minus partial response rate for clotrimazole troches is less than or equal to -0.15 H1: partial response rate for miconazole Lauriad minus partial response rate for Mycelex troches is greater than -0.15"|||-0.15|0.8820
82658732|NCT06358820|165033893|SUPERIORITY|\>60 mg/L change in prealbumin from baseline to month 6.|Mean Difference (Net)|39.77||||0.0125|TWO_SIDED|95.0|26.66|56.87||A 2-sided P value less than 0.05 was considered statistically significant. However, the significance level (α) was adjusted to 0.0125 to account for multiple testing.|ANOVA||The main analysis was based on LOCF for missing value.|||56.87|26.66|0.0125
82614366|NCT00390780|164945353|NON_INFERIORITY_OR_EQUIVALENCE|"Non inferiority assumptions:~Type of test: one-sided Inferiority margin: -15% Type I error: 2.5% Type II error: 5%"|compare proportion of partial response|0.15||||0.9033|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Cochran-Mantel-Haenszel|||"Analysis for PP population:~H0: partial response rate for miconazole Lauriad minus partial response rate for clotrimazole troches is less than or equal to -0.15 H1: partial response rate for miconazole Lauriad minus partial response rate for Mycelex troches is greater than -0.15"|||-0.15|0.9033
82614367|NCT00390780|164945354|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for ITT population.|difference in proportion mycologic cure|0.15||||0.5816|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Chi-squared||||||-0.15|0.5816
82614368|NCT00390780|164945354|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for PP population|difference in proportion mycologic cure|0.15||||0.4439|ONE_SIDED|95.0|-0.15|||Significance level was \<0.025.|Chi-squared||||||-0.15|0.4439
82614369|NCT00390780|164945355|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for ITT population.|difference in proportion relapsed|0.15||||0.833|ONE_SIDED|95.0|-0.15|||Significance level is \<0.025.|Chi-squared||||||-0.15|0.8330
82614370|NCT00390780|164945355|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority statistical analysis for PP population.|difference in proportion relapsed|0.15||||0.9738|ONE_SIDED|95.0|-0.15|||Significance level is \<0.025.|Chi-squared||||||-0.15|0.9738
82614371|NCT00390780|164945360|SUPERIORITY_OR_OTHER|||||||0.186||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis for Clotrimazole minimum inhibitory concentration (MIC) between treatment groups||||0.1860
82614372|NCT00390780|164945360|SUPERIORITY_OR_OTHER|||||||0.9564||95.0|||||Wilcoxon (Mann-Whitney)|||Analysis for Miconazole minimum inhibitory concentration (MIC) between treatment groups||||0.9564
82614373|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.903||||0.0126|TWO_SIDED|95.0|0.833|0.978|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.978|0.833|0.0126
82614374|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.966||||0.0042|TWO_SIDED|95.0|0.944|0.989|||Regression, Logistic|||The statistical analysis is presented for Body Mass Index (BMI) in kilogram per square meter (kg/m\^2). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.989|0.944|0.0042
82614375|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.732|||<|0.0001|TWO_SIDED|95.0|0.656|0.816|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at Baseline (BL) in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.816|0.656|<0.0001
82658733|NCT01124175|165033908|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|111.95|||||TWO_SIDED|90.0|101.84|123.06|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||123.06|101.84|
82614376|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.686|||<|0.0001|TWO_SIDED|95.0|1.347|2.109|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.109|1.347|<0.0001
82614377|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.103||||0.4759|TWO_SIDED|95.0|0.843|1.442|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.442|0.843|0.4759
82614378|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.656||||0.018|TWO_SIDED|95.0|0.462|0.93|||Regression, Logistic|||The statistical analysis is presented for Alanine transaminase (ALT) ratio at BL (\<=1 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.930|0.462|0.0180
82614379|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.742||||0.0262|TWO_SIDED|95.0|0.57|0.965|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.965|0.570|0.0262
82614380|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.717||||0.0069|TWO_SIDED|95.0|0.563|0.913|||Regression, Logistic|||The statistical analysis is presented for aspartate aminotransferase (AST) ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.913|0.563|0.0069
82614381|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.062|||<|0.0001|TWO_SIDED|95.0|1.056|1.067|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.067|1.056|<0.0001
82614382|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.107||||0.0062|TWO_SIDED|95.0|1.029|1.191|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.191|1.029|0.0062
82492649|NCT01786668|164677998|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.51|STANDARD_ERROR_OF_MEAN|1.66||0.007|TWO_SIDED|95.0|1.23|7.78|||Mixed Models Analysis|Includes fixed effects of treatment group, visit, and treatment-group by-visit interaction and baseline value, using an unstructured covariance matrix||Week 12||7.78|1.23|0.007
82492650|NCT03570697|164677999|SUPERIORITY||Treatment difference|21.2|STANDARD_ERROR_OF_MEAN|7.9||0.015|TWO_SIDED|95.0|4.7|37.7|||ANCOVA|||||37.7|4.7|0.015
82492651|NCT03570697|164678000|SUPERIORITY||Treatment difference|37.47|STANDARD_ERROR_OF_MEAN|17.04||0.041|TWO_SIDED|95.0|1.63|73.31|||ANCOVA|||||73.31|1.63|0.041
82614383|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.739||||0.0295|TWO_SIDED|95.0|0.563|0.97|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.563|0.0295
82614384|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.166|||<|0.0001|TWO_SIDED|95.0|0.083|0.329|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.329|0.083|<0.0001
82614385|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.049||||0.0048|TWO_SIDED|95.0|1.015|1.084|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.084|1.015|0.0048
82614386|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.797||||0.0019|TWO_SIDED|95.0|2.136|28.458|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||28.458|2.136|0.0019
82614387|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.638||||0.0255|TWO_SIDED|95.0|0.431|0.946|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.946|0.431|0.0255
82614388|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.755||||0.0059|TWO_SIDED|95.0|0.618|0.922|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.922|0.618|0.0059
82658734|NCT01124175|165033909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.97|||||TWO_SIDED|90.0|103.61|108.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.39|103.61|
82492652|NCT03570697|164678001|SUPERIORITY||Treatment difference|32.51|STANDARD_ERROR_OF_MEAN|9.52||0.003|TWO_SIDED|95.0|12.67|52.35|||ANCOVA|||||52.35|12.67|0.003
82614389|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.521||||0.0005|TWO_SIDED|95.0|1.501|4.236|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.236|1.501|0.0005
82614390|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.602||||0.0011|TWO_SIDED|95.0|1.463|4.627|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.627|1.463|0.0011
82614391|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.727||||0.0034|TWO_SIDED|95.0|1.198|2.491|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.491|1.198|0.0034
82658735|NCT01124175|165033910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.67|||||TWO_SIDED|90.0|103.32|108.07|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108.07|103.32|
82492653|NCT03570697|164678002|SUPERIORITY||Treatment difference|-26.0|STANDARD_ERROR_OF_MEAN|11.4||0.032|TWO_SIDED|95.0|-49.6|-2.4|||ANCOVA|||||-2.4|-49.6|0.032
82492654|NCT03570697|164678003|SUPERIORITY||Treatment difference|16.0|STANDARD_ERROR_OF_MEAN|7.5||0.036|TWO_SIDED|95.0|1.1|31.0|||ANCOVA|||||31.0|1.1|0.036
82492655|NCT03570697|164678004|SUPERIORITY||Treatment difference|-30.0|STANDARD_ERROR_OF_MEAN|10.4||0.005|TWO_SIDED|95.0|-50.5|-9.5|||ANCOVA|||||-9.5|-50.5|0.005
82492656|NCT03570697|164678005|SUPERIORITY||Treatment difference|-2.43|STANDARD_ERROR_OF_MEAN|0.81||0.003|TWO_SIDED|95.0|-4.04|-0.82|||ANCOVA|||||-0.82|-4.04|0.003
82614392|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.545||||0.0014|TWO_SIDED|95.0|0.376|0.792|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.792|0.376|0.0014
82614393|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.047|||<|0.0001|TWO_SIDED|95.0|1.029|1.065|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.065|1.029|<0.0001
82614394|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.896||||0.0074|TWO_SIDED|95.0|0.827|0.971|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.971|0.827|0.0074
82614395|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.971||||0.0088|TWO_SIDED|95.0|0.95|0.993|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.993|0.950|0.0088
82614396|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.719|||<|0.0001|TWO_SIDED|95.0|0.643|0.803|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.803|0.643|<0.0001
82614397|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.683|||<|0.0001|TWO_SIDED|95.0|1.346|2.106|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.106|1.346|<0.0001
82614398|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.4479|TWO_SIDED|95.0|0.848|1.453|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.453|0.848|0.4479
82614399|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.0123|TWO_SIDED|95.0|0.451|0.908|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.908|0.451|0.0123
82614400|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.72||||0.0147|TWO_SIDED|95.0|0.553|0.937|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.937|0.553|0.0147
82658736|NCT01124175|165033911|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|105.97|||||TWO_SIDED|90.0|101.22|110.93|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||110.93|101.22|
82614401|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.718||||0.0071|TWO_SIDED|95.0|0.564|0.914|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.914|0.564|0.0071
82614402|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.058|||<|0.0001|TWO_SIDED|95.0|1.052|1.064|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.064|1.052|<0.0001
82658737|NCT01124175|165033912|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|103.07|||||TWO_SIDED|90.0|100.9|105.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||105.28|100.90|
82658738|NCT01124175|165033913|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level.|Ratio of the T/R geometric mean x 100|102.36|||||TWO_SIDED|90.0|100.41|104.34|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104.34|100.41|
82658739|NCT02262377|165033954|SUPERIORITY|The ITT analysis was done for 21 week average pain.|Risk Ratio (RR)|1.03||||0.68|TWO_SIDED|95.0|0.92|1.15||Statistical significance was set at p\< 0.05.|Regression, Poisson|||Intention to Treat Analysis for average chronic pain.||1.15|0.92|0.68
82614403|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.014||||0.0019|TWO_SIDED|95.0|1.005|1.023|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.023|1.005|0.0019
82614404|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.701||||0.0083|TWO_SIDED|95.0|0.539|0.913|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.913|0.539|0.0083
82614405|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.174|||<|0.0001|TWO_SIDED|95.0|0.09|0.338|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.338|0.090|<0.0001
82614406|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.057||||0.0008|TWO_SIDED|95.0|1.023|1.091|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.091|1.023|0.0008
82614407|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.638||||0.0255|TWO_SIDED|95.0|0.431|0.946|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.946|0.431|0.0255
82614408|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.755||||0.0059|TWO_SIDED|95.0|0.618|0.922|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.922|0.618|0.0059
82614409|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.521||||0.0005|TWO_SIDED|95.0|1.501|4.236|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.236|1.501|0.0005
82614410|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.602||||0.0011|TWO_SIDED|95.0|1.463|4.627|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||4.627|1.463|0.0011
82614411|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.727||||0.0034|TWO_SIDED|95.0|1.198|2.491|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.491|1.198|0.0034
82658740|NCT02262377|165033954|SUPERIORITY|The ITT analysis was done for 21 week BPI Interference.|Risk Ratio (RR)|0.98||||0.36|TWO_SIDED|95.0|0.88|1.08||Statistical significance was set at p\< 0.05.|Regression, Poisson|||||1.08|0.88|0.36
82614412|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.545||||0.0014|TWO_SIDED|95.0|0.376|0.792|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.792|0.376|0.0014
82614413|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.0042|TWO_SIDED|95.0|0.822|0.964|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.964|0.822|0.0042
82614414|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.824||||0.0363|TWO_SIDED|95.0|0.687|0.988|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.687|0.0363
82614415|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.842||||0.0033|TWO_SIDED|95.0|0.751|0.944|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.944|0.751|0.0033
82658741|NCT02262377|165033954|SUPERIORITY|The ITT analysis was done for 21 week BPI Severity.|Risk Ratio (RR)|1.0||||0.996|TWO_SIDED|95.0|0.86|1.16||Statistical significance was set at p\< 0.05.|Regression, Poisson|||||1.16|0.86|0.996
82658742|NCT02262377|165033955|SUPERIORITY||Risk Ratio (RR)|1.17||||0.054|TWO_SIDED|95.0|0.99|1.37|||Regression, Poisson|||||1.37|0.99|0.054
82658743|NCT02262377|165033956|SUPERIORITY||Risk Ratio (RR)|1.0||||0.98|TWO_SIDED|95.0|0.89|1.13|||Regression, Poisson|||||1.13|0.89|0.98
82658744|NCT02262377|165033957|SUPERIORITY||Odds Ratio (OR)|0.42|||||TWO_SIDED|95.0|0.18|0.98|||Odds Ratio|||||0.98|0.18|
82614416|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.477||||0.0006|TWO_SIDED|95.0|1.183|1.844|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.844|1.183|0.0006
82614417|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.128||||0.381|TWO_SIDED|95.0|0.862|1.477|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.477|0.862|0.3810
82614418|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.812||||0.0279|TWO_SIDED|95.0|0.674|0.978|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.978|0.674|0.0279
82614419|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|45.894|||<|0.0001|TWO_SIDED|95.0|27.972|75.299|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||75.299|27.972|<0.0001
82614420|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|32.176|||<|0.0001|TWO_SIDED|95.0|20.129|51.434|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||51.434|20.129|<0.0001
82614421|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.928|||<|0.0001|TWO_SIDED|95.0|4.291|11.188|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs NO RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.188|4.291|<0.0001
82614422|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.733||||0.0204|TWO_SIDED|95.0|0.564|0.953|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.953|0.564|0.0204
82658745|NCT02262377|165033958|SUPERIORITY||Odds Ratio (OR)|1.01|||||TWO_SIDED|95.0|0.9|1.14|||Odds Ratio|||||1.14|0.90|
82658746|NCT01045096|165033959|SUPERIORITY_OR_OTHER|||||||0.809||90.0|||||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An analysis of variance with covariates (ANCOVA) model with weight as a covariate and regimen as a factor were fitted to Tmax. Pairwise comparisons between regimens were conducted.||||0.809
82658747|NCT01045096|165033960|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.2|||||TWO_SIDED|90.0|0.66|2.183|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||2.183|0.660|
82658748|NCT01045096|165033960|SUPERIORITY_OR_OTHER||Dose proportionality Point Estimate|1.06|||||TWO_SIDED|90.0|0.463|2.427|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||2.427|0.463|
82614423|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.17|||<|0.0001|TWO_SIDED|95.0|0.087|0.331|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.331|0.087|<0.0001
82614424|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.806||||0.001|TWO_SIDED|95.0|1.514|5.201|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs no RVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||5.201|1.514|0.0010
82614425|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.663||||0.0459|TWO_SIDED|95.0|0.443|0.993|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.993|0.443|0.0459
82614426|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.758||||0.0087|TWO_SIDED|95.0|0.616|0.932|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.932|0.616|0.0087
82658749|NCT01045096|165033960|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|0.88|||||TWO_SIDED|90.0|0.493|1.579|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized Cmax. Pairwise comparisons between regimens were conducted.||1.579|0.493|
82658750|NCT01045096|165033961|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.13|||||TWO_SIDED|90.0|0.693|1.848|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||1.848|0.693|
82614427|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.054||||0.0064|TWO_SIDED|95.0|1.224|3.447|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.447|1.224|0.0064
82614428|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.931||||0.0271|TWO_SIDED|95.0|1.077|3.461|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.461|1.077|0.0271
82614429|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.738||||0.0039|TWO_SIDED|95.0|1.194|2.528|||Regression, Logistic|||The statistical analysis is presented for mode of infection (other vs injection drug U). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.528|1.194|0.0039
82614430|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.565||||0.0035|TWO_SIDED|95.0|0.386|0.829|||Regression, Logistic|||The statistical analysis is presented for AST ratio at BL (\> 1.5 vs \<=1.5). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.829|0.386|0.0035
82614431|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.533||||0.0071|TWO_SIDED|95.0|1.593|19.219|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||19.219|1.593|0.0071
82614432|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.964||||0.3042|TWO_SIDED|95.0|0.542|7.114|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||7.114|0.542|0.3042
82614433|NCT01070550|164945367|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.726||||0.41|TWO_SIDED|95.0|0.471|6.318|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs no RVR/EVR). The logistic regression analysis for mSVR was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||6.318|0.471|0.4100
82614434|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.379|||<|0.0001|TWO_SIDED|95.0|1.236|1.538|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.538|1.236|<0.0001
82614435|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.033||||0.0251|TWO_SIDED|95.0|1.004|1.063|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.063|1.004|0.0251
82658751|NCT01045096|165033961|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.15|||||TWO_SIDED|90.0|0.584|2.276|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||2.276|0.584|
82614436|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.585|||<|0.0001|TWO_SIDED|95.0|1.358|1.849|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.849|1.358|<0.0001
82614437|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.501||||0.0317|TWO_SIDED|95.0|1.036|2.174|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\<=1 vs \> 3). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.174|1.036|0.0317
82614438|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.493||||0.0129|TWO_SIDED|95.0|1.089|2.048|||Regression, Logistic|||The statistical analysis is presented for ALT ratio at BL (\> 1 - 3 vs \> 3). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.048|1.089|0.0129
82614439|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.616||||0.0128|TWO_SIDED|95.0|1.107|2.357|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\^9/L at BL (\< 140 vs \>=180). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.357|1.107|0.0128
82614440|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.046||||0.7809|TWO_SIDED|95.0|0.763|1.432|||Regression, Logistic|||The statistical analysis is presented for Platelets x 10\^9/L at BL (\>=140 - \< 180 vs \>=180). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.432|0.763|0.7809
82614441|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.969|||<|0.0001|TWO_SIDED|95.0|0.962|0.976|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.976|0.962|<0.0001
82614442|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.298||||0.0189|TWO_SIDED|95.0|1.273|14.512|||Regression, Logistic|||The statistical analysis is presented for Cumulative PEG-IFN alfa-2a dose per 1000 ug, first 12 weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||14.512|1.273|0.0189
82614443|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.0316|TWO_SIDED|95.0|1.04|2.359|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.359|1.040|0.0316
82614444|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.495||||0.0024|TWO_SIDED|95.0|1.701|11.879|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.879|1.701|0.0024
82492657|NCT05338216|164678027|SUPERIORITY||Mean Difference (Final Values)|19.63||||0.021||95.0|4.37|36.24||Threshold for significance: p \< 0.05. No correction for multiple comparisons performed due to only two tests conducted and exploratory nature of this pilot study.|Wilcoxon (Mann-Whitney)|||Hypothesis: Compliance would be significantly higher for micro-interaction based versus traditional EMA. Null hypothesis: No difference between conditions.||36.24|4.37|0.021
82492658|NCT05338216|164678028|SUPERIORITY||Mean Difference (Final Values)|17.34||||0.027||95.0|0.78|32.77||Threshold for significance: p \< 0.05. No correction for multiple comparisons performed due to only two tests conducted and exploratory nature of this pilot study.|Wilcoxon (Mann-Whitney)|||Hypothesis: Completion would be significantly higher for micro-interaction based versus traditional EMA. Null hypothesis: No difference between conditions.||32.77|0.78|0.027
82492659|NCT04457336|164678034|OTHER|Assessment of dose response for change from baseline in log 17-OHP after 12 weeks on double-blind, placebo-controlled treatment (Week 18). Results were obtained by using a repeated measures random coefficient mixed-effects model and are reported as the -2loglikelihood results for both the full (including interaction terms) and reduced (excluding interaction terms) models.||||||0.8051||||||Dose response p-value|Mixed Models Analysis|The result for the -2loglikelihood full model was -580.2550766 log(ng/dL) and -583.2846546 log(ng/dL) for the reduced model.||||||0.8051
82492660|NCT02284516|164678058|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|7.16|STANDARD_ERROR_OF_MEAN|2.096|=|0.0007|TWO_SIDED|95.0|3.04|11.28||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||||11.28|3.04|=0.0007
82492661|NCT02284516|164678059|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|7.85|STANDARD_ERROR_OF_MEAN|1.792|<|0.0001|TWO_SIDED|95.0|4.33|11.37||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||Baseline and Day 14||11.37|4.33|<0.0001
82492662|NCT02284516|164678059|SUPERIORITY_OR_OTHER_LEGACY||Treatment Effect|9.32|STANDARD_ERROR_OF_MEAN|1.976|<|0.0001|TWO_SIDED|95.0|5.44|13.2||The primary analysis was performed using a stratified 2-sample t-test (that is, analysis of variance \[ANOVA\]).|ANOVA|||Baseline and Day 42||13.20|5.44|<0.0001
82614445|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112||||0.0247|TWO_SIDED|95.0|1.014|1.219|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.219|1.014|0.0247
82614446|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.0258|TWO_SIDED|95.0|1.077|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.077|0.0258
82614447|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.677||||0.0007|TWO_SIDED|95.0|1.243|2.263|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.263|1.243|0.0007
82498984|NCT02289417|164688934|SUPERIORITY||Stratified Difference|16.7||||0.0755|TWO_SIDED|95.0|-1.4|33.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.5|-1.4|0.0755
82614448|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.384||||0.0002|TWO_SIDED|95.0|1.166|1.641|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.641|1.166|0.0002
82614449|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.09||||0.0002|TWO_SIDED|95.0|1.421|3.074|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.074|1.421|0.0002
82614450|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.288||||0.0006|TWO_SIDED|95.0|0.141|0.588|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.588|0.141|0.0006
82614451|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.247||||0.0013|TWO_SIDED|95.0|0.106|0.579|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.579|0.106|0.0013
82614452|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.959||||0.0062|TWO_SIDED|95.0|0.931|0.988|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.988|0.931|0.0062
82614453|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.708||||0.002|TWO_SIDED|95.0|0.568|0.881|||Regression, Logistic|||The statistical analysis is presented for cumulative ribavirin dose per 10000 mg, first 12 weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including cumulative dose of peginterferon and ribavirin up to Week 12), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.881|0.568|0.0020
82614454|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.434|||<|0.0001|TWO_SIDED|95.0|1.288|1.596|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.596|1.288|<0.0001
82658752|NCT01045096|165033961|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.02|||||TWO_SIDED|90.0|0.632|1.642|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-tlqc\]. Pairwise comparisons between regimens were conducted.||1.642|0.632|
82614455|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.475|||<|0.0001|TWO_SIDED|95.0|1.26|1.726|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.726|1.260|<0.0001
82614456|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.963|||<|0.0001|TWO_SIDED|95.0|0.956|0.97|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.970|0.956|<0.0001
82614457|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.195|||<|0.0001|TWO_SIDED|95.0|1.12|1.275|||Regression, Logistic|||The statistical analysis is presented for cumulative PEG-IFN alfa-2a dose per 1000 ug. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.275|1.120|<0.0001
82614458|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.567||||0.0316|TWO_SIDED|95.0|1.04|2.359|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.359|1.040|0.0316
82614459|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.495||||0.0024|TWO_SIDED|95.0|1.701|11.879|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||11.879|1.701|0.0024
82658753|NCT01045096|165033962|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.06|||||TWO_SIDED|90.0|0.692|1.636|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||1.636|0.692|
82614460|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.112||||0.0247|TWO_SIDED|95.0|1.014|1.219|||Regression, Logistic|||The statistical analysis is presented for BMI in kg/m\^2. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.219|1.014|0.0247
82614461|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.844||||0.0258|TWO_SIDED|95.0|1.077|3.158|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.158|1.077|0.0258
82614462|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.66||||0.0009|TWO_SIDED|95.0|1.232|2.235|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.235|1.232|0.0009
82614463|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.255||||0.0045|TWO_SIDED|95.0|1.073|1.467|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.467|1.073|0.0045
82614464|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.086||||0.0001|TWO_SIDED|95.0|1.434|3.034|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10 (IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.034|1.434|0.0001
82614465|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.318||||0.001|TWO_SIDED|95.0|0.16|0.63|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.630|0.160|0.0010
82614466|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.275||||0.0021|TWO_SIDED|95.0|0.121|0.626|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missing vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.626|0.121|0.0021
82614467|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.962||||0.0064|TWO_SIDED|95.0|0.935|0.989|||Regression, Logistic|||The statistical analysis is presented for treatment duration after VR in weeks. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between treatment exposure and baseline factors available in at least 90% of participants (including total cumulative dose of peginterferon and ribavirin), in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.989|0.935|0.0064
82614468|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.391|||<|0.0001|TWO_SIDED|95.0|1.245|1.553|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.553|1.245|<0.0001
82658754|NCT01045096|165033962|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.26|||||TWO_SIDED|90.0|0.691|2.314|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||2.314|0.691|
82614469|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.295||||0.0029|TWO_SIDED|95.0|1.092|1.535|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.535|1.092|0.0029
82614470|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.109|||<|0.0001|TWO_SIDED|95.0|0.05|0.236|||Regression, Logistic|||The statistical analysis is presented for On-treatment response (RVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.236|0.050|<0.0001
82614471|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.0014|TWO_SIDED|95.0|0.159|0.645|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (cEVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.645|0.159|0.0014
82614472|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.248||||0.539|TWO_SIDED|95.0|0.616|2.528|||Regression, Logistic|||The statistical analysis is presented for on-treatment response (pEVR vs no RVR/EVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.528|0.616|0.5390
82614473|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.604||||0.0223|TWO_SIDED|95.0|1.069|2.405|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.405|1.069|0.0223
82614474|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.444||||0.0056|TWO_SIDED|95.0|1.547|12.766|||Regression, Logistic|||The statistical analysis is presented for sex (male vs female). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||12.766|1.547|0.0056
82614475|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.403||||0.0267|TWO_SIDED|95.0|1.04|1.892|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.892|1.040|0.0267
82614476|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.226||||0.0018|TWO_SIDED|95.0|0.089|0.575|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs no RVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.575|0.089|0.0018
82614477|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.529||||0.0083|TWO_SIDED|95.0|1.116|2.097|||Regression, Logistic|||The statistical analysis is presented for age per 10 years. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||2.097|1.116|0.0083
82614478|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.285||||0.0028|TWO_SIDED|95.0|1.09|1.515|||Regression, Logistic|||The statistical analysis is presented for weight per 10 kg. The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||1.515|1.090|0.0028
82614479|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.061||||0.0002|TWO_SIDED|95.0|1.401|3.032|||Regression, Logistic|||The statistical analysis is presented for HCV RNA at BL in log10(IU/mL). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||3.032|1.401|0.0002
82614480|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.327||||0.0019|TWO_SIDED|95.0|0.162|0.662|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (no cirrhosis vs cirrhosis). The logistic regression analysis for relapse 24 Weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.662|0.162|0.0019
82614481|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.32||||0.0086|TWO_SIDED|95.0|0.137|0.749|||Regression, Logistic|||The statistical analysis is presented for liver fibrosis (not assessed/missed vs cirrhosis). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.749|0.137|0.0086
82658755|NCT01045096|165033962|SUPERIORITY_OR_OTHER||Dose Proportionality Point Estimate|1.19|||||TWO_SIDED|95.0|0.777|1.817|||ANCOVA|||Sample size of 12 participants per dose group, along with the intense PK sampling in each regimen was needed for characterization of the PK profile. An ANCOVA model with weight as a covariate and regimen as a factor were fitted to dose-normalized AUC\[0-24\]. Pairwise comparisons between regimens were conducted.||1.817|0.777|
82614482|NCT01070550|164945383|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.247|||<|0.0001|TWO_SIDED|95.0|0.138|0.441|||Regression, Logistic|||The statistical analysis is presented for on-treatment response, combined (RVR vs NO RVR). The logistic regression analysis for relapse 24 weeks after EOT was performed for association between on-treatment response and baseline factors available in at least 90% of participants, in naive HCV mono-infected mTRT participants receiving PEG-IFN alfa-2a.||0.441|0.138|<0.0001
82614483|NCT03480282|164945409|OTHER|Because the observations were matched by the patient, we used the Wilcoxon signed-rank test, a nonparametric paired test|Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||This was a descriptive feasibility study.|This was an exploratory and descriptive study to learn if it was feasible to provide PCPs with their patients (aged 76-89) with information about their 10-year prognosis and engage in shared decision making around stopping screening. We measured among the 90 patients that the 45 PCPs saw whether their intentions to be screened declined after seeing their PCP.|This was a descriptive feasibility study.|||<0.001
82614484|NCT03480282|164945409|OTHER|This was a descriptive feasibility study.|Risk Difference (RD)|0.05|||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||This was a descriptive feasibility study.|Because the observations were matched by the patient, we used the Wilcoxon signed-rank test, a nonparametric paired test|||<0.001
82614485|NCT00109733|164945415|SUPERIORITY_OR_OTHER|||||||0.177|||||||ANOVA|||"The null hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.177
82614486|NCT00109733|164945415|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||"The null hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.004
82614487|NCT00109733|164945416|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANOVA|||"The null hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.004
82614488|NCT00109733|164945416|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||"The null hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in lean body mass (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||<0.001
82614489|NCT00109733|164945417|SUPERIORITY_OR_OTHER|||||||0.653|||||||ANOVA|||"The null hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.653
82614490|NCT00109733|164945417|SUPERIORITY_OR_OTHER|||||||0.002|||||||ANOVA|||"The null hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in total body fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.002
82614491|NCT00109733|164945418|SUPERIORITY_OR_OTHER|||||||0.755|||||||ANOVA|||"The null hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.755
82614492|NCT00109733|164945418|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANOVA|||"The null hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in limb fat (kg) from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||<0.001
82614493|NCT00109733|164945419|SUPERIORITY_OR_OTHER|||||||0.041|||||||ANOVA|||"The null hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.041
82614494|NCT00109733|164945419|SUPERIORITY_OR_OTHER|||||||0.044|||||||ANOVA|||"The null hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group = 0) was tested against the alternative hypothesis (% change in trunk to limb fat ratio from baseline to Wk24 within the treatment group ≠0).~P-Values for testing this hypothesis for each treatment group are from an analysis of variance (ANOVA) model on ranked data with effects for treatment group, gender and their interaction."||||0.044
82614495|NCT02759146|164945439|SUPERIORITY||Difference between least squared means|0.09||||0.72|TWO_SIDED|95.0|-0.36|0.52||Adjusted for baseline and balancing factors used in the randomization|Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||.52|-.36|.72
82614496|NCT02759146|164945439|SUPERIORITY||Difference between least squared means|-0.15||||0.58|TWO_SIDED|95.0|-0.72|0.41|||Mixed Models Analysis||Difference between reflexology and control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||.41|-.72|.58
82614497|NCT02759146|164945439|SUPERIORITY||Difference between least squared means|-0.24||||0.42|TWO_SIDED|95.0|-0.81|0.34|||Mixed Models Analysis||Difference between meditative practice and control for weeks 1-4|Aim 1: Comparing meditative practices vs control for weeks 1-4||.34|-.81|.42
82614498|NCT02759146|164945440|SUPERIORITY||Difference between least squared means|-0.01||||0.96|TWO_SIDED|95.0|-0.44|0.42|||Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||0.42|-0.44|0.96
82614499|NCT02759146|164945440|SUPERIORITY||Difference between least squared means|-0.2||||0.48|TWO_SIDED|95.0|-0.75|0.35|||Mixed Models Analysis||Difference between reflexology and control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||0.35|-0.75|0.48
82614500|NCT02759146|164945440|SUPERIORITY||Difference between least squared means|-0.19||||0.52|TWO_SIDED|95.0|-0.75|0.38|||Mixed Models Analysis||Difference between meditative practice and control for weeks 1-4|Aim 1: Comparing meditative practice vs control for weeks 1-4||0.38|-0.75|0.52
82614501|NCT02759146|164945441|SUPERIORITY||Difference between least squared means|0.67||||0.68|TWO_SIDED|95.0|-2.52|3.86|||Mixed Models Analysis||Comparing reflexology to meditative practices for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||3.86|-2.52|.68
82614502|NCT02759146|164945441|SUPERIORITY||Difference between least squared means|-2.53||||0.23|TWO_SIDED|95.0|-6.64|1.58|||Mixed Models Analysis||Comparing reflexology to control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||1.58|-6.64|.23
82658756|NCT03497897|165033978|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|Posterior geometric mean ratio|0.93|||||TWO_SIDED|90.0|0.64|1.34|||Bayesian analysis|Bayesian mixed effect model with repeated measures|90% credible intervals are reported on the geometric means ratio|||1.34|0.64|
82658757|NCT03497897|165033978|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|P(Geometric Mean Ratio<1)|0.637|||||||||||Bayesian analysis|Bayesian mixed effect model with repeated measures|Posterior probability on geometric mean ratio is reported.|||||
82614503|NCT02759146|164945441|SUPERIORITY||Difference between least squared means|-3.2||||0.14|TWO_SIDED|95.0|-7.41|1.01|||Mixed Models Analysis||Comparing meditative practice to control for weeks 1-4|Aim 1: Comparing meditative practice vs control for weeks 1-4||1.01|-7.41|0.14
82614504|NCT02759146|164945442|SUPERIORITY||Difference between least squared means|0.01||||0.98|TWO_SIDED|95.0|-0.38|0.39|||Mixed Models Analysis||Difference between reflexology and meditative practice for weeks 1-4|Aim 1: Comparing reflexology vs meditative practice for weeks 1-4||0.39|-0.38|0.98
82614505|NCT02759146|164945442|SUPERIORITY||Difference between least squared means|-0.24||||0.34|TWO_SIDED|95.0|-0.74|0.25|||Mixed Models Analysis||Comparing reflexology to control for weeks 1-4|Aim 1: Comparing reflexology vs control for weeks 1-4||0.25|-0.74|0.34
82614506|NCT02759146|164945442|SUPERIORITY||Difference between least squared means|-0.25||||0.34|TWO_SIDED|95.0|-0.76|0.26|||Mixed Models Analysis||Comparing meditative practices vs control for weeks 1-4|Aim 1: Comparing meditative practices vs control for weeks 1-4||0.26|-0.76|0.34
82614507|NCT02759146|164945443|SUPERIORITY||Difference between least squared means|0.25||||0.57|TWO_SIDED|95.0|-0.63|1.14|||Mixed Models Analysis||After the initial 4 weeks of reflexology, comparing continued reflexology to added meditative practice|Aim 2: After 4 weeks of reflexology, comparing continuing reflexology vs adding meditative practice||1.14|-.63|0.57
82614508|NCT02759146|164945443|SUPERIORITY||Least Square (LS) Mean|0.49||||0.39|TWO_SIDED|95.0|-0.64|1.63|||Mixed Models Analysis||After the initial 4 weeks of meditative practices, comparing continuing meditative practice to adding reflexology|Aim 3: After 4 weeks of meditative practice, comparing continuing with meditative practice vs. adding reflexology for weeks 5-12||1.63|-0.64|0.39
82614509|NCT02759146|164945444|SUPERIORITY||Least Square (LS) Mean|1.94||||0.67|TWO_SIDED|95.0|-10.93|7.04|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs adding meditative practice|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12||7.04|-10.93|0.67
82614510|NCT02759146|164945444|SUPERIORITY||Least Square (LS) Mean|-1.85||||0.66|TWO_SIDED|95.0|-6.59|10.29|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs adding reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practices, comparing continued meditative practice vs adding reflexology for weeks 5-12||10.29|-6.59|0.66
82614511|NCT02759146|164945445|SUPERIORITY||Difference between least squared means|-0.19||||0.62|TWO_SIDED|95.0|-0.95|0.57|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12||0.57|-0.95|0.62
82614512|NCT02759146|164945445|SUPERIORITY||Least Square (LS) Mean|-0.04||||0.95|TWO_SIDED|95.0|-1.15|1.22|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs adding reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practice, comparing continuing meditative practice vs adding reflexology for weeks 5-12||1.22|-1.15|0.95
82614513|NCT02759146|164945446|SUPERIORITY||Difference between least squared means|-0.14||||0.77|TWO_SIDED|95.0|-1.04|0.77|||Mixed Models Analysis||After 4 weeks of reflexology, comparing continued reflexology vs added meditative practice for weeks 5-12|Aim 2: After 4 weeks of reflexology, comparing continued reflexology vs adding meditative practice for weeks 5-12||0.77|-1.04|0.77
82614514|NCT02759146|164945446|SUPERIORITY||Least Square (LS) Mean|0.22||||0.67|TWO_SIDED|95.0|-1.23|0.8|||Mixed Models Analysis||After 4 weeks of meditative practice, comparing continued meditative practice vs added reflexology for weeks 5-12|Aim 3: After 4 weeks of meditative practice, comparing continued meditative practice vs added reflexology for weeks 5-12||0.80|-1.23|0.67
82498985|NCT02289417|164688934|SUPERIORITY||Stratified Difference|19.8||||0.037|TWO_SIDED|95.0|1.5|36.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||36.4|1.5|0.0370
82614515|NCT02759146|164945447|SUPERIORITY||Least Square (LS) Mean|0.09||||0.42|TWO_SIDED|95.0|-0.88|0.37|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.37|-0.88|0.42
82614516|NCT02759146|164945447|SUPERIORITY||Least Square (LS) Mean|-0.34||||0.29|TWO_SIDED|95.0|-0.98|0.29|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practices vs control for weeks 5-12||0.29|-0.98|0.29
82614517|NCT02759146|164945448|SUPERIORITY||Least Square (LS) Mean|-0.42||||0.15|TWO_SIDED|95.0|-1.0|0.15|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.15|-1.00|0.15
82614518|NCT02759146|164945448|SUPERIORITY||Least Square (LS) Mean|-0.2||||0.5|TWO_SIDED|95.0|-0.8|0.39|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practice vs control for weeks 5-12||0.39|-0.80|0.50
82614519|NCT02759146|164945449|SUPERIORITY||Least Square (LS) Mean|-0.27||||0.33|TWO_SIDED|95.0|-0.83|0.28|||Mixed Models Analysis||Comparing reflexology vs control for week 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||0.28|-0.83|0.33
82614520|NCT02759146|164945449|SUPERIORITY||Least Square (LS) Mean|-0.36||||0.22|TWO_SIDED|95.0|-0.93|0.21|||Mixed Models Analysis|||Aim 4: Comparing meditative practice vs control for weeks 5-12||0.21|-0.93|0.22
82614521|NCT02759146|164945450|SUPERIORITY||Least Square (LS) Mean|0.92||||0.17|TWO_SIDED|95.0|-8.62|1.52|||Mixed Models Analysis||Comparing reflexology vs control for weeks 5-12|Aim 4: Comparing reflexology vs control for weeks 5-12||1.52|-8.62|0.17
82614522|NCT02759146|164945450|SUPERIORITY||Least Square (LS) Mean|-4.48||||0.09|TWO_SIDED|95.0|-9.66|0.7|||Mixed Models Analysis||Comparing meditative practice vs control for weeks 5-12|Aim 4: Comparing meditative practice vs control for weeks 5-12||0.70|-9.66|0.09
82614523|NCT00069576|164945465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.87||||0.14|TWO_SIDED|97.0|0.72|1.07|||Chi-squared|||For Total Composite End Point||1.07|0.72|0.14
82614524|NCT00069576|164945465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.75|TWO_SIDED|97.0|0.73|1.53|||Chi-squared|||Analysis for Hypoglycemia||1.53|0.73|0.75
82614525|NCT00069576|164945465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.74||||0.12|TWO_SIDED|97.0|0.49|1.12|||Chi-squared|||Analysis for hyperbilirubinemia||1.12|0.49|0.12
82614526|NCT00069576|164945465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.78||||0.07|TWO_SIDED|97.0|0.57|1.05|||Chi-squared|||Analysis for elevated cord-blood C-peptide level||1.05|0.57|0.07
82614527|NCT00069576|164945465|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.48||||0.33|TWO_SIDED|97.0|0.1|2.2|||Chi-squared|||Analysis for birth trauma||2.20|0.10|0.33
82614528|NCT00069576|164945466|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.68|1.28||||||||1.28|0.68|
82614529|NCT00069576|164945467|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.49|||<|0.001|TWO_SIDED|97.0|0.32|0.76|||Chi-squared|||||0.76|0.32|<0.001
82614530|NCT00069576|164945468|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||<|0.001|TWO_SIDED|97.0|0.26|0.66|||Chi-squared|||||0.66|0.26|<0.001
82614531|NCT00069576|164945469|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||0.27|TWO_SIDED|97.0|0.53|1.23|||Chi-squared|||||1.23|0.53|0.27
82614532|NCT00069576|164945470|SUPERIORITY_OR_OTHER|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82614533|NCT00069576|164945471|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.18||||0.49|TWO_SIDED|97.0|0.7|1.99|||Chi-squared|||||1.99|0.70|0.49
82614534|NCT00069576|164945472|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82614535|NCT00069576|164945473|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.19|TWO_SIDED|97.0|0.51|1.18|||Chi-squared|||||1.18|0.51|0.19
82614536|NCT00069576|164945474|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.77||||0.32|TWO_SIDED|97.0|0.44|1.36|||Chi-squared|||||1.36|0.44|0.32
82614537|NCT00069576|164945475|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.66||||0.33|TWO_SIDED|97.0|0.26|1.67|||Chi-squared|||||1.67|0.26|0.33
82614538|NCT00069576|164945476|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.02||||0.86|TWO_SIDED|97.0|0.81|1.29|||Chi-squared|||||1.29|0.81|0.86
82614539|NCT00069576|164945477|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.79||||0.02|TWO_SIDED|97.0|0.64|0.99|||Chi-squared|||||0.99|0.64|0.02
82614540|NCT00069576|164945478|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.02|TWO_SIDED|97.0|0.14|0.97|||Chi-squared|||||0.97|0.14|0.02
82614541|NCT00069576|164945479|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.46||||0.02|TWO_SIDED|97.0|0.22|0.97|||Chi-squared|||||0.97|0.22|0.02
82614542|NCT00069576|164945480|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.63||||0.01|TWO_SIDED|97.0|0.42|0.96|||Chi-squared|||||0.96|0.42|0.01
82614543|NCT00069576|164945481|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82614544|NCT00069576|164945482|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82614545|NCT00069576|164945483|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.71|1.1||||||||1.10|0.71|
82614546|NCT00069576|164945484|SUPERIORITY||Risk Ratio (RR)|1.05|||||TWO_SIDED|95.0|0.65|1.69||||||||1.69|0.65|
82614547|NCT00069576|164945485|SUPERIORITY||Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.74|2.05||||||||2.05|0.74|
82614548|NCT00069576|164945486|SUPERIORITY||Risk Ratio (RR)|0.76|||||TWO_SIDED|95.0|0.36|1.62||||||||1.62|0.36|
82614549|NCT00069576|164945487|SUPERIORITY_OR_OTHER|||||||0.87|||||||Wilcoxon (Mann-Whitney)|||||||0.87
82614550|NCT00905307|164945495|SUPERIORITY_OR_OTHER||Treatment difference|-4.7||||0.2846|TWO_SIDED|95.0|-10.2|0.82||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.82|-10.2|0.2846
82614551|NCT00905307|164945495|SUPERIORITY_OR_OTHER||Treatment difference|-1.44||||0.6066|TWO_SIDED|95.0|-6.96|4.07||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||4.07|-6.96|0.6066
82614552|NCT00905307|164945495|SUPERIORITY_OR_OTHER||Treatment difference|-3.86||||0.3293|TWO_SIDED|95.0|-9.32|1.59||The Hochberg procedure using two-sided alpha of 0.05 was applied to control the type I error rate at 0.05 level (two-sided) due to multiple comparisons.|ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.59|-9.32|0.3293
82614553|NCT00905307|164945495|SUPERIORITY_OR_OTHER||Treatment difference|4.62||||0.2263|TWO_SIDED|95.0|-2.89|12.12|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||12.12|-2.89|0.2263
82614554|NCT00905307|164945495|SUPERIORITY_OR_OTHER||Treatment difference|-3.64||||0.3074|TWO_SIDED|95.0|-10.7|3.38|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||||3.38|-10.7|0.3074
82614555|NCT00905307|164945496|SUPERIORITY_OR_OTHER||Treatment difference|1.61||||0.1807|TWO_SIDED|95.0|-0.75|3.97|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||3.97|-0.75|0.1807
82614556|NCT00905307|164945496|SUPERIORITY_OR_OTHER||Treatment difference|-1.41||||0.1313|TWO_SIDED|95.0|-3.24|0.42|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.42|-3.24|0.1313
82614557|NCT00905307|164945496|SUPERIORITY_OR_OTHER||Treatment difference|-0.13||||0.8879|TWO_SIDED|95.0|-1.96|1.69|||ANCOVA|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.69|-1.96|0.8879
82614558|NCT00905307|164945496|SUPERIORITY_OR_OTHER||Treatment difference|-1.24||||0.1764|TWO_SIDED|95.0|-3.05|0.56|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.56|-3.05|0.1764
82614559|NCT00905307|164945496|SUPERIORITY_OR_OTHER||Treatment difference|-1.79||||0.1111|TWO_SIDED|95.0|-4.0|0.42|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS positive subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.42|-4.00|0.1111
82614560|NCT00905307|164945497|SUPERIORITY_OR_OTHER||Treatment difference|1.0||||0.2896|TWO_SIDED|95.0|-0.86|2.86|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||2.86|-0.86|0.2896
82614561|NCT00905307|164945497|SUPERIORITY_OR_OTHER||Treatment difference|-0.61||||0.3701|TWO_SIDED|95.0|-1.94|0.72|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.72|-1.94|0.3701
82614562|NCT00905307|164945497|SUPERIORITY_OR_OTHER||Treatment difference|-0.35||||0.6074|TWO_SIDED|95.0|-1.69|0.99|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.99|-1.69|0.6074
82614563|NCT00905307|164945497|SUPERIORITY_OR_OTHER||Treatment difference|-0.73||||0.2777|TWO_SIDED|95.0|-2.05|0.59|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.59|-2.05|0.2777
82614564|NCT00905307|164945497|SUPERIORITY_OR_OTHER||Treatment difference|-0.15||||0.8611|TWO_SIDED|95.0|-1.9|1.59|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS negative subscale score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.59|-1.90|0.8611
82614565|NCT00905307|164945498|SUPERIORITY_OR_OTHER||Treatment difference|-2.36||||0.3726|TWO_SIDED|95.0|-7.57|2.85|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PSP score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||2.85|-7.57|0.3726
82614566|NCT00905307|164945498|SUPERIORITY_OR_OTHER||Treatment difference|3.8||||0.0664|TWO_SIDED|95.0|-0.26|7.85|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PSP score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||7.85|-0.26|0.0664
82614567|NCT00905307|164945498|SUPERIORITY_OR_OTHER||Treatment difference|2.2||||0.2944|TWO_SIDED|95.0|-1.92|6.32|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||6.32|-1.92|0.2944
82614568|NCT00905307|164945498|SUPERIORITY_OR_OTHER||Treatment difference|3.86||||0.0596|TWO_SIDED|95.0|-0.16|7.89|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||7.89|-0.16|0.0596
82614569|NCT00905307|164945498|SUPERIORITY_OR_OTHER||Treatment difference|3.25||||0.1819|TWO_SIDED|95.0|-1.53|8.03|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||8.03|-1.53|0.1819
82658758|NCT03497897|165033978|OTHER|The effects included in the model are: log transformed baseline inflammatory facial lesion count, treatment group, visit, treatment group by visit interaction, log transformed baseline inflammatory facial lesion count by visit interaction and type of center.|P(Geometric Mean Ratio<0.75)|0.171|||||||||||Bayesian analysis|Bayesian mixed effect model with repeated measures|Posterior probability on geometric mean ratio is reported.|||||
82614570|NCT00905307|164945499|SUPERIORITY_OR_OTHER||Treatment difference|0.38||||0.0685|TWO_SIDED|95.0|-0.03|0.79|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in CGI-S score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.79|-0.03|0.0685
82614571|NCT00905307|164945499|SUPERIORITY_OR_OTHER||Treatment difference|-0.28||||0.0989|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.05|-0.60|0.0989
82614572|NCT00905307|164945499|SUPERIORITY_OR_OTHER||Treatment difference|-0.04||||0.8006|TWO_SIDED|95.0|-0.37|0.28|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||0.28|-0.37|0.8006
82614573|NCT00905307|164945499|SUPERIORITY_OR_OTHER||Treatment difference|-0.28||||0.0898|TWO_SIDED|95.0|-0.6|0.04|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.04|-0.60|0.0898
82614574|NCT00905307|164945499|SUPERIORITY_OR_OTHER||Treatment difference|-0.21||||0.2851|TWO_SIDED|95.0|-0.59|0.18|||ANCOVA|With treatment and trial center as main effects, and baseline value as covariate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||0.18|-0.59|0.2851
82614575|NCT00905307|164945500|SUPERIORITY_OR_OTHER|||||||0.4008|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||||0.4008
82614576|NCT00905307|164945500|SUPERIORITY_OR_OTHER|||||||0.1117|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||||0.1117
82614577|NCT00905307|164945500|SUPERIORITY_OR_OTHER|||||||0.2739|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.2739
82614578|NCT00905307|164945500|SUPERIORITY_OR_OTHER|||||||0.1045|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.1045
82614579|NCT00905307|164945500|SUPERIORITY_OR_OTHER|||||||0.1149|||||||Cochran-Mantel-Haenszel|The CMH row mean scores differ test controlling for study center was applied to mean CGI-I score||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||||0.1149
82614580|NCT00905307|164945501|SUPERIORITY_OR_OTHER||Relative Risk|0.89||||0.62|TWO_SIDED|95.0|0.57|1.4|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.40|0.57|0.6200
82614581|NCT00905307|164945501|SUPERIORITY_OR_OTHER||Relative Risk|1.19||||0.1501|TWO_SIDED|95.0|0.95|1.48|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.48|0.95|0.1501
82614582|NCT00905307|164945501|SUPERIORITY_OR_OTHER||Relative Risk|0.91||||0.5271|TWO_SIDED|95.0|0.66|1.25|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.25|0.66|0.5271
82658759|NCT00723528|165033981|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Fisher's exact test (using Holm's method)|Fisher Exact|||||||<0.0001
82658760|NCT00723528|165033982|SUPERIORITY_OR_OTHER||||||<|0.0001||||||2-sample t-test (using Holm's method)|t-test, 2 sided|||||||<0.0001
82658761|NCT00723528|165033992|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Fisher's exact test (using Holm's method)|Fisher Exact|||||||<0.0001
82614583|NCT00905307|164945501|SUPERIORITY_OR_OTHER||Relative Risk|1.02||||0.867|TWO_SIDED|95.0|0.78|1.34|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.34|0.78|0.8670
82614584|NCT00905307|164945501|SUPERIORITY_OR_OTHER||Relative Risk|1.15||||0.3892|TWO_SIDED|95.0|0.85|1.56|||Cochran-Mantel-Haenszel|CMH general association test controlling for study center will be applied to the analysis of response rate||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.56|0.85|0.3892
82614585|NCT00905307|164945502|SUPERIORITY_OR_OTHER||Relative risk|1.06||||0.854|TWO_SIDED|95.0|0.59|1.88||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.88|0.59|0.8540
82614586|NCT00905307|164945502|SUPERIORITY_OR_OTHER||Relative Risk|0.82||||0.4492|TWO_SIDED|95.0|0.49|1.38||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test||1.38|0.49|0.4492
82614587|NCT00905307|164945502|SUPERIORITY_OR_OTHER||Relative Risk|0.67||||0.1854|TWO_SIDED|95.0|0.36|1.23||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.23|0.36|0.1854
82614588|NCT00905307|164945502|SUPERIORITY_OR_OTHER||Relative Risk|0.61||||0.0946|TWO_SIDED|95.0|0.33|1.1||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.10|0.33|0.0946
82614589|NCT00905307|164945502|SUPERIORITY_OR_OTHER||Relative Risk|0.63||||0.2133||95.0|0.3|1.34||Derived using CMH test stratified by trial center.|Cochran-Mantel-Haenszel|||Sample size was determined to achieve at least 80% power at alpha level of 0.0167 (two-sided) to detect a difference of -11.5 points in the mean change from baseline in PANSS Total Score at week 6 (LOCF) between an individual OPC-34712 treatment group (except the 0.25 mg QD fixed dose group) and placebo using a two-sided z-test.||1.34|0.30|0.2133
82614590|NCT03015610|164945529|SUPERIORITY|||||||0.8716|||||||Wilcoxon (Mann-Whitney)|||||||0.8716
82614591|NCT03015610|164945530|SUPERIORITY|||||||0.2471|||||||Wilcoxon (Mann-Whitney)|||||||0.2471
82614592|NCT03015610|164945531|SUPERIORITY|||||||0.039|||||||Wilcoxon (Mann-Whitney)|||||||0.039
82614593|NCT03015610|164945532|SUPERIORITY|||||||0.2765|||||||Wilcoxon (Mann-Whitney)|||||||0.2765
82614594|NCT03015610|164945533|SUPERIORITY||Risk Ratio (RR)|2.32||||0.191|TWO_SIDED|95.0|0.66|8.2|||Negative binomial regression|||||8.20|0.66|0.191
82614595|NCT03015610|164945534|SUPERIORITY||Risk Ratio (RR)|0.53||||0.0435|TWO_SIDED|95.0|0.29|0.98|||Negative binomial regression|||||0.98|0.29|0.0435
82614596|NCT03015610|164945535|SUPERIORITY|||||||0.3808|||||||Wilcoxon (Mann-Whitney)|||||||0.3808
82614597|NCT01729598|164945564|SUPERIORITY|||||||0.55|||||||t-test, 2 sided|||||||0.55
82614598|NCT01729598|164945565|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|||||||0.19
82614599|NCT01729598|164945566|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||0.02
82614600|NCT01729598|164945567|SUPERIORITY|||||||0.31|||||||t-test, 2 sided|||||||0.31
82614601|NCT01905397|164945568|SUPERIORITY||Difference in proportions|0.05||||0.27|ONE_SIDED||||||t-test, 1 sided|||||||0.27
82614602|NCT00872833|164945584|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Chi-squared|||||||<.001
82614603|NCT00872833|164945585|SUPERIORITY_OR_OTHER|||||||0.028|||||||Chi-squared|||||||0.028
82614604|NCT00783705|164945589|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.4||||0.39|TWO_SIDED|95.0|0.7|3.0|||Generalized estimating equation model|||Generalized estimating equation model on lesions (progressive disease vs. complete response/stable disease) was used to account for intra-patient correlation in the lesion-specific analysis.||3.0|0.7|0.39
82614605|NCT00783705|164945593|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC-16 level between arms.||||0.10
82614606|NCT00783705|164945594|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker IL-6 level between arms.||||0.03
82614607|NCT00783705|164945595|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CCL-2 level between arms.||||0.58
82614608|NCT00783705|164945596|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker MPO level between arms.||||0.06
82614609|NCT00783705|164945597|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC18 level between arms.||||0.63
82614610|NCT00783705|164945598|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker SFTPD level between arms.||||0.22
82614611|NCT00783705|164945599|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker Total Glutathione level between arms.||||0.06
82614612|NCT00783705|164945600|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC-16 level between arms.||||0.35
82614613|NCT00783705|164945601|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CRP level between arms.||||0.80
82614614|NCT00783705|164945602|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker IL-6 level between arms.||||0.22
82614615|NCT00783705|164945603|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CCL-2 level between arms.||||0.74
82614616|NCT00783705|164945604|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker MPO level between arms.||||0.55
82614617|NCT00783705|164945605|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker Nitrotyrosine level between arms.||||0.91
82614618|NCT00783705|164945606|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker CC18 level between arms.||||0.46
82614619|NCT00783705|164945607|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon Rank-Sum|||Comparison of the median difference in biomarker SFTPD level between arms.||||0.52
82614620|NCT02574312|164945633|NON_INFERIORITY|Non-Inferiority Analysis of absolute value of mechanical axis alignment with NI margin of 1.5 degrees, using a 1-sided T-test with alpha of 0.05. Anticipated power was 95%.||||||0.028|||||||t-test, 1 sided|||||||0.028
82614621|NCT02410902|164945672|OTHER|ANCOVA using MMRM analysis|Mean Difference (Final Values)|-2.56||||0.038|TWO_SIDED|95.0|-4.98|-0.14|||ANCOVA|||||-0.14|-4.98|0.038
82614622|NCT02410902|164945673|OTHER|ANCOVA using MMRM analysis|Mean Difference (Final Values)|-1.07||||0.325|TWO_SIDED|95.0|-3.21|1.07|||ANCOVA|||||1.07|-3.21|0.325
82658762|NCT02627924|165033994|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
82614623|NCT03059810|164945682|NON_INFERIORITY|A non-inferiority margin of -5 points was used. This margin is based on a 10% shift in the distribution of CLUE scores.|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|2.63|||TWO_SIDED|95.0|-4.6|5.9|||Linear mixed model (LMM)|A 95% Confidence Interval for the least squares mean difference between the follow up and baseline was used to test for non-inferiority.|Mean difference was calculated as Test (at 12-16 days follow up) - Habitual (at baseline)|It was a single arm study and the subjects' overall vision was compared against the baseline with the habitual lens. Sample size was determined using Power procedure in SAS 9.4 using the input from historical data (alpha=0.05).||5.9|-4.6|
82614624|NCT00747617|164945683|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Mixed Models Analysis|||||||<0.05
82614625|NCT02279524|164945693|SUPERIORITY||Difference in least square means|-3.09||||0.0655|TWO_SIDED|1.6|||||Mixed Models Analysis||||Post-Hoc Responder Analysis - was also carried out. See Post-Hoc analysis|||0.0655
82614626|NCT02279524|164945693|SUPERIORITY||Difference in least square means|-3.32||||0.045|TWO_SIDED|1.6|||||Mixed Models Analysis||||Post-Hoc Responder Analysis - was also carried out. See Post-Hoc analysis|||0.0450
82614627|NCT02279524|164945694|SUPERIORITY||Odds Ratio (OR)|4.74||||0.0514|TWO_SIDED|95.0|0.99|22.66|||Regression, Logistic|The method used was a Baseline Adjusted Logistic Regression||||22.66|0.99|0.0514
82614628|NCT02279524|164945694|SUPERIORITY||Odds Ratio (OR)|1.79||||0.4955|TWO_SIDED|95.0|0.33|9.61|||Regression, Logistic|||||9.61|0.33|0.4955
82614629|NCT02279524|164945695|SUPERIORITY||Odds Ratio (OR)|1.88||||0.211|TWO_SIDED|95.0|0.7|5.04|||Regression, Logistic|||||5.04|0.70|0.2110
82614630|NCT02279524|164945695|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8425|TWO_SIDED|95.0|0.4|3.05|||Regression, Logistic|||||3.05|0.40|0.8425
82658763|NCT02627924|165033995|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
82658764|NCT02627924|165033997|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 12||||<0.0001
82614631|NCT02279524|164945696|SUPERIORITY||Difference in least square means|-29.1|STANDARD_ERROR_OF_MEAN|6.4|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||< 0.0001
82614632|NCT02279524|164945696|SUPERIORITY||Difference in least square means|-23.8|STANDARD_ERROR_OF_MEAN|6.3||0.0002|TWO_SIDED||||||Mixed Models Analysis|||||||0.0002
82614633|NCT02279524|164945697|SUPERIORITY||Difference in least square means|-0.447||||0.0008|TWO_SIDED|95.0|-0.7063|-0.1877|||Mixed Models Analysis|||||-0.1877|-0.7063|0.0008
82614634|NCT02279524|164945697|SUPERIORITY||Difference in least square means|-0.362||||0.0061|TWO_SIDED|95.0|-0.6196|-0.1043|||Mixed Models Analysis|||||-0.1043|-0.6196|0.0061
82614635|NCT02279524|164945698|SUPERIORITY||Difference in least square means|-17.5|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.0001
82614636|NCT02279524|164945698|SUPERIORITY||Difference in least square means|-13.9|STANDARD_ERROR_OF_MEAN|4.2||0.0011|TWO_SIDED||||||Mixed Models Analysis|||||||0.0011
82614637|NCT02279524|164945699|SUPERIORITY||Odds Ratio (OR)|2.77||||0.0279|TWO_SIDED|95.0|1.11|6.88|||Mixed Models Analysis|||||6.88|1.11|0.0279
82614638|NCT02279524|164945699|SUPERIORITY||Odds Ratio (OR)|2.2||||0.0878|TWO_SIDED|95.0|0.89|5.46|||Regression, Logistic|||||5.46|0.89|0.0878
82614639|NCT02279524|164945700|SUPERIORITY||Odds Ratio (OR)|0.14||||0.1008|TWO_SIDED|95.0|0.01|1.46|||Regression, Logistic||This analysis is limited by low number of events, and the duration of the study.|||1.46|0.01|0.1008
82614640|NCT02279524|164945700|SUPERIORITY||Odds Ratio (OR)|0.63||||0.5693|TWO_SIDED|95.0|0.13|3.05|||Regression, Logistic||This analysis is limited by low number of events, and the duration of the study.|||3.05|0.13|0.5693
82614641|NCT00137436|164945717|SUPERIORITY_OR_OTHER|||||||0.942||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.942
82614642|NCT00137436|164945717|SUPERIORITY_OR_OTHER|||||||0.323||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.323
82614643|NCT00137436|164945717|SUPERIORITY_OR_OTHER|||||||0.865||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.865
82614644|NCT00137436|164945717|SUPERIORITY_OR_OTHER|||||||0.873||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.873
82614645|NCT00137436|164945718|SUPERIORITY_OR_OTHER|||||||0.736||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.736
82614646|NCT00137436|164945718|SUPERIORITY_OR_OTHER|||||||0.962||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.962
82614647|NCT00137436|164945718|SUPERIORITY_OR_OTHER|||||||0.185||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.185
82614648|NCT00137436|164945718|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||1.000
82614649|NCT00137436|164945719|SUPERIORITY_OR_OTHER|||||||0.386||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.386
82658765|NCT02627924|165033997|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 24||||<0.0001
82614650|NCT00137436|164945719|SUPERIORITY_OR_OTHER|||||||0.904||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.904
82614651|NCT00137436|164945719|SUPERIORITY_OR_OTHER|||||||0.812||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.812
82614652|NCT00137436|164945719|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.490
82614653|NCT00137436|164945720|SUPERIORITY_OR_OTHER|||||||0.839||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.839
82614654|NCT00137436|164945720|SUPERIORITY_OR_OTHER|||||||0.219||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.219
82614655|NCT00137436|164945720|SUPERIORITY_OR_OTHER|||||||0.788||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.788
82614656|NCT00137436|164945720|SUPERIORITY_OR_OTHER|||||||0.164||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.164
82614657|NCT00137436|164945721|SUPERIORITY_OR_OTHER|||||||0.656||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.656
82614658|NCT00137436|164945721|SUPERIORITY_OR_OTHER|||||||0.628||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.628
82614659|NCT00137436|164945721|SUPERIORITY_OR_OTHER|||||||0.42||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.420
82614660|NCT00137436|164945721|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.296
82614661|NCT00137436|164945722|SUPERIORITY_OR_OTHER|||||||0.903||95.0|||||Wilcoxon rank-sum test|||C1D14 : C1D1||||0.903
82614662|NCT00137436|164945722|SUPERIORITY_OR_OTHER|||||||0.434||95.0|||||Wilcoxon rank-sum test|||C2.D1 : C1D1||||0.434
82614663|NCT00137436|164945722|SUPERIORITY_OR_OTHER|||||||0.687||95.0|||||Wilcoxon rank-sum test|||C2.D14 : C1D1||||0.687
82614664|NCT00137436|164945722|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Wilcoxon rank-sum test|||C3.D14 : C1D1||||0.296
82614665|NCT00365716|164945734|SUPERIORITY_OR_OTHER||Vaccine Efficacy|89.5||||||95.0|70.7|97.3|||||"Vaccine Efficacy (% relative risk reduction)~Confidence Interval based on binomial tail probabilities and not from a dispersion parameter."|||97.3|70.7|
82614666|NCT02262039|164945751|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82614667|NCT02262039|164945752|SUPERIORITY_OR_OTHER|||||||0.92|||||||t-test, 2 sided|||||||0.92
82499434|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.34|STANDARD_ERROR_OF_MEAN|7.84||||90.0|-29.28|-3.4|||ANCOVA|||Extension Month 12; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-3.40|-29.28|
82614668|NCT02262039|164945753|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
82614669|NCT02262039|164945754|SUPERIORITY_OR_OTHER|||||||0.52|||||||t-test, 2 sided|||||||0.52
82614670|NCT02262039|164945755|SUPERIORITY_OR_OTHER|||||||0.25|||||||t-test, 2 sided|||||||0.25
82614671|NCT02262039|164945756|SUPERIORITY_OR_OTHER|||||||0.82|||||||t-test, 2 sided|||||||0.82
82614672|NCT02262039|164945757|SUPERIORITY_OR_OTHER|||||||0.45|||||||t-test, 2 sided|||||||0.45
82614673|NCT04174638|164945758|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05. The p value was the value of the total score of the Fluid Control in Hemodialysis Patients Scale.|t-test, 2 sided|||||||<0.001
82614674|NCT04174638|164945759|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||||||<0.001
82614675|NCT04174638|164945760|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the knowledge sub-dimension score of Modified Morisky Scale between intervention and control group from baseline to week 12.||||<0.001
82614676|NCT04174638|164945760|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the motivation sub-dimension score of Modified Morisky Scale between intervention and control group from baseline to week 12.||||<0.001
82614677|NCT04174638|164945764|SUPERIORITY|||||||0.297||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the physical functions sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.297
82614678|NCT04174638|164945764|SUPERIORITY|||||||0.742||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||It was calculated for detect of difference in mean the mental functions sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.742
82614679|NCT04174638|164945764|SUPERIORITY|||||||0.719||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the burden of kidney disease sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.719
82614680|NCT04174638|164945764|SUPERIORITY|||||||0.063||||||The threshold for statistical significance was p=0.05|t-test, 2 sided|||It was calculated for detect of difference in mean the symptoms/problems sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||0.063
82614681|NCT04174638|164945764|SUPERIORITY||||||<|0.001||||||The threshold for statistical significance was p=0.05.|t-test, 2 sided|||It was calculated for detect of difference in mean the effects of kidney disease on daily life sub-dimension score of Kidney Disease Quality of Life Instrument 36 Scale between intervention and control group from baseline to week 12.||||<0.001
82614682|NCT02985450|164945771|OTHER||Mean Difference (Final Values)|513.5|STANDARD_DEVIATION|73.6||0.02|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||Anti-HBs levels difference: high risk obesity group - low risk obesity group NAFLD patients|||||0.02
82614683|NCT01519245|164945836|SUPERIORITY_OR_OTHER|||||||0.0493||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of primary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.0493
82614684|NCT01519245|164945838|SUPERIORITY_OR_OTHER|||||||0.1876||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of secondary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.1876
82658766|NCT02627924|165033997|OTHER|||||||0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 12||||0.0001
82658767|NCT02627924|165033997|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 24||||<0.0001
82614685|NCT01519245|164945839|SUPERIORITY_OR_OTHER|||||||0.093||95.0|||||t-test, 2 sided|||Intention to Treat principles of data analysis were applied. The two-sided T-test (95% confidence interval) was used for statistical calculation of secondary outcomes. The null hypothesis was that no difference in chest tube losses would be found between the topical tranexamic acid and placebo groups in low-risk cardiac patients undergoing CABG.||||0.0930
82614686|NCT00803244|164945851|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.49||||0.2344||95.0|-1.3|0.32|||ANCOVA|||||0.32|-1.30|0.2344
82614687|NCT00803244|164945852|SUPERIORITY_OR_OTHER||LS Mean difference vs. Placebo|-0.09||||0.0401|TWO_SIDED|95.0|-0.18|0.0|||ANCOVA||Relative LS Means difference (%) = -19.7|||0.00|-0.18|0.0401
82614688|NCT01052012|164945866|SUPERIORITY||LS Mean Difference (Final Values)|-0.89|STANDARD_ERROR_OF_MEAN|0.597||0.1473|TWO_SIDED|95.0|-2.11|0.33|||ANCOVA|With pooled site and treatment group as factors and incision length as a covariate.||||0.33|-2.11|0.1473
82614689|NCT01052012|164945866|SUPERIORITY||LS Mean Difference (Final Values)|-1.06|STANDARD_ERROR_OF_MEAN|0.547||0.0601|TWO_SIDED|95.0|-2.16|0.05|||ANCOVA|with pooled site and treatment group as factors and incision length as a covariate.||||0.05|-2.16|0.0601
82614690|NCT01052012|164945866|SUPERIORITY||LS Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.233||0.1483|TWO_SIDED|95.0|-0.8|0.12|||ANCOVA|with pooled site and treatment group as factors and incision length as a covariate.||||0.12|-0.80|0.1483
82614691|NCT01052012|164945867|SUPERIORITY||Median Difference (Hodge-Lehmann)|-1.0||||0.9901|TWO_SIDED|95.0|-54.5|52.0|||Wilcoxon (Mann-Whitney)|||||52.0|-54.5|0.9901
82614692|NCT01052012|164945867|SUPERIORITY||Median Difference (Hodge-Lehmann)|-5.0||||0.201|TWO_SIDED|95.0|-14.0|3.4|||Wilcoxon Rank-Sum|||||3.4|-14.0|0.2010
82614693|NCT01052012|164945867|SUPERIORITY||Median Difference (Hodge-Lehmann)|-3.0||||0.5897|TWO_SIDED|95.0|-15.0|8.0|||Wilcoxon Rank-Sum|||||8.0|-15.0|0.5897
82614694|NCT02873715|164945875|SUPERIORITY||Mean Difference (Final Values)|-6.21|||<|0.05|TWO_SIDED|95.0|-10.14|-2.29|||ANCOVA||Results are pooled across 10 multiple imputations and reported as mean (standard error)|||-2.29|-10.14|<0.05
82614695|NCT02873715|164945876|SUPERIORITY||Mean Difference (Final Values)|-3.97||||0.001|TWO_SIDED|95.0|-5.68|-2.26|||ANCOVA||Results are pooled across 10 multiple imputations and reported as mean (standard error)|||-2.26|-5.68|0.001
82614696|NCT02873715|164945878|SUPERIORITY||Mean Difference (Final Values)|-0.5384||||0.65|TWO_SIDED||||||ANOVA|time x group analysis.||repeated measures analysis of variance for parent delay discounting changes from 0 to 24-month. This includes only parents with complete data for both time points and does not exclude based on johnson-bickel rules. Reporting time x group analysis.||||0.65
82614697|NCT02873715|164945878|SUPERIORITY||Mean Difference (Net)|-0.3913||||0.87|TWO_SIDED|||||time x group analysis|ANOVA|||repeated measures analysis of variance for child delay discounting changes from 0 to 24-month. This includes only parents with complete data for both time points and does not exclude based on johnson-bickel rules. Reporting time x group analysis.||||0.87
82614698|NCT00053846|164945895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.483|STANDARD_ERROR_OF_MEAN|0.275||0.08|TWO_SIDED|95.0|-1.02|0.0576|||ANCOVA||Multiple Imputation (MI) used for estimates. MICE software in R was used to generate 100 imputed datasets. ANCOVA was run on each, and results were pooled.|H0: The true difference in means is equal to zero. Ha: The true difference in means is not equal to zero.||0.0576|-1.020|0.080
82614699|NCT02650284|164945937|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.46||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at pre-operation timepoint.||||0.46
82614700|NCT02650284|164945937|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.23||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 6-week timepoint.||||0.23
82614701|NCT02650284|164945937|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.1||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 3-month timepoint.||||0.10
82614702|NCT02650284|164945937|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.98||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 12-month timepoint.||||0.98
82658768|NCT02627924|165033998|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 12 weeks||||<0.0001
82614703|NCT02650284|164945937|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.5||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at 24-month timepoint.||||0.50
82614704|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.59||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D Index preoperatively between both groups.||||0.59
82614705|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.9||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 3-months between both groups.||||0.90
82614706|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 12-months between both groups.||||0.57
82614707|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.49||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D index at 24-months between both groups.||||0.49
82658769|NCT02627924|165033998|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 24 weeks||||<0.0001
82614708|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means||||||0.65||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS preoperatively between both groups.||||0.65
82614709|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.3||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 3-months between both groups.||||0.30
82614710|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.06||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 12-months between both groups.||||0.06
82614711|NCT02650284|164945938|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.44||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare EQ-5D VAS at 24-months between both groups.||||0.44
82614712|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.97||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest preoperatively between both groups.||||0.97
82614713|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.45||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 3-months between both groups.||||0.45
82614714|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.64||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 12-months between both groups.||||0.64
82614715|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.19||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Rest at 24-months between both groups.||||0.19
82614716|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation preoperatively between both groups.||||0.57
82614717|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.98||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 3-months between both groups.||||0.98
82614718|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.58||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 12-months between both groups.||||0.58
82614719|NCT02650284|164945939|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.16||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare VAS Pain at Mobilisation at 24-months between both groups.||||0.16
82614720|NCT02650284|164945940|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.62||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score preoperatively between both groups.||||0.62
82614721|NCT02650284|164945940|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.06||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score at 3-months between both groups.||||0.06
82614722|NCT02650284|164945940|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.93||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare New Knee Society Function Score at 24-months between both groups.||||0.93
82614723|NCT02650284|164945941|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.57||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||Comparison between groups at pre-operation timepoint.||||0.57
82658770|NCT02627924|165033999|OTHER|||||||0.0098|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 12||||0.0098
82614724|NCT02650284|164945941|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.17||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 3-months between both groups.||||0.17
82614725|NCT02650284|164945941|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.8||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 12-months between both groups.||||0.80
82658771|NCT02627924|165033999|OTHER|||||||0.0015|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 24||||0.0015
82658772|NCT02627924|165033999|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 12||||<0.0001
82614726|NCT02650284|164945941|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.9||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare FJS at 24-months between both groups.||||0.90
82614727|NCT02650284|164945943|EQUIVALENCE|Equivalence defined as less than or equal to 1 standard deviation between the two means.||||||0.81||||||The number of recruited patients did not reach the required sample size. Power score assessments no longer hold, thus there is low confidence in the findings.|t-test, 2 sided|||To compare length of hospital stay (number of nights) between both groups.||||0.81
82614728|NCT04590937|164945944|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|98.22|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|94.89|101.67|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||101.67|94.89|
82614729|NCT04590937|164945945|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|123.08|STANDARD_ERROR_OF_MEAN|12.7|||TWO_SIDED|90.0|112.22|134.98|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||134.98|112.22|
82614730|NCT04590937|164945946|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|117.72|STANDARD_ERROR_OF_MEAN|9.0|||TWO_SIDED|90.0|110.57|125.34|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||125.34|110.57|
82614731|NCT04590937|164945947|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|170.29|STANDARD_ERROR_OF_MEAN|25.6|||TWO_SIDED|90.0|143.73|201.76|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||201.76|143.73|
82614732|NCT04590937|164945948|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|91.42|STANDARD_ERROR_OF_MEAN|5.6|||TWO_SIDED|90.0|88.04|94.93|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||94.93|88.04|
82614733|NCT04590937|164945949|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|139.03|STANDARD_ERROR_OF_MEAN|16.9|||TWO_SIDED|90.0|124.29|155.51|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||155.51|124.29|
82614734|NCT04590937|164945950|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|112.1|STANDARD_ERROR_OF_MEAN|15.4|||TWO_SIDED|90.0|101.26|124.11|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||124.11|101.26|
82614735|NCT04590937|164945951|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|161.29|STANDARD_ERROR_OF_MEAN|34.1|||TWO_SIDED|90.0|129.17|201.39|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||201.39|129.17|
82614736|NCT04590937|164945952|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|98.23|STANDARD_ERROR_OF_MEAN|5.2|||TWO_SIDED|90.0|94.86|101.73|||||The geometric means ratio was calculated as Metformin + BI 730357 / Metformin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||101.73|94.86|
82614737|NCT04590937|164945953|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|118.67|STANDARD_ERROR_OF_MEAN|13.0|||TWO_SIDED|90.0|108.83|129.4|||||The geometric means ratio was calculated as Rosuvastatin + BI 730357 / Rosuvastatin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||129.40|108.83|
82614738|NCT04590937|164945954|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|114.07|STANDARD_ERROR_OF_MEAN|8.3|||TWO_SIDED|90.0|107.93|120.56|||||The geometric means ratio was calculated as Furosemide + BI 730357 / Furosemide. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||120.56|107.93|
82614739|NCT04590937|164945955|OTHER|"ANOVA model including subject as random and treatment as fixed effect was used."|Geometric means ratio|173.77|STANDARD_ERROR_OF_MEAN|30.8|||TWO_SIDED|90.0|141.9|212.8|||||The geometric means ratio was calculated as Digoxin + BI 730357 / Digoxin. Standard error of the mean is actually the intra-individual geometric coefficient of variation (gCV).|||212.80|141.90|
82658773|NCT02627924|165033999|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 24||||<0.0001
82614740|NCT01417780|164945976|OTHER|||||||0.016|||||||ANOVA|||||||0.016
82614741|NCT01417780|164945977|OTHER|||||||0.019|||||||Chi-squared|||The null hypothesis was that the frequency of Day 14 SOFA score less than or equal to 1 was not different among treatment groups.||||0.019
82614742|NCT01417780|164945978|OTHER|||||||0.11||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.11
82658774|NCT03785548|165034007|OTHER||Mean Difference (Final Values)|2.851|STANDARD_ERROR_OF_MEAN|2.576||0.27|TWO_SIDED|95.0|-2.241|7.944|||ANCOVA|F(1, 140)=1.225||||7.944|-2.241|0.270
82614743|NCT01417780|164945979|OTHER|||||||0.18||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.18
82614744|NCT01417780|164945980|OTHER|||||||0.19||||||Wilcoxon p value represents comparison of active dose groups versus placebo group.|Wilcoxon (Mann-Whitney)|||||||0.19
82614745|NCT00554294|164945981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.69|||<|0.05||95.0|0.48|0.98|||Regression, Logistic|The Odds Ratio (OR) describes the probability ob beeing overweight of the intervention group compared to the control group (reference, denominator).||adjusted for overweight at baseline, age at baseline,sex and clustering by school||0.98|0.48|<0.05
82658775|NCT03785548|165034008|OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|3.098||0.964|TWO_SIDED|95.0|-5.983|6.266|||ANCOVA|F(1, 140)=0.002||||6.266|-5.983|0.964
82658776|NCT01591785|165034010|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED||||||Chi-squared|||||||0.035
82614746|NCT05022004|164945986|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|-0.28|0.91|||||The reported mean difference represents value for Left Eye at Week 2, 08:00am|||0.91|-0.28|
82614747|NCT05022004|164945986|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|0.19|||||TWO_SIDED|95.0|-0.39|0.76|||||The reported mean difference represents value for Right Eye at Week 2, 08:00am|||0.76|-0.39|
82614748|NCT05022004|164945986|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|-0.04|||||TWO_SIDED|95.0|-0.59|0.5|||||The reported mean difference represents value for Left Eye at Week 6, 08:00am|||0.50|-0.59|
82614749|NCT05022004|164945986|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.64|0.4|||||The reported mean difference represents value for Right Eye at Week 6, 08:00am|||0.40|-0.64|
82614750|NCT05022004|164945987|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed||||||0.0015||||||P value reported for Left Eye at Week 2; 08:00 am|two-sample t-test|||||||0.0015
82614751|NCT05022004|164945987|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed||||||0.0008|||||||two-sample t-test|P value reported for Right Eye at Week 2; 08:00am||||||0.0008
82614752|NCT05022004|164945987|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|||||<|0.0001|||||||two-sample t-test|P value reported for left eye at week 6, 08:00 am||||||<.0001
82658777|NCT01591785|165034011|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|TWO_SIDED||||||Chi-squared|||||||0.28
82658778|NCT01591785|165034012|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0495|TWO_SIDED||||||Chi-squared|||||||0.0495
82614753|NCT05022004|164945987|EQUIVALENCE|Type of Statistical Test - Therapeutic equivalence. Sample size was based on 90% power at an alpha=0.05 significance level when the true difference between the means is 0 and SD=3.5 and the 95% equivalence limits are -1.0 and 1.0; 20% dropout was assumed|||||<|0.0001|||||||two-sample t-test|P value reported for Right eye at Week 6; 08:00 am||||||<.0001
82614754|NCT00426751|164946091|NON_INFERIORITY_OR_EQUIVALENCE|For the assessment of differences between both treatment groups, a generalized model (under binomial probability distribution), adjusted for center, was applied.|Median Difference (Final Values)|2.1||||||90.0|-8.5|12.8||||||||12.8|-8.5|
82614755|NCT00426751|164946092|NON_INFERIORITY_OR_EQUIVALENCE|For the assessment of differences between both treatment groups a generalised model (under binomial probability distribution), adjusted for centre, was applied.|Mean Difference (Final Values)|6.8||||||95.0|-3.0|16.6|||||Analysis based on the ITT population confirmed the results observed in the PP population.|||16.6|-3.0|
82658779|NCT01591785|165034013|SUPERIORITY_OR_OTHER_LEGACY|||||||0.27|TWO_SIDED||||||Chi-squared|||||||0.27
82658780|NCT03979079|165034026|OTHER||Hazard Ratio (HR)|0.21|||||TWO_SIDED|95.0|0.14|0.3||Estimation was performed using a Bayesian approach. As such, p-values are not estimated.|Two-stage model.||||Two-stage model within a Bayesian framework to assess the role of the prostate-specific antigens profile on clinical failure while accounting for a secondary treatment prescribed by indication. Prostatespecific antigens modeled using a hierarchical piecewise linear trajectory with a random changepoint. Residual prostate-specific antigens variability was expressed as a function of prostate-specific antigens concentration. Covariates in the survival model included hormone therapy, baseline characteristics, and individual predictions of the prostate-specific antigens nadir and timing and prostate-specific antigens slopes before and after the nadir as provided by the longitudinal process.|0.30|0.14|
82614756|NCT01355068|164946143|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|101.33|||||TWO_SIDED|90.0|97.85|104.94||||||Natural log transformed AUClast was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals (CIs) for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||104.94|97.85|
82658781|NCT01819597|165034043|OTHER|This is a phase II study design to determine the non-futility of proceeding to a phase III pivotal evaluation. The study group was planned to be compared to a propensity score matching (PSM) cohort from to the patients in the medical arms of the SAMMPRIS trial and to patients in the medical arm of COSS that had demonstrated angiographic intracranial atherosclerosis and occlusion.|Hazard Ratio (HR)|0.38||||0.08|TWO_SIDED|90.0|0.14|0.94||Pre-established α ≤ 0.10 for phase IIa|Regression, Cox|Alpha set at ≤ 0.1. for phase II study|ERSIAS/ Controls.|We derived the sample size required to power the trial to test the difference between two binomial event rates using the method of Farrington and Manning as implemented in R package gsDesign (Anderson, 2011). An estimated sample size of 52 patients will be necessary to detect a ∆ of 0.05, with a one-sided alpha of 0.10 and a beta of 0.10 - acceptable parameters for a non-definitive, non-futility study (Palesch et al., 2005, Levin, 2005).||0.94|0.14|0.08
82658782|NCT02495857|165034052|SUPERIORITY||Mean Difference (Net)|36.18|||||TWO_SIDED|95.0|10.25|62.11||||||||62.11|10.25|
82658783|NCT02495857|165034053|SUPERIORITY||Mean Difference (Net)|36.19|||||TWO_SIDED|95.0|10.25|62.11||||||||62.11|10.25|
82658784|NCT02495857|165034054|EQUIVALENCE|From baseline to week 26 visit, change in the WOMAC stiffness score was evaluated.|Mean Difference (Net)|5.63|||||TWO_SIDED|95.0|-13.61|8.49||||||||8.49|-13.61|
82614757|NCT01355068|164946144|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|102.2|||||TWO_SIDED|90.0|97.18|107.47||||||Natural log transformed Cmax was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||107.47|97.18|
82658785|NCT02883452|165034064|NON_INFERIORITY|The non-inferiority of CT-P13 SC to CT-P13 IV was to be concluded if the lower bound of two-sided 90% CI for the ratio of geometric least square means was higher than 80%.|Ratio of Geometric LS means|1154.17|||||TWO_SIDED|90.0|786.37|1694.0|||||The geometric lease square (LS) means, ratio of geometric LS means (CT-P13 SC 120/240 mg to CT-P13 IV 5 mg/kg), and 2-sided 90% CI were obtained from the ANCOVA model.|Primary PK analysis was analyzed using an ANCOVA with treatment as fixed effect and current use of treatment with azathioprine (AZA) or 6-mercaptopurine (6-MP) or methotrexate (MTX) (used or not used), disease (CD or UC), clinical response at Week 6 (responder or non-responder by Clinical Disease Activity Index \[CDAI\]-70 for CD or partial Mayo score for UC), body weight at Week 6 (\<80 kg or ≥80 kg) fitted as covariates.||1694.00|786.37|
82658786|NCT00667095|165034090|SUPERIORITY_OR_OTHER|||||||0.024|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.024
82658787|NCT00667095|165034090|SUPERIORITY_OR_OTHER|||||||0.036|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.036
82658788|NCT00667095|165034091|SUPERIORITY_OR_OTHER|||||||0.051|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.051
82658789|NCT00667095|165034091|SUPERIORITY_OR_OTHER|||||||0.12|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.12
82658790|NCT00667095|165034092|SUPERIORITY_OR_OTHER|||||||0.42|||||||t-test, 2 sided|||Change from baseline to 1 month.||||0.42
82658791|NCT00667095|165034092|SUPERIORITY_OR_OTHER|||||||0.15|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.15
82658792|NCT00667095|165034093|SUPERIORITY_OR_OTHER|||||||0.18|||||||t-test, 2 sided|||Change from baseline to 1 month||||0.18
82658793|NCT00667095|165034093|SUPERIORITY_OR_OTHER|||||||0.77|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.77
82658794|NCT00667095|165034094|SUPERIORITY_OR_OTHER|||||||0.67|||||||t-test, 2 sided|||Change from baseline to one month||||0.67
82658795|NCT00667095|165034094|SUPERIORITY_OR_OTHER|||||||0.2|||||||t-test, 2 sided|||Change from baseline to 3 months.||||0.20
82658796|NCT00667095|165034095|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||Change between baseline and one month||||0.31
82658797|NCT00667095|165034095|SUPERIORITY_OR_OTHER|||||||0.038|||||||t-test, 2 sided|||Change between baseline and 3 months||||0.038
82658798|NCT01520909|165034096|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.96|||<|0.001|TWO_SIDED|95.0|2.29|140.93|||Cochran-Mantel-Haenszel|The proportion of participants achieving platelet counts \>=50 Gi/L for those participants receiving eltrombopag versus placebo was compared.||Indicated significance at the 5% (two-sided) level of significance||140.93|2.29|<0.001
82658799|NCT01520909|165034097|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|25.33|||<|0.001|TWO_SIDED|95.0|8.15|78.73|||Repeated measures model for binary data|Repeated measures model for binary data using Generalized linear mixed model||||78.73|8.15|<0.001
82658800|NCT00830206|165034140|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokinetic parameters using SAS® Software.|Geometric Test/Ref Ratio x 100|102.62||||||90.0|94.84|111.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.05|94.84|
82658801|NCT00830206|165034141|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|100.85||||||90.0|94.48|107.65|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.65|94.48|
82658802|NCT00830206|165034142|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on the pharmacokimetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|101.92||||||90.0|95.18|109.14|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.14|95.18|
82658803|NCT01375660|165034143|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED||||||ANOVA|||||||0.026
82658804|NCT01375660|165034144|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||||||0.6
82658805|NCT01375660|165034145|SUPERIORITY_OR_OTHER|||||||0.389|TWO_SIDED||||||ANOVA|||||||0.389
82658806|NCT01375660|165034146|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED|||||P Value for Insulinogenic Index-30 = 0.34|ANOVA|||||||0.34
82658807|NCT01375660|165034147|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
82658808|NCT01375660|165034148|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||0.13
82658809|NCT01375660|165034149|SUPERIORITY_OR_OTHER|||||||0.869|TWO_SIDED||||||Chi-squared|||||||0.869
82658810|NCT01832259|165034150|SUPERIORITY|||||||0.345|||||||t-test, 1 sided|||||||0.345
82658811|NCT01832259|165034152|SUPERIORITY|||||||0.46|||||||Log Rank|||||||0.46
82658812|NCT00905346|165034155|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|98.39||||||90.0|94.36|102.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.59|94.36|
82658813|NCT00905346|165034156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|102.92||||||90.0|99.88|106.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.05|99.88|
82658814|NCT00905346|165034157|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of the LS Mean (Test/Ref x 100)|102.63||||||90.0|99.24|106.14|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.14|99.24|
82658815|NCT00909610|165034165|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|92.3|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125|||111|92.3|
82658816|NCT00909610|165034166|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|106.0||||||90.0|101.0|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|101|
82614758|NCT01355068|164946145|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|101.43|||||TWO_SIDED|90.0|97.56|105.47||||||Natural log transformed AUC (0-∞) was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% CIs for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||105.47|97.56|
82614759|NCT00051558|164946233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
82614760|NCT00051558|164946234|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||All comparisons were conducted using a 2-sided significance level of 0.05.|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
82614761|NCT00051558|164946235|SUPERIORITY_OR_OTHER|||||||0.058||95.0||||P-value for Month 3|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.058
82614762|NCT00051558|164946235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 6 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614763|NCT00051558|164946235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614764|NCT00051558|164946235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614765|NCT00051558|164946235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614766|NCT00051558|164946235|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614767|NCT00051558|164946236|SUPERIORITY_OR_OTHER|||||||0.12||95.0||||P-value for 3 Months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.120
82614768|NCT00051558|164946236|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 6 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614769|NCT00051558|164946236|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82658817|NCT00909610|165034167|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|101.0||||||90.0|91.9|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|91.9|
82658818|NCT00909610|165034168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Geometric Mean|105.0||||||90.0|100.0|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|100|
82614770|NCT00051558|164946236|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614771|NCT00051558|164946237|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for 36 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline lumbar spine bone mineral density (BMD) measurement.||||<0.001
82658819|NCT00909610|165034169|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|101.0||||||90.0|92.5|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.5|
82614772|NCT00051558|164946237|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||p-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82658820|NCT00909610|165034170|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|110.0||||||90.0|103.0|117.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||117|103|
82614773|NCT00051558|164946237|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614774|NCT00051558|164946238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36-month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline femoral neck bone mineral density (BMD) measurement.||||<0.001
82614775|NCT00051558|164946238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614776|NCT00051558|164946238|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.002
82614777|NCT00051558|164946238|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 18 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline femoral neck bone mineral density (BMD) measurement.||||0.011
82614778|NCT00051558|164946238|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.015
82614779|NCT00051558|164946239|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline total hip bone mineral density (BMD) measurement.||||<0.001
82614780|NCT00051558|164946239|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614781|NCT00051558|164946239|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614782|NCT00051558|164946239|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-value for 18 month endpoint|ANOVA|ANOVA Model: Change in BMD=treatment+region+prior bisphosponate use+gender. Least Squares Means from treatment.||This is a last observation carried forward analysis that included all patients with a baseline and at least one postbaseline total hip bone mineral density (BMD) measurement.||||0.006
82614783|NCT00051558|164946239|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.009
82658821|NCT00909610|165034171|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|101.0||||||90.0|92.2|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.2|
82658822|NCT00909610|165034172|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC's and Cmax parameters.|Ratio of the Mean|107.0||||||90.0|100.0|115.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||115|100|
82614784|NCT00051558|164946240|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614785|NCT00051558|164946240|SUPERIORITY_OR_OTHER|||||||0.015||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.015
82614786|NCT00051558|164946240|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.002
82614787|NCT00051558|164946240|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614788|NCT00051558|164946241|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-value for 12 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.011
82614789|NCT00051558|164946241|SUPERIORITY_OR_OTHER|||||||0.009||95.0||||P-value for 18 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||0.009
82614790|NCT00051558|164946241|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 24 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614791|NCT00051558|164946241|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for 36 months|Mixed Models Analysis|Least Squares Means obtained from the treatment\*visit interaction term from the above mixed model repeated measures model.||Mixed Model Repeated Measures: Change in BMD=treatment+region+prior bisphosphonate use+gender+baseline BMD+visit+treatment\*visit.||||<0.001
82614792|NCT00051558|164946242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614793|NCT00051558|164946242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614794|NCT00051558|164946242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614795|NCT00051558|164946242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614796|NCT00051558|164946243|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614797|NCT00051558|164946243|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614798|NCT00051558|164946243|SUPERIORITY_OR_OTHER|||||||0.004||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||0.004
82614799|NCT00051558|164946243|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||0.013
82614800|NCT00051558|164946244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614801|NCT00051558|164946244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614802|NCT00051558|164946244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614803|NCT00051558|164946244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614804|NCT00051558|164946245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614805|NCT00051558|164946245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614806|NCT00051558|164946245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614807|NCT00051558|164946245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614808|NCT00051558|164946246|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for Month 1|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614809|NCT00051558|164946246|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 6|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614810|NCT00051558|164946246|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 18|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82614811|NCT00051558|164946246|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value at Month 36|Wilcoxon (Mann-Whitney)|Wilcoxon Rank Sum Test using the aligned ranks for scores.||||||<0.001
82658823|NCT00105196|165034209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.73|||<|0.001||95.0|-5.44|-2.02|||t-test, 2 sided|||The sample size for the study was based on the primary outcome measure. The study was powered at 90% to detect a treatment difference between adjunctive aripiprazole and adjunctive placebo of 3.75, assuming a standard deviation of 10.5 and a two-sided alpha level of 0.05. The null-hypothesis was the lack of a treatment difference.||-2.02|-5.44|<0.001
82658824|NCT00105196|165034210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42||||0.075||95.0|-0.88|0.04|||t-test, 2 sided|||To protect the overall (primary and key secondary efficacy analysis) alpha level of 0.05, for this key secondary endpoint a hierarchical testing procedure was followed such that formal testing would take place conditional on the primary efficacy analysis showing a statistically significant difference.||0.04|-0.88|0.075
82614812|NCT00051558|164946247|SUPERIORITY_OR_OTHER|||||||0.212||95.0||||p-value for Any Fracture|Cochran-Mantel-Haenszel|||||||0.212
82614813|NCT00051558|164946247|SUPERIORITY_OR_OTHER|||||||0.843||95.0||||p-value for Nonvertebral Fracture|Cochran-Mantel-Haenszel|||||||0.843
82614814|NCT00051558|164946247|SUPERIORITY_OR_OTHER|||||||0.007||95.0||||p-value for Vertebral Fracture|Cochran-Mantel-Haenszel|||||||0.007
82614815|NCT00051558|164946247|SUPERIORITY_OR_OTHER|||||||0.037||95.0||||p-value for Clinical Vertebral Fracture|Cochran-Mantel-Haenszel|||||||0.037
82614816|NCT00051558|164946247|SUPERIORITY_OR_OTHER|||||||0.256||95.0||||p-value for Nonvertebral Fragility Fracture|Cochran-Mantel-Haenszel|||||||0.256
82614817|NCT01441440|164946261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.031|TWO_SIDED|95.0|0.14|2.87||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||2.87|0.14|0.031
82614818|NCT01441440|164946261|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.12||||0.106|TWO_SIDED|95.0|-0.24|2.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||2.48|-0.24|0.106
82614819|NCT01441440|164946262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.88||||0.008|TWO_SIDED|95.0|0.77|5.0||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||5.00|0.77|0.008
82614820|NCT01441440|164946262|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64||||0.014|TWO_SIDED|95.0|0.54|4.74||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||4.74|0.54|0.014
82614821|NCT01441440|164946263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.26||||0.025|TWO_SIDED|95.0|0.03|0.49||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||0.49|0.03|0.025
82658825|NCT00105196|165034211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.53||||0.052||95.0|-1.06|0.0||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||0.00|-1.06|0.052
82658826|NCT00105196|165034212|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.57||||0.037||95.0|-1.1|-0.03||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||-0.03|-1.10|0.037
82658827|NCT00105196|165034213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08||||0.792||95.0|-0.67|0.51||No adjustment for multiple comparisons was implemented for this secondary endpoint.|t-test, 2 sided|||||0.51|-0.67|0.792
82658828|NCT00105196|165034214|SUPERIORITY_OR_OTHER||Ratio of response|1.74|||<|0.001||95.0|1.31|2.32||No adjustment for multiple comparisons was implemented for this secondary endpoint.|CMH General Association Test||aripiprazole/placebo|||2.32|1.31|<0.001
82658829|NCT00105196|165034215|SUPERIORITY_OR_OTHER||Ratio of response|1.43|||<|0.001||95.0|1.17|1.74||No adjustment for multiple comparisons was implemented for this secondary endpoint.|ANCOVA||aripiprazole/placebo|||1.74|1.17|<0.001
82658830|NCT00105196|165034216|SUPERIORITY_OR_OTHER||Ratio of remission|1.95|||<|0.001||95.0|1.36|2.8||No adjustment for multiple comparisons was implemented for this secondary endpoint.|CMH General Association Test||aripiprazole/placebo|||2.80|1.36|<0.001
82658831|NCT01544127|165034232|SUPERIORITY||Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.19||0.054|TWO_SIDED|95.0|0.31|1.12||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|"MI-SI + TAU and MI-SI-R + TAU vs. TAU Alone~A hurdle model was used to examine the effect of the experimental interventions on the presence of suicidal ideation and the severity of suicidal ideation among those with it. These analyses examined the presence of suicidal ideation in the combined MI-SI + TAU and MI-SI-R + TAU treatment group."||1.12|0.31|.054
82614822|NCT01441440|164946263|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.032|TWO_SIDED|95.0|0.02|0.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||0.48|0.02|0.032
82658832|NCT01544127|165034232|SUPERIORITY||Odds Ratio (OR)|0.6|STANDARD_ERROR_OF_MEAN|0.26||0.12|TWO_SIDED|95.0|0.26|1.4||A priori, analyses were proposed as one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|MI-SI+TAU vs. TAU Alone||1.40|0.26|0.12
82658833|NCT01544127|165034232|SUPERIORITY||Odds Ratio (OR)|0.59|STANDARD_ERROR_OF_MEAN|0.22||0.08|TWO_SIDED|95.0|0.28|1.24||A priori, analyses were proposed as one-sided, with p set at 0.05.|Zero-Inflated Poisson|Analysis adjusted for severity of worst TBI experience and used a robust standard error that was clustered on participants.|OR was calculated for number of participants with suicidal ideation. Analyses were one-sided, but two-sided confidence intervals for the OR are reported.|MI-SI-R + TAU vs. TAU Alone||1.24|0.28|0.08
82658834|NCT01544127|165034233|SUPERIORITY||Beta|0.06|STANDARD_ERROR_OF_MEAN|0.11||0.3|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||"MI-SI + TAU vs. MI-SI-R + TAU vs. TAU Alone~A hurdle model was used to examine the effect of the experimental interventions on the presence/absence of suicidal ideation and the severity of suicidal ideation among those with it. These analyses examined the severity of suicidal ideation among participants with suicidal ideation in the combined MI-SI + TAU and MI-SI-R + TAU treatment group."||||0.30
82658835|NCT01544127|165034233|SUPERIORITY||Beta|0.09|STANDARD_ERROR_OF_MEAN|0.12||0.23|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||MI-SI vs. TAU Alone||||0.23
82658836|NCT01544127|165034233|SUPERIORITY||Beta|0.01|STANDARD_ERROR_OF_MEAN|0.13||0.46|TWO_SIDED|||||A priori, analyses were proposed to be one-sided, with p set at 0.05.|Zero-Inflated Poisson|A robust standard error clustered on participants was used.||MI-SI-R vs. TAU Alone||||0.46
82658837|NCT01544127|165034234|SUPERIORITY||Odds Ratio (OR)|1.03|STANDARD_ERROR_OF_MEAN|0.65||0.96|TWO_SIDED|0.95|0.3|3.54||A priori, p was set at 0.01 for multiple comparisons.|Regression, Logistic|||MI-SI + TAU vs. TAU Alone||3.54|0.30|0.96
82658838|NCT01544127|165034234|SUPERIORITY||Odds Ratio (OR)|0.68|STANDARD_ERROR_OF_MEAN|0.38||0.5|TWO_SIDED|95.0|0.23|2.06||A priori, p was set at 0.01 for multiple comparisons.|Regression, Logistic|||MI-SI-R + TAU vs. TAU Alone||2.06|0.23|0.50
82658839|NCT01544127|165034235|SUPERIORITY||Cox Proportional Hazard|1.69|STANDARD_ERROR_OF_MEAN|0.91||0.31|TWO_SIDED|95.0|0.59|4.88||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||MI-SI + TAU vs. TAU Alone||4.88|0.59|0.31
82658840|NCT01544127|165034235|SUPERIORITY||Cox Proportional Hazard|0.49|STANDARD_ERROR_OF_MEAN|0.39||0.24|TWO_SIDED|95.0|0.1|2.31||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||MI-SI-R vs. TAU Alone||2.31|0.10|0.24
82614823|NCT01441440|164946264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.18||||0.004|TWO_SIDED|95.0|0.39|1.97||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||1.97|0.39|0.004
82614824|NCT01441440|164946264|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.06||||0.008|TWO_SIDED|95.0|0.28|1.85||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||1.85|0.28|0.008
82658841|NCT01544127|165034235|SUPERIORITY||Cox Proportional Hazard|0.29|STANDARD_ERROR_OF_MEAN|0.23||0.1|TWO_SIDED|95.0|0.06|1.43||A priori, p was set at 0.01 for multiple comparisons.|Log Rank|||"MI-SI-R + TAU vs. MI-SI + TAU~Because the impact of MI-SI + TAU and MI-SI-R + TAU were in different directions when compared to TAU Alone, they were compared. For this analysis, the null hypothesis was that the revisions did not change the impact of MI-SI + TAU."||1.43|0.06|0.10
82658842|NCT02605395|165034272|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for Cmax to be within 80-125% to prove equivalency.|Ratio of means|95.71|||||TWO_SIDED|90.0|90.12|101.65||||||||101.65|90.12|
82658843|NCT02605395|165034273|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for AUC(0-t) to be within 80-125% to prove equivalency.|Ratio of means|96.5|||||TWO_SIDED|90.0|90.02|103.44||||||||103.44|90.02|
82658844|NCT02605395|165034274|EQUIVALENCE|The confidence intervals of logarithmically transformed ratio (Idiazole/Pariet) for AUC (0 to infinity) to be within 80-125% to prove equivalency.|Ratio of means|95.69|||||TWO_SIDED|90.0|87.06|105.17||||||||105.17|87.06|
82658845|NCT00696020|165034297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.024|STANDARD_ERROR_OF_MEAN|0.027||0.3791|TWO_SIDED|95.0|-0.029|0.076||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.076|-0.029|0.3791
82658846|NCT00696020|165034297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.033|STANDARD_ERROR_OF_MEAN|0.027||0.2133|TWO_SIDED|95.0|-0.019|0.085||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.085|-0.019|0.2133
82658847|NCT00696020|165034297|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.057|STANDARD_ERROR_OF_MEAN|0.027||0.0337|TWO_SIDED|95.0|0.004|0.11||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.110|0.004|0.0337
82658848|NCT00696020|165034298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.026||0.1163|TWO_SIDED|95.0|-0.01|0.093||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.093|-0.010|0.1163
82658849|NCT00696020|165034298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.026||0.0224|TWO_SIDED|95.0|0.009|0.111||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.111|0.009|0.0224
82658850|NCT00696020|165034298|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.055|STANDARD_ERROR_OF_MEAN|0.026||0.038|TWO_SIDED|95.0|0.003|0.107||Type I error was controlled by a closed stepwise procedure.|ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.107|0.003|0.0380
82614825|NCT01441440|164946265|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.5||||0.004|TWO_SIDED|95.0|0.48|2.53||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||2.53|0.48|0.004
82658851|NCT00696020|165034299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.002|STANDARD_ERROR_OF_MEAN|0.047||0.9573|TWO_SIDED|95.0|-0.089|0.094|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.094|-0.089|0.9573
82658852|NCT00696020|165034299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.046||0.0321|TWO_SIDED|95.0|0.009|0.189|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.189|0.009|0.0321
82658853|NCT00696020|165034299|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.117|STANDARD_ERROR_OF_MEAN|0.047||0.0125|TWO_SIDED|95.0|0.025|0.209|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.209|0.025|0.0125
82658854|NCT00696020|165034300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.085|STANDARD_ERROR_OF_MEAN|0.03||0.0052|TWO_SIDED|95.0|0.026|0.145|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.145|0.026|0.0052
82658855|NCT00696020|165034300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.03||0.0086|TWO_SIDED|95.0|0.02|0.138|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.138|0.020|0.0086
82658856|NCT00696020|165034300|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.125|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.066|0.185|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.185|0.066|<0.0001
82658857|NCT00696020|165034301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.116|STANDARD_ERROR_OF_MEAN|0.056||0.0384|TWO_SIDED|95.0|0.006|0.225|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.225|0.006|0.0384
82658858|NCT00696020|165034301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.055||0.0009|TWO_SIDED|95.0|0.076|0.292|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.292|0.076|0.0009
82658859|NCT00696020|165034301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.239|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|0.13|0.349|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.349|0.130|<0.0001
82614826|NCT01441440|164946265|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.77||||0.137|TWO_SIDED|95.0|-0.25|1.79||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||1.79|-0.25|0.137
82614827|NCT01441440|164946266|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.21||||0.073|TWO_SIDED|95.0|-0.02|0.45||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline score of CGI-S as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75 mg/day Fixed group|||0.45|-0.02|0.073
82658860|NCT00696020|165034302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.357|STANDARD_ERROR_OF_MEAN|6.76||0.001|TWO_SIDED|95.0|9.057|35.657|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||35.657|9.057|0.0010
82658861|NCT00696020|165034302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.769|STANDARD_ERROR_OF_MEAN|6.687||0.0053|TWO_SIDED|95.0|5.613|31.924|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||31.924|5.613|0.0053
82614828|NCT01441440|164946266|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25||||0.034|TWO_SIDED|95.0|0.02|0.48||Two-sided p-value from an analysis of covariance model including treatment as a factor and baseline score of CGI-S as a covariate.|ANCOVA||Adjusted mean difference = Placebo group - Venlafaxine 75-225 mg/day Flexible group|||0.48|0.02|0.034
82614829|NCT01345123|164946267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0019994|STANDARD_ERROR_OF_MEAN|0.0400918||0.9602|TWO_SIDED|95.0|-0.0765899|0.080588716|||ANCOVA|Covariates: age, gender, Charlson Comorbidity Index, prior year total medical costs pmpm||||.080588716|-.07658990|0.9602
82614830|NCT01345123|164946267|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013717|STANDARD_ERROR_OF_MEAN|0.04018791||0.7329|TWO_SIDED|95.0|-0.0924947|0.06506063|||ANCOVA|||||0.06506063|-0.0924947|0.7329
82614831|NCT01345123|164946268|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.805||||0.0511||95.0|0.647|1.001|||Regression, Logistic|Covariates: Age, Gender, Charlson Comorbidity index, calculated risk of knee replacement, hip replacement, herniated disc surgery (score 1-99)||||1.001|0.647|0.0511
82614832|NCT01345123|164946271|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.31257||||0.0106|TWO_SIDED|95.0|0.06895|0.55618|||ANOVA|||||0.55618|0.06895|0.0106
82614833|NCT01345123|164946271|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.15982||||0.0106|TWO_SIDED|95.0|-0.06477|0.38441|||ANOVA|||||0.38441|-0.06477|0.0106
82658862|NCT00696020|165034302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.954|STANDARD_ERROR_OF_MEAN|6.805|<|0.0001|TWO_SIDED|95.0|13.565|40.343|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||40.343|13.565|<0.0001
82658863|NCT00696020|165034303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.031||0.0048|TWO_SIDED|95.0|0.027|0.149|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.149|0.027|0.0048
82614834|NCT01345123|164946274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009122|STANDARD_ERROR_OF_MEAN|0.0467091||0.8454|TWO_SIDED|95.0|-0.1008434|0.08259938|||ANCOVA|||||0.08259938|-0.1008434|0.8454
82614835|NCT01345123|164946274|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.0183548|STANDARD_ERROR_OF_MEAN|0.04690321||0.6956|TWO_SIDED|95.0|-0.1102961|0.07358642|||ANCOVA|||||0.07358642|-0.1102961|0.6956
82614836|NCT00883558|164946275|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of INSULIN-PH20 NP to insulin lispro was supported if the upper limit of the one-sided 95% confidence interval for the difference in blood glucose between the treatments did not exceed 21.6 mg/dL.|LS Mean Difference|3.06||||0.3217|ONE_SIDED|95.0||14.11|||Mixed Models Analysis|Adjustments included treatment, phase, and treatment sequence as fixed effects and participant within treatment sequence as a random effect.||A total of at least 40 participants were to be enrolled in the study, and 30 participants were expected to complete both treatment cycles. Assuming a standard deviation for blood glucose of 45 milligrams per deciliter (mg/dL) and a true difference between the treatments of 0 mg/dL, the study had approximately 80% power to show that INSULIN-PH20 NP was non-inferior to insulin lispro with respect to the overall two-hour postprandial blood glucose excursion.||14.11||0.3217
82614837|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8||||||95.0|-5.4|3.7||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.7|-5.4|
82614838|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-5.5||||||95.0|-14.2|3.3||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.3|-14.2|
82614839|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-3.7|2.8||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.8|-3.7|
82614840|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-2.9||||||95.0|-6.9|0.7||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.7|-6.9|
82614841|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-3.0|3.0||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.0|-3.0|
82614842|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-2.5||||||95.0|-6.1|0.6||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.6|-6.1|
82614843|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-6.3||||||95.0|-12.1|-0.7||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||-0.7|-12.1|
82614844|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|3.4||||||95.0|-0.9|7.9||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||7.9|-0.9|
82614845|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.3||||||95.0|-4.1|1.1||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-4.1|
82658864|NCT00696020|165034303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.031||0.0056|TWO_SIDED|95.0|0.025|0.146|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.146|0.025|0.0056
82658865|NCT00696020|165034303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.128|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.066|0.189|||ANCOVA|terms for baseline, treatment, and centre (centre random, all other effects fixed).|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.189|0.066|<0.0001
82658866|NCT00696020|165034304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.056||0.0332|TWO_SIDED|95.0|0.01|0.23|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.230|0.010|0.0332
82614846|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|1.7||||||95.0|-3.0|6.4||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.4|-3.0|
82614847|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-5.8|6.7||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||6.7|-5.8|
82614848|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.8||||||95.0|-3.2|1.2||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-3.2|
82614849|NCT00366548|164946279|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-1.3||||||95.0|-3.6|0.3||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||0.3|-3.6|
82614850|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-2.1|1.9||||||For serotype 4 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated.||1.9|-2.1|
82614851|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-1.7|2.6||||||For serotype 6B the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated.||2.6|-1.7|
82614852|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.1||||||For serotype 9V the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-2.4|
82614853|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-2.1|1.9||||||For serotype 14 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.9|-2.1|
82614854|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-1.2|2.3||||||For serotype 18C the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.3|-1.2|
82614855|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.4||||||95.0|-2.0|2.9||||||For serotype 19F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||2.9|-2.0|
82614856|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.9||||||95.0|-3.4|1.1||||||For serotype 23F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-3.4|
82614857|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.8||||||95.0|-0.8|3.0||||||For serotype 1 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||3.0|-0.8|
82614858|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.6||||||95.0|-3.7|4.9||||||For serotype 3 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||4.9|-3.7|
82614859|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.1||||||For serotype 5 the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.1|-2.4|
82614860|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|-0.4||||||95.0|-2.4|1.2||||||For serotype 6A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.2|-2.4|
82614861|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-1.7|1.6||||||For serotype 7F the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.6|-1.7|
82614862|NCT00366548|164946280|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lowest limit of the 2-sided 95% CI for the difference between the 2 groups \> -10%.|Difference|0.0||||||95.0|-1.7|1.6||||||For serotype 19A the difference in percentages between the two groups (13vPnC - 7vPnC) was calculated||1.6|-1.7|
82614863|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.81|1.13||||||For serotype 4 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.81|
82614864|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.9||||||95.0|0.72|1.14||||||For serotype 6B the GMC ratio (13vPnC/7vPnC) was calculated||1.14|0.72|
82614865|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.97||||||95.0|0.85|1.1||||||For serotype 9V the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.85|
82614866|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.79|1.15||||||For serotype 14 the GMC ratio (13vPnC/7vPnC) was calculated||1.15|0.79|
82614867|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.98||||||95.0|0.86|1.13||||||For serotype 18C the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.86|
82614868|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.84||||||95.0|0.72|0.97||||||For serotype 19F the GMC ratio (13vPnC/7vPnC) was calculated||0.97|0.72|
82614869|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.84||||||95.0|0.71|0.98||||||For serotype 23F the GMC ratio (13vPnC/7vPnC) was calculated||0.98|0.71|
82614870|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.94||||||95.0|0.81|1.1||||||For serotype 1 the GMC ratio (13vPnC/7vPnC) was calculated||1.10|0.81|
82614871|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.93||||||95.0|0.83|1.04||||||For serotype 3 the GMC ratio (13vPnC/7vPnC) was calculated||1.04|0.83|
82658867|NCT00696020|165034304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.183|STANDARD_ERROR_OF_MEAN|0.055||0.0011|TWO_SIDED|95.0|0.074|0.292|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.292|0.074|0.0011
82658868|NCT00696020|165034304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.238|STANDARD_ERROR_OF_MEAN|0.056|<|0.0001|TWO_SIDED|95.0|0.128|0.349|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.349|0.128|<0.0001
82658869|NCT00696020|165034305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.867|STANDARD_ERROR_OF_MEAN|6.813||0.0009|TWO_SIDED|95.0|9.462|36.272|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||36.272|9.462|0.0009
82614872|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.97||||||95.0|0.83|1.13||||||For serotype 5 the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.83|
82614873|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.96||||||95.0|0.81|1.13||||||For serotype 6A the GMC ratio (13vPnC/7vPnC) was calculated||1.13|0.81|
82614874|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|1.05||||||95.0|0.93|1.18||||||For serotype 7F the GMC ratio (13vPnC/7vPnC) was calculated||1.18|0.93|
82614875|NCT00366548|164946283|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority for each common serotype was declared if the lower limit of the 2-sided 95% CI for the GMC ratio (13vPnC/7vPnC) \> 0.5 (2-fold criterion).|Difference|0.91||||||95.0|0.8|1.04||||||For serotype 19A the GMC ratio (13vPnC/7vPnC) was calculated||1.04|0.80|
82614876|NCT03463941|164946289|OTHER||||||||||||||||||descriptive|||
82614877|NCT03463941|164946290|OTHER||||||||||||||||||descriptive|||
82614878|NCT03463941|164946292|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82614879|NCT03463941|164946293|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82614880|NCT03463941|164946294|OTHER||||||||||||||||||descriptive|||
82614881|NCT03463941|164946295|OTHER||||||<|0.05|||||||Mixed Models Analysis|||||||<0.05
82614882|NCT02273050|164946296|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.885|STANDARD_ERROR_OF_MEAN|0.0994|<|0.001|TWO_SIDED|95.0|-1.08|-0.689|||ANCOVA|||||-0.689|-1.080|<0.001
82614883|NCT02273050|164946296|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.213|STANDARD_ERROR_OF_MEAN|0.1005||0.034|TWO_SIDED|95.0|-0.41|-0.016|||ANCOVA|||||-0.016|-0.410|0.034
82614884|NCT02273050|164946297|SUPERIORITY_OR_OTHER||Mean Difference (Net)|37.5|||<|0.001|TWO_SIDED|95.0|29.0|46.0|||Fisher Exact|||||46.0|29.0|<0.001
82614885|NCT02273050|164946297|SUPERIORITY_OR_OTHER||Mean Difference (Net)|10.7||||0.011|TWO_SIDED|95.0|2.6|18.9|||Fisher Exact|||||18.9|2.6|0.011
82614886|NCT02273050|164946298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.39|STANDARD_ERROR_OF_MEAN|0.158|<|0.001|TWO_SIDED|95.0|-1.7|-1.08|||ANCOVA|||||-1.08|-1.70|<0.001
82614887|NCT02273050|164946298|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.32|STANDARD_ERROR_OF_MEAN|0.159||0.046|TWO_SIDED|95.0|-0.63|0.0|||ANCOVA|||||0.00|-0.63|0.046
82614888|NCT02273050|164946299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-416.0|STANDARD_ERROR_OF_MEAN|51.54|<|0.001|TWO_SIDED|95.0|-517.3|-314.6|||ANCOVA|||||-314.6|-517.3|<0.001
82614889|NCT02273050|164946299|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-169.3|STANDARD_ERROR_OF_MEAN|52.05||0.001|TWO_SIDED|95.0|-271.7|-66.9|||ANCOVA|||||-66.9|-271.7|0.001
82614890|NCT02273050|164946300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|34.9|||<|0.001|TWO_SIDED|95.0|26.0|43.9|||Fisher Exact|||||43.9|26.0|<0.001
82614891|NCT02273050|164946300|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.6||||0.02|TWO_SIDED|95.0|2.3|20.9|||Fisher Exact|||||20.9|2.3|0.020
82614892|NCT02273050|164946301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.97|STANDARD_ERROR_OF_MEAN|0.37|<|0.001|TWO_SIDED|95.0|-3.7|-2.25|||ANCOVA|||||-2.25|-3.70|<0.001
82614893|NCT02273050|164946301|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.14|STANDARD_ERROR_OF_MEAN|0.374||0.002|TWO_SIDED|95.0|-1.88|-0.41|||ANCOVA|||||-0.41|-1.88|0.002
82658870|NCT00696020|165034305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.743|STANDARD_ERROR_OF_MEAN|6.739||0.0036|TWO_SIDED|95.0|6.484|33.002|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||33.002|6.484|0.0036
82614894|NCT02273050|164946302|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.9|||<|0.001|TWO_SIDED|95.0|-13.3|-4.5|||Fisher Exact|||||-4.5|-13.3|<0.001
82614895|NCT02273050|164946302|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|||>|0.999|TWO_SIDED|95.0|-2.3|2.3|||Fisher Exact|||||2.3|-2.3|>0.999
82614896|NCT00903032|164946303|NON_INFERIORITY_OR_EQUIVALENCE|Previously provided||||||0.003|TWO_SIDED||||||Chi-squared|||Unpaired t tests were used to compare continuous variables, and χ2 testswere used to compare categorical variables across the intervention and usual care. We used a log-rank test to compare the hazardof first hospitalization for MI, revascularization, or death.We used a Wilcoxon rank sum test to compare PDCs between study arms. For all other outcomes, χ2 tests and t testswere used for comparisons, as appropriate.||||0.003
82614897|NCT01405313|164946321|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|2.5||||0.022|TWO_SIDED|80.0|||||t-test, 1 sided|||||||0.022
82614898|NCT01405313|164946322|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|3.0||||0.016|TWO_SIDED|80.0|||||t-test, 1 sided|||||||0.016
82614899|NCT01234402|164946348|OTHER||Hazard Ratio (HR)|0.691||||0.1315|TWO_SIDED|95.0|0.429|1.114|||Log Rank|||Kaplan-Meier methodology estimated median PFS||1.114|0.429|0.1315
82658871|NCT00696020|165034305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|27.793|STANDARD_ERROR_OF_MEAN|6.859|<|0.0001|TWO_SIDED|95.0|14.298|41.287|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||41.287|14.298|<0.0001
82658872|NCT00696020|165034306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.033||0.0079|TWO_SIDED|95.0|0.023|0.152|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.152|0.023|0.0079
82658873|NCT00696020|165034306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.032||0.012|TWO_SIDED|95.0|0.018|0.146|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.146|0.018|0.0120
82614900|NCT01234402|164946348|OTHER||Hazard Ratio (HR)|1.48||||0.0851|TWO_SIDED|95.0|0.938|2.335|||Log Rank|||Kaplan-Meier methodology estimated median PFS||2.335|0.938|0.0851
82614901|NCT01234402|164946349|OTHER||Hazard Ratio (HR)|1.833||||0.0283|TWO_SIDED|95.0|1.06|3.169|||Log Rank|||||3.169|1.060|0.0283
82614902|NCT01234402|164946349|OTHER||Hazard Ratio (HR)|1.468||||0.155|TWO_SIDED|95.0|0.862|2.501|||Log Rank|||||2.501|0.862|0.1550
82614903|NCT01234402|164946350|OTHER|||||||0.6691|||||||Fisher Exact|||||||0.6691
82614904|NCT01234402|164946350|OTHER|||||||0.1743|||||||Fisher Exact|||||||0.1743
82614905|NCT00506077|164946363|SUPERIORITY_OR_OTHER|||||||0.939||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained longitudinal data analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.939
82614906|NCT00506077|164946364|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||P-Value Comments (limit 250 characters): The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Longitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
82614907|NCT00506077|164946365|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Longitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
82614908|NCT00506077|164946366|SUPERIORITY_OR_OTHER|||||||0.736||95.0||||The Benjamini \& Hochberg False Discovery Rate (FDR) approach at critical value 0.05 was used among 1 primary and 3 secondary cognition efficacy endpoints to control the false positive rate.|constrained Logitudinal Data Analysis|The model factors were treatment, sequence, period, week (as categorical variable), site, treatment-by-week, sequence-by-week, and period-by-week.||||||0.736
82614909|NCT00316303|164946372|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
82614910|NCT00316303|164946373|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
82614911|NCT00316303|164946374|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wald Chi-squared|||||||<0.001
82614912|NCT00316303|164946375|SUPERIORITY_OR_OTHER|||||||0.011|||||||Wald Chi-squared|||||||0.011
82614913|NCT00316303|164946376|SUPERIORITY_OR_OTHER|||||||0.6|||||||Chi-squared|||||||0.6
82614914|NCT00385268|164946377|SUPERIORITY||Odds Ratio (OR)|1.68||||0.44|TWO_SIDED|95.0|0.55|5.14|||GEE model of repeated measures|GEE on repeated binary indicators of BE positive / negative test||||5.14|0.55|0.44
82614915|NCT01757704|164946391|SUPERIORITY_OR_OTHER||Median Difference (Net)|56.0|||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82614916|NCT02749721|164946399|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82614917|NCT02749721|164946400|OTHER|||||||0.012|||||||Paired t-test|||||||0.012
82614918|NCT02749721|164946401|OTHER||Pearson's R|0.125||||0.61|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (amplitude) baseline scores||||0.610
82614919|NCT02749721|164946401|OTHER||Pearson's R|-0.294||||0.288|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (amplitude) baseline scores||||0.288
82614920|NCT02749721|164946401|OTHER||Pearson's R|-0.405||||0.134|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (amplitude) baseline scores||||0.134
82614921|NCT02749721|164946401|OTHER||Pearson's R|-0.397||||0.083|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (amplitude) baseline scores||||0.083
82614922|NCT02749721|164946401|OTHER||Pearson's R|-0.476||||0.034|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (amplitude) baseline scores||||0.034
82614923|NCT02749721|164946401|OTHER||Pearson's R|-0.509||||0.031|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 baseline scores||||0.031
82658874|NCT00696020|165034306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.144|STANDARD_ERROR_OF_MEAN|0.033|<|0.0001|TWO_SIDED|95.0|0.08|0.209|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.209|0.080|<0.0001
82614924|NCT02749721|164946401|OTHER||Pearson's R|-0.197||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3a (amplitude) baseline scores||||0.500
82614925|NCT02749721|164946401|OTHER||Pearson's R|0.376||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b baseline scores||||0.185
82614926|NCT02749721|164946401|OTHER||Pearson's R|-0.108||||0.659|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 baseline scores||||0.659
82614927|NCT02749721|164946401|OTHER||Pearson's R|0.125||||0.611|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a baseline scores||||0.611
82614928|NCT02749721|164946401|OTHER||Pearson's R|-0.111||||0.671|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MADRS (baseline to endpoint percent change)||||0.671
82614929|NCT02749721|164946401|OTHER||Pearson's R|-0.026||||0.931|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MADRS (baseline to endpoint percent change)||||0.931
82614930|NCT02749721|164946401|OTHER||Pearson's R|0.516||||0.155|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MADRS (baseline to endpoint percent change)||||0.155
82658875|NCT00696020|165034307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.06||0.0296|TWO_SIDED|95.0|0.013|0.249|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.249|0.013|0.0296
82614931|NCT02749721|164946401|OTHER||Pearson's R|0.268||||0.297|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MADRS (baseline to endpoint percent change)||||0.297
82614932|NCT02749721|164946401|OTHER||Pearson's R|0.184||||0.494|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MADRS (baseline to endpoint percent change)||||0.494
82614933|NCT02749721|164946401|OTHER||Pearson's R|-0.065||||0.811|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and DSST (baseline to endpoint percent change)||||0.811
82614934|NCT02749721|164946401|OTHER||Pearson's R|-0.048||||0.877|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and DSST (baseline to endpoint percent change)||||0.877
82614935|NCT02749721|164946401|OTHER||Pearson's R|-0.246||||0.557|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and DSST (baseline to endpoint percent change)||||0.557
82614936|NCT02749721|164946401|OTHER||Pearson's R|0.182||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and DSST (baseline to endpoint percent change)||||0.500
82614937|NCT02749721|164946401|OTHER||Pearson's R|0.288||||0.297|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and DSST (baseline to endpoint percent change)||||0.297
82614938|NCT02749721|164946401|OTHER|Differences in BNA scores between MDD and healthy subjects were analyzed for baseline visits using an ANCOVA model with group as a factor, and age as a covariate.|F statistic|0.318||||0.575|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.575
82614939|NCT02749721|164946401|OTHER||F statistic|0.378||||0.541|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.541
82614940|NCT02749721|164946401|OTHER||F|0.012||||0.912|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.912
82614941|NCT02749721|164946401|OTHER||F statistic|1.586||||0.214|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.214
82614942|NCT02749721|164946401|OTHER||F statistic|0.453||||0.504|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.504
82614943|NCT02749721|164946401|OTHER||F statistic|0.37||||0.546|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.546
82614944|NCT02749721|164946401|OTHER||F statistic|0.017||||0.895|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.895
82614945|NCT02749721|164946401|OTHER||F statistic|0.179||||0.673|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.673
82614946|NCT02749721|164946401|OTHER||F statistic|1.241||||0.27|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a amplitudes at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.27
82614947|NCT02749721|164946401|OTHER||F statistic|0.042||||0.837|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a amplitudes at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.837
82614948|NCT02749721|164946402|OTHER||Pearson's R|0.359||||0.143|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 (Latency) baseline scores||||0.143
82614949|NCT02749721|164946402|OTHER||Pearson's R|-0.197||||0.5|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (latency) baseline scores||||0.500
82614950|NCT02749721|164946402|OTHER||Pearson's R|0.277||||0.337|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (latency) baseline scores||||0.337
82614951|NCT02749721|164946402|OTHER||Pearson's R|0.052||||0.832|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 (latency) baseline scores||||0.832
82614952|NCT02749721|164946402|OTHER||Pearson's R|0.103||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a (latency) baseline scores||||0.68
82614953|NCT02749721|164946402|OTHER||Pearson's R|-0.074||||0.777|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P200 (Latency) baseline to endpoint percentage change||||0.777
82658876|NCT00696020|165034307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.204|STANDARD_ERROR_OF_MEAN|0.059||0.0007|TWO_SIDED|95.0|0.087|0.32|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.320|0.087|0.0007
82658877|NCT00696020|165034307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.06|<|0.0001|TWO_SIDED|95.0|0.147|0.383|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.383|0.147|<0.0001
82614954|NCT02749721|164946402|OTHER||Pearson's R|0.061||||0.834|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3a (Latency) baseline to endpoint percentage change||||0.834
82614955|NCT02749721|164946402|OTHER||Pearson's R|-0.006||||0.988|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and AOB P3b (Latency) baseline to endpoint percentage change||||0.988
82614956|NCT02749721|164946402|OTHER||Pearson's R|0.073||||0.788|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P200 (Latency) baseline to endpoint percentage change||||0.788
82614957|NCT02749721|164946402|OTHER||Pearson's R|0.375||||0.168|TWO_SIDED||||||Pearson's correlation|||Correlation between DSST and VGNG P3a (Latency) baseline to endpoint percentage change||||0.168
82614958|NCT02749721|164946402|OTHER||Pearson's R|-0.392||||0.108|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (Latency) baseline scores||||0.108
82614959|NCT02749721|164946402|OTHER||Pearson's R|0.415||||0.124|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (Latency) baseline scores||||0.124
82614960|NCT02749721|164946402|OTHER||Pearson's R|0.362||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (Latency) baseline scores||||0.185
82614961|NCT02749721|164946402|OTHER||Pearson's R|-0.023||||0.923|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (Latency) baseline scores||||0.923
82614962|NCT02749721|164946402|OTHER||Pearson's R|0.071||||0.77|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (Latency) baseline scores||||0.77
82614963|NCT02749721|164946402|OTHER||Pearson's R|0.097||||0.712|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P200 (Latency) baseline to endpoint percent change||||0.712
82614964|NCT02749721|164946402|OTHER||Pearson's R|-0.058||||0.845|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3a (Latency) baseline to endpoint percent change||||0.845
82614965|NCT02749721|164946402|OTHER||Pearson's R|0.194||||0.616|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and AOB P3b (Latency) baseline to endpoint percent change||||0.616
82614966|NCT02749721|164946402|OTHER||Pearson's R|0.255||||0.323|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P200 (Latency) baseline to endpoint percent change||||0.323
82614967|NCT02749721|164946402|OTHER||Pearson's R|-0.193||||0.473|TWO_SIDED||||||Pearson's correlation|||Correlation between MADRS and VGNG P3a (Latency) baseline to endpoint percent change||||0.473
82614968|NCT02749721|164946402|OTHER||F statistic|4.909||||0.031|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.031
82614969|NCT02749721|164946402|OTHER||F statistic|1.189||||0.281|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P200 latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.281
82614970|NCT02749721|164946402|OTHER||F statistic|0.001||||0.966|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.966
82614971|NCT02749721|164946402|OTHER||F statistic|4.121||||0.048|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3a latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.048
82614972|NCT02749721|164946402|OTHER||F statistic|8.573||||0.005|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.005
82614973|NCT02749721|164946402|OTHER||F statistic|2.823||||0.101|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' AOB P3b latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.101
82614974|NCT02749721|164946402|OTHER||F statistic|0.806||||0.373|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.373
82614975|NCT02749721|164946402|OTHER||F statistic|1.822||||0.183|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P200 latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.183
82614976|NCT02749721|164946402|OTHER||F statistic|0.516||||0.475|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a latencies at baseline.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.475
82614977|NCT02749721|164946402|OTHER||F statistic|0.214||||0.645|TWO_SIDED||||||ANCOVA|||"A comparison between vortioxetine arm patients' and healthy controls' VGNG P3a latencies at Endpoint.~The healthy control group subjects have been previously documented in NCT02418208 (Clinical trials of the Rockies, Inc. Denver, Colorado, US and Clinical Research Center of Nevada Las Vegas, Nevada, US ) and in NCT02875496 (The Villages Health, The Villages, Florida, US)."||||0.645
82614978|NCT02749721|164946403|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82658878|NCT00696020|165034308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.414|STANDARD_ERROR_OF_MEAN|7.057||0.001|TWO_SIDED|95.0|9.529|37.3|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||37.300|9.529|0.0010
82658879|NCT00696020|165034308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.695|STANDARD_ERROR_OF_MEAN|6.981||0.0078|TWO_SIDED|95.0|4.961|32.43|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||32.430|4.961|0.0078
82658880|NCT00696020|165034308|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.357|STANDARD_ERROR_OF_MEAN|7.105|<|0.0001|TWO_SIDED|95.0|15.379|43.335|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||43.335|15.379|<0.0001
82658881|NCT00696020|165034310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.048||0.3517|TWO_SIDED|95.0|-0.049|0.138|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.138|-0.049|0.3517
82614979|NCT02749721|164946404|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82614980|NCT02749721|164946405|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82614981|NCT02749721|164946406|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82614982|NCT02749721|164946407|OTHER||Pearson's R|-0.044||||0.859|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-28 baseline scores||||0.859
82614983|NCT02749721|164946407|OTHER||Pearson's R|-0.211||||0.451|TWO_SIDED||||||Pearson's correlation|||AOB P3a (amplitude)||||0.451
82614984|NCT02749721|164946407|OTHER||Pearson's R|0.015||||0.957|TWO_SIDED||||||Pearson's correlation|||AOB P3b (amplitude)||||0.957
82614985|NCT02749721|164946407|OTHER||Pearson's R|-0.322||||0.166|TWO_SIDED||||||Pearson's correlation|||VGNG P200 (amplitude)||||0.166
82614986|NCT02749721|164946407|OTHER||Pearson's R|-0.374||||0.105|TWO_SIDED||||||Pearson's correlation|||VGNG P3a (amplitude)||||0.105
82614987|NCT02749721|164946407|OTHER||Pearson's R|-0.137||||0.601|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-28 baseline to endpoint percent change||||0.601
82614988|NCT02749721|164946407|OTHER||Pearson's R|-0.234||||0.421|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-28 baseline to endpoint percent change||||0.421
82614989|NCT02749721|164946407|OTHER||Pearson's R|0.378||||0.316|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-28 baseline to endpoint percent change||||0.316
82614990|NCT02749721|164946407|OTHER||Pearson's R|0.185||||0.478|TWO_SIDED||||||Pearson's correlation|||||||0.478
82614991|NCT02749721|164946407|OTHER||Pearson's R|0.011||||0.969|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-28 baseline to endpoint percent change||||0.969
82614992|NCT02749721|164946407|OTHER||Pearson's R|-0.018||||0.943|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-17 baseline scores||||0.943
82614993|NCT02749721|164946407|OTHER||Pearson's R|-0.074||||0.795|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-17 baseline scores||||0.795
82614994|NCT02749721|164946407|OTHER||Pearson's R|-0.011||||0.969|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-17 baseline scores||||0.969
82614995|NCT02749721|164946407|OTHER||Pearson's R|-0.197||||0.406|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and HDRS-17 baseline scores||||0.406
82614996|NCT02749721|164946407|OTHER||Pearson's R|-0.309||||0.185|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and HDRS-17 baseline scores||||0.185
82614997|NCT02749721|164946407|OTHER||Pearson's R|-0.195||||0.454|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and HDRS-17 baseline to endpoint percent change||||0.454
82614998|NCT02749721|164946407|OTHER||Pearson's R|-0.162||||0.579|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and HDRS-17 baseline to endpoint percent change||||0.579
82614999|NCT02749721|164946407|OTHER||Pearson's R|0.232||||0.549|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and HDRS-17 baseline to endpoint percent change||||0.549
82615000|NCT02749721|164946407|OTHER||Pearson's R|0.169||||0.518|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and HDRS-17 baseline to endpoint percent change||||0.518
82615001|NCT02749721|164946407|OTHER||Pearson's R|0.027||||0.922|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and HDRS-17 baseline to endpoint percent change||||0.922
82615002|NCT02749721|164946407|OTHER||Pearson's R|-0.064||||0.796|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and QIDS-SR baseline scores||||0.796
82615003|NCT02749721|164946407|OTHER||Pearson's R|-0.506||||0.054|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and QIDS-SR baseline scores||||0.054
82615004|NCT02749721|164946407|OTHER||Pearson's R|0.002||||0.995|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and QIDS-SR baseline scores||||0.995
82615005|NCT02749721|164946407|OTHER||Pearson's R|0.102||||0.668|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and QIDS-SR baseline scores||||0.668
82658882|NCT00696020|165034310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.048||0.3171|TWO_SIDED|95.0|-0.046|0.143|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.143|-0.046|0.3171
82658883|NCT00696020|165034310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.048||0.4654|TWO_SIDED|95.0|-0.06|0.13|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||0.130|-0.060|0.4654
82658884|NCT00696020|165034311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.106|STANDARD_ERROR_OF_MEAN|7.704||0.0899|TWO_SIDED|95.0|-2.055|28.267|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|2 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||28.267|-2.055|0.0899
82499435|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.99|STANDARD_ERROR_OF_MEAN|8.25||||90.0|-26.6|0.63|||ANCOVA|||Extension Month 15; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||0.63|-26.60|
82615006|NCT02749721|164946407|OTHER||Pearson's R|0.037||||0.875|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and QIDS-SR baseline scores||||0.875
82615007|NCT02749721|164946407|OTHER||Pearson's R|-0.049||||0.852|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and QIDS-SR baseline to endpoint percent change||||0.852
82615008|NCT02749721|164946407|OTHER||Pearson's R|-0.34||||0.234|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and QIDS-SR baseline to endpoint percent change||||0.234
82615009|NCT02749721|164946407|OTHER||Pearson's R|0.655||||0.056|TWO_SIDED||||||Pearson's correlation|||||||0.056
82615010|NCT02749721|164946407|OTHER||Pearson's R|0.297||||0.248|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and QIDS-SR baseline to endpoint percent change||||0.248
82615011|NCT02749721|164946407|OTHER||Pearson's R|0.179||||0.507|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and QIDS-SR baseline to endpoint percent change||||0.507
82615012|NCT02749721|164946407|OTHER||Pearson's R|0.049||||0.841|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and PDQ baseline scores||||0.841
82615013|NCT02749721|164946407|OTHER||Pearson's R|-0.185||||0.508|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and PDQ baseline scores||||0.508
82615014|NCT02749721|164946407|OTHER||Pearson's R|-0.03||||0.916|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and PDQ baseline scores||||0.916
82615015|NCT02749721|164946407|OTHER||Pearson's R|-0.345||||0.147|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and PDQ baseline scores||||0.147
82615016|NCT02749721|164946407|OTHER||Pearson's R|-0.284||||0.225|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and PDQ baseline scores||||0.225
82615017|NCT02749721|164946407|OTHER||Pearson's R|-0.044||||0.868|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and PDQ baseline to endpoint percent change||||0.868
82615018|NCT02749721|164946407|OTHER||Pearson's R|-0.18||||0.537|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and PDQ baseline to endpoint percent change||||0.537
82615019|NCT02749721|164946407|OTHER||Pearson's R|0.476||||0.195|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and PDQ baseline to endpoint percent change||||0.195
82615020|NCT02749721|164946407|OTHER||Pearson's R|0.594||||0.015|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and PDQ baseline to endpoint percent change||||0.015
82615021|NCT02749721|164946407|OTHER||Pearson's R|-0.009||||0.972|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and PDQ baseline to endpoint percent change||||0.972
82615022|NCT02749721|164946407|OTHER||Pearson's R|0.067||||0.785|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MGH-CPFQ baseline scores||||0.785
82615023|NCT02749721|164946407|OTHER||Pearson's R|-0.129||||0.646|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MGH-CPFQ baseline scores||||0.646
82615024|NCT02749721|164946407|OTHER||Pearson's R|0.364||||0.182|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MGH-CPFQ baseline scores||||0.182
82615025|NCT02749721|164946407|OTHER||Pearson's R|-0.414||||0.069|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MGH-CPFQ baseline scores||||0.069
82615026|NCT02749721|164946407|OTHER||Pearson's R|-0.416||||0.068|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MGH-CPFQ baseline scores||||0.068
82615027|NCT02749721|164946407|OTHER||Pearson's R|-0.023||||0.929|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.929
82615028|NCT02749721|164946407|OTHER||Pearson's R|-0.074||||0.802|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.802
82615029|NCT02749721|164946407|OTHER||Pearson's R|0.518||||0.153|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.153
82615030|NCT02749721|164946407|OTHER||Pearson's R|0.268||||0.298|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.298
82615031|NCT02749721|164946407|OTHER||Pearson's R|-0.001||||0.996|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and MGH-CPFQ baseline to endpoint percent change||||0.996
82615032|NCT02749721|164946407|OTHER||Pearson's R|0.242||||0.531|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and WLQ baseline scores||||0.531
82615033|NCT02749721|164946407|OTHER||Pearson's R|-0.598||||0.21|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and WLQ baseline scores||||0.210
82615034|NCT02749721|164946407|OTHER||Pearson's R|0.054||||0.899|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and WLQ baseline scores||||0.899
82615035|NCT02749721|164946407|OTHER||Pearson's R|0.568||||0.087|TWO_SIDED||||||Pearson's correlation|||||||0.087
82615036|NCT02749721|164946407|OTHER||Pearson's R|0.568||||0.087|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and WLQ baseline scores||||0.087
82615037|NCT02749721|164946407|OTHER||Pearson's R|0.231||||0.55|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (amplitude) and WLQ baseline to endpoint percent change||||0.550
82615038|NCT02749721|164946407|OTHER||Pearson's R|0.158||||0.766|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (amplitude) and WLQ baseline to endpoint percent change||||0.766
82615039|NCT02749721|164946407|OTHER||Pearson's R|-0.406||||0.498|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (amplitude) and WLQ baseline to endpoint percent change||||0.498
82615040|NCT02749721|164946407|OTHER||Pearson's R|0.221||||0.599|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (amplitude) and WLQ baseline to endpoint percent change||||0.599
82615041|NCT02749721|164946407|OTHER||Pearson's R|0.679||||0.064|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (amplitude) and WLQ baseline to endpoint percent change||||0.064
82615042|NCT02749721|164946408|OTHER||Pearson's R|-0.038||||0.881|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-28 baseline scores||||0.881
82615043|NCT02749721|164946408|OTHER||Pearson's R|0.299||||0.279|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-28 baseline scores||||0.279
82615044|NCT02749721|164946408|OTHER||Pearson's R|0.538||||0.039|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-28 baseline scores||||0.039
82615045|NCT02749721|164946408|OTHER||Pearson's R|-0.018||||0.94|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-28 baseline scores||||0.940
82615046|NCT02749721|164946408|OTHER||Pearson's R|0.107||||0.65|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-28 baseline scores||||0.65
82615047|NCT02749721|164946408|OTHER||Pearson's R|0.247||||0.34|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-28 baseline to endpoint percentage change||||0.340
82615048|NCT02749721|164946408|OTHER||Pearson's R|0.067||||0.819|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-28 baseline to endpoint percentage change||||0.819
82615049|NCT02749721|164946408|OTHER||Pearson's R|0.321||||0.4|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-28 baseline to endpoint percentage change||||0.400
82615050|NCT02749721|164946408|OTHER||Pearson's R|0.279||||0.278|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-28 baseline to endpoint percentage change||||0.278
82615051|NCT02749721|164946408|OTHER||Pearson's R|-0.136||||0.614|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-28 baseline to endpoint percentage change||||0.614
82615052|NCT02749721|164946408|OTHER||Pearson's R|0.0||||0.999|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-17 baseline scores||||0.999
82615053|NCT02749721|164946408|OTHER||Pearson's R|0.193||||0.491|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-17 baseline scores||||0.491
82615054|NCT02749721|164946408|OTHER||Pearson's R|0.567||||0.028|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-17 baseline scores||||0.028
82615055|NCT02749721|164946408|OTHER||Pearson's R|-0.03||||0.9|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and HDRS-17 baseline scores||||0.900
82615056|NCT02749721|164946408|OTHER||Pearson's R|0.141||||0.55|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-17 baseline scores||||0.55
82615057|NCT02749721|164946408|OTHER||Pearson's R|0.231||||0.373|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and HDRS-17 baseline to endpoint percent change||||0.373
82615058|NCT02749721|164946408|OTHER||Pearson's R|0.019||||0.949|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and HDRS-17 baseline to endpoint percent change||||0.949
82615059|NCT02749721|164946408|OTHER||Pearson's R|0.122||||0.754|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and HDRS-17 baseline to endpoint percent change||||0.754
82615060|NCT02749721|164946408|OTHER||Pearson's R|0.176||||0.499|TWO_SIDED||||||0.176|||Correlation between VGNG P200 (latency) and HDRS-17 baseline to endpoint percent change||||0.499
82615061|NCT02749721|164946408|OTHER||Pearson's R|-0.162||||0.549|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and HDRS-17 baseline to endpoint percent change||||0.549
82615062|NCT02749721|164946408|OTHER||Pearson's R|-0.126||||0.617|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and QIDS-SR baseline scores||||0.617
82615063|NCT02749721|164946408|OTHER||Pearson's R|0.1||||0.722|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and QIDS-SR baseline scores||||0.722
82615064|NCT02749721|164946408|OTHER||Pearson's R|0.249||||0.371|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and QIDS-SR baseline scores||||0.371
82615065|NCT02749721|164946408|OTHER||Pearson's R|-0.072||||0.764|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and QIDS-SR baseline scores||||0.764
82615066|NCT02749721|164946408|OTHER||Pearson's R|-0.225||||0.34|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and QIDS-SR baseline scores||||0.34
82615067|NCT02749721|164946408|OTHER||Pearson's R|0.148||||0.57|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and QIDS-SR baseline to endpoint percent change||||0.570
82615068|NCT02749721|164946408|OTHER||Pearson's R|0.228||||0.434|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and QIDS-SR baseline to endpoint percent change||||0.434
82615069|NCT02749721|164946408|OTHER||Pearson's R|0.22||||0.569|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and QIDS-SR baseline to endpoint percent change||||0.569
82615070|NCT02749721|164946408|OTHER||Pearson's R|0.645||||0.005|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and QIDS-SR baseline to endpoint percent change||||0.005
82615071|NCT02749721|164946408|OTHER||Pearson's R|0.105||||0.698|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and QIDS-SR baseline to endpoint percent change||||0.698
82615072|NCT02749721|164946408|OTHER||Pearson's R|-0.073||||0.774|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and PDQ baseline scores||||0.774
82615073|NCT02749721|164946408|OTHER||Pearson's R|0.577||||0.024|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and PDQ baseline score||||0.024
82615074|NCT02749721|164946408|OTHER||Pearson's R|0.146||||0.603|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and PDQ baseline scores||||0.603
82615075|NCT02749721|164946408|OTHER||Pearson's R|-0.232||||0.326|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and PDQ baseline scores||||0.326
82615076|NCT02749721|164946408|OTHER||Pearson's R|0.098||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and PDQ baseline scores||||0.68
82615077|NCT02749721|164946408|OTHER||Pearson's R|-0.073||||0.774|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and PDQ baseline to endpoint percent change||||0.774
82615078|NCT02749721|164946408|OTHER||Pearson's R|0.577||||0.024|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and PDQ baseline to endpoint percent change||||0.024
82615079|NCT02749721|164946408|OTHER||Pearson's R|0.146||||0.603|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and PDQ baseline to endpoint percent change||||0.603
82615080|NCT02749721|164946408|OTHER||Pearson's R|-0.232||||0.326|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and PDQ baseline to endpoint percent change||||0.326
82615081|NCT02749721|164946408|OTHER||Pearson's R|0.098||||0.68|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and PDQ baseline to endpoint percent change||||0.68
82615082|NCT02749721|164946408|OTHER||Pearson's R|-0.1||||0.692|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and MGH-CPFQ baseline scores||||0.692
82615083|NCT02749721|164946408|OTHER||Pearson's R|0.498||||0.059|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and MGH-CPFQ baseline scores||||0.059
82615084|NCT02749721|164946408|OTHER||Pearson's R|-0.332||||0.227|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and MGH-CPFQ baseline scores||||0.227
82615085|NCT02749721|164946408|OTHER||Pearson's R|-0.125||||0.6|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and MGH-CPFQ baseline scores||||0.600
82615086|NCT02749721|164946408|OTHER||Pearson's R|-0.096||||0.69|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and MGH-CPFQ baseline scores||||0.69
82615087|NCT02749721|164946408|OTHER||Pearson's R|0.259||||0.315|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and MGH-CPFQ baseline to endpoint percent change||||0.315
82615088|NCT02749721|164946408|OTHER||Pearson's R|0.002||||0.996|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and MGH-CPFQ baseline to endpoint percent change||||0.996
82615089|NCT02749721|164946408|OTHER||Pearson's R|0.234||||0.544|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and MGH-CPFQ baseline to endpoint percent change||||0.544
82615090|NCT02749721|164946408|OTHER||Pearson's R|0.455||||0.066|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and MGH-CPFQ baseline to endpoint percent change||||0.066
82615091|NCT02749721|164946408|OTHER||Pearson's R|-0.28||||0.293|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and MGH-CPFQ baseline to endpoint percent change||||0.293
82615092|NCT02749721|164946408|OTHER||Pearson's R|0.783||||0.013|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and WLQ baseline scores||||0.013
82615093|NCT02749721|164946408|OTHER||Pearson's R|0.135||||0.799|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and WLQ baseline scores||||0.799
82615094|NCT02749721|164946408|OTHER||Pearson's R|0.506||||0.201|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and WLQ baseline scores||||0.201
82615095|NCT02749721|164946408|OTHER||Pearson's R|-0.197||||0.586|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and WLQ baseline scores||||0.586
82615096|NCT02749721|164946408|OTHER||Pearson's R|-0.024||||0.95|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and WLQ baseline scores||||0.95
82615097|NCT02749721|164946408|OTHER||Pearson's R|0.039||||0.92|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P200 (latency) and WLQ baseline to endpoint percent change||||0.920
82615098|NCT02749721|164946408|OTHER||Pearson's R|0.113||||0.831|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3a (latency) and WLQ baseline to endpoint percent change||||0.831
82615099|NCT02749721|164946408|OTHER||Pearson's R|0.655||||0.23|TWO_SIDED||||||Pearson's correlation|||Correlation between AOB P3b (latency) and WLQ baseline to endpoint percent change||||0.230
82615100|NCT02749721|164946408|OTHER||Pearson's R|-0.602||||0.115|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P200 (latency) and WLQ baseline to endpoint percent change||||0.115
82615101|NCT02749721|164946408|OTHER||Pearson's R|-0.313||||0.45|TWO_SIDED||||||Pearson's correlation|||Correlation between VGNG P3a (latency) and WLQ baseline to endpoint percent change||||0.450
82615102|NCT01254396|164946409|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|41.35|||||TWO_SIDED|90.0|32.4|52.76||||||Natural log transformed Cmax of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||52.76|32.40|
82615103|NCT01254396|164946411|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|93.42|||||TWO_SIDED|90.0|80.23|108.78||||||Natural log transformed AUC (0-∞) of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||108.78|80.23|
82658885|NCT00696020|165034311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.817|STANDARD_ERROR_OF_MEAN|7.759||0.0111|TWO_SIDED|95.0|4.549|35.084|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed).|5 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||35.084|4.549|0.0111
82615104|NCT01254396|164946412|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Adjusted Means|87.66|||||TWO_SIDED|90.0|77.62|98.99||||||Natural log transformed AUClast of sildenafil was analyzed using a mixed effect model with sequence, period and treatment as fixed effects and participant within sequence as a random effect. The adjusted mean differences and 90% confidence intervals for the differences were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% confidence intervals for the ratios.||98.99|77.62|
82615105|NCT01929044|164946416|NON_INFERIORITY_OR_EQUIVALENCE|One-sided test relative to the non-inferiority margin of 1|Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-0.88|0.04|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|Restricted maximum likelihood (REML) -repeated measures approach||0.04|-0.88|<0.0001
82615106|NCT01929044|164946416|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.23||0.0743|TWO_SIDED|95.0|-0.88|0.04|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.04|-0.88|0.0743
82615107|NCT01929044|164946417|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.2||0.121|TWO_SIDED|95.0|-0.7|0.08|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.08|-0.70|0.1210
82615108|NCT01929044|164946418|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0658|TWO_SIDED|95.0|-0.82|0.03|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||0.03|-0.82|0.0658
82615109|NCT01929044|164946419|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.2||0.022|TWO_SIDED|95.0|-0.85|-0.07|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||-0.07|-0.85|0.0220
82615110|NCT01929044|164946420|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0149|TWO_SIDED|95.0|-0.81|-0.09|||Mixed Models Analysis|Kenward-Roger approximation is used to estimate the denominator degrees of freedom. An unstructured covariance matrix is used.|REML-based repeated measures approach includes baseline pain intensity as continuous covariate, treatment, centre, time and treatment-time interaction as fixed effects. The difference was calculated as Buscopan minus 654-II.|||-0.09|-0.81|0.0149
82615111|NCT01929044|164946421|SUPERIORITY_OR_OTHER|||||||0.0113|||||||van Elteren test|The van Elteren test stratifying for centre (Cochran-Mantel-Haenszel test using modified ridit scores) was performed.||||||0.0113
82615112|NCT01929044|164946422|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.64||||0.0992|TWO_SIDED|95.0|0.37|1.09|||Regression, Logistic|A logistic regression model was used to evaluate the response with treatment as fixed effect and baseline pain intensity as continuous covariate.|Exact 95% confidence interval obtained by Clopper and Pearson approach.|||1.09|0.37|0.0992
82615113|NCT01555463|164946425|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel|center-adjusted||||||<.001
82615114|NCT01555463|164946426|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|F-test for treatment effect of the ANCOVA model with treatment group and study center as the factors and baseline lesion count as the covariate.||||||<.001
82615115|NCT02026271|164946445|OTHER||||||||||||||||||"MTD was not determined in this study. Dose escalation decision rules were based on a standard 3+3 design modified to independently evaluate the two stratified subject groups that may exhibit different safety and tolerability profiles.~The study was planned to explore 4 veledimex (V) dose cohorts of 20, 40, 80 and 120 mg once daily, and two doses of Ad-RTS-hIL-12 (2x10\^11vp and 1x10\^12vp). Dose cohorts were treated at 10, 20, 30 and 40 mg of V. Only one dose of Ad-RTS-hIL-12 was explored (2x10\^11vp).~If ≥ 33% of subjects in the expansion cohort experience DLTs, additional subjects may be enrolled at the next lower dose, or at an intermediate dose, as recommended by the SRC.~Grp 1: After 20mg cohort, SRC approved 40mg, which was deemed the MAD due to DLTs. SRC approved 30mg cohort to determine MTD, but due to poor compliance, SRC opened a 20mg exp cohort and then an intermediate 10mg cohort. Based on V compliance and efficacy, 20mg was determined to be the optimal dose."|||
82615116|NCT00374907|164946457|SUPERIORITY_OR_OTHER||Adjusted Percent Difference|18.5||||0.035|TWO_SIDED|95.0|1.3|38.7||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted percent difference for saxagliptin 5 mg vs placebo in Week 12 (LOCF) to baseline ratio. Adjusted for baseline.|ANCOVA model: logarithm(post/pre) = logarithm(pre) treatment|||38.7|1.3|0.0350
82615117|NCT00374907|164946458|SUPERIORITY_OR_OTHER||Adjusted Percent Difference|27.9||||0.0204|TWO_SIDED|95.0|4.2|57.1||Between-group comparisons significant at alpha = 0.05, significance testing based on hierarchical testing. Primary and secondary endpoints are presented in order of testing.|ANCOVA|Adjusted percent difference for saxagliptin 5 mg vs placebo in Week 12 (LOCF) to baseline ratio. Adjusted for baseline.|ANCOVA model: logarithm(post/pre) = logarithm(pre) treatment|||57.1|4.2|0.0204
82615118|NCT00576693|164946504|SUPERIORITY_OR_OTHER|||||||0.0252|||||||Log Rank|||The statistical analysis was based on a comparison of the of the two treatment groups with respect to the time to a primary outcome using the logrank test.||||0.0252
82658886|NCT00696020|165034311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.893|STANDARD_ERROR_OF_MEAN|7.844||0.0166|TWO_SIDED|95.0|3.458|34.329|||ANCOVA|terms for baseline, treatment, centre (centre random, all other effects fixed)|10 µg Olodaterol + 5 µg Tiotropium minus 5 µg Tiotropium.|||34.329|3.458|0.0166
82658887|NCT00624065|165034324|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.968||||0.8822||95.0|0.63|1.49|||Regression, Logistic|||||1.49|0.63|0.8822
82615119|NCT00540449|164946505|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-0.4|||<|0.0001||95.0|-5.9|5.2||Significance level was set at 2.5% (one-sided). No adjustment of p-value for multiple comparisons, since there was only single comparison for the primary endpoint.|Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|Assuming a response rate of 75% at 48 weeks for both treatment groups, 340 subjects were needed per treatment (TMC278 or EFV) to establish non-inferiority of TMC278 versus EFV with a maximum allowable difference of 12% and a 1-sided significance level of 2.5%, to yield 95% power.||5.2|-5.9|<0.0001
82615120|NCT00540449|164946506|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|0.3|||<|0.0001||95.0|-5.4|5.9|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||5.9|-5.4|<0.0001
82615121|NCT00540449|164946507|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-3.2||||0.0055||95.0|-9.4|3.1|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.|Difference in proportion responders was estimated through the logistic regression model.|||3.1|-9.4|0.0055
82615122|NCT00540449|164946508|NON_INFERIORITY_OR_EQUIVALENCE|If the lower limit of the 95% 2-sided confidence interval of the difference in proportions (TMC278 - EFV) exceeds -12%, non-inferiority of TMC278 versus EFV can be concluded.|Difference in proportion of response|-1.7||||0.0013||95.0|-8.0|4.5|||Regression, Logistic|Logistic regression model included treatment arm as factor and baseline (log10) viral load as covariate.||||4.5|-8.0|0.0013
82615123|NCT03283163|164946523|OTHER|||||||0.04|||||||t-test, 2 sided|||paired samples t-test to compare PTSD severity from baseline to endpoint (week 13).||||.040
82615124|NCT03283163|164946524|OTHER|||||||0.69|||||||t-test, 2 sided|||paired samples t-test to compare degree of pain-related interference from baseline to endpoint (week 13).||||.69
82615125|NCT03283163|164946525|OTHER|||||||0.098|||||||t-test, 2 sided|||paired samples t-test to compare severity of pain catastrophizing from baseline to endpoint (week 13).||||.098
82615126|NCT03283163|164946526|OTHER|||||||0.194|||||||t-test, 2 sided|||paired samples t-tests were conducted for comparison of resting ALLO+PA levels from baseline to endpoint (week 13).||||.194
82615127|NCT03283163|164946527|OTHER|paired samples t-test||||||0.343|||||||t-test, 2 sided|||paired samples t-tests were conducted for comparison of peak ALLO+PA levels (30 minutes post MAXEX) from baseline to endpoint (week 13).||||.343
82615128|NCT04238663|164946528|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|1.06|||||TWO_SIDED|90.0|0.976|1.16|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator.|||1.16|0.976|
82615129|NCT04238663|164946528|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|0.983|||||TWO_SIDED|90.0|0.897|1.08||||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.||1.08|0.897|
82615130|NCT04238663|164946528|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (Cmax) falls completely within the range 0.80-1.25.~The PK parameter Cmax was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of Geometric Least Square Mean|0.926|||||TWO_SIDED|90.0|0.851|1.01|||||For Ratio of geometric least square mean (GLSM): EU is the numerator and US Avastin acts as the denominator|||1.01|0.851|
82499436|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.22|STANDARD_ERROR_OF_MEAN|8.58||||90.0|-24.39|3.94|||ANCOVA|||Extension Month 18; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||3.94|-24.39|
82615131|NCT04238663|164946529|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|1.07|||||TWO_SIDED|90.0|1.0|1.14|||||For the comparison, MB02 represents the numerator and EU Avastin represents the denominator|||1.14|1.00|
82615132|NCT04238663|164946529|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.998|||||TWO_SIDED|90.0|0.944|1.05|||||For the comparison, MB02 represents the numerator and US Avastin represents the denominator.|||1.05|0.944|
82615133|NCT04238663|164946529|EQUIVALENCE|"Two treatments are judged not to be different from one another if the 90% CI of the ratio of a log-transformed exposure measure (AUC) falls completely within the range 0.80-1.25.~The PK parameter AUC\[0-∞\] was log-transformed (base e) prior to analysis and was analysed using an ANCOVA model. The model included treatment as a fixed effect and body weight as a covariate."|Ratio of GLSM|0.934|||||TWO_SIDED|90.0|0.884|0.988|||||EU Avastin corresponds to the numerator and US Avastin corresponds to the denominator|||0.988|0.884|
82615134|NCT00968253|164946536|SUPERIORITY_OR_OTHER||Maximum tolerated dose|5.0|||||TWO_SIDED||||||||Maximum tolerated dose (MTD) of Everolimus measured in mg/day in combination with HyperCVAD|||||
82658888|NCT01387022|165034329|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82615135|NCT00074412|164946572|SUPERIORITY_OR_OTHER_LEGACY||6 month Rate of Cum. HIV Infection (%)|1.1|||||TWO_SIDED|95.0|0.3|1.8|||Kaplan-Meier Method|||||1.8|0.3|
82615136|NCT00074412|164946572|SUPERIORITY_OR_OTHER_LEGACY||6 month Rate of Cum. HIV Infection (%)|2.4|||||TWO_SIDED|95.0|1.3|3.6|||Kaplan-Meier Method|||||3.6|1.3|
82615137|NCT00074412|164946572|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.973||||0.049||95.0||||P-value has not been adjusted for interim analysis or multiple testing. A priori threshold for statistical significance was 0.05.|Z-test|||Assuming the cumulative HIV infection rate in placebo group would be 4.2% (2.6 at 6 wk. \& 6.7 at 6 mon.), we estimated 1500 mother/infant pairs would provide 90% power to detect a reduction in HIV infection from 4.2% to 1.4% at 6 mon. with a Pearson χ² test statistic and a one-sided false positive error rate of 0.025. Rate of cumulative infection was calculated using Kaplan-Meier method and rates between extended NVP group and placebo were done with the Z statistic.||||0.049
82615138|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 6mon (%)|97.7|||||TWO_SIDED|95.0|96.6|98.8|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 6 months in the extended NVP arm was calculated using the Kaplan-Meier method; while the 95% CI was calculated using Greenwood's formula.||98.8|96.6|
82615139|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 6mon (%)|96.8|||||TWO_SIDED|95.0|95.5|98.0|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 6 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% CI was calculated using Greenwood's formula.||98.0|95.5|
82615140|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.095||||0.274||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV-free survival at 6 months were compared between the two groups using a Z-statistic.||||0.274
82615141|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 18mon (%)|94.5|||||TWO_SIDED|95.0|92.9|96.2|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 18 months in the extended NVP arm was calculated using the Kaplan-Meier method; while 95% confidence intervals were calculated using Greenwood's formula.||96.2|92.9|
82615142|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Cum. Rate of HIV-free Survival 18mon (%)|93.3|||||TWO_SIDED|95.0|91.5|95.1|||Kaplan-Meier Method|||The cumulative rate of HIV-free survival at 18 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||95.1|91.5|
82615143|NCT00074412|164946574|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|0.988||||0.323||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV-free survival at 18 months were compared between the two groups using a Z statistic.||||0.323
82615144|NCT00074412|164946575|SUPERIORITY_OR_OTHER_LEGACY||18 mon. Rate of Cum HIV Infection (%)|2.2|||||TWO_SIDED|95.0|1.1|3.3|||Kaplan-Meier Method|||The cumulative rate of HIV infection at 18 months in the extended NVP arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||3.3|1.1|
82615145|NCT00074412|164946575|SUPERIORITY_OR_OTHER_LEGACY||18 mon. Rate of Cum. HIV Infection (%)|3.1|||||TWO_SIDED|95.0|1.9|4.4|||Kaplan-Meier Method|||The cumulative rate of HIV infection at 18 months in the placebo arm was calculated using the Kaplan-Meier method; while the 95% confidence interval was calculated using Greenwood's formula.||4.4|1.9|
82615146|NCT00074412|164946575|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|1.081||||0.28||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative rates of HIV infection at 18 months were calculated using the Kaplan-Meier method and were compared between arms using a Z statistic.||||0.280
82615147|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 18mon (%)|4.7|||||TWO_SIDED|95.0|2.0|7.4|||Kaplan-Meier Method|||||7.4|2.0|
82615148|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 18mon (%)|4.1|||||TWO_SIDED|95.0|2.7|5.6|||Kaplan-Meier Method|||||5.6|2.7|
82615149|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|-0.247||||0.805||95.0||||P-value was not adjusted for interim analysis or multiple testing|Z-test|||The cumulative rates of mortality at 6 months, as calculated by Kaplan-Meier, were compared between the two groups using a Z-statistic.||||0.805
82615150|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 6mon (%)|1.2|||||TWO_SIDED|95.0|0.4|2.0|||Kaplan-Meier Method|||||2.0|0.4|
82615151|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Cumulative Mortality Rate at 6mon (%)|1.1|||||TWO_SIDED|95.0|0.3|1.8|||Kaplan-Meier Method|||||1.8|0.3|
82615152|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY||Z statistic|-0.36||||0.719||95.0||||P-value was not adjusted for interim analysis or multiple testing.|Z-test|||The cumulative mortality rates at 18 months, as calculated by Kaplan-Meier, were compared between the two groups using a Z statistic.||||0.719
82615153|NCT00074412|164946576|SUPERIORITY_OR_OTHER_LEGACY|||||||0.611||95.0|||||Log Rank|||We compared the cumulative mortality rates, as calculated using Kaplan-Meier, between the two study groups over all 18 months of the study follow-up using a log-rank test.||||0.611
82615154|NCT02361762|164946577|OTHER|||||||0.36|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.36
82615155|NCT02361762|164946578|OTHER|||||||0.79|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.79
82615156|NCT02361762|164946579|OTHER|||||||0.009|||||||ANOVA|Repeated measures ANOVA compared group (Training/Waitlist) by time (Pre/Post) by condition (Congruent/Incongruent)||||||0.009
82615157|NCT02361762|164946580|OTHER|||||||0.79||||||ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)|ANCOVA|Compared scores at post testing with baseline scores covaried.||||||.79
82615158|NCT02361762|164946581|OTHER|||||||0.61|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.61
82615159|NCT02361762|164946582|OTHER|||||||0.68|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)0.||||||0.68
82615160|NCT02361762|164946583|OTHER|||||||0.54|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.54
82615161|NCT02361762|164946584|OTHER|||||||0.08|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.08
82658889|NCT01387022|165034330|SUPERIORITY_OR_OTHER|||||||0.481|||||||Wilcoxon (Mann-Whitney)|||||||0.481
82615162|NCT02361762|164946585|OTHER|||||||0.37|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.37
82615163|NCT02361762|164946587|OTHER|||||||0.62|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.62
82615164|NCT02361762|164946588|OTHER|||||||0.1|||||||ANCOVA|Repeated measures ANOVA compared group (Training/Waitlist) by time (Pre/Post) by condition (Go/Nogo)||||||0.10
82615165|NCT02361762|164946589|OTHER|||||||0.02|||||||ANCOVA|ANCOVA-of-change was used to compare the Training and Waitlist groups at post-testing while controlling for baseline (baseline was co-varied)||||||0.02
82615166|NCT02163993|164946615|SUPERIORITY||Posterior Mean Difference|-0.57|STANDARD_DEVIATION|0.42|||TWO_SIDED|95.0|-1.4|0.24|||Bayesian Dose Response Model|||||0.24|-1.40|
82615167|NCT02163993|164946615|SUPERIORITY||Posterior Mean Difference|-0.25|STANDARD_DEVIATION|0.41|||TWO_SIDED|95.0|-1.06|0.56|||Bayesian Dose Response Model|||||0.56|-1.06|
82615168|NCT02163993|164946615|SUPERIORITY||Posterior Mean Difference|-1.14|STANDARD_DEVIATION|0.44|||TWO_SIDED|95.0|-2.02|-0.29|||Bayesian Dose Response Model|||||-0.29|-2.02|
82615169|NCT02163993|164946615|SUPERIORITY||Posterior Mean Difference|-0.62|STANDARD_DEVIATION|0.45|||TWO_SIDED|95.0|-1.5|0.27|||Bayesian Dose Response Model|||||0.27|-1.50|
82615170|NCT04467164|164946628|SUPERIORITY|||||||0.03|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the subgenual anterior cingulate cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.03
82615171|NCT04467164|164946628|SUPERIORITY|||||||0.022|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the orbitofrontal cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.022
82615172|NCT04467164|164946628|SUPERIORITY|||||||0.027|||||||ANCOVA|||The null hypothesis is that there were no differences in change of brain activity in the ventromedial prefrontal cortex (fMRI BOLD signal) between exhalatory-gated and inhalatory-gated tVNS. An ANCOVA model was used with average beta weights in response to stress task at baseline as a covariate. The test was performed with a significance level of 0.05 (two-sided).||||0.027
82615173|NCT04467164|164946629|SUPERIORITY|||||||0.03|||||||ANOVA|||Null hypothesis is that there was no difference in the change in BDI scale score between exhalatory-gated tVNS and inhalatory-gated tVNS. A repeated measures ANOVA controlled by baseline values was used to test this difference. A p\<0.05 was designated for statistical significance. A positive difference indicates an increase in depressive symptomatology, whereas a negative difference indicates a reduction in depressive symptoms.||||0.03
82615174|NCT04467164|164946630|SUPERIORITY|||||||0.01|||||||Regression, Linear|||The null hypothesis is that there were no differences in percent HFn changes post-pre stimulation between exhalatory-gated and inhalatory-gated tVNS. A General Linear Model (GLM) analysis adjusted by baseline values was used for evaluating differences in this measure between treatment groups. A p\<0.05 was designated for statistical significance. A positive percent change value indicates an increase in cardiovagal activity, whereas a negative change indicates a reduction in cardiovagal activity.||||0.01
82615175|NCT02042404|164946645|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
82615176|NCT02042404|164946646|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
82615177|NCT02042404|164946647|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||repeated measures ANOVA|||||||<0.0001
82615178|NCT02042404|164946648|SUPERIORITY_OR_OTHER|||||||0.0281|TWO_SIDED||||||repeated measures ANOVA|||||||0.0281
82615179|NCT03100942|164946650|SUPERIORITY||Difference in Response Rates|15.6||||0.1597|TWO_SIDED|95.0|-6.3|37.6||P-values were obtained from Cochran-Mantel-Haenszel (CMH) test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||37.6|-6.3|0.1597
82615180|NCT03100942|164946650|SUPERIORITY||Difference in Response Rates|16.6||||0.1694|TWO_SIDED|95.0|-5.1|38.3||P-values were obtained from CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||38.3|-5.1|0.1694
82615181|NCT03100942|164946650|SUPERIORITY||Difference in Response Rates|8.1||||0.3309|TWO_SIDED|95.0|-13.2|29.4||P-values were obtained from CMH test stratified by randomization stratification factors.|Cochran-Mantel-Haenszel||For the analysis of the difference in response rates, the data with missing response values were imputed by multiple imputation method with logistic regression.|||29.4|-13.2|0.3309
82615182|NCT03100942|164946651|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|1.05||0.2066|TWO_SIDED|95.0|-0.7|3.4|||MMRM|||Least Squares (LS) Means, 95% confidence interval (CI), and P-values were obtained from Mixed Effects Model for Repeated Measures (MMRM) with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||3.4|-0.7|0.2066
82615183|NCT03100942|164946651|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.04||0.3998|TWO_SIDED|95.0|-2.9|1.2|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||1.2|-2.9|0.3998
82615184|NCT03100942|164946651|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.04||0.5113|TWO_SIDED|95.0|-1.4|2.7|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.7|-1.4|0.5113
82658890|NCT01387022|165034332|SUPERIORITY_OR_OTHER|||||||0.267|||||||Fisher Exact|||||||0.267
82658891|NCT00819507|165034348|SUPERIORITY||Mean Difference (Final Values)|6.01|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82658892|NCT00819507|165034349|SUPERIORITY||Median Difference (Final Values)|14.35|||<|0.01|TWO_SIDED||||||t-test, 2 sided|||||||<0.01
82658893|NCT01054586|165034359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.1||||0.02||95.0|1.26|29.46||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for ART naïve. Not ART naïve is the reference group."|||29.46|1.26|0.02
82658894|NCT01054586|165034360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.12||||0.05||95.0|1.03|16.5||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||16.50|1.03|0.05
82658895|NCT01054586|165034360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.62||||0.68||95.0|0.16|16.27||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||16.27|0.16|0.68
82658896|NCT01054586|165034361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.83||||0.17||95.0|0.65|12.36||Only variables showing an imbalance between the treatment groups (when possible) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||12.36|0.65|0.17
82658897|NCT01054586|165034361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.85||95.0|0.12|13.33||Only variables showing an imbalance between the treatment groups (when possible) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||13.33|0.12|0.85
82658898|NCT01054586|165034362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.2||||0.06||95.0|0.94|10.82||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||10.82|0.94|0.06
82658899|NCT01054586|165034362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06||||0.96||95.0|0.11|9.83||Only variables showing an imbalance between the treatment groups (when possible and besides APRI score) were included. The following were also included, but p \> 0.05: APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||9.83|0.11|0.96
82615185|NCT03100942|164946652|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.47||0.9446|TWO_SIDED|95.0|-0.9|1.0|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||1.0|-0.9|0.9446
82615186|NCT03100942|164946652|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.47||0.3977|TWO_SIDED|95.0|-1.3|0.5|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.5|-1.3|0.3977
82615187|NCT03100942|164946652|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.47||0.4966|TWO_SIDED|95.0|-1.2|0.6|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.6|-1.2|0.4966
82615188|NCT03100942|164946653|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.1||0.9564|TWO_SIDED|95.0|-2.2|2.1|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.1|-2.2|0.9564
82658900|NCT01054586|165034363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.31||||0.57||95.0|0.52|3.31||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||3.31|0.52|0.57
82658901|NCT01054586|165034363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.28||||0.22||95.0|0.04|2.14||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.14|0.04|0.22
82658902|NCT01054586|165034363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.86||||0.47||95.0|0.35|9.91||Variables showing imbalance between treatments (when possible and besides APRI score) were included. Gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin were also included, but p\>0.05.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV, Other. LPV is the reference group."|||9.91|0.35|0.47
82658903|NCT01054586|165034364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.4||||0.48||95.0|0.55|3.55||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||3.55|0.55|0.48
82658904|NCT01054586|165034364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.23||95.0|0.03|2.18||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.18|0.03|0.23
82615189|NCT03100942|164946653|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|1.07||0.2788|TWO_SIDED|95.0|-3.3|0.9|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.9|-3.3|0.2788
82615190|NCT03100942|164946653|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.06||0.8047|TWO_SIDED|95.0|-1.8|2.3|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||2.3|-1.8|0.8047
82615191|NCT03100942|164946654|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.46||0.6782|TWO_SIDED|95.0|-1.1|0.7|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.7|-1.1|0.6782
82615192|NCT03100942|164946654|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.45||0.9171|TWO_SIDED|95.0|-0.8|0.9|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.9|-0.8|0.9171
82615193|NCT03100942|164946654|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.4641|TWO_SIDED|95.0|-1.2|0.5|||MMRM|||LS Means, 95% CI, and P-values were obtained from MMRM with the terms for baseline value, treatment, stratification factors, visit, and treatment-by-visit interaction.||0.5|-1.2|0.4641
82615194|NCT01883440|164946688|SUPERIORITY_OR_OTHER||||||<|0.037|TWO_SIDED||||||Mixed Models Analysis|Linear mixed model||||||<0.037
82615195|NCT01883440|164946689|SUPERIORITY_OR_OTHER|||||||0.381|TWO_SIDED||||||Mixed Models Analysis|||In the material when all were included, there were a lot of persons with few symptoms in both Groups, which means that a larger study would be needed in order to detect significant differences.||||0.381
82615196|NCT01005719|164946690|SUPERIORITY_OR_OTHER|||||||0.0242||95.0||||p-value for 10-15 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0242
82615197|NCT01005719|164946690|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||p-value for 15-20 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0270
82615198|NCT01005719|164946690|SUPERIORITY_OR_OTHER|||||||0.0067||95.0||||p-value for 20-25 mins Post-dose on Day 7. No adjustments were made for multiple comparisons. P-values \<= 0.05 were reported as statistically significant.|Wilcoxon (Mann-Whitney)|||||||0.0067
82615199|NCT01005719|164946691|SUPERIORITY_OR_OTHER|||||||0.0465||95.0||||p-value for 10-15 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||0.0465
82615200|NCT01005719|164946691|SUPERIORITY_OR_OTHER|||||||0.0012||95.0||||p-value for 15-20 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||0.0012
82615201|NCT01005719|164946691|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-value for 20-25 mins Post-dose on Day 1|Wilcoxon (Mann-Whitney)|||||||<0.0001
82615202|NCT01005719|164946692|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 1 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
82615203|NCT01005719|164946692|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 1 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
82615204|NCT01005719|164946692|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 7 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
82615205|NCT01005719|164946692|SUPERIORITY_OR_OTHER||||||<|0.05||95.0||||The statistical analysis is for Day 7 (0-5 mins).|Wilcoxon (Mann-Whitney)|||||||<0.05
82615206|NCT03161678|164946759|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.|||||<|0.001|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 G143E mutation. The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||<0.001
82615207|NCT03161678|164946759|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.24|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 functional mutation (rs7498748). The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.24
82615208|NCT03161678|164946760|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.75|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 G143E mutation. The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.75
82615209|NCT03161678|164946760|OTHER|The effect of CES1 genotype on agonist-stimulated change in platelet aggregation was calculated using variance component method that simultaneously adjusted for age, sex, body mass index (BMI), and relatedness among study participants. Relatedness among participants were accounted for by including a polygenic component as a random effect. Please see the Study Protocol and Statistical Analysis Plan document for additional information.||||||0.011|||||||Regression, Linear|All analyses were adjusted for age, sex, body mass index (BMI), and relatedness among study participants.||Change in platelet aggregation was assessed between the wild-type group and the carriers of the CES1 functional mutation (rs7498748). The null hypothesis is that, following drug intervention, there is no difference in the change in platelet aggregation between genotype groups.||||0.011
82615210|NCT00752609|164946761|SUPERIORITY_OR_OTHER||Mean change from baseline|-0.42|||||TWO_SIDED|95.0|-0.65|-0.19|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||-0.19|-0.65|
82615211|NCT00752609|164946761|SUPERIORITY_OR_OTHER||Mean change from baseline|0.49|||||TWO_SIDED|95.0|0.26|0.71|||||A two-sided 95% CI of the estimated mean change from Baseline in hemoglobin was derived from the t-distribution.|||0.71|0.26|
82615212|NCT00358917|164946782|NON_INFERIORITY_OR_EQUIVALENCE|The 95% confidence interval for the difference in response rates (once daily \[QD\] minus twice daily \[BID\], based on the normal approximation to the binomial distribution) was used to assess noninferiority. The QD regimen was considered noninferior to the BID regimen if the lower limit of the confidence interval remained above -12%.|Diff. in Percentage of Subj. Responding|3.5||||0.413||95.0|-4.5|11.5|||normal approx. to binomial distribution|||The null hypothesis was that the response rate for the once daily (QD) regimen was more than 12% lower than the response rate for the twice daily (BID) regimen. The planned sample size of 600 participants (300 participants in each of the QD and BID treatment regimens) provided 83% power (with a type I error rate of 0.05) to reject the null hypothesis, i.e., to determine noninferiority based on the 12% margin.||11.5|-4.5|0.413
82615213|NCT00358917|164946783|SUPERIORITY_OR_OTHER||Diff. in Percentage of Subj. Responding|3.8||||0.389||95.0|-4.3|11.9|||normal approx. to binomial distribution|||||11.9|-4.3|0.389
82615214|NCT00358917|164946784|SUPERIORITY_OR_OTHER|||||||0.281||95.0|||||ANOVA|||||||0.281
82615215|NCT00358917|164946786|SUPERIORITY_OR_OTHER|||||||0.222||95.0|||||Fisher Exact|||||||0.222
82615216|NCT00804193|164946857|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Therapeutic Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Therapeutic equivalence (bioequivalence) was established if this 90% CI was contained within the interval -0.20 to +0.20 (-20% to +20%).|Difference in Percentage of Participants|9.0|||||TWO_SIDED|90.0|-0.69|18.85|||Wald's method, Yates|CI calculated using Wald's method with Yates' continuity correction.|The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||18.85|-0.69|
82615217|NCT00804193|164946858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Bioequivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20).|Difference in Percentage of Participants|1.0||||0.001|TWO_SIDED|90.0|-7.08|9.24|||Wald's method with Yates' continuity cor||The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||9.24|-7.08|0.001
82615218|NCT00804193|164946859|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|90% CI was constructed for the difference in the Success rates between the Test Product and Reference Product at Visit 4/Week 6 (Follow-Up). The interval was calculated using Wald's method with Yates' continuity correction. Bioequivalence was established if this 90% confidence interval was contained within the interval -0.20 to +0.20).|Difference in Percentage of Participants|4.0||||0.001|TWO_SIDED|90.0|-4.6|14.24|||Wald's method Yates' continuity cor||The sample size for this study was calculated assuming that both active treatments would have equivalent success proportions of at least 55% and the Vehicle would have a success proportion no greater than 25%.|||14.24|-4.60|0.001
82615219|NCT04415489|164946860|SUPERIORITY|||||||0.57||||||The a priori threshold for statistical significance was p \< 0.05.|Fisher Exact|||||||0.57
82615220|NCT04415489|164946861|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance was p \< 0.05.|t-test, 2 sided|||||||<0.01
82615221|NCT04415489|164946862|SUPERIORITY|||||||0.11||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||0.11
82615222|NCT04415489|164946863|SUPERIORITY|||||||0.16||||||The a priori threshold for statistical significance was \< 0.05.|t-test, 2 sided|||||||0.16
82615223|NCT04415489|164946864|SUPERIORITY||||||<|0.01||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||< 0.01
82658905|NCT01054586|165034364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.67||||0.56||95.0|0.29|9.47||Only variables showing imbalance between treatments (when possible) were included. The following were also included, but p \> 0.05: gender, mode of HIV transmission, ART naive, APRI score, use of non-ARV drug, baseline CD4, platelets, and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for FPV, Other. LPV is the reference group."|||9.47|0.29|0.56
82615224|NCT04415489|164946868|SUPERIORITY|||||||0.12||||||The a priori threshold for statistical significance was \< 0.05.|Fisher Exact|||||||0.12
82615225|NCT01617434|164946874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.19|||<|0.0001||95.0|-1.39|-0.99|||Mixed Models Analysis|||The null hypothesis of no difference between the two treatment arms with regard to changes from baseline in HbA1c (%) after 26 weeks of randomised treatment was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline HbA1c as a covariate, all nested within visit.||-0.99|-1.39|<0.0001
82615226|NCT01617434|164946875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.28|||<|0.0001||95.0|-1.7|-0.86|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-0.86|-1.70|<0.0001
82615227|NCT01617434|164946876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.59|||<|0.0001||95.0|-2.01|-1.18|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-1.18|-2.01|<0.0001
82615228|NCT01617434|164946877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.11|||<|0.0001||95.0|-3.85|-2.37|||Mixed Models Analysis|||The response was analysed using a mixed model repeated measurements (MMRM) analysis with treatment, country, stratification groups as factors and baseline as a covariate, all nested within visit.||-2.37|-3.85|<0.0001
82615229|NCT01617434|164946878|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.91|||<|0.0001||95.0|5.45|14.59|||Regression, Logistic|||This endpoint was analysed using a logistic regression model with treatment and stratification factors as fixed factors and the HbA1c value at baseline as a covariate. Subjects previously treated with insulin detemir without the use of metformin were not included in the analysis due to the small size of the stratum.||14.59|5.45|<0.0001
82615230|NCT01617434|164946879|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.12|||<|0.0001||95.0|9.92|40.84|||Regression, Logistic|||This endpoint was analysed using a logistic regression model with treatment and stratification factors as fixed factors and the HbA1c value at baseline as a covariate. Subjects previously treated with insulin detemir without the use of metformin were not included in the analysis due to the small size of the stratum.||40.84|9.92|<0.0001
82615231|NCT01193348|164946883|SUPERIORITY_OR_OTHER||Percent of Complete TMA Response|63.6|||||TWO_SIDED|95.0|40.7|82.8||||||||82.8|40.7|
82615232|NCT01193348|164946884|SUPERIORITY_OR_OTHER||Percent of Complete Hematologic Response|81.8|||||TWO_SIDED|95.0|59.7|94.8||||||||94.8|59.7|
82615233|NCT01193348|164946885|SUPERIORITY_OR_OTHER||Percent of Platelet Count Normalization|95.0|||||TWO_SIDED|95.0|77.2|99.9||||||||99.9|77.2|
82615234|NCT01193348|164946886|SUPERIORITY_OR_OTHER||Percent of eGFR Improvement|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
82615235|NCT01193348|164946887|SUPERIORITY_OR_OTHER||LS mean change from baseline|204.96|||<|0.0001|TWO_SIDED|95.0|164.44|245.49|||ANOVA|||||245.49|164.44|<0.0001
82615236|NCT01193348|164946888|SUPERIORITY_OR_OTHER||Percent of Complete TMA Response|68.2|||||TWO_SIDED|95.0|45.1|86.1||||||||86.1|45.1|
82615237|NCT01193348|164946889|SUPERIORITY_OR_OTHER||Percent of Complete Hematologic Response|90.9|||||TWO_SIDED|95.0|70.8|98.9||||||||98.9|70.8|
82615238|NCT01193348|164946890|SUPERIORITY_OR_OTHER||Percent of Platelet Count Normalization|95.5|||||TWO_SIDED|95.0|77.2|99.9||||||||99.9|77.2|
82615239|NCT01193348|164946891|SUPERIORITY_OR_OTHER||Percent of eGFR Improvement|86.4|||||TWO_SIDED|95.0|65.1|97.1||||||||97.1|65.1|
82615240|NCT01193348|164946892|SUPERIORITY_OR_OTHER||LS mean change from baseline|165.43|||<|0.0001|TWO_SIDED|95.0|98.43|232.43|||ANOVA|||||232.43|98.43|<0.0001
82615241|NCT01721408|164946898|NON_INFERIORITY_OR_EQUIVALENCE|Assuming that the 2 treatments were equally effective, with cure rates of 75 % at the TOC assessment, the study was powered to ensure with 90% probability that the lower limit of a 2-sided 95% confidence interval (CI) for the true difference (tigecycline minus imipenem/cilastatin) in cure rates was greater than -15%.|Difference in percentage|-6.7||||0.0008|TWO_SIDED|95.0|-12.0|-1.4|||See method of CI||Used the asymptotic method corrected for continuity with normal distribution approximation. Non-inferiority test was conducted on the CE population. If non-inferiority was concluded, superiority test was conducted on both the CE and mITT populations.|||-1.4|-12.0|0.0008
82615242|NCT01721408|164946899|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in cure rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-7.3||||0.0277|TWO_SIDED|95.0|-15.2|0.5|||See method of CI||CIs and p-values for between-group treatment difference in cure rate were calculated by the asymptotic method corrected for continuity with normal distribution approximation.|||0.5|-15.2|0.0277
82615243|NCT01721408|164946900|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in eradication rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-7.3||||0.0277|TWO_SIDED|95.0|-15.2|0.5|||See method of CI||CIs and p-values for between-group treatment difference in eradication rates were calculated by the asymptotic method corrected for continuity with normal distribution approximation.|||0.5|-15.2|0.0277
82615244|NCT01721408|164946902|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was concluded if the lower limit of the 2-sided CI for the difference in cure rates between treatment groups (tigecycline minus imipenem/cilastatin) was greater than -15%.|Difference in percentage|-6.0||||0.004|TWO_SIDED|95.0|-12.8|0.8|||See method of CI||Used the asymptotic method corrected for continuity with normal distribution approximation. Non-inferiority test was conducted on the CE population. If non-inferiority was concluded, superiority test was conducted on both the CE and mITT populations.|||0.8|-12.8|0.0040
82615245|NCT03302416|164946915|SUPERIORITY|Baseline scan VT vs. Post-hydrocortisone scan VT||||||0.005|||||||Linear mixed model|||||||0.005
82615246|NCT01128972|164946956|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.66|||<|0.0001|TWO_SIDED|95.0|7.09|16.24||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||16.24|7.09|<0.0001
82615247|NCT01128972|164946956|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|26.6|||<|0.0001|TWO_SIDED|95.0|22.02|31.18||No adjustments made for multiple comparisons as primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and reference dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||31.18|22.02|<0.0001
82615248|NCT01128972|164946956|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|37.17|||<|0.0001|TWO_SIDED|95.0|32.59|41.74||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and placebo dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||41.74|32.59|<0.0001
82615249|NCT01128972|164946957|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|4.11||||0.0083|TWO_SIDED|95.0|1.07|7.15||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and test dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||7.15|1.07|0.0083
82615250|NCT01128972|164946957|SUPERIORITY_OR_OTHER||Adjusted Mean DIfference|11.25|||<|0.0001|TWO_SIDED|95.0|8.22|14.29||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect)|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and reference dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.29|8.22|<0.0001
82615251|NCT01128972|164946957|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|11.56|||<|0.0001|TWO_SIDED|95.0|8.53|14.6||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect)|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the test dentifrice+ test MR treatment regimen and placebo dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||14.60|8.53|<0.0001
82615252|NCT01128972|164946958|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.88||||0.7041|TWO_SIDED|95.0|-5.46|3.69||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR and Test dentifrice+ Test MR treatment regimen treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||3.69|-5.46|0.7041
82615253|NCT01128972|164946958|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|10.78|||<|0.0001|TWO_SIDED|95.0|6.21|15.36||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||15.36|6.21|<0.0001
82615254|NCT01128972|164946958|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|25.72|||<|0.0001|TWO_SIDED|95.0|21.14|30.29||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ Test MR treatment regimen and Reference dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||30.29|21.14|<0.0001
82615255|NCT01128972|164946958|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|36.29|||<|0.0001|TWO_SIDED|95.0|31.71|40.86||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and Placebo dentifrice + sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||40.86|31.71|<0.0001
82615256|NCT01128972|164946959|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-4.39||||0.0049|TWO_SIDED|95.0|-7.43|-1.35||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment|Null hypothesis considered population means for the Placebo dentifrice+ Test MR treatment regimen and Test dentifrice + Test MR to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||-1.35|-7.43|0.0049
82615257|NCT01128972|164946959|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28||||0.8571|TWO_SIDED|95.0|-3.31|2.76||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo dentifrice+ test MR treatment regimen and test dentifrice + sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||2.76|-3.31|0.8571
82615258|NCT01128972|164946959|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|6.87|||<|0.0001|TWO_SIDED|95.0|3.83|9.9||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR treatment regimen and Reference Dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||9.90|3.83|<0.0001
82615259|NCT01128972|164946959|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.17|||<|0.0001|TWO_SIDED|95.0|4.14|10.21||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favors the first named treatment.|Null hypothesis considered population means for the Placebo Dentifrice + Test MR treatment regimen and Placebo dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||10.21|4.14|<0.0001
82658906|NCT01054586|165034366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||0.72||95.0|0.51|2.66||Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||2.66|0.51|0.72
82658907|NCT01054586|165034366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.27||||0.21||95.0|0.03|2.08||Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||2.08|0.03|0.21
82615260|NCT01128972|164946960|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|14.94|||||TWO_SIDED|95.0|10.36|19.51||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Test Dentifrice + Sterile water rinse treatment regimen andReference Dentifrice + Sterile water rinse treatment regimen to be equal with respect to percent NER. Statistical tests were 2-sided with a significance level of 0.05.||19.51|10.36|
82615261|NCT01128972|164946961|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.14|||<|0.0001|TWO_SIDED|95.0|4.11|10.18||No adjustments made for multiple comparisons as the primary comparison was pre-specified.|ANOVA|ANOVA with factors for treatment, study period, and subject (random effect).|Difference is first named treatment minus second named treatment such that a positive difference favours the first named treatment.|Null hypothesis considered population means for the Test Dentifrice + Sterile water rinse treatment regimen and Reference Dentifrice + Sterile water rinse to be equal with respect to percent SMH recovery. Statistical tests were 2-sided with a significance level of 0.05.||10.18|4.11|<0.0001
82615262|NCT01678807|164946964|SUPERIORITY_OR_OTHER||Percent Difference|13.8|||||TWO_SIDED|95.0|-3.4|30.3|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||30.3|-3.4|
82615263|NCT01678807|164946964|SUPERIORITY_OR_OTHER||Percent Difference|10.8|||||TWO_SIDED|95.0|-6.4|27.4|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||27.4|-6.4|
82615264|NCT01678807|164946965|SUPERIORITY_OR_OTHER||Percent Difference|6.2|||||TWO_SIDED|95.0|0.4|14.8|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||14.8|0.4|
82658908|NCT01054586|165034366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.26||||0.15||95.0|0.74|6.97|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|Only variables showing an imbalance between treatment groups were included: gender, mode of HIV transmission, ART naive, use of non-ARV drug, baseline bilirubin.||6.97|0.74|0.15
82658909|NCT01054586|165034372|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.77||||0.1||95.0|0.79|18.05|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||18.05|0.79|0.10
82658910|NCT01054586|165034373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.53||||0.02||95.0|1.16|5.54||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||5.54|1.16|0.02
82658911|NCT01054586|165034373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.17||||0.05||95.0|1.54|11.27||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||11.27|1.54|0.05
82658912|NCT01054586|165034373|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.67||||0.06||95.0|0.97|13.9||Only variables showing an imbalance between the treatment groups were included, but p \> .05: gender, mode of HIV transmission, ART naive, APRI score, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||13.90|0.97|0.06
82658913|NCT01054586|165034374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.68||||0.01||95.0|1.21|5.9||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||5.9|1.21|0.01
82658914|NCT01054586|165034374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.42||||0.0004||95.0|1.61|12.08||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||12.08|1.61|0.0004
82658915|NCT01054586|165034374|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.07||||0.11||95.0|0.78|12.03||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, baseline use of non-ARV drug, and baseline values of CD4, platelets and bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||12.03|0.78|0.11
82615265|NCT01678807|164946965|SUPERIORITY_OR_OTHER||Percent Difference|6.2|||||TWO_SIDED|95.0|0.4|14.8|||||Estimate based on Miettinen \& Nurminen method stratified by asthma status.|||14.8|0.4|
82615266|NCT02429427|164946966|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.751|TWO_SIDED|95.0|0.8|1.17|||Log Rank|Analysis stratified by oestrogen receptor status and country.|Analysis stratified by oestrogen receptor status and country.|||1.17|0.80|0.751
82615267|NCT02429427|164946967|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.781|TWO_SIDED|95.0|0.76|1.22|||Log Rank|Analysis is stratified for oestrogen receptor status and country.|Analysis is stratified for oestrogen receptor status and country.|||1.22|0.76|0.781
82615268|NCT02626819|164946974|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data||||||<0.05
82615269|NCT02626819|164946975|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data.||||||<0.05
82615270|NCT02626819|164946976|SUPERIORITY||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|Weight change was analyzed using Wilcoxon Rank-Sum test along with multiple imputation to adjust for missing data||||||<0.05
82615271|NCT02626819|164946977|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82658916|NCT01054586|165034375|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.09||||0.03||95.0|1.06|4.15||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||4.15|1.06|0.03
82492663|NCT01350492|164678077|SUPERIORITY||Wilks' Lambda|0.939||||0.68|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.680
82492664|NCT01350492|164678078|SUPERIORITY||Wilks' Lambda|0.96||||0.854|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Mulitvariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.854
82492665|NCT01350492|164678079|SUPERIORITY|||||||0.0002||||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.0002
82492666|NCT01350492|164678080|SUPERIORITY||Wilks' Lambda|0.857||||0.41|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.41
82492667|NCT01350492|164678081|SUPERIORITY||Wilks' Lambda|0.828||||0.16|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.16
82492668|NCT01350492|164678082|SUPERIORITY||Wilks' Lambda|0.919||||0.66|TWO_SIDED|||||The threshold for statistical significance was p = 0.05.|Multivariate regression|A Generalized Linear Model was employed with repeated measurements of pain ratings as the multivariate dependent variables and group as covariate.||General multivariate regression models were used to estimate the time averaged difference in pain ratings and other symptom scores (continuous measurements) between the treatment and the control group. In order to achieve 90% power, at alpha equal to .05, with an effect size of .6 (minimum effect size of clinical importance) and with a correlation of .6 between measurements from each individual, we estimated the necessary sample size at 34 subjects per group.||||0.66
82492669|NCT00702689|164678088|SUPERIORITY_OR_OTHER_LEGACY|||||||0.011|||||||Paired t-test|||||||.011
82492670|NCT00702689|164678090|SUPERIORITY_OR_OTHER_LEGACY|||||||0.47|||||||t-test, 2 sided|||||||.47
82492671|NCT00702689|164678091|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||t-test, 2 sided|||||||.29
82492672|NCT01611155|164678186|SUPERIORITY|||||||0.87|||||||t-test, 2 sided|||||||0.87
82492673|NCT01611155|164678187|SUPERIORITY|||||||0.53|||||||t-test, 2 sided|||Motor subscale||||0.53
82492674|NCT01611155|164678187|SUPERIORITY|||||||0.89|||||||t-test, 2 sided|||autonomic subscale||||0.89
82492675|NCT00087607|164678192|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.978|TWO_SIDED|95.0|-0.35|0.36|||t-test, 2 sided|||Mean treatment difference was tested using a two-sided t-test.||0.36|-0.35|0.978
82492676|NCT00087607|164678193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.27||||0.08|TWO_SIDED|95.0|-0.03|0.58|||t-test, 2 sided|||At Week 4: Mean treatment difference was tested using a two-sided t-test.||0.58|-0.03|0.080
82492677|NCT00087607|164678193|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.688|TWO_SIDED|95.0|-0.27|0.41|||t-test, 2 sided|||At Week 8: Mean treatment difference was tested using a two-sided t-test.||0.41|-0.27|0.688
82492678|NCT00087607|164678197|SUPERIORITY_OR_OTHER|||||||0.304|TWO_SIDED||||||ANOVA|||The treatment groups were compared using an analysis of variance (ANOVA) with treatment as the only factor in the model.||||0.304
82492679|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.1||||0.2814|TWO_SIDED|95.0|-8.6|2.5|||Chi-squared|||Week 1: Treatment groups were compared using the Chi-Square Test.||2.5|-8.6|0.2814
82492680|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-10.3||||0.0214|TWO_SIDED|95.0|-18.9|-1.6|||Chi-squared|||Week 2: Treatment groups were compared using the Chi-Square Test.||-1.6|-18.9|0.0214
82492681|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-10.7||||0.0315|TWO_SIDED|95.0|-20.3|-1.0|||Chi-squared|||Week 3: Treatment groups were compared using the Chi-Square Test.||-1.0|-20.3|0.0315
82492682|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-7.4||||0.1467|TWO_SIDED|95.0|-17.4|2.6|||Chi-squared|||Week 4: Treatment groups were compared using the Chi-Square Test.||2.6|-17.4|0.1467
82658917|NCT01054586|165034375|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.61||||0.05||95.0|1.48|8.81||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg QD. LPV is the reference group."|||8.81|1.48|0.05
82658918|NCT01054586|165034375|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.31||||0.1||95.0|0.85|6.32||Only variables showing an imbalance between the treatment groups were included: gender, mode of HIV transmission, ART naive, APRI-score, baseline use of non-ARV drug and baseline bilirubin.|Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV, other. LPV is the reference group."|||6.32|0.85|0.10
82658919|NCT01054586|165034376|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|5.12||||0.03||95.0|1.19|22.02|||Regression, Cox||"Confidence Interval and Hazard Ratio for  FPV 700 mg BID/RTV 100 mg BID. LPV is the reference group."|||22.02|1.19|0.03
82658920|NCT04185909|165034406|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
82658921|NCT04605094|165034468|OTHER||Difference in response rate|-8.62||||0.08|TWO_SIDED|95.0|-17.94|0.71|||Regression, Logistic|||"Treatment difference in IGA responders~Estimates were from a logistic regression model that included treatment group, age as recorded on electronic case report form (eCRF) at screening (\>=12 to \<18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/microliters \[μL\]; \>=300 cells/μL) and baseline value of IGA score."||0.71|-17.94|0.080
82658922|NCT04605094|165034469|OTHER||Difference in response rate|-5.15||||0.384|TWO_SIDED|95.0|-16.67|6.36|||Regression, Logistic|||"Treatment difference in EASI-75 responders~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline EASI total score."||6.36|-16.67|0.384
82658923|NCT04605094|165034470|OTHER||Difference in response rate|-8.18||||0.078|TWO_SIDED|95.0|-16.94|0.59|||Regression, Logistic|||"Treatment difference in EASI-90 responders~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline EASI total score."||0.59|-16.94|0.078
82658924|NCT04605094|165034471|OTHER||Difference in response rate|0.69||||0.889|TWO_SIDED|95.0|-8.93|10.32|||Regression, Logistic|||"Treatment difference in Peak Pruritus NRS~Estimates were from a logistic regression model that included treatment group, age as recorded on eCRF at screening (\>=12 to \< 18 years; \>=18 years), blood eosinophils as recorded on eCRF at screening (\<300 cells/μL; \>=300 cells/μL) and baseline Peak Pruritus score."||10.32|-8.93|0.889
82658925|NCT02724462|165034474|SUPERIORITY||Odds Ratio (OR)|1.49|||<|0.001|TWO_SIDED|95.0|1.22|1.83|||Regression, Logistic|||||1.83|1.22|<.001
82658926|NCT02724462|165034475|SUPERIORITY||Odds Ratio (OR)|1.4||||0.001|TWO_SIDED|95.0|1.14|1.71|||Regression, Logistic|||||1.71|1.14|.001
82658927|NCT03585790|165034499|NON_INFERIORITY|Margin acceptable mean difference (Single Vision - Multifocal) = -5 rating units (0-100 scale, 0 = optimal)||||||0.18|||||||t-test, 1 sided|||Ho: Single Vision - Multifocal \>= M vs. Ho: Single Vision - Multifocal \< M. Alpha = 0.05, two sided beta = 0.80||||0.18
82658928|NCT02393417|165034532|SUPERIORITY||Risk Ratio (RR)|1.5706||||0.0329|TWO_SIDED|95.0|1.0184|2.4223|||Cochran-Mantel-Haenszel|||||2.4223|1.0184|0.0329
82658929|NCT02393417|165034532|SUPERIORITY||Risk Ratio (RR)|1.8926||||0.0007|TWO_SIDED|95.0|1.2722|2.8156|||Cochran-Mantel-Haenszel|||||2.8156|1.2722|0.0007
82658930|NCT02393417|165034532|SUPERIORITY||Risk Ratio (RR)|1.7319||||0.0052|TWO_SIDED|95.0|1.1602|2.5854|||Cochran-Mantel-Haenszel|||||2.5854|1.1602|0.0052
82658931|NCT02393417|165034533|SUPERIORITY||Risk Ratio (RR)|1.3828||||0.4307|TWO_SIDED|95.0|0.6191|3.0883|||Cochran-Mantel-Haenszel|||||3.0883|0.6191|0.4307
82658932|NCT02393417|165034533|SUPERIORITY||Risk Ratio (RR)|2.8908||||0.0014|TWO_SIDED|95.0|1.4169|5.8978|||Cochran-Mantel-Haenszel|||||5.8978|1.4169|0.0014
82658933|NCT02393417|165034533|SUPERIORITY||Risk Ratio (RR)|3.0||||0.0451|TWO_SIDED|95.0|0.9281|9.6975|||Cochran-Mantel-Haenszel|||||9.6975|0.9281|0.0451
82658934|NCT02393417|165034535|SUPERIORITY||Cox Proportional Hazard|2.7553||||0.0027|TWO_SIDED|95.0|1.4211|5.3419|||Regression, Cox|||||5.3419|1.4211|0.0027
82658935|NCT02393417|165034535|SUPERIORITY||Cox Proportional Hazard|3.1516||||0.0008|TWO_SIDED|95.0|1.6148|6.1509|||Regression, Cox|||||6.1509|1.6148|0.0008
82492683|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.8||||0.1823|TWO_SIDED|95.0|-16.9|3.2|||Chi-squared|||Week 5: Treatment groups were compared using the Chi-Square Test.||3.2|-16.9|0.1823
82492684|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-2.1||||0.6871|TWO_SIDED|95.0|-12.1|8.0|||Chi-squared|||Week 6: Treatment groups were compared using the Chi-Square Test.||8.0|-12.1|0.6871
82658936|NCT02393417|165034535|SUPERIORITY||Cox Proportional Hazard|3.3257||||0.0003|TWO_SIDED|95.0|1.7263|6.407|||Regression, Cox|||||6.4070|1.7263|0.0003
82492685|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-0.4||||0.9295|TWO_SIDED|95.0|-10.4|9.5|||Chi-squared|||Week 7: Treatment groups were compared using the Chi-Square Test.||9.5|-10.4|0.9295
82492686|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.2||||0.6593|TWO_SIDED|95.0|-7.6|12.1|||Chi-squared|||Week 8: Treatment groups were compared using the Chi-Square Test.||12.1|-7.6|0.6593
82615272|NCT02626819|164946978|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82615273|NCT02626819|164946979|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82615274|NCT02626819|164946980|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82615275|NCT02626819|164946981|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82615276|NCT01617681|164946986|OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|2.96||0.0096|TWO_SIDED|95.0|-13.86|-2.01|||ANCOVA|||||-2.01|-13.86|0.0096
82615277|NCT01617681|164946986|OTHER||Mean Difference (Net)|-0.9|STANDARD_ERROR_OF_MEAN|2.07||0.6531|TWO_SIDED|95.0|-5.07|3.2|||ANCOVA|||||3.20|-5.07|0.6531
82615278|NCT01617681|164946987|OTHER||Mean Difference (Net)|-7.9|STANDARD_ERROR_OF_MEAN|2.54||0.003|TWO_SIDED|95.0|-12.94|-2.78|||ANCOVA|||||-2.78|-12.94|0.0030
82615279|NCT01617681|164946987|OTHER||Mean Difference (Net)|-5.4|STANDARD_ERROR_OF_MEAN|1.8||0.0042|TWO_SIDED|95.0|-8.98|-1.77|||ANCOVA|||||-1.77|-8.98|0.0042
82492687|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.2||||0.6637|TWO_SIDED|95.0|-7.7|12.1|||Chi-squared|||Week 9: Treatment groups were compared using the Chi-Square Test.||12.1|-7.7|0.6637
82615280|NCT01617681|164946988|OTHER||Odds Ratio (OR)|1.68||||0.411|TWO_SIDED|95.0|0.49|5.8|||ANCOVA|||||5.8|0.49|0.411
82615281|NCT01617681|164946988|OTHER||Odds Ratio (OR)|1.45||||0.5443|TWO_SIDED|95.0|0.44|4.79|||ANCOVA|||||4.79|0.44|0.5443
82615282|NCT01617681|164946989|OTHER||Odds Ratio (OR)|0.517||||0.2624|TWO_SIDED|95.0|0.16|1.64|||ANCOVA|||||1.64|0.16|0.2624
82658937|NCT02393417|165034541|SUPERIORITY||Odds Ratio (OR)|0.999||||0.4824|TWO_SIDED|95.0|0.997|1.001|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.001|0.997|0.4824
82658938|NCT02393417|165034541|SUPERIORITY||Odds Ratio (OR)|1.001||||0.5007|TWO_SIDED|95.0|0.998|1.004|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.004|0.998|0.5007
82658939|NCT02393417|165034541|SUPERIORITY||Odds Ratio (OR)|0.993||||0.0219|TWO_SIDED|95.0|0.987|0.999|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||0.999|0.987|0.0219
82658940|NCT02393417|165034541|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8267|TWO_SIDED|95.0|0.995|1.004|||Regression, Logistic||An odds ratio \< 1 indicates that the age of the wart is negatively correlated with positive treatment outcome and vice versa.|Using a logistic regression model for complete resolution status of largest primary injected wart (yes vs no) with wart age as a covariate.||1.004|0.995|0.8267
82658941|NCT02393417|165034542|SUPERIORITY||Odds Ratio (OR)|0.964||||0.1657|TWO_SIDED|95.0|0.915|1.015|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.015|0.915|0.1657
82658942|NCT02393417|165034542|SUPERIORITY||Odds Ratio (OR)|1.0||||0.8168|TWO_SIDED|95.0|0.997|1.003|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.003|0.997|0.8168
82658943|NCT02393417|165034542|SUPERIORITY||Odds Ratio (OR)|0.998||||0.4183|TWO_SIDED|95.0|0.993|1.003|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.003|0.993|0.4183
82658944|NCT02393417|165034542|SUPERIORITY||Odds Ratio (OR)|1.001||||0.5572|TWO_SIDED|95.0|0.997|1.006|||Regression, Logistic||An odds ratio \> 1 indicates that the age of the largest primary injected wart is positively correlated with the recurrence of any resolved wart and vice versa.|Using a logistic regression model for recurrence status of any resolved wart (yes vs no) with age of the largest primary injected wart as a covariate.||1.006|0.997|0.5572
82658945|NCT02246166|165034596|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03||||0.9473|TWO_SIDED|95.0|-0.77|0.83|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||0.83|-0.77|0.9473
82658946|NCT02246166|165034597|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19||||0.721|TWO_SIDED|95.0|-1.23|0.86|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatme|||0.86|-1.23|0.7210
82658947|NCT02246166|165034598|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.7445|TWO_SIDED|95.0|-1.07|1.49|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.||||1.49|-1.07|0.7445
82658948|NCT02246166|165034599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.7662|TWO_SIDED|95.0|-1.32|1.78|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate||||1.78|-1.32|0.7662
82492688|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|5.4||||0.276|TWO_SIDED|95.0|-4.3|15.1|||Chi-squared|||Week 10: Treatment groups were compared using the Chi-Square Test.||15.1|-4.3|0.2760
82615283|NCT00630812|164947070|SUPERIORITY||Mean Difference (Net)|54.14||||0.059|TWO_SIDED|95.0|-1.97|110.26|||Mixed Models Analysis|||||110.26|-1.97|0.059
82615284|NCT00630812|164947070|SUPERIORITY||Odds Ratio (OR)|1.69||||0.041|TWO_SIDED|95.0|1.02|2.8||Response defined as change of \>=100mL at week 26|Regression, Logistic|45.7% response on Mannitol 400mg, 35.5% on Control||||2.80|1.02|0.041
82615285|NCT00630812|164947071|SUPERIORITY||Mean Difference (Net)|43.49||||0.177|TWO_SIDED|95.0|-19.8|106.78|||Mixed Models Analysis|||||106.78|-19.8|0.177
82615286|NCT00630812|164947072|SUPERIORITY||Rate ratio|0.85||||0.52|TWO_SIDED|95.0|0.51|1.41|||Poisson regression|Offset of the natural logarithm of follow-up time||||1.41|0.51|0.520
82615287|NCT00630812|164947073|SUPERIORITY||Rate ratio|0.75||||0.328|TWO_SIDED|95.0|0.42|1.33|||Poisson regression|Offset of the natural logarithm of follow-up time||||1.33|0.42|0.328
82615288|NCT00630812|164947074|SUPERIORITY||Rate ratio|0.89||||0.368|TWO_SIDED|95.0|0.69|1.15|||Poisson regression|||||1.15|0.69|0.368
82615289|NCT00630812|164947075|SUPERIORITY||Mean Difference (Net)|2.42||||0.024|TWO_SIDED|95.0|0.33|4.51|||ANCOVA|||||4.51|0.33|0.024
82615290|NCT00630812|164947076|SUPERIORITY||Mean Difference (Net)|71.35||||0.022|TWO_SIDED|95.0|10.57|132.13|||Mixed Models Analysis|||||132.13|10.57|0.022
82615291|NCT00630812|164947077|SUPERIORITY||Mean Difference (Net)|34.34||||0.49|TWO_SIDED|95.0|-63.47|132.14|||Mixed Models Analysis|||||132.14|-63.47|0.49
82615292|NCT00630812|164947078|SUPERIORITY|||||||0.042|||||||Wilcoxon (Mann-Whitney)|||||||0.042
82615293|NCT04102098|164947091|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.012|TWO_SIDED|95.0|0.56|0.93|||Log Rank|||Stratification factors include geographic region (Asia Pacific excluding Japan vs. rest of world) and High risk features/curative procedure (Ablation vs. Resection with 1 high risk feature vs. Resection with 2 or more high risk features).||0.93|0.56|0.0120
82615294|NCT04742907|164947106|SUPERIORITY||Cox Proportional Hazard|0.91||||0.767|TWO_SIDED|90.0|0.74|1.12||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: hazard ratio (HR) = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and confidence intervals (CIs) are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|||1.12|0.74|0.767
82615295|NCT04742907|164947106|SUPERIORITY||Cox Proportional Hazard|1.17||||0.107|TWO_SIDED|90.0|0.95|1.44||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|||1.44|0.95|0.107
82615296|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|0.9||||0.78|TWO_SIDED|90.0|0.71|1.13||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to GI-2||1.13|0.71|0.780
82615297|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|1.06||||0.33|TWO_SIDED|90.0|0.84|1.34||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to GI-2||1.34|0.84|0.330
82615298|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|0.9||||0.788|TWO_SIDED|90.0|0.73|1.11||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to first toleration of clear liquids||1.11|0.73|0.788
82615299|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|1.22||||0.055|TWO_SIDED|90.0|0.99|1.51||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to first toleration of clear liquids||1.51|0.99|0.055
82615300|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|1.07||||0.306|TWO_SIDED|90.0|0.86|1.32||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to absence of distension and presence of bowel sounds and flatus||1.32|0.86|0.306
82615301|NCT04742907|164947107|SUPERIORITY||Cox Proportional Hazard|1.09||||0.243|TWO_SIDED|90.0|0.88|1.35||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to absence of distension and presence of bowel sounds and flatus||1.35|0.88|0.243
82615302|NCT04742907|164947108|SUPERIORITY||Cox Proportional Hazard|1.0||||0.489|TWO_SIDED|90.0|0.81|1.24||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to ready for discharge||1.24|0.81|0.489
82615303|NCT04742907|164947108|SUPERIORITY||Cox Proportional Hazard|1.15||||0.138|TWO_SIDED|90.0|0.93|1.42||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to ready for discharge||1.42|0.93|0.138
82615304|NCT04742907|164947108|SUPERIORITY||Cox Proportional Hazard|1.01||||0.473|TWO_SIDED|90.0|0.82|1.24||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to discharge order written||1.24|0.82|0.473
82615305|NCT04742907|164947108|SUPERIORITY||Cox Proportional Hazard|1.24||||0.045|TWO_SIDED|90.0|1.01|1.53||P-value is from the Wald Chi-Square statistic testing hypotheses of each dose of TU-100 compared with placebo: H0: HR = 1 vs. Ha: HR \> 1|Chi-squared||Hazard ratio and CIs are derived from a Cox proportional hazard model that includes main effects for treatment and surgical approach.|For Time to discharge order written||1.53|1.01|0.045
82615306|NCT04742907|164947109|SUPERIORITY|||||||0.923||||||P-value is from two-sample t-test comparing TU-100 15 g/day treatment group versus placebo.|t-test, 2 sided|||||||0.923
82615307|NCT04742907|164947109|SUPERIORITY|||||||0.039||||||P-value is from two-sample t-test comparing TU-100 7.5 g/day treatment group versus placebo.|t-test, 2 sided|||||||0.039
82615308|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.79||||0.434|TWO_SIDED|95.0|0.44|1.42||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.42|0.44|0.434
82615309|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.9||||0.71|TWO_SIDED|95.0|0.51|1.59||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.59|0.51|0.710
82615310|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|1.23||||0.41|TWO_SIDED|95.0|0.75|2.02||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Chi-squared||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||2.02|0.75|0.410
82658949|NCT02246166|165034600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.56||||0.5208|TWO_SIDED|95.0|-1.18|2.29|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||2.29|-1.18|0.5208
82658950|NCT02246166|165034601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12||||0.8993|TWO_SIDED|95.0|-1.71|1.94|||ANCOVA|From ANCOVA model with factors for treatment group and study site and baseline TSS score as a covariate.|Difference is first named treatment minus the second named treatment such that a negative difference favors the first named treatment|||1.94|-1.71|0.8993
82658951|NCT00834743|165034611|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.49||||||90.0|90.65|109.18|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109.18|90.65|
82658952|NCT00834743|165034612|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.0||||||90.0|91.44|107.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.19|91.44|
82615311|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|1.7||||0.037|TWO_SIDED|95.0|1.03|2.81||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||2.81|1.03|0.037
82615312|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.84||||0.579|TWO_SIDED|95.0|0.46|1.55||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||1.55|0.46|0.579
82615313|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.63||||0.167|TWO_SIDED|95.0|0.33|1.21||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic|||For Day 3||1.21|0.33|0.167
82615314|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.63||||0.4|TWO_SIDED|95.0|0.21|1.86||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||1.86|0.21|0.400
82615315|NCT04742907|164947111|SUPERIORITY||Odds Ratio (OR)|0.28||||0.083|TWO_SIDED|95.0|0.07|1.18|||Regression, Logistic||Responder status is analyzed using logistic regression with GIR response as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||1.18|0.07|0.083
82615316|NCT04742907|164947112|SUPERIORITY||Odds Ratio (OR)|1.33||||0.621|TWO_SIDED|95.0|0.43|4.14||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||POI-related Morbidity status is analyzed using logistic regression with POI-related morbidity as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|||4.14|0.43|0.621
82615317|NCT04742907|164947112|SUPERIORITY||Odds Ratio (OR)|1.03||||0.962|TWO_SIDED|95.0|0.31|3.46||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||POI-related Morbidity status is analyzed using logistic regression with POI-related morbidity as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|||3.46|0.31|0.962
82615318|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.16||||0.604|TWO_SIDED|95.0|0.66|2.05||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||2.05|0.66|0.604
82615319|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.12||||0.693|TWO_SIDED|95.0|0.63|1.99||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.99|0.63|0.693
82615320|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.8||||0.122|TWO_SIDED|95.0|0.85|3.78||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||3.78|0.85|0.122
82615321|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|0.78||||0.518|TWO_SIDED|95.0|0.36|1.67||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.67|0.36|0.518
82615322|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.45||||0.528|TWO_SIDED|95.0|0.46|4.53||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||4.53|0.46|0.528
82615323|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.27||||0.689|TWO_SIDED|95.0|0.4|4.07||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||4.07|0.40|0.689
82615324|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|0.68||||0.653|TWO_SIDED|95.0|0.12|3.7||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||3.70|0.12|0.653
82658953|NCT00834743|165034613|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.05||||||90.0|90.57|108.32|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.32|90.57|
82615325|NCT04742907|164947114|SUPERIORITY||Odds Ratio (OR)|1.85||||0.452|TWO_SIDED|95.0|0.37|9.25||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Nausea status is analyzed using logistic regression with Subject-reported (eDiary) - Nausea as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||9.25|0.37|0.452
82615326|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.359|TWO_SIDED|95.0|-1.8|0.6|||Mixed Models Analysis|||For Day 1, least square (LS) mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.6|-1.8|0.359
82615327|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.907|TWO_SIDED|95.0|-1.3|1.2|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.2|-1.3|0.907
82615328|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.856|TWO_SIDED|95.0|-1.3|1.6|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.6|-1.3|0.856
82615329|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|-1.1||||0.18|TWO_SIDED|95.0|-2.7|0.5|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.5|-2.7|0.180
82615330|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.814|TWO_SIDED|95.0|-1.9|2.4|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.4|-1.9|0.814
82615331|NCT04742907|164947115|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.409|TWO_SIDED|95.0|-3.2|1.3|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Nausea as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||1.3|-3.2|0.409
82615332|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.8||||0.43|TWO_SIDED|95.0|0.46|1.4||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.40|0.46|0.430
82615333|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|1.1||||0.739|TWO_SIDED|95.0|0.62|1.96||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 1||1.96|0.62|0.739
82615334|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.54||||0.13|TWO_SIDED|95.0|0.25|1.2||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.20|0.25|0.130
82615335|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.52||||0.099|TWO_SIDED|95.0|0.24|1.13||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 2||1.13|0.24|0.099
82658954|NCT01643707|165034614|SUPERIORITY|A chi-square test was performed to determine a difference between Phase 1 and Phase 2.|||||<|1e-05|||||||Chi-squared|||||||<0.00001
82658955|NCT01643707|165034615|EQUIVALENCE|Chi-Square test used to show any difference between Phase 1 and Phase 2|||||<|0.0001|||||||Chi-squared|||||||<0.0001
82658956|NCT01643707|165034616|EQUIVALENCE|Chi-Square test used to show any difference between Phase 1 and Phase 2|||||<|0.0001||||||This endpoint was covered in primary objective 2, so this analysis is the same as previously reported.|Chi-squared||||See Primary Objectives for additional details.|||<0.0001
82658957|NCT04112823|165034621|SUPERIORITY||Risk Ratio (RR)|7.0|||||TWO_SIDED|95.0|-6.0|20.0||||||||20|-6|
82658958|NCT04112823|165034622|SUPERIORITY||Risk Ratio (RR)|4.0|||||TWO_SIDED|95.0|-8.0|16.0||||||||16|-8|
82658959|NCT04112823|165034623|SUPERIORITY||Risk Ratio (RR)|3.0|||||TWO_SIDED|95.0|-8.0|14.0||||||||14|-8|
82658960|NCT04112823|165034625|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.3|1.2||||||||1.2|-0.3|
82658961|NCT04112823|165034626|SUPERIORITY||Risk Ratio (RR)|4.0|||||TWO_SIDED|95.0|-9.0|18.0||||||||18|-9|
82658962|NCT02728102|165034658|SUPERIORITY||difference in the proportions|2.9||||0.3657|TWO_SIDED|80.0|-8.8|14.6||A one-sided significance level of 0.10 is used to assess whether the vaccine appears promising relative to control.|Z test|||The proportion of patients alive and in CR/sCR at 1 year post transplant will be described in the vaccine and no vaccine groups with 80% confidence intervals and compared between groups using a two-sample Z test comparing binomial proportions.||14.6|-8.8|0.3657
82615336|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.78||||0.686|TWO_SIDED|95.0|0.23|2.63||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||2.63|0.23|0.686
82615337|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.75||||0.644|TWO_SIDED|95.0|0.22|2.56||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 3||2.56|0.22|0.644
82615338|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.54||||0.498|TWO_SIDED|95.0|0.09|3.18||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||3.18|0.09|0.498
82615339|NCT04742907|164947116|SUPERIORITY||Odds Ratio (OR)|0.71||||0.7|TWO_SIDED|95.0|0.12|4.05||p value is assessing the null hypothesis that the odds ratio is equal to 1.|Regression, Logistic||Subject-reported (eDiary) - Abdominal Bloating status is analyzed using logistic regression with Subject-reported (eDiary) - Abdominal Bloating as the dependent variable; treatment and surgical approach (open, laparoscopic) as covariates.|For Day 4||4.05|0.12|0.700
82615340|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.919|TWO_SIDED|95.0|-0.9|0.8|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-0.9|0.919
82615341|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.016|TWO_SIDED|95.0|-1.8|-0.2|||Mixed Models Analysis|||For Day 1, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||-0.2|-1.8|0.016
82615342|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.064|TWO_SIDED|95.0|-0.1|2.0|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.0|-0.1|0.064
82615343|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.683|TWO_SIDED|95.0|-1.3|0.8|||Mixed Models Analysis|||For Day 2, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-1.3|0.683
82615344|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.462|TWO_SIDED|95.0|-1.0|2.1|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 15 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||2.1|-1.0|0.462
82615345|NCT04742907|164947117|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.343|TWO_SIDED|95.0|-2.3|0.8|||Mixed Models Analysis|||For Day 3, LS mean difference between placebo and TU-100 7.5 g/day. Mixed Model Repeated Measures approach was used to assess the bothersomeness of Abdominal Bloating as the dependent variable and treatment group, surgical approach and treatment group by visit as covariates. An unstructured covariance structure is used to model the within-subject errors, shared across treatments.||0.8|-2.3|0.343
82615346|NCT05761444|164947128|OTHER||Least Squares (LS) mean difference|-21.22|||<|0.0001|TWO_SIDED|95.0|-29.26|-13.19||The analysis of covariance (ANCOVA) model with treatment group (ezetimibe/atorvastatin, atorvastatin) and history of statin administration (yes, no) as fixed effects and baseline LDL-C as a covariate.|ANCOVA|||||-13.19|-29.26|<0.0001
82615347|NCT05761444|164947131|OTHER||LS mean difference|-15.96|||<|0.0001|TWO_SIDED|95.0|-23.56|-8.36||The ANCOVA model with treatment group (ezetimibe/atorvastatin, atorvastatin) and history of statin administration (yes, no) as fixed effects and baseline LDL-C as a covariate.|ANCOVA|||||-8.36|-23.56|<0.0001
82615348|NCT00850759|164947150|SUPERIORITY_OR_OTHER||Slope|0.04|||<|0.05|TWO_SIDED|95.0|||||ANOVA|||||||<0.05
82615349|NCT02389816|164947153|SUPERIORITY||Least square (LS) mean difference|-2.66|STANDARD_ERROR_OF_MEAN|0.999||0.008|TWO_SIDED|95.0|-4.63|-0.7|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||||-0.70|-4.63|0.0080
82615350|NCT02389816|164947153|SUPERIORITY||LS mean difference|-3.07|STANDARD_ERROR_OF_MEAN|1.003||0.0023|TWO_SIDED|95.0|-5.05|-1.1|||Mixed Models Analysis|Mixed Models for Repeated Measures (MMRM)||||-1.10|-5.05|0.0023
82492689|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|5.4||||0.2779|TWO_SIDED|95.0|-4.3|15.1|||Chi-squared|||Week 11: Treatment groups were compared using the Chi-Square Test.||15.1|-4.3|0.2779
82615351|NCT02389816|164947154|SUPERIORITY||Odds Ratio (OR)|1.621||||0.0341|TWO_SIDED|95.0|1.037|2.533|||Regression, Logistic|||||2.533|1.037|0.0341
82615352|NCT02389816|164947154|SUPERIORITY||Odds Ratio (OR)|1.788||||0.011||95.0|1.143|2.799|||Regression, Logistic|||||2.799|1.143|0.0110
82615353|NCT02389816|164947155|SUPERIORITY||Odds Ratio (OR)|1.839||||0.0186|TWO_SIDED|95.0|1.107|3.054|||Regression, Logistic|||||3.054|1.107|0.0186
82615354|NCT02389816|164947155|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0418|TWO_SIDED|95.0|1.02|2.834|||Regression, Logistic|||||2.834|1.020|0.0418
82615355|NCT02389816|164947156|SUPERIORITY||LS mean difference|-1.81|STANDARD_ERROR_OF_MEAN|0.753||0.0165|TWO_SIDED|95.0|-3.29|-0.332|||ANCOVA|||||-0.332|-3.290|0.0165
82615356|NCT02389816|164947156|SUPERIORITY||LS mean difference|-1.79|STANDARD_ERROR_OF_MEAN|0.759||0.019|TWO_SIDED|95.0|-3.278|-0.295|||ANCOVA|||||-0.295|-3.278|0.0190
82615357|NCT02389816|164947157|SUPERIORITY||LS mean difference|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.0031|TWO_SIDED|95.0|-0.59|-0.121|||ANCOVA|||||-0.121|-0.590|0.0031
82615358|NCT02389816|164947157|SUPERIORITY||LS mean difference|-0.39|STANDARD_ERROR_OF_MEAN|0.12||0.0011|TWO_SIDED|95.0|-0.629|-0.158|||ANCOVA|||||-0.158|-0.629|0.0011
82658963|NCT02728102|165034658|EQUIVALENCE|The stratified odds ratio is estimated with 80% confidence intervals.|Odds Ratio (OR)|1.19||||0.7461|TWO_SIDED|80.0|0.7|2.03||P-value is provided by Breslow-Day Test for Homogeneity of the Odds Ratios.|Cochran-Mantel-Haenszel||The Cochran-Mantel-Haenszel Odds Ratio estimate is for the Stratification. Stratum 1 is sCR/CR at Randomization. Stratum 2 is VGPR/PR/Stable Response at Randomization.|A secondary analysis stratified on disease response prior to randomization between arms will be conducted using a Cochran-Mantel-Haenszel test, and a stratified odds ratio along with 80% confidence intervals will be estimated.||2.03|0.70|0.7461
82658964|NCT02728102|165034658|SUPERIORITY|The proportion of patients alive and in CR/sCR at 1 year post transplant will be compared in the vaccine arm to Lenalidomide/GM-CSF arm with 80% confidence intervals using a two-sample Z test comparing binomial proportions.|difference in the proportions|7.2||||0.2429|TWO_SIDED|80.0|-6.4|20.6|||Z test|||A secondary pairwise analysis of CR/sCR rates comparing the vaccine arm to Lenalidomide/GM-CSF arm at 1 year post transplant.||20.6|-6.4|0.2429
82658965|NCT02728102|165034658|SUPERIORITY|The proportion of patients alive and in CR/sCR at 1 year post transplant will be compared in the vaccine arm to Lenalidomide alone arm with 80% confidence intervals using a two-sample Z test comparing binomial proportions.|difference in the proportions|-1.6||||0.4397|TWO_SIDED|80.0|-15.6|12.4|||Z test|||A secondary pairwise analysis of CR rates comparing the vaccine arm to Lenalidomide alone arm at 1 year post transplant.||12.4|-15.6|0.4397
82658966|NCT02728102|165034659|SUPERIORITY|||||||0.9376||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 6 months Post Transplant.||||0.9376
82658967|NCT02728102|165034659|SUPERIORITY|||||||0.4887||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 6 months Post Transplant.||||0.4887
82658968|NCT02728102|165034659|SUPERIORITY|||||||0.5176||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 6 months Post Transplant.||||0.5176
82658969|NCT02728102|165034659|SUPERIORITY|||||||0.2461||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between lenalidomide/GM-CSF arm and lenalidomide alone arm at 6 months Post Transplant.||||0.2461
82658970|NCT02728102|165034659|SUPERIORITY|||||||0.253||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 1 year Post Transplant.||||0.2530
82492690|NCT00087607|164678199|SUPERIORITY_OR_OTHER||Difference in proportion of participants|2.8||||0.5697|TWO_SIDED|95.0|-6.8|12.4|||Chi-squared|||Week 12: Treatment groups were compared using the Chi-Square Test.||12.4|-6.8|0.5697
82492691|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|0.0||||0.994|TWO_SIDED|95.0|-1.4|1.5|||Chi-squared|||Week 1: Treatment groups were compared using the Chi-Square Test.||1.5|-1.4|0.9940
82615359|NCT02389816|164947158|SUPERIORITY||LS mean difference|-0.23|STANDARD_ERROR_OF_MEAN|0.123||0.0609|TWO_SIDED|95.0|-0.474|0.011|||ANCOVA|||||0.011|-0.474|0.0609
82615360|NCT02389816|164947158|SUPERIORITY||LS mean difference|-0.29|STANDARD_ERROR_OF_MEAN|0.124||0.0179|TWO_SIDED|95.0|-0.537|-0.051|||ANCOVA|||||-0.051|-0.537|0.0179
82615361|NCT02389816|164947159|SUPERIORITY||LS mean difference|-1.34|STANDARD_ERROR_OF_MEAN|0.621||0.0311|TWO_SIDED|95.0|-2.564|-0.122|||ANCOVA|||||-0.122|-2.564|0.0311
82615362|NCT02389816|164947159|SUPERIORITY||LS mean difference|-1.57|STANDARD_ERROR_OF_MEAN|0.628||0.0126|TWO_SIDED|95.0|-2.807|-0.339|||ANCOVA|||||-0.339|-2.807|0.0126
82615363|NCT02389816|164947160|SUPERIORITY||LS mean difference|-0.79|STANDARD_ERROR_OF_MEAN|0.893||0.3793|TWO_SIDED|95.0|-2.539|0.968|||ANCOVA|||||0.968|-2.539|0.3793
82615364|NCT02389816|164947160|SUPERIORITY||LS mean difference|-0.11|STANDARD_ERROR_OF_MEAN|0.891||0.9011|TWO_SIDED|95.0|-1.862|1.641|||ANCOVA|||||1.641|-1.862|0.9011
82615365|NCT02389816|164947161|SUPERIORITY||LS mean difference|-0.87|STANDARD_ERROR_OF_MEAN|0.329||0.0089|TWO_SIDED|95.0|-1.512|-0.218|||ANCOVA|||||-0.218|-1.512|0.0089
82615366|NCT02389816|164947161|SUPERIORITY||LS mean difference|-1.27|STANDARD_ERROR_OF_MEAN|0.332||0.0001|TWO_SIDED|95.0|-1.922|-0.619|||ANCOVA|||||-0.619|-1.922|0.0001
82615367|NCT00300469|164947162|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 20% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82615368|NCT00300469|164947162|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 20% decrease in triglycerides relative to statin monotherapy for each combo therapy dose, assuming an SD of 30%||||<0.001
82615369|NCT00300469|164947163|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 99% power to detect a 13% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||0.005
82658971|NCT02728102|165034659|SUPERIORITY|||||||0.2213||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 1 year Post Transplant.||||0.2213
82615370|NCT00300469|164947163|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide 99% power to detect a 13% increase in HDL-C relative to statin monotherapy for each combo therapy dose, assuming an SD of 15%||||0.010
82615371|NCT00300469|164947164|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 31% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82615372|NCT00300469|164947164|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||alpha = 0.05, all 3 primary endpoints had to show superiority of combo therapy in order to declare combo therapy successful at a given statin dose, Hochberg method for multiple comparison adjustment for 2 statin doses|ANCOVA|||An n = 92 per arm would provide \>99% power to detect a 31% decrease in LDL-C relative to ABT-335 monotherapy for each combo therapy dose, assuming an SD of 15%||||<0.001
82615373|NCT00578864|164947182|SUPERIORITY_OR_OTHER_LEGACY|||||||0.367||95.0|||||Fisher Exact|||||||0.367
82615374|NCT00578864|164947185|SUPERIORITY_OR_OTHER_LEGACY|||||||0.592||95.0|||||Fisher Exact|||||||0.592
82615375|NCT00418262|164947302|SUPERIORITY||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.21|0.3|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.30|-0.21|
82615376|NCT00418262|164947302|SUPERIORITY||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.42|0.6|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.60|-0.42|
82615377|NCT00418262|164947303|SUPERIORITY||Mean Difference (Net)|0.12|||||TWO_SIDED|95.0|-0.11|0.39|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.39|-0.11|
82615378|NCT00418262|164947303|SUPERIORITY||Mean Difference (Net)|0.24|||||TWO_SIDED|95.0|-0.23|0.77|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.77|-0.23|
82615379|NCT00418262|164947304|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.17|0.36|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.36|-0.17|
82658972|NCT02728102|165034659|SUPERIORITY|||||||0.493||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 1 year Post Transplant.||||0.4930
82658973|NCT02728102|165034659|SUPERIORITY|||||||0.6591||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the lenalidomide/GM-CSF arm and lenalidomide alone arm at 1 year Post Transplant.||||0.6591
82658974|NCT02728102|165034659|SUPERIORITY|||||||0.679||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine and the combined non-vaccine arms at 2 years Post Transplant.||||0.6790
82658975|NCT02728102|165034659|SUPERIORITY|||||||0.3124||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide/GM-CSF arm at 2 years Post Transplant.||||0.3124
82658976|NCT02728102|165034659|SUPERIORITY|||||||0.7379||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the vaccine arm and lenalidomide alone arm at 2 years Post Transplant.||||0.7379
82658977|NCT02728102|165034659|SUPERIORITY|||||||0.2379||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||In this pairwise analysis, the proportion of participants alive and with sCR/CR/VGPR will be compared between the lenalidomide/GM-CSF arm and lenalidomide alone arm at 2 years Post Transplant.||||0.2379
82658978|NCT02728102|165034659|SUPERIORITY|||||||0.5353||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 6 months Post Transplant.||||0.5353
82658979|NCT02728102|165034659|SUPERIORITY|||||||0.4417||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 12 months Post Transplant.||||0.4417
82658980|NCT02728102|165034659|SUPERIORITY|||||||0.945||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||Proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine and the combined non-vaccine arms at 24 months Post Transplant.||||0.9450
82658981|NCT02728102|165034659|SUPERIORITY|||||||0.1599||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine arm and lenalidomide/GM-CSF arm is conducted at 1 year post transplant.||||0.1599
82658982|NCT02728102|165034659|SUPERIORITY|||||||0.8984||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between the vaccine arm and lenalidomide alone arm is conducted at 1 year post transplant.||||0.8984
82658983|NCT02728102|165034659|SUPERIORITY|||||||0.1757||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||A pairwise analysis of proportion of participants achieving CR among the subset of participants who are not in CR at the time of randomization between lenalidomide/GM-CSF arm and lenalidomide alone arm is conducted at 1 year post transplant.||||0.1757
82658984|NCT02728102|165034660|SUPERIORITY|||||||0.161||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between vaccine vs. non- vaccine arms.||||0.161
82658985|NCT02728102|165034661|SUPERIORITY|||||||0.116||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the vaccine arm and lenalidomide/GM-CSF arm.||||0.116
82658986|NCT02728102|165034661|SUPERIORITY|||||||0.519||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the vaccine arm and lenalidomide alone arm.||||0.519
82658987|NCT02728102|165034661|SUPERIORITY|||||||0.387||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Myeloma Progression between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.387
82658988|NCT02728102|165034663|SUPERIORITY|||||||0.168||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between vaccine vs. non- vaccine arms.||||0.168
82658989|NCT02728102|165034664|SUPERIORITY|||||||0.12||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the vaccine arm and lenalidomide/GM-CSF arm.||||0.120
82658990|NCT02728102|165034664|SUPERIORITY|||||||0.519||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the vaccine arm and lenalidomide alone arm.||||0.519
82658991|NCT02728102|165034664|SUPERIORITY|||||||0.387||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of Progression-Free Survival between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.387
82658992|NCT02728102|165034665|SUPERIORITY|||||||0.563||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between vaccine vs. non- vaccine arms.||||0.563
82658993|NCT02728102|165034666|SUPERIORITY|||||||0.308||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the vaccine arm and lenalidomide/GM-CSF arm.||||0.308
82658994|NCT02728102|165034666|SUPERIORITY|||||||0.99||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the vaccine arm and lenalidomide alone arm.||||0.990
82658995|NCT02728102|165034666|SUPERIORITY|||||||0.303||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference of overall Survival between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.303
82658996|NCT02728102|165034668|SUPERIORITY|||||||0.189||||||Statistical significance was determined using a pre-specified threshold of 0.05|Chi-squared|||The null hypothesis is that there is no difference of proportions of patients With Grade ≥ 3 Toxicities between vaccine vs. non- vaccine arms.||||0.189
82658997|NCT02728102|165034670|SUPERIORITY|||||||0.82||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between vaccine vs. non- vaccine arms.||||0.82
82658998|NCT02728102|165034671|SUPERIORITY|||||||0.21||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the vaccine arm and lenalidomide/GM-CSF arm.||||0.21
82658999|NCT02728102|165034671|SUPERIORITY|||||||0.4||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the vaccine arm and lenalidomide alone arm.||||0.40
82659000|NCT02728102|165034671|SUPERIORITY|||||||0.08||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test for cumulative Incidence|||The null hypothesis is that there is no difference of Participants with Grade 2 and 3 infections between the lenalidomide/GM-CSF arm and lenalidomide alone arm.||||0.08
82659001|NCT02728102|165034672|SUPERIORITY|||||||0.8||||||Statistical significance was determined using a pre-specified threshold of 0.05.|Chi-squared|||The null hypothesis is that there is no difference of proportions of patients without Minimal Residual Disease between vaccine vs. non- vaccine arms||||0.80
82659002|NCT02924883|165034674|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3332||95.0|0.55|1.23|||Log Rank|The 2-sided log-rank test, was stratified by world region (Western Europe vs U.S. vs Rest of World) and PD-L1 status (IC 0 vs IC 1/2/3).||||1.23|0.55|0.3332
82659003|NCT02924883|165034676|SUPERIORITY||Hazard Ratio (HR)|0.74||||0.2934||95.0|0.42|1.3|||Log Rank|The 2-sided log-rank test was stratified by world region (Western Europe vs U.S. vs Rest of World) and PD-L1 status (IC 0 vs IC 1/2/3).||||1.30|0.42|0.2934
82659004|NCT02924883|165034678|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.6099||95.0|0.52|3.03|||Log Rank|Stratified Cox proportional hazards model was stratified by world region (Western Europe, U.S., Rest of World) and PD-L1 status (IC 0, IC 1/2/3).||||3.03|0.52|0.6099
82615380|NCT00418262|164947304|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.17|0.36|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.36|-0.17|
82615381|NCT00418262|164947305|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.16|0.4|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.40|-0.16|
82615382|NCT00418262|164947305|SUPERIORITY||Mean Difference (Net)|0.13|||||TWO_SIDED|95.0|-0.16|0.4|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.40|-0.16|
82615383|NCT00418262|164947306|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.36|0.18|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.18|-0.36|
82615384|NCT00418262|164947306|SUPERIORITY||Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.36|0.18|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.18|-0.36|
82659005|NCT00234286|165034739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.009|TWO_SIDED|95.0|1.09|1.76|||Generalized Estimating Equation|||||1.76|1.09|.009
82659006|NCT00234286|165034740|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.96|||Generalized Estimating Equation|||||1.96|0.95|0.09
82659007|NCT00234286|165034741|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.92||||0.69|TWO_SIDED|95.0|0.59|1.42|||Generalized Estimating Equation|||||1.42|0.59|0.69
82659008|NCT00234286|165034742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.03|TWO_SIDED|95.0|0.53|0.96|||Generalized Estimating Equations|||||0.96|0.53|.03
82659009|NCT00234286|165034743|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.66||||0.15|TWO_SIDED|95.0|0.38|1.16|||Generalized Estimating Equation|||||1.16|0.38|0.15
82659010|NCT00234286|165034744|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.04||||0.86|TWO_SIDED|95.0|0.67|1.62|||Generalized Estimating Equation|||||1.62|0.67|0.86
82659011|NCT00234286|165034745|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.09|TWO_SIDED|95.0|0.95|1.96|||Generalized Estimating Equation|||||1.96|0.95|0.09
82659012|NCT00234286|165034746|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.98||||0.01|TWO_SIDED|95.0|1.17|3.36|||Generalized Estimating Equation|||||3.36|1.17|0.01
82659013|NCT00234286|165034747|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.31||||0.36|TWO_SIDED|95.0|0.73|2.35|||Generalized Estimating Equation|||||2.35|0.73|0.36
82659014|NCT00234286|165034748|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.01|TWO_SIDED|95.0|1.08|1.77|||Generalized Estimating Equation|||||1.77|1.08|0.01
82659015|NCT00234286|165034749|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95||||0.76|TWO_SIDED|95.0|0.7|1.3|||Generalized Estimating Equation|||||1.30|0.70|0.76
82659016|NCT00234286|165034750|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.004|TWO_SIDED|95.0|1.41|5.44|||Generalized Estimating Equation|||||5.44|1.41|.004
82659017|NCT00234286|165034751|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.12||||0.007|TWO_SIDED|95.0|1.51|11.28|||Generalized Estimating Equations|||||11.28|1.51|0.007
82659018|NCT00234286|165034752|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.14|TWO_SIDED|95.0|0.84|3.2|||Generalized Estimating Equations|||||3.20|0.84|0.14
82659019|NCT00234286|165034753|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.47||||0.003|TWO_SIDED|95.0|1.15|1.88|||Generalized Estimating Equation|||||1.88|1.15|.003
82659020|NCT00234286|165034754|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.45||||0.19|TWO_SIDED|95.0|0.62|9.7|||Generalized Estimation Equations|||||9.70|0.62|0.19
82659021|NCT01536405|165034761|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% confidence interval (CI) on the risk difference excluding a decrease \>= the prespecified criterion of 10 percentage points|Risk Difference (RD)|4.2|||<|0.001|TWO_SIDED|95.0|1.8|6.8|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||6.8|1.8|<0.001
82659022|NCT01536405|165034761|SUPERIORITY_OR_OTHER||Response rate|97.3|||<|0.001|TWO_SIDED|95.0|95.6|98.4|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>76%||98.4|95.6|<0.001
82659023|NCT01536405|165034762|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|-2.2||||0.003|TWO_SIDED|95.0|-4.0|-0.6|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||-0.6|-4.0|0.003
82659024|NCT01536405|165034762|SUPERIORITY_OR_OTHER||Response rate|96.7|||<|0.001|TWO_SIDED|95.0|94.9|97.9|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||97.9|94.9|<0.001
82659025|NCT01536405|165034763|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|1.0|||<|0.001|TWO_SIDED|95.0|-0.7|2.8|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||2.8|-0.7|<0.001
82659026|NCT01536405|165034763|SUPERIORITY_OR_OTHER||Response rate|98.2|||<|0.001|TWO_SIDED|95.0|96.8|99.1|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||99.1|96.8|<0.001
82659027|NCT01536405|165034764|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the risk difference excluding a decrease \>= the prespecified criterion of 5 percentage points|Risk Difference (RD)|-0.5|||<|0.001|TWO_SIDED|95.0|-1.8|0.7|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||0.7|-1.8|<0.001
82659028|NCT01536405|165034764|SUPERIORITY_OR_OTHER||Response rate|98.8|||<|0.001|TWO_SIDED|95.0|97.6|99.5|||One-sample binomial|||Acceptability of the antibody response rate was based on a lower bound of the 95% CI being \>90%||99.5|97.6|<0.001
82659029|NCT01536405|165034765|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.2|||<|0.001|TWO_SIDED|95.0|1.1|1.3|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.3|1.1|<0.001
82659030|NCT01536405|165034766|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|0.9|||<|0.001|TWO_SIDED|95.0|0.8|1.0|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.0|0.8|<0.001
82659031|NCT01536405|165034767|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.1|0.9|<0.001
82659032|NCT01536405|165034768|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority evaluation is based on the lower bound of the 2-sided 95% CI on the GMT ratio, excluding a decrease of \>=1.5 fold|GMT ratio|1.0|||<|0.001|TWO_SIDED|95.0|0.9|1.1|||t-test, 2 sided|Analysis was based on log-transformed titers|GMT ratio = MMRV (AMP) / MMRV (2006 process)|||1.1|0.9|<0.001
82659033|NCT01536405|165034769|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.2|||<|0.001|TWO_SIDED|95.0|-1.0|1.3|||Miettinen and Nurminen||RD = MMRV (AMP) - MMRV (2006 process)|||1.3|-1.0|<0.001
82659034|NCT01061866|165034785|NON_INFERIORITY_OR_EQUIVALENCE|p less than or equal to 0.05, repeated measures ANOVA|Mean Difference (Final Values)|0.02|||<|0.02||||||p-value is non-adjusted for multiple comparisons|ANOVA|Was adjusted the degrees of freedom for the averaged test of significance.|The frequency of seizures at the beginning of the study and after treatment with thalidomide was contrasted in the same group patients.|Power=0.02||||<0.02
82659035|NCT02255097|165034786|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|null hypothesis (H0): p ≤ 0.05 versus alternate hypothesis (H1): p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659036|NCT02255097|165034787|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659037|NCT02255097|165034790|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659038|NCT02255097|165034791|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0027|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||0.0027
82659039|NCT02255097|165034792|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659040|NCT02255097|165034793|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659041|NCT02255097|165034794|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||exact binomial distribution|H0: p ≤ 0.05 versus H1: p \> 0.05||Analysis comparing the ORR for pembrolizumab to a fixed efficacy target of 5% using an exact test of binomial distribution||||<0.001
82659042|NCT02514122|165034804|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.009|TWO_SIDED|95.0|0.29|1.9||The p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05.|t-test, 2 sided||Score was lower in the Ketamine group.|||1.9|0.29|0.009
82659043|NCT02514122|165034805|SUPERIORITY||Risk Difference (RD)|0.37|||<|0.001|TWO_SIDED|95.0|0.18|0.54|||Fisher Exact|||||.54|.18|<0.001
82659044|NCT03965091|165034811|OTHER||Least square (LS) mean difference|0.1|STANDARD_ERROR_OF_MEAN|0.27||0.7963|TWO_SIDED|95.0|-0.46|0.6|||Mixed Models Analysis|||Analysis was performed using a Mixed Model Repeated Measures (MMRM) model with change from baseline in the weekly average of the daily average PI-NRS score over the past 24 hours at weeks 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 as the dependent variable, sex, age group at FM onset, week, treatment, and treatment-by-week interaction as fixed factors, and baseline average of the daily average PI-NRS score as a covariate.||0.60|-0.46|0.7963
82659045|NCT03965091|165034811|OTHER||LS mean difference|0.0|STANDARD_ERROR_OF_MEAN|0.27||0.8629|TWO_SIDED|95.0|-0.48|0.58|||Mixed Models Analysis|||Analysis was performed using an MMRM model with change from baseline in the weekly average of the daily average PI-NRS score over the past 24 hours at weeks 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 as the dependent variable, sex, age group at FM onset, week, treatment, and treatment-by-week interaction as fixed factors, and baseline average of the daily average PI-NRS score as a covariate.||0.58|-0.48|0.8629
82659046|NCT01059903|165034883|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9028|||||TWO_SIDED|90.0|0.8411|0.969|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||0.9690|0.8411|
82659047|NCT01059903|165034884|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9506|||||TWO_SIDED|90.0|0.8833|1.0231|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||1.0231|0.8833|
82659048|NCT01059903|165034885|NON_INFERIORITY_OR_EQUIVALENCE|If the 90% CI for the ratio of geometric LS-Means is included within 0.8-1.25, the patches are considered bioequivalent.|Ratio of geometric LS-Means|0.9046|||||TWO_SIDED|90.0|0.8437|0.9699|||ANOVA|ANOVA for log-transformed values has been used as the basis for calculation of point estimates (LS-Means) and Confidence Intervals (CIs).|Bioequivalence is concluded if the 90% CIs for the ratio Treatment A/ Treatment B are fully included in the acceptance range from 0.8- 1.25 for AUC(0-tz), AUC(0-inf) and Cmax.|Bioequivalence testing by using the 90% Confidence Interval (CI).||0.9699|0.8437|
82659049|NCT03555305|165034909|EQUIVALENCE|Analysis was performed using linear mixed effects model and participant as a random effect, with period, sequence, and treatment as fixed effects. The estimate of the ratio of means of each PK/PD parameters between the 2 treatments and the corresponding 90% confidence interval were calculated. A typical bio-equivalence limit (0.8 to 1.25) was used as equivalence margin.|Ratio of geometric least squares means|0.961|||||TWO_SIDED|90.0|0.886|1.04|||Linear mixed-effects model|||||1.04|0.886|
82492692|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-0.5||||0.7133|TWO_SIDED|95.0|-3.2|2.2|||Chi-squared|||Week 2: Treatment groups were compared using the Chi-Square Test.||2.2|-3.2|0.7133
82492693|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.6||||0.0864|TWO_SIDED|95.0|-7.8|0.5|||Chi-squared|||Week 3: Treatment groups were compared using the Chi-Square Test.||0.5|-7.8|0.0864
82659050|NCT03555305|165034910|EQUIVALENCE|Analysis was performed using linear mixed effects model and participant as a random effect, with period, sequence, and treatment as fixed effects. The estimate of the ratio of means of each PK/PD parameters between the 2 treatments and the corresponding 90% confidence interval were calculated. A typical bio-equivalence limit (0.8 to 1.25) was used as equivalence margin.|Ratio of geometric least squares means|0.943|||||TWO_SIDED|90.0|0.874|1.02|||Linear mixed-effects model|||||1.02|0.874|
82659051|NCT02100228|165035028|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.0||||0.0151|TWO_SIDED|95.0|0.0|0.6425||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||0.6425|0.0000|0.0151
82659052|NCT02100228|165035030|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.4905||||0.3378|TWO_SIDED|95.0|0.1046|2.0678||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||2.0678|0.1046|0.3378
82659053|NCT02100228|165035031|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|0.83||||0.6851|TWO_SIDED|95.0|0.3433|1.8916||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||1.8916|0.3433|0.6851
82659054|NCT02100228|165035032|SUPERIORITY|This was a descriptive study, and there was no formal pre-defined hypothesis testing.|Risk Ratio (RR)|1.9841|||>|0.9999|TWO_SIDED|95.0|0.1866|53.9968||nominal p-value|Fisher Exact|||Display exact confidence limits for relative risk and Fisher's exact test for comparisons of two proportions.||53.9968|0.1866|>0.9999
82492694|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.1||||0.1713|TWO_SIDED|95.0|-10.0|1.8|||Chi-squared|||Week 4: Treatment groups were compared using the Chi-Square Test.||1.8|-10.0|0.1713
82492695|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.6||||0.1888|TWO_SIDED|95.0|-11.4|2.2|||Chi-squared|||Week 5: Treatment groups were compared using the Chi-Square Test.||2.2|-11.4|0.1888
82659055|NCT02612337|165035072|SUPERIORITY|The target sample size for each was 160 randomized subjects: 80 in each treatment group stratified by gender. The sample size estimate was chosen to achieve more than 90% power with a significance level of 0.05 2-sided to reject the null hypothesis of no treatment difference for the primary endpoint of DVD.|Risk Ratio (RR)|0.907||||0.623|TWO_SIDED|95.0|0.615|1.339|||Regression, Linear|||The primary efficacy endpoint was compared between OTO-104 and placebo at the 2-tailed 0.05 alpha level using a generalized Poisson linear mixed model. The model included fixed effects for randomized treatment group, sex, study week, a treatment group by study week interaction, and the count of lead-in period DVD standardized to 28 days as a covariate.||1.339|0.615|0.623
82659056|NCT01073657|165035078|SUPERIORITY_OR_OTHER||Mean Difference (Net)|18.0|STANDARD_DEVIATION|33.9||0.0059|TWO_SIDED|95.0|14.0|38.0|||t-test, 2 sided|||||38|14|0.0059
82659057|NCT00854100|165035087|SUPERIORITY||Least Squares Mean Difference|0.5||||0.746|TWO_SIDED|95.0|-2.4|3.4|||ANCOVA|||||3.4|-2.4|0.746
82659058|NCT00854100|165035087|SUPERIORITY||Least Squares Mean Difference|-1.8||||0.227|TWO_SIDED|95.0|-4.8|1.1|||ANCOVA|||||1.1|-4.8|0.227
82659059|NCT00854100|165035088|SUPERIORITY||Least Squares Mean Difference|0.0||||0.918|TWO_SIDED|95.0|-0.3|0.3|||ANCOVA|||||0.3|-0.3|0.918
82659060|NCT00854100|165035088|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.167|TWO_SIDED|95.0|-0.6|0.1|||ANCOVA|||||0.1|-0.6|0.167
82659061|NCT04753437|165035118|EQUIVALENCE|Results were based on analysis of variance model with treatment as a fixed effect.|Geometric Least Squares (LS) Mean Ratio|1.3|||||TWO_SIDED|90.0|0.94|1.81||||||||1.81|0.94|
82659062|NCT04753437|165035119|EQUIVALENCE|Results were based on analysis of variance model with treatment as a fixed effect.|Geometric LS Mean Ratio|1.07|||||TWO_SIDED|90.0|0.82|1.4||||||||1.40|0.82|
82659063|NCT02934347|165035124|SUPERIORITY_OR_OTHER||||||>|0.05||||||Grades analysed were 1, 2 and then 3 and 4 combined because of low frequencies in the latter two grades|Chi-squared, Corrected|Chi-squared for trend||Null hypothesis: no difference in frequency of grade of glottic view between the supine and back-up positions||||>0.05
82659064|NCT02934347|165035125|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Chi-squared|df=3||||||<0.01
82659065|NCT02934347|165035126|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82659066|NCT02934347|165035127|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82659067|NCT00486863|165035128|SUPERIORITY_OR_OTHER|||||||0.988||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.988
82659068|NCT00486863|165035129|SUPERIORITY_OR_OTHER||||||>|0.999||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||>0.999
82659069|NCT00486863|165035130|SUPERIORITY_OR_OTHER|||||||0.926||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.926
82659070|NCT00486863|165035131|SUPERIORITY_OR_OTHER|||||||0.502||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||0.502
82659071|NCT00486863|165035132|SUPERIORITY_OR_OTHER|||||||0.439||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||||||0.439
82659072|NCT00486863|165035133|SUPERIORITY_OR_OTHER|||||||0.704||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.704
82659073|NCT00486863|165035134|SUPERIORITY_OR_OTHER|||||||0.517||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|t-test, 2 sided|||||||0.517
82659074|NCT00486863|165035135|SUPERIORITY_OR_OTHER|||||||0.524||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Analysis included the transferrin receptor: ferritin ratio from the cord blood.||||0.524
82659075|NCT00486863|165035135|SUPERIORITY_OR_OTHER|||||||0.07||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Wilcoxon (Mann-Whitney)|||Analysis included the transferrin receptor: ferritin ratio from the heel stick.||||0.070
82659076|NCT00486863|165035136|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||<0.001
82659077|NCT00486863|165035141|SUPERIORITY_OR_OTHER|||||||0.991||||||The p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Chi-squared|||||||0.991
82659078|NCT00355797|165035151|SUPERIORITY_OR_OTHER||Mean Difference (Net)|9.17|STANDARD_DEVIATION|15.9||0.004|TWO_SIDED|95.0|3.24|15.11|||t-test, 2 sided|||The endpoint will compare the composite percent change in ADL performance for patients while their devices are programmed to CLS and accelerometer pacing modes, using the no rate adaptive pacing mode as the baseline. Null hypothesis: mean composite of percent change for patients with their device programmed to CLS is less than or equal to the mean composite of percent change for the same patients with their device in accelerometer.||15.11|3.24|0.004
82659079|NCT00355797|165035158|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.42|STANDARD_DEVIATION|17.74||0.552|TWO_SIDED|95.0|-6.17|3.33|||t-test, 2 sided|||The purpose of endpoint was to evaluate the percent change in pulse pressure during test. The null hypothesis was the mean percent change for patients with their device programmed to CLS is greater or equal to the mean percent change for the same patients with their device in accelerometer.||3.33|-6.17|0.552
82659080|NCT00355797|165035158|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.91|STANDARD_DEVIATION|21.34||0.505|TWO_SIDED|95.0|-3.8|7.63|||t-test, 2 sided|||The purpose of endpoint was to evaluate the percent change in pulse pressure during test. The null hypothesis was the mean percent change for patients with their device programmed to CLS is greater or equal to the mean percent change for the same patients with their device without rate adaptative pacing.||7.63|-3.80|0.505
82659081|NCT00834535|165035167|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.83||||||90.0|93.98|108.17|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.17|93.98|
82615385|NCT00418262|164947307|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.2|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.20|
82615386|NCT00418262|164947307|SUPERIORITY||Mean Difference (Net)|0.04|||||TWO_SIDED|95.0|-0.2|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.20|
82615387|NCT00418262|164947308|SUPERIORITY||Mean Difference (Net)|-0.03|||||TWO_SIDED|95.0|-0.24|0.24|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.24|-0.24|
82615388|NCT00418262|164947308|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.49|0.49|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.49|-0.49|
82615389|NCT00418262|164947309|SUPERIORITY||Mean Difference (Net)|0.0|||||TWO_SIDED|95.0|-0.28|0.26|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.26|-0.28|
82615390|NCT00418262|164947309|SUPERIORITY||Mean Difference (Net)|-0.01|||||TWO_SIDED|95.0|-0.56|0.52|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.52|-0.56|
82615391|NCT00418262|164947310|SUPERIORITY||Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.32|0.2|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.20|-0.32|
82615392|NCT00418262|164947310|SUPERIORITY||Median Difference (Net)|-0.12|||||TWO_SIDED|95.0|-0.64|0.39|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.39|-0.64|
82615393|NCT00418262|164947311|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-0.28|0.24|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.24|-0.28|
82615394|NCT00418262|164947311|SUPERIORITY||Mean Difference (Net)|-0.09|||||TWO_SIDED|95.0|-0.57|0.47|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.47|-0.57|
82659082|NCT00834535|165035168|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.1||||||90.0|92.14|100.22|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.22|92.14|
82659083|NCT00834535|165035169|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.57||||||90.0|92.8|100.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.49|92.8|
82659084|NCT00829673|165035190|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.82||||||90.0|100.24|115.98|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||115.98|100.24|
82659085|NCT00829673|165035191|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.74||||||90.0|97.3|104.29|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.29|97.3|
82659086|NCT00829673|165035192|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.5||||||90.0|97.09|104.03|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.03|97.09|
82659087|NCT00829790|165035193|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|114.49||||||90.0|109.25|119.98|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||119.98|109.25|
82659088|NCT00829790|165035194|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|117.16||||||90.0|110.44|124.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||124.28|110.44|
82659089|NCT00829790|165035195|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|116.7||||||90.0|109.89|123.92|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123.92|109.89|
82659090|NCT00840866|165035229|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.0||||||90.0|99.0|109.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||109|99|
82659091|NCT00840866|165035230|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.9||||||90.0|98.6|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|98.6|
82659092|NCT00840866|165035231|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.8||||||90.0|98.5|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|98.5|
82615395|NCT00418262|164947312|SUPERIORITY||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.21|0.32|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.32|-0.21|
82615396|NCT00418262|164947312|SUPERIORITY||Mean Difference (Net)|0.07|||||TWO_SIDED|95.0|-0.21|0.32|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.32|-0.21|
82615397|NCT00418262|164947313|SUPERIORITY||Mean Difference (Net)|-0.11|||||TWO_SIDED|95.0|-0.36|0.13|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.13|-0.36|
82615398|NCT00418262|164947313|SUPERIORITY||Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.72|0.27|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.27|-0.72|
82615399|NCT00418262|164947314|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.19|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.19|
82615400|NCT00418262|164947314|SUPERIORITY||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.19|0.35|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||0.35|-0.19|
82615401|NCT00418262|164947315|SUPERIORITY||Mean Difference (Net)|-7.4|||||TWO_SIDED|95.0|-7.76|-7.04|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||-7.04|-7.76|
82659093|NCT01371786|165035254|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.92|||||TWO_SIDED|95.0|-21.76|-4.09||No formal statistical testing was conducted. Only descriptive statistics were calculated and presented.|||Difference calculated as Mometasone minus Ciclesonide|No formal null hypothesis was stated or tested.Descriptive statistics only were calculated and presented. The sample size was determined outside of statistical considerations. The sample size of 10 subjects was sufficient to provide approximately 80% power to detect a difference of 25% between the two treatment groups in the percentage of nasal deposition approximately 2 minutes post dose, assuming a two-sided test evaluated at a significance level of 0.05, with a SD of the difference of 23.17%.||-4.09|-21.76|
82659094|NCT00552669|165035259|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||We used One way annalysis of a variance for means and standard deviation.||||<0.05
82659095|NCT00552669|165035260|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||Based on our previous data the incidence of relevant clinical events was similar in both groups (ERACI III and ORAR II)||||0.05
82659096|NCT00552669|165035261|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||"power calculation 80% Hypothesis: No significant diferences between Target Vessel Revascularization (TVR) between both groups.~All events will be recorded and an independent blind for groups clinical events committee will adjudicate each one."||||<0.05
82659097|NCT02459951|165035275|SUPERIORITY|||||||0.059||||||"refer to cylinder A (.5 diameter)"|Regression, Logistic|||||||.059
82659098|NCT02459951|165035275|SUPERIORITY||geometric mean ratio B|||||0.465|||||||Regression, Logistic|"refer to cylinder B(1 diameter)"||||||0.465
82659099|NCT02459951|165035275|SUPERIORITY||geometric mean ratio C|||||0.022||||||"refer to cylinder C (1.5 diameter)"|Regression, Logistic|||||||.022
82659100|NCT02459951|165035275|SUPERIORITY||geometric mean ratio D|||||0.004||||||"refer to cylinder D (2 diameter)"|Regression, Logistic|||||||.004
82659101|NCT02459951|165035275|SUPERIORITY||geometric mean ratio E|||||0.002||||||"refer to cylinder E (2.5 diameter)"|Regression, Logistic|||||||.002
82659102|NCT00252720|165035280|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.024||||0.8487|TWO_SIDED|95.0|0.8|1.312|||Log Rank|Generalized||||1.312|0.800|0.8487
82659103|NCT00102440|165035284|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 80 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|32.0||||||97.5|23.1|41.3||||||||41.3|23.1|
82659104|NCT00102440|165035284|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority of febuxostat 120 mg to allopurinol was declared if the value of the lower bound of the 97.5% confidence interval is \> -10%.|Difference in percentage|41.0||||||97.5|31.5|49.5||||||||49.5|31.5|
82659105|NCT00102440|165035284|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method for multiple comparisons.|Fisher Exact|||||||<0.001
82615402|NCT00418262|164947315|SUPERIORITY||Mean Difference (Net)|-2.44|||||TWO_SIDED|95.0|-3.03|-1.9|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||-1.90|-3.03|
82615403|NCT00418262|164947316|SUPERIORITY||Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-0.69|1.38|||||This is the (growth) model-estimated mean difference between visit 1 and visit 8. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||1.38|-0.69|
82615404|NCT00418262|164947316|SUPERIORITY||Mean Difference (Net)|0.39|||||TWO_SIDED|95.0|-0.69|1.38|||||This is the (growth) model-estimated mean difference between visit 1 and visit 10. This estimate utilizes imputed values for missing observations.|"Tested single-group change over time from baseline (visit 1) to the study endpoint (visit 10). The null hypothesis stated that there was no change in PSE ratings over time. Bayesian growth curve models were estimated using Markov Chain Monte Carlo techniques. Several linear and nonlinear trajectory models were compared on fit to data. Mean differences and confidence intervals were generated from the posterior-predictive distribution of the best fitting growth model."||1.38|-0.69|
82615405|NCT02538666|164947317|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.3693|TWO_SIDED|95.0|0.75|1.12|||Stratified Log Rank|Stratified by response to ECOG PS (0vs1), gender (MvF), irradiation following chemotherapy (YorN) as entered in IVRS|based on stratified 3-arms Cox proportional hazard model|nivolumab + ipilimumab over placebo||1.12|0.75|0.3693
82615406|NCT02538666|164947318|SUPERIORITY||Hazard Ratio (HR)|0.81|||||TWO_SIDED|95.0|0.68|0.97|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab over global placebo||0.97|0.68|
82615407|NCT02538666|164947318|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.53|1.66|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab over China Placebo||1.66|0.53|
82615408|NCT02538666|164947319|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.36|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over global nivolumab||1.36|0.94|
82615409|NCT02538666|164947319|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.56|1.79|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab + ipilimumab over China nivolumab||1.79|0.56|
82615410|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.62|0.88|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over global placebo||0.88|0.62|
82615411|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.55|0.79|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab over global placebo||0.79|0.55|
82615412|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.94|1.35|||||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab+ ipilimumab over nivolumab||1.35|0.94|
82615413|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|0.61|||||TWO_SIDED|95.0|0.33|1.12|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab + Ipilimumab over China placebo||1.12|0.33|
82615414|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|0.45|||||TWO_SIDED|95.0|0.24|0.85|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab over China placebo||0.85|0.24|
82615415|NCT02538666|164947320|SUPERIORITY||Hazard Ratio (HR)|1.34|||||TWO_SIDED|95.0|0.72|2.49|||||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China Nivolumab + Ipilimumab over China Nivolumab||2.49|0.72|
82615416|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.61|1.15|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo+Ipi over placebo||1.15|0.61|
82615417|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.55|1.04|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo over placebo||1.04|0.55|
82615418|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.62|||||TWO_SIDED|95.0|0.42|0.92|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo+Ipi over placebo||0.92|0.42|
82615419|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.64|||||TWO_SIDED|95.0|0.44|0.93|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo over placebo||0.93|0.44|
82615420|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.68|1.21|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo+Ipi over placebo||1.21|0.68|
82615421|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.66|1.18|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo over placebo||1.18|0.66|
82615422|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.81|1.35|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo+Ipi over placebo||1.35|0.81|
82659106|NCT00102440|165035284|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Comparisons of each febuxostat dose to allopurinol were adjusted to control the overall 0.05 level of significance for superiority by using Hochberg's method for multiple comparisons.|Fisher Exact|||||||<0.001
82659107|NCT00102440|165035284|SUPERIORITY_OR_OTHER|||||||0.072||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.072
82492696|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.6||||0.108|TWO_SIDED|95.0|-14.7|1.4|||Chi-squared|||Week 6: Treatment groups were compared using the Chi-Square Test.||1.4|-14.7|0.1080
82492697|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.5||||0.3099|TWO_SIDED|95.0|-13.1|4.2|||Chi-squared|||Week 7: Treatment groups were compared using the Chi-Square Test.||4.2|-13.1|0.3099
82615423|NCT02538666|164947321|SUPERIORITY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.72|1.2|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo over placebo||1.20|0.72|
82615424|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.8|||||TWO_SIDED|95.0|0.58|1.09|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo+Ipi over placebo||1.09|0.58|
82615425|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.5|0.92|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥10 mutations/mb: Nivo over placebo||0.92|0.50|
82615426|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.73|||||TWO_SIDED|95.0|0.5|1.07|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo+Ipi over placebo||1.07|0.50|
82615427|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.46|0.95|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff ≥13 mutations/mb: Nivo over placebo||0.95|0.46|
82615428|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.54|0.96|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo+Ipi over placebo||0.96|0.54|
82615429|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.66|||||TWO_SIDED|95.0|0.49|0.89|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<10 mutations/mb: Nivo over placebo||0.89|0.49|
82615430|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.6|1.01|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo+Ipi over placebo||1.01|0.60|
82615431|NCT02538666|164947322|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.53|0.89|||||Unstratified Cox proportional hazard model. Hazard Ratios are experimental treatment group over placebo.|TMB cutoff \<13 mutations/mb: Nivo over placebo||0.89|0.53|
82615432|NCT02538666|164947323|SUPERIORITY||Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.76|1.09|||Stratified Log Rank||Hazard Ratios are based on stratified 3-arms Cox proportional hazard model.|Global nivolumab + ipilimumab over Global placebo||1.09|0.76|
82615433|NCT02538666|164947323|SUPERIORITY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.52|1.67|||Stratified Log Rank||Hazard Ratios are based on unstratified 3-arms Cox proportional hazard model.|China nivolumab + ipilimumab over China placebo||1.67|0.52|
82615434|NCT00829166|164947325|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.549|0.771|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or greater than \[\>\] 1), and visceral/ non-visceral disease.||0.771|0.549|<0.0001
82615435|NCT00829166|164947327|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.682||||0.0006|TWO_SIDED|95.0|0.548|0.849|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.849|0.548|0.0006
82615436|NCT00829166|164947329|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.749||||0.0003|TWO_SIDED|95.0|0.639|0.877|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.877|0.639|0.0003
82615437|NCT00829166|164947333|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.658|||<|0.0001|TWO_SIDED|95.0|0.56|0.774|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.774|0.560|<0.0001
82615438|NCT00829166|164947334|SUPERIORITY_OR_OTHER||Difference in Objective Response Rates|12.7||||0.0002|TWO_SIDED|95.0|6.0|19.4|||Mantel-Haenszel chi-squared test||The 95% CI for the difference in objective response rate (Trastuzumab emtansine minus Lapatinib + Capecitabine) was computed by using the approximate normal method.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||19.4|6.0|0.0002
82615439|NCT00829166|164947336|SUPERIORITY_OR_OTHER||Difference in Clinical Benefit Rate|14.0|||||TWO_SIDED|95.0|7.0|20.9|||||The 95% CI for the difference in clinical benefit rate (Trastuzumab emtansine minus Lapatinib + Capecitabine) was computed by using the normal approximation method.|||20.9|7.0|
82615440|NCT00829166|164947338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.703|||<|0.0001|TWO_SIDED|95.0|0.602|0.82|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.820|0.602|<0.0001
82615441|NCT00829166|164947340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.796||||0.0121|TWO_SIDED|95.0|0.667|0.951|||Log Rank||HR (relative to Lapatinib + Capecitabine) was estimated by Cox regression.|Analysis stratified by region of enrollment, number of prior chemotherapeutic regimens (0-1 or \>1), and visceral/ non-visceral disease.||0.951|0.667|0.0121
82615442|NCT04525222|164947344|OTHER||Slope|0.42||||0.0088|TWO_SIDED|95.0|0.1|0.74|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||"Treatment satisfaction items are reported on a Likert-type scale, with response choices ranging from not at all to very much. We used a linear regression adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), and Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5) to test for differences between arms."||0.74|0.10|0.0088
82615443|NCT04525222|164947345|OTHER||Slope|2.92||||0.75|TWO_SIDED|95.0|-15.22|21.07|||Negative Binomial Regression|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||21.07|-15.22|0.75
82615444|NCT04525222|164947346|OTHER||Odds Ratio (OR)|1.33||||0.55|TWO_SIDED|95.0|0.5|3.48|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.48|0.5|0.55
82659108|NCT00102440|165035285|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659109|NCT00102440|165035285|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659110|NCT00102440|165035285|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.031
82659111|NCT00102440|165035286|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659112|NCT00102440|165035286|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659113|NCT00102440|165035286|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.883
82659114|NCT00102440|165035287|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659115|NCT00102440|165035287|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||<0.001
82659116|NCT00102440|165035287|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.164
82615445|NCT04525222|164947347|OTHER||Odds Ratio (OR)|1.63||||0.17|TWO_SIDED|95.0|0.8|3.32|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking \<20 Cigs/ \>=20 Cigs, Baseline Depression Severity PHQ-8\<5 / PHQ-8\>=5||||3.32|0.80|0.17
82615446|NCT04525222|164947348|OTHER||Odds Ratio (OR)|1.63||||0.25|TWO_SIDED|95.0|0.7|3.81|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.81|0.70|0.25
82615447|NCT04525222|164947349|OTHER||Odds Ratio (OR)|1.88||||0.07|TWO_SIDED|95.0|0.94|3.72||Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)|Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.72|0.94|0.07
82615448|NCT04525222|164947350|OTHER||Odds Ratio (OR)|2.42||||0.04|TWO_SIDED|95.0|1.0|5.85|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||5.85|1.00|0.04
82615449|NCT04525222|164947351|OTHER||Odds Ratio (OR)|1.47||||0.25|TWO_SIDED|95.0|0.75|2.89|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||2.89|0.75|0.25
82615450|NCT04525222|164947352|OTHER||Odds Ratio (OR)|1.78||||0.17|TWO_SIDED|95.0|0.77|4.12|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.12|0.77|0.17
82615451|NCT04525222|164947353|OTHER||Odds Ratio (OR)|1.91||||0.15|TWO_SIDED|95.0|0.77|4.73|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.73|0.77|0.15
82615452|NCT04525222|164947354|OTHER||Odds Ratio (OR)|1.25||||0.68|TWO_SIDED|95.0|0.41|3.86|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.86|0.41|0.68
82659117|NCT00102440|165035288|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82492698|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-3.4||||0.4595|TWO_SIDED|95.0|-12.4|5.6|||Chi-squared|||Week 8: Treatment groups were compared using the Chi-Square Test.||5.6|-12.4|0.4595
82615453|NCT04525222|164947355|OTHER||Odds Ratio (OR)|1.63||||0.21|TWO_SIDED|95.0|0.75|3.46|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||3.46|0.75|0.21
82615454|NCT04525222|164947356|OTHER||Odds Ratio (OR)|1.63||||0.3|TWO_SIDED|95.0|0.63|4.19|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.19|0.63|0.30
82615455|NCT04525222|164947357|OTHER||Slope|-1.68||||0.0072|TWO_SIDED|95.0|-2.9|-0.46|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||-0.46|-2.90|.0072
82615456|NCT04525222|164947358|OTHER||Odds Ratio (OR)|1.829||||0.177|TWO_SIDED|95.0|0.77|4.344|||Regression, Logistic|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression Severity (PHQ-8\<5 / PHQ-8\>=5)||||4.344|0.770|0.1770
82659118|NCT00102440|165035288|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659119|NCT00102440|165035288|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659120|NCT00102440|165035289|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659121|NCT00102440|165035289|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659122|NCT00102440|165035289|SUPERIORITY_OR_OTHER|||||||0.006||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||0.006
82615457|NCT04525222|164947359|OTHER||Slope|3.62||||0.0025|TWO_SIDED|95.0|1.28|5.95|||Regression, Linear|Adjusting for Treatment Arm, Sex Assigned at Birth, Baseline Level of Smoking (\<20 Cigs/ \>=20 Cigs), Baseline Depression, Baseline Activation Score||||5.95|1.28|0.0025
82615458|NCT01544595|164947360|SUPERIORITY|"H1: Secukinumab 150 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68~• H2: Secukinumab 300 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68"|Hazard Ratio (HR)|0.3|||<|0.0001|TWO_SIDED|95.0|0.22|0.42|||Log Rank|||"The following hypotheses were tested for 52 weeks≤ t ≤68 weeks~* H1: p1(t) - p0,1(t) = 0 versus HA1: p1(t)- p0,1(t) ≥ 0,~* H2: p2(t) - p0,2(t) = 0 versus HA2: p2(t) - p0,2(t) ≥ 0,"||0.42|0.22|<0.0001
82615459|NCT01544595|164947360|SUPERIORITY|"H1: Secukinumab 150 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68~• H2: Secukinumab 300 mg was not different from placebo with respect to the cumulative rate for patients who lost PASI 75 response up to Week 68"|Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.14|0.29|||Log Rank|||"The following hypotheses were tested for 52 weeks≤ t ≤68 weeks~* H1: p1(t) - p0,1(t) = 0 versus HA1: p1(t)- p0,1(t) ≥ 0,~* H2: p2(t) - p0,2(t) = 0 versus HA2: p2(t) - p0,2(t) ≥ 0,"||0.29|0.14|<0.0001
82615460|NCT03382899|164947397|SUPERIORITY||Odds Ratio (OR)|1.1||||0.7626|TWO_SIDED|95.0|0.5|2.5|||Cochran-Mantel-Haenszel||Odds Ratio stratified by histology type, squamous versus non-squamous based on interactive web response system (IWRS). 95% Confidence intervals (CIs) were estimated using the Clopper-Pearson method.|||2.5|0.5|0.7626
82615461|NCT03382899|164947398|SUPERIORITY||Hazard Ratio (HR)|1.53||||0.263|TWO_SIDED|95.0|0.722|3.243|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the methods of Brookmeyer and Crowley, and Greenwood, respectively.|||3.243|0.722|0.263
82615462|NCT03382899|164947399|SUPERIORITY||Hazard Ratio (HR)|0.975||||0.2|TWO_SIDED|95.0|0.571|1.663|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the Kaplan-Meier method.|||1.663|0.571|0.20
82615463|NCT03382899|164947400|SUPERIORITY||Odds Ratio (OR)|1.0||||0.9418|TWO_SIDED|95.0|0.5|2.3|||Cochran-Mantel-Haenszel||Odds Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the Clopper-Pearson method.|||2.3|0.5|0.9418
82615464|NCT03382899|164947401|SUPERIORITY||Hazard Ratio (HR)|1.124||||0.8312|TWO_SIDED|95.0|0.384|3.289|||Log Rank||Hazard Ratio stratified by histology type, squamous versus non-squamous based on IWRS. 95% CIs were estimated using the methods of Brookmeyer and Crowley, and Greenwood, respectively.|||3.289|0.384|0.8312
82615465|NCT00872170|164947402|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||This study had 80% power at level alpha=0.05 to detect a 60 m change in 6MWT among N=10 participants, assuming a 60 m standard deviation for 12-week change.||||0.97
82615466|NCT00872170|164947403|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.04
82615467|NCT00872170|164947404|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.005
82615468|NCT00872170|164947405|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.02
82615469|NCT00872170|164947406|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.05
82615470|NCT00872170|164947407|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.02
82615471|NCT00872170|164947408|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.04
82615472|NCT00872170|164947409|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.33
82615473|NCT00872170|164947410|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.18
82615474|NCT00872170|164947411|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.97
82615475|NCT00872170|164947412|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||Mixed Models Analysis|Linear mixed models with participant-specific intercepts and slopes controlled for time effects were used.||||||0.96
82615476|NCT05281523|164947421|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group.|Difference in Least Square Means|-0.6||||0.004|TWO_SIDED|95.0|-1.0|-0.2|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.2|-1.0|0.004
82615477|NCT05281523|164947422|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group.|Difference in Least Square Means|-0.25||||0.025|TWO_SIDED|95.0|-0.46|-0.03|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-0.03|-0.46|0.025
82615478|NCT05281523|164947423|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group, subgroup by treatment group and subgroup by visit by treatment group.|Difference in Least Square Means|-0.18||||0.125|TWO_SIDED|95.0|-0.4|0.05|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||0.05|-0.40|0.125
82659123|NCT00102440|165035290|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659124|NCT00102440|165035290|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659125|NCT00102440|165035290|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-values for pairwise comparisons are from contrast within the framework of the one-way ANOVA model with treatment as a factor. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|ANOVA|||||||<0.001
82659126|NCT00102440|165035291|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||>0.999
82659127|NCT00102440|165035291|SUPERIORITY_OR_OTHER|||||||0.011||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.011
82659128|NCT00102440|165035291|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.024
82659129|NCT00102440|165035292|SUPERIORITY_OR_OTHER|||||||0.083||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.083
82659130|NCT00102440|165035292|SUPERIORITY_OR_OTHER|||||||0.164||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.164
82659131|NCT00102440|165035292|SUPERIORITY_OR_OTHER|||||||0.619||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.619
82659132|NCT00102440|165035293|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.080
82659133|NCT00102440|165035293|SUPERIORITY_OR_OTHER|||||||0.372||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.372
82659134|NCT00102440|165035293|SUPERIORITY_OR_OTHER|||||||0.246||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.246
82659135|NCT00102440|165035294|SUPERIORITY_OR_OTHER|||||||0.674||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.674
82659136|NCT00102440|165035294|SUPERIORITY_OR_OTHER|||||||0.32||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.320
82659137|NCT00102440|165035294|SUPERIORITY_OR_OTHER|||||||0.411||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.411
82659138|NCT00102440|165035295|SUPERIORITY_OR_OTHER|||||||0.507||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.507
82659139|NCT00102440|165035295|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.188
82659140|NCT00102440|165035295|SUPERIORITY_OR_OTHER|||||||0.362||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.362
82659141|NCT00102440|165035296|SUPERIORITY_OR_OTHER|||||||0.657||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.657
82659142|NCT00102440|165035296|SUPERIORITY_OR_OTHER|||||||0.444||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.444
82659143|NCT00102440|165035296|SUPERIORITY_OR_OTHER|||||||0.719||95.0||||P-values for pairwise comparisons are from the Wilcoxon rank-sum test. Statistical significance was determined at the 0.05 level without adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|||||||0.719
82659144|NCT00102440|165035297|SUPERIORITY_OR_OTHER||||||>|0.999||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||>0.999
82659145|NCT00102440|165035297|SUPERIORITY_OR_OTHER|||||||0.229||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.229
82659146|NCT00102440|165035297|SUPERIORITY_OR_OTHER|||||||0.266||95.0||||Statistical significance was determined at 0.05 level without adjustment for multiple comparisons.|Fisher Exact|||||||0.266
82659147|NCT00772941|165035298|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Gender. The null hypothesis is that there is no difference between Male and Female in the frequency of Treatment Related Adverse Events."||||<0.001
82659148|NCT00772941|165035299|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Age. The null hypothesis is that there is no difference between \<65 years and \>=65 years in the frequency of Treatment Related Adverse Events."||||<0.001
82615479|NCT05281523|164947424|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, subgroup, visit by baseline, visit by treatment group, subgroup by treatment group and subgroup by visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.26||||0.007|TWO_SIDED|95.0|-0.45|-0.07|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 49 to Week 52 in participants with a diagnosis of CRSwNP||-0.07|-0.45|0.007
82615480|NCT05281523|164947425|OTHER|Analysis performed using an analysis of covariance model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region and previous surgery for nasal polyps. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level|Difference in Least Square Means|-3.2|||<|0.001|TWO_SIDED|95.0|-4.4|-2.0|||ANCOVA|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-2.0|-4.4|<0.001
82615481|NCT05281523|164947426|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-9.9||||0.015|TWO_SIDED|95.0|-17.9|-2.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP||-2.0|-17.9|0.015
82615482|NCT05281523|164947427|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.24||||0.016|TWO_SIDED|95.0|-0.43|-0.04|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 21 to Week 24 in participants with a diagnosis of CRSwNP||-0.04|-0.43|0.016
82615483|NCT05281523|164947428|OTHER|Analysis performed using a repeated measures model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, visit, visit by baseline, and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.3||||0.066|TWO_SIDED|95.0|-0.7|0.0|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 26 in participants with a diagnosis of CRSwNP||0.0|-0.7|0.066
82615484|NCT05281523|164947429|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses.|Hazard Ratio (HR)|0.735||||0.128|TWO_SIDED|95.0|0.495|1.092|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.092|0.495|0.128
82659149|NCT00772941|165035300|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Chronic obstructive pulmonary disease as a complication. The null hypothesis is that there is no difference between Varenicline with and without Chronic obstructive pulmonary disease as a complication in the frequency of Treatment Related Adverse Events."||||<0.001
82659150|NCT00772941|165035301|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was concomitant drugs. The null hypothesis is that there is no difference between Varenicline with and without concomitant drugs in the frequency of Treatment Related Adverse Events."||||<0.001
82659151|NCT00772941|165035302|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was concomitant therapies. The null hypothesis is that there is no difference between Varenicline with and without concomitant therapies in the frequency of Treatment Related Adverse Events."||||<0.001
82659152|NCT00772941|165035303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Weight at Baseline. The null hypothesis is that there is no association between Weight at Baseline and the frequency of Treatment Related Adverse Events."||||<0.001
82659153|NCT00772941|165035303|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Armitage|||"The risk factor tested was Weight at Baseline. The null hypothesis is that there is no linear trend in the frequency of Treatment Related Adverse Events across increasing levels of Weight at Baseline."||||<0.001
82659154|NCT00772941|165035304|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was Tobacco consumption per day. The null hypothesis is that there is no association between Tobacco consumption per day and the efficacy of Varenicline."||||<0.001
82659155|NCT00772941|165035304|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Cochran-Armitage|||"The risk factor tested was Tobacco consumption per day. The null hypothesis is that there is no linear trend in the efficacy of Varenicline across increasing levels of tobacco consumption per day."||||<0.001
82659156|NCT00772941|165035305|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was prolonged administration after 12 weeks. The null hypothesis is that there is no difference between administration prolonged after 12 weeks and administration not prolonged after 12 weeks in the efficacy of Varenicline."||||<0.001
82659157|NCT00772941|165035306|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||"The risk factor tested was antipsychotics as a concomitant drug. The null hypothesis is that there is no difference between Varenicline with and without antipsychotics as a concomitant drug in the efficacy of Varenicline."||||<0.001
82659158|NCT02834663|165035373|SUPERIORITY||Mean Difference (Final Values)|-8.76|STANDARD_DEVIATION|12.521|<|0.0001|TWO_SIDED|95.0|-13.928|-3.592||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||Patients were evaluated for changes in BCVA of the treated eye, from the start of the study till 6 months, until trial completion. After administration of each injection, measurements of BCVA were compared to their respective baseline results. The paired t-test and repeated measures ANOVA was performed for comparative analysis, as all showed normality.||-3.592|-13.928|<0.0001
82615485|NCT05281523|164947430|OTHER|Cox Proportional Hazards Model with covariates of treatment, baseline total endoscopic nasal polyps score, baseline nasal obstruction score (VRS), log(e) baseline blood eosinophil count, region, study and previous surgery for nasal polyps. The covariate for study is removed for the individual-study analyses. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Hazard Ratio (HR)|0.713||||0.146|TWO_SIDED|95.0|0.453|1.124|||Cox Proportional Hazards Model|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||1.124|0.453|0.146
82615486|NCT05281523|164947431|OTHER|Logistic regression with covariates of treatment, number of courses of systemic CS in 12 months prior to screening for NP (0, 1,\>1), log(e) baseline blood eosinophil count, baseline total endoscopic NP score, baseline nasal obstruction score (VRS), region, study and previous surgery for NPs. The study covariate is removed for individual study analyses. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Odds Ratio (OR)|0.58||||0.006|TWO_SIDED|95.0|0.4|0.86|||Regression, Logistic|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis)||0.86|0.40|0.006
82615487|NCT05281523|164947432|OTHER|The pooled statistical analyses was performed using a Mixed Models Repeated Measures (MMRM) model with covariates of treatment group, baseline score, log(e) baseline blood eosinophil count, region, previous surgery for nasal polyps, study, visit and interaction terms for visit by baseline score and visit by treatment group. If the hierarchy is broken, subsequent endpoints were evaluated for nominal significance in a descriptive manner, using a 5% reference level.|Difference in Least Square Means|-0.75||||0.004|TWO_SIDED|95.0|-1.26|-0.25|||Mixed Models Analysis|||To assess the efficacy of depemokimab 100mg SC + SoC compared to placebo + SoC at Week 52 in participants with a diagnosis of CRSwNP (pooled analysis).||-0.25|-1.26|0.004
82615488|NCT06018350|164947471|OTHER|||||||0.002|||||||McNemar|||||||0.002
82615489|NCT01096446|164947473|NON_INFERIORITY_OR_EQUIVALENCE|The Chi Square satistical calculation was used for analysis.||||||0.011|TWO_SIDED|95.0|||||Chi-squared|||Four infants(44%)in the control group developed hypertriglyceridemia (\>200 mg/dl) while 100% of the infants in the experimental group developed hypertriglyceridemia (\>200 mg/dl) during the first week of life.||||0.011
82615490|NCT00418834|164947486|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-13.8|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-16.0|-11.7|||ANCOVA|Model terms: treatment, baseline LDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-11.7|-16.0|<0.001
82615491|NCT00418834|164947487|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.4|<|0.001||95.0|-7.4|-1.8|||ANCOVA|Model terms: treatment, baseline LDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-1.8|-7.4|<0.001
82615492|NCT00418834|164947488|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|6.32|||<|0.001||95.0|4.52|8.84|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg|||8.84|4.52|<0.001
82615493|NCT00418834|164947489|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.87|||<|0.001||95.0|1.4|2.5|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg / Atorva 40 mg|||2.50|1.40|<0.001
82615494|NCT00418834|164947490|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|5.48|||<|0.001||95.0|3.98|7.55|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg|||7.55|3.98|<0.001
82615495|NCT00418834|164947491|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.75|||<|0.001||95.0|1.32|2.31|||Regression, Logistic|Model terms: treatment, baseline LDL-C, and AVD status|Estimated ratio is the predictive odds of attaining LDL-C target on Atorva 10 mg + EZ versus Atorva 20 mg / Atorva 40 mg|||2.31|1.32|<0.001
82615496|NCT00418834|164947492|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|0.3|3.5|||ANCOVA|Model terms: treatment, baseline HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||3.5|0.3|<0.001
82659159|NCT02834663|165035374|SUPERIORITY||Mean Difference (Final Values)|110.0|STANDARD_DEVIATION|65.919||0.0001|TWO_SIDED|95.0|82.79|137.21||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||137.210|82.790|0.0001
82492699|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-6.0||||0.2144|TWO_SIDED|95.0|-15.4|3.4|||Chi-squared|||Week 9: Treatment groups were compared using the Chi-Square Test.||3.4|-15.4|0.2144
82615497|NCT00418834|164947493|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|1.5|4.8|||ANCOVA|Model terms: treatment, baseline HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||4.8|1.5|<0.001
82615498|NCT00418834|164947494|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-14.2|-10.3|||ANCOVA|Model terms: treatment, baseline non-HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-10.3|-14.2|<0.001
82615499|NCT00418834|164947495|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.3|<|0.001||95.0|-6.8|-1.7|||ANCOVA|Model terms: treatment, baseline non-HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-1.7|-6.8|<0.001
82615500|NCT00418834|164947496|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.001||95.0|-9.4|-6.5|||ANCOVA|Model terms: treatment, baseline Total Cholesterol, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-6.5|-9.4|<0.001
82615501|NCT00418834|164947497|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-3.8|-0.2|||ANCOVA|Model terms: treatment, baseline Total Cholesterol, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-0.2|-3.8|<0.001
82615502|NCT00418834|164947498|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-6.2|||<|0.001||95.0|-9.0|-3.4|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline TG value (normalized scores), and AVD status|"(Atorva 10 mg + EZ minus Atorva 20 mg)~The median difference is based on the Hodges-Lehmann estimates of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic"|||-3.4|-9.0|<0.001
82659160|NCT02834663|165035375|SUPERIORITY||Mean Difference (Final Values)|3.92|STANDARD_DEVIATION|4.932||0.001|TWO_SIDED|95.0|1.884|5.956||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||5.956|1.884|0.001
82659161|NCT02834663|165035376|SUPERIORITY||Mean Difference (Final Values)|2.23|STANDARD_DEVIATION|2.24||0.0001|TWO_SIDED|95.0|1.3|3.15||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||3.15|1.30|0.0001
82659162|NCT02834663|165035377|SUPERIORITY||Mean Difference (Final Values)|5.64|STANDARD_DEVIATION|7.21||0.0001|TWO_SIDED|95.0|2.67|8.62||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||8.62|2.67|0.0001
82659163|NCT02834663|165035378|SUPERIORITY||Mean Difference (Final Values)|5.64|STANDARD_DEVIATION|7.21||0.0001|TWO_SIDED|95.0|2.67|8.62||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||8.62|2.67|0.0001
82659164|NCT02834663|165035379|SUPERIORITY||Mean Difference (Final Values)|0.021|STANDARD_DEVIATION|1.87||0.221|TWO_SIDED|95.0|-0.751|0.795||The threshold for statistical significance was p \< 0.05|t-test, 2 sided|||||0.795|-0.751|0.221
82659165|NCT02729714|165035399|SUPERIORITY|||||||0.72|||||||Wilcoxon (Mann-Whitney)|||||||0.72
82659166|NCT02729714|165035400|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82659167|NCT02729714|165035401|SUPERIORITY|||||||0.81|||||||Wilcoxon (Mann-Whitney)|||||||0.81
82659168|NCT02729714|165035402|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82659169|NCT02729714|165035403|SUPERIORITY|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||0.32
82659170|NCT02729714|165035404|SUPERIORITY|||||||0.098|||||||Wilcoxon (Mann-Whitney)|||||||0.098
82659171|NCT02729714|165035405|SUPERIORITY|||||||0.2|||||||Wilcoxon (Mann-Whitney)|||||||0.2
82659172|NCT01985308|165035426|SUPERIORITY|||||||0.0002|||||||t-test, 2 sided|||||||0.0002
82659173|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.74||||0.005|TWO_SIDED|95.0|0.6|0.91||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for age (per 5 years) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||0.91|0.60|0.005
82659174|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.87||||0.78|TWO_SIDED|95.0|0.33|2.3||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for scant discharge (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||2.30|0.33|0.780
82659175|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.0||||0.164|TWO_SIDED|95.0|0.75|5.33||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for moderate discharge amount (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||5.33|0.75|0.164
82659176|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.09||||0.919|TWO_SIDED|95.0|0.23|5.17||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for large amount of discharge (reference category is no discharge) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multvariable logistic regression model.||5.17|0.23|0.919
82659177|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.81||||0.051|TWO_SIDED|95.0|1.0|3.3||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 2 or more sex partners in the last 3 months (reference category is 0-1 partners) is 1 versus the alternative that it is greater than or less than 1.||3.30|1.00|0.051
82659178|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.42||||0.076|TWO_SIDED|95.0|0.86|22.74||A priori threshold for statistical significance was p\<0.05|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 1 or more new sex partners in the last 30 days (reference category is 0) is 1 versus the alternative that it is greater than or less than 1.||22.74|0.86|0.076
82659179|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.075|TWO_SIDED|95.0|0.13|1.1||A priori threshold fors tatistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for ever having sex with a prostitute or sex for money, drugs, or other things (reference category is no) is 1 versus the alternative that it is greater than or less than 1.||1.10|0.13|0.075
82659180|NCT00322465|165035499|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.92|||<|0.001|TWO_SIDED|95.0|1.93|7.98||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for visit due to sexually transmitted disease contact (reference category is no) is 1 versus the alternative that it is greater than or less than 1.||7.98|1.93|<0.001
82659181|NCT00322465|165035500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2||||0.009|TWO_SIDED|95.0|0.06|0.66||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for 2 or more sex partners in the last 3 months (reference category is 0-1 partners) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||0.66|0.06|0.009
82492700|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-5.4||||0.2779|TWO_SIDED|95.0|-15.1|4.3|||Chi-squared|||Week 10: Treatment groups were compared using the Chi-Square Test.||4.3|-15.1|0.2779
82615503|NCT00418834|164947499|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-2.1|||<|0.001||95.0|-5.2|1.0|||Nonparametric ANCOVA|ANCOVA using ranks based on normal scores (Tukey method) with model terms for treatment, baseline TG value (normalized scores), and AVD status|"(Atorva 10 mg + EZ minus Atorva 20 mg)~The median difference is based on the Hodges-Lehmann estimates~of shift; The distribution-free 95% CI is based on Wilcoxon's rank sum test statistic"|||1.0|-5.2|<0.001
82615504|NCT00418834|164947500|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.1|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-11.0|-7.3|||ANCOVA|Model terms: treatment, baseline Apo B, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.3|-11.0|<0.001
82615505|NCT00418834|164947501|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.2|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-5.5|-0.9|||ANCOVA|Model terms: treatment, baseline Apo B, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-0.9|-5.5|<0.001
82615506|NCT00418834|164947502|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.6|STANDARD_ERROR_OF_MEAN|0.8||0.401||95.0|-0.9|2.1|||ANCOVA|Model terms: treatment, baseline Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||2.1|-0.9|0.401
82615507|NCT00418834|164947503|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.7|STANDARD_ERROR_OF_MEAN|0.8|<|0.001||95.0|1.1|4.2|||ANCOVA|Model terms: treatment, baseline Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||4.2|1.1|<0.001
82615508|NCT00418834|164947504|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|0.9|<|0.001||95.0|-10.7|-7.3|||ANCOVA|Model terms: treatment, baseline Total-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.3|-10.7|<0.001
82492701|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-2.7||||0.5876|TWO_SIDED|95.0|-12.6|7.1|||Chi-squared|||Week 11: Treatment groups were compared using the Chi-Square Test.||7.1|-12.6|0.5876
82615509|NCT00418834|164947505|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.1|<|0.001||95.0|-6.8|-2.4|||ANCOVA|Model terms: treatment, baseline Total-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-2.4|-6.8|<0.001
82615510|NCT00418834|164947506|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-17.0|-12.2|||ANCOVA|Model terms: treatment, baseline LDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-12.2|-17.0|<0.001
82615511|NCT00418834|164947507|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.9|STANDARD_ERROR_OF_MEAN|1.7|<|0.001||95.0|-10.1|-3.7|||ANCOVA|Model terms: treatment, baseline LDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-3.7|-10.1|<0.001
82615512|NCT00418834|164947508|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.5|STANDARD_ERROR_OF_MEAN|1.0|<|0.001||95.0|-11.6|-7.5|||ANCOVA|Model terms: treatment, baseline Apo B:Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-7.5|-11.6|<0.001
82615513|NCT00418834|164947509|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-7.7|-2.9|||ANCOVA|Model terms: treatment, baseline Apo B:Apo A-I, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-2.9|-7.7|<0.001
82492702|NCT00087607|164678200|SUPERIORITY_OR_OTHER||Difference in proportion of participants|-4.8||||0.3399|TWO_SIDED|95.0|-14.7|5.1|||Chi-squared|||Week 12: Treatment groups were compared using the Chi-Square Test.||5.1|-14.7|0.3399
82492703|NCT00087607|164678205|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED||||||Repeated measures analysis|The P-value is determined from a repeated measures analysis with terms for treatment group, baseline, week, and the week-by-treatment interaction.||Week 1: The treatment groups were compared using repeated measures analysis||||0.024
82615514|NCT00418834|164947510|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-12.9|STANDARD_ERROR_OF_MEAN|1.2|<|0.001||95.0|-15.3|-10.5|||ANCOVA|Model terms: treatment, baseline non-HDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg)|||-10.5|-15.3|<0.001
82615515|NCT00418834|164947511|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.7|STANDARD_ERROR_OF_MEAN|1.6|<|0.001||95.0|-9.8|-3.6|||ANCOVA|Model terms: treatment, baseline non-HDL-C:HDL-C, and AVD status|(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)|||-3.6|-9.8|<0.001
82615516|NCT00418834|164947512|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.8||||0.534||95.0|-11.9|6.4|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, AVD status, and the interaction of time by treatment|"(Atorva 10 mg + EZ minus Atorva 20 mg)~Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means."|||6.4|-11.9|0.534
82615517|NCT00418834|164947513|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.0||||0.09||95.0|-15.6|1.6|||Longitudinal Data Analysis (LDA)|LDA method of Liang and Zeger with model terms: treatment, time, AVD status, and the interaction of time by treatment|"(Atorva 10 mg + EZ minus Atorva 20 mg / Atorva 40 mg)~Data for analysis was transformed by the natural log and the difference in geometric mean % change from BL calculated based on the difference in the back-transformed least squares means."|||1.6|-15.6|0.090
82615518|NCT01953328|164947514|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-73.97|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-78.54|-69.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.41|-78.54|<0.001
82615519|NCT01953328|164947514|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-72.89|STANDARD_ERROR_OF_MEAN|2.18|<|0.001|TWO_SIDED|95.0|-77.22|-68.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-68.57|-77.22|<0.001
82615520|NCT01953328|164947514|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.41|STANDARD_ERROR_OF_MEAN|3.43|<|0.001|TWO_SIDED|95.0|-81.21|-67.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-67.61|-81.21|<0.001
82615521|NCT01953328|164947514|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.27|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-78.93|-69.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at the mean of Weeks 10 and 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.60|-78.93|<0.001
82615522|NCT01953328|164947515|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-74.85|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-80.22|-69.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-69.47|-80.22|<0.001
82615523|NCT01953328|164947515|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-69.91|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|-74.6|-65.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.23|-74.60|<0.001
82615524|NCT01953328|164947515|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-78.85|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-83.55|-68.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-68.15|-83.55|<0.001
82615525|NCT01953328|164947515|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-66.87|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-72.88|-60.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|The null hypothesis was that there was no difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.87|-72.88|<0.001
82615526|NCT01953328|164947516|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-89.3|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-98.4|-80.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-80.2|-98.4|<0.001
82615527|NCT01953328|164947516|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-86.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-95.1|-77.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-77.5|-95.1|<0.001
82615528|NCT01953328|164947516|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.7|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-75.3|-62.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.1|-75.3|<0.001
82615529|NCT01953328|164947516|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-72.0|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-79.5|-64.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-64.6|-79.5|<0.001
82615530|NCT01953328|164947517|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-90.8|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-100.9|-80.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-80.7|-100.9|<0.001
82615531|NCT01953328|164947517|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-83.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-92.5|-74.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-74.8|-92.5|<0.001
82615532|NCT01953328|164947517|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-69.6|STANDARD_ERROR_OF_MEAN|3.5|<|0.001|TWO_SIDED|95.0|-76.5|-62.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.6|-76.5|<0.001
82659182|NCT00322465|165035500|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.39||||0.074|TWO_SIDED|95.0|0.92|6.22||A priori threshold for statistical signficance was p\<0.05.|Regression, Logistic|Odds ratio has been adjusted for other independent variables included in the model, which are found in the other Statistical Analysis sections.||The null hypothesis is that the odds ratio for ever having sex with a prostitute or for money, drugs, or other things(reference category is no) is 1 versus the alternative that it is greater than or less than 1. This was tested in a multivariable logistic regression model.||6.22|0.92|0.074
82615533|NCT01953328|164947517|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.5|STANDARD_ERROR_OF_MEAN|4.2|<|0.001|TWO_SIDED|95.0|-73.8|-57.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-57.1|-73.8|<0.001
82615534|NCT01953328|164947518|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.67|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-73.06|-64.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-64.27|-73.06|<0.001
82615535|NCT01953328|164947518|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.95|STANDARD_ERROR_OF_MEAN|1.91|<|0.001|TWO_SIDED|95.0|-69.74|-62.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.16|-69.74|<0.001
82615536|NCT01953328|164947518|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.14|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-73.3|-62.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.99|-73.30|<0.001
82615537|NCT01953328|164947518|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-67.28|STANDARD_ERROR_OF_MEAN|1.94|<|0.001|TWO_SIDED|95.0|-71.14|-63.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.42|-71.14|<0.001
82615538|NCT01953328|164947519|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.93|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-73.96|-63.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.89|-73.96|<0.001
82615539|NCT01953328|164947519|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.58|STANDARD_ERROR_OF_MEAN|2.2|<|0.001|TWO_SIDED|95.0|-67.96|-59.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.21|-67.96|<0.001
82615540|NCT01953328|164947519|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.82|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-74.79|-62.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.86|-74.79|<0.001
82615541|NCT01953328|164947519|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.89|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-65.78|-55.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.99|-65.78|<0.001
82615542|NCT01953328|164947520|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.44|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-68.49|-60.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-60.39|-68.49|<0.001
82615543|NCT01953328|164947520|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-59.24|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED|95.0|-63.3|-55.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.17|-63.30|<0.001
82615544|NCT01953328|164947520|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.06|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-64.87|-55.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.25|-64.87|<0.001
82659183|NCT00322465|165035501|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.8||||0.032|TWO_SIDED|95.0|0.66|0.98||A priori threshold for statistical significance was p\<0.05.|Regression, Logistic|No other independent variables were included in the model.||The null hypothesis is that the odds ratio for age (per 5 years) is 1 versus the alternative that the odds ratio is greater than or less than 1.||0.98|0.66|0.032
82615545|NCT01953328|164947520|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.39|STANDARD_ERROR_OF_MEAN|1.9|<|0.001|TWO_SIDED|95.0|-67.15|-59.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.62|-67.15|<0.001
82492704|NCT00087607|164678205|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Repeated measures analysis|||Week 8: The treatment groups were compared using Repeated measures analysis||||<0.001
82615546|NCT01953328|164947521|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-65.56|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-70.34|-60.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-60.79|-70.34|<0.001
82615547|NCT01953328|164947521|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.23|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-62.05|-52.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-52.40|-62.05|<0.001
82615548|NCT01953328|164947521|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.37|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-65.91|-54.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-54.83|-65.91|<0.001
82615549|NCT01953328|164947521|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-56.15|STANDARD_ERROR_OF_MEAN|2.4|<|0.001|TWO_SIDED|95.0|-60.92|-51.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-51.39|-60.92|<0.001
82615550|NCT01953328|164947522|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.54|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|95.0|-49.35|-41.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.73|-49.35|<0.001
82615551|NCT01953328|164947522|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.43|STANDARD_ERROR_OF_MEAN|1.69|<|0.001|TWO_SIDED|95.0|-46.78|-40.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-40.08|-46.78|<0.001
82615552|NCT01953328|164947522|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-40.98|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-44.88|-37.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.08|-44.88|<0.001
82615553|NCT01953328|164947522|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.14|STANDARD_ERROR_OF_MEAN|1.68|<|0.001|TWO_SIDED|95.0|-46.48|-39.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.80|-46.48|<0.001
82615554|NCT01953328|164947523|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.44|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-49.83|-41.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.05|-49.83|<0.001
82615555|NCT01953328|164947523|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-41.34|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-44.84|-37.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.85|-44.84|<0.001
82615556|NCT01953328|164947523|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-40.96|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-45.35|-36.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-36.57|-45.35|<0.001
82615557|NCT01953328|164947523|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-38.44|STANDARD_ERROR_OF_MEAN|1.93|<|0.001|TWO_SIDED|95.0|-42.26|-34.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.62|-42.26|<0.001
82659184|NCT00762307|165035520|OTHER||Mean Difference (Net)|18.7|STANDARD_ERROR_OF_MEAN|1.9|||TWO_SIDED|95.0|14.9|22.4||||||||22.4|14.9|
82659185|NCT00762307|165035522|OTHER||sucess percentage|91.9|STANDARD_ERROR_OF_MEAN|5.2|||ONE_SIDED|||||||||||||
82659186|NCT02779543|165035523|EQUIVALENCE|this trial compared the 2 devices to the polysomnography, which is the gold standard|Mean value|368.3|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
82659187|NCT02779543|165035524|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|13.9|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
82659188|NCT02779543|165035525|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|106.0|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
82659189|NCT02779543|165035526|EQUIVALENCE|This trial compared those 2 devices with the gold standard (polysomnography)|Mean value|74.3|||<|0.001|TWO_SIDED||||||ANOVA||compared to gold standard|||||<0.001
82659190|NCT00939003|165035546|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82659191|NCT00939003|165035547|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
82659192|NCT00939003|165035548|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Chi-squared|||||||0.001
82659193|NCT00939003|165035549|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.001
82659194|NCT00939003|165035550|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Chi-squared|||||||0.014
82659195|NCT00939003|165035553|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||<0.001
82615558|NCT01953328|164947524|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-54.77|STANDARD_ERROR_OF_MEAN|2.32|<|0.001|TWO_SIDED|95.0|-59.37|-50.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-50.17|-59.37|<0.001
82615559|NCT01953328|164947524|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.66|STANDARD_ERROR_OF_MEAN|2.17|<|0.001|TWO_SIDED|95.0|-56.95|-48.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-48.36|-56.95|<0.001
82615560|NCT01953328|164947524|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.83|STANDARD_ERROR_OF_MEAN|1.96|<|0.001|TWO_SIDED|95.0|-54.72|-46.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.93|-54.72|<0.001
82615561|NCT01953328|164947524|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.69|STANDARD_ERROR_OF_MEAN|2.04|<|0.001|TWO_SIDED|95.0|-53.74|-45.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-45.64|-53.74|<0.001
82615562|NCT01953328|164947525|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-55.45|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-60.93|-49.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-49.98|-60.93|<0.001
82615563|NCT01953328|164947525|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.95|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-55.91|-46.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.00|-55.91|<0.001
82615564|NCT01953328|164947525|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-51.36|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-55.93|-46.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-46.80|-55.93|<0.001
82615565|NCT01953328|164947525|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.44|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-50.08|-40.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-40.81|-50.08|<0.001
82615566|NCT01953328|164947526|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-66.47|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-70.58|-62.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-62.36|-70.58|<0.001
82615567|NCT01953328|164947526|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.33|STANDARD_ERROR_OF_MEAN|2.35|<|0.001|TWO_SIDED|95.0|-69.01|-59.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.66|-69.01|<0.001
82615568|NCT01953328|164947526|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-64.05|STANDARD_ERROR_OF_MEAN|2.44|<|0.001|TWO_SIDED|95.0|-68.9|-59.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-59.20|-68.90|<0.001
82615569|NCT01953328|164947526|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-67.26|STANDARD_ERROR_OF_MEAN|2.07|<|0.001|TWO_SIDED|95.0|-71.36|-63.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.15|-71.36|<0.001
82615570|NCT01953328|164947527|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.29|STANDARD_ERROR_OF_MEAN|2.24|<|0.001|TWO_SIDED|95.0|-72.75|-63.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-63.84|-72.75|<0.001
82615571|NCT01953328|164947527|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-62.53|STANDARD_ERROR_OF_MEAN|2.81|<|0.001|TWO_SIDED|95.0|-68.11|-56.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-56.94|-68.11|<0.001
82615572|NCT01953328|164947527|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.97|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-69.44|-58.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-58.50|-69.44|<0.001
82615573|NCT01953328|164947527|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.62|STANDARD_ERROR_OF_MEAN|2.47|<|0.001|TWO_SIDED|95.0|-65.51|-55.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-55.72|-65.51|<0.001
82615574|NCT01953328|164947528|SUPERIORITY_OR_OTHER||Treatment Difference|98.0|||<|0.001|TWO_SIDED|95.0|86.8|99.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||99.6|86.8|<0.001
82615575|NCT01953328|164947528|SUPERIORITY_OR_OTHER||Treatment Difference|96.0|||<|0.001|TWO_SIDED|95.0|84.1|98.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||98.9|84.1|<0.001
82615576|NCT01953328|164947528|SUPERIORITY_OR_OTHER||Treatment Difference|73.6|||<|0.001|TWO_SIDED|95.0|57.1|83.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||83.4|57.1|<0.001
82615577|NCT01953328|164947528|SUPERIORITY_OR_OTHER||Treatment Difference|82.4|||<|0.001|TWO_SIDED|95.0|67.5|90.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||90.0|67.5|<0.001
82615578|NCT01953328|164947529|SUPERIORITY_OR_OTHER||Treatment Difference|98.0|||<|0.001|TWO_SIDED|95.0|86.7|99.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||99.6|86.7|<0.001
82615579|NCT01953328|164947529|SUPERIORITY_OR_OTHER||Treatment Difference|91.8|||<|0.001|TWO_SIDED|95.0|78.2|96.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||96.0|78.2|<0.001
82615580|NCT01953328|164947529|SUPERIORITY_OR_OTHER||Treatment Difference|75.6|||<|0.001|TWO_SIDED|95.0|59.3|85.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||85.0|59.3|<0.001
82615581|NCT01953328|164947529|SUPERIORITY_OR_OTHER||Treatment Difference|78.0|||<|0.001|TWO_SIDED|95.0|62.6|86.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factor (HeFH diagnosis and lipid-lowering therapy).||||86.9|62.6|<0.001
82615582|NCT01953328|164947530|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-51.2|STANDARD_ERROR_OF_MEAN|6.39|<|0.001|TWO_SIDED|95.0|-63.88|-38.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-38.52|-63.88|<0.001
82615583|NCT01953328|164947530|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.08|STANDARD_ERROR_OF_MEAN|4.94|<|0.001|TWO_SIDED|95.0|-58.89|-39.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.27|-58.89|<0.001
82615584|NCT01953328|164947530|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.55|STANDARD_ERROR_OF_MEAN|5.14|<|0.001|TWO_SIDED|95.0|-59.74|-39.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-39.35|-59.74|<0.001
82615585|NCT01953328|164947530|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-43.93|STANDARD_ERROR_OF_MEAN|4.95|<|0.001|TWO_SIDED|95.0|-53.75|-34.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.12|-53.75|<0.001
82615586|NCT01953328|164947531|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-50.07|STANDARD_ERROR_OF_MEAN|7.64|<|0.001|TWO_SIDED|95.0|-65.25|-34.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-34.90|-65.25|<0.001
82615587|NCT01953328|164947531|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-48.77|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-60.49|-37.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-37.05|-60.49|<0.001
82615588|NCT01953328|164947531|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.68|STANDARD_ERROR_OF_MEAN|5.73|<|0.001|TWO_SIDED|95.0|-64.06|-41.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-41.30|-64.06|<0.001
82615589|NCT01953328|164947531|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-39.97|STANDARD_ERROR_OF_MEAN|5.29|<|0.001|TWO_SIDED|95.0|-50.46|-29.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-29.48|-50.46|<0.001
82615590|NCT01953328|164947532|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.93|STANDARD_ERROR_OF_MEAN|6.72|<|0.001|TWO_SIDED|95.0|-41.27|-14.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-14.59|-41.27|<0.001
82659196|NCT00939003|165035554|SUPERIORITY_OR_OTHER|||||||0.027|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.027
82659197|NCT00939003|165035555|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||<0.001
82615591|NCT01953328|164947532|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-21.94|STANDARD_ERROR_OF_MEAN|5.34|<|0.001|TWO_SIDED|95.0|-32.54|-11.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-11.35|-32.54|<0.001
82615592|NCT01953328|164947532|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.01|STANDARD_ERROR_OF_MEAN|4.83|<|0.001|TWO_SIDED|95.0|-29.59|-10.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-10.43|-29.59|<0.001
82615593|NCT01953328|164947532|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.72|STANDARD_ERROR_OF_MEAN|6.78||0.01|TWO_SIDED|95.0|-34.18|-7.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-7.26|-34.18|0.010
82615594|NCT01953328|164947533|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.57|STANDARD_ERROR_OF_MEAN|9.45|<|0.001|TWO_SIDED|95.0|-46.33|-8.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.81|-46.33|<0.001
82615595|NCT01953328|164947533|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-19.97|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-31.68|-8.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.25|-31.68|<0.001
82615596|NCT01953328|164947533|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-17.17|STANDARD_ERROR_OF_MEAN|5.53|<|0.001|TWO_SIDED|95.0|-28.15|-6.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-6.19|-28.15|<0.001
82615597|NCT01953328|164947533|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-16.92|STANDARD_ERROR_OF_MEAN|7.24||0.01|TWO_SIDED|95.0|-31.29|-2.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-2.56|-31.29|0.010
82615598|NCT01953328|164947534|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|12.33|STANDARD_ERROR_OF_MEAN|2.49|<|0.001|TWO_SIDED|95.0|7.39|17.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||17.27|7.39|<0.001
82615599|NCT01953328|164947534|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|14.61|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|9.93|19.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||19.30|9.93|<0.001
82615600|NCT01953328|164947534|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|15.36|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|10.12|20.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||20.60|10.12|<0.001
82615601|NCT01953328|164947534|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|9.15|STANDARD_ERROR_OF_MEAN|2.26||0.001|TWO_SIDED|95.0|4.67|13.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||13.62|4.67|0.001
82615602|NCT01953328|164947535|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|13.46|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|7.4|19.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||19.53|7.40|<0.001
82615603|NCT01953328|164947535|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|15.2|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|9.87|20.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||20.52|9.87|<0.001
82659198|NCT00939003|165035556|SUPERIORITY_OR_OTHER|||||||0.003|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.003
82615604|NCT01953328|164947535|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|16.85|STANDARD_ERROR_OF_MEAN|3.08|<|0.001|TWO_SIDED|95.0|10.74|22.95||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||22.95|10.74|<0.001
82659199|NCT00939003|165035557|SUPERIORITY_OR_OTHER|||||||0.001|||||||ANCOVA|ANCOVA model adjusting for Baseline value with treatment as a factor.||||||0.001
82659200|NCT03707912|165035567|SUPERIORITY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82659201|NCT03707912|165035568|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.11
82659202|NCT03707912|165035569|SUPERIORITY|||||||0.0012|||||||Cochran-Mantel-Haenszel|||||||0.0012
82659203|NCT03707912|165035569|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.98|||||||Breslow-Day test|||||||0.98
82659204|NCT03707912|165035570|SUPERIORITY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82615605|NCT01953328|164947535|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|10.2|STANDARD_ERROR_OF_MEAN|2.7||0.001|TWO_SIDED|95.0|4.85|15.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||15.55|4.85|0.001
82615606|NCT01953328|164947536|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.85|STANDARD_ERROR_OF_MEAN|5.8|<|0.001|TWO_SIDED|95.0|-39.37|-16.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-16.34|-39.37|<0.001
82615607|NCT01953328|164947536|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-22.65|STANDARD_ERROR_OF_MEAN|5.17|<|0.001|TWO_SIDED|95.0|-32.91|-12.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-12.39|-32.91|<0.001
82615608|NCT01953328|164947536|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-18.09|STANDARD_ERROR_OF_MEAN|4.69||0.001|TWO_SIDED|95.0|-27.4|-8.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-8.77|-27.40|0.001
82615609|NCT01953328|164947536|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-27.16|STANDARD_ERROR_OF_MEAN|6.12|<|0.001|TWO_SIDED|95.0|-39.31|-15.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-15.01|-39.31|<0.001
82615610|NCT01953328|164947537|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-28.42|STANDARD_ERROR_OF_MEAN|7.08|<|0.001|TWO_SIDED|95.0|-42.48|-14.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-14.36|-42.48|<0.001
82615611|NCT01953328|164947537|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.81|STANDARD_ERROR_OF_MEAN|5.78|<|0.001|TWO_SIDED|95.0|-32.29|-9.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-9.33|-32.29|<0.001
82615612|NCT01953328|164947537|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-15.05|STANDARD_ERROR_OF_MEAN|5.37||0.001|TWO_SIDED|95.0|-25.72|-4.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-4.39|-25.72|0.001
82659205|NCT03707912|165035571|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82615613|NCT01953328|164947537|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-24.35|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-36.7|-11.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, stratification factor, scheduled visit, and the interaction of treatment group with scheduled visit.|Placebo is the reference|||-11.99|-36.70|<0.001
82615614|NCT05113953|164947553|SUPERIORITY||Treatment Difference|-0.42||||0.1893|TWO_SIDED|95.0|-1.06|0.21||P-value was analysed by MMRM method with change from baseline in binge eating days per week at scheduled visit as dependent variable and included fixed effect terms for treatment, trial center, visit week, interaction term of treatment by visit week.|MMRM|||||0.21|-1.06|0.1893
82615615|NCT05113953|164947553|SUPERIORITY||Treatment Difference|-0.06||||0.8502|TWO_SIDED|95.0|-0.69|0.57||P-value was analysed by MMRM method with change from baseline in binge eating days per week at scheduled visit as dependent variable and included fixed effect terms for treatment, trial center, visit week, interaction term of treatment by visit week.|MMRM|||||0.57|-0.69|0.8502
82615616|NCT05113953|164947554|SUPERIORITY||Treatment Difference|-0.54||||0.0313|TWO_SIDED|95.0|-1.02|-0.05||P-value was analysed by MMRM method with change from baseline value as dependent variable and included treatment, trial center, visit week, treatment-by-week interaction as fixed effects and baseline-by-week interaction as covariates.|MMRM|||Change from baseline at Week 8||-0.05|-1.02|0.0313
82615617|NCT05113953|164947554|SUPERIORITY||Treatment Difference|0.19||||0.4471|TWO_SIDED|95.0|-0.3|0.67||P-value was analysed by MMRM method with change from baseline value as dependent variable and included treatment, trial center, visit week, treatment-by-week interaction as fixed effects and baseline-by-week interaction as covariates.|MMRM|||Change from baseline at Week 8||0.67|-0.30|0.4471
82615618|NCT00502307|164947573|OTHER||Exact binomial distribution|24.6|||||TWO_SIDED|95.0|19.6|30.2||||||||30.2|19.6|
82615619|NCT00502307|164947573|OTHER||Exact binomial distribution|18.0|||||TWO_SIDED|95.0|13.6|23.1||||||||23.1|13.6|
82615620|NCT00502307|164947574|OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82615621|NCT00502307|164947574|OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82615622|NCT00502307|164947575|OTHER|||||||0.005|||||||Log Rank|||||||0.005
82615623|NCT00502307|164947575|OTHER|||||||0.129|||||||Log Rank|||||||0.129
82659206|NCT03707912|165035571|OTHER|Test for assessing the homogeneity of the odds ratio in several 2 × 2 contingency tables.||||||0.75|||||||Breslow-Day test|||||||0.75
82659207|NCT03707912|165035572|SUPERIORITY|||||||0.89|||||||Wilcoxon (Mann-Whitney)|||Day 1 comparison.||||0.89
82615624|NCT00502307|164947576|OTHER|||||||0.003|||||||Log Rank|||||||0.003
82615625|NCT00502307|164947576|OTHER|||||||0.089|||||||Log Rank|||||||0.089
82659208|NCT03707912|165035572|SUPERIORITY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||Day 2 comparison.||||0.75
82659209|NCT03707912|165035572|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Day 3 comparison.||||0.34
82659210|NCT03707912|165035573|SUPERIORITY|||||||0.75|||||||Fisher Exact|||||||0.75
82659211|NCT03880266|165035574|SUPERIORITY||Mean Difference (Final Values)|-1.58||||0.244|TWO_SIDED|95.0|-3.76|0.6|||Wilcoxon (Mann-Whitney)|||||0.60|-3.76|0.244
82615626|NCT00458406|164947639|SUPERIORITY_OR_OTHER_LEGACY|||||||0.512||95.0|||||t-test, 2 sided|||"We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~Description of power calculation: The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% confidence interval (CI) for the difference between the 2 means had a range of 1.282 standard deviation (SD)."||||0.512
82615627|NCT00458406|164947640|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar effi cacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
82615628|NCT00458406|164947641|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar effi cacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
82615629|NCT00458406|164947642|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Chi-squared|||"Chi-Square test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
82615630|NCT00458406|164947643|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP. The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD.||||>0.05
82615631|NCT00458406|164947643|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05||95.0|||||t-test, 2 sided|||"Two-sided t-test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||<0.05
82615632|NCT00458406|164947645|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||"Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
82615633|NCT00458406|164947646|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05||95.0|||||Wilcoxon (Mann-Whitney)|||"Mann-Whitney test. We hypothesized that Bi-Flex would result in improved adherence but similar efficacy to CPAP.~The study sample size of 45 in the Bi-Flex group and 15 in the CPAP group had 80% power to detect an effect size ≥ 0.85 with a 0.05 two-sided significance level. In addition, with this sample size, the 95% CI for the difference between the 2 means had a range of 1.282 SD."||||>0.05
82615634|NCT04346628|164947650|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.24|TWO_SIDED|95.0|0.48|1.2||The final test was performed at the alpha = 0.04999 level of significance, adjusted for age group and sex.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|||1.20|0.48|0.24
82615635|NCT04346628|164947652|SUPERIORITY|||||||0.06||||||A p-value of 0.05 would have been considered statistically significant.|Fisher Exact|||Difference in hospitalizations||||0.06
82615636|NCT04346628|164947652|SUPERIORITY|||||||0.56||||||A p-value of 0.05 would have been considered statistically significant.|Fisher Exact|||Difference in ED visits||||0.56
82659212|NCT03880266|165035574|SUPERIORITY||Mean Difference (Final Values)|1.39||||0.168|TWO_SIDED|95.0|-0.65|3.43|||Wilcoxon (Mann-Whitney)|||||3.43|-0.65|0.168
82659213|NCT03880266|165035574|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.699|TWO_SIDED|95.0|-2.39|1.72|||Wilcoxon (Mann-Whitney)|||||1.72|-2.39|0.699
82659214|NCT03880266|165035574|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.833|TWO_SIDED|95.0|-1.94|2.02|||Wilcoxon (Mann-Whitney)|||||2.02|-1.94|0.833
82615637|NCT04346628|164947654|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.43|TWO_SIDED|95.0|0.54|1.29||A p-value of 0.05 would have been considered statistically significant.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|Difference in days until initial resolution of symptoms||1.29|0.54|0.43
82615638|NCT04346628|164947654|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.59|TWO_SIDED|95.0|0.52|1.45||A p-value of 0.05 would have been considered statistically significant.|Cox proportional hazards model||Hazard ratio adjusted for age and sex|Difference in days until sustained resolution of symptoms||1.45|0.52|0.59
82615639|NCT01763905|164947658|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.06|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-43.73|-32.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-32.99|-43.73|<0.001
82659215|NCT03880266|165035575|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.000
82659216|NCT03880266|165035575|SUPERIORITY|||||||0.589|||||||Fisher Exact|||||||0.589
82659217|NCT03880266|165035575|SUPERIORITY|||||||0.154|||||||Fisher Exact|||||||0.154
82659218|NCT03880266|165035575|SUPERIORITY|||||||0.646|||||||Fisher Exact|||||||0.646
82659219|NCT03880266|165035576|SUPERIORITY||Mean Difference (Final Values)|-206.5||||0.093|TWO_SIDED|95.0|-451.9|38.9|||t-test, 2 sided|||||38.9|-451.9|0.093
82659220|NCT03880266|165035576|SUPERIORITY||Mean Difference (Final Values)|144.1||||0.186|TWO_SIDED|95.0|-78.6|366.7|||t-test, 2 sided|||||366.7|-78.6|0.186
82659221|NCT03880266|165035576|SUPERIORITY||Mean Difference (Final Values)|-151.7||||0.058|TWO_SIDED|95.0|-309.0|5.7|||t-test, 2 sided|||||5.7|-309.0|0.058
82659222|NCT03880266|165035576|SUPERIORITY||Mean Difference (Final Values)|160.6||||0.186|TWO_SIDED|95.0|-611.2|290.1|||t-test, 2 sided|||||290.1|-611.2|0.186
82615640|NCT01763905|164947658|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.55|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-42.16|-32.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-32.94|-42.16|<0.001
82615641|NCT01763905|164947659|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.3|STANDARD_ERROR_OF_MEAN|5.9|<|0.001|TWO_SIDED|95.0|-77.9|-54.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-54.7|-77.9|<0.001
82615642|NCT01763905|164947659|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.6|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-80.5|-60.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-60.7|-80.5|<0.001
82615643|NCT01763905|164947660|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.7|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-82.0|-57.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-57.5|-82.0|<0.001
82615644|NCT01763905|164947660|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.8|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-79.2|-58.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-58.4|-79.2|<0.001
82615645|NCT01763905|164947661|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|43.5|||<|0.001|TWO_SIDED|95.0|30.9|53.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||53.4|30.9|<0.001
82659223|NCT03880266|165035577|SUPERIORITY||Mean Difference (Final Values)|-33.62||||0.13|TWO_SIDED|95.0|-78.42|11.17|||t-test, 2 sided|||||11.17|-78.42|0.130
82615646|NCT01763905|164947661|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|42.0|||<|0.001|TWO_SIDED|95.0|30.3|51.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||51.8|30.3|<0.001
82615647|NCT01763905|164947662|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|48.0|||<|0.001|TWO_SIDED|95.0|35.0|57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||57.8|35.0|<0.001
82615648|NCT01763905|164947662|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|37.5|||<|0.001|TWO_SIDED|95.0|25.5|47.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05|Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline LDL-C and statin use. For testing, non-achievement was imputed for participants with missing data.||||47.5|25.5|<0.001
82615649|NCT01763905|164947663|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.53|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-36.34|-26.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-26.73|-36.34|<0.001
82615650|NCT01763905|164947663|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.58|STANDARD_ERROR_OF_MEAN|2.05|<|0.001|TWO_SIDED|95.0|-38.63|-30.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-30.54|-38.63|<0.001
82615651|NCT01763905|164947664|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.09|STANDARD_ERROR_OF_MEAN|2.63|<|0.001|TWO_SIDED|95.0|-37.28|-26.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-26.90|-37.28|<0.001
82615652|NCT01763905|164947664|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.99|STANDARD_ERROR_OF_MEAN|2.12|<|0.001|TWO_SIDED|95.0|-37.19|-28.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.79|-37.19|<0.001
82615653|NCT01763905|164947665|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.2|STANDARD_ERROR_OF_MEAN|2.39|<|0.001|TWO_SIDED|95.0|-36.92|-27.49||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-27.49|-36.92|<0.001
82659224|NCT03880266|165035577|SUPERIORITY||Mean Difference (Final Values)|24.26||||0.518|TWO_SIDED|95.0|-54.62|103.13|||t-test, 2 sided|||||103.13|-54.62|0.518
82659225|NCT03880266|165035577|SUPERIORITY||Mean Difference (Final Values)|-38.14||||0.061|TWO_SIDED|95.0|-78.32|2.03|||t-test, 2 sided|||||2.03|-78.32|0.061
82659226|NCT03880266|165035577|SUPERIORITY||Mean Difference (Final Values)|-39.34||||0.366|TWO_SIDED|95.0|-128.4|49.72|||t-test, 2 sided|||||49.72|-128.40|0.366
82659227|NCT03880266|165035578|SUPERIORITY|||||||0.515|||||||Fisher Exact|||||||0.515
82659228|NCT03880266|165035578|SUPERIORITY|||||||0.56|||||||Fisher Exact|||||||0.560
82659229|NCT03880266|165035578|SUPERIORITY|||||||0.245|||||||Fisher Exact|||||||0.245
82659230|NCT03880266|165035578|SUPERIORITY|||||||0.29|||||||Fisher Exact|||||||0.290
82615654|NCT01763905|164947665|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.99|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-39.59|-30.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-30.39|-39.59|<0.001
82615655|NCT01763905|164947666|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.86|STANDARD_ERROR_OF_MEAN|2.62|<|0.001|TWO_SIDED|95.0|-38.04|-27.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-27.68|-38.04|<0.001
82615656|NCT01763905|164947666|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.1|STANDARD_ERROR_OF_MEAN|2.5|<|0.001|TWO_SIDED|95.0|-38.04|-28.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.17|-38.04|<0.001
82615657|NCT01763905|164947667|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.39|STANDARD_ERROR_OF_MEAN|2.39|<|0.001|TWO_SIDED|95.0|-32.11|-22.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-22.67|-32.11|<0.001
82615658|NCT01763905|164947667|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.94|STANDARD_ERROR_OF_MEAN|2.42|<|0.001|TWO_SIDED|95.0|-34.72|-25.17||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-25.17|-34.72|<0.001
82615659|NCT01763905|164947668|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.28|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-31.42|-21.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-21.15|-31.42|<0.001
82615660|NCT01763905|164947668|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.66|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-33.88|-23.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-23.43|-33.88|<0.001
82615661|NCT01763905|164947669|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.86|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-39.84|-29.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-29.88|-39.84|<0.001
82615662|NCT01763905|164947669|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.37|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-41.73|-31.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-31.01|-41.73|<0.001
82615663|NCT01763905|164947670|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.53|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-40.05|-29.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-29.00|-40.05|<0.001
82615664|NCT01763905|164947670|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.13|STANDARD_ERROR_OF_MEAN|2.91|<|0.001|TWO_SIDED|95.0|-39.87|-28.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-28.39|-39.87|<0.001
82615665|NCT01763905|164947671|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.9|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-31.27|-16.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.54|-31.27|<0.001
82615666|NCT01763905|164947671|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.26|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-33.75|-16.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.77|-33.75|<0.001
82615667|NCT01763905|164947672|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.29|STANDARD_ERROR_OF_MEAN|4.03|<|0.001|TWO_SIDED|95.0|-33.26|-17.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-17.33|-33.26|<0.001
82615668|NCT01763905|164947672|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.88|STANDARD_ERROR_OF_MEAN|5.73|<|0.001|TWO_SIDED|95.0|-39.21|-16.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||-16.56|-39.21|<0.001
82615669|NCT01763905|164947673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.59|STANDARD_ERROR_OF_MEAN|4.45||0.97|TWO_SIDED|95.0|-11.38|6.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.20|-11.38|0.97
82615670|NCT01763905|164947673|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-6.42|STANDARD_ERROR_OF_MEAN|5.13||0.33|TWO_SIDED|95.0|-16.55|3.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||3.71|-16.55|0.33
82615671|NCT01763905|164947674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|1.58|STANDARD_ERROR_OF_MEAN|4.92||0.97|TWO_SIDED|95.0|-8.14|11.31||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||11.31|-8.14|0.97
82615672|NCT01763905|164947674|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-4.69|STANDARD_ERROR_OF_MEAN|6.25||0.33|TWO_SIDED|95.0|-17.04|7.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||7.67|-17.04|0.33
82615673|NCT01763905|164947675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.15|STANDARD_ERROR_OF_MEAN|2.23||0.068|TWO_SIDED|95.0|0.74|9.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||9.56|0.74|0.068
82615674|NCT01763905|164947675|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.74|STANDARD_ERROR_OF_MEAN|2.28||0.13|TWO_SIDED|95.0|1.23|10.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||10.24|1.23|0.13
82615675|NCT01763905|164947676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.57|STANDARD_ERROR_OF_MEAN|2.56||0.068|TWO_SIDED|95.0|-1.49|8.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||8.63|-1.49|0.068
82615676|NCT01763905|164947676|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.83|STANDARD_ERROR_OF_MEAN|2.52||0.13|TWO_SIDED|95.0|-0.16|9.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||9.81|-0.16|0.13
82615677|NCT01763905|164947677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.84|STANDARD_ERROR_OF_MEAN|4.35||0.97|TWO_SIDED|95.0|-10.43|6.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.75|-10.43|0.97
82615678|NCT01763905|164947677|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-3.53|STANDARD_ERROR_OF_MEAN|4.85||0.33|TWO_SIDED|95.0|-13.12|6.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||6.06|-13.12|0.33
82615679|NCT01763905|164947678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.67|STANDARD_ERROR_OF_MEAN|4.7||0.97|TWO_SIDED|95.0|-9.96|8.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||8.61|-9.96|0.97
82615680|NCT01763905|164947678|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|0.08|STANDARD_ERROR_OF_MEAN|5.72||0.33|TWO_SIDED|95.0|-11.24|11.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||||11.39|-11.24|0.33
82615681|NCT01763905|164947679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.9|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-42.26|-31.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-31.55|-42.26|<0.001
82615682|NCT01763905|164947679|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.69|STANDARD_ERROR_OF_MEAN|2.21|<|0.001|TWO_SIDED|95.0|-43.06|-34.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model includes treatment group, baseline LDL-C level and statin use, scheduled visit, and the interaction of treatment with scheduled visit.||The null hypothesis was that there is no mean difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis is that a mean difference does exist.||-34.22|-43.06|<0.001
82615683|NCT04149899|164947680|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-4.9|STANDARD_DEVIATION|1.85|<|0.001|TWO_SIDED|95.0|-5.73|-4.14||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.14|-5.73|<0.001
82659231|NCT04934722|165035594|OTHER||Hazard Ratio (HR)|0.74|||||TWO_SIDED|95.0|0.24|2.34|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.34|0.24|
82659232|NCT04934722|165035595|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.3|6.01|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||6.01|0.30|
82659233|NCT04934722|165035596|OTHER||Hazard Ratio (HR)|1.35|||||TWO_SIDED|95.0|0.5|3.63|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||3.63|0.50|
82659234|NCT04934722|165035598|OTHER||Hazard Ratio (HR)|3.15|||||TWO_SIDED|95.0|0.33|30.29|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||30.29|0.33|
82659235|NCT04934722|165035599|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.11|4.07|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||4.07|0.11|
82659236|NCT04934722|165035600|OTHER||Hazard Ratio (HR)|1.45|||||TWO_SIDED|95.0|0.73|2.9|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||2.90|0.73|
82659237|NCT04934722|165035601|OTHER||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.42|7.34|||||HR and associated 95% Confidence Interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate.|||7.34|0.42|
82615684|NCT04149899|164947680|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-5.1|STANDARD_DEVIATION|2.51|<|0.001|TWO_SIDED|95.0|-6.14|-4.02||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.02|-6.14|<0.001
82659238|NCT04934722|165035602|OTHER||Percent Difference|-5.5|||||TWO_SIDED|95.0|-12.6|0.0|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||0.0|-12.6|
82659239|NCT04934722|165035603|OTHER||Percent difference|-0.7|||||TWO_SIDED|95.0|-15.0|13.7|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||13.7|-15.0|
82659240|NCT04934722|165035604|OTHER||Percent difference|7.8|||||TWO_SIDED|95.0|-12.5|27.1|||||Percent difference and associated 95% CI were calculated using Miettinen \& Nurminen method.|||27.1|-12.5|
82659241|NCT01149473|165035609|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|109.0|||||TWO_SIDED|90.0|98.1|120.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||120|98.1|
82615685|NCT04149899|164947680|OTHER|The null hypothesis is that the mean change from Baseline, Hour 2 = 0 at Day 14, Hour 2.|Mean Difference (Net)|-6.0|STANDARD_DEVIATION|3.05|<|0.001|TWO_SIDED|95.0|-7.93|-4.07||The p-value was not adjusted for multiple comparisons.|t-test, 2 sided|||A within-group comparison was performed between Baseline, Hour 2 and Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5%.||-4.07|-7.93|<0.001
82659242|NCT01149473|165035610|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|102.0|||||TWO_SIDED|90.0|98.8|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||106|98.8|
82659243|NCT01149473|165035611|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|101.0|||||TWO_SIDED|90.0|98.6|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||104|98.6|
82659244|NCT01149473|165035612|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.0|||||TWO_SIDED|90.0|98.8|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||108|98.8|
82659245|NCT01149473|165035613|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|95.0|98.6|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101|98.6|
82659246|NCT01149473|165035614|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|99.7|||||TWO_SIDED|90.0|98.7|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference (R) and test (T) product fall within the interval of 80-125%.|||101|98.7|
82659247|NCT00834249|165035617|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.73||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82659248|NCT00834249|165035618|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.73||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82659249|NCT00834249|165035619|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.71||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82615686|NCT04149899|164947680|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Net)|0.14||||0.828|TWO_SIDED|95.0|-1.16|1.43||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model used the Baseline IOP values at Hour 2 as the covariate.|The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP change from Baseline, Hour 2 to Day 14, Hour 2 (the timepoint for the peak effect of Timolol 0.5%) was compared between WB007 0.15% and Timolol 0.5%.||1.43|-1.16|0.828
82615687|NCT04149899|164947680|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Net)|-0.42||||0.52|TWO_SIDED|95.0|-1.73|0.89||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA|The ANCOVA model used the Baseline IOP values at Hour 2 as the covariate.|The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP change from Baseline, Hour 2 to Day 14, Hour 2 (the timepoint for the peak effect of Timolol 0.5%) was compared between WB007 0.4% and Timolol 0.5%.||0.89|-1.73|0.520
82615688|NCT04149899|164947681|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|0.14||||0.828|TWO_SIDED|95.0|-1.16|1.43||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA||The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP for WB007 0.15% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||1.43|-1.16|0.828
82615689|NCT04149899|164947681|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANCOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-0.42||||0.52|TWO_SIDED|95.0|-1.73|0.89||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANCOVA||The estimated treatment difference is based on the least-square means from the ANCOVA model.|The mean IOP for WB007 0.4% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.89|-1.73|0.520
82615690|NCT04149899|164947681|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-0.84||||0.283|TWO_SIDED|95.0|-2.39|0.71||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANOVA|The ANOVA model has the treatment group as the main effect.|The estimated treatment difference is based on the least-square means from the ANOVA model.|The mean IOP for WB007 0.15% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.71|-2.39|0.283
82615691|NCT04149899|164947681|NON_INFERIORITY|A pairwise treatment group comparison was performed versus timolol ophthalmic solution 0.5%. A 2-sided 95% confidence interval (CI) for the treatment difference (WB007 minus Timolol) was constructed based on an ANOVA model. If WB007 was determined to be non-inferior to Timolol, an attempt to show superiority of WB007 over Timolol was made.|Mean Difference (Final Values)|-1.02||||0.189|TWO_SIDED|95.0|-2.56|0.52||The p-value (2-sided) for superiority was not adjusted for multiple comparisons.|ANOVA|The ANOVA model has the treatment group as the main effect.|The estimated treatment difference is based on the least-square means from the ANOVA model.|The mean IOP for WB007 0.4% was compared to Timolol 0.5% at Day 14, Hour 2, the timepoint for the peak effect of Timolol 0.5% and the primary efficacy timepoint for the study.||0.52|-2.56|0.189
82615692|NCT03161938|164947682|SUPERIORITY||Odds Ratio (OR)|0.508||||0.248|TWO_SIDED|95.0|0.159|1.62|||Chi-squared, Corrected|||Null hypothesis: Patients receiving 48 mg of preoperative dexamethasone have less postoperative pain. Power calculation: Acute pain is reduced from 70% to 35% for patients receiving 48 mg of dexamathesone, 80% power, 0.05 statistical significance level.||1.620|0.159|0.248
82615693|NCT03161938|164947683|SUPERIORITY|||||||0.519|||||||Wilcoxon (Mann-Whitney)|||||||0.519
82615694|NCT03161938|164947684|SUPERIORITY|||||||0.468|||||||Wilcoxon (Mann-Whitney)|||||||0.468
82615695|NCT03161938|164947685|SUPERIORITY|||||||0.913|||||||Wilcoxon (Mann-Whitney)|||Maximal pain||||0.913
82615696|NCT03161938|164947685|SUPERIORITY|||||||0.722|||||||Wilcoxon (Mann-Whitney)|||Average pain||||0.722
82615697|NCT03161938|164947686|SUPERIORITY||Odds Ratio (OR)|1.19||||0.768|TWO_SIDED|95.0|0.374|3.793|||Chi-squared, Corrected|||||3.793|0.374|0.768
82615698|NCT03161938|164947687|SUPERIORITY|||||||0.133|||||||Regression, Linear|||||||0.133
82615699|NCT03161938|164947688|SUPERIORITY|||||||0.768||||||Not adjusted for multiple comparisons, statistical level of significance 0.01 (bonferroni correction)|Chi-squared, Corrected|||Day 0||||0.768
82659250|NCT00834249|165035620|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|109.61||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||||
82615700|NCT03161938|164947688|SUPERIORITY|||||||0.376|||||||Chi-squared, Corrected|||Day 1||||0.376
82615701|NCT03161938|164947688|SUPERIORITY|||||||0.59|||||||Chi-squared, Corrected|||Day 2||||0.590
82615702|NCT03161938|164947688|SUPERIORITY|||||||0.32|||||||Chi-squared, Corrected|||Day 3||||0.320
82615703|NCT03161938|164947688|SUPERIORITY|||||||0.666|||||||Chi-squared, Corrected|||day 4||||0.666
82615704|NCT03161938|164947689|SUPERIORITY||||||>|0.999|||||||Chi-squared, Corrected|||day 0||||>0.999
82615705|NCT03161938|164947689|SUPERIORITY|||||||0.154|||||||Chi-squared, Corrected|||day 1||||0.154
82659251|NCT00834249|165035621|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|106.85||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational puposes only.|||||
82659252|NCT00834249|165035622|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|106.38||||||90.0|||||||Metabolite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||||
82615706|NCT03161938|164947689|SUPERIORITY|||||||0.447|||||||Chi-squared, Corrected|||day 2||||0.447
82615707|NCT03161938|164947689|SUPERIORITY|||||||0.678|||||||Chi-squared, Corrected|||day 3||||0.678
82615708|NCT03161938|164947689|SUPERIORITY|||||||0.604|||||||Chi-squared, Corrected|||day 4||||0.604
82615709|NCT03161938|164947690|SUPERIORITY|||||||0.075|||||||Chi-squared, Corrected|||day 0, sadness||||0.075
82615710|NCT03161938|164947690|SUPERIORITY|||||||0.447|||||||Chi-squared, Corrected|||day 0, restlessness||||0.447
82615711|NCT03161938|164947690|SUPERIORITY|||||||0.703|||||||Chi-squared, Corrected|||Day 0, fatigue||||0.703
82615712|NCT03161938|164947690|SUPERIORITY|||||||0.731|||||||Chi-squared, Corrected|||Day 1, sadness||||0.731
82615713|NCT03161938|164947690|SUPERIORITY|||||||0.052|||||||Chi-squared, Corrected|||Day 1, restlessness||||0.052
82615714|NCT03161938|164947690|SUPERIORITY|||||||0.807|||||||Chi-squared, Corrected|||Day 1, fatigue||||0.807
82615715|NCT03161938|164947690|SUPERIORITY|||||||0.371|||||||Chi-squared, Corrected|||Day 2, sadness||||0.371
82615716|NCT03161938|164947690|SUPERIORITY|||||||0.064|||||||Chi-squared, Corrected|||Day 2, restlessness||||0.064
82615717|NCT03161938|164947690|SUPERIORITY|||||||0.11|||||||Chi-squared, Corrected|||day 2, fatigue||||0.110
82615718|NCT03161938|164947690|SUPERIORITY|||||||0.531|||||||Chi-squared, Corrected|||Day 3, sadness||||0.531
82615719|NCT03161938|164947690|SUPERIORITY|||||||0.954|||||||Chi-squared, Corrected|||Day 3, restlessness||||0.954
82659253|NCT03450057|165035623|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82615720|NCT03161938|164947690|SUPERIORITY|||||||0.526|||||||Chi-squared, Corrected|||Day 3, fatigue||||0.526
82615721|NCT03161938|164947690|SUPERIORITY|||||||0.491|||||||Chi-squared, Corrected|||Day 4, sadness||||0.491
82615722|NCT03161938|164947690|SUPERIORITY|||||||0.042|||||||Chi-squared, Corrected|||Day 4, restlessness||||0.042
82615723|NCT03161938|164947690|SUPERIORITY|||||||0.097|||||||Chi-squared, Corrected|||Day 4, fatigue||||0.097
82615724|NCT03161938|164947691|SUPERIORITY|||||||0.613|||||||Chi-squared, Corrected|||||||0.613
82615725|NCT03456713|164947774|OTHER||Ratio of geometric least squares mean|1.47|||||TWO_SIDED|90.0|1.12|1.94||||||||1.94|1.12|
82615726|NCT03456713|164947775|OTHER||Ratio of geometric least squares mean|1.44|||||TWO_SIDED|90.0|1.15|1.81||||||||1.81|1.15|
82615727|NCT03456713|164947776|OTHER||Ratio of geometric least squares mean|1.66|||||TWO_SIDED|90.0|1.31|2.11||||||||2.11|1.31|
82615728|NCT03456713|164947777|SUPERIORITY||Ratio of Geometric Least Squares Means|0.73|||||TWO_SIDED|90.0|0.43|1.23||||||||1.23|0.43|
82615729|NCT03456713|164947778|OTHER||Ratio of geometric least squares mean|0.98|||||TWO_SIDED|90.0|0.58|1.67||||||||1.67|0.58|
82615730|NCT03456713|164947779|OTHER||Ratio of geometric least squares mean|0.7|||||TWO_SIDED|90.0|0.41|1.2||||||||1.20|0.41|
82615731|NCT03848221|164947780|EQUIVALENCE|||||||0.3|||||||ANOVA|||||||0.30
82615732|NCT03848221|164947781|EQUIVALENCE|||||||0.0002|||||||ANOVA|||||||0.0002
82615733|NCT06150573|164947800|SUPERIORITY||Adjusted Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.498||0.9141|TWO_SIDED|95.0|-1.04|0.93|||ANOVA|||||0.93|-1.04|0.9141
82615734|NCT06150573|164947801|SUPERIORITY||Adjusted Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.494||0.4583|TWO_SIDED|95.0|-0.61|1.34|||ANOVA|||||1.34|-0.61|0.4583
82615735|NCT06150573|164947802|SUPERIORITY||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.061||0.0042|TWO_SIDED|95.0|-0.3|-0.06|||ANOVA|||Week 12||-0.06|-0.30|0.0042
82615736|NCT06150573|164947802|SUPERIORITY||Adjusted Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.074|<|0.0001|TWO_SIDED|95.0|-0.46|-0.17|||ANOVA|||Week 24||-0.17|-0.46|<0.0001
82615737|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.016||0.2478|TWO_SIDED|95.0|-0.05|0.01|||ANOVA|||Mean Gingival MLSI, Week 12||0.01|-0.05|0.2478
82615738|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.0957|TWO_SIDED|95.0|-0.07|0.01|||ANOVA|||Mean Gingival MLSI, Week 24||0.01|-0.07|0.0957
82615739|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.122||0.0063|TWO_SIDED|95.0|-0.58|-0.1|||ANOVA|||Mean Interproximal MLSI, Week 12||-0.10|-0.58|0.0063
82615740|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.147|<|0.0001|TWO_SIDED|95.0|-0.89|-0.31|||ANOVA|||Mean Interproximal MLSI, Week 24||-0.31|-0.89|<0.0001
82615741|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.01||0.1536|TWO_SIDED|95.0|-0.03|0.01|||ANOVA|||Mean Body MLSI, Week 12||0.01|-0.03|0.1536
82615742|NCT06150573|164947803|SUPERIORITY||Adjusted Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.006||0.1166|TWO_SIDED|95.0|-0.02|0.0|||ANOVA|||Mean Body MLSI, Week 24||0.00|-0.02|0.1166
82615743|NCT06150573|164947804|SUPERIORITY||Adjusted Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.21|-0.07|||ANOVA|||Week 12||-0.07|-0.21|<0.0001
82615744|NCT06150573|164947804|SUPERIORITY||Adjusted Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001|TWO_SIDED|95.0|-0.25|-0.1|||ANOVA|||Week 24||-0.10|-0.25|<0.0001
82615745|NCT06150573|164947805|SUPERIORITY||Adjusted Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.033||0.04|TWO_SIDED|95.0|-0.13|0.0|||ANOVA|||Week 12||-0.00|-0.13|0.0400
82615746|NCT06150573|164947805|SUPERIORITY||Adjusted Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.037||0.001|TWO_SIDED|95.0|-0.2|-0.05|||ANOVA|||Week 24||-0.05|-0.20|0.0010
82615747|NCT01753076|164947808|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.0||||0.12|TWO_SIDED|95.0|-67.9|7.9|||ANCOVA||A negative mean difference means that the direction of effect is in favor of placebo.|||7.9|-67.9|0.120
82615748|NCT01753076|164947809|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||0.139|TWO_SIDED|95.0|-3.1|0.4|||Mixed Models Analysis|||||0.4|-3.1|0.139
82615749|NCT01753076|164947810|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.12||||0.173|TWO_SIDED|95.0|-0.3|0.05|||Random coefficients analysis|||||0.05|-0.30|0.173
82615750|NCT01753076|164947811|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.127||||0.265|TWO_SIDED|95.0|-0.351|0.097|||Mixed Models Analysis|||||0.097|-0.351|0.265
82615751|NCT01753076|164947812|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.2||||0.125|TWO_SIDED|95.0|-18.7|2.3|||Mixed Models Analysis|||||2.3|-18.7|0.125
82615752|NCT01753076|164947813|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.73||||0.393|TWO_SIDED|95.0|0.36|1.49|||Regression, Logistic|||||1.49|0.36|0.393
82615753|NCT01753076|164947814|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.986|TWO_SIDED|95.0|0.34|2.89|||Regression, Cox||Week 48|||2.89|0.34|0.986
82615754|NCT01753076|164947814|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.923|TWO_SIDED|95.0|0.53|2.01|||Chi-squared||Week 60|||2.01|0.53|0.923
82615755|NCT01753076|164947815|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.642|TWO_SIDED|95.0|0.81|1.42|||Regression, Cox|||||1.42|0.81|0.642
82615756|NCT01753076|164947816|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.004|||||TWO_SIDED|95.0|-0.062|0.053||||||||0.053|-0.062|
82615757|NCT01753076|164947817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-2.8|5.5||||||||5.5|-2.8|
82615758|NCT03259334|164947828|SUPERIORITY|||||||0.617|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.617
82615759|NCT03259334|164947828|SUPERIORITY|||||||0.018|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.018
82615760|NCT03259334|164947829|SUPERIORITY|||||||0.253|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.253
82615761|NCT03259334|164947829|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.002
82615762|NCT03259334|164947830|SUPERIORITY|||||||0.764|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.764
82615763|NCT03259334|164947830|SUPERIORITY|||||||0.08|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.080
82615764|NCT03259334|164947831|SUPERIORITY|||||||0.44|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.440
82615765|NCT03259334|164947831|SUPERIORITY|||||||0.002|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.002
82615766|NCT03259334|164947832|SUPERIORITY|||||||0.286|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline||||||0.286
82615767|NCT03259334|164947832|SUPERIORITY|||||||0.005|||||||Cochran-Mantel-Haenszel|P-value was based on Cochran-Mantel-Haenszel chi-square test stratified by actual status of prior anti-TNF treatment and glucocorticoid at baseline.||||||0.005
82615768|NCT01187901|164947854|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82615769|NCT01187901|164947855|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82615770|NCT01187901|164947856|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82615771|NCT01187901|164947857|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82615772|NCT01187901|164947858|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82659254|NCT03450057|165035624|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82615773|NCT01187901|164947859|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82615774|NCT04160468|164947860|SUPERIORITY||Risk Difference (RD)|-10.6||||0.392|TWO_SIDED|95.0|-33.6|12.4|||Fisher Exact|||||12.4|-33.6|0.392
82615775|NCT00540436|164947870|SUPERIORITY_OR_OTHER||Mean change|33.49||||||95.0|15.231|51.744||||||||51.744|15.231|
82615776|NCT00540436|164947871|SUPERIORITY_OR_OTHER||Mean change|46.82||||||95.0|24.566|69.076||||||||69.076|24.566|
82615777|NCT05319535|164947881|SUPERIORITY||Mean Difference (Final Values)|2.2||||0.26|TWO_SIDED|95.0|-1.8|6.1|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||6.1|-1.8|0.26
82615778|NCT05319535|164947882|SUPERIORITY||rate ratio|1.7||||0.11|TWO_SIDED|95.0|0.9|3.4|||negative binomial regression|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||3.4|0.9|0.11
82615779|NCT05319535|164947883|SUPERIORITY||Mean Difference (Final Values)|37.6||||0.17|TWO_SIDED|95.0|-18.1|93.3|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||93.3|-18.1|0.17
82615780|NCT05319535|164947884|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.1|TWO_SIDED|95.0|-0.1|1.4|||Regression, Linear|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||1.4|-0.1|0.10
82615781|NCT05319535|164947885|SUPERIORITY||rate ratio|1.3||||0.36|TWO_SIDED|95.0|0.7|2.3|||negative binomial regression|||Models included the arm indicator variable in addition to the stratification variables used in randomization (site complexity level (high complexity '1a', '1b' or '1c' vs. all others); prior implementation of Caregivers First (yes vs. no)).||2.3|0.7|0.36
82615782|NCT05319535|164947886|SUPERIORITY||Odds Ratio (OR)|3.3||||0.17|TWO_SIDED|95.0|0.6|18.5|||Regression, Logistic|||Model included the arm indicator variable.||18.5|0.6|0.17
82615783|NCT01725152|164947974|SUPERIORITY|||||||0.4475|||||||Linear mixed-effect|||Null hypothesis of no treatment difference in CGI-I will be assessed using a linear mixed-effects model for repeated measures, accounting for treatment (ganaxolone versus placebo) and period at a significant level of 0.05. A sample size of 30 participants in each arm/group was planned in the study will have 90% power to detect a modest effect size of 0.6 at level 0.05 in CGI-I. With a possible dropout rate of 15%, the power for testing the effect size becomes 84%.||||0.4475
82615784|NCT01111539|164947988|SUPERIORITY||Treatment Difference|-1.0|||=|0.644|TWO_SIDED|95.0|-5.2|3.3|||ANCOVA|||The statistical analyses was performed by fitting an analysis of covariance (ANCOVA) model to the change from baseline data (Week 8 Visit) for the MADRS Total Score at the Week 14 visit (LOCF). The model included baseline MADRS Total Score as a covariate and treatment as the main effect.||3.3|-5.2|=0.644
82615785|NCT01111539|164947988|SUPERIORITY||Treatment Difference|-3.7|||=|0.08|TWO_SIDED|95.0|-7.8|0.4|||ANCOVA|||The statistical analyses will be performed by fitting an ANCOVA model to the change from baseline data (Week 8 Visit) for the MADRS Total Score at the Week 14 visit (LOCF). The model will include baseline MADRS Total Score as a covariate and treatment as the main effect.||0.4|-7.8|=0.080
82615786|NCT01111539|164947989|SUPERIORITY||Treatment Difference|-0.3|||=|0.366|TWO_SIDED|95.0|-0.8|0.3|||Cochran-Mantel-Haenszel|||||0.3|-0.8|=0.366
82659255|NCT03450057|165035625|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and two-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82615787|NCT01111539|164947989|SUPERIORITY||Treatment Difference|-0.4|||=|0.138|TWO_SIDED|95.0|-0.9|0.1|||Cochran-Mantel-Haenszel|||||0.1|-0.9|=0.138
82615788|NCT01111539|164947990|SUPERIORITY||Treatment Difference|0.0|||=|0.995|TWO_SIDED|95.0|-1.2|1.2|||ANCOVA|||||1.2|-1.2|=0.995
82615789|NCT01111539|164947990|SUPERIORITY||Treatment Difference|-0.9|||=|0.118|TWO_SIDED|95.0|-2.1|0.2|||ANCOVA|||||0.2|-2.1|=0.118
82615790|NCT03628417|164947991|NON_INFERIORITY|Examined the objective response rate (ORR) that there was 20% difference between the 2 treatment arms at day 180. With a significance level of 0,05 and a power of 80% the study required 28 evaluable metastases.|Odds Ratio (OR)|0.4489629||||0.3|TWO_SIDED|95.0|-13.3|53.3|||Fisher Exact|||After reviewing existing data from electrochemotherapy with intratumoral bleomycin on small cutaneous metastases ≤3cm , we estimated the expected response rate for electrochemotherapy to 85%. We have no clinical results for the treatment of calcium electroporation, but on the basis of preclinical studies, we decided to accept a difference in response of 20%. All statistical analysis were done using IBM SPSS v24.||53.30|-13.30|0.30
82615791|NCT02713230|164947994|SUPERIORITY||LSMD|-117.688|||<|0.0001|TWO_SIDED|95.0|-150.896|-84.48|||ANOVA|||||-84.480|-150.896|<0.0001
82615792|NCT02713230|164947995|SUPERIORITY||LSM treatment ratio|0.22|||<|0.0001|TWO_SIDED|95.0|0.131|0.371|||ANOVA|||||0.371|0.131|<0.0001
82615793|NCT02713230|164947996|SUPERIORITY||Treatment difference|0.116||||0.008|TWO_SIDED|95.0|0.032|0.2|||Cochran-Mantel-Haenszel|||||0.200|0.032|0.008
82615794|NCT02713230|164947997|SUPERIORITY||||||<|0.0001|||||||Log Rank|||||||<0.0001
82615795|NCT00769704|164948038|SUPERIORITY_OR_OTHER||Treatment Difference|14.1|||<|0.0001|TWO_SIDED|95.0|9.3|19.0|||Fisher Exact|||The null hypothesis was that there was no difference in the durable response rate between the talimogene laherparepvec and control arms. Study success was defined as the rejection of this hypothesis such that talimogene laherparepvec was found to be superior to GM-CSF using the 2-sided Fisher's exact test, with a p-value of ≤ 0.0488.||19.0|9.3|<0.0001
82659256|NCT03450057|165035626|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82492705|NCT02229383|164678209|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.74|STANDARD_ERROR_OF_MEAN|0.101|<|0.001|TWO_SIDED|95.0|-0.94|-0.54|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||-0.54|-0.94|<0.001
82615796|NCT00769704|164948039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0511|TWO_SIDED|95.0|0.62|1.0|||Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a lower average death rate and a longer overall survival for talimogene laherparepvec relative to GM-CSF.|The primary method for analysis of overall survival was an unadjusted log-rank test. Testing of overall survival was conditional on a statistically significance difference in the primary endpoint of durable response. Success was defined as a p-value ≤ 0.05.||1.00|0.62|0.0511
82615797|NCT00769704|164948040|SUPERIORITY_OR_OTHER||Treatment Difference|20.8|||<|0.0001|TWO_SIDED|95.0|14.4|27.1||Descriptive|Fisher Exact|||||27.1|14.4|<0.0001
82615798|NCT00769704|164948041|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4||||0.0868|TWO_SIDED|95.0|0.14|1.18||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer average duration of response for talimogene laherparepvec relative to GM-CSF.|||1.18|0.14|0.0868
82615799|NCT00769704|164948042|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.202|TWO_SIDED|95.0|0.3|1.3||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \> 1.0 indicates a a higher average response onset rate for talimogene laherparepvec relative to GM-CSF.|||1.30|0.30|0.2020
82659257|NCT03450057|165035627|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82659258|NCT03450057|165035628|OTHER|The PFS function was estimated using the Kaplan-Meier product-limit method, a non-parametric statistic.|||||||||||||||||The PFS function was estimated using the Kaplan-Meier product-limit method. Median and one-sided confidence intervals (CIs) for PFS were computed and Kaplan-Meier plots of PFS were developed.|||
82659259|NCT00834418|165035637|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|107.0||||||90.0|99.6|116.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||116|99.6|
82659260|NCT00834418|165035638|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|95.2|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109|95.2|
82659261|NCT02331394|165035647|EQUIVALENCE|"The equivalence assumes that the true mean difference between the paired samples is zero. Under this model, all observable differences are explained by random variation.Equality margins are:~Upper Equivalence Margin=1.5 Lower Equivalence Margin=-1.5"|||||<|0.05|||||||t-test, 2 sided|||Comparisons of repeated measures were made using paired sample t test, which compared subjects data at 2 different times: baseline and end of the study. A P value of 0.05 was considered statistically significant||||<0.05
82659262|NCT02331394|165035650|SUPERIORITY|Pared t-test was used to evaluate the significance of the change in scores||||||0.02|||||||t-test, 2 sided|||||||0.02
82659263|NCT04459585|165035655|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% Confidence Intervals (CIs) for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.88|||||TWO_SIDED|90.0|77.57|161.35|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||161.35|77.57|
82659264|NCT04459585|165035655|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|112.98|||||TWO_SIDED|90.0|77.2|165.34|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||165.34|77.20|
82659265|NCT04459585|165035656|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.37|||||TWO_SIDED|90.0|78.51|157.97|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||157.97|78.51|
82659266|NCT04459585|165035656|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|111.08|||||TWO_SIDED|90.0|77.35|159.51|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||159.51|77.35|
82659267|NCT04459585|165035657|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|112.97|||||TWO_SIDED|90.0|79.38|160.79|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Total Dabigatran.||160.79|79.38|
82659268|NCT04459585|165035657|OTHER|Least squares (LS) means were calculated from an analysis of variance (ANOVA) model on log-transformed scale. The LS means for each treatment were back transformed from the log scale to provide estimates of the geometric means (GMS). The ratio (%) of GMS was calculated and 90% CIs for the ratio (%) of GMS were presented.|Ratio (%) of Geometric LS Mean|110.72|||||TWO_SIDED|90.0|76.77|159.68|||||For the comparison, the Dabigatran Etexilate + Quizartinib (Period 2) represents the numerator and Dabigatran Etexilate (Period 1) represents the denominator.|Statistical comparison was analyzed for Free Dabigatran.||159.68|76.77|
82659269|NCT03956862|165035723|SUPERIORITY||Mean Difference (Net)|-0.2||||0.9499|TWO_SIDED|95.0|-7.6|7.1|||Mixed Models Analysis||GB001 vs. Placebo|||7.1|-7.6|0.9499
82659270|NCT03956862|165035724|SUPERIORITY||Mean Difference (Net)|-0.3||||0.6778|TWO_SIDED|95.0|-1.8|1.2|||ANCOVA||GB001 vs. Placebo|||1.2|-1.8|0.6778
82659271|NCT03956862|165035725|SUPERIORITY||Mean Difference (Net)|0.1||||0.7914|TWO_SIDED|95.0|-0.7|0.9|||Mixed Models Analysis||GB001 vs. Placebo|||0.9|-0.7|0.7914
82659272|NCT03956862|165035726|SUPERIORITY||Hazard Ratio (HR)|0.944||||0.8916|TWO_SIDED|95.0|0.41|2.173|||Regression, Cox||GB001 vs Placebo|||2.173|0.410|0.8916
82659273|NCT03956862|165035727|SUPERIORITY||Mean Difference (Net)|0.191||||0.1635|TWO_SIDED|95.0|-0.077|0.459|||Mixed Models Analysis||GB001 vs. Placebo|||0.459|-0.077|0.1635
82659274|NCT03956862|165035728|SUPERIORITY||Mean Difference (Net)|0.632||||0.1742|TWO_SIDED|95.0|-0.28|1.544|||Mixed Models Analysis||GB001 vs. Placebo|||1.544|-0.280|0.1742
82659275|NCT03956862|165035729|SUPERIORITY||Mean Difference (Net)|0.9||||0.4851|TWO_SIDED|95.0|-1.6|3.4|||ANCOVA||GB001 vs. Placebo|||3.4|-1.6|0.4851
82659276|NCT03956862|165035730|SUPERIORITY||Hazard Ratio (HR)|0.544||||0.3898|TWO_SIDED|95.0|0.136|2.178|||Regression, Cox||GB001 vs Placebo|||2.178|0.136|0.3898
82659277|NCT02129426|165035748|OTHER|t-test comparison of the two groups||||||0.96|||||||t-test, 1 sided|||||||0.96
82659278|NCT02129426|165035749|OTHER|||||||0.52|||||||t-test, 1 sided|||||||0.52
82615800|NCT00769704|164948043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.32|0.54||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer average time to treatment failure for talimogene laherparepvec relative to GM-CSF.|||0.54|0.32|<0.0001
82615801|NCT00769704|164948044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.3||||0.005|TWO_SIDED|95.0|0.13|0.73||Descriptive|Log Rank||The hazard ratio was obtained from the unadjusted Cox Proportional Hazard Model. A hazard ratio \< 1.0 indicates a longer response interval for talimogene laherparepvec relative to GM-CSF.|||0.73|0.13|0.0050
82615802|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.3||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with atorvastatin compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.30
82615803|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with sulindac compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.60
82615804|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.92||95.0||||Adjusting for multiple comparisons yields 84% power to detect a difference of at least 25% in % change of ACF at the 0.016 level of significance and using a two-sample, 2-sided t-test.|Wilcoxon (Mann-Whitney)|||The study was designed to test the hypotheses of observing a 25% difference in % change ACF over baseline, between patients treated with oligofructose-enriched inulin compared to placebo. N=25 subjects per group yielded 93% power to detect this difference using a 2 sided t-test at significance level of 0.05. Non-parametric tests (eg, Wilcoxon Rank Sum) could be used if the statistical assumptions of the t-test were violated.||||0.92
82615805|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.59
82659279|NCT00850174|165035751|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.48||||||90.0|88.98|109.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.00|88.98|
82615806|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.12
82615807|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.54
82615808|NCT00335504|164948047|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||Sign test|||Signed Rank p-value for comparison of % change in ACF within each randomization arm.||||0.41
82615809|NCT00335504|164948048|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between atorvastatin and placebo.||||0.37
82615810|NCT00335504|164948048|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between sulindac and placebo.||||1.00
82615811|NCT00335504|164948048|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in Ki67 between oligofructose-enriched inulin and placebo.||||0.58
82615812|NCT00335504|164948049|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between atorvastatin calcium and placebo.||||0.26
82615813|NCT00335504|164948049|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between sulindac and placebo.||||0.88
82615814|NCT00335504|164948049|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Wilcoxon (Mann-Whitney)|||Wilcoxon Rank Sum p-value for comparison of % change in apoptosis between oligofructose-enriched inulin and placebo.||||0.38
82615815|NCT01856595|164948091|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-2.77|STANDARD_ERROR_OF_MEAN|8.532||0.7457|TWO_SIDED|90.0|-16.93|11.38||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||11.38|-16.93|0.7457
82615816|NCT01856595|164948091|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-21.64|STANDARD_ERROR_OF_MEAN|8.334||0.0108|TWO_SIDED|90.0|-35.47|-7.81||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-7.81|-35.47|0.0108
82615817|NCT01856595|164948091|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-26.59|STANDARD_ERROR_OF_MEAN|8.309||0.0018|TWO_SIDED|90.0|-40.38|-12.8||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-12.80|-40.38|0.0018
82615818|NCT01856595|164948091|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-32.33|STANDARD_ERROR_OF_MEAN|8.038||0.0001|TWO_SIDED|90.0|-45.66|-18.99||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-18.99|-45.66|0.0001
82492706|NCT02229383|164678210|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.52|STANDARD_ERROR_OF_MEAN|0.341|<|0.001|TWO_SIDED|95.0|-2.19|-0.85|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||-0.85|-2.19|<0.001
82492707|NCT02229383|164678211|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.76|STANDARD_ERROR_OF_MEAN|5.754|<|0.001|TWO_SIDED|95.0|-39.07|-16.45|||ANCOVA|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use (yes vs. no) as fixed factors; baseline value as covariate.||||-16.45|-39.07|<0.001
82615819|NCT01856595|164948091|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-42.39|STANDARD_ERROR_OF_MEAN|8.34|<|0.0001|TWO_SIDED|90.0|-56.23|-28.55||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-28.55|-56.23|<0.0001
82615820|NCT01856595|164948092|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|10.47|STANDARD_ERROR_OF_MEAN|9.621||0.279|TWO_SIDED|90.0|-5.5|26.43||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||26.43|-5.50|0.2790
82615821|NCT01856595|164948092|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-19.33|STANDARD_ERROR_OF_MEAN|8.777||0.0299||90.0|-33.89|-4.76||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-4.76|-33.89|0.0299
82615822|NCT01856595|164948093|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-29.43|STANDARD_ERROR_OF_MEAN|7.609||0.0005|TWO_SIDED|90.0|-42.28|-16.57||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||-16.57|-42.28|0.0005
82615823|NCT01856595|164948093|SUPERIORITY_OR_OTHER||Least Square Mean Difference (Net)|-11.89|STANDARD_ERROR_OF_MEAN|7.321||0.1133|TWO_SIDED|90.0|-24.26|0.48||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.48|-24.26|0.1133
82615824|NCT01856595|164948094|SUPERIORITY_OR_OTHER||Ratio|0.99|STANDARD_ERROR_OF_MEAN|1.066||0.853|TWO_SIDED|90.0|0.89|1.1||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.10|0.89|0.8530
82615825|NCT01856595|164948094|SUPERIORITY_OR_OTHER||Ratio|0.86|STANDARD_ERROR_OF_MEAN|1.065||0.0172|TWO_SIDED|90.0|0.77|0.95||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.95|0.77|0.0172
82615826|NCT01856595|164948094|SUPERIORITY_OR_OTHER||Ratio|0.85|STANDARD_ERROR_OF_MEAN|1.064||0.0106|TWO_SIDED|90.0|0.77|0.94||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.94|0.77|0.0106
82615827|NCT01856595|164948094|SUPERIORITY_OR_OTHER||Ratio|0.82|STANDARD_ERROR_OF_MEAN|1.062||0.0012|TWO_SIDED|90.0|0.74|0.9||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.90|0.74|0.0012
82615828|NCT01856595|164948094|SUPERIORITY_OR_OTHER||Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.065|<|0.0001|TWO_SIDED|90.0|0.69|0.85||Two-sided p-values are from analysis of Covariance (ANCOVA) model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.85|0.69|<0.0001
82615829|NCT01856595|164948095|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.075||0.7804|TWO_SIDED|90.0|0.87|1.1||Two-sided p-values are from analysis of ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.10|0.87|0.7804
82615830|NCT01856595|164948095|SUPERIORITY_OR_OTHER||Ratio|0.88|STANDARD_ERROR_OF_MEAN|1.068||0.0908|TWO_SIDED|90.0|0.77|1.0||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.00|0.77|0.0908
82615831|NCT01856595|164948096|SUPERIORITY_OR_OTHER||Ratio|0.77|STANDARD_ERROR_OF_MEAN|1.083||0.0027|TWO_SIDED|90.0|0.68|0.88||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.88|0.68|0.0027
82615832|NCT01856595|164948096|SUPERIORITY_OR_OTHER||Ratio|0.88|STANDARD_ERROR_OF_MEAN|1.079||0.0908|TWO_SIDED|90.0|0.77|1.0||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.00|0.77|0.0908
82615833|NCT01856595|164948100|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.123||0.8723|TWO_SIDED|90.0|0.81|1.19||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.19|0.81|0.8723
82615834|NCT01856595|164948100|SUPERIORITY_OR_OTHER||Ratio|0.93|STANDARD_ERROR_OF_MEAN|1.124||0.5158|TWO_SIDED|90.0|0.76|1.13||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.13|0.76|0.5158
82615835|NCT01856595|164948100|SUPERIORITY_OR_OTHER||Ratio|0.83|STANDARD_ERROR_OF_MEAN|1.126||0.1258|TWO_SIDED|90.0|0.68|1.01||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.01|0.68|0.1258
82615836|NCT01856595|164948100|SUPERIORITY_OR_OTHER||Ratio|0.89|STANDARD_ERROR_OF_MEAN|1.115||0.2883|TWO_SIDED|90.0|0.74|1.07||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.07|0.74|0.2883
82615837|NCT01856595|164948100|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.12||0.8437|TWO_SIDED|90.0|0.81|1.18||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.18|0.81|0.8437
82615838|NCT01856595|164948101|SUPERIORITY_OR_OTHER||Ratio|1.12|STANDARD_ERROR_OF_MEAN|1.154||0.4405|TWO_SIDED|90.0|0.88|1.42||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.42|0.88|0.4405
82615839|NCT01856595|164948101|SUPERIORITY_OR_OTHER||Ratio|1.09|STANDARD_ERROR_OF_MEAN|1.146||0.5178|TWO_SIDED|90.0|0.87|1.37||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.37|0.87|0.5178
82615840|NCT01856595|164948102|SUPERIORITY_OR_OTHER||Ratio|0.69|STANDARD_ERROR_OF_MEAN|1.181||0.034|TWO_SIDED|90.0|0.52|0.92||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||0.92|0.52|0.0340
82615841|NCT01856595|164948102|SUPERIORITY_OR_OTHER||Ratio|1.2|STANDARD_ERROR_OF_MEAN|1.173||0.2519|TWO_SIDED|90.0|0.92|1.58||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.58|0.92|0.2519
82615842|NCT01856595|164948103|SUPERIORITY_OR_OTHER||Ratio|1.06|STANDARD_ERROR_OF_MEAN|1.079||0.4579|TWO_SIDED|90.0|0.93|1.2||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.20|0.93|0.4579
82615843|NCT01856595|164948103|SUPERIORITY_OR_OTHER||Ratio|0.98|STANDARD_ERROR_OF_MEAN|1.079||0.8144|TWO_SIDED|90.0|0.87|1.11||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.11|0.87|0.8144
82615844|NCT01856595|164948103|SUPERIORITY_OR_OTHER||Ratio|0.93|STANDARD_ERROR_OF_MEAN|1.082||0.3425|TWO_SIDED|90.0|0.81|1.06||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.06|0.81|0.3425
82615845|NCT01856595|164948103|SUPERIORITY_OR_OTHER||Ratio|1.0|STANDARD_ERROR_OF_MEAN|1.076||0.967|TWO_SIDED|90.0|0.88|1.13||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.13|0.88|0.9670
82615846|NCT01856595|164948103|SUPERIORITY_OR_OTHER||Ratio|1.08|STANDARD_ERROR_OF_MEAN|1.079||0.319|TWO_SIDED|90.0|0.95|1.23||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.23|0.95|0.3190
82615847|NCT01856595|164948104|SUPERIORITY_OR_OTHER||Ratio|1.14|STANDARD_ERROR_OF_MEAN|1.095||0.1617|TWO_SIDED|90.0|0.98|1.32||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.32|0.98|0.1617
82615848|NCT01856595|164948104|SUPERIORITY_OR_OTHER||Ratio|1.08|STANDARD_ERROR_OF_MEAN|1.084||0.3703|TWO_SIDED|90.0|0.94|1.23||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.23|0.94|0.3703
82615849|NCT01856595|164948105|SUPERIORITY_OR_OTHER||Ratio|0.95|STANDARD_ERROR_OF_MEAN|1.119||0.6833|TWO_SIDED|90.0|0.79|1.15||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.15|0.79|0.6833
82615850|NCT01856595|164948105|SUPERIORITY_OR_OTHER||Ratio|1.18|STANDARD_ERROR_OF_MEAN|1.112||0.1318|TWO_SIDED|90.0|0.98|1.41||Two-sided p-values are from ANCOVA model with treatment as a factor and baseline value as a covariate using the natural log-transformed AUC0-4. P-values are not adjusted for multiple comparisons.|ANCOVA|||Placebo was the Reference and each of the active doses was the Test.||1.41|0.98|0.1318
82615851|NCT01071044|164948112|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||ANOVA|These data were initially analyzed with a one-way ANOVA.||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||.005
82659280|NCT00850174|165035752|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.54||||||90.0|99.19|106.01|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.01|99.19|
82615852|NCT01071044|164948113|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED|95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.008
82615853|NCT01071044|164948114|SUPERIORITY_OR_OTHER_LEGACY|||||||0.183||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.183
82615854|NCT01071044|164948115|SUPERIORITY_OR_OTHER_LEGACY|||||||0.046||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.046
82615855|NCT01071044|164948116|SUPERIORITY_OR_OTHER_LEGACY|||||||0.219||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.219
82615856|NCT01071044|164948117|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.038
82615857|NCT01071044|164948118|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022||95.0|||||ANOVA|||These scores were calculated by subtracting participants' endpoint scores from their initial baseline scores. These change scores show the total change in executive functioning over the course of the trial. Higher values indicate improved executive functioning at the end of the trial compared to the beginning.||||0.022
82615858|NCT00436969|164948125|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.472||||0.696|TWO_SIDED|95.0|-8.888|5.943||The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||Anticipated VAS difference of 10 mm and SD of 25 mm indicated a sample size of 225 subjects in a 2:1 randomization would provide 80% power to detect a significant difference with a two-sided significance level of 5%. To account for a 15% dropout rate the sample size was increased to 270 subjects (180 Orthovisc, 90 control). The primary null hypothesis (Ho) no difference in VAS means at 6 months and the alternative hypothesis (Ha) was that Orthovisc (mean VAS) is superior to the control.||5.943|-8.888|0.696
82615859|NCT00436969|164948126|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-15.6|15.1||||||Asymptotic 95% confidence interval for the treatment group difference (Orthovisc - Control) in proportions of responders was calculated. The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups at 6 months is unequal.||15.1|-15.6|
82615860|NCT00436969|164948127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-19.7|9.1||||||Asymptotic 95% confidence interval for the treatment group difference (Orthovisc - Control) in proportions of responders was calculated. The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups at 6 months is unequal.||9.1|-19.7|
82615861|NCT00436969|164948128|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.87||||0.827|TWO_SIDED|95.0|-8.698|6.957||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.957|-8.698|0.827
82615862|NCT00436969|164948129|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.875||||0.392|TWO_SIDED|95.0|-9.472|3.723||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.723|-9.472|0.392
82659281|NCT00850174|165035753|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.19||||||90.0|98.78|105.71|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.71|98.78|
82615863|NCT00436969|164948130|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.932||||0.772|TWO_SIDED|95.0|-7.26|5.396||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||5.396|-7.260|0.772
82615864|NCT00436969|164948131|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.028||||0.707|TWO_SIDED|95.0|-4.338|6.393||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.393|-4.338|0.707
82659282|NCT00850174|165035754|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|100.77||||||90.0|97.03|104.65|||||Results presented for informational purposes only; metabolite not subjected to Bioequivalence criteria.|||104.65|97.03|
82659283|NCT00850174|165035755|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.94||||||90.0|97.75|102.18|||||Results presented for informational purposes only, metabolite not subjected to bioequivalence criteria.|||102.18|97.75|
82659284|NCT00850174|165035756|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|99.8||||||90.0|97.5|102.15|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||102.15|97.50|
82659285|NCT01363765|165035759|SUPERIORITY_OR_OTHER||notification rate ratio|1.59|||<|0.01|TWO_SIDED|95.0|1.32|1.87||NR were calculated using an aggregated database consisting of 896 strata for laboratory (n=14), study month (n=8), sex (n=2) and age group (n=4: \<15, 15-39, 40-59, and \>=60 years). Poisson regression modeling was used to analyze changes in TB TB NR|Clustered Avareged|Adjustment for municipality, age, sex, and baseline proportion of samples with a positive smear was by a population-averaged quasi-likelihood approach|"The numbers reported in the CONSORT flowchart refer to the diagnostic samples. NR were obtained crosslinking lab and notification databases, denominator was population/year."|cluster-averaged NNR=1.59 (CI95% 1.31-1.88) Absolute numbers informed in table do not allow calculation of notification rates; they are based on population size, not in total numbers and percentages||1.87|1.32|<0.01
82659286|NCT01363765|165035759|SUPERIORITY_OR_OTHER||notification rate ratio|1.7|||<|0.001|TWO_SIDED|95.0|1.51|1.92|||Mixed Models Analysis|Mixed multi-level model, time-adjusted||Secondary analysis: Mixed multi-level model||1.92|1.51|<0.001
82659287|NCT01363765|165035760|SUPERIORITY_OR_OTHER||incremental cost-effectiveness ratio|-84.07||||||95.0||||||Incremental cost-effectiveness ratio (ICER) per case detected||||||
82659288|NCT01363765|165035761|SUPERIORITY_OR_OTHER||NRR|0.98||||0.923|TWO_SIDED|95.0|0.64|1.32||cluster-averaged adjusted NRR (notification rate ratio, not calculable from number shown, which are a proportion of tests. NRR calculated over a population/year denominator.|Agregated cluster-averaged|||||1.32|0.64|0.923
82659289|NCT01363765|165035762|SUPERIORITY_OR_OTHER||NRR|0.52||||0.004|TWO_SIDED|95.0|0.21|0.84||cluster-averaged adjusted NRR|Agregated cluster-averaged|||||0.84|0.21|0.004
82659290|NCT02251886|165035763|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.17||||0.48|TWO_SIDED|95.0|0.77|1.76|||Chi-squared|||||1.76|0.77|0.48
82659291|NCT02251886|165035763|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||1|TWO_SIDED|95.0|0.69|1.46|||Chi-squared|||||1.46|0.69|1.00
82659292|NCT02819323|165035764|NON_INFERIORITY|Non-inferiority margin = 10%||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
82659293|NCT02819323|165035764|NON_INFERIORITY|Non-inferiority margin = 10%||||||0.003|||||||Cochran-Mantel-Haenszel|||||||0.003
82659294|NCT02819323|165035764|SUPERIORITY|||||||0.046|||||||Cochran-Mantel-Haenszel|||||||0.046
82659295|NCT02819323|165035764|SUPERIORITY|||||||0.089|||||||Cochran-Mantel-Haenszel|||||||0.089
82659296|NCT00578552|165035797|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Fisher Exact|1-tailed||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||0.77
82659297|NCT00578552|165035797|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|1-tailed||Data were compared between treatment groups using Fisher's exact test for binary outcomes.||||1.00
82659298|NCT05169710|165035836|SUPERIORITY||Mean Difference (Final Values)|-3.94|STANDARD_ERROR_OF_MEAN|2.857||0.1718|TWO_SIDED|95.0|-9.64|1.75|||Mixed Models Analysis|||||1.75|-9.64|0.1718
82659299|NCT05169710|165035836|SUPERIORITY||Mean Difference (Final Values)|-6.34|STANDARD_ERROR_OF_MEAN|2.837||0.0286|TWO_SIDED|95.0|-11.99|-0.68|||Mixed Models Analysis|||||-0.68|-11.99|0.028600
82659300|NCT05169710|165035837|SUPERIORITY||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.308||0.7314|TWO_SIDED|95.0|-0.72|0.51|||Mixed Models Analysis|||||0.51|-0.72|0.7314
82659301|NCT05169710|165035837|SUPERIORITY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.305||0.3169|TWO_SIDED|95.0|-0.91|0.3|||Mixed Models Analysis|||||0.3|-0.91|0.3169
82659302|NCT01265056|165035854|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82659303|NCT01265056|165035854|SUPERIORITY||||||<|0.04|||||||Regression, Logistic|||||||<0.04
82659304|NCT01265056|165035855|SUPERIORITY||||||<|0.8|||||||t-test, 2 sided|||||||<0.8
82659305|NCT01265056|165035856|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||||||0.8
82659306|NCT01416584|165035857|SUPERIORITY||Odds Ratio (OR)|1.4||||0.6|TWO_SIDED|95.0|0.4|4.83|||General Estimating Equation (GEE)|||||4.83|0.40|0.60
82659307|NCT01416584|165035857|SUPERIORITY||Odds Ratio (OR)|1.1||||0.88|TWO_SIDED|95.0|0.32|3.73|||General Estimating Equation (GEE)|||||3.73|0.32|0.88
82659308|NCT01416584|165035857|SUPERIORITY||Odds Ratio (OR)|1.27||||0.64|TWO_SIDED|95.0|0.36|4.46|||General Estimating Equation (GEE)|||||4.46|0.36|0.64
82659309|NCT01416584|165035858|SUPERIORITY||Odds Ratio (OR)|0.39||||0.02|TWO_SIDED|95.0|0.38|0.41|||General Estimating Equation (GEE)|||||0.41|0.38|0.02
82659310|NCT01416584|165035858|SUPERIORITY||Odds Ratio (OR)|0.73||||0.39|TWO_SIDED|95.0|0.34|1.57|||General Estimating Equation (GEE)|||||1.57|0.34|0.39
82659311|NCT01416584|165035858|SUPERIORITY||Odds Ratio (OR)|1.86||||0.1|TWO_SIDED|95.0|1.53|2.26|||General Estimating Equation (GEE)|||||2.26|1.53|0.10
82659312|NCT01416584|165035859|SUPERIORITY||Odds Ratio (OR)|0.37||||0.02|TWO_SIDED|95.0|0.36|0.38|||General Estimating Equation (GEE)|||||0.38|0.36|0.02
82659313|NCT01416584|165035859|SUPERIORITY||Odds Ratio (OR)|0.39||||0.02|TWO_SIDED|95.0|0.38|0.41|||General Estimating Equation (GEE)|||||0.41|0.38|0.02
82659314|NCT01416584|165035859|SUPERIORITY||Odds Ratio (OR)|1.07||||0.85|TWO_SIDED|95.0|0.2|5.66|||General Estimating Equation (GEE)|||||5.66|0.20|0.85
82659315|NCT01416584|165035860|SUPERIORITY||Odds Ratio (OR)|0.35||||0.01|TWO_SIDED|95.0|0.34|0.35|||General Estimating Equation (GEE)|||||0.35|0.34|0.01
82659316|NCT01416584|165035860|SUPERIORITY||Odds Ratio (OR)|0.41||||0.03|TWO_SIDED|95.0|0.39|0.44|||General Estimating Equation (GEE)|||||0.44|0.39|0.03
82659317|NCT01416584|165035860|SUPERIORITY||Odds Ratio (OR)|0.84||||0.63|TWO_SIDED|95.0|0.42|1.69|||General Estimating Equation (GEE)|||||1.69|0.42|0.63
82659318|NCT01416584|165035861|SUPERIORITY||Odds Ratio (OR)|0.4||||0.01|TWO_SIDED|95.0|0.39|0.4|||General Estimating Equation (GEE)|||||0.40|0.39|0.01
82659319|NCT01416584|165035861|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75||||0.37|TWO_SIDED|95.0|0.36|1.55|||General Estimating Equation (GEE)|||||1.55|0.36|0.37
82659320|NCT01416584|165035861|SUPERIORITY||Odds Ratio (OR)|0.53||||0.05|TWO_SIDED|95.0|0.28|1.0|||General Estimating Equation (GEE)|||||1.00|0.28|0.05
82615865|NCT00436969|164948132|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.82||||0.79|TWO_SIDED|95.0|-6.866|5.227||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||5.227|-6.866|0.790
82615866|NCT00436969|164948133|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.13||||0.685|TWO_SIDED|95.0|-4.341|6.001||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||6.001|-4.341|0.685
82615867|NCT00436969|164948134|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|7.317||||0.018|TWO_SIDED|95.0|1.249|13.386||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||13.386|1.249|0.018
82615868|NCT00436969|164948135|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.361||||0.369|TWO_SIDED|95.0|-2.801|7.522||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||7.522|-2.801|0.369
82615869|NCT00436969|164948136|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.79||||0.41|TWO_SIDED|95.0|-9.441|3.861||The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||Anticipated VAS difference of 10 mm and SD of 25 mm indicated a sample size of 225 subjects in a 2:1 randomization would provide 80% power to detect a significant difference with a two-sided significance level of 5%. To account for a 15% dropout rate the sample size was increased to 270 subjects (180 Orthovisc, 90 control). The primary null hypothesis (Ho) no difference in VAS means at 6 months and the alternative hypothesis (Ha) was that Orthovisc (mean VAS) is superior to the control.||3.861|-9.441|0.410
82615870|NCT00436969|164948137|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|2.617||||0.379|TWO_SIDED|95.0|-3.226|8.46||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||8.460|-3.226|0.379
82615871|NCT00436969|164948138|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.208||||0.409|TWO_SIDED|95.0|-7.455|3.039||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.039|-7.455|0.409
82615872|NCT00436969|164948139|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.558||||0.232|TWO_SIDED|95.0|-4.119|1.003||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||1.003|-4.119|0.232
82615873|NCT00436969|164948140|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.228||||0.832|TWO_SIDED|95.0|-2.343|1.887||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||1.887|-2.343|0.832
82492708|NCT02229383|164678212|SUPERIORITY_OR_OTHER||Difference in percentages|25.6|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%) and baseline SU-use (yes vs. no).||||||<0.001
82615874|NCT00436969|164948141|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.068||||0.957|TWO_SIDED|95.0|-2.396|2.532||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||2.532|-2.396|0.957
82615875|NCT00436969|164948142|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.22||||0.267|TWO_SIDED|95.0|-0.937|3.378||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||3.378|-0.937|0.267
82659321|NCT02601560|165035880|SUPERIORITY_OR_OTHER|||||||0.095|||||||ANCOVA|||||||0.095
82659322|NCT02601560|165035880|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82659323|NCT02601560|165035880|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82659324|NCT02601560|165035880|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82659325|NCT02601560|165035880|SUPERIORITY_OR_OTHER|||||||0.44|||||||ANCOVA|||||||0.440
82659326|NCT02601560|165035880|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||||||<0.001
82659327|NCT01790581|165035930|SUPERIORITY_OR_OTHER|||||||0.904|TWO_SIDED||||||MANOVA|||This analysis examined the change in balance scores from baseline to 1-day post intervention for all three reach distances (Anterior, Posteriomedial, Posteriolateral) using a MANOVA.||||.904
82659328|NCT01790581|165035932|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||MANOVA|||This analysis examined the change in disability scores from baseline to 1-day post intervention for both disability scores (FAAM, FAAM-S) using a MANOVA.||||.5
82659329|NCT01379664|165035947|SUPERIORITY_OR_OTHER||Ratio of Geometric Means|1.06||||0.24|TWO_SIDED|95.0|0.97|1.16|||Wilcoxon (Mann-Whitney)|||||1.16|0.97|0.24
82659330|NCT01379664|165035948|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.87|TWO_SIDED|95.0|-0.23|0.19|||Generalized estimating equation model|Generalized estimating equation model weighted by inverse propensity score||||0.19|-0.23|0.87
82659331|NCT01379664|165035949|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.69||||0.74|TWO_SIDED|95.0|-4.7|3.3|||Generalized estimating equation model|Generalized estimating equation model weighted by propensity score||||3.3|-4.7|0.74
82659332|NCT00467896|165036066|SUPERIORITY_OR_OTHER||Mean Difference (Net)|49.8|||<|0.0001|TWO_SIDED|95.0|39.55|60.15|||t-test, 2 sided|||Comparison of the change in inhalation-times rate from Period I (PD-6) to Period II (PD-15)||60.15|39.55|<0.0001
82659333|NCT03772522|165036067|SUPERIORITY||Cohen's d (effect size)|0.384||||0.428|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.428
82659334|NCT03772522|165036067|SUPERIORITY||Cohen's d (effect size)|-0.46||||0.058|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and immediately post-intervention.||||0.058
82659335|NCT03772522|165036067|SUPERIORITY||Cohen's d (effect size)|-0.4||||0.095|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 3-month post-intervention.||||0.095
82659336|NCT03772522|165036067|SUPERIORITY||Cohen's d (effect size)|-0.73||||0.005|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 6-months post-intervention.||||0.005
82659337|NCT03772522|165036067|SUPERIORITY||Cohen's d (effect size)|-0.6||||0.022|TWO_SIDED||||||t-test, 2 sided|||Comparison of scores at baseline (pre-intervention) and 9-months post-intervention.||||0.022
82659338|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|1.792||||0.002|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks) for the physical component of the CIS.||||0.002
82659339|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.047||||0.923|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks) for the psychological component of the CIS.||||0.923
82659340|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.6||||0.18|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and immediately post-intervention.||||0.18
82659341|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.2||||0.388|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and immediately post-intervention.||||0.388
82659342|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.52||||0.037|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 3-months post-intervention.||||0.037
82659343|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.09||||0.688|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 3-months post-intervention.||||0.688
82659344|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.51||||0.038|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 6-months post-intervention.||||0.038
82659345|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.01||||0.956|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 6-months post-intervention.||||0.956
82659346|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|0.32||||0.197|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (physical component) scores at baseline (pre-intervention) and 9-months post-intervention.||||0.197
82492709|NCT02229383|164678213|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9|STANDARD_ERROR_OF_MEAN|1.08||0.074|TWO_SIDED|95.0|-4.1|0.2|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||0.2|-4.1|0.074
82659347|NCT03772522|165036068|SUPERIORITY||Cohen's d (effect size)|-0.07||||0.762|TWO_SIDED||||||t-test, 2 sided|||Comparison of CIS (psychological component) scores at baseline (pre-intervention) and 9-months post-intervention.||||0.762
82659348|NCT03772522|165036069|SUPERIORITY||Cohen's d (effect size)|0.101||||0.834|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.834
82659349|NCT03772522|165036069|SUPERIORITY||Cohen's d (effect size)|0.19||||0.417|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and immediately post-intervention.||||0.417
82659350|NCT03772522|165036069|SUPERIORITY||Cohen's d (effect size)|0.42||||0.087|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 3-months post-intervention.||||0.087
82659351|NCT03772522|165036069|SUPERIORITY||Cohen's d (effect size)|0.33||||0.168|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 6-months post-intervention.||||0.168
82659352|NCT03772522|165036069|SUPERIORITY||Cohen's d (effect size)|0.37||||0.133|TWO_SIDED||||||t-test, 2 sided|||Comparison of SCS scores at baseline (pre-intervention) and 9-months post-intervention.||||0.133
82659353|NCT03772522|165036070|SUPERIORITY||Cohen's d (effect size)|1.161||||0.026|TWO_SIDED||||||t-test, 2 sided|||Change in score in the immediate intervention group (after receiving the intervention for 6 weeks) compared to that of the delayed intervention group (after receiving no intervention for 6 weeks).||||0.026
82659354|NCT03772522|165036070|SUPERIORITY||Cohen's d (effect size)|0.62||||0.014|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and immediately post-intervention.||||0.014
82615876|NCT00436969|164948143|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.19||||0.333|TWO_SIDED|95.0|-1.225|3.604||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||3.604|-1.225|0.333
82615877|NCT00436969|164948144|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.771||||0.473|TWO_SIDED|95.0|-1.339|2.881||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 12 weeks is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||2.881|-1.339|0.473
82615878|NCT00436969|164948145|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.018||||0.988|TWO_SIDED|95.0|-2.314|2.278||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative (Ha) is that the effect of the two treatment groups at 6 months is unequal.||2.278|-2.314|0.988
82615879|NCT00436969|164948146|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.467||||0.671|TWO_SIDED|95.0|-1.692|2.627||The p-value was not adjusted for multiple comparisons. The a priori threshold for significance was a two-sided p \<0.05.|Mixed Models Repeated Measures ANCOVA|The analysis included baseline score as a covariate. Site was dropped from the model due to statistical insignificance.||The null hypothesis (Ho) is that the effect of the two treatment groups at 6 months is equal and the corresponding alternative hypothesis (Ha) is that the effect of the two treatment groups is unequal.||2.627|-1.692|0.671
82615880|NCT05692154|164948147|SUPERIORITY||Least Square Mean Difference|-4.24|STANDARD_ERROR_OF_MEAN|2.015||0.038|TWO_SIDED|95.0|-8.24|-0.23|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance model, with treatment group as fixed effect and baseline TNSS (H0 at Visit 4) as covariate.|||-0.23|-8.24|0.038
82615881|NCT05692154|164948148|SUPERIORITY||Least Square Mean Difference|-4.75|STANDARD_ERROR_OF_MEAN|2.088||0.025|TWO_SIDED|95.0|-8.9|-0.6|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Visit 4) as covariate.|||-0.60|-8.90|0.025
82615882|NCT05692154|164948149|SUPERIORITY||Least Square Mean Difference|-6.5|STANDARD_ERROR_OF_MEAN|3.247||0.048|TWO_SIDED|95.0|-12.95|-0.05|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance model, with treatment group as fixed effect and baseline TNSS (H0 at Visit 4) as covariate.|||-0.05|-12.95|0.048
82615883|NCT05692154|164948150|SUPERIORITY||Least Square Mean Difference|-7.47|STANDARD_ERROR_OF_MEAN|2.89||0.011|TWO_SIDED|95.0|-13.21|-1.73|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Visit 4) as covariate.|||-1.73|-13.21|0.011
82615884|NCT05692154|164948151|SUPERIORITY||Least Square Mean Difference|-18.45|STANDARD_ERROR_OF_MEAN|10.211||0.074|TWO_SIDED|95.0|-38.74|1.83|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TNSS (Day 1) as covariate.|||1.83|-38.74|0.074
82615885|NCT05692154|164948152|SUPERIORITY||Least Square Mean Difference|-4.06|STANDARD_ERROR_OF_MEAN|11.672||0.729|TWO_SIDED|95.0|-27.24|19.12|||ANCOVA||Least-squares means, standard errors and p-value are taken from an analysis of covariance, with treatment group as fixed categorical effect and baseline TOSS (H0 at Day 1) as covariate.|||19.12|-27.24|0.729
82615886|NCT00904826|164948173|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between before treatment and one year after treatment.||||<0.0001
82615887|NCT00904826|164948175|SUPERIORITY_OR_OTHER|||||||0.0078||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison was made between baseline and after 12 months of treatment.||||0.0078
82615888|NCT00904826|164948179|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 6 weeks and baseline.||||<0.0001
82615889|NCT00904826|164948179|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 3 months and baseline.||||<0.0001
82615890|NCT00904826|164948179|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 6 months and baseline||||0.0001
82615891|NCT00904826|164948179|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 9 months and baseline.||||0.0001
82615892|NCT00904826|164948179|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison is between 12 months and baseline.||||<0.0001
82615893|NCT00904826|164948181|SUPERIORITY_OR_OTHER|||||||0.0019||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison was between 3 months and baseline.||||0.0019
82615894|NCT01125176|164948194|OTHER|Exact Clopper-Pearson 95% confidence interval for overall response rate.|Proportion (percent)|85.7|||||TWO_SIDED|95.0|73.5|100.0||||||||100.0|73.5|
82615895|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% confidential interval (CI) on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|Geometric Mean Ratio (GMR)|13.16|||||TWO_SIDED|95.0|8.99|19.28|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|Geometric mean ratio (GMR) of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 1||19.28|8.99|
82615896|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.88|||||TWO_SIDED|95.0|4.32|8.01|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 3||8.01|4.32|
82492710|NCT02229383|164678214|SUPERIORITY_OR_OTHER||Difference in percentages|20.0|||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|Stratified by baseline HbA1c (\<9.0% or ≥9.0%) and baseline SU-use (yes vs. no).||||||<0.001
82615897|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.98|||||TWO_SIDED|95.0|12.07|26.78|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 4||26.78|12.07|
82615898|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.42|||||TWO_SIDED|95.0|1.9|3.08|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 5||3.08|1.90|
82615899|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.35|||||TWO_SIDED|95.0|4.68|8.61|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6A||8.61|4.68|
82615900|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.64|||||TWO_SIDED|95.0|4.92|8.97|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6B||8.97|4.92|
82615901|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.42|||||TWO_SIDED|95.0|6.91|12.83|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 7F||12.83|6.91|
82615902|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|3.89|||||TWO_SIDED|95.0|2.96|5.1|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 9V||5.10|2.96|
82615903|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|62.13|||||TWO_SIDED|95.0|40.16|96.12|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 14||96.12|40.16|
82615904|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|16.37|||||TWO_SIDED|95.0|11.22|23.89|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 18C||23.89|11.22|
82615905|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.25|||||TWO_SIDED|95.0|3.22|5.62|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19A||5.62|3.22|
82615906|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.73|||||TWO_SIDED|95.0|6.24|12.21|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19F||12.21|6.24|
82615907|NCT05372575|164948205|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.33|||||TWO_SIDED|95.0|6.15|11.29|||||GMR=(GMC of 13vPnC Cohort)/(GMC of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 23F||11.29|6.15|
82659355|NCT03772522|165036070|SUPERIORITY||Cohen's d (effect size)|0.29||||0.217|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 3-months post-intervention.||||0.217
82615908|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMR (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|Geometric Mean Ratio (GMR)|4.78|||||TWO_SIDED|95.0|2.32|9.86|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 1||9.86|2.32|
82615909|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|9.06|||||TWO_SIDED|95.0|4.72|17.39|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 3||17.39|4.72|
82615910|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|14.37|||||TWO_SIDED|95.0|6.25|33.05|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 4||33.05|6.25|
82659356|NCT03772522|165036070|SUPERIORITY||Cohen's d (effect size)|0.71||||0.006|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 6-months post-intervention.||||0.006
82659357|NCT03772522|165036070|SUPERIORITY||Cohen's d (effect size)|0.53||||0.039|TWO_SIDED||||||t-test, 2 sided|||Comparison of RSS scores at baseline (pre-intervention) and 9-months post-intervention.||||0.039
82659358|NCT03818581|165036080|SUPERIORITY|||||||0.15|||||||SPCD analysis|||||||0.15
82659359|NCT01281501|165036115|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_DEVIATION|5.0||0.6|TWO_SIDED|95.0|-12.7|7.4|||t-test, 2 sided|||Null hypothesis is that the treatment with pantoprazole arm is not different in immediate relief of acute, severe dyspeptic pain compared with conventional arm.||7.4|-12.7|0.6
82659360|NCT02996591|165036136|OTHER||generalized estimating equations method|45.0||||0.038|TWO_SIDED||||||Regression, Logistic|||||||.038
82659361|NCT02996591|165036136|OTHER|Bang blinding index|||||<|0.001|||||||Bang Blinding Index|95% confidence interval||||||<.001
82659362|NCT03612960|165036167|SUPERIORITY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|0.14|0.43|||t-test, 2 sided||||The mean percent change in BOLD signal used for this t-test was extracted from a brain cluster with significant group differences in changes in activation over time (voxel p\<.05, cluster p\<.05) identified using a whole-brain, voxel-wise two-way mixed effect ANOVA with FSL software.|0.43|0.14|<.001
82659363|NCT03612960|165036168|SUPERIORITY||Mean Difference (Final Values)|-8.38|STANDARD_ERROR_OF_MEAN|4.33||0.063|TWO_SIDED|95.0|-17.24|0.48|||t-test, 2 sided|||||0.48|-17.24|.063
82659364|NCT03612960|165036169|SUPERIORITY||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|9.86||0.89|TWO_SIDED|95.0|-21.57|18.82|||t-test, 2 sided|||||18.82|-21.57|0.890
82659365|NCT02440711|165036181|SUPERIORITY|||||||0.18||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at slow walking speed||||.18
82659366|NCT02440711|165036181|SUPERIORITY|||||||0.21||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at comfortable walking speed||||.21
82659367|NCT02440711|165036181|SUPERIORITY|||||||0.16||||||A significance threshold for all analyses was set at α=0.05. Bonferroni corrections for multiple comparisons were applied.|Multivariate regression|The multivariate regression included participants' biological masses and walking speeds as covariates.||Analysis of VO2 at fast walking speed||||.16
82659368|NCT02440711|165036183|SUPERIORITY|||||||0.29||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.29
82492711|NCT02229383|164678215|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|1.13||0.11|TWO_SIDED|95.0|-4.0|0.4|||Mixed Models Analysis|Treatment, region, baseline HbA1c (\< or ≥ 9.0%), baseline SU-use, week, treatment by week interaction as fixed factors; baseline value as covariate.||||0.4|-4.0|0.110
82659369|NCT02440711|165036185|SUPERIORITY|||||||0.05||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.05
82659370|NCT02440711|165036187|SUPERIORITY|||||||0.25||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.25
82659371|NCT02440711|165036189|SUPERIORITY|||||||0.86||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.86
82659372|NCT02440711|165036191|SUPERIORITY|||||||0.14||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Prosthetic side step length results||||.14
82659373|NCT02440711|165036191|SUPERIORITY||||||<|0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Sound side step length results||||<0.001
82659374|NCT02440711|165036193|SUPERIORITY|||||||0.61||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Prosthetic side step time results||||.61
82659375|NCT02440711|165036193|SUPERIORITY|||||||0.4||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||Sound side step time results||||.40
82659376|NCT02440711|165036195|SUPERIORITY|||||||0.14||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||.14
82659377|NCT02440711|165036197|SUPERIORITY|||||||0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.001
82659378|NCT02440711|165036199|SUPERIORITY|||||||0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.001
82659379|NCT02440711|165036201|SUPERIORITY|||||||0.005||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||||||0.005
82659380|NCT02440711|165036203|SUPERIORITY|||||||0.002||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-AR results||||0.002
82659381|NCT02440711|165036203|SUPERIORITY||||||<|0.001||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-FUN results||||<0.001
82659382|NCT02440711|165036203|SUPERIORITY|||||||0.85||||||Holm-Bonferroni adjustments for multiple comparisons were applied to yield an experiment-wise alpha level of .05.|t-test, 2 sided|||TAPES-AES results||||0.85
82659383|NCT01980771|165036205|SUPERIORITY||Odds Ratio (OR)|1.58||||0.04|TWO_SIDED|95.0|1.03|2.43|||Mixed Models Analysis|||||2.43|1.03|0.04
82659384|NCT02322593|165036238|SUPERIORITY||Hazard Ratio (HR)|0.83|STANDARD_ERROR_OF_MEAN|0.091||0.039|TWO_SIDED|95.0|0.69|0.99|||Log Rank|||||0.99|0.69|0.039
82659385|NCT02322593|165036239|SUPERIORITY||Hazard Ratio (HR)|0.79|STANDARD_ERROR_OF_MEAN|0.086||0.0045|TWO_SIDED|95.0|0.66|0.93|||Log Rank|||||0.93|0.66|0.0045
82659386|NCT02322593|165036240|SUPERIORITY||Hazard Ratio (HR)|0.82|STANDARD_ERROR_OF_MEAN|0.078||0.011|TWO_SIDED|95.0|0.7|0.96|||Log Rank|||||0.96|0.70|0.011
82659387|NCT02322593|165036241|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82659388|NCT02322593|165036242|SUPERIORITY|||||||0.092|||||||Fisher Exact|||||||0.092
82615911|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|18.03|||||TWO_SIDED|95.0|8.84|36.8|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 5||36.80|8.84|
82615912|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|33.88|||||TWO_SIDED|95.0|14.33|80.13|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6A||80.13|14.33|
82615913|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|14.05|||||TWO_SIDED|95.0|6.07|32.52|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 6B||32.52|6.07|
82615914|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|16.99|||||TWO_SIDED|95.0|7.85|36.76|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 7F||36.76|7.85|
82615915|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|19.31|||||TWO_SIDED|95.0|9.13|40.84|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 9V||40.84|9.13|
82615916|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.46|||||TWO_SIDED|95.0|4.74|23.1|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 14||23.10|4.74|
82615917|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.13|||||TWO_SIDED|95.0|6.0|24.51|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 18C||24.51|6.00|
82615918|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|23.65|||||TWO_SIDED|95.0|10.94|51.1|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19A||51.10|10.94|
82615919|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|17.62|||||TWO_SIDED|95.0|8.65|35.93|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 19F||35.93|8.65|
82615920|NCT05372575|164948206|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|44.46|||||TWO_SIDED|95.0|19.11|103.43|||||GMR=(GMT of 13vPnC Cohort)/(GMT of Non-13vPnC Cohort)|GMR of 13vPnC Cohort/Non-13vPnC Cohort for Serotype: 23F||103.43|19.11|
82615921|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|Geometric Mean Ratio (GMR)|0.48|||||TWO_SIDED|95.0|0.16|1.42|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 1||1.42|0.16|
82615922|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.27|1.98|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 3||1.98|0.27|
82659389|NCT04567186|165036252|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold +0.00 logMAR.|Least-square mean|-0.078|STANDARD_ERROR_OF_MEAN|0.0105|||TWO_SIDED|95.0|-0.099|-0.057|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Distance (4 meter)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||-0.057|-0.099|
82615923|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.21|2.19|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 4||2.19|0.21|
82492712|NCT00345839|164678235|SUPERIORITY_OR_OTHER_LEGACY|||||||0.112||||||p-value\<0.044 considered significant|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.112
82615924|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.82|||||TWO_SIDED|95.0|0.36|1.86|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 5||1.86|0.36|
82615925|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.25|1.89|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6A||1.89|0.25|
82615926|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.27|2.07|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6B||2.07|0.27|
82615927|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.42|||||TWO_SIDED|95.0|0.16|1.09|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 7F||1.09|0.16|
82615928|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.8|||||TWO_SIDED|95.0|0.35|1.81|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 9V||1.81|0.35|
82615929|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.66|||||TWO_SIDED|95.0|0.2|2.24|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 14||2.24|0.20|
82615930|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.6|||||TWO_SIDED|95.0|0.22|1.65|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 18C||1.65|0.22|
82659390|NCT04567186|165036252|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold + 0.17 logMAR.|Least-square mean|-0.059|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.079|-0.039|||Linear Mixed Model|Kenward and Roger Method was used for denominator degrees of freedom|Intermediate (64cm)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||-0.039|-0.079|
82492713|NCT00345839|164678235|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.93|||||TWO_SIDED|95.0|0.85|1.02|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.02|0.85|
82615931|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.55|||||TWO_SIDED|95.0|0.61|3.93|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19A||3.93|0.61|
82615932|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.8|||||TWO_SIDED|95.0|0.65|4.99|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19F||4.99|0.65|
82615933|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.47|||||TWO_SIDED|95.0|0.17|1.31|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 23F||1.31|0.17|
82615934|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.65|||||TWO_SIDED|95.0|0.31|1.38|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 1||1.38|0.31|
82615935|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.7|||||TWO_SIDED|95.0|0.4|1.24|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 3||1.24|0.40|
82659391|NCT04567186|165036252|SUPERIORITY|The superiority of the Test lens was concluded if the upper 95% confidence limit of the mean was below the pre-defined threshold +0.17 logMAR.|Least-square Mean|0.062|STANDARD_ERROR_OF_MEAN|0.0111|||TWO_SIDED|95.0|0.04|0.084|||Linear Mixed Model|Kenward and Roger Method was used for the denominator degrees of freedom|Near (40cm)|It was calculated that 70 participants would have at least 90% power to for the mean visual performance at each distance to be below the hypothesis threshold at the 1-week follow-up. Sample size was determined using one sample means test for equivalence||0.084|0.040|
82659392|NCT04567186|165036253|SUPERIORITY|The superiority of the Test lens was concluded if the lower confidence limit of the least-square mean was above the threshold of 32 points.|Least-square Mean|55.93|STANDARD_ERROR_OF_MEAN|2.9027|||TWO_SIDED|95.0|49.25|62.61|||Linear Mixed Model|The Kenward and Roger method was used for the denominator degrees of freedom||This study was powered to only test primary hypotheses.||62.61|49.25|
82659393|NCT04567186|165036253|NON_INFERIORITY|A Non-Inferiority margin of 5 points was used.|Least-square mean difference|-2.98|STANDARD_ERROR_OF_MEAN|1.4708|||TWO_SIDED|95.0|-5.893|-0.073|||Linear Mixed Model|The Kenward and Roger Method was used for the denominator degrees of freedom|mean difference was calculated as Test minus Control|This study was powered for only the primary hypotheses.||-0.073|-5.893|
82659394|NCT04274686|165036254|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.667|TWO_SIDED|95.0|-7.0|10.7|||Paired t-test|||Null hypothesis: No difference in percent air leakage||10.7|-7.0|0.667
82659395|NCT04274686|165036255|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.218|TWO_SIDED|95.0|-0.7|2.9|||Paired t-test|||||2.90|-0.70|0.218
82659396|NCT04274686|165036256|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.455|TWO_SIDED|95.0|-0.5|0.2|||Paired t-test|||||0.2|-0.5|0.455
82659397|NCT00376623|165036257|OTHER|A one-sided exact binomial test with a 2.5 % significance level was used to detect the difference between BI 2536 and historical placebo with objective response rate = 0.9 % (two out of 211) with a 95 % confidence interval of 0.2 % to 3 %.||||||0.0548|||||||One-sided exact binomial test|Null hypothesis H0: p \<= 0.009 Alternative hypothesis HA: p \> 0.009||Efficacy of BI 2536 was evaluated by comparing the tumour response rate of the present trial with the tumour response rate published for patients with the same stage of disease treated with placebo. For this, treatment groups 'BI 2536 200 mg' and 'combination of treatment group 50 mg BI 2536 (day 1 - day 3) and 60 mg BI 2536 (day 1 - day 3)' were pooled together and compared to historical placebo.||||0.0548
82659398|NCT00376623|165036258|OTHER||Hazard Ratio (HR)|1.02||||0.92|TWO_SIDED|95.0|0.67|1.55|||Log Rank||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|Exploratory analysis. No formal hypotheses were tested.||1.55|0.67|0.92
82659399|NCT00376623|165036259|OTHER||Hazard Ratio (HR)|1.11||||0.65|TWO_SIDED|95.0|0.7|1.78|||Log Rank||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|Exploratory analysis. No formal hypotheses were tested.||1.78|0.7|0.65
82659400|NCT00376623|165036262|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|0.94|2.51|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||2.51|0.94|
82659401|NCT00376623|165036263|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.59|1.49|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||1.49|0.59|
82659402|NCT00376623|165036264|OTHER|Exploratory analysis. No formal hypotheses were tested.|Hazard Ratio (HR)|1.27|||||TWO_SIDED|95.0|0.81|2.01|||Regression, Cox||"Hazard ratio calculated as Combination of 50 mg BI 2536 and 60 mg BI 2536 divided by 200 mg BI 2536"|||2.01|0.81|
82659403|NCT03020615|165036314|SUPERIORITY|||||||0.033|||||||t-test, 2 sided|||||||0.033
82659404|NCT03020615|165036317|SUPERIORITY|||||||0.0005|||||||Exact Wilcoxon (Mann-Whitley), two-sided|||||||0.0005
82659405|NCT03020615|165036319|SUPERIORITY|||||||0.011|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.011
82659406|NCT03020615|165036320|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||0.030
82659407|NCT03020615|165036323|SUPERIORITY|||||||0.0009|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0009
82659408|NCT03020615|165036325|SUPERIORITY|||||||0.0004|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0004
82659409|NCT03020615|165036327|SUPERIORITY|||||||0.75|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.75
82659410|NCT03020615|165036329|SUPERIORITY|||||||0.0013|||||||Exact Wilcoxon (Mann-Whitney), two-sided|||||||0.0013
82659411|NCT03020615|165036330|SUPERIORITY|||||||0.013|||||||t-test, 2 sided|||||||0.013
82659412|NCT00089661|165036346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|||<|0.0001||95.0|4.8|6.3|||ANCOVA|||||6.3|4.8|<0.0001
82659413|NCT00904345|165036354|OTHER||||||||||||||||||Estimates of proportion event-free at 1 and 2 years calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals were calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82659414|NCT00904345|165036355|OTHER||||||||||||||||||Survival proportion estimates at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82492714|NCT00345839|164678236|SUPERIORITY_OR_OTHER_LEGACY|||||||0.249||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.249
82659415|NCT00904345|165036359|OTHER||||||||||||||||||Estimates of proportion LRP event-free at 1 and 2 years were calculated using Kaplan-Meier methods, and the 2-sided, 95% confidence intervals calculated by the Greenwood method. All analyses were performed using SAS v9.4 software and R version 3.5.2.|||
82659416|NCT02481830|165036378|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.1144|TWO_SIDED|95.0|0.72|1.04|||Log Rank||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Topotecan/Amrubicin|||1.04|0.72|0.1144
82659417|NCT02481830|165036379|SUPERIORITY||Hazard Ratio (HR)|1.39|||||TWO_SIDED|95.0|1.16|1.66|||||Hazard Ratio is Nivolumab over Topotecan/Amrubicin using Stratified Cox proportional hazard model|||1.66|1.16|
82659418|NCT02481830|165036380|SUPERIORITY||Estimate of Odds Ratio (OR)|0.78|||||TWO_SIDED|95.0|0.49|1.24|||||Strata adjusted odds ratio (Nivolumab over Topotecan/Amrubicin) using Mantel-Haenszel method|||1.24|0.49|
82659419|NCT02481830|165036381|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.73|1.04|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab over Topotecan/Amrubicin|||1.04|0.73|
82659420|NCT04627038|165036382|SUPERIORITY||Posterior Mean Difference|0.09|||||TWO_SIDED|95.0|-0.51|0.67|||||Posterior mean difference with 95% credible interval is reported.|||0.67|-0.51|
82659421|NCT04627038|165036383|SUPERIORITY||Posterior Mean Difference|0.95|||||TWO_SIDED|95.0|-0.07|1.96|||||Posterior mean difference with 95% credible interval is reported.|||1.96|-0.07|
82659422|NCT04627038|165036384|SUPERIORITY||Posterior Mean Difference|0.24|||||TWO_SIDED|95.0|-0.24|0.72|||||Posterior mean difference with 95% credible interval is reported.|||0.72|-0.24|
82659423|NCT04627038|165036385|SUPERIORITY||Posterior Mean Difference|3.84|||||TWO_SIDED|95.0|0.39|7.2|||||Posterior mean difference with 95% credible interval is reported.|||7.20|0.39|
82659424|NCT04627038|165036386|SUPERIORITY||Posterior Mean Difference|-0.1|||||TWO_SIDED|95.0|-0.48|0.28|||||Posterior mean difference with 95% credible interval is reported.|||0.28|-0.48|
82659425|NCT04627038|165036387|SUPERIORITY||Posterior Mean Difference|0.31|||||TWO_SIDED|95.0|-0.32|0.95|||||Posterior mean difference with 95% credible interval is reported.|||0.95|-0.32|
82659426|NCT04627038|165036388|SUPERIORITY||Posterior Mean Difference|6.24|||||TWO_SIDED|95.0|-1.05|13.56|||||Posterior mean difference with 95% credible interval is reported.|||13.56|-1.05|
82659427|NCT04627038|165036389|SUPERIORITY||Posterior Mean Difference|0.16|||||TWO_SIDED|95.0|-0.14|0.46|||||Posterior mean difference with 95% credible interval is reported.|||0.46|-0.14|
82659428|NCT04627038|165036390|SUPERIORITY||Posterior Mean Difference|-0.82|||||TWO_SIDED|95.0|-166.74|165.52|||||Posterior mean difference with 95% credible interval is reported.|||165.52|-166.74|
82659429|NCT04627038|165036391|SUPERIORITY||Posterior Mean Difference|-0.02|||||TWO_SIDED|95.0|-0.09|0.06|||||Posterior mean difference with 95% credible interval is reported.|||0.06|-0.09|
82615936|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.73|||||TWO_SIDED|95.0|0.33|1.59|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 4||1.59|0.33|
82659430|NCT01513174|165036431|SUPERIORITY||Hazard Ratio (HR)|1.38||||0.124|TWO_SIDED|95.0|1.0|1.92|||Log Rank||||The initial hypothesis estimated that the median PFS for the gefitinib group would be 10 months, while the median PFS for the gefitinib/olaparib group would be 16 months, which implied a hazard ratio (HR) of 1.6.|1.92|1.00|0.124
82659431|NCT01513174|165036432|SUPERIORITY||Hazard Ratio (HR)|1.22||||0.3455|TWO_SIDED|95.0|0.806|1.845|||Log Rank|||||1.845|0.806|0.3455
82659432|NCT02757105|165036443|SUPERIORITY|||||||0.036|||||||Chi-squared, Corrected|||||||0.036
82659433|NCT02757105|165036444|SUPERIORITY|||||||0.41|||||||Chi-squared, Corrected|||||||0.410
82659434|NCT02757105|165036445|SUPERIORITY|||||||0.081|||||||Chi-squared, Corrected|||||||0.081
82659435|NCT02757105|165036446|SUPERIORITY|||||||0.042|||||||Chi-squared, Corrected|||||||0.042
82659436|NCT02757105|165036447|SUPERIORITY|||||||0.009|||||||Chi-squared, Corrected|||||||0.009
82659437|NCT02757105|165036448|SUPERIORITY|||||||0.919|||||||Chi-squared, Corrected|||||||0.919
82659438|NCT02757105|165036449|SUPERIORITY||Mean Difference (Final Values)|11.5||||0.278|TWO_SIDED|95.0|-7.7|30.6|||Chi-squared, Corrected|||||30.6|-7.7|0.278
82659439|NCT02757105|165036450|SUPERIORITY||Mean Difference (Final Values)|14.5||||0.135|TWO_SIDED|95.0|-3.4|32.5|||Chi-squared, Corrected|||||32.5|-3.4|0.135
82659440|NCT01975948|165036465|OTHER|||||||0.047||||||Adjusted for baseline depressive symptoms and unemployment as covariates (p=.016), and non-completers (missing one or more points of follow up data).|Mixed Models Analysis|||One hundred evaluable patients per arm were needed to achieve 80% power to detect a PHQ-9 between-group difference in mean change of 2 points, significance level (α) .05, a two-sided test, and a standard deviation of 5 points. An intra cluster correlation of 0.05 for patient outcomes was used (Murphey et al), and an average cluster size: 3 patients/practice resulted in compensatory increase to 110 patients per arm. Under the assumption that attrition would be 33 % we needed 166 patients per arm.||||.047
82615937|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.8|||||TWO_SIDED|95.0|0.52|1.25|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 5||1.25|0.52|
82615938|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.93|||||TWO_SIDED|95.0|0.57|1.52|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6A||1.52|0.57|
82615939|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.53|||||TWO_SIDED|95.0|0.95|2.47|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6B||2.47|0.95|
82615940|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.74|||||TWO_SIDED|95.0|0.41|1.34|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 7F||1.34|0.41|
82615941|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.73|||||TWO_SIDED|95.0|0.34|1.57|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 9V||1.57|0.34|
82659441|NCT01975948|165036466|OTHER|||||||0.15|||||||Mixed Models Analysis|||Our calculations indicated that 50 physicians in each of the two groups will provide \>80% power to detect clinically significant reductions in stigma as assessed by OMS-HC change scores. Clinically meaningful was defined as a change of 3 points, derived on the basis of this being slightly better than what is usually seen in brief interventions.||||0.15
82615942|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.44|||||TWO_SIDED|95.0|0.16|1.18|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 14||1.18|0.16|
82615943|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.59|||||TWO_SIDED|95.0|0.25|1.4|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 18C||1.40|0.25|
82615944|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|0.79|||||TWO_SIDED|95.0|0.5|1.23|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19A||1.23|0.50|
82615945|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.14|||||TWO_SIDED|95.0|0.6|2.18|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19F||2.18|0.60|
82615946|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|1.08|||||TWO_SIDED|95.0|0.68|1.72|||||GMR=(GMC of VT+ Subgroup)/(GMC of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 23F||1.72|0.68|
82615947|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|10.3|||||TWO_SIDED|95.0|2.44|43.49|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 1||43.49|2.44|
82615948|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|6.17|||||TWO_SIDED|95.0|2.07|18.42|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 3||18.42|2.07|
82615949|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|18.7|||||TWO_SIDED|95.0|4.35|80.37|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 4||80.37|4.35|
82615950|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.5|||||TWO_SIDED|95.0|1.14|5.52|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 5||5.52|1.14|
82615951|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.24|||||TWO_SIDED|95.0|2.33|11.8|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6A||11.80|2.33|
82615952|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|3.77|||||TWO_SIDED|95.0|1.47|9.65|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6B||9.65|1.47|
82615953|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.94|||||TWO_SIDED|95.0|1.65|21.36|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 7F||21.36|1.65|
82615954|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.44|||||TWO_SIDED|95.0|1.17|16.87|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 9V||16.87|1.17|
82659442|NCT01975948|165036466|OTHER||Cohen'd|0.45||||0.03|TWO_SIDED|||||OMS-HC analysis adjusted for practice size: P value applies to between group physicians reduction in one stigma domaine: preference for social distance|Mixed Models Analysis|||Between Group Changes in subscale of the Opening Minds Scale for Health Care Providers (OMS-HC) measures three different dimensions of stigma: attitudes towards people with a mental illness (6 items); health care professionals' attitudes about disclosure of a mental illness/willingness to seek help for a mental illness (4 items), and preference for social distance (5 items). Items are rated on a 5-point scale. Mean scores can range from one to five with lower scores indicating less stigma.||||.03
82659443|NCT01975948|165036467|OTHER|||||||0.993|||||||Mixed Models Analysis|||||||.993
82659444|NCT01975948|165036468|OTHER||Cohen'd|1.48|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
82659445|NCT01975948|165036468|OTHER|||||||0.03|||||||Generalized estimating equations (GEE)|We used the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.||Correlation between increases in Physician Comfort and Confidence in managing mental illness and Stigma Score.||||.03
82659446|NCT01975948|165036469|OTHER||Cohen'd|1.44|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
82659447|NCT01975948|165036469|SUPERIORITY|||||||0.476||||||We used the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.|Generalized estimating equations (GEE)|||Correlation between increases in Physician Comfort and Confidence with non-program specific tools and Stigma Score.||||.476
82659448|NCT01975948|165036470|SUPERIORITY||Cohen'd|3.25|||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<.001
82659449|NCT01975948|165036470|SUPERIORITY|||||||0.945||||||We used the Spearman's correlation coefficient using the slope of a regression line fit using generalized estimating equations (GEE) with an exchangeable correlation structure.|Generalized estimating equations (GEE)|||Correlation between increases in Physician Comfort and Confidence with program specific tools and Stigma Score.||||.945
82659450|NCT01975948|165036471|OTHER|||||||0.742|||||||Mixed Models Analysis|||||||.742
82659451|NCT01975948|165036472|OTHER|||||||0.543|||||||Mixed Models Analysis|||||||.543
82659452|NCT01975948|165036473|OTHER|||||||0.009|||||||Mixed Models Analysis|||||||.009
82659453|NCT01975948|165036474|OTHER|||||||0.213|||||||Mixed Models Analysis|||||||.213
82659454|NCT00982397|165036475|SUPERIORITY_OR_OTHER||percentage of participants|98.5|||||TWO_SIDED|95.0|97.9|99.0|||||Therapy rates were analyzed using competing risks survival analysis methods, accounting for death as a competing risk.Therapy incidence rates were estimated using cumulative incidence functions and reported with 95% confidence interval.|The study was designed to include at least 1,131 patients with DR/CRT-D ICD devices in order to estimate the inappropriate shock free rate at 1 year post-implant with 1% precision.||99.0|97.9|
82659455|NCT00982397|165036475|SUPERIORITY_OR_OTHER||percentage of participants|97.5|||||TWO_SIDED|95.0|96.1|98.5|||||Therapy rates were analyzed using competing risks survival analysis methods, accounting for death as a competing risk.Therapy incidence rates were estimated using cumulative incidence functions and reported with 95% confidence interval.|This study was designed to include at least 610 patients with VR-ICD devices in order to estimate the inappropriate shock free rate at 1 year post-implant with a precision of 2%.||98.5|96.1|
82659456|NCT00982397|165036476|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is for comparison against a performance criterion of 10%.|Exact Binomial|||Using the one-sided one proportion Exact Test in PASS sample size software, a sample size of 76 subjects with 1-month follow-up was calculated to be required for the evaluation of this objective. To ensure adequate testing of the Protecta XT CRT-D device, the 76 subjects must have included at least 34 CRT-D subjects. Assuming an attrition rate of 10%, a sample size of 85 subjects enrolled was calculated to be required.||||<0.0001
82659457|NCT00982397|165036477|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value is for comparison of the observed proportion of successes against a protocol-specified performance criterion of 95%.|Confidence interval and hypothesis test|||P, the expected proportion of successes under the null hypothesis, was 95%. α, the Type I error rate, is 0.025. Power is 90%. Pa, the assumed true proportion of successes, is 99%. Based on the above assumptions, at least 173 subjects with a useable time to VF detection testing were required for this objective. Assuming a 5% rate for the potential non-adherence to the testing protocol, the required enrollment sample size was 183.||||<0.0001
82659458|NCT00982397|165036478|NON_INFERIORITY_OR_EQUIVALENCE|Ho: p1 ≤ p2 - 0.05 Ha: p1 \> p2 - 0.05 Where p1 was the syncopal event free rate at one year post implant by programming VF NID 30/40 and p2 for NID = 18/24. If the null-hypothesis was rejected it was concluded that NID = 30/40 did not decrease the syncope free rate by more than 5% compared to NID = 18/24 and hence was non-inferior.|Risk Difference (RD)|0.0||||0.0013|TWO_SIDED|90.0|-2.7|2.7||P-Value is for non-inferiority|Farrington-Manning||The 90% Confidence Interval is for the difference (p1-p2), where p1=syncope free rate 30/40 arm and p2=syncope free rate 18/24 arm. Estimated value and confidence interval reflect percentages.|The expected syncopal event free rate was 0.984 in both programming groups. alpha, Type I error was 0.05. Power, 1-beta, was 80%. Non-inferiority margin 5% Based on the above assumptions and Farrington-Manning test, a total of 230 subjects was required. By further assuming 15% attrition rate and 5 % of crossover rate, a total of 300 subjects were needed.||2.7|-2.7|0.0013
82659459|NCT00836056|165036485|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|97.75||||||90.0|91.5|104.42|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.42|91.50|
82659460|NCT00836056|165036486|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|96.77||||||90.0|91.4|102.46|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.46|91.40|
82659461|NCT00836056|165036487|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|95.96||||||90.0|90.77|101.46|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.46|90.77|
82659462|NCT03616106|165036498|OTHER||Slope|-15.103||||0.859|TWO_SIDED|95.0|-184.574|154.369||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||154.369|-184.574|0.859
82615955|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|90.8|||||TWO_SIDED|95.0|16.67|494.56|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 14||494.56|16.67|
82615956|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.83|||||TWO_SIDED|95.0|3.79|83.78|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 18C||83.78|3.79|
82615957|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|8.11|||||TWO_SIDED|95.0|3.6|18.3|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19A||18.30|3.60|
82615958|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|15.29|||||TWO_SIDED|95.0|4.64|50.35|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19F||50.35|4.64|
82615959|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.19|||||TWO_SIDED|95.0|1.72|10.25|||||GMR=(GMC of 13vPnC VT+ Subgroup)/(GMC of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 23F||10.25|1.72|
82615960|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|13.93|||||TWO_SIDED|95.0|9.14|21.23|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 1||21.23|9.14|
82615961|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|5.86|||||TWO_SIDED|95.0|4.17|8.24|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 3||8.24|4.17|
82615962|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|19.97|||||TWO_SIDED|95.0|12.8|31.15|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 4||31.15|12.80|
82615963|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|2.46|||||TWO_SIDED|95.0|1.87|3.24|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 5||3.24|1.87|
82615964|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|7.12|||||TWO_SIDED|95.0|5.05|10.03|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6A||10.03|5.05|
82615965|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|7.78|||||TWO_SIDED|95.0|5.54|10.92|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6B||10.92|5.54|
82615966|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|10.4|||||TWO_SIDED|95.0|7.4|14.61|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 7F||14.61|7.40|
82615967|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.07|||||TWO_SIDED|95.0|3.04|5.47|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 9V||5.47|3.04|
82659463|NCT03616106|165036499|OTHER||Slope|28.243||||0.213|TWO_SIDED|95.0|-16.694|73.179||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||73.179|-16.694|0.213
82615968|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|60.32|||||TWO_SIDED|95.0|37.25|97.67|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 14||97.67|37.25|
82615969|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|17.35|||||TWO_SIDED|95.0|11.37|26.47|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 18C||26.47|11.37|
82615970|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|4.11|||||TWO_SIDED|95.0|3.0|5.62|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19A||5.62|3.00|
82615971|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.68|||||TWO_SIDED|95.0|6.65|14.08|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19F||14.08|6.65|
82615972|NCT05372575|164948207|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMC of 13vPnC Cohort to the GMC of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (IgG) using Student's t distribution.|GMR|9.7|||||TWO_SIDED|95.0|6.9|13.64|||||GMR=(GMC of 13vPnC VT- or Sp- Subgroup)/(GMC of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 23F||13.64|6.90|
82615973|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.49|||||TWO_SIDED|95.0|0.06|3.91|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 1||3.91|0.06|
82615974|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.54|||||TWO_SIDED|95.0|0.1|2.92|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 3||2.92|0.10|
82615975|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.45|||||TWO_SIDED|95.0|0.1|2.07|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 4||2.07|0.10|
82615976|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.78|||||TWO_SIDED|95.0|0.27|11.75|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 5||11.75|0.27|
82615977|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.23|||||TWO_SIDED|95.0|0.03|1.65|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6A||1.65|0.03|
82615978|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.06|||||TWO_SIDED|95.0|0.01|0.44|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 6B||0.44|0.01|
82615979|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.21|||||TWO_SIDED|95.0|0.56|2.65|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 7F||2.65|0.56|
82615980|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.2|||||TWO_SIDED|95.0|0.03|1.26|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 9V||1.26|0.03|
82659464|NCT03616106|165036500|OTHER||Slope|58.993||||0.031|TWO_SIDED|95.0|5.713|112.274||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||112.274|5.713|0.031
82659465|NCT03616106|165036501|OTHER||Slope|-0.0651||||0.053|TWO_SIDED|95.0|-1.313|0.01||The p-value was not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||Viral load variables were log transformed for regression analyses.||0.010|-1.313|0.053
82615981|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.36|||||TWO_SIDED|95.0|0.08|1.55|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 14||1.55|0.08|
82615982|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.82|||||TWO_SIDED|95.0|0.15|4.47|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 18C||4.47|0.15|
82615983|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.35|||||TWO_SIDED|95.0|0.19|9.44|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19A||9.44|0.19|
82615984|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.87|||||TWO_SIDED|95.0|0.67|22.42|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 19F||22.42|0.67|
82615985|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.27|||||TWO_SIDED|95.0|0.05|1.52|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in 13vPnC Cohort for Serotype: 23F||1.52|0.05|
82615986|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.76|||||TWO_SIDED|95.0|0.19|3.07|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 1||3.07|0.19|
82615987|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.02|||||TWO_SIDED|95.0|0.42|2.46|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 3||2.46|0.42|
82615988|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.44|||||TWO_SIDED|95.0|0.05|3.73|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 4||3.73|0.05|
82615989|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.63|||||TWO_SIDED|95.0|0.15|2.73|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 5||2.73|0.15|
82615990|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.88|||||TWO_SIDED|95.0|0.11|6.99|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6A||6.99|0.11|
82615991|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.9|||||TWO_SIDED|95.0|0.29|12.51|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 6B||12.51|0.29|
82615992|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.45|||||TWO_SIDED|95.0|0.34|17.43|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 7F||17.43|0.34|
82659466|NCT03616106|165036502|OTHER||Slope|-1.601||||0.008|TWO_SIDED|95.0|-2.761|-0.442||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||-0.442|-2.761|0.008
82659467|NCT03616106|165036503|OTHER||Slope|-2.674||||0|TWO_SIDED|95.0|-3.934|-1.415||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||-1.415|-3.934|0.000
82659468|NCT03616106|165036517|OTHER||Slope|2.172||||0|TWO_SIDED|95.0|1.448|2.895||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||2.895|1.448|0.000
82659469|NCT03616106|165036518|OTHER||Slope|2.872||||0|TWO_SIDED|95.0|2.1|3.643||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||3.643|2.100|0.000
82659470|NCT03616106|165036519|OTHER||Slope|3.166||||0|TWO_SIDED|95.0|2.487|3.846||This p-value is not adjusted for multiple comparisons and the a priori threshold for statistical significance was 0.05.|Regression, Linear|||||3.846|2.487|0.000
82615993|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.43|||||TWO_SIDED|95.0|0.27|7.7|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 9V||7.70|0.27|
82615994|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.3|||||TWO_SIDED|95.0|0.3|17.41|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 14||17.41|0.30|
82615995|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.65|||||TWO_SIDED|95.0|0.14|2.97|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 18C||2.97|0.14|
82615996|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.51|||||TWO_SIDED|95.0|0.28|8.21|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19A||8.21|0.28|
82615997|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.63|||||TWO_SIDED|95.0|0.13|2.97|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 19F||2.97|0.13|
82615998|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|1.23|||||TWO_SIDED|95.0|0.15|10.24|||||GMR=(GMT of VT+ Subgroup)/(GMT of VT- or Sp- Subgroup)|GMR of VT+ Subgroup/VT- or Sp- Subgroup in non-13vPnC Cohort for Serotype: 23F||10.24|0.15|
82659471|NCT03616106|165036520|OTHER||Z Score|3.25||||0.0011|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.0011
82615999|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.15|||||TWO_SIDED|95.0|0.41|23.91|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 1||23.91|0.41|
82616000|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|5.02|||||TWO_SIDED|95.0|1.45|17.39|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 3||17.39|1.45|
82659472|NCT03616106|165036521|OTHER||Z score|3.94||||0.0001|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.0001
82659473|NCT03616106|165036522|OTHER||Z score|4.12||||0|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the threshold for statistical significance was p≤0.05/3 = .017. Please see statistical analysis plan for further details.|Wilcoxon signed rank|||||||0.000
82616001|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|13.7|||||TWO_SIDED|95.0|1.32|141.81|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 4||141.81|1.32|
82616002|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|48.41|||||TWO_SIDED|95.0|6.16|380.54|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 5||380.54|6.16|
82616003|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.47|||||TWO_SIDED|95.0|0.48|229.1|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6A||229.10|0.48|
82616004|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|0.68|||||TWO_SIDED|95.0|0.02|19.83|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 6B||19.83|0.02|
82659474|NCT03616106|165036523|OTHER||Slope|1.935||||0|TWO_SIDED|95.0|1.055|2.815||This p-value was not adjusted for multiple comparisons. The p-value threshold for statistical significance was, therefore, 0.05|Regression, Linear|||||2.815|1.055|0.000
82616005|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.53|||||TWO_SIDED|95.0|1.98|55.96|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 7F||55.96|1.98|
82616006|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|3.32|||||TWO_SIDED|95.0|0.19|56.82|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 9V||56.82|0.19|
82616007|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|2.0|||||TWO_SIDED|95.0|0.06|63.12|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 14||63.12|0.06|
82616008|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|16.31|||||TWO_SIDED|95.0|2.15|123.48|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 18C||123.48|2.15|
82616009|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|24.16|||||TWO_SIDED|95.0|1.59|367.81|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19A||367.81|1.59|
82659475|NCT03616106|165036524|OTHER||Slope|2.123||||0|TWO_SIDED|95.0|1.184|3.062||The p-value was not adjusted for multiple comparison, therefore, the threshold for statistical significance was 0.05.|Regression, Linear|||||3.062|1.184|0.000
82616010|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|95.06|||||TWO_SIDED|95.0|13.08|691.01|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 19F||691.01|13.08|
82616011|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|10.49|||||TWO_SIDED|95.0|0.64|171.84|||||GMR=(GMT of 13vPnC VT+ Subgroup)/(GMT of non-13vPnC VT+ Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT+ Subgroups for Serotype: 23F||171.84|0.64|
82616012|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|4.86|||||TWO_SIDED|95.0|2.15|10.96|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 1||10.96|2.15|
82616013|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|9.57|||||TWO_SIDED|95.0|4.5|20.36|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 3||20.36|4.50|
82616014|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|13.4|||||TWO_SIDED|95.0|5.2|34.51|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 4||34.51|5.20|
82616015|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|17.15|||||TWO_SIDED|95.0|7.76|37.91|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 5||37.91|7.76|
82659476|NCT03616106|165036525|OTHER||Slope|2.552||||0|TWO_SIDED|95.0|1.612|3.492||The p-value was not adjusted for multiple comparison, therefore, the threshold for statistical significance was 0.05.|Regression, Linear|||||3.492|1.612|0.000
82659477|NCT03616106|165036526|OTHER||Z score|-1.57||||0.1167|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.1167
82492715|NCT00345839|164678236|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94|||||TWO_SIDED|95.0|0.85|1.04|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.04|0.85|
82659478|NCT03616106|165036527|OTHER||Z score|-2.91||||0.0036|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.0036
82659479|NCT03616106|165036528|OTHER||Z score|-3.54||||0.0004|TWO_SIDED|||||The p-value was adjusted for multiple comparisons using the Bonferroni correction. Therefore, the a priori threshold for statistical significance was p≤0.05/3 = .017. For more details please see the statistical plan.|Wilcoxon signed rank|||||||0.0004
82659480|NCT02298322|165036540|OTHER||sucess proportion|91.4|||<|0.0001|TWO_SIDED|95.0|86.2|95.1|||t-test, 1 sided|||||95.1|86.2|<0.0001
82616016|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|40.2|||||TWO_SIDED|95.0|15.16|106.65|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6A||106.65|15.16|
82616017|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|20.38|||||TWO_SIDED|95.0|8.39|49.51|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 6B||49.51|8.39|
82616018|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|21.22|||||TWO_SIDED|95.0|8.65|52.07|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 7F||52.07|8.65|
82616019|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|23.73|||||TWO_SIDED|95.0|10.39|54.19|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 9V||54.19|10.39|
82616020|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.84|||||TWO_SIDED|95.0|5.46|30.22|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 14||30.22|5.46|
82616021|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|12.88|||||TWO_SIDED|95.0|5.95|27.88|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 18C||27.88|5.95|
82659481|NCT00440297|165036543|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|48.5||||||95.0|38.4|58.7|||||Exact binomial confidence interval.|No hypothesis is being tested. The purpose of the primary analysis is to estimate the seroprotection rate (percentage of subjects with anti-HBs \>=10mIU/mL) in each group at 1 month after the third dose among subjects who were seronegative at baseline||58.7|38.4|
82659482|NCT00440297|165036543|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|57.7||||||95.0|47.9|67.0|||||Exact binomial confidence interval.|||67.0|47.9|
82659483|NCT00440297|165036544|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|66.7||||||95.0|56.5|75.8|||||Exact binomial confidence interval|||75.8|56.5|
82659484|NCT00440297|165036544|SUPERIORITY_OR_OTHER||Percentage of Seroprotected Participants|69.2||||||95.0|59.4|77.9|||||Exact binomial confidence interval|||77.9|59.4|
82659485|NCT02024932|165036554|SUPERIORITY_OR_OTHER_LEGACY||Geo-mean ratio|1.037||||0.0164|TWO_SIDED|90.0|1.009|1.065|||ANCOVA|||||1.065|1.009|0.0164
82659486|NCT03020641|165036591|OTHER|t-test|Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.2347||0.058|TWO_SIDED|95.0||0.1276||the threshold for statistical significance was p\<=0.05.|t-test, 2 sided|||Interleukin 1 (IL1)||0.1276|- 0.8077|0.058
82659487|NCT03020641|165036591|OTHER|Interleukin 6 (IL6)|Mean Difference (Final Values)|-1.02|STANDARD_ERROR_OF_MEAN|0.29||0.001|TWO_SIDED|95.0|-1.6|-0.44|||t-test, 2 sided|||||-0.44|-1.60|0.001
82659488|NCT03020641|165036591|OTHER||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.211||0.052|TWO_SIDED|95.0|-0.76|0.81|||t-test, 2 sided|||Interleukin 10||0.81|-0.76|0.052
82659489|NCT03020641|165036591|OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.181||0.815|TWO_SIDED|95.0|-0.5|0.22|||t-test, 2 sided|||Vascular Endotelial Grow Factor A||0.22|-0.50|0.815
82659490|NCT03020641|165036591|OTHER||Mean Difference (Final Values)|-0.03|STANDARD_ERROR_OF_MEAN|0.19||0.742|TWO_SIDED|95.0|-0.42|0.36|||t-test, 2 sided|||TNF alfa||0.36|-0.42|0.742
82616022|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|26.99|||||TWO_SIDED|95.0|11.46|63.58|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19A||63.58|11.46|
82616023|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|15.53|||||TWO_SIDED|95.0|7.02|34.38|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 19F||34.38|7.02|
82616024|NCT05372575|164948208|SUPERIORITY|The 2-sided 95% CI on the GMRs (the GMT of 13vPnC Cohort to the GMT of Non-13vPnC Cohort) for all 13 serotypes are provided and those 95% CIs were constructed by back transformation of the CIs for the mean difference of the measures on the logarithmically transformed scale (MOPA) using Student's t distribution.|GMR|48.73|||||TWO_SIDED|95.0|18.67|127.16|||||GMR=(GMT of 13vPnC VT- or Sp- Subgroup)/(GMT of non-13vPnC VT- or Sp- Subgroup)|GMR of 13vPnC Cohort/non-13vPnC Cohort in VT- or Sp- Subgroups for Serotype: 23F||127.16|18.67|
82616025|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|1.8|||||TWO_SIDED|90.0|-0.4|4.1||||||1 hour postdose||4.1|-0.4|
82616026|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|2.7|||||TWO_SIDED|90.0|0.4|4.9||||||1.5 hours postdose||4.9|0.4|
82616027|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|2.1|||||TWO_SIDED|90.0|-0.1|4.4||||||2 hours postdose||4.4|-0.1|
82616028|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-0.5|||||TWO_SIDED|90.0|-2.8|1.7||||||3 hours postdose||1.7|-2.8|
82616029|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-4.1|||||TWO_SIDED|90.0|-6.3|-1.8||||||4 hours postdose||-1.8|-6.3|
82616030|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-3.5|||||TWO_SIDED|90.0|-5.7|-1.2||||||6 hours postdose||-1.2|-5.7|
82616031|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-4.9|||||TWO_SIDED|90.0|-7.1|-2.6||||||12 hours postdose||-2.6|-7.1|
82616032|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-0.9|||||TWO_SIDED|90.0|-3.1|1.4||||||24 hours postdose||1.4|-3.1|
82616033|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|0.9|||||TWO_SIDED|90.0|-1.4|3.1||||||1 hour postdose||3.1|-1.4|
82616034|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|2.0|||||TWO_SIDED|90.0|-0.2|4.2||||||1.5 hours postdose||4.2|-0.2|
82616035|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|0.9|||||TWO_SIDED|90.0|-1.4|3.1||||||2 hours postdose||3.1|-1.4|
82659491|NCT03020641|165036591|OTHER||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.2||0.603|TWO_SIDED|95.0|-0.36|0.44|||t-test, 2 sided|||Chemokine CXC ligand 2||0.44|-0.36|0.603
82616036|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-1.6|||||TWO_SIDED|90.0|-3.8|0.7||||||3 hours postdose||0.7|-3.8|
82616037|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-3.7|||||TWO_SIDED|90.0|-5.9|-1.5||||||4 hours postdose||-1.5|-5.9|
82616038|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-2.3|||||TWO_SIDED|90.0|-4.6|-0.1||||||6 hours postdose||-0.1|-4.6|
82659492|NCT03020641|165036592|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.28||0.6|TWO_SIDED|95.0|-0.47|0.65|||t-test, 2 sided|||Matrix metalloproteinase-9||0.65|-0.47|0.600
82659493|NCT03020641|165036592|OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.24||0.028|TWO_SIDED|95.0|0.03|0.97|||t-test, 2 sided|||Plasminogen activator inhibitor-1||0.97|0.030|0.028
82659494|NCT03020641|165036592|OTHER||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.36||0.807|TWO_SIDED|95.0|-0.64|0.82|||t-test, 2 sided|||E-selectin||0.82|-0.64|0.807
82616039|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-5.1|||||TWO_SIDED|90.0|-7.3|-2.8||||||12 hours postdose||-2.8|-7.3|
82616040|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|-0.2|||||TWO_SIDED|90.0|-2.4|2.1||||||24 hours postdose||2.1|-2.4|
82616041|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|10.8|||||TWO_SIDED|98.0|7.6|14.0||||||1 hour postdose||14.0|7.6|
82616042|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|10.2|||||TWO_SIDED|98.0|7.0|13.4||||||1.5 hours postdose||13.4|7.0|
82616043|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|11.2|||||TWO_SIDED|98.0|8.0|14.4||||||2 hours postdose||14.4|8.0|
82616044|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|11.5|||||TWO_SIDED|98.0|8.3|14.7||||||3 hours postdose||14.7|8.3|
82616045|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|9.7|||||TWO_SIDED|98.0|6.5|12.8||||||4 hours postdose||12.8|6.5|
82616046|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|10.4|||||TWO_SIDED|98.0|7.2|13.5||||||6 hours postdose||13.5|7.2|
82616047|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|7.3|||||TWO_SIDED|98.0|4.1|10.4||||||12 hours postdose||10.4|4.1|
82616048|NCT03510663|164948239|SUPERIORITY||Least Squares Mean Difference|7.0|||||TWO_SIDED|98.0|3.8|10.2||||||24 hours postdose||10.2|3.8|
82616049|NCT04370028|164948257|SUPERIORITY||Mean Difference (Net)|4.57|||<|1e-05|TWO_SIDED|95.0|4.42|4.72|||t-test, 2 sided|Paired test was performed||||4.72|4.42|<0.00001
82616050|NCT04370028|164948258|SUPERIORITY||Odds Ratio (OR)|7.2|||<|1e-05|TWO_SIDED|95.0|6.01|8.67|||Fisher Exact||OR estimated (week 1 to week 12) the higher the better|Odds ratio of occuring MoCA score \<26 was assessed||8.67|6.01|<0.00001
82616051|NCT04370028|164948259|SUPERIORITY||Odds Ratio (OR)|5.31|||<|1e-05|TWO_SIDED|95.0|4.28|6.64|||Fisher Exact||OR estimated (week 1 to week 12) the higher the better|Odds ratio of occuring MoCA score \<17 was assessed||6.64|4.28|<0.00001
82616052|NCT04370028|164948260|SUPERIORITY||Mean Difference (Net)|2.375|||<|0.07|TWO_SIDED|95.0|-0.21|4.96|||ANOVA|||Change of mean MoCA score||4.96|-0.21|<0.07
82616053|NCT04370028|164948260|SUPERIORITY||Mean Difference (Net)|4.74|||<|0.01|TWO_SIDED|95.0|4.17|5.31|||ANOVA|||Change of mean MoCA score||5.31|4.17|<0.01
82616054|NCT04370028|164948260|SUPERIORITY||Mean Difference (Net)|4.55|||<|0.01|TWO_SIDED|95.0|4.16|4.94|||ANOVA|||Change of mean MoCA score||4.94|4.16|<0.01
82616055|NCT04370028|164948260|SUPERIORITY||Mean Difference (Net)|4.49|||<|0.01|TWO_SIDED|95.0|3.7|5.27|||ANOVA|||Change of mean MoCA score||5.27|3.7|<0.01
82616056|NCT04370028|164948262|SUPERIORITY||Mean Difference (Net)|0.803|STANDARD_ERROR_OF_MEAN|0.246||0.0011|TWO_SIDED|95.0|0.321|1.28|||ANOVA|||||1.28|0.321|0.0011
82616057|NCT04743635|164948268|OTHER|"Performance goal.~Hypothesis:~Ho: D \< 1 Ha: D ≥ 1, where D = reduction in the CSS score from baseline to 3 months, and 1 is the performance goal. If the lower bound of the two-sided 95% confidence interval is greater than or equal to 1 then we will reject the null hypothesis and conclude the device performs effectively."|Mean Difference (Final Values)|1.5|STANDARD_DEVIATION|0.9||0.0001|TWO_SIDED|95.0|1.28|1.71|||t-test, 2 sided|The 2-sided 95% confidence interval for the mean reduction in CSS was calculated along with the corresponding p-value (Student's t-test).||The endpoint tested the mean of the changes for each treated participant, not a 1-point change between mean score of the group at baseline versus 3 months. Success is achieved when the mean change across all treated participants is at least one point.||1.71|1.28|.0001
82616058|NCT04743635|164948269|OTHER|Performance goal. The hierarchal endpoint is met if the lower bound of the 2-sided 95% confidence interval is greater than or equal to 0.6.|Percentage improved|95.6||||0.0001|TWO_SIDED|95.0|87.6|99.1|||t-test, 2 sided|||"The GAIS scale counted if at least two of the three evaluators selected it, otherwise the median between the three was counted (e.g., if improved, worse and much worse, worse was counted). A participant is considered improved if the GAIS assessment is improved (1), much improved (2) or very much improved (3)."||99.1|87.6|.0001
82616059|NCT04743635|164948272|OTHER|Performance goal. In order to meet the endpoint, the lower bound of the 2-sided 95% confidence interval had to be greater than or equal to 0.6.|Percentage improved|72.1||||0.0264|TWO_SIDED|95.0|59.9|82.3|||t-test, 2 sided|||||82.3|59.9|.0264
82616060|NCT01954121|164948274|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin for the adjusted difference in seizure free proportion in the LEV minus the seizure free proportion in the CBZ-IR group was set to absolute -20% points.|adjusted difference in proportions|-22.9|||||TWO_SIDED|95.0|-33.1|-12.6||||||The adjusted absolute difference in treatment group seizure-free proportions (referenced as 'Adjusted difference in proportions' in 'Method of Estimation' below) was derived from the adjusted treatment group proportions of seizure-free subjects. The adjusted proportions were derived from a logistic regression model of seizure freedom using treatment and the categories for the number of seizures in the 3-month period prior to Visit 1 (≤2 seizures and \>2 seizures) as covariates.||-12.6|-33.1|
82616061|NCT02915367|164948307|OTHER|Pearson chi-square||||||0.93|||||||Chi-squared|||||||0.93
82616062|NCT02915367|164948309|OTHER|Pearson chi-square||||||0.96|||||||Chi-squared|||||||0.96
82616063|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.0||||0.9946|TWO_SIDED|95.0|0.83|1.2|||Regression, Cox|Cox regression of time to first vascular AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/ Placebo\].|Time to first vascular AE (SAF-M1)||1.20|0.83|0.9946
82616064|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.95||||0.7474|TWO_SIDED|95.0|0.72|1.27|||Regression, Cox|Cox regression of time to first vascular AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo. \[Treatment/Placebo\].|Time to first vascular AE (SAF-M2)||1.27|0.72|0.7474
82659495|NCT03020641|165036594|OTHER||Mean Difference (Final Values)|-1.37|STANDARD_ERROR_OF_MEAN|4.44||0.862|TWO_SIDED|95.0|-7.49|10.21|||t-test, 2 sided|||||10.21|-7.49|0.862
82616065|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.03||||0.7943|TWO_SIDED|95.0|0.81|1.31|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with a term for treatment.|Comparison vs. Placebo \[Treatment / Placebo\]|Time to first vascular AE (Trial NCT01131676, all empagliflozin (10 and 25 mg vs. Placebo))||1.31|0.81|0.7943
82616066|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.97||||0.8518|TWO_SIDED|95.0|0.69|1.36|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs. Placebo \[Treatment / Placebo\].|Time to first vascular AE (Trial NCT03057951)||1.36|0.69|0.8518
82616067|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.93||||0.766|TWO_SIDED|95.0|0.56|1.53|||Regression, Cox|Cox regression for time to first vascular AE on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first vascular AE (Trial NCT03057977)||1.53|0.56|0.7660
82616068|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.15||||0.3612|TWO_SIDED|95.0|0.85|1.55|||Regression, Cox|Cox regression of time to first diabetic foot related AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\].|Time to first diabetic foot related AE (SAF-M1)||1.55|0.85|0.3612
82616069|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.44||||0.161|TWO_SIDED|95.0|0.86|2.4|||Regression, Cox|Cox regression of time to first diabetic foot related AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first diabetic foot related AE (SAF-M2)||2.40|0.86|0.1610
82616070|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.02||||0.9128|TWO_SIDED|95.0|0.71|1.47|||Regression, Cox|Cox regression for time to first diabetic foot related AE on treatment. Cox regression model with a term for treatment.|Comparison vs. Placebo \[Treatment/Placebo\]|Time to first diabetic foot related AE (Trial NCT01131676, all empagliflozin (10 and 25 mg) vs. Placebo)||1.47|0.71|0.9128
82492716|NCT00345839|164678237|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.800
82616071|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.81||||0.5276|TWO_SIDED|95.0|0.43|1.54|||Regression, Cox|Cox regression for time to first diabetic foot related AE. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs. Placebo \[Treatment/Placebo\]|Time to first diabetic foot related AE (Trial NCT03057951)||1.54|0.43|0.5276
82616072|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|4.72||||0.0048|TWO_SIDED|95.0|1.6|13.87|||Regression, Cox|Cox regression for time to first diabetic foot related AE. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment / Placebo\]|Time to first diabetic foot related AE (Trial NCT03057977)||13.87|1.60|0.0048
82616073|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.89||||0.1526|TWO_SIDED|95.0|0.77|1.04|||Regression, Cox|Cox regression of time to first infections potentially related to LLA's. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first infections potentially related to LLA's (SAF-M1)||1.04|0.77|0.1526
82616074|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.96||||0.743|TWO_SIDED|95.0|0.76|1.21|||Regression, Cox|Cox regression of time to first infection potentially related to LLA's. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first infection potentially related to LLA's (SAF-M2)||1.21|0.76|0.7430
82659496|NCT05472038|165036617|SUPERIORITY|Superiority based on GMR was declared if the lower limit of the 2-sided 95% CI for the GMR was greater than 1.|Model-Based GMR|2.91|||||TWO_SIDED|95.0|2.45|3.44||||||||3.44|2.45|
82492717|NCT00345839|164678237|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.19|0.79|
82659497|NCT05472038|165036618|NON_INFERIORITY|Noninferiority based on seroresponse was declared if the lower limit of the 2-sided 95% CI for the difference in percentages of participants with seroresponse is \>-5%.|Adjusted Difference in Percentages|26.77|||||TWO_SIDED|95.0|19.59|33.95|||||Adjusted difference and 2-Sided CI based on the Miettinen and Nurminen method stratified by baseline NT category (\< median,\>= median) for difference in proportions. The median of baseline NT was calculated based on pooled data in 2 comparator groups.|||33.95|19.59|
82659498|NCT05472038|165036619|NON_INFERIORITY|Noninferiority based on the GMR was declared if the lower limit of the 2-sided 95% CI for the GMR is greater than 0.67 (1.5-fold criterion) and the point estimate of the GMR was \>=0.8.|Model-Based GMR|0.98|||||TWO_SIDED|95.0|0.83|1.16|||||GMR and 2-sided 95% CIs were calculated by exponentiating the difference of LS means and corresponding CIs based on the regression model included terms for baseline neutralizing titer and comparison group.|||1.16|0.83|
82659499|NCT05472038|165036620|NON_INFERIORITY|Noninferiority based on seroresponse was declared if the lower limit of the 2-sided 95% CI for the difference in percentages of participants with seroresponse is \>-10%.|Adjusted Difference in Percentages|-3.03|||||TWO_SIDED|95.0|-9.68|3.63|||||2-Sided CI based on Miettinen and Nurminen method stratified by baseline NT category(\< median,\>= median)for difference in percentage(seroresponse rate).Median of baseline neutralizing titers was calculated based on pooled data in 2 comparator groups.|||3.63|-9.68|
82659500|NCT05472038|165036625|NON_INFERIORITY|Noninferiority based on the GMR was declared if the lower limit of the 2-sided 95% CI for the GMR is greater than 0.67 (1.5-fold criterion) and the point estimate of the GMR was \>=0.8.|Model-Based GMR|1.38|||||TWO_SIDED|95.0|1.22|1.56|||||GMR and 2-sided 95% CIs were calculated by exponentiating the difference of LS means and corresponding CIs based on the regression model included terms for baseline neutralizing titer and comparison group.|||1.56|1.22|
82659501|NCT03235739|165036640|SUPERIORITY|multiple imputation for longitudinal data was conducted to impute the missing data for the primary outcome. The final results were obtained from pooling results from 10 imputed complete case data set.|geometric mean ratio|0.9||||0.84|TWO_SIDED|95.0|0.32|2.55|||Mixed Models Analysis|||||2.55|0.32|0.84
82659502|NCT03235739|165036640|SUPERIORITY|A sensitivity analysis using complete case analysis|geometric mean ratio|0.82||||0.73|TWO_SIDED|95.0|0.26|2.56|||Mixed Models Analysis|||||2.56|0.26|0.73
82659503|NCT03235739|165036641|SUPERIORITY||geometric mean ratio|1.02||||0.91|TWO_SIDED|98.3|0.63|1.67|||Mixed Models Analysis|||||1.67|0.63|0.91
82659504|NCT03235739|165036642|SUPERIORITY||Risk Ratio (RR)|2.58||||0.012|TWO_SIDED|98.3|0.98|6.8|||Chi-squared|||||6.80|0.98|0.012
82659505|NCT03235739|165036643|SUPERIORITY||median of differences|-5.0||||0.08|TWO_SIDED|98.3|-12.0|2.0|||Wilcoxon (Mann-Whitney)|||||2|-12|0.08
82659506|NCT02847650|165036644|OTHER||Least Squares Mean Difference|-4.8|STANDARD_ERROR_OF_MEAN|2.26||0.0407|TWO_SIDED|90.0|-8.6|-1.0|||Mixed Models Analysis|||||-1.0|-8.6|0.0407
82659507|NCT02869867|165036681|SUPERIORITY||Mean Difference (Final Values)|3.2|||<|0.001|TWO_SIDED|95.0|2.09|4.31|||Mixed Models Analysis|||||4.31|2.09|<0.001
82659508|NCT00461786|165036689|SUPERIORITY_OR_OTHER||Overall Response Rate|21.0||||||95.0|10.5|35.0||||||Overall Response Rate is the total percentage of participants with either a complete response or a partial response (CR+PR)/48 X 100.||35.0|10.5|
82659509|NCT00835991|165036700|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|114.05||||||90.0|107.26|121.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||121.27|107.26|
82659510|NCT00835991|165036701|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.63||||||90.0|97.59|103.76|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.76|97.59|
82659511|NCT00835991|165036702|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.36||||||90.0|98.32|104.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.48|98.32|
82659512|NCT00835991|165036703|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.05||||||90.0|94.31|104.02|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.02|94.31|
82659513|NCT00835991|165036704|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05|Test/Ref Ratio of LS Means x 100|96.55||||||90.0|93.85|99.32|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.32|93.85|
82659514|NCT00835991|165036705|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.44||||||90.0|93.71|99.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.25|93.71|
82659515|NCT00272779|165036712|SUPERIORITY_OR_OTHER||Difference Estimate|1.7|||||TWO_SIDED|95.0|-3.8|7.1||Assuming 70% response rate (70% of participants remain on treatment for 48 wks and HIV RNA \<50 copies/mL) on both regimens, sample size of 882 randomized participants (441/regimen) provided 90% power to demonstrate ATV/RTV is non-inferior to LPV/RTV|Cochran-Mantel-Haenszel|The ATV/RTV regimen was deemed to be non-inferior to the lopinavir/ritonavir regimen if the lower CI for the difference in proportions \> -10%.||Treatment regimens compared by calculation of the difference in proportions (atazanavir/ritonavir- lopinavir/ritonavir) and 95% CI based on stratified normal approximation.Analyses were stratified by the same strata as randomization-HIV RNA level at enrollment and geographic region.The proportion of participants with HIV RNA below 50 copies/mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size:Cochran-Mantel-Haenszel weighting||7.1|-3.8|
82492718|NCT00345839|164678238|SUPERIORITY_OR_OTHER_LEGACY|||||||0.283||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.283
82659516|NCT00272779|165036713|SUPERIORITY_OR_OTHER||Difference Estimate|3.3|||||TWO_SIDED|95.0|-1.5|8.1|||Cochran-Mantel-Haenszel|||Treatment regimens were compared by calculation of the difference in proportions (ATV/RTV-LPV/RTV) and 95% CI based on a stratified normal approximation. Analyses were stratified by the same strata as randomization-ie, HIV RNA level at enrollment and geographic region. The proportion of participants with HIV RNA below 400 copies per mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size (Cochran-Mantel-Haenszel weighting).||8.1|-1.5|
82616075|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.85||||0.1049|TWO_SIDED|95.0|0.69|1.04|||Regression, Cox|Cox regression for infections potentially related to LLA-on treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs. Placebo)||1.04|0.69|0.1049
82616076|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.89||||0.395|TWO_SIDED|95.0|0.67|1.17|||Regression, Cox|Cox regression for infections potentially related to LLA on treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT03057951)||1.17|0.67|0.3950
82616077|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.19||||0.4429|TWO_SIDED|95.0|0.76|1.87|||Regression, Cox|Cox regression for infections potentially related to LLA on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first infections potentially related to LLA (Trial NCT03057977)||1.87|0.76|0.4429
82616078|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.89||||0.3396|TWO_SIDED|95.0|0.7|1.13|||Regression, Cox|Cox regression of time to first wound infections. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first wound/infection (SAF-M1)||1.13|0.70|0.3396
82616079|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.7||||0.105|TWO_SIDED|95.0|0.46|1.08|||Regression, Cox|Cox regression of time to first wound infections. Cox regression with terms for study, baseline diabetes status and treatment|Comparison versus Placebo \[Treatment/Placebo\].|Time to first wound/infection (SAF-M2)||1.08|0.46|0.1050
82616080|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.0||||0.9919|TWO_SIDED|95.0|0.74|1.35|||Regression, Cox|Cox regression for time to first wound/infection on-treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||1.35|0.74|0.9919
82616081|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.79||||0.3634|TWO_SIDED|95.0|0.48|1.31|||Regression, Cox|Cox regression for time to first wound/infection on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT03057951)||1.31|0.48|0.3634
82659517|NCT00272779|165036716|SUPERIORITY_OR_OTHER||Difference Estimate|-16.4|||||TWO_SIDED|95.0|-35.9|3.1|||95% CI comparison of difference|||Mean changes in CD4 cell counts from baseline at week 48 were compared between treatment regimens with 95% CIs based on stratified normal approximations and observed values.||3.1|-35.9|
82616082|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.52||||0.1177|TWO_SIDED|95.0|0.23|1.18|||Regression, Cox|Cox regression for time to first wound/infection on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first wound/infection (Trial NCT03057977)||1.18|0.23|0.1177
82616083|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.0||||0.9992|TWO_SIDED|95.0|0.84|1.19|||Regression, Cox|Cox regression of time to first nervous system disorder. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first nervous system disorder (SAF-M1)||1.19|0.84|0.9992
82616084|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.09||||0.6274|TWO_SIDED|95.0|0.78|1.52|||Regression, Cox|Cox regression of time to first nervous system disorder. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first nervous system disorder (SAF-M2)||1.52|0.78|0.6274
82616085|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|0.97||||0.7597|TWO_SIDED|95.0|0.79|1.19|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first nervous system disorder (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||1.19|0.79|0.7597
82616086|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.08||||0.7067|TWO_SIDED|95.0|0.74|1.57|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first nervous system disorder (Trial NCT03057951)||1.57|0.74|0.7067
82616087|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.12||||0.7404|TWO_SIDED|95.0|0.56|2.25|||Regression, Cox|Cox regression for time to first nervous system disorder on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|time to first nervous system disorder (Trial NCT03057977)||2.25|0.56|0.7404
82616088|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.21||||0.1765|TWO_SIDED|95.0|0.92|1.58|||Regression, Cox|Cox regression of time to first volume depletion AE. Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first volume depletion AE (SAF-M1)||1.58|0.92|0.1765
82616089|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.22||||0.1978|TWO_SIDED|95.0|0.9|1.66|||Regression, Cox|Cox regression of time to first volume depletion AE. Cox regression with terms for study, baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment/Placebo\].|Time to first volume depletion AE (SAF-M2)||1.66|0.90|0.1978
82659518|NCT00272779|165036738|SUPERIORITY_OR_OTHER||Difference Estimate|6.1|||||TWO_SIDED|95.0|0.3|12.0||Assuming 70% response rate (70% of participants remain on treatment for 96 wks and HIV RNA \<50 copies/mL) on both regimens, sample size of 882 randomized participants (441/regimen) provided 90% power to demonstrate ATV/RTV is non-inferior to LPV/RTV|Cochran-Mantel-Haenszel|The ATV/RTV regimen was deemed to be non-inferior to the lopinavir/ritonavir regimen if the lower CI for the difference in proportions \> -10%.||Treatment regimens compared by calculation of the difference in proportions (atazanavir/ritonavir- lopinavir/ritonavir) and 95% CI based on stratified normal approximation.Analyses were stratified by the same strata as randomization-HIV RNA level at enrollment and geographic region.The proportion of participants with HIV RNA below 50 copies/mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size:Cochran-Mantel-Haenszel weighting||12.0|0.3|
82659519|NCT00272779|165036739|SUPERIORITY_OR_OTHER||Difference Estimate|5.1|||||TWO_SIDED|95.0|-0.4|10.6|||Cochran-Mantel-Haenszel|||Treatment regimens were compared by calculation of the difference in proportions (ATV/RTV-LPV/RTV) and 95% CI based on a stratified normal approximation. Analyses were stratified by the same strata as randomization-ie, HIV RNA level at enrollment and geographic region. The proportion of participants with HIV RNA below 400 copies per mL was computed within each stratum, and combined by use of a weighted average with weights proportional to stratum size (Cochran-Mantel-Haenszel weighting).||10.6|-0.4|
82659520|NCT00272779|165036741|SUPERIORITY_OR_OTHER||Difference Estimate|-21.2|||||TWO_SIDED|95.0|-43.3|0.9|||95% CI comparison of difference|||Mean changes in CD4 cell counts from baseline at week 48 were compared between treatment regimens with 95% CIs based on stratified normal approximations and observed values.||0.9|-43.3|
82659521|NCT00272779|165036757|SUPERIORITY_OR_OTHER||point estimate|0.761|||||TWO_SIDED|90.0|0.507|1.142|||ANOVA||Point estimates and 90% confidence intervals (CIs) for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.142|0.507|
82659522|NCT00272779|165036758|SUPERIORITY_OR_OTHER||point estimate|1.46|||||TWO_SIDED|90.0|1.005|2.121|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||2.121|1.005|
82659523|NCT00272779|165036759|SUPERIORITY_OR_OTHER||point estimate|0.839|||||TWO_SIDED|90.0|0.612|1.151|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.151|0.612|
82659524|NCT00272779|165036760|SUPERIORITY_OR_OTHER||point estimate|0.282|||||TWO_SIDED|90.0|0.181|0.439|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||0.439|0.181|
82659525|NCT00272779|165036761|SUPERIORITY_OR_OTHER||point estimate|0.925|||||TWO_SIDED|90.0|0.699|1.223|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.223|0.699|
82659526|NCT00272779|165036762|SUPERIORITY_OR_OTHER||point estimate|0.853|||||TWO_SIDED|90.0|0.626|1.161|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.161|0.626|
82659527|NCT00272779|165036763|SUPERIORITY_OR_OTHER||point estimate|0.89|||||TWO_SIDED|90.0|0.689|1.151|||ANOVA||Point estimates and 90% CIs for differences between treatment regimens were calculated on the log scale, and were exponentiated to obtain estimates for ratios of geometric means on the original scale.|||1.151|0.689|
82659528|NCT00272779|165036787|SUPERIORITY_OR_OTHER|||||||0.0847||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting non-HDL cholesterol (phenotype) and the RETN\_097 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.0847
82659529|NCT00272779|165036788|SUPERIORITY_OR_OTHER|||||||0.0058||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_097 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.0058
82659530|NCT00272779|165036789|SUPERIORITY_OR_OTHER|||||||0.0058||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_2265 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_2265 reported in Outcome Measure 16.||||0.0058
82659531|NCT00272779|165036790|SUPERIORITY_OR_OTHER|||||||0.0253||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_598 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_598 reported in Outcome Measure 16.||||0.0253
82659532|NCT00272779|165036791|SUPERIORITY_OR_OTHER|||||||0.1173||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the APOE\_C130R genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with APOE\_C130R reported in Outcome Measure 16.||||0.1173
82659533|NCT00272779|165036792|SUPERIORITY_OR_OTHER|||||||0.1173||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting triglycerides (phenotype) and the RETN\_734 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_734 reported in Outcome Measure 16.||||0.1173
82659534|NCT00272779|165036793|SUPERIORITY_OR_OTHER|||||||0.1847||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting PAI-1 (phenotype) and the APOE\_R176C genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with APOE\_R176C reported in Outcome Measure 16.||||0.1847
82616090|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.14||||0.6561|TWO_SIDED|95.0|0.64|2.05|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with a term for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT01131676, all Empagliflozin (10 mg and 25 mg) vs Placebo)||2.05|0.64|0.6561
82616091|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.29||||0.1699|TWO_SIDED|95.0|0.9|1.87|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT03057951)||1.87|0.90|0.1699
82616092|NCT04937816|164948317|OTHER||Hazard Ratio (HR)|1.08||||0.7944|TWO_SIDED|95.0|0.62|1.87|||Regression, Cox|Cox regression for time to first volume depletion on-treatment. Cox regression model with terms for baseline diabetes status and treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Time to first volume depletion (Trial NCT03057977)||1.87|0.62|0.7944
82616093|NCT04937816|164948318|OTHER||Hazard Ratio (HR)|1.02||||0.9276|TWO_SIDED|95.0|0.73|1.42|||Regression, Cox|Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\].|||1.42|0.73|0.9276
82616094|NCT04937816|164948318|OTHER||Hazard Ratio (HR)|0.85||||0.6205|TWO_SIDED|95.0|0.45|1.6|||Regression, Cox|Cox regression model with terms for study, baseline diabetes status and treatment.|Comparison versus placebo \[Treatment/Placebo\]|||1.60|0.45|0.6205
82616095|NCT04937816|164948318|OTHER||Hazard Ratio (HR)|1.09||||0.6768|TWO_SIDED|95.0|0.73|1.63|||Regression, Cox|Cox regression model with terms for treatment.|Comparison vs Placebo \[Treatment/Placebo\]|Empagliflozin (10 mg + 25 mg) versus Placebo.||1.63|0.73|0.6768
82616096|NCT04937816|164948318|OTHER||Hazard Ratio (HR)|0.73||||0.4294|TWO_SIDED|95.0|0.34|1.59|||Regression, Cox|Cox regression model with terms for baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment /Placebo\]|||1.59|0.34|0.4294
82616097|NCT04937816|164948318|OTHER||Hazard Ratio (HR)|1.17||||0.7826|TWO_SIDED|95.0|0.39|3.47|||Regression, Cox|Cox regression model with terms for baseline diabetes status and treatment.|Comparison versus Placebo \[Treatment /Placebo\]|||3.47|0.39|0.7826
82616098|NCT01064648|164948320|OTHER||Hazard Ratio (HR)|0.71||||0.06|TWO_SIDED|80.0|0.54|0.95||1-sided p-value|Log Rank|Stratified log rank test by performance status and histology type.||||0.95|0.54|0.06
82616099|NCT01064648|164948321|OTHER||Hazard Ratio (HR)|0.88||||0.28|TWO_SIDED|80.0|0.65|1.17||1-sided p-value|Log Rank|Stratified log-rank test by performance status and histology.||||1.17|0.65|0.28
82616100|NCT01064648|164948322|OTHER||Odds Ratio (OR)|1.85||||0.15|TWO_SIDED|95.0|0.59|5.83||1-sided p-value|Chi-squared|Stratified Chi-square by performance status and histology.||||5.83|0.59|0.15
82616101|NCT01064648|164948323|OTHER||Odds Ratio (OR)|0.45||||0.09|TWO_SIDED|95.0|0.14|1.49||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology||||1.49|0.14|0.09
82616102|NCT01064648|164948324|OTHER||Odds Ratio (OR)|4.3||||0.006|TWO_SIDED|95.0|1.4|13.3||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology.||||13.3|1.4|0.006
82616103|NCT01064648|164948325|OTHER||Odds Ratio (OR)|0.59||||0.19|TWO_SIDED|95.0|0.18|1.94||1-sided p-value|Chi-squared|Stratified Chi-Square by performance status and histology||||1.94|0.18|0.19
82616104|NCT05513391|164948328|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) of the GMT ratio was greater than (\>) 0.667 for each virus strain.|GMT Ratio|1.28|||||TWO_SIDED|95.0|0.948|1.73||||||Statistical analysis for A/H1N1||1.73|0.948|
82616105|NCT05513391|164948328|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|2.53|||||TWO_SIDED|95.0|1.93|3.3||||||Statistical analysis for A/H3N2||3.30|1.93|
82616106|NCT05513391|164948328|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|0.515|||||TWO_SIDED|95.0|0.397|0.668||||||Statistical analysis for B/Victoria||0.668|0.397|
82616107|NCT05513391|164948328|NON_INFERIORITY|Non inferiority for GMTs was demonstrated if the lower limit of the 2-sided 95% CI of the GMT ratio was \> 0.667 for each virus strain.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.799|1.3||||||Statistical analysis for B/Yamagata||1.30|0.799|
82616108|NCT05513391|164948329|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|7.1|||||TWO_SIDED|95.0|-1.55|15.7||||||Statistical analysis for A/H1N1||15.7|-1.55|
82616109|NCT05513391|164948329|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|15.4|||||TWO_SIDED|95.0|5.8|24.7||||||Statistical analysis for A/H3N2||24.7|5.80|
82616110|NCT05513391|164948329|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|-6.91|||||TWO_SIDED|95.0|-14.02|0.1||||||Statistical analysis for B/Victoria||0.10|-14.02|
82616111|NCT05513391|164948329|NON_INFERIORITY|Non-inferiority for SC was demonstrated if the lower limit of the 2-sided 95% CI was \> -10% for the 4 strains.|Difference in percentage of participants|5.81|||||TWO_SIDED|95.0|-1.99|13.6||||||Statistical analysis for B/Yamagata||13.6|-1.99|
82616112|NCT05513053|164948343|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% confidence interval (CI) of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.98|||||TWO_SIDED|95.0|1.73|2.27||||||Statistical analysis for A/H1N1||2.27|1.73|
82659535|NCT00272779|165036794|SUPERIORITY_OR_OTHER|||||||0.1833||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis:There is no association between the mean change from baseline in fasting Tumor Necrosis Factor(TNF)-alpha (phenotype) and the IL6\_5309 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, wk48 and 96) to test the overall genotype effect (ie. an omnibus test on both marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with IL6\_5309 reported in Outcome Measure 16||||0.1833
82616113|NCT05513053|164948343|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|3.27|||||TWO_SIDED|95.0|2.76|3.87||||||Statistical analysis for A/H3N2||3.87|2.76|
82616114|NCT05513053|164948343|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.57|||||TWO_SIDED|95.0|1.35|1.82||||||Statistical analysis for B/Victoria||1.82|1.35|
82616115|NCT05513053|164948343|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the two-sided 95% CI of the ratio of GMTs between groups (9 to 17 years/18 to 49 years) was \> 0.667 for each strain.|GMT Ratio|1.22|||||TWO_SIDED|95.0|1.09|1.37||||||Statistical analysis for B/Yamagata||1.37|1.09|
82616116|NCT05513053|164948344|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|1.92|||||TWO_SIDED|95.0|-2.78|6.62||||||Statistical analysis for A/H1N1||6.62|-2.78|
82616117|NCT05513053|164948344|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|-0.59|||||TWO_SIDED|95.0|-4.41|3.23||||||Statistical analysis for A/H3N2||3.23|-4.41|
82616118|NCT05513053|164948344|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|3.29|||||TWO_SIDED|95.0|-1.57|8.14||||||Statistical analysis for B/Victoria||8.14|-1.57|
82616119|NCT05513053|164948344|NON_INFERIORITY|Non-inferiority for seroconversion rates was demonstrated if the lower limit of the 2-sided 95% CI was \>-10% for the 4 strains.|Percent Difference|14.3|||||TWO_SIDED|95.0|9.17|19.3||||||Statistical analysis for B/Yamagata||19.3|9.17|
82616120|NCT04710862|164948353|SUPERIORITY||||||<|0.0005|||||||Mixed Models Analysis|||||||<0.0005
82616121|NCT04710862|164948354|SUPERIORITY||||||<|0.0005|||||||Mixed Models Analysis|||||||<0.0005
82616122|NCT04710862|164948355|SUPERIORITY|||||||0.012|||||||Mixed Models Analysis|||||||0.012
82616123|NCT04710862|164948356|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82616124|NCT04710862|164948357|SUPERIORITY|||||||0.004|||||||Mixed Models Analysis|||||||0.004
82616125|NCT04710862|164948358|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82616126|NCT04710862|164948359|SUPERIORITY|||||||0.328|||||||Mixed Models Analysis|||||||0.328
82616127|NCT01520324|164948360|OTHER|The data documented in this trial and the parameters measured were described using classic statistics, i.e. mean, SD, CV(%), median, minimum and maximum values for quantitative variables and frequencies for qualitative variables.||||||||||||||||The number of detected neoplasiae for each patient was listed and summarised by descriptive statistics. Number and percentage of patients with intraepithelial neoplasiae was presented|The data documented in this trial and the parameters measured were described using classic statistics, i.e. mean, SD, CV(%), median, minimum and maximum values for quantitative variables and frequencies for qualitative variables.|||
82616128|NCT01328249|164948368|OTHER|Fisher's Exact test||||||0.4422||||||Null hypothesis: The feasibility rates of Cohort 1 and Cohort 2 are same.|Fisher Exact|Exploratory analysis comparing primary feasibilities between 2 cohorts, based on Fisher's Exact test.||||||0.4422
82616129|NCT00948818|164948370|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.6||||0.0004|TWO_SIDED|95.0|1.51|4.47||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week APC 3 + 1 Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||4.47|1.51|0.0004
82616130|NCT00948818|164948372|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.65|||<|0.0001|TWO_SIDED|95.0|2.26|5.88||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week CSBM 3 + 1 Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||5.88|2.26|<0.0001
82616131|NCT00948818|164948373|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0262|TWO_SIDED|95.0|1.04|1.91||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 9/12 Week Abdominal Pain Responders.~The power, adjusted for multiplicity, was expected to be 93% based on NCT00460811 (MCP-103-202) study data."||1.91|1.04|0.0262
82659536|NCT00272779|165036795|SUPERIORITY_OR_OTHER|||||||0.1833||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in fasting TNF-alpha (phenotype) and the RS11030679 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_097 reported in Outcome Measure 16.||||0.1833
82659537|NCT00272779|165036796|SUPERIORITY_OR_OTHER|||||||0.1694||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in SAT-to-TAT Ratio (phenotype) and the CCDC122\_5980 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with CCDC122\_5980 reported in Outcome Measure 16.||||0.1694
82616132|NCT00948818|164948374|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93|||<|0.0001|TWO_SIDED|95.0|1.4|2.66||The p-value is still less than 0.05 after adjusting multiplicity using a serial gatekeeping multiple comparison procedure.|Cochran-Mantel-Haenszel|||"Null Hypothesis: There is no difference between the 290 μg dose and placebo groups in the proportion of 6/12 Week APC + 1 Responders.~The power, adjusted for multiplicity, was expected to be 86% based on NCT00460811 (MCP-103-202) study data."||2.66|1.40|<0.0001
82616133|NCT02330549|164948384|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-0.2286|STANDARD_ERROR_OF_MEAN|0.195||0.2483|TWO_SIDED|95.0|-0.62|0.17||An analysis of covariance (ANCOVA) model that included treatment and presence or absence of nonalcoholic steatohepatitis (NASH) as factors, and the baseline value of Matsuda index as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 12||0.17|-0.62|0.2483
82616134|NCT02330549|164948384|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-0.4113|STANDARD_ERROR_OF_MEAN|0.205||0.053|TWO_SIDED|95.0|-0.83|0.01||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of Matsuda index as a covariate was used for analysis.|ANCOVA|||Change form Baseline to Week 24||0.01|-0.83|0.053
82616135|NCT02330549|164948385|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|-1.505|STANDARD_ERROR_OF_MEAN|2.369||0.5297|TWO_SIDED|95.0|-6.33|3.32||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of ADIPO-IR as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 12||3.32|-6.33|0.5297
82616136|NCT02330549|164948385|OTHER|This was a proof of concept study, and is not powered for statistical detection of differences between groups, no adjustments for multiplicity was made, or no-imputation for missing data.|LS Mean Difference|3.2146|STANDARD_ERROR_OF_MEAN|2.757||0.2522|TWO_SIDED|95.0|-2.4|8.83||An ANCOVA model that included treatment and presence or absence of NASH as factors, and the baseline value of ADIPO-IR as a covariate was used for analysis.|ANCOVA|||Change from Baseline to Week 24||8.83|-2.4|0.2522
82616137|NCT01156597|164948447|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|The percent change of HDL and triglycerides from baseline between groups was evaluated by ANOVA using baseline, 12 week and 24 week values||||||0.05
82616138|NCT02364947|164948450|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.34|STANDARD_ERROR_OF_MEAN|0.87||0.0001|TWO_SIDED|95.0|-6.05|-2.62||Efficacy of the doses (change from baseline in the number of HDDs vs placebo) was assessed using a closed testing procedure. The 20 mg dose was tested at a 5% level of significance and only if significant, the testing would proceed to the 10 mg dose.|Mixed Models Analysis|||||-2.62|-6.05|0.0001
82616139|NCT02364947|164948450|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.18|STANDARD_ERROR_OF_MEAN|0.95||0.0001|TWO_SIDED|95.0|-6.05|-2.32||Efficacy of the doses (change from baseline in the number of HDDs vs placebo) was assessed using a closed testing procedure. The 20 mg dose was tested at a 5% level of significance and only if significant, the testing would proceed to the 10 mg dose.|Mixed Models Analysis|||||-2.32|-6.05|0.0001
82616140|NCT02364947|164948451|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-3.92|STANDARD_ERROR_OF_MEAN|0.9|<|0.0001|TWO_SIDED|95.0|-5.69|-2.16|||Mixed Models Analysis|||||-2.16|-5.69|<0.0001
82616141|NCT02364947|164948451|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-4.54|STANDARD_ERROR_OF_MEAN|0.98|<|0.0001|TWO_SIDED|95.0|-6.46|-2.63|||Mixed Models Analysis|||||-2.63|-6.46|<0.0001
82616142|NCT02364947|164948452|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-12.47|STANDARD_ERROR_OF_MEAN|2.72|<|0.0001|TWO_SIDED|95.0|-17.81|-7.13|||Mixed Models Analysis|||Change in total alcohol consumption (TAC) from baseline at Week 12||-7.13|-17.81|<0.0001
82616143|NCT02364947|164948452|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-12.94|STANDARD_ERROR_OF_MEAN|2.95|<|0.0001|TWO_SIDED|95.0|-18.72|-7.15|||Mixed Models Analysis|||||-7.15|-18.72|<0.0001
82616144|NCT02364947|164948453|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-11.15|STANDARD_ERROR_OF_MEAN|2.86||0.0001|TWO_SIDED|95.0|-16.77|-5.53|||Mixed Models Analysis|||||-5.53|-16.77|0.0001
82616145|NCT02364947|164948453|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-11.27|STANDARD_ERROR_OF_MEAN|3.11||0.0003|TWO_SIDED|95.0|-17.37|-5.17|||Mixed Models Analysis|||||-5.17|-17.37|0.0003
82616146|NCT02364947|164948454|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|22.0|||<|0.0001|TWO_SIDED|95.0|13.6|30.4|||Cochran-Mantel-Haenszel|||||30.4|13.6|<0.0001
82616147|NCT02364947|164948454|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|15.7||||0.0007|TWO_SIDED|95.0|6.5|25.0|||Cochran-Mantel-Haenszel|||||25.0|6.5|0.0007
82616148|NCT02364947|164948455|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|18.0||||0.0002|TWO_SIDED|95.0|8.8|27.2|||Cochran-Mantel-Haenszel|||||27.2|8.8|0.0002
82616149|NCT02364947|164948455|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|20.6||||0.0001|TWO_SIDED|95.0|10.4|30.8|||Cochran-Mantel-Haenszel|||||30.8|10.4|0.0001
82616150|NCT02364947|164948456|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|17.8|||<|0.0001|TWO_SIDED|95.0|10.5|25.1|||Cochran-Mantel-Haenszel|||||25.1|10.5|<0.0001
82616151|NCT02364947|164948456|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|14.3||||0.0002|TWO_SIDED|95.0|6.4|22.2|||Cochran-Mantel-Haenszel|||||22.2|6.4|0.0002
82616152|NCT02364947|164948457|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|11.0||||0.0079|TWO_SIDED|95.0|2.9|19.1|||Cochran-Mantel-Haenszel|||||19.1|2.9|0.0079
82616153|NCT02364947|164948457|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline DRL|Risk Difference (RD)|14.8||||0.001|TWO_SIDED|95.0|5.8|23.9|||Cochran-Mantel-Haenszel|||||23.9|5.8|0.0010
82616154|NCT02364947|164948458|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|9.9||||0.0022|TWO_SIDED|95.0|3.5|16.3|||Cochran-Mantel-Haenszel|||||16.3|3.5|0.0022
82616155|NCT02364947|164948458|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|11.1||||0.0016|TWO_SIDED|95.0|3.8|18.3|||Cochran-Mantel-Haenszel|||||18.3|3.8|0.0016
82616156|NCT02364947|164948459|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|13.6||||0.0003|TWO_SIDED|95.0|6.2|20.9|||Cochran-Mantel-Haenszel|||||20.9|6.2|0.0003
82616157|NCT02364947|164948459|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|12.8||||0.0013|TWO_SIDED|95.0|4.6|21.0|||Cochran-Mantel-Haenszel|||||21.0|4.6|0.0013
82616158|NCT02364947|164948460|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|15.2||||0.0002|TWO_SIDED|95.0|7.1|23.3|||Cochran-Mantel-Haenszel|||||23.3|7.1|0.0002
82616159|NCT02364947|164948460|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|17.9||||0.0001|TWO_SIDED|95.0|8.9|26.9|||Cochran-Mantel-Haenszel|||||26.9|8.9|0.0001
82616160|NCT02364947|164948461|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|8.0||||0.0724|TWO_SIDED|95.0|-0.7|16.7|||Cochran-Mantel-Haenszel|||||16.7|-0.7|0.0724
82616161|NCT02364947|164948461|SUPERIORITY_OR_OTHER_LEGACY|Cochran-Mantel-Haenszel test, stratified by sex and baseline value|Risk Difference (RD)|19.6||||0.0001|TWO_SIDED|95.0|9.9|29.2|||Cochran-Mantel-Haenszel|||||29.2|9.9|0.0001
82616162|NCT02364947|164948462|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.07||0.0002|TWO_SIDED|95.0|-0.4|-0.13|||Mixed Models Analysis|||||-0.13|-0.40|0.0002
82616163|NCT02364947|164948462|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.08||0.0001|TWO_SIDED|95.0|-0.45|-0.15|||Mixed Models Analysis|||||-0.15|-0.45|0.0001
82616164|NCT02364947|164948463|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.33|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.48|-0.18|||Mixed Models Analysis|||||-0.18|-0.48|<0.0001
82659538|NCT00272779|165036797|SUPERIORITY_OR_OTHER|||||||0.1335||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT (phenotype) and the BRUNOL\_1842 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, week 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with BRUNOL\_1842 reported in Outcome Measure 16.||||0.1335
82616165|NCT02364947|164948463|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|0.08|<|0.0001|TWO_SIDED|95.0|-0.51|-0.19|||Mixed Models Analysis|||||-0.19|-0.51|<0.0001
82616166|NCT02364947|164948464|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.69|-0.33|||Mixed Models Analysis|||||-0.33|-0.69|<0.0001
82616167|NCT02364947|164948464|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.47|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.67|-0.27|||Mixed Models Analysis|||||-0.27|-0.67|<0.0001
82616168|NCT02364947|164948465|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.51|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|TWO_SIDED|95.0|-0.7|-0.31|||Mixed Models Analysis|||||-0.31|-0.70|<0.0001
82659539|NCT00272779|165036798|SUPERIORITY_OR_OTHER|||||||0.1335||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT (phenotype) and the RETN\_730 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with RETN\_730 reported in Outcome Measure 16.||||0.1335
82616169|NCT02364947|164948465|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, baseline value, and baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used. Baseline CGI-S value was used as baseline value in MMRM.|Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.77|-0.33|||Mixed Models Analysis|||||-0.33|-0.77|<0.0001
82616170|NCT02364947|164948466|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.192|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|-0.262|-0.121|||Mixed Models Analysis|||||-0.121|-0.262|<0.0001
82616171|NCT02364947|164948466|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.156|STANDARD_ERROR_OF_MEAN|0.039||0.0001|TWO_SIDED|95.0|-0.232|-0.08|||Mixed Models Analysis|||||-0.080|-0.232|0.0001
82659540|NCT00272779|165036799|SUPERIORITY_OR_OTHER|||||||0.1696||95.0||||The explanatory variables in the model include treatment, genotype, time, and their interaction effects as fixed effects and the spatial exponential with respect to time from baseline was used to model the covariance structure of repeated measures.|linear mixed effect model|The FDR multiple testing adjustment was used to adjust p-values for the number of SNPs being tested (only SNPs with FDR-adj p-values \<0.2 reported)||Null Hypothesis: There is no association between the mean change from baseline in VAT-to-TAT Ratio (phenotype) and the CCDA122\_5980 genotypes. A single SNP association analysis was conducted using the linear mixed effect model for repeated measures (baseline, weeks 48 and 96) to test the overall genotype effect (i.e. an omnibus test on both the marginal genotype effect and the genotype-by-treatment interaction effect). Number of participants with CCDA122\_5980 reported in Outcome Measure 16.||||0.1696
82659541|NCT02718326|165036847|SUPERIORITY||percentage difference|52.3|||<|0.0001|TWO_SIDED|95.0|45.2|59.5|||Cochran-Mantel-Haenszel|||||59.5|45.2|<0.0001
82659542|NCT02718326|165036848|SUPERIORITY||percentage difference|50.1|||<|0.0001|TWO_SIDED|95.0|40.1|60.1|||Cochran-Mantel-Haenszel|||||60.1|40.1|<0.0001
82659543|NCT02718326|165036848|SUPERIORITY||percentage difference|64.8|||<|0.0001|TWO_SIDED|95.0|55.8|73.9|||Cochran-Mantel-Haenszel|||||73.9|55.8|< 0.0001
82659544|NCT02718326|165036849|SUPERIORITY||percentage difference|-17.3|||<|0.0001|TWO_SIDED|95.0|-24.7|-9.9|||Cochran-Mantel-Haenszel|||||-9.9|-24.7|<0.0001
82659545|NCT02718326|165036849|SUPERIORITY||percentage difference|-16.6|||<|0.0001|TWO_SIDED|95.0|-24.2|-9.1|||Cochran-Mantel-Haenszel|||||-9.1|-24.2|<0.0001
82659546|NCT02718326|165036850|SUPERIORITY||percentage difference|-17.3|||=|0.0002|TWO_SIDED|95.0|-26.2|-8.5|||Cochran-Mantel-Haenszel|||||-8.5|-26.2|= 0.0002
82659547|NCT02718326|165036850|SUPERIORITY||percentage difference|-18.9|||<|0.0001|TWO_SIDED|95.0|-27.5|-10.4|||Cochran-Mantel-Haenszel|||||-10.4|-27.5|<0.0001
82659548|NCT02718326|165036853|SUPERIORITY||percentage difference|-6.0||||0.0096|TWO_SIDED|95.0|-10.5|-1.5|||Cochran-Mantel-Haenszel|||||-1.5|-10.5|0.0096
82659549|NCT02718326|165036853|SUPERIORITY||percentage difference|-6.0||||0.0089|TWO_SIDED|95.0|-10.5|-1.6|||Cochran-Mantel-Haenszel|||||-1.6|-10.5|0.0089
82659550|NCT02718326|165036854|SUPERIORITY||Estimate for contrast|0.8||||0.0529|TWO_SIDED|95.0|-0.01|1.6|||ANOVA|||||1.60|-0.01|0.0529
82659551|NCT02718326|165036854|SUPERIORITY||Estimate for contrast|1.14||||0.0057|TWO_SIDED|95.0|0.33|1.94|||ANOVA|||||1.94|0.33|0.0057
82659552|NCT05025345|165036857|NON_INFERIORITY|Noninferiority margin equals -0.1|Mean Difference (Final Values)|-0.013|||||TWO_SIDED|90.0|-0.036|0.011||Success criteria was evaluated using lower confidence interval. No P-Value was calculated.||||||0.011|-0.036|
82659553|NCT05025345|165036858|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82659554|NCT00984022|165036868|SUPERIORITY_OR_OTHER|||||||0.0003||95.0|||||Fisher Exact|||The percentages achieving 30% or greater reduction in the surface area of the abscess were compared with Fisher's exact test.||||.0003
82659555|NCT00984022|165036869|SUPERIORITY_OR_OTHER|||||||0.043||95.0||||Main effect for type of dressing.|ANOVA|||Repeated measures ANOVA using 2 X 2 factorial design, with one between-subjects factor (Group) and one within-subjects factor (Time). Null hypothesis is: The type of dressing does not affect patient pain ratings.||||.043
82659556|NCT00984022|165036870|SUPERIORITY_OR_OTHER|||||||0.847||95.0|||||Fisher Exact|||Fisher's exact test was used to compare the percentage of individuals achieving a 30% or greater reduction in cellulitis surface area between the Iodoform and Aquacel groups.||||.847
82659557|NCT00573443|165036871|SUPERIORITY_OR_OTHER||Ratio of episode-rate reduction ratios|0.5312|||<|0.0001|TWO_SIDED|95.0|0.4939|0.5714|||Regression, Longitudinal neg. binomial|||Analysis of PBA episode rates used longitudinal negative binomial regression with treatment, period, diagnosis and study site to estimate pre-post changes in log mean episode rate for each treatment group. Null hypothesis of equal pre-post episode rate reductions were tested: AVP-923-30/placebo = 1.||0.5714|0.4939|<0.0001
82659558|NCT00573443|165036871|SUPERIORITY_OR_OTHER||Ratio of episode-rate reduction ratios|0.5103|||<|0.0001|TWO_SIDED|95.0|0.4755|0.5477|||Regression, Longitudinal neg. binomial|||Analysis of PBA episode rates used longitudinal negative binomial regression with treatment, period, diagnosis and study site to estimate pre-post changes in log mean episode rate for each treatment group. Null hypothesis of equal pre-post episode rate reductions were tested: AVP-923-20/placebo = 1.||0.5477|0.4755|<0.0001
82659559|NCT00418561|165036892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0737|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using analysis of variance (ANOVA) model including the baseline measurement as a covariate.||||0.0737
82659560|NCT00418561|165036893|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1115|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using ANOVA model including the baseline measurement as a covariate.||||0.1115
82659561|NCT00418561|165036895|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1268|TWO_SIDED|||||Test for no difference between cohorts.|ANOVA|||The comparisons of the three doses were done using ANOVA model including the baseline measurement as a covariate.||||0.1268
82492719|NCT00345839|164678238|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.58|1.18|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.18|0.58|
82659562|NCT00829309|165036915|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.45||||||90.0|80.08|121.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||121.03|80.08|
82659563|NCT00829309|165036916|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|90.98||||||90.0|85.23|97.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.12|85.23|
82659564|NCT00829309|165036917|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|96.3||||||90.0|85.34|108.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.66|85.34|
82659565|NCT01705574|165036918|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis was that the STB group was at least 12% worse than the ATV+RTV+TVD group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48 (response rate as defined by the snapshot analysis algorithm). The alternative hypothesis was that the STB group was less than 12% worse than the ATV+RTV+TVD group.|Difference in proportions|6.5|||||TWO_SIDED|95.2|0.4|12.6|||||Difference in percentages of virologic success and its 95.2% confidence interval (CI) were calculated based on baseline HIV-1 RNA and race stratum-adjusted Mantel-Haenszel (MH) proportion.|||12.6|0.4|
82659566|NCT01705574|165036918|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|6.5||||0.034|TWO_SIDED|95.2|0.4|12.6|||Cochran-Mantel-Haenszel|P-value comparing virologic success was from the CMH test stratified by baseline HIV-1 RNA and race strata.|Difference in percentages of virologic success and its 95.2% CI were calculated based on baseline HIV-1 RNA and race stratum-adjusted MH proportion. If the lower bound of the CI was \> 0, superiority of STB over ATV+RTV+TVD was established.|If noninferiority of STB versus ATV+RTV+TVD was established, the same 95.2% CI used in evaluating noninferiority was used to evaluate superiority. The baseline HIV-1 RNA and race stratum-stratified, 2-sided CMH test was also used to assess superiority as a secondary assessment.||12.6|0.4|0.034
82659567|NCT00777023|165036923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.61|STANDARD_ERROR_OF_MEAN|0.53||0.0024|TWO_SIDED|97.5|-2.8|-0.42||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 4||-0.42|-2.80|0.0024
82659568|NCT00777023|165036923|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.51|STANDARD_ERROR_OF_MEAN|0.52||0.004|TWO_SIDED|97.5|-2.69|-0.33||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 4||-0.33|-2.69|0.0040
82659569|NCT00777023|165036924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|0.51||0.0024|TWO_SIDED|97.5|-2.72|-0.41||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 12||-0.41|-2.72|0.0024
82659570|NCT00777023|165036924|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.51||0.0281|TWO_SIDED|97.5|-2.26|0.02||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily number of moderate or severe hot flashes at SDW 12||0.02|-2.26|0.0281
82659571|NCT00777023|165036925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.15|STANDARD_ERROR_OF_MEAN|0.08||0.0608|TWO_SIDED|97.5|-0.32|-0.03||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 4||-0.03|-0.32|0.0608
82659572|NCT00777023|165036925|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.08||0.0003|TWO_SIDED|97.5|-0.45|-0.11||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 4||-0.11|-0.45|0.0003
82659573|NCT00777023|165036926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21|STANDARD_ERROR_OF_MEAN|0.1||0.028|TWO_SIDED|97.5|-0.43|0.0||P value for pairwise test of difference of least square mean change from baseline between G-ER 1200 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 12||0.00|-0.43|0.0280
82659574|NCT00777023|165036926|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.1||0.0026|TWO_SIDED|97.5|-0.51|-0.07||P value for pairwise test of difference of least square mean change from baseline between G-ER 1800 mg and placebo groups based on F test of type III analysis.|ANCOVA|||Null hypothesis: no treatment differences relative to placebo in mean change from baseline in average daily severity score of moderate or severe hot flashes at SDW 12||-0.07|-0.51|0.0026
82659575|NCT02659150|165036929|SUPERIORITY||Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|0.24||0.26|TWO_SIDED||||||t-test, 2 sided|||Paired T-test comparing values obtained during the follow-up imaging (at 13-18 weeks)minus the baseline values||||0.26
82659576|NCT02659150|165036930|OTHER||Spearman Correlation Coefficient|0.76||||0.036|TWO_SIDED||||||Spearman|||correlation coefficient||||0.036
82659577|NCT02659150|165036931|SUPERIORITY||Mean Difference (Final Values)|-0.19|STANDARD_DEVIATION|0.32||0.14|TWO_SIDED||||||t-test, 2 sided|||The carotid artery plaque with highest FDG uptake is located using Positron Emission Tomography/ Magnetic Resonance Imaging images. Thereafter Paired T- Test is used to compare baseline vs follow-up values of FDG uptake (before vs after 12 weeks of tocilizumab treatment). FDG uptake is assessed as a Target to background values (TBR) , which is calculated as the mean arterial standardized uptake value (SUV) divided by background blood pool SUV.||||0.14
82659578|NCT02659150|165036932|SUPERIORITY||correlation coefficient|-0.66||||0.076|TWO_SIDED||||||Spearman's Method|||||||0.076
82659579|NCT02659150|165036933|SUPERIORITY||Correlation coefficient|0.67||||0.07|TWO_SIDED||||||Spearman's Method|||||||0.07
82659580|NCT01860521|165036984|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||||||< 0.001
82659581|NCT01860521|165036985|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.005
82659582|NCT01860521|165036986|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.047
82659583|NCT01860521|165036987|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.047
82659584|NCT00635492|165036998|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16|||<|0.0001|TWO_SIDED|95.0|1.13|1.19|||Regression, Logistic|||Body Mass Index (BMI) - 1kg/m² higher||1.19|1.13|<0.0001
82659585|NCT00635492|165036999|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.69|0.86|||Regression, Logistic|||Most recent HbA1c at baseline - 1% higher.||0.86|0.69|<0.0001
82659586|NCT00635492|165037000|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.96|||<|0.0001|TWO_SIDED|95.0|0.95|0.97|||Regression, Logistic|||Age - 1 year older||0.97|0.95|<0.0001
82659587|NCT00635492|165037001|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.0083|TWO_SIDED|95.0|1.01|1.1|||Regression, Logistic|||Diabetes Health Profile - 18 (DHP-18) subscale disinhibited eating - Yes vs. No||1.10|1.01|0.0083
82659588|NCT00635492|165037002|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.94||||0.0141|TWO_SIDED|95.0|0.9|0.99|||Regression, Logistic|||Random blood glucose - 1 mmol/L higher||0.99|0.90|0.0141
82659589|NCT00635492|165037003|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.0107|TWO_SIDED|95.0|0.96|0.99|||Regression, Logistic|||Blood glucose self-monitoring - 1 test/week more||0.99|0.96|0.0107
82659590|NCT00635492|165037004|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67||||0.0193|TWO_SIDED|95.0|1.13|2.46|||Regression, Logistic|||Receipt of diet/exercise advice - Yes vs. No||2.46|1.13|0.0193
82659591|NCT00635492|165037005|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.83||||0.0138|TWO_SIDED|95.0|0.72|0.96|||Regression, Logistic|||LDL cholesterol - 1 mmol/L higher at baseline||0.96|0.72|0.0138
82659592|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.118|||<|0.0001|TWO_SIDED|95.0|1.062|1.177|||Regression, Cox|||HbA1c (%) at baseline||1.177|1.062|<0.0001
82659593|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.001|TWO_SIDED|95.0|0.937|0.985|||Regression, Cox|||DHP barriers to activity subscale at baseline||0.985|0.937|0.001
82659594|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.532|||<|0.001|TWO_SIDED|95.0|1.698|3.777|||Regression, Cox|||Gastrointestinal symptoms: yes vs. no at baseline||3.777|1.698|<0.001
82659595|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.437|||<|0.001|TWO_SIDED|95.0|0.303|0.63|||Regression, Cox|||Insulin regimen: basal/bolus vs. long-acting only||0.630|0.303|<0.001
82659596|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.676||||0.003|TWO_SIDED|95.0|0.523|0.874|||Regression, Cox|||Insulin regimen: mixtures vs. long-acting only||0.874|0.523|0.003
82659597|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.549||||0.303|TWO_SIDED|95.0|0.175|1.718|||Regression, Cox|||Insulin regimen: other vs. long-acting only||1.718|0.175|0.303
82659598|NCT00635492|165037013|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.164|||<|0.001|TWO_SIDED|95.0|1.681|2.785|||Regression, Cox|||Insulin regimen: short-acting only vs. long-acting only||2.785|1.681|<0.001
82659599|NCT00635492|165037014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.463||||0.028|TWO_SIDED|95.0|1.043|2.053|||Regression, Cox|||GI symptoms: yes vs. no at baseline||2.053|1.043|0.028
82659600|NCT00635492|165037014|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.601||||0.002|TWO_SIDED|95.0|0.432|0.834|||Regression, Cox|||EQ-5D index value at baseline||0.834|0.432|0.002
82659601|NCT00467363|165037028|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0984|TWO_SIDED|95.0|0.98|1.22||Only one outcome for primary outcome, so no adjustment of p-value for multiple comparisons was done. A priori threshold for statistical significance was p\<0.05.|Fisher Exact|No adjustments were done. Treatment groups were similar with respect to the assessed demographic and baseline characteristics||The study was designed to detect a 10% absolute difference in livebirth rate with 80% power and a type I error rate of 5%, on the assumption that participants taking placebo who achieved pregnancy would have a livebirth rate of 75%.||1.22|0.98|0.0984
82659602|NCT00467363|165037029|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0165|TWO_SIDED|95.0|1.02|1.19|||Fisher Exact|||||1.19|1.02|.0165
82659603|NCT00467363|165037030|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.0329|TWO_SIDED|95.0|1.01|1.19|||Fisher Exact|||||1.19|1.01|.0329
82659604|NCT00467363|165037031|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.8902|TWO_SIDED|95.0|0.64|1.78|||Fisher Exact|||||1.78|.64|.8902
82659605|NCT00467363|165037032|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08||||0.6869|TWO_SIDED|95.0|0.76|1.55|||Fisher Exact|||||1.55|.76|.6869
82659606|NCT00467363|165037033|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.68||||0.753|TWO_SIDED|95.0|0.19|2.41|||Fisher Exact|||||2.41|.19|.7530
82659607|NCT00467363|165037034|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.15|7.26|||Fisher Exact|||||7.26|.15|1.000
82659608|NCT00467363|165037035|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.21|5.06|||Fisher Exact|||||5.06|.21|1.000
82659609|NCT00467363|165037036|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.03||||1|TWO_SIDED|95.0|0.21|5.06|||Fisher Exact|||||5.06|.21|1.000
82659610|NCT00467363|165037037|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.08||||0.7943|TWO_SIDED|95.0|0.67|1.76|||Fisher Exact|||||1.76|.67|.7943
82659611|NCT00467363|165037038|SUPERIORITY_OR_OTHER|||||||0.7802|||||||t-test, 2 sided|||||||.7802
82659612|NCT00467363|165037039|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.72||||0.2603|TWO_SIDED|95.0|0.42|1.23|||Fisher Exact|||||1.23|.42|.2603
82659613|NCT00467363|165037042|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.3||||0.77|TWO_SIDED|95.0|-0.8|1.4|||Fisher Exact|||||1.4|-0.8|0.77
82659614|NCT00473330|165037043|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.3|||<|0.0001|TWO_SIDED|95.0|13.8|34.8||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||34.8|13.8|<0.0001
82659615|NCT00473330|165037043|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|20.9||||0.0002|TWO_SIDED|95.0|10.7|31.1||An adjustment was made for multiple treatment comparisons of the ranibizumab dose groups with the control group.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||31.1|10.7|0.0002
82616172|NCT02364947|164948467|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.168|STANDARD_ERROR_OF_MEAN|0.041|<|0.0001|TWO_SIDED|95.0|-0.248|-0.088|||Mixed Models Analysis|||||-0.088|-0.248|<0.0001
82616173|NCT02364947|164948467|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.139|STANDARD_ERROR_OF_MEAN|0.044||0.0017|TWO_SIDED|95.0|-0.226|-0.052|||Mixed Models Analysis|||||-0.052|-0.226|0.0017
82616174|NCT02364947|164948468|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.031||0.0234|TWO_SIDED|95.0|-0.13|-0.009|||Mixed Models Analysis|||||-0.009|-0.130|0.0234
82616175|NCT02364947|164948468|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.033||0.1374|TWO_SIDED|95.0|-0.115|0.016|||Mixed Models Analysis|||Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.||0.016|-0.115|0.1374
82616176|NCT02364947|164948469|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.066|STANDARD_ERROR_OF_MEAN|0.031||0.0348|TWO_SIDED|95.0|-0.127|-0.005|||Mixed Models Analysis|||||-0.005|-0.127|0.0348
82616177|NCT02364947|164948469|SUPERIORITY_OR_OTHER_LEGACY|Mixed model for repeated measures (MMRM) with fixed effect of treatment, sex, time point, treatment-by-time point interaction, logarithm scale baseline value, and logarithm scale baseline value-by-time point interaction with an unstructured variance-covariance matrix structure was used.|Mean Difference (Final Values)|-0.049|STANDARD_ERROR_OF_MEAN|0.034||0.1444|TWO_SIDED|95.0|-0.116|0.017|||Mixed Models Analysis|||||0.017|-0.116|0.1444
82616178|NCT02808312|164948486|OTHER|Two-sided 90% Confidence Intervals (CIs) were calculated for the ratios of geometric least-squares means (GLSMs) of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7869|||||TWO_SIDED|90.0|1.2885|2.4781||||||An analysis of variance (ANOVA) model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||2.4781|1.2885|
82616179|NCT02808312|164948486|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.4868|||||TWO_SIDED|90.0|1.6735|3.6954||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||3.6954|1.6735|
82616180|NCT02808312|164948486|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|6.324|||||TWO_SIDED|90.0|4.3675|9.1569||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUClast) for each cohort.||9.1569|4.3675|
82616181|NCT02808312|164948487|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7628|||||TWO_SIDED|90.0|1.275|2.4374||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||2.4374|1.2750|
82616182|NCT02808312|164948487|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.4559|||||TWO_SIDED|90.0|1.6531|3.6486||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||3.6486|1.6531|
82616183|NCT02808312|164948487|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|6.2497|||||TWO_SIDED|90.0|4.2965|9.091||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (AUCinf) for each cohort.||9.0910|4.2965|
82616184|NCT02808312|164948488|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.5703|||||TWO_SIDED|90.0|1.0723|2.2995||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||2.2995|1.0723|
82616185|NCT02808312|164948488|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.7343|||||TWO_SIDED|90.0|1.2193|2.4667||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||2.4667|1.2193|
82616186|NCT02808312|164948488|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PK parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|2.5369|||||TWO_SIDED|90.0|1.7562|3.6648||||||An ANOVA model with hepatic function group as a fixed effect was fitted to the natural logarithmic transformation of PK parameters (Cmax) for each cohort.||3.6648|1.7562|
82616187|NCT02808312|164948499|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8722|||||TWO_SIDED|90.0|0.6827|1.1144||||||||1.1144|0.6827|
82659616|NCT00473330|165037044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.6|||<|0.0001|TWO_SIDED|95.0|6.1|13.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.0|6.1|<0.0001
82616188|NCT02808312|164948499|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0731|||||TWO_SIDED|90.0|0.8295|1.3883||||||||1.3883|0.8295|
82616189|NCT02808312|164948499|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.1475|||||TWO_SIDED|90.0|0.8783|1.4992||||||||1.4992|0.8783|
82616190|NCT02808312|164948500|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8188|||||TWO_SIDED|90.0|0.5837|1.1486||||||||1.1486|0.5837|
82616191|NCT02808312|164948500|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.1323|||||TWO_SIDED|90.0|0.8772|1.4615||||||||1.4615|0.8772|
82616192|NCT02808312|164948500|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.3563|||||TWO_SIDED|90.0|1.0468|1.7574||||||||1.7574|1.0468|
82616193|NCT02808312|164948501|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0658|||||TWO_SIDED|90.0|0.8275|1.3726||||||||1.3726|0.8275|
82616194|NCT02808312|164948501|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.2942|||||TWO_SIDED|90.0|0.9663|1.7334||||||||1.7334|0.9663|
82616195|NCT02808312|164948501|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.8225|||||TWO_SIDED|90.0|0.5479|1.2347||||||||1.2347|0.5479|
82616196|NCT02808312|164948502|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between mild hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.0806|||||TWO_SIDED|90.0|0.791|1.4762||||||||1.4762|0.7910|
82616197|NCT02808312|164948502|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between moderate hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|1.3729|||||TWO_SIDED|90.0|0.9663|1.9506||||||||1.9506|0.9663|
82616198|NCT02808312|164948502|OTHER|Two-sided 90% CIs were calculated for the ratios of GLSMs of PD parameters between severe hepatic impairment group and the control (normal hepatic function) group.|GLSM ratio|0.903|||||TWO_SIDED|90.0|0.6142|1.3275||||||||1.3275|0.6142|
82616199|NCT04263142|164948503|OTHER||Ratio|0.998|||||TWO_SIDED|90.0|0.9263|1.0757|||||Analysis was performed using analysis of variance (ANOVA) with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablets/capsules.|||1.0757|0.9263|
82616200|NCT04263142|164948504|OTHER||Ratio|1.002|||||TWO_SIDED|90.0|0.9321|1.0781|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablets/capsules.|||1.0781|0.9321|
82616201|NCT04263142|164948505|OTHER||Ratio|1.093|||||TWO_SIDED|90.0|0.9885|1.208|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablets/capsules.|||1.2080|0.9885|
82616202|NCT04263142|164948507|OTHER||Ratio|2.926|||||TWO_SIDED|90.0|2.3703|3.6107|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||3.6107|2.3703|
82616203|NCT04263142|164948507|OTHER||Ratio|2.594|||||TWO_SIDED|90.0|2.1003|3.2038|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-inf). Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.2038|2.1003|
82616204|NCT04263142|164948508|OTHER||Ratio|3.146|||||TWO_SIDED|90.0|2.5925|3.8178|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||3.8178|2.5925|
82616205|NCT04263142|164948508|OTHER||Ratio|2.785|||||TWO_SIDED|90.0|2.2943|3.3807|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter AUC(0-t). Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.3807|2.2943|
82616206|NCT04263142|164948509|OTHER||Ratio|4.101|||||TWO_SIDED|90.0|3.2442|5.183|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablet (moderate fat)/(fasted)|||5.1830|3.2442|
82616207|NCT04263142|164948509|OTHER||Ratio|3.08|||||TWO_SIDED|90.0|2.4359|3.8935|||||Analysis was performed using ANOVA with treatment, period, and sequence as fixed effects and participant as a random effect on the natural log-transformed parameter Cmax. Ratio of GSK3640254 200 mg tablet (high fat)/(fasted)|||3.8935|2.4359|
82659617|NCT00473330|165037044|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.4|||<|0.0001|TWO_SIDED|95.0|6.2|12.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||12.6|6.2|<0.0001
82659618|NCT00473330|165037045|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.4|||<|0.0001|TWO_SIDED|95.0|13.4|35.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||35.4|13.4|<0.0001
82659619|NCT00473330|165037045|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|25.1|||<|0.0001|TWO_SIDED|95.0|14.0|36.3||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||36.3|14.0|<0.0001
82659620|NCT00473330|165037046|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|8.2||||0.0086|TWO_SIDED|95.0|2.4|14.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||14.1|2.4|0.0086
82659621|NCT00473330|165037046|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|7.8||||0.0126|TWO_SIDED|95.0|2.0|13.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||13.6|2.0|0.0126
82659622|NCT00473330|165037047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7||||0.0005|TWO_SIDED|95.0|4.3|15.1||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||15.1|4.3|0.0005
82616208|NCT00520676|164948610|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.45|||<|0.001|TWO_SIDED|95.0|0.34|0.6||The comparison was conducted at a 1-sided significance level of 0.05.|Log Rank|Note that the 2-sided p-value for log rank is reported, which is \<0.001, hence 1-sided p-value is \<0.001.|Cox regression model is used for HR estimate.|||0.60|0.34|<0.001
82616209|NCT00520676|164948611|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.934|TWO_SIDED|95.0|0.72|1.42||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for hazard ratio (HR) estimate.|||1.42|0.72|0.934
82616210|NCT00520676|164948612|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.8|TWO_SIDED|95.0|0.72|1.29||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank|Cox regression model is used for hazard ratio (HR) estimate.||||1.29|0.72|0.800
82616211|NCT00520676|164948613|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.081|TWO_SIDED|95.0|0.93|3.15||The comparison of tumor response rates was conducted at a 2-sided significance level of 0.05.|Fisher Exact|Tumor response rate= # participants with a confirmed best response of CR or PR / # of participants who qualify for the analysis population.|Logistic regression model is used for odds ratio (OR) estimate.|||3.15|0.93|0.081
82616212|NCT00520676|164948614|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.641|TWO_SIDED|95.0|0.49|1.55||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for hazard ratio (HR) estimate.|||1.55|0.49|0.641
82616213|NCT00520676|164948615|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53|||<|0.001|TWO_SIDED|95.0|0.4|0.71||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for unadjusted hazard ratio (HR) estimate.|||0.71|0.40|<0.001
82616214|NCT00520676|164948616|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.35|0.66||The comparison was conducted at a 2-sided significance level of 0.05.|Log Rank||Cox regression model is used for unadjusted hazard ratio (HR) estimate.|||0.66|0.35|<0.001
82616215|NCT03439748|164948618|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||.002
82616216|NCT03439748|164948619|SUPERIORITY||||||>|0.05||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||>.05
82616217|NCT03439748|164948620|SUPERIORITY|||||||0.024||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference between PAT and NAT as small as d=.35.||||.024
82616218|NCT03439748|164948624|SUPERIORITY|||||||0.922||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.922
82616219|NCT03439748|164948625|SUPERIORITY|||||||0.049||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.049
82616220|NCT03439748|164948626|SUPERIORITY|||||||0.591||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.591
82616221|NCT03439748|164948627|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.004
82616222|NCT03439748|164948628|SUPERIORITY|||||||0.03||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.030
82616223|NCT03439748|164948629|SUPERIORITY|||||||0.029||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.029
82616224|NCT03439748|164948631|SUPERIORITY|||||||0.494||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.494
82616225|NCT03439748|164948632|SUPERIORITY|||||||0.231||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.231
82616226|NCT03439748|164948633|SUPERIORITY|||||||0.344||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.344
82616227|NCT03439748|164948634|SUPERIORITY|||||||0.267||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.267
82616228|NCT03439748|164948635|SUPERIORITY|||||||0.051||||||The threshold for statistical significance was p = 0.05. Univariate tests were corrected for false discovery rate using the Benjamin-Hochberg approach.|Mixed Models Analysis|Baseline levels of outcomes were covaried in all analyses to reduce error variance and correct for group differences.||This analysis compares the PAT and NAT groups at post-treatment. For this analysis, we have greater than .80 power to detect an effect size difference as small as d=.39.||||.051
82616229|NCT03696758|164948636|OTHER|Descriptive statistics||||||0.004||||||p value is 0.004 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.004
82616230|NCT03696758|164948637|OTHER|Descriptive statistics||||||0.13||||||P-Value is 0.13 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.13
82616231|NCT03696758|164948638|OTHER|descriptive statistics||||||0.004||||||p value is 0.004 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.004
82616232|NCT03696758|164948639|OTHER|Descriptive statistics||||||0.1||||||p value is 0.10 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.1
82616233|NCT03696758|164948640|OTHER|Descriptive statistics||||||0.09||||||p value is 0.09 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.09
82616234|NCT03696758|164948641|OTHER|Descriptive statistics||||||0.1||||||p value is 0.10 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.10
82616235|NCT03696758|164948642|OTHER|Descriptive statistics||||||0.82||||||p value is 0.82 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.82
82616236|NCT03696758|164948643|OTHER|Descriptive statistics||||||0.3||||||p value is 0.30 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.30
82616237|NCT03696758|164948644|OTHER|Descriptive statistics||||||0.36||||||p value is 0.36 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.36
82616238|NCT03696758|164948645|OTHER|Descriptive statistics||||||0.36||||||p value is 0.36 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.36
82616239|NCT03696758|164948646|OTHER|Descriptive statistics||||||0.65||||||P-Value is 0.65 for 'Pre-Metoprolol' vs 'post-Metoprolol' subgroup|Wilcoxon Signed Rank Test|||||||0.65
82616240|NCT03696758|164948647|OTHER|Descriptive statistics||||||0.25||||||P-Value is 0.25 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.25
82616241|NCT03696758|164948648|OTHER|Descriptive statistics||||||0.43||||||P-Value is 0.43 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.43
82616242|NCT03696758|164948649|OTHER|Descriptive statistics||||||0.66||||||P-Value is 0.66 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.66
82616243|NCT03696758|164948650|OTHER|Descriptive statistics||||||0.13||||||P-Value is 0.13 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.13
82616244|NCT03696758|164948651|OTHER|Descriptive statistics||||||0.57||||||P-Value is 0.57 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.57
82616245|NCT03696758|164948652|OTHER|Descriptive statistics||||||0.25||||||P-Value is 0.25 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.25
82616246|NCT03696758|164948653|OTHER|Descriptive statistics||||||0.07||||||P-Value is 0.07 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.07
82616247|NCT03696758|164948654|OTHER|Descriptive statistics||||||0.36||||||P-Value is 0.36 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.36
82616248|NCT03696758|164948655|OTHER|Descriptive statistics||||||0.91||||||P-Value is 0.91 for 'Pre-Sildenafil' vs 'Post-Sildenafil' subgroup|Wilcoxon Signed Rank Test|||||||0.91
82616249|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.215|0.315|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.315|0.215|<0.0001
82616250|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.025||0.0015|TWO_SIDED|95.0|0.031|0.129|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.129|0.031|0.0015
82616251|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.025||0.0005|TWO_SIDED|95.0|0.039|0.137|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.137|0.039|0.0005
82616252|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.274|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.224|0.324|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.324|0.224|<0.0001
82616253|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.089|STANDARD_ERROR_OF_MEAN|0.025||0.0004|TWO_SIDED|95.0|0.039|0.138|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.138|0.039|0.0004
82616254|NCT01533935|164948698|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.025||0.0001|TWO_SIDED|95.0|0.047|0.147|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.147|0.047|0.0001
82616255|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.134|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001|TWO_SIDED|95.0|1.065|1.206|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Placebo QD|||1.206|1.065|<0.0001
82616256|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.111|STANDARD_ERROR_OF_MEAN|0.035||0.0009|TWO_SIDED|95.0|1.045|1.182|||Mixed Models Analysis||Ratio calculated Tiotropium + olodaterol 5/5 QD as divided by Olodaterol 5 mcg QD|||1.182|1.045|0.0009
82659623|NCT00473330|165037047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.2||||0.0011|TWO_SIDED|95.0|3.3|13.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||13.0|3.3|0.0011
82659624|NCT00473330|165037048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-107.9|||<|0.0001|TWO_SIDED|95.0|-149.2|-66.6||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-66.6|-149.2|<0.0001
82659625|NCT00473330|165037048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-119.1|||<|0.0001|TWO_SIDED|95.0|-159.6|-78.5||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANCOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here. The statistical analysis was not performed at Month 48.||-78.5|-159.6|<0.0001
82659626|NCT00473330|165037049|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-3.0||||0.159|TWO_SIDED|95.0|-6.7|0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||0.7|-6.7|0.1590
82659627|NCT00473330|165037049|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|-2.5||||0.2721|TWO_SIDED|95.0|-6.5|1.4||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||1.4|-6.5|0.2721
82659628|NCT00473330|165037050|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|29.5|||<|0.0001|TWO_SIDED|95.0|21.1|38.0||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||38.0|21.1|<0.0001
82659629|NCT00473330|165037050|SUPERIORITY_OR_OTHER||Difference in percentage at Month 24|24.2|||<|0.0001|TWO_SIDED|95.0|16.7|31.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|Cochran-Mantel-Haenszel|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).|The percentage for each group and the difference in percentage between groups were estimated using the weighted average of the observed percentages and the differences in observed percentages over the strata using the Cochran-Mantel-Haenszel weights.|||31.7|16.7|<0.0001
82659630|NCT00473330|165037051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|||<|0.0001|TWO_SIDED|95.0|-1.4|-0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.7|-1.4|<0.0001
82659631|NCT00473330|165037051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.7||To manage the type I error rate while testing multiple secondary efficacy endpoints for statistical significance, a type I error management plan was implemented. Secondary endpoints were prioritized and tested using a hierarchical testing procedure.|ANOVA|The analysis was stratified by baseline BCVA score (≤55, \>55 letters), baseline HbA1c (≤8%, \>8%), and prior therapy for ME in the study eye (yes, no).||The analysis summarized in this section is for the Month 24 time point, comparing the outcome for patients randomized to ranibizumab versus sham injections during the controlled treatment period. The statistical analysis for the Outcome Measure at Month 36 is not shown here.||-0.7|-1.5|<0.0001
82659632|NCT05615935|165037056|SUPERIORITY||Adjusted Mean Difference (ANCOVA)|2.07|||<|0.001|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|ANCOVA|||Using G\*Power 3.1, the required sample size for ANCOVA with two groups was estimated with a significance level of 0.05, statistical power of 0.80, and an effect size of 0.35, based on Cohen's guidelines for a medium-to-large effect commonly applied in behavioral research (Cohen, 1988). Assuming up to two covariates, a minimum of 67 participants was required. Accounting for a 10% attrition rate, the final target was set at 74 participants.||||<0.001
82659633|NCT05615935|165037057|SUPERIORITY||Adjusted Mean Difference (ANCOVA)|4.58||||0.15|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|ANCOVA|||||||0.15
82659634|NCT05615935|165037057|SUPERIORITY||Median Difference (Final Values)|-2.64|STANDARD_DEVIATION|6.35||0.02|TWO_SIDED|||||The p-value is adjusted for multiple comparisons using the Bonferroni correction, with a significance threshold of 0.05.|t-test, 2 sided|||||||0.02
82659635|NCT01001208|165037068|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||<0.0001
82659636|NCT01001208|165037069|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659637|NCT01001208|165037070|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659638|NCT01001208|165037071|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659639|NCT01001208|165037072|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659640|NCT01001208|165037073|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659641|NCT01001208|165037074|SUPERIORITY_OR_OTHER|||||||0.0348||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0348
82659642|NCT01001208|165037075|SUPERIORITY_OR_OTHER|||||||0.0112||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|Cochran-Mantel-Haenszel|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.0112
82659643|NCT01001208|165037076|SUPERIORITY_OR_OTHER|||||||0.1995||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|2-sided van Elteren test|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.1995
82659644|NCT01001208|165037077|SUPERIORITY_OR_OTHER|||||||0.1995||95.0||||Overall significance level for primary and secondary endpoints controlled based on a combination of sequential testing and Hommel procedures.|2-sided van Elteren test|Stratified by baseline body mass index group and prior anti-TNF exposure group||||||0.1995
82659645|NCT00833937|165037078|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|99.7||||||90.0|93.9|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|93.9|
82659646|NCT00833937|165037079|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.8||||||90.0|92.6|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|92.6|
82659647|NCT00833937|165037080|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|97.9||||||90.0|92.7|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|92.7|
82659648|NCT00095212|165037081|SUPERIORITY_OR_OTHER|||||||0.04|||||||longitudinal linear mixed effects model|||||||0.04
82659649|NCT00095212|165037082|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Longitudinal linear mixed effects model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.02
82659650|NCT00095212|165037083|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Longitudinal mixed methods model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.02
82659651|NCT00095212|165037084|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Longitudinal mixed methods model|||The study was powered at 80% to detect a significant treatment difference of 2.7 kg in lean body mass between the two groups with 25 randomized patients and a 15% assumed dropout rate, using a two sided 5.0 percent significance level.||||0.01
82659652|NCT00095212|165037085|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||Chi-squared|||||||0.16
82659653|NCT00095212|165037086|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Chi-squared|||||||0.29
82659654|NCT00095212|165037087|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||Chi-squared|||||||0.75
82659655|NCT00095212|165037088|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Chi-squared|||||||0.14
82659656|NCT00095212|165037089|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||t-test, 2 sided|||||||0.26
82659657|NCT00095212|165037090|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
82659658|NCT00095212|165037091|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||t-test, 2 sided|||||||0.94
82659659|NCT03238781|165037162|SUPERIORITY||difference in least square mean|0.26||||0.66|TWO_SIDED|95.0|-0.88|1.4||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.40|-0.88|0.66
82659660|NCT03238781|165037162|SUPERIORITY||difference in least square mean|0.27||||0.65|TWO_SIDED|95.0|-0.89|1.43||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.43|-0.89|0.65
82659661|NCT03238781|165037163|SUPERIORITY||Odds Ratio (OR)|0.82||||0.57|TWO_SIDED|95.0|0.41|1.62||2-sided significance level of 0.05|Cochran-Mantel-Haenszel|||The common odds ratios and p-values are obtained from a Cochran-Mantel-Haenszel test, stratified by stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine).||1.62|0.41|0.57
82659662|NCT03238781|165037163|SUPERIORITY||Odds Ratio (OR)|0.76||||0.45|TWO_SIDED|95.0|0.37|1.54||2-sided significance level of 0.05|Cochran-Mantel-Haenszel|||The common odds ratios and p-values are obtained from a Cochran-Mantel-Haenszel test, stratified by stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine).||1.54|0.37|0.45
82616257|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.043|STANDARD_ERROR_OF_MEAN|0.033||0.1807|TWO_SIDED|95.0|0.981|1.109|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 5/5 QD divided by Tiotropium 5 mcg QD|||1.109|0.981|0.1807
82616258|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.121|STANDARD_ERROR_OF_MEAN|0.036||0.0003|TWO_SIDED|95.0|1.054|1.193|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Placebo QD|||1.193|1.054|0.0003
82659663|NCT03238781|165037164|SUPERIORITY||difference in least square mean|-0.03||||0.94|TWO_SIDED|95.0|-0.87|0.81||2-sided significance level of 0.05|Mixed Models Analysis|||Adjusted analysis utilizes a generalized linear mixed model which includes treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (CM versus EM), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||0.81|-0.87|0.94
82616259|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.099|STANDARD_ERROR_OF_MEAN|0.035||0.0029|TWO_SIDED|95.0|1.033|1.17|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Olodaterol 5 mcg QD|||1.170|1.033|0.0029
82616260|NCT01533935|164948699|SUPERIORITY_OR_OTHER||Ratio|1.032|STANDARD_ERROR_OF_MEAN|0.033||0.324|TWO_SIDED|95.0|0.97|1.098|||Mixed Models Analysis||Ratio calculated as Tiotropium + olodaterol 2.5/5 QD divided by Tiotropium 5 mcg QD|||1.098|0.970|0.3240
82616261|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.004|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||-0.002|-0.004|<0.0001
82659664|NCT03238781|165037164|SUPERIORITY||difference in least square mean|-0.09||||0.84|TWO_SIDED|95.0|-0.94|0.77||2-sided significance level of 0.05|Mixed Models Analysis|||||0.77|-0.94|0.84
82659665|NCT03238781|165037165|SUPERIORITY||difference in least square mean|-0.28||||0.81|TWO_SIDED|95.0|-2.56|2.01||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.01|-2.56|0.81
82659666|NCT03238781|165037165|SUPERIORITY||difference in least square mean|0.31||||0.79|TWO_SIDED|95.0|-2.01|2.63||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.63|-2.01|0.79
82616262|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.0033|TWO_SIDED|95.0|-0.003|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||-0.001|-0.003|0.0033
82616263|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.2306|TWO_SIDED|95.0|-0.002|0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.001|-0.002|0.2306
82616264|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.003|STANDARD_ERROR_OF_MEAN|0.001|<|0.0001|TWO_SIDED|95.0|-0.005|-0.002|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||-0.002|-0.005|<0.0001
82616265|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.002|STANDARD_ERROR_OF_MEAN|0.001||0.001|TWO_SIDED|95.0|-0.004|-0.001|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||-0.001|-0.004|0.0010
82616266|NCT01533935|164948700|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.001|STANDARD_ERROR_OF_MEAN|0.001||0.1206|TWO_SIDED|95.0|-0.002|0.0|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.000|-0.002|0.1206
82616267|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.294|0.364|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Placebo QD|||0.364|0.294|<0.0001
82616268|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.134|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.099|0.169|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Olodaterol 5 mcg QD|||0.169|0.099|<0.0001
82616269|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.135|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.1|0.17|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 5/5 QD minus Tiotropium 5 mcg QD|||0.170|0.100|<0.0001
82616270|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.305|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.269|0.34|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Placebo QD|||0.340|0.269|<0.0001
82616271|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.075|0.145|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Olodaterol 5 mcg QD|||0.145|0.075|<0.0001
82616272|NCT01533935|164948701|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001|TWO_SIDED|95.0|0.076|0.146|||Mixed Models Analysis||Difference calculated as Tiotropium + olodaterol 2.5/5 QD minus Tiotropium 5 mcg QD|||0.146|0.076|<0.0001
82616273|NCT00681538|164948712|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.84||||0.0002|TWO_SIDED|95.0|-1.29|-0.4|||ANCOVA|||||-0.40|-1.29|0.0002
82616274|NCT00681538|164948713|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.731||||0.0003|TWO_SIDED|95.0|1.589|4.694|||Regression, Logistic||Odds ratio\>1 indicates an improvement in favour of Sativex|30% responders||4.694|1.589|0.0003
82616275|NCT00681538|164948713|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.647||||0.0612|TWO_SIDED|95.0|0.977|2.777|||Regression, Logistic||Odds ratio\>1 indicates an improvement in favour of Sativex|50% Responders||2.777|0.977|0.0612
82616276|NCT00681538|164948714|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-2.53||||0.0046|TWO_SIDED|95.0|-4.27|-0.79|||ANCOVA||A negative difference indicates an improvement in spasm frequency in favour of Sativex.|||-0.79|-4.27|0.0046
82616277|NCT00681538|164948715|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.25|-0.51|||ANCOVA||A negative difference indicates an improvement in sleep disruption in favour of Sativex.|||-0.51|-1.25|<0.0001
82616278|NCT00681538|164948716|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-1.75||||0.0939|TWO_SIDED|95.0|-3.8|0.3|||ANCOVA||A negative difference indicates an improvement in spasticity in favour of Sativex.|||0.30|-3.80|0.0939
82616279|NCT00681538|164948717|SUPERIORITY_OR_OTHER_LEGACY||treatment difference|-2.85||||0.56|TWO_SIDED|95.0|-12.75|7.04|||ANCOVA||A positive treatment difference indicates an improvement in favour of Sativex.|For Arm||7.04|-12.75|0.56
82616280|NCT00681538|164948717|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|0.04||||0.98|TWO_SIDED|95.0|-2.56|2.64|||ANCOVA||A positive treatment difference indicates an improvement in favour of Sativex.|For leg||2.64|-2.56|0.98
82616281|NCT00681538|164948718|SUPERIORITY_OR_OTHER_LEGACY||Treatment difference|-3.34||||0.0687|TWO_SIDED|95.0|-6.95|0.26|||ANCOVA||A negative treatment difference indicates an improvement in favour of Sativex.|||0.26|-6.95|0.0687
82616282|NCT00681538|164948719|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.703||||0.0234|TWO_SIDED|95.0|1.075|2.698|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||2.698|1.075|0.0234
82616283|NCT00681538|164948720|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.4||||0.0053|TWO_SIDED|95.0|1.297|4.443|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||4.443|1.297|0.0053
82616284|NCT00681538|164948721|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.792||||0.0613|TWO_SIDED|95.0|0.973|3.301|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||3.301|0.973|0.0613
82616285|NCT00681538|164948722|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.958||||0.0045|TWO_SIDED|95.0|1.232|3.112|||Regression, Logistic||An odds ratio \> 1 indicates an improvement in favour of Sativex.|||3.112|1.232|0.0045
82616286|NCT00681538|164948723|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.02||||0.2836|TWO_SIDED|95.0|-0.02|0.07|||ANCOVA||A positive difference indicates an improvement in favour of Sativex.|For Health State Index||0.07|-0.02|0.2836
82616287|NCT00681538|164948723|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|1.24||||0.5644|TWO_SIDED|95.0|-3.01|5.5|||ANCOVA||A positive difference indicates an improvement in favour of Sativex.|Health Status VAS||5.50|-3.01|0.5644
82616288|NCT00681538|164948724|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-0.06||||0.9369|TWO_SIDED|95.0|-1.62|1.49|||ANCOVA||A negative difference indicates an improvement in depression in favour of Sativex.|||1.49|-1.62|0.9369
82616289|NCT03656926|164948775|SUPERIORITY|Estimates are from a Linear Mixed Model on the response variable change from baseline in FEV1 with factors for time splines, treatment, the interactions of time splines by treatment, baseline FEV1, the interactions of time splines with baseline FEV1, region (North America vs all other countries together), age (\<55 versus \>=55 years), use of azithromycin at randomization, and time as random effect.|least square mean difference|-0.028||||0.6639|TWO_SIDED|95.0|-0.16|0.104||This is a 1-side p value.|Mixed Models Analysis|||V9 - week 48||0.104|-0.160|0.6639
82616290|NCT00069095|164948777|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.05|||||TWO_SIDED|97.5|0.94|1.18||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.18|0.94|
82616291|NCT00069095|164948778|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.22|||||TWO_SIDED|97.5|1.05|1.42||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.42|1.05|
82616292|NCT00069095|164948779|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7|||<|0.0001|TWO_SIDED|97.5|0.58|0.83|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.83|0.58|<0.0001
82616293|NCT00069095|164948780|NON_INFERIORITY_OR_EQUIVALENCE|Fewer events were expected in the 'on-treatment analysis', thus leading to reduced power. No formal statistical testing was therefore applied.|Hazard Ratio (HR)|1.24|||||TWO_SIDED|97.5|1.07|1.44||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.44|1.07|
82616294|NCT00069095|164948781|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.0001|TWO_SIDED|97.5|0.52|0.75|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.75|0.52|<0.0001
82616295|NCT00069095|164948782|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin). A stratified Cox model was used. In order to retain an experiment-wise two-sided type I error of 5%, the non-inferiority analysis for PFS used a two-sided significance level of 2.5%.|Hazard Ratio (HR)|1.03|||||TWO_SIDED|97.5|0.92|1.15||||||Equivalence of treatment arm A ('XELOX') to treatment arm B ('FOLFOX-4') was tested via the following hypotheses - H0: HRA/B \>/= 1.23 versus H1: HRA/B \< 1.23. HRA/B denotes the hazard of disease progression or death under treatment A ('XELOX') divided by the hazard of disease progression or death under treatment B ('FOLFOX-4').||1.15|0.92|
82616296|NCT00069095|164948783|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0015|TWO_SIDED|97.5|0.72|0.95|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.95|0.72|0.0015
82616297|NCT00069095|164948784|NON_INFERIORITY_OR_EQUIVALENCE|This study was not powered for testing non-inferiority of XELOX vs FOLFOX-4 with respect to overall survival and no margin could be derived following the effect retention concept. The same margins used for the PFS analysis \[Non-inferiority was demonstrated if the upper limit of the 2-sided 97.5% confidence interval (CI) for the hazard ratio (HR) was less than the predefined limit of 1.23 (the non-inferiority margin)\] were therefore applied to OS as well.|Hazard Ratio (HR)|0.97|||||TWO_SIDED|97.5|0.84|1.14||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.14|0.84|
82616298|NCT00069095|164948785|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.1921|TWO_SIDED|97.5|0.72|1.09|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented together with the 97.5% confidence interval.||1.09|0.72|0.1921
82616299|NCT00069095|164948786|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0023|TWO_SIDED|97.5|0.72|0.95|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.95|0.72|0.0023
82616300|NCT00069095|164948787|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was based on the two-sided 97.5% confidence interval for OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV). Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was concluded if the lower limit of this confidence interval is above 0.66.|Odds Ratio (OR)|0.89|||||TWO_SIDED|97.5|0.72|1.09||||||Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was tested by the pair of hypotheses - H0: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \</= 0.66 versus H1: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \> 0.66, where OR denotes Odds ratio.||1.09|0.72|
82616301|NCT00069095|164948788|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.9||||0.3091|TWO_SIDED|97.5|0.71|1.14|||Chi-squared|||Superiority of adding bevacizumab to chemotherapy was tested as follows - H0: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \</= 1.0 versus H1: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \> 1.0. The test used a two-sided significance level of 2.5%.||1.14|0.71|0.3091
82616302|NCT00069095|164948789|NON_INFERIORITY_OR_EQUIVALENCE|The analysis was based on the two-sided 97.5% confidence interval for OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV). Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab shall be concluded if the lower limit of this confidence interval is above 0.66.|Odds Ratio (OR)|0.94|||||TWO_SIDED|97.5|0.76|1.16||||||Non-inferiority of XELOX with/without bevacizumab to FOLFOX-4 with/without bevacizumab was tested by the pair of hypotheses - H0: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \</= 0.66 versus H1: OR(XELOX/XELOX+P/XELOX+BV)/(FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV) \> 0.66||1.16|0.76|
82616303|NCT00069095|164948790|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.0||||0.9887|TWO_SIDED|97.5|0.78|1.28|||Chi-squared|||Superiority of adding bevacizumab to chemotherapy was tested as follows - H0: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX 4+P/XELOX+P) \</= 1.0 versus H1: OR(FOLFOX-4+BV/XELOX+BV)/(FOLFOX-4+P/XELOX+P) \> 1.0. The test used a two-sided significance level of 2.5%||1.28|0.78|0.9887
82492720|NCT00345839|164678239|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.034
82659667|NCT03238781|165037166|SUPERIORITY||difference in least square mean|-0.86||||0.46|TWO_SIDED|95.0|-3.15|1.44||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||1.44|-3.15|0.46
82616304|NCT00069095|164948791|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was done.|Hazard Ratio (HR)|1.08|||||TWO_SIDED|97.5|0.97|1.2||||||General approach: HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV)||1.20|0.97|
82616305|NCT00069095|164948791|NON_INFERIORITY_OR_EQUIVALENCE|Fewer events were expected in analyses using the on-treatment approach than in the analyses using the general approach, thus leading to reduced power.Therefore, no formal statistical testing was performed.|Hazard Ratio (HR)|1.1|||||TWO_SIDED|97.5|0.98|1.23||||||On-treatment Approach: HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.23|0.98|
82616306|NCT00069095|164948792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.003|TWO_SIDED|97.5|0.74|0.96|||Log Rank|||General approach: Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.96|0.74|0.0030
82616307|NCT00069095|164948792|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.81||||0.0004|TWO_SIDED|97.5|0.7|0.92|||Log Rank|||On treatment approach: Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||0.92|0.70|0.0004
82616308|NCT00069095|164948795|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was performed for duration of overall response.|Hazard Ratio (HR)|1.02|||||TWO_SIDED|97.5|0.86|1.22||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV)||1.22|0.86|
82492721|NCT00345839|164678239|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.68|0.99|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||0.99|0.68|
82616309|NCT00069095|164948796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.82||||0.0307|TWO_SIDED|97.5|0.66|1.01|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||1.01|0.66|0.0307
82616310|NCT00069095|164948797|NON_INFERIORITY_OR_EQUIVALENCE|No formal statistical testing was done.|Hazard Ratio (HR)|0.35|||||TWO_SIDED|97.5|0.09|1.39||||||HRs and 97.5% confidence interval were reported for treatment arm A (XELOX/XELOX+P/XELOX+BV) versus treatment arm B (FOLFOX-4/FOLFOX-4+P/FOLFOX-4+BV).||1.39|0.09|
82616311|NCT00069095|164948798|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.8207|TWO_SIDED|97.5|0.2|7.05|||Log Rank|||Testing for superiority was based on the stratified log-rank test and used a two-sided significance level of 2.5%.The hazard ratio (HR) of bevacizumab in combination with chemotherapy versus chemotherapy alone \[HR(FOLFOX-4+P/XELOX+P)/(FOLFOX-4+BV/XELOX+BV)\] was presented.||7.05|0.20|0.8207
82616312|NCT00210158|164948811|SUPERIORITY||Mean Difference (Final Values)|9.7||||0.5|TWO_SIDED|95.0|-23.4|42.8|||t-test, 2 sided|||T-test for a difference of means, assuming independant samples and unequal variances||42.8|-23.4|0.5
82616313|NCT04716933|164948813|OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.48|0.97||||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||0.97|0.48|
82616314|NCT04716933|164948814|OTHER||Hazard Ratio (HR)|0.78|||||TWO_SIDED|95.0|0.54|1.12||||||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate||1.12|0.54|
82616315|NCT04716933|164948815|OTHER||Percent Difference|11.3|||||TWO_SIDED|95.0|-2.0|24.2||||||Comparision based on unstratified Miettinen \& Nurminen method||24.2|-2.0|
82499437|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.64|STANDARD_ERROR_OF_MEAN|8.82||||90.0|-43.19|-14.09|||ANCOVA|||Extension Month 21; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||-14.09|-43.19|
82616316|NCT02902172|164948851|NON_INFERIORITY||Mean Difference (Net)|0.85|||<|0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.05
82616317|NCT00818324|164948860|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 2|t-test, 2 sided|||||||<0.001
82616318|NCT00818324|164948860|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 4.|t-test, 2 sided|||||||<0.001
82616319|NCT00818324|164948860|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 28.|t-test, 2 sided|||||||<0.001
82616320|NCT00818324|164948860|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 52.|t-test, 2 sided|||||||<0.001
82616321|NCT00818324|164948861|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 2.|t-test, 2 sided|||||||<0.001
82616322|NCT00818324|164948861|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 4.|t-test, 2 sided|||||||<0.001
82616323|NCT00818324|164948861|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 28.|t-test, 2 sided|||||||<0.001
82616324|NCT00818324|164948861|SUPERIORITY_OR_OTHER||||||<|0.001||||||The p value represents the comparison between baseline data and data at Week 52.|t-test, 2 sided|||||||<0.001
82616325|NCT01773135|164948894|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||U statistic|||||||<0.001
82616326|NCT01212172|164948895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9||||0.2879|TWO_SIDED|95.0|-6.7|21.1|||t-test, 1 sided|||||21.1|-6.7|0.2879
82616327|NCT01253044|164948898|SUPERIORITY_OR_OTHER|||||||0.912|TWO_SIDED||||||MMRM|||||||.912
82616328|NCT01253044|164948899|SUPERIORITY_OR_OTHER|||||||0.273|TWO_SIDED||||||MMRM|||||||.273
82616329|NCT02868216|164948927|OTHER||Mean Difference (Final Values)|2.3|STANDARD_DEVIATION|0.84||0.05|TWO_SIDED|95.0|0.63|3.98|||ANOVA|||||3.98|0.63|0.05
82616330|NCT00962000|164948929|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.02217|||TWO_SIDED|95.0|-0.064|0.024||There is no p values because the power calculation is based on the primary outcome variable|ANOVA|The three centers and the two flow rates were treated as fixed effects and the subjects within centers modeled as a random effect.||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.024|-0.064|
82616331|NCT00962000|164948930|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|-0.014|STANDARD_ERROR_OF_MEAN|0.01849|||TWO_SIDED|95.0|-0.051|0.023||There is no p value for eKt/V because the power calculation is based on the primary outcome variable (Kt/Vsp) alone.|ANOVA|The three centers and the two flow rates were treated as fixed effects and the subjects within centers modeled as a random effect.||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.023|-0.051|
82616332|NCT00962000|164948931|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The sample size required for the study was estimated using a web-based power calculation tool. Analysis of data from some 50,000 hemodialysis patients showed a within-patient between-treatment standard deviation of 0.21 for Kt/Vurea. Using this estimate of standard deviation, 38 subjects would be needed to detect a difference in Kt/Vurea of 0.1 with a significance level of 0.05 and a power of 90% with two determinations per subject at each level of dialysate flow rate.|Mean Difference (Final Values)|0.035|STANDARD_ERROR_OF_MEAN|0.03103||||95.0|-0.029|0.099||There is no p value for Kt/VID because the power calculation is based on the primary outcome variable (Kt/Vsp) alone.|ANOVA|||Increasing the dialysate flow rates from 600 mL/min to 800 mL/min will not significantly increase Kt/Vurea.||0.099|-0.029|
82616333|NCT02702193|164948932|SUPERIORITY||Slope|-0.24|STANDARD_ERROR_OF_MEAN|0.11|<|0.05|TWO_SIDED|95.0|||||Generalized Estimating Equations (GEE)|GEE allowed the examination of trajectories from baseline through the 12 month follow-up.||To determine sample size for the grant proposal we conducted simulation studies in Mplus (Muthén \& Muthén, 2010) following the procedure described by Muthén and Muthén (2002). Each simulation created 10,000 datasets, assuming a medium-size (d = .5) intervention effect, and attrition of 10% at each assessment. For α= .05, the power estimate was at or above 80% with a sample of 172 mothers.||||<.05
82616334|NCT01201798|164948942|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was 0.5 units, meaning that the upper limit of the two-tailed 95% confidence interval must have been less than 0.5 to establish noninferiority.|Mean Difference (Net)|-0.22|||||TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||A two-tailed 95% confidence interval was calculated for the difference in change from baseline in anterior chamber cell grade at Day 14 (difluprednate minus prednisolone). The confidence interval was derived from an analysis of covariance (ANCOVA), with investigative site included as a fixed effect to match the stratification used in the randomization process. Treatment and baseline anterior chamber cell grade were also included as fixed effects.||0.09|-0.53|
82616335|NCT02439281|164948972|OTHER|||||||0.451|||||||Wilcoxon (Mann-Whitney)|||||||0.4510
82616336|NCT02439281|164948973|OTHER|||||||0.8914|||||||Wilcoxon (Mann-Whitney)|||||||0.8914
82616337|NCT02439281|164948976|OTHER|||||||0.9531|||||||Wilcoxon (Mann-Whitney)|||||||0.9531
82616338|NCT02439281|164948977|OTHER|||||||0.778|||||||Wilcoxon (Mann-Whitney)|||||||0.7780
82616339|NCT02439281|164948978|OTHER|||||||0.5692|||||||Wilcoxon (Mann-Whitney)|||||||0.5692
82616340|NCT05299983|164949015|SUPERIORITY||||||<|0.001|||||||Chi-squared|||||||<.001
82616341|NCT05299983|164949016|SUPERIORITY|||||||0.02|||||||Chi-squared|||||||0.02
82616342|NCT05299983|164949017|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||0.22
82616343|NCT05299983|164949018|SUPERIORITY|||||||0.45|||||||Chi-squared|||||||0.45
82616344|NCT03050359|164949019|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-6%, the DU healing rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|0.4|||||TWO_SIDED|95.0|-2.998|3.791||||||||3.791|-2.998|
82616345|NCT03050359|164949020|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-10%, the HP eradication rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|4.7|||||TWO_SIDED|95.0|-1.281|10.69||||||||10.690|-1.281|
82616346|NCT03050359|164949021|NON_INFERIORITY|If the lower bound of the 95% CI was ≥-6%, the DU healing rate for TAK-438 was considered to be noninferior to that seen with lansoprazole.|Exact (Clopper-Pearson)|0.7|||||TWO_SIDED|95.0|-4.901|6.319||||||||6.319|-4.901|
82616347|NCT03050359|164949022|OTHER||Difference in percentages|-4.1|||||TWO_SIDED|95.0|-15.579|7.344||||||Epigastric Pain (Postprandial)||7.344|-15.579|
82616348|NCT03050359|164949022|OTHER||Difference in percentages|1.6|||||TWO_SIDED|95.0|-5.23|8.422||||||Epigastric Pain (Fasting/Nocturnal)||8.422|-5.230|
82616349|NCT03050359|164949022|OTHER||Difference in percentages|-4.0|||||TWO_SIDED|95.0|-17.338|9.401||||||Abdominal Bloating||9.401|-17.338|
82616350|NCT03050359|164949022|OTHER||Difference in percentages|-9.3|||||TWO_SIDED|95.0|-26.334|7.815||||||Nausea/Vomiting||7.815|-26.334|
82616351|NCT03050359|164949022|OTHER||Difference in percentages|4.5|||||TWO_SIDED|95.0|-4.159|13.25||||||Heartburn||13.250|-4.159|
82616352|NCT03050359|164949022|OTHER||Difference in percentages|-9.1|||||TWO_SIDED|95.0|-21.104|2.922||||||Lack of Appetite||2.922|-21.104|
82616353|NCT02614287|164949024|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1
82616354|NCT02614287|164949028|SUPERIORITY|||||||0.215|||||||Fisher Exact|||TE ADA Positive (TE ADA+)||||.215
82616355|NCT02614287|164949029|SUPERIORITY||LSMean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.46||0.6|TWO_SIDED|95.0|-1.76|0.04|||Mixed Models Analysis|||||0.04|-1.76|0.60
82659668|NCT03238781|165037166|SUPERIORITY||difference in least square mean|0.56||||0.64|TWO_SIDED|95.0|-1.77|2.89||2-sided significance level of 0.05|Mixed Models Analysis|||An adjusted analysis is presented that utilized a generalized linear mixed model which included treatment, visit, treatment-by-visit interaction, stratification factors of region and baseline migraine frequency (chronic migraine vs episodic migraine), and baseline value as covariates and assuming a first-order autoregressive covariance structure. The p-values for pairwise comparisons versus placebo are nominal p-values without multiplicity adjustment.||2.89|-1.77|0.64
82659669|NCT03161405|165037176|OTHER||Geometric mean ratio|1.9827|||||TWO_SIDED|90.0|1.6446|2.3904||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90 percent (%) confidence interval (CI) for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||2.3904|1.6446|
82659670|NCT03161405|165037177|OTHER||Geometric mean ratio|1.2914|||||TWO_SIDED|90.0|1.1199|1.4891||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90% CI for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.4891|1.1199|
82659671|NCT03161405|165037178|OTHER||Geometric mean ratio|1.2783|||||TWO_SIDED|90.0|1.0965|1.4904||||||A paired t-test on the natural log-transformed parameters was performed. The mean difference and its 90% CI for the log-transformed parameters were exponentiated to obtain the point estimates of the itraconazole effect and 90% CIs.||1.4904|1.0965|
82659672|NCT00837486|165037179|SUPERIORITY_OR_OTHER||||||=|0.53||||||"one-sided P-value~per protocol responder rates: Active Group = 20.0%, Control Group = 14.3%"|Fisher Exact|||The study originally required a sample size of 208 subjects in order to have 90% power to detect a statistically significant difference between the responder rate of the active and control groups. With this 30-subject cohort, and only 29 subjects completing the blinded-treatment phase per protocol, the comparison of response rates was not adequately powered. The P-value is presented only to describe the outcomes of the two groups.||||=0.53
82659673|NCT02246920|165037208|EQUIVALENCE|Equivalence is established if the 90% confidence interval is contained within 80.00-125.00%.|T/R Ls Mean Ratio|108.09|||||TWO_SIDED|90.0|94.09|124.4||||||||124.40|94.09|
82659674|NCT02246920|165037209|EQUIVALENCE|Equivalence is demonstrated when the 90% confidence interval is contained within 80.00-125.00%.|T/R LS Mean Ratio|107.0|||||TWO_SIDED|90.0|92.42|124.09||||||||124.09|92.42|
82659675|NCT02246920|165037210|SUPERIORITY|||||||0.0028|||||||ANCOVA|||||||0.0028
82659676|NCT02246920|165037210|SUPERIORITY|||||||0.0169|||||||ANCOVA|||||||0.0169
82659677|NCT02678286|165037211|SUPERIORITY|||||||0.0145|||||||t-test, 2 sided|||||||0.0145
82659678|NCT02678286|165037212|SUPERIORITY|||||||0.1841||||||Row 1 (SPID6)|t-test, 2 sided|||||||0.1841
82659679|NCT02678286|165037212|SUPERIORITY|||||||0.0434||||||Row 2 (SPID12)|t-test, 2 sided|||||||0.0434
82659680|NCT02678286|165037212|SUPERIORITY|||||||0.004||||||Row 3 (SPID48)|t-test, 2 sided|||||||0.0040
82659681|NCT02678286|165037212|SUPERIORITY|||||||0.0028||||||Row 4 (SPID24-48)|t-test, 2 sided|||||||0.0028
82659682|NCT02678286|165037213|SUPERIORITY|||||||0.7572|||||||Log Rank|||||||0.7572
82659683|NCT02678286|165037214|SUPERIORITY|||||||0.6559||||||Row 1 (Hour 0-24)|Cochran-Mantel-Haenszel|||||||0.6559
82659684|NCT02678286|165037214|SUPERIORITY|||||||0.0014||||||Row 2 (Hour 24-48)|Cochran-Mantel-Haenszel|||||||0.0014
82659685|NCT02678286|165037214|SUPERIORITY|||||||0.4994||||||Row 3 (Hour 0-48)|Cochran-Mantel-Haenszel|||||||0.4994
82659686|NCT02678286|165037215|SUPERIORITY|||||||0.0275||||||Row 1 (Hour 0-24)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0275
82659687|NCT02678286|165037215|SUPERIORITY|||||||0.0009||||||Row 2 (Hour 24-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0009
82659688|NCT02678286|165037215|SUPERIORITY|||||||0.0027||||||Row 3 (Hour 0-48)|ANCOVA|P-values were derived from ANCOVA models with fixed effects of treatment, baseline PI score, and investigational site||||||0.0027
82659689|NCT02678286|165037216|SUPERIORITY|||||||0.005|||||||Log Rank|||||||0.0050
82659690|NCT02678286|165037217|SUPERIORITY|||||||0.5096|||||||Log Rank|||||||0.5096
82659691|NCT02678286|165037218|SUPERIORITY|||||||0.389|||||||Cochran-Mantel-Haenszel|||||||0.3890
82659692|NCT02678286|165037219|SUPERIORITY|||||||0.0178|||||||Cochran-Mantel-Haenszel|||||||0.0178
82659693|NCT02678286|165037220|SUPERIORITY|||||||0.1888|||||||Cochran-Mantel-Haenszel|||||||0.1888
82659694|NCT02678286|165037221|SUPERIORITY|||||||0.0788|||||||Cochran-Mantel-Haenszel|||||||0.0788
82659695|NCT02678286|165037222|SUPERIORITY|||||||0.0607|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0607
82659696|NCT02678286|165037223|SUPERIORITY|||||||0.0027|||||||Cochran-Mantel-Haenszel|P-value was derived from comparisons between N1539 and Placebo via General Association of CMH Test controlling for investigational site||||||0.0027
82659697|NCT05342597|165037233|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|1.025|||||TWO_SIDED|90.0|0.931|1.128|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.128|0.931|
82659698|NCT05342597|165037233|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.959|||||TWO_SIDED|90.0|0.871|1.056|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.056|0.871|
82659699|NCT05342597|165037233|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.91|||||TWO_SIDED|90.0|0.827|1.002|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.002|0.827|
82659700|NCT05342597|165037233|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.801|||||TWO_SIDED|90.0|0.712|0.901|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.901|0.712|
82659701|NCT05342597|165037234|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|1.083|||||TWO_SIDED|90.0|0.821|1.429|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.429|0.821|
82659702|NCT05342597|165037234|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.872|||||TWO_SIDED|90.0|0.661|1.15|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.150|0.661|
82659703|NCT05342597|165037234|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.82|||||TWO_SIDED|90.0|0.621|1.082|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||1.082|0.621|
82659704|NCT05342597|165037234|OTHER|Estimated difference in least squares means and corresponding 90%CI of log-transformed PK parameters were back transformed to obtain the estimate and CI of the geometric mean ratio of each meal condition to the fasted state.|LS Mean Ratio|0.536|||||TWO_SIDED|90.0|0.362|0.794|||ANOVA|||PK parameters of unchanged edaravone were analyzed for the assessments of food effect on PK.||0.794|0.362|
82659705|NCT02647944|165037250|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82659706|NCT02647944|165037251|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82659707|NCT02647944|165037252|SUPERIORITY|||||||0.27|||||||Wilcoxon (Mann-Whitney)|||||||0.27
82659708|NCT02647944|165037253|SUPERIORITY|||||||0.069|||||||Wilcoxon (Mann-Whitney)|||||||0.069
82659709|NCT02647944|165037254|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||0.054
82659710|NCT02647944|165037255|SUPERIORITY|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||||||0.13
82659711|NCT02647944|165037256|SUPERIORITY|||||||0.68|||||||Wilcoxon (Mann-Whitney)|||||||0.68
82659712|NCT02647944|165037257|SUPERIORITY|||||||0.95|||||||Wilcoxon (Mann-Whitney)|||||||0.95
82659713|NCT02760368|165037264|SUPERIORITY||Risk Difference (RD)|0.378|||<|0.0001|TWO_SIDED|97.5|0.248|0.489|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rates for 64 q2w treatment group at Week 12 are expected to be at least 55%, resulting in an expected difference in ACR20 response rates of 30 percentage points between respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis.||0.489|0.248|<0.0001
82659714|NCT02760368|165037264|SUPERIORITY||Risk Difference (RD)|0.445|||<|0.0001|TWO_SIDED|97.5|0.318|0.552|||Chi-squared|2x2 chi-square test||The OKZ ACR20 response rates for 64 q4w treatment group at Week 12 are expected to be at least 50%, resulting in an expected difference in ACR20 response rates of 25 percentage points between respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis.||0.552|0.318|<0.0001
82659715|NCT02760368|165037265|SUPERIORITY||Risk Difference (RD)|0.294|||<|0.0001|TWO_SIDED|97.5|0.197|0.389|||Chi-squared|2x2 chi-square test||DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 10% in the placebo group and 30% in 64 q2w OKZ treatment groups respectively, resulting in an expected difference of 20 percentage points between OKZ q2w treatment group and placebo.||0.389|0.197|<0.0001
82659716|NCT02760368|165037265|SUPERIORITY||Risk Difference (RD)|0.352|||<|0.0001|TWO_SIDED|97.5|0.251|0.449|||Chi-squared|2x2 chi-square test||DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 10% in the placebo group and 22% in 64 mg q4w OKZ treatment group respectively, resulting in an expected difference of 12 percentage points between OKZ q4w treatment group and placebo.||0.449|0.251|<0.0001
82659717|NCT02760368|165037266|SUPERIORITY||Least Squares Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|97.5|-0.47|-0.21|||ANCOVA|||||-0.21|-0.47|<0.0001
82659718|NCT02760368|165037266|SUPERIORITY||Least Squares Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|97.5|-0.49|-0.23|||ANCOVA|||||-0.23|-0.49|<0.0001
82659719|NCT02760368|165037267|SUPERIORITY||Risk Difference (RD)|0.35|||<|0.0001|TWO_SIDED|97.5|0.239|0.45|||Chi-squared|2x2 chi-square test||||0.450|0.239|<0.0001
82659720|NCT02760368|165037267|SUPERIORITY||Risk Difference (RD)|0.409|||<|0.0001|TWO_SIDED|97.5|0.296|0.509|||Chi-squared|2x2 chi-square test||||0.509|0.296|<0.0001
82659721|NCT02760368|165037268|SUPERIORITY||Risk Difference (RD)|0.084|||<|0.0002|TWO_SIDED|97.5|0.032|0.151||2x2 chi-square test|Chi-squared|||||0.151|0.032|<0.0002
82659722|NCT02760368|165037268|SUPERIORITY||Risk Difference (RD)|0.077|||<|0.0003|TWO_SIDED|97.5|0.027|0.143||2x2 chi-square test|Chi-squared|||||0.143|0.027|<0.0003
82659723|NCT00904215|165037290|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Student Paired t-test|||||||<0.0001
82659724|NCT00904215|165037291|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
82659725|NCT00904215|165037292|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
82659726|NCT00904215|165037293|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Student Paired t-test|||||||<0.0001
82659727|NCT00838630|165037294|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed for the log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|98.27||||||90.0|92.32|104.61|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.61|92.32|
82659728|NCT00838630|165037295|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed for log-transformed AUC0-t, AUC0-inf, and Cmax parameters.|Geometric Test/Ref Ratio x 100|94.37||||||90.0|90.47|98.43|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.43|90.47|
82659729|NCT00838630|165037296|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.7||||||90.0|91.52|100.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.08|91.52|
82659730|NCT02937870|165037314|OTHER||Least square (LS) mean difference|0.66||||0.177|TWO_SIDED|95.0|-0.14|1.47||p-values for treatment comparison of test adhesive 1 vs. no adhesive were adjusted using the Dunnett's method.|ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||1.47|-0.14|0.1770
82659731|NCT02937870|165037315|OTHER||LS mean difference|-0.2||||0.8321|TWO_SIDED|95.0|-0.98|0.59||p-values for treatment comparison of test adhesive 1 vs. no adhesive were adjusted using the Dunnett's method.|ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||0.59|-0.98|0.8321
82616356|NCT02614287|164949030|SUPERIORITY||LSMean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.41||0.835|TWO_SIDED|95.0|-0.72|0.89|||Mixed Models Analysis|||||0.89|-0.72|.835
82616357|NCT02614287|164949031|SUPERIORITY||Odds Ratio (OR)|1.467||||0.063|TWO_SIDED|95.0|0.979|2.197|||CPLRM|CPLRM: Categorical pseudo likelihood-based repeated measures model||||2.197|0.979|.063
82616358|NCT02614287|164949032|SUPERIORITY||LSMean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.51||0.937|TWO_SIDED|95.0|-0.96|1.04|||Mixed Models Analysis|||||1.04|-0.96|.937
82616359|NCT02614287|164949033|SUPERIORITY||LSMean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.1||0.073|TWO_SIDED|95.0|-0.4|0.02|||Mixed Models Analysis|||||0.02|-0.40|0.073
82616360|NCT02614287|164949034|SUPERIORITY||LSMean Difference|0.91|STANDARD_ERROR_OF_MEAN|2.82||0.747|TWO_SIDED|95.0|-4.65|6.47|||Mixed Models Analysis|||||6.47|-4.65|.747
82616361|NCT02614287|164949035|SUPERIORITY||LSMean Difference|1.98|STANDARD_ERROR_OF_MEAN|1.55||0.203|TWO_SIDED|95.0|-1.07|5.03|||Mixed Models Analysis|||Total Score||5.03|-1.07|0.203
82616362|NCT02614287|164949035|SUPERIORITY||LSMean Difference|1.85|STANDARD_ERROR_OF_MEAN|1.59||0.247|TWO_SIDED|95.0|-1.29|4.98|||Mixed Models Analysis|||Role Function-Restrictive Domain Score||4.98|-1.29|.247
82616363|NCT02614287|164949035|SUPERIORITY||LSMean Difference|1.26|STANDARD_ERROR_OF_MEAN|1.49||0.399|TWO_SIDED|95.0|-1.67|4.19|||Mixed Models Analysis|||Role Function-Preventive Domain Score||4.19|-1.67|0.399
82616364|NCT02614287|164949035|SUPERIORITY||LSMean Difference|3.09|STANDARD_ERROR_OF_MEAN|1.8||0.88|TWO_SIDED|95.0|-0.46|6.64|||Mixed Models Analysis|||Emotional Function Domain Score||6.64|-0.46|0.88
82616365|NCT01575197|164949052|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED||||||Fisher Exact|||||||0.014
82616366|NCT01575197|164949053|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Fisher Exact|||||||0.16
82616367|NCT01575197|164949054|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||t-test, 2 sided|||||||0.038
82616368|NCT01575197|164949055|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||t-test, 2 sided|||||||0.30
82616369|NCT00833248|164949071|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.|Mean Difference (Final Values)|-0.3||||0.8942|TWO_SIDED|95.0|-4.74|4.14|||ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||FAS. Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||4.14|-4.74|0.8942
82616370|NCT00833248|164949072|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be established if the treatment difference in adjusted (for baseline volume, and baseline total IPSS) mean percentage reduction was significantly greater (two-sided at α=0.05 level) than Δ = 10 points (non-inferiority margin) in both the FAS and PP analyses sets.|Mean Difference (Final Values)|-0.268||||0.9123|TWO_SIDED|95.0|-5.05|4.52|||ANCOVA|The baseline IPSS and baseline Prostate volume were used as covariates and treatment was used as a factor in the analysis.||PP analysis set. Estimates from analysis of variance with treatment as factors and baseline IPSS and baseline Prostate volume as covariates.||4.52|-5.05|0.9123
82616371|NCT01826422|164949084|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
82616372|NCT01826422|164949085|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||>0.05
82616373|NCT01826422|164949086|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||>0.05
82616374|NCT01826422|164949087|SUPERIORITY_OR_OTHER||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
82616375|NCT01826422|164949088|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||<0.05
82616376|NCT01826422|164949089|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616377|NCT01826422|164949090|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
82616378|NCT01826422|164949091|SUPERIORITY_OR_OTHER||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
82616379|NCT01826422|164949092|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||<0.05
82616380|NCT01826422|164949093|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||<0.05
82616381|NCT01826422|164949094|SUPERIORITY||||||<|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||<0.05
82616382|NCT01826422|164949095|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|t-test, 1 sided|||||||0.05
82616383|NCT01826422|164949096|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616384|NCT01826422|164949097|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616385|NCT01826422|164949098|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616386|NCT01826422|164949099|SUPERIORITY_OR_OTHER||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616387|NCT01826422|164949100|SUPERIORITY||||||>|0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||>0.05
82616388|NCT01826422|164949101|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Kruskal-Wallis|||||||0.05
82616389|NCT01826422|164949102|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||0.05
82616390|NCT01826422|164949103|SUPERIORITY|||||||0.05||||||Between-groups analysis (omega 3 vs placebo) at 3 and 6 months.|Wilcoxon (Mann-Whitney)|||||||0.05
82616391|NCT04009096|164949104|OTHER|||||||0.14||||||Two tailed p value reported for Mann-Whitney test comparing controls with each vaccinees|Wilcoxon (Mann-Whitney)|||Comparison of pooled data from Groups 1, 2 and 3 volunteers who completed CHMI with pooled data of infectivity controls (unvaccinated) from CHMI study running in parallel (VAC069 study)||||0.14
82616392|NCT05151471|164949109|SUPERIORITY|||||||0.78|||||||Log Rank|||||||0.78
82616393|NCT05151471|164949110|SUPERIORITY|||||||0.704|||||||ANCOVA|||Week 72||||0.704
82616394|NCT05151471|164949110|SUPERIORITY|||||||0.131|||||||ANCOVA|||Week 96||||0.131
82616395|NCT05151471|164949111|SUPERIORITY|||||||0.954|||||||Mixed Model for Repeated Measures (MMRM)|||Week 72||||0.954
82616396|NCT05151471|164949111|SUPERIORITY|||||||0.591|||||||Mixed Model for Repeated Measures (MMRM)|||Week 96||||0.591
82616397|NCT05151471|164949112|SUPERIORITY|||||||0.513|||||||Mixed Model for Repeated Measures (MMRM)|||Week 72||||0.513
82616398|NCT05151471|164949112|SUPERIORITY|||||||0.344|||||||Mixed Model for Repeated Measures (MMRM)|||Week 84||||0.344
82616399|NCT05151471|164949112|SUPERIORITY|||||||0.142|||||||Mixed Model for Repeated Measures (MMRM)|||Week 96||||0.142
82616400|NCT00115349|164949148|SUPERIORITY_OR_OTHER|||||||0.89||0.0|||||Mixed Models Analysis|Linear mixed models with treatment, time, and treatment x time interaction were used, allowing for random participant-specific intercepts and slopes.||The intended sample size of 86 patients (N=43 per arm) had 80% power to detect a 5% difference in LVEF between the two arms after 1 year of treatment, assuming a standard deviation of change in LVEF of 7.46%, and 20% loss to follow-up. The study was stopped early by NHLBI when analysis of the interim data confirmed a required sample size of 86 that was not achievable within the required time frame within the participating or planned centres.||||0.89
82616401|NCT02913222|164949173|OTHER|||||||1||||||The threshold for statistical significance was set at p = 0.05.|Fisher Exact|||A priori criteria for success was that we would achieve 90% adherence to attending treatment sessions. Fisher's exact test compared patient adherence to treatment session rates by site and by group.||||1.0
82616402|NCT02913222|164949174|OTHER|The purpose of this study was to determine preliminary estimates of the effect of movement pattern training and standard rehabilitation on patient-reported function.|Mean Difference (Final Values)|-2.2||||0.32|TWO_SIDED|95.0|-6.51|2.11||The threshold for statistical significance was p = 0.05|ANCOVA|||We hypothesized MPT would demonstrate greater improvement in HOOS compared to Standard. Data collected at pretest and posttest were analyzed with ANCOVA where posttest was the dependent variable, pretest was the covariate, and treatment group was the independent variable which tests the null hypothesis that after adjusting for pretest, posttest is not significantly different across treatment groups.||2.11|-6.51|0.32
82616403|NCT02913222|164949175|OTHER|The purpose of this study was to determine preliminary estimates of the effect of movement pattern training and standard rehabilitation on patient-reported function.|Mean Difference (Final Values)|-5.55||||0.14|TWO_SIDED|95.0|-13.1|1.99||The threshold for statistical significance was p = 0.05.|ANCOVA|||We hypothesized MPT would demonstrate greater improvement in HOOS compared to Standard. Data collected at pretest and posttest were analyzed with ANCOVA where posttest was the dependent variable, pretest was the covariate, and treatment group was the independent variable which tests the null hypothesis that after adjusting for pretest, posttest is not significantly different across treatment groups.||1.99|-13.10|0.14
82616404|NCT04490265|164949215|SUPERIORITY||Cohen's d|0.33|||||TWO_SIDED|||||||||||||
82616405|NCT04490265|164949216|SUPERIORITY||Cohen's d|0.78|||||TWO_SIDED|||||||||||||
82659732|NCT02937870|165037316|OTHER||LS mean difference|0.07||||0.8566|TWO_SIDED|95.0|-0.72|0.87|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||0.87|-0.72|0.8566
82659733|NCT02937870|165037317|OTHER||LS mean difference|-0.79||||0.0488|TWO_SIDED|95.0|-1.58|0.0|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||-0.00|-1.58|0.0488
82616406|NCT04490265|164949221|SUPERIORITY||Cohen's d|0.14|||||TWO_SIDED|||||||||Belonging Subscale change from baseline to 12-weeks||||
82616407|NCT04490265|164949221|SUPERIORITY||Cohen's D|0.05|||||TWO_SIDED|||||||||Belonging subscale Baseline to 6-months||||
82616408|NCT04490265|164949221|SUPERIORITY||Cohen's D|0.6|||||TWO_SIDED|||||||||Change in Burdensome subscale Baseline to 12-weeks||||
82616409|NCT04490265|164949221|SUPERIORITY||Cohen's D|0.43|||||TWO_SIDED|||||||||Change in Burdensome subscale Baseline to 6 months||||
82616410|NCT04490265|164949222|SUPERIORITY||Cohen's D|0.07|||||TWO_SIDED|||||||||Baseline to 12-weeks||||
82616411|NCT04490265|164949222|SUPERIORITY||Cohen's D|0.13|||||TWO_SIDED|||||||||Baseline to 6-months||||
82616412|NCT04490265|164949223|SUPERIORITY||Cohen's d|0.6|||||TWO_SIDED|||||||||||||
82616413|NCT04490265|164949224|SUPERIORITY||Cohen's d|0.52|||||TWO_SIDED|||||||||||||
82616414|NCT04490265|164949225|SUPERIORITY||Cohen's d|0.21|||||TWO_SIDED|||||||||||||
82616415|NCT04490265|164949226|SUPERIORITY||Cohen's d|0.2|||||TWO_SIDED|||||||||||||
82616416|NCT04490265|164949227|SUPERIORITY||Cohen's d|0.66|||||TWO_SIDED|||||||||||||
82616417|NCT04490265|164949228|SUPERIORITY||cohen's d|0.38|||||TWO_SIDED|||||||||||||
82616418|NCT04490265|164949229|SUPERIORITY||Cohens d|0.47|||||TWO_SIDED|||||||||Severity||||
82616419|NCT04490265|164949229|SUPERIORITY||Cohens d|0.46|||||TWO_SIDED|||||||||interference||||
82616420|NCT04490265|164949230|SUPERIORITY||Cohens d|0.64|||||TWO_SIDED|||||||||Severity Subscale||||
82616421|NCT04490265|164949230|SUPERIORITY||Cohen's d|0.38|||||TWO_SIDED|||||||||Interference subscale||||
82616422|NCT03280550|164949257|SUPERIORITY||Difference in Least Squares Means|-1.14|STANDARD_ERROR_OF_MEAN|0.23|<|0.0001|TWO_SIDED|95.0|-1.59|-0.69||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NPS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.69|-1.59|<0.0001
82616423|NCT03280550|164949258|SUPERIORITY||Difference in Least Squares Means|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|95.0|-0.84|-0.25||Tested at the two-sided 0.05 significance level. There was no adjustment for multiplicity for the co-primary outcome measures.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The primary analysis tested the null hypothesis that no treatment group difference existed for change from baseline in NCS at Week 24. As NPS and NCS are co-primary outcome measures, both null hypotheses for NPS and NCS must be rejected, with parameter estimates indicating a benefit of omalizumab over placebo, for the study to be deemed positive.||-0.25|-0.84|0.0004
82616424|NCT03280550|164949259|SUPERIORITY||Difference in Least Squares Means|-0.33|STANDARD_ERROR_OF_MEAN|0.14||0.0161|TWO_SIDED|95.0|-0.6|-0.06||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline SSS, treatment and baseline SSS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Sense of Smell Score (SSS) at Week 24.||-0.06|-0.60|0.0161
82616425|NCT03280550|164949260|SUPERIORITY||Difference in Least Squares Means|-0.56|STANDARD_ERROR_OF_MEAN|0.14||0.0001|TWO_SIDED|95.0|-0.84|-0.28||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline PRS, treatment and baseline PRS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Posterior Rhinorrhea Score (PRS) at Week 24.||-0.28|-0.84|0.0001
82616426|NCT03280550|164949261|SUPERIORITY||Difference in Least Squares Means|-1.01|STANDARD_ERROR_OF_MEAN|0.21|<|0.0001|TWO_SIDED|95.0|-1.43|-0.6||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NPS, treatment and baseline NPS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the NPS at Week 16.||-0.60|-1.43|<0.0001
82616427|NCT03280550|164949262|SUPERIORITY||Difference in Least Squares Means|-0.57|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.83|-0.31||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline NCS, treatment and baseline NCS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily NCS at Week 16.||-0.31|-0.83|<0.0001
82659734|NCT02937870|165037318|OTHER||LS mean difference|0.86||||0.0352|TWO_SIDED|95.0|0.06|1.66|||ANCOVA|ANCOVA with factors for subject (random effect), period \& treatment, subject-level and period-level pre-treatment baseline bite force as covariate.|Difference is first-named treatment minus second-named treatment such that a positive difference favours the first named treatment.|||1.66|0.06|0.0352
82659735|NCT00609674|165037338|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|||||||0.004
82616428|NCT03280550|164949263|SUPERIORITY||Difference in Least Squares Means|-16.12|STANDARD_ERROR_OF_MEAN|2.9|<|0.0001|TWO_SIDED|95.0|-21.86|-10.38||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the SNOT-22 score at Week 24.||-10.38|-21.86|<0.0001
82616429|NCT03280550|164949264|SUPERIORITY||Difference in Least Squares Means|-0.43|STANDARD_ERROR_OF_MEAN|0.14||0.0023|TWO_SIDED|95.0|-0.7|-0.16||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline ARS, treatment and baseline ARS by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Anterior Rhinorrhea Score (ARS) at Week 24.||-0.16|-0.70|0.0023
82616430|NCT03280550|164949265|SUPERIORITY||Odds Ratio (OR)|0.61||||0.6716|TWO_SIDED|95.0|0.05|5.51||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue medication through Week 24.||5.51|0.05|0.6716
82616431|NCT03280550|164949266|SUPERIORITY||Odds Ratio (OR)|0.0||||0.4815|TWO_SIDED|95.0|0.0|17.64||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for having had surgery for nasal polyps through Week 24.||17.64|0.00|0.4815
82616432|NCT03280550|164949267|SUPERIORITY||Odds Ratio (OR)|3.71||||0.0492|TWO_SIDED|95.0|1.0|13.71|||Wald Chi-Square|Adjusted for Baseline AQLQ, geographic region, and aspirin sensitivity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for number of participants with a change from baseline in AQLQ score of ≥0.5 at Week 24.||13.71|1.00|0.0492
82616433|NCT03280550|164949268|SUPERIORITY||Odds Ratio (OR)|0.61||||0.6716|TWO_SIDED|95.0|0.05|5.51||Tested at the two-sided 0.05 significance level.|Fisher Exact|Unadjusted|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for requirement of rescue treatment through Week 24.||5.51|0.05|0.6716
82659736|NCT00244764|165037361|SUPERIORITY_OR_OTHER||percentage|34.7||||||95.0|28.4|40.9|||||The estimated value provided is the response rate.|||40.9|28.4|
82659737|NCT00244764|165037362|SUPERIORITY_OR_OTHER||percentage|42.0||||||95.0|29.0|54.0|||||The estimated value is the percentage of the first 60 participants who had stable disease at Week 12, as assessed by the investigator.|||54|29|
82659738|NCT02648438|165037379|SUPERIORITY_OR_OTHER||Geometric mean ratio|62.61|||||TWO_SIDED|90.0|53.01|73.94|||||Ratio (%)|Statistical Assessment of AZD7594 Pharmacokinetic Parameter (AUC0-t) Following Inhalation Administration ofAZD7594 via DPI Device 2 Versus DPI Device 1.||73.94|53.01|
82616434|NCT03280550|164949269|SUPERIORITY||Odds Ratio (OR)|6.25||||0.0209|TWO_SIDED|95.0|1.32|29.6||Tested at the two-sided 0.05 significance level.|Wald Chi-Square|Adjusted for geographic region and asthma/aspirin sensitivity comorbidity status.|Odds ratio is comparing Omalizumab arm to Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in reduction in the need for surgery for nasal polyps by Week 24.||29.60|1.32|0.0209
82616435|NCT03280550|164949270|SUPERIORITY||Difference in Least Squares Means|-1.91|STANDARD_ERROR_OF_MEAN|0.48||0.0001|TWO_SIDED|95.0|-2.85|-0.96||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline TNSS, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm.|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the average daily Total Nasal Symptom Score (TNSS) at Week 24.||-0.96|-2.85|0.0001
82616436|NCT03280550|164949271|SUPERIORITY||Difference in Least Squares Means|3.81|STANDARD_ERROR_OF_MEAN|1.23||0.0024|TWO_SIDED|95.0|1.38|6.24||Tested at the two-sided 0.05 significance level.|Mixed-Effect Model of Repeated Measures|Adjustments: geographic region, asthma/aspirin sensitivity, treatment, timepoint, baseline UPSIT, treatment and baseline by timepoint interactions.|Difference in least squares means: Omalizumab arm minus Placebo arm|The null hypothesis was that no difference exists between the treatment groups for change from baseline in the UPSIT score at Week 24.||6.24|1.38|0.0024
82616437|NCT03345836|164949295|SUPERIORITY||Adjusted Risk Difference|17.9|||<|0.0001|TWO_SIDED|95.0|10.0|25.8||P-value was calculated using Cochran-Mantel Haenszel (CMH) test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% confidence interval (CI) were calculated using CMH risk difference estimate.|||25.8|10.0|<0.0001
82616438|NCT03345836|164949296|SUPERIORITY||Adjusted Risk Difference|31.2|||<|0.0001|TWO_SIDED|95.0|25.5|37.0||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH risk difference estimate.|||37.0|25.5|<0.0001
82616439|NCT03345836|164949298|SUPERIORITY||Adjusted Treatment Difference|25.9|||<|0.0001|TWO_SIDED|95.0|18.7|33.1||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||33.1|18.7|<0.0001
82616440|NCT03345836|164949299|SUPERIORITY||Adjusted Treatment Difference|16.8|||<|0.0001|TWO_SIDED|95.0|12.0|21.6||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||21.6|12.0|<0.0001
82616441|NCT03345836|164949300|SUPERIORITY||Adjusted Treatment Difference|22.5||||0.0001|TWO_SIDED|95.0|11.1|34.0||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||34.0|11.1|0.0001
82616442|NCT03345836|164949301|SUPERIORITY||Adjusted Treatment Difference|7.5|||<|0.0001|TWO_SIDED|95.0|5.2|9.8||P-value was calculated using mixed effect model repeat measurement (MMRM) with Baseline, treatment, visit, treatment by visit interaction and stratification factors in the model.|MMRM||Point estimate and 95% CI was calculated using MMRM.|||9.8|5.2|< 0.0001
82616443|NCT03345836|164949302|SUPERIORITY||Adjusted Treatment Difference|24.3|||<|0.0001|TWO_SIDED|95.0|17.2|31.5||P-value was calculated using MMRM with Baseline, treatment, visit, treatment by visit interaction and stratification factors in the model.|MMRM||Point estimate and 95% CI was calculated using MMRM.|||31.5|17.2|< 0.0001
82616444|NCT03345836|164949303|SUPERIORITY||Adjusted Treatment Difference|20.7|||<|0.0001|TWO_SIDED|95.0|13.7|27.8||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||27.8|13.7|<0.0001
82616445|NCT03345836|164949304|SUPERIORITY||Adjusted Treatment Difference|22.8|||<|0.0001|TWO_SIDED|95.0|14.4|31.2||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||31.2|14.4|<0.0001
82616446|NCT03345836|164949305|SUPERIORITY||Adjusted Treatment Difference|12.1||||0.0013|TWO_SIDED|95.0|4.7|19.5||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||19.5|4.7|0.0013
82616447|NCT03345836|164949306|SUPERIORITY||Treatment Difference|-2.6||||0.2834|TWO_SIDED|95.0|-7.6|2.4||P-value was calculated using Chi-squared test.|Chi-squared||Point estimate and 95% CI was calculated using Chi-squared test.|||2.4|-7.6|0.2834
82616448|NCT03345836|164949307|SUPERIORITY||Adjusted Treatment Difference|11.5||||0.0833|TWO_SIDED|95.0|-1.5|24.4||P-value was calculated using CMH test adjusted for randomization stratification factors.|Cochran-Mantel-Haenszel||Point estimate and 95% CI was calculated using CMH.|||24.4|-1.5|0.0833
82616449|NCT01943864|164949312|SUPERIORITY_OR_OTHER||non PD rate at Week 12|10.0||||0.976|TWO_SIDED|95.0|1.2|31.7|||Exact Binomial Test|||||31.7|1.2|0.976
82616450|NCT01943864|164949313|SUPERIORITY_OR_OTHER||non PD rate at Week 12|15.0||||0.909|TWO_SIDED|95.0|3.2|37.9|||Exact Binomial Test|||||37.9|3.2|0.909
82616451|NCT01943864|164949328|SUPERIORITY_OR_OTHER||Median PFS|10.6|||||TWO_SIDED|95.0|4.6|12.1|||||Lower and upper limits and estimation value are in terms of weeks|||12.1|4.6|
82616452|NCT01943864|164949329|SUPERIORITY_OR_OTHER||Median PFS|10.6|||||TWO_SIDED|95.0|4.6|12.7|||||Lower and upper limits and estimation value are in terms of weeks|||12.7|4.6|
82616453|NCT01943864|164949330|SUPERIORITY_OR_OTHER||Overall Survival|20.0|||||TWO_SIDED|95.0|6.2|39.3||||||||39.3|6.2|
82616454|NCT01943864|164949331|SUPERIORITY_OR_OTHER||ORR|0.0|||||TWO_SIDED|95.0|0.0|16.8||||||||16.8|0|
82616455|NCT01943864|164949332|SUPERIORITY_OR_OTHER||ORR|5.0|||||TWO_SIDED|95.0|0.1|24.9||||||||24.9|0.1|
82616456|NCT00320385|164949337|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.008|TWO_SIDED|95.0|0.57|0.93|||Log Rank||The Pike estimator of the treatment hazard ratio based on the log-rank test was provided, together with a 95% confidence interval.|||0.93|0.57|0.008
82616457|NCT00320385|164949338|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.106|TWO_SIDED|95.0|0.53|1.07|||Log Rank||The Pike estimator of the treatment hazard ratio based on the log-rank test was provided, together with a 95% confidence interval.|||1.07|0.53|0.106
82616458|NCT00320385|164949339|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.5||||0.46|TWO_SIDED|95.0|0.6|3.9|||Fisher Exact||Responses were compared between treatment arms using stratified Fisher's exact tests.|||3.9|0.6|0.460
82616459|NCT00320385|164949340|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.2||||0.01|TWO_SIDED|95.0|1.2|4.5|||Fisher Exact||Clinical Benefit was compared between treatment arms using stratified Fisher's exact tests.|||4.5|1.2|0.010
82616460|NCT02492750|164949345|OTHER||Maximum Tolerated Dose (MTD) Level|3.0|||||TWO_SIDED||||||||MTD is defined as the dose level below the lowest dose that induces DLT in at least one-third of patients. A total of 6 patients treated at the MTD will be sufficient to identify common toxicities at the MTD.|||||
82616461|NCT01842620|164949378|EQUIVALENCE|Geometric means ratio for AUC (0-t) of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of AUC0-36)*100|100.0|||||TWO_SIDED|90.0|92.62|107.98|||||Ratio of AUC0-36= (AUC0-36 of Test)/ AUC 0-36 Reference)|Overall period||107.98|92.62|
82616462|NCT01842620|164949379|EQUIVALENCE|Geometric means ratio for AUC(0-inf) of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of AUC0-inf)*100|99.02|||||TWO_SIDED|90.0|92.26|106.27|||||Ratio of AUC0-inf= (AUC0-inf of Test) / (AUC 0-inf of Reference)|For overall period||106.27|92.26|
82616463|NCT01842620|164949380|EQUIVALENCE|Geometric means ratio for Cmax of test drug (Oxemet) to be entirely fallen within range of 0.80 to 1.25 of that of reference drug (Glafornil).|(Ratio of Cmax)*100|98.34|||||TWO_SIDED|90.0|88.54|109.22|||||Ratio of Cmax= (Cmax of Test) / (Cmax of Reference)|Overall period||109.22|88.54|
82659739|NCT02648438|165037380|SUPERIORITY_OR_OTHER||Geometric mean ratio|101.15|||||TWO_SIDED|90.0|85.21|120.06|||||Ratio (%)|Statistical Assessment of AZD7594 Pharmacokinetic Parameter (AUC0-t) Following Inhalation Administration ofAZD7594 via DPI Device 2 Versus DPI Device 1.||120.06|85.21|
82659740|NCT04405570|165037407|SUPERIORITY|||||||0.5551|||||||Log Rank|||||||0.5551
82616464|NCT00256867|164949384|SUPERIORITY_OR_OTHER||Ratio Expressed as percent difference|-37.186|||<|0.0001|TWO_SIDED|95.0|-41.219|-32.879|||ANCOVA||Estimation parameter was Ratio to RSG Group expressed as percent difference from RSG group. Based on ANCOVA : Log(value) - log(baseline)= log(baseline) + sex + country + Treatment + Prior Sulfonylurea use|||-32.879|-41.219|<0.0001
82616465|NCT00256867|164949385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|||<|0.0001|TWO_SIDED|95.0|-1.09|-0.55|||ANCOVA||Change = Baseline + sex + country + Treatment + Prior Sulfonylurea use|||-0.55|-1.09|<0.0001
82616466|NCT00256867|164949389|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.32|||<|0.0001||95.0|16.52|79.85|||ANCOVA||Odds (logistic regression:log odds=Baseline + sex + Treatment + Prior Sulfonylurea use) of having an LDL-c \< 100 mg/dL at Week 6 on All FDC RSG/SIMV groups compared to All RSG monotherapy groups|||79.85|16.52|<.0001
82616467|NCT00256867|164949390|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.05|||<|0.0001|TWO_SIDED|95.0|2.32|7.07|||ANCOVA||Odds (logistic regression: log odds=Baseline + sex + Treatment + Prior SU use) of having an HbA1c \< 7% or reduction of HbA1c \>= 0.7% at Week 16 on All FDC group compared to Simv group.|||7.07|2.32|<0.0001
82616468|NCT00256867|164949391|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.93|||<|0.0001|TWO_SIDED|95.0|2.21|7.0|||ANCOVA||Odds (logistic regression:log odds=Baseline + sex + Treatment + Prior SU use) of having an FPG \< 7.0 mmol/L or reduction of FPG \>= 1.67 mmol/L at Week 16 on All FDC group compared to Simv group.|||7|2.21|<0.0001
82616469|NCT00875017|164949400|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) Mean Difference|-65.75|||<|0.001||95.0|-96.01|-35.49|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-35.49|-96.01|<0.001
82616470|NCT00875017|164949400|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-125.65|||<|0.001||95.0|-155.91|-95.39|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-95.39|-155.91|<0.001
82616471|NCT00875017|164949400|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-59.9|||<|0.001||95.0|-89.87|-29.93|||Mixed Models Analysis|||Net phosphorus absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-29.93|-89.87|<0.001
82616472|NCT00875017|164949401|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|71.9|||<|0.001||95.0|40.03|103.77|||Mixed Models Analysis|||Phosphorus binding was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||103.77|40.03|<0.001
82616473|NCT00875017|164949402|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.67||||0.049||95.0|-41.22|-0.13|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||-0.13|-41.22|0.049
82616474|NCT00875017|164949402|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-15.56||||0.133||95.0|-36.11|4.99|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||4.99|-36.11|0.133
82616475|NCT00875017|164949402|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|5.11||||0.612||95.0|-15.24|25.47|||Mixed Models Analysis|||Net calcium absorption was analysed using a mixed linear effect model with fixed effects for sequence group, period and treatment group. Subject within sequence effect was included as a random effect.||25.47|-15.24|0.612
82659741|NCT04405570|165037407|SUPERIORITY|||||||0.727|||||||Log Rank|||||||0.7270
82659742|NCT04405570|165037407|SUPERIORITY|||||||0.0128|||||||Log Rank|||||||0.0128
82659743|NCT04499963|165037411|SUPERIORITY|||||||0.984|||||||t-test, 2 sided|||We compared he ALSFRS-R slope (not the actual score) of the patients in our open label treatment versus the historical controls.||||0.984
82659744|NCT04499963|165037416|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82659745|NCT04499963|165037417|OTHER||||||>|0.5||||||Alpha Diversity|Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.5
82659746|NCT04499963|165037418|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82659747|NCT04499963|165037419|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82659748|NCT04499963|165037420|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82659749|NCT04499963|165037421|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82616476|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Delta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616477|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Theta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616478|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Alpha Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616479|NCT03342469|164949403|OTHER|||||||0.08||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Beta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||0.08
82616480|NCT03342469|164949403|OTHER|||||||0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1,14)= 4.55||Difference in Gamma Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||0.05
82616481|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Delta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616482|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Theta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616483|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Alpha Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC) This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons.||||>0.05
82616484|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||Difference in Beta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)||||>0.05
82616485|NCT03342469|164949403|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616486|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Delta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616487|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Theta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616488|NCT03342469|164949404|OTHER|||||||0.04||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1.14)= 4.88, p=0.04||"Difference in Alpha Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||0.04
82616489|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Beta Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616490|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in ADHD group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616491|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Delta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616492|NCT03342469|164949404|OTHER||||||>|0.05|||||||repeated measures General Linear Model|||"Difference in Theta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons"||||>0.05
82616493|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Alpha Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616494|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Beta Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82659750|NCT04499963|165037422|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82659751|NCT04499963|165037423|OTHER||||||>|0.05|||||||Kruskal-Wallis|||Open Label Arm participant samples from baseline, month 1, and month 6.||||>0.05
82499438|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.99|STANDARD_ERROR_OF_MEAN|8.91||||90.0|-23.69|5.71|||ANCOVA|||Extension Month 24; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||5.71|-23.69|
82616495|NCT03342469|164949404|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in Gamma Power in control group with and without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (EEG power during AFC, EEG power during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616496|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|F(1,15) = 3.65, p = 0.08||"Difference in inattentive ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (inattentive ASRS score during AFC, inattentive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616497|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in hyperactive ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (hyperactive ASRS score during AFC, hyperactive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616498|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in total ASRS in ADHD group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (total ASRS score during AFC, total ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616499|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"inattentive ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (inattentive ASRS score during AFC, inattentive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616500|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Hyperactive ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (hyperactive ASRS score during AFC, hyperactive ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616501|NCT03342469|164949405|OTHER||||||>|0.05||||||Significance level \</= 0.05. This was chosen due to the small sample size. The p-value is not adjusted for multiple comparisons as this was a pilot study and a power analysis for sample size was not conducted.|repeated measures General Linear Model|||"Difference in total ASRS in control group with/without exposure to AFC. General linear model assessed the impact of treatment (AFC v. placebo) on each EEG frequency band, taking into account order of materials. Dependent variable = Treatment (total ASRS score during AFC, total ASRS score during placebo); independent variable = order (AFC/placebo, placebo/AFC)~This is a pilot study, thus a power calculation was not done and it was not power to correct for multiple comparisons."||||>0.05
82616502|NCT05515601|164949416|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|0.986|||||TWO_SIDED|90.0|0.929|1.05||||||||1.05|0.929|
82616503|NCT05515601|164949417|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability.|Ratio of Geometric least squares mean|1.01|||||TWO_SIDED|90.0|0.948|1.08||||||||1.08|0.948|
82616504|NCT05515601|164949418|OTHER|A linear fixed-effects model is used to estimate the relative bioavailability|Ratio of Geometric least squares mean|1.02|||||TWO_SIDED|90.0|0.96|1.09||||||||1.09|0.960|
82616505|NCT02426658|164949438|SUPERIORITY|||||||0.7044|||||||Mixed Models Analysis|||||||0.7044
82616506|NCT00088634|164949443|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline BPRS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
82616507|NCT00088634|164949444|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline PANSS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
82616508|NCT00088634|164949445|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline CGI-S score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
82616509|NCT00088634|164949446|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||ANCOVA|||Comparisons between SM-13496 and placebo will be performed by means of a 2-way analysis of covariance (ANCOVA) model with treatment group and study center as factors, and baseline MADRS score as a covariate. Ninety-five percent (95%) confidence intervals will be constructed using the variability estimates from the ANCOVA model.||||<0.05
82616510|NCT01515306|164949465|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geo LS means|1.09|||||TWO_SIDED|90.0|0.93|1.29|||Mixed Models Analysis|Ratio of Geo LS mean is AUC(0-∞) of Cycle 2/Cycle 1.||||1.29|0.93|
82616511|NCT01515306|164949467|SUPERIORITY_OR_OTHER_LEGACY||Ratio of Geo LS means|0.97|||||TWO_SIDED|90.0|0.83|1.13|||Mixed Models Analysis|Ratio of Geo LS mean is Cmax of Cycle 2/Cycle 1.||||1.13|0.83|
82616512|NCT01204658|164949491|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 1 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 1 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
82616513|NCT01204658|164949491|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 2 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 2 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
82616514|NCT01204658|164949491|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.62|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine post dose 3 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 3 vaccination in the 10PP-LD Group minus Synflorix Group.||2.57|-2.62|0.003
82616515|NCT01204658|164949491|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-LD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.57||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-LD vaccine vs Synflorix™ vaccine across doses was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to vaccination, across doses, in the 10PP-LD Group minus Synflorix Group.||2.57|-2.61|0.003
82616516|NCT01204658|164949492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 1 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 1 vaccination in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
82616517|NCT01204658|164949492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 2 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 2 vaccination in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
82616518|NCT01204658|164949492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.63|2.66||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine post dose 3 was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to dose 3 vaccination in the 10PP-HD Group minus Synflorix Group.||2.66|-2.63|0.003
82659752|NCT04544787|165037435|OTHER|||||||0.7209|||||||Fisher Exact|||The number of participants with severe solicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe solicited adverse events was 5 out of 100.||||0.7209
82659753|NCT04544787|165037435|OTHER|||||||0.7209|||||||Fisher Exact|||The number of participants with severe solicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe solicited adverse events was 5 out of 100.||||0.7209
82659754|NCT04544787|165037435|OTHER|||||||0.3769|||||||Fisher Exact|||The number of participants with severe unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe unsolicited adverse events was 17 out of 100.||||0.3769
82659755|NCT04544787|165037435|OTHER|||||||0.3083|||||||Fisher Exact|||The number of participants with severe unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with severe unsolicited adverse events was 17 out of 100.||||0.3083
82616519|NCT01204658|164949492|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was supported if one could rule out an increase in terms of percentage of subjects (10PP-HD Group minus Synflorix Group) above 5% + half the incidence in the Synflorix Group (= null hypothesis) as shown by a 1-sided P-value \< 5%.|Difference in percentage|0.0||||0.003|TWO_SIDED|95.0|-2.61|2.64||1-sided P-value computed using Kem Philips' approach for ruling out an increase in % subjects with fever \> 40.0°C and causal relationship to vaccination \> the boundary expressed as 5% + 0.5\*rate in the Synflorix group.|Kem Phillip's statistical test|||Non-inferiority of 10PP-HD vaccine vs Synflorix™ vaccine across doses was assessed by computing the difference in percentages of subjects reporting Grade 3 fever causally related to vaccination, across doses, in the 10PP-HD Group minus Synflorix Group.||2.64|-2.61|0.003
82616520|NCT05138783|164949523|NON_INFERIORITY|Noninferiority in distance VA was declared if upper confidence limit was less than 0.05.|Least squares mean difference|-0.01|STANDARD_ERROR_OF_MEAN|0.004|||ONE_SIDED|95.0||0.0||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, period, and sequence) and random (subject) effects. Difference = PRECISION1 minus BIOTRUE. Sign (either negative or positive) is retained with the rounded value.|||0.00||
82616521|NCT03364335|164949524|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.5461|||||||ANCOVA|||||||0.5461
82616522|NCT03364335|164949524|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0364|||||||ANCOVA|||||||0.0364
82616523|NCT03364335|164949524|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0156|||||||ANCOVA|||||||0.0156
82616524|NCT03364335|164949524|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0349|||||||ANCOVA|||||||0.0349
82616525|NCT03364335|164949525|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.5348|||||||ANCOVA|||||||0.5348
82616526|NCT03364335|164949525|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0379|||||||ANCOVA|||||||0.0379
82616527|NCT03364335|164949525|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0215|||||||ANCOVA|||||||0.0215
82616528|NCT03364335|164949525|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline body weight as the covariate. Treatment A is used as the reference group.||||||0.0464|||||||ANCOVA|||||||0.0464
82616529|NCT03364335|164949526|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||1|||||||Chi-squared|||||||1.0000
82616530|NCT03364335|164949526|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.2646|||||||Chi-squared|||||||0.2646
82616531|NCT03364335|164949526|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.0749|||||||Chi-squared|||||||0.0749
82616532|NCT03364335|164949526|OTHER|Pearson's Chi Square Test is used. Fisher exact test is used when any expected cell count is less than 5. Treatment A is used as the reference group.||||||0.6758|||||||Chi-squared|||||||0.6758
82377520|NCT00490841|164462245|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||1-sided exact binomial test|||"objective is to demonstrate the binary restenosis rate at 9 months is \< 28.6% OPC. Assumptions for the primary endpoint analysis:~* H0: Restenosis Rate ≥ 28.6%~* HA: Restenosis Rate \< 28.6%~* Assumed binary restenosis rate = 20%~* Power = 80%~* One-sided type I error = 5%~With the above assumptions, 161 samples would be required. To account for approximately 20% lost to follow-up rate, 202 subjects will be enrolled in the study. The sample size calculation was performed using PASS 2005."||||< 0.0001
82616533|NCT03364335|164949527|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.9656|||||||ANCOVA|||||||0.9656
82616534|NCT03364335|164949527|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.4254|||||||ANCOVA|||||||0.4254
82659756|NCT04544787|165037435|OTHER|||||||0.4975|||||||Fisher Exact|||The number of participants with serious unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c1 (combined Groups 1 and 2) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with serious unsolicited adverse events was 0 out of 100.||||0.4975
82616535|NCT03364335|164949527|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.1276|||||||ANCOVA|||||||0.1276
82616536|NCT03364335|164949527|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline waist circumference as the covariate. Treatment A is used as the reference group.||||||0.5937|||||||ANCOVA|||||||0.5937
82616537|NCT03364335|164949528|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.601|||||||ANCOVA|||||||0.6010
82616538|NCT03364335|164949528|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6513|||||||ANCOVA|||||||0.6513
82616539|NCT03364335|164949528|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4354|||||||ANCOVA|||||||0.4354
82616540|NCT03364335|164949528|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.031|||||||ANCOVA|||||||0.0310
82616541|NCT03364335|164949529|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4644|||||||ANCOVA|||||||0.4644
82616542|NCT03364335|164949529|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8573|||||||ANCOVA|||||||0.8573
82616543|NCT03364335|164949529|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8167|||||||ANCOVA|||||||0.8167
82616544|NCT03364335|164949529|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.9223|||||||ANCOVA|||||||0.9223
82616545|NCT03364335|164949530|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6574|||||||ANCOVA|||||||0.6574
82659757|NCT04544787|165037435|OTHER|||||||1|||||||Fisher Exact|||The number of participants with serious unsolicited adverse events in the OPV-vaccinated groups who received nOPV-c2 (combined Groups 3 and 4) was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33) using the two-sided Fisher's exact test. In the UAM1 study, the number of participants with serious unsolicited adverse events was 0 out of 100.||||1.0000
82616546|NCT03364335|164949530|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.8971|||||||ANCOVA|||||||0.8971
82616547|NCT03364335|164949530|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.6317|||||||ANCOVA|||||||0.6317
82616548|NCT03364335|164949530|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.0341|||||||ANCOVA|||||||0.0341
82616549|NCT03364335|164949531|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.372|||||||ANCOVA|||||||0.3720
82616550|NCT03364335|164949531|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.2302|||||||ANCOVA|||||||0.2302
82616551|NCT03364335|164949531|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.1377|||||||ANCOVA|||||||0.1377
82616552|NCT03364335|164949531|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline fasting plasma lipid as the covariate. Treatment A is used as the reference group.||||||0.4295|||||||ANCOVA|||||||0.4295
82616553|NCT03364335|164949532|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.6726|||||||ANCOVA|||||||0.6726
82616554|NCT03364335|164949532|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.7934|||||||ANCOVA|||||||0.7934
82616555|NCT03364335|164949532|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.5485|||||||ANCOVA|||||||0.5485
82616556|NCT03364335|164949532|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline Fasting Plasma Glucose as the covariate. Treatment A is used as the reference group.||||||0.3676|||||||ANCOVA|||||||0.3676
82616557|NCT03364335|164949533|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.1653|||||||ANCOVA|||||||0.1653
82616558|NCT03364335|164949533|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.197|||||||ANCOVA|||||||0.1970
82616559|NCT03364335|164949533|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.0608|||||||ANCOVA|||||||0.0608
82616560|NCT03364335|164949533|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline HbA1c as the covariate. Treatment A is used as the reference group.||||||0.1583|||||||ANCOVA|||||||0.1583
82659758|NCT04544787|165037435|OTHER|||||||1|||||||Fisher Exact|||Comparison of severe solicited adverse events||||1.0000
82659759|NCT04544787|165037435|OTHER|||||||1|||||||Fisher Exact|||Comparison of severe solicited adverse events||||1.0000
82616561|NCT03364335|164949534|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.0524|||||||ANCOVA|||||||0.0524
82616562|NCT03364335|164949534|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.5221|||||||ANCOVA|||||||0.5221
82616563|NCT03364335|164949534|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.3702|||||||ANCOVA|||||||0.3702
82616564|NCT03364335|164949534|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline diastolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.5426|||||||ANCOVA|||||||0.5426
82616565|NCT03364335|164949535|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.1843|||||||ANCOVA|||||||0.1843
82616566|NCT03364335|164949535|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.4411|||||||ANCOVA|||||||0.4411
82616567|NCT03364335|164949535|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.6991|||||||ANCOVA|||||||0.6991
82659760|NCT04544787|165037435|OTHER|||||||0.1571|||||||Fisher Exact|||Comparison of severe unsolicited adverse events||||0.1571
82377521|NCT03975491|164462375|SUPERIORITY||Mean Difference (Net)|20.9||||0.32|TWO_SIDED|95.0|-17.1|76.2|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||76.2|-17.1|0.32
82616568|NCT03364335|164949535|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline systolic blood pressure as the covariate. Treatment A is used as the reference group.||||||0.3721|||||||ANCOVA|||||||0.3721
82616569|NCT03364335|164949536|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.0318|||||||ANCOVA|||||||0.0318
82616570|NCT03364335|164949536|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.3827|||||||ANCOVA|||||||0.3827
82616571|NCT03364335|164949536|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.005|||||||ANCOVA|||||||0.0050
82616572|NCT03364335|164949536|OTHER|Analysis of covariance (ANCOVA) model: with treatment group and time as the main effects and baseline hsCRP as the covariate. Treatment A is used as the reference group.||||||0.1045|||||||ANCOVA|||||||0.1045
82616573|NCT03725202|164949537|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|17.1|||=|0.0019|TWO_SIDED|95.0|6.3|27.8|||Cochran-Mantel-Haenszel||Response rate difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||27.8|6.3|=0.0019
82616574|NCT03725202|164949537|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|12.1|||=|0.0579|TWO_SIDED|95.0|-0.4|24.6|||Cochran-Mantel-Haenszel||Response rate difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||24.6|-0.4|=0.0579
82616575|NCT03725202|164949538|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|20.7|||<|0.0001|TWO_SIDED|95.0|11.3|30.2|||Cochran-Mantel-Haenszel||Response rate difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||30.2|11.3|<0.0001
82616576|NCT03725202|164949538|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|9.9|||=|0.0699|TWO_SIDED|95.0|-0.8|20.6|||Cochran-Mantel-Haenszel||Response rate difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||20.6|-0.8|=0.0699
82616577|NCT03725202|164949539|SUPERIORITY|P-value is based on the van Elteren test, adjusting for the strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease)).|||||<|0.0001|||||||van Elteren test|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||||<0.0001
82616578|NCT03725202|164949539|SUPERIORITY|P-value is based on the van Elteren test, adjusting for the strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease)).|||||<|0.0001|||||||van Elteren test|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||||<0.0001
82659761|NCT04544787|165037435|OTHER|||||||0.296|||||||Fisher Exact|||Comparison of severe unsolicited adverse events||||0.2960
82616579|NCT03725202|164949540|SUPERIORITY|Treatment comparisons in the distribution of time-to-event between each upadacitinib group and the placebo are conducted using stratified log-rank test stratified by stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease). Within each stratum, 95% CI for difference are calculated using Cox proportional hazards model with stratification factors as covariates|Cox Proportional Hazard|0.57|||=|0.0025|TWO_SIDED|95.0|0.399|0.826|||Log-rank test|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.826|0.399|=0.0025
82616580|NCT03725202|164949540|SUPERIORITY|Treatment comparisons in the distribution of time-to-event between each upadacitinib group and the placebo are conducted using stratified log-rank test stratified by stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease). Within each stratum, 95% CI for difference are calculated using Cox proportional hazards model with stratification factors as covariates|Cox Proportional Hazard|0.75|||=|0.1778|TWO_SIDED|95.0|0.499|1.136|||Log-rank test|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.136|0.499|=0.1778
82616581|NCT03725202|164949541|SUPERIORITY|The point estimate of flare rate at Week 52 from the Kaplan-Meier estimate for each stratum is used to derive the stratified disease flare rate. P-value, and 95% CI for the odds ratio between each upadacitinib group and placebo is also provided. Stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease) were used.|Odds Ratio (OR)|0.47|||=|0.0014|TWO_SIDED|95.0|0.29|0.74|||Stratified Test for Odds Ratio|This method is described in J Immunother Cancer. 2021 Nov;9(11):e003323. doi: 10.1136/jitc-2021-003323.||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.74|0.29|=0.0014
82616582|NCT03725202|164949541|SUPERIORITY|The point estimate of flare rate at Week 52 from the Kaplan-Meier estimate for each stratum is used to derive the stratified disease flare rate. P-value, and 95% CI for the odds ratio between each upadacitinib group and placebo is also provided. Stratification factors (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤ 30 mg) and disease status (new onset or relapsing disease) were used.|Odds Ratio (OR)|0.6|||=|0.0633|TWO_SIDED|95.0|0.35|1.03|||Stratified Test for Odds Ratio|This method is described in J Immunother Cancer. 2021 Nov;9(11):e003323. doi: 10.1136/jitc-2021-003323.||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.03|0.35|=0.0633
82616583|NCT03725202|164949542|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|30.3|||<|0.0001|TWO_SIDED|95.0|20.4|40.2|||Cochran-Mantel-Haenszel|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||40.2|20.4|<0.0001
82616584|NCT03725202|164949542|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|23.5|||<|0.0001|TWO_SIDED|95.0|11.7|35.3|||Cochran-Mantel-Haenszel|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||35.3|11.7|<0.0001
82616585|NCT03725202|164949543|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|20.8|||=|0.0002|TWO_SIDED|95.0|9.7|31.9|||Cochran-Mantel-Haenszel|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||31.9|9.7|=0.0002
82616586|NCT03725202|164949543|SUPERIORITY|Across the strata, 95% CI for adjusted difference and p-value are calculated according to the Cochran-Mantel-Haenszel test adjusted for strata (Baseline CS dose (prednisone or prednisolone \> 30 mg or ≤30 mg) and disease status (new onset or relapsing disease)) for the comparison of two treatment groups. Within each stratum, 95% CI for difference are calculated using normal approximation to the binomial distribution.|Adjusted Response Rate Difference|3.2|||=|0.6276|TWO_SIDED|95.0|-9.6|16.0|||Cochran-Mantel-Haenszel|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||16.0|-9.6|=0.6276
82616587|NCT03725202|164949544|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|3.7526|STANDARD_ERROR_OF_MEAN|1.1981|=|0.0019|TWO_SIDED|95.0|1.3932|6.1119|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib - Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.1119|1.3932|=0.0019
82616588|NCT03725202|164949544|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|2.6094|STANDARD_ERROR_OF_MEAN|1.4185|=|0.067|TWO_SIDED|95.0|-0.1841|5.4028|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib - Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||5.4028|-0.1841|=0.0670
82616589|NCT03725202|164949545|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.6||||0.001|TWO_SIDED|95.0|0.4|0.8|||Poisson regression model|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||0.8|0.4|0.0010
82659762|NCT04544787|165037436|NON_INFERIORITY|The primary immunogenicity endpoint, seroprotection on Day 28 after a single dose of each vaccine candidate, was formally compared with the corresponding endpoint from UAM1 via a non-inferiority test of the difference of each of the novel candidates to the monovalent OPV2 control, mOPV2, each using one-sided α=0.025 and a non-inferiority margin of 10%, computed using two-sided α=0·05 Miettinen and Nurminen score-based CIs for inference.|Difference|2.0|||||TWO_SIDED|95.0|-1.9|7.0||||||The primary immunogenicity endpoint, the seroprotection rate after one dose of either vaccine candidate in the OPV-vaccinated groups (nOPV2 combined groups 1 and 2, and combined groups 3 and 4), was compared with the corresponding endpoint from the historical monovalent OPV2 (mOPV2) control study (UAM1, EudraCT # 2015-003325-33). In the UAM1 study, the observed seroprotection rate after a single dose of mOPV2 was 98% (98 out of 100 participants), with a 95% confidence interval (CI) of 93-100%.||7.0|-1.9|
82659763|NCT04544787|165037436|NON_INFERIORITY|The primary immunogenicity endpoint, seroprotection on Day 28 after a single dose of each vaccine candidate, was formally compared with the corresponding endpoint from UAM1 via a non-inferiority test of the difference of each of the novel candidates to the monovalent OPV2 control, mOPV2, each using one-sided α=0.025 and a non-inferiority margin of 10%, computed using two-sided α=0·05 Miettinen and Nurminen score-based CIs for inference.|Difference|2.0|||||TWO_SIDED|95.0|-1.8|7.0||||||The primary immunogenicity endpoint, the seroprotection rate after one dose of either vaccine candidate in the OPV-vaccinated groups (nOPV2 combined groups 1 and 2, and combined groups 3 and 4), was compared with the corresponding endpoint from the historical monovalent OPV2 control study (UAM1, EudraCT # 2015-003325-33). In the UAM1 study, the observed seroprotection rate after a single dose of mOPV2 was 98% (98 out of 100 participants), with a 95% confidence interval (CI) of 93-100%.||7.0|-1.8|
82659764|NCT03273153|165037454|SUPERIORITY||Hazard Ratio (HR)|1.15||||0.2954|TWO_SIDED|95.0|0.88|1.5|||Regression, Cox|||||1.50|0.88|0.2954
82659765|NCT01237054|165037486|SUPERIORITY|||||||0.024||||||The reported p-value is representative of the difference in levels of Ang2 in both groups.|Wilcoxon rank sum test|||||||0.024
82659766|NCT01237054|165037486|SUPERIORITY|||||||0.055||||||The reported p-value is representative of the difference in levels of G-CSF in both groups.|Wilcoxon rank sum test|||||||0.055
82659767|NCT01237054|165037486|SUPERIORITY|||||||0.055||||||The reported p-value is representative of the difference in levels of Follistatin in both groups.|Wilcoxon rank sum test|||||||0.055
82616590|NCT03725202|164949545|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.8|||=|0.2722|TWO_SIDED|95.0|0.6|1.2|||Poisson regression model|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.2|0.6|=0.2722
82659768|NCT01237054|165037486|SUPERIORITY|||||||0.0098||||||The reported p-value is representative of the difference in levels of HGF in both groups.|Wilcoxon rank sum test|||||||0.0098
82659769|NCT01237054|165037486|SUPERIORITY|||||||0.02||||||The reported p-value is representative of the difference in levels of VEGF-A in both groups.|Wilcoxon rank sum test|||||||0.02
82659770|NCT01237054|165037487|OTHER|Other, trend test.||||||0.008|||||||Jonckheere-Terpstra test for trend|||||||0.008
82492722|NCT00345839|164678240|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||||||No adjustments for multiple comparisons were made for the components of the primary composite endpoint since the purpose of these analyses is to show how each component contributes to the results of the composite.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.190
82492723|NCT00345839|164678240|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.72|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.72|
82659771|NCT01237054|165037488|OTHER|Other, trend test.||||||0.15||||||The reported p-value is representative of the difference in levels of Kep between MGUS and SMM+MM.|Jonckheere-Terpstra test for trend|||||||0.15
82492724|NCT00345839|164678241|SUPERIORITY_OR_OTHER_LEGACY|||||||0.277||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.277
82659772|NCT01237054|165037488|OTHER|Other, trend test.||||||0.33||||||The reported p-value is representative of the difference in levels of Ktrans between MGUS and SMM+MM.|Jonckheere-Terpstra test for trend|||||||0.33
82659773|NCT01237054|165037489|SUPERIORITY|||||||0.08|||||||Wilcoxon rank sum test|||||||0.08
82659774|NCT01237054|165037490|SUPERIORITY|||||||0.011|||||||Wilcoxon rank sum test|||||||0.011
82659775|NCT05323396|165037511|OTHER|||||||0.19|||||||Student's unpaired t-test|||||||0.19
82659776|NCT05323396|165037512|OTHER|||||||0.85|||||||Student's unpaired t-test|||||||0.85
82659777|NCT05323396|165037513|OTHER|||||||0.77|||||||Student's unpaired t-test|||||||0.77
82659778|NCT05323396|165037514|OTHER|||||||0.12|||||||student's unpaired t-test|||||||0.12
82659779|NCT05323396|165037515|OTHER|||||||0.81|||||||student's unpaired t-test|||||||0.81
82659780|NCT05323396|165037516|OTHER|||||||0.65|||||||student's unpaired t-test|||||||0.65
82659781|NCT03134222|165037517|SUPERIORITY|||||||0.75|||||||Mixed-effect repeated measures model|||||||0.7500
82659782|NCT03134222|165037517|SUPERIORITY|||||||0.3047|||||||Mixed-effect repeated measures model|||||||0.3047
82659783|NCT03134222|165037518|SUPERIORITY|||||||0.8869|||||||Cochran-Mantel-Haenszel|||||||0.8869
82659784|NCT03134222|165037518|SUPERIORITY|||||||0.3293|||||||Cochran-Mantel-Haenszel|||||||0.3293
82659785|NCT03134222|165037519|SUPERIORITY|||||||0.7456|||||||Cochran-Mantel-Haenszel|||||||0.7456
82659786|NCT03134222|165037519|SUPERIORITY|||||||0.6407|||||||Cochran-Mantel-Haenszel|||||||0.6407
82659787|NCT03134222|165037520|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
82659788|NCT03134222|165037520|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
82659789|NCT03134222|165037521|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
82659790|NCT03134222|165037521|OTHER||||||<|0.0001|||||||One sample exact binomial test|||||||<0.0001
82659791|NCT00520234|165037522|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||Cochran-Mantel-Haenszel|APACHE II Stratified||||||0.14
82659792|NCT00913627|165037533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.16|||<|0.001|TWO_SIDED|95.0|12.13|20.19||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||20.19|12.13|<0.001
82659793|NCT00913627|165037533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.0|||<|0.001|TWO_SIDED|95.0|13.02|20.99||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||20.99|13.02|<0.001
82616591|NCT03725202|164949546|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|1.38|=|0.0036|TWO_SIDED|95.0|1.33|6.76|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib -Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.76|1.33|=0.0036
82616592|NCT03725202|164949546|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|1.63|=|0.0338|TWO_SIDED|95.0|0.27|6.7|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib -Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||6.70|0.27|=0.0338
82616593|NCT03725202|164949547|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|2.7325|STANDARD_ERROR_OF_MEAN|2.9635|=|0.3573|TWO_SIDED|95.0|-3.102|8.567|||Mixed-Effect Model Repeat Measurement||Difference = 15 mg Upadacitinib -Placebo|15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||8.5670|-3.1020|=0.3573
82616594|NCT03725202|164949547|SUPERIORITY|The Mixed-Effect Model Repeat Measurement with Baseline value, categorical fixed effects of treatment, visit and treatment-by-visit interaction, stratification factors at randomization (Baseline CS dose (prednisone or prednisolone \>30 mg, prednisone or prednisolone ≤30 mg) and Baseline disease status (new onset disease, relapsing disease)) included in the model. An unstructured variance covariance matrix is used. Data after initiation of corticosteroid escape therapy are excluded from the model.|LS Mean Difference|5.4216|STANDARD_ERROR_OF_MEAN|3.4785|=|0.1203|TWO_SIDED|95.0|-1.4269|12.2701|||Mixed-Effect Model Repeat Measurement||Difference = 7.5 mg Upadacitinib -Placebo|7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||12.2701|-1.4269|=0.1203
82616595|NCT03725202|164949548|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|1.1|||=|0.4371|TWO_SIDED|95.0|0.8|1.6|||Poisson regression model|||15 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.6|0.8|=0.4371
82616596|NCT03725202|164949548|SUPERIORITY|Comparisons between each upadacitinib treatment group and the placebo group are carried out using Poisson regression model with stratification factors as covariates and log(duration of study participation in years) as an offset. Robust standard error is used in inference.|Rate Ratio|0.9|||=|0.7749|TWO_SIDED|95.0|0.6|1.4|||Poisson regression model|||7.5 mg Upadacitinib + 26-week CS taper vs Placebo + 52-week CS taper||1.4|0.6|=0.7749
82616597|NCT02658994|164949555|SUPERIORITY||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|95.0|-0.33|0.07||||||||0.07|-0.33|
82616598|NCT02658994|164949556|SUPERIORITY||Median Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-1.39|1.19||||||||1.19|-1.39|
82616599|NCT02658994|164949557|SUPERIORITY||Mean Difference (Final Values)|-0.12|||||TWO_SIDED|95.0|-0.33|0.09||||||||0.09|-0.33|
82616600|NCT02658994|164949558|SUPERIORITY||Mean Difference (Final Values)|0.38|||||TWO_SIDED|95.0|-0.19|0.96||||||Child Bayley scaled receptive score||0.96|-0.19|
82616601|NCT02658994|164949558|SUPERIORITY||Mean Difference (Final Values)|0.03|||||TWO_SIDED|95.0|-0.83|0.9||||||Child Bayley scaled fine motor score||0.90|-0.83|
82616602|NCT02658994|164949559|SUPERIORITY||Risk Ratio (RR)|0.67|||||TWO_SIDED|95.0|0.43|1.05||||||||1.05|0.43|
82616603|NCT02658994|164949560|SUPERIORITY||Risk Ratio (RR)|-0.09|||||TWO_SIDED|95.0|-0.32|0.15||||||Length-for-age z-scores||0.15|-0.32|
82616604|NCT02658994|164949560|SUPERIORITY||Risk Ratio (RR)|-0.12|||||TWO_SIDED|95.0|-0.33|0.1||||||Weight-for-age z-scores||0.10|-0.33|
82616605|NCT00262080|164949561|SUPERIORITY_OR_OTHER_LEGACY|||||||0.037||95.0||||no adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|non-parametric Wilcoxon Rank Sum test|||The primary efficacy analysis compared the TOS at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the non-parametric Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.037
82616606|NCT00262080|164949562|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Wilcoxon Rank Sum Test.|||The analysis compared the change from baseline in MSCS score at 4 hours post-dosing for patients treated with ecallantide and placebo. Treatment effect was assessed by the non-parametric Wilcoxon Rank Sum test because of an assumed non-normal distribution.||||0.044
82616607|NCT00262080|164949566|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0||||No adjustment was made for multiple comparisons. Treatment effect will be deemed statistically significant if the coefficient for the treatment group within the statistical model is significant at level 0.05.|Log Rank|||The Log-Rank test was used to compare the time distribution between the two treatment groups.||||0.055
82659794|NCT00913627|165037533|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|||<|0.001|TWO_SIDED|95.0|8.33|16.26||p-value adjusted for baseline pain severity rating (PSR) and gender|ANOVA|||||16.26|8.33|<0.001
82659795|NCT00913627|165037534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.34|||<|0.001|TWO_SIDED|95.0|4.3|8.38||p-value adjusted for baseline PSR and gender|ANOVA|||||8.38|4.30|<0.001
82659796|NCT00913627|165037534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.06|||<|0.001|TWO_SIDED|95.0|5.05|9.08||p-value adjusted for baseline PSR and gender|ANOVA|||||9.08|5.05|<0.001
82616608|NCT03007485|164949568|SUPERIORITY||Odds Ratio (OR)|1.0|||<|0.05|TWO_SIDED|95.0||||Reported p-value was calculated|t-test, 2 sided|||Sample size and power calculation was a composite of COPD-related hospital readmissions or death within 6 months of discharge. First level of analysis was the ITT, which included all the patients randomly assigned to an arm at the beginning of the study (excluding those who were found to not meet inclusion criteria for referral). The second included all the patients medically cleared and third included all the patients who were medically cleared and who had participated in at least 1 PR session.|"The primary outcome was a composite of COPD-related hospital readmissions or death within 6 months of discharge (binary: yes/no). Logistic regression was used to compare the primary outcome in terms of the OR of event rates between the 2 arms, in 3 sets of models (per each of the 3 aforementioned level of analyses):~* Model 1: Treatment arm only with no other covariates added to the model~* Model 2: Treatment arm, adjusted for race and clinical site (stratification variables)~* Model 3: Treatment arm, adjusted for race, clinical site, and risk factors reported in the literature to be associated with the primary outcome, for explanatory purposes To examine the role of adherence on the primary outcome, we included adherence as a binary variable and as a continuous variable (percentage of sessions attended) in the 3 models."|||<.05
82616609|NCT01848054|164949573|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy analysis of retention in treatment at Day 3 was assessed in the per protocol population. In addition, a sensitivity analysis assessed retention in treatment in the full analysis population. For these assessments, the margin to determine non-inferiority (i.e., lower limit of the 95% CI for the difference between BNX and generic buprenorphine of ≥-10%) was selected based on clinical experience to justify comparison between the 2 treatments.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Comparisons between treatment groups were reported with 2-sided p values using 95% CIs for the difference.||||||<0.05
82616610|NCT01848054|164949580|NON_INFERIORITY_OR_EQUIVALENCE|The primary efficacy analysis of retention in treatment at Day 3 was assessed in the per protocol population. In addition, a sensitivity analysis assessed retention in treatment in the full analysis population. For these assessments, the margin to determine non-inferiority (i.e., lower limit of the 95% CI for the difference between BNX and generic buprenorphine of ≥-10%) was selected based on clinical experience to justify comparison between the 2 treatments.|||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|Comparisons between treatment groups were reported with 2-sided p values using 95% CIs for the difference.||||||<0.05
82616611|NCT02420223|164949585|SUPERIORITY|||||||0.017|||||||Regression, Logistic|||||||.017
82616612|NCT02420223|164949585|SUPERIORITY|||||||0.337|||||||Regression, Logistic|||||||0.337
82616613|NCT02420223|164949588|SUPERIORITY|||||||0.14|||||||t-test, 2 sided|||||||0.14
82377522|NCT03975491|164462376|SUPERIORITY||Mean Difference (Net)|11.4||||0.25|TWO_SIDED|95.0|-7.5|34.0|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||34.0|-7.5|0.25
82616614|NCT02420223|164949589|SUPERIORITY|||||||0.41|||||||t-test, 2 sided|||||||0.41
82616615|NCT02420223|164949590|SUPERIORITY|||||||0.06|||||||Likelihood ration Chi-Square test|||||||0.06
82616616|NCT02345252|164949599|NON_INFERIORITY|A sample size of 275 HIV-1 infected participants per treatment group would provide 85% power to detect a noninferiority margin of 8% in the Week 48 response rate difference between the FTC/RPV/TAF group and FTC/RPV/TDF group. For sample size and power computation, it is assumed that both treatment groups will have a response rate of 89% (based on Gilead Study GS-US-292-0109), that a noninferiority margin is 8%, and that the significance level of the test is at a one-sided alpha level of 0.025.|Difference in Percentages|-0.3|||||TWO_SIDED|95.001|-4.2|3.7|||||The difference in percentages and its 95.001% confidence interval (CI) were calculated based on an unconditional exact method using 2 inverted 1-sided tests.|The null hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48 in the FTC/RPV/TAF group was at least 8% lower than the rate in the FTC/RPV/TDF group; the alternative hypothesis was that the percentage of participants with HIV-1 RNA \< 50 copies/mL in the FTC/RPV/TAF group was less than 8% lower than that in the FTC/RPV/TDF group.||3.7|-4.2|
82616617|NCT02345252|164949599|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82616618|NCT02336594|164949609|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the Pharmacokinetics (PK), Pharmacodynamics (PD), and safety profile of RDEA3170.|Geometric Least Squares Mean Ratio (%)|107.0|||||TWO_SIDED|90.0|95.2|120.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||120|95.2|
82616619|NCT02336594|164949611|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|97.3|||||TWO_SIDED|90.0|85.6|111.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||111|85.6|
82616620|NCT02336594|164949612|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|100.0|||||TWO_SIDED|90.0|87.3|115.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||115|87.3|
82492725|NCT00345839|164678241|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.8|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.80|
82616621|NCT02336594|164949614|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|182.0|||||TWO_SIDED|90.0|144.0|230.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||230|144|
82377523|NCT03975491|164462377|SUPERIORITY||Mean Difference (Net)|-3.6||||0.52|TWO_SIDED|95.0|-13.7|7.7|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||7.7|-13.7|0.52
82492726|NCT00345839|164678242|SUPERIORITY_OR_OTHER_LEGACY|||||||0.607||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.607
82616622|NCT02336594|164949615|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|140.0|||||TWO_SIDED|90.0|121.0|163.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||163|121|
82616623|NCT02336594|164949616|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|134.0|||||TWO_SIDED|90.0|114.0|156.0|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||156|114|
82616624|NCT02336594|164949617|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|79.1|||||TWO_SIDED|90.0|66.4|94.2|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||94.2|66.4|
82616625|NCT02336594|164949618|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|85.5|||||TWO_SIDED|90.0|73.9|98.8|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||98.8|73.9|
82616626|NCT02336594|164949619|NON_INFERIORITY_OR_EQUIVALENCE|The sample size is not based on formal power calculations, as this study is designed only to provide an initial assessment of the PK, PD, and safety profile of RDEA3170.|Geometric Least Squares mean Ratio (%)|83.4|||||TWO_SIDED|90.0|73.5|94.7|||Mixed Models Analysis|A mixed effect model on the natural log-transformed PK parameters Cmax, AUClast, and AUC∞ with fixed effect for treatment.||||94.7|73.5|
82616627|NCT02403830|164949628|SUPERIORITY||Mean Difference (Final Values)|-32.0||||0.261|TWO_SIDED|95.0|-90.0|25.0|||Mixed Models Analysis|||||25|-90|0.261
82616628|NCT01980706|164949631|SUPERIORITY||Mean Difference (Net)|4.16||||0.018|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.018
82659797|NCT00913627|165037534|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.05|||<|0.001|TWO_SIDED|95.0|3.04|7.06||p-value adjusted for baseline PSR and gender|ANOVA|||||7.06|3.04|<0.001
82616629|NCT01980706|164949632|SUPERIORITY||Mean Difference (Net)|3.68||||0.028|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.028
82616630|NCT01980706|164949633|SUPERIORITY||Mean Difference (Net)|0.65||||0.52|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.52
82616631|NCT01980706|164949634|SUPERIORITY||Mean Difference (Net)|0.84||||0.43|TWO_SIDED|||||Threshold for significance is \<.05|Mixed Models Analysis||Overall, treatment effect F value testing under the null hypothesis the equality of the average outcome over the three groups.|||||0.43
82616632|NCT01980706|164949635|SUPERIORITY||Mean Difference (Final Values)|0.52||||0.6|TWO_SIDED|||||Threshold for significance is \<.05|ANCOVA|Adjusted for baseline|Estimated parameter is the overall treatment main effect F statistic from the fitted ANCOVA model assessing the null hypothesis of equal values across the three groups|||||0.60
82616633|NCT01980706|164949636|SUPERIORITY||Table probability for Fisher's Exact|0.002||||0.07|TWO_SIDED|||||Threshold for significance is \<.05|Fisher Exact|||||||0.07
82616634|NCT02458690|164949674|SUPERIORITY|||||||0.6|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.60
82616635|NCT02458690|164949675|SUPERIORITY||||||<|0.01|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||<0.01
82616636|NCT02458690|164949676|SUPERIORITY|||||||0.81|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.81
82377524|NCT03975491|164462378|SUPERIORITY||Mean Difference (Net)|0.59||||0.21|TWO_SIDED|95.0|-0.33|1.51|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||1.51|-0.33|0.21
82616637|NCT02458690|164949677|SUPERIORITY|||||||0.2|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.20
82616638|NCT02458690|164949678|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.09
82616639|NCT02458690|164949679|SUPERIORITY|||||||0.23|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.23
82616640|NCT02458690|164949680|SUPERIORITY|||||||0.09|||||||ANCOVA|ANCOVA models adjusted for the stratification variables of age group and sex||||||0.09
82616641|NCT00830037|164949684|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35||||0.79|TWO_SIDED|95.0|-2.9|2.3||a = 0.05|Mixed Models Analysis|Wald test||The analysis of the primary outcome was intention to treat, if the patient received at least one dose of the randomized drug (which was the case for each subject). A linear mixed model was used with GFR as the outcome variable. Fixed effects were indicator variables for time (treated as a continuous variable), treatment, and their interaction. Random effects were subject and time with unstructured covariance; statistical inference was made using the maximum likelihood estimator.||2.3|-2.9|0.79
82616642|NCT00830037|164949685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035||||0.83|TWO_SIDED|95.0|-0.294|0.365||a = 0.05|Mixed Models Analysis|Wald test||The secondary analysis examined the mean change from baseline proteinuria (log protein to creatinine ratio) at 2 years. The between-groups difference in mean change from baseline is reported with a 95% confidence interval and the p-value from the Wald test.||0.365|-0.294|0.83
82659798|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-72.19|||<|0.001|TWO_SIDED|95.0|-88.56|-55.83||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-55.83|-88.56|<0.001
82659799|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-54.30|-87.14|<0.001
82616643|NCT01798706|164949697|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.088|<|0.0001|TWO_SIDED|95.0|-0.81|-0.464||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 glomerular filtration rate (eGFR) (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline HbA1c value as a covariate.||-0.464|-0.81|< 0.0001
82616644|NCT01798706|164949698|SUPERIORITY_OR_OTHER||LS Mean Difference|-5.05|STANDARD_ERROR_OF_MEAN|0.464|<|0.0001|TWO_SIDED|95.0|-5.96|-4.132||Threshold for significance at 0.05 level. Testing sequence continued only when previous endpoint was statistically significant at 0.05.|ANCOVA||Lixisenatide vs Placebo|Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline 2-hour PPG value as a covariate. Hierarchical testing procedure was used to control type I error at 0.05. Testing was then performed sequentially in the order the endpoints were reported.||-4.132|-5.96|< 0.0001
82616645|NCT01798706|164949699|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.219|<|0.0001|TWO_SIDED|95.0|-1.39|-0.527||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline 7-point SMPG value as a covariate.||-0.527|-1.39|< 0.0001
82616646|NCT01798706|164949700|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.278|<|0.0001|TWO_SIDED|95.0|-1.862|-0.769||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline body weight value as a covariate.||-0.769|-1.862|< 0.0001
82616647|NCT01798706|164949701|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.262||0.2347|TWO_SIDED|95.0|-0.828|0.204||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant). Analysis was performed using ANCOVA model with treatment groups, randomization strata of Week -1 HbA1c (\<8.0, ≥8.0%), randomization strata of basal insulin use at screening, randomization strata of Week -1 eGFR (≥30 to \<60, ≥60 ml/min/1.73 m\^2), and country as fixed effects and baseline FPG value as a covariate.||0.204|-0.828|0.2347
82616648|NCT03552549|164949713|OTHER||Hazard Ratio (HR)|0.71|||||TWO_SIDED|95.0|0.28|1.77|||||Hazard ratio presented as PEG-Intron/INTRON A; HR \<1 indicates treatment effect in favor of PEG-Intron.|||1.77|0.28|
82616649|NCT02094586|164949722|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.78|1.08||||||Lot A vs. Lot B||1.08|0.78|
82616650|NCT02094586|164949727|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|1.02|||||TWO_SIDED|95.0|0.87|1.2||||||Lot B vs Lot C||1.20|0.87|
82616651|NCT02094586|164949728|EQUIVALENCE|The GMT of each lot was required to be within ±50% of each other lot with 95% confidence. Specifically, the 95% CI around each pairwise ratio of GMTs was required to be within \[0.67, 1.5\].|Geometric Mean Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.1||||||Lot A vs. Lot C||1.10|0.80|
82616652|NCT02761993|164949729|SUPERIORITY|||||||0.341||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equation|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.341
82616653|NCT02761993|164949729|SUPERIORITY|||||||0.774||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.774
82616654|NCT02761993|164949730|SUPERIORITY|||||||0.501||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.501
82377525|NCT03975491|164462380|SUPERIORITY||Mean Difference (Net)|0.0005||||0.73|TWO_SIDED|95.0|-0.0024|0.0034|||Mixed Models Analysis||From a model that included the baseline value of the dependent variable and sex (randomization stratification factor) as covariates.|||0.0034|-0.0024|0.73
82377526|NCT02731638|164462406|SUPERIORITY||Odds Ratio (OR)|1.82||||0.26|TWO_SIDED|95.0|0.65|5.23|||Regression, Logistic|Bias-corrected logistic regression, accounting for baseline culture status||||5.23|0.65|0.26
82616655|NCT02761993|164949730|SUPERIORITY|||||||0.486||||||Since there were two (2) primary hypotheses, Bonferroni corrections were used to control for multiplicity, with p \< 0.025 considered significant.|Generalized Estimating Equations|Generalized estimating equations (GEE) method with a linear link and exchangeable covariance matrix (with subject correlation structure)||||||0.486
82616656|NCT02761993|164949731|SUPERIORITY|||||||0.816|||||||ANCOVA|||||||0.816
82616657|NCT02761993|164949731|SUPERIORITY|||||||0.706|||||||ANCOVA|||||||0.706
82659800|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-59.6|||<|0.001|TWO_SIDED|95.0|-76.94|-42.27||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|8 hours||-42.27|-76.94|<0.001
82659801|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-72.19|||<|0.001|TWO_SIDED|95.0|-88.56|-55.83||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-55.83|-88.56|<0.001
82616658|NCT00777491|164949741|OTHER|There was no formal comparison of the two treatment arms.||||||||||||||||The confidence interval of the rate was calculated by Clopper-Pearson's exact binomial confidence intervals methods with one-sided type I error of 0.1. The study required 32 analyzable patients in each arm, which would warrant a 10% chance of observing a percentage of patients without distant metastasis by 3 years of less than 75% if the true rate was 86%. With the actual number of evaluable patients, the study instead warrants a 13-14% chance.|If the percentage of patients without distant metastasis by 3 years for either arm was greater than or equal to 75%, then it would be strongly considered as a potential arm in a subsequent phase III study, assuming treatment delivery and adverse events (AEs) were acceptable. If both arms met the criteria, then the treatment arm with less toxicity would be chosen.|||
82616659|NCT00777491|164949744|SUPERIORITY||Odds Ratio (OR)|0.493||||0.3|TWO_SIDED|95.0|0.129|1.881||Two-sided significance level of 0.05|Regression, Logistic|Univariate analysis|Reference arm = 5-FU and Cisplatin + BID Irradiation|||1.881|0.129|0.30
82616660|NCT00777491|164949745|SUPERIORITY||Odds Ratio (OR)|1.5||||0.75|TWO_SIDED|95.0|0.426|5.277||Two-sided significance level of 0.05|Regression, Logistic|Univariable analysis|Reference arm = 5-FU and Cisplatin + BID irradiation|||5.277|0.426|0.75
82616661|NCT00364845|164949750|SUPERIORITY_OR_OTHER||Proportion achieving target|0.389||||||95.0|0.173|0.643||||||||0.643|0.173|
82616662|NCT00364845|164949750|SUPERIORITY_OR_OTHER||Proportion achieving target|0.95||||||95.0|0.751|0.999||||||||0.999|0.751|
82616663|NCT03255291|164949753|SUPERIORITY|A Dunnett adjustment was used to adjust for multiple comparisons||||||0.0288|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||The investigators tested whether weekly minutes of exercise at 90 day follow-up was higher in the exercise mental imagery condition than in the sleep mental imagery condition||||0.0288
82659802|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-54.30|-87.14|<0.001
82616664|NCT03255291|164949753|SUPERIORITY|-A Dunnett adjustment was used to adjust for multiple comparisons||||||0.3329|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||-The investigators tested whether weekly minutes of exercise differed among the three risk display formats: risk ladder, table, and alphanumeric text.||||0.3329
82616665|NCT03255291|164949753|SUPERIORITY|-A Dunnett adjustment was used to adjust for multiple comparisons||||||0.0215|||||||ANCOVA|Covariates: sex, race, age, education, health literacy, season, risk display problem, acceptability, self-reported health, and baseline exercise.||-The investigators tested whether weekly minutes of exercise was influenced by an interaction between risk display format and mental imagery behavior||||0.0215
82616666|NCT03255291|164949754|SUPERIORITY|||||||0.0333||||||-A Dunnett adjustment was used to adjust for multiple comparisons|ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||-This study was designed as a 3X2 factorial design and only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome. A Dunnett adjustment was used to adjust for multiple comparisons.||||0.0333
82616667|NCT03255291|164949755|SUPERIORITY|||||||0.4946||||||-A Dunnett adjustment was used to adjust for multiple comparisons|ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||This study was designed as a 3X2 factorial design \& only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome.||||0.4946
82377527|NCT02731638|164462407|SUPERIORITY||Coefficient|1.6||||0.25|TWO_SIDED|95.0|-1.2|4.4|||Regression, Linear||Positive coefficients of the logMAR value indicated worsened visual acuity|||4.4|-1.2|0.25
82377528|NCT02731638|164462407|SUPERIORITY||Coefficient|0.5||||0.75|TWO_SIDED|95.0|-2.6|3.6|||Regression, Linear||Positive coefficients of the logMAR value indicate worsened visual acuity|||3.6|-2.6|0.75
82616668|NCT03255291|164949756|SUPERIORITY|||||||0.1397|||||||ANCOVA|Covariates were sex, race, age, education, numeracy, and graph literacy.||This study was designed as a 3X2 factorial design \& only the risk display format intervention (risk ladder, table, or text) was looked at for this outcome, as participants had not yet received the mental imagery intervention, thus it could not affect this outcome.||||0.1397
82616669|NCT03255291|164949757|SUPERIORITY|||||||0.007||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise maintenance self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichtomous mental imagery variable in this analysis.||||0.0070
82616670|NCT03255291|164949758|SUPERIORITY|||||||0.8793||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise recovery self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichtomous mental imagery variable in this analysis.||||0.8793
82659803|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-57.79|||<|0.001|TWO_SIDED|95.0|-75.43|-40.16||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|9 hours||-40.16|-75.43|<0.001
82659804|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-66.79|||<|0.001|TWO_SIDED|95.0|-83.98|-49.6||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-49.60|-83.98|<0.001
82659805|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-70.72|||<|0.001|TWO_SIDED|95.0|-87.14|-54.3||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-54.30|-87.14|<0.001
82659806|NCT00913627|165037537|SUPERIORITY_OR_OTHER||Cochran-Mantel-Haenszel (CMH)|-55.98|||<|0.001|TWO_SIDED|95.0|-73.85|-38.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel||CMH adjusted proportions|10 hours||-38.11|-73.85|<0.001
82659807|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-63.44|||<|0.001|TWO_SIDED|95.0|-80.82|-46.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-46.06|-80.82|<0.001
82659808|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-68.88|||<|0.001|TWO_SIDED|95.0|-85.63|-54.14||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-54.14|-85.63|<0.001
82659809|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-55.98|||<|0.001|TWO_SIDED|95.0|-73.85|-38.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||11 hours||-38.11|-73.85|<0.001
82659810|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-63.44|||<|0.001|TWO_SIDED|95.0|-80.82|-46.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-46.06|-80.82|<0.001
82659811|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-65.28|||<|0.001|TWO_SIDED|95.0|-82.49|-48.07||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-48.07|-82.49|<0.001
82659812|NCT00913627|165037537|SUPERIORITY_OR_OTHER||CMH adjusted proportions|-50.77|||<|0.001|TWO_SIDED|95.0|-69.09|-32.45||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||12 hours||-32.45|-69.09|<0.001
82659813|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.34|||<|0.001|TWO_SIDED|95.0|4.18|6.51||p-value adjusted for baseline PSR, and gender|ANOVA|||SPID 0-4||6.51|4.18|<0.001
82659814|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.25|||<|0.001|TWO_SIDED|95.0|4.09|6.4||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 0-4||6.40|4.09|<0.001
82659815|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.98|||<|0.001|TWO_SIDED|95.0|2.83|5.12||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 0-4||5.12|2.83|<0.001
82659816|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.53|||<|0.001|TWO_SIDED|95.0|5.63|9.43||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||9.43|5.63|<0.001
82659817|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.68|||<|0.001|TWO_SIDED|95.0|5.8|9.56||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||9.56|5.80|<0.001
82659818|NCT00913627|165037538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.49|||<|0.001|TWO_SIDED|95.0|3.62|7.36||p-value adjusted for baseline PSR and gender|ANOVA|||SPID 4-8||7.36|3.62|<0.001
82659819|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.47|||<|0.001|TWO_SIDED|95.0|10.68|16.27||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||16.27|10.68|<0.001
82659820|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.24|||<|0.001|TWO_SIDED|95.0|10.48|16.01||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||16.01|10.48|<0.001
82659821|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.08|||<|0.001|TWO_SIDED|95.0|7.33|12.83||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-4||12.83|7.33|<0.001
82659822|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.21|||<|0.001|TWO_SIDED|95.0|14.71|23.71||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||23.71|14.71|<0.001
82659823|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.32|||<|0.001|TWO_SIDED|95.0|14.86|23.78||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||23.78|14.86|<0.001
82659824|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.87|||<|0.001|TWO_SIDED|95.0|9.44|18.3||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 4-8||18.30|9.44|<0.001
82659825|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.18|||<|0.001|TWO_SIDED|95.0|11.29|21.07||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||21.07|11.29|<0.001
82659826|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.65|||<|0.001|TWO_SIDED|95.0|12.81|22.49||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||22.49|12.81|<0.001
82659827|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.78|||<|0.001|TWO_SIDED|95.0|7.97|17.59||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 8-12||17.59|7.97|<0.001
82659828|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|41.08|||<|0.001|TWO_SIDED|95.0|31.48|50.69||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||50.69|31.48|<0.001
82659829|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|42.66|||<|0.001|TWO_SIDED|95.0|33.15|52.17||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||52.17|33.15|<0.001
82659830|NCT00913627|165037539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.08|||<|0.001|TWO_SIDED|95.0|21.63|40.53||p-value adjusted for baseline PSR and gender|ANOVA|||SPRID 0-12||40.53|21.63|<0.001
82659831|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.13|||<|0.001|TWO_SIDED|95.0|6.45|9.8||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||9.80|6.45|<0.001
82659832|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.99|||<|0.001|TWO_SIDED|95.0|6.34|9.65||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||9.65|6.34|<0.001
82659833|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.11|||<|0.001|TWO_SIDED|95.0|4.46|7.75||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-4||7.75|4.46|<0.001
82659834|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.68|||<|0.001|TWO_SIDED|95.0|9.02|14.34||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||14.34|9.02|<0.001
82659835|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.64|||<|0.001|TWO_SIDED|95.0|9.01|14.27||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||14.27|9.01|<0.001
82659836|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.38|||<|0.001|TWO_SIDED|95.0|5.76|11.0||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 4-8||11.00|5.76|<0.001
82659837|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.84|||<|0.001|TWO_SIDED|95.0|6.93|12.75||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||12.75|6.93|<0.001
82659838|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.59|||<|0.001|TWO_SIDED|95.0|7.71|13.46||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||13.46|7.71|<0.001
82616671|NCT03255291|164949759|SUPERIORITY|||||||0.4673||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise affective attitudes). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.4673
82616672|NCT03255291|164949760|SUPERIORITY|||||||0.1916||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise unpleasant feelings). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.1916
82616673|NCT03255291|164949761|SUPERIORITY|||||||0.8661||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise imagery vividness). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.8661
82616674|NCT03255291|164949762|SUPERIORITY|||||||0.0711||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise action planning). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.0711
82616675|NCT03255291|164949763|SUPERIORITY|||||||0.0365||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise coping planning). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.0365
82616676|NCT03255291|164949764|SUPERIORITY|||||||0.1511||||||Covariates: sex, race, age, education, risk display issue, health literacy, season, acceptability, self-reported health, adherence, baseline exercise|Mixed Models Analysis|||The secondary outcomes are hypothesized mediators of the effect of the exercise-related mental imagery activities on future exercise behavior (e.g., exercise mental imagery will increase future exercise behavior by increasing exercise action self-efficacy). Because these analyses are relevant only for the exercise condition, and the dichotomous mental imagery variable includes both exercise and sleep, it is not appropriate to include the dichotomous mental imagery variable in this analysis.||||0.1511
82659839|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.73|||<|0.001|TWO_SIDED|95.0|4.87|10.59||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 8-12||10.59|4.87|<0.001
82616677|NCT04019093|164949767|SUPERIORITY|||||||0.99|||||||ANOVA|F(1,46) = .001||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the beverage condition X group interaction.||||.99
82616678|NCT04019093|164949767|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(1,46)=12.55||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the main effect of beverage condition.||||<.0001
82616679|NCT04019093|164949767|SUPERIORITY|||||||0.015|||||||ANOVA|F(1,46)=6.32||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) mixed general linear model on pressure threshold. Here we report the results of the analysis of the main effect of group.||||.015
82616680|NCT04019093|164949768|SUPERIORITY|||||||0.76|||||||ANOVA|F(2,82)=.20||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the pressure level X group interaction.||||.76
82616681|NCT04019093|164949768|SUPERIORITY|||||||0.52|||||||ANCOVA|F(2,82)=.66||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the pressure level X beverage condition interaction.||||.52
82616682|NCT04019093|164949768|SUPERIORITY|||||||0.04|||||||ANOVA|F(1,41)=4.53, p=.04||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of beverage condition.||||.04
82659840|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|24.93|||<|0.001|TWO_SIDED|95.0|19.24|30.61||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||30.61|19.24|<0.001
82659841|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|25.66|||<|0.001|TWO_SIDED|95.0|20.03|31.28||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||31.28|20.03|<0.001
82659842|NCT00913627|165037540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|18.78|||<|0.001|TWO_SIDED|95.0|13.19|24.38||p-value adjusted for baseline PSR and gender|ANOVA|||TOTPAR 0-12||24.38|13.19|<0.001
82377529|NCT02454608|164462414|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mixed Models Analysis|||||||0.01
82659843|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|13.31||||0.08|TWO_SIDED|95.0|1.26|25.36||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||25.36|1.26|0.080
82616683|NCT04019093|164949768|SUPERIORITY|||||||0.017|||||||ANOVA|F(1,41)=6.24||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of group.||||.017
82616684|NCT04019093|164949768|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(2,82)=48.41||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain intensity. Here we report the results of the analysis of the main effect of pressure level.||||<.0001
82616685|NCT04019093|164949769|SUPERIORITY|||||||0.5|||||||ANOVA|F (2, 82) = 0.69||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X pressure level X group interaction.||||.50
82616686|NCT04019093|164949769|SUPERIORITY|||||||0.21|||||||ANOVA|F(2,82)=1.58||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X pressure level interaction.||||.21
82616687|NCT04019093|164949769|SUPERIORITY|||||||0.053|||||||ANOVA|F(2,82)=3.06||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the pressure level X group interaction.||||.053
82659844|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|16.39||||0.043|TWO_SIDED|95.0|3.73|29.04||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||29.04|3.73|0.043
82659845|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|5.39||||0.354|TWO_SIDED|95.0|-4.62|15.4||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||15.40|-4.62|0.354
82659846|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|48.65|||<|0.001|TWO_SIDED|95.0|33.34|63.96||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||63.96|33.34|<0.001
82377530|NCT02454608|164462415|SUPERIORITY_OR_OTHER|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82616688|NCT04019093|164949769|SUPERIORITY|||||||0.98|||||||ANOVA|F(1,41)=.001||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the beverage condition X group interaction.||||.98
82616689|NCT04019093|164949769|SUPERIORITY|||||||0.71|||||||ANOVA|F(2,82)=.34||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of pressure level.||||.71
82616690|NCT04019093|164949769|SUPERIORITY|||||||0.71|||||||ANOVA|F(1,41)=.14||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of group.||||.71
82616691|NCT04019093|164949769|SUPERIORITY||||||<|0.0001|||||||ANOVA|F(1,41)=55.02||2 (beverage condition: alcohol vs. placebo) X 2 (group: chronic pain vs. healthy control) x 2 (pressure level: 4 lbf vs. 5 lbf vs 6 lbf) mixed general linear model on pain relief. Here we report the results of the analysis of the main effect of beverage condition.||||<.0001
82616692|NCT03453151|164949796|OTHER|||||||0.053|||||||Paired t-test|||||||0.053
82377531|NCT02454608|164462416|SUPERIORITY_OR_OTHER|||||||0.25|||||||Mixed Models Analysis|||||||0.25
82616693|NCT03453151|164949797|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82616694|NCT03453151|164949798|OTHER||||||<|0.001|||||||Paired t-test|||||||<0.001
82616695|NCT03453151|164949799|OTHER|||||||0.077|||||||Paired t-test|This analysis refers to the resting cardiac index.||||||0.077
82616696|NCT03453151|164949799|OTHER|||||||0.069|||||||Paired t-test|This analysis refers to the peak exercise cardiac index.||||||0.069
82616697|NCT03453151|164949801|OTHER|||||||0.25|||||||Paired t-test|This analysis refers to creatinine level.||||||0.250
82616698|NCT03453151|164949801|OTHER|||||||0.014|||||||Paired t-test|This analysis refers to BUN level.||||||0.014
82616699|NCT02592629|164949802|EQUIVALENCE|ANOVA|||||<|0.05|||||||ANOVA|||||||<0.05
82616700|NCT04973228|164949803|SUPERIORITY||Odds Ratio (OR)|2.79|||<|0.0001|TWO_SIDED|95.0|1.75|4.45|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 8||4.45|1.75|<0.0001
82616701|NCT04973228|164949804|SUPERIORITY||Odds Ratio (OR)|2.95||||0.0001|TWO_SIDED|95.0|1.68|5.19|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 8||5.19|1.68|0.0001
82616702|NCT04973228|164949805|SUPERIORITY||Odds Ratio (OR)|2.62||||0.0007|TWO_SIDED|95.0|1.47|4.67|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 4||4.67|1.47|0.0007
82659847|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.94|||<|0.001|TWO_SIDED|95.0|37.15|66.73||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||66.73|37.15|<0.001
82659848|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|36.8|||<|0.001|TWO_SIDED|95.0|22.62|50.98||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||50.98|22.62|<0.001
82659849|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.39|||<|0.001|TWO_SIDED|95.0|41.2|73.57||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||73.57|41.20|<0.001
82659850|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|66.67|||<|0.001|TWO_SIDED|95.0|51.56|81.78||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||81.78|51.56|<0.001
82659851|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.2|||<|0.001|TWO_SIDED|95.0|34.2|66.21||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||66.21|34.20|<0.001
82659852|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|67.64|||<|0.001|TWO_SIDED|95.0|51.36|83.93||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||83.93|51.36|<0.001
82659853|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|70.61|||<|0.001|TWO_SIDED|95.0|55.16|86.05||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||86.05|55.16|<0.001
82659854|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|51.85|||<|0.001|TWO_SIDED|95.0|34.32|69.38||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||69.38|34.32|<0.001
82659855|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||85.33|53.33|<0.001
82659856|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|74.21|||<|0.001|TWO_SIDED|95.0|59.29|89.14||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||89.14|59.29|<0.001
82659857|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||75.84|41.88|<0.001
82659858|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||85.33|53.33|<0.001
82659859|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||92.06|63.57|<0.001
82659860|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||75.84|41.88|<0.001
82659861|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||85.33|53.33|<0.001
82659862|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||92.06|63.57|<0.001
82659863|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||75.84|41.88|<0.001
82659864|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||85.33|53.33|<0.001
82659865|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||92.06|63.57|<0.001
82659866|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||75.84|41.88|<0.001
82659867|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||85.33|53.33|<0.001
82659868|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||92.06|63.57|<0.001
82659869|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||75.84|41.88|<0.001
82659870|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||85.33|53.33|<0.001
82659871|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||92.06|63.57|<0.001
82659872|NCT00913627|165037541|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||75.84|41.88|<0.001
82659873|NCT00913627|165037542|SUPERIORITY_OR_OTHER||Hazard Ratio, log|13.56|||<|0.001|TWO_SIDED|95.0|4.85|37.89||p-value adjusted for gender and categorical baseline pain severity|Proportional hazards regression|||||37.89|4.85|<0.001
82659874|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|2.03||||0.434|TWO_SIDED|95.0|-1.95|6.02||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||6.02|-1.95|0.434
82659875|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|0.0|||||TWO_SIDED|95.0|0.0|0.0|||Cochran-Mantel-Haenszel|||15 minutes||0.00|0.00|
82659876|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|1.78||||0.469|TWO_SIDED|95.0|-1.71|5.27||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||15 minutes||5.27|-1.71|0.469
82659877|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|9.13||||0.101|TWO_SIDED|95.0|1.33|16.93||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||16.93|1.33|0.101
82659878|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.73||||0.069|TWO_SIDED|95.0|2.54|18.91||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||18.91|2.54|0.069
82659879|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|3.59||||0.303|TWO_SIDED|95.0|-1.39|8.57||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||30 minutes||8.57|-1.39|0.303
82659880|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|24.58||||0.008|TWO_SIDED|95.0|10.68|38.47||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||38.47|10.68|0.008
82659881|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|25.31||||0.007|TWO_SIDED|95.0|11.35|39.28||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||39.28|11.35|0.007
82659882|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|10.62||||0.129|TWO_SIDED|95.0|-0.68|21.92||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||45 minutes||21.92|-0.68|0.129
82659883|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|47.72|||<|0.001|TWO_SIDED|95.0|32.25|63.19||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||63.19|32.25|<0.001
82659884|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|36.01|||<|0.001|TWO_SIDED|95.0|21.24|50.78||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||50.78|21.24|<0.001
82616703|NCT04973228|164949806|SUPERIORITY||Odds Ratio (OR)|2.74||||0.0016|TWO_SIDED|95.0|1.41|5.34|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|WI-NRS Success at Week 2||5.34|1.41|0.0016
82616704|NCT04973228|164949807|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0002|TWO_SIDED|95.0|1.54|3.84|||Cochran-Mantel-Haenszel|Pooled by site and IGA strata with multiple imputation to handle missing data|Pooled by site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 2||3.84|1.54|0.0002
82616705|NCT04973228|164949808|SUPERIORITY||Odds Ratio (OR)|3.22|||<|0.0001|TWO_SIDED|95.0|2.06|5.03|||Cochran-Mantel-Haenszel|Pooled by site and IGA strata with multiple imputation to handle missing data|Pooled by site and IGA strata with multiple imputation to handle missing data|IGA Success at Week 4||5.03|2.06|<0.0001
82616706|NCT04973228|164949809|SUPERIORITY||Odds Ratio (OR)|2.41|||<|0.0001|TWO_SIDED|95.0|1.56|3.73|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Scaling Score of 0 at Week 8||3.73|1.56|<0.0001
82616707|NCT04973228|164949810|SUPERIORITY||Odds Ratio (OR)|3.22|||<|0.0001|TWO_SIDED|95.0|2.05|5.06|||Cochran-Mantel-Haenszel|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Stratified by pooled site and IGA strata with multiple imputation to handle missing data|Erythema Score of 0 at Week 8||5.06|2.05|<0.0001
82616708|NCT00091390|164949812|SUPERIORITY_OR_OTHER_LEGACY||hazard rate|0.0014|||<|0.0001|TWO_SIDED|95.0|0.0|0.003|||Z-test|One-sided.||The study is designed to test whether the 18-month late GU/GI toxicity following the protocol treatment is above 10% (hazard rate of 0.012/month). The sample size is determined so that the probability of rejecting the treatment because of excessive late toxicity is 90% if the true late toxicity rate is 20% (hazard rate of 0.025/month). Ninety-eight patients are required to with an additional 18 months of follow-up to have a statistical power of 90% with one-sided significance level of 0.05.||0.003|0|<0.0001
82616709|NCT00406640|164949820|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.67||||0.243||95.0|-0.46|1.81|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR adjusted mean change minus ESC adjusted mean change.|DVS SR compared with ESC||1.81|-0.46|0.243
82616710|NCT00406640|164949821|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.608||||0.077||95.0|0.4|0.92|||Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariant.|Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||0.92|0.40|0.077
82616711|NCT00406640|164949822|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.571||||0.0054||95.0|0.39|0.85|||Chi-squared|Logistic regression model with treatment and site as factors and baseline score as a covariant.|Estimated odds ratio of DVS SR to ESC. Odds ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||0.85|0.39|0.0054
82616712|NCT00406640|164949823|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.12||||0.26||95.0|-0.09|0.33|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR minus ESC adjusted mean|DVS SR compared with ESC||0.33|-0.09|0.260
82616713|NCT00406640|164949824|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.14||||0.239||95.0|-0.09|0.37|||Mixed Models Analysis|Mixed Models Repeated Measures (MMRM) with baseline score as a covariant and factors for center, week and treatment.|DVS SR minus ESC adjusted mean|||0.37|-0.09|0.239
82616714|NCT00406640|164949825|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.37||||0.516||95.0|-0.75|1.49|||Mixed Models Analysis|Mixed model Repeated Measures (MMRM) analysis adjusted mean score for baseline score, time and center.|DVS SR adjusted mean change minus ESC adjusted mean change.|DVS SR compared to ESC||1.49|-0.75|0.516
82616715|NCT00406640|164949826|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.01||||0.635||95.0|-0.03|0.06|||Mixed Models Analysis|Mixed Model Repeated Measures (MMRM) with treatment, time and site as factors and baseline as covariant.|DVS SR adjusted mean change minus ESC adjusted mean change|DVS SR compared to ESC||0.06|-0.03|0.635
82616716|NCT00406640|164949827|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.12||||0.702||95.0|0.63|2.0|||Chi-squared||Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||2.00|0.63|0.702
82616717|NCT00406640|164949828|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.34||||0.234||95.0|0.83|2.16|||Chi-squared||Estimated odds ratio of DVS SR to ESC. Odd ratio adjusted for baseline, treatment and site.|DVS SR compared with ESC.||2.16|0.83|0.234
82616718|NCT00406640|164949832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.927||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: end of therapy||||0.927
82616719|NCT00406640|164949832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.055||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after 1 week of taper||||0.055
82616720|NCT00406640|164949832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.025||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after 2 weeks of taper||||0.025
82616721|NCT00406640|164949832|SUPERIORITY_OR_OTHER_LEGACY|||||||0.653||95.0|||||t-test, 2 sided|||DVS SR vs. ESC: after \> 2 weeks of taper||||0.653
82616722|NCT03229759|164949833|SUPERIORITY||Mean Difference (Final Values)|1.48|||||TWO_SIDED|95.0|0.88|2.08||||||Test on abdomen Average treatment effect was calculated using a linear regression model for each body site was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||2.08|0.88|
82616723|NCT03229759|164949833|SUPERIORITY||Mean Difference (Final Values)|1.34|||||TWO_SIDED|95.0|0.72|1.96||||||Tested on the abdomen Analysis was performed based on deferral letters from the FDA. Average treatment effect was calculated using a linear regression model for each body site was used for primary analysis. In the model, the response was the post-treatment log10 bacterial counts and predictors were the treatment effect as a fixed effect and the pre-treatment log10 bacterial counts as a covariate.||1.96|0.72|
82616724|NCT03229759|164949833|SUPERIORITY||Mean Difference (Final Values)|1.93|||||TWO_SIDED|95.0|1.38|2.47||||||Groin||2.47|1.38|
82616725|NCT03229759|164949833|SUPERIORITY||Mean Difference (Final Values)|1.26|||||TWO_SIDED|95.0|0.73|1.79||||||Groin||1.79|0.73|
82616726|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 3 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616727|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 30 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616728|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 50 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616729|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 115 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616730|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 150 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616731|NCT02020031|164949838|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||Comparison at approximately 180 minutes, adjusted by BMI, age, and length of surgical procedure.||||<0.0001
82616732|NCT02891798|164949840|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Total Score Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.003
82616733|NCT02891798|164949841|SUPERIORITY|||||||0.001|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Continuous Pain Subscore Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.001
82616734|NCT02891798|164949842|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||Comparison of SF-MPQ2 Intermittent Pain Subscore Difference From Baseline between the 4-drug nerve block group and the bupivacaine only group||||0.038
82616735|NCT02891798|164949843|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||Comparison of QoR-15 Total Score at post-operative day 1 between the 4-drug nerve block group and the bupivacaine only group||||0.009
82616736|NCT02891798|164949844|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly lower score for the QoR-15 Total Score.||||||0.861|||||||t-test, 2 sided|||Comparison of QoR-15 Total Score at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group||||0.861
82616737|NCT02891798|164949845|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly lower score for the Standing Balance test.||||||0.512|||||||t-test, 2 sided|||Comparison of Standing Balance Test score at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group||||0.512
82616738|NCT02891798|164949846|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly slower rate for the Self-Selected Gait Speed test.||||||0.339|||||||t-test, 2 sided|||Comparison of Self-Selected Gait Speed rate at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group.||||0.339
82616739|NCT02891798|164949847|NON_INFERIORITY|Testing the null hypothesis that Bupivacaine + BCD (buprenorphine, clonidine, dexamethasone) does not adversely affect recovery by producing a significantly slower time for the Repeated Chair Stand test.||||||0.711|||||||t-test, 2 sided|||Comparison of Repeated Chair Stand time at 6 week post-procedure between the 4-drug nerve block group and the bupivacaine only group.||||0.711
82616740|NCT02669862|164949865|OTHER|||||||0.555|||||||ANCOVA|Baseline values were the covariate||"In this table Study Day 01 / Visit 2 has been considered as Baseline visit for calculating mean and mean change.~PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate."||||0.555
82616741|NCT02669862|164949865|OTHER|||||||0.009||||||PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate. No adjustments for multiple comparisons.|ANCOVA|||"In this table Study Day 01 / Visit 2 has been considered as Baseline visit for calculating mean and mean change.~PVal\*- ANCOVA used for calculating P-value by comparing Vehicle against each Active treatment group using baseline values as the covariate."||||0.009
82616742|NCT02669862|164949867|OTHER|||||||0.9313||||||Not adjusted for multiple comparisons|Chi-squared|||PVal\*- Chi-Square test used for calculating P-value by comparing Vehicle against each Active treatment group||||0.9313
82616743|NCT02669862|164949867|OTHER|||||||0.0236||||||Not adjusted for multiple comparisons|Chi-squared|||||||0.0236
82616744|NCT02429258|164949868|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.0|STANDARD_ERROR_OF_MEAN|6.08|<|0.001||95.0|-36.1|-12.0|||Mixed Models Analysis|||||-12.0|-36.1|<0.001
82616745|NCT02429258|164949869|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.3|STANDARD_ERROR_OF_MEAN|5.8||0.01||95.0|-26.8|-3.8|||ANCOVA|||||-3.8|-26.8|0.010
82616746|NCT02429258|164949870|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.42||0.023||95.0|0.1|1.8|||ANCOVA|||||1.8|0.1|0.023
82616747|NCT02429258|164949871|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.0|STANDARD_ERROR_OF_MEAN|3.65|<|0.001||95.0|7.7|22.2|||ANCOVA|||||22.2|7.7|<0.001
82616748|NCT02429258|164949872|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.1|STANDARD_ERROR_OF_MEAN|3.72|<|0.001||95.0|-23.5|-8.7|||ANCOVA|||||-8.7|-23.5|<0.001
82616749|NCT02429258|164949873|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.7|STANDARD_ERROR_OF_MEAN|8.47|<|0.001||95.0|-46.6|-12.9|||ANCOVA|||||-12.9|-46.6|<0.001
82616750|NCT02429258|164949874|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-40.8|STANDARD_ERROR_OF_MEAN|9.14|<|0.001||95.0|-59.0|-22.7|||ANCOVA|||||-22.7|-59.0|<0.001
82616751|NCT02429258|164949875|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|0.1||0.024||95.0|-0.43|-0.03|||ANCOVA|||||-0.03|-0.43|0.024
82616752|NCT02429258|164949876|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.8|STANDARD_ERROR_OF_MEAN|4.55||0.019||95.0|-19.9|-1.8|||ANCOVA|||||-1.8|-19.9|0.019
82616753|NCT02429258|164949877|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-36.3|STANDARD_ERROR_OF_MEAN|9.25|<|0.001||95.0|-54.7|-17.9|||ANCOVA|||||-17.9|-54.7|<0.001
82616754|NCT02429258|164949878|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.0|STANDARD_ERROR_OF_MEAN|2.86||0.017||95.0|1.3|12.7|||ANCOVA|||||12.7|1.3|0.017
82616755|NCT01694420|164949882|SUPERIORITY_OR_OTHER||||||<|0.001||||||Study data compared to data as cited in PubMed ID: 21487250|Wilcoxon (Mann-Whitney)|||||||<0.001
82616756|NCT03987919|164949892|SUPERIORITY||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.64|-0.38|||Mixed Models Analysis|||||-0.38|-0.64|<0.001
82616757|NCT03987919|164949892|SUPERIORITY||LS Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.73|-0.47|||Mixed Models Analysis|||||-0.47|-0.73|<0.001
82616758|NCT03987919|164949893|SUPERIORITY||LS Mean Difference|-0.23|||<|0.001|TWO_SIDED|95.0|-0.36|-0.1|||Mixed Models Analysis|||||-0.10|-0.36|<0.001
82616759|NCT03987919|164949894|SUPERIORITY||LS Mean Difference|-1.7|||<|0.001|TWO_SIDED|95.0|-2.6|-0.7|||Mixed Models Analysis|||||-0.7|-2.6|<0.001
82616760|NCT03987919|164949894|SUPERIORITY||LS Mean Difference|-4.1|||<|0.001|TWO_SIDED|95.0|-5.0|-3.2|||Mixed Models Analysis|||||-3.2|-5.0|<0.001
82659885|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|27.87||||0.003|TWO_SIDED|95.0|13.93|41.81||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||60 minutes||41.81|13.93|0.003
82659886|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|61.01|||<|0.001|TWO_SIDED|95.0|46.12|75.89||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||75.89|46.12|<0.001
82659887|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.83|||<|0.001|TWO_SIDED|95.0|38.85|68.8||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||68.80|38.85|<0.001
82659888|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|46.74|||<|0.001|TWO_SIDED|95.0|31.89|61.58||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||90 minutes||61.58|31.89|<0.001
82659889|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|64.78|||<|0.001|TWO_SIDED|95.0|49.37|80.18||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||80.18|49.37|<0.001
82659890|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|64.8|||<|0.001|TWO_SIDED|95.0|50.01|79.59||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||79.59|50.01|<0.001
82659891|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|50.19|||<|0.001|TWO_SIDED|95.0|34.27|66.11||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||120 minutes||66.11|34.27|<0.001
82659892|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|68.59|||<|0.001|TWO_SIDED|95.0|52.81|84.38||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||84.38|52.81|<0.001
82659893|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.16|||<|0.001|TWO_SIDED|95.0|57.05|87.26||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||87.26|57.05|<0.001
82659894|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|53.47|||<|0.001|TWO_SIDED|95.0|36.57|70.37||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||180 minutes||70.37|36.57|<0.001
82659895|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.66|||<|0.001|TWO_SIDED|95.0|57.48|87.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||87.84|57.48|<0.001
82659896|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|79.36|||<|0.001|TWO_SIDED|95.0|65.68|93.05||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||93.05|65.68|<0.001
82659897|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|57.03|||<|0.001|TWO_SIDED|95.0|40.46|73.6||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||240 minutes||73.60|40.46|<0.001
82616761|NCT03987919|164949894|SUPERIORITY||LS Mean Difference|-6.2|||<|0.001|TWO_SIDED|95.0|-7.1|-5.3|||Mixed Models Analysis|||||-5.3|-7.1|<0.001
82616762|NCT03987919|164949895|SUPERIORITY||Odds Ratio (OR)|1.54||||0.023|TWO_SIDED|95.0|1.06|2.23|||Regression, Logistic|||||2.23|1.06|0.023
82616763|NCT03987919|164949895|SUPERIORITY||Odds Ratio (OR)|2.14|||<|0.001|TWO_SIDED|95.0|1.44|3.17|||Regression, Logistic|||||3.17|1.44|<0.001
82616764|NCT03987919|164949895|SUPERIORITY||Odds Ratio (OR)|3.03|||<|0.001|TWO_SIDED|95.0|1.97|4.66|||Regression, Logistic|||||4.66|1.97|<0.001
82616765|NCT03987919|164949896|SUPERIORITY||LS Mean Difference|-7.3||||0.001|TWO_SIDED|95.0|-11.7|-3.0|||Mixed Models Analysis|||||-3.0|-11.7|0.001
82616766|NCT03987919|164949896|SUPERIORITY||LS Mean Difference|-13.0|||<|0.001|TWO_SIDED|95.0|-17.4|-8.6|||Mixed Models Analysis|||||-8.6|-17.4|<0.001
82616767|NCT03987919|164949896|SUPERIORITY||LS Mean Difference|-14.7|||<|0.001|TWO_SIDED|95.0|-19.1|-10.3|||Mixed Models Analysis|||||-10.3|-19.1|<0.001
82616768|NCT03987919|164949898|SUPERIORITY||Odds Ratio (OR)|1.58||||0.001|TWO_SIDED|95.0|1.2|2.08|||Regression, Logistic|||||2.08|1.20|0.001
82659898|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|72.66|||<|0.001|TWO_SIDED|95.0|57.48|87.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||87.84|57.48|<0.001
82377532|NCT02454608|164462417|SUPERIORITY_OR_OTHER|||||||0.02|||||||t-test, 2 sided|||||||0.02
82377533|NCT02454608|164462418|SUPERIORITY_OR_OTHER|||||||0.6|||||||t-test, 2 sided|||||||0.6
82659899|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|81.2|||<|0.001|TWO_SIDED|95.0|67.91|94.49||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||94.49|67.91|<0.001
82659900|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.84|||<|0.001|TWO_SIDED|95.0|42.34|75.35||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||300 minutes||75.35|42.34|<0.001
82659901|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|69.33|||<|0.001|TWO_SIDED|95.0|53.33|85.33||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||85.33|53.33|<0.001
82659902|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|77.82|||<|0.001|TWO_SIDED|95.0|63.57|92.06||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||92.06|63.57|<0.001
82659903|NCT00913627|165037543|SUPERIORITY_OR_OTHER||CMH adjusted proportions|58.86|||<|0.001|TWO_SIDED|95.0|41.88|75.84||p-value adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||360 minutes||75.84|41.88|<0.001
82659904|NCT00913627|165037544|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.93|||<|0.001|TWO_SIDED|95.0|0.85|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.85|<0.001
82659905|NCT00913627|165037544|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.95|||<|0.001|TWO_SIDED|95.0|0.88|1.02||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.02|0.88|<0.001
82659906|NCT00913627|165037544|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.84|||<|0.001|TWO_SIDED|95.0|0.7|0.98||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||0.98|0.70|<0.001
82659907|NCT00913627|165037545|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.93|||<|0.001|TWO_SIDED|95.0|0.85|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.85|<0.001
82659908|NCT00913627|165037545|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.96|||<|0.001|TWO_SIDED|95.0|0.91|1.01||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||1.01|0.91|<0.001
82659909|NCT00913627|165037545|SUPERIORITY_OR_OTHER||Goodman-Kruskal Gamma Statistic|0.89|||<|0.001|TWO_SIDED|95.0|0.79|0.99||p-value from CMH test with modified ridit scores, adjusted for baseline PSR and gender|Cochran-Mantel-Haenszel|||||0.99|0.79|<0.001
82616769|NCT03987919|164949898|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.001|TWO_SIDED|95.0|2.57|4.75|||Regression, Logistic|||||4.75|2.57|<0.001
82616770|NCT03987919|164949898|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|3.32|6.38|||Regression, Logistic|||||6.38|3.32|<0.001
82616771|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.24||||0.084|TWO_SIDED|95.0|-0.5|0.03|||ANCOVA|||Hyperglycemia||0.03|-0.50|0.084
82616772|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.27||||0.05|TWO_SIDED|95.0|-0.54|0.0|||ANCOVA|||Hyperglycemia||0.00|-0.54|0.050
82616773|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.39||||0.005|TWO_SIDED|95.0|-0.66|-0.12|||ANCOVA|||Hyperglycemia||-0.12|-0.66|0.005
82616774|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.06||||0.688|TWO_SIDED|95.0|-0.33|0.22|||ANCOVA|||Hypoglycemia||0.22|-0.33|0.688
82659910|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.008|TWO_SIDED|95.0|0.06|0.38||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.38|0.06|0.008
82616775|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.02||||0.909|TWO_SIDED|95.0|-0.29|0.26|||ANCOVA|||Hypoglycemia||0.26|-0.29|0.909
82616776|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.13||||0.358|TWO_SIDED|95.0|-0.4|0.15|||ANCOVA|||Hypoglycemia||0.15|-0.40|0.358
82616777|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.1||||0.701|TWO_SIDED|95.0|-0.62|0.41|||ANCOVA|||Total Score||0.41|-0.62|0.701
82616778|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|-0.25||||0.341|TWO_SIDED|95.0|-0.78|0.27|||ANCOVA|||Total Score||0.27|-0.78|0.341
82616779|NCT03987919|164949899|SUPERIORITY||LS Mean Difference|0.26||||0.321|TWO_SIDED|95.0|-0.26|0.79|||ANCOVA|||Total Score||0.79|-0.26|0.321
82616780|NCT03987919|164949901|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.001|TWO_SIDED|95.0|1.35|2.57|||Regression, Logistic|||||2.57|1.35|<0.001
82616781|NCT03987919|164949901|SUPERIORITY||Odds Ratio (OR)|3.94|||<|0.001|TWO_SIDED|95.0|2.88|5.39|||Regression, Logistic|||||5.39|2.88|<0.001
82659911|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.007|TWO_SIDED|95.0|0.06|0.38||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.38|0.06|0.007
82616782|NCT03987919|164949901|SUPERIORITY||Odds Ratio (OR)|5.1|||<|0.001|TWO_SIDED|95.0|3.73|6.97|||Regression, Logistic|||||6.97|3.73|<0.001
82616783|NCT04131517|164949943|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the least squares (LS) means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|1.0404|||||TWO_SIDED|90.0|0.94156|1.1497||||||The analysis of variance model (ANOVA) included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.1497|0.94156|
82616784|NCT04131517|164949944|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.89272|||||TWO_SIDED|90.0|0.76892|1.0364||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0364|0.76892|
82616785|NCT04131517|164949947|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed AUC0-inf was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|1.0276|||||TWO_SIDED|90.0|0.95544|1.1052||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.1052|0.95544|
82616786|NCT04131517|164949948|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL+ OC and OC Alone of the LS means for the log-transformed AUC0-inf was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.88808|||||TWO_SIDED|90.0|0.52185|1.5113||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.5113|0.52185|
82616787|NCT04131517|164949955|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed Cmax was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.96378|||||TWO_SIDED|90.0|0.85043|1.0922||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0922|0.85043|
82616788|NCT04131517|164949957|OTHER|A lack of PSL effect on EE and LN would have been concluded if the 90% CI of the geometric mean ratio between treatment with PSL + OC and OC Alone of the LS means for the log-transformed AUC was within the bioequivalence acceptance range of 80% to 125%.|Geometric LS Mean ratio|0.96842|||||TWO_SIDED|90.0|0.91888|1.0206||||||The ANOVA model included Treatment, Period, and Sequence as fixed effects and participant within Sequence as a random effect.||1.0206|0.91888|
82616789|NCT05142332|164949959|SUPERIORITY||Adjusted absolute difference|11.9|||<|0.001|TWO_SIDED|95.0|4.5|19.3|||Regression, Logistic|||||19.3|4.5|<0.001
82616790|NCT05142332|164949960|SUPERIORITY||Adjusted absolute difference|7.9|||<|0.001|TWO_SIDED|95.0|1.7|14.1|||Regression, Logistic|||||14.1|1.7|<0.001
82616791|NCT05209932|164949961|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.17|STANDARD_ERROR_OF_MEAN|0.07||0.02|TWO_SIDED||||||ANCOVA|||||||0.02
82659912|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.024|TWO_SIDED|95.0|0.02|0.34||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.34|0.02|0.024
82659913|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|||<|0.001|TWO_SIDED|95.0|0.24|0.78||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.78|0.24|<0.001
82659914|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.47|||<|0.001|TWO_SIDED|95.0|0.2|0.73||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.73|0.20|<0.001
82659915|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.42||||0.002|TWO_SIDED|95.0|0.16|0.68||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.68|0.16|0.002
82377534|NCT02454608|164462419|SUPERIORITY_OR_OTHER|||||||0.78|||||||t-test, 2 sided|||||||0.78
82616792|NCT05209932|164949962|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.06||0.05|TWO_SIDED||||||ANCOVA|||||||0.05
82616793|NCT05209932|164949963|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.07||0.07|TWO_SIDED||||||ANCOVA|||||||0.07
82616794|NCT05209932|164949964|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.12||0.17|TWO_SIDED||||||ANCOVA|||||||0.17
82616795|NCT05209932|164949965|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
82616796|NCT05209932|164949966|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.22|STANDARD_ERROR_OF_MEAN|0.1||0.03|TWO_SIDED||||||ANCOVA|||||||0.03
82616797|NCT05209932|164949967|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.09||0.01|TWO_SIDED||||||ANCOVA|||||||0.01
82659916|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.85|||<|0.001|TWO_SIDED|95.0|0.52|1.17||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.17|0.52|<0.001
82616798|NCT05209932|164949968|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.38|STANDARD_ERROR_OF_MEAN|0.19||0.04|TWO_SIDED||||||ANCOVA|||||||0.04
82616799|NCT05209932|164949969|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.1||0.02|TWO_SIDED||||||ANCOVA|||||||0.02
82616800|NCT05209932|164949970|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.4|STANDARD_ERROR_OF_MEAN|0.13||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
82616801|NCT05209932|164949971|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.1||0.43|TWO_SIDED||||||ANCOVA|||||||0.43
82616802|NCT05209932|164949972|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.22|STANDARD_ERROR_OF_MEAN|0.14||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
82659917|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.79|||<|0.001|TWO_SIDED|95.0|0.47|1.11||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.11|0.47|<0.001
82377535|NCT02454608|164462420|SUPERIORITY_OR_OTHER|||||||0.7|||||||t-test, 2 sided|||||||0.7
82616803|NCT05209932|164949973|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.08||0.03|TWO_SIDED||||||ANCOVA|||||||0.03
82616804|NCT05209932|164949974|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.06|STANDARD_ERROR_OF_MEAN|0.13||0.63|TWO_SIDED||||||ANCOVA|||||||0.63
82616805|NCT05209932|164949975|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-0.85|STANDARD_ERROR_OF_MEAN|0.8||0.29|TWO_SIDED||||||ANCOVA|||||||0.29
82616806|NCT05209932|164949976|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-1.08|STANDARD_ERROR_OF_MEAN|1.12||0.33|TWO_SIDED||||||ANCOVA|||||||0.33
82616807|NCT05209932|164949977|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|-2.92|STANDARD_ERROR_OF_MEAN|1.03||0.005|TWO_SIDED||||||ANCOVA|||||||0.005
82616808|NCT05209932|164949978|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.08||0.42|TWO_SIDED||||||ANCOVA|||||||0.42
82616809|NCT05209932|164949979|EQUIVALENCE|Testing the equivalence of the means using two-tailed test.|Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.3||0.97|TWO_SIDED||||||ANCOVA|||||||0.97
82616810|NCT01219959|164949994|SUPERIORITY||Mean Difference (Final Values)|0.6|||<|0.001|TWO_SIDED|95.0|0.2|0.9|||ANOVA|||Month 3||0.9|0.2|<0.001
82616811|NCT01219959|164949994|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.006|TWO_SIDED|95.0|0.1|0.8|||ANOVA|||Month 6||0.8|0.1|0.006
82616812|NCT01219959|164949995|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.312|TWO_SIDED|95.0|-4.7|14.7|||ANOVA|||Insulin-Month 3||14.7|-4.7|0.312
82616813|NCT01219959|164949995|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.342|TWO_SIDED|95.0|-5.0|14.4|||ANOVA|||Insulin-Month 6||14.4|-5.0|0.342
82616814|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.01|TWO_SIDED|95.0|0.1|0.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 3||0.9|0.1|0.010
82616815|NCT01219959|164949997|SUPERIORITY||Median Difference (Final Values)|0.3||||0.073|TWO_SIDED|95.0|0.0|0.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cholesterol-Month 6||0.7|0|0.073
82616816|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.181|TWO_SIDED|95.0|-0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 3||0.5|-0.1|0.181
82616817|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.593|TWO_SIDED|95.0|-0.2|0.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LDLC-Month 6||0.4|-0.2|0.593
82616818|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.198|TWO_SIDED|95.0|-0.2|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 3||0|-0.2|0.198
82616819|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.298|TWO_SIDED|95.0|-0.1|0.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for HDLC-Month 6||0|-0.1|0.298
82616820|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.4|||<|0.001|TWO_SIDED|95.0|0.2|0.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 3||0.6|0.2|<0.001
82616821|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.003|TWO_SIDED|95.0|0.1|0.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for VLDL-Month 6||0.5|0.1|0.003
82659918|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.62|||<|0.001|TWO_SIDED|95.0|0.3|0.94||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||0.94|0.30|<0.001
82659919|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01|||<|0.001|TWO_SIDED|95.0|0.65|1.37||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.37|0.65|<0.001
82659920|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|||<|0.001|TWO_SIDED|95.0|0.73|1.44||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.44|0.73|<0.001
82659921|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.54|1.25||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.25|0.54|<0.001
82616822|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.8|||<|0.001|TWO_SIDED|95.0|0.4|1.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 3||1.3|0.4|<0.001
82616823|NCT01219959|164949997|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.002|TWO_SIDED|95.0|0.3|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Triglycerides-Month 6||1.1|0.3|0.002
82616824|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|-2.3||||0.485|TWO_SIDED|95.0|-8.6|4.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 3||4.1|-8.6|0.485
82616825|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.556|TWO_SIDED|95.0|-8.2|4.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Lp(a)-Month 6||4.4|-8.2|0.556
82616826|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.101|TWO_SIDED|95.0|-1.1|12.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 3||12.2|-1.1|0.101
82659922|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||<|0.001|TWO_SIDED|95.0|0.9|1.63||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.63|0.90|<0.001
82659923|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33|||<|0.001|TWO_SIDED|95.0|0.97|1.69||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.69|0.97|<0.001
82616827|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.134|TWO_SIDED|95.0|-1.5|11.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo A1-Month 6||11.5|-1.5|0.134
82616828|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|11.4||||0.004|TWO_SIDED|95.0|3.6|19.2|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 3||19.2|3.6|0.004
82616829|NCT01219959|164949998|SUPERIORITY||Mean Difference (Final Values)|8.4||||0.03|TWO_SIDED|95.0|0.8|15.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Apo B-Month 6||15.9|0.8|0.030
82616830|NCT01219959|164949999|SUPERIORITY||Mean Difference (Final Values)|-56.5||||0.655|TWO_SIDED|95.0|-304.6|191.7|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 3||191.7|-304.6|0.655
82616831|NCT01219959|164949999|SUPERIORITY||Mean Difference (Final Values)|-29.2||||0.811|TWO_SIDED|95.0|-268.9|210.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Insulin-Month 6||210.5|-268.9|0.811
82616832|NCT01219959|164949999|SUPERIORITY||Mean Difference (Final Values)|441.3||||0.419|TWO_SIDED|95.0|-630.4|1513.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 3||1513.1|-630.4|0.419
82659924|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.1|||<|0.001|TWO_SIDED|95.0|0.74|1.45||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||1.45|0.74|<0.001
82616833|NCT01219959|164949999|SUPERIORITY||Mean Difference (Final Values)|121.8||||0.82|TWO_SIDED|95.0|-927.9|1171.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for C-Peptide-Month 6||1171.5|-927.9|0.820
82616834|NCT01219959|164950000|SUPERIORITY||Mean Difference (Final Values)|-4.2||||0.721|TWO_SIDED|95.0|-27.5|19.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 3||19|-27.5|0.721
82616835|NCT01219959|164950000|SUPERIORITY||Mean Difference (Final Values)|13.5||||0.247|TWO_SIDED|95.0|-9.4|36.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pro-Insulin-Month 6||36.4|-9.4|0.247
82616836|NCT01219959|164950001|SUPERIORITY||Mean Difference (Final Values)|0.89||||0.624|TWO_SIDED|95.0|0.55|1.43|||ANOVA|||Estimates of Ratio-Month 6||1.43|0.55|0.624
82616837|NCT01219959|164950002|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.338|TWO_SIDED|95.0|-0.6|1.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 3||1.8|-0.6|0.338
82616838|NCT01219959|164950002|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.029|TWO_SIDED|95.0|0.1|2.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Albumin-Month 6||2.5|0.1|0.029
82616839|NCT01219959|164950002|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.817|TWO_SIDED|95.0|-1.9|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 3||1.5|-1.9|0.817
82616840|NCT01219959|164950002|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.091|TWO_SIDED|95.0|-0.2|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Total Protein-Month 6||2.9|-0.2|0.091
82616841|NCT01219959|164950003|SUPERIORITY||Mean Difference (Final Values)|-10.2||||0.127|TWO_SIDED|95.0|-23.3|2.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 3||2.9|-23.3|0.127
82616842|NCT01219959|164950003|SUPERIORITY||Mean Difference (Final Values)|-10.3|||<|0.001|TWO_SIDED|95.0|-16.4|-4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for PNA-Month 6||-4.3|-16.4|<0.001
82616843|NCT01219959|164950003|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.012|TWO_SIDED|95.0|-0.4|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 3||-0.1|-0.4|0.012
82616844|NCT01219959|164950003|SUPERIORITY||Mean Difference (Final Values)|-0.2|||<|0.001|TWO_SIDED|95.0|-0.3|-0.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for nPNA-Month 6||-0.1|-0.3|<0.001
82616845|NCT01219959|164950004|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.019|TWO_SIDED|95.0|0.5|5.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 3||5.8|0.5|0.019
82616846|NCT01219959|164950004|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.019|TWO_SIDED|95.0|0.5|5.6|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Pre-Albumin-Month 6||5.6|0.5|0.019
82616847|NCT01219959|164950005|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.884|TWO_SIDED|95.0|-3.9|3.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 3||3.4|-3.9|0.884
82616848|NCT01219959|164950005|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.716|TWO_SIDED|95.0|-3.0|4.3|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Drained Fat-Month 6||4.3|-3|0.716
82659925|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.45|||<|0.001|TWO_SIDED|95.0|1.09|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.82|1.09|<0.001
82659926|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|||<|0.001|TWO_SIDED|95.0|1.1|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.82|1.10|<0.001
82659927|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.67|1.38||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||1.38|0.67|<0.001
82659928|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.26|2.0||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.00|1.26|<0.001
82616849|NCT01219959|164950006|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.961|TWO_SIDED|95.0|-1.2|1.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 3||1.1|-1.2|0.961
82616850|NCT01219959|164950006|SUPERIORITY||Mean Difference (Final Values)|0.3||||0.581|TWO_SIDED|95.0|-0.8|1.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for BMI-Month 6||1.5|-0.8|0.581
82616851|NCT01219959|164950007|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.871|TWO_SIDED|95.0|-3.7|3.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Waist Circumference-Month 6||3.1|-3.7|0.871
82616852|NCT01219959|164950008|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.608|TWO_SIDED|95.0|-14.7|25.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 3||25|-14.7|0.608
82616853|NCT01219959|164950008|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.731|TWO_SIDED|95.0|-11.5|8.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Protein-Month 6||8.1|-11.5|0.731
82659929|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|||<|0.001|TWO_SIDED|95.0|1.25|1.98||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||1.98|1.25|<0.001
82616854|NCT01219959|164950008|SUPERIORITY||Mean Difference (Final Values)|185.3||||0.377|TWO_SIDED|95.0|-227.5|598.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 3||598.1|-227.5|0.377
82616855|NCT01219959|164950008|SUPERIORITY||Mean Difference (Final Values)|-18.3||||0.854|TWO_SIDED|95.0|-214.4|177.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Calories-Month 6||177.8|-214.4|0.854
82616856|NCT01219959|164950009|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.412|TWO_SIDED|95.0|-0.03|0.07|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 3||0.07|-0.03|0.412
82616857|NCT01219959|164950009|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.485|TWO_SIDED|95.0|-0.07|0.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Questionnaire Index-Month 6||0.03|-0.07|0.485
82616858|NCT01219959|164950010|SUPERIORITY||Mean Difference (Final Values)|2.18||||0.525|TWO_SIDED|95.0|-4.56|8.93|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 3||8.93|-4.56|0.525
82616859|NCT01219959|164950010|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.995|TWO_SIDED|95.0|-6.79|6.83|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for EQ 5D Quest Health Status-Month 6||6.83|-6.79|0.995
82616860|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-1.87||||0.526|TWO_SIDED|95.0|-7.64|3.91|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 3||3.91|-7.64|0.526
82616861|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|0.83||||0.779|TWO_SIDED|95.0|-5.01|6.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Fatigue-Month 6||6.68|-5.01|0.779
82616862|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-2.95||||0.246|TWO_SIDED|95.0|-7.95|2.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 3||2.04|-7.95|0.246
82616863|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-0.72||||0.78|TWO_SIDED|95.0|-5.78|4.34|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Psychology Cognitive-Month 6||4.34|-5.78|0.780
82616864|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|0.41||||0.885|TWO_SIDED|95.0|-5.22|6.04|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 3||6.04|-5.22|0.885
82616865|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|4.41||||0.128|TWO_SIDED|95.0|-1.28|10.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Pain-Month 6||10.10|-1.28|0.128
82659930|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.85|1.57||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||1.57|0.85|<0.001
82616866|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|1.07||||0.701|TWO_SIDED|95.0|-4.4|6.54|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 3||6.54|-4.40|0.701
82616867|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|7.21||||0.01|TWO_SIDED|95.0|1.7|12.73|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Neurology Sensory-Month 6||12.73|1.70|0.010
82616868|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.934|TWO_SIDED|95.0|-4.63|5.03|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 3||5.03|-4.63|0.934
82616869|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|3.13||||0.209|TWO_SIDED|95.0|-1.75|8.01|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Cardiology-Month 6||8.01|-1.75|0.209
82616870|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|1.89||||0.585|TWO_SIDED|95.0|-4.9|8.68|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 3||8.68|-4.90|0.585
82616871|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|1.62||||0.641|TWO_SIDED|95.0|-5.22|8.47|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Ophthalmology-Month 6||8.47|-5.22|0.641
82616872|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-1.5||||0.586|TWO_SIDED|95.0|-6.89|3.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 3||3.90|-6.89|0.586
82616873|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-0.33||||0.906|TWO_SIDED|95.0|-5.79|5.14|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hypoglycemia-Month 6||5.14|-5.79|0.906
82616874|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.97|TWO_SIDED|95.0|-4.93|4.75|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 3||4.75|-4.93|0.970
82659931|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71|||<|0.001|TWO_SIDED|95.0|1.33|2.08||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.08|1.33|<0.001
82659932|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|1.23|1.97||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||1.97|1.23|<0.001
82659933|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.17|||<|0.001|TWO_SIDED|95.0|0.81|1.54||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||1.54|0.81|<0.001
82616875|NCT01219959|164950011|SUPERIORITY||Mean Difference (Final Values)|2.38||||0.34|TWO_SIDED|95.0|-2.52|7.28|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Hyperglycemia-Month 6||7.28|-2.52|0.340
82616876|NCT01219959|164950012|SUPERIORITY||Mean Difference (Final Values)|24.6||||0.495|TWO_SIDED|95.0|-46.9|96.0|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Subcutaneous Fat Volume-Month 6||96|-46.9|0.495
82616877|NCT01219959|164950012|SUPERIORITY||Mean Difference (Final Values)|55.4||||0.081|TWO_SIDED|95.0|-7.0|117.8|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for Abdominal Visceral Fat Volume-Month 6||117.8|-7|0.081
82616878|NCT01219959|164950013|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.626|TWO_SIDED|95.0|-19.3|31.9|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Diastolic Volume-Month 6||31.9|-19.3|0.626
82616879|NCT01219959|164950013|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.486|TWO_SIDED|95.0|-14.5|30.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV End Systolic Volume-Month 6||30.1|-14.5|0.486
82616880|NCT01219959|164950014|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.832|TWO_SIDED|95.0|-18.9|23.4|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass with Pap Muscles-Month 6||23.4|-18.9|0.832
82616881|NCT01219959|164950014|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.82|TWO_SIDED|95.0|-18.3|23.1|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Mass without Pap Muscles-Month 6||23.1|-18.3|0.820
82616882|NCT01219959|164950015|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.955|TWO_SIDED|95.0|-6.9|6.5|||ANOVA|||Estimate of Least Square Means Comparing Treatment Groups for LV Ejection Fraction-Month 6||6.5|-6.9|0.955
82616883|NCT01728584|164950016|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|1.09||||0.026|TWO_SIDED|95.0|0.13|2.04|||ANCOVA|Analysis of covariance (ANCOVA) model included factors depth of NMB, level of pressure, surgeon and body mass index (BMI)|Difference is deep versus standard NMB|Primary hypothesis - deep NMB improves surgeon's overall satisfaction with the surgical conditions compared to standard NMB||2.04|0.13|0.026
82616884|NCT01728584|164950016|SUPERIORITY_OR_OTHER||Difference in LS Means|-3.02|||<|0.001|TWO_SIDED|95.0|-3.99|-2.05|||ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is low versus standard pressure|||-2.05|-3.99|<0.001
82616885|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in Least Squares (LS) Means|3.66|||||TWO_SIDED|95.0|2.3|5.02|||||Difference is standard NMB/standard pressure versus standard NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||5.02|2.30|
82616886|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.44|||||TWO_SIDED|95.0|-1.8|0.91|||||Difference is standard NMB/standard pressure versus deep NMB/standard pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||0.91|-1.80|
82616887|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in LS Means|1.96|||||TWO_SIDED|95.0|0.57|3.36|||||Difference is standard NMB/standard pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||3.36|0.57|
82616888|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in LS Means|-4.1|||||TWO_SIDED|95.0|-5.42|-2.78|||||Difference is standard NMB/low pressure versus deep NMB/standard pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||-2.78|-5.42|
82616889|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in LS Means|-1.7|||||TWO_SIDED|95.0|-3.01|-0.38|||||Difference is standard NMB/low pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||-0.38|-3.01|
82616890|NCT01728584|164950017|SUPERIORITY_OR_OTHER||Difference in LS Means|2.41|||||TWO_SIDED|95.0|1.08|3.74|||||Difference is deep NMB/standard pressure versus deep NMB/low pressure|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI||3.74|1.08|
82616891|NCT01728584|164950018|SUPERIORITY_OR_OTHER||Difference in LS Means|0.35||||0.148|TWO_SIDED|95.0|-0.13|0.84|||ANOVA|Analysis of variance (ANOVA) model included factors depth of NMB, level of pressure, gender and surgeon|Difference is deep versus standard NMB|||0.84|-0.13|0.148
82616892|NCT01728584|164950018|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.17||||0.494|TWO_SIDED|95.0|-0.67|0.33||To control for multiple testing, this difference was formally tested only if comparison of surgeon's overall satisfaction with surgical conditions for deep versus standard NMB was significant at the 5% level, with greater satisfaction for deep NMB.|ANOVA|ANOVA model included factors depth of NMB, level of pressure, gender and surgeon|Difference is low versus standard pressure|Key secondary hypothesis - low insufflation pressure improves overall average pain score in first 24 hours compared to standard insufflation pressure||0.33|-0.67|0.494
82616893|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.2|||||TWO_SIDED|95.0|-0.92|0.52|||||Difference is standard NMB/standard pressure versus standard NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.52|-0.92|
82616894|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.65|||||TWO_SIDED|95.0|-1.27|-0.02|||||Difference is standard NMB/standard pressure versus deep NMB/standard pressure|ANOVA model included factors treatment group, gender and surgeon||-0.02|-1.27|
82616895|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.15|||||TWO_SIDED|95.0|-0.84|0.53|||||Difference is standard NMB/standard pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.53|-0.84|
82616896|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.45|||||TWO_SIDED|95.0|-1.15|0.26|||||Difference is standard NMB/low pressure versus deep NMB/standard pressure|ANOVA model included factors treatment group, gender and surgeon||0.26|-1.15|
82616897|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|0.05|||||TWO_SIDED|95.0|-0.69|0.78|||||Difference is standard NMB/low pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||0.78|-0.69|
82616898|NCT01728584|164950019|SUPERIORITY_OR_OTHER||Difference in LS Means|0.49|||||TWO_SIDED|95.0|-0.17|1.16|||||Difference is deep NMB/standard pressure versus deep NMB/low pressure|ANOVA model included factors treatment group, gender and surgeon||1.16|-0.17|
82616899|NCT01728584|164950020|SUPERIORITY_OR_OTHER||Difference in LS Means|0.91||||0.063|TWO_SIDED|95.0|-0.05|1.87||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.87|-0.05|0.063
82492727|NCT00345839|164678242|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.07|||||TWO_SIDED|95.0|0.82|1.4|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.40|0.82|
82616900|NCT01728584|164950021|SUPERIORITY_OR_OTHER||Difference in LS Means|0.82||||0.004|TWO_SIDED|95.0|0.27|1.37||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.37|0.27|0.004
82616901|NCT01728584|164950022|SUPERIORITY_OR_OTHER||Difference in LS Means|1.12||||0.006|TWO_SIDED|95.0|0.32|1.92||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.92|0.32|0.006
82616902|NCT01728584|164950023|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.61||||0.073|TWO_SIDED|95.0|-1.27|0.06||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||0.06|-1.27|0.073
82616903|NCT01728584|164950024|SUPERIORITY_OR_OTHER||Difference in LS Means|0.74||||0.009|TWO_SIDED|95.0|0.19|1.28||Not controlled for multiple testing|ANCOVA|ANCOVA model included factors depth of NMB, level of pressure, surgeon and BMI|Difference is deep versus standard NMB|||1.28|0.19|0.009
82616904|NCT03207022|164950046|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82616905|NCT03207022|164950047|OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82616906|NCT03207022|164950048|OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82616907|NCT02232087|164950060|EQUIVALENCE|The potency of the test and reference product was considered equivalent if the 90% CI for the estimate of relative potency was completely contained within the limits of 0.67 to 1.50|Odds Ratio, log|1.0|||>|0.1|TWO_SIDED|90.0|0.67|1.5||test for parallelism of dose response lines|ANOVA||Test is the numerator|The measurement of relative potency was conducted for the pair of doses which met the above criteria and lay on the steepest linear portion of the dose response curve. The log estimate of relative potency was obtained as the ratio of the estimated treatment effect as measured by the difference in the intercepts of the parallel lines divided by the estimate of the common slope for log dose.||1.50|0.67|>0.10
82616908|NCT02232087|164950061|EQUIVALENCE|The potency of the test and reference product was considered equivalent if the 90% CI for the estimate of relative potency was completely contained within the limits of 0.67 to 1.50|Odds Ratio, log|1.0|||>|0.1|TWO_SIDED|90.0|0.67|1.5||test for parallelism of dose response lines|ANOVA||Test is the numerator|The measurement of relative potency was conducted for the pair of doses which met the above criteria and lay on the steepest linear portion of the dose response curve. The log estimate of relative potency was obtained as the ratio of the estimated treatment effect as measured by the difference in the intercepts of the parallel lines divided by the estimate of the common slope for log dose.||1.50|0.67|>0.10
82616909|NCT02232087|164950062|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.55|TWO_SIDED|95.0|-2.5|1.4||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.4|-2.5|0.55
82616910|NCT02232087|164950062|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|1.0||||0.53|TWO_SIDED|95.0|-2.5|1.3||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.3|-2.5|0.53
82616911|NCT02232087|164950062|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|1.0||||0.011|TWO_SIDED|95.0|-2.5|1.3||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||1.3|-2.5|0.011
82616912|NCT02232087|164950063|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.26|TWO_SIDED|95.0|-0.03|0.1||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.10|-0.03|0.26
82616913|NCT02232087|164950063|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0|-0.06|0.06||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.06|-0.06|0.93
82616914|NCT02232087|164950063|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.48|TWO_SIDED|95.0|-0.04|0.08||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.08|-0.04|0.48
82616915|NCT02232087|164950064|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.93|TWO_SIDED|95.0||||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||||0.93
82616916|NCT02232087|164950064|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.42|TWO_SIDED|95.0|-0.224|0.093||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.093|-0.224|0.42
82616917|NCT02232087|164950064|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.078|TWO_SIDED|95.0|-0.302|0.016||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||0.016|-0.302|0.078
82659934|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6|||<|0.001|TWO_SIDED|95.0|1.2|2.0||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.00|1.20|<0.001
82659935|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|||<|0.001|TWO_SIDED|95.0|1.19|1.98||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||1.98|1.19|<0.001
82659936|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.73|1.52||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||1.52|0.73|<0.001
82659937|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.49|||<|0.001|TWO_SIDED|95.0|1.08|1.9||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.90|1.08|<0.001
82616918|NCT02232087|164950065|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||0.71|TWO_SIDED|95.0|-3.9|5.7||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||5.7|-3.9|0.71
82616919|NCT02232087|164950065|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|0.0||||1|TWO_SIDED|95.0|-4.7|4.7||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||4.7|-4.7|1.00
82616920|NCT02232087|164950065|EQUIVALENCE|Comparability confirmed if confidence interval includes zero.|Mean Difference (Final Values)|-2.0||||0.016|TWO_SIDED|95.0|-10.6|-1.1||Comparability demonstrated for p\>0.05|ANOVA||Comparability confirmed if confidence interval includes zero.|For each dose, the 95% CIs for the mean differences for the test product versus the reference product were calculated.||-1.1|-10.6|0.016
82616921|NCT02512068|164950087|SUPERIORITY||Least square (LS) mean difference|-0.72|STANDARD_ERROR_OF_MEAN|0.124|<|0.0001|TWO_SIDED|95.0|-0.966|-0.473|||ANCOVA|||||-0.473|-0.966|<0.0001
82616922|NCT02512068|164950090|OTHER||Point estimate|-0.28|||||TWO_SIDED|95.0|-0.385|-0.18||||||Change from baseline in HbA1c at Week 2 was compared between the treatment groups.||-0.180|-0.385|
82616923|NCT02512068|164950090|OTHER||Point estimate|-0.48|||||TWO_SIDED|95.0|-0.621|-0.338||||||Change from baseline in HbA1c at Week 4 was compared between the treatment groups.||-0.338|-0.621|
82616924|NCT02512068|164950090|OTHER||Point estimate|-0.58|||||TWO_SIDED|95.0|-0.797|-0.367||||||Change from baseline in HbA1c at Week 8 was compared between the treatment groups.||-0.367|-0.797|
82659938|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||<|0.001|TWO_SIDED|95.0|1.16|1.97||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.97|1.16|<0.001
82659939|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.13|||<|0.001|TWO_SIDED|95.0|0.72|1.53||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||1.53|0.72|<0.001
82659940|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||<|0.001|TWO_SIDED|95.0|0.97|1.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.79|0.97|<0.001
82616925|NCT02512068|164950090|OTHER||Point estimate|-0.71|||||TWO_SIDED|95.0|-0.975|-0.441||||||Change from baseline in HbA1c at Week 12 was compared between the treatment groups.||-0.441|-0.975|
82616926|NCT02512068|164950090|OTHER||Point estimate|-0.7|||||TWO_SIDED|95.0|-0.948|-0.452||||||Change from baseline in HbA1c at End of Treatment Period I was compared between the treatment groups.||-0.452|-0.948|
82616927|NCT02512068|164950091|OTHER||Point estimate|1.7|||||TWO_SIDED|95.0|-6.598|9.919||||||The data of participants achieving \<6.0% at the end of Treatment Period I were compared between the treatment groups.||9.919|-6.598|
82616928|NCT02512068|164950091|OTHER||Point estimate|32.9|||||TWO_SIDED|95.0|14.194|51.66||||||The data of participants achieving \<7.0% at the end of Treatment Period I were compared between the treatment groups.||51.660|14.194|
82616929|NCT02512068|164950091|OTHER||Point estimate|45.6|||||TWO_SIDED|95.0|15.528|75.7||||||The data of participants achieving \<8.0% at the end of Treatment Period I were compared between the treatment groups.||75.700|15.528|
82616930|NCT02512068|164950092|OTHER||Point estimate|-15.2|||||TWO_SIDED|95.0|-23.59|-6.88||||||Change from baseline in fasting plasma glucose at Week 2 was compared between the treatment groups.||-6.88|-23.59|
82616931|NCT02512068|164950092|OTHER||Point estimate|-8.7|||||TWO_SIDED|95.0|-20.98|3.58||||||Change from baseline in fasting plasma glucose at Week 4 was compared between the treatment groups.||3.58|-20.98|
82659941|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.55|||<|0.001|TWO_SIDED|95.0|1.14|1.95||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.95|1.14|<0.001
82492728|NCT00345839|164678243|SUPERIORITY_OR_OTHER_LEGACY|||||||0.218||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||0.218
82616932|NCT02512068|164950092|OTHER||Point estimate|-8.3|||||TWO_SIDED|95.0|-18.76|2.11||||||Change from baseline in fasting plasma glucose at Week 8 was compared between the treatment groups.||2.11|-18.76|
82616933|NCT02512068|164950092|OTHER||Point estimate|-15.6|||||TWO_SIDED|95.0|-27.14|-4.03||||||Change from baseline in fasting plasma glucose at Week 12 was compared between the treatment groups.||-4.03|-27.14|
82616934|NCT02512068|164950092|OTHER||Point estimate|-15.6|||||TWO_SIDED|95.0|-26.67|-4.62||||||Change from baseline in fasting plasma glucose at End of Treatment Period I was compared between the treatment groups.||-4.62|-26.67|
82616935|NCT02512068|164950093|OTHER||Point estimate|-1.76|||||TWO_SIDED|95.0|-2.184|-1.34||||||Change from baseline in glycoalbumin at Week 2 was compared between the treatment groups.||-1.340|-2.184|
82616936|NCT02512068|164950093|OTHER||Point estimate|-2.45||||||95.0|-3.03|-1.87||||||Change from baseline in glycoalbumin at Week 4 was compared between the treatment groups.||-1.870|-3.030|
82616937|NCT02512068|164950093|OTHER||Point estimate|-2.48|||||TWO_SIDED|95.0|-3.289|-1.679||||||Change from baseline in glycoalbumin at Week 8 was compared between the treatment groups.||-1.679|-3.289|
82616938|NCT02512068|164950093|OTHER||Point estimate|-2.66|||||TWO_SIDED|95.0|-3.608|-1.715||||||Change from baseline in glycoalbumin at Week 12 was compared between the treatment groups.||-1.715|-3.608|
82616939|NCT02512068|164950093|OTHER||Point estimate|-2.66|||||TWO_SIDED|95.0|-3.608|-1.715||||||Change from baseline in glycoalbumin at End of Treatment Period I was compared between the treatment groups.||-1.715|-3.608|
82616940|NCT04891770|164950108|OTHER||percentage difference|2.5|||||TWO_SIDED|95.0|-2.3|7.3|||||For Cohort 2A versus Cohort 2B, the percentage difference and the corresponding 95% confidence interval was calculated using the stratum-adjusted Mantel-Haenszel method, stratified by HBsAg group (\> 3 and ≤ 3 log10 IU/mL).|||7.3|-2.3|
82616941|NCT04026412|164950124|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.646|TWO_SIDED|96.0|0.77|1.19|||Cox proportional hazards model|||||1.19|0.77|0.6460
82616942|NCT04026412|164950125|SUPERIORITY||Hazard Ratio (HR)|1.1|||||TWO_SIDED|95.0|0.87|1.41||||||||1.41|0.87|
82616943|NCT04026412|164950125|SUPERIORITY||Hazard Ratio (HR)|0.96|||||TWO_SIDED|95.0|0.75|1.22||||||||1.22|0.75|
82659942|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.02|||<|0.001|TWO_SIDED|95.0|0.62|1.43||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||1.43|0.62|<0.001
82616944|NCT04026412|164950125|SUPERIORITY||Hazard Ratio, log|1.16|||||TWO_SIDED|95.0|0.91|1.48||||||||1.48|0.91|
82616945|NCT04026412|164950126|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.69|1.05||||||||1.05|0.69|
82616946|NCT04026412|164950126|SUPERIORITY||Hazard Ratio (HR)|1.15|||||TWO_SIDED|95.0|0.93|1.42||||||||1.42|0.93|
82616947|NCT04026412|164950127|SUPERIORITY||Difference in ORR|3.2|||||TWO_SIDED|95.0|-4.1|10.6||||||||10.6|-4.1|
82616948|NCT04026412|164950127|SUPERIORITY||Difference in ORR|7.8|||||TWO_SIDED|95.0|0.7|14.8||||||||14.8|0.7|
82616949|NCT04026412|164950127|SUPERIORITY||Difference in ORR|-4.7|||||TWO_SIDED|95.0|-11.8|2.5||||||||2.5|-11.8|
82616950|NCT04026412|164950130|SUPERIORITY||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.82|1.23||||||||1.23|0.82|
82616951|NCT04026412|164950130|SUPERIORITY||Hazard Ratio (HR)|0.86|||||TWO_SIDED|95.0|0.7|1.05||||||||1.05|0.70|
82616952|NCT04026412|164950130|SUPERIORITY||Hazard Ratio (HR)|1.17|||||TWO_SIDED|95.0|0.95|1.44||||||||1.44|0.95|
82616953|NCT04026412|164950131|SUPERIORITY||Difference in ORR|3.5|||||TWO_SIDED|95.0|-4.1|11.1||||||||11.1|-4.1|
82616954|NCT04026412|164950131|SUPERIORITY||Difference in ORR|5.4|||||TWO_SIDED|95.0|-2.0|12.9||||||||12.9|-2.0|
82616955|NCT04026412|164950131|SUPERIORITY||Difference in ORR|-1.9|||||TWO_SIDED|95.0|-9.5|5.6||||||||5.6|-9.5|
82616956|NCT04026412|164950134|SUPERIORITY||Hazard Ratio (HR)|0.97|||||TWO_SIDED|95.0|0.76|1.23||||||||1.23|0.76|
82616957|NCT04026412|164950134|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.65|1.06||||||||1.06|0.65|
82616958|NCT04026412|164950134|SUPERIORITY||Hazard Ratio (HR)|1.16|||||TWO_SIDED|95.0|0.91|1.49||||||||1.49|0.91|
82616959|NCT04360187|164950149|SUPERIORITY||LS mean of difference|-17.13||||0.0002|TWO_SIDED|95.0|-25.98|-8.27|||Mixed effect Model for Repeated Measures||Crisaborole = Test Vehicle = Reference|||-8.27|-25.98|0.0002
82616960|NCT04360187|164950153|SUPERIORITY||Risk Difference (RD)|12.9||||0.0124|TWO_SIDED|95.0|2.8|23.1|||normal approximation to response rates||Crisaborole = Test Vehicle = Reference|||23.1|2.8|0.0124
82616961|NCT04360187|164950154|SUPERIORITY||Risk Difference (RD)|11.7||||0.0078|TWO_SIDED|95.0|3.1|20.3|||normal approximation to response rates||Crisaborole = Test Vehicle = Reference|||20.3|3.1|0.0078
82492729|NCT00345839|164678243|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.89|||||TWO_SIDED|95.0|0.75|1.07|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||1.07|0.75|
82616962|NCT04360187|164950155|SUPERIORITY||LS Mean of Difference|-0.79||||0.0009|TWO_SIDED|95.0|-1.26|-0.33|||Mixed effect Model for Repeated Measures||Crisaborole = Test Vehicle = Reference|||-0.33|-1.26|0.0009
82616963|NCT01318083|164950182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.936|||||TWO_SIDED|95.0|-1.097|-0.775||||||||-0.775|-1.097|
82616964|NCT01318083|164950182|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.998|||||TWO_SIDED|95.0|-1.16|-0.837||||||||-0.837|-1.160|
82616965|NCT01318083|164950183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.196|||||TWO_SIDED|95.0|-0.261|-0.131||||||||-0.131|-0.261|
82616966|NCT01318083|164950183|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.213|||||TWO_SIDED|95.0|-0.273|-0.154||||||||-0.154|-0.273|
82616967|NCT01318083|164950184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41|||||TWO_SIDED|95.0|-0.507|-0.312||||||||-0.312|-0.507|
82616968|NCT01318083|164950184|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.453|||||TWO_SIDED|95.0|-0.547|-0.358||||||||-0.358|-0.547|
82616969|NCT01318083|164950185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.695|||||TWO_SIDED|95.0|-0.834|-0.556||||||||-0.556|-0.834|
82616970|NCT01318083|164950185|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.77|||||TWO_SIDED|95.0|-0.911|-0.629||||||||-0.629|-0.911|
82616971|NCT01318083|164950186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.71|||||TWO_SIDED|95.0|-24.6|-10.83||||||||-10.83|-24.60|
82616972|NCT01318083|164950186|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.59|||||TWO_SIDED|95.0|-24.93|-10.25||||||||-10.25|-24.93|
82616973|NCT01318083|164950187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.17|||||TWO_SIDED|95.0|-30.33|-16.02||||||||-16.02|-30.33|
82616974|NCT01318083|164950187|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.88|||||TWO_SIDED|95.0|-32.33|-17.43||||||||-17.43|-32.33|
82616975|NCT01318083|164950188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-27.62|||||TWO_SIDED|95.0|-35.32|-19.91||||||||-19.91|-35.32|
82616976|NCT01318083|164950188|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.72|||||TWO_SIDED|95.0|-30.76|-14.69||||||||-14.69|-30.76|
82616977|NCT01318083|164950189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-28.37|||||TWO_SIDED|95.0|-37.14|-19.59||||||||-19.59|-37.14|
82616978|NCT01318083|164950189|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.93|||||TWO_SIDED|95.0|-30.33|-13.54||||||||-13.54|-30.33|
82616979|NCT01318083|164950190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.41|||||TWO_SIDED|95.0|-36.58|-10.23||||||||-10.23|-36.58|
82616980|NCT01318083|164950190|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.18|||||TWO_SIDED|95.0|-33.4|-4.95||||||||-4.95|-33.40|
82616981|NCT05896761|164950191|OTHER||Ratio of geometric least square mean|0.926|||||TWO_SIDED|90.0|0.831|1.03||||||||1.03|0.831|
82616982|NCT05896761|164950191|OTHER||Ratio of geometric least square mean|0.929|||||TWO_SIDED|90.0|0.816|1.06||||||||1.06|0.816|
82616983|NCT05896761|164950192|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.966|1.17||||||||1.17|0.966|
82616984|NCT05896761|164950192|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.07|1.29||||||||1.29|1.07|
82616985|NCT05896761|164950193|OTHER||Ratio of geometric least square mean|1.35|||||TWO_SIDED|90.0|1.22|1.49||||||||1.49|1.22|
82616986|NCT05896761|164950193|OTHER||Ratio of geometric least square mean|1.1|||||TWO_SIDED|90.0|0.975|1.24||||||||1.24|0.975|
82616987|NCT05896761|164950194|OTHER||Ratio of geometric least square mean|1.26|||||TWO_SIDED|90.0|1.12|1.4||||||||1.40|1.12|
82616988|NCT05896761|164950194|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.09|1.28||||||||1.28|1.09|
82616989|NCT05896761|164950195|OTHER||Ratio of geometric least square mean|1.21|||||TWO_SIDED|90.0|1.13|1.3||||||||1.30|1.13|
82616990|NCT05896761|164950195|OTHER||Ratio of geometric least square mean|1.09|||||TWO_SIDED|90.0|1.0|1.2||||||||1.20|1.00|
82616991|NCT05896761|164950196|OTHER||Ratio of geometric least square mean|1.15|||||TWO_SIDED|90.0|1.07|1.23||||||||1.23|1.07|
82616992|NCT05896761|164950196|OTHER||Ratio of geometric least square mean|1.29|||||TWO_SIDED|90.0|1.2|1.38||||||||1.38|1.20|
82616993|NCT05896761|164950197|OTHER||Ratio of geometric least square mean|1.16|||||TWO_SIDED|90.0|1.08|1.25||||||||1.25|1.08|
82616994|NCT05896761|164950197|OTHER||Ratio of geometric least square mean|0.983|||||TWO_SIDED|90.0|0.89|1.09||||||||1.09|0.890|
82616995|NCT05896761|164950198|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.991|1.13||||||||1.13|0.991|
82616996|NCT05896761|164950198|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.974|1.12||||||||1.12|0.974|
82616997|NCT05896761|164950199|OTHER||Ratio of geometric least square mean|1.18|||||TWO_SIDED|90.0|1.11|1.25||||||||1.25|1.11|
82616998|NCT05896761|164950199|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|0.989|1.14||||||||1.14|0.989|
82616999|NCT05896761|164950200|OTHER||Ratio of geometric least square mean|1.08|||||TWO_SIDED|90.0|1.03|1.12||||||||1.12|1.03|
82617000|NCT05896761|164950200|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.997|1.08||||||||1.08|0.997|
82617001|NCT05896761|164950201|OTHER||Ratio of geometric least square mean|1.13|||||TWO_SIDED|90.0|1.08|1.19||||||||1.19|1.08|
82617002|NCT05896761|164950201|OTHER||Ratio of geometric least square mean|1.04|||||TWO_SIDED|90.0|0.97|1.11||||||||1.11|0.97|
82617003|NCT05896761|164950202|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|1.02|1.11||||||||1.11|1.02|
82617004|NCT05896761|164950202|OTHER||Ratio of geometric least square mean|1.06|||||TWO_SIDED|90.0|1.01|1.11||||||||1.11|1.01|
82617005|NCT00952289|164950256|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The primary endpoint analyzed with a 2-sided alpha of 0.05.||||<0.0001
82617006|NCT02932475|164950274|SUPERIORITY||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.63|1.19|||||The odds ratio was calculated and adjusted for study site, timing of diabetes diagnosis, gestational age at randomization stratified at 18 weeks, and baseline maternal BMI.|The sample size gave adequate power over a range of expected primary outcome event rates, with type I error set at 0.044 (reduced from 0.05 for interim analysis), with reasonable power under a conservative scenario assuming that 20% of subjects immediately stopped taking study agent.||1.19|0.63|
82617007|NCT02932475|164950275|SUPERIORITY||Difference in proportions|0.2||||0.4|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|Chi-squared|||||||0.4
82617008|NCT02932475|164950276|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.4|TWO_SIDED|||||The a priori threshold for statistical significance was \<0.05.|t-test, 2 sided||comparison of mean (sd) between groups|||||0.4
82617009|NCT02932475|164950277|SUPERIORITY||Difference in proportions|0.0||||0.6|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05.|Chi-squared|||||||0.6
82617010|NCT02932475|164950278|SUPERIORITY||Difference in proportions|0.0||||0.08|TWO_SIDED|||||The a priori threshold for statistical significance is \<0.05.|Chi-squared|||||||0.08
82617011|NCT00962039|164950279|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.01||||0.92|TWO_SIDED|95.0|-0.12|0.1||Analyses were conducted over 8 week follow-up.|Chi-squared|||||0.10|-0.12|0.92
82617012|NCT00962039|164950280|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.08||||0.034|TWO_SIDED|95.0|-0.15|-0.01|||Chi-squared|||||-0.01|-0.15|0.034
82617013|NCT00962039|164950281|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.03||||0.261|TWO_SIDED|95.0|-0.07|0.02|||t-test, 2 sided|||||0.02|-0.07|0.261
82617014|NCT00962039|164950282|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.09||||0.519|TWO_SIDED|95.0|-0.36|0.18|||t-test, 2 sided|||||0.18|-0.36|0.519
82617015|NCT00962039|164950283|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.704|TWO_SIDED|95.0|-0.77|0.52|||t-test, 2 sided|||||0.52|-0.77|0.704
82617016|NCT00962039|164950284|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.59||||0.046|TWO_SIDED|95.0|0.01|1.17|||t-test, 2 sided|||||1.17|0.01|0.046
82617017|NCT02227329|164950292|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|||||||0.17
82617018|NCT04594239|164950293|SUPERIORITY||Difference in response rates|78.7|||||TWO_SIDED|95.0|66.3|85.6||||||||85.6|66.3|
82617019|NCT04594239|164950293|SUPERIORITY||Difference in response rates|85.4|||||TWO_SIDED|95.0|70.5|92.3||||||||92.3|70.5|
82617020|NCT04594239|164950293|SUPERIORITY||Difference in response rates|71.8|||||TWO_SIDED|95.0|55.2|82.5||||||||82.5|55.2|
82617021|NCT03492463|164950306|SUPERIORITY|||||||0.01|||||||Regression, Linear|||Due to time and budget constraints a blinded decision was made and approved by the funding agency to limit further enrollment to the two conditions that provided nicotine patches. The primary (one-tailed) test compared Nicotine e-cigs + Nicotine patches to Non-nicotine e-cigs + Nicotine patches.||||0.01
82617022|NCT03492463|164950307|SUPERIORITY|||||||0.8|||||||ANOVA|||||||0.8
82617023|NCT03492463|164950308|SUPERIORITY|||||||0.5|||||||ANOVA|||||||0.5
82617024|NCT06704178|164950310|SUPERIORITY|||||||0.488445|||||||Multiple t-tests|||||||0.488445
82617025|NCT06704178|164950311|SUPERIORITY|Between-group comparison.||||||0.98317||||||Between-group comparison.|t-test, 2 sided|||||||0.98317
82617026|NCT06704178|164950312|SUPERIORITY|||||||0.98317|||||||t-test, 2 sided|||||||0.98317
82617027|NCT06704178|164950313|SUPERIORITY|||||||0.919209|||||||t-test, 2 sided|||||||0.919209
82617028|NCT06704178|164950314|SUPERIORITY|||||||0.919209|||||||t-test, 2 sided|||||||0.919209
82617029|NCT06704178|164950315|SUPERIORITY|||||||0.954882||||||Comparison at Month 2|t-test, 2 sided|||||||0.954882
82617030|NCT06704178|164950315|SUPERIORITY|||||||0.246176||||||Comparison at Month 4|t-test, 2 sided|||||||0.246176
82617031|NCT06704178|164950315|SUPERIORITY|||||||0.954882||||||Comparison at Month 6|t-test, 2 sided|||||||0.954882
82617032|NCT06704178|164950316|SUPERIORITY|||||||0.483382||||||Comparison at Month 2|t-test, 2 sided|||||||0.483382
82617033|NCT06704178|164950316|SUPERIORITY|||||||0.483382||||||Comparison at Month 4|t-test, 2 sided|||||||0.483382
82617034|NCT06704178|164950316|SUPERIORITY|||||||0.726742||||||Comparison at Month 6|t-test, 2 sided|||||||0.726742
82617035|NCT06704178|164950317|SUPERIORITY|||||||0.999216||||||Comparison at Month 1|t-test, 2 sided|||||||0.999216
82617036|NCT06704178|164950317|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617037|NCT06704178|164950317|SUPERIORITY|||||||0.559556||||||Comparison at Month 3|t-test, 2 sided|||||||0.559556
82617038|NCT06704178|164950317|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
82617039|NCT06704178|164950317|SUPERIORITY|||||||0.952545||||||Comparison at Month 5|t-test, 2 sided|||||||0.952545
82617040|NCT06704178|164950317|SUPERIORITY|||||||0.998367||||||Comparison at Month 6|t-test, 2 sided|||||||0.998367
82617041|NCT06704178|164950318|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
82617042|NCT06704178|164950318|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617043|NCT06704178|164950318|SUPERIORITY|||||||0.999801|||||||t-test, 2 sided|||||||0.999801
82617044|NCT06704178|164950318|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
82617045|NCT06704178|164950318|SUPERIORITY|||||||0.993223||||||Comparison at Month 5|t-test, 2 sided|||||||0.993223
82617046|NCT06704178|164950318|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
82617047|NCT06704178|164950319|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
82617048|NCT06704178|164950319|SUPERIORITY|||||||0.999838||||||Comparison at Month 2|t-test, 2 sided|||||||0.999838
82617049|NCT06704178|164950319|SUPERIORITY|||||||0.991697||||||Comparison at Month 3|t-test, 2 sided|||||||0.991697
82617050|NCT06704178|164950319|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
82617051|NCT06704178|164950319|SUPERIORITY|||||||0.581904||||||Comparison at Month 5|t-test, 2 sided|||||||0.581904
82617052|NCT06704178|164950319|SUPERIORITY|||||||0.999866||||||Comparison at Month 6|t-test, 2 sided|||||||0.999866
82617053|NCT06704178|164950320|SUPERIORITY|||||||0.999835||||||Comparison at Month 1|t-test, 2 sided|||||||0.999835
82617054|NCT06704178|164950320|SUPERIORITY|||||||0.962016||||||Comparison at Month 2|t-test, 2 sided|||||||0.962016
82617055|NCT06704178|164950320|SUPERIORITY|||||||0.995044||||||Comparison at Month 3|t-test, 2 sided|||||||0.995044
82617056|NCT06704178|164950320|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
82617057|NCT06704178|164950320|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
82617058|NCT06704178|164950320|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
82659943|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.35|||<|0.001|TWO_SIDED|95.0|0.93|1.77||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.77|0.93|<0.001
82659944|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.97|1.81||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.81|0.97|<0.001
82617059|NCT06704178|164950321|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
82617060|NCT06704178|164950321|SUPERIORITY|||||||0.999524||||||Comparison at Month 2|t-test, 2 sided|||||||0.999524
82617061|NCT06704178|164950321|SUPERIORITY|||||||0.576782||||||Comparison at Month 3|t-test, 2 sided|||||||0.576782
82617062|NCT06704178|164950321|SUPERIORITY|||||||0.772865||||||Comparison at Month 4|t-test, 2 sided|||||||0.772865
82617063|NCT06704178|164950321|SUPERIORITY|||||||0.91384||||||Comparison at Month 5|t-test, 2 sided|||||||0.91384
82617064|NCT06704178|164950321|SUPERIORITY|||||||0.992841||||||Comparison at Month 6|t-test, 2 sided|||||||0.992841
82617065|NCT06704178|164950322|SUPERIORITY|||||||0.999732||||||Comparison at Month 1|t-test, 2 sided|||||||0.999732
82617066|NCT06704178|164950322|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617067|NCT06704178|164950322|SUPERIORITY|||||||0.999801||||||Comparison at Month 3|t-test, 2 sided|||||||0.999801
82659945|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.001|TWO_SIDED|95.0|0.63|1.46||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||1.46|0.63|<0.001
82659946|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.29|||<|0.001|TWO_SIDED|95.0|0.87|1.71||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.71|0.87|<0.001
82617068|NCT06704178|164950322|SUPERIORITY||||||>|0.999999||||||Comparison at Month 4|t-test, 2 sided|||||||>0.999999
82617069|NCT06704178|164950322|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
82617070|NCT06704178|164950322|SUPERIORITY||||||>|0.999999||||||Comparison at Month 6|t-test, 2 sided|||||||>0.999999
82617071|NCT06704178|164950323|SUPERIORITY|||||||0.999851||||||Comparison at Month 1|t-test, 2 sided|||||||0.999851
82617072|NCT06704178|164950323|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617073|NCT06704178|164950323|SUPERIORITY|||||||0.998326||||||Comparison at Month 3|t-test, 2 sided|||||||0.998326
82617074|NCT06704178|164950323|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
82617075|NCT06704178|164950323|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
82617076|NCT06704178|164950323|SUPERIORITY|||||||0.998846||||||Comparison at Month 6|t-test, 2 sided|||||||0.998846
82617077|NCT06704178|164950324|SUPERIORITY|||||||0.999387||||||Comparison at Month 1|t-test, 2 sided|||||||0.999387
82617078|NCT06704178|164950324|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617079|NCT06704178|164950324|SUPERIORITY||||||>|0.999999||||||Comparison at Month 3|t-test, 2 sided|||||||>0.999999
82617080|NCT06704178|164950324|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
82617081|NCT06704178|164950324|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
82617082|NCT06704178|164950324|SUPERIORITY|||||||0.998367||||||Comparison at Month 6|t-test, 2 sided|||||||0.998367
82617083|NCT06704178|164950325|SUPERIORITY|||||||0.999975||||||Comparison at Month 1|t-test, 2 sided|||||||0.999975
82617084|NCT06704178|164950325|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617085|NCT06704178|164950325|SUPERIORITY|||||||0.999801||||||Comparison at Month 3|t-test, 2 sided|||||||0.999801
82617086|NCT06704178|164950325|SUPERIORITY|||||||0.999984||||||Comparison at Month 4|t-test, 2 sided|||||||0.999984
82617087|NCT06704178|164950325|SUPERIORITY|||||||0.960874||||||Comparison at Month 5|t-test, 2 sided|||||||0.960874
82617088|NCT06704178|164950325|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
82617089|NCT06704178|164950326|SUPERIORITY|||||||0.981906||||||Comparison at Month 1|t-test, 2 sided|||||||0.981906
82617090|NCT06704178|164950326|SUPERIORITY|||||||0.945027||||||Comparison at Month 2|t-test, 2 sided|||||||0.945027
82617091|NCT06704178|164950326|SUPERIORITY|||||||0.767795||||||Comparison at Month 3|t-test, 2 sided|||||||0.767795
82617092|NCT06704178|164950326|SUPERIORITY|||||||0.996139||||||Comparison at Month 4|t-test, 2 sided|||||||0.996139
82617093|NCT06704178|164950326|SUPERIORITY|||||||0.952378||||||Comparison at Month 5|t-test, 2 sided|||||||0.952378
82617094|NCT06704178|164950326|SUPERIORITY|||||||0.998846||||||Comparison at Month 6|t-test, 2 sided|||||||0.998846
82617095|NCT06704178|164950327|SUPERIORITY|||||||0.55783||||||Comparison at Month 1|t-test, 2 sided|||||||0.55783
82617096|NCT06704178|164950327|SUPERIORITY|||||||0.987949||||||Comparison at Month 2|t-test, 2 sided|||||||0.987949
82617097|NCT06704178|164950327|SUPERIORITY|||||||0.576782||||||Comparison at Month 3|t-test, 2 sided|||||||0.576782
82617098|NCT06704178|164950327|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
82617099|NCT06704178|164950327|SUPERIORITY|||||||0.989226||||||Comparison at Month 5|t-test, 2 sided|||||||0.989226
82617100|NCT06704178|164950327|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
82617101|NCT06704178|164950328|SUPERIORITY|||||||0.795476||||||Comparison at Month 1|t-test, 2 sided|||||||0.795476
82617102|NCT06704178|164950328|SUPERIORITY|||||||0.977286||||||Comparison at Month 2|t-test, 2 sided|||||||0.977286
82617103|NCT06704178|164950328|SUPERIORITY|||||||0.559556||||||Comparison at Month 3|t-test, 2 sided|||||||0.559556
82617104|NCT06704178|164950328|SUPERIORITY|||||||0.997753||||||Comparison at Month 4|t-test, 2 sided|||||||0.997753
82617105|NCT06704178|164950328|SUPERIORITY|||||||0.952378||||||Comparison at Month 5|t-test, 2 sided|||||||0.952378
82617106|NCT06704178|164950328|SUPERIORITY|||||||0.988108||||||Comparison at Month 6|t-test, 2 sided|||||||0.988108
82617107|NCT06704178|164950329|SUPERIORITY|||||||0.995367||||||Comparison at Month 1|t-test, 2 sided|||||||0.995367
82617108|NCT06704178|164950329|SUPERIORITY|||||||0.999779||||||Comparison at Month 2|t-test, 2 sided|||||||0.999779
82617109|NCT06704178|164950329|SUPERIORITY|||||||0.974102||||||Comparison at Month 3|t-test, 2 sided|||||||0.974102
82659947|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.97|1.81||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.81|0.97|<0.001
82617110|NCT06704178|164950329|SUPERIORITY|||||||0.998665||||||Comparison at Month 4|t-test, 2 sided|||||||0.998665
82617111|NCT06704178|164950329|SUPERIORITY|||||||0.999816||||||Comparison at Month 5|t-test, 2 sided|||||||0.999816
82617112|NCT06704178|164950329|SUPERIORITY|||||||0.999567||||||Comparison at Month 6|t-test, 2 sided|||||||0.999567
82617113|NCT06704178|164950330|SUPERIORITY|||||||0.882016||||||Comparison at Month 1|t-test, 2 sided|||||||0.882016
82617114|NCT06704178|164950330|SUPERIORITY|||||||0.860406||||||Comparison at Month 2|t-test, 2 sided|||||||0.860406
82617115|NCT06704178|164950330|SUPERIORITY|||||||0.958944||||||Comparison at Month 3|t-test, 2 sided|||||||0.958944
82617116|NCT06704178|164950330|SUPERIORITY|||||||0.998816||||||Comparison at Month 4|t-test, 2 sided|||||||0.998816
82617117|NCT06704178|164950330|SUPERIORITY|||||||0.989226||||||Comparison at Month 5|t-test, 2 sided|||||||0.989226
82617118|NCT06704178|164950330|SUPERIORITY|||||||0.999296||||||Comparison at Month 6|t-test, 2 sided|||||||0.999296
82617119|NCT06704178|164950331|SUPERIORITY|||||||0.999975||||||Comparison at Month 1.|t-test, 2 sided|||||||0.999975
82617120|NCT06704178|164950331|SUPERIORITY|||||||0.977286||||||Comparison at Month 2|t-test, 2 sided|||||||0.977286
82617121|NCT06704178|164950331|SUPERIORITY|||||||0.999||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999
82617122|NCT06704178|164950331|SUPERIORITY|||||||0.999984||||||Comparison at Month 4.|t-test, 2 sided|||||||0.999984
82617123|NCT06704178|164950331|SUPERIORITY|||||||0.986557||||||Comparison at Month 5.|t-test, 2 sided|||||||0.986557
82617124|NCT06704178|164950331|SUPERIORITY|||||||0.998367||||||Comparison at Month 6.|t-test, 2 sided|||||||0.998367
82617125|NCT06704178|164950332|SUPERIORITY|||||||0.999851||||||Comparison at Month 1.|t-test, 2 sided|||||||0.999851
82617126|NCT06704178|164950332|SUPERIORITY|||||||0.999779||||||Comparison at Month 2.|t-test, 2 sided|||||||0.999779
82617127|NCT06704178|164950332|SUPERIORITY|||||||0.999801||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999801
82617128|NCT06704178|164950332|SUPERIORITY|||||||0.998467||||||Comparison at Month 4.|t-test, 2 sided|||||||0.998467
82617129|NCT06704178|164950332|SUPERIORITY|||||||0.999816||||||Comparison at Month 5.|t-test, 2 sided|||||||0.999816
82617130|NCT06704178|164950332|SUPERIORITY|||||||0.998846||||||Comparison at Month 6.|t-test, 2 sided|||||||0.998846
82617131|NCT06704178|164950333|SUPERIORITY||||||>|0.999999||||||Comparison at Month 1.|t-test, 2 sided|||||||>0.999999
82617132|NCT06704178|164950333|SUPERIORITY|||||||0.999779||||||Comparison at Month 2.|t-test, 2 sided|||||||0.999779
82617133|NCT06704178|164950333|SUPERIORITY|||||||0.999801||||||Comparison at Month 3.|t-test, 2 sided|||||||0.999801
82617134|NCT06704178|164950333|SUPERIORITY|||||||0.963236||||||Comparison at Month 4.|t-test, 2 sided|||||||0.963236
82617135|NCT06704178|164950333|SUPERIORITY|||||||0.999816||||||Comparison at Month 5.|t-test, 2 sided|||||||0.999816
82617136|NCT06704178|164950333|SUPERIORITY|||||||0.737995||||||Comparison at Month 6.|t-test, 2 sided|||||||0.737995
82617137|NCT06704178|164950334|SUPERIORITY|||||||0.0003||||||Within-group analysis only.|t-test, 2 sided|||||||0.0003
82617138|NCT06704178|164950335|SUPERIORITY|||||||0.2698||||||Within-group analysis only.|t-test, 2 sided|||||||0.2698
82617139|NCT06704178|164950336|SUPERIORITY|||||||0.2698||||||Within-group analysis only.|t-test, 2 sided|||||||0.2698
82617140|NCT06704178|164950337|SUPERIORITY|||||||0.2137||||||Within-group analysis only.|t-test, 2 sided|||||||0.2137
82617141|NCT06704178|164950338|SUPERIORITY|||||||0.8639||||||Within-group analysis only.|t-test, 2 sided|||||||0.8639
82617142|NCT06704178|164950339|SUPERIORITY|||||||0.239||||||Within-group analysis only.|t-test, 2 sided|||||||0.239
82617143|NCT06704178|164950340|SUPERIORITY|||||||0.6088||||||Within-group analysis only.|t-test, 2 sided|||||||0.6088
82617144|NCT06704178|164950341|SUPERIORITY|||||||0.5738||||||Within-group analysis only.|t-test, 2 sided|||||||0.5738
82617145|NCT06704178|164950342|SUPERIORITY|||||||0.6088||||||Within-group analysis only.|t-test, 2 sided|||||||0.6088
82617146|NCT06704178|164950343|SUPERIORITY|||||||0.4942||||||Within-group analysis only.|t-test, 2 sided|||||||0.4942
82617147|NCT06704178|164950344|SUPERIORITY|||||||0.7419||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7419
82617148|NCT06704178|164950344|SUPERIORITY|||||||0.0033||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0033
82617149|NCT06704178|164950344|SUPERIORITY|||||||0.0219||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
82617150|NCT06704178|164950345|SUPERIORITY|||||||0.7708||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7708
82617151|NCT06704178|164950345|SUPERIORITY|||||||0.239||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.239
82617152|NCT06704178|164950345|SUPERIORITY|||||||0.006||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.006
82617153|NCT06704178|164950346|SUPERIORITY|||||||0.0219||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
82617154|NCT06704178|164950346|SUPERIORITY|||||||0.0001||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0001
82617155|NCT06704178|164950346|SUPERIORITY||||||<|0.0001||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||<0.0001
82617156|NCT06704178|164950347|SUPERIORITY|||||||0.0695||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0695
82617157|NCT06704178|164950347|SUPERIORITY|||||||0.0124||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0124
82617158|NCT06704178|164950347|SUPERIORITY|||||||0.0016||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0016
82617159|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617160|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617161|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617162|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617163|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617164|NCT06704178|164950348|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617165|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617166|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617167|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617168|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617169|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617170|NCT06704178|164950349|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82659948|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.98|||<|0.001|TWO_SIDED|95.0|0.56|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||1.39|0.56|<0.001
82617171|NCT06704178|164950350|SUPERIORITY|||||||0.4598||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4598
82617172|NCT06704178|164950350|SUPERIORITY|||||||0.23||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.23
82617173|NCT06704178|164950350|SUPERIORITY|||||||0.0806||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0806
82617174|NCT06704178|164950350|SUPERIORITY|||||||0.0969||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0969
82617175|NCT06704178|164950350|SUPERIORITY|||||||0.6098||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6098
82617176|NCT06704178|164950350|SUPERIORITY|||||||0.0369||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0369
82617177|NCT06704178|164950351|SUPERIORITY|||||||0.0384||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0384
82617178|NCT06704178|164950351|SUPERIORITY|||||||0.6328||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6328
82617179|NCT06704178|164950351|SUPERIORITY|||||||0.0026||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0026
82617180|NCT06704178|164950351|SUPERIORITY|||||||0.0012||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0012
82617181|NCT06704178|164950351|SUPERIORITY|||||||0.0118||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0118
82617182|NCT06704178|164950351|SUPERIORITY|||||||0.0221||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0221
82617183|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617184|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617185|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617186|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617187|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617188|NCT06704178|164950352|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617189|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617190|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617191|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617192|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617193|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617194|NCT06704178|164950353|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617195|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617196|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617197|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617198|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617199|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617200|NCT06704178|164950354|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617201|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617202|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617203|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617204|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617205|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617206|NCT06704178|164950355|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617207|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617208|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617209|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617210|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617211|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617212|NCT06704178|164950356|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617213|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617214|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617215|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617216|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617217|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617218|NCT06704178|164950357|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617219|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617220|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617221|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617222|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617223|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617224|NCT06704178|164950358|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617225|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617226|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617227|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617228|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617229|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617230|NCT06704178|164950359|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617231|NCT06704178|164950360|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617232|NCT06704178|164950360|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617233|NCT06704178|164950360|SUPERIORITY|||||||0.3682||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3682
82617234|NCT06704178|164950360|SUPERIORITY|||||||0.6098||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6098
82659949|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.82|1.68||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.68|0.82|<0.001
82617235|NCT06704178|164950360|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617236|NCT06704178|164950360|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617237|NCT06704178|164950361|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617238|NCT06704178|164950361|SUPERIORITY|||||||0.5691||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.5691
82617239|NCT06704178|164950361|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617240|NCT06704178|164950361|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617241|NCT06704178|164950361|SUPERIORITY|||||||0.6983||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6983
82617242|NCT06704178|164950361|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617243|NCT06704178|164950362|SUPERIORITY|||||||0.819||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.819
82617244|NCT06704178|164950362|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617245|NCT06704178|164950362|SUPERIORITY|||||||0.5749||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.5749
82617246|NCT06704178|164950362|SUPERIORITY|||||||0.4873||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4873
82617247|NCT06704178|164950362|SUPERIORITY|||||||0.9998||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9998
82617248|NCT06704178|164950362|SUPERIORITY|||||||0.819||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.819
82617249|NCT06704178|164950363|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82659950|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.46|||<|0.001|TWO_SIDED|95.0|1.03|1.89||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.89|1.03|<0.001
82617250|NCT06704178|164950363|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617251|NCT06704178|164950363|SUPERIORITY|||||||0.8495||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8495
82617252|NCT06704178|164950363|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||>0.9999
82617253|NCT06704178|164950363|SUPERIORITY|||||||0.1951||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1951
82617254|NCT06704178|164950363|SUPERIORITY|||||||0.0806||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||0.0806
82617255|NCT06704178|164950364|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617256|NCT06704178|164950364|SUPERIORITY|||||||0.6983||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.6983
82617257|NCT06704178|164950364|SUPERIORITY|||||||0.1062||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1062
82617258|NCT06704178|164950364|SUPERIORITY|||||||0.0333||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0333
82617259|NCT06704178|164950364|SUPERIORITY|||||||0.0734||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0734
82617260|NCT06704178|164950364|SUPERIORITY|||||||0.0219||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0219
82617261|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617262|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617263|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617264|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617265|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617266|NCT06704178|164950365|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617267|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617268|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617269|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617270|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617271|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617272|NCT06704178|164950366|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617273|NCT06704178|164950367|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617274|NCT06704178|164950367|SUPERIORITY|||||||0.982||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.982
82617275|NCT06704178|164950367|SUPERIORITY|||||||0.091||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.091
82617276|NCT06704178|164950367|SUPERIORITY|||||||0.4449||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4449
82617277|NCT06704178|164950367|SUPERIORITY|||||||0.0204||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0204
82617278|NCT06704178|164950367|SUPERIORITY|||||||0.0256||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0256
82617279|NCT06704178|164950368|SUPERIORITY|||||||0.9821||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9821
82617280|NCT06704178|164950368|SUPERIORITY|||||||0.0403||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0403
82617281|NCT06704178|164950368|SUPERIORITY|||||||0.0638||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.0638
82617282|NCT06704178|164950368|SUPERIORITY|||||||0.7195||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.7195
82617283|NCT06704178|164950368|SUPERIORITY|||||||0.1856||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1856
82617284|NCT06704178|164950368|SUPERIORITY|||||||0.1222||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.1222
82617285|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617286|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617287|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within group analysis only.||||||>0.9999
82617288|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617289|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617290|NCT06704178|164950369|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617291|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617292|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617293|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617294|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617295|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617296|NCT06704178|164950370|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617297|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617298|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617299|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617300|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617301|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617302|NCT06704178|164950371|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617303|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82659951|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.6|1.45||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||1.45|0.60|<0.001
82659952|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.77|1.64||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.64|0.77|<0.001
82617304|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617305|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617306|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82659953|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.001|TWO_SIDED|95.0|1.0|1.87||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.87|1.00|<0.001
82659954|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.04|||<|0.001|TWO_SIDED|95.0|0.61|1.48||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||1.48|0.61|<0.001
82659955|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.81|1.68||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.68|0.81|<0.001
82617307|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617308|NCT06704178|164950372|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617309|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617310|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617311|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617312|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617313|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617314|NCT06704178|164950373|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617315|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617316|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617317|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617318|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617319|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617320|NCT06704178|164950374|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617321|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617322|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617323|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617324|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617325|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617326|NCT06704178|164950375|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617327|NCT06704178|164950376|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617328|NCT06704178|164950376|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617329|NCT06704178|164950376|SUPERIORITY||||||>|0.9999||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617330|NCT06704178|164950376|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617331|NCT06704178|164950376|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617332|NCT06704178|164950376|SUPERIORITY|||||||0.982||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.982
82617333|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617334|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617335|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 3 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617336|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 4 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617337|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617338|NCT06704178|164950377|SUPERIORITY||||||>|0.9999||||||Month 6 vs Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617339|NCT06704178|164950378|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617340|NCT06704178|164950378|SUPERIORITY|||||||0.9951||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9951
82617341|NCT06704178|164950378|SUPERIORITY|||||||0.999||||||Month 3 versus Baseline|t-test, 2 sided|Within-group analysis only.||||||0.999
82617342|NCT06704178|164950378|SUPERIORITY|||||||0.9913||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9913
82617343|NCT06704178|164950378|SUPERIORITY|||||||0.4517||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4517
82617344|NCT06704178|164950378|SUPERIORITY|||||||0.8187||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8187
82617345|NCT06704178|164950379|SUPERIORITY|||||||0.998||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.998
82617346|NCT06704178|164950379|SUPERIORITY|||||||0.9591||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9591
82617347|NCT06704178|164950379|SUPERIORITY|||||||0.9994||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9994
82617348|NCT06704178|164950379|SUPERIORITY|||||||0.9936||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9936
82617349|NCT06704178|164950379|SUPERIORITY|||||||0.8526||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.8526
82659956|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.39|||<|0.001|TWO_SIDED|95.0|0.96|1.82||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.82|0.96|<0.001
82617350|NCT06704178|164950379|SUPERIORITY|||||||0.4375||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4375
82617351|NCT06704178|164950380|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617352|NCT06704178|164950380|SUPERIORITY|||||||0.7477||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis.||||||0.7477
82617353|NCT06704178|164950380|SUPERIORITY|||||||0.297||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.297
82617354|NCT06704178|164950380|SUPERIORITY|||||||0.3503||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3503
82617355|NCT06704178|164950380|SUPERIORITY|||||||0.297||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.297
82617356|NCT06704178|164950380|SUPERIORITY|||||||0.4449||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.4449
82617357|NCT06704178|164950381|SUPERIORITY||||||>|0.9999||||||Month 1 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82659957|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||<|0.001|TWO_SIDED|95.0|0.53|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||1.39|0.53|<0.001
82659958|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||<|0.001|TWO_SIDED|95.0|0.75|1.64||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.64|0.75|<0.001
82659959|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.21|||<|0.001|TWO_SIDED|95.0|0.77|1.65||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.65|0.77|<0.001
82617358|NCT06704178|164950381|SUPERIORITY||||||>|0.9999||||||Month 2 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617359|NCT06704178|164950381|SUPERIORITY|||||||0.9188||||||Month 3 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.9188
82617360|NCT06704178|164950381|SUPERIORITY||||||>|0.9999||||||Month 4 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617361|NCT06704178|164950381|SUPERIORITY|||||||0.3503||||||Month 5 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||0.3503
82617362|NCT06704178|164950381|SUPERIORITY||||||>|0.9999||||||Month 6 versus Baseline.|t-test, 2 sided|Within-group analysis only.||||||>0.9999
82617363|NCT00762372|164950439|NON_INFERIORITY|Time to extubation = treatment group + surgical site +surgery time|Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|-6.6|-2.7||||||||-2.7|-6.6|
82617364|NCT00762372|164950440|NON_INFERIORITY|"Adjusted means of time from the end of study drug inhalation to extubation in the BLM-240 N2O group and sevoflurane group, which were obtained by analysis of covariance with surgical site and surgery time as covariates, were used to verify the non-inferiority of BLM-240 to the comparator sevoflurane, with a delta = 1.0 (minute) and significance level alpha = 2.5% (one-sided)."||||||0.15|||||||t-test, 2 sided|||||||0.1500
82617365|NCT00762372|164950441|NON_INFERIORITY|Two-sample t-test||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82617366|NCT00762372|164950445|NON_INFERIORITY|Fisher's exact test||||||0.3113|||||||Fisher Exact|||||||0.3113
82617367|NCT00762372|164950447|NON_INFERIORITY|Fisher's exact test||||||1|||||||Fisher Exact|||||||1.0000
82617368|NCT02670915|164950451|NON_INFERIORITY|Stepwise hierarchical testing procedure was applied: Step 1-Primary analysis: HbA1c non-inferiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% confidence interval (CI) was below or equal to 0.4%.|Treatment difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.3|-0.03||p-values are from the 1-sided test for non-inferiority evaluated at the 2.5% level.|Multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The primary analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value (s) imputed from the available information from the treatment the participant had been randomised to.||-0.03|-0.30|<0.001
82617369|NCT02670915|164950451|NON_INFERIORITY|Stepwise hierarchical testing procedure was applied: Step 2-Confirmatory secondary analysis: HbA1c non-inferiority of postmeal faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Non-inferiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below or equal to 0.4%.|Treatment difference|0.13|||<|0.001|TWO_SIDED|95.0|-0.01|0.26||p-values are from the 1-sided test for non-inferiority evaluated at the 2.5% level.|Multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value(s) imputed from the available information from the treatment the participant had been randomised to.||0.26|-0.01|<0.001
82659960|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93|||<|0.001|TWO_SIDED|95.0|0.49|1.36||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||1.36|0.49|<0.001
82617370|NCT02670915|164950451|SUPERIORITY|Stepwise hierarchical testing procedure was applied: Step 3-Confirmatory secondary analysis: HbA1c superiority of mealtime faster aspart versus mealtime NovoRapid®/NovoLog® both in combination with insulin degludec. Superiority of mealtime faster aspart was considered confirmed if the upper boundary of the two-sided 95% CI was below 0.|Treatment difference|-0.17|||=|0.007|TWO_SIDED|95.0|-0.3|-0.03||p-values are from the 1-sided test for superiority evaluated at the 2.5% level.|multiple imputation|Analyses were adjusted for region, strata (age), as factors, and baseline HbA1c as a covariate.||The analysis was implemented as a statistical model using multiple imputation where the participants without any available HbA1c measurements at scheduled visits had their change from baseline HbA1c value(s) imputed from the available information from the treatment the participant had been randomised to.||-0.03|-0.30|=0.007
82617371|NCT00818207|164950531|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64||||0.0007|TWO_SIDED|95.0|1.23|2.18|||Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.18|1.23|0.0007
82617372|NCT00818207|164950532|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0018|TWO_SIDED|95.0|1.21|2.33|||Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.33|1.21|0.0018
82617373|NCT00818207|164950533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.25||||0.2979|TWO_SIDED|95.0|0.82|1.9||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 39 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.90|0.82|0.2979
82617374|NCT00818207|164950533|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.4388|TWO_SIDED|95.0|0.76|1.87||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 52 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.87|0.76|0.4388
82617375|NCT00818207|164950534|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.72|||<|0.0001|TWO_SIDED|95.0|1.35|2.2||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||2.20|1.35|<0.0001
82617376|NCT00818207|164950535|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.4551|TWO_SIDED|95.0|0.81|1.62||p-value was not adjusted for multiple comparisons.|Regression, Logistic|||Week 52 odds ratios and p-values were obtained from a logistic regression model including the main effects of intervention and pooled center.||1.62|0.81|0.4551
82617377|NCT03621943|164950577|SUPERIORITY||Mean Difference (Final Values)|-0.49||||0.87|TWO_SIDED|95.0|-6.36|5.37|||hierarchical generalized linear mixed mo|hierarchical generalized linear mixed models||Total score on the Ages and Stages Questionnaire, 3rd ed.||5.37|-6.36|0.87
82617378|NCT00495495|164950580|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.1126|ONE_SIDED||||||McNemar|||"Null hypothesis: there is no difference between the HealOzone and Placebo devices in the proportion of teeth with lesion progression after 1 year.~Power calculation: the study was sized to have 90% power to detect a 15% difference between treatments in the percentage of teeth with lesion progression at one year (i.e., assuming 45% for the lesions treated with the Placebo device and 30% for the lesions treated with the HealOzone device) with a sample size of 258 subjects completing the study."||||0.1126
82617379|NCT00495495|164950581|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.08||||0.9777|ONE_SIDED||||||McNemar|||||||.9777
82659961|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.07|||<|0.001|TWO_SIDED|95.0|0.6|1.53||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.53|0.60|<0.001
82617380|NCT00495495|164950582|SUPERIORITY_OR_OTHER|||||||0.0416|ONE_SIDED|95.0|||||McNemar|||||||.0416
82617381|NCT00495495|164950583|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.6585|ONE_SIDED|95.0|||||McNemar|||||||0.6585
82617382|NCT00495495|164950584|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.02||||0.7666|ONE_SIDED|95.0|||||McNemar|||||||.7666
82617383|NCT02702518|164950585|OTHER||||||<|0.001||||||p-values were calculated via linear quantile mixed model for continuous variables with missing data.|Mixed Models Analysis|||For the outcome measure corneal staining, data at week 8 was compared with data at baseline to determine if a change was significant (threshold p \< 0.05).||||<0.001
82617384|NCT02702518|164950585|OTHER|||||||0.2324||||||p-values were calculated via linear quantile mixed model for continuous variables with missing data.|Mixed Models Analysis|||For the outcome measure corneal staining data at week 8 was compared with data at baseline to determine significant change.||||0.2324
82617385|NCT02702518|164950586|OTHER|||||||0.001||||||p-values were calculated via linear quantile mixed model for continuous variables.|Mixed Models Analysis|||For the outcome measure OSDI, data at week 8 was compared with data at baseline to determine if a change was significant (threshold p \< 0.05).||||0.001
82617386|NCT02702518|164950586|OTHER|||||||0.2257||||||p-values were calculated via linear quantile mixed model for continuous variables.|Mixed Models Analysis|||For the outcome measure OSDI data at week 8 was compared with data at baseline to determine significant change.||||0.2257
82659962|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.12|||<|0.001|TWO_SIDED|95.0|0.66|1.58||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.58|0.66|<0.001
82617387|NCT01670656|164950587|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||<|0.001|TWO_SIDED|95.0|-1.0|-0.2|||cLDA|||||-0.2|-1.0|< 0.001
82617388|NCT01670656|164950587|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||cLDA|||||-0.2|-0.9|< 0.001
82617389|NCT01670656|164950587|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.8|||<|0.001|TWO_SIDED|95.0|-1.1|-0.4|||cLDA|||||-0.4|-1.1|< 0.001
82617390|NCT01670656|164950587|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.5|||<|0.001|TWO_SIDED|95.0|-0.9|-0.2|||cLDA|||||-0.2|-0.9|< 0.001
82617391|NCT01670656|164950588|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.7|||=|0.002|TWO_SIDED|95.0|-3.0|-0.4|||cLDA|||||-0.4|-3.0|= 0.002
82617392|NCT01670656|164950588|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.9|||<|0.001|TWO_SIDED|95.0|-3.1|-0.6|||cLDA|||||-0.6|-3.1|< 0.001
82659963|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.001|TWO_SIDED|95.0|0.42|1.33||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||1.33|0.42|<0.001
82659964|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.06|||<|0.001|TWO_SIDED|95.0|0.61|1.51||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.51|0.61|<0.001
82617393|NCT01670656|164950588|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.6|||=|0.003|TWO_SIDED|95.0|-2.9|-0.3|||cLDA|||||-0.3|-2.9|= 0.003
82617394|NCT01670656|164950588|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.2|||=|0.024|TWO_SIDED|95.0|-2.5|0.1|||cLDA|||||0.1|-2.5|= 0.024
82617395|NCT01670656|164950589|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.6|||=|0.026|TWO_SIDED|95.0|-3.4|0.2|||cLDA|||||0.2|-3.4|= 0.026
82617396|NCT01670656|164950589|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-1.5|||=|0.036|TWO_SIDED|95.0|-3.3|0.2|||cLDA|||||0.2|-3.3|= 0.036
82617397|NCT01670656|164950589|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-2.3|||=|0.002|TWO_SIDED|95.0|-4.1|-0.5|||cLDA|||||-0.5|-4.1|= 0.002
82617398|NCT01670656|164950589|SUPERIORITY_OR_OTHER_LEGACY||Diffference in Least Squares Means|-1.2|||=|0.1|TWO_SIDED|95.0|-3.0|0.6|||cLDA|||||0.6|-3.0|= 0.1
82617399|NCT01670656|164950590|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.1|||=|0.447|TWO_SIDED|95.0|-0.6|0.3|||cLDA|||||0.3|-0.6|= 0.447
82617400|NCT01670656|164950590|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||=|0.003|TWO_SIDED|95.0|-1.0|-0.1|||cLDA|||||-0.1|-1.0|= 0.003
82617401|NCT01670656|164950590|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.6|||=|0.003|TWO_SIDED|95.0|-1.0|-0.1|||cLDA|||||-0.1|-1.0|= 0.003
82617402|NCT01670656|164950590|SUPERIORITY_OR_OTHER_LEGACY||Difference in Least Squares Means|-0.3|||=|0.156|TWO_SIDED|95.0|-0.7|0.2|||cLDA|||||0.2|-0.7|= 0.156
82617403|NCT01830543|164950629|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.59|||<|0.001|TWO_SIDED|95.0|0.47|0.76|||Log Rank|||||0.76|0.47|<0.001
82617404|NCT01830543|164950629|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.63|||<|0.001|TWO_SIDED|95.0|0.5|0.8|||Log Rank|||||0.8|0.5|<0.001
82617405|NCT01830543|164950630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.66||||0.234|TWO_SIDED|95.0|0.33|1.31|||Log Rank|||||1.31|0.33|0.234
82617406|NCT01830543|164950630|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.114|TWO_SIDED|95.0|0.28|1.16|||Log Rank|||||1.16|0.28|0.114
82617407|NCT01830543|164950631|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.51||||0.144|TWO_SIDED|95.0|0.2|1.28|||Log Rank|||||1.28|0.2|0.144
82617408|NCT01830543|164950631|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.5||||0.134|TWO_SIDED|95.0|0.2|1.26|||Log Rank|||||1.26|0.2|0.134
82617409|NCT01830543|164950632|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61|||<|0.001|TWO_SIDED|95.0|0.47|0.8|||Log Rank|||||0.8|0.47|<0.001
82617410|NCT01830543|164950632|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.002|TWO_SIDED|95.0|0.52|0.86|||Log Rank|||||0.86|0.52|0.002
82617411|NCT01830543|164950633|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.75|TWO_SIDED|95.0|0.69|1.68|||Log Rank|||||1.68|0.69|0.75
82617412|NCT01830543|164950633|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.765|TWO_SIDED|95.0|0.59|1.48|||Log Rank|||||1.48|0.59|0.765
82617413|NCT01830543|164950634|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.523|TWO_SIDED|95.0|0.59|2.8|||Log Rank|||||2.8|0.59|0.523
82617414|NCT01830543|164950634|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.664|TWO_SIDED|95.0|0.54|2.62|||Log Rank|||||2.62|0.54|0.664
82617415|NCT01830543|164950635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.625|TWO_SIDED|95.0|0.46|1.59|||Log Rank|||||1.59|0.46|0.625
82659965|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||<|0.001|TWO_SIDED|95.0|0.58|1.48||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.48|0.58|<0.001
82617416|NCT01830543|164950635|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.374|TWO_SIDED|95.0|0.4|1.42|||Log Rank|||||1.42|0.4|0.374
82617417|NCT01830543|164950636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||0.891|TWO_SIDED|95.0|0.39|2.96|||Log Rank|||||2.96|0.39|0.891
82617418|NCT01830543|164950636|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||0.53|TWO_SIDED|95.0|0.52|3.58|||Log Rank|||||3.58|0.52|0.53
82617419|NCT01830543|164950637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.79|TWO_SIDED|95.0|0.32|4.45|||Log Rank|||||4.45|0.32|0.79
82617420|NCT01830543|164950637|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.574|TWO_SIDED|95.0|0.4|5.09|||Log Rank|||||5.09|0.4|0.574
82617421|NCT01151046|164950642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.26||||0.003|TWO_SIDED|95.0|0.11|0.63|||Log Rank|||||0.63|0.11|0.003
82617422|NCT01151046|164950642|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.41||||0.349|TWO_SIDED|95.0|0.69|2.88|||Log Rank|||||2.88|0.69|0.349
82617423|NCT05439460|164950663|OTHER|||||||0.9|||||||t-test, 2 sided|||Change in phenylephrine group||||0.9
82617424|NCT05439460|164950663|OTHER|||||||0.3||||||A p-value of \<0.05 would be considered statistically significant.|t-test, 2 sided|||Change in arginine vasopressin group||||0.3
82617425|NCT05439460|164950663|OTHER|||||||1||||||A p-value of \<0.05 would be considered statistically significant.|t-test, 2 sided|||Change in epinephrine group||||1
82617426|NCT00980785|164950664|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-22.5|STANDARD_DEVIATION|78.7||0.836|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.836
82617427|NCT00980785|164950664|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-31.71|STANDARD_DEVIATION|90.6||0.836|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.836
82617428|NCT00980785|164950665|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.1|STANDARD_DEVIATION|0.21||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.009
82617429|NCT00980785|164950665|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.63|STANDARD_DEVIATION|0.32||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.009
82617430|NCT00980785|164950666|OTHER|Mann-Whitney Test|Mean Difference (Final Values)|-0.7|STANDARD_DEVIATION|1.56||0.755|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.755
82617431|NCT00980785|164950666|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-0.29|STANDARD_DEVIATION|1.23||0.755|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.755
82617432|NCT00980785|164950667|OTHER|Mann-Whitney test|Mean Difference (Final Values)|1.7|STANDARD_DEVIATION|8.9||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.491
82659966|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.96|||<|0.001|TWO_SIDED|95.0|0.52|1.4||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||1.40|0.52|<0.001
82659967|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.77||||0.001|TWO_SIDED|95.0|0.31|1.24||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.24|0.31|0.001
82617433|NCT00980785|164950667|OTHER|Mann-Whitney test|Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|2.2||0.491|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.491
82617434|NCT00922194|164950681|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-8.36|STANDARD_DEVIATION|3.3|<|0.05||95.0|-9.03|-7.72|||Paired t test|||Analysis of difference between 12 months or more and baseline values||-7.72|-9.03|<0.05
82617435|NCT00922194|164950682|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-3.27|||<|0.05||95.0|-3.5|-3.0|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months or more and baseline values||-3.0|-3.5|<0.05
82617436|NCT00922194|164950683|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-7.41|||<|0.05||95.0|-8.37|-6.47|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-6.47|-8.37|<0.05
82617437|NCT00922194|164950684|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.014|||<|0.05||95.0|-0.02|0.001|||Wilcoxon paired sign rank-sum test|||Analysis of difference between 12 months or more and baseline values||0.001|-0.02|<0.05
82617438|NCT00922194|164950685|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-4.61|||<|0.05||95.0|-5.2|-3.8|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-3.8|-5.2|<0.05
82617439|NCT00922194|164950686|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.97|||<|0.05||95.0|-3.57|-2.38|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-2.38|-3.57|<0.05
82617440|NCT00922194|164950687|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.37|||<|0.05||95.0|-2.65|-2.08|||Wilcoxon paired signed rank-sum test|||Analysis of difference between 12 months and baseline values||-2.08|-2.65|<0.05
82617441|NCT01718509|164950688|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-1.66|||<|0.001|TWO_SIDED|95.0|-2.04|-1.28|||Mixed Models Repeated Measures Analysis|||||-1.28|-2.04|<0.001
82617442|NCT01718509|164950689|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||||||<0.001
82617443|NCT01718509|164950690|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Chi-squared|||||||<0.001
82617444|NCT01718509|164950691|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-5.41|||<|0.001|TWO_SIDED|95.0|-6.39|-4.44|||Mixed Models Repeated Measures Analysis|||||-4.44|-6.39|<0.001
82617445|NCT01718509|164950692|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-7.94|||<|0.001|TWO_SIDED|95.0|-9.51|-6.36|||Mixed Models Repeated Measures Analysis|||||-6.36|-9.51|<0.001
82617446|NCT01718509|164950693|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.196||||0.002|TWO_SIDED|95.0|-0.321|-0.07|||ANCOVA|||||-0.070|-0.321|0.002
82617447|NCT01718509|164950694|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.077||||0.234|TWO_SIDED|95.0|-0.205|0.05|||ANCOVA|||||0.050|-0.205|0.234
82617448|NCT01718509|164950695|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|0.03||||0.185|TWO_SIDED|95.0|-0.02|0.08|||ANCOVA|||||0.08|-0.02|0.185
82659968|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||<|0.001|TWO_SIDED|95.0|0.36|1.28||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.28|0.36|<0.001
82659969|NCT00913627|165037546|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.88|||<|0.001|TWO_SIDED|95.0|0.42|1.33||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.33|0.42|<0.001
82617449|NCT01718509|164950696|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Cochran-Mantel-Haenszel|||||||<0.001
82617450|NCT01718509|164950697|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-2.23|||<|0.001|TWO_SIDED|95.0|-2.77|-1.69||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-1.69|-2.77|<0.001
82617451|NCT01718509|164950698|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.27||||0.011|TWO_SIDED|95.0|0.29|2.24||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Cognitive Restraint of Eating||2.24|0.29|0.011
82617452|NCT01718509|164950698|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-3.6|||<|0.001|TWO_SIDED|95.0|-4.44|-2.76||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Disinhibition of Eating||-2.76|-4.44|<0.001
82617453|NCT01718509|164950698|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-4.21|||<|0.001|TWO_SIDED|95.0|-5.09|-3.33||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||Perceived Hunger||-3.33|-5.09|<0.001
82617454|NCT01718509|164950699|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-9.28|||<|0.001|TWO_SIDED|95.0|-11.44|-7.12||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|Mixed Models Repeated Measures Analysis|||||-7.12|-11.44|<0.001
82617455|NCT01718509|164950700|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|-0.96||||0.298|TWO_SIDED|95.0|-2.77|0.85||Multiplicity is not adjusted for this secondary efficacy endpoint in this study.|ANCOVA|||||0.85|-2.77|0.298
82617456|NCT05906732|164950708|SUPERIORITY||LS Mean|-9.6||||0.003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0030
82617457|NCT05906732|164950709|SUPERIORITY||LS Mean|-6.5||||0.0266|TWO_SIDED||||||Mixed Models Analysis|||||||0.0266
82617458|NCT05906732|164950710|SUPERIORITY||LS Mean|-7.8||||0.0067|TWO_SIDED||||||Mixed Models Analysis|||||||0.0067
82617459|NCT05906732|164950711|SUPERIORITY||LS Mean|-3.9||||0.1106|TWO_SIDED||||||Mixed Models Analysis|||||||0.1106
82617460|NCT05906732|164950712|SUPERIORITY||LS Mean|-4.2||||0.0908|TWO_SIDED||||||Mixed Models Analysis|||||||0.0908
82617461|NCT05906732|164950713|SUPERIORITY||LS Mean|-1.2||||0.4038|TWO_SIDED||||||Mixed Models Analysis|||||||0.4038
82617462|NCT05906732|164950714|SUPERIORITY||LS Mean|1.5||||0.6255|TWO_SIDED||||||Mixed Models Analysis|||||||0.6255
82617463|NCT05906732|164950715|SUPERIORITY||LS Mean|0.2||||0.514|TWO_SIDED||||||Mixed Models Analysis|||||||0.5140
82617464|NCT05906732|164950716|SUPERIORITY||LS Mean|0.8||||0.5675|TWO_SIDED||||||Mixed Models Analysis|||||||0.5675
82617465|NCT05906732|164950717|SUPERIORITY||LS Mean|3.4||||0.764|TWO_SIDED||||||Mixed Models Analysis|||||||0.7640
82617466|NCT05906732|164950718|SUPERIORITY||LS Mean|-2.8||||0.2437|TWO_SIDED||||||Mixed Models Analysis|||||||.2437
82617467|NCT05906732|164950719|SUPERIORITY||LS Mean|-0.8||||0.4229|TWO_SIDED||||||Mixed Models Analysis|||||||0.4229
82617468|NCT05906732|164950720|SUPERIORITY||LS Mean|-0.1||||0.4887|TWO_SIDED||||||Mixed Models Analysis|||||||0.4887
82617469|NCT05906732|164950721|SUPERIORITY||LS Mean|-3.1||||0.2042|TWO_SIDED||||||Mixed Models Analysis|||||||0.2042
82617470|NCT05906732|164950722|SUPERIORITY||Mean Difference (Net)|-2.2||||0.2644|TWO_SIDED||||||Mixed Models Analysis|||||||0.2644
82617471|NCT05906732|164950740|SUPERIORITY||Mean Difference (Net)|4.28||||0.3169|TWO_SIDED||||||t-test, 2 sided|||||||0.3169
82617472|NCT05906732|164950741|SUPERIORITY||Mean Difference (Net)|6.78||||0.1066|TWO_SIDED||||||t-test, 2 sided|||||||0.1066
82617473|NCT05906732|164950742|SUPERIORITY||Mean Difference (Net)|-16.06||||0.0443|TWO_SIDED||||||t-test, 2 sided|||||||0.0443
82617474|NCT05906732|164950743|SUPERIORITY||Mean Difference (Net)|-9.06||||0.0815|TWO_SIDED||||||t-test, 2 sided|||||||0.0815
82617475|NCT05906732|164950744|SUPERIORITY||Mean Difference (Net)|-10.67||||0.0137|TWO_SIDED||||||t-test, 2 sided|||||||0.0137
82617476|NCT05906732|164950745|SUPERIORITY||Mean Difference (Net)|-4.0||||0.3539|TWO_SIDED||||||t-test, 2 sided|||||||0.3539
82617477|NCT05906732|164950746|SUPERIORITY||Mean Difference (Net)|9.78||||0.1377|TWO_SIDED||||||t-test, 2 sided|||||||0.1377
82617478|NCT05906732|164950747|SUPERIORITY||Mean Difference (Net)|-2.69||||0.6184|TWO_SIDED||||||t-test, 2 sided|||||||0.6184
82617479|NCT05906732|164950748|SUPERIORITY||Mean Difference (Net)|3.17||||0.6627|TWO_SIDED||||||t-test, 2 sided|||||||0.6627
82617480|NCT05906732|164950749|SUPERIORITY||Mean Difference (Net)|5.78||||0.5276|TWO_SIDED||||||t-test, 2 sided|||||||0.5276
82617481|NCT05906732|164950750|SUPERIORITY||Mean Difference (Net)|15.17||||0.0399|TWO_SIDED||||||t-test, 2 sided|||||||0.0399
82617482|NCT05906732|164950751|SUPERIORITY||Mean Difference (Net)|13.56||||0.0747|TWO_SIDED||||||t-test, 2 sided|||||||0.0747
82617483|NCT05906732|164950752|SUPERIORITY|||||||0.9584|||||||t-test, 2 sided|||||||0.9584
82617484|NCT05906732|164950753|SUPERIORITY||Mean Difference (Net)|5.72||||0.6531|TWO_SIDED||||||t-test, 2 sided|||||||0.6531
82617485|NCT05906732|164950754|SUPERIORITY||Mean Difference (Net)|15.61||||0.0482|TWO_SIDED||||||t-test, 2 sided|||||||0.0482
82617486|NCT05906732|164950755|SUPERIORITY||Mean Difference (Net)|17.22||||0.0667|TWO_SIDED||||||t-test, 2 sided|||||||0.0667
82617487|NCT05906732|164950756|SUPERIORITY||Mean Difference (Net)|-37.0||||0.0131|TWO_SIDED||||||t-test, 2 sided|||||||0.0131
82659970|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.29||||0.034|TWO_SIDED|95.0|0.02|0.57||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.57|0.02|0.034
82659971|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.111|TWO_SIDED|95.0|-0.05|0.49||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.49|-0.05|0.111
82659972|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21||||0.125|TWO_SIDED|95.0|-0.06|0.48||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.48|-0.06|0.125
82617488|NCT05906732|164950757|SUPERIORITY||Mean Difference (Net)|-32.36||||0.0141|TWO_SIDED||||||t-test, 2 sided|||||||0.0141
82617489|NCT05906732|164950758|SUPERIORITY||Mean Difference (Net)|-44.55||||0.0019|TWO_SIDED||||||t-test, 2 sided|||||||0.0019
82617490|NCT05906732|164950759|SUPERIORITY||Mean Difference (Net)|-31.69||||0.1108|TWO_SIDED||||||t-test, 2 sided|||||||0.1108
82617491|NCT05906732|164950760|SUPERIORITY||Mean Difference (Net)|37.81||||0.184|TWO_SIDED||||||t-test, 2 sided|||||||0.1840
82617492|NCT05906732|164950761|SUPERIORITY||Mean Difference (Net)|27.33||||0.2019|TWO_SIDED||||||t-test, 2 sided|||||||0.2019
82617493|NCT05906732|164950762|SUPERIORITY|||||||0.2808|||||||t-test, 2 sided|||||||0.2808
82617494|NCT05906732|164950763|SUPERIORITY||Mean Difference (Net)|110.39||||0.1644|TWO_SIDED||||||t-test, 2 sided|||||||0.1644
82617495|NCT05906732|164950764|SUPERIORITY||Mean Difference (Net)|-44.29||||0.0282|TWO_SIDED||||||t-test, 2 sided|||||||0.0282
82617496|NCT05906732|164950765|SUPERIORITY||Mean Difference (Net)|-37.87||||0.0306|TWO_SIDED||||||t-test, 2 sided|||||||0.0306
82617497|NCT05906732|164950766|SUPERIORITY||Mean Difference (Net)|-53.42||||0.0016|TWO_SIDED||||||t-test, 2 sided|||||||0.0016
82617498|NCT05906732|164950767|SUPERIORITY||Mean Difference (Net)|-44.25||||0.1378|TWO_SIDED||||||t-test, 2 sided|||||||0.1378
82617499|NCT04096326|164950822|SUPERIORITY||Rate difference|40.6||||0.0096|TWO_SIDED|95.0|23.6|57.6||P-value was based on Cochran-Mantel-Haenszel (CMH) tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||57.6|23.6|0.0096
82617500|NCT04096326|164950822|SUPERIORITY||Rate difference|46.4||||0.0094|TWO_SIDED|95.0|28.0|64.9||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||64.9|28.0|0.0094
82617501|NCT04096326|164950822|SUPERIORITY||Rate difference|52.2||||0.0044|TWO_SIDED|95.0|23.6|80.8||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||80.8|23.6|0.0044
82617502|NCT04096326|164950822|SUPERIORITY||Rate difference|63.3||||0.0026|TWO_SIDED|95.0|35.2|91.5||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||91.5|35.2|0.0026
82617503|NCT04096326|164950822|SUPERIORITY||Rate difference|85.7||||0|TWO_SIDED|95.0|64.2|100.0||P-value was based on CMH tests stratified by baseline GL severity at maximum frown to compare each AGN-151586 study intervention group versus placebo for each cohort.|Cochran-Mantel-Haenszel|||||100.0|64.2|0.0000
82617504|NCT01100307|164950828|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.85||||0.0003|TWO_SIDED|95.0|1.92|12.28||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|Cochran-Mantel-Haenszel|Stratification factors (HbA1c and baseline visual acuity categories)||The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||12.28|1.92|0.0003
82617505|NCT01100307|164950829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.52||||0.0006|TWO_SIDED|95.0|1.1|3.94||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 6: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||3.94|1.10|0.0006
82659973|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.81|||<|0.001|TWO_SIDED|95.0|0.41|1.22||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.22|0.41|<0.001
82659974|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.003|TWO_SIDED|95.0|0.22|1.01||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.01|0.22|0.003
82659975|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.59||||0.004|TWO_SIDED|95.0|0.19|0.98||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||0.98|0.19|0.004
82659976|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.41|||<|0.001|TWO_SIDED|95.0|0.91|1.91||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.91|0.91|<0.001
82617506|NCT01100307|164950829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.69||||0.0001|TWO_SIDED|95.0|1.81|5.58||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 12: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||5.58|1.81|0.0001
82617507|NCT01100307|164950829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.65||||0.0096|TWO_SIDED|95.0|0.65|4.65||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 18: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||4.65|0.65|0.0096
82617508|NCT01100307|164950829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.26|||<|0.0001|TWO_SIDED|95.0|2.19|6.32||Significance level of test in the comparison between pegaptanib sodium 0.3 mg and sham was set to 0.05.|ANCOVA|Based on an analysis of covariance with treatment as a factor and stratification factors (HbA1c and baseline visual acuity categories) as covariates.||Comparison at Week 24: The null hypothesis was to assume that there was no difference between the pegaptanib sodium and sham injection groups. The alternative was to assume that there was difference between the pegaptanib sodium and sham injection groups.||6.32|2.19|<0.0001
82617509|NCT02993224|164950858|SUPERIORITY||Difference of proportion|0.83|||<|0.0001|TWO_SIDED|95.0|0.75|0.89|||McNemar|||Preference for deferasirox DT vs deferasirox FCT||0.89|0.75|<.0001
82617510|NCT02993224|164950859|SUPERIORITY||Difference of proportion|0.78|||<|0.0001|TWO_SIDED|95.0|0.65|0.88|||McNemar|||Preference of deferasirox FCT vs deferasirox DT||0.88|0.65|<0.0001
82659977|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.24|||<|0.001|TWO_SIDED|95.0|0.75|1.74||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.74|0.75|<0.001
82659978|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||<|0.001|TWO_SIDED|95.0|0.41|1.39||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||1.39|0.41|<0.001
82659979|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.11|2.16||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||2.16|1.11|<0.001
82659980|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.57|||<|0.001|TWO_SIDED|95.0|1.05|2.09||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||2.09|1.05|<0.001
82659981|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|||<|0.001|TWO_SIDED|95.0|0.75|1.78||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||1.78|0.75|<0.001
82659982|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.99|||<|0.001|TWO_SIDED|95.0|1.46|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.52|1.46|<0.001
82659983|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.09|||<|0.001|TWO_SIDED|95.0|1.57|2.61||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.61|1.57|<0.001
82617511|NCT02993224|164950859|SUPERIORITY||Difference of proportion|0.83|||<|0.0001|TWO_SIDED|95.0|0.71|0.91|||McNemar|||Preference for deferasirox FCT vs previous iron chelation therapy||0.91|0.71|<0.0001
82617512|NCT02993224|164950860|SUPERIORITY||Difference of proportion|0.66|||<|0.0001|TWO_SIDED|95.0|0.51|0.77|||McNemar|||Deferasirox DT vs previous iron chelation therapy at Week 4||0.77|0.51|< 0.0001
82659984|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.68|||<|0.001|TWO_SIDED|95.0|1.16|2.2||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||2.20|1.16|<0.001
82659985|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.59|2.64||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.64|1.59|<0.001
82659986|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.7|2.74||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.74|1.70|<0.001
82659987|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.69|||<|0.001|TWO_SIDED|95.0|1.18|2.21||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||2.21|1.18|<0.001
82659988|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|||<|0.001|TWO_SIDED|95.0|1.98|3.01||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||3.01|1.98|<0.001
82659989|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.48|||<|0.001|TWO_SIDED|95.0|1.97|2.99||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.99|1.97|<0.001
82659990|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.88|||<|0.001|TWO_SIDED|95.0|1.37|2.38||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||2.38|1.37|<0.001
82659991|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.54|||<|0.001|TWO_SIDED|95.0|2.01|3.07||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||3.07|2.01|<0.001
82659992|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45|||<|0.001|TWO_SIDED|95.0|1.92|2.97||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.97|1.92|<0.001
82659993|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81|||<|0.001|TWO_SIDED|95.0|1.29|2.33||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||2.33|1.29|<0.001
82659994|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.47|||<|0.001|TWO_SIDED|95.0|1.92|3.03||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||3.03|1.92|<0.001
82659995|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.41|||<|0.001|TWO_SIDED|95.0|1.87|2.96||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.96|1.87|<0.001
82659996|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.71|||<|0.001|TWO_SIDED|95.0|1.16|2.25||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||2.25|1.16|<0.001
82659997|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.69|2.83||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.83|1.69|<0.001
82659998|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.37|||<|0.001|TWO_SIDED|95.0|1.8|2.93||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.93|1.80|<0.001
82659999|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.67|||<|0.001|TWO_SIDED|95.0|1.11|2.23||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||2.23|1.11|<0.001
82660000|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|||<|0.001|TWO_SIDED|95.0|1.66|2.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.79|1.66|<0.001
82660001|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|||<|0.001|TWO_SIDED|95.0|1.74|2.85||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.85|1.74|<0.001
82660002|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.57|||<|0.001|TWO_SIDED|95.0|1.02|2.13||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||2.13|1.02|<0.001
82660003|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.59|2.78||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.78|1.59|<0.001
82660004|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.53|2.7||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.70|1.53|<0.001
82492730|NCT00345839|164678244|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||No adjustments for multiple comparisons were made for this endpoint.|Log Rank|Stratified by history of diabetes and country. 2-sided test.||||||<0.001
82492731|NCT00345839|164678244|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||||TWO_SIDED|95.0|0.36|0.54|||Regression, Cox|Stratified by history of diabetes and country.|HR is cinacalcet vs placebo.|||0.54|0.36|
82617513|NCT02993224|164950860|SUPERIORITY||Difference of proportion|0.59|||<|0.0001|TWO_SIDED|95.0|0.44|0.72|||McNemar|||Deferasirox DT vs previous iron chelation therapy at Week 24||0.72|0.44|< 0.0001
82617514|NCT02993224|164950862|SUPERIORITY||Least squares mean|-3.6|STANDARD_ERROR_OF_MEAN|2.3||0.1191|TWO_SIDED|95.0|-8.1|0.9|||ANCOVA|||Compliance of deferasirox DT vs deferasirox FCT||0.9|-8.1|0.1191
82660005|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.63|||<|0.001|TWO_SIDED|95.0|1.04|2.21||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||2.21|1.04|<0.001
82660006|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.91|||<|0.001|TWO_SIDED|95.0|1.3|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.52|1.30|<0.001
82660007|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.12|||<|0.001|TWO_SIDED|95.0|1.52|2.72||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.72|1.52|<0.001
82660008|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.51|||<|0.001|TWO_SIDED|95.0|0.91|2.11||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||2.11|0.91|<0.001
82660009|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.94|||<|0.001|TWO_SIDED|95.0|1.34|2.55||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.55|1.34|<0.001
82660010|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.59|2.79||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.79|1.59|<0.001
82660011|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.56|||<|0.001|TWO_SIDED|95.0|0.97|2.16||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||2.16|0.97|<0.001
82660012|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.28|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.52|1.28|<0.001
82660013|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.13|||<|0.001|TWO_SIDED|95.0|1.52|2.75||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.75|1.52|<0.001
82660014|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.59|||<|0.001|TWO_SIDED|95.0|0.98|2.2||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||2.20|0.98|<0.001
82660015|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||<|0.001|TWO_SIDED|95.0|1.26|2.54||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.54|1.26|<0.001
82660016|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|||<|0.001|TWO_SIDED|95.0|1.39|2.66||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.66|1.39|<0.001
82660017|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.44|||<|0.001|TWO_SIDED|95.0|0.81|2.07||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||2.07|0.81|<0.001
82660018|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.83|||<|0.001|TWO_SIDED|95.0|1.17|2.49||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.49|1.17|<0.001
82492732|NCT01960400|164678260|SUPERIORITY_OR_OTHER|||||||0.065||||||"The statistical signifiance level : p\<0.05. After treatment (T1) Pain severity p=0.065~Sub-scale:~* Present pain p=0.046\*~* Average pain p=0.381~* Most intense pain p=0.064~* Least intense pain p=0.142"|ANOVA|To assess the effectiveness of interventions (inter-group differences), a mixed-model ANOVA (time X group interaction) was used.||For the severity of pain, the calculations have revealed that only this pain now had an acceptable statistical power, of 77.1% after treatment (T1).||||0.065
82492733|NCT01960400|164678261|SUPERIORITY_OR_OTHER|||||||0.049||||||interaction group X time|ANOVA|||||||0.049
82492734|NCT01960400|164678262|SUPERIORITY_OR_OTHER|||||||0.035||||||interaction group X time|ANOVA|||||||0.035
82617515|NCT03855137|164950909|SUPERIORITY||Least Squares Mean Difference|-2.41|STANDARD_ERROR_OF_MEAN|0.547||0.0001|TWO_SIDED|95.0|-3.48|-1.33||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Mixed Model Repeated Measures (MMRM)||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.33|-3.48|0.0001
82617516|NCT03855137|164950909|SUPERIORITY||Least Squares Mean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.545||0.0009|TWO_SIDED|95.0|-2.89|-0.75||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.75|-2.89|0.0009
82617517|NCT03855137|164950910|SUPERIORITY||Least Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|0.547||0.0001|TWO_SIDED|95.0|-3.31|-1.16||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.16|-3.31|0.0001
82617518|NCT03855137|164950910|SUPERIORITY||Least Squares Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.544||0.0024|TWO_SIDED|95.0|-2.72|-0.59|||MMRM|Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.59|-2.72|0.0024
82617519|NCT03855137|164950911|SUPERIORITY||Least Squares Mean Difference|-2.32|STANDARD_ERROR_OF_MEAN|0.541||0.0001|TWO_SIDED|95.0|-3.38|-1.26||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.26|-3.38|0.0001
82617520|NCT03855137|164950911|SUPERIORITY||Least Squares Mean Difference|-1.87|STANDARD_ERROR_OF_MEAN|0.538||0.0009|TWO_SIDED|95.0|-2.93|-0.81||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.81|-2.93|0.0009
82617521|NCT03855137|164950912|SUPERIORITY||Least Squares Mean Difference|-2.14|STANDARD_ERROR_OF_MEAN|0.539||0.0002|TWO_SIDED|95.0|-3.2|-1.09||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.09|-3.20|0.0002
82617522|NCT03855137|164950912|SUPERIORITY||Least Squares Mean Difference|-1.72|STANDARD_ERROR_OF_MEAN|0.536||0.0024|TWO_SIDED|95.0|-2.78|-0.67||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.67|-2.78|0.0024
82617523|NCT03855137|164950913|SUPERIORITY||Least Squares Mean Difference|-2.63|STANDARD_ERROR_OF_MEAN|0.51||0.0001|TWO_SIDED|95.0|-3.63|-1.63||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.63|-3.63|0.0001
82617524|NCT03855137|164950913|SUPERIORITY||Least Squares Mean Difference|-2.13|STANDARD_ERROR_OF_MEAN|0.508||0.0009|TWO_SIDED|95.0|-3.13|-1.13||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.13|-3.13|0.0009
82617525|NCT03855137|164950914|SUPERIORITY||Least Squares Mean Difference|-2.52|STANDARD_ERROR_OF_MEAN|0.507||0.0002|TWO_SIDED|95.0|-3.52|-1.53||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.53|-3.52|0.0002
82617526|NCT03855137|164950914|SUPERIORITY||Least Squares Mean Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.505||0.0024|TWO_SIDED|95.0|-3.09|-1.1|||MMRM|||||-1.10|-3.09|0.0024
82617527|NCT03855137|164950915|SUPERIORITY||Odds Ratio (OR)|2.13||||0.0003|TWO_SIDED|95.0|1.45|3.14||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||3.14|1.45|0.0003
82617528|NCT03855137|164950915|SUPERIORITY||Odds Ratio (OR)|2.04||||0.0009|TWO_SIDED|95.0|1.38|3.0||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||3.00|1.38|0.0009
82617529|NCT03855137|164950916|SUPERIORITY||Odds Ratio (OR)|2.03||||0.0006|TWO_SIDED|95.0|1.38|2.98||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||2.98|1.38|0.0006
82660019|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.78|||<|0.001|TWO_SIDED|95.0|1.13|2.43||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.43|1.13|<0.001
82660020|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42|||<|0.001|TWO_SIDED|95.0|0.78|2.07||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||2.07|0.78|<0.001
82660021|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|||<|0.001|TWO_SIDED|95.0|0.95|2.32||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.32|0.95|<0.001
82660022|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.61|||<|0.001|TWO_SIDED|95.0|0.94|2.29||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.29|0.94|<0.001
82617530|NCT03855137|164950916|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0009|TWO_SIDED|95.0|1.29|2.79||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|Logistic regression||Logistic regression for each atogepant group versus placebo with baseline monthly migraine days as covariate,stratification of region,acute medication overuse,migraine prevention medication and number of failures,treatment group as fixed factors.|||2.79|1.29|0.0009
82617531|NCT03855137|164950917|SUPERIORITY||Least Squares Mean Difference|7.43|STANDARD_ERROR_OF_MEAN|1.864||0.0006|TWO_SIDED|95.0|3.77|11.09||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||11.09|3.77|0.0006
82617532|NCT03855137|164950917|SUPERIORITY||Least Squares Mean Difference|5.78|STANDARD_ERROR_OF_MEAN|1.848||0.0024|TWO_SIDED|95.0|2.15|9.41||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||9.41|2.15|0.0024
82617533|NCT03855137|164950918|SUPERIORITY||Least Squares Mean Difference|-4.85|STANDARD_ERROR_OF_MEAN|0.968||0.0003|TWO_SIDED|95.0|-6.75|-2.95||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-2.95|-6.75|0.0003
82617534|NCT03855137|164950918|SUPERIORITY||Least Squares Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|0.963||0.0009|TWO_SIDED|95.0|-5.27|-1.49||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.49|-5.27|0.0009
82617535|NCT03855137|164950919|SUPERIORITY||Least Squares Mean Difference|-4.19|STANDARD_ERROR_OF_MEAN|0.897||0.0003|TWO_SIDED|95.0|-5.95|-2.43||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-2.43|-5.95|0.0003
82617536|NCT03855137|164950919|SUPERIORITY||Least Squares Mean Difference|-2.71|STANDARD_ERROR_OF_MEAN|0.893||0.0025|TWO_SIDED|95.0|-4.47|-0.96||Adjusted p-value using graphical approach to control the overall type 1 error rate for multiple comparisons.|MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-0.96|-4.47|0.0025
82617537|NCT03855137|164950920|SUPERIORITY||Least Squares Mean Difference|-3.3|STANDARD_ERROR_OF_MEAN|0.697||0.0006|TWO_SIDED|95.0|-4.67|-1.93|||MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.93|-4.67|0.0006
82660023|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.38|||<|0.001|TWO_SIDED|95.0|0.71|2.06||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||2.06|0.71|<0.001
82492735|NCT01960400|164678263|SUPERIORITY_OR_OTHER|||||||0.046||||||interaction group X time|ANOVA|||||||0.046
82617538|NCT03855137|164950920|SUPERIORITY||Least Squares Mean Difference|-2.66|STANDARD_ERROR_OF_MEAN|0.69||0.0024|TWO_SIDED|95.0|-4.02|-1.3|||MMRM||MMRM model=treatment group,visit,stratification by acute medication overuse,migraine prevention medication use and number of failures,region,and treatment group-by-visit as fixed factors and baseline and baseline-by-visit interaction as covariates.|||-1.30|-4.02|0.0024
82660024|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.58|||<|0.001|TWO_SIDED|95.0|0.88|2.27||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.27|0.88|<0.001
82660025|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.42|||<|0.001|TWO_SIDED|95.0|0.73|2.1||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.10|0.73|<0.001
82660026|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|||<|0.001|TWO_SIDED|95.0|0.72|2.08||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||2.08|0.72|<0.001
82660027|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.25|||<|0.001|TWO_SIDED|95.0|0.53|1.96||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.96|0.53|<0.001
82660028|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08||||0.003|TWO_SIDED|95.0|0.38|1.79||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||1.79|0.38|0.003
82660029|NCT00913627|165037547|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||<|0.001|TWO_SIDED|95.0|0.61|2.02||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||2.02|0.61|<0.001
82660030|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.52||||0.011|TWO_SIDED|95.0|0.12|0.91||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.91|0.12|0.011
82660031|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.44||||0.028|TWO_SIDED|95.0|0.05|0.83||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.83|0.05|0.028
82617539|NCT02435277|164950921|OTHER|||||||0.0475||||||Total daily dose is twice the respective dose, Pairwise Comparison using Control as the Reference Group|ANCOVA|||Mixed Model Inferential Statistical Analysis of HbA1c change from day 1-day 84 Evaluable Population (n=43)||||0.0475
82617540|NCT02435277|164950921|OTHER|||||||0.0912|||||||ANCOVA|||||||0.0912
82617541|NCT02435277|164950921|OTHER|||||||0.0458|||||||ANCOVA|||||||0.0458
82617542|NCT02435277|164950922|OTHER|||||||0.26||||||Total daily dose is twice the respective dose Pairwise Comparison using Treatment D as the Reference Group|ANCOVA|||Mixed Model Inferential Statistical Analysis of Fssting Plasma Glucose change from day 1-day 84 in Evaluable Population (n=43)||||0.26
82617543|NCT02435277|164950922|OTHER|||||||0.0083|||||||ANCOVA|||||||0.0083
82617544|NCT02435277|164950922|OTHER|||||||0.0317|||||||ANCOVA|||||||0.0317
82617545|NCT01067508|164950923|OTHER|||||||0.003||||||p\<0.05 was defined as significant|t-test, 2 sided|||Comparison was made to 12 weeks minus baseline change in Fiji water group||||0.003
82617546|NCT01067508|164950923|OTHER|||||||0.68||||||p\<0.05 was defined as significant|t-test, 2 sided|||Comparison was made to the 12 week minus baseline change in Aquafina (control) group||||0.68
82617547|NCT00958308|164950934|SUPERIORITY_OR_OTHER||||||=|0.02|||||||Fisher Exact|||The sample size calculation was based on the incidence of AAD. A total of 255 patients was enrolled in order to obtain at least the required 225 evaluable patients.With expected AAD rates of at most 15% - 25% in the treatment groups; and 25% - 35% in the placebo group, these numbers were sufficient to detect the difference in the incidence of AAD between either of the treatment groups vs. placebo with a minimum of 86% statistical power.||||=0.02
82617548|NCT02065622|164950983|SUPERIORITY||Adjusted risk difference|2.5||||0.269|TWO_SIDED|95.0|-2.0|7.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.0|-2.0|0.269
82617549|NCT02065622|164950983|SUPERIORITY|||||||0.447|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.447
82617550|NCT02065622|164950983|SUPERIORITY||Adjusted risk difference|2.3||||0.301|TWO_SIDED|95.0|-2.0|6.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||6.6|-2.0|0.301
82617551|NCT02065622|164950983|SUPERIORITY|||||||0.502|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.502
82617552|NCT02065622|164950984|SUPERIORITY||Adjusted risk difference|9.9||||0.069|TWO_SIDED|95.0|-0.8|20.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.6|-0.8|0.069
82617553|NCT02065622|164950984|SUPERIORITY|||||||0.085|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.085
82617554|NCT02065622|164950984|SUPERIORITY||Adjusted risk difference|10.3||||0.045|TWO_SIDED|95.0|0.2|20.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.4|0.2|0.045
82617555|NCT02065622|164950984|SUPERIORITY|||||||0.106|||||||Breslow-Day test|Breslow-Day test of homogeneity across strata.||||||0.106
82617556|NCT02065622|164950985|SUPERIORITY||Adjusted risk difference|4.2||||0.181|TWO_SIDED|95.0|-2.0|10.5|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||10.5|-2.0|0.181
82617557|NCT02065622|164950985|SUPERIORITY||Adjusted risk difference|3.8||||0.2|TWO_SIDED|95.0|-2.0|9.7|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||9.7|-2.0|0.200
82617558|NCT02065622|164950986|SUPERIORITY||Adjusted risk difference|3.0||||0.3|TWO_SIDED|95.0|-2.6|8.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.6|-2.6|0.300
82617559|NCT02065622|164950986|SUPERIORITY||Adjusted risk difference|3.1||||0.254|TWO_SIDED|95.0|-2.2|8.4|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.4|-2.2|0.254
82617560|NCT02065622|164950987|SUPERIORITY||Adjusted risk difference|6.5||||0.05|TWO_SIDED|95.0|0.0|13.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||13.1|-0.0|0.050
82617561|NCT02065622|164950987|SUPERIORITY||Adjusted risk difference|4.8||||0.131|TWO_SIDED|95.0|-1.4|11.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||11.0|-1.4|0.131
82660032|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39||||0.048|TWO_SIDED|95.0|0.0|0.78||p-value adjusted for baseline PSR and gender|ANOVA|||15 minutes||0.78|0.00|0.048
82617562|NCT02065622|164950988|SUPERIORITY||Adjusted risk difference|7.3||||0.035|TWO_SIDED|95.0|0.5|14.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||14.1|0.5|0.035
82617563|NCT02065622|164950988|SUPERIORITY||Adjusted risk difference|8.7||||0.008|TWO_SIDED|95.0|2.3|15.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||15.1|2.3|0.008
82617564|NCT02065622|164950989|SUPERIORITY||Adjusted risk difference|3.2||||0.16|TWO_SIDED|95.0|-1.3|7.6|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.6|-1.3|0.160
82617565|NCT02065622|164950989|SUPERIORITY||Adjusted risk difference|2.9||||0.166|TWO_SIDED|95.0|-1.2|7.1|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||7.1|-1.2|0.166
82617566|NCT02065622|164950990|SUPERIORITY||Adjusted risk difference|8.3||||0.011|TWO_SIDED|95.0|1.9|14.7|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||14.7|1.9|0.011
82617567|NCT02065622|164950990|SUPERIORITY||Adjusted risk difference|7.0||||0.025|TWO_SIDED|95.0|0.9|13.0|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||13.0|0.9|0.025
82617568|NCT02065622|164950991|SUPERIORITY||Adjusted risk difference|4.2||||0.218|TWO_SIDED|95.0|-2.5|10.9|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||10.9|-2.5|0.218
82617569|NCT02065622|164950991|SUPERIORITY||Adjusted risk difference|2.4||||0.456|TWO_SIDED|95.0|-4.0|8.8|||Cochran-Mantel-Haenszel||Risk difference = (adalimumab higher induction dose - adalimumab standard induction dose).|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel test adjusted for previous infliximab use and baseline corticosteroid use.||8.8|-4.0|0.456
82617570|NCT02065622|164950992|SUPERIORITY||Adjusted risk difference|9.5||||0.098|TWO_SIDED|95.0|-1.7|20.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.8|-1.7|0.098
82617571|NCT02065622|164950992|SUPERIORITY||Adjusted risk difference|9.9||||0.066|TWO_SIDED|95.0|-0.7|20.5|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||20.5|-0.7|0.066
82617572|NCT02065622|164950993|SUPERIORITY||Adjusted risk difference|21.5||||0.002|TWO_SIDED|95.0|7.6|35.4|||Cochran-Mantel-Haenszel|Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.||Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||35.4|7.6|0.002
82617573|NCT02065622|164950993|SUPERIORITY||Adjusted risk difference|19.7||||0.003|TWO_SIDED|95.0|6.6|32.7|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||32.7|6.6|0.003
82617574|NCT02065622|164950994|SUPERIORITY||Adjusted risk difference|11.5||||0.093|TWO_SIDED|95.0|-1.9|25.0|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||25.0|-1.9|0.093
82617575|NCT02065622|164950994|SUPERIORITY||Adjusted risk difference|11.1||||0.088|TWO_SIDED|95.0|-1.7|23.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||23.8|-1.7|0.088
82617576|NCT02065622|164950995|SUPERIORITY||Adjusted risk difference|15.9||||0.161|TWO_SIDED|95.0|-6.3|38.2|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||38.2|-6.3|0.161
82660033|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.32|||<|0.001|TWO_SIDED|95.0|0.69|1.96||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.96|0.69|<0.001
82617577|NCT02065622|164950995|SUPERIORITY||Adjusted risk difference|10.4||||0.312|TWO_SIDED|95.0|-9.8|30.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||30.6|-9.8|0.312
82617578|NCT02065622|164950996|SUPERIORITY||Adjusted risk difference|12.3||||0.272|TWO_SIDED|95.0|-9.7|34.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||34.4|-9.7|0.272
82617579|NCT02065622|164950996|SUPERIORITY||Adjusted risk difference|5.3||||0.6|TWO_SIDED|95.0|-14.6|25.2|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||25.2|-14.6|0.600
82617580|NCT02065622|164950997|SUPERIORITY||Adjusted risk difference|23.8||||0.074|TWO_SIDED|95.0|-2.3|49.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||49.9|-2.3|0.074
82617581|NCT02065622|164950997|SUPERIORITY||Adjusted risk difference|15.0||||0.21|TWO_SIDED|95.0|-8.5|38.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||38.4|-8.5|0.210
82617582|NCT02065622|164950998|SUPERIORITY||Adjusted risk difference|20.0||||0.151|TWO_SIDED|95.0|-7.3|47.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||47.3|-7.3|0.151
82617583|NCT02065622|164950998|SUPERIORITY||Adjusted risk difference|12.8||||0.299|TWO_SIDED|95.0|-11.3|36.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||36.8|-11.3|0.299
82617584|NCT02065622|164950999|SUPERIORITY||Adjusted risk difference|4.5||||0.422|TWO_SIDED|95.0|-6.4|15.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||15.3|-6.4|0.422
82617585|NCT02065622|164950999|SUPERIORITY||Adjusted risk difference|3.4||||0.513|TWO_SIDED|95.0|-6.8|13.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||13.6|-6.8|0.513
82617586|NCT02065622|164951000|SUPERIORITY||Adjusted risk difference|3.7||||0.351|TWO_SIDED|95.0|-4.1|11.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||11.4|-4.1|0.351
82617587|NCT02065622|164951000|SUPERIORITY||Adjusted risk difference|3.9||||0.292|TWO_SIDED|95.0|-3.3|11.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||11.1|-3.3|0.292
82617588|NCT02065622|164951001|SUPERIORITY||Adjusted risk difference|5.4||||0.121|TWO_SIDED|95.0|-1.4|12.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||12.1|-1.4|0.121
82617589|NCT02065622|164951001|SUPERIORITY||Adjusted risk difference|6.5||||0.046|TWO_SIDED|95.0|0.1|12.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||12.8|0.1|0.046
82617590|NCT02065622|164951002|SUPERIORITY||Adjusted risk difference|7.5||||0.159|TWO_SIDED|95.0|-2.9|17.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||17.9|-2.9|0.159
82617591|NCT02065622|164951002|SUPERIORITY||Adjusted risk difference|8.0||||0.109|TWO_SIDED|95.0|-1.8|17.9|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||17.9|-1.8|0.109
82617592|NCT02065622|164951003|SUPERIORITY||Adjusted risk difference|1.4||||0.903|TWO_SIDED|95.0|-21.0|23.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||23.8|-21.0|0.903
82617593|NCT02065622|164951003|SUPERIORITY||Adjusted risk difference|1.3||||0.901|TWO_SIDED|95.0|-18.8|21.3|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||21.3|-18.8|0.901
82617594|NCT02065622|164951004|SUPERIORITY||Adjusted risk difference|7.7||||0.16|TWO_SIDED|95.0|-3.0|18.4|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||18.4|-3.0|0.160
82617595|NCT02065622|164951004|SUPERIORITY||Adjusted risk difference|9.1||||0.076|TWO_SIDED|95.0|-0.9|19.1|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||19.1|-0.9|0.076
82617596|NCT02065622|164951005|SUPERIORITY||Adjusted risk difference|7.3||||0.207|TWO_SIDED|95.0|-4.0|18.6|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||18.6|-4.0|0.207
82617597|NCT02065622|164951005|SUPERIORITY||Adjusted risk difference|4.2||||0.44|TWO_SIDED|95.0|-6.4|14.8|||Cochran-Mantel-Haenszel||Risk difference = Adalimumab 40mg EW - Adalimumab 40mg EOW.|Adjusted risk difference, 95% confidence interval for the difference in the proportions between the treatment groups and P-value were calculated using Cochran-Mantel-Haenszel (CMH) test adjusted for induction treatment regimen and week 8 remission status.||14.8|-6.4|0.440
82617598|NCT04237207|164951031|NON_INFERIORITY|The primary efficacy objective is to demonstrate non-inferiority of AutoSense on the M90 processor compared to AutoSound on the Q90 processor for the AzBio sentence test in quiet mode based on a paired t-test. The primary efficacy analyses will test the null hypothesis (inferiority) that the mean of the paired differences in AzBio sentence scores in quiet mode (AutoSense on M90 - AutoSound on Q90) are less than or equal to -10 percentage points.||||||0.001|||||||t-test, 2 sided|||||||0.0010
82617599|NCT04237207|164951032|NON_INFERIORITY|The 1st secondary endpoint was to demonstrate that speech recognition in noise with AutoSense on a 301-M062 processor was no worse than speech recognition in noise with currently approved software on a Q90 processor.||||||0.001|||||||t-test, 2 sided|||||||0.0010
82617600|NCT04237207|164951033|NON_INFERIORITY|"The 2nd secondary endpoint was to demonstrate increased speech recognition in noise with the 301-M062 sound processor when comparing Omnidirectional program to AutoSense."|||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82617601|NCT00488618|164951038|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.1|||<|0.0001|TWO_SIDED|95.0|-8.9|-3.3|||ANCOVA||cariprazine - placebo|||-3.3|-8.9|<0.0001
82617602|NCT00488618|164951039|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.64||||0.0001|TWO_SIDED|95.0|-0.97|-0.32|||ANCOVA||cariprazine - placebo|||-0.32|-0.97|0.0001
82617603|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.43|STANDARD_ERROR_OF_MEAN|0.135||0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index (BMI), diabetes duration and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance has at least 98% power to detect a treatment difference (all active versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.001
82492736|NCT01594281|164678270|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.8||||0.0344|TWO_SIDED|95.0|-5.4|-0.2|||ANCOVA|||||-0.2|-5.4|0.0344
82617604|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|0.171||0.004||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.004
82617605|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.42|STANDARD_ERROR_OF_MEAN|0.176||0.017||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.017
82660034|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.001|TWO_SIDED|95.0|0.45|1.71||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.71|0.45|<0.001
82660035|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.01||||0.002|TWO_SIDED|95.0|0.38|1.63||p-value adjusted for baseline PSR and gender|ANOVA|||30 minutes||1.63|0.38|0.002
82617606|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55|STANDARD_ERROR_OF_MEAN|0.17||0.001||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.001
82617607|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.52|STANDARD_ERROR_OF_MEAN|0.174||0.003||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.003
82617608|NCT00755846|164951045|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.18|STANDARD_ERROR_OF_MEAN|0.173||0.307||95.0||||A step-down sequential approach was used to test the hypothesis that the treatment coefficient in the model is 0 for each of the five individual active treatment groups vs. placebo.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.307
82617609|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.106||0.004||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has at least 98% power to detect a treatment difference (all active versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.004
82617610|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.134||0.017||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.017
82617611|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.34|STANDARD_ERROR_OF_MEAN|0.138||0.016||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.016
82617612|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.38|STANDARD_ERROR_OF_MEAN|0.134||0.005||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.005
82617613|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.37|STANDARD_ERROR_OF_MEAN|0.137||0.008||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.008
82660036|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.46|3.06||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||3.06|1.46|<0.001
82660037|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.03|||<|0.001|TWO_SIDED|95.0|1.24|2.82||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||2.82|1.24|<0.001
82617614|NCT00755846|164951046|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.136||0.321||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HbA1c. With at least 234 patients, a two-group t-test with a 0.05 two-sided significance level has 90% power to detect a treatment difference (each active dose versus placebo) in HbA1c change from baseline as small as 0.55%, assuming a common standard deviation of 0.7%.||||0.321
82617615|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.2|STANDARD_ERROR_OF_MEAN|6.65|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index (BMI), diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting plasma glucose (FPG). The treatment effect was evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617616|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.5|STANDARD_ERROR_OF_MEAN|8.4|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617617|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.8|STANDARD_ERROR_OF_MEAN|8.68||0.009||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.009
82617618|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.4|STANDARD_ERROR_OF_MEAN|8.38|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617619|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.4|STANDARD_ERROR_OF_MEAN|8.57||0.057||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.057
82617620|NCT00755846|164951047|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|8.56||0.156||95.0||||No multiplicity adjustments|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.156
82617621|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.9|STANDARD_ERROR_OF_MEAN|7.05|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between all doses of alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617622|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-29.4|STANDARD_ERROR_OF_MEAN|8.91||0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.001
82617623|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.6|STANDARD_ERROR_OF_MEAN|9.2||0.008||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline FPG as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.008
82617624|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-35.5|STANDARD_ERROR_OF_MEAN|8.88|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and body mass index, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617625|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.6|STANDARD_ERROR_OF_MEAN|9.09||0.136||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.136
82617626|NCT00755846|164951048|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|9.07||0.073||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HbA1c as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in FPG. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.073
82617627|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.5|STANDARD_ERROR_OF_MEAN|5.85|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617628|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.2|STANDARD_ERROR_OF_MEAN|7.37||0.01||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.010
82617629|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8|STANDARD_ERROR_OF_MEAN|7.71||0.002||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.002
82617630|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.1|STANDARD_ERROR_OF_MEAN|7.33||0.003||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.003
82617631|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|STANDARD_ERROR_OF_MEAN|7.44||0.006||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.006
82617632|NCT00755846|164951049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.7|STANDARD_ERROR_OF_MEAN|7.45||0.117||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.117
82660038|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.52|||<|0.001|TWO_SIDED|95.0|0.74|2.31||p-value adjusted for baseline PSR and gender|ANOVA|||45 minutes||2.31|0.74|<0.001
82660039|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.78|3.5||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.50|1.78|<0.001
82660040|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.66|||<|0.001|TWO_SIDED|95.0|1.81|3.51||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.51|1.81|<0.001
82617633|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-16.3|STANDARD_ERROR_OF_MEAN|6.6||0.014||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.014
82617634|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|8.35||0.136||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.136
82617635|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.1|STANDARD_ERROR_OF_MEAN|8.73||0.022||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.022
82617636|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-24.1|STANDARD_ERROR_OF_MEAN|8.26||0.004||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.004
82617637|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-17.5|STANDARD_ERROR_OF_MEAN|8.48||0.04||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.040
82617638|NCT00755846|164951050|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|8.47||0.378||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline fasting fructosamine as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in fasting fructosamine. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.378
82617639|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|STANDARD_ERROR_OF_MEAN|5.37||0.718||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.718
82617640|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|6.8||0.346||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.346
82617641|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|7.13||0.901||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.901
82660041|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.16|||<|0.001|TWO_SIDED|95.0|1.32|3.0||p-value adjusted for baseline PSR and gender|ANOVA|||60 minutes||3.00|1.32|<0.001
82492737|NCT01594281|164678270|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-1.2||||0.3809|TWO_SIDED|95.0|-3.8|1.5|||ANCOVA|||||1.5|-3.8|0.3809
82617642|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|6.79||0.851||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.851
82617643|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.5|STANDARD_ERROR_OF_MEAN|6.86||0.825||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.825
82617644|NCT00755846|164951051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|6.94||0.843||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.843
82617645|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|4.88||0.069||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.069
82617646|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|STANDARD_ERROR_OF_MEAN|6.14||0.018||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.018
82617647|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.3|STANDARD_ERROR_OF_MEAN|6.47||0.258||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.258
82617648|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|6.13||0.299||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.299
82617649|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.3|STANDARD_ERROR_OF_MEAN|6.27||0.103||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.103
82660042|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.26|||<|0.001|TWO_SIDED|95.0|2.39|4.12||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||4.12|2.39|<0.001
82660043|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.42|||<|0.001|TWO_SIDED|95.0|2.57|4.28||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||4.28|2.57|<0.001
82660044|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.77|||<|0.001|TWO_SIDED|95.0|1.92|3.63||p-value adjusted for baseline PSR and gender|ANOVA|||90 minutes||3.63|1.92|<0.001
82660045|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.7|4.44||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||4.44|2.70|<0.001
82492738|NCT01594281|164678270|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|1.7||||0.2113|TWO_SIDED|95.0|-1.0|4.3|||ANCOVA|||||4.3|-1.0|0.2113
82617650|NCT00755846|164951052|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.0|STANDARD_ERROR_OF_MEAN|6.32||0.34||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline total cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in total cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.340
82617651|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.689||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.689
82617652|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_ERROR_OF_MEAN|1.05||0.742||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.742
82617653|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|1.11||0.22||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.220
82617654|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|1.05||0.348||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.348
82617655|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|1.06||0.627||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.627
82617656|NCT00755846|164951053|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|STANDARD_ERROR_OF_MEAN|1.06||0.418||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.418
82617657|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|0.95||0.617||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.617
82617658|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.3|STANDARD_ERROR_OF_MEAN|1.2||0.052||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.052
82660046|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.68|||<|0.001|TWO_SIDED|95.0|2.82|4.53||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||4.53|2.82|<0.001
82660047|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.72|||<|0.001|TWO_SIDED|95.0|1.87|3.57||p-value adjusted for baseline PSR and gender|ANOVA|||2 hours||3.57|1.87|<0.001
82660048|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.13|||<|0.001|TWO_SIDED|95.0|3.27|4.99||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||4.99|3.27|<0.001
82617659|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|1.28||0.906||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.906
82660049|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.09|||<|0.001|TWO_SIDED|95.0|3.24|4.95||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||4.95|3.24|<0.001
82660050|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.09|||<|0.001|TWO_SIDED|95.0|2.24|3.93||p-value adjusted for baseline PSR and gender|ANOVA|||3 hours||3.93|2.24|<0.001
82660051|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.25|||<|0.001|TWO_SIDED|95.0|3.36|5.13||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||5.13|3.36|<0.001
82660052|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.04|||<|0.001|TWO_SIDED|95.0|3.17|4.92||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||4.92|3.17|<0.001
82660053|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.98|||<|0.001|TWO_SIDED|95.0|2.11|3.85||p-value adjusted for baseline PSR and gender|ANOVA|||4 hours||3.85|2.11|<0.001
82660054|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.07|||<|0.001|TWO_SIDED|95.0|3.14|5.01||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||5.01|3.14|<0.001
82660055|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0|||<|0.001|TWO_SIDED|95.0|3.07|4.92||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||4.92|3.07|<0.001
82660056|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.83|||<|0.001|TWO_SIDED|95.0|1.91|3.75||p-value adjusted for baseline PSR and gender|ANOVA|||5 hours||3.75|1.91|<0.001
82660057|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.75|||<|0.001|TWO_SIDED|95.0|2.78|4.71||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||4.71|2.78|<0.001
82660058|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93|||<|0.001|TWO_SIDED|95.0|2.98|4.89||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||4.89|2.98|<0.001
82660059|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||<|0.001|TWO_SIDED|95.0|1.85|3.75||p-value adjusted for baseline PSR and gender|ANOVA|||6 hours||3.75|1.85|<0.001
82660060|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.61|||<|0.001|TWO_SIDED|95.0|2.65|4.56||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||4.56|2.65|<0.001
82660061|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.84|||<|0.001|TWO_SIDED|95.0|2.89|4.79||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||4.79|2.89|<0.001
82660062|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.6|||<|0.001|TWO_SIDED|95.0|1.65|3.54||p-value adjusted for baseline PSR and gender|ANOVA|||7 hours||3.54|1.65|<0.001
82660063|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.54|||<|0.001|TWO_SIDED|95.0|2.54|4.53||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||4.53|2.54|<0.001
82660064|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|||<|0.001|TWO_SIDED|95.0|2.52|4.49||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||4.49|2.52|<0.001
82660065|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.67|||<|0.001|TWO_SIDED|95.0|1.69|3.65||p-value adjusted for baseline PSR and gender|ANOVA|||8 hours||3.65|1.69|<0.001
82660066|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.2|||<|0.001|TWO_SIDED|95.0|2.19|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||4.21|2.19|<0.001
82660067|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.51|||<|0.001|TWO_SIDED|95.0|2.51|4.51||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||4.51|2.51|<0.001
82660068|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.49|||<|0.001|TWO_SIDED|95.0|1.49|3.48||p-value adjusted for baseline PSR and gender|ANOVA|||9 hours||3.48|1.49|<0.001
82660069|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.19|||<|0.001|TWO_SIDED|95.0|2.17|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||4.21|2.17|<0.001
82660070|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.65|||<|0.001|TWO_SIDED|95.0|2.64|4.66||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||4.66|2.64|<0.001
82660071|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.59|||<|0.001|TWO_SIDED|95.0|1.58|3.6||p-value adjusted for baseline PSR and gender|ANOVA|||10 hours||3.60|1.58|<0.001
82660072|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.1|||<|0.001|TWO_SIDED|95.0|2.06|4.15||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||4.15|2.06|<0.001
82660073|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.57|||<|0.001|TWO_SIDED|95.0|2.53|4.61||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||4.61|2.53|<0.001
82660074|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.61|3.67||p-value adjusted for baseline PSR and gender|ANOVA|||11 hours||3.67|1.61|<0.001
82660075|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.15|||<|0.001|TWO_SIDED|95.0|2.09|4.21||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||4.21|2.09|<0.001
82660076|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.41|||<|0.001|TWO_SIDED|95.0|2.36|4.46||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||4.46|2.36|<0.001
82660077|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||<|0.001|TWO_SIDED|95.0|1.36|3.44||p-value adjusted for baseline PSR and gender|ANOVA|||12 hours||3.44|1.36|<0.001
82660078|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.03|||<|0.001|TWO_SIDED|95.0|1.94|4.12||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||4.12|1.94|<0.001
82617660|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|1.19||0.628||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.628
82617661|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|1.22||0.749||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.749
82617662|NCT00755846|164951054|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.22||0.34||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline HDL cholesterol as covariates.|Positive mean treatment difference indicates larger increase from baseline (more positive change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in HDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.340
82617663|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.8|STANDARD_ERROR_OF_MEAN|4.31||0.269||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.269
82617664|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.7|STANDARD_ERROR_OF_MEAN|5.46||0.076||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.076
82617665|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|5.66||0.867||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.867
82617666|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.4|STANDARD_ERROR_OF_MEAN|5.4||0.169||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.169
82617667|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.5|STANDARD_ERROR_OF_MEAN|5.45||0.645||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.645
82660079|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.99|||<|0.001|TWO_SIDED|95.0|1.91|4.07||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||4.07|1.91|<0.001
82660080|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.35|||<|0.001|TWO_SIDED|95.0|1.28|3.42||p-value adjusted for baseline PSR and gender|ANOVA|||13 hours||3.42|1.28|<0.001
82660081|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.7|||<|0.001|TWO_SIDED|95.0|1.57|3.83||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.83|1.57|<0.001
82660082|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.74|||<|0.001|TWO_SIDED|95.0|1.62|3.85||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.85|1.62|<0.001
82660083|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.26|||<|0.001|TWO_SIDED|95.0|1.14|3.37||p-value adjusted for baseline PSR and gender|ANOVA|||14 hours||3.37|1.14|<0.001
82660084|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.64|||<|0.001|TWO_SIDED|95.0|1.51|3.76||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.76|1.51|<0.001
82617668|NCT00755846|164951055|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.51||0.351||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.351
82617669|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.3|STANDARD_ERROR_OF_MEAN|4.03||0.003||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.003
82617670|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.6|STANDARD_ERROR_OF_MEAN|5.06|<|0.001||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||<0.001
82617671|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.6|STANDARD_ERROR_OF_MEAN|5.26||0.103||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.103
82617672|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0|STANDARD_ERROR_OF_MEAN|4.98||0.009||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.009
82617673|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.0|STANDARD_ERROR_OF_MEAN|5.14||0.034||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.034
82617674|NCT00755846|164951056|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.1|STANDARD_ERROR_OF_MEAN|5.16||0.033||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline LDL cholesterol as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in LDL cholesterol. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.033
82617675|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|STANDARD_ERROR_OF_MEAN|17.17||0.897||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.897
82617676|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.8|STANDARD_ERROR_OF_MEAN|21.85||0.557||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.557
82660085|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.45|||<|0.001|TWO_SIDED|95.0|1.33|3.56||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.56|1.33|<0.001
82660086|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.36|||<|0.001|TWO_SIDED|95.0|1.25|3.47||p-value adjusted for baseline PSR and gender|ANOVA|||16 hours||3.47|1.25|<0.001
82660087|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.02|||<|0.001|TWO_SIDED|95.0|0.86|3.19||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.19|0.86|<0.001
82660088|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9||||0.001|TWO_SIDED|95.0|0.75|3.05||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.05|0.75|0.001
82660089|NCT00913627|165037548|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.19|||<|0.001|TWO_SIDED|95.0|1.05|3.34||p-value adjusted for baseline PSR and gender|ANOVA|||24 hours||3.34|1.05|<0.001
82660090|NCT00913627|165037549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.42|||<|0.001|TWO_SIDED|95.0|1.94|2.89||p-value adjusted for baseline PSR and gender|ANOVA|||||2.89|1.94|<0.001
82660091|NCT00913627|165037549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.39|||<|0.001|TWO_SIDED|95.0|1.92|2.86||p-value adjusted for baseline PSR and gender|ANOVA|||||2.86|1.92|<0.001
82660092|NCT00913627|165037549|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|||<|0.001|TWO_SIDED|95.0|1.58|2.52||p-value adjusted for baseline PSR and gender|ANOVA|||||2.52|1.58|<0.001
82660093|NCT02444715|165037564|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.96
82660094|NCT02444715|165037564|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.03
82660095|NCT02444715|165037565|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.53
82660096|NCT02444715|165037565|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.44
82617677|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.5|STANDARD_ERROR_OF_MEAN|22.85||0.616||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.616
82617678|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.0|STANDARD_ERROR_OF_MEAN|21.73||0.679||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.679
82617679|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|STANDARD_ERROR_OF_MEAN|21.94||0.697||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.697
82660097|NCT02444715|165037566|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.76
82660098|NCT02444715|165037566|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
82660099|NCT02444715|165037567|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.39
82660100|NCT02444715|165037567|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
82660101|NCT02444715|165037568|SUPERIORITY_OR_OTHER|||||||0.92|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.92
82660102|NCT02444715|165037568|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.37
82660103|NCT02444715|165037569|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.78
82660104|NCT02444715|165037569|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.19
82660105|NCT02444715|165037570|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.9
82660106|NCT02444715|165037570|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||H0: no change between baseline and post-intervention||||0.43
82660107|NCT02444715|165037571|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.67
82660108|NCT02444715|165037571|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
82660109|NCT02444715|165037572|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.26
82660110|NCT02444715|165037572|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.07
82660111|NCT02444715|165037573|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.06
82660112|NCT02444715|165037573|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.04
82660113|NCT02444715|165037574|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Medium intensity~H0: no change between baseline and post-intervention"||||0.37
82660114|NCT02444715|165037574|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"Medium intensity~H0: no change between baseline and post-intervention"||||0.34
82660115|NCT02444715|165037574|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"High intensity~H0: no change between baseline and post-intervention"||||0.37
82617680|NCT00755846|164951057|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.4|STANDARD_ERROR_OF_MEAN|22.03||0.672||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.672
82617681|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.0|STANDARD_ERROR_OF_MEAN|16.37||0.809||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect will be evaluated as a contrast of all doses of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.809
82617682|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|STANDARD_ERROR_OF_MEAN|20.74||0.597||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.597
82617683|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.5|STANDARD_ERROR_OF_MEAN|21.77||0.982||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.982
82617684|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-19.0|STANDARD_ERROR_OF_MEAN|20.62||0.358||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.358
82617685|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.1|STANDARD_ERROR_OF_MEAN|21.06||0.274||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.274
82617686|NCT00755846|164951058|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.5|STANDARD_ERROR_OF_MEAN|21.06||0.554||95.0||||No multiplicity adjustments.|ANCOVA|Treatment and prior antidiabetic treatment as class effects and BMI, diabetes duration, and baseline triglycerides as covariates.|Negative mean treatment difference indicates larger decrease from baseline (more negative change from baseline) in the alogliptin arm compared to the placebo arm.|The null hypothesis that there is no difference between alogliptin and placebo arms in change from baseline in triglycerides. The treatment effect was evaluated as a contrast of each dose of alogliptin versus placebo and was evaluated inferentially with a 2-sided t-test at the 0.05 significance level.||||0.554
82617687|NCT04047121|164951060|SUPERIORITY|||||||0.2531|||||||Chi-squared|||||||0.2531
82617688|NCT04047121|164951060|SUPERIORITY|||||||0.0295|||||||Chi-squared|||||||0.0295
82617689|NCT04047121|164951060|SUPERIORITY|||||||0.1857|||||||Chi-squared|||||||0.1857
82617690|NCT04047121|164951060|SUPERIORITY||Odds Ratio (OR)|0.8401||||0.3297|TWO_SIDED|95.0|0.5919|1.1925|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.1925|0.5919|0.3297
82617691|NCT04047121|164951060|SUPERIORITY||Odds Ratio (OR)|1.5066||||0.2003|TWO_SIDED|95.0|0.8046|2.8209|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.8209|0.8046|0.2003
82617692|NCT04047121|164951060|SUPERIORITY||Odds Ratio (OR)|1.4052||||0.2276|TWO_SIDED|95.0|0.8086|2.442|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.4420|0.8086|0.2276
82660116|NCT02444715|165037574|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||"High intensity~H0: no change between baseline and post-intervention"||||0.59
82617693|NCT04047121|164951061|SUPERIORITY|||||||0.8786|||||||Chi-squared|||||||0.8786
82617694|NCT04047121|164951061|SUPERIORITY|||||||0.1178|||||||Chi-squared|||||||0.1178
82617695|NCT04047121|164951061|SUPERIORITY|||||||0.5337|||||||Chi-squared|||||||0.5337
82660117|NCT02444715|165037575|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.64
82617696|NCT04047121|164951061|SUPERIORITY||Odds Ratio (OR)|1.0283||||0.9212|TWO_SIDED|95.0|0.5911|1.789|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7890|0.5911|0.9212
82617697|NCT04047121|164951061|SUPERIORITY||Odds Ratio (OR)|0.7464||||0.4693|TWO_SIDED|95.0|0.338|1.6482|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6482|0.3380|0.4693
82617698|NCT04047121|164951061|SUPERIORITY||Odds Ratio (OR)|0.8212||||0.5593|TWO_SIDED|95.0|0.4239|1.591|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5910|0.4239|0.5593
82617699|NCT04047121|164951062|SUPERIORITY|||||||0.6205|||||||Chi-squared|||||||0.6205
82617700|NCT04047121|164951062|SUPERIORITY|||||||0.4924|||||||Chi-squared|||||||0.4924
82617701|NCT04047121|164951062|SUPERIORITY|||||||0.4982|||||||Chi-squared|||||||0.4982
82617702|NCT04047121|164951062|SUPERIORITY||Odds Ratio (OR)|1.3182||||0.5494|TWO_SIDED|95.0|0.5335|3.257|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.2570|0.5335|0.5494
82617703|NCT04047121|164951062|SUPERIORITY||Odds Ratio (OR)|1.1664||||0.783|TWO_SIDED|95.0|0.39|3.4883|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.4883|0.3900|0.7830
82617704|NCT04047121|164951063|SUPERIORITY|||||||0.3817|||||||Chi-squared|||||||0.3817
82617705|NCT04047121|164951063|SUPERIORITY|||||||0.7397|||||||Chi-squared|||||||0.7397
82617706|NCT04047121|164951063|SUPERIORITY|||||||0.7942|||||||Chi-squared|||||||0.7942
82617707|NCT04047121|164951063|SUPERIORITY||Odds Ratio (OR)|1.0682||||0.7924|TWO_SIDED|95.0|0.6537|1.7455|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7455|0.6537|0.7924
82617708|NCT04047121|164951063|SUPERIORITY||Odds Ratio (OR)|1.0414||||0.9339|TWO_SIDED|95.0|0.3997|2.7134|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.7134|0.3997|0.9339
82617709|NCT04047121|164951063|SUPERIORITY||Odds Ratio (OR)|0.8195||||0.6497|TWO_SIDED|95.0|0.347|1.935|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.9350|0.3470|0.6497
82617710|NCT04047121|164951064|SUPERIORITY|||||||0.7936|||||||Chi-squared|||||||0.7936
82617711|NCT04047121|164951064|SUPERIORITY|||||||0.5621|||||||Chi-squared|||||||0.5621
82617712|NCT04047121|164951064|SUPERIORITY|||||||0.68|||||||Chi-squared|||||||0.6800
82617713|NCT04047121|164951064|SUPERIORITY||Odds Ratio (OR)|1.1438||||0.5051|TWO_SIDED|95.0|0.7705|1.6978|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6978|0.7705|0.5051
82617714|NCT04047121|164951064|SUPERIORITY||Odds Ratio (OR)|0.8576||||0.7131|TWO_SIDED|95.0|0.3781|1.9452|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.9452|0.3781|0.7131
82617715|NCT04047121|164951064|SUPERIORITY||Odds Ratio (OR)|0.8415||||0.649|TWO_SIDED|95.0|0.4003|1.769|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7690|0.4003|0.6490
82617716|NCT04047121|164951065|SUPERIORITY|||||||0.5217|||||||Chi-squared|||||||0.5217
82617717|NCT04047121|164951065|SUPERIORITY|||||||0.0432|||||||Chi-squared|||||||0.0432
82617718|NCT04047121|164951065|SUPERIORITY|||||||0.2573|||||||Chi-squared|||||||0.2573
82617719|NCT04047121|164951065|SUPERIORITY||Odds Ratio (OR)|1.1637||||0.5368|TWO_SIDED|95.0|0.7193|1.8827|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.8827|0.7193|0.5368
82617720|NCT04047121|164951065|SUPERIORITY||Odds Ratio (OR)|0.7757||||0.4685|TWO_SIDED|95.0|0.3904|1.5413|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5413|0.3904|0.4685
82617721|NCT04047121|164951065|SUPERIORITY||Odds Ratio (OR)|0.7354||||0.3112|TWO_SIDED|95.0|0.4057|1.333|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.3330|0.4057|0.3112
82617722|NCT04047121|164951066|SUPERIORITY|||||||0.8122|||||||Log Rank|||||||0.8122
82617723|NCT04047121|164951066|SUPERIORITY|||||||0.7766|||||||Log Rank|||||||0.7766
82617724|NCT04047121|164951066|SUPERIORITY|||||||0.8305|||||||Log Rank|||||||0.8305
82617725|NCT04047121|164951066|SUPERIORITY||Hazard Ratio (HR)|0.5814||||0.1845|TWO_SIDED|95.0|0.261|1.2952|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.2952|0.2610|0.1845
82660118|NCT02444715|165037575|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||H0: no change between baseline and post-intervention||||0.14
82617726|NCT04047121|164951066|SUPERIORITY||Hazard Ratio (HR)|1.5908||||0.2951|TWO_SIDED|95.0|0.6671|3.7936|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.7936|0.6671|0.2951
82617727|NCT04047121|164951066|SUPERIORITY||Hazard Ratio (HR)|1.3546||||0.4907|TWO_SIDED|95.0|0.6584|2.787|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.7870|0.6584|0.4907
82617728|NCT04047121|164951067|SUPERIORITY|||||||0.6006|||||||Log Rank|||||||0.6006
82617729|NCT04047121|164951067|SUPERIORITY|||||||0.2941|||||||Log Rank|||||||0.2941
82617730|NCT04047121|164951067|SUPERIORITY|||||||0.961|||||||Log Rank|||||||0.9610
82617731|NCT04047121|164951067|SUPERIORITY||Hazard Ratio (HR)|0.5571||||0.0455|TWO_SIDED|95.0|0.314|0.9884|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||0.9884|0.3140|0.0455
82617732|NCT04047121|164951067|SUPERIORITY||Hazard Ratio (HR)|2.1781||||0.0274|TWO_SIDED|95.0|1.0904|4.3506|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||4.3506|1.0904|0.0274
82617733|NCT04047121|164951067|SUPERIORITY||Hazard Ratio (HR)|0.8896||||0.6787|TWO_SIDED|95.0|0.5114|1.5475|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5475|0.5114|0.6787
82617734|NCT04047121|164951068|SUPERIORITY|||||||0.9084|||||||Log Rank|||||||0.9084
82617735|NCT04047121|164951068|SUPERIORITY|||||||0.8325|||||||Log Rank|||||||0.8325
82617736|NCT04047121|164951068|SUPERIORITY|||||||0.963|||||||Log Rank|||||||0.9630
82617737|NCT04047121|164951068|SUPERIORITY||Hazard Ratio (HR)|1.0508||||0.7909|TWO_SIDED|95.0|0.7284|1.516|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.5160|0.7284|0.7909
82617738|NCT04047121|164951068|SUPERIORITY||Hazard Ratio (HR)|0.8117||||0.6027|TWO_SIDED|95.0|0.37|1.7808|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.7808|0.3700|0.6027
82617739|NCT04047121|164951068|SUPERIORITY||Hazard Ratio (HR)|1.1742||||0.6978|TWO_SIDED|95.0|0.5222|2.6404|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||2.6404|0.5222|0.6978
82617740|NCT04047121|164951069|SUPERIORITY|||||||0.1736|||||||Log Rank|||||||0.1736
82617741|NCT04047121|164951069|SUPERIORITY|||||||0.0195|||||||Log Rank|||||||0.0195
82617742|NCT04047121|164951069|SUPERIORITY|||||||0.2104|||||||Log Rank|||||||0.2104
82617743|NCT04047121|164951069|SUPERIORITY||Hazard Ratio (HR)|1.1723||||0.167|TWO_SIDED|95.0|0.9357|1.4687|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.4687|0.9357|0.1670
82617744|NCT04047121|164951069|SUPERIORITY||Hazard Ratio (HR)|0.7228||||0.1087|TWO_SIDED|95.0|0.4861|1.0747|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.0747|0.4861|0.1087
82617745|NCT04047121|164951069|SUPERIORITY||Hazard Ratio (HR)|0.8402||||0.3212|TWO_SIDED|95.0|0.5957|1.1852|||Regression, Cox|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.1852|0.5957|0.3212
82617746|NCT04047121|164951070|SUPERIORITY|||||||0.9361|||||||Chi-squared|||||||0.9361
82617747|NCT04047121|164951070|SUPERIORITY|||||||0.3851|||||||Chi-squared|||||||0.3851
82617748|NCT04047121|164951070|SUPERIORITY|||||||0.599|||||||Chi-squared|||||||0.5990
82617749|NCT04047121|164951070|SUPERIORITY||Odds Ratio (OR)|0.9954||||0.986|TWO_SIDED|95.0|0.5962|1.662|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||1.6620|0.5962|0.9860
82617750|NCT04047121|164951070|SUPERIORITY||Odds Ratio (OR)|1.2959||||0.5813|TWO_SIDED|95.0|0.5158|3.2558|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement.) on the outcome measure, multivariable analysis was performed.||3.2558|0.5158|0.5813
82617751|NCT04047121|164951070|SUPERIORITY||Odds Ratio (OR)|1.8182||||0.1789|TWO_SIDED|95.0|0.7604|4.3473|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.3473|0.7604|0.1789
82617752|NCT04047121|164951071|SUPERIORITY|||||||0.4009|||||||Chi-squared|||||||0.4009
82617753|NCT04047121|164951071|SUPERIORITY|||||||0.9765|||||||Chi-squared|||||||0.9765
82617754|NCT04047121|164951071|SUPERIORITY|||||||0.2849|||||||Chi-squared|||||||0.2849
82617755|NCT04047121|164951071|SUPERIORITY||Odds Ratio (OR)|0.8252||||0.5289|TWO_SIDED|95.0|0.4538|1.5007|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.5007|0.4538|0.5289
82660119|NCT02242201|165037578|SUPERIORITY|||||||0.033|||||||Wilcoxon (Mann-Whitney)|||||||0.033
82660120|NCT02242201|165037578|SUPERIORITY|||||||0.662|||||||Wilcoxon (Mann-Whitney)|||||||0.662
82660121|NCT02242201|165037578|SUPERIORITY|||||||0.103|||||||Wilcoxon (Mann-Whitney)|||||||0.103
82660122|NCT02242201|165037579|SUPERIORITY|||||||0.948|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.948
82660123|NCT02242201|165037579|SUPERIORITY|||||||0.88|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.880
82660124|NCT02242201|165037579|SUPERIORITY|||||||0.802|||||||Wilcoxon (Mann-Whitney)|||Preoperative||||0.802
82660125|NCT02242201|165037579|SUPERIORITY|||||||0.179|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.179
82660126|NCT02242201|165037579|SUPERIORITY|||||||0.837|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.837
82660127|NCT02242201|165037579|SUPERIORITY|||||||0.142|||||||Wilcoxon (Mann-Whitney)|||Intraoperative||||0.142
82660128|NCT02242201|165037579|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.010
82660129|NCT02242201|165037579|SUPERIORITY|||||||0.516|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.516
82660130|NCT02242201|165037579|SUPERIORITY|||||||0.052|||||||Wilcoxon (Mann-Whitney)|||PACU||||0.052
82660131|NCT02242201|165037579|SUPERIORITY|||||||0.84|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.840
82660132|NCT02242201|165037579|SUPERIORITY|||||||0.744|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.744
82660133|NCT02242201|165037579|SUPERIORITY|||||||0.501|||||||Wilcoxon (Mann-Whitney)|||POD 0 post PACU||||0.501
82660134|NCT02242201|165037579|SUPERIORITY|||||||0.358|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.358
82660135|NCT02242201|165037579|SUPERIORITY|||||||0.536|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.536
82660136|NCT02242201|165037579|SUPERIORITY|||||||0.11|||||||Wilcoxon (Mann-Whitney)|||POD 1||||0.110
82660137|NCT02242201|165037579|SUPERIORITY|||||||0.313|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.313
82660138|NCT02242201|165037579|SUPERIORITY|||||||0.893|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.893
82660139|NCT02242201|165037579|SUPERIORITY|||||||0.232|||||||Wilcoxon (Mann-Whitney)|||POD 2||||0.232
82660140|NCT02242201|165037580|SUPERIORITY|||||||0.772|||||||Kruskal-Wallis|||||||0.772
82660141|NCT02242201|165037581|SUPERIORITY|||||||0.251|||||||Regression, Cox|||Baseline||||0.251
82660142|NCT02242201|165037581|SUPERIORITY|||||||0.3|||||||Regression, Cox|||3 month follow-up||||0.300
82660143|NCT02242201|165037581|SUPERIORITY|||||||0.113|||||||Regression, Cox|||Baseline vs 3 months||||0.113
82660144|NCT02242201|165037581|SUPERIORITY|||||||0.147|||||||Regression, Cox|||Baseline vs 3 months||||0.147
82660145|NCT02242201|165037581|SUPERIORITY|||||||0.216|||||||Regression, Cox|||Baseline vs 3 months||||0.216
82660146|NCT02242201|165037581|SUPERIORITY|||||||0.968|||||||Regression, Cox|||Baseline vs 3 months||||0.968
82660147|NCT02242201|165037582|SUPERIORITY|||||||0.776|||||||Kruskal-Wallis|||Pain at rest||||0.776
82660148|NCT02242201|165037582|SUPERIORITY|||||||0.447|||||||Kruskal-Wallis|||Pain with movement||||0.447
82660149|NCT02242201|165037583|SUPERIORITY|||||||0.986|||||||ANOVA|||||||0.986
82660150|NCT02242201|165037583|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
82660151|NCT02242201|165037583|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
82660152|NCT02242201|165037583|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||Baseline vs 3 months||||<0.001
82660153|NCT02242201|165037584|SUPERIORITY|||||||0.898|||||||ANOVA|||||||0.898
82660154|NCT02242201|165037584|SUPERIORITY|||||||0.112|||||||t-test, 1 sided|||Baseline vs 3 months||||0.112
82660155|NCT02242201|165037584|SUPERIORITY|||||||0.046|||||||t-test, 1 sided|||Baseline vs 3 months||||0.046
82660156|NCT02242201|165037584|SUPERIORITY|||||||0.026|||||||t-test, 1 sided|||Baseline vs 3 months||||0.026
82660157|NCT02242201|165037585|SUPERIORITY|||||||0.843|||||||Fisher Exact|||Operative extremity neurologic changes||||0.843
82660158|NCT02242201|165037585|SUPERIORITY|||||||1|||||||Fisher Exact|||Wound infection||||1.00
82660159|NCT02242201|165037585|SUPERIORITY|||||||1|||||||Fisher Exact|||Fall requiring medical attention||||1.00
82660160|NCT02242201|165037586|SUPERIORITY|||||||1|||||||Fisher Exact|||Pain at rest||||1.00
82660161|NCT02242201|165037586|SUPERIORITY|||||||0.167|||||||Fisher Exact|||Pain with movement||||0.167
82660162|NCT01424644|165037589|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to diphtheria toxin for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of the Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the difference in seroprotection rates \[(MenACWY-CRM+Tdap+HPV) minus (Placebo+Tdap + HPV)\] was greater than -10%, at 1 month after Tdap vaccination|Vaccine group difference|13.0|||||TWO_SIDED|95.0|9.0|17.0|||Miettinen and Nurminen|||Non-inferiority of anti-diphtheria immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo||17|9|
82660163|NCT01424644|165037589|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to tetanus toxin for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the difference in seroprotection rates \[(MenACWY-CRM+ Tdap+HPV) minus (Placebo+Tdap + HPV)\] was greater than -10%, at 1 month after Tdap vaccination.|Vaccine group difference|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Miettinen and Nurminen|||Non-inferiority of anti-tetanus immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||2|-2|
82660164|NCT01424644|165037590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to PT antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of the Placebo+Tdap+HPV group if the lower limit of the two-sided 95% CI of the ratio of the GMCs of the MenACWY-CRM +Tdap+HPV group to the Placebo+Tdap + HPV group was greater than 0.5, at 1 month after Tdap vaccination.|Vaccine group ratio-Geometric mean conc|1.01|||||TWO_SIDED|95.0|0.89|1.14|||ANOVA|||Non-inferiority of anti-PT immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||1.14|0.89|
82660165|NCT01424644|165037590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to FHA antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the 95% CI of the difference \[(MenACWY-CRM +Tdap+HPV) minus(Placebo+Tdap + HPV)\] was greater than 0.5, at 1 month after Tdap vaccination.|Vaccine group ratio- Geometric mean conc|0.84|||||TWO_SIDED|95.0|0.76|0.93|||ANOVA|||Non-inferiority of anti-FHA immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||0.93|0.76|
82617756|NCT04047121|164951071|SUPERIORITY||Odds Ratio (OR)|0.9408||||0.927|TWO_SIDED|95.0|0.2553|3.4678|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.4678|0.2553|0.9270
82617757|NCT04047121|164951071|SUPERIORITY||Odds Ratio (OR)|0.3968||||0.0707|TWO_SIDED|95.0|0.1456|1.0812|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0812|0.1456|0.0707
82617758|NCT04047121|164951072|SUPERIORITY|||||||0.2061|||||||Chi-squared|||||||0.2061
82617759|NCT04047121|164951072|SUPERIORITY|||||||0.1908|||||||Chi-squared|||||||0.1908
82617760|NCT04047121|164951073|SUPERIORITY|||||||0.8033|||||||Chi-squared|||||||0.8033
82617761|NCT04047121|164951073|SUPERIORITY|||||||0.6669|||||||Chi-squared|||||||0.6669
82617762|NCT04047121|164951073|SUPERIORITY|||||||0.6477|||||||Chi-squared|||||||0.6477
82617763|NCT04047121|164951073|SUPERIORITY||Odds Ratio (OR)|0.7948||||0.5509|TWO_SIDED|95.0|0.3736|1.6907|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6907|0.3736|0.5509
82617764|NCT04047121|164951073|SUPERIORITY||Odds Ratio (OR)|0.6814||||0.6216|TWO_SIDED|95.0|0.1486|3.125|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.1250|0.1486|0.6216
82617765|NCT04047121|164951073|SUPERIORITY||Odds Ratio (OR)|0.6974||||0.5506|TWO_SIDED|95.0|0.2135|2.2781|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2781|0.2135|0.5506
82617766|NCT04047121|164951074|SUPERIORITY|||||||0.103|||||||Chi-squared|||||||0.1030
82617767|NCT04047121|164951074|SUPERIORITY|||||||0.9317|||||||Chi-squared|||||||0.9317
82617768|NCT04047121|164951074|SUPERIORITY|||||||0.242|||||||Chi-squared|||||||0.2420
82617769|NCT04047121|164951074|SUPERIORITY||Odds Ratio (OR)|1.7474||||0.0869|TWO_SIDED|95.0|0.9222|3.3107|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.3107|0.9222|0.0869
82617770|NCT04047121|164951074|SUPERIORITY||Odds Ratio (OR)|1.1346||||0.8228|TWO_SIDED|95.0|0.3757|3.4266|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.4266|0.3757|0.8228
82617771|NCT04047121|164951074|SUPERIORITY||Odds Ratio (OR)|1.565||||0.4855|TWO_SIDED|95.0|0.4446|5.5086|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.5086|0.4446|0.4855
82617772|NCT04047121|164951076|SUPERIORITY|||||||0.5092|||||||Chi-squared|||||||0.5092
82617773|NCT04047121|164951076|SUPERIORITY|||||||0.0201|||||||Chi-squared|||||||0.0201
82617774|NCT04047121|164951076|SUPERIORITY|||||||0.2799|||||||Chi-squared|||||||0.2799
82617775|NCT04047121|164951076|SUPERIORITY||Odds Ratio (OR)|0.9021||||0.5772|TWO_SIDED|95.0|0.6281|1.2958|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2958|0.6281|0.5772
82617776|NCT04047121|164951076|SUPERIORITY||Odds Ratio (OR)|1.3953||||0.3272|TWO_SIDED|95.0|0.7166|2.7169|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.7169|0.7166|0.3272
82617777|NCT04047121|164951076|SUPERIORITY||Odds Ratio (OR)|1.3527||||0.3011|TWO_SIDED|95.0|0.763|2.3983|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3983|0.7630|0.3011
82617778|NCT04047121|164951077|SUPERIORITY|||||||0.2931|||||||Chi-squared|||||||0.2931
82617779|NCT04047121|164951077|SUPERIORITY|||||||0.3135|||||||Chi-squared|||||||0.3135
82617780|NCT04047121|164951077|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82617781|NCT04047121|164951077|SUPERIORITY||Odds Ratio (OR)|0.8369||||0.6772|TWO_SIDED|95.0|0.3618|1.9356|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.9356|0.3618|0.6772
82617782|NCT04047121|164951077|SUPERIORITY||Odds Ratio (OR)|5.253||||0.0013|TWO_SIDED|95.0|1.9061|14.477|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||14.4770|1.9061|0.0013
82617783|NCT04047121|164951078|SUPERIORITY|||||||0.5217|||||||Chi-squared|||||||0.5217
82617784|NCT04047121|164951078|SUPERIORITY|||||||0.0432|||||||Chi-squared|||||||0.0432
82617785|NCT04047121|164951078|SUPERIORITY|||||||0.2573|||||||Chi-squared|||||||0.2573
82617786|NCT04047121|164951078|SUPERIORITY||Odds Ratio (OR)|0.8593||||0.5368|TWO_SIDED|95.0|0.5311|1.3902|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.3902|0.5311|0.5368
82617787|NCT04047121|164951078|SUPERIORITY||Odds Ratio (OR)|1.2892||||0.4685|TWO_SIDED|95.0|0.6488|2.5616|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.5616|0.6488|0.4685
82660166|NCT01424644|165037590|NON_INFERIORITY_OR_EQUIVALENCE|The immune response to PRN antigen for the MenACWY-CRM+Tdap+HPV group was considered non-inferior to that of Placebo+Tdap+HPV group if the lower limit of the 95% CI of the difference \[(MenACWY-CRM+Tdap+HPV) minus(Placebo+Tdap + HPV)\] was greater than 0.5, at 1 month after vaccination.|Vaccine group ratio-Geometric mean conc|0.82|||||TWO_SIDED|95.0|0.72|0.93|||ANOVA|||Non-inferiority of anti-PRN immune response following concomitant administration of Tdap with HPV and MenACWY-CRM as compared to concomitant administration of Tdap with HPV and placebo.||0.93|0.72|
82660167|NCT01597245|165037600|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660168|NCT01597245|165037600|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660169|NCT01597245|165037600|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82617788|NCT04047121|164951078|SUPERIORITY||Odds Ratio (OR)|1.3598||||0.3112|TWO_SIDED|95.0|0.7502|2.4648|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.4648|0.7502|0.3112
82617789|NCT04047121|164951079|SUPERIORITY|||||||0.409|||||||Chi-squared|||||||0.4090
82660170|NCT01597245|165037601|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82617790|NCT04047121|164951079|SUPERIORITY|||||||0.0249|||||||Chi-squared|||||||0.0249
82660171|NCT01597245|165037601|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660172|NCT01597245|165037601|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660173|NCT01597245|165037602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.005
82660174|NCT01597245|165037602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660175|NCT01597245|165037602|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660176|NCT01597245|165037603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660177|NCT01597245|165037603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660178|NCT01597245|165037603|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660179|NCT01597245|165037604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.008
82660180|NCT01597245|165037604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660181|NCT01597245|165037604|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660182|NCT01597245|165037605|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82660183|NCT01597245|165037605|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||||||<0.001
82660184|NCT01597245|165037606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660185|NCT01597245|165037606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660186|NCT01597245|165037606|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||<0.001
82660187|NCT01597245|165037607|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660188|NCT01597245|165037607|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660189|NCT01597245|165037607|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660190|NCT01597245|165037608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Mixed Models Analysis|||||||0.002
82660191|NCT01597245|165037608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660192|NCT01597245|165037608|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660193|NCT01597245|165037609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660194|NCT01597245|165037609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660195|NCT01597245|165037609|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660196|NCT01597245|165037610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82617791|NCT04047121|164951079|SUPERIORITY|||||||0.0103|||||||Chi-squared|||||||0.0103
82617792|NCT04047121|164951079|SUPERIORITY||Odds Ratio (OR)|1.1302||||0.5415|TWO_SIDED|95.0|0.763|1.6741|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6741|0.7630|0.5415
82660197|NCT01597245|165037610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660198|NCT01597245|165037610|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660199|NCT01597245|165037611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.15|TWO_SIDED||||||ANCOVA|||||||0.150
82660200|NCT01597245|165037611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
82660201|NCT01597245|165037611|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||||||<0.001
82660202|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.026
82660203|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.076|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.076
82660204|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY|||||||0.016|TWO_SIDED||||||ANCOVA|||Absenteeism Score||||0.016
82660205|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
82660206|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
82660207|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Activity Impairment Score||||<0.001
82660208|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
82660209|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
82660210|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Presenteeism Score||||<0.001
82617793|NCT04047121|164951079|SUPERIORITY||Odds Ratio (OR)|2.0118||||0.0596|TWO_SIDED|95.0|0.9722|4.1632|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.1632|0.9722|0.0596
82617794|NCT04047121|164951079|SUPERIORITY||Odds Ratio (OR)|3.4823||||0.0002|TWO_SIDED|95.0|1.793|6.7633|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.7633|1.7930|0.0002
82617795|NCT04047121|164951080|SUPERIORITY|||||||0.2361|||||||Chi-squared|||||||0.2361
82617796|NCT04047121|164951080|SUPERIORITY|||||||0.7474|||||||Chi-squared|||||||0.7474
82617797|NCT04047121|164951080|SUPERIORITY|||||||0.2118|||||||Chi-squared|||||||0.2118
82617798|NCT04047121|164951080|SUPERIORITY||Odds Ratio (OR)|1.3811||||0.1978|TWO_SIDED|95.0|0.8449|2.2576|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2576|0.8449|0.1978
82617799|NCT04047121|164951080|SUPERIORITY||Odds Ratio (OR)|1.0614||||0.8893|TWO_SIDED|95.0|0.4587|2.4559|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.4559|0.4587|0.8893
82617800|NCT04047121|164951080|SUPERIORITY||Odds Ratio (OR)|0.5811||||0.1553|TWO_SIDED|95.0|0.2748|1.2286|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2286|0.2748|0.1553
82617801|NCT04047121|164951081|SUPERIORITY|||||||0.6767|||||||Chi-squared|||||||0.6767
82617802|NCT04047121|164951081|SUPERIORITY|||||||0.1141|||||||Chi-squared|||||||0.1141
82617803|NCT04047121|164951081|SUPERIORITY|||||||0.1497|||||||Chi-squared|||||||0.1497
82617804|NCT04047121|164951081|SUPERIORITY||Odds Ratio (OR)|0.8556||||0.5228|TWO_SIDED|95.0|0.5303|1.3804|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.3804|0.5303|0.5228
82617805|NCT04047121|164951081|SUPERIORITY||Odds Ratio (OR)|2.5125||||0.0277|TWO_SIDED|95.0|1.1062|5.7063|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.7063|1.1062|0.0277
82617806|NCT04047121|164951081|SUPERIORITY||Odds Ratio (OR)|0.6993||||0.324|TWO_SIDED|95.0|0.3435|1.4236|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4236|0.3435|0.3240
82492739|NCT01594281|164678271|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.4||||0.0081|TWO_SIDED|95.0|-4.2|-0.6|||ANCOVA|||||-0.6|-4.2|0.0081
82617807|NCT04047121|164951082|SUPERIORITY|||||||0.6318|||||||t-test, 2 sided|||||||0.6318
82617808|NCT04047121|164951082|SUPERIORITY|||||||0.3802|||||||t-test, 2 sided|||||||0.3802
82492740|NCT01594281|164678271|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-0.3||||0.7494|TWO_SIDED|95.0|-2.0|1.5|||ANCOVA|||||1.5|-2.0|0.7494
82617809|NCT04047121|164951082|SUPERIORITY|||||||0.2424|||||||t-test, 2 sided|||||||0.2424
82617810|NCT04047121|164951082|SUPERIORITY||Odds Ratio (OR)|0.0347||||0.1753|TWO_SIDED|95.0|-0.0155|0.0848|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0848|-0.0155|0.1753
82617811|NCT04047121|164951082|SUPERIORITY||Odds Ratio (OR)|0.0194||||0.6114|TWO_SIDED|95.0|-0.0553|0.0941|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0941|-0.0553|0.6114
82617812|NCT04047121|164951082|SUPERIORITY||Odds Ratio (OR)|0.0345||||0.2977|TWO_SIDED|95.0|-0.0304|0.0993|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0993|-0.0304|0.2977
82617813|NCT04047121|164951083|SUPERIORITY|||||||0.1473|||||||t-test, 2 sided|||||||0.1473
82617814|NCT04047121|164951083|SUPERIORITY|||||||0.8747|||||||t-test, 2 sided|||||||0.8747
82617815|NCT04047121|164951083|SUPERIORITY|||||||0.5265|||||||t-test, 2 sided|||||||0.5265
82617816|NCT04047121|164951083|SUPERIORITY||Odds Ratio (OR)|-0.0457||||0.2522|TWO_SIDED|95.0|-0.1239|0.0325|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0325|-0.1239|0.2522
82617817|NCT04047121|164951083|SUPERIORITY||Odds Ratio (OR)|0.0278||||0.6701|TWO_SIDED|95.0|-0.1003|0.1559|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1559|-0.1003|0.6701
82617818|NCT04047121|164951083|SUPERIORITY||Odds Ratio (OR)|0.1693||||0.1017|TWO_SIDED|95.0|-0.0334|0.372|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3720|-0.0334|0.1017
82617819|NCT04047121|164951084|SUPERIORITY|||||||0.2246|||||||t-test, 2 sided|||||||0.2246
82617820|NCT04047121|164951084|SUPERIORITY|||||||0.2101|||||||t-test, 2 sided|||||||0.2101
82617821|NCT04047121|164951084|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||0.0030
82617822|NCT04047121|164951084|SUPERIORITY||Odds Ratio (OR)|0.414||||0.3324|TWO_SIDED|95.0|-0.4231|1.2511|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.2511|-0.4231|0.3324
82617823|NCT04047121|164951084|SUPERIORITY||Odds Ratio (OR)|1.1712||||0.1367|TWO_SIDED|95.0|-0.3713|2.7138|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.7138|-0.3713|0.1367
82617824|NCT04047121|164951084|SUPERIORITY||Odds Ratio (OR)|1.8099||||0.0028|TWO_SIDED|95.0|0.6219|2.9978|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.9978|0.6219|0.0028
82617825|NCT04047121|164951085|SUPERIORITY|||||||0.2667|||||||t-test, 2 sided|||||||0.2667
82617826|NCT04047121|164951085|SUPERIORITY|||||||0.657|||||||t-test, 2 sided|||||||0.6570
82617827|NCT04047121|164951085|SUPERIORITY|||||||0.5403|||||||t-test, 2 sided|||||||0.5403
82617828|NCT04047121|164951085|SUPERIORITY||Odds Ratio (OR)|0.9159||||0.1167|TWO_SIDED|95.0|-0.2283|2.06|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.0600|-0.2283|0.1167
82617829|NCT04047121|164951085|SUPERIORITY||Odds Ratio (OR)|-0.0336||||0.9722|TWO_SIDED|95.0|-1.9238|1.8567|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.8567|-1.9238|0.9722
82617830|NCT04047121|164951085|SUPERIORITY||Odds Ratio (OR)|0.2064||||0.8455|TWO_SIDED|95.0|-1.8689|2.2817|||Regression, Logistic|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.2817|-1.8689|0.8455
82617831|NCT04047121|164951086|SUPERIORITY|||||||0.3142|||||||t-test, 2 sided|||||||0.3142
82617832|NCT04047121|164951086|SUPERIORITY|||||||0.2465|||||||t-test, 2 sided|||||||0.2465
82617833|NCT04047121|164951086|SUPERIORITY|||||||0.5933|||||||t-test, 2 sided|||||||0.5933
82617834|NCT04047121|164951086|SUPERIORITY||Odds Ratio (OR)|-0.0089||||0.7815|TWO_SIDED|95.0|-0.0716|0.0538|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0538|-0.0716|0.7815
82617835|NCT04047121|164951086|SUPERIORITY||Odds Ratio (OR)|0.0337||||0.4446|TWO_SIDED|95.0|-0.0528|0.1202|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1202|-0.0528|0.4446
82617836|NCT04047121|164951086|SUPERIORITY||Odds Ratio (OR)|-0.0333||||0.4733|TWO_SIDED|95.0|-0.1243|0.0577|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0577|-0.1243|0.4733
82617837|NCT04047121|164951087|SUPERIORITY|||||||0.0658|||||||t-test, 2 sided|||||||0.0658
82492741|NCT01594281|164678271|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|2.1||||0.0175|TWO_SIDED|95.0|0.4|3.9|||ANCOVA|||||3.9|0.4|0.0175
82617838|NCT04047121|164951087|SUPERIORITY|||||||0.3785|||||||t-test, 2 sided|||||||0.3785
82492742|NCT01594281|164678272|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|5.5||||0.0495|TWO_SIDED|95.0|0.0|11.0|||ANCOVA|||||11.0|0.0|0.0495
82617839|NCT04047121|164951087|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
82617840|NCT04047121|164951087|SUPERIORITY||Odds Ratio (OR)|-0.0425||||0.2523|TWO_SIDED|95.0|-0.1154|0.0303|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0303|-0.1154|0.2523
82617841|NCT04047121|164951087|SUPERIORITY||Odds Ratio (OR)|-0.0388||||0.4068|TWO_SIDED|95.0|-0.1305|0.0529|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0529|-0.1305|0.4068
82617842|NCT04047121|164951087|SUPERIORITY||Odds Ratio (OR)|0.0706||||0.5858|TWO_SIDED|95.0|-0.1833|0.3244|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3244|-0.1833|0.5858
82617843|NCT04047121|164951088|SUPERIORITY|||||||0.3832|||||||t-test, 2 sided|||||||0.3832
82617844|NCT04047121|164951088|SUPERIORITY|||||||0.4631|||||||t-test, 2 sided|||||||0.4631
82617845|NCT04047121|164951088|SUPERIORITY|||||||0.6202|||||||t-test, 2 sided|||||||0.6202
82617846|NCT04047121|164951088|SUPERIORITY||Odds Ratio (OR)|-0.5353||||0.3158|TWO_SIDED|95.0|-1.5812|0.5107|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.5107|-1.5812|0.3158
82617847|NCT04047121|164951088|SUPERIORITY||Odds Ratio (OR)|1.3543||||0.1016|TWO_SIDED|95.0|-0.2669|2.9755|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.9755|-0.2669|0.1016
82660211|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
82660212|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
82617848|NCT04047121|164951088|SUPERIORITY||Odds Ratio (OR)|0.8677||||0.2576|TWO_SIDED|95.0|-0.6347|2.37|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3700|-0.6347|0.2576
82617849|NCT04047121|164951089|SUPERIORITY|||||||0.3107|||||||t-test, 2 sided|||||||0.3107
82617850|NCT04047121|164951089|SUPERIORITY|||||||0.3735|||||||t-test, 2 sided|||||||0.3735
82617851|NCT04047121|164951089|SUPERIORITY|||||||0.3863|||||||t-test, 2 sided|||||||0.3863
82617852|NCT04047121|164951089|SUPERIORITY||Odds Ratio (OR)|-1.0337||||0.1918|TWO_SIDED|95.0|-2.5858|0.5184|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.5184|-2.5858|0.1918
82617853|NCT04047121|164951089|SUPERIORITY||Odds Ratio (OR)|-0.9749||||0.4281|TWO_SIDED|95.0|-3.3864|1.4366|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4366|-3.3864|0.4281
82617854|NCT04047121|164951089|SUPERIORITY||Odds Ratio (OR)|-1.8599||||0.1014|TWO_SIDED|95.0|-4.0854|0.3657|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.3657|-4.0854|0.1014
82617855|NCT04047121|164951090|SUPERIORITY|||||||0.4555|||||||t-test, 2 sided|||||||0.4555
82617856|NCT04047121|164951090|SUPERIORITY|||||||0.7164|||||||t-test, 2 sided|||||||0.7164
82617857|NCT04047121|164951090|SUPERIORITY|||||||0.2456|||||||t-test, 2 sided|||||||0.2456
82617858|NCT04047121|164951090|SUPERIORITY||Odds Ratio (OR)|0.0568||||0.0962|TWO_SIDED|95.0|-0.0101|0.1238|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1238|-0.0101|0.0962
82617859|NCT04047121|164951090|SUPERIORITY||Odds Ratio (OR)|-0.0432||||0.3844|TWO_SIDED|95.0|-0.1405|0.0541|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0541|-0.1405|0.3844
82617860|NCT04047121|164951090|SUPERIORITY||Odds Ratio (OR)|0.0233||||0.5899|TWO_SIDED|95.0|-0.0615|0.1082|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1082|-0.0615|0.5899
82617861|NCT04047121|164951091|SUPERIORITY|||||||0.4133|||||||t-test, 2 sided|||||||0.4133
82617862|NCT04047121|164951091|SUPERIORITY|||||||0.7171|||||||t-test, 2 sided|||||||0.7171
82617863|NCT04047121|164951091|SUPERIORITY|||||||0.8609|||||||t-test, 2 sided|||||||0.8609
82617864|NCT04047121|164951091|SUPERIORITY||Odds Ratio (OR)|-0.0445||||0.6224|TWO_SIDED|95.0|-0.2218|0.1327|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1327|-0.2218|0.6224
82617865|NCT04047121|164951091|SUPERIORITY||Odds Ratio (OR)|-0.0884||||0.5655|TWO_SIDED|95.0|-0.39|0.2132|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.2132|-0.3900|0.5655
82617866|NCT04047121|164951091|SUPERIORITY||Odds Ratio (OR)|0.1809||||0.4044|TWO_SIDED|95.0|-0.2444|0.6062|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.6062|-0.2444|0.4044
82617867|NCT04047121|164951092|SUPERIORITY|||||||0.0104|||||||t-test, 2 sided|||||||0.0104
82617868|NCT04047121|164951092|SUPERIORITY|||||||0.5949|||||||t-test, 2 sided|||||||0.5949
82617869|NCT04047121|164951092|SUPERIORITY|||||||0.0801|||||||t-test, 2 sided|||||||0.0801
82617870|NCT04047121|164951092|SUPERIORITY||Odds Ratio (OR)|-3.7075||||0.0072|TWO_SIDED|95.0|-6.411|-1.004|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||-1.0040|-6.4110|0.0072
82617871|NCT04047121|164951092|SUPERIORITY||Odds Ratio (OR)|-1.4296||||0.5406|TWO_SIDED|95.0|-6.008|3.1489|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.1489|-6.0080|0.5406
82617872|NCT04047121|164951092|SUPERIORITY||Odds Ratio (OR)|-0.3527||||0.8603|TWO_SIDED|95.0|-4.279|3.5737|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.5737|-4.2790|0.8603
82617873|NCT04047121|164951093|SUPERIORITY|||||||0.6344|||||||t-test, 2 sided|||||||0.6344
82617874|NCT04047121|164951093|SUPERIORITY|||||||0.3037|||||||t-test, 2 sided|||||||0.3037
82617875|NCT04047121|164951093|SUPERIORITY|||||||0.1344|||||||t-test, 2 sided|||||||0.1344
82617876|NCT04047121|164951093|SUPERIORITY||Odds Ratio (OR)|1.2586||||0.5092|TWO_SIDED|95.0|-2.4787|4.9958|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||4.9958|-2.4787|0.5092
82617877|NCT04047121|164951093|SUPERIORITY||Odds Ratio (OR)|-0.7696||||0.8047|TWO_SIDED|95.0|-6.8683|5.3292|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.3292|-6.8683|0.8047
82660213|NCT01597245|165037612|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Work Productivity Loss Score||||<0.001
82617878|NCT04047121|164951093|SUPERIORITY||Odds Ratio (OR)|0.094||||0.9757|TWO_SIDED|95.0|-5.9628|6.1507|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.1507|-5.9628|0.9757
82617879|NCT04047121|164951094|SUPERIORITY|||||||0.0839|||||||t-test, 2 sided|||||||0.0839
82617880|NCT04047121|164951094|SUPERIORITY|||||||0.9577|||||||t-test, 2 sided|||||||0.9577
82617881|NCT04047121|164951094|SUPERIORITY|||||||0.9497|||||||t-test, 2 sided|||||||0.9497
82617882|NCT04047121|164951094|SUPERIORITY||Odds Ratio (OR)|-0.031||||0.4873|TWO_SIDED|95.0|-0.1185|0.0565|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0565|-0.1185|0.4873
82617883|NCT04047121|164951094|SUPERIORITY||Odds Ratio (OR)|-0.0312||||0.678|TWO_SIDED|95.0|-0.1783|0.1159|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.1159|-0.1783|0.6780
82617884|NCT04047121|164951094|SUPERIORITY||Odds Ratio (OR)|0.0099||||0.9327|TWO_SIDED|95.0|-0.2207|0.2406|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.2406|-0.2207|0.9327
82617885|NCT04047121|164951095|SUPERIORITY|||||||0.0021|||||||t-test, 2 sided|||||||0.0021
82617886|NCT04047121|164951095|SUPERIORITY|||||||0.5396|||||||t-test, 2 sided|||||||0.5396
82617887|NCT04047121|164951095|SUPERIORITY|||||||0.6121|||||||t-test, 2 sided|||||||0.6121
82492743|NCT01594281|164678272|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|3.0||||0.2767|TWO_SIDED|95.0|-2.5|8.5|||ANCOVA|||||8.5|-2.5|0.2767
82492744|NCT01594281|164678272|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-2.5||||0.3641|TWO_SIDED|95.0|-7.9|2.9|||ANCOVA|||||2.9|-7.9|0.3641
82617888|NCT04047121|164951095|SUPERIORITY||Odds Ratio (OR)|-0.1895||||0.0303|TWO_SIDED|95.0|-0.361|-0.0181|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||-0.0181|-0.3610|0.0303
82617889|NCT04047121|164951095|SUPERIORITY||Odds Ratio (OR)|-0.1901||||0.1807|TWO_SIDED|95.0|-0.4685|0.0883|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.0883|-0.4685|0.1807
82617890|NCT04047121|164951095|SUPERIORITY||Odds Ratio (OR)|0.1594||||0.7445|TWO_SIDED|95.0|-0.7991|1.1178|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1178|-0.7991|0.7445
82617891|NCT04047121|164951096|SUPERIORITY|||||||0.0035|||||||t-test, 2 sided|||||||0.0035
82617892|NCT04047121|164951096|SUPERIORITY|||||||0.504|||||||t-test, 2 sided|||||||0.5040
82617893|NCT04047121|164951096|SUPERIORITY|||||||0.1366|||||||t-test, 2 sided|||||||0.1366
82492745|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.47||||0.4019|TWO_SIDED|95.0|0.08|2.749|||Regression, Logistic|||≥10 letters gain||2.749|0.080|0.4019
82617894|NCT04047121|164951096|SUPERIORITY||Odds Ratio (OR)|-3.4084||||0.082|TWO_SIDED|95.0|-7.2497|0.433|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.4330|-7.2497|0.0820
82617895|NCT04047121|164951096|SUPERIORITY||Odds Ratio (OR)|-1.5342||||0.5845|TWO_SIDED|95.0|-7.0336|3.9652|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||3.9652|-7.0336|0.5845
82617896|NCT04047121|164951096|SUPERIORITY||Odds Ratio (OR)|0.987||||0.7284|TWO_SIDED|95.0|-4.583|6.557|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||6.5570|-4.5830|0.7284
82617897|NCT04047121|164951097|SUPERIORITY|||||||0.1125|||||||t-test, 2 sided|||||||0.1125
82617898|NCT04047121|164951097|SUPERIORITY|||||||0.7156|||||||t-test, 2 sided|||||||0.7156
82617899|NCT04047121|164951097|SUPERIORITY|||||||0.2056|||||||t-test, 2 sided|||||||0.2056
82617900|NCT04047121|164951097|SUPERIORITY||Odds Ratio (OR)|-1.8061||||0.4288|TWO_SIDED|95.0|-6.2797|2.6675|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.6675|-6.2797|0.4288
82617901|NCT04047121|164951097|SUPERIORITY||Odds Ratio (OR)|-1.6946||||0.6303|TWO_SIDED|95.0|-8.5962|5.2069|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.2069|-8.5962|0.6303
82617902|NCT04047121|164951097|SUPERIORITY||Odds Ratio (OR)|-0.9873||||0.7477|TWO_SIDED|95.0|-7.0028|5.0281|||Regression, Linear|||To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||5.0281|-7.0028|0.7477
82617903|NCT04047121|164951098|SUPERIORITY|||||||0.3919|||||||t-test, 2 sided|||||||0.3919
82617904|NCT04047121|164951098|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82617905|NCT04047121|164951098|SUPERIORITY|||||||0.0193|||||||t-test, 2 sided|||||||0.0193
82617906|NCT04047121|164951098|SUPERIORITY||Cost Ratio|1.2232||||0.057|TWO_SIDED|95.0|0.994|1.5053|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a generalized linear model (GLM). Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.5053|0.9940|0.0570
82617907|NCT04047121|164951098|SUPERIORITY||Cost Ratio|1.8479|||<|0.0001|TWO_SIDED|95.0|1.4378|2.3749|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||2.3749|1.4378|<0.0001
82617908|NCT04047121|164951098|SUPERIORITY||Cost Ratio|1.1868||||0.0924|TWO_SIDED|95.0|0.9722|1.4487|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.4487|0.9722|0.0924
82617909|NCT04047121|164951099|SUPERIORITY|||||||0.6184|||||||t-test, 2 sided|||||||0.6184
82617910|NCT04047121|164951099|SUPERIORITY|||||||0.1952|||||||t-test, 2 sided|||||||0.1952
82617911|NCT04047121|164951099|SUPERIORITY|||||||0.1638|||||||t-test, 2 sided|||||||0.1638
82617912|NCT04047121|164951099|SUPERIORITY||Cost Ratio|0.9773||||0.6732|TWO_SIDED|95.0|0.8782|1.0875|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0875|0.8782|0.6732
82617913|NCT04047121|164951099|SUPERIORITY||Cost Ratio|0.9629||||0.6345|TWO_SIDED|95.0|0.824|1.1253|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1253|0.8240|0.6345
82617914|NCT04047121|164951099|SUPERIORITY||Cost Ratio|0.8327||||0.0029|TWO_SIDED|95.0|0.738|0.9395|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.9395|0.7380|0.0029
82617915|NCT04047121|164951100|SUPERIORITY|||||||0.3087|||||||t-test, 2 sided|||||||0.3087
82617916|NCT04047121|164951100|SUPERIORITY|||||||0.0003|||||||t-test, 2 sided|||||||0.0003
82492746|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.833||||0.2772|TWO_SIDED|95.0|0.614|5.471|||Regression, Logistic|||≥5 letters gain||5.471|0.614|0.2772
82617917|NCT04047121|164951100|SUPERIORITY|||||||0.0647|||||||t-test, 2 sided|||||||0.0647
82617918|NCT04047121|164951100|SUPERIORITY||Cost Ratio|0.9762||||0.7684|TWO_SIDED|95.0|0.8316|1.146|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1460|0.8316|0.7684
82617919|NCT04047121|164951100|SUPERIORITY||Cost Ratio|1.3862||||0.0012|TWO_SIDED|95.0|1.1379|1.6886|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.6886|1.1379|0.0012
82492747|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.412||||0.4731|TWO_SIDED|95.0|0.55|3.622|||Regression, Logistic|||No clinically relevant change||3.622|0.55|0.4731
82617920|NCT04047121|164951100|SUPERIORITY||Cost Ratio|1.0065||||0.9422|TWO_SIDED|95.0|0.8452|1.1985|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.1985|0.8452|0.9422
82617921|NCT04047121|164951101|SUPERIORITY|||||||0.0421|||||||t-test, 2 sided|||||||0.0421
82617922|NCT04047121|164951101|SUPERIORITY|||||||0.8137|||||||t-test, 2 sided|||||||0.8137
82617923|NCT04047121|164951101|SUPERIORITY|||||||0.9416|||||||t-test, 2 sided|||||||0.9416
82617924|NCT04047121|164951101|SUPERIORITY||Cost Ratio|0.9515||||0.319|TWO_SIDED|95.0|0.8628|1.0493|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0493|0.8628|0.3190
82617925|NCT04047121|164951101|SUPERIORITY||Cost Ratio|0.8991||||0.1368|TWO_SIDED|95.0|0.7815|1.0343|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||1.0343|0.7815|0.1368
82492748|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.35||||0.065|TWO_SIDED|95.0|0.155|1.068|||Regression, Logistic|||≥5 letters loss||1.068|0.155|0.065
82492749|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.0||||1|TWO_SIDED|95.0|0.229|4.361|||Regression, Logistic|||≥10 letters loss||4.361|0.229|1.000
82617926|NCT04047121|164951101|SUPERIORITY||Cost Ratio|0.8514||||0.0231|TWO_SIDED|95.0|0.7411|0.9782|||Regression, Linear||Since health care costs were skewed, hence estimated cost was modeled using a GLM. Coefficients from a generalized linear model were estimated as cost ratios.|To control and remove the possible influence of the independent variables (like treatment cohort, demographic and clinical characteristics of interest, etc. and clinical judgement) on the outcome measure, multivariable analysis was performed.||0.9782|0.7411|0.0231
82617927|NCT02922634|164951110|SUPERIORITY|||||||0.508|||||||Wilcoxon (Mann-Whitney)|||||||0.508
82617928|NCT02922634|164951111|SUPERIORITY|||||||0.72||||||The chi-squared test for both males and females with and without delirium.|Chi-squared|||||||0.720
82617929|NCT02922634|164951112|SUPERIORITY|||||||0.025|||||||Wilcoxon (Mann-Whitney)|||||||0.025
82617930|NCT02922634|164951113|SUPERIORITY|||||||0.48|||||||Chi-squared|||||||0.480
82617931|NCT02922634|164951114|SUPERIORITY|||||||0.028|||||||Chi-squared|||||||0.028
82617932|NCT02922634|164951115|SUPERIORITY|||||||0.007|||||||Chi-squared|||||||0.007
82617933|NCT02922634|164951116|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82617934|NCT02922634|164951117|SUPERIORITY|||||||0.01|||||||Chi-squared|||||||0.01
82617935|NCT02922634|164951118|SUPERIORITY|||||||0.101|||||||Chi-squared|||||||0.101
82617936|NCT02922634|164951119|SUPERIORITY|||||||0.192|||||||Chi-squared|||||||0.192
82617937|NCT02922634|164951120|SUPERIORITY|||||||0.2|||||||Chi-squared|||||||0.200
82617938|NCT02922634|164951121|SUPERIORITY|||||||0.333|||||||Wilcoxon (Mann-Whitney)|||||||0.333
82617939|NCT02922634|164951122|SUPERIORITY|||||||0.001||||||This is a chi-squared test between the FRAIL categories for participants with or without delirium.|Chi-squared|||||||0.001
82617940|NCT02922634|164951123|SUPERIORITY|||||||0.002||||||This is a chi-squared test of the categories for levels of invasiveness for participants with or without delirium.|Chi-squared|||||||0.002
82617941|NCT01194804|164951126|OTHER||||||<|0.001|||||||Sign test|||||||<0.001
82492750|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.314||||0.3261|TWO_SIDED|95.0|0.031|3.173|||Regression, Logistic|||≥15 letters loss||3.173|0.031|0.3261
82617942|NCT01716533|164951191|SUPERIORITY||GMC ratio|1.53||||0.5746|TWO_SIDED|95.0|0.33|7.14||P-value = two-sided p-value for HO: GMC ratio = 1 (ANOVA model, T-test), groups considered as statistically significant different if the two-sided p-value is below 0.05.|ANOVA|ANOVA model -pooled variance.|GMC ratio = GMC Sustained response Group /GMC Recurrence Group.|ELISA anti-toxin B antibody concentrations at Day 14 were compared between the Sustained response Group and Recurrence Group by using a one-way analysis of variance (ANOVA) model on the log-transformed concentration.||7.14|0.33|0.5746
82617943|NCT01716533|164951192|SUPERIORITY|ANOVA model -pooled variance.|GMC ratio|1.65||||0.7124|TWO_SIDED|95.0|0.1|26.41||P-value = two-sided p-value for HO: GMC ratio = 1, groups considered as statistically significant different if the two-sided p-value is below 0.05.|ANOVA||GMC ratio = GMC Sustained response Group /GMC Recurrence Group.|Serum F2 C-terminal anti-toxin B antibody concentrations at Day 14 were compared between the Sustained response Group and Recurrence Group by using a one-way analysis of variance (ANOVA) model on the log-transformed concentration.||26.41|0.10|0.7124
82617944|NCT02320695|164951203|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.12||0.187|TWO_SIDED|95.0|-0.33|0.05|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.05|-0.33|0.187
82617945|NCT02320695|164951203|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.101|TWO_SIDED|95.0|-0.42|0.04|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.04|-0.42|0.101
82617946|NCT02320695|164951203|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.28|STANDARD_ERROR_OF_MEAN|0.12||0.002|TWO_SIDED|95.0|-0.49|-0.1|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.10|-0.49|0.002
82617947|NCT02320695|164951203|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.31|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.53|-0.12|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.12|-0.53|<0.001
82660214|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
82492751|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.667||||0.668|TWO_SIDED|95.0|0.104|4.253|||Regression, Logistic|||≥10 letters gain||4.253|0.104|0.6680
82617948|NCT02320695|164951204|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.29|STANDARD_ERROR_OF_MEAN|0.12||0.023|TWO_SIDED|95.0|-0.54|-0.05|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.05|-0.54|0.023
82617949|NCT02320695|164951204|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.12||0.522|TWO_SIDED|95.0|-0.32|0.2|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||0.20|-0.32|0.522
82617950|NCT02320695|164951204|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|-0.67|-0.16|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.16|-0.67|<0.001
82617951|NCT02320695|164951204|NON_INFERIORITY_OR_EQUIVALENCE|"For the purpose of showing equivalent stinging of investigational product to saline, the hypothesis was set up as: Ho: μ1 - μ2 ≥ D vs HA: μ1 - μ2 \< D where D was the non-inferiority margin. Equivalent stinging of investigational product to saline was claimed if the upper limit of the two-sided 95% confidence interval of (investigational product - saline) was less than 0.5."|Mean Difference (Net)|-0.34|STANDARD_ERROR_OF_MEAN|0.12||0.013|TWO_SIDED|95.0|-0.63|-0.07|||ANCOVA|Terms included treatment as factor, post tape-stripping score as covariate and subject as random effect to incorporate within-subject correlations.||||-0.07|-0.63|0.013
82617952|NCT00165841|164951224|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value was adjusted for multiple comparisons.|t-test, 2 sided|The primary analysis was on the ITT population using all observed data collected from Day 1 of the maintenance phase until the endpoint.||Efficacy analyses were based on the intent-to-treat (ITT) population, which was comprised of all patients in the safety-evaluable population who had a baseline and ≥1 post-randomization primary efficacy endpoint evaluation and who had received ≥1 dose of study medication during the maintenance phase.||||<0.0001
82617953|NCT00797797|164951227|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||The responder rates between 'No Treatment Added' and 'Milnacipran Added' groups were compared using a logistic regression model.||||<0.001
82617954|NCT00797797|164951228|SUPERIORITY_OR_OTHER||Least Square Mean Difference|-14.35|||||TWO_SIDED|95.0|-18.99|-9.71|||ANCOVA|||This parameter was analyzed using an ANCOVA model with treatment group and study center as factors and baseline value as a covariate.||-9.71|-18.99|
82617955|NCT03446651|164951245|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||||||0.56
82617956|NCT03446651|164951247|SUPERIORITY|||||||0.039|||||||t-test, 2 sided|||||||0.039
82617957|NCT03446651|164951249|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82617958|NCT03446651|164951250|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82617959|NCT00960934|164951272|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.56||||0.749|TWO_SIDED|95.0|-1.04|2.16||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.16|-1.04|0.749
82617960|NCT00960934|164951272|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.12||||0.333|TWO_SIDED|95.0|-0.6|2.83||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.83|-0.60|0.333
82617961|NCT00960934|164951272|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.35||||0.823|TWO_SIDED|95.0|-1.14|1.84||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.84|-1.14|0.823
82617962|NCT00960934|164951272|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.93||||0.457|TWO_SIDED|95.0|-0.75|2.61||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.61|-0.75|0.457
82617963|NCT00960934|164951272|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.823|TWO_SIDED|95.0|-1.17|1.5||The Type-I error rate over the multiple treatment dose comparisons for the areal BMD at lumbar spine endpoint were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.50|-1.17|0.823
82617964|NCT00960934|164951273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|69.8|||<|0.001||95.0|56.5|80.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||80.0|56.5|<0.001
82660215|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
82660216|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Physical Summary Score||||<0.001
82617965|NCT00960934|164951273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|53.1|||<|0.001|TWO_SIDED|95.0|39.6|65.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||65.2|39.6|<0.001
82617966|NCT00960934|164951273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.6|||<|0.001|TWO_SIDED|95.0|17.6|42.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||42.4|17.6|<0.001
82617967|NCT00960934|164951273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.1|||<|0.001|TWO_SIDED|95.0|17.0|42.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||42.0|17.0|<0.001
82617968|NCT00960934|164951273|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.6||||0.254|TWO_SIDED|95.0|-4.1|14.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||14.4|-4.1|0.254
82617969|NCT00960934|164951274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|47.6|||<|0.001|TWO_SIDED|95.0|34.9|60.0|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||60.0|34.9|<0.001
82617970|NCT00960934|164951274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.9|||<|0.001|TWO_SIDED|95.0|24.1|48.5|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||48.5|24.1|<0.001
82617971|NCT00960934|164951274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.2||||0.001|TWO_SIDED|95.0|7.7|28.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||28.7|7.7|0.001
82617972|NCT00960934|164951274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.1||||0.05|TWO_SIDED|95.0|0.0|18.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||18.2|-0.0|0.050
82617973|NCT00960934|164951274|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6||||0.313|TWO_SIDED|95.0|-8.5|4.2|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||4.2|-8.5|0.313
82617974|NCT00960934|164951275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.8|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.8|-5.8|>0.999
82617975|NCT00960934|164951275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.7|-5.8|>0.999
82617976|NCT00960934|164951275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|||>|0.999|TWO_SIDED|95.0|-5.8|5.7|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||5.7|-5.8|>0.999
82617977|NCT00960934|164951275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.313|TWO_SIDED|95.0|-4.2|8.6|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||8.6|-4.2|0.313
82617978|NCT00960934|164951275|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.6||||0.321|TWO_SIDED|95.0|-4.3|8.4|||Miettinen and Nurminen Method|||The Miettinen and Nurminen Method was used to estimate the treatment differences between the active dose group and the placebo group by comparing the percentage of participants in the active dose group with the event vs. the percentage of participants in the placebo group with the event. An associated p-value and 95% confidence interval were calculated for this difference.||8.4|-4.3|0.321
82660217|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
82617979|NCT00960934|164951277|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.24||||0.959|TWO_SIDED|95.0|-1.03|1.51||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.51|-1.03|0.959
82617980|NCT00960934|164951277|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.02||||0.971|TWO_SIDED|95.0|-1.08|1.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.04|-1.08|0.971
82617981|NCT00960934|164951277|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.24||||0.959|TWO_SIDED|95.0|-0.95|1.42||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.42|-0.95|0.959
82617982|NCT00960934|164951277|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.41||||0.915|TWO_SIDED|95.0|-1.78|0.97||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.97|-1.78|0.915
82617983|NCT00960934|164951277|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.28||||0.959|TWO_SIDED|95.0|-1.6|1.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.04|-1.60|0.959
82617984|NCT00960934|164951278|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.58||||0.849|TWO_SIDED|95.0|-1.22|2.37||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.37|-1.22|0.849
82617985|NCT00960934|164951278|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.16||||0.964|TWO_SIDED|95.0|-1.79|1.47||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.47|-1.79|0.964
82617986|NCT00960934|164951278|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.964|TWO_SIDED|95.0|-1.27|1.59||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.59|-1.27|0.964
82617987|NCT00960934|164951278|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.48||||0.855|TWO_SIDED|95.0|-2.23|1.27||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.27|-2.23|0.855
82617988|NCT00960934|164951278|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.27||||0.287|TWO_SIDED|95.0|-0.58|3.12||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.12|-0.58|0.287
82617989|NCT00960934|164951279|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.6||||0.933|TWO_SIDED|95.0|-1.56|2.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.77|-1.56|0.933
82617990|NCT00960934|164951279|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.01||||0.999|TWO_SIDED|95.0|-1.69|1.68||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.68|-1.69|0.999
82617991|NCT00960934|164951279|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.05||||0.999|TWO_SIDED|95.0|-1.84|1.93||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.93|-1.84|0.999
82617992|NCT00960934|164951279|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.45||||0.959|TWO_SIDED|95.0|-1.67|2.57||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.57|-1.67|0.959
82617993|NCT00960934|164951279|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.08||||0.999|TWO_SIDED|95.0|-2.1|1.94||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.94|-2.10|0.999
82660218|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
82617994|NCT00960934|164951280|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.17||||0.976|TWO_SIDED|95.0|-1.12|0.77||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.77|-1.12|0.976
82660219|NCT01597245|165037613|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||ANCOVA|||Mental Summary Score||||<0.001
82660220|NCT01597245|165037614|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660221|NCT01597245|165037614|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660222|NCT01597245|165037614|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82660223|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
82660224|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
82660225|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 50||||<0.001
82660226|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
82660227|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
82617995|NCT00960934|164951280|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.06||||0.982|TWO_SIDED|95.0|-0.93|0.8||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.80|-0.93|0.982
82617996|NCT00960934|164951280|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.53||||0.489|TWO_SIDED|95.0|-0.43|1.49||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.49|-0.43|0.489
82617997|NCT00960934|164951280|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.02||||0.982|TWO_SIDED|95.0|-0.75|0.78||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||0.78|-0.75|0.982
82617998|NCT00960934|164951280|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.16||||0.976|TWO_SIDED|95.0|-0.76|1.08||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.08|-0.76|0.976
82617999|NCT00960934|164951281|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.35||||0.961|TWO_SIDED|95.0|-2.0|1.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.31|-2.00|0.961
82618000|NCT00960934|164951281|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.28||||0.961|TWO_SIDED|95.0|-1.9|1.34||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.34|-1.90|0.961
82618001|NCT00960934|164951281|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.66||||0.778|TWO_SIDED|95.0|-1.01|2.33||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.33|-1.01|0.778
82618002|NCT00960934|164951281|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.11||||0.961|TWO_SIDED|95.0|-1.45|1.24||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.24|-1.45|0.961
82618003|NCT00960934|164951281|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.25||||0.961|TWO_SIDED|95.0|-1.77|1.26||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.26|-1.77|0.961
82618004|NCT00960934|164951282|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.43||||0.901|TWO_SIDED|95.0|-2.03|1.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.17|-2.03|0.901
82618005|NCT00960934|164951282|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.51||||0.901|TWO_SIDED|95.0|-2.18|1.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.17|-2.18|0.901
82618006|NCT00960934|164951282|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.52||||0.901|TWO_SIDED|95.0|-2.17|1.13||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.13|-2.17|0.901
82618007|NCT00960934|164951282|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.03||||0.997|TWO_SIDED|95.0|-1.29|1.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.35|-1.29|0.997
82618008|NCT00960934|164951282|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.04||||0.997|TWO_SIDED|95.0|-1.51|1.43||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.43|-1.51|0.997
82618009|NCT00960934|164951283|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.37||||0.979|TWO_SIDED|95.0|-2.73|1.99||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||1.99|-2.73|0.979
82618010|NCT00960934|164951283|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|1.92||||0.363|TWO_SIDED|95.0|-1.1|4.95||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||4.95|-1.10|0.363
82618011|NCT00960934|164951283|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.4||||0.979|TWO_SIDED|95.0|-2.18|2.98||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.98|-2.18|0.979
82618012|NCT00960934|164951283|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.49||||0.979|TWO_SIDED|95.0|-3.27|2.3||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||2.30|-3.27|0.979
82618013|NCT00960934|164951283|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|0.51||||0.979|TWO_SIDED|95.0|-2.34|3.37||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||3.37|-2.34|0.979
82618014|NCT00960934|164951284|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|19.77||||0.02|TWO_SIDED|95.0|2.26|37.46||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||37.46|2.26|0.020
82618015|NCT00960934|164951284|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|10.08||||0.357|TWO_SIDED|95.0|-6.16|26.41||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||26.41|-6.16|0.357
82618016|NCT00960934|164951284|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-2.83||||0.642|TWO_SIDED|95.0|-14.81|9.14||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||9.14|-14.81|0.642
82618017|NCT00960934|164951284|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.44||||0.434|TWO_SIDED|95.0|-7.09|24.04||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||24.04|-7.09|0.434
82618018|NCT00960934|164951284|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|5.72||||0.579||95.0|-8.62|20.1||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||20.10|-8.62|0.579
82618019|NCT00960934|164951285|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|34.26|||<|0.001|TWO_SIDED|95.0|15.27|53.56||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||53.56|15.27|<0.001
82618020|NCT00960934|164951285|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|20.57||||0.014|TWO_SIDED|95.0|3.28|38.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||38.02|3.28|0.014
82618021|NCT00960934|164951285|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|9.97||||0.307|TWO_SIDED|95.0|-5.69|25.7||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||25.70|-5.69|0.307
82618022|NCT00960934|164951285|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|9.02||||0.307|TWO_SIDED|95.0|-5.85|23.95||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||23.95|-5.85|0.307
82618023|NCT00960934|164951285|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|-0.5||||0.937|TWO_SIDED|95.0|-12.92|11.92||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||11.92|-12.92|0.937
82618024|NCT00960934|164951286|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|19.19|||<|0.001|TWO_SIDED|95.0|7.42|31.02||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||31.02|7.42|<0.001
82618025|NCT00960934|164951286|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|23.38|||<|0.001|TWO_SIDED|95.0|11.02|35.82||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||35.82|11.02|<0.001
82618026|NCT00960934|164951286|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|10.45||||0.061|TWO_SIDED|95.0|-0.37|21.3||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||21.30|-0.37|0.061
82618027|NCT00960934|164951286|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|6.31||||0.283|TWO_SIDED|95.0|-3.81|16.45||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||16.45|-3.81|0.283
82618028|NCT00960934|164951286|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|5.46||||0.283|TWO_SIDED|95.0|-3.39|14.31||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||14.31|-3.39|0.283
82618029|NCT00960934|164951287|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|56.77|||<|0.001|TWO_SIDED|95.0|37.62|76.35||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||76.35|37.62|<.001
82618030|NCT00960934|164951287|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|39.66|||<|0.001|TWO_SIDED|95.0|22.44|57.17||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||57.17|22.44|<.001
82618031|NCT00960934|164951287|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|20.68||||0.003|TWO_SIDED|95.0|5.72|35.78||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||35.78|5.72|0.003
82618032|NCT00960934|164951287|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.59||||0.265|TWO_SIDED|95.0|-4.81|22.05||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||22.05|-4.81|0.265
82618033|NCT00960934|164951287|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|8.39||||0.265|TWO_SIDED|95.0|-3.4|20.21||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis|||||20.21|-3.40|0.265
82618034|NCT00960934|164951288|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|53.05|||<|0.001|TWO_SIDED|95.0|37.83|68.53||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||68.53|37.83|<0.001
82618035|NCT00960934|164951288|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|41.41|||<|0.001|TWO_SIDED|95.0|27.36|55.65||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||55.65|27.36|<0.001
82618036|NCT00960934|164951288|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|24.81|||<|0.001|TWO_SIDED|95.0|12.39|37.33||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||37.33|12.39|<0.001
82618037|NCT00960934|164951288|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|12.87||||0.02|TWO_SIDED|95.0|1.73|24.06||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||24.06|1.73|0.020
82618038|NCT00960934|164951288|SUPERIORITY_OR_OTHER||LS Mean Difference in Change From BL|4.02||||0.397|TWO_SIDED|95.0|-5.31|13.36||The Type-I error rate over the multiple treatment dose comparisons were controlled by step-down Dunnett's test at the primary time point of Month 6, at an alpha level of 0.05, two-sided.|Longitudinal Data Analysis Model|||||13.36|-5.31|0.397
82618039|NCT00401622|164951306|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.56|STANDARD_ERROR_OF_MEAN|7.51||0.31|TWO_SIDED|95.0|-7.24|22.36|||t-test, 2 sided|||||22.36|-7.24|0.31
82618040|NCT00401622|164951307|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.11||0.45|TWO_SIDED|95.0|-0.38|0.04|||ANCOVA|Visit 1 A1c measurement used as the covariate||Change in A1C from baseline to week 52 between the OneTouch® Ultra®2 and control BGMS||0.04|-0.38|0.45
82618041|NCT00782418|164951320|SUPERIORITY_OR_OTHER||Least Squares Mean|1.6|||<|0.001||90.0|1.29|1.92||1-sided, alpha=0.05|ANOVA|||||1.92|1.29|<0.001
82618042|NCT00782418|164951320|SUPERIORITY_OR_OTHER||Least Squares Mean|0.95|||<|0.001||90.0|0.66|1.24|||ANOVA|1-sided, alpha=0.05||||1.24|0.66|<0.001
82618043|NCT00782418|164951320|SUPERIORITY_OR_OTHER||Least Squares Mean|2.32|||<|0.001||90.0|1.57|3.06|||ANOVA|1-sided, alpha=0.05||||3.06|1.57|<0.001
82618044|NCT00782418|164951320|SUPERIORITY_OR_OTHER||Least Squares Mean|1.38|||<|0.001||90.0|0.64|2.12|||ANOVA|1-sided, alpha = 0.05||||2.12|0.64|<0.001
82618045|NCT00782418|164951321|SUPERIORITY_OR_OTHER||Least Squares Mean|23.1|||<|0.001||90.0|19.2|27.0|||ANOVA|1-side, alpha = 0.05||||27.0|19.2|<0.001
82618046|NCT00782418|164951321|SUPERIORITY_OR_OTHER||Least Squares Mean|16.4|||<|0.001||90.0|12.6|20.1|||ANOVA|1-side, alpha = 0.05||||20.1|12.6|<0.001
82618047|NCT00782418|164951322|SUPERIORITY_OR_OTHER||Least Squares Mean|545.0|||<|0.001||90.0|451.4|638.7|||ANOVA|1-side, alpha = 0.05||||638.7|451.4|<0.001
82618048|NCT00782418|164951322|SUPERIORITY_OR_OTHER||Least Squares Mean|246.6|||<|0.001||90.0|160.9|323.3|||ANOVA|1-side, alpha = 0.05||||323.3|160.9|<0.001
82618049|NCT02190747|164951369|OTHER|||||||0.1664|||||||Cochran-Armitage test of trend|||Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.1664
82660228|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 75||||<0.001
82492752|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|2.842||||0.0838|TWO_SIDED|95.0|0.87|9.283|||Regression, Logistic|||≥5 letters gain||9.283|0.870|0.0838
82618050|NCT02190747|164951370|OTHER|||||||0.2335|||||||Cochran-Armitage test of trend|||Week 6: Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.2335
82618051|NCT02190747|164951370|OTHER|||||||0.0837|||||||Cochran-Armitage test of trend|||Week 12: Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.0837
82618052|NCT02190747|164951371|OTHER||Least square (LS) mean|-86.35|STANDARD_ERROR_OF_MEAN|220.57||0.6984|TWO_SIDED||||||Pairwise test|||Week 6: Analysis of area of new HO||||0.6984
82618053|NCT02190747|164951371|OTHER||LS mean|-38.07|STANDARD_ERROR_OF_MEAN|252.192||0.8811|TWO_SIDED||||||Pairwise test|||Week 6: Analysis of area of new HO||||0.8811
82618054|NCT02190747|164951371|OTHER||LS mean|-764.38|STANDARD_ERROR_OF_MEAN|220.57||0.0017|TWO_SIDED||||||Pairwise test|||Week 12: Analysis of area of new HO||||0.0017
82618055|NCT02190747|164951371|OTHER||LS mean|-703.43|STANDARD_ERROR_OF_MEAN|252.192||0.0094|TWO_SIDED||||||Pairwise test|||Week 12: Analysis of area of new HO||||0.0094
82618056|NCT02190747|164951372|OTHER|||||||0.1503|||||||Cochran-Armitage test of trend|||Cochran-Armitage test of trend (one-sided). The Cochran-Armitage test of trend assessed the overall trend of response across the dose groups (from the lowest dose \[or placebo\], to the highest dose).||||0.1503
82618057|NCT04322994|164951393|OTHER|||||||0.18||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with any desaturation event.||||0.18
82618058|NCT04322994|164951393|OTHER|||||||0.26||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 desaturation event versus 2 or more events.||||0.26
82618059|NCT04322994|164951394|OTHER|||||||0.26||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with at any qualifying desaturation event.||||0.26
82618060|NCT04322994|164951394|OTHER|||||||0.08||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 qualifying desaturation event versus 2 or more qualifying events.||||0.08
82618061|NCT04322994|164951395|OTHER|||||||0.28|||||||Chi-squared|||Analysis of between-group difference for participants with any qualifying event.||||0.28
82660229|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||0.002
82660230|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||<0.001
82660231|NCT01597245|165037615|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Cochran-Mantel-Haenszel|||PPASI 100||||<0.001
82660232|NCT00731783|165037617|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.03||||1|TWO_SIDED|95.0|0.54|1.97|||Fisher Exact|||||1.97|0.54|1.00
82492753|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.674||||0.4116|TWO_SIDED|95.0|0.263|1.729|||Regression, Logistic|||No clinically relevant change||1.729|0.263|0.4116
82618062|NCT04322994|164951395|OTHER|||||||0.38||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|||Analysis of between-group difference for participants with 1 qualifying event versus 2 or more events.||||0.38
82618063|NCT04322994|164951396|OTHER|||||||0.88||||||The a priori threshold for statistical significance was 0.05.|t-test, 2 sided|||Analysis of between-group difference for participants with at any qualifying desaturation event.||||0.88
82618064|NCT04322994|164951397|OTHER|||||||0.14||||||The a priori threshold for statistical significance was 0.05.|Chi-squared, Corrected|Chi-squared test of independence||Analysis of between-group difference for participants with any surgical interruption.||||0.14
82618065|NCT04322994|164951397|OTHER|||||||0.21||||||The a priori threshold for statistical significance was 0.05.|Chi-squared|Chi-squared test of independence||Analysis of between-group difference for participants with 1 surgical interruption versus 2 or more interruptions.||||0.21
82618066|NCT04804033|164951430|OTHER||Difference in least square mean (LSM)|-1.4|||||TWO_SIDED|97.5|-2.72|-0.12|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||-0.12|-2.72|
82618067|NCT04804033|164951430|OTHER||Difference in LSM|-0.7|||||TWO_SIDED|97.5|-2.07|0.69|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.69|-2.07|
82618068|NCT04804033|164951431|OTHER||Difference in percentage|16.6|||||TWO_SIDED|97.5|4.4|28.8|||||Stratified by randomization stratum using Mantel-Haenszel risk estimation.|||28.8|4.4|
82618069|NCT04804033|164951431|OTHER||Difference in percentage|6.6|||||TWO_SIDED|97.5|-5.6|18.9|||||Stratified by randomization stratum using Mantel-Haenszel risk estimation.|||18.9|-5.6|
82618070|NCT04804033|164951432|OTHER||Difference in LSM|-1.0|||||TWO_SIDED|97.5|-2.68|0.58|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.58|-2.68|
82618071|NCT04804033|164951432|OTHER||Difference in LSM|-0.4|||||TWO_SIDED|97.5|-2.1|1.31|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||1.31|-2.10|
82492754|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.621||||0.4197|TWO_SIDED|95.0|0.195|1.977|||Regression, Logistic|||≥5 letters loss||1.977|0.195|0.4197
82492755|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.6632|TWO_SIDED|95.0|0.294|6.856|||Regression, Logistic|||≥10 letters loss||6.856|0.294|0.6632
82618072|NCT04804033|164951433|OTHER||Difference in LSM|-1.8|||||TWO_SIDED|97.5|-3.16|-0.42|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||-0.42|-3.16|
82618073|NCT04804033|164951433|OTHER||Difference in LSM|-1.2|||||TWO_SIDED|97.5|-2.53|0.22|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.22|-2.53|
82618074|NCT04804033|164951434|OTHER||Difference in LSM|-0.8|||||TWO_SIDED|97.5|-1.59|0.05|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.05|-1.59|
82618075|NCT04804033|164951434|OTHER||Difference in LSM|-0.2|||||TWO_SIDED|97.5|-1.06|0.74|||||Linear mixed effects model with repeated measures with number of total migraine days per month in the OP as covariate, treatment group, randomization stratum, month, month-by treatment group interaction as fixed effects using migraine analysis set.|||0.74|-1.06|
82618076|NCT04804033|164951435|OTHER||Difference in LSM|3.9|||||TWO_SIDED|97.5|-1.5|9.39|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||9.39|-1.50|
82618077|NCT04804033|164951435|OTHER||Difference in LSM|0.1|||||TWO_SIDED|97.5|-5.66|5.86|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||5.86|-5.66|
82618078|NCT04804033|164951436|OTHER||Difference in LSM|-9.0|||||TWO_SIDED|97.5|-18.1|0.19|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||0.19|-18.10|
82618079|NCT04804033|164951436|OTHER||Difference in LSM|-9.3|||||TWO_SIDED|97.5|-18.95|0.41|||||Linear regression model had the following variables: Week 12 change from baseline in domain score as the dependent variable; baseline domain score as a covariate; treatment group and randomization stratum as fixed effects.|||0.41|-18.95|
82618080|NCT04124536|164951451|SUPERIORITY||Risk Difference (RD)|-21.9|||||TWO_SIDED|95.0|-35.9|-7.9|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||-7.9|-35.9|
82660233|NCT00731783|165037618|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.17||||0.05|TWO_SIDED|95.0|1.03|4.55|||Fisher Exact|||||4.55|1.03|0.05
82660234|NCT00731783|165037619|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.77||||0.49|TWO_SIDED|95.0|0.39|1.52|||Fisher Exact|||||1.52|0.39|0.49
82660235|NCT00731783|165037620|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.59||||0.28|TWO_SIDED|95.0|0.77|3.28|||Fisher Exact|||||3.28|0.77|0.28
82618081|NCT04124536|164951451|SUPERIORITY||Risk Difference (RD)|-30.7|||||TWO_SIDED|95.0|-40.6|-20.8|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||-20.8|-40.6|
82618082|NCT04124536|164951452|SUPERIORITY||Risk Difference (RD)|-5.4|||||TWO_SIDED|95.0|-13.6|2.8|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||2.8|-13.6|
82618083|NCT04124536|164951452|SUPERIORITY||||||||||||||||||The calculation of risk differences between study arms was originally planned. However, the linear-binomial model did not converge because of zero events in the intervention arm.|||
82618084|NCT04124536|164951456|SUPERIORITY||Risk Difference (RD)|40.7|||||TWO_SIDED|95.0|23.0|58.4|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||58.4|23.0|
82618085|NCT04124536|164951456|SUPERIORITY||Risk Difference (RD)|23.3|||||TWO_SIDED|95.0|10.7|36.0|||||The risk difference was calculated by subtracting the proportion of women meeting the outcome in the intervention arm minus the proportion of women meeting the outcome in the control arm|||36.0|10.7|
82618086|NCT01106625|164951466|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-0.904|-0.524|||ANCOVA|||||-0.524|-0.904|<0.001
82618087|NCT01106625|164951466|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.097|<|0.001|TWO_SIDED|95.0|-1.114|-0.732|||ANCOVA|||||-0.732|-1.114|<0.001
82618088|NCT01106625|164951467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.42|||<|0.001|TWO_SIDED|95.0|2.48|7.87|||Regression, Logistic|||||7.87|2.48|<0.001
82618089|NCT01106625|164951467|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.8|||<|0.001|TWO_SIDED|95.0|4.86|15.95|||Regression, Logistic|||||15.95|4.86|<0.001
82618090|NCT01106625|164951468|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|4.627|<|0.001|TWO_SIDED|95.0|-31.53|-13.16|||ANCOVA|||||-13.16|-31.53|<0.001
82618091|NCT01106625|164951468|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-34.6|STANDARD_ERROR_OF_MEAN|4.692|<|0.001|TWO_SIDED|95.0|-43.86|-25.42|||ANCOVA|||||-25.42|-43.86|<0.001
82618092|NCT01106625|164951469|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.1|-0.7|||ANCOVA|||||-0.7|-2.1|<0.001
82618093|NCT01106625|164951469|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.4|<|0.001|TWO_SIDED|95.0|-2.7|-1.3|||ANCOVA|||||-1.3|-2.7|<0.001
82618094|NCT01106625|164951470|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-2.24|STANDARD_ERROR_OF_MEAN|1.262||0.077|TWO_SIDED|95.0|-4.719|0.241|||ANCOVA|||||0.241|-4.719|0.077
82618095|NCT01106625|164951470|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-1.62|STANDARD_ERROR_OF_MEAN|1.266||0.201|TWO_SIDED|95.0|-4.111|0.866|||ANCOVA|||||0.866|-4.111|0.201
82618096|NCT01106625|164951471|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-6.2|STANDARD_ERROR_OF_MEAN|5.4||0.256|TWO_SIDED|95.0|-16.9|4.5|||ANCOVA|||||4.5|-16.9|0.256
82618097|NCT01106625|164951471|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-3.1|STANDARD_ERROR_OF_MEAN|5.5||0.571|TWO_SIDED|95.0|-13.8|7.6|||ANCOVA|||||7.6|-13.8|0.571
82618098|NCT01106625|164951472|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|1.7||0.153|TWO_SIDED|95.0|-0.9|5.9|||ANCOVA|||||5.9|-0.9|0.153
82618099|NCT01106625|164951472|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|1.8||0.056|TWO_SIDED|95.0|-0.1|6.8|||ANCOVA|||||6.8|-0.1|0.056
82618100|NCT04436822|164951485|SUPERIORITY||Intercept from ANCOVA as agreement rate|88.9|||<|0.05|TWO_SIDED|90.0|87.1|90.7|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||90.7|87.1|<0.05
82618101|NCT04436822|164951485|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.5|||<|0.05|TWO_SIDED|90.0|85.4|89.7|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||89.7|85.4|<0.05
82618102|NCT04436822|164951485|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.9|||<|0.05|TWO_SIDED|90.0|85.8|89.9|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).||||89.9|85.8|<0.05
82618103|NCT00369668|164951506|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|30.0|STANDARD_ERROR_OF_MEAN|3.65|<|0.05|TWO_SIDED|95.0|22.5|37.4|||Mixed Models Analysis|Greenhouse-Geisser degrees of freedom adjustment was not necessary.||Group by Test Session ANOVA with repeated measures on second factor.||37.4|22.5|<0.05
82618104|NCT00471445|164951520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.174|STANDARD_ERROR_OF_MEAN|0.19||0.363|TWO_SIDED|95.0|-0.548|0.201|||ANCOVA|||Tested at the two-sided 0.05 significance level.||0.201|-0.548|0.363
82618105|NCT01552928|164951523|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANCOVA|||||||0.004
82618106|NCT01552928|164951523|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618107|NCT01552928|164951523|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618108|NCT01552928|164951524|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618109|NCT01552928|164951524|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618110|NCT01552928|164951524|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||ANCOVA|||||||0.001
82618111|NCT01552928|164951525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.012|||||||ANCOVA|||||||0.012
82618112|NCT01552928|164951525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.044|||||||ANCOVA|||||||0.044
82618113|NCT01552928|164951525|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618114|NCT01552928|164951526|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618115|NCT01552928|164951526|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618116|NCT01552928|164951526|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618117|NCT01552928|164951527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||ANCOVA|||||||0.003
82618118|NCT01552928|164951527|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618119|NCT01552928|164951527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.043|||||||ANCOVA|||||||0.043
82618120|NCT01552928|164951532|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618121|NCT01552928|164951532|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618122|NCT01552928|164951532|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618123|NCT01552928|164951533|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618124|NCT01552928|164951533|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618125|NCT01552928|164951533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||ANCOVA|||||||0.004
82618126|NCT01552928|164951534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||ANCOVA|||||||0.005
82618127|NCT01552928|164951534|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618128|NCT01552928|164951534|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618129|NCT01552928|164951535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.078|||||||ANCOVA|||||||0.078
82618130|NCT01552928|164951535|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618131|NCT01552928|164951535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.156|||||||ANCOVA|||||||0.156
82618132|NCT01552928|164951536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.439|||||||ANCOVA|||||||0.439
82618133|NCT01552928|164951536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.274|||||||ANCOVA|||||||0.274
82618134|NCT01552928|164951536|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82618135|NCT02604810|164951557|NON_INFERIORITY|Method of estimation = least-squares means based on analysis of variance (ANOVA) with a mixed-effect model. The lower bound of the 90% confidence interval (CI) for the geometric LSM ratio (SC/IV) of the primary PK endpoint of steady state AUC0-7 days for the PK population should be above 0.80.|Geometric least-squares mean ratio|1.04|||||TWO_SIDED|90.0|1.0|1.07||||||||1.07|1.00|
82618136|NCT03534063|164951586|SUPERIORITY|||||||0.047|||||||Wilcoxon (Mann-Whitney)|Comparisons for opioid consumption and composite pain intensity were performed by analysis of covariance, adjusting for baseline differences in groups||||||.047
82618137|NCT03534063|164951587|SUPERIORITY|||||||0.638|||||||t-test, 2 sided|||||||.638
82618138|NCT00078559|164951588|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.1|||||TWO_SIDED|95.0|0.01|0.34|||95% Confidence Interval|Exact Binomial||||0.34|0.01|
82618139|NCT00078559|164951589|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial||||0.3|0.0|
82618140|NCT00078559|164951590|SUPERIORITY_OR_OTHER||Proportion with acute rejection|0.0|||||TWO_SIDED|95.0|0.0|0.7|||95% Confidence Interval|Exact Binomial||||0.7|0.0|
82618141|NCT00078559|164951593|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial||||0.3|0.0|
82618142|NCT00078559|164951594|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.3|||95% Confidence Interval|Exact Binomial for all participants (n=10)||||0.3|0.0|
82618143|NCT00078559|164951595|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.4|||95% Confidence Interval|Exact Binomial for Not Withdrawn Group||||0.4|0.0|
82618144|NCT00078559|164951595|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.8|||95% Confidence Interval|Exact Binomial for Withdrawn Group||||0.8|0.0|
82618145|NCT00078559|164951596|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.4|||95% Confidence Interval|Exact Binomial for Not Withdrawn Group||||0.4|0.0|
82618146|NCT00078559|164951596|SUPERIORITY_OR_OTHER||Exact Binomial|0.0|||||TWO_SIDED|95.0|0.0|0.8|||95% Confidence Interval|Exact Binomial for Withdrawn Group||||0.8|0.0|
82618147|NCT01313520|164951602|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||<|0.001|TWO_SIDED|95.0|-0.4|-0.1|||Constrained Longitudinal Data Analysis|||||-0.1|-0.4|<0.001
82618148|NCT01313520|164951603|SUPERIORITY_OR_OTHER|||||||0.048||95.0|||||Fisher Exact|||||||0.048
82618149|NCT01313520|164951604|SUPERIORITY_OR_OTHER|||||||0.011||95.0|||||Fisher Exact|||||||0.011
82618150|NCT01313520|164951605|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Constrained longitudinal data analysis|||||||<0.0001
82618151|NCT01313520|164951606|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||van Elteren test|||||||0.001
82618152|NCT01313520|164951607|SUPERIORITY_OR_OTHER|||||||0.0005||95.0|||||van Elteren test|||||||0.0005
82618153|NCT01313520|164951608|SUPERIORITY_OR_OTHER||Effect Size|1.4|||||TWO_SIDED|90.0|0.92|1.87||||||||1.87|0.92|
82618154|NCT01313520|164951609|SUPERIORITY_OR_OTHER||Effect Size|1.1|||||TWO_SIDED|90.0|0.64|1.55||||||||1.55|0.64|
82618155|NCT01000727|164951667|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.929|TWO_SIDED|95.02|0.91|1.09||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.09|0.91|0.929
82618156|NCT01000727|164951668|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.777|TWO_SIDED|95.02|0.9|1.09||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.09|0.90|0.777
82618157|NCT01000727|164951669|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.274|TWO_SIDED|95.0|0.76|1.08||Statistical significance of this p-value is based on the alpha-spending function of this study.|Cox Proportional Hazard Regression Model|||||1.08|0.76|0.274
82618158|NCT01000727|164951670|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.631|TWO_SIDED|95.0|0.86|1.09|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.09|0.86|0.631
82618159|NCT01000727|164951671|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.354|TWO_SIDED|95.0|0.88|1.42|||Cox Proportional Hazard Regression Model||A hazard ratio \< 1 indicates a lower risk with this treatment compared to Placebo|||1.42|0.88|0.354
82618160|NCT01000727|164951672|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.161|TWO_SIDED|95.0|0.73|1.05|||Cox Proportional Hazard Regression Model|||||1.05|0.73|0.161
82618161|NCT01000727|164951673|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.36|TWO_SIDED|95.0|0.91|1.31|||Cox Proportional Hazard Regression Model|||||1.31|0.91|0.360
82618162|NCT01000727|164951674|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.202|TWO_SIDED|95.0|0.88|1.03|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.03|0.88|0.202
82618163|NCT01000727|164951675|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.329|TWO_SIDED|95.0|0.87|1.05|||Cox Proportional Hazard Regression Model|||||1.05|0.87|0.329
82618164|NCT01000727|164951676|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.797|TWO_SIDED|95.0|0.9|1.08|||Cox Proportional Hazard Regression Model|||||1.08|0.90|0.797
82618165|NCT01000727|164951677|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.546|TWO_SIDED|95.0|0.87|1.07|||Cox Proportional Hazard Regression Model||A hazard ratio \<1 indicates a lower risk with this treatment compared to Placebo|||1.07|0.87|0.546
82618166|NCT01000727|164951678|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.362|TWO_SIDED|95.0|0.81|1.08|||Cox Proportional Hazard Regression Model|||||1.08|0.81|0.362
82618167|NCT02207478|164951682|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||Cochran-Mantel-Haenszel|||||||0.019
82618168|NCT02207478|164951683|SUPERIORITY_OR_OTHER|||||||0.843|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total procedure time||||0.843
82618169|NCT02207478|164951683|SUPERIORITY_OR_OTHER|||||||0.233|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Total X-ray time||||0.233
82618170|NCT02207478|164951683|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Duration time for finding lesions||||<0.001
82618171|NCT02207478|164951683|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||X-ray time for finding lesions||||<0.001
82618172|NCT01290445|164951696|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.82|||||TWO_SIDED|95.0|0.46|1.47||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.47|0.46|
82618173|NCT01290445|164951696|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.8|||||TWO_SIDED|95.0|0.45|1.42||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.42|0.45|
82618174|NCT01290445|164951697|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.61|||||TWO_SIDED|95.0|0.09|4.34||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||4.34|0.09|
82618175|NCT01290445|164951697|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.09|4.67||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||4.67|0.09|
82618176|NCT01290445|164951698|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.5|0.96||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||0.96|0.50|
82618177|NCT01290445|164951698|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.7|||||TWO_SIDED|95.0|0.51|0.97||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||0.97|0.51|
82618178|NCT01290445|164951699|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.95|||||TWO_SIDED|95.0|0.63|1.42||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.42|0.63|
82618179|NCT01290445|164951699|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.61|1.37||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.37|0.61|
82618180|NCT01290445|164951700|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.37|1.16||||||Crude prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.16|0.37|
82618181|NCT01290445|164951700|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.65|||||TWO_SIDED|95.0|0.37|1.16||||||Adjusted prevalence odds ratios were estimated along with 95% confidence intervals using logistic regression models.||1.16|0.37|
82618182|NCT02568345|164951702|SUPERIORITY_OR_OTHER||isotonic regression functions through PA|2.2|||||TWO_SIDED|||||The isotonic regression functions through PAVA algorithm were used (pooled adjacent violators algorithm), to determine the ED90, and bootstrapping to calculate the respective 95% confidence interval with the statistical program R||||||||
82618183|NCT02059213|164951717|SUPERIORITY|||||||0.87|||||||Fisher Exact|Mid P-value||With 20 patients treated with ADT and 40 treated with ADT + palbociclib there is a 64.2% power to detect a 20% difference in proportions with a one-sided type I error of 0.10 using the mid p-value method of the Fisher's exact test.||||0.87
82618184|NCT02059213|164951719|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||||||0.92
82618185|NCT02059213|164951720|SUPERIORITY|||||||0.5|||||||Fisher Exact|Mid p-value||||||0.50
82618186|NCT02059213|164951721|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.72
82618187|NCT02059213|164951722|SUPERIORITY|||||||0.76|||||||Log Rank|||||||0.76
82618188|NCT00839423|164951735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.7|STANDARD_ERROR_OF_MEAN|1.42|<|0.0001|TWO_SIDED|95.0|-8.49|-2.91||"A hierarchical hypothesis testing procedure was used. The comparison of 10 mg to placebo was primary.~Since p-value was \<0.05, hierarchically testing continued."|ANCOVA|||"The statistical model was an analysis of covariance (ANCOVA) of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 10 mg Vortioxetine and placebo at Week 6.~With 96 patients in each treatment arm and a standard deviation of 9 points, the power to detect a true effect of 3.7 points on the MADRS total score at Week 6 will be 80%."||-2.91|-8.49|<0.0001
82618189|NCT00839423|164951735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.9|STANDARD_ERROR_OF_MEAN|1.39|<|0.0001|TWO_SIDED|95.0|-8.64|-3.17||"The hierarchical hypothesis testing meant that comparison of 5 mg to placebo was performed at a 5% significance level since significance was achieved for the primary comparison of 10 mg to placebo.~Since p-value \<0.05, hierarchically testing contd."|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 5 mg Vortioxetine and placebo at Week 6."||-3.17|-8.64|<0.0001
82618190|NCT00839423|164951735|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.42|STANDARD_ERROR_OF_MEAN|1.38|<|0.0001|TWO_SIDED|95.0|-9.13|-3.72||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||-3.72|-9.13|<0.0001
82618191|NCT00839423|164951736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.69||0.2377|TWO_SIDED|95.0|-2.17|0.54||"The hierarchical procedure meant that the above hypothesis was tested at a 5% significance level since significance was achieved for both 10 and 5 mg at Week 6.~Since p-value was \>0.05, hierarchically testing stopped here."|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 10 mg Vortioxetine and placebo at Week 1."||0.54|-2.17|0.2377
82618192|NCT00839423|164951736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.22|STANDARD_ERROR_OF_MEAN|0.67||0.7489|TWO_SIDED|95.0|-1.54|1.11||The hierarchical procedure meant that the above hypothesis was not tested since significance was not achieved for 10 mg at Week 1. A nominal p-value is provided.|ANCOVA|||"The statistical model was ANCOVA of the change from baseline in MADRS total score (FAS, LOCF) with treatment and centre as fixed factors and the baseline MADRS score as a covariate.~Null hypothesis: No difference between 5 mg Vortioxetine and placebo at Week 1."||1.11|-1.54|0.7489
82618193|NCT00839423|164951736|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.54|STANDARD_ERROR_OF_MEAN|0.67||0.4142|TWO_SIDED|95.0|-0.77|1.85||This treatment arm was not in the testing sequence. A nominal p-value is provided.|ANCOVA|||||1.85|-0.77|0.4142
82660236|NCT00731783|165037621|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.12|TWO_SIDED|95.0|0.23|1.16|||Fisher Exact|||||1.16|0.23|0.12
82660237|NCT00731783|165037622|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.42||||0.02|TWO_SIDED|95.0|0.21|0.85|||Fisher Exact|||||0.85|0.21|0.02
82618194|NCT00839423|164951737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.28|STANDARD_ERROR_OF_MEAN|1.22|<|0.0001|TWO_SIDED|95.0|-7.69|-2.88||A nominal p-value is provided.|ANCOVA|||||-2.88|-7.69|<0.0001
82618195|NCT00839423|164951737|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.33|STANDARD_ERROR_OF_MEAN|1.25|<|0.0001|TWO_SIDED|95.0|-7.79|-2.88||A nominal p-value is provided.|ANCOVA|||||-2.88|-7.79|<0.0001
82618196|NCT00839423|164951738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.0||0.0011|TWO_SIDED|95.0|-5.27|-1.33||A nominal p-value is provided.|ANCOVA|||||-1.33|-5.27|0.0011
82618197|NCT00839423|164951738|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.0|STANDARD_ERROR_OF_MEAN|1.02||0.0034|TWO_SIDED|95.0|-5.01|-1.0||A nominal p-value is provided.|ANCOVA|||||-1.00|-5.01|0.0034
82618198|NCT00839423|164951739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.28|-0.52||A nominal p-value is provided.|ANCOVA|||||-0.52|-1.28|<0.0001
82618199|NCT00839423|164951739|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.95|STANDARD_ERROR_OF_MEAN|0.2|<|0.0001|TWO_SIDED|95.0|-1.34|-0.56||A nominal p-value is provided.|ANCOVA|||||-0.56|-1.34|<0.0001
82618200|NCT00839423|164951740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.58|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.9|-0.27||A nominal p-value is provided.|ANCOVA|||||-0.27|-0.90|0.0003
82618201|NCT00839423|164951740|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.92|-0.27||A nominal p-value is provided.|ANCOVA|||||-0.27|-0.92|0.0003
82618202|NCT00839423|164951741|SUPERIORITY_OR_OTHER||Difference %|21.9||||0.002|TWO_SIDED|95.0|8.89|34.92||A nominal p-value is provided.|Fisher Exact|||||34.92|8.89|0.002
82618203|NCT00839423|164951741|SUPERIORITY_OR_OTHER||Difference %|23.34||||0.001|TWO_SIDED|95.0|10.05|36.43||A nominal p-value is provided.|Fisher Exact|||||36.43|10.05|0.001
82618204|NCT00839423|164951742|SUPERIORITY_OR_OTHER||Difference %|22.41||||0.001|TWO_SIDED|95.0|9.74|35.07||A nominal p-value is provided.|Fisher Exact|||||35.07|9.74|0.001
82618205|NCT00839423|164951742|SUPERIORITY_OR_OTHER||Difference %|22.33||||0.001|TWO_SIDED|95.0|9.39|35.28||A nominal p-value is provided.|Fisher Exact|||||35.28|9.39|0.001
82660238|NCT00731783|165037623|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.008|TWO_SIDED|95.0|0.2|0.77|||Fisher Exact|||||0.77|0.20|0.008
82660239|NCT00731783|165037624|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.43||||0.02|TWO_SIDED|95.0|0.22|0.86|||Fisher Exact|||||0.86|0.22|0.02
82618206|NCT01332019|164951750|SUPERIORITY_OR_OTHER||rate ratio|0.755||||0.0203|TWO_SIDED|95.0|0.595|0.957||q2w/q4w|negative binomial regression|||Based on negative binomial regression for each treatment group, with adjustment for EDSS (\<4 vs. \>=4), relapse rate (based on 1 year before 105MS301 and 105MS301), and age (\<40 vs. \>=40) at 105MS302 baseline.||0.957|0.595|0.0203
82618207|NCT01332019|164951751|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0201|TWO_SIDED|95.0|0.59|0.96||Based on Cox proportion hazards model, adjusted for EDSS (\<4 vs \>= 4), age (\<40 vs \>=40), relapse rate (based on one year before 105MS301 and 105MS301), and gadolinium (Gd) enhancing lesions (presence vs. absence) at 105MS302 baseline.|Cox proportion hazards model|||q2w/q4w||0.96|0.59|0.0201
82660240|NCT02222818|165037631|NON_INFERIORITY_OR_EQUIVALENCE|In order to demonstrate that CAFRPlus is no less effective than CAFR by a non-inferiority margin of 2%, assuming a true paired difference of 6% and a standard deviation of 15% for the paired differences, a sample size of 39 subjects with paired data is required to achieve 90% statistical power using the one-sample t-test for non-inferiority, while controlling the one-sided type I error rate at 0.025.|Mean Difference (Net)|7.0|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.86|4.5|9.5||The threshold for statistical significance was 0.0207, determined by the pre-specified alpha spending function accounting for one interim analysis.|t-test, 1 sided|||Null Hypothesis (Ho): μd ≤ -2% Alternative Hypothesis (Ha): μd \> -2% where μd is the paired difference in percent effective CRT pacing during AF between when CAFRPlus is applied and when CAFR is applied, based on subjects' paired measurements from the two cross-over follow-up periods, and -2% is the non-inferiority margin selected based upon clinical judgment.||9.5|4.5|<0.0001
82618208|NCT01332019|164951752|SUPERIORITY_OR_OTHER||lesion mean ratio|0.51|||<|0.0001|TWO_SIDED|95.0|0.41|0.63||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of T2 lesions.|negative binomial regression|||Week 48||0.63|0.41|<0.0001
82618209|NCT01332019|164951752|SUPERIORITY_OR_OTHER||lesion mean ratio|0.49|||<|0.0001|TWO_SIDED|95.0|0.39|0.62||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 302 baseline number of T2 lesions.|negative binomial regression|||Week 96||0.62|0.39|<0.0001
82618210|NCT01332019|164951753|SUPERIORITY_OR_OTHER||lesion mean ratio|0.54|||<|0.0001|TWO_SIDED|95.0|0.43|0.68||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of Gd lesions.|negative binomial regression|||Week 48||0.68|0.43|<0.0001
82618211|NCT01332019|164951753|SUPERIORITY_OR_OTHER||lesion mean ratio|0.55|||<|0.0001|TWO_SIDED|95.0|0.43|0.71||Lesion mean ratio (95% CI) and p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on negative binomial regression, adjusted for 105MS302 baseline number of Gd lesions.|negative binomial regression|||Week 96||0.71|0.43|<0.0001
82618212|NCT01332019|164951754|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of T1 lesions.|Regression, Logistic|||Week 48||||<0.0001
82618213|NCT01332019|164951754|SUPERIORITY_OR_OTHER||||||<|0.0001||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of T1 lesions.|Regression, Logistic|||Week 96||||<0.0001
82618214|NCT01332019|164951755|SUPERIORITY_OR_OTHER|||||||0.0012||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of Gd-enhancing lesion.|Regression, Logistic|||Week 48||||0.0012
82618215|NCT01332019|164951755|SUPERIORITY_OR_OTHER|||||||0.0026||||||p-value for comparison between the every 2 weeks group and the every 4 weeks group, based on multiple logit regression, adjusted for 302 baseline number of Gd-enhancing lesion.|Regression, Logistic|||Week 96||||0.0026
82618216|NCT01332019|164951761|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.57||||0.006|TWO_SIDED|95.0|0.38|0.85||Based on Cox Proportional Hazards model, adjusted for 105MS302 baseline EDSS and age (\<40 vs \>=40).|Cox Proportional Hazards model||q2w/q4w|||0.85|0.38|0.0060
82618217|NCT00120289|164951794|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.8|TWO_SIDED|95.0|0.87|1.21|||Regression, Cox|Adjusting for gender and history of diabetes (randomization stratification factors).||||1.21|0.87|0.80
82618218|NCT00120289|164951795|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.08||||0.49|TWO_SIDED|95.0|0.87|1.34|||Regression, Cox|||||1.34|0.87|.49
82618219|NCT00120289|164951796|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13||||0.3|TWO_SIDED|95.0|0.9|1.42|||Regression, Cox|||||1.42|0.90|.30
82618220|NCT00120289|164951797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.17||||0.47|TWO_SIDED|95.0|0.76|1.8|||Regression, Cox|||||1.80|0.76|0.47
82618221|NCT01757405|164951815|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Equivalence of treatment success proportions in all bleeding episodes for the two treatment groups was determined by comparing the 90% two-sided CI of the ratio of success proportions to the equivalence region defined as \[0.83, 1.20\].|Ratio of success proportion|1.21|||||TWO_SIDED|90.0|1.15|1.28|||Ratio of success proportion|||Equivalence test of successfully treated bleeding episodes (BEs) between or within treatment arms. Denoting the success rates in the two treatment groups by p1 and p2 , the null hypotheses of H01 : p1/p2 \< 0.83 and H02 : p1/p2 \> 1.20 was implicitly tested against the one-sided alternatives Ha1: 0.83 ≤ p1/p2 and Ha2 : p1/p2 ≤ 1.20, by comparing the 90% two-sided confidence interval (CI) of the ratio of success proportions to the equivalence region defined as \[0.83, 1.20\].||1.28|1.15|
82618222|NCT03664193|164951841|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 37.5 Gy.|Proportion (percent)|30.0|||||TWO_SIDED|95.0|14.7|49.3||||||||49.3|14.7|
82618223|NCT03664193|164951841|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 40.0 Gy.|Proportion (percent)|46.7|||||TWO_SIDED|95.0|28.3|65.7||||||||65.7|28.3|
82618224|NCT03664193|164951841|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 42.5 Gy.|Proportion (percent)|6.7|||||TWO_SIDED|95.0|0.8|22.1||||||||22.1|0.8|
82618225|NCT03664193|164951841|OTHER|Simple descriptive feasibility proportion and exact 95% confidence interval for radiation dose of 45.0 Gy.|Proportion (percent)|16.7|||||TWO_SIDED|95.0|5.6|34.7||||||||34.7|5.6|
82618226|NCT03664193|164951842|OTHER|Simple proportion and exact 95% confidence interval.|Proportion (percent)|100.0|||||TWO_SIDED|95.0|88.4|100.0||||||||100.0|88.4|
82618227|NCT04507867|164951845|OTHER|Kaplan-Meier method for overall survival.||||||0.027|||||||Log Rank|||The total number of patients who did or did not survive to day 40 of follow-up.||||0.027
82618228|NCT04507867|164951847|OTHER|Kaplan-Meier method||||||0.495|||||||Log Rank|||the total number of patients who were intubated and survived at the end of day 40 follow-up.||||0.495
82618229|NCT04507867|164951849|OTHER|Kaplan-Meier method||||||0.186|||||||Log Rank|||total number of patients included in the study who progressed to mechanical ventilation during the first 10 days of hospital stay.||||0.186
82618230|NCT04507867|164951850|SUPERIORITY|Fisher exact test||||||0.35|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group, measured at day 3 of hospital stay. It was categorized as follows: 1. normal bristol scale at day 3; 2. abnormal bristol scale at day 3.||||0.35
82618231|NCT04507867|164951851|SUPERIORITY|||||||0.043|||||||t-test, 1 sided|||Intergroup analysis between the control group and the intervention group, measured at day 3 of hospital stay . Deceased patients were excluded.||||0.043
82618232|NCT04507867|164951852|SUPERIORITY|||||||0.241|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at day 3 of hospital stay . Deceased patients were excluded.||||0.241
82618233|NCT04507867|164951853|SUPERIORITY|||||||0.187|||||||t-test, 2 sided|||Intragroup analysis at the control group, the measurement was performed at baseline and at hospital discharge.||||0.187
82618234|NCT04507867|164951853|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||Intragroup analysis at the intervention group, the measurement was performed at baseline and at hospital discharge.||||0.003
82618235|NCT04507867|164951854|SUPERIORITY|||||||0.919|||||||t-test, 2 sided|||Intragroup analysis of the control group in oxygen delivery, the difference between the baseline period and day 3 of hospital stay.||||0.919
82618236|NCT04507867|164951854|SUPERIORITY|||||||0.014|||||||t-test, 2 sided|||Intragroup analysis of the control group in oxygen delivery, the difference between the baseline period and day 3 of hospital stay.||||0.014
82618237|NCT04507867|164951855|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||Intragroup analysis of the control group, the difference in the qSOFA measurement at baseline and at day 3 will be analyzed.||||0.608
82618238|NCT04507867|164951855|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Intragroup analysis of the intervention group, the difference in the qSOFA measurement at baseline and at day 3 will be analyzed.||||0.04
82618239|NCT04507867|164951856|SUPERIORITY|||||||0.014|||||||Wilcoxon (Mann-Whitney)|||Intergroup analysis between both groups to evaluate the number of defecations measured at day 3.||||0.014
82618240|NCT04507867|164951857|SUPERIORITY|||||||0.008|||||||Fisher Exact|the shapiro wilk test was used to analyze the distribution of the data.||Intergroup analysis between the control group and the intervention group for different parameters, measured at day 3 of hospital stay. Deceased patients were excluded.||||0.008
82618241|NCT04507867|164951859|SUPERIORITY|Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||||0.078|||||||Fisher Exact|||||||0.078
82618242|NCT04507867|164951860|SUPERIORITY|||||||0.098|||||||t-test, 1 sided|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded||||0.098
82618243|NCT04507867|164951861|OTHER|||||||0.195|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group to analyze the presentation of post covid syndrome at the end of follow-up at day 40.||||0.195
82618244|NCT04507867|164951862|SUPERIORITY|||||||0.135|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||0.135
82618245|NCT04507867|164951863|SUPERIORITY|||||||0.266|||||||Fisher Exact|||Intergroup analysis between the control group and the intervention group for different parameters, measured at a complete follow-up of 40 days. Deceased patients were excluded.||||0.266
82618246|NCT04507867|164951864|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.002|||||||Fisher Exact|||||||0.002
82618247|NCT04507867|164951865|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.003|||||||Fisher Exact|||||||0.003
82618248|NCT04507867|164951866|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.004|||||||Fisher Exact|||||||0.004
82618249|NCT04507867|164951867|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.011|||||||Fisher Exact|||||||0.011
82618250|NCT04507867|164951868|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.031|||||||Fisher Exact|||||||0.031
82618251|NCT04507867|164951869|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.04|||||||Fisher Exact|||||||0.040
82618252|NCT04507867|164951870|SUPERIORITY|Association between the presentation of certain laboratory parameters taken in the baseline period, with te overall mortality of discharge patients in comparison with deceased patients||||||0.047|||||||Fisher Exact|||||||0.047
82618253|NCT02175771|164951888|SUPERIORITY||geometric mean ratio|1.32|||||TWO_SIDED|90.0|1.02|1.72|||||Fp MDPI / FLOVENT HFA|Mid-strength comparison||1.72|1.02|
82618254|NCT02175771|164951888|SUPERIORITY||geometric mean ratio|0.81|||||TWO_SIDED|90.0|0.63|1.04|||||Fp MDPI / FLOVENT HFA|High-strength comparison||1.04|0.63|
82618255|NCT02175771|164951888|SUPERIORITY||geometric mean ratio|0.96|||||TWO_SIDED|90.0|0.75|1.24|||||FS MDPI / ADVAIR DISKUS|Mid-strength comparison||1.24|0.75|
82618256|NCT02175771|164951888|SUPERIORITY||geometric mean ratio|0.84|||||TWO_SIDED|90.0|0.67|1.06|||||FS MDPI / ADVAIR DISKUS|High-strength comparison||1.06|0.67|
82618257|NCT02175771|164951889|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.009|STANDARD_ERROR_OF_MEAN|0.0476||0.8451|TWO_SIDED|95.0|-0.084|0.103|||mixed model for repeated measures||Fp MDPI / FLOVENT HFA|Mid-strength comparison||0.103|-0.084|0.8451
82618258|NCT02175771|164951889|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|-0.013|STANDARD_ERROR_OF_MEAN|0.0479||0.7877|TWO_SIDED|95.0|-0.107|0.081|||mixed model for repeated measures||Fp MDPI / FLOVENT HFA|High-strength comparison||0.081|-0.107|0.7877
82618259|NCT02175771|164951889|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.0|STANDARD_ERROR_OF_MEAN|0.0485||0.9966|TWO_SIDED|95.0|-0.095|0.095|||mixed model for repeated measures||FS MDPI / ADVAIR DISKUS|Mid-strength comparison||0.095|-0.095|0.9966
82618260|NCT02175771|164951889|NON_INFERIORITY|The study had reasonable power for demonstrating non-inferiority of the study drug to the comparator drug within each cohort. The statistical analysis plan specified that non-inferiority would be demonstrated if the lower limit of the 2-sided 95% confidence interval (CI) for the treatment difference was greater than -125 mL.|LSM difference|0.059|STANDARD_ERROR_OF_MEAN|0.0464||0.2056|TWO_SIDED|95.0|-0.032|0.15|||mixed model for repeated measures||FS MDPI / ADVAIR DISKUS|High-strength comparison||0.150|-0.032|0.2056
82618261|NCT00194025|164951906|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||<0.001
82618262|NCT00194025|164951907|SUPERIORITY_OR_OTHER|||||||0.585||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.585
82618263|NCT00194025|164951908|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||<0.001
82618264|NCT00194025|164951909|SUPERIORITY_OR_OTHER|||||||0.017||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.017
82618265|NCT00194025|164951910|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.027
82618266|NCT00194025|164951911|SUPERIORITY_OR_OTHER|||||||0.569||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.569
82618267|NCT00194025|164951912|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.038
82618268|NCT00194025|164951913|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||t-test, 1 sided|||The 1 sided t-test was applied to the scores at baseline vs. the scores at 12 weeks.||||0.199
82618269|NCT00194025|164951914|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||t-test, 2 sided|||The t-test was applied to the values at baseline vs. the values at 12 weeks.||||0.21
82618270|NCT00677690|164951927|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||"All data were expressed as the mean ± SD. The level of significance for all tests was set at p \< 0.05.~Inter- and intra-group comparisons were performed using both paired and unpaired t tests for continuous variables and Chi squared for categorical variables."||||< 0.05
82618271|NCT00677690|164951928|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
82618272|NCT00677690|164951929|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
82618273|NCT00677690|164951930|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
82618274|NCT00677690|164951931|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||t-test, 1 sided|||||||<0.05
82618275|NCT01496430|164951935|SUPERIORITY_OR_OTHER|||||||0.007||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.007
82618276|NCT01496430|164951935|SUPERIORITY_OR_OTHER|||||||0.067||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.067
82618277|NCT01496430|164951936|SUPERIORITY_OR_OTHER|||||||0.86||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.860
82618278|NCT01496430|164951936|SUPERIORITY_OR_OTHER|||||||0.21||||||Sequential testing was used to control for multiple comparisons. Azilsartan medoxomil 80 mg was first compared to placebo and if p-value ≤0.05 then azilsartaon medoxomil 40 mg was compared to placebo.|ANCOVA|||||||0.210
82618279|NCT01962714|164951958|NON_INFERIORITY|The primary outcome of non-inferiority of LKM relative to CPT-C was assessed using a non-inferiority margin of 5 points on the CAPS-5, which represents 0.5 SD of baseline PTSD symptoms based on data indicating the SD of baseline CAPS-5 scores is approximately 10 in a large sample (N=198) of treatment-seeking veterans.|Mean Difference (Final Values)|2.09|||||TWO_SIDED|95.0|-2.59|6.78|||||Non-inferiority of LKM to CPT-C was analyzed as the change rate from baseline to 6-month follow-up between groups (CPT-C minus LKM), with a positive value indicating a greater reduction in scores for LKM compared to CPT-C.|The non-inferiority of LKM with respect to CPT-C was analyzed using the 95% confidence interval for the group x time interaction term, with non-inferiority of LKM to CPT-C claimed if the lower limit of the 95% confidence interval was greater than (i.e., did not extend beyond) negative delta.||6.78|-2.59|
82618280|NCT01962714|164951959|NON_INFERIORITY|For depression, the non-inferiority margin was 4 points on the PROMIS depression measure, which has been defined as the minimally important difference and corresponds to a Cohen's d effect size of approximately 0.50.|Mean Difference (Final Values)|2.34|||||TWO_SIDED|95.0|-0.52|5.2|||||Non-inferiority of LKM with respect to CPT-C was analyzed as the change rate from baseline to 6-month follow-up between groups (CPT-C minus LKM), with a positive value indicating a greater reduction in scores from baseline for LKM compared to CPT-C.|The non-inferiority of LKM with respect to CPT-C was analyzed using the 95% confidence interval for the group x time interaction term, with non-inferiority of LKM to CPT-C claimed if the lower limit of the 95% confidence interval was greater than (i.e., did not extend beyond) negative delta.||5.20|-0.52|
82618281|NCT01151579|164951960|NON_INFERIORITY_OR_EQUIVALENCE|A total of at least 400 treatemnts or 65 patients was required to achieve 94% power to determine a 1% change by treatment or a 5% change between groups to be significant at p-value of 0.01 and o.05, respectively.|Mean Difference (Final Values)|1.0|STANDARD_ERROR_OF_MEAN|0.5||0.01|TWO_SIDED|95.0|||||Mixed Models Analysis|||Null Hypothesis: No difference between groups in heart rate changes from baseline following treatment. Sample size calculation determined a need for at least 400 breathing treatments among 65 patients.||||0.01
82618282|NCT01151579|164951961|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0||||0.05|TWO_SIDED|95.0||||Analysis adjusted with Fischer exact chi-square for rare occurrences.|Chi-squared|||Null hypothesis: no difference in incidence of arrhythmias between groups within the total number of breathing treatments.||||0.05
82618283|NCT01151579|164951962|SUPERIORITY_OR_OTHER|||||||0|TWO_SIDED||||||descriptive|Descriptive statistics (frequency) used to report the number of participants experiencing an event.||To report on the number of events.||||0
82618284|NCT03615469|164951966|OTHER|t-test||||||0.22|||||||t-test, 2 sided|||||||0.22
82618285|NCT01153763|164951967|OTHER||percentage of participants|59.0|||||TWO_SIDED|95.0|48.2|70.3|||||The estimated value represents the percentage of participants with a confirmed CR or a confirmed PR.|||70.3|48.2|
82618286|NCT01153763|164951968|OTHER||percentage of participants|13.0|||||TWO_SIDED|95.0|0.0|28.7|||||The estimated value represents the percentage of participants with a investigator assessed CR or PR.|||28.7|0.0|
82618287|NCT01153763|164951973|OTHER||percentage of participants|20.0|||||TWO_SIDED|95.0|11.6|29.8|||||The estimated value represents the percentage of participants with overall survival.|||29.8|11.6|
82618288|NCT01153763|164951974|OTHER||percentage of participants|13.0|||||TWO_SIDED|95.0|2.2|34.6|||||The estimated value represents the percentage of participants with overall survival.|||34.6|2.2|
82618289|NCT01606761|164952011|SUPERIORITY_OR_OTHER||Percentage Difference|15.9|||<|0.001|TWO_SIDED|95.0|8.5|23.2|||Cochran-Mantel-Haenszel|||||23.2|8.5|< 0.001
82618290|NCT01606761|164952011|SUPERIORITY_OR_OTHER||Percentage Difference|21.0|||<|0.001|TWO_SIDED|95.0|13.6|28.5|||Cochran-Mantel-Haenszel|||||28.5|13.6|< 0.001
82618291|NCT01606761|164952012|SUPERIORITY_OR_OTHER||Least Square (LS) mean difference|-0.17|||<|0.001|TWO_SIDED|95.0|-0.251|-0.088|||ANCOVA|||||-0.088|-0.251|< 0.001
82618292|NCT01606761|164952012|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.194|||<|0.001|TWO_SIDED|95.0|-0.275|-0.112|||ANCOVA|||||-0.112|-0.275|< 0.001
82618293|NCT01606761|164952013|SUPERIORITY_OR_OTHER||Percentage Difference|12.0|||<|0.001|TWO_SIDED|95.0|6.4|17.7|||Cochran-Mantel-Haenszel|||||17.7|6.4|< 0.001
82618294|NCT01606761|164952013|SUPERIORITY_OR_OTHER||Percentage Difference|12.7|||<|0.001|TWO_SIDED|95.0|7.0|18.4|||Cochran-Mantel-Haenszel|||||18.4|7.0|< 0.001
82618295|NCT01606761|164952014|SUPERIORITY_OR_OTHER||Percentage Difference|11.0|||<|0.001|TWO_SIDED|95.0|5.5|16.5|||Cochran-Mantel-Haenszel|||||16.5|5.5|< 0.001
82618296|NCT01606761|164952014|SUPERIORITY_OR_OTHER||Percentage Difference|13.4|||<|0.001|TWO_SIDED|95.0|7.8|19.1|||Cochran-Mantel-Haenszel|||||19.1|7.8|< 0.001
82618297|NCT05086289|164952015|SUPERIORITY||Posterior Mean Difference|-0.38|||||TWO_SIDED|95.0|-0.89|0.13|||||Posterior mean difference with 95% credible interval is reported.|||0.13|-0.89|
82618298|NCT05086289|164952016|SUPERIORITY||Posterior Mean Difference|-0.28|||||TWO_SIDED|95.0|-0.85|0.3|||||Posterior mean difference with 95% credible interval is reported.|||0.30|-0.85|
82618299|NCT05086289|164952017|SUPERIORITY||Posterior Mean Difference|-0.62|||||TWO_SIDED|95.0|-1.91|0.68|||||Posterior mean difference with 95% credible interval is reported.|||0.68|-1.91|
82618300|NCT05086289|164952018|SUPERIORITY||Posterior Mean Difference|-1.17|||||TWO_SIDED|95.0|-2.54|0.18|||||Posterior mean difference with 95% credible interval is reported.|||0.18|-2.54|
82618301|NCT05086289|164952019|SUPERIORITY||Posterior Mean Difference|-0.12|||||TWO_SIDED|95.0|-0.44|0.19|||||Posterior mean difference with 95% credible interval is reported.|||0.19|-0.44|
82618302|NCT05086289|164952020|SUPERIORITY||Posterior Mean Difference|-0.26|||||TWO_SIDED|95.0|-0.67|0.14|||||Posterior mean difference with 95% credible interval is reported.|||0.14|-0.67|
82618303|NCT05086289|164952021|SUPERIORITY||Posterior Mean Difference|-0.48|||||TWO_SIDED|95.0|-1.05|0.09|||||Posterior mean difference with 95% credible interval is reported.|||0.09|-1.05|
82618304|NCT05086289|164952022|SUPERIORITY||Posterior Mean Difference|-0.51|||||TWO_SIDED|95.0|-1.17|0.16|||||Posterior mean difference with 95% credible interval is reported.|||0.16|-1.17|
82618305|NCT05086289|164952023|SUPERIORITY||Posterior Mean Difference|-4.95|||||TWO_SIDED|95.0|-11.07|1.27|||||Posterior mean difference with 95% credible interval is reported.|||1.27|-11.07|
82618306|NCT05086289|164952024|SUPERIORITY||Posterior Mean Difference|-4.78|||||TWO_SIDED|95.0|-11.73|2.15|||||Posterior mean difference with 95% credible interval is reported.|||2.15|-11.73|
82618307|NCT05086289|164952025|SUPERIORITY||Posterior Mean Difference|-0.13|||||TWO_SIDED|95.0|-0.46|0.21|||||Posterior mean difference with 95% credible interval is reported.|||0.21|-0.46|
82618308|NCT05086289|164952026|SUPERIORITY||Posterior Mean Difference|1.52|||||TWO_SIDED|95.0|-6.2|9.2|||||Posterior mean difference with 95% credible interval is reported.|||9.20|-6.20|
82618309|NCT05086289|164952027|SUPERIORITY||Posterior Mean Difference|0.0|||||TWO_SIDED|95.0|-0.06|0.07|||||Posterior mean difference with 95% credible interval is reported.|||0.07|-0.06|
82618310|NCT05086289|164952028|SUPERIORITY||Posterior Mean Difference|0.02|||||TWO_SIDED|95.0|-0.05|0.1|||||Posterior mean difference with 95% credible interval is reported.|||0.10|-0.05|
82618311|NCT05086289|164952029|SUPERIORITY||Posterior Mean Difference|41.72|||||TWO_SIDED|95.0|-95.92|179.76|||||Posterior mean difference with 95% credible interval is reported.|||179.76|-95.92|
82618312|NCT05086289|164952030|SUPERIORITY||Posterior Mean Difference|9.73|||||TWO_SIDED|95.0|-151.11|170.52|||||Posterior mean difference with 95% credible interval is reported.|||170.52|-151.11|
82618313|NCT03238235|164952043|SUPERIORITY||Log Difference of the least square means|0.04||||0.8282|TWO_SIDED|95.0|-0.3|0.38||ANCOVA model was performed considering the difference between log of total fibrosis and log baseline values as dependent variable; log baseline value was included as covariate, treatment and concomitant steroid use as independent class variables.|ANCOVA|||total fibrosis at visit 11||0.38|-0.30|0.8282
82618314|NCT03238235|164952043|SUPERIORITY|Mixed model was performed considering the difference between log Visit 11 and log baseline values as dependent variable; log baseline as covariate, treatment was included as independent class variable and treatment by sequence interaction. The sequence of biopsy site (R-L, L-R) was included as a fixed effect and subject as a random effect. If the treatment by sequence interaction was p\>0.10, then the model without the interaction term is presented.|Log Difference of Least Square Means|-0.11||||0.6465|TWO_SIDED|95.0|-0.59|0.37|||Mixed Models Analysis|||A Mixed Model was fitted to the data in order to evaluate the difference in total fibrosis between biopsy sites||0.37|-0.59|0.6465
82618315|NCT03238235|164952044|SUPERIORITY||Log Difference of Least Square Means|-0.05||||0.1991|TWO_SIDED|95.0|-0.12|0.03||ANCOVA model was performed considering baseline fat fraction of vastus lateralis or fat fraction in the soleus value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Vastus lateralis||0.03|-0.12|0.1991
82618316|NCT03238235|164952044|SUPERIORITY||difference of the least square means|-0.27||||0.7849|TWO_SIDED|95.0|-2.22|1.69||ANCOVA model was performed considering baseline fat fraction of vastus lateralis or fat fraction in the soleus value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Soleus||1.69|-2.22|0.7849
82618317|NCT03238235|164952045|SUPERIORITY||Difference of Least Square Means|-1.35||||0.0149|TWO_SIDED|95.0|-2.43|-0.28||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole thigh at visit 11||-0.28|-2.43|0.0149
82618318|NCT03238235|164952045|SUPERIORITY||Difference of Least Square Means|-1.96||||0.0022|TWO_SIDED|95.0|-3.18|-0.75||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Quadriceps at visit 11||-0.75|-3.18|0.0022
82618319|NCT03238235|164952045|SUPERIORITY||Difference of least square means|-0.58||||0.4869|TWO_SIDED|95.0|-2.24|1.08||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Hamstrings at visit 11||1.08|-2.24|0.4869
82618320|NCT03238235|164952045|SUPERIORITY||Difference of Least Square Means|-1.59||||0.0939|TWO_SIDED|95.0|-3.47|0.29||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Triceps Surae at Visit 11||0.29|-3.47|0.0939
82618321|NCT03238235|164952045|SUPERIORITY||Difference of Least Square Means|-0.89||||0.1579|TWO_SIDED|95.0|-2.13|0.36||ANCOVA model was performed considering baseline Fat Fraction of lower limb muscles value as covariate and treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Pelvis girdle at visit 11||0.36|-2.13|0.1579
82618322|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|0.4||||0.777|TWO_SIDED|95.0|-2.45|3.26||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole Thigh at visit 11||3.26|-2.45|0.7770
82618323|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|-0.09||||0.8926|TWO_SIDED|95.0|-1.35|1.18||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Quadriceps at Visit 11||1.18|-1.35|0.8926
82618324|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|0.35||||0.572|TWO_SIDED|95.0|-0.88|1.58||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Medial Thigh at Visit 11||1.58|-0.88|0.5720
82618325|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|0.11||||0.8386|TWO_SIDED|95.0|-0.97|1.18||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Hamstrings at Visit 11||1.18|-0.97|0.8386
82618326|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|-0.22||||0.8591|TWO_SIDED|95.0|-2.68|2.25||ANCOVA model was performed considering baseline CSA as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Triceps Surae at Visit 11||2.25|-2.68|0.8591
82618327|NCT03238235|164952046|SUPERIORITY||Difference of Least Square Means|0.32||||0.7392|TWO_SIDED|95.0|-1.6|2.24|||ANCOVA|||Pelvis Girdle at Visit 11||2.24|-1.60|0.7392
82618328|NCT03238235|164952047|SUPERIORITY||Difference of Least Square Means|1.37||||0.0375|TWO_SIDED|95.0|0.08|2.65||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Whole Thigh at Visit 11||2.65|0.08|0.0375
82618329|NCT03238235|164952047|SUPERIORITY||difference of least square means|0.63||||0.0528|TWO_SIDED|95.0|-0.01|1.27||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Quadriceps at Visit 11||1.27|-0.01|0.0528
82618330|NCT03238235|164952047|SUPERIORITY||Difference of Least Square Means|0.36||||0.2012|TWO_SIDED|95.0|-0.2|0.91||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Medial Thigh at Visit 11||0.91|-0.20|0.2012
82618331|NCT03238235|164952047|SUPERIORITY||Difference of Least Square Means|0.75||||0.4676|TWO_SIDED|95.0|-1.33|2.83||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Triceps Surae at Visit 11||2.83|-1.33|0.4676
82618332|NCT03238235|164952047|SUPERIORITY||Difference of Least Square Means|0.54||||0.1549|TWO_SIDED|95.0|-0.21|1.3||ANCOVA model was performed considering baseline Contractile Area value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Pelvis Girdle at Visit 11||1.30|-0.21|0.1549
82618333|NCT03238235|164952048|SUPERIORITY||Difference of Least Square Means|-619.2||||0.324|TWO_SIDED|95.0|-1872.37|633.98||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||CSA Type II at Visit 11||633.98|-1872.37|0.3240
82618334|NCT03238235|164952048|SUPERIORITY||Difference of Least Square Means|-572.54||||0.307|TWO_SIDED|95.0|-1690.73|545.64||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Total CSA at Visit 11||545.64|-1690.73|0.3070
82618335|NCT03238235|164952049|SUPERIORITY||Log Difference of Least Square Means|-0.27||||0.1055|TWO_SIDED|95.0|-0.59|0.06||ANCOVA model was performed considering baseline Biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Fibers with nuclear centralizations (%) at Visit 11||0.06|-0.59|0.1055
82618336|NCT03238235|164952049|SUPERIORITY||Difference of Least Square Means|-2.23||||0.8846|TWO_SIDED|95.0|-33.05|28.59||ANCOVA model was performed considering baseline biopsy histological parameters (Slide II) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||Total number of fibers at Visit 11 (slide II)||28.59|-33.05|0.8846
82618337|NCT03238235|164952049|SUPERIORITY||Difference of Least Square Means|4.72||||0.4054|TWO_SIDED|95.0|-6.62|16.06||ANCOVA model was performed considering baseline biopsy histological parameters (Slide III) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||Total number of fibers (Slide III)||16.06|-6.62|0.4054
82618338|NCT03238235|164952050|SUPERIORITY||Difference of Least Square Means|2.45||||0.634|TWO_SIDED|95.0|-7.87|12.77||ANCOVA model was performed considering baseline Biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables|ANCOVA|||||12.77|-7.87|0.6340
82618339|NCT03238235|164952051|SUPERIORITY||Log Difference of Least Square Means|-0.14||||0.4893|TWO_SIDED|95.0|-0.54|0.26|||ANCOVA|||||0.26|-0.54|0.4893
82618340|NCT03238235|164952052|SUPERIORITY||Log Difference of Least Square Means|-0.34||||0.1498|TWO_SIDED|95.0|-0.81|0.13||This model was performed considering baseline biopsy histological parameters (Slide I) value as covariate, treatment and concomitant steroid use at baseline as independent class variables.|ANCOVA|||||0.13|-0.81|0.1498
82618341|NCT03238235|164952053|SUPERIORITY||Log Difference of Least Square Means|0.06||||0.0602|TWO_SIDED|95.0|0.0|0.13||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Standing and transfers (D1) at Visit 11||0.13|-0.00|0.0602
82618342|NCT03238235|164952053|SUPERIORITY||Log Difference of Least Square Means|0.0||||0.5906|TWO_SIDED|95.0|-0.01|0.01||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Axial and proximal motor function (D2) at Visit 11||0.01|-0.01|0.5906
82618343|NCT03238235|164952053|SUPERIORITY||Log Difference of Least Square Means|0.0||||0.7799|TWO_SIDED|95.0|-0.01|0.01||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Distal motor function (D3) at Visit 11||0.01|-0.01|0.7799
82618344|NCT03238235|164952053|SUPERIORITY||Log Difference of Least Square Means|0.01||||0.1116|TWO_SIDED|95.0|0.0|0.03||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Total Score at Visit 11||0.03|-0.00|0.1116
82660241|NCT02222818|165037632|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.0|STANDARD_DEVIATION|8.7|<|0.0001|TWO_SIDED|95.86|4.5|9.5||The threshold for statistical significance was 0.0207, determined by the pre-specified alpha spending function accounting for one interim analysis.|t-test, 1 sided|||Null Hypothesis (Ho): μd ≤ 0% Alternative Hypothesis (Ha): μd \> 0% where μd is the paired difference in percent effective CRT pacing during AF between when CAFRPlus is applied and when CAFR is applied, based on subjects' paired measurements from the two cross-over follow-up periods.||9.5|4.5|<0.0001
82618345|NCT03238235|164952054|SUPERIORITY||Log Difference of Least Square Means|-0.07||||0.4346|TWO_SIDED|95.0|-0.23|0.1||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate|Mixed Models Analysis|||Time to Walk/Run 10 meters at Visit 11||0.10|-0.23|0.4346
82618346|NCT03238235|164952055|SUPERIORITY||Log Difference of Least Square Means|-0.02||||0.8914|TWO_SIDED|95.0|-0.32|0.28|||Mixed Models Analysis|||Time to climb 4 standard steps (sec) at visit 11||0.28|-0.32|0.8914
82618347|NCT03238235|164952056|SUPERIORITY||Difference of Least Square Means|0.62||||0.7629|TWO_SIDED|95.0|-3.51|4.75||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|Mixed Models Analysis|||Time to rise from floor at Visit 11||4.75|-3.51|0.7629
82618348|NCT03238235|164952057|SUPERIORITY||Log Difference of Least Square Means|-0.01||||0.8106|TWO_SIDED|95.0|-0.11|0.08||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate|Mixed Models Analysis|||Maximum distance walked after 6 minutes at Visit 11||0.08|-0.11|0.8106
82618349|NCT03238235|164952058|SUPERIORITY|||||||0.1626||||||P-value is obtained from the two-sided Cochran-Mantel-Haenszel chi-squared test, stratified for concomitant steroid use at baseline|Cochran-Mantel-Haenszel|||\<10% worsening at visit 11||||0.1626
82618350|NCT03238235|164952061|SUPERIORITY||Difference of Least Square Means|3.57||||0.5099|TWO_SIDED|95.0|-7.27|14.41||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Left Knee Extension (N) at Visit 11||14.41|-7.27|0.5099
82618351|NCT03238235|164952061|SUPERIORITY||Difference of Least Square Means|1.16||||0.7355|TWO_SIDED|95.0|-5.73|8.06||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Right Knee Extension (N) at Visit 11||8.06|-5.73|0.7355
82618352|NCT03238235|164952061|SUPERIORITY||Difference of Least Square Means|3.92||||0.6037|TWO_SIDED|95.0|-11.22|19.06||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Left Elbow Flexion (N) at Visit 11||19.06|-11.22|0.6037
82618353|NCT03238235|164952061|SUPERIORITY||Difference of Least Square Means|4.1||||0.6178|TWO_SIDED|95.0|-12.35|20.55||Least squares mean is obtained from the mixed effects model for repeated measures with treatment, visit, visit by treatment interaction and concomitant steroid use at baseline as fixed effect; baseline value is included as a covariate.|ANCOVA|||Right Elbow Flexion (N) at Visit 11||20.55|-12.35|0.6178
82618354|NCT03238235|164952064|SUPERIORITY||log difference of Least Square Means|-0.03||||0.1165|TWO_SIDED|95.0|-0.06|0.01||ANCOVA model was performed considering baseline fat fraction of lower limb muscles value as covariate and treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Medial Thigh at visit 11||0.01|-0.06|0.1165
82618355|NCT03238235|164952065|SUPERIORITY||Log difference of Least Square Means|0.05||||0.1939|TWO_SIDED|95.0|-0.02|0.12||ANCOVA model was performed considering baseline CSA as covariate and treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Hamstrings at Visit 11||0.12|-0.02|0.1939
82618356|NCT03238235|164952066|SUPERIORITY||Log difference of Least Square Means|0.01||||0.9493|TWO_SIDED|95.0|-0.29|0.3||ANCOVA model was performed considering baseline biopsy histological parameters (slide III) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||CSA Type I||0.30|-0.29|0.9493
82618357|NCT03238235|164952067|SUPERIORITY||Log difference of Least Square Means|0.05||||0.6265|TWO_SIDED|95.0|-0.16|0.26||ANCOVA model was performed considering baseline biopsy histological parameters (slide I) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Total number of Fibers at Visit 11 (slide I)||0.26|-0.16|0.6265
82618358|NCT03238235|164952067|SUPERIORITY||Log difference of Least Square Means|-0.44||||0.1562|TWO_SIDED|95.0|-1.05|0.17||ANCOVA model was performed considering baseline biopsy histological parameters (slide II) value as covariate, treatment and concomitant steroids use at baseline as independent class variables|ANCOVA|||Regenerative Fibers (%) at Visit 11||0.17|-1.05|0.1562
82618359|NCT03807739|164952102|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|1.2471|||||TWO_SIDED|90.0|1.1149|1.3951||||||||1.3951|1.1149|
82618360|NCT03807739|164952102|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|0.9864|||||TWO_SIDED|90.0|0.8531|1.1405||||||||1.1405|0.8531|
82618361|NCT03807739|164952104|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|1.2203|||||TWO_SIDED|90.0|1.1175|1.3327||||||||1.3327|1.1175|
82618362|NCT03807739|164952104|EQUIVALENCE|Equivalence margin 80% - 125%|Geometric LS Mean Ratio|0.9947|||||TWO_SIDED|90.0|0.8266|1.1968||||||||1.1968|0.8266|
82618363|NCT02371759|164952105|NON_INFERIORITY_OR_EQUIVALENCE|In order to detect 20% difference in intraoral anesthesia duration between healthy and diabetic participants, with 80 % statistical power at a two-tailed significance level of 0.05 using Mann Whitney U test, it was calculated that at least 24 participants must be included in each group|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||In order to detect 20% difference in intraoral anesthesia duration between healthy and diabetic participants, with 80 % statistical power at a two-tailed significance level of 0.05 using Mann Whitney U test, it was calculated that at least 24 participants must be included in each group||||<0.05
82618364|NCT02371759|164952106|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618365|NCT02371759|164952122|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618366|NCT02371759|164952123|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618367|NCT02371759|164952124|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618368|NCT02371759|164952125|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618369|NCT02371759|164952126|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82618370|NCT02371759|164952127|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82618371|NCT02371759|164952128|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618372|NCT02371759|164952129|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Chi-squared|||||||<0.05
82618373|NCT02322320|164952130|SUPERIORITY|||||||0.6||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.60
82618374|NCT02322320|164952130|SUPERIORITY|||||||0.35||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.35
82618375|NCT02322320|164952130|SUPERIORITY|||||||0.68||||||The primary analysis involved pairwise comparisons of PFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with PFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.68
82618376|NCT02322320|164952131|SUPERIORITY|||||||0.57||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.57
82618377|NCT02322320|164952131|SUPERIORITY|||||||0.38||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.38
82618378|NCT02322320|164952131|SUPERIORITY|||||||0.77||||||The analysis involved pairwise comparisons of OS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with OS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.77
82618379|NCT02322320|164952132|SUPERIORITY|||||||0.67||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.67
82618380|NCT02322320|164952132|SUPERIORITY|||||||0.2||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.20
82618381|NCT02322320|164952132|SUPERIORITY|||||||0.4||||||The analysis involved pairwise comparisons of EFS between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Log Rank|The log rank test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with EFS at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.40
82660242|NCT02149420|165037636|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_DEVIATION|2.058||0.678|TWO_SIDED|95.0|-5.007|3.18|||repeated measures Bayesian analysis|with baseline as a covariate||Per protocol the primary analysis was between placebo and the combined VAY736 groups at Week 12.||3.180|-5.007|0.678
82618382|NCT02322320|164952133|SUPERIORITY|||||||0.43||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and RVD consolidation therapy.||||0.43
82618383|NCT02322320|164952133|SUPERIORITY|||||||0.7||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to Tandem auto transplant and Lenalidomide maintenance therapy.||||0.70
82660243|NCT03181594|165037650|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||The null hypothesis was that the mean change from baseline for the rTNSS would be 0 (no effect). Assumptions included an alpha level of 0.5 (2-tailed), 90% power, and a standard deviation of 2.5 for the mean change from baseline. A total of 68 participants was deemed adequate to test the hypothesis.||||<0.001
82618384|NCT02322320|164952133|SUPERIORITY|||||||0.7||||||The analysis involved pairwise comparisons of SPM between the three treatment arms. To control the familywise type I error rate at 0.05, two-sided testing was performed at a Bonferroni-adjusted significance level of 0.0167 = 0.05 / 3.|Gray's test|Gray's test was stratified on risk status at BMT CTN 0702 enrollment (high risk vs. standard risk)||The null hypothesis is that the percentages of participants with SPM at 5 years post-randomization in BMT CTN 0702 are equal for those assigned to RVD consolidation and Lenalidomide maintenance therapy.||||0.70
82660244|NCT03181594|165037652|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82660245|NCT03181594|165037653|SUPERIORITY||||||<|0.001||||||p\<0.001 at all time periods. p\<0.05 was considered statistically significant.|Wilcoxon signed rank|||||||<0.001
82660246|NCT01299454|165037666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.166|||||TWO_SIDED|90.0|0.776|1.751|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.751|0.776|
82660247|NCT01299454|165037666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.375|||||TWO_SIDED|90.0|0.915|2.066|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.066|0.915|
82660248|NCT01299454|165037666|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.929|||||TWO_SIDED|90.0|0.581|1.488|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.488|0.581|
82660249|NCT01299454|165037667|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometic Mean Ratio|1.255|||||TWO_SIDED|90.0|0.702|2.244|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.244|0.702|
82660250|NCT01299454|165037667|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.727|||||TWO_SIDED|90.0|0.977|3.052|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||3.052|0.977|
82660251|NCT01299454|165037667|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometic Mean Ratio|1.041|||||TWO_SIDED|90.0|0.506|2.142|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||2.142|0.506|
82660252|NCT01299454|165037668|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.904|||||TWO_SIDED|90.0|0.707|1.156|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||1.156|0.707|
82618385|NCT00125658|164952135|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Primary Comparison (i.e., FTP vs. POWER) Data are reported as change scores, between the end of treatment block 1(10 weeks) and baseline; thus, this analysis directly compares FTP vs. Power. A negative value represents improvement (i.e., reduced trunk displacement) while a positive value represents an increase in compensatory trunk movement.||||<.001
82618386|NCT00125658|164952135|SUPERIORITY_OR_OTHER|||||||0.002|||||||t-test, 2 sided|||Order effect, testing OrderA (FTP before POWER) vs. OrderB (POWER before FTP). Change scores for trunk displacement at the end of both treatment blocks (20 weeks) relative to baseline (e.g., 20 weeks - baseline) were compared between OrderA and OrderB.||||.002
82618387|NCT00125658|164952136|SUPERIORITY_OR_OTHER|||||||0.13|||||||t-test, 2 sided|||Tests effect of FTP vs. Power. The change in shoulder flexion range of motion was compared between baseline and the end of treatment Block 1 (i.e., 10 weeks).||||0.13
82618388|NCT00125658|164952136|SUPERIORITY_OR_OTHER|||||||0.048|||||||t-test, 2 sided|||Test the effect of treatment order OrderA (FTP before POWER) vs. OrderB (POWER before FTP). The change in shoulder flexion range of motion was compared between the end of treatment (20 weeks) and baseline.||||0.048
82618389|NCT00125658|164952137|SUPERIORITY_OR_OTHER|||||||0.004|||||||t-test, 2 sided|||Compares FTP vs POWER by comparing the change in elbow extension range of motion between the end of treatment block 1 (10 weeks) and baseline.||||.004
82618390|NCT00125658|164952137|SUPERIORITY_OR_OTHER|||||||0.034|||||||t-test, 2 sided|||Tests for the effect of treatment order OrderA (FTP before POWER) vs. OrderB (POWER before FTP) by comparing the change in elbow extension range of motion between the end of overall treatment (20 weeks) and baseline.||||0.034
82618391|NCT00125658|164952138|SUPERIORITY_OR_OTHER|||||||0.056|||||||t-test, 2 sided|||Tests for differences between FTP vs. POWER by comparing the change in movement speed between the end of treatment block 1 (10 weeks) and baseline.||||0.056
82618392|NCT00125658|164952138|SUPERIORITY_OR_OTHER|||||||0.168|||||||t-test, 2 sided|||Tests for effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP))by comparing the change in movement speed between the end of overall treatment (20 weeks) and baseline.||||.168
82618393|NCT00125658|164952139|SUPERIORITY_OR_OTHER|||||||0.564|||||||Wilcoxon (Mann-Whitney)|||Tests the effects of FTP vs. POWER on motor impairment (UE FMA) by comparing the change in FMA between the end of treatment block 1 (10 weeks) and baseline.||||0.564
82618394|NCT00125658|164952139|SUPERIORITY_OR_OTHER|||||||0.948|||||||Wilcoxon (Mann-Whitney)|||Tests for an effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP)) by comparing the change in UE FMA between the end of treatment (20 weeks) and baseline.||||0.948
82618395|NCT00125658|164952140|SUPERIORITY_OR_OTHER|||||||0.078|||||||t-test, 2 sided|||Tests for differences in FTP vs. POWER by comparing the change in RPR between the end of treatment block 1 (10 weeks) and baseline.||||0.078
82618396|NCT00125658|164952140|SUPERIORITY_OR_OTHER|||||||0.4|||||||t-test, 2 sided|||Tests the effect of treatment order (Order A (FTP \> POWER) vs. Order B (POWER \> FTP)) by comparing the change in RPR between the end of overall treatment (20 weeks) and baseline.||||0.4
82618397|NCT00125658|164952141|SUPERIORITY_OR_OTHER|||||||0.085|||||||t-test, 2 sided|||Tests for the effect of treatment (FTP vs. POWER) by comparing the change in movement smoothness between the end of treatment block 1 (10 weeks) and baseline.||||0.085
82618398|NCT00125658|164952141|SUPERIORITY_OR_OTHER|||||||0.635|||||||t-test, 2 sided|||Tests for the effect of treatment order (OrderA (FTP before POWER) vs. OrderB (POWER before FTP)) by comparing the change in movement smoothness between the end of overall treatment (20 weeks) and baseline.||||0.635
82618399|NCT02876055|164952142|SUPERIORITY|||||||0.542|||||||Wilcoxon (Mann-Whitney)|||||||0.542
82618400|NCT02876055|164952142|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82618401|NCT02876055|164952142|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82492756|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.029||||0.9839|TWO_SIDED|95.0|0.062|17.127|||Regression, Logistic|||≥15 letters loss||17.127|0.062|0.9839
82618402|NCT02622724|164952164|SUPERIORITY|||||||0.8219|||||||Van Elteren hypothesis test|||A non-parametric analysis has been used as the data distribution was skewed. This involved a generalised Wilcoxon rank sum-based stratification test which assigns ranks within strata and compares two treatments within strata (Van Elteren hypothesis test).||||0.8219
82618403|NCT02622724|164952171|SUPERIORITY|||||||0.4678|||||||Van Elteren p-values|||Van Elteren hypothesis test was used as the distribution was non-normal and negatively skewed by patients who are assigned scores of zero in the event of death.||||0.4678
82618404|NCT02622724|164952176|SUPERIORITY||||||<|0.05|||||||ANCOVA|Analysis of covariance (ANCOVA) model using Type III sums of squares with Treatment, Severity, and Country fixed effect factors, Baseline as covariate||||||<0.05
82618405|NCT02622724|164952179|OTHER||Least Squares Mean|31.1|||>|0.05|TWO_SIDED|95.0|-37.7|99.9|||ANOVA|||Treatment effect was analysed using ANOVA parameter estimates (Least Squares Means and 95% Confidence Intervals) for the overall treatment difference for maximum distance walked on Day 180.||99.9|-37.7|>0.05
82618406|NCT02622724|164952193|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IL -1ra - changes in levels from baseline to Day 14||||>0.05
82618407|NCT02622724|164952193|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IL- 6 - changes in levels from baseline to Day 14||||>0.05
82618408|NCT02622724|164952193|OTHER||LS Means difference|0.0|||<|0.05|ONE_SIDED|95.0|||||ANCOVA|ANCOVA estimates (LS means and a 95% CI for the treatment difference) were presented for all numeric biomarker variables.||FGF basic - changes in levels from baseline to Day 14||||<0.05
82660253|NCT01299454|165037668|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.85|||||TWO_SIDED|90.0|0.665|1.087|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||1.087|0.665|
82660254|NCT01299454|165037668|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.531||||||90.0|0.399|0.705|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The primary comparison was each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the primary PK parameters between each hepatic disease group and the control group, the 90% confidence interval (CI) for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance||0.705|0.399|
82660255|NCT01299454|165037669|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.103|||||TWO_SIDED|90.0|0.774|1.573|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.573|0.774|
82660256|NCT01299454|165037669|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.199|||||TWO_SIDED|90.0|0.841|1.71|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.710|0.841|
82660257|NCT01299454|165037669|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.79|||||TWO_SIDED|90.0|0.524|1.189|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.189|0.524|
82660258|NCT01299454|165037670|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.241|||||TWO_SIDED|90.0|0.719|2.143|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.143|0.719|
82660259|NCT01299454|165037670|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance|Geometric Mean Ratio|1.604|||||TWO_SIDED|90.0|0.942|2.732|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.732|0.942|
82660260|NCT01299454|165037670|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|1.077|||||TWO_SIDED|90.0|0.54|2.146|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||2.146|0.540|
82660261|NCT01299454|165037671|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric mean ratio|0.856|||||TWO_SIDED|90.0|0.691|1.059|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.059|0.691|
82660262|NCT01299454|165037671|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.742|||||TWO_SIDED|90.0|0.599|0.918|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.918|0.599|
82660263|NCT01299454|165037671|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.451|||||TWO_SIDED|90.0|0.352|0.577|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.577|0.352|
82660264|NCT01299454|165037680|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.509|||||TWO_SIDED|90.0|0.346|0.748|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.748|0.346|
82660265|NCT01299454|165037680|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.586|||||TWO_SIDED|90.0|0.399|0.861|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.861|0.399|
82660266|NCT01299454|165037680|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.334|||||TWO_SIDED|90.0|0.214|0.521|||Mixed effect analysis of variance||Due to the nature of the normal-theory CIs, this approach is equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.521|0.214|
82660267|NCT01299454|165037681|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.716|||||TWO_SIDED|90.0|0.445|1.153|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.153|0.445|
82618409|NCT02622724|164952193|OTHER||LS Means difference|0.0|||<|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||IP-10 - changes in levels from baseline to Day 14.||||<0.05
82618410|NCT02622724|164952193|OTHER||LS Means difference|0.0|||>|0.05|ONE_SIDED||||||ANCOVA|ANCOVA estimates (LS means and a 95 % CI for the treatment difference) were presented for all numeric biomarker variables.||TNF-α - changes in levels from baseline to Day 14||||>0.05
82618411|NCT02622724|164952194|OTHER||||||<|0.007||||||The p-value is not adjusted for multiple comparisons.|Chi-squared|||||||<0.007
82618412|NCT02622724|164952197|OTHER||Least Squares Mean|28.0|||>|0.05|TWO_SIDED|95.0|-54.0|110.1|||ANOVA|||Treatment effect was analysed using ANOVA parameter estimates (Least Squares Means and 95 % Confidence Intervals) for the overall treatment difference for maximun distance walked on Day 360.||110.1|-54|>0.05
82618413|NCT00487084|164952200|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||Log Rank|||A sample of 56 was estimated to have an 80% power to detect a 30% difference in the proportion of subjects with continuing analgesia in the MCS versus the SCM groups when 50% of the subjects in the SCM had requested supplemental analgesia. 28 subjects was added to compare the influence of time of morphine and 2-chloroprocaine administration to lidocaine-morphine analgesia. The primary outcome was compared using Kaplan-Meier survival analysis and the log-rank test.||||0.006
82618414|NCT00487084|164952200|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||Log Rank|||||||0.83
82618415|NCT00487084|164952200|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Log Rank|||||||0.009
82618416|NCT00487084|164952201|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||||||<0.05
82618417|NCT00487084|164952201|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Kruskal-Wallis|||||||<0.05
82618418|NCT00487084|164952202|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
82618419|NCT00487084|164952202|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared, Corrected|||||||0.01
82618420|NCT00487084|164952203|SUPERIORITY_OR_OTHER|||||||0.2||95.0|||||Chi-squared, Corrected|||||||0.20
82618421|NCT02338492|164952239|SUPERIORITY|||||||0.615||||||P-value not adjusted for multiple comparisons as the second co-primary endpoint will only be tested if the p-value for VAS improvement is \<0.05.|Mixed Models Analysis|Mixed model repeated measures (MMRM) model employed, including the baseline VAS score. Missing values will be imputed.||Null hypothesis: Mean improvement in VAS over 90 days \<= 53.8 (i.e. 80% of reference based on historical control data). The study was powered to 80% with 68 evaluable subjects, a standard deviation of 13.3 at each visit, a true mean improvement from baseline VAS across post-baseline visits of 57 and a within-patient correlation of VAS of 0.4. The historical control data comes from 4 selected articles (Gregory et al. 2011, Kim et al. 2011, Deschamps et al. 2012, and Pretell et al. 2010).||||0.615
82618422|NCT02338492|164952241|OTHER||Percentage of Subjects|100.0|||||TWO_SIDED|95.0|96.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no serious device related complications||100|96|
82618423|NCT02338492|164952241|OTHER||Percentage of Subjects|100.0|||||TWO_SIDED|95.0|96.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: No additional surgical interventions of revisions, supplements, fixations or removals||100|96|
82618424|NCT02338492|164952241|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||100|93|
82618425|NCT02338492|164952241|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Safety Success||100|93|
82618426|NCT02338492|164952241|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 7-14: Subjects who had no serious device related complications||100|93|
82618427|NCT02338492|164952241|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: No additional surgical interventions of revisions, supplements, fixations or removals||100|93|
82618428|NCT02338492|164952241|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||99|90|
82618429|NCT02338492|164952241|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 30: Safety Success||99|90|
82618430|NCT02338492|164952241|OTHER||Percentage of Subjects|96.3|||||TWO_SIDED|95.0|90.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Subjects who had no serious device related complications||99|90|
82618431|NCT02338492|164952241|OTHER||Percentage of Subjects|98.8|||||TWO_SIDED|95.0|93.0|100.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: No additional surgical interventions of revisions, supplements, fixations or removals||100|93|
82618432|NCT02338492|164952241|OTHER||Percentage of Subjects|93.8|||||TWO_SIDED|95.0|86.0|98.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||98|86|
82618433|NCT02338492|164952241|OTHER||Percentage of Subjects|92.6|||||TWO_SIDED|95.0|85.0|97.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 90: Safety Success||97|85|
82618434|NCT02338492|164952241|OTHER||Percentage of Subjects|93.8|||||TWO_SIDED|95.0|86.0|98.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Subjects who had no serious device related complications||98|86|
82618435|NCT02338492|164952241|OTHER||Percentage of Subjects|95.1|||||TWO_SIDED|95.0|88.0|99.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: No additional surgical interventions of revisions, supplements, fixations or removals||99|88|
82618436|NCT02338492|164952241|OTHER||Percentage of Subjects|86.4|||||TWO_SIDED|95.0|77.0|93.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||93|77|
82618437|NCT02338492|164952241|OTHER||Percentage of Subjects|86.4|||||TWO_SIDED|95.0|77.0|93.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 180: Safety Success||93|77|
82618438|NCT02338492|164952241|OTHER||Percentage of Subjects|91.4|||||TWO_SIDED|95.0|83.0|96.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Subjects who had no serious device related complications||96|83|
82618439|NCT02338492|164952241|OTHER||Percentage of Subjects|91.4|||||TWO_SIDED|95.0|83.0|96.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: No additional surgical interventions of revisions, supplements, fixations or removals||96|83|
82618440|NCT02338492|164952241|OTHER||Percentage of Subjects|82.7|||||TWO_SIDED|95.0|73.0|90.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Subjects who had no device fracture, migration, mal-alignment or loss of reduction or fixation||90|73|
82618441|NCT02338492|164952241|OTHER||Percentage of Subjects|82.7|||||TWO_SIDED|95.0|73.0|90.0||||||95% exact binomial confidence intervals provided for each of the parameters that make up the safety success endpoint and the safety success endpoint - Up to Day 360: Safety Success||90|73|
82618442|NCT03377244|164952250|SUPERIORITY|||||||0.1013||||||The p-value above reflects results of between-arms analysis of percent change in weight from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.1013
82618443|NCT03377244|164952251|SUPERIORITY|||||||0.495||||||The p-value above reflects results of between-arms analysis of change in mean HbA1c from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment.||||||0.4950
82618444|NCT03377244|164952252|SUPERIORITY|||||||0.7416||||||The p-value above reflects results of between-arms analysis of change in systolic blood pressure from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.7416
82618445|NCT03377244|164952253|SUPERIORITY|||||||0.0702||||||The p-value above reflects results of between-arms analysis of change in diastolic blood pressure from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0702
82618446|NCT03377244|164952254|SUPERIORITY|||||||0.007||||||The p-value above reflects results of between-arms analysis of change in eating habits self-efficacy scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0070
82618447|NCT03377244|164952255|SUPERIORITY|||||||0.0009||||||The p-value above reflects results of between-arms analysis of change in physical activity self-efficacy scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0009
82618448|NCT03377244|164952256|SUPERIORITY|||||||0.374||||||The p-value above reflects results of between-arms analysis for the probability of participants to engage in sufficient physical activity at 6 months post-intervention.|Regression, Logistic|Model adjusted for age, sex, education, marital status, employment status, and baseline physical activity.||||||0.3740
82618449|NCT03377244|164952257|SUPERIORITY|||||||0.9556||||||The p-value above reflects results of between-arms analysis of change in participants' sugar-sweetened beverage consumption per day from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.9556
82660268|NCT01299454|165037681|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.594|||||TWO_SIDED|90.0|0.378|0.934|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.934|0.378|
82618450|NCT03377244|164952258|SUPERIORITY|||||||0.1726||||||The p-value above reflects results of between-arms analysis of change in participants' fruit and vegetable consumption scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.1726
82618451|NCT03377244|164952259|SUPERIORITY|||||||0.0478||||||The p-value above reflects results of between-arms analysis of change in participants' family support scale scores from baseline to 6 months post-intervention.|general linear model|Model adjusted for age, sex, education, marital status, and employment status.||||||0.0478
82618452|NCT00174785|164952261|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76|||<|0.0001||95.0|0.69|0.84||Cumulative incidence functions in each treatment group were calculated using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The primary comparison was performed at the 5% level using a 2-sided Log rank test.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of first hospitalization for cardiovascular reason or death for the dronedarone group compared with the placebo group.|||0.84|0.69|<0.0001
82618453|NCT00174785|164952262|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.18||95.0|0.66|1.08||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of death from any cause for the dronedarone group compared with the placebo group.|||1.08|0.66|0.18
82618454|NCT00174785|164952263|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||<|0.0001||95.0|0.67|0.82||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of first hospitalization for cardiovascular reason for the dronedarone group compared with the placebo group.|||0.82|0.67|<0.0001
82618455|NCT00174785|164952264|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.025||95.0|0.51|0.96||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. Hierarchical procedure applied to secondary efficacy endpoints testing to protect the global type I error.|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of cardiovascular death for the dronedarone group compared with the placebo group.|||0.96|0.51|0.025
82618456|NCT00174785|164952265|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71||||0.03||95.0|0.51|0.98||Cumulative incidences calculated in each group using non-parametric Kaplan-Meier estimates. Median time-to-event was not reached in any group. The comparison was performed at the 5% level using a 2-sided Log rank|Log Rank||The hazard ratio was estimated by a Cox's proportional hazard model with treatment arm factor. It represents the relative hazard of adjudicated cardiovascular death for the dronedarone group compared with the placebo group.|||0.98|0.51|0.03
82618457|NCT02387372|164952312|OTHER||Geometric least squares mean ratio (GMR)|1.38|||||TWO_SIDED|90.0|1.21|1.56|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.56|1.21|
82618458|NCT02387372|164952312|OTHER||GMR|1.15|||||TWO_SIDED|90.0|1.03|1.29|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.29|1.03|
82618459|NCT02387372|164952315|OTHER||Geometric least squares mean ratio (GMR)|1.71|||||TWO_SIDED|90.0|1.5|1.96|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.96|1.50|
82618460|NCT02387372|164952315|OTHER||GMR|1.33|||||TWO_SIDED|90.0|1.14|1.55|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.55|1.14|
82618461|NCT02387372|164952317|OTHER||Geometric least squares mean ratio (GMR)|1.61|||||TWO_SIDED|90.0|1.44|1.81|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.81|1.44|
82618462|NCT02387372|164952317|OTHER||GMR|1.24|||||TWO_SIDED|90.0|1.11|1.39|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.39|1.11|
82618463|NCT02387372|164952318|OTHER||Geometric least squares mean ratio (GMR)|1.71|||||TWO_SIDED|90.0|1.51|1.95|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.95|1.51|
82618464|NCT02387372|164952318|OTHER||GMR|1.2|||||TWO_SIDED|90.0|1.09|1.33|||||Ratio of Last Dose/First Dose|Accumulation Ratio of Last Dose/First Dose||1.33|1.09|
82618465|NCT00779324|164952374|OTHER||Difference in percents|-0.4||||0.9554|TWO_SIDED|95.0|-14.7|13.9|||Chi-squared|||||13.9|-14.7|0.9554
82618466|NCT00779324|164952375|OTHER|||||||0.96|||||||Wilcoxon (Mann-Whitney)|||||||0.96
82618467|NCT00779324|164952376|OTHER||Difference in percents|10.8||||0.1662|TWO_SIDED|95.0|-4.2|25.8|||Chi-squared|||||25.8|-4.2|0.1662
82618468|NCT00779324|164952377|OTHER|||||||0.3488|||||||Wilcoxon (Mann-Whitney)|||||||0.3488
82618469|NCT00779324|164952379|OTHER||Difference in percents|6.4||||0.38|TWO_SIDED|95.0|-7.2|20.0|||Chi-squared|||||20|-7.2|0.38
82618470|NCT00779324|164952380|OTHER||Difference in percents|11.7||||0.1373|TWO_SIDED|95.0|-3.3|26.7|||Chi-squared|||||26.7|-3.3|0.1373
82618471|NCT00779324|164952381|OTHER|||||||0.12|||||||Wilcoxon (Mann-Whitney)|||||||0.12
82618472|NCT00779324|164952382|OTHER|||||||0.0353|||||||Wilcoxon (Mann-Whitney)|||||||0.0353
82618473|NCT00543569|164952384|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|13.6|||||TWO_SIDED|90.0|3.2|23.9|||||A positive difference indicates a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||23.9|3.2|
82618474|NCT00543569|164952384|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|6.1|||||TWO_SIDED|90.0|-3.6|15.8|||||A positive difference indicates a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||15.8|-3.6|
82618475|NCT00543569|164952384|NON_INFERIORITY_OR_EQUIVALENCE|The aim of this study was to assess the non-inferiority of each experimental arm (Arms 2-4) to a comparator regimen (Arm 1) over a non-inferiority margin of 10%. If the upper bound of the 90% confidence interval was less than the margin, i.e., 10%, then the test treatment was considered to be non-inferior to the comparator regimen.|Difference|4.0|||||TWO_SIDED|90.0|-5.3|13.3|||||A positive difference indicated a higher failure rate in the experimental arm as compared to the comparator arm (Arm 1).|||13.3|-5.3|
82618476|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|-1.4|||||TWO_SIDED|90.0|-6.9|4.1||||||Patient survival at 6 months||4.1|-6.9|
82618477|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|1.1|||||TWO_SIDED|90.0|-3.5|5.8||||||Patient survival at 6 months||5.8|-3.5|
82618478|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|-2.6|||||TWO_SIDED|90.0|-8.4|3.2||||||Patient survival at 6 months||3.2|-8.4|
82618479|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|4.9|||||TWO_SIDED|90.0|-3.1|12.8||||||Patient survival at 12 months||12.8|-3.1|
82618480|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|0.5|||||TWO_SIDED|90.0|-8.3|9.2||||||Patient survival at 12 months||9.2|-8.3|
82618481|NCT00543569|164952385|SUPERIORITY_OR_OTHER||Difference|2.4|||||TWO_SIDED|90.0|-6.0|10.8||||||Patient survival at 12 months||10.8|-6.0|
82618482|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|-2.7|||||TWO_SIDED|90.0|-8.5|3.1||||||Graft survival at 6 months||3.1|-8.5|
82618483|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|-0.2|||||TWO_SIDED|90.0|-5.3|4.9||||||Graft survival at 6 months||4.9|-5.3|
82618484|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|-3.9|||||TWO_SIDED|90.0|-10.0|2.2||||||Graft survival at 6 months||2.2|-10.0|
82618485|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|3.6|||||TWO_SIDED|90.0|-4.6|11.7||||||Graft survival at 12 months||11.7|-4.6|
82618486|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|-0.9|||||TWO_SIDED|90.0|-9.9|8.1||||||Graft survival at 12 months||8.1|-9.9|
82618487|NCT00543569|164952386|SUPERIORITY_OR_OTHER||Difference|-1.6|||||TWO_SIDED|90.0|-10.6|7.4||||||Graft survival at 12 months||7.4|-10.6|
82618488|NCT00543569|164952387|SUPERIORITY_OR_OTHER||Difference|13.7|||||TWO_SIDED|90.0|2.8|24.6||||||||24.6|2.8|
82618489|NCT00543569|164952387|SUPERIORITY_OR_OTHER||Difference|4.8|||||TWO_SIDED|90.0|-5.4|15.0||||||||15.0|-5.4|
82618490|NCT00543569|164952387|SUPERIORITY_OR_OTHER||Difference|2.8|||||TWO_SIDED|90.0|-7.1|12.6||||||||12.6|-7.1|
82618491|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|10.6|||||TWO_SIDED|90.0|1.8|19.5||||||BCAR at Month 6||19.5|1.8|
82618492|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||BCAR at Month 6||12.3|-3.6|
82618493|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|6.4|||||TWO_SIDED|90.0|-1.7|14.6||||||BCAR at Month 6||14.6|-1.7|
82618494|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|12.0|||||TWO_SIDED|90.0|3.0|21.0||||||BCAR at Month 12||21.0|3.0|
82618495|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||BCAR at Month 12||12.3|-3.6|
82618496|NCT00543569|164952388|SUPERIORITY_OR_OTHER||Difference|7.8|||||TWO_SIDED|90.0|-0.6|16.2||||||BCAR at Month 12||16.2|-0.6|
82618497|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|12.2|||||TWO_SIDED|90.0|2.0|22.5||||||T-cell Mediated BCAR at Month 6||22.5|2.0|
82618498|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|6.1|||||TWO_SIDED|90.0|-3.6|15.8||||||T-cell Mediated BCAR at Month 6||15.8|-3.6|
82618499|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|90.0|-5.3|13.3||||||T-cell Mediated BCAR at Month 6||13.3|-5.3|
82618500|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|13.6|||||TWO_SIDED|90.0|3.0|24.3||||||T-cell Mediated BCAR at Month 12||24.3|3.0|
82618501|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|4.8|||||TWO_SIDED|90.0|-5.1|14.6||||||T-cell Mediated BCAR at Month 12||14.6|-5.1|
82618502|NCT00543569|164952389|SUPERIORITY_OR_OTHER||Difference|4.1|||||TWO_SIDED|90.0|-5.6|13.8||||||T-cell Mediated BCAR at Month 12||13.8|-5.6|
82618503|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|9.3|||||TWO_SIDED|90.0|0.7|18.0||||||T-cell Mediated BCAR at Month 6||18.0|0.7|
82618504|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||T-cell Mediated BCAR at Month 6||12.3|-3.6|
82618505|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|6.4|||||TWO_SIDED|90.0|-1.7|14.6||||||T-cell Mediated BCAR at Month 6||14.6|-1.7|
82618506|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|10.7|||||TWO_SIDED|90.0|1.8|19.5||||||T-cell Mediated BCAR at Month 12||19.5|1.8|
82618507|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|4.3|||||TWO_SIDED|90.0|-3.6|12.3||||||T-cell Mediated BCAR at Month 12||12.3|-3.6|
82618508|NCT00543569|164952390|SUPERIORITY_OR_OTHER||Difference|7.8|||||TWO_SIDED|90.0|-0.6|16.2||||||T-cell Mediated BCAR at Month 12||16.2|-0.6|
82618509|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|14.7|||||TWO_SIDED|90.0|3.8|25.5||||||Efficacy Failure at Month 6||25.5|3.8|
82618510|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|7.5|||||TWO_SIDED|90.0|-2.9|17.8||||||Efficacy Failure at Month 6||17.8|-2.9|
82618511|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|7.9|||||TWO_SIDED|90.0|-2.4|18.2||||||Efficacy Failure at Month 6||18.2|-2.4|
82618512|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|8.4|||||TWO_SIDED|90.0|-3.5|20.4||||||Efficacy Failure at Month12||20.4|-3.5|
82618513|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|90.0|-7.8|15.8||||||Efficacy Failure at Month 12||15.8|-7.8|
82618514|NCT00543569|164952394|SUPERIORITY_OR_OTHER||Difference|4.2|||||TWO_SIDED|90.0|-7.5|15.9||||||Efficacy Failure at Month12||15.9|-7.5|
82618515|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|10.7|||||TWO_SIDED|90.0|0.9|20.4||||||Efficacy Failure at Month 6||20.4|0.9|
82618516|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|4.6|||||TWO_SIDED|90.0|-4.5|13.7||||||Efficacy Failure at Month 6||13.7|-4.5|
82618517|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|9.1|||||TWO_SIDED|90.0|-0.4|18.7||||||Efficacy Failure at Month 6||18.7|-0.4|
82618518|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|7.0|||||TWO_SIDED|90.0|-4.0|18.0||||||Efficacy Failure at Month 12||18.0|-4.0|
82618519|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|2.3|||||TWO_SIDED|90.0|-8.3|13.0||||||Efficacy Failure at Month 12||13.0|-8.3|
82618520|NCT00543569|164952395|SUPERIORITY_OR_OTHER||Difference|6.7|||||TWO_SIDED|90.0|-4.2|17.6||||||Efficacy Failure at Month 12||17.6|-4.2|
82618521|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|11.1|||||TWO_SIDED|90.0|-1.1|23.3||||||Treatment Failure at Month 6||23.3|-1.1|
82618522|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|11.8|||||TWO_SIDED|90.0|-0.7|24.2||||||Treatment Failure at Month 6||24.2|-0.7|
82618523|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|2.9|||||TWO_SIDED|90.0|-8.9|14.7||||||Treatment Failure at Month 6||14.7|-8.9|
82618524|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|10.0|||||TWO_SIDED|90.0|-2.9|22.8||||||Treatment Failure at Month 12||22.8|-2.9|
82618525|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|9.7|||||TWO_SIDED|90.0|-3.3|22.8||||||Treatment Failure at Month 12||22.8|-3.3|
82618526|NCT00543569|164952405|SUPERIORITY_OR_OTHER||Difference|-0.8|||||TWO_SIDED|90.0|-13.3|11.7||||||Treatment Failure at Month 12||11.7|-13.3|
82618527|NCT00862849|164952408|SUPERIORITY_OR_OTHER||LS Mean Difference|26.47|||<|0.0001|TWO_SIDED|90.0|18.22|34.71||Treatment comparison for %AUC(0-30). Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed.||||34.71|18.22|<0.0001
82618528|NCT00862849|164952408|SUPERIORITY_OR_OTHER||LS Mean Difference|16.7||||0.0015|TWO_SIDED|90.0|8.45|24.94||Treatment comparison for %AUC(0-30). Statistical testing was considered exploratory, with no adjustment for inflation of Type 1 error due to multiplicity of testing.|Mixed Models Analysis|Analysis performed using mixed model with fixed effect for treatment. A compound symmetry covariance matrix among repeated measurements was assumed||||24.94|8.45|0.0015
82618529|NCT02196038|164952454|SUPERIORITY||Mean Difference (Final Values)|1.5|||<|0.0001|TWO_SIDED|95.0|0.9|2.0|||joint model|Joint model of ANCOVA plus survival||||2.0|0.9|<0.0001
82618530|NCT02196038|164952455|SUPERIORITY||Rate Ratio|0.93||||0.59|TWO_SIDED|95.0|0.66|1.19|||Joint Model|Joint model of Poisson regression and survival||||1.19|0.66|0.59
82618531|NCT00608530|164952487|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|||Repeated measures analysis of variance compared differences between and within groups (CBT and Supportive Care) from baseline to end of treatment. Statistical testing was performed using 2-tailed tests and alpha level of .05 for declaring statistical significance. The trial was powered at the \>.80 level to detect differences between condition based on projected sample N = 130; given the N = 66 actually achieved our a priori power for detecting differences between groups was .63.||||.05
82618532|NCT00608530|164952488|SUPERIORITY|||||||0.05|||||||ANOVA|||Primary analyses consisted of modified intent-to-treat analysis of all randomized participants who attended at least 1 treatment session, with multiple imputation to address missing data. The study was powered at 80% to detect large effect sizes (\>.50SD) and alpha of .05 with a recruitment goal N = 140; with the N = 61 actually obtained, our a priori power was .55 to detect between group differences.||||.05
82618533|NCT00608530|164952489|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||Repeated measures analysis of variance comparing groups at baseline and end of treatment.||||>0.05
82618534|NCT00608530|164952491|SUPERIORITY_OR_OTHER|||||||0.05|||||||Fisher Exact|||||||.05
82618535|NCT01098461|164952493|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-0.89|||<|0.0001|TWO_SIDED|95.0|-1.22|-0.57|||t-test, 2 sided|||||-0.57|-1.22|<0.0001
82618536|NCT01098461|164952493|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-1.55|||<|0.0001|TWO_SIDED|95.0|-1.88|-1.23|||t-test, 2 sided|||||-1.23|-1.88|<0.0001
82618537|NCT01098461|164952493|NON_INFERIORITY_OR_EQUIVALENCE|The p-value is from a two-sided t-test for the difference in means. Dunnett's method is used to adjust for multiple comparisons.|Mean Difference (Final Values)|-1.1|||<|0.0001|TWO_SIDED|95.0|-1.43|-0.78|||t-test, 2 sided|||||-0.78|-1.43|<0.0001
82618538|NCT03150108|164952711|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% confidence interval (CI).|Geometric mean ratio|1.119|||||TWO_SIDED|90.0|0.875|1.43||||||||1.430|0.875|
82618539|NCT03150108|164952711|OTHER|Dose proportionality|Increase in Cmax per Dose Doubling|1.76|||||TWO_SIDED|90.0|1.52|2.03|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted Cmax using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.03|1.52|
82618540|NCT03150108|164952713|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUClast values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.8|1.23||||||||1.23|0.80|
82618541|NCT03150108|164952713|OTHER|Dose proportionality|Increase in AUClast per Dose Doubling|2.35||||||90.0|2.06|2.7|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUClast using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.70|2.06|
82618542|NCT03150108|164952714|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUC0-8 values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|1.08|||||TWO_SIDED|90.0|0.87|1.35||||||||1.35|0.87|
82618543|NCT03150108|164952714|OTHER|Dose proportionality|Increase in AUC0-8 per Dose Doubling|2.23|||||TWO_SIDED|90.0|1.98|2.51|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUC0-8 using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.51|1.98|
82618544|NCT03150108|164952715|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed AUC0-inf values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric mean ratio|1.01|||||TWO_SIDED|90.0|0.77|1.33||||||||1.33|0.77|
82618545|NCT03150108|164952715|OTHER|Dose proportionality|Increase in AUC0-inf per Dose Doubling|2.31|||||TWO_SIDED|90.0|1.96|2.71|||||Linear model of log transformed PK parameters at all doses in Japanese descent, including log transformed dose, period, sequence as fixed effects, and intercept as a random effect accounting for each participant within sequence as their own control.|Dose proportionality was assessed for baseline-adjusted AUC0-inf using the power model. The power model assumes a linear relationship between the natural log transformed parameter and the natural log transformed dose. The fold increase in PK parameters with doubling the dose and the 90% CIs were calculated.||2.71|1.96|
82618546|NCT03150108|164952721|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric Mean Ratio|1.13|||||TWO_SIDED|90.0|0.9|1.4||||||||1.40|0.90|
82618547|NCT03150108|164952723|EQUIVALENCE|Welch's t-test with Satterthwaite's approximation to the degrees of freedom was used to compare the log transformed Cmax values of both ethnic groups at 100 mcg dose and the results were back-transformed to get the estimates for the geometric means and for the ratio of geometric means (Japanese/Caucasian), and 90% CI.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.93|1.25||||||||1.25|0.93|
82618548|NCT00430625|164952747|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.429|STANDARD_ERROR_OF_MEAN|0.324|<|0.0001|TWO_SIDED|95.0|1.717|3.141|||paired t-test|||Primary endpoint was based solely on the 60 U/kg treatment arm||3.141|1.717|<0.0001
82618549|NCT00243230|164952763|SUPERIORITY||VCV 30 mg vs. Placebo|-0.98||||0.0017|TWO_SIDED|95.0|-1.58|-0.37|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.37|-1.58|0.0017
82618550|NCT00243230|164952763|SUPERIORITY||VCV 20 mg vs. Placebo|-0.93||||0.0026||95.0|-1.54|-0.33|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.33|-1.54|0.0026
82618551|NCT00243230|164952764|SUPERIORITY|||||||0.0052|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0052
82618552|NCT00243230|164952764|SUPERIORITY|||||||0.019|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0190
82618553|NCT00243230|164952765|SUPERIORITY|||||||0.0007|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0007
82618554|NCT00243230|164952765|SUPERIORITY|||||||0.0028|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0028
82618555|NCT00243230|164952767|SUPERIORITY||Vicriviroc 30mg - Placebo|-1.0||||0.0002|TWO_SIDED|95.0|-1.53|-0.48|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.48|-1.53|0.0002
82618556|NCT00243230|164952767|SUPERIORITY||Vicriviroc 20 mg - Placebo|-0.84||||0.002|TWO_SIDED|95.0|-1.36|-0.31|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||-0.31|-1.36|0.0020
82618557|NCT00243230|164952768|SUPERIORITY||Vicriviroc 30 mg - Placebo|-1.1||||0.0003|TWO_SIDED|95.0|-1.69|-0.51|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA \<=100,000 copies/mL.||||-0.51|-1.69|0.0003
82618558|NCT00243230|164952768|SUPERIORITY||Vicriviroc 20 mg - Placebo|-1.07||||0.0004|TWO_SIDED|95.0|-1.66|-0.49|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA \<=100,000 copies/mL.||||-0.49|-1.66|0.0004
82618559|NCT00243230|164952769|SUPERIORITY||VCV 30 mg - Placebo|57.76||||0.0264|TWO_SIDED|95.0|6.9|108.61|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||108.61|6.90|0.0264
82618560|NCT00243230|164952769|SUPERIORITY||VCV 20 mg - Placebo|42.36||||0.102|TWO_SIDED|95.0|-8.55|93.28|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||93.28|-8.55|0.1020
82618561|NCT00243230|164952770|SUPERIORITY||VCV 30 mg - Placebo|38.12||||0.1525|TWO_SIDED|95.0|-14.32|90.56|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||90.56|-14.32|0.1525
82618562|NCT00243230|164952770|SUPERIORITY||VCV 20 mg - Placebo|44.12||||0.0987|TWO_SIDED|95.0|-8.38|96.61|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||96.61|-8.38|0.0987
82618563|NCT00243230|164952771|SUPERIORITY||VCV 30 mg - Placebo|37.32||||0.2603|TWO_SIDED|95.0|-28.05|102.68|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||102.68|-28.05|0.2603
82618564|NCT00243230|164952771|SUPERIORITY||VCV 20 mg - Placebo|69.08||||0.0387|TWO_SIDED|95.0|3.64|134.52|||ANOVA|ANOVA model adjusted for treatment and stratification factors - the use of T20 in current OBT and the baseline HIV-1 RNA ≤100,000 copies/mL.||||134.52|3.64|0.0387
82618565|NCT00243230|164952773|SUPERIORITY|||||||0.0031|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0031
82618566|NCT00243230|164952773|SUPERIORITY|||||||0.048|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0480
82618567|NCT00243230|164952774|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
82618568|NCT00243230|164952774|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
82618569|NCT00243230|164952776|SUPERIORITY|||||||0.0225|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0225
82618570|NCT00243230|164952776|SUPERIORITY|||||||0.0582|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0582
82618571|NCT00243230|164952777|SUPERIORITY|||||||0.0009|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0009
82618572|NCT00243230|164952777|SUPERIORITY|||||||0.0038|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0038
82618573|NCT00243230|164952778|SUPERIORITY|||||||0.0002|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0002
82618574|NCT00243230|164952778|SUPERIORITY|||||||0.0004|||||||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel Test adjusted for stratification factors of T20 use in current OBT and baseline HIV-1 RNA.||||||0.0004
82618575|NCT04030104|164952824|SUPERIORITY|||||||0.0268||||||Threshold for statistical significance \<0.05|Random Reader, Random Mass|Curve Fitting Method: Empirical||||||0.0268
82618576|NCT03675737|164952883|SUPERIORITY||Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.7|0.87||One-sided p-value based on log-rank test stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||0.87|0.70|<0.0001
82618577|NCT03675737|164952884|SUPERIORITY||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.65|0.84||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.84|0.65|<0.0001
82618578|NCT03675737|164952885|SUPERIORITY||Hazard Ratio (HR)|0.65|||<|0.0001|TWO_SIDED|95.0|0.53|0.79||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.79|0.53|<0.0001
82618579|NCT03675737|164952886|SUPERIORITY||Hazard Ratio (HR)|0.76|||<|0.0001|TWO_SIDED|95.0|0.67|0.85||One-sided p-value based on log-rank test stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||0.85|0.67|<0.0001
82618580|NCT03675737|164952887|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.63|0.82||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.82|0.63|<0.0001
82618581|NCT03675737|164952888|SUPERIORITY||Hazard Ratio (HR)|0.62|||<|0.0001|TWO_SIDED|95.0|0.51|0.76||One-sided p-value based on log-rank test stratified by geographic region and chemotherapy regimen with small strata collapsed.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by geographic region and chemotherapy regimen with small strata collapsed.|||0.76|0.51|<0.0001
82618582|NCT03675737|164952889|SUPERIORITY||Difference in Percentage|9.3||||9e-05|TWO_SIDED|95.0|4.4|14.1||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region, Programmed Cell Death Ligand 1 (PD-L1) status (Combined Positive Score \[CPS\] \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region, PD-L1 status (CPS \<1 versus CPS ≥1), and chemotherapy regimen with small strata collapsed.|||14.1|4.4|0.00009
82618583|NCT03675737|164952890|SUPERIORITY||Difference in Percentage|9.5||||0.00041|TWO_SIDED|95.0|3.9|15.0||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|||15.0|3.9|0.00041
82618584|NCT03675737|164952891|SUPERIORITY||Difference in Percentage|17.5||||2e-05|TWO_SIDED|95.0|9.3|25.5||One-sided p-value based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|Miettinen & Nurminen method||Based on Miettinen \& Nurminen method stratified by geographic region and chemotherapy regimen with small strata collapsed.|||25.5|9.3|0.00002
82618585|NCT02625324|164952907|SUPERIORITY||Event Rate|0.023|||<|0.0001|ONE_SIDED|97.5||0.081|||Exact binomial test|||"The primary study endpoint, major device effect at 30 days, is a dichotomous study outcome; hence, an exact method based on the binomial distribution was used for the hypothesis testing. The primary study endpoint was tested against a performance goal of 16%:~H0: p ≥ 16% vs. Ha: p \<16%, where p denotes the true event rate of primary study endpoint in the target population."||0.081||<0.0001
82618586|NCT02397694|164952921|NON_INFERIORITY|Noninferiority of treatment with BIC + F/TAF relative to treatment with DTG + F/TAF. Noninferiority assessed using a conventional 95% confidence interval (CI) approach, with a noninferiority margin of 12%|Difference in percentages|2.9||||0.5|TWO_SIDED|95.0|-8.5|14.2|||Cochran-Mantel-Haenszel|Cochran-Mantel Haenszel test stratified by baseline HIV-1 RNA stratum (≤ 100,000 copies/mL vs \> 100,000 copies/mL).||||14.2|-8.5|0.5
82618587|NCT00424528|164952941|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as covariate and treatment group as fixed effect.||||||<0.001
82618588|NCT00424528|164952941|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study Baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
82618589|NCT00424528|164952941|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||Primary analysis:Group 2 vs 3. Key secondary analysis: Group 1 vs 3. Multiple comparisons for the analysis of the primary endpoint were controlled at the 5% level.|ANCOVA|Study baseline FEV1 as a covariate and treatment group as fixed effect.||||||<0.001
82660269|NCT01299454|165037681|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.561|||||TWO_SIDED|90.0|0.308|1.022|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||1.022|0.308|
82618590|NCT00424528|164952942|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
82618591|NCT00424528|164952942|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.001
82618592|NCT00424528|164952943|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.001
82618593|NCT00424528|164952943|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||<0.001
82618594|NCT00424528|164952944|SUPERIORITY_OR_OTHER|||||||0.073||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.073
82618595|NCT00424528|164952944|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||||||0.050
82618596|NCT00424528|164952947|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANCOVA|Week 0 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 0 comparisons||||0.060
82618597|NCT00424528|164952947|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 0||||<0.001
82618598|NCT00424528|164952947|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Week 2 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 2 comparisons||||0.004
82618599|NCT00424528|164952947|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|Week 2 comparisons: Study baseline FEV1 as a covariate and treatment group as a fixed effect.||Week 2 comparisons||||0.002
82618600|NCT00424528|164952950|SUPERIORITY_OR_OTHER|||||||0.206||95.0|||||ANCOVA|Study baseline Inspiratory Capacity as a covariate and treatment group as a fixed effect.||||||0.206
82618601|NCT00424528|164952950|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||ANCOVA|Study baseline Inspiratory Capacity as a covariate and treatment group as a fixed effect.||||||0.025
82618602|NCT02115113|164952957|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.24|STANDARD_ERROR_OF_MEAN|5.01||0.3013|TWO_SIDED|95.0|-4.86|15.34|||ANOVA|||||15.34|-4.86|0.3013
82618603|NCT00789191|164952964|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.55||||0.001||95.0|-0.77|-0.33||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|Analysis of covariance (ANCOVA) was used; baseline HbA1c was included as covariate and treatment, stratification and country was included as factors||Null hypothesis: Difference between mean HbA1c in the two treatment arms is equal to zero. Power calculation: Assuming a standard deviation of 1.0 for HbA1c, 100 subjects in each treatment arm would be required to obtain a power of 80% for detecting a HbA1c difference of 0.4%||-0.33|-0.77|0.0010
82618604|NCT00789191|164952965|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.2||||0.001||95.0|1.65|6.19||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||6.19|1.65|0.0010
82618605|NCT00789191|164952966|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.47||||0.008||95.0|1.26|4.81||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||4.81|1.26|0.0080
82618606|NCT00789191|164952967|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.23||||0.063||95.0|0.96|5.2||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic|Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate||Null hypothesis: Odds ratio is equal to one.||5.20|0.96|0.063
82618607|NCT00789191|164952968|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07||||0.135||95.0|0.8|5.37||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|Regression, Logistic||Treatment group comparison using logistic regression model incl.treatment,stratification factor, country as fixed effects, baseline HbA1c as covariate|Null hypothesis: Odds ratio is equal to one.||5.37|0.8|0.135
82618608|NCT00789191|164952969|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28||||0.121||95.0|-0.07|0.63||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||0.63|-0.07|0.121
82618609|NCT00789191|164952970|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.84||||0.109||95.0|-0.19|1.88||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||1.88|-0.19|0.109
82618610|NCT00789191|164952971|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.45||||0.001||95.0|-3.01|-1.88||No corrections to adjust for multiplicity were performed. Statistical significance threshold was p\<0.05.|ANCOVA|An analysis of covariance (ANCOVA) was used; baseline was included as covariate and treatment, stratification and country was included as factors.||||-1.88|-3.01|0.0010
82618611|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.01||||||95.0|-2.5|-1.51|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before breakfast|||-1.51|-2.50|
82618612|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.64||||||95.0|-2.4|-0.89|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of breakfast|||-0.89|-2.40|
82618613|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||||95.0|-1.69|-0.35|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before lunch|||-0.35|-1.69|
82618614|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.3||||||95.0|-2.05|-0.56|||Linear mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of lunch|||-0.56|-2.05|
82618615|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.77||||||95.0|-1.58|0.05|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before dinner|||0.05|-1.58|
82618616|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.88||||||95.0|-1.75|-0.02|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. 120 minutes after start of dinner|||-0.02|-1.75|
82618617|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.04||||||95.0|-1.88|-0.2|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Bedtime|||-0.20|-1.88|
82618618|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.17||||||95.0|-1.84|-0.49|||Linear Mixed Model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. At 03:00 a.m.|||-0.49|-1.84|
82618619|NCT00789191|164952975|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||||95.0|-2.26|-1.34|||Linear Mixed-model|PG profile analysis:linear mixed effect model.Treatment,time,country,time-by-treatment interaction as explanatory variables.Subject as a random factor|COMB-SITA Difference. Before breakfast the following day|||-1.34|-2.26|
82618620|NCT03736629|164952990|SUPERIORITY||Mean Difference (Net)|-0.67|STANDARD_ERROR_OF_MEAN|1.72||0.72|TWO_SIDED|95.0|-6.14|4.81|||t-test, 2 sided|||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.||4.81|-6.14|0.72
82618621|NCT03736629|164952991|SUPERIORITY||Mean Difference (Net)|-5.67||||0.59|TWO_SIDED|95.0|-35.98|24.65|||t-test, 2 sided||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.|||24.65|-35.98|0.59
82618622|NCT03736629|164952994|SUPERIORITY|||||||1|||||||Fisher Exact|||Study did not reach its accrual goal. Sample size is too small to draw any conclusions.||||1.0
82618623|NCT00967226|164952998|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.06|STANDARD_DEVIATION|0.05||0.77|||||||t-test, 2 sided|||intention to treat analysis||||0.77
82618624|NCT03575884|164953033|SUPERIORITY||Study_arm timepoint interactions|-27.32|||<|0.05|TWO_SIDED|95.0|-52.49|-2.14|||Mixed Models Analysis|||||-2.14|-52.49|<0.05
82618625|NCT03709810|164953039|SUPERIORITY||Geometric Mean Ratio|0.19|||<|0.0001|TWO_SIDED|95.0|0.12|0.3|||ANOVA|Log10 peanuts mass as response variable, study product and period as fixed explanatory effects, and participant as a random effect.|GMR=(Experimental denture adhesive/ No Adhesive)|||0.30|0.12|<0.0001
82618626|NCT04866303|164953044|OTHER|unadjusted logistic regression model|Odds Ratio (OR)|1.79||||0.04|TWO_SIDED|95.0|1.03|2.8|||Regression, Logistic|||Minimum testing kit completion rate of 70% in the passive study arm, and calculated that 400 total subjects would provide us with 90% power to detect an effect size associated with a rate ratio of 1.20, or an absolute difference of 14% (70% in passive, 84% in active). A futility boundary of 60% was identified by Community Advisory Board members as justification to prematurely halt trial enrollment if, after completing 25% of expected enrollment, successful test completion fell below that rate.||2.80|1.03|0.04
82618627|NCT04866303|164953045|OTHER||Odds Ratio (OR)|1.39||||0.18|TWO_SIDED|95.0|0.86|2.26|||Regression, Logistic|||Minimum testing kit completion rate of 70% in the passive study arm, and calculated that 400 total subjects would provide us with 90% power to detect an effect size associated with a rate ratio of 1.20, or an absolute difference of 14% (70% in passive, 84% in active). A futility boundary of 60% was identified by Community Advisory Board members as justification to prematurely halt trial enrollment if, after completing 25% of expected enrollment, successful test completion fell below that rate||2.26|0.86|0.18
82618628|NCT02504268|164953050|SUPERIORITY|||||||0.2359|||||||Regression, Logistic|||||||0.2359
82618629|NCT02504268|164953051|SUPERIORITY|||||||0.0112|||||||Regression, Logistic|||||||0.0112
82618630|NCT02504268|164953052|SUPERIORITY|||||||0.0021|||||||Regression, Logistic|||||||0.0021
82618631|NCT02504268|164953053|SUPERIORITY||||||<|0.0001|||||||rank-based ANCOVA|||||||< 0.0001
82618632|NCT02504268|164953054|SUPERIORITY|||||||0.0006|||||||Regression, Logistic|||||||0.0006
82618633|NCT03025217|164953055|OTHER||Cohen's d|0.33||||0.095|TWO_SIDED||||||t-test, 2 sided|||||||.095
82618634|NCT03025217|164953056|OTHER||Cohen's d|0.75||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
82618635|NCT02344407|164953063|SUPERIORITY|||||||0.68|||||||Chi-squared|Bernards Exact Test Chi-square||Each active vaccine is compared to the placebo group||||0.68
82618636|NCT02344407|164953063|SUPERIORITY|||||||0.68|||||||Chi-squared|Barnard Exact Test Chi-square||||||0.68
82618637|NCT02344407|164953064|SUPERIORITY||||||<|0.001|||||||ANCOVA|Linear regression (analysis of covariance) adjusted for baseline antibody level||||||<0.001
82618638|NCT02344407|164953064|SUPERIORITY||||||<|0.001|||||||ANCOVA|Analysis of covariance adjusting for baseline antibody level||||||<0.001
82618639|NCT01088438|164953074|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|1 degree of freedom||Null hypothesis: proportion of encounters with contextual red flag in which appropriate treatment is planned is the same in the two groups.||||<0.001
82618640|NCT01088438|164953075|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|1 degree of freedom||Null hypothesis is equal proportion of contextual red flags probed in control and intervention groups.||||<.001
82618641|NCT01088438|164953076|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||Chi-squared|1 df||Null hypothesis is equal proportion of encounters probed in control and intervention groups.||||0.85
82618642|NCT00511342|164953092|SUPERIORITY_OR_OTHER_LEGACY||Difference of adjusted means|-0.078||||0.19|TWO_SIDED|95.0|-0.198|0.041||No corrections for multiple comparisons were made for these safety parameters. The a-priori threshold for statistical significance was 0.05.|ANCOVA|The ANCOVA included the Z-score values at baseline as adjusted factor.|NOMAC-E2 minus LNG-EE for lumbar spine (L2-L4)|||0.041|-0.198|0.19
82618643|NCT00511342|164953092|SUPERIORITY_OR_OTHER_LEGACY||Difference of adjusted means|-0.03||||0.57|TWO_SIDED|95.0|-0.136|0.075||No corrections for multiple comparisons were made for these safety parameters. The a-priori threshold for statistical significance was 0.05.|ANCOVA|The ANCOVA included the Z-score values at baseline as adjusted factor.|NOMAC-E2 minus LNG-EE for femoral neck|||0.075|-0.136|0.57
82618644|NCT01580592|164953157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_DEVIATION|7.6||0.001|TWO_SIDED||||||ANOVA||for omalizumab 150mg|||||0.001
82618645|NCT01580592|164953157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.4|STANDARD_DEVIATION|9.4||0.01|TWO_SIDED||||||ANOVA|||||||0.01
82618646|NCT01580592|164953157|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|STANDARD_DEVIATION|3.9|||TWO_SIDED|||||||||||||
82618647|NCT01580592|164953158|SUPERIORITY_OR_OTHER|||||||0.988|||||||Chi-squared|||||||0.988
82618648|NCT03471767|164953165|SUPERIORITY|Multilevel modeling (MLM) was used to model daily reports of cigarettes smoked as a function of week, treatment (AXS-05 vs. bupropion), and the interaction between week and treatment. The contrast between the two treatment groups in change in smoking intensity from baseline to week 3 was estimated within the context of the model.|Mean Difference (Final Values)|-1.7|STANDARD_ERROR_OF_MEAN|0.54||0.05|TWO_SIDED|95.0|-2.75|-0.65||This was not adjusted for multiple comparisons, because the primary hypothesis was established a-priori.|t-test, 2 sided|||||-0.65|-2.75|0.05
82618649|NCT03471767|164953171|OTHER|||||||0.15|||||||t-test, 2 sided|||||||0.15
82618650|NCT05373706|164953173|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.95||||0.68|TWO_SIDED|95.0|0.76|1.2|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.20|0.76|0.68
82660270|NCT01299454|165037682|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.558|||||TWO_SIDED|90.0|0.368|0.845|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.845|0.368|
82660271|NCT01299454|165037682|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.516|||||TWO_SIDED|90.0|0.341|0.781|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.781|0.341|
82660272|NCT01299454|165037682|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was claimed for a PK parameter if the 90% CI for the ratio of the geometric means of a PK variable fell within the interval \[0.5, 2.0\]. Due to the nature of the normal-theory CIs, this approach was equivalent to carrying out two 1-sided tests of hypothesis at the 5% level of significance.|Geometric Mean Ratio|0.314|||||TWO_SIDED|90.0|0.195|0.507|||Mixed effect analysis of variance|||The secondary comparisons were each hepatic disease group (mild, moderate or severe) versus the control (normal group). To compare the secondary PK parameters between each hepatic disease group and the control group, the 90% CI for the difference in the means of the log-transformed data was calculated using a mixed effect analysis of variance.||0.507|0.195|
82660273|NCT02576938|165037703|SUPERIORITY||||||=|0.065|||||||Chi-squared|||||||=0.065
82660274|NCT02576938|165037703|SUPERIORITY||||||=|0.027|||||||Chi-squared|||||||=0.027
82660275|NCT00968812|165037712|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and glimepiride of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.0125, and assuming a drop-out rate of 35% in 52 weeks, it was estimated that approximately 427 patients per group would provide 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with glimepiride.|Least-Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.109|0.085|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to glimepiride at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus glimepiride\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to glimepiride would be concluded.||0.085|-0.109|
82660276|NCT00968812|165037712|NON_INFERIORITY_OR_EQUIVALENCE|Power calculation: assuming a difference between canagliflozin and glimepiride of 0.0% and a common standard deviation of 1.0%, and using a 2-sample, 1-sided t-test with a Type I error rate of 0.0125, and assuming a drop-out rate of 35% in 52 weeks, it was estimated that approximately 427 patients per group would provide 90% power to demonstrate non-inferiority with the non-inferiority margin of 0.3, comparing canagliflozin with glimepiride|Least-Squares Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05|||TWO_SIDED|95.0|-0.217|-0.023|||ANCOVA|||If the hypothesis of non-inferiority of canagliflozin to glimepiride at Week 52 was demonstrated (ie, upper bound of the 95% Confidence Interval of the treatment difference \[canagliflozin minus glimepiride\] was less than 0.3) and the upper bound was less than 0.0, the superiority of the canagliflozin dose relative to glimepiride would be concluded.||-0.023|-0.217|
82660277|NCT00968812|165037713|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.1|||<|0.001|TWO_SIDED|95.0|0.06|0.16|||Regression, Logistic|||||0.16|0.06|<0.001
82618651|NCT05373706|164953173|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.1||||0.56|TWO_SIDED|95.0|0.81|1.49|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.49|0.81|0.56
82618652|NCT05373706|164953174|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.93||||0.68|TWO_SIDED|95.0|0.64|1.33|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.33|0.64|0.68
82618653|NCT05373706|164953174|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.24||||0.3|TWO_SIDED|95.0|0.82|1.88|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.88|0.82|0.30
82660278|NCT00968812|165037713|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.09|||<|0.001|TWO_SIDED|95.0|0.05|0.14|||Regression, Logistic|||||0.14|0.05|<0.001
82660279|NCT00968812|165037714|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.2|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-5.7|-4.7|||ANCOVA|||||-4.7|-5.7|<0.001
82660280|NCT00968812|165037714|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|0.3|<|0.001|TWO_SIDED|95.0|-6.2|-5.1|||ANCOVA|||||-5.1|-6.2|<0.001
82660281|NCT00968812|165037715|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.2|0.01|||ANCOVA|||||0.010|-0.200|
82660282|NCT00968812|165037715|SUPERIORITY_OR_OTHER||Least-Squares Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.054|||TWO_SIDED|95.0|-0.289|-0.078|||ANCOVA|||||-0.078|-0.289|
82618654|NCT05373706|164953175|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.89||||0.36|TWO_SIDED|95.0|0.69|1.15|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.15|0.69|0.36
82618655|NCT05373706|164953175|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|1.05||||0.73|TWO_SIDED|95.0|0.8|1.38|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.38|0.80|0.73
82618656|NCT05373706|164953176|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 2-Week Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 2-Week Follow-Up.|Count/Rate Ratio|0.83||||0.11|TWO_SIDED|95.0|0.66|1.04|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 2-Week Follow-Up for PFI versus AOC reported in this section.||1.04|0.66|0.11
82618657|NCT05373706|164953176|SUPERIORITY|Generalized linear mixed model was estimated using a sample of N=99 with a Condition × 3-Month Follow-Up interaction. AOC was the reference category for Condition, and Baseline was the reference category for 3-Month Follow-Up.|Count/Rate Ratio|0.88||||0.38|TWO_SIDED|95.0|0.66|1.17|||Generalized linear mixed model|Models controlled for sex assigned at birth, age, and student status (4-year vs. not) and used a Poisson error distribution.||Changes from Baseline to 3-Month Follow-Up for PFI versus AOC reported in this section.||1.17|0.66|0.38
82618658|NCT03483506|164953212|OTHER||Geometric mean ratio|8.34|STANDARD_DEVIATION|50.5|||TWO_SIDED|90.0|5.88|11.82|||ANOVA||"Standard deviation is actually intra individual geometric coefficient of variation. BI 1467335 tab arm is the numerator, while BI 1467335 (C-14) iv arm is the denominator."|The statistical model used for the analysis of the primary PK endpoints was an ANOVA (analysis of variance) model on the logarithmic scale. The model included effects accounting for 'subject' and 'formulation' as sources of variation; 'subject' was considered as a random effect, whereas 'formulation' was considered as a fixed effect.||11.82|5.88|
82618659|NCT03483506|164953214|OTHER||Geometric mean ratio|62.14|STANDARD_DEVIATION|24.4|||TWO_SIDED|90.0|52.08|74.14|||ANOVA||"Standard deviation is actually intra individual geometric coefficient of variation. BI 1467335 tab arm is the numerator, while BI 1467335 (C-14) iv arm is the denominator."|The statistical model used for the analysis of the primary PK endpoints was an ANOVA (analysis of variance) model on the logarithmic scale. The model included effects accounting for 'subject' and 'formulation' as sources of variation; 'subject' was considered as a random effect, whereas 'formulation' was considered as a fixed effect.||74.14|52.08|
82618660|NCT01683071|164953227|SUPERIORITY||LSMD|2.9||||0.9494|TWO_SIDED|95.0|-88.0|94.0|||ANCOVA|||||94|-88|0.9494
82618661|NCT01683071|164953227|SUPERIORITY||LSMD|-103.3||||0.0237|TWO_SIDED|95.0|-192.0|-14.0|||ANCOVA|||||-14|-192|0.0237
82618662|NCT01683071|164953227|SUPERIORITY||LSMD|-94.3||||0.0386|TWO_SIDED|95.0|-184.0|-5.0|||ANCOVA|||||-5|-184|0.0386
82618663|NCT01683071|164953227|SUPERIORITY||LSMD|-96.5|||<|0.0001|TWO_SIDED|95.0|-144.0|-49.0|||ANCOVA|||||-49|-144|<0.0001
82618664|NCT01683071|164953228|SUPERIORITY||Geometric LSM ratio|0.9||||0.6182|TWO_SIDED|95.0|0.6|1.3|||ANOVA|||||1.3|0.6|0.6182
82618665|NCT01683071|164953228|SUPERIORITY||Geometric LSM ratio|0.73||||0.1097|TWO_SIDED|95.0|0.5|1.1|||ANOVA|||||1.1|0.5|0.1097
82618666|NCT01683071|164953228|SUPERIORITY||Geometric LSM ratio|0.85||||0.4046|TWO_SIDED|95.0|0.6|1.3|||ANOVA|||||1.3|0.6|0.4046
82618667|NCT01683071|164953228|SUPERIORITY||Geometric LSM ratio|0.74||||0.0016|TWO_SIDED|95.0|0.6|0.9|||ANOVA|||||0.9|0.6|0.0016
82618668|NCT00961662|164953244|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.5|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED|95.0|||||ANCOVA|||The HbA1c percent change at each study visit was calculated and then categorized as a binary response (i.e., responders and non-responders) for each subject based on the breakpoint to be used in the endpoint. Inferential statistics were prepared to compare the differences across the three treatments a using logistic regression model with the dose group and the HbA1c stratum included in the mode||||<0.05
82618669|NCT01042613|164953250|SUPERIORITY_OR_OTHER||Difference of the Binomial Proportions|0.02||||0.851||95.0|||||Fisher Exact|||||||.851
82618670|NCT01042613|164953251|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22||||0.105||95.0|||||Wilcoxon (Mann-Whitney)|||||||.105
82618671|NCT01042613|164953252|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||.8
82618672|NCT00333619|164953267|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||ANOVA|||||||0.10
82618673|NCT00333619|164953268|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
82618674|NCT03209440|164953269|SUPERIORITY||Mean Difference (Net)|1.67|STANDARD_ERROR_OF_MEAN|0.73||0.02|TWO_SIDED||||||Regression, Linear|||||||0.02
82618675|NCT03209440|164953269|SUPERIORITY||Mean Difference (Net)|2.07|STANDARD_ERROR_OF_MEAN|0.74||0.005|TWO_SIDED||||||Regression, Linear|||||||0.005
82618676|NCT03209440|164953270|SUPERIORITY||Mean Difference (Net)|-0.62|STANDARD_ERROR_OF_MEAN|0.49||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
82492757|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.663|TWO_SIDED|95.0|0.294|6.858|||Regression, Logistic|||≥10 letters gain||6.858|0.294|0.6630
82618677|NCT03209440|164953270|SUPERIORITY||Median Difference (Net)|-0.79|STANDARD_ERROR_OF_MEAN|0.5||0.12|TWO_SIDED||||||Regression, Linear|||||||0.12
82618678|NCT03209440|164953271|SUPERIORITY||Mean Difference (Net)|0.9|STANDARD_ERROR_OF_MEAN|0.72||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
82499439|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.52|STANDARD_ERROR_OF_MEAN|8.8||||90.0|-24.04|5.0|||ANCOVA|||Extension Month 27; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||5.00|-24.04|
82618679|NCT03209440|164953271|SUPERIORITY||Mean Difference (Net)|0.91|STANDARD_ERROR_OF_MEAN|0.73||0.21|TWO_SIDED||||||Regression, Linear|||||||0.21
82618680|NCT03209440|164953272|SUPERIORITY||Odds Ratio, log|1.0|STANDARD_ERROR_OF_MEAN|0.62||0.11|TWO_SIDED||||||Regression, Logistic|||||||0.11
82618681|NCT03209440|164953272|SUPERIORITY||Odds Ratio, log|0.96|STANDARD_ERROR_OF_MEAN|0.64||0.14|TWO_SIDED||||||Regression, Logistic|||||||0.14
82618682|NCT03209440|164953273|SUPERIORITY||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.17||0.05|TWO_SIDED||||||Regression, Linear|"The outcome variable was scored as 1= prolong life; treat everything to 4 = provide comfort care only."||||||0.05
82618683|NCT03209440|164953273|SUPERIORITY||Mean Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.18||0.46|TWO_SIDED||||||Regression, Linear|"The outcome variable was scored as 1= prolong life; treat everything to 4 = provide comfort care only."||||||0.46
82618684|NCT03583372|164953332|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.4|||||TWO_SIDED|95.0|-2.9|-2.0||||||||-2.0|-2.9|
82618685|NCT03583372|164953332|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.0|||||TWO_SIDED|95.0|-2.5|-1.5||||||||-1.5|-2.5|
82618686|NCT03583372|164953333|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.2|||||TWO_SIDED|95.0|-2.5|-1.9||||||||-1.9|-2.5|
82618687|NCT03583372|164953333|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-1.7|||||TWO_SIDED|95.0|-2.0|-1.3||||||||-1.3|-2.0|
82618688|NCT03583372|164953334|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-3.4|||||TWO_SIDED|95.0|-4.0|-2.7||||||||-2.7|-4.0|
82618689|NCT03583372|164953334|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-3.2|||||TWO_SIDED|95.0|-4.0|-2.5||||||||-2.5|-4.0|
82618690|NCT03583372|164953335|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-2.5|||||TWO_SIDED|95.0|-2.8|-2.2||||||||-2.2|-2.8|
82618691|NCT03583372|164953335|OTHER|Estimation of within treatment group change from Baseline|Least squares mean|-1.9|||||TWO_SIDED|95.0|-2.3|-1.6||||||||-1.6|-2.3|
82618692|NCT00831441|164953358|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95||||0.5094|TWO_SIDED|95.0|0.8|1.11|||Cox proportional hazard models|||A test of superiority at the one-sided α = 0.025 significance level for the primary efficacy outcome was performed.||1.11|0.80|0.5094
82618693|NCT00831441|164953359|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.6702|TWO_SIDED|95.0|0.7|1.26|||Cox proportional hazard models|||||1.26|0.70|0.6702
82618694|NCT00831441|164953360|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.6311|TWO_SIDED|95.0|0.57|1.4|||Cox proportional hazard models|||||1.40|0.57|0.6311
82618695|NCT00831441|164953361|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.5086|TWO_SIDED|95.0|0.76|1.14|||Cox proportional hazard models|||||1.14|0.76|0.5086
82618696|NCT00831441|164953362|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.1502|TWO_SIDED|95.0|0.47|1.12|||Cox proportional hazard models|||||1.12|0.47|0.1502
82618697|NCT00831441|164953363|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.4317|TWO_SIDED|95.0|0.82|1.09|||Cox proportional hazard models|||||1.09|0.82|0.4317
82618698|NCT00831441|164953364|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.8015|TWO_SIDED|95.0|0.83|1.15|||Cox proportional hazard models|||||1.15|0.83|0.8015
82618699|NCT00831441|164953365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.8948|TWO_SIDED|95.0|0.85|1.15|||Cox proportional hazard models|||||1.15|0.85|0.8948
82618700|NCT00831441|164953366|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.59||||0.0006|TWO_SIDED|95.0|1.5|4.46|||Cox Proportional Hazard model|||A point estimate and two-sided 95% confidence interval (CI) for relative risk, as measured by the hazard ratio and a p-value for the test of equality of rates (HR = 1) was calculated.||4.46|1.50|0.0006
82618701|NCT00831441|164953367|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.48|||<|0.0001|TWO_SIDED|95.0|1.72|3.58|||Cox Proportional Hazard model|||||3.58|1.72|<0.0001
82618702|NCT00831441|164953368|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.64|||<|0.0001|TWO_SIDED|95.0|1.87|3.72|||Cox Proportional Hazard model|||||3.72|1.87|<0.0001
82618703|NCT00831441|164953369|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.36|||<|0.0001|TWO_SIDED|95.0|2.06|2.7|||Cox Proportional Hazard model|||||2.70|2.06|<0.0001
82618704|NCT01640925|164953374|NON_INFERIORITY_OR_EQUIVALENCE|The number of patients needed to achieve 80% power was estimated at 171 using Cox proportional hazards regression (hazard ratio reduction of 0.66; 0.15 probability of infection with control) using a two-sided 5% significance.|Cox Proportional Hazard|0.555||||0.049|TWO_SIDED|95.0|0.309|0.998|||Regression, Cox||Hypothesis: Compared to soap and water daily bathing, 2% chlorhexidine gluconate bathing on ICU admission and every 48 hours during surgical ICU care will decrease the risk of acquiring four hospital-acquired infections in surgical ICU patients.|||0.998|0.309|0.049
82618705|NCT00442013|164953398|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.086||0.12|TWO_SIDED|95.0|0.0|0.3|||Regression, Linear|Linear mixed effects model is robust to data that are missing at random that has characteristics similar to multiple imputation techniques.||All participants included in the analysis. The model includes the data (ACQ scores) from all time points including baseline. The treatment effect (delta-delta) comparing the difference from baseline at 6 months is estimated from the model. Longitudinal models estimated the change from baseline to 6 months in a measurement using generalized estimating equations with an unstructured or exchangeable covariance matrix to adjust for repeated measures.||0.3|0.0|0.12
82618706|NCT00442013|164953399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.1|STANDARD_ERROR_OF_MEAN|0.2593||0.65|TWO_SIDED|95.0|-0.3|0.2|||Regression, Linear|||||0.2|-0.3|0.65
82618707|NCT00442013|164953400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0|STANDARD_ERROR_OF_MEAN|0.0906||0.99|TWO_SIDED|95.0|-0.1|0.1|||Regression, Linear|||||0.1|-0.1|0.99
82618708|NCT00442013|164953401|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.2||||0.3|TWO_SIDED|95.0|0.9|1.7|||negative binomial|||||1.7|0.9|0.30
82618709|NCT00442013|164953402|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.02||0.14|TWO_SIDED|95.0|-0.07|0.01|||Regression, Linear|Model includes the data from all time points. Treatment effect (delta-delta) comparing the difference from baseline at 24 weeks is from the model.||||0.01|-0.07|0.14
82618710|NCT00442013|164953403|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.8||||0.2|TWO_SIDED|95.0|-2.1|0.4|||Regression, Linear|||||0.4|-2.1|0.20
82618711|NCT00485589|164953415|NON_INFERIORITY|Pre-specified analysis||||||0.001|||||||Van Elteren's test|||||||0.001
82618712|NCT00485589|164953415|NON_INFERIORITY|Pre-specified analysis||||||0.0033|||||||Van Elteren's test|||||||0.0033
82618713|NCT04348656|164953419|SUPERIORITY||Risk Ratio (RR)|1.16||||0.18|TWO_SIDED|95.0|0.94|1.43|||wald test|||||1.43|0.94|0.18
82618714|NCT04348656|164953420|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.3|TWO_SIDED|95.0|0.89|1.47|||Regression, Cox|||||1.47|0.89|0.30
82618715|NCT04348656|164953421|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.41|TWO_SIDED|95.0|-2.1|0.7|||t-test, 2 sided|bootstrap estimates based on resampling process|bootstrap estimates based on resampling process|||0.7|-2.1|0.41
82618716|NCT04348656|164953422|SUPERIORITY||Risk Ratio (RR)|1.12||||0.4|TWO_SIDED|95.0|0.86|1.46|||wald test|||||1.46|0.86|0.40
82618717|NCT04348656|164953423|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.22|TWO_SIDED|95.0|-0.3|1.7|||t-test, 2 sided|||||1.7|-0.3|0.22
82618718|NCT04348656|164953424|SUPERIORITY||Risk Ratio (RR)|0.83||||0.72|TWO_SIDED|95.0|0.31|2.27|||t-test, 2 sided|bootstrap estimates based on resampling process|bootstrap estimates based on resampling process|||2.27|0.31|0.72
82618719|NCT04348656|164953427|SUPERIORITY||Risk Ratio (RR)|1.13||||0.33|TWO_SIDED|95.0|0.88|1.45|||wald test|||||1.45|0.88|0.33
82618720|NCT04348656|164953428|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.91|TWO_SIDED|95.0|0.76|1.35|||Regression, Cox|competing risk analysis|competing risk analysis|||1.35|0.76|0.91
82618721|NCT04348656|164953429|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.18|TWO_SIDED|95.0|0.8|1.04|||Regression, Cox|||||1.04|0.80|0.18
82618722|NCT04348656|164953430|SUPERIORITY||Risk Ratio (RR)|1.53||||0.03|TWO_SIDED|95.0|1.04|2.26|||wald test|||||2.26|1.04|0.03
82618723|NCT04348656|164953430|SUPERIORITY||Hazard Ratio (HR)|1.7||||0.02|TWO_SIDED|95.0|1.08|2.69|||Regression, Cox|competing risk analysis|competing risk analysis|The cumulative incidence of Grade 3 and 4 serious AEs is described as a hazard ratio.||2.69|1.08|0.02
82618724|NCT04348656|164953432|SUPERIORITY||Risk Ratio (RR)|1.27||||0.03|TWO_SIDED|95.0|1.02|1.57|||wald test|||||1.57|1.02|0.03
82618725|NCT04348656|164953435|OTHER|Incremental cost per quality-adjusted life day gained (ICER)- this is a summary measure of the cost-effectiveness of the intervention, compared to the control group. This is calculated using the cost (derived from cost of the intervention and cost of hospital stay based on the payer's perspective) per patient and the quality-adjusted life days calculated using the EQ-5D-5L results.|ICER (CAD)|-44623.01|||||TWO_SIDED|95.0|-525369.24|436123.22|||||ICER is reported in Canadian dollars. 95% CI is calculated by 1000 bootstrap sampling using bias-corrected accelerated method.|||436123.22|-525369.24|
82618726|NCT03072719|164953444|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.19||||0.1774|TWO_SIDED|95.0|-0.46|0.09||From ANCOVA model: Treatment as fixed factor, baseline Schiff Sensitivity score as covariate.|ANCOVA||Difference is 0.454% stannous fluoride minus 0.76% sodium monofluorophosphate such that a negative difference favours first named treatment.|"H0 : The difference in Schiff Sensitivity Score at Day 14 between the experimental dentifrice and reference dentifrice is zero.~H1 : The difference in Schiff Sensitivity Score at Day 14 between the experimental dentifrice and reference dentifrice is not zero."||0.09|-0.46|0.1774
82618727|NCT02665364|164953563|SUPERIORITY||arithmetic mean|-30.2802|STANDARD_ERROR_OF_MEAN|5.2588|<|0.0001|TWO_SIDED|95.0|-40.6653|-19.8951|||ANCOVA|||The percent of change from baseline to last available value between W24 and W36 of treatment in the expression of IFN-induced genes was analyzed using an analysis of covariance (ANCOVA) model.||-19.8951|-40.6653|< 0.0001
82618728|NCT02665364|164953564|SUPERIORITY||Odds Ratio (OR)|1.38||||0.34|TWO_SIDED|95.0|0.716|2.657|||Regression, Logistic|||Descriptive statistics for the response to treatment according to BICLA at week 36 were presented by treatment group. The response to treatment according to BICLA was analyzed using a logistic regression with the response rate as dependent variable and treatment as independent variable, while adjusting for the minimization factors used for randomization.||2.657|0.716|0.34
82618729|NCT02665364|164953565|SUPERIORITY||Odds Ratio (OR)|1.18||||0.6243|TWO_SIDED|95.0|0.602|2.329|||Regression, Logistic|||The SRI-4 response was analyzed using a logistic regression using the response rate as dependent variable and treatment as independent variable, while adjusting for the minimization factors used for randomization.||2.329|0.602|0.6243
82618730|NCT02665364|164953566|SUPERIORITY|||||||0.0022|||||||Pearson's Chi-squared|||||||0.0022
82618731|NCT02665364|164953567|SUPERIORITY|||||||0.7946|||||||Wilcoxon (Mann-Whitney)|||Baseline to last available value between W24 and W36||||0.7946
82618732|NCT02665364|164953568|SUPERIORITY|||||||0.9224|||||||student - pooled|||||||0.9224
82618733|NCT02665364|164953569|SUPERIORITY|||||||0.3258|||||||student - pooled|||||||0.3258
82618734|NCT02665364|164953570|SUPERIORITY|||||||0.6169|||||||Student - Satterthwaite|||||||0.6169
82618735|NCT02665364|164953571|SUPERIORITY||Odds Ratio (OR)|1.81||||0.0796|TWO_SIDED|95.0|0.932|3.524|||Regression, Logistic|||||3.524|0.932|0.0796
82618736|NCT02665364|164953572|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0762|TWO_SIDED|95.0|0.938|3.574|||Regression, Logistic|||||3.574|0.938|0.0762
82618737|NCT02665364|164953575|SUPERIORITY|||||||0.0097|||||||Student - Satterthwaite|||||||0.0097
82618738|NCT02665364|164953576|SUPERIORITY|||||||0.0425|||||||Pearson's Chi-squared|||||||0.0425
82618739|NCT02665364|164953577|SUPERIORITY|||||||0.0396|||||||Pearson's Chi-squared|||||||0.0396
82618740|NCT03888391|164953578|SUPERIORITY|||||||0.2|||||||Mixed Models Analysis|Time: F = 1.72, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.20
82618741|NCT03888391|164953580|SUPERIORITY||||||<|0.0001|||||||Mixed Models Analysis|Time: F = 44.47, df = 1/33||Outcomes fitted via a mixed model with time as a predictor.||||<.0001
82618742|NCT03888391|164953581|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|Time: F = 15.74, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.0004
82618743|NCT03888391|164953582|SUPERIORITY|||||||0.6|||||||Mixed Models Analysis|Time: F = .28, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.60
82618744|NCT03888391|164953583|SUPERIORITY|||||||0.32|||||||Mixed Models Analysis|Time: F = 1.04, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.32
82618745|NCT03888391|164953584|SUPERIORITY|||||||0.27|||||||Mixed Models Analysis|Time: F = 1.27, df = 1/34||Outcomes fitted via a mixed model with time as a predictor.||||.27
82492758|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.55||||0.4941|TWO_SIDED|95.0|0.441|5.444||P-value was calculated as a point estimate.|Regression, Logistic|||≥5 letters gain||5.444|0.441|0.4941
82618746|NCT01954251|164953596|NON_INFERIORITY_OR_EQUIVALENCE|Comparison at one month after the last dose of HZ/su was performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non-inferior compared to the Control group in terms of immunogenicity if the UL of the 2-sided 95% CI of the ratio of GMs between the Control and the Co-Ad group (Control over GSK1437173A + GSK2321138A) was below 1.5.|Adjusted Geometric mean concentration ra|1.08|||||TWO_SIDED|95.0|0.97|1.2||||||Adjusted ratios of Control group over GSK1437173A + GSK2321138A group in anti-gE antibody ELISA concentrations GMCs at one month after last vaccine dose. An Analysis of Covariance (ANCOVA) model was used to analyse post-vaccination log-transformed concentrations of anti-gE. The fixed-effect model included the minimisation variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate.||1.20|0.97|
82618747|NCT01954251|164953597|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.04|||||TWO_SIDED|95.0|0.88|1.22||||||For the Flu A/California/7/2009 H1N1 strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.22|0.88|
82618748|NCT01954251|164953597|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.03|||||TWO_SIDED|95.0|0.91|1.17||||||For the Flu A/Texas/50/2012 H3N2 strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.17|0.91|
82618749|NCT01954251|164953597|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|1.07|||||TWO_SIDED|95.0|0.95|1.2||||||For the Flu B/Brisbane/60/2008 Victoria strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.20|0.95|
82618750|NCT01954251|164953597|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons at Day 21 after the FLU-D-QIV dose were performed between the Control group and GSK1437173A + GSK2321138A group. The GSK1437173A + GSK2321138A group was considered as statistically significant non inferior compared to the Control group in terms of immunogenicity (for each strain) if the UL of 2-sided 95% CI of the ratio of GMTs between the Control and the GSK1437173A + GSK2321138A (Control/ GSK1437173A + GSK2321138A) group is below 1.5.|Adjusted geometric mean Titer ratio|0.98|||||TWO_SIDED|95.0|0.88|1.09||||||For the Flu B/Massachusetts/2/2012 Yamagata strain ,an ANOVA model was used to analyze post-vaccination log-transformed titers. The fixed-effect model included the minimization variable (age cohorts) and the treatment as fixed effect. The pre-vaccination log-transformed concentrations were included as continuous covariate. GMs of post-vaccination titers (Day 21) were calculated conditionally to the means of the pre-vaccination log-transformed titers (Month 0) for this strain.||1.09|0.88|
82618751|NCT00678587|164953627|SUPERIORITY_OR_OTHER||Absolute difference in proportions|52.8|||<|0.0001|TWO_SIDED|95.0|43.2|62.4|||Cochran-Mantel-Haenszel|||||62.4|43.2|<0.0001
82618752|NCT00678587|164953628|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-5.9|||||TWO_SIDED|95.0|-15.1|3.3||||||||3.3|-15.1|
82618753|NCT00678587|164953629|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82618754|NCT00077610|164953643|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority was based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.75 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.004|STANDARD_ERROR_OF_MEAN|0.0973|<|0.0001|TWO_SIDED|97.5|-0.215|0.223|||ANCOVA, CI for difference between groups||Difference between groups based on the adjusted means derived from the ANCOVA model|The non-inferiority test for treatment differences in Hb change from baseline, based on analysis of co-variance (ANCOVA) analysis with a non-inferiority limit of -0.75 g/dL.||0.223|-0.215|<0.0001
82660283|NCT01593852|165037716|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical dose observations, a sample size of 68 patients per study group (i.e. 62 evaluable patients for 10% dropout rate) for a total of 136 patient randomized will allow for 80% power to detect for approximately 40% reduction in dose area product (DAP). This sample size will allow for detection of approximately 40% reduction in air kerma (AK). No adjustment for multiple endpoints was performed as both endpoints are assessing radiation dose.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82660284|NCT01593852|165037724|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Based on historical dose observations, a sample size of 68 patients per study group (i.e. 62 evaluable patients for 10% dropout rate) for a total of 136 patient randomized will allow for 80% power to detect for approximately 40% reduction in dose area product (DAP). This sample size will allow for detection of approximately 40% reduction in air kerma (AK). No adjustment for multiple endpoints was performed as both endpoints are assessing radiation dose.|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82618755|NCT00077610|164953643|NON_INFERIORITY_OR_EQUIVALENCE|The two RO0503821 dosing schedules were compared separately to epoetin reference using ANCOVA, with Hb at BL and region as the covariates. The test for non-inferiority was based on the lower limit of the two-sided 97.5% confidence interval for the difference between the two groups. When the lower limit was greater than or equal to -0.3 g/dL, the RO0503821 groups were regarded as non-inferior to the epoetin reference group. The confidence level of 97.5% was chosen to adjust for multiplicity.|Mean Difference between groups|0.051|STANDARD_ERROR_OF_MEAN|0.0997|<|0.0001|TWO_SIDED|97.5|-0.173|0.275|||ANCOVA, CI for difference between groups||Difference between groups based on the adjusted means derived from the ANCOVA model|The non-inferiority test for treatment differences in Hb change from baseline, based on ANCOVA analysis with a non-inferiority limit of -0.75 g/dL.||0.275|-0.173|<0.0001
82618756|NCT00305253|164953652|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.38||||0.019|TWO_SIDED|95.0|0.17|0.85|||Regression, Logistic|Independent variables were selected on the basis of their significant association with EAO in bivariate analyses (t-tests and logistic regression).|Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|"Relative risks and confidence intervals were computed for the primary outcome, Extreme Adverse Outcomes (EAO) - a combined measure of maternal mortality or severe mobidity.~To estimate the independent effect of the intervention net of the effects of other baseline characteristics, a multiple logistic regression model was used."||0.85|0.17|0.019
82618757|NCT00305253|164953653|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.79|||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided||Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|Mean measured volume of blood loss in the drape was compared across phases with t-tests.||||<0.0001
82618758|NCT00305253|164953654|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.41|||<|0.05|TWO_SIDED|95.0|0.21|0.8|||t-test, 2 sided||Pre-Intervention group was compared to the Post-Intervention group. Each group contained different study participants.|Relative risks and confidence intervals were computed for emergency hysterectomy.||0.80|0.21|<0.05
82618759|NCT01019486|164953656|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between arms with two tailed analysis||||<0.05
82618760|NCT01019486|164953656|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between arms with two tailed analysis.||||<0.05
82618761|NCT01019486|164953656|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||t-test, 2 sided|||Independent Student t test between groups with two-tailed analysis||||<0.05
82618762|NCT01019486|164953657|NON_INFERIORITY_OR_EQUIVALENCE|If sufficient subjects were enrolled then it would be expected that the MRI measurement of myocardial blood flow MBF would similar or equivalent to the invasively measured CFR in response to intravenous regadenoson administration.|None insufficient data|2.0||||0.05|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||No analysis was performed due to limited data.||||0.05
82618763|NCT01019486|164953658|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Comparison between groups using a two-tailed Student t test||||<.05
82618764|NCT01975935|164953668|SUPERIORITY|||||||0.05||||||This is the calculated p value and not the threshold for statistical significance.|t-test, 2 sided|||||||0.05
82660285|NCT00571064|165037727|SUPERIORITY_OR_OTHER|||||||0.6593|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||0.6593
82660286|NCT00571064|165037727|SUPERIORITY_OR_OTHER|||||||0.6048|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.6048
82660287|NCT00571064|165037727|SUPERIORITY_OR_OTHER|||||||0.5924|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.5924
82618765|NCT01975935|164953669|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||0.38
82618766|NCT01975935|164953670|SUPERIORITY|||||||0.51|||||||t-test, 2 sided|||||||0.51
82618767|NCT02402218|164953671|SUPERIORITY|||||||0.11||||||For the primary and secondary outcomes, the proportion of participants with the outcome in each group was compared using a chi-square test.|Chi-squared|||Sample size was based on an estimated HCV treatment initiation rate of 50% in the UC group (based on a 33% rate observed during the interferon era) and 80% in the intervention groups, a significance level of 0.05, a desired ratio of participants in the intervention group compared to UC group of 3 to 2, and power of 80% to detect this difference between groups. The study was not powered to detect differences between the peer and cash groups.||||.11
82618768|NCT02402218|164953672|SUPERIORITY|||||||0.22|||||||Chi-squared|||||||.22
82618769|NCT02402218|164953674|SUPERIORITY|||||||0.33|||||||Chi-squared|||changes in the frequency of drug and alcohol use before and during treatment were compared using chi-square tests to evaluate the safety of cash incentives.||||0.33
82618770|NCT02402218|164953675|SUPERIORITY|||||||0.3||||||changes in the frequency of drug and alcohol use before and during treatment were compared using chi-square tests to evaluate the safety of cash incentives.|Chi-squared|||||||0.30
82618771|NCT02768194|164953691|SUPERIORITY||Mean Difference (Net)|-0.11||||0.5512|TWO_SIDED|95.0|-0.46|0.25||From the MMRM model with change from pre-dose as response, participant as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.25|-0.46|0.5512
82660288|NCT00571064|165037728|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||<0.0001
82660289|NCT00571064|165037728|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||<0.0001
82660290|NCT00571064|165037728|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||<0.0001
82660291|NCT00571064|165037730|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.0431
82660292|NCT00571064|165037730|SUPERIORITY_OR_OTHER|||||||0.0431|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.0431
82660293|NCT00571064|165037732|SUPERIORITY_OR_OTHER|||||||0.1285|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.1285
82618772|NCT02768194|164953691|SUPERIORITY||Mean Difference (Net)|-0.01||||0.9671|TWO_SIDED|95.0|-0.36|0.35||From the MMRM model with change from pre-dose as response, subject as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.35|-0.36|0.9671
82618773|NCT02768194|164953691|SUPERIORITY||Mean Difference (Net)|-0.1||||0.583|TWO_SIDED|95.0|-0.46|0.26||From the MMRM model with change from pre-dose as response, subject as a random effect; and treatment, period, day, location of sample in mouth (left or right) and treatment×day interaction as fixed effects; pre-dose mean SEM score as covariate.|Mixed Models Analysis||Difference is the first named treatment minus second named treatment such that a negative difference favours the first named treatment.|||0.26|-0.46|0.5830
82618774|NCT01029886|164953697|NON_INFERIORITY_OR_EQUIVALENCE|Superiority of exenatide once weekly with respect to change in HbA1c was concluded if the upper limit of the 2-sided 95% confidence interval (CI) for the treatment difference (exenatide once weekly minus liraglutide) was less than zero. Non-inferiority was concluded if the upper limit of the CI was \<0.25%.|Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.07||0.002|TWO_SIDED|95.0|0.08|0.33|||Mixed Models Analysis|||A sample of 408 subjects in each treatment arm would provide approximately 90% power to detect a true difference between treatments of 0.25% in change in HbA1c from baseline with a 2 sided t-test at a significance level of 0.05, assuming a common standard deviation of 1.1%. MMRM model includes treatment, baseline HbA1c, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.33|0.08|0.002
82618775|NCT01029886|164953698|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|95.0|||||Cochran-Mantel-Haenszel|||Percentage of patients achieving HbA1c \<7.0% at Week 26 were compared between treatments using a Cochran-Mantel-Haenszel test, in which HbA1c stratum, country, and background OAD served as stratification factors.||||0.011
82618776|NCT01029886|164953699|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.15||0.021|TWO_SIDED|95.0|0.05|0.66|||Mixed Models Analysis|||MMRM model includes treatment, baseline fasting serum glucose, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.66|0.05|0.021
82618777|NCT01029886|164953700|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.26|<|0.001|TWO_SIDED|95.0|0.39|1.4|||Mixed Models Analysis|||MMRM model includes treatment, baseline body weight, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||1.40|0.39|<.001
82618778|NCT01029886|164953701|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.05||0.079|TWO_SIDED|95.0|-0.01|0.19|||Mixed Models Analysis|||MMRM model includes treatment, baseline total cholesterol, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.19|-0.01|0.079
82618779|NCT01029886|164953702|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.01||0.832|TWO_SIDED|95.0|-0.02|0.02|||Mixed Models Analysis|||MMRM model includes treatment, baseline HDL-C, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.02|-0.02|0.832
82618780|NCT01029886|164953703|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|1.09|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|1.04|1.15|||Mixed Models Analysis|||Fasting triglycerides were logarithm-transformed and the change at Week 26 to baseline, expressed as the ratio, was analyzed using a MMRM model with treatment, baseline fasting triglycerides, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||1.15|1.04|<.001
82618781|NCT01029886|164953704|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.97|STANDARD_ERROR_OF_MEAN|0.76||0.205|TWO_SIDED|95.0|-0.53|2.47|||Mixed Models Analysis|||MMRM model includes treatment, baseline SBP, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||2.47|-0.53|0.205
82618782|NCT01029886|164953705|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.5||0.981|TWO_SIDED|95.0|-0.96|0.98|||Mixed Models Analysis|||MMRM model includes treatment, baseline DBP, HbA1c stratum, country, background OAD, week of visit, and treatment-by-week interaction as fixed effects and subject and error as random effects.||0.98|-0.96|0.981
82618783|NCT00242385|164953707|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To establish bioequivalence in AUC 0-35d divided by the dose administered with a type I error of 5% the calculated two-sided 90% confidence interval were to be contained completely in the margins of equivalence defined as 80% to 125%.|Ratio of Geometric Means|0.928|||||TWO_SIDED|90.0|0.858|1.002||||||||1.002|0.858|
82618784|NCT00242385|164953708|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|To establish bioequivalence in AUC 0-infinity divided by the dose administered with a type I error of 5% the calculated two-sided 90% confidence interval were to be contained completely in the margins of equivalence defined as 80% to 125%.|Ratio of Geometric Means|0.934|||||TWO_SIDED|90.0|0.855|1.021||||||||1.021|0.855|
82618785|NCT01778127|164953717|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||||||0.90
82618786|NCT01778127|164953717|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||t-test, 2 sided|||||||0.18
82618787|NCT01778127|164953717|SUPERIORITY_OR_OTHER|||||||0.14|TWO_SIDED||||||t-test, 2 sided|||||||0.14
82618788|NCT01778127|164953718|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
82618789|NCT01778127|164953718|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||t-test, 2 sided|||||||0.84
82618790|NCT01778127|164953718|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||t-test, 2 sided|||||||0.37
82618791|NCT01778127|164953719|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82618792|NCT01778127|164953719|SUPERIORITY_OR_OTHER|||||||0.63|TWO_SIDED||||||t-test, 2 sided|||||||0.63
82618793|NCT01778127|164953719|SUPERIORITY_OR_OTHER|||||||0.09|TWO_SIDED||||||t-test, 2 sided|||||||0.09
82618794|NCT01778127|164953720|SUPERIORITY_OR_OTHER|||||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
82660294|NCT00571064|165037732|SUPERIORITY_OR_OTHER|||||||0.1285|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF (Study Endpoint)||||0.1285
82660295|NCT00571064|165037734|SUPERIORITY_OR_OTHER|||||||0.2327|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 6 (Visit 3)||||0.2327
82618795|NCT01778127|164953720|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||t-test, 2 sided|||||||0.43
82618796|NCT01778127|164953720|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
82618797|NCT01778127|164953721|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||t-test, 2 sided|||||||0.61
82618798|NCT01778127|164953721|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||t-test, 2 sided|||||||0.64
82618799|NCT01778127|164953721|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||t-test, 2 sided|||||||0.99
82618800|NCT01778127|164953722|SUPERIORITY_OR_OTHER|||||||0.69|TWO_SIDED||||||t-test, 2 sided|||||||0.69
82618801|NCT01778127|164953722|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||t-test, 2 sided|||||||0.89
82618802|NCT01778127|164953722|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||t-test, 2 sided|||||||0.59
82618803|NCT01778127|164953723|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED||||||t-test, 2 sided|||||||0.78
82618804|NCT01778127|164953723|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||t-test, 2 sided|||||||0.95
82618805|NCT01778127|164953723|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82618806|NCT01778127|164953724|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82618807|NCT01778127|164953724|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82618808|NCT01778127|164953724|SUPERIORITY_OR_OTHER|||||||0.99|TWO_SIDED||||||t-test, 2 sided|||||||0.99
82618809|NCT01778127|164953725|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
82618810|NCT01778127|164953725|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||t-test, 2 sided|||||||0.19
82618811|NCT01778127|164953725|SUPERIORITY_OR_OTHER|||||||0.54|TWO_SIDED||||||t-test, 2 sided|||||||0.54
82618812|NCT01778127|164953726|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||t-test, 2 sided|||||||0.17
82618813|NCT01778127|164953726|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||t-test, 2 sided|||||||0.13
82618814|NCT01778127|164953726|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
82618815|NCT01778127|164953727|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||t-test, 2 sided|||||||0.08
82618816|NCT01778127|164953727|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||t-test, 2 sided|||||||0.15
82618817|NCT01778127|164953727|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||t-test, 2 sided|||||||0.83
82618818|NCT01778127|164953728|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82618819|NCT01778127|164953728|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||t-test, 2 sided|||||||0.11
82618820|NCT01778127|164953728|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||t-test, 2 sided|||||||0.81
82618821|NCT00751114|164953732|SUPERIORITY_OR_OTHER||adjusted mean difference|-0.59|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.77|-0.42||An analysis of covariance (ANCOVA) was performed, with the HbA1c change from baseline to last on-treatment measurement as dependent variable, treatment as fixed effect and the corresponding baseline HbA1c value as covariate|ANCOVA||Difference (Insulin glargine - Sitagliptin)|"H0: no difference between insulin glargine mean HbA1c change and sitagliptin mean HbA1c change~H1: difference between insulin glargine mean HbA1c change and sitagliptin mean HbA1c change~Assuming:~* Estimated standard deviation of the change in HbA1c of 1.3%~* Expected mean difference to be detected of 0.4%~* Alpha risk of 5% (two-sided)~* Power of 90%~* Equal sample size in each treatment group (1:1 randomization)~A total number of 446 evaluable patients (223 in each group) was required"||-0.42|-0.77|<0.0001
82618822|NCT03095521|164953742|NON_INFERIORITY|two-sided 95% CIs estimation used to confirm non-inferior efficacy in primary endpoint. A non-inferiority conclusion was made relating to the primary parameter only.||||||0.028|TWO_SIDED|95.0|||||Fisher Exact|||Arm Angal, Arm Antiangin||||0.028
82618823|NCT03095521|164953745|SUPERIORITY|||||||0.482|||||||Wilcoxon (Mann-Whitney)|||||||0.482
82618824|NCT03095521|164953747|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||change from baseline, 2 groups||||0.072
82618825|NCT01536119|164953748|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12||||0.27|TWO_SIDED|95.0|0.91|1.38|||Chi-squared|||"Power analysis was conducted to a 15 % increase in exclusive breastfeeding rates (from 52% to 67%) with 80% power and an alpha of 0.05. A 25% attrition rate waas added. 107 couples were needed per group. Intention to treat analysis conducted.~Exclusive breastfeeding at 12 weeks"||1.38|0.91|0.27
82618826|NCT01536119|164953749|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.19||||0.09||95.0|0.98|1.44|||Chi-squared|||||1.44|0.98|0.09
82618827|NCT01536119|164953750|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.06||||0.06||95.0|1.0|1.13|||Fisher Exact|||||1.13|1.00|0.06
82618828|NCT01536119|164953751|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.1||||0.02||95.0|1.01|1.19|||Chi-squared|||||1.19|1.01|0.02
82618829|NCT01536119|164953752|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||Wilcoxon (Mann-Whitney)|||Brief scale used||||0.25
82618830|NCT01536119|164953753|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.29
82618831|NCT01536119|164953754|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||t-test, 2 sided|||||||0.12
82618832|NCT01536119|164953755|SUPERIORITY_OR_OTHER|||||||0.21||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.21
82618833|NCT01536119|164953756|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||||||0.06
82618834|NCT01536119|164953757|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||t-test, 2 sided|||||||0.43
82618835|NCT00848250|164953785|SUPERIORITY|||||||0.03|||||||ANOVA|||||||0.03
82618836|NCT00848250|164953786|SUPERIORITY|||||||0.13|||||||ANOVA|Repeated measures||||||0.13
82618837|NCT00848250|164953787|SUPERIORITY|||||||0.02|||||||ANOVA|Repeated measures||||||0.02
82618838|NCT00848250|164953788|SUPERIORITY|||||||0.67|||||||ANOVA|Repeated measures||||||0.67
82618839|NCT00848250|164953790|SUPERIORITY|||||||0.47|||||||t-test, 2 sided|||P-value is for comparison of chest tube output at 24 hours||||0.47
82618840|NCT00848250|164953791|SUPERIORITY|||||||0.41|||||||Fisher Exact|||||||0.41
82618841|NCT03607838|164953801|SUPERIORITY||Mean Difference (Final Values)|-7.5|STANDARD_ERROR_OF_MEAN|3.35||0.0263|TWO_SIDED|95.0|-14.1|-0.9|||Mixed Models Analysis|||||-0.9|-14.1|0.0263
82618842|NCT03607838|164953802|SUPERIORITY||Mean Difference (Final Values)|-6.5|STANDARD_ERROR_OF_MEAN|3.4||0.0558|TWO_SIDED|95.0|-13.2|0.2||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||0.2|-13.2|0.0558
82618843|NCT03607838|164953803|SUPERIORITY||Mean Difference (Final Values)|-25.8|STANDARD_ERROR_OF_MEAN|15.24||0.092|TWO_SIDED|95.0|-55.7|4.2||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||4.2|-55.7|0.0920
82618844|NCT03607838|164953804|SUPERIORITY||Mean Difference (Final Values)|-4.2|STANDARD_ERROR_OF_MEAN|1.95||0.0336|TWO_SIDED|95.0|-8.0|-0.3||To control family-wise error rate for multiple tests of the primary and key secondary endpoints, serial gatekeeping testing algorithm was used.|Mixed Models Analysis|||||-0.3|-8.0|0.0336
82618845|NCT00423735|164953811|SUPERIORITY|||||||0.99|||||||Fisher Exact|2-sided test||||||0.99
82618846|NCT02662985|164953838|SUPERIORITY||Median Difference (Net)|-3.18|STANDARD_ERROR_OF_MEAN|1.18||0.004|TWO_SIDED|95.0|-5.52|-0.85|||Mixed Models Analysis|mixed model repeated measures (MMRM)||GLOESS scores||-0.85|-5.52|0.0040
82618847|NCT02662985|164953839|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.0001|TWO_SIDED|95.0|2.38|8.89|||Regression, Logistic|Logistic regression using non-responder imputation||Proportion of patients with ACR 20 response at Week 12 (FAS)||8.89|2.38|<0.0001
82618848|NCT02662985|164953840|SUPERIORITY||Odds Ratio (OR)|9.65|||<|0.0001|TWO_SIDED|95.0|3.92|23.75|||Regression, Logistic|||Proportion of patients with ACR 50 response at Week 12 (FAS)||23.75|3.92|<0.0001
82618849|NCT02662985|164953841|SUPERIORITY||Adjusted mean of treatment difference|-0.67|STANDARD_ERROR_OF_MEAN|0.36||0.0327|TWO_SIDED|95.0|-1.374|0.043|||Regression, Logistic|||SPARCC||0.043|-1.374|0.0327
82618850|NCT01486784|164953843|OTHER||||||||||||||||||Based on the dose limiting toxicities occurring in each dosing cohort, a maximum tolerated dose (MTD) may be determined by assessing the highest dosing level presenting no dose limiting toxicities. An MTD of 17mg/m2 twice weekly was established.|||
82618851|NCT02841787|164953844|SUPERIORITY||||||<|0.001||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||< .001
82618852|NCT02841787|164953844|SUPERIORITY||||||<|0.001||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||<.001
82618853|NCT02841787|164953844|SUPERIORITY|||||||0.44||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.44
82618854|NCT02841787|164953844|SUPERIORITY|||||||0.03||||||The threshold for significance was alpha=0.05.|ANOVA|||||||0.03
82618855|NCT02841787|164953844|SUPERIORITY|||||||0.68||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.68
82618856|NCT02841787|164953844|SUPERIORITY|||||||0.02||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.02
82618857|NCT02841787|164953844|SUPERIORITY|||||||0.03||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.03
82618858|NCT02841787|164953847|SUPERIORITY|||||||0.003||||||The threshold for significance was alpha=0.05.|t-test, 2 sided|||||||0.003
82618859|NCT03491553|164953848|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618860|NCT03491553|164953848|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618861|NCT03491553|164953848|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618862|NCT03491553|164953848|OTHER||Percentage Difference|10.0|||||TWO_SIDED|95.0|-47.2|47.1|||||The 2-sided 95% CI for the percentage difference by HBeAg status was constructed based on the standardized statistic and inverting two 1-sided tests.|||47.1|-47.2|
82618863|NCT03491553|164953849|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618864|NCT03491553|164953849|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618865|NCT03491553|164953849|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618866|NCT03491553|164953849|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618867|NCT03491553|164953850|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618868|NCT03491553|164953850|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618869|NCT03491553|164953850|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618870|NCT03491553|164953850|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618871|NCT03491553|164953851|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618872|NCT03491553|164953851|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618873|NCT03491553|164953851|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618874|NCT03491553|164953851|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618875|NCT03491553|164953852|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618876|NCT03491553|164953852|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618877|NCT03491553|164953852|OTHER||Percentage Difference|0.0|||||TWO_SIDED|95.0||||||||||||
82618878|NCT03491553|164953852|OTHER||Percentage Difference|10.0|||||TWO_SIDED|95.0|-47.2|47.1|||||The 2-sided 95% CI for the percentage difference by HBeAg status was constructed based on the standardized statistic and inverting two 1-sided tests.|||47.1|-47.2|
82618879|NCT02724774|164953866|SUPERIORITY|||||||0.026||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||All analyses were conducted as intention-to-treat, analyzing all 252 cases as randomly assigned to the PFR and control group (CG). Multiple linear regression was used to examine the treatment effect of PFR (0 = CG, 1 = PFR). Covariates included preferred language (0 = English, 1 = Spanish) and the baseline measure.||||.026
82618880|NCT02724774|164953867|SUPERIORITY|||||||0.154||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.154
82618881|NCT02724774|164953868|SUPERIORITY|||||||0.516||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.516
82618882|NCT02724774|164953869|SUPERIORITY||||||<|0.001||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||<0.001
82618883|NCT02724774|164953870|SUPERIORITY|||||||0.094||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||0.094
82618884|NCT02724774|164953871|SUPERIORITY|||||||0.029|||||||Regression, Linear|||||||0.029
82618885|NCT02724774|164953872|SUPERIORITY|||||||0.389||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.389
82618886|NCT02724774|164953873|SUPERIORITY|||||||0.747||||||a priori threshold for statistical significance p \< .05|Regression, Linear|||||||.747
82618887|NCT02951988|164953893|SUPERIORITY|||||||0.5305|||||||Log Rank|||||||0.5305
82618888|NCT02951988|164953893|SUPERIORITY|||||||0.4628|||||||Log Rank|||||||0.4628
82618889|NCT02951988|164953894|SUPERIORITY|||||||0.6153|||||||Log Rank|||||||0.6153
82618890|NCT02951988|164953894|SUPERIORITY|||||||0.4123|||||||Log Rank|||||||0.4123
82618891|NCT05836818|164953896|SUPERIORITY||Adjusted difference|25.1|||<|0.0001|TWO_SIDED|95.0|17.0|33.2|||Regression, Logistic|Mixed effects logistic regression with a random center effect for within-center characteristics, and terms for calendar time and intervention||Adjusted difference 25.1 percentage points||33.2|17|<0.0001
82618892|NCT02491073|164953905|OTHER||geometric mean ratio|1.05||||1.05|TWO_SIDED|90.0|0.98|1.09|||geometric mean ration||The parameter dispersion type:Geometric coefficient of variation Dispersion Value: FT4: 0.220|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.09|0.98|1.05
82618893|NCT02491073|164953905|OTHER||Geometric Mean Ratio|1.15|||||TWO_SIDED|90.0|1.09|1.22|||Geometric Mean Ratio||parameter dispersion type: Geometric Coefficient of Variation Dispersion Value : FT3: 0.178|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.22|1.09|
82618894|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric Mean Ratio|1.01|||||TWO_SIDED|90.0|1.01|1.03|||||Parameter dispersion type: geometric coefficient of variation dispersion value 0.024|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.03|1.01|
82618895|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric Mean Ratio|1.03|||||TWO_SIDED|90.0|1.03|1.04|||||parameter dispersion value - geometric coefficient of variation dispersion value - 0.020|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.04|1.03|
82618896|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.05|||||TWO_SIDED|90.0|1.05|1.06|||||parameter dispersion type - geometric coefficient variation dispersion value - 0.021|FT4|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.06|1.05|
82618897|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.02|||||parameter dispersion type -geometric coefficient of variation dispersion value - 0.040|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.02|0.99|
82618898|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geotmetric mean ratio|1.02|||||TWO_SIDED|90.0|1.0|1.03|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.03|1.00|
82618899|NCT02491073|164953906|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.03|||||TWO_SIDED|90.0|1.02|1.04|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|FT3|In each geometric mean ratio estimate, free thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; free thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.04|1.02|
82618900|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value -0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
82618901|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
82660296|NCT00571064|165037734|SUPERIORITY_OR_OTHER|||||||0.4724|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12/ET (Visit 4)||||0.4724
82660297|NCT00571064|165037734|SUPERIORITY_OR_OTHER|||||||0.4724|TWO_SIDED|||||Significance level of 0.05|t-test, 2 sided|||Week 12 LOCF - Study Endpoint||||0.4724
82660298|NCT02169115|165037741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.8|STANDARD_DEVIATION|1.7||0.05|TWO_SIDED||||||ANOVA|||||||0.05
82618902|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH||1.01|1.00|
82618903|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.02|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.041|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator.|1.02|0.99|
82618904|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|Slope|1.01|||||TWO_SIDED|90.0|1.0|1.02|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.033|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.02|1.00|
82618905|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.99|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.036|TT4|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.99|
82618906|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.98|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.047|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.98|
82618907|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|0.98|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.043|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|0.98|
82618908|NCT02491073|164953907|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|0.99|||||TWO_SIDED|90.0|0.97|1.0|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.048|TT3|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.00|0.97|
82618909|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.06|1.16|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.148|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.16|1.06|
82618910|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.13|||||TWO_SIDED|90.0|1.07|1.2|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.202|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.20|1.07|
82618911|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.11|||||TWO_SIDED|90.0|1.04|1.18|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.203|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.18|1.04|
82618912|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.04|||||TWO_SIDED|90.0|0.99|1.1|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.179|FT4|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator.|1.10|0.99|
82660299|NCT02169115|165037741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.0|STANDARD_DEVIATION|1.8||0.005|TWO_SIDED||||||ANOVA|||||||0.005
82618913|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.21|||||TWO_SIDED|90.0|1.15|1.52|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.178|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.52|1.15|
82618914|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.42|||||TWO_SIDED|90.0|1.33|1.52|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.224|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.52|1.33|
82618915|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.19|||||TWO_SIDED|90.0|1.12|1.27|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.203|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.27|1.12|
82618916|NCT02491073|164953908|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.19|||||TWO_SIDED|90.0|1.11|1.27|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.215|FT3|In each geometric mean ratio estimate, free thyroid hormone levels as measured by the automated kit assay represent the numerator; free thyroid hormone levels as measured by the optimized equilibrium dialysis method represent the denominator|1.27|1.11|
82618917|NCT02491073|164953909|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value -0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
82618918|NCT02491073|164953909|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH|In each geometric mean ratio estimate, thyroid hormone levels in the spiked serum samples (LS or MS or HS) represent the numerator; thyroid hormone levels in non-spiked serum samples (NS) represent the denominator|1.01|1.00|
82618919|NCT02491073|164953909|OTHER|There is no hypothesis testing in this study. The sample size was determined outside of statistical considerations; it was required by the U.S. Food and Drug Administration (FDA) in the New Drug Application 022416 Approval Letter issued on 08 November 2013 for PMR 2099-9.|geometric mean ratio|1.0|||||TWO_SIDED|90.0|1.0|1.01|||||parameter dispersion type - geometric coefficient of variation dispersion value - 0.018|TSH||1.01|1.00|
82660300|NCT02169115|165037741|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6|STANDARD_DEVIATION|1.4|||TWO_SIDED|||||||||||||
82618920|NCT01419665|164953910|EQUIVALENCE|The equivalence margin of + or - 12% was determined considering the variability of the point estimate of the add-on effect by taking a value lower than the lower boundary of the 95% CI for Rituximab+chemotherapy versus chemotherapy obtained from historical data.|difference in overall response rate|-0.4|||||TWO_SIDED|95.0|-5.94|5.14|||Binomial approximation|||||5.14|-5.94|
82618921|NCT01419665|164953913|OTHER|descriptive purposes, not powered for hypothesis testing|Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.97|1.76|||Regression, Cox|||||1.76|0.97|
82618922|NCT01419665|164953914|OTHER|descriptive purposes, not powered for hypothesis testing|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.55|1.52|||Regression, Cox|||||1.52|0.55|
82660301|NCT05446870|165037782|OTHER||Posterior probability (%)|100.0|||||||||||||||Posterior probability (based on 20000 sets of model parameters) ctDNA fold change (square root scale) coefficient less than zero in the multivariable logistic regression model of pCR, adjusted for baseline ctDNA and treatment assignment.|||
82618923|NCT03977727|164953920|SUPERIORITY||Mean Difference (Final Values)|27.35||||0.008|TWO_SIDED|95.0|7.88|48.4|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||48.4|7.88|.008
82618924|NCT03977727|164953921|SUPERIORITY||Mean Difference (Final Values)|15.22||||0.136|TWO_SIDED|95.0|-5.42|39.46|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||39.46|-5.42|.136
82618925|NCT03977727|164953922|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.029|TWO_SIDED|95.0|0.05|0.73|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||.73|.05|.029
82618926|NCT03977727|164953923|SUPERIORITY||Mean Difference (Final Values)|-1.81||||0.016|TWO_SIDED|95.0|-2.84|-0.31|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||-0.31|-2.84|.016
82660302|NCT05446870|165037784|OTHER||Posterior probability (%)|90.99|||||||||||||||Posterior probability (based on 20000 sets of model parameters) ctDNA fold change (square root scale) coefficient less than zero in the multivariable logistic regression model of CRS (CRS3 coded as 1 and CRS1 or 2 coded as 0), adjusted for baseline ctDNA and treatment assignment.|||
82660303|NCT05446870|165037785|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC + MK-4830 arm - % Pembrolizumab + SOC arm) and 95% confidence interval (CI) were based on Miettinen \& Nurminen method.|Difference in Percentage|1.1|||||TWO_SIDED|95.0|-10.0|12.9||||||||12.9|-10.0|
82660304|NCT05446870|165037786|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC + MK-4830 arm - % Pembrolizumab + SOC arm) and 95% CI were based on Miettinen \& Nurminen method.|Difference in Percentage|20.7|||||TWO_SIDED|95.0|3.5|37.0||||||||37.0|3.5|
82660305|NCT05446870|165037789|OTHER||Posterior probability (%)|38.75|||||||||||||||Posterior probability (based on 20000 sets of model parameters) coefficient for treatment assignment (MK-4830 containing vs. not) less than zero in Bayesian parametrization of the constrained longitudinal data analysis (cLDA) model, modeling ctDNA value at Cycle 3 and ctDNA value at baseline as bivariate normal.|||
82660306|NCT03226522|165037818|SUPERIORITY|||||||0.01|||||||Mixed Models Analysis|||||||0.010
82660307|NCT03226522|165037818|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||||||<0.001
82618927|NCT03977727|164953924|SUPERIORITY||Mean Difference (Final Values)|1.38||||0.045|TWO_SIDED|95.0|0.04|2.32|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||2.32|.04|.045
82618928|NCT03977727|164953927|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.303|TWO_SIDED|95.0|-0.59|0.16|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||.16|-.59|.303
82618929|NCT03977727|164953928|SUPERIORITY||Mean Difference (Final Values)|-1.18||||0.968|TWO_SIDED|95.0|-10.32|9.99|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||9.99|-10.32|.968
82660308|NCT01686438|165037831|NON_INFERIORITY|The mean change in ISI score from baseline in Veterans receiving CBT-I by video teleconferencing will be no more than 1.67 smaller than the reference treatment, i.e., Veterans receiving in-person CBT-I.|Mean Difference (Net)|-2.03|STANDARD_DEVIATION|1.33||0.138|TWO_SIDED|95.0|-4.63|1.57|||t-test, 1 sided|||||1.57|-4.63|0.138
82660309|NCT00984126|165037845|SUPERIORITY_OR_OTHER||Incidence rate|0.0|||||ONE_SIDED|95.0||1.4||||||A one-sided 95% upper confidence limit was based on an exact calculation for a binomial distribution.||1.4||
82660310|NCT01864174|165037871|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The study provided 90% power to demonstrate noninferiority in change from baseline mean HbA1c at Week 24, with an assumed standard deviation (SD) of 1.0%, a non-inferiority margin of 0.3%, and 2-sided alpha of 0.05 for the primary comparison|Mean Difference (Final Values)|0.03|STANDARD_ERROR_OF_MEAN|0.0687|||TWO_SIDED|95.0|-0.1|0.17|||||METFORMIN XR VS METFORMIN IR|||0.17|-0.10|
82660311|NCT02648347|165037876|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.05|STANDARD_ERROR_OF_MEAN|0.048|||TWO_SIDED|95.0|-0.04|0.15||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.15|-0.04|
82660312|NCT02648347|165037877|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per Food and Drug Administration \[FDA\]) and 1.3 (per European Medicines Agency \[EMA\]).|Hazard Ratio (HR)|1.16|||=|0.205|TWO_SIDED|95.0|0.955|1.412|||Log Rank|||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.412|0.955|=0.2050
82660313|NCT02648347|165037877|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.17|||=|0.0725|TWO_SIDED|95.0|1.012|1.355|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 382 and 344 respectively; median time to first event (Q1, Q3) = 50.07 (23.00, 82.86) weeks versus 51.93 (27.79, 91.00) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.355|1.012|=0.0725
82660314|NCT02648347|165037878|NON_INFERIORITY|Establishment of non-inferiority was based on a margin of -0.75 g/dL applied to the difference in mean change: Vadadustat minus Darbepoetin alfa.|Least squares mean difference|0.04|STANDARD_ERROR_OF_MEAN|0.052|||TWO_SIDED|95.0|-0.06|0.14||||||Treatment comparison: Vadadustat minus Darbepoetin Alfa||0.14|-0.06|
82660315|NCT02648347|165037879|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.1743|TWO_SIDED|95.0|0.966|1.382|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.382|0.966|=0.1743
82660316|NCT02648347|165037879|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.2305|TWO_SIDED|95.0|0.972|1.267|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first MACE plus hospitalization for heart failure or thromboembolic events excluding vascular access thrombosis for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 451 and 424 respectively; median time to first event (Q1, Q3) = 42.86 (19.71, 73.43) weeks versus 43.86 (21.36, 80.43) weeks, respectively.||1.267|0.972|=0.2305
82618930|NCT03977727|164953929|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.059|TWO_SIDED|95.0|-0.13|0.0|||Mixed Models Analysis|||Linear mixed model was fit with therapy (Fiasp vs. NovoLog), period (Period 1 vs Period 2), and sequence (Fiasp/NovoLog vs NovoLog/Fiasp) as fixed effects. Subjects included as random effects.||0|-.13|.059
82660317|NCT02648347|165037880|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.19|||=|0.3154|TWO_SIDED|95.0|0.901|1.564|||Gray's Test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.564|0.901|=0.3154
82618931|NCT01627067|164953956|NON_INFERIORITY|The study terminated early due to lack of efficacy and funds only 22 patients were enrolled in the study. With 40 patients accrued at a rate of 2 patients per month, a one-sided alpha of 5%, and a post- accrual follow up of 3 months, we would have 80% power to detect a median PFS of 12 months as being statistically significantly higher than a historical control median PFS of 7 months.|Cox Proportional Hazard|0.25||||0.015|TWO_SIDED|95.0|0.08|0.76|||Regression, Cox|||Data for PFS were censored at the time of a patient's removal from study. With 40 patients accrued at a rate of 2 patients per month, a one-sided alpha of 5%, and a post- accrual follow up of 3 months, we would have 80% power to detect a median PFS of 12 months as being statistically significantly higher than a historical control median PFS of 7 months. The study terminated early due to lack of efficacy and funds only 22 patients were enrolled in the study.||0.76|0.08|0.015
82618932|NCT01627067|164953959|OTHER||Hazard Ratio (HR)|0.6||||0.31|TWO_SIDED|95.0|0.22|1.62|||Regression, Cox|||||1.62|0.22|0.31
82618933|NCT00516269|164954013|SUPERIORITY_OR_OTHER||mean difference in treat versus control|0.42|STANDARD_DEVIATION|3.3||0.54||95.0|||||Wilcoxon signed rank test|||As a crossover study, the potential carryover effect was examined first. The pooled data (the 2-week treatment for each intervention i.e. period 1 \& period 2) was used to assess the treatment effect (A versus B).||||0.54
82618934|NCT00926796|164954014|SUPERIORITY_OR_OTHER||Proportion of cured participants|100.0|||<|0.05|ONE_SIDED|95.0|98.53||||Exact binomial confidence limit|If the one-sided lower 95% confidence limit is greater than 95%, the null hypothesis of the microbiological efficacy estimate is \<95% is rejected.|When the lower 95% confidence limit is \>=95%, the alternative hypothesis is accepted (i.e., the microbiological cure estimate is significantly \>=95%).|The null hypothesis is that the microbiological efficacy estimate (proportion of participants who are cured) is \<95%.|||98.53|<0.05
82618935|NCT00926796|164954021|SUPERIORITY_OR_OTHER||Proportion of cured participants|99.5|||<|0.05|ONE_SIDED|95.0|97.64||||Exact bionomial confidence limit|If the one-sided lower 95% confidence limit is greater than 95%, the null hypothesis of the microbiological efficacy estimate is \<95% is rejected.|When the lower 95% confidence interval is above 95%, the alternative hypothesis is accepted (i.e., the microbiological cure estimate is significantly \>=95%).|The null hypothesis is that the microbiological efficacy estimate (proportion of participants who are cured) is \<95%.|||97.64|<0.05
82618936|NCT01341652|164954023|OTHER|||||||0.97|||||||Mantel Haenszel|||||||0.97
82618937|NCT01341652|164954024|SUPERIORITY|||||||0.08|||||||Wilcoxon Rank Sum test|||||||.08
82660318|NCT02648347|165037880|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.16|||=|0.2531|TWO_SIDED|95.0|0.947|1.42|||Gray's Test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular MACE for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 198 and 178 respectively; median time to first event (Q1, Q3) = 45.57 (21.71, 73.29) weeks versus 47.36 (20.00, 88.43) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.420|0.947|=0.2531
82618938|NCT01341652|164954026|OTHER||Hazard Ratio (HR)|1.6||||0.14|TWO_SIDED|95.0|0.9|2.8|||Regression, Cox|||||2.8|0.9|0.14
82660319|NCT02648347|165037881|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.13|||=|0.5991|TWO_SIDED|95.0|0.808|1.594|||Gray's test|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.594|0.808|=0.5991
82618939|NCT01628016|164954028|OTHER||Mean Difference (Final Values)|3.98||||0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||.05
82618940|NCT04570657|164954075|SUPERIORITY||LS mean difference|0.036||||0.267|TWO_SIDED|80.0|-0.038|0.111||One-sided p-value|MMRM||Tozorakimab Dose A - Placebo|||0.111|-0.038|0.267
82618941|NCT04570657|164954075|SUPERIORITY||LS mean difference|0.004||||0.473|TWO_SIDED|80.0|-0.071|0.079||One-sided p-value|MMRM||Tozorakimab Dose B - Placebo|||0.079|-0.071|0.473
82618942|NCT04570657|164954076|SUPERIORITY||LS mean difference|-0.012||||0.437|TWO_SIDED|80.0|-0.11|0.086||One-sided p-value|MMRM||Week 8: Tozorakimab Dose A - Placebo|||0.086|-0.110|0.437
82618943|NCT04570657|164954076|SUPERIORITY||LS mean difference|0.059||||0.221|TWO_SIDED|80.0|-0.039|0.157||One-sided p-value|MMRM||Week 8: Tozorakimab Dose B - Placebo|||0.157|-0.039|0.221
82618944|NCT04570657|164954076|SUPERIORITY||LS mean difference|-0.038||||0.308|TWO_SIDED|80.0|-0.136|0.06||One-sided p-value|MMRM||Week 16: Tozorakimab Dose A - Placebo|||0.060|-0.136|0.308
82618945|NCT04570657|164954076|SUPERIORITY||LS mean difference|-0.025||||0.372|TWO_SIDED|80.0|-0.122|0.072||One-sided p-value|MMRM||Week 16: Tozorakimab Dose B - Placebo|||0.072|-0.122|0.372
82618946|NCT04570657|164954079|SUPERIORITY||LS mean difference|-0.03||||0.416|TWO_SIDED|80.0|-0.215|0.154||One-sided p-value|MMRM||Tozorakimab Dose A - Placebo|||0.154|-0.215|0.416
82618947|NCT04570657|164954079|SUPERIORITY||LS mean difference|-0.047||||0.371|TWO_SIDED|80.0|-0.231|0.137||One-sided p-value|MMRM||Tozorakimab Dose B - Placebo|||0.137|-0.231|0.371
82618948|NCT04570657|164954080|SUPERIORITY||Odds Ratio (OR)|1.2||||0.612|TWO_SIDED|80.0|0.76|1.9|||Chi-squared|||||1.90|0.76|0.612
82618949|NCT04570657|164954080|SUPERIORITY||Odds Ratio (OR)|1.41||||0.348|TWO_SIDED|80.0|0.88|2.25|||Chi-squared|||||2.25|0.88|0.348
82618950|NCT04570657|164954081|SUPERIORITY||Odds Ratio (OR)|0.81||||0.575|TWO_SIDED|80.0|0.5|1.31|||Chi-squared|||||1.31|0.50|0.575
82618951|NCT04570657|164954081|SUPERIORITY||Odds Ratio (OR)|0.86||||0.679|TWO_SIDED|80.0|0.53|1.38|||Chi-squared|||||1.38|0.53|0.679
82618952|NCT04570657|164954082|SUPERIORITY||LS mean difference|0.002||||0.5|TWO_SIDED|80.0|-3.825|3.828||One-sided p-value|MMRM||SGRQ Activity Total Score: Tozorakimab Dose A - Placebo|||3.828|-3.825|0.500
82618953|NCT04570657|164954082|SUPERIORITY||LS mean difference|-1.364||||0.324|TWO_SIDED|80.0|-5.198|2.47||One-sided p-value|MMRM||SGRQ Activity Total Score: Tozorakimab Dose B - Placebo|||2.470|-5.198|0.324
82618954|NCT04570657|164954082|SUPERIORITY||LS mean difference|-1.421||||0.248|TWO_SIDED|80.0|-4.103|1.26||One-sided p-value|MMRM||SGRQ Impacts Total Score: Tozorakimab Dose A - Placebo|||1.260|-4.103|0.248
82618955|NCT04570657|164954082|SUPERIORITY||LS mean difference|-1.694||||0.21|TWO_SIDED|80.0|-4.383|0.996||One-sided p-value|MMRM||SGRQ Impacts Total Score: Tozorakimab Dose B - Placebo|||0.996|-4.383|0.210
82618956|NCT04570657|164954082|SUPERIORITY||LS mean difference|0.691||||0.42|TWO_SIDED|80.0|-3.715|5.096||One-sided p-value|MMRM||SGRQ Symptoms Total Score: Tozorakimab Dose A - Placebo|||5.096|-3.715|0.420
82618957|NCT04570657|164954082|SUPERIORITY||LS mean difference|-3.15||||0.181|TWO_SIDED|80.0|-7.579|1.28||One-sided p-value|MMRM||SGRQ Symptoms Total Score: Tozorakimab Dose B - Placebo|||1.280|-7.579|0.181
82618958|NCT04570657|164954082|SUPERIORITY||LS mean difference|-0.663||||0.38|TWO_SIDED|80.0|-3.454|2.129||One-sided p-value|MMRM||SGRQ Total Score: Tozorakimab Dose A - Placebo|||2.129|-3.454|0.380
82618959|NCT04570657|164954082|SUPERIORITY||LS mean difference|-1.896||||0.192|TWO_SIDED|80.0|-4.694|0.903||One-sided p-value|MMRM||SGRQ Total Score: Tozorakimab Dose B - Placebo|||0.903|-4.694|0.192
82618960|NCT04570657|164954083|SUPERIORITY||Odds Ratio (OR)|0.93||||0.828|TWO_SIDED|80.0|0.59|1.46|||Chi-squared|||||1.46|0.59|0.828
82618961|NCT04570657|164954083|SUPERIORITY||Odds Ratio (OR)|1.07||||0.84|TWO_SIDED|80.0|0.68|1.7|||Chi-squared|||||1.70|0.68|0.840
82618962|NCT04570657|164954084|SUPERIORITY||Hazard Ratio (HR)|1.3||||0.239|TWO_SIDED|80.0|0.8|2.0||One-sided p-value|Regression, Cox|Cox regression model with treatment group, background medication, geographic region, and ICS total daily dose as covariates.||||2.0|0.8|0.239
82618963|NCT04570657|164954084|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.461|TWO_SIDED|80.0|0.6|1.7||One-sided p-value|Regression, Cox|Cox regression model with treatment group, background medication, geographic region, and ICS total daily dose as covariates.||||1.7|0.6|0.461
82618964|NCT04570657|164954085|SUPERIORITY||Rate ratio|0.87||||0.346|TWO_SIDED|80.0|0.56|1.36||One-sided p-value|Negative binomial regression|||||1.36|0.56|0.346
82618965|NCT04570657|164954085|SUPERIORITY||Rate ratio|0.7||||0.166|TWO_SIDED|80.0|0.43|1.12||One-sided p-value|Negative binomial regression|||||1.12|0.43|0.166
82618966|NCT04570657|164954086|SUPERIORITY||Geometric LS mean ratio|0.869||||0.029|TWO_SIDED|80.0|0.791|0.956||One-sided p-value|MMRM|||||0.956|0.791|0.029
82618967|NCT04570657|164954086|SUPERIORITY||Geometric LS mean ratio|0.879||||0.04|TWO_SIDED|80.0|0.8|0.966||One-sided p-value|MMRM|||||0.966|0.800|0.040
82618968|NCT04570657|164954087|SUPERIORITY||LS mean difference|0.023||||0.385|TWO_SIDED|80.0|-0.078|0.124||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose A - Placebo|1 Exacerbation in Last 12 Months||0.124|-0.078|0.385
82618969|NCT04570657|164954087|SUPERIORITY||LS mean difference|-0.123||||0.06|TWO_SIDED|80.0|-0.224|-0.022||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose B - Placebo|1 Exacerbation in Last 12 Months||-0.022|-0.224|0.060
82618970|NCT04570657|164954087|SUPERIORITY||LS mean Difference|0.077||||0.186|TWO_SIDED|80.0|-0.034|0.187||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose A - Placebo|≥ 2 Exacerbation in Last 12 Months||0.187|-0.034|0.186
82618971|NCT04570657|164954087|SUPERIORITY||LS mean difference|0.212||||0.007|TWO_SIDED|80.0|0.102|0.322||One-sided p-value; alpha = 0.1|MMRM||Tozorakimab Dose B - Placebo|≥ 2 Exacerbation in Last 12 Months||0.322|0.102|0.007
82618972|NCT04570657|164954088|SUPERIORITY||Geometric LS Mean Ratio|0.63|||<|0.001|TWO_SIDED|80.0|0.559|0.71||One-sided p-value|MMRM|||Analysis at Week 16 based on MMRM which included fixed effects for baseline, background medication, geographic region, baseline ICS total daily dose, visit, treatment and the baseline by visit and treatment by visit interactions.||0.710|0.559|< 0.001
82618973|NCT04570657|164954088|SUPERIORITY||Geometric LS Mean Ratio|0.675|||<|0.001|TWO_SIDED|80.0|0.599|0.76||One-sided p-value|MMRM|||Analysis at Week 16 based on MMRM which included fixed effects for baseline, background medication, geographic region, baseline ICS total daily dose, visit, treatment and the baseline by visit and treatment by visit interactions.||0.760|0.599|< 0.001
82618974|NCT01079962|164954089|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.701||||0.5943|TWO_SIDED|95.0|-1.89|3.29||No adjustment of p-value was done and priori threshold was 0.05.|t-test, 2 sided|||Change in APP at Week 12: p-value was calculated by 2 sided t-test.||3.29|-1.89|0.5943
82618975|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.8589||95.0|||||t-test, 2 sided|||Change in SBP at Week 4: p-value was calculated by 2 sided t-test.||||0.8589
82618976|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.2223||95.0|||||t-test, 2 sided|||Change in SBP at Week 12: p-value was calculated by 2 sided t-test.||||0.2223
82618977|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.2443||95.0|||||t-test, 2 sided|||Change in DBP at Week 4: p-value was calculated by 2 sided t-test.||||0.2443
82618978|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.1481||95.0|||||t-test, 2 sided|||Change in DBP at Week 12: p-value was calculated by 2 sided t-test.||||0.1481
82618979|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.4188||95.0|||||t-test, 2 sided|||Change in mean BP at Week 4: p-value was calculated by 2 sided t-test.||||0.4188
82618980|NCT01079962|164954090|SUPERIORITY_OR_OTHER|||||||0.1586||95.0|||||t-test, 2 sided|||Change in mean BP at Week 12: p-value was calculated by 2 sided t-test.||||0.1586
82618981|NCT01079962|164954091|SUPERIORITY_OR_OTHER|||||||0.2987||95.0|||||t-test, 2 sided|||Change in AIx at Week 4: p-value was calculated by 2 sided t-test.||||0.2987
82618982|NCT01079962|164954091|SUPERIORITY_OR_OTHER|||||||0.6584||95.0|||||t-test, 2 sided|||Change in AIx at Week 12: p-value was calculated by 2 sided t-test.||||0.6584
82618983|NCT01079962|164954092|SUPERIORITY_OR_OTHER|||||||0.2511||95.0|||||t-test, 2 sided|||Change in cfPWV at Week 4: p-value was calculated by 2 sided t-test.||||0.2511
82618984|NCT01079962|164954092|SUPERIORITY_OR_OTHER|||||||0.5007||95.0|||||t-test, 2 sided|||Change in cfPWV at Week 12: p-value was calculated by 2 sided t-test.||||0.5007
82618985|NCT01079962|164954093|SUPERIORITY_OR_OTHER|||||||0.9943||95.0|||||t-test, 2 sided|||Change in heart rate at Week 4: p-value was calculated by 2 sided t-test.||||0.9943
82618986|NCT01079962|164954093|SUPERIORITY_OR_OTHER|||||||0.523||95.0|||||t-test, 2 sided|||Change in heart rate at Week 12: p-value was calculated by 2 sided t-test.||||0.5230
82618987|NCT01079962|164954094|SUPERIORITY_OR_OTHER|||||||0.4447||95.0|||||t-test, 2 sided|||||||0.4447
82618988|NCT01079962|164954095|SUPERIORITY_OR_OTHER|||||||0.396||95.0|||||t-test, 2 sided|||Change in Total cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.3960
82618989|NCT01079962|164954095|SUPERIORITY_OR_OTHER|||||||0.1919||95.0|||||t-test, 2 sided|||Change in LDL-cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.1919
82618990|NCT01079962|164954095|SUPERIORITY_OR_OTHER|||||||0.1896||95.0|||||t-test, 2 sided|||Change in HDL-cholesterol at Week 12: p-value was calculated by 2 sided t-test.||||0.1896
82618991|NCT01079962|164954096|SUPERIORITY_OR_OTHER|||||||0.9244||95.0|||||t-test, 2 sided|||||||0.9244
82618992|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.9692||95.0|||||t-test, 2 sided|||Change in SBP at Week 4: p-value was calculated by 2 sided t-test.||||0.9692
82618993|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.4731||95.0|||||t-test, 2 sided|||Change in SBP at Week 12: p-value was calculated by 2 sided t-test.||||0.4731
82618994|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.2876||95.0|||||t-test, 2 sided|||Change in DBP at Week 4: p-value was calculated by 2 sided t-test.||||0.2876
82618995|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||t-test, 2 sided|||Change in DBP at Week 12: p-value was calculated by 2 sided t-test.||||0.0420
82618996|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.51||95.0|||||t-test, 2 sided|||Change in mean BP at Week 4: p-value was calculated by 2 sided t-test.||||0.5100
82618997|NCT01079962|164954097|SUPERIORITY_OR_OTHER|||||||0.1207||95.0|||||t-test, 2 sided|||Change in mean BP at Week 12: p-value was calculated by 2 sided t-test.||||0.1207
82618998|NCT01079962|164954099|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.442||||0.7561||95.0|-2.36|3.24||No adjustment of p-value was done and priori threshold was 0.05.|t-test, 2 sided|||||3.24|-2.36|0.7561
82618999|NCT01072539|164954129|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Fisher Exact|||Comparison among subgroups of Infection Sites: cSSSI, cIAI, CAP, cIAI + cSSSI, and cIAI + CAP.||||<0.0001
82619000|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0067||||||Statistical significant level: 0.05|Chi-squared|||Geriatrc: \<65 Years Versus (VS) Geriatrc: \>=65 Years||||0.0067
82619001|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0412||||||Statistical significant level: 0.05|Chi-squared|||Comparison among Age categories: \<30 Years, 30 to 39 Years, 40 to 49 Years, 50 to 64 Years, and \>=65 Years.||||0.0412
82619002|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4792||||||Statistical significant level: 0.05|Chi-squared|||Sex: Male VS Sex: Female||||0.4792
82619003|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9669||||||Statistical significant level: 0.05|Chi-squared|||Comparson among Duration of Disease categories: \<3 Months, \>=3 Months and \<6 Months, and \>=6 Months||||0.9669
82619004|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0064||||||Statistical significant level: 0.05|Fisher Exact|||Comparison among subgroups of infection site: cSSSI, cIAI, CAP, cIAI + cSSSI, and cIAI + CAP.||||0.0064
82619005|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Satistical significant level: 0.05|Chi-squared|||Comparison among severity of infection subgroups: Mild, Moderate, and Severe.||||<0.0001
82619006|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||General Medical History: Yes VS General Medical History: No||||<0.0001
82619007|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||General Medical History (Present): Yes VS General Medical History (Present): No||||<0.0001
82619008|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0006||||||Statistical significant level: 0.05|Chi-squared|||General Medical History (Past): Yes VS General Medical History (Past): No||||0.0006
82619009|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Chi-squared|||Kidney Disorder: Yes VS Kidney Disorder: No||||<0.0001
82619010|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||Liver Disorder: Yes VS Liver Disorder: No||||<0.0001
82619011|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0153||||||Statistical significant level: 0.05|Chi-squared|||Comparison among subgroups of Total Treatment Period of Tygacil: \<7 Days, 7 to 14 Days, and \>14 Days||||0.0153
82619012|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level 0.05|Fisher Exact|||Comparison among subgroups of Mean Daily Dose of Tygacil: \<50 mg, 50 to \<100 mg, 100 to \<200 mg, and \>=200 mg.||||<0.0001
82619013|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0376||||||Statistical significant level: 0.05|Chi-squared|||Past Medication and Therapy: Yes VS Past Medication and Therapy: No||||0.0376
82619014|NCT01072539|164954130|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||||||Statistical significant level: 0.05|Chi-squared|||Concomitant Medications: Yes VS Concomitant Medications: No||||<0.0001
82619015|NCT01008995|164954135|SUPERIORITY_OR_OTHER||||||<|0.001||||||The study was designed to maintain a Type I error of 0.05 or less for the primary analysis.|Cochran-Mantel-Haenszel|Stratified by baseline weight \[≤ 65kg vs \> 65 kg)\].||Null Hypothesis: No difference between ustekinumab 45 mg and placebo for the primary endpoint at a significance level of 0.05. Power calculations were based on two sample size assumptions: 220 (1:1 ratio) and 320 participants (1:1 ratio). Simulation studies evaluated the power to detect a treatment difference between ustekinumab 45 mg group and placebo using a CMH test stratified by baseline weight \[\<=65 kg vs \> 65 kg). The power was \>99% for both sample size assumptions.||||<0.001
82619016|NCT01008995|164954136|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|Cochran-Mantel-Haenszel|Stratified by baseline weight \[≤ 65kg vs \> 65 kg)\].||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
82619017|NCT01008995|164954137|SUPERIORITY_OR_OTHER||||||<|0.001||||||No multiplicity adjustment was made and nominal p-value was reported.|ANOVA|Analysis of variance on van der Waerden normal scores (Conover, 1980) with treatment and baseline weight (≤ 65kg vs \> 65 kg) as factors in the model.||Null Hypothesis: No difference between ustekinumab 45 mg and placebo at a significance level of 0.05.||||<0.001
82619018|NCT00621855|164954154|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Cochran-Armitage test for linear trend|||"The proportion of patients who reach this endpoint were analysed by a logistic model for linear trend (dose response).~The null hypothesis is that the relationship between dose level (0mg, 50mg, 75mg, 110mg and 150mg) and the proportions of patients with major and clinically relevant minor bleeding is not linear (slope parameter = 0)"||||<0.001
82619019|NCT00621855|164954157|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Armitage test for linear trend|||"The proportion of patients who reach this endpoint were analysed by a logistic model for linear trend (dose response).~The null hypothesis is that the relationship between dose level (0mg, 50mg, 75mg, 110mg and 150mg) and the proportions of patients with major and clinically relevant minor bleeding is not linear (slope parameter = 0)"||||<0.001
82619020|NCT03731364|164954161|SUPERIORITY|||||||0.276|||||||ANOVA|||||||0.276
82619021|NCT03731364|164954161|SUPERIORITY|||||||0.651|||||||ANOVA|||||||0.651
82619022|NCT03731364|164954161|SUPERIORITY|||||||0.556|||||||ANOVA|||||||0.556
82619023|NCT03731364|164954162|SUPERIORITY|||||||0.136|||||||Wilcoxon (Mann-Whitney)|||||||0.136
82660320|NCT02648347|165037881|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.01|||=|0.8613|TWO_SIDED|95.0|0.792|1.293|||Gray's test|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first cardiovascular death for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 127 and 131 respectively; median time to first event (Q1, Q3) = 48.29 (28.86, 76.14) weeks versus 48.43 (21.29, 92.29) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.293|0.792|=0.8613
82660321|NCT02648347|165037882|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.11|||=|0.4388|TWO_SIDED|95.0|0.902|1.375|||Log Rank|Based on non-parametric analysis.||Statistical analysis from study AKB-6548-CI-0014 has been reported in this section.||1.375|0.902|=0.4388
82619024|NCT03731364|164954162|SUPERIORITY|||||||0.649|||||||Wilcoxon (Mann-Whitney)|||||||0.649
82619025|NCT03731364|164954162|SUPERIORITY|||||||0.608|||||||Wilcoxon (Mann-Whitney)|||||||0.608
82619026|NCT03731364|164954163|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic|Not estimable|Not estimable|Not estimable||||0
82619027|NCT03731364|164954163|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic|Not estimable|Not estimable|Not estimable||||0
82619028|NCT03731364|164954163|SUPERIORITY||Odds Ratio (OR)|0.0||||0|TWO_SIDED|||||Not estimable|Regression, Logistic||Not estimable|Not estimable||||0
82619029|NCT03731364|164954164|SUPERIORITY|||||||0.306|||||||ANOVA|||||||0.306
82619030|NCT03731364|164954164|SUPERIORITY|||||||0.595|||||||ANOVA|||||||0.595
82619031|NCT03731364|164954164|SUPERIORITY|||||||0.242|||||||ANOVA|||||||0.242
82619032|NCT01934192|164954178|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|7.02|||TWO_SIDED|95.0|-5.1|22.9||||||||22.9|-5.1|
82619033|NCT01934192|164954179|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.2|STANDARD_ERROR_OF_MEAN|4.35|||TWO_SIDED|95.0|-6.5|10.9||||||||10.9|-6.5|
82619034|NCT01934192|164954180|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|STANDARD_ERROR_OF_MEAN|7.03|||TWO_SIDED|95.0|-5.1|22.9||||||||22.9|-5.1|
82619035|NCT01934192|164954181|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|STANDARD_ERROR_OF_MEAN|6.74|||TWO_SIDED|95.0|-6.9|19.9||||||||19.9|-6.9|
82619036|NCT00403559|164954234|NON_INFERIORITY|Non-inferiority determined as the F-IGA, IGA, erythema, scaling, and pruritis scores when compared between groups. The Wilcoxon rank sum test stratified baseline seborrheic dermatitis (SD) severity.||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
82619037|NCT04105244|164954236|SUPERIORITY||Wald tests|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
82619038|NCT04105244|164954237|SUPERIORITY||Wald tests|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
82619039|NCT04105244|164954238|SUPERIORITY||Wald test|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
82619040|NCT04105244|164954241|SUPERIORITY||Wald test|0.05|||<|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|Intent-to-treat principle using linear mixed-effects models with random intercepts to examine longitudinal change scores for the outcome.||||||<0.05
82619041|NCT04105244|164954242|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82619042|NCT04633473|164954244|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.922|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.922
82619043|NCT04633473|164954245|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.521|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.521
82619044|NCT04633473|164954246|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.678|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.678
82619045|NCT04633473|164954247|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.326|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.326
82619046|NCT04633473|164954248|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.09|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.09
82619047|NCT04633473|164954249|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.154|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.154
82619048|NCT04633473|164954250|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.309|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.309
82619049|NCT04633473|164954252|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.181|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.181
82619050|NCT04633473|164954253|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.008|TWO_SIDED||||||t-test, 2 sided|Within subjects paired t-tests.||||||0.008
82619051|NCT01348425|164954273|NON_INFERIORITY_OR_EQUIVALENCE|The equivalence margin is +/- 10%, type I error is assumed to be 0.05, with a power of 0.8.|Mean Difference (Final Values)|0.7|STANDARD_DEVIATION|4.1|<|0.01|TWO_SIDED|95.0|-2.0|3.5||Schuirman's TOST equivalence test on change in stent length upon deployment between longer and shorter stents.|t-test, 2 sided|To test the hypothesis whether the percent change in stent length is contained within \[-10%, 10%\].||The alternative hypothesis is equivalence in mean change in stent length upon deployment between longer and shorter stents, i.e., the difference in mean change between the longer and shorter stents is close to 0. Thus, a small p-value indicates a 95% confidence interval covers 0.||3.5|-2.0|<0.01
82619052|NCT02720016|164954277|SUPERIORITY||Slope|-3.216|STANDARD_ERROR_OF_MEAN|1.3||0.016|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.016
82660322|NCT02648347|165037882|NON_INFERIORITY|The prespecified non-inferiority margin was 1.25 (per FDA) and 1.3 (per EMA).|Hazard Ratio (HR)|1.09|||=|0.4577|TWO_SIDED|95.0|0.93|1.274|||Log Rank|Based on non-parametric analysis.||MACE analysis was performed on pooled data from studies AKB-6548-CI-0014 (NCT02648347) and AKB-6548-CI-0015 (NCT02680574). Time to first all-cause mortality for the Vadadustat and Darbepoetin alfa treatment groups was as follows: participants with events = 319 and 307 respectively; median time to first event (Q1, Q3) = 52.14 (28.71, 84.71) weeks versus 53.00 (30.71, 94.14) weeks, respectively. Statistical analysis from the pooled data has been reported in this section.||1.274|0.930|=0.4577
82660323|NCT01639222|165037895|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|179.72|||||TWO_SIDED|95.0|157.16|205.52|||||Point estimates and 95% CIs for the treatment difference ratio (Calcium-Vitamin D/reference treatment) are provided on the original scale as a ratio \* 100%.|The primary parameters were analysed in a mixed effects general linear model of the logtransformed values, including treatment as a fixed effect and subject as a random effect. The objective of the trial was met if the treatment contrast was statistically significantly different from 0 in the appropriate direction in a 2-sided test on a 5% significance level for both parameters. The 5% significance level for both primary parameters was not adjusted for multiple testing.||205.52|157.16|
82660324|NCT01639222|165037896|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|71.77|||||TWO_SIDED|95.0|68.83|74.84|||||Point estimate and 95% CI for the treatment difference ratio (Calcium-Vitamin D /reference treatment) are provided on the original scale as a ratio \* 100%.|||74.84|68.83|
82660325|NCT01639222|165037897|SUPERIORITY_OR_OTHER||Calcium-Vitamin D/Reference (%)|156.74|||||TWO_SIDED|95.0|121.66|201.93|||||Point estimates and 95% CIs for the treatment difference ratio (Calcium-Vitamin D / reference treatment) are provided on the original scale as a ratio \* 100%.|||201.93|121.66|
82660326|NCT01723397|165037914|SUPERIORITY_OR_OTHER|||||||0.8|||||||Wilcoxon signed-rank test|||||||0.8
82660327|NCT03686033|165037968|SUPERIORITY||LS Mean difference|1.12|||||TWO_SIDED|90.0|-0.98|3.22||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (predose) measurement as a covariate, and subject nested within sequence as a random effect. Least Square (LS) Mean Difference was calculated for 2.5 mg versus (vs) Placebo only.||3.22|-0.98|
82660328|NCT03686033|165037968|SUPERIORITY||LS Mean difference|-4.17|||||TWO_SIDED|90.0|-6.35|-1.99||||||The mixed effects model for the crossover part of the study will include treatment, period, and sequence as fixed effects, baseline (predose) measurement as a covariate, and subject nested within sequence as a random effect. LS Mean Difference was calculated for 25 mg vs Placebo only.||-1.99|-6.35|
82660329|NCT01045161|165037981|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.051||||0.019|TWO_SIDED|95.0|0.01|0.09|||ANCOVA|||||0.09|0.01|0.019
82660330|NCT01045161|165037981|SUPERIORITY_OR_OTHER||Least squares mean difference|0.072||||0.0012|TWO_SIDED|95.0|0.03|0.12|||ANCOVA|||||0.12|0.03|0.0012
82660331|NCT01045161|165037983|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.051||||0.0192|TWO_SIDED|95.0|0.01|0.09|||ANCOVA|||||0.09|0.01|0.0192
82660332|NCT01045161|165037983|SUPERIORITY_OR_OTHER||Least Squares Mean difference|0.072||||0.0012|TWO_SIDED|95.0|0.03|0.12|||ANCOVA|||||0.12|0.03|0.0012
82660333|NCT01854047|165037985|SUPERIORITY||Least Square (LS) Mean Difference|0.21||||0.0063|TWO_SIDED|95.0|0.06|0.36||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q2w vs. Placebo q2w|Analysis was performed using mixed effect model with repeated measures (MMRM) approach including available FEV1 data from baseline to Week 12 and treatment group as a factor. A step-down procedure was used to strongly control the overall type I error rate for testing multiple doses against placebo. The hierarchy was 300 mg q2w, 200 mg q2w, 300 mg q4w, and 200 mg q4w.||0.36|0.06|0.0063
82660334|NCT01854047|165037985|SUPERIORITY||LS Mean Difference|0.26||||0.0008|TWO_SIDED|95.0|0.11|0.4||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q2w vs. Placebo q2w|||0.40|0.11|0.0008
82660335|NCT01854047|165037985|SUPERIORITY||LS Mean Difference|0.17||||0.0212|TWO_SIDED|95.0|0.03|0.32||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q4w vs. Placebo q2w|||0.32|0.03|0.0212
82660336|NCT01854047|165037985|SUPERIORITY||LS Mean Difference|0.08||||0.2774|TWO_SIDED|95.0|-0.07|0.23||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q4w vs. Placebo q2w|||0.23|-0.07|0.2774
82660337|NCT01854047|165037986|SUPERIORITY||LS Mean Difference|0.16||||0.0002|TWO_SIDED|95.0|0.08|0.25||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q2w vs. Placebo q2w|Analysis was performed using MMRM approach including available FEV1 data from baseline to Week 12 and treatment group as a factor. A step-down procedure was used to strongly control the overall type I error rate for testing multiple doses against placebo. The hierarchy was 300 mg q2w, 200 mg q2w, 300 mg q4w and 200 mg q4w.||0.25|0.08|0.0002
82660338|NCT01854047|165037986|SUPERIORITY||LS Mean Difference|0.2|||<|0.0001|TWO_SIDED|95.0|0.011|0.28||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q2w vs. Placebo q2w|||0.28|0.011|<0.0001
82660339|NCT01854047|165037986|SUPERIORITY||LS Mean Difference|0.12||||0.0048|TWO_SIDED|95.0|0.04|0.21||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 300 mg q4w vs. Placebo q2w|||0.21|0.04|0.0048
82660340|NCT01854047|165037986|SUPERIORITY||LS Mean Difference|0.1||||0.0304|TWO_SIDED|95.0|0.01|0.18||Threshold for significance at 0.05.|Mixed Models Analysis||Dupilumab 200 mg q4w vs. Placebo q2w|||0.18|0.01|0.0304
82660341|NCT00017953|165038022|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.51|TWO_SIDED|95.0|0.83|1.09|||Regression, Cox|||||1.09|0.83|0.51
82660342|NCT00017953|165038023|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.42|TWO_SIDED|95.0|0.79|1.1|||Regression, Cox|||||1.10|0.79|0.42
82660343|NCT00017953|165038024|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.23|TWO_SIDED|95.0|0.82|1.05|||Regression, Cox|||||1.05|0.82|0.23
82492759|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.477||||0.1259|TWO_SIDED|95.0|0.185|1.231|||Regression, Logistic|||No clinically relevant change||1.231|0.185|0.1259
82492760|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.773||||0.271|TWO_SIDED|95.0|0.64|4.913|||Regression, Logistic|||≥5 letters loss||4.913|0.640|0.2710
82660344|NCT00017953|165038025|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.29|TWO_SIDED|95.0|0.84|1.05|||Regression, Cox|||||1.05|0.84|0.29
82660345|NCT02374853|165038026|SUPERIORITY|||||||0.23|||||||Fisher Exact|||||||0.23
82619053|NCT02720016|164954277|SUPERIORITY||Slope|-4.11|STANDARD_ERROR_OF_MEAN|1.308||0.002|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.002
82619054|NCT02720016|164954277|SUPERIORITY||Slope|-0.894|STANDARD_ERROR_OF_MEAN|1.296||0.492|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.492
82619055|NCT02720016|164954282|SUPERIORITY||Slope|-0.352|STANDARD_ERROR_OF_MEAN|2.172||0.872|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.872
82619056|NCT02720016|164954282|SUPERIORITY||Slope|-0.931|STANDARD_ERROR_OF_MEAN|2.296||0.686|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.686
82619057|NCT02720016|164954282|SUPERIORITY||Slope|-0.579|STANDARD_ERROR_OF_MEAN|2.256||0.798|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts and included partners nested within couples||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.798
82619058|NCT02720016|164954287|SUPERIORITY||Slope|-1.213|STANDARD_ERROR_OF_MEAN|2.518||0.631|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.631
82619059|NCT02720016|164954287|SUPERIORITY||Slope|-1.461|STANDARD_ERROR_OF_MEAN|2.495||0.56|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.560
82619060|NCT02720016|164954287|SUPERIORITY||Slope|-0.248|STANDARD_ERROR_OF_MEAN|2.536||0.922|TWO_SIDED||||||Mixed-effects regression|Models included random intercepts||Analyses were pooled across 50 imputed data sets. We used piecewise/spline mixed-effects regression models: one slope estimated from baseline to post (treatment impacts), with a separate slope estimated from post to 6-months (maintenance).||||.922
82619061|NCT03655717|164954355|SUPERIORITY||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.113||0.94|TWO_SIDED|95.0|-0.259|0.184||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for dronabinol conditions (positive values denote higher HbO levels for post-dronabinol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with dronabinol (i.e., a main effect for dronabinol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.184|-0.259|0.94
82619062|NCT03655717|164954355|SUPERIORITY||Mean Difference (Final Values)|-0.018|STANDARD_ERROR_OF_MEAN|0.206||0.94|TWO_SIDED|95.0|-0.421|0.386||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for ethanol conditions (positive values denote higher HbO levels for post-ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with ethanol (i.e., a main effect for ethanol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.386|-0.421|0.94
82660346|NCT02374853|165038027|SUPERIORITY|||||||0.25|||||||Fisher Exact|||||||0.25
82619063|NCT03655717|164954355|SUPERIORITY||Mean Difference (Final Values)|0.016|STANDARD_ERROR_OF_MEAN|0.281||0.94|TWO_SIDED|95.0|-0.535|0.568||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for the dronabinol + ethanol condition (positive values denote higher HbO levels for post-dronabinol+ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with both dronabinol and ethanol (i.e., the interaction between dronabinol and ethanol doses), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.568|-0.535|0.94
82660347|NCT02374853|165038028|SUPERIORITY|||||||0.054|||||||Wilcoxon (Mann-Whitney)|||||||.054
82660348|NCT02305758|165038058|SUPERIORITY||Hazard Ratio (HR)|0.939|||||TWO_SIDED|95.0|0.596|1.48||||||Comparisons between treatment groups were performed using the Cox Proportional Hazard Model, stratified by planned bevacizumab use (planned use versus no planned use).||1.480|0.596|
82660349|NCT02305758|165038059|SUPERIORITY||Hazard Ratio (HR)|1.261|||||TWO_SIDED|95.0|0.738|2.156||||||Comparisons between treatment groups were performed using the Cox Proportional Hazard Model, stratified by planned bevacizumab use (planned use versus no planned use).||2.156|0.738|
82660350|NCT02305758|165038060|SUPERIORITY||Difference in proportions|-4.62|||||TWO_SIDED|95.0|-21.4|12.1|||Mantel Haenszel|||Comparisons between treatment groups were performed using the Mantel-Haenszel method, stratified by planned bevacizumab use (planned use versus no planned use).||12.1|-21.4|
82660351|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.3||||||||1.3|1.1|
82660352|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
82660353|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.3||||||||1.3|1.1|
82660354|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
82660355|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.0|1.3||||||||1.3|1.0|
82660356|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|1.0|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|1.0|
82660357|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.1|1.4||||||||1.4|1.1|
82660358|NCT01077596|165038061|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|1.0|
82660359|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.4||||||95.0|0.9|2.2||||||||2.2|0.9|
82660360|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|0.8|2.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||2.0|0.8|
82660361|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|0.8|2.0||||||||2.0|0.8|
82660362|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.7|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.9|0.7|
82660363|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.3||||||95.0|0.8|2.1||||||||2.1|0.8|
82660364|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.7|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.9|0.7|
82660365|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.2||||||95.0|1.2|3.9||||||||3.9|1.2|
82660366|NCT01077596|165038062|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.0||||||95.0|1.1|3.6|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.6|1.1|
82660367|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.5||||||95.0|3.2|6.3||||||||6.3|3.2|
82660368|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.0||||||95.0|2.0|4.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.4|2.0|
82660369|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.0||||||95.0|2.8|5.8||||||||5.8|2.8|
82660370|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.9||||||95.0|1.9|4.5|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.5|1.9|
82492761|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|1.419||||0.6632|TWO_SIDED|95.0|0.294|6.856|||Regression, Logistic|||≥10 letters loss||6.856|0.294|0.6632
82660371|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.4||||||95.0|3.1|6.3||||||||6.3|3.1|
82660372|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.0||||||95.0|1.9|4.5|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||4.5|1.9|
82660373|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Crude Odds Ratio|4.5||||||95.0|2.8|7.2||||||||7.2|2.8|
82660374|NCT01077596|165038063|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|3.5||||||95.0|2.1|5.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||5.9|2.1|
82660375|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.6||||||95.0|1.7|4.1||||||||4.1|1.7|
82660376|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.1||||||95.0|1.3|3.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.4|1.3|
82660377|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.3||||||95.0|1.4|3.6||||||||3.6|1.4|
82660378|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||||95.0|1.1|3.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.0|1.1|
82660379|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.3||||||95.0|1.5|3.7||||||||3.7|1.5|
82660380|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.8||||||95.0|1.1|3.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.0|1.1|
82660381|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Crude Odds Ratio|2.6||||||95.0|1.5|4.5||||||||4.5|1.5|
82619064|NCT03655717|164954356|SUPERIORITY||Mean Difference (Final Values)|-0.163|STANDARD_ERROR_OF_MEAN|0.113||0.94|TWO_SIDED|95.0|-0.384|0.057||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for dronabinol conditions (positive values denote higher HbO levels for post-dronabinol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with dronabinol (i.e., a main effect for dronabinol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.057|-0.384|0.94
82619065|NCT03655717|164954356|SUPERIORITY||Mean Difference (Final Values)|-0.176|STANDARD_ERROR_OF_MEAN|0.21||0.94|TWO_SIDED|95.0|-0.588|0.237||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for ethanol conditions (positive values denote higher HbO levels for post-ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with ethanol (i.e., a main effect for ethanol dose), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.237|-0.588|0.94
82619066|NCT03655717|164954356|SUPERIORITY||Mean Difference (Final Values)|0.187|STANDARD_ERROR_OF_MEAN|0.276||0.94|TWO_SIDED|95.0|-0.354|0.728||The p-value is adjusted for multiple comparisons using the Benjamini-Hochberg method across the two primary outcome measures and six contrasts. Effects were deemed significant for p\<0.05.|Regression, Linear|Estimates for p-values were obtained via a non-parametric resampling approach randomly shuffling condition and refitting the data 10,000 times.|Estimate is the mean difference in average HbO level between pre-dose scans and post-dose scans for the dronabinol + ethanol condition (positive values denote higher HbO levels for post-dronabinol+ethanol scans).|The mean difference in average HbO levels (converted to z-scores) between the pre and post-dose scans for conditions where a participant was dosed with both dronabinol and ethanol (i.e., the interaction between dronabinol and ethanol doses), estimated via a linear model with with a subject-varying intercept and covariates for (a) overall differences between pre and post-dose scans and (b) visit order.||0.728|-0.354|0.94
82619067|NCT03006471|164954410|SUPERIORITY|||||||0.755||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.755
82619068|NCT03006471|164954410|SUPERIORITY|||||||0.046||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.046
82619069|NCT03006471|164954411|SUPERIORITY|||||||0.752||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.752
82619070|NCT03006471|164954411|SUPERIORITY|||||||0.582||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.582
82619071|NCT03006471|164954412|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
82619072|NCT03006471|164954412|SUPERIORITY|||||||0.22||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.220
82619073|NCT03006471|164954413|SUPERIORITY|||||||0.624||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.624
82619074|NCT03006471|164954413|SUPERIORITY|||||||1||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||1.000
82619075|NCT03006471|164954414|SUPERIORITY|||||||0.906||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.906
82619076|NCT03006471|164954414|SUPERIORITY|||||||0.017||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.017
82619077|NCT03006471|164954415|SUPERIORITY|||||||0.454||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.454
82619078|NCT03006471|164954415|SUPERIORITY|||||||0.115||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.115
82619079|NCT03006471|164954416|SUPERIORITY|||||||0.422||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.422
82619080|NCT03006471|164954416|SUPERIORITY|||||||0.917||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.917
82619081|NCT03006471|164954417|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.650
82619082|NCT03006471|164954417|SUPERIORITY|||||||0.108||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.108
82619083|NCT03006471|164954418|SUPERIORITY|||||||0.875||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.875
82619084|NCT03006471|164954418|SUPERIORITY|||||||0.196||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference in dapagliflozin group||||0.196
82619085|NCT03006471|164954419|SUPERIORITY|||||||0.552||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.552
82619086|NCT03006471|164954419|SUPERIORITY|||||||0.087||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.087
82619087|NCT03006471|164954420|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
82619088|NCT03006471|164954420|SUPERIORITY|||||||0.463||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.463
82619089|NCT03006471|164954421|SUPERIORITY|||||||0.53||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.530
82619090|NCT03006471|164954421|SUPERIORITY|||||||0.507||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.507
82619091|NCT03006471|164954422|SUPERIORITY|||||||0.152||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.152
82619092|NCT03006471|164954422|SUPERIORITY|||||||0.972||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.972
82619093|NCT03006471|164954423|SUPERIORITY|||||||0.152||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.152
82619094|NCT03006471|164954423|SUPERIORITY|||||||0.158||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.158
82619095|NCT03006471|164954424|SUPERIORITY|||||||0.944||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.944
82619096|NCT03006471|164954424|SUPERIORITY|||||||0.65||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.650
82619097|NCT03006471|164954425|SUPERIORITY|||||||0.087||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.087
82619098|NCT03006471|164954425|SUPERIORITY|||||||0.345||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.345
82619099|NCT03006471|164954426|SUPERIORITY|||||||0.115||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention group||||0.115
82660382|NCT01077596|165038064|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|2.2||||||95.0|1.3|3.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||3.9|1.3|
82619100|NCT03006471|164954427|SUPERIORITY|||||||0.047||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention groups||||0.047
82619101|NCT03006471|164954428|SUPERIORITY|||||||0.539||||||The threshold for statistical significance was p=0.05|Chi-squared|||Results showed in this section are the result of the differences between change of intervention groups||||0.539
82619102|NCT03006471|164954429|SUPERIORITY|||||||0.844||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.844
82619103|NCT03006471|164954429|SUPERIORITY|||||||0.01||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.010
82619104|NCT03006471|164954430|SUPERIORITY|||||||0.814||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.814
82619105|NCT03006471|164954430|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.011
82619106|NCT03006471|164954431|SUPERIORITY|||||||0.221||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.221
82619107|NCT03006471|164954431|SUPERIORITY|||||||0.001||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.001
82619108|NCT03006471|164954432|SUPERIORITY|||||||0.461||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.461
82619109|NCT03006471|164954432|SUPERIORITY|||||||0.011||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.011
82619110|NCT03006471|164954433|SUPERIORITY|||||||0.285||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.285
82619111|NCT03006471|164954433|SUPERIORITY|||||||0.002||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.002
82619112|NCT03006471|164954434|SUPERIORITY|||||||0.701||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.701
82619113|NCT03006471|164954434|SUPERIORITY|||||||0.081||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.081
82619114|NCT03006471|164954435|SUPERIORITY|||||||0.581||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.581
82619115|NCT03006471|164954435|SUPERIORITY|||||||0.004||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-cholesterol on dapagliflozin group||||0.004
82619116|NCT03006471|164954436|SUPERIORITY|||||||0.727||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.727
82619117|NCT03006471|164954436|SUPERIORITY|||||||0.451||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.451
82619118|NCT03006471|164954437|SUPERIORITY|||||||0.463||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.463
82619119|NCT03006471|164954437|SUPERIORITY|||||||0.043||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.043
82619120|NCT03006471|164954438|SUPERIORITY|||||||0.807||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.807
82619121|NCT03006471|164954438|SUPERIORITY|||||||0.754||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.754
82619122|NCT03006471|164954439|SUPERIORITY|||||||0.507||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in placebo group||||0.507
82619123|NCT03006471|164954439|SUPERIORITY|||||||0.015||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values in dapagliflozin group||||0.015
82619124|NCT03006471|164954440|SUPERIORITY|||||||0.039||||||The threshold for statistical significance was p=0.05|Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.039
82619125|NCT03006471|164954441|SUPERIORITY|||||||0.011|||||||Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.011
82619126|NCT03006471|164954442|SUPERIORITY|||||||0.096||||||The threshold for statistical significance was p=0.05|Fisher Exact|||Results showed in this section are the result of the differences between intervention groups||||0.096
82619127|NCT03162055|164954443|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-87.2|STANDARD_ERROR_OF_MEAN|13.3||0.9974|TWO_SIDED|97.5|-117.0|-57.4|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||-57.4|-117.0|0.9974
82619128|NCT03162055|164954444|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|13.1||0.0002|TWO_SIDED|97.5|-32.8|25.9|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||25.9|-32.8|0.0002
82619129|NCT03162055|164954445|SUPERIORITY||Odds Ratio (OR)|2.3|||<|0.0001|TWO_SIDED|95.0|1.79|2.95|||Regression, Logistic|ln (1/(1-p))=Treatment+baseline FEV1+BR a/s MDI+stratification factor (prior treatment)+region.p=percentage of participants with increase of \>=100 mL.|Estimate of the log odds of being a responder in the GFF treatment group compared to the UV treatment group using a logistic regression.|||2.95|1.79|<0.0001
82619130|NCT03162055|164954446|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -50 mL.|Least Square Mean Difference|-15.2|STANDARD_ERROR_OF_MEAN|19.4||0.0371|TWO_SIDED|95.0|-53.4|22.9|||Repeated measures analysis|Change from baseline = Treatment + baseline IC + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||22.9|-53.4|0.0371
82619131|NCT03162055|164954447|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin -1.0 unit.|Least Square Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.12|<|0.0001|TWO_SIDED|95.0|-0.59|-0.14|||Repeated measures analysis|TDI focal score = Treatment + Baseline Dyspnea Index + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean TDI focal score over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||-0.14|-0.59|<0.0001
82660383|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.8||||||95.0|0.5|1.3||||||||1.3|0.5|
82660384|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.7||||||95.0|0.4|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.4|
82660385|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.6||||||95.0|0.4|1.1||||||||1.1|0.4|
82660386|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.6||||||95.0|0.3|1.0|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.0|0.3|
82660387|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.8||||||95.0|0.5|1.4||||||||1.4|0.5|
82660388|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.8||||||95.0|0.4|1.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.4|0.4|
82660389|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.6|2.0||||||||2.0|0.6|
82660390|NCT01077596|165038065|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.6|1.9|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status†, previous depression dx, previous IBD‡ diagnosis, OC§ use, HRT/ERT use, and NSAID use.|||1.9|0.6|
82660391|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Crude Odds Ratio|0.9||||||95.0|0.8|1.1||||||||1.1|0.8|
82660392|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.9||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
82660393|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.9|1.2||||||||1.2|0.9|
82660394|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
82660395|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.8|1.1||||||||1.1|0.8|
82660396|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|0.9||||||95.0|0.8|1.1|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.1|0.8|
82660397|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.9|1.3||||||||1.3|0.9|
82660398|NCT01077596|165038066|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.9|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.9|
82492762|NCT01594281|164678273|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|3.282||||0.314|TWO_SIDED|95.0|0.325|33.171|||Regression, Logistic|||≥15 letters loss||33.171|0.325|0.3140
82660399|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|1.0|1.3||||||||1.3|1.0|
82660400|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|1.0|
82660401|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.2||||||95.0|1.0|1.4||||||||1.4|1.0|
82660402|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.2||||||95.0|1.0|1.4|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.4|1.0|
82660403|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.1||||||95.0|0.9|1.2||||||||1.2|0.9|
82660404|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.1||||||95.0|0.9|1.3|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.3|0.9|
82660405|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Crude Odds Ratio|1.0||||||95.0|0.9|1.2||||||||1.2|0.9|
82660406|NCT01077596|165038067|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.0||||||95.0|0.8|1.2|||||Adjusted for age, sex, cal year, study site, tumor characteristics, multiple antidepressants exposure, smoking, hysterectomy status, previous depression dx, previous IBD diagnosis, OC use, HRT/ERT use, and NSAID use.|||1.2|0.8|
82660407|NCT01754597|165038087|SUPERIORITY|||||||0.714|||||||Wilcoxon (Mann-Whitney)|||||||0.714
82660408|NCT01754597|165038088|SUPERIORITY|||||||0.492|||||||Wilcoxon (Mann-Whitney)|||||||0.492
82660409|NCT01754597|165038089|SUPERIORITY|||||||0.183|||||||Wilcoxon (Mann-Whitney)|||||||0.183
82660410|NCT03666026|165038109|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.03||||||||1.03|1.00|
82660411|NCT03666026|165038109|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04||||||||1.04|1.00|
82660412|NCT03666026|165038109|SUPERIORITY||Risk Ratio (RR)|1.02|||||TWO_SIDED|95.0|1.0|1.04||||||||1.04|1.00|
82660413|NCT00834795|165038110|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|95.16||||||90.0|85.69|105.67|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.67|85.69|
82660414|NCT00834795|165038111|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.27||||||90.0|90.34|102.59|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.59|90.34|
82660415|NCT00834795|165038112|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.36||||||90.0|90.2|102.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.93|90.20|
82619132|NCT03162055|164954448|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 0.1 unit.|Least Square Mean Difference|0.034|STANDARD_ERROR_OF_MEAN|0.023||0.0017|TWO_SIDED|95.0|-0.011|0.078|||Repeated measures analysis|Change from baseline = Treatment + baseline EMSCI score + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||0.078|-0.011|0.0017
82619133|NCT03162055|164954449|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 0.1 unit.|Least Square Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.024||0.0088|TWO_SIDED|95.0|-0.005|0.09|||Repeated measures analysis|Change from baseline = Treatment + baseline NiSCI score + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||0.090|-0.005|0.0088
82619134|NCT03162055|164954450|SUPERIORITY||Least Square Mean Difference|0.65|STANDARD_ERROR_OF_MEAN|0.2||0.9995|TWO_SIDED|95.0|0.26|1.04|||Repeated measures analysis|Change from baseline =Treatment + baseline rescue a/s MDI use + BR a/s MDI + stratification factor (prior treatment) + region + TI + treatment by TI.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||1.04|0.26|0.9995
82619135|NCT03162055|164954451|NON_INFERIORITY|Non-inferiority p-value is calculated corresponding to the non-inferiority margin 2.0 unit.|Least Square Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.27|<|0.0001|TWO_SIDED|95.0|0.07|1.11|||Repeated measures analysis|Change from baseline = Treatment + baseline CAT score + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||1.11|0.07|<0.0001
82619136|NCT03162055|164954452|SUPERIORITY||Least Square Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|12.8||0.5516|TWO_SIDED|97.5|-30.3|27.0|||Repeated measures analysis|Change from baseline = Treatment + baseline FEV1 + BR a/s MDI + stratification factor (prior treatment) + region + visit + treatment by visit.|Estimate of the mean peak change from baseline over 24 weeks in the GFF treatment group is compared to the UV treatment group using a repeated measures analysis.|||27.0|-30.3|0.5516
82619137|NCT02924688|164954485|SUPERIORITY||Least Squares Mean Difference|0.096|STANDARD_ERROR_OF_MEAN|0.0222|<|0.001|TWO_SIDED|95.0|0.052|0.139||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study inhaled corticosteroids (ICS) dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.139|0.052|<0.001
82660416|NCT00579345|165038118|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.66|||||TWO_SIDED|95.0|0.45|0.98|||||A/H1N1(Day22)|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||0.98|0.45|
82660417|NCT00579345|165038118|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.81|||||TWO_SIDED|95.0|0.55|1.19|||||A/H3N2 (Day 22)-criterion was met|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||1.19|0.55|
82619138|NCT02924688|164954485|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.0221|<|0.001|TWO_SIDED|95.0|0.066|0.153||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.153|0.066|<0.001
82619139|NCT02924688|164954485|SUPERIORITY||Least Squares Mean Difference|0.082|STANDARD_ERROR_OF_MEAN|0.0221|<|0.001|TWO_SIDED|95.0|0.039|0.125||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.125|0.039|<0.001
82619140|NCT02924688|164954485|SUPERIORITY||Least Squares Mean Difference|0.092|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|95.0|0.049|0.135||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.135|0.049|<0.001
82660418|NCT00579345|165038118|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if lower limit of the 2-sided 95% Clopper-Pearson confidence interval (CI) of the ratio of the postvaccination (Day 22) Geometric Mean Titers (FLU+PV/FLU vaccine alone) was greater than 0.5.|Ratio of GMTs|0.69|||||TWO_SIDED|95.0|0.46|1.02|||||B (Day 22)|The non-inferiority null hypothesis stated that the FLU+PV vaccine group was non-inferior to the FLU alone group if the lower limit of the 95% CI of the ratio of GMTs between vaccines (FLU+PV/FLU alone) on day 22 was greater than 0.5 for all three vaccine strains.||1.02|0.46|
82492763|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.994||||0.9918|TWO_SIDED|95.0|0.327|3.026|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||3.026|0.327|0.9918
82619141|NCT02924688|164954486|SUPERIORITY||Rate Ratio|0.97||||0.778|TWO_SIDED|95.0|0.81|1.17||p-value was calculated using Generalized linear model with covariates for age, sex, region, treatment group, stratification by pre-study ICS dosage at screening, and severe asthma exacerbations in the previous year (0, 1, \>=2).|Negative Binomial Model||Treatment policy estimand was assessed, including all on- and post-treatment data.|||1.17|0.81|0.778
82619142|NCT02924688|164954486|SUPERIORITY||Rate Ratio|0.87||||0.151|TWO_SIDED|95.0|0.72|1.05||p-value was calculated using Generalized linear model with covariates for age, sex, region, treatment group, stratification by pre-study ICS dosage at screening, and severe asthma exacerbations in the previous year (0, 1, \>=2).|Negative Binomial Model||Treatment policy estimand was assessed, including all on- and post-treatment data.|||1.05|0.72|0.151
82619143|NCT02924688|164954487|SUPERIORITY||Least Squares Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.0226|<|0.001|TWO_SIDED|95.0|0.044|0.132||p-value was calculated using Analysis of Covariance (ANCOVA) with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.132|0.044|<0.001
82619144|NCT02924688|164954487|SUPERIORITY||Least Squares Mean Difference|0.111|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|95.0|0.067|0.155||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.155|0.067|<0.001
82619145|NCT02924688|164954487|SUPERIORITY||Least Squares Mean Difference|0.088|STANDARD_ERROR_OF_MEAN|0.0225|<|0.001|TWO_SIDED|95.0|0.044|0.132||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.132|0.044|<0.001
82619146|NCT02924688|164954487|SUPERIORITY||Least Squares Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.0224|<|0.001|TWO_SIDED|95.0|0.074|0.162||p-value was calculated using ANCOVA with covariates of treatment, age, sex, region, Baseline value, and pre-study ICS dosage at screening.|ANCOVA|||||0.162|0.074|<0.001
82619147|NCT02924688|164954488|SUPERIORITY||Least Squares Mean Difference|-0.057|STANDARD_ERROR_OF_MEAN|0.034||0.094|TWO_SIDED|95.0|-0.124|0.01||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.010|-0.124|0.094
82619148|NCT02924688|164954488|SUPERIORITY||Least Squares Mean Difference|-0.089|STANDARD_ERROR_OF_MEAN|0.0338||0.008|TWO_SIDED|95.0|-0.156|-0.023||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||-0.023|-0.156|0.008
82619149|NCT02924688|164954489|OTHER||Least Squares Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|0.697||0.115|TWO_SIDED|95.0|-0.27|2.47||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||2.47|-0.27|0.115
82619150|NCT02924688|164954489|OTHER||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.692||0.662|TWO_SIDED|95.0|-1.66|1.05||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.05|-1.66|0.662
82619151|NCT02924688|164954490|OTHER||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.185||0.479|TWO_SIDED|95.0|-0.49|0.23||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and 4-weekly period, interaction terms for Baseline value by 4-weekly period and treatment by 4-weekly period.|Mixed Model Repeated Measures|||||0.23|-0.49|0.479
82619152|NCT02924688|164954490|OTHER||Least Squares Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.184||0.023|TWO_SIDED|95.0|-0.78|-0.06||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and 4-weekly period, interaction terms for Baseline value by 4-weekly period and treatment by 4-weekly period.|Mixed Model Repeated Measures|||||-0.06|-0.78|0.023
82619153|NCT02924688|164954493|OTHER||Least Squares Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.75||0.172|TWO_SIDED|95.0|-2.5|0.4||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||0.4|-2.5|0.172
82619154|NCT02924688|164954493|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.74||0.436|TWO_SIDED|95.0|-2.0|0.9||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||0.9|-2.0|0.436
82619155|NCT02924688|164954493|OTHER||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.75||0.426|TWO_SIDED|95.0|-0.9|2.1||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||2.1|-0.9|0.426
82619156|NCT02924688|164954493|OTHER||Least Squares Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|0.74||0.349|TWO_SIDED|95.0|-0.8|2.2||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for SBP|||2.2|-0.8|0.349
82619157|NCT02924688|164954493|OTHER||Least Squares Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.56||0.482|TWO_SIDED|95.0|-1.5|0.7||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||0.7|-1.5|0.482
82619158|NCT02924688|164954493|OTHER||Least Squares Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.56||0.142|TWO_SIDED|95.0|-0.3|1.9||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.9|-0.3|0.142
82619159|NCT02924688|164954493|OTHER||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.56||0.806|TWO_SIDED|95.0|-1.2|1.0||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.0|-1.2|0.806
82619160|NCT02924688|164954493|OTHER||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.447|TWO_SIDED|95.0|-0.7|1.5||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures||Comparison for DBP|||1.5|-0.7|0.447
82619161|NCT02924688|164954494|OTHER||Least Squares Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|0.61||0.034|TWO_SIDED|95.0|0.1|2.5||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||2.5|0.1|0.034
82619162|NCT02924688|164954494|OTHER||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.61||0.839|TWO_SIDED|95.0|-1.1|1.3||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.3|-1.1|0.839
82619163|NCT02924688|164954494|OTHER||Least Squares Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.61||0.349|TWO_SIDED|95.0|-1.8|0.6||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||0.6|-1.8|0.349
82619164|NCT02924688|164954494|OTHER||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.61||0.768|TWO_SIDED|95.0|-1.0|1.4||p-value was calculated using MMRM with covariates of treatment, age, sex, region, Baseline value, pre-study ICS dosage at screening, and visit, interaction terms for Baseline value by visit and treatment by visit.|Mixed Model Repeated Measures|||||1.4|-1.0|0.768
82619165|NCT02370498|164954507|OTHER||Hazard Ratio (HR)|1.27||||0.98358|TWO_SIDED|95.0|1.03|1.57||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\< 6 months vs. \>= 6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.57|1.03|0.98358
82619166|NCT02370498|164954508|OTHER||Hazard Ratio (HR)|0.82||||0.04205|TWO_SIDED|95.0|0.66|1.03||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\< 6 months vs. \>= 6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in OS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.03|0.66|0.04205
82619167|NCT02370498|164954509|OTHER||Hazard Ratio (HR)|1.49||||0.99999|TWO_SIDED|95.0|1.25|1.77||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.77|1.25|0.99999
82619168|NCT02370498|164954510|OTHER||Hazard Ratio (HR)|0.94||||0.24463|TWO_SIDED|95.0|0.79|1.12||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in OS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (Hazard Ratio \[HR\]) between the treatment arms.||1.12|0.79|0.24463
82619169|NCT02370498|164954511|OTHER||Hazard Ratio (HR)|0.98||||0.41331|TWO_SIDED|95.0|0.79|1.21||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.21|0.79|0.41331
82619170|NCT02370498|164954512|OTHER||Hazard Ratio (HR)|1.19||||0.97481|TWO_SIDED|95.0|1.0|1.42||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.42|1.00|0.97481
82619171|NCT02370498|164954513|OTHER||Hazard Ratio (HR)|1.11||||0.80696|TWO_SIDED|95.0|0.89|1.38||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.38|0.89|0.80696
82619172|NCT02370498|164954514|OTHER||Hazard Ratio (HR)|1.34||||0.99932|TWO_SIDED|95.0|1.12|1.6||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in PFS was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.60|1.12|0.99932
82619173|NCT02370498|164954515|OTHER||Hazard Ratio (HR)|1.45||||0.99661|TWO_SIDED|95.0|1.11|1.89||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.89|1.11|0.99661
82660419|NCT00834067|165038205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.7||||||90.0|90.1|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104|90.1|
82619174|NCT02370498|164954516|OTHER||Hazard Ratio (HR)|1.77||||1|TWO_SIDED|95.0|1.42|2.2||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||2.20|1.42|1.00000
82619175|NCT02370498|164954517|OTHER||Hazard Ratio (HR)|0.97||||0.3928|TWO_SIDED|95.0|0.77|1.23||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.23|0.77|0.39280
82619176|NCT02370498|164954518|OTHER||Hazard Ratio (HR)|1.21||||0.97033|TWO_SIDED|95.0|1.0|1.47||One-sided p-value based on log-rank test stratified by geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\< 6 months vs. \>= 6 months), and PD-L1 status (positive vs. negative).|Regression, Cox|P-value rounded to 5 decimal places.||Treatment difference in TTP was assessed by the Stratified Log-rank test, and a stratified Cox proportional hazard model with Efron's method of tie handling was used to assess the magnitude of the treatment difference (HR) between the treatment arms.||1.47|1.00|0.97033
82619177|NCT02370498|164954519|OTHER||Difference in Percentage|2.0||||0.28967|TWO_SIDED|95.0|-5.0|9.1||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months) weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified Miettinen and Nurminen's (MN) method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||9.1|-5.0|0.28967
82619178|NCT02370498|164954520|OTHER||Difference in Percentage|-1.3||||0.6901|TWO_SIDED|95.0|-6.5|4.0||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative) weighting by sample size|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified MN method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||4.0|-6.5|0.69010
82619179|NCT02370498|164954521|OTHER||Difference in Percentage|1.6||||0.3322|TWO_SIDED|95.0|-5.8|9.1||Stratification factors for MN method included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World) and TTP on first-line therapy (\<6 months vs. ≥6 months), weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified MN method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm was provided.||9.1|-5.8|0.33220
82619180|NCT02370498|164954522|OTHER||Difference in Percentage|-3.0||||0.85922|TWO_SIDED|95.0|-8.5|2.6||Stratification factors included geographic region (Europe/Israel/North America/Australia vs. Asia vs. Rest of World), TTP on first-line therapy (\<6 months vs. ≥6 months), and PD-L1 status (positive vs. negative) weighting by sample size.|Miettinen and Nurminen method|P-value rounded to 5 decimal places.||Stratified Miettinen and Nurminen's method was used for comparison of the ORR between the treatment arms. A 95% CI for the difference in response rates between the pembrolizumab arm and paclitaxel arm is provided.||2.6|-8.5|0.85922
82619181|NCT02370498|164954528|OTHER||Difference in Percentage|-3.2|||||TWO_SIDED|95.0|-6.9|0.2||||||Between-treatment differences (Pembrolizumab vs. Paclitaxel) in the percentage of participants with events and accompanying 95% confidence intervals were based on the Miettinen and Nurminen method. Negative values correspond to a greater percentage of events for Paclitaxel.||0.2|-6.9|
82619182|NCT01122030|164954542|SUPERIORITY_OR_OTHER|||||||0.0767||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.0767
82619183|NCT01122030|164954542|SUPERIORITY_OR_OTHER|||||||0.8727||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.8727
82619184|NCT01122030|164954542|SUPERIORITY_OR_OTHER|||||||0.6373||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.6373
82619185|NCT01122030|164954542|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
82660420|NCT00834067|165038206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|104.0||||||90.0|99.9|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108|99.9|
82660421|NCT00834067|165038207|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|99.7|107.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107|99.7|
82619186|NCT01122030|164954542|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
82619187|NCT01122030|164954542|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
82619188|NCT01122030|164954543|SUPERIORITY_OR_OTHER|||||||0.8982||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.8982
82619189|NCT01122030|164954543|SUPERIORITY_OR_OTHER|||||||0.4946||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.4946
82619190|NCT01122030|164954543|SUPERIORITY_OR_OTHER|||||||0.9301||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.9301
82619191|NCT01122030|164954543|SUPERIORITY_OR_OTHER|||||||0.0047||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||0.0047
82619192|NCT01122030|164954543|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
82660422|NCT00834067|165038208|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|96.0|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|96|
82660423|NCT00834067|165038209|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|99.1|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102|99.1|
82660424|NCT00834067|165038210|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|99.4|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|99.4|
82660425|NCT00834067|165038211|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|107.0||||||90.0|99.8|114.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||114|99.8|
82660426|NCT00834067|165038212|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.0||||||90.0|99.0|106.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||106|99|
82660427|NCT00834067|165038213|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|98.1|108.0|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||108|98.1|
82619193|NCT01122030|164954543|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of SBMs as a covariate.||||||<0.0001
82619194|NCT01122030|164954544|SUPERIORITY_OR_OTHER|||||||0.1334||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.1334
82619195|NCT01122030|164954544|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.3320
82619196|NCT01122030|164954544|SUPERIORITY_OR_OTHER|||||||0.9371||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.9371
82619197|NCT01122030|164954544|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.0002
82660428|NCT01415232|165038219|NON_INFERIORITY_OR_EQUIVALENCE|Balki et al found a Pearson's correlation coefficient between the UD and ND depth of 0.85 (95% CI 0.75-0.91). We believe EDE + US would result in a correlation coefficient of approximately 0.91. To keep the lower bound estimate within 0.04 of a correlation of 0.91, and to maintain a 95% confidence level, 140 patients would need to be sampled. To allow for patients who may not complete the study, 160 patients were enrolled.|correlation coefficient|0.91|||<|0.05|TWO_SIDED|95.0|0.87|0.93|||longitudinal correlation coefficient|||Pearson's correlation coefficient was calculated for epidural distance measurements which included actual clinical epidural needle depth (ND) and the epidural depth equation (EDE), ND and prior EDE + US midline longitudinal plane view, ND and prior EDE + US transverse plane view.||0.93|0.87|< 0.05
82619198|NCT01122030|164954544|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
82619199|NCT01122030|164954544|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-value is from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
82619200|NCT01122030|164954545|SUPERIORITY_OR_OTHER|||||||0.7978||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7978
82619201|NCT01122030|164954545|SUPERIORITY_OR_OTHER|||||||0.7143||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7143
82619202|NCT01122030|164954545|SUPERIORITY_OR_OTHER|||||||0.7531||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.7531
82619203|NCT01122030|164954545|SUPERIORITY_OR_OTHER|||||||0.0283||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||0.0283
82619204|NCT01122030|164954545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
82660429|NCT01415232|165038219|NON_INFERIORITY_OR_EQUIVALENCE|correlation coefficient|transverse plane correlation coefficient|0.9|||>|0.85|TWO_SIDED|95.0|0.87|0.93|||transverse plane correlation coefficient|||Transverse plane correlation coefficient||0.93|0.87|>0.85
82660430|NCT01415232|165038219|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.64|STANDARD_DEVIATION|1.0|>|0.05|TWO_SIDED|95.0|6.5|6.8|||t-test, 2 sided|||Clinical epidural needle depth||6.8|6.5|>0.05
82660431|NCT01415232|165038219|SUPERIORITY_OR_OTHER||Formula calculation|6.54|STANDARD_DEVIATION|0.68|>|0.05|TWO_SIDED|95.0|6.44|6.65|||Formula calculation||Estimated epidural depth equation depth (cm)|Estimated epidural depth equation depth (cm)||6.65|6.44|>0.05
82660432|NCT03570749|165038220|SUPERIORITY||Odds Ratio (OR)|5.75|||<|0.001|TWO_SIDED|95.0|2.75|12.02|||Regression, Logistic|||||12.02|2.75|<0.001
82660433|NCT03570749|165038220|SUPERIORITY||Odds Ratio (OR)|11.8|||<|0.001|TWO_SIDED|95.0|5.89|23.62|||Regression, Logistic|||||23.62|5.89|<0.001
82660434|NCT03570749|165038221|SUPERIORITY||Odds Ratio (OR)|3.92|||<|0.001|TWO_SIDED|95.0|1.81|8.51|||Regression, Logistic|||||8.51|1.81|<0.001
82660435|NCT03570749|165038221|SUPERIORITY||Odds Ratio (OR)|10.26|||<|0.001|TWO_SIDED|95.0|5.05|20.87|||Regression, Logistic|||||20.87|5.05|<0.001
82660436|NCT03570749|165038222|SUPERIORITY||Odds Ratio (OR)|5.58||||0.001|TWO_SIDED|95.0|1.97|15.83|||Regression, Logistic|||||15.83|1.97|0.001
82660437|NCT03570749|165038222|SUPERIORITY||Odds Ratio (OR)|14.34|||<|0.001|TWO_SIDED|95.0|5.3|38.83|||Regression, Logistic|||||38.83|5.30|<0.001
82619205|NCT01122030|164954545|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of BMs as a covariate.||||||<0.0001
82660438|NCT03570749|165038223|SUPERIORITY||Odds Ratio (OR)|10.34|||<|0.001|TWO_SIDED|95.0|2.72|39.3|||Regression, Logistic|||||39.30|2.72|<0.001
82660439|NCT03570749|165038223|SUPERIORITY||Odds Ratio (OR)|18.47|||<|0.001|TWO_SIDED|95.0|5.04|67.68|||Regression, Logistic|||||67.68|5.04|<0.001
82619206|NCT01122030|164954546|SUPERIORITY_OR_OTHER|||||||0.6269||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.6269
82619207|NCT01122030|164954546|SUPERIORITY_OR_OTHER|||||||0.7456||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7456
82660440|NCT03570749|165038224|SUPERIORITY||Odds Ratio (OR)|6.6|||<|0.001|TWO_SIDED|95.0|2.34|18.62|||Regression, Logistic|||||18.62|2.34|<0.001
82660441|NCT03570749|165038224|SUPERIORITY||Odds Ratio (OR)|13.58|||<|0.001|TWO_SIDED|95.0|5.01|36.81|||Regression, Logistic|||||36.81|5.01|<0.001
82660442|NCT03570749|165038225|SUPERIORITY||Odds Ratio (OR)|4.63||||0.012|TWO_SIDED|95.0|1.41|15.27|||Regression, Logistic|||||15.27|1.41|0.012
82660443|NCT03570749|165038225|SUPERIORITY||Odds Ratio (OR)|14.42|||<|0.001|TWO_SIDED|95.0|4.73|43.93|||Regression, Logistic|||||43.93|4.73|<0.001
82660444|NCT03570749|165038226|SUPERIORITY||Mean Difference (Final Values)|-23.1|STANDARD_ERROR_OF_MEAN|3.806|<|0.001|TWO_SIDED|95.0|-30.57|-15.63|||ANCOVA|||||-15.63|-30.57|<0.001
82660445|NCT03570749|165038226|SUPERIORITY||Mean Difference (Final Values)|-37.65|STANDARD_ERROR_OF_MEAN|3.447|<|0.001|TWO_SIDED|95.0|-44.24|-30.89|||ANCOVA|||||-30.89|-44.24|<0.001
82660446|NCT03570749|165038227|SUPERIORITY||Odds Ratio (OR)|2.31||||0.047|TWO_SIDED|95.0|1.01|5.29|||Regression, Logistic|||||5.29|1.01|0.047
82660447|NCT03570749|165038227|SUPERIORITY||Odds Ratio (OR)|6.03|||<|0.001|TWO_SIDED|95.0|2.91|12.51|||Regression, Logistic|||||12.51|2.91|<0.001
82660448|NCT03570749|165038229|SUPERIORITY||Mean Difference (Final Values)|-0.82|STANDARD_ERROR_OF_MEAN|0.288||0.005|TWO_SIDED|95.0|-1.38|-0.25|||ANCOVA|||||-0.25|-1.38|0.005
82660449|NCT03570749|165038229|SUPERIORITY||Mean Difference (Final Values)|-0.54|STANDARD_ERROR_OF_MEAN|0.261||0.04|TWO_SIDED|95.0|-1.05|-0.02|||ANCOVA|||||-0.02|-1.05|0.040
82660450|NCT03570749|165038230|SUPERIORITY||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.259||0.107|TWO_SIDED|95.0|-0.93|0.09|||ANCOVA|||||0.09|-0.93|0.107
82660451|NCT03570749|165038230|SUPERIORITY||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.234||0.174|TWO_SIDED|95.0|-0.78|0.14|||ANCOVA|||||0.14|-0.78|0.174
82660452|NCT00804856|165038257|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.91||||0.0523|TWO_SIDED|95.0|0.99|8.58|||Regression, Logistic||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|Analysis for Objective Response||8.58|0.99|0.0523
82660453|NCT00804856|165038261|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.57||||0.0208|TWO_SIDED|95.0|0.35|0.92|||Log Rank||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|An exploratory (non-stratified) logrank test was used to compare the different treatment arms.||0.92|0.35|0.0208
82660454|NCT00804856|165038262|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.63||||0.0465|TWO_SIDED|95.0|0.4|1.0|||Log Rank||Ratio calculated as Phase II Schedule A Volasertib 350mg+LDAC divided by Phase II Schedule C LDAC.|An exploratory (non-stratified) logrank test was used to compare the different treatment arms.||1.00|0.40|0.0465
82660455|NCT03868891|165038292|OTHER|||||||1|||||||Wilcoxon signed-rank|||inflation test at 2 months compared with baseline; EMST150 + Eustachi not included because visit 2 measurements only available for 1 participant (2 ears)||||1.00
82660456|NCT03868891|165038292|OTHER|||||||0.734|||||||Wilcoxon signed-rank|||deflation test at 2 months compared with baseline; EMST150 + Eustachi not included because visit 2 measurements only available for 1 participant (2 ears)||||0.734
82660457|NCT03868891|165038293|OTHER|||||||0.25|||||||Wilcoxon signed-rank|||inflation test at 4 months compared with baseline||||0.25
82660458|NCT03868891|165038293|OTHER|||||||0.75|||||||Wilcoxon signed-rank|||deflation test at 4 months compared with baseline||||0.75
82492764|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.607||||0.3595|TWO_SIDED|95.0|0.209|1.765|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||1.765|0.209|0.3595
82619208|NCT01122030|164954546|SUPERIORITY_OR_OTHER|||||||0.1968||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.1968
82619209|NCT01122030|164954546|SUPERIORITY_OR_OTHER|||||||0.8708||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.8708
82619210|NCT01122030|164954546|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||<0.0001
82619211|NCT01122030|164954546|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.0002
82619212|NCT01122030|164954547|SUPERIORITY_OR_OTHER|||||||0.6131||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.6131
82619213|NCT01122030|164954547|SUPERIORITY_OR_OTHER|||||||0.9293||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.9293
82619214|NCT01122030|164954547|SUPERIORITY_OR_OTHER|||||||0.799||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7990
82619215|NCT01122030|164954547|SUPERIORITY_OR_OTHER|||||||0.7674||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.7674
82619216|NCT01122030|164954547|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||<0.0001
82619217|NCT01122030|164954547|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||ANCOVA|P-values are from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CSBMs as a covariate.||||||0.0018
82619218|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.7434|TWO_SIDED|95.0|0.42|3.92|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||3.92|0.42|0.7434
82619219|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.54||||0.4449|TWO_SIDED|95.0|0.54|4.42|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||4.42|0.54|0.4449
82619220|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.8129|TWO_SIDED|95.0|0.27|2.72|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||2.72|0.27|0.8129
82619221|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.52||||0.0005|TWO_SIDED|95.0|2.29|24.72|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||24.72|2.29|0.0005
82619222|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|9.93|||<|0.0001|TWO_SIDED|95.0|3.09|31.89|||Log Rank|P-values were obtained from the log-rank test stratified by Gender.||||31.89|3.09|<0.0001
82619223|NCT01122030|164954548|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|202272814.0|||<|0.0001||95.0|||||Log Rank|P-values were obtained from the log-rank test stratified by Gender.|Hazard Ratio is infinite due to small range of observed times in 3 mg group that has no overlap with the Placebo group.|||||<0.0001
82619224|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.51||||0.4923|TWO_SIDED|95.0|0.53|4.28|||Log Rank|P-values are from the log rank test stratified by gender.||||4.28|0.53|0.4923
82619225|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.45||||0.5479|TWO_SIDED|95.0|0.52|4.06|||Log Rank|P-values are from the log rank test stratified by gender.||||4.06|0.52|0.5479
82619226|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.44||||0.506|TWO_SIDED|95.0|0.56|3.67|||Log Rank|P-values are from the log rank test stratified by gender.||||3.67|0.56|0.5060
82619227|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.36||||0.0005|TWO_SIDED|95.0|2.27|23.9|||Log Rank|P-values are from the log rank test stratified by gender.||||23.90|2.27|0.0005
82619228|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|9.54|||<|0.0001|TWO_SIDED|95.0|3.0|30.35|||Log Rank|P-values are from the log rank test stratified by gender.||||30.35|3.00|<0.0001
82619229|NCT01122030|164954549|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|192233779.0|||<|0.0001||95.0|||||Log Rank|P-values are from the log rank test stratified by gender.|Hazard Ratio is infinite due to small range of observed times in 3 mg group that has no overlap with the Placebo group.|||||<0.0001
82619230|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|3.45||||0.1523|TWO_SIDED|95.0|0.62|19.35|||Log Rank|P-values are from the log rank test stratified by gender.||||19.35|0.62|0.1523
82619231|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|4.55||||0.0856|TWO_SIDED|95.0|0.76|27.07|||Log Rank|P-values are from the log rank test stratified by gender.||||27.07|0.76|0.0856
82619232|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.81||||0.5284|TWO_SIDED|95.0|0.3|10.98|||Log Rank|P-values are from the log rank test stratified by gender.||||10.98|0.30|0.5284
82619233|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.86||||0.8594|TWO_SIDED|95.0|0.09|8.66|||Log Rank|P-values are from the log rank test stratified by gender.||||8.66|0.09|0.8594
82619234|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|59.34|||<|0.0001|TWO_SIDED|95.0|6.55|537.38|||Log Rank|P-values are from the log rank test stratified by gender.||||537.38|6.55|<0.0001
82619235|NCT01122030|164954550|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|10.99||||0.0007|TWO_SIDED|95.0|2.3|52.57|||Log Rank|P-values are from the log rank test stratified by gender.||||52.57|2.30|0.0007
82619236|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.5054||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.5054
82619237|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.9688||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.9688
82619238|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.6963||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.6963
82619239|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.9599||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.9599
82619240|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0001
82619241|NCT01122030|164954552|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0006
82619242|NCT01122030|164954553|SUPERIORITY_OR_OTHER|||||||0.3441||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.3441
82619243|NCT01122030|164954553|SUPERIORITY_OR_OTHER|||||||0.7159||95.0||||P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.|ANCOVA|||||||0.7159
82619244|NCT01122030|164954553|SUPERIORITY_OR_OTHER|||||||0.7342||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.7342
82619245|NCT01122030|164954553|SUPERIORITY_OR_OTHER|||||||0.8714||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.8714
82619246|NCT01122030|164954553|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||<0.0001
82619247|NCT01122030|164954553|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||ANCOVA|P-values were obtained from a non-parametric rank ANCOVA model with effects for dose group and gender, and baseline number of CBMs as a covariate.||||||0.0006
82619248|NCT01205451|164954567|SUPERIORITY_OR_OTHER||t-distribution|-1.21|||<|0.0001|TWO_SIDED|95.0|-1.38|-1.04||The P-value for change from Baseline indicates the comparision of the Week 6 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-1.04|-1.38|<0.0001
82619249|NCT01205451|164954567|SUPERIORITY_OR_OTHER||t-distribution|-1.33|||<|0.0001|TWO_SIDED|95.0|-1.54|-1.12||The P-value for change from Baseline indicates the comparision of the Week 6 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-1.12|-1.54|<0.0001
82619250|NCT01205451|164954567|SUPERIORITY_OR_OTHER||t-distribution|-0.88|||<|0.0001|TWO_SIDED|95.0|-1.04|-0.72||The P-value for change from Baseline indicates the comparision of the Week 12 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-0.72|-1.04|<0.0001
82619251|NCT01205451|164954567|SUPERIORITY_OR_OTHER||t-distribution|-1.12|||<|0.0001|TWO_SIDED|95.0|-1.33|-0.91||The P-value for change from Baseline indicates the comparision of the Week 12 value against the Baseline value.|Wilcoxon signed-rank test||Confidence intervals for means were based on the t-distribution.|||-0.91|-1.33|<0.0001
82619252|NCT00798694|164954606|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||"Null Hypothesis: There is no significant difference in tear break-up time between the group New to Meds and the group Currently on Xalatan at two months."||||0.005
82619253|NCT01774344|164954615|SUPERIORITY||Hazard Ratio (HR)|0.624|||=|1.7e-05|TWO_SIDED|95.0|0.498|0.782|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for stratified IVRS by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.782|0.498|= 0.000017
82660459|NCT03868891|165038294|OTHER|||||||0.25|||||||Wilcoxon signed-rank|||inflation test at 4 months compared with 2 months||||0.25
82619254|NCT01774344|164954615|SUPERIORITY||Hazard Ratio (HR)|0.66|||=|0.000149|TWO_SIDED|95.0|0.527|0.828|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for stratified RAVE (Sensitivity) by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.828|0.527|= 0.000149
82619255|NCT01774344|164954615|SUPERIORITY||Hazard Ratio (HR)|0.674|||=|0.000107|TWO_SIDED|95.0|0.546|0.831|||Log Rank|||Hazard ratio for OS and 95% confidence interval was calculated for unstratified (sensitivity) by using Cox model, stratified by the geographic region: Asia or Rest of the World (ROW), ECOG-PS: 0 versus 1, AFP level, presence versus absence of extrahepatic disease and presence versus absence of macrovascular invasion. Kaplan-Meier (KM) estimated for OS and KM survival curves were presented for each treatment arm.||0.831|0.546|= 0.000107
82619256|NCT01774344|164954616|SUPERIORITY||Hazard Ratio (HR)|0.439|||<|1e-06|TWO_SIDED|95.0|0.355|0.542|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.542|0.355|< 0.000001
82619257|NCT01774344|164954616|SUPERIORITY||Hazard Ratio (HR)|0.471|||<|1e-06|TWO_SIDED|95.0|0.388|0.572|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.572|0.388|< 0.000001
82619258|NCT01774344|164954616|SUPERIORITY||Hazard Ratio (HR)|0.412|||<|1e-06|TWO_SIDED|95.0|0.334|0.509|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.509|0.334|< 0.000001
82619259|NCT01774344|164954616|SUPERIORITY||Hazard Ratio (HR)|0.444|||<|1e-06|TWO_SIDED|95.0|0.365|0.539|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Kaplan-Meier estimates.||0.539|0.365|< 0.000001
82619260|NCT01774344|164954617|SUPERIORITY||Hazard Ratio (HR)|0.453|||<|1e-06|TWO_SIDED|95.0|0.369|0.555|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.555|0.369|< 0.000001
82660460|NCT03868891|165038294|OTHER|||||||0.75|||||||Wilcoxon signed-rank|||deflation test at 4 months compared with 2 months||||0.75
82660461|NCT02363803|165038319|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|Paired t-test||||||0.03
82660462|NCT02009163|165038344|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||P-value based on a log-rank test, stratified by 4-week cessation status (Yes, No). 4-week cessation was defined as a subject having no binge days during the 4 weeks prior to randomization.|Log Rank|||||||<0.001
82660463|NCT02009163|165038345|SUPERIORITY_OR_OTHER_LEGACY||difference in LS mean|-0.61|||<|0.001|TWO_SIDED|95.0|-0.81|-0.42||Nominal P-value not adjusted for multiplicity.|mixed- effects model for repeated measur|MMRM over all post-randomization visits during the randomized-withdrawal phase. Value for change from baseline = outcome variable.||||-0.42|-0.81|<0.001
82619261|NCT01774344|164954617|SUPERIORITY||Hazard Ratio (HR)|0.48|||<|1e-06|TWO_SIDED|95.0|0.397|0.58|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.580|0.397|< 0.000001
82619262|NCT01774344|164954617|SUPERIORITY||Hazard Ratio (HR)|0.425|||<|1e-06|TWO_SIDED|95.0|0.347|0.522|||Log Rank|||Hazard ratio and its 95% CI was based on stratified (IVRS) Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.522|0.347|< 0.000001
82619263|NCT01774344|164954617|SUPERIORITY||Hazard Ratio (HR)|0.454|||<|1e-06|TWO_SIDED|95.0|0.376|0.548|||Log Rank|||Hazard ratio and its 95% CI was based on unstratified Cox Regression Model. One-sided p-value was calculated from log rank test and 95% CIs was computed by using Cox Regression Model.||0.548|0.376|< 0.000001
82619264|NCT01774344|164954618|SUPERIORITY||Difference|-6.88|||=|0.00365|TWO_SIDED|95.0|-11.13|-2.63|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-2.63|-11.13|= 0.003650
82619265|NCT01774344|164954618|SUPERIORITY||Difference|-4.15|||=|0.019991|TWO_SIDED|95.0|-7.55|-0.75|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-0.75|-7.55|= 0.019991
82619266|NCT01774344|164954619|SUPERIORITY||Difference|-29.31|||<|1e-06|TWO_SIDED|95.0|-37.52|-21.11|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-21.11|-37.52|< 0.000001
82619267|NCT01774344|164954619|SUPERIORITY||Difference|-31.39|||<|1e-06|TWO_SIDED|95.0|-39.57|-23.22|||Cochran-Mantel-Haenszel|||Comparison of treatments were calculated.||-23.22|-39.57|< 0.000001
82619268|NCT03546413|164954621|SUPERIORITY||||||<|0.001||||||This is the calculated p-value|Regression, Logistic|||Test for equivalence between the groups||||<0.001
82619269|NCT03546413|164954622|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.055|||||||Regression, Logistic|||Test for equivalence between the groups||||0.055
82619270|NCT03546413|164954623|SUPERIORITY||||||<|0.001||||||This is the calculated p-value|Wilcoxon (Mann-Whitney)|||||||<0.001
82619271|NCT03546413|164954623|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.|||||<|0.001||||||This is the calculated p-value|Regression, Linear|||||||<0.001
82619272|NCT03546413|164954623|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.939|||||||Regression, Linear|||||||0.939
82619273|NCT03546413|164954623|SUPERIORITY|A linear regression model was used on the log of the peanut consumption with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.002|||||||Regression, Linear|||||||0.002
82619274|NCT03546413|164954624|SUPERIORITY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
82619275|NCT03546413|164954624|SUPERIORITY|A linear regression model was used on the log of peanut skin prick test with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.208|||||||Regression, Linear|||||||0.208
82619276|NCT03546413|164954624|SUPERIORITY|A linear regression model was used on the log of peanut skin prick with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.587|||||||Regression, Linear|||||||0.587
82619277|NCT03546413|164954624|SUPERIORITY|A linear regression model was used on the log of peanut skin prick with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.268|||||||Regression, Linear|||||||0.268
82619278|NCT03546413|164954625|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||||||0.985
82619279|NCT03546413|164954625|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.371|||||||Regression, Linear|||||||0.371
82619280|NCT03546413|164954625|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.483|||||||Regression, Linear|||||||0.483
82619281|NCT03546413|164954625|SUPERIORITY|A linear regression model was used on the log of peanut specific IgE with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.643|||||||Regression, Linear|||||||0.643
82619282|NCT03546413|164954626|SUPERIORITY|||||||0.225|||||||Wilcoxon (Mann-Whitney)|||||||0.225
82619283|NCT03546413|164954626|SUPERIORITY|A linear regression model was used on the log of SCORAD with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.857|||||||Regression, Linear|||||||0.857
82619284|NCT03546413|164954626|SUPERIORITY|A linear regression model was used on the log of SCORAD with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.87|||||||Regression, Linear|||||||0.870
82619285|NCT03546413|164954627|SUPERIORITY|||||||0.658|||||||Regression, Logistic|||||||0.658
82619286|NCT03546413|164954627|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.1|||||||Regression, Logistic|||||||0.100
82619287|NCT03546413|164954627|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.502|||||||Regression, Linear|||||||0.502
82619288|NCT03546413|164954627|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.397|||||||Regression, Linear|||||||0.397
82619289|NCT03546413|164954628|SUPERIORITY|||||||0.659|||||||Regression, Logistic|||||||0.659
82619290|NCT03546413|164954628|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.26|||||||Regression, Logistic|||||||0.260
82660464|NCT02009163|165038346|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Unadjusted P-value for the difference in distribution between treatment groups in CGI-S.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test with a modified ridit score, adjusting for Visit 8 (Week 12) CGI-S as the covariate.||||||<0.001
82660465|NCT02009163|165038347|SUPERIORITY_OR_OTHER_LEGACY||difference in LS mean|-5.6|||<|0.001|TWO_SIDED|95.0|-7.2|-3.9||Nominal P-value not adjusted for multiplicity.|mixed-effects model for repeated measure|MMRM over all post-randomization visits during the randomized-withdrawal phase. Value for change from baseline = outcome variable.||||-3.9|-7.2|<0.001
82660466|NCT03117296|165038362|OTHER||Rank-Sum|0.05|||<|0.01|TWO_SIDED||||||Fisher Exact|||Univariate 2-group comparisons were performed using χ2 and Fisher's exact tests (when expected cell counts are \<5) for categorical variables, using 2-group t tests and Wilcoxon rank-sum tests (when normality distributions were violated) for continuous variables. Statistical significance was set at P \< .05. All analyses were performed using SAS 9.4 (SAS Institute, Cary, North Carolina).||||<0.01
82660467|NCT01935934|165038381|OTHER||||||||||||||||||"Trial design discriminated between co-primary endpoints of objective RR of 30% (vs 10%) and 12-week PFS of 55% (vs 30%). The design had 86% power to detect a true objective RR of at least 30% and at least 90% power to detect a true 12-week PFS rate of atleast 55% (or a median PFS of 3.4 months).~The parallel exploratory cohort of uncommon histology cancers was analyzed independently."|||
82660468|NCT00833586|165038384|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|95.1||||||90.0|85.8|105.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.4|85.8|
82660469|NCT00833586|165038385|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.9||||||90.0|82.7|118.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||118.4|82.7|
82660470|NCT00833586|165038386|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|102.4||||||90.0|95.0|110.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.5|95.0|
82660471|NCT00838279|165038387|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.31||||||90.0|97.82|102.85|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.85|97.82|
82660472|NCT00838279|165038388|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.78||||||90.0|99.09|104.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.55|99.09|
82660473|NCT00838279|165038389|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.94||||||90.0|97.4|102.55|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.55|97.40|
82660474|NCT00840411|165038411|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.0||||||90.0|93.3|107.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.1|93.3|
82660475|NCT00840411|165038412|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|86.5||||||90.0|80.1|93.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||93.4|80.1|
82660476|NCT00840411|165038413|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|87.2||||||90.0|81.0|93.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||93.8|81.0|
82660477|NCT00465270|165038430|OTHER||Cox Proportional Hazard|0.49||||0.08|TWO_SIDED|95.0|0.22|1.11|||Log Rank|||||1.11|0.22|0.08
82660478|NCT00465270|165038432|OTHER||Cox Proportional Hazard|0.55||||0.046|TWO_SIDED|95.0|0.31|0.999|||Log Rank|||||0.999|0.31|0.046
82660479|NCT03482882|165038475|OTHER||LSM|-10.8|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-12.0|-9.5|||Mixed-effect model repeated measures|||||-9.5|-12.0|<0.0001
82660480|NCT01110005|165038487|SUPERIORITY||Risk Ratio (RR)|1.3||||0.34|TWO_SIDED|95.0|0.7|2.3|||Regression, log binomial|The regression model adjusted for site of recruitment as a covariate.|D5LR vs. LR|||2.3|0.7|0.34
82660481|NCT01110005|165038488|SUPERIORITY||Risk Ratio (RR)|1.1||||0.4|TWO_SIDED|95.0|0.9|1.3|||Regression, log binomial|The regression model adjusted for site of recruitment as a covariate.|D5LR vs. LR|||1.3|0.9|0.40
82660482|NCT01110005|165038489|SUPERIORITY|||||||0.69|||||||Cochran-Mantel-Haenszel|This method was used to control for site of recruitment||||||0.69
82660483|NCT00819741|165038515|NON_INFERIORITY_OR_EQUIVALENCE|"If non-inferiority was shown (that was if H0 was rejected), then superiority of repaglinide and metformin combination therapy compared to repaglinide monotherapy would be claimed if the upper limit of the 95% CI for the difference was lower than 0%.~The non-inferiority margin for HbA1c was set to 0.4%."|Estimated treatment difference, LS Mean|-0.302|STANDARD_ERROR_OF_MEAN|0.0096||||95.0|-0.491|-0.114|||ANCOVA|||"The non-inferiority margin for HbA1c was set to 0.4%.~The null hypothesis (H0) was:~H0: HbA1c of repaglinide + metformin therapy after 16 weeks of treatment - HbA1c of repaglinide monotherapy after 16 weeks of treatment ≥0.4%~Against the alternative hypothesis (H1):~H1: HbA1c of repaglinide + metformin therapy after 16 weeks of treatment - HbA1c of repaglinide monotherapy after 16 weeks of treatment \<0.4%"||-0.114|-0.491|
82660484|NCT00119015|165038530|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8
82660485|NCT00119015|165038531|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.70
82660486|NCT00119015|165038532|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.86
82660487|NCT00119015|165038533|SUPERIORITY_OR_OTHER|||||||0.48||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.48
82660488|NCT00119015|165038534|SUPERIORITY_OR_OTHER||||||>|0.99||95.0|||||Wilcoxon (Mann-Whitney)|||||||>0.99
82660489|NCT03697109|165038555|EQUIVALENCE|Log odds is equal to 0 (null hypothesis) vs log odds not equal to 0 (alternative hypothesis).|Odds Ratio (OR)|0.17||||0.0215|TWO_SIDED|95.0|0.04|0.77|||Chi-squared||An odds ratio (OR) \<1 represents lower odds of loss of response under treatment with relacorilant compared with treatment with placebo.|A logistic regression model with logit link function was used in order to detect if there was a significant difference in total number of patients with a loss of response with respect to HTN under treatment with relacorilant compared with treatment with placebo in the RW Phase.||0.77|0.04|0.0215
82619291|NCT03546413|164954628|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.075|||||||Regression, Linear|||||||0.075
82619292|NCT03546413|164954628|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.192|||||||Regression, Logistic|||||||0.192
82619293|NCT03546413|164954629|SUPERIORITY|||||||0.729|||||||Regression, Logistic|||||||0.729
82619294|NCT03546413|164954629|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.75|||||||Regression, Logistic|||||||0.750
82619295|NCT03546413|164954629|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.155|||||||Regression, Logistic|||||||0.155
82619296|NCT03546413|164954629|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.||||||0.458|||||||Regression, Logistic|||||||0.458
82619297|NCT03546413|164954630|SUPERIORITY|||||||0.33|||||||Regression, Logistic|||||||0.330
82619298|NCT03546413|164954630|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.351|||||||Regression, Logistic|||||||0.351
82619299|NCT03546413|164954630|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.502|||||||Regression, Logistic|||||||0.502
82619300|NCT03546413|164954630|SUPERIORITY|||||||0.732||||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit.|Regression, Logistic|||||||0.732
82619301|NCT03546413|164954631|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.202|||||||Regression, Logistic|||||||0.202
82619302|NCT03546413|164954631|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit. However, the logistic regression model was unable to converge due to the low percentage of allergic participants in older siblings.|||
82619303|NCT03546413|164954631|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for parents who are in the same family unit. However, the logistic regression model was unable to converge due to the low percentage of allergic participants in parents.|||
82619304|NCT03546413|164954632|SUPERIORITY|||||||0.029|||||||Regression, Logistic|||||||0.029
82619305|NCT03546413|164954632|SUPERIORITY|A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit.||||||0.489|||||||Regression, Logistic|||||||0.489
82619306|NCT03546413|164954632|OTHER||||||||||||||Regression, Logistic||||A logistic regression model was used with a fixed effect comparing the Avoidance and Consumption cohorts and a random effect to account for siblings who are in the same family unit. However, the model was unable to converge due to the low percentage of peanut-related adverse events in older siblings.|||
82619307|NCT03004469|164954642|OTHER||LS Mean Difference|13.6|STANDARD_ERROR_OF_MEAN|3.94|<|0.001|TWO_SIDED|95.0|5.8|21.3|||Mixed linear model|||||21.3|5.8|<.001
82619308|NCT03004469|164954643|OTHER||LS Mean Difference|12.8|STANDARD_ERROR_OF_MEAN|3.19|<|0.001|TWO_SIDED|95.0|6.5|19.1|||Mixed linear model|||||19.1|6.5|<.001
82619309|NCT03004469|164954644|OTHER||LS Mean Difference|-0.4024|STANDARD_ERROR_OF_MEAN|0.4057||0.322|TWO_SIDED|95.0|-1.202|0.3971|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.3971|-1.2020|0.322
82619310|NCT03004469|164954644|OTHER||LS Mean Difference|0.7237|STANDARD_ERROR_OF_MEAN|0.47799||0.131|TWO_SIDED|95.0|-0.2184|1.6657|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||1.6657|-0.2184|0.131
82619311|NCT03004469|164954645|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.569|TWO_SIDED|95.0|-0.3|0.2|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.2|-0.3|0.569
82619312|NCT03004469|164954645|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.129|TWO_SIDED|95.0|-0.4|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.1|-0.4|0.129
82619313|NCT03004469|164954646|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.14||0.708|TWO_SIDED|95.0|-0.2|0.3|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.3|-0.2|0.708
82619314|NCT03004469|164954646|OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.12|<|0.001|TWO_SIDED|95.0|0.2|0.7|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.7|0.2|<.001
82619315|NCT03004469|164954647|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.179|TWO_SIDED|95.0|-0.3|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Week 12||0.1|-0.3|0.179
82619316|NCT03004469|164954647|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.12||0.262|TWO_SIDED|95.0|-0.1|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Week 24||0.4|-0.1|0.262
82619317|NCT03004469|164954648|OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.03||0.103|TWO_SIDED|95.0|-3.7|0.3|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 4||0.3|-3.7|0.103
82660490|NCT02545283|165038605|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.5752|TWO_SIDED|95.0|0.81|1.45|||Log Rank|||||1.45|0.81|0.5752
82619318|NCT03004469|164954648|OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.1||0.545|TWO_SIDED|95.0|-2.8|1.5|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 8||1.5|-2.8|0.545
82619319|NCT03004469|164954648|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.0||0.842|TWO_SIDED|95.0|-2.2|1.8|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 12||1.8|-2.2|0.842
82619320|NCT03004469|164954648|OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.02||0.449|TWO_SIDED|95.0|-2.8|1.2|||Mixed linear model|||Statistical Analysis details presented here is for Erectile Function Score, Week 24||1.2|-2.8|0.449
82619321|NCT03004469|164954648|OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.28||0.272|TWO_SIDED|95.0|-0.2|0.9|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 4||0.9|-0.2|0.272
82619322|NCT03004469|164954648|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.36||0.918|TWO_SIDED|95.0|-0.7|0.8|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 8||0.8|-0.7|0.918
82619323|NCT03004469|164954648|OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.078||0.078|TWO_SIDED|95.0|-0.1|1.1|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 12||1.1|-0.1|0.078
82619324|NCT03004469|164954648|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.34||0.593|TWO_SIDED|95.0|-0.9|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Orgasmic Function Score, Week 24||0.5|-0.9|0.593
82619325|NCT03004469|164954648|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.23||0.295|TWO_SIDED|95.0|-0.7|0.2|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 4||0.2|-0.7|0.295
82619326|NCT03004469|164954648|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.22||0.926|TWO_SIDED|95.0|-0.5|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 8||0.4|-0.5|0.926
82619327|NCT03004469|164954648|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.183|TWO_SIDED|95.0|-0.7|0.1|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 12||0.1|-0.7|0.183
82619328|NCT03004469|164954648|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23||0.981|TWO_SIDED|95.0|-0.4|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Sexual Desire Score, Week 24||0.5|-0.4|0.981
82619329|NCT03004469|164954648|OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.66||0.041|TWO_SIDED|95.0|-2.7|-0.1|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 4||-0.1|-2.7|0.041
82619330|NCT03004469|164954648|OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.67||0.562|TWO_SIDED|95.0|-1.7|0.9|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 8||0.9|-1.7|0.562
82619331|NCT03004469|164954648|OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.66||0.642|TWO_SIDED|95.0|-1.6|1.0|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 12||1.0|-1.6|0.642
82619332|NCT03004469|164954648|OTHER||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.65||0.156|TWO_SIDED|95.0|-2.2|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Intercourse Satisfaction Score, Week 24||0.4|-2.2|0.156
82619333|NCT03004469|164954648|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.29||0.824|TWO_SIDED|95.0|-0.6|0.5|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 4||0.5|-0.6|0.824
82619334|NCT03004469|164954648|OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.29||0.713|TWO_SIDED|95.0|-0.5|0.7|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 8||0.7|-0.5|0.713
82619335|NCT03004469|164954648|OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.993|TWO_SIDED|95.0|-0.6|0.6|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 12||0.6|-0.6|0.993
82619336|NCT03004469|164954648|OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.3||0.55|TWO_SIDED|95.0|-0.8|0.4|||Mixed linear model|||Statistical Analysis details presented here is for Overall Satisfaction Score, Week 24||0.4|-0.8|0.550
82619337|NCT01089582|164954735|SUPERIORITY_OR_OTHER|||||||0.0023|TWO_SIDED||||||Regression, Logistic|||The effect of possible prognostic factors response on response rate: primary diagnosis severity. Participants were classified as responders if they were very much improved or much improved from baseline.||||0.0023
82619338|NCT01089582|164954736|SUPERIORITY_OR_OTHER|||||||0.0382|TWO_SIDED||||||Regression, Logistic|||The effect of possible prognostic factors on response: significant medical history. Participants were classified as responders if they were much improved or improved from baseline.||||0.0382
82619339|NCT01089582|164954737|SUPERIORITY_OR_OTHER|||||||0.1805|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: primary diagnosis severity.||||0.1805
82619340|NCT01089582|164954737|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: baseline QoL-AD score as assessed by participant.||||<0.0001
82619341|NCT01089582|164954737|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: center number.||||<0.0001
82619342|NCT01089582|164954738|SUPERIORITY_OR_OTHER|||||||0.0137|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: primary diagnosis severity.||||0.0137
82619343|NCT01089582|164954738|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: baseline QoL-AD score as assessed by caregiver.||||<0.0001
82619344|NCT01089582|164954738|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Regression, Linear|||The effect of possible prognostic factors on response: center number.||||<0.0001
82619345|NCT01968954|164954768|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-57.0|STANDARD_ERROR_OF_MEAN|2.0|<|0.001|TWO_SIDED|95.0|-61.0|-53.1|||Mixed Model Repeated Measures (MMRM)|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-53.1|-61.0|<0.001
82619346|NCT01968954|164954769|SUPERIORITY_OR_OTHER||LS mean difference|-36.2|STANDARD_ERROR_OF_MEAN|1.33|<|0.001|TWO_SIDED|95.0|-38.8|-33.6|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-33.6|-38.8|<0.001
82619347|NCT01968954|164954769|SUPERIORITY_OR_OTHER||LS mean difference|-34.7|STANDARD_ERROR_OF_MEAN|1.52|||TWO_SIDED|95.0|-37.7|-31.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-31.7|-37.7|
82619348|NCT01968954|164954769|SUPERIORITY_OR_OTHER||LS mean difference|-29.0|STANDARD_ERROR_OF_MEAN|1.69|||TWO_SIDED|95.0|-32.3|-25.7||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-25.7|-32.3|
82619349|NCT01968954|164954770|SUPERIORITY_OR_OTHER||LS mean difference|-51.6|STANDARD_ERROR_OF_MEAN|1.8|<|0.001|TWO_SIDED|95.0|-55.2|-48.1|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-48.1|-55.2|<0.001
82619350|NCT01968954|164954770|SUPERIORITY_OR_OTHER||LS mean Difference|-50.6|STANDARD_ERROR_OF_MEAN|2.15|||TWO_SIDED|95.0|-54.9|-46.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-46.4|-54.9|
82619351|NCT01968954|164954770|SUPERIORITY_OR_OTHER||LS mean difference|-41.2|STANDARD_ERROR_OF_MEAN|2.38|||TWO_SIDED|95.0|-45.8|-36.5||||||Week 52:LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-36.5|-45.8|
82619352|NCT01968954|164954771|SUPERIORITY_OR_OTHER||LS mean difference|-51.5|STANDARD_ERROR_OF_MEAN|1.84|<|0.001|TWO_SIDED|95.0|-55.1|-47.9|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-47.9|-55.1|<0.001
82619353|NCT01968954|164954771|SUPERIORITY_OR_OTHER||LS mean difference|-50.6|STANDARD_ERROR_OF_MEAN|2.05|||TWO_SIDED|95.0|-54.6|-46.6||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-46.6|-54.6|
82619354|NCT01968954|164954771|SUPERIORITY_OR_OTHER||LS mean difference|-40.8|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-45.2|-36.3||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-36.3|-45.2|
82619355|NCT01968954|164954772|SUPERIORITY_OR_OTHER||LS mean difference|-2.9|STANDARD_ERROR_OF_MEAN|16.55||0.86|TWO_SIDED|95.0|-35.4|29.5|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||29.5|-35.4|0.860
82619356|NCT01968954|164954772|SUPERIORITY_OR_OTHER||LS mean difference|2.1|STANDARD_ERROR_OF_MEAN|25.11|||TWO_SIDED|95.0|-47.2|51.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||51.4|-47.2|
82619357|NCT01968954|164954772|SUPERIORITY_OR_OTHER||LS mean difference|12.9|STANDARD_ERROR_OF_MEAN|29.25|||TWO_SIDED|95.0|-44.5|70.4||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||70.4|-44.5|
82619358|NCT01968954|164954773|SUPERIORITY_OR_OTHER||LS mean difference|4.7|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED|95.0|2.4|7.0|||MMRM|||Week 12: LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||7.0|2.4|<0.001
82619359|NCT01968954|164954773|SUPERIORITY_OR_OTHER||LS mean difference|6.8|STANDARD_ERROR_OF_MEAN|1.18|||TWO_SIDED|95.0|4.5|9.1||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||9.1|4.5|
82619360|NCT01968954|164954773|SUPERIORITY_OR_OTHER||LS mean difference|3.3|STANDARD_ERROR_OF_MEAN|1.25|||TWO_SIDED|95.0|0.9|5.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||5.8|0.9|
82619361|NCT01968954|164954774|SUPERIORITY_OR_OTHER||LS mean difference|-59.1|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|-63.4|-54.8|||MMRM|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-54.8|-63.4|<0.001
82619362|NCT01968954|164954775|SUPERIORITY_OR_OTHER||LS mean difference|-48.7|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-58.0|-39.3|||MMRM|||LS-mean difference, associated 95% confidence intervals and p values from an MMRM model with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-39.3|-58.0|<0.001
82619363|NCT01968954|164954776|SUPERIORITY_OR_OTHER||LS mean difference|-56.0|STANDARD_ERROR_OF_MEAN|2.45|||TWO_SIDED|95.0|-60.8|-51.2||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-51.2|-60.8|
82619364|NCT01968954|164954776|SUPERIORITY_OR_OTHER||LS mean difference|-46.4|STANDARD_ERROR_OF_MEAN|2.77|||TWO_SIDED|95.0|-51.8|-41.0||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-41.0|-51.8|
82660491|NCT00583453|165038669|SUPERIORITY_OR_OTHER|||||||0.674||||||Treatment x day interaction|Wilcoxon (Mann-Whitney)|||||||.674
82619365|NCT01968954|164954777|SUPERIORITY_OR_OTHER||LS mean difference|-57.6|STANDARD_ERROR_OF_MEAN|2.82|||TWO_SIDED|95.0|-63.1|-52.0||||||TG \<200 mg/dL (Week 24): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-52.0|-63.1|
82619366|NCT01968954|164954777|SUPERIORITY_OR_OTHER||LS mean difference|-47.7|STANDARD_ERROR_OF_MEAN|3.16|||TWO_SIDED|95.0|-53.9|-41.5||||||TG \<200 mg/dL (Week 52): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-41.5|-53.9|
82619367|NCT01968954|164954777|SUPERIORITY_OR_OTHER||LS mean difference|-49.3|STANDARD_ERROR_OF_MEAN|4.83|||TWO_SIDED|95.0|-58.9|-39.8||||||TG \>=200 mg/dL (Week 24): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-39.8|-58.9|
82619368|NCT01968954|164954777|SUPERIORITY_OR_OTHER||LS mean difference|-41.2|STANDARD_ERROR_OF_MEAN|5.6|||TWO_SIDED|95.0|-52.2|-30.1||||||TG \>=200 mg/dL (Week 52): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-30.1|-52.2|
82619369|NCT01968954|164954778|SUPERIORITY_OR_OTHER||LS mean difference|-14.2|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-19.9|-8.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.5|-19.9|
82619370|NCT01968954|164954778|SUPERIORITY_OR_OTHER||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-25.1|-14.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-14.7|-25.1|
82619371|NCT01968954|164954778|SUPERIORITY_OR_OTHER||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.7|-2.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-2.8|-15.7|
82619372|NCT01968954|164954779|SUPERIORITY_OR_OTHER||LS mean difference|3.7|STANDARD_ERROR_OF_MEAN|1.0|||TWO_SIDED|95.0|1.8|5.7||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||5.7|1.8|
82619373|NCT01968954|164954779|SUPERIORITY_OR_OTHER||LS mean difference|4.9|STANDARD_ERROR_OF_MEAN|0.91|||TWO_SIDED|95.0|3.1|6.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||6.7|3.1|
82492765|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.611||||0.3787|TWO_SIDED|95.0|0.204|1.83|||Regression, Logistic|||≥ 1 class improvement from Baseline at EOCS||1.830|0.204|0.3787
82619374|NCT01968954|164954779|SUPERIORITY_OR_OTHER||LS mean difference|2.6|STANDARD_ERROR_OF_MEAN|0.98|||TWO_SIDED|95.0|0.7|4.6||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||4.6|0.7|
82619375|NCT01968954|164954780|SUPERIORITY_OR_OTHER||LS mean difference|-0.1|STANDARD_ERROR_OF_MEAN|0.93|||TWO_SIDED|95.0|-1.9|1.7||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||1.7|-1.9|
82619376|NCT01968954|164954780|SUPERIORITY_OR_OTHER||LS mean difference|1.9|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-0.1|3.9||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.9|-0.1|
82619377|NCT01968954|164954780|SUPERIORITY_OR_OTHER||LS mean difference|1.0|STANDARD_ERROR_OF_MEAN|1.03|||TWO_SIDED|95.0|-1.0|3.1||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.1|-1.0|
82619378|NCT01968954|164954781|SUPERIORITY_OR_OTHER||LS-Mean Difference|-14.2|STANDARD_ERROR_OF_MEAN|2.88|||TWO_SIDED|95.0|-19.9|-8.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.5|-19.9|
82619379|NCT01968954|164954781|SUPERIORITY_OR_OTHER||LS mean difference|-19.9|STANDARD_ERROR_OF_MEAN|2.65|||TWO_SIDED|95.0|-25.1|-14.7||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-14.7|-25.1|
82619380|NCT01968954|164954781|SUPERIORITY_OR_OTHER||LS mean difference|-9.2|STANDARD_ERROR_OF_MEAN|3.31|||TWO_SIDED|95.0|-15.7|-2.8||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-2.8|-15.7|
82492766|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.889||||0.9097|TWO_SIDED|95.0|0.116|6.806|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||6.806|0.116|0.9097
82619381|NCT01968954|164954782|SUPERIORITY_OR_OTHER||LS mean difference|-64.2|STANDARD_ERROR_OF_MEAN|2.51|||TWO_SIDED|95.0|-69.1|-59.2||||||TG \<200 mg/dL (Week 12): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-59.2|-69.1|
82660492|NCT00583453|165038670|SUPERIORITY_OR_OTHER|||||||0.018||||||Treatment x day interaction reported as 0.018.|Wilcoxon (Mann-Whitney)|||||||0.018
82660493|NCT00583453|165038671|SUPERIORITY_OR_OTHER|||||||0.214||||||Treatment x day interaction = 0.214|Wilcoxon (Mann-Whitney)|||||||.214
82619382|NCT01968954|164954782|SUPERIORITY_OR_OTHER||LS mean difference|-59.6|STANDARD_ERROR_OF_MEAN|5.99|||TWO_SIDED|95.0|-71.4|-47.7||||||TG \>=200 mg/dL (Week 12): LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region.||-47.7|-71.4|
82619383|NCT01968954|164954783|SUPERIORITY_OR_OTHER||LS mean difference|-63.4|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|-68.0|-58.8||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-58.8|-68.0|
82619384|NCT01968954|164954784|SUPERIORITY_OR_OTHER||LS mean difference|-67.1|STANDARD_ERROR_OF_MEAN|2.59|||TWO_SIDED|95.0|-72.2|-62.1||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-62.1|-72.2|
82619385|NCT01968954|164954785|SUPERIORITY_OR_OTHER||LS mean difference|-69.7|STANDARD_ERROR_OF_MEAN|2.57|||TWO_SIDED|95.0|-74.7|-64.6||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-64.6|-74.7|
82619386|NCT01968954|164954786|SUPERIORITY_OR_OTHER||LS mean difference|-47.3|STANDARD_ERROR_OF_MEAN|1.74|||TWO_SIDED|95.0|-50.7|-43.8||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-43.8|-50.7|
82619387|NCT01968954|164954787|SUPERIORITY_OR_OTHER||LS mean difference|-10.6|STANDARD_ERROR_OF_MEAN|1.17|||TWO_SIDED|95.0|-12.9|-8.3||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-8.3|-12.9|
82619388|NCT01968954|164954788|SUPERIORITY_OR_OTHER||LS mean difference|2.4|STANDARD_ERROR_OF_MEAN|0.55|||TWO_SIDED|95.0|1.4|3.5||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||3.5|1.4|
82619389|NCT01968954|164954789|SUPERIORITY_OR_OTHER||LS mean difference|-1.6|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-1.7|-1.4||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.4|-1.7|
82619390|NCT01968954|164954789|SUPERIORITY_OR_OTHER||LS mean difference|-1.5|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-1.7|-1.4||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.4|-1.7|
82619391|NCT01968954|164954789|SUPERIORITY_OR_OTHER||LS mean difference|-1.2|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|95.0|-1.4|-1.0||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-1.0|-1.4|
82492767|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.341||||0.223|TWO_SIDED|95.0|0.06|1.925|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||1.925|0.060|0.2230
82619392|NCT01968954|164954790|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 12: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.3|-0.4|
82619393|NCT01968954|164954790|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.01|||TWO_SIDED|95.0|-0.4|-0.3||||||Week 24: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.3|-0.4|
82619394|NCT01968954|164954790|SUPERIORITY_OR_OTHER||LS mean difference|-0.3|STANDARD_ERROR_OF_MEAN|0.02|||TWO_SIDED|95.0|-0.3|-0.2||||||Week 52: LS-mean difference, associated 95% confidence intervals with fixed effects for treatment group, visit, treatment group\*visit interaction, baseline value, baseline value\*visit interaction, geographical region, triglyceride subgroup.||-0.2|-0.3|
82619395|NCT01968954|164954791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.0|||||TWO_SIDED|95.0|13.86|41.64||||||Week 12||41.64|13.86|
82619396|NCT01968954|164954791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.8|||||TWO_SIDED|95.0|9.32|23.56||||||Week 24||23.56|9.32|
82619397|NCT01968954|164954791|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|9.8|||||TWO_SIDED|95.0|6.36|15.24||||||Week 52||15.24|6.36|
82619398|NCT01968954|164954792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|95.2|||||TWO_SIDED|95.0|52.09|173.91||||||Week 12||173.91|52.09|
82619399|NCT01968954|164954792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|112.2|||||TWO_SIDED|95.0|55.81|225.52||||||Week 24||225.52|55.81|
82619400|NCT01968954|164954792|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|29.1|||||TWO_SIDED|95.0|17.13|49.49||||||Week 52||49.49|17.13|
82619401|NCT00064350|164954799|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005||95.0|||||Fisher Exact|||Compare the proportion of patients maintaining stable disease or objective response at 2 months after randomization between the two arms.||||0.005
82660494|NCT00583453|165038673|SUPERIORITY_OR_OTHER|||||||0.036||||||treatment x day interaction P = 0.036 Treatment main effect (average day 1 to 10) P = 0.003|Wilcoxon (Mann-Whitney)|||||||0.036
82660495|NCT00905606|165038674|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|93.91||||||90.0|85.42|103.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.25|85.42|
82660496|NCT00905606|165038675|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|98.27||||||90.0|94.63|102.05|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.05|94.63|
82660497|NCT00905606|165038676|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA was performed on ln-transformed AUC0-t, AUC0-72h, and Cmax. All analyses were performed according to FDA guidelines.|Ratio of the LS Mean (test/ref x 100)|98.19||||||90.0|94.64|101.87|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.87|94.64|
82660498|NCT03635320|165038677|NON_INFERIORITY|non-inferiority margin of -10%|95%CI|0.0|||||TWO_SIDED|95.0|-4.53|4.42|||Newcombe-Wilson scoring method|Using the Newcombe-Wilson scoring method, the difference of fracture union rate between the TFNA group and the PFNA-II group was 0.|If the lower limit of 95% CI of the difference in the rates of the study group and the control group is greater than the non-inferiority margin of -10%, then the investigational product is considered non-inferior to the control product.|||4.42|-4.53|
82660499|NCT04523168|165038678|SUPERIORITY|||||||0.0137|||||||Wilcoxon (Mann-Whitney)|||Baseline, 120 days||||0.0137
82660500|NCT04523168|165038680|SUPERIORITY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82660501|NCT04994535|165038703|SUPERIORITY||Difference (%)|30.9|||<|0.0001|TWO_SIDED|95.0|24.5|37.4||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||37.4|24.5|<.0001
82619402|NCT00064350|164954800|SUPERIORITY_OR_OTHER_LEGACY|||||||0.014||95.0|||||Log Rank|||Compare PFS between the Sorafenib arm and the placebo arm||||0.014
82619403|NCT00064350|164954801|SUPERIORITY_OR_OTHER_LEGACY|||||||0.12||95.0|||||Log Rank|||Compare OS between the Sorafenib arm and the placebo arm||||0.12
82619404|NCT00592553|164954830|OTHER||Least Square (LS) Mean Difference|-30.52|STANDARD_ERROR_OF_MEAN|42.68||0.4756|TWO_SIDED|95.0|-114.8|53.75|||Mixed Models Analysis|||Analysis was performed using mixed model for repeated measures (MMRM) method including rank transformed 6MWD as the dependent variable; and rank transformed baseline 6MWD, treatment, visit, age (less than \[\<\] 9 years versus \[vs.\] greater than or equal to \[\>=\] 9 years) and corticosteroid use (yes vs. no) stratification factors, and interaction between treatment and visit as independent variables.||53.75|-114.8|0.4756
82660502|NCT04994535|165038704|SUPERIORITY||Difference (%)|38.9|||<|0.0001|TWO_SIDED|95.0|31.3|46.4||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||46.4|31.3|<0.0001
82619405|NCT00592553|164954830|OTHER||LS Mean Difference|62.65|STANDARD_ERROR_OF_MEAN|43.21||0.149|TWO_SIDED|95.0|-22.66|147.96|||Mixed Models Analysis|||Analysis was performed using MMRM method including rank transformed 6MWD as the dependent variable; and rank transformed baseline 6MWD, treatment, visit, age (\< 9 years vs. \>= 9 years) and corticosteroid use (yes vs. no) stratification factors, and interaction between treatment and visit as independent variables.||147.96|-22.66|0.1490
82619406|NCT01752842|164954853|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|-0.75||||0.07|TWO_SIDED|95.0|-1.56|0.04||This P-value is based on ANCOVA.|ANCOVA||ANCOVA was used to compare mean change of cardiac diastolic function adjusting for body fat percent, baseline values of BMI, diastolic/systolic blood pressure, HbA1c, fasting glucose, triglycerides, ethnicity, gender and race.|Null hypothesis is no difference of mean change of cardiac diastolic function as measured by E' (cm/s) between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|0.04|-1.56|0.07
82660503|NCT04994535|165038705|SUPERIORITY||Difference (%)|36.9|||<|0.0001|TWO_SIDED|95.0|29.1|44.7||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.7|29.1|<0.0001
82660504|NCT04994535|165038708|SUPERIORITY||Difference (%)|50.2|||<|0.0001|TWO_SIDED|95.0|42.0|58.3||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||58.3|42.0|<.0001
82660505|NCT04994535|165038709|SUPERIORITY||Difference (%)|27.1|||<|0.0001|TWO_SIDED|95.0|18.1|36.1||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||36.1|18.1|<.0001
82660506|NCT04994535|165038710|SUPERIORITY||Difference (%)|35.8|||<|0.0001|TWO_SIDED|95.0|27.4|44.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.2|27.4|<.0001
82660507|NCT04994535|165038711|SUPERIORITY||Difference (SE)|-4.4|STANDARD_ERROR_OF_MEAN|0.51|<|0.0001|TWO_SIDED|95.0|-5.4|-3.4||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-3.4|-5.4|<.0001
82492768|NCT01594281|164678274|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Odds Ratio (OR)|0.383||||0.2792|TWO_SIDED|95.0|0.068|2.177|||Regression, Logistic|||≥ 2 class improvement from Baseline at EOCS||2.177|0.068|0.2792
82660508|NCT04994535|165038714|SUPERIORITY||Difference (%)|42.9|||<|0.0001|TWO_SIDED|95.0|34.8|51.0||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||51.0|34.8|<0.0001
82660509|NCT04994535|165038715|SUPERIORITY||Difference (%)|49.4|||<|0.0001|TWO_SIDED|95.0|40.8|58.1||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||58.1|40.8|<0.0001
82660510|NCT04994535|165038716|SUPERIORITY||Difference (%)|28.8|||<|0.0001|TWO_SIDED|95.0|19.4|38.2||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||38.2|19.4|<0.0001
82660511|NCT04994535|165038717|SUPERIORITY||Difference (%)|35.9|||<|0.0001|TWO_SIDED|95.0|27.2|44.6||P-value derived from Cochran-Mantel-Haenszel (CMH) model stratified by investigator site and baseline C-APPS.|Cochran-Mantel-Haenszel|||||44.6|27.2|<0.0001
82660512|NCT04994535|165038718|SUPERIORITY||Difference (SE)|-4.7|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-5.8|-3.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||||-3.7|-5.8|<0.0001
82619407|NCT01752842|164954854|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|0.0058||||0.8128|TWO_SIDED|95.0|-0.0418|0.0543||This P-value is based on ANCOVA.|ANCOVA||ANCOVA was used to compare mean change of outcome adjusting for body fat percent, demographic variables and baseline biomarkers.|Null hypothesis is no difference of mean change of fractional shortening percent between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|0.0543|-0.0418|0.8128
82619408|NCT01752842|164954855|SUPERIORITY|Power calculation is based on assumption that treatment with Fenofibrate will lead to 11% decrease in plasma TG and ceramide biomarkers. We also assume that there will be no significant change in ceramides without intervention. Based on these assumptions, 86 subjects are required to have 90% chance of detecting a decrease in the primary outcome measure from 1.29 in the placebo group to 1.15 in the Fenofibrate group.|Mean Difference (Final Values)|-1.79||||0.0034|TWO_SIDED|95.0|-2.93|-0.65||This P-value is based on ANCOVA.|ANCOVA|ANCOVA was used to compare mean change of outcome adjusting for body fat percent, demographic variables and baseline biomarkers.||Null hypothesis is no difference of mean change of C24:0/C16:0 ceramide ratio between placebo and Fenofibrate.|Two-sample t-test was used to compare baseline mean values of biomarkers. All statistical tests are two-sided at significance level 0.05.|-0.65|-2.93|0.0034
82619409|NCT03260205|164954915|SUPERIORITY||Difference in Least Square Mean|-5.9||||0.0242|TWO_SIDED|95.0|-11.01|-0.78|||MMRM|||This outcome measure was analyzed using the linear mixed-effects model for repeated measures (MMRM). From a MMRM analysis over all post-baseline visits, with the change from baseline in ADHD-RS-IV preschool version total score as the outcome, treatment, visit, and treatment-by-visit interaction as fixed effect, baseline ADHD-RS-IV and baseline ADHD-RS-IV score-by-visit interaction as covariates.||-0.78|-11.01|0.0242
82619410|NCT03260205|164954916|SUPERIORITY||Difference in Least Mean Square|-0.6||||0.0074|TWO_SIDED|95.0|-1.03|-0.16|||MMRM|||This outcome measure was analyzed using the linear mixed-effects model for repeated measures (MMRM). From a MMRM analysis over all post-baseline Visits, with the CGI-I score as the outcome, treatment, visit, and treatment-by-visit interaction as fixed effect, baseline CGI-S as covariate.||-0.16|-1.03|0.0074
82619411|NCT01968187|164954927|OTHER||LS Mean Difference|-6.7||||0.029|ONE_SIDED|90.0||-2.2|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effect and HPWSQ-R total score at baseline as covariate.||||-2.2||0.0290
82619412|NCT01968187|164954928|OTHER||LS Mean Difference|-0.8||||0.0233|ONE_SIDED|90.0||-0.3|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and CGI-S score as a covariate.||||-0.3||0.0233
82619413|NCT01968187|164954929|OTHER||LS Mean Difference|-2.0||||0.1172|ONE_SIDED|90.0||0.2|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score at baseline as a covariate.||HPWSQ-R Domain score: Behavior||0.2||0.1172
82619414|NCT01968187|164954929|OTHER||LS Mean Difference|-1.6||||0.1436|ONE_SIDED|90.0||0.3|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score -at baseline as a covariate.||HPWSQ-R Domain score: Drive||0.3||0.1436
82660513|NCT04994535|165038719|SUPERIORITY||Difference (SE)|-4.9|STANDARD_ERROR_OF_MEAN|0.58|<|0.0001|TWO_SIDED|95.0|-6.0|-3.7||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 30||-3.7|-6.0|<0.0001
82660514|NCT04994535|165038719|SUPERIORITY||Difference (SE)|-4.7|STANDARD_ERROR_OF_MEAN|0.59|<|0.0001|TWO_SIDED|95.0|-5.9|-3.6||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 60||-3.6|-5.9|<0.0001
82619415|NCT01968187|164954929|OTHER||LS Mean Difference|-1.5||||0.0248|ONE_SIDED|90.0||-0.5|||ANCOVA|Treatment groups were compared using ANCOVA model with treatment and site as fixed effects and HPWSQ-R domain score -at baseline as a covariate.||HPWSQ-R Domain score: Severity||-0.5||0.0248
82619416|NCT01968187|164954930|OTHER||LS mean difference|-6.2||||0.0047|ONE_SIDED|90.0||-3.3|||ANCOVA|From ANCOVA model with treatment and site as fixed effects and CY-BOCS total score at baseline as a covariate.||||-3.3||0.0047
82619417|NCT01968187|164954931|OTHER||LS mean difference|-4.4||||0.0132|ONE_SIDED|90.0||-1.9|||ANCOVA|Compared using ANCOVA model with treatment and site as fixed effects and Food Domain Score of Reiss Profile at baseline as a covariate.||||-1.9||0.0132
82619418|NCT03342937|164955019|SUPERIORITY|1-sided test of single exponential mean with historical null hypothesis of 5.5 months median PFS||||||0.02||||||Sample size of 35 patients was chosen based on detecting the difference between a historical median PFS of 5.5 months and experimental median of 7.3 months, a hazard ratio of 0.75, with 80% power (1-sided test of single exponential mean, α=0.2).|1-sided exponential test|||||||0.02
82619419|NCT02581865|164955042|SUPERIORITY||Mean Difference (Net)|-1.4|STANDARD_ERROR_OF_MEAN|1.8||0.4326|TWO_SIDED|95.0|-4.9|2.1|||Mixed Models Analysis|||||2.1|-4.9|0.4326
82619420|NCT02581865|164955042|SUPERIORITY||Mean Difference (Net)|-2.5|STANDARD_ERROR_OF_MEAN|1.9||0.1835|TWO_SIDED|95.0|-6.2|1.2|||Mixed Models Analysis|||||1.2|-6.2|0.1835
82619421|NCT02581865|164955043|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3812|TWO_SIDED|95.0|-0.7|0.3|||ANOVA|||||0.3|-0.7|0.3812
82619422|NCT02581865|164955043|SUPERIORITY||Mean Difference (Net)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0146|TWO_SIDED|95.0|-1.2|-0.1|||ANOVA|||||-0.1|-1.2|0.0146
82619423|NCT02581865|164955044|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3065|TWO_SIDED|95.0|-0.6|0.2|||Mixed Models Analysis|||||0.2|-0.6|0.3065
82660515|NCT04994535|165038719|SUPERIORITY||Difference (SE)|-3.9|STANDARD_ERROR_OF_MEAN|0.54|<|0.0001|TWO_SIDED|95.0|-4.9|-2.8||P-value derived from ANCOVA model stratified by investigator site and baseline C-APPS with baseline value as a factor.|ANCOVA|||Day 90||-2.8|-4.9|<0.0001
82619424|NCT02581865|164955044|SUPERIORITY||Mean Difference (Net)|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.2052|TWO_SIDED|95.0|-0.7|0.2|||Mixed Models Analysis|||||0.2|-0.7|0.2052
82619425|NCT02581865|164955045|SUPERIORITY||Mean Difference (Net)|-1.0|STANDARD_ERROR_OF_MEAN|0.8||0.2215|TWO_SIDED|95.0|-2.7|0.6|||ANCOVA|||||0.6|-2.7|0.2215
82619426|NCT02581865|164955045|SUPERIORITY||Mean Difference (Net)|-1.6|STANDARD_ERROR_OF_MEAN|0.9||0.0566|TWO_SIDED|95.0|-3.3|0.0|||ANCOVA|||||0.0|-3.3|0.0566
82619427|NCT02581865|164955046|SUPERIORITY||Mean Difference (Net)|-2.2|STANDARD_ERROR_OF_MEAN|3.8||0.5689|TWO_SIDED|95.0|-9.8|5.4|||Mixed Models Analysis|||||5.4|-9.8|0.5689
82660516|NCT00905840|165038739|NON_INFERIORITY_OR_EQUIVALENCE|The analysis of the primary outcome variable, was based on a confirmatory non-inferiority test with a one-sided 97.5% confidence interval. The non-inferiority margin for a clinically relevant difference was set at 0.1 mm. For a sample size of st least 73, a paired t-test with a 0.0025 one-sided significant level was calculated to have 80% power to reject the hypothesis that the test is inferior to the standard.|Mean Difference (Final Values)|0.1||||0.025|TWO_SIDED|97.5|0.1|0.3|||Student's t-test|||"Null hypothesis: Change of functional bone level at the test implant 12 month after surgery is more than 0.1 lower (inferior) than change of functional crestal bone level at the control implant 12 month after surgery.~H-1: Change of functional bone level at the tst implant 12 month after surgery is up to 0.1 lower, equal, or higher (not inferior) than change of functional crestal bone level at the control implant 12 month after surgery."||0.3|0.1|0.025
82660517|NCT00905840|165038740|SUPERIORITY_OR_OTHER|||||||0.1573|TWO_SIDED|95.0|||||McNemar|||This analysis is up to 12 month.||||0.1573
82660518|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||0.3617|TWO_SIDED|||||12 month data Plaque index|Wilcoxon (Mann-Whitney)|||||||0.3617
82660519|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||0.7068|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|24 month data Plaque index||||||0.7068
82660520|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||0.4312|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|36 month data Plaque Index||||||0.4312
82660521|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||0.9933|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|12 month data Sulcus Bleeding Index||||||0.9933
82660522|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||0.3667|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|24 month data Sulcus Bleeding Index||||||0.3667
82660523|NCT00905840|165038741|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|36 month data Sulcus Bleeding Index||||||1.0000
82619428|NCT02581865|164955046|SUPERIORITY||Mean Difference (Net)|-4.8|STANDARD_ERROR_OF_MEAN|4.0||0.232|TWO_SIDED|95.0|-12.8|3.1|||Mixed Models Analysis|||||3.1|-12.8|0.2320
82619429|NCT02581865|164955047|SUPERIORITY||Mean Difference (Net)|-0.8|STANDARD_ERROR_OF_MEAN|1.1||0.4515|TWO_SIDED|95.0|-3.0|1.3|||Mixed Models Analysis|||||1.3|-3.0|0.4515
82619430|NCT02581865|164955047|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|1.1||0.6289|TWO_SIDED|95.0|-2.8|1.7|||Mixed Models Analysis|||||1.7|-2.8|0.6289
82619431|NCT01617655|164955048|SUPERIORITY_OR_OTHER||LS mean difference|-39.1|||<|0.0001|TWO_SIDED|95.0|-51.1|-27.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Alirocumab group was compared to placebo group using an appropriate contrast statement.||-27.1|-51.1|<0.0001
82619432|NCT01617655|164955049|SUPERIORITY_OR_OTHER||LS mean difference|-38.9|||<|0.0001|TWO_SIDED|95.0|-51.0|-26.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.05 level.||-26.9|-51|<0.0001
82619433|NCT01617655|164955050|SUPERIORITY_OR_OTHER||LS mean difference|-40.3|||<|0.0001|TWO_SIDED|95.0|-51.4|-29.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.3|-51.4|<0.0001
82619434|NCT01617655|164955051|SUPERIORITY_OR_OTHER||LS mean difference|-40.3|||<|0.0001|TWO_SIDED|95.0|-51.4|-29.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-29.2|-51.4|<0.0001
82660524|NCT03140631|165038752|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82660525|NCT03140631|165038753|SUPERIORITY|||||||0.74|||||||Fisher Exact|||number of participants who experienced a vascular access site complication at 90 days||||0.74
82660526|NCT01667679|165038754|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.39|STANDARD_ERROR_OF_MEAN|0.824|<|0.0001|TWO_SIDED|95.0|1.76|5.01|||ANCOVA|||||5.01|1.76|<0.0001
82660527|NCT01667679|165038755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.66|STANDARD_ERROR_OF_MEAN|1.105||0.0013|TWO_SIDED|95.0|1.47|5.85|||ANCOVA||mild attacks|||5.85|1.47|0.0013
82660528|NCT01667679|165038755|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.76|STANDARD_ERROR_OF_MEAN|0.971||0.0002|TWO_SIDED|95.0|1.84|5.68|||ANCOVA||moderate/severe attacks|||5.68|1.84|0.0002
82660529|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.3549|TWO_SIDED|95.0|0.85|1.6|||ANCOVA||10 minutes post-dose|||1.60|0.85|0.3549
82660530|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.51||||0.0005|TWO_SIDED|95.0|1.2|1.9|||ANCOVA||15 minutes post-dose|||1.90|1.20|0.0005
82660531|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.45|2.21|||ANCOVA||30 minutes post-dose|||2.21|1.45|<0.0001
82660532|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.0002|TWO_SIDED|95.0|1.24|1.96|||ANCOVA||45 minutes post-dose|||1.96|1.24|0.0002
82660533|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.0057|TWO_SIDED|95.0|1.1|1.71|||ANCOVA||60 minutes post-dose|||1.71|1.10|0.0057
82660534|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26||||0.0654|TWO_SIDED|95.0|0.99|1.61|||ANCOVA||90 minutes post-dose|||1.61|0.99|0.0654
82660535|NCT01667679|165038756|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.15||||0.2894|TWO_SIDED|95.0|0.89|1.49|||ANCOVA||120 minutes post-dose|||1.49|0.89|0.2894
82660536|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.85||||0.1771|TWO_SIDED|95.0|0.76|4.54|||ANCOVA||10 minutes post-dose|||4.54|0.76|0.1771
82660537|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.03||||0.0077|TWO_SIDED|95.0|1.21|3.42|||ANCOVA||15 minutes post-dose|||3.42|1.21|0.0077
82660538|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.82||||0.0003|TWO_SIDED|95.0|1.32|2.5|||ANCOVA||30 minutes post-dose|||2.50|1.32|0.0003
82660539|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||<|0.0001|TWO_SIDED|95.0|1.29|2.09|||ANCOVA||45 minutes post-dose|||2.09|1.29|<0.0001
82660540|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.41||||0.0016|TWO_SIDED|95.0|1.14|1.74|||ANCOVA||60 minutes post-dose|||1.74|1.14|0.0016
82660541|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.36||||0.0059|TWO_SIDED|95.0|1.09|1.69|||ANCOVA||90 minutes post-dose|||1.69|1.09|0.0059
82660542|NCT01667679|165038757|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.14||||0.2717|TWO_SIDED|95.0|0.91|1.42|||ANCOVA||120 minutes post-dose|||1.42|0.91|0.2717
82619435|NCT01617655|164955052|SUPERIORITY_OR_OTHER||LS mean difference|-30.3|||<|0.0001|TWO_SIDED|95.0|-39.7|-20.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.9|-39.7|<0.0001
82619436|NCT01617655|164955053|SUPERIORITY_OR_OTHER||LS mean difference|-30.2|||<|0.0001|TWO_SIDED|95.0|-39.7|-20.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-20.7|-39.7|<0.0001
82619437|NCT01617655|164955054|SUPERIORITY_OR_OTHER||LS mean difference|-35.8|||<|0.0001|TWO_SIDED|95.0|-46.3|-25.3||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-25.3|-46.3|<0.0001
82619438|NCT01617655|164955055|SUPERIORITY_OR_OTHER||LS mean difference|-35.5|||<|0.0001|TWO_SIDED|95.0|-46.2|-24.9||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.9|-46.2|<0.0001
82619439|NCT01617655|164955056|SUPERIORITY_OR_OTHER||LS mean difference|-28.4|||<|0.0001|TWO_SIDED|95.0|-37.3|-19.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.6|-37.3|<0.0001
82619440|NCT01617655|164955057|SUPERIORITY_OR_OTHER||LS mean difference|-30.2|||<|0.0001|TWO_SIDED|95.0|-39.2|-21.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-21.1|-39.2|<0.0001
82619441|NCT01617655|164955058|SUPERIORITY_OR_OTHER||LS mean difference|-34.5|||<|0.0001|TWO_SIDED|95.0|-44.8|-24.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.1|-44.8|<0.0001
82619442|NCT01617655|164955059|SUPERIORITY_OR_OTHER||LS mean difference|-27.8|||<|0.0001|TWO_SIDED|95.0|-36.2|-19.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-19.4|-36.2|<0.0001
82660543|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24||||0.2426|TWO_SIDED|95.0|0.87|1.77|||ANCOVA||10 minutes post-dose|||1.77|0.87|0.2426
82619443|NCT01617655|164955060|SUPERIORITY_OR_OTHER||LS mean difference|-39.1|||<|0.0001|TWO_SIDED|95.0|-53.6|-24.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-24.6|-53.6|<0.0001
82619444|NCT01617655|164955061|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.7||||0.0016|TWO_SIDED|95.0|2.5|53.5||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||53.5|2.5|0.0016
82619445|NCT01617655|164955062|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.9||||0.0014|TWO_SIDED|95.0|2.6|54.9||Threshold for significance ≤ 0.05.|Regression, Logistic|Multiple imputation approach followed by logistic regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||54.9|2.6|0.0014
82619446|NCT01617655|164955063|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-14.8||||0.0164|TWO_SIDED|95.0|-26.9|-2.7||Threshold for significance ≤ 0.05.|Regression, Robust|Multiple imputation approach followed by robust regression model.|Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-2.7|-26.9|0.0164
82660544|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.49||||0.0069|TWO_SIDED|95.0|1.12|1.99|||ANCOVA||15 minutes post-dose|||1.99|1.12|0.0069
82660545|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.94|||<|0.0001|TWO_SIDED|95.0|1.47|2.56|||ANCOVA||30 minutes post-dose|||2.56|1.47|<0.0001
82660546|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.68||||0.0004|TWO_SIDED|95.0|1.26|2.23|||ANCOVA||45 minutes post-dose|||2.23|1.26|0.0004
82660547|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.6||||0.0008|TWO_SIDED|95.0|1.22|2.11|||ANCOVA||60 minutes post-dose|||2.11|1.22|0.0008
82660548|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.38||||0.0272|TWO_SIDED|95.0|1.04|1.83|||ANCOVA||90 minutes post-dose|||1.83|1.04|0.0272
82660549|NCT01667679|165038758|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.21||||0.2085|TWO_SIDED|95.0|0.9|1.62|||ANCOVA||120 minutes post-dose|||1.62|0.90|0.2085
82660550|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.021||0.3562|TWO_SIDED|95.0|-0.06|0.02|||ANCOVA||10 minutes post-dose|||0.02|-0.06|0.3562
82660551|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.08|STANDARD_ERROR_OF_MEAN|0.029||0.0063|TWO_SIDED|94.0|-0.14|-0.02|||ANCOVA||15 minutes post-dose|||-0.02|-0.14|0.0063
82660552|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.19|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001|TWO_SIDED|95.0|-0.26|-0.11|||ANCOVA||30 minutes post-dose|||-0.11|-0.26|< 0.0001
82660553|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.046||0.0005|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA||45 minutes post-dose|||-0.07|-0.26|0.0005
82619447|NCT01617655|164955064|SUPERIORITY_OR_OTHER||LS mean difference|3.7||||0.2745|TWO_SIDED|95.0|-2.9|10.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis||Alirocumab vs Placebo|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||10.2|-2.9|0.2745
82619448|NCT01722487|164955079|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16|||<|0.0001|TWO_SIDED|95.0|0.09|0.28|||Log Rank|||||0.28|0.09|<0.0001
82619449|NCT01722487|164955080|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.16||||0.001|TWO_SIDED|95.0|0.05|0.56|||Log Rank|||||0.56|0.05|0.0010
82619450|NCT01722487|164955081|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82619451|NCT01722487|164955082|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82619452|NCT01722487|164955083|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82619453|NCT01722487|164955084|SUPERIORITY_OR_OTHER|||||||0.0009|||||||Chi-squared|||||||.0009
82619454|NCT01722487|164955085|SUPERIORITY_OR_OTHER|||||||0.0054|||||||Chi-squared|||||||.0054
82619455|NCT04069156|164955104|NON_INFERIORITY|The primary end point assessing non-inferiority of placebo was considered met if the lower boundary of the one-sided 97.5% confidence limit of the difference in the composite success rate between treatment arms (placebo minus aspirin) was greater than the non-inferiority margin (-10%) by the Farrington-Manning test at 12-months in the principal analysis population.|Risk Difference (RD)|6.0|||<|0.0001|ONE_SIDED|97.5|-1.6||||Farrington-Manning risk difference||||||-1.6|<0.0001
82619456|NCT02108600|164955138|OTHER|||||||0.033|TWO_SIDED|95.0|||||Fisher Exact|||||||0.033
82619457|NCT01295580|164955146|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|"This is a non-inferiority test. The non-inferiority margin of +1.6 units corresponds to an 8% margin on the pain subscale (range 0-20)~Alpha inflation was controlled using pre-planned stepwise hypotheses testing (1) WOMAC Pain over 18 weeks then (2) over 26 weeks, (3) WOMAC Physical Function over 18 weeks then (4) over 26 weeks, (5) Subject Global Assessment over 18 weeks then (6) over 26 weeks, (7) WOMAC Knee Stiffness over 18 weeks then (8) over 26 weeks."|Mean Difference (Final Values)|-0.09|||||TWO_SIDED|95.0|-0.58|0.39||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the first step WOMAC pain over 18 week pain subscale primary analyses.||The second step is to test Durolane WOMAC pain non-inferior to Artz WOMAC pain over 26 weeks.||"Primary Hypothesis:~Ho: μDUR\[18\] - μArtz\[18\] ≥ +1.6 units Ha: μDUR\[18\] - μArtz\[18\] \< +1.6 units~Power Calculations:~Assume the over 18 weeks difference is 0mm, SD 20mm (5 on the Likert scale), 90% power, 2-sided test alpha 5%, and a 8mm non-inferiority margin (1.6 on the Likert scale), the sample size required is 132 subjects per group adjusted to 175 to hold power constant due to loss to follow-up and dropout."||0.39|-0.58|
82619458|NCT01295580|164955147|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +1.6 units corresponds to an 8% margin on the pain subscale (range 0-20)|Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-0.56|0.37||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first pain over 18 weeks then pain over 26 weeks. This section reports the over 26 week pain subscale results.||The third ordered test is Durolane WOMAC physical function subscale non-inferior to Artz WOMAC physical function subscale over 18 weeks.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +1.6 units Ha: μDUR\[26\] - μArtz\[26\] \< +1.6 units||0.37|-0.56|
82619459|NCT01295580|164955148|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +5.44 units corresponds to an 8% margin on the physical function subscale (range 0-68).|Mean Difference (Final Values)|-0.65|||||TWO_SIDED|95.0|-1.81|0.51||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week physical function results.||The fourth step is to test Durolane WOMAC physical function non-inferior to Artz physical function over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≥ +5.44 units Ha: μDUR\[18\] - μArtz\[18\] \< +5.44 units||0.51|-1.81|
82619460|NCT01295580|164955149|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +5.44 units corresponds to an 8% margin on the physical function subscale (range 0-68).|Mean Difference (Final Values)|-0.58|||||TWO_SIDED|95.0|-1.69|0.53||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week physical function subscale results.||The fifth step is to test Durolane subject global assessment non-inferior to Artz global assessment over 18 weeks.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +5.44 units Ha: μDUR\[26\] - μArtz\[26\] \< +5.44 units||0.53|-1.69|
82619461|NCT01295580|164955150|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of -0.8 units corresponds to an 8% margin on the subject global assessment (range 0-10). Note that because the assessment interpretation is reversed as compared to the WOMAC assessments the lower bound of the 95%CI is compared to the -0.8 non-inferiority margin.|Mean Difference (Final Values)|0.15|||||TWO_SIDED|95.0|-0.15|0.45||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week subject global assessment results.||The sixth step is to test Durolane subject global assessment non-inferior to Artz subject global assessment over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≤ -0.8 units Ha: μDUR\[18\] - μArtz\[18\] \> -0.8 units||0.45|-0.15|
82619462|NCT01295580|164955151|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of -0.8 units corresponds to an 8% margin on the subject global assessment (range 0-10). Note that because the assessment interpretation is reversed as compared to the WOMAC assessments the lower bound of the 95%CI is compared to the -0.8 non-inferiority margin.|Mean Difference (Final Values)|0.14|||||TWO_SIDED|95.0|-0.16|0.43||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week subject global assessment results.||The seventh step is to test Durolane WOMAC knee stiffness non-inferior to Artz WOMAC knee stiffness over 18 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≤ -0.8 units Ha: μDUR\[18\] - μArtz\[18\] \> -0.8 units||0.43|-0.16|
82660554|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.048||0.004|TWO_SIDED|95.0|-0.24|-0.05|||ANCOVA||60 minutes post-dose|||-0.05|-0.24|0.0040
82660555|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.052||0.0333|TWO_SIDED|95.0|-0.21|-0.01|||ANCOVA||90 minutes post-dose|||-0.01|-0.21|0.0333
82619463|NCT01295580|164955152|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of +0.64 units corresponds to an 8% margin on the knee stiffness subscale (range 0-8).|Mean Difference (Final Values)|-0.14|||||TWO_SIDED|95.0|-0.33|0.05||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 18 week knee stiffness subscale results.||The eight and last step is to test Durolane WOMAC knee stiffness non-inferior to Artz WOMAC knee stiffness over 26 weeks.||Ho: μDUR\[18\] - μArtz\[18\] ≥ +0.64 units Ha: μDUR\[18\] - μArtz\[18\] \< +0.64 units||0.05|-0.33|
82619464|NCT01295580|164955153|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|This is a non-inferiority test. The non-inferiority margin of 0.64 units corresponds to an 8% margin on the knee stiffness subscale (range 0-8).|Mean Difference (Final Values)|-0.15|||||TWO_SIDED|95.0|-0.33|0.03||Alpha inflation due to multiple testing was controlled using preplanned ordered stepwise hypothesis testing first over 18 weeks then over 26 weeks. This section reports the over 26 week knee stiffness subscale results.||This is the eighth and last pre-planned hypothesis test.||Ho: μDUR\[26\] - μArtz\[26\] ≥ +0.64 units Ha: μDUR\[26\] - μArtz\[26\] \< +0.64 units||0.03|-0.33|
82619465|NCT03943953|164955215|SUPERIORITY||Mean Difference (Final Values)|2.86||||0.018|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.018
82619466|NCT03943953|164955217|SUPERIORITY||Mean Difference (Final Values)|3.88||||0.001|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.001
82619467|NCT03943953|164955219|SUPERIORITY||Mean Difference (Final Values)|3.88||||0.006|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.006
82660556|NCT01667679|165038760|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.052||0.4031|TWO_SIDED|95.0|-0.15|0.06|||ANCOVA||120 minutes post-dose|||0.06|-0.15|0.4031
82660557|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.019||0.0181|TWO_SIDED|95.0|-0.08|-0.01|||ANCOVA||10 minutes post-dose|||-0.01|-0.08|0.0181
82660558|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.09|STANDARD_ERROR_OF_MEAN|0.026||0.0003|TWO_SIDED|95.0|-0.14|-0.04|||ANCOVA||15 minutes post-dose|||-0.04|-0.14|0.0003
82660559|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001|TWO_SIDED|95.0|-0.23|-0.09|||ANCOVA||30 minutes post-dose|||-0.09|-0.23|< 0.0001
82660560|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.17|STANDARD_ERROR_OF_MEAN|0.043||0.0001|TWO_SIDED|95.0|-0.25|-0.08|||ANCOVA||45 minutes post-dose|||-0.08|-0.25|0.0001
82619468|NCT03943953|164955221|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.035|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.035
82619469|NCT03943953|164955223|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.39|TWO_SIDED||||||t-test, 1 sided|||This is a comparison between Time 1 and Time 2||||.39
82619470|NCT01102218|164955226|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANCOVA|||||||>0.05
82660561|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.16|STANDARD_ERROR_OF_MEAN|0.047||0.0006|TWO_SIDED|95.0|-0.26|-0.07|||ANCOVA||60 minutes post-dose|||-0.07|-0.26|0.0006
82619471|NCT01940510|164955264|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|26.8|||||TWO_SIDED|90.0|23.8|30.1|||||The reported values are percentages of geometric least square mean ratio.|Analysis of variance (ANOVA) was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals.||30.1|23.8|
82619472|NCT01940510|164955265|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|48.6|||||TWO_SIDED|90.0|43.5|54.3|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||54.3|43.5|
82619473|NCT01940510|164955266|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|179.0|||||TWO_SIDED|90.0|158.0|202.0|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||202|158|
82660562|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.048||0.0189|TWO_SIDED|95.0|-0.21|-0.02|||ANCOVA||90 minutes post-dose|||-0.02|-0.21|0.0189
82660563|NCT01667679|165038761|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.1704|TWO_SIDED|95.0|-0.17|0.03|||ANCOVA||120 minutes post-dose|||0.03|-0.17|0.1704
82660564|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-2.728||||0.0008|TWO_SIDED|95.0|-4.219|-1.236|||ANCOVA|||Difference from placebo to GSK189075 50mg AUC(0-4) Incremental Adjusted Weighted Mean||-1.236|-4.219|0.0008
82660565|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.325||||0.0021|TWO_SIDED|95.0|-3.735|-0.916|||ANCOVA|||Difference from placebo toGSK189075 150mg AUC(0-4) Incremental Adjusted Weighted Mean||-0.916|-3.735|0.0021
82660566|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.402||||0.0021|TWO_SIDED|95.0|-3.862|-0.942|||ANCOVA|||Difference from placebo to GSK189075 500mg AUC(0-4) Incremental Adjusted Weighted Mean||-0.942|-3.862|0.0021
82660567|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.556||||0.0382|TWO_SIDED|95.0|0.09|3.021|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 50mg AUC(0-4) Incremental Adjusted Weighted Mean||3.021|0.090|0.0382
82660568|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.958||||0.0132|TWO_SIDED|95.0|0.439|3.477|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 150mg AUC(0-4) Incremental Adjusted Weighted Mean||3.477|0.439|0.0132
82660569|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.881||||0.0161|TWO_SIDED|95.0|0.373|3.389|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 500mg AUC(0-4) Incremental Adjusted Weighted Mean||3.389|0.373|0.0161
82660570|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.592||||0.0001|TWO_SIDED|95.0|-5.162|-2.022|||ANCOVA|||Difference from placebo to GSK189075 50mg AUC(0-10) Incremental Adjusted Weighted Mean||-2.022|-5.162|0.0001
82660571|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.82||||0|TWO_SIDED|95.0|-5.304|-2.337|||ANCOVA|||Difference from placebo to GSK189075 150mg AUC(0-10) Incremental Adjusted Weighted Mean||-2.337|-5.304|0.0000
82660572|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.887||||0.0006|TWO_SIDED|95.0|-4.424|-1.35|||ANCOVA|||Difference from placebo to GSK189075 500mg AUC(0-10) Incremental Adjusted Weighted Mean||-1.350|-4.424|0.0006
82660573|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.953||||0.0005|TWO_SIDED|95.0|1.411|4.496|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 50mg AUC(0-10) Incremental Adjusted Weighted Mean||4.496|1.411|0.0005
82660574|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.725||||0.0015|TWO_SIDED|95.0|1.126|4.324|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 150mg AUC(0-10) Incremental Adjusted Weighted Mean||4.324|1.126|0.0015
82660575|NCT00575159|165038792|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.659||||0.0001|TWO_SIDED|95.0|2.071|5.246|||ANCOVA|||Difference from Placebo+ Prandial insulin to GSK189075 500mg AUC(0-10) Incremental Adjusted Weighted Mean||5.246|2.071|0.0001
82660576|NCT03872128|165038808|SUPERIORITY|||||||0.009|||||||Fisher Exact|||||||0.009
82660577|NCT03872128|165038809|SUPERIORITY|||||||0.019|||||||Fisher Exact|||||||0.019
82660578|NCT03872128|165038810|SUPERIORITY|||||||0.044|||||||Fisher Exact|||||||0.044
82492769|NCT01594281|164678275|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-40.7||||0.0003|TWO_SIDED|95.0|-62.1|-19.3|||ANCOVA|||||-19.3|-62.1|0.0003
82619474|NCT01940510|164955267|SUPERIORITY_OR_OTHER||Geometric Least Square Mean Ratio|220.0|||||TWO_SIDED|90.0|190.0|255.0|||||ANOVA was applied to the log-transformed PK parameters, and then back transformed to provide geometric least square mean ratios (Period 3/Period 1) and confidence intervals. The reported values are percentages of geometric least square mean ratio.|||255|190|
82619475|NCT00424294|164955283|SUPERIORITY_OR_OTHER|||||||0.733|TWO_SIDED||||||Chi-squared|||||||0.733
82660579|NCT03872128|165038811|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||OCDS: Total||||<0.001
82660580|NCT03872128|165038811|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||OCDS: Obsessive||||<0.001
82660581|NCT03872128|165038811|SUPERIORITY|||||||0.003|||||||Fisher Exact|||OCDS: Compulsive||||0.003
82660582|NCT03872128|165038813|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<.0001
82660583|NCT03872128|165038814|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||HADS-Depression||||<0.001
82660584|NCT03872128|165038814|SUPERIORITY|||||||0.089|||||||Fisher Exact|||HADS-Anxiety||||0.089
82660585|NCT04608188|165038871|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82660586|NCT04608188|165038872|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82660587|NCT04608188|165038873|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82660588|NCT04608188|165038874|SUPERIORITY|||||||0.05|||||||Mixed Models Analysis|||||||0.05
82660589|NCT00838136|165038875|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.23||||||90.0|99.88|102.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.60|99.88|
82660590|NCT00838136|165038876|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|101.87||||||90.0|99.18|104.63|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.63|99.18|
82660591|NCT00838136|165038877|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.76||||||90.0|98.6|102.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.97|98.60|
82660592|NCT00304187|165038884|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<.05
82660593|NCT01304641|165038893|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82660594|NCT01304641|165038894|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.078||||0.14|TWO_SIDED|95.0|0.976|1.192|||Regression, Cox|||||1.192|0.976|0.140
82660595|NCT01304641|165038895|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82660596|NCT01304641|165038896|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82660597|NCT01304641|165038897|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82660598|NCT01304641|165038898|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||||||<0.001
82660599|NCT01304641|165038899|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Chi-squared|||||||<0.001
82660600|NCT00651820|165038910|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Paired-Prentice Wilcoxon (PPW)|Time to complete wound closure Drug(T1)and Vehicle(T2)Hypothesis, Ho: T1=T2,using paired Prentice-Wilcoxon at significant level of 5%, 2-sided.||Each subject served as their own control, each receiving duplicate dermatome-induced wounds with 1 wound treated with active drug and the other treated with vehicle. Mean time to wound closure was calculated for the wounds treated with drug, the wounds treated with vehicle, and an over-all mean time to wound closure||||<0.05
82660601|NCT00651820|165038911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.2|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Stiffness: Paired t-test and Wilcoxon signed rank test were used for testing any significant differences (Sig. diff.) between the two treatments||||<0.05
82492770|NCT01594281|164678275|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-22.9||||0.0357|TWO_SIDED|95.0|-44.2|-1.6|||ANCOVA|||||-1.6|-44.2|0.0357
82619476|NCT00424294|164955284|SUPERIORITY_OR_OTHER|||||||0.463|TWO_SIDED||||||Chi-squared|||Week 1: p-value was calculated by Chi-square test.||||0.463
82619477|NCT00424294|164955284|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED||||||Chi-squared|||Week 2: p-value was calculated by Chi-square test.||||0.549
82619478|NCT00424294|164955284|SUPERIORITY_OR_OTHER|||||||0.272|TWO_SIDED||||||Chi-squared|||Week 4: p-value was calculated by Chi-square test.||||0.272
82619479|NCT00424294|164955284|SUPERIORITY_OR_OTHER|||||||0.265|TWO_SIDED||||||Chi-squared|||Week 8: p-value was calculated by Chi-square test.||||0.265
82619480|NCT00424294|164955285|SUPERIORITY_OR_OTHER|||||||0.939|TWO_SIDED||||||Fisher Exact|||Week 4: p-value was calculated by Fisher exact test.||||0.939
82619481|NCT00424294|164955285|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Fisher Exact|||Week 8: p-value was calculated by Fisher exact test.||||0.323
82619482|NCT00424294|164955285|SUPERIORITY_OR_OTHER|||||||0.338|TWO_SIDED||||||Fisher Exact|||Week 12: p-value was calculated by Fisher exact test.||||0.338
82619483|NCT00424294|164955286|SUPERIORITY_OR_OTHER|||||||0.746|TWO_SIDED||||||Fisher Exact|||Week 12: p-value was calculated by Fisher exact test.||||0.746
82619484|NCT00424294|164955287|SUPERIORITY_OR_OTHER|||||||0.635|TWO_SIDED||||||ANCOVA|||Week 1: Analysis of covariance (ANCOVA) with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.635
82619485|NCT00424294|164955287|SUPERIORITY_OR_OTHER|||||||0.044|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.044
82619486|NCT00424294|164955287|SUPERIORITY_OR_OTHER|||||||0.957|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.957
82619487|NCT00424294|164955287|SUPERIORITY_OR_OTHER|||||||0.597|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.597
82619488|NCT00424294|164955287|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.960
82619489|NCT00424294|164955288|SUPERIORITY_OR_OTHER|||||||0.252|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.252
82619490|NCT00424294|164955288|SUPERIORITY_OR_OTHER|||||||0.032|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.032
82619491|NCT00424294|164955288|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.031
82619492|NCT00424294|164955288|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.018
82492771|NCT01594281|164678275|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|17.8||||0.1034|TWO_SIDED|95.0|-3.7|39.3|||ANCOVA|||||39.3|-3.7|0.1034
82619493|NCT00424294|164955288|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.170
82660602|NCT00651820|165038911|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.88|||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||Energy Absorption: Paired t-test and Wilcoxon signed rank test were used for testing any significant differences (Sig. diff.) between the two treatments||||<0.05
82492772|NCT01594281|164678276|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-51.7||||0.0007|TWO_SIDED|95.0|-81.1|-22.3|||ANCOVA|||||-22.3|-81.1|0.0007
82619494|NCT00424294|164955289|SUPERIORITY_OR_OTHER|||||||0.507|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.507
82619495|NCT00424294|164955289|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.743
82619496|NCT00424294|164955289|SUPERIORITY_OR_OTHER|||||||0.914|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.914
82619497|NCT00424294|164955289|SUPERIORITY_OR_OTHER|||||||0.715|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.715
82619498|NCT00424294|164955289|SUPERIORITY_OR_OTHER|||||||0.558|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.558
82619499|NCT00424294|164955290|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.172
82619500|NCT00424294|164955290|SUPERIORITY_OR_OTHER|||||||0.738|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.738
82619501|NCT00424294|164955290|SUPERIORITY_OR_OTHER|||||||0.948|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.948
82619502|NCT00424294|164955290|SUPERIORITY_OR_OTHER|||||||0.428|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.428
82619503|NCT00424294|164955290|SUPERIORITY_OR_OTHER|||||||0.861|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.861
82619504|NCT00424294|164955291|SUPERIORITY_OR_OTHER|||||||0.325|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.325
82619505|NCT00424294|164955291|SUPERIORITY_OR_OTHER|||||||0.386|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.386
82619506|NCT00424294|164955291|SUPERIORITY_OR_OTHER|||||||0.532|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.532
82619507|NCT00424294|164955291|SUPERIORITY_OR_OTHER|||||||0.909|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.909
82619508|NCT00424294|164955291|SUPERIORITY_OR_OTHER|||||||0.994|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.994
82619509|NCT00424294|164955292|SUPERIORITY_OR_OTHER|||||||0.369|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.369
82619510|NCT00424294|164955292|SUPERIORITY_OR_OTHER|||||||0.666|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.666
82619511|NCT00424294|164955292|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.530
82619512|NCT00424294|164955292|SUPERIORITY_OR_OTHER|||||||0.632|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.632
82619513|NCT00424294|164955292|SUPERIORITY_OR_OTHER|||||||0.801|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.801
82619514|NCT00424294|164955293|SUPERIORITY_OR_OTHER|||||||0.052|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.052
82619515|NCT00424294|164955293|SUPERIORITY_OR_OTHER|||||||0.108|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.108
82619516|NCT00424294|164955293|SUPERIORITY_OR_OTHER|||||||0.573|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.573
82619517|NCT00424294|164955293|SUPERIORITY_OR_OTHER|||||||0.342|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.342
82619518|NCT00424294|164955293|SUPERIORITY_OR_OTHER|||||||0.501|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.501
82619519|NCT00424294|164955294|SUPERIORITY_OR_OTHER|||||||0.701|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.701
82619520|NCT00424294|164955294|SUPERIORITY_OR_OTHER|||||||0.167|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.167
82619521|NCT00424294|164955294|SUPERIORITY_OR_OTHER|||||||0.948|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.948
82619522|NCT00424294|164955294|SUPERIORITY_OR_OTHER|||||||0.834|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.834
82619523|NCT00424294|164955294|SUPERIORITY_OR_OTHER|||||||0.977|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.977
82619524|NCT00424294|164955295|SUPERIORITY_OR_OTHER|||||||0.291|TWO_SIDED||||||ANCOVA|||Week 1: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.291
82619525|NCT00424294|164955295|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANCOVA|||Week 2: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.080
82619526|NCT00424294|164955295|SUPERIORITY_OR_OTHER|||||||0.466|TWO_SIDED||||||ANCOVA|||Week 4: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.466
82619527|NCT00424294|164955295|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED||||||ANCOVA|||Week 8: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.267
82619528|NCT00424294|164955295|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||ANCOVA|||Week 12: ANCOVA with treatment and site as independent variables and baseline as the covariate was used for the analysis.||||0.100
82619529|NCT04124042|164955321|SUPERIORITY||Odds Ratio (OR)|0.655|||||TWO_SIDED|95.0|0.347|1.237||||||||1.237|0.347|
82619530|NCT04124042|164955321|SUPERIORITY||Odds Ratio (OR)|0.714|||||TWO_SIDED|95.0|0.381|1.336||||||||1.336|0.381|
82619531|NCT04124042|164955322|SUPERIORITY||Mean Difference (Final Values)|0.44|STANDARD_ERROR_OF_MEAN|0.539||0.413|TWO_SIDED|95.0|-0.62|1.5|||Mixed Models Analysis|||||1.50|-0.62|0.413
82660603|NCT02911701|165038941|SUPERIORITY|||||||0.3|||||||maxim|||||||0.3
82619532|NCT04124042|164955322|SUPERIORITY||Mean Difference (Final Values)|0.26|STANDARD_ERROR_OF_MEAN|0.535||0.629|TWO_SIDED|95.0|-0.79|1.31|||Mixed Models Analysis|||||1.31|-0.79|0.629
82619533|NCT04124042|164955327|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.1374|TWO_SIDED|95.0|-0.16|1.16|||Mixed Models Analysis|||||1.16|-0.16|0.1374
82619534|NCT04124042|164955327|SUPERIORITY||Mean Difference (Final Values)|0.35||||0.2807|TWO_SIDED|95.0|-0.29|1.0|||Mixed Models Analysis|||||1.00|-0.29|0.2807
82619535|NCT04124042|164955328|SUPERIORITY||Mean Difference (Final Values)|0.13|STANDARD_ERROR_OF_MEAN|0.142||0.346|TWO_SIDED|95.0|-0.14|0.41|||Mixed Models Analysis|||||0.41|-0.14|0.346
82619536|NCT04124042|164955328|SUPERIORITY||Mean Difference (Final Values)|0.01|STANDARD_ERROR_OF_MEAN|0.14||0.968|TWO_SIDED|95.0|-0.27|0.28|||Mixed Models Analysis|||||0.28|-0.27|0.968
82619537|NCT04124042|164955330|SUPERIORITY||Mean Difference (Final Values)|-2.83||||0.0081|TWO_SIDED|95.0|-4.91|-0.75|||Mixed Models Analysis|||Outcome measure #10 is an analysis of 2 tx groups (two doses of 0.45 mg/ml vs. a single dose of 0.45 mg/ml), whereas outcome measure #12 is all 6 tx groups. A MMRM model was used. LS Means in an MMRM model are influenced by the overall mean structure and covariance estimation. When fewer treatment groups are included, the model adjusts based on a different subset of data, leading to potential shifts in estimated LS Means due to changes in the reference population/covariance structure.||-0.75|-4.91|0.0081
82619538|NCT04124042|164955331|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.0101|TWO_SIDED|95.0|-16.85|-2.34|||Mixed Models Analysis|||Outcome measure #11 is an analysis of 2 tx groups (two doses of 0.45 mg/ml vs. a single dose of 0.45 mg/ml), whereas outcome measure #13 is all 6 tx groups. A MMRM model was used. LS Means in an MMRM model are influenced by the overall mean structure and covariance estimation. When fewer treatment groups are included, the model adjusts based on a different subset of data, leading to potential shifts in estimated LS Means due to changes in the reference population/covariance structure.||-2.34|-16.85|0.0101
82619539|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|8.4|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|5.3|11.5|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||11.5|5.3|<0.001
82660604|NCT01302548|165038960|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0833|STANDARD_DEVIATION|0.8609||0.797|TWO_SIDED|95.0|-0.5738|0.7405||This is unadjusted.|t-test, 2 sided|Degrees of freedom = 28||"Ho: There is not a significant difference between the use of IRRISEPT solution and the usual care methods on abscess healing.~This study did not enroll an adequate number of patients to meet sufficient power."||.7405|-.5738|.7970
82619540|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|9.9|STANDARD_ERROR_OF_MEAN|1.59|<|0.001|TWO_SIDED|95.0|6.8|13.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||13.1|6.8|<0.001
82619541|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|10.7|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|7.7|13.8|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||13.8|7.7|<0.001
82619542|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|13.4|STANDARD_ERROR_OF_MEAN|1.57|<|0.001|TWO_SIDED|95.0|10.3|16.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||16.5|10.3|<0.001
82619543|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|4.6|STANDARD_ERROR_OF_MEAN|1.42||0.001|TWO_SIDED|95.0|1.8|7.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||7.4|1.8|0.001
82619544|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|4.1|STANDARD_ERROR_OF_MEAN|1.42||0.004|TWO_SIDED|95.0|1.3|6.9|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||6.9|1.3|0.004
82619545|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|9.7|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|6.9|12.5|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||12.5|6.9|<0.001
82619546|NCT01021852|164955338|SUPERIORITY_OR_OTHER||Difference in LS Means|8.7|STANDARD_ERROR_OF_MEAN|1.43|<|0.001|TWO_SIDED|95.0|5.9|11.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||11.5|5.9|<0.001
82619547|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.8|STANDARD_ERROR_OF_MEAN|6.29|<|0.001|TWO_SIDED|95.0|-43.2|-18.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.4|-43.2|<0.001
82619548|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-32.5|STANDARD_ERROR_OF_MEAN|6.31|<|0.001|TWO_SIDED|95.0|-44.9|-20.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-20.1|-44.9|<0.001
82619549|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.9|STANDARD_ERROR_OF_MEAN|6.21|<|0.001|TWO_SIDED|95.0|-43.2|-18.7|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.7|-43.2|<0.001
82492773|NCT01594281|164678276|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|-28.9||||0.0542|TWO_SIDED|95.0|-58.4|0.5|||ANCOVA|||||0.5|-58.4|0.0542
82492774|NCT01594281|164678276|OTHER|The focus of this PoC study was not on hypothesis testing but on a rough estimation of differences between treatments. The usual p-values are provided as a descriptive tool.|Least Squares Mean Difference|22.8||||0.1288|TWO_SIDED|95.0|-6.7|52.3|||ANCOVA|||||52.3|-6.7|0.1288
82619550|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-45.8|STANDARD_ERROR_OF_MEAN|6.22|<|0.001|TWO_SIDED|95.0|-58.0|-33.5|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-33.5|-58.0|<0.001
82619551|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.5|STANDARD_ERROR_OF_MEAN|5.65||0.006|TWO_SIDED|95.0|-26.7|-4.4|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-4.4|-26.7|0.006
82619552|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-13.2|STANDARD_ERROR_OF_MEAN|5.66||0.02|TWO_SIDED|95.0|-24.4|-2.1|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-2.1|-24.4|0.020
82619553|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-25.7|STANDARD_ERROR_OF_MEAN|5.67|<|0.001|TWO_SIDED|95.0|-36.8|-14.5|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-14.5|-36.8|<0.001
82619554|NCT01021852|164955339|SUPERIORITY_OR_OTHER||Difference in LS Means|-30.0|STANDARD_ERROR_OF_MEAN|5.69|<|0.001|TWO_SIDED|95.0|-41.2|-18.8|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-18.8|-41.2|<0.001
82619555|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-10.2|STANDARD_ERROR_OF_MEAN|4.43||0.022|TWO_SIDED|95.0|-18.9|-1.5|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-1.5|-18.9|0.022
82619556|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-15.7|STANDARD_ERROR_OF_MEAN|4.44|<|0.001|TWO_SIDED|95.0|-24.5|-7.0|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-7.0|-24.5|<0.001
82619557|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-23.5|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-32.1|-14.9|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-14.9|-32.1|<0.001
82619558|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-20.3|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-29.0|-11.7|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Night 1~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Night 1. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-11.7|-29.0|<0.001
82619559|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-8.9|STANDARD_ERROR_OF_MEAN|4.61||0.055|TWO_SIDED|95.0|-18.0|0.2|||Mixed Models Analysis|||"MK-6096 2.5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||0.2|-18.0|0.055
82619560|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-8.7|STANDARD_ERROR_OF_MEAN|4.61||0.06|TWO_SIDED|95.0|-17.8|0.4|||Mixed Models Analysis|||"MK-6096 5 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||0.4|-17.8|0.060
82619561|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-19.5|STANDARD_ERROR_OF_MEAN|4.62|<|0.001|TWO_SIDED|95.0|-28.6|-10.4|||Mixed Models Analysis|||"MK-6096 10 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-10.4|-28.6|<0.001
82660605|NCT01302548|165038961|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.2364||||0.3575|TWO_SIDED|95.0|0.0239|2.3394||This is unadjusted.|Fisher Exact|Cell (1,1) Frequency (F) = 13||"Ho: There is not a significant difference between the proportion of patients requiring antibiotics after the use of IRRISEPT solution vs. the usual care methods on abscess healing.~This study did not enroll an adequate number of patients to meet sufficient power."||2.3394|.0239|.3575
82660606|NCT01302548|165038962|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.4|STANDARD_DEVIATION|0.5477||0.5415|TWO_SIDED|95.0|-2.0659|1.2659||This is unadjusted.|t-test, 2 sided|Degrees of freedom = 4||"Ho: There is not a significant difference between the use of IRRISEPT solution and the usual care methods on abscess healing in patients that are MRSA positive.~This study did not enroll an adequate number of patients to meet sufficient power."||1.2659|-2.0659|.5415
82660607|NCT01085825|165039019|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Chi-squared|||||||.13
82660608|NCT03290781|165039055|SUPERIORITY||Difference in Proportion|0.451|||<|0.001|TWO_SIDED|95.0|0.296|0.572||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.572|0.296|<0.001
82660609|NCT03290781|165039055|SUPERIORITY||Difference in Proportion|0.278|||<|0.001|TWO_SIDED|95.0|0.142|0.401||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.401|0.142|<0.001
82660610|NCT03290781|165039056|SUPERIORITY||Difference in Proportion|0.463|||<|0.001|TWO_SIDED|95.0|0.31|0.585||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.585|0.310|<0.001
82660611|NCT03290781|165039056|SUPERIORITY||Difference in Proportion|0.339|||<|0.001|TWO_SIDED|95.0|0.197|0.463||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.463|0.197|<0.001
82660612|NCT03290781|165039057|SUPERIORITY||Difference in Proportion|0.497|||<|0.001|TWO_SIDED|95.0|0.337|0.62||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.620|0.337|<0.001
82660613|NCT03290781|165039057|SUPERIORITY||Difference in Proportion|0.294|||<|0.001|TWO_SIDED|95.0|0.148|0.425||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.425|0.148|<0.001
82660614|NCT03290781|165039058|SUPERIORITY||Difference in Proportion|0.277|||<|0.001|TWO_SIDED|95.0|0.129|0.398||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.398|0.129|<0.001
82660615|NCT03290781|165039058|SUPERIORITY||Difference in Proportion|0.191|||<|0.001|TWO_SIDED|95.0|0.067|0.305||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.305|0.067|<0.001
82660616|NCT03290781|165039059|SUPERIORITY||Difference in Proportion|0.488|||<|0.001|TWO_SIDED|95.0|0.329|0.613||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.613|0.329|<0.001
82660617|NCT03290781|165039059|SUPERIORITY||Difference in Proportion|0.343|||<|0.001|TWO_SIDED|95.0|0.194|0.471||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.471|0.194|<0.001
82660618|NCT03290781|165039060|SUPERIORITY||Difference in Proportion|0.431|||<|0.001|TWO_SIDED|95.0|0.28|0.554||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.554|0.280|<0.001
82660619|NCT03290781|165039060|SUPERIORITY||Difference in Proportion|0.227|||<|0.001|TWO_SIDED|95.0|0.094|0.349||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.349|0.094|<0.001
82660620|NCT03290781|165039061|SUPERIORITY||Difference in Proportion|0.176|||<|0.001|TWO_SIDED|95.0|0.049|0.287||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.287|0.049|<0.001
82660621|NCT03290781|165039061|SUPERIORITY||Difference in Proportion|0.111|||<|0.005|TWO_SIDED|95.0|0.006|0.208||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||0.208|0.006|<0.005
82660622|NCT03290781|165039062|SUPERIORITY||||||<|0.001||||||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647-303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||||<0.001
82619562|NCT01021852|164955340|SUPERIORITY_OR_OTHER||Difference in LS Means|-11.3|STANDARD_ERROR_OF_MEAN|4.63||0.015|TWO_SIDED|95.0|-20.5|-2.2|||Mixed Models Analysis|||"MK-6096 20 mg vs. Placebo at Week 4~A mixed effects model with terms for baseline value, geographic region (Japan vs. ex-Japan), gender, treatment, sequence, period, time, and treatment-by-time interaction and period-by-time interaction was used to estimate LS mean differences between MK-6096 and placebo at Week 4. 95% confidence interval estimate and p-value (based upon a normal approximation) were also computed from the LS mean differences and variability estimates from the model."||-2.2|-20.5|0.015
82619563|NCT01021852|164955341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-9.5|12.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||12.2|-9.5|
82619564|NCT01021852|164955341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-10.3|11.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||11.2|-10.3|
82660623|NCT03290781|165039062|SUPERIORITY||||||=|0.005||||||P-value was based on CMH chi-square test stratified by status of glucocorticoid use at SHP647- 303 baseline, prior anti-TNF treatment, and the degree of clinical response in the induction studies (whether remission is achieved or not).|Cochran-Mantel-Haenszel|||||||=0.005
82660624|NCT02538523|165039070|SUPERIORITY||||||<|0.005|||||||Fisher Exact|||A Fischer's Exact Test for two independent proportions was conducted to compare the statistical significance of the 44.8% difference in proportion of successes between procedure groups at two-months post-procedure (study endpoint) relative to baseline evaluation.||||<0.005
82660625|NCT02538523|165039071|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Differences is the statistical significance of change scores in ODI total score from study baseline to endpoint (two-months post-procedure) were evaluated by Analysis of Covariance (ANCOVA), with change from baseline to endpoint in ODI total score as the dependent variable, baseline ODI total score as the covariate and procedure group (Erchonia FX-635 or placebo laser) as a main effect.||||<0.05
82660626|NCT04189848|165039075|OTHER|Treatment comparison|Treatment difference|-5.9|||<|0.0001|TWO_SIDED|95.0|-8.2|-3.6|||ANOVA|||Intensity of injection site pain was analysed by a fixed analysis of variance model with VAS pain score as the dependent variable, and product, injection side (right side, left side), injection number (first injection, second injection), and participant as fixed effects.||-3.6|-8.2|<0.0001
82660627|NCT01588236|165039076|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|95.0||||p value for multiple comparison among 3 arms and comparison between investigational drug and placebo|Mixed Models Analysis|||||||>0.05
82660628|NCT01588236|165039077|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|TWO_SIDED|95.0|||||Mixed Models Analysis|||p value for multiple comparison among 3 arms and comparison between investigational drug and placebo||||>0.05
82619565|NCT01021852|164955341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||||TWO_SIDED|95.0|-4.2|18.3||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||18.3|-4.2|
82619566|NCT01021852|164955341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.5|||||TWO_SIDED|95.0|-2.3|20.4||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||20.4|-2.3|
82619567|NCT01021852|164955342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.8|||||TWO_SIDED|95.0|-1.0|10.2||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||10.2|-1.0|
82619568|NCT01021852|164955342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-3.6|4.8||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||4.8|-3.6|
82619569|NCT01021852|164955342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-2.7|6.6||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||6.6|-2.7|
82660629|NCT01588236|165039078|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED|95.0||||p value for comparison between overall drug group vs placebo, and between high dose vs placebo|Mixed Models Analysis|||||||<0.01
82660630|NCT01588236|165039079|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|TWO_SIDED|95.0||||p value for comparison between overall drug group vs placebo, and between low dose vs placebo|Mixed Models Analysis|||||||<0.05
82660631|NCT04115293|165039083|SUPERIORITY||LS Mean Difference|-2.09|||<|0.001|TWO_SIDED|95.0|-3.24|-0.95|||MMRM ANCOVA|||||-0.95|-3.24|<0.001
82660632|NCT04115293|165039084|SUPERIORITY||LS Mean Difference|-2.94|||<|0.001|TWO_SIDED|95.0|-4.39|-1.49|||MMRM ANCOVA|||||-1.49|-4.39|<0.001
82660633|NCT04115293|165039085|SUPERIORITY||LS Mean Difference|-3.2||||0.0023|TWO_SIDED|95.0|-5.24|-1.16|||MMRM ANCOVA|||||-1.16|-5.24|0.0023
82660634|NCT04115293|165039086|SUPERIORITY||LS Mean Difference|-2.49||||0.0128|TWO_SIDED|95.0|-4.45|-0.54|||MMRM ANCOVA|||||-0.54|-4.45|0.0128
82660635|NCT04115293|165039088|SUPERIORITY||Odds Ratio (OR)|2.608||||0.0885|TWO_SIDED|95.0|0.866|7.86|||Regression, Logistic|||||7.860|0.866|0.0885
82660636|NCT04115293|165039089|SUPERIORITY||Odds Ratio (OR)|3.184|||<|0.001|TWO_SIDED|95.0|1.662|6.101|||Regression, Logistic|||||6.101|1.662|<0.001
82660637|NCT04115293|165039090|SUPERIORITY||Odds Ratio (OR)|2.865||||0.0012|TWO_SIDED|95.0|1.518|5.409|||Regression, Logistic|||||5.409|1.518|0.0012
82660638|NCT02571907|165039092|OTHER||||||||||||||||||A Bayesian beta-binomial model with a Uniform(0, 1) prior was used to compute a 95% credible interval for the proportion of patients meeting the primary endpoint. The lower bound of this credible interval (2.5th percentile of the posterior distribution) was 91.2%, which was greater than the performance goal of 55%.|||
82660639|NCT02571907|165039093|OTHER||||||||||||||||||A Bayesian beta-binomial model with a Uniform(0, 1) prior was used to compute a 95% credible interval for the proportion of patients meeting the secondary endpoint. The lower bound of this credible interval (2.5th percentile of the posterior distribution) was 70.8%, which was greater than the performance goal of 46%.|||
82619570|NCT01021852|164955342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.2|||||TWO_SIDED|95.0|-4.5|2.3||||||Miettinen and Nurminen's method was used to calculate confidence intervals for between-treatment differences in the percentage of participants with events versus placebo.||2.3|-4.5|
82619571|NCT02130258|164955366|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||.04
82619572|NCT02130258|164955367|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||.04
82619573|NCT02130258|164955368|OTHER|||||||0.04|||||||Kruskal-Wallis|||||||0.04
82619574|NCT00441103|164955371|SUPERIORITY_OR_OTHER||||||<|0.001||||||Non-parametric analysis of variance (ANOVA) with effects for treatment and the absence/presence of Gd-enhancing lesions at baseline as factors|ANOVA|||||||<0.001
82619575|NCT00441103|164955372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.67|STANDARD_DEVIATION|2.33|<|0.001|||||||Wilcoxon signed-rank test|||Mean difference was calculated by subtracting 'Day 1 up to Week 16' from 'Week 17 up to Week 40' and analyzed using Wilcoxon signed-rank test.||||<0.001
82619576|NCT00807846|164955375|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.1||||0.274|TWO_SIDED|90.0|-0.56|2.76|||ANCOVA|||The primary analysis was based on 90% confidence interval (CI) for the difference across treatment groups (celecoxib - naproxen) in mean change from baseline in SBP. Change from Baseline in BP was analyzed using analysis of covariance (ANCOVA) with model terms for treatment with baseline height, baseline weight, baseline age, and baseline SBP as covariates. No formal hypothesis testing was applied to the primary analysis.||2.76|-0.56|0.274
82619577|NCT00807846|164955376|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.088||||0.148|TWO_SIDED|95.0|-0.39|2.57|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||2.57|-0.39|0.148
82619578|NCT00807846|164955377|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.837||||0.027|TWO_SIDED|95.0|0.21|3.46|||ANCOVA|||"For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in blood pressure was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates.~Secondary analyses were conducted using a two-sided test with α=0.05."||3.46|0.21|0.027
82619579|NCT00807846|164955378|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.207||||0.106|TWO_SIDED|95.0|-2.67|0.26|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||0.26|-2.67|0.106
82619580|NCT00807846|164955379|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.22||||0.776|TWO_SIDED|95.0|-1.3|1.74|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline BP as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||1.74|-1.30|0.776
82619581|NCT00807846|164955380|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.179||||0.815|TWO_SIDED|95.0|-1.69|1.33|||ANCOVA|||For secondary analyses, 95% CIs for the differences across treatment groups (celecoxib - naproxen) in the mean change from baseline were generated. The change from baseline in BP was analyzed using an ANCOVA model with terms for treatment, baseline height, weight, age and baseline blood pressure as covariates. Secondary analyses were conducted using a two-sided test with α=0.05.||1.33|-1.69|0.815
82619582|NCT00807846|164955381|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.033||||0.303|TWO_SIDED|95.0|-2.76|8.82|||ANCOVA|||Change from Baseline to Week 6 was analyzed using ANCOVA model as well with treatment and Baseline value as a covariate. The LS mean change from Baseline was compared between treatment groups and an appropriate p-value and 95% CI for the difference between the two treatment groups was generated. This analysis was conducted using a two-sided test with α=0.05.||8.82|-2.76|0.303
82619583|NCT00807846|164955382|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.061||||0.392|TWO_SIDED|95.0|-0.202|0.079|||Chi-squared||Mean Difference (Final Values) indicates difference in incidence (proportion) between treatments.|The number of subjects with at least a 30% improvement in Parent/Guardian's Global Assessment of Overall Well-Being was compared between the two treatment groups using a chi-square test. A 95% CI for the difference in incidence between groups was also computed.||0.079|-0.202|0.392
82619584|NCT00807846|164955383|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.402||||0.897|TWO_SIDED|95.0|-6.5|5.69|||ANCOVA|||Change from Baseline to Week 6 was analyzed using ANCOVA model as well with treatment and Baseline value as a covariate. The LS mean change from Baseline was compared between treatment groups and an appropriate p-value and 95% CI for the difference between the two treatment groups was generated. This analysis was conducted using a two-sided test with α=0.05.||5.69|-6.50|0.897
82660640|NCT02635750|165039105|OTHER||Adjusted gMean ratio(%)|99.95|||||TWO_SIDED|90.0|89.502|111.62|||||"Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+ don / BI 409306).~Intra-individual coefficient of variation (gCV (%)) = 18.6."|"The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||111.62|89.502|
82619585|NCT00807846|164955384|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.102||||0.2|TWO_SIDED|95.0|-0.257|0.053|||Chi-squared||Mean Difference (Final Values) indicates difference in incidence (proportion) between treatments.|The number of participants with at least a 30% improvement in participant's Global Assessment of Overall Well-Being was compared between the two treatment groups using a chi-square test. A 95% CI for the difference in incidence between groups was also computed.||0.053|-0.257|0.200
82619586|NCT00711269|164955445|SUPERIORITY|One-way Analysis of Variance (ANOVA)|LS Mean difference|-3.5||||0.149|TWO_SIDED|95.0|-8.4|1.3|||ANOVA||\[Not specified\]|||1.3|-8.4|0.149
82619587|NCT00711269|164955445|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.8||||0.462|TWO_SIDED|95.0|-6.6|3.0|||ANOVA|||||3.0|-6.6|0.462
82619588|NCT00711269|164955445|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-4.6||||0.122|TWO_SIDED|95.0|-10.5|1.2|||ANOVA|||||1.2|-10.5|0.122
82619589|NCT00711269|164955445|SUPERIORITY|Maximum Contrast Method||||||0.235||||||Contrast Factors (Placebo, SM-13496 40-mg, SM-13496 80-mg): (-1, 0, 1) Adjusted P Value: 0.298|Maximum Contrast Method|Contrast (Placebo, SM-13496 40-mg, SM-13496 80-mg):(-2, 1, 1) Raw P Value: 0.108 Adjusted P Value: 0.145||||||0.235
82619590|NCT00711269|164955446|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.4||||0.069|TWO_SIDED|95.0|-2.9|0.1|||ANOVA|||||0.1|-2.9|0.069
82619591|NCT00711269|164955446|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.8||||0.287|TWO_SIDED|95.0|-2.3|0.7|||ANOVA|||||0.7|-2.3|0.287
82619592|NCT00711269|164955446|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-2.3||||0.016|TWO_SIDED|95.0|-4.1|-0.4|||ANOVA|||||-0.4|-4.1|0.016
82619593|NCT00711269|164955447|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.289|TWO_SIDED|95.0|-2.0|0.6|||ANOVA|||||0.6|-2.0|0.289
82619594|NCT00711269|164955447|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.256|TWO_SIDED|95.0|-2.0|0.5|||ANOVA|||||0.5|-2.0|0.256
82619595|NCT00711269|164955447|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.7||||0.352|TWO_SIDED|95.0|-2.3|0.8|||ANOVA|||||0.8|-2.3|0.352
82619596|NCT00711269|164955448|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.4||||0.251|TWO_SIDED|95.0|-3.9|1.0|||ANOVA|||||1.0|-3.9|0.251
82619597|NCT00711269|164955448|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-0.2||||0.847|TWO_SIDED|95.0|-2.7|2.2|||ANOVA|||||2.2|-2.7|0.847
82619598|NCT00711269|164955448|SUPERIORITY|One-way Analysis of variance (ANOVA)|LS Mean difference|-1.6||||0.292|TWO_SIDED|95.0|-4.6|1.4|||ANOVA|||||1.4|-4.6|0.292
82619599|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.881|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Neoplasm||||0.881
82619600|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.517|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Tobacco use||||0.517
82619601|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.053|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||BMI(kg/mˆ2)\>30||||0.053
82619602|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.289|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Diabetes mellitus||||0.289
82619603|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Immunosuppression/Corticosteroids||||1.000
82619604|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Anemia (Hb\<9gr/dL)||||0.169
82619605|NCT00906074|164955452|SUPERIORITY_OR_OTHER|||||||0.637|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||Malnutrition (hypoalbuminemia)||||0.637
82619606|NCT00906074|164955453|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||1.000
82619607|NCT00906074|164955454|SUPERIORITY_OR_OTHER|||||||0.873|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||0.873
82619608|NCT00906074|164955459|SUPERIORITY_OR_OTHER|||||||0.156|TWO_SIDED||||||Chi-squared|Chi-squared Pearson||||||0.156
82619609|NCT00906074|164955460|SUPERIORITY_OR_OTHER|||||||0.444|TWO_SIDED||||||Fisher Exact|||||||0.444
82619610|NCT04593940|164955490|SUPERIORITY||Recovery Rate Ratio|1.122||||0.0793|TWO_SIDED|95.0|0.987|1.275|||Fine-Gray Proportional Hazards Model|||||1.275|0.987|0.0793
82619611|NCT04593940|164955490|SUPERIORITY||Recovery Rate Ratio|1.12||||0.0864|TWO_SIDED|95.0|0.984|1.275|||Fine-Gray Proportional Hazards Model|||||1.275|.984|0.0864
82619612|NCT04593940|164955490|SUPERIORITY||Recovery Rate Ratio|1.006||||0.9354|TWO_SIDED|95.0|0.862|1.176|||Fine-Gray Proportional Hazards Model|||||1.176|0.862|0.9354
82619613|NCT04593940|164955491|SUPERIORITY||Odds Ratio (OR)|1.309||||0.0213|TWO_SIDED|95.0|1.041|1.647|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.647|1.041|0.0213
82619614|NCT04593940|164955491|SUPERIORITY||Odds Ratio (OR)|1.174||||0.1732|TWO_SIDED|95.0|0.932|1.48|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.480|0.932|0.1732
82619615|NCT04593940|164955491|SUPERIORITY||Odds Ratio (OR)|0.944||||0.6823|TWO_SIDED|95.0|0.717|1.243|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.243|0.717|0.6823
82619616|NCT04593940|164955492|SUPERIORITY||Odds Ratio (OR)|0.614||||0.0229|TWO_SIDED|95.0|0.403|0.935|||Regression, Logistic|||||0.935|0.403|0.0229
82619617|NCT04593940|164955492|SUPERIORITY||Odds Ratio (OR)|0.629||||0.0281|TWO_SIDED|95.0|0.416|0.951|||Regression, Logistic|||||0.951|0.416|0.0281
82619618|NCT04593940|164955492|SUPERIORITY||Odds Ratio (OR)|1.167||||0.541|TWO_SIDED|95.0|0.711|1.917|||Regression, Logistic|||||1.917|0.711|0.541
82619619|NCT04593940|164955493|SUPERIORITY||Odds Ratio (OR)|1.435||||0.0032|TWO_SIDED|95.0|1.129|1.825|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.825|1.129|0.0032
82619620|NCT04593940|164955493|SUPERIORITY||Odds Ratio (OR)|1.338||||0.0228|TWO_SIDED|95.0|1.041|1.718|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.718|1.041|0.0228
82619621|NCT04593940|164955493|SUPERIORITY||Odds Ratio (OR)|0.904||||0.4994|TWO_SIDED|95.0|0.675|1.211|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.211|0.675|0.4994
82619622|NCT04593940|164955494|SUPERIORITY||Odds Ratio (OR)|0.632||||0.0988|TWO_SIDED|95.0|0.367|1.09|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||1.090|0.367|0.0988
82619623|NCT04593940|164955494|SUPERIORITY||Odds Ratio (OR)|0.552||||0.0354|TWO_SIDED|95.0|0.317|0.96|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||0.960|0.317|0.0354
82619624|NCT04593940|164955494|SUPERIORITY||Odds Ratio (OR)|1.287||||0.4132|TWO_SIDED|95.0|0.703|2.355|||Regression, Logistic|Ordinal logistic regression|Ordinal logistic regression|||2.355|0.703|0.4132
82619625|NCT04593940|164955495|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.1601|TWO_SIDED|95.0|1.0|1.28|||Fine-Gray Proportional Hazards Model|||||1.28|1.00|0.1601
82619626|NCT04593940|164955495|SUPERIORITY||Hazard Ratio (HR)|1.1||||0.355|TWO_SIDED|95.0|0.97|1.24|||Fine-Gray Proportional Hazards Model|||||1.24|0.97|0.3550
82619627|NCT04593940|164955495|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.2386|TWO_SIDED|95.0|0.8|1.07|||Fine-Gray Proportional Hazards Model|||||1.07|0.80|0.2386
82619628|NCT04593940|164955496|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.1519|TWO_SIDED|95.0|0.98|1.26|||Fine-Gray Proportional Hazards Model|||||1.26|0.98|0.1519
82619629|NCT04593940|164955496|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.2605|TWO_SIDED|95.0|0.98|1.26|||Fine-Gray Proportional Hazards Model|||||1.26|0.98|0.2605
82619630|NCT04593940|164955496|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.4359|TWO_SIDED|95.0|0.83|1.13|||Fine-Gray Proportional Hazards Model|||||1.13|0.83|0.4359
82619631|NCT04593940|164955497|SUPERIORITY||Mean Difference (Net)|-0.06||||0.321|TWO_SIDED|95.0|-0.18|0.06|||t-test, 2 sided|||||0.06|-0.18|0.3210
82619632|NCT04593940|164955497|SUPERIORITY||Mean Difference (Net)|0.04||||0.5275|TWO_SIDED|95.0|-0.09|0.17|||t-test, 2 sided|||||0.17|-0.09|0.5275
82619633|NCT04593940|164955497|SUPERIORITY||Mean Difference (Net)|0.0||||0.9993|TWO_SIDED|95.0|-0.15|0.15|||t-test, 2 sided|||||0.15|-0.15|0.9993
82619634|NCT04593940|164955498|SUPERIORITY||Mean Difference (Net)|0.07||||0.4982|TWO_SIDED|95.0|-0.13|0.26|||t-test, 2 sided|||||0.26|-0.13|0.4982
82619635|NCT04593940|164955498|SUPERIORITY||Mean Difference (Net)|0.09||||0.3491|TWO_SIDED|95.0|-0.1|0.29|||t-test, 2 sided|||||0.29|-0.10|0.3491
82619636|NCT04593940|164955498|SUPERIORITY||Mean Difference (Net)|-0.01||||0.902|TWO_SIDED|95.0|-0.25|0.22|||t-test, 2 sided|||||0.22|-0.25|0.9020
82619637|NCT04593940|164955499|SUPERIORITY||Mean Difference (Net)|0.24||||0.0842|TWO_SIDED|95.0|-0.03|0.52|||t-test, 2 sided|||||0.52|-0.03|0.0842
82619638|NCT04593940|164955499|SUPERIORITY||Mean Difference (Net)|0.09||||0.5328|TWO_SIDED|95.0|-0.19|0.37|||t-test, 2 sided|||||0.37|-0.19|0.5328
82619639|NCT04593940|164955499|SUPERIORITY||Mean Difference (Net)|-0.12||||0.4727|TWO_SIDED|95.0|-0.46|0.21|||t-test, 2 sided|||||0.21|-0.46|0.4727
82619640|NCT04593940|164955500|SUPERIORITY||Mean Difference (Net)|0.31||||0.0399|TWO_SIDED|95.0|0.01|0.61|||t-test, 2 sided|||||0.61|0.01|0.0399
82619641|NCT04593940|164955500|SUPERIORITY||Mean Difference (Net)|0.11||||0.4515|TWO_SIDED|95.0|-0.18|0.41|||t-test, 2 sided|||||0.41|-0.18|0.4515
82619642|NCT04593940|164955500|SUPERIORITY||Mean Difference (Net)|-0.07||||0.696|TWO_SIDED|95.0|-0.43|0.29|||t-test, 2 sided|||||0.29|-0.43|0.6960
82619643|NCT04593940|164955501|SUPERIORITY||Mean Difference (Net)|0.26||||0.0903|TWO_SIDED|95.0|-0.04|0.57|||t-test, 2 sided|||||0.57|-0.04|0.0903
82619644|NCT04593940|164955501|SUPERIORITY||Mean Difference (Net)|0.15||||0.348|TWO_SIDED|95.0|-0.16|0.45|||t-test, 2 sided|||||0.45|-0.16|0.3480
82619645|NCT04593940|164955501|SUPERIORITY||Mean Difference (Net)|-0.07||||0.6984|TWO_SIDED|95.0|-0.44|0.29|||t-test, 2 sided|||||0.29|-0.44|0.6984
82660641|NCT02635750|165039106|OTHER||Adjusted gMean ratio(%)|100.82|||||TWO_SIDED|90.0|81.861|124.17|||||Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+don / BI 409306). Intra-individual coefficient of variation (gCV (%)) = 35.8.|"The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||124.17|81.861|
82619646|NCT04593940|164955502|SUPERIORITY||Mean Difference (Net)|0.32||||0.045|TWO_SIDED|95.0|0.01|0.62|||t-test, 2 sided|||||0.62|0.01|0.0450
82619647|NCT04593940|164955502|SUPERIORITY||Mean Difference (Net)|0.19||||0.2462|TWO_SIDED|95.0|-0.13|0.5|||t-test, 2 sided|||||0.50|-0.13|0.2462
82619648|NCT04593940|164955502|SUPERIORITY||Mean Difference (Net)|-0.23||||0.2304|TWO_SIDED|95.0|-0.61|0.15|||t-test, 2 sided|||||0.15|-0.61|0.2304
82619649|NCT04593940|164955503|SUPERIORITY||Mean Difference (Net)|0.35||||0.0313|TWO_SIDED|95.0|0.03|0.66|||t-test, 2 sided|||||0.66|0.03|0.0313
82619650|NCT04593940|164955503|SUPERIORITY||Mean Difference (Net)|0.31||||0.0555|TWO_SIDED|95.0|-0.01|0.63|||t-test, 2 sided|||||0.63|-0.01|0.0555
82619651|NCT04593940|164955503|SUPERIORITY||Mean Difference (Net)|-0.22||||0.271|TWO_SIDED|95.0|-0.6|0.17|||t-test, 2 sided|||||0.17|-0.60|0.2710
82619652|NCT04593940|164955504|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.0|2.0||||||||2.0|-0.0|
82619653|NCT04593940|164955504|SUPERIORITY||Mean Difference (Net)|0.6|||||TWO_SIDED|95.0|-0.5|1.6||||||||1.6|-0.5|
82619654|NCT04593940|164955504|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.8|0.7||||||||0.7|-1.8|
82619655|NCT04593940|164955505|SUPERIORITY||Difference in percentages|29.2|||||TWO_SIDED|95.0|-0.4|53.7||||||||53.7|-0.4|
82619656|NCT04593940|164955505|SUPERIORITY||Difference in percentages|14.0|||||TWO_SIDED|95.0|-14.8|40.0||||||||40.0|-14.8|
82619657|NCT04593940|164955505|SUPERIORITY||Difference in percentages|-5.8|||||TWO_SIDED|95.0|-38.7|26.6||||||||26.6|-38.7|
82619658|NCT04593940|164955506|SUPERIORITY||Mean Difference (Net)|1.2|||||TWO_SIDED|95.0|0.2|2.3||||||||2.3|0.2|
82619659|NCT04593940|164955506|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-0.1|2.0||||||||2.0|-0.1|
82619660|NCT04593940|164955506|SUPERIORITY||Mean Difference (Net)|-0.7|||||TWO_SIDED|95.0|-2.0|0.6||||||||0.6|-2.0|
82619661|NCT04593940|164955507|SUPERIORITY||Difference in percentages|-7.0|||||TWO_SIDED|95.0|-14.0|0.0||||||||0.0|-14.0|
82619662|NCT04593940|164955507|SUPERIORITY||Difference in percentages|-3.9|||||TWO_SIDED|95.0|-11.1|3.4||||||||3.4|-11.1|
82619663|NCT04593940|164955507|SUPERIORITY||Difference in percentages|-1.0|||||TWO_SIDED|95.0|-10.1|8.1||||||||8.1|-10.1|
82619664|NCT04593940|164955508|SUPERIORITY||Mean Difference (Net)|0.9|||||TWO_SIDED|95.0|-0.1|1.8||||||||1.8|-0.1|
82619665|NCT04593940|164955508|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-0.3|1.7||||||||1.7|-0.3|
82619666|NCT04593940|164955508|SUPERIORITY||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-2.0|0.4||||||||0.4|-2.0|
82619667|NCT04593940|164955509|SUPERIORITY||Difference in percentages|-1.1|||||TWO_SIDED|95.0|-5.7|3.5||||||||3.5|-5.7|
82619668|NCT04593940|164955509|SUPERIORITY||Difference in percentages|-1.3|||||TWO_SIDED|95.0|-6.0|3.3||||||||3.3|-6.0|
82619669|NCT04593940|164955509|SUPERIORITY||Difference in percentages|2.2|||||TWO_SIDED|95.0|-3.7|8.0||||||||8.0|-3.7|
82619670|NCT04593940|164955510|SUPERIORITY||Mean Difference (Net)|1.0|||||TWO_SIDED|95.0|0.0|2.0||||||||2.0|-0.0|
82619671|NCT04593940|164955510|SUPERIORITY||Mean Difference (Net)|0.4|||||TWO_SIDED|95.0|-0.7|1.4||||||||1.4|-0.7|
82619672|NCT04593940|164955510|SUPERIORITY||Mean Difference (Net)|-0.1|||||TWO_SIDED|95.0|-1.3|1.1||||||||1.1|-1.3|
82619673|NCT04593940|164955511|SUPERIORITY||Hazard Ratio (HR)|0.878||||0.3169|TWO_SIDED|95.0|0.68|1.133|||Log Rank|||||1.133|0.680|0.3169
82619674|NCT04593940|164955511|SUPERIORITY||Hazard Ratio (HR)|0.863||||0.248|TWO_SIDED|95.0|0.672|1.108|||Log Rank|||||1.108|0.672|0.2480
82619675|NCT04593940|164955511|SUPERIORITY||Hazard Ratio (HR)|1.191||||0.249|TWO_SIDED|95.0|0.885|1.604|||Log Rank|||||1.604|0.885|0.2490
82619676|NCT04593940|164955512|SUPERIORITY||Hazard Ratio (HR)|1.083||||0.5175|TWO_SIDED|95.0|0.85|1.38|||Log Rank|||||1.380|0.850|0.5175
82619677|NCT04593940|164955512|SUPERIORITY||Hazard Ratio (HR)|0.923||||0.5216|TWO_SIDED|95.0|0.722|1.179|||Log Rank|||||1.179|0.722|0.5216
82619678|NCT04593940|164955512|SUPERIORITY||Hazard Ratio (HR)|1.075||||0.6135|TWO_SIDED|95.0|0.812|1.424|||Log Rank|||||1.424|0.812|0.6135
82619679|NCT04593940|164955513|SUPERIORITY||Hazard Ratio (HR)|0.565||||0.3628|TWO_SIDED|95.0|0.165|1.931|||Log Rank|||||1.931|0.165|0.3628
82619680|NCT04593940|164955513|SUPERIORITY||Hazard Ratio (HR)|0.57||||0.3701|TWO_SIDED|95.0|0.167|1.948|||Log Rank|||||1.948|0.167|0.3701
82660642|NCT02635750|165039107|OTHER||Adjusted gMean ratio (%)|100.84|||||TWO_SIDED|90.0|97.584|104.19|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone (BI 409306+don / don). Intra-individual coefficient of variation (gCV (%)) = 4.9.|The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. Abbreviations used: geometric mean (gMean), donepezil (don)||104.19|97.584|
82660643|NCT02635750|165039108|OTHER||Adjusted gMean ratio(%)|113.08|||||TWO_SIDED|90.0|106.41|120.15|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone. (BI 409306+don / don) Intra-individual coefficient of variation (gCV (%)) = 9.0.|"The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||120.15|106.41|
82619681|NCT04593940|164955513|SUPERIORITY||Hazard Ratio (HR)|4.988||||0.0001|TWO_SIDED|95.0|2.211|11.251|||Log Rank|||||11.251|2.211|0.0001
82619682|NCT00127062|164955544|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82492775|NCT01709513|164678307|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-30.4|||<|0.0001|TWO_SIDED|95.0|-36.6|-24.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Alirocumab group was compared to the corresponding active control group using an appropriate contrast statement.||-24.2|-36.6|<0.0001
82619683|NCT00127062|164955544|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||||||>0.05
82619684|NCT02856269|164955545|OTHER|Wilcoxon rank sum tests, X2 tests, Fisher exact tests, Kolmogorov-Smirnov|Cohen's D value|0.8|||||TWO_SIDED||||||||The Cohen's d is calculated after Box-Cox transformation. Small effect \<= 0.2, Medium effect \[0.3, 0.8\]; Large effect \>0.8|||||
82619685|NCT04146467|164955547|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82619686|NCT04146467|164955549|SUPERIORITY||||||<|0.0004|||||||Fisher Exact|||||||<0.0004
82619687|NCT04146467|164955557|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82619688|NCT02198651|164955577|OTHER|||||||0.943|||||||Wald Chi|||||||0.943
82619689|NCT02198651|164955578|OTHER|||||||0.592|||||||Wald Chi|||||||0.592
82619690|NCT02198651|164955579|OTHER|||||||0.688|||||||Wald Chi|||||||0.688
82619691|NCT01146951|164955617|SUPERIORITY_OR_OTHER||Hodges-Lehmann|-26.65||||0.003|TWO_SIDED|90.0|-40.3|-11.8|||Wilcoxon (Mann-Whitney)|||||-11.80|-40.30|0.003
82619692|NCT01146951|164955618|SUPERIORITY_OR_OTHER|||||||0.074|||||||Fisher's exact test|||||||0.074
82619693|NCT01146951|164955619|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-33.3|||<|0.001|TWO_SIDED|90.0|-47.1|-17.0|||Wilcoxon (Mann-Whitney)|||||-17.00|-47.10|<0.001
82619694|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-57.15||||0.025|TWO_SIDED|90.0|-104.5|-17.3|||Wilcoxon (Mann-Whitney)|||Analysis for Partial Seizure Frequency||-17.30|-104.50|0.025
82619695|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-28.65||||0.128|TWO_SIDED|90.0|-72.0|0.9|||Wilcoxon (Mann-Whitney)|||Analysis of atypical absence seizure frequency||0.90|-72.00|0.128
82619696|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-54.35||||0.021|TWO_SIDED|90.0|-126.6|-15.4|||Wilcoxon (Mann-Whitney)|||Analysis for myoclonic seizure frequency||-15.40|-126.60|0.021
82619697|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-23.2||||0.031|TWO_SIDED|90.0|-40.7|-5.6|||Wilcoxon (Mann-Whitney)|||Analysis of tonic seizure frequency||-5.60|-40.70|0.031
82619698|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-71.4||||0.107|TWO_SIDED|90.0|-464.7|30.5|||Wilcoxon (Mann-Whitney)|||Analysis for Tonic-clonic seizure frequency||30.50|-464.70|0.107
82619699|NCT01146951|164955620|SUPERIORITY_OR_OTHER||Hodges-Lehmann method|-52.1||||0.221|TWO_SIDED|90.0|-89.1|10.8|||Wilcoxon (Mann-Whitney)|||Analysis of Atonic seizure frequency||10.80|-89.10|0.221
82619700|NCT01146951|164955621|SUPERIORITY_OR_OTHER|||||||0.041|||||||Wilcoxon (Mann-Whitney)|||Analysis of Week 12 of the Treatment Period||||0.041
82619701|NCT01146951|164955621|SUPERIORITY_OR_OTHER|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||Analysis of final assessment (LOCF)||||0.007
82619702|NCT03224585|164955630|SUPERIORITY|||||||0.0121|||||||Paired samples Wilcoxon test|||This analysis compared the change in pain scores between baseline and 6 hours||||0.0121
82619703|NCT03224585|164955631|SUPERIORITY|||||||0.0025|||||||Paired samples Wilcoxon test|||||||0.0025
82619704|NCT01175213|164955632|SUPERIORITY_OR_OTHER_LEGACY||Poisson|0.02|||<|0.0001|ONE_SIDED|99.0||0.045||Testing the null hypothesis of 1 VASBI/year against a one-sided alternative at the 0.01 level of statistical significance.|Poisson|||||0.045||<0.0001
82619705|NCT01921634|164955656|SUPERIORITY||Odds Ratio (OR)|1.3||||0.01|TWO_SIDED|95.0|1.1|1.7|||McNemar||The odds ratio was generated from a logistic regression model using generalized estimating equations with a logit link and represents a comparison of modified (numerator) vs standard (denominator).|||1.7|1.1|0.01
82619706|NCT03057951|164955657|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.79||||0.0003|TWO_SIDED|95.03|0.69|0.9|||Regression, Cox||Comparison vs. Placebo \[T/P\]|"Cox regression, with terms for treatment, region, baseline status of diabetes, age, sex, left ventricular ejection fraction (LVEF) and glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr) at baseline.~alpha=0.0497 (resulting from interim analysis)."||0.90|0.69|0.0003
82619707|NCT03057951|164955658|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Hazard Ratio (HR)|0.73||||0.0009|TWO_SIDED|95.03|0.61|0.88|||Joint frailty model||Comparison vs. Placebo \[T/P\]|Joint frailty model that accounts for dependence between recurrent HHF and cardiovascular death, with terms for age, baseline eGFR (CKD-EPK)cr, baseline LVEF, region, baseline diabetes status, sex, and treatment. eGFR (CKP-EPI)cr: Glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement LVEF: Left ventricular ejection fraction. alpha=0.0497 (resulting from interim analysis).||0.88|0.61|0.0009
82619708|NCT03057951|164955659|SUPERIORITY|H0: There is no difference between the effect of placebo and the effect of empagliflozin.|Treatment by time interaction|1.363|||<|0.0001|TWO_SIDED|99.9|0.861|1.865|||Random intercept random coeff. model||Empa 10 mg vs. Placebo slope \[/year\]|"Random coefficient model allowing for random intercept and random slope per patient, with factors age, baseline eGFR (CKD-EPI), baseline LVEF as linear covariate(s) and region, baseline diabetes status, sex, baseline-by-time interaction, treatment-by-time interaction and treatment as fixed effects.~Only 'on-treatment' data from treated patients were used. alpha=0.001. covariance structure: Unstructured."||1.865|0.861|<0.0001
82619709|NCT03057951|164955660|OTHER||Hazard Ratio (HR)|0.95||||0.7243|TWO_SIDED|95.0|0.73|1.24|||Regression, Cox||Comparison vs Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.24|0.73|0.7243
82619710|NCT03057951|164955661|OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.6|0.83|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||0.83|0.60|<0.0001
82619711|NCT03057951|164955662|OTHER||Hazard Ratio (HR)|0.91||||0.2951|TWO_SIDED|95.0|0.76|1.09|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.09|0.76|0.2951
82619712|NCT03057951|164955663|OTHER||Hazard Ratio (HR)|1.0||||0.9893|TWO_SIDED|95.0|0.87|1.15|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.15|0.87|0.9893
82619713|NCT03057951|164955664|OTHER||Hazard Ratio (HR)|0.84||||0.1539|TWO_SIDED|95.0|0.65|1.07|||Regression, Cox||Comparison vs. Placebo \[T/P\]|Cox regression model included terms age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula with serum creatinine measurement (eGFR (CKD-EPI)cr), region, baseline diabetes status, sex, baseline Left ventricular ejection fraction (LVEF) and treatment.||1.07|0.65|0.1539
82619714|NCT03057951|164955665|OTHER||Adjusted mean difference|1.32|STANDARD_ERROR_OF_MEAN|0.44||0.0028|TWO_SIDED|95.0|0.45|2.19|||Mixed Model Repeated Measures (MMRM)||Comparison vs Placebo \[T-P\]|"Model includes age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula (eGFR (CKD-EPI)), baseline Left ventricular ejection fraction (LVEF) as linear covariate(s) and region, baseline diabetes status, sex, week reachable, treatment-by-visit interaction, baseline KCCQ-Clinical-Summary-Score-by-visit interaction as fixed effect(s).~Unstructured covariance structure."||2.19|0.45|0.0028
82619715|NCT03057951|164955666|OTHER||Hazard Ratio (HR)|0.93||||0.1012|TWO_SIDED|95.0|0.85|1.01|||Joint frailty model||Comparison vs. Placebo \[T/P\]|Joint frailty model that accounts for the dependence between recurrent all-cause hospitalisation and all-cause mortality was used. Joint frailty model with terms for age, baseline glomerular filtration rate estimated by the chronic kidney disease epidemiology collaboration formula (eGFR (CKD-EPI)), baseline Left ventricular ejection fraction (LVEF), treatment, region, baseline diabetes status and sex.||1.01|0.85|0.1012
82619716|NCT02064205|164955667|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|18.0|STANDARD_DEVIATION|1000.0||0.2918|ONE_SIDED||||||Mixed Models Analysis|||A mixed model was applied to analyze the Energy Intakes (ad libitum lunch and daily) were done one-sided to evaluate the appetite suppressive effect after the pre-load snack (condition C versus D)||||0.2918
82619717|NCT02064205|164955668|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109|||||||Mixed Models Analysis|||AUC of hunger scores before preload intake for condition C versus D.||||0.0109
82619718|NCT02064205|164955669|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0216||||||GLP-1|Mixed Models Analysis|||A mixed model was applied to statistically analyze satiety hormones having Conditions and Time as a fixed factor and having Subject, Cohort, and Treatment Day as random factors.||||0.0216
82619719|NCT02700919|164955670|SUPERIORITY|||||||0.012|||||||Log Rank|||Change from Baseline on Day 7||||0.012
82619720|NCT02700919|164955670|SUPERIORITY||||||<|0.001|||||||Log Rank|||Change from Baseline on Day 7||||<0.001
82619721|NCT02700919|164955670|SUPERIORITY|||||||0.102|||||||Log Rank|||Change from Baseline on Day 7||||0.102
82619722|NCT02700919|164955670|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.507|TWO_SIDED|95.0|-0.053|0.107|||Mixed Models Analysis|||Day 7||0.107|-0.053|0.507
82619723|NCT02700919|164955670|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.148|TWO_SIDED|95.0|-0.021|0.136|||Mixed Models Analysis|||Day 7||0.136|-0.021|0.148
82619724|NCT02700919|164955670|SUPERIORITY||Mean Difference (Final Values)|-0.031||||0.443|TWO_SIDED|95.0|-0.109|0.048|||Mixed Models Analysis|||Day 7||0.048|-0.109|0.443
82619725|NCT02700919|164955674|SUPERIORITY|||||||0.399|||||||Log Rank|||||||0.399
82619726|NCT02700919|164955674|SUPERIORITY|||||||0.091|||||||Log Rank|||||||0.091
82619727|NCT02700919|164955674|SUPERIORITY|||||||0.437|||||||Log Rank|||||||0.437
82619728|NCT02700919|164955678|SUPERIORITY|||||||0.72|||||||Log Rank|||||||0.720
82619729|NCT02700919|164955678|SUPERIORITY|||||||0.298|||||||Log Rank|||||||0.298
82619730|NCT02700919|164955678|SUPERIORITY|||||||0.47|||||||Log Rank|||||||0.470
82619731|NCT00547378|164955691|SUPERIORITY|||||||0.016|||||||Cochran-Mantel-Haenszel|The two-sided Cochran-Mantel-Haenszel (CMH) test, stratified for center, was used to test the difference in responder rates between the 2 groups||||||0.016
82619732|NCT00414960|164955695|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|4.04||0.556|TWO_SIDED|95.0|-10.64|5.83||P-value is for comparison of change from baseline between enzastaurin and placebo group.|2-sample pooled t-test||Using placebo as a reference group, the mean difference = enzastaurin minus placebo.|||5.83|-10.64|0.556
82619733|NCT05291949|164955717|OTHER|Bland-Altman|Bias|0.3|||||TWO_SIDED||||||Bland-Altman||||Lower 95% Limit of agreement (LoA) value = -0.34 Upper 95% LoA = 0.94|||
82619734|NCT00099359|164955736|SUPERIORITY_OR_OTHER|||||||0.046||||||Overall comparison of 3 KM curves using an extension of the M-H test was performed. Results indicated a significant difference therefore a 2nd stage analysis was done to compare each pair of transmission rates, using 2-sample Mantel-Haenzel tests.|multiple comparison|Hochberg's modified Bonferroni method was used to adjust the significance level for comparisons between arms.||||||.046
82619735|NCT00099359|164955737|SUPERIORITY_OR_OTHER|||||||0.0001|||||||Chi-squared|||||||.0001
82619736|NCT00099359|164955738|SUPERIORITY_OR_OTHER|||||||0.2432|||||||multiple comparison|||||||.2432
82619737|NCT00099359|164955739|SUPERIORITY_OR_OTHER|||||||0.49|||||||Chi-squared|||||||0.49
82619738|NCT00099359|164955742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.05|TWO_SIDED|95.0|0.24|1.01|||Regression, Logistic|Adjusted Odds ratio for treatment arm C (ZDV+3TC/NFV) association with Intrapartum Infection Status with Treatment Arm A (ZDV only) as reference group||||1.01|0.24|0.05
82619739|NCT00099359|164955742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.39||||0.01|TWO_SIDED|95.0|0.19|0.82||Adjusted odds ratio for association of treatment arm B (ZDV+NVP) with intrapartum infection status with Treatment Arm A (ZDV only) as reference.|Regression, Logistic|||||0.82|0.19|0.01
82619740|NCT00099359|164955742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.51||||0.03|TWO_SIDED|95.0|1.08|5.86|||Regression, Logistic|"Adjusted odds ratio for association of illegal substance use during pregnancy and intrapartum HIV infection status with NO being reference group."||||5.86|1.08|0.03
82619741|NCT00099359|164955742|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.28|||<|0.0001|TWO_SIDED|95.0|1.56|3.35||Adjusted odds ratio for the association of continuous log10 viral load with intrapartum infection status|Regression, Logistic|||||3.35|1.56|<0.0001
82619742|NCT02104804|164955753|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-0.58|STANDARD_ERROR_OF_MEAN|0.07|<|0.001|TWO_SIDED|95.0|-0.72|-0.45|||ANCOVA|||||-0.45|-0.72|<0.001
82619743|NCT02104804|164955754|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-6133.2|STANDARD_ERROR_OF_MEAN|781.06|<|0.001|TWO_SIDED|95.0|-7668.5|-4597.9|||ANCOVA|||||-4597.9|-7668.5|<0.001
82499440|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|8.67||||90.0|-24.71|3.92|||ANCOVA|||Extension Month 30; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||3.92|-24.71|
82619744|NCT02104804|164955755|SUPERIORITY_OR_OTHER||Difference in Least squares mean|-39.11|STANDARD_ERROR_OF_MEAN|5.24|<|0.001|TWO_SIDED|95.0|-49.41|-28.82|||ANCOVA|||||-28.82|-49.41|<0.001
82619745|NCT02104804|164955756|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.8||||0.002|TWO_SIDED|95.0|3.1|12.6|||Difference in proportions|||||12.6|3.1|0.002
82619746|NCT02104804|164955757|SUPERIORITY_OR_OTHER||Difference in Least Squares Mean|-15.88|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-21.53|-10.22|||ANCOVA|||||-10.22|-21.53|<0.001
82619747|NCT02104804|164955758|SUPERIORITY_OR_OTHER||Difference in Least squares mean|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.43|TWO_SIDED|95.0|-0.44|0.19|||ANCOVA|||||0.19|-0.44|0.430
82619748|NCT04501679|164955759|SUPERIORITY||Strata-adjusted percentage difference|37.4|||<|0.0001|TWO_SIDED|95.0|26.3|48.5||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||48.5|26.3|<0.0001
82619749|NCT04501679|164955760|SUPERIORITY||Strata-adjusted percentage difference|28.5|||<|0.0001|TWO_SIDED|95.0|18.8|38.2||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.2|18.8|<0.0001
82619750|NCT04501679|164955761|SUPERIORITY||Strata-adjusted percentage difference|33.4|||<|0.0001|TWO_SIDED|95.0|24.3|42.4||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||42.4|24.3|<0.0001
82619751|NCT04501679|164955762|SUPERIORITY||Strata-adjusted percentage difference|30.0|||<|0.0001|TWO_SIDED|95.0|21.3|38.6||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||38.6|21.3|<0.0001
82619752|NCT04501679|164955763|SUPERIORITY||Strata-adjusted percentage difference|31.9|||<|0.0001|TWO_SIDED|95.0|20.7|43.2||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel|CMH test using the randomized stratification variables (analysis center and body weight at randomization \[\<90 kg,\>=90 kg\]).|Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||43.2|20.7|<0.0001
82619753|NCT04501679|164955764|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.|Strata-adjusted percentage difference|27.9|||<|0.0001|TWO_SIDED|95.0|18.4|37.5||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|||37.5|18.4|<0.0001
82619754|NCT04501679|164955765|SUPERIORITY||Strata-adjusted percentage difference|18.8|||<|0.0001|TWO_SIDED|95.0|12.0|25.7||A 2-sided p-value was derived from Cochran-Mantel-Haenszel (CMH) test using the randomized stratification variables (analysis center and body weight at randomization \[\< 90 kg, \>= 90 kg\]). Threshold of significance at 0.05.|Cochran-Mantel-Haenszel||Strata adjusted percentage difference was obtained using weighted average of stratum-specific percentage using CMH.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in order the outcome measures were reported and continued when previous outcome measure was statistically significant at two-sided 0.05.||25.7|12.0|<0.0001
82619755|NCT02121756|164955775|OTHER|The sCD14 is measured in pg/ml and the median change is shown in pg/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma sCD14||||||0.822|||||||Regression, Linear|||||||0.8220
82619756|NCT02121756|164955776|OTHER|The sCD163 is measured in ng/ml and the median change is shown in ng/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma sCD163.||||||0.0869|||||||Regression, Linear|||||||0.0869
82619757|NCT02121756|164955777|OTHER|The IL-6 is measured in pg/ml and the median change is shown in pg/ml. the linear regression for the between arm comparison of baseline to week 12 change was performed using log10 transformed plasma IL-6.||||||0.5027|||||||Regression, Linear|||||||0.5027
82619758|NCT02121756|164955778|OTHER|||||||0.4548|||||||Mixed Models Analysis|||||||0.4548
82619759|NCT02121756|164955780|OTHER|||||||0.7556|||||||Mixed Models Analysis|||||||0.7556
82619760|NCT02121756|164955781|OTHER|||||||0.2075|||||||Mixed Models Analysis|||||||0.2075
82619761|NCT02121756|164955782|OTHER|||||||0.0315|||||||Mixed Models Analysis|||||||0.0315
82619762|NCT02121756|164955783|OTHER|||||||0.7376|||||||Mixed Models Analysis|||||||0.7376
82619763|NCT02121756|164955784|OTHER|||||||0.2343|||||||Mixed Models Analysis|||||||0.2343
82619764|NCT02121756|164955785|OTHER|||||||0.7598|||||||Mixed Models Analysis|||||||0.7598
82619765|NCT02121756|164955786|OTHER|||||||0.983|||||||Mixed Models Analysis|||||||0.9830
82619766|NCT02121756|164955787|OTHER|||||||0.3317|||||||Mixed Models Analysis|||||||0.3317
82619767|NCT02121756|164955788|OTHER|||||||0.6121|||||||Mixed Models Analysis|||||||0.6121
82619768|NCT02121756|164955789|OTHER|||||||0.562|||||||Mixed Models Analysis|||||||0.5620
82619769|NCT00547638|164955797|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence is demonstrated if the upper limit of the 95% confidence interval (when subtracting the percentage of DERMABOND PROTAPE successful subjects from the percentage of DERMABOND HVD successful subjects) does not exceed 8%.|Difference in Proportion of Successes|-7.9|||||TWO_SIDED|95.0|-17.7|1.0|||Gart-Nam||The value for the Estimated Parameter is expressed as a percentage and is defined as the difference in the proportion of sucesses between study groups.|||1.0|-17.7|
82619770|NCT00547638|164955798|SUPERIORITY_OR_OTHER|||||||0.457||||||The total mHCS scores are summarized as proportion of subjects with good outcome (total scores of zero) and a comparison of treatment groups by Fisher Exact Test was performed to confirm differences in groups.|Fisher Exact|||||||0.457
82619771|NCT00547638|164955799|SUPERIORITY_OR_OTHER|||||||1||95.0||||Differences between treatment groups in the incidence rate of infection at Day 14 and Day 30 were compared using the Fisher's Exact Test.|Fisher Exact|||||||1.0000
82619772|NCT00547638|164955799|SUPERIORITY_OR_OTHER|||||||1||95.0||||Differences between treatment groups in the incidence rate of infection at Day 30 were compared using the Fisher's Exact Test.|Fisher Exact|||||||1.0000
82619773|NCT00547638|164955800|SUPERIORITY_OR_OTHER|||||||0.188||95.0||||Intent to treat population was analyzed.|Fisher Exact|||||||0.188
82619774|NCT00547638|164955800|SUPERIORITY_OR_OTHER|||||||0.883||95.0||||Intent to treat population was analyzed.|Fisher Exact|||||||0.883
82619775|NCT00547638|164955801|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0000
82619776|NCT03259490|164955803|OTHER||Adjusted gmean ratio T/R (%)|103.06|STANDARD_DEVIATION|5.8|||TWO_SIDED|95.0|100.36|105.83|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.83|100.36|
82619777|NCT03259490|164955804|OTHER||Adjusted gmean ratio T/R (%)|100.35|STANDARD_DEVIATION|9.5|||TWO_SIDED|95.0|96.11|104.77|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.77|96.11|
82619778|NCT03259490|164955805|OTHER||Adjusted gmean ratio T/R (%)|100.31|STANDARD_DEVIATION|8.2|||TWO_SIDED|95.0|96.65|104.1|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.10|96.65|
82619779|NCT03259490|164955806|OTHER||Adjusted gmean ratio T/R (%)|99.95|STANDARD_DEVIATION|12.4|||TWO_SIDED|95.0|94.52|105.7|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.70|94.52|
82619780|NCT03259490|164955807|OTHER||Adjusted gmean ratio T/R (%)|107.78|STANDARD_DEVIATION|11.0|||TWO_SIDED|95.0|102.52|113.31|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||113.31|102.52|
82619781|NCT03259490|164955808|OTHER||Adjusted gmean ratio T/R (%)|97.17|STANDARD_DEVIATION|10.6|||TWO_SIDED|95.0|92.63|101.93|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||101.93|92.63|
82619782|NCT03259490|164955809|OTHER||Adjusted gmean ratio T/R (%)|103.11|STANDARD_DEVIATION|5.9|||TWO_SIDED|95.0|100.38|105.92|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||105.92|100.38|
82619783|NCT03259490|164955810|OTHER||Adjusted gmean ratio T/R (%)|100.17|STANDARD_DEVIATION|10.1|||TWO_SIDED|95.0|95.68|104.86|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||104.86|95.68|
82619784|NCT03259490|164955811|OTHER||Adjusted gmean ratio T/R (%)|97.3|STANDARD_DEVIATION|13.2|||TWO_SIDED|95.0|91.65|103.29|||ANOVA|Analysis of Variance (ANOVA) on the logarithmic scale including effects for 'sequence', 'subjects within sequences', 'period', and 'treatment'.|The standard deviation is actually intra-individual geometric co-efficient of variation (gCV)|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (test/reference) for the endpoints using an acceptance range of 80.00 to 125.00%.||103.29|91.65|
82619785|NCT01963208|164955818|OTHER||Median Difference (Final Values)|-7.06||||0.1788|TWO_SIDED|95.0|-17.44|3.52||The null hypothesis is that there is no difference between the distributions of the two treatment groups with respect to percent change in seizure frequency.|Rank ANCOVA|||||3.52|-17.44|0.1788
82619786|NCT05027516|164955834|SUPERIORITY||Ratio|1.05||||0.1026|TWO_SIDED|95.0|0.55|1.83|||Permutation testing|||||1.83|0.55|0.1026
82619787|NCT05027516|164955835|SUPERIORITY||Ratio|1.12||||1|TWO_SIDED|95.0|0.47|2.19|||Permutation testing|||For aminoglycosides||2.19|0.47|1
82619788|NCT05027516|164955835|SUPERIORITY||Ratio|1.01||||1|TWO_SIDED|95.0|0.69|1.44|||Permutation testing|||For betalactams||1.44|0.69|1
82619789|NCT05027516|164955835|SUPERIORITY||Ratio|3.79||||1|TWO_SIDED|95.0|0.05|20.15|||Permutation testing|||For bacitracin||20.15|0.05|1
82619790|NCT05027516|164955835|SUPERIORITY||Ratio|0.83||||1|TWO_SIDED|95.0|0.0|1.91|||Permutation testing|||For glycopeptides||1.91|0|1
82619791|NCT05027516|164955835|SUPERIORITY||Ratio|1.19||||1|TWO_SIDED|95.0|0.32|3.15|||Permutation testing|||For trimethoprim||3.15|0.32|1
82619792|NCT05027516|164955835|SUPERIORITY||Ratio|2.82||||1|TWO_SIDED|95.0|0.07|14.64|||Permutation testing|||For cationic antimicrobial peptides||14.64|0.07|1
82499441|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.17|STANDARD_ERROR_OF_MEAN|9.24||||90.0|-21.42|9.09|||ANCOVA|||Extension Month 33; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||9.09|-21.42|
82619793|NCT05027516|164955835|SUPERIORITY||Ratio|1.49||||1|TWO_SIDED|95.0|0.0|5.34|||Permutation testing|||For mupirocin||5.34|0|1
82619794|NCT05027516|164955835|SUPERIORITY||Ratio|1.2||||1|TWO_SIDED|95.0|0.0|3.22|||Permutation testing|||For metronidazole||3.22|0|1
82619795|NCT05027516|164955835|SUPERIORITY||Ratio|6.44||||1|TWO_SIDED|95.0|0.02|46.02|||Permutation testing|||For fluoroquinolones||46.02|0.02|1
82619796|NCT05027516|164955835|SUPERIORITY||Ratio|10.6||||1|TWO_SIDED|95.0|0.01|148.86|||Permutation testing|||For sulfonamides||148.86|0.01|1
82619797|NCT05027516|164955835|SUPERIORITY||Ratio|1.01||||0.5621|TWO_SIDED|95.0|0.79|1.27|||Permutation testing|||For tetracyclines||1.27|0.79|0.5621
82619798|NCT05027516|164955836|SUPERIORITY|||||||0.196|||||||Wilcoxon (Mann-Whitney)|||For streptococci||||0.196
82619799|NCT05027516|164955836|SUPERIORITY|||||||0.568|||||||Wilcoxon (Mann-Whitney)|||For streptococci||||0.568
82619800|NCT05027516|164955836|SUPERIORITY|||||||0.978|||||||Wilcoxon (Mann-Whitney)|||For Neisseria||||0.978
82619801|NCT05027516|164955836|SUPERIORITY|||||||0.184|||||||Wilcoxon (Mann-Whitney)|||For Neisseria||||0.184
82619802|NCT02365584|164955842|SUPERIORITY|"The assumptions required for the analysis of covariance (ANCOVA) were to be tested as follows:~* The equality of variances was to verified using the Levene's test. If it was significant AUC values were to be properly transformed.~* The linear relationship of AUC with the basal total score within treatment group was to be tested by a regression analysis.~* The parallelism of the regression lines between groups and the slope non zero value with the appropriate F tests."|Adjusted LS Mean Difference|-11.0|STANDARD_ERROR_OF_MEAN|17.7|=|0.5396|TWO_SIDED|95.0|-47.0|25.0|||ANCOVA|||Analysis of covariance (ANCOVA), where the AUC was the dependent and the independent was the baseline ESAS total score.||25|-47|=0.5396
82619803|NCT01185249|164955852|NON_INFERIORITY_OR_EQUIVALENCE|Null hypothesis-no difference in morning and evening weights on three consecutive days.|Mean Difference (Final Values)|0.62|STANDARD_DEVIATION|3.09|<|0.001|TWO_SIDED|95.0|-0.51306|1.73806|||t-test, 1 sided|||Analysis of within subjects design morning and evening weights. Null hypothesis is that there is no difference between morning and evening weights.||1.73806|-0.51306|<.001
82619804|NCT01185249|164955852|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||t-test, 1 sided|||||||0.01
82619805|NCT02193815|164955856|SUPERIORITY_OR_OTHER||Adjusted Mean Ratio|93.2|STANDARD_ERROR_OF_MEAN|0.075||0.3465|TWO_SIDED|95.0|80.43|107.99|||Mixed Models Analysis|||||107.99|80.43|0.3465
82492776|NCT01709513|164678308|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-35.1|||<|0.0001|TWO_SIDED|95.0|-40.7|-29.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||A hierarchical testing procedure was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 5% level.||-29.5|-40.7|<0.0001
82619806|NCT02193815|164955857|SUPERIORITY_OR_OTHER||Adjusted Mean|165.88|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|143.12|192.25|||Mixed Models Analysis|||||192.25|143.12|<0.0001
82619807|NCT02193815|164955858|SUPERIORITY_OR_OTHER||Adjusted Mean|65.42|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|56.46|75.81|||Mixed Models Analysis|||||75.81|56.46|<0.0001
82619808|NCT02193815|164955859|SUPERIORITY_OR_OTHER||Adjusted Mean|93.04|STANDARD_ERROR_OF_MEAN|0.075||0.3349|TWO_SIDED|95.0|80.3|107.81|||Mixed Models Analysis|||||107.81|80.30|0.3349
82619809|NCT02193815|164955859|SUPERIORITY_OR_OTHER||Adjusted Mean|149.56|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|129.04|173.34|||Mixed Models Analysis|||||173.34|129.04|<0.0001
82619810|NCT02193815|164955859|SUPERIORITY_OR_OTHER||Adjusted Mean|106.51|STANDARD_ERROR_OF_MEAN|0.075||0.3991|TWO_SIDED|95.0|91.92|123.41|||Mixed Models Analysis|||||123.41|91.92|0.3991
82619811|NCT02193815|164955859|SUPERIORITY_OR_OTHER||Adjusted Mean|71.94|STANDARD_ERROR_OF_MEAN|0.075|<|0.0001|TWO_SIDED|95.0|62.08|83.36|||Mixed Models Analysis|||||83.36|62.08|<0.0001
82619812|NCT02193815|164955860|SUPERIORITY_OR_OTHER||Adjusted Mean|96.04|STANDARD_ERROR_OF_MEAN|0.127||0.7529|TWO_SIDED|95.0|74.0|124.64|||Mixed Models Analysis|||||124.64|74.00|0.7529
82619813|NCT02193815|164955860|SUPERIORITY_OR_OTHER||Adjusted Mean|125.62|STANDARD_ERROR_OF_MEAN|0.147||0.1318|TWO_SIDED|95.0|92.96|169.75|||Mixed Models Analysis|||||169.75|92.96|0.1318
82619814|NCT02193815|164955860|SUPERIORITY_OR_OTHER||Adjusted Mean|103.35|STANDARD_ERROR_OF_MEAN|0.129||0.8009|TWO_SIDED|95.0|79.3|134.68|||Mixed Models Analysis|||||134.68|79.30|0.8009
82619815|NCT02193815|164955860|SUPERIORITY_OR_OTHER||Adjusted Mean|81.09|STANDARD_ERROR_OF_MEAN|0.124||0.1012|TWO_SIDED|95.0|62.94|104.47|||Mixed Models Analysis|||||104.47|62.94|0.1012
82619816|NCT00406783|164955871|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82619817|NCT00406783|164955872|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82619818|NCT00838916|164955875|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.04|0.27|||ANCOVA|||||0.27|-0.04|
82619819|NCT00838916|164955875|NON_INFERIORITY_OR_EQUIVALENCE|To test whether the difference of least square means (albiglutide - insulin glargine) is equal to the pre-specified non-inferiority margin of 0.3%||||||0.0086||||||p-value is for non-inferiority testing of albiglutide versus insulin glargine|t-test, 1 sided|||||||0.0086
82619820|NCT00838916|164955875|SUPERIORITY_OR_OTHER|||||||0.1463||||||p-value is for superiority testing of albiglutide versus insulin glargine|t-test, 2 sided|The p-value is from a two-sided t-test to test whether the difference of least square means (albiglutide - insulin glargine) is equal to zero.||||||0.1463
82619821|NCT01927419|164955949|SUPERIORITY||Mean Difference (Final Values)|49.5|||||TWO_SIDED|95.0|31.4|61.8|||Fisher Exact||Difference of ORR||Exact 95% CI for difference in ORR uses Newcombe's method|61.8|31.4|
82619822|NCT01927419|164955949|SUPERIORITY||Odds Ratio (OR)|12.52|||||TWO_SIDED|95.0|3.79|52.55|||Fisher Exact|||||52.55|3.79|
82619823|NCT01927419|164955950|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.21|0.59|||Unstratified Cox proportional hazard||Nivolumab + Ipilimumab over Ipilimumab|||0.59|0.21|
82619824|NCT01927419|164955951|SUPERIORITY||Mean Difference (Final Values)|44.5|||||TWO_SIDED|95.0|8.2|64.8|||Fisher Exact||Difference of ORR||Exact 95% CI for difference in ORR uses Newcombe's method|64.8|8.2|
82619825|NCT01927419|164955951|SUPERIORITY||Odds Ratio (OR)|10.8|||||TWO_SIDED|95.0|1.07|511.89|||Fisher Exact|||||511.89|1.07|
82619826|NCT01927419|164955952|SUPERIORITY||Hazard Ratio (HR)|0.36|||||TWO_SIDED|95.0|0.14|0.97|||Unstratified Cox proportional hazard||Nivolumab + Ipilimumab over Ipilimumab|||0.97|0.14|
82619827|NCT00115765|164955971|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.011||95.0|1.06|1.52|||Regression, Cox|Model covariates were ECOG status, prior chemotherapy, metastatic organs, disease site, oxaliplatin dose \< 85 mg/m2, and oxaliplatin dose \> 100 mg/m2||||1.52|1.06|0.011
82619828|NCT00115765|164955972|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.43||||0.005||95.0|1.11|1.83|||Regression, Cox|Model covariates were ECOG status, prior chemotherapy, metastatic organs, disease site, oxaliplatin dose \< 85 mg/m2, and oxaliplatin dose \> 100 mg/m2||||1.83|1.11|0.005
82619829|NCT00115765|164955976|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.11||||0.738||95.0|0.6|2.05|||Regression, Logistic|Model covariates were ECOG status, prior adjuvant chemotherapy, number of metastatic organs, and primary disease site||||2.05|0.60|0.738
82619830|NCT00115765|164955977|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.42||||0.257||95.0|0.77|2.62|||Regression, Cox|Model covariates were ECOG status, prior adjuvant chemotherapy, number of metastatic organs, and primary disease site||||2.62|0.77|0.257
82619831|NCT00115765|164955979|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.36||||||95.0|1.04|1.77||||||||1.77|1.04|
82619832|NCT00115765|164955980|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||||95.0|0.91|1.71||||||||1.71|0.91|
82619833|NCT00115765|164955981|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.89||||||95.0|1.3|2.75||||||||2.75|1.30|
82619834|NCT00115765|164955982|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||||95.0|0.67|1.54||||||||1.54|0.67|
82619835|NCT00115765|164955983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.28||||||95.0|0.61|2.66||||||||2.66|0.61|
82619836|NCT00115765|164955984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||||95.0|0.28|1.67||||||||1.67|0.28|
82619837|NCT02164513|164955998|SUPERIORITY||Rate ratio|0.75|||<|0.001|TWO_SIDED|95.0|0.7|0.81||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons.|Negative binomial model||Covariates of treatment group, sex, exacerbation history (\<=1, \>=2 moderate/severe), smoking status (Screening), geographical region and post-bronchodilator percent predicted Forced expiratory volume in 1 second (FEV1) (Screening) were used.|||0.81|0.70|<0.001
82619838|NCT02164513|164955998|SUPERIORITY||Rate ratio|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.9||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons|Negative binomial model||Covariates of treatment group, sex, exacerbation history (\<=1, \>=2 moderate/severe), smoking status (Screening), geographical region and post-bronchodilator percent predicted Forced expiratory volume in 1 second (FEV1) (Screening) were used.|||0.90|0.80|<0.001
82619839|NCT02164513|164955999|SUPERIORITY||Mean Difference (Net)|0.097|STANDARD_ERROR_OF_MEAN|0.0061|<|0.001|TWO_SIDED|95.0|0.085|0.109||The adjusted p-value at Week 52 should be compared against a reference level of 0.05 in order to infer statistical significance for the comparison of FF/UMEC/VI versus (vs) FF/VI at Week 52.|Mixed Models Repeated Measures|||||0.109|0.085|<0.001
82619840|NCT02164513|164956000|SUPERIORITY||Mean Difference (Net)|-1.8|STANDARD_ERROR_OF_MEAN|0.34|<|0.001|TWO_SIDED|95.0|-2.4|-1.1||The adjusted p-value at Week 52 should be compared against a reference level of 0.05 in order to infer statistical significance for the comparison of FF/UMEC/VI vs FF/VI at Week 52.|Mixed Models Repeated Measures|||||-1.1|-2.4|<0.001
82619841|NCT02164513|164956001|SUPERIORITY||Hazard Ratio (HR)|0.85|||<|0.001|TWO_SIDED|95.0|0.8|0.91||The adjusted p-values should be compared against a reference level of 0.05 in order to infer statistical significance for either of the comparisons.|Cox proportional hazard model|||||0.91|0.80|<0.001
82619842|NCT02164513|164956001|SUPERIORITY||Hazard Ratio (HR)|0.84|||<|0.001|TWO_SIDED|95.0|0.78|0.91|||Cox proportional hazard model|||||0.91|0.78|<0.001
82619843|NCT02164513|164956002|SUPERIORITY||Rate ratio|0.68|||<|0.001|TWO_SIDED|95.0|0.62|0.75|||Negative binomial Model|||||0.75|0.62|<0.001
82619844|NCT02164513|164956003|SUPERIORITY||Hazard Ratio (HR)|0.77|||<|0.001|TWO_SIDED|95.0|0.7|0.85|||Cox proportional hazard model|||||0.85|0.70|<0.001
82619845|NCT02164513|164956004|SUPERIORITY||Rate Ratio|0.87||||0.064|TWO_SIDED|95.0|0.76|1.01|||Negative binomial model|||||1.01|0.76|0.064
82619846|NCT02164513|164956004|SUPERIORITY||Rate ratio|0.66|||<|0.001|TWO_SIDED|95.0|0.56|0.78|||Negative binomial model|||||0.78|0.56|<0.001
82619847|NCT04095286|164956014|OTHER||Ratio of adjusted geometric mean|1.03|||||TWO_SIDED|90.0|0.96|1.11|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.11|0.96|
82619848|NCT04095286|164956014|OTHER||Ratio of adjusted geometric mean|0.91|||||TWO_SIDED|90.0|0.85|0.98|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||0.98|0.85|
82619849|NCT04095286|164956017|OTHER||Ratio of adjusted geometric mean|1.05|||||TWO_SIDED|90.0|1.02|1.09|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.09|1.02|
82619850|NCT04095286|164956017|OTHER||Ratio of adjusted geometric mean|1.04|||||TWO_SIDED|90.0|1.0|1.08|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.08|1.00|
82619851|NCT04095286|164956018|OTHER||Ratio of adjusted geometric mean|1.05|||||TWO_SIDED|90.0|1.02|1.08|||||Treatment comparison between AMB dispersed in water and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.08|1.02|
82619852|NCT04095286|164956018|OTHER||Ratio of adjusted geometric mean|1.04|||||TWO_SIDED|90.0|1.01|1.07|||||Treatment comparison between AMB oral tablet and reference AMB tablet using ratio of adjusted geometric mean and its corresponding 90% confidence interval has been presented|||1.07|1.01|
82660644|NCT02635750|165039109|OTHER||Adjusted gMean ratio(%)|100.01|||||TWO_SIDED|90.0|89.549|111.68|||||Ratio of BI 409306 25mg with donepezil 10mg and BI 409306 25mg alone (BI 409306+don/ BI 409306). Intra-individual coefficient of variation (gCV(%)) = 18.6.|The statistical model used for the analysis of those endpoints was an analysis of variance (ANOVA) model on the logarithmic scale (natural logarithm). This model included effects accounting for the following sources of variation: 'subjects' and 'treatment'. The effect 'subjects' was considered as random, whereas the other effect was considered as fixed. Abbreviations used: geometric mean (gMean), donepezil (don)||111.68|89.549|
82619853|NCT01511107|164956055|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 10% was used. Non-inferiority can be established by placing a confidence interval on the difference in the proportion of TFs in subjects randomized to the 10 day regimen and the proportion of TFs in subjects randomized to the 5 day regimen, and determining whether the lower 95% confidence bound is greater than -10%.|Difference between proportions|-0.172|STANDARD_DEVIATION|0.039|||TWO_SIDED|95.0|-0.253|-0.091||||||The null hypothesis that amoxicillin-clavulanate 5 days, placebo 5 days (reduced duration) is inferior to amoxicillin-clavulanate 10 days (standard duration) is tested against the alternative that reduced duration treatment is noninferior. Assuming failure rates of 15% and 25% in the standard and reduced duration groups, respectively, a 2-sided significance level of .05 and 10% attrition, it was calculated that 300 participants per group, would provide power of 95% for finding inferiority.||-.091|-.253|
82619854|NCT01511107|164956056|NON_INFERIORITY_OR_EQUIVALENCE|A noninferiority margin of 10% was used. Non-inferiority can be established by placing a confidence interval on the difference in the proportion of TFs in subjects randomized to the 10 day regimen and the proportion of TFs in subjects randomized to the 5 day regimen, and determining whether the lower 95% confidence bound is greater than -10%.|Difference between proportions|-0.096|STANDARD_DEVIATION|0.053|||TWO_SIDED|95.0|-0.209|0.016||||||||.016|-.209|
82619855|NCT01511107|164956057|SUPERIORITY_OR_OTHER|||||||0.45|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are negative for AOM pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.45
82619856|NCT01511107|164956058|SUPERIORITY_OR_OTHER|||||||0.95|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is negative for AOM pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||0.95
82619857|NCT01511107|164956059|SUPERIORITY_OR_OTHER|||||||0.59|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are positive only for one or more susceptible pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.59
82619858|NCT01511107|164956060|SUPERIORITY_OR_OTHER||||||>|0.99|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is positive only for one or more susceptible pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||>0.99
82619859|NCT01511107|164956061|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Logistic|||Null hypothesis: There is no difference between the two groups in the proportion of children whose NP isolates at enrollment are positive for one or more nonsusceptible pathogens for whom the NP culture at day 12-14 yields a nonsusceptible pathogen.||||0.47
82619860|NCT01511107|164956062|SUPERIORITY_OR_OTHER|||||||0.05|||||||Generalized estimating equations|||Null hypothesis: For AOM recurrences with a NP culture at onset that is positive for one or more nonsusceptible pathogens, there is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible pathogen.||||0.05
82619861|NCT01511107|164956063|SUPERIORITY_OR_OTHER|||||||0.58|||||||Regression, Logistic|The p-value is adjusted for the culture result at enrollment.||Null hypothesis: There is no difference in the proportion of subjects whose NP isolates at enrollment are pathogen-negative or positive only for at least one susceptible pathogen who become colonized with penicillin non-susceptible pathogens at any time over the course of follow-up||||0.58
82619862|NCT01511107|164956064|SUPERIORITY_OR_OTHER|||||||0.74|||||||Generalized estimating equations|||Null hypothesis: There is no difference in the proportion of 6 week follow-up, non-illness visits at which a penicillin-nonsusceptible pathogen is recovered.||||0.74
82619863|NCT01511107|164956065|SUPERIORITY_OR_OTHER|||||||0.72|||||||Regression, Logistic|The p-value is adjusted for S pn susceptibility at the index episode.||Null hypothesis: There is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible S pn isolate.||||0.72
82619864|NCT01511107|164956066|SUPERIORITY_OR_OTHER|||||||0.05|||||||Generalized estimating equations|The p-value is adjusted for S pn susceptibility at onset of the AOM recurrence.||||||0.05
82619865|NCT01511107|164956067|SUPERIORITY_OR_OTHER|||||||0.47|||||||Regression, Logistic|The p-value is adjusted for H flu susceptibility at onset of the index episode.||Null hypothesis: There is no difference between the two groups regarding the proportion of NP cultures at Day 12-14 that yield a nonsusceptible H flu isolate.||||0.47
82619866|NCT01511107|164956068|SUPERIORITY_OR_OTHER|||||||0.69|||||||Generalized estimating equations|The p-value is adjusted for H flu susceptibility at onset of the AOM recurrence.||||||0.69
82619867|NCT01511107|164956069|SUPERIORITY_OR_OTHER|||||||0.16|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children followed greater than 60 days having at least one AOM relapse or recurrence within 60 days of enrollment.||||0.16
82619868|NCT01511107|164956070|SUPERIORITY_OR_OTHER|||||||0.32|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children completing the study having at least one AOM relapse or recurrence within the entire respiratory season.||||0.32
82619869|NCT01511107|164956071|SUPERIORITY_OR_OTHER|||||||0.23|||||||Regression, Poisson|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the rate of recurrences/relapses within 60 days of enrollment.||||0.23
82619870|NCT01511107|164956072|SUPERIORITY_OR_OTHER|||||||0.22|||||||Regression, Poisson|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the rate of recurrences/relapses within the entire respiratory season.||||0.22
82619871|NCT01511107|164956073|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Linear|The p-value is adjusted for site \& the stratification variables and for length of follow-up.||Null hypothesis: There is no difference between the two groups in the mean number of days a systemic antibiotic was received during the respiratory season.||||<.001
82619872|NCT01511107|164956074|SUPERIORITY_OR_OTHER|||||||0.07|||||||Generalized estimating equations|The p-value is adjusted for site \& the stratification variables, episode, day of the diary and AOM-SOS score at the episode.||Null hypothesis: There is no difference between the two groups regarding the symptom burden as measured by the respective mean scores over time.||||0.07
82619873|NCT01511107|164956075|SUPERIORITY_OR_OTHER|||||||0.7|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children for whom PDD was reported.||||0.70
82619874|NCT01511107|164956076|SUPERIORITY_OR_OTHER|||||||0.86|||||||Regression, Logistic|The p-value is adjusted for site \& the stratification variables, namely age group \& exposure or nonexposure to ≥3 children for ≥10 hours per week.||Null hypothesis: There is no difference between the two groups in the proportion of children for whom diaper dermatitis was reported.||||0.86
82619875|NCT00975195|164956081|NON_INFERIORITY_OR_EQUIVALENCE|Upper limit of 95% confidence interval (CI) \<1.2 indicates non-inferiority of Fluticasone withdrawal compared with Fluticasone maintenance|Hazard Ratio (HR)|1.058||||0.3497|TWO_SIDED|95.0|0.941|1.189||Two-sided p-value to test superiority of fluticasone maintenance over fluticasone withdrawal if non-inferiority shown.|Chi-squared|Wald's chi-square test|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.189|0.941|0.3497
82619876|NCT00975195|164956082|SUPERIORITY_OR_OTHER||Rate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.06||0.4441|TWO_SIDED|95.0|0.93|1.18|||Regression, Negative Binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.18|0.93|0.4441
82619877|NCT00975195|164956083|SUPERIORITY_OR_OTHER|||||||0.2269|TWO_SIDED||||||Fisher Exact|||||||0.2269
82619878|NCT00975195|164956084|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.0849|TWO_SIDED|95.0|0.975|1.481|||Chi-squared|Wald's chi-square test|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.481|0.975|0.0849
82619879|NCT00975195|164956085|SUPERIORITY_OR_OTHER||Rate ratio|1.15|STANDARD_ERROR_OF_MEAN|0.13||0.2291|TWO_SIDED|95.0|0.92|1.45|||Regression, Negative Binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.45|0.92|0.2291
82619880|NCT00975195|164956086|SUPERIORITY_OR_OTHER|||||||0.2083|TWO_SIDED||||||Fisher Exact|||||||0.2083
82619881|NCT00975195|164956087|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.035||||0.5562|TWO_SIDED|95.0|0.923|1.16|||Chi-squared|||||1.160|0.923|0.5562
82619882|NCT00975195|164956088|SUPERIORITY_OR_OTHER||Rate ratio|1.05|STANDARD_ERROR_OF_MEAN|0.06||0.4342|TWO_SIDED|95.0|0.93|1.18|||Regression, Negative binomial|Adjusted for log time at risk using log link function|Ratio calculated as fluticasone withdrawal divided by fluticasone maintenance|||1.18|0.93|0.4342
82619883|NCT00975195|164956089|SUPERIORITY_OR_OTHER|||||||0.3155|TWO_SIDED||||||Fisher Exact|||||||0.3155
82619884|NCT00975195|164956091|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.0134||0.0014|TWO_SIDED|95.0|-0.069|-0.017|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.017|-0.069|0.0014
82619885|NCT00975195|164956092|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.064|STANDARD_ERROR_OF_MEAN|0.034||0.0632|TWO_SIDED|95.0|-0.004|0.131|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.131|-0.004|0.0632
82619886|NCT00975195|164956093|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.013|STANDARD_ERROR_OF_MEAN|0.055||0.8137|TWO_SIDED|95.0|-0.122|0.096|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.096|-0.122|0.8137
82619887|NCT00975195|164956094|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.53|STANDARD_ERROR_OF_MEAN|3.17||0.2663|TWO_SIDED|95.0|-9.74|2.69|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.69|-9.74|0.2663
82619888|NCT00975195|164956095|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16|STANDARD_ERROR_OF_MEAN|0.06||0.0033|TWO_SIDED|95.0|0.05|0.27|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.27|0.05|0.0033
82619889|NCT00975195|164956096|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.03|STANDARD_ERROR_OF_MEAN|1.499||0.4914|TWO_SIDED|95.0|-3.98|1.91|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||1.91|-3.98|0.4914
82619890|NCT00975195|164956097|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.56|STANDARD_ERROR_OF_MEAN|1.669||0.349|TWO_SIDED|95.0|-4.84|1.71|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||1.71|-4.84|0.3490
82619891|NCT00975195|164956098|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.14|STANDARD_ERROR_OF_MEAN|1.48||0.9262|TWO_SIDED|95.0|-2.77|3.04|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||3.04|-2.77|0.9262
82619892|NCT00975195|164956099|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.64|STANDARD_ERROR_OF_MEAN|1.716||0.1241|TWO_SIDED|95.0|-0.73|6.01|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||6.01|-0.73|0.1241
82619893|NCT00975195|164956100|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.0123|<|0.0001|TWO_SIDED|95.0|-0.073|-0.024|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.024|-0.073|<0.0001
82619894|NCT00975195|164956101|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.044|STANDARD_ERROR_OF_MEAN|0.0255||0.0855|TWO_SIDED|95.0|-0.094|0.006|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||0.006|-0.094|0.0855
82619895|NCT00975195|164956102|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.161|STANDARD_ERROR_OF_MEAN|0.045||0.0004|TWO_SIDED|95.0|-0.249|-0.073|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.073|-0.249|0.0004
82619896|NCT00975195|164956103|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.97|STANDARD_ERROR_OF_MEAN|0.728||0.1838|TWO_SIDED|95.0|-0.46|2.4|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.40|-0.46|0.1838
82619897|NCT00975195|164956104|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.35|STANDARD_ERROR_OF_MEAN|0.702||0.0551|TWO_SIDED|95.0|-0.03|2.72|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.72|-0.03|0.0551
82619898|NCT00975195|164956105|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.6|STANDARD_ERROR_OF_MEAN|0.845||0.4804|TWO_SIDED|95.0|-1.06|2.25|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.25|-1.06|0.4804
82619899|NCT00975195|164956106|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.22|STANDARD_ERROR_OF_MEAN|0.614||0.0467|TWO_SIDED|95.0|0.02|2.43|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||2.43|0.02|0.0467
82619900|NCT00975195|164956107|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11|STANDARD_ERROR_OF_MEAN|0.05||0.0223|TWO_SIDED|95.0|-0.21|-0.02|||Restricted maximum likelihood|Repeated measures restricted maximum likelihood|Difference calculated as fluticasone withdrawal minus fluticasone maintenance|Week 52 visit||-0.02|-0.21|0.0223
82619901|NCT03003403|164956119|SUPERIORITY||Risk Ratio (RR)|1.0||||0.97|TWO_SIDED|95.0|0.82|1.2|||bootstrap resampling|||||1.20|0.82|0.97
82619902|NCT03003403|164956120|SUPERIORITY||Mean Difference (Final Values)|-0.12||||0.83|TWO_SIDED|95.0|-1.24|1.0|||Mixed Models Analysis|||||1.00|-1.24|0.83
82619903|NCT03003403|164956121|SUPERIORITY|Difference in systolic blood pressure change post-baseline comparing intervention to usual care arm at 24 months.|Mean Difference (Final Values)|-1.2||||0.34|TWO_SIDED|95.0|-3.6|1.3|||Mixed Models Analysis|||||1.3|-3.6|0.34
82619904|NCT03003403|164956121|SUPERIORITY|Difference in diastolic blood pressure change post-baseline comparing intervention to usual care arm at 24 months.|Mean Difference (Final Values)|-0.8||||0.323|TWO_SIDED|95.0|-2.4|0.8|||Mixed Models Analysis|||||0.8|-2.4|0.323
82619905|NCT03003403|164956122|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.991|TWO_SIDED|95.0|-0.8|0.8|||Mixed Models Analysis|||||0.8|-0.8|0.991
82619906|NCT01274338|164956123|SUPERIORITY|||||||0.065||||||This design provides at least 80% power at a one sided type I error rate of 0.003.|Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.065
82619907|NCT01274338|164956124|SUPERIORITY|This design will provide 80% power to detect the difference between the two arms at a one-sided type I error rate of 0.022.||||||0.044|||||||Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.044
82619908|NCT01274338|164956126|SUPERIORITY|||||||0.289||||||If low dose Ipi (LIP) vs. HDI is significant for OS at the 2.2% level, then we will compare high dose Ipi (HIP) vs. HDI at the 2.2% level.|Log Rank|Stratified logrank test||This study has a two-step hierarchical approach. In the first step, the low-dose Ipi (LIP) will be compared with HDI. If the low-dose Ipi is significantly better than HDI, then the high-dose Ipi will be compared with HDI as a second step. When comparing the two investigational treatment groups, the primary comparison will be an intent to treat analysis of recurrence free survival (RFS; First Co-primary Endpoint) and overall survival (OS; Second Co-primary Endpoint).||||0.289
82619909|NCT05195359|164956164|SUPERIORITY||||||<|0.0001|||||||ANOVA|Repeated measures ANOVA (Group × Time; app vs control; baseline vs week 12)||||||<0.0001
82619910|NCT05195359|164956165|SUPERIORITY|||||||0.0003|||||||ANOVA|Repeated measures ANOVA (Group × Time; app vs control; baseline vs week 12)||||||0.0003
82619911|NCT05195359|164956166|SUPERIORITY|||||||0.0002|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0002
82619912|NCT05195359|164956167|SUPERIORITY|||||||0.0606|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0606
82619913|NCT05195359|164956168|SUPERIORITY|||||||0.2056|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||SF-12 Physical Wellbeing||||0.2056
82619914|NCT05195359|164956168|SUPERIORITY|||||||0.4186|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6||SF-12 Mental Wellbeing||||0.4186
82619915|NCT05195359|164956169|SUPERIORITY|||||||0.0754|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app users vs control; baseline vs week 6)||||||0.0754
82619916|NCT05195359|164956170|SUPERIORITY|||||||0.0137|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0137
82619917|NCT05195359|164956171|SUPERIORITY|||||||0.0152|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0152
82619918|NCT05195359|164956172|SUPERIORITY|||||||0.8148|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||SF-12 Physical Wellbeing||||0.8148
82619919|NCT05195359|164956172|SUPERIORITY|||||||0.0523|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||SF-12 Mental Wellbeing||||0.0523
82619920|NCT05195359|164956173|SUPERIORITY|||||||0.0729|||||||ANOVA|Repeated measures ANOVA (Group × Time; frequent app vs control; baseline vs week 12)||||||0.0729
82619921|NCT04857593|164956175|OTHER||Mean change in EPDS score|5.4||||0.001|TWO_SIDED||||||t-test, 2 sided|||||||.001
82619922|NCT05458011|164956190|OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|-2.66|-0.95|||ANCOVA|||||-0.95|-2.66|<0.0001
82660645|NCT02635750|165039110|OTHER||Adjusted gMean ratio(%)|98.38|||||TWO_SIDED|90.0|93.413|103.6|||||Ratio of donepezil 5mg with BI 409306 100mg and donepezil 5mg alone (BI 409306+don / don). Intra-individual coefficient of variation (gCV (%)) = 7.7.|"The PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'sequence', 'subjects within sequences', 'periods' and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed.~Abbreviations used: geometric mean (gMean), donepezil (don)"||103.60|93.413|
82660646|NCT00834717|165039145|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.86||||||90.0|92.36|103.69|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.69|92.36|
82660647|NCT00834717|165039146|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.57||||||90.0|82.8|103.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.48|82.80|
82660648|NCT00834717|165039147|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.95||||||90.0|83.11|103.97|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.97|83.11|
82660649|NCT00834522|165039162|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|103.79||||||90.0|99.4|108.37|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.37|99.40|
82660650|NCT00834522|165039163|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|104.37||||||90.0|97.04|112.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.25|97.04|
82660651|NCT00834522|165039164|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|104.22||||||90.0|96.9|112.08|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112.08|96.90|
82660652|NCT04516967|165039165|SUPERIORITY|||||||0.0077|||||||Fisher Exact|||||||0.0077
82660653|NCT04516967|165039166|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82660654|NCT04516967|165039167|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82660655|NCT04516967|165039168|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82660656|NCT04516967|165039169|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82660657|NCT04516967|165039170|SUPERIORITY|||||||0.0008|||||||Fisher Exact|||||||0.0008
82660658|NCT04516967|165039171|SUPERIORITY|||||||0.7175|||||||Fisher Exact|||||||0.7175
82660659|NCT00462228|165039190|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall learning scores.||||0.55
82660660|NCT00462228|165039190|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis:The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R total recall learning scores.||||1.00
82660661|NCT00462228|165039190|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall learning scores.||||0.45
82660662|NCT00462228|165039190|SUPERIORITY_OR_OTHER|||||||0.43||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis:The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R total recall learning scores.||||0.43
82660663|NCT00462228|165039191|SUPERIORITY_OR_OTHER|||||||0.23||95.0||||6 week comparison,alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R delayed recall scores||||0.23
82660664|NCT00462228|165039191|SUPERIORITY_OR_OTHER|||||||0.022||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R delayed recall scores.||||0.022
82660665|NCT00462228|165039191|SUPERIORITY_OR_OTHER|||||||0.06||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R delayed recall scores.||||0.06
82660666|NCT00462228|165039191|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for HVLT-R delayed recall scores.||||0.027
82660667|NCT00462228|165039192|SUPERIORITY_OR_OTHER|||||||1||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part A.||||1.0
82660668|NCT00462228|165039192|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part A.||||0.55
82660669|NCT00462228|165039192|SUPERIORITY_OR_OTHER|||||||0.81||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part A.||||0.81
82660670|NCT00462228|165039192|SUPERIORITY_OR_OTHER|||||||0.57||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part A.||||0.57
82660671|NCT00462228|165039193|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part B.||||0.55
82660672|NCT00462228|165039193|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part B.||||1.0
82619923|NCT05136170|164956236|SUPERIORITY|The following null hypothesis was defined on this endpoint: the proportion of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min at week 4 in cenegermin (rhNGF) was lower or equal than control. The null hypothesis was rejected if the associated primary analysis p-value was lower than 0.025.|Odds Ratio (OR)|8.498||||0.002|TWO_SIDED|95.0|2.165|33.356||P-value of treatment variable from logistic regression model on proportion of patients reaching a value of Schirmer I test (without anesthesia) \>10mm/5min|Regression, Logistic|||Analysis was based on logistic regression model with multiple imputation (MI) under a missing not at random (MNAR) mechanism using retrieve dropouts with proportion of patients reaching a value of Schirmer I test \> 10 mm/5 min at Week 4 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||33.356|2.165|0.002
82619924|NCT05136170|164956237|SUPERIORITY|The following null hypothesis is defined on this endpoint: the change from baseline (reduction) in the global SANDE score at week 12 in cenegermin is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|Adjusted means difference|0.59||||0.89|TWO_SIDED|95.0|-7.801|8.981||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in the global SANDE score.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under a missing not at random (MNAR) mechanism using retrieve dropouts with change from baseline in the global SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline global SANDE score as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||8.981|-7.801|0.890
82619925|NCT05136170|164956238|SUPERIORITY|Analysis was based on logistic regression model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with proportion of patients reaching a value of Schirmer I test \>10 mm/5 min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.|Odds Ratio (OR)|6.648||||0.022|TWO_SIDED|95.0|1.307|33.808|||Regression, Logistic|||This key secondary endpoint was analyzed by means of a logistic regression model with proportion of patients reaching a value of Schirmer I test \>10mm/5min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as fixed effects and site as random effect.||33.808|1.307|0.022
82619926|NCT05136170|164956239|SUPERIORITY||Adjusted means difference|0.221||||0.962|TWO_SIDED|95.0|-8.934|9.377||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for severity at Week 12.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with change from baseline in the severity SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline severity SANDE score as qualitative independent variables.Site was considered as random effects that vary randomly among patients.||9.377|-8.934|0.962
82619927|NCT05136170|164956240|SUPERIORITY||Adjusted means difference|0.164||||0.973|TWO_SIDED|95.0|-9.221|9.549||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for frequency at Week 12.|ANCOVA|||Analysis was based on ANCOVA model with multiple imputation (MI) under missing not at random (MNAR) using retrieve dropouts with change from baseline in the frequency SANDE score at Week 12 as dependent variable, treatment, gender, age class and baseline frequency SANDE score as qualitative independent variables. Site was considered as random effects that vary randomly among patients.||9.549|-9.221|0.973
82619928|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|2.378||||0.52|TWO_SIDED|95.0|-4.869|9.625||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 4|Mixed Model for Repeated Measures|||QoL (Daily Activities) - Week 4||9.625|-4.869|0.52
82619929|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|7.11||||0.073|TWO_SIDED|95.0|-0.653|14.873||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 12.|Mixed Model for Repeated Measures|||QoL (Daily Activities) - Week 12||14.873|-0.653|0.073
82660673|NCT00462228|165039193|SUPERIORITY_OR_OTHER|||||||0.17||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the Trail Making Test Part B.||||0.17
82660674|NCT00462228|165039193|SUPERIORITY_OR_OTHER|||||||0.64||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the Trail Making Test Part B.||||0.64
82660675|NCT00462228|165039194|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R total recall scores.||||0.34
82660676|NCT00462228|165039194|SUPERIORITY_OR_OTHER|||||||1||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVLT-R total recall scores.||||1.0
82660677|NCT00462228|165039194|SUPERIORITY_OR_OTHER|||||||0.54||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for HVLT-R total recall scores.||||0.54
82660678|NCT00462228|165039194|SUPERIORITY_OR_OTHER|||||||0.91||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVLT-R total recall scores.||||0.91
82660679|NCT00462228|165039195|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R delayed recall scores.||||0.34
82619930|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-4.166||||0.317|TWO_SIDED|95.0|-12.322|3.989||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Feelings) at Week 4.|Mixed Model for Repeated Measures|||QoL (Feelings) - Week 4||3.989|-12.322|0.317
82619931|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixedmodel for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall"|LS means difference|1.058||||0.792|TWO_SIDED|95.0|-6.786|8.901||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Feelings) at Week 12.|Mixed Model for Repeated Measures|||QoL (Feelings) - Week 12||8.901|-6.786|0.792
82619932|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM). Analyses included the fixed, categorical effects of treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall. Missing data will be imputed according to the questionnaire manuals"|LS means difference|-3.907||||0.488|TWO_SIDED|95.0|-14.948|7.135||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Work) at Week 4.|Mixed Model for Repeated Measures|||QoL (Work) - Week 4||7.135|-14.948|0.488
82619933|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.284||||0.954|TWO_SIDED|95.0|-9.998|9.431||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Work) at Week 12.|Mixed Model for Repeated Measures|||QoL (Work) - Week 12||9.431|-9.998|0.954
82619934|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEl module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.049||||0.99|TWO_SIDED|95.0|-7.658|7.559||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 4.|Mixed Model for Repeated Measures|||TS (Treatment - in general) - Week 4||7.559|-7.658|0.99
82660680|NCT00462228|165039195|SUPERIORITY_OR_OTHER|||||||0.55||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVMT-R delayed recall scores.||||0.55
82660681|NCT00462228|165039195|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for BVMT-R delayed recall scores.||||0.37
82660682|NCT00462228|165039195|SUPERIORITY_OR_OTHER|||||||0.95||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for BVMT-R delayed recall scores.||||0.95
82660683|NCT00462228|165039196|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Written Score.||||0.75
82660684|NCT00462228|165039196|SUPERIORITY_OR_OTHER|||||||0.51||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Written Score.||||0.51
82619935|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|1.976||||0.582|TWO_SIDED|95.0|-5.065|9.017||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 12.|Mixed Model for Repeated Measures|||TS (Treatment - in general) - Week 12||9.017|-5.065|0.582
82660685|NCT00462228|165039196|SUPERIORITY_OR_OTHER|||||||0.31||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Written Score.||||0.31
82660686|NCT00462228|165039196|SUPERIORITY_OR_OTHER|||||||0.46||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Written Score.||||0.46
82660687|NCT00462228|165039197|SUPERIORITY_OR_OTHER|||||||0.34||95.0||||6 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Oral Score.||||0.34
82619936|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|5.232||||0.125|TWO_SIDED|95.0|-1.457|11.922||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Symptom Bother Module at Week 4.|Mixed Model for Repeated Measures|||Symptom - Bother - Week 4||11.922|-1.457|0.125
82619937|NCT05136170|164956241|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID were provided using least square means at each visit and overall."|LS means difference|-0.156||||0.964|TWO_SIDED|95.0|-6.912|6.6||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL DE Symptom Bother Module at Week 12.|Mixed Model for Repeated Measures|||Symptom - Bother - Week 12||6.6|-6.912|0.964
82619938|NCT05136170|164956242|SUPERIORITY||LS means difference|0.795||||0.102|TWO_SIDED|95.0|-0.157|1.748||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 4.|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 4 was reported."||1.748|-0.157|0.102
82619939|NCT05136170|164956242|SUPERIORITY||LS means difference|-0.051||||0.923|TWO_SIDED|95.0|-1.094|0.991||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 8.|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 8 was reported."||0.991|-1.094|0.923
82619940|NCT05136170|164956242|SUPERIORITY||LS means difference|0.136||||0.787|TWO_SIDED|95.0|-0.849|1.12||P-value of LS means difference between treatments from the MMRM on change from baseline at Week 12|Mixed Model for Repeated Measures|||"Analysis was based on MMRM with Multiple Imputation under missing not at random using retrieve dropouts with change from baseline in TFBUT at each timepoint adjusting by gender, age class, TFBUT scale baseline value, treatment, visit, and treatment by visit interaction. Patient was considered as a random effect and the covariance matrix used was unstructured.~Herein analysis for Week 12 was reported."||1.12|-0.849|0.787
82619941|NCT05136170|164956243|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||<0.001
82619942|NCT05136170|164956243|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 8 (Visit 4) was reported.||||<0.001
82619943|NCT05136170|164956243|SUPERIORITY|||||||0.014||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 12 (Visit 5) was reported.||||0.014
82619944|NCT05136170|164956243|SUPERIORITY|||||||0.095||||||Not statistically significant result. p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 16 (Visit 6) was reported.||||0.095
82619945|NCT05136170|164956244|SUPERIORITY|||||||0.02||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||0.02
82619946|NCT05136170|164956244|SUPERIORITY|||||||0.328||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 8 (Visit 4) was reported.||||0.328
82619947|NCT05136170|164956244|SUPERIORITY|||||||0.287||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 12 (Visit 5) was reported.||||0.287
82619948|NCT05136170|164956244|SUPERIORITY|||||||0.777||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 16 (Visit 6) was reported.||||0.777
82619949|NCT05136170|164956245|SUPERIORITY|||||||0.126||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Week 4 (Visit 3) was reported.||||0.126
82619950|NCT05136170|164956245|SUPERIORITY|||||||0.968||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 8 (Visit 4) was reported.||||0.968
82619951|NCT05136170|164956245|SUPERIORITY|||||||0.613||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 12 (Visit 5) was reported.||||0.613
82619952|NCT05136170|164956245|SUPERIORITY|||||||0.805||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Week 16 (Visit 6) was reported.||||0.805
82619953|NCT05136170|164956246|SUPERIORITY|||||||0.543||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Global score - Week 8 (Visit 4) was reported.||||0.543
82619954|NCT05136170|164956246|SUPERIORITY|||||||0.677||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Global score - Week 12 (Visit 5) was reported.||||0.677
82619955|NCT05136170|164956246|SUPERIORITY|||||||0.914||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global score - Week 16 (Visit 6) was reported.||||0.914
82619956|NCT05136170|164956246|SUPERIORITY|||||||0.874||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Severity - Week 8 (Visit 4) was reported.||||0.874
82619957|NCT05136170|164956246|SUPERIORITY|||||||0.945||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 12 (Visit 5) was reported.||||0.945
82619958|NCT05136170|164956246|SUPERIORITY|||||||0.727||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 16 (Visit 6) was reported.||||0.727
82619959|NCT05136170|164956246|SUPERIORITY|||||||0.342||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 8 (Visit 4) was reported.||||0.342
82619960|NCT05136170|164956246|SUPERIORITY|||||||0.821||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 12 (Visit 5) was reported.||||0.821
82619961|NCT05136170|164956246|SUPERIORITY|||||||0.926||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 16 (Visit 6) was reported.||||0.926
82619962|NCT05136170|164956247|SUPERIORITY|||||||0.0344||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores (SANDE global score) - Week 4 (Visit 3) was reported.||||0.0344
82619963|NCT05136170|164956247|SUPERIORITY|||||||1||||||p-value corresponds to a Fisher's exact test of the comparisons between Cenegermin and Vehicle in all patients.|Fisher Exact|||Herein analysis for NEI score \>= 50% - Week 4 (Visit 3) was reported.||||1
82619964|NCT05136170|164956247|SUPERIORITY|||||||0.0235||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores and/or NEI score \>= 50 - Week 4 (Visit 3) was reported.||||0.0235
82619965|NCT05136170|164956248|SUPERIORITY|||||||0.888||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Impact on Daily Activities) - Week 4 (Visit 3) was reported.||||0.888
82619966|NCT05136170|164956248|SUPERIORITY|||||||0.651||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Impact on Daily Activities) - Week 8 (Visit 4) was reported.||||0.651
82619967|NCT05136170|164956248|SUPERIORITY|||||||0.267||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Daily Activities) - Week 12 (Visit 5) was reported.||||0.267
82619968|NCT05136170|164956248|SUPERIORITY|||||||0.459||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Daily Activities) - Week 16 (Visit 6) was reported.||||0.459
82619969|NCT05136170|164956248|SUPERIORITY|||||||0.192||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 4 was reported.||||0.192
82619970|NCT05136170|164956248|SUPERIORITY|||||||0.568||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 8 was reported.||||0.568
82619971|NCT05136170|164956248|SUPERIORITY|||||||0.871||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 12 was reported.||||0.871
82619972|NCT05136170|164956248|SUPERIORITY|||||||0.85||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for QoL (Emotional Impact due to Dry Eye) - Week 16 was reported.||||0.85
82492777|NCT01709513|164678309|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-31.5|||<|0.0001|TWO_SIDED|95.0|-36.9|-26.1||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-26.1|-36.9|<0.0001
82619973|NCT05136170|164956248|SUPERIORITY|||||||0.364||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 4 was reported.||||0.364
82619974|NCT05136170|164956248|SUPERIORITY|||||||0.646||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 8 was reported.||||0.646
82619975|NCT05136170|164956248|SUPERIORITY|||||||0.739||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 12 was reported.||||0.739
82619976|NCT05136170|164956248|SUPERIORITY|||||||0.664||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for QoL (Impact on Work due to Dry Eye) - Week 16 was reported.||||0.664
82619977|NCT05136170|164956248|SUPERIORITY|||||||0.846||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 4 was reported.||||0.846
82619978|NCT05136170|164956248|SUPERIORITY|||||||0.248||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 8 was reported.||||0.248
82619979|NCT05136170|164956248|SUPERIORITY|||||||0.341||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 12 was reported.||||0.341
82619980|NCT05136170|164956248|SUPERIORITY|||||||0.413||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients|t-test, 2 sided|||Herein analysis for TS (Satisfaction with Effectiveness) - Week 16 was reported.||||0.413
82619981|NCT05136170|164956248|SUPERIORITY|||||||0.927||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 4 was reported.||||0.927
82619982|NCT05136170|164956248|SUPERIORITY|||||||0.914||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 8 was reported.||||0.914
82619983|NCT05136170|164956248|SUPERIORITY|||||||0.564||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 12 was reported.||||0.564
82619984|NCT05136170|164956248|SUPERIORITY|||||||0.489||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for TS (Treatment Bother/Inconvenience) - Week 16 was reported.||||0.489
82619985|NCT05136170|164956248|SUPERIORITY|||||||0.082||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 4||||0.082
82619986|NCT05136170|164956248|SUPERIORITY|||||||0.848||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 8 was reported.||||0.848
82619987|NCT05136170|164956248|SUPERIORITY|||||||0.805||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Symptom-Bother - Week 12 was reported.||||0.805
82619988|NCT05136170|164956248|SUPERIORITY|||||||0.833||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Symptom-Bother - Week 16 was reported.||||0.833
82619989|NCT05136170|164956251|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||<0.001
82619990|NCT05136170|164956252|SUPERIORITY|||||||0.046||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||0.046
82619991|NCT05136170|164956253|SUPERIORITY|||||||0.34||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||||||0.34
82660688|NCT00462228|165039197|SUPERIORITY_OR_OTHER|||||||0.75||95.0||||12 week comparison, alpha = 0.05.|Sign test|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Oral Score.||||0.75
82660689|NCT00462228|165039197|SUPERIORITY_OR_OTHER|||||||0.37||95.0||||6 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 6 weeks for the SDMT Oral Score.||||0.37
82619992|NCT05136170|164956254|SUPERIORITY|||||||0.017||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global Score - Week 2 was reported||||0.017
82619993|NCT05136170|164956254|SUPERIORITY|||||||0.339||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Global Score - Week 4 was reported||||0.339
82619994|NCT05136170|164956254|SUPERIORITY|||||||0.004||||||p-value corresponds to a two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all patients.|t-test, 2 sided|||Herein analysis for Severity - Week 2 was reported.||||0.004
82619995|NCT05136170|164956254|SUPERIORITY|||||||0.292||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Severity - Week 4 was reported.||||0.292
82619996|NCT05136170|164956254|SUPERIORITY|||||||0.09||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 2 was reported.||||0.09
82619997|NCT05136170|164956254|SUPERIORITY|||||||0.54||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all patients.|Wilcoxon (Mann-Whitney)|||Herein analysis for Frequency - Week 4 was reported.||||0.54
82619998|NCT05136170|164956255|SUPERIORITY|||||||0.0064||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores (SANDE global score) was reported.||||0.0064
82619999|NCT05136170|164956255|SUPERIORITY|||||||1||||||p-value corresponds to a Fisher's exact test of the comparisons between Cenegermin and Vehicle in all patients.|Fisher Exact|||Herein analysis for NEI score \>= 50% was reported.||||1
82620000|NCT05136170|164956255|SUPERIORITY|||||||0.0034||||||p-value corresponds to Chi-square test of the comparisons between Cenegermin and Vehicle in all patients.|Chi-squared|||Herein analysis for Worsening in symptom scores and/or NEI score \>= 50 was reported.||||0.0034
82660690|NCT00462228|165039197|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||12 week comparison, alpha = 0.05.|Wilcoxon (Mann-Whitney)|||Null hypothesis: The change from baseline occurring with memantine is equal to the change from baseline occurring with placebo at 12 weeks for the SDMT Oral Score.||||0.45
82660691|NCT00567320|165039198|SUPERIORITY_OR_OTHER_LEGACY|||||||0.84|TWO_SIDED|95.0|||||Mixed Models Analysis|||HLM analysis of % of Cocaine Positive Urines per week over 12 weeks. Subjects were used as a Random variable, with medication dosing set to 'Fixed'.||||0.84
82660692|NCT01175018|165039199|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||||||<0.05
82660693|NCT01175018|165039200|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
82660694|NCT01175018|165039201|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660695|NCT01175018|165039202|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
82660696|NCT01175018|165039203|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Log Rank|||||||<0.05
82660697|NCT01175018|165039204|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660698|NCT01175018|165039205|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
82660699|NCT01175018|165039206|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
82620001|NCT05136170|164956256|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||||||<0.001
82660700|NCT01175018|165039207|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||ANOVA|||||||>0.05
82620002|NCT05168813|164956269|OTHER||Hazard Ratio (HR)|0.58|||<|0.001|TWO_SIDED|95.0|0.44|0.77|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.77|0.44|< .001
82620003|NCT05168813|164956270|OTHER||Hazard Ratio (HR)|0.48||||0.003|TWO_SIDED|95.0|0.29|0.78|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.78|0.29|0.003
82660701|NCT01175018|165039208|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660702|NCT01175018|165039209|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660703|NCT01175018|165039210|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660704|NCT01175018|165039211|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660705|NCT01175018|165039212|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660706|NCT01175018|165039213|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660707|NCT01175018|165039214|SUPERIORITY_OR_OTHER||||||>|0.05|TWO_SIDED||||||Chi-squared|||||||>0.05
82660708|NCT03285594|165039215|SUPERIORITY||Difference in Least Square (LS) Means|-0.45|STANDARD_ERROR_OF_MEAN|0.094|<|0.0001|TWO_SIDED|95.0|-0.638|-0.271|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||-0.271|-0.638|<0.0001
82660709|NCT03285594|165039215|SUPERIORITY||Difference in LS Means|-0.55|STANDARD_ERROR_OF_MEAN|0.081|<|0.0001|TWO_SIDED|95.0|-0.706|-0.387|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||-0.387|-0.706|<0.0001
82660710|NCT03285594|165039216|SUPERIORITY||Difference in LS Means|-15.858|STANDARD_ERROR_OF_MEAN|4.6056||0.0006|TWO_SIDED|95.0|-24.8845|-6.8309|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline FPG as a covariate.||-6.8309|-24.8845|0.0006
82660711|NCT03285594|165039216|SUPERIORITY||Difference in LS Means|-21.832|STANDARD_ERROR_OF_MEAN|4.0514|<|0.0001|TWO_SIDED|95.0|-29.7725|-13.8911|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline FPG as a covariate.||-13.8911|-29.7725|<0.0001
82660712|NCT03285594|165039217|SUPERIORITY||Difference in LS Means|-1.09|STANDARD_ERROR_OF_MEAN|0.32||0.0007|TWO_SIDED|95.0|-1.716|-0.462|||ANCOVA|||The change from baseline to Week 18 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||-0.462|-1.716|0.0007
82660713|NCT03285594|165039217|SUPERIORITY||Difference in LS Means|-1.73|STANDARD_ERROR_OF_MEAN|0.278|<|0.0001|TWO_SIDED|95.0|-2.274|-1.183|||ANCOVA|||The change from baseline to Week 18 is analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||-1.183|-2.274|<0.0001
82660714|NCT03285594|165039218|SUPERIORITY||Difference in LS Means|-3.91|STANDARD_ERROR_OF_MEAN|1.904||0.04|TWO_SIDED|95.0|-7.642|-0.178|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-0.178|-7.642|0.04
82660715|NCT03285594|165039218|SUPERIORITY||Difference in LS Means|-3.83|STANDARD_ERROR_OF_MEAN|1.697||0.0239|TWO_SIDED|95.0|-7.161|-0.507|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-0.507|-7.161|0.0239
82660716|NCT03285594|165039219|SUPERIORITY||Difference in LS Means|-4.94|STANDARD_ERROR_OF_MEAN|1.425|||TWO_SIDED|95.0|-7.73|-2.142||||||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-2.142|-7.73|
82660717|NCT03285594|165039219|SUPERIORITY||Difference in LS Means|-3.89|STANDARD_ERROR_OF_MEAN|1.246||0.0018|TWO_SIDED|95.0|-6.333|-1.448|||ANCOVA|||The change from baseline to Week 12 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline SBP as a covariate.||-1.448|-6.333|0.0018
82620004|NCT05168813|164956271|OTHER||Hazard Ratio (HR)|0.27||||0.056|TWO_SIDED|95.0|0.07|1.04|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.04|0.07|0.056
82620005|NCT05168813|164956272|OTHER||Hazard Ratio (HR)|0.92||||0.449|TWO_SIDED|95.0|0.73|1.15|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.15|0.73|0.449
82620006|NCT05168813|164956273|OTHER||Hazard Ratio (HR)|2.29||||0.23|TWO_SIDED|95.0|0.59|8.87|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||8.87|0.59|0.23
82620007|NCT05168813|164956283|OTHER||Hazard Ratio (HR)|0.56|||<|0.001|TWO_SIDED|95.0|0.43|0.73|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.73|0.43|< .001
82620008|NCT05168813|164956284|OTHER||Hazard Ratio (HR)|0.43|||<|0.001|TWO_SIDED|95.0|0.27|0.68|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.68|0.27|< .001
82620009|NCT05168813|164956285|OTHER||Hazard Ratio (HR)|0.27||||0.02|TWO_SIDED|95.0|0.09|0.82|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||0.82|0.09|0.02
82620010|NCT05168813|164956286|OTHER||Hazard Ratio (HR)|0.86||||0.218|TWO_SIDED|95.0|0.67|1.09|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||1.09|0.67|0.218
82620011|NCT05168813|164956287|OTHER||Hazard Ratio (HR)|1.78||||0.135|TWO_SIDED|95.0|0.84|3.77|||Regression, Cox|Adjusted for variables expected to affect risk of future COVID-19 and evidence of prior SARS-CoV-2 exposure.||||3.77|0.84|0.135
82620012|NCT01708941|164956339|SUPERIORITY|||||||0.49|||||||Log Rank|||The primary comparison was ipilimumab + HDI versus ipilimumab alone, across ipilimumab dose (Arms A \& C versus Arms B \& D)||||0.490
82620013|NCT01708941|164956340|SUPERIORITY|||||||0.144|||||||Log Rank|||PFS comparison of higher dose ipilimumab versus lower dose ipilimumab (Arms A \& B versus Arms C \& D)||||0.144
82620014|NCT01708941|164956341|SUPERIORITY|||||||0.691|||||||Log Rank|||||||0.691
82620015|NCT01708941|164956342|SUPERIORITY|||||||0.868|||||||Log Rank|||Comparison of higher dose ipilimumab versus lower dose ipilimumab across HDI status (Arms A \& B versus Arms C \& D)||||0.868
82620016|NCT02883049|164956358|SUPERIORITY||Hazard Ratio (HR)|1.022||||0.893|TWO_SIDED|95.0|0.74|1.413|||Log Rank||Hazard ratio = hazard rate for Arm B/hazard rate for Arm A|To compare the DFS of the randomized patients on HR B-ALL Arm A vs Arm B. With a total of 1800 patients accrued over 5 years with minimum follow up of 2 years, randomized 1:1 to the 2 arms, we will be able to detect an improvement in 5-year DFS from 90% to 94 (HR=0.5873) between IT MTX and ITT based regimens (2-sided log rank test, alpha=5%), with 84.2% power.||1.413|0.74|0.893
82620017|NCT02883049|164956359|SUPERIORITY||Hazard Ratio (HR)|1.019||||0.556|ONE_SIDED|97.5||1.335|||Log Rank||Hazard ratio = hazard rate for Experimental Arm 1 /hazard rate for Control Arm|To compare the DFS of the randomized patients on Control Arm vs. Experimental Arm 1. This study design will have 86.8% power (1-sided log rank test, adjusted alpha=0.025 for multiple comparisons) to detect an improvement in 4-year DFS from 70% to 79% (HR=0.661) between the control arm and the experimental arm.||1.335||0.556
82620018|NCT06533475|164956378|OTHER||GLSM Ratio|1.018|||||TWO_SIDED|90.0|0.9624|1.076|||||The GLSM ratio was calculated: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.076|0.9624|
82620019|NCT06533475|164956378|OTHER||GLSM Ratio|1.075|||||TWO_SIDED|90.0|1.024|1.13|||||"The GLSM ratio was calculated as:~Minzasolmin Tablet (Fed)/Minzasolmin Tablet (Fasted)."|||1.130|1.024|
82620020|NCT06533475|164956379|OTHER||GLSM Ratio|1.02|||||TWO_SIDED|90.0|0.9649|1.078|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.078|0.9649|
82620021|NCT06533475|164956379|OTHER||GLSM Ratio|1.073|||||TWO_SIDED|90.0|1.021|1.127|||||"The GLSM ratio was calculated as:~Minzasolmin Tablet (Fed)/Minzasolmin Tablet (Fasted)."|||1.127|1.021|
82620022|NCT06533475|164956380|OTHER||GLSM Ratio|0.9771||||||90.0|0.7966|1.199|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fasted)/ Minzasolmin Capsule (Fasted)|||1.199|0.7966|
82620023|NCT06533475|164956380|OTHER||GLSM Ratio|1.016|||||TWO_SIDED|90.0|0.794|1.299|||||The GLSM ratio was calculated as: Minzasolmin tablet (Fed)/ Minzasolmin tablet (Fasted)|||1.299|0.7940|
82620024|NCT06964165|164956384|OTHER||Difference in pre-IDS ORR|-39.0|||||TWO_SIDED|80.0|-56.8|-17.7||||||||-17.7|-56.8|
82620025|NCT01735617|164956414|SUPERIORITY_OR_OTHER||Geometric means|563.38|STANDARD_DEVIATION|162.51|||TWO_SIDED|||||||||The pharmacokinetic profile was characterised by an overnight rise in cortisol levels reaching a maximal concentration approximately 8 hours post dosing.||||
82620026|NCT04570332|164956424|SUPERIORITY||rate %|25.0|||<|0.01|TWO_SIDED|95.0|12.69|41.2|||one-sided test for binomial endpoint|||The null hypothesis was H0: ORR=10% (p0) and was tested against H1: ORR\>10% at one-sided 5% significance level. Assuming an effect size of ORR=25% (pA), 40 participants provided a power of at least 80%. The minimal statistically significant ORR was 20%.||41.20|12.69|<0.01
82620027|NCT05600309|164956430|OTHER||Hazard Ratio (HR)|0.94||||0.3914|TWO_SIDED|95.0|0.59|1.5||One-sided nominal p-value based on log-rank test.|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.50|0.59|0.3914
82660718|NCT03285594|165039220|SUPERIORITY||Difference in LS Means|-0.52|STANDARD_ERROR_OF_MEAN|0.34||0.1265|TWO_SIDED|95.0|-1.185|0.147|||ANCOVA|||The change from baseline to Week 52 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||0.147|-1.185|0.1265
82660719|NCT03285594|165039220|SUPERIORITY||Difference in LS Means|-0.57|STANDARD_ERROR_OF_MEAN|0.32||0.074|TWO_SIDED|95.0|-1.199|0.055|||ANCOVA|||The change from baseline to Week 52 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline HbA1c as a covariate.||0.055|-1.199|0.074
82660720|NCT03285594|165039221|SUPERIORITY||Difference in LS Means|-1.01|STANDARD_ERROR_OF_MEAN|0.868||0.2466|TWO_SIDED|95.0|-2.707|0.696|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||0.696|-2.707|0.2466
82660721|NCT03285594|165039221|SUPERIORITY||Difference in LS Means|-0.65|STANDARD_ERROR_OF_MEAN|0.672||0.332|TWO_SIDED|95.0|-1.969|0.665|||ANCOVA|||The change from baseline to Week 18 was analyzed using an ANCOVA model with treatment groups, randomization strata of HbA1c (≤8.5, \>8.5%) at Week -1, randomization strata of mean SBP (\<130, ≥130 mmHg) at Week -1, randomization strata of sulfonylureas use (yes, no) at Week -1, and country as fixed effects, and baseline body weight as a covariate.||0.665|-1.969|0.332
82660722|NCT02558491|165039224|OTHER|||||||0.045||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.045
82620028|NCT05600309|164956431|OTHER||Hazard Ratio (HR)|1.23||||0.8091|TWO_SIDED|95.0|0.78|1.92||One-sided nominal p-value based on log-rank test.|Log Rank||HR and 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|||1.92|0.78|0.8091
82620029|NCT05600309|164956432|OTHER||Difference in percentage|6.0||||0.0502|TWO_SIDED|95.0|-2.3|16.3||One-sided nominal p-value for testing.|Miettinen & Nurminen Method||Difference in percentage and 95% CI were based on the Miettinen \& Nurminen method.|||16.3|-2.3|0.0502
82620030|NCT05822830|164956440|SUPERIORITY||LS Mean Difference|-6.5|||||TWO_SIDED|95.0|-8.1|-4.9||||||||-4.9|-8.1|
82620031|NCT05822830|164956445|SUPERIORITY||LS Mean Difference|-5.4|||||TWO_SIDED|95.0|-7.1|-3.6||||||||-3.6|-7.1|
82620032|NCT05822830|164956447|SUPERIORITY||LS Mean Difference|-2.6|||||TWO_SIDED|95.0|-3.2|-1.9||||||||-1.9|-3.2|
82620033|NCT05822830|164956448|SUPERIORITY||LS Mean Difference|-6.4|||||TWO_SIDED|95.0|-8.0|-4.7||||||||-4.7|-8.0|
82620034|NCT01586156|164956462|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82620035|NCT01586156|164956463|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82620036|NCT01586156|164956464|OTHER|Pearson's correlation test of association of alprenolol binding changes to dose carvedilol.||||||0.02||||||Correlation of the change in alprenolol binding relative to dose carvedilol.|Pearson|||||||0.02
82620037|NCT01586156|164956465|SUPERIORITY|||||||0.05|||||||ANOVA|||||||0.05
82620038|NCT01586156|164956467|OTHER||||||>|0.05|||||||ANOVA|||||||>0.05
82620039|NCT01586156|164956468|NON_INFERIORITY|Carvedilol did not lead to worse cardiac output as compared to placebo.||||||0.8|||||||ANOVA|||||||0.8
82620040|NCT01244191|164956476|SUPERIORITY||Hazard Ratio (HR)|0.981||||0.8086|TWO_SIDED|95.0|0.841|1.149|||Log Rank||Hazard ratio and the 95% confidence interval from stratified Cox-regression model (adjusting for number of prior therapies, gender, and smoking history).|||1.149|0.841|0.8086
82660723|NCT02558491|165039224|OTHER|||||||0.07||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.07
82620041|NCT05301322|164956490|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for both RSV A and RSV B NTs.|GMR|0.86|||||TWO_SIDED|95.0|0.785|0.951|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|RSV A||0.951|0.785|
82620042|NCT05301322|164956490|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for both RSV A and RSV B NTs.|GMR|0.85|||||TWO_SIDED|95.0|0.766|0.943|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|RSV B||0.943|0.766|
82620043|NCT05301322|164956491|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.86|||||TWO_SIDED|95.0|0.769|0.963|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: H1N1 A/Victoria||0.963|0.769|
82620044|NCT05301322|164956491|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.77|||||TWO_SIDED|95.0|0.68|0.866|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: H3N2 A/Darwin||0.866|0.680|
82620045|NCT05301322|164956491|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.9|||||TWO_SIDED|95.0|0.789|1.019|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: B/Austria||1.019|0.789|
82660724|NCT02558491|165039224|OTHER|||||||0.177||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Primary statistical analysis was performed using the repeated measure ANOVA, with the treatment mode as within subject factor, and type of insulin treatment (pump vs. MDI) as between subject factor. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.177
82660725|NCT02558491|165039225|OTHER|||||||0.042||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test was used. Data were first binned (to ensure minimum count of five per bins) \& w2 statistics was used with expected counts given by standard of care. Based on achieved recruitment, moderate effect size (0.3) was detectable with 80% power, or large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.042
82660726|NCT02558491|165039225|OTHER|||||||0.276||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.276
82660727|NCT02558491|165039226|OTHER|||||||0.026||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.026
82660728|NCT02558491|165039226|OTHER|||||||0.173||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.173
82660729|NCT02558491|165039226|OTHER|||||||0.715||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.715
82660730|NCT02558491|165039227|OTHER|||||||0.036||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.036
82660731|NCT02558491|165039227|OTHER|||||||0.213||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.213
82660732|NCT02558491|165039227|OTHER|||||||0.11||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.110
82660733|NCT02558491|165039228|OTHER|||||||0.018||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.018
82660734|NCT02558491|165039228|OTHER|||||||0.149||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.149
82620046|NCT05301322|164956491|NON_INFERIORITY|Noninferiority was declared if the lower limit of the 2-sided 95% CI for the GMR (Coadministration Group to Sequential-Administration Group) was greater than 0.667 for each of the 4 influenza strains.|GMR|0.87|||||TWO_SIDED|95.0|0.779|0.964|||||GMRs and 2-sided CIs were calculated by exponentiating the mean differences of the logarithms of the titers (Coadministration minus Sequential-Administration) and the corresponding CIs (based on Student's t distribution).|HAI: B/Phuket||0.964|0.779|
82620047|NCT03829332|164956501|OTHER||Hazard Ratio (HR)|0.78||||0.00624|TWO_SIDED|95.0|0.64|0.95|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||Hazards ratio (HR) and 95% confidence interval (CI) were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||0.95|0.64|0.00624
82620048|NCT03829332|164956502|OTHER||Hazard Ratio (HR)|1.1||||0.79744|TWO_SIDED|95.0|0.87|1.39|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by ECOG, region, and baseline PD-L1 status.||HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||1.39|0.87|0.79744
82620049|NCT03829332|164956503|OTHER||Percent Difference|12.8||||0.00037|TWO_SIDED|95.0|5.4|20.1|||Stratified Miettinen & Nurminen|One-sided p-value for testing. H0: difference in percent = 0 versus H1: difference in percent \> 0.||Percent difference and 95% CI were calculated using Miettinen \& Nurminen method stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).||20.1|5.4|0.00037
82620050|NCT03829332|164956506|OTHER|Difference in LS means and 95% CI were calculated using the Constrained longitudinal data analysis (cLDA) model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in Least Square (LS) Means|-3.9||||0.0262|TWO_SIDED|95.0|-7.34|-0.47|||Constrained longitudinal data analysis|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||-0.47|-7.34|0.0262
82620051|NCT03829332|164956507|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-4.5||||0.0461|TWO_SIDED|95.0|-8.91|-0.08||Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.|cLDA model|||||-0.08|-8.91|0.0461
82620052|NCT03829332|164956508|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-1.1||||0.5596|TWO_SIDED|95.0|-4.78|2.59|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||2.59|-4.78|0.5596
82660735|NCT02558491|165039228|OTHER|||||||0.109||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.109
82660736|NCT02558491|165039229|OTHER|||||||0.78||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.78
82620053|NCT03829332|164956509|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-0.88||||0.7088|TWO_SIDED|95.0|-5.49|3.74|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||3.74|-5.49|0.7088
82620054|NCT03829332|164956510|OTHER|Difference in LS means and 95% CI were calculated using the cLDA model with covariates for treatment by study visit interaction \& stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Difference in LS means|-3.01||||0.1116|TWO_SIDED|95.0|-6.71|0.7|||cLDA model|Two-sided p-value based on cLDA model with covariates for treatment by study visit interaction; stratified by ECOG, region \& baseline PDL-1.||||0.70|-6.71|0.1116
82620055|NCT03829332|164956511|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.0||||0.9601|TWO_SIDED|95.0|0.75|1.33|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.33|0.75|0.9601
82620056|NCT03829332|164956512|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|0.61||||0.0079|TWO_SIDED|95.0|0.42|0.88|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||0.88|0.42|0.0079
82620057|NCT03829332|164956513|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.06||||0.7457|TWO_SIDED|95.0|0.73|1.56|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.56|0.73|0.7457
82620058|NCT03829332|164956514|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.04||||0.8122|TWO_SIDED|95.0|0.75|1.44|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.44|0.75|0.8122
82620059|NCT03829332|164956515|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.24||||0.148|TWO_SIDED|95.0|0.92|1.67|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||1.67|0.92|0.1480
82620060|NCT03829332|164956516|OTHER|HR and 95% CI were calculated using Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG performance status (0 versus 1), geographic region of the enrolling site (East Asia versus non-East Asia), and baseline PD-L1 Status (1% to 49% versus \>=50%).|Hazard Ratio (HR)|1.31||||0.4068|TWO_SIDED|95.0|0.7|2.46|||Stratified Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, region and baseline PD-L1 status.||||2.46|0.70|0.4068
82620061|NCT03779334|164956550|SUPERIORITY||||||<|0.0001|||||||Exact Binomial Test|Performance Criterion = 5%||||||<0.0001
82620062|NCT05025787|164956593|SUPERIORITY||model treatment coefficient|-1.774|STANDARD_DEVIATION|0.639||0.006|TWO_SIDED|95.0|-3.033|-0.514||A 95% confidence interval for the treatment coefficient in the linear mixed-effect model was (-3.033, -0.514), where the reference level was the active treatment.|Mixed Models Analysis|||"Null hypothesis is that there was no difference in mean WOMAC-A pain between CNTX-6970 and Placebo. Linear mixed-effect models were used with block, period, sex, age, and KL-grade as covariates and treatment group as factor, with random effects for sites and subjects nested within sites. The test was performed with significance level of 0.05 (two-sided).~Power was computed for effect sizes ranging from 0.25 to 0.50 using Monte Carlo simulation, and exceeded 80%."||-0.514|-3.033|.006
82620063|NCT05127044|164956604|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.81438645|||||TWO_SIDED|||||||||Power calculation located in Study Protocol-Correlation Coefficient-R Value||||
82660737|NCT02558491|165039229|OTHER|||||||0.399||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.399
82620064|NCT05127044|164956604|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.85442277|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
82620065|NCT05127044|164956604|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.0758872|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
82620066|NCT05127044|164956604|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.7929338|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
82620067|NCT05127044|164956604|OTHER|An a priori power analysis was conducted to determine the number of subjects needed to detect a similar strong correlation between the DRS and BiliChek data (α = 0.05, power = 0.8, r0 = 0.7, r1 = 0,85; G\*Power3.1). For this study n = 44 subjects (from Study Protocol).|Multiple R|0.86294585|||||TWO_SIDED|||||||||Power calculation located in Study Protocol||||
82620068|NCT05127044|164956605|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between hemoglobin concentration and weight.|Pearson Correlation Coefficient|-0.2184||||0.1544|TWO_SIDED||||||Linear correlation|||||||0.1544
82620069|NCT05127044|164956605|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between hemoglobin concentration and gestational age.|Pearson Correlation Coefficient|0.3909||||0.0087|||||||Linear correlation|||||||0.0087
82620070|NCT05127044|164956605|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0252||||0.3038|TWO_SIDED||||||Regression, Linear|||||||0.3038
82620071|NCT05127044|164956605|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0213||||0.6434|TWO_SIDED||||||Regression, Linear|||||||0.6434
82620072|NCT05127044|164956605|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0477||||0.1544|TWO_SIDED||||||Regression, Linear|||||||0.1544
82620073|NCT05127044|164956605|OTHER|A simple linear regression model was fitted with hemoglobin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.1528||||0.0087|TWO_SIDED||||||Regression, Linear|||||||0.0087
82620074|NCT05127044|164956606|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between melanin concentration and weight.|Pearson Correlation Coefficient|-0.1552||||0.3143|TWO_SIDED||||||Linear correlation|||||||0.3143
82620075|NCT05127044|164956606|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between melanin concentration and gestational age.|Pearson Correlation Coefficient|-0.0832||||0.5914|TWO_SIDED||||||Linear correlation|||||||0.5914
82620076|NCT05127044|164956606|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.000665||||0.868|TWO_SIDED||||||Regression, Linear|||||||0.868
82620077|NCT05127044|164956606|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.574||||0.0001|TWO_SIDED||||||Regression, Linear|||||||0.0001
82620078|NCT05127044|164956606|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0241||||0.3143|TWO_SIDED||||||Regression, Linear|||||||0.3143
82620079|NCT05127044|164956606|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0069||||0.5914|TWO_SIDED||||||Regression, Linear|||||||0.5914
82660738|NCT02558491|165039229|OTHER|||||||0.824||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.824
82660739|NCT02558491|165039230|OTHER|||||||0.863||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.863
82620080|NCT05127044|164956607|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between bilirubin concentration and weight.|Pearson Correlation Coefficient|-0.0353||||0.8203|TWO_SIDED||||||Linear correlation|||||||0.8203
82620081|NCT05127044|164956607|OTHER|Pearson's correlation coefficient was calculated to assess the relationship between bilirubin concentration and gestational age.|Pearson Correlation Coefficient|0.595||||0.0001|TWO_SIDED||||||Linear correlation|||||||0.0001
82620082|NCT05127044|164956607|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and sex as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.0363||||0.2156|TWO_SIDED||||||Regression, Linear|||||||0.2156
82620083|NCT05127044|164956607|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and ethnicity as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.2172||||0.0066|TWO_SIDED||||||Regression, Linear|||||||0.0066
82620084|NCT05127044|164956607|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and weight as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.00124||||0.8203|TWO_SIDED||||||Regression, Linear|||||||0.8203
82620085|NCT05127044|164956607|OTHER|A simple linear regression model was fitted with melanin concentration as the dependent variable and gestational age as the independent predictor. The strength of the relationship was evaluated using the coefficient of determination (R²).|Coefficient of determination|0.354||||0.0001|TWO_SIDED||||||Regression, Linear|||||||0.0001
82620086|NCT05388656|164956608|OTHER|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82620087|NCT05388656|164956609|OTHER|||||||0.0018|||||||Mixed Models Analysis|||||||0.0018
82620088|NCT05388656|164956610|OTHER|||||||0.0108|||||||Mixed Models Analysis|||||||0.0108
82620089|NCT03201965|164956611|SUPERIORITY||Odds Ratio (OR)|5.13|||<|0.0001|TWO_SIDED|95.0|3.22|8.16|||Cochran-Mantel-Haenszel|||||8.16|3.22|<0.0001
82620090|NCT03589326|164956668|SUPERIORITY||Risk Difference (RD)|0.18|||=|0.0021|TWO_SIDED|95.0|0.06|0.29||P-value is based on CMH chi-square test, with stratification according to randomization strata (age): 18 through \<45 years, ≥45 through \<60 years, and ≥60 years.|Chi-squared||Risk difference and 95% CI: adjusted percent ponatinib - adjusted percent imatinib and its 95% CI.|||0.29|0.06|=0.0021
82620091|NCT05441592|164956682|SUPERIORITY|||||||0.486|||||||Fisher Exact|||||||0.486
82620092|NCT05441592|164956684|SUPERIORITY|||||||0.234|||||||Fisher Exact|||||||0.234
82620093|NCT05757427|164956716|OTHER|"The sample size is calculated solely for the first primary endpoint, no minimal number of benign nor malignant lesions was set.~The sample size is calculated for this trial design, assuming a p1 = 75% and p0 = 60% for power (1-beta) of 80%, and an alpha level of 5%.~We will conclude that the Wavelia # 2 Microwave Breast Imaging system is effective in detecting breast lesions if more than 43 of the 62 subjects' lesions are detected."|Proportion of detected lesions|90.32|||||TWO_SIDED|95.0|80.45|95.49||||||||95.49|80.45|
82620094|NCT05757427|164956718|OTHER|The percentage of malignant and benign breast lesions correctly detected by Wavelia MWBI on patients that did not have a biopsy clip marking the lesion position in the breast, will be presented with 95% confidence interval.|Proportion of detected lesions|88.24|||||TWO_SIDED|95.0|65.66|96.71||||||||96.71|65.66|
82620095|NCT05757427|164956719|OTHER||Proportion of patients with AEs|5.48|||||TWO_SIDED|||||||||||||
82620096|NCT04971785|164956722|SUPERIORITY||Difference in percentages|5.7||||0.2289|TWO_SIDED|95.0|-3.6|14.9|||Stratified Mantel-Haenszel test||Percentage difference and 95% confidence interval (CI) between each pair of treatment groups were from stratified Mantel-Haenszel test with baseline diabetes status and baseline enhanced liver fibrosis (ELF) category as stratification factors.|||14.9|-3.6|0.2289
82620097|NCT04971785|164956723|SUPERIORITY||Difference in percentages|-1.8||||0.6959|TWO_SIDED|95.0|-11.1|7.4|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented were from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||7.4|-11.1|0.6959
82620098|NCT04971785|164956724|SUPERIORITY||Difference in percentages|35.7|||<|0.0001|TWO_SIDED|95.0|18.8|52.6|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented are from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||52.6|18.8|<0.0001
82620099|NCT04971785|164956725|SUPERIORITY||Difference in percentages|26.1||||0.0006|TWO_SIDED|95.0|11.3|40.9|||Stratified Mantel-Haenszel test||Percentage difference and 95% CI between each pair of treatment groups presented were from stratified Mantel-Haenszel test with baseline diabetes status and baseline ELF category as stratification factors.|||40.9|11.3|0.0006
82620100|NCT01251861|164956726|SUPERIORITY|||||||0.28||||||one-sided|Fisher Exact|||||||0.28
82620101|NCT01251861|164956735|OTHER|The association between PSA response (responder vs non-responder) and Gleason score (\<7, 7 vs. \>7) was evaluated by logistic regression with adjustment for treatment assignment.||||||0.5||||||p-value based on logistic regression with adjustment for treatment assignment|Regression, Logistic|||The association between PSA response (responder vs non-responder) and Gleason score (\<7, 7 vs. \>7) was evaluated by logistic regression with adjustment for treatment assignment.||||0.50
82620102|NCT01251861|164956736|OTHER|The association between PSA response (responder vs non-responder) and prior hormonal therapy (yes vs. no) was evaluated by logistic regression with adjustment for treatment assignment.||||||0.28||||||p-value based on logistic regression with adjustment for treatment assignment|Regression, Logistic|||The association between PSA response (responder vs non-responder) and prior hormonal therapy (yes vs. no) was evaluated by logistic regression with adjustment for treatment assignment.||||0.28
82620103|NCT02598661|164956745|SUPERIORITY||Percentage Difference|24.8|||<|0.001|TWO_SIDED|95.0|9.9|36.89||The p-value was calculated based on Cochran-Mantel-Haenszel (CMH) controlling for prior RBC transfusion burden (≤6 versus\[vs.\]\>6 units RBC) \& international prognostic scoring system (IPSS) risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||The 95% CI was calculated based on the Wilson Score method.|||36.89|9.90|<0.001
82620104|NCT02598661|164956747|SUPERIORITY||Percentage Difference|24.6|||<|0.001|TWO_SIDED|95.0|12.64|34.18||The p-value was calculated based on CMH controlling for prior RBC transfusion burden (≤6 vs. \>6 units RBC) and IPSS risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||The 95% CI was calculated based on the Wilson Score method.|||34.18|12.64|<0.001
82620105|NCT02598661|164956750|SUPERIORITY||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.105|0.586||The p-value (2-sided) was calculated using the stratified log-rank test for superiority of imetelstat sodium versus placebo in hazard ratio.|Log Rank||Hazard ratio and 95% CI were calculated using the Cox proportional hazard model, stratified by prior RBC transfusion burden (≤ 6 vs. \> 6 units RBC) and IPSS risk group (low vs. intermediate-1), with treatment as the only covariate.|||0.586|0.105|<0.001
82620106|NCT02598661|164956751|SUPERIORITY||Percentage Difference|11.9||||0.112|TWO_SIDED|95.0|-4.1|27.56||The p-value was calculated based on CMH controlling for prior RBC transfusion burden (≤ 6 vs. \> 6 units RBC) and IPSS risk group (low vs. intermediate-1) applied to randomization.|Cochran-Mantel-Haenszel||95% CI was calculated based on the Wilson Score Method.|||27.56|-4.10|0.112
82620107|NCT02598661|164956754|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.949|TWO_SIDED|95.0|0.526|1.823||P value (two-sided) for superiority of imetelstat sodium versus placebo in hazard ratio was calculated using stratified log-rank test.|Log Rank||Hazard ratio and 95% CI were calculated from the Cox proportional hazard model, stratified by prior RBC transfusion burden (≤6 vs. \>6 units RBC) and IPSS risk group (low vs. intermediate-1), with treatment as the only covariate.|||1.823|0.526|0.949
82620108|NCT01746940|164956800|SUPERIORITY_OR_OTHER|||||||0.1088||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||0.1088
82620109|NCT01746940|164956800|SUPERIORITY_OR_OTHER|||||||0.0005||||||One-sided p-value|Fisher Exact|||The null hypothesis is that the proportions of treatment group successes are equal.||||0.0005
82620110|NCT00781963|164956815|SUPERIORITY||Mean Difference (Final Values)|-15.8|STANDARD_ERROR_OF_MEAN|6.6|<|0.001|TWO_SIDED|95.0|-28.7|-3.0|||Mixed Models Analysis||The parameter estimate is the improvement in sleep onset latency from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-3.0|-28.7|<.001
82620111|NCT00781963|164956816|SUPERIORITY||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|8.2||0.21|TWO_SIDED|95.0|-26.3|5.9|||Mixed Models Analysis||The parameter estimate is the improvement in wake after sleep onset from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||5.9|-26.3|0.21
82620112|NCT00781963|164956817|SUPERIORITY||Mean Difference (Final Values)|-37.0|STANDARD_ERROR_OF_MEAN|12.9||0.004|TWO_SIDED|95.0|-62.2|-11.7|||Mixed Models Analysis||The parameter estimate is the improvement in total wake time from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-11.7|-62.2|0.004
82620113|NCT00781963|164956818|SUPERIORITY||Mean Difference (Final Values)|6.7|STANDARD_ERROR_OF_MEAN|2.36||0.005|TWO_SIDED|95.0|2.0|11.3|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||11.3|2.0|.005
82620114|NCT00781963|164956819|SUPERIORITY||Mean Difference (Final Values)|-1.4|STANDARD_ERROR_OF_MEAN|0.97||0.15|TWO_SIDED|95.0|-3.3|0.5|||Mixed Models Analysis||The parameter estimate is the improvement in sleep efficiency (from wrist actigraphy) from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||0.5|-3.3|0.15
82620115|NCT00781963|164956820|SUPERIORITY||Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|0.55|<|0.001|TWO_SIDED|95.0|-3.5|-1.3|||Mixed Models Analysis||The parameter estimate is the improvement in PSQI score from baseline to 6-month follow-up for CBT-I group versus the same improvement in the control group.|||-1.3|-3.5|<.001
82620116|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.27|||<|0.001|TWO_SIDED|95.0|-16.54|-12.01||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-12.01|-16.54|<0.001
82620117|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.16|||<|0.001|TWO_SIDED|95.0|-15.41|-10.91||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-10.91|-15.41|<0.001
82620118|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.54||||0.009|TWO_SIDED|95.0|-4.44|-0.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.64|-4.44|0.009
82620119|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.31|||<|0.001|TWO_SIDED|95.0|-6.25|-2.37||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.37|-6.25|<0.001
82620120|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43||||0.136|TWO_SIDED|95.0|-3.31|0.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||0.45|-3.31|0.136
82660740|NCT02558491|165039230|OTHER|||||||0.965||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.965
82620121|NCT00696436|164956825|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.2||||0.001|TWO_SIDED|95.0|-5.12|-1.27||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-1.27|-5.12|0.001
82620122|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||<|0.001|TWO_SIDED|95.0|-18.07|-11.76||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-11.76|-18.07|<0.001
82620123|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.55|||<|0.001|TWO_SIDED|95.0|-17.71|-11.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-11.40|-17.71|<0.001
82620124|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.54||||0.008|TWO_SIDED|95.0|-6.17|-0.92||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.92|-6.17|0.008
82620125|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.43|||<|0.001|TWO_SIDED|95.0|-8.09|-2.78||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.78|-8.09|<0.001
82620126|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.18||||0.018|TWO_SIDED|95.0|-5.81|-0.55||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-0.55|-5.81|0.018
82620127|NCT00696436|164956826|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.07|||<|0.001|TWO_SIDED|95.0|-7.73|-2.42||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented. Overall 0.05 level of significance for multiple comparisons was controlled using stepwise testing procedure.|ANCOVA|||||-2.42|-7.73|<0.001
82620128|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.36|||<|0.001|TWO_SIDED|95.0|-10.91|-7.81||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.81|-10.91|<0.001
82620129|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.58|||<|0.001|TWO_SIDED|95.0|-10.12|-7.04||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.04|-10.12|<0.001
82620130|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.011|TWO_SIDED|95.0|-2.99|-0.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.40|-2.99|0.011
82620131|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.35|||<|0.001|TWO_SIDED|95.0|-3.67|-1.02||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.02|-3.67|<0.001
82620132|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.91||||0.166|TWO_SIDED|95.0|-2.19|0.38||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.38|-2.19|0.166
82620133|NCT00696436|164956827|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.56||||0.02|TWO_SIDED|95.0|-2.88|-0.24||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.24|-2.88|0.020
82620134|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.51|||<|0.001|TWO_SIDED|95.0|-9.33|-5.69||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.69|-9.33|<0.001
82620135|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.21|||<|0.001|TWO_SIDED|95.0|-8.03|-4.39||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-4.39|-8.03|<0.001
82620136|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.18||||0.005|TWO_SIDED|95.0|-3.69|-0.67||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.67|-3.69|0.005
82620137|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.17|||<|0.001|TWO_SIDED|95.0|-4.69|-1.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.64|-4.69|<0.001
82620138|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.87||||0.257|TWO_SIDED|95.0|-2.39|0.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.64|-2.39|0.257
82620139|NCT00696436|164956828|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.86||||0.017|TWO_SIDED|95.0|-3.39|-0.33||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.33|-3.39|0.017
82620140|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-14.92|||<|0.001|TWO_SIDED|95.0|-17.3|-12.54||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-12.54|-17.30|<0.001
82620141|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.63|||<|0.001|TWO_SIDED|95.0|-15.99|-11.27||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-11.27|-15.99|<0.001
82620142|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.86||||0.005|TWO_SIDED|95.0|-4.85|-0.87||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.87|-4.85|0.005
82620143|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.76|||<|0.001|TWO_SIDED|95.0|-6.8|-2.73||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-2.73|-6.80|<0.001
82620144|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.57||||0.119|TWO_SIDED|95.0|-3.55|0.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.40|-3.55|0.119
82620145|NCT00696436|164956829|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.47|||<|0.001|TWO_SIDED|95.0|-5.49|-1.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.45|-5.49|<0.001
82620146|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.81|||<|0.001|TWO_SIDED|95.0|-11.48|-8.13||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-8.13|-11.48|<0.001
82620147|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.96|||<|0.001|TWO_SIDED|95.0|-10.63|-7.3||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.30|-10.63|<0.001
82620148|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.99||||0.006|TWO_SIDED|95.0|-3.39|-0.58||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.58|-3.39|0.006
82620149|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.57|||<|0.001|TWO_SIDED|95.0|-4.0|-1.14||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.14|-4.00|<0.001
82620150|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.14||||0.107|TWO_SIDED|95.0|-2.53|0.25||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.25|-2.53|0.107
82620151|NCT00696436|164956830|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.73||||0.017|TWO_SIDED|95.0|-3.15|-0.3||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.30|-3.15|0.017
82620152|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.0|||<|0.001|TWO_SIDED|95.0|-15.56|-10.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-10.45|-15.56|<0.001
82620153|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.97|||<|0.001|TWO_SIDED|95.0|-14.51|-9.43||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-9.43|-14.51|<0.001
82660741|NCT02558491|165039230|OTHER|||||||0.742||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.742
82620154|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.42||||0.194|TWO_SIDED|95.0|-3.56|0.72||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.72|-3.56|0.194
82620155|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.65||||0.001|TWO_SIDED|95.0|-5.84|-1.46||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.46|-5.84|0.001
82620156|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39||||0.72|TWO_SIDED|95.0|-2.51|1.73||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.73|-2.51|0.720
82620157|NCT00696436|164956831|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.62||||0.018|TWO_SIDED|95.0|-4.79|-0.45||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.45|-4.79|0.018
82620158|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.64|||<|0.001|TWO_SIDED|95.0|-10.42|-6.87||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-6.87|-10.42|<0.001
82620159|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.75|||<|0.001|TWO_SIDED|95.0|-9.52|-5.99||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.99|-9.52|<0.001
82620160|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72||||0.341|TWO_SIDED|95.0|-2.21|0.77||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.77|-2.21|0.341
82660742|NCT02558491|165039231|OTHER|||||||0.158||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.158
82660743|NCT02558491|165039231|OTHER|||||||0.085||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.085
82620161|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.28||||0.003|TWO_SIDED|95.0|-3.8|-0.76||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.76|-3.80|0.003
82620162|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.821|TWO_SIDED|95.0|-1.3|1.64||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.64|-1.30|0.821
82620163|NCT00696436|164956832|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.39||||0.071|TWO_SIDED|95.0|-2.89|0.12||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.12|-2.89|0.071
82620164|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.45|||<|0.001|TWO_SIDED|95.0|-17.96|-12.94||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-12.94|-17.96|<0.001
82620165|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.93|||<|0.001|TWO_SIDED|95.0|-16.42|-11.43||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-11.43|-16.42|<0.001
82620166|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.002|TWO_SIDED|95.0|-5.42|-1.22||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.22|-5.42|0.002
82620167|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.11|||<|0.001|TWO_SIDED|95.0|-7.26|-2.97||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-2.97|-7.26|<0.001
82620168|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.8||||0.091|TWO_SIDED|95.0|-3.88|0.29||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.29|-3.88|0.091
82620169|NCT00696436|164956833|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.59|||<|0.001|TWO_SIDED|95.0|-5.72|-1.46||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.46|-5.72|<0.001
82620170|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.14|||<|0.001|TWO_SIDED|95.0|-11.92|-8.36||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-8.36|-11.92|<0.001
82620171|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.17|||<|0.001|TWO_SIDED|95.0|-10.94|-7.4||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-7.40|-10.94|<0.001
82620172|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.31||||0.002|TWO_SIDED|95.0|-3.81|-0.82||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.82|-3.81|0.002
82620173|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71|||<|0.001|TWO_SIDED|95.0|-4.24|-1.19||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.19|-4.24|<0.001
82620174|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.34||||0.076|TWO_SIDED|95.0|-2.82|0.14||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.14|-2.82|0.076
82620175|NCT00696436|164956834|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74||||0.024|TWO_SIDED|95.0|-3.25|-0.22||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.22|-3.25|0.024
82620176|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-12.84|||<|0.001|TWO_SIDED|95.0|-15.66|-10.02||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-10.02|-15.66|<0.001
82620177|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.91|||<|0.001|TWO_SIDED|95.0|-14.72|-9.11||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-9.11|-14.72|<0.001
82620178|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.74||||0.149|TWO_SIDED|95.0|-4.1|0.62||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||0.62|-4.10|0.149
82620179|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.24|||<|0.001|TWO_SIDED|95.0|-6.65|-1.83||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-1.83|-6.65|<0.001
82620180|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.82||||0.494|TWO_SIDED|95.0|-3.16|1.53||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.53|-3.16|0.494
82620181|NCT00696436|164956835|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.32||||0.007|TWO_SIDED|95.0|-5.72|-0.93||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.93|-5.72|0.007
82620182|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.91|||<|0.001|TWO_SIDED|95.0|-10.03|-5.79||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.79|-10.03|<0.001
82620183|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.99|||<|0.001|TWO_SIDED|95.0|-10.1|-5.88||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-5.88|-10.10|<0.001
82620184|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.36||||0.691|TWO_SIDED|95.0|-2.14|1.42||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.42|-2.14|0.691
82620185|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.39||||0.01|TWO_SIDED|95.0|-4.2|-0.57||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.57|-4.20|0.010
82620186|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44||||0.625|TWO_SIDED|95.0|-2.2|1.32||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||1.32|-2.20|0.625
82660744|NCT02558491|165039231|OTHER|||||||0.055||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.055
82620187|NCT00696436|164956836|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.46||||0.008|TWO_SIDED|95.0|-4.27|-0.66||Postbaseline P-value was from ANCOVA with treatment as a factor and baseline value as a covariate. Unadjusted p-value was presented.|ANCOVA|||||-0.66|-4.27|0.008
82620188|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.98|||<|0.001|TWO_SIDED|95.0|3.15|7.88||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.88|3.15|<0.001
82620189|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.66|||<|0.001|TWO_SIDED|95.0|2.94|7.37||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.37|2.94|<0.001
82620190|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.45||||0.032|TWO_SIDED|95.0|1.03|2.03||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.03|1.03|0.032
82620191|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.029|TWO_SIDED|95.0|1.04|2.06||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.06|1.04|0.029
82620192|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.35||||0.08|TWO_SIDED|95.0|0.96|1.89||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.89|0.96|0.080
82620193|NCT00696436|164956837|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.37||||0.071|TWO_SIDED|95.0|0.97|1.92||P-value for response criteria for systolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.92|0.97|0.071
82620194|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.29|||<|0.001|TWO_SIDED|95.0|2.1|5.15||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||5.15|2.10|<0.001
82620195|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.91|||<|0.001|TWO_SIDED|95.0|1.86|4.54||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||4.54|1.86|<0.001
82620196|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.306|TWO_SIDED|95.0|0.83|1.8||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.80|0.83|0.306
82620197|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.34||||0.132|TWO_SIDED|95.0|0.92|1.97||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.97|0.92|0.132
82620198|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.08||||0.695|TWO_SIDED|95.0|0.74|1.58||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.58|0.74|0.695
82620199|NCT00696436|164956838|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.381|TWO_SIDED|95.0|0.81|1.74||P-value for response criteria for diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic diastolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.74|0.81|0.381
82620200|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.18|||<|0.001|TWO_SIDED|95.0|3.2|8.41||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||8.41|3.20|<0.001
82620201|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.43|||<|0.001|TWO_SIDED|95.0|2.73|7.19||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||7.19|2.73|<0.001
82620202|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.39||||0.056|TWO_SIDED|95.0|0.99|1.94||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.94|0.99|0.056
82620203|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.44||||0.036|TWO_SIDED|95.0|1.02|2.02||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||2.02|1.02|0.036
82620204|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.19||||0.317|TWO_SIDED|95.0|0.85|1.66||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.66|0.85|0.317
82620205|NCT00696436|164956839|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.23||||0.234|TWO_SIDED|95.0|0.87|1.73||P-value for joint response criteria for systolic blood pressure and diastolic blood pressure was from a logistic regression with treatment as a factor and baseline clinic systolic blood pressure as a covariate. The unadjusted p-value was presented.|Regression, Logistic|||||1.73|0.87|0.234
82620206|NCT01517412|164956858|NON_INFERIORITY_OR_EQUIVALENCE|A step-down procedure was used to control the type I error: non-inferiority of lixisenatide prior to the main meal of the day versus lixisenatide prior to breakfast was tested first. If non-inferiority was established, then a test of superiority of lixisenatide prior to the main meal of the day over lixisenatide prior to breakfast was to be performed. The non-inferiority was assessed using upper bound of 2-sided 95% CI at a level of ≤0.4%.|Least square (LS) mean difference|0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|95.0|-0.067|0.242|||||Lixisenatide Main Meal vs Lixisenatide Breakfast|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0%, ≥8.0%), randomization strata of main meal of the day and country as fixed effects and baseline HbA1c value as a covariate.||0.242|-0.067|
82660745|NCT02558491|165039232|OTHER|||||||0.744||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.744
82660746|NCT02558491|165039232|OTHER|||||||0.248||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.248
82660747|NCT02558491|165039232|OTHER|||||||0.225||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|Wilcoxon (Mann-Whitney)|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.225
82660748|NCT02558491|165039233|OTHER|||||||0.86||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.86
82660749|NCT02558491|165039233|OTHER|||||||0.522||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for mealtime.||||0.522
82660750|NCT02558491|165039233|OTHER|||||||0.522||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overnight.||||0.522
82660751|NCT02558491|165039234|OTHER|||||||0.301||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.301
82660752|NCT02558491|165039235|OTHER|||||||0.189||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.189
82660753|NCT02558491|165039236|OTHER|||||||0.271||||||No a priori sample size was determined due to the feasibility/pilot nature of the trial. Significance level was set at P-value \<0.05.|ANOVA|||Secondary analysis followed the same format unless variables could not be considered normally distributed; in that case a related samples Wilcoxon signed-rank test is used. Data were first binned (to ensure minimum count of five per bins) and the w2 statistics was used with the expected counts given by SoC. Based on achieved recruitment, a moderate effect size (0.3) is detectable with 80% power, or a large effect size (0.4) with 95% power (G-Power 3.1.9.2). Outcome measurement was for overall.||||0.271
82660754|NCT00834431|165039237|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.0||||||90.0|85.9|98.6|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.6|85.9|
82660755|NCT00834431|165039238|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.6||||||90.0|96.2|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|96.2|
82660756|NCT00834431|165039239|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.7||||||90.0|96.3|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|96.3|
82660757|NCT03733444|165039242|SUPERIORITY||Least Squares (LS) Mean difference|2.8|STANDARD_ERROR_OF_MEAN|25.29||0.9123|TWO_SIDED|95.0|-46.9|52.4||P-value was based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||52.4|-46.9|0.9123
82660758|NCT03733444|165039242|SUPERIORITY||LS Mean difference|1.7|STANDARD_ERROR_OF_MEAN|25.01||0.9456|TWO_SIDED|95.0|-47.4|50.8||P-value was based on random coefficient regression model (linear slope model) on FVC values.|Coefficient Regression Model|Treatment effect was determined by using estimated slopes for each treatment group on basis of time-by-treatment interaction term from mixed model.||||50.8|-47.4|0.9456
82660759|NCT03733444|165039243|SUPERIORITY||Odds Ratio (OR)|1.15||||0.5162|TWO_SIDED|95.0|0.76|1.74|||Regression, Logistic|||||1.74|0.76|0.5162
82660760|NCT03733444|165039243|SUPERIORITY||Odds Ratio (OR)|1.07||||0.7566|TWO_SIDED|95.0|0.71|1.62|||Regression, Logistic|||||1.62|0.71|0.7566
82660761|NCT03733444|165039244|SUPERIORITY||Hazard Ratio (HR)|2.15|||||TWO_SIDED|95.0|1.2|3.85|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first respiratory-related hospitalization.|||3.85|1.20|
82620207|NCT01517412|164956858|SUPERIORITY_OR_OTHER||LS Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.079||0.2664|TWO_SIDED|||||Threshold for significance at 0.05 level.|ANCOVA||Lixisenatide Main Meal vs Lixisenatide Breakfast|Analysis was performed using analysis of covariance (ANCOVA) model with treatment groups, randomization strata of screening HbA1c (\<8.0%, ≥8.0%), randomization strata of main meal of the day and country as fixed effects and baseline HbA1c value as a covariate. A step-down procedure was used to control the type I error. The superiority was assessed by comparing the p-value at significance level = 0.05.||||0.2664
82620208|NCT02062463|164956868|OTHER||Odds Ratio (OR)|3.77|||<|0.001|TWO_SIDED|95.0|2.05|6.95||Threshold for significance at 0.05 level.|Chi-squared|||Analysis was performed using a conditional logistic regression model.||6.95|2.05|<0.001
82620209|NCT02062463|164956869|OTHER||Odds Ratio (OR)|1.26||||0.316|TWO_SIDED|95.0|0.8|1.98||Threshold for significance at 0.05 level.|Chi-squared|||Analysis was performed using a conditional logistic regression model.||1.98|0.80|0.316
82620210|NCT03353753|164956898|SUPERIORITY||Hazard Ratio, log|0.15|||<|0.0001|TWO_SIDED|95.0|0.09|0.25||Two-sided P-value|Log Rank|Strata: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)|Ripretinib: Placebo; based on stratified Cox Proportional Hazards Regression Model using randomization stratification factors \[prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)\]|||0.25|0.09|<0.0001
82620211|NCT03353753|164956899|SUPERIORITY|||||||0.0504||||||Two-sided P-value|Fisher Exact|||||||0.0504
82660762|NCT03733444|165039244|SUPERIORITY||Hazard Ratio (HR)|1.69|||||TWO_SIDED|95.0|0.93|3.1|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first respiratory-related hospitalization.|||3.10|0.93|
82660763|NCT03733444|165039245|SUPERIORITY||LS Mean difference|-0.1||||0.937|TWO_SIDED|95.0|-3.2|3.0||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|Mixed Models Analysis|||||3.0|-3.2|0.9370
82620212|NCT03353753|164956901|SUPERIORITY||Hazard Ratio (HR)|0.36||||0.0004|TWO_SIDED|95.0|0.21|0.62||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR and OS.|Log Rank|Strata: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)|Ripretinib: Placebo; based on stratified Cox Proportional Hazards Regression Model using randomization stratification factors \[prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)\]|||0.62|0.21|0.0004
82620213|NCT03353753|164956902|SUPERIORITY|||||||0.001||||||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR, OS, and QOL.|ANCOVA|Factors: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)||||||0.001
82660764|NCT03733444|165039245|SUPERIORITY||LS Mean difference|-0.4||||0.8064|TWO_SIDED|95.0|-3.4|2.7||LS mean difference (95% CI) per treatment group with treatment, time (categorical), treatment-by-time interaction, stratum and baseline SGRQ total score as fixed effects and participant as random effect.|Mixed Models Analysis|||||2.7|-3.4|0.8064
82660765|NCT03733444|165039246|SUPERIORITY||LS Mean difference|2.9|STANDARD_ERROR_OF_MEAN|23.39|||TWO_SIDED|95.0|-41.1|46.8|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||46.8|-41.1|
82660766|NCT03733444|165039246|SUPERIORITY||LS Mean difference|8.0|STANDARD_ERROR_OF_MEAN|22.16|||TWO_SIDED|95.0|-35.5|51.5|||||The treatment effect was determined by using estimated slopes for each study group on the basis of the time-by-treatment interaction term from the mixed model.|||51.5|-35.5|
82660767|NCT03733444|165039247|SUPERIORITY||Odds Ratio (OR)|1.32|||||TWO_SIDED|95.0|0.9|1.94|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.94|0.90|
82660768|NCT03733444|165039247|SUPERIORITY||Odds Ratio (OR)|1.06|||||TWO_SIDED|95.0|0.72|1.56|||||Odds ratio and 95% confidence interval originated from a logistic regression.|||1.56|0.72|
82660769|NCT03733444|165039248|SUPERIORITY||LS Mean difference|0.9|||||TWO_SIDED|95.0|-12.4|14.1|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||14.1|-12.4|
82620214|NCT03353753|164956903|SUPERIORITY|||||||0.004||||||Not evaluated for statistical significance as a result of the sequential testing procedure for the secondary endpoints of ORR, OS, and QOL.|ANCOVA|Factors: prior lines of therapy (3 versus ≥4); ECOG (0 versus 1 or 2)||||||0.004
82620215|NCT03353753|164956904|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||0.004
82620216|NCT04124692|164956926|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82620217|NCT04124692|164956927|SUPERIORITY||||||=|0.0043|||||||Fisher Exact|||||||= 0.0043
82620218|NCT04124692|164956927|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82660770|NCT03733444|165039248|SUPERIORITY||LS Mean difference|3.6|||||TWO_SIDED|95.0|-10.4|17.6|||||The treatment effect was determined by using estimated least square mean difference between each active treatment group and placebo from the mixed model.|||17.6|-10.4|
82660771|NCT03733444|165039249|SUPERIORITY||Hazard Ratio (HR)|1.54|||||TWO_SIDED|95.0|1.01|2.35|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause hospitalization.|||2.35|1.01|
82660772|NCT03733444|165039249|SUPERIORITY||Hazard Ratio (HR)|1.4|||||TWO_SIDED|95.0|0.91|2.16|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to all cause hospitalization.|||2.16|0.91|
82660773|NCT03733444|165039252|SUPERIORITY||Hazard Ratio (HR)|2.92|||||TWO_SIDED|95.0|1.04|8.14|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||8.14|1.04|
82620219|NCT00205699|164956989|SUPERIORITY||||||<|0.0001||||||The p value refers to the time by treatment condition interaction. The a priori threshold for statistical significance in this planned primary test was p\<0.05.|Mixed Models Analysis|||Primary analysis for change in DEXA % fat used a likelihood-based mixed-effects model using time (0, 6 and 12 weeks) and medication group as independent variables, with Toeplitz covariance structure specified, based on Bayesian information criteria (BIC). The null hypotheses were that there was no difference in the outcome over time (main effect of time) and that there were no differences between groups in the change over time (time by treatment condition).||||<0.0001
82620220|NCT00205699|164956990|SUPERIORITY|||||||0.07|||||||ANCOVA|||||||0.07
82620221|NCT00205699|164956991|SUPERIORITY|||||||0.27|||||||ANCOVA|||||||0.27
82620222|NCT00205699|164956992|SUPERIORITY|||||||0.17|||||||ANCOVA|||||||0.17
82620223|NCT00205699|164956993|SUPERIORITY|||||||0.29|||||||ANCOVA|||||||0.29
82620224|NCT00205699|164956994|SUPERIORITY||||||<|0.003|||||||ANCOVA|||Repeated measures ANCOVA was used to test for the main effect of time on the outcome, and to test for a time by treatment condition interaction that would indicate differences between groups in change over time in the primary outcome. The null hypotheses were that there was no difference in the outcome over time (main effect of time) and that there were no differences between groups in the change over time (time by treatment condition).||||<0.003
82620225|NCT00205699|164956994|SUPERIORITY|||||||0.003||||||Bonferroni correction for multiple comparisons was applied (p\<0.05/4 = 0.0125).|Contrast|Contrasts based on the ANCOVA-derived time by treatment condition interaction.||||||0.003
82620226|NCT00205699|164956994|SUPERIORITY|||||||0.002||||||Bonferroni correction for multiple comparisons was applied (p\<0.05/4 = 0.0125).|ANCOVA|Contrasts based on the ANCOVA-derived time by treatment condition interaction.||||||0.002
82620227|NCT02928380|164957024|OTHER||Least square (LS) mean difference|-0.02||||0.0987|TWO_SIDED|95.0|-0.05|0.0|||ANOVA|ANOVA Model with weight of the peanut particle (food occlusion) as response variable, treatment and period as fixed effect.|Difference is first named treatment minus second named treatment is such that a negative difference favors the first named treatment.|H0: The mean mass of food particles retrieved from using a marketed denture adhesive with a flat ribbon nozzle is no different from using no adhesive H01: The mean mass of food particles retrieved from using a marketed denture adhesive with a flat ribbon nozzle is different from using no adhesive.||0.00|-0.05|0.0987
82620228|NCT02093234|164957126|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82620229|NCT02093234|164957127|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82620230|NCT02093234|164957128|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82620231|NCT02093234|164957129|SUPERIORITY_OR_OTHER|||||||0.02|||||||Wilcoxon signed rank|||||||0.02
82620232|NCT01231607|164957146|SUPERIORITY_OR_OTHER||Least-squares (LS) mean difference|22.0||||0.046|TWO_SIDED|98.33|-4.4|48.4|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.02 mg LS mean minus the placebo LS mean.|||48.4|-4.4|0.046
82620233|NCT01231607|164957146|SUPERIORITY_OR_OTHER||LS mean difference|67.9|||<|0.001|TWO_SIDED|98.33|41.6|94.2|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.1 mg LS mean minus the placebo LS mean.|||94.2|41.6|<0.001
82620234|NCT01231607|164957146|SUPERIORITY_OR_OTHER||LS mean difference|94.4|||<|0.001|TWO_SIDED|98.33|67.8|121.0|||General linear model|Each dose of dutasteride independently analyzed for comparison against placebo using a general linear model.|Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the dutasteride 0.5 mg LS mean minus the placebo LS mean.|||121.0|67.8|<0.001
82620235|NCT01231607|164957146|SUPERIORITY_OR_OTHER||Least squares mean difference|61.4|||<|0.001|TWO_SIDED|98.33|34.4|88.4|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the placebo LS mean.|||88.4|34.4|<0.001
82620236|NCT01231607|164957146|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|-39.4|||<|0.001||99.165|-66.1|-12.7|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.02 mg LS mean.|||-12.7|-66.1|<0.001
82620237|NCT01231607|164957146|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|6.5||||0.28||99.165|-20.1|33.1|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.1 mg LS mean.|||33.1|-20.1|0.28
82620238|NCT01231607|164957146|NON_INFERIORITY_OR_EQUIVALENCE|Differences between dutasteride (DUT) and finasteride (FIN) were assessed using a general linear model (GLM) adjusted for treatment, cluster, and BL hair count (HC). The one-sided 99.165% confidence interval (CI) for DUT minus FIN was derived, and noninferiority (NI) demonstrated if the lower end of the CI was greater than -35 hairs. If NI was achieved with a dose of DUT, the primary endpoint was to be analyzed for superiority against FIN using a GLM adjusted for treatment, cluster, and BL HC.|Least squares mean difference|33.0||||0.002||99.165|6.1|60.0|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.5 mg LS mean.|||60|6.1|0.002
82660774|NCT03733444|165039252|SUPERIORITY||Hazard Ratio (HR)|1.68|||||TWO_SIDED|95.0|0.55|5.13|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first acute IPF exacerbation.|||5.13|0.55|
82660775|NCT03733444|165039253|SUPERIORITY||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.06|4.82|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.82|1.06|
82660776|NCT03733444|165039253|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|95.0|0.86|4.06|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality or hospitalization for non-elective lung transplant.|||4.06|0.86|
82660777|NCT03733444|165039254|SUPERIORITY||Hazard Ratio (HR)|2.27|||||TWO_SIDED|95.0|1.06|4.82|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.82|1.06|
82660778|NCT03733444|165039254|SUPERIORITY||Hazard Ratio (HR)|1.87|||||TWO_SIDED|95.0|0.86|4.06|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all cause mortality, hospitalization for non-elective lung transplant or hospitalization for qualifying for lung transplant.|||4.06|0.86|
82660779|NCT03733444|165039255|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|1.2|3.31|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||3.31|1.20|
82660780|NCT03733444|165039255|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.88|2.54|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or hospitalization that meets \>=10% absolute decline in %FVC or respiratory-related hospitalization.|||2.54|0.88|
82660781|NCT03733444|165039256|SUPERIORITY||Hazard Ratio (HR)|1.99|||||TWO_SIDED|95.0|1.2|3.31|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or respiratory-related hospitalizations.|||3.31|1.20|
82660782|NCT03733444|165039256|SUPERIORITY||Hazard Ratio (HR)|1.49|||||TWO_SIDED|95.0|0.88|2.54|||||Hazard ratio and 95% confidence interval originated from a Cox proportional hazards model for time to first all-cause mortality or respiratory-related hospitalizations.|||2.54|0.88|
82660783|NCT00835263|165039303|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.23||||||90.0|100.78|105.73|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.73|100.78|
82620239|NCT01231607|164957146|SUPERIORITY_OR_OTHER||Least squares mean difference|-39.4|||<|0.001|TWO_SIDED|98.33|-66.1|-12.7|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.02 mg LS mean.|||-12.7|-66.1|<0.001
82620240|NCT01231607|164957146|SUPERIORITY_OR_OTHER||Least squares mean difference|6.5||||0.56|TWO_SIDED|98.33|-20.1|33.1|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.1 mg LS mean.|||33.1|-20.1|0.56
82660784|NCT00835263|165039304|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.31||||||90.0|100.75|105.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.93|100.75|
82660785|NCT00835263|165039305|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|102.14||||||90.0|100.06|104.26|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.26|100.06|
82660786|NCT01020474|165039313|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.66||||0.121|TWO_SIDED|95.0|-1.51|0.18||Missing data for week 15 mean pain score are imputed based on distribution of baseline pain scores if participants discontinue due to adverse events/ abnormal laboratory test results or lack of efficacy.|ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||0.18|-1.51|0.121
82660787|NCT01020474|165039314|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.18||||0.655|TWO_SIDED|95.0|-1.0|0.63|||ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||0.63|-1.00|0.655
82660788|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.07||||0.842|TWO_SIDED|95.0|-0.75|0.61|||Mixed Models Analysis|||Statistical analysis of Week 1.||0.61|-0.75|0.842
82660789|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63||||0.07|TWO_SIDED|95.0|-1.32|0.05|||Mixed Models Analysis|||Statistical analysis of Week 2||0.05|-1.32|0.070
82660790|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.83||||0.019|TWO_SIDED|95.0|-1.51|-0.14|||Mixed Models Analysis|||Statistical analysis of Week 3.||-0.14|-1.51|0.019
82660791|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.011|TWO_SIDED|95.0|-1.59|-0.21|||Mixed Models Analysis|||Statistical analysis of Week 4.||-0.21|-1.59|0.011
82660792|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.68||||0.056|TWO_SIDED|95.0|-1.38|0.02|||Mixed Models Analysis|||Statistical analysis of Week 5.||0.02|-1.38|0.056
82660793|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.96||||0.008|TWO_SIDED|95.0|-1.66|-0.26|||Mixed Models Analysis|||Statistical analysis of Week 6.||-0.26|-1.66|0.008
82660794|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.89||||0.013|TWO_SIDED|95.0|-1.6|-0.19|||Mixed Models Analysis|||Statistical analysis of Week 7.||-0.19|-1.60|0.013
82660795|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.06||||0.004|TWO_SIDED|95.0|-1.77|-0.35|||Mixed Models Analysis|||Statistical analysis of Week 8.||-0.35|-1.77|0.004
82660796|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.95||||0.009|TWO_SIDED|95.0|-1.67|-0.24|||Mixed Models Analysis|||Statistical analysis of Week 9.||-0.24|-1.67|0.009
82620241|NCT01231607|164957146|SUPERIORITY_OR_OTHER||Least squares mean difference|33.0||||0.003|TWO_SIDED|98.33|6.1|60.0|||General linear model||Estimates are based on the adjusted (least-squares) means from the general linear model: Change from Baseline = Treatment + Cluster + Baseline Value. The estimation value represents the finasteride 1 mg LS mean minus the Dutasteride 0.5 mg LS mean.|||60|6.1|0.003
82620242|NCT01677507|164957163|OTHER||Mean Difference (Final Values)|2.8||||0.0001|TWO_SIDED|95.0|2.4|3.3|||t-test, 2 sided|Actually these are 2 sided paired t-tests.||Right Eye treated vs. untreated||3.3|2.4|0.0001
82620243|NCT01677507|164957163|OTHER||Mean Difference (Final Values)|2.8||||0.0001|TWO_SIDED|95.0|2.5|3.2|||t-test, 2 sided|paired t-test, 2 sided||Left Eye treated vs. untreated||3.2|2.5|0.0001
82620244|NCT01677507|164957163|OTHER||Mean Difference (Final Values)|3.0||||0.0001|TWO_SIDED|95.0|2.5|3.4|||t-test, 2 sided|paired t-test, 2 sided||Right Eye treated vs. untreated||3.4|2.5|0.0001
82620245|NCT01677507|164957163|OTHER||Mean Difference (Final Values)|2.9||||0.0001|TWO_SIDED|95.0|2.5|3.3|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||3.3|2.5|0.0001
82620246|NCT01677507|164957164|OTHER||Median Difference (Final Values)|1.1||||0.0001|TWO_SIDED|95.0|0.9|1.3|||t-test, 2 sided|paired t test, 2 sided||Right Eye treated to untreated||1.3|0.9|0.0001
82620247|NCT01677507|164957164|OTHER||Median Difference (Final Values)|0.9||||0.0001|TWO_SIDED|95.0|0.7|1.1|||t-test, 2 sided|paired t test, 2 sided||Left Eye, treated vs. untreated||1.1|0.7|0.0001
82620248|NCT01677507|164957164|OTHER||Mean Difference (Final Values)|0.01||||0.94|TWO_SIDED|95.0|-0.2|0.2|||t-test, 2 sided|paired t-test||Right Eye, treated vs. untreated||0.2|-0.2|0.94
82620249|NCT01677507|164957164|OTHER||Mean Difference (Final Values)|0.05||||0.54|TWO_SIDED|95.0|-0.1|0.2|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||0.2|-0.1|0.54
82660797|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97||||0.008|TWO_SIDED|95.0|-1.69|-0.25|||Mixed Models Analysis|||Statistical analysis of Week 10.||-0.25|-1.69|0.008
82620250|NCT01677507|164957165|OTHER||Mean Difference (Final Values)|0.4||||0.04|TWO_SIDED|95.0|0.01|0.7|||t-test, 2 sided|paired t-test, 2 sided||Right Eye, treated vs. untreated||0.7|0.01|0.04
82620251|NCT01677507|164957165|OTHER||Mean Difference (Final Values)|0.2||||0.15|TWO_SIDED|95.0|-0.1|0.6|||t-test, 2 sided|paired t-test, 2 sided||Left eye, treated vs. untreated||0.6|-0.1|0.15
82620252|NCT01677507|164957165|OTHER||Mean Difference (Final Values)|0.1||||0.52|TWO_SIDED|95.0|-0.3|0.6|||t-test, 2 sided|paired t-test, 2 sided||Right Eye, treated vs. untreated||0.6|-0.3|0.52
82620253|NCT01677507|164957165|OTHER||Mean Difference (Final Values)|0.03||||0.88|TWO_SIDED|95.0|-0.4|0.4|||t-test, 2 sided|paired t-test, 2 sided||Left Eye, treated vs. untreated||0.4|-0.4|0.88
82620254|NCT05137730|164957206|OTHER||Ratio of geometric least squares means|0.78|||||TWO_SIDED|90.0|0.7109|0.8611|||||Least squares means (LSMs) were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.8611|0.7109|
82620255|NCT05137730|164957207|OTHER||Dose effect|1.5395|STANDARD_ERROR_OF_MEAN|0.121|||TWO_SIDED|95.0|1.2929|1.7862||||||A linear regression model was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.7862|1.2929|
82620256|NCT05137730|164957208|OTHER||Ratio of geometric least squares means|0.84|||||TWO_SIDED|90.0|0.7576|0.9375|||||LSMs were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.9375|0.7576|
82660798|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.86||||0.021|TWO_SIDED|95.0|-1.59|-0.13|||Mixed Models Analysis|||Statistical analysis of Week 11.||-0.13|-1.59|0.021
82660799|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.97||||0.01|TWO_SIDED|95.0|-1.71|-0.23|||Mixed Models Analysis|||Statistical analysis of Week 12.||-0.23|-1.71|0.010
82620257|NCT05137730|164957209|OTHER||Dose effect|1.2823|STANDARD_ERROR_OF_MEAN|0.1072|||TWO_SIDED|95.0|1.0431|1.5215||||||A linear regression model using was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.5215|1.0431|
82620258|NCT05137730|164957210|OTHER||Ratio of geometric least squares means|0.81|||||TWO_SIDED|90.0|0.7462|0.8893|||||LSMs were calculated by exponentiating the LSMs derived from the linear mixed effects model.|||0.8893|0.7462|
82620259|NCT05137730|164957211|OTHER||Dose effect|1.0937|STANDARD_ERROR_OF_MEAN|0.0763|||TWO_SIDED|95.0|0.938|1.2493||||||A linear regression model was used, including sequence and period as fixed effects, subject within sequence as a random effect, and ln(dose) as a covariate.||1.2493|0.9380|
82620260|NCT01551758|164957239|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|0.92|||=|0.025|TWO_SIDED|95.0|0.85|0.99|||Generalized Linear Model|||||0.99|0.85|=0.025
82620261|NCT01551758|164957240|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority is demonstrated if the upper limit of the two-sided 95% confidence interval for the incidence ratio is less than 2.|Incidence ratio|1.1|||||TWO_SIDED|95.0|0.9|1.5|||||Calculated as % of participants who had at least one SAE of pneumonia in the FF/VI group divided by the % of participants who had at least one SAE of pneumonia in the Usual Care group|||1.5|0.9|
82620262|NCT01551758|164957241|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.08||||0.632|TWO_SIDED|95.0|0.79|1.47|||Generalized linear model|||||1.47|0.79|0.632
82620263|NCT01551758|164957242|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.13|||=|0.439|TWO_SIDED|95.0|0.83|1.52|||Cox proportional hazards model|||||1.52|0.83|=0.439
82620264|NCT01551758|164957243|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.06||||0.488|TWO_SIDED|95.0|0.89|1.27|||Generalized linear model|||||1.27|0.89|0.488
82620265|NCT01551758|164957244|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|0.98||||0.622|TWO_SIDED|95.0|0.92|1.05|||Generalized linear model|||||1.05|0.92|0.622
82620266|NCT01551758|164957245|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.05||||0.336|TWO_SIDED|95.0|0.95|1.15|||Generalized Linear Model|||||1.15|0.95|0.336
82620267|NCT01551758|164957246|SUPERIORITY_OR_OTHER||Adjusted treatment ratio|1.12|||<|0.001|TWO_SIDED|95.0|1.05|1.2|||Generalized Linear Model|||||1.20|1.05|<0.001
82620268|NCT01551758|164957247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.89|||<|0.001|TWO_SIDED|95.0|1.6|2.23|||Cox proportional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care.|||2.23|1.60|<0.001
82660800|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.051|TWO_SIDED|95.0|-1.49|0.0|||Mixed Models Analysis|||Statistical analysis of Week 13.||0.00|-1.49|0.051
82620269|NCT01551758|164957248|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.37|0.66|||Cox proprotional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care|||0.66|0.37|<0.001
82620270|NCT01551758|164957249|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.93||||0.111|TWO_SIDED|95.0|0.85|1.02|||Cox porportional hazards model||A hazard ratio \<1 indicates a lower risk with FF/VI compared with Usual Care|||1.02|0.85|0.111
82620271|NCT01551758|164957250|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.92||||0.081|TWO_SIDED|95.0|0.84|1.01|||Cox porportional hazards model|||||1.01|0.84|0.081
82620272|NCT01551758|164957251|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.27||||0.075|TWO_SIDED|95.0|0.98|1.66|||Cox proportional hazards model|||||1.66|0.98|0.075
82620273|NCT02128763|164957256|SUPERIORITY|||||||0.4|TWO_SIDED|95.0||||P value refers to difference between group on change in overall OSDI score (Row 1).|Regression, Linear|||||||0.40
82620274|NCT02128763|164957257|SUPERIORITY|||||||0.09|TWO_SIDED|95.0|||||Regression, Linear|||||||0.09
82620275|NCT02128763|164957258|SUPERIORITY|||||||0.77|TWO_SIDED|95.0|||||Regression, Linear|Pos hoc application of the Benjamini-Hochberg adjustment||||||0.77
82620276|NCT02128763|164957259|SUPERIORITY|||||||0.95|TWO_SIDED|95.0|||||Regression, Linear|||||||0.95
82620277|NCT02128763|164957260|SUPERIORITY|||||||0.051|TWO_SIDED|95.0|||||Regression, Linear|||||||0.051
82620278|NCT02128763|164957261|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
82620279|NCT02128763|164957262|SUPERIORITY||||||<|0.001|TWO_SIDED|95.0|||||Regression, Linear|||||||<0.001
82620280|NCT02128763|164957263|SUPERIORITY|||||||0.4|TWO_SIDED|95.0|||||Regression, Linear|||||||0.40
82620281|NCT02128763|164957264|SUPERIORITY|||||||0.77|TWO_SIDED|95.0|||||Regression, Linear|||||||0.77
82660801|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.02|TWO_SIDED|95.0|-1.66|-0.14|||Mixed Models Analysis|||Statistical analysis of Week 14.||-0.14|-1.66|0.020
82620282|NCT02128763|164957265|SUPERIORITY|||||||0.95|TWO_SIDED|95.0|||||Regression, Linear|||||||0.95
82620283|NCT02128763|164957266|SUPERIORITY|||||||0.25|TWO_SIDED|95.0|||||Regression, Linear|||||||0.25
82620284|NCT02128763|164957267|SUPERIORITY|||||||0.61|TWO_SIDED|95.0|||||Regression, Linear|||||||0.61
82660802|NCT01020474|165039315|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.74||||0.06|TWO_SIDED|95.0|-1.51|0.03|||Mixed Models Analysis|||Statistical analysis of Week 15.||0.03|-1.51|0.060
82660803|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.21||||0.54|TWO_SIDED|95.0|-0.9|0.47|||Mixed Models Analysis|||Statistical analysis of Week 1.||0.47|-0.90|0.540
82660804|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19||||0.593|TWO_SIDED|95.0|-0.87|0.5|||Mixed Models Analysis|||Statistical analysis of Week 2||0.50|-0.87|0.593
82620285|NCT02128763|164957268|SUPERIORITY|||||||0.42|TWO_SIDED|95.0|||||Regression, Linear|||||||0.42
82620286|NCT02128763|164957269|SUPERIORITY|||||||0.6|TWO_SIDED|95.0|||||Chi-squared, Corrected|||||||0.60
82620287|NCT02128763|164957270|SUPERIORITY|||||||0.17|TWO_SIDED|95.0|||||Regression, Linear|||||||0.17
82620288|NCT02128763|164957271|SUPERIORITY|||||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||||||0.02
82620289|NCT02128763|164957272|SUPERIORITY|||||||0.71|TWO_SIDED|95.0|||||Regression, Linear|||||||0.71
82620290|NCT02128763|164957273|SUPERIORITY|||||||0.66|TWO_SIDED|95.0|||||Regression, Linear|||||||0.66
82620291|NCT02128763|164957274|SUPERIORITY|||||||0.02|TWO_SIDED|95.0|||||Regression, Linear|||||||0.02
82620292|NCT00363246|164957295|SUPERIORITY_OR_OTHER|||||||0.049|TWO_SIDED||||||Chi-squared|||Health Status. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.049
82620293|NCT00363246|164957295|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Chi-squared|||Pain in last 4 weeks (interference with daily activities). No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.013
82620294|NCT00363246|164957295|SUPERIORITY_OR_OTHER|||||||0.0001|TWO_SIDED||||||Chi-squared|||Pain when transfer. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.0001
82620295|NCT00363246|164957295|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Energy level. No Wheelchair-related Fall Injuries vs. Wheelchair-related Fall Injuries.||||0.009
82620296|NCT00363246|164957296|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED||||||Chi-squared|We used chi-squared test for categorical variable (most variables) and t-test (2-sided) for continuous variables (few variables).||Health Status. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.033
82620297|NCT00363246|164957296|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||Chi-squared|||Pain in last 4 weeks (interference with daily activities). No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.013
82620298|NCT00363246|164957296|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Chi-squared|||Pain when transfer. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||<0.001
82620299|NCT00363246|164957296|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||t-test, 2 sided|||Energy level. No Wheelchair-related Falls vs. Wheelchair-related Falls.||||0.007
82620300|NCT02300077|164957304|SUPERIORITY|||||||0.0001|||||||Chi-squared|||||||0.0001
82620301|NCT02300077|164957305|SUPERIORITY|||||||0.01|||||||Kruskal-Wallis|||||||0.01
82620302|NCT02300077|164957306|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|||||||0.001
82620303|NCT02300077|164957307|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|||||||0.02
82660805|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44||||0.206|TWO_SIDED|95.0|-1.13|0.25|||Mixed Models Analysis|||Statistical analysis of Week 3.||0.25|-1.13|0.206
82660806|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49||||0.168|TWO_SIDED|95.0|-1.18|0.21|||Mixed Models Analysis|||Statistical analysis of Week 4.||0.21|-1.18|0.168
82660807|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.38||||0.28|TWO_SIDED|95.0|-1.08|0.32|||Mixed Models Analysis|||Statistical analysis of Week 5.||0.32|-1.08|0.280
82660808|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.64||||0.075|TWO_SIDED|95.0|-1.34|0.06|||Mixed Models Analysis|||Statistical analysis of Week 6.||0.06|-1.34|0.075
82660809|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.168|TWO_SIDED|95.0|-1.21|0.21|||Mixed Models Analysis|||Statistical analysis of Week 7.||0.21|-1.21|0.168
82660810|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.01||||0.006|TWO_SIDED|95.0|-1.73|-0.3|||Mixed Models Analysis|||Statistical analysis of Week 8.||-0.30|-1.73|0.006
82620304|NCT01179347|164957310|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.64|STANDARD_ERROR_OF_MEAN|0.97||0.092||95.0|-0.27|3.55||Two-sided p-value.|Mixed Models Analysis|Restricted maximum likelihood (REML)-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|Hierarchical testing procedure was applied for both co-primary endpoints to maintain the overall alpha level. If and only if statistical superiority of the Tio R5 qd compared to Placebo in FEV1 AUC0-4h was demonstrated at the 1 sided alpha level of 0.025, confirmatory comparison in the second co-primary endpoint, at the same alpha level of 0.025 could be done .||3.55|-0.27|0.092
82620305|NCT01179347|164957311|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.4|STANDARD_ERROR_OF_MEAN|0.97||0.15||95.0|-0.5|3.3||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|Hierarchical testing for co-primary endpoints, confirmatory only if previous hypotheses had been successful,||3.30|-0.50|0.15
82620306|NCT01179347|164957312|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.09|STANDARD_ERROR_OF_MEAN|0.9||0.23||95.0|-0.68|2.86||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||2.86|-0.68|0.23
82620307|NCT01179347|164957313|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|0.93||0.19||95.0|-0.62|3.02||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||3.02|-0.62|0.19
82620308|NCT01179347|164957314|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|1.76||0.62||95.0|-2.59|4.32||Two-sided p-value.|Mixed Models Analysis|REML-based MMRM. Adjusted for treatment, visit, treatment-by-visit, age group, baseline and baseline-by-visit.|Tio R5 qd minus Placebo.|||4.32|-2.59|0.62
82620309|NCT01179347|164957315|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.092||||0.84||95.0|0.453|2.633||Two-sided p-value.|Regression, Logistic|Adjusted for treatment, age group, baseline weight and baseline FEV1 percent predicted.|Tio R5 qd versus Placebo.|||2.633|0.453|0.84
82620310|NCT01337167|164957317|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|9.68|||<|0.001|TWO_SIDED|95.0|4.83|14.83|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=1.0 μg/mL||14.83|4.83|<0.001
82620311|NCT01337167|164957317|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|4.87|||<|0.001|TWO_SIDED|95.0|2.23|8.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Non-inferiority for titer \>=0.15 μg/mL||8.14|2.23|<0.001
82620312|NCT01337167|164957317|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419-Ctrl)|4.87|||<|0.001|TWO_SIDED|95.0|2.23|8.14|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||Secondary Analysis: Non-inferiority for titer \>=0.15 μg/mL||8.14|2.23|<0.001
82620313|NCT01337167|164957318|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|0.84|||<|0.001|TWO_SIDED|95.0|-0.35|2.74|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.74|-0.35|<0.001
82620314|NCT01337167|164957319|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-3.84||||0.002|TWO_SIDED|95.0|-8.02|0.66|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||0.66|-8.02|0.002
82620315|NCT01337167|164957320|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.39|||<|0.001|TWO_SIDED|95.0|-0.28|1.74|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.74|-0.28|<0.001
82620316|NCT01337167|164957321|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-0.33|||<|0.001|TWO_SIDED|95.0|-1.8|1.6|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.60|-1.80|<0.001
82620317|NCT01337167|164957322|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-4.7||||0.001|TWO_SIDED|95.0|-8.14|-0.97|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||-0.97|-8.14|0.001
82620318|NCT01337167|164957323|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-2.67|||<|0.001|TWO_SIDED|95.0|-7.27|2.23|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||2.23|-7.27|<0.001
82660811|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-0.57||||0.12|TWO_SIDED|95.0|-1.29|0.15|||Mixed Models Analysis|||Statistical analysis of Week 9.||0.15|-1.29|0.120
82660812|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.77||||0.037|TWO_SIDED|95.0|-1.49|-0.05|||Mixed Models Analysis|||Statistical analysis of Week 10.||-0.05|-1.49|0.037
82660813|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.43||||0.246|TWO_SIDED|95.0|-1.16|0.3|||Mixed Models Analysis|||Statistical analysis of Week 11.||0.30|-1.16|0.246
82660814|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.61||||0.105|TWO_SIDED|95.0|-1.36|0.13|||Mixed Models Analysis|||Statistical analysis of Week 12.||0.13|-1.36|0.105
82660815|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.34||||0.376|TWO_SIDED|95.0|-1.09|0.41|||Mixed Models Analysis|||Statistical analysis of Week 13.||0.41|-1.09|0.376
82660816|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41||||0.285|TWO_SIDED|95.0|-1.18|0.35|||Mixed Models Analysis|||Statistical analysis of Week 14.||0.35|-1.18|0.285
82620319|NCT01337167|164957324|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|4.05|||<|0.001|TWO_SIDED|95.0|0.23|8.28|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||8.28|0.23|<0.001
82620320|NCT01337167|164957325|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|1.76|||<|0.001|TWO_SIDED|95.0|0.85|3.59|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.59|0.85|<0.001
82620321|NCT01337167|164957325|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.54|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.54|<0.001
82620322|NCT01337167|164957326|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.26|||<|0.001|TWO_SIDED|95.0|-0.22|1.42|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.42|-0.22|<0.001
82620323|NCT01337167|164957326|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.54|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.54|<0.001
82620324|NCT01337167|164957327|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -5%|Response Rate Difference (V419 - Ctrl)|0.25|||<|0.001|TWO_SIDED|95.0|-0.24|1.41|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||1.41|-0.24|<0.001
82620325|NCT01337167|164957327|SUPERIORITY_OR_OTHER||Response Rate|100.0|||<|0.001|TWO_SIDED|95.0|99.53|100.0|||Clopper and Pearson|Acceptability requires that the lower bound of the 2-sided 95% CI of the response rate is \>=90||||100.00|99.53|<0.001
82620326|NCT01337167|164957328|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the Geometric Mean Concentration (GMC) ratio is \>=0.67|GMC Ratio (V419/Control)|1.28|||<|0.001|TWO_SIDED|95.0|1.2|1.38|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.38|1.20|<0.001
82620327|NCT01337167|164957329|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.64||||0.786|TWO_SIDED|95.0|0.59|0.7|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.70|0.59|0.786
82620328|NCT01337167|164957330|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.83|||<|0.001|TWO_SIDED|95.0|0.73|0.95|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.95|0.73|<0.001
82620329|NCT01337167|164957331|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.28|||<|0.001|TWO_SIDED|95.0|1.15|1.42|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.42|1.15|<0.001
82620330|NCT01337167|164957332|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|1.88|||<|0.001|TWO_SIDED|95.0|0.39|4.18|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||4.18|0.39|<0.001
82620331|NCT01337167|164957333|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|1.3|||<|0.001|TWO_SIDED|95.0|-1.67|4.78|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||4.78|-1.67|<0.001
82620332|NCT01337167|164957334|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|-0.41|||<|0.001|TWO_SIDED|95.0|-3.46|3.1|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||3.10|-3.46|<0.001
82620333|NCT01337167|164957335|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 95% CI of the response rate difference is \>= -10%|Response Rate Difference (V419 - Ctrl)|6.18|||<|0.001|TWO_SIDED|95.0|3.26|9.78|||Miettinen and Nurminen|Response rate, response rate difference and p-value were stratified by brand of birth dose of Hepatitis B vaccine||||9.78|3.26|<0.001
82660817|NCT01020474|165039316|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.17||||0.663|TWO_SIDED|95.0|-0.95|0.61|||Mixed Models Analysis|||Statistical analysis of Week 15.||0.61|-0.95|0.663
82620334|NCT01337167|164957336|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.4|||<|0.001|TWO_SIDED|95.0|1.28|1.52|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.52|1.28|<0.001
82620335|NCT01337167|164957337|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.0|||<|0.001|TWO_SIDED|95.0|0.91|1.1|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.10|0.91|<0.001
82620336|NCT01337167|164957338|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|0.78||||0.014|TWO_SIDED|95.0|0.68|0.89|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||0.89|0.68|0.014
82660818|NCT01020474|165039317|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.87||||0.037|TWO_SIDED|95.0|-1.68|-0.05|||ANCOVA|Based on LS Means using analysis of covariance (ANCOVA) model (including Treatment, Center, Baseline value as covariate).||||-0.05|-1.68|0.037
82660819|NCT01020474|165039318|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.17||||0.694|TWO_SIDED|95.0|0.53|2.58|||Regression, Logistic|||Statistical analysis at Week 15.||2.58|0.53|0.694
82620337|NCT01337167|164957339|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.58|||<|0.001|TWO_SIDED|95.0|1.41|1.78|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.78|1.41|<0.001
82620338|NCT01337167|164957340|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.62|||<|0.001|TWO_SIDED|95.0|1.32|1.98|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.98|1.32|<0.001
82620339|NCT01337167|164957341|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority requires that the lower limit of the 2-sided 95% CI of the GMC ratio is \>=0.67|GMC Ratio (V419/Control)|1.02|||<|0.001|TWO_SIDED|95.0|0.83|1.24|||ANCOVA|GMC, GMC ratio, and p-value were adjusted for post- and prevaccination titer, vaccination group, and brand of birth dose of Hepatitis B vaccine||||1.24|0.83|<0.001
82620340|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.1|||||TWO_SIDED|95.0|-18.4|-7.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \<38°C||-7.7|-18.4|
82620341|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.1|||||TWO_SIDED|95.0|0.5|9.5|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=38°C and \<38.5°C||9.5|0.5|
82620342|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.1|||||TWO_SIDED|95.0|2.8|11.2|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=38.5°C and \<39.5°C||11.2|2.8|
82620343|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.9|||||TWO_SIDED|95.0|-0.6|2.2|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, all routes \>=39.5°C||2.2|-0.6|
82620344|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.2|||||TWO_SIDED|95.0|-18.6|-7.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \<38°C||-7.7|-18.6|
82620345|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.5|||||TWO_SIDED|95.0|1.9|10.8|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=38°C and \<38.5°C||10.8|1.9|
82620346|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|6.7|||||TWO_SIDED|95.0|2.4|10.7|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=38.5°C and \<39.5°C||10.7|2.4|
82620347|NCT01337167|164957345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-0.3|2.4|||||Mean Difference is V419 - Control. The 95% confidence intervals were based on the unstratified Miettinen and Nurminen method.|Estimated difference, rectal \>=39.5°C||2.4|-0.3|
82660820|NCT01020474|165039319|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.25||||0.162|TWO_SIDED|95.0|0.72|7.02|||Regression, Logistic|||Statistical analysis at Week 15.||7.02|0.72|0.162
82660821|NCT01020474|165039320|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|||||||Cochran-Mantel-Haenszel|P-value uses the row mean score statistic based on Cochran Mantel Haenszel (CMH) test with modified ridit transformation.||Statistical analysis at Week 15.||||0.013
82492778|NCT01709513|164678310|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-33.1|||<|0.0001|TWO_SIDED|95.0|-38.0|-28.2||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-28.2|-38.0|<0.0001
82620348|NCT02757092|164957348|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620349|NCT02757092|164957349|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620350|NCT02757092|164957350|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620351|NCT02757092|164957351|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620352|NCT02757092|164957352|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620353|NCT02757092|164957353|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620354|NCT02757092|164957354|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620355|NCT02757092|164957355|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620356|NCT02757092|164957356|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620357|NCT02757092|164957357|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620358|NCT02757092|164957358|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620359|NCT02757092|164957359|SUPERIORITY|||||||0.05|||||||Chi-squared|||Descriptive statistics were expressed as mean ± standard deviation or median and interquartile range depending on the nature and distribution of the variables||||0.05
82620360|NCT02757092|164957360|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620361|NCT02757092|164957361|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620362|NCT02757092|164957362|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620363|NCT02757092|164957363|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620364|NCT02757092|164957365|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620365|NCT02757092|164957366|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620366|NCT02757092|164957367|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620367|NCT02757092|164957368|SUPERIORITY||||||<|0.05|||||||Chi-squared|||null hypothesis||||<0.05
82620368|NCT02757092|164957369|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620369|NCT02757092|164957370|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82660822|NCT00796653|165039340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.091|0.167|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.167|0.091|<0.0001
82660823|NCT00796653|165039340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.154|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.116|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.191|0.116|<0.0001
82620370|NCT02757092|164957371|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620371|NCT02757092|164957372|SUPERIORITY||||||<|0.05|||||||ANOVA|||null hypothesis||||<0.05
82620372|NCT02757092|164957374|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620373|NCT02757092|164957375|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620374|NCT02757092|164957376|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82620375|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.75||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.75|0.99|
82620376|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.89||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||0.89|0.59|
82620377|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.6|||||TWO_SIDED|95.0|1.96|3.44||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.44|1.96|
82620378|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.9|||||TWO_SIDED|95.0|2.22|3.86||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.86|2.22|
82620379|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.75||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.75|1.10|
82620380|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.4|||||TWO_SIDED|95.0|1.12|1.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.74|1.12|
82620381|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.59|3.24||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.24|1.59|
82620382|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.23||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||1.23|0.77|
82620383|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.1|||||TWO_SIDED|95.0|1.61|2.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.86|1.61|
82620384|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.3|||||TWO_SIDED|95.0|1.81|2.92||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.92|1.81|
82620385|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.0|||||TWO_SIDED|95.0|1.42|2.79||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||2.79|1.42|
82620386|NCT01646398|164957380|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.5.|GMT Ratio|2.5|||||TWO_SIDED|95.0|1.84|3.49||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS).||3.49|1.84|
82620387|NCT01646398|164957381|SUPERIORITY_OR_OTHER||Difference in percentage|26.8|||||TWO_SIDED|95.0|19.3|34.0||||||Difference in proportions (13vPnC - 23vPS) expressed as a percentage presented along with exact, 2-sided 95%CI. Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 0.||34.0|19.3|
82620388|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|1.3|||||TWO_SIDED|95.0|0.99|1.75||||||Serotype 1: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.75|0.99|
82620389|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|0.7|||||TWO_SIDED|95.0|0.59|0.89||||||Serotype 3: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||0.89|0.59|
82620390|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.6|||||TWO_SIDED|95.0|1.96|3.44||||||Serotype 4: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.44|1.96|
82620391|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.9|||||TWO_SIDED|95.0|2.22|3.86||||||Serotype 5: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.86|2.22|
82620392|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.75||||||Serotype 6B: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.75|1.10|
82620393|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|1.4|||||TWO_SIDED|95.0|1.12|1.74||||||Serotype 7F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.74|1.12|
82620394|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.3|||||TWO_SIDED|95.0|1.59|3.24||||||Serotype 9V: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.24|1.59|
82620395|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|1.0|||||TWO_SIDED|95.0|0.77|1.23||||||Serotype 14: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||1.23|0.77|
82620396|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.1|||||TWO_SIDED|95.0|1.61|2.86||||||Serotype 18C: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.86|1.61|
82620397|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.3|||||TWO_SIDED|95.0|1.81|2.92||||||Serotype 19A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.92|1.81|
82660824|NCT00796653|165039340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.112|0.188|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.188|0.112|<0.0001
82660825|NCT00796653|165039341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.019||0.0055||95.0|0.015|0.09|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.090|0.015|0.0055
82660826|NCT00796653|165039341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.019||0.0003||95.0|0.032|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.106|0.032|0.0003
82660827|NCT00796653|165039341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.019||0.027||95.0|0.005|0.08|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.080|0.005|0.0270
82620398|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.0|||||TWO_SIDED|95.0|1.42|2.79||||||Serotype 19F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||2.79|1.42|
82620399|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|2.5|||||TWO_SIDED|95.0|1.84|3.49||||||Serotype 23F: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 1.0.||3.49|1.84|
82620400|NCT01646398|164957382|SUPERIORITY_OR_OTHER||GMT Ratio|3.1|||||TWO_SIDED|95.0|2.38|4.14||||||Serotype 6A: CI for the GMT ratio was calculated by the back transformations of CI based on the Student t distribution for the mean difference of the logarithms of the measures (13vPnC - 23vPS). Statistical significance was to be concluded if the lower bound of the 2-sided 95% CI was greater than 2.0.||4.14|2.38|
82620401|NCT03292952|164957433|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82620402|NCT04656418|164957435|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test (Hierarchical Testing H01) at alpha = 5%.|Two-sided Wilcoxon test|||||||<0.001
82620403|NCT04656418|164957436|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
82620404|NCT04656418|164957437|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
82620405|NCT04656418|164957437|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
82660828|NCT00796653|165039342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.402|STANDARD_ERROR_OF_MEAN|0.314||0.1999||95.0|-0.213|1.018|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.018|-0.213|0.1999
82620406|NCT04656418|164957437|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
82620407|NCT04656418|164957438|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||6 Months of treatment||||<0.001
82660829|NCT00796653|165039342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.314||0.1818||95.0|-0.196|1.035|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.035|-0.196|0.1818
82620408|NCT04656418|164957438|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
82620409|NCT04656418|164957438|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
82620410|NCT04656418|164957439|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||First 3-months of treatment||||<0.001
82620411|NCT04656418|164957439|OTHER|Test for differences|||||<|0.001||||||Tested the differences between the active and placebo arms using a two-sided Wilcoxon test at alpha = 5%.|Two-sided Wilcoxon test|||Second 3-months of treatment||||<0.001
82620412|NCT04656418|164957440|OTHER|Test for differences|||||<|0.001||||||Compared the time-normalized number of HAE attacks in the active and placebo arms by using a two-sided Wilcoxon test (Hierarchical testing H02) at alpha = 5%.|Two-sided Wilcoxon test|||||||<0.001
82620413|NCT02475850|164957466|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.245|TWO_SIDED|95.0|0.8|1.06||p\<0.05 threshold (primary outcome)|Regression, Cox|multistate model accounting for death as a semi-competing risk||||1.06|0.80|0.245
82620414|NCT02475850|164957467|SUPERIORITY||Hazard Ratio (HR)|0.9||||0.004|TWO_SIDED|99.0|0.83|0.99||p\< 0.01 threshold (secondary outcome)|Regression, Cox|||||0.99|0.83|0.004
82620415|NCT02475850|164957469|SUPERIORITY||Difference in least-squared means across|0.72|STANDARD_ERROR_OF_MEAN|0.71||0.309|TWO_SIDED|99.0|-1.1|2.54||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||2.54|-1.10|0.309
82620416|NCT02475850|164957470|SUPERIORITY||Least squares means|0.59||||0.528|TWO_SIDED|99.0|-1.8|0.93||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||0.93|-1.80|0.528
82620417|NCT02475850|164957471|SUPERIORITY||Least squares means|-0.9|STANDARD_ERROR_OF_MEAN|0.43||0.037|TWO_SIDED|99.0|-2.0|0.2||p \< 0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness|Difference in least-squared means across all follow-up (repeated measures: 12 months/24 months)|||0.20|-2.00|0.037
82620418|NCT02475850|164957472|SUPERIORITY||Least squares means|-1.19|STANDARD_ERROR_OF_MEAN|0.45||0.009|TWO_SIDED|99.0|-2.36|-0.02||p\<0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness||||-0.02|-2.36|0.009
82620419|NCT02475850|164957473|SUPERIORITY||Least squares means|-0.07|STANDARD_ERROR_OF_MEAN|0.51||0.897|TWO_SIDED|99.0|-1.38|1.25||p \<0.01 threshold (secondary outcome)|Mixed Models Analysis|random: patients nested within practices; fixed: baseline score, randomization constraint vars, predictors of missingness|Difference in least-squared means across all follow-up (repeated measures: 12 months, 24 months)|||1.25|-1.38|0.897
82620420|NCT00680953|164957474|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.343||||0.0001|TWO_SIDED|95.0|0.194|0.606|||Log Rank|||||0.606|0.194|0.0001
82620421|NCT00680953|164957475|SUPERIORITY_OR_OTHER|||||||0.9951|||||||Log Rank|||||||0.9951
82620422|NCT00680953|164957476|SUPERIORITY_OR_OTHER|||||||0.1568|||||||Log Rank|||||||0.1568
82620423|NCT00421603|164957549|NON_INFERIORITY_OR_EQUIVALENCE|All analyses were conducted on the intent-to-treat sample of all randomized patients. All statistical tests were 2-tailed and employed at a significance level of 5%, unless otherwise stated. The original sample size of 120 patients was chosen to ensure sufficient power (at least 80%) of a two-sided test with level of significance α=0.05 for detecting difference between the two experimental treatments with respect to the percentage of subjects who achieve continuous 3-weeks abstinence.|||||=|0.05|||||||Chi-squared, Corrected|||The dichotomous primary outcome was analyzed using logistic regression with independent predictors: treatment (MAS-ER and topiramate vs. placebo) and adjusted for baseline severity of cocaine use (total number of cocaine use days in the 28 days prior to randomization).||||=.05
82620424|NCT01840228|164957573|SUPERIORITY||Risk Ratio (RR)|1.1||||0.74|TWO_SIDED|95.0|0.63|1.91|||Chi-squared|||||1.91|0.63|0.74
82620425|NCT01840228|164957574|SUPERIORITY||Risk Ratio (RR)|0.43||||0.13|TWO_SIDED|95.0|0.14|1.36|||Fisher Exact|||||1.36|0.14|0.13
82620426|NCT01840228|164957575|SUPERIORITY||Risk Ratio (RR)|1.5||||0.71|TWO_SIDED|95.0|0.51|4.43|||Fisher Exact|||||4.43|0.51|0.71
82620427|NCT01840228|164957576|SUPERIORITY|||||||0.73|||||||Wilcoxon (Mann-Whitney)|||||||0.73
82620428|NCT01658579|164957592|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|2.179||0.7304|TWO_SIDED|95.0|-3.614|5.124|||Linear Mixed Model|||Analysis was performed using a linear mixed model with treatment and period as fixed effects, and participant as random effect.||5.124|-3.614|0.7304
82620429|NCT04397718|164957611|SUPERIORITY||Odds Ratio (OR)|1.19||||0.667|TWO_SIDED|95.0|0.46|3.06|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD|||3.06|0.46|0.667
82620430|NCT04397718|164957612|SUPERIORITY||Hazard Ratio (HR)|0.93||||0.876|TWO_SIDED|95.0|0.58|1.49|||Log Rank||Cox regression model adjusted for age, hypertension, and COPD.|||1.49|0.58|0.876
82620431|NCT04397718|164957613|SUPERIORITY||Odds Ratio (OR)|0.95||||0.991|TWO_SIDED|95.0|0.31|2.92|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD.|||2.92|0.31|0.991
82620432|NCT04397718|164957614|SUPERIORITY||Quantile Regression|0.0||||0.841|TWO_SIDED|95.0|-2.03|4.11|||Wilcoxon (Mann-Whitney)||Adjusted for age, hypertension, and COPD|||4.11|-2.03|0.841
82620433|NCT04397718|164957615|SUPERIORITY||Quantile Regression|0.0||||0.746|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)||Adjusted for age, hypertension, and COPD|||0|0|0.746
82620434|NCT04397718|164957616|SUPERIORITY||Hazard Ratio (HR)|2.3||||0.1|TWO_SIDED|95.0|0.72|7.39|||Log Rank||Cox regression model adjusted for age, hypertension, and COPD|||7.39|0.72|0.1
82620435|NCT04397718|164957617|SUPERIORITY||Odds Ratio (OR)|0.82||||0.425|TWO_SIDED|95.0|0.33|2.0|||Fisher Exact||||Logistical regression adjusted for age, hypertension, COPD, and baseline severity score.|2|0.33|0.425
82620436|NCT04397718|164957618|SUPERIORITY||Odds Ratio (OR)|1.22||||0.688|TWO_SIDED|95.0|0.44|3.42|||Chi-squared||Logistic regression adjusted for age, hypertension, and COPD.|||3.42|0.44|0.688
82620437|NCT00973921|164957619|SUPERIORITY_OR_OTHER||Proportion|1.0|||<|0.01|TWO_SIDED|95.0|0.86|1.0|||Wilson|||The 95% confidence Interval (CI) of the primary outcome has been calculated using the Wilson method of estimating the CI of a single proportion||1.0|0.86|<0.01
82660830|NCT00796653|165039342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.602|STANDARD_ERROR_OF_MEAN|0.316||0.0572||95.0|-0.019|1.222|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.222|-0.019|0.0572
82660831|NCT00796653|165039343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.15|STANDARD_ERROR_OF_MEAN|1.349||0.0197||95.0|-5.796|-0.503|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.503|-5.796|0.0197
82660832|NCT00796653|165039343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.524|STANDARD_ERROR_OF_MEAN|1.354||0.0094||95.0|-6.18|-0.867|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.867|-6.180|0.0094
82660833|NCT00796653|165039343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.416|STANDARD_ERROR_OF_MEAN|1.365||0.2995||95.0|-4.093|1.261|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.261|-4.093|0.2995
82660834|NCT00796653|165039344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.352|STANDARD_ERROR_OF_MEAN|1.385||0.7995||95.0|-3.068|2.365|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||2.365|-3.068|0.7995
82620438|NCT00973921|164957620|SUPERIORITY_OR_OTHER||Correlation coefficient|0.74|||<|0.0001|||||||Bland Altman|||||||<0.0001
82620439|NCT00973921|164957622|SUPERIORITY_OR_OTHER||Correlation coefficient|0.5||||0.0034|||||||Bland-Altman|||||||0.0034
82620440|NCT00980980|164957748|SUPERIORITY_OR_OTHER|||||||0.01|||||||Proportional-hazards models|Proportional-hazards models with shared frailties accounted for clustering within hospitals.||||||0.01
82620441|NCT00230100|164957794|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
82620442|NCT00230100|164957795|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
82660835|NCT00796653|165039344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.09|STANDARD_ERROR_OF_MEAN|1.391||0.4336||95.0|-3.818|1.639|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.639|-3.818|0.4336
82620443|NCT00230100|164957796|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||"Implemented a general mixed model analysis of variance (MMANOVA), which models the means per group over the respective time period and the covariance between the repeated measures over the assessments. The MMANOVA approach estimates a separate mean for each phase of treatment per group. The MMANOVA is called a mixed model because it includes both fixed (e.g., treatment, gender) and random (subject-specific) terms. MMANOVA allows for randomly missing observations (not included in analysis)."||||<0.05
82620444|NCT00230100|164957797|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.05|||||||Mixed Models Analysis|||It was hypothesized that the single-gender group composition and women-focused group content (WRG) would result in better substance abuse treatment outcomes (lower ASI alcohol composite scores) than standard mixed-gender group treatment (GDC).||||<0.05
82620445|NCT00230100|164957798|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.009|||||||Mixed Models Analysis|||||||<0.009
82620446|NCT04348591|164957805|SUPERIORITY||Mean Difference (Final Values)|-0.046|STANDARD_ERROR_OF_MEAN|0.037||0.221|TWO_SIDED|95.0|-0.12|0.029||This p value corresponds to the main effect for experimental group; a-priori threshold was .012|Mixed Models Analysis|||A MMANOVA analysis using an unstructured covariance structure examined main effects of experimental group, instruction provided, headache, racial background, and type of neurostimulation administered. HF-HRV was transformed using an lg function for normality.||.029|-.12|.221
82620447|NCT04348591|164957805|SUPERIORITY|This is a within subject analysis that uses data across groups, controlling for the effect of neurostimulation alone, coil to cortex distance, and racial background|Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.022||0.008|TWO_SIDED|95.0|0.016|0.103|||Mixed Models Analysis|Comparison between sham neurostimulation and high frequency neurostimulation||A MMANOVA analysis using an unstructured covariance examined the main effect of type of neurostimulation provided||.103|.016|.008
82660836|NCT00796653|165039344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|1.395||0.9365||95.0|-2.625|2.848|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||2.848|-2.625|0.9365
82660837|NCT00796653|165039345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.625|STANDARD_ERROR_OF_MEAN|1.333||0.0491||95.0|-5.241|-0.01|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.010|-5.241|0.0491
82660838|NCT00796653|165039345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.489|STANDARD_ERROR_OF_MEAN|1.341||0.0636||95.0|-5.119|0.141|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.141|-5.119|0.0636
82660839|NCT00796653|165039345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.158|STANDARD_ERROR_OF_MEAN|1.35||0.0194||95.0|-5.806|-0.511|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||-0.511|-5.806|0.0194
82620448|NCT04348591|164957805|SUPERIORITY|The analysis controls for coil to cortex distance, racial background and effect of neurostimulation alone. It compares sham stimulation with low frequency neurostimulation|Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.021||0.001|TWO_SIDED|95.0|0.029|0.111|||Mixed Models Analysis|||A MMANOVA analysis using an unstructured covariance structure examined the main effect of type of neurostimulation provided.||.111|.029|.001
82620449|NCT04348591|164957806|SUPERIORITY||Mean Difference (Final Values)|0.223|STANDARD_ERROR_OF_MEAN|0.232||0.34|TWO_SIDED|95.0|-0.243|0.689|||Mixed Models Analysis||This is the result for the main effect found of group (emotion dysregulation group versus misophonia)|A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.689|-.243|.34
82620450|NCT04348591|164957806|SUPERIORITY||Mean Difference (Final Values)|0.493|STANDARD_ERROR_OF_MEAN|0.148||0.001|TWO_SIDED|95.0|0.198|0.787|||Mixed Models Analysis|This is the main effect of neurostimulation condition. Specifically here we show the difference in estimated marginal means between sham and HF-rTMS||A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.787|.198|.001
82620451|NCT04348591|164957806|SUPERIORITY||Mean Difference (Final Values)|0.469|STANDARD_ERROR_OF_MEAN|0.144||0.002|TWO_SIDED|95.0|0.182|0.757|||Mixed Models Analysis|This is the main effect of neurostimulation administered, specifically comparing estimated marginal means for sham and LF-rTMS||A MMANOVA analysis using an unstructured covariance structure examined changes in SCL between groups, experimental types of neurostimulation, and their interaction, controlling for baseline, racial background, coil to cortex distance, and headache||.757|.182|.002
82620452|NCT04348591|164957806|SUPERIORITY||Mean Difference (Final Values)|0.73||||0.0005|TWO_SIDED||||||Mixed Models Analysis||mean difference between sham and HF-rTMS for misophonia participants only when downregulating misophonic sounds|The investigators tested the interaction between experimental neurostimulation (sham, active high frequency rTMS, active low frequency rTMS), instruction provided (listen to neutral sound; listen to aversive sound, listen to misophonic sound, downregulate aversive sound, downregulate misophonic sound), and group (misophonic, clinical control) as part of the same MMANOVA analysis described above (i.e., controlling for coil-to-cortex distance, racial background, baseline, \& presence of headache).||||.0005
82620453|NCT04348591|164957808|SUPERIORITY||Mean Difference (Final Values)|0.0563|STANDARD_ERROR_OF_MEAN|0.09853||0.57|TWO_SIDED|95.0|-0.14149|0.25411|||t-test, 2 sided|||An independent samples t-test was conducted to examine differences between groups in BOLD bilateral dlPFC signal during the regulation of misophonic versus aversive sounds. One outlier was removed from the misophonia group to avoid violating the normality assumption.||.25411|-.14149|.57
82620454|NCT04348591|164957809|SUPERIORITY||Mean Difference (Final Values)|0.037293|STANDARD_ERROR_OF_MEAN|0.131419||0.778|TWO_SIDED|95.0|-0.22667|0.301257|||t-test, 2 sided|50 degrees of freedom||An independent samples t-test was conducted to examine differences between groups in vmPFC activation that was greater when downregulating misophonic versus non-misophonic distress. One participant from each group was excluded for being an outlier||0.301257|-0.226670|.778
82620455|NCT04348591|164957810|SUPERIORITY||z score|4.69|||<|0.05|TWO_SIDED||||||mixed effects whole-brain using cluster|||Mixed effects (FSL's FLAME 1; Oxford Univ., UK) whole brain analyses using cluster correction following a voxel-wise Z-score threshold of 2.3.||||<.05
82620456|NCT04348591|164957811|SUPERIORITY||Mean Difference (Final Values)|-0.197|STANDARD_ERROR_OF_MEAN|0.283||0.49|TWO_SIDED|95.0|-0.766|0.372|||Mixed Models Analysis|This is the main effect from the MMANOVA analysis for group difference.||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||.372|-.766|.49
82492779|NCT01709513|164678311|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.1|||<|0.0001|TWO_SIDED|95.0|-29.8|-20.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.4|-29.8|<0.0001
82620457|NCT04348591|164957811|SUPERIORITY||Mean Difference (Final Values)|0.909|STANDARD_ERROR_OF_MEAN|0.147|<|1e-07|TWO_SIDED|95.0|0.62|1.97||This p-value corresponds to the difference between sham and HF-rTMS stimulation|Mixed Models Analysis|||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the main effect of neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||1.97|.62|<.0000001
82620458|NCT04348591|164957811|SUPERIORITY||Mean Difference (Final Values)|0.331|STANDARD_ERROR_OF_MEAN|0.139||0.018|TWO_SIDED|95.0|0.057|0.605||The test corresponds to the difference between sham and LF-rTMS|Mixed Models Analysis|||The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the main effect of neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||.605|.057|.018
82620459|NCT04348591|164957811|SUPERIORITY||Mean Difference (Final Values)|1.02|||<|1e-06|TWO_SIDED||||||Mixed Models Analysis||For participants with misophonia difference in distress produced by a misophonic sound when downregulating misophonic sounds while receiving sham vs.HF-rTMS|The MMANOVA analysis of SUDS used a Toeplitz covariance structure. This analysis presents the interaction effect of group by neurostimulation experimental condition. The outcome variable was the difference between SUDS after each sound presentation and baseline, controlling for racial background, headache, and coil to cortex difference. Two participants were excluded from this analysis, one in each condition, because they provided outlier data.||||<.000001
82620460|NCT04348591|164957812|SUPERIORITY||Mean Difference (Final Values)|9.53|STANDARD_ERROR_OF_MEAN|1.92|<|0.001|TWO_SIDED|||||This is the result corresponding to the main effect of time in the repeated measures ANCOVA|ANCOVA|||Repeated measures ANOVA (controlling for racial background)||||<.001
82620461|NCT04348591|164957812|SUPERIORITY||||||>|0.012|||||||ANCOVA|This analysis corresponds to the main effect of group.||Repeated measures ANOVA (controlling for racial background)||||>.012
82620462|NCT04348591|164957813|SUPERIORITY|||||||0.78|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Anxiety subscale||||.78
82620463|NCT04348591|164957813|SUPERIORITY|||||||0.29|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Depression subscale||||.29
82620464|NCT04348591|164957813|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Fatigue subscale||||.64
82620465|NCT04348591|164957813|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Sleep disturbance subscale||||.16
82620466|NCT04348591|164957813|SUPERIORITY|||||||0.56|||||||t-test, 2 sided|||An independent samples t-test was conducted to examine between group differences at the intake assessment on the PROMIS Ability to partake in social roles subscale||||.56
82620467|NCT00186056|164957839|SUPERIORITY_OR_OTHER||||||<|0.26|||||||ANOVA|Interaction of HAMD \* medication group F(2,26)=1.38, eta sq = .05||||||<.26
82620468|NCT04465396|164957876|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% confidence interval (CI) of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|109.22|||||TWO_SIDED|90.0|104.83|113.8|||||The analysis was performed using Proc Mixed in statistical software suite (SAS), with treatment, sequence, period, and participant within sequence as fixed effects.|||113.80|104.83|
82620469|NCT04465396|164957876|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|113.99|||||TWO_SIDED|90.0|108.32|119.95|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||119.95|108.32|
82620470|NCT04465396|164957877|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|98.27|||||TWO_SIDED|90.0|88.5|109.11|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||109.11|88.50|
82492780|NCT01709513|164678312|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-28.2|||<|0.0001|TWO_SIDED|95.0|-32.1|-24.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-24.4|-32.1|<0.0001
82620471|NCT04465396|164957877|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|92.48|||||TWO_SIDED|90.0|83.8|102.05|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||102.05|83.80|
82620472|NCT04465396|164957878|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|109.44|||||TWO_SIDED|90.0|105.51|113.51|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||113.51|105.51|
82620473|NCT04465396|164957878|EQUIVALENCE|Equivalence between pen injector and syringe injection was to be considered established if the 90% CI of the corresponding geometric mean ratio was within the acceptance interval of 80.00% to 125.00%.|Geometric Mean Ratio|118.4|||||TWO_SIDED|90.0|112.31|124.83|||||The analysis was performed using Proc Mixed in SAS, with treatment, sequence, period, and participant within sequence as fixed effects.|||124.83|112.31|
82620474|NCT00438399|164957892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0003||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||0.0003
82620475|NCT00438399|164957892|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||0.007
82620476|NCT00438399|164957892|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||The purpose of the study was to demonstrate the superiority of Clobetasol propionate shampoo over one of three other comparators, in terms of Subject's overall preference. It was to be analyzed using a non parametric two-sided Wilcoxon rank Signed test on ITT population.||||<0.0001
82620477|NCT00723073|164957897|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.99|STANDARD_DEVIATION|1.0||0.96|TWO_SIDED|95.0|0.89|1.1|||Fisher Exact|||||1.10|0.89|0.96
82620478|NCT00723073|164957898|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.0|STANDARD_DEVIATION|1.0|>|0.99|TWO_SIDED|95.0|0.38|2.7|||Fisher Exact|||||2.70|0.38|>0.99
82620479|NCT00723073|164957899|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.93|STANDARD_DEVIATION|1.0|>|0.99|TWO_SIDED|95.0|0.44|1.97|||Fisher Exact|||||1.97|0.44|>0.99
82620480|NCT00723073|164957900|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.12|STANDARD_DEVIATION|1.0||0.48|TWO_SIDED|95.0|0.61|2.07|||Fisher Exact|||||2.07|0.61|0.48
82620481|NCT00723073|164957901|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.57|STANDARD_DEVIATION|1.0||0.57|TWO_SIDED|95.0|0.1|3.37|||Fisher Exact|||||3.37|0.10|0.57
82620482|NCT00723073|164957902|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||Chi-squared|||||||0.66
82620483|NCT00723073|164957905|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Fisher Exact|||||||0.22
82620484|NCT00723073|164957906|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||Fisher Exact|||||||0.11
82620485|NCT00383721|164957944|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82620486|NCT00383721|164957944|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82620487|NCT00383721|164957945|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||ANCOVA|||||||0.062
82620488|NCT00383721|164957945|SUPERIORITY_OR_OTHER_LEGACY|||||||0.583|||||||ANCOVA|||||||0.583
82620489|NCT00383721|164957946|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||ANCOVA|||||||0.020
82620490|NCT00383721|164957946|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANCOVA|||||||<0.001
82620491|NCT03011450|164957950|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620492|NCT03011450|164957951|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620493|NCT03011450|164957952|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620494|NCT03011450|164957953|SUPERIORITY|||||||0.0156|||||||Hodges-Lehmann method|||||||0.0156
82620495|NCT03011450|164957954|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620496|NCT03011450|164957955|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620497|NCT03011450|164957956|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620498|NCT03011450|164957957|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
82620499|NCT03011450|164957958|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82492781|NCT01709513|164678313|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.6|||<|0.0001|TWO_SIDED|95.0|-30.4|-20.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.8|-30.4|<0.0001
82620500|NCT03011450|164957959|SUPERIORITY|||||||0.538|||||||Hodges-Lehmann method|||||||0.5380
82620501|NCT03011450|164957960|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620502|NCT03011450|164957961|SUPERIORITY|||||||0.1165|||||||Hodges-Lehmann method|||||||0.1165
82620503|NCT03011450|164957962|SUPERIORITY|||||||0.0142|||||||Hodges-Lehmann method|||||||0.0142
82620504|NCT03011450|164957963|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620505|NCT03011450|164957964|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620506|NCT03011450|164957965|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620507|NCT03011450|164957966|SUPERIORITY|||||||0.4589|||||||Hodges-Lehmann method|||||||0.4589
82620508|NCT03011450|164957967|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620509|NCT03011450|164957968|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620510|NCT03011450|164957969|OTHER||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620511|NCT03011450|164957970|SUPERIORITY|||||||0.2486|||||||Hodges-Lehmann method|||||||0.2486
82620512|NCT03011450|164957971|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620513|NCT03011450|164957972|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620514|NCT03011450|164957973|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620515|NCT03011450|164957974|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620516|NCT03011450|164957975|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
82620517|NCT03011450|164957976|SUPERIORITY|||||||0.2763|||||||Hodges-Lehmann method|||||||0.2763
82620518|NCT03011450|164957977|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620519|NCT03011450|164957978|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620520|NCT03011450|164957979|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620521|NCT03011450|164957980|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620522|NCT03011450|164957981|SUPERIORITY|||||||0.1651|||||||Hodges-Lehmann method|||||||0.1651
82620523|NCT03011450|164957982|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620524|NCT03011450|164957983|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620525|NCT03011450|164957984|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620526|NCT03011450|164957985|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620527|NCT03011450|164957986|SUPERIORITY|||||||0.5107|||||||Hodges-Lehmann method|||||||0.5107
82620528|NCT03011450|164957987|SUPERIORITY||Hodges-Lehmann method|||||0.0018|||||||Hodges-Lehmann method|||||||0.0018
82620529|NCT03011450|164957988|SUPERIORITY|||||||0.0742|||||||Hodges-Lehmann method|||||||0.0742
82620530|NCT03011450|164957989|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620531|NCT03011450|164957990|SUPERIORITY|||||||0.2707|||||||Hodges-Lehmann method|||||||0.2707
82620532|NCT03011450|164957991|SUPERIORITY|||||||0.0009|||||||Hodges-Lehmann method|||||||0.0009
82620533|NCT03011450|164957992|SUPERIORITY|||||||0.2879|||||||Hodges-Lehmann method|||||||0.2879
82620534|NCT03011450|164957993|SUPERIORITY|||||||0.9786|||||||Hodges-Lehmann method|||||||0.9786
82620535|NCT03011450|164957994|SUPERIORITY|||||||0.0075|||||||Hodges-Lehmann method|||||||0.0075
82620536|NCT03011450|164957995|SUPERIORITY|||||||0.0241|||||||Hodges-Lehmann method|||||||0.0241
82620537|NCT03011450|164957996|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620538|NCT03011450|164957997|SUPERIORITY|||||||0.0502|||||||Hodges-Lehmann method|||||||0.0502
82620539|NCT03011450|164957998|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620540|NCT03011450|164957999|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<.0001
82620541|NCT03011450|164958000|SUPERIORITY|||||||0.0209|||||||Hodges-Lehmann method|||||||0.0209
82620542|NCT03011450|164958001|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620543|NCT03011450|164958002|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620544|NCT03011450|164958003|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620545|NCT03011450|164958004|SUPERIORITY||||||<|0.0001|||||||non-parametric Hodges-Lehmann method|||||||<0.0001
82620546|NCT03011450|164958005|SUPERIORITY|||||||0.0001|||||||Hodges-Lehmann method|||||||0.0001
82620547|NCT03011450|164958006|SUPERIORITY||||||<|0.0001|||||||Hodges-Lehmann method|||||||<0.0001
82620548|NCT01299610|164958066|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.38|STANDARD_ERROR_OF_MEAN|0.538||0.48|TWO_SIDED|95.0|-1.46|0.7|||Mixed model for repeated measures|||||0.70|-1.46|0.480
82620549|NCT01299610|164958066|SUPERIORITY_OR_OTHER||mixed model for repeated measures|-0.89|STANDARD_ERROR_OF_MEAN|0.557||0.118|TWO_SIDED|95.0|-2.0|0.23|||Mixed model for repeated measures|||||0.23|-2.00|0.118
82620550|NCT01299610|164958066|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.51|STANDARD_ERROR_OF_MEAN|0.572||0.011|TWO_SIDED|95.0|-2.65|-0.36|||Mixed model for repeated measures|||||-0.36|-2.65|0.011
82620551|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.09|STANDARD_ERROR_OF_MEAN|0.16||0.581|TWO_SIDED|95.0|-0.24|0.42|||Mixed model repeated measures|||GW870086, 0.2% cream Vs Placebo: Day 2||0.42|-0.24|0.581
82620552|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.08|STANDARD_ERROR_OF_MEAN|0.169||0.655|TWO_SIDED|95.0|-0.42|0.27|||Mixed model repeated measures|||GW870086, 2.0% cream Vs Placebo: Day 2||0.27|-0.42|0.655
82620553|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.17|STANDARD_ERROR_OF_MEAN|0.174||0.336||95.0|-0.52|0.18|||Mixed model repeated measures|||FP, 0.05% cream Vs Placebo: Day 2||0.18|-0.52|0.336
82620554|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.03|STANDARD_ERROR_OF_MEAN|0.302||0.923|TWO_SIDED|95.0|-0.58|0.63|||Mixed model repeated measures|||GW870086 0.2% cream Vs Placebo: Day 3||0.63|-0.58|0.923
82620555|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|0.14|STANDARD_ERROR_OF_MEAN|0.314||0.657|TWO_SIDED|95.0|-0.49|0.77|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 3||0.77|-0.49|0.657
82620556|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.28|STANDARD_ERROR_OF_MEAN|0.323||0.386|TWO_SIDED|95.0|-0.93|0.36|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 3||0.36|-0.93|0.386
82620557|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.24|STANDARD_ERROR_OF_MEAN|0.456||0.601|TWO_SIDED|95.0|-1.15|0.67|||Mixed model repeated measures|||GW870086, 0.2% cream, Placebo: Day 7||0.67|-1.15|0.601
82620558|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.6|STANDARD_ERROR_OF_MEAN|0.472||0.212|TWO_SIDED|95.0|-1.54|0.35|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 7||0.35|-1.54|0.212
82620559|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.29|STANDARD_ERROR_OF_MEAN|0.485||0.01|TWO_SIDED|95.0|-2.26|-0.32|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 7||-0.32|-2.26|0.010
82620560|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.24|STANDARD_ERROR_OF_MEAN|0.462||0.602|TWO_SIDED|95.0|-1.17|0.68|||Mixed model repeated measures|||GW870086, 0.2% cream, Placebo: Day 14||0.68|-1.17|0.602
82620561|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-0.65|STANDARD_ERROR_OF_MEAN|0.479||0.18|TWO_SIDED|95.0|-1.61|0.31|||Mixed model repeated measures|||GW870086, 2.0% cream, Placebo: Day 14||0.31|-1.61|0.180
82660840|NCT00796653|165039346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.846|STANDARD_ERROR_OF_MEAN|0.972||0.0034|TWO_SIDED|95.0|-4.751|-0.94|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Olo 5 mcg minus placebo||-0.940|-4.751|0.0034
82620562|NCT01299610|164958067|SUPERIORITY_OR_OTHER||Difference in Adjusted Means|-1.39|STANDARD_ERROR_OF_MEAN|0.492||0.006|TWO_SIDED|95.0|-2.37|-0.4|||Mixed model repeated measures|||Placebo, FP, 0.05% cream: Day 14||-0.40|-2.37|0.006
82620563|NCT00884221|164958100|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by constructing a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower-limit of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and it would be claimed that highly purified menotrophin was non-inferior to recombinant FSH with respect to ongoing pregnancy rate in a single fresh treatment cycle following a GnRH antagonist protocol.|Difference in pregnancy rates, ITT|2.2||||0.499|TWO_SIDED|95.0|-4.2|8.6||Since there was only one primary endpoint, no adjustment for multiplicity was needed for the primary analysis.|Sign test|A two-sided 95% confidence interval for the difference in ongoing pregnancy rates was made. The CI was based on a normal approximation.|Difference tested: highly purified menotrophin-recombinant FSH, ITT analysis set|"The non-inferiority hypothesis to be tested for the primary endpoint was:~H0: π MENOPUR - π recombinant FSH ≤ -10.0% against the alternative H1: π MENOPUR - π recombinant FSH \> -10.0%,~where π MENOPUR and π recombinant FSH denote the ongoing pregnancy rate after treatment with MENOPUR and recombinant FSH, respectively, in a single fresh treatment cycle following a GnRH antagonist protocol."||8.6|-4.2|0.499
82620564|NCT00884221|164958101|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Estradiol||||<0.001
82620565|NCT00884221|164958102|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||FSH||||<0.001
82660841|NCT00796653|165039346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.434|STANDARD_ERROR_OF_MEAN|0.973||0.0004|TWO_SIDED|95.0|-5.343|-1.525|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Olo 10 mcg minus placebo||-1.525|-5.343|0.0004
82620566|NCT00884221|164958103|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Free Androgen Index||||<0.001
82620567|NCT00884221|164958104|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Luteinizing hormone||||<0.001
82620568|NCT00884221|164958105|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Progesterone||||0.630
82620569|NCT00884221|164958106|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis (H0) was tested against the alternative by constructing a two-sided 95% confidence interval for the difference in ongoing pregnancy rates. If the lower-limit of the 95% confidence interval was greater than the non-inferiority limit (-10.0%), the null hypothesis was rejected and it would be claimed that highly purified menotrophin was non-inferior to recombinant FSH with respect to ongoing pregnancy rate in a single fresh treatment cycle following a GnRH antagonist protocol.|Difference in pregnancy rates, PP|3.0||||0.387|TWO_SIDED|95.0|-3.8|9.8||Since there was only one primary endpoint, no adjustment for multiplicity was needed for the primary analysis.|Sign test|A two-sided 95% confidence interval for the difference in ongoing pregnancy rates was made. The CI was based on a normal approximation.|Difference tested: highly purified menotrophin - recombinant FSH, PP|"The non-inferiority hypothesis to be tested for the primary endpoint was:~H0: π MENOPUR - π recombinant FSH ≤ -10.0% against the alternative H1: π MENOPUR - π recombinant FSH \> -10.0%,~where π MENOPUR and π recombinant FSH denote the ongoing pregnancy rate after treatment with MENOPUR and recombinant FSH, respectively, in a single fresh treatment cycle following a GnRH antagonist protocol."||9.8|-3.8|0.387
82620570|NCT00884221|164958107|SUPERIORITY_OR_OTHER|||||||0.047||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Prolactin||||0.047
82660842|NCT00796653|165039346|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.248|STANDARD_ERROR_OF_MEAN|0.976||0.2009|TWO_SIDED|95.0|-3.161|0.665|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect||Form 12 mcg minus placebo||0.665|-3.161|0.2009
82620571|NCT00884221|164958108|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Sex hormone binding globulin||||0.009
82620572|NCT00884221|164958109|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Linear|Tests for treatment differences were based on log-transformed values and adjusted for baseline values||Testosterone||||<0.001
82620573|NCT00884221|164958110|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles \>= 12 mm on the last stimulation day||||0.025
82620574|NCT00884221|164958110|SUPERIORITY_OR_OTHER|||||||0.024||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles 12-14 mm on the last stimulation day||||0.024
82620575|NCT00884221|164958110|SUPERIORITY_OR_OTHER|||||||0.728||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles 15-16 mm on the last stimulation day||||0.728
82620576|NCT00884221|164958110|SUPERIORITY_OR_OTHER|||||||0.285||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatment groups of the average number of follicles \>=17 mm on the last stimulation day||||0.285
82620577|NCT00884221|164958111|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|Only participants who underwent the oocyte retrieval procedure were included in the analysis||Treatments were compared using the Wilcoxon test for the average number of oocytes retrieved.||||<0.001
82620578|NCT00884221|164958112|SUPERIORITY_OR_OTHER|||||||0.969||95.0|||||Wilcoxon (Mann-Whitney)|Only participants who had oocytes retrieved were included in the analysis.||||||0.969
82620579|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.406||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 1 / 2pn||||0.406
82660843|NCT00796653|165039347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.123|0.196|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.196|0.123|<0.0001
82620580|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.232||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 2 / 2pn||||0.232
82660844|NCT00796653|165039347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.193|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.157|0.229|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.229|0.157|<0.0001
82620581|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.412||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 3 / 2pn||||0.412
82620582|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.438||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 4 / 2pn||||0.438
82620583|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.39||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status 5 / 2pn||||0.390
82620584|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.958||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status, inner cell mass grading and trophectoderm grading 4AA / 2pn||||0.958
82620585|NCT00884221|164958113|SUPERIORITY_OR_OTHER|||||||0.954||95.0|||||Wilcoxon (Mann-Whitney)|||Comparison between treatments groups of percentage of blastocysts with expansion and hatching status, inner cell mass grading and trophectoderm grading 5AA / 2pn||||0.954
82620586|NCT00884221|164958114|SUPERIORITY_OR_OTHER||Comparison of distributions|0.398||||0.398|TWO_SIDED|95.0|-3.6|9.1|||Wilcoxon (Mann-Whitney)|A two-sided 95% confidence interval for the difference in live birth rates was made. The CI was based on a normal approximation.|Estimated value is difference between highly purified menotrophin and recombinant FSH, ITT analysis set|||9.1|-3.6|0.398
82620587|NCT00884221|164958115|SUPERIORITY_OR_OTHER||Comparison of distributions|1.8||||0.686|TWO_SIDED|95.0|-5.6|9.2|||Wilcoxon (Mann-Whitney)|A two-sided 95% confidence interval for the difference in cumulative live birth rates was made. The CI was based on a normal approximation.|Estimated value is difference between highly purified menotrophin and recombinant FSH, ITT analysis set|||9.2|-5.6|0.686
82620588|NCT04172701|164958117|OTHER||||||<|0.0001|||||||Individual log-linked Poisson model|||||||<0.0001
82620589|NCT04172701|164958118|OTHER||||||<|0.001|||||||Individual t-test or Wilcoxon test|||||||<0.001
82620590|NCT04172701|164958119|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82620591|NCT04172701|164958120|OTHER||Hazard Ratio (HR)|1.475|||<|0.0001|TWO_SIDED|95.0|1.308|1.663|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model.The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.663|1.308|<0.0001
82620592|NCT04172701|164958121|OTHER|||||||0.0003|||||||Individual log-linked Poisson model|||||||0.0003
82620593|NCT04172701|164958122|OTHER|||||||0.001|||||||Individual t-test or Wilcoxon test|||||||0.001
82620594|NCT04172701|164958123|OTHER||Hazard Ratio (HR)|1.145||||0.0006|TWO_SIDED|95.0|1.059|1.237|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.237|1.059|0.0006
82620595|NCT04172701|164958124|OTHER|||||||0.00074|||||||Log Rank|||||||0.00074
82492782|NCT01709513|164678314|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-29.8|||<|0.0001|TWO_SIDED|95.0|-33.9|-25.8||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-25.8|-33.9|<0.0001
82620596|NCT04172701|164958125|OTHER||||||<|0.0001|||||||Individual log-linked Poisson model|||||||<0.0001
82660845|NCT00796653|165039347|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.162|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.126|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.199|0.126|<0.0001
82620597|NCT04172701|164958126|OTHER||Hazard Ratio (HR)|1.601|||<|0.0001|TWO_SIDED|95.0|1.404|1.826|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.826|1.404|<0.0001
82620598|NCT04172701|164958127|OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82620599|NCT04172701|164958128|OTHER|||||||0.2875|||||||Wilcoxon (Mann-Whitney)|||||||0.2875
82620600|NCT04172701|164958129|OTHER|||||||0.4602|||||||Individual t-test or Wilcoxon test|||||||0.4602
82620601|NCT04172701|164958130|OTHER|||||||0.0062|||||||Wilcoxon (Mann-Whitney)|||||||0.0062
82620602|NCT04172701|164958131|OTHER|||||||0.0002|||||||Individual t-test or Wilcoxon test|||||||0.0002
82620603|NCT04172701|164958132|OTHER|||||||0.4907|||||||Individual t-test or Wilcoxon test|||||||0.4907
82620604|NCT04172701|164958133|OTHER||||||<|0.001|||||||Individual t-test or Wilcoxon test|||||||<0.001
82620605|NCT04172701|164958134|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82620606|NCT04172701|164958135|OTHER|||||||0.543|||||||Individual t-test or Wilcoxon test|||||||0.543
82620607|NCT04172701|164958136|OTHER|||||||0.08|||||||Wilcoxon (Mann-Whitney)|||||||0.080
82620608|NCT04172701|164958137|OTHER|||||||0.363|||||||Individual t-test or Wilcoxon test|||||||0.363
82620609|NCT04172701|164958138|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
82620610|NCT04172701|164958139|OTHER|||||||0.0494|||||||Individual t-test or Wilcoxon test|||||||0.0494
82620611|NCT04172701|164958140|OTHER|||||||0.0091|||||||Individual t-test or Wilcoxon test|||||||0.0091
82620612|NCT04172701|164958141|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
82620613|NCT04172701|164958142|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
82620614|NCT04172701|164958143|OTHER|||||||0.7298|||||||Individual t-test or Wilcoxon test|||||||0.7298
82620615|NCT04172701|164958144|OTHER|||||||0.0093|||||||Individual t-test or Wilcoxon test|||||||0.0093
82620616|NCT04172701|164958145|OTHER||||||<|0.0001|||||||Individual t-test or Wilcoxon test|||||||<0.0001
82620617|NCT04172701|164958146|OTHER||Cost ratio|1.177|||<|0.0001|TWO_SIDED|95.0|1.104|1.255|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.255|1.104|<0.0001
82620618|NCT04172701|164958147|OTHER||Cost ratio|1.194||||0.0103|TWO_SIDED|95.0|1.043|1.367|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.367|1.043|0.0103
82620619|NCT04172701|164958148|OTHER||Cost ratio|1.104||||0.003|TWO_SIDED|95.0|1.034|1.178|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.178|1.034|0.0030
82620620|NCT04172701|164958149|OTHER||Cost ratio|1.175|||<|0.0001|TWO_SIDED|95.0|1.13|1.221|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.221|1.130|<0.0001
82620621|NCT04172701|164958150|OTHER||Cost ratio|1.236|||<|0.0001|TWO_SIDED|95.0|1.134|1.346|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.346|1.134|<0.0001
82620622|NCT04172701|164958151|OTHER||Cost ratio|1.214||||0.0212|TWO_SIDED|95.0|1.029|1.431|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.431|1.029|0.0212
82620623|NCT04172701|164958152|OTHER||Cost ratio|1.026||||0.5024|TWO_SIDED|95.0|0.952|1.105|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.105|0.952|0.5024
82620624|NCT04172701|164958153|OTHER||Cost ratio|1.304|||<|0.0001|TWO_SIDED|95.0|1.243|1.369|||Individual t-test or Wilcoxon test||cost ratio = cost of ICS/LABA divided by cost of LAMA|||1.369|1.243|<0.0001
82620625|NCT04172701|164958154|OTHER|||||||0.7198|||||||Individual log-linked Poisson model|||||||0.7198
82620626|NCT04172701|164958155|OTHER||Hazard Ratio (HR)|1.072||||0.7341|TWO_SIDED|95.0|0.719|1.598|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.598|0.719|0.7341
82620627|NCT04172701|164958156|OTHER|||||||0.74|||||||Log Rank|||||||0.74
82620628|NCT04172701|164958157|OTHER|||||||0.9985|||||||Individual log-linked Poisson model|||||||0.9985
82620629|NCT04172701|164958158|OTHER||Hazard Ratio (HR)|0.879||||0.5097|TWO_SIDED|95.0|0.6|1.289|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.289|0.600|0.5097
82620630|NCT04172701|164958159|OTHER|||||||0.51|||||||Log Rank|||||||0.51
82620631|NCT04172701|164958160|OTHER|||||||0.6069|||||||Individual log-linked Poisson model|||||||0.6069
82620632|NCT04172701|164958161|OTHER||Hazard Ratio (HR)|1.025||||0.896|TWO_SIDED|95.0|0.705|1.49|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.490|0.705|0.8960
82620633|NCT04172701|164958162|OTHER|||||||0.9|||||||Log Rank|||||||0.9
82620634|NCT04172701|164958163|OTHER|||||||0.1354|||||||Individual log-linked Poisson model|||||||0.1354
82620635|NCT04172701|164958164|OTHER||Hazard Ratio (HR)|0.59||||0.1158|TWO_SIDED|95.0|0.305|1.139|||Regression, Cox|||The Cox proportional hazards regression took into account the fact that individual matching (1:1) was performed by considering the exposed patient and his/her matched control as one stratum and including this as a stratum in the Cox proportional hazards model. The presented Hazard Ratio (HR) was estimated using the LAMA as a reference group.||1.139|0.305|0.1158
82620636|NCT04172701|164958165|OTHER|||||||0.11|||||||Log Rank|||||||0.11
82620637|NCT02126670|164958166|SUPERIORITY_OR_OTHER|||||||0.799|TWO_SIDED||||||Chi-squared|||||||0.799
82620638|NCT00600028|164958168|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.001|TWO_SIDED|95.0|||||Mixed Models Analysis||The values represents three months on each intervention|||||0.001
82620639|NCT00600028|164958169|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.0||||0.0001|TWO_SIDED|95.0|||||Mixed Models Analysis||The values represents three months on each intervention|||||.0001
82620640|NCT03172481|164958170|OTHER|The primary efficacy analysis used a mixed-model repeated measures (MMRM) analysis on the full day laboratory classroom SKAMP-C scores from each time point as the dependent variable. The repeated measures model adjusted means (LS-means) for PRC-063 and placebo were compared statistically using a t-test with an overall 5% significance level to evaluate efficacy. The LS-means estimate an overall treatment effect across the entire 13-hour classroom evaluation.|||||<|0.0001|||||||ANOVA|||||||<0.0001
82620641|NCT00865189|164958195|SUPERIORITY_OR_OTHER|||||||0.015|||||||Binomial test|||This proportion was described for each treatment arm with a 95% confidence interval (CI) and compared with the standard proportion of 10% (CI) for each treatment arm.||||0.015
82620642|NCT00865189|164958195|SUPERIORITY_OR_OTHER|||||||0.906|||||||Binomial test|||This proportion was described for each treatment arm with a 95% CI and compared with the standard proportion of 10% (CI) using for each treatment arm.||||0.906
82620643|NCT01978509|164958207|SUPERIORITY|||||||0.7|||||||ANOVA|||||||0.70
82620644|NCT00084929|164958214|OTHER||Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.853|0.933||||||Accuracy: ROC analysis Receiver-operating-characteristic (ROC) curves were estimated with the use of data pooled from the radiologists because of the small number of positive cases reviewed by each radiologist.||0.933|0.853|
82620645|NCT00084929|164958214|OTHER||"Sensitivity: P(T+|D+)"|0.9|||||TWO_SIDED|95.0|0.838|0.96|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|"Sensitivity, for each radiologist, was calculated as the percentage of patients with lesions that were larger than or equal to the prespecified threshold and that were detected on both colonoscopy and CT colonography.~The per-patient sensitivity, specificity, positive predictive value, and negative predictive value were first estimated for each radiologist, and then the average values among the radiologists were calculated."||0.96|0.838|
82620646|NCT00084929|164958214|OTHER||"P(T-|D-)"|0.86|||||TWO_SIDED|95.0|0.813|0.9|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Specificity, for each radiologist, was calculated as the percentage of patients who did not have lesions larger than the prespecified threshold on colonoscopy as well as CT colonography The per-patient sensitivity, specificity, positive predictive value, and negative predictive value were first estimated for each radiologist, and then the average values among the radiologists were calculated.||0.9|0.813|
82620647|NCT00084929|164958214|OTHER||"P(D+|T+)"|0.23|||||TWO_SIDED|95.0|0.194|0.273|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Positive Predictive Value (PPV) the positive predictive value was calculated as the percentage of patients with CT colonographic findings that were also seen on colonoscopy||0.273|0.194|
82620648|NCT00084929|164958214|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.99|0.998|||||Exact 95% confidence intervals were calculated for each radiologist, and large-sample 95% confidence intervals were calculated for overall estimates, with the use of standard errors that allowed for estimation of variation among radiologists.|Negative Predictive Value (NPV) the negative predictive value was calculated as the percentage of patients with no CT colonographic findings larger than the prespecified threshold that were not detected on colonoscopy.||0.998|0.990|
82620649|NCT00084929|164958215|OTHER||Area Under the Curve (AUC)|0.89|||||TWO_SIDED|95.0|0.853|0.93||||||"Accuracy: ROC analysis CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.93|0.853|
82620650|NCT00084929|164958215|OTHER||"Sensitivity: P(T+|D+)"|0.9|||||TWO_SIDED|95.0|0.832|0.96|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|"Sensitivity CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.96|0.832|
82620651|NCT00084929|164958215|OTHER||"P(T-|D-)"|0.86|||||TWO_SIDED|95.0|0.817|0.902|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|"Specificity CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.902|0.817|
82620652|NCT00084929|164958215|OTHER||"P(D+|T+)"|0.25|||||TWO_SIDED|95.0|0.209|0.292||||||"Positive Predictive Value (PPV) CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.292|0.209|
82660846|NCT00796653|165039348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.172|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.136|0.209|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.209|0.136|<0.0001
82620653|NCT00084929|164958215|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.99|0.998||||||"Negative Predictive Value (NPV) CTC lesions needed to be within 2 segments and 50% size of the lesions removed via colonoscopy to be considered detected"||0.998|0.990|
82620654|NCT00084929|164958216|OTHER||Area Under the Curve (AUC)|0.88|||||TWO_SIDED|95.0|0.842|0.913||||||Accuracy: ROC analysis||0.913|0.842|
82620655|NCT00084929|164958216|OTHER||"Sensitivity: P(T+|D+)"|0.87|||||TWO_SIDED|95.0|0.803|0.929|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.929|0.803|
82620656|NCT00084929|164958216|OTHER||"P(T-|D-)"|0.87|||||TWO_SIDED|95.0|0.825|0.909|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.909|0.825|
82660847|NCT00796653|165039348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.155|0.228|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.228|0.155|<0.0001
82620657|NCT00084929|164958216|OTHER||"P(D+|T+)"|0.31|||||TWO_SIDED|95.0|0.256|0.355||||||Positive Predictive Value (PPV)||0.355|0.256|
82620658|NCT00084929|164958216|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.984|0.994||||||Negative Predictive Value (NPV)||0.994|0.984|
82620659|NCT00084929|164958217|OTHER||Area Under the Curve (AUC)|0.87|||||TWO_SIDED|95.0|0.833|0.902||||||Accuracy: ROC analysis||0.902|0.833|
82620660|NCT00084929|164958217|OTHER||"Sensitivity: P(T+|D+)"|0.84|||||TWO_SIDED|95.0|0.776|0.912|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.912|0.776|
82620661|NCT00084929|164958217|OTHER||"P(T-|D-)"|0.87|||||TWO_SIDED|95.0|0.831|0.914|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.914|0.831|
82620662|NCT00084929|164958217|OTHER||"P(D+|T+)"|0.35|||||TWO_SIDED|95.0|0.299|0.397||||||Positive Predictive Value (PPV)||0.397|0.299|
82620663|NCT00084929|164958217|OTHER||"P(D-|T-)"|0.99|||||TWO_SIDED|95.0|0.98|0.992||||||Negative Predictive Value (NPV)||0.992|0.980|
82620664|NCT00084929|164958218|OTHER||Area Under the Curve (AUC)|0.84|||||TWO_SIDED|95.0|0.81|0.878||||||Accuracy: ROC analysis||0.878|0.810|
82620665|NCT00084929|164958218|OTHER||"Sensitivity: P(T+|D+)"|0.78|||||TWO_SIDED|95.0|0.711|0.849|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.849|0.711|
82660848|NCT00796653|165039348|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.184|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.148|0.221|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.221|0.148|<0.0001
82660849|NCT00796653|165039349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.145|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.108|0.182|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.182|0.108|<0.0001
82660850|NCT00796653|165039349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.175|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.138|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.138|<0.0001
82620666|NCT00084929|164958218|OTHER||"P(T-|D-)"|0.88|||||TWO_SIDED|95.0|0.84|0.92|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.92|0.840|
82620667|NCT00084929|164958218|OTHER||"P(D+|T+)"|0.4|||||TWO_SIDED|95.0|0.335|0.463||||||Positive Predictive Value (PPV)||0.463|0.335|
82620668|NCT00084929|164958218|OTHER||"P(D-|T-)"|0.98|||||TWO_SIDED|95.0|0.971|0.984||||||Negative Predictive Value (NPV)||0.984|0.971|
82620669|NCT00084929|164958219|OTHER||Area Under the Curve (AUC)|0.8|||||TWO_SIDED|95.0|0.763|0.828||||||Accuracy: ROC analysis||0.828|0.763|
82620670|NCT00084929|164958219|OTHER||"Sensitivity: P(T+|D+)"|0.65|||||TWO_SIDED|95.0|0.579|0.727|||||Sensitivity indicates the percent of patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity||0.727|0.579|
82620671|NCT00084929|164958219|OTHER||"P(T-|D-)"|0.89|||||TWO_SIDED|95.0|0.851|0.923|||||Specificity indicates the percent of patients who had not lesions detected on optical colonoscopy, who had no lesions detected on CTC.|Specificity||0.923|0.851|
82620672|NCT00084929|164958219|OTHER||"P(D+|T+)"|0.45|||||TWO_SIDED|95.0|0.389|0.513||||||Positive Predictive Value (PPV)||0.513|0.389|
82620673|NCT00084929|164958219|OTHER||"P(D-|T-)"|0.95|||||TWO_SIDED|95.0|0.941|0.965||||||Negative Predictive Value (NPV)||0.965|0.941|
82492783|NCT01709513|164678315|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-20.8|||<|0.0001|TWO_SIDED|95.0|-24.7|-17.0||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-17.0|-24.7|<0.0001
82620674|NCT00084929|164958220|OTHER||"Sensitivity: P(T+|D+)"|0.84|STANDARD_ERROR_OF_MEAN|0.043|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion (\>=10mm))||||
82620675|NCT00084929|164958221|OTHER||"Sensitivity: P(T+|D+)"|0.82|STANDARD_ERROR_OF_MEAN|0.042|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion (\>=9mm))||||
82620676|NCT00084929|164958222|OTHER||"Sensitivity: P(T+|D+)"|0.8|STANDARD_ERROR_OF_MEAN|0.041|||TWO_SIDED||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=8mm)||||
82620677|NCT00084929|164958223|OTHER||"Sensitivity: P(T+|D+)"|0.75|STANDARD_ERROR_OF_MEAN|0.042|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=7mm)||||
82620678|NCT00084929|164958224|OTHER||"Sensitivity: P(T+|D+)"|0.7|STANDARD_ERROR_OF_MEAN|0.046|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=6mm)||||
82620679|NCT00084929|164958225|OTHER||"Sensitivity: P(T+|D+)"|0.59|STANDARD_ERROR_OF_MEAN|0.045|||||||||||Sensitivity indicates the percent of lesions in patients who had a lesions (of the specified size) detected by optical colonoscopy, which were detected by CTC|Sensitivity (per lesion \>=5mm)||||
82620680|NCT00844649|164958227|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.72|||<|0.0001|TWO_SIDED|95.0|0.617|0.835||P-value was based on a stratified log-rank test stratified by randomization strata of geographic region (North America versus Others), Karnofsky performance score (70 to 80 versus 90 to 100), and presence of liver metastasis|Stratified Log-rank Test||Hazard ratio of Albumin bound paclitaxel + gemcitabine/gemcitabine alone. The associated hazard ratio and two-sided 95% confidence interval were estimated using a stratified Cox proportional hazard model.|||0.835|0.617|<0.0001
82660851|NCT00796653|165039349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.133|0.208|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.208|0.133|<0.0001
82660852|NCT00796653|165039350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.08|0.156|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.156|0.080|<0.0001
82620681|NCT00844649|164958228|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.69|||<|0.0001|TWO_SIDED|95.0|0.581|0.821||P-value was based on a stratified log-rank test by randomization strata of geographic region (North America versus Others), Karnofsky performance score (70 to 80 versus 90 to 100), and presence of liver metastasis (yes vs no)|Stratified Log-rank Test||Hazard ratio of Albumin bound paclitaxel + gemcitabine / gemcitabine alone. The associated hazard ratio and two-sided 95% confidence interval were estimated using a stratified Cox proportional hazard model.|||0.821|0.581|<0.0001
82620682|NCT00844649|164958229|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|3.19|||<|0.0001|TWO_SIDED|95.0|2.178|4.662|||Chi-squared||Response rate ratio: albumin-bound paclitaxel + gemcitabine /gemcitabine alone|PA+G/PG = response rate ratio of albumin bound paclitaxel + gemcitabine / gemcitabine.||4.662|2.178|<0.0001
82620683|NCT00091026|164958241|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.0||||0.22|TWO_SIDED|95.0|-13.0|14.0|||Chi-squared|||||14|-13|0.22
82620684|NCT00091026|164958242|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||Log Rank|||||||0.95
82620685|NCT00091026|164958243|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||Log Rank|||||||0.86
82620686|NCT00065442|164958246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.775||||0.032|TWO_SIDED|95.0|0.614|0.979|||Regression, Cox|Cox regression model with treatment, PSA (ln), and LDH (ln) as the independent variables, stratified by randomization strata.|sipuleucel-T/placebo|||0.979|0.614|0.032
82620687|NCT00065442|164958246|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.766||||0.023|TWO_SIDED|95.0|0.608|0.965|||Log Rank|Stratified by randomization strata.|Cox regression model with treatment as the independent variable, stratified by randomization strata (sipuleucel-T/placebo)|||0.965|0.608|0.023
82620688|NCT00065442|164958247|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.951||||0.628|TWO_SIDED|95.0|0.773|1.169|||Log Rank|Stratified by randomization strata|Cox regression model with treatment as the independent variable, stratified by randomization strata|||1.169|0.773|0.628
82620689|NCT01797965|164958264|SUPERIORITY|||||||0.5937|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 12||||0.5937
82620690|NCT01797965|164958264|SUPERIORITY|||||||0.6233|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 24||||0.6233
82620691|NCT01797965|164958264|SUPERIORITY|||||||0.1884|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 48||||0.1884
82620692|NCT01797965|164958265|SUPERIORITY|||||||0.0204|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 301||||0.0204
82620693|NCT01797965|164958265|SUPERIORITY|||||||0.0805|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 301||||0.0805
82620694|NCT01797965|164958265|SUPERIORITY|||||||0.2535|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 36 for 301||||0.2535
82620695|NCT01797965|164958265|SUPERIORITY|||||||0.4738|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 301||||0.4738
82620696|NCT01797965|164958265|SUPERIORITY|||||||0.2302|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 60 for 301||||0.2302
82620697|NCT01797965|164958265|SUPERIORITY|||||||0.8522|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 72 for 301||||0.8522
82620698|NCT01797965|164958265|SUPERIORITY|||||||0.0431|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 84 for 301||||0.0431
82620699|NCT01797965|164958265|SUPERIORITY|||||||0.0339|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 96 for 301||||0.0339
82620700|NCT01797965|164958265|SUPERIORITY|||||||0.3195|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 108 for 301||||0.3195
82620701|NCT01797965|164958265|SUPERIORITY|||||||0.2119|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 120 for 301||||0.2119
82620702|NCT01797965|164958265|SUPERIORITY|||||||0.3619|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 132 for 301||||0.3619
82620703|NCT01797965|164958265|SUPERIORITY|||||||0.017|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 301||||0.0170
82620704|NCT01797965|164958265|SUPERIORITY|||||||0.017|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Baseline 303||||0.0170
82620705|NCT01797965|164958265|SUPERIORITY|||||||0.0849|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 303||||0.0849
82620706|NCT01797965|164958265|SUPERIORITY|||||||0.0057|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 303||||0.0057
82620707|NCT01797965|164958265|SUPERIORITY|||||||0.396|||||||ANCOVA|Based on ranks and adjusted for the baseline Z-score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 303||||0.3960
82620708|NCT01797965|164958267|SUPERIORITY||Odds Ratio (OR)|0.902||||0.8417|TWO_SIDED|95.0|0.329|2.473|||Regression, Logistic|Adjusted for the baseline relapse rate, history of prior IFN beta use (yes/no), baseline EDSS (\<=2.5 vs \>2.5) and baseline age (\<=35 vs \>35).||||2.473|0.329|0.8417
82620709|NCT01797965|164958289|SUPERIORITY|||||||0.3813|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 12||||0.3813
82620710|NCT01797965|164958289|SUPERIORITY|||||||0.1679|||||||ANOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 24||||0.1679
82620711|NCT01797965|164958289|SUPERIORITY|||||||0.5634|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 48||||0.5634
82620712|NCT01797965|164958289|SUPERIORITY|||||||0.7003|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 144||||0.7003
82620713|NCT01797965|164958289|SUPERIORITY|||||||0.7812|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 168||||0.7812
82620714|NCT01797965|164958289|SUPERIORITY|||||||0.3246|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 192||||0.3246
82620715|NCT01797965|164958289|SUPERIORITY|||||||0.6423|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 216||||0.6423
82620716|NCT01797965|164958289|SUPERIORITY|||||||0.0288|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change to Week 240||||0.0288
82620717|NCT01797965|164958290|SUPERIORITY|||||||0.2567|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 301||||0.2567
82620718|NCT01797965|164958290|SUPERIORITY|||||||0.6152|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 301||||0.6152
82620719|NCT01797965|164958290|SUPERIORITY|||||||0.2024|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 36 for 301||||0.2024
82620720|NCT01797965|164958290|SUPERIORITY|||||||0.9988|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 301||||0.9988
82620721|NCT01797965|164958290|SUPERIORITY|||||||0.7962|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 60 for 301||||0.7962
82620722|NCT01797965|164958290|SUPERIORITY|||||||0.8486|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 72 for 301||||0.8486
82660853|NCT00796653|165039350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.103|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.180|0.103|<0.0001
82620723|NCT01797965|164958290|SUPERIORITY|||||||0.4478|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 84 for 301||||0.4478
82620724|NCT01797965|164958290|SUPERIORITY|||||||0.325|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 96 for 301||||0.3250
82620725|NCT01797965|164958290|SUPERIORITY|||||||0.129|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 108 for 301||||0.1290
82620726|NCT01797965|164958290|SUPERIORITY|||||||0.7295|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 120 for 301||||0.7295
82620727|NCT01797965|164958290|SUPERIORITY|||||||0.8647|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 132 for 301||||0.8647
82620728|NCT01797965|164958290|SUPERIORITY|||||||0.2183|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 301||||0.2183
82620729|NCT01797965|164958290|SUPERIORITY|||||||0.3945|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Baseline 303||||0.3945
82620730|NCT01797965|164958290|SUPERIORITY|||||||0.5068|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 12 for 303||||0.5068
82620731|NCT01797965|164958290|SUPERIORITY|||||||0.1669|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 24 for 303||||0.1669
82620732|NCT01797965|164958290|SUPERIORITY|||||||0.5038|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 48 for 303||||0.5038
82620733|NCT01797965|164958290|SUPERIORITY|||||||0.6001|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 144 for 303||||0.6001
82620734|NCT01797965|164958290|SUPERIORITY|||||||0.8617|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 168 for 303||||0.8617
82620735|NCT01797965|164958290|SUPERIORITY|||||||0.259|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 192 for 303||||0.2590
82620736|NCT01797965|164958290|SUPERIORITY|||||||0.5159|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 216 for 303||||0.5159
82620737|NCT01797965|164958290|SUPERIORITY|||||||0.6123|||||||ANCOVA|Based on ranks and adjusted for the baseline raw score, baseline age (\<=35 vs \>35) and history of prior IFN beta.||Change from Baseline 301 to Week 240 for 303||||0.6123
82620738|NCT00304915|164958291|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.5||||0.003|TWO_SIDED|95.0|1.37|4.56|||Regression, Logistic|||||4.56|1.37|0.003
82620739|NCT02802878|164958340|SUPERIORITY|||||||0.67||||||Adjusted for two observations per subject.|Regression, Linear|Side treated as a repeated factor||||||.67
82620740|NCT01599754|164958345|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.3211|TWO_SIDED|95.0|0.66|1.147|||Log Rank|||||1.147|0.660|0.3211
82620741|NCT01599754|164958346|SUPERIORITY||Hazard Ratio (HR)|1.026||||0.9246|TWO_SIDED|95.0|0.6|1.756|||Log Rank|||||1.756|0.600|0.9246
82620742|NCT00753935|164958388|SUPERIORITY|||||||0.005|||||||Wilcoxon rank-sum|||||||0.005
82620743|NCT03970395|164958389|SUPERIORITY||Risk Ratio (RR)|7.66||||0.01|TWO_SIDED|95.0|2.46|23.84||The threshold for statistical significance was p\<0.5|Risk Ratio (RR)||Risk Difference 0.41 (IC 95; 0.25-0.53)|||23.84|2.46|0.01
82620744|NCT03970395|164958390|SUPERIORITY||Risk Ratio (RR)|5.6||||0.01|TWO_SIDED|95.0|2.36|13.27|||Relative Risk (RR)||Risk Difference 0.47 (IC 95; 0.31-0.64)|||13.27|2.36|0.01
82620745|NCT03970395|164958391|SUPERIORITY||Risk Ratio (RR)|7.49||||0.01|TWO_SIDED|95.0|2.42|23.18|||Risk Ratio (RR)||Risk Difference 0.44 (IC 95%; 0.27-0.60)|||23.18|2.42|0.01
82620746|NCT03970395|164958392|SUPERIORITY||Risk Ratio (RR)|4.91||||0.01|TWO_SIDED|95.0|2.12|11.38|||Risk Ratio (RR)||Risk Difference 0.54 (IC 95; 0.36-0.72)|||11.38|2.12|0.01
82620747|NCT00929734|164958395|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED||||||ANCOVA|||||||0.292
82620748|NCT00929734|164958396|SUPERIORITY_OR_OTHER|||||||0.462|TWO_SIDED||||||ANCOVA|||||||0.462
82620749|NCT00929734|164958397|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|||||ANCOVA with natural logarithm of hs-CRP (ln hs-CRP)|ANCOVA|||||||0.017
82620750|NCT00929734|164958398|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||ANCOVA with natural logarithm of interleukin 6 (ln IL6)|ANCOVA|||||||0.028
82660854|NCT00796653|165039350|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.129|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.091|0.168|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.168|0.091|<0.0001
82620751|NCT00302718|164958427|OTHER||||||<|0.0001|||||||Chi-squared|||||||<.0001
82620752|NCT00302718|164958429|OTHER|||||||0.2114|||||||Chi-squared|||||||0.2114
82620753|NCT00302718|164958431|OTHER|||||||0.6954|||||||Chi-squared|||||||0.6954
82620754|NCT00302718|164958433|OTHER|||||||0.9895|||||||Chi-squared|||||||0.9895
82620755|NCT00738374|164958457|SUPERIORITY_OR_OTHER|||||||0.0008|TWO_SIDED||||||Chi-squared|||Analysis compared responders and non-responders.||||0.0008
82620756|NCT00738374|164958458|SUPERIORITY_OR_OTHER|||||||0.0795|TWO_SIDED||||||Chi-squared|||||||0.0795
82660855|NCT00796653|165039351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.018||0.0002||95.0|0.033|0.105|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.105|0.033|0.0002
82620757|NCT00738374|164958474|SUPERIORITY_OR_OTHER|||||||0.2712|TWO_SIDED||||||Log Rank|||||||0.2712
82492784|NCT01709513|164678316|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-24.5|||<|0.0001|TWO_SIDED|95.0|-28.7|-20.4||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-20.4|-28.7|<0.0001
82620758|NCT03334396|164958481|SUPERIORITY||Odds Ratio (OR)|2.61||||0.02|TWO_SIDED|95.0|1.17|5.84|||Regression, Logistic|||||5.84|1.17|0.020
82620759|NCT03334396|164958481|SUPERIORITY||Odds Ratio (OR)|4.1|||<|0.001|TWO_SIDED|95.0|1.93|8.7|||Regression, Logistic|||||8.70|1.93|<0.001
82620760|NCT03334396|164958482|SUPERIORITY||Odds Ratio (OR)|2.72||||0.014|TWO_SIDED|95.0|1.23|6.01|||Regression, Logistic|||||6.01|1.23|0.014
82620761|NCT03334396|164958483|SUPERIORITY||Odds Ratio (OR)|2.03||||0.032|TWO_SIDED|95.0|1.06|3.88|||Regression, Logistic|||||3.88|1.06|0.032
82620762|NCT03334396|164958483|SUPERIORITY||Odds Ratio (OR)|2.46||||0.006|TWO_SIDED|95.0|1.29|4.67|||Regression, Logistic|||||4.67|1.29|0.006
82620763|NCT03334396|164958483|SUPERIORITY||Odds Ratio (OR)|3.72|||<|0.001|TWO_SIDED|95.0|2.01|6.89|||Regression, Logistic|||||6.89|2.01|<0.001
82620764|NCT03334396|164958484|SUPERIORITY||Odds Ratio (OR)|1.73||||0.21|TWO_SIDED|95.0|0.74|4.05|||Regression, Logistic|||||4.05|0.74|0.210
82620765|NCT03334396|164958484|SUPERIORITY||Odds Ratio (OR)|2.5||||0.029|TWO_SIDED|95.0|1.1|5.7|||Regression, Logistic|||||5.70|1.10|0.029
82620766|NCT03334396|164958484|SUPERIORITY||Odds Ratio (OR)|4.13|||<|0.001|TWO_SIDED|95.0|1.91|8.91|||Regression, Logistic|||||8.91|1.91|<0.001
82620767|NCT03334396|164958485|SUPERIORITY||Mean Difference (Final Values)|-13.4|STANDARD_ERROR_OF_MEAN|5.78||0.021|TWO_SIDED|95.0|-24.77|-2.03|||Mixed Models Analysis|||||-2.03|-24.77|0.021
82620768|NCT03334396|164958485|SUPERIORITY||Mean Difference (Final Values)|-17.07|STANDARD_ERROR_OF_MEAN|5.57||0.002|TWO_SIDED|95.0|-28.05|-6.1|||Mixed Models Analysis|||||-6.10|-28.05|0.002
82620769|NCT03334396|164958485|SUPERIORITY||Mean Difference (Final Values)|-24.54|STANDARD_ERROR_OF_MEAN|5.23|<|0.001|TWO_SIDED|95.0|-34.84|-14.24|||Mixed Models Analysis|||||-14.24|-34.84|<0.001
82620770|NCT03334396|164958486|SUPERIORITY||Odds Ratio (OR)|4.28||||0.025|TWO_SIDED|95.0|1.2|15.24|||Regression, Logistic|||||15.24|1.20|0.025
82620771|NCT03334396|164958486|SUPERIORITY||Odds Ratio (OR)|6.14||||0.004|TWO_SIDED|95.0|1.79|20.99|||Regression, Logistic|||||20.99|1.79|0.004
82620772|NCT03334396|164958486|SUPERIORITY||Odds Ratio (OR)|8.76|||<|0.001|TWO_SIDED|95.0|2.68|28.58|||Regression, Logistic|||||28.58|2.68|<0.001
82620773|NCT03334396|164958487|SUPERIORITY||Odds Ratio (OR)|1.6||||0.246|TWO_SIDED|95.0|0.72|3.56|||Regression, Logistic|||||3.56|0.72|0.246
82620774|NCT03334396|164958487|SUPERIORITY||Odds Ratio (OR)|1.73||||0.169|TWO_SIDED|95.0|0.79|3.77|||Regression, Logistic|||||3.77|0.79|0.169
82620775|NCT03334396|164958487|SUPERIORITY||Odds Ratio (OR)|3.62|||<|0.001|TWO_SIDED|95.0|1.82|7.18|||Regression, Logistic|||||7.18|1.82|<0.001
82620776|NCT03334396|164958488|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.103|TWO_SIDED|95.0|-0.82|0.08|||Mixed Models Analysis|||||0.08|-0.82|0.103
82620777|NCT03334396|164958488|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.352|TWO_SIDED|95.0|-0.65|0.23|||Mixed Models Analysis|||||0.23|-0.65|0.352
82620778|NCT03334396|164958488|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.006|TWO_SIDED|95.0|-1.0|-0.17|||Mixed Models Analysis|||||-0.17|-1.00|0.006
82620779|NCT03334396|164958489|SUPERIORITY||Mean Difference (Final Values)|-1.08||||0.005|TWO_SIDED|95.0|-1.84|-0.32|||Mixed Models Analysis|||||-0.32|-1.84|0.005
82620780|NCT03334396|164958489|SUPERIORITY||Mean Difference (Final Values)|-0.74||||0.051|TWO_SIDED|95.0|-1.48|0.0|||Mixed Models Analysis|||||0.00|-1.48|0.051
82620781|NCT03334396|164958489|SUPERIORITY||Mean Difference (Final Values)|-1.09||||0.002|TWO_SIDED|95.0|-1.79|-0.39|||Mixed Models Analysis|||||-0.39|-1.79|0.002
82620782|NCT03334396|164958490|SUPERIORITY||Odds Ratio (OR)|1.9||||0.019|TWO_SIDED|95.0|1.11|3.25|||Regression, Logistic|||||3.25|1.11|0.019
82620783|NCT03334396|164958490|SUPERIORITY||Mean Difference (Final Values)|2.44|||<|0.001|TWO_SIDED|95.0|1.44|4.14|||Regression, Logistic|||||4.14|1.44|<0.001
82620784|NCT03334396|164958490|SUPERIORITY||Mean Difference (Final Values)|4.18|||<|0.001|TWO_SIDED|95.0|2.51|6.96|||Regression, Logistic|||||6.96|2.51|<0.001
82620785|NCT03334396|164958491|SUPERIORITY||Odds Ratio (OR)|1.98||||0.424|TWO_SIDED|95.0|0.37|10.63|||Regression, Logistic|||||10.63|0.37|0.424
82620786|NCT03334396|164958491|SUPERIORITY||Odds Ratio (OR)|2.89||||0.182|TWO_SIDED|95.0|0.61|13.75|||Regression, Logistic|||||13.75|0.61|0.182
82620787|NCT03334396|164958491|SUPERIORITY||Odds Ratio (OR)|1.94||||0.441|TWO_SIDED|95.0|0.36|10.41|||Regression, Logistic|||||10.41|0.36|0.441
82620788|NCT03334396|164958492|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|3.17||0.093|TWO_SIDED|95.0|-11.57|0.9|||Mixed Models Analysis|||||0.90|-11.57|0.093
82620789|NCT03334396|164958492|SUPERIORITY||Mean Difference (Final Values)|-7.97|STANDARD_ERROR_OF_MEAN|3.07||0.01|TWO_SIDED|95.0|-14.01|-1.92|||Mixed Models Analysis|||||-1.92|-14.01|0.010
82620790|NCT03334396|164958492|SUPERIORITY||Mean Difference (Final Values)|-14.79|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-20.46|-9.13|||Mixed Models Analysis|||||-9.13|-20.46|<0.001
82620791|NCT03334396|164958493|SUPERIORITY||Odds Ratio (OR)|1.17||||0.874|TWO_SIDED|95.0|0.17|7.77|||Regression, Logistic|||||7.77|0.17|0.874
82620792|NCT03334396|164958493|SUPERIORITY||Odds Ratio (OR)|2.88||||0.176|TWO_SIDED|95.0|0.62|13.36|||Regression, Logistic|||||13.36|0.62|0.176
82620793|NCT03334396|164958493|SUPERIORITY||Odds Ratio (OR)|2.72||||0.201|TWO_SIDED|95.0|0.59|12.65|||Regression, Logistic|||||12.65|0.59|0.201
82620794|NCT03334396|164958494|SUPERIORITY||Mean Difference (Final Values)|-5.99|STANDARD_ERROR_OF_MEAN|2.88||0.039|TWO_SIDED|95.0|-11.67|-0.31|||Mixed Models Analysis|||||-0.31|-11.67|0.039
82620795|NCT03334396|164958494|SUPERIORITY||Mean Difference (Final Values)|-5.34|STANDARD_ERROR_OF_MEAN|2.8||0.058|TWO_SIDED|95.0|-10.86|0.18|||Mixed Models Analysis|||||0.18|-10.86|0.058
82620796|NCT03334396|164958494|SUPERIORITY||Mean Difference (Final Values)|-11.16|STANDARD_DEVIATION|2.63|<|0.001|TWO_SIDED|95.0|-16.33|-5.98|||Mixed Models Analysis|||||-5.98|-16.33|<0.001
82620797|NCT03334396|164958495|SUPERIORITY|||||||0.067|||||||Fisher Exact|||||||0.067
82620798|NCT03334396|164958495|SUPERIORITY|||||||0.799|||||||Fisher Exact|||||||0.799
82492785|NCT01709513|164678317|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-25.7|||<|0.0001|TWO_SIDED|95.0|-29.9|-21.5||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-21.5|-29.9|<0.0001
82620799|NCT03334396|164958495|SUPERIORITY|||||||0.782|||||||Fisher Exact|||||||0.782
82620800|NCT03334396|164958496|SUPERIORITY||Mean Difference (Final Values)|-19.25|STANDARD_ERROR_OF_MEAN|7.33||0.009|TWO_SIDED|95.0|-33.69|-4.81|||Mixed Models Analysis|||||-4.81|-33.69|0.009
82620801|NCT03334396|164958496|SUPERIORITY||Mean Difference (Final Values)|-17.39|STANDARD_ERROR_OF_MEAN|7.13||0.015|TWO_SIDED|95.0|-31.43|-3.35|||Mixed Models Analysis|||||-3.35|-31.43|0.015
82620802|NCT03334396|164958496|SUPERIORITY||Mean Difference (Final Values)|-24.5|STANDARD_ERROR_OF_MEAN|6.71|<|0.001|TWO_SIDED|95.0|-37.71|-11.3|||Mixed Models Analysis|||||-11.30|-37.71|<0.001
82620803|NCT03334396|164958497|SUPERIORITY||Mean Difference (Final Values)|-2.63|STANDARD_ERROR_OF_MEAN|1.19||0.028|TWO_SIDED|95.0|-4.98|-0.29|||Mixed Models Analysis|||||-0.29|-4.98|0.028
82620804|NCT03334396|164958497|SUPERIORITY||Mean Difference (Final Values)|-3.58|STANDARD_ERROR_OF_MEAN|1.17||0.003|TWO_SIDED|95.0|-5.89|-1.27|||Mixed Models Analysis|||||-1.27|-5.89|0.003
82620805|NCT03334396|164958497|SUPERIORITY||Mean Difference (Final Values)|-5.16|STANDARD_ERROR_OF_MEAN|1.1|<|0.001|TWO_SIDED|95.0|-7.33|-2.99|||Mixed Models Analysis|||||-2.99|-7.33|<0.001
82620806|NCT03334396|164958498|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.069|TWO_SIDED|95.0|-0.56|0.02|||Mixed Models Analysis|||||0.02|-0.56|0.069
82620807|NCT03334396|164958498|SUPERIORITY||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.15||0.066|TWO_SIDED|95.0|-0.56|0.02|||Mixed Models Analysis|||||0.02|-0.56|0.066
82620808|NCT03334396|164958498|SUPERIORITY||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.14|<|0.001|TWO_SIDED|95.0|-0.73|-0.19|||Mixed Models Analysis|||||-0.19|-0.73|<0.001
82620809|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-0.45|STANDARD_ERROR_OF_MEAN|0.43||0.305|TWO_SIDED|95.0|-1.3|0.41|||Mixed Models Analysis|||HADS Anxiety||0.41|-1.30|0.305
82620810|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.42||0.029|TWO_SIDED|95.0|-1.77|-0.1|||Mixed Models Analysis|||HADS Anxiety||-0.10|-1.77|0.029
82620811|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-1.15|STANDARD_ERROR_OF_MEAN|0.4||0.004|TWO_SIDED|95.0|-1.93|-0.36|||Mixed Models Analysis|||HADS Anxiety||-0.36|-1.93|0.004
82620812|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-0.68|STANDARD_ERROR_OF_MEAN|0.43||0.113|TWO_SIDED|95.0|-1.51|0.16|||Mixed Models Analysis|||HADS Depression||0.16|-1.51|0.113
82620813|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-1.03|STANDARD_ERROR_OF_MEAN|0.42||0.014|TWO_SIDED|95.0|-1.85|-0.22|||Mixed Models Analysis|||HADS Depression||-0.22|-1.85|0.014
82620814|NCT03334396|164958499|SUPERIORITY||Mean Difference (Final Values)|-1.14|STANDARD_ERROR_OF_MEAN|0.39||0.004|TWO_SIDED|95.0|-1.91|-0.37|||Mixed Models Analysis|||HADS Depression||-0.37|-1.91|0.004
82620815|NCT03334396|164958500|SUPERIORITY||Mean Difference (Final Values)|-2.17|STANDARD_ERROR_OF_MEAN|0.89||0.015|TWO_SIDED|95.0|-3.92|-0.42|||Mixed Models Analysis|||||-0.42|-3.92|0.015
82620816|NCT03334396|164958500|SUPERIORITY||Mean Difference (Final Values)|-1.84|STANDARD_ERROR_OF_MEAN|0.87||0.036|TWO_SIDED|95.0|-3.56|-0.12|||Mixed Models Analysis|||||-0.12|-3.56|0.036
82620817|NCT03334396|164958500|SUPERIORITY||Mean Difference (Final Values)|-4.3|STANDARD_ERROR_OF_MEAN|0.82|<|0.001|TWO_SIDED|95.0|-5.91|-2.69|||Mixed Models Analysis|||||-2.69|-5.91|<0.001
82620818|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-4.05|STANDARD_ERROR_OF_MEAN|2.7||0.136|TWO_SIDED|95.0|-9.39|1.29|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||1.29|-9.39|0.136
82620819|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-0.35|STANDARD_ERROR_OF_MEAN|2.76||0.898|TWO_SIDED|95.0|-5.81|5.1|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||5.10|-5.81|0.898
82620820|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-3.4|STANDARD_ERROR_OF_MEAN|2.49||0.174|TWO_SIDED|95.0|-8.32|1.52|||Mixed Models Analysis|||Percentage of Absenteeism Change from Baseline||1.52|-8.32|0.174
82620821|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-6.86|STANDARD_ERROR_OF_MEAN|4.19||0.104|TWO_SIDED|95.0|-15.13|1.41|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||1.41|-15.13|0.104
82620822|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-8.64|STANDARD_ERROR_OF_MEAN|4.28||0.045|TWO_SIDED|95.0|-17.09|-0.19|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-0.19|-17.09|0.045
82620823|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-12.28|STANDARD_ERROR_OF_MEAN|3.9||0.002|TWO_SIDED|95.0|-19.97|-4.59|||Mixed Models Analysis|||Percentage of Presenteeism (Reduced Productivity While at Work) Change from Baseline||-4.59|-19.97|0.002
82620824|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-8.66|STANDARD_ERROR_OF_MEAN|4.67||0.066|TWO_SIDED|95.0|-17.89|0.57|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||0.57|-17.89|0.066
82620825|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-6.49|STANDARD_ERROR_OF_MEAN|4.76||0.175|TWO_SIDED|95.0|-15.89|2.91|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||2.91|-15.89|0.175
82620826|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-11.28|STANDARD_ERROR_OF_MEAN|4.34||0.01|TWO_SIDED|95.0|-19.84|-2.72|||Mixed Models Analysis|||Work Productivity Loss (Percentage Overall Work Impairment/Absenteeism Plus Presenteeism) Change from Baseline||-2.72|-19.84|0.010
82620827|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-7.31|STANDARD_ERROR_OF_MEAN|3.36||0.03|TWO_SIDED|95.0|-13.93|-0.7|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-0.70|-13.93|0.030
82660856|NCT00796653|165039351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.083|0.155|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.155|0.083|<0.0001
82660857|NCT00796653|165039351|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.049|STANDARD_ERROR_OF_MEAN|0.018||0.0071||95.0|0.013|0.085|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.085|0.013|0.0071
82660858|NCT00796653|165039352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.048|0.12|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.120|0.048|<0.0001
82620828|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-5.13|STANDARD_ERROR_OF_MEAN|3.31||0.122|TWO_SIDED|95.0|-11.65|1.39|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||1.39|-11.65|0.122
82660859|NCT00796653|165039352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.104|STANDARD_ERROR_OF_MEAN|0.018|<|0.0001||95.0|0.068|0.141|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.141|0.068|<0.0001
82660860|NCT00796653|165039352|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.018||0.0001||95.0|0.034|0.106|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.106|0.034|0.0001
82620829|NCT03334396|164958501|SUPERIORITY||Mean Difference (Final Values)|-16.52|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-22.64|-10.41|||Mixed Models Analysis|||Percentage of Activity Impairment Change from Baseline||-10.41|-22.64|<0.001
82620830|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.061|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.08|-0.00|0.061
82620831|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.04|STANDARD_ERROR_OF_MEAN|0.02||0.06|TWO_SIDED|95.0|0.0|0.08|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.08|-0.00|0.060
82620832|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.08|STANDARD_ERROR_OF_MEAN|0.02|<|0.001|TWO_SIDED|95.0|0.04|0.12|||Mixed Models Analysis|||Health State Index Score (US algorithm)||0.12|0.04|<0.001
82620833|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.03||0.046|TWO_SIDED|95.0|0.0|0.11|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.11|0.00|0.046
82620834|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.03||0.059|TWO_SIDED|95.0|0.0|0.11|||Mixed Models Analysis|||Health State Index Score (UK Algorithm)||0.11|-0.00|0.059
82620835|NCT03334396|164958502|SUPERIORITY||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.03|<|0.001|TWO_SIDED|95.0|0.06|0.16|||Mixed Models Analysis|||Health State Index Score (UK algorithm)||0.16|0.06|<0.001
82620836|NCT03334396|164958503|SUPERIORITY||Mean Difference (Final Values)|2.97|STANDARD_ERROR_OF_MEAN|3.21||0.356|TWO_SIDED|95.0|-3.36|9.3|||Mixed Models Analysis|||EQ-5D-5L VAS Score||9.30|-3.36|0.356
82620837|NCT03334396|164958503|SUPERIORITY||Mean Difference (Final Values)|1.34|STANDARD_ERROR_OF_MEAN|3.13||0.668|TWO_SIDED|95.0|-4.81|7.5|||Mixed Models Analysis|||EQ-5D-5L VAS Score||7.50|-4.81|0.668
82620838|NCT03334396|164958503|SUPERIORITY||Mean Difference (Final Values)|7.05|STANDARD_ERROR_OF_MEAN|2.95||0.017|TWO_SIDED|95.0|1.25|12.86|||Mixed Models Analysis|||EQ-5D-5L VAS Score||12.86|1.25|0.017
82620839|NCT03334396|164958504|SUPERIORITY||Odds Ratio (OR)|1.38||||0.603|TWO_SIDED|95.0|0.41|4.71|||Regression, Logistic|||||4.71|0.41|0.603
82620840|NCT03334396|164958504|SUPERIORITY||Odds Ratio (OR)|4.08||||0.006|TWO_SIDED|95.0|1.5|11.12|||Regression, Logistic|||||11.12|1.50|0.006
82660861|NCT00796653|165039353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.019||0.0017||95.0|0.022|0.095|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.095|0.022|0.0017
82620841|NCT03334396|164958504|SUPERIORITY||Odds Ratio (OR)|4.72||||0.002|TWO_SIDED|95.0|1.78|12.55|||Regression, Logistic|||||12.55|1.78|0.002
82620842|NCT03519516|164958557|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.749|||||||Wilcoxon (Mann-Whitney)|||||||0.749
82620843|NCT03519516|164958558|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.041|||||||Chi-squared|||||||0.041
82620844|NCT03519516|164958559|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.694|||||||Wilcoxon (Mann-Whitney)|||||||0.694
82620845|NCT03519516|164958560|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.495|||||||Wilcoxon (Mann-Whitney)|||||||0.495
82620846|NCT03519516|164958561|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.492||||||statistical analysis between groups for final visit with green lissamine|Chi-squared|||||||0.492
82620847|NCT03519516|164958561|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.238||||||statistical analysis between groups for final visit with fluorescein|Chi-squared, Corrected|||||||0.238
82620848|NCT03519516|164958562|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.213|||||||Chi-squared|||||||0.213
82620849|NCT03519516|164958564|NON_INFERIORITY|it is considered as noninferiority if there is no difference greater than twenty percent between both medications||||||0.741|||||||Chi-squared, Corrected|||||||0.741
82620850|NCT03519516|164958566|NON_INFERIORITY|The study drug is considered non-inferior with respect to the comparator if there are no differences above twenty percent||||||0.11|||||||Wilcoxon (Mann-Whitney)|||||||0.110
82620851|NCT04390568|164958579|OTHER|The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and the area under the concentration-time curve of Spesolimap in plasma over the time interval from 0 extrapolated to infinity (AUC0-∞) of the intravenous dose groups.|Slope|1.123|STANDARD_ERROR_OF_MEAN|0.085|||TWO_SIDED|90.0|0.979|1.268|||||Based on the estimate for slope parameter (β), a 2-sided 90% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|No statistical hypotheses tests were planned for this trial.||1.268|0.979|
82620852|NCT04390568|164958580|OTHER|The basic model used for the investigation of dose proportionality was a power model (regression model applied to log-transformed data) that described the functional relationship between the dose and the maximum measured concentration of the Spesolimap in plasma (Cmax) of the intravenous dose groups.|Slope|1.072|STANDARD_ERROR_OF_MEAN|0.065|||TWO_SIDED|90.0|0.961|1.183|||||Based on the estimate for slope parameter (β), a 2-sided 90% confidence interval (CI) for the slope was computed. Standard error of the mean is actually standard error of slope.|No statistical hypotheses tests were planned for this trial.||1.183|0.961|
82620853|NCT03245723|164958583|OTHER|Descriptive statistics||||||0.38|||||||Wilcoxon Rank Sum test|||||||0.38
82620854|NCT03245723|164958584|OTHER|Descriptive statistics||||||0.12|||||||Wilcoxon Rank Sum test|||||||0.12
82620855|NCT00077376|164958585|SUPERIORITY_OR_OTHER||Objective response rate|41.0|||||TWO_SIDED|95.0|26.0|58.0||||||||58|26|
82620856|NCT00077376|164958586|SUPERIORITY_OR_OTHER||Objective response rate|44.0|||||TWO_SIDED|95.0|31.0|58.0||||||||58|31|
82620857|NCT03784027|164958593|SUPERIORITY||Mean Difference (Final Values)|8.7|||<|0.001|TWO_SIDED|95.0|7.4|9.9|||Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||9.9|7.4|<0.001
82620858|NCT03784027|164958594|SUPERIORITY||Mean Difference (Final Values)|-8.5|||<|0.001|TWO_SIDED|95.0|-9.9|-7.1||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-7.1|-9.9|<0.001
82620859|NCT03784027|164958595|SUPERIORITY||Mean Difference (Final Values)|-0.4|||<|0.001|TWO_SIDED|95.0|-0.5|-0.3||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-0.3|-0.5|<0.001
82620860|NCT03784027|164958596|SUPERIORITY||Mean Difference (Final Values)|-3.9|||<|0.001|TWO_SIDED|95.0|-4.9|-2.9|||Mixed Models Analysis|||||-2.9|-4.9|<0.001
82620861|NCT03784027|164958597|SUPERIORITY||Mean Difference (Final Values)|-12.3|||<|0.001|TWO_SIDED|95.0|-14.8|-9.8||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||-9.8|-14.8|<0.001
82620862|NCT03784027|164958598|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.74|TWO_SIDED|95.0|-0.4|0.5||The primary and key secondary end points were tested in hierarchy (Time in range, time \>180mg/dL, HbA1c, mean glucose, time \<70mg/dL) to control the type 1 error with the use of the fixed-sequence method.|Regression, Linear|||||0.5|-0.4|0.74
82620863|NCT03784027|164958599|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|-6.2|||||TWO_SIDED|95.0|-7.6|-4.8|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||-4.8|-7.6|
82620864|NCT03784027|164958600|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values. Differences in percents are shown in percentage points.|Mean Difference (Final Values)|-0.7|||||TWO_SIDED|95.0|-1.5|0.05|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.05|-1.5|
82620865|NCT03784027|164958601|SUPERIORITY||Mean Difference (Final Values)|0.02|||||TWO_SIDED|95.0|-0.1|0.1||The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.1|-0.1|
82620866|NCT03784027|164958602|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|-1.0|||||TWO_SIDED|95.0|-1.6|-0.6|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||-0.6|-1.6|
82620867|NCT03784027|164958603|NON_INFERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|0.002|||||TWO_SIDED|95.0|-0.006|0.009|||||Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.009|-0.006|
82620868|NCT03784027|164958604|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.75|TWO_SIDED|95.0|-0.02|0.03|||Regression, Linear|Based on a longitudinal model adjusting for baseline value and period as fixed effects. The model accounts for correlated data from the same subject.||||0.03|-0.02|0.75
82620869|NCT03784027|164958605|SUPERIORITY|The mean adjusted differences are based on a linear mixed model with adjustment for repeated participant measures, with period as a fixed effect and trial site as a random effect; the model also accounted for the baseline values.|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-0.1|0.8|||||(For total daily insulin use) Confidence intervals for the secondary end points were adjusted for multiple comparisons with the use of the Benjamini-Hochberg procedure to control the false discovery rate.|||0.8|-0.1|
82620870|NCT01975246|164958614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.9|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|TWO_SIDED|95.0|-5.3|-2.4|||ANCOVA|Model includes baseline DBP as a linear covariate, and treatment and center as fixed effects.||The last observation carried forward (LOCF) method was applied for missing data, where the value from the measurements at the closest preceding visit replaced the missing value.||-2.4|-5.3|<0.0001
82620871|NCT01975246|164958615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.3|STANDARD_ERROR_OF_MEAN|1.1|<|0.0001|TWO_SIDED|95.0|-7.6|-3.1|||ANCOVA|Model includes baseline SBP as a linear covariate, and treatment and center as fixed effects.||The last observation carried forward (LOCF) method was applied for missing data, where the value from the measurements at the closest preceding visit replaced the missing value.||-3.1|-7.6|<0.0001
82620872|NCT01975246|164958616|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.1|||<|0.0051|TWO_SIDED|95.0|1.2|3.4|||Regression, Logistic|Logistic regression model includes treatment and center as fixed effects.||"The Non-completers considered failure (NCF) method was applied for missing data, where missing data due to early discontinuation will be replaced as failure up to the planned final visit to be reached by all patients."||3.4|1.2|<0.0051
82620873|NCT01263093|164958619|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.77|||||TWO_SIDED|90.0|0.72|0.83|||Mixed Models Analysis||Statistical inference was made using the test treatment of LY2216684 + clopidogrel and the reference treatment of clopidogrel alone.|||0.83|0.72|
82620874|NCT01263093|164958620|SUPERIORITY_OR_OTHER||Ratio of Geometric Least Squares Means|0.59|||||TWO_SIDED|90.0|0.53|0.67|||Mixed Models Analysis||Statistical inference was made using the test treatment of LY2216684 + clopidogrel and the reference treatment of clopidogrel alone.|||0.67|0.53|
82620875|NCT01263093|164958622|SUPERIORITY_OR_OTHER||Median of Paired Differences|0.0||||0.3303|TWO_SIDED|90.0|0.0|0.25|||Wilcoxon (Mann-Whitney)|||||0.25|0.00|0.3303
82620876|NCT00880763|164958716|SUPERIORITY_OR_OTHER||Adjusted difference in percent|65.1|||<|0.001|TWO_SIDED|95.0|37.0|82.8|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||82.8|37.0|<0.001
82620877|NCT00880763|164958716|SUPERIORITY_OR_OTHER||Adjusted difference in percent|74.5|||<|0.001|TWO_SIDED|95.0|47.6|89.0|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||89.0|47.6|<0.001
82620878|NCT00880763|164958716|SUPERIORITY_OR_OTHER||Adjusted difference in percent|55.4|||<|0.001|TWO_SIDED|95.0|24.9|76.0|||Miettinen and Nurminen||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not).|||76.0|24.9|<0.001
82620879|NCT00880763|164958717|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.8|||||TWO_SIDED|95.0|-11.3|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-11.3|
82620880|NCT00880763|164958717|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.9|||||TWO_SIDED|95.0|-12.4|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-12.4|
82620881|NCT00880763|164958717|SUPERIORITY_OR_OTHER||Adjusted difference in percent|4.8|||||TWO_SIDED|95.0|-12.0|24.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||24.2|-12.0|
82620882|NCT00880763|164958718|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.5|||||TWO_SIDED|95.0|-2.5|36.2|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.2|-2.5|
82620883|NCT00880763|164958718|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.6|||||TWO_SIDED|95.0|-3.4|36.3|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.3|-3.4|
82620884|NCT00880763|164958718|SUPERIORITY_OR_OTHER||Adjusted difference in percent|14.4|||||TWO_SIDED|95.0|-3.3|36.1|||||Computed using Miettinen and Nurminen method adjusting the strata (participation of Intensive-pharmacokinetic cohort vs. not)|||36.1|-3.3|
82620885|NCT00880763|164958719|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.8|||||TWO_SIDED|95.0|-2.3|-1.2|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.2|-2.3|
82620886|NCT00880763|164958719|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.9|||||TWO_SIDED|95.0|-2.4|-1.3|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.3|-2.4|
82620887|NCT00880763|164958719|SUPERIORITY_OR_OTHER||Difference in least squares mean|-1.6|||||TWO_SIDED|95.0|-2.2|-1.1|||||Computed using a longitudinal data analysis model including treatment, time and the interaction of time by treatment, with a restriction of the same baseline mean across treatment groups.|||-1.1|-2.2|
82620888|NCT02667457|164958731|OTHER|||||||0.0095||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0095
82620889|NCT02667457|164958731|OTHER|||||||0.0029||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0029
82620890|NCT02667457|164958732|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
82620891|NCT02667457|164958732|OTHER|||||||0.0334||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0334
82620892|NCT02667457|164958733|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
82620893|NCT02667457|164958733|OTHER|||||||0.0301||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0301
82620894|NCT02667457|164958734|OTHER|||||||0.0066||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0066
82620895|NCT02667457|164958734|OTHER|||||||0.0387||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0387
82620896|NCT02667457|164958735|OTHER|||||||0.0359||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 60 minutes||||0.0359
82620897|NCT02667457|164958735|OTHER|||||||0.0022||||||p-value is based on t-test with unequal variances (Satterthwaite) if p-value of F-test for Equality of variances is significant (p\<0.05) otherwise p-value is based on t-test with equal variances.|t-test, 1 sided|||Timepoint = 120 minutes||||0.0022
82620898|NCT00751179|164958782|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
82620899|NCT00751179|164958783|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
82620900|NCT00751179|164958785|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
82620901|NCT00751179|164958787|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Significance level was set at 0.05.|ANOVA|||Treatment comparison was between the change from baseline in potassium level post-rocuronium dose versus post-succinylcholine dose, using a one way ANOVA model, with treatment as the term in the model.||||<0.0001
82620902|NCT00915538|164958793|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The expected results for non-inferiority would be +/- 5% of difference between the two groups in the primary efficacy parameter.|AUC|0.0||||0.76|TWO_SIDED||||||t-test, 2 sided|||The cross-over means there were 16 determinants for each time for each treatment. The AUC of FEV-1 was measured in each subject for each treatment arm and the mean of this data was compared.||||0.76
82620903|NCT00915538|164958793|OTHER|Two sample T test|Mean Difference (Net)|0.0|STANDARD_DEVIATION|12.0|>|0.05|TWO_SIDED||||||t-test, 2 sided|||||||>.05
82620904|NCT00915538|164958794|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Power calculation was not done for secondary parameter. The comparison was for the FEV-1/FVC expressed as fraction at each time point||||||0.76|TWO_SIDED|95.0|||||t-test, 2 sided|||The cross over means there were 16 determinants for each time for each treatment||||0.76
82620905|NCT01253187|164958803|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|106.03||||||90.0|98.86|113.72||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 39 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.72|98.86|
82660862|NCT00796653|165039353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.057|0.13|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.130|0.057|<0.0001
82660863|NCT00796653|165039353|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.065|STANDARD_ERROR_OF_MEAN|0.019||0.0005||95.0|0.028|0.101|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.101|0.028|0.0005
82660864|NCT00796653|165039354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.05|STANDARD_ERROR_OF_MEAN|0.019||0.0085||95.0|0.013|0.087|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.087|0.013|0.0085
82660865|NCT00796653|165039354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.049|0.122|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.122|0.049|<0.0001
82660866|NCT00796653|165039354|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.051|STANDARD_ERROR_OF_MEAN|0.019||0.0067||95.0|0.014|0.088|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.088|0.014|0.0067
82660867|NCT00796653|165039355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0012||95.0|0.025|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.100|0.025|0.0012
82660868|NCT00796653|165039355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.019||0.0002||95.0|0.035|0.11|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.110|0.035|0.0002
82660869|NCT00796653|165039355|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.048|STANDARD_ERROR_OF_MEAN|0.019||0.0117||95.0|0.011|0.086|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.086|0.011|0.0117
82660870|NCT00796653|165039356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.062|STANDARD_ERROR_OF_MEAN|0.019||0.0014||95.0|0.024|0.099|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.099|0.024|0.0014
82660871|NCT00796653|165039356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.084|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.047|0.122|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.122|0.047|<0.0001
82660872|NCT00796653|165039356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.056|STANDARD_ERROR_OF_MEAN|0.019||0.0035||95.0|0.019|0.094|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.094|0.019|0.0035
82660873|NCT00796653|165039357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.044|STANDARD_ERROR_OF_MEAN|0.019||0.0228||95.0|0.006|0.082|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.082|0.006|0.0228
82660874|NCT00796653|165039357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.059|STANDARD_ERROR_OF_MEAN|0.019||0.0024||95.0|0.021|0.097|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.097|0.021|0.0024
82660875|NCT00796653|165039357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.036|STANDARD_ERROR_OF_MEAN|0.019||0.0664||95.0|-0.002|0.074|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.074|-0.002|0.0664
82660876|NCT00796653|165039358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.122|0.199|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.199|0.122|<0.0001
82492786|NCT01709513|164678318|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-21.1|||<|0.0001|TWO_SIDED|95.0|-24.5|-17.7||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||-17.7|-24.5|<0.0001
82660877|NCT00796653|165039358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.178|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.14|0.216|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.216|0.140|<0.0001
82660878|NCT00796653|165039358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.153|STANDARD_ERROR_OF_MEAN|0.019|<|0.0001||95.0|0.115|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.191|0.115|<0.0001
82660879|NCT00796653|165039359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.13|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.207|0.130|<0.0001
82660880|NCT00796653|165039359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.143|0.22|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.220|0.143|<0.0001
82620906|NCT01253187|164958804|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|103.47||||||90.0|99.16|107.98||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|38 volunteers qualified for statistical analysis of BE whereas all 39 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||107.98|99.16|
82660881|NCT00796653|165039359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.176|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.137|0.214|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.214|0.137|<0.0001
82660882|NCT00796653|165039360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.141|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.103|0.18|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.180|0.103|<0.0001
82660883|NCT00796653|165039360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.168|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.129|0.207|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.207|0.129|<0.0001
82660884|NCT00796653|165039360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.164|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.125|0.203|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.203|0.125|<0.0001
82660885|NCT00796653|165039361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.123|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.084|0.163|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.163|0.084|<0.0001
82660886|NCT00796653|165039361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.112|0.191|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.191|0.112|<0.0001
82620907|NCT01253187|164958805|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|105.24||||||90.0|97.3|113.83||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|33 volunteers qualified for statistical analysis of BE whereas all 35 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||113.83|97.30|
82620908|NCT01253187|164958806|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.48||||||90.0|97.28|103.79||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|33 volunteers qualified for statistical analysis of BE whereas all 35 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.79|97.28|
82660887|NCT00796653|165039361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.104|0.183|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.183|0.104|<0.0001
82492787|NCT01709513|164678319|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|19.5|||<|0.0001|TWO_SIDED|95.0|6.9|55.2||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||55.2|6.9|<0.0001
82660888|NCT00796653|165039362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.112|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.071|0.152|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.152|0.071|<0.0001
82660889|NCT00796653|165039362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.086|0.166|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.166|0.086|<0.0001
82660890|NCT00796653|165039362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.118|STANDARD_ERROR_OF_MEAN|0.02|<|0.0001||95.0|0.078|0.158|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.158|0.078|<0.0001
82492788|NCT01709513|164678320|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|24.9|||<|0.0001|TWO_SIDED|95.0|8.6|71.9||Threshold for significance ≤ 0.05.|Regression, Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a Logistic regression model.||71.9|8.6|<0.0001
82660891|NCT00796653|165039363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.231|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.162|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.162|<0.0001
82620909|NCT01253187|164958807|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.88||||||90.0|91.24|109.34||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 39 (EE20/DRSP/L-5-MTHF Ca) and 40 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||109.34|91.24|
82620910|NCT01253187|164958808|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|98.16||||||90.0|93.95|102.57||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|39 volunteers qualified for statistical analysis of BE whereas all 39 (EE20/DRSP/L-5-MTHF Ca) and 40 (Metafolin) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||102.57|93.95|
82620911|NCT01253187|164958809|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.28||||||90.0|93.15|107.95||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|40 volunteers qualified for statistical analysis of BE and all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||107.95|93.15|
82620912|NCT01253187|164958810|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|99.88||||||90.0|95.38|104.58||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / Metafolin\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|40 volunteers qualified for statistical analysis of BE and all 40 volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||104.58|95.38|
82620913|NCT01253187|164958812|NON_INFERIORITY_OR_EQUIVALENCE|A sample size of 6 volunteers per sequence was considered sufficient to establish bioequivalence, id est the 90%-confidence interval for the mean ratio is located completely within the equivalence interval limits of 80% and 125%.|mean ratio|100.3||||||90.0|97.65|103.02||The equivalence test was done using a 90% confidence interval, no p-value was to be calculated.|ANOVA||Point estimate for the ratio \[(EE20/DRSP/L-5-MTHF Ca) / YAZ\]. Bioequivalence is established if the 90% confidence interval fall within the equivalence interval limits of 80-125%|32 volunteers qualified for statistical analysis of BE whereas all 34 (YAZ) and 36 (EE20/DRSP/L-5-MTHF Ca) volunteers with valid concentration time profiles were included in the pharmacokinetic (PK) analysis||103.02|97.65|
82620914|NCT01293006|164958817|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.39|||||TWO_SIDED|90.0|-0.12|0.91|||Difference of Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||0.91|-0.12|
82620915|NCT01293006|164958820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.03|||||TWO_SIDED|90.0|-1.3|3.36|||Difference of the Least Means Squares|||Day 1, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||3.36|-1.30|
82620916|NCT01293006|164958820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|||||TWO_SIDED|90.0|-0.08|0.5|||Difference of the Least Squares Means|||Day 1, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.50|-0.08|
82620917|NCT01293006|164958820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.82|||||TWO_SIDED|90.0|-5.77|7.41|||Difference of the Least Squares Means|||Day 4, SaO2 \<90%, Difference (Suvorexant - Placebo) of Least Squares Means||7.41|-5.77|
82620918|NCT01293006|164958820|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.32|||||TWO_SIDED|90.0|0.0|0.63|||Difference of the Least Squares Means|||Day 4, SaO2 \<85%, Difference (Suvorexant - Placebo) of Least Squares Means||0.63|0.00|
82620919|NCT01293006|164958821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.72|||||TWO_SIDED|90.0|-0.6|2.04|||Difference of the Least Squares Means|||Day 1, Difference (Suvorexant - Placebo) of Least Squares Means||2.04|-0.60|
82620920|NCT01293006|164958821|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.05|||||TWO_SIDED|90.0|0.33|3.77|||Difference of the Least Squares Means|||Day 4, Difference (Suvorexant - Placebo) of Least Squares Means||3.77|0.33|
82620921|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.03|||||TWO_SIDED|90.0|-0.41|0.47|||Difference in the Least Squares Means|||Day 1, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.47|-0.41|
82620922|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|||||TWO_SIDED|90.0|-0.53|0.27|||Difference of the Least Squares Means|||Day 1, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.27|-0.53|
82620923|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.21|||||TWO_SIDED|90.0|-0.61|0.18|||Difference of the Least Squares Means|||Day 1, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.18|-0.61|
82620924|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.33|||||TWO_SIDED|90.0|-0.32|0.98|||Difference of the Least Squares Means|||Day 4, REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.98|-0.32|
82620925|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.26|||||TWO_SIDED|90.0|-0.26|0.78|||Difference of the Least Squares Means|||Day 4, Non-REM, Difference (Suvorexant - Placebo) of Least Squares Means||0.78|-0.26|
82660892|NCT00796653|165039363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.182|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.182|<0.0001
82620926|NCT01293006|164958822|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.45|||||TWO_SIDED|90.0|0.1|0.8|||Difference of the Least Squares Means|||Day 4, Wake, Difference (Suvorexant - Placebo) of Least Squares Means||0.80|0.10|
82620927|NCT01293006|164958823|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|90.0|-0.5|0.31|||Difference in the Least Squares Means|||Difference (Suvorexant - Placebo) of Least Squares Means||0.31|-0.50|
82620928|NCT01494987|164958824|SUPERIORITY_OR_OTHER||difference in least squares mean (LSM)|-0.51|||<|0.001|TWO_SIDED|95.0|-0.71|-0.32||P-value is from a mixed-effect model including terms for baseline HbA1c value, prior antihyperglycemia therapy, treatment group, visit week, and treatment by visit week interaction. Unstructured covariance matrix was used.|Mixed Effects Model Analysis||The estimation (LSM) is of the placebo-corrected change from baseline.|Assuming a common standard deviation of 1.2%, an effective sample size of 400 would provide at least 90% power to detect a statistically significant treatment difference of -0.5% (ranolazine vs. placebo) for the reduction of HbA1c from baseline at Week 24 based on a 2-sided alpha of 0.05 and 1:1 randomization.||-0.32|-0.71|<0.001
82620929|NCT01061736|164958831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.99||||0.1155|TWO_SIDED|95.0|0.85|4.64||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived. The multiplicity issues were addressed by using the Hommel-procedure.||4.64|0.85|0.1155
82620930|NCT01061736|164958831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.84||||0.0041|TWO_SIDED|95.0|1.53|9.63||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||9.63|1.53|0.0041
82620931|NCT01061736|164958831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.7119|TWO_SIDED|95.0|0.52|2.61||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||2.61|0.52|0.7119
82620932|NCT01061736|164958831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.38||||0.0363|TWO_SIDED|95.0|1.06|5.35||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||5.35|1.06|0.0363
82620933|NCT01061736|164958831|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.34||||0.0426|TWO_SIDED|95.0|1.03|5.29||Threshold for significance = 0.05.|Cochran-Mantel-Haenszel|||||5.29|1.03|0.0426
82660893|NCT00796653|165039363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.266|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.198|0.334|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.334|0.198|<0.0001
82660894|NCT00796653|165039364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.251|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.182|0.32|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.320|0.182|<0.0001
82660895|NCT00796653|165039364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.249|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.18|0.318|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.318|0.180|<0.0001
82620934|NCT01061736|164958832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.773|||<|0.0001|TWO_SIDED|95.0|2.077|3.703||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo was derived. The multiplicity issues for part B were addressed by using a Bonferroni correction for each dose together with a hierarchical testing procedure across the 3 co-primary and the main secondary endpoints. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level.||3.703|2.077|<0.0001
82620935|NCT01061736|164958832|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.975|||<|0.0001|TWO_SIDED|95.0|2.957|5.344||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||||5.344|2.957|<0.0001
82499442|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.39|STANDARD_ERROR_OF_MEAN|9.44||||90.0|-20.98|10.21|||ANCOVA|||Extension Month 36; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||10.21|-20.98|
82620936|NCT01061736|164958833|SUPERIORITY_OR_OTHER||LS mean difference|-0.235|||<|0.0001|TWO_SIDED|95.0|-0.312|-0.157||Threshold for significance = 0.025.|Mixed Models Analysis|||Analysis was performed using a mixed model for repeated measures (MMRM). Differences in least square (LS) mean between each dose of sarilumab and placebo were derived. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoint was statistically significant).||-0.157|-0.312|<0.0001
82620937|NCT01061736|164958833|SUPERIORITY_OR_OTHER||LS mean difference|-0.258|||<|0.0001|TWO_SIDED|95.0|-0.336|-0.181||Threshold for significance = 0.025.|Mixed Models Analysis|||||-0.181|-0.336|<0.0001
82620938|NCT01061736|164958834|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Threshold for significance = 0.025.|Rank ANCOVA|||Analysis was performed using two-sided rank-based ANCOVA model. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoints were statistically significant).||||<0.0001
82620939|NCT01061736|164958834|SUPERIORITY_OR_OTHER||||||<|0.0001||||||Threshold for significance = 0.025.|Rank ANCOVA|||||||<0.0001
82620940|NCT01061736|164958835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.661|||<|0.0001|TWO_SIDED|95.0|2.451|8.863||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||Analysis was performed using two-sided Cochran-Mantel-Haenszel test. Pairwise comparisons of the response rates between each dose of sarilumab and placebo were derived. Testing was performed according to the hierarchical testing procedure (performed only when the previous endpoints were statistically significant).||8.863|2.451|<0.0001
82620941|NCT01061736|164958835|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.565|||<|0.0001|TWO_SIDED|95.0|2.946|10.515||Threshold for significance = 0.025.|Cochran-Mantel-Haenszel|||||10.515|2.946|<0.0001
82620942|NCT01093755|164958840|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 3 months||||0.30
82620943|NCT01093755|164958840|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 6 months||||0.52
82660896|NCT00796653|165039364|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.281|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.212|0.35|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.350|0.212|<0.0001
82620944|NCT01093755|164958841|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 3 months||||0.70
82620945|NCT01093755|164958841|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison between the two treatment groups at 6 months||||0.64
82620946|NCT00654953|164958843|SUPERIORITY_OR_OTHER|||||||0.05|||||||ANOVA|degrees of freedom for medication group = 2 (group)||The analysis tested the null hypothesis of no difference among groups in terms of the # of days to relapse (first two conseqcutively positive urines) using ANOVA.||||0.05
82620947|NCT00664755|164958844|SUPERIORITY||Odds Ratio (OR)|2.77||||0.011|TWO_SIDED|95.0|1.17|6.59|||Regression, Logistic|||||6.59|1.17|0.011
82620948|NCT01413542|164958908|SUPERIORITY_OR_OTHER||Estimate of Difference||||<|0.001|TWO_SIDED|||||Effect of ACE inhibition on FBF response to bradykinin (p\<0.001). Other comparisons: Effect of DPP4 inhibition on FBF response to bradykinin (p=0.89); Effect of ACE (p=0.16), DPP4 (p=0.82), or combined inhibition (p=0.35) on FBF response to sub P.|Mixed Models Analysis|"Effect of DPP4 inhibition on vasodilator response to GLP-1 (p=0.14) or BNP (p=0.85).~p\<0.05 threshold for statistical significance."||"Group 1: The effect of treatment (placebo, ACE or DPP4 inhibitor, or the combination) on vasodilator response to peptide, measured as forearm blood flow was determined.~Group 2: The effect of treatment (placebo, DPP4 inhibitor) on vasodilator response to peptide, measured as percent change in forearm blood flow was determined."||||<0.001
82620949|NCT01413542|164958909|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED|||||Effect of DPP4 inhibition on tPA release during sub P in women (p=0.02 vs. placebo).Effect of ACE inhibition on tPA release during sub P in women (p\<0.001); effect of DPP4 inhibition on tPA release during sub P and (p=0.001 vs. ACE inhibition alone).|Mixed Models Analysis|p\<0.05 threshold for statistical significance||||||0.02
82620950|NCT01413542|164958910|SUPERIORITY_OR_OTHER|||||||0.011|TWO_SIDED|||||Effect of combined ACE and DPP4 inhibition on change in heart rate in response to max dose substance P (p=0.011 vs placebo; ).|Wilcoxon signed rank|p\<0.05 threshold for statistical significance.||||||0.011
82620951|NCT01413542|164958911|SUPERIORITY_OR_OTHER|||||||0.05|TWO_SIDED|||||Effect of combined DPP4 and ACE inhibition on the change in the norepinephrine AV gradient during substance P as compared to treatment with placebo.|Wilcoxon signed rank|||||||0.05
82620952|NCT01413542|164958911|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|||||Effect of combined DPP4 and ACE inhibition on the change in the norepinephrine AV gradient during substance P as compared to treatment with ACE inhibition alone (p=0.007).|Wilcoxon signed rank|||||||0.007
82620953|NCT01413542|164958912|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Effect of intra-arterial GLP-1 on venous GLP-1 concentrations during placebo (p=0.01).|wilxocon signed rank test|||||||0.01
82620954|NCT01413542|164958912|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||Effect of intra-arterial GLP-1 on venous GLP-1 concentrations during sitagliptin (p=0.01).|Wilcoxon signed rank|||||||0.01
82620955|NCT01413542|164958912|SUPERIORITY_OR_OTHER|||||||0.04|TWO_SIDED|||||Effect of DPP4 inhibition on venous GLP-1 levels at high dose of intra-arterial GLP-1 (p=0.04 vs. placebo).|Wilcoxon signed rank|||||||0.04
82620956|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.044||||0.567|TWO_SIDED|95.0|-0.052|0.14|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.140|-0.052|0.567
82499443|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-15.58|STANDARD_ERROR_OF_MEAN|13.77||||90.0|-38.43|7.26|||ANCOVA|||Extension Month 39; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||7.26|-38.43|
82620957|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.113||||0.015|TWO_SIDED|95.0|0.018|0.209|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.209|0.018|0.015
82620958|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.093||||0.059|TWO_SIDED|95.0|-0.003|0.188|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.188|-0.003|0.059
82620959|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.069||||0.09|TWO_SIDED|95.0|-0.011|0.15|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.150|-0.011|0.090
82620960|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.231|TWO_SIDED|95.0|-0.031|0.129|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.129|-0.031|0.231
82620961|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|-0.021||||0.612|TWO_SIDED|95.0|-0.101|0.059|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.059|-0.101|0.612
82620962|NCT03084718|164958913|SUPERIORITY||Mean Difference (Final Values)|0.102||||0.011|TWO_SIDED|95.0|0.023|0.18|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.180|0.023|0.011
82620963|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.018||||0.647|TWO_SIDED|95.0|-0.06|0.097|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.097|-0.060|0.647
82620964|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.118||||0.004|TWO_SIDED|95.0|0.039|0.196|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.196|0.039|0.004
82620965|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.076|TWO_SIDED|95.0|-0.008|0.149|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.149|-0.008|0.076
82620966|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.099||||0.014|TWO_SIDED|95.0|0.02|0.179|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.179|0.020|0.014
82620967|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.192|TWO_SIDED|95.0|-0.026|0.131|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.131|-0.026|0.192
82620968|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|-0.047||||0.244|TWO_SIDED|95.0|-0.126|0.032|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.032|-0.126|0.244
82620969|NCT03084718|164958914|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.06|TWO_SIDED|95.0|-0.003|0.151|||Mixed Models Analysis|||"Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.151|-0.003|0.060
82620970|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.012||||0.78|TWO_SIDED|95.0|-0.074|0.098|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.098|-0.074|0.780
82620971|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.086|TWO_SIDED|95.0|-0.011|0.162|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.162|-0.011|0.086
82620972|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.324|TWO_SIDED|95.0|-0.043|0.129|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.129|-0.043|0.324
82620973|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.063||||0.153|TWO_SIDED|95.0|-0.024|0.15|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.150|-0.024|0.153
82620974|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.482|TWO_SIDED|95.0|-0.055|0.117|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.117|-0.055|0.482
82620975|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|-0.032||||0.463|TWO_SIDED|95.0|-0.119|0.054|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.054|-0.119|0.463
82620976|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.032||||0.453|TWO_SIDED|95.0|-0.052|0.117|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.117|-0.052|0.453
82620977|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.533|TWO_SIDED|95.0|-0.064|0.123|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.123|-0.064|0.533
82620978|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.105||||0.029|TWO_SIDED|95.0|0.011|0.199|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.199|0.011|0.029
82620979|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.274|TWO_SIDED|95.0|-0.041|0.146|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||0.146|-0.041|0.274
82620980|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.075||||0.119|TWO_SIDED|95.0|-0.019|0.169|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.169|-0.019|0.119
82620981|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.638|TWO_SIDED|95.0|-0.071|0.116|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.116|-0.071|0.638
82620982|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|-0.052||||0.274|TWO_SIDED|95.0|-0.147|0.042|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.042|-0.147|0.274
82620983|NCT03084718|164958915|SUPERIORITY||Mean Difference (Final Values)|0.079||||0.092|TWO_SIDED|95.0|-0.013|0.171|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.171|-0.013|0.092
82620984|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.053|TWO_SIDED|95.0|-0.31|0.0|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.00|-0.31|0.053
82620985|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.26||||0.001|TWO_SIDED|95.0|-0.42|-0.11|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.11|-0.42|0.001
82620986|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.22||||0.006|TWO_SIDED|95.0|-0.37|-0.06|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.06|-0.37|0.006
82620987|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.11||||0.176|TWO_SIDED|95.0|-0.26|0.05|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.05|-0.26|0.176
82620988|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.06||||0.423|TWO_SIDED|95.0|-0.22|0.09|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.09|-0.22|0.423
82620989|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.574|TWO_SIDED|95.0|-0.11|0.2|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.20|-0.11|0.574
82620990|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.011|TWO_SIDED|95.0|-0.35|-0.05|||Mixed Models Analysis|||"Week 4~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.05|-0.35|0.011
82620991|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.215|TWO_SIDED|95.0|-0.27|0.06|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo"||0.06|-0.27|0.215
82620992|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.07|TWO_SIDED|95.0|-0.32|0.01|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||0.01|-0.32|0.070
82620993|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.23||||0.005|TWO_SIDED|95.0|-0.4|-0.07|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.07|-0.40|0.005
82620994|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.05||||0.566|TWO_SIDED|95.0|-0.21|0.12|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.12|-0.21|0.566
82620995|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.124|TWO_SIDED|95.0|-0.29|0.04|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.04|-0.29|0.124
82620996|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.336|TWO_SIDED|95.0|-0.25|0.08|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.08|-0.25|0.336
82620997|NCT03084718|164958916|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.01|TWO_SIDED|95.0|-0.37|-0.05|||Mixed Models Analysis|||"Week 8~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.05|-0.37|0.010
82620998|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.18||||0.067|TWO_SIDED|95.0|-0.38|0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.01|-0.38|0.067
82620999|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.34|||<|0.001|TWO_SIDED|95.0|-0.53|-0.14|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.14|-0.53|< 0.001
82621000|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.21||||0.038|TWO_SIDED|95.0|-0.4|-0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.01|-0.40|0.038
82621001|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.15||||0.13|TWO_SIDED|95.0|-0.35|0.05|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.05|-0.35|0.130
82621002|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.811|TWO_SIDED|95.0|-0.22|0.17|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.17|-0.22|0.811
82621003|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.202|TWO_SIDED|95.0|-0.07|0.33|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.33|-0.07|0.202
82621004|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.2||||0.044|TWO_SIDED|95.0|-0.39|-0.01|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.01|-0.39|0.044
82621005|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.13||||0.283|TWO_SIDED|95.0|-0.37|0.11|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.11|-0.37|0.283
82621006|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.37||||0.003|TWO_SIDED|95.0|-0.6|-0.13|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.13|-0.60|0.003
82621007|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.27||||0.027|TWO_SIDED|95.0|-0.5|-0.03|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.03|-0.50|0.027
82621008|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.054|TWO_SIDED|95.0|-0.48|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.00|-0.48|0.054
82621009|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.14||||0.258|TWO_SIDED|95.0|-0.38|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.10|-0.38|0.258
82660897|NCT00796653|165039365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.159|0.299|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.299|0.159|<0.0001
82621010|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.423|TWO_SIDED|95.0|-0.14|0.34|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.34|-0.14|0.423
82621011|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.111|TWO_SIDED|95.0|-0.42|0.04|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.04|-0.42|0.111
82621012|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.16||||0.135|TWO_SIDED|95.0|-0.36|0.05|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||0.05|-0.36|0.135
82621013|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.35|||<|0.001|TWO_SIDED|95.0|-0.56|-0.14|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.14|-0.56|< 0.001
82621014|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.24||||0.024|TWO_SIDED|95.0|-0.44|-0.03|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.03|-0.44|0.024
82621015|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.067|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.01|-0.40|0.067
82621016|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.08||||0.444|TWO_SIDED|95.0|-0.29|0.13|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.13|-0.29|0.444
82621017|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|0.11||||0.285|TWO_SIDED|95.0|-0.09|0.32|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.32|-0.09|0.285
82621018|NCT03084718|164958917|SUPERIORITY||Mean Difference (Final Values)|-0.19||||0.06|TWO_SIDED|95.0|-0.4|0.01|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||0.01|-0.40|0.060
82621019|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.115|TWO_SIDED|95.0|-1.1|10.0|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.0|-1.1|0.115
82621020|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|7.6||||0.008|TWO_SIDED|95.0|2.0|13.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.1|2.0|0.008
82621021|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.099|TWO_SIDED|95.0|-0.9|10.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.2|-0.9|0.099
82621022|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.275|TWO_SIDED|95.0|-2.5|8.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.8|-2.5|0.275
82621023|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.943|TWO_SIDED|95.0|-5.4|5.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||5.8|-5.4|0.943
82621024|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|-2.9||||0.308|TWO_SIDED|95.0|-8.6|2.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||2.7|-8.6|0.308
82621025|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|6.3||||0.024|TWO_SIDED|95.0|0.8|11.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||11.7|0.8|0.024
82621026|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|4.8||||0.129|TWO_SIDED|95.0|-1.4|11.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.0|-1.4|0.129
82621027|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.004|TWO_SIDED|95.0|2.8|15.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||15.2|2.8|0.004
82660898|NCT00796653|165039365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.177|0.317|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.317|0.177|<0.0001
82621028|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|5.9||||0.061|TWO_SIDED|95.0|-0.3|12.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.1|-0.3|0.061
82621029|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|4.3||||0.18|TWO_SIDED|95.0|-2.0|10.5|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||10.5|-2.0|0.180
82621030|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|1.1||||0.721|TWO_SIDED|95.0|-5.1|7.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.4|-5.1|0.721
82621031|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|-3.1||||0.328|TWO_SIDED|95.0|-9.4|3.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||3.1|-9.4|0.328
82621032|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|7.1||||0.022|TWO_SIDED|95.0|1.0|13.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.2|1.0|0.022
82621033|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.101|TWO_SIDED|95.0|-0.9|10.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.1|-0.9|0.101
82621034|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.003|TWO_SIDED|95.0|2.8|13.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.9|2.8|0.003
82621035|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.061|TWO_SIDED|95.0|-0.2|10.8|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.8|-0.2|0.061
82621036|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|3.7||||0.196|TWO_SIDED|95.0|-1.9|9.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.3|-1.9|0.196
82621037|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.814|TWO_SIDED|95.0|-4.9|6.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.3|-4.9|0.814
82621038|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|-3.0||||0.291|TWO_SIDED|95.0|-8.6|2.6|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||2.6|-8.6|0.291
82621039|NCT03084718|164958918|SUPERIORITY||Mean Difference (Final Values)|6.7||||0.016|TWO_SIDED|95.0|1.3|12.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||12.1|1.3|0.016
82621040|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621041|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621042|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621043|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.913|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.913
82621044|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.871|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.871
82621045|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.958|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.958
82621046|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621047|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.01|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.010
82621048|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.011|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.011
82621049|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.002|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.002
82621050|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.996|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.996
82621051|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.632|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.632
82621052|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.63|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.630
82621053|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621054|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.002|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.002
82621055|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.001|TWO_SIDED|95.0|-0.2|0.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||-0.0|-0.2|0.001
82660899|NCT00796653|165039365|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.275|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.205|0.345|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.345|0.205|<0.0001
82660900|NCT00796653|165039366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.199|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.128|0.27|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.270|0.128|<0.0001
82621056|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621057|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.96|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.960
82621058|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.725|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||0.1|-0.1|0.725
82621059|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.764|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||0.1|-0.1|0.764
82621060|NCT03084718|164958919|SUPERIORITY||Mean Difference (Final Values)|-0.1|||<|0.001|TWO_SIDED|95.0|-0.2|-0.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||-0.1|-0.2|< 0.001
82621061|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|2.9||||0.316|TWO_SIDED|95.0|-2.8|8.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||8.7|-2.8|0.316
82621062|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|4.9||||0.097|TWO_SIDED|95.0|-0.9|10.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||10.7|-0.9|0.097
82621063|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|4.4||||0.128|TWO_SIDED|95.0|-1.3|10.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||10.2|-1.3|0.128
82621064|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.511|TWO_SIDED|95.0|-3.9|7.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.8|-3.9|0.511
82621065|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|1.5||||0.61|TWO_SIDED|95.0|-4.3|7.3|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.3|-4.3|0.610
82660901|NCT00796653|165039366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.213|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.142|0.283|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.283|0.142|<0.0001
82621066|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.882|TWO_SIDED|95.0|-6.3|5.4|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||5.4|-6.3|0.882
82621067|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|7.2||||0.013|TWO_SIDED|95.0|1.5|12.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||12.9|1.5|0.013
82621068|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|4.7||||0.219|TWO_SIDED|95.0|-2.8|12.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||12.2|-2.8|0.219
82621069|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|5.3||||0.166|TWO_SIDED|95.0|-2.2|12.8|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||12.8|-2.2|0.166
82621070|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|5.5||||0.151|TWO_SIDED|95.0|-2.0|12.9|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.9|-2.0|0.151
82621071|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.871|TWO_SIDED|95.0|-6.9|8.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.2|-6.9|0.871
82621072|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|0.8||||0.837|TWO_SIDED|95.0|-6.8|8.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.3|-6.8|0.837
82621073|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.966|TWO_SIDED|95.0|-7.4|7.7|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||7.7|-7.4|0.966
82621074|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|9.5||||0.012|TWO_SIDED|95.0|2.1|16.9|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||16.9|2.1|0.012
82660902|NCT00796653|165039366|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.241|STANDARD_ERROR_OF_MEAN|0.036|<|0.0001||95.0|0.17|0.312|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.312|0.170|<0.0001
82660903|NCT00796653|165039367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.218|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.146|0.29|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.290|0.146|<0.0001
82660904|NCT00796653|165039367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.237|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.166|0.309|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.309|0.166|<0.0001
82660905|NCT00796653|165039367|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.22|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.148|0.292|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.292|0.148|<0.0001
82621075|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.233|TWO_SIDED|95.0|-2.5|10.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||10.1|-2.5|0.233
82660906|NCT00796653|165039368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.088|STANDARD_ERROR_OF_MEAN|0.035||0.0133||95.0|0.018|0.157|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.157|0.018|0.0133
82621076|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|5.1||||0.113|TWO_SIDED|95.0|-1.2|11.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.4|-1.2|0.113
82621077|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.12|TWO_SIDED|95.0|-1.3|11.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||11.2|-1.3|0.120
82621078|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.691|TWO_SIDED|95.0|-5.1|7.6|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.6|-5.1|0.691
82621079|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.722|TWO_SIDED|95.0|-5.2|7.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||7.5|-5.2|0.722
82621080|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.966|TWO_SIDED|95.0|-6.5|6.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.2|-6.5|0.966
82621081|NCT03084718|164958920|SUPERIORITY||Mean Difference (Final Values)|8.3||||0.008|TWO_SIDED|95.0|2.2|14.5|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||14.5|2.2|0.008
82621082|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.426|TWO_SIDED|95.0|-3.4|7.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||7.9|-3.4|0.426
82660907|NCT00796653|165039368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.143|STANDARD_ERROR_OF_MEAN|0.035|<|0.0001||95.0|0.073|0.212|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.212|0.073|<0.0001
82660908|NCT00796653|165039368|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.082|STANDARD_ERROR_OF_MEAN|0.035||0.0212||95.0|0.012|0.151|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.151|0.012|0.0212
82621083|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.055|TWO_SIDED|95.0|-0.1|11.2|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.2|-0.1|0.055
82621084|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|5.4||||0.059|TWO_SIDED|95.0|-0.2|11.1|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||11.1|-0.2|0.059
82621085|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.3||||0.263|TWO_SIDED|95.0|-2.5|9.0|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.0|-2.5|0.263
82621086|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.28|TWO_SIDED|95.0|-2.6|8.8|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.8|-2.6|0.280
82621087|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.965|TWO_SIDED|95.0|-5.9|5.6|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||5.6|-5.9|0.965
82621088|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|7.8||||0.007|TWO_SIDED|95.0|2.2|13.3|||Mixed Models Analysis|||"Inter-visit period 1~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.3|2.2|0.007
82621089|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.308|TWO_SIDED|95.0|-3.5|11.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.2|-3.5|0.308
82621090|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|5.8||||0.124|TWO_SIDED|95.0|-1.6|13.2|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.2|-1.6|0.124
82621091|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.063|TWO_SIDED|95.0|-0.4|14.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||14.3|-0.4|0.063
82621092|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.602|TWO_SIDED|95.0|-5.5|9.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.4|-5.5|0.602
82621093|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.402|TWO_SIDED|95.0|-4.3|10.6|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||10.6|-4.3|0.402
82621094|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|1.2||||0.753|TWO_SIDED|95.0|-6.3|8.6|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||8.6|-6.3|0.753
82621095|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|10.2||||0.006|TWO_SIDED|95.0|2.9|17.4|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||17.4|2.9|0.006
82621096|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.1||||0.331|TWO_SIDED|95.0|-3.1|9.2|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||9.2|-3.1|0.331
82621097|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|5.7||||0.073|TWO_SIDED|95.0|-0.5|11.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||11.9|-0.5|0.073
82621098|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|6.2||||0.048|TWO_SIDED|95.0|0.1|12.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||12.4|0.1|0.048
82499444|NCT00137046|164689614|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.84|STANDARD_ERROR_OF_MEAN|11.27||||90.0|-15.79|21.46|||ANCOVA|||Extension Follow Up Month 3; Treatment Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Fasting Plasma Glucose, and Center.||21.46|-15.79|
82621099|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|2.6||||0.41|TWO_SIDED|95.0|-3.6|8.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.9|-3.6|0.410
82621100|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|3.2||||0.32|TWO_SIDED|95.0|-3.1|9.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||9.4|-3.1|0.320
82621101|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|0.5||||0.867|TWO_SIDED|95.0|-5.7|6.8|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.8|-5.7|0.867
82621102|NCT03084718|164958921|SUPERIORITY||Mean Difference (Final Values)|9.0||||0.004|TWO_SIDED|95.0|2.9|15.0|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||15.0|2.9|0.004
82621103|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.26|TWO_SIDED|95.0|-3.2|11.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||11.9|-3.2|0.260
82621104|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.387|TWO_SIDED|95.0|-4.2|10.9|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||10.9|-4.2|0.387
82621105|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.574|TWO_SIDED|95.0|-5.4|9.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||9.7|-5.4|0.574
82621106|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.799|TWO_SIDED|95.0|-8.6|6.7|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.7|-8.6|0.799
82621107|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-2.0||||0.577|TWO_SIDED|95.0|-9.8|5.5|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||5.5|-9.8|0.577
82621108|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.764|TWO_SIDED|95.0|-8.8|6.5|||Mixed Models Analysis|||"Inter-visit period 1~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||6.5|-8.8|0.764
82621109|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.097|TWO_SIDED|95.0|-1.1|13.8|||Mixed Models Analysis|||"Inter-visit period 1~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.8|-1.1|0.097
82621110|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.908|TWO_SIDED|95.0|-9.9|8.8|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||8.8|-9.9|0.908
82621111|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|7.0||||0.135|TWO_SIDED|95.0|-2.2|16.5|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||16.5|-2.2|0.135
82621112|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.786|TWO_SIDED|95.0|-10.7|8.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo"||8.1|-10.7|0.786
82621113|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|8.0||||0.109|TWO_SIDED|95.0|-1.7|17.1|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||17.1|-1.7|0.109
82621114|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.876|TWO_SIDED|95.0|-10.1|8.7|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||8.7|-10.1|0.876
82621115|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-8.0||||0.08|TWO_SIDED|95.0|-17.9|1.0|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||1.0|-17.9|0.080
82621116|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.202|TWO_SIDED|95.0|-3.2|15.3|||Mixed Models Analysis|||"Inter-visit period 2~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||15.3|-3.2|0.202
82660909|NCT00796653|165039369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.127|STANDARD_ERROR_OF_MEAN|0.036||0.0004||95.0|0.057|0.197|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.197|0.057|0.0004
82621117|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|2.0||||0.635|TWO_SIDED|95.0|-5.9|9.7|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment A (CHF 718 pMDI 100 µg TDD) vs Treatment D (Placebo)"||9.7|-5.9|0.635
82621118|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|5.0||||0.191|TWO_SIDED|95.0|-2.6|13.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment D (Placebo)"||13.1|-2.6|0.191
82621119|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|0.4||||0.914|TWO_SIDED|95.0|-7.4|8.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment D (Placebo)"||8.3|-7.4|0.914
82621120|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.407|TWO_SIDED|95.0|-4.6|11.3|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment B (CHF 718 pMDI 400 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||11.3|-4.6|0.407
82621121|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.718|TWO_SIDED|95.0|-9.4|6.4|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment A (CHF 718 pMDI 100 µg TDD)"||6.4|-9.4|0.718
82621122|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|-5.0||||0.235|TWO_SIDED|95.0|-12.7|3.1|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment C (CHF 718 pMDI 800 µg TDD) vs Treatment B (CHF 718 pMDI 400 µg TDD)"||3.1|-12.7|0.235
82621123|NCT03084718|164958922|SUPERIORITY||Mean Difference (Final Values)|6.0||||0.118|TWO_SIDED|95.0|-1.6|13.9|||Mixed Models Analysis|||"Entire treatment period~Comparison treatment groups were:~Treatment E (QVAR\^®, 320 µg TDD) vs Treatment D (Placebo)"||13.9|-1.6|0.118
82621124|NCT03341923|164958929|NON_INFERIORITY|"Difference (DT1MF-AMMF) of percentage of subjects rated as Optimal was provided with two-sided 95% confidence interval (CI). If lower limit of CI was above -10% as non-inferiority criteria, non-inferiority was to be demonstrated."|Difference in proportion|6.1||||0.0455|TWO_SIDED|95.0|0.2|11.9|||McNemar|||||11.9|0.2|0.0455
82621125|NCT03341923|164958929|SUPERIORITY|After demonstrating noninferiority, if lower limit of CI was above 0% as superiority criteria, superiority was to be demonstrated.|Difference in proportion|6.1||||0.0455|TWO_SIDED|95.0|0.2|11.9|||McNemar|||||11.9|0.2|0.0455
82621126|NCT02806947|164958930|OTHER|No formal hypothesis test was planned or performed for comparing Day 28 CR/PR proportions between arms. Rather, the risk difference is estimated by a point estimate and 90% confidence interval.|Risk Difference (RD)|-0.082|STANDARD_ERROR_OF_MEAN|0.086|||TWO_SIDED|90.0|-0.223|0.059|||||The risk difference estimate is the observed proportion of Day 28 CR/PR in the sirolimus arm minus the proportion in the prednisone arm. A Wald confidence interval for this difference is given.|The primary objective of this Phase II trial was to describe the proportion of patients with Day 28 CR/PR in each treatment arm and to estimate the risk difference of these rates using a point estimate and 90% confidence interval. These estimates are used to inform about the efficacy of sirolimus in contrast to prednisone for potential future research.||0.059|-0.223|
82660910|NCT00796653|165039369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.036||0.0012||95.0|0.045|0.185|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.185|0.045|0.0012
82621127|NCT02806947|164958930|OTHER|No formal hypothesis test was planned or performed for comparing Day 56 CR/PR proportions between arms. Rather, the risk difference is estimated by a point estimate and 95% confidence interval.|Risk Difference (RD)|-0.152|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|95.0|-0.315|0.011|||||The risk difference estimate is the observed proportion of Day 56 CR/PR in the sirolimus arm minus the proportion in the prednisone arm. A Wald confidence interval for this difference is given.|A secondary objective of this Phase II trial was to describe the proportion of patients with Day 56 CR/PR in each treatment arm and to estimate the risk difference of these rates using a point estimate and 95% confidence interval. These estimates are used to inform about the efficacy of sirolimus in contrast to prednisone for potential future research.||0.011|-0.315|
82621128|NCT02806947|164958931|SUPERIORITY||||||<|0.001||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with CR/PR and steroid dose of 0.25mg/kg/day or less at Day 28 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||< 0.001
82621129|NCT02806947|164958932|SUPERIORITY|||||||0.32||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in classification of acute GVHD response at Day 28 post-randomization between participants on the sirolimus and prednisone arms. These classifications were compared between treatment arms using Fisher's exact test, due to the presence of small numbers of participants in some categories.||||0.320
82621130|NCT02806947|164958932|SUPERIORITY|||||||0.014||||||Statistical significance was determined using a pre-specified threshold of 0.05|Fisher Exact|||The null hypothesis is that there is no difference in classification of acute GVHD response at Day 56 post-randomization between participants on the sirolimus and prednisone arms. These classifications were compared between treatment arms using Fisher's exact test, due to the presence of small numbers of participants in some categories.||||0.014
82621131|NCT02806947|164958933|SUPERIORITY|||||||0.078||||||Statistical significance was determine using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with treatment failure at Day 28 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.078
82621132|NCT02806947|164958933|SUPERIORITY|||||||0.068||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with treatment failure at Day 56 post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.068
82621133|NCT02806947|164958934|SUPERIORITY|||||||0.785||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with overall survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.785
82621134|NCT02806947|164958935|SUPERIORITY|||||||0.34||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with disease-free survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.340
82621135|NCT02806947|164958936|SUPERIORITY|||||||0.713||||||Statistical significance was determined using a pre-specified threshold of 0.05|Log Rank|||The null hypothesis is that there is no difference in the proportions of participants with event-free survival between the sirolimus and prednisone arms during the 12 month period post-randomization. These proportions were compared between treatment arms using a log rank test.||||0.713
82621136|NCT02806947|164958937|SUPERIORITY|||||||0.726||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with non-relapse mortality between the sirolimus and prednisone arms during the 12 month period post-randomization, with malignancy relapse treated as a competing risk for non-relapse mortality. These proportions were compared between treatment arms using Gray's test.||||0.726
82621137|NCT02806947|164958938|SUPERIORITY|||||||0.402||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with malignancy relapse between the sirolimus and prednisone arms during the 12 month period post-randomization, with death treated as a competing risk for malignancy relapse. These proportions were compared between treatment arms using Gray's test.||||0.402
82621138|NCT02806947|164958939|SUPERIORITY|||||||0.296||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with chronic GVHD between the sirolimus and prednisone arms during the 12 month period post-randomization, with death and malignancy relapse treated as competing risks for chronic GVHD. These proportions were compared between treatment arms using Gray's test.||||0.296
82621139|NCT02806947|164958940|SUPERIORITY|||||||0.936||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with GVHD-free survival at 6 months post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.936
82621140|NCT02806947|164958940|SUPERIORITY|||||||0.598||||||Statistical significance was determined using a pre-specified threshold of 0.05|Z test comparing binomial proportions|||The null hypothesis is that there is no difference in the proportions of participants with GVHD-free survival at 6 months post-randomization between the sirolimus and prednisone arms. These proportions were compared between treatment arms using a Z test of the difference of binomial proportions.||||0.598
82621141|NCT02806947|164958941|SUPERIORITY|||||||0.221||||||Statistical significance was determined using a pre-specified threshold of 0.05|Gray's test|||The null hypothesis is that there is no difference in the proportions of participants with serious infections between the sirolimus and prednisone arms during the 12 month period post-randomization, with death treated as a competing risk for serious infection. These proportions were compared between treatment arms using Gray's test.||||0.221
82621142|NCT04511819|164958950|OTHER||Risk Difference (RD)|-0.087||||0.8762|TWO_SIDED|95.0|-0.347|0.174|||Regression, Logistic|||||0.174|-0.347|0.8762
82621143|NCT03641547|164958956|OTHER||Post prob of tox at dose level 6|0.029|||||TWO_SIDED|95.0|0.0|0.165||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE-CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.165|0|
82621144|NCT03641547|164958957|OTHER||Post prob of tox at dose level 4|0.185|||||TWO_SIDED|95.0|0.042|0.397||||||The primary analysis is performed using the Time-To-Event Continual Reassessment Method (TiTE CRM). Giving posterior estimates for the probability of toxicity (DLT) at each dose level.||0.397|0.042|
82621145|NCT02767856|164958968|EQUIVALENCE|The study did not enroll enough samples. The stats here are only for reference.|Mean Difference (Net)|0.04||||0.48|TWO_SIDED|95.0|-0.08|0.16|||t-test, 2 sided|||Baseline and primary visit outcome||0.16|-0.08|0.48
82621146|NCT02767856|164958969|EQUIVALENCE|The study did not reach the target sample size. the stats are for reference.|Mean Difference (Final Values)|0.12||||0.26|TWO_SIDED|95.0|-0.75|0.99|||t-test, 2 sided|||||0.99|-0.75|0.26
82621147|NCT02767856|164958970|EQUIVALENCE|The study did not reach the target sample size. The stats are for reference.|Mean Difference (Final Values)|26.3||||0.26|TWO_SIDED|95.0|-21.75|74.2|||t-test, 2 sided|||||74.20|-21.75|0.26
82621148|NCT02767856|164958971|EQUIVALENCE|The study did not reach the target sample size. The stats are for reference.|Mean Difference (Final Values)|11.1||||0.44|TWO_SIDED|95.0|-41.3|19.3|||t-test, 2 sided|||||19.3|-41.3|0.44
82621149|NCT01594333|164958972|SUPERIORITY||Cox Proportional Hazard|1.01||||0.91|TWO_SIDED|95.0|0.82|1.25||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status(diabetes or metabolic syndrome alone)|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.25|0.82|0.91
82621150|NCT01594333|164958973|SUPERIORITY||Cox Proportional Hazard|0.96||||0.67|TWO_SIDED|95.0|0.79|1.16||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status(metabolic syndrome alone or diabetes at enrollment).|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.16|0.79|0.67
82621151|NCT01594333|164958974|SUPERIORITY||Cox Proportional Hazard|1.16||||0.32|TWO_SIDED|95.0|0.87|1.56||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (metabolic syndrome alone or diabetes at enrollment).|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.56|0.87|0.32
82621152|NCT01594333|164958975|SUPERIORITY||Cox Proportional Hazard|0.95||||0.57|TWO_SIDED|95.0|0.81|1.12||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (metabolic syndrome alone or diabetes) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.12|0.81|0.57
82621153|NCT01594333|164958976|SUPERIORITY||Cox Proportional Hazard|0.89||||0.54|TWO_SIDED|95.0|0.6|1.31||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, type of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.31|0.60|0.54
82621154|NCT01594333|164958977|SUPERIORITY||Cox Proportional Hazard|0.98||||0.8|TWO_SIDED|95.0|0.84|1.14||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time since qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.14|0.84|0.80
82621155|NCT01594333|164958979|SUPERIORITY||Cox Proportional Hazard|0.81||||0.31|TWO_SIDED|95.0|0.53|1.22||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment.|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.22|0.53|0.31
82621156|NCT01594333|164958980|SUPERIORITY||Cox Proportional Hazard|0.92||||0.38|TWO_SIDED|95.0|0.75|1.12||2-sided unadjusted p-value|Log Rank|Stratified according to type of qualifying event, time of qualifying event and risk status (diabetes or metabolic syndrome alone) at enrollment|Confidence intervals have not been adjusted for multiplicity, and therefore inferences drawn from these intervals may not be reproducible.|||1.12|0.75|0.38
82621157|NCT03282357|164959032|NON_INFERIORITY|Non-inferiority margin, delta = 10 percent (%). The two-sided 95% confidence interval (CI) for the differences between percentages was constructed using the Newcombe's recommended method.|Difference in Percentage|-6.8|||||TWO_SIDED|95.0|-13.1|-0.5||||||||-0.5|-13.1|
82621158|NCT03282357|164959033|NON_INFERIORITY|Non-inferiority margin, delta = 15%. The two-sided 95% CI for the differences between percentages was constructed using the Newcombe's recommended method.|Difference in Percentage|-4.9|||||TWO_SIDED|95.0|-9.8|-0.3||||||||-0.3|-9.8|
82621159|NCT01283997|164959114|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.54|TWO_SIDED|95.0|-0.13|0.24|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the fingertip||0.24|-0.13|0.54
82621160|NCT01283997|164959114|OTHER||Mean Difference (Final Values)|0.05||||0.6|TWO_SIDED|95.0|-0.13|0.23|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the palm||0.23|-0.13|0.60
82621161|NCT01283997|164959114|OTHER||Mean Difference (Final Values)|-0.12||||0.37|TWO_SIDED|95.0|-0.4|0.15|||Wilcoxon (Mann-Whitney)|||Difference in the measurements for touch by the forearm||0.15|-0.40|0.37
82621162|NCT01283997|164959115|OTHER||Mean Difference (Final Values)|-0.73||||0.56|TWO_SIDED|95.0|-2.06|0.59|||Wilcoxon (Mann-Whitney)|||Difference in Numbness severity at baseline and week 10.||0.59|-2.06|0.56
82621163|NCT03097614|164959153|SUPERIORITY|||||||0.0001|TWO_SIDED||||||ANCOVA|||||||0.0001
82621164|NCT03864536|164959162|SUPERIORITY||||||<|0.05||||||The statistical significance level was set using alpha of 0.05 without multiplicity correction. This pilot study was not powered for all the outcomes so the magnitude and estimates of intervention efficacy was of primary interest.|Mixed Models Analysis|||||||<0.05
82621165|NCT03864536|164959163|SUPERIORITY||||||<|0.05||||||The statistical significance level was set using alpha of 0.05 without multiplicity correction. This pilot study was not powered for all the outcomes so the magnitude and estimates of intervention efficacy was of primary interest.|Mixed Models Analysis|||||||<0.05
82621166|NCT04058158|164959174|EQUIVALENCE|Pre-defined equivalence margin was \[-337.2 to 337.2\].|Least squares mean difference|34.48|||||TWO_SIDED|95.0|-47.66|116.62||||||||116.62|-47.66|
82621167|NCT04058158|164959175|EQUIVALENCE|Pre-defined equivalence margin was \[0.77 to 1.29\].|Ratio of geometric least squares mean|1.08|||||TWO_SIDED|90.0|0.95|1.23||||||||1.23|0.95|
82621168|NCT02215616|164959176|OTHER||Least square (LS) mean difference|0.78||||0.4853|TWO_SIDED|95.0|-1.42|2.98||Threshold for significance at 0.045 level.|Mixed Models Analysis|||Analysis was performed using Mixed Model Repeated Measures model (MMRM) with treatment group (3 levels: placebo, laquinimod 0.5 mg and laquinimod 1 mg), categorical week (4 levels: Weeks 4, 13, 26, and 52), treatment by week interaction, country, TMS baseline value and TMS baseline by week interaction as fixed effects. Unstructured variance-covariance structure was used in the initial model.||2.98|-1.42|0.4853
82621169|NCT01634113|164959178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.117||0.4963|TWO_SIDED|95.0|-0.312|0.152||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.152|-0.312|0.4963
82621170|NCT01634113|164959178|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.048|STANDARD_ERROR_OF_MEAN|0.123||0.6936|TWO_SIDED|95.0|-0.292|0.195||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.195|-0.292|0.6936
82621171|NCT01634113|164959180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.083|STANDARD_ERROR_OF_MEAN|0.157||0.5995|TWO_SIDED|95.0|-0.229|0.394||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.394|-0.229|0.5995
82621172|NCT01634113|164959180|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.015|STANDARD_ERROR_OF_MEAN|0.16||0.9251|TWO_SIDED|95.0|-0.303|0.333||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.333|-0.303|0.9251
82621173|NCT01634113|164959181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.25|STANDARD_ERROR_OF_MEAN|10.324||0.8279|TWO_SIDED|95.0|-18.243|22.743||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||22.743|-18.243|0.8279
82621174|NCT01634113|164959181|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.497|STANDARD_ERROR_OF_MEAN|10.826||0.8181|TWO_SIDED|95.0|-23.987|18.994||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||18.994|-23.987|0.8181
82621175|NCT01634113|164959183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.061|STANDARD_ERROR_OF_MEAN|0.112||0.5869|TWO_SIDED|95.0|-0.161|0.283||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R2.5 minus placebo|||0.283|-0.161|0.5869
82621176|NCT01634113|164959183|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.116||0.523|TWO_SIDED|95.0|-0.305|0.156||All treatment comparisons were exploratory, no formal hypothesis testing was performed.|ANCOVA||Difference calculated as Tio R5 minus placebo|||0.156|-0.305|0.5230
82660911|NCT00796653|165039369|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.036||0.0056||95.0|0.029|0.169|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.169|0.029|0.0056
82660912|NCT00796653|165039370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.036||0.0045||95.0|0.032|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.173|0.032|0.0045
82621177|NCT01956240|164959245|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.51|STANDARD_DEVIATION|1.9|<|0.05|TWO_SIDED|95.0|||||ANOVA|A 1-way repeated measures ANOVA was used to assess for possible differences among evaluations in each group separately for pectoralis minor length.||||||<0.05
82621178|NCT01956240|164959246|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.0|||>|0.05|TWO_SIDED|95.0|||||ANOVA|Separate 2-way repeated measures ANOVAs were used to test for interactions of angle x evaluation (1,2,3) and for main effects of evaluation.||||||>0.05
82621179|NCT03115112|164959271|NON_INFERIORITY|The non-inferiority margin of 0.35% was determined based on a reference clinical trial that demonstrated the effectiveness of sitagliptin, 100 mg, compared to placebo on HbA1c reduction in subjects with type 2 DM. A margin of 0.35% was selected to be approximately half of sitagliptin effect and remained clinically meaningful.|Difference of LS Means|0.08|||||TWO_SIDED|95.0|-0.07|0.22|||||Mixed-effects repeated measures analysis includes region, treatment, visit, treatment-by-visit interaction and the baseline HbA1c value as fixed effect covariates.|||0.22|-0.07|
82621180|NCT03115112|164959272|SUPERIORITY||Difference of LS Means|-0.37||||0.0123|TWO_SIDED|95.0|-0.7|-0.05|||Mixed-effects repeated measures|Covariate includes region, treatment, visit, treatment-by-visit interaction and the baseline FPG value as a fixed effect covariate.||||-0.05|-0.70|0.0123
82621181|NCT03115112|164959273|SUPERIORITY||Difference of LS Means|-2.54|||<|0.0001|TWO_SIDED|95.0|-3.15|-1.92|||Mixed-effects repeated measures|Included region, treatment, visit, treatment-by-visit interaction and the baseline body weight value as fixed effect covariate.||||-1.92|-3.15|<0.0001
82621182|NCT03115112|164959274|SUPERIORITY||mixed-effects repeated measures|-2.33||||0.0276|TWO_SIDED|95.0|-4.7|0.05|||t-test, 1 sided|p value was presented based on one sided statistical tests using a 0.025 level of significance|Included region, treatment, visit, treatment-by-visit interaction and the baseline body weight value as fixed effect covariate.|||0.05|-4.70|0.0276
82621183|NCT01546285|164959275|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-1.4|STANDARD_DEVIATION|4.8|||TWO_SIDED|95.0|-2.58|-0.22|||Compare the mean difference with 5mmHg|||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4 mmHg and a standard deviation of no more than 5 mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is at least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in systolic, diastolic, and mean BP determinations will be compared. A difference of within 10 mmHg is considered equivalent in NIBP.||-0.22|-2.58|
82621184|NCT01546285|164959275|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-3.3|STANDARD_DEVIATION|2.6|||TWO_SIDED|95.0|-3.95|-2.66||||||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4mmHg and a standard deviation of no more than 5mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is a least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in the systolic, diastolic, and mean BP determinations will be compared. A difference of within 10mmHg is considered equivalent in NIBP.||-2.66|-3.95|
82621185|NCT01546285|164959275|NON_INFERIORITY_OR_EQUIVALENCE|This study is to show a mean difference of less than 5mmHg and a standard deviation less than 8mmHg for the difference in systolic, diastolic, and mean BP readings taken by B40 and PRO1000 patient monitors.|Mean Difference (Final Values)|-3.7|STANDARD_DEVIATION|4.2|||TWO_SIDED|95.0|-4.73|-2.67||||||A total of no less than 65 subjects are needed for this study. Assuming a mean of no more than 4mmHg and a standard deviation of no more than 5mmHg for the difference, this sample size ensures that the percent of subjects with equivalent NIBP is a least 80% with 90% confidence. The difference between the B40 and PRO1000 patient monitors in the systolic, diastolic, and mean BP determinations will be compared. A difference of within 10mmHg is considered equivalent in NIBP.||-2.67|-4.73|
82621186|NCT01709786|164959283|SUPERIORITY_OR_OTHER||Bland-Altman Analysis|1.49|||||TWO_SIDED|||||p-value is not reported since Bland-Altman is not a hypothesis testing framework.|Limits of agreement||Limits of agreement are -2.02 to 5.00. This is not a confidence interval because Bland-Altman is not a hypothesis testing framework.|||||
82621187|NCT01709786|164959284|SUPERIORITY_OR_OTHER||Limits of agreement|-0.63|||||TWO_SIDED|||||p-value not reported since Bland-Altman is not a hypothesis testing framework.|Bland-Altman Analysis||Limits of agreement are -3.44 to 2.18. This is not a confidence interval because Bland-Altman is not a hypothesis testing framework.|||||
82621188|NCT01170702|164959285|NON_INFERIORITY|The non inferiority margin is clinically important reduction in 24 hour hydromorphone consumption of 25%, 37.5% and 50% absolute reduction, compared with control.|Median Difference (Final Values)|1.25|STANDARD_DEVIATION|0.05||0.05|TWO_SIDED|0.975|1.25|1.25|||Kruskal-Wallis|||||1.25|1.25|.05
82621189|NCT01148563|164959345|SUPERIORITY||Risk Ratio, log|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.094|TWO_SIDED|95.0|-0.65|0.05|||bootstrapping||The hypothesis test was based on ln(relative risk), with the tele-monitoring group value as the relative risk numerator and the control group value as the denominator. The standard error was generated by bootstrapping the sample.|||0.05|-0.65|0.094
82621190|NCT01148563|164959346|SUPERIORITY||Risk Ratio, log|0.7|STANDARD_ERROR_OF_MEAN|0.22||0.105|TWO_SIDED|95.0|0.45|1.08|||bootstrapping|The standard error was generated by bootstrapping the sample.|The hypothesis test was based on ln(relative risk) with the tele-monitoring group value as the numerator and the control group as the denominator.|||1.08|0.45|0.105
82621191|NCT01879319|164959347|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|-2.4|||||TWO_SIDED|95.0|-11.2|6.1||||||||6.1|-11.2|
82621192|NCT01879319|164959348|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.4|STANDARD_ERROR_OF_MEAN|3.2|||TWO_SIDED|95.0|-2.9|9.7||||||||9.7|-2.9|
82621193|NCT00589979|164959352|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.78||||0.1006||95.0|0.89|3.55||All statistical tests were 2-sided with a significance level of alpha=0.05.|Cox frailty model|Model included treatment, sequence, period, and first-order carryover as fixed effects and frailty; patient nested within sequence was frailty.|The Hazard Ratio (HR) provided is the ratio of Placebo to Lidoderm.|The two treatments were compared by time-varying relative hazards, associated P values, and 95% confidence intervals. Appropriate survival or hazard functions were calculated.||3.55|0.89|0.1006
82621194|NCT00589979|164959354|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.86||||0.1272||95.0|0.86|4.02||The logistic regression model for repeated measures used for this analysis included treatment, sequence, period, and first-order carry-over as fixed effects and repeated measures taken on patients nested within sequence.|Regression, Logistic|The results presented are reported in terms of odds ratios, corresponding 95% confidence intervals, and P-values for each fixed effect in the model.|The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|The proportion of patients who exited from the current treatment period prior to the 4-week planned duration was analyzed using a logistic regression model for repeated measures.||4.02|0.86|0.1272
82621195|NCT00589979|164959355|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.54||||0.0224||95.0|-1.01|-0.08||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||-0.08|-1.01|0.0224
82621196|NCT00589979|164959356|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.2747||95.0|-0.31|1.09||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects regression||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||1.09|-0.31|0.2747
82660913|NCT00796653|165039370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.036||0.0046||95.0|0.032|0.173|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.173|0.032|0.0046
82660914|NCT00796653|165039370|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.036||0.0023||95.0|0.039|0.181|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.181|0.039|0.0023
82621197|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4498||95.0|-0.8|0.36||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.36|-0.80|0.4498
82621198|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.5||||0.1065||95.0|-1.11|0.11||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Sharp: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.11|-1.11|0.1065
82621199|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.0484||95.0|-0.94|0.0||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Hot: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||-0.00|-0.94|0.0484
82621200|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.24||||0.4973||95.0|-0.93|0.46||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Dull: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.46|-0.93|0.4973
82621201|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.3966||95.0|-0.16|0.41||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effect models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Cold: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.41|-0.16|0.3966
82621202|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.6941||95.0|-0.53|0.35||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Sensitive: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.35|-0.53|0.6941
82621203|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.5664||95.0|-0.45|0.82||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Tender: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.82|-0.45|0.5664
82621204|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.09||||0.6871||95.0|-0.55|0.37||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Itchy: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.37|-0.55|0.6871
82660915|NCT00796653|165039371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.097|STANDARD_ERROR_OF_MEAN|0.037||0.0077||95.0|0.026|0.169|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.169|0.026|0.0077
82660916|NCT00796653|165039371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.036||0.0009||95.0|0.05|0.193|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.193|0.050|0.0009
82621205|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.41||||0.2318||95.0|-1.08|0.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Shocking: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.27|-1.08|0.2318
82621206|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.21||||0.3383||95.0|-0.64|0.22||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Numb: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.22|-0.64|0.3383
82621207|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05||||0.874||95.0|-0.63|0.73||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Electrical: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.73|-0.63|0.8740
82621208|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.0||||0.999||95.0|-0.54|0.54||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Tingling: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.54|-0.54|0.9990
82621209|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.25||||0.4183||95.0|-0.85|0.36||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Cramping: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.36|-0.85|0.4183
82621210|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.07||||0.8227||95.0|-0.71|0.57||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Radiating: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.57|-0.71|0.8227
82621211|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.18||||0.587||95.0|-0.48|0.85||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Throbbing: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.85|-0.48|0.5870
82621212|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2181||95.0|-1.15|0.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Aching: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.27|-1.15|0.2181
82660917|NCT00796653|165039371|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.078|STANDARD_ERROR_OF_MEAN|0.037||0.0339||95.0|0.006|0.149|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.149|0.006|0.0339
82660918|NCT00796653|165039372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.066|STANDARD_ERROR_OF_MEAN|0.037||0.0718||95.0|-0.006|0.139|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.139|-0.006|0.0718
82621213|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.13||||0.6276||95.0|-0.68|0.42||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Heavy: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.42|-0.68|0.6276
82621214|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.57||||0.0917||95.0|-1.23|0.09||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Overall unpleasantness: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.09|-1.23|0.0917
82660919|NCT00796653|165039372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.063|STANDARD_ERROR_OF_MEAN|0.037||0.0863||95.0|-0.009|0.135|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.135|-0.009|0.0863
82660920|NCT00796653|165039372|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.037||0.2982||95.0|-0.034|0.111|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.111|-0.034|0.2982
82660921|NCT00796653|165039373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.037||0.019||95.0|0.014|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.160|0.014|0.0190
82660922|NCT00796653|165039373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.07|STANDARD_ERROR_OF_MEAN|0.037||0.0601||95.0|-0.003|0.143|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.143|-0.003|0.0601
82660923|NCT00796653|165039373|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042|STANDARD_ERROR_OF_MEAN|0.037||0.2573||95.0|-0.031|0.115|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.115|-0.031|0.2573
82660924|NCT00796653|165039374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.087|STANDARD_ERROR_OF_MEAN|0.037||0.02||95.0|0.014|0.16|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.160|0.014|0.0200
82660925|NCT00796653|165039374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.037||0.0013||95.0|0.047|0.194|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.194|0.047|0.0013
82621215|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.44||||0.2089||95.0|-1.13|0.25||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense deep pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.25|-1.13|0.2089
82660926|NCT00796653|165039374|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.053|STANDARD_ERROR_OF_MEAN|0.037||0.1598||95.0|-0.021|0.126|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.126|-0.021|0.1598
82660927|NCT00796653|165039375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.081|STANDARD_ERROR_OF_MEAN|0.038||0.0307||95.0|0.008|0.155|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.155|0.008|0.0307
82660928|NCT00796653|165039375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.038||0.0073||95.0|0.027|0.175|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.175|0.027|0.0073
82492789|NCT01709513|164678321|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|71.5|||<|0.0001|TWO_SIDED|95.0|11.1|3022.1||Threshold for significance ≤ 0.05.|Regression, Exact Conditional Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a last observation carried forward (LOCF) approach followed by Exact conditional logistic regression model.||3022.1|11.1|<0.0001
82660929|NCT00796653|165039375|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.038|STANDARD_ERROR_OF_MEAN|0.038||0.3147||95.0|-0.036|0.112|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.112|-0.036|0.3147
82660930|NCT00796653|165039376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.233|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.16|0.306|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.306|0.160|<0.0001
82621216|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.22||||0.4188||95.0|-0.75|0.31||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Intense surface pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.31|-0.75|0.4188
82621217|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.05||||0.6959||95.0|-0.32|0.21||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average surface pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.21|-0.32|0.6959
82621218|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.17||||0.4806||95.0|-0.64|0.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average deep pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.30|-0.64|0.4806
82621219|NCT00589979|164959357|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.28||||0.2291||95.0|-0.74|0.18||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Average paroxysmal pain: the difference between Lidoderm and placebo was compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.18|-0.74|0.2291
82660931|NCT00796653|165039376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.229|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.156|0.302|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.302|0.156|<0.0001
82660932|NCT00796653|165039376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.248|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.175|0.321|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.321|0.175|<0.0001
82660933|NCT00796653|165039377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.247|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.174|0.321|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.321|0.174|<0.0001
82660934|NCT00796653|165039377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.221|STANDARD_ERROR_OF_MEAN|0.037|<|0.0001||95.0|0.148|0.295|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.295|0.148|<0.0001
82660935|NCT00796653|165039377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.254|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.18|0.328|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.328|0.180|<0.0001
82660936|NCT00796653|165039378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.215|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.141|0.289|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.289|0.141|<0.0001
82660937|NCT00796653|165039378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.226|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.151|0.3|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.300|0.151|<0.0001
82660938|NCT00796653|165039378|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.265|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.191|0.34|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.340|0.191|<0.0001
82660939|NCT00796653|165039379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.182|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.106|0.258|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.258|0.106|<0.0001
82660940|NCT00796653|165039379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.038|<|0.0001||95.0|0.105|0.256|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.256|0.105|<0.0001
82660941|NCT00796653|165039379|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.132|0.283|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.283|0.132|<0.0001
82660942|NCT00796653|165039380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.188|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.111|0.265|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.265|0.111|<0.0001
82660943|NCT00796653|165039380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.214|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.138|0.291|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.291|0.138|<0.0001
82660944|NCT00796653|165039380|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.192|STANDARD_ERROR_OF_MEAN|0.039|<|0.0001||95.0|0.115|0.269|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.269|0.115|<0.0001
82621220|NCT00589979|164959358|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.32||||0.3185||95.0|0.77|2.27||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|Global impression of change from baseline with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||2.27|0.77|0.3185
82621221|NCT00589979|164959359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.4748||95.0|0.72|2.06||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Global impression of change from baseline with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||2.06|0.72|0.4748
82621222|NCT00589979|164959360|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12||||0.7839||95.0|-0.74|0.98||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.98|-0.74|0.7839
82621223|NCT00589979|164959362|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.3773||95.0|-0.02|0.04||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||0.04|-0.02|0.3773
82660945|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.707|STANDARD_ERROR_OF_MEAN|4.435||0.0021|TWO_SIDED|95.0|5.004|22.411|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||22.411|5.004|0.0021
82660946|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|20.871|STANDARD_ERROR_OF_MEAN|4.44|<|0.0001|TWO_SIDED|95.0|12.158|29.584|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||29.584|12.158|<0.0001
82660947|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.249|STANDARD_ERROR_OF_MEAN|4.454||0.0014|TWO_SIDED|95.0|5.506|22.991|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||22.991|5.506|0.0014
82660948|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|STANDARD_ERROR_OF_MEAN|4.463||0.0001|TWO_SIDED|95.0|8.64|26.16|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||26.160|8.640|0.0001
82660949|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.875|STANDARD_ERROR_OF_MEAN|4.444|<|0.0001|TWO_SIDED|95.0|14.153|31.596|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||31.596|14.153|<0.0001
82660950|NCT00796653|165039381|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.816|STANDARD_ERROR_OF_MEAN|4.475||0.0004|TWO_SIDED|95.0|7.032|24.599|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||24.599|7.032|0.0004
82660951|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.153|STANDARD_ERROR_OF_MEAN|0.121||0.2057|TWO_SIDED|95.0|-0.391|-0.084|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.084|-0.391|0.2057
82499445|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.523|STANDARD_ERROR_OF_MEAN|0.196||||90.0|-0.846|-0.199|||ANCOVA|||Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.199|-0.846|
82660952|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.266|STANDARD_ERROR_OF_MEAN|0.121||0.0284|TWO_SIDED|95.0|-0.504|-0.028|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||-0.028|-0.504|0.0284
82660953|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.222|STANDARD_ERROR_OF_MEAN|0.122||0.0685|TWO_SIDED|95.0|-0.461|0.017|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daytime rescue use||0.017|-0.461|0.0685
82621224|NCT00589979|164959363|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.71||||0.2605||95.0|0.38|1.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Treatment satisfaction with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||1.30|0.38|0.2605
82621225|NCT00589979|164959364|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.76||||0.3193||95.0|0.44|1.3||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Linear||The odds ratio (OR) provided is the ratio of Lidoderm to Placebo.|Treatment satisfaction with the lidocaine patch 5% and placebo patch were compared by combining data for patients receiving the respective treatment regardless of the randomized study sequence. An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects, with repeated measures taken on patient within sequence.||1.30|0.44|0.3193
82621226|NCT00589979|164959365|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.74||||0.1378||95.0|-0.57|4.04||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects model||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|The overall treatment difference for the lidocaine patch 5% and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates||4.04|-0.57|0.1378
82621227|NCT00589979|164959366|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.88||||0.6833||95.0|0.47|1.65||All statistical tests were 2-sided with a significance level of alpha=0.05.|Regression, Logistic|An ordinal multinomial regression model was performed with sequence, period, treatment, carry over effect as fixed effects.|The Odds Ratio (OR) provided is the ratio of Lidoderm to Placebo.|||1.65|0.47|0.6833
82621228|NCT00589979|164959367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|22.16||||0.1143||95.0|-5.48|49.8||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Disturbance: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||49.8|-5.48|0.1143
82621229|NCT00589979|164959367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.18||||0.9108||95.0|-19.8|22.2||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Effectiveness: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||22.2|-19.8|0.9108
82621230|NCT00589979|164959367|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.31||||0.3769||95.0|-10.3|27.0||All statistical tests were 2-sided with a significance level of alpha=0.05.|Linear mixed effects models||The results are reported as least squares means and their differences along with associated P-values, and 95% confidence intervals for each fixed effect in the model.|Supplementation: the overall treatment difference for Lidoderm and placebo patch was compared by combining data for patients receiving the respective treatment regardless of randomized study sequence. The endpoint was analyzed by linear mixed effects models incorporating treatment, period, sequence, and first-order carryover as fixed effects, and patient nested within sequence as a random effect. P-value for the random effect (s2) is from the Wald Z-test for the covariance parameter estimates.||27.0|-10.3|0.3769
82621231|NCT01397448|164959383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.11|||<|0.001|TWO_SIDED|95.0|0.04|0.31|||Log Rank|||||0.31|0.04|<0.001
82621232|NCT01397448|164959383|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.05|||<|0.001|TWO_SIDED|95.0|0.01|0.23|||Log Rank|||||0.23|0.01|<0.001
82621233|NCT02466412|164959387|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|63.9326|||||TWO_SIDED|95.0|49.6045|82.3991|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|"Geometric LS mean ratio (CHTP 1.1 M:mCC).~Expressed as %"|The objective of this study was to determine the point estimate and precision of the CHTP 1.1 M:mCC ratio for Cmax. Therefore, there was no statistical hypothesis to be tested for this objective.||82.3991|49.6045|
82660954|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.278|STANDARD_ERROR_OF_MEAN|0.152||0.0674|TWO_SIDED|95.0|-0.576|0.02|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||0.020|-0.576|0.0674
82621234|NCT02466412|164959388|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|60.0052|||||TWO_SIDED|95.0|44.9517|80.0997|||ANOVA|The model included terms for sequence, subject nested within sequence, period, and product as fixed effect factors.|"Geometric LS mean ratio (CHTP 1.1 M:mCC).~Expressed as %"|The objective of this study was to determine the point estimate and precision of the CHTP 1.1 M:mCC ratio for AUC(0-last). Therefore, there was no statistical hypothesis to be tested for this objective.||80.0997|44.9517|
82621235|NCT02180217|164959394|OTHER||Odds Ratio (OR)|13.71|||<|0.001|TWO_SIDED|95.0|3.73|53.44|||Cochran-Mantel-Haenszel|||||53.44|3.73|<.001
82660955|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.365|STANDARD_ERROR_OF_MEAN|0.0163||0.0163|TWO_SIDED|95.0|-0.662|-0.067|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.067|-0.662|0.0163
82621236|NCT02553317|164959417|SUPERIORITY||||||=|0.0099||||||The resulting p-value was compared with a significance level of 5%.|Log Rank|||Time to platelet count response in the caplacizumab arm and placebo arm was compared by conducting a two-sided stratified log-rank test based on a KM analysis, with severity of neurological involvement (according to the Glasgow coma scale \[GCS\] category, stratification factor used in randomization: ≤12 / 13-15) as stratification factor.||||= 0.0099
82621237|NCT02553317|164959417|SUPERIORITY||Hazard Ratio (HR)|1.55|||||TWO_SIDED|95.0|1.095|2.195|||||The HR was estimated from a Cox proportional Hazards regression model.|Time to platelet count response was analyzed using a Cox proportional hazards regression model with time to platelet count response as dependent variable, and treatment group and GCS category as independent variables. The hazard (or platelet count normalization rate) ratio from the Cox model was reported along with 95% CI.||2.195|1.095|
82621238|NCT02553317|164959418|SUPERIORITY||||||<|0.0001||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A Cochran-Mantel-Haenszel (CMH) test was conducted with adjustment for GCS category (stratification factor used in randomization).||||< 0.0001
82621239|NCT02553317|164959419|SUPERIORITY||||||=|0.0004||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A CMH test was conducted with adjustment for GCS category (stratification factor used in randomization).||||= 0.0004
82621240|NCT02553317|164959420|SUPERIORITY||||||=|0.0572||||||The resulting p-value was compared with a significance level of 5%.|Cochran-Mantel-Haenszel|||A CMH test was conducted with adjustment for GCS category (stratification factor used in randomization).||||= 0.0572
82621241|NCT03483116|164959427|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%.|Response rate|0.1553|||||TWO_SIDED|95.0|0.039|0.272||||||||0.272|0.039|
82621242|NCT03483116|164959427|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%|Response rate|0.001|||||TWO_SIDED|95.0|-0.115|0.117||||||||0.117|-0.115|
82660956|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.32|STANDARD_ERROR_OF_MEAN|0.153||0.0364|TWO_SIDED|95.0|-0.62|-0.02|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean nighttime rescue use||-0.020|-0.620|0.0364
82621243|NCT03483116|164959427|NON_INFERIORITY|Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%|Difference Response rate|0.1543|||||TWO_SIDED|95.0|0.038|0.27||||||Non-inferiority of the lower titre vaccine was demonstrated if the upper bound of the CI was below 20%||0.270|0.038|
82621244|NCT01315002|164959437|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||ANOVA|||Null hypothesis is that there was no difference in change of error percentage in the antisaccade task between nicotine and placebo. An ANOVA model was used with treatment (nicotine, placebo) as a within-subjects factor. The test was performed with a significance level of 0.05 (two-sided). Results showed significantly better antisaccade performance (i.e. less antisaccade errors) in the nicotine condition.||||<0.05
82621245|NCT00239837|164959452|SUPERIORITY_OR_OTHER_LEGACY||Wald χ2|7.14||||0.008|TWO_SIDED||||||Regression, Logistic|Data analyzed using repeated logistic regression model (generalized estimating equations). Domain X EV Level X Group interaction tested.|We began the analyses with a full-factorial model regressing choice on domain (gain=1, loss=0), the EV of the risky choice relative to the safe option (EV; range = -.38 to +.38), and dummy-coded treatment groups (Control= -1, Intervention =1).|||||.008
82621246|NCT00094887|164959496|OTHER||||||=|0.8085|||||||Wilcoxon (Mann-Whitney)|||||||= 0.8085
82621247|NCT04093258|164959508|NON_INFERIORITY|Non-inferiority will be concluded if the lower limit is above 0.67. Superiority will be concluded if the lower limit is above 1.0.|Odds Ratio (OR)|1.51|||||TWO_SIDED|95.0|0.33|6.85|||Generalized Linear Mixed Model Analysis|Finite-sample corrected Akaike's Information Criterion|Odds ratio was calculated as Test/Control|"The proportion of response (1) was analyzed using a generalized linear mixed model with a binary distribution and logit link function for all questions."||6.85|0.33|
82621248|NCT04093258|164959509|NON_INFERIORITY|Non-inferiority will be concluded if the lower limit is above 0.67. Superiority will be concluded if the lower limit is above 1.0.|Odds Ratio (OR)|0.34|||||TWO_SIDED|95.0|0.1|1.19|||Generalized Linear Mixed Model Analysis|Finite-sample corrected Akaike's Information Criterion|Odds ratio was calculated as Test over Control|"The proportion of response (1) was analyzed using a generalized linear mixed model with a binary distribution and logit link function for all questions."||1.19|0.10|
82621249|NCT04093258|164959510|NON_INFERIORITY|The non-inferiority of the Test lens relative to the Control will be concluded if the lower confidence limit of LSM difference is above the non-inferiority margin -5.|Least square mean difference|-5.98|STANDARD_ERROR_OF_MEAN|3.202|||TWO_SIDED|95.0|-12.48|0.52|||Mixed Model Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.|Mean difference was calculated as Test minus Control|||0.52|-12.48|
82621250|NCT01512108|164959530|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.27||||0.0026||95.0|-0.44|-0.09|||ANOVA|||||-0.09|-0.44|0.0026
82621251|NCT01512108|164959531|SUPERIORITY_OR_OTHER||Estimated treatment difference, Mean|-0.3||||0.0458||95.0|-0.6|-0.01|||ANOVA|||||-0.01|-0.60|0.0458
82621252|NCT04847141|164959605|SUPERIORITY||Difference in Percentage|-3.6||||0.5167|TWO_SIDED|95.0|-14.6|7.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants meeting the primary efficacy endpoint between C19-IG 20% 1 g and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||7.4|-14.6|0.5167
82621253|NCT04847141|164959605|SUPERIORITY||Difference in Percentage|1.2||||0.8197|TWO_SIDED|95.0|-9.6|12.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants meeting the primary efficacy endpoint between C19-IG 20% 2 g and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||12.0|-9.6|0.8197
82660957|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.424|STANDARD_ERROR_OF_MEAN|0.254||0.0959|TWO_SIDED|95.0|-0.922|0.075|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||0.075|-0.922|0.0959
82660958|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.616|STANDARD_ERROR_OF_MEAN|0.254||0.0155|TWO_SIDED|95.0|-1.115|-0.117|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.117|-1.115|0.0155
82621254|NCT04847141|164959606|SUPERIORITY||Least squares (LS) Mean Difference|0.1||||0.5756|TWO_SIDED|95.0|-0.24|0.44|||ANCOVA||95% CI for the difference in LS Mean between 1 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 7||0.44|-0.24|0.5756
82621255|NCT04847141|164959606|SUPERIORITY||LS Mean Difference|-0.17||||0.3289|TWO_SIDED|95.0|-0.52|0.17|||ANCOVA||95% CI for the difference in LS Mean between 2 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 7||0.17|-0.52|0.3289
82621256|NCT04847141|164959606|SUPERIORITY||LS Mean Difference|0.11||||0.3418|TWO_SIDED|95.0|-0.12|0.34|||ANCOVA||95% CI for the difference in LS Mean between 1 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 14||0.34|-0.12|0.3418
82621257|NCT04847141|164959606|SUPERIORITY||LS Mean Difference|-0.11||||0.3688|TWO_SIDED|95.0|-0.34|0.13|||ANCOVA||95% CI for the difference in LS Mean between 2 g C19-IG 20% dose group \& placebo was calculated using ANCOVA model, including CFB value as dependent variable; treatment group as fixed effect; \& baseline viral load value, age, \& gender as covariates.|Day 14||0.13|-0.34|0.3688
82621258|NCT04847141|164959607|SUPERIORITY||Difference in Percentage|-1.3||||0.1506|TWO_SIDED|95.0|-4.7|1.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 3||1.2|-4.7|0.1506
82621259|NCT04847141|164959607|SUPERIORITY||Difference in Percentage|1.3||||0.1655|TWO_SIDED|95.0|-1.3|4.6||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 1 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 7||4.6|-1.3|0.1655
82621260|NCT04847141|164959607|SUPERIORITY||Difference in Percentage|-2.0||||0.2337|TWO_SIDED|95.0|-6.5|1.7||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 7||1.7|-6.5|0.2337
82621261|NCT04847141|164959607|SUPERIORITY||Difference in Percentage|-0.8||||0.7212|TWO_SIDED|95.0|-6.1|4.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 1 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 14||4.2|-6.1|0.7212
82621262|NCT04847141|164959607|SUPERIORITY||Difference in Percentage|-2.1||||0.3897|TWO_SIDED|95.0|-7.8|3.1||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who remained in an outpatient setting \& maintained SpO2≥94% between C19-IG 20% 2 g \& placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 14||3.1|-7.8|0.3897
82621263|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|3.1||||0.5489|TWO_SIDED|95.0|-7.1|13.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 3||13.3|-7.1|0.5489
82621264|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|4.4||||0.392|TWO_SIDED|95.0|-5.8|14.7||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 3||14.7|-5.8|0.3920
82660959|NCT00796653|165039382|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.541|STANDARD_ERROR_OF_MEAN|0.256||0.0347|TWO_SIDED|95.0|-1.042|-0.039|||ANCOVA|non-MMRM ANCOVA models with treatment, tiotropium strata and baseline as fixed effects.||Comparison for weekly mean daily (24h) rescue use||-0.039|-1.042|0.0347
82499446|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.113|STANDARD_ERROR_OF_MEAN|0.26||||90.0|-1.541|-0.685|||ANCOVA|||Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.685|-1.541|
82621265|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|1.7||||0.7632|TWO_SIDED|95.0|-9.5|12.9||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 7||12.9|-9.5|0.7632
82621266|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|7.9||||0.1702|TWO_SIDED|95.0|-3.6|19.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 7||19.2|-3.6|0.1702
82660960|NCT00796653|165039383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0164||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0164
82621267|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|-2.0||||0.7316|TWO_SIDED|95.0|-13.3|9.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 14||9.4|-13.3|0.7316
82621268|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|6.9||||0.2104|TWO_SIDED|95.0|-4.2|18.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 14||18.0|-4.2|0.2104
82621269|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|4.9||||0.2059|TWO_SIDED|95.0|-2.9|13.2||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|Day 29||13.2|-2.9|0.2059
82621270|NCT04847141|164959608|SUPERIORITY||Difference in Percentage|1.9||||0.6463|TWO_SIDED|95.0|-6.5|10.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who had a negative test result between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|Day 29||10.3|-6.5|0.6463
82621271|NCT04847141|164959609|SUPERIORITY|||||||0.9033|||||||Log Rank|||||||0.9033
82621272|NCT04847141|164959609|SUPERIORITY|||||||0.5456|||||||Log Rank|||||||0.5456
82621273|NCT04847141|164959610|SUPERIORITY||Difference in Percentage|0.79||||0.6311|TWO_SIDED|95.0|-2.9|4.6||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required oxygen supplementation between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between each of 1 g C19-IG 20% dose group and placebo was calculated using the exact unconditional method.|||4.6|-2.9|0.6311
82621274|NCT04847141|164959610|SUPERIORITY||Difference in Percentage|2.6||||0.1441|TWO_SIDED|95.0|-1.2|7.3||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required oxygen supplementation between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between each of 2 g C19-IG 20% dose group and placebo was calculated using the exact unconditional method.|||7.3|-1.2|0.1441
82621275|NCT04847141|164959611|SUPERIORITY||LS Mean (LSM) Difference|0.02||||0.8555|TWO_SIDED|95.0|-0.23|0.27|||ANCOVA||95% CI for difference in LSM between 1 g C19-IG 20% \& placebo was calculated using an ANCOVA model,with number of days on oxygen as dependent variable \& treatment group as fixed effect,adjusting for baseline characteristics(including age \& gender).|||0.27|-0.23|0.8555
82621276|NCT04847141|164959611|SUPERIORITY||LS Mean Difference|0.03||||0.8108|TWO_SIDED|95.0|-0.22|0.28|||ANCOVA||95% CI for difference in LSM between 2 g C19-IG 20% \& placebo was calculated using an ANCOVA model,with number of days on oxygen as dependent variable \& treatment group as fixed effect,adjusting for baseline characteristics(including age \& gender).|||0.28|-0.22|0.8108
82621277|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|0.03||||0.0692|TWO_SIDED|95.0|0.0|0.07||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.07|-0.00|0.0692
82660961|NCT00796653|165039383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0196||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.0|-0.4|0.0196
82621278|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|0.01||||0.4956|TWO_SIDED|95.0|-0.02|0.05||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.05|-0.02|0.4956
82621279|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|-0.05||||0.22|TWO_SIDED|95.0|-0.13|0.03||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.03|-0.13|0.2200
82621280|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|-0.07||||0.0906|TWO_SIDED|95.0|-0.14|0.01||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.01|-0.14|0.0906
82621281|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|-0.04||||0.0439|TWO_SIDED|95.0|-0.07|0.0||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||-0.00|-0.07|0.0439
82621282|NCT04847141|164959613|SUPERIORITY||LS Mean Difference|-0.01||||0.4128|TWO_SIDED|95.0|-0.05|0.02||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.02|-0.05|0.4128
82660962|NCT00796653|165039383|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0041||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0041
82621283|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|-0.01||||0.9713|TWO_SIDED|95.0|-0.28|0.27||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.27|-0.28|0.9713
82621284|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|0.07||||0.5985|TWO_SIDED|95.0|-0.2|0.35||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 7||0.35|-0.20|0.5985
82660963|NCT00796653|165039384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0388||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||-0.0|-0.4|0.0388
82660964|NCT00796653|165039384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0038||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.5|0.0038
82660965|NCT00796653|165039384|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0053||95.0|-0.5|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.5|0.0053
82660966|NCT00796653|165039385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0555||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.0|-0.4|0.0555
82660967|NCT00796653|165039385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0122||95.0|-0.4|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||-0.1|-0.4|0.0122
82660968|NCT00796653|165039385|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0144||95.0|-0.4|-0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||-0.1|-0.4|0.0144
82660969|NCT00796653|165039386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.1||0.5707||95.0|-0.3|0.1|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 5 mcg qd minus Placebo|||0.1|-0.3|0.5707
82660970|NCT00796653|165039386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.1||0.0814||95.0|-0.4|0.0|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Olo 10 mcg qd minus Placebo|||0.0|-0.4|0.0814
82660971|NCT00796653|165039386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.7413||95.0|-0.2|0.2|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects, patient as random effect|Form 12 mcg minus Placebo|||0.2|-0.2|0.7413
82660972|NCT00796653|165039387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.437|STANDARD_ERROR_OF_MEAN|0.305||0.1524||95.0|-0.162|1.036|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.036|-0.162|0.1524
82660973|NCT00796653|165039387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.706|STANDARD_ERROR_OF_MEAN|0.306||0.0211||95.0|0.106|1.307|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.307|0.106|0.0211
82660974|NCT00796653|165039387|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.464|STANDARD_ERROR_OF_MEAN|0.307||0.1314||95.0|-0.139|1.066|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.066|-0.139|0.1314
82621285|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|0.01||||0.9209|TWO_SIDED|95.0|-0.25|0.28||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.28|-0.25|0.9209
82660975|NCT00796653|165039388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.662|STANDARD_ERROR_OF_MEAN|0.308||0.0319||95.0|0.057|1.267|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.267|0.057|0.0319
82660976|NCT00796653|165039388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.667|STANDARD_ERROR_OF_MEAN|0.31||0.0312||95.0|0.06|1.274|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.274|0.060|0.0312
82660977|NCT00796653|165039388|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.419|STANDARD_ERROR_OF_MEAN|0.311||0.1777||95.0|-0.191|1.029|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.029|-0.191|0.1777
82621286|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|-0.01||||0.9181|TWO_SIDED|95.0|-0.28|0.25||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 14||0.25|-0.28|0.9181
82660978|NCT00796653|165039389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.425|STANDARD_ERROR_OF_MEAN|0.311||0.1714||95.0|-0.184|1.035|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.035|-0.184|0.1714
82621287|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|0.15||||0.2443|TWO_SIDED|95.0|-0.11|0.41||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.41|-0.11|0.2443
82621288|NCT04847141|164959615|SUPERIORITY||LS Mean Difference|0.13||||0.3233|TWO_SIDED|95.0|-0.13|0.39||p-value was calculated using restricted maximum likelihood with the Kenward-Roger method.|Kenward-Roger||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using restricted maximum likelihood with the Kenward-Roger method for calculating the denominator degrees of freedom.|Day 29||0.39|-0.13|0.3233
82621289|NCT04847141|164959616|SUPERIORITY||Difference in Percentage|3.0||||0.4676|TWO_SIDED|95.0|-5.3|11.5||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required at least 1 COVID-19 related MAV between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||11.5|-5.3|0.4676
82621290|NCT04847141|164959616|SUPERIORITY||Difference in Percentage|4.9||||0.2507|TWO_SIDED|95.0|-3.6|13.4||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required at least 1 COVID-19 related MAV between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||13.4|-3.6|0.2507
82621291|NCT04847141|164959617|SUPERIORITY||Difference in Percentage|0.1||||0.9744|TWO_SIDED|95.0|-3.8|4.0||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required hospital admission between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||4.0|-3.8|0.9744
82621292|NCT04847141|164959617|SUPERIORITY||Difference in Percentage|2.7||||0.1878|TWO_SIDED|95.0|-1.6|7.5||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required hospital admission between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||7.5|-1.6|0.1878
82621293|NCT04847141|164959618|SUPERIORITY||LS Mean Difference|0.01||||0.9485|TWO_SIDED|95.0|-0.38|0.4|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.40|-0.38|0.9485
82621294|NCT04847141|164959618|SUPERIORITY||LS Mean Difference|0.14||||0.4734|TWO_SIDED|95.0|-0.25|0.54|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.54|-0.25|0.4734
82621295|NCT04847141|164959619|SUPERIORITY||Difference in Percentage|0.02||||0.9853|TWO_SIDED|95.0|-3.05|3.12||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required ICU admission between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||3.12|-3.05|0.9853
82621296|NCT04847141|164959619|SUPERIORITY||Difference in Percentage|0.01||||0.989|TWO_SIDED|95.0|-2.99|3.07||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants who required ICU admission between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||3.07|-2.99|0.9890
82621297|NCT04847141|164959620|SUPERIORITY||LS Mean Difference|0.03||||0.578|TWO_SIDED|95.0|-0.07|0.12|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 1 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.12|-0.07|0.5780
82621298|NCT04847141|164959620|SUPERIORITY||LS Mean Difference|0.01||||0.9065|TWO_SIDED|95.0|-0.09|0.1|||ANCOVA||95% CI for difference in LS Mean between C19-IG 20% 2 g dose group and placebo was calculated using ANCOVA model, including length of hospital stay as dependent variable \& treatment group as fixed effect, adjusting for baseline.|||0.10|-0.09|0.9065
82621299|NCT04847141|164959624|SUPERIORITY||Difference in Percentage|0.02||||0.9853|TWO_SIDED|95.0|-3.05|3.12||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants with critical COVID-19 illness between C19-IG 20% 1 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 1 g dose group and placebo was calculated using the exact unconditional method.|||3.12|-3.05|0.9853
82621300|NCT04847141|164959624|SUPERIORITY||Difference in Percentage|0.01||||0.989|TWO_SIDED|95.0|-2.99|3.07||p-value was calculated using Chi-square test with 5% level of significance to test the null hypothesis of no difference in the percentage of participants with critical COVID-19 illness between C19-IG 20% 2 g dose group and placebo.|Chi-squared||95% CI for percentage difference between C19-IG 20% 2 g dose group and placebo was calculated using the exact unconditional method.|||3.07|-2.99|0.9890
82621301|NCT03532776|164959656|EQUIVALENCE|BE limits: -20.0% to 20.0%|Equivalence ratio|0.98|||||TWO_SIDED|90.0|-12.0|7.0||||||||7|-12|
82621302|NCT01114373|164959681|SUPERIORITY_OR_OTHER|||||||0.0269|TWO_SIDED||||||ANOVA|||The null hypothesis was that there is no interaction between the order of randomization and the primary outcome measures.||||0.0269
82621303|NCT01114373|164959681|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||ANOVA|||||||0.84
82621304|NCT01114373|164959682|SUPERIORITY_OR_OTHER|||||||0.0492|TWO_SIDED||||||ANOVA|||The null hypothesis was that there is no interaction between the order of randomization and the primary outcome measures.||||0.0492
82621305|NCT01114373|164959682|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||ANOVA|||||||0.95
82621306|NCT01114373|164959683|SUPERIORITY_OR_OTHER|||||||0.91|TWO_SIDED||||||ANOVA|||||||0.91
82621307|NCT01114373|164959684|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||ANOVA|||||||0.88
82621308|NCT01114373|164959685|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||ANOVA|||||||0.16
82621309|NCT01114373|164959686|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
82621310|NCT01114373|164959687|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||||||0.12
82621311|NCT01114373|164959688|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||||||0.21
82621312|NCT01114373|164959689|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Friedman|||||||0.06
82621313|NCT01114373|164959690|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||Friedman|||||||0.21
82621314|NCT01114373|164959691|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||Friedman|||||||0.41
82621315|NCT01114373|164959692|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANOVA|||||||0.13
82621316|NCT01114373|164959693|SUPERIORITY_OR_OTHER|||||||0.58|TWO_SIDED||||||ANOVA|||||||0.58
82621317|NCT01114373|164959694|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||ANOVA|||||||0.39
82621318|NCT03444870|164959695|SUPERIORITY||Difference in adjusted mean|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.0954|TWO_SIDED|95.0|-0.66|0.05|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline (BL) + Geographic Region + Disease Stage + AD Medication at BL + Apolipoprotein E, Allele e4 (APOE e4) + Baseline Alzheimer Disease Assessment Scale-Cognition Subscale 13 (ADAS-Cog13) Score + Baseline Alzheimer Disease Cooperative Study Group-Activities of Daily Living (ADCS-ADL).||0.05|-0.66|0.0954
82660979|NCT00796653|165039389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.492|STANDARD_ERROR_OF_MEAN|0.312||0.1142||95.0|-0.119|1.103|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.103|-0.119|0.1142
82660980|NCT00796653|165039389|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.534|STANDARD_ERROR_OF_MEAN|0.314||0.0888||95.0|-0.081|1.15|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||1.150|-0.081|0.0888
82660981|NCT00796653|165039390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.49|STANDARD_ERROR_OF_MEAN|0.318||0.1235||95.0|-0.134|1.113|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.113|-0.134|0.1235
82660982|NCT00796653|165039390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.354|STANDARD_ERROR_OF_MEAN|0.318||0.2666||95.0|-0.271|0.978|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||0.978|-0.271|0.2666
82621319|NCT03444870|164959697|SUPERIORITY||Difference in adjusted mean|-1.25|STANDARD_ERROR_OF_MEAN|0.65||0.0544|TWO_SIDED|95.0|-2.52|0.02|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.02|-2.52|0.0544
82660983|NCT00796653|165039390|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.309|STANDARD_ERROR_OF_MEAN|0.319||0.3335||95.0|-0.317|0.934|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.934|-0.317|0.3335
82621320|NCT03444870|164959698|SUPERIORITY||Difference in adjusted mean|1.11|STANDARD_ERROR_OF_MEAN|0.81||0.1729|TWO_SIDED|95.0|-0.48|2.7|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Region + Disease Stage + AD Medication at BL + APOE e4.||2.70|-0.48|0.1729
82621321|NCT03444870|164959699|SUPERIORITY||Difference in adjusted mean|-0.86|STANDARD_ERROR_OF_MEAN|0.42||0.0425|TWO_SIDED|95.0|-1.68|-0.03|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||-0.03|-1.68|0.0425
82621322|NCT03444870|164959700|SUPERIORITY||Difference in adjusted mean|0.32|STANDARD_ERROR_OF_MEAN|0.31||0.2904|TWO_SIDED|95.0|-0.28|0.93|||ANCOVA|||Change from Baseline was calculated based on ANCOVA analysis model which included the following covariates and stratification factors =Treatment + Baseline + Geographic Region + Disease Stage + AD Medication at BL + APOE e4.||0.93|-0.28|0.2904
82621323|NCT03444870|164959701|SUPERIORITY||Difference in adjusted mean|-0.97|STANDARD_ERROR_OF_MEAN|0.6||0.1036|TWO_SIDED|95.0|-2.14|0.2|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.20|-2.14|0.1036
82621324|NCT03444870|164959702|SUPERIORITY||Difference in adjusted mean|-0.07|STANDARD_ERROR_OF_MEAN|0.37||0.8468|TWO_SIDED|95.0|-0.79|0.65|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||0.65|-0.79|0.8468
82621325|NCT03444870|164959703|SUPERIORITY||Difference in adjusted mean|0.2|STANDARD_ERROR_OF_MEAN|0.79||0.803|TWO_SIDED|95.0|-1.35|1.74|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||1.74|-1.35|0.8030
82621326|NCT03444870|164959704|SUPERIORITY||Difference in adjusted mean|1.0|STANDARD_ERROR_OF_MEAN|0.68||0.1439|TWO_SIDED|95.0|-0.34|2.34|||ANCOVA|||Change from BL was calculated based on ANCOVA analysis model which included the following covariates and stratification factors = Treatment + Baseline + Geographical Region + Disease Stage + AD Medication at BL + APOE e4.||2.34|-0.34|0.1439
82621327|NCT03444870|164959711|SUPERIORITY||Difference in adjusted means|-66.44|STANDARD_ERROR_OF_MEAN|4.171|<|0.0001|TWO_SIDED|95.0|-74.71|-58.16|||Mixed Model for Repeated Measures|||Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Type of Tracer + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||-58.16|-74.71|<.0001
82621328|NCT03444870|164959712|SUPERIORITY||Difference in adjusted mean|0.01|STANDARD_ERROR_OF_MEAN|0.023||0.7816|TWO_SIDED|95.0|-0.04|0.05|||Mixed Model for Repeated Measures|||Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.04|0.7816
82621329|NCT03444870|164959712|SUPERIORITY||Difference in adjusted means|0.01|STANDARD_ERROR_OF_MEAN|0.018||0.6203|TWO_SIDED|95.0|-0.03|0.05|||Mixed Model for Repeated Measures|||Medial Temporal Composite Region: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.03|0.6203
82621330|NCT03444870|164959712|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.015||0.7754|TWO_SIDED|95.0|-0.03|0.03|||Mixed Model for Repeated Measures|||Frontal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.03|-0.03|0.7754
82621331|NCT03444870|164959712|SUPERIORITY||Difference in adjusted means|0.0|STANDARD_ERROR_OF_MEAN|0.026||0.9022|TWO_SIDED|95.0|-0.05|0.05|||Mixed Model for Repeated Measures|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||0.05|-0.05|0.9022
82621332|NCT03444870|164959713|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Parietal Lobe: Change from BL was calculated based on mixed-effect model of repeated measure which included the following covariates and stratification factors = Baseline + APOE e4 status + Study + Analysis Visit + Treatment + Treatment\*Analysis Visit + Analysis Visit\*Baseline.||||<.001
82621333|NCT03444870|164959714|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
82621334|NCT03444870|164959715|SUPERIORITY|||||||0.396|||||||ANCOVA|||||||0.396
82621335|NCT03444870|164959716|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<.001
82621336|NCT00868166|164959733|SUPERIORITY|||||||0.71|||||||Stratified Log-Rank Test|||||||0.71
82621337|NCT00868166|164959734|SUPERIORITY|||||||0.83|||||||Stratified Log-Rank Test|||||||0.83
82621338|NCT00868166|164959734|SUPERIORITY|||||||0.73|||||||Non-stratified Log-Rank Test|||||||0.73
82621339|NCT00868166|164959736|SUPERIORITY|||||||0.21|||||||Stratified Log-Rank Test|||||||0.21
82621340|NCT00868166|164959736|SUPERIORITY|||||||0.2|||||||Non-stratified Log-Rank Test|||||||0.20
82621341|NCT00868166|164959738|SUPERIORITY|||||||0.56|||||||Stratified Log-Rank Test|||||||0.56
82621342|NCT00074802|164959763|SUPERIORITY||Mean Difference (Net)|-5.43||||0.267|TWO_SIDED|95.0|-15.05|4.19|||Mixed Models Analysis|||||4.19|-15.05|.267
82621343|NCT00074802|164959764|SUPERIORITY|||||||0.018||||||Fisher's Exact Test used for analyses.|Fisher Exact|||Fisher's Exact Test used for analyses of responder status.||||.018
82621344|NCT00074802|164959764|SUPERIORITY|||||||0.034||||||Fisher's Exact Test used for analyses.|Fisher Exact|||Fisher's Exact Test used for analyses of remitter status.||||.034
82621345|NCT00074802|164959765|SUPERIORITY||Mean Difference (Net)|-3.21||||0.0005|TWO_SIDED|95.0|-5.02|-1.39|||Mixed Models Analysis|||||-1.39|-5.02|.0005
82621346|NCT00074802|164959766|SUPERIORITY||Mean Difference (Net)|-5.61||||0.0775|TWO_SIDED|95.0|-11.84|0.62|||Mixed Models Analysis|||||0.62|-11.84|.0775
82621347|NCT00074802|164959767|SUPERIORITY||Mean Difference (Net)|-5.53||||0.0006|TWO_SIDED|95.0|-8.7|-2.35|||Mixed Models Analysis||Paroxetine+CBT \> Paroxetine alone in BFNE change.|||-2.35|-8.70|.0006
82660984|NCT00796653|165039391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.313|STANDARD_ERROR_OF_MEAN|0.32||0.3287||95.0|-0.315|0.941|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||0.941|-0.315|0.3287
82621348|NCT00074802|164959768|SUPERIORITY||Mean Difference (Net)|0.2||||0.871|TWO_SIDED|95.0|-2.16|2.55|||Mixed Models Analysis|||||2.55|-2.16|.871
82621349|NCT00074802|164959769|SUPERIORITY||Median Difference (Net)|0.41||||0.949|TWO_SIDED|95.0|-11.95|12.76|||Mixed Models Analysis|||||12.76|-11.95|.949
82621350|NCT02513771|164959787|SUPERIORITY|||||||1|||||||Wilcoxon (Mann-Whitney)|Stratified Wilcoxon rank-sum test stratified by screening CD4 count (\<= or \> 350 cells/mm\^3) and statin use.||Null hypothesis: There is no difference between the two arms in the change in sCD14 from baseline to week 15/16.||||1.000
82621351|NCT01797445|164959803|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentages|3.1||||0.13|TWO_SIDED|95.002|-1.0|7.1|||Cochran-Mantel-Haenszel|P-value was from the Cochran-Mantel-Haenszel (CMH) test stratified by baseline HIV-1 RNA (≤ 100,000 or \> 100,000 copies/mL) and region (US vs ex-US).|The difference in percentages and its 95.002% confidence interval (CI) were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HIV-1 RNA and region stratum.|Null hypothesis: the E/C/F/TAF group was ≥ 12% worse than the E/C/F/TDF group with respect to the percentage of participants achieving HIV-1 RNA \< 50 copies/mL at Week 48; alternative hypothesis: the E/C/F/TAF group was \< 12% worse than the E/C/F/TDF group.||7.1|-1.0|0.13
82621352|NCT01595438|164959820|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Difference of symp resolution rates|4.0|||||TWO_SIDED|95.0|-2.39|10.42|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of symptomatic resolution rates ≤ non-inferiority margin||10.42|-2.39|
82621353|NCT01595438|164959821|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable combined resp rates|6.7|||||TWO_SIDED|95.0|0.3|13.12|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable combined response rates ≤ non-inferiority margin||13.12|0.30|
82621354|NCT01595438|164959822|NON_INFERIORITY_OR_EQUIVALENCE|-12.5%|Diff of favorable response rates|6.4|||||TWO_SIDED|95.0|0.33|12.36|||Unstratified Miettinen & Nurminen method|||H0: Difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates ≤ non-inferiority margin||12.36|0.33|
82499447|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.359|STANDARD_ERROR_OF_MEAN|0.29||||90.0|-1.836|-0.882|||ANCOVA|||Month 9; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.882|-1.836|
82621355|NCT01595438|164959823|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.4|||||TWO_SIDED|95.0|-2.7|3.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||3.56|-2.70|
82660985|NCT00796653|165039391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.481|STANDARD_ERROR_OF_MEAN|0.321||0.1341||95.0|-0.148|1.109|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.109|-0.148|0.1341
82621356|NCT01595438|164959824|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.68|13.81|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.81|0.68|
82621357|NCT01595438|164959825|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.21|1.72|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.72|-1.21|
82621358|NCT01595438|164959826|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.8|||||TWO_SIDED|95.0|2.27|15.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||15.24|2.27|
82621359|NCT01595438|164959827|SUPERIORITY_OR_OTHER||Diff of favorable response rates|10.9|||||TWO_SIDED|95.0|2.86|18.85|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||18.85|2.86|
82621360|NCT01595438|164959828|SUPERIORITY_OR_OTHER||Diff of favorable response rates|0.2|||||TWO_SIDED|95.0|-1.17|1.68|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||1.68|-1.17|
82621361|NCT01595438|164959829|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.3|||||TWO_SIDED|95.0|0.88|13.74|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||13.74|0.88|
82621362|NCT01595438|164959830|SUPERIORITY_OR_OTHER||Diff of favorable response rates|9.7|||||TWO_SIDED|95.0|1.72|17.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||17.55|1.72|
82621363|NCT01595438|164959831|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.4|||||TWO_SIDED|95.0|-4.07|1.02|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.02|-4.07|
82621364|NCT01595438|164959832|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-4.23|4.03|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.03|-4.23|
82621365|NCT01595438|164959833|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.3|||||TWO_SIDED|95.0|-3.71|6.3|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.30|-3.71|
82621366|NCT01595438|164959834|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.3|||||TWO_SIDED|95.0|-3.64|0.55|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.55|-3.64|
82660986|NCT00796653|165039391|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.114|STANDARD_ERROR_OF_MEAN|0.322||0.722||95.0|-0.516|0.745|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.745|-0.516|0.7220
82621367|NCT01595438|164959835|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.2|||||TWO_SIDED|95.0|-2.03|4.56|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.56|-2.03|
82621368|NCT01595438|164959836|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.2|||||TWO_SIDED|95.0|-2.9|7.24|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.24|-2.90|
82621369|NCT01595438|164959837|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-1.9|||||TWO_SIDED|95.0|-4.3|0.04|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||0.04|-4.30|
82621370|NCT01595438|164959838|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|1.1|||||TWO_SIDED|95.0|-2.07|4.32|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||4.32|-2.07|
82621371|NCT01595438|164959839|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|2.0|||||TWO_SIDED|95.0|-2.94|6.91|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||6.91|-2.94|
82621372|NCT01595438|164959840|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|-0.1|||||TWO_SIDED|95.0|-1.99|1.61|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||1.61|-1.99|
82660987|NCT00796653|165039392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.397|STANDARD_ERROR_OF_MEAN|0.322||0.2176||95.0|-0.234|1.027|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 5 mcg qd minus Placebo|||1.027|-0.234|0.2176
82660988|NCT00796653|165039392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.718|STANDARD_ERROR_OF_MEAN|0.323||0.0258||95.0|0.087|1.348|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Olo 10 mcg qd minus Placebo|||1.348|0.087|0.0258
82621373|NCT01595438|164959841|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|3.7|||||TWO_SIDED|95.0|0.41|7.16|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||7.16|0.41|
82621374|NCT01595438|164959842|SUPERIORITY_OR_OTHER||Diff of clinical cure rates|4.0|||||TWO_SIDED|95.0|-1.0|9.05|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates||9.05|-1.00|
82660989|NCT00796653|165039392|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.167|STANDARD_ERROR_OF_MEAN|0.323||0.6044||95.0|-0.466|0.8|||Mixed Models Analysis|Mixed effects model with trt,tio stratum,visit,trt-by-visit as fixed effects,baseline, baseline-by-visit as fixed covariates, patient as random effect|Form 12 mcg minus Placebo|||0.800|-0.466|0.6044
82660990|NCT00796653|165039393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.802|STANDARD_ERROR_OF_MEAN|0.133||0.1946||95.0|0.58|1.111|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.111|0.580|0.1946
82621375|NCT01595438|164959843|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|0.0|||||TWO_SIDED|95.0|-10.4|10.1|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.1|-10.4|
82621376|NCT01595438|164959844|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.4|||||TWO_SIDED|95.0|-7.8|10.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||10.2|-7.8|
82621377|NCT01595438|164959845|SUPERIORITY_OR_OTHER||Diff of clin cure rates in All patients|1.2|||||TWO_SIDED|95.0|-7.5|9.2|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of clinical cure rates in All patients with a ceftazidime-resistant Gram-negative pathogen||9.2|-7.5|
82621378|NCT01595438|164959846|SUPERIORITY_OR_OTHER||Diff of favorable response rates|2.0|||||TWO_SIDED|95.0|-13.18|16.89|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||16.89|-13.18|
82621379|NCT01595438|164959847|SUPERIORITY_OR_OTHER||Diff of favorable response rates|8.0|||||TWO_SIDED|95.0|-10.03|25.21|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||25.21|-10.03|
82621380|NCT01595438|164959848|SUPERIORITY_OR_OTHER||Diff of favorable response rates|7.5|||||TWO_SIDED|95.0|-9.91|24.01|||Unstratified Miettinen & Nurminen method|||Confidence interval of the difference (CAZ-AVI treatment group minus Doripenem treatment group) of favorable response rates||24.01|-9.91|
82621381|NCT01595438|164959849|SUPERIORITY_OR_OTHER|||||||0.038|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.038
82621382|NCT01595438|164959850|SUPERIORITY_OR_OTHER|||||||0.129|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.129
82621383|NCT01595438|164959851|SUPERIORITY_OR_OTHER|||||||0.08|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.080
82621384|NCT01595438|164959852|SUPERIORITY_OR_OTHER|||||||0.155|||||||Log Rank|||H0: No difference in time to first defervescence between treatment groups.||||0.155
82621385|NCT01784588|164959909|NON_INFERIORITY|Non-inferiority (NI) was demonstrated if the entire confidence interval was above -15% at 36 months. The sample size was estimated under the assumption that the proportion of subjects with treatment success is 85% for each of Solyx and Obtryx. For a (one-sided) type I error rate of 0.05, 194 subjects (97 per arm) are needed to have 90% power to demonstrate non-inferiority of Solyx with a NI margin of 15%.|Adjusted Difference in Percentages|-0.4|||||TWO_SIDED|90.0|-8.2|7.4||Non-inferiority was evaluated using a two-sided 90% confidence interval (CI) for the treatment difference (SIS minus TMUS). The CI was calculated based on the pooling of treatment differences across propensity score strata for a binary endpoint.||||Available Cases Only - Intent-to-Treat||7.4|-8.2|
82660991|NCT00796653|165039393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872|STANDARD_ERROR_OF_MEAN|0.141||0.4071||95.0|0.634|1.198|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.198|0.634|0.4071
82621386|NCT01784588|164959909|NON_INFERIORITY|Non-inferiority (NI) was demonstrated if the entire confidence interval was above -15% at 36 months. The sample size was estimated under the assumption that the proportion of subjects with treatment success is 85% for each of Solyx and Obtryx. For a (one-sided) type I error rate of 0.05, 194 subjects (97 per arm) are needed to have 90% power to demonstrate non-inferiority of Solyx with a NI margin of 15%.|Unadjusted Treatment Difference (%)|1.5|||||TWO_SIDED|90.0|-5.4|8.4||Non-inferiority was evaluated using a two-sided 90% confidence interval (CI) for the treatment difference (SIS minus TMUS). The CI was calculated based on the pooling of treatment differences across propensity score strata for a binary endpoint.||||Available Cases Only - Intent-to-Treat||8.4|-5.4|
82621387|NCT00961441|164959913|SUPERIORITY_OR_OTHER||Point estimate for ratio|1.0271|||||TWO_SIDED|90.0|0.8817|1.1964|||ANOVA|Point estimates for the geometric means ratios children/adults for Cmax normalized by dose and body weight and 90% CIs have been calculated.||An ANOVA for log-transformed values has been used as the basis for calculation of point estimates and Confidence Intervals (CIs).||1.1964|0.8817|
82621388|NCT00961441|164959914|SUPERIORITY_OR_OTHER||Point estimate for ratio|0.9914|||||TWO_SIDED|90.0|0.811|1.2118|||ANOVA|Point estimates for the geometric means ratios children/adults for AUCtau normalized by dose and body weight and 90% CIs have been calculated.||An ANOVA for log-transformed values has been used as the basis for calculation of point estimates and Confidence Intervals (CIs).||1.2118|0.8110|
82621389|NCT04268004|164959918|OTHER|Chi-squared test was used to determine if study arm is associated with FP uptake.|||||=|0.64|||||||Chi-squared|df=(1, 19)||Chi-square test was used to determine if study arm is associated with FP uptake.||||=.64
82621390|NCT01082367|164959923|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|21.55|||<|0.001|TWO_SIDED|95.0|4.67|99.52|||Regression, Logistic|||||99.52|4.67|<0.001
82621391|NCT02307838|164959926|SUPERIORITY_OR_OTHER||Difference in LS Means|-0.59||||0.0155|TWO_SIDED|95.0|-1.07|-0.11|||ANCOVA|||||-0.11|-1.07|0.0155
82621392|NCT01668030|164959943|SUPERIORITY|||||||0.0853|||||||t-test, 2 sided|||||||.0853
82621393|NCT04724733|164959944|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82621394|NCT04724733|164959944|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82621395|NCT04724733|164959944|SUPERIORITY|||||||0.0172|||||||t-test, 1 sided|||||||0.0172
82621396|NCT04724733|164959945|SUPERIORITY|||||||0.032|||||||t-test, 1 sided|||||||.0320
82621397|NCT04724733|164959945|SUPERIORITY||||||>|0.05|||||||t-test, 1 sided|||||||>0.05
82621398|NCT04724733|164959945|SUPERIORITY|||||||0.0008|||||||t-test, 1 sided|||||||0.0008
82621399|NCT03372603|164959962|OTHER||Ratio|1.336|||||TWO_SIDED|90.0|0.965|1.847|||||Treatment comparison ratio of GSK2798745 and placebo using posterior median ratio and 90% credible interval is presented.|||1.847|0.965|
82621400|NCT00418379|164960047|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
82621401|NCT00418379|164960047|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||< 0.0001
82621402|NCT01764256|164960050|EQUIVALENCE|Definition of equivalence: p\<0.05||||||0.44|||||||Fisher Exact|||Proportion of subjects with at least one unsolicited adverse event (related or unrelated)||||0.44
82621403|NCT01764256|164960050|EQUIVALENCE|Definition of equivalence: p\<0.05||||||0.7446|||||||Fisher Exact|||Proportion of subjects with at least one unsolicited adverse event: potentially related||||0.7446
82621404|NCT01764256|164960051|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||0.5694|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||0.5694
82621405|NCT01764256|164960051|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic reaction)||||1.0000
82621406|NCT01764256|164960051|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
82621407|NCT01764256|164960052|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||0.6004|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||0.6004
82621408|NCT01764256|164960052|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic reaction)||||1
82621409|NCT01764256|164960052|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.00
82621410|NCT01764256|164960053|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||1.0000
82621411|NCT01764256|164960053|EQUIVALENCE|Equivalence defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic)||||1.0000
82621412|NCT01764256|164960053|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
82621413|NCT01764256|164960054|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic or local reaction)||||1.0000
82621414|NCT01764256|164960054|EQUIVALENCE|Equivalence was defined as p\<0.05||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (systemic)||||1.0000
82621415|NCT01764256|164960054|EQUIVALENCE|Equivalence was defined as p\<0.05.||||||1|||||||Fisher Exact|||Proportion of subjects per Group with any Moderate or Higher Reaction (local reaction)||||1.0000
82621416|NCT03428997|164960101|EQUIVALENCE|Mixed-effects model, where the test material/negative control is a fixed effect and the subject is a random effect|Mean Difference (Final Values)|-0.12|STANDARD_ERROR_OF_MEAN|0.11||0.274|||||||2-sided t-test|||Testing hypothesis is that the mean score is equal between the compared treatments.||||0.274
82621417|NCT02475395|164960133|OTHER||Sensitivity|90.0|||||TWO_SIDED|95.0|79.9|95.3|||||Sensitivity estimates the percent true positive results obtained by Trak. Positive results are less than 15 M/mL sperm concentration and are part of a sub fertile diagnostic assessment.|||95.3|79.9|
82621418|NCT02475395|164960133|OTHER||Specificity|93.3|||||TWO_SIDED|95.0|88.7|96.1|||||Specificity is calculated by the percentage of true negative results obtained using Trak compared to reference method. Negative (for subfertility) results are greater than 15 M/mL.|||96.1|88.7|
82621419|NCT02475395|164960134|OTHER||Sensitivity|95.0|||||TWO_SIDED|95.0|86.3|98.3||||||||98.3|86.3|
82621420|NCT02475395|164960134|OTHER||Specificity|94.9|||||TWO_SIDED|95.0|90.6|97.3||||||||97.3|90.6|
82621421|NCT02475395|164960135|OTHER||Sensitivity|96.7|||||TWO_SIDED|95.0|88.7|99.1||||||||99.1|88.7|
82621422|NCT02475395|164960135|OTHER||Specificity|93.8|||||TWO_SIDED|95.0|89.2|96.5||||||||96.5|89.2|
82621423|NCT03337139|164960137|SUPERIORITY|||||||0.98||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|||Comparing groups on 13 week weight loss, prior to randomization.||||.98
82621424|NCT03337139|164960137|SUPERIORITY|||||||0.75||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|Controlling for Phase I weight loss||Comparing groups on 26 week weight loss||||.75
82621425|NCT03337139|164960137|SUPERIORITY|||||||0.02||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I weight loss||Comparing groups on 52 week weight loss||||.02
82621426|NCT03337139|164960138|SUPERIORITY|||||||0.12||||||A priori threshold for statistical significance was p \<.05.|ANCOVA|||Comparing groups on 13 week MVPA||||.12
82621427|NCT03337139|164960138|SUPERIORITY|||||||0.16||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for changes in Phase I MVPA||Comparing groups on 52 week MVPA||||.16
82621428|NCT03337139|164960139|SUPERIORITY|||||||0.43||||||A priori threshold for statistical significant was p\<.05.|Fisher Exact|||Comparing groups on 26 week retention rates||||.43
82621429|NCT03337139|164960139|SUPERIORITY|||||||0.48||||||A priori threshold for statistical significance was p\<.05.|Fisher Exact|||Comparing groups on 52 week retention rates.||||.48
82621430|NCT03337139|164960140|SUPERIORITY|||||||0.64||||||A priori threshold of statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on phone calls completed in Phase II (52 weeks)||||.64
82621431|NCT03337139|164960140|SUPERIORITY|||||||0.499||||||A priori threshold for statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on text messages completed in Phase II (52 weeks)||||.499
82621432|NCT03337139|164960141|SUPERIORITY|||||||0.86||||||A priori threshold for statistical significance was p\<.05.|Permutation test|Permutation test (nonparametric test) was chosen due to the violation of t-test assumptions in the data set.||Comparing groups on TAQ scores at 52 weeks||||.86
82621433|NCT03337139|164960142|SUPERIORITY|||||||0.002||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of weight during Phase II||||.002
82621434|NCT03337139|164960142|SUPERIORITY|||||||0.001||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of eating during Phase II||||.001
82621435|NCT03337139|164960142|SUPERIORITY|||||||0.25||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I engagement in self-monitoring||Comparing groups on percent days of self-monitoring of physical activity during Phase II||||.25
82660992|NCT00796653|165039393|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.922|STANDARD_ERROR_OF_MEAN|0.15||0.6404||95.0|0.67|1.267|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.267|0.670|0.6404
82621436|NCT03337139|164960143|SUPERIORITY|||||||0.005||||||A priori threshold for statistical significance was p\<.05.|ANCOVA|Controlling for Phase I perceived supportive accountability||Comparing groups on changes in perceived accountability during Phase II||||.005
82621437|NCT02373371|164960187|SUPERIORITY|||||||0.846|||||||Wilcoxon (Mann-Whitney)|||"Main analysis:~* nbDPKAdispM3 the number of KA disappeared at M3 after treatment with DPDT compared to the inclusion layer,~* nbCPKAdispM3 the number of KA disappeared at M3 after treatment with conventional blue light,~The primary endpoint is:~differenceM3 = nbDPKAdispM3 - nbCPKAdispM3 The main analysis will consist of a signed Wilcoxon rank test for matched data testing whether difference M3 is significantly different from 0"||||0.8460
82621438|NCT02373371|164960189|SUPERIORITY|||||||0.0005|||||||Wilcoxon (Mann-Whitney)|||||||0.0005
82621439|NCT02373371|164960190|SUPERIORITY|||||||0.0001|||||||Wilcoxon (Mann-Whitney)|||||||0.0001
82621440|NCT00804843|164960195|SUPERIORITY_OR_OTHER||Least Square Mean Difference|0.27||||0.811|TWO_SIDED|90.0|-0.24|0.78|||ANOVA|||||0.78|-0.24|0.811
82621441|NCT00804843|164960196|SUPERIORITY_OR_OTHER||Least Square Mean Difference|3.64||||0.898|TWO_SIDED|90.0|-1.09|8.36|||ANOVA|||||8.36|-1.09|0.898
82621442|NCT02455388|164960202|EQUIVALENCE|No equivalence margin set.|||||<|0.001|||||||Intraclass correlation coefficient|||||||<0.001
82621443|NCT02455388|164960203|SUPERIORITY||||||<|0.05|||||||ANOVA|||||||<0.05
82621444|NCT02455388|164960204|OTHER||Odds Ratio (OR)|1.7|||<|0.01|TWO_SIDED||||||Regression, Logistic|||||||<0.01
82621445|NCT02528253|164960241|SUPERIORITY||Least Square (LS) Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.19||0.1117|TWO_SIDED|95.0|-0.66|0.07|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. Analysis of covariance (ANCOVA) model for imputed datasets included treatment as a fixed effect, and baseline LBPI as a covariates, and study site as a random effect.||0.07|-0.66|0.1117
82621446|NCT02528253|164960241|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.18||0.0281|TWO_SIDED|95.0|-0.76|-0.04|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline LBPI as a covariates, and study site as a random effect.||-0.04|-0.76|0.0281
82621447|NCT02528253|164960242|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|-2.21|-0.43|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.43|-2.21|0.0035
82621448|NCT02528253|164960242|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46||0.0002|TWO_SIDED|95.0|-2.64|-0.83|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.83|-2.64|0.0002
82660993|NCT00796653|165039394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.685|STANDARD_ERROR_OF_MEAN|0.249||0.2942||95.0|0.336|1.399|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.399|0.336|0.2942
82660994|NCT00796653|165039394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.947|STANDARD_ERROR_OF_MEAN|0.316||0.8594||95.0|0.493|1.82|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.820|0.493|0.8594
82621449|NCT02528253|164960243|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.17||0.3118|TWO_SIDED|95.0|-0.5|0.16|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.16|-0.50|0.3118
82621450|NCT02528253|164960243|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.17||0.0958|TWO_SIDED|95.0|-0.6|0.05|||ANCOVA|||Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.05|-0.60|0.0958
82621451|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.12||0.0015|TWO_SIDED|95.0|-0.6|-0.14|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.14|-0.60|0.0015
82621452|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.12||0.0004|TWO_SIDED|95.0|-0.65|-0.19|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.19|-0.65|0.0004
82621453|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.11||0.0959|TWO_SIDED|95.0|-0.39|0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.03|-0.39|0.0959
82621454|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.11||0.037|TWO_SIDED|95.0|-0.44|-0.01|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.01|-0.44|0.0370
82660995|NCT00796653|165039394|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.803|STANDARD_ERROR_OF_MEAN|0.281||0.5466||95.0|0.405|1.593|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.593|0.405|0.5466
82660996|NCT00796653|165039395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.807|STANDARD_ERROR_OF_MEAN|0.146||0.2494||95.0|0.566|1.15|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 5 mcg qd to placebo across stratum|||1.150|0.566|0.2494
82621455|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.14||0.0008|TWO_SIDED|95.0|-0.76|-0.2|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.20|-0.76|0.0008
82621456|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.68|STANDARD_ERROR_OF_MEAN|0.14|<|0.0001|TWO_SIDED|95.0|-0.96|-0.39|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.39|-0.96|<.0001
82621457|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.0711|TWO_SIDED|95.0|-0.5|0.02|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.02|-0.50|0.0711
82621458|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.13||0.0661|TWO_SIDED|95.0|-0.5|0.02|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.02|-0.50|0.0661
82621459|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.13||0.0009|TWO_SIDED|95.0|-0.7|-0.18|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.18|-0.70|0.0009
82621460|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.16||0.0008|TWO_SIDED|95.0|-0.84|-0.22|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.22|-0.84|0.0008
82621461|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.0|-0.38|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.38|-1.00|<.0001
82621462|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.15||0.0274|TWO_SIDED|95.0|-0.61|-0.04|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.04|-0.61|0.0274
82621463|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.15||0.1495|TWO_SIDED|95.0|-0.5|0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.08|-0.50|0.1495
82621464|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.0123|TWO_SIDED|95.0|-0.65|-0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.08|-0.65|0.0123
82621465|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.17||0.0307|TWO_SIDED|95.0|-0.71|-0.03|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.03|-0.71|0.0307
82621466|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.17||0.0009|TWO_SIDED|95.0|-0.91|-0.24|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.24|-0.91|0.0009
82660997|NCT00796653|165039395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.791|STANDARD_ERROR_OF_MEAN|0.143||0.2006||95.0|0.555|1.126|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Olo 10 mcg qd to placebo across stratum|||1.126|0.555|0.2006
82621467|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.2103|TWO_SIDED|95.0|-0.51|0.11|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.11|-0.51|0.2103
82621468|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.16||0.2656|TWO_SIDED|95.0|-0.48|0.13|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.13|-0.48|0.2656
82621469|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.16||0.0152|TWO_SIDED|95.0|-0.68|-0.07|||ANCOVA|||Week 12: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||-0.07|-0.68|0.0152
82621470|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.19||0.5164|TWO_SIDED|95.0|-0.5|0.25|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.25|-0.50|0.5164
82660998|NCT00796653|165039395|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.903|STANDARD_ERROR_OF_MEAN|0.16||0.5795||95.0|0.637|1.279|||Log Rank|Model included a stratification factor for tiotropium use stratum and a covariate for treatment group|Comparison of Form 12 mcg to placebo across stratum|||1.279|0.637|0.5795
82621471|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.19||0.1488|TWO_SIDED|95.0|-0.66|0.1|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.10|-0.66|0.1488
82621472|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.19||0.2431|TWO_SIDED|95.0|-0.6|0.15|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.15|-0.60|0.2431
82621473|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2428|TWO_SIDED|95.0|-0.62|0.16|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.16|-0.62|0.2428
82621474|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.4561|TWO_SIDED|95.0|-0.54|0.24|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.24|-0.54|0.4561
82621475|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2||0.3523|TWO_SIDED|95.0|-0.56|0.2|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.20|-0.56|0.3523
82621476|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.2||0.4403|TWO_SIDED|95.0|-0.53|0.23|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.23|-0.53|0.4403
82621477|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3205|TWO_SIDED|95.0|-0.58|0.19|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.19|-0.58|0.3205
82621478|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5763|TWO_SIDED|95.0|-0.51|0.28|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.28|-0.51|0.5763
82621479|NCT02528253|164960244|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.2887|TWO_SIDED|95.0|-0.61|0.18|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as a fixed effect, and baseline average LBPI as a covariates, and study site as a random effect.||0.18|-0.61|0.2887
82621480|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.84|STANDARD_ERROR_OF_MEAN|0.34||0.0121|TWO_SIDED|95.0|-1.5|-0.18|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-1.50|0.0121
82621481|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.38|STANDARD_ERROR_OF_MEAN|0.34|<|0.0001|TWO_SIDED|95.0|-2.05|-0.71|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.71|-2.05|<.0001
82621482|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.31||0.3697|TWO_SIDED|95.0|-0.89|0.33|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.33|-0.89|0.3697
82621483|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.3||0.0658|TWO_SIDED|95.0|-1.16|0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-1.16|0.0658
82660999|NCT00796653|165039396|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.785|STANDARD_ERROR_OF_MEAN|0.1342||0.1571||95.0|0.5613|1.0979|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.0979|0.5613|0.1571
82621484|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.31||0.0004|TWO_SIDED|95.0|-1.7|-0.5|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.50|-1.70|0.0004
82661000|NCT00796653|165039396|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.8631|STANDARD_ERROR_OF_MEAN|0.1451||0.3814||95.0|0.6205|1.2005|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.2005|0.6205|0.3814
82661001|NCT00796653|165039396|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0631|STANDARD_ERROR_OF_MEAN|0.1748||0.7098||95.0|0.7699|1.468|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.4680|0.7699|0.7098
82661002|NCT00796653|165039397|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7925|STANDARD_ERROR_OF_MEAN|0.2952||0.5326||95.0|0.3814|1.6464|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.6464|0.3814|0.5326
82621485|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.22|STANDARD_ERROR_OF_MEAN|0.38||0.0013|TWO_SIDED|95.0|-1.96|-0.48|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.48|-1.96|0.0013
82621486|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.96|STANDARD_ERROR_OF_MEAN|0.38|<|0.0001|TWO_SIDED|95.0|-2.7|-1.21|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-1.21|-2.70|<.0001
82621487|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.35||0.3906|TWO_SIDED|95.0|-0.99|0.39|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.39|-0.99|0.3906
82621488|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.92|STANDARD_ERROR_OF_MEAN|0.35||0.0082|TWO_SIDED|95.0|-1.6|-0.24|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-1.60|0.0082
82621489|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|0.35|<|0.0001|TWO_SIDED|95.0|-2.34|-0.97|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.97|-2.34|<.0001
82621490|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.37|STANDARD_ERROR_OF_MEAN|0.4||0.0006|TWO_SIDED|95.0|-2.15|-0.58|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.58|-2.15|0.0006
82621491|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.95|STANDARD_ERROR_OF_MEAN|0.4|<|0.0001|TWO_SIDED|95.0|-2.73|-1.16|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-1.16|-2.73|<.0001
82621492|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.76|STANDARD_ERROR_OF_MEAN|0.37||0.0385|TWO_SIDED|95.0|-1.47|-0.04|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-1.47|0.0385
82621493|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.34|STANDARD_ERROR_OF_MEAN|0.37||0.0003|TWO_SIDED|95.0|-2.06|-0.61|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.61|-2.06|0.0003
82621494|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.32|STANDARD_ERROR_OF_MEAN|0.45||0.0035|TWO_SIDED|95.0|-2.21|-0.43|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.43|-2.21|0.0035
82621495|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.74|STANDARD_ERROR_OF_MEAN|0.46||0.0002|TWO_SIDED|95.0|-2.64|-0.83|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.83|-2.64|0.0002
82621496|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.42||0.5412|TWO_SIDED|95.0|-1.09|0.57|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.57|-1.09|0.5412
82621497|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.06|STANDARD_ERROR_OF_MEAN|0.42||0.0107|TWO_SIDED|95.0|-1.87|-0.25|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-1.87|0.0107
82621498|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.42||0.0004|TWO_SIDED|95.0|-2.29|-0.66|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.66|-2.29|0.0004
82621499|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.98|STANDARD_ERROR_OF_MEAN|0.49||0.0464|TWO_SIDED|95.0|-1.94|-0.02|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-1.94|0.0464
82621500|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-1.33|STANDARD_ERROR_OF_MEAN|0.49||0.0068|TWO_SIDED|95.0|-2.3|-0.37|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||-0.37|-2.30|0.0068
82621501|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.5||0.1485|TWO_SIDED|95.0|-1.7|0.26|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.26|-1.70|0.1485
82661003|NCT00796653|165039397|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0078|STANDARD_ERROR_OF_MEAN|0.356||0.9824||95.0|0.5038|2.016|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||2.0160|0.5038|0.9824
82661004|NCT00796653|165039397|SUPERIORITY_OR_OTHER||Incidence rate ratio|1.0403|STANDARD_ERROR_OF_MEAN|0.3681||0.9112||95.0|0.5194|2.0832|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||2.0832|0.5194|0.9112
82661005|NCT00796653|165039398|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.744|STANDARD_ERROR_OF_MEAN|0.1389||0.1136||95.0|0.5158|1.0733|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 5 mcg qd minus Placebo|||1.0733|0.5158|0.1136
82661006|NCT00796653|165039398|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.7842|STANDARD_ERROR_OF_MEAN|0.1449||0.1887||95.0|0.5456|1.1271|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Olo 10 mcg qd minus Placebo|||1.1271|0.5456|0.1887
82661007|NCT00796653|165039398|SUPERIORITY_OR_OTHER||Incidence rate ratio|0.9761|STANDARD_ERROR_OF_MEAN|0.1747||0.8925||95.0|0.6869|1.387|||Negative binomial regression|Regression of treatment effect using tiotropium strata as a covariate, a log link function and log(exposure) as offset.|Form 12 mcg minus Placebo|||1.3870|0.6869|0.8925
82661008|NCT00796653|165039401|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.509|STANDARD_ERROR_OF_MEAN|0.23||0.027|TWO_SIDED|95.0|0.058|0.96|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 5mcg minus placebo||0.960|0.058|0.0270
82661009|NCT00796653|165039401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.525|STANDARD_ERROR_OF_MEAN|0.226||0.0203|TWO_SIDED|95.0|0.082|0.967|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Olo 10 mcg minus placebo||0.967|0.082|0.0203
82661010|NCT00796653|165039401|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.355|STANDARD_ERROR_OF_MEAN|0.226||0.1166|TWO_SIDED|95.0|-0.088|0.799|||pattern mixture model|See Hogan, et. al. Hogan JW, Roy J, Korkontzelou C Tutorial in biostatistics:handling drop-out in longitudinal studies. Stat Med 23,1455-1497(2004)|"Based on a pattern mixture model with four patterns based on time of dropout (i.e., day of last observed data)~1\) day 43 or day 85, 2) day 127 or day 169, 3) day 225 or day 281, 4) day 337"|Form 12mcg minus placebo||0.799|-0.088|0.1166
82661011|NCT01940341|165039406|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Sample sizes of 130 and 260 participants in the TDF group and TAF groups, respectively were planned to give 90% power to rule out the noninferiority margin of 10% at a 1-sided significance level of 0.025. This sample size was based on the assumption that the expected difference (TAF-TDF) in proportion of participants with HBV DNA\<29 IU/mL was 0 and the proportion of participants with HBV DNA\<29 IU/mL in the TDF group was 91%. All missing data were treated as not achieving the primary endpoint.|Difference in proportions|1.8|||||TWO_SIDED|95.0|-3.6|7.2|||||Difference in the proportion between treatment groups and its 95% CI were calculated based on the Mantel-Haenszel (MH) proportions adjusted by baseline HBV DNA categories and oral antiviral treatment status strata.|The null hypothesis was that the TAF group is at least 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. The alternative hypothesis was that the TAF group is less than 10% worse than the TDF group with respect to the proportion of participants with HBV DNA \< 29 IU/mL at Week 48. Noninferiority was assessed using a 95% confidence interval (CI) approach, with a noninferiority margin of 10%.||7.2|-3.6|
82661012|NCT01141374|165039430|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.0667|STANDARD_DEVIATION|17.28||0.352|TWO_SIDED|95.0|-76.0|23.0||The test of hypothesis was conducted with repeated measures ANOVA with Post hoc. It was performed parametric test to compare data and the statistical significance was p\<0.05.|ANOVA|||Null hypothesis: there was no statistical difference among 3 groups (control, needles and seeds) after 4 auriculotherapy sessions.||23.00|-76.00|0.352
82661013|NCT01141374|165039431|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.9067|STANDARD_DEVIATION|19.21||0.023|TWO_SIDED|95.0|-67.0|37.0||It was verified the normality of data distribution and the homogeneity of variance.|ANOVA|As for the comparison between the scores, we used ANOVA for repeated measures.It was made post hoc to find the differences among groups.||It was carried out the analysis of variance (ANOVA) among the groups in the 3rd assessment (after 60 days and 8 sessions). The main objective was to compare the difference among the control group, seeds and needles and to recognize significant outcomes of auriculotherapy by seeds or needles.||37.00|-67.00|0.023
82661014|NCT03769025|165039432|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|||||||.1
82661015|NCT03769025|165039433|SUPERIORITY|||||||0.959|||||||t-test, 2 sided|||||||.959
82661016|NCT03374176|165039434|EQUIVALENCE||Mean Difference (Net)|0.05|STANDARD_DEVIATION|1.0|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)||||chi-square|||<0.05
82661017|NCT01581658|165039453|SUPERIORITY_OR_OTHER||Geometric mean ratio|128.82|||||TWO_SIDED|90.0|105.962|156.604|||ANOVA|The model includes fixed effect for the renal function group||||156.604|105.962|
82661018|NCT01581658|165039453|SUPERIORITY_OR_OTHER||Geometric mean ratio|143.82|||||TWO_SIDED|90.0|118.306|174.848|||ANOVA|The model includes fixed effect for the renal function group||||174.848|118.306|
82661019|NCT01581658|165039453|SUPERIORITY_OR_OTHER||Geometric mean ratio|152.31|||||TWO_SIDED|90.0|125.287|185.166|||ANOVA|The model includes fixed effect for the renal function group||||185.166|125.287|
82661020|NCT01581658|165039454|SUPERIORITY_OR_OTHER||Geometric mean ratio|93.5|||||TWO_SIDED|90.0|72.236|121.015|||ANOVA|The model includes fixed effect for the renal function group||||121.015|72.236|
82661021|NCT01581658|165039454|SUPERIORITY_OR_OTHER||Geometric mean ratio|92.18|||||TWO_SIDED|90.0|71.216|119.305|||ANOVA|The model includes fixed effect for the renal function group||||119.305|71.216|
82661022|NCT01581658|165039454|SUPERIORITY_OR_OTHER||Geometric mean ratio|94.01|||||TWO_SIDED|90.0|72.63|121.674|||ANOVA|The model includes fixed effect for the renal function group||||121.674|72.630|
82661023|NCT00787254|165039498|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.251|||<|0.0001|TWO_SIDED|95.0|0.14|0.4499|||Log Rank|||||0.4499|0.1400|<0.0001
82661024|NCT00787254|165039499|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0002
82661025|NCT00787254|165039500|SUPERIORITY_OR_OTHER|||||||0.0041||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0041
82661026|NCT00787254|165039501|SUPERIORITY_OR_OTHER|||||||0.0652||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0652
82661027|NCT00787254|165039502|SUPERIORITY_OR_OTHER|||||||0.9836||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9836
82661028|NCT00787254|165039504|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0001
82661029|NCT00787254|165039505|SUPERIORITY_OR_OTHER|||||||0.0161||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0161
82661030|NCT00787254|165039506|SUPERIORITY_OR_OTHER|||||||0.0068||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0068
82661031|NCT00787254|165039507|SUPERIORITY_OR_OTHER|||||||0.2363||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2363
82661032|NCT00787254|165039509|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Log Rank|||||||<0.0001
82661033|NCT00787254|165039510|SUPERIORITY_OR_OTHER|||||||0.4788||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4788
82661034|NCT00787254|165039511|SUPERIORITY_OR_OTHER|||||||0.6607||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6607
82661035|NCT00787254|165039512|SUPERIORITY_OR_OTHER|||||||0.8811||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8811
82661036|NCT00787254|165039513|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
82661037|NCT00787254|165039515|SUPERIORITY_OR_OTHER|||||||0.206||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2060
82661038|NCT00787254|165039516|SUPERIORITY_OR_OTHER|||||||0.5099||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5099
82661039|NCT00787254|165039517|SUPERIORITY_OR_OTHER|||||||0.7794||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7794
82661040|NCT00787254|165039518|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
82661041|NCT00787254|165039520|SUPERIORITY_OR_OTHER|||||||0.698||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.6980
82661042|NCT00787254|165039521|SUPERIORITY_OR_OTHER|||||||0.4599||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4599
82661043|NCT00787254|165039522|SUPERIORITY_OR_OTHER|||||||0.0355||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0355
82661044|NCT00787254|165039523|SUPERIORITY_OR_OTHER|||||||0.7325||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7325
82661045|NCT00787254|165039525|SUPERIORITY_OR_OTHER|||||||0.8262||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.8262
82661046|NCT00787254|165039526|SUPERIORITY_OR_OTHER|||||||0.7244||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7244
82661047|NCT00787254|165039527|SUPERIORITY_OR_OTHER|||||||0.9566||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.9566
82661048|NCT00787254|165039528|SUPERIORITY_OR_OTHER|||||||0.2008||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2008
82661049|NCT00787254|165039530|SUPERIORITY_OR_OTHER|||||||0.0703||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.0703
82661050|NCT00787254|165039531|SUPERIORITY_OR_OTHER|||||||0.3046||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3046
82661051|NCT00787254|165039532|SUPERIORITY_OR_OTHER|||||||0.7121||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7121
82661052|NCT00787254|165039533|SUPERIORITY_OR_OTHER|||||||0.1522||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1522
82661053|NCT00787254|165039535|SUPERIORITY_OR_OTHER|||||||0.5328||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.5328
82661054|NCT00787254|165039536|SUPERIORITY_OR_OTHER|||||||0.7223||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.7223
82661055|NCT00787254|165039537|SUPERIORITY_OR_OTHER|||||||0.3117||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.3117
82661056|NCT00787254|165039538|SUPERIORITY_OR_OTHER|||||||0.4344||95.0|||||t-test, 2 sided|||||||0.4344
82661057|NCT00787254|165039540|SUPERIORITY_OR_OTHER|||||||0.1571||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.1571
82661058|NCT00787254|165039541|SUPERIORITY_OR_OTHER|||||||0.2503||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.2503
82661059|NCT00787254|165039542|SUPERIORITY_OR_OTHER|||||||0.4028||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.4028
82661060|NCT00787254|165039543|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Wilcoxon (Mann-Whitney)|||||||1.0000
82661061|NCT01343004|165039593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82661062|NCT01343004|165039593|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||Fisher Exact|||||||<0.0001
82661063|NCT01343004|165039594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661064|NCT01343004|165039594|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661065|NCT01343004|165039594|SUPERIORITY_OR_OTHER|||||||0.8155|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||0.8155
82661066|NCT01343004|165039595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661067|NCT01343004|165039595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661068|NCT01343004|165039595|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661069|NCT01343004|165039596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661070|NCT01343004|165039596|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||<0.0001
82661071|NCT01343004|165039596|SUPERIORITY_OR_OTHER|||||||0.0004|||||||ANCOVA|P-values were derived from contrast tests based on the ANCOVA model fitted using only the data of the two treatment groups to be compared.||||||0.0004
82661072|NCT01343004|165039597|SUPERIORITY_OR_OTHER|||||||0.0318|||||||Chi-squared|||||||0.0318
82661073|NCT01343004|165039597|SUPERIORITY_OR_OTHER|||||||0.2304|||||||Chi-squared|||||||0.2304
82661074|NCT01343004|165039597|SUPERIORITY_OR_OTHER|||||||0.3361|||||||Chi-squared|||||||0.3361
82661075|NCT00526188|165039599|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.46||||||95.0|6.0|12.93|||Test performed based on the 95% CI||Comparison was post-contrast MRI minus pre-contrast MRI|Difference in sensitivity of lesion detection between post- and pre-contrast MRI image set was calculated. Null hypothesis: No difference between post- and pre-contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the average blinded reader difference. This CI had a confidence level of 95% and was two-sided. The study was planned with a power of 80%.||12.93|6.00|
82661076|NCT00526188|165039600|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.81||||||95.0|1.84|7.78|||Test performed based on the 95% CI||Comparison was post-contrast MRI minus pre-contrast MRI (for investigator's result)|Difference in sensitivity of lesion detection between post- and pre-contrast MRI image sets, based on investigators assessments was calculated. Null hypothesis: No difference between post and pre contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the investigators difference. This CI had a confidence level of 95% and was two-sided.||7.78|1.84|
82661077|NCT00526188|165039601|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.36||||||95.0|7.45|15.28|||Test performed based on the 95% CI||Comparison was combined pre- and post-contrast MRI minus pre-contrast MRI|Difference in precision of lesion characterization between combined pre and post contrast MRI and pre contrast MRI image set was calculated. Null hypothesis: No difference between combined pre- and post-contrast MRI and pre contrast MRI image set. Test was performed based on a normal-approximated confidence interval (CI) for the average blinded reader difference. This CI had a confidence level of 95% and was two-sided.||15.28|7.45|
82661078|NCT00795821|165039618|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661079|NCT00795821|165039620|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||To control for multiple comparisons, the analysis of this secondary outcome measure was pre-specified as a gated secondary objective. As the primary hypothesis was statistically significant, this hypothesis was tested at the 0.05 significance level.|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661080|NCT00795821|165039622|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661081|NCT00795821|165039624|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
82661082|NCT00795821|165039626|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.007
82661083|NCT00795821|165039628|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.056
82661084|NCT00795821|165039630|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
82661085|NCT00795821|165039632|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661086|NCT00795821|165039634|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.003
82661087|NCT00795821|165039636|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|Model terms included treatment, investigator, and baseline score.||||||0.009
82661088|NCT00795821|165039638|SUPERIORITY_OR_OTHER|||||||0.008||95.0||||P-value for Severity of Overall Fatigue|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.008
82661089|NCT00795821|165039638|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for Fatigue Interference with Daily Activities|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.024
82661090|NCT00795821|165039640|SUPERIORITY_OR_OTHER|||||||0.261||95.0||||P-value for participants reporting use of primary doctor|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.261
82661091|NCT00795821|165039640|SUPERIORITY_OR_OTHER|||||||0.868||95.0||||P-value for participants reporting use of specialist|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.868
82661092|NCT00795821|165039640|SUPERIORITY_OR_OTHER|||||||0.495||95.0||||P-value for participants reporting other diagnostic tests|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.495
82661093|NCT00795821|165039640|SUPERIORITY_OR_OTHER|||||||0.189||95.0||||P-value for participants reporting prescribed medication|Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test controlling for investigator.||||||0.189
82661094|NCT00795821|165039642|SUPERIORITY_OR_OTHER|||||||0.737||95.0||||P-value for suicidal ideation|Fisher Exact|||||||0.737
82661095|NCT00795821|165039644|SUPERIORITY_OR_OTHER|||||||0.002||95.0||||P-value for change in supine systolic blood pressure|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||0.002
82661096|NCT00795821|165039644|SUPERIORITY_OR_OTHER||||||<|0.001||95.0||||P-value for change in supine diastolic blood pressure|Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661097|NCT00795821|165039646|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Model terms included treatment, investigator, visit, treatment-by-visit, baseline score, and baseline-by-visit.||||||<0.001
82661098|NCT01285713|165039649|SUPERIORITY_OR_OTHER|||||||0.0003|TWO_SIDED|95.0|||||Paired t-test|||||||0.0003
82661099|NCT00238615|165039667|SUPERIORITY_OR_OTHER||probability of survival at 2 years|0.72|STANDARD_DEVIATION|0.0|||TWO_SIDED|95.0|0.36|0.9||The primary endpoint of 2 year overall survival was (0.72) = 72%||||2-year overall survival (OS) Our null hypothesis was a probability of survival at 2 years of 0.30. The study was powered at 80% (with α 5% two-tailed) to detect a probability of survival at 2 years of 0.55. This would require 30 patients assuming accrual over 2 years with 1 year of additional follow-up. The probability of survival at 2 years of 0.55 is based on previous studies of neoadjuvant approaches with reported 2 year survival in the 40-60% range.||0.90|0.36|
82661100|NCT02925884|165039696|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Decreased Cognitive Functions.||||0.011
82661101|NCT02925884|165039696|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Eyestrain.||||<0.001
82661102|NCT02925884|165039696|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Physical Discomfort.||||0.009
82661103|NCT02925884|165039696|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Deceased Visual Function.||||<0.001
82661104|NCT02925884|165039696|SUPERIORITY|||||||0.28|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunnar OTC Condition and the Control Condition on the factor score of Poor Balance.||||0.28
82661105|NCT02925884|165039697|SUPERIORITY|||||||0.903|||||||Mixed Models Analysis|||||||0.903
82661106|NCT02925884|165039698|SUPERIORITY|||||||0.009|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Red Color Perception.||||0.009
82661107|NCT02925884|165039698|SUPERIORITY|||||||0.446|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Green Color Perception.||||0.446
82661108|NCT02925884|165039698|SUPERIORITY|||||||0.953|||||||Mixed Models Analysis|||Null hypothesis: No difference between the Gunna OTC Glasses condition and the Control condition on Blue Color Perception.||||0.953
82661109|NCT02925884|165039699|SUPERIORITY|||||||0.266|||||||Mixed Models Analysis|||||||0.266
82661110|NCT02925884|165039700|SUPERIORITY|||||||0.424|||||||Mixed Models Analysis|||||||0.424
82661111|NCT02925884|165039701|SUPERIORITY|||||||0.343|||||||Mixed Models Analysis|||||||0.343
82661112|NCT02925884|165039702|SUPERIORITY|||||||0.489|||||||Mixed Models Analysis|||||||0.489
82661113|NCT02925884|165039703|SUPERIORITY|||||||0.885|||||||Mixed Models Analysis|||||||0.885
82661114|NCT02925884|165039704|SUPERIORITY|||||||0.001|||||||Mixed Models Analysis|||||||0.001
82661115|NCT02925884|165039705|SUPERIORITY|||||||0.359|||||||Mixed Models Analysis|||||||0.359
82661116|NCT04516434|165039706|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
82661117|NCT04516434|165039706|OTHER|Descriptive analysis||||||0.99|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.99
82661118|NCT04516434|165039707|OTHER|Descriptive analysis||||||0.08|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.08
82661119|NCT04516434|165039707|OTHER|Descriptive analysis||||||0.045|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.045
82661120|NCT04516434|165039709|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||First sensation of bladder filling - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||1
82661121|NCT04516434|165039709|OTHER|Descriptive analysis||||||0.41|||||||Mixed Models Analysis|||First sensation of bladder filling - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||0.41
82661122|NCT04516434|165039709|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Maximum cystometric capacity - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||1
82661123|NCT04516434|165039709|OTHER|Descriptive analysis||||||0.01|||||||Mixed Models Analysis|||Maximum cystometric capacity - change in cystometry before stimulation and after stimulation (up to 60 minutes).||||0.01
82661124|NCT04516434|165039710|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
82661125|NCT04516434|165039710|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
82661126|NCT04516434|165039711|OTHER|Descriptive analysis||||||1|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||1
82661127|NCT04516434|165039711|OTHER|Descriptive analysis||||||0.99|||||||Mixed Models Analysis|||Change from baseline to after the pressure-flow study||||0.99
82661128|NCT02301975|165039712|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined if the lower bound of the 95% CI for the difference between mean change from Baseline in clinic visit PM FEV1 for FF/VI and FP/S was more than -100 milliliter (mL)|Least square mean change difference|0.019|||||TWO_SIDED|95.0|-0.011|0.049||||||||0.049|-0.011|
82661129|NCT02301975|165039712|OTHER||Least square mean change difference|0.123|||<|0.001|TWO_SIDED|95.0|0.093|0.153|||Mixed Models Analysis|||||0.153|0.093|<0.001
82661130|NCT02301975|165039712|OTHER||Least square mean change difference|0.104|||<|0.001|TWO_SIDED|95.0|0.074|0.134|||Mixed Models Analysis|||||0.134|0.074|<0.001
82661131|NCT02301975|165039713|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was defined if the lower bound of the 95% CI for the difference between mean change from Baseline in clinic visit for FF/VI and FP/S was more than -100 mL|Least square mean change difference|0.006|||||TWO_SIDED|95.0|-0.027|0.04||||||||0.040|-0.027|
82661132|NCT02301975|165039713|OTHER||Least square mean change difference|0.12|||<|0.001|TWO_SIDED|95.0|0.086|0.153|||Mixed Models Analysis|||||0.153|0.086|<0.001
82661133|NCT02301975|165039713|OTHER||Least square mean change difference|0.113|||<|0.001|TWO_SIDED|95.0|0.08|0.147|||Mixed Models Analysis|||||0.147|0.080|<0.001
82661134|NCT02301975|165039714|OTHER||Least square mean change difference|1.2|||||TWO_SIDED|95.0|-0.5|3.0||||||||3.0|-0.5|
82661135|NCT02301975|165039714|OTHER||Least square mean change difference|2.7||||0.002|TWO_SIDED|95.0|0.9|4.4|||ANCOVA|||||4.4|0.9|0.002
82661136|NCT02301975|165039714|OTHER||Least square mean change difference|1.4||||0.106|TWO_SIDED|95.0|-0.3|3.2|||ANCOVA|||||3.2|-0.3|0.106
82661137|NCT02301975|165039715|OTHER||Least square mean change difference|1.2|||||TWO_SIDED|95.0|-0.7|3.1||||||||3.1|-0.7|
82661138|NCT02301975|165039715|OTHER||Least square mean change difference|2.7||||0.004|TWO_SIDED|95.0|0.8|4.5|||ANCOVA|||||4.5|0.8|0.004
82661139|NCT02301975|165039715|OTHER||Least square mean change difference|1.5||||0.115|TWO_SIDED|95.0|-0.4|3.3|||ANCOVA|||||3.3|-0.4|0.115
82661140|NCT02301975|165039716|OTHER||Least square mean change difference|5.2|||||TWO_SIDED|95.0|1.1|9.4||||||||9.4|1.1|
82661141|NCT02301975|165039716|OTHER||Least square mean change difference|21.5|||<|0.001|TWO_SIDED|95.0|17.4|25.6|||ANCOVA|||||25.6|17.4|<0.001
82661142|NCT02301975|165039716|OTHER||Least square mean change difference|16.3|||<|0.001|TWO_SIDED|95.0|12.2|20.4|||ANCOVA|||||20.4|12.2|<0.001
82661143|NCT02301975|165039717|OTHER||Odds Ratio (OR)|0.91|||||TWO_SIDED|95.0|0.53|1.54||||||||1.54|0.53|
82661144|NCT02301975|165039717|OTHER||Odds Ratio (OR)|1.15||||0.595|TWO_SIDED|95.0|0.69|1.9|||Regression, Logistic|||||1.90|0.69|0.595
82661145|NCT02301975|165039717|OTHER||Odds Ratio (OR)|1.27||||0.372|TWO_SIDED|95.0|0.75|2.12|||Regression, Logistic|||||2.12|0.75|0.372
82661146|NCT02301975|165039718|OTHER||Least square mean change difference|5.0|||||TWO_SIDED|95.0|0.7|9.3||||||||9.3|0.7|
82661147|NCT02301975|165039718|OTHER||Least square mean change difference|19.2|||<|0.001|TWO_SIDED|95.0|14.9|23.5|||ANCOVA|||||23.5|14.9|<0.001
82661148|NCT02301975|165039718|OTHER||Least square mean change difference|14.2|||<|0.001|TWO_SIDED|95.0|9.9|18.5|||ANCOVA|||||18.5|9.9|<0.001
82661149|NCT04278560|165039720|SUPERIORITY||Mean Difference (Net)|385.3||||0.009|TWO_SIDED|||||Repeated Measures Two-Way ANOVA: Group, Time, Group x Time, and controlled by Baseline Step Counts|ANOVA|||||||0.009
82661150|NCT04278560|165039721|SUPERIORITY||Mean Difference (Net)|1.2||||0.03|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.03
82661151|NCT04278560|165039722|SUPERIORITY||Mean Difference (Net)|0.19||||0.4|TWO_SIDED||||||ANOVA|We used change from baseline for the analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.4
82661152|NCT04278560|165039723|SUPERIORITY||Mean Difference (Net)|3.1||||0.016|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.016
82661153|NCT04278560|165039724|SUPERIORITY||Mean Difference (Net)|9.94||||0.17|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.17
82661154|NCT04278560|165039725|SUPERIORITY||Median Difference (Net)|0.6||||0.1|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline.||||||0.1
82661155|NCT04278560|165039726|SUPERIORITY||Median Difference (Net)|0.07||||0.7|TWO_SIDED||||||ANOVA|We used change from baseline for this analysis. Two-Way Repeated Measure ANOVA: Group, Time, Group x Time, and controlled baseline||||||0.7
82661156|NCT04278560|165039727|SUPERIORITY|||||||0.46|||||||t-test, 2 sided|||||||0.46
82661157|NCT04278560|165039728|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||0.16
82661158|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.111|||<|0.001|TWO_SIDED|95.0|0.05|0.171|||ANCOVA|||"Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~The primary endpoint was analyzed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects and baseline as a covariate. The confidence intervals (CIs) and the p-values of the comparisons between each dose of CHF 1531 pMDI and Placebo at Day 14 were adjusted for multiplicity, based on the parametric simulation method of Edwards and Berry."||0.171|0.050|<0.001
82661159|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.158|||<|0.001|TWO_SIDED|95.0|0.095|0.22|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.220|0.095|<0.001
82661160|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.072|0.194|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.194|0.072|<0.001
82661161|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.167|||<|0.001|TWO_SIDED|95.0|0.109|0.225|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.225|0.109|<0.001
82661162|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.144|||<|0.001|TWO_SIDED|95.0|0.098|0.19|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~The statistical analysis was performed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects, and baseline as a covariate."||0.190|0.098|<0.001
82661163|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.059|TWO_SIDED|95.0|-0.002|0.095|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~The statistical analysis was performed using an analysis of covariance (ANCOVA) including treatment, period, and patient as fixed effects, and baseline as a covariate."||0.095|-0.002|0.059
82661164|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.361|TWO_SIDED|95.0|-0.026|0.07|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.070|-0.026|0.361
82661165|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.016|TWO_SIDED|95.0|0.011|0.102|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.102|0.011|0.016
82661166|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|-0.025||||0.34|TWO_SIDED|95.0|-0.075|0.026|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.026|-0.075|0.340
82661167|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.01||||0.69|TWO_SIDED|95.0|-0.038|0.058|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.058|-0.038|0.690
82661168|NCT03086460|165039756|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.155|TWO_SIDED|95.0|-0.013|0.082|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.082|-0.013|0.155
82661169|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.049|0.175|||ANCOVA|||"Comparison groups:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.175|0.049|<0.001
82661170|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.166|||<|0.001|TWO_SIDED|95.0|0.101|0.23|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.230|0.101|<0.001
82661171|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.138|||<|0.001|TWO_SIDED|95.0|0.074|0.203|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.203|0.074|<0.001
82661172|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.174|||<|0.001|TWO_SIDED|95.0|0.113|0.235|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.235|0.113|<0.001
82661173|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.149|||<|0.001|TWO_SIDED|95.0|0.101|0.197|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.197|0.101|<0.001
82661174|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.054||||0.035|TWO_SIDED|95.0|0.004|0.104|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the primary efficacy model with only data from the first instance of each treatment."||0.104|0.004|0.035
82661175|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.301|TWO_SIDED|95.0|-0.024|0.076|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.076|-0.024|0.301
82661176|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.011|TWO_SIDED|95.0|0.014|0.11|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.110|0.014|0.011
82661177|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.294|TWO_SIDED|95.0|-0.08|0.024|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.024|-0.080|0.294
82661178|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.747|TWO_SIDED|95.0|-0.042|0.058|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.058|-0.042|0.747
82661179|NCT03086460|165039757|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.155|TWO_SIDED|95.0|-0.014|0.086|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.086|-0.014|0.155
82661180|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.136|||<|0.001|TWO_SIDED|95.0|0.065|0.207|||ANCOVA|||"Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment, which occurred after the randomization error."||0.207|0.065|<0.001
82661181|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.186|||<|0.001|TWO_SIDED|95.0|0.113|0.258|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.258|0.113|<0.001
82661182|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.165|||<|0.001|TWO_SIDED|95.0|0.092|0.238|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.238|0.092|<0.001
82661183|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.185|||<|0.001|TWO_SIDED|95.0|0.118|0.252|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.252|0.118|<0.001
82661184|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.176|||<|0.001|TWO_SIDED|95.0|0.121|0.231|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment which occurred after the randomization error."||0.231|0.121|<0.001
82661185|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.088|TWO_SIDED|95.0|-0.008|0.108|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment, subject, and period as fixed effects; baseline FEV1 value as covariates. Subjects receiving the same treatment in more than one period are included in the model with only data for the instance of each treatment which occurred after the randomization error."||0.108|-0.008|0.088
82661186|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.029||||0.323|TWO_SIDED|95.0|-0.029|0.088|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.088|-0.029|0.323
82661187|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.073|TWO_SIDED|95.0|-0.005|0.103|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.103|-0.005|0.073
82661188|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|-0.021||||0.489|TWO_SIDED|95.0|-0.08|0.039|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.039|-0.080|0.489
82661189|NCT03086460|165039758|SUPERIORITY||Median Difference (Final Values)|-0.001||||0.978|TWO_SIDED|95.0|-0.057|0.056|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.056|-0.057|0.978
82661190|NCT03086460|165039758|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.484|TWO_SIDED|95.0|-0.037|0.077|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.077|-0.037|0.484
82661191|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.107|||<|0.001|TWO_SIDED|95.0|0.048|0.166|||ANCOVA|||"Comparison groups:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. CIs and p-values for CHF 1531 pMDI vs Placebo are adjusted for multiplicity (parametric simulation method by Edwards and Berry). Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.166|0.048|<0.001
82661192|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.157|||<|0.001|TWO_SIDED|95.0|0.096|0.217|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.217|0.096|<0.001
82661193|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.073|0.193|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.193|0.073|<0.001
82661194|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.16|||<|0.001|TWO_SIDED|95.0|0.103|0.217|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.217|0.103|<0.001
82661195|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.147|||<|0.001|TWO_SIDED|95.0|0.102|0.192|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.192|0.102|<0.001
82661196|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.041|TWO_SIDED|95.0|0.002|0.098|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Analysis of covariance model: treatment and period as fixed effects, subject as random effect, baseline FEV1 value as covariate. Patients receiving the same treatment during two periods are considered twice in the ANCOVA model (once for each period attended)."||0.098|0.002|0.041
82661197|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.026||||0.275|TWO_SIDED|95.0|-0.021|0.073|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.073|-0.021|0.275
82661198|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.053||||0.021|TWO_SIDED|95.0|0.008|0.098|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.098|0.008|0.021
82661199|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|-0.024||||0.35|TWO_SIDED|95.0|-0.073|0.026|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.026|-0.073|0.350
82661200|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.886|TWO_SIDED|95.0|-0.044|0.051|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.051|-0.044|0.886
82661201|NCT03086460|165039759|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.254|TWO_SIDED|95.0|-0.02|0.074|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #6 of this outcome measure."||0.074|-0.020|0.254
82661202|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.114|||<|0.001|TWO_SIDED|95.0|0.06|0.169|||ANCOVA|||"Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.169|0.060|<0.001
82661203|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.154|||<|0.001|TWO_SIDED|95.0|0.099|0.208|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.208|0.099|<0.001
82661204|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.193|||<|0.001|TWO_SIDED|95.0|0.138|0.247|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.247|0.138|<0.001
82661205|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.216|||<|0.001|TWO_SIDED|95.0|0.163|0.268|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.268|0.163|<0.001
82661206|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.172|||<|0.001|TWO_SIDED|95.0|0.12|0.224|||ANCOVA|||"Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.224|0.120|<0.001
82661207|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.165|TWO_SIDED|95.0|-0.016|0.095|||ANCOVA|||"Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.016|0.165
82661208|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.005|TWO_SIDED|95.0|0.024|0.132|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.132|0.024|0.005
82661209|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.101|||<|0.001|TWO_SIDED|95.0|0.049|0.153|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.153|0.049|<0.001
82661210|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.187|TWO_SIDED|95.0|-0.019|0.097|||ANCOVA|||"Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.097|-0.019|0.187
82661211|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.062||||0.028|TWO_SIDED|95.0|0.007|0.116|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.116|0.007|0.028
82661212|NCT03086460|165039760|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.406|TWO_SIDED|95.0|-0.031|0.076|||ANCOVA|||"Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.076|-0.031|0.406
82661213|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.173|||<|0.001|TWO_SIDED|95.0|0.116|0.23|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.230|0.116|<0.001
82661214|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.203|||<|0.001|TWO_SIDED|95.0|0.146|0.26|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.260|0.146|<0.001
82661215|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.223|||<|0.001|TWO_SIDED|95.0|0.166|0.28|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.280|0.166|<0.001
82661216|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.27|||<|0.001|TWO_SIDED|95.0|0.216|0.325|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.325|0.216|<0.001
82661217|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.241|||<|0.001|TWO_SIDED|95.0|0.187|0.295|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.295|0.187|<0.001
82661218|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.308|TWO_SIDED|95.0|-0.028|0.089|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.089|-0.028|0.308
82661219|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.082|TWO_SIDED|95.0|-0.006|0.107|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.107|-0.006|0.082
82661220|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.097|||<|0.001|TWO_SIDED|95.0|0.043|0.152|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.152|0.043|<0.001
82661221|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.52|TWO_SIDED|95.0|-0.041|0.08|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.080|-0.041|0.520
82661222|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.067||||0.022|TWO_SIDED|95.0|0.01|0.124|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.124|0.010|0.022
82661223|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.098|TWO_SIDED|95.0|-0.009|0.103|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.103|-0.009|0.098
82661224|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.153|||<|0.001|TWO_SIDED|95.0|0.095|0.21|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.210|0.095|<0.001
82661225|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.131|0.249|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.249|0.131|<0.001
82661226|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.17|||<|0.001|TWO_SIDED|95.0|0.113|0.228|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.228|0.113|<0.001
82661227|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.217|||<|0.001|TWO_SIDED|95.0|0.162|0.272|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.272|0.162|<0.001
82661228|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.198|||<|0.001|TWO_SIDED|95.0|0.144|0.252|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.252|0.144|<0.001
82661229|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.203|TWO_SIDED|95.0|-0.02|0.095|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.020|0.203
82661230|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.542|TWO_SIDED|95.0|-0.039|0.074|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.039|0.542
82661231|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.064||||0.021|TWO_SIDED|95.0|0.01|0.119|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|0.010|0.021
82661232|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.51|TWO_SIDED|95.0|-0.08|0.04|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.040|-0.080|0.510
82661233|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.352|TWO_SIDED|95.0|-0.03|0.084|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.084|-0.030|0.352
82661234|NCT03086460|165039761|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.098|TWO_SIDED|95.0|-0.009|0.103|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.103|-0.009|0.098
82661235|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.181|||<|0.001|TWO_SIDED|95.0|0.122|0.241|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.241|0.122|<0.001
82661236|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.192|||<|0.001|TWO_SIDED|95.0|0.133|0.251|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.251|0.133|<0.001
82661237|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.215|||<|0.001|TWO_SIDED|95.0|0.156|0.275|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.275|0.156|<0.001
82661238|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.252|||<|0.001|TWO_SIDED|95.0|0.195|0.309|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.309|0.195|<0.001
82661239|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.238|||<|0.001|TWO_SIDED|95.0|0.182|0.295|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.295|0.182|<0.001
82661240|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.011||||0.723|TWO_SIDED|95.0|-0.049|0.071|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.071|-0.049|0.723
82661241|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.257|TWO_SIDED|95.0|-0.025|0.093|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.093|-0.025|0.257
82661242|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.016|TWO_SIDED|95.0|0.014|0.128|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.128|0.014|0.016
82661243|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.464|TWO_SIDED|95.0|-0.039|0.086|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.086|-0.039|0.464
82661244|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.048|TWO_SIDED|95.0|0.0|0.12|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.120|0.000|0.048
82661245|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.037||||0.219|TWO_SIDED|95.0|-0.022|0.095|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.022|0.219
82661246|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.163|||<|0.001|TWO_SIDED|95.0|0.1|0.226|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.226|0.100|<0.001
82661247|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.19|||<|0.001|TWO_SIDED|95.0|0.126|0.254|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.254|0.126|<0.001
82661248|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.166|||<|0.001|TWO_SIDED|95.0|0.103|0.229|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.229|0.103|<0.001
82661249|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.206|||<|0.001|TWO_SIDED|95.0|0.146|0.266|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.266|0.146|<0.001
82661250|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.184|||<|0.001|TWO_SIDED|95.0|0.125|0.243|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.243|0.125|<0.001
82661251|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.027||||0.4|TWO_SIDED|95.0|-0.036|0.09|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.090|-0.036|0.400
82661252|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.931|TWO_SIDED|95.0|-0.059|0.064|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.064|-0.059|0.931
82661253|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.16|TWO_SIDED|95.0|-0.017|0.102|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.102|-0.017|0.160
82661254|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|-0.024||||0.464|TWO_SIDED|95.0|-0.09|0.041|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.041|-0.090|0.464
82661255|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.623|TWO_SIDED|95.0|-0.047|0.078|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.078|-0.047|0.623
82661256|NCT03086460|165039762|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.197|TWO_SIDED|95.0|-0.021|0.101|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.101|-0.021|0.197
82661257|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.052||||0.098|TWO_SIDED|95.0|-0.01|0.113|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.113|-0.010|0.098
82661258|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.002|TWO_SIDED|95.0|0.035|0.159|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.159|0.035|0.002
82661259|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.101||||0.002|TWO_SIDED|95.0|0.039|0.163|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.163|0.039|0.002
82661260|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.063|0.182|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.182|0.063|<0.001
82661261|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.112|||<|0.001|TWO_SIDED|95.0|0.054|0.171|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.171|0.054|<0.001
82661262|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.045||||0.162|TWO_SIDED|95.0|-0.018|0.108|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.108|-0.018|0.162
82661263|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.049||||0.117|TWO_SIDED|95.0|-0.012|0.11|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.110|-0.012|0.117
82661264|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.071||||0.02|TWO_SIDED|95.0|0.011|0.13|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.130|0.011|0.020
82661265|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.909|TWO_SIDED|95.0|-0.062|0.07|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.070|-0.062|0.909
82499448|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.184|STANDARD_ERROR_OF_MEAN|0.314||||90.0|-1.702|-0.666|||ANCOVA|||Month 12; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.666|-1.702|
82661266|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.419|TWO_SIDED|95.0|-0.037|0.088|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.088|-0.037|0.419
82661267|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.483|TWO_SIDED|95.0|-0.039|0.083|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.083|-0.039|0.483
82661268|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.043||||0.126|TWO_SIDED|95.0|-0.012|0.099|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.099|-0.012|0.126
82661269|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.012|TWO_SIDED|95.0|0.017|0.131|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.131|0.017|0.012
82661270|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.037|TWO_SIDED|95.0|0.004|0.116|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.116|0.004|0.037
82661271|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.082||||0.003|TWO_SIDED|95.0|0.028|0.136|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.136|0.028|0.003
82661272|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.074||||0.006|TWO_SIDED|95.0|0.021|0.127|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.127|0.021|0.006
82661273|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.282|TWO_SIDED|95.0|-0.025|0.087|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.087|-0.025|0.282
82661274|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.017||||0.554|TWO_SIDED|95.0|-0.039|0.072|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.072|-0.039|0.554
82661275|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.039||||0.149|TWO_SIDED|95.0|-0.014|0.091|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.091|-0.014|0.149
82661276|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.636|TWO_SIDED|95.0|-0.072|0.044|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.044|-0.072|0.636
82661277|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.008||||0.775|TWO_SIDED|95.0|-0.047|0.063|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.063|-0.047|0.775
82661278|NCT03086460|165039763|SUPERIORITY||Mean Difference (Final Values)|0.022||||0.425|TWO_SIDED|95.0|-0.032|0.077|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.077|-0.032|0.425
82661279|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.122|||<|0.001|TWO_SIDED|95.0|0.058|0.187|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.187|0.058|<0.001
82661280|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.15|||<|0.001|TWO_SIDED|95.0|0.085|0.215|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.215|0.085|<0.001
82661281|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.124|||<|0.001|TWO_SIDED|95.0|0.059|0.189|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.189|0.059|<0.001
82661282|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.18|||<|0.001|TWO_SIDED|95.0|0.118|0.242|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.242|0.118|<0.001
82492790|NCT01709513|164678322|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|109.8|||<|0.0001|TWO_SIDED|95.0|16.5|4759.3||Threshold for significance ≤ 0.05.|Regression, Exact Conditional Logistic|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a LOCF approach followed by Exact conditional logistic regression model.||4759.3|16.5|<0.0001
82661283|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.177|||<|0.001|TWO_SIDED|95.0|0.115|0.238|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.238|0.115|<0.001
82661284|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.028||||0.41|TWO_SIDED|95.0|-0.039|0.094|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.094|-0.039|0.410
82661285|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.002||||0.961|TWO_SIDED|95.0|-0.063|0.066|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.066|-0.063|0.961
82661286|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.057||||0.07|TWO_SIDED|95.0|-0.005|0.119|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|-0.005|0.070
82661287|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|-0.026||||0.454|TWO_SIDED|95.0|-0.095|0.043|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.043|-0.095|0.454
82661288|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.03||||0.37|TWO_SIDED|95.0|-0.035|0.095|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.095|-0.035|0.370
82661289|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.056||||0.086|TWO_SIDED|95.0|-0.008|0.12|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.120|-0.008|0.086
82661290|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.086||||0.011|TWO_SIDED|95.0|0.02|0.151|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.151|0.020|0.011
82661291|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.097||||0.005|TWO_SIDED|95.0|0.029|0.164|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.164|0.029|0.005
82661292|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.021|0.153|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.153|0.021|0.010
82661293|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.145|||<|0.001|TWO_SIDED|95.0|0.081|0.208|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.208|0.081|<0.001
82661294|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.127|||<|0.001|TWO_SIDED|95.0|0.065|0.189|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.189|0.065|<0.001
82661295|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.011||||0.74|TWO_SIDED|95.0|-0.055|0.078|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.078|-0.055|0.740
82661296|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.001||||0.973|TWO_SIDED|95.0|-0.064|0.066|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.066|-0.064|0.973
82661297|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.059||||0.064|TWO_SIDED|95.0|-0.003|0.122|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.122|-0.003|0.064
82661298|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.774|TWO_SIDED|95.0|-0.079|0.059|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.059|-0.079|0.774
82661299|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.048||||0.151|TWO_SIDED|95.0|-0.018|0.113|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.113|-0.018|0.151
82661300|NCT03086460|165039764|SUPERIORITY||Mean Difference (Final Values)|0.058||||0.076|TWO_SIDED|95.0|-0.006|0.122|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.122|-0.006|0.076
82661301|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.114||||0.003|TWO_SIDED|95.0|0.039|0.19|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.190|0.039|0.003
82661302|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.13|||<|0.001|TWO_SIDED|95.0|0.055|0.206|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.206|0.055|<0.001
82661303|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.137|||<|0.001|TWO_SIDED|95.0|0.061|0.213|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.213|0.061|<0.001
82661304|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.151|||<|0.001|TWO_SIDED|95.0|0.078|0.223|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.223|0.078|<0.001
82661305|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.168|||<|0.001|TWO_SIDED|95.0|0.097|0.24|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.240|0.097|<0.001
82661306|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.016||||0.679|TWO_SIDED|95.0|-0.061|0.093|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.093|-0.061|0.679
82661307|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.023||||0.549|TWO_SIDED|95.0|-0.052|0.098|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.098|-0.052|0.549
82661308|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.323|TWO_SIDED|95.0|-0.036|0.109|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.109|-0.036|0.323
82661309|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.007||||0.866|TWO_SIDED|95.0|-0.073|0.087|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.087|-0.073|0.866
82661310|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.02||||0.596|TWO_SIDED|95.0|-0.055|0.096|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.096|-0.055|0.596
82661311|NCT03086460|165039765|SUPERIORITY|"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."|Mean Difference (Final Values)|0.014||||0.72|TWO_SIDED|95.0|-0.061|0.088|||ANCOVA|||||0.088|-0.061|0.720
82661312|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.003|TWO_SIDED|95.0|0.038|0.185|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.185|0.038|0.003
82661313|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.133|||<|0.001|TWO_SIDED|95.0|0.057|0.209|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.209|0.057|<0.001
82661314|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.106||||0.005|TWO_SIDED|95.0|0.032|0.18|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.180|0.032|0.005
82661315|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.152|||<|0.001|TWO_SIDED|95.0|0.081|0.223|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.223|0.081|<0.001
82661316|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.142|||<|0.001|TWO_SIDED|95.0|0.072|0.212|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.212|0.072|<0.001
82661317|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.021||||0.573|TWO_SIDED|95.0|-0.053|0.096|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.096|-0.053|0.573
82661318|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.881|TWO_SIDED|95.0|-0.078|0.067|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.067|-0.078|0.881
82661319|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.261|TWO_SIDED|95.0|-0.03|0.11|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.110|-0.030|0.261
82661320|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|-0.027||||0.493|TWO_SIDED|95.0|-0.104|0.051|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.051|-0.104|0.493
82661321|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.019||||0.616|TWO_SIDED|95.0|-0.055|0.092|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.092|-0.055|0.616
82661322|NCT03086460|165039765|SUPERIORITY||Mean Difference (Final Values)|0.046||||0.212|TWO_SIDED|95.0|-0.026|0.118|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.118|-0.026|0.212
82661323|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.034||||0.361|TWO_SIDED|95.0|-0.039|0.106|||ANCOVA|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.106|-0.039|0.361
82661324|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.065||||0.085|TWO_SIDED|95.0|-0.009|0.138|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.138|-0.009|0.085
82661325|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.036||||0.328|TWO_SIDED|95.0|-0.037|0.109|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.109|-0.037|0.328
82661326|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.112||||0.002|TWO_SIDED|95.0|0.042|0.182|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.182|0.042|0.002
82661327|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.089||||0.011|TWO_SIDED|95.0|0.02|0.158|||ANCOVA|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.158|0.020|0.011
82661328|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.031||||0.404|TWO_SIDED|95.0|-0.042|0.104|||ANCOVA|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.104|-0.042|0.404
82661329|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.003||||0.942|TWO_SIDED|95.0|-0.069|0.074|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.069|0.942
82661330|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.078||||0.027|TWO_SIDED|95.0|0.009|0.147|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.147|0.009|0.027
82661331|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|-0.028||||0.463|TWO_SIDED|95.0|-0.104|0.048|||ANCOVA|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.048|-0.104|0.463
82661332|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.047||||0.2|TWO_SIDED|95.0|-0.025|0.119|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.119|-0.025|0.200
82661333|NCT03086460|165039766|SUPERIORITY||Mean Difference (Final Values)|0.076||||0.037|TWO_SIDED|95.0|0.005|0.146|||ANCOVA|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.146|0.005|0.037
82661334|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|-0.005||||0.896|TWO_SIDED|95.0|-0.083|0.073|||ANCOVA|||"Day 14~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~This secondary efficacy variable was analyzed using the ANCOVA model that was also used for the primary efficacy analysis, without adjusting for multiplicity."||0.073|-0.083|0.896
82661335|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|-0.01||||0.81|TWO_SIDED|95.0|-0.089|0.07|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.070|-0.089|0.810
82661336|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|-0.006||||0.882|TWO_SIDED|95.0|-0.084|0.073|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.073|-0.084|0.882
82661337|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.115|TWO_SIDED|95.0|-0.015|0.136|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.136|-0.015|0.115
82661338|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.06||||0.111|TWO_SIDED|95.0|-0.014|0.134|||ANCOVA|||"Day 14~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.134|-0.014|0.111
82661339|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|-0.004||||0.911|TWO_SIDED|95.0|-0.083|0.074|||ANCOVA|||"Day 14~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.074|-0.083|0.911
82661340|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|-0.001||||0.985|TWO_SIDED|95.0|-0.078|0.077|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.077|-0.078|0.985
82661341|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.084|TWO_SIDED|95.0|-0.009|0.14|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.140|-0.009|0.084
82661342|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.004||||0.928|TWO_SIDED|95.0|-0.078|0.086|||ANCOVA|||"Day 14~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.086|-0.078|0.928
82661343|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.07||||0.078|TWO_SIDED|95.0|-0.008|0.148|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.148|-0.008|0.078
82661344|NCT03086460|165039767|SUPERIORITY||Mean Difference (Final Values)|0.066||||0.089|TWO_SIDED|95.0|-0.01|0.143|||ANCOVA|||"Day 14~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||0.143|-0.010|0.089
82661345|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|18.01|||<|0.001|TWO_SIDED|95.0|4.25|76.37|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment A (CHF 1531 pMDI 6 μg TDD) versus Treatment E (Placebo).~Time to onset of action was analyzed using a Cox proportional hazard model stratified by patient, including treatment and period as a factor, and baseline FEV1 as covariate.~For patients receiving the same treatment twice, the analysis includes only data from the first instance of each treatment."||76.37|4.25|<0.001
82661346|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|31.67|||<|0.001|TWO_SIDED|95.0|7.52|133.47|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||133.47|7.52|<0.001
82661347|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|44.24|||<|0.001|TWO_SIDED|95.0|10.23|191.34|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||191.34|10.23|<0.001
82661348|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|40.32|||<|0.001|TWO_SIDED|95.0|9.54|170.45|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||170.45|9.54|<0.001
82661349|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|22.91|||<|0.001|TWO_SIDED|95.0|5.7|92.06|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment F ( Perforomist® IS 40 μg TDD) versus Treatment E (Placebo).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||92.06|5.70|<0.001
82661350|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|1.76||||0.195|TWO_SIDED|95.0|0.75|4.13|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment B (CHF 1531 pMDI 12 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||4.13|0.75|0.195
82661351|NCT03086460|165039768|SUPERIORITY||Risk Ratio (RR)|2.46||||0.037|TWO_SIDED|95.0|1.06|5.72|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||5.72|1.06|0.037
82661352|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|2.24||||0.042|TWO_SIDED|95.0|1.03|4.86|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment A (CHF 1531 pMDI 6 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||4.86|1.03|0.042
82661353|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|1.4||||0.435|TWO_SIDED|95.0|0.6|3.23|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment C (CHF 1531 pMDI 24 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||3.23|0.60|0.435
82661354|NCT03086460|165039768|SUPERIORITY||Hazard Ratio (HR)|1.27||||0.564|TWO_SIDED|95.0|0.56|2.89|||Regression, Cox|||"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment B (CHF 1531 pMDI 12 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."||2.89|0.56|0.564
82661355|NCT03086460|165039768|SUPERIORITY|"Day 1~Comparison groups were:~Treatment D (CHF 1531 pMDI 48 μg TDD) versus Treatment C (CHF 1531 pMDI 24 μg TDD).~Statistical analysis was performed as described for the statistical analysis #1 of this outcome measure."|Hazard Ratio (HR)|0.91||||0.818|TWO_SIDED|95.0|0.41|2.01|||Regression, Cox|||||2.01|0.41|0.818
82661356|NCT03123094|165039822|OTHER||Slope|0.9533|STANDARD_ERROR_OF_MEAN|0.0803|||TWO_SIDED|95.0|0.781|1.1256|||||Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of spesolimab was to be assessed based on the exposure parameter AUC0-∞, determined for the 3 intravenous dose levels (perfect dose proportionality would correspond to a slope of 1).||1.1256|0.7810|
82661357|NCT03123094|165039823|OTHER||Slope|1.0014|STANDARD_ERROR_OF_MEAN|0.0568|||TWO_SIDED|95.0|0.8809|1.1219|||||Standard error of mean is actually standard error of slope.|Dose proportionality was explored using the power model. Dose proportionality of spesolimab was to be assessed based on the exposure parameter Cmax, determined for the 3 intravenous dose levels (perfect dose proportionality would correspond to a slope of 1).||1.1219|0.8809|
82661358|NCT02115347|165039900|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|87.31|||||TWO_SIDED|90.0|68.01|112.08|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||112.08|68.01|
82661359|NCT02115347|165039901|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|87.43|||||TWO_SIDED|90.0|68.11|112.22|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||112.22|68.11|
82661360|NCT02115347|165039902|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|95.81|||||TWO_SIDED|90.0|72.4|126.79|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||126.79|72.40|
82661361|NCT02115347|165039903|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|95.92|||||TWO_SIDED|90.0|72.46|126.97|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||126.97|72.46|
82661362|NCT02115347|165039904|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|78.7|||||TWO_SIDED|90.0|65.74|94.23|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||94.23|65.74|
82661363|NCT02115347|165039905|SUPERIORITY_OR_OTHER||Ratio (Test/Reference) of Adjusted Means|86.52|||||TWO_SIDED|90.0|70.49|106.2|||||ANOVA model with hepatic function group as a fixed effect, ratios (and 90% confidence intervals \[CIs\]) were expressed as percentages, Moderate Hepatic Impairment (Test), Normal Hepatic Function (Reference).|||106.20|70.49|
82661364|NCT00395694|165039910|SUPERIORITY_OR_OTHER||Percentage of participants|4.9|||||TWO_SIDED|95.0|1.6|11.1|||||The estimated value represents the percentage of participants with rash events.|||11.1|1.6|
82661365|NCT02849457|165039922|SUPERIORITY||Mean Difference (Final Values)|-0.6565|STANDARD_ERROR_OF_MEAN|3.9332||0.8681|TWO_SIDED|95.0|-8.5567|7.2436|||Mixed Models Analysis|Adjusted for age (\<=7 vs \>7 months) at randomization and sex. Unstructured covariance used among 12 and 24 month outcomes.|Parameter represents estimated amount difference in group means. Negative value represents higher mean in placebo group.|||7.2436|-8.5567|0.8681
82661366|NCT02849457|165039923|SUPERIORITY|||||||0.7375|||||||Chi-squared|||||||0.7375
82661367|NCT02849457|165039924|SUPERIORITY||Hazard Ratio (HR)|0.593||||0.1174|TWO_SIDED|95.0|0.309|1.14|||Regression, Cox|Adjusted for age (\<=7 vs \>7 months) at randomization and sex.||||1.140|0.309|0.1174
82661368|NCT02849457|165039925|OTHER|Two-sided test of non-equivalence||||||0.4653|||||||Chi-squared|||||||0.4653
82661369|NCT02849457|165039926|SUPERIORITY||Mean Difference (Final Values)|-4.4392|STANDARD_ERROR_OF_MEAN|3.1889||0.1697|TWO_SIDED|95.0|-10.8346|1.9562|||Mixed Models Analysis|Adjusted for age at randomization (\<=7 vs \>7 months) and sex. Unstructured covariance used among 12, 24, and 36 month outcomes.|Pertains to the estimated difference in mean score between groups at study visit corresponding to 24 months of age.|||1.9562|-10.8346|0.1697
82661370|NCT00835536|165039969|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|93.1|108.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108|93.1|
82661371|NCT00835536|165039970|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.5||||||90.0|92.1|101.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101|92.1|
82661372|NCT03123471|165039971|SUPERIORITY||Difference in Response|29.6|||<|0.0001|TWO_SIDED|95.0|19.5|39.7|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||39.7|19.5|< 0.0001
82661373|NCT03123471|165039972|SUPERIORITY||Difference in Response|23.0|||<|0.0001|TWO_SIDED|95.0|11.5|34.6|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||34.6|11.5|< 0.0001
82661374|NCT03123471|165039973|SUPERIORITY||Difference in Response|26.2|||<|0.0001|TWO_SIDED|95.0|13.9|38.5|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||38.5|13.9|< 0.0001
82661375|NCT03123471|165039974|SUPERIORITY||Difference in Response|17.0|||<|0.0001|TWO_SIDED|95.0|9.8|24.2|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 2; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||24.2|9.8|<0.0001
82661376|NCT03123471|165039974|SUPERIORITY||Difference in Response|22.1|||<|0.0001|TWO_SIDED|95.0|12.9|31.4|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 4. The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.4|12.9|<0.0001
82661377|NCT03123471|165039974|SUPERIORITY||Difference in Response|20.1||||0.0003|TWO_SIDED|95.0|9.1|31.0|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 8; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.0|9.1|0.0003
82661378|NCT03123471|165039974|SUPERIORITY||Difference in Response|20.6||||0.0007|TWO_SIDED|95.0|8.7|32.4|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 12; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and SE using a normal approximation to the weighted average were calculated.||32.4|8.7|0.0007
82661379|NCT03123471|165039975|SUPERIORITY||Difference in Response|14.6||||0.0025|TWO_SIDED|95.0|5.1|24.1|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 2; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||24.1|5.1|0.0025
82661380|NCT03123471|165039975|SUPERIORITY||Difference in Response|21.3|||<|0.0001|TWO_SIDED|95.0|10.6|31.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 4; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||31.9|10.6|<0.0001
82661381|NCT03123471|165039975|SUPERIORITY||Difference in Response|22.0||||0.0003|TWO_SIDED|95.0|10.2|33.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 8; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and the 2-sided 95% confidence interval using a normal approximation to the weighted average were calculated.||33.9|10.2|0.0003
82661382|NCT03123471|165039975|SUPERIORITY||Difference in Response|27.0|||<|0.0001|TWO_SIDED|95.0|15.1|38.9|||Cochran-Mantel-Haenszel|Analysis used CMH; adjusted by stratification factor of baseline ScPGA score moderate (3) or severe (4).||Week 12; The adjusted difference in response rates using the weighted average of the treatment differences across the strata with the CMH weights and SE using a normal approximation to the weighted average were calculated.||38.9|15.1|<0.0001
82661383|NCT03123471|165039976|SUPERIORITY||Difference in LS Mean|-2.9|||<|0.0001|TWO_SIDED|95.0|-4.17|-1.73|||ANCOVA|Treatment and stratification factor (Baseline ScPGA moderate or severe) as independent variables and baseline value as a covariate variable.||||-1.73|-4.17|<0.0001
82661384|NCT01641380|165039980|SUPERIORITY_OR_OTHER_LEGACY||Slope|-0.75|||<|0.05|TWO_SIDED|95.0|-1.4|0.06|||Regression, Linear|||We also evaluated the difference between the number of days after the scheduled appointment patients returned.||.06|-1.4|<.05
82661385|NCT01641380|165039980|SUPERIORITY_OR_OTHER_LEGACY||Difference of proportions|0.417||||0.5187|TWO_SIDED|95.0|-13.3307|24.8818|||Chi-squared||Intervention 34/50; Control : 28/50|On time for 1st follow-up visit||24.8818|-13.3307|0.5187
82661386|NCT01641380|165039983|SUPERIORITY_OR_OTHER_LEGACY||[Proportion of Eligible Patients Enrolle|0.948|||||TWO_SIDED|||||||||||||
82661387|NCT01249651|165040023|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilocoxon signed-rank test|||Wilcoxon signed-rank test was used to check whether the change in the frequency of heartburn during the 7-day period prior to the 8 week visit (Visit 3) compared to the frequency of heartburn during the 7-day period prior to baseline (Visit 1) was statistically significant or not.||||<0.001
82661388|NCT04493684|165040130|OTHER||Geometric Least Square Mean Ratio|2.462|||||TWO_SIDED|90.0|1.823|3.323|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter AUC (0-24). Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||3.323|1.823|
82661389|NCT04493684|165040130|OTHER||Geometric Least Square Mean Ratio|1.381|||||TWO_SIDED|90.0|1.223|1.56|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter AUC (0-24). Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.56|1.223|
82661390|NCT04493684|165040131|OTHER||Geometric Least Square Mean Ratio|2.103|||||TWO_SIDED|90.0|1.629|2.717|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter AUC (0-inf). Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||2.717|1.629|
82661391|NCT04493684|165040131|OTHER||Geometric Least Square Mean Ratio|1.351|||||TWO_SIDED|90.0|1.22|1.497|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter AUC (0-inf). Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.497|1.22|
82661392|NCT04493684|165040132|OTHER||Geometric Least Square Mean Ratio|2.307|||||TWO_SIDED|90.0|1.668|3.19|||Mixed Models Analysis|||The mixed model was used to estimate Food Effect for the log transformed parameter Cmax. Analysis was performed using fed/ fasted state and tablet/ PiB as fixed effects and participant as a random effect.||3.19|1.668|
82661393|NCT04493684|165040132|OTHER||Geometric Least Square Mean Ratio|1.372|||||TWO_SIDED|90.0|1.19|1.582|||Mixed Models Analysis|||The mixed model was used to estimate Tablet vs. PiB effect for the log transformed parameter Cmax. Analysis was performed using the independent variables included a fixed effect for treatment (PiB or Tablet) and period, and participant as a random effect.||1.582|1.19|
82661394|NCT04870606|165040198|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.0181|ONE_SIDED||||||Cochran-Mantel-Haenszel|||||||0.0181
82661395|NCT04870606|165040199|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.1223|ONE_SIDED||||||Chi-squared|||||||0.1223
82661396|NCT04870606|165040200|SUPERIORITY||Mean Difference (Final Values)|0.025||||0.0038|ONE_SIDED||||||t-test, 2 sided|||||||0.0038
82661397|NCT05152576|165040203|SUPERIORITY||Rate Difference|41.4|||<|0.001|TWO_SIDED|95.0|23.5|59.3||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||59.3|23.5|<0.001
82661398|NCT05152576|165040203|SUPERIORITY||Rate Difference|38.2|||<|0.001|TWO_SIDED|95.0|19.2|57.1||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||57.1|19.2|<0.001
82661399|NCT05152576|165040203|SUPERIORITY||Rate Difference|41.4|||<|0.001|TWO_SIDED|95.0|23.5|59.3||Based on CMH test stratified by baseline investigator-rated FWS-FHL at maximum.|Cochran-Mantel-Haenszel|||Confidence interval for responder rate is calculated using normal approximation.||59.3|23.5|<0.001
82661400|NCT00859430|165040204|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|105.0||||||90.0|98.6|112.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||112|98.6|
82661401|NCT00859430|165040205|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.6||||||90.0|96.2|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|96.2|
82661402|NCT00859430|165040206|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.4||||||90.0|95.9|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|95.9|
82661403|NCT01011413|165040254|NON_INFERIORITY|"Only the primary endpoint is assessed in terms of non-inferiority. All other comparisons are tests for superiority and are considered statistically significant at a two-sided alpha=0.05.~Non-inferiority of EFV 400 mg was defined as the lower 95% confidence interval (CI) of the difference between groups in the proportion of viral load below 200 copies/mL at week 48 lying above -10%."||||||0.05||||||No adjustments were made for multiple comparisons|Pearson's chi-squared|Pearson's chi-squared or Fisher's exact test derived p value was used||Sample size calculation assumes 85% of participants randomised to 600mg EFV arm will have plasma HIV RNA \<200 copies/ml at 48 weeks. Assuming no difference between randomised treatments in proportion with plasma HIV RNA \<200 copies/mL, to have 90% power to demonstrate non-inferiority in the intention to treat (ITT) analysis using a 10% non-inferiority margin will require 286 participants per arm, making a total of 572 participants. Power for modified ITT analysis was 93%.||||0.05
82661404|NCT01011413|165040254|NON_INFERIORITY|Non-inferiority will be defined as the lower 95% confidence limit of the difference in percentages of patients with undetectable viral load lying above -10% (i.e. a non-inferiority margin of 10%).||||||0.05||||||No adjustment for multiple comparisons|Chi-squared|||To ensure the per protocol (PP) analysis has 90% power to demonstrate non-inferiority, the sample size was inflated for patients who switch treatment for toxicity. This is estimated to be no more than 10% randomised patients. To ensure 90% power to demonstrate non-inferiority in the ITT and PP analyses, a total of 630 (315 per arm) patients will be randomised giving 93% power for the ITT analysis. Null hypothesis: no statistically significant difference between the 600mg and 400mg EFV regimens.||||0.05
82661405|NCT01011413|165040255|SUPERIORITY_OR_OTHER_LEGACY||difference between proportions|0.05||||0.05|TWO_SIDED|95.0||||P-value not adjusted for multiple comparisons|Chi-squared|||||||0.05
82661406|NCT00075478|165040286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.57||||0.09|TWO_SIDED|95.0|0.3|1.1|||Regression, Cox|||Reference arm is Arm 2.||1.1|0.3|.09
82661407|NCT00075478|165040287|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67||||0.59|TWO_SIDED|95.0|0.1|3.0|||Regression, Cox|||||3.0|0.1|0.59
82661408|NCT00075478|165040288|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55||||0.06|TWO_SIDED|95.0|0.3|1.0|||Regression, Cox|||||1.0|0.3|0.06
82661409|NCT00075478|165040289|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.53||||0.09|TWO_SIDED|95.0|0.3|1.1|||Regression, Cox|||||1.1|0.3|0.09
82661410|NCT00075478|165040290|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6||||0.16|TWO_SIDED|95.0|0.8|3.1|||Regression, Cox|||||3.1|0.8|0.16
82661411|NCT00075478|165040291|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.52||||0.14|TWO_SIDED|95.0|0.9|2.7|||Regression, Cox|||||2.7|0.9|0.14
82661412|NCT00075478|165040293|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.56||||0.05|TWO_SIDED|95.0|0.3|1.0|||Regression, Cox|||||1.0|0.3|0.05
82661413|NCT00673660|165040337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||Total cholesterol||||<0.001
82661414|NCT00673660|165040337|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||LDL cholesterol||||<0.001
82661415|NCT00673660|165040337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.972|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 1 sided|||HDL cholesterol||||0.972
82661416|NCT00673660|165040337|SUPERIORITY_OR_OTHER_LEGACY|||||||0.034|TWO_SIDED|||||p-Values less than 0.05 were considered statistically significant.|t-test, 2 sided|||Triglycerides||||0.034
82661417|NCT00834340|165040363|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|92.2|111.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111|92.2|
82661418|NCT00834340|165040364|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.5||||||90.0|94.0|103.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103|94.0|
82661419|NCT00834340|165040365|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|102.0||||||90.0|98.7|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|98.7|
82661420|NCT03673670|165040378|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.021||||0.168|TWO_SIDED|95.0|0.991|1.052|||ANCOVA|||||1.052|0.991|0.168
82661421|NCT03673670|165040378|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|0.995||||0.731|TWO_SIDED|95.0|0.966|1.025|||ANCOVA|||||1.025|0.966|0.731
82661422|NCT03673670|165040379|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.024||||0.115|TWO_SIDED|95.0|0.994|1.055|||ANCOVA|||||1.055|0.994|0.115
82661423|NCT03673670|165040379|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.024||||0.111|TWO_SIDED|95.0|0.994|1.055|||ANCOVA|||||1.055|0.994|0.111
82661424|NCT03673670|165040380|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.014||||0.303|TWO_SIDED|95.0|0.987|1.043|||ANCOVA|||||1.043|0.987|0.303
82661425|NCT03673670|165040381|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.027||||0.067|TWO_SIDED|95.0|0.998|1.057|||ANCOVA|||||1.057|0.998|0.067
82661426|NCT03673670|165040381|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.012||||0.395|TWO_SIDED|95.0|0.984|1.042|||ANCOVA|||||1.042|0.984|0.395
82661427|NCT03673670|165040382|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.012||||0.404|TWO_SIDED|95.0|0.984|1.039|||ANCOVA|||||1.039|0.984|0.404
82661428|NCT03673670|165040383|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.082||||0.001|TWO_SIDED|95.0|1.043|1.123|||ANCOVA|||||1.123|1.043|0.001
82661429|NCT03673670|165040383|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.061||||0.002|TWO_SIDED|95.0|1.023|1.101|||ANCOVA|||||1.101|1.023|0.002
82661430|NCT03673670|165040384|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.02||||0.096|TWO_SIDED|95.0|0.997|1.043|||ANCOVA|||||1.043|0.997|0.096
82661431|NCT03673670|165040384|OTHER|A hierarchical fixed-sequence testing strategy was employed to test the significance of the treatment effect for each of the two RPL554 doses against placebo, starting with the highest dose (6 mg). If a statistically significant difference was found at the 2-sided α level of 5%, the testing proceeded with the next highest dose. Otherwise, testing was stopped, and the remaining null hypotheses were accepted without testing.|GeoMean Ratio|1.002||||0.862|TWO_SIDED|95.0|0.979|1.025|||ANCOVA|||||1.025|0.979|0.862
82661432|NCT03673670|165040385|OTHER||Median Difference (Final Values)|0.0||||0.945|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.945
82661433|NCT03673670|165040385|OTHER||Median Difference (Final Values)|0.0||||0.501|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.501
82661434|NCT03437265|165040393|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
82661435|NCT03437265|165040394|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
82661436|NCT03437265|165040395|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
82661437|NCT03437265|165040396|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
82661438|NCT03437265|165040397|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented.|||
82661439|NCT03437265|165040398|OTHER||||||||||||||||||PK parameters were estimated for each subject by non-compartmental analysis methods using Phoenix® WinNonlin® software (v8.0, Certara USA, Inc., USA). Summary statistics (n, mean, SD, CV%, median, minimum, maximum, geometric n, geometric mean (geometric SD) and geometric CV%) were presented. The Geometric CV for glycolic acid was Not Calculated (appears as 0%).|||
82661440|NCT03437265|165040399|OTHER||||||||||||||||||Summary of the number of bowel movements per time period for the PD analysis set|||
82661441|NCT03437265|165040400|OTHER||||||||||||||||||The time (in minutes) to achieve clear effluent/time to turbid contents is presented for the PD analysis set.|||
82661442|NCT02294786|165040401|SUPERIORITY||Difference in Percentages|-4.8||||0.775|TWO_SIDED|95.0|-29.2|20.0|||Chi-squared|||Cycle 1-3 (up to 9 weeks)||20.0|-29.2|0.775
82661443|NCT01068821|165040427|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|95.0|||||t-test, 2 sided|||Sample size calculations (yielding 25 patients per group): two-sided 5% significance level and a power of 80% for detection of a 2 cm (SD 2.5 cm) difference. Continuous variables analyzed by Student's T-test and One way Analysis of Variance (ANOVA) with statistical significance: p value ≤ 0.05 or 95% Confidence Interval excluding one. Confirmation by Wilcoxon Rank-Sum/Mann-Whitney and Kruskal-Wallis tests. Categorical variables by Chi Square Test, confirmed by Fisher's Exact test.||||0.1
82661444|NCT01068821|165040428|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||Fisher Exact|||Fischer's exact test, significance defined as p\<0.05||||0.5
82661445|NCT04859517|165040429|SUPERIORITY||Risk Difference (RD)|-5.0||||0.0123|TWO_SIDED|95.0|-8.87|-1.08|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-1.08|-8.87|0.0123
82661446|NCT04859517|165040430|SUPERIORITY||Risk Difference (RD)|-3.9|||<|0.0001|TWO_SIDED|95.0|-5.75|-2.01|||Regression, Logistic|||||-2.01|-5.75|<0.0001
82661447|NCT04859517|165040433|SUPERIORITY||Standardized Risk Difference|-7.6||||0.0153|TWO_SIDED|95.0|-13.74|-1.46|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|-1.46|-13.74|0.0153
82661448|NCT04859517|165040434|SUPERIORITY||Risk Difference (RD)|-4.4||||0.0612|TWO_SIDED|95.0|-9.03|0.21|||Regression, Logistic||||A statistical method described in Ge et al. (2011) was used to compute a population-level estimate for the treatment difference (in terms of difference in proportion) with adjustment for the pre-defined prognostic factors. The variance of the estimated treatment difference or relative risk reduction was estimated using the delta method.|0.21|-9.03|0.0612
82661449|NCT04859517|165040453|SUPERIORITY||Hazard Ratio (HR)|0.22||||0.0077|TWO_SIDED|95.0|0.06|0.76|||Log Rank|||||0.76|0.06|0.0077
82661450|NCT04859517|165040454|SUPERIORITY||Hazard Ratio (HR)|0.27|||<|0.0001|TWO_SIDED|95.0|0.14|0.49|||Log Rank|||||0.49|0.14|<0.0001
82661451|NCT00840073|165040479|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.0||||||90.0|85.13|108.27|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.27|85.13|
82661452|NCT00840073|165040480|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.81||||||90.0|96.72|111.41|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||111.41|96.72|
82661453|NCT00840073|165040481|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|102.37||||||90.0|97.34|107.65|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.65|97.34|
82661454|NCT00840073|165040482|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|103.76||||||90.0|100.08|107.57|||||Informational Purposes Only|||107.57|100.08|
82661455|NCT00840073|165040483|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Least Squares Means|103.34||||||90.0|100.84|105.92|||||Informational Purposes Only|||105.92|100.84|
82661456|NCT00840476|165040495|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.26||||||90.0|93.12|107.95|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107.95|93.12|
82661457|NCT00840476|165040496|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|105.14||||||90.0|100.27|110.25|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.25|100.27|
82661458|NCT00840476|165040497|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|104.33||||||90.0|99.16|109.76|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||109.76|99.16|
82661459|NCT04813354|165040530|SUPERIORITY||Odds Ratio (OR)|0.11|||<|0.001|TWO_SIDED|95.0|0.01|0.4|||Exact conditional logistic regression||Odds ratio between ELLIPTA DPI and BREEZHALER DPI was calculated using an exact conditional logistic regression model with participant as fixed strata, inhaler and period as fixed effects.|||0.40|0.01|<0.001
82661460|NCT04813354|165040532|OTHER||Odds Ratio (OR)|0.25||||0.005|TWO_SIDED|95.0|0.03|0.74|||Exact conditional logistic regression||Odds ratio between ELLIPTA DPI and BREEZHALER DPI was calculated using an exact conditional logistic regression model with participant as fixed strata, inhaler and period as fixed effects.|||0.74|0.03|0.005
82661461|NCT04813354|165040541|OTHER||Mean Difference (Final Values)|27.63|||<|0.001|TWO_SIDED|95.0|21.31|33.96|||Paired samples t-test|||||33.96|21.31|<0.001
82661462|NCT02964039|165040561|SUPERIORITY|||||||0.047||||||A priori threshold: 0.05|ANOVA|0.047 is the main effect of group from a 2-way ANOVA that also included time (p=0.77) as a within-subjects factor.||||||0.047
82661463|NCT02964039|165040562|SUPERIORITY|||||||0.16||||||A priori threshold: 0.05|ANOVA|0.16 is the main effect of group from a 2-way ANOVA that also included time (p=0.023) as a within-subjects factor.||||||0.16
82661464|NCT02964039|165040563|SUPERIORITY|||||||0.64||||||A priori threshold: 0.05|ANOVA|0.64 is the main effect of group from a 2-way ANOVA that also included time (p=0.024) as a within-subjects factor.||||||0.64
82661465|NCT02964039|165040564|SUPERIORITY|||||||0.92||||||A priori threshold: 0.92|ANOVA|0.92 is the main effect of group from a 2-way ANOVA that also included time (p=0.076) as a within-subjects factor.||||||0.92
82661466|NCT02964039|165040565|SUPERIORITY||||||>=|0.22||||||A priori threshold: 0.05|Mixed Models Analysis|We compared incident rates assuming a negative binomial distribution with leas squares means estimates predicted via generalized linear model.||||||>=0.22
82661467|NCT02964039|165040566|SUPERIORITY|||||||0.99||||||A priori threshold: 0.05|Chi-squared|||||||0.99
82661468|NCT05630885|165040574|SUPERIORITY||Slope|0.984||||0.65|TWO_SIDED|95.0|0.916|1.056||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use. Analysis used multiple imputation for missing data.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel, adjusting for statin-use. The study was powered to detect a between-group difference of 0.046 in log10 MDS TBR (10% relative fold-change), assuming a null difference of 0 in log10 MDS TBR (a ratio of 1 in absolute-scale), a standard deviation of 0.065 of change in log10 TBR, and 75 evaluable participants.||1.056|0.916|0.65
82661469|NCT05630885|165040574|OTHER|Statistical test for interaction.||||||0.4||||||P-value for modification of the CVC treatment effect by subgroups defined by statin-use is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by statin-use at study entry (use versus no-use).||||0.40
82661470|NCT05630885|165040574|OTHER|Statistical test for interaction.||||||0.63||||||P-value for modification of the CVC treatment effect by subgroups defined by sex is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for sex (F vs M) and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by sex (female versus male).||||0.63
82661471|NCT05630885|165040574|OTHER|Statistical test for interaction.||||||0.71||||||P-value for modification of the CVC treatment effect by subgroups defined by race is presented. A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for race and its interaction with treatment. Analysis used multiple imputation for missing data.||Evaluates whether CVC, compared to placebo, changes arterial inflammation in the MDS of the index vessel differently by race (Black/African-American versus Non-Black/African-American).||||0.71
82661472|NCT05630885|165040575|SUPERIORITY||Slope|0.996||||0.91|TWO_SIDED|95.0|0.93|1.067||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the aorta adjusting for statin-use.||1.067|0.930|0.91
82661473|NCT05630885|165040575|SUPERIORITY||Slope|0.98||||0.64|TWO_SIDED|95.0|0.901|1.066||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the TBR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the right and left carotid arteries adjusting for statin-use.||1.066|0.901|0.64
82661474|NCT05630885|165040576|SUPERIORITY||Slope|1.01||||0.79|TWO_SIDED|95.0|0.939|1.087||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the SUV from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the aorta adjusting for statin-use.||1.087|0.939|0.79
82661475|NCT05630885|165040576|SUPERIORITY||Slope|1.017||||0.69|TWO_SIDED|95.0|0.935|1.106||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale and rounded to 3 decimal places. It reflects the relative geometric mean fold-change in the SUV from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes arterial inflammation in the right and left carotid arteries adjusting for statin-use.||1.106|0.935|0.69
82661476|NCT05630885|165040577|SUPERIORITY||Slope|2.5||||0.49|TWO_SIDED|95.0|-4.6|9.6||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in fasting glucose from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of fasting glucose adjusting for statin-use.||9.6|-4.6|0.49
82661477|NCT05630885|165040578|SUPERIORITY||Slope|1.07||||0.62|TWO_SIDED|95.0|0.81|1.43||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in fasting insulin from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of fasting insulin adjusting for statin-use.||1.43|0.81|0.62
82661478|NCT05630885|165040578|SUPERIORITY||Slope|1.09||||0.61|TWO_SIDED|95.0|0.78|1.54||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in HOMA-IR from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of HOMA-IR adjusting for statin-use.||1.54|0.78|0.61
82661479|NCT05630885|165040579|SUPERIORITY||Slope|0.97||||0.91|TWO_SIDED|95.0|0.62|1.52||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in hsCRP from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of hsCRP adjusting for statin-use.||1.52|0.62|0.91
82661480|NCT05630885|165040579|SUPERIORITY||Slope|1.01||||0.94|TWO_SIDED|95.0|0.77|1.33||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in IL-6 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of IL-6 adjusted for statin-use.||1.33|0.77|0.94
82661481|NCT05630885|165040579|SUPERIORITY||Slope|4.74|||<|0.001|TWO_SIDED|95.0|3.89|5.77||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in MCP-1 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of MCP-1 adjusting for statin-use.||5.77|3.89|<0.001
82661482|NCT05630885|165040580|SUPERIORITY||Slope|-49.0||||0.38|TWO_SIDED|95.0|-158.0|60.0||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in sCD14 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of sCD14 adjusting for statin-use.||60|-158|0.38
82661483|NCT05630885|165040580|SUPERIORITY||Slope|-6.3||||0.88|TWO_SIDED|95.0|-87.0|75.0||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Model adjusted for statin-use.|Estimate reflects the relative mean change in sCD163 from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of sCD163 adjusting for statin-use.||75|-87|0.88
82661484|NCT05630885|165040581|SUPERIORITY||Slope|1.65|||<|0.001|TWO_SIDED|95.0|1.28|2.12||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in MIP-1 beta from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes the levels of MIP-1 beta adjusting for statin-use.||2.12|1.28|<0.001
82661485|NCT05630885|165040581|SUPERIORITY||Slope|1.02||||0.85|TWO_SIDED|95.0|0.82|1.28||A-priori threshold for statistical significance is at p \< 0.05. No adjustments for multiple comparisons were done.|Regression, Linear|Outcome was log10-transformed. Model adjusted for statin-use.|Estimate obtained from regression on log10-transformed scale was back-transformed to the original scale. It reflects the relative geometric mean fold-change in RANTES from baseline for CVC compared to placebo.|Evaluates whether CVC, compared to placebo, changes levels of RANTES adjusting for statin-use.||1.28|0.82|0.85
82661486|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.13|||||TWO_SIDED|95.0|-50.4|-5.86|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Fasting Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Fasting Value.||-5.86|-50.40|
82661487|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.16|||||TWO_SIDED|95.0|-51.68|-6.64|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (0-4 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (0-4 h) Value.||-6.64|-51.68|
82661488|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-36.58|||||TWO_SIDED|95.0|-62.25|-10.9|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (4-10 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (4-10 h) Value.||-10.90|-62.25|
82661489|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-45.41|||||TWO_SIDED|95.0|-72.8|-18.03|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (10-14 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (10-14 h) Value.||-18.03|-72.80|
82661490|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.35|||||TWO_SIDED|95.0|-50.84|-7.86|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Maximum (0-24 h) Value.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for Maximum (0-24 h) Value.||-7.86|-50.84|
82661491|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.14|||||TWO_SIDED|95.0|-45.8|-6.49|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-4 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (0-4 h) Weighted Mean||-6.49|-45.80|
82661492|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.0|||||TWO_SIDED|95.0|-55.41|-8.58|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (4-10 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (4-10 h) Weighted Mean.||-8.58|-55.41|
82661493|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-40.96|||||TWO_SIDED|95.0|-66.64|-15.29|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (10-14 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (10-14 h) Weighted Mean.||-15.29|-66.64|
82661494|NCT01929863|165040619|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-34.76|||||TWO_SIDED|95.0|-54.67|-14.85|||||The point estimate was calculated as least square mean difference (net values) of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-24 h) Weighted Mean.|Treatment A-GSK2330672 + Metformin versus Treatment B-Placebo + Metformin for AUC (0-24 h) Weighted Mean.||-14.85|-54.67|
82661495|NCT01929863|165040620|SUPERIORITY_OR_OTHER||Ratio|1.013|||||TWO_SIDED|90.0|0.912|1.125|||||The point estimate was calculated as geometric least square mean ratio of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for AUC (0-10 h).|||1.125|0.912|
82661496|NCT01929863|165040621|SUPERIORITY_OR_OTHER||Ratio|1.036|||||TWO_SIDED|90.0|0.937|1.145|||||The point estimate was calculated as geometric least square mean ratio of Treatment A-GSK2330672 + Metformin and Treatment B-Placebo + Metformin for Cmax.|||1.145|0.937|
82661497|NCT00950989|165040655|SUPERIORITY||Difference in response rate|3.2||||0.598|TWO_SIDED|95.0|-9.0|15.4||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||15.4|-9.0|0.598
82661498|NCT00950989|165040655|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
82661499|NCT00950989|165040655|SUPERIORITY||Difference in response rate|3.2||||0.635|TWO_SIDED|95.0|-9.0|15.4||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||15.4|-9.0|0.635
82661500|NCT00950989|165040655|SUPERIORITY|||||||0.74||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.740
82661501|NCT00950989|165040655|SUPERIORITY||Difference in response rate|-3.2||||0.572|TWO_SIDED|95.0|-14.1|7.8||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||7.8|-14.1|0.572
82661502|NCT00950989|165040655|SUPERIORITY|||||||0.572||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.572
82661503|NCT00950989|165040656|SUPERIORITY||Difference in response rates|-3.2||||0.728|TWO_SIDED|95.0|-20.4|14.0||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||14.0|-20.4|0.728
82661504|NCT00950989|165040656|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
82661505|NCT00950989|165040656|SUPERIORITY||Difference in response rates|-6.3||||0.412|TWO_SIDED|95.0|-23.4|10.7||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||10.7|-23.4|0.412
82661506|NCT00950989|165040656|SUPERIORITY|||||||0.74||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedures|||||||0.740
82661507|NCT00950989|165040656|SUPERIORITY||Difference in response rates|3.2||||0.74|TWO_SIDED|95.0|-14.2|20.5||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||20.5|-14.2|0.740
82661508|NCT00950989|165040656|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
82661509|NCT00950989|165040657|SUPERIORITY||Difference in response rates|0.0||||0.984|TWO_SIDED|95.0|-6.1|6.1||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||6.1|-6.1|0.984
82661510|NCT00950989|165040657|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
82661511|NCT00950989|165040657|SUPERIORITY||Difference in response rates|0.0||||0.993|TWO_SIDED|95.0|-6.1|6.1||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||6.1|-6.1|0.993
82661512|NCT00950989|165040657|SUPERIORITY|||||||0.993||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.993
82661513|NCT00950989|165040657|SUPERIORITY||Difference in response rates|-3.2||||0.159|TWO_SIDED|95.0|-7.5|1.2||P-value is nominal p-value without multiplicity adjustment based on Cochran-Mantel-Haenszel test adjusting for sex.|Cochran-Mantel-Haenszel|||||1.2|-7.5|0.159
82661514|NCT00950989|165040657|SUPERIORITY|||||||0.797||||||Adjusted p-value is based on a combination of sequential testing and the Hommel procedure to control the overall significance level for all the comparisons.|Sequential testing + Hommel procedure|||||||0.797
82661515|NCT00950989|165040658|SUPERIORITY||LS Mean of difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.459|TWO_SIDED|95.0|-0.7|0.3||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.3|-0.7|0.459
82661516|NCT00950989|165040658|SUPERIORITY||LS mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.906|TWO_SIDED|95.0|-0.5|0.5||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.5|-0.5|0.906
82661517|NCT00950989|165040658|SUPERIORITY||LS mean of difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.849|TWO_SIDED|95.0|-0.5|0.5||P-value is nominal without multiplicity adjustment based on ANCOVA model adjusting for sex and baseline DAS28 score.|ANCOVA|||||0.5|-0.5|0.849
82661518|NCT00730691|165040663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.843||0.255|TWO_SIDED|95.0|-2.62|0.69||This treatment arm is not in the pre-specified testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||P-values were tested at the 5% level of significance (ie, statistical significance if P\<0.05) comparing each of the 3 doses of vortioxetine to placebo.||0.69|-2.62|0.255
82661519|NCT00730691|165040663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.843||0.719|TWO_SIDED|95.0|-1.96|1.35||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||1.35|-1.96|0.719
82661520|NCT00730691|165040663|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.848||0.642|TWO_SIDED|95.0|-2.06|1.27||Pre-specified sequential statistical testing procedure indicates that when p-value \>0.025, hierarchical testing stops and for subsequent endpoints in the sequence a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||To control for multiplicity, a pre-specified sequential testing procedure was applied to compare 10 mg and 5 mg vortioxetine to placebo; as soon as an endpoint was non-significant at 0.025, the testing procedure stopped for all subsequent endpoints.||1.27|-2.06|0.642
82661521|NCT00730691|165040663|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.6|STANDARD_ERROR_OF_MEAN|0.869||0.003|TWO_SIDED|95.0|-4.3|-0.89|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.89|-4.30|0.003
82661522|NCT00730691|165040664|SUPERIORITY_OR_OTHER||LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.511||0.83|TWO_SIDED|95.0|-0.89|1.11|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.11|-0.89|0.830
82661523|NCT00730691|165040664|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.51||0.643|TWO_SIDED|95.0|-1.24|0.77||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.77|-1.24|0.643
82661524|NCT00730691|165040664|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.09|STANDARD_ERROR_OF_MEAN|0.517||0.036|TWO_SIDED|95.0|-2.1|-0.07||Hierarchical testing stopped at the primary endpoint in the testing sequence, a nominal p-value is provided.|Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.07|-2.10|0.036
82661525|NCT00730691|165040664|SUPERIORITY_OR_OTHER||LS mean Difference|-1.54|STANDARD_ERROR_OF_MEAN|0.527||0.004|TWO_SIDED|95.0|-2.58|-0.5|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.50|-2.58|0.004
82661526|NCT00730691|165040665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.129||0.407|TWO_SIDED|95.0|-0.36|0.15|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.15|-0.36|0.407
82661527|NCT00730691|165040665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.129||0.533|TWO_SIDED|95.0|-0.33|0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.17|-0.33|0.533
82661528|NCT00730691|165040665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13||0.491|TWO_SIDED|95.0|-0.34|0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.17|-0.34|0.491
82661529|NCT00730691|165040665|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.133||0.001|TWO_SIDED|95.0|-0.7|-0.17|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-0.17|-0.70|0.001
82661530|NCT00730691|165040666|SUPERIORITY_OR_OTHER||LS Mean Difference|0.35|STANDARD_ERROR_OF_MEAN|0.765||0.652|TWO_SIDED|95.0|-1.16|1.85|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.85|-1.16|0.652
82661531|NCT00730691|165040666|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.754||0.511|TWO_SIDED|95.0|-1.98|0.98|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.98|-1.98|0.511
82661532|NCT00730691|165040666|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.94|STANDARD_ERROR_OF_MEAN|0.736||0.204|TWO_SIDED|95.0|-2.38|0.51|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.51|-2.38|0.204
82661533|NCT00730691|165040666|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.57|STANDARD_ERROR_OF_MEAN|0.781||0.001|TWO_SIDED|95.0|-4.1|-1.03|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-1.03|-4.10|0.001
82661534|NCT00730691|165040667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.114||||0.641|TWO_SIDED|95.0|0.709|1.75|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.750|0.709|0.641
82661535|NCT00730691|165040667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.016||||0.945|TWO_SIDED|95.0|0.643|1.605|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.605|0.643|0.945
82661536|NCT00730691|165040667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.114||||0.641|TWO_SIDED|95.0|0.709|1.749|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||1.749|0.709|0.641
82661537|NCT00730691|165040667|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.427||||0.124|TWO_SIDED|95.0|0.907|2.246|||Regression, Logistic|Logistic regression with explanatory variables for treatment and Baseline HAM-A score.||||2.246|0.907|0.124
82661538|NCT00730691|165040668|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|1.346||0.064|TWO_SIDED|95.0|-5.15|0.14|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.14|-5.15|0.064
82661539|NCT00730691|165040668|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.26|STANDARD_ERROR_OF_MEAN|1.353||0.096|TWO_SIDED|95.0|-4.92|0.4|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||0.40|-4.92|0.096
82661540|NCT00730691|165040668|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.61|STANDARD_ERROR_OF_MEAN|1.397||0.25|TWO_SIDED|95.0|-4.36|1.14|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||1.14|-4.36|0.250
82661541|NCT00730691|165040668|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.54|STANDARD_ERROR_OF_MEAN|1.425||0.002|TWO_SIDED|95.0|-7.34|-1.73|||Mixed model for repeated measurements|P-values are from an MMRM model with week, Baseline score-by-week and treatment-by-week interaction as factors.||||-1.73|-7.34|0.002
82661542|NCT05776901|165040680|OTHER|Descriptive statistics and measures of central tendency, including mean, median, and standard deviation of the System Usability Scores collected from the baseline and week 3 were computed. Then, a two-sided, paired sample t-test was conducted to evaluate the change in mean System Usability Scores from baseline at week 3.|Mean diff in SUS from baseline at week 3|34.17|STANDARD_ERROR_OF_MEAN|14.49|<|0.05|TWO_SIDED|95.0|-28.04|96.37|||t-test, 2 sided|||||96.37|-28.04|<0.05
82661543|NCT00835705|165040691|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.03||||||90.0|98.4|107.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.88|98.40|
82661544|NCT00835705|165040692|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.43||||||90.0|96.71|100.18|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.18|96.71|
82661545|NCT00835705|165040693|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.29||||||90.0|96.58|100.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.03|96.58|
82661546|NCT00835705|165040694|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.16||||||90.0|95.33|111.64|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||111.64|95.33|
82661547|NCT00835705|165040695|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|103.79||||||90.0|95.75|112.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||112.50|95.75|
82661548|NCT00835705|165040696|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|104.26||||||90.0|95.76|113.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||113.52|95.76|
82661549|NCT00128219|165040802|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|36.0||||0.044|TWO_SIDED|95.0|1.0|58.0||The a priori threshold for statistical significance was set at 0.05.|Regression, Cox|The study was multi-center, and the Cox model was stratified by geographic region of the participating clinical sites.|Vaccine efficacy (VE) was defined as one minus the relative risk (RR), which was estimated by exponentiating the treatment parameter (ß) from the Cox model fit.|Time to first acquisition of vaginal type III GBS was analyzed by fitting a Cox Proportional Hazards model stratified by region to the data. The null hypothesis of no vaccine efficacy was tested by the stratified log-rank test (score test). The point and interval estimates for vaccine efficacy were obtained by transforming those for treatment effect in the model.||58|1|0.044
82661550|NCT00128219|165040827|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.46||||0.12|TWO_SIDED|95.0|0.917|2.34||The a priori threshold for statistical significance for the analysis of secondary endpoints was set at .05 without adjustment for multiplicity.|Fisher Exact|Fisher's exact test was used to test no difference in proportions always vaginal GBS-III negative by arm to a two-sided alternative of a difference.|The OR was calculated from the 2x2 contingency table, and the 95% CI was obtained by inverting the 2-sided 5% level Fisher's exact, with GBS III-TT arm in the numerator and Td arm in the denominator so \<1 favors the GBS III-TT arm.|A two-sided 5% level Fisher's exact test was used to test the null hypothesis of no difference in proportion of participants who were vaginal type III GBS negative throughout the study between treatment arms. The two-sided 5% Fisher's exact test was inverted to obtain a 95% confidence interval for the odds ratio.||2.34|0.917|0.120
82661551|NCT00128219|165040828|SUPERIORITY_OR_OTHER||Vaccine Efficacy, VE=1-RR=1-exp(ß)|36.0||||0.089||95.0|-7.0|61.0||Significance was set at .05 without adjustment for multiplicity. Exchangeable correlation structure and GEE were used for repeated measures.|Binomial regression, log-linear link|The Wald test of treatment effect was used to test no difference in proportion of GBS III pos. by arm against a 2-sided alternative of a difference.|Estimate of vaccine efficacy and 95% CI were obtained by transforming the estimate of log relative risk for treatment effect and the robust Wald CI in the log-linear binomial regression model fit to the proportion of vaginal type III GBS swabs.|The proportion of vaginal swabs that were GBS III culture positive was estimated from a GEE model fit with binomial family, log-link, and exchangeable correlation. Point and robust interval estimates for vaccine efficacy, were obtained by transforming those for treatment effect in this model, and used to test the hypothesis of no efficacy.||61|-7|0.089
82661552|NCT00128219|165040829|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.53||||0.256|TWO_SIDED|95.0|0.18|1.45||The a priori threshold for statistical significance for the analysis of secondary endpoints was set at .05 without adjustment for multiplicity.|Fisher Exact|Fisher's exact test was used to test no difference in proportion persistently colonized by arm against a two-sided alternative of a difference.|The OR was calculated from the 2x2 contingency table, and the 95% CI was obtained by inverting the two-sided 5% level Fisher's exact test. The GBS III-TT arm is in the numerator and Td arm in the denominator, so a value \<1 favors the GBS III-TT arm.|A two-sided 5% level Fisher's exact test was used to test the null hypothesis of no difference in proportion of participants who were vaginal type III GBS negative throughout the study between treatment arms. The two-sided 5% Fisher's exact test was inverted to obtain a 95% confidence interval for the odds ratio.||1.45|0.18|0.256
82661553|NCT03049748|165040852|OTHER|This is a pilot randomized trial with a purpose of establishing preliminary efficacy data to inform future studies.|||||<|0.05|||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82661554|NCT03049748|165040853|OTHER|Same rationale as the primary outcome.|||||>|0.05||||||All p-values across time periods, between groups, were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
82661555|NCT03049748|165040854|OTHER||||||>|0.05||||||All p values between groups across time periods were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
82661556|NCT03049748|165040855|OTHER||||||>|0.05||||||All p-values between groups across time periods were \>.05|Wilcoxon (Mann-Whitney)|||||||>.05
82661557|NCT03049748|165040856|OTHER||||||>|0.05||||||All p-values between group differences across time periods were \> .05|Wilcoxon (Mann-Whitney)|||||||>.05
82661558|NCT03049748|165040857|OTHER|||||||0.05||||||Differences in group hospitalization rates p-values: T1 = .093; T2 = .008; T3 = .029|Wilcoxon (Mann-Whitney)|||||||0.05
82661559|NCT00835484|165040858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.15||||||90.0|91.77|102.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102.83|91.77|
82661560|NCT00835484|165040859|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.8||||||90.0|95.1|106.84|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.84|95.1|
82661561|NCT00835484|165040860|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.39||||||90.0|95.89|107.2|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.2|95.89|
82661562|NCT01492439|165040863|SUPERIORITY_OR_OTHER|||||||0.029||||||This applies to Semester 1.|t-test, 1 sided|||||||0.029
82661563|NCT01492439|165040863|SUPERIORITY_OR_OTHER|||||||0.225||||||This applies to semester 2.|t-test, 1 sided|||||||0.225
82661564|NCT01492439|165040864|SUPERIORITY_OR_OTHER|||||||0.247||||||This applies to the 'positive' subscale of the PANSS.|ANCOVA|||||||0.247
82661565|NCT01492439|165040864|SUPERIORITY_OR_OTHER|||||||0.747||||||This applies to the 'negative' subscale of the PANSS.|ANCOVA|||||||0.747
82661566|NCT01492439|165040864|SUPERIORITY_OR_OTHER|||||||0.582||||||This applies to the 'general psychopathology' subscale of the PANSS.|ANCOVA|||||||0.582
82661567|NCT01492439|165040865|SUPERIORITY_OR_OTHER|||||||0|||||||ANCOVA|||||||0.000
82661568|NCT01492439|165040866|SUPERIORITY_OR_OTHER|||||||0.95||||||This applies to the 'positive' subscale of the PANSS.|ANCOVA|||||||0.950
82661569|NCT01492439|165040866|SUPERIORITY_OR_OTHER|||||||0.027||||||This applies to the 'negative' subscale of the PANSS.|ANCOVA|||||||0.027
82661570|NCT01492439|165040866|SUPERIORITY_OR_OTHER|||||||0.639||||||This applies to the 'general psychopathology' subscale of the PANSS.|ANCOVA|||||||0.639
82661571|NCT01492439|165040867|SUPERIORITY_OR_OTHER|||||||0.008|||||||ANCOVA|||||||0.008
82661572|NCT01492439|165040868|SUPERIORITY_OR_OTHER|||||||0.314||||||This applies to Trial 1 on the CVLT.|ANCOVA|||||||0.314
82661573|NCT01492439|165040868|SUPERIORITY_OR_OTHER|||||||0.242||||||This applies to the total score of trials 1-4 (total free recall) of the CVLT.|ANCOVA|||||||0.242
82661574|NCT01492439|165040868|SUPERIORITY_OR_OTHER|||||||0.669||||||This applies to the 'long delay free recall' subtest of the CVLT.|ANCOVA|||||||0.669
82661575|NCT01492439|165040869|SUPERIORITY_OR_OTHER|||||||0.139||||||This applies to the 'trial 1' subtest of the CVLT.|ANCOVA|||||||0.139
82661576|NCT01492439|165040869|SUPERIORITY_OR_OTHER|||||||0.269||||||This applies to the total of trials 1-4 (total free recall) of the CVLT.|ANCOVA|||||||0.269
82661577|NCT01492439|165040869|SUPERIORITY_OR_OTHER|||||||0.666||||||This applies to the 'long delay free recall' subtest of the CVLT.|ANCOVA|||||||0.666
82661578|NCT01492439|165040870|SUPERIORITY_OR_OTHER|||||||0.391|||||||ANCOVA|||||||0.391
82661579|NCT01492439|165040871|SUPERIORITY_OR_OTHER|||||||0.958|||||||ANCOVA|||||||0.958
82661580|NCT01492439|165040872|SUPERIORITY_OR_OTHER|||||||0.754||||||This applies to the 'forward' sequence of the Digit Span Test.|ANCOVA|||||||0.754
82661581|NCT01492439|165040872|SUPERIORITY_OR_OTHER|||||||0.518||||||This applies to the 'backward' sequence of the Digit Span Test.|ANCOVA|||||||0.518
82661582|NCT01492439|165040872|SUPERIORITY_OR_OTHER|||||||0.531||||||This applies to the total score (forward+backwards) on the Digit Span Test.|ANCOVA|||||||0.531
82661583|NCT01492439|165040873|SUPERIORITY_OR_OTHER|||||||0.802||||||This applies to the 'forward' sequence of the Digit Span Test.|ANCOVA|||||||0.802
82661584|NCT01492439|165040873|SUPERIORITY_OR_OTHER|||||||0.091||||||This applies to the 'backwards' sequence of the Digit Span Test.|ANCOVA|||||||0.091
82661585|NCT01492439|165040873|SUPERIORITY_OR_OTHER|||||||0.171||||||This applies to the total score (forward + backwards) on the Digit Span Test.|ANCOVA|||||||0.171
82661586|NCT01492439|165040874|SUPERIORITY_OR_OTHER|||||||0.267|||||||ANCOVA|||||||0.267
82661587|NCT01492439|165040875|SUPERIORITY_OR_OTHER|||||||0.527|||||||ANCOVA|||||||0.527
82661588|NCT01492439|165040876|SUPERIORITY_OR_OTHER|||||||0.852||||||This applies to the percentage of perseverative errors on the WCST.|ANCOVA|||||||0.852
82661589|NCT01492439|165040876|SUPERIORITY_OR_OTHER|||||||0.637||||||This applies to the percentage of conceptual level responses on the WCST.|ANCOVA|||||||0.637
82661590|NCT01492439|165040877|SUPERIORITY_OR_OTHER|||||||0.612||||||This applies to the total number of correct categories on the WCST|ANCOVA|||||||0.612
82661591|NCT01492439|165040878|SUPERIORITY_OR_OTHER|||||||0.156||||||This applies to the percentage of perseverative errors on the WCST.|ANCOVA|||||||0.156
82661592|NCT01492439|165040878|SUPERIORITY_OR_OTHER|||||||0.926||||||This applies to the percentage of conceptual level responses on the WCST.|ANCOVA|||||||0.926
82661593|NCT01492439|165040879|SUPERIORITY_OR_OTHER|||||||0.843|||||||ANCOVA|||This applies to the total number of categories on the WCST.||||0.843
82661594|NCT01492439|165040880|SUPERIORITY_OR_OTHER|||||||0.129||||||This applies to the total number of errors made on the DVT.|ANCOVA|||||||0.129
82661595|NCT01492439|165040881|SUPERIORITY_OR_OTHER|||||||0.004|||||||ANCOVA|||This applies to the total time taken to complete the DVT.||||0.004
82661596|NCT01492439|165040882|SUPERIORITY_OR_OTHER|||||||0.853|||||||ANCOVA|This applies to the total number of errors on the DVT.||||||0.853
82661597|NCT01492439|165040883|SUPERIORITY_OR_OTHER|||||||0.468|||||||ANCOVA|||This applies to the total time taken to complete the DVT.||||0.468
82661598|NCT00824291|165040892|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.12||||0.002|TWO_SIDED|95.0|0.78|3.46|||ANCOVA|||||3.46|0.78|0.002
82661599|NCT00824291|165040893|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.33||||0.067|TWO_SIDED|95.0|-0.09|2.76|||ANCOVA|||||2.76|-0.09|0.067
82661600|NCT00824291|165040894|SUPERIORITY_OR_OTHER|||||||0.001|||||||Cochran-Mantel-Haenszel|||||||0.001
82661601|NCT00824291|165040895|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||Cochran-Mantel-Haenszel|||||||0.002
82661602|NCT00824291|165040896|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.23||||0.04|TWO_SIDED|95.0|0.01|0.44|||ANCOVA|||||0.44|0.01|0.040
82661603|NCT00824291|165040897|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.26||||0.035|TWO_SIDED|95.0|0.16|4.37|||ANCOVA|||||4.37|0.16|0.035
82661604|NCT00824291|165040898|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.44||||0.041|TWO_SIDED|95.0|0.1|4.78|||ANCOVA|||||4.78|0.10|0.041
82661605|NCT00824291|165040899|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.39||||0.145|TWO_SIDED|95.0|-0.13|0.91|||ANCOVA|||||0.91|-0.13|0.145
82661606|NCT01648582|165040909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.74|-0.4||||||||-0.40|-0.74|
82661607|NCT01648582|165040909|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.18|||||TWO_SIDED|95.0|-0.35|-0.01||||||||-0.01|-0.35|
82661608|NCT01648582|165040910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.57|||||TWO_SIDED|95.0|-0.77|-0.38||||||||-0.38|-0.77|
82661609|NCT01648582|165040910|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses were based on a pre-defined non-inferiority margin of 0.4%.|Mean Difference (Net)|-0.13|||||TWO_SIDED|95.0|-0.33|-0.06||||||||-0.06|-0.33|
82661610|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Fisher Exact|||\<7.0% Week 26||||<0.001
82661611|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Fisher Exact|||\<7.0 Week 26||||0.004
82661612|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 26||||<0.001
82661613|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 26||||<0.001
82661614|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<7.0% Week 52||||<0.001
82661615|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Fisher Exact|||\<7.0% Week 52||||0.002
82661616|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 52||||<0.001
82661617|NCT01648582|165040911|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Fisher Exact|||\<=6.5% Week 52||||<0.001
82661618|NCT01648582|165040912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.24||||0.177|TWO_SIDED|95.0|-0.11|0.59|||Mixed Models Analysis|||Week 26||0.59|-0.11|0.177
82661619|NCT01648582|165040912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.88|||<|0.001|TWO_SIDED|95.0|0.53|1.23|||Mixed Models Analysis|||Week 26||1.23|0.53|<0.001
82661620|NCT01648582|165040912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.12||||0.518|TWO_SIDED|95.0|-0.25|0.5|||Mixed Models Analysis|||Week 52||0.50|-0.25|0.518
82661621|NCT01648582|165040912|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.82|||<|0.001|TWO_SIDED|95.0|0.45|1.2|||Mixed Models Analysis|||Week 52||1.20|0.45|<0.001
82499449|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.426|STANDARD_ERROR_OF_MEAN|0.338||||90.0|-1.984|-0.869|||ANCOVA|||Month 15; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.869|-1.984|
82661622|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.65|||<|0.001|TWO_SIDED|95.0|0.42|0.88|||Mixed Models Analysis|||Morning pre-meal, Week 26||0.88|0.42|<0.001
82661623|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.94|||<|0.001|TWO_SIDED|95.0|0.71|1.17|||Mixed Models Analysis|||Morning pre-meal, Week 26||1.17|0.71|<0.001
82661624|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.49||||0.024|TWO_SIDED|95.0|-0.92|-0.07|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 26||-0.07|-0.92|0.024
82661625|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.11||||0.617|TWO_SIDED|95.0|-0.53|0.32|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 26||0.32|-0.53|0.617
82661626|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.35||||0.055|TWO_SIDED|95.0|-0.7|0.01|||Mixed Models Analysis|||Mid-day pre-meal, Week 26||0.01|-0.70|0.055
82661627|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.03||||0.855|TWO_SIDED|95.0|-0.32|0.39|||Mixed Models Analysis|||Mid-day pre-meal, Week 26||0.39|-0.32|0.855
82661628|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-1.05|||<|0.001|TWO_SIDED|95.0|-1.46|-0.64|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 26||-0.64|-1.46|<0.001
82661629|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.6||||0.004|TWO_SIDED|95.0|-1.01|-0.19|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 26||-0.19|-1.01|0.004
82661630|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.97|-0.29|||Mixed Models Analysis|||Evening pre-meal, Week 26||-0.29|-0.97|<0.001
82661631|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.12||||0.489|TWO_SIDED|95.0|-0.45|0.22|||Mixed Models Analysis|||Evening pre-meal, Week 26||0.22|-0.45|0.489
82661632|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.89|||<|0.001|TWO_SIDED|95.0|-1.3|-0.48|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 26||-0.48|-1.30|<0.001
82661633|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.47||||0.024|TWO_SIDED|95.0|-0.88|-0.06|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 26||-0.06|-0.88|0.024
82661634|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.79|||<|0.001|TWO_SIDED|95.0|-1.17|-0.41|||Mixed Models Analysis|||Bedtime, Week 26||-0.41|-1.17|<0.001
82661635|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.35||||0.067|TWO_SIDED|95.0|-0.73|-0.03|||Mixed Models Analysis|||Bedtime, Week 26||-0.03|-0.73|0.067
82661636|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|0.77|||<|0.001|TWO_SIDED|95.0|0.52|1.01|||Mixed Models Analysis|||Morning pre-meal, Week 52||1.01|0.52|<0.001
82661637|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.06|||<|0.001|TWO_SIDED|95.0|0.82|1.31|||Mixed Models Analysis|||Morning pre-meal, Week 52||1.31|0.82|<0.001
82661638|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.53||||0.025|TWO_SIDED|95.0|-1.0|-0.07|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 52||-0.07|-1.00|0.025
82661639|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.21||||0.384|TWO_SIDED|95.0|-0.67|0.26|||Mixed Models Analysis|||Morning 2-hours post-meal, Week 52||0.26|-0.67|0.384
82661640|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.43||||0.024|TWO_SIDED|95.0|-0.8|-0.06|||Mixed Models Analysis|||Mid-day pre-meal, Week 52||-0.06|-0.80|0.024
82661641|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.05||||0.783|TWO_SIDED|95.0|-0.32|0.42|||Mixed Models Analysis|||Mid-day pre-meal, Week 52||0.42|-0.32|0.783
82661642|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.63||||0.004|TWO_SIDED|95.0|-1.07|-0.2|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 52||-0.20|-1.07|0.004
82661643|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.48||||0.029|TWO_SIDED|95.0|-0.92|-0.05|||Mixed Models Analysis|||Mid-day 2-hours post-meal, Week 52||-0.05|-0.92|0.029
82661644|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.64|||<|0.001|TWO_SIDED|95.0|-1.01|-0.27|||Mixed Models Analysis|||Evening pre-meal, Week 52||-0.27|-1.01|<0.001
82661645|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.1||||0.603|TWO_SIDED|95.0|-0.47|0.27|||Mixed Models Analysis|||Evening pre-meal, Week 52||0.27|-0.47|0.603
82661646|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.26|-0.41|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 52||-0.41|-1.26|<0.001
82661647|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.45||||0.039|TWO_SIDED|95.0|-0.87|-0.02|||Mixed Models Analysis|||Evening 2-hours post-meal, Week 52||-0.02|-0.87|0.039
82661648|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.99|||<|0.001|TWO_SIDED|95.0|-1.39|-0.6|||Mixed Models Analysis|||Bedtime, Week 52||-0.60|-1.39|<0.001
82661649|NCT01648582|165040913|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-0.59||||0.003|TWO_SIDED|95.0|-0.98|-0.2|||Mixed Models Analysis|||Bedtime, Week 52||-0.20|-0.98|0.003
82661650|NCT01648582|165040914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|34.41|STANDARD_ERROR_OF_MEAN|3.831||0.352|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 1.5 mg, Week 26||||0.352
82661651|NCT01648582|165040914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|31.17|STANDARD_ERROR_OF_MEAN|3.761||0.352|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 0.75 mg, Week 26||||0.352
82661652|NCT01648582|165040914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|45.12|STANDARD_ERROR_OF_MEAN|4.147||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 1.5, Week 52||||0.025
82661653|NCT01648582|165040914|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|36.64|STANDARD_ERROR_OF_MEAN|4.061||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%B, Dula 0.75 mg, Week 52||||0.025
82661654|NCT01648582|165040915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|36.57|STANDARD_ERROR_OF_MEAN|2.977||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 1.5 mg, Week 26||||0.025
82661655|NCT01648582|165040915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|30.42|STANDARD_ERROR_OF_MEAN|2.94||0.025|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 0.75 mg, Week 26||||0.025
82661656|NCT01648582|165040915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|41.02|STANDARD_ERROR_OF_MEAN|2.9||0.029|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 1.5 mg, Week 52||||0.029
82661657|NCT01648582|165040915|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|35.19|STANDARD_ERROR_OF_MEAN|2.864||0.029|TWO_SIDED||||||Mixed Models Analysis|||HOMA2-%S, Dula 0.75 mg, Week 52||||0.029
82661658|NCT01648582|165040918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Overall p-value|Mixed Models Analysis|||Week 26 SBP||||0.008
82661659|NCT01648582|165040918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.584||||||Overall p-value|Mixed Models Analysis|||Week 26 DBP||||0.584
82661660|NCT01648582|165040918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.169||||||Overall p-value|Mixed Models Analysis|||Week 52 SBP||||0.169
82661661|NCT01648582|165040918|SUPERIORITY_OR_OTHER_LEGACY|||||||0.11||||||Overall p-value|Mixed Models Analysis|||Week 52 DBP||||0.110
82661662|NCT01648582|165040919|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Overall p-value|Mixed Models Analysis|||Week 26||||<0.001
82661663|NCT01648582|165040919|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Overall p-value|Mixed Models Analysis|||Week 52||||<0.001
82661664|NCT01648582|165040926|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED|||||Week 26|Mixed Models Analysis|||||||<0.001
82661665|NCT01648582|165040926|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 52||||<0.001
82661666|NCT01648582|165040927|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 26||||<0.001
82661667|NCT01648582|165040927|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|||Week 52||||<0.001
82661668|NCT00556322|165041035|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.7299|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||||1.19|0.78|0.7299
82661669|NCT00556322|165041038|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.6198|TWO_SIDED|95.0|0.72|1.21|||Log Rank|||Comparison of EGFR positive populations||1.21|0.72|0.6198
82661670|NCT00556322|165041038|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.95||||0.8398|TWO_SIDED|95.0|0.55|1.62|||Log Rank|||Comparison of EGFR negative populations||1.62|0.55|0.8398
82661671|NCT00556322|165041041|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.0885|TWO_SIDED|95.0|0.97|1.46|||Log Rank|||||1.46|0.97|0.0885
82661672|NCT00556322|165041044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.26||||0.0662|TWO_SIDED|95.0|0.98|1.61|||Log Rank|||Comparison of EGFR positive populations||1.61|0.98|0.0662
82661673|NCT00556322|165041044|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.9403|TWO_SIDED|95.0|0.61|1.69|||Log Rank|||Comparison of EGFR negative populations||1.69|0.61|0.9403
82661674|NCT00556322|165041046|SUPERIORITY_OR_OTHER||Difference in Response Rates|1.55||||0.5349|TWO_SIDED|95.0|-3.6|6.7||p-values are based on non-stratified analysis|Chi-squared||Approximate 95% CI for the difference of two rates was determined using Hauck-Anderson Method|||6.7|-3.6|0.5349
82661675|NCT00556322|165041048|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.1498|TWO_SIDED|95.0|0.93|1.59|||Log Rank|||||1.59|0.93|0.1498
82661676|NCT00556322|165041051|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.2202|TWO_SIDED|95.0|0.9|1.57|||Log Rank|||||1.57|0.90|0.2202
82661677|NCT00556322|165041054|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.25||||0.1063|TWO_SIDED|95.0|0.95|1.66|||Log Rank|||||1.66|0.95|0.1063
82661678|NCT03261167|165041058|OTHER||Difference|18.1|||||TWO_SIDED|95.0|1.1|35.0||||||||35.0|1.1|
82661679|NCT03261167|165041059|OTHER||Adjusted rate difference|33.1|||||TWO_SIDED|95.0|17.0|49.2|||||Week 2, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||49.2|17.0|
82661680|NCT03261167|165041059|OTHER||Adjusted rate difference|21.7|||||TWO_SIDED|95.0|4.9|38.5|||||Week 4, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||38.5|4.9|
82661681|NCT03261167|165041059|OTHER||Adjusted rate difference|18.4|||||TWO_SIDED|95.0|1.3|35.5|||||Week 6, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||35.5|1.3|
82661682|NCT03261167|165041059|OTHER||Adjusted rate difference|12.9|||||TWO_SIDED|95.0|-4.2|30.1|||||Week 12, Elbow flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||30.1|-4.2|
82661683|NCT03261167|165041059|OTHER||Adjusted rate difference|-5.6|||||TWO_SIDED|95.0|-20.9|9.8|||||Week 2, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||9.8|-20.9|
82661684|NCT03261167|165041059|OTHER||Adjusted rate difference|-8.6|||||TWO_SIDED|95.0|-23.0|5.9|||||Week 4, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||5.9|-23.0|
82661685|NCT03261167|165041059|OTHER||Adjusted rate difference|-12.1|||||TWO_SIDED|95.0|-27.5|3.2|||||Week 6, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||3.2|-27.5|
82661686|NCT03261167|165041059|OTHER||Adjusted rate difference|-9.6|||||TWO_SIDED|95.0|-27.2|7.9|||||Week 12, Wrist flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||7.9|-27.2|
82661687|NCT03261167|165041059|OTHER||Adjusted rate difference|-8.6|||||TWO_SIDED|95.0|-21.9|4.7|||||Week 2, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||4.7|-21.9|
82661688|NCT03261167|165041059|OTHER||Adjusted rate difference|-10.4|||||TWO_SIDED|95.0|-24.3|3.4|||||Week 4, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||3.4|-24.3|
82661689|NCT03261167|165041059|OTHER||Adjusted rate difference|-8.9|||||TWO_SIDED|95.0|-23.8|6.0|||||Week 6, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||6.0|-23.8|
82661690|NCT03261167|165041059|OTHER||Adjusted rate difference|-0.1|||||TWO_SIDED|95.0|-17.7|17.4|||||Week 12, Finger flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||17.4|-17.7|
82661691|NCT03261167|165041059|OTHER||Adjusted rate difference|-9.9|||||TWO_SIDED|95.0|-26.4|6.5|||||Week 2, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||6.5|-26.4|
82661692|NCT03261167|165041059|OTHER||Adjusted rate difference|-6.7|||||TWO_SIDED|95.0|-23.6|10.3|||||Week 4, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||10.3|-23.6|
82661693|NCT03261167|165041059|OTHER||Adjusted rate difference|-1.5|||||TWO_SIDED|95.0|-18.8|15.7|||||Week 6, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||15.7|-18.8|
82661694|NCT03261167|165041059|OTHER||Adjusted rate difference|-0.5|||||TWO_SIDED|95.0|-18.8|17.9|||||Week 12, Thumb flexion. Analysis was based on the Mantel-Haenszel method using Baseline MAS score of the elbow flexors.|||17.9|-18.8|
82661695|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.48|||||TWO_SIDED|95.0|-0.75|-0.22|||||Week 2, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.22|-0.75|
82661696|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.42|||||TWO_SIDED|95.0|-0.71|-0.13|||||Week 4, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.13|-0.71|
82492791|NCT01709513|164678323|SUPERIORITY_OR_OTHER_LEGACY||Adjusted Mean Difference|-18.7|||<|0.0001|TWO_SIDED|95.0|-25.5|-11.8||Threshold for significance ≤ 0.05.|Regression, Robust|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant). Statistical analysis used a multiple imputation approach followed by a robust regression model.||-11.8|-25.5|<0.0001
82661697|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.37|||||TWO_SIDED|95.0|-0.71|-0.04|||||Week 6, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.04|-0.71|
82661698|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.27|||||TWO_SIDED|95.0|-0.51|-0.02|||||Week 12, Elbow flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.02|-0.51|
82661699|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.27|0.42|||||Week 2, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.42|-0.27|
82661700|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.11|||||TWO_SIDED|95.0|-0.25|0.46|||||Week 4, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.46|-0.25|
82661701|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.02|||||TWO_SIDED|95.0|-0.37|0.33|||||Week 6, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.33|-0.37|
82661702|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.09|||||TWO_SIDED|95.0|-0.19|0.38|||||Week 12, Wrist flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.38|-0.19|
82661703|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-0.23|0.43|||||Week 2, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.43|-0.23|
82661704|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.17|||||TWO_SIDED|95.0|-0.17|0.52|||||Week 4, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.52|-0.17|
82661705|NCT03261167|165041060|OTHER||Mean Difference (Net)|-0.14|||||TWO_SIDED|95.0|-0.2|0.48|||||Week 6, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.48|-0.20|
82661706|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.05|||||TWO_SIDED|95.0|-0.25|0.34|||||Week 12, Finger flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.34|-0.25|
82661707|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.28|||||TWO_SIDED|95.0|-0.08|0.63|||||Week 2, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.63|-0.08|
82661708|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.14|||||TWO_SIDED|95.0|-0.23|0.51|||||Week 4, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.51|-0.23|
82661709|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.03|||||TWO_SIDED|95.0|-0.33|0.38|||||Week 6, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.38|-0.33|
82661710|NCT03261167|165041060|OTHER||Mean Difference (Net)|0.08|||||TWO_SIDED|95.0|-0.31|0.47|||||Week 12, Thumb flexion. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.47|-0.31|
82661711|NCT03261167|165041061|OTHER||Mean Difference (Net)|-0.24|||||TWO_SIDED|95.0|-0.48|0.0|||||Week 2. Analysis method was MMRM with Treatment, Visit, Treatment by visit interaction, Baseline, and Baseline by visit interaction as fixed effects.|||0.00|-0.48|
82661712|NCT03261167|165041061|OTHER||Mean Difference (Net)|-0.16|||||TWO_SIDED|95.0|-0.42|0.09|||||Week 4. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.09|-0.42|
82661713|NCT03261167|165041061|OTHER||Mean Difference (Net)|-0.15|||||TWO_SIDED|95.0|-0.37|0.08|||||Week 6. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||0.08|-0.37|
82661714|NCT03261167|165041061|OTHER||Mean Difference (Net)|-0.28|||||TWO_SIDED|95.0|-0.52|-0.04|||||Week 12. Analysis method was MMRM with Treatment, Visit, Treatment by visit interation, Baseline, and Baseline by visit interaction as fixed effects.|||-0.04|-0.52|
82661715|NCT00835146|165041071|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.9||||||90.0|91.8|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||105|91.8|
82661716|NCT00835146|165041072|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.3||||||90.0|93.3|106.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106|93.3|
82661717|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.8 mg+metformin was superior to placebo + metformin.~Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%."|Estimated treatment difference, LS Mean|-1.09|||<|0.0001||95.0|-1.3|-0.88|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.88|-1.30|<0.0001
82661718|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.8 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.8 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.02|||<|0.0001||95.0|-0.19|0.15|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.15|-0.19|<0.0001
82661719|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.2 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-1.06|||<|0.0001||95.0|-1.27|-0.85|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.85|-1.27|<0.0001
82661720|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.2 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.2 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.01|||<|0.0001||95.0|-0.16|0.18|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.18|-0.16|<0.0001
82661721|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 0.6 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.78|||<|0.0001||95.0|-0.99|-0.57|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.57|-0.99|<0.0001
82661722|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 0.6 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 0.6 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.29||||0.1026||95.0|0.12|0.46|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.46|0.12|0.1026
82661723|NCT00318461|165041078|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of glimepiride+metformin to metformin was performed to verify assay sensitivity. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-1.07|||<|0.0001||95.0|-1.28|-0.86|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.86|-1.28|<0.0001
82661724|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.29||||0.0016||95.0|-2.16|-0.41|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.41|-2.16|0.0016
82661725|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.75|||<|0.0001||95.0|-4.48|-3.01|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-3.01|-4.48|<0.0001
82661726|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.07||||0.0117||95.0|-1.94|-0.19|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.19|-1.94|0.0117
82661727|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.53|||<|0.0001||95.0|-4.27|-2.79|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.79|-4.27|<0.0001
82661728|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.28||||0.8198||95.0|-1.15|0.6|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.60|-1.15|0.8198
82661729|NCT00318461|165041079|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.73|||<|0.0001||95.0|-3.47|-2.0|||ANCOVA|||Change in body weight from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.00|-3.47|<0.0001
82661730|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.11||||0.0378||95.0|-2.18|-0.05|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.05|-2.18|0.0378
82661731|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.61|||<|0.0001||95.0|-4.51|-2.72|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.72|-4.51|<0.0001
82661732|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.23||||0.0185||95.0|-2.3|-0.16|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-0.16|-2.30|0.0185
82661733|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-3.73|||<|0.0001||95.0|-4.64|-2.83|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-2.83|-4.64|<0.0001
82661734|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.27||||0.9069||95.0|-1.33|0.8|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||0.80|-1.33|0.9069
82661735|NCT00318461|165041080|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.77|||<|0.0001||95.0|-3.67|-1.87|||ANCOVA|||Change in body weight from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline body weight as covariate.||-1.87|-3.67|<0.0001
82661736|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.09|||<|0.0001||95.0|-2.68|-1.5|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.50|-2.68|<0.0001
82661737|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.38||||0.1845||95.0|-0.87|0.11|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.11|-0.87|0.1845
82661738|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-2.04|||<|0.0001||95.0|-2.63|-1.44|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.44|-2.63|<0.0001
82661739|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.33||||0.3047||95.0|-0.82|0.17|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose t as covariate.||0.17|-0.82|0.3047
82661740|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.53|||<|0.0001||95.0|-2.12|-0.94|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-0.94|-2.12|<0.0001
82661741|NCT00318461|165041081|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.18||||0.8079||95.0|-0.32|0.67|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 26 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.67|-0.32|0.8079
82661742|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.93|||<|0.0001||95.0|-2.58|-1.28|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.28|-2.58|<0.0001
82661743|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.53||||0.0542||95.0|-1.08|0.01|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.01|-1.08|0.0542
82661744|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.95|||<|0.0001||95.0|-2.6|-1.3|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-1.30|-2.60|<0.0001
82661745|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.55||||0.0451||95.0|-1.1|-0.01|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose t as covariate.||-0.01|-1.10|0.0451
82661746|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.55|||<|0.0001||95.0|-2.2|-0.9|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||-0.90|-2.20|<0.0001
82661747|NCT00318461|165041082|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.15||||0.9006||95.0|-0.7|0.39|||ANCOVA|||Change in fasting plasma glucose from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline fasting plasma glucose as covariate.||0.39|-0.70|0.9006
82661748|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.13||||0.8871||95.0|-0.62|0.36|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.36|-0.62|0.8871
82661749|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.12||||0.8695||95.0|-0.51|0.27|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.27|-0.51|0.8695
82661750|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.03||||0.9994||95.0|-0.46|0.52|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.52|-0.46|0.9994
82661751|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.04||||0.9984||95.0|-0.35|0.43|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.43|-0.35|0.9984
82661752|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.6201||95.0|-0.28|0.7|||ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.70|-0.28|0.6201
82661753|NCT00318461|165041083|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.4831||95.0|-0.18|0.6|||ANCOVA|||Change in mean prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.60|-0.18|0.4831
82661754|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.8 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.83|||<|0.0001||95.0|-1.07|-0.59|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.59|-1.07|<0.0001
82661755|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.8 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.8 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.08|||<|0.0001||95.0|-0.28|0.12|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.12|-0.28|<0.0001
82661756|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 1.2 mg+metformin was superior to placebo + metformin. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.81|||<|0.0001||95.0|-1.05|-0.57|||ANCOVA|||Change in HbA1c from baseline to end of treatment was at 104 weeks analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.57|-1.05|<0.0001
82661757|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 1.2 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 1.2 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|-0.07|||<|0.0001||95.0|-0.27|0.13|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.13|-0.27|<0.0001
82661758|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|"Hypothesis testing was done in a hierarchical manner. First, it was tested whether liraglutide 0.6 mg+metformin was superior to placebo + metformin.~Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%."|Estimated treatment difference, LS Mean|-0.61|||<|0.0001||95.0|-0.85|-0.37|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.37|-0.85|<0.0001
82661759|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|Hypothesis testing was done in a hierarchical manner. As superiority of liraglutide 0.6 mg + metformin to metformin monotherapy was established, it was investigated whether liraglutide 0.6 mg + metformin was non-inferior to glimepiride + metformin. Non-inferiority was concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0.4%.|Estimated treatment difference, LS Mean|0.14||||0.0052||95.0|-0.06|0.34|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||0.34|-0.06|0.0052
82661760|NCT00318461|165041084|NON_INFERIORITY_OR_EQUIVALENCE|A test for superiority of glimepiride+metformin to placebo metformin was performed to verify assay sensitivity. Superiority was always concluded if the upper limit of the 2-sided 95% CI for the treatment difference was below 0%.|Estimated treatment difference, LS Mean|-0.75|||<|0.0001||95.0|-0.99|-0.51|||ANCOVA|||Change in HbA1c from baseline to end of treatment at 104 weeks was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline glycosylated A1c (HbA1c) as covariate.||-0.51|-0.99|<0.0001
82661761|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.24||||0.5282||95.0|-0.74|0.26|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.26|-0.74|0.5282
82661762|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.15||||0.7644||95.0|-0.55|0.25|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.25|-0.55|0.7644
82661763|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.36||||0.2063||95.0|-0.86|0.14|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.14|-0.86|0.2063
82661764|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.28||||0.2678||95.0|-0.68|0.12|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.12|-0.68|0.2678
82661765|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.07||||0.9887||95.0|-0.57|0.43|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.43|-0.57|0.9887
82661766|NCT00318461|165041085|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.02||||0.9998||95.0|-0.38|0.42|||ANCOVA|||Change in prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.42|-0.38|0.9998
82661767|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.95|||<|0.0001||95.0|-2.6|-1.3|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.30|-2.60|<0.0001
82661768|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.11||||0.967||95.0|-0.62|0.41|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.41|-0.62|0.9670
82661769|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.72|||<|0.0001||95.0|-2.36|-1.07|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.07|-2.36|<0.0001
82661770|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.13||||0.9368||95.0|-0.39|0.64|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.64|-0.39|0.9368
82661771|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.06||||0.0003||95.0|-1.71|-0.42|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.42|-1.71|0.0003
82661772|NCT00318461|165041086|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.78||||0.0008||95.0|0.27|1.29|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||1.29|0.27|0.0008
82661773|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.66|||<|0.0001||95.0|-2.37|-0.96|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.96|-2.37|<0.0001
82661774|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.3||||0.5048||95.0|-0.86|0.26|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.26|-0.86|0.5048
82492792|NCT01709513|164678324|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.9|||=|0.6997|TWO_SIDED|95.0|-3.8|5.6||Threshold for significance ≤ 0.05.|Mixed Models Analysis|||Testing according to the hierarchical testing procedure (previous endpoints were statistically significant).||5.6|-3.8|=0.6997
82492793|NCT01034631|164678335|OTHER|||||||0.6625|||||||Chi-squared|||||||.6625
82661775|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.79|||<|0.0001||95.0|-2.49|-1.08|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-1.08|-2.49|<0.0001
82661776|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-0.42||||0.2005||95.0|-0.98|0.14|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.14|-0.98|0.2005
82661777|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-1.16||||0.0003||95.0|-1.86|-0.46|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||-0.46|-1.86|0.0003
82661778|NCT00318461|165041087|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|0.21||||0.7871||95.0|-0.35|0.76|||ANCOVA|||Change in post prandial increments of plasma glucose from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||0.76|-0.35|0.7871
82661779|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|27.75||||0.0031||95.0|7.83|47.67|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||47.67|7.83|0.0031
82661780|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|1.44||||0.9987||95.0|-15.03|17.9|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||17.90|-15.03|0.9987
82661781|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|21.96||||0.0263||95.0|2.04|41.87|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||41.87|2.04|0.0263
82661782|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-4.36||||0.9227||95.0|-20.94|12.22|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||12.22|-20.94|0.9227
82661783|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|22.08||||0.0253||95.0|2.15|42.01|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||42.01|2.15|0.0253
82661784|NCT00318461|165041088|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|-4.23||||0.9293||95.0|-20.78|12.31|||ANCOVA|||Change in HOMA-B from baseline to 26 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||12.31|-20.78|0.9293
82492794|NCT01890473|164678361|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.908|||||TWO_SIDED|90.0|0.815|1.01||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale (using log (Cmax) without a formal test.||1.01|0.815|
82661785|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|25.71||||0.8821||95.0|-69.84|121.26|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||121.26|-69.84|0.8821
82661786|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.8 mg + metformin and glimepiride + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|6.56||||0.9989||95.0|-72.66|85.79|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||85.79|-72.66|0.9989
82661787|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|35.2||||0.7292||95.0|-60.33|130.72|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||130.72|-60.33|0.7292
82661788|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 1.2 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|16.05||||0.9689||95.0|-63.69|95.79|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||95.79|-63.69|0.9689
82661789|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and placebo + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|72.38||||0.1818||95.0|-23.15|167.9|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||167.90|-23.15|0.1818
82661790|NCT00318461|165041089|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the treatment difference between liraglutide 0.6 mg + metformin and glimepirde + metfomine was calculated. If the upper limit of the 95% CI was below 0%, it was concluded that the given dose of liraglutide in combination with metformin was better than the comparator therapy.|Estimated treatment difference, LS Mean|53.23||||0.2978||95.0|-26.3|132.76|||ANCOVA|||Change in HOMA-B from baseline to 104 weeks of treatment was analyzed using an analysis of covariance (ANCOVA) model with treatment, country and previous anti-diabetic treatment as fixed effects and baseline value as covariate.||132.76|-26.30|0.2978
82661791|NCT03393208|165041092|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LeastSquare(LS) Mean%|99.76|||||TWO_SIDED|90.0|92.84|107.2||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||107.20|92.84|
82661792|NCT03393208|165041092|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|98.67||||||90.0|91.25|106.69||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||106.69|91.25|
82661793|NCT03393208|165041093|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|99.62||||||90.0|92.69|106.77||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||106.77|92.69|
82661794|NCT03393208|165041093|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|101.5||||||90.0|93.72|109.92||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||109.92|93.72|
82661795|NCT03393208|165041094|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Median Difference|0.0|||||TWO_SIDED|90.0|-0.25|0.25||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||0.25|-0.25|
82661796|NCT03393208|165041094|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Median Difference|0.25||||||90.0|-0.25|0.5||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||0.50|-0.25|
82661797|NCT03393208|165041096|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|101.26||||||90.0|94.33|108.69||||||Statistical Comparison of Treatment A Versus Treatment B in Fasting state||108.69|94.33|
82492795|NCT01890473|164678362|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.941|||||TWO_SIDED|90.0|0.843|1.05||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale, using log (AUC (0-T) without a formal test.||1.05|0.843|
82661798|NCT03393208|165041096|EQUIVALENCE|Analysis was performed with Equivalence Acceptance Range for 90% Confidence Interval (CI) as 80.00% - 125.00%|Ratio of Geometric LS Mean Percentage|98.17|||||TWO_SIDED|90.0|91.61|105.21||||||Statistical Comparison of Treatment A Versus Treatment B in Fed state||105.21|91.61|
82661799|NCT01848938|165041109|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Linear Mixed Models analysis|||analysis between groups||||<0.001
82661800|NCT01848938|165041110|SUPERIORITY_OR_OTHER|||||||0.005|||||||Linear Mixed Models analysis|||analysis between groups||||0.005
82661801|NCT01848938|165041111|SUPERIORITY_OR_OTHER|||||||0.023|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.023
82661802|NCT01848938|165041113|SUPERIORITY_OR_OTHER|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||0.001
82661803|NCT01848938|165041114|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||analysis between groups||||<0.001
82661804|NCT00207090|165041131|SUPERIORITY_OR_OTHER_LEGACY||Point estimate|0.912|||||TWO_SIDED|90.0|0.751|1.106||||||Two-way analyses of variance were performed on log-transformed values of Cmax. The factors in the analyses were participant and day. Point estimates and 90% confidence intervals for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale.||1.106|0.751|
82661805|NCT00207090|165041132|SUPERIORITY_OR_OTHER_LEGACY||Point estimate|0.566|||||TWO_SIDED|90.0|0.482|0.664||||||Two-way analyses of variance were performed on log-transformed values of (AUC \[INF\]). The factors in the analyses were participant and day. Point estimates and 90% confidence intervals for means and differences between means on the log scale were exponentiated to obtain estimates for geometric means and ratio of geometric means on the original scale.||0.664|0.482|
82661806|NCT00841698|165041155|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|97.34||||||90.0|91.67|103.35|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.35|91.67|
82661807|NCT00841698|165041156|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.46||||||90.0|90.22|98.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.89|90.22|
82661808|NCT00841698|165041157|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.83||||||90.0|89.96|99.96|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.96|89.96|
82661809|NCT00099047|165041175|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|0.05||0.23|TWO_SIDED||||||SAS version 8||36 evaluable patients randomized 1:1 to each treatment was planned in order to have \>77% power to detect differences in above parameters equal to or greater than one standard deviation, based on a 2-sided Wilcoxon rank-sum test with .05 Type I error.|||||.23
82661810|NCT00830024|165041233|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|98.75||||||90.0|93.35|104.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.47|93.35|
82661811|NCT00830024|165041234|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|95.94||||||90.0|91.76|100.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.3|91.76|
82661812|NCT00830024|165041235|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|An analysis of variance (ANOVA) was performed on each of the pharmacokinetic parameters using SAS® software.|Geometric Test/Ref Ratio x 100|95.89||||||90.0|91.67|100.31|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||100.31|91.67|
82661813|NCT02554890|165041258|OTHER||expon. back transformed from LS means|0.7143|||<|0.0001|TWO_SIDED|95.0|0.6315|0.808||ANCOVA model for a log-scaled response with treatment group as a class variable and biomarker baseline value in logarithmic scale as a continuous covariate.|ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||0.8080|0.6315|<.0001
82661814|NCT02554890|165041262|OTHER||exponentially back transformed from LS m|0.8487||||0.0011|TWO_SIDED|95.0|0.7694|0.9361|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||0.9361|0.7694|0.0011
82661815|NCT02554890|165041263|OTHER||expon. back transformed from LS means|1.6487|||<|0.0001|TWO_SIDED|95.0|1.4559|1.8669|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.8669|1.4559|<.0001
82661816|NCT02554890|165041264|OTHER||expon. back transformed from LS means|1.4186|||<|0.0001|TWO_SIDED|95.0|1.3248|1.519|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.5190|1.3248|<.0001
82661817|NCT02554890|165041265|OTHER||expon. back transformed from LS means|1.4745|||<|0.0001|TWO_SIDED|95.0|1.3752|1.581|||ANCOVA||Geometric Mean Ratio: Sacubitril/ Valsartan vs. Enalapril|||1.5810|1.3752|<.0001
82661818|NCT02554890|165041266|OTHER||expon. back transformed from LS means|0.7133|||<|0.0001|TWO_SIDED|95.0|0.6171|0.8245||ANCOVA model for a log-scaled response with treatment group as a class variable and biomarker baseline value in logarithmic scale as a continuous covariate.|ANCOVA||Geometric Mean Ratio: Sacubitril/Valsartan vs. Enalapril|||0.8245|0.6171|<.0001
82661819|NCT01521780|165041269|SUPERIORITY_OR_OTHER||Within subject coefficient of variation|0.0803|||||ONE_SIDED|90.0||0.1163||||||||0.1163||
82661820|NCT01521780|165041270|SUPERIORITY_OR_OTHER||Within subject coefficient of variation|0.0555|||||ONE_SIDED|90.0||0.0733||||||||0.0733||
82661821|NCT00834275|165041274|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.0||||||90.0|94.0|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||104|94|
82661822|NCT00834275|165041275|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.3|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||105|98.3|
82661823|NCT00834275|165041276|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.3|104.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||104|98.3|
82661824|NCT03649477|165041277|SUPERIORITY||Mean Difference (Net)|-1.202||||0.3493|TWO_SIDED|95.0|-3.729|1.324||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.324|-3.729|0.3493
82661825|NCT03649477|165041277|SUPERIORITY||Mean Difference (Net)|-3.136||||0.0162|TWO_SIDED|95.0|-5.685|-0.586||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.586|-5.685|0.0162
82661826|NCT03649477|165041278|SUPERIORITY||Mean Difference (Net)|-0.608||||0.6001|TWO_SIDED|95.0|-2.89|1.674||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.674|-2.890|0.6001
82661827|NCT03649477|165041278|SUPERIORITY||Mean Difference (Net)|-0.764||||0.5143|TWO_SIDED|95.0|-3.068|1.541||0.05 threshold for statistical significance|Mixed Models Analysis|||||1.541|-3.068|0.5143
82661828|NCT03649477|165041279|SUPERIORITY||Mean Difference (Net)|0.183||||0.9144|TWO_SIDED|95.0|-3.175|3.541||0.05 threshold for statistical significance|Mixed Models Analysis|||||3.541|-3.175|0.9144
82661829|NCT03649477|165041279|SUPERIORITY||Mean Difference (Net)|-3.812||||0.0266|TWO_SIDED|95.0|-7.177|-0.446||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.446|-7.177|0.0266
82661830|NCT03649477|165041280|SUPERIORITY||Mean Difference (Net)|-0.312||||0.1598|TWO_SIDED|95.0|-0.748|0.125||0.05 threshold for statistical significance|Mixed Models Analysis|||||0.125|-0.748|0.1598
82661831|NCT03649477|165041280|SUPERIORITY||Mean Difference (Net)|-0.498||||0.0266|TWO_SIDED|95.0|-0.937|-0.059||0.05 threshold for statistical significance|Mixed Models Analysis|||||-0.059|-0.937|0.0266
82661832|NCT03649477|165041281|SUPERIORITY||Mean Difference (Net)|-1.085||||0.2479|TWO_SIDED|95.0|-2.932|0.761||0.05 threshold for statistical significance|Mixed Models Analysis|||||0.761|-2.932|0.2479
82661833|NCT03649477|165041281|SUPERIORITY||Mean Difference (Net)|-2.412||||0.0114|TWO_SIDED|95.0|-4.276|-0.548||0.05 for statistical significance|Mixed Models Analysis|||||-0.548|-4.276|0.0114
82661834|NCT01030133|165041284|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|0.75||||||0.05
82661835|NCT01750294|165041295|SUPERIORITY_OR_OTHER|||||||0.01||||||a = 0.05|Mixed Models Analysis|||||||0.01
82661836|NCT05090839|165041328|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|variance explained by the IV.|0.072|||<|0.05|TWO_SIDED|95.0|0.0|0.234|||ANOVA|||||.234|.0000|<0.05
82661837|NCT05090839|165041330|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|Mean Difference (Final Values)|0.358|||<|0.05|TWO_SIDED|95.0|0.0|0.554|||ANOVA|||This is a comparison that is specific to the contrast of visualizing traumatic versus stressful events.||.554|0|<0.05
82661838|NCT05090839|165041331|EQUIVALENCE|The 95% confidence interval is used to assess the difference between the means of the 2 x 2 (English vs. Spanish) and (Trauma vs. Non-trauma) writing groups.|Mean Difference (Final Values)|0.51|||<|0.05|TWO_SIDED|95.0|0.0|0.676|||ANOVA|||||.676|.000|<0.05
82661839|NCT05710718|165041332|SUPERIORITY|||||||0.076|||||||paired T-test|No formal hypothesis test was planned for this pilot study. P-values are provided for exploratory purposes and are unadjusted for multiplicity.||||||0.076
82661840|NCT00835575|165041354|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.52||||||90.0|92.84|106.69|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||106.69|92.84|
82661841|NCT00835575|165041355|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.59||||||90.0|99.13|108.25|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.25|99.13|
82661842|NCT00835575|165041356|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.87||||||90.0|99.47|108.46|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.46|99.47|
82661843|NCT02826694|165041360|OTHER|||||||0.168|||||||linear mixed effect model|||T3||||0.168
82661844|NCT02826694|165041360|OTHER|||||||0.026|||||||linear mixed effect model|||T4||||0.026
82661845|NCT00761813|165041373|SUPERIORITY||Cox Proportional Hazard|0.83|||||TWO_SIDED|95.0|0.63|1.09||||||||1.09|.63|
82661846|NCT00761813|165041374|SUPERIORITY|||||||0.05|||||||Chi-squared|||||||0.05
82661847|NCT03246503|165041375|OTHER||Pearson correlation coefficient|0.82|||<|0.001|TWO_SIDED|95.0|0.77|0.87||statistical significance of Pearson correlation coefficient|Pearson correlation coefficient||Bootstrapping with 1000 replications was used to estimate 95% confidence intervals.|Bootstrapping with 1000 replications was used to estimate 95% confidence intervals.||.87|0.77|<.001
82661848|NCT03246503|165041376|OTHER|t-statistic from regression analysis|intercept of regression line|4.13|||<|0.001|TWO_SIDED|95.0|3.35|4.91|||Regression, Linear|||||4.91|3.35|<.001
82661849|NCT03246503|165041377|OTHER|t-statistic from regression analysis|Slope|0.68|||<|0.001|TWO_SIDED|95.0|0.6|0.76|||Regression, Linear|||||0.76|0.60|<.001
82661850|NCT04590027|165041429|NON_INFERIORITY|power calculation was not recorded Definition of non inferiority: two point difference of pain score at the measurement times|||||<|0.05|||||||ANCOVA|To rule out confounders due to an age difference, the ANCOVA test was applied to compare the differences in pain scores age-unrelatedly.|||Fisher Yates Test to compare the requirement of resue medication|||<0.05
82661851|NCT04590027|165041430|SUPERIORITY||||||<|0.05|||||||Chi-squared|||||||<0.05
82661852|NCT02777580|165041465|OTHER|||||||0.05|||||||Chi-squared|||||||0.05
82661853|NCT02777580|165041466|OTHER||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.62|1.48||||||||1.48|0.62|
82661854|NCT02777580|165041467|OTHER||Risk Ratio (RR)|4.57|||||TWO_SIDED|95.0|0.58|35.8||||||||35.8|0.58|
82661855|NCT02777580|165041468|OTHER||Risk Ratio (RR)|1.27|||||TWO_SIDED|95.0|0.25|6.48||||||||6.48|0.25|
82661856|NCT00908128|165041476|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on lon-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.96||||||90.0|82.4|100.41|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.41|82.40|
82661857|NCT00908128|165041477|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|99.16||||||90.0|96.24|102.16|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.16|96.24|
82661858|NCT00908128|165041478|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) was performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|98.78||||||90.0|95.76|101.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.89|95.76|
82661859|NCT00466167|165041480|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|4.9|STANDARD_ERROR_OF_MEAN|1.3||0.0001|TWO_SIDED|95.0|2.4|7.4|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||7.4|2.4|0.0001
82661860|NCT00466167|165041480|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|6.6|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|4.2|9.1|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||9.1|4.2|<.0001
82661861|NCT00466167|165041481|SUPERIORITY_OR_OTHER||Adjusted mean difference from Placebo|4.5|STANDARD_ERROR_OF_MEAN|1.8||0.0122|TWO_SIDED|95.0|1.0|7.9|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||7.9|1.0|0.0122
82661862|NCT00466167|165041481|SUPERIORITY_OR_OTHER||Adjusted mean difference from placebo|7.1|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001|TWO_SIDED|95.0|3.7|10.5|||ANCOVA|||ANCOVA with factors treatment, pooled country and covariate baseline||10.5|3.7|<.0001
82661863|NCT03930732|165041527|SUPERIORITY|A hierarchical testing procedure was used to control type I error and handle primary and a few secondary endpoint analyses at a 2-sided significance level of 0.049. Testing was then performed sequentially in the order the endpoints are reported (till OM 9). The hierarchical testing sequence continued only when the previous endpoint was statistically significant at 0.049 level.|Risk Difference (RD)|-0.324||||0.0005|TWO_SIDED|95.0|-0.508|-0.14|||Negative binomial model||Derived using delta method.|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), inhaled corticosteroid (ICS) dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.140|-0.508|0.0005
82661864|NCT03930732|165041528|SUPERIORITY||Least Square (LS) Mean Difference|0.083|||<|0.0001|TWO_SIDED|95.0|0.042|0.125||Threshold for significance at 0.049 level.|MMRM model|||Derived from mixed-effect model with repeated measures (MMRM) model with the change from baseline in pre-BD FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.125|0.042|<0.0001
82661865|NCT03930732|165041529|SUPERIORITY||LS Mean Difference|0.083||||0.0003|TWO_SIDED|95.0|0.038|0.128||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BDFEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.128|0.038|0.0003
82661866|NCT03930732|165041530|SUPERIORITY||LS Mean Difference|0.124||||0.0022|TWO_SIDED|95.0|0.045|0.203||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BD FEV1 up to Week 12 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.203|0.045|0.0022
82661867|NCT03930732|165041531|SUPERIORITY||LS Mean Difference|0.127||||0.0034|TWO_SIDED|95.0|0.042|0.212||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in pre-BD FEV1 up to Week 52 as response variables, and treatment group, age, sex, height, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline pre-BD FEV1, and FEV1 baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||0.212|0.042|0.0034
82661868|NCT03930732|165041532|SUPERIORITY||LS Mean Difference|-3.363||||0.0017|TWO_SIDED|95.0|-5.459|-1.266||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in SGRQ total score up to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, treatment-by-visit interaction, baseline SGRQ total score, and SGRQ baseline-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-1.266|-5.459|0.0017
82661869|NCT03930732|165041533|SUPERIORITY||Odds Ratio (OR)|1.439||||0.0089|TWO_SIDED|95.0|1.096|1.89||Threshold for significance at 0.049 level.|Regression, Logistic|||Derived from logistic regression model which includes treatment group, region (pooled country), ICS dose, smoking status at screening, and baseline SGRQ total score as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||1.890|1.096|0.0089
82661870|NCT03930732|165041534|SUPERIORITY||LS Mean Difference|-1.137||||0.0012|TWO_SIDED|95.0|-1.823|-0.45||Threshold for significance at 0.049 level.|MMRM model|||Derived from MMRM model with the change from baseline in E-RS: COPD RS-Total Score to Week 52 as response variables, and treatment group, region (pooled country), ICS dose, smoking status at screening, visit, treatment-by-visit interaction, baseline E-RS: COPD RS-Total Score, and baseline E-RS: COPD RS-Total Score-by-visit interaction as covariates. Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).||-0.450|-1.823|0.0012
82492796|NCT01890473|164678363|SUPERIORITY_OR_OTHER||ratio of geometric mean|0.976|||||TWO_SIDED|90.0|0.888|1.07||||||The PK comparability of the two devices was assessed via a linear model for each key PK parameter in log scale, using log AUC(INF) without a formal test.||1.07|0.888|
82492797|NCT01543958|164678372|SUPERIORITY_OR_OTHER|||||||0.87||||||not adjusted for multiple comparisons|Sign test|no other adjustment||||||0.87
82661871|NCT03930732|165041535|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant).|Risk Difference (RD)|-0.418||||0.0052|TWO_SIDED|95.0|-0.728|-0.109||Threshold for significance at 0.049 level.|Negative binomial model||Derived using delta method.|Derived using negative binomial model with the total number of the events occurring during the 52-week treatment period as the response variable, and treatment group, region (pooled country), ICS dose, smoking status at screening, baseline disease severity, and number of moderate or severe COPD exacerbation events within one year prior to the study as covariates, and log-transformed treatment duration as an offset variable.||-0.109|-0.728|0.0052
82661872|NCT04708028|165041544|SUPERIORITY|||||||0.379|||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.379
82661873|NCT04708028|165041544|SUPERIORITY|||||||0.646|||||||Wilcoxon (Mann-Whitney)|||8 minutes Post intervention (Dog exposure or no dog exposure)||||0.646
82661874|NCT04708028|165041544|SUPERIORITY|||||||0.219|||||||Wilcoxon (Mann-Whitney)|||8 minutes after starting dental procedure||||0.219
82661875|NCT04708028|165041544|SUPERIORITY|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||8 minutes after completion of dental procedure||||0.223
82661876|NCT04708028|165041545|SUPERIORITY|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||Baseline||||0.410
82661877|NCT04708028|165041545|SUPERIORITY|||||||0.127|||||||Wilcoxon (Mann-Whitney)|||8 minutes Post intervention (Dog exposure or no dog exposure)||||0.127
82661878|NCT04708028|165041545|SUPERIORITY|||||||0.268|||||||Wilcoxon (Mann-Whitney)|||8 minutes after starting dental procedure||||0.268
82661879|NCT04708028|165041545|SUPERIORITY|||||||0.353|||||||Wilcoxon (Mann-Whitney)|||8 minutes after completion of dental procedure||||0.353
82661880|NCT02825680|165041546|SUPERIORITY|||||||0.011|||||||Mixed Models Analysis|||This analysis compares reach within the pre-intervention timeframe versus the post-intervention timeframe for each LEAP (intervention) and control case. Intention to treat analysis was used; all participating facilities randomized to the LEAP (intervention) arm were included whether or not they completed the intervention.||||.011
82661881|NCT03466866|165041560|SUPERIORITY||Incidence rate ratio|0.67||||0.12|TWO_SIDED|95.0|0.42|1.07|||Poisson regression|We adjusted for stratification variables, sex, baseline MOCA, number of medical conditions, PSQ Communication, and PSQ General satisfaction.||We used Poisson regression to model the number of outcome events as a function of randomization assignment, adjusting for the stratification variables and using follow-up time as the offset term. We calculated estimates of annual rates of the primary outcome and the adjusted estimate of the rate ratio. We evaluated the primary hypothesis by testing the null hypothesis that the rate ratio for randomization assignment equals 1.||1.07|.42|.12
82661882|NCT03466866|165041561|SUPERIORITY|General Satisfaction|Mean Difference (Final Values)|0.11||||0.502|TWO_SIDED|95.0|-0.22|0.45|||Regression, Linear|||We modeled PSQ- scores as continuous variables to estimate average change over time by treatment group. We used mixed effects linear regression with fixed effects for time (baseline, and months 6 and 12), randomization assignment, and time by randomization interaction. A random intercept term and an appropriate covariance structure was used to account for correlation among repeated measurements.||.45|-.22|.502
82661883|NCT03466866|165041562|SUPERIORITY||Mean Difference (Final Values)|0.26||||0.23|TWO_SIDED|95.0|0.16|0.69|||ANCOVA|||Analysis of covariance was performed with Number of Quality Metrics as the dependent variable, treatment arm as the main independent variable of interest and the stratification variables as adjusting variables.||.69|.16|.23
82661884|NCT03466866|165041563|SUPERIORITY||Mean Difference (Net)|4.45||||0.094|TWO_SIDED|95.0|-0.76|9.66|||Mixed Models Analysis|||We used mixed effects linear regression. Fixed effects included time (baseline, and months 6 and 12), randomization assignment, time by randomization interaction, and the three stratification variables. From the results of this model, we estimated the mean change from baseline to 6 months, 6 months to 12 months and baseline to 12 months within each treatment group. We then compared the change from baseline to 12 months between the two groups.||9.66|-.76|.094
82661885|NCT01172145|165041584|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.385|STANDARD_ERROR_OF_MEAN|4.86||0.181|TWO_SIDED|95.0|-16.86|3.4|||t-test, 2 sided|||||3.40|-16.86|0.181
82661886|NCT04134091|165041592|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82661887|NCT04134091|165041592|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82661888|NCT04134091|165041593|SUPERIORITY|||||||0.0001|||||||ANCOVA|||||||0.0001
82661889|NCT04134091|165041593|SUPERIORITY||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82661890|NCT04134091|165041594|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82661891|NCT04134091|165041594|SUPERIORITY||||||<|0.01|||||||Fisher Exact|||||||<0.01
82661892|NCT04134091|165041595|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82492798|NCT01543958|164678373|SUPERIORITY_OR_OTHER|||||||0.62||||||Not adjusted for multiple comparisons|Sign test|no other adjustment||||||0.62
82661893|NCT04134091|165041595|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82661894|NCT04134091|165041596|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82661895|NCT04134091|165041596|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82661896|NCT04134091|165041597|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Hepatocyte Ballooning Score||||>0.05
82661897|NCT04134091|165041597|SUPERIORITY||||||<|0.05|||||||ANCOVA|||Outcome Variable: Hepatocyte Ballooning Score||||<0.05
82661898|NCT04134091|165041597|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Lobular Inflammation Score||||>0.05
82661899|NCT04134091|165041597|SUPERIORITY||||||>|0.05|||||||ANCOVA|||Outcome Variable: Lobular Inflammation Score||||>0.05
82661900|NCT04134091|165041597|SUPERIORITY||||||<|0.01|||||||ANCOVA|||Outcome Variable: Steatosis Score||||<0.01
82661901|NCT04134091|165041597|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Outcome Variable: Steatosis Score||||<0.001
82661902|NCT04134091|165041598|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82661903|NCT04134091|165041598|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82661904|NCT04134091|165041599|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82661905|NCT04134091|165041599|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82661906|NCT04134091|165041600|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||<0.05
82661907|NCT04134091|165041600|SUPERIORITY||||||>|0.05|||||||Fisher Exact|||||||>0.05
82661908|NCT04134091|165041601|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82661909|NCT04134091|165041601|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82661910|NCT04134091|165041602|SUPERIORITY||||||>|0.05|||||||ANCOVA|||||||>0.05
82661911|NCT04134091|165041602|SUPERIORITY||||||<|0.05|||||||ANCOVA|||||||<0.05
82661912|NCT04134091|165041603|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: AST||||>0.05
82661913|NCT04134091|165041603|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||Outcome Variable: AST||||<0.01
82661914|NCT04134091|165041603|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALT||||>0.05
82661915|NCT04134091|165041603|SUPERIORITY||||||<|0.01|||||||Mixed Models Analysis|||Outcome Variable: ALT||||< 0.01
82661916|NCT04134091|165041603|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALP||||>0.05
82661917|NCT04134091|165041603|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Outcome Variable: ALP||||<0.05
82661918|NCT04134091|165041603|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: GGT||||>0.05
82661919|NCT04134091|165041603|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||Outcome Variable: GGT||||<0.05
82661920|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: Total cholesterol||||>0.05
82661921|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: Total cholesterol||||>0.05
82661922|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: LDL||||>0.05
82661923|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: LDL||||>0.05
82661924|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: HDL||||>0.05
82661925|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: HDL||||>0.05
82661926|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: triglycerides||||>0.05
82661927|NCT04134091|165041604|SUPERIORITY||||||>|0.05|||||||Mixed Models Analysis|||Outcome Variable: triglycerides||||>0.05
82661928|NCT02354339|165041609|SUPERIORITY|||||||0.24||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on Irvingia gabonensis group||||0.240
82661929|NCT02354339|165041609|SUPERIORITY|||||||0.85||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of fasting glucose on placebo group||||0.850
82661930|NCT02354339|165041610|SUPERIORITY|||||||0.012||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on Irvingia gabonensis group||||0.012
82661931|NCT02354339|165041610|SUPERIORITY|||||||0.391||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of triglycerides on placebo group||||0.391
82661932|NCT02354339|165041611|SUPERIORITY|||||||0.206||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on Irvingia gabonensis group||||0.206
82661933|NCT02354339|165041611|SUPERIORITY|||||||0.721||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of HDL-c on placebo group||||0.721
82661934|NCT02354339|165041612|SUPERIORITY|||||||0.371||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on Irvingia gabonensis group||||0.371
82661935|NCT02354339|165041612|SUPERIORITY|||||||0.238||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of systolic blood pressure on placebo group||||0.238
82661936|NCT02354339|165041613|SUPERIORITY|||||||0.452||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on Irvingia gabonensis group||||0.452
82661937|NCT02354339|165041613|SUPERIORITY|||||||0.801||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of diastolic blood pressure on placebo group||||0.801
82661938|NCT02354339|165041614|SUPERIORITY|||||||0.005||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference on Irvingia gabonensis group||||0.005
82661939|NCT02354339|165041614|SUPERIORITY|||||||0.752||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of waist circumference on placebo group||||0.752
82661940|NCT02354339|165041615|SUPERIORITY|||||||0.791|||||||Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on Irvingia gabonensis group||||0.791
82661941|NCT02354339|165041615|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of first phase of insulin secretion on placebo group||||0.910
82661942|NCT02354339|165041616|SUPERIORITY|||||||0.458||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on Irvingia gabonensis group||||0.458
82661943|NCT02354339|165041616|SUPERIORITY|||||||0.953||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total insulin secretion on placebo group||||0.953
82661944|NCT02354339|165041617|SUPERIORITY|||||||0.47||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on Irvingia gabonensis group||||0.470
82661945|NCT02354339|165041617|SUPERIORITY|||||||0.807||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of insulin sensitivity on placebo group||||0.807
82661946|NCT02354339|165041618|SUPERIORITY|||||||0.604||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of body weight on Irvingia gabonensis group||||0.604
82661947|NCT02354339|165041618|SUPERIORITY|||||||0.35||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of body weight on placebo group||||0.350
82661948|NCT02354339|165041619|SUPERIORITY|||||||0.727||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on Irvingia gabonensis group||||0.727
82661949|NCT02354339|165041619|SUPERIORITY|||||||0.229||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of BMI on placebo group||||0.229
82661950|NCT02354339|165041620|SUPERIORITY|||||||0.151||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on Irvingia gabonensis group||||0.151
82661951|NCT02354339|165041620|SUPERIORITY|||||||0.955||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of total cholesterol on placebo group||||0.955
82661952|NCT02354339|165041621|SUPERIORITY|||||||0.35||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of LDL-c on Irvingia gabonensis group||||0.350
82661953|NCT02354339|165041621|SUPERIORITY|||||||0.47||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of LDL-c on placebo group||||0.470
82661954|NCT02354339|165041622|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on Irvingia gabonensis group||||0.910
82661955|NCT02354339|165041622|SUPERIORITY|||||||0.436||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of AST on placebo group||||0.436
82661956|NCT02354339|165041623|SUPERIORITY|||||||0.989||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on Irvingia gabonensis group||||0.989
82661957|NCT02354339|165041623|SUPERIORITY|||||||0.949||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of ALT on placebo group||||0.949
82661958|NCT02354339|165041624|SUPERIORITY|||||||0.095||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on Irvingia gabonensis group||||0.095
82661959|NCT02354339|165041624|SUPERIORITY|||||||0.401||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of creatinine on placebo group||||0.401
82492799|NCT03166735|164678426|OTHER||Predicted mean daily dose in mg|3.45|STANDARD_ERROR_OF_MEAN|0.1|||||||||non-linear regression||The model fit used power of mean variance estimates (POM) to account for heterogeneity.|D10: Estimated dose reaching \<=10% activity the first time.||||
82661960|NCT02354339|165041625|SUPERIORITY|||||||0.91||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on Irvingia gabonensis group||||0.910
82661961|NCT02354339|165041625|SUPERIORITY|||||||0.791||||||The threshold for statistical significance was p=0.05|Wilcoxon (Mann-Whitney)|||Results showed in this section are the result of the differences between baseline and final values of uric acid on placebo group||||0.791
82661962|NCT00835692|165041629|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Mean x 100|98.4||||||90.0|91.5|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106|91.5|
82661963|NCT00835692|165041630|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|93.5||||||90.0|89.6|97.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.6|89.6|
82661964|NCT00835692|165041631|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The pharmacokinetic parameters will be evaluated statistically by an analysis of variance (ANOVA) appropriate for the experimental design of this study.|Test/Ref Ratio of LS Means x 100|93.5||||||90.0|89.5|97.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||97.7|89.5|
82661965|NCT01149733|165041632|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|97.9|||||TWO_SIDED|90.0|91.0|105.32|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||105.32|91.00|
82661966|NCT01149733|165041633|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|91.81|||||TWO_SIDED|90.0|87.72|96.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||96.10|87.72|
82661967|NCT01149733|165041634|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of Geometric Means|90.64|||||TWO_SIDED|90.0|86.59|94.89|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the test (T) and reference (R) product fall within the interval of 80-125%.|||94.89|86.59|
82661968|NCT03804983|165041658|OTHER|Analysis of Variance||||||0.178||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.178
82661969|NCT03804983|165041659|OTHER|Analysis of Variance||||||0.145||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.145
82661970|NCT03804983|165041660|OTHER|Analysis of Variance||||||0.304||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.304
82661971|NCT03804983|165041661|OTHER|Analysis of Variance||||||0.131||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.131
82661972|NCT03804983|165041663|OTHER|Analysis of Variance||||||0.206||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.206
82661973|NCT03804983|165041664|OTHER|Analysis of Variance||||||0.335||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.335
82661974|NCT03804983|165041665|OTHER|Analysis of Variance||||||0.637||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.637
82661975|NCT03804983|165041666|OTHER|Analysis of Variance||||||0.347||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.347
82661976|NCT03804983|165041667|OTHER|Analysis of Variance||||||0.057||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.057
82661977|NCT03804983|165041668|OTHER|Analysis of Variance||||||0.435||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.435
82661978|NCT03804983|165041669|OTHER|Analysis of Variance||||||0.135||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.135
82661979|NCT03804983|165041670|OTHER|Analysis of Variance||||||0.271||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.271
82661980|NCT03804983|165041671|OTHER|Analysis of Variance||||||1||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||1.0
82661981|NCT03804983|165041673|OTHER|Analysis of Variance||||||1||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||1.0
82661982|NCT03804983|165041674|OTHER|Analysis of Variance||||||0.294||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.294
82661983|NCT03804983|165041675|OTHER|Analysis of Variance||||||0.584||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.584
82661984|NCT03804983|165041676|OTHER|Analysis of Variance||||||0.69||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.69
82661985|NCT03804983|165041677|OTHER|Analysis of Variance||||||0.066||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.066
82661986|NCT03804983|165041678|OTHER|Analysis of Variance||||||0.904||||||All outcomes were analyzed using repeated measure ANOVA comparing baseline to the studied period(i.e., ski admission or home use), grouped by treatment. Significance level was set at a P-Value\<0.05|ANOVA|||||||0.904
82661987|NCT02433977|165041696|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661988|NCT02433977|165041697|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661989|NCT02433977|165041698|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661990|NCT02433977|165041699|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661991|NCT02433977|165041701|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661992|NCT02433977|165041703|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661993|NCT02433977|165041704|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661994|NCT02433977|165041705|OTHER||||||<=|0.05|||||||t-test, 1 sided|||||||<=0.05
82661995|NCT00748072|165041706|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.45||||0.01|TWO_SIDED|95.0|0.24|0.85|||Chi-squared|||The sample size was calculated by the difference in post-biopsy bleeding complications. Since the presence of bleeding was demonstrated in about 30-40 % in our previous observational study, we hypothesized a reduction risk of 0.50 and an absolute reduction of risk from 0.40 to 0.20. The sample size of the study for a power of 0.80 and a significance level \<0.05 was calculated in 158 patients.||0.85|0.24|0.01
82661996|NCT05511935|165041714|SUPERIORITY||Mean Difference (Final Values)|1.75|STANDARD_ERROR_OF_MEAN|3.69||0.64|TWO_SIDED|95.0|-5.57|9.06|||t-test, 2 sided|||||9.06|-5.57|0.64
82661997|NCT05511935|165041715|SUPERIORITY||Mean Difference (Final Values)|1.3|STANDARD_ERROR_OF_MEAN|1.81||0.47|TWO_SIDED|95.0|-2.28|4.89|||t-test, 2 sided|||||4.89|-2.28|0.47
82661998|NCT05511935|165041716|SUPERIORITY||Mean Difference (Final Values)|-2.33|STANDARD_ERROR_OF_MEAN|4.25||0.59|TWO_SIDED|95.0|-10.77|6.11|||t-test, 2 sided|||||6.11|-10.77|0.59
82661999|NCT05511935|165041717|SUPERIORITY||Mean Difference (Final Values)|-1.61|STANDARD_ERROR_OF_MEAN|5.53||0.77|TWO_SIDED|95.0|-12.61|9.38|||t-test, 2 sided|||||9.38|-12.61|0.77
82662000|NCT05511935|165041718|SUPERIORITY||Mean Difference (Final Values)|-12.21|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-17.95|-6.47|||t-test, 2 sided|||||-6.47|-17.95|<0.001
82662001|NCT05511935|165041719|SUPERIORITY||Mean Difference (Final Values)|1.62|STANDARD_ERROR_OF_MEAN|1.87||0.39|TWO_SIDED|95.0|-2.1|5.34|||t-test, 2 sided|||||5.34|-2.10|0.39
82662002|NCT05511935|165041720|SUPERIORITY||Mean Difference (Final Values)|-8.88|STANDARD_ERROR_OF_MEAN|2.84|<|0.01|TWO_SIDED|95.0|-14.52|-3.24|||t-test, 2 sided|||||-3.24|-14.52|<0.01
82662003|NCT05511935|165041721|SUPERIORITY||Mean Difference (Final Values)|-2.84|STANDARD_ERROR_OF_MEAN|4.06||0.49|TWO_SIDED|95.0|-10.9|5.23|||t-test, 2 sided|||||5.23|-10.90|0.49
82662004|NCT05511935|165041723|SUPERIORITY||Slope|7.71|STANDARD_ERROR_OF_MEAN|5.28||0.15|TWO_SIDED|95.0|-2.92|18.35|||Regression, Linear|||||18.35|-2.92|0.15
82662005|NCT05511935|165041724|SUPERIORITY||Slope|0.43|STANDARD_ERROR_OF_MEAN|4.19||0.92|TWO_SIDED|95.0|-8.13|8.99|||Regression, Linear|||||8.99|-8.13|0.92
82662006|NCT05511935|165041725|SUPERIORITY||Slope|7.66|STANDARD_ERROR_OF_MEAN|5.81||0.2|TWO_SIDED|95.0|-4.17|19.49|||Regression, Linear|||||19.49|-4.17|0.20
82662007|NCT05511935|165041726|SUPERIORITY||Slope|-9.29|STANDARD_ERROR_OF_MEAN|10.74||0.39|TWO_SIDED|95.0|-31.15|12.56|||Regression, Linear|||||12.56|-31.15|0.39
82662008|NCT00373256|165041727|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.6299||||0.9986|TWO_SIDED|95.0|1.1793|2.2527||p-value from 1-sided log-rank stratified for prior adjuvant chemotherapy, hormone receptor status, disease-free interval from prior adjuvant treatment. Stratification factors from Interactive Voice Randomization System.|Log Rank||Assuming proportional hazards, a hazard ratio greater than 1 indicated a reduction in hazard rate in favor Bevacizumab + Paclitaxel.|||2.2527|1.1793|0.9986
82662009|NCT00373256|165041728|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|32.2|||||TWO_SIDED|95.0|26.4|38.5||||||||38.5|26.4|
82662010|NCT00373256|165041728|SUPERIORITY_OR_OTHER||Objective Response Rate (ORR) (percent)|32.1|||||TWO_SIDED|95.0|26.3|38.4||||||||38.4|26.3|
82662011|NCT00373256|165041731|SUPERIORITY_OR_OTHER||Percentage|76.8|||||TWO_SIDED|95.0|68.7|83.0||||||1 year||83.0|68.7|
82662012|NCT00373256|165041731|SUPERIORITY_OR_OTHER||Percentage|35.5|||||TWO_SIDED|95.0|20.9|50.3||||||2 years||50.3|20.9|
82662013|NCT00373256|165041731|SUPERIORITY_OR_OTHER||Percentage|83.7|||||TWO_SIDED|95.0|76.0|89.1||||||1 year||89.1|76.0|
82662014|NCT00373256|165041731|SUPERIORITY_OR_OTHER||Percentage|61.0|||||TWO_SIDED|95.0|43.2|74.7||||||2 years||74.7|43.2|
82662015|NCT00446966|165041747|SUPERIORITY||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82662016|NCT00859521|165041760|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|96.7||||||90.0|92.4|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|92.4|
82662017|NCT00859521|165041761|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.4||||||90.0|96.9|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|96.9|
82662018|NCT00859521|165041762|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Ratio of Geometric Means|98.8||||||90.0|97.2|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100|97.2|
82662019|NCT01609257|165041763|SUPERIORITY_OR_OTHER|||||||0.674||||||No multiplicity adjustment.|Fisher Exact|||||||0.674
82662020|NCT01609257|165041770|SUPERIORITY_OR_OTHER|||||||0.001||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||||||0.001
82662021|NCT01609257|165041771|SUPERIORITY_OR_OTHER|||||||0.008||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||Score 1||||0.008
82662022|NCT01609257|165041771|SUPERIORITY_OR_OTHER|||||||0.037||||||Statistically significant at p\<0.05. No multiplicity adjustment.|Wilcoxon (Mann-Whitney)|||Score 2||||0.037
82662023|NCT01609257|165041772|SUPERIORITY_OR_OTHER|||||||0.199|||||||Wilcoxon (Mann-Whitney)|||||||0.199
82662024|NCT01609257|165041773|SUPERIORITY_OR_OTHER|||||||0.562||||||Comparison of % Positive|Fisher Exact|||Any Day 1 to 30||||0.562
82662025|NCT02125461|165041796|SUPERIORITY||Hazard Ratio (HR)|0.52|||<|0.0001|TWO_SIDED|95.0|0.42|0.65|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.65|0.42|<0.0001
82662026|NCT02125461|165041797|SUPERIORITY||Hazard Ratio (HR)|0.68||||0.00251|TWO_SIDED|95.0|0.53|0.87|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.87|0.53|0.00251
82662027|NCT02125461|165041798|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Analysis performed using Fisher's exact test with mid p-value modification by subtracting half of the probability of the observed table from Fisher's p-value.||||<0.001
82662028|NCT02125461|165041802|SUPERIORITY||Hazard Ratio (HR)|0.53|||<|0.0001|TWO_SIDED|95.0|0.41|0.68|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.68|0.41|<0.0001
82662029|NCT02125461|165041803|SUPERIORITY|||||||0.005||||||P-value generated based on z-test where z-test statistic is the ratio of the log-transformed ratio of the cumulative hazards in the 2 treatment arms divided by the square root of the variance.|z-test|The variance was estimated using the delta method and Greenwood's formula.||||||0.005
82662030|NCT02125461|165041804|SUPERIORITY||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.46|0.73|||Log Rank|||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.||0.73|0.46|<0.0001
82662031|NCT02125461|165041805|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.664|TWO_SIDED|95.0|0.77|1.18||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.18|0.77|0.664
82662032|NCT02125461|165041806|SUPERIORITY||Hazard Ratio (HR)|1.06||||0.522|TWO_SIDED|95.0|0.88|1.29||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for dyspnea. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.29|0.88|0.522
82662033|NCT02125461|165041806|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.38|TWO_SIDED|95.0|0.74|1.12||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for cough. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.12|0.74|0.380
82662034|NCT02125461|165041806|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.048|TWO_SIDED|95.0|0.56|1.0||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for hemoptysis. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.00|0.56|0.048
82662035|NCT02125461|165041806|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.626|TWO_SIDED|95.0|0.75|1.19||Analysis performed using a stratified log rank test adjusting for age at randomization (\<65 vs ≥65), sex (male vs female), and smoking history (smoker vs non-smoker) with ties handled using the Breslow approach.|Log Rank|||Treatment comparison for chest pain. The hazard ratio and CI were estimated from a stratified Cox proportional hazards model with the Breslow method to control for ties, the stratification factors age at randomization (\<65 vs ≥65), sex (male vs female) and smoking history (smoker vs non-smoker) in the strata statement, and the CI calculated using a profile likelihood approach.||1.19|0.75|0.626
82662036|NCT02888756|165041815|SUPERIORITY|||||||0.14|||||||Mixed Models Analysis|||Analyzed for week 6, to provide statistical information for decision on execution of intracellular cytokine staining (ICS).||||0.14
82662037|NCT00834132|165041826|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|94.81||||||90.0|84.77|106.04|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.04|84.77|
82662038|NCT00834132|165041827|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|100.89||||||90.0|96.0|106.03|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.03|96.00|
82662039|NCT00834132|165041828|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|101.14||||||90.0|96.05|106.49|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||106.49|96.05|
82662040|NCT02718963|165041842|OTHER||Mean Difference (Final Values)|0.05|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare the Videofluoroscopic swallowing study(VFSS) kinematic variables, VDS, PAS, and high resolution manometry (HRM) variables between the neuromuscular electrical stimulation session and the control session in swallowing thin fluid and thick fluid for healthy, dysphagic and whole participants. Mann-Whitney test was used to compare the differences of VFSS variables, VDS, PAS, and HRM variables between the healthy participants and dysphagic participants.||||< 0.05
82662041|NCT00836472|165041860|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.41||||||90.0|88.43|105.1|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.10|88.43|
82662042|NCT00836472|165041861|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.78||||||90.0|95.14|102.57|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.57|95.14|
82662043|NCT00836472|165041862|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.52||||||90.0|94.44|102.78|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.78|94.44|
82499450|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.717|STANDARD_ERROR_OF_MEAN|0.384||||90.0|-2.35|-1.084|||ANCOVA|||Month 18; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.084|-2.350|
82662044|NCT00836472|165041863|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|94.08||||||90.0|89.6|98.77|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.77|89.60|
82662045|NCT00836472|165041864|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.33||||||90.0|92.6|100.21|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.21|92.60|
82662046|NCT00836472|165041865|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.01||||||90.0|92.18|100.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.00|92.18|
82662047|NCT01695239|165041866|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82662048|NCT01695239|165041866|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82662049|NCT01695239|165041866|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||||||<0.001
82662050|NCT04383587|165041898|SUPERIORITY||||||>|0.18|||||||Fisher Exact|||Participants were grouped by age (18-35 vs. 36-50 vs. 51-65 vs. \>65), Sex at birth (Female vs. Male). and Occupational Role (Technician vs Anesthesiologist vs Advanced Practice Provider vs. Attendant Aide vs. CRNA vs. OR nurse vs Perfusionist vs Surgeon).||||>0.18
82662051|NCT03913377|165041900|EQUIVALENCE|A statistically significant difference in NIBUT/NIKBUT between Test lens and Spectacles was concluded if the upper confidence limit of the 95% CI is below zero or the lower limit is above zero.|LS Mean Difference|-2.79|STANDARD_ERROR_OF_MEAN|0.678|||TWO_SIDED|95.0|-4.14|-1.44|||Mixed Model Analysis|Kenward and Roger method was used for denominator degrees of freedom.|LS Mean difference was calculated as Test minus Control|The null and alternative hypotheses for testing significant difference between Test lens and Spectacles among habitual lens users with respect to NIBUT/NIKBUT.||-1.44|-4.14|
82662052|NCT03913377|165041901|OTHER|Estimated 95% confidence intervals for the point estimates of Test and Control|Mean Proportion|85.59|STANDARD_ERROR_OF_MEAN|1.038|||TWO_SIDED|95.0|43.2|97.89|||Mixed Model Analysis|||Point estimates for Test and Control with 95% confidence intervals||97.89|43.2|
82662053|NCT03913377|165041901|OTHER|Estimated 95% confidence intervals for the point estimates of Test and Control|Mean Proportion|84.17|STANDARD_ERROR_OF_MEAN|0.871|||TWO_SIDED|95.0|48.67|96.75|||Mixed Model Analysis|||Point estimates for Test and Control with 95% confidence intervals||96.75|48.67|
82662054|NCT03913377|165041902|OTHER|Estimated 95% confidence intervals for the point estimates of test.|Mean|0.52|STANDARD_ERROR_OF_MEAN|0.053|||TWO_SIDED|95.0|0.4|0.65|||Mixed Model Analysis|Kenward and Rogers Metod was used for degrees of freedom|||Point estimate was calculated for Test.|0.65|0.40|
82662055|NCT03913377|165041902|OTHER|Estimated 95% confidence intervals for the point estimates of Control.|Mean|0.13|STANDARD_ERROR_OF_MEAN|0.036|||TWO_SIDED|95.0|-0.19|0.44|||Mixed Model Analysis|Kenward and Rogers Metod was used for degrees of freedom|||Point estimates were calculated for Control.|0.44|-0.19|
82662056|NCT03913377|165041903|OTHER|Estimated 95% confidence intervals for the point estimates of Test.|Mean Proportion|30.7|STANDARD_ERROR_OF_MEAN|19.87|||TWO_SIDED|95.0|6.5|73.8|||Mixed Model Analysis||Point estimates were calculated for Test|||73.8|6.5|
82662057|NCT03913377|165041903|OTHER|Estimated 95% confidence intervals for the point estimates of Control.|Mean Proportion|27.9|STANDARD_ERROR_OF_MEAN|18.17|||TWO_SIDED|95.0|6.1|69.8|||Mixed Model Analysis||Point estimates were calculated for Control.|||69.8|6.1|
82662058|NCT03552484|165041928|SUPERIORITY||Median Difference (Final Values)|0.05||||0.59|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Within-group paired t-tests and between-group paired t-tests||||0.59
82662059|NCT03552484|165041929|SUPERIORITY||Mean Difference (Final Values)|-1.43||||0.59|TWO_SIDED|95.0||||Between-group comparison|t-test, 2 sided|||||||0.59
82662060|NCT03552484|165041930|SUPERIORITY||Mean Difference (Final Values)|0.44||||0.62|TWO_SIDED|||||Between-group comparison of change in Multidimensional Caregiver Strain Index|t-test, 2 sided|||||||0.62
82662061|NCT01592240|165042022|SUPERIORITY_OR_OTHER||Adjusted mean difference|-34.28|||<|0.001|TWO_SIDED|95.0|-45.06|-23.5|||Mixed models repeated measures analysis|||||-23.50|-45.06|<0.001
82662062|NCT01592240|165042022|SUPERIORITY_OR_OTHER||Adjusted mean difference|-45.07|||<|0.001|TWO_SIDED|95.0|-55.93|-34.21|||Mixed models repeated measures analysis|||||-34.21|-55.93|<0.001
82662063|NCT01592240|165042022|SUPERIORITY_OR_OTHER||Adjusted mean difference|-53.42|||<|0.001|TWO_SIDED|95.0|-64.14|-42.7|||Mixed models repeated measures analysis|||||-42.70|-64.14|<0.001
82662064|NCT01592240|165042022|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.58|||<|0.001|TWO_SIDED|95.0|-40.49|-14.67|||Mixed models repeated measures analysis|||||-14.67|-40.49|<0.001
82662065|NCT01592240|165042022|SUPERIORITY_OR_OTHER||Adjusted mean difference|-44.85|||<|0.001|TWO_SIDED|95.0|-57.65|-32.05|||Mixed models repeated measures analysis|||||-32.05|-57.65|<0.001
82662066|NCT01592240|165042023|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.41|||<|0.001|TWO_SIDED|95.0|-39.15|-17.67|||Mixed models repeated measures analysis|||||-17.67|-39.15|<0.001
82662067|NCT01592240|165042023|SUPERIORITY_OR_OTHER||Adjusted mean difference|-43.21|||<|0.001|TWO_SIDED|95.0|-53.9|-32.51|||Mixed models repeated measures analysis|||||-32.51|-53.90|<0.001
82662068|NCT01592240|165042023|SUPERIORITY_OR_OTHER||Adjusted mean difference|-41.03|||<|0.001|TWO_SIDED|95.0|-51.66|-30.41|||Mixed models repeated measures analysis|||||-30.41|-51.66|<0.001
82662069|NCT01592240|165042023|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.77|||<|0.001|TWO_SIDED|95.0|-33.7|-13.84|||Mixed models repeated measures analysis|||||-13.84|-33.70|<0.001
82662070|NCT01592240|165042023|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.36|||<|0.001|TWO_SIDED|95.0|-40.24|-20.49|||Mixed models repeated measures analysis|||||-20.49|-40.24|<0.001
82662071|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-35.0|||<|0.001|TWO_SIDED|95.0|-44.91|-25.1|||Mixed models repeated measures analysis|||Week 12||-25.10|-44.91|<0.001
82662072|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-42.32|||<|0.001|TWO_SIDED|95.0|-52.3|-32.33|||Mixed models repeated measures analysis|||Week 12||-32.33|-52.30|<0.001
82662073|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-53.12|||<|0.001|TWO_SIDED|95.0|-62.97|-43.27|||Mixed models repeated measures analysis|||Week 12||-43.27|-62.97|<0.001
82662074|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-26.96|||<|0.001|TWO_SIDED|95.0|-38.25|-15.67|||Mixed models repeated measures analysis|||Week 12||-15.67|-38.25|<0.001
82662075|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-41.13|||<|0.001|TWO_SIDED|95.0|-52.32|-29.94|||Mixed models repeated measures analysis|||Week 12||-29.94|-52.32|<0.001
82662076|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-29.09|||<|0.001|TWO_SIDED|95.0|-38.42|-19.77|||Mixed models repeated measures analysis|||Week 24||-19.77|-38.42|<0.001
82662077|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-40.14|||<|0.001|TWO_SIDED|95.0|-49.43|-30.86|||Mixed models repeated measures analysis|||Week 24||-30.86|-49.43|<0.001
82662078|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-39.16|||<|0.001|TWO_SIDED|95.0|-48.37|-29.94|||Mixed models repeated measures analysis|||Week 24||-29.94|-48.37|<0.001
82662079|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-23.79|||<|0.001|TWO_SIDED|95.0|-32.88|-14.7|||Mixed models repeated measures analysis|||Week 24||-14.70|-32.88|<0.001
82662080|NCT01592240|165042024|SUPERIORITY_OR_OTHER||Adjusted mean difference|-29.08|||<|0.001|TWO_SIDED|95.0|-38.13|-20.04|||Mixed models repeated measures analysis|||Week 24||-20.04|-38.13|<0.001
82662081|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.64||||0.281|TWO_SIDED|95.0|-1.35|4.63|||Mixed models repeated measures analysis|||Week 12||4.63|-1.35|0.281
82662082|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.73||||0.251|TWO_SIDED|95.0|-1.24|4.71|||Mixed models repeated measures analysis|||Week 12||4.71|-1.24|0.251
82662083|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.53||||0.724|TWO_SIDED|95.0|-2.43|3.5|||Mixed models repeated measures analysis|||Week 12||3.50|-2.43|0.724
82662084|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.45||||0.007|TWO_SIDED|95.0|1.21|7.7|||Mixed models repeated measures analysis|||Week 12||7.70|1.21|0.007
82662085|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.86||||0.019|TWO_SIDED|95.0|0.63|7.09|||Mixed models repeated measures analysis|||Week 12||7.09|0.63|0.019
82662086|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.72||||0.225|TWO_SIDED|95.0|-1.07|4.51|||Mixed models repeated measures analysis|||Week 24||4.51|-1.07|0.225
82662087|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.79||||0.571|TWO_SIDED|95.0|-1.97|3.56|||Mixed models repeated measures analysis|||Week 24||3.56|-1.97|0.571
82662088|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.49||||0.725|TWO_SIDED|95.0|-2.25|3.24|||Mixed models repeated measures analysis|||Week 24||3.24|-2.25|0.725
82498986|NCT02289417|164688935|SUPERIORITY||Stratified Difference|14.6||||0.1167|TWO_SIDED|95.0|-3.3|31.4|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||31.4|-3.3|0.1167
82662089|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.01||||0.268|TWO_SIDED|95.0|-1.56|5.57|||Mixed models repeated measures analysis|||Week 24||5.57|-1.56|0.268
82662090|NCT01592240|165042025|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.01||||0.996|TWO_SIDED|95.0|-3.55|3.54|||Mixed models repeated measures analysis|||Week 24||3.54|-3.55|0.996
82662091|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.41||||0.246|TWO_SIDED|95.0|-2.38|9.21|||Mixed models repeated measures analysis|||Week 12||9.21|-2.38|0.246
82662092|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.62||||0.371|TWO_SIDED|95.0|-3.14|8.38|||Mixed models repeated measures analysis|||Week 12||8.38|-3.14|0.371
82662093|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.35||||0.643|TWO_SIDED|95.0|-4.4|7.1|||Mixed models repeated measures analysis|||Week 12||7.10|-4.40|0.643
82662094|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|7.66||||0.018|TWO_SIDED|95.0|1.33|13.99|||Mixed models repeated measures analysis|||Week 12||13.99|1.33|0.018
82662095|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|6.52||||0.043|TWO_SIDED|95.0|0.22|12.83|||Mixed models repeated measures analysis|||Week 12||12.83|0.22|0.043
82662096|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.9||||0.16|TWO_SIDED|95.0|-1.56|9.36|||Mixed models repeated measures analysis|||Week 24||9.36|-1.56|0.160
82662097|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.85||||0.758|TWO_SIDED|95.0|-4.56|6.25|||Mixed models repeated measures analysis|||Week 24||6.25|-4.56|0.758
82662098|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.57||||0.347|TWO_SIDED|95.0|-2.81|7.95|||Mixed models repeated measures analysis|||Week 24||7.95|-2.81|0.347
82662099|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.99||||0.343|TWO_SIDED|95.0|-3.22|9.21|||Mixed models repeated measures analysis|||Week 24||9.21|-3.22|0.343
82662100|NCT01592240|165042026|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.7||||0.824|TWO_SIDED|95.0|-6.87|5.48|||Mixed models repeated measures analysis|||Week 24||5.48|-6.87|0.824
82662101|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-18.55|||<|0.001|TWO_SIDED|95.0|-25.44|-11.67|||Mixed models repeated measures analysis|||Week 12||-11.67|-25.44|<0.001
82662102|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.67|||<|0.001|TWO_SIDED|95.0|-34.55|-20.79|||Mixed models repeated measures analysis|||Week 12||-20.79|-34.55|<0.001
82662103|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-32.09|||<|0.001|TWO_SIDED|95.0|-38.95|-25.22|||Mixed models repeated measures analysis|||Week 12||-25.22|-38.95|<0.001
82662104|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-14.56|||<|0.001|TWO_SIDED|95.0|-22.89|-6.24|||Mixed models repeated measures analysis|||Week 12||-6.24|-22.89|<0.001
82662105|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.5|||<|0.001|TWO_SIDED|95.0|-36.83|-20.16|||Mixed models repeated measures analysis|||Week 12||-20.16|-36.83|<0.001
82662106|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.67|||<|0.001|TWO_SIDED|95.0|-27.07|-12.27|||Mixed models repeated measures analysis|||Week 24||-12.27|-27.07|<0.001
82662107|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-28.17|||<|0.001|TWO_SIDED|95.0|-35.52|-20.82|||Mixed models repeated measures analysis|||Week 24||-20.82|-35.52|<0.001
82662108|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-25.41|||<|0.001|TWO_SIDED|95.0|-32.73|-18.09|||Mixed models repeated measures analysis|||Week 24||-18.09|-32.73|<0.001
82662109|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-12.72|||<|0.001|TWO_SIDED|95.0|-19.35|-6.09|||Mixed models repeated measures analysis|||Week 24||-6.09|-19.35|<0.001
82662110|NCT01592240|165042027|SUPERIORITY_OR_OTHER||Adjusted mean difference|-16.85|||<|0.001|TWO_SIDED|95.0|-23.47|-10.23|||Mixed models repeated measures analysis|||Week 24||-10.23|-23.47|<0.001
82662111|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-21.58|||<|0.001|TWO_SIDED|95.0|-29.23|-13.92|||Mixed models repeated measures analysis|||Week 12||-13.92|-29.23|<0.001
82662112|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.54|||<|0.001|TWO_SIDED|95.0|-38.19|-22.89|||Mixed models repeated measures analysis|||Week 12||-22.89|-38.19|<0.001
82662113|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-35.95|||<|0.001|TWO_SIDED|95.0|-43.59|-28.31|||Mixed models repeated measures analysis|||Week 12||-28.31|-43.59|<0.001
82662114|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-17.14|||<|0.001|TWO_SIDED|95.0|-25.87|-8.41|||Mixed models repeated measures analysis|||Week 12||-8.41|-25.87|<0.001
82662115|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.72|||<|0.001|TWO_SIDED|95.0|-39.45|-21.98|||Mixed models repeated measures analysis|||Week 12||-21.98|-39.45|<0.001
82662116|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-22.09|||<|0.001|TWO_SIDED|95.0|-30.32|-13.86|||Mixed models repeated measures analysis|||Week 24||-13.86|-30.32|<0.001
82662117|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-30.95|||<|0.001|TWO_SIDED|95.0|-39.13|-22.77|||Mixed models repeated measures analysis|||Week 24||-22.77|-39.13|<0.001
82662118|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-27.23|||<|0.001|TWO_SIDED|95.0|-35.38|-19.09|||Mixed models repeated measures analysis|||Week 24||-19.09|-35.38|<0.001
82662119|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-15.34|||<|0.001|TWO_SIDED|95.0|-22.9|-7.78|||Mixed models repeated measures analysis|||Week 24||-7.78|-22.90|<0.001
82662120|NCT01592240|165042028|SUPERIORITY_OR_OTHER||Adjusted mean difference|-19.15|||<|0.001|TWO_SIDED|95.0|-26.7|-11.59|||Mixed models repeated measures analysis|||Week 24||-11.59|-26.70|<0.001
82662121|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.77||||0.667|TWO_SIDED|95.0|-6.33|9.88|||Mixed models repeated measures analysis|||Week 12||9.88|-6.33|0.667
82662122|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.44||||0.187|TWO_SIDED|95.0|-2.66|13.54|||Mixed models repeated measures analysis|||Week 12||13.54|-2.66|0.187
82662123|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.82||||0.352|TWO_SIDED|95.0|-4.25|11.9|||Mixed models repeated measures analysis|||Week 12||11.90|-4.25|0.352
82662124|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.6||||0.09|TWO_SIDED|95.0|-0.89|12.09|||Mixed models repeated measures analysis|||Week 12||12.09|-0.89|0.090
82662125|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.36||||0.184|TWO_SIDED|95.0|-2.1|10.82|||Mixed models repeated measures analysis|||Week 12||10.82|-2.10|0.184
82662126|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.59||||0.879|TWO_SIDED|95.0|-7.09|8.28|||Mixed models repeated measures analysis|||Week 24||8.28|-7.09|0.879
82498987|NCT02289417|164688935|SUPERIORITY||Stratified Difference|18.1||||0.0534|TWO_SIDED|95.0|-0.3|34.9|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||34.9|-0.3|0.0534
82662127|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.43||||0.911|TWO_SIDED|95.0|-7.17|8.02|||Mixed models repeated measures analysis|||Week 24||8.02|-7.17|0.911
82662128|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|4.12||||0.283|TWO_SIDED|95.0|-3.44|11.69|||Mixed models repeated measures analysis|||Week 24||11.69|-3.44|0.283
82662129|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.41||||0.728|TWO_SIDED|95.0|-9.41|6.59|||Mixed models repeated measures analysis|||Week 24||6.59|-9.41|0.728
82662130|NCT01592240|165042029|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.19||||0.587|TWO_SIDED|95.0|-10.13|5.75|||Mixed models repeated measures analysis|||Week 24||5.75|-10.13|0.587
82662131|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.66||||0.89|TWO_SIDED|95.0|-10.05|8.74|||Mixed models repeated measures analysis|||Week 12||8.74|-10.05|0.890
82662132|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.32||||0.625|TWO_SIDED|95.0|-7.04|11.68|||Mixed models repeated measures analysis|||Week 12||11.68|-7.04|0.625
82662133|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|6.54||||0.172|TWO_SIDED|95.0|-2.86|15.94|||Mixed models repeated measures analysis|||Week 12||15.94|-2.86|0.172
82662134|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.5||||0.109|TWO_SIDED|95.0|-0.79|7.8|||Mixed models repeated measures analysis|||Week 12||7.80|-0.79|0.109
82662135|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|2.67||||0.218|TWO_SIDED|95.0|-1.6|6.94|||Mixed models repeated measures analysis|||Week 12||6.94|-1.60|0.218
82662136|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.86||||0.812|TWO_SIDED|95.0|-8.01|6.29|||Mixed models repeated measures analysis|||Week 24||6.29|-8.01|0.812
82662137|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.15||||0.749|TWO_SIDED|95.0|-8.24|5.94|||Mixed models repeated measures analysis|||Week 24||5.94|-8.24|0.749
82662138|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|5.82||||0.108|TWO_SIDED|95.0|-1.29|12.93|||Mixed models repeated measures analysis|||Week 24||12.93|-1.29|0.108
82662139|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.83||||0.752|TWO_SIDED|95.0|-5.99|4.34|||Mixed models repeated measures analysis|||Week 24||4.34|-5.99|0.752
82662140|NCT01592240|165042030|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.55||||0.55|TWO_SIDED|95.0|-6.68|3.57|||Mixed models repeated measures analysis|||Week 24||3.57|-6.68|0.550
82662141|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.19||||0.893|TWO_SIDED|95.0|-2.62|3.0|||Mixed models repeated measures analysis|||Week 12||3.00|-2.62|0.893
82662142|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.33||||0.355|TWO_SIDED|95.0|-1.49|4.15|||Mixed models repeated measures analysis|||Week 12||4.15|-1.49|0.355
82662143|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.64||||0.655|TWO_SIDED|95.0|-3.45|2.17|||Mixed models repeated measures analysis|||Week 12||2.17|-3.45|0.655
82662144|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.49||||0.719|TWO_SIDED|95.0|-3.2|2.21|||Mixed models repeated measures analysis|||Week 12||2.21|-3.20|0.719
82662145|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.41||||0.768|TWO_SIDED|95.0|-2.31|3.12|||Mixed models repeated measures analysis|||Week 12||3.12|-2.31|0.768
82662146|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.66||||0.199|TWO_SIDED|95.0|-0.88|4.2|||Mixed models repeated measures analysis|||Week 24||4.20|-0.88|0.199
82662147|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.9||||0.483|TWO_SIDED|95.0|-1.62|3.41|||Mixed models repeated measures analysis|||Week 24||3.41|-1.62|0.483
82662148|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.03||||0.42|TWO_SIDED|95.0|-1.49|3.56|||Mixed models repeated measures analysis|||Week 24||3.56|-1.49|0.420
82662149|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.69||||0.488|TWO_SIDED|95.0|-2.67|1.28|||Mixed models repeated measures analysis|||Week 24||1.28|-2.67|0.488
82662150|NCT01592240|165042031|SUPERIORITY_OR_OTHER||Adjusted mean difference|-0.39||||0.694|TWO_SIDED|95.0|-2.36|1.58|||Mixed models repeated measures analysis|||Week 24||1.58|-2.36|0.694
82662151|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|10.29||||0.527|TWO_SIDED|95.0|-21.73|42.3|||Mixed models repeated measures analysis|||Week 12||42.30|-21.73|0.527
82662152|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.39||||0.981|TWO_SIDED|95.0|-31.49|32.26|||Mixed models repeated measures analysis|||Week 12||32.26|-31.49|0.981
82662153|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|0.54||||0.974|TWO_SIDED|95.0|-31.72|32.8|||Mixed models repeated measures analysis|||Week 12||32.80|-31.72|0.974
82662154|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.58||||0.64|TWO_SIDED|95.0|-8.25|5.09|||Mixed models repeated measures analysis|||Week 12||5.09|-8.25|0.640
82662155|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|1.08||||0.75|TWO_SIDED|95.0|-5.61|7.77|||Mixed models repeated measures analysis|||Week 12||7.77|-5.61|0.750
82662156|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|9.8||||0.509|TWO_SIDED|95.0|-19.41|39.01|||Mixed models repeated measures analysis|||Week 24||39.01|-19.41|0.509
82662157|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|-2.69||||0.855|TWO_SIDED|95.0|-31.76|26.38|||Mixed models repeated measures analysis|||Week 24||26.38|-31.76|0.855
82662158|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|3.04||||0.839|TWO_SIDED|95.0|-26.39|32.47|||Mixed models repeated measures analysis|||Week 24||32.47|-26.39|0.839
82662159|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.99||||0.392|TWO_SIDED|95.0|-6.57|2.59|||Mixed models repeated measures analysis|||Week 24||2.59|-6.57|0.392
82662160|NCT01592240|165042032|SUPERIORITY_OR_OTHER||Adjusted mean difference|-1.33||||0.565|TWO_SIDED|95.0|-5.91|3.24|||Mixed models repeated measures analysis|||Week 24||3.24|-5.91|0.565
82662161|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|14.964|||<|0.001|TWO_SIDED|95.0|3.997|56.02|||Regression, Logistic|||Week 12, Less than 100 mg/dL||56.020|3.997|<0.001
82662162|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|49.615|||<|0.001|TWO_SIDED|95.0|7.984|308.328|||Regression, Logistic|||Week 12, Less than 100 mg/dL||308.328|7.984|<0.001
82662163|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.842|||<|0.001|TWO_SIDED|95.0|3.674|44.892|||Regression, Logistic|||Week 12, Less than 100 mg/dL||44.892|3.674|<0.001
82662164|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.107||||0.01|TWO_SIDED|95.0|1.304|7.401|||Regression, Logistic|||Week 12, Less than 100 mg/dL||7.401|1.304|0.010
82662165|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.048|||<|0.001|TWO_SIDED|95.0|2.402|15.225|||Regression, Logistic|||Week 12, Less than 100 mg/dL||15.225|2.402|<0.001
82662166|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|12.773|||<|0.001|TWO_SIDED|95.0|3.932|41.495|||Regression, Logistic|||Week 24, Less than 100 mg/dL||41.495|3.932|<0.001
82662167|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.886|||<|0.001|TWO_SIDED|95.0|8.33|163.335|||Regression, Logistic|||Week 24, Less than 100 mg/dL||163.335|8.330|<0.001
82662168|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|20.75|||<|0.001|TWO_SIDED|95.0|5.741|75.006|||Regression, Logistic|||Week 24, Less than 100 mg/dL||75.006|5.741|<0.001
82662169|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.219||||0.001|TWO_SIDED|95.0|2.061|18.764|||Regression, Logistic|||Week 24, Less than 100 mg/dL||18.764|2.061|0.001
82662170|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.205||||0.001|TWO_SIDED|95.0|2.06|18.693|||Regression, Logistic|||Week 24, Less than 100 mg/dL||18.693|2.060|0.001
82662171|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.703|||<|0.001|TWO_SIDED|95.0|5.752|133.423|||Regression, Logistic|||Week 12, Less than 70 mg/dL||133.423|5.752|<0.001
82662172|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|71.177|||<|0.001|TWO_SIDED|95.0|13.783|367.564|||Regression, Logistic|||Week 12, Less than 70 mg/dL||367.564|13.783|<0.001
82662173|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|100.667|||<|0.001|TWO_SIDED|95.0|19.855|510.387|||Regression, Logistic|||Week 12, Less than 70 mg/dL||510.387|19.855|<0.001
82662174|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 70 mg/dL.||||<0.001
82662175|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.941|||<|0.001|TWO_SIDED|95.0|6.336|98.169|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||98.169|6.336|<0.001
82662176|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|80.004|||<|0.001|TWO_SIDED|95.0|18.094|353.742|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||353.742|18.094|<0.001
82662177|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|42.101|||<|0.001|TWO_SIDED|95.0|10.621|166.894|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||166.894|10.621|<0.001
82662178|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.7||||0.023|TWO_SIDED|95.0|1.396|98.075|||Regression, Logistic|||Week 24, Less than 70 mg/dL.||98.075|1.396|0.023
82662179|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|36.841|||<|0.001|TWO_SIDED|95.0|4.527|299.817|||Regression, Logistic|||Week 24, Less than 70 mg/dL||299.817|4.527|<0.001
82662180|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
82662181|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
82662182|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 40 mg/dL.||||<0.001
82662183|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
82662184|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
82662185|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 40 mg/dL.||||<0.001
82662186|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
82662187|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
82662188|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 12, Less than 25 mg/dL.||||<0.001
82662189|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.587||||1|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL||||1.000
82662190|NCT01592240|165042046|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL.||||<0.001
82662191|NCT01592240|165042046|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.925||||1|||||||Regression, Logistic|||Week 24, Less than 25 mg/dL||||1.000
82662192|NCT03264092|165042070|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.18|||||||Fisher Exact|||||||0.18
82662193|NCT03264092|165042071|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.41|||||||Fisher Exact|||||||0.41
82662194|NCT03264092|165042072|OTHER|This was just a comparative study. No superiority, equivalence or non inferiority analysis was performed.||||||0.45|||||||Fisher Exact|||||||0.45
82662195|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.1|STANDARD_ERROR_OF_MEAN|1.1||0.06|TWO_SIDED|||||p\<0.05 considered to be significant|ANOVA|||Comparison of Week 10 means for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least means squares from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.06
82662196|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.008|TWO_SIDED|||||p\< 0.05 was considered to be significant.|ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.008
82662197|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.1|STANDARD_ERROR_OF_MEAN|1.2||0.07|TWO_SIDED|||||p\< 0.05 was considered to be significant.|Mixed Models Analysis|||Comparison of Week 12 mean for mean drinks per day obtained for the placebo and zonisamide groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.07
82662198|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means.|-3.4|STANDARD_ERROR_OF_MEAN|1.1||0.003|TWO_SIDED|||||p\<0.05 is considered as being significant.|ANOVA|||Comparison of Week 10 mean for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates,||||0.003
82662199|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-4.4|STANDARD_ERROR_OF_MEAN|1.1||0.0002|TWO_SIDED||||||ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates. .||||0.0002
82662200|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-4.1|STANDARD_ERROR_OF_MEAN|1.2||0.0007|TWO_SIDED||||||ANOVA|||Comparison of Week 12 means for mean drinks per day obtained for the placebo and topiramate groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0007
82662201|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-1.64|STANDARD_ERROR_OF_MEAN|1.1||0.15|TWO_SIDED|||||p\<0.05 considered to be significant|ANOVA|||Comparison of Week 10 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.15
82662202|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.9|STANDARD_ERROR_OF_MEAN|1.2||0.014|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariate values.||||0.014
82499451|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.273|STANDARD_ERROR_OF_MEAN|0.411||||90.0|-1.95|-0.596|||ANCOVA|||Month 21; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.596|-1.950|
82662203|NCT00862563|165042073|SUPERIORITY_OR_OTHER||Difference between least squares means|-2.0|STANDARD_ERROR_OF_MEAN|1.2||0.1|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean drinks per day obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means s from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.1
82662204|NCT00862563|165042074|SUPERIORITY_OR_OTHER||Mean difference Week 12|8.9|STANDARD_ERROR_OF_MEAN|3.6||0.015|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison between mean values obtained for the topiramate and placebo groups for Week 12. Model generated least mean squares were used for this analysis.||||0.015
82662205|NCT00862563|165042074|SUPERIORITY_OR_OTHER||Mean Difference Week 12|0.98|STANDARD_ERROR_OF_MEAN|3.6||0.784|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of means for the zonisamide and placebo group for Week 12. Mixed models generated means were used in this analysis.||||0.784
82662206|NCT00862563|165042074|SUPERIORITY_OR_OTHER||Mean difference Week 12|3.65|STANDARD_ERROR_OF_MEAN|3.3||0.264|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of means for the levetiracetam and placebo groups for Week 12. Model generated least mean squares were used for this analysis.||||0.264
82662207|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.4|STANDARD_ERROR_OF_MEAN|9.7||0.013|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.013
82662208|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-20.9|STANDARD_ERROR_OF_MEAN|9.8||0.036|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.036
82662209|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-22.8|STANDARD_ERROR_OF_MEAN|9.9||0.24|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.24
82662210|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-33.0|STANDARD_ERROR_OF_MEAN|9.0||0.0004|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0004
82662211|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-29.7|STANDARD_ERROR_OF_MEAN|9.2||0.0015|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0015
82662212|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-37.7|STANDARD_ERROR_OF_MEAN|9.3|<|0.0001|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and topiramate groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||<0.0001
82662213|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-20.7|STANDARD_ERROR_OF_MEAN|10.0||0.04|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.04
82662214|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-23.3|STANDARD_ERROR_OF_MEAN|10.2||0.025|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 11 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.025
82662215|NCT00862563|165042075|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.8|STANDARD_ERROR_OF_MEAN|10.3||0.018|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 12 means for mean percent heavy drinking days obtained for the placebo and levetiracetam groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.018
82662216|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-22.5|STANDARD_ERROR_OF_MEAN|7.8||0.005|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.005
82499452|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.069|STANDARD_ERROR_OF_MEAN|0.439||||90.0|-1.792|-0.346|||ANCOVA|||Month 24; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.346|-1.792|
82662217|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-24.1|STANDARD_ERROR_OF_MEAN|7.9||0.003|TWO_SIDED||||||ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.003
82662218|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least square means|-16.3|STANDARD_ERROR_OF_MEAN|8.0||0.044|TWO_SIDED|||||p\< 0.05 is considered to be significant.|ANOVA|||Comparison of Week 12 means for mean percent drinking days obtained for the placebo and zonisamide groups Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.044
82662219|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-38.1|STANDARD_ERROR_OF_MEAN|9.0|<|0.0001|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factors. Baseline values were used as covariates.||||<0.0001
82662220|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-47.6|STANDARD_ERROR_OF_MEAN|9.1|<|0.0001|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||<0.0001
82662221|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-34.0|STANDARD_ERROR_OF_MEAN|9.2||0.0004|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Week 12.Comparison of Week 12 means for mean percent drinking days obtained for the placebo and topiramate. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis, with Week (time) as the the within subject factor and treatment as the between group factor. Baseline values were used as covariates.||||0.0004
82662222|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-19.3|STANDARD_DEVIATION|8.0||0.017|TWO_SIDED|||||p\<0.05 is considered to be significant|ANOVA|||Comparison of Week 10 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis. Baseline values were used as covariates.||||0.017
82662223|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-31.2|STANDARD_ERROR_OF_MEAN|8.1||0.0002|TWO_SIDED|||||p\<0.05 is considered to be significant.|ANOVA|||Comparison of Week 11 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis. Baseline values were used as covariates.||||0.0002
82662224|NCT00862563|165042076|SUPERIORITY_OR_OTHER||Difference between least squares means|-18.5|STANDARD_ERROR_OF_MEAN|8.2||0.026|TWO_SIDED|||||p\< 0.05 is considered to be significant|ANOVA|||.Comparison of Week 12 means for mean percent drinking days obtained for the placebo and levetiracetam groups. Means used for the analysis are least squares means from a two-way repeated measures mixed models analysis.Baseline values were used as covariates.||||0.026
82662225|NCT00862563|165042077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\< 0.01 is considered to be significant.|Mixed Models Analysis|p value is for the group x time interaction term.'||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||<0.0001
82662226|NCT00862563|165042077|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value is for group x time interaction term for the comparison of data for the topiramate and placebo group.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in a significant treatment x time interaction.||||<0.0001
82662227|NCT00862563|165042077|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value is for interaction effect for the comparison of data for the levetiracetam and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Letter Fluency scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in a significant treatment x time interaction.||||0.30
82662228|NCT00862563|165042078|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value is for the group x time interaction effect for the paired comparison of COWAT-category data for the zonisamide and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.003
82662229|NCT00862563|165042078|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED|||||p\< 0.01 is considered to be significant.|Mixed Models Analysis|The p value shown is for the group x time interaction effect for the comparison of data from the topiramate and the placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction||||0.01
82662230|NCT00862563|165042078|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|The p value is for the group x time interaction effect for the comparison of the levetiracetam and placebo groups.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that COWAT-Category scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction||||0.36
82662231|NCT00862563|165042079|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value is for the group x time interaction effect||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.07
82662232|NCT00862563|165042079|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group X time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that age adjusted Digit Span scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction.||||<0.0001
82662233|NCT00862563|165042079|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction.||||0.95
82662234|NCT00862563|165042080|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Spatial Span scores would change towards a downward direction for the zonisamide as compared to the placebo group resulting in significant treatment x time interaction.||||0.038
82662235|NCT00862563|165042080|SUPERIORITY_OR_OTHER|||||||0.0025|TWO_SIDED|||||p\<0.01 is considered to be significant.|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the topiramate as compared to the placebo group resulting in significant treatment x time interaction.||||0.0025
82662236|NCT00862563|165042080|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||p\<0.01 is considered to be significant|Mixed Models Analysis|p value shown is for the group x time interaction effect.||Data were analyzed using two-way repeated measures mixed models analysis. It was hypothesized that Digit span scores would change towards a downward direction for the levetiracetam as compared to the placebo group resulting in significant treatment x time interaction.||||0.3
82662237|NCT00840216|165042158|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|106.9||||||90.0|||||||Bioequivalence is established when the ratio of the mean falls within 80-125.|||||
82662238|NCT00840216|165042159|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|92.7||||||90.0|||||||Bioequivalence is established when ratio of the mean falls within 80-125.|||||
82662239|NCT00840216|165042160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using PROC GLM procedures in SAS, analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|93.0||||||90.0|||||||Bioequivalence is established when ratio of the mean falls within 80-125.|||||
82662240|NCT01058668|165042161|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-6.1|||<|0.001|TWO_SIDED|95.0|-8.4|-3.8|||Mixed Models Analysis||cariprazine (3-6 mg/day) - placebo|||-3.8|-8.4|<0.001
82662241|NCT01058668|165042161|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-5.9|||<|0.001|TWO_SIDED|95.0|-8.2|-3.6|||Mixed Models Analysis||cariprazine (6-12 mg/day) - placebo|||-3.6|-8.2|<0.001
82662242|NCT01058668|165042162|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.4|||Mixed Models Analysis||cariprazine (3-6 mg/day) - placebo|||-0.4|-0.9|<0.001
82662243|NCT01058668|165042162|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-0.6|||<|0.001|TWO_SIDED|95.0|-0.9|-0.3|||Mixed Models Analysis||cariprazine (6-12 mg/day) - placebo|||-0.3|-0.9|<0.001
82662244|NCT00848536|165042174|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.9|0.5|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||0.5|-0.9|
82662245|NCT00848536|165042175|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Median Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.8|0.6|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||00.6|-0.8|
82662246|NCT00848536|165042176|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 1.5 mmHg.|Median Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.35|||TWO_SIDED|95.0|-0.9|0.5|||||Treatment group differences were calculated as the mean IOP in the Travoprost APS group minus the mean IOP in the Travatan group. Non-inferiority was demonstrated if the upper 95% CL of the between treatment difference in mean IOP was \< 1.5 mmHg.|A hypothesis test was performed using a repeated measures analysis of variance model. For the test of non-inferiority, a two-sided 95% confidence intervals for the treatment group difference in mean IOP at each visit and time point was constructed based on analysis of variance.||0.5|-0.9|
82662247|NCT03214588|165042190|SUPERIORITY||Least Squares Mean Difference|-0.00054|STANDARD_ERROR_OF_MEAN|0.000746|>|0.999|TWO_SIDED|90.0|-0.00179|0.0007||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.00070|-0.00179|>0.999
82662248|NCT03214588|165042190|SUPERIORITY||Least Squares Mean Difference|-0.00069|STANDARD_ERROR_OF_MEAN|0.000616|>|0.999|TWO_SIDED|90.0|-0.00172|0.00033||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.00033|-0.00172|>0.999
82662249|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|0.782||0.135|TWO_SIDED|90.0|-2.18|0.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.44|-2.18|0.135
82662250|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.64||0.818|TWO_SIDED|90.0|-0.48|1.66||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.66|-0.48|0.818
82662251|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.77||0.591|TWO_SIDED|90.0|-1.11|1.47||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.47|-1.11|0.591
82662252|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|0.36|STANDARD_ERROR_OF_MEAN|0.643||0.713|TWO_SIDED|90.0|-0.71|1.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.44|-0.71|0.713
82662253|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|0.822||0.616|TWO_SIDED|90.0|-1.13|1.62||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.62|-1.13|0.616
82662254|NCT03214588|165042191|SUPERIORITY||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.679||0.708|TWO_SIDED|90.0|-0.76|1.51||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.51|-0.76|0.708
82662255|NCT03214588|165042192|SUPERIORITY||Least Squares Mean Difference|-0.00039|STANDARD_ERROR_OF_MEAN|0.000604||0.741|TWO_SIDED|90.0|-0.0014|0.00062||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.00062|-0.00140|0.741
82662256|NCT03214588|165042192|SUPERIORITY||Least Squares Mean Difference|-0.00093|STANDARD_ERROR_OF_MEAN|0.000505||0.964|TWO_SIDED|90.0|-0.00177|-0.00008||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||-0.00008|-0.00177|0.964
82662257|NCT03214588|165042192|SUPERIORITY||Least Squares Mean Difference|-0.00014|STANDARD_ERROR_OF_MEAN|0.000772||0.573|TWO_SIDED|90.0|-0.00143|0.00115||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.00115|-0.00143|0.573
82662258|NCT03214588|165042192|SUPERIORITY||Least Squares Mean Difference|-0.00044|STANDARD_ERROR_OF_MEAN|0.000646||0.749|TWO_SIDED|90.0|-0.00152|0.00064||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.00064|-0.00152|0.749
82662259|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.154||0.571|TWO_SIDED|90.0|-0.23|0.29||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Cutting-Handling Utensils||0.29|-0.23|0.571
82662260|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.126||0.963|TWO_SIDED|90.0|0.02|0.44||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Cutting-Handling Utensils||0.44|0.02|0.963
82662261|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.165||0.515|TWO_SIDED|90.0|-0.27|0.28||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Cutting-Handling Utensils||0.28|-0.27|0.515
82662262|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.138||0.986|TWO_SIDED|90.0|0.08|0.54||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Cutting-Handling Utensils||0.54|0.08|0.986
82662263|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.162||0.718|TWO_SIDED|90.0|-0.18|0.37||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Cutting-Handling Utensils||0.37|-0.18|0.718
82662264|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.133||0.986|TWO_SIDED|90.0|0.08|0.52||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Cutting-Handling Utensils||0.52|0.08|0.986
82662265|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.148||0.153|TWO_SIDED|90.0|-0.4|0.09||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Dressing||0.09|-0.40|0.153
82662266|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.119||0.861|TWO_SIDED|90.0|-0.07|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Dressing||0.33|-0.07|0.861
82662267|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.12||0.443|TWO_SIDED|90.0|-0.22|0.18||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Dressing||0.18|-0.22|0.443
82662268|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.1||0.359|TWO_SIDED|90.0|-0.2|0.13||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Dressing||0.13|-0.20|0.359
82662269|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.157||0.268|TWO_SIDED|90.0|-0.36|0.17||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Dressing||0.17|-0.36|0.268
82662270|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.129||0.411|TWO_SIDED|90.0|-0.24|0.19||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Dressing||0.19|-0.24|0.411
82662271|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.151||0.358|TWO_SIDED|90.0|-0.31|0.2||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Personal Hygiene||0.20|-0.31|0.358
82662272|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.123||0.946|TWO_SIDED|90.0|0.0|0.41||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 2, Personal Hygiene||0.41|0.00|0.946
82662273|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.193||0.505|TWO_SIDED|90.0|-0.32|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Personal Hygiene||0.33|-0.32|0.505
82662274|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.158||0.658|TWO_SIDED|90.0|-0.2|0.33||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 7, Personal Hygiene||0.33|-0.20|0.658
82662275|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.184||0.649|TWO_SIDED|90.0|-0.24|0.38||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Personal Hygiene||0.38|-0.24|0.649
82662276|NCT03214588|165042193|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.151||0.661|TWO_SIDED|90.0|-0.19|0.32||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA||MMRM ANCOVA with Baseline FARS ADL as a covariate; pooled site, visit, treatment, and ambulation status (randomization factor) as fixed factors; and treatment-by-visit and Baseline FARS ADL-by-visit interactions.|Change at Week 12, Personal Hygiene||0.32|-0.19|0.661
82662277|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|1.078||0.992|TWO_SIDED|90.0|0.86|4.47||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.47|0.86|0.992
82662278|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|2.78|STANDARD_ERROR_OF_MEAN|0.892||0.999|TWO_SIDED|90.0|1.29|4.28||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.28|1.29|0.999
82662279|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.338||0.616|TWO_SIDED|90.0|-1.84|2.64||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.64|-1.84|0.616
82662280|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|1.06|STANDARD_ERROR_OF_MEAN|1.131||0.823|TWO_SIDED|90.0|-0.83|2.95||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.95|-0.83|0.823
82499453|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.785|STANDARD_ERROR_OF_MEAN|0.418||||90.0|-1.475|-0.096|||ANCOVA|||Follow-up Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.096|-1.475|
82662281|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|2.02|STANDARD_ERROR_OF_MEAN|1.266||0.942|TWO_SIDED|90.0|-0.1|4.13||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||4.13|-0.10|0.942
82662282|NCT03214588|165042194|SUPERIORITY||Least Squares Mean Difference|2.11|STANDARD_ERROR_OF_MEAN|1.053||0.975|TWO_SIDED|90.0|0.35|3.87||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||3.87|0.35|0.975
82662283|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|-0.15|0.29||||||Change at Week 2, Bulbar||0.29|-0.15|
82662284|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.12|0.25||||||Change at Week 2, Bulbar||0.25|-0.12|
82662285|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|90.0|-0.3|0.11||||||Change at Week 7, Bulbar||0.11|-0.30|
82662286|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.02|0.33||||||Change at Week 7, Bulbar||0.33|-0.02|
82662287|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.19|0.28||||||Change at Week 12, Bulbar||0.28|-0.19|
82662288|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|90.0|0.0|0.4||||||Change at Week 12, Bulbar||0.40|0.00|
82662289|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|1.99|STANDARD_ERROR_OF_MEAN|0.689|||TWO_SIDED|90.0|0.83|3.14||||||Change at Week 2, Upper Limb Coordination||3.14|0.83|
82662290|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|1.02|STANDARD_ERROR_OF_MEAN|0.571|||TWO_SIDED|90.0|0.06|1.97||||||Change at Week 2, Upper Limb Coordination||1.97|0.06|
82662291|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|1.08|STANDARD_ERROR_OF_MEAN|0.882|||TWO_SIDED|90.0|-0.4|2.55||||||Change at Week 7, Upper Limb Coordination||2.55|-0.40|
82662292|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.18|STANDARD_ERROR_OF_MEAN|0.743|||TWO_SIDED|90.0|-1.06|1.43||||||Change at Week 7, Upper Limb Coordination||1.43|-1.06|
82662293|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|1.21|STANDARD_ERROR_OF_MEAN|1.016|||TWO_SIDED|90.0|-0.48|2.91||||||Change at Week 12, Upper Limb Coordination||2.91|-0.48|
82662294|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.53|STANDARD_ERROR_OF_MEAN|0.84|||TWO_SIDED|90.0|-0.87|1.94||||||Change at Week 12, Upper Limb Coordination||1.94|-0.87|
82662295|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.482|||TWO_SIDED|90.0|-0.41|1.2||||||Change at Week 2, Lower Limb Coordination||1.20|-0.41|
82662296|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.79|STANDARD_ERROR_OF_MEAN|0.397|||TWO_SIDED|90.0|0.12|1.45||||||Change at Week 2, Lower Limb Coordination||1.45|0.12|
82662297|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.837|||TWO_SIDED|90.0|-1.44|1.36||||||Change at Week 7, Lower Limb Coordination||1.36|-1.44|
82662298|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.707|||TWO_SIDED|90.0|-1.01|1.36||||||Change at Week 7, Lower Limb Coordination||1.36|-1.01|
82662299|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.99|STANDARD_ERROR_OF_MEAN|0.755|||TWO_SIDED|90.0|-0.27|2.25||||||Change at Week 12, Lower Limb Coordination||2.25|-0.27|
82662300|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.95|STANDARD_ERROR_OF_MEAN|0.626|||TWO_SIDED|90.0|-0.09|2.0||||||Change at Week 12, Lower Limb Coordination||2.00|-0.09|
82662301|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.63|||TWO_SIDED|90.0|-0.8|1.3||||||Change at Week 2, Upright Stability||1.3|-0.8|
82662302|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.52|||TWO_SIDED|90.0|0.1|1.9||||||Change at Week 2, Upright Stability||1.9|0.1|
82662303|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.45|||TWO_SIDED|90.0|-1.3|0.2||||||Change at Week 7, Upright Stability||0.2|-1.3|
82662304|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.38|||TWO_SIDED|90.0|0.0|1.2||||||Change at Week 7, Upright Stability||1.2|0.0|
82662305|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.57|||TWO_SIDED|90.0|-1.2|0.7||||||Change at Week 12, Upright Stability||0.7|-1.2|
82662306|NCT03214588|165042195|SUPERIORITY||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.48|||TWO_SIDED|90.0|-0.3|1.3||||||Change at Week 12, Upright Stability||1.3|-0.3|
82662307|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.084|||TWO_SIDED|90.0|-0.13|0.15||||||Change at Week 2, Cough||0.15|-0.13|
82662308|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.069|||TWO_SIDED|90.0|-0.11|0.12||||||Change at Week 2, Cough||0.12|-0.11|
82662309|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.105|||TWO_SIDED|90.0|-0.24|0.11||||||Change at Week 7, Cough||0.11|-0.24|
82662310|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.088|||TWO_SIDED|90.0|-0.05|0.25||||||Change at Week 7, Cough||0.25|-0.05|
82662311|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.106|||TWO_SIDED|90.0|-0.11|0.25||||||Change at Week 12, Cough||0.25|-0.11|
82662312|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|90.0|-0.03|0.26||||||Change at Week 12, Cough||0.26|-0.03|
82662313|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.09|0.25||||||Change at Week 2, Speech||0.25|-0.09|
82662314|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.083|||TWO_SIDED|90.0|-0.04|0.24||||||Change at Week 2, Speech||0.24|-0.04|
82662315|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.071|||TWO_SIDED|90.0|-0.16|0.08||||||Change at Week 7, Speech||0.08|-0.16|
82662316|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|90.0|-0.03|0.17||||||Change at Week 7, Speech||0.17|-0.03|
82662317|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.095|||TWO_SIDED|90.0|-0.16|0.16||||||Change at Week 12, Speech||0.16|-0.16|
82662318|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.079|||TWO_SIDED|90.0|-0.04|0.22||||||Change at Week 12, Speech||0.22|-0.04|
82662319|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.131|||TWO_SIDED|90.0|-0.14|0.29||||||Change at Week 2, Right Finger to Finger Test||0.29|-0.14|
82662320|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.108|||TWO_SIDED|90.0|-0.22|0.14||||||Change at Week 2, Right Finger to Finger Test||0.14|-0.22|
82662321|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.122|||TWO_SIDED|90.0|-0.13|0.28||||||Change at Week 7, Right Finger to Finger Test||0.28|-0.13|
82662322|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.103|||TWO_SIDED|90.0|-0.24|0.11||||||Change at Week 7, Right Finger to Finger Test||0.11|-0.24|
82662323|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.126|||TWO_SIDED|90.0|-0.3|0.12||||||Change at Week 12, Right Finger to Finger Test||0.12|-0.30|
82662324|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.32|0.03||||||Change at Week 12, Right Finger to Finger Test||0.03|-0.32|
82662325|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.142|||TWO_SIDED|90.0|-0.15|0.33||||||Change at Week 2, Left Finger to Finger Test||0.33|-0.15|
82662326|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.04|STANDARD_ERROR_OF_MEAN|0.117|||TWO_SIDED|90.0|-0.16|0.23||||||Change at Week 2, Left Finger to Finger Test||0.23|-0.16|
82662327|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.123|||TWO_SIDED|90.0|-0.18|0.23||||||Change at Week 7, Left Finger to Finger Test||0.23|-0.18|
82662328|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.104|||TWO_SIDED|90.0|-0.15|0.2||||||Change at Week 7, Left Finger to Finger Test||0.20|-0.15|
82662329|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|0.158|||TWO_SIDED|90.0|-0.17|0.36||||||Change at Week 12, Left Finger to Finger Test||0.36|-0.17|
82662330|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.13|||TWO_SIDED|90.0|-0.3|0.13||||||Change at Week 12, Left Finger to Finger Test||0.13|-0.30|
82662331|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|0.04|0.53||||||Change at Week 2, Right Nose to Finger Test||0.53|0.04|
82662332|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.118|||TWO_SIDED|90.0|-0.06|0.33||||||Change at Week 2, Right Nose to Finger Test||0.33|-0.06|
82662333|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.07|STANDARD_ERROR_OF_MEAN|0.174|||TWO_SIDED|90.0|-0.22|0.37||||||Change at Week 7, Right Nose to Finger Test||0.37|-0.22|
82662334|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.146|||TWO_SIDED|90.0|-0.32|0.16||||||Change at Week 7, Right Nose to Finger Test||0.16|-0.32|
82662335|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.166|||TWO_SIDED|90.0|-0.43|0.12||||||Change at Week 12, Right Nose to Finger Test||0.12|-0.43|
82662336|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.136|||TWO_SIDED|90.0|-0.23|0.23||||||Change at Week 12, Right Nose to Finger Test||0.23|-0.23|
82662337|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.14|0.4||||||Change at Week 2, Left Nose to Finger Test||0.40|-0.14|
82662338|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.133|||TWO_SIDED|90.0|-0.12|0.33||||||Change at Week 2, Left Nose to Finger Test||0.33|-0.12|
82662339|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.157|||TWO_SIDED|90.0|-0.09|0.43||||||Change at Week 7, Left Nose to Finger Test||0.43|-0.09|
82662340|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.134|||TWO_SIDED|90.0|-0.36|0.09||||||Change at Week 7, Left Nose to Finger Test||0.09|-0.36|
82662341|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.169|||TWO_SIDED|90.0|-0.29|0.27||||||Change at Week 12, Left Nose to Finger Test||0.27|-0.29|
82662342|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.21|0.27||||||Change at Week 12, Left Nose to Finger Test||0.27|-0.21|
82662343|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.33|0.26||||||Change at Week 2, Right Dysmetria Test||0.26|-0.33|
82662344|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.145|||TWO_SIDED|90.0|-0.12|0.36||||||Change at Week 2, Right Dysmetria Test||0.36|-0.12|
82662345|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.217|||TWO_SIDED|90.0|-0.25|0.48||||||Change at Week 7, Right Dysmetria Test||0.48|-0.25|
82662346|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.14|0.47||||||Change at Week 7, Right Dysmetria Test||0.47|-0.14|
82662347|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.221|||TWO_SIDED|90.0|-0.26|0.48||||||Change at Week 12, Right Dysmetria Test||0.48|-0.26|
82662348|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.36|0.25||||||Change at Week 12, Right Dysmetria Test||0.25|-0.36|
82662349|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.29|STANDARD_ERROR_OF_MEAN|0.185|||TWO_SIDED|90.0|-0.02|0.6||||||Change at Week 2, Left Dysmetria Test||0.60|-0.02|
82662350|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.153|||TWO_SIDED|90.0|-0.1|0.41||||||Change at Week 2, Left Dysmetria Test||0.41|-0.10|
82662351|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.228|||TWO_SIDED|90.0|-0.63|0.13||||||Change at Week 7, Left Dysmetria Test||0.13|-0.63|
82662352|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.192|||TWO_SIDED|90.0|-0.47|0.18||||||Change at Week 7, Left Dysmetria Test||0.18|-0.47|
82662353|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.06|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|90.0|-0.37|0.48||||||Change at Week 12, Left Dysmetria Test||0.48|-0.37|
82662354|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.11|0.58||||||Change at Week 12, Left Dysmetria Test||0.58|-0.11|
82662355|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.06|0.51||||||Change at Week 2, RAM of Right Hands||0.51|-0.06|
82662356|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.12|0.35||||||Change at Week 2, RAM of Right Hands||0.35|-0.12|
82662357|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.204|||TWO_SIDED|90.0|-0.41|0.28||||||Change at Week 7, RAM of Right Hands||0.28|-0.41|
82662358|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.172|||TWO_SIDED|90.0|-0.29|0.29||||||Change at Week 7, RAM of Right Hands||0.29|-0.29|
82662359|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.19|STANDARD_ERROR_OF_MEAN|0.187|||TWO_SIDED|90.0|-0.12|0.51||||||Change at Week 12, RAM of Right Hands||0.51|-0.12|
82662360|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.156|||TWO_SIDED|90.0|-0.31|0.21||||||Change at Week 12, RAM of Right Hands||0.21|-0.31|
82662361|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.141|||TWO_SIDED|90.0|-0.15|0.32||||||Change at Week 2, RAM of Left Hands||0.32|-0.15|
82662362|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|90.0|-0.12|0.27||||||Change at Week 2, RAM of Left Hands||0.27|-0.12|
82662363|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.08|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.27|0.43||||||Change at Week 7, RAM of Left Hands||0.43|-0.27|
82662364|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.176|||TWO_SIDED|90.0|-0.17|0.42||||||Change at Week 7, RAM of Left Hands||0.42|-0.17|
82662365|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.159|||TWO_SIDED|90.0|0.04|0.58||||||Change at Week 12, RAM of Left Hand||0.58|0.04|
82662366|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.132|||TWO_SIDED|90.0|-0.01|0.43||||||Change at Week 12, RAM of Left Hand||0.43|-0.01|
82662367|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.44|STANDARD_ERROR_OF_MEAN|0.201|||TWO_SIDED|90.0|0.1|0.77||||||Change at Week 2, Right Finger Taps||0.77|0.10|
82662368|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.168|||TWO_SIDED|90.0|-0.12|0.44||||||Change at Week 2, Right Finger Taps||0.44|-0.12|
82662369|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.227|||TWO_SIDED|90.0|-0.16|0.6||||||Change at Week 7, Right Finger Taps||0.60|-0.16|
82662370|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|90.0|-0.33|0.31||||||Change at Week 7, Right Finger Taps||0.31|-0.33|
82662371|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.17|STANDARD_ERROR_OF_MEAN|0.233|||TWO_SIDED|90.0|-0.22|0.56||||||Change at Week 12, Right Finger Taps||0.56|-0.22|
82662372|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.194|||TWO_SIDED|90.0|-0.39|0.26||||||Change at Week 12, Right Finger Taps||0.26|-0.39|
82662373|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.223|||TWO_SIDED|90.0|0.12|0.87||||||Change at Week 2, Left Finger Taps||0.87|0.12|
82662374|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.183|||TWO_SIDED|90.0|-0.25|0.36||||||Change at Week 2, Left Finger Taps||0.36|-0.25|
82662375|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.59|STANDARD_ERROR_OF_MEAN|0.218|||TWO_SIDED|90.0|0.22|0.95||||||Change at Week 7, Left Finger Taps||0.95|0.22|
82662376|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.184|||TWO_SIDED|90.0|-0.15|0.47||||||Change at Week 7, Left Finger Taps||0.47|-0.15|
82662377|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.57|STANDARD_ERROR_OF_MEAN|0.272|||TWO_SIDED|90.0|0.11|1.02||||||Change at Week 12, Left Finger Taps||1.02|0.11|
82662378|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|90.0|-0.04|0.71||||||Change at Week 12, Left Finger Taps||0.71|-0.04|
82662379|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.193|||TWO_SIDED|90.0|-0.12|0.53||||||Change at Week 2, Right Heel Along Shin Slide||0.53|-0.12|
82662380|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.161|||TWO_SIDED|90.0|-0.26|0.27||||||Change at Week 2, Right Heel Along Shin Slide||0.27|-0.26|
82662381|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.251|||TWO_SIDED|90.0|-0.56|0.28||||||Change at Week 7, Right Heel Along Shin Slide||0.28|-0.56|
82662382|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.214|||TWO_SIDED|90.0|-0.53|0.19||||||Change at Week 7, Right Heel Along Shin Slide||0.19|-0.53|
82662383|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|90.0|-0.12|0.78||||||Change at Week 12,Right Heel Along Shin Slide||0.78|-0.12|
82662384|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.13|STANDARD_ERROR_OF_MEAN|0.226|||TWO_SIDED|90.0|-0.25|0.51||||||Change at Week 12,Right Heel Along Shin Slide||0.51|-0.25|
82662385|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.205|||TWO_SIDED|90.0|-0.51|0.18||||||Change at Week 2, Left Heel Along Shin Slide||0.18|-0.51|
82662386|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.03|STANDARD_ERROR_OF_MEAN|0.166|||TWO_SIDED|90.0|-0.25|0.31||||||Change at Week 2, Left Heel Along Shin Slide||0.31|-0.25|
82662387|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.224|||TWO_SIDED|90.0|-0.68|0.07||||||Change at Week 7, Left Heel Along Shin Slide||0.07|-0.68|
82662388|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.188|||TWO_SIDED|90.0|-0.48|0.15||||||Change at Week 7, Left Heel Along Shin Slide||0.15|-0.48|
82662389|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.02|STANDARD_ERROR_OF_MEAN|0.254|||TWO_SIDED|90.0|-0.45|0.4||||||Change at Week 12, Left Heel Along Shin Slide||0.40|-0.45|
82662390|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.209|||TWO_SIDED|90.0|-0.34|0.36||||||Change at Week 12, Left Heel Along Shin Slide||0.36|-0.34|
82662391|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.187|||TWO_SIDED|90.0|-0.1|0.53||||||Change at Week 2, Right Heel Along Shin Tap||0.53|-0.10|
82662392|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.43|STANDARD_ERROR_OF_MEAN|0.155|||TWO_SIDED|90.0|0.17|0.69||||||Change at Week 2, Right Heel Along Shin Tap||0.69|0.17|
82662393|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.272|||TWO_SIDED|90.0|-0.72|0.19||||||Change at Week 7, Right Heel Along Shin Tap||0.19|-0.72|
82662394|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.231|||TWO_SIDED|90.0|-0.38|0.39||||||Change at Week 7, Right Heel Along Shin Tap||0.39|-0.38|
82662395|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.14|STANDARD_ERROR_OF_MEAN|0.222|||TWO_SIDED|90.0|-0.23|0.51||||||Change at Week 12, Right Heel Along Shin Tap||0.51|-0.23|
82662396|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.186|||TWO_SIDED|90.0|0.02|0.64||||||Change at Week 12, Right Heel Along Shin Tap||0.64|0.02|
82662397|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.16|STANDARD_ERROR_OF_MEAN|0.199|||TWO_SIDED|90.0|-0.17|0.5||||||Change at Week 2, Left Heel Along Shin Tap||0.50|-0.17|
82662398|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.164|||TWO_SIDED|90.0|0.06|0.61||||||Change at Week 2, Left Heel Along Shin Tap||0.61|0.06|
82662399|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.37|STANDARD_ERROR_OF_MEAN|0.277|||TWO_SIDED|90.0|-0.09|0.84||||||Change at Week 7, Left Heel Along Shin Tap||0.84|-0.09|
82662400|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.21|STANDARD_ERROR_OF_MEAN|0.234|||TWO_SIDED|90.0|-0.19|0.6||||||Change at Week 7, Left Heel Along Shin Tap||0.60|-0.19|
82662401|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.31|STANDARD_ERROR_OF_MEAN|0.303|||TWO_SIDED|90.0|-0.2|0.82||||||Change at Week 12, Left Heel Along Shin Tap||0.82|-0.20|
82662402|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.25|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.17|0.67||||||Change at Week 12, Left Heel Along Shin Tap||0.67|-0.17|
82662403|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.1|0.5||||||Change at Week 2, Siting Posture||0.5|-0.1|
82662404|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|-0.1|0.4||||||Change at Week 2, Siting Posture||0.4|-0.1|
82662405|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, Siting Posture||0.2|-0.4|
82662406|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.0|0.5||||||Change at Week 7, Siting Posture||0.5|0.0|
82662407|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.5|0.2||||||Change at Week 12, Siting Posture||0.2|-0.5|
82662408|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.2|0.3||||||Change at Week 12, Siting Posture||0.3|-0.2|
82662409|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.25|||TWO_SIDED|90.0|-0.4|0.4||||||Change at Week 2, SFA - TTA||0.4|-0.4|
82662410|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.3|0.3||||||Change at Week 2, SFA - TTA||0.3|-0.3|
82662411|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, SFA - TTA||0.2|-0.4|
82662412|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.5|0.1||||||Change at Week 7, SFA - TTA||0.1|-0.5|
82662413|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 12, SFA - TTA||0.4|-0.3|
82662414|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.2|0.4||||||Change at Week 12, SFA - TTA||0.4|-0.2|
82662415|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.1|0.3||||||Change at Week 2, SFA (Eyes Closed) - TTA||0.3|-0.1|
82662416|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFA (Eyes Closed) - TTA||0.1|-0.2|
82662417|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, SFA (Eyes Closed) - TTA||0.2|-0.4|
82662418|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16|||TWO_SIDED|90.0|-0.4|0.1||||||Change at Week 7, SFA (Eyes Closed) - TTA||0.1|-0.4|
82662419|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 12, SFA (Eyes Closed) - TTA||0.4|-0.3|
82662420|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|-0.5|0.1||||||Change at Week 12, SFA (Eyes Closed) - TTA||0.1|-0.5|
82662421|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.32|||TWO_SIDED|90.0|-0.8|0.2||||||Change at Week 2, SFT - TTA||0.2|-0.8|
82662422|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.26|||TWO_SIDED|90.0|0.0|0.8||||||Change at Week 2, SFT - TTA||0.8|0.0|
82662423|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.18|||TWO_SIDED|90.0|-0.3|0.4||||||Change at Week 7, SFT - TTA||0.4|-0.3|
82662424|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.2|0.7||||||Change at Week 7, SFT - TTA||0.7|0.2|
82662425|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|90.0|-0.5|0.2||||||Change at Week 12, SFT - TTA||0.2|-0.5|
82662426|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|90.0|0.0|0.7||||||Change at Week 12, SFT - TTA||0.7|0.0|
82662427|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFT (Eyes Closed) - TTA||0.1|-0.2|
82662428|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, SFT (Eyes Closed) - TTA||0.1|-0.2|
82662429|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.2||||||Change at Week 7, SFT (Eyes Closed) - TTA||0.2|-0.2|
82662430|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 7, SFT (Eyes Closed) - TTA||0.2|-0.1|
82662431|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.11|||TWO_SIDED|90.0|-0.2|0.2||||||Change at Week 12, SFT (Eyes Closed) - TTA||0.2|-0.2|
82662432|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.3|0.0||||||Change at Week 12, SFT (Eyes Closed) - TTA||0.0|-0.3|
82662433|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 2, Tandem Stance - TTA||0.1|-0.2|
82662434|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Stance - TTA||0.1|-0.1|
82662435|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.0||||||Change at Week 7, Tandem Stance - TTA||0.0|-0.2|
82662436|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 7, Tandem Stance - TTA||0.2|-0.1|
82662437|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 12, Tandem Stance - TTA||0.1|-0.2|
82662438|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.2||||||Change at Week 12, Tandem Stance - TTA||0.2|-0.1|
82662439|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Walk||0.1|-0.1|
82662440|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 2, Tandem Walk||0.1|-0.1|
82662441|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.09|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 7, Tandem Walk||0.1|-0.2|
82662442|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.07|||TWO_SIDED|90.0|-0.1|0.1||||||Change at Week 7, Tandem Walk||0.1|-0.1|
82662443|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.1|||TWO_SIDED|90.0|-0.3|0.0||||||Change at Week 12, Tandem Walk||0.0|-0.3|
82662444|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.08|||TWO_SIDED|90.0|-0.2|0.1||||||Change at Week 12, Tandem Walk||0.1|-0.2|
82662445|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.2|||TWO_SIDED|90.0|-0.2|0.4||||||Change at Week 2, Gait||0.4|-0.2|
82662446|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|0.1|0.7||||||Change at Week 2, Gait||0.7|0.1|
82662447|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 7, Gait||0.2|-0.4|
82662448|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.15|||TWO_SIDED|90.0|0.1|0.6||||||Change at Week 7, Gait||0.6|0.1|
82662449|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.17|||TWO_SIDED|90.0|-0.4|0.2||||||Change at Week 12, Gait||0.2|-0.4|
82499454|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.445|STANDARD_ERROR_OF_MEAN|0.406||||90.0|-1.114|0.224|||ANCOVA|||Follow-up Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||0.224|-1.114|
82662450|NCT03214588|165042196|SUPERIORITY||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.14|||TWO_SIDED|90.0|0.0|0.5||||||Change at Week 12, Gait||0.5|0.0|
82662451|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|0.23|STANDARD_ERROR_OF_MEAN|0.889||0.599|TWO_SIDED|90.0|-1.31|1.76||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.76|-1.31|0.599
82662452|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|1.34|STANDARD_ERROR_OF_MEAN|0.625||0.978|TWO_SIDED|90.0|0.26|2.42||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||2.42|0.26|0.978
82662453|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|0.09|STANDARD_ERROR_OF_MEAN|1.14||0.533|TWO_SIDED|90.0|-1.87|2.06||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||2.06|-1.87|0.533
82662454|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.886||0.37|TWO_SIDED|90.0|-1.83|1.23||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||1.23|-1.83|0.370
82662455|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|2.18|STANDARD_ERROR_OF_MEAN|1.078||0.972|TWO_SIDED|90.0|0.32|4.04||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||4.04|0.32|0.972
82662456|NCT03214588|165042197|SUPERIORITY||Least Squares Mean Difference|0.78|STANDARD_ERROR_OF_MEAN|0.819||0.825|TWO_SIDED|90.0|-0.63|2.19||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||2.19|-0.63|0.825
82662457|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|0.045|STANDARD_ERROR_OF_MEAN|0.23858||0.426|TWO_SIDED|90.0|-0.3665|0.4565||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.4565|-0.3665|0.426
82662458|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|-0.3281|STANDARD_ERROR_OF_MEAN|0.15794||0.975|TWO_SIDED|90.0|-0.6005|-0.0557||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||-0.0557|-0.6005|0.975
82662459|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|0.1448|STANDARD_ERROR_OF_MEAN|0.31186||0.324|TWO_SIDED|90.0|-0.3931|0.6826||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.6826|-0.3931|0.324
82662460|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|0.0113|STANDARD_ERROR_OF_MEAN|0.23213||0.481|TWO_SIDED|90.0|-0.3891|0.4117||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.4117|-0.3891|0.481
82662461|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|-0.2067|STANDARD_ERROR_OF_MEAN|0.28088||0.765|TWO_SIDED|90.0|-0.6911|0.2778||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.2778|-0.6911|0.765
82662462|NCT03214588|165042198|SUPERIORITY||Least Squares Mean Difference|0.1173|STANDARD_ERROR_OF_MEAN|0.19778||0.28|TWO_SIDED|90.0|-0.2238|0.4585||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.4585|-0.2238|0.280
82662463|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|-2.7|STANDARD_ERROR_OF_MEAN|4.28||0.735|TWO_SIDED|90.0|-9.9|4.4||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||4.4|-9.9|0.735
82662464|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|3.51||0.182|TWO_SIDED|90.0|-2.7|9.1||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||9.1|-2.7|0.182
82662465|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|-6.9|STANDARD_ERROR_OF_MEAN|3.59||0.97|TWO_SIDED|90.0|-12.9|-0.9||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||-0.9|-12.9|0.970
82662466|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|3.0||0.321|TWO_SIDED|90.0|-3.6|6.4||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||6.4|-3.6|0.321
82662467|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|-5.8|STANDARD_ERROR_OF_MEAN|4.34||0.905|TWO_SIDED|90.0|-13.0|1.5||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||1.5|-13.0|0.905
82662468|NCT03214588|165042199|SUPERIORITY||Least Squares Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|3.57||0.199|TWO_SIDED|90.0|-2.9|9.0||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||9.0|-2.9|0.199
82662469|NCT03214588|165042200|SUPERIORITY|||||||0.974||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.974
82662470|NCT03214588|165042200|SUPERIORITY|||||||0.893||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.893
82662471|NCT03214588|165042200|SUPERIORITY|||||||0.954||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.954
82662472|NCT03214588|165042200|SUPERIORITY|||||||0.793||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.793
82662473|NCT03214588|165042200|SUPERIORITY|||||||0.845||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.845
82662474|NCT03214588|165042200|SUPERIORITY|||||||0.816||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.816
82662475|NCT03214588|165042201|SUPERIORITY|||||||0.84||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.840
82662476|NCT03214588|165042201|SUPERIORITY|||||||0.854||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.854
82662477|NCT03214588|165042201|SUPERIORITY|||||||0.922||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.922
82662478|NCT03214588|165042201|SUPERIORITY|||||||0.794||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.794
82662479|NCT03214588|165042201|SUPERIORITY|||||||0.83||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.830
82662480|NCT03214588|165042201|SUPERIORITY|||||||0.998||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.998
82662481|NCT03214588|165042202|SUPERIORITY|||||||0.987||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.987
82662482|NCT03214588|165042202|SUPERIORITY|||||||0.771||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.771
82662483|NCT03214588|165042202|SUPERIORITY|||||||0.526||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.526
82662484|NCT03214588|165042202|SUPERIORITY|||||||0.665||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.665
82662485|NCT03214588|165042202|SUPERIORITY|||||||0.576||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.576
82662486|NCT03214588|165042202|SUPERIORITY|||||||0.865||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.865
82662487|NCT03214588|165042203|SUPERIORITY|||||||0.966||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.966
82662488|NCT03214588|165042203|SUPERIORITY|||||||0.983||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.983
82662489|NCT03214588|165042203|SUPERIORITY|||||||0.953||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.953
82662490|NCT03214588|165042203|SUPERIORITY|||||||0.781||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.781
82662491|NCT03214588|165042203|SUPERIORITY|||||||0.948||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.948
82662492|NCT03214588|165042203|SUPERIORITY|||||||0.998||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.998
82662493|NCT03214588|165042204|SUPERIORITY|||||||0.666||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.666
82662494|NCT03214588|165042204|SUPERIORITY|||||||0.812||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.812
82662495|NCT03214588|165042204|SUPERIORITY|||||||0.834||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.834
82662496|NCT03214588|165042204|SUPERIORITY|||||||0.841||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.841
82662497|NCT03214588|165042204|SUPERIORITY|||||||0.893||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.893
82662498|NCT03214588|165042204|SUPERIORITY|||||||0.907||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.907
82662499|NCT03214588|165042205|SUPERIORITY|||||||0.032||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.032
82662500|NCT03214588|165042205|SUPERIORITY|||||||0.216||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.216
82662501|NCT03214588|165042205|SUPERIORITY|||||||0.215||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.215
82662502|NCT03214588|165042205|SUPERIORITY|||||||0.411||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.411
82662503|NCT03214588|165042205|SUPERIORITY|||||||0.194||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.194
82662504|NCT03214588|165042205|SUPERIORITY|||||||0.408||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.408
82662505|NCT03214588|165042206|SUPERIORITY|||||||0.406||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.406
82662506|NCT03214588|165042206|SUPERIORITY|||||||0.235||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.235
82662507|NCT03214588|165042206|SUPERIORITY|||||||0.225||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.225
82662508|NCT03214588|165042206|SUPERIORITY|||||||0.434||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.434
82662509|NCT03214588|165042206|SUPERIORITY|||||||0.249||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.249
82662510|NCT03214588|165042206|SUPERIORITY|||||||0.38||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.380
82662511|NCT03214588|165042207|SUPERIORITY|||||||0.422||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.422
82662512|NCT03214588|165042207|SUPERIORITY|||||||0.226||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 2||||0.226
82662513|NCT03214588|165042207|SUPERIORITY|||||||0.639||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.639
82662514|NCT03214588|165042207|SUPERIORITY|||||||0.094||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 7||||0.094
82662515|NCT03214588|165042207|SUPERIORITY|||||||0.516||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.516
82662516|NCT03214588|165042207|SUPERIORITY|||||||0.266||||||The p-value was obtained using the Cochran-Mantel-Haenszel row mean score test stratified by ambulation status at randomization.|Cochran-Mantel-Haenszel|||Week 12||||0.266
82662517|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.362||0.299|TWO_SIDED|90.0|-0.8|0.41||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||0.41|-0.80|0.299
82662518|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|0.55|STANDARD_ERROR_OF_MEAN|0.293||0.967|TWO_SIDED|90.0|0.06|1.04||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 2||1.04|0.06|0.967
82662519|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|0.02|STANDARD_ERROR_OF_MEAN|0.338||0.529|TWO_SIDED|90.0|-0.54|0.59||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.59|-0.54|0.529
82662520|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.279||0.88|TWO_SIDED|90.0|-0.13|0.8||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 7||0.80|-0.13|0.880
82662521|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.408||0.599|TWO_SIDED|90.0|-0.58|0.79||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.79|-0.58|0.599
82662522|NCT03214588|165042208|SUPERIORITY||Least Squares Mean Difference|0.34|STANDARD_ERROR_OF_MEAN|0.333||0.846|TWO_SIDED|90.0|-0.21|0.9||P-values are 1-sided, with the alternative hypothesis that TAK-831 is superior to placebo in the clinically favorable direction.|ANCOVA|||Change from Baseline at Week 12||0.90|-0.21|0.846
82662523|NCT03214588|165042209|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 15% Reduction from Baseline||||>0.999
82662524|NCT03214588|165042209|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 15% Reduction from Baseline||||>0.999
82662525|NCT03214588|165042209|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 20% Reduction from Baseline||||>0.999
82662526|NCT03214588|165042209|SUPERIORITY||Odds Ratio (OR)|0.0|||>|0.999||||||P-value was from Fisher's exact test. Odds ratio was obtained from Cochran-Mantel-Haenszel with ambulation status at randomization as a stratification factor.|Fisher Exact|||At Least 20% Reduction from Baseline||||>0.999
82662527|NCT00185458|165042230|SUPERIORITY_OR_OTHER|||||||0.128||95.0|||||Friedman's two-way ANOVA|||Time effect tested with Friedman's two-way analysis of variance (ANOVA). The null-hypothesis is that the means are equal at the reference period tested.||||0.128
82662528|NCT00185458|165042231|SUPERIORITY_OR_OTHER|||||||0.296||95.0|||||Friedman's two-way ANOVA|||Time effect tested with Friedman's two-way analysis of variance (ANOVA). The null-hypothesis is that the means are equal at the reference period tested.||||0.296
82662529|NCT00185458|165042233|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662530|NCT00185458|165042235|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.027
82662531|NCT00185458|165042236|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662532|NCT00185458|165042237|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662533|NCT00185458|165042238|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662534|NCT00185458|165042239|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.054
82662535|NCT00185458|165042240|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662536|NCT00185458|165042241|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662537|NCT00185458|165042242|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662538|NCT00185458|165042243|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662539|NCT00185458|165042244|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662540|NCT00185458|165042245|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662541|NCT00185458|165042246|SUPERIORITY_OR_OTHER|||||||0.175||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.175
82662542|NCT00185458|165042247|SUPERIORITY_OR_OTHER|||||||0.062||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||0.062
82662543|NCT00185458|165042248|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Friedman's two-way ANOVA|||This is a Friedman's two-way analysis of variance (ANOVA) to test the time effect within the treatment group. The null-hypothesis is that the means are equal at the time points tested.||||<0.001
82662544|NCT03503318|165042253|OTHER||Hazard Ratio (HR)|0.2|||<|0.0001|TWO_SIDED|95.0|0.109|0.367||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using the stratified Cox proportional hazard model, with treatment (placebo, TV-46000 q1m and TV-46000 q2m or placebo and TV-46000 overall \[including q1m and q2m\]) as explanatory variable and sex-dose as a stratification factor, and the stratified log rank test p-value (sex-dose as a stratification factor) referred to (TV-46000/placebo) comparison.||0.367|0.109|<0.0001
82662545|NCT03503318|165042253|OTHER||Hazard Ratio (HR)|0.375|||<|0.0001|TWO_SIDED|95.0|0.227|0.618||Threshold for significance at 0.05 level.|Log Rank|||Analysis was performed using the stratified Cox proportional hazard model, with treatment (placebo, TV-46000 q1m and TV-46000 q2m or placebo and TV-46000 overall \[including q1m and q2m\]) as explanatory variable and sex-dose as a stratification factor, and the stratified log rank test p-value (sex-dose as a stratification factor) referred to (TV-46000/placebo) comparison.||0.618|0.227|<0.0001
82662546|NCT00424047|165042277|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.324|||<|0.001|TWO_SIDED|95.0|0.24|0.438|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (Lenalidomide/Dex:Placebo/Dexamethasone)|||0.438|0.240|<0.001
82662547|NCT00424047|165042278|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.73||||0.105|TWO_SIDED|95.0|0.498|1.07|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (Lenalidomide/Dexamethasone:Placebo/Dexamethasone)|||1.070|0.498|0.105
82662548|NCT00424047|165042279|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.863||||0.302|TWO_SIDED|95.0|0.651|1.143|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||1.143|0.651|0.302
82662549|NCT00424047|165042280|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Probability from Wilcoxon rank sum test||||||<0.001
82662550|NCT00424047|165042281|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|Probability from Wilcoxon rank sum test||||||<0.001
82662551|NCT00424047|165042284|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.558||||0.021|TWO_SIDED|95.0|0.338|0.921|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (lenalidomide/dexamethasone : placebo/dexamethasone).|||0.921|0.338|0.021
82662552|NCT00424047|165042285|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.362|||<|0.001|TWO_SIDED|95.0|0.27|0.478||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||0.478|0.27|<0.001
82662553|NCT00424047|165042286|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.166||||0.271|TWO_SIDED|95.0|0.887|1.532||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (lenalidomide/dexamethasone: placebo/dexamethasone)|||1.532|0.887|0.271
82662554|NCT00424047|165042287|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.135||||0.359|TWO_SIDED|95.0|0.866|1.486||The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Log Rank||Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||1.486|0.866|0.359
82662555|NCT00424047|165042288|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.619||||0.032|TWO_SIDED|95.0|0.398|0.964|||Log Rank|The p-value is based on an unstratified log rank test of survival curve differences between the treatment groups.|Based on a proportional hazards model comparing the hazard functions associated with the treatment groups (CC-5013/Dex:Placebo/Dex)|||0.964|0.398|0.032
82662556|NCT01097577|165042313|SUPERIORITY|||||||0.18|||||||ANOVA|||This study was designed to determine if pregabalin is an effective regimen for postoperative pain control following PRK. We hypothesized that there will be at least a 10% improvement in pain after PRK using a scheduled pregabalin dosing regimen compared to placebo. A power analysis was completed to determine the number of patients necessary.||||0.180
82662557|NCT01097577|165042314|SUPERIORITY|||||||0.207|||||||ANOVA|||||||0.207
82662558|NCT01097577|165042315|SUPERIORITY|||||||0.283|||||||ANOVA|||||||0.283
82662559|NCT01097577|165042316|SUPERIORITY|Question 1: Pain at its worst||||||0.223|||||||ANOVA|||||||0.223
82662560|NCT01097577|165042317|SUPERIORITY|||||||0.311|||||||ANOVA|||||||0.311
82662561|NCT01097577|165042318|SUPERIORITY|||||||0.581|||||||t-test, 2 sided|||Days to Heal, OD||||0.581
82662562|NCT01097577|165042318|SUPERIORITY|||||||0.307|||||||t-test, 2 sided|||Days to Heal, OS||||0.307
82662563|NCT00199901|165042322|SUPERIORITY||Hazard Ratio (HR)|0.913|||||TWO_SIDED|95.0|0.532|1.568||||||||1.568|0.532|
82662564|NCT00199901|165042324|SUPERIORITY||Hazard Ratio (HR)|0.88|||||TWO_SIDED|95.0|0.532|1.455||||||||1.455|0.532|
82662565|NCT00199901|165042325|SUPERIORITY||Hazard Ratio (HR)|0.911|||||TWO_SIDED|95.0|0.514|1.614||||||||1.614|0.514|
82662566|NCT04517604|165042337|SUPERIORITY||Mean Difference (Final Values)|-5.02|STANDARD_DEVIATION|4.984||0.343|TWO_SIDED|95.0|-16.52|6.47||no adjustment for multiple comparisons as was a pilot|Mixed Models Analysis|||||6.47|-16.52|.343
82662567|NCT04517604|165042338|SUPERIORITY|This was a pilot study funded under a pilot funding mechanism which specifically did not require a power analysis.|Mean Difference (Final Values)|-1.7|STANDARD_DEVIATION|0.42||0.0026|TWO_SIDED|95.0|-2.63|-0.77||no test for multiple comparisons as this was a pilot study|Mixed Models Analysis|||This was an open-label, single group study using a within subject design. We compared pre-treatment values to post-treatment values.||-.77|-2.63|.0026
82662568|NCT02832063|165042379|EQUIVALENCE|Primary efficacy power calculations assume a \>25% difference between B244 treatment and placebo and a 15% dropout. Each of the endpoints comprising the co-primary endpoint will be tested at an alpha level of p\<0.05. In order to achieve 90% power with a 5% Type I error rate, a total of 372 participants is required.||||||0.034|||||||ANCOVA|||||||0.034
82499455|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.054|STANDARD_ERROR_OF_MEAN|0.654||||90.0|-1.133|1.025|||ANCOVA|||Extension Month 1; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||1.025|-1.133|
82662569|NCT00772603|165042394|SUPERIORITY_OR_OTHER||Median Difference (Net)|-18.3|||=|0.003|TWO_SIDED|95.0|-30.4|-5.8||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(T) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 31% to 42% between placebo and 2400mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||-5.80|-30.40|=0.003
82662570|NCT00772603|165042394|SUPERIORITY_OR_OTHER||Median Difference (Net)|-10.3|||=|0.078|TWO_SIDED|95.0|-22.3|1.2||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(T) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 24% to 32% between placebo and 1200mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||1.20|-22.30|=0.078
82662571|NCT00772603|165042395|SUPERIORITY_OR_OTHER||Median Difference (Net)|-33.0|||=|0.003|TWO_SIDED|95.0|-33.0|-6.3||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(M) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 31% to 42% between placebo and 2400mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||-6.30|-33.00|=0.003
82662572|NCT00772603|165042395|SUPERIORITY_OR_OTHER||Median Difference (Net)|-3.3|||=|0.589|TWO_SIDED|95.0|-16.2|9.7||P values reported are not adjusted for multiple comparisons. To preserve the overall Type I error-rate at 0.050, a step-up Hochberg procedure was used for the pair-wise comparisons.|Wilcoxon (Mann-Whitney)|||A Wilcoxon rank-sum test was used to test the hypothesis of equal median reduction in PCH(M) from baseline between SPN-804 and placebo. The sample size of 120 patients per treatment arm provides over 95% power to detect a difference of 24% to 32% between placebo and 1200mg SPN-804 at a two-sided 0.025 level for an overall Type I error rate of 0.050.||9.70|-16.20|=0.589
82662573|NCT00772603|165042396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.983|||=|0.018|TWO_SIDED|95.0|1.126|3.494|||Regression, Logistic|||The treatment response was analyzed using a logistic regression model with treatment group as a factor and country (or cluster), age, sex, and baseline seizure frequency per 28 days as explanatory variables.||3.494|1.126|=0.018
82662574|NCT00772603|165042396|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.67|||=|0.075||95.0|0.95|2.937|||Regression, Logistic|||The treatment response was analyzed using a logistic regression model with treatment group as a factor and country (or cluster), age, sex, and baseline seizure frequency per 28 days as explanatory variables.||2.937|0.950|=0.075
82662575|NCT00772603|165042397|SUPERIORITY_OR_OTHER||||||=|0.013||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 2400mg/day vs. placebo seizure-free rates during the Treatment Phase were made by means of Fisher's exact test for the ITT population.||||=0.013
82662576|NCT00772603|165042397|SUPERIORITY_OR_OTHER||||||=|0.528||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 1200mg/day vs. placebo seizure-free rates during the Treatment Phase were made by means of Fisher's exact test for the ITT population.||||=0.528
82662577|NCT00772603|165042398|SUPERIORITY_OR_OTHER||||||=|0.008||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 2400mg/day vs. placebo seizure-free rates during the Maintenance Period were made by means of Fisher's exact test for the ITT population.||||=0.008
82662578|NCT00772603|165042398|SUPERIORITY_OR_OTHER||||||=|0.0546||95.0|||||Fisher Exact|||Pairwise comparisons of OXC XR 1200mg/day vs. placebo seizure-free rates during the Maintenance Period were made by means of Fisher's exact test for the ITT population.||||=0.0546
82662579|NCT00836004|165042399|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|99.69||||||90.0|93.88|105.85|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.85|93.88|
82662580|NCT00836004|165042400|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|96.23||||||90.0|90.62|102.19|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.19|90.62|
82662581|NCT00836004|165042401|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, ANOVA (Analysis of Variance) will be performed on log-transformed AUC0-t, AUC0-inf and Cmax at the alpha level of 0.05.|Test/Ref Ratio of LS Means x 100|97.17||||||90.0|92.14|102.48|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.48|92.14|
82662582|NCT02663349|165042416|SUPERIORITY|||||||0.08|||||||t-test, 2 sided|df = 14||Within sample analysis of change between baseline and 3 month assessment.||||.08
82662583|NCT02663349|165042417|SUPERIORITY|||||||0.69|||||||t-test, 2 sided|||Within sample change between baseline and 6 month assessment.||||.69
82662584|NCT02663349|165042418|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|df=14||Within sample change assessed between baseline and 3-month assessment||||.02
82662585|NCT02663349|165042419|SUPERIORITY|||||||0.34|||||||t-test, 2 sided|df = 14||Change between baseline and 6 month assessment||||.34
82662586|NCT02663349|165042420|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of change between baseline and 3-month assessment on the AIHQ Hostility scale||||>.05
82662587|NCT02663349|165042420|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||Completer analysis to examine within group change between baseline and 3-month assessment on the AIHQ Aggression scale||||.04
82662588|NCT02663349|165042421|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of within group change on the AIHQ Hostility scale between baseline and the 6-month assessment||||>.05
82662589|NCT02663349|165042421|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|||completer analysis of within group change on the AIHQ Aggression scale between baseline and the 6 month assessment||||> .05
82662590|NCT02663349|165042422|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Change within group between baseline and 3 month assessment on the TASIT total score for part 3||||> .05
82662591|NCT02663349|165042423|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||within group change on the TASIT total score for Part 3 between baseline and the 6 month assessment||||> .05
82662592|NCT02663349|165042424|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 14||Within group change on SSPA Total Score between baseline and 3-month assessment||||>.05
82662593|NCT02663349|165042425|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 14||Within group change on the SSPA total score between baseline and 6 month assessment||||> .05
82662594|NCT02663349|165042426|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Within group change on the First Episode Social Functioning Scale Performance Total score on scales 1-7 between baseline and 3-month follow-up||||> .05
82662595|NCT02663349|165042427|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 15||Within group change between baseline and 6-month assessment on the First Episode Social Functioning Scale Performance total score on scales 1-7||||> .05
82662596|NCT02663349|165042428|SUPERIORITY|||||||0.15|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Collegial Support scale between Baseline and 3-Month assessments||||.15
82662597|NCT02663349|165042428|SUPERIORITY|||||||0.1|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Task Support scale between baseline and 3-month assessments||||.10
82662598|NCT02663349|165042428|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Mentor scale between baseline and the 3-month assessment||||>.05
82662599|NCT02663349|165042428|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Coach scale between baseline and the 3 month assessment||||> .05
82662600|NCT02663349|165042429|SUPERIORITY|||||||0.01|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Collegial Support scale between baseline and the 6-month assessment||||.01
82662601|NCT02663349|165042429|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Task Support scale between baseline and 6-month assessment||||.03
82662602|NCT02663349|165042429|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Mentor scale between baseline and the 6-month assessment||||> .05
82662603|NCT02663349|165042429|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on the MCSS Coach scale between baseline and the 6-month assessment||||> .05
82662604|NCT02663349|165042430|SUPERIORITY|||||||0.09|||||||t-test, 2 sided|df = 13||Within group change on the VETSS Self Disclosure scale between Baseline and 3-Month Assessment||||.09
82662605|NCT02663349|165042430|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|df = 13||Within group change on the VETSS Workplace Coping scale between Baseline and 3-Month Assessment||||.12
82662606|NCT02663349|165042431|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on VETSS Self Disclosure scale between Baseline and 6 month assessment||||> .05
82662607|NCT02663349|165042431|SUPERIORITY||||||>|0.05|||||||t-test, 2 sided|df = 13||Within group change on VETSS Workplace Coping scale between baseline and the 6 month assessment||||> .05
82662608|NCT00928057|165042433|NON_INFERIORITY_OR_EQUIVALENCE|"To conclude equivalence for glycemic control, the average absolute percent change in fructosamine and 95% confidence interval had to be within 20%.~80 subjects were required to be in each insulin dose group (40 per PN arm) to provide 90% power for an equivalence with alpha=0.05."||||||0.506||||||The threshold for statistical significance, or alpha, is 0.05.|ANOVA|The ANOVA model has effects for subject, insulin dose group, investigator site and order of pen needle use.||"The effects of pen needle type on glycemic control were tested for statistical significance using analysis of variance (ANOVA). The ANOVA model was used to calculate the absolute percent (%)change in fructosamine (% \|∆ Fru\|), with 95 % confidence intervals."||||0.506
82662609|NCT00928057|165042433|NON_INFERIORITY_OR_EQUIVALENCE|"To conclude equivalence for glycemic control, the average absolute percent change in fructosamine and 95% confidence interval had to be within 20%.~80 subjects were required to be in each insulin dose group (40 per PN arm) to provide 90% power for an equivalence with alpha=0.05."||||||0.878||||||The threshold for significance, or alpha, is 0.05.|ANOVA|The ANOVA model has effects for subject, insulin dose group, investigator site and order of pen needle use.||"The effects of pen needle type on glycemic control were tested for statistical significance using ANOVA. The ANOVA model was used to calculate the % \|∆ Fru\|, with 95% confidence intervals."||||0.878
82662610|NCT00928057|165042438|SUPERIORITY_OR_OTHER|||||||0.019||||||The threshold for statistical significance, or alpha, is 0.05.|t-test, 1 sided|||The null hypothesis is that the pain from the 4mm is the same or greater than the pain for the reference. The alternative hypothesis is that the pain from the 4mm is less than the pain for the reference.||||0.019
82662611|NCT00928057|165042438|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 1 sided|||As described for the 4 vs. 5mm statistical analysis.||||<0.001
82662612|NCT05099380|165042465|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|3.1|STANDARD_ERROR_OF_MEAN|1.86|||TWO_SIDED|95.0|-0.6|6.7|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculation using a two independent sample t test with a 2-sided type I error of 0.05, there would be enough power (i.e., 80%) for testing non-inferiority of the Test relative to the Control with 286 subjects (143 for each lens group) competing the study assuming the Test was 2 points higher than the Control.||6.7|-0.6|
82662613|NCT05099380|165042466|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the 2-sided 95% confidence interval of the mean difference was below 0.05.|Least-square Mean Difference|0.008|STANDARD_ERROR_OF_MEAN|0.008|||TWO_SIDED|95.0|-0.02|0.01|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculation using a linear mixed model-based method with a 2-sided type I error of 0.05, there would be enough power (i.e., at least 80%) for testing non-inferiority of the Test relative to the Control with 16 subjects (8 for each lens group) competing the study assuming no difference between the Test and the Control.||0.01|-0.02|
82662614|NCT05099380|165042467|NON_INFERIORITY|Non-inferiority was declared if the upper bound of the 95% central posterior credible interval of proportion difference was below 0.05.|Mean Proportion Difference|0.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|-0.004|0.004|||Bayesian hierarchical model||Proportion difference was calculated as Test minus Control|Based on the sample size calculation using a simulation approach and Bayesian analysis with the 95% central posterior credible interval, there would be enough power (i.e., at least 80%) for assessing non-inferiority of the Test relative to the Control with 240 subjects (120 for each lens group) competing the study assuming no difference between the Test and the Control.||0.004|-0.004|
82662615|NCT05099380|165042468|NON_INFERIORITY|Non- inferiority was declared if the upper bound of the 95% central posterior credible interval of proportion difference was below 0.1.|Mean Proportion Difference|0.0|STANDARD_DEVIATION|0.002|||TWO_SIDED|95.0|-0.004|0.004|||Bayesian hierarchical model||Proportion difference was calculated as Test minus Control|Based on the sample size calculation using a simulation approach and Bayesian analysis with the 95% central posterior credible interval, there would be enough power (i.e., at least 80%) for assessing non-inferiority of the Test relative to the Control with 140 subjects (70 for each lens group) competing the study assuming no difference between the Test and the Control.||0.004|-0.004|
82662616|NCT05099380|165042469|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|2.35|||TWO_SIDED|95.0|-4.8|4.5|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the Test was 2 points higher than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 73% for CLUE comfort using a two independent sample t test with a 2-sided type I error of 0.05.||4.5|-4.8|
82662617|NCT05099380|165042470|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the mean difference was above -5.|Least-square Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|2.13|||TWO_SIDED|95.0|-6.0|2.3|||Linear Mixed Model|Kenward and Roger method was used for denominator degrees of freedom.|Least-square Mean difference was calculated as Test minus Control|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the Test was 2 points lower than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 23% for CLUE handling using a two independent sample t test with a 2-sided type I error of 0.05.||2.3|-6.0|
82662618|NCT05099380|165042471|NON_INFERIORITY|Non-inferiority was declared if the lower bound of the 2-sided 95% confidence interval of the odds ratio was greater than 0.67.|Odds Ratio (OR)|1.34|||||TWO_SIDED|95.0|0.83|2.16|||Linear Mixed Model||Odds Ratio was calculated as Test over Control|"Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the percentage of Excellent rating for the Test was 10% higher than the Control, the estimated statistical power for testing non-inferiority of the Test relative to the Control was 93% using a Pearson chi-square test for two proportions with a 2-sided type I error of 0.05."||2.16|0.83|
82662619|NCT05099380|165042472|SUPERIORITY|Superiority was declared if the lower bound of the 2-sided 95% confidence interval of the preference ratio was greater than 1.|Preference Ratio|2.4|||||TWO_SIDED|95.0|1.4|4.1|||Linear Mixed Model||Preference ratio was calculated as Study lens over Habitual lens within the Test lens group.|Based on the sample size calculated for the primary endpoints (i.e., 286 subjects with 143 per lens group), assuming the percentage of subjects preferring Study lens was 20% higher than preferring Habitual lens in the Test lens group, the estimated statistical power for testing superiority of the Test relative to the Habitual was 88% using a simulation approach with a 2-sided type I error of 0.05.||4.10|1.40|
82662620|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% Confidence Interval (CI) for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.88|||||TWO_SIDED|95.0|0.751|1.03||||||Serogroup A: Lot 1 vs Lot 2||1.03|0.751|
82662621|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.985|||||TWO_SIDED|95.0|0.843|1.15||||||Serogroup A: Lot 2 vs Lot 3||1.15|0.843|
82662622|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.867|||||TWO_SIDED|95.0|0.74|1.02||||||Serogroup A: Lot 1 vs Lot 3||1.02|0.740|
82662623|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.07|||||TWO_SIDED|95.0|0.888|1.29||||||Serogroup C: Lot 1 vs Lot 2||1.29|0.888|
82662624|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.866|||||TWO_SIDED|95.0|0.714|1.05||||||Serogroup C: Lot 2 vs Lot 3||1.05|0.714|
82662625|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.927|||||TWO_SIDED|95.0|0.766|1.12||||||Serogroup C: Lot 1 vs Lot 3||1.12|0.766|
82662626|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.869|1.19||||||Serogroup Y: Lot 1 vs Lot 2||1.19|0.869|
82662627|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.961|||||TWO_SIDED|95.0|0.816|1.13||||||Serogroup Y: Lot 2 vs Lot 3||1.13|0.816|
82662628|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.975|||||TWO_SIDED|95.0|0.829|1.15||||||Serogroup Y: Lot 1 vs Lot 3||1.15|0.829|
82662629|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|1.04|||||TWO_SIDED|95.0|0.878|1.22||||||Serogroup W: Lot 1 vs Lot 2||1.22|0.878|
82662630|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.936|||||TWO_SIDED|95.0|0.791|1.11||||||Serogroup W: Lot 2 vs Lot 3||1.11|0.791|
82662631|NCT02842853|165042473|EQUIVALENCE|Lot consistency was demonstrated across the 3 lots, if, for each pair of lots and each antigen, the 2-sided 95% CI for the ratio of the GMTs lies between 1/2 and 2.|GMT Ratio|0.97|||||TWO_SIDED|95.0|0.818|1.15||||||Serogroup W: Lot 1 vs Lot 3||1.15|0.818|
82662632|NCT02842853|165042474|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.1|||||TWO_SIDED|95.0|14.8|23.5||||||Serogroup A||23.5|14.8|
82662633|NCT02842853|165042474|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|40.9|||||TWO_SIDED|95.0|36.7|45.0||||||Serogroup C||45|36.7|
82662634|NCT02842853|165042474|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|18.1|||||TWO_SIDED|95.0|14.5|21.9||||||Serogroup Y||21.9|14.5|
82662635|NCT02842853|165042474|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.1|||||TWO_SIDED|95.0|14.9|23.3||||||Serogroup W||23.3|14.9|
82662636|NCT02842853|165042475|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|19.6|||||TWO_SIDED|95.0|13.5|25.8||||||Serogroup A||25.8|13.5|
82662637|NCT02842853|165042475|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|41.1|||||TWO_SIDED|95.0|35.0|46.9||||||Serogroup C||46.9|35.0|
82662638|NCT02842853|165042475|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|27.4|||||TWO_SIDED|95.0|21.7|33.3||||||Serogroup Y||33.3|21.7|
82662639|NCT02842853|165042475|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|26.8|||||TWO_SIDED|95.0|20.7|32.9||||||Serogroup W||32.9|20.7|
82662640|NCT02842853|165042476|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|18.7|||||TWO_SIDED|95.0|12.5|24.9||||||Serogroup A||24.9|12.5|
82662641|NCT02842853|165042476|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|42.3|||||TWO_SIDED|95.0|36.6|48.0||||||Serogroup C||48.0|36.6|
82662642|NCT02842853|165042476|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|10.0|||||TWO_SIDED|95.0|6.18|14.5||||||Serogroup Y||14.5|6.18|
82662643|NCT02842853|165042476|NON_INFERIORITY|95% CI of the difference was calculated from the Wilson Score Method without continuity correction. Non-inferiority was demonstrated if the lower limit of the 2-sided 95% CI of the difference is \> -10% for all serogroups.|Percentage Difference|12.5|||||TWO_SIDED|95.0|7.22|18.2||||||Serogroup W||18.2|7.22|
82662644|NCT02842853|165042477|OTHER||Percentage Difference|-5.4|||||TWO_SIDED|95.0|-9.59|-1.16||||||Serogroup A: Lot 1 vs Lot 2||-1.16|-9.59|
82662645|NCT02842853|165042477|OTHER||Percentage Difference|2.9|||||TWO_SIDED|95.0|-1.3|7.01||||||Serogroup A: Lot 2 vs Lot 3||7.01|-1.3|
82662646|NCT02842853|165042477|OTHER||Percentage Difference|-2.5|||||TWO_SIDED|95.0|-6.78|1.74||||||Serogroup A: Lot 1 vs Lot 3||1.74|-6.78|
82662647|NCT02842853|165042477|OTHER||Percentage Difference|1.3|||||TWO_SIDED|95.0|-1.58|4.28||||||Serogroup C: Lot 1 vs Lot 2||4.28|-1.58|
82662648|NCT02842853|165042477|OTHER||Percentage Difference|2.4|||||TWO_SIDED|95.0|-0.74|5.54||||||Serogroup C: Lot 2 vs Lot 3||5.54|-0.740|
82662649|NCT02842853|165042477|OTHER||Percentage Difference|3.7|||||TWO_SIDED|95.0|0.708|6.79||||||Serogroup C: Lot 1 vs Lot 3||6.79|0.708|
82662650|NCT02842853|165042477|OTHER||Percentage Difference|0.5|||||TWO_SIDED|95.0|-2.14|3.07||||||Serogroup Y: Lot 1 vs Lot 2||3.07|-2.14|
82662651|NCT02842853|165042477|OTHER||Percentage Difference|2.0|||||TWO_SIDED|95.0|-0.763|4.79||||||Serogroup Y: Lot 2 vs Lot 3||4.79|-0.763|
82662652|NCT02842853|165042477|OTHER||Percentage Difference|2.5|||||TWO_SIDED|95.0|-0.248|5.2||||||Serogroup Y: Lot 1 vs Lot 3||5.20|-0.248|
82662653|NCT02842853|165042477|OTHER||Percentage Difference|0.8|||||TWO_SIDED|95.0|-3.0|4.54||||||Serogroup W: Lot 1 vs Lot 2||4.54|-3.00|
82662654|NCT02842853|165042477|OTHER||Percentage Difference|2.0|||||TWO_SIDED|95.0|-1.84|5.89||||||Serogroup W: Lot 2 vs Lot 3||5.89|-1.84|
82662655|NCT02842853|165042477|OTHER||Percentage Difference|2.8|||||TWO_SIDED|95.0|-1.02|6.61||||||Serogroup W: Lot 1 vs Lot 3||6.61|-1.02|
82662656|NCT02842853|165042478|OTHER||GMT Ratio|1.93|||||TWO_SIDED|95.0|1.67|2.24||||||Serogroup A||2.24|1.67|
82662657|NCT02842853|165042478|OTHER||GMT Ratio|8.05|||||TWO_SIDED|95.0|6.58|9.84||||||Serogroup C||9.84|6.58|
82662658|NCT02842853|165042478|OTHER||GMT Ratio|3.22|||||TWO_SIDED|95.0|2.71|3.84||||||Serogroup Y||3.84|2.71|
82662659|NCT02842853|165042478|OTHER||GMT Ratio|1.9|||||TWO_SIDED|95.0|1.61|2.24||||||Serogroup W||2.24|1.61|
82662660|NCT01175135|165042498|OTHER||Least Squares (LS) Mean Difference|-2.21|STANDARD_ERROR_OF_MEAN|2.683||0.2053|TWO_SIDED|80.0|-5.66|1.24||Reported p-value was 1-sided.|Mixed Models Analysis|||Mixed effect repeated measures (MMRM) model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||1.24|-5.66|0.2053
82662661|NCT01175135|165042498|OTHER||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|2.698||0.4024|TWO_SIDED|80.0|-4.14|2.8||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||2.80|-4.14|0.4024
82662662|NCT01175135|165042498|OTHER||LS Mean Difference|-8.24|STANDARD_ERROR_OF_MEAN|3.453||0.009|TWO_SIDED|80.0|-12.68|-3.8||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS total score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS total score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-3.80|-12.68|0.0090
82662663|NCT01175135|165042499|OTHER||Difference in Proportion|-0.03|||||TWO_SIDED|80.0|-0.07|0.01|||||The adjusted 80% Confidence Interval (CI) equals 88.6% CI, adjusted due to 1 interim look.|||0.01|-0.07|
82662664|NCT01175135|165042499|OTHER||Difference in Proportion|0.04|||||TWO_SIDED|80.0|-0.02|0.1|||||The adjusted 80% CI equals 88.6% CI, adjusted due to 1 interim look.|||0.10|-0.02|
82662665|NCT01175135|165042499|OTHER||Difference in Proportion|-0.04|||||TWO_SIDED|80.0|-0.08|0.0|||||The adjusted 80% CI equals 88.6% CI, adjusted due to 1 interim look.|||-0.00|-0.08|
82662666|NCT01175135|165042500|OTHER||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.845||0.3144|TWO_SIDED|80.0|-1.5|0.68||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.68|-1.50|0.3144
82662667|NCT01175135|165042500|OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.854||0.57|TWO_SIDED|80.0|-0.95|1.25||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||1.25|-0.95|0.5700
82662668|NCT01175135|165042500|OTHER||LS Mean Difference|-2.99|STANDARD_ERROR_OF_MEAN|1.093||0.0034|TWO_SIDED|80.0|-4.4|-1.59||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS positive subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS positive subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-1.59|-4.40|0.0034
82662669|NCT01175135|165042500|OTHER||LS Mean Difference|-0.96|STANDARD_ERROR_OF_MEAN|0.73||0.0942|TWO_SIDED|80.0|-1.9|-0.02||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-0.02|-1.90|0.0942
82662670|NCT01175135|165042500|OTHER||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.735||0.203|TWO_SIDED|80.0|-1.56|0.33||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.33|-1.56|0.2030
82662671|NCT01175135|165042500|OTHER||LS Mean Difference|-1.26|STANDARD_ERROR_OF_MEAN|0.944||0.0907|TWO_SIDED|80.0|-2.48|-0.05||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS negative subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS negative subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-0.05|-2.48|0.0907
82662672|NCT01175135|165042500|OTHER||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|1.33||0.2904|TWO_SIDED|80.0|-2.45|0.97||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||0.97|-2.45|0.2904
82662673|NCT01175135|165042500|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.339||0.471|TWO_SIDED|80.0|-1.82|1.62||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||1.62|-1.82|0.4710
82662674|NCT01175135|165042500|OTHER||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|1.718||0.0172|TWO_SIDED|80.0|-5.86|-1.45||Reported p-value was 1-sided.|Mixed Models Analysis|||General Score: MMRM model with fixed effect for baseline PANSS general subscale score, investigator site, treatment, visit, a treatment by visit interaction and a baseline PANSS general subscale score by visit interaction and a random effect for participant. The model was fit using an unstructured covariance matrix.||-1.45|-5.86|0.0172
82662675|NCT01175135|165042501|OTHER||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.154||0.197|TWO_SIDED|80.0|-0.33|0.07||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.07|-0.33|0.1970
82662676|NCT01175135|165042501|OTHER||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.154||0.3835|TWO_SIDED|80.0|-0.24|0.15||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.15|-0.24|0.3835
82662677|NCT01175135|165042501|OTHER||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.199||0.0395|TWO_SIDED|80.0|-0.61|-0.1||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline CGI-S, investigator site, treatment, visit, treatment by visit interaction, a baseline CGI-S by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.10|-0.61|0.0395
82662678|NCT01175135|165042502|OTHER||LS Mean Difference|-0.73|STANDARD_ERROR_OF_MEAN|0.863||0.1999|TWO_SIDED|80.0|-1.84|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.84|0.1999
82662679|NCT01175135|165042502|OTHER||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.87||0.3399|TWO_SIDED|80.0|-1.48|0.76||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.76|-1.48|0.3399
82662680|NCT01175135|165042502|OTHER||LS Mean Difference|-2.62|STANDARD_ERROR_OF_MEAN|1.117||0.01|TWO_SIDED|80.0|-4.06|-1.18||Reported p-value was 1-sided.|Mixed Models Analysis|||Positive Score: MMRM model with fixed effect for baseline PANSS Marder positive score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder positive score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-1.18|-4.06|0.0100
82662681|NCT01175135|165042502|OTHER||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.778||0.1625|TWO_SIDED|80.0|-1.77|0.23||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.23|-1.77|0.1625
82662682|NCT01175135|165042502|OTHER||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.783||0.2354|TWO_SIDED|80.0|-1.57|0.44||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.44|-1.57|0.2354
82662683|NCT01175135|165042502|OTHER||LS Mean Difference|-0.79|STANDARD_ERROR_OF_MEAN|1.002||0.2161|TWO_SIDED|80.0|-2.08|0.5||Reported p-value was 1-sided.|Mixed Models Analysis|||Negative Score: MMRM model with fixed effect for baseline PANSS Marder negative score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder negative score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.50|-2.08|0.2161
82662684|NCT01175135|165042502|OTHER||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.627||0.248|TWO_SIDED|80.0|-1.23|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.23|0.2480
82662685|NCT01175135|165042502|OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.632||0.4345|TWO_SIDED|80.0|-0.92|0.71||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.71|-0.92|0.4345
82662686|NCT01175135|165042502|OTHER||LS Mean Difference|-1.48|STANDARD_ERROR_OF_MEAN|0.813||0.0346|TWO_SIDED|80.0|-2.53|-0.44||Reported p-value was 1-sided.|Mixed Models Analysis|||Disorganized Thought Score: MMRM model with fixed effect for baseline PANSS Marder disorganized thought score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder disorganized thought score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.44|-2.53|0.0346
82662687|NCT01175135|165042502|OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.495||0.4685|TWO_SIDED|80.0|-0.68|0.6||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.60|-0.68|0.4685
82662688|NCT01175135|165042502|OTHER||LS Mean Difference|0.15|STANDARD_ERROR_OF_MEAN|0.499||0.6214|TWO_SIDED|80.0|-0.49|0.8||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.80|-0.49|0.6214
82662689|NCT01175135|165042502|OTHER||LS Mean Difference|-1.66|STANDARD_ERROR_OF_MEAN|0.641||0.0052|TWO_SIDED|80.0|-2.48|-0.84||Reported p-value was 1-sided.|Mixed Models Analysis|||Uncontrolled hostility/excitement Score: MMRM model with fixed effect for baseline PANSS Marder hostility/excitement score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder hostility/excitement score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.84|-2.48|0.0052
82662690|NCT01175135|165042502|OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.523||0.5894|TWO_SIDED|80.0|-0.55|0.79||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.79|-0.55|0.5894
82662691|NCT01175135|165042502|OTHER||LS Mean Difference|0.47|STANDARD_ERROR_OF_MEAN|0.526||0.8155|TWO_SIDED|80.0|-0.2|1.15||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||1.15|-0.20|0.8155
82662692|NCT01175135|165042502|OTHER||LS Mean Difference|-1.68|STANDARD_ERROR_OF_MEAN|0.677||0.0069|TWO_SIDED|80.0|-2.55|-0.81||Reported p-value was 1-sided.|Mixed Models Analysis|||Anxiety/Depression Score: MMRM model with fixed effect for baseline PANSS Marder anxiety/depression score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS Marder anxiety/depression score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.81|-2.55|0.0069
82662693|NCT01175135|165042503|OTHER||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.559||0.2727|TWO_SIDED|80.0|-1.06|0.38||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.38|-1.06|0.2727
82662694|NCT01175135|165042503|OTHER||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.562||0.4747|TWO_SIDED|80.0|-0.76|0.69||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||0.69|-0.76|0.4747
82662695|NCT01175135|165042503|OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.723||0.0031|TWO_SIDED|80.0|-2.93|-1.07||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline PANSS derived BPRS core score, investigator site, treatment, visit, treatment by visit interaction and baseline PANSS derived BPRS core score by visit interaction, and random effect for participant. The model was fit using an unstructured covariance matrix.||-1.07|-2.93|0.0031
82662696|NCT01175135|165042504|OTHER||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.196||0.3598|TWO_SIDED|80.0|-0.32|0.18||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.18|-0.32|0.3598
82662697|NCT01175135|165042504|OTHER||LS Mean Difference|0.12|STANDARD_ERROR_OF_MEAN|0.198||0.7275|TWO_SIDED|80.0|-0.13|0.37||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||0.37|-0.13|0.7275
82662698|NCT01175135|165042504|OTHER||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.255||0.0019|TWO_SIDED|80.0|-1.07|-0.42||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for investigator site, treatment, visit, treatment by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||-0.42|-1.07|0.0019
82662699|NCT01175135|165042505|OTHER||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|1.478||0.5429|TWO_SIDED|80.0|-2.06|1.74||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||1.74|-2.06|0.5429
82662700|NCT01175135|165042505|OTHER||LS Mean Difference|0.24|STANDARD_ERROR_OF_MEAN|1.492||0.4354|TWO_SIDED|80.0|-1.68|2.16||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||2.16|-1.68|0.4354
82662701|NCT01175135|165042505|OTHER||LS Mean Difference|2.53|STANDARD_ERROR_OF_MEAN|1.907||0.093|TWO_SIDED|80.0|0.08|4.99||Reported p-value was 1-sided.|Mixed Models Analysis|||MMRM model with fixed effect for baseline GAF score, investigator site, treatment, visit, treatment by visit interaction, baseline GAF score by visit interaction and random effect for participant. The model was fit using an unstructured covariance matrix.||4.99|0.08|0.0930
82662702|NCT03364192|165042520|OTHER|Multilevel modeling adapted for multiple-baseline design comparing participant goal attainment before, during, and after peer-delivered Whole Health Coaching.|||||<|0.05|||||||Multilevel Modeling|||||||<0.05
82662703|NCT03317444|165042524|SUPERIORITY||Treatment difference in % of subjects|36.7|||<|0.0001|TWO_SIDED|95.0|23.5|48.9|||Fisher Exact|||% Subjects Who Met Endpoint (≥ 4 mEq/L Change from Baseline Serum Bicarbonate or Serum Bicarbonate in the Normal Range \[22 - 29 mEq/L\]): TRC101-Placebo||48.9|23.5|< 0.0001
82662704|NCT03317444|165042524|SUPERIORITY||Treatment difference in % of subjects|34.5|||<|0.0001|TWO_SIDED|95.0|21.2|46.8|||Fisher Exact|||% Subjects with ≥ 4 mEq/L Change from Baseline in Serum Bicarbonate: TRC101-Placebo||46.8|21.2|< 0.0001
82662705|NCT03317444|165042524|SUPERIORITY||Treatment difference in % of subjects|33.1|||<|0.0001|TWO_SIDED|95.0|19.7|45.6|||Fisher Exact|||% Subjects with Serum Bicarbonate in the Normal Range (22 - 29 mEq/L): TRC101-Placebo||45.6|19.7|< 0.0001
82662706|NCT03317444|165042525|SUPERIORITY||Treatment difference in LS means|2.63|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|TWO_SIDED|95.0|1.77|3.5|||Mixed-effect repeated measures model||Standard error presented above is for the LS mean.|Least Squares (LS) Mean Change from Baseline: TRC101-Placebo||3.5|1.77|< 0.0001
82662707|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|1.54||||0.504|TWO_SIDED|||||Adjusted for TIF introduction and time periods as fixed effects and hospitals and time periods as random effects.|generalized linear mixed regression mode|||For mobility on EU arrival assessed,||||0.504
82662708|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|2.31||||0.169|TWO_SIDED||||||generalized linear mixed regression mode|||Respiratory rate at EU assessed||||0.169
82662709|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|25.29||||0.006|TWO_SIDED||||||generalized linear mixed regression|||Airway assessed||||0.006
82662710|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|38.38||||0.001|TWO_SIDED||||||generalized linear mixed regression|||Chest examined||||0.001
82662711|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|93.01||||0.001|TWO_SIDED||||||generalized linear mixed regression|||For Intra-abdominal bleeding evaluated||||0.001
82662712|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|354.91||||0.001|TWO_SIDED||||||generalized linear mixed regression|||For Spine Immobilized for RTI or Fall Victims||||0.001
82662713|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|4.95||||0.001|TWO_SIDED||||||generalized linear mixed regression|||Splinting of Fractures Considered||||0.001
82662714|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|5.18||||0.006|TWO_SIDED||||||generalized linear mixed regression|||Tetanus Considered for bites, burns, lacerations, and abrasions||||0.006
82662715|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|0.03||||0.047|TWO_SIDED||||||generalized linear mixed regression|||Date of Injury Recorded||||0.047
82662716|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|0.42||||0.166|TWO_SIDED||||||generalized linear mixed regression|||Death||||0.166
82662717|NCT04547192|165042526|SUPERIORITY|Power calculation - Expected enrollment: 25 patients/hospital/month, giving a total of 3,500 patients across all hospitals over 17.5 months. With an alpha of 0.05 and baseline TIF adherence rate of 50%, there was 80% power to detect 8.1-8.6% difference in KPI performance with 0.15-0.40 range in COV.|Odds Ratio (OR)|2.14||||0.013|TWO_SIDED||||||generalized linear mixed regression|||Important Clinical Data Document||||0.013
82662718|NCT04547192|165042527|SUPERIORITY||Odds Ratio (OR)|0.42||||0.166|TWO_SIDED||||||generalized linear mixed regression|||||||0.166
82662719|NCT02284867|165042598|NON_INFERIORITY_OR_EQUIVALENCE|"Multivariable binary logistic regression was done to examine the relation between CD16+ NK and preterm labor as adjusted for other confounding factors the enter method was used to build the regression model.~A two-sided p-value \<0.05 was considered statistically significant."|Odds Ratio (OR)|65.01|STANDARD_ERROR_OF_MEAN|1.14|<|0.0002|TWO_SIDED|95.0|6.96|606.76||To our best of known , no previous human studies was analyzing this issue|Regression, Logistic|||"Categorical data were presented as number and percentage and differences were compared using the Pearson chi-squared test. Ordinal data were compared using the chi-squared test for trend~A two-sided p-value \<0.05 was considered statistically significant."||606.76|6.96|<0.0002
82662720|NCT02927639|165042603|SUPERIORITY|"A subject was considered completed if they completed all 3 SCI (as indicated in participant flow section) - 13 control, 10 intervention.~However, the mixed model took in to account ALL available data. As such, there were 70 control, 65 intervention that completed at least 1 SCI. Their data was analyzed by the model and used to predict later outcomes so they were considered to be included in the analysis."||||||0.035||||||The mixed model may provide a significantly different change in SCI score from baseline to the 6 month using a per-protocol analysis in the intervention group as compared to the control group. A p value \<0.05 was considered significant.|Mixed Models Analysis|||A multilevel mixed effects linear regression model was used to analyze this data. This analysis allowed for an estimation of missing data. This explains the discrepancy in the number of participant study completion vs participant data analyzed (see below).||||0.035
82662721|NCT02699463|165042607|SUPERIORITY||||||<|0.01||||||The calculated p-value was \<0.01|ANCOVA|||||||<0.01
82662722|NCT00911274|165042609|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|92.41||||||90.0|82.77|103.18|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.18|82.77|
82499456|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.336|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-2.438|-0.235|||ANCOVA|||Extension Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.235|-2.438|
82662723|NCT00911274|165042610|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.3||||||90.0|97.84|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.88|97.84|
82662724|NCT00911274|165042611|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|101.0||||||90.0|97.77|104.34|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.34|97.77|
82662725|NCT01640197|165042618|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662726|NCT01640197|165042619|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662727|NCT01640197|165042620|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662728|NCT01640197|165042621|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662729|NCT01640197|165042622|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662730|NCT01640197|165042623|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662731|NCT01640197|165042624|SUPERIORITY_OR_OTHER||||||>|0.05||95.0|||||ANOVA|||||||>0.05
82662732|NCT00909753|165042625|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|92.5||||||90.0|85.8|99.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.7|85.8|
82662733|NCT00909753|165042626|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.5||||||90.0|92.2|98.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.9|92.2|
82662734|NCT00909753|165042627|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.4||||||90.0|83.1|98.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.3|83.1|
82662735|NCT00909753|165042628|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.5||||||90.0|85.5|95.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||95.9|85.5|
82662736|NCT00909753|165042629|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|92.2||||||90.0|85.5|99.5|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.5|85.5|
82662737|NCT00909753|165042630|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|95.0||||||90.0|91.3|98.7|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||98.7|91.3|
82662738|NCT00909753|165042631|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.4||||||90.0|83.1|98.3|||||Bioequivalence is established when 90% COnfidence Interval falls within 80-125.|||98.3|83.1|
82662739|NCT00909753|165042632|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (ANOVA) will be applied to log-transformed AUC and Cmax parameters.|Geometric Test/Ref Ratio x 100|90.5||||||90.0|85.0|96.3|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.3|85.0|
82662740|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.647||||0.22|TWO_SIDED|95.0|0.322|1.302|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% confidence intervals (CIs).||1.302|0.322|0.22
82662741|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.647||||0.24|TWO_SIDED|95.0|0.322|1.301|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.301|0.322|0.24
82662742|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.097||||0.83|TWO_SIDED|95.0|0.501|2.405|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.405|0.501|0.83
82662743|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.074||||0.87|TWO_SIDED|95.0|0.49|2.356|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.356|0.490|0.87
82662744|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.988||||0.96|TWO_SIDED|95.0|0.458|2.131|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.131|0.458|0.96
82499457|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.462|STANDARD_ERROR_OF_MEAN|0.542||||90.0|-2.356|-0.568|||ANCOVA|||Extension Month 6; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.568|-2.356|
82662745|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.592||||0.16|TWO_SIDED|95.0|0.289|1.212|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Raloxifene 60 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.212|0.289|0.16
82662746|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.551||||0.035|TWO_SIDED|95.0|0.324|0.937|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.937|0.324|0.035
82662747|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.624||||0.07|TWO_SIDED|95.0|0.373|1.045|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.045|0.373|0.070
82662748|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.085||||0.79|TWO_SIDED|95.0|0.605|1.947|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40 mg \[Core\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.947|0.605|0.79
82662749|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.959||||0.99|TWO_SIDED|95.0|0.527|1.743|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Raloxifene 60 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.743|0.527|0.99
82662750|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.882||||0.78|TWO_SIDED|95.0|0.488|1.593|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40 mg \[Core\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.593|0.488|0.78
82662751|NCT00205777|165042651|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.574||||0.036|TWO_SIDED|95.0|0.34|0.968|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Raloxifene 60 mg \[Core\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.968|0.340|0.036
82662752|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.097|TWO_SIDED|95.0|0.339|1.099|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.099|0.339|0.097
82662753|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.645||||0.15|TWO_SIDED|95.0|0.361|1.151|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.151|0.361|0.15
82662754|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.941||||0.83|TWO_SIDED|95.0|0.493|1.793|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.793|0.493|0.83
82662755|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.666||||0.067|TWO_SIDED|95.0|0.435|1.019|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.019|0.435|0.067
82662756|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.573||||0.014|TWO_SIDED|95.0|0.367|0.896|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.896|0.367|0.014
82662757|NCT00205777|165042652|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.157||||0.5|TWO_SIDED|95.0|0.71|1.885|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.885|0.710|0.50
82662758|NCT00205777|165042653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.085|TWO_SIDED|95.0|0.44|1.052|||Log Rank|||No Prevalent Fractures: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.052|0.440|0.085
82662759|NCT00205777|165042653|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.004|TWO_SIDED|95.0|0.434|0.857|||Log Rank|||At Least 1 Prevalent Fracture: P value was calculated using stratified log-rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||0.857|0.434|0.004
82662760|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.621||||0.4|TWO_SIDED|95.0|0.203|1.903|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.903|0.203|0.40
82662761|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.504||||0.26|TWO_SIDED|95.0|0.151|1.676|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.676|0.151|0.26
82662762|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.54||||0.33|TWO_SIDED|95.0|0.157|1.86|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||1.860|0.157|0.33
82662763|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.661||||0.49|TWO_SIDED|95.0|0.206|2.118|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||2.118|0.206|0.49
82499458|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.385|STANDARD_ERROR_OF_MEAN|0.564||||90.0|-2.316|-0.454|||ANCOVA|||Extension Month 9; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.454|-2.316|
82662764|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.85||||0.76|TWO_SIDED|95.0|0.305|2.37|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||2.370|0.305|0.76
82662765|NCT00205777|165042654|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.238||||0.75|TWO_SIDED|95.0|0.332|4.616|||Regression, Logistic|||P value was calculated using logistic regression. Gail index was added to the model to account for baseline risk differences between participants.||4.616|0.332|0.75
82662766|NCT00205777|165042655|SUPERIORITY_OR_OTHER||Relative Risk|0.9|||||TWO_SIDED|95.0|0.38|2.15||||||Relative risk versus placebo was provided together with 95% CIs.||2.15|0.38|
82662767|NCT00205777|165042655|SUPERIORITY_OR_OTHER||Relative Risk|0.92|||||TWO_SIDED|95.0|0.39|2.21||||||Relative risk versus placebo was provided together with 95% CIs.||2.21|0.39|
82662768|NCT00205777|165042656|SUPERIORITY_OR_OTHER||Relative risk|1.01|||||TWO_SIDED|95.0|0.5|2.06||||||Relative risk versus placebo was provided together with 95% CIs.||2.06|0.5|
82662769|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.57|TWO_SIDED||||||Log Rank|||||||0.57
82662770|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.62|TWO_SIDED||||||Log Rank|||||||0.62
82662771|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Log Rank|||||||0.72
82662772|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.67|TWO_SIDED||||||Log Rank|||||||0.67
82662773|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.89|TWO_SIDED||||||Log Rank|||||||0.89
82662774|NCT00205777|165042657|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Log Rank|||||||0.95
82662775|NCT00205777|165042658|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||||||0.29
82662776|NCT00205777|165042658|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Log Rank|||||||0.31
82662777|NCT00205777|165042658|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||Log Rank|||||||0.94
82662778|NCT00205777|165042659|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||Log Rank|||||||0.18
82662779|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.46|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.46
82662780|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.90
82662781|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.93
82662782|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.84|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.84
82662783|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.39
82662784|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.52|TWO_SIDED||||||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test.||||0.52
82662785|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.28
82662786|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.31
82662787|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.17
82662788|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.72
82662789|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.97
82662790|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||Log Rank|||Hip: P value was calculated using Log-Rank test.||||0.76
82662791|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.29
82662792|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.43|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.43
82662793|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.59
82662794|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.19
82662795|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.8|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.80
82662796|NCT00205777|165042663|SUPERIORITY_OR_OTHER|||||||0.11|TWO_SIDED||||||Log Rank|||Wrist: P value was calculated using Log-Rank test.||||0.11
82662797|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.012||||0.968|TWO_SIDED|95.0|0.79|1.296|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.296|0.790|0.968
82662798|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.846||||0.211|TWO_SIDED|95.0|0.652|1.097|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.097|0.652|0.211
82662799|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||0.191|TWO_SIDED|95.0|0.925|1.556|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.556|0.925|0.191
82662800|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.493|TWO_SIDED|95.0|0.566|3.497|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||3.497|0.566|0.493
82662801|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.872||||0.82|TWO_SIDED|95.0|0.316|2.405|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.405|0.316|0.820
82662802|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.612||||0.371|TWO_SIDED|95.0|0.624|4.161|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||4.161|0.624|0.371
82662803|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.202||||0.423|TWO_SIDED|95.0|0.776|1.861|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.861|0.776|0.423
82662804|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.936||||0.799|TWO_SIDED|95.0|0.587|1.491|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 40/20 mg \[SE I\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.491|0.587|0.799
82662805|NCT00205777|165042664|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.28||||0.298|TWO_SIDED|95.0|0.818|2.002|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[Core+SE I\] versus Bazedoxifene 40/20 mg \[SE I\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||2.002|0.818|0.298
82662806|NCT00205777|165042665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.96||||0.73|TWO_SIDED|95.0|0.78|1.19|||Log Rank|||Osteoporosis-Related: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.19|0.78|0.73
82662807|NCT00205777|165042665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.71|TWO_SIDED|95.0|0.41|1.83|||Log Rank|||Hip: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.83|0.41|0.71
82662808|NCT00205777|165042665|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.45|TWO_SIDED|95.0|0.8|1.66|||Log Rank|||Wrist: P value was calculated using Log-Rank test. Hazard ratio (Bazedoxifene 20 mg \[SE II\] versus Placebo \[Core+SE I+SE II\]) based on a Cox proportional hazards regression model was presented along with 95% CIs.||1.66|0.80|0.45
82662809|NCT00205777|165042666|SUPERIORITY_OR_OTHER|||||||0.31|TWO_SIDED||||||ANCOVA|||||||0.31
82662810|NCT00205777|165042666|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED||||||ANCOVA|||||||0.039
82662811|NCT00205777|165042666|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||ANCOVA|||||||0.13
82662812|NCT00205777|165042666|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
82662813|NCT00205777|165042666|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||||||0.002
82662814|NCT00205777|165042667|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANCOVA|||||||0.12
82662815|NCT00205777|165042667|SUPERIORITY_OR_OTHER|||||||0.94|TWO_SIDED||||||ANCOVA|||||||0.94
82662816|NCT00205777|165042668|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||ANCOVA|||||||0.26
82662817|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using Analysis of covariance (ANCOVA).||||<0.001
82662818|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662819|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662820|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662821|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662822|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.018
82662823|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662824|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662825|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662826|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662827|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662828|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662829|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662830|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662831|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662832|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.036
82662833|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.003
82662834|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.019|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.019
82662835|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662836|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.002
82662837|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662838|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662839|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662840|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662841|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662842|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662843|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662844|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662845|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662846|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662847|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662848|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662849|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662850|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662851|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662852|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662853|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662854|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662855|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662856|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662857|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||0.008
82662858|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||0.007
82662859|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||0.002
82662860|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||0.002
82662861|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||0.006
82662862|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662863|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662864|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662865|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662866|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662867|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662868|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662869|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662870|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662871|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662872|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||0.47
82662873|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||0.005
82662874|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||0.002
82662875|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662876|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||0.004
82662877|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662878|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662879|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662880|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662881|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662882|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||0.39
82662883|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||0.17
82662884|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||0.34
82662885|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||0.016
82662886|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||0.47
82662887|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662888|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662889|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662890|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662891|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662892|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662893|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662894|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662895|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662896|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662897|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.01
82662898|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.002
82662899|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662900|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662901|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662902|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662903|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662904|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662905|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662906|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662907|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.048
82662908|NCT00205777|165042669|SUPERIORITY_OR_OTHER|||||||0.038|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.038
82662909|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662910|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662911|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662912|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 6 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662913|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 12 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662914|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 18 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662915|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 24 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662916|NCT00205777|165042669|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 36 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662917|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662918|NCT00205777|165042670|SUPERIORITY_OR_OTHER|||||||0.01|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.010
82662919|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in lumbar spine BMD: P value was calculated using ANCOVA.||||<0.001
82662920|NCT00205777|165042670|SUPERIORITY_OR_OTHER|||||||0.023|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.023
82662921|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662922|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662923|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662924|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662925|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662926|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662927|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662928|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662929|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662930|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662931|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 48 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662932|NCT00205777|165042670|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|||Percent change at Month 60 in femoral trochanter BMD: P value was calculated using ANCOVA.||||<0.001
82662933|NCT00205777|165042671|SUPERIORITY_OR_OTHER|||||||0.34|||||||ANCOVA|||Percent change at Month 72 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.34
82662934|NCT00205777|165042671|SUPERIORITY_OR_OTHER|||||||0.15|||||||ANCOVA|||Percent change at Month 84 in lumbar spine BMD: P value was calculated using ANCOVA.||||0.15
82662935|NCT00205777|165042671|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 72 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662936|NCT00205777|165042671|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 84 in total hip BMD: P value was calculated using ANCOVA.||||<0.001
82662937|NCT00205777|165042671|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Percent change at Month 72 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662938|NCT00205777|165042671|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 84 in femoral neck BMD: P value was calculated using ANCOVA.||||<0.001
82662939|NCT00205777|165042671|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||Percent change at Month 72 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.003
82662940|NCT00205777|165042671|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|||Percent change at Month 84 in femoral trochanter BMD: P value was calculated using ANCOVA.||||0.002
82662941|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662942|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662943|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662944|NCT00205777|165042672|SUPERIORITY_OR_OTHER|||||||0.93|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.93
82662945|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 3 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662946|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662947|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662948|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662949|NCT00205777|165042672|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.30
82662950|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662951|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662952|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662953|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662954|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662955|NCT00205777|165042672|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 12 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662956|NCT00205777|165042673|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 36 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662957|NCT00205777|165042673|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Ranked ANCOVA|||Percent change at Month 60 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662958|NCT00205777|165042673|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662959|NCT00205777|165042673|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Ranked ANCOVA|||Percent change at Month 60 in osteocalcin: P value was calculated using Ranked ANCOVA.||||<0.001
82662960|NCT00205777|165042674|SUPERIORITY_OR_OTHER|||||||0.037|||||||Ranked ANCOVA|||Percent change at Month 72 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.037
82662961|NCT00205777|165042674|SUPERIORITY_OR_OTHER|||||||0.16|||||||Ranked ANCOVA|||Percent change at Month 84 in osteocalcin: P value was calculated using Ranked ANCOVA.||||0.16
82662962|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662963|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662964|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662965|NCT00205777|165042675|SUPERIORITY_OR_OTHER|||||||0.4|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.40
82662966|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 3 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662967|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662968|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662969|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662970|NCT00205777|165042675|SUPERIORITY_OR_OTHER|||||||0.004|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.004
82662971|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 6 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662972|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662973|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662974|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662975|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662976|NCT00205777|165042675|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 12 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662977|NCT00205777|165042676|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662978|NCT00205777|165042676|SUPERIORITY_OR_OTHER|||||||0.001|||||||Ranked ANCOVA|||Percent change at Month 60 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.001
82662979|NCT00205777|165042676|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Ranked ANCOVA|||Percent change at Month 36 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||<0.001
82662980|NCT00205777|165042676|SUPERIORITY_OR_OTHER|||||||0.009|||||||Ranked ANCOVA|||Percent change at Month 60 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.009
82662981|NCT00205777|165042677|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Ranked ANCOVA|||Percent change at Month 72 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.034
82662982|NCT00205777|165042677|SUPERIORITY_OR_OTHER|||||||0.77||95.0|||||Ranked ANCOVA|||Percent change at Month 84 in C-telopeptide: P value was calculated using Ranked ANCOVA.||||0.77
82662983|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001|||||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662984|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662985|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662986|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662987|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662988|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662989|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662990|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||0.001
82662991|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662992|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662993|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662994|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662995|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||0.009
82662996|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82662997|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||0.055
82662998|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||0.004
82662999|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82663000|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82663001|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82663002|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in total cholesterol: P value was calculated using ANCOVA.||||<0.001
82663003|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
82663004|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
82663005|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
82663006|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
82663007|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
82663008|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
82663009|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
82663010|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
82663011|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
82663012|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
82663013|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
82663014|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
82663015|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||0.012
82663016|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
82663017|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||0.031
82663018|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||0.008
82663019|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in LDL: P value was calculated using ANCOVA.||||<0.001
82663020|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in LDL: P value was calculated using ANCOVA.||||<0.001
82663021|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in LDL: P value was calculated using ANCOVA.||||<0.001
82663022|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in LDL: P value was calculated using ANCOVA.||||<0.001
82663023|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.001
82663024|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
82663025|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.001
82663026|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
82663027|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.10
82663028|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||0.89
82663029|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.60
82663030|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||0.82
82663031|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.001
82663032|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
82663033|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.012
82663034|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
82663035|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.083||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.083
82663036|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||0.96
82663037|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.84
82663038|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||0.15
82663039|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANCOVA|||Percent change at Month 6 in HDL: P value was calculated using ANCOVA.||||0.13
82663040|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL: P value was calculated using ANCOVA.||||<0.001
82663041|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||ANCOVA|||Percent change at Month 24 in HDL: P value was calculated using ANCOVA.||||0.007
82663042|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL: P value was calculated using ANCOVA.||||<0.001
82663043|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.28
82663044|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA||||0.10
82663045|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.94||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.94
82663046|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.46
82663047|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.63
82663048|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.70
82663049|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.58
82663050|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.29||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.29
82663051|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.59||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.59
82663052|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.036
82663053|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.57
82663054|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.49
82663055|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.038||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.038
82663056|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.93
82663057|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.96
82663058|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.72
82663059|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANCOVA|||Percent change at Month 6 in HDL2: P value was calculated using ANCOVA.||||0.12
82663060|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||ANCOVA|||Percent change at Month 12 in HDL2: P value was calculated using ANCOVA.||||0.043
82663061|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.53||95.0|||||ANCOVA|||Percent change at Month 24 in HDL2: P value was calculated using ANCOVA.||||0.53
82663062|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANCOVA|||Percent change at Month 36 in HDL2: P value was calculated using ANCOVA.||||0.75
82663063|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663064|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663065|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663066|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663067|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.46
82663068|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||0.64
82663069|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||0.47
82663070|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||0.75
82663071|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.003
82663072|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663073|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663074|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663075|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.81
82663076|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||0.98
82663077|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.87||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||0.87
82663078|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||0.40
82663079|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANCOVA|||Percent change at Month 6 in HDL3: P value was calculated using ANCOVA.||||0.001
82663080|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 12 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663081|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 24 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663082|NCT00205777|165042678|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|||Percent change at Month 36 in HDL3: P value was calculated using ANCOVA.||||<0.001
82663083|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.85
82663084|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.26
82663085|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.33
82663086|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.22
82663087|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.86
82663088|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.65
82663089|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||1.00
82663090|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.44
82663091|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.058
82663092|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.55
82663093|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.34
82663094|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.96
82663095|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.058||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.058
82663096|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.031
82663097|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.054||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.054
82663098|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.62
82663099|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.99||95.0|||||ANCOVA|||Percent change at Month 6 in Triglycerides: P value was calculated using ANCOVA.||||0.99
82663100|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANCOVA|||Percent change at Month 12 in Triglycerides: P value was calculated using ANCOVA.||||0.11
82663101|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.33||95.0|||||ANCOVA|||Percent change at Month 24 in Triglycerides: P value was calculated using ANCOVA.||||0.33
82663102|NCT00205777|165042678|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANCOVA|||Percent change at Month 36 in Triglycerides: P value was calculated using ANCOVA.||||0.65
82663103|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.97|||||||ANOVA|||BV: P value was calculated using Analysis of Variance (ANOVA).||||0.97
82663104|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.19
82663105|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.74
82663106|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.79
82663107|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.11
82663108|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.78
82663109|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.9|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.90
82663110|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.33
82663111|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.51
82663112|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.28|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.28
82663113|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.86|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.86
82663114|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.6|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.60
82663115|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.84
82663116|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.98
82663117|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.47|||||||ANOVA|||OS: P value was calculated using ANOVA.||||0.47
82663118|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.59|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.59
82663119|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.13
82663120|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.65
82663121|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.33|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.33
82663122|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.053|||||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.053
82663123|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.51|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.51
82663124|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.5|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.50
82663125|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.27|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.27
82663126|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.091|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.091
82663127|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.087|||||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.087
82663128|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.82
82663129|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.82|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.82
82663130|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.12
82663131|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.085|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.085
82663132|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANOVA|||MS: P value was calculated using ANOVA.||||0.080
82663133|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.24|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.24
82663134|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.035|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.035
82663135|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.024|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.024
82663136|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.3|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.30
82663137|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.89|||||||ANOVA|||ES: P value was calculated using ANOVA.||||0.89
82663138|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.8|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.80
82663139|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.75|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.75
82663140|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.06|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.060
82663141|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.12|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.12
82663142|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.13
82663143|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.78|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.78
82663144|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.70
82663145|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.98|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.98
82663146|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||CP: P value was calculated using ANOVA.||||0.76
82663147|NCT00205777|165042679|SUPERIORITY_OR_OTHER|||||||0.73|||||||ANOVA|||CP: P value was calculated using ANOVA.||||0.73
82663148|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.7|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.70
82663149|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.65|||||||ANOVA|||BV: P value was calculated using ANOVA.||||0.65
82663150|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.006|||||||ANOVA|||OV: P value was calculated using ANOVA.||||0.006
82663151|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||OV: P value was calculated using ANOVA.||||0.010
82663152|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||OS: P value was calculated using ANOVA.||||0.050
82663153|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.045||95.0|||||ANOVA|||OS: P value was calculated using ANOVA.||||0.045
82663154|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.18
82663155|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||ANOVA|||OcS: P value was calculated using ANOVA.||||0.56
82663156|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.14
82663157|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||ObS: P value was calculated using ANOVA.||||0.22
82663158|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||MS: P value was calculated using ANOVA.||||0.11
82663159|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.055||95.0|||||ANOVA|||MS: P value was calculated using ANOVA.||||0.055
82663160|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.069||95.0|||||ANOVA|||ES: P value was calculated using ANOVA.||||0.069
82663161|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||ES: P value was calculated using ANOVA.||||0.28
82663162|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.62
82663163|NCT00205777|165042680|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANOVA|||OMS: P value was calculated using ANOVA.||||0.96
82663164|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.22
82663165|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.087|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.087
82663166|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.37
82663167|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.73
82663168|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||WTh: p-value was calculated using ANOVA.||||0.41
82663169|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.085||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.085
82663170|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.15
82663171|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.71||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.71
82663172|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.042||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.042
82663173|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.077
82663174|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.35
82663175|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.12
82663176|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.41||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.41
82663177|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.90
82663178|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.46
82663179|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.18
82663180|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.75||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.75
82663181|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.10
82663182|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.79
82663183|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.057||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.057
82663184|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.17
82663185|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.46||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.46
82663186|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.83
82663187|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.25
82663188|NCT00205777|165042681|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||CTh: P value was calculated using ANOVA.||||0.35
82663189|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.018|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.018
82663190|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.29|TWO_SIDED||||||ANOVA|||WTh: P value was calculated using ANOVA.||||0.29
82663191|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.049
82663192|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||ANOVA|||OTh: P value was calculated using ANOVA.||||0.37
82663193|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.97
82663194|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||TbTh: P value was calculated using ANOVA.||||0.78
82663195|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.43
82663196|NCT00205777|165042682|SUPERIORITY_OR_OTHER|||||||0.32||95.0|||||ANOVA|||TbSp: P value was calculated using ANOVA.||||0.32
82663197|NCT00205777|165042683|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||ANOVA|||||||0.35
82663198|NCT00205777|165042683|SUPERIORITY_OR_OTHER|||||||0.66||95.0|||||ANOVA|||||||0.66
82663199|NCT00205777|165042683|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANOVA|||||||0.30
82663200|NCT00205777|165042683|SUPERIORITY_OR_OTHER|||||||0.95||95.0|||||ANOVA|||||||0.95
82663201|NCT00205777|165042683|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
82663202|NCT00205777|165042684|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED||||||ANOVA|||||||1.00
82663203|NCT00205777|165042684|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||||||0.40
82663204|NCT00205777|165042685|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED||||||ANOVA|||||||0.71
82663205|NCT00205777|165042685|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||||||0.83
82663206|NCT00205777|165042685|SUPERIORITY_OR_OTHER|||||||0.63||95.0|||||ANOVA|||||||0.63
82663207|NCT00205777|165042685|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||||||0.92
82663208|NCT00205777|165042685|SUPERIORITY_OR_OTHER|||||||0.5||95.0|||||ANOVA|||||||0.50
82663209|NCT00205777|165042686|SUPERIORITY_OR_OTHER|||||||0.73|TWO_SIDED||||||ANOVA|||||||0.73
82663210|NCT00205777|165042686|SUPERIORITY_OR_OTHER|||||||0.8||95.0|||||ANOVA|||||||0.80
82663211|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.81
82663212|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.96|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.96
82663213|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.005
82663214|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.013
82663215|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.006
82663216|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.7||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.70
82663217|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.44||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.44
82663218|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.47||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.47
82663219|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.28
82663220|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.14
82663221|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.93
82663222|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.85
82663223|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.010
82663224|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.015
82663225|NCT00205777|165042687|SUPERIORITY_OR_OTHER|||||||0.006||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.006
82663226|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.60
82663227|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||0.53|TWO_SIDED||||||ANOVA|||BFP: P value was calculated using ANOVA.||||0.53
82663228|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||1||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||1.00
82663229|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||RP: P value was calculated using ANOVA.||||0.43
82663230|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.60
82663231|NCT00205777|165042688|SUPERIORITY_OR_OTHER|||||||0.52||95.0|||||ANOVA|||RmP: P value was calculated using ANOVA.||||0.52
82663232|NCT00205777|165042689|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
82663233|NCT00205777|165042689|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||||||0.76
82663234|NCT00205777|165042689|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||||||0.26
82663235|NCT00205777|165042689|SUPERIORITY_OR_OTHER|||||||0.9||95.0|||||ANOVA|||||||0.90
82663236|NCT00205777|165042689|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
82663237|NCT00205777|165042690|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
82663238|NCT00205777|165042690|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
82663239|NCT00205777|165042691|SUPERIORITY_OR_OTHER|||||||0.68|TWO_SIDED||||||ANOVA|||||||0.68
82663240|NCT00205777|165042691|SUPERIORITY_OR_OTHER|||||||0.97||95.0|||||ANOVA|||||||0.97
82663241|NCT00205777|165042691|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
82663242|NCT00205777|165042691|SUPERIORITY_OR_OTHER|||||||0.088||95.0|||||ANOVA|||||||0.088
82663243|NCT00205777|165042691|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||||||0.17
82663244|NCT00205777|165042692|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
82663245|NCT00205777|165042692|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANOVA|||||||0.10
82663246|NCT00205777|165042693|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||ANOVA|||||||0.90
82663247|NCT00205777|165042693|SUPERIORITY_OR_OTHER|||||||0.74||95.0|||||ANOVA|||||||0.74
82663248|NCT00205777|165042693|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||||||0.13
82663249|NCT00205777|165042693|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||||||0.11
82663250|NCT00205777|165042693|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||ANOVA|||||||0.24
82663251|NCT00205777|165042694|SUPERIORITY_OR_OTHER|||||||0.25|TWO_SIDED||||||ANOVA|||||||0.25
82663252|NCT00205777|165042694|SUPERIORITY_OR_OTHER|||||||0.07||95.0|||||ANOVA|||||||0.070
82663253|NCT00205777|165042695|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||ANOVA|||||||0.77
82663254|NCT00205777|165042695|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANOVA|||||||0.91
82663255|NCT00205777|165042695|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
82663256|NCT00205777|165042695|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||ANOVA|||||||0.023
82663257|NCT00205777|165042695|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANOVA|||||||0.012
82663258|NCT00205777|165042696|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED||||||ANOVA|||||||0.79
82663259|NCT00205777|165042696|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
82663260|NCT00205777|165042697|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED||||||ANOVA|||||||0.30
82663261|NCT00205777|165042697|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||||||0.62
82663262|NCT00205777|165042697|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||ANOVA|||||||0.28
82663263|NCT00205777|165042697|SUPERIORITY_OR_OTHER|||||||0.041||95.0|||||ANOVA|||||||0.041
82663264|NCT00205777|165042697|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||||||0.12
82663265|NCT00205777|165042698|SUPERIORITY_OR_OTHER|||||||0.7|TWO_SIDED||||||ANOVA|||||||0.70
82663266|NCT00205777|165042698|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
82663267|NCT00205777|165042699|SUPERIORITY_OR_OTHER|||||||0.22|TWO_SIDED||||||ANOVA|||||||0.22
82663268|NCT00205777|165042699|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||||||0.76
82663269|NCT00205777|165042699|SUPERIORITY_OR_OTHER|||||||0.26||95.0|||||ANOVA|||||||0.26
82663270|NCT00205777|165042699|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANOVA|||||||0.89
82663271|NCT00205777|165042699|SUPERIORITY_OR_OTHER|||||||0.17||95.0|||||ANOVA|||||||0.17
82663272|NCT00205777|165042700|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||||||0.41
82663273|NCT00205777|165042700|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||||||0.18
82663274|NCT00205777|165042701|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||ANOVA|||||||0.97
82663275|NCT00205777|165042701|SUPERIORITY_OR_OTHER|||||||0.61||95.0|||||ANOVA|||||||0.61
82663276|NCT00205777|165042701|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||||||0.050
82663277|NCT00205777|165042701|SUPERIORITY_OR_OTHER|||||||0.061||95.0|||||ANOVA|||||||0.061
82663278|NCT00205777|165042701|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||||||0.14
82663279|NCT00205777|165042702|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||ANOVA|||||||0.15
82663280|NCT00205777|165042702|SUPERIORITY_OR_OTHER|||||||0.056||95.0|||||ANOVA|||||||0.056
82663281|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.20
82663282|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.12
82663283|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED||||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.17
82663284|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.92
82663285|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||Change at Month 12 in WHQ: P value was calculated using ANOVA.||||0.86
82663286|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.18||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.18
82663287|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.12
82663288|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.096||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.096
82663289|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.76
82663290|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.93||95.0|||||ANOVA|||Change at Month 24 in WHQ: P value was calculated using ANOVA.||||0.93
82663291|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.36||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.36
82663292|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.34
82663293|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.98
82663294|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.35
82663295|NCT00205777|165042704|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in WHQ: P value was calculated using ANOVA.||||0.35
82663296|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.08|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.080
82663297|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.41|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.41
82663298|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.65|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.65
82663299|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.18|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.18
82663300|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED||||||ANOVA|||Change at Month 12 in QUALEFFO: P value was calculated using ANOVA.||||0.36
82663301|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.27||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.27
82663302|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.25||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.25
82663303|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.053||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.053
82663304|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.4||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.40
82663305|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.45||95.0|||||ANOVA|||Change at Month 24 in QUALEFFO: P value was calculated using ANOVA.||||0.45
82663306|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.012||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.012
82663307|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.54
82663308|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.11
82663309|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.35
82663310|NCT00205777|165042706|SUPERIORITY_OR_OTHER|||||||0.34||95.0|||||ANOVA|||Change at Month 36 in QUALEFFO: P value was calculated using ANOVA.||||0.34
82663311|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.21|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.21
82663312|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.058|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.058
82663313|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.76|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.76
82663314|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.34|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.34
82663315|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||ANOVA|||Change at Month 12 in EQ-5D VAS: P value was calculated using ANOVA.||||0.51
82663316|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.14
82663317|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.57||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.57
82663318|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.78
82663319|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.24
82663320|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.78||95.0|||||ANOVA|||Change at Month 24 in EQ-5D VAS: P value was calculated using ANOVA.||||0.78
82663321|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.62||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.62
82663322|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.72
82663323|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.16
82663324|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.059||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.059
82663325|NCT00205777|165042708|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||ANOVA|||Change at Month 36 in EQ-5D VAS: P value was calculated using ANOVA.||||0.30
82663326|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.72||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.72
82663327|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.98||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.98
82663328|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.84
82663329|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.88
82663330|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.86||95.0|||||ANOVA|||Change at Month 12 in EQ-5D: P value was calculated using ANOVA.||||0.86
82663331|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.82
82663332|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.11
82663333|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.14
82663334|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.22
82663335|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.88||95.0|||||ANOVA|||Change at Month 24 in EQ-5D: P value was calculated using ANOVA.||||0.88
82663336|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.96||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.96
82663337|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.76||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.76
82663338|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.92||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.92
82663339|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.89||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.89
82663340|NCT00205777|165042710|SUPERIORITY_OR_OTHER|||||||0.83||95.0|||||ANOVA|||Change at Month 36 in EQ-5D: P value was calculated using ANOVA.||||0.83
82663341|NCT03100344|165042767|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-13.6||||0.051|TWO_SIDED|95.0|-27.3|0.0|||Kenward-Rogers|||||0.0|-27.3|0.051
82663342|NCT03100344|165042767|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-16.7||||0.016|TWO_SIDED|95.0|-30.2|-3.2|||Kenward Roger|||||-3.2|-30.2|0.016
82663343|NCT03100344|165042767|OTHER|mixed-effect model for repeated measures (MMRM)|mean difference of percentage changes|-6.8||||0.322|TWO_SIDED|95.0|-20.5|6.8|||Kenward Roger|||||6.8|-20.5|0.322
82663344|NCT03100344|165042768|SUPERIORITY||Mean Difference (Final Values)|18.9||||0.034|TWO_SIDED|95.0|2.0|35.8|||Cochran-Mantel-Haenszel|||||35.8|2.0|0.034
82663345|NCT03100344|165042768|SUPERIORITY||Mean Difference (Final Values)|31.4|||<|0.001|TWO_SIDED|95.0|14.7|48.2|||Cochran-Mantel-Haenszel|||||48.2|14.7|<0.001
82663346|NCT03100344|165042768|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.154|TWO_SIDED|95.0|-4.2|28.6|||Cochran-Mantel-Haenszel|||||28.6|-4.2|0.154
82663347|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|10.9||||0.062|TWO_SIDED|95.0|-0.4|22.2|||Cochran-Mantel-Haenszel|||Week 1||22.2|-0.4|0.062
82663348|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.042|TWO_SIDED|95.0|0.8|23.6|||Cochran-Mantel-Haenszel|||Week 1||23.6|0.8|0.042
82663349|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|5.2||||0.307|TWO_SIDED|95.0|-4.7|15.0|||Cochran-Mantel-Haenszel|||Week 1||15.0|-4.7|0.307
82663350|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|24.0||||0.003|TWO_SIDED|95.0|9.3|38.7|||Cochran-Mantel-Haenszel|||Week 2||38.7|9.3|0.003
82663351|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|26.2||||0.001|TWO_SIDED|95.0|11.4|40.9|||Cochran-Mantel-Haenszel|||Week 2||40.9|11.4|0.001
82663352|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.011|TWO_SIDED|95.0|4.9|33.1|||Cochran-Mantel-Haenszel|||Week 2||33.1|4.9|0.011
82663353|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|27.6|||<|0.001|TWO_SIDED|95.0|13.5|41.7|||Cochran-Mantel-Haenszel|||Week 4||41.7|13.5|<0.001
82663354|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|40.3|||<|0.001|TWO_SIDED|95.0|25.7|54.8|||Cochran-Mantel-Haenszel|||Week 4||54.8|25.7|<0.001
82663355|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|31.6|||<|0.001|TWO_SIDED|95.0|17.4|45.8|||Cochran-Mantel-Haenszel|||Week 4||45.8|17.4|<0.001
82663356|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.018|TWO_SIDED|95.0|4.2|37.1|||Cochran-Mantel-Haenszel|||Week 8||37.1|4.2|0.018
82663357|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|43.7|||<|1|TWO_SIDED|95.0|27.6|59.9|||Cochran-Mantel-Haenszel|||Week 8||59.9|27.6|<0001
82663358|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|26.1||||0.003|TWO_SIDED|95.0|9.7|42.6|||Cochran-Mantel-Haenszel|||Week 8||42.6|9.7|0.003
82663359|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|24.4||||0.007|TWO_SIDED|95.0|7.3|41.4|||Cochran-Mantel-Haenszel|||Week 12||41.4|7.3|0.007
82663360|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|43.6|||<|0.001|TWO_SIDED|95.0|27.4|59.9|||Cochran-Mantel-Haenszel|||Week 12||59.9|27.4|<0.001
82663361|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.03|TWO_SIDED|95.0|2.4|35.9|||Cochran-Mantel-Haenszel|||Week 12||35.9|2.4|0.030
82663362|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|33.3|||<|0.001|TWO_SIDED|95.0|16.4|50.2|||Cochran-Mantel-Haenszel|||Week 16||50.2|16.4|<0.001
82663363|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|47.2|||<|0.001|TWO_SIDED|95.0|31.2|63.2|||Cochran-Mantel-Haenszel|||Week 16||63.2|31.2|<0.001
82663364|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|22.8||||0.01|TWO_SIDED|95.0|6.1|39.4|||Cochran-Mantel-Haenszel|||Week 16||39.4|6.1|0.010
82663365|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|26.3||||0.004|TWO_SIDED|95.0|9.2|43.5|||Cochran-Mantel-Haenszel|||Week 20||43.5|9.2|0.004
82663366|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|36.7|||<|0.001|TWO_SIDED|95.0|20.1|53.3|||Cochran-Mantel-Haenszel|||Week 20||53.3|20.1|<0.001
82663367|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|24.5||||0.007|TWO_SIDED|95.0|7.6|41.4|||Cochran-Mantel-Haenszel|||Week 20||41.4|7.6|0.007
82663368|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.022|TWO_SIDED|95.0|3.6|38.1|||Cochran-Mantel-Haenszel|||Week 24||38.1|3.6|0.022
82663369|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|24.3||||0.007|TWO_SIDED|95.0|7.4|41.3|||Cochran-Mantel-Haenszel|||Week 24||41.3|7.4|0.007
82663370|NCT03100344|165042769|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.05|TWO_SIDED|95.0|0.4|34.4|||Cochran-Mantel-Haenszel|||Week 24||34.4|0.4|0.050
82663371|NCT03100344|165042770|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-14.4||||0.017|TWO_SIDED|95.0|-26.2|-2.7|||Kenward Roger|||||-2.7|-26.2|0.017
82663372|NCT03100344|165042770|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-11.3||||0.058|TWO_SIDED|95.0|-23.1|0.4|||Kenward Roger|||||0.4|-23.1|0.058
82663373|NCT03100344|165042770|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-20.0|||<|0.001|TWO_SIDED|95.0|-31.6|-8.3|||Kenward Roger|||||-8.3|-31.6|<0.001
82663374|NCT03100344|165042771|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-9.6||||0.016|TWO_SIDED|95.0|-17.5|-1.8|||Kenward Roger|||||-1.8|-17.5|0.016
82663375|NCT03100344|165042771|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-12.8||||0.001|TWO_SIDED|95.0|-20.6|-5.1|||Kenward Roger|||||-5.1|-20.6|0.001
82663376|NCT03100344|165042771|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-7.6||||0.058|TWO_SIDED|95.0|-15.4|0.3|||Kenward Roger|||||0.3|-15.4|0.058
82663377|NCT03100344|165042772|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-24.5|||<|0.001|TWO_SIDED|95.0|-37.8|-11.2|||Kenward Roger|||||-11.2|-37.8|<0.001
82663378|NCT03100344|165042772|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-31.7|||<|0.001|TWO_SIDED|95.0|-44.9|-18.6|||Kenward Roger|||||-18.6|-44.9|<0.001
82663379|NCT03100344|165042772|OTHER|mixed-effect model for repeated measures|mean difference of percentage changes|-25.1|||<|0.001|TWO_SIDED|95.0|-38.4|-11.8|||Kenward Roger|||||-11.8|-38.4|<0.001
82663380|NCT03100344|165042773|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-2.0|||<|0.001|TWO_SIDED|95.0|-3.1|-1.0|||Kenward Roger|||||-1.0|-3.1|<0.001
82663381|NCT03100344|165042773|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-2.3|||<|0.001|TWO_SIDED|95.0|-3.4|-1.3|||Kenward Roger|||||-1.3|-3.4|<0.001
82663382|NCT03100344|165042773|OTHER|mixed-effect model for repeated measures|mean difference of absolute changes|-1.9|||<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||Kenward Roger|||||-0.9|-3.0|<0.001
82663383|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||At week 1||5.1|-4.9|0.970
82663384|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||At week 1||7.5|-4.1|0.574
82663385|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|-1.8||||0.311|TWO_SIDED|95.0|-5.2|1.7|||Cochran-Mantel-Haenszel|||At week 1||1.7|-5.2|0.311
82663386|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|4.2||||0.598|TWO_SIDED|95.0|-11.3|19.8|||Cochran-Mantel-Haenszel|||At week 24||19.8|-11.3|0.598
82663387|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|15.5||||0.066|TWO_SIDED|95.0|-0.4|31.4|||Cochran-Mantel-Haenszel|||At week 24||31.4|-0.4|0.066
82663388|NCT03100344|165042774|OTHER||Mean Difference (Final Values)|1.7||||0.826|TWO_SIDED|95.0|-13.5|16.9|||Cochran-Mantel-Haenszel|||At week 24||16.9|-13.5|0.826
82663389|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.558|TWO_SIDED|95.0|-7.7|4.1|||Cochran-Mantel-Haenszel|||Week 2||4.1|-7.7|0.558
82663390|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.7|11.6|||Cochran-Mantel-Haenszel|||Week 2||11.6|-4.7|0.413
82663391|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.543|TWO_SIDED|95.0|-7.7|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.0|-7.7|0.543
82663392|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.583|TWO_SIDED|95.0|-7.6|4.2|||Cochran-Mantel-Haenszel|||Week 4||4.2|-7.6|0.583
82663393|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.028|TWO_SIDED|95.0|1.8|22.5|||Cochran-Mantel-Haenszel|||Week 4||22.5|1.8|0.028
82663394|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.087|TWO_SIDED|95.0|-0.9|18.3|||Cochran-Mantel-Haenszel|||Week 4||18.3|-0.9|0.087
82663395|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.632|TWO_SIDED|95.0|-5.6|9.4|||Cochran-Mantel-Haenszel|||Week 8||9.4|-5.6|0.632
82663396|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.016|TWO_SIDED|95.0|3.1|24.8|||Cochran-Mantel-Haenszel|||Week 8||24.8|3.1|0.016
82663397|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|15.8||||0.009|TWO_SIDED|95.0|4.5|27.0|||Cochran-Mantel-Haenszel|||Week 8||27.0|4.5|0.009
82663398|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.974|TWO_SIDED|95.0|-11.2|11.6|||Cochran-Mantel-Haenszel|||Week 12||11.6|-11.2|0.974
82663399|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.031|TWO_SIDED|95.0|1.8|29.3|||Cochran-Mantel-Haenszel|||Week 12||29.3|1.8|0.031
82663400|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.032|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 12||28.2|-0.3|0.032
82663401|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.553|TWO_SIDED|95.0|-9.0|16.9|||Cochran-Mantel-Haenszel|||Week 16||16.9|-9.0|0.553
82663402|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.008|TWO_SIDED|95.0|6.1|35.8|||Cochran-Mantel-Haenszel|||Week 16||35.8|6.1|0.008
82663403|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.061|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 16||28.2|-0.3|0.061
82663404|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.585|TWO_SIDED|95.0|-10.1|18.0|||Cochran-Mantel-Haenszel|||Week 20||18.0|-10.1|0.585
82663405|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.032|TWO_SIDED|95.0|2.0|32.8|||Cochran-Mantel-Haenszel|||Week 20||32.8|2.0|0.032
82663406|NCT03100344|165042774|SUPERIORITY||Mean Difference (Final Values)|8.6||||0.254|TWO_SIDED|95.0|-5.9|23.1|||Cochran-Mantel-Haenszel|||Week 20||23.1|-5.9|0.254
82663407|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|3.8||||0.487|TWO_SIDED|95.0|-6.8|14.3|||Cochran-Mantel-Haenszel|||Week 1||14.3|-6.8|0.487
82663408|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.033|TWO_SIDED|95.0|1.6|26.5|||Cochran-Mantel-Haenszel|||Week 1||26.5|1.6|0.033
82663409|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|12.0||||0.053|TWO_SIDED|95.0|0.2|23.8|||Cochran-Mantel-Haenszel|||Week 1||23.8|0.2|0.053
82663410|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|18.5||||0.021|TWO_SIDED|95.0|3.2|33.8|||Cochran-Mantel-Haenszel|||Week 2||33.8|3.2|0.021
82663411|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.027|TWO_SIDED|95.0|2.4|32.3|||Cochran-Mantel-Haenszel|||Week 2||32.3|2.4|0.027
82663412|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|22.7||||0.006|TWO_SIDED|95.0|7.3|38.1|||Cochran-Mantel-Haenszel|||Week 2||38.1|7.3|0.006
82663413|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|15.2||||0.086|TWO_SIDED|95.0|-1.7|32.2|||Cochran-Mantel-Haenszel|||Week 4||32.2|-1.7|0.086
82663414|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|26.2||||0.004|TWO_SIDED|95.0|9.3|43.1|||Cochran-Mantel-Haenszel|||Week 4||43.1|9.3|0.004
82492800|NCT03166735|164678428|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0212||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0212
82663415|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.05|TWO_SIDED|95.0|0.5|34.2|||Cochran-Mantel-Haenszel|||Week 4||34.2|0.5|0.050
82663416|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|20.7||||0.023|TWO_SIDED|95.0|3.3|38.1|||Cochran-Mantel-Haenszel|||Week 8||38.1|3.3|0.023
82663417|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.002|TWO_SIDED|95.0|10.7|45.0|||Cochran-Mantel-Haenszel|||Week 8||45.0|10.7|0.002
82663418|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.002|TWO_SIDED|95.0|10.7|45.0|||Cochran-Mantel-Haenszel|||Week 8||45.0|10.7|0.002
82663419|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|19.3||||0.041|TWO_SIDED|95.0|1.3|37.3|||Cochran-Mantel-Haenszel|||Week 12||37.3|1.3|0.041
82663420|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|27.9||||0.003|TWO_SIDED|95.0|10.4|45.4|||Cochran-Mantel-Haenszel|||Week 12||45.4|10.4|0.003
82663421|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.063|TWO_SIDED|95.0|-0.5|35.2|||Cochran-Mantel-Haenszel|||Week 12||35.2|-0.5|0.063
82663422|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.6||||0.064|TWO_SIDED|95.0|-0.4|35.6|||Cochran-Mantel-Haenszel|||Week 16||35.6|-0.4|0.064
82663423|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|22.6||||0.016|TWO_SIDED|95.0|4.9|40.3|||Cochran-Mantel-Haenszel|||Week 16||40.3|4.9|0.016
82663424|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.041|TWO_SIDED|95.0|1.3|36.9|||Cochran-Mantel-Haenszel|||Week 16||36.9|1.3|0.041
82663425|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.6||||0.064|TWO_SIDED|95.0|-0.4|35.6|||Cochran-Mantel-Haenszel|||Week 20||35.6|-0.4|0.064
82663426|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|26.0||||0.005|TWO_SIDED|95.0|8.6|43.4|||Cochran-Mantel-Haenszel|||Week 20||43.4|8.6|0.005
82663427|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|17.2||||0.064|TWO_SIDED|95.0|-0.6|35.0|||Cochran-Mantel-Haenszel|||Week 20||35.0|-0.6|0.064
82663428|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|15.9||||0.094|TWO_SIDED|95.0|-2.0|33.8|||Cochran-Mantel-Haenszel|||Week 24||33.8|-2.0|0.094
82663429|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|22.4||||0.014|TWO_SIDED|95.0|5.1|39.6|||Cochran-Mantel-Haenszel|||Week 24||39.6|5.1|0.014
82663430|NCT03100344|165042775|SUPERIORITY||Mean Difference (Final Values)|10.2||||0.273|TWO_SIDED|95.0|-7.7|28.0|||Cochran-Mantel-Haenszel|||Week 24||28.0|-7.7|0.273
82663431|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.979|TWO_SIDED|95.0|-6.8|7.0|||Cochran-Mantel-Haenszel|||Week 1||7.0|-6.8|0.979
82663432|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|1.6||||0.668|TWO_SIDED|95.0|-5.8|9.0|||Cochran-Mantel-Haenszel|||Week 1||9.0|-5.8|0.668
82663433|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.658|TWO_SIDED|95.0|-5.8|9.2|||Cochran-Mantel-Haenszel|||Week 1||9.2|-5.8|0.658
82663434|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|2.1||||0.69|TWO_SIDED|95.0|-8.0|12.2|||Cochran-Mantel-Haenszel|||Week 2||12.2|-8.0|0.690
82663435|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.521|TWO_SIDED|95.0|-6.9|13.7|||Cochran-Mantel-Haenszel|||Week 2||13.7|-6.9|0.521
82663436|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.033|TWO_SIDED|95.0|1.5|26.5|||Cochran-Mantel-Haenszel|||Week 2||26.5|1.5|0.033
82663437|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|7.4||||0.172|TWO_SIDED|95.0|-3.1|18.0|||Cochran-Mantel-Haenszel|||Week 4||18.0|-3.1|0.172
82663438|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|15.7||||0.014|TWO_SIDED|95.0|3.7|27.7|||Cochran-Mantel-Haenszel|||Week 4||27.7|3.7|0.014
82663439|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|21.0||||0.002|TWO_SIDED|95.0|8.2|33.9|||Cochran-Mantel-Haenszel|||Week 4||33.9|8.2|0.002
82663440|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.404|TWO_SIDED|95.0|-7.5|18.8|||Cochran-Mantel-Haenszel|||Week 8||18.8|-7.5|0.404
82663441|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|24.5||||0.003|TWO_SIDED|95.0|9.4|39.6|||Cochran-Mantel-Haenszel|||Week 8||39.6|9.4|0.003
82663442|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|14.1||||0.059|TWO_SIDED|95.0|-0.1|28.2|||Cochran-Mantel-Haenszel|||Week 8||28.2|-0.1|0.059
82663443|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|9.7||||0.222|TWO_SIDED|95.0|-5.6|25.0|||Cochran-Mantel-Haenszel|||Week 12||25.0|-5.6|0.222
82663444|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|26.1||||0.003|TWO_SIDED|95.0|10.0|42.3|||Cochran-Mantel-Haenszel|||Week 12||42.3|10.0|0.003
82663445|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.22|TWO_SIDED|95.0|3.3|35.0|||Cochran-Mantel-Haenszel|||Week 12||35.0|3.3|0.22
82663446|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|13.3||||0.111|TWO_SIDED|95.0|-2.8|29.3|||Cochran-Mantel-Haenszel|||Week 16||29.3|-2.8|0.111
82663447|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|29.6|||<|0.001|TWO_SIDED|95.0|13.2|46.0|||Cochran-Mantel-Haenszel|||Week 16||46.0|13.2|<0.001
82663448|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.04|TWO_SIDED|95.0|1.3|33.6|||Cochran-Mantel-Haenszel|||Week 16||33.6|1.3|0.040
82663449|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.262|TWO_SIDED|95.0|-7.3|27.4|||Cochran-Mantel-Haenszel|||Week 20||27.4|-7.3|0.262
82663450|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.327|TWO_SIDED|95.0|-8.4|25.7|||Cochran-Mantel-Haenszel|||Week 20||25.7|-8.4|0.327
82663451|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|15.7||||0.083|TWO_SIDED|95.0|-1.7|33.1|||Cochran-Mantel-Haenszel|||Week 20||33.1|-1.7|0.083
82663452|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|10.1||||0.255|TWO_SIDED|95.0|-7.0|27.2|||Cochran-Mantel-Haenszel|||Week 24||27.2|-7.0|0.255
82663453|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|19.0||||0.034|TWO_SIDED|95.0|2.2|35.9|||Cochran-Mantel-Haenszel|||Week 24||35.9|2.2|0.034
82663454|NCT03100344|165042776|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.053|TWO_SIDED|95.0|0.3|34.6|||Cochran-Mantel-Haenszel|||Week 24||34.6|0.3|0.053
82663455|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||Week 1||5.1|-4.9|0.970
82663456|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||Week 1||7.5|-4.1|0.574
82663457|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.985|TWO_SIDED|95.0|-4.8|4.8|||Cochran-Mantel-Haenszel|||Week 1||4.8|-4.8|0.985
82663458|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|-3.6||||0.154|TWO_SIDED|95.0|-8.4|1.2|||Cochran-Mantel-Haenszel|||Week 2||1.2|-8.4|0.154
82663459|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.978|TWO_SIDED|95.0|-6.8|6.6|||Cochran-Mantel-Haenszel|||Week 2||6.6|-6.8|0.978
82663460|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|-0.1||||0.978|TWO_SIDED|95.0|-6.8|6.6|||Cochran-Mantel-Haenszel|||Week 2||6.6|-6.8|0.978
82663461|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|-1.6||||0.602|TWO_SIDED|95.0|-7.5|4.3|||Cochran-Mantel-Haenszel|||Week 4||4.3|-7.5|0.602
82663462|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.5|11.4|||Cochran-Mantel-Haenszel|||Week 4||11.4|-4.5|0.413
82663463|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.658|TWO_SIDED|95.0|-5.7|9.1|||Cochran-Mantel-Haenszel|||Week 4||9.1|-5.7|0.658
82663464|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|3.6||||0.307|TWO_SIDED|95.0|-3.2|10.3|||Cochran-Mantel-Haenszel|||Week 8||10.3|-3.2|0.307
82663465|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|17.3||||0.002|TWO_SIDED|95.0|6.9|27.8|||Cochran-Mantel-Haenszel|||Week 8||27.8|6.9|0.002
82663466|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.054|TWO_SIDED|95.0|0.1|17.4|||Cochran-Mantel-Haenszel|||Week 8||17.4|0.1|0.054
82663467|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|5.6||||0.325|TWO_SIDED|95.0|-5.4|16.5|||Cochran-Mantel-Haenszel|||Week 12||16.5|-5.4|0.325
82663468|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.019|TWO_SIDED|95.0|3.1|28.1|||Cochran-Mantel-Haenszel|||Week 12||28.1|3.1|0.019
82663469|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|17.5||||0.011|TWO_SIDED|95.0|4.5|30.5|||Cochran-Mantel-Haenszel|||Week 12||30.5|4.5|0.011
82663470|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|9.2||||0.153|TWO_SIDED|95.0|-3.2|21.7|||Cochran-Mantel-Haenszel|||Week 16||21.7|-3.2|0.153
82663471|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|24.4||||0.001|TWO_SIDED|95.0|10.3|38.4|||Cochran-Mantel-Haenszel|||Week 16||38.4|10.3|0.001
82663472|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.069|TWO_SIDED|95.0|-0.7|25.1|||Cochran-Mantel-Haenszel|||Week 16||25.1|-0.7|0.069
82663473|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|12.9||||0.07|TWO_SIDED|95.0|-0.8|26.6|||Cochran-Mantel-Haenszel|||Week 20||26.6|-0.8|0.070
82663474|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.006|TWO_SIDED|95.0|6.5|35.3|||Cochran-Mantel-Haenszel|||Week 20||35.3|6.5|0.006
82663475|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.052|TWO_SIDED|95.0|0.3|27.7|||Cochran-Mantel-Haenszel|||Week 20||27.7|0.3|0.052
82663476|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|12.8||||0.069|TWO_SIDED|95.0|-0.7|26.3|||Cochran-Mantel-Haenszel|||Week 24||26.3|-0.7|0.069
82663477|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|19.1||||0.011|TWO_SIDED|95.0|4.9|33.3|||Cochran-Mantel-Haenszel|||Week 24||33.3|4.9|0.011
82663478|NCT03100344|165042777|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.083|TWO_SIDED|95.0|-1.3|25.7|||Cochran-Mantel-Haenszel|||Week 24||25.7|-1.3|0.083
82663479|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|0.1||||0.97|TWO_SIDED|95.0|-4.9|5.1|||Cochran-Mantel-Haenszel|||Week 1||5.1|-4.9|0.970
82663480|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.574|TWO_SIDED|95.0|-4.1|7.5|||Cochran-Mantel-Haenszel|||Week 1||7.5|-4.1|0.574
82663481|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.311|TWO_SIDED|95.0|-5.2|1.7|||Cochran-Mantel-Haenszel|||Week 1||1.7|-5.2|0.311
82663482|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.558|TWO_SIDED|95.0|-7.7|4.1|||Cochran-Mantel-Haenszel|||Week 2||4.1|-7.7|0.558
82663483|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.413|TWO_SIDED|95.0|-4.7|11.6|||Cochran-Mantel-Haenszel|||Week 2||11.6|-4.7|0.413
82663484|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|-1.8||||0.543|TWO_SIDED|95.0|-7.7|4.0|||Cochran-Mantel-Haenszel|||Week 2||4.0|-7.7|0.543
82663485|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|-1.7||||0.583|TWO_SIDED|95.0|-7.6|4.2|||Cochran-Mantel-Haenszel|||Week 4||4.2|-7.6|0.583
82663486|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.028|TWO_SIDED|95.0|1.8|22.5|||Cochran-Mantel-Haenszel|||Week 4||22.5|1.8|0.028
82663487|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|8.7||||0.087|TWO_SIDED|95.0|-0.9|18.3|||Cochran-Mantel-Haenszel|||Week 4||18.3|-0.9|0.087
82663488|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|1.9||||0.632|TWO_SIDED|95.0|-5.6|9.4|||Cochran-Mantel-Haenszel|||Week 8||9.4|-5.6|0.632
82663489|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|14.0||||0.016|TWO_SIDED|95.0|3.1|24.8|||Cochran-Mantel-Haenszel|||Week 8||24.8|3.1|0.016
82663490|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|15.8||||0.009|TWO_SIDED|95.0|4.5|27.0|||Cochran-Mantel-Haenszel|||Week 8||27.0|4.5|0.009
82663491|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.974|TWO_SIDED|95.0|-11.2|11.6|||Cochran-Mantel-Haenszel|||Week 12||11.6|-11.2|0.974
82663492|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.031|TWO_SIDED|95.0|1.8|29.3|||Cochran-Mantel-Haenszel|||Week 12||29.3|1.8|0.031
82663493|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|15.6||||0.032|TWO_SIDED|95.0|1.8|29.5|||Cochran-Mantel-Haenszel|||Week 12||29.5|1.8|0.032
82663494|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.553|TWO_SIDED|95.0|-9.0|16.9|||Cochran-Mantel-Haenszel|||Week 16||16.9|-9.0|0.553
82663495|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|20.9||||0.008|TWO_SIDED|95.0|6.1|35.8|||Cochran-Mantel-Haenszel|||Week 16||35.8|6.1|0.008
82663496|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|13.9||||0.061|TWO_SIDED|95.0|-0.3|28.2|||Cochran-Mantel-Haenszel|||Week 16||28.2|-0.3|0.061
82663497|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|4.0||||0.585|TWO_SIDED|95.0|-10.1|18.0|||Cochran-Mantel-Haenszel|||Week 20||18.0|-10.1|0.585
82663498|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|17.4||||0.032|TWO_SIDED|95.0|2.0|32.8|||Cochran-Mantel-Haenszel|||Week 20||32.8|2.0|0.032
82663499|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|8.6||||0.254|TWO_SIDED|95.0|-5.9|23.1|||Cochran-Mantel-Haenszel|||Week 20||23.1|-5.9|0.254
82663500|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|4.2||||0.598|TWO_SIDED|95.0|-11.3|19.8|||Cochran-Mantel-Haenszel|||Week 24||19.8|-11.3|0.598
82663501|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|15.5||||0.066|TWO_SIDED|95.0|-0.4|31.4|||Cochran-Mantel-Haenszel|||Week 24||31.4|-0.4|0.066
82663502|NCT03100344|165042778|SUPERIORITY||Mean Difference (Final Values)|1.7||||0.826|TWO_SIDED|95.0|-13.5|16.9|||Cochran-Mantel-Haenszel|||Week 24||16.9|-13.5|0.826
82663503|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-10.0||||0.049|TWO_SIDED|95.0|-20.0|0.0|||Kenward-Rogers|||Week 1||0.0|-20.0|0.049
82663504|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-16.9|||<|0.001|TWO_SIDED|95.0|-26.7|-7.0|||Kenward Roger|||Week 1||-7.0|-26.7|<0.001
82663505|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-15.7||||0.002|TWO_SIDED|95.0|-25.6|-5.8|||Kenward Roger|||Week 1||-5.8|-25.6|0.002
82663506|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-9.8||||0.084|TWO_SIDED|95.0|-20.9|1.3|||Kenward Roger|||Week 2||1.3|-20.9|0.084
82663507|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-16.2||||0.004|TWO_SIDED|95.0|-27.2|-5.2|||Kenward Roger|||Week 2||-5.2|-27.2|0.004
82663508|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-14.8||||0.008|TWO_SIDED|95.0|-25.8|-3.8|||Kenward Roger|||Week 2||-3.8|-25.8|0.008
82663509|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-14.0||||0.044|TWO_SIDED|95.0|-27.5|-0.4|||Kenward Roger|||Week 4||-0.4|-27.5|0.044
82663510|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-21.1||||0.002|TWO_SIDED|95.0|-34.7|-7.6|||Kenward Roger|||Week 4||-7.6|-34.7|0.002
82663511|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-15.3||||0.026|TWO_SIDED|95.0|-28.8|-1.8|||Kenward Roger|||Week 4||-1.8|-28.8|0.026
82663512|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-14.8||||0.062|TWO_SIDED|95.0|-30.2|0.7|||Kenward Roger|||Week 8||0.7|-30.2|0.062
82663513|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-23.4||||0.003|TWO_SIDED|95.0|-38.9|-7.9|||Kenward Roger|||Week 8||-7.9|-38.9|0.003
82663514|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-20.6||||0.009|TWO_SIDED|95.0|-36.0|-5.2|||Kenward Roger|||Week 8||-5.2|-36.0|0.009
82663515|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-15.9||||0.022|TWO_SIDED|95.0|-29.4|-2.3|||Kenward Roger|||Week 12||-2.3|-29.4|0.022
82663516|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-23.7|||<|0.001|TWO_SIDED|95.0|-37.1|-10.2|||Kenward Roger|||Week 12||-10.2|-37.1|<0.001
82663517|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-14.7||||0.032|TWO_SIDED|95.0|-28.1|-1.3|||Kenward Roger|||Week 12||-1.3|-28.1|0.032
82663518|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-13.7||||0.07|TWO_SIDED|95.0|-28.6|1.1|||Kenward Roger|||Week 16||1.1|-28.6|0.070
82663519|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-23.7||||0.002|TWO_SIDED|95.0|-38.5|-8.9|||Kenward Roger|||Week 16||-8.9|-38.5|0.002
82663520|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-10.7||||0.154|TWO_SIDED|95.0|-25.6|4.1|||Kenward Roger|||Week 16||4.1|-25.6|0.154
82663521|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-12.1||||0.09|TWO_SIDED|95.0|-26.0|1.9|||Kenward Roger|||Week 20||1.9|-26.0|0.090
82663522|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-15.9||||0.024|TWO_SIDED|95.0|-29.7|-2.1|||Kenward Roger|||Week 20||-2.1|-29.7|0.024
82663523|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-9.5||||0.18|TWO_SIDED|95.0|-23.4|4.4|||Kenward Roger|||Week 20||4.4|-23.4|0.180
82663524|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-13.6||||0.051|TWO_SIDED|95.0|-27.3|0.0|||Kenward Roger|||Week 24||0.0|-27.3|0.051
82663525|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-16.7||||0.016|TWO_SIDED|95.0|-30.2|-3.2|||Kenward Roger|||Week 24||-3.2|-30.2|0.016
82663526|NCT03100344|165042779|SUPERIORITY||mean difference of percentage changes|-6.8||||0.322|TWO_SIDED|95.0|-20.5|6.8|||Kenward Roger|||Week 24||6.8|-20.5|0.322
82663527|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-10.9||||0.012|TWO_SIDED|95.0|-19.4|-2.4|||Kenward Roger|||Week 1||-2.4|-19.4|0.012
82663528|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-15.4|||<|0.001|TWO_SIDED|95.0|-23.8|-7.1|||Kenward Roger|||Week 1||-7.1|-23.8|<0.001
82663529|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-9.4||||0.029|TWO_SIDED|95.0|-17.8|-0.9|||Kenward Roger|||Week 1||-0.9|-17.8|0.029
82663530|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-21.8|||<|0.001|TWO_SIDED|95.0|-32.0|-11.6|||Kenward Roger|||Week 2||-11.6|-32.0|<0.001
82663531|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-29.1|||<|0.001|TWO_SIDED|95.0|-39.1|-19.1|||Kenward Roger|||Week 2||-19.1|-39.1|<0.001
82663532|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-23.8|||<|0.001|TWO_SIDED|95.0|-34.0|-13.6|||Kenward Roger|||Week 2||-13.6|-34.0|<0.001
82663533|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-21.3|||<|0.001|TWO_SIDED|95.0|-32.1|-10.5|||Kenward Roger|||Week 4||-10.5|-32.1|<0.001
82663534|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-34.8|||<|0.001|TWO_SIDED|95.0|-45.5|-24.2|||Kenward Roger|||Week 4||-24.2|-45.5|<0.001
82663535|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-30.7|||<|0.001|TWO_SIDED|95.0|-41.6|-19.9|||Kenward Roger|||Week 4||-19.9|-41.6|<0.001
82663536|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-22.9|||<|0.001|TWO_SIDED|95.0|-33.2|-12.6|||Kenward Roger|||Week 8||-12.6|-33.2|<0.001
82663537|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-37.3|||<|0.001|TWO_SIDED|95.0|-47.4|-27.2|||Kenward Roger|||Week 8||-27.2|-47.4|<0.001
82663538|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-34.1|||<|0.001|TWO_SIDED|95.0|-44.4|-23.8|||Kenward Roger|||Week 8||-23.8|-44.4|<0.001
82663539|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-24.1|||<|0.001|TWO_SIDED|95.0|-35.6|-12.5|||Kenward Roger|||Week 12||-12.5|-35.6|<0.001
82663540|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-38.4|||<|0.001|TWO_SIDED|95.0|-49.7|-27.2|||Kenward Roger|||Week 12||-27.2|-49.7|<0.001
82663541|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-30.2|||<|0.001|TWO_SIDED|95.0|-41.7|-18.7|||Kenward Roger|||Week 12||-18.7|-41.7|<0.001
82663542|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-20.9|||<|0.001|TWO_SIDED|95.0|-32.8|-8.9|||Kenward Roger|||Week 16||-8.9|-32.8|<0.001
82663543|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-34.3|||<|0.001|TWO_SIDED|95.0|-46.0|-22.6|||Kenward Roger|||Week 16||-22.6|-46.0|<0.001
82663544|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-28.7|||<|0.001|TWO_SIDED|95.0|-40.7|-16.8|||Kenward Roger|||Week 16||-16.8|-40.7|<0.001
82663545|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-21.1||||0.001|TWO_SIDED|95.0|-33.7|-8.4|||Kenward Roger|||Week 20||-8.4|-33.7|0.001
82663546|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-29.7|||<|0.001|TWO_SIDED|95.0|-42.1|-17.3|||Kenward Roger|||Week 20||-17.3|-42.1|<0.001
82663547|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-27.9|||<|0.001|TWO_SIDED|95.0|-40.6|-15.2|||Kenward Roger|||Week 20||-15.2|-40.6|<0.001
82663548|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-22.4||||0.002|TWO_SIDED|95.0|-36.1|-8.6|||Kenward Roger|||Week 24||-8.6|-36.1|0.002
82663549|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-31.5|||<|0.001|TWO_SIDED|95.0|-44.9|-18.0|||Kenward Roger|||Week 24||-18.0|-44.9|<0.001
82663550|NCT03100344|165042780|SUPERIORITY||mean difference of percentage changes|-30.0|||<|0.001|TWO_SIDED|95.0|-43.8|-16.2|||Kenward Roger|||Week 24||-16.2|-43.8|<0.001
82663551|NCT03100344|165042782|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-3.0|-1.0|||Kenward Roger|||Week 24||-1.0|-3.0|<0.001
82663552|NCT03100344|165042782|SUPERIORITY||Mean Difference (Final Values)|-2.8|||<|0.001|TWO_SIDED|95.0|-3.8|-1.8|||Kenward Roger|||Week 24||-1.8|-3.8|<0.001
82663553|NCT03100344|165042782|SUPERIORITY||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.3|-1.3|||Kenward Roger|||Week 24||-1.3|-3.3|<0.001
82663554|NCT03100344|165042783|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-3.0|-0.9|||Kenward Roger|||Week 24||-0.9|-3.0|<0.001
82663555|NCT03100344|165042783|SUPERIORITY||Mean Difference (Final Values)|-2.6|||<|0.001|TWO_SIDED|95.0|-3.6|-1.6|||Kenward Roger|||Week 24||-1.6|-3.6|<0.001
82663556|NCT03100344|165042783|SUPERIORITY||Mean Difference (Final Values)|-2.1|||<|0.001|TWO_SIDED|95.0|-3.1|-1.1|||Kenward Roger|||Week 24||-1.1|-3.1|<0.001
82663557|NCT03100344|165042784|SUPERIORITY||mean difference of percentage changes|-23.8|||<|0.001|TWO_SIDED|95.0|-37.7|-9.9|||Kenward Roger|||Week 24||-9.9|-37.7|<0.001
82663558|NCT03100344|165042784|SUPERIORITY||mean difference of percentage changes|-31.4|||<|0.001|TWO_SIDED|95.0|-45.0|-17.7|||Kenward Roger|||Week 24||-17.7|-45.0|<0.001
82663559|NCT03100344|165042784|SUPERIORITY||mean difference of percentage changes|-29.2|||<|0.001|TWO_SIDED|95.0|-43.2|-15.2|||Kenward Roger|||Week 24||-15.2|-43.2|<0.001
82663560|NCT04633564|165042785|EQUIVALENCE|The equivalence region is (0.73, 1.36).|Risk Ratio (RR)|0.96|||||TWO_SIDED|90.0|0.83|1.12||||||||1.12|0.83|
82663561|NCT00902538|165042810|SUPERIORITY_OR_OTHER|||||||0.1187||95.0|||||ANCOVA|||||||0.1187
82663562|NCT00902538|165042810|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82663563|NCT00902538|165042811|SUPERIORITY_OR_OTHER|||||||0.0425||95.0|||||ANCOVA|||||||0.0425
82663564|NCT00902538|165042811|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82663565|NCT00902538|165042812|SUPERIORITY_OR_OTHER|||||||0.1939||95.0|||||Cochran-Mantel-Haenszel|||||||0.1939
82663566|NCT00902538|165042812|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82663567|NCT00902538|165042813|SUPERIORITY_OR_OTHER|||||||0.0009||95.0|||||ANCOVA|||||||0.0009
82663568|NCT00902538|165042813|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82663569|NCT00902538|165042814|SUPERIORITY_OR_OTHER|||||||0.0001||95.0|||||ANCOVA|||||||0.0001
82663570|NCT00902538|165042814|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|||||||<0.0001
82663571|NCT00902538|165042815|SUPERIORITY_OR_OTHER|||||||0.1611||95.0|||||ANCOVA|||||||0.1611
82663572|NCT00902538|165042816|SUPERIORITY_OR_OTHER|||||||0.0451||95.0|||||ANCOVA|||||||0.0451
82663573|NCT00902538|165042817|SUPERIORITY_OR_OTHER|||||||0.0412||95.0|||||ANCOVA|||||||0.0412
82663574|NCT00902538|165042818|SUPERIORITY_OR_OTHER|||||||0.0253||95.0|||||ANCOVA|||||||0.0253
82663575|NCT00902538|165042819|SUPERIORITY_OR_OTHER|||||||0.0063||95.0|||||ANCOVA|||||||0.0063
82663576|NCT03527485|165042820|EQUIVALENCE|Between-group comparisons of binding potential non displaceable (BPND) in ventral striatum (VS).||||||0.011|||||||ANOVA|||||||0.011
82663577|NCT03527485|165042820|EQUIVALENCE|Between-group comparisons of binding potential non displaceable (BPND) in Prefrontal cortex (PFC).||||||0.044|||||||ANOVA|||||||0.044
82663578|NCT00926887|165042821|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||||||<0.0001
82663579|NCT00926887|165042824|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||t-test, 2 sided|t=-2.711; df=102; p\<0.01||||||<0.01
82663580|NCT00926887|165042828|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|df=102, t=-3.44||||||<0.001
82663581|NCT00830258|165042829|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|105.76||||||90.0|98.17|113.93|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||113.93|98.17|
82663582|NCT00830258|165042830|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|110.45||||||90.0|104.31|116.96|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||116.96|104.31|
82663583|NCT00830258|165042831|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|110.61||||||90.0|104.39|117.2|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||117.20|104.39|
82663584|NCT03206749|165042853|SUPERIORITY||Least Squares (LS) Mean Difference|29.5|||<|0.0001|TWO_SIDED|95.0|16.61|42.4|||ANCOVA|||||42.40|16.61|<0.0001
82663585|NCT03206749|165042854|SUPERIORITY||LS Mean Difference|28.53|||<|0.0001|TWO_SIDED|95.0|16.18|40.88|||ANCOVA|||||40.88|16.18|<0.0001
82663586|NCT03206749|165042855|SUPERIORITY||LS Mean Difference|62.79|||<|0.0001|TWO_SIDED|95.0|36.3|89.27|||ANCOVA|||||89.27|36.30|<0.0001
82499459|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.955|STANDARD_ERROR_OF_MEAN|0.559||||90.0|-1.877|-0.034|||ANCOVA|||Extension Month 12; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.034|-1.877|
82663587|NCT03206749|165042856|SUPERIORITY||Hazard Ratio (HR)|1.47||||0.0469|TWO_SIDED|95.0|1.01|2.16|||Regression, Cox|||||2.16|1.01|0.0469
82663588|NCT03206749|165042857|SUPERIORITY||Hazard Ratio (HR)|1.26||||0.3294|TWO_SIDED|95.0|0.79|2.0|||Regression, Cox|||||2.00|0.79|0.3294
82663589|NCT03206749|165042858|SUPERIORITY|||||||0.2341|||||||Regression, Cox|||||||0.2341
82663590|NCT03206749|165042859|SUPERIORITY|||||||0.3358||||||0 - 24 hours|Cochran-Mantel-Haenszel|||||||0.3358
82663591|NCT03206749|165042859|SUPERIORITY|||||||0.0849||||||Greater than (\>) 24 - 48 hours|Cochran-Mantel-Haenszel|||||||0.0849
82663592|NCT03206749|165042860|SUPERIORITY|||||||0.0004||||||0 - 24 hours|Wilcoxon rank-sum test|||||||0.0004
82663593|NCT03206749|165042860|SUPERIORITY|||||||0.0035||||||\>24 - 48 hours|Wilcoxon rank-sum test|||||||0.0035
82663594|NCT02752074|165042865|OTHER||Hazard Ratio (HR)|1.0||||0.51711|TWO_SIDED|95.0|0.83|1.21||One-sided p-value based on log-rank test.|Log Rank|||||1.21|0.83|0.51711
82663595|NCT02752074|165042866|OTHER||Hazard Ratio (HR)|1.13||||0.80666|TWO_SIDED|95.0|0.86|1.49||One-sided p-value based on log-rank test.|Log Rank|||||1.49|0.86|0.80666
82663596|NCT00488774|165042875|SUPERIORITY_OR_OTHER|||||||0.467|||||||Chi-squared|||||||0.467
82663597|NCT00488774|165042875|SUPERIORITY_OR_OTHER|||||||0.081|||||||Chi-squared|||||||0.081
82663598|NCT00488774|165042875|SUPERIORITY_OR_OTHER|||||||0.145|||||||Chi-squared|||||||0.145
82663599|NCT00488774|165042876|SUPERIORITY_OR_OTHER|||||||0.832|||||||Chi-squared|||||||0.832
82663600|NCT00488774|165042876|SUPERIORITY_OR_OTHER|||||||0.37|||||||Chi-squared|||||||0.370
82663601|NCT00488774|165042876|SUPERIORITY_OR_OTHER|||||||0.702|||||||Chi-squared|||||||0.702
82663602|NCT05523895|165042877|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.52||0.2986|TWO_SIDED|95.0|-4.6|1.4|||Mixed Models Analysis|||||1.4|-4.6|0.2986
82663603|NCT05523895|165042877|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_ERROR_OF_MEAN|1.49||0.2859|TWO_SIDED|95.0|-4.5|1.3|||Mixed Models Analysis|||||1.3|-4.5|0.2859
82663604|NCT01919112|165042898|OTHER|Regression models using interaction terms will used to assess for heterogeneity of intervention effects across the novel radiological variable corticobulbar tract (CBT)-lesion load, a combined measure of lesion size and location. For purposes of the analysis, the CBT-lesion load was dichotomized into 2 groups based on the median CBT-lesion load volume.||||||0.116||||||Interaction p-values will be considered statistically significant at the 0.15 level of significance given the relatively low power for tests of interaction to detect a true interaction.|2-way analysis of variance with interact|The tDCS intervention was the main variable of interest, PAS score the main outcome and CBT-lesion load was the interaction term used.||The aim for this analysis was to assess for effect modification of the trial intervention across the novel radiological variable corticobulbar tract-lesion load.||||0.116
82663605|NCT02944617|165042900|OTHER|||||||1|||||||Fisher Exact|||||||1.00
82663606|NCT02944617|165042902|OTHER|||||||0.077|||||||Log Rank|||||||0.077
82663607|NCT02554877|165042909|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.91|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.34|-0.48||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-0.48|-1.34|<0.0001
82663608|NCT02554877|165042909|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.16|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.59|-0.73||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-0.73|-1.59|<0.0001
82663609|NCT02554877|165042909|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.17|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.6|-0.74||Two (2)-sided p-values were from mixed model for repeated measurements (MMRM) with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||-0.74|-1.60|<0.0001
82663610|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.52|-0.26||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects|ANCOVA|Least squares mean (LS mean) difference from placebo adjusted for baseline values was derived from the ANCOVA model||Placebo was the reference and each of the active doses was the test for Week 2.||-0.26|-0.52|<0.0001
82663611|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.39|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.52|-0.26||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 2.||-0.26|-0.52|<0.0001
82663612|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.44|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.57|-0.3||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 2.||-0.30|-0.57|<0.0001
82663613|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.59|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.76|-0.42||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.42|-0.76|<0.0001
82663614|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.63|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.8|-0.46||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.46|-0.80|<0.0001
82663615|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.62|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001|TWO_SIDED|95.0|-0.79|-0.46||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 4.||-0.46|-0.79|<0.0001
82663616|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.71|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-0.93|-0.49||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model||Placebo was the reference and each of the active doses was the test for Week 8.||-0.49|-0.93|<0.0001
82663617|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.96|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.17|-0.74||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects..|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 8.||-0.74|-1.17|<0.0001
82663618|NCT02554877|165042910|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.98|STANDARD_ERROR_OF_MEAN|0.11|<|0.0001|TWO_SIDED|95.0|-1.2|-0.76||Two (2)-sided p-values were from analysis of covariance (ANCOVA) model with baseline value and treatment group as fixed effects.|ANCOVA|LS mean difference from placebo adjusted for baseline values was derived from the ANCOVA model.||Placebo was the reference and each of the active doses was the test for Week 8.||-0.76|-1.20|<0.0001
82663619|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-37.83|STANDARD_ERROR_OF_MEAN|5.13|<|0.0001|TWO_SIDED|95.0|-47.96|-27.7||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-27.70|-47.96|<0.0001
82663620|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-44.85|STANDARD_ERROR_OF_MEAN|5.13|<|0.0001|TWO_SIDED|95.0|-54.98|-34.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-34.72|-54.98|<0.0001
82663621|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-48.59|STANDARD_ERROR_OF_MEAN|5.18|<|0.0001|TWO_SIDED|95.0|-58.81|-38.37||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||-38.37|-58.81|<0.0001
82663622|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-30.63|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-42.52|-18.74||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-18.74|-42.52|<0.0001
82663623|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-39.24|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-51.13|-27.35||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-27.35|-51.13|<0.0001
82663624|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-38.3|STANDARD_ERROR_OF_MEAN|6.04|<|0.0001|TWO_SIDED|95.0|-50.22|-26.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-26.38|-50.22|<0.0001
82663625|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-19.47|STANDARD_ERROR_OF_MEAN|6.29||0.0023|TWO_SIDED|95.0|-31.88|-7.05||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-7.05|-31.88|0.0023
82663626|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-36.98|STANDARD_ERROR_OF_MEAN|6.23|<|0.0001|TWO_SIDED|95.0|-49.27|-24.69||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-24.69|-49.27|<0.0001
82663627|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-35.14|STANDARD_ERROR_OF_MEAN|6.29|<|0.0001|TWO_SIDED|95.0|-47.55|-22.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||-22.72|-47.55|<0.0001
82663628|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-19.77|STANDARD_ERROR_OF_MEAN|6.1||0.0014|TWO_SIDED|95.0|-31.81|-7.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||-7.73|-31.81|0.0014
82663629|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-35.26|STANDARD_ERROR_OF_MEAN|6.03|<|0.0001|TWO_SIDED|95.0|-47.17|-23.35||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-23.35|-47.17|<0.0001
82663630|NCT02554877|165042911|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-36.44|STANDARD_ERROR_OF_MEAN|6.07|<|0.0001|TWO_SIDED|95.0|-48.43|-24.46||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12||-24.46|-48.43|<0.0001
82663631|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.057||||0.0059|TWO_SIDED|95.0|1.68|21.82||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||21.82|1.68|0.0059
82663632|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.927||||0.0008|TWO_SIDED|95.0|2.49|31.96||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||31.96|2.49|0.0008
82663633|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|15.116|||<|0.0001|TWO_SIDED|95.0|4.34|52.67||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<7%)||52.67|4.34|<0.0001
82663634|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.34||||0.1532|TWO_SIDED|95.0|0.64|17.47||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||17.47|0.64|0.1532
82663635|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|4.198||||0.0826|TWO_SIDED|95.0|0.83|21.22||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||21.22|0.83|0.0826
82663636|NCT02554877|165042912|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.588||||0.0272|TWO_SIDED|95.0|1.21|25.73||P-value was derived from the logistic regression model with treatment (categorical) and baseline HbA1c as covariate.|Regression, Logistic|||Placebo was the reference and each of the active doses was the test for Week 12 (HbA1C\<6.5%)||25.73|1.21|0.0272
82663637|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.03|STANDARD_ERROR_OF_MEAN|3.4||0.7618|TWO_SIDED|90.0|-6.66|4.59||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||4.59|-6.66|0.7618
82663638|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.65|STANDARD_ERROR_OF_MEAN|3.39||0.8489|TWO_SIDED|90.0|-6.25|4.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||4.96|-6.25|0.8489
82663639|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.47|STANDARD_ERROR_OF_MEAN|3.42||0.4699|TWO_SIDED|90.0|-3.17|8.12||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.12|-3.17|0.4699
82663640|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.22|STANDARD_ERROR_OF_MEAN|3.27||0.4979|TWO_SIDED|90.0|-7.63|3.19||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.19|-7.63|0.4979
82663641|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-3.45|STANDARD_ERROR_OF_MEAN|3.27||0.2927|TWO_SIDED|90.0|-8.85|1.95||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.95|-8.85|0.2927
82663642|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.83|STANDARD_ERROR_OF_MEAN|3.28||0.143|TWO_SIDED|90.0|-10.26|0.6||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||0.60|-10.26|0.1430
82663643|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.25|STANDARD_ERROR_OF_MEAN|3.73||0.7373|TWO_SIDED|90.0|-7.42|4.92||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.92|-7.42|0.7373
82663644|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.46|STANDARD_ERROR_OF_MEAN|3.7||0.5075|TWO_SIDED|90.0|-8.57|3.66||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||3.66|-8.57|0.5075
82663645|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.81|STANDARD_ERROR_OF_MEAN|3.74||0.6295|TWO_SIDED|90.0|-7.99|4.37||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.37|-7.99|0.6295
82663646|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.15|STANDARD_ERROR_OF_MEAN|3.95||0.4266|TWO_SIDED|90.0|-3.39|9.69||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.69|-3.39|0.4266
82663647|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.96|STANDARD_ERROR_OF_MEAN|3.89||0.2038|TWO_SIDED|90.0|-1.47|11.4||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.40|-1.47|0.2038
82663648|NCT02554877|165042917|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.29|STANDARD_ERROR_OF_MEAN|3.92||0.5592|TWO_SIDED|90.0|-4.19|8.78||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.78|-4.19|0.5592
82663649|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.09|||||TWO_SIDED|90.0|-5.86|16.05||||||Placebo was the reference and each of the active doses was the test for Week 2.||16.05|-5.86|
82663650|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.86|||||TWO_SIDED|90.0|-9.76|15.48||||||Placebo was the reference and each of the active doses was the test for Week 2.||15.48|-9.76|
82663651|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|17.13|||||TWO_SIDED|90.0|3.91|30.34||||||Placebo was the reference and each of the active doses was the test for Week 2.||30.34|3.91|
82663652|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.71|||||TWO_SIDED|90.0|-10.8|16.22||||||Placebo was the reference and each of the active doses was the test for Week 4.||16.22|-10.80|
82663653|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.92|||||TWO_SIDED|90.0|-10.61|16.45||||||Placebo was the reference and each of the active doses was the test for Week 4.||16.45|-10.61|
82663654|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|-2.57|||||TWO_SIDED|90.0|-15.08|9.94||||||Placebo was the reference and each of the active doses was the test for Week 4.||9.94|-15.08|
82663655|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.63|||||TWO_SIDED|90.0|-16.29|13.03||||||Placebo was the reference and each of the active doses was the test for Week 8.||13.03|-16.29|
82663656|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|-4.59|||||TWO_SIDED|90.0|-20.4|11.22||||||Placebo was the reference and each of the active doses was the test for Week 8.||11.22|-20.40|
82663657|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|2.75|||||TWO_SIDED|90.0|-13.66|19.16||||||Placebo was the reference and each of the active doses was the test for Week 8.||19.16|-13.66|
82663658|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|7.86|||||TWO_SIDED|90.0|-3.3|19.02||||||Placebo was the reference and each of the active doses was the test for Week 12.||19.02|-3.30|
82663659|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|-1.13|||||TWO_SIDED|90.0|-16.13|13.87||||||Placebo was the reference and each of the active doses was the test for Week 12.||13.87|-16.13|
82663660|NCT02554877|165042918|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.99|||||TWO_SIDED|90.0|-7.07|19.04||||||Placebo was the reference and each of the active doses was the test for Week 12.||19.04|-7.07|
82663661|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.04|STANDARD_ERROR_OF_MEAN|2.52||0.68|TWO_SIDED|90.0|-3.12|5.2||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||5.20|-3.12|0.6800
82663662|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.64|STANDARD_ERROR_OF_MEAN|2.52||0.515|TWO_SIDED|90.0|-2.52|5.8||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||5.80|-2.52|0.5150
82663663|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.66|STANDARD_ERROR_OF_MEAN|2.53||0.0676|TWO_SIDED|90.0|0.47|8.85||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.85|0.47|0.0676
82663664|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.62|STANDARD_ERROR_OF_MEAN|2.48||0.8021|TWO_SIDED|90.0|-4.73|3.48||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.48|-4.73|0.8021
82663665|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.95|STANDARD_ERROR_OF_MEAN|2.49||0.4346|TWO_SIDED|90.0|-6.06|2.16||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.16|-6.06|0.4346
82663666|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.03|STANDARD_ERROR_OF_MEAN|2.49||0.4173|TWO_SIDED|90.0|-6.15|2.09||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.09|-6.15|0.4173
82663667|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-0.98|STANDARD_ERROR_OF_MEAN|2.56||0.7036|TWO_SIDED|90.0|-5.21|3.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||3.26|-5.21|0.7036
82663668|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.64|STANDARD_ERROR_OF_MEAN|2.54||0.2993|TWO_SIDED|90.0|-6.84|1.56||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.56|-6.84|0.2993
82663669|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.08|STANDARD_ERROR_OF_MEAN|2.57||0.9751|TWO_SIDED|90.0|-4.16|4.32||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||4.32|-4.16|0.9751
82663670|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.23|STANDARD_ERROR_OF_MEAN|2.86||0.1408|TWO_SIDED|90.0|-0.5|8.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.96|-0.50|0.1408
82663671|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.7|STANDARD_ERROR_OF_MEAN|2.83||0.0986|TWO_SIDED|90.0|0.02|9.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.38|0.02|0.0986
82663672|NCT02554877|165042919|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.79|STANDARD_ERROR_OF_MEAN|2.85||0.1851|TWO_SIDED|90.0|-0.92|8.5||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||8.50|-0.92|0.1851
82663673|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.39|STANDARD_ERROR_OF_MEAN|2.17||0.8559|TWO_SIDED|90.0|-3.19|3.98||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||3.98|-3.19|0.8559
82663674|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|2.97|STANDARD_ERROR_OF_MEAN|2.17||0.1729|TWO_SIDED|90.0|-0.62|6.55||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.55|-0.62|0.1729
82663675|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|8.45|STANDARD_ERROR_OF_MEAN|2.18||0.0002|TWO_SIDED|90.0|4.84|12.06||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||12.06|4.84|0.0002
82663676|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.37|STANDARD_ERROR_OF_MEAN|2.55||0.8837|TWO_SIDED|90.0|-3.85|4.59||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||4.59|-3.85|0.8837
82663677|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.62|STANDARD_ERROR_OF_MEAN|2.55||0.1573|TWO_SIDED|90.0|-0.6|7.84||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||7.84|-0.60|0.1573
82663678|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|7.88|STANDARD_ERROR_OF_MEAN|2.56||0.0024|TWO_SIDED|90.0|3.65|12.11||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||12.11|3.65|0.0024
82663679|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.59|STANDARD_ERROR_OF_MEAN|2.51||0.1538|TWO_SIDED|90.0|-0.55|7.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||7.73|-0.55|0.1538
82663680|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|4.39|STANDARD_ERROR_OF_MEAN|2.48||0.0789|TWO_SIDED|90.0|0.28|8.49||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||8.49|0.28|0.0789
82663681|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|10.14|STANDARD_ERROR_OF_MEAN|2.51|<|0.0001|TWO_SIDED|90.0|5.98|14.3||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||14.30|5.98|<0.0001
82663682|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|6.96|STANDARD_ERROR_OF_MEAN|2.78||0.0132|TWO_SIDED|90.0|2.36|11.56||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.56|2.36|0.0132
82663683|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|7.41|STANDARD_ERROR_OF_MEAN|2.75||0.0079|TWO_SIDED|90.0|2.85|11.96||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||11.96|2.85|0.0079
82663684|NCT02554877|165042920|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|10.83|STANDARD_ERROR_OF_MEAN|2.77||0.0001|TWO_SIDED|90.0|6.24|15.42||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||15.42|6.24|0.0001
82663685|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.46|STANDARD_ERROR_OF_MEAN|3.31||0.6597|TWO_SIDED|90.0|-4.01|6.92||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.92|-4.01|0.6597
82663686|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.02|STANDARD_ERROR_OF_MEAN|3.31||0.7583|TWO_SIDED|90.0|-4.45|6.49||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||6.49|-4.45|0.7583
82663687|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.11|STANDARD_ERROR_OF_MEAN|3.33||0.3516|TWO_SIDED|90.0|-2.39|8.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||8.61|-2.39|0.3516
82663688|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-1.83|STANDARD_ERROR_OF_MEAN|3.38||0.5877|TWO_SIDED|90.0|-7.42|3.75||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||3.75|-7.42|0.5877
82663689|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.33|STANDARD_ERROR_OF_MEAN|3.38||0.2016|TWO_SIDED|90.0|-9.92|1.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.26|-9.92|0.2016
82663690|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-6.49|STANDARD_ERROR_OF_MEAN|3.39||0.0568|TWO_SIDED|90.0|-12.08|-0.89||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||-0.89|-12.08|0.0568
82663691|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-2.94|STANDARD_ERROR_OF_MEAN|3.36||0.3827|TWO_SIDED|90.0|-8.48|2.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||2.61|-8.48|0.3827
82663692|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-5.31|STANDARD_ERROR_OF_MEAN|3.33||0.1126|TWO_SIDED|90.0|-10.81|0.2||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||0.20|-10.81|0.1126
82663693|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|-4.17|STANDARD_ERROR_OF_MEAN|3.36||0.216|TWO_SIDED|90.0|-9.73|1.38||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.38|-9.73|0.2160
82663694|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.54|STANDARD_ERROR_OF_MEAN|3.74||0.3443|TWO_SIDED|90.0|-2.64|9.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.72|-2.64|0.3443
82663695|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|3.82|STANDARD_ERROR_OF_MEAN|3.7||0.3031|TWO_SIDED|90.0|-2.3|9.94||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||9.94|-2.30|0.3031
82663696|NCT02554877|165042921|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.88|STANDARD_ERROR_OF_MEAN|3.72||0.8129|TWO_SIDED|90.0|-5.27|7.04||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||7.04|-5.27|0.8129
82663697|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.34|STANDARD_ERROR_OF_MEAN|0.4||0.402|TWO_SIDED|90.0|-0.33|1.01||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||1.01|-0.33|0.4020
82663698|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.06|STANDARD_ERROR_OF_MEAN|0.4||0.8789|TWO_SIDED|90.0|-0.61|0.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||0.73|-0.61|0.8789
82663699|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.87|STANDARD_ERROR_OF_MEAN|0.41||0.0345|TWO_SIDED|90.0|0.19|1.54||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2.||1.54|0.19|0.0345
82663700|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.28|STANDARD_ERROR_OF_MEAN|0.48||0.0087|TWO_SIDED|90.0|0.48|2.08||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.08|0.48|0.0087
82663701|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.08|STANDARD_ERROR_OF_MEAN|0.48||0.0268|TWO_SIDED|90.0|0.28|1.88||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||1.88|0.28|0.0268
82663702|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.39|STANDARD_ERROR_OF_MEAN|0.49||0.0047|TWO_SIDED|90.0|0.58|2.19||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4.||2.19|0.58|0.0047
82663703|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.07|STANDARD_ERROR_OF_MEAN|0.42||0.0116|TWO_SIDED|90.0|0.38|1.76||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.76|0.38|0.0116
82663704|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.97|STANDARD_ERROR_OF_MEAN|0.42||0.022|TWO_SIDED|90.0|0.27|1.66||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||1.66|0.27|0.0220
82663705|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.31|STANDARD_ERROR_OF_MEAN|0.42||0.0021|TWO_SIDED|90.0|0.62|2.01||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8.||2.01|0.62|0.0021
82663706|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.41|STANDARD_ERROR_OF_MEAN|0.51||0.0067|TWO_SIDED|90.0|0.56|2.26||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.26|0.56|0.0067
82663707|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.18|STANDARD_ERROR_OF_MEAN|0.51||0.0225|TWO_SIDED|90.0|0.33|2.02||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.02|0.33|0.0225
82663708|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.4|STANDARD_ERROR_OF_MEAN|0.51||0.0073|TWO_SIDED|90.0|0.55|2.25||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12.||2.25|0.55|0.0073
82663709|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.3|STANDARD_ERROR_OF_MEAN|0.26||0.2391|TWO_SIDED|90.0|-0.12|0.73||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.73|-0.12|0.2391
82663710|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.0|STANDARD_ERROR_OF_MEAN|0.26||0.9912|TWO_SIDED|90.0|-0.42|0.43||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.43|-0.42|0.9912
82663711|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.34|STANDARD_ERROR_OF_MEAN|0.26||0.193|TWO_SIDED|90.0|-0.09|0.77||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 2. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||0.77|-0.09|0.1930
82663712|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.8|STANDARD_ERROR_OF_MEAN|0.27||0.0038|TWO_SIDED|90.0|0.35|1.25||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation. (Excluding outliers)||1.25|0.35|0.0038
82663713|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.57|STANDARD_ERROR_OF_MEAN|0.27||0.0394|TWO_SIDED|90.0|0.12|1.02||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.02|0.12|0.0394
82663714|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.48|STANDARD_ERROR_OF_MEAN|0.28||0.0862|TWO_SIDED|90.0|0.02|0.93||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 4. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||0.93|0.02|0.0862
82663715|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.05|STANDARD_ERROR_OF_MEAN|0.34||0.0024|TWO_SIDED|90.0|0.48|1.61||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.61|0.48|0.0024
82663716|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.92|STANDARD_ERROR_OF_MEAN|0.34||0.0068|TWO_SIDED|90.0|0.37|1.48||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.48|0.37|0.0068
82663717|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.86|STANDARD_ERROR_OF_MEAN|0.34||0.0132|TWO_SIDED|90.0|0.29|1.42||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 8. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.42|0.29|0.0132
82663718|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.39|STANDARD_ERROR_OF_MEAN|0.45||0.0024|TWO_SIDED|90.0|0.65|2.14||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||2.14|0.65|0.0024
82663719|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|1.15|STANDARD_ERROR_OF_MEAN|0.45||0.0115|TWO_SIDED|90.0|0.4|1.89||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.89|0.40|0.0115
82663720|NCT02554877|165042922|SUPERIORITY_OR_OTHER||LS Mean difference from placebo|0.97|STANDARD_ERROR_OF_MEAN|0.45||0.0344|TWO_SIDED|90.0|0.22|1.72||Two (2)-sided p-values were from MMRM with baseline value, time (study day), treatment group, time by treatment interaction as fixed effects and an unstructured correlation matrix.|Mixed Models Analysis|||Placebo was the reference and each of the active doses was the test for Week 12. The readings with residual greater than 3.5 times of its standard derivation were excluded from the presentation.(Excluding outliers)||1.72|0.22|0.0344
82663721|NCT01108445|165042932|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.406||||0.157|TWO_SIDED||||||Log Rank|||||||0.157
82663722|NCT01108445|165042934|SUPERIORITY_OR_OTHER||Median PFS|5.6|||||TWO_SIDED||||||||The 95% CI for the HC was (4,6). If the median PFS for RAD001 is within the 95% CI for the HC, it is determined that there is not enough statistical evidence to say that the median PFS is different than the HC.|A comparison of the median PFS for RAD001 arm was compared to the 95% confidence interval(CI) of the median PFS of the historical control (HC). The null hypothesis was that there is no difference in the median PFS between the treatment arms and the historical control. If the median PFS is outside the 95%CI for the HC,it is determined there is statistical evidence that median PFS is different from the HC.||||
82663723|NCT01108445|165042934|SUPERIORITY_OR_OTHER||Median PFS|8.3|||||TWO_SIDED||||||||95% CI for HC was(4,6). If the median PFS for Sunitinib is within the 95% CI for the HC,it is determined that there is not enough statistical evidence to say that the median PFS is different than the HC.|A comparison of the median PFS for Sunitinib arm was compared to the 95% confidence interval(CI) of the median PFS of the historical control (HC). The null hypothesis was that there is no difference in the median PFS between the treatment arms and the historical control. If the median PFS is outside the 95%CI for the HC,it is determined there is statistical evidence that median PFS is different from the HC.||||
82663724|NCT01108445|165042936|SUPERIORITY_OR_OTHER|||||||0.589|TWO_SIDED||||||Chi-squared|||||||0.589
82663725|NCT01108445|165042937|SUPERIORITY_OR_OTHER|||||||0.066|TWO_SIDED||||||Chi-squared|||||||0.066
82663726|NCT02488239|165042949|OTHER||||||<|0.001|||||||exact binomial rate|||||||<0.001
82663727|NCT02488239|165042950|OTHER||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82663728|NCT05283148|165042951|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.321||||||A p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the lumbar spine. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.321
82663729|NCT05283148|165042952|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.714||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA lumbar spine scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.714
82663730|NCT05283148|165042953|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.09||||||p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the total hip. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.09
82663731|NCT05283148|165042954|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.604||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test (two sided)|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA total hip scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.604
82663732|NCT05283148|165042955|OTHER|Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used.||||||0.013||||||A p-value \< 0.05 was considered statistically significant.|Wilcoxon rank-sum test (two-sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (full range) for each group, measured by DXA at the femoral neck. Distribution was non-normal, so a Wilcoxon rank-sum test (two-sided) was used. A p-value \< 0.05 was considered statistically significant.||||0.013
82663733|NCT05283148|165042956|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.166||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test|||Comparison between Group A and Group B as defined above. Values are reported as median ± full range for each group, derived from DXA femoral neck scans. Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.166
82663734|NCT05283148|165042957|OTHER|Welch two-sample t-test (two-sided) was used to account for unequal variances.||||||0.23||||||A p-value \< 0.05 was considered statistically significant.|Welch two sample t-test (two sided)|||Comparison between Group A and Group B as defined above. Values are reported as median (interquartile range) for each group, based on the ASCQ-Me Pain Impact instrument (lower scores indicate worse pain impact). Welch two-sample t-test (two-sided) was used to account for unequal variances. A p-value \< 0.05 was considered statistically significant.||||0.23
82663735|NCT00095784|165042966|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in CD34+ cell levels. Analysis performed on log scale.||||<0.0001
82663736|NCT00095784|165042972|SUPERIORITY_OR_OTHER_LEGACY|||||||0.29|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in CXCR4 levels. Analysis performed on log scale.||||0.29
82663737|NCT00095784|165042978|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|||||||Mixed Models Analysis|5 degrees of freedom test over six time points: day 1 (pre-treatment) and days 5, 12, 43, 47, and 54 post treatment.||Mixed effects regression analysis of change over time in hemoglobin F levels.||||0.99
82663738|NCT02960295|165042979|OTHER|There was no comparison group and no test of statistical significance.||||||||||||||||In this interventional study the number of glucose checks per patient per day was calculated as stated above. There was no comparison group and no test of statistical significance.|This is a simple calculation of the mean (sd) of the number of glucose checks per pt per day|||
82663739|NCT02960295|165042980|OTHER|This is an observational study|||||<|0.05|||||||Pearson correlation (r)|||||||<0.05
82663740|NCT02960295|165042980|OTHER|This is an observational study|||||<|0.05|||||||Pearson correlation coefficient (r)|||||||<0.05
82663741|NCT02960295|165042980|OTHER||||||<|0.05|||||||Pearson correlation coefficient (r)|||||||<0.05
82663742|NCT03480763|165042990|OTHER|Estimated differences, confidence intervals (CIs), and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.2||||0.043|TWO_SIDED|95.0|0.1|8.5|||Miettinen & Nurminen|||Injection site redness/erythema||8.5|0.1|0.043
82492801|NCT03166735|164678429|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.127||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.1270
82663743|NCT03480763|165042990|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|13.7|||<|0.001|TWO_SIDED|95.0|6.0|21.2|||Miettinen & Nurminen|||Injection site tenderness/pain||21.2|6.0|<0.001
82663744|NCT03480763|165042990|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.8||||0.077|TWO_SIDED|95.0|-0.5|10.2|||Miettinen & Nurminen|||Injection site swelling||10.2|-0.5|0.077
82663745|NCT03480763|165042991|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.6||||0.855|TWO_SIDED|95.0|-5.5|6.6|||Miettinen & Nurminen|||Injection site redness/erythema||6.6|-5.5|0.855
82663746|NCT03480763|165042991|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|3.5||||0.385||95.0|-4.4|11.3|||Miettinen & Nurminen|||Injection site tenderness/pain||11.3|-4.4|0.385
82663747|NCT03480763|165042991|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|2.0||||0.577|TWO_SIDED|95.0|-5.1|9.2|||Miettinen & Nurminen|||Injection site swelling||9.2|-5.1|0.577
82663748|NCT03480763|165042992|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.2||||0.523|TWO_SIDED|95.0|-2.5|4.9|||Miettinen & Nurminen|||Joint pain/arthralgia||4.9|-2.5|0.523
82663749|NCT03480763|165042992|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|9.7||||0.002|TWO_SIDED|95.0|3.7|15.6|||Miettinen & Nurminen|||Tiredness/fatigue||15.6|3.7|0.002
82663750|NCT03480763|165042992|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|1.4||||0.597|TWO_SIDED|95.0|-3.9|6.7|||Miettinen & Nurminen|||Headache||6.7|-3.9|0.597
82663751|NCT03480763|165042992|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|6.6||||0.016|TWO_SIDED|95.0|1.2|12.1|||Miettinen & Nurminen|||Muscle pain/myalgia||12.1|1.2|0.016
82663752|NCT03480763|165042993|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.1||||0.961|TWO_SIDED|95.0|-4.4|4.7|||Miettinen & Nurminen|||Joint pain/arthralgia||4.7|-4.4|0.961
82663753|NCT03480763|165042993|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.0||||0.252|TWO_SIDED|95.0|-2.8|10.8|||Miettinen & Nurminen|||Tiredness/fatigue||10.8|-2.8|0.252
82492802|NCT03166735|164678430|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.3324||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.3324
82663754|NCT03480763|165042993|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|-0.5||||0.852|TWO_SIDED|95.0|-5.8|4.8|||Miettinen & Nurminen|||Headache||4.8|-5.8|0.852
82663755|NCT03480763|165042993|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|4.9||||0.125|TWO_SIDED|95.0|-1.4|11.2|||Miettinen & Nurminen|||Muscle pain/myalgia||11.2|-1.4|0.125
82663756|NCT03480763|165042994|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.2|1.2||||||Vaccine-related SAEs following V114 or Prevnar 13™||1.2|-1.2|
82663757|NCT03480763|165042995|OTHER|Estimated differences, CIs, and p-values are calculated based on the Miettinen \& Nurminen method and are provided in accordance with the statistical analysis plan.|Difference in Percent|0.0|||||TWO_SIDED|95.0|-1.3|1.3||||||Vaccine-related SAEs following PNEUMOVAX™23||1.3|-1.3|
82663758|NCT03480763|165042996|OTHER|Geometric mean titer (GMT) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMT Ratio|1.38|||||TWO_SIDED|95.0|1.1|1.74||||||Serotype 1 (Shared)||1.74|1.10|
82663759|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model|GMT Ratio|1.08|||||TWO_SIDED|95.0|0.9|1.29||||||Serotype 3 (Shared)||1.29|0.90|
82663760|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.85|1.32||||||Serotype 4 (Shared)||1.32|0.85|
82663761|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model|GMT Ratio|1.21|||||TWO_SIDED|95.0|0.94|1.56||||||Serotype 5 (Shared)||1.56|0.94|
82663762|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.16|||||TWO_SIDED|95.0|0.95|1.43||||||Serotype 6A (Shared)||1.43|0.95|
82663763|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.12|||||TWO_SIDED|95.0|0.93|1.35||||||Serotype 6B (Shared)||1.35|0.93|
82663764|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.06|||||TWO_SIDED|95.0|0.9|1.25||||||Serotype 7F (Shared)||1.25|0.90|
82663765|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.91|1.33||||||Serotype 9V (Shared)||1.33|0.91|
82663766|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.27|||||TWO_SIDED|95.0|1.05|1.53||||||Serotype 14 (Shared)||1.53|1.05|
82663767|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.13|||||TWO_SIDED|95.0|0.95|1.34||||||Serotype 18C (Shared)||1.34|0.95|
82663768|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.96|1.38||||||Serotype 19A (Shared)||1.38|0.96|
82663769|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.03|||||TWO_SIDED|95.0|0.89|1.2||||||Serotype 19F (Shared)||1.20|0.89|
82663770|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.01|1.61||||||Serotype 23F (Shared)||1.61|1.01|
82663771|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.63|||||TWO_SIDED|95.0|1.29|2.06||||||Serotype 22F (Unique to V114)||2.06|1.29|
82663772|NCT03480763|165042996|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.77|1.17||||||Serotype 33F (Unique to V114)||1.17|0.77|
82663773|NCT03480763|165042997|OTHER|Geometric mean concentration (GMC) ratio and 95% confidence interval (CI) are estimated from a constrained longitudinal data analysis (cLDA) model.|GMC Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.07||||||Serotype 1 (Shared)||1.07|0.79|
82663774|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model|GMC Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.16||||||Serotype 3 (Shared)||1.16|0.87|
82663775|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.87|||||TWO_SIDED|95.0|0.74|1.02||||||Serotype 4 (Shared)||1.02|0.74|
82663776|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.84|1.18||||||Serotype 5 (Shared)||1.18|0.84|
82663777|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.41||||||Serotype 6A (Shared)||1.41|0.96|
82663778|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|0.96|1.4||||||Serotype 6B (Shared)||1.40|0.96|
82663779|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||Serotype 7F (Shared)||1.16|0.85|
82663780|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.89|1.22||||||Serotype 9V (Shared)||1.22|0.89|
82663781|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.17|||||TWO_SIDED|95.0|0.98|1.39||||||Serotype 14 (Shared)||1.39|0.98|
82663782|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.16|||||TWO_SIDED|95.0|1.0|1.36||||||Serotype 18C (Shared)||1.36|1.00|
82663783|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.1|||||TWO_SIDED|95.0|0.95|1.29||||||Serotype 19A (Shared)||1.29|0.95|
82663784|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.93|1.27||||||Serotype 19F (Shared)||1.27|0.93|
82663785|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|0.96|1.35||||||Serotype 23F (Shared)||1.35|0.96|
82663786|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.43|||||TWO_SIDED|95.0|1.16|1.77||||||Serotype 22F (Unique to V114)||1.77|1.16|
82663787|NCT03480763|165042997|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.8|||||TWO_SIDED|95.0|0.67|0.95||||||Serotype 33F (Unique to V114)||0.95|0.67|
82663788|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.22|||||TWO_SIDED|95.0|0.94|1.58||||||Serotype 1 (Shared)||1.58|0.94|
82663789|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.9|||||TWO_SIDED|95.0|1.56|2.3||||||Serotype 3 (Shared)||2.30|1.56|
82663790|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.6|0.97||||||Serotype 4 (Shared)||0.97|0.60|
82663791|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.07|||||TWO_SIDED|95.0|0.81|1.4||||||Serotype 5 (Shared)||1.40|0.81|
82663792|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.92|1.53||||||Serotype 6A (Shared)||1.53|0.92|
82663793|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.64|||||TWO_SIDED|95.0|1.31|2.06||||||Serotype 6B (Shared)||2.06|1.31|
82663794|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.95|||||TWO_SIDED|95.0|0.8|1.14||||||Serotype 7F (Shared)||1.14|0.80|
82663795|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.83|1.24||||||Serotype 9V (Shared)||1.24|0.83|
82663796|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.37||||||Serotype 14 (Shared)||1.37|0.87|
82663797|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.48|||||TWO_SIDED|95.0|1.2|1.84||||||Serotype 18C (Shared)||1.84|1.20|
82663798|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.06|1.55||||||Serotype 19A (Shared)||1.55|1.06|
82663799|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.1|||||TWO_SIDED|95.0|0.92|1.32||||||Serotype 19F (Shared)||1.32|0.92|
82663800|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.53|||||TWO_SIDED|95.0|1.18|2.0||||||Serotype 23F (Shared)||2.00|1.18|
82663801|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|34.86|||||TWO_SIDED|95.0|26.13|46.5||||||Serotype 22F (Unique to V114)||46.50|26.13|
82663802|NCT03480763|165042998|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|9.15|||||TWO_SIDED|95.0|7.48|11.2||||||Serotype 33F (Unique to V114)||11.20|7.48|
82663803|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.72|1.09||||||Serotype 1 (Shared)||1.09|0.72|
82663804|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.74|||||TWO_SIDED|95.0|1.46|2.07||||||Serotype 3 (Shared)||2.07|1.46|
82663805|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.64|0.99||||||Serotype 4 (Shared)||0.99|0.64|
82663806|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.84|1.3||||||Serotype 5 (Shared)||1.30|0.84|
82663807|NCT03480763|165042999|OTHER|GMCs, GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.4|||||TWO_SIDED|95.0|1.1|1.77||||||Serotype 6A (Shared)||1.77|1.10|
82663808|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.64|||||TWO_SIDED|95.0|1.28|2.1||||||Serotype 6B (Shared)||2.10|1.28|
82663809|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.91|||||TWO_SIDED|95.0|0.74|1.13||||||Serotype 7F (Shared)||1.13|0.74|
82663810|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.91|1.41||||||Serotype 9V (Shared)||1.41|0.91|
82663811|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.09|||||TWO_SIDED|95.0|0.87|1.38||||||Serotype 14 (Shared)||1.38|0.87|
82663812|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.56|||||TWO_SIDED|95.0|1.27|1.92||||||Serotype 18C (Shared)||1.92|1.27|
82663813|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.91|1.39||||||Serotype 19A (Shared)||1.39|0.91|
82663814|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.14|||||TWO_SIDED|95.0|0.92|1.41||||||Serotype 19F (Shared)||1.41|0.92|
82663815|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.61|||||TWO_SIDED|95.0|1.27|2.04||||||Serotype 23F (Shared)||2.04|1.27|
82663816|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|16.54|||||TWO_SIDED|95.0|13.78|19.86||||||Serotype 22F (Unique to V114)||19.86|13.78|
82663817|NCT03480763|165042999|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|12.82|||||TWO_SIDED|95.0|10.82|15.19||||||Serotype 33F (Unique to V114)||15.19|10.82|
82663818|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.19|||||TWO_SIDED|95.0|0.92|1.53||||||Serotype 1 (Shared)||1.53|0.92|
82663819|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.57|||||TWO_SIDED|95.0|1.29|1.9||||||Serotype 3 (Shared)||1.90|1.29|
82663820|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.57|0.9||||||Serotype 4 (Shared)||0.90|0.57|
82663821|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.02|||||TWO_SIDED|95.0|0.78|1.33||||||Serotype 5 (Shared)||1.33|0.78|
82663822|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.15|||||TWO_SIDED|95.0|0.93|1.41||||||Serotype 6A (Shared)||1.41|0.93|
82663823|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.43|||||TWO_SIDED|95.0|1.16|1.77||||||Serotype 6B (Shared)||1.77|1.16|
82663824|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.11||||||Serotype 7F (Shared)||1.11|0.80|
82663825|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|0.98|||||TWO_SIDED|95.0|0.81|1.18||||||Serotype 9V (Shared)||1.18|0.81|
82663826|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.11|||||TWO_SIDED|95.0|0.9|1.36||||||Serotype 14 (Shared)||1.36|0.90|
82663827|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.28|||||TWO_SIDED|95.0|1.05|1.55||||||Serotype 18C (Shared)||1.55|1.05|
82663828|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.09|||||TWO_SIDED|95.0|0.91|1.31||||||Serotype 19A (Shared)||1.31|0.91|
82663829|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.08|||||TWO_SIDED|95.0|0.91|1.29||||||Serotype 19F (Shared)||1.29|0.91|
82663830|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|1.37|||||TWO_SIDED|95.0|1.06|1.76||||||Serotype 23F (Shared)||1.76|1.06|
82663831|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|12.79|||||TWO_SIDED|95.0|9.44|17.34||||||Serotype 22F (Unique to V114)||17.34|9.44|
82663832|NCT03480763|165043004|OTHER|GMT ratio and 95% CI are estimated from a cLDA model.|GMT Ratio|3.24|||||TWO_SIDED|95.0|2.73|3.84||||||Serotype 33F (Unique to V114)||3.84|2.73|
82663833|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.65|0.92||||||Serotype 1 (Shared)||0.92|0.65|
82663834|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.42|||||TWO_SIDED|95.0|1.24|1.63||||||Serotype 3 (Shared)||1.63|1.24|
82663835|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.77|||||TWO_SIDED|95.0|0.64|0.91||||||Serotype 4 (Shared)||0.91|0.64|
82663836|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.89|||||TWO_SIDED|95.0|0.75|1.05||||||Serotype 5 (Shared)||1.05|0.75|
82663837|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.37|||||TWO_SIDED|95.0|1.12|1.67||||||Serotype 6A (Shared)||1.67|1.12|
82663838|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.48|||||TWO_SIDED|95.0|1.21|1.81||||||Serotype 6B (Shared)||1.81|1.21|
82663839|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||Serotype 7F (Shared)||1.02|0.72|
82663840|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.04|||||TWO_SIDED|95.0|0.88|1.23||||||Serotype 9V (Shared)||1.23|0.88|
82663841|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.05|||||TWO_SIDED|95.0|0.88|1.26||||||Serotype 14 (Shared)||1.26|0.88|
82663842|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.38|||||TWO_SIDED|95.0|1.17|1.64||||||Serotype 18C (Shared)||1.64|1.17|
82663843|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.97|1.33||||||Serotype 19A (Shared)||1.33|0.97|
82663844|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.13|||||TWO_SIDED|95.0|0.96|1.32||||||Serotype 19F (Shared)||1.32|0.96|
82663845|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|1.35|||||TWO_SIDED|95.0|1.12|1.62||||||Serotype 23F (Shared)||1.62|1.12|
82663846|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|6.2|||||TWO_SIDED|95.0|5.33|7.21||||||Serotype 22F (Unique to V114)||7.21|5.33|
82663847|NCT03480763|165043005|OTHER|GMC ratio and 95% CI are estimated from a cLDA model.|GMC Ratio|5.01|||||TWO_SIDED|95.0|4.38|5.73||||||Serotype 33F (Unique to V114)||5.73|4.38|
82663848|NCT00115063|165043030|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82663849|NCT00115063|165043031|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||||||<0.001
82663850|NCT00115063|165043032|SUPERIORITY_OR_OTHER|||||||0.09||95.0||||P-value for systolic blood pressure mean.|t-test, 2 sided|||||||0.09
82663851|NCT00115063|165043032|SUPERIORITY_OR_OTHER|||||||0.6||95.0||||P-value for dystolic blood pressure mean.|t-test, 2 sided|||||||0.60
82663852|NCT00115063|165043033|SUPERIORITY_OR_OTHER|||||||0.73||95.0||||P-value for LDL cholesterol|t-test, 2 sided|||||||0.73
82663853|NCT00115063|165043033|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for HDL cholesterol|t-test, 2 sided|||||||0.01
82663854|NCT00115063|165043033|SUPERIORITY_OR_OTHER|||||||0.42||95.0||||P-value for triglycerides|t-test, 2 sided|||||||0.42
82663855|NCT00115063|165043033|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||P-value for uric acid|t-test, 2 sided|||||||0.05
82663856|NCT00115063|165043034|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||t-test, 2 sided|||||||0.16
82663857|NCT00115063|165043035|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||t-test, 2 sided|||||||0.001
82663858|NCT04667338|165043042|SUPERIORITY||||||=|0.5061|||||||Chi-squared|||Pharmacological||||=0.5061
82663859|NCT04667338|165043042|SUPERIORITY||||||=|0.2053|||||||Chi-squared|||Non-pharmacological||||=0.2053
82663860|NCT04667338|165043043|SUPERIORITY||||||=|0.4016|||||||Chi-squared|||||||=0.4016
82663861|NCT04667338|165043046|SUPERIORITY||||||=|0.5274|||||||Chi-squared|||Educational level ongoing or completed level of education||||=0.5274
82663862|NCT04667338|165043046|SUPERIORITY||||||=|0.7051|||||||Chi-squared|||Occupational status and occupation||||=0.7051
82663863|NCT04667338|165043046|SUPERIORITY||||||=|0.3543|||||||Chi-squared|||Civil status||||=0.3543
82663864|NCT04667338|165043046|SUPERIORITY||||||=|0.0368|||||||Chi-squared|||Living conditions||||=0.0368
82663865|NCT04667338|165043046|SUPERIORITY||||||=|0.3512|||||||Chi-squared|||Smoking status||||=0.3512
82663866|NCT04667338|165043046|SUPERIORITY||||||=|0.104|||||||Chi-squared|||Alcohol intake||||=0.1040
82663867|NCT04667338|165043046|SUPERIORITY||||||=|0.0202|||||||Chi-squared|||Exercise status||||=0.0202
82663868|NCT04667338|165043046|SUPERIORITY||||||=|0.3503|||||||Chi-squared|||Family history of narcolepsy||||=0.3503
82663869|NCT04667338|165043051|SUPERIORITY||||||=|0.0715|||||||Chi-squared|||General practitioner||||=0.0715
82663870|NCT04667338|165043051|SUPERIORITY||||||=|0.0929|||||||Chi-squared|||Neurologist||||=0.0929
82663871|NCT04667338|165043051|SUPERIORITY||||||=|0.3092|||||||Chi-squared|||Neuropediatrician||||=0.3092
82663872|NCT04667338|165043051|SUPERIORITY||||||=|0.4528|||||||Chi-squared|||Neurophysiologist||||=0.4528
82663873|NCT04667338|165043051|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||Pneumologist||||<0.0001
82663874|NCT04667338|165043051|SUPERIORITY||||||=|0.1785|||||||Chi-squared|||Somnologist||||=0.1785
82663875|NCT04667338|165043051|SUPERIORITY||||||=|0.1474|||||||Chi-squared|||Somnologist-unit||||=0.1474
82663876|NCT04667338|165043052|SUPERIORITY||||||=|0.2042|||||||Chi-squared|||Clinical history||||=0.2042
82663877|NCT04667338|165043052|SUPERIORITY||||||=|0.5818|||||||Chi-squared|||Clinical assessment: ESS||||=0.5818
82663878|NCT04667338|165043052|SUPERIORITY||||||=|0.0368|||||||Chi-squared|||Neurological assessment||||=0.0368
82663879|NCT04667338|165043052|SUPERIORITY||||||=|0.1128|||||||Chi-squared|||MSLT||||=0.1128
82663880|NCT04667338|165043052|SUPERIORITY||||||=|0.3396|||||||Chi-squared|||AHI||||=0.3396
82663881|NCT04667338|165043052|SUPERIORITY||||||=|0.6794|||||||Chi-squared|||Other procedures||||=0.6794
82663882|NCT04667338|165043052|SUPERIORITY||||||=|0.0138|||||||Chi-squared|||HLA typing||||=0.0138
82663883|NCT04667338|165043052|SUPERIORITY||||||=|0.0597|||||||Chi-squared|||Hypocretin-1 CSF or Orexin||||=0.0597
82663884|NCT04667338|165043053|SUPERIORITY||||||=|0.1171|||||||t-test, 2 sided|||||||=0.1171
82663885|NCT04667338|165043054|SUPERIORITY||||||=|0.3834|||||||t-test, 2 sided|||||||=0.3834
82663886|NCT04667338|165043059|SUPERIORITY||||||=|0.0531|||||||t-test, 2 sided|||||||=0.0531
82663887|NCT04667338|165043060|SUPERIORITY||||||=|0.0005|||||||Chi-squared|||Take short naps||||=0.0005
82663888|NCT04667338|165043060|SUPERIORITY||||||=|0.8221|||||||Chi-squared|||Maintain a regular sleep schedule||||=0.8221
82663889|NCT04667338|165043060|SUPERIORITY||||||=|0.2291|||||||Chi-squared|||Avoid caffeine or alcohol before bedtime||||=0.2291
82663890|NCT04667338|165043060|SUPERIORITY||||||=|0.9177|||||||Chi-squared|||Avoid smoking, especially at night||||=0.9177
82663891|NCT04667338|165043060|SUPERIORITY||||||=|0.4188|||||||Chi-squared|||Exercise daily||||=0.4188
82663892|NCT04667338|165043060|SUPERIORITY||||||=|0.5818|||||||Chi-squared|||Avoid large, heavy meals right before bedtime||||=0.5818
82663893|NCT04667338|165043060|SUPERIORITY||||||=|0.5432|||||||Chi-squared|||Other||||=0.5432
82663894|NCT04667338|165043061|SUPERIORITY||||||=|0.5432|||||||Chi-squared|||Treatment||||=0.5432
82663895|NCT04667338|165043061|SUPERIORITY||||||=|0.0397|||||||Chi-squared|||Routine monitoring visits||||=0.0397
82663896|NCT04667338|165043061|SUPERIORITY||||||=|0.0306|||||||Chi-squared|||Tests||||=0.0306
82663897|NCT04667338|165043061|SUPERIORITY||||||=|0.7451|||||||Chi-squared|||Emergency visits||||=0.7451
82663898|NCT04667338|165043061|SUPERIORITY||||||=|0.0845|||||||Chi-squared|||Hospitalizations||||=0.0845
82663899|NCT04667338|165043061|SUPERIORITY||||||=|0.3813|||||||Chi-squared|||Complications||||=0.3813
82663900|NCT04667338|165043063|SUPERIORITY||||||=|0.0034|||||||t-test, 2 sided|||Absenteeism||||=0.0034
82663901|NCT04667338|165043063|SUPERIORITY||||||=|0.2178|||||||t-test, 2 sided|||Presenteeism||||=0.2178
82663902|NCT04667338|165043063|SUPERIORITY||||||=|0.1758|||||||t-test, 2 sided|||Work productivity loss||||=0.1758
82663903|NCT04667338|165043063|SUPERIORITY||||||=|0.1789|||||||t-test, 2 sided|||Activity Impairment / disability||||=0.1789
82663904|NCT04667338|165043064|SUPERIORITY||||||=|0.5806|||||||Chi-squared|||||||=0.5806
82663905|NCT04667338|165043066|SUPERIORITY||||||=|0.1602|||||||Chi-squared|||Mobility||||=0.1602
82663906|NCT04667338|165043066|SUPERIORITY||||||=|0.5249|||||||Chi-squared|||Self-Care||||=0.5249
82663907|NCT04667338|165043066|SUPERIORITY||||||=|0.1095|||||||Chi-squared|||Usual activities||||=0.1095
82663908|NCT04667338|165043066|SUPERIORITY||||||=|0.3528|||||||Chi-squared|||Pain / Discomfort||||=0.3528
82663909|NCT04667338|165043066|SUPERIORITY||||||=|0.7434|||||||Chi-squared|||Anxiety / Depression||||=0.7434
82663910|NCT04667338|165043067|SUPERIORITY||||||=|0.0396|||||||t-test, 2 sided|||||||=0.0396
82663911|NCT04667338|165043068|SUPERIORITY||||||=|0.0394|||||||t-test, 2 sided|||Effectiveness||||=0.0394
82663912|NCT04667338|165043068|SUPERIORITY||||||=|0.3093|||||||t-test, 2 sided|||Convenience||||=0.3093
82663913|NCT04667338|165043068|SUPERIORITY||||||=|0.2296|||||||t-test, 2 sided|||Global satisfaction||||=0.2296
82663914|NCT04667338|165043069|SUPERIORITY||||||=|0.1817|||||||Chi-squared|||Depression||||=0.1817
82663915|NCT04667338|165043069|SUPERIORITY||||||=|0.0885|||||||Chi-squared|||Bipolar disorder||||=0.0885
82663916|NCT04667338|165043069|SUPERIORITY||||||=|0.3043|||||||Chi-squared|||Anxiety disorders||||=0.3043
82663917|NCT04667338|165043069|SUPERIORITY||||||=|0.0885|||||||Chi-squared|||Panic disorder||||=0.0885
82663918|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Phobia disorder||||=0.5603
82663919|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Obsessive compulsive disorder||||=0.5603
82663920|NCT04667338|165043069|SUPERIORITY||||||=|0.3646|||||||Chi-squared|||Diagnosis of ADHD||||=0.3646
82663921|NCT04667338|165043069|SUPERIORITY||||||=|0.2615|||||||Chi-squared|||Obesity||||=0.2615
82663922|NCT04667338|165043069|SUPERIORITY||||||=|0.3076|||||||Chi-squared|||Endocrine Disorders||||=0.3076
82663923|NCT04667338|165043069|SUPERIORITY||||||=|0.409|||||||Chi-squared|||Peripheral vascular disease||||=0.4090
82663924|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Cardiovascular accident or transient ischemic attack (TIA)||||=0.5603
82663925|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||COPD||||=0.5603
82663926|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||Connective tissue disease||||=0.5603
82663927|NCT04667338|165043069|SUPERIORITY||||||=|0.7451|||||||Chi-squared|||Liver Disease||||=0.7451
82663928|NCT04667338|165043069|SUPERIORITY||||||=|0.3108|||||||Chi-squared|||Diabetes Mellitus||||=0.3108
82663929|NCT04667338|165043069|SUPERIORITY||||||=|0.2407|||||||Chi-squared|||Solid Tumor||||=0.2407
82663930|NCT04667338|165043069|SUPERIORITY||||||=|0.5603|||||||Chi-squared|||AIDS||||=0.5603
82663931|NCT04667338|165043069|SUPERIORITY||||||=|0.1739|||||||Chi-squared|||Others||||=0.1739
82663932|NCT04667338|165043070|SUPERIORITY||||||=|0.3585|||||||t-test, 2 sided|||||||=0.3585
82663933|NCT01124786|165043097|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.994|||<|0.973|TWO_SIDED|95.0|0.746|1.326|||Log Rank||Hazard ratio and confidence interval presented above, so parameter dispersion not indicated in standard deviation field directly above.|If the median Overall Survival (OS) for the CO-1.01-treated patients is 7.7 months and the median OS for gemcitabine-treated patients with hENT1-low status is 4 months (hazard ratio of 0.53), then a total of 144 events of death in the hENT1-low subgroup will provide over 90% power at a 0.05 (2 sided) significance level for the comparison of CO-1.01 to gemcitabine in the hENT1-low patients.||1.326|0.746|<0.973
82663934|NCT01442376|165043105|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 15% at an alpha level of 2.5% in a 1-sided test (equivalent to 5.0% 2-sided test) to reject the null hypothesis that the study drug was inferior to the active control drug by more than the non-inferiority margin.|Risk Difference (RD)|0.36|||||TWO_SIDED|97.5|-11.7|12.4||||||The stratum adjusted Mantel-Haenszel method was used to compute the confidence interval (CI) of the difference in proportion. If the lower bound of the 97.5% CI of either the difference (CR0-24h palonosetron 20 mcg/kg - CR0-24h ondansetron) or the difference (CR0-24h palonosetron 10 mcg/kg - CR0-24h ondansetron) was strictly superior to the non-inferiority margin (δ=-0.15) then the null hypothesis (H0) was rejected. A power of 80% was used for sample size computation.||12.4|-11.7|
82663935|NCT01442376|165043105|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of 15% at an alpha level of 2.5% in a 1-sided test (equivalent to 5.0% 2-sided test) to reject the null hypothesis that the study drug was inferior to the active control drug by more than the non-inferiority margin.|Risk Difference (RD)|-4.4|||||TWO_SIDED|97.5|-16.4|7.6||||||The stratum adjusted Mantel-Haenszel method was used to compute the confidence interval (CI) of the difference in proportion. If the lower bound of the 97.5% CI of either the difference (CR0-24h palonosetron 20 mcg/kg - CR0-24h ondansetron) or the difference (CR0-24h palonosetron 10 mcg/kg - CR0-24h ondansetron) was strictly superior to the non-inferiority margin (δ=-0.15) then the null hypothesis (H0) was rejected. A power of 80% was used for sample size computation.||7.6|-16.4|
82663936|NCT01075516|165043109|OTHER|Continuous data summarized as mean ± Standard Deviation (SD). For cost data Wilcoxon rank-sum test was used to compare costs across groups. The analysis evaluated HCS perspective of group membership impact (SC vs RM) on total health care cost, adjusting for covariates that were significantly different between the groups at the .2 significance level. Differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals)|||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82663937|NCT01075516|165043110|OTHER|Continuous data are summarized as mean ± SD. For cost data the Wilcoxon rank-sum test was used to compare costs across groups. This analysis evaluated the impact of group membership (SC vs RM) on cardiovascular hospitalization timeframe (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. Differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82663938|NCT01075516|165043111|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.8||||||Comparison of utility at baseline from the EQ-5D-3L questionnaire.|t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EuroQoL Group 5-Dimension 3-Level Self-Report (EQ-5D-3L) questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.80
82663939|NCT01075516|165043111|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.38||||||Comparison of utility at 12 months from the EQ-5D-3L questionnaire.|t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EQ-5D-3L questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.38
82663940|NCT01075516|165043111|OTHER|Continuous data are summarized as mean ± SD. This analysis evaluated the impact of group membership (SC vs RM) on total health care cost (outcome), adjusting for covariates that were significantly different between the groups at the .2 significance level. However, as the arithmetic mean is the most informative measurement for policy decisions, differences between the 2 groups were assessed using differences in sample means (point estimates) and t distributions (confidence intervals).||||||0.53|||||||t-test, 2 sided|||For the patient perspective, the quality of life associated with the 2 strategies was assessed. Quality of life is reported as utility values from the EQ-5D-3L questionnaire and quality adjusted life years (QALYs) were based on utility (patients' preferences). The EQ-5D-3L questionnaire was administered to each patient at baseline and at 12 months in order to calculate utility values (from 0 to 1).||||0.53
82663941|NCT02252016|165043113|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.5|||||TWO_SIDED|95.0|-7.3|23.3||||||The estimated difference (± 95% confidence interval \[CI\]) in percentage of participants experiencing an AE in the Immediate versus Deferred arms was determined.||23.3|-7.3|
82663942|NCT02252016|165043114|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.155|TWO_SIDED|95.0|-10.2|1.6|||Miettinen & Nurminen method|||The estimated difference (± 95% CI) in percentage of participants withdrawing from study treatment due to an AE(s) in the Immediate versus Deferred arms was determined.||1.6|-10.2|0.155
82663943|NCT00834873|165043163|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|94.77||||||90.0|85.04|105.61|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.61|85.04|
82663944|NCT00834873|165043164|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.23||||||90.0|90.59|102.23|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.23|90.59|
82663945|NCT00834873|165043165|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.11||||||90.0|90.45|102.12|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||102.12|90.45|
82663946|NCT02055547|165043205|OTHER|Treatment comparison (MK-8521 125μg - placebo) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 125μg vs. placebo was calculated from the model.|Geometric mean ratio|4.61|||<|0.001|TWO_SIDED|90.0|3.69|5.76|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|5.76|3.69|<0.001
82663947|NCT02055547|165043205|OTHER|Treatment comparison (MK-8521 35μg - placebo) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 35μg vs. placebo was calculated from the model.|Geometric mean ratio|2.67|||<|0.001|TWO_SIDED|90.0|2.12|3.36|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|3.36|2.12|<0.001
82663948|NCT02055547|165043205|OTHER|"Treatment comparison (MK-8521 125μg - MK-8521 35μg) of the slope of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of the slope of ISR/G for MK-8521 125μg vs.~MK-8521 35μg was calculated from the model."|Geometric mean ratio|1.73|||<|0.001|TWO_SIDED|90.0|1.38|2.16|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|2.16|1.38|<0.001
82663949|NCT02055547|165043206|OTHER|Treatment comparison (MK-8521 125μg - placebo) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 125μg vs. placebo was calculated from the model.|Geometric mean ratio|3.04|||<|0.001|TWO_SIDED|90.0|2.62|3.53|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|3.53|2.62|<0.001
82663950|NCT02055547|165043206|OTHER|Treatment comparison (MK-8521 35μg - placebo) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 35μg vs. placebo was calculated from the model.|Geometric mean ratio|1.94|||<|0.001|TWO_SIDED|90.0|1.67|2.26|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|2.26|1.67|<0.001
82663951|NCT02055547|165043206|OTHER|Treatment comparison (MK-8521 125μg - 35μg) of the ratio of ISR/G during GGI at Tmax was performed using a linear mixed effect model with treatment and period as fixed effects and participant as random effect. The 90% confidence interval of GMR of TWA120-160min of ratio (ISR/G) for MK-8521 125μg - 35μg was calculated from the model.|Geometric mean ratio|1.57|||<|0.001|TWO_SIDED|90.0|1.35|1.82|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|1.82|1.35|<0.001
82663952|NCT02055547|165043207|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125mcg - placebo) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.65|||<|0.001|TWO_SIDED|90.0|0.6|0.7|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.7|0.6|<0.001
82663953|NCT02055547|165043207|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 35μg - placebo) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.8|||<|0.001|TWO_SIDED|90.0|0.74|0.87|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.87|0.74|<0.001
82663954|NCT02055547|165043207|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg - MK-8521 35μg) in glucose (TWA0-160min) after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.81|||<|0.001|TWO_SIDED|90.0|0.75|0.87|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3-period crossover study design was conducted for 12 participants in Part 3).|0.87|0.75|<0.001
82663955|NCT02055547|165043208|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg vs. placebo) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.55|||<|0.001|TWO_SIDED|90.0|0.49|0.63|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.63|0.49|<0.001
82663956|NCT02055547|165043208|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 35μg - placebo) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.71|||<|0.001|TWO_SIDED|90.0|0.62|0.81|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.81|0.62|<0.001
82663957|NCT02055547|165043208|OTHER|The least squares means and 90% confidence intervals for the treatment difference (MK-8521 125μg - MK-8521 35μg) in Gmax after a single dose was determined using a linear mixed effect model with treatment and period as fixed effects and participant as random effect.|Geometric mean ratio|0.78||||0.004|TWO_SIDED|90.0|0.69|0.89|||Linear mixed effect model||||Number of participants included in analysis: N=17 (3 period crossover study design was conducted for 12 participants in Part 3).|0.89|0.69|0.004
82663958|NCT01125163|165043214|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0||||All infants were analyzed according to their assigned groups.|Wilcoxon (Mann-Whitney)|||A non-parametric rank sum analysis was performed as follows so that infants who died before 36 wks and infants who were transfused could be included in an intention-to-treat analysis. Infants were ranked by death (lowest rank) then by number of transfusions (next lowest ranks). For infants who survived and were not transfused, the 36 wks PMA Hct was used as the primary outcome.||||0.59
82663959|NCT01125163|165043215|SUPERIORITY_OR_OTHER|||||||0.64|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||A non-parametric rank sum analysis was performed as follows so that infants who died before 36 wks and infants who were transfused could be included in an intention-to-treat analysis. Infants were ranked by death (lowest rank) then by number of transfusions (next lowest ranks). For infants who survived and were not transfused, the 36 wks PMA Hct was used as the primary outcome.||||0.64
82663960|NCT02709018|165043218|SUPERIORITY|||||||0.66|||||||Mixed Models Analysis|||||||0.66
82663961|NCT02709018|165043219|SUPERIORITY|||||||0.57|||||||Mixed Models Analysis|||||||0.57
82663962|NCT01120028|165043241|OTHER||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.28|0.64|||Log Rank|||||0.64|0.28|<0.0001
82663963|NCT01120028|165043242|OTHER|||||||0.5|||||||ANCOVA|||||||0.5
82663964|NCT01120028|165043243|OTHER||Hazard Ratio (HR)|1.23||||0.58|TWO_SIDED|95.0|0.59|2.55|||Regression, Cox|||||2.55|0.59|0.58
82663965|NCT01120028|165043244|OTHER||Rate Ratio|1.99||||0.23|TWO_SIDED|95.0|0.64|6.18|||Log Rank|||||6.18|0.64|0.23
82663966|NCT01120028|165043245|OTHER||Rate Ratio|1.02||||0.88|TWO_SIDED|95.0|0.8|1.29|||Regression, Cox|||||1.29|0.80|0.88
82663967|NCT01120028|165043246|OTHER||Rate ratio|1.51||||0.008|TWO_SIDED|95.0|1.11|2.06|||Log Rank|||||2.06|1.11|0.008
82663968|NCT01120028|165043247|OTHER||Rate Ratio|1.0||||0.99|TWO_SIDED|95.0|0.51|1.97|||Log Rank|||||1.97|0.51|0.99
82663969|NCT01120028|165043248|OTHER||Rate Ratio|0.76||||0.52|TWO_SIDED|95.0|0.34|1.73|||Log Rank|||||1.73|0.34|0.52
82663970|NCT01248728|165043264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5|||||||Mixed Models Analysis|||||||0.5
82663971|NCT01248728|165043265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Mixed Models Analysis|||||||0.02
82663972|NCT01248728|165043267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|||||||Mixed Models Analysis|||||||0.09
82663973|NCT01248728|165043268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6|||||||Regression, Linear|||||||0.6
82663974|NCT01838681|165043269|SUPERIORITY||Odds Ratio (OR)|0.83||||0.2641|TWO_SIDED|95.0|0.6|1.15|||Regression, Logistic|Model included MADRS total score at the randomisation visit, treatment group, country, and the randomisation criteria used||||1.15|0.60|0.2641
82663975|NCT04198363|165043295|NON_INFERIORITY|Noninferiority of vonoprazan to esomeprazole was evaluated by Farrington and Manning test using a noninferiority margin of 10% for analysis.|Difference in Proportions|0.1|||=|0.0009|TWO_SIDED|95.0|-5.95|6.17|||Farrington and Manning Test||Difference in proportions for vonoprazan versus esomeprazole was analyzed and the 2-sided Wald confidence interval was used for determining the 95% confidence interval.|||6.17|-5.95|=0.0009
82663976|NCT03067987|165043306|SUPERIORITY||||||<|0.007|||||||ANOVA|||||||<0.007
82663977|NCT03067987|165043307|SUPERIORITY|||||||0.0006|||||||ANOVA|||||||0.0006
82663978|NCT01404988|165043325|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|||||For this pilot study, the Type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||0.1
82663979|NCT01404988|165043325|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2
82663980|NCT01404988|165043326|SUPERIORITY_OR_OTHER|||||||0.3|TWO_SIDED|||||For this pilot study, the type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||.3
82663981|NCT01404988|165043326|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.77
82663982|NCT01404988|165043327|SUPERIORITY_OR_OTHER|||||||0.03|TWO_SIDED|||||For this pilot study, the type 1 error was set at 5%|Wilcoxon (Mann-Whitney)|||||||0.03
82663983|NCT01404988|165043327|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||.06
82663984|NCT01404988|165043328|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|||||For this pilot study, type 1 error was set at 5%|Fisher Exact|||||||0.60
82663985|NCT01404988|165043328|SUPERIORITY_OR_OTHER|||||||0.16|TWO_SIDED||||||Fisher Exact|||||||0.16
82663986|NCT00829764|165043329|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|93.52||||||90.0|88.49|98.83|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||98.83|88.49|
82663987|NCT00829764|165043330|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.75||||||90.0|93.98|101.67|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.67|93.98|
82663988|NCT00829764|165043331|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.46||||||90.0|94.78|102.28|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||102.28|94.78|
82663989|NCT02488109|165043387|OTHER|||||||0.42||||||Changes in rates of clinical remission by group over time in the mITT model.|Regression, Linear|Clinical remission was modeled as a nominal multinomial outcome (yes, no, or missing)||The study was powered to detect a difference in 12-months clinical remission rates between groups. N = 60 per arm with 85% retention would provide 80% power on a 2-sided 0.05-level test to detect a 20% difference between groups in 12-months clinical remission rates. A generalized linear mixed-effects regression model was used to compare study arms with respect to achievement and maintenance of clinical remission.||||0.42
82663990|NCT02488109|165043388|SUPERIORITY||Hazard Ratio (HR)|1.67||||0.01|TWO_SIDED|95.0|1.1|2.53||Survival analysis of time to medical stability by log-rank test, which does not assume proportional hazards. Those who did not reach medical stability before hospital discharge were censored; analyses accounted for the site effect by stratification.|Survival analysis with log rank test|Compared time to achieve medical stability by arm; participants who did not meet stability criteria by hospital discharge were right-censored||This trial was powered at 0.80 to detect a 12% to 20% difference in restored medical stability at 0.05 type I error and correlation between time points from 0.1 to 1.||2.53|1.10|0.01
82663991|NCT02488109|165043389|SUPERIORITY||Median Difference (Net)|19.0||||0.002|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Cost outcomes of group differences and 95% confidence intervals were estimated.||28,819|9,293|0.002
82663992|NCT02302716|165043390|NON_INFERIORITY_OR_EQUIVALENCE|The primary treatment comparison was to compare LY2963016 versus Lantus at the non-inferiority margin of +0.4%. If the upper limit of the 95% confidence interval on the change from baseline to 24-week HbA1c level for LY2963016 versus Lantus was below +0.4%, then LY2963016 would be declared non-inferior to Lantus.|Mean Difference (Final Values)|-0.04||||0.693|TWO_SIDED|95.0|-0.22|0.15|||Mixed Models Analysis|||||0.15|-0.22|0.693
82663993|NCT02906813|165043401|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Ratio|0.631||||0.079|TWO_SIDED|90.0|0.411|0.969|||ANOVA|||Analysis of variance (ANOVA) was performed on natural logarithms of TAK-935 Cmax with fixed factors of sequence, period and regimen, and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative bioavailability (BA) of TAK-935 tablet to solution. Point estimate and 90 percent (%) confidence interval (CI) in original scale were obtained by exponentiation of differences in natural-log scale.||0.969|0.411|0.079
82663994|NCT02906813|165043401|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.403||||0.002|TWO_SIDED|90.0|0.262|0.618|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 Cmax with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% confidence interval in original scale were obtained by exponentiation of differences in natural-log scale.||0.618|0.262|0.002
82663995|NCT02906813|165043402|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.85||||0.146|TWO_SIDED|90.0|0.706|1.024|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUCt with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 tablet to solution. Point estimate and 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.024|0.706|0.146
82663996|NCT02906813|165043402|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.889||||0.281|TWO_SIDED|90.0|0.738|1.07|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUCt with factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.070|0.738|0.281
82663997|NCT02906813|165043403|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.842||||0.191|TWO_SIDED|90.0|0.676|1.05|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUC∞ with fixed factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 tablet to solution. Point estimate and 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.050|0.676|0.191
82663998|NCT02906813|165043403|SUPERIORITY_OR_OTHER||LS Mean Ratio|0.894||||0.355||90.0|0.726|1.1|||ANOVA|||ANOVA was performed on natural logarithms of TAK-935 AUC∞ with factors of sequence, period, and regimen and random factor of participant nested within sequence. Pairwise comparisons was used to assess relative BA of TAK-935 administered after high-fat meal versus fasted. Point estimate and its 90% CI in original scale were obtained by exponentiation of differences in natural-log scale.||1.100|0.726|0.355
82663999|NCT00557245|165043408|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.33|||<|0.001|TWO_SIDED|95.0|0.19|0.56||The a priori threshold was 0.05.|Regression, Cox||Placebo arm is the reference group.|We used Cox regression stratified according to site, to estimate the relative rates of time to first positive HIV-1 serologic test.||0.56|0.19|<0.001
82664000|NCT00557245|165043408|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.25|||<|0.001|TWO_SIDED|95.0|0.13|0.45||The a priori threshold was 0.05.|Regression, Cox||Placebo arm is the reference group.|We used Cox regression stratified according to site, to estimate the relative rates of time to first positive HIV-1 serologic test.||0.45|0.13|<0.001
82664001|NCT00557245|165043409|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82664002|NCT00557245|165043409|SUPERIORITY_OR_OTHER|||||||0.89|||||||Fisher Exact|||||||0.89
82664003|NCT00557245|165043413|SUPERIORITY_OR_OTHER|||||||0.24|||||||Regression, Logistic|Generalized estimating equations, with logistic link and robust standard errors to adjust for individual correlation over time.||||||0.24
82664004|NCT00557245|165043413|SUPERIORITY_OR_OTHER|||||||0.49|||||||Regression, Logistic|Generalized estimating equations, with logistic link and robust standard errors to adjust for individual correlation over time.||||||0.49
82664005|NCT00557245|165043414|SUPERIORITY_OR_OTHER|||||||0.32|||||||Regression, Logistic|Generalized estimating equations, logistic link, with robust standard errors.||||||0.32
82664006|NCT00557245|165043414|SUPERIORITY_OR_OTHER|||||||0.66|||||||Regression, Logistic|Generalized estimating equations, logistic link, with robust standard errors.||||||0.66
82664007|NCT00557245|165043415|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||Regression, Logistic|Generalized estimating equations with logistic link to account for multiple pregnancies and multiple births||||||0.51
82664008|NCT00557245|165043415|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Regression, Logistic|generalized estimating equations with logistic link to account for multiple pregnancies and multiple births||||||0.86
82664009|NCT00557245|165043416|SUPERIORITY_OR_OTHER|||||||0.42|||||||Mixed Models Analysis|linear mixed-effects model||||||0.42
82664010|NCT00557245|165043416|SUPERIORITY_OR_OTHER||Slope Difference over time|0.07||||0.08|||||||Mixed Models Analysis|Linear mixed-effects model|Placebo arm is the reference group.|||||0.08
82664011|NCT00557245|165043417|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.02
82664012|NCT00557245|165043417|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||<0.001
82664013|NCT00557245|165043418|SUPERIORITY_OR_OTHER|||||||0.35|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.35
82664014|NCT00557245|165043418|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Mixed Models Analysis|Linear mixed effects model||||||0.008
82664015|NCT00521586|165043419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|2.8|||||TWO_SIDED|95.0|-1.8|7.4||||||A/H1N1 strain: Exact 2-sided, 95 percent (%) confidence intervals was computed based on the methodology by Chan and Zhang||7.4|-1.8|
82664016|NCT00521586|165043419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|1.6|||||TWO_SIDED|95.0|-3.9|7.2||||||A/H3N2 strain: Exact 2-sided, 95 % confidence intervals was computed based on the methodology by Chan and Zhang.||7.2|-3.9|
82664017|NCT00521586|165043419|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was to be concluded if the lower limit of the 2-sided 95% CI was greater than -0.1 or -10%|percent difference|0.3|||||TWO_SIDED|95.0|-5.6|6.2||||||B strain: Exact 2-sided, 95 % confidence intervals was computed based on the methodology by Chan and Zhang.||6.2|-5.6|
82664018|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.74|||||TWO_SIDED|95.0|0.58|0.95||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.95|0.58|
82664019|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.79|||||TWO_SIDED|95.0|0.66|0.93||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.93|0.66|
82664020|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.69|||||TWO_SIDED|95.0|0.55|0.87||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.87|0.55|
82664021|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.84|||||TWO_SIDED|95.0|0.67|1.05||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.05|0.67|
82664022|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.86|||||TWO_SIDED|95.0|0.7|1.06||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.70|
82664023|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.75|||||TWO_SIDED|95.0|0.6|0.93||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.93|0.60|
82664024|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.77|||||TWO_SIDED|95.0|0.63|0.95||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||0.95|0.63|
82664025|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric mean ratio|0.71|||||TWO_SIDED|95.0|0.59|0.86||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.86|0.59|
82664026|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.77|||||TWO_SIDED|95.0|0.6|0.98||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.98|0.60|
82664027|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.72|||||TWO_SIDED|95.0|0.58|0.88||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||0.88|0.58|
82664028|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.89|||||TWO_SIDED|95.0|0.74|1.08||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.08|0.74|
82664029|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.86|||||TWO_SIDED|95.0|0.67|1.1||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.10|0.67|
82664030|NCT00521586|165043420|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was to be concluded if the lower limit of the 2-sided 95% CI for the GMR was greater than 0.5 (2-fold criterion).|Geometric Mean Ratio|0.84|||||TWO_SIDED|95.0|0.66|1.08||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution||1.08|0.66|
82664031|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.83|1.34||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.34|0.83|
82664032|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.75|1.08||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.75|
82664033|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.92|1.28||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.28|0.92|
82664034|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.68|1.08||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.68|
82492803|NCT03166735|164678431|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.129||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.1290
82492804|NCT03166735|164678432|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0042||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod Sigmoidal Emax model fit.|30% of the maximum effect is achieved at 3 mg and 90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0042
82492805|NCT03166735|164678433|OTHER|The MMRM included fixed effects for 'base', 'treatment', 'time', 'base\*time' interaction, and 'treatment\*time' interaction. Estimates were used to test dose-response relationship using MCPMod.||||||0.0728||||||p\<0.05 is a significant test result (rejecting the null hypothesis of a flat dose-response curve) with alpha 0.05, one-sided.|MCPMod exponential model fit.|90% of the maximum effect is achieved at 7 mg of BI 1467335||||||0.0728
82492806|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.07||||0.533|TWO_SIDED|90.0|-1.82|3.95|||ANCOVA|||Change at Day 14 8 AM: Analysis was based on analysis of covariance (ANCOVA) using statistical analysis system (SAS) mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.95|-1.82|0.5330
82664035|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.88|1.3||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.30|0.88|
82664036|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.21||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.84|
82664037|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.78|1.06||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.78|
82664038|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.2|||||TWO_SIDED|95.0|0.93|1.48||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.48|0.93|
82664039|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.86|1.17||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.17|0.86|
82664040|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.84|1.27||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.27|0.84|
82664041|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.87|1.21||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.87|
82664042|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.1|||||TWO_SIDED|95.0|0.85|1.31||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.31|0.85|
82664043|NCT00521586|165043421|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.0|||||TWO_SIDED|95.0|0.8|1.27||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.27|0.80|
82664044|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.87|1.18||||||Serotype 1: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.18|0.87|
82664045|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.82|1.1||||||Serotype 3: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.10|0.82|
82664046|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.03|||||TWO_SIDED|95.0|0.88|1.21||||||Serotype 4: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.21|0.88|
82664047|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.09||||||Serotype 5: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.09|0.80|
82664048|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|1.01|||||TWO_SIDED|95.0|0.84|1.22||||||Serotype 6A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.22|0.84|
82664049|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 6B: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.12|0.77|
82664050|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.97|||||TWO_SIDED|95.0|0.85|1.11||||||Serotype 7F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.11|0.85|
82664051|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.81|1.07||||||Serotype 9V: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.07|0.81|
82664052|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.95|||||TWO_SIDED|95.0|0.81|1.11||||||Serotype 14: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.11|0.81|
82664053|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.92|||||TWO_SIDED|95.0|0.79|1.06||||||Serotype 18C: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.06|0.79|
82664054|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.8|1.08||||||Serotype 19A: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.08|0.80|
82492807|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14||||0.9532|TWO_SIDED|90.0|-4.13|3.85|||ANCOVA|||Change at Day 14 10 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.85|-4.13|0.9532
82621502|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.97|STANDARD_ERROR_OF_MEAN|0.5||0.0507|TWO_SIDED|95.0|-1.94|0.0|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.00|-1.94|0.0507
82621503|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.51||0.248|TWO_SIDED|95.0|-1.6|0.41|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.41|-1.60|0.2480
82621504|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.51||0.1605|TWO_SIDED|95.0|-1.71|0.28|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-1.71|0.1605
82621505|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.52||0.3654|TWO_SIDED|95.0|-1.5|0.55|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.55|-1.50|0.3654
82621506|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1782|TWO_SIDED|95.0|-1.71|0.32|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.32|-1.71|0.1782
82621507|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.52||0.3981|TWO_SIDED|95.0|-1.47|0.58|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.58|-1.47|0.3981
82621508|NCT02528253|164960246|SUPERIORITY||LS Mean Difference|-0.83|STANDARD_ERROR_OF_MEAN|0.52||0.1089|TWO_SIDED|95.0|-1.84|0.18|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-1.84|0.1089
82621509|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.1472|TWO_SIDED|95.0|-0.18|0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.18|0.1472
82621510|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.05||0.0135|TWO_SIDED|95.0|-0.24|-0.03|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.24|0.0135
82621511|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.05||0.0893|TWO_SIDED|95.0|-0.18|0.01|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.18|0.0893
82621512|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.05||0.0044|TWO_SIDED|95.0|-0.23|-0.04|||ANCOVA|||Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.23|0.0044
82621513|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.0025|TWO_SIDED|95.0|-0.28|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.28|0.0025
82621514|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.06||0.0002|TWO_SIDED|95.0|-0.32|-0.1|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.32|0.0002
82621515|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8348|TWO_SIDED|95.0|-0.11|0.09|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.11|0.8348
82621516|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.05||0.002|TWO_SIDED|95.0|-0.26|-0.06|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.26|0.0020
82621517|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0001|TWO_SIDED|95.0|-0.3|-0.1|||ANCOVA|||Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.30|0.0001
82621518|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0272|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.25|0.0272
82664055|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.93|||||TWO_SIDED|95.0|0.77|1.12||||||Serotype 19F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.12|0.77|
82664056|NCT00521586|165043430|SUPERIORITY_OR_OTHER||Geometric Mean Ratio|0.9|||||TWO_SIDED|95.0|0.74|1.09||||||Serotype 23F: 2-sided 95 % CI for the ratio of 2 geometric means (13vPnC+TIV/Placebo and Placebo+TIV/13vPnC) was constructed by back transformation of the CIs for the difference of the 2 logarithmically transformed assay results computed using the Student t distribution.||1.09|0.74|
82664057|NCT02645253|165043450|SUPERIORITY_OR_OTHER||Slope|1.02|STANDARD_ERROR_OF_MEAN|0.0785|||TWO_SIDED|90.0|0.882|1.15|||Linear Model|||||1.15|0.882|
82664058|NCT02645253|165043452|SUPERIORITY_OR_OTHER||Slope|1.14|STANDARD_ERROR_OF_MEAN|0.0503|||TWO_SIDED|90.0|1.06|1.23|||Linear Model|||||1.23|1.06|
82664059|NCT02645253|165043454|SUPERIORITY_OR_OTHER||Slope|1.05|STANDARD_ERROR_OF_MEAN|0.119|||TWO_SIDED|90.0|0.801|1.31|||Linear Model|||||1.31|0.801|
82664060|NCT02645253|165043464|SUPERIORITY_OR_OTHER||Slope|0.979|STANDARD_ERROR_OF_MEAN|0.0633|||TWO_SIDED|90.0|0.87|1.09|||Linear Model|||||1.09|0.870|
82664061|NCT02645253|165043469|SUPERIORITY_OR_OTHER||Slope|1.05|STANDARD_ERROR_OF_MEAN|0.0552|||TWO_SIDED|90.0|0.951|1.14|||Linear Model|||||1.14|0.951|
82664062|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|102.99|||||TWO_SIDED|95.0|86.88|122.09|||ANCOVA||Day 1/ Day -1|||122.09|86.88|
82664063|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|91.82|||||TWO_SIDED|95.0|77.32|109.04|||ANCOVA||Day 16 / Day -1|||109.04|77.32|
82664064|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|105.92|||||TWO_SIDED|95.0|89.4|125.49|||ANCOVA||Day 1 / Day -1|||125.49|89.40|
82664065|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|89.44|||||TWO_SIDED|95.0|75.35|106.16|||ANCOVA||Day 16 / Day -1|||106.16|75.35|
82664066|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|99.82|||||TWO_SIDED|95.0|84.12|118.46|||ANCOVA||Day 1 / Day -1|||118.46|84.12|
82664067|NCT02645253|165043481|SUPERIORITY_OR_OTHER||Ratio of Geometric LS mean (%)|75.38||||||95.0|63.4|89.61|||ANCOVA||Day 16 / Day -1|||89.61|63.40|
82664068|NCT00907907|165043533|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|93.97||||||90.0|80.25|110.04|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||110.04|80.25|
82664069|NCT00907907|165043534|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|102.01||||||90.0|98.74|105.39|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.39|98.74|
82664070|NCT00907907|165043535|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analyses of Variance (PROC MIXED) were performed on the log-transformed AUCt, AUCinf and Cmax parameters.|Geometric Test/Ref Ratio x 100|99.91||||||90.0|95.99|103.98|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||103.98|95.99|
82664071|NCT00545792|165043537|SUPERIORITY_OR_OTHER||Single point estiamte of 1-yr PFS|0.8|||||TWO_SIDED|95.0|0.56|0.94|||||The reported 1-year PFS rate 80% (Exact 95% CI: 56% - 94%) was the proportion of the patients remained progression free after 12 months.|Single-arm feasibility study; Kaplan Meier analysis was applied to estimate one-year PFS distribution as well as to calculate proportion of patients remain progression free by month 12.||0.94|0.56|
82664072|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.94||||0.052|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For symptom-severity score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size and non-normal distributions of symptom severity scores. The null hypothesis is that there is no difference between the two groups in symptom severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) symptom severity than the other group.||||.052
82664073|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.06||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For coping score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of coping scores. The null hypothesis is that there is no difference between the two groups in coping, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) coping than the other group.||||.04
82664074|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.176||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the concern score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outlier of the concern scores. The null hypothesis is that there is no difference between the two groups in their concern, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) concern than the other group.||||.03
82664075|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|0.9||||0.37|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the sleep score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of sleep scores. The null hypothesis is that there is no difference between the two groups in sleep scores, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) sleep scores than the other group.||||.37
82664076|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.02||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For social score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of social scores. The null hypothesis is that there is no difference between the two groups in social scores, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) social scores than the other group.||||.04
82664077|NCT01642277|165043539|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|2.03||||0.04|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the overall health related quality of life (HRQL) score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size, non-normal distributions, and outliers of HRQL scores. The null hypothesis is that there is no difference between the two groups in health related quality of life, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) health realted quality of life than the other group.||||.04
82664078|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-0.74||||0.46|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the obstructive discomfort score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in obstructive discomfort, and and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) obstructive discomfort than the other group.||||.46
82664079|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.8||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the irritative score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in irritation, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) irritation than the other group.||||.07
82664080|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.59||||0.11|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the stress score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in stress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) stress than the other group.||||.11
82664081|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.69||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the urinary distress inventory score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in urinary distress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) urinary distress than the other group.||||.09
82664082|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.68||||0.09|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the general score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in general pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) general pelvic floor disease severity than the other group.||||.09
82664083|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-0.23||||0.82|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the anterior score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in anterior pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) anterior pelvic floor disease severity than the other group.||||.82
82664084|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.92||||0.06|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the posterior score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in posterior pelvic floor disease severity, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) posterior pelvic floor disease severity than the other group.||||.06
82664085|NCT01642277|165043540|SUPERIORITY_OR_OTHER||Standardized test statistic (z-score)|-1.85||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the pelvic organ prolapse distress score, the non-parametric Mann-Whitney test was used to compare the responder and non-responder groups due to low sample size in the non-responder group (n = 13). The null hypothesis is that there is no difference between the two groups in pelvic organ prolapse distress, and the two-sided alternative hypothesis is that one of the two groups has higher (or lower) pelvic organ prolapse distress than the other group.||||.07
82664086|NCT03428750|165043558|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.006
82664087|NCT03428750|165043559|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664088|NCT03428750|165043560|SUPERIORITY|||||||0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||0.001
82664089|NCT03428750|165043561|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664090|NCT03428750|165043562|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664091|NCT03428750|165043563|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664092|NCT03428750|165043564|SUPERIORITY||||||<|0.001|||||||ANCOVA|With factors of treatment group and analysis center adjusted for baseline values in the model||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664093|NCT03428750|165043565|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664094|NCT03428750|165043566|SUPERIORITY||||||<|0.001|||||||Cochran-Mantel-Haenszel|Adjusted for analysis center||CCH 0.84 mg/Buttock versus Placebo||||<0.001
82664095|NCT05133180|165043581|SUPERIORITY|The following null hypothesis is defined on this endpoint: the number of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min at week 4 in cenegermin (rhNGF) is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|Odds Ratio (OR)|16.946|||<|0.001|TWO_SIDED|95.0|3.412|84.165||P-value of treatment variable from logistic regression model on the number of patients reaching a value of Schirmer I test (without anaesthesia) \>10mm/5min|Regression, Logistic|||It was analyzed by means of a logistic regression model adjusting by pre-defined baseline factors (treatment, gender, age class, baseline Schirmer I test value as fixed effects and site as random effect). For the imputation of missing data at week 4, a Multiple Imputation approach is adopted by performing a regression model with the baseline Schirmer I test value, gender, age class, and Schirmer I test at week 2 as explanatory variables and generating 200 datasets.||84.165|3.412|<0.001
82664096|NCT05133180|165043582|SUPERIORITY|The following null hypothesis is defined on this endpoint: the change from baseline (reduction) in the global SANDE score at week 12 in cenegermin is lower or equal than control. The null hypothesis is rejected if the associated primary analysis p-value is lower than 0.025.|adjusted mean difference|-4.561||||0.322|TWO_SIDED|95.0|-13.581|4.459||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in the global SANDE score.|ANCOVA|||This endpoint was analyzed by means of an Analysis of Covariance with change from baseline in global SANDE Score at Week 12 as dependent variable, treatment, gender, age class, baseline global SANDE score as fixed effects and site as random effect. For missing data, Multiple Imputation approach is adopted by performing a regression model with the baseline global SANDE score, gender, age class, and intermediate global SANDE scores up to week 12 as explanatory variables and generating 200 datasets||4.459|-13.581|0.322
82664097|NCT05133180|165043583|SUPERIORITY|Analysis was based on a logistic regression with the number of patients reaching a value of Schirmer I test \>10mm/5min at week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as qualitative independent variables. Site was considered as random effects that vary randomly among patients.|Odds Ratio (OR)|15.95|||<|0.001|TWO_SIDED|95.0|3.091|82.31|||Regression, Logistic|||This key secondary endpoint was analyzed by means of a logistic regression model with the number of patients reaching a value of Schirmer I test \>10mm/5min at Week 8 as dependent variable, treatment, gender, age class and baseline Schirmer I test value as fixed effects and site as random effect.||82.310|3.091|<0.001
82664098|NCT05133180|165043584|SUPERIORITY||adjusted mean difference|-2.753||||0.572|TWO_SIDED|95.0|-12.303|6.798||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for frequency at Week 12.|ANCOVA regression model|||This endpoint was analyzed by means of an ANCOVA adjusting by pre-defined baseline factors (treatment, gender, age class, baseline SANDE score for severity as fixed effects and site as random effect).||6.798|-12.303|0.572
82664099|NCT05133180|165043585|SUPERIORITY||adjusted mean difference|-4.732||||0.307|TWO_SIDED|95.0|-13.819|4.354||P-value of adjusted means difference between treatments from the ANCOVA model on change from baseline in SANDE score for severity at Week 12.|ANCOVA regression model|||This endpoint was analyzed by means of an ANCOVA adjusting by pre-defined baseline factors (treatment, gender, age class, baseline SANDE score for severity as fixed effects and site as random effect).||4.354|-13.819|0.307
82664100|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.16||||0.468|TWO_SIDED|95.0|-3.668|7.988||P-value of Least Square (LS) means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 4|MMRM|||Impact on daily activities at week 4.||7.988|-3.668|0.468
82664101|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.431||||0.492|TWO_SIDED|95.0|-4.5|9.362||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Emotional Impact) at Week 4.|MMRM|||Emotional Impact due to Dry eye at week 4.||9.362|-4.500|0.492
82664102|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM). Analyses included the fixed, categorical effects of treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall. Missing data will be imputed according to the questionnaire manuals"|LS means difference|3.3||||0.51|TWO_SIDED|95.0|-6.511|13.111||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Impact on Work) at Week 4.|MMRM|||Impact on Work due to Dry Eye at week 4.||13.111|-6.511|0.510
82664103|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|Least square mean difference|4.078||||0.268|TWO_SIDED|95.0|-3.142|11.299||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Daily Activities) at Week 12.|MMRM|||Quality of life - Impact on daily activities - Week 12||11.299|-3.142|0.268
82664104|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall"|least square mean difference|5.55||||0.227|TWO_SIDED|95.0|-3.462|14.562||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Emotional Impact) at Week 12.|MMRM|||Quality of life - Emotional Impact due to Dry eye - Week 12||14.562|-3.462|0.227
82664105|NCT05133180|165043586|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|3.475||||0.501|TWO_SIDED|95.0|-6.651|13.601||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Quality of Life Module (Impact on Work) at Week 12.|MMRM|||Quality of life - Impact on Work due to Dry Eye - Week 12||13.601|-6.651|0.501
82664106|NCT05133180|165043587|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-0.549||||0.924|TWO_SIDED|95.0|-11.82|10.723||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 4.|MMRM|||IDEEL Treatment satisfaction \& Bother Module Satisfaction with Treatment Effectiveness - week 4||10.723|-11.820|0.924
82664107|NCT05133180|165043587|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|1.072||||0.745|TWO_SIDED|95.0|-5.398|7.542||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Treatment- Related Bother / Inconvenience) at Week 4.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Treatment- Related Bother / Inconvenience - week 4||7.542|-5.398|0.745
82664108|NCT05133180|165043587|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-4.206||||0.467|TWO_SIDED|95.0|-15.53|7.118||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Satisfaction with Treatment Effectiveness) at Week 12.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Satisfaction with Treatment Effectiveness - week 12||7.118|-15.530|0.467
82664109|NCT05133180|165043587|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM)adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|2.244||||0.564|TWO_SIDED|95.0|-5.387|9.874||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Treatment Satisfaction \& Bother module (Treatment- Related Bother / Inconvenience) at Week 12.|MMRM|||IDEEL Treatment satisfaction \& Bother Module - Treatment- Related Bother / Inconvenience - week 12||9.874|-5.387|0.564
82664110|NCT05133180|165043588|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-0.805||||0.802|TWO_SIDED|95.0|-7.086|5.476||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Symptom Bother Module at Week 4.|MMRM|||IDEEL - Symptom Bother module - week 4||5.476|-7.086|0.802
82664111|NCT05133180|165043588|SUPERIORITY|"Changes from baseline in each IDEEL modules scale score was analyzed using a mixed model for repeated measures (MMRM) adjusting by gender, age class, IDEEL module baseline value, treatment, visit and treatment by visit interaction. Subject was considered as a random effect. The covariance matrix used was unstructured. Comparisons vs vehicle TID was provided using least square means at each visit and overall."|least square mean difference|-8.789||||0.019|TWO_SIDED|95.0|-16.16|-1.418||P-value of LS means difference between treatments from the MMRM on change from baseline in IDEEL Symptom Bother Module at Week 12.|MMRM|||IDEEL - Symptom Bother module - week 12||-1.418|-16.160|0.019
82664112|NCT05133180|165043589|SUPERIORITY||least square mean difference|-1.518||||0.045|TWO_SIDED|95.0|-3.005|-0.031||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 4.|MMRM|||Herein Week 4 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||-0.031|-3.005|0.045
82664113|NCT05133180|165043589|SUPERIORITY||least square mean difference|-1.773||||0.038|TWO_SIDED|95.0|-3.446|-0.101||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 8.|MMRM|||Herein Week 8 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||-0.101|-3.446|0.038
82664114|NCT05133180|165043589|SUPERIORITY||least square mean difference|-1.224||||0.2|TWO_SIDED|95.0|-3.096|0.649||P-value of LS means difference between treatments from the MMRM on change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale at Week 12|MMRM|||Herein Week 12 was considered. The change from baseline in Cornea and conjunctiva vital staining with fluorescein NEI scale was analyzed by means of an MMRM adjusting by pre-defined factors (gender, age class, NEI scale baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||0.649|-3.096|0.200
82664115|NCT05133180|165043590|SUPERIORITY||least square mean difference|1.64||||0.016|TWO_SIDED|95.0|0.3|2.98||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 4.|MMRM|||Herein week 4 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.980|0.300|0.016
82664116|NCT05133180|165043590|SUPERIORITY||least ssquare mean difference|1.133||||0.129|TWO_SIDED|95.0|-0.329|2.596||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 8.|MMRM|||Herein week 8 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.596|-0.329|0.129
82664117|NCT05133180|165043590|SUPERIORITY||least square mean difference|1.36||||0.05|TWO_SIDED|95.0|-0.002|2.722||P-value of LS means difference between treatments from the MMRM on change from baseline in TFBUT at Week 12.|MMRM|||Herein week 12 was considered. The change from baseline in TFBUT values was analyzed by means of a MMRM adjusting by pre-defined factors (gender, age class, TFBUT baseline value, treatment, visit, and treatment by visit interaction; subject was considered as a random effect).||2.722|-0.002|0.050
82664118|NCT05133180|165043591|SUPERIORITY||||||<|0.001||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 4 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||<0.001
82664119|NCT05133180|165043591|SUPERIORITY|||||||0.009||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.009
82664120|NCT05133180|165043591|SUPERIORITY|||||||0.02||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.020
82664121|NCT05133180|165043591|SUPERIORITY|||||||0.022||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.022
82664122|NCT05133180|165043592|SUPERIORITY|||||||0.065||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.065
82664123|NCT05133180|165043593|SUPERIORITY|||||||0.125||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.125
82664124|NCT05133180|165043594|SUPERIORITY|||||||0.005||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.005
82664125|NCT05133180|165043594|SUPERIORITY|||||||0.116||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.116
82664126|NCT05133180|165043594|SUPERIORITY|||||||0.864||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.864
82664127|NCT05133180|165043595|SUPERIORITY|||||||0.011||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.011
82664128|NCT05133180|165043595|SUPERIORITY|||||||0.316||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.316
82664129|NCT05133180|165043595|SUPERIORITY|||||||0.685||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.685
82664130|NCT05133180|165043596|SUPERIORITY|||||||0.016||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 8 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.016
82664131|NCT05133180|165043596|SUPERIORITY|||||||0.16||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants|Wilcoxon (Mann-Whitney)|||Herein Week 12 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.160
82664132|NCT05133180|165043596|SUPERIORITY|||||||0.839||||||p-value corresponds to a non-parametric Mann-Whitney-Wilcoxon (Wilcoxon rank sum) test of the comparisons between Cenegermin and Vehicle in all participants.|Wilcoxon (Mann-Whitney)|||Herein Week 16 was considered. Change from baseline between the two treatment groups was compared using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption not met.||||0.839
82664133|NCT05133180|165043597|SUPERIORITY|||||||0.0455|||||||Chi-squared|||||||0.0455
82664134|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.06||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on daily activities - Week 8||||0.060
82664135|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.079||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Emotional impact due to Dry eye - Week 8||||0.079
82664136|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.251||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Quality of life - Impact on work due to Dry Eye - Week 8||||0.251
82664137|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.203||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on daily activities - Week 16||||0.203
82664138|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.114||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Emotional impact due to Dry eye - Week 16||||0.114
82664139|NCT05133180|165043598|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.112||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||Quality of life - Impact on work due to Dry Eye - Week 16||||0.112
82664140|NCT05133180|165043599|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.002||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Symptom bother module - Week 8||||0.002
82664141|NCT05133180|165043599|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.076||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||Symptom bother module - Week 16||||0.076
82664142|NCT05133180|165043600|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.16||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||IDEEL - Satisfaction with Treatment Effectiveness - Week 8||||0.160
82664143|NCT05133180|165043600|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.009||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||IDEEL - Treatment- Related Bother / Inconvenience - Week 8||||0.009
82664144|NCT05133180|165043600|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.076||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants|t-test, 2 sided|||IDEEL - Satisfaction with Treatment Effectiveness - Week 16||||0.076
82664145|NCT05133180|165043600|SUPERIORITY|Changes from baseline in each IDEEL modules scale score was analyzed by comparing the two treatment groups using a two-sample t-test or a Mann-Whitney-Wilcoxon (Wilson rank sum) test if normality assumption was not met.||||||0.128||||||p-value corresponds to two sample (independent group) t-test of the comparisons between Cenegermin and Vehicle in all participants.|t-test, 2 sided|||IDEEL - Treatment- Related Bother / Inconvenience - Week 16||||0.128
82664146|NCT01604941|165043602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.296|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.2960
82664147|NCT01604941|165043602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.04|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0400
82664148|NCT01604941|165043602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6303|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.6303
82664149|NCT01604941|165043603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0365|TWO_SIDED|||||P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.0365
82664150|NCT01604941|165043603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0019
82664151|NCT01604941|165043603|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1695|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.1695
82664152|NCT01604941|165043604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0394|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.0394
82664153|NCT01604941|165043604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0004|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0004
82664154|NCT01604941|165043604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0332|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.0332
82664155|NCT01604941|165043605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3202|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.3202
82664156|NCT01604941|165043605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4549|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.4549
82664157|NCT01604941|165043605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3291|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.3291
82664158|NCT01604941|165043606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6703|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 8 for 50 mg/kg/d dosing||||0.6703
82664159|NCT01604941|165043606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2618|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 8 for all participants with BID dosing||||0.2618
82664160|NCT01604941|165043606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7679|TWO_SIDED|||||The P-value is from Paired t-test for log-transformed data at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 16 for all participants with BID dosing||||0.7679
82664161|NCT01604941|165043607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1683|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for 50 mg/kg/d dosing||||0.1683
82664162|NCT01604941|165043607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0123|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 12 for all participants with BID dosing||||0.0123
82664163|NCT01604941|165043607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2334|TWO_SIDED|||||The P-value is from analysis of paired t-test at post treatment timepoint vs. Baseline.|paired t-test|||Analysis of Week 24 for all participants with BID dosing||||0.2334
82664164|NCT03325881|165043628|SUPERIORITY||Difference in LS Mean|-1.9|STANDARD_ERROR_OF_MEAN|2.48||0.451|TWO_SIDED|95.0|-6.8|3.1|||Mixed-effects model for repeated measure|||Number of participants with SHP465 was compared with placebo using the linear mixed-effects model for repeated measures (MMRM) that included treatment group, nominal visit, age group, interaction of the treatment group with the visits as factors, baseline ADHD-RS5 total score as a covariate and an adjustment for the interaction of the baseline ADHD-RS-5 Total Score with the visit.||3.1|-6.8|0.451
82664165|NCT03325881|165043629|SUPERIORITY||Difference in LS mean|-0.1|STANDARD_ERROR_OF_MEAN|0.2||0.597|TWO_SIDED|95.0|-0.5|0.3|||Mixed-effects model for repeated measure|||Number of participants with SHP465 was compared with placebo using the mixed effects model for repeated measures (MMRM) that includes treatment group, nominal visit, age group,interaction of the treatment group with the visit as factors, baseline CGI-S as a covariate and an adjustment for the interaction of the baseline CGI-S with the visit.||0.3|-0.5|0.597
82664166|NCT03676634|165043642|OTHER||single proportion|0.844|||||TWO_SIDED|95.0|0.672|0.947|||||Values listed in table are for Type A. Estimated Value for the Estimation Parameter for type B = 0.875. Lower limit = 0.710, upper limit = 0.965|Consider increase from baseline to post-dose values. Parameter is proportion achieving desired increase (≥ 3x or 4x increase in Type A and Type B NAC).|Proportion of participants achieving ≥ 3x or 4x increase in NAC values was calculated for both Type A and Type B. Primary endpoint was achieved if both Type A and Type B had proportion ≥50%.|.947|.672|
82664167|NCT00841542|165043714|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.19||||||90.0|94.2|102.34|||||Bioequivalence is established when 90% Confidence Interval falls withing 80 - 125|||102.34|94.20|
82664168|NCT00841542|165043715|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|98.86||||||90.0|93.38|104.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.66|93.38|
82664169|NCT00841542|165043716|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of Least Squares Means|99.22||||||90.0|93.87|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.88|93.87|
82664170|NCT04428307|165043731|SUPERIORITY||Risk Ratio (RR)|1.11|||||TWO_SIDED|95.0|0.61|2.02||||||||2.02|0.61|
82664171|NCT04428307|165043731|SUPERIORITY||Risk Ratio (RR)|0.92|||||TWO_SIDED|95.0|0.49|1.71||||||||1.71|0.49|
82664172|NCT04428307|165043732|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|0.83|1.8||||||||1.80|0.83|
82664173|NCT04428307|165043732|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.81|1.62||||||||1.62|0.81|
82664174|NCT04428307|165043733|SUPERIORITY||Risk Ratio (RR)|0.94|||||TWO_SIDED|95.0|0.8|1.09||||||||1.09|0.80|
82664175|NCT04428307|165043733|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.85|1.16||||||||1.16|0.85|
82664176|NCT04428307|165043734|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.75|1.73||||||||1.73|0.75|
82664177|NCT04428307|165043734|SUPERIORITY||Risk Ratio (RR)|1.15|||||TWO_SIDED|95.0|0.77|1.74||||||||1.74|0.77|
82664178|NCT04428307|165043735|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.95|1.11||||||||1.11|0.95|
82664179|NCT04428307|165043735|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.89|1.04||||||||1.04|0.89|
82664180|NCT01075282|165043736|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.6|-0.29||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||The study was designed with 90% power to detect non-inferiority of LY2189265 1.5 mg vs insulin glargine on HbA1c change from baseline at the 52-week primary endpoint with a margin of 0.4%, a standard deviation of 1.3%, and a 1-sided alpha of 0.025 assuming no true difference between treatments. This corresponds to 223 participants per arm, with an assumed drop-out rate of 20%.||-0.29|-0.60|<0.001
82664181|NCT01075282|165043736|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.13|||<|0.001|TWO_SIDED|95.0|-0.29|0.02||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||0.02|-0.29|<0.001
82664182|NCT01075282|165043736|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.45|||<|0.001|TWO_SIDED|95.0|-0.6|-0.29||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.29|-0.60|<0.001
82664183|NCT01075282|165043736|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.13||||0.05|TWO_SIDED|95.0|-0.29|0.02||P-value is adjusted for multiplicity, based on tree-gatekeeping strategy. To determine significance, p-value is compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||0.02|-0.29|0.05
82664184|NCT01075282|165043737|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.65|-0.37||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.37|-0.65|<0.001
82664185|NCT01075282|165043737|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.1||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.10|-0.38|<0.001
82664186|NCT01075282|165043737|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51|||<|0.001|TWO_SIDED|95.0|-0.65|-0.37||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.37|-0.65|<0.001
82664187|NCT01075282|165043737|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.24|||<|0.001|TWO_SIDED|95.0|-0.38|-0.1||Treatment comparison at 26 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.10|-0.38|<0.001
82664188|NCT01075282|165043737|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||-0.13|-0.50|<0.001
82664189|NCT01075282|165043737|NON_INFERIORITY_OR_EQUIVALENCE|Family-wise Type I error rate was controlled by applying gatekeeping strategy.|LS Mean Difference|-0.03|||<|0.001|TWO_SIDED|95.0|-0.21|0.15||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Non-inferiority analysis.||0.15|-0.21|<0.001
82664190|NCT01075282|165043737|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.31|||<|0.001|TWO_SIDED|95.0|-0.5|-0.13||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||-0.13|-0.50|<0.001
82664191|NCT01075282|165043737|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.378|TWO_SIDED|95.0|-0.21|0.15||Treatment comparison at 78 weeks. P-value is adjusted for multiplicity, based on tree-gatekeeping strategy, and compared to the family-wise 1-sided Type I error of 0.025. The confidence interval is not adjusted for multiplicity.|ANCOVA|||Superiority analysis.||0.15|-0.21|0.378
82664192|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.61|||<|0.001|TWO_SIDED|95.0|2.98|7.11||Treatment comparison at 26 weeks.|Regression, Logistic|||||7.11|2.98|<0.001
82664193|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.13|||<|0.001|TWO_SIDED|95.0|1.41|3.24||Treatment comparison at 26 weeks.|Regression, Logistic|||||3.24|1.41|<0.001
82664194|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.76|||<|0.001|TWO_SIDED|95.0|2.45|5.75||Treatment comparison at 52 weeks.|Regression, Logistic|||||5.75|2.45|<0.001
82664195|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.42||||0.098|TWO_SIDED|95.0|0.94|2.15||Treatment comparison at 52 weeks.|Regression, Logistic|||||2.15|0.94|0.098
82664196|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77|||<|0.001|TWO_SIDED|95.0|1.85|4.14||Treatment comparison at 78 weeks.|Regression, Logistic|||||4.14|1.85|<0.001
82664197|NCT01075282|165043738|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.22||||0.334|TWO_SIDED|95.0|0.82|1.82||Treatment comparison at 78 weeks.|Regression, Logistic|||||1.82|0.82|0.334
82664198|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.7|||<|0.001|TWO_SIDED|95.0|2.9|7.63||Treatment comparison at 26 weeks.|Regression, Logistic|||||7.63|2.90|<0.001
82664199|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.54|||<|0.001|TWO_SIDED|95.0|1.57|4.11||Treatment comparison at 26 weeks.|Regression, Logistic|||||4.11|1.57|<0.001
82664200|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.97|||<|0.001|TWO_SIDED|95.0|1.81|4.85||Treatment comparison at 52 weeks.|Regression, Logistic|||||4.85|1.81|<0.001
82664201|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.07||||0.004|TWO_SIDED|95.0|1.26|3.39||Treatment comparison at 52 weeks.|Regression, Logistic|||||3.39|1.26|0.004
82664202|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.27|||<|0.001|TWO_SIDED|95.0|1.44|3.57||Treatment comparison at 78 weeks.|Regression, Logistic|Treatment comparison at 78 weeks.||||3.57|1.44|<0.001
82664203|NCT01075282|165043739|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.53||||0.073|TWO_SIDED|95.0|0.96|2.42||Treatment comparison at 78 weeks.|Regression, Logistic|||||2.42|0.96|0.073
82664204|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.109||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.109
82664205|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.335||||||Treatment comparison at 26 weeks.|Mixed Models Analysis|||||||0.335
82664206|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.091||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.091
82664207|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.4||||||Treatment comparison at 52 weeks.|Mixed Models Analysis|||||||0.400
82664208|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.641||||||Treatment comparison at 78 weeks.|Mixed Models Analysis|||||||0.641
82664209|NCT01075282|165043740|SUPERIORITY_OR_OTHER|||||||0.055||||||Treatment comparison at 78 weeks.|Mixed Models Analysis|||||||0.055
82492808|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.53||||0.2493|TWO_SIDED|90.0|-1.11|6.18|||ANCOVA|||Change at Day 14 12 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||6.18|-1.11|0.2493
82664210|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|2.83|||<|0.001|TWO_SIDED|95.0|2.33|3.33||Treatment comparison at 26 weeks.|ANCOVA|||||3.33|2.33|<0.001
82664211|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|2.48|||<|0.001|TWO_SIDED|95.0|1.99|2.99||Treatment comparison at 26 weeks.|ANCOVA|||||2.99|1.99|<0.001
82664212|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|3.31|||<|0.001|TWO_SIDED|95.0|2.71|3.9||Treatment comparison at 52 weeks.|ANCOVA|||||3.90|2.71|<0.001
82664213|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|2.77|||<|0.001|TWO_SIDED|95.0|2.17|3.36||Treatment comparison at 52 weeks.|ANCOVA|||||3.36|2.17|<0.001
82664214|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|3.24|||<|0.001|TWO_SIDED|95.0|2.59|3.89||Treatment comparison at 78 weeks.|ANCOVA|||||3.89|2.59|<0.001
82664215|NCT01075282|165043743|SUPERIORITY_OR_OTHER||LS Mean Difference|2.82|||<|0.001|TWO_SIDED|95.0|2.17|3.46||Treatment comparison at 78 weeks.|ANCOVA|||||3.46|2.17|<0.001
82664216|NCT02679729|165043763|SUPERIORITY_OR_OTHER||Slope|0.625|||||TWO_SIDED|95.0|0.396|0.853||||||Statistical Analysis for Part A||0.853|0.396|
82664217|NCT02679729|165043764|SUPERIORITY_OR_OTHER||Slope|1.2|||||TWO_SIDED|95.0|0.905|1.49||||||Statistical Analysis for Part A||1.49|0.905|
82664218|NCT02679729|165043765|SUPERIORITY_OR_OTHER||Slope|1.55|||||TWO_SIDED|95.0|1.34|1.76||||||Statistical Analysis for Part A||1.76|1.34|
82664219|NCT01026402|165043779|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|50.0|||||||||||||50mg twice daily continuous dosing 20 evaluable patients|||||
82664220|NCT01026402|165043779|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|100.0|||||||||||||100mg once daily continuous dosing 16 evaluable patients|||||
82664221|NCT01026402|165043779|SUPERIORITY_OR_OTHER||Maximum Tolerated Dose|125.0|||||||||||||125mg twice daily intermittent dosing (2 days on, 5 days off) 29 evaluable patients|||||
82664222|NCT00906399|165043795|SUPERIORITY_OR_OTHER||Rate Ratio|0.725||||0.0114|TWO_SIDED|95.0|0.565|0.93|||Negative Binomial Regression|Based on negative binomial regression, with adjustment for baseline EDSS (\< 4 versus ≥ 4), baseline relapse rate, age (\< 40 versus ≥ 40 years).||||0.930|0.565|0.0114
82664223|NCT00906399|165043795|SUPERIORITY_OR_OTHER||Rate Ratio|0.644||||0.0007|TWO_SIDED|95.0|0.5|0.831|||Negative Binomial Regression|Based on negative binomial regression, with adjustment for baseline EDSS (\< 4 versus ≥ 4), baseline relapse rate, age (\< 40 versus ≥ 40).||||0.831|0.500|0.0007
82664224|NCT00906399|165043796|SUPERIORITY_OR_OTHER||Lesion Mean Ratio|0.72||||0.0008|TWO_SIDED|95.0|0.6|0.87|||Negative Binomial Regression|Lesion mean ratio (95% CI) and p-value based on negative binomial regression, adjusted for baseline number of T2 lesions.||||0.87|0.60|0.0008
82664225|NCT00906399|165043796|SUPERIORITY_OR_OTHER||Lesion Mean Ratio|0.33|||<|0.0001|TWO_SIDED|95.0|0.27|0.4|||Negative Binomial Regression|Lesion mean ratio (95% CI) and p-value based on negative binomial regression, adjusted for baseline number of T2 lesions.||||0.40|0.27|<0.0001
82664226|NCT00906399|165043797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74||||0.02|TWO_SIDED|95.0|0.57|0.95||Based on Cox proportion hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4), age (\<40 versus ≥ 40 years), baseline relapse rate, and baseline Gd enhancing lesions (presence versus absence).|Cox Proportion Hazards model|||||0.95|0.57|0.0200
82664227|NCT00906399|165043797|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.61||||0.0003|TWO_SIDED|95.0|0.47|0.8||Based on Cox proportion hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4), age (\<40 versus ≥ 40 years), baseline relapse rate, and baseline Gd enhancing lesions (presence versus absence).|Cox Proportion Hazards model|||||0.80|0.47|0.0003
82664228|NCT00906399|165043798|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.038|TWO_SIDED|95.0|0.4|0.97||Based on Cox Proportional Hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4) and age (\< 40 versus ≥ 40 years).|Cox Proportion Hazards model|||||0.97|0.40|0.0380
82664229|NCT00906399|165043798|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.62||||0.0383|TWO_SIDED|95.0|0.4|0.97||Based on Cox Proportional Hazards model, adjusted for baseline EDSS (\< 4 versus ≥ 4) and age (\< 40 versus ≥ 40 years).|Cox Proportion Hazards model|||||0.97|0.40|0.0383
82664230|NCT03488108|165043810|SUPERIORITY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||.009
82664231|NCT03488108|165043811|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||.90
82664232|NCT03488108|165043812|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||.003
82664233|NCT03488108|165043813|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||.005
82664234|NCT02615249|165043839|OTHER||Kappa statistic|0.28|||||TWO_SIDED|95.0|-0.01|0.58||||||Comparison between 0.12 mg/cm2 copper sulfate and copper sulfate 2% in petrolatum||0.58|-0.01|
82664235|NCT02615249|165043839|OTHER||Kappa statistic|0.45|||||TWO_SIDED|95.0|0.24|0.66||||||Comparison between 0.24 mg/cm2 manganese chloride and manganese chloride 2% in petrolatum||0.66|0.24|
82664236|NCT02615249|165043839|OTHER||Kappa statistic|0.23|||||TWO_SIDED|95.0|0.07|0.38|||||Kappa statistic is for 0.33 mg/cm2 tin chloride vs 1% tin chloride in petrolatum reference allergen|Comparison between 0.33 mg/cm2 tin chloride and tin chloride 1% in petrolatum||0.38|0.07|
82664237|NCT02615249|165043839|OTHER||Kappa statistic|0.4|||||TWO_SIDED|95.0|0.15|0.65|||||Kappa statistic is for 0.22 mg Ti/cm2 ammonium titanium oxide oxalate vs 19% ammonium titanium oxide oxalate in petrolatum reference allergen|Comparison between 0.22 mg Ti/cm2 ammonium titanium oxide oxalate and ammnium titanium oxide oxalate 19% in petrolatum||0.65|0.15|
82664238|NCT02615249|165043839|OTHER||Kappa statistic|0.52|||||TWO_SIDED|95.0|0.3|0.73|||||Kappa statistic is for 0.050 mg V/cm2 vanadium sulfate vs 1.5% vanadium sulfate in petrolatum reference allergen|Comparison between 0.050 mg/cm2 vanadium sulfate and vanadium sulfate 1.5% in petrolatum||0.73|0.30|
82664239|NCT02615249|165043839|OTHER||Kappa statistic|0.36|||||TWO_SIDED|95.0|0.07|0.38|||||Kappa statistic is for 0.24 mg/cm2 zinc chloride vs 2% zinc chloride in petrolatum reference allergen|Comparison betweenm 0.24 mg/cm2 zinc chloride and zinc chloride 2% in petrolatum||0.38|0.07|
82664240|NCT03703258|165043856|SUPERIORITY||Slope|0.14|STANDARD_ERROR_OF_MEAN|0.26||0.6|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.60
82664241|NCT03703258|165043856|SUPERIORITY||Cohen's D|0.36|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
82664242|NCT03703258|165043857|SUPERIORITY||Slope|-0.02|STANDARD_ERROR_OF_MEAN|0.27||0.94|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.94
82664243|NCT03703258|165043857|SUPERIORITY||Cohen's D|-0.01|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
82664244|NCT03703258|165043858|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.13||0.38|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.38
82664245|NCT03703258|165043858|SUPERIORITY||Cohen's D|-0.15|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
82664246|NCT03703258|165043859|SUPERIORITY||Slope|-0.28|STANDARD_ERROR_OF_MEAN|0.14||0.04|TWO_SIDED||||||Mixed Models Analysis||Condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|||||.04
82664247|NCT03703258|165043859|SUPERIORITY||Cohen's D|-0.7|||||TWO_SIDED||||||||Between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|||||
82664248|NCT03703258|165043860|SUPERIORITY||Slope|-1.23|STANDARD_ERROR_OF_MEAN|1.88||0.51|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.51
82664249|NCT03703258|165043860|SUPERIORITY||Slope|-0.9|STANDARD_ERROR_OF_MEAN|1.9||0.64|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.64
82664250|NCT03703258|165043860|SUPERIORITY||Cohen's D|-0.1|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
82664251|NCT03703258|165043860|SUPERIORITY||Cohen's D|0.02|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
82664252|NCT03703258|165043861|SUPERIORITY||Slope|0.64|STANDARD_ERROR_OF_MEAN|0.3||0.04|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.04
82664253|NCT03703258|165043861|SUPERIORITY||Slope|0.29|STANDARD_ERROR_OF_MEAN|0.3||0.34|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.34
82664254|NCT03703258|165043861|SUPERIORITY||Cohen's D|0.92|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Positive values favor intervention and negative values favor control.|Baseline to post-intervention only||||
82664255|NCT03703258|165043861|SUPERIORITY||Cohen's D|0.68|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Positive values favor intervention and negative values favor control.|Baseline to 3 months||||
82664256|NCT03703258|165043862|SUPERIORITY||Slope|-2.46|STANDARD_ERROR_OF_MEAN|1.63||0.13|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.13
82664257|NCT03703258|165043862|SUPERIORITY||Slope|-1.94|STANDARD_ERROR_OF_MEAN|1.64||0.24|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.24
82664258|NCT03703258|165043862|SUPERIORITY||Cohen's D|-0.41|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
82664259|NCT03703258|165043862|SUPERIORITY||Cohen's D|-0.23|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
82664260|NCT03703258|165043863|SUPERIORITY||Slope|-0.05|STANDARD_ERROR_OF_MEAN|0.25||0.85|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.85
82664261|NCT03703258|165043863|SUPERIORITY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.25||0.96|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.96
82664262|NCT03703258|165043863|SUPERIORITY||Cohen's D|-0.15|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
82664263|NCT03703258|165043863|SUPERIORITY||Cohen's D|0.003|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
82664264|NCT03703258|165043864|SUPERIORITY||Slope|-0.08|STANDARD_ERROR_OF_MEAN|0.26||0.75|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.75
82664265|NCT03703258|165043864|SUPERIORITY||Slope|-0.12|STANDARD_ERROR_OF_MEAN|0.27||0.64|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.64
82664266|NCT03703258|165043864|SUPERIORITY||Cohen's D|-0.12|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
82664267|NCT03703258|165043864|SUPERIORITY||Cohen's D|-0.16|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
82664268|NCT03703258|165043865|SUPERIORITY||Slope|0.06|STANDARD_ERROR_OF_MEAN|0.35||0.86|TWO_SIDED||||||Mixed Models Analysis||Post-intervention condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to post-intervention only||||.86
82664269|NCT03703258|165043865|SUPERIORITY||Slope|-0.22|STANDARD_ERROR_OF_MEAN|0.36||0.55|TWO_SIDED||||||Mixed Models Analysis||3 month condition x time interaction coefficient from mixed-effect model using negative binomial distribution. Intervention = 1 and control = 0.|Baseline to 3 months||||.55
82664270|NCT03703258|165043865|SUPERIORITY||Cohen's D|-0.04|||||TWO_SIDED||||||||Post-intervention between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to post-intervention only||||
82664271|NCT03703258|165043865|SUPERIORITY||Cohen's D|-0.39|||||TWO_SIDED||||||||3 month between-group Cohen's d; calculated as within-group d(intervention) - within group d(control). Standardized using the standard deviation of the change scores. Negative values favor intervention and positive values favor control.|Baseline to 3 months||||
82664272|NCT00849797|165043866|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|90.86||||||90.0|85.47|96.6|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||96.60|85.47|
82664273|NCT00849797|165043867|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.6||||||90.0|96.59|100.66|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.66|96.59|
82664274|NCT00849797|165043868|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.74||||||90.0|96.71|100.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||100.80|96.71|
82664275|NCT00849797|165043869|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.5||||||90.0|95.66|100.48|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||100.48|95.66|
82664276|NCT00849797|165043870|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.29||||||90.0|98.96|101.64|||||Results presented for informational purposes only, metabolite not subjected to bioequivalence criteria.|||101.64|98.96|
82664277|NCT00849797|165043871|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.08||||||90.0|98.91|101.27|||||Results presented for informational purposes only; metabolite not subjected to bioequivalence criteria.|||101.27|98.91|
82664278|NCT03442322|165043885|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.25||||0.492|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.492
82664279|NCT03442322|165043886|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.73||||0.765|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.765
82664280|NCT03442322|165043887|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|0.77||||0.808|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.808
82664281|NCT03442322|165043888|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|3.86||||0.108|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.108
82664282|NCT03442322|165043889|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|2.59||||0.411|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.411
82664283|NCT03442322|165043890|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.08||||0.981|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.981
82664284|NCT03442322|165043891|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|3.51||||0.02|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.020
82664285|NCT03442322|165043892|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.62||||0.299|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.299
82664286|NCT03442322|165043893|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.68||||0.389|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.389
82664287|NCT03442322|165043894|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.14||||0.389|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.389
82664288|NCT03442322|165043895|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-5.95||||0.043|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.043
82664289|NCT03442322|165043896|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.91||||0.279|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.279
82664290|NCT03442322|165043897|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|0.92||||0.728|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.728
82664291|NCT03442322|165043898|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-1.75||||0.49|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.490
82664292|NCT03442322|165043899|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|4.44||||0.232|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.232
82664293|NCT03442322|165043900|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.11||||0.708|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.708
82664294|NCT03442322|165043901|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.0||||0.775|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.775
82664295|NCT03442322|165043902|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|1.77||||0.584|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.584
82664296|NCT03442322|165043903|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-0.25||||0.898|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.898
82664297|NCT03442322|165043904|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.79||||0.217|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.217
82664298|NCT03442322|165043905|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-1.39||||0.56|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.560
82664299|NCT03442322|165043906|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.08||||0.277|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics and nursing home fixed effects.||||||0.277
82664300|NCT03442322|165043907|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-2.53||||0.4|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.400
82664301|NCT03442322|165043908|OTHER|Given that we found baseline differences in resident characteristics and outcomes, we implemented a difference-in-differences model for all outcomes.|Difference-in-Difference estimator|-3.18||||0.303|TWO_SIDED||||||Regression, Linear|All regressions controlled for resident characteristics, nursing home staffing, resident COVID cases, and nursing home fixed effects.||||||0.303
82664302|NCT01662960|165043927|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|2.2||||0.443|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.443
82664303|NCT01662960|165043928|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|0.4||||0.8|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.80
82664304|NCT01662960|165043929|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|-0.002||||0.93|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.93
82664305|NCT01662960|165043931|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|10.7||||0.28|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.28
82664306|NCT01662960|165043932|SUPERIORITY|Test for the superiority of Mirror therapy over Divider therapy.|Slope|-0.36||||0.86|TWO_SIDED|||||ANCOVA analysis with post-treatment score as the dependent variable, therapy type (Mirror therapy or Divider Therapy) as the independent variable, and pre-treatment score as the covariate. P-value reported is for the main effect of therapy type.|ANCOVA|||||||.86
82664307|NCT02727192|165043935|SUPERIORITY||Mean Difference (Net)|-0.6||||0.52|TWO_SIDED|95.0|-2.6|1.3||A two-sided significance level of 5% was considered to indicate statistical significance.|Regression, Linear|||||1.3|-2.6|0.520
82664308|NCT02727192|165043936|SUPERIORITY||Mean Difference (Net)|-0.9||||0.44|TWO_SIDED|95.0|-3.3|1.5|||Regression, Linear|||||1.5|-3.3|0.440
82664309|NCT02727192|165043937|SUPERIORITY||Mean Difference (Net)|-0.6||||0.41|TWO_SIDED|95.0|-2.1|0.9|||Regression, Linear|||||0.9|-2.1|0.410
82664310|NCT02727192|165043938|SUPERIORITY||Difference in Percentage of Participants|-9.3||||0.33|TWO_SIDED||||||Chi-squared|||||||0.33
82664311|NCT02727192|165043941|SUPERIORITY||Mean Difference (Net)|2.8||||0.058|TWO_SIDED|95.0|-0.1|5.8|||Regression, Linear|||Mental Component Summary score||5.8|-0.1|0.058
82664312|NCT02727192|165043941|SUPERIORITY||Mean Difference (Net)|-2.1||||0.16|TWO_SIDED|95.0|-5.1|0.8|||Regression, Linear|||Physical Component Summary score||0.8|-5.1|0.160
82664313|NCT02727192|165043942|SUPERIORITY||Mean Difference (Net)|-0.9||||0.11|TWO_SIDED|95.0|-2.0|0.2|||Regression, Linear|||||0.2|-2.0|0.110
82664314|NCT02727192|165043944|SUPERIORITY||Mean Difference (Net)|0.1||||0.85|TWO_SIDED|95.0|-0.5|0.6|||Regression, Linear|||||0.6|-0.5|0.850
82664315|NCT02727192|165043946|SUPERIORITY||Median Difference (Net)|0.3||||0.65|TWO_SIDED|95.0|-1.0|1.6|||Regression, Linear|||||1.6|-1.0|0.650
82664316|NCT02727192|165043947|SUPERIORITY||Mean Difference (Net)|2.6||||0.006|TWO_SIDED|95.0|0.8|4.5|||Regression, Linear|||||4.5|0.8|0.006
82664317|NCT02727192|165043948|SUPERIORITY||Median Difference (Net)|-31.4||||0.389|TWO_SIDED|95.0|-103.4|40.7|||Regression, Linear|||||40.7|-103.4|0.389
82664318|NCT02727192|165043951|SUPERIORITY||Mean Difference (Net)|0.1||||0.697|TWO_SIDED|95.0|-0.3|0.5|||Regression, Logistic|||||0.5|-0.3|0.697
82664319|NCT00506831|165044009|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||Null hypothesis is that the mRSS is not significantly different at month 6 compared with baseline. Paired t-test was used to compare the mean mRSS at month 6 compared with baseline.||||0.005
82664320|NCT01410227|165044021|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The null hypothesis of the rate of subjects with a treatment success of \<= 0.65 (H0: p \<= 0.65) versus an alternative hypothesis of \> 0.65 (HA: p \> 0.65) was tested at the 5% one-sided level of significance. The proportion of subjects with treatment success under the alternative hypothesis was expected to be approximately 0.90. If 20 subjects were treated, the study provided 86% power to reject the null hypothesis.|Clopper-Pearson|100.0|||||TWO_SIDED|90.0|84.7|100.0|||Clopper-Pearson|||||100|84.7|
82664321|NCT04188392|165044097|OTHER|Rate of subjects enrolled per month of recruitment; based on 6 subjects enrolled over 5.8 months of recruitment.|Rate (per month)|1.03|||||TWO_SIDED|95.0|0.38|2.25|||||Based on 6 subjects enrolled over 5.8 months of recruitment|Recruitment goal of 6 subjects total.||2.25|0.38|
82664322|NCT04188392|165044098|OTHER|Total participants = 6; completed protocol: yes = 6, no = 0|Point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate = 100% (95% C.I. 54%,100%)|Binary outcome (completed protocol yes vs. no); goal of 75% of subjects completing protocol|Point estimate of completion rate and 95% confidence interval|1|0.54|
82664323|NCT04188392|165044099|OTHER|paired t-test|Mean of the differences|21.7||||0.2873|TWO_SIDED|95.0|-27.4|70.8||A priori significance threshold of p\<0.05|t-test, 2 sided|t=1.2263, df=4||alternative hypothesis: true difference in means is not equal to 0||70.8|-27.4|0.2873
82664324|NCT04188392|165044100|OTHER|Total participants = 6; discontinued due to adverse effects: yes = 0, no =6|Point estimate, 95% confidence interval|0.0|||||TWO_SIDED|95.0|0.0|0.46|||||Discontinuation rates due to adverse effects: Point estimate 0% (95% C.I. 0%, 45.9%)|Binary outcome: Discontinued due to adverse effects yes vs. no||0.46|0|
82664325|NCT04188392|165044101|OTHER|Total participants = 6; completed sleep study 1: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for sleep study 1 = 100% (95% C.I. 54%, 100%)|Binary outcome: Completed sleep study 1 yes vs. no||1|0.54|
82664326|NCT04188392|165044101|OTHER|Total participants = 6; completed sleep study 2: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for sleep study 2 = 100% (95% C.I. 54%, 100%)|Binary outcome: completed sleep study 2 yes vs. no||1|0.54|
82664327|NCT04188392|165044101|OTHER|Total participants = 6; completed sleep study 3: yes = 5, no=1|point estimate|0.83|||||TWO_SIDED|95.0|0.36|0.996|||||Point estimate of completion rate for sleep study 3 = 83.3% (95% C.I. 36%, 99.6%)|Binary outcome: completed sleep study 3 yes vs. no||0.996|0.36|
82664328|NCT04188392|165044101|OTHER|Total participants = 6; at least 4 days of actigraphy data: yes = 6, no=0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of completion rate for at least 4 days of actigraphy pre-treatment = 100% (95% C.I. 54%, 100%).|Binary outcome: at least 4 days of actigraphy data pre-treatment yes vs. no||1|0.54|
82664329|NCT04188392|165044101|OTHER|Total participants = 6; at least 4 days of actigraphy post-treatment: yes = 6, no =0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of actigraphy post-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of actigraphy post-treatment yes vs. no||1|0.54|
82664330|NCT04188392|165044101|OTHER|Total participants = 6; at least 4 days of sleep diary pre-treatment: yes = 6, no = 0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of sleep diary pre-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of sleep diary pre-treatment yes vs. no||1|0.54|
82664331|NCT04188392|165044101|OTHER|Total participants = 6; at least 4 days of sleep diary post-treatment: yes = 6, no = 0|point estimate|1.0|||||TWO_SIDED|95.0|0.54|1.0|||||Point estimate of at least 4 days of sleep diary post-treatment = 100% (95% C.I. 54%, 100%)|Binary outcome: at least 4 days of sleep diary post-treatment yes vs. no||1|0.54|
82664332|NCT00608322|165044115|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.03||||0.37|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.37
82664333|NCT03060486|165044156|OTHER||Signed Rank Score Difference|-60.0|||<|0.0001|TWO_SIDED||||||Wilcoxon signed-rank test|||||||<.0001
82664334|NCT00835614|165044157|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|90.9||||||90.0|87.5|94.4|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||94.4|87.5|
82664335|NCT00835614|165044158|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.1||||||90.0|90.3|93.9|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||93.9|90.3|
82664336|NCT00835614|165044159|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|92.2||||||90.0|90.4|94.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||94|90.4|
82664337|NCT00829712|165044160|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.95||||||90.0|94.02|108.39|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.39|94.02|
82664338|NCT00829712|165044161|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.05||||||90.0|95.08|103.19|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.19|95.08|
82664339|NCT00829712|165044162|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.94||||||90.0|96.08|103.95|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.95|96.08|
82664340|NCT00606281|165044163|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.0|||<|0.001|TWO_SIDED|95.0|-9.4|-2.7|||ANCOVA|||||-2.7|-9.4|<0.001
82664341|NCT00606281|165044164|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7|||<|0.001||95.0|-1.1|-0.3|||ANCOVA|||||-0.3|-1.1|<0.001
82664342|NCT03131895|165044166|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90 percent (%) confidence intervals (CIs) on the original scale.|Least square (LS) mean ratio|1.0436||||0.5535|TWO_SIDED|90.0|0.9453|1.1521|||ANOVA|||||1.1521|0.9453|0.5535
82664343|NCT03131895|165044166|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0185||||0.892|TWO_SIDED|90.0|0.9334|1.1113|||ANOVA|||||1.1113|0.9334|0.8920
82664344|NCT03131895|165044167|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.039||||0.3209|TWO_SIDED|90.0|0.9792|1.1024|||ANOVA|||||1.1024|0.9792|0.3209
82664345|NCT03131895|165044167|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0353||||0.3896|TWO_SIDED|90.0|0.9719|1.1029|||ANOVA|||||1.1029|0.9719|0.3896
82664346|NCT03131895|165044168|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0335||||0.4163|TWO_SIDED|90.0|0.9733|1.0975|||ANOVA|||||1.0975|0.9733|0.4163
82664347|NCT03131895|165044168|EQUIVALENCE|A linear mixed effect model on the natural log-transformed parameters was performed with regimen, sequence and period as a fixed effect and subject nested within sequence as a random effect. The least squares means and difference of least squares means for the log-transformed parameters were exponentiated to obtain the point estimates and 90% CIs on the original scale.|LS mean ratio|1.0031||||0.9778|TWO_SIDED|90.0|0.9458|1.0638|||ANOVA|||||1.0638|0.9458|0.9778
82664348|NCT01339247|165044169|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0886|||||TWO_SIDED|90.0|1.0011|1.177|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.1770|1.0011|
82664349|NCT01339247|165044170|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0246|||||TWO_SIDED|90.0|0.9676|1.0849|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.0849|0.9676|
82664350|NCT01339247|165044171|NON_INFERIORITY_OR_EQUIVALENCE|This is a bioequivalence study. The study was performed to fulfill an official requirement of the Brazilian Regulatory Agency - ANVISA - upon a manufacturing site change.|Ratio T formulation/R formulation|1.0317|||||TWO_SIDED|90.0|0.9716|1.0956|||||The ratio between the geometric means of the test (T) and reference (R) formulations was calculated.|||1.0956|0.9716|
82664351|NCT02213263|165044192|EQUIVALENCE|Equivalence was tested within the pre-specified margins of (-16%, 16%) 95% confidence interval.|Difference in ORR|4.66|||||TWO_SIDED|95.0|-4.16|13.47||||||Difference in ORR between PF-05280586 and rituximab-EU was computed using the stratified Mantel-Haenszel method. The 95% confidence interval for the difference was calculated using the asymptotic stratified method proposed by Miettinen and Nurminen.||13.47|-4.16|
82664352|NCT02213263|165044198|SUPERIORITY||Hazard Ratio (HR)|1.163||||0.45|TWO_SIDED|95.0|0.786|1.72||A log-rank test stratified by follicular lymphoma international prognostic index 2 (FLIPI2) risk was used to compare the treatment groups with respect to TTF at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its confidence intervals (CIs) were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||1.720|0.786|0.450
82664353|NCT02213263|165044199|SUPERIORITY||Hazard Ratio (HR)|1.393||||0.189|TWO_SIDED|95.0|0.847|2.291|||Log Rank|A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to PFS at a 2-sided alpha level of 0.05.|Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||2.291|0.847|0.189
82664354|NCT02213263|165044200|SUPERIORITY||Mean Difference (Final Values)|-2.31|||||TWO_SIDED|95.0|-11.09|6.5||||||Difference in CR between PF-05280586 and rituximab-EU was computed using the stratified Mantel-Haenszel method. The 95% confidence interval for the difference was calculated using the asymptotic stratified method proposed by Miettinen and Nurminen.||6.50|-11.09|
82664355|NCT02213263|165044201|SUPERIORITY||Hazard Ratio (HR)|1.492||||0.185|TWO_SIDED|95.0|0.823|2.704||A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to DOR at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.|||2.704|0.823|0.185
82664356|NCT02213263|165044202|SUPERIORITY||Hazard Ratio (HR)|2.94||||0.319|TWO_SIDED|95.0|0.0||Due to smaller number of participants with an event, upper limit of 95% CI could not be calculated.|A log-rank test stratified by FLIPI2 risk was used to compare the treatment groups with respect to overall survival at a 2-sided alpha level of 0.05.|Log Rank||Hazard ratio and its CIs were estimated from Cox Proportional hazards model stratified by FLIPI2 risk categorization.||||0.000|0.319
82664357|NCT05143047|165044229|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82664358|NCT05143047|165044230|SUPERIORITY|||||||0.04|||||||t-test, 2 sided|||||||0.04
82664359|NCT05143047|165044231|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
82664360|NCT05143047|165044232|SUPERIORITY|||||||0.17|||||||Fisher Exact|||||||0.17
82664361|NCT05143047|165044233|SUPERIORITY|||||||0.03|||||||Fisher Exact|||||||0.03
82664362|NCT05143047|165044234|SUPERIORITY|||||||0.42|||||||Fisher Exact|||||||0.42
82664363|NCT05143047|165044235|SUPERIORITY|||||||0.04|||||||Fisher Exact|||||||0.04
82664364|NCT05143047|165044236|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||<0.001
82664365|NCT05143047|165044237|SUPERIORITY|||||||0.22|||||||Fisher Exact|||||||0.22
82664366|NCT00985439|165044289|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.407|STANDARD_ERROR_OF_MEAN|2.643|<|0.001|TWO_SIDED|95.0|6.195|16.619|||ANCOVA|||||16.619|6.195|<0.001
82664367|NCT01906372|165044319|SUPERIORITY_OR_OTHER||Frequency of achieving primary endpoint|0.7|||||TWO_SIDED|||||Open label single arm pilot trial without control group.||||||||
82664368|NCT01906372|165044320|SUPERIORITY_OR_OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82664369|NCT05143801|165044321|EQUIVALENCE|Main effect for environmental conditions.||||||0.003||||||Statistical significance was set at p \< 0.05.|2x2 repeated measures ANOVA|||||||0.003
82664370|NCT05143801|165044321|EQUIVALENCE|Main effect for mask condition.||||||0.933||||||Statistical significance was set at p \< 0.05.|2x2 repeated measures ANOVA|||||||0.933
82664371|NCT05143801|165044321|EQUIVALENCE|Interaction effect across environmental and mask conditions.|No Method of Estimation was used|||||0.344||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 repeated measures ANOVA|||||||0.344
82664372|NCT05143801|165044322|EQUIVALENCE|Main effect for environmental conditions.||||||0.117||||||Statistical significance was set at p \< 0.05.|2x2 Repeated Measures ANOVA|||A 2x2 repeated measures ANOVA was performed to investigate statistical differences for all variables across the four conditions. Both main and interaction effects were calculated along with effect size, reported as partial ⴄ2 as provided by the statistical software JASP (version 0.14.1.0).||||0.117
82664373|NCT05143801|165044322|EQUIVALENCE|Main effect for mask condition||||||0.832||||||Statistical significance was set at p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.832
82664374|NCT05143801|165044322|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.879||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.879
82664375|NCT05143801|165044323|EQUIVALENCE|Main effect for environmental condition.||||||0.749||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.749
82664376|NCT05143801|165044323|EQUIVALENCE|Main effect for mask condition.||||||0.311||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.311
82664377|NCT05143801|165044323|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.368||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.368
82664378|NCT05143801|165044324|EQUIVALENCE|Main effect for environmental condition.||||||0.789||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.789
82664379|NCT05143801|165044324|EQUIVALENCE|Main effect for mask condition.||||||0.739||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.739
82664380|NCT05143801|165044324|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.158||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.158
82664381|NCT05143801|165044325|EQUIVALENCE|Main effect for environmental condition.||||||0.394||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.394
82664382|NCT05143801|165044325|EQUIVALENCE|Main effect for mask condition||||||0.157||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.157
82664383|NCT05143801|165044325|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.015||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.015
82664384|NCT05143801|165044326|EQUIVALENCE|Main effect for environmental condition.||||||0.96||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.960
82664385|NCT05143801|165044326|EQUIVALENCE|Main effect for mask condition.||||||0.073||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.073
82664386|NCT05143801|165044326|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.503||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.503
82664387|NCT05143801|165044327|EQUIVALENCE|Main effect for environmental condition.||||||0.786||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.786
82664388|NCT05143801|165044327|EQUIVALENCE|Main effect for mask condition.||||||0.18||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.180
82664389|NCT05143801|165044327|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.239||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.239
82664390|NCT05143801|165044328|EQUIVALENCE|Main effect for environmental condition.||||||0.134||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.134
82664391|NCT05143801|165044328|EQUIVALENCE|Main effect for mask condition.||||||0.621||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.621
82664392|NCT05143801|165044328|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.553||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.553
82664393|NCT05143801|165044329|EQUIVALENCE|Main effect for environmental condition.||||||0.461||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.461
82664394|NCT05143801|165044329|EQUIVALENCE|Main effect for mask condition.||||||0.877||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.877
82664395|NCT05143801|165044329|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.919||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.919
82664396|NCT05143801|165044330|EQUIVALENCE|Main effect for environmental condition.||||||0.466||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.466
82664397|NCT05143801|165044330|EQUIVALENCE|Main effect for mask condition.||||||0.186||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.186
82664398|NCT05143801|165044330|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.08||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.080
82664399|NCT05143801|165044331|EQUIVALENCE|Main effect for environmental condition.||||||0.375||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.375
82664400|NCT05143801|165044331|EQUIVALENCE|Main effect for mask condition.||||||0.178||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.178
82664401|NCT05143801|165044331|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.533||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.533
82664402|NCT05143801|165044332|EQUIVALENCE|Main effect for environmental condition.||||||0.29||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.290
82664403|NCT05143801|165044332|EQUIVALENCE|Main effect for mask condition.||||||0.527||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.527
82664404|NCT05143801|165044332|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.045||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.045
82664405|NCT05143801|165044333|EQUIVALENCE|Main effect for environmental condition.||||||0.018||||||Statistical significance was set at p \< 0.05|2x2x3 Repeated Measures ANOVA|||||||0.018
82664406|NCT05143801|165044333|EQUIVALENCE|Main effect for mask condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2x3 Repeated Measures ANOVA|||||||<0.001
82664407|NCT05143801|165044333|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.035||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2x3 Repeated Measures ANOVA|||||||0.035
82664408|NCT05143801|165044334|EQUIVALENCE|Main effect for environmental condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||<0.001
82664409|NCT05143801|165044334|EQUIVALENCE|Main effect for mask condition.||||||0.678||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.678
82664410|NCT05143801|165044334|EQUIVALENCE|Interaction effect||||||0.678|||||||2x2 Repeated Measures ANOVA|||||||0.678
82664411|NCT05143801|165044335|EQUIVALENCE|Main effect for environmental condition.|||||<|0.001||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||<0.001
82664412|NCT05143801|165044335|EQUIVALENCE|Main effect for mask condition.||||||0.487||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.487
82664413|NCT05143801|165044335|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.79||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.790
82664414|NCT05143801|165044336|EQUIVALENCE|Main effect for environmental condition.||||||0.089||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.089
82664415|NCT05143801|165044336|EQUIVALENCE|Main effect for mask condition.||||||0.297||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.297
82664416|NCT05143801|165044336|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.111||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.111
82664417|NCT05143801|165044337|EQUIVALENCE|Main effect for environmental condition.||||||0.024||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.024
82664418|NCT05143801|165044337|EQUIVALENCE|Main effect for mask condition.||||||0.002||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.002
82664419|NCT05143801|165044337|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.014||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.014
82664420|NCT05143801|165044338|EQUIVALENCE|Main effect for environmental condition.||||||0.012||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.012
82664421|NCT05143801|165044338|EQUIVALENCE|Main effect for mask condition.||||||0.893||||||Statistical significance was set at p \< 0.05|2x2 Repeated Measures ANOVA|||||||0.893
82664422|NCT05143801|165044338|EQUIVALENCE|Interaction effect across environmental and mask conditions.||||||0.969||||||A Bonferroni post-hoc test was used if significant interaction effect was present and p-values were adjusted based on the number of comparisons. To determine if a post-hoc was needed statistical significance was set to p \< 0.05.|2x2 Repeated Measures ANOVA|||||||0.969
82492809|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99||||0.2801|TWO_SIDED|90.0|-7.59|1.6|||ANCOVA|||Change at Day 14 2 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||1.60|-7.59|0.2801
82664423|NCT00924638|165044339|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|6.4||||0.0006|TWO_SIDED|95.0|1.9|21.7|||Log Rank||A hazard ratio of \> 1 indicates that Continuous Monitoring is superior to Control in detecting AF.|||21.7|1.9|0.0006
82664424|NCT00924638|165044340|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|7.3|||<|0.0001|TWO_SIDED|95.0|2.6|20.8|||Log Rank||A hazard ratio of \> 1 indicates that Continuous Monitoring is superior to Control in detecting AF.|||20.8|2.6|<0.0001
82664425|NCT00924638|165044341|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.25|TWO_SIDED|95.0|0.35|1.32|||Log Rank||A hazard ratio of \< 1 indicates that the incidence rate of recurrent stroke or TIA is lower in the Continuous Monitoring arm compared to the Control arm.|||1.32|0.35|0.25
82664426|NCT00924638|165044342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.8|||||TWO_SIDED|95.0|2.8|14.8|||||A difference of greater than 0 means that a higher percentage of subjects in the Continuous Monitoring arm were using the OAC drugs at the 12 months visit compared to the Control arm.|||14.8|2.8|
82664427|NCT00924638|165044343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.3|3.1|||||A difference of greater than 0 means that a higher percentage of subjects in the Continuous Monitoring arm were using the anti-arrhythmic drugs at the 12 months visit compared to the Control arm.|||3.1|-2.3|
82664428|NCT00924638|165044344|SUPERIORITY_OR_OTHER|||||||0.11|||||||t-test, 2 sided|||||||0.11
82664429|NCT00924638|165044345|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.37||||0.33|TWO_SIDED|95.0|0.73|2.6|||Log Rank||A hazard ratio of \< 1 indicates that the incidence rate of cardiovascular or stroke/TIA related hospitalization is lower in the Continuous Monitoring arm compared to the Control arm.|||2.60|0.73|0.33
82664430|NCT00367133|165044347|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P values for two group comparisons for difference in mean change.||||0.02
82664431|NCT00367133|165044347|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P Values for 2 group comparisons of difference in mean change||||0.002
82664432|NCT00367133|165044347|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||ANCOVA|Repeated Measures Model. Adjusted for baseline visual acuity and prior photocoagulation; Accounted for correlated data from subjects with 2 study eyes||P Values for 2 group comparisons of difference in mean change||||0.49
82664433|NCT00367133|165044350|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.03
82664434|NCT00367133|165044350|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.01
82664435|NCT00367133|165044350|SUPERIORITY_OR_OTHER|||||||0.82||95.0|||||GEE Repeated Measures|Hochberg procedure used to determine statistical significance.||Proportion with 15-letter or more worsening||||0.82
82664436|NCT00367133|165044351|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P value not adjusted for multiple comparisons||||<0.001
82664437|NCT00367133|165044351|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for multiple comparisons||||<0.001
82664438|NCT00367133|165044351|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||ANCOVA|Repeated Measures Model. Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||0.91
82664439|NCT00367133|165044353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
82664440|NCT00367133|165044353|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
82664441|NCT00367133|165044353|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for multiple comparisons||||0.60
82664442|NCT00367133|165044354|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Values not adjusted for multiple comparisons||||<0.001
82664443|NCT00367133|165044354|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for statistical analysis||||<0.001
82664444|NCT00367133|165044354|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||GEE Repeated Measures|Accounted for correlated data from subjects with 2 study eyes; included baseline central subfield thickness as a covariate.||P Value not adjusted for statistical analysis||||0.55
82664445|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under control conditions is the same.||||<0.0001
82664446|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||=|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under fluconazole conditions is the same.||||=0.0001
82664447|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANOVA|||The null hypothesis is that the mean S-warfarin clearance among the five CYP2C9 genotypes under rifampin conditions is the same.||||<0.0001
82664448|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||=|0.3058|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under control conditions is the same.||||=0.3058
82664449|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||=|0.3278|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under fluconazole conditions is the same.||||=0.3278
82664450|NCT01447511|165044362|SUPERIORITY_OR_OTHER||||||=|0.6155|||||||ANOVA|||The null hypothesis is that the mean R-warfarin clearance among the five CYP2C9 genotypes under rifampin conditions is the same.||||=0.6155
82664451|NCT01252953|165044368|OTHER|Time to first event|Rate Ratio|0.91||||0.004|TWO_SIDED|95.0|0.85|0.97|||Log Rank|||||0.97|0.85|0.004
82664452|NCT01252953|165044369|OTHER|Time to first event|Rate Ratio|0.93||||0.052|TWO_SIDED|95.0|0.86|1.0|||Log Rank|||||1|0.86|0.052
82664453|NCT01252953|165044370|OTHER|Time to first event|Rate Ratio|0.99|||||TWO_SIDED|95.0|0.87|1.12||In accordance with the data analysis plan, if the outcome of a major atherosclerotic event did not reach significance, there was no hypothesis testing for presumed ischemic stroke, so no P value is given.||||||1.12|0.87|
82664454|NCT01252953|165044371|OTHER|Time to first event|Rate Ratio|0.93||||0.02|TWO_SIDED|95.0|0.88|0.99|||Log Rank|||||0.99|0.88|0.02
82664455|NCT02336074|165044372|SUPERIORITY|||||||0.26||||||Treatment arms were compared in terms of absolute total HIV DNA levels (on a log10-scale) at post-randomization weeks 16 and 18 adjusted for the baseline (i.e. randomization) level and by stratum.|Regression, Linear|||||||0.26
82664456|NCT02336074|165044374|SUPERIORITY||Odds Ratio (OR)|0.41||||0.145|TWO_SIDED||||||Regression, Logistic|||"Comparison of the proportion of patients with undetectable viral outgrowth using logistic regression.~The analysis was adjusted for stratum and baseline viral outgrowth. Missing baseline values were imputed."||||0.145
82664457|NCT00836758|165044379|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.007
82664458|NCT01665508|165044384|SUPERIORITY_OR_OTHER||||||<|0.05|||||||t-test, 2 sided|||Continuous variables were reported as the mean ± (SD) and categorical data presented as frequency and percentage of the sample. Comparisons between baseline and post-treatment SAQ scores, SF-36v2 scores, and CPET variables were performed using a paired t-test for normally distributed variables or a Wilcoxon signed-rank test for non-normally distributed variables. Normality was defined by the Shapiro-Wilk test. For categorical variables, data were compared using a chi-squared test.||||< 0.05
82664459|NCT02054715|165044388|OTHER||Mean Difference (MP - PE)|-0.1|STANDARD_ERROR_OF_MEAN|2.0||0.9621|TWO_SIDED|95.0|-4.1|3.9|||F-Test|||Two-sided F-Test as a statistical comparing MP and PE means.||3.9|-4.1|0.9621
82664460|NCT02054715|165044389|OTHER||Mean Difference (MP - PE)|0.18|STANDARD_ERROR_OF_MEAN|1.57||0.9065|TWO_SIDED|95.0|-2.89|3.26|||F-test|||Two-sided F-Test comparing the MP and PE means.||3.26|-2.89|0.9065
82664461|NCT02054715|165044390|OTHER||Mean Difference (MP - PE)|-0.05|STANDARD_ERROR_OF_MEAN|1.4||0.9709|TWO_SIDED|95.0|-2.79|2.69|||F-Test|||Two-sided F-Test comparing the MP and PE means.||2.69|-2.79|0.9709
82664462|NCT02054715|165044391|OTHER|||||||0.014|||||||Chi-squared|||Chi-square test between MP and PE. 69% of subjects that got the Multimedia Psychoeducation intervention chose to participate in a clinical trial, compared with 62% in the Print Education group||||0.014
82664463|NCT00858780|165044392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|7.17||||0.007|TWO_SIDED|95.0|1.72|29.82|||GEE Model|||Analysis was performed using a generalized estimating equations (GEE) model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||29.82|1.72|0.007
82664464|NCT00858780|165044392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.71||||0.362|TWO_SIDED|95.0|0.54|5.41|||GEE Model|||Analysis was performed using a GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||5.41|0.54|0.362
82664465|NCT00858780|165044392|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.2||||0.044|TWO_SIDED|95.0|1.04|16.99|||GEE Model|||Analysis was performed using a GEE model, using a logit link, a binomial distribution and an auto-regressive correlation structure, with treatment groups, visits, their interaction, and the stratification factor as factors in the model.||16.99|1.04|0.044
82664466|NCT00112437|165044446|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.5|||<=|0.001|TWO_SIDED|95.0|2.54|4.45||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||4.45|2.54|<=0.001
82664467|NCT00112437|165044446|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.78|||<=|0.001|TWO_SIDED|95.0|1.82|3.73||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||3.73|1.82|<=0.001
82664468|NCT00112437|165044446|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.63||||0.003|TWO_SIDED|95.0|0.68|2.59||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||2.59|0.68|0.003
82664469|NCT00112437|165044446|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.49||||0.343|TWO_SIDED|95.0|-1.44|0.46||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 12 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 12 months.||0.46|-1.44|0.343
82664470|NCT00112437|165044447|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.67|||<=|0.001|TWO_SIDED|95.0|4.32|7.02||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||7.02|4.32|<=0.001
82492810|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.19||||0.9288|TWO_SIDED|90.0|-3.77|3.39|||ANCOVA|||Change at Day 14 4 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.39|-3.77|0.9288
82664471|NCT00112437|165044447|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.45|||<=|0.001|TWO_SIDED|95.0|3.15|5.76||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||5.76|3.15|<=0.001
82664472|NCT00112437|165044447|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.39|||<=|0.001|TWO_SIDED|95.0|2.06|4.73||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||4.73|2.06|<=0.001
82664473|NCT00112437|165044447|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.84||||0.218||95.0|-2.19|0.51||Significance for the primary endpoint was achieved through stepdown trend-test, the highest dose group was removed and the test was repeated until lack of significance was observed.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The primary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on lumbar spine BMD compared to placebo over 24 months. The primary hypothesis states that odanacatib will increase lumbar spine BMD compared to placebo over 24 months.||0.51|-2.19|0.218
82664474|NCT00112437|165044448|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.49|||<=|0.001|TWO_SIDED|95.0|1.62|3.35||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||3.35|1.62|<=0.001
82664475|NCT00112437|165044448|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.06|||<=|0.001|TWO_SIDED|95.0|1.2|2.93||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||2.93|1.20|<=0.001
82664476|NCT00112437|165044448|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.67|||<=|0.001|TWO_SIDED|95.0|0.8|2.53||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||2.53|0.80|<=0.001
82664477|NCT00112437|165044448|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.75||||0.135|TWO_SIDED|95.0|-1.61|0.11||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 12 months.||0.11|-1.61|0.135
82664478|NCT00112437|165044449|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.66|||<=|0.001|TWO_SIDED|95.0|1.71|3.61||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||3.61|1.71|<=0.001
82664479|NCT00112437|165044449|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.89|||<=|0.001|TWO_SIDED|95.0|0.93|2.84||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||2.84|0.93|<=0.001
82664480|NCT00112437|165044449|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.87||||0.095|TWO_SIDED|95.0|-0.09|1.82||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||1.82|-0.09|0.095
82664481|NCT00112437|165044449|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.19|||||TWO_SIDED|95.0|-1.14|0.75|||ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 12 months.||0.75|-1.14|
82664482|NCT00112437|165044450|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.94|||<=|0.001|TWO_SIDED|95.0|1.64|4.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||4.24|1.64|<=0.001
82664483|NCT00112437|165044450|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.65|||<=|0.001|TWO_SIDED|95.0|1.35|3.94||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||3.94|1.35|<=0.001
82664484|NCT00112437|165044450|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.38|||<=|0.001|TWO_SIDED|95.0|1.08|3.69||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||3.69|1.08|<=0.001
82664485|NCT00112437|165044450|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.29||||0.731|TWO_SIDED|95.0|-1.58|1.0||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 12 months.||1.00|-1.58|0.731
82664486|NCT00112437|165044451|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.29||||0.112|TWO_SIDED|95.0|-0.77|1.35||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||1.35|-0.77|0.112
82664487|NCT00112437|165044451|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.09|||||TWO_SIDED|95.0|-1.13|0.95||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||0.95|-1.13|
82664488|NCT00112437|165044451|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.63|||||TWO_SIDED|95.0|-1.69|0.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||0.42|-1.69|
82664489|NCT00112437|165044451|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.47|||||TWO_SIDED|95.0|-2.53|-0.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total body BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase total body BMD compared to placebo over 12 months.||-0.42|-2.53|
82664490|NCT00112437|165044452|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.23|||<=|0.001|TWO_SIDED|95.0|0.22|2.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||2.24|0.22|<=0.001
82664491|NCT00112437|165044452|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|1.1||||0.005|TWO_SIDED|95.0|0.09|2.11||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||2.11|0.09|0.005
82664492|NCT00112437|165044452|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|0.27||||0.63|TWO_SIDED|95.0|-0.74|1.29||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||1.29|-0.74|0.630
82664493|NCT00112437|165044452|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.27|||||TWO_SIDED|95.0|-2.28|-0.27||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on distal forearm BMD compared to placebo over 12 months. The secondary hypothesis states that odanacatib will increase distal forearm BMD compared to placebo over 12 months.||-0.27|-2.28|
82664494|NCT00112437|165044453|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-57.86|||<=|0.001|TWO_SIDED|95.0|-72.33|-43.38||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-43.38|-72.33|<=0.001
82664495|NCT00112437|165044453|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-45.92|||<=|0.001|TWO_SIDED|95.0|-60.93|-30.91||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-30.91|-60.93|<=0.001
82664496|NCT00112437|165044453|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-31.84|||<=|0.001|TWO_SIDED|95.0|-48.11|-15.58||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||-15.58|-48.11|<=0.001
82664497|NCT00112437|165044453|SUPERIORITY_OR_OTHER||Difference in Least Square Means|11.17||||0.249|TWO_SIDED|95.0|-0.94|43.24||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 12 months.||43.24|-0.94|0.249
82664498|NCT00112437|165044454|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-56.33|||<=|0.001||95.0|-75.86|-36.81||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||-36.81|-75.86|<=0.001
82664499|NCT00112437|165044454|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-35.57|||<=|0.001||95.0|-56.63|-14.51||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Square Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||-14.51|-56.63|<=0.001
82664500|NCT00112437|165044454|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-21.66||||0.08||95.0|-44.54|1.23||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||1.23|-44.54|0.080
82664501|NCT00112437|165044454|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|19.7|||||TWO_SIDED|95.0|-8.48|47.88||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation from difference in log-fraction)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 12 months.||47.88|-8.48|
82664502|NCT00112437|165044455|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-18.28||||0.004|TWO_SIDED|95.0|-35.82|-0.74||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||-0.74|-35.82|0.004
82664503|NCT00112437|165044455|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.26||||0.344|TWO_SIDED|95.0|-19.9|17.39||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||17.39|-19.90|0.344
82664504|NCT00112437|165044455|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.33|||||TWO_SIDED|95.0|-20.55|17.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||17.89|-20.55|
82664505|NCT00112437|165044455|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|28.15|||||TWO_SIDED|95.0|5.84|50.46||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance|Difference in Least Squares Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 12 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-DPyr) over 12 months.||50.46|5.84|
82664506|NCT00112437|165044456|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-15.57|||<=|0.001|TWO_SIDED|95.0|-26.11|-5.04||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||-5.04|-26.11|<=0.001
82664507|NCT00112437|165044456|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.43||||0.645|TWO_SIDED|95.0|-6.02|16.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||16.89|-6.02|0.645
82664508|NCT00112437|165044456|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|11.73|||||TWO_SIDED|95.0|-0.47|23.92||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||23.92|-0.47|
82664509|NCT00112437|165044456|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|44.85|||||TWO_SIDED|95.0|30.55|59.16||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation from difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 12 months.||59.16|30.55|
82664510|NCT00112437|165044457|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-35.74|||<=|0.001|TWO_SIDED|95.0|-52.14|-19.33||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||-19.33|-52.14|<=0.001
82664511|NCT00112437|165044457|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.68||||0.161|TWO_SIDED|95.0|-20.58|17.23||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||17.23|-20.58|0.161
82664512|NCT00112437|165044457|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-1.58|||||TWO_SIDED|95.0|-20.99|17.82||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||17.82|-20.99|
82492811|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||0.6459|TWO_SIDED|90.0|-2.62|4.58|||ANCOVA|||Change at Day 14 6 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.58|-2.62|0.6459
82664513|NCT00112437|165044457|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|46.9|||||TWO_SIDED|95.0|22.35|71.44||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 12 months.||71.44|22.35|
82664514|NCT00112437|165044458|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.1|||<=|0.001|TWO_SIDED|95.0|2.77|5.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||5.42|2.77|<=0.001
82664515|NCT00112437|165044458|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|3.48|||<=|0.001|TWO_SIDED|95.0|2.2|4.77||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||4.77|2.20|<=0.001
82664516|NCT00112437|165044458|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.75|||<=|0.001|TWO_SIDED|95.0|1.43|4.07||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||4.07|1.43|<=0.001
82664517|NCT00112437|165044458|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.51||||0.536|TWO_SIDED|95.0|-1.84|0.83||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on total hip BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase total hip BMD compared to placebo over 24 months.||0.83|-1.84|0.536
82664518|NCT00112437|165044459|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.69|||<=|0.001|TWO_SIDED|95.0|3.25|6.12||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||6.12|3.25|<=0.001
82664519|NCT00112437|165044459|SUPERIORITY_OR_OTHER||Difference in Least Square Means|3.57|||<=|0.001|TWO_SIDED|95.0|2.18|4.97||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||4.97|2.18|<=0.001
82664520|NCT00112437|165044459|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|2.82|||<=|0.001|TWO_SIDED|95.0|1.39|4.25||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||4.25|1.39|<=0.001
82499460|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.0|STANDARD_ERROR_OF_MEAN|0.588||||90.0|-1.97|-0.03|||ANCOVA|||Extension Month 15; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.030|-1.970|
82664521|NCT00112437|165044459|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.41||||0.585|TWO_SIDED|95.0|-1.85|1.04||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on femoral neck BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase femoral neck BMD compared to placebo over 24 months.||1.04|-1.85|0.585
82664522|NCT00112437|165044460|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|5.09|||<=|0.001|TWO_SIDED|95.0|3.18|7.01||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||7.01|3.18|<=0.001
82664523|NCT00112437|165044460|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.56|||<=|0.001|TWO_SIDED|95.0|2.7|6.42||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||6.42|2.70|<=0.001
82664524|NCT00112437|165044460|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|4.43|||<=|0.001|TWO_SIDED|95.0|2.52|6.33||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||6.33|2.52|<=0.001
82664525|NCT00112437|165044460|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-0.04||||0.981|TWO_SIDED|95.0|-1.97|1.89||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on trochanter BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase trochanter BMD compared to placebo over 24 months.||1.89|-1.97|0.981
82664526|NCT00112437|165044461|SUPERIORITY_OR_OTHER||Difference in Least square means|1.73|||<=|0.001||95.0|0.46|3.01||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||3.01|0.46|<=0.001
82664527|NCT00112437|165044461|SUPERIORITY_OR_OTHER||Difference in Least square means|1.11||||0.028||95.0|-0.12|2.34||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||2.34|-0.12|0.028
82664528|NCT00112437|165044461|SUPERIORITY_OR_OTHER||Difference in Least square means|0.2||||0.804||95.0|-1.1|1.49||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||1.49|-1.10|0.804
82492812|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.06||||0.0527|TWO_SIDED|90.0|0.63|7.48|||ANCOVA|||Change at Day 14 8 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||7.48|0.63|0.0527
82664529|NCT00112437|165044461|SUPERIORITY_OR_OTHER||Difference in Least square means|-1.15|||||TWO_SIDED|95.0|-2.46|0.15||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Total Body BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Total Body BMD compared to placebo over 24 months.||0.15|-2.46|
82664530|NCT00112437|165044462|SUPERIORITY_OR_OTHER||Difference in Least square means|2.9|||<=|0.001|TWO_SIDED|95.0|1.34|4.46||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||4.46|1.34|<=0.001
82664531|NCT00112437|165044462|SUPERIORITY_OR_OTHER||Difference in Least square means|2.09|||<=|0.001||95.0|0.59|3.6||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||3.60|0.59|<=0.001
82664532|NCT00112437|165044462|SUPERIORITY_OR_OTHER||Difference in Least square means|1.53||||0.094||95.0|-0.01|3.07||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||3.07|-0.01|0.094
82664533|NCT00112437|165044462|SUPERIORITY_OR_OTHER||Difference in Least square means|-2.95||||||95.0|-4.5|-1.4||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor in the model, with 5% significance.||The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on Distal Forearm BMD compared to placebo over 24 months. The secondary hypothesis states that odanacatib will increase Distal Forearm BMD compared to placebo over 24 months.||-1.40|-4.50|
82664534|NCT00112437|165044463|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-47.21|||<=|0.001||95.0|-64.51|-29.9||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-29.90|-64.51|<=0.001
82664535|NCT00112437|165044463|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-33.67|||<=|0.001||95.0|-51.44|-15.91||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-15.91|-51.44|<=0.001
82664536|NCT00112437|165044463|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-35.94|||<=|0.001||95.0|-54.15|-17.74||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||-17.74|-54.15|<=0.001
82664537|NCT00112437|165044463|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|17.51||||0.101|TWO_SIDED|95.0|-6.78|41.8||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handle by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-NTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (u-NTx) over 24 months.||41.80|-6.78|0.101
82664538|NCT00112437|165044464|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-63.34|||<=|0.001||95.0|-88.32|-38.36||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||-38.36|-88.32|<=0.001
82664539|NCT00112437|165044464|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-39.29|||<=|0.001|TWO_SIDED|95.0|-65.4|-13.18||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||-13.18|-65.40|<=0.001
82664540|NCT00112437|165044464|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-23.98||||0.124|TWO_SIDED|95.0|-53.04|5.09||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure.|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||5.09|-53.04|0.124
82664541|NCT00112437|165044464|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|22.18|||||TWO_SIDED|95.0|-12.38|56.73|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (s-CTx) compared to placebo over 24 months. The secondary hypothesis states that odanacatib will decrease biochemical indices of bone resorption (s-CTx) over 24 months.||56.73|-12.38|
82664542|NCT00112437|165044465|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-16.71||||0.015||95.0|-36.03|2.61||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||2.61|-36.03|0.015
82664543|NCT00112437|165044465|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-8.51||||0.246||95.0|-27.31|10.29||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||10.29|-27.31|0.246
82664544|NCT00112437|165044465|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-1.79||||||95.0|-22.66|19.08|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||19.08|-22.66|
82664545|NCT00112437|165044465|SUPERIORITY_OR_OTHER||Difference in Least Square Means|21.74||||||95.0|-1.32|44.81|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline).|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone resorption (u-DPyr) compared to placebo over 24 months. The secondary hypothesis states that MK0822 will decrease biochemical indices of bone resorption (u-DPyr) over 24 months.||44.81|-1.32|
82664546|NCT00112437|165044466|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-16.64||||0.002||95.0|-28.84|-4.44||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||-4.44|-28.84|0.002
82664547|NCT00112437|165044466|SUPERIORITY_OR_OTHER||Difference in Least Square Means|7.24||||0.852||95.0|-5.73|20.21||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||20.21|-5.73|0.852
82664548|NCT00112437|165044466|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-0.39||||||95.0|-13.69|12.92|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||12.92|-13.69|
82664549|NCT00112437|165044466|SUPERIORITY_OR_OTHER||Difference in Least Square Means|36.79||||||95.0|21.19|52.38|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fractions from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-BSAP) compared to placebo over 24 months.||52.38|21.19|
82664550|NCT00112437|165044467|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|-21.49||||0.011|TWO_SIDED|95.0|-39.55|-3.43||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||-3.43|-39.55|0.011
82664551|NCT00112437|165044467|SUPERIORITY_OR_OTHER||Difference in Least square means|13.31||||0.618||95.0|-7.1|33.71||Significance for secondary endpoints was only declared if there was also significance for the primary endpoint. Multiplicity was addressed through a stepdown trend-test approach. Multiplicity for multiple endpoints was handled by a Hochberg procedure|ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least square means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of MK0822 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||33.71|-7.10|0.618
82664552|NCT00112437|165044467|SUPERIORITY_OR_OTHER||Difference in Least square means|7.77|||||TWO_SIDED|95.0|-13.46|29.01|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Squares Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||29.01|-13.46|
82664553|NCT00112437|165044467|SUPERIORITY_OR_OTHER||Difference in Least Square Means|49.23|||||TWO_SIDED|95.0|23.86|74.59|||ANCOVA|Stepwise linear trend test on ANCOVA model of log-fraction with treatment (scales 0, 1, 2, 3, 4) as covariate and center as factor, 5% significance.|Difference in Least Square Means (back-transformation of difference in log-fraction from baseline)|The secondary objective was to assess the effect of odanacatib 3 mg weekly, 10 mg weekly, 25 mg weekly, and 50 mg weekly on biochemical indices of bone formation (s-P1NP) compared to placebo over 24 months.||74.59|23.86|
82664554|NCT00112437|165044468|SUPERIORITY_OR_OTHER||Difference in Least Square Means|6.45|||||TWO_SIDED|95.0|3.38|9.53||||||In postmenopausal women with osteoporosis assess the time course of resolution of effect on lumbar spine BMD during the 12 month extension following 24 months of treatment with odanacatib once weekly. The primary objective was to assess the resolution of effect, on lumbar spine BMD, for the participants who received odanacatib 50 mg for 3 years compared to those who received odanacatib 50 mg in the 2nd year and switched to placebo for the 3rd year extension.||9.53|3.38|
82664555|NCT00112437|165044469|SUPERIORITY_OR_OTHER||Difference in Least Square Means|6.31|||||TWO_SIDED|95.0|3.44|9.17||||||||9.17|3.44|
82664556|NCT00112437|165044470|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.71|||||TWO_SIDED|95.0|-0.16|5.57||||||||5.57|-0.16|
82664557|NCT00112437|165044471|SUPERIORITY_OR_OTHER||Difference in Least Square Means|8.13|||||TWO_SIDED|95.0|3.8|12.46||||||||12.46|3.80|
82664558|NCT00112437|165044472|SUPERIORITY_OR_OTHER||Difference in Least Square Means|1.46|||||TWO_SIDED|95.0|-1.54|4.46||||||||4.46|-1.54|
82664559|NCT00112437|165044473|SUPERIORITY_OR_OTHER||Difference in Least Square Means|2.47|||||TWO_SIDED|95.0|-0.93|5.88||||||||5.88|-0.93|
82664560|NCT00112437|165044474|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-78.06|||||TWO_SIDED|95.0|-119.2|-36.92||||||||-36.92|-119.20|
82664561|NCT00112437|165044475|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-34.25|||||TWO_SIDED|95.0|-78.7|10.2||||||||10.20|-78.70|
82664562|NCT00112437|165044476|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-39.25|||||TWO_SIDED|95.0|-87.17|8.68||||||||8.68|-87.17|
82664563|NCT00112437|165044477|SUPERIORITY_OR_OTHER||Difference in Least Square Means|16.59|||||TWO_SIDED|95.0|-5.67|38.85||||||||38.85|-5.67|
82664564|NCT00112437|165044478|SUPERIORITY_OR_OTHER||Difference in Least Square Means|-5.43|||||TWO_SIDED|95.0|-42.04|31.18||||||||31.18|-42.04|
82664565|NCT00112437|165044479|SUPERIORITY_OR_OTHER||Difference in Least Square Means|49.1|||||TWO_SIDED|95.0|13.37|84.83||||||||84.83|13.37|
82664566|NCT00112437|165044480|SUPERIORITY_OR_OTHER||Difference in Least Squares Means|209.44|||||TWO_SIDED|95.0|127.14|291.73||||||||291.73|127.14|
82664567|NCT01935674|165044515|SUPERIORITY||Mean Difference (Net)|12.7||||0.003|TWO_SIDED|95.0|2.9|22.5||P-value from Wilcoxon rank-sum test; significance threshold set at α = 0.05. No adjustment for multiple comparisons.|Wilcoxon (Mann-Whitney)|Two-sided test; analysis based on intention-to-treat population.||Comparison of percentage change in fasting total cholesterol from baseline to week 12 between rosuvastatin and PI/r switch groups. Wilcoxon rank-sum test used. Study powered to detect a 15% difference with 80% power and α = 0.05. All participants included in intention-to-treat analysis.||22.5|2.9|0.003
82664568|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.814||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||4mg/day vs Placebo||||0.814
82664569|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.013||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||8 mg/day vs Placebo||||0.013
82664570|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.287||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||12 mg/day vs Placebo||||0.287
82664571|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.027||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||16 mg/day vs Placebo||||0.027
82664572|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.39||95.0||||P-values were estimated from Mixed Model Repeated Measures (MMRM).|Mixed Models Analysis|||24 mg/day vs Placebo||||0.390
82664573|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.844||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||4mg/day vs Placebo||||0.844
82664574|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||8 mg/day vs Placebo||||0.030
82664575|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.437||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||12 mg/day vs Placebo||||0.437
82664576|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||16 mg/day vs Placebo||||0.034
82664577|NCT01494532|165044523|SUPERIORITY_OR_OTHER|||||||0.808||95.0||||P-values are from a nonparametric rank ANCOVA|ANCOVA|||24 mg/day vs Placebo||||0.808
82664578|NCT01494532|165044524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.123||||0.826|TWO_SIDED|95.0|0.398|3.166|||Generalized Estimating Equations model|||||3.166|0.398|0.826
82664579|NCT01494532|165044524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.622||||0.233|TWO_SIDED|95.0|0.732|3.593|||Generalized Estimating Equations model|||||3.593|0.732|0.233
82664580|NCT01494532|165044524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.953||||0.902|TWO_SIDED|95.0|0.439|2.065|||Generalized Estimating Equations model|||||2.065|0.439|0.902
82664581|NCT01494532|165044524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.866||||0.127|TWO_SIDED|95.0|0.837|4.158|||Generalized Estimating Equations model|||||4.158|0.837|0.127
82664582|NCT01494532|165044524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.362||||0.564|TWO_SIDED|95.0|0.477|3.888|||Generalized Estimating Equations model|||||3.888|0.477|0.564
82664583|NCT01494532|165044525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.908||||0.861|TWO_SIDED|95.0|0.31|2.659|||Generalized Estimating Equations model|||||2.659|0.310|0.861
82664584|NCT01494532|165044525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.608||||0.277|TWO_SIDED|95.0|0.684|3.782|||Generalized Estimating Equations model|||||3.782|0.684|0.277
82664585|NCT01494532|165044525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.074||||0.869|TWO_SIDED|95.0|0.461|2.5|||Generalized Estimating Equations model|||||2.500|0.461|0.869
82664586|NCT01494532|165044525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.916||||0.14|TWO_SIDED|95.0|0.808|4.545|||Generalized Estimating Equations model|||||4.545|0.808|0.140
82664587|NCT01494532|165044525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.689||||0.362|TWO_SIDED|95.0|0.547|5.218|||Generalized Estimating Equations model|||||5.218|0.547|0.362
82664588|NCT01494532|165044526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.723||||0.525|TWO_SIDED|95.0|0.266|1.965|||Generalized Estimating Equations model|||||1.965|0.266|0.525
82664589|NCT01494532|165044526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.851||||0.13|TWO_SIDED|95.0|0.834|4.109|||Generalized Estimating Equations model|||||4.109|0.834|0.130
82664590|NCT01494532|165044526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.996||||0.992|TWO_SIDED|95.0|0.444|2.232|||Generalized Estimating Equations model|||||2.232|0.444|0.992
82664591|NCT01494532|165044526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.48||||0.329|TWO_SIDED|95.0|0.674|3.248|||Generalized Estimating Equations model|||||3.248|0.674|0.329
82664592|NCT01494532|165044526|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.907||||0.856|TWO_SIDED|95.0|0.315|2.61|||Generalized Estimating Equations model|||||2.610|0.315|0.856
82664593|NCT01494532|165044528|SUPERIORITY_OR_OTHER|||||||0.376|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.376
82664594|NCT01494532|165044528|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.036
82664595|NCT01494532|165044528|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.362
82664596|NCT01494532|165044528|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.089
82664597|NCT01494532|165044528|SUPERIORITY_OR_OTHER|||||||0.403|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.403
82664598|NCT01494532|165044529|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.419
82664599|NCT01494532|165044529|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
82664600|NCT01494532|165044529|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0|||||Mixed Models Analysis|||||||0.230
82664601|NCT01494532|165044529|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.033
82664602|NCT01494532|165044529|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.266
82664603|NCT01494532|165044530|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.073
82664604|NCT01494532|165044530|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.996
82664605|NCT01494532|165044530|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.791
82664606|NCT01494532|165044530|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.747
82664607|NCT01494532|165044530|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.600
82664608|NCT01494532|165044531|SUPERIORITY_OR_OTHER|||||||0.998|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.998
82664609|NCT01494532|165044531|SUPERIORITY_OR_OTHER|||||||0.017|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.017
82664610|NCT01494532|165044531|SUPERIORITY_OR_OTHER|||||||0.312|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.312
82664611|NCT01494532|165044531|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.008
82664612|NCT01494532|165044531|SUPERIORITY_OR_OTHER|||||||0.659|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.659
82664613|NCT01494532|165044532|SUPERIORITY_OR_OTHER|||||||0.337|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.337
82664614|NCT01494532|165044532|SUPERIORITY_OR_OTHER|||||||0.126|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.126
82664615|NCT01494532|165044532|SUPERIORITY_OR_OTHER|||||||0.283|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.283
82664616|NCT01494532|165044532|SUPERIORITY_OR_OTHER|||||||0.148|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.148
82664617|NCT01494532|165044532|SUPERIORITY_OR_OTHER|||||||0.581|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.581
82664618|NCT01494532|165044533|SUPERIORITY_OR_OTHER|||||||0.486|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.486
82664619|NCT01494532|165044533|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
82664620|NCT01494532|165044533|SUPERIORITY_OR_OTHER|||||||0.121|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.121
82664621|NCT01494532|165044533|SUPERIORITY_OR_OTHER|||||||0.081|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.081
82664622|NCT01494532|165044533|SUPERIORITY_OR_OTHER|||||||0.187|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.187
82664623|NCT01494532|165044534|SUPERIORITY_OR_OTHER|||||||0.134|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.134
82664624|NCT01494532|165044534|SUPERIORITY_OR_OTHER|||||||0.768|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.768
82664625|NCT01494532|165044534|SUPERIORITY_OR_OTHER|||||||0.859|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.859
82664626|NCT01494532|165044534|SUPERIORITY_OR_OTHER|||||||0.903|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.903
82664627|NCT01494532|165044534|SUPERIORITY_OR_OTHER|||||||0.47|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.470
82664628|NCT01494532|165044535|SUPERIORITY_OR_OTHER|||||||0.822|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.822
82664629|NCT01494532|165044535|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.025
82664630|NCT01494532|165044535|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.267
82664631|NCT01494532|165044535|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
82664632|NCT01494532|165044535|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.458
82664633|NCT01494532|165044536|SUPERIORITY_OR_OTHER|||||||0.734|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.734
82664634|NCT01494532|165044536|SUPERIORITY_OR_OTHER|||||||0.048|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.048
82664635|NCT01494532|165044536|SUPERIORITY_OR_OTHER|||||||0.443|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.443
82664636|NCT01494532|165044536|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.123
82664637|NCT01494532|165044536|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.641
82664638|NCT01494532|165044537|SUPERIORITY_OR_OTHER|||||||0.822|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.822
82664639|NCT01494532|165044537|SUPERIORITY_OR_OTHER|||||||0.025|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.025
82664640|NCT01494532|165044537|SUPERIORITY_OR_OTHER|||||||0.267|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.267
82664641|NCT01494532|165044537|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
82664642|NCT01494532|165044537|SUPERIORITY_OR_OTHER|||||||0.458|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.458
82664643|NCT01494532|165044538|SUPERIORITY_OR_OTHER|||||||0.814|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.814
82664644|NCT01494532|165044538|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.013
82664645|NCT01494532|165044538|SUPERIORITY_OR_OTHER|||||||0.287|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.287
82664646|NCT01494532|165044538|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.027
82664647|NCT01494532|165044538|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.390
82664648|NCT01494532|165044539|SUPERIORITY_OR_OTHER|||||||0.376|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.376
82664649|NCT01494532|165044539|SUPERIORITY_OR_OTHER|||||||0.036|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.036
82664650|NCT01494532|165044539|SUPERIORITY_OR_OTHER|||||||0.362|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.362
82664651|NCT01494532|165044539|SUPERIORITY_OR_OTHER|||||||0.089|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.089
82664652|NCT01494532|165044539|SUPERIORITY_OR_OTHER|||||||0.403|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.403
82664653|NCT01494532|165044540|SUPERIORITY_OR_OTHER|||||||0.419|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.419
82664654|NCT01494532|165044540|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.026
82664655|NCT01494532|165044540|SUPERIORITY_OR_OTHER|||||||0.23|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.230
82664656|NCT01494532|165044540|SUPERIORITY_OR_OTHER|||||||0.033|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.033
82664657|NCT01494532|165044540|SUPERIORITY_OR_OTHER|||||||0.266|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.266
82664658|NCT01494532|165044541|SUPERIORITY_OR_OTHER|||||||0.073|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.073
82664659|NCT01494532|165044541|SUPERIORITY_OR_OTHER|||||||0.996|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.996
82664660|NCT01494532|165044541|SUPERIORITY_OR_OTHER|||||||0.791|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.791
82664661|NCT01494532|165044541|SUPERIORITY_OR_OTHER|||||||0.747|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.747
82664662|NCT01494532|165044541|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.600
82664663|NCT01494532|165044542|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.007
82664664|NCT01494532|165044542|SUPERIORITY_OR_OTHER|||||||0.014|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.014
82664665|NCT01494532|165044542|SUPERIORITY_OR_OTHER|||||||0.016|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.016
82664666|NCT01494532|165044542|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.005
82664667|NCT01494532|165044542|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.008
82664668|NCT01494532|165044543|SUPERIORITY_OR_OTHER|||||||0.047|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.047
82664669|NCT01494532|165044543|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.005
82664670|NCT01494532|165044543|SUPERIORITY_OR_OTHER|||||||0.172|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.172
82664671|NCT01494532|165044543|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.034
82664672|NCT01494532|165044543|SUPERIORITY_OR_OTHER|||||||0.039|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.039
82664673|NCT01494532|165044544|SUPERIORITY_OR_OTHER|||||||0.292|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.292
82664674|NCT01494532|165044544|SUPERIORITY_OR_OTHER|||||||0.068|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.068
82664675|NCT01494532|165044544|SUPERIORITY_OR_OTHER|||||||0.17|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.170
82664676|NCT01494532|165044544|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.003
82664677|NCT01494532|165044544|SUPERIORITY_OR_OTHER|||||||0.153|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.153
82664678|NCT01494532|165044545|SUPERIORITY_OR_OTHER|||||||0.409|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.409
82664679|NCT01494532|165044545|SUPERIORITY_OR_OTHER|||||||0.598|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.598
82664680|NCT01494532|165044545|SUPERIORITY_OR_OTHER|||||||0.992|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.992
82664681|NCT01494532|165044545|SUPERIORITY_OR_OTHER|||||||0.169|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.169
82664682|NCT01494532|165044545|SUPERIORITY_OR_OTHER|||||||0.348|TWO_SIDED|95.0||||Mixed Model Repeated Measures|Mixed Models Analysis|||||||0.348
82664683|NCT03247686|165044547|SUPERIORITY|||||||4.96e-05|||||||t-test, 2 sided|||Module M1.2 Placebo versus RSLV-132 All||||0.0000496
82664684|NCT03247686|165044547|SUPERIORITY|||||||1.03e-05|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 All||||0.0000103
82664685|NCT03247686|165044547|SUPERIORITY|||||||0.0004398|||||||t-test, 2 sided|||Module M5.12 Placebo versus RSLV-132 All||||0.0004398
82664686|NCT03247686|165044547|SUPERIORITY|||||||6.8e-06|||||||t-test, 2 sided|||Module 1.2 Placebo versus RSLV-132 Responders||||0.0000068
82664687|NCT03247686|165044547|SUPERIORITY|||||||2e-07|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 Responders||||0.0000002
82664688|NCT03247686|165044547|SUPERIORITY|||||||9.26e-05|||||||t-test, 2 sided|||Module 5.12 Placebo versus RSLV-132 Responders||||0.0000926
82664689|NCT03247686|165044547|SUPERIORITY|||||||0.001545|||||||t-test, 2 sided|||Module M1.2 Placebo versus RSLV-132 Non-responders||||0.0015450
82664690|NCT03247686|165044547|SUPERIORITY|||||||0.0004632|||||||t-test, 2 sided|||Module M3.4 Placebo versus RSLV-132 Non-responders||||0.0004632
82664691|NCT03247686|165044547|SUPERIORITY|||||||0.009696|||||||t-test, 2 sided|||Module M5.12||||0.0096960
82664692|NCT03247686|165044548|EQUIVALENCE|Two sample t-test with Satterthwaite approximation|Mean Difference (Final Values)|-2.5||||0.18|TWO_SIDED|95.0|-6.34|1.34|||t-test, 2 sided|||Mean difference in change from baseline (95% CI)||1.34|-6.34|0.180
82664693|NCT01541215|165044550|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: change from baseline to week 26 in HbA1c~Superiority of liraglutide over placebo was to be concluded if the 95% confidence interval for the treatment difference for change from baseline in HbA1c (%) after 26 weeks of randomised treatment was entirely below 0%, implying that the two sided p-value was less than 5%."|Treatment difference|-1.058|STANDARD_ERROR_OF_MEAN|0.304|<|0.001|TWO_SIDED|95.0|-1.653|-0.464|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for week 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||-0.464|-1.653|<0.001
82664694|NCT01541215|165044551|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Change from baseline in FPG after 26 weeks of treatment"|Treatment difference|-1.878|STANDARD_ERROR_OF_MEAN|0.62||0.002|TWO_SIDED|95.0|-3.093|-0.662|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for weeks 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||-0.662|-3.093|0.002
82664695|NCT01541215|165044552|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: HbA1c \< 7.0% after 26 weeks of treatment"|Treatment odds ratio|5.353|||<|0.001|TWO_SIDED|95.0|2.105|13.615|||logistic regression model|||Missing data was imputed using pattern mixture model. For each imputed data set the binary response was analysed in a logistic regression model using a logit link with treatment and stratification group (gender\*age group) as fixed factors and baseline HbA1c as covariate.The estimated treatment effects and confidence intervals were combined using Rubin´s formula.||13.615|2.105|<0.001
82664696|NCT01541215|165044553|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: Change from baseline in BMI SDS after 26 weeks of treatment"|Treatment difference|-0.047|STANDARD_ERROR_OF_MEAN|0.055||0.392|TWO_SIDED|95.0|-0.153|0.06|||Pattern Mixture Model|||Analysis using a pattern mixture model of observed data with missing observations imputed from the placebo arm based on multiple (x10.000) imputations. The data for weeks 26 were then analysed with an ANCOVA model containing treatment, sex and age group as fixed effects and baseline value as covariate. The estimated treatment differences and confidence intervals were combined using Rubins formula.||0.060|-0.153|0.392
82664697|NCT01127087|165044654|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||t-test, 2 sided|||Comparison of Urinary oxalate before and at the end of 4 weeks on Oxazyme in the RYGB Calcium oxalate (CaOx) Stone Formers arm.||||0.027
82664698|NCT01127087|165044654|SUPERIORITY_OR_OTHER|||||||0.14||95.0|||||t-test, 2 sided|||Comparison of Urinary oxalate before and at the end of 4 weeks on Oxazyme in the Idiopathic Hyperoxaluria CaOx Stone Formers arm.||||0.14
82664699|NCT01127087|165044655|SUPERIORITY_OR_OTHER|||||||0.018||95.0|||||t-test, 2 sided|||Comparison of Oxalate before and at the end of 4 weeks on Oxazyme in the RYGB CaOx Stone Formers arm.||||0.018
82664700|NCT01127087|165044655|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||t-test, 2 sided|||Comparison of Oxalate before and at the end of 4 weeks on Oxazyme in the Idiopathic Hyperoxaluria CaOx Stone Formers arm.||||0.06
82664701|NCT00828321|165044685|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|94.16||||||90.0|85.08|104.21|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||104.21|85.08|
82664702|NCT00828321|165044686|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.22||||||90.0|96.21|108.6|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.6|96.21|
82664703|NCT00828321|165044687|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|102.22||||||90.0|96.34|108.58|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||108.58|96.34|
82664704|NCT00828321|165044688|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.52||||||90.0|92.63|104.79|||||This analysis was for informational purposes and was not used to establish bioequivalence.|||104.79|92.63|
82664705|NCT00828321|165044689|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.45||||||90.0|94.66|100.32|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.32|94.66|
82664706|NCT02997176|165044690|OTHER|Bioequivalence|Percent Ratio of Geometric Means|142.19|||||TWO_SIDED|90.0|79.92|252.98||||||AUC0-24 was natural log-transformed and analyzed using an analysis of variance (ANOVA) model with hepatic function group as a fixed effect.||252.98|79.92|
82664707|NCT02997176|165044690|OTHER|Bioequivalence|Percent Ratio of Geometric Means|110.54|||||TWO_SIDED|90.0|54.58|223.85||||||AUC0-24 was natural log-transformed and analyzed using an analysis of variance (ANOVA) model with hepatic function group as a fixed effect.||223.85|54.58|
82664708|NCT02997176|165044691|OTHER|Bioequivalence|Percent Ratio of Geometric Means|109.76|||||TWO_SIDED|90.0|70.93|169.84||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||169.84|70.93|
82664709|NCT02997176|165044691|OTHER|Bioequivalence|Percent Ratio of Geometric Means|131.67|||||TWO_SIDED|90.0|77.14|224.74||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||224.74|77.14|
82664710|NCT02997176|165044692|OTHER|Bioequivalence|Percent Ratio of Geometric Means|149.39|||||TWO_SIDED|90.0|91.49|243.93||||||AUC0-24u was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||243.93|91.49|
82664711|NCT02997176|165044692|OTHER|Bioequivalence|Percent Ratio of Geometric Means|111.04|||||TWO_SIDED|90.0|60.91|202.43||||||AUC0-24u was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||202.43|60.91|
82664712|NCT02997176|165044693|OTHER|Bioequivalence|Percent Ratio of Geometric Means|115.32|||||TWO_SIDED|90.0|77.95|170.6||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||170.6|77.95|
82664713|NCT02997176|165044693|OTHER|Bioequivalence|Percent Ratio of Geometric Means|132.26|||||TWO_SIDED|90.0|81.87|213.67||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||213.67|81.87|
82664714|NCT02997176|165044694|OTHER|Bioequivalence|Percent Ratio of Geometric Means|124.4|||||TWO_SIDED|90.0|85.19|181.66||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||181.66|85.19|
82664715|NCT02997176|165044694|OTHER|Bioequivalence|Percent Ratio of Geometric Means|113.42|||||TWO_SIDED|90.0|73.9|174.07||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||174.07|73.90|
82664716|NCT02997176|165044694|OTHER|Bioequivalence|Percent Ratio of Geometric Means|95.68|||||TWO_SIDED|90.0|67.9|134.83||||||AUC0-24 was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||134.83|67.90|
82664717|NCT02997176|165044695|OTHER|Bioequivalence|Percent Ratio of Geometric Means|99.31|||||TWO_SIDED|90.0|57.74|170.8||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||170.80|57.74|
82664718|NCT02997176|165044695|OTHER|Bioequivalence|Percent Ratio of Geometric Means|96.45|||||TWO_SIDED|90.0|52.22|178.14||||||Cmax was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||178.14|52.22|
82664719|NCT02997176|165044695|OTHER|Bioequivalence|Percent Ratio of Geometric Means|64.05|||||TWO_SIDED|90.0|39.65|103.46||||||Cmax was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||103.46|39.65|
82664720|NCT02997176|165044698|OTHER|Bioequivalence|Percent Ratio of Geometric Means|118.47|||||TWO_SIDED|90.0|83.81|167.47||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||167.47|83.81|
82664721|NCT02997176|165044698|OTHER|Bioequivalence|Percent Ratio of Geometric Means|108.36|||||TWO_SIDED|90.0|73.25|160.3||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||160.30|73.25|
82664722|NCT02997176|165044698|OTHER|Bioequivalence|Percent Ratio of Geometric Means|117.84|||||TWO_SIDED|90.0|85.29|162.83||||||AUC0-24u was natural log-transformed and analyzed using ANOVA model with hepatic function group as a fixed effect.||162.83|85.29|
82664723|NCT02997176|165044699|OTHER|Bioequivalence|Percent Ratio of Geometric Means|94.58|||||TWO_SIDED|90.0|56.74|157.64||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||157.64|56.74|
82664724|NCT02997176|165044699|OTHER|Bioequivalence|Percent Ratio of Geometric Means|92.15|||||TWO_SIDED|90.0|51.69|164.26||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||164.26|51.69|
82664725|NCT02997176|165044699|OTHER|Bioequivalence|Percent Ratio of Geometric Means|84.42|||||TWO_SIDED|90.0|53.14|134.1||||||Cmaxu was natural log-transformed and analyzed using an ANOVA model with hepatic function group as a fixed effect.||134.10|53.14|
82664726|NCT01630616|165044737|SUPERIORITY_OR_OTHER||Ratio (Adolescents/adults)|0.89|||||TWO_SIDED|90.0|0.62|1.26||||||||1.26|0.62|
82664727|NCT01630616|165044738|SUPERIORITY_OR_OTHER||Ratio (Adolescents/Adults)|0.87|||||TWO_SIDED|90.0|0.62|1.23||||||||1.23|0.62|
82664728|NCT01630616|165044739|SUPERIORITY_OR_OTHER||Ratio (Adolescents/Adults)|0.81|||||TWO_SIDED|90.0|0.57|1.16||||||||1.16|0.57|
82664729|NCT04406194|165044750|EQUIVALENCE|0.80-1.25 margins for equivalence|Mean Ratio|0.9684||||0|TWO_SIDED|90.0|0.94|0.9977|||ANOVA|||||0.9977|0.9400|0.0000
82664730|NCT04406194|165044751|EQUIVALENCE|0.80 - 1.25 equivalence margin is required.|Mean Ratio|1.0555||||0.0155|TWO_SIDED|90.0|0.9292|1.1989|||ANOVA|||||1.1989|0.9292|0.0155
82664731|NCT04406194|165044752|EQUIVALENCE|0.80 - 1.25 equivalence margin is not required.|Mean Ratio|0.9719||||0|TWO_SIDED|90.0|0.944|1.0006|||ANOVA|||||1.0006|0.9440|0.0000
82664732|NCT00834964|165044763|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|97.0||||||90.0|92.72|101.49|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.49|92.72|
82664733|NCT00834964|165044764|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|99.7||||||90.0|94.74|104.92|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.92|94.74|
82664734|NCT00834964|165044765|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|98.6||||||90.0|93.46|104.02|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||104.02|93.46|
82664735|NCT00834964|165044766|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|96.29||||||90.0|91.96|100.82|||||Metabolite results not subjected to bioequivalence criteria; results are presented for informational purposes only.|||100.82|91.96|
82664736|NCT00834964|165044767|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.1||||||90.0|100.08|108.29|||||Metaboite results not subjected to bioequivalence criteria, results are presented for informational purposes only.|||108.29|100.08|
82664737|NCT00834964|165044768|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|100.52||||||90.0|97.3|103.84|||||Metabolite results were not subjected to bioequivalence criteria, results are presented for informational purposes only.|||103.84|97.30|
82664738|NCT00385736|165044770|SUPERIORITY_OR_OTHER|||||||0.031||95.0||||The primary endpoint analysis was carried out in hierarchical order (as presented) to handle the multiplicity issues induced by the two adalimumab groups being compared to placebo and to control the overall alpha level of 0.05.|Chi-squared|||||||0.031
82664739|NCT00385736|165044770|SUPERIORITY_OR_OTHER|||||||0.833||95.0||||The primary endpoint analysis was carried out in hierarchical order (as presented) to handle the multiplicity issues induced by the two adalimumab groups being compared to placebo and to control the overall alpha level of 0.05.|Chi-squared|||||||0.833
82664740|NCT00385736|165044771|SUPERIORITY_OR_OTHER|||||||0.107||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.107
82664741|NCT00385736|165044772|SUPERIORITY_OR_OTHER|||||||0.382||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.382
82664742|NCT00385736|165044773|SUPERIORITY_OR_OTHER|||||||0.038||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.038
82664743|NCT00385736|165044774|SUPERIORITY_OR_OTHER|||||||0.035||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.035
82664744|NCT00385736|165044775|SUPERIORITY_OR_OTHER|||||||0.08||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.080
82664745|NCT00385736|165044776|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.264
82664746|NCT00385736|165044777|SUPERIORITY_OR_OTHER|||||||0.526||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.526
82664747|NCT00385736|165044778|SUPERIORITY_OR_OTHER|||||||0.506||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.506
82664748|NCT00385736|165044779|SUPERIORITY_OR_OTHER|||||||0.264||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.264
82664749|NCT00385736|165044780|SUPERIORITY_OR_OTHER|||||||0.797||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.797
82664750|NCT00385736|165044781|SUPERIORITY_OR_OTHER|||||||0.614||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.614
82664751|NCT00385736|165044782|SUPERIORITY_OR_OTHER|||||||0.532||95.0||||Ranked secondary analyses were carried out in hierarchical order (as presented) to handle the multiplicity issues and to control the overall alpha level of 0.05.|Chi-squared|||||||0.532
82664752|NCT05497557|165044792|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.677|||||TWO_SIDED|90.0|0.547|0.839||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.839|0.547|
82664753|NCT05497557|165044793|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.771|||||TWO_SIDED|90.0|0.628|0.948||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.948|0.628|
82664754|NCT05497557|165044794|OTHER|Drug-drug Interaction Assessment|Ratio of geometric least squares mean|0.766|||||TWO_SIDED|90.0|0.619|0.948||||||Ratios of geometric least squares means, and corresponding confidence intervals were obtained by taking the exponential of the least square means (LSMs), differences in LSMs, and corresponding confidence intervals on the natural log (ln) scale.||0.948|0.619|
82664755|NCT04723693|165044941|OTHER||||||||||||||||||This is a qualitative interview study and as such no statistical analysis was carried out.|||
82664756|NCT04723693|165044942|OTHER||||||||||||||||||This is a qualitative interview study and as such no statistical analysis was carried out.|||
82664757|NCT00538031|165045001|OTHER|||||||0.61|||||||Log Rank|||||||0.61
82664758|NCT00538031|165045002|OTHER|||||||0.95|||||||Log Rank|||||||0.95
82664759|NCT00540423|165045003|SUPERIORITY_OR_OTHER||Risk Difference (RD)|60.0||||||95.0|35.21|84.79|||||The units of risk difference is percentage.|||84.79|35.21|
82664760|NCT00540423|165045005|SUPERIORITY_OR_OTHER||Percentage of 75% responders|43.5||||||95.0|23.19|65.51|||||Confidence interval of the percentage of participants for whom at least 75% of their assessments during the course of 26 weeks of SB-494115-GR treatment met the definition of responders.|||65.51|23.19|
82664761|NCT02412852|165045060|OTHER||||||||||||||||||\]The pharmacokinetics data are particularly sparse, and therefore substantial interpolations and imputations were required to produce an analyzable data set. Consequently, while not ideal, the Last Observation Carried Forward method was used for these data. There was a large amount of missing data which required imputation to determine results. The large amount of interpolations and imputations required for the pharmacokinetic analysis means that the pharmacokinetic results will need to be interpreted with caution. 3 X 3 Analysis of Variance used to compare Placebo to the two active groups. Missing data required imputation of available data.|||
82664762|NCT02412852|165045062|OTHER|ANOVA on only those subjects who completed testing.||||||0.05||||||The results were analyzed using an ANOVA with one between-subjects factor (Group: both placebo groups combined, 40 mg TV1001sr, and 80 mg TV1001sr); and one within-subjects factor (Visit: Visit 1, Visit 2, and Visit 3).|ANOVA|The means of the three groups were further analyzed using a post hoc comparison procedure (the Scheffé test).||||||0.05
82664763|NCT02412852|165045063|OTHER|The composite conduction measure and the composite velocity measure were analyzed using an Analysis of Variance with one between-subjects factor (Group: combined placebo, 40 mg TV1001, and 80 mg TV1001); and one within-subjects factor (Visit: Visit 1, Visit 2, and Visit 3).||||||0.15|||||||ANOVA|||||||.15
82664764|NCT02412852|165045064|OTHER|A 3 by 3 Analysis of Variance with one between-subjects factor (Combined placebo, 40 mg TV1001, or 80 mg TV1001) and one within-subjects factor (Visit 1, Visit 2, or Visit 3) was performed for HbA1c values.||||||0.36|||||||ANOVA|||||||.36
82664765|NCT02412852|165045065|OTHER|ANOVA to compare differences from baseline to completion of testing.||||||0.93|||||||ANOVA|||||||.93
82664766|NCT03629054|165045074|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% confidence intervals (CIs) for the ratios of the geometric means (gMean) (T/R).|Adjusted gMean ratio|100.42|STANDARD_ERROR_OF_MEAN|4.8|<|0.0001|TWO_SIDED|90.0|98.17|102.72|||ANOVA||gMean ratio = T/R. Standard error of the mean is actually intra-individual geometric coefficient of variation (gCV).|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||102.72|98.17|<0.0001
82664767|NCT03629054|165045075|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|95.34|STANDARD_ERROR_OF_MEAN|8.5|<|0.0001|TWO_SIDED|90.0|91.58|99.24|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||99.24|91.58|<0.0001
82664768|NCT03629054|165045076|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|100.16|STANDARD_ERROR_OF_MEAN|8.6|<|0.0001|TWO_SIDED|90.0|96.17|104.31|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||104.31|96.17|<0.0001
82664769|NCT03629054|165045077|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|92.57|STANDARD_ERROR_OF_MEAN|17.9||0.0029|TWO_SIDED|90.0|85.21|100.57|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||100.57|85.21|0.0029
82664770|NCT03629054|165045078|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|97.33|STANDARD_ERROR_OF_MEAN|16.9||0.0001|TWO_SIDED|90.0|89.99|105.26|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||105.26|89.99|0.0001
82664771|NCT03629054|165045079|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|104.83|STANDARD_ERROR_OF_MEAN|13.2|<|0.0001|TWO_SIDED|90.0|98.56|111.5|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||111.50|98.56|<0.0001
82664772|NCT03629054|165045080|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|100.73|STANDARD_ERROR_OF_MEAN|5.1|<|0.0001|TWO_SIDED|90.0|98.33|103.18|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||103.18|98.33|<0.0001
82664773|NCT03629054|165045081|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|103.57|STANDARD_ERROR_OF_MEAN|14.3|<|0.0001|TWO_SIDED|90.0|96.9|110.71|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||110.71|96.90|<0.0001
82664774|NCT03629054|165045082|EQUIVALENCE|The assessment of bioequivalence was based upon two-sided 90% CIs for the ratios of the geometric means (T/R).|Adjusted gMean ratio|95.74|STANDARD_ERROR_OF_MEAN|7.8|<|0.0001|TWO_SIDED|90.0|92.29|99.32|||ANOVA||gMean ratio = T/R. Standard Error of the mean is actually intra-individual gCV.|An ANOVA model on the logarithmic scale including fixed effects for 'sequence', 'period' and 'treatment' and random effect for 'subject within sequence'.||99.32|92.29|<0.0001
82664775|NCT03349567|165045088|SUPERIORITY||Incident rate ratio|0.99||||0.35|TWO_SIDED|95.0|0.98|1.01|||Mixed Models Analysis|Segmented regression analysis was conducted using generalized linear models to estimate change in monthly antimicrobial prescription rates.||||1.01|0.98|0.35
82664776|NCT03349567|165045089|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|1.12|||||TWO_SIDED|95.0|0.93|1.35||||||||1.35|0.93|
82664777|NCT03349567|165045090|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|1.01|||||TWO_SIDED|95.0|0.81|1.27||||||||1.27|0.81|
82664778|NCT03349567|165045091|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|0.88|||||TWO_SIDED|95.0|0.58|1.34||||||||1.34|0.58|
82664779|NCT03349567|165045092|NON_INFERIORITY|A Poisson regression model with log link was used to estimate the rate of safety outcomes. Models were adjusted for time as a continuous covariate, an indicator for month of implementation of intervention (Oct 2018), and included random effects to account for repeated measurements. An interaction variable for the study period (baseline or intervention) and site (intervention or control) was included in the model to estimate the Incident Rate Ratio (IRR) and 95% CIs.|Incident rate ratio|0.83|||||TWO_SIDED|95.0|0.53|1.29||||||||1.29|0.53|
82664780|NCT03349567|165045093|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82664781|NCT03349567|165045093|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
82664782|NCT03349567|165045094|SUPERIORITY|||||||0.46|||||||Regression, Logistic|Segmented regression analysis was conducted using generalized linear models to estimate change in monthly antibiotic prescription rates.||||||0.46
82664783|NCT00101439|165045095|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|0.89||||0.241|TWO_SIDED|95.0|0.73|1.08||Data were back-transformed from the log scale and adjusted for treatment|ANOVA||GMR=Ezetimibe divided by placebo|||1.08|0.73|0.241
82664784|NCT00101439|165045096|SUPERIORITY_OR_OTHER_LEGACY||Geometric Mean Ratio (GMR)|1.02||||0.812|TWO_SIDED|95.0|0.87|1.2||Data were back-transformed from the log scale and adjusted for treatment|ANOVA||GMR=Ezetimibe divided by placebo|||1.20|0.87|0.812
82664785|NCT03031795|165045124|SUPERIORITY||||||<|0.05||||||The a priori threshold for statistical significance was set at \< 0.05 for each row comparison with no adjustment for multiple comparisons.|Wilcoxon rank sum test|||"A 2 point difference was used to power the study. This is consistent with previous definitions of a clinically meaningful reductions in pain and provides a visually meaningful change on the 0-10 numerical rating scale with anchors at every other point, for example moving from very severe (8) to severe pain (6) or from moderate pain (4) to mild pain (2)."||||< 0.05
82664786|NCT01151618|165045128|OTHER|"Sensitivity and Specificity of values with respect to the Mead Whittenberger method were computed as follows (FL=flow limited and NFL = Non Flow limited):~Sensitivity = (# of FL breaths detected by FOT / # of FL breaths detected by M\&W) \* 100 Specificity =(# of NFL breaths detected by FOT / # of NFL breaths detected by M\&W) \* 100"|DeltaXrs (cmH2O*s/L)|2.6|||||TWO_SIDED|90.0|0.0|100.0|||||DeltaXrs equals average inspiratory reactance minus average expiratory reactance.|||100|0|
82664787|NCT02227238|165045131|SUPERIORITY|Non-inferiority of DTG plus 2 NRTI's was to be declared if the lower bound of 95% confidence interval (CI) for the difference in snapshot response rates (DTG - LPV/RTV) is greater than - 12%. This was also performed using the Per-Protocol (PP) Population. If both analyses show non-inferiority, the hypothesis of antiviral effect of DTG + 2 NRTI's was superior to LPV/RTV + 2 NRTIs was to be tested.|Proportion difference|13.8|||<|0.001|TWO_SIDED|95.0|7.3|20.3|||Cochran-Mantel-Haenszel||Adjusted proportion difference, calculated as proportion on DTG minus that on LPV/RTV and based on Cochran-Mantel Haenszel stratified analysis adjusting for Baseline plasma HIV-1 RNA and number of fully active background NRTIs, has been presented.||Superiority would be declared if the lower end of the confidence interval was above 0%|20.3|7.3|<.001
82664788|NCT02227238|165045134|OTHER||Proportion difference|5.7|||||TWO_SIDED|95.0|2.2|9.3|||||Proportion difference, calculated as proportion on DTG minus proportion on LPV/RTV, at Week 24 has been presented.|||9.3|2.2|
82664789|NCT02227238|165045134|OTHER||Proportion difference|9.8|||||TWO_SIDED|95.0|5.3|14.4|||||Proportion difference, calculated as proportion on DTG minus proportion on LPV/RTV, at Week 48 has been presented.|||14.4|5.3|
82664790|NCT02227238|165045161|OTHER||Mean Difference (Net)|-0.171||||0.001|TWO_SIDED|95.0|-0.272|-0.069|||Multiple imputation||Mean difference at Week 24 was calculated using multiple imputation using missing at random, adjusting for Baseline LDL cholesterol, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age|||-0.069|-0.272|0.0010
82664791|NCT02227238|165045161|OTHER||Mean Difference (Net)|-0.147||||0.01|TWO_SIDED|95.0|-0.259|-0.035|||'Multiple imputation||Mean difference at Week 48 was calculated using multiple imputation using missing at random, adjusting for Baseline LDL cholesterol, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age|||-0.035|-0.259|0.0100
82664792|NCT02227238|165045162|OTHER||Mean Difference (Net)|-0.542|||<|0.0001|TWO_SIDED|95.0|-0.729|-0.356|||Multiple imputation||Estimates at Week 24 are calculated using multiple imputation using missing at random, adjusting for Baseline total cholesterol/HDL ratio, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age.|||-0.356|-0.729|<0.0001
82664793|NCT02227238|165045162|OTHER||Mean Difference (Net)|-0.358||||0.0004|TWO_SIDED|95.0|-0.555|-0.161|||Multiple imputation||Estimates at Week 48 are calculated using multiple imputation using missing at random, adjusting for Baseline total cholesterol/HDL ratio, Baseline plasma HIV-1 RNA, Baseline number of Fully Active NRTIs in the background regimen and Age.|||-0.161|-0.555|0.0004
82664794|NCT05604209|165045171|SUPERIORITY||Median log2 fold change|1.63|||<|0.001|TWO_SIDED|95.0|0.67|2.14|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within all vaccinees is zero.||2.14|0.67|<0.001
82664795|NCT05604209|165045171|SUPERIORITY||median log2 fold change|1.15||||0.008|TWO_SIDED|95.0|0.09|2.59|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within the C62-M4 vaccinated arm is zero.||2.59|0.09|0.008
82664796|NCT05604209|165045171|SUPERIORITY||Median log2 fold change|1.66||||0.008|TWO_SIDED|95.0|0.93|4.59|||Wilcoxon (Mann-Whitney)|Within-am log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 35 within the C1C62-M3M4 vaccinated arm is zero.||4.59|0.93|0.008
82664797|NCT05604209|165045171|SUPERIORITY|||||||0.279|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-1 from baseline to day 35 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-1 from pre-vaccination to day 35 are the same between the two vaccinated arms.||||0.279
82664798|NCT05604209|165045172|SUPERIORITY||Median log2 fold change|1.66|||<|0.001|TWO_SIDED|95.0|1.09|2.33|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within all vaccinees is zero.||2.33|1.09|<0.001
82664799|NCT05604209|165045172|SUPERIORITY||Median log2 fold change|1.79||||0.008|TWO_SIDED|95.0|0.59|3.4|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within the C62-M4 vaccinated arm is zero.||3.40|0.59|0.008
82664800|NCT05604209|165045172|SUPERIORITY||Median log2 fold change|1.66||||0.008|TWO_SIDED|95.0|0.94|3.09|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 35 within the C1C62-M3M4 vaccinated arm is zero.||3.09|0.94|0.008
82664801|NCT05604209|165045172|SUPERIORITY|||||||0.878|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-2 from baseline to day 35 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-2 from pre-vaccination to day 35 are the same between the two vaccinated arms.||||0.878
82664802|NCT05604209|165045173|SUPERIORITY||Median log2 fold change|1.47|||<|0.001|TWO_SIDED|95.0|0.54|2.63|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within all vaccinees is zero.||2.63|0.54|<0.001
82664803|NCT05604209|165045173|SUPERIORITY||Median log2 fold change|1.09||||0.008|TWO_SIDED|95.0|0.39|3.61|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within the C62-M4 vaccinated arm is zero.||3.61|0.39|0.008
82664804|NCT05604209|165045173|SUPERIORITY||Median log2 fold change|2.0||||0.016|TWO_SIDED|95.0|0.43|4.37|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-1 from baseline to day 42 within the C1C62-M3M4 vaccinated arm is zero.||4.37|0.43|0.016
82664805|NCT05604209|165045173|SUPERIORITY|||||||0.189|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-1 from baseline to day 42 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-1 from pre-vaccination to day 42 are the same between the two vaccinated arms.||||0.189
82664806|NCT05604209|165045174|SUPERIORITY||Median log2 fold change|1.78|||<|0.001|TWO_SIDED|95.0|0.81|2.51|||Wilcoxon (Mann-Whitney)|Within-group log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within all vaccinees is zero.||2.51|0.81|<0.001
82664807|NCT05604209|165045174|SUPERIORITY||Median log2 fold change|1.57||||0.008|TWO_SIDED|95.0|0.63|3.89|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within the C62-M4 vaccinated arm is zero.||3.89|0.63|0.008
82664808|NCT05604209|165045174|SUPERIORITY||Median log2 fold change|1.78||||0.016|TWO_SIDED|95.0|0.7|3.79|||Wilcoxon (Mann-Whitney)|Within-arm log2 fold changes were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median log2-fold change in magnitude of T-cell response to Mosaic-2 from baseline to day 42 within the C162-M3M4 vaccinated arm is zero.||3.79|0.70|0.016
82492813|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.29||||0.1998|TWO_SIDED|90.0|-0.95|7.52|||ANCOVA|||Change at Day 14 10 PM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||7.52|-0.95|0.1998
82664809|NCT05604209|165045174|SUPERIORITY|||||||0.955|||||||Wilcoxon (Mann-Whitney)|Between-arm comparisons in log2 fold changes were statistically assessed using a two-sided exact Wilcoxon rank-sum test.||The contrast is the magnitude of the T-cell response to Mosaic-2 from baseline to day 42 in C62-M4 versus C1C62-M3M4.The null hypothesis is that he distributions of the T-cell response to Mosaic-2 from pre-vaccination to day 42 are the same between the two vaccinated arms.||||0.955
82664810|NCT05604209|165045175|SUPERIORITY||Median Difference (Net)|2.0||||0.125|TWO_SIDED|95.0|-1.0|4.0|||Wilcoxon (Mann-Whitney)|Within-group changes in breadth from baseline to day 56 were statistically assessed using a two-sided exact Wilcoxon signed rank test.||The null hypothesis is that the median change in breadth of T-cell response to HIV-1 subpools from baseline to day 56 within all vaccinees is zero.||4|-1|0.125
82664811|NCT02452463|165045248|SUPERIORITY|||||||0.107|||||||Cochran-Mantel-Haenszel|||||||0.107
82664812|NCT02452463|165045250|SUPERIORITY|||||||0.75|||||||Log Rank|||Null Hypotheses: OS distributions are equal||||0.75
82664813|NCT02452463|165045251|SUPERIORITY|||||||0.25|||||||Log Rank|||Null Hypotheses: PFS distributions are equal||||0.25
82664814|NCT02452463|165045252|SUPERIORITY|||||||0.131|||||||t-test, 2 sided|||||||0.131
82664815|NCT02452463|165045253|SUPERIORITY|||||||0.073|||||||t-test, 2 sided|||||||0.073
82664816|NCT02452463|165045254|SUPERIORITY|||||||0.616|||||||t-test, 2 sided|||||||0.616
82664817|NCT02452463|165045254|SUPERIORITY|||||||0.183|||||||Paired T-test|||Comparing change relative to baseline.||||0.183
82664818|NCT02452463|165045254|SUPERIORITY|||||||0.203|||||||paired T-test|||Evaluating change relative to baseline.||||0.203
82664819|NCT02452463|165045255|SUPERIORITY|||||||1|||||||Cochran-Mantel-Haenszel|||||||1.00
82664820|NCT01229150|165045257|SUPERIORITY_OR_OTHER|||||||0.24|||||||Log Rank|||||||0.24
82664821|NCT01229150|165045257|SUPERIORITY_OR_OTHER|||||||0.75|||||||Log Rank|||||||0.75
82664822|NCT01229150|165045261|SUPERIORITY_OR_OTHER|||||||0.51|||||||Log Rank|||||||0.51
82664823|NCT01229150|165045261|SUPERIORITY_OR_OTHER|||||||0.81|||||||Log Rank|||||||0.81
82664824|NCT01229150|165045263|SUPERIORITY_OR_OTHER||||||<|0.0007||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 1 to cycle 1 day 2.|Wilcoxon matched-pairs signed rank test|||||||<0.0007
82664825|NCT01229150|165045263|SUPERIORITY_OR_OTHER||||||<|0.0001||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 1 to cycle 1 day 14.|Wilcoxon matched-pairs signed rank test|||||||<0.0001
82664826|NCT01229150|165045263|SUPERIORITY_OR_OTHER|||||||0.0209||||||P-value was determined by comparison by the level of p-ERK at cycle 1 day 2 and cycle 1 day 14.|Wilcoxon matched-pairs signed rank test|||4 patients in this group; statistically underpowered.||||0.0209
82664827|NCT02153645|165045272|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.6|STANDARD_ERROR_OF_MEAN|2.9||0.179|TWO_SIDED|95.0|-13.9|2.6|||ANCOVA|||||2.6|-13.9|0.179
82664828|NCT02153645|165045272|SUPERIORITY||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|2.95||0.458|TWO_SIDED|95.0|-11.2|5.1|||ANCOVA|||||5.1|-11.2|0.458
82664829|NCT03930849|165045302|OTHER||F-value for Type 3 Fixed, df=4|2.01||||0.1|TWO_SIDED||||||Mixed Models Analysis|P-value is for F-value reported below of group x time term in a mixed methods analysis.||||||0.10
82664830|NCT03930849|165045303|SUPERIORITY||F statistic GroupxTime, df=4|0.025||||0.9|TWO_SIDED||||||Mixed Models Analysis|P-value is for F-value reported below of group x time analysis in a mixed methods analysis.||||||0.90
82664831|NCT03930849|165045304|SUPERIORITY||F Value Group x Time, DF=4|2.12||||0.08|TWO_SIDED|||||P-value of F statistic reported below for mixed methods analysis group\*time interaction term.|Mixed Models Analysis|||||||0.08
82664832|NCT01251393|165045305|EQUIVALENCE|"The comparisons between the placebo and the biperiden groups at baseline were performed by means of the independent t-Test. We evaluated the normality (Kolmogorov's test) and homogeneity (Levene's test) of the sample.~We used an ANOVA for repeated measures, followed by Bonferroni's post-hoc test to evaluate the efficacy of biperiden in reducing consumption of cocaine/crack."|||||<|0.05||||||We used an ANOVA for repeated measures, followed by Bonferroni's post-hoc test to evaluate the efficacy of biperiden in reducing consumption of cocaine/crack.|ANOVA|||We evaluated the normality (Kolmogorov's test) and homogeneity (Levene's test) of the sample.||||<0.05
82664833|NCT03969641|165045309|NON_INFERIORITY|This objective will be assessed using a one-sided noninferiority test with the alpha level set at 0.025 (1-sided) and a noninferiority margin of 10%.|Difference in Proportions (RIV4 - IIV4)|-0.0214|||<|0.0001|ONE_SIDED|97.5||0.0406|||Cochran-Mantel-Haenszel|The upper bound of a Newcombe binomial confidence interval with Cochran-Mantel-Haenszel weighting of the difference was used, stratified by site.|The directional comparison was the upper bound of the confidence interval using a 10% noninferiority margin.|The null hypothesis assumes that RIV4 is inferior (i.e., RIV4 will have a higher proportion) to IIV4 in regards to the proportion of pregnant women with adverse birth outcomes.||0.0406||<0.0001
82664834|NCT03969641|165045310|SUPERIORITY|This proportion was compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportion of preterm birth was also calculated.|Odds Ratio (OR)|0.72||||0.4645|TWO_SIDED|95.0|0.35|1.48|||Mantel Haenszel|||Preterm birth||1.48|0.35|0.4645
82664835|NCT03969641|165045311|SUPERIORITY|These proportions were compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportions of combined fetal death and neonatal death was also calculated.|Odds Ratio (OR)|0.00000031||||0.2447|TWO_SIDED|95.0|0.0||The upper limit of this CI is infinity, thus no numeric value can be provided.||Mantel Haenszel|||Fetal or neonatal death|||0.00|0.2447
82664836|NCT03969641|165045312|SUPERIORITY|This proportion was compared between the RIV4 group and the IIV4 group using an exact Mantel-Haenszel statistic in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level. The site adjusted odds ratio and corresponding 95% confidence interval for the proportion of spontaneous abortion after vaccination was also calculated. This was a subgroup analysis of only those participants vaccinated at less than 20 weeks gestational age.|Odds Ratio (OR)|0.5||||0.6235|TWO_SIDED|95.0|0.04|5.47|||Mantel Haenszel|||Spontaneous abortion||5.47|0.04|0.6235
82664837|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.17||||0.7029|TWO_SIDED|95.0|0.55|2.5|||Mantel Haenszel|||Injection Site Pain||2.50|0.55|0.7029
82664838|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|2.03||||0.6217|TWO_SIDED|95.0|0.18|22.52|||Mantel Haenszel|||Injection Site Redness||22.52|0.18|0.6217
82664839|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.7||||0.3848|TWO_SIDED|95.0|0.35|1.39|||Mantel Haenszel|||Injection Site Tenderness||1.39|0.35|0.3848
82664840|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.53||||0.2504|TWO_SIDED|95.0|0.21|1.35|||Mantel Haenszel|||Nausea||1.35|0.21|0.2504
82664841|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.62||||0.5751|TWO_SIDED|95.0|0.2|1.93|||Mantel Haenszel|||Vomiting||1.93|0.20|0.5751
82664842|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.32|3.19|||Mantel Haenszel|||Diarrhea||3.19|0.32|1.0000
82664843|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.8||||1|TWO_SIDED|95.0|0.21|3.04|||Mantel Haenszel|||Abdominal Pain||3.04|0.21|1.0000
82664844|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.53||||0.1326|TWO_SIDED|95.0|0.25|1.13|||Mantel Haenszel|||Headache||1.13|0.25|0.1326
82664845|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|1.01||||1|TWO_SIDED|95.0|0.2|5.04|||Mantel Haenszel|||Chills/Shivering||5.04|0.20|1.0000
82664846|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.0||||1|TWO_SIDED|95.0|0.0||The upper limit of this CI is infinity, thus no numeric value can be provided.||Mantel Haenszel|||Body Rash|||0.00|1.0000
82664847|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.92||||1|TWO_SIDED|95.0|0.39|2.15|||Mantel Haenszel|||Malaise (Fatigue)||2.15|0.39|1.0000
82664848|NCT03969641|165045313|SUPERIORITY|These proportions will be compared between the RIV4 group and the IIV4 group, within symptom, using an exact Mantel-Haenszel statistic (calculated in Proc Logistic in SAS) in a stratified analysis by site to control for the randomization blocks at the two-sided alpha 0.05 level.|Odds Ratio (OR)|0.87||||1|TWO_SIDED|95.0|0.31|2.48|||Mantel Haenszel|||Myalgia (Body Aches)||2.48|0.31|1.0000
82664849|NCT03969641|165045313|SUPERIORITY||Odds Ratio (OR)|0.71||||0.7704|TWO_SIDED|95.0|0.22|2.29|||Mantel Haenszel|||Joint Pain||2.29|0.22|0.7704
82664850|NCT03234907|165045383|SUPERIORITY||Risk Difference (RD)|-5.2|||=|0.347|TWO_SIDED|95.0|-17.2|6.8||P-value was based on CHW test, based on weighted CMH chi-square test, with stratification according to: (1)previous failure of TNF-α antagonist therapy/concomitant use of immunomodulators(Yes/No);(2)concomitant use of oral corticosteroids(Yes/No).|Cui-Hung-Wang (CHW) test||Mantel-Haenszel estimate of the treatment difference and its variance was used to calculate the 95% confidence interval for the treatment difference. Adjustment to the stratification factors was implemented.|||6.8|-17.2|=0.347
82664851|NCT03234907|165045384|SUPERIORITY||Risk Difference (RD)|-2.7|||=|0.531|TWO_SIDED|95.0|-11.5|6.0||P-value based on Cochran-Mantel-Haenszel, weighted CMH chi-square test, with stratification according to:(1)previous failure of TNF-α antagonist therapy/concomitant use of immunomodulators(Yes/No);(2)concomitant use of oral corticosteroids(Yes/No).|Cochran-Mantel-Haenszel||Mantel-Haenszel estimate of the treatment difference and its variance was used to calculate the 95% confidence interval for the treatment difference. Adjustment to the stratification factors was implemented.|||6.0|-11.5|=0.531
82664852|NCT02986139|165045385|SUPERIORITY||LS Mean Difference|-4.0||||0.048|TWO_SIDED|95.0|-8.0|0.0|||Mixed effects analysis of variance model|||A mixed effects analysis of variance model was used to assess injection site pain with the new formulation of etanercept as the test treatment and the commercial formulation of etanercept as the reference treatment. Treatment, study period, sequence, and disease indication were evaluated as fixed effect covariates, and subject within sequence was included as a random effect.||-0.0|-8.0|0.048
82664853|NCT00414726|165045388|SUPERIORITY_OR_OTHER|||||||0.91||95.0|||||Wilcoxon (Mann-Whitney)|We used the Van-Elteren extension of the Wilcoxon rank sum test; ajustments made for baseline NIHSS categories (4-11)(12-20)(\>20).||Subjects were analyzed using an intention to treat approach. All subjects were analyzed at 24 hours. For four subjects missing 24-hour NIHSS scores, the change score was given the highest possible value.||||0.91
82664854|NCT00414726|165045389|SUPERIORITY_OR_OTHER|||||||0.68||95.0|||||Wilcoxon (Mann-Whitney)|We used the Van Elteren extension of the Wilcoxin rank sum test that adjusts for stratified randomization.||||||0.68
82664855|NCT01993186|165045395|SUPERIORITY||Hodges-Lehmann estimate|13.45||||0.5812|TWO_SIDED|90.0|-38.63|80.95|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% confidence interval (CI) and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||80.95|-38.63|0.5812
82664856|NCT01993186|165045398|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.8197|TWO_SIDED|90.0|-51.23|84.25|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% CI and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||84.25|-51.23|0.8197
82664857|NCT01993186|165045399|SUPERIORITY||Hodges-Lehmann estimate|0.0||||0.7276|TWO_SIDED|90.0|0.0|37.5|||Wilcoxon rank-sum test|||Non-parametric post-hoc analysis: Hodges-Lehmann estimate of the location shift with 90% CI and Wilcoxon Rank Sum test p-value, based on Wilcoxon rank-sum test||37.5|0|0.7276
82664858|NCT01993186|165045403|SUPERIORITY||Least squares mean difference|-2.384|STANDARD_ERROR_OF_MEAN|68.1231||0.486|TWO_SIDED|90.0|-114.44|109.67||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTISRTSD||109.67|-114.44|0.486
82664859|NCT01993186|165045403|SUPERIORITY||Least squares mean difference|63.669|STANDARD_ERROR_OF_MEAN|53.0537||0.8849|TWO_SIDED|90.0|-23.6|150.94||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTIMDSRT||150.94|-23.6|0.8849
82664860|NCT01993186|165045403|SUPERIORITY||Least squares mean difference|-63.835|STANDARD_ERROR_OF_MEAN|60.6496||0.1463|TWO_SIDED|90.0|-163.59|35.93||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||RTIMDFRT||35.93|-163.59|0.1463
82664861|NCT01993186|165045404|SUPERIORITY||Least squares mean difference|17.768|STANDARD_ERROR_OF_MEAN|11.5659||0.9378|TWO_SIDED|90.0|-1.26|36.79||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||PALTEA||36.79|-1.26|0.9378
82664862|NCT01993186|165045404|SUPERIORITY||Least squares mean difference|-0.531|STANDARD_ERROR_OF_MEAN|2.1853||0.5959|TWO_SIDED|90.0|-4.13|3.06||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||PALFTMS||3.06|-4.13|0.5959
82664863|NCT01993186|165045405|SUPERIORITY||Least squares mean difference|0.06|STANDARD_ERROR_OF_MEAN|0.4988||0.4522|TWO_SIDED|90.0|-0.76|0.88||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SSPSLF||0.88|-0.76|0.4522
82664864|NCT01993186|165045406|SUPERIORITY||LS Mean Difference|-1.237|STANDARD_ERROR_OF_MEAN|2.381||0.3017|TWO_SIDED|90.0|-5.15|2.68||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SWMBE48||2.68|-5.15|0.3017
82664865|NCT01993186|165045406|SUPERIORITY||Least squares mean difference|0.038|STANDARD_ERROR_OF_MEAN|0.6495||0.5235|TWO_SIDED|90.0|-1.03|1.11||One-sided p-value. Additional model covariates include the corresponding baseline CANTAB score, visit and the interaction between visit and treatment.|GEE model|||SWMS68||1.11|-1.03|0.5235
82664866|NCT01993186|165045407|SUPERIORITY||Least squares mean difference|-6.897|STANDARD_ERROR_OF_MEAN|22.4806||0.6205|TWO_SIDED|90.0|-43.874|30.08||One-sided p-value. Additional model covariates include the corresponding baseline value, visit and the interaction between visit and treatment.|GEE model|||6MWT distance traveled||30.08|-43.874|0.6205
82664867|NCT01993186|165045408|SUPERIORITY||Least squares mean difference|-1.354|STANDARD_ERROR_OF_MEAN|3.5759||0.6476|TWO_SIDED|90.0|-7.236|4.527||One-sided p-value. Additional model covariates include the corresponding baseline value, visit and the interaction between visit and treatment.|GEE model|||6MWT distance traveled (percent predicted)||4.527|-7.236|0.6476
82664868|NCT01993186|165045410|SUPERIORITY||Least squares mean difference|1.568|STANDARD_ERROR_OF_MEAN|3.8899||0.3435|TWO_SIDED|90.0|-4.83|7.97||One-sided p-value. Additional model covariates include baseline GMFM-88 total score, visit and the interaction between visit and treatment.|GEE model|||GMFM-88 UX007-Placebo||7.97|-4.83|0.3435
82664869|NCT04158687|165045414|SUPERIORITY||Least Square (LS) Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|1.8||0.6003|TWO_SIDED|95.0|-4.5|2.6|||Mixed model repeated measures (MMRM)|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||2.6|-4.5|0.6003
82664870|NCT04158687|165045414|SUPERIORITY||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.8||0.392|TWO_SIDED|95.0|-2.0|5.0|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||5.0|-2.0|0.3920
82664871|NCT04158687|165045414|SUPERIORITY||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.8||0.1444|TWO_SIDED|95.0|-0.9|6.0|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||6.0|-0.9|0.1444
82664872|NCT04158687|165045415|SUPERIORITY||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8065|TWO_SIDED|95.0|-0.3|0.2|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.2|-0.3|0.8065
82664873|NCT04158687|165045415|SUPERIORITY||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.1||0.2121|TWO_SIDED|95.0|-0.1|0.4|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.4|-0.1|0.2121
82664874|NCT04158687|165045415|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0264|TWO_SIDED|95.0|0.0|0.5|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.5|0.0|0.0264
82664875|NCT04158687|165045416|SUPERIORITY||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6101|TWO_SIDED|95.0|-2.1|3.5|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||3.5|-2.1|0.6101
82664876|NCT04158687|165045416|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.4||0.6237|TWO_SIDED|95.0|-3.4|2.1|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||2.1|-3.4|0.6237
82664877|NCT04158687|165045416|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.4||0.1764|TWO_SIDED|95.0|-4.6|0.8|||MMRM|MMRM included fixed effects of treatment group, analysis visit, treatment-by-visit interaction, and a baseline-by-visit interaction.||||0.8|-4.6|0.1764
82664878|NCT00835666|165045460|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.5||||||90.0|92.6|105.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105|92.6|
82664879|NCT00835666|165045461|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.2||||||90.0|94.7|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.7|
82664880|NCT00835666|165045462|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|98.4||||||90.0|94.9|102.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102|94.9|
82664881|NCT02450539|165045471|SUPERIORITY||Hazard Ratio (HR)|1.765||||0.0068|TWO_SIDED|95.0|1.165|2.672|||Stratified log-rank test.||Stratified Cox proportional hazard model|Stratified by baseline ECOG performance status (0 vs 1), number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).||2.672|1.165|0.0068
82664882|NCT02450539|165045474|SUPERIORITY||Hazard Ratio (HR)|1.333||||0.1746|TWO_SIDED|95.0|0.879|2.022|||Stratified log-rank test||Stratified Cox proportional hazard model|Stratified by baseline ECOG performance status (0 vs 1), number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).\]||2.022|0.879|0.1746
82664883|NCT02450539|165045475|SUPERIORITY||Rate Difference|-17.9|||||TWO_SIDED|95.0|-29.3|-6.6|||||Confidence intervals are based on the normal approximation to the binomial.|||-6.6|-29.3|
82664884|NCT02450539|165045476|SUPERIORITY||Rate Difference|-13.2|||||TWO_SIDED|95.0|-29.2|2.8|||||Confidence intervals are based on the normal approximation to the binomial.|||2.8|-29.2|
82664885|NCT02450539|165045477|SUPERIORITY||Hazard Ratio (HR)|1.184||||0.7039|TWO_SIDED|95.0|0.502|2.792|||Stratified Log Rank||Stratified Cox regression model.|Stratification factors are baseline ECOG performance status (0 vs 1), Number of Prior Therapies (received only platinum-based therapy vs Received platinum-based Therapy plus Immune Checkpoint Inhibitor), and time since initiation of first line therapy (\<=9 months vs \>9 months).||2.792|0.502|0.7039
82664886|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.18|STANDARD_ERROR_OF_MEAN|0.23|||TWO_SIDED|||||||||Headache||||
82664887|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|0.29|||TWO_SIDED|||||||||Diarrhea||||
82664888|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.53|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|||||||||Mean core symptom severity||||
82664889|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.32|STANDARD_ERROR_OF_MEAN|0.34|||TWO_SIDED|||||||||Mean interference||||
82664890|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|||||||||Mean lung cancer symptom severity||||
82664891|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.52|STANDARD_ERROR_OF_MEAN|0.21|||TWO_SIDED|||||||||Mean core plus lung cancer symptom severity||||
82664892|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.19|||TWO_SIDED|||||||||Mean brain tumor symptom severity||||
82664893|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.69|STANDARD_ERROR_OF_MEAN|0.28|||TWO_SIDED|||||||||Mean core plus lung worst 5 symptoms severity||||
82664894|NCT02450539|165045478|SUPERIORITY||Mean Difference (Final Values)|0.09|STANDARD_ERROR_OF_MEAN|0.22|||TWO_SIDED|||||||||Rash||||
82664895|NCT02450539|165045479|SUPERIORITY||Mean Difference (Final Values)|-3.13|STANDARD_ERROR_OF_MEAN|2.07|||TWO_SIDED|||||||||EQ VAS Overall Self-rated Health Score||||
82664896|NCT02450539|165045480|SUPERIORITY||Median Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.03|||TWO_SIDED|||||||||EQ-5D-5L Index Value||||
82664897|NCT01484912|165045487|NON_INFERIORITY_OR_EQUIVALENCE|The superiority testing was conducted one sided with 0.025 significance level. If H0 was rejected one-sided 0.025 significance level, STA-2 was concluded to be statistically superior to Placebo.All hypothesis testing except for the primary efficacy endpoint was conducted two sides at 0.05 significance level and 95% Confidence Interval (C.I.) was adopted if needed.||||||0.025||95.0|||||t-test, 1 sided|||T-test was used to compare the change in total exercise time between the treatment groups. The change in total exercise time (△) was defined as the total exercise time at end-point visit minus the total exercise time at baseline. Let △T be the change in total exercise time for treatment group (STA-2) and △C be the change in total exercise time for control group (Placebo). The hypothesis testing for the superiority of STA-2 to Placebo was H0：△T-△C≦0 with H1：△T-△C﹥0.||||0.025
82664898|NCT01484912|165045488|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||t-test, 2 sided|||All hypothesis testing was conducted with T-tests, two sides at 0.05 significance level and 95% Confidence Interval (C.I.) was adopted if needed.||||0.005
82664899|NCT05604014|165045514|SUPERIORITY||Mean Difference (Final Values)|-0.7||||0.49|TWO_SIDED||||||t-test, 2 sided|||||||0.49
82664900|NCT05604014|165045515|SUPERIORITY||Mean Difference (Final Values)|-0.69||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.5
82664901|NCT05604014|165045516|SUPERIORITY||Mean Difference (Final Values)|-1.44||||0.16|TWO_SIDED||||||t-test, 2 sided|||||||0.16
82664902|NCT05604014|165045517|SUPERIORITY||Mean Difference (Final Values)|-0.78||||0.44|TWO_SIDED||||||t-test, 2 sided|||||||0.44
82664903|NCT00840203|165045518|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.6||||||90.0|88.6|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|88.6|
82664904|NCT00840203|165045519|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.3||||||90.0|82.8|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|82.8|
82664905|NCT00840203|165045520|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|94.0||||||90.0|83.0|107.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||107|83.0|
82664906|NCT00840203|165045521|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|98.3||||||90.0|91.5|106.0|||||Metabolite results presented for informational purposes only.|||106|91.5|
82664907|NCT00840203|165045522|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|97.6||||||90.0|86.7|110.0|||||Metabolite results presented for informational purposes only.|||110|86.7|
82664908|NCT00840203|165045523|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using the General Linear Model (GLM) procedure of SAS the bioequivalence of the test and reference products will be evaluated using average bioequivalence methodology for non-replicate crossover study design.|Geometric Test/Ref Ratio x 100|95.6||||||90.0|86.1|106.0|||||Metabolite results presented for informational purposes only.|||106|86.1|
82664909|NCT00989950|165045539|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.34|STANDARD_DEVIATION|14.0||0.588|TWO_SIDED|95.0|0.0|233.0|||ANOVA|||||233|0|0.588
82664910|NCT02426918|165045555|NON_INFERIORITY|Non-inferiority for the low dose was confirmed if the upper bound of the CI was \< 15% and if non-inferiority was confirmed for the high dose.|Risk Difference (RD)|-4.2|||||TWO_SIDED|95.0|-11.42|3.0||||||Treatment difference estimates and 95% CIs are calculated accounting for the randomization strata infection type \[cellulitis, noncellulitis\] according to a Mantel-Haenszel type risk difference estimator.||3.00|-11.42|
82664911|NCT02426918|165045555|NON_INFERIORITY|Non-inferiority for the high dose was confirmed if the upper bound of the CI was \< 15%.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-8.32|8.38||||||Treatment difference estimates and 95% CIs are calculated accounting for the randomization strata infection type \[cellulitis, noncellulitis\] according to a Mantel-Haenszel type risk difference estimator.||8.38|-8.32|
82664912|NCT00834405|165045566|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|106.0||||||90.0|98.0|114.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||114|98.0|
82664913|NCT00834405|165045567|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-72 and Cmax.|Geometric Test/Ref Ratio x 100|107.0||||||90.0|100.0|115.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||115|100|
82664914|NCT00829452|165045570|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.03||||||90.0|89.11|103.49|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103.49|89.11|
82664915|NCT00829452|165045571|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|95.34||||||90.0|90.82|100.09|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.09|90.82|
82664916|NCT00829452|165045572|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.98||||||90.0|92.73|101.42|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||101.42|92.73|
82664917|NCT00829452|165045573|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|98.78||||||90.0|89.34|109.23|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||109.23|89.34|
82664918|NCT00829452|165045574|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.59||||||90.0|94.62|100.66|||||This analysis was for informational purposes only and was not used to establish bioequivalence.|||100.66|94.62|
82664919|NCT01296841|165045575|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||t-test, 2 sided|We performed t-test statistics for univariate comparisons for continuous variables.||||||<0.05
82664920|NCT00957021|165045632|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||KSS Pain/Motion and Function Score comparison from pre-op to 1, 2 and 5 year||||<.0001
82664921|NCT00957021|165045633|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF-36 Physical score comparison from pre-op to 1, 2, 3, 4 and 5 years||||<.0001
82664922|NCT00957021|165045633|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 1 year||||<.0001
82664923|NCT00957021|165045633|SUPERIORITY_OR_OTHER|||||||0.0017|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 2 year||||0.0017
82664924|NCT00957021|165045633|SUPERIORITY_OR_OTHER|||||||0.0055|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 3 year||||0.0055
82664925|NCT00957021|165045633|SUPERIORITY_OR_OTHER|||||||0.005|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 4 year||||0.0050
82664926|NCT00957021|165045633|SUPERIORITY_OR_OTHER|||||||0.0018|||||||t-test, 2 sided|||SF-36 Mental score comparison from pre-op to 5 year||||0.0018
82664927|NCT00957021|165045635|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||LEAS score comparison from pre-op to 1, 2, 3, 4 and 5 years||||<.0001
82664928|NCT01822119|165045641|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation|||||||<0.0001
82664929|NCT01822119|165045642|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation|||||||<0.0001
82664930|NCT01822119|165045643|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Statistically significant changes with the same value at 500 to 4000Hz||||<0.0001
82664931|NCT01822119|165045643|SUPERIORITY_OR_OTHER|||||||0.0499|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Change at 6000Hz||||0.0499
82664932|NCT01822119|165045643|SUPERIORITY_OR_OTHER|||||||0.0632|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Change at 8000Hz||||0.0632
82664933|NCT01822119|165045644|SUPERIORITY_OR_OTHER|||||||0.39|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||0.39
82664934|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.79|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||500Hz||||0.79
82664935|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||1000Hz||||0.26
82664936|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||2000Hz||||0.24
82664937|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||3000Hz||||0.83
82664938|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||4000Hz||||0.026
82664939|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.0085|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||6000Hz||||0.0085
82664940|NCT01822119|165045645|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||8000Hz||||0.13
82664941|NCT01822119|165045646|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Statistically significant improvement with the same value at all presentation levels.||||<0.0001
82664942|NCT01822119|165045647|SUPERIORITY_OR_OTHER|||||||0.55|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||50dB||||0.55
82664943|NCT01822119|165045647|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||60dB||||0.72
82664944|NCT01822119|165045647|SUPERIORITY_OR_OTHER|||||||0.28|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||80dB||||0.28
82664945|NCT01822119|165045648|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||<0.0001
82664946|NCT01822119|165045649|SUPERIORITY_OR_OTHER|||||||0.0092|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||||||0.0092
82664947|NCT01822119|165045650|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Aversiveness||||0.59
82664948|NCT01822119|165045650|SUPERIORITY_OR_OTHER|||||||0.71|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Ease of Communication||||0.71
82664949|NCT01822119|165045650|SUPERIORITY_OR_OTHER|||||||0.59|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Reverberation||||0.59
82664950|NCT01822119|165045650|SUPERIORITY_OR_OTHER|||||||0.4|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Background noise||||0.40
82664951|NCT01822119|165045650|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Global score||||0.50
82664952|NCT01395017|165045685|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.19||||0.3864|TWO_SIDED|95.0|0.85|1.65||The log-rank test was used to test OS. As a sensitivity analysis, HR and its confidence interval was also provided for OS using the Cox proportional hazard model.|Cox proportional hazard model|Adjusting for baseline factors - treatment, ECOG PS, region, CA19-9 level (\< 1000 IU/mL or \>/=1000 IU/mL), and RT during trial (yes or no).||Using a 1-sided alpha=0.2, a population of 200 participants (100 GEM plus dasatinib and 100 GEM plus placebo) has 79% power to show an increase in median OS from 10 to 13.3 months (hazard ratio \[HR\] =0.75, assuming analysis of 135 deaths).||1.65|0.85|0.3864
82664953|NCT01395017|165045686|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.6761|TWO_SIDED|95.0|0.73|1.34||The log-rank test was used to test PFS. As a sensitivity analysis, HR and its confidence interval was also provided for PFS using the Cox proportional hazard model.|Cox proportional hazard model|Adjusting for baseline factors: treatment, ECOG PS, region, CA19-9 level (\< 1000 IU/mL or \>/=1000 IU/mL), and RT during trial (yes or no).||Trial has 88% power to show a median PFS increase from 5 to 7 months (with 1-sided alpha=0.15, total 176 events, HR=0.714).||1.34|0.73|0.6761
82664954|NCT02466087|165045738|OTHER||diiference in differences|1.5|||||TWO_SIDED|95.0|||||Regression, Linear|||||||
82664955|NCT00834444|165045744|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|96.9||||||90.0|87.8|107.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107|87.8|
82664956|NCT00834444|165045745|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.9|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|97.9|
82664957|NCT00834444|165045746|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.7|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|97.7|
82664958|NCT02052895|165045747|SUPERIORITY_OR_OTHER||Difference of ROC-AUC|0.0317||||0.3924|TWO_SIDED|95.0|-0.0409|0.1043|||Regression, Logistic|||||0.1043|-0.0409|0.3924
82664959|NCT02704091|165045793|SUPERIORITY|"The following Null-hypothesis was tested:~H0: λA(t) = λB (t) versus H1: λA(t) ≠ λB (t), where λ(t) represents the hazard at time t, A=diosmectite and B=placebo."|||||=|0.2524|||||||Wilcoxon-Gehan test|||The primary analysis tested the equality of time to recovery between the 2 treatment groups, applying the 2-sided Gehan-Wilcoxon test (α=5%).||||=0.2524
82664960|NCT02704091|165045794|SUPERIORITY||||||=|0.3511|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from diarrhoea onset to recovery, analysed using the Gehan-Wilcoxon test.||||=0.3511
82664961|NCT02704091|165045795|SUPERIORITY||||||=|0.7285|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from diarrhoea onset to first formed stool, analysed using the Gehan-Wilcoxon test.||||=0.7285
82664962|NCT02704091|165045796|SUPERIORITY||||||=|0.1807|||||||Gehan-Wilcoxon test|||Comparison between the 2 treatment groups for time from first study treatment intake to last watery stool, analysed using the Gehan-Wilcoxon test.||||=0.1807
82664963|NCT02704091|165045797|SUPERIORITY||Least Squares (LS) Mean Difference|-0.04||||0.4294|TWO_SIDED|95.0|-0.15|0.07|||ANCOVA|||Comparison between the 2 treatment groups for number of stools for the overall time period, based on an analysis of covariance (ANCOVA) method for repeated measurements. The model included the number of stools 24 hours before randomisation (baseline) as covariate, treatment, time point (12-hour period), the treatment by time point interaction as fixed effects and participant as random effect.||0.07|-0.15|0.4294
82664964|NCT02704091|165045798|SUPERIORITY||LS Mean Difference|-0.12||||0.0465|TWO_SIDED|95.0|-0.24|0.0|||ANCOVA|||Comparison between the 2 treatment groups for number of watery stools for the overall time period, based on an ANCOVA method for repeated measurements. The model included the number of watery stools 24 hours before randomisation (baseline) as covariate, treatment, time point (12-hour period), the treatment by time point interaction as fixed effects and participant as random effect.||-0.00|-0.24|0.0465
82664965|NCT01634139|165045801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.17|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.108|0.231|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.231|0.108|<0.0001
82664966|NCT01634139|165045801|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.164|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.103|0.255|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Stepwise testing of the null hypothesis was used to test the efficacy of Tio R5 and then Tio R2.5, each over placebo. The analysis was performed in a stepwise manner, firstly for this endpoint, then Trough FEV1. Each step was only considered confirmatory if all previous steps were successful.||0.255|0.103|<0.0001
82664967|NCT01634139|165045802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.036||0.0012|TWO_SIDED|95.0|0.046|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.186|0.046|0.0012
82664968|NCT01634139|165045802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.036||0.001|TWO_SIDED|95.0|0.048|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.188|0.048|0.0010
82664969|NCT01634139|165045802|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.071|STANDARD_ERROR_OF_MEAN|0.036||0.0477|TWO_SIDED|95.0|0.001|0.142|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.142|0.001|0.0477
82664970|NCT01634139|165045802|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.099|STANDARD_ERROR_OF_MEAN|0.036||0.0059|TWO_SIDED|95.0|0.029|0.17|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.170|0.029|0.0059
82664971|NCT01634139|165045803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.124|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.062|0.185|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|||0.185|0.062|<0.0001
82664972|NCT01634139|165045803|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.031|<|0.0001|TWO_SIDED|95.0|0.065|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|||0.188|0.065|<0.0001
82664973|NCT01634139|165045804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.154|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.095|0.212|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.212|0.095|<0.0001
82664974|NCT01634139|165045804|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.157|STANDARD_ERROR_OF_MEAN|0.03|<|0.0001|TWO_SIDED|95.0|0.098|0.215|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.215|0.098|<0.0001
82664975|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.116|STANDARD_ERROR_OF_MEAN|0.036||0.0012|TWO_SIDED|95.0|0.046|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|10 minutes pre-dose (Week 24)||0.186|0.046|0.0012
82664976|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.118|STANDARD_ERROR_OF_MEAN|0.036||0.001|TWO_SIDED|95.0|0.048|0.188|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|10 minutes pre-dose (Week 24)||0.188|0.048|0.0010
82664977|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.139|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.076|0.201|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|30 minutes post-dose (Week 24)||0.201|0.076|<0.0001
82664978|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.151|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.088|0.213|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|30 minutes post-dose (Week 24)||0.213|0.088|<0.0001
82664979|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.148|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.084|0.211|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|1 hour post-dose (Week 24)||0.211|0.084|<0.0001
82664980|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.147|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.084|0.21|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|1 hour post-dose (Week 24)||0.210|0.084|<0.0001
82664981|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.163|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.101|0.226|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|2 hours post-dose (Week 24)||0.226|0.101|<0.0001
82664982|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.168|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001||95.0|0.106|0.231|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|2 hours post-dose (Week 24)||0.231|0.106|<0.0001
82664983|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.178|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.116|0.24|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|3 hours post-dose (Week 24)||0.240|0.116|<0.0001
82664984|NCT01634139|165045805|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.176|STANDARD_ERROR_OF_MEAN|0.032|<|0.0001|TWO_SIDED|95.0|0.114|0.238|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|3 hours post-dose (Week 24)||0.238|0.114|<0.0001
82664985|NCT01634139|165045806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.11|STANDARD_ERROR_OF_MEAN|0.038||0.0036|TWO_SIDED|95.0|0.036|0.184|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.184|0.036|0.0036
82664986|NCT01634139|165045806|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.091|STANDARD_ERROR_OF_MEAN|0.037||0.0152|TWO_SIDED|95.0|0.018|0.165|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.165|0.018|0.0152
82664987|NCT01634139|165045806|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.069|STANDARD_ERROR_OF_MEAN|0.038||0.0687|TWO_SIDED|95.0|-0.005|0.143|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.143|-0.005|0.0687
82664988|NCT01634139|165045806|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.038||0.1666|TWO_SIDED|95.0|-0.022|0.126|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.126|-0.022|0.1666
82664989|NCT01634139|165045807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.04||0.0228|TWO_SIDED|95.0|0.013|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.171|0.013|0.0228
82664990|NCT01634139|165045807|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.04||0.198|TWO_SIDED|95.0|-0.027|0.131|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.131|-0.027|0.1980
82664991|NCT01634139|165045807|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.062|STANDARD_ERROR_OF_MEAN|0.04||0.1256|TWO_SIDED|95.0|-0.017|0.141|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.141|-0.017|0.1256
82664992|NCT01634139|165045807|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.053|STANDARD_ERROR_OF_MEAN|0.04||0.188|TWO_SIDED|95.0|-0.026|0.133|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.133|-0.026|0.1880
82664993|NCT01634139|165045808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.105|STANDARD_ERROR_OF_MEAN|0.034||0.0023|TWO_SIDED|95.0|0.037|0.172|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.172|0.037|0.0023
82664994|NCT01634139|165045808|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.076|STANDARD_ERROR_OF_MEAN|0.034||0.0255|TWO_SIDED|95.0|0.009|0.143|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.143|0.009|0.0255
82664995|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.04||0.0228|TWO_SIDED|95.0|0.013|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|10 minutes pre-dose (Week 24)||0.171|0.013|0.0228
82664996|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.052|STANDARD_ERROR_OF_MEAN|0.04||0.198|TWO_SIDED|95.0|-0.027|0.131|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|10 minutes pre-dose.(Week 24)||0.131|-0.027|0.1980
82664997|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.078|STANDARD_ERROR_OF_MEAN|0.037||0.0344|TWO_SIDED|95.0|0.006|0.15|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|30 minutes post-dose (Week 24)||0.150|0.006|0.0344
82664998|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.067|STANDARD_ERROR_OF_MEAN|0.037||0.0696|TWO_SIDED|95.0|-0.005|0.139|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|30 minutes post-dose (Week 24)||0.139|-0.005|0.0696
82664999|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.109|STANDARD_ERROR_OF_MEAN|0.037||0.0032|TWO_SIDED|95.0|0.037|0.182|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|1 hour post-dose (week 24)||0.182|0.037|0.0032
82665000|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.06|STANDARD_ERROR_OF_MEAN|0.037||0.1044|TWO_SIDED|95.0|-0.012|0.132|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|1 hour post-dose (week 24)||0.132|-0.012|0.1044
82665001|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.113|STANDARD_ERROR_OF_MEAN|0.037||0.0027|TWO_SIDED|95.0|0.039|0.186|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|2 hours post-dose (week 24)||0.186|0.039|0.0027
82665002|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.093|STANDARD_ERROR_OF_MEAN|0.037||0.013|TWO_SIDED|95.0|0.02|0.166|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|2 hours post-dose (week 24)||0.166|0.020|0.0130
82665003|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.115|STANDARD_ERROR_OF_MEAN|0.038||0.0025|TWO_SIDED|95.0|0.041|0.19|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|3 hours post-dose (week 24)||0.190|0.041|0.0025
82665004|NCT01634139|165045809|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.092|STANDARD_ERROR_OF_MEAN|0.038||0.0156|TWO_SIDED|95.0|0.017|0.166|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|3 hours post-dose (Week 24)||0.166|0.017|0.0156
82665005|NCT01634139|165045810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.165|STANDARD_ERROR_OF_MEAN|0.11||0.1349|TWO_SIDED|95.0|-0.382|0.051|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.051|-0.382|0.1349
82665006|NCT01634139|165045810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.209|STANDARD_ERROR_OF_MEAN|0.11||0.0588|TWO_SIDED|95.0|-0.425|0.008|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.008|-0.425|0.0588
82665007|NCT01634139|165045810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.154|STANDARD_ERROR_OF_MEAN|0.111||0.1675|TWO_SIDED|95.0|-0.372|0.065|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.065|-0.372|0.1675
82665008|NCT01634139|165045810|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.201|STANDARD_ERROR_OF_MEAN|0.111||0.0709|TWO_SIDED|95.0|-0.419|0.017|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.017|-0.419|0.0709
82665009|NCT01634139|165045811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.116|STANDARD_ERROR_OF_MEAN|0.065||0.0749|TWO_SIDED|95.0|-0.245|0.012|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.012|-0.245|0.0749
82665010|NCT01634139|165045811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.141|STANDARD_ERROR_OF_MEAN|0.065||0.0305|TWO_SIDED|95.0|-0.269|-0.013|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.013|-0.269|0.0305
82665011|NCT01634139|165045811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.125|STANDARD_ERROR_OF_MEAN|0.066||0.0581|TWO_SIDED|95.0|-0.255|0.004|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.004|-0.255|0.0581
82665012|NCT01634139|165045811|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.131|STANDARD_ERROR_OF_MEAN|0.066||0.0464|TWO_SIDED|95.0|-0.26|-0.002|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||-0.002|-0.260|0.0464
82665013|NCT01634139|165045812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.096|STANDARD_ERROR_OF_MEAN|0.062||0.1182|TWO_SIDED|95.0|-0.217|0.025|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.025|-0.217|0.1182
82665014|NCT01634139|165045812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.126|STANDARD_ERROR_OF_MEAN|0.061||0.0404|TWO_SIDED|95.0|-0.246|-0.006|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.006|-0.246|0.0404
82665015|NCT01634139|165045812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.099|STANDARD_ERROR_OF_MEAN|0.062||0.1105|TWO_SIDED|95.0|-0.221|0.023|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.023|-0.221|0.1105
82665016|NCT01634139|165045812|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.103|STANDARD_ERROR_OF_MEAN|0.062||0.0983|TWO_SIDED|95.0|-0.224|0.019|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.019|-0.224|0.0983
82665017|NCT01634139|165045813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.507|STANDARD_ERROR_OF_MEAN|5.387||0.1146|TWO_SIDED|95.0|-2.063|19.077|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||19.077|-2.063|0.1146
82665018|NCT01634139|165045813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.493|STANDARD_ERROR_OF_MEAN|5.365||0.1628|TWO_SIDED|95.0|-3.034|18.02|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||18.020|-3.034|0.1628
82665019|NCT01634139|165045813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.538|STANDARD_ERROR_OF_MEAN|5.435||0.3085|TWO_SIDED|95.0|-5.127|16.203|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||16.203|-5.127|0.3085
82665020|NCT01634139|165045813|SUPERIORITY_OR_OTHER||Mean Difference (Net)|8.774|STANDARD_ERROR_OF_MEAN|5.413||0.1053|TWO_SIDED|95.0|-1.847|19.394|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||19.394|-1.847|0.1053
82665021|NCT01634139|165045814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.36|STANDARD_ERROR_OF_MEAN|5.451||0.0236|TWO_SIDED|95.0|1.663|23.056|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||23.056|1.663|0.0236
82665022|NCT01634139|165045814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|14.146|STANDARD_ERROR_OF_MEAN|5.427||0.0093|TWO_SIDED|95.0|3.497|24.794|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||24.794|3.497|0.0093
82665023|NCT01634139|165045814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.882|STANDARD_ERROR_OF_MEAN|5.497||0.7322|TWO_SIDED|95.0|-12.667|8.904|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||8.904|-12.667|0.7322
82665024|NCT01634139|165045814|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.176|STANDARD_ERROR_OF_MEAN|5.481||0.4463|TWO_SIDED|95.0|-6.578|14.929|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||14.929|-6.578|0.4463
82665025|NCT01634139|165045815|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.262|STANDARD_ERROR_OF_MEAN|1.039||0.8008|TWO_SIDED|95.0|-1.775|2.299|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||2.299|-1.775|0.8008
82665026|NCT01634139|165045815|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.166|STANDARD_ERROR_OF_MEAN|1.041||0.8731|TWO_SIDED|95.0|-1.875|2.208|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||2.208|-1.875|0.8731
82665027|NCT01634139|165045815|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.272|STANDARD_ERROR_OF_MEAN|1.058||0.7975|TWO_SIDED|95.0|-1.803|2.346|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||2.346|-1.803|0.7975
82665028|NCT01634139|165045815|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.579|STANDARD_ERROR_OF_MEAN|1.059||0.5845|TWO_SIDED|95.0|-2.656|1.498|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||1.498|-2.656|0.5845
82665029|NCT01634139|165045816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.048||0.6932|TWO_SIDED|95.0|-0.075|0.113|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.113|-0.075|0.6932
82665030|NCT01634139|165045816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.048||0.1741|TWO_SIDED|95.0|-0.158|0.029|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.029|-0.158|0.1741
82665031|NCT01634139|165045816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.024|STANDARD_ERROR_OF_MEAN|0.048||0.625|TWO_SIDED|95.0|-0.071|0.118|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.118|-0.071|0.6250
82665032|NCT01634139|165045816|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.015|STANDARD_ERROR_OF_MEAN|0.048||0.7597|TWO_SIDED|95.0|-0.109|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.080|-0.109|0.7597
82665033|NCT01634139|165045817|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.025|STANDARD_ERROR_OF_MEAN|0.05||0.6166|TWO_SIDED|95.0|-0.122|0.073|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.073|-0.122|0.6166
82665034|NCT01634139|165045817|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.076|STANDARD_ERROR_OF_MEAN|0.049||0.1267|TWO_SIDED|95.0|-0.173|0.021|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.021|-0.173|0.1267
82665035|NCT01634139|165045817|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.006|STANDARD_ERROR_OF_MEAN|0.05||0.9|TWO_SIDED|95.0|-0.092|0.105|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.105|-0.092|0.9000
82665036|NCT01634139|165045817|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.05||0.3897|TWO_SIDED|95.0|-0.141|0.055|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.055|-0.141|0.3897
82665037|NCT01634139|165045818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.12|STANDARD_ERROR_OF_MEAN|0.072||0.0975|TWO_SIDED|95.0|-0.262|0.022|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.022|-0.262|0.0975
82665038|NCT01634139|165045818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.182|STANDARD_ERROR_OF_MEAN|0.072||0.0116|TWO_SIDED|95.0|-0.323|-0.041|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.041|-0.323|0.0116
82665039|NCT01634139|165045818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.065|STANDARD_ERROR_OF_MEAN|0.073||0.3732|TWO_SIDED|95.0|-0.208|0.078|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.078|-0.208|0.3732
82665040|NCT01634139|165045818|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093|STANDARD_ERROR_OF_MEAN|0.073||0.1985|TWO_SIDED|95.0|-0.236|0.049|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.049|-0.236|0.1985
82665041|NCT01634139|165045820|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.176|STANDARD_ERROR_OF_MEAN|0.072||0.0144|TWO_SIDED|95.0|0.035|0.316|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.316|0.035|0.0144
82665042|NCT01634139|165045820|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.127|STANDARD_ERROR_OF_MEAN|0.071||0.0747|TWO_SIDED|95.0|-0.013|0.267|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.267|-0.013|0.0747
82665043|NCT01634139|165045820|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.021|STANDARD_ERROR_OF_MEAN|0.072||0.7654|TWO_SIDED|95.0|-0.163|0.12|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.120|-0.163|0.7654
82665044|NCT01634139|165045820|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.017|STANDARD_ERROR_OF_MEAN|0.072||0.8082|TWO_SIDED|95.0|-0.124|0.158|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.158|-0.124|0.8082
82665045|NCT01634139|165045821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.175|STANDARD_ERROR_OF_MEAN|0.085||0.0392|TWO_SIDED|95.0|0.009|0.341|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.341|0.009|0.0392
82665046|NCT01634139|165045821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.126|STANDARD_ERROR_OF_MEAN|0.084||0.1351|TWO_SIDED|95.0|-0.039|0.292|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.292|-0.039|0.1351
82665047|NCT01634139|165045821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.018|STANDARD_ERROR_OF_MEAN|0.085||0.8291|TWO_SIDED|95.0|-0.185|0.149|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.149|-0.185|0.8291
82665048|NCT01634139|165045821|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.004|STANDARD_ERROR_OF_MEAN|0.085||0.9655|TWO_SIDED|95.0|-0.163|0.171|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.171|-0.163|0.9655
82665049|NCT01634139|165045822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.191|STANDARD_ERROR_OF_MEAN|0.077||0.0139|TWO_SIDED|95.0|0.039|0.343|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.343|0.039|0.0139
82665050|NCT01634139|165045822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.125|STANDARD_ERROR_OF_MEAN|0.077||0.1043|TWO_SIDED|95.0|-0.026|0.276|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.276|-0.026|0.1043
82665051|NCT01634139|165045822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.035|STANDARD_ERROR_OF_MEAN|0.078||0.6547|TWO_SIDED|95.0|-0.118|0.187|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.187|-0.118|0.6547
82665052|NCT01634139|165045822|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.077||0.3648|TWO_SIDED|95.0|-0.082|0.222|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.222|-0.082|0.3648
82665053|NCT01634139|165045823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.166|STANDARD_ERROR_OF_MEAN|0.074||0.0256|TWO_SIDED|95.0|0.02|0.312|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.312|0.020|0.0256
82665054|NCT01634139|165045823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.141|STANDARD_ERROR_OF_MEAN|0.074||0.0561|TWO_SIDED|95.0|-0.004|0.286|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.286|-0.004|0.0561
82665055|NCT01634139|165045823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.061|STANDARD_ERROR_OF_MEAN|0.075||0.4127|TWO_SIDED|95.0|-0.208|0.085|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.085|-0.208|0.4127
82665056|NCT01634139|165045823|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01|STANDARD_ERROR_OF_MEAN|0.074||0.8922|TWO_SIDED|95.0|-0.136|0.156|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.156|-0.136|0.8922
82665057|NCT01634139|165045825|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.009|STANDARD_ERROR_OF_MEAN|0.036||0.7931|TWO_SIDED|95.0|-0.08|0.061|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.061|-0.080|0.7931
82665058|NCT01634139|165045825|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.075|STANDARD_ERROR_OF_MEAN|0.036||0.0369|TWO_SIDED|95.0|-0.145|-0.005|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.005|-0.145|0.0369
82665059|NCT01634139|165045825|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.03|STANDARD_ERROR_OF_MEAN|0.036||0.4086|TWO_SIDED|95.0|-0.101|0.041|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.041|-0.101|0.4086
82665060|NCT01634139|165045825|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.026|STANDARD_ERROR_OF_MEAN|0.036||0.4714|TWO_SIDED|95.0|-0.097|0.045|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.045|-0.097|0.4714
82665061|NCT01634139|165045826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.001|STANDARD_ERROR_OF_MEAN|0.047||0.988|TWO_SIDED|95.0|-0.091|0.092|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.092|-0.091|0.9880
82665062|NCT01634139|165045826|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.082|STANDARD_ERROR_OF_MEAN|0.046||0.0794|TWO_SIDED|95.0|-0.173|0.01|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.010|-0.173|0.0794
82665063|NCT01634139|165045826|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.053|STANDARD_ERROR_OF_MEAN|0.047||0.2623|TWO_SIDED|95.0|-0.145|0.04|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.040|-0.145|0.2623
82665064|NCT01634139|165045826|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.047||0.3552|TWO_SIDED|95.0|-0.136|0.04|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.040|-0.136|0.3552
82665065|NCT01634139|165045827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.039|STANDARD_ERROR_OF_MEAN|0.049||0.4359|TWO_SIDED|95.0|-0.135|0.058|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.058|-0.135|0.4359
82665066|NCT01634139|165045827|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.059|STANDARD_ERROR_OF_MEAN|0.049||0.2293|TWO_SIDED|95.0|-0.155|0.037|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.037|-0.155|0.2293
82665067|NCT01634139|165045827|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.01|STANDARD_ERROR_OF_MEAN|0.05||0.8372|TWO_SIDED|95.0|-0.108|0.088|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.088|-0.108|0.8372
82665068|NCT01634139|165045827|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.051|STANDARD_ERROR_OF_MEAN|0.049||0.3022|TWO_SIDED|95.0|-0.148|0.046|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.046|-0.148|0.3022
82665069|NCT01634139|165045828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.031|STANDARD_ERROR_OF_MEAN|0.046||0.5004|TWO_SIDED|95.0|-0.122|0.06|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.060|-0.122|0.5004
82665070|NCT01634139|165045828|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.059|STANDARD_ERROR_OF_MEAN|0.046||0.1982|TWO_SIDED|95.0|-0.149|0.031|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.031|-0.149|0.1982
82665071|NCT01634139|165045828|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.047||0.8019|TWO_SIDED|95.0|-0.103|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.080|-0.103|0.8019
82665072|NCT01634139|165045828|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.032|STANDARD_ERROR_OF_MEAN|0.046||0.4872|TWO_SIDED|95.0|-0.123|0.059|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.059|-0.123|0.4872
82665073|NCT01634139|165045829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.043|STANDARD_ERROR_OF_MEAN|0.046||0.3498|TWO_SIDED|95.0|-0.135|0.048|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.048|-0.135|0.3498
82665074|NCT01634139|165045829|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.106|STANDARD_ERROR_OF_MEAN|0.046||0.0222|TWO_SIDED|95.0|-0.196|-0.015|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||-0.015|-0.196|0.0222
82665075|NCT01634139|165045829|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.012|STANDARD_ERROR_OF_MEAN|0.047||0.799|TWO_SIDED|95.0|-0.104|0.08|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.080|-0.104|0.7990
82665076|NCT01634139|165045829|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.035|STANDARD_ERROR_OF_MEAN|0.047||0.4586|TWO_SIDED|95.0|-0.126|0.057|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.057|-0.126|0.4586
82665077|NCT01634139|165045830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.045|STANDARD_ERROR_OF_MEAN|0.056||0.4221|TWO_SIDED|95.0|-0.156|0.065|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.065|-0.156|0.4221
82665078|NCT01634139|165045830|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.093|STANDARD_ERROR_OF_MEAN|0.056||0.0959|TWO_SIDED|95.0|-0.204|0.017|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.017|-0.204|0.0959
82665079|NCT01634139|165045830|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.003|STANDARD_ERROR_OF_MEAN|0.057||0.9627|TWO_SIDED|95.0|-0.109|0.114|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.114|-0.109|0.9627
82665080|NCT01634139|165045830|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.054|STANDARD_ERROR_OF_MEAN|0.057||0.3457|TWO_SIDED|95.0|-0.165|0.058|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.058|-0.165|0.3457
82665081|NCT01634139|165045831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.041|STANDARD_ERROR_OF_MEAN|0.043||0.3375|TWO_SIDED|95.0|-0.043|0.125|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 24||0.125|-0.043|0.3375
82665082|NCT01634139|165045831|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.037|STANDARD_ERROR_OF_MEAN|0.043||0.388|TWO_SIDED|95.0|-0.047|0.121|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 24||0.121|-0.047|0.3880
82665083|NCT01634139|165045831|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.019|STANDARD_ERROR_OF_MEAN|0.043||0.6541|TWO_SIDED|95.0|-0.066|0.104|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R2.5 minus placebo|Week 48||0.104|-0.066|0.6541
82499461|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.96|STANDARD_ERROR_OF_MEAN|0.655||||90.0|-2.041|0.121|||ANCOVA|||Extension Month 18; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||0.121|-2.041|
82665084|NCT01634139|165045831|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.028|STANDARD_ERROR_OF_MEAN|0.043||0.5089|TWO_SIDED|95.0|-0.056|0.133|||Mixed Models Analysis|Repeated measures restricted maximum likelihood model|Difference calculated as Tio R5 minus placebo|Week 48||0.133|-0.056|0.5089
82665085|NCT00841659|165045857|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|99.96||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82665086|NCT00841659|165045858|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|93.58||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82665087|NCT00841659|165045859|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Ratio of LS Means x 100|94.29||||||90.0|||||||Bioequivalence is established when ratio of means falls within 80-125.|||||
82665088|NCT02420353|165045860|OTHER|||||||0.0498|||||||Mixed Models Analysis|||Mixed effect model||||0.0498
82665089|NCT02420353|165045861|OTHER|Mixed effects model||||||0.7024|||||||Mixed Models Analysis|||||||0.7024
82665090|NCT02420353|165045862|OTHER|Mixed effects model||||||0.135|||||||Mixed Models Analysis|||||||0.135
82665091|NCT02420353|165045863|OTHER|Mixed effects model||||||0.6836|||||||Mixed Models Analysis|||||||0.6836
82665092|NCT02420353|165045864|OTHER|mixed effects model||||||0.9271|||||||Mixed Models Analysis|||||||0.9271
82665093|NCT02420353|165045865|OTHER|mixed effects model||||||0.1576|||||||Mixed Models Analysis|||||||0.1576
82665094|NCT02420353|165045866|OTHER|mixed effects model||||||0.5586|||||||Mixed Models Analysis|||||||0.5586
82665095|NCT02420353|165045867|OTHER|mixed effects model||||||0.45|||||||Mixed Models Analysis|||||||0.45
82665096|NCT02420353|165045868|OTHER|mixed effects model||||||0.8573|||||||Mixed Models Analysis|||||||0.8573
82665097|NCT02420353|165045869|OTHER|mixed effects model||||||0.0564|||||||Mixed Models Analysis|||||||0.0564
82665098|NCT02420353|165045870|OTHER|mixed effects model||||||0.7883|||||||Mixed Models Analysis|||||||0.7883
82665099|NCT02420353|165045871|OTHER|mixed effects model||||||0.0901|||||||Mixed Models Analysis|||||||0.0901
82665100|NCT02420353|165045872|OTHER|mixed effects model||||||0.6292|||||||Mixed Models Analysis|||||||0.6292
82665101|NCT02420353|165045873|OTHER|mixed effects model||||||0.161|||||||Mixed Models Analysis|||||||0.161
82665102|NCT02420353|165045874|OTHER|mixed effects model||||||0.4437|||||||Mixed Models Analysis|||||||0.4437
82665103|NCT02420353|165045875|OTHER|mixed effects model||||||0.7325|||||||Mixed Models Analysis|||||||0.7325
82665104|NCT02420353|165045876|OTHER|Mixed effects analysis||||||0.6291|||||||Mixed Models Analysis|||||||0.6291
82665105|NCT02420353|165045877|OTHER|Mixed-effects model||||||0.3332|||||||Mixed Models Analysis|||||||0.3332
82665106|NCT02420353|165045878|OTHER|Mixed effects analysis||||||0.79|||||||Mixed Models Analysis|||||||0.79
82665107|NCT02420353|165045879|OTHER|Mixed effects analysis||||||0.4965|||||||Mixed Models Analysis|||||||0.4965
82665108|NCT02420353|165045880|OTHER|mixed effects analysis||||||0.1331|||||||Mixed Models Analysis|||||||0.1331
82665109|NCT02420353|165045881|OTHER|Mixed-model analysis||||||0.5251|||||||Mixed Models Analysis|||||||0.5251
82665110|NCT02420353|165045882|OTHER|Mixed effects analysis||||||0.1064|||||||Mixed Models Analysis|||||||0.1064
82665111|NCT02420353|165045883|OTHER|Mixed effects analysis||||||0.4852|||||||Mixed Models Analysis|||||||0.4852
82665112|NCT02420353|165045884|OTHER|||||||0.7943|||||||Mixed Models Analysis|||||||0.7943
82665113|NCT02420353|165045885|OTHER|||||||0.0894|||||||Mixed Models Analysis|||||||0.0894
82665114|NCT02420353|165045886|OTHER|Mixed effects analysis||||||0.0673|||||||Mixed Models Analysis|||||||0.0673
82665115|NCT02420353|165045887|OTHER|Mixed effects analysis||||||0.0185|||||||Mixed Models Analysis|||||||0.0185
82665116|NCT02420353|165045888|OTHER|mixed effects analysis||||||0.6094|||||||Mixed Models Analysis|||||||0.6094
82665117|NCT02420353|165045889|OTHER|mixed effects analysis||||||0.3279|||||||Mixed Models Analysis|||||||0.3279
82665118|NCT02420353|165045890|OTHER|mixed effects analysis||||||0.2802|||||||Mixed Models Analysis|||||||0.2802
82665119|NCT02420353|165045891|OTHER|||||||0.1064|||||||Mixed Models Analysis|||||||0.1064
82665120|NCT02420353|165045892|OTHER|mixed effects model||||||0.0509|||||||Mixed Models Analysis|||||||0.0509
82665121|NCT02420353|165045893|OTHER|mixed effects analysis||||||0.1605|||||||Mixed Models Analysis|||||||0.1605
82665122|NCT02420353|165045894|OTHER|mixed effects model||||||0.0357|||||||Mixed Models Analysis|||||||0.0357
82665123|NCT02420353|165045895|OTHER|mixed effects model||||||0.0122|||||||Mixed Models Analysis|||||||0.0122
82665124|NCT02420353|165045896|OTHER|mixed effects model||||||0.5853|||||||Mixed Models Analysis|||||||0.5853
82665125|NCT02420353|165045897|OTHER|mixed effects model||||||0.6288|||||||Mixed Models Analysis|||||||0.6288
82665126|NCT02420353|165045898|OTHER|mixed effects model||||||0.5022|||||||Mixed Models Analysis|||||||0.5022
82665127|NCT02420353|165045899|OTHER|mixed effects model||||||0.7507|||||||Mixed Models Analysis|||||||0.7507
82665128|NCT02420353|165045900|OTHER|mixed effects model|||||<|0.0001|||||||Mixed Models Analysis|||||||<.0001
82665129|NCT02420353|165045901|OTHER|mixed effects model||||||0.8581|||||||Mixed Models Analysis|||||||0.8581
82665130|NCT02420353|165045902|OTHER|mixed effects model||||||0.0208|||||||Mixed Models Analysis|||||||0.0208
82665131|NCT02420353|165045903|OTHER|Mixed effects model||||||0.8581|||||||Mixed Models Analysis|||||||0.8581
82665132|NCT00073307|165045907|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||0.146||95.0|0.74|1.04||According to O'Brien-Fleming type alpha spending function and total actual deaths at final analysis, threshold for statistical significance was alpha=0.037 (two-sided).|Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 33.3% improvement in median OS (i.e. HR of 0.75, Sorafenib over Placebo). With overall two-sided alpha of 0.04, 90% power and randomization of 1:1, two formal interim analyses and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of approximately 540 events (deaths) were required for the final analysis.||1.04|0.74|0.146
82665133|NCT00073307|165045908|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.78||||0.0287||95.0|0.62|0.97||According to O'Brien-Fleming type alpha spending function and total actual deaths at final analysis, threshold for statistical significance was alpha=0.037 (two-sided).|Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|Sample size based on primary efficacy endpoint of OS. Clinically meaningful improvement defined as 33.3% improvement in median OS (i.e. HR of 0.75, Sorafenib over Placebo). With overall two-sided alpha of 0.04, 90% power and randomization of 1:1, two formal interim analyses and one final analysis were planned using O'Brien-Fleming type error spending function, and a total of approximately 540 events (deaths) were required for the final analysis.||0.97|0.62|0.0287
82665134|NCT00073307|165045909|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.44|||<|1e-06||95.0|0.35|0.55|||Log Rank||Two treatment groups compared using log-rank test (Sorafenib over Placebo) stratified by country and Motzer category|The planned final PFS analysis was to be performed when approximately 363 progressions or deaths (if death occurred before progression) were observed. The analysis had power of 90% to detect a 50% increase in PFS using a two-sided alpha of 0.01||0.55|0.35|<0.000001
82665135|NCT00073307|165045910|SUPERIORITY_OR_OTHER||Difference in response rates (CR+PR)|-2.1||||||95.0|-3.7|-0.6|||Cochran-Mantel-Haenszel|Adjustments for country and Motzer category|difference in response rates (CR+PR) = Placebo - Sorafenib|||-0.6|-3.7|
82665136|NCT00073307|165045911|SUPERIORITY_OR_OTHER|||||||0.98|||||||random coefficient model|Random coefficient model adjusted for baseline Motzer score, baseline FKSI-10 score and relative day of FKSI-10 completion.||Approximately 200 subjects per group, assuming a 10% drop out rate, were required to detect a 2 point difference between sorafenib and placebo at approximately 80% power with a two-sided alpha of 0.05||||0.98
82665137|NCT00073307|165045912|SUPERIORITY_OR_OTHER|||||||0.83|||||||random coefficient model|Random coefficient model adjusted for baseline Motzer score, baseline PWB score and relative day of PWB completion.||Approximately 200 subjects per group, assuming a 10% drop out rate, were required to detect a 2 point difference between sorafenib and placebo at approximately 80% power with a two-sided alpha of 0.05||||0.83
82665138|NCT01438060|165045913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17||||0.802|TWO_SIDED|95.0|-1.15|1.49||Baseline data was evaluated by analysis of variance (ANOVA) with treatment and study center as main effects.|ANOVA||Model based estimate.|Analysis at Baseline (Day 0)||1.49|-1.15|0.802
82665139|NCT01438060|165045913|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.02||||0.169|TWO_SIDED|95.0|-2.49|0.44||ANCOVA model for LOCF data set included the baseline measure as covariate and the study center and treatment as main effects.|ANCOVA||Model based estimate|Analysis at Week 10||0.44|-2.49|0.169
82665140|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|0.79||||0.391|TWO_SIDED|95.0|0.47|1.35|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test with controlling for treatment and study center||Analysis at Week 1||1.35|0.47|0.391
82665141|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|0.95||||0.766|TWO_SIDED|95.0|0.69|1.31|||Cochran-Mantel-Haenszel|CMH test with controlling for treatment and study center||Analysis at Week 2||1.31|0.69|0.766
82665142|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|1.01||||0.967|TWO_SIDED|95.0|0.76|1.32||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 3||1.32|0.76|0.967
82665143|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|0.92||||0.505|TWO_SIDED|95.0|0.71|1.19||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 4||1.19|0.71|0.505
82665144|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|1.07||||0.59|TWO_SIDED|95.0|0.84|1.36||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 6||1.36|0.84|0.590
82665145|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|1.1||||0.374|TWO_SIDED|95.0|0.89|1.37||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 8||1.37|0.89|0.374
82665146|NCT01438060|165045916|SUPERIORITY_OR_OTHER||Response ratio|1.15||||0.175|TWO_SIDED|95.0|0.94|1.41||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at Week 10||1.41|0.94|0.175
82665147|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.88||||0.753|TWO_SIDED|95.0|0.41|1.92||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 1||1.92|0.41|0.753
82665148|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.9||||0.6|TWO_SIDED|95.0|0.62|1.32||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 2||1.32|0.62|0.600
82665149|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.93||||0.673|TWO_SIDED|95.0|0.65|1.31||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 3||1.31|0.65|0.673
82665150|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.83||||0.255|TWO_SIDED|95.0|0.6|1.14||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 4||1.14|0.60|0.255
82665151|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.99||||0.958|TWO_SIDED|95.0|0.74|1.33||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 6||1.33|0.74|0.958
82665152|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|0.92||||0.525|TWO_SIDED|95.0|0.71|1.19||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 8||1.19|0.71|0.525
82665153|NCT01438060|165045917|SUPERIORITY_OR_OTHER||Response ratio|1.07||||0.602|TWO_SIDED|95.0|0.82|1.4||CMH test with controlling for treatment and study center|Cochran-Mantel-Haenszel|||Analysis at week 10||1.40|0.82|0.602
82499462|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.667|STANDARD_ERROR_OF_MEAN|0.668||||90.0|-2.77|-0.565|||ANCOVA|||Extension Month 21; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.565|-2.770|
82665154|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.133||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 1||||0.133
82665155|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.282||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 2||||0.282
82665156|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.571||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 3||||0.571
82665157|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.895||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 4||||0.895
82665158|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.817||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 6||||0.817
82665159|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.795||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 8||||0.795
82665160|NCT01438060|165045921|SUPERIORITY_OR_OTHER|||||||0.564||95.0||||CMH Row Means test with controlling for study center|Cochran-Mantel-Haenszel|||Analysis at Week 10||||0.564
82665161|NCT01438060|165045923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.23||||0.733|TWO_SIDED|95.0|-1.08|1.54|||ANCOVA|||Analysis at baseline||1.54|-1.08|0.733
82665162|NCT01438060|165045923|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.35||||0.001|TWO_SIDED|95.0|-2.16|-0.54|||ANOVA|||Analysis at Week 10||-0.54|-2.16|0.001
82665163|NCT01149057|165045958|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||Analysis was performed using paired sample t-test for change from baseline.||||<0.0001
82665164|NCT01149057|165045959|SUPERIORITY_OR_OTHER|||||||0.3778|TWO_SIDED|||||P value by analysis of covariance (ANCOVA) for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of L1-L4 T-scores||||0.3778
82665165|NCT01149057|165045959|SUPERIORITY_OR_OTHER|||||||0.1541|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Total spine T-score||||0.1541
82665166|NCT01149057|165045959|SUPERIORITY_OR_OTHER|||||||0.789|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Total hip - left T-score||||0.7890
82665167|NCT01149057|165045959|SUPERIORITY_OR_OTHER|||||||0.7094|TWO_SIDED|||||P value by ANCOVA for the change from baseline, adjusted to number of days between the first and the second DXA test.|ANCOVA|||Comparison of Femoral neck - left T-scores.||||0.7094
82665168|NCT01149057|165045965|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 24||||<0.0001
82665169|NCT01149057|165045965|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 48||||<0.0001
82665170|NCT01149057|165045965|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 72||||<0.0001
82665171|NCT01149057|165045965|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 96||||<0.0001
82665172|NCT01149057|165045966|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665173|NCT01149057|165045967|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665174|NCT01149057|165045968|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665175|NCT01149057|165045969|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||Analysis was performed using paired sample t-test for change from baseline.||||<0.0001
82665176|NCT01149057|165045970|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665177|NCT01149057|165045971|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665178|NCT01149057|165045972|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Paired sample T-test|||||||<0.0001
82665179|NCT01149057|165045973|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 24||||<0.0001
82665180|NCT01149057|165045973|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 48||||<0.0001
82665181|NCT01149057|165045973|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 72||||<0.0001
82665182|NCT01149057|165045973|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||Change from baseline at Week 96||||<0.0001
82665183|NCT03499873|165045986|EQUIVALENCE|90% CI on the Test-to-Reference difference for the proportion of subjects with cure should be contained within the interval \[-0.20, +0.20\]|Mean Difference (Net)|-0.026|||||TWO_SIDED|90.0|-0.124|0.073||||||||0.073|-0.124|
82665184|NCT03499873|165045986|SUPERIORITY|||||||0.0005|||||||ANOVA|||||||0.0005
82665185|NCT03499873|165045986|SUPERIORITY|||||||0.0003|||||||ANOVA|||||||0.0003
82665186|NCT03602339|165045987|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.455|||<|0.0001|TWO_SIDED|95.0|0.347|0.562||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.562|0.347|< 0.0001
82665187|NCT03602339|165045988|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.18|||=|0.0151|TWO_SIDED|95.0|0.017|0.342||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.342|0.017|= 0.0151
82665188|NCT03602339|165045989|NON_INFERIORITY|"The score to evaluate the non-inferiority is calculated for each subject as (combined unenhanced/gadobutrol-enhanced - unenhanced) - 0.8\*(combined unenhanced/gadoterate-enhanced - unenhanced). The 95% CI is based on a t-distribution. The non-inferiority for gadobutrol is achieved if the one-sided p-value for H0: (gadobutrol minus unenhanced) - 0.8\*(gadoterate minus unenhanced) ≤ 0 is lower than 0.025."|Mean Difference (Final Values)|0.15|||=|0.01|TWO_SIDED|95.0|0.024|0.275||No type I error adjustment for multiple comparisons is needed because tests on all 3 primary efficacy variables must be significant to demonstrate primary efficacy.|Paired t-test|||Difference (gadobutrol minus unenhanced) - (gadoterate minus unenhanced)||0.275|0.024|= 0.0100
82665189|NCT03602339|165045990|NON_INFERIORITY|Non-inferiority margin is 0.35. If the lower limit of the 95% CI is \> -0.35, then non-inferiority is achieved.|Mean Difference (Final Values)|0.073|||||TWO_SIDED|95.0|-0.03|0.176||||||Difference (Gadobutrol - Gadoterate)||0.176|-0.030|
82665190|NCT03602339|165045991|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|-3.4|3.4|||||The 95% confidence intervals are based on McNemar's test.|Accuracy Difference (Gadobutrol - Gadoterate)||3.40|-3.40|
82665191|NCT03602339|165045991|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|-5.22|5.22|||||The 95% confidence intervals are based on McNemar's test.|Sensitivity Difference (Gadobutrol - Gadoterate)||5.22|-5.22|
82665192|NCT03602339|165045991|NON_INFERIORITY|Non-inferiority margin = 10%, if the lower limit of the confidence interval \> -10%, then non-inferiority is achieved.|Difference (Gadobutrol - Gadoterate)|0.0|||||TWO_SIDED|95.0|0.0|0.0|||||The 95% confidence intervals are based on McNemar's test. No continuity correction for calculation of the confidence interval was included. Zero cells lead to degenerated confidence interval.|Specificity Difference (Gadobutrol - Gadoterate)||0.00|0.00|
82665193|NCT03602339|165045992|OTHER||Mean Difference (Final Values)|0.076|||||TWO_SIDED|95.0|0.011|0.14||||||Difference (Gadobutrol - Gadoterate)||0.140|0.011|
82665194|NCT03602339|165045993|OTHER||Mean Difference (Final Values)|0.0||||0.9149|TWO_SIDED|95.0|-0.1|0.11|||Wilcoxon signed-rank test|||Comparison of image quality between gadobutrol and gadoterate||0.11|-0.10|0.9149
82665195|NCT03602339|165045994|OTHER||Mean Difference (Final Values)|-0.01968|||||TWO_SIDED|95.0|-0.03491|-0.00445||||||Difference (Gadobutrol-Gadoterate) for Relative score||-0.00445|-0.03491|
82665196|NCT03602339|165045994|OTHER||Mean Difference (Final Values)|0.00586|||||TWO_SIDED|95.0|-0.00589|0.01762||||||Difference (Gadobutrol-Gadoterate) for Full image score||0.01762|-0.00589|
82665197|NCT03602339|165045994|OTHER||Mean Difference (Final Values)|0.00139|||||TWO_SIDED|95.0|-0.00471|0.00749||||||Difference (Gadobutrol-Gadoterate) for Dice score||0.00749|-0.00471|
82665198|NCT03602339|165045996|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate), and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0049||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0049
82665199|NCT03602339|165045997|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate) and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0013||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0013
82665200|NCT03602339|165045998|EQUIVALENCE|An equivalence test was calculated using the two one-sided t-tests (TOST) procedure with null hypotheses H01: (gadobutrol - gadoterate) ≤ -0.05 \* (gadoterate) and H02: (gadobutrol - gadoterate) ≥ +0.05 \* (gadoterate).||||||0.0065||||||The overall p-value was calculated as max(p1, p2) where p1 and p2 are the results of null hypotheses H01 and H02 respectively.|Two one-sided t-tests (TOST)|||||||0.0065
82665201|NCT00840281|165046011|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|94.9|105.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||105|94.9|
82665202|NCT00840281|165046012|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.6|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||103|98.6|
82665203|NCT00840281|165046013|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|101.0||||||90.0|98.7|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||103|98.7|
82665204|NCT03306277|165046021|SUPERIORITY||||||<|0.0001|||||||One-sided Exact Binomial Test|||This comparison is made to an assumed rate of zero 0 (or as low as 0.1%). By definition, children with spinal muscular atrophy Type 1 are never able to sit independently.||||<0.0001
82665205|NCT03306277|165046022|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||This comparison is made against the results from the age and gender-matched control participants selected from existing natural history data sets (PNCR) \[Neurol. 2014; 83(9):810-817\].|Data for the current study were compared to historical control data (Finkel et al,2014 - PubMed 25080519) where event-free survival was 6 out of 23 participants (26.1%) at 14 months of age.|||<0.0001
82665206|NCT01968551|165046031|NON_INFERIORITY_OR_EQUIVALENCE|Null Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV was at least 12% lower than the group remaining on SBR with respect to percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 24. Alternative Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV is less than 12% lower than the group remaining on SBR with respect to the proportion of participants with HIV-1 RNA\<50 copies/mL at Week 24.|Difference in proportion|5.3||||0.23|TWO_SIDED|95.001|-3.4|17.4|||Fisher Exact||Difference in percentages of virologic success and its 95.001% confidence interval (CI) calculation was based on exact method. The exact CI was estimated based on unconditional exact method using 2 inverted 1-sided tests with standardized statistic.|||17.4|-3.4|0.23
82665207|NCT01968551|165046032|NON_INFERIORITY_OR_EQUIVALENCE|Null Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV was at least 12% lower than the group remaining on SBR with respect to percentage of participants with HIV-1 RNA \< 50 copies/mL at Week 48. Alternative Hypothesis: In Cohort 2, the group switching to E/C/F/TAF + DRV is less than 12% lower than the group remaining on SBR with respect to the proportion of participants with HIV-1 RNA \< 50 copies/mL at Week 48.|Difference in proportion|18.3||||0.004|TWO_SIDED|95.001|3.5|33.0|||Fisher Exact||Difference in percentages of virologic success and its 95.001% CI were calculated based on exact method. The exact CI was estimated based on unconditional exact method using 2 inverted 1-sided tests with the standardized statistic.|||33.0|3.5|0.004
82665208|NCT01087502|165046049|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|STANDARD_ERROR_OF_MEAN|0.09|<|0.0001||95.0|-0.6|-0.24|||ANCOVA|||||-0.24|-0.60|<0.0001
82665209|NCT01087502|165046051|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.29|STANDARD_ERROR_OF_MEAN|6.59||0.1602||95.0|-22.28|3.7|||ANCOVA|||||3.7|-22.28|0.1602
82499463|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.872|STANDARD_ERROR_OF_MEAN|0.692||||90.0|-3.013|-0.73|||ANCOVA|||Extension Month 24; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.730|-3.013|
82665210|NCT02705716|165046058|OTHER||Least Square (LS) Mean Difference|-0.12||||0.5191|TWO_SIDED|95.0|-0.497|0.252|||ANCOVA|From ANCOVA Model, Response: change from baseline in Schiff sensitivity score Factors: treatment \& site Covariates: baseline Schiff sensitivity score|Difference is first named dentifrice minus second named dentifrice such that a negative difference favors first named dentifrice.|||0.252|-0.497|0.5191
82665211|NCT01986647|165046061|SUPERIORITY_OR_OTHER|||||||0.2691|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.2691
82665212|NCT01986647|165046062|SUPERIORITY_OR_OTHER|||||||0.6087|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.6087
82665213|NCT01986647|165046063|SUPERIORITY_OR_OTHER|||||||0.0022|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.0022
82665214|NCT01986647|165046064|SUPERIORITY_OR_OTHER|||||||0.0344|||||||Mixed Models Analysis|linear mixed model due to clustering by facility and multiple imputation for missing data||||||0.0344
82665215|NCT01986647|165046065|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.89||||0.6879|TWO_SIDED|95.0|0.49|1.6|||Regression, Logistic|||||1.60|0.49|0.6879
82665216|NCT01986647|165046066|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.88||||0.5719|TWO_SIDED|95.0|0.56|1.37|||Regression, Logistic|||||1.37|0.56|0.5719
82665217|NCT01986647|165046067|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.56||||0.489|TWO_SIDED|95.0|0.44|5.53|||Regression, Logistic|||||5.53|0.44|0.489
82665218|NCT01986647|165046068|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.12||||0.2981|TWO_SIDED|95.0|0.37|26.6|||Regression, Logistic|||||26.6|0.37|0.2981
82665219|NCT01986647|165046069|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.9279|TWO_SIDED|95.0|0.3|3.74|||Regression, Logistic|||||3.74|0.30|0.9279
82665220|NCT01986647|165046070|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.17||||0.5835|TWO_SIDED|95.0|0.67|2.06|||Regression, Logistic|||||2.06|0.67|0.5835
82665221|NCT01986647|165046071|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.64|STANDARD_ERROR_OF_MEAN|0.46||0.18|TWO_SIDED||||||Mixed Models Analysis|||||||0.18
82665222|NCT01986647|165046072|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.51|STANDARD_ERROR_OF_MEAN|1.42||0.73|TWO_SIDED||||||Mixed Models Analysis|||||||0.73
82665223|NCT01986647|165046073|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.28||0.71|TWO_SIDED||||||Mixed Models Analysis|||||||0.71
82665224|NCT01986647|165046074|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.001|STANDARD_ERROR_OF_MEAN|0.004||0.77|TWO_SIDED||||||Mixed Models Analysis|||||||0.77
82665225|NCT01986647|165046075|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.11|STANDARD_ERROR_OF_MEAN|0.44||0.8|TWO_SIDED||||||Mixed Models Analysis|||||||0.80
82665226|NCT01986647|165046076|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.52||||0.0324|TWO_SIDED|95.0|0.29|0.95|||Regression, Logistic|||||0.95|0.29|0.0324
82665227|NCT02003391|165046106|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6191|||<|0.0001|ONE_SIDED|95.0||-3.8503|||ANCOVA|||||-3.8503||<0.0001
82665228|NCT02272803|165046111|SUPERIORITY||Hazard Ratio (HR)|0.83|||||TWO_SIDED|95.0|0.41|1.67|||||Hazard Ratio of E-Ld to Ld. Stratified by stage of disease (International Staging System 1 - 2 vs 3)|||1.67|0.41|
82665229|NCT02597049|165046135|SUPERIORITY||Mean Difference (Final Values)|-0.79|||<|0.001|TWO_SIDED|95.0|-0.97|-0.61|||Mixed Models Analysis|||||-0.61|-0.97|<.001
82665230|NCT02597049|165046135|SUPERIORITY||Mean Difference (Final Values)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.84|-0.49|||Mixed Models Analysis|||||-0.49|-0.84|< .001
82665231|NCT02597049|165046136|SUPERIORITY||Mean Difference (Final Values)|-0.82|||<|0.001|TWO_SIDED|95.0|-1.0|-0.64|||Mixed Models Analysis|||||-0.64|-1.00|<.001
82665232|NCT02597049|165046136|SUPERIORITY||Mean Difference (Final Values)|-0.69|||<|0.001|TWO_SIDED|95.0|-0.86|-0.51|||Mixed Models Analysis|||||-0.51|-0.86|<.001
82665233|NCT02597049|165046137|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Treatment-regimen Estimand||||< .001
82665234|NCT02597049|165046137|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Treatment-regimen Estimand||||< .001
82665235|NCT02597049|165046137|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Efficacy Estimand||||< .001
82665236|NCT02597049|165046137|SUPERIORITY||||||<|0.001|||||||Regression, Logistic|||Efficacy Estimand||||< .001
82665237|NCT02597049|165046138|SUPERIORITY||Mean Difference (Final Values)|-0.9||||0.027|TWO_SIDED|95.0|-1.8|-0.1|||Mixed Models Analysis|||Treatment-regimen Estimand||-0.1|-1.8|0.027
82665238|NCT02597049|165046138|SUPERIORITY||Mean Difference (Final Values)|-0.5||||0.264|TWO_SIDED|95.0|-1.3|0.4|||Mixed Models Analysis|||Treatment-regimen Estimand||0.4|-1.3|0.264
82665239|NCT02597049|165046138|SUPERIORITY||Mean Difference (Final Values)|-0.8||||0.059|TWO_SIDED|95.0|-1.7|0.0|||Mixed Models Analysis|||Efficacy Estimand||0.0|-1.7|0.059
82665240|NCT02597049|165046138|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.435|TWO_SIDED|95.0|-1.2|0.5|||Mixed Models Analysis|||Efficacy Estimand||0.5|-1.2|0.435
82665241|NCT02597049|165046139|SUPERIORITY||Mean Difference (Final Values)|-24.7|||<|0.001|TWO_SIDED|95.0|-30.8|-18.6|||ANCOVA|||Treatment-regimen Estimand||-18.6|-30.8|< .001
82665242|NCT02597049|165046139|SUPERIORITY||Mean Difference (Final Values)|-19.6|||<|0.001|TWO_SIDED|95.0|-25.7|-13.5||Test was not controlled for type I error.|ANCOVA|||Treatment-regimen Estimand||-13.5|-25.7|<0.001
82665243|NCT02597049|165046139|SUPERIORITY||Mean Difference (Final Values)|-26.6|||<|0.001|TWO_SIDED|95.0|-32.7|-20.6||Test was not controlled for type I error.|ANCOVA|||Efficacy Estimand||-20.6|-32.7|<0.001
82665244|NCT02597049|165046139|SUPERIORITY||Mean Difference (Final Values)|-20.7|||<|0.001|TWO_SIDED|95.0|-26.7|-14.6||Test was not controlled for type I error.|ANCOVA|||Efficacy Estimand||-14.6|-26.7|<0.001
82665245|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-19.7|||<|0.001|TWO_SIDED|95.0|-25.7|-13.8|||Mixed Models Analysis|||Pre-morning meal.||-13.8|-25.7|< .001
82665246|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-15.2|||<|0.001|TWO_SIDED|95.0|-21.2|-9.2|||Mixed Models Analysis|||Pre-morning meal||-9.2|-21.2|< .001
82665247|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-24.5|||<|0.001|TWO_SIDED|95.0|-33.8|-15.3|||Mixed Models Analysis|||2-hour postprandial||-15.3|-33.8|< .001
82665248|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-21.1|||<|0.001|TWO_SIDED|95.0|-30.3|-11.8|||Mixed Models Analysis|||2-hour postprandial||-11.8|-30.3|< .001
82665249|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-18.3|||<|0.001|TWO_SIDED|95.0|-26.4|-10.2|||Mixed Models Analysis|||Pre-midday meal||-10.2|-26.4|< .001
82665250|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-14.3|||<|0.001|TWO_SIDED|95.0|-22.5|-6.2|||Mixed Models Analysis|||Pre-midday meal||-6.2|-22.5|< .001
82665251|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-19.0|||<|0.001|TWO_SIDED|95.0|-28.8|-9.3|||Mixed Models Analysis|||2-hour postprandial after midday meal||-9.3|-28.8|< .001
82665252|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-12.8||||0.01|TWO_SIDED|95.0|-22.5|-3.1|||Mixed Models Analysis|||2-hour postprandial after midday meal||-3.1|-22.5|0.010
82665253|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-22.7|||<|0.001|TWO_SIDED|95.0|-30.7|-14.7|||Mixed Models Analysis|||Pre-evening meal||-14.7|-30.7|< .001
82665254|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-22.5|||<|0.001|TWO_SIDED|95.0|-30.7|-14.4|||Mixed Models Analysis|||Pre-evening meal||-14.4|-30.7|< .001
82665255|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-22.1|||<|0.001|TWO_SIDED|95.0|-31.4|-12.9|||Mixed Models Analysis|||2-hour postprandial after evening meal||-12.9|-31.4|< .001
82665256|NCT02597049|165046140|SUPERIORITY||Mean Difference (Final Values)|-16.7|||<|0.001|TWO_SIDED|95.0|-26.0|-7.4|||Mixed Models Analysis|||2-hour postprandial after evening meal||-7.4|-26.0|< .001
82665257|NCT02597049|165046141|SUPERIORITY||Mean Difference (Final Values)|-1.2||||0.032|TWO_SIDED|95.0|-2.3|-0.1|||ANCOVA|||Treatment-regimen Estimand||-0.1|-2.3|0.032
82665258|NCT02597049|165046141|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.273|TWO_SIDED|95.0|-1.7|0.5|||ANCOVA|||Treatment-regimen Estimand||0.5|-1.7|0.273
82665259|NCT02597049|165046141|SUPERIORITY||Mean Difference (Final Values)|-1.3||||0.023|TWO_SIDED|95.0|-2.4|-0.2|||ANCOVA|||Efficacy Estimand||-0.2|-2.4|0.023
82665260|NCT02597049|165046141|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.32|TWO_SIDED|95.0|-1.7|0.6|||ANCOVA|||Efficacy Estimand||0.6|-1.7|0.320
82665261|NCT02463487|165046146|OTHER|||||||0.87|||||||t-test, 1 sided|||||||0.87
82665262|NCT02463487|165046148|OTHER|||||||0.08|||||||t-test, 2 sided|||||||0.08
82665263|NCT03105297|165046179|SUPERIORITY|||||||0.0147||95.0||||p-value for comparing between treatments (strip/no strip) were computed from mixed models with treatment \& period as fixed effects, participants as random effects \& time as repeated measures effect.|ANCOVA|||||||0.0147
82665264|NCT03105297|165046180|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-values are from a one sample t-test using SAS UNIVARIATE on change from baseline.|t-test, 1 sided|||||||<0.0001
82665265|NCT03105297|165046181|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||p-values are from a one sample t-test using SAS UNIVARIATE on change from baseline.|t-test, 1 sided|||||||<0.0001
82665266|NCT03105297|165046182|SUPERIORITY_OR_OTHER|||||||0.0073||95.0||||p-values are from a one sample t-test using SAS (Statistical Analysis System) UNIVARIATE on change from baseline.|t-test, 1 sided|||||||0.0073
82665267|NCT01131260|165046248|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.31||||0.2|TWO_SIDED|95.0|0.87|1.98|||Chi-squared|||Analysis on primary composite outcome as a whole.||1.98|0.87|0.20
82665268|NCT01131260|165046250|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|3.02||||0.37|TWO_SIDED|95.0|0.31|29.1|||Fisher Exact|||||29.1|0.31|0.37
82665269|NCT01131260|165046251|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.86||||0.02|TWO_SIDED|95.0|1.13|7.24|||Chi-squared|||||7.24|1.13|0.02
82665270|NCT01131260|165046252|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.76||||1|TWO_SIDED|95.0|0.17|3.38|||Fisher Exact|||||3.38|0.17|1.0
82499464|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.887|STANDARD_ERROR_OF_MEAN|0.725||||90.0|-3.084|-0.69|||ANCOVA|||Extension Month 27; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.690|-3.084|
82665271|NCT01131260|165046253|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.37||||0.13|TWO_SIDED|95.0|0.1|1.41|||Chi-squared|||||1.41|0.10|0.13
82665272|NCT01131260|165046254|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.57||||0.07|TWO_SIDED|95.0|0.97|2.54|||Chi-squared|||||2.54|0.97|0.07
82665273|NCT01131260|165046255|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|0.81||||1|TWO_SIDED|95.0|0.22|3.0|||Fisher Exact|||||3.00|0.22|1.0
82665274|NCT01131260|165046256|SUPERIORITY_OR_OTHER|||||||0.17|||||||Chi-squared|||||||.17
82665275|NCT01131260|165046257|SUPERIORITY_OR_OTHER|||||||0.45||||||The p value was calculated based on the entire study cohort.|Chi-squared|||||||0.45
82665276|NCT01131260|165046259|SUPERIORITY_OR_OTHER|||||||0.32|||||||Wilcoxon (Mann-Whitney)|||||||.32
82665277|NCT01131260|165046260|SUPERIORITY_OR_OTHER|||||||0.35|||||||Chi-squared|||||||0.35
82665278|NCT01131260|165046261|SUPERIORITY_OR_OTHER|||||||0.4|||||||Chi-squared|||||||0.40
82665279|NCT01131260|165046262|SUPERIORITY_OR_OTHER|||||||0.59|||||||Chi-squared|||||||0.59
82665280|NCT01131260|165046263|SUPERIORITY_OR_OTHER|||||||0.19|||||||Chi-squared|||||||.19
82665281|NCT01131260|165046264|SUPERIORITY_OR_OTHER|||||||0.77|||||||Wilcoxon (Mann-Whitney)|||||||0.77
82665282|NCT01131260|165046265|SUPERIORITY_OR_OTHER|||||||0.28|||||||Chi-squared|||||||0.28
82665283|NCT01131260|165046266|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||0.54
82665284|NCT01131260|165046267|SUPERIORITY_OR_OTHER|||||||0.98|||||||Chi-squared|||||||0.98
82665285|NCT01131260|165046268|SUPERIORITY_OR_OTHER|||||||0.05|||||||Chi-squared|||||||.05
82665286|NCT03544216|165046276|OTHER||||||<|0.001||||||"Results of post-hoc analyses comparing scores of each lens type to one another:~Habitual lens and multifocal contact lens: p \<0.001 Habitual lens and single vision lens: p \<0.001 Multifocal lens and single vision lens: p = 0.08"|Generalized linear models|||Generalized linear models (controlling for repeated measures) of crossover analyses was run to compare mean CLDEQ-8 scores with habitual, multifocal, and single vision contact lenses (controlling for order)||||<0.001
82665287|NCT03544216|165046276|OTHER|||||||0.5||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and refractive error (continuous, mean binocular spherical equivalent)||||0.5
82665288|NCT03544216|165046276|OTHER|||||||0.7||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between magnitude in accommodative lag (measured in diopters with a 2 diopter visual target) and lens type (single vision or multifocal)||||0.7
82665289|NCT03544216|165046276|OTHER|||||||0.3||||||Analysis controlled for order, visit, and repeated measures.|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and age (continuous, measured in self-reported years)||||0.3
82665290|NCT03544216|165046276|OTHER|||||||0.047||||||Analysis controlled for order, visit, and repeated measures|Generalized linear model|||A generalized linear model was run to determine if there was an interaction between lens type (single vision or multifocal) and age (measured categorically as 30 to \<35 years old and 35 to 40 years old, by self report)|"Post-Hoc Testing comparing CLDEQ-8 scores and the interaction between lens type and age group (denoted by lens type\*age group) produced the following results:~p = 0.01 for MF\*\<35 age group compared to Single Vision (SV)\*\<35 age group p = 0.07 for MF\*\<35 age group compared to MF\*\>35 age group p \> 0.05 for MF\*\<35 age group compared to Single Vision (SV)\*\>35 age group p \> 0.05 for SV\*\<35 age group compared to SV\*\>35 age group p \>0.05 for SV\*\<35 age group compared to MF\*\>35 age group p \> 0.05 for MF\*\>35 age group compared to SV\*\>25 age group"|||0.047
82665291|NCT00840879|165046286|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|98.15||||||90.0|90.96|105.9|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||105.90|90.96|
82665292|NCT00840879|165046287|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|96.34||||||90.0|91.82|101.07|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101.07|91.82|
82665293|NCT00840879|165046288|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Test/Ref Ratio of LS Means x 100|97.76||||||90.0|93.31|102.42|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||102.42|93.31|
82665294|NCT00874276|165046289|SUPERIORITY_OR_OTHER||Kendall's Tau-B|0.6|STANDARD_ERROR_OF_MEAN|0.127||0.023|TWO_SIDED|95.0|0.35|0.85||This is the primary outcome, and there is no adjustment.|Wilcoxon (Mann-Whitney)|||We used a Wilcoxon test (and accompanying Kendal's Tau B) because these outcomes are outlier prone.||0.85|0.35|0.023
82665295|NCT00874276|165046290|SUPERIORITY_OR_OTHER||Kendall's Tau B|-0.23|STANDARD_ERROR_OF_MEAN|0.23||0.42|TWO_SIDED|95.0|-0.23|0.69|||Wilcoxon (Mann-Whitney)|||This is the same analysis as the previous, except we use the day 5 pharmacogenetics on the amount of time needed to clear one-half of dose of the drug. This is for the environmental dose. A positive (negative) Kendall's Tau is associated with the EGT allele being faster (slower) than lacking EGT in terms of metabolization of DCA.||0.69|-0.23|0.42
82665296|NCT02155257|165046338|OTHER||Slope|0.19||||0.54|TWO_SIDED|95.0|-0.39|0.76|||Regression, Linear|||Interaction between resting pupil diameter and correlation of cognitive-affective style to pain reporting. Note that this analysis is an INTERACTION between the primary outcome of this measure (pupil diameter) to that of the primary outcome measure of cognitive-affective style.||.76|-.39|0.540
82665297|NCT01851876|165046344|SUPERIORITY_OR_OTHER|||||||0.025||95.0|||||Fisher Exact|||||||0.025
82665298|NCT02034513|165046345|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was ≤1.10 or equivalently if the p-value for the 1-sided test of H0: RR \>1.10 against HA: RR ≤1.10 was less than 2.5%, where RR is the estimated rate ratio IDeg/IGlar.|Treatment ratio|0.89|||<|0.0001|TWO_SIDED|95.0|0.85|0.94|||Poisson||If non-inferiority was confirmed the superiority of IDeg/IGlar was investigated outside of the test hierarchy. Superiority was considered confirmed if the upper bound of the 2-sided 95% confidence interval was \<1.00.|Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in at least one maintenance period. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 1: Number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes during the maintenance period.||0.94|0.85|<0.0001
82665299|NCT02034513|165046346|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the 95% confidence interval for the rate ratio (IDeg/IGlar) was ≤1.10 or equivalently if the p-value for the 1-sided test of H0: RR \>1.10 against HA: RR ≤1.10 was less than 2.5%, where RR is the estimated rate ratio IDeg/IGlar.|Treatment ratio|0.64|||<|0.0001|TWO_SIDED|95.0|0.56|0.73|||Poisson||If non-inferiority was confirmed the superiority of IDeg/IGlar was investigated outside of the test hierarchy. Superiority was considered confirmed if the upper bound of the 2-sided 95% confidence interval was \<1.00.|Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in at least one maintenance period. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 2: Number of treatment-emergent severe or BG confirmed symptomatic nocturnal hypoglycaemic episodes during the maintenance period.||0.73|0.56|<0.0001
82665300|NCT02034513|165046347|SUPERIORITY_OR_OTHER|||||||0.0016||||||Superiority was confirmed if the p-value was less than 0.025.|McNemar|||Statistical analysis was performed on the FAS. Number of subjects analysed=subjects in the FAS, who were exposed in both the maintenance periods. Stepwise hierarchical testing procedure was applied for confirmatory endpoints: Step 3: Proportion of subjects with one or more severe hypoglycaemic episodes during the maintenance period.||||0.0016
82665301|NCT02034513|165046349|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%. Comparison groups: IDeg versus IGlar. Number of subjects included in analysis is 437 (n=220 for IDeg and n=217 for IGlar).|Treatment contrast|0.03|||||TWO_SIDED|95.0|-0.1|0.15||||||"Change from baseline in HbA1c at week 32 (treatment period 1). Before testing the primary endpoint, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as a prerequisite for testing the primary endpoint. Analysis was based on mixed model for repeated measurement (MMRM); treatment, sex, region, pre-trial insulin treatment regimen, visit and dosing time were fixed effects, and age and baseline HbA1c were covariates."||0.15|-0.10|
82492814|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.85||||0.6765|TWO_SIDED|90.0|-4.22|2.53|||ANCOVA|||Change at Day 15 12 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||2.53|-4.22|0.6765
82665302|NCT02034513|165046349|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.40%. Comparison groups: IDeg versus IGlar. Number of subjects included in analysis is 410 (n=202 for IDeg and n=208 for IGlar).|Treatment contrast|0.11|||||TWO_SIDED|95.0|0.0|0.23||||||"Change from baseline in HbA1c at week 64 (treatment period 2). The baseline values are week 32 values. Before the primary endpoint was tested, the secondary supportive efficacy endpoint Change from baseline in HbA1c after 32 weeks of treatment was tested for non-inferiority as prerequisite for testing the primary endpoint. Analysis was based on MMRM; treatment, sex, region, pre-trial insulin treatment regimen, visit and dosing time were fixed effects, and age and baseline HbA1c were covariates"||0.23|-0.00|
82665303|NCT02578641|165046362|SUPERIORITY||Hazard Ratio (HR)|1.19||||0.1942|TWO_SIDED|95.0|0.91|1.56||Between-treatment comparisons were assessed using stratified log-rank test stratified by country and disease stage per randomization stratification.|Log Rank|Log-rank test of Hazards Ration equals 1, using Cox proportional hazards regression.|Hazard ratios were estimated using Cox proportional hazards regression.|||1.56|0.91|0.1942
82665304|NCT01911429|165046398|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-8.0||||0.0003|TWO_SIDED|95.0|-12.4|-3.7|||LS mean difference (SE)|||"The sample size was estimated to provide at least 85% power to reject at least one of the null hypotheses of no difference between placebo and lurasidone doses.~LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM)."||-3.7|-12.4|0.0003
82665305|NCT01911429|165046398|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-7.7||||0.0006|TWO_SIDED|95.0|-12.1|-3.4|||LS mean difference (SE)|||"The sample size was estimated to provide at least 85% power to reject at least one of the null hypotheses of no difference between placebo and lurasidone doses.~LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM)."||-3.4|-12.1|0.0006
82665306|NCT01911429|165046399|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-0.47||||0.0003|TWO_SIDED|95.0|-0.73|-0.22|||LS mean difference (SE)|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.22|-0.73|0.0003
82665307|NCT01911429|165046399|SUPERIORITY_OR_OTHER||LS mean difference (SE)|-0.42||||0.0015|TWO_SIDED|95.0|-0.67|-0.16|||LS mean difference (SE)|||LS Mean, LS mean difference, and the associated 95% CI and p-value for change from baseline are based on Mixed Model for Repeated Measures (MMRM).||-0.16|-0.67|0.0015
82665308|NCT06078501|165046408|OTHER|||||||0.695||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.695
82665309|NCT06078501|165046409|OTHER|||||||0.91|||||||Mann-Whitney U test|The a priori threshold for statistical significance was \<0.05.||||||0.91
82665310|NCT06078501|165046410|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1.0
82665311|NCT06078501|165046411|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Fisher Exact|||||||1.0
82665312|NCT06078501|165046412|OTHER|||||||0.887||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.887
82665313|NCT06078501|165046413|OTHER|||||||0.887||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||0.887
82665314|NCT06078501|165046415|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82665315|NCT06078501|165046416|OTHER|||||||1||||||The a priori threshold for statistical significance was \<0.05.|Mann-Whitney U test|||||||1.0
82665316|NCT06078501|165046417|OTHER|||||||1|||||||Fisher Exact|||||||1.0
82665317|NCT01694563|165046424|SUPERIORITY|||||||0.05|||||||Fisher Exact|||The primary effectiveness hypothesis for this study was to demonstrate a superiority success rate at 36-months follow-up in patients treated with the AtriCure Synergy Ablation System compared to a pre-established performance goal.||||0.05
82665318|NCT01694563|165046425|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0|||||||90% confidence interval calculated using the Clopper-Pearson method.|Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 12 months post-operatively.||||
82665319|NCT01694563|165046425|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0|||||||90% confidence interval calculated using the Clopper-Pearson method.|Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 24 months post-operatively.||||
82665320|NCT01694563|165046425|SUPERIORITY||Clopper-Pearson|90.0|||||TWO_SIDED|90.0||||||||Secondary success was defined as freedom from AF regardless of antiarrhythmic drug usage at 36 months post-operatively.|90% confidence interval using the Clopper-Pearson method.|||
82665321|NCT00672984|165046545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.43||||||90.0|-4.52|-0.34||||||||-0.34|-4.52|
82665322|NCT00672984|165046545|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.87||||||90.0|11.45|16.29||||||||16.29|11.45|
82665323|NCT00672984|165046546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.08||||||90.0|-11.37|-4.78||||||||-4.78|-11.37|
82665324|NCT00672984|165046546|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|13.13||||||90.0|9.33|16.93||||||||16.93|9.33|
82665325|NCT00672984|165046547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.98||||||90.0|-1.07|3.03||||||||3.03|-1.07|
82665326|NCT00672984|165046547|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.11||||||90.0|8.97|13.24||||||||13.24|8.97|
82665327|NCT00672984|165046548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.64||||||90.0|-0.99|4.27||||||||4.27|-0.99|
82665328|NCT00672984|165046548|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.8||||||90.0|7.63|13.97||||||||13.97|7.63|
82665329|NCT00672984|165046549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.76||||||90.0|-8.01|-5.51||||||||-5.51|-8.01|
82665330|NCT00672984|165046549|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.73||||||90.0|3.08|6.38||||||||6.38|3.08|
82665331|NCT00672984|165046550|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-19.85||||||90.0|-21.92|-17.78||||||||-17.78|-21.92|
82665332|NCT00672984|165046550|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.44||||||90.0|1.77|5.11||||||||5.11|1.77|
82665333|NCT00672984|165046551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|15.32||||||90.0|11.75|18.89||||||||18.89|11.75|
82665334|NCT00672984|165046551|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.93||||||90.0|-2.77|4.63||||||||4.63|-2.77|
82665335|NCT00672984|165046552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|49.85||||||90.0|44.71|54.98||||||||54.98|44.71|
82665336|NCT00672984|165046552|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.63||||||90.0|-0.41|7.66||||||||7.66|-0.41|
82665337|NCT03966911|165046596|SUPERIORITY||Intercept from ANCOVA as agreement rate|88.0|||<|0.041|TWO_SIDED|91.8|86.05|89.95|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||89.95|86.05|<0.041
82665338|NCT03966911|165046596|SUPERIORITY||Intercept from ANCOVA as agreement rate|87.96|||<|0.041|TWO_SIDED|91.8|86.13|89.8|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||89.80|86.13|<0.041
82665339|NCT03966911|165046596|SUPERIORITY||Intercept from ANCOVA as agreement rate|84.59||||0.041|TWO_SIDED|91.8|82.02|87.17|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||87.17|82.02|0.041
82665340|NCT03966911|165046596|SUPERIORITY||Intercept from ANCOVA as agreement rate|81.05|||<|0.041|TWO_SIDED|91.8|77.58|84.53|||ANCOVA|A generalized estimating equation model was used, considering correlation structure of day of sensor wear (1-7).|A group sequential study design was utilized to perform interim analysis. For the final stage, the p-value is 0.041.|||84.53|77.58|<0.041
82665341|NCT00985751|165046597|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 95% CI for the difference between groups in the percentage of subjects with rectal temperature \> 40.0°C within the 7-day follow-up period following primary vaccination was computed for the Synflorix/GSK 2189242A Group minus Synflorix Group. No statistically significant difference between groups in rectal temperature \>40.0°C would be detected if the 95% CIs included 0 and non-inferiority would|Difference in percentage|0.97|||||TWO_SIDED|95.0|-6.1|5.32||||||Fever \>40°C-non-inferiority: To compare the 2 formulations of GSK Biologicals' S. pneumoniae protein containing vaccine (GSK 2189242A) combined with Synflorix™ vaccine (pooled groups) versus Synflorix™ vaccine (Synflorix/GSK 2189242A Group minus Synflorix Group) with respect to the percentage of subjects reporting fever \> 40.0°C (rectal temperature) within 7 days after at least 1 dose of primary vaccination.||5.32|-6.1|
82665342|NCT00985751|165046598|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The 95% CI for the difference between groups in the percentage of subjects with rectal temperature \> 40.0°C within the 7-day follow-up period following primary vaccination was computed for the GSK 2189242A Group minus Synflorix Group. No statistically significant difference between groups in rectal temperature \>40.0°C would be detected if the 95% CIs included 0 and non-inferiority would be express|Difference in percentage|0.97|||||TWO_SIDED|95.0|-6.1|5.32||||||Fever \>40°C-non-inferiority: To compare the 2 formulations of GSK Biologicals' S. pneumoniae protein containing vaccine GSK 2189242A (pooled groups) versus Synflorix™ vaccine (GSK 2189242A Group minus Synflorix Group) with respect to the percentage of subjects reporting fever \> 40.0°C (rectal temperature) within 7 days after at least 1 dose of primary vaccination.||5.32|-6.1|
82665343|NCT00380588|165046610|SUPERIORITY_OR_OTHER|||||||0.38||95.0||||P-value for response (Complete Response + Partial Response).|Fisher Exact|||||||0.380
82665344|NCT00380588|165046611|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Log Rank|||||||0.074
82665345|NCT00380588|165046612|SUPERIORITY_OR_OTHER|||||||0.136||95.0|||||Log Rank|||||||0.136
82665346|NCT01046084|165046643|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|103.0|||||TWO_SIDED|90.0|86.5|123.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123|86.5|
82665347|NCT01046084|165046644|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|104.0|||||TWO_SIDED|90.0|89.3|120.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||120|89.3|
82665348|NCT01046084|165046645|NON_INFERIORITY_OR_EQUIVALENCE|ANOVA is to be used to identify the source contributions by factors including subjects, period, formulation and potential interactions. The geometric mean ratio together with the ANOVA residual mean error term are used to identify the statistical basis for the 90% confidence interval for the ratio of the population means (Test \[T\]/Reference\[R\]) of the identified metrics (e.g. AUC, Cmax).|Ratio of the T/R geometric mean x 100|107.0|||||TWO_SIDED|90.0|92.5|123.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||123|92.5|
82665349|NCT04476277|165046722|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82665350|NCT04476277|165046724|OTHER|||||||0.28|||||||t-test, 2 sided|||||||0.28
82665351|NCT04476277|165046725|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82665352|NCT04476277|165046726|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82665353|NCT04476277|165046727|OTHER|||||||0.01|||||||t-test, 2 sided|||||||0.01
82665354|NCT04476277|165046728|OTHER|||||||0.65|||||||t-test, 2 sided|||||||0.65
82665355|NCT04476277|165046729|OTHER|||||||0.48|||||||t-test, 2 sided|||||||0.48
82665356|NCT04476277|165046730|OTHER|||||||0.99|||||||t-test, 2 sided|||||||0.99
82665357|NCT04476277|165046731|OTHER|||||||0.39|||||||t-test, 2 sided|||||||0.39
82665358|NCT04476277|165046732|OTHER|||||||0.43|||||||t-test, 2 sided|||||||0.43
82665359|NCT04476277|165046733|OTHER||||||<|0.01|||||||t-test, 2 sided|||||||<0.01
82665360|NCT04476277|165046734|OTHER|||||||0.01|||||||t-test, 1 sided|||||||0.01
82665361|NCT04476277|165046735|OTHER|||||||0.04|||||||t-test, 2 sided|||||||0.04
82665362|NCT01390948|165046757|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.44||||0.1292|TWO_SIDED|95.0|0.9|2.3|||Log Rank|||||2.30|0.90|0.1292
82665363|NCT05740098|165046779|SUPERIORITY||Odds Ratio (OR)|5.378|||<|0.001|TWO_SIDED|95.0|2.278|12.689|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||12.689|2.278|<0.001
82665364|NCT05740098|165046779|SUPERIORITY||Odds Ratio (OR)|3.668||||0.003|TWO_SIDED|95.0|1.538|8.747|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||8.747|1.538|0.003
82665365|NCT05740098|165046779|SUPERIORITY||Odds Ratio (OR)|0.682||||0.256|TWO_SIDED|95.0|0.352|1.321|||Mixed Models Analysis|||Analysis tested for significant main effects of treatment condition on 7-day point prevalence abstinence at 12- and 24-week assessments||1.321|0.352|0.256
82665366|NCT05740098|165046779|SUPERIORITY||||||<|0.001|||||||Mixed Models Analysis|||Analysis tested for significant main effect of time on 7-day point prevalence abstinence at 12- and 24-week assessments||||<0.001
82665367|NCT05740098|165046780|SUPERIORITY||Mean Difference (Final Values)|0.39|STANDARD_ERROR_OF_MEAN|0.365||0.287|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.287
82665368|NCT05740098|165046780|SUPERIORITY||Mean Difference (Final Values)|-0.597|STANDARD_ERROR_OF_MEAN|0.369||0.108|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.108
82665369|NCT05740098|165046780|SUPERIORITY||Mean Difference (Final Values)|-0.987|STANDARD_ERROR_OF_MEAN|0.361||0.007|TWO_SIDED||||||Mixed Models Analysis|||Analysis tested for significant main effect of treatment condition on Child Urine Cotinine||||0.007
82665370|NCT05740098|165046780|SUPERIORITY|||||||0.878|||||||Mixed Models Analysis|||Analysis tested for significant main effect of time on Child Urine Cotinine||||0.878
82665371|NCT05740098|165046781|SUPERIORITY||Chi-Square Test Statistic|6.909||||0.009|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.009
82665372|NCT05740098|165046781|SUPERIORITY||Chi-Square Test Statistic|4.287||||0.038|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.038
82665373|NCT05740098|165046781|SUPERIORITY||Chi-Square Test Statistic|0.392||||0.531|TWO_SIDED||||||Chi-squared|Degrees of freedom = 1||Analysis tested for significant main effect of treatment condition on continuous abstinence at 24 weeks following quit date||||0.531
82665374|NCT05740098|165046782|SUPERIORITY||Chi-Square Test Statistic|3.859||||0.145|TWO_SIDED||||||Chi-squared|Degrees of freedom = 2||Analysis tested for significant main effect of treatment condition on 7-day point prevalence abstinence at 48-week follow-up||||0.145
82665375|NCT05740098|165046783|SUPERIORITY||Wald Chi-Square Test Statistic|1.454||||0.228|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 6-weeks following quit date adjusting for treatment condition.||||0.228
82665376|NCT05740098|165046783|SUPERIORITY||Wald Chi-Square Test Statistic|2.7||||0.1|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 12-weeks following quit date adjusting for treatment condition.||||0.10
82665377|NCT05740098|165046783|SUPERIORITY||Wald Chi-Square Test Statistic|3.202||||0.074|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 24-weeks following quit date adjusting for treatment condition.||||0.074
82665378|NCT05740098|165046783|SUPERIORITY||Wald Chi-Square Test Statistic|0.491||||0.484|TWO_SIDED||||||Regression, Logistic|||Analysis tested for significant main effect of baseline temporal discounting on point-prevalence abstinence at 48-weeks following quit date adjusting for treatment condition.||||0.484
82665379|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|1.063||||0.302|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 6-weeks following quit date||||0.302
82665380|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.788||||0.375|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 12-weeks following quit date||||0.375
82665381|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.08||||0.777|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 24-weeks following quit date||||0.777
82665382|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.006||||0.937|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Amplitude) and abstinence at 48-weeks following quit date||||0.937
82665383|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.172||||0.678|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 6-weeks following quit date||||0.678
82665384|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|7.99||||0.018|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant interaction between baseline price sensitivity (latent factor Persistence) and treatment condition for 6-week abstinence outcome||||0.018
82665385|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.177||||0.674|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 12-weeks following quit date||||0.674
82665386|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.646||||0.422|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 24-weeks following quit date||||0.422
82665387|NCT05740098|165046784|SUPERIORITY||Wald Chi-Square Test Statistic|0.038||||0.846|TWO_SIDED||||||Regression, Logistic|||The analysis tested for significant association between baseline price sensitivity (latent factor Persistence) and abstinence at 48-weeks following quit date||||0.846
82665388|NCT03867760|165046789|SUPERIORITY|The study was designed to detect a difference in pain intensity of at least 0.85 points corresponding to an effect size of 0.57 based on results from our pilot study. The sample size needed was 50 per group based on power of .80, alpha of .05.||||||0.809||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in addition to baseline pain medications in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in pain intensity than cancer survivors assigned to the relaxation intervention.||||0.809
82665389|NCT03867760|165046790|SUPERIORITY|||||||0.369||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in addition to baseline pain medications in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in pain interference than cancer survivors assigned to the relaxation intervention.||||0.369
82665390|NCT03867760|165046791|SUPERIORITY|||||||0.029||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in anxiety than cancer survivors assigned to the relaxation intervention.||||0.029
82665391|NCT03867760|165046792|SUPERIORITY|||||||0.236||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in depression than cancer survivors assigned to the relaxation intervention.||||0.236
82665392|NCT03867760|165046793|SUPERIORITY|||||||0.904||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in fatigue than cancer survivors assigned to the relaxation intervention.||||0.904
82665393|NCT03867760|165046794|SUPERIORITY|||||||0.936||||||An a priori significance level was set at 0.05.|ANCOVA|We controlled for pre-treatment scores in the ANCOVA analysis.||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention for 28 days will not report significantly greater pre- to post-treatment decreases in sleep disturbance than cancer survivors assigned to the relaxation intervention.||||0.936
82665394|NCT03867760|165046795|SUPERIORITY|||||||0.02||||||An a priori significance level was set at 0.05.|t-test, 2 sided|||Null Hypothesis: Cancer survivors with chronic pain assigned to the daily use of the hypnosis intervention who experience a clinically meaningful improvement in pain intensity will not have a significantly higher pre-treatment treatment credibility and expectancy score than non-improvers.||||0.02
82665395|NCT01073631|165046797|SUPERIORITY_OR_OTHER||Efficacy rate (percent)|78.9|||||TWO_SIDED|95.0|75.07|82.73|||Normal approximation to binomial||Confidence Interval (CI) by normal approximation to binomial.|Efficacy Rate (treatment effective) = Percentage of evaluable participants with clinical response of cure or improvement||82.73|75.07|
82665396|NCT01894230|165046842|EQUIVALENCE|Month 3|Slope|-0.0189|STANDARD_ERROR_OF_MEAN|0.3986||0.96|TWO_SIDED||||||Regression, Linear|||||||0.96
82665397|NCT01894230|165046842|EQUIVALENCE|Month 8|Slope|-0.2468|STANDARD_ERROR_OF_MEAN|0.4315||0.57|TWO_SIDED||||||Regression, Linear|||||||0.57
82665398|NCT01894230|165046843|EQUIVALENCE|Month 3|Slope|-11.32|STANDARD_ERROR_OF_MEAN|5.68||0.0482|TWO_SIDED||||||Regression, Linear|||||||0.0482
82665399|NCT01894230|165046843|EQUIVALENCE|Month 8|Slope|-9.9|STANDARD_ERROR_OF_MEAN|6.333||0.12|TWO_SIDED||||||Regression, Linear|||||||0.12
82665400|NCT01894230|165046844|EQUIVALENCE|MPR calculated from baseline to last patient follow-up (3 months or 8 months)|Slope|-0.053|STANDARD_ERROR_OF_MEAN|0.091||0.6692|TWO_SIDED||||||Regression, Linear|||||||0.6692
82665401|NCT01894230|165046845|EQUIVALENCE|Baseline to Month 3|Odds Ratio (OR)|2.025||||0.0371|TWO_SIDED|95.0|1.043|3.929|||Regression, Logistic|||||3.929|1.043|0.0371
82665402|NCT01894230|165046845|EQUIVALENCE|Month 3 to Month 8|Odds Ratio (OR)|1.115||||0.8815|TWO_SIDED|95.0|0.265|4.687|||Regression, Logistic|||||4.687|0.265|0.8815
82665403|NCT01894230|165046846|EQUIVALENCE|Month 3|Slope|0.143|STANDARD_ERROR_OF_MEAN|0.27||0.5965|TWO_SIDED||||||Regression, Linear|||||||0.5965
82665404|NCT01894230|165046846|EQUIVALENCE|Month 8|Slope|0.258|STANDARD_ERROR_OF_MEAN|0.346||0.4579|TWO_SIDED||||||Regression, Linear|||||||0.4579
82665405|NCT01894230|165046847|EQUIVALENCE|Month 3|Slope|0.098|STANDARD_ERROR_OF_MEAN|0.163||0.5477|TWO_SIDED||||||Regression, Linear|||||||0.5477
82665406|NCT01894230|165046847|EQUIVALENCE|Month 8|Slope|0.298|STANDARD_ERROR_OF_MEAN|0.145||0.0429|TWO_SIDED||||||Regression, Linear|||||||0.0429
82492815|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.99||||0.6221|TWO_SIDED|90.0|-2.35|4.33|||ANCOVA|||Change at Day 15 4 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.33|-2.35|0.6221
82665407|NCT01894230|165046848|EQUIVALENCE|Month 3|Slope|-0.211|STANDARD_ERROR_OF_MEAN|0.881||0.8106|TWO_SIDED||||||Regression, Linear|||||||0.8106
82665408|NCT01894230|165046848|EQUIVALENCE|Month 8|Slope|0.646|STANDARD_ERROR_OF_MEAN|1.009||0.5233|TWO_SIDED||||||Regression, Linear|||||||0.5233
82665409|NCT01894230|165046849|EQUIVALENCE|Month 3|Slope|-0.6001|STANDARD_ERROR_OF_MEAN|1.472||0.6841|TWO_SIDED||||||Regression, Linear|||||||0.6841
82665410|NCT01894230|165046849|EQUIVALENCE|Month 8|Slope|-0.771|STANDARD_ERROR_OF_MEAN|1.781||0.6658|TWO_SIDED||||||Regression, Linear|||||||0.6658
82665411|NCT01894230|165046850|EQUIVALENCE|Month 8|Odds Ratio (OR)|1.085||||0.8384|TWO_SIDED|95.0|0.495|2.38|||Regression, Logistic|Ordinal Logistic||||2.380|0.495|0.8384
82665412|NCT01894230|165046851|EQUIVALENCE|Month 3 BMQ Necessity|Slope|1.163|STANDARD_ERROR_OF_MEAN|0.584||0.0486|TWO_SIDED||||||Regression, Linear|||||||0.0486
82665413|NCT01894230|165046851|EQUIVALENCE|Month 8, BMQ Necessity|Slope|0.248|STANDARD_ERROR_OF_MEAN|0.67||0.7235|TWO_SIDED||||||Regression, Linear|||||||0.7235
82665414|NCT01894230|165046851|EQUIVALENCE|Month 3, BMQ Concerns|Slope|-0.862|STANDARD_ERROR_OF_MEAN|0.686||0.2113|TWO_SIDED||||||Regression, Linear|||||||0.2113
82665415|NCT01894230|165046851|EQUIVALENCE|Month 8, BMQ Concerns|Slope|-1.0083|STANDARD_ERROR_OF_MEAN|0.737||0.1739|TWO_SIDED||||||Regression, Linear|||||||0.1739
82665416|NCT00660387|165046857|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.91|STANDARD_ERROR_OF_MEAN|0.57||0.0015|TWO_SIDED|95.0|-3.05|-0.76||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline and the natural logarithm of the mean daily dose of rescue medication on valid symptom diary days as covariates.|ANCOVA|||||-0.76|-3.05|0.0015
82665417|NCT00660387|165046858|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.86|STANDARD_ERROR_OF_MEAN|0.65||0.0059|TWO_SIDED|95.0|0.56|3.17|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||3.17|0.56|0.0059
82665418|NCT00660387|165046859|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-7.0|STANDARD_ERROR_OF_MEAN|2.8||0.0155|TWO_SIDED|95.0|-12.6|-1.4||Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the CGI-Severity (CGI-S, see Baseline Characteristics module) as a covariate.|ANCOVA|||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-1.4|-12.6|0.0155
82665419|NCT00660387|165046860|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.7|STANDARD_ERROR_OF_MEAN|0.3||0.0258|TWO_SIDED|95.0|-1.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the baseline CGI-S as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.1|-1.4|0.0258
82665420|NCT00660387|165046861|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.0|STANDARD_ERROR_OF_MEAN|1.1||0.0086|TWO_SIDED|95.0|-5.3|-0.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||-0.8|-5.3|0.0086
82665421|NCT00660387|165046862|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|1.4|STANDARD_ERROR_OF_MEAN|2.1||0.502|TWO_SIDED|95.0|-2.8|5.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||5.6|-2.8|0.5020
82665422|NCT00660387|165046863|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.07|STANDARD_ERROR_OF_MEAN|0.038||0.067|TWO_SIDED|95.0|-0.005|0.146|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding Baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||0.146|-0.005|0.0670
82665423|NCT00660387|165046864|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.1||0.1501|TWO_SIDED|95.0|-10.7|1.7|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||Since the null hypothesis for the primary analysis was rejected in favor of the alternative hypothesis, hierarchical testing was performed for secondary variables on the Full Analysis data set at the 0.50 level using a gatekeeping procedure to preserve family-wise error rate.||1.7|-10.7|0.1501
82665424|NCT00660387|165046865|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.08|STANDARD_ERROR_OF_MEAN|0.45||0.8574|TWO_SIDED|95.0|-0.98|0.82|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.82|-0.98|0.8574
82665425|NCT00660387|165046866|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-10.4|STANDARD_ERROR_OF_MEAN|4.3||0.0184|TWO_SIDED|95.0|-19.1|-1.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-1.8|-19.1|0.0184
82665426|NCT00660387|165046867|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-11.6|STANDARD_ERROR_OF_MEAN|4.5||0.0129|TWO_SIDED|95.0|-20.6|-2.5|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-2.5|-20.6|0.0129
82665427|NCT00660387|165046868|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-2.2|STANDARD_ERROR_OF_MEAN|3.4||0.5246|TWO_SIDED|95.0|-9.0|4.6|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.6|-9.0|0.5246
82665428|NCT00660387|165046869|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.5|STANDARD_ERROR_OF_MEAN|3.8||0.2423|TWO_SIDED|95.0|-12.0|3.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||3.1|-12.0|0.2423
82665429|NCT00660387|165046870|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.8|STANDARD_ERROR_OF_MEAN|3.1||0.2243|TWO_SIDED|95.0|-9.9|2.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.4|-9.9|0.2243
82665430|NCT00660387|165046871|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-4.0|STANDARD_ERROR_OF_MEAN|3.4||0.2407|TWO_SIDED|95.0|-10.8|2.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||2.8|-10.8|0.2407
82665431|NCT00660387|165046872|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-13.8|STANDARD_ERROR_OF_MEAN|3.5||0.0002|TWO_SIDED|95.0|-20.8|-6.8|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-6.8|-20.8|0.0002
82665432|NCT00660387|165046873|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-3.3|STANDARD_ERROR_OF_MEAN|5.1||0.5213|TWO_SIDED|95.0|-13.6|6.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||6.9|-13.6|0.5213
82665433|NCT00660387|165046874|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.3741|TWO_SIDED|95.0|-0.4|0.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.9|-0.4|0.3741
82665434|NCT00660387|165046875|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0361|TWO_SIDED|95.0|-2.4|-0.1|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||-0.1|-2.4|0.0361
82665435|NCT00660387|165046876|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.3578|TWO_SIDED|95.0|-1.1|0.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||0.4|-1.1|0.3578
82665436|NCT00660387|165046877|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|-1.5|STANDARD_ERROR_OF_MEAN|2.9||0.6088|TWO_SIDED|95.0|-7.4|4.4|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||4.4|-7.4|0.6088
82665437|NCT00660387|165046878|SUPERIORITY_OR_OTHER||Treatment Difference (LS Mean)|11.4|STANDARD_ERROR_OF_MEAN|3.7||0.0033|TWO_SIDED|95.0|4.0|18.9|||ANCOVA|Treatment comparisons are based on an ANCOVA model including effects for treatment, country, and with the corresponding baseline as a covariate.||||18.9|4.0|0.0033
82665438|NCT00202839|165046883|SUPERIORITY_OR_OTHER|||||||0.1651||95.0|||||Chi-squared|||||||0.1651
82665439|NCT01472432|165046885|SUPERIORITY_OR_OTHER||||||<|0.05||||||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."|t-test, 2 sided|"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||||<0.05
82665440|NCT01472432|165046886|SUPERIORITY_OR_OTHER||||||<|0.05||||||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months"|t-test, 2 sided|"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months"||"* Vildagliptin vs Placebo at 3 months.~* Placebo baseline versus placebo 3 months.~* Vildagliptin baseline versus Vildagliptin 3 months."||||<0.05
82665441|NCT01472432|165046887|SUPERIORITY_OR_OTHER||||||<|0.05||||||P-values from multiple comparisons: placebo at baseline vs. placebo at 3 months; placebo at 3 months vs. Vildagliptin at 3 months; Vildagliptin at baseline vs. Vildagliptin at 3 months. P\< 0.05 versus control patients. P \< 0.05 versus baseline.|t-test, 2 sided|||p-values from multiple comparisons: placebo at baseline vs. placebo at 3 months; placebo at 3 months vs. Vildagliptin at 3 months; Vildagliptin at baseline vs. Vildagliptin at 3 months.||||<0.05
82665442|NCT01472432|165046888|SUPERIORITY_OR_OTHER||||||<|0.05||||||P\< 0.05 versus control patients. P \< 0.05 versus baseline|t-test, 2 sided|||||||<0.05
82665443|NCT00642993|165046891|SUPERIORITY_OR_OTHER||Difference in means|0.41||||0.187|TWO_SIDED|95.0|-0.2|1.03|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||1.03|-0.20|0.187
82665444|NCT00642993|165046892|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58||||0.14|TWO_SIDED|95.0|0.28|1.2|||Cochran-Mantel-Haenszel|The P-value is from the Cochran-Mantel-Haenszel Test adjusting for gender.||||1.20|0.28|0.140
82665445|NCT00642993|165046893|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.55||||0.515|TWO_SIDED|95.0|0.24|9.93|||Cochran-Mantel-Haenszel|The p-value is from the Cochran-Mantel-Haenszel Test adjusting for gender.||||9.93|0.24|0.515
82665446|NCT00642993|165046894|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.28||||0.543|TWO_SIDED|95.0|-1.2|0.63|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||0.63|-1.20|0.543
82665447|NCT00642993|165046895|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.231|TWO_SIDED|95.0|-0.09|0.35|||ANOVA|Mean and standard error are least squares means and corresponding standard errors based on an ANOVA model with main effects for treatment.||||0.35|-0.09|0.231
82665448|NCT02583048|165046896|SUPERIORITY||Mean Difference (Net)|8.4|||||TWO_SIDED|95.1|2.0|14.8|||||Arm 3 minus Arm 1 difference in change from baseline estimated from ANOVA model. Interim analysis conducted when week 24 QT data was available for ≥12 participants stipulated 99.9% confidence interval; original coverage of 95% was widened to 95.1%.|||14.8|2.0|
82665449|NCT02583048|165046896|SUPERIORITY||Mean Difference (Net)|12.1|||||TWO_SIDED|95.1|5.7|18.6|||||Arm 3 minus Arm 2 difference in change from baseline estimated from ANOVA model. Interim analysis conducted when week 24 QT data was available for ≥12 participants stipulated 99.9% confidence interval; original coverage of 95% was widened to 95.1%.|||18.6|5.7|
82665450|NCT02583048|165046903|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.117|||||TWO_SIDED|90.0|0.884|1.411|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.411|0.884|
82665451|NCT02583048|165046903|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.202|||||TWO_SIDED|90.0|0.989|1.461|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.461|0.989|
82665452|NCT02583048|165046903|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.958|||||TWO_SIDED|90.0|0.774|1.187|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.187|0.774|
82665453|NCT02583048|165046904|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.986|||||TWO_SIDED|90.0|0.801|1.215|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.215|0.801|
82665454|NCT02583048|165046904|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.978|||||TWO_SIDED|90.0|0.764|1.251|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.251|0.764|
82665455|NCT02583048|165046904|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.859|||||TWO_SIDED|90.0|0.667|1.108|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.108|0.667|
82665456|NCT02583048|165046905|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.036|||||TWO_SIDED|90.0|0.847|1.267|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.267|0.847|
82665457|NCT02583048|165046905|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.037|||||TWO_SIDED|90.0|0.843|1.276|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.276|0.843|
82665458|NCT02583048|165046905|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.915|||||TWO_SIDED|90.0|0.727|1.151|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.151|0.727|
82665459|NCT02583048|165046906|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.043|||||TWO_SIDED|90.0|0.864|1.258|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.258|0.864|
82665460|NCT02583048|165046906|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.029|||||TWO_SIDED|90.0|0.858|1.235|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.235|0.858|
82665461|NCT02583048|165046906|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.808|||||TWO_SIDED|90.0|0.657|0.993|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||0.993|0.657|
82665462|NCT02583048|165046907|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.068|||||TWO_SIDED|90.0|0.903|1.263|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.263|0.903|
82665463|NCT02583048|165046907|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.973|||||TWO_SIDED|90.0|0.82|1.155|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.155|0.820|
82665464|NCT02583048|165046907|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.803|||||TWO_SIDED|90.0|0.656|0.983|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||0.983|0.656|
82665465|NCT02583048|165046908|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.049|||||TWO_SIDED|90.0|0.881|1.248|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 2.||1.248|0.881|
82665466|NCT02583048|165046908|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.979|||||TWO_SIDED|90.0|0.823|1.165|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 8.||1.165|0.823|
82665467|NCT02583048|165046908|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.808|||||TWO_SIDED|90.0|0.638|1.025|||||The numerator represents Arm 3 and the denominator represents Arm 1.|Statistical analysis for Week 24.||1.025|0.638|
82665468|NCT02583048|165046909|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.903|||||TWO_SIDED|90.0|0.778|1.049|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.049|0.778|
82665469|NCT02583048|165046909|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.114|||||TWO_SIDED|90.0|0.944|1.315|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.315|0.944|
82665470|NCT02583048|165046909|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.804|||||TWO_SIDED|90.0|0.639|1.012|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.012|0.639|
82665471|NCT02583048|165046910|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.937|||||TWO_SIDED|90.0|0.81|1.084|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.084|0.810|
82665472|NCT02583048|165046910|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.107|||||TWO_SIDED|90.0|0.929|1.318|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.318|0.929|
82665473|NCT02583048|165046910|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.856|||||TWO_SIDED|90.0|0.703|1.043|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.043|0.703|
82665474|NCT02583048|165046911|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.951|||||TWO_SIDED|90.0|0.825|1.096|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.096|0.825|
82665475|NCT02583048|165046911|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.136|||||TWO_SIDED|90.0|0.948|1.362|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.362|0.948|
82665476|NCT02583048|165046911|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.898|||||TWO_SIDED|90.0|0.727|1.109|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.109|0.727|
82665477|NCT02583048|165046912|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.939|||||TWO_SIDED|90.0|0.806|1.094|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.094|0.806|
82665478|NCT02583048|165046912|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.081|||||TWO_SIDED|90.0|0.864|1.352|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.352|0.864|
82665479|NCT02583048|165046912|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.865|||||TWO_SIDED|90.0|0.597|1.253|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.253|0.597|
82665480|NCT02583048|165046913|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.95|||||TWO_SIDED|90.0|0.825|1.095|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.095|0.825|
82665481|NCT02583048|165046913|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.08|||||TWO_SIDED|90.0|0.862|1.354|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.354|0.862|
82665482|NCT02583048|165046913|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.865|||||TWO_SIDED|90.0|0.605|1.239|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.239|0.605|
82665483|NCT02583048|165046914|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.984|||||TWO_SIDED|90.0|0.851|1.138|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 2.||1.138|0.851|
82665484|NCT02583048|165046914|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|1.086|||||TWO_SIDED|90.0|0.866|1.361|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 8.||1.361|0.866|
82665485|NCT02583048|165046914|EQUIVALENCE|GMRs were compared to no effect boundaries of 0.67 to 1.50.|Geometric Mean Ratio|0.927|||||TWO_SIDED|90.0|0.65|1.322|||||The numerator represents Arm 3 and the denominator represents Arm 2.|Statistical analysis for Week 24.||1.322|0.650|
82665486|NCT03123874|165046961|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first).|Mean Difference (Final Values)|0.827||||0.9|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean bacterial taxa in milk collected with own / sterile pump set-ups.|||||0.9
82665487|NCT03123874|165046962|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first).|Mean Difference (Final Values)|0.163||||0.3|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean Shannon Diversity Index in milk collected with own / sterile pump set-ups|||||0.3
82665488|NCT03123874|165046963|OTHER|Linear mixed effects models testing the effect of pump set-up on the number of live aerobic bacterial counts. The fixed effect of interest will be pump set-up. Model will also be adjusted for infant feeding status (human milk only vs. human milk and complementary foods) and randomization schedule (which pump set-up went first). Random effect was participant ID to account for multiple samples for each participant.|Mean Difference (Final Values)|4.95||||0.0003|TWO_SIDED|||||Results were considered statistically significant at p\<0.05. No adjustments were made to p-values.|Mixed Models Analysis||Ratio of mean bacterial counts in milk collected with own / sterile pump set-ups.|||||0.0003
82665489|NCT01513239|165047041|SUPERIORITY_OR_OTHER||Adjusted Difference|-10.7|||<|0.0001|TWO_SIDED|95.0|-16.4|-5.1||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||-5.1|-16.4|<0.0001
82665490|NCT01513239|165047041|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.9||||0.0003|TWO_SIDED|95.0|-15.5|-4.3||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||-4.3|-15.5|0.0003
82665491|NCT01513239|165047041|SUPERIORITY_OR_OTHER||Adjusted Difference|-0.8||||0.3718|TWO_SIDED|95.0|-5.9|4.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||4.2|-5.9|0.3718
82665492|NCT01513239|165047042|SUPERIORITY_OR_OTHER||Adjusted Difference|5.2||||0.0722|TWO_SIDED|95.0|-1.8|12.2||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||12.2|-1.8|0.0722
82665493|NCT01513239|165047042|SUPERIORITY_OR_OTHER||Adjusted Difference|14.6|||<|0.0001|TWO_SIDED|95.0|7.7|21.4||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||21.4|7.7|<0.0001
82665494|NCT01513239|165047042|SUPERIORITY_OR_OTHER||Adjusted Difference|-9.4||||0.9969|TWO_SIDED|95.0|-16.1|-2.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||-2.7|-16.1|0.9969
82665495|NCT01513239|165047043|SUPERIORITY_OR_OTHER||Adjusted Difference|-11.9||||0.0006|TWO_SIDED|95.0|-19.0|-4.7||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||-4.7|-19.0|0.0006
82665496|NCT01513239|165047043|SUPERIORITY_OR_OTHER||Adjusted Difference|-13.7|||<|0.0001|TWO_SIDED|95.0|-20.4|-6.9||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||-6.9|-20.4|<0.0001
82665497|NCT01513239|165047043|SUPERIORITY_OR_OTHER||Adjusted Difference|1.6||||0.6962|TWO_SIDED|95.0|-4.6|8.0||One sided p-value based on the Miettinen and Nurminen method stratified by SOC therapy (metronidazole vs. vancomycin vs. fidaxomicin) and hospitalization status (inpatient vs. outpatient)|Miettinen and Nurminen||MK-3415A + SOC minus MK-6072 + SOC|||8.0|-4.6|0.6962
82665498|NCT01513239|165047044|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.9||||0.408|TWO_SIDED|95.0|-9.8|4.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo +SOC|||4.0|-9.8|0.408
82665499|NCT01513239|165047044|SUPERIORITY_OR_OTHER||Difference in Percentages|-2.3||||0.517|TWO_SIDED|95.0|-9.2|4.6|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||4.6|-9.2|0.517
82665500|NCT01513239|165047045|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.2||||0.931|TWO_SIDED|95.0|-3.8|3.5|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||3.5|-3.8|0.931
82665501|NCT01513239|165047045|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0||||0.997|TWO_SIDED|95.0|-3.7|3.6|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||3.6|-3.7|0.997
82665502|NCT01513239|165047046|SUPERIORITY_OR_OTHER||Difference in Percentages|0.5||||0.328|TWO_SIDED|95.0|-0.8|2.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||2.0|-0.8|0.328
82665503|NCT01513239|165047046|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.3||||0.308|TWO_SIDED|95.0|-1.5|0.7|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||0.7|-1.5|0.308
82665504|NCT01513239|165047047|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||MK-3415A + SOC minus Placebo + SOC|||1.0|-1.0|>0.999
82665505|NCT01513239|165047047|SUPERIORITY_OR_OTHER||Difference in Percentages|0.0|||>|0.999|TWO_SIDED|95.0|-1.0|1.0|||Miettinen and Nurminen||MK-6072 + SOC minus Placebo + SOC|||1.0|-1.0|>0.999
82665506|NCT01513239|165047048|SUPERIORITY_OR_OTHER||Difference in Percentages|-0.4|||||TWO_SIDED|95.0|-4.2|3.3|||||MK-3415A + SOC minus Placebo + SOC|||3.3|-4.2|
82665507|NCT01513239|165047048|SUPERIORITY_OR_OTHER||Difference in Percentages|1.2|||||TWO_SIDED|95.0|-2.7|5.2|||||MK-6072 + SOC minus Placebo + SOC|||5.2|-2.7|
82665508|NCT00396162|165047055|SUPERIORITY_OR_OTHER|||||||0.23|||||||t-test, 2 sided|||||||0.23
82665509|NCT00396162|165047056|SUPERIORITY_OR_OTHER|||||||0.31|||||||t-test, 2 sided|||||||.31
82665510|NCT01456962|165047068|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||t-test, 2 sided|||||||0.6
82665511|NCT01456962|165047068|SUPERIORITY_OR_OTHER||% change in CD4+:CD8+ T cells ratio|-9.5||||0.4|TWO_SIDED|95.0|-27.3|12.0|||Regression, Linear|Adjusted for treatment group and time on antiretroviral therapy|Change based on a 1 log unit increase in genital:plasma drug ratio|Null hypothesis: Higher genital to plasma antiretroviral drug ratios are not associated with higher cervical CD4+:CD8+ T cell ratios.||12|-27.3|0.4
82665512|NCT02856594|165047069|SUPERIORITY||Odds Ratio (OR)|0.32||||0.029|TWO_SIDED|95.0|0.1|0.83|||Regression, Logistic|||||0.83|0.10|0.029
82665513|NCT02856594|165047071|SUPERIORITY||Odds Ratio (OR)|0.96||||0.24|TWO_SIDED|95.0|0.89|1.03|||Regression, Linear|||||1.03|0.89|0.24
82665514|NCT01945580|165047084|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.20 (power 80%), 362 subjects (181 subjects per arm) are needed to detect non-inferiority of transvaginal biologic to native tissue repair, using a margin of 12.0%.|Adjusted Difference in Percentages|0.2|||||TWO_SIDED|90.0|-5.6|5.9|||||The propensity adjusted treatment difference of Xenform transvaginal mesh (TVM) minus NTR was estimated and missing data was handled using multiple imputation method.|||5.9|-5.6|
82665515|NCT01945580|165047085|NON_INFERIORITY|With type I error of 0.05 and type II error of 0.10 (power 90%), 308 subjects (154 subjects per arm) are needed to detect non-inferiority with a margin of 11.6%.|Adjusted Difference in Percentages|2.0|||||TWO_SIDED|90.0|-0.8|4.7|||||The propensity score adjusted difference in SAE rate of Xenform transvaginal mesh (TVM) vs. NTR was estimated.|||4.7|-0.8|
82665516|NCT03068780|165047107|SUPERIORITY||Odds Ratio (OR)|1.84||||0.013|TWO_SIDED|95.0|1.02|3.3||P-value adjusted with CHW method using CMH test statistics based on a test stratified by EB subtype and target wound size class estimated separately before and after the interim analysis for sample size re-estimation.Threshold of superiority p\<0.05.|Cui, Hung, Wang (CHW) approach|Primary efficacy endpoint was first assessed with the CMH test, but the final statistical analysis was performed based on the CHW approach.|The CMH test statistic from the data until the interim analysis (IA) and the CMH test statistic of the data after the IA must be calculated separately. The results are then combined using the CHW weighted approach to one test-statistic.|||3.30|1.02|0.013
82665517|NCT03068780|165047108|SUPERIORITY|||||||0.302||||||Threshold of superiority is p\<0.05|Chi-squared|||||||0.302
82665518|NCT00474058|165047120|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.55||||0.0002||95.0|-5.37|-1.73||No p-value adjustment was necessary, since a multiple test procedure in a hierarchical sequentially rejective manner for the primary variable was applied.|ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-1.73|-5.37|0.0002
82665519|NCT00474058|165047121|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.26|||<|0.0001||95.0|-6.08|-2.45||No p-value adjustment was necessary, since a multiple testing in a hierarchical sequentially rejective manner for the primary variable was applied.|ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-2.45|-6.08|<0.0001
82665520|NCT00474058|165047122|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.41||||0.0301||95.0|-0.79|-0.04|||ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||-0.04|-0.79|0.0301
82665521|NCT00474058|165047123|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02||||0.8842||95.0|-0.29|0.25|||ANCOVA|||Analyses of covariance were performed for the efficacy variables with treatment and (pooled) sites as factors, and baseline value as covariate. Least square means (LS means) for treatment effect were calculated and differences between rotigotine and placebo were presented with 95% confidence intervals (CIs) and p- values.||0.25|-0.29|0.8842
82665522|NCT02640235|165047124|NON_INFERIORITY|The logistic regression estimates are generated from predicted values of the fitted logistic regression model. If the lower bound of the 95% confidence interval is greater than -10, Celstat is non-inferior to Surgicel. If the lower bound of the 95% confidence interval is greater than 0, Celstat will be declared superior to Surgicel.|Difference in avg predicted proportion|-8.5|||||TWO_SIDED|95.0|-15.6|-1.4|||Regression, Logistic|||||-1.4|-15.6|
82665523|NCT02640235|165047127|OTHER||Difference in avg predicted proportion|4.7|||||TWO_SIDED|95.0|-3.6|13.1|||Regression, Logistic|||||13.1|-3.6|
82665524|NCT02640235|165047128|OTHER||Difference in avg predicted proportion|-6.2|||||TWO_SIDED|95.0|-12.0|-0.5|||Regression, Logistic|||||-0.5|-12|
82665525|NCT02640235|165047129|OTHER||Difference in avg predicted proportion|-0.7|||||TWO_SIDED|95.0|-5.7|4.3|||Regression, Logistic|||||4.3|-5.7|
82665526|NCT02640235|165047130|OTHER||Difference in avg predicted proportion|0.2|||||TWO_SIDED|95.0|-3.9|4.4|||Regression, Logistic|||||4.4|-3.9|
82665527|NCT01322633|165047132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.24|1.93||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.93|0.24|
82665528|NCT01322633|165047133|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.65|1.4||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.40|0.65|
82665529|NCT01322633|165047134|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.06|||||TWO_SIDED|95.0|0.93|1.21||||||Analysis was based on hazard ratio using Cox proportional hazard regression method adjusted for sex, age, cumulative PPI dose, total years of PPI treatment, diabetes, hepatitis C, hepatitis B and year of index date.||1.21|0.93|
82665530|NCT00577655|165047150|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.496||||0.0138|TWO_SIDED|95.0|0.729|6.262||In order to control the overall alpha level at the 0.05 value, each of the primary endpoints were tested separately at the 0.025 level of significance.|ANCOVA|Baseline as covariate and fixed effects of treatment and pooled investigator site.|Active - Placebo|Efficacy was declared if the test for either primary efficacy endpoint was significant at the 0.025 level.||6.262|0.729|0.0138
82665531|NCT00577655|165047151|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.431||||0.0403|TWO_SIDED|95.0|0.244|10.618||In order to control the overall alpha level at the 0.05 value, each of the primary endpoints were tested separately at the 0.025 level of significance.|ANCOVA|Baseline as covariate and fixed effects of treatment and pooled investigator site.|Active - Placebo|Efficacy was declared if the test for either primary efficacy endpoint was significant at the 0.025 level.||10.618|0.244|0.0403
82665532|NCT00577655|165047152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.536||||0.0031|TWO_SIDED|95.0|1.567|7.505||significance level of 0.05.|Mixed Models Analysis||Active - Placebo|"Day 1~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to FEV1max%0-2 at Days 1 and 22, with observed case data."||7.505|1.567|0.0031
82665533|NCT00577655|165047152|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.067||||0.047|TWO_SIDED|95.0|0.041|6.094||significance level of 0.05.|Mixed Models Analysis||Active - Placebo|"Day 22~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to FEV1max%0-2 at Days 1 and 22, with observed case data."||6.094|0.041|0.0470
82665534|NCT00577655|165047153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.572||||0.0074|TWO_SIDED|95.0|2.077|13.067||significance level of 0.05.|repeated measures ANOVA||Active - Placebo|"Day 1~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to PEFmax%0-2 at Days 1 and 22, with observed case data."||13.067|2.077|0.0074
82665535|NCT00577655|165047153|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.782||||0.1843|TWO_SIDED|95.0|-1.832|9.397||significance level of 0.05.|repeated measures ANOVA||Active - Placebo|"Day 22~A repeated measures mixed model, with terms for treatment, pooled center, study day, treatment by study day interaction, and baseline as a covariate, and subject as a random term, was used to make comparisons between placebo and active with respect to PEFmax%0-2 at Days 1 and 22, with observed case data."||9.397|-1.832|0.1843
82665536|NCT00577655|165047154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.707||||0.0507|TWO_SIDED|95.0|-0.03|19.445||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 22 Baseline||19.445|-0.030|0.0507
82665537|NCT00577655|165047154|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.892||||0.924|TWO_SIDED|95.0|-17.634|19.419||significance level of 0.05.|ANOVA|terms for treatment and center|Active - Placebo|Day 1 Baseline||19.419|-17.634|0.9240
82665538|NCT00577655|165047155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|30.124||||0.2186|TWO_SIDED|95.0|-18.169|78.417||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 22 Baseline||78.417|-18.169|0.2186
82665539|NCT00577655|165047155|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|42.578||||0.2375|TWO_SIDED|95.0|-28.541|113.7||significance level of 0.05.|ANCOVA|terms for treatment and center, baseline as a covariate|Active - Placebo|Day 1 Baseline||113.70|-28.541|0.2375
82665540|NCT00577655|165047156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|6.524||||0.0017|TWO_SIDED|95.0|2.524|10.523||significance level of 0.05.|ANOVA|terms for treatment, center, time, time x treatment, subject as a random|Active - Placebo|Day 1||10.523|2.524|0.0017
82665541|NCT00577655|165047156|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.998||||0.0521|TWO_SIDED|95.0|-0.037|8.032||significance level of 0.05.|ANOVA|terms for treatment, center, time, time x treatment, subject as a random|Active - Placebo|Day 22||8.032|-0.037|0.0521
82665542|NCT00577655|165047157|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.477||||0.0647|TWO_SIDED|95.0|0.98|2.23||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 1||2.23|0.98|0.0647
82665543|NCT00577655|165047157|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|2.088||||0.0005|TWO_SIDED|95.0|1.38|3.15||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 22||3.15|1.38|0.0005
82665544|NCT00577655|165047158|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.141||||0.5059|TWO_SIDED|95.0|0.77|1.69||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 1||1.69|0.77|0.5059
82665545|NCT00577655|165047158|SUPERIORITY_OR_OTHER_LEGACY||Cox Proportional Hazard|1.533||||0.0333|TWO_SIDED|95.0|1.03|2.27||significance level of 0.05.|Regression, Cox||Active/Placebo|Day 22||2.27|1.03|0.0333
82665546|NCT00577655|165047159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3888||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.3888
82665547|NCT00577655|165047159|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1249||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.1249
82665548|NCT00577655|165047160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0343||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0343
82665549|NCT00577655|165047160|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0962||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0962
82665550|NCT00577655|165047161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0109||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0109
82665551|NCT00577655|165047161|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0845||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0845
82665552|NCT00577655|165047162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0013||||||significance level of 0.05.|Fisher Exact|||Day 1||||0.0013
82665553|NCT00577655|165047162|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0085||||||significance level of 0.05.|Fisher Exact|||Day 22||||0.0085
82665554|NCT00577655|165047163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.072||||0.4674|TWO_SIDED|95.0|-0.265|0.122||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 1||0.122|-0.265|0.4674
82665555|NCT00577655|165047163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.171||||0.084|TWO_SIDED|95.0|-0.365|0.023||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as covariate, subject as random|Active - Placebo|Week 2||0.023|-0.365|0.0840
82665556|NCT00577655|165047163|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.138||||0.1699|TWO_SIDED|95.0|-0.335|0.059||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as covariate, subject as random|Active - Placebo|Week 3||0.059|-0.335|0.1699
82665557|NCT00577655|165047165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.926||||0.1391|TWO_SIDED|95.0|-3.256|23.108||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 1||23.108|-3.256|0.1391
82665558|NCT00577655|165047165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|10.923||||0.1043|TWO_SIDED|95.0|-2.278|24.124||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 2||24.124|-2.278|0.1043
82665559|NCT00577655|165047165|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.546||||0.157|TWO_SIDED|95.0|-3.705|22.798||significance level of 0.05.|ANCOVA|terms for treatment, center, week, week by treatment, baseline as a covariate, subject as random.|Active - Placebo|Week 3||22.798|-3.705|0.1570
82665560|NCT00577655|165047166|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.989||||0.9846|TWO_SIDED|95.0|-0.121|2.099||significance level of 0.05.|mixed poisson regression model|||"Week 1~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||2.099|-0.121|0.9846
82665561|NCT00577655|165047166|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.961||||0.9447|TWO_SIDED|95.0|-0.116|2.039||significance level of 0.05.|mixed poisson regression model|||"Week 2~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||2.039|-0.116|0.9447
82665562|NCT00577655|165047166|SUPERIORITY_OR_OTHER_LEGACY||ratio of Active to Placebo|0.887||||0.8326|TWO_SIDED|95.0|-0.111|1.885||significance level of 0.05.|mixed poisson regression model|||"Week 3~P-value, mean and confidence interval calculated from a 0 inflated mixed poisson regression model with fixed effect terms for treatment, week, treatment by week interaction, baseline as a covariate and a random term for subject. The null hypothesis is that the ratio equals 1. Estimated means are conditional upon the random effect, assume a random effect of 0 and a covariate value at the average."||1.885|-0.111|0.8326
82665563|NCT01370863|165047175|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS Mean|-1.452||||0.869|TWO_SIDED|95.0|-19.054|16.149|||ANCOVA|||||16.149|-19.054|0.869
82665564|NCT01370863|165047176|SUPERIORITY_OR_OTHER_LEGACY||Diference in LS means|0.264||||0.487|TWO_SIDED|95.0|-0.495|1.024|||ANCOVA|||||1.024|-0.495|0.487
82665565|NCT01370863|165047177|SUPERIORITY_OR_OTHER_LEGACY||Difference in LS means|-0.087||||0.637|TWO_SIDED|95.0|-0.501|0.326|||ANCOVA|||||0.326|-0.501|0.637
82665566|NCT02096705|165047194|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9|STANDARD_ERROR_OF_MEAN|0.0968|<|0.0001|TWO_SIDED|95.0|-1.09|-0.71||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.71|-1.09|<0.0001
82665567|NCT02096705|165047195|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-30.69|STANDARD_ERROR_OF_MEAN|4.605|<|0.0001|TWO_SIDED|95.0|-39.76|-21.61|||Longitudinal repeated measure analysis|P-value for Dapagliflozin vs. placebo|Difference of Dapagliflozin from placebo|||-21.61|-39.76|<0.0001
82665568|NCT02096705|165047196|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.38|STANDARD_ERROR_OF_MEAN|0.3057|<|0.0001|TWO_SIDED|95.0|-1.98|-0.77||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.77|-1.98|<0.0001
82665569|NCT02096705|165047197|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.43|STANDARD_ERROR_OF_MEAN|0.5171||0.0059|TWO_SIDED|95.0|-2.45|-0.42||P-value for Dapagliflozin vs. placebo|Longitudinal repeated measure analysis||Difference of Dapagliflozin from placebo|||-0.42|-2.45|0.0059
82665570|NCT02377349|165047198|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-PT antibodies was greater than or equal to (≥) 1.5.|GMC ratio|8.47|||||TWO_SIDED|95.0|7.02|10.2|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||10.2|7.02|
82665571|NCT02377349|165047198|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-FHA antibodies was greater than or equal to (≥) 1.5.|GMC ratio|16.11|||||TWO_SIDED|95.0|13.48|19.24|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||19.24|13.48|
82665572|NCT02377349|165047198|SUPERIORITY|Criterion: The lower limit (LL) of the 95% confidence interval (CI) of the GMC ratio \[dTpa Group-Mother/Control Group-Mother\] for anti-PRN antibodies was greater than or equal to (≥) 1.5.|GMC ratio|20.65|||||TWO_SIDED|95.0|15.86|26.88|||2-sample t-test|The CI of the group GMC ratio were computed using two-sample t-test assuming heterogeneity of variance.||GMC ratio between groups (dTpa Group-Mother/Control Group-Mother) to demonstrate that maternally transferred antibodies against pertussis in the dTpa Group-Mother was superior to that in the Control Group-mother, in the cord blood sample at the time of delivery.||26.88|15.86|
82665573|NCT03277248|165047216|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.509||||0.0022|TWO_SIDED|95.0|0.33|0.784||GEE (Generalized Estimating Equation) model for the relapse count per participant with logarithmic link function, treatment, region, and baseline Expanded Disability Status Scale (EDSS) strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.784|0.330|0.0022
82665574|NCT03277248|165047217|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.035|||<|0.0001|TWO_SIDED|95.0|0.019|0.064||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.064|0.019|<.0001
82665575|NCT03277248|165047218|SUPERIORITY||Rate Ratio (Ublituximab / Teriflunomide)|0.1|||<|0.0001|TWO_SIDED|95.0|0.073|0.136||GEE model for the relapse count per participant with logarithmic link function, treatment, region, and baseline EDSS strata as covariates and log (years of treatment) as offset.|Negative Binomial Model|||||0.136|0.073|<.0001
82665576|NCT03277248|165047220|SUPERIORITY||Odds Ratio (Ublituximab / Teriflunomide)|7.946|||<|0.0001|TWO_SIDED|95.0|4.917|12.841||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1-unenhancing, T2, Gd-enhancing) as covariates.|Regression, Logistic|||||12.841|4.917|<.0001
82665577|NCT03277248|165047221|SUPERIORITY||Odds Ratio (Ublituximab / Teriflunomide)|0.862||||0.429|TWO_SIDED|95.0|0.596|1.246||Logistic regression model with treatment, region, baseline EDSS strata and log transformed baseline MRI lesion counts (T1 unenhancing, T2, Gd enhancing) as covariates.|Regression, Logistic|||||1.246|0.596|0.4290
82665578|NCT03277248|165047222|SUPERIORITY||Least Squares Mean Difference|-0.018||||0.3108|TWO_SIDED|95.0|-0.053|0.017||Mixed model repeated measures (MMRM) model includes treatment, region, baseline EDSS strata, visit, treatment-by-visit interaction, and baseline volume (cube root transformed) as covariates and an unstructured covariance matrix.|Mixed Model Repeated Measures|||||0.017|-0.053|0.3108
82665579|NCT02664415|165047305|SUPERIORITY|||||||1|||||||Fisher Exact|This is to confirm that the p-value from Fisher's Exact test was 1.000.||||||1.000
82665580|NCT02664415|165047306|SUPERIORITY|||||||0.051|||||||Log Rank|||A comparison of time from ATI to HIV-1 RNA \>= 20 copies/mL between arms.||||0.051
82665581|NCT02664415|165047306|SUPERIORITY|||||||0.01|||||||Log Rank|||A comparison of time from ATI to HIV-1 RNA \>= 1000 copies/mL between arms.||||0.01
82665582|NCT02664415|165047307|SUPERIORITY|||||||0.027||||||This is a p-value, comparing HIV-1 RNA levels at first detection between arms.|Wilcoxon (Mann-Whitney)|||||||0.027
82665583|NCT02664415|165047307|SUPERIORITY|||||||0.588||||||This is p-value, comparing HIV-1 RNA levels at ART resumption between arms.|Wilcoxon (Mann-Whitney)|||||||0.588
82665584|NCT02664415|165047308|SUPERIORITY|||||||0.031|||||||Log Rank|||||||0.031
82665585|NCT02664415|165047310|SUPERIORITY|||||||0.693|||||||Wilcoxon (Mann-Whitney)|||||||0.693
82665586|NCT02664415|165047311|SUPERIORITY|||||||0.15||||||The p-value is not adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at baseline ATI and ART resumption within the VRC01 arm.||||0.15
82665587|NCT02664415|165047311|SUPERIORITY|||||||0.04||||||The p-value is not adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at baseline ATI and ART resumption within the placebo arm.||||0.04
82665588|NCT02664415|165047311|SUPERIORITY|||||||0.002||||||The p-value is adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at ART resumption and 6 months after ART resumption within the VRC01 arm.||||0.002
82665589|NCT02664415|165047311|SUPERIORITY|||||||0.22||||||The p-value is adjusted for multiple comparisons.|Wilcoxon signed-rank test|||A comparison of total HIV DNA at ART resumption and 6 months after ART resumption within the placebo arm.||||0.22
82665590|NCT02664415|165047311|SUPERIORITY|||||||0.05|||||||Wilcoxon signed-rank test|||A comparison of total HIV DNA atbaseline ATI and 6 months after ART resumption within the VRC01 arm.||||0.05
82665591|NCT02664415|165047311|SUPERIORITY|||||||0.22|||||||Wilcoxon signed-rank test|||A comparison of total HIV DNA at baeline ATI versus 6 months after ART resumption in the placebo arm||||0.22
82665592|NCT02664415|165047314|SUPERIORITY|||||||0.961|||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at baseline ATI||||0.961
82665593|NCT02664415|165047314|SUPERIORITY|||||||0.805|||||||Wilcoxon (Mann-Whitney)|||Comparison between arms at ART resumption||||0.805
82665594|NCT02664415|165047314|SUPERIORITY|||||||0.221|||||||Wilcoxon signed-rank test|||Comparison between Baseline and ART resumption within VRC01 arm.||||0.221
82665595|NCT02664415|165047314|SUPERIORITY|||||||0.5|||||||Wilcoxon signed-rank test|||Comparison between Baseline and ART resumption within Placebo arm.||||0.500
82665596|NCT02664415|165047315|SUPERIORITY|||||||0.522|||||||Wilcoxon (Mann-Whitney)|||Comparison between groups at baseline ATI.||||0.522
82665597|NCT02664415|165047315|SUPERIORITY|||||||0.961|||||||Wilcoxon (Mann-Whitney)|||A comparison between groups at ART resumption.||||0.961
82665598|NCT02664415|165047315|SUPERIORITY|||||||0.002|||||||Wilcoxon signed-rank test|||A comparison between baseline ATI and ART resumption within VRC01 group.||||0.002
82665599|NCT02664415|165047315|SUPERIORITY|||||||0.043|||||||Wilcoxon signed-rank test|||A comparison between baseline ATI and ART resumption within Placebo group.||||0.043
82665600|NCT02218541|165047379|OTHER|||||||1||||||threshold for significance will be p-value \<0.05|Fisher Exact|||||||1.00
82665601|NCT02218541|165047380|OTHER|||||||0.039||||||This statistical analysis applies to Yes bleeding|Binomial|The statistical analysis was changed during the analysis phase but the protocol was not amended to reflect this change||||||0.039
82665602|NCT02218541|165047381|EQUIVALENCE|No power calculation was done as this was a pilot study.||||||1||||||This statistical analysis applies to Yes Provisional Crown fit|Binomial|The statistical analysis was changed during the analysis phase but the protocol was not amended to reflect this change||||||1.0
82665603|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (LIA)|13.6|||<|0.0001|||||||McNemar|||LIA (Lead Integrity Alert): Uploadable algorithm with the ability to increase the time between a lead fracture and potential delivery of an unnecessary shock.||||<0.0001
82665604|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (SVT Limit)|6.8|||<|0.0001|||||||McNemar|||SVT (Supraventricular Tachycardia) Limit: The maximum cycle length that Wavelet and PR logic will be applied to arrhythmias.||||<0.0001
82665605|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (VF NID PP)|9.0|||<|0.0001|||||||McNemar|||VF NID PP: Number of intervals to detect (NID) an arrhythmia in the VF zone for primary prevention (PP) patients.||||<0.0001
82665606|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (VF NID SP)|3.5||||0.0116|||||||McNemar|||VF NID SP: Number of intervals to detect (NID) an arrhythmia in the VF zone for secondary prevention (SP) patients.||||0.0116
82665607|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (Wavelet)|9.5|||<|0.0001|||||||McNemar|||Wavelet: Discriminator to help determine if arrhythmia is ventricular or supraventricular in single chamber ICDs.||||<0.0001
82665608|NCT00856349|165047382|SUPERIORITY_OR_OTHER||Increase in % on target (PR Logic)|3.2|||<|0.0001|||||||McNemar|||PR Logic: Discriminator to help determine if arrhythmia is ventricular or supraventricular in dual chamber ICDs and CRT-Ds.||||<0.0001
82665609|NCT02725515|165047388|SUPERIORITY||Risk Difference (RD)|13.4||||0.183|TWO_SIDED|95.0|-6.6|32.6|||Barnard's Unconditional Exact Test P-val|||||32.6|-6.6|0.1830
82665610|NCT02725515|165047389|SUPERIORITY||Risk Difference (RD)|17.5||||0.1075|TWO_SIDED|95.0|-3.7|37.3|||Barnard's Unconditional Exact Test P-val|||||37.3|-3.7|0.1075
82665611|NCT02725515|165047390|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0252|TWO_SIDED|95.0|0.3|0.92|||Log Rank|||||0.92|0.30|0.0252
82665612|NCT00183196|165047430|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.529|STANDARD_ERROR_OF_MEAN|4.0|||TWO_SIDED|95.0|0.281|0.997|||Regression, Cox|||||.997|.281|
82665613|NCT00183196|165047430|SUPERIORITY|||||||0.04|||||||Regression, Cox|percent heavy drinking days at baseline was used as a covariate in the analysis as it was a predictor of overall survival independent of group.||||||0.04
82665614|NCT02906917|165047510|NON_INFERIORITY|Non-inferiority of IDegAsp OD versus IGlar OD + IAsp OD was considered confirmed if the 95% confidence interval for the mean treatment difference was entirely below 0.40%.|Treatment contrast|0.07|||<|0.0001|TWO_SIDED|95.0|-0.06|0.21||One-sided p-value for test of non-inferiority.|ANCOVA|Treatment, region, sex, previous insulin treatment and previous OAD treatment as categorical fixed effects and baseline response and age as covariate.||The response and change from baseline in response are analysed on 1000 complete, imputed data sets after multiple imputation for each treatment arm separately. A penalty of 0.4% is added to the week 26 values for all premature treatment discontinued subjects, and subject with missing HbA1c values at week 26 in the IDegAsp arm. Each of the imputed data sets are analysed through an analysis of covariance (ANCOVA).||0.21|-0.06|<0.0001
82665615|NCT00687739|165047523|SUPERIORITY|The primary analysis compared the GnRHAG + E2 and GnRHAG + PL groups, pooled across exercise status. It was acknowledged that the inclusion of exercisers could minimize the effects of GnRHAG but would be reflective of the effects of ovarian hormone suppression on sedentary and active women. Differences in changes across time between groups were tested using an analysis of covariance model conditioned on baseline.|||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis was the effect of PL vs E2 collapsed across exercise (2-group comparison). The analysis of effects of exercise was exploratory (evaluated within-group changes only).||||<0.05
82665616|NCT00687739|165047524|SUPERIORITY||||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis was the comparison of within-group changes in the E2 and placebo groups for cortisol AUC in response to Dex/CRH and between-group differences in the changes. Within-group changes and between-group differences in changes were evaluated by linear contrast using an ANCOVA model with adjustment for pre-intervention values of outcomes.||||<0.05
82665617|NCT00687739|165047525|SUPERIORITY||||||<|0.05||||||The p value was calculated|ANCOVA|||The primary analysis compared the GnRHag+E2 and GnRHag+PL groups, pooled across exercise status. Differences in change over time between groups were tested by using an ANCOVA model, first with treatment group alone, and again adding FM and FFM to the model.||||<0.05
82665618|NCT02542462|165047528|SUPERIORITY|||||||0.2||||||P value for the number of subjects with an increase of 1 mm or more of terminal ileum from pre to post was 0.2|Fisher Exact|||The test is to see a difference among the four groups and the pre to post change of the primary outcomes||||0.2
82665619|NCT02542462|165047528|SUPERIORITY|||||||0.3||||||P value for change in the number of subjects with an increase in number of lymph nodes from pre to post was 0.3.|Fisher Exact|||The test is to see a difference among the four groups and the pre to post change of the primary outcomes||||0.3
82665620|NCT02312154|165047542|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
82665621|NCT02312154|165047543|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
82665622|NCT02312154|165047544|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
82665623|NCT02312154|165047545|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The change in each of the biophysical parameters was calculated as the pretreatment value minus the posttreatment value for each visit, and these pre- vs posttreatment changes were used in the statistical analysis to minimize the intraindividual variation between the two cheeks. The Wilcoxon rank-sum test was performed to compare the week-by-week changes in parameters of the right and left cheeks (i.e., treated vs untreated).||||<0.05
82665624|NCT02312154|165047546|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The therapeutic outcome was assessed by patient self-assessment using the Global Aesthetic Improvement Scale, which rates outcome on the following 5-point scale: 3, very much improved; 2, much improved; 1, improved; 0, no change; and -1, worse. Two independent investigators also individually assessed every patient's improvement, and the values of the two scores were averaged for each patient. The Wilcoxon rank-sum test was performed to compare the pre-by-posttreatment changes in treated side.||||<0.05
82665625|NCT02312154|165047547|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||The therapeutic outcome was assessed by patient self-assessment using the Global Aesthetic Improvement Scale, which rates outcome on the following 5-point scale: 3, very much improved; 2, much improved; 1, improved; 0, no change; and -1, worse. Two independent investigators also individually assessed every patient's improvement, and the values of the two scores were averaged for each patient. The Wilcoxon rank-sum test was performed to compare the pre-by-posttreatment changes in treated side.||||<0.05
82665626|NCT01167829|165047551|SUPERIORITY_OR_OTHER||Mean Difference (Net)|183.0|STANDARD_ERROR_OF_MEAN|44.0||0.05|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.05
82665627|NCT04442503|165047640|SUPERIORITY||Least Square Mean Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.16||0.0007|TWO_SIDED|95.0|-6.3|-1.7|||MMRM|||Change from Baseline at Day 15||-1.7|-6.3|0.0007
82665628|NCT04442503|165047641|SUPERIORITY||LS Mean Difference|-3.4|STANDARD_ERROR_OF_MEAN|0.999||0.0008|TWO_SIDED|95.0|-5.4|-1.4|||MMRM|||Change from Baseline at Day 3||-1.4|-5.4|0.0008
82665629|NCT04442503|165047641|SUPERIORITY||LS Mean Difference|-2.9|STANDARD_ERROR_OF_MEAN|1.244||0.0203|TWO_SIDED|95.0|-5.4|-0.5|||MMRM|||Change from Baseline at Day 28||-0.5|-5.4|0.0203
82665630|NCT04442503|165047641|SUPERIORITY||LS Mean Difference|-3.5|STANDARD_ERROR_OF_MEAN|1.277||0.0067|TWO_SIDED|95.0|-6.0|-1.0|||MMRM|||Change from Baseline at Day 45||-1.0|-6.0|0.0067
82665631|NCT04442503|165047642|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.196||0.0052|TWO_SIDED|95.0|-0.9|-0.2|||MMRM|||Change from Baseline at Day 15||-0.2|-0.9|0.0052
82665632|NCT04442503|165047643|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0209|TWO_SIDED|95.0|1.112|3.67||P-value are from a generalized estimating equation (GEE) for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 15||3.670|1.112|0.0209
82665633|NCT04442503|165047643|SUPERIORITY||Odds Ratio (OR)|1.534||||0.1661|TWO_SIDED|95.0|0.837|2.812||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 45||2.812|0.837|0.1661
82665634|NCT04442503|165047644|SUPERIORITY||Odds Ratio (OR)|1.781||||0.111|TWO_SIDED|95.0|0.876|3.621||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 15||3.621|0.876|0.1110
82665635|NCT04442503|165047644|SUPERIORITY||Odds Ratio (OR)|2.083||||0.0226|TWO_SIDED|95.0|1.108|3.915||P-value are from a GEE for binary response model, with factors for treatment, baseline HAMD-17 total score, baseline antidepressant use, assessment time point, and time-point-by treatment interaction.|GEE Model|||Day 45||3.915|1.108|0.0226
82665636|NCT04442503|165047645|SUPERIORITY||Odds Ratio (OR)|2.23||||0.0089|TWO_SIDED|95.0|1.223|4.072|||MMRM|||Day 15||4.072|1.223|0.0089
82665637|NCT04442503|165047646|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|0.98||0.0235|TWO_SIDED|95.0|-4.2|-0.3|||MMRM|||Change from Baseline at Day 15||-0.3|-4.2|0.0235
82665638|NCT04442503|165047647|SUPERIORITY||LS Mean Difference|-5.1|STANDARD_ERROR_OF_MEAN|1.706||0.0034|TWO_SIDED|95.0|-8.4|-1.7|||MMRM|||Change from Baseline at Day 15||-1.7|-8.4|0.0034
82665639|NCT04442503|165047648|SUPERIORITY||LS Mean Difference|-5.9|STANDARD_ERROR_OF_MEAN|2.4||0.0151|TWO_SIDED|95.0|-10.6|-1.2|||MMRM|||Change from Baseline in Core Subscale at Day 15||-1.2|-10.6|0.0151
82492816|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.81||||0.3|TWO_SIDED|90.0|-1.11|4.74|||ANCOVA|||Change at Day 15 6 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||4.74|-1.11|0.3000
82665640|NCT04442503|165047648|SUPERIORITY||LS Mean Difference|-5.7|STANDARD_ERROR_OF_MEAN|2.27||0.0123|TWO_SIDED|95.0|-10.2|-1.3|||MMRM|||Change from Baseline in Anxiety Subscale at Day 15||-1.3|-10.2|0.0123
82665641|NCT04442503|165047648|SUPERIORITY||LS Mean Difference|-8.6|STANDARD_ERROR_OF_MEAN|2.96||0.004|TWO_SIDED|95.0|-14.5|-2.8|||MMRM|||Change from Baseline in Bech-6 Subscale at Day 15||-2.8|-14.5|0.0040
82665642|NCT04442503|165047648|SUPERIORITY||LS Mean Difference|-7.6|STANDARD_ERROR_OF_MEAN|2.609||0.0041|TWO_SIDED|95.0|-12.7|-2.4|||MMRM|||Change from Baseline in Meier Subscale at Day 15||-2.4|-12.7|0.0041
82665643|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.649||0.6912|TWO_SIDED|95.0|-1.0|1.5|||MMRM|||Change from Baseline at Day 3||1.5|-1.0|0.6912
82665644|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.874||0.041|TWO_SIDED|95.0|-3.5|-0.1|||MMRM|||Change from Baseline at Day 8||-0.1|-3.5|0.0410
82665645|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.922||0.0444|TWO_SIDED|95.0|-3.7|0.0|||MMRM|||Change from Baseline at Day 15||0.0|-3.7|0.0444
82665646|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.924||0.0811|TWO_SIDED|95.0|-3.4|0.2|||MMRM|||Change from Baseline at Day 21||0.2|-3.4|0.0811
82665647|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.987||0.1846|TWO_SIDED|95.0|-3.3|0.6|||MMRM|||Change from Baseline at Day 28||0.6|-3.3|0.1846
82665648|NCT04442503|165047650|SUPERIORITY||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.031||0.0625|TWO_SIDED|95.0|-4.0|0.1|||MMRM|||Change from Baseline at Day 45||0.1|-4.0|0.0625
82665649|NCT01852799|165047689|OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||bALP changes from baseline to cycle 1||||0.002
82665650|NCT01852799|165047689|OTHER||||||<|0.001|||||||t-test, 2 sided|||b-ALP changes from baseline to cycle 4||||<0.001
82665651|NCT01852799|165047689|OTHER|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||DKK-1 changes from baseline to cycle 1||||0.005
82665652|NCT01852799|165047689|OTHER||||||<|0.001|||||||t-test, 2 sided|||DKK-1 changes from baseline to cycle 4||||<0.001
82665653|NCT00834561|165047729|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.14||||||90.0|99.99|108.47|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||108.47|99.99|
82665654|NCT00834561|165047730|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|104.07||||||90.0|101.33|106.89|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.89|101.33|
82665655|NCT00834561|165047731|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Using GLM procedures in SAS, analysis of variance (ANOVA)was performed on log-transformed AUC0-t, AUC0-inf and Cmax at the significance level of 0.05.|Test/Ref Ratio of LS Means x 100|103.68||||||90.0|101.42|106.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||106.00|101.42|
82665656|NCT02442687|165047746|OTHER|||||||0.034||||||The p-value was not adjusted for multiple comparison. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.034
82665657|NCT02442687|165047746|OTHER|||||||0.1731||||||The p-value was not adjusted for multiple comparison. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.1731
82665658|NCT02442687|165047747|OTHER|||||||0.5276||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.5276
82665659|NCT02442687|165047747|OTHER|||||||0.4968||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.4968
82665660|NCT02442687|165047748|OTHER|||||||0.2591||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.2591
82665661|NCT02442687|165047748|OTHER|||||||0.1806||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|Change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.1806
82665662|NCT02442687|165047749|OTHER|||||||0.0882||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.0882
82665663|NCT02442687|165047749|OTHER|||||||0.253||||||The p-value is not adjusted for multiple comparisons. The threshold for statistical significance was \<0.05.|ANCOVA|The change from baseline as the dependent variable, baseline value as a covariate, and treatment group and diabetes stratum as factors.||||||0.2530
82665664|NCT02654145|165047766|SUPERIORITY||Mean Difference (Final Values)|-0.9|||<|0.001|TWO_SIDED|95.0|-1.13|-0.66||p-value is for Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.55 (Standard Error: 0.05), which was estimated from a meta-analysis of studies NCT01000506 and NCT01691521 using all Placebo participants.|Mixed Model Repeated Measures||Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.55 (Standard Error: 0.05), which was estimated from a meta-analysis of studies NCT01000506 and NCT01691521 using all Placebo participants.|||-0.66|-1.13|<0.001
82665665|NCT02654145|165047766|SUPERIORITY||Mean Difference (Final Values)|-1.34|||<|0.001|TWO_SIDED|95.0|-1.68|-1.0||p- value for Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.11 (Standard Error: 0.14), which was estimated from a meta-analysis of studies NCT01691521 and NCT02281318 using Placebo participants who previously used|Mixed Model Repeated Measures||Difference (Mepo-Placebo) calculated based on the Historical Placebo estimate of -0.11 (Standard Error: 0.14), which was estimated from a meta-analysis of studies NCT01691521 and NCT02281318 using Placebo participants who previously used Xolair.|||-1.00|-1.68|<0.001
82665666|NCT02654145|165047768|SUPERIORITY||Rate ratio|0.36|||<|0.001|TWO_SIDED|95.0|0.28|0.47|||Generalised Estimating Equations||Analysis performed using generalized estimating equation (GEE) model assuming a negative binomial distribution with a covariate of treatment period (pre-treatment , on- and off-treatment), logarithm of time as an offset variable|||0.47|0.28|<0.001
82665667|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of anemia|0.2613|||||ONE_SIDED|95.0||0.31||||||Compare incidence of Anemia to historical rate of 0.40 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. Comparing the incidence of anemia with VAC on ARST0531 to the historical rate of 0.40 with VAC on D9803. The 95% one-sided confidence interval for the incidence of anemia will be calculated and evaluated to see if the interval contains the null rate of 0.40.||0.31||
82665668|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of nausea or hepatopathy|0.027|||||ONE_SIDED|95.0||0.0449||||||Compare incidence of Nausea or Hepatopathy to historical rate of 0.05 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of nausea or hepatopathy will be calculated and evaluated to see if the interval contains the null rate of 0.05.||0.0449||
82665669|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of febrile neutropenia|0.1351|||||ONE_SIDED|95.0||0.1729||||||Compare incidence of Febrile Neutropenia to historical rate of 0.50 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of febrile neutropenia will be calculated and evaluated to see if the interval contains the null rate of 0.50.||0.1729||
82665670|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of platelet count decrease|0.1216|||||ONE_SIDED|95.0||0.1577||||||Compare incidence of Platelet Count Decreased to historical rate of 0.70 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of platelet count decreased will be calculated and evaluated to see if the interval contains the null rate of 0.70.||0.1577||
82665671|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of vomiting|0.0405|||||ONE_SIDED|95.0||0.0623||||||Compare incidence of Vomiting to historical rate of 0.15 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of vomiting will be calculated and evaluated to see if the interval contains the null rate of 0.15.||0.0623||
82665672|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of anemia|0.2798|||||ONE_SIDED|95.0||0.3329||||||Compare incidence of Anemia to historical rate of 0.40 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. 95% one-sided confidence interval for the incidence of anemia will be calculated and evaluated to see if the interval contains the null rate of 0.40.||0.3329||
82665673|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of nausea or hepatopathy|0.0052|||||ONE_SIDED|95.0||0.0137||||||Compare incidence of Nausea or Hepatopathy to historical rate of 0.05 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of nausea or hepatopathy will be calculated and evaluated to see if the interval contains the null rate of 0.05.||0.0137||
82665674|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of febrile neutropenia|0.0881|||||ONE_SIDED|95.0||0.1216||||||Compare incidence of Febrile Neutropenia to historical rate of 0.50 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of febrile neutropenia will be calculated and evaluated to see if the interval contains the null rate of 0.50.||0.1216||
82665675|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of platelet count decrease|0.3264|||||ONE_SIDED|95.0||0.3819||||||Compare incidence of Platelet Count Decreased to historical rate of 0.70 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of platelet count decreased will be calculated and evaluated to see if the interval contains the null rate of 0.70.||0.3819||
82665676|NCT00354835|165047777|SUPERIORITY_OR_OTHER_LEGACY||The incidence of vomiting|0.0104|||||ONE_SIDED|95.0||0.0224||||||Compare incidence of Vomiting to historical rate of 0.15 from D9803, which is Randomized Study of VCR, Actinomycin-D, and CPM (VAC) vs. VAC alternating with VCR, Topotecan, and CPM (VTC) for Patients with Intermediate Risk RMS. The 95% one-sided confidence interval for the incidence of vomiting will be calculated and evaluated to see if the interval contains the null rate of 0.15.||0.0224||
82665677|NCT00354835|165047780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.99|TWO_SIDED|95.0|||||Fisher Exact|||The incidences of grade 3 or higher neutropenia, with or without fever between UGT1A1 Genotypes (6/6, 6/7, 7/7) were compared by the Fisher's exact test.||||0.99
82665678|NCT00354835|165047780|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED|95.0|||||Fisher Exact|||The incidences of grade 3 or higher diarrhea between UGT1A1 Genotypes (6/6, 6/7, 7/7) were compared by Fisher's exact test.||||0.036
82665679|NCT00431041|165047794|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82665680|NCT00431041|165047795|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value represents overall comparison of severity of dry mouth.|Chi-squared|||||||0.0010
82665681|NCT02637141|165047798|SUPERIORITY|P-values smaller than 0.05 were considered statistically significant.|LS Mean Difference|-2.49|STANDARD_ERROR_OF_MEAN|7.1||0.7271|TWO_SIDED|95.0|-16.82|11.83|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||11.83|-16.82|0.7271
82665682|NCT02637141|165047798|SUPERIORITY|P-values smaller than 0.05 were considered statistically significant.|LS Mean Difference|6.39|STANDARD_ERROR_OF_MEAN|6.67||0.3438|TWO_SIDED|95.0|-7.07|19.85|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||19.85|-7.07|0.3438
82665683|NCT02637141|165047799|SUPERIORITY||LS Mean Difference|-14.32|STANDARD_ERROR_OF_MEAN|19.85||0.4746|TWO_SIDED|95.0|-54.39|25.74|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||25.74|-54.39|0.4746
82665684|NCT02637141|165047799|SUPERIORITY||LS Mean Difference|-41.24|STANDARD_ERROR_OF_MEAN|18.85||0.0343|TWO_SIDED|95.0|-79.28|-3.2|||ANCOVA|The model included baseline VH:CD ratio, site, and sex as covariates and treatment group as a fixed effect.||||-3.2|-79.28|0.0343
82665685|NCT02637141|165047801|SUPERIORITY||LS Mean Difference|4402.25|STANDARD_ERROR_OF_MEAN|1717.4||0.014|TWO_SIDED|95.0|936.39|7868.1|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||7868.10|936.39|0.0140
82665686|NCT02637141|165047801|SUPERIORITY||LS Mean Difference|944.9|STANDARD_ERROR_OF_MEAN|1167.22||0.4228|TWO_SIDED|95.0|-1410.65|3300.44|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||3300.44|-1410.65|0.4228
82665687|NCT02637141|165047802|SUPERIORITY||LS Mean Difference|17.8|STANDARD_ERROR_OF_MEAN|17.09||0.3034|TWO_SIDED|95.0|-16.68|52.29|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgA||52.29|-16.68|0.3034
82665688|NCT02637141|165047802|SUPERIORITY||LS Mean Difference|-6.92|STANDARD_ERROR_OF_MEAN|15.46||0.6569|TWO_SIDED|95.0|-38.11|24.28|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgA||24.28|-38.11|0.6569
82665689|NCT02637141|165047802|SUPERIORITY||LS Mean Difference|13.17|STANDARD_ERROR_OF_MEAN|26.77||0.6254|TWO_SIDED|95.0|-40.86|67.2|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP-IgG||67.20|-40.86|0.6254
82665690|NCT02637141|165047802|SUPERIORITY||LS Mean Difference|2.86|STANDARD_ERROR_OF_MEAN|21.66||0.8955|TWO_SIDED|95.0|-40.84|46.57|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||Analysis of Change From Baseline in Anti-DGP IgG||46.57|-40.84|0.8955
82665691|NCT02637141|165047803|SUPERIORITY||Ratio of LS Means|0.83|STANDARD_ERROR_OF_MEAN|0.11||0.161|TWO_SIDED|95.0|0.63|1.08|||Generalized Linear Mixed Model|Generalized linear mixed model with treatment group, site, sex, time (week), and time point-by-treatment group interaction as fixed effects.||Analysis of Total Weekly Bowel Movements at Week 12||1.08|0.63|0.1610
82665692|NCT02637141|165047803|SUPERIORITY||Ratio of LS Means|1.03|STANDARD_ERROR_OF_MEAN|0.13||0.781|TWO_SIDED|95.0|0.81|1.32|||Generalized Linear Mixed Model|Generalized linear mixed model with treatment group, site, sex, time (week), and time point-by-treatment group interaction as fixed effects.||||1.32|0.81|0.7810
82665693|NCT02637141|165047805|SUPERIORITY||LS Mean Difference|-13.44|STANDARD_ERROR_OF_MEAN|12.33||0.2761|TWO_SIDED|95.0|-37.66|10.77|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||10.77|-37.66|0.2761
82665694|NCT02637141|165047805|SUPERIORITY||LS Mean Difference|-2.62|STANDARD_ERROR_OF_MEAN|11.66||0.8221|TWO_SIDED|95.0|-25.51|20.27|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||20.27|-25.51|0.8221
82665695|NCT02637141|165047806|SUPERIORITY||LS Mean Difference|-2.76|STANDARD_ERROR_OF_MEAN|2.1||0.1908|TWO_SIDED|95.0|-6.89|1.3|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||1.3|-6.89|0.1908
82665696|NCT02637141|165047806|SUPERIORITY||LS Mean Difference|-1.64|STANDARD_ERROR_OF_MEAN|1.98||0.4088|TWO_SIDED|95.0|-5.53|2.25|||Mixed-effect Model Repeat Measurement|The model included baseline value, treatment group, site, sex, time point, and a time point-by-treatment group interaction term as fixed effects.||||2.25|-5.53|0.4088
82665697|NCT01597791|165047807|SUPERIORITY|||||||0.05||||||Calculated.|Fisher Exact|||||||.05
82665698|NCT02235870|165047821|SUPERIORITY||Least-Square Mean Difference|3.28||||0.0261|TWO_SIDED|95.0|2.24|4.32|||ANCOVA|||||4.32|2.24|0.0261
82665699|NCT02235870|165047822|SUPERIORITY||Exact Confidence Interval|64.9|||<|0.0001|TWO_SIDED|95.0|57.5|71.7|||Exact Test|||Subjects in the Obalon Treatment group with at least 2 Balloons and balloon therapy for at least 18 weeks.||71.7|57.5|<0.0001
82665700|NCT02235870|165047823|SUPERIORITY||Percentage Difference|32.8|||<|0.0001|TWO_SIDED|95.0|23.1|42.5|||Chi-squared|||||42.5|23.1|<0.0001
82665701|NCT02670551|165047862|SUPERIORITY||Least Squares Mean Difference|-2.5||||0.0331|TWO_SIDED|95.0|-4.6|-0.4||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.4|-4.6|0.0331
82665702|NCT02670551|165047862|SUPERIORITY||Least Squares Mean Difference|-3.0||||0.0103|TWO_SIDED|95.0|-5.1|-0.9||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.9|-5.1|0.0103
82665703|NCT02670551|165047863|SUPERIORITY||Least Squares Mean Difference|-0.2||||0.0714|TWO_SIDED|95.0|-0.5|0.0||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||0.0|-0.5|0.0714
82665704|NCT02670551|165047863|SUPERIORITY||Least Squares Mean Difference|-0.3||||0.0662|TWO_SIDED|95.0|-0.5|0.0||MMRM analysis was used. Fixed factors: treatment group, pooled study center, visit, treatment-group-by-visit interaction. Covariates: Baseline value, baseline value-by-visit interaction. P-value was adjusted by matched parallel gatekeeping procedure.|Mixed Model Repeated Measures (MMRM)|||To control the overall type I error rate for multiple comparisons of 2 active doses versus placebo at Week 6 for the primary and secondary efficacy parameters, the parallel gatekeeping procedure was implemented.||-0.0|-0.5|0.0662
82665705|NCT02535923|165047874|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|||||||.04
82665706|NCT02535923|165047874|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||.83
82665707|NCT02535923|165047875|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|||||||.83
82665708|NCT02535923|165047876|SUPERIORITY|||||||0.003|||||||Mixed Models Analysis|||||||.003
82665709|NCT02535923|165047877|SUPERIORITY|||||||0.16|||||||Mixed Models Analysis|||||||.16
82665710|NCT02535923|165047878|SUPERIORITY|||||||0.82|||||||Mixed Models Analysis|||||||.82
82665711|NCT03086135|165047935|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 3 months with the Osia system vs Unaided at visit 1||||<0.0001
82665712|NCT03086135|165047936|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in noise at 3 months with the Osia system vs Unaided at visit 1||||<0.0001
82665713|NCT03086135|165047937|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665714|NCT03086135|165047937|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665715|NCT03086135|165047937|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||PTA4 at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665716|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry 250Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665717|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665718|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665719|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665720|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665721|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665722|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665723|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665724|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665725|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665726|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665727|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665728|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665729|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665730|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665731|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665732|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665733|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665734|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665735|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665736|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665737|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665738|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665739|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665740|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665741|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665742|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665743|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665744|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665745|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665746|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 250Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665747|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 500Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665748|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 750Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665749|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665750|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 1500Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665751|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 2000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665752|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 3000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665753|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 4000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665754|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 6000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665755|NCT03086135|165047938|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Threshold audiometry at 8000Hz at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665756|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665757|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665758|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665759|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665760|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665761|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665762|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665763|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665764|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665765|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665766|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Speech in quiet at 65dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665767|NCT03086135|165047939|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665768|NCT03086135|165047940|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 4 weeks with the Osia system vs Unaided at visit 1.||||<0.0001
82665769|NCT03086135|165047940|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 6 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665770|NCT03086135|165047940|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive speech recognition in noise at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665771|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Ease of communication, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665772|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Background noise, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665773|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Reverberation, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665774|NCT03086135|165047941|SUPERIORITY|||||||0.51|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Aversiveness, at 3 months with the Osia system vs Unaided at visit 1.||||0.51
82665775|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Global score, at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665776|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Ease of communication, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665777|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Background noise, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665778|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Reverberation, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665779|NCT03086135|165047941|SUPERIORITY|||||||0.32|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Aversiveness, at 12 months with the Osia system vs Unaided at visit 1.||||0.32
82665780|NCT03086135|165047941|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||APHAB, Global score, at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665781|NCT03086135|165047942|SUPERIORITY|||||||0.026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Comprehensive health state at 3 months with the Osia system vs Unaided at visit 1.||||0.026
82665782|NCT03086135|165047942|SUPERIORITY|||||||0.5|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Vision attribute at 3 months with the Osia system vs Unaided at visit 1.||||0.50
82665783|NCT03086135|165047942|SUPERIORITY|||||||0.0008|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Hearing attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.0008
82665784|NCT03086135|165047942|SUPERIORITY|||||||0.082|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Speech attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.082
82665785|NCT03086135|165047942|SUPERIORITY|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Ambulation attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.13
82665786|NCT03086135|165047942|SUPERIORITY|||||||0.9|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Dexterity attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.9
82665787|NCT03086135|165047942|SUPERIORITY|||||||0.43|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Emotion attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.43
82665788|NCT03086135|165047942|SUPERIORITY|||||||0.31|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Cognition attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.31
82665789|NCT03086135|165047942|SUPERIORITY|||||||0.72|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Pain attribute, at 3 months with the Osia system vs Unaided at visit 1.||||0.72
82665790|NCT03086135|165047942|SUPERIORITY|||||||0.13|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Comprehensive Health State attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.13
82665791|NCT03086135|165047942|SUPERIORITY|||||||0.23|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||HUI Vision attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.23
82665792|NCT03086135|165047942|SUPERIORITY|||||||0.0026|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Hearing attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.0026
82665793|NCT03086135|165047942|SUPERIORITY|||||||0.0024|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Speech attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.0024
82665794|NCT03086135|165047942|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Ambulation attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.16
82665795|NCT03086135|165047942|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Dexterity attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.16
82665796|NCT03086135|165047942|SUPERIORITY|||||||0.85|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Emotion attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.85
82665797|NCT03086135|165047942|SUPERIORITY|||||||1|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Cognition attribute, at 12 months with the Osia system vs Unaided at visit 1.||||1.0
82665798|NCT03086135|165047942|SUPERIORITY|||||||0.56|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||HUI Pain attribute, at 12 months with the Osia system vs Unaided at visit 1.||||0.56
82665799|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Total score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665800|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Speech score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665801|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Spatial score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665802|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Quality score at 3 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665803|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Total score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665804|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Speech score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665805|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Spatial score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665806|NCT03086135|165047943|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||SSQ Quality score at 12 months with the Osia system vs Unaided at visit 1.||||<0.0001
82665807|NCT03086135|165047944|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665808|NCT03086135|165047944|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665809|NCT03086135|165047944|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665810|NCT03086135|165047944|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry PTA4 with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665811|NCT03086135|165047945|SUPERIORITY|||||||0.025|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.025
82665812|NCT03086135|165047945|SUPERIORITY|||||||0.096|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.096
82665813|NCT03086135|165047945|SUPERIORITY|||||||0.015|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.015
82665814|NCT03086135|165047945|SUPERIORITY|||||||0.67|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.67
82665815|NCT03086135|165047945|SUPERIORITY|||||||0.73|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.73
82665816|NCT03086135|165047945|SUPERIORITY|||||||0.019|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.019
82665817|NCT03086135|165047945|SUPERIORITY|||||||0.0046|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||0.0046
82665818|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665819|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665820|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 4 week vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665821|NCT03086135|165047945|SUPERIORITY|||||||0.019|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.019
82665822|NCT03086135|165047945|SUPERIORITY|||||||0.04|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.040
82665823|NCT03086135|165047945|SUPERIORITY|||||||0.037|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.037
82665824|NCT03086135|165047945|SUPERIORITY|||||||0.67|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.67
82665825|NCT03086135|165047945|SUPERIORITY|||||||0.34|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.34
82665826|NCT03086135|165047945|SUPERIORITY|||||||0.0048|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.0048
82665827|NCT03086135|165047945|SUPERIORITY|||||||0.0008|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||0.0008
82665828|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665829|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||Hearing performance: threshold audiometry 6000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665830|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 3 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665831|NCT03086135|165047945|SUPERIORITY|||||||0.1|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.10
82665832|NCT03086135|165047945|SUPERIORITY|||||||0.0007|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0007
82665833|NCT03086135|165047945|SUPERIORITY|||||||0.0003|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0003
82665834|NCT03086135|165047945|SUPERIORITY|||||||0.11|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.11
82665835|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665836|NCT03086135|165047945|SUPERIORITY|||||||0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||0.0001
82665837|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665838|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665839|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665840|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 6 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665841|NCT03086135|165047945|SUPERIORITY|||||||0.8|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 250Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||0.80
82665842|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 500Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665843|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 750Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665844|NCT03086135|165047945|SUPERIORITY|||||||0.001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||0.0010
82665845|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 1500Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665846|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 2000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665847|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 3000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665848|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 4000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665849|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 6000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665850|NCT03086135|165047945|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Hearing performance: threshold audiometry 8000Hz with Osia at 12 months vs the reference device BP110 on a softband at visit 1.||||<0.0001
82665851|NCT03086135|165047946|SUPERIORITY|||||||0.51|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.51
82665852|NCT03086135|165047946|SUPERIORITY|||||||0.021|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.021
82665853|NCT03086135|165047946|SUPERIORITY|||||||0.29|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 4 weeks vs reference device BP110 on softband att visit 1.||||0.29
82665854|NCT03086135|165047946|SUPERIORITY|||||||0.18|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.18
82665855|NCT03086135|165047946|SUPERIORITY|||||||0.017|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.017
82665856|NCT03086135|165047946|SUPERIORITY|||||||0.16|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 3 months vs reference device BP110 on softband att visit 1.||||0.16
82665857|NCT03086135|165047946|SUPERIORITY|||||||0.0051|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.0051
82665858|NCT03086135|165047946|SUPERIORITY|||||||0.021|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.021
82665859|NCT03086135|165047946|SUPERIORITY|||||||0.56|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 80dB SPL with Osia at 6 months vs reference device BP110 on softband att visit 1.||||0.56
82665860|NCT03086135|165047946|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 50dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||<0.0001
82665861|NCT03086135|165047946|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Speech in quiet at 65dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||<0.0001
82665862|NCT03086135|165047946|SUPERIORITY|||||||0.041|TWO_SIDED|95.0|||||Wilcoxon Signed Rank test|||Speech in quiet at 80dB SPL with Osia at 12 months vs reference device BP110 on softband att visit 1.||||0.041
82665863|NCT03086135|165047947|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 4 weeks vs reference device BP110 on softband at visit 1.||||<0.0001
82665864|NCT03086135|165047947|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 3 months vs reference device BP110 on softband at visit 1.||||<0.0001
82665865|NCT03086135|165047947|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 6 months vs reference device BP110 on softband at visit 1.||||<0.0001
82665866|NCT03086135|165047947|SUPERIORITY||||||<|0.0001|TWO_SIDED|95.0|||||Fisher's non-parametric permutation test|||Adaptive Speech Recognition in Noise with Osia at 12 months vs reference device BP110 on softband at visit 1.||||<0.0001
82665867|NCT01023061|165047959|SUPERIORITY||Median Difference (Final Values)|0.74|||<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||< 0.01
82665868|NCT01710358|165048003|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Regression, Logistic|||||||0.001
82665869|NCT01721772|165048035|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.42|||<|0.0001|TWO_SIDED|95.0|0.3|0.6|||Stratified Log Rank Test|||||0.60|0.30|<0.0001
82665870|NCT01721772|165048036|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.44|||<|0.0001|TWO_SIDED|95.0|0.34|0.56|||Stratified Log Rank Test|||||0.56|0.34|<0.0001
82665871|NCT01721772|165048038|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|4.43|||<|0.0001|TWO_SIDED|95.0|2.75|7.13|||Cochran-Mantel-Haenszel|||||7.13|2.75|<0.0001
82665872|NCT01721772|165048039|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.37|||||TWO_SIDED|95.0|0.24|0.56|||||PD-L1 positive group|||0.56|0.24|
82665873|NCT01721772|165048039|SUPERIORITY_OR_OTHER_LEGACY||Unstratified Hazard Ratio|0.6|||||TWO_SIDED|95.0|0.45|0.8|||||PD-L1 negative group|||0.80|0.45|
82665874|NCT01721772|165048042|SUPERIORITY||Hazard Ratio (HR)|0.51|||||TWO_SIDED|95.0|0.41|0.65||||||||0.65|0.41|
82665875|NCT04542694|165048044|SUPERIORITY||The difference in proportions|0.1313||||0.0372|TWO_SIDED|95.0|-0.0004|0.2367|||Chi-squared|||A comparative analysis of the rate of clinical status improvement by 2 or more categories. The difference in percentages between the AREPLIVIR arm and the standard therapy arm (pa-pb)||0.2367|-0.0004|0.0372
82665876|NCT04542694|165048045|SUPERIORITY||The difference in days|4.0|||<|0.0001|TWO_SIDED||||||Log Rank|||Comparative analysis of time to clinical status improvement by categorical ordinal clinical improvement scale between the AREPLIVIR arm and the standard therapy arm||||<0.0001
82665877|NCT04542694|165048046|SUPERIORITY||The difference in percentages|22.5||||0.00016|TWO_SIDED||||||Chi-squared|||||||0.00016
82665878|NCT04542694|165048047|SUPERIORITY||Median Difference (Final Values)|1.55||||0.052|TWO_SIDED||||||Log Rank|||||||0.052
82665879|NCT04542694|165048048|SUPERIORITY|||||||0.1953|||||||Chi-squared|||||||0.1953
82665880|NCT04542694|165048049|SUPERIORITY|||||||0.4975|||||||Chi-squared|||||||0.4975
82665881|NCT00874822|165048059|SUPERIORITY_OR_OTHER_LEGACY||Percentage of Participants|19.0|STANDARD_ERROR_OF_MEAN|2.7|<|0.0001|TWO_SIDED|95.0|13.6|24.4|||Chi-squared, Corrected|||"Ho: The Prevalence of obstructive sleep apnea in patients planning hip or knee arthroplasty will be no different using current screening techniques than it was in a historical control group.~The prevalence of OSA in the study population is hypothesized to be at least 10% higher than the best previous estimate of 6.7%. Employing a two-sided hypothesis test with α of 0.05 and power of 0.85 yields a sample size of 163."||24.4|13.6|<0.0001
82665882|NCT02854800|165048061|SUPERIORITY||||||<|0.05|||||||t-test, 2 sided|||A separate t-test for each row was used to compare dropouts and completers.||||<0.05
82665883|NCT02854800|165048063|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||One-way ANOVA was used to compare mean medication side effect ratings across the three arms/groups to determine whether one group had more severe symptoms that may have been related to study dropout.||||<0.05
82665884|NCT02854800|165048066|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Mixed ANOVA was used with Study Week (1-12) as the within-subjects, repeated-measures factor and Group as the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
82665885|NCT02854800|165048067|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||One-way ANOVA was used for each side effect rating with Group as the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
82665886|NCT02854800|165048068|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Data were analyzed via mixed ANOVA whereby Study Visit (1-4) was the repeated-measures factor and Group (weekly, biweekly, monthly) was the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
82665887|NCT02854800|165048070|SUPERIORITY||||||<|0.05|||||||ANOVA|If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||Data were analyzed via mixed ANOVA whereby Study Visit (1-4) was the repeated-measures factor and Group (weekly, biweekly, monthly) was the between-subjects factor. If the overall F test was significant, Tukey's Honestly Significant Difference post-hoc tests were performed.||||<0.05
82665888|NCT00840658|165048126|SUPERIORITY|||||||0.036|TWO_SIDED|95.0||||P-value is for the Ciudad Juarez site and it corresponds to the interaction between group (Intervention vs. Control) and study visit (12-months vs. baseline).|Mixed Models Analysis|||Alternative hypothesis: There is a difference between the intervention and the control group with respect to the change in the odds of higher receptive needle sharing. (i.e., The interaction between study visit (baseline, 4-, 8-, and 12-months) and intervention group will be significant at 0.05 significance level. Over time, the intervention group will experience a significant decline in receptive needle sharing but the control group will not.)|To examine the receptive needle sharing outcome, we used ordinal logistic regression for correlated data via GEE with the correlation matrix estimated empirically from the data. The final analyses were stratified by site. The final ordinal logistic regression models included the following main effects: Group, Visit, and Visit\*Group interaction, with our primary interest in the Visit\*Group interaction, as a significant p-value would be indicative of an intervention effect.|||0.036
82665889|NCT00840658|165048127|SUPERIORITY|||||||0.013|TWO_SIDED|95.0||||P-value is for the Ciudad Juarez site and it corresponds to the interaction between group (Intervention vs. Control) and study visit (12-months vs. baseline).|Mixed Models Analysis|||Alternative hypothesis: There is a difference between the intervention and the control group with respect to the change in the mean score IRI (i.e., The interaction between study visit (baseline, 4-, 8-, and 12-months) and intervention group will be significant at 0.05 significance level. Over time, the intervention group will experience a significant decline in the IRI but the control group will not.)|We used gamma regression for correlated data via GEE, with the correlation matrix estimated empirically from the data. The final analyses were stratified by site. The final gamma regression models included the following main effects: Group, Visit, and Visit\*Group interaction, with our primary interest in the Visit\*Group interaction, as a significant p-value would be indicative of an intervention effect.|||0.013
82665890|NCT00573313|165048139|SUPERIORITY_OR_OTHER||Ratio of Geometric Means at 24 weeks.|0.1505|STANDARD_ERROR_OF_MEAN|0.1615||0.36|TWO_SIDED|95.0|-0.1853|0.4863||The data provided here are for changes in serum AST levels as representative of all clinical laboratory parameters measured.|ANCOVA|Analysis of covariance controlled for baseline data, e.g. AST.|Obtained median values and ranges and log transformations of SD.|Power calculation indicated that a sample size of 20 subjects per treatment arm would detect differences between groups of 0.9 within-subject standard deviations or higher at 80% power and 5% level of significance.||0.4863|-0.1853|0.36
82665891|NCT00835588|165048140|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|88.8||||||90.0|82.7|95.4|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||95.4|82.7|
82665892|NCT00835588|165048141|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|97.3||||||90.0|93.4|101.0|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||101|93.4|
82665893|NCT00835588|165048142|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Analysis of variance (ANOVA) was performed on pharmacokinetic parameters of AUC0-t, AUCinf and Cmax.|Geometric Test/Ref Ratio x 100|95.6||||||90.0|91.6|99.8|||||Bioequivalence is established when 90% Confidence Interval falls within 80-125.|||99.8|91.6|
82665894|NCT01451541|165048178|SUPERIORITY_OR_OTHER||LS Means with adjusted pvalues|0.59|||<|0.05||||||Multiple comparisons were adjusted for the primary and key secondary endpoints|Bonferroni-based gatekeeping method|Bonferroni-based gatekeeping method was used for multiple comparison adjustment.||Using an estimate of the standard deviation of 2.2 for the change from baseline in daily average subject-reported AM and PM rTNSS averaged over the first 6 weeks of double-blind treatment, 284 subjects per treatment group would have provided 90% power to detect a mean difference between treatment groups of 0.6 in the change from baseline with a 2-sided significance level of 0.05. Approx. 852 subjects were randomly assigned in a 1:1:1 ratio (ie, approximately 284 subjects per treatment group).||||<0.05
82665895|NCT01451541|165048178|SUPERIORITY_OR_OTHER||LS Means with adjusted p-values.|0.47|||<|0.05||||||Multiple comparisons were adjusted for the primary and key secondary endpoints|Bonferroni-based gatekeeping method|Bonferroni-based gatekeeping method was used for multiple comparison adjustment.||Using an estimate of the standard deviation of 2.2 for the change from baseline in daily average subject-reported AM and PM rTNSS averaged over the first 6 weeks of double-blind treatment, 284 subjects per treatment group would have provided 90% power to detect a mean difference between treatment groups of 0.6 in the change from baseline with a 2-sided significance level of 0.05. Approx. 852 subjects were randomly assigned in a 1:1:1 ratio (ie, approximately 284 subjects per treatment group).||||<0.05
82665896|NCT03790137|165048273|OTHER|The frequency of HWE for each patient was reported as episodes/day, as determined by dividing the total number of seizures experienced over a given time period by the number of days for which seizures were recorded. Paired t-tests were performed to compare each patient's baseline seizure frequency to their seizure frequency in the last month of treatment. Change in seizure frequency is reported as percent change from baseline. An alpha of 0.05 was used for statistical significance.|||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82665897|NCT00714051|165048286|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||Chi-squared|||The number of participants who fell on the tripping trial in each group were compared using Chi-square analysis||||0.45
82665898|NCT03868631|165048293|SUPERIORITY||||||<|0.05|||||||multilevel models for change|||Between-group differences at baseline were compared using independent t-tests. Multilevel models for change (MLM) were used to determine differences between groups over time for study outcomes. Age, sex, and number of sessions missed were included as covariates. Time and time by group interactions were examined. Analyses were conducted using IBM SPSS Statistics version 23. Significance was set at p\<0.05.||||<0.05
82665899|NCT01929681|165048297|SUPERIORITY||||||<|0.049|||||||Regression, Linear|||||||<0.049
82665900|NCT01929681|165048298|SUPERIORITY||||||<|0.182|||||||Regression, Linear|||||||<0.182
82665901|NCT01929681|165048299|SUPERIORITY||||||<|0.449|||||||Regression, Linear|Mixed effects analysis||||||<0.449
82665902|NCT01929681|165048300|SUPERIORITY||||||<|0.444|||||||Regression, Linear|Mixed effects analysis||||||<0.444
82665903|NCT01929681|165048301|SUPERIORITY||||||<|0.182|||||||Regression, Linear|Mixed effects analysis||||||<0.182
82665904|NCT01971554|165048302|SUPERIORITY_OR_OTHER||Difference in the least squares means|30.8|||||TWO_SIDED|90.0|11.3|50.3|||||A constrained longitudinal data analysis (cLDA) model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||50.3|11.3|
82665905|NCT01971554|165048302|SUPERIORITY_OR_OTHER||Difference in the least squares means|36.0|||||TWO_SIDED|90.0|20.0|51.9|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||51.9|20.0|
82665906|NCT01971554|165048302|SUPERIORITY_OR_OTHER||Difference in the least squares means|54.1|||||TWO_SIDED|90.0|38.1|70.0|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||70.0|38.1|
82665907|NCT01971554|165048308|SUPERIORITY_OR_OTHER||Difference in the least squares means|22.3|||||TWO_SIDED|90.0|6.2|38.4|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||38.4|6.2|
82665908|NCT01971554|165048308|SUPERIORITY_OR_OTHER||Difference in the least squares means|30.6|||||TWO_SIDED|90.0|17.4|43.8|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||43.8|17.4|
82665909|NCT01971554|165048308|SUPERIORITY_OR_OTHER||Difference in the least squares means|48.8|||||TWO_SIDED|90.0|35.6|62.0|||||A cLDA model was used to fit to the FPG data from the MK-8666 dose groups and placebo. Time was treated as a categorical variable so that no restriction was imposed on the trajectory of the means over time.|||62.0|35.6|
82665910|NCT01426854|165048309|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Cochran-Mantel-Haenszel|||||||<0.0001
82665911|NCT03555695|165048311|SUPERIORITY||Mean Difference (Final Values)|0.6||||0.12|TWO_SIDED||||||t-test, 2 sided|||||||0.12
82665912|NCT03505151|165048324|OTHER||Ratio T/R|44.63|STANDARD_ERROR_OF_MEAN|36.9||||90.0|32.62|61.06|||||Standard Error of the mean is actually Intra-individual geometric coefficient of variation (gCV) of the mean|Absolute bioavailability was evaluated using an Analysis of variance model (ANOVA) on BI 409306 AUC0-inf versus 0.1 mg BI 409306 C-13/N-15 i.v. This model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed. The dose normalised PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model.||61.06|32.62|
82665913|NCT03505151|165048325|OTHER||Ratio T/R|47.25|STANDARD_ERROR_OF_MEAN|68.8||||90.0|27.38|81.55|||||Standard Error of the mean is actually Intra-individual geometric coefficient of variation (gCV) of the mean|Ratios of BI 409306 for Cmax versus 0.1 mg BI 409306 C-13/N-15 i.v. was evaluated using ANOVA model. This model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas 'formulation' was considered as fixed. The dose normalised PK endpoints were log transformed (natural logarithm) prior to fitting the ANOVA model.||81.55|27.38|
82499465|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.794|STANDARD_ERROR_OF_MEAN|0.891||||90.0|-4.264|-1.324|||ANCOVA|||Extension Month 30; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.324|-4.264|
82665914|NCT01942135|165048331|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.422|||<|1e-06|TWO_SIDED|95.0|0.318|0.56||The overall Type-I error rate was persevered at 1-sided 0.025 level for the analysis of the primary endpoint PFS by the Haybittle-Peto efficacy boundary. The priori threshold for statistical significance was 0.00135.|Stratified Log Rank Test (1-sided)|The log rank test stratified by sensitivity to prior hormonal therapy and the presence of visceral metastases based on the randomization information.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of the palbociclib plus fulvestrant arm.|The primary hypothesis to be tested was H0: λ≥1 versus. HA: λ\<1, where λ was the palbociclib plus fulvestrant: placebo plus fulvestrant hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Fulvestrant. The study was planned to have 90% power and control the type-I error rate at 0.025.||0.560|0.318|<0.000001
82665915|NCT01942135|165048333|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.814|||=|0.0429|TWO_SIDED|95.0|0.644|1.029||1-sided p-value from the log-rank test stratified by the presence of visceral metastases and sensitivity to prior endocrine therapy per randomization.|Stratified Log Rank Test (1-sided)|The log rank test stratified by sensitivity to prior hormonal therapy and the presence of visceral metastases based on the randomization information.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of palbociclib plus fulvestrant.|The primary hypothesis to be tested was H0: λ≥1 versus. HA: λ\<1, where λ was the palbociclib plus fulvestrant: placebo plus fulvestrant hazard ratio (HR). A HR less than 1 indicates a reduction in hazard rate in favor of Palbociclib + Fulvestrant. The study was planned to have 90% power and control the type-I error rate at 0.025.||1.029|0.644|=0.0429
82665916|NCT01942135|165048335|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|2.783||||0.0001|TWO_SIDED|95.0|1.563|5.603||The p-value was not adjusted for multiple comparisons. The priori threshold for statistical significance is 1-sided, alpha=0.025.|Exact test (1-sided)|The 1-sided p-value is from the stratified exact test.|An Odds Ratio \>1 means better response in favor of the palbociclib plus fulvestrant arm.|The exact test is testing the null hypothesis that the odds ratio of objective response rate is less than or equal to 1 vs. the alternative hypothesis that the odds ratio of objective response rate is greater than 1. An Odds Ratio \>1 means better response in favor of palbociclib plus fulvestrant arm.||5.603|1.563|0.0001
82665917|NCT01942135|165048337|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|3.016|||<|0.0001|TWO_SIDED|95.0|2.046|4.565||The p-value was not adjusted for multiple comparisons. The priori threshold for statistical significance is 1-sided, alpha=0.025.|Exact test (1-sided)|The 1-sided p-value is from the stratified exact test.|An odds ratio \> 1 means better clinical benefit response in favor of palbociclib plus fulvestrant arm.|The exact test is testing the null hypothesis that the odds ratio of objective response rate is less than or equal to 1 vs. the alternative hypothesis that the odds ratio of objective response rate is greater than 1. An Odds Ratio \>1 means better response in favor of palbociclib plus fulvestrant arm.||4.565|2.046|<0.0001
82665918|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.1||||0.0313|TWO_SIDED|95.0|0.3|6.0||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for Global health status/ QoL||6.0|0.3|0.0313
82665919|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.0||||0.4|TWO_SIDED|95.0|-1.4|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for physical functioning||3.5|-1.4|0.4000
82665920|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.9||||0.2615|TWO_SIDED|95.0|-1.5|5.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for role functioning||5.3|-1.5|0.2615
82665921|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.6||||0.0016|TWO_SIDED|95.0|1.7|7.4||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for emotional functioning||7.4|1.7|0.0016
82665922|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.2||||0.365|TWO_SIDED|95.0|-1.4|3.8||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for cognitive functioning||3.8|-1.4|0.3650
82665923|NCT01942135|165048341|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.1||||0.9615|TWO_SIDED|95.0|-3.4|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for social functioning||3.5|-3.4|0.9615
82665924|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.5||||0.32|TWO_SIDED|95.0|-4.5|1.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for fatigue||1.5|-4.5|0.3200
82665925|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.5||||0.0369|TWO_SIDED|95.0|-4.8|-0.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for nausea and vomiting||-0.2|-4.8|0.0369
82665926|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.3||||0.0011|TWO_SIDED|95.0|-8.5|-2.1||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for pain||-2.1|-8.5|0.0011
82665927|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.5||||0.7699|TWO_SIDED|95.0|-3.7|2.8||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for dyspnoea||2.8|-3.7|0.7699
82665928|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.0||||0.2721|TWO_SIDED|95.0|-5.5|1.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for insomnia||1.6|-5.5|0.2721
82665929|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.7334|TWO_SIDED|95.0|-4.1|2.9||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for appetite loss||2.9|-4.1|0.7334
82665930|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.7||||0.6491|TWO_SIDED|95.0|-2.5|3.9||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for constipation||3.9|-2.5|0.6491
82665931|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.6||||0.6293|TWO_SIDED|95.0|-2.8|1.7||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for diarrhoea||1.7|-2.8|0.6293
82665932|NCT01942135|165048342|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.3||||0.8812|TWO_SIDED|95.0|-3.1|3.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for financial difficulties||3.6|-3.1|0.8812
82665933|NCT01942135|165048343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.3||||0.1386|TWO_SIDED|95.0|-0.7|5.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for body image||5.2|-0.7|0.1386
82665934|NCT01942135|165048343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.8||||0.5235|TWO_SIDED|95.0|-3.1|1.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for sexual functioning||1.6|-3.1|0.5235
82665935|NCT01942135|165048343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.4||||0.6271|TWO_SIDED|95.0|-4.4|7.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for sexual enjoyment||7.3|-4.4|0.6271
82665936|NCT01942135|165048343|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|3.6||||0.0845|TWO_SIDED|95.0|-0.5|7.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for future perspective||7.6|-0.5|0.0845
82665937|NCT01942135|165048344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.4||||0.7273|TWO_SIDED|95.0|-1.6|2.3||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for systemic therapy side effects||2.3|-1.6|0.7273
82665938|NCT01942135|165048344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.9||||0.2671|TWO_SIDED|95.0|-2.6|0.7||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for breast symptoms||0.7|-2.6|0.2671
82665939|NCT01942135|165048344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.2||||0.875|TWO_SIDED|95.0|-2.6|2.2||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for arm symptoms||2.2|-2.6|0.8750
82665940|NCT01942135|165048344|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|8.9||||0.0255|TWO_SIDED|95.0|1.1|16.6||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Statistical significance for palbociclib plus fulvestrant vs placebo plus fulvestrant for upset by hair loss||16.6|1.1|0.0255
82665941|NCT01942135|165048345|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.037||||0.0308|TWO_SIDED|95.0|0.0|0.07||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||0.07|0.00|0.0308
82665942|NCT01942135|165048346|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.8||||0.5523|TWO_SIDED|95.0|-1.9|3.5||The priori threshold for statistical significance is 2-sided alpha=0.05. The p-value was not adjusted for multiple comparisons.|Mixed Model Analysis (2-sided)|Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||Analysis based on repeated measures mixed-effects model with an intercept term, treatment, time, treatment-by-time, and baseline as covariate.||3.5|-1.9|0.5523
82665943|NCT01942135|165048347|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.642|||<|0.001|TWO_SIDED|95.0|0.487|0.846||The priori threshold for statistical significance is 1-sided alpha=0.025. The p-value was not adjusted for multiple comparisons.|Unstratified log-rank test (1-sided)|1-sided p-value from the unstratified log-rank test.|Assuming proportional hazards, a hazard ratio less than 1 indicates a reduction in hazard rate in favor of the palbociclib plus fulvestrant arm.|Treatment with palbociclib plus fulvestrant significantly delayed TTD in pain symptom compared with placebo plus fulvestrant for unstratified analysis.||0.846|0.487|<0.001
82665944|NCT01139762|165048383|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.41||||0.001|TWO_SIDED|95.0|-2.27|-0.55|||Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.55|-2.27|0.001
82665945|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.51||||0.007|TWO_SIDED|95.0|-0.87|-0.14||P-value is for IPSS storage (irritative) subscore - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-0.87|0.007
82665946|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.41||||0.04|TWO_SIDED|95.0|-0.8|-0.02||P-value is for IPSS storage (irritative) subscore - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.02|-0.80|0.040
82665947|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.34||||0.107|TWO_SIDED|95.0|-0.75|0.07||P-value is for IPSS storage (irritative) subscore - 26 weeks|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.07|-0.75|0.107
82492817|NCT00934089|164678455|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.24||||0.9103|TWO_SIDED|90.0|-3.85|3.37|||ANCOVA|||Change at Day 15 8 AM: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||3.37|-3.85|0.9103
82665948|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.18|||<|0.001|TWO_SIDED|95.0|-1.69|-0.68||P-value is for IPSS voiding (obstructive) subscore - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.68|-1.69|<0.001
82665949|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.04|||<|0.001|TWO_SIDED|95.0|-1.62|-0.46||P-value is for IPSS voiding (obstructive) subscore - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.46|-1.62|<0.001
82665950|NCT01139762|165048385|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.73||||0.015|TWO_SIDED|95.0|-1.32|-0.14||P-value is IPSS voiding (obstructive) subscore - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-1.32|0.015
82665951|NCT01139762|165048386|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.32|||<|0.001|TWO_SIDED|95.0|-0.5|-0.14||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||-0.14|-0.50|<0.001
82665952|NCT01139762|165048386|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.19||||0.051|TWO_SIDED|95.0|-0.38|0.0||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.00|-0.38|0.051
82665953|NCT01139762|165048386|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.17||||0.107|TWO_SIDED|95.0|-0.38|0.04||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline total IPSS was the covariate. No imputation of missing total IPSS data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.04|-0.38|0.107
82665954|NCT01139762|165048387|SUPERIORITY_OR_OTHER||LS Mean Difference|4.85|||<|0.001|TWO_SIDED|95.0|3.49|6.21||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||6.21|3.49|<0.001
82665955|NCT01139762|165048387|SUPERIORITY_OR_OTHER||LS Mean Difference|4.08|||<|0.001|TWO_SIDED|95.0|2.55|5.6||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||5.60|2.55|<0.001
82665956|NCT01139762|165048387|SUPERIORITY_OR_OTHER||LS Mean Difference|4.73|||<|0.001|TWO_SIDED|95.0|3.15|6.31||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||6.31|3.15|<0.001
82665957|NCT01139762|165048388|SUPERIORITY_OR_OTHER||LS Mean Difference|1.01|||<|0.001|TWO_SIDED|95.0|0.61|1.4||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.40|0.61|<0.001
82665958|NCT01139762|165048388|SUPERIORITY_OR_OTHER||LS Mean Difference|1.06|||<|0.001|TWO_SIDED|95.0|0.61|1.51||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.51|0.61|<0.001
82665959|NCT01139762|165048388|SUPERIORITY_OR_OTHER||LS Mean Difference|1.22|||<|0.001|TWO_SIDED|95.0|0.74|1.69||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.69|0.74|<0.001
82665960|NCT01139762|165048389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.82|||<|0.001|TWO_SIDED|95.0|1.18|2.47||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.47|1.18|<0.001
82665961|NCT01139762|165048389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.59|||<|0.001|TWO_SIDED|95.0|0.88|2.31||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.31|0.88|<0.001
82665962|NCT01139762|165048389|SUPERIORITY_OR_OTHER||LS Mean Difference|1.98|||<|0.001|TWO_SIDED|95.0|1.23|2.73||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.73|1.23|<0.001
82665963|NCT01139762|165048390|SUPERIORITY_OR_OTHER||LS Mean Difference|1.53|||<|0.001|TWO_SIDED|95.0|0.92|2.13||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||2.13|0.92|<0.001
82492818|NCT00934089|164678457|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|59.2|||<|0.001|TWO_SIDED|95.0|38.69|79.7|||Fisher Exact|||Photophobia: p-value was calculated using fisher exact test.||79.70|38.69|<0.001
82665964|NCT01139762|165048390|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9||||0.006|TWO_SIDED|95.0|0.27|1.54||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.54|0.27|0.006
82665965|NCT01139762|165048390|SUPERIORITY_OR_OTHER||LS Mean Difference|1.07||||0.002|TWO_SIDED|95.0|0.41|1.74||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.74|0.41|0.002
82665966|NCT01139762|165048391|SUPERIORITY_OR_OTHER||LS Mean Difference|0.93|||<|0.001|TWO_SIDED|95.0|0.61|1.25||P-value is for 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.25|0.61|<0.001
82665967|NCT01139762|165048391|SUPERIORITY_OR_OTHER||LS Mean Difference|0.79|||<|0.001|TWO_SIDED|95.0|0.44|1.14||P-value is for 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.14|0.44|<0.001
82665968|NCT01139762|165048391|SUPERIORITY_OR_OTHER||LS Mean Difference|0.76|||<|0.001|TWO_SIDED|95.0|0.39|1.13||P-value is for 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.13|0.39|<0.001
82665969|NCT01139762|165048392|SUPERIORITY_OR_OTHER|||||||0.034||95.0||||P-value is for overall distribution of responses.|Cochran-Mantel-Haenszel|Adjusted for baseline lower urinary tract symptoms (LUTS) severity.||||||0.034
82665970|NCT01139762|165048393|SUPERIORITY_OR_OTHER|||||||0.031||95.0|||||Van Elteren test|Van Elteren test was stratified by region.||||||0.031
82665971|NCT01139762|165048394|SUPERIORITY_OR_OTHER|||||||0.328||95.0||||P-value is for overall distribution of responses.|Cochran-Mantel-Haenszel|Adjusted for baseline lower urinary tract symptoms (LUTS) severity.||||||0.328
82665972|NCT01139762|165048395|SUPERIORITY_OR_OTHER|||||||0.157||95.0|||||Wilcoxon Rank-Sum test|||||||0.157
82665973|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.74|||<|0.001|TWO_SIDED|95.0|0.49|0.98||P-value is for Question 3 - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.98|0.49|<0.001
82665974|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.68|||<|0.001|TWO_SIDED|95.0|0.43|0.93||P-value is for Question 3 - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.93|0.43|<0.001
82492819|NCT00934089|164678457|SUPERIORITY_OR_OTHER_LEGACY||Percent Difference|-3.56||||0.612|TWO_SIDED|95.0|-14.8|7.68|||Fisher Exact|||Iritis: p-value was calculated using fisher exact test.||7.68|-14.80|0.612
82492820|NCT00934089|164678459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.42||||0.245|TWO_SIDED|90.0|-127.05|22.22|||ANCOVA|||Change at Day 13 8 AM study eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||22.22|-127.05|0.2450
82665975|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75|||<|0.001|TWO_SIDED|95.0|0.48|1.02||P-value is for Question 3 - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||1.02|0.48|<0.001
82665976|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.71|||<|0.001|TWO_SIDED|95.0|0.46|0.95||P-value is for Question 4 - 4 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.95|0.46|<0.001
82665977|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61|||<|0.001|TWO_SIDED|95.0|0.36|0.85||P-value is for Question 4 - 12 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.85|0.36|<0.001
82665978|NCT01139762|165048396|SUPERIORITY_OR_OTHER||LS Mean Difference|0.62|||<|0.001|TWO_SIDED|95.0|0.35|0.89||P-value is for Question 4 - 26 weeks.|Mixed Model Repeated Measures Analysis|The Kenward-Roger approximation was used to estimate denominator degrees of freedom.||MMRM model includes treatment, region, visit, and treatment-by-visit interaction as fixed effects, and subject as a random effect. Baseline IIEF was the covariate. No imputation of missing IIEF data was performed. The within-subject errors were modeled using an unstructured covariance structure.||0.89|0.35|<0.001
82665979|NCT00087529|165048403|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.773||||0.1442|TWO_SIDED|95.0|0.546|1.093||Stratified using the following variables: Baseline EDSS (less than or equal to \[≤\] 4.0 versus \>4.0 points) and prior treatment with interferon-beta or glatiramer acetate.|Log Rank|||||1.093|0.546|0.1442
82665980|NCT00087529|165048405|SUPERIORITY_OR_OTHER||LS mean difference|-718.24||||0.0008|TWO_SIDED|95.0|-1504.48|68.0|||Friedman ranked ANOVA test|||Treatment difference in least-squares (LS) means and the associated 95% confidence intervals were estimated from the analysis of variance (ANOVA) model, which included the following factors: Baseline EDSS (≤ 4.0 versus \>4.0 points), prior treatment with interferon-beta or glatiramer acetate, and treatment group.||68.00|-1504.48|0.0008
82665981|NCT00087529|165048406|SUPERIORITY_OR_OTHER||LS mean difference|-1.08||||0.6237|TWO_SIDED|95.0|-9.49|7.34|||Friedman ranked ANOVA test|||Treatment difference in LS means and the associated 95% confidence intervals were estimated from the ANOVA model, which included the following factors: Baseline EDSS (≤ 4.0 versus \>4.0 points), prior treatment with interferon-beta or glatiramer acetate, and treatment group.||7.34|-9.49|0.6237
82665982|NCT00769314|165048428|SUPERIORITY_OR_OTHER||Treatment difference|0.0685||||0.0419|TWO_SIDED|95.0|0.0025|0.1339||p-value \< 0.05 considered significant|Chi-squared||Treatment difference was the proportion of patients with aborted lesions in the acyclovir Lauriad group minus the proportion of patients with aborted lesions in the placebo group.|||0.1339|0.0025|0.0419
82665983|NCT00769314|165048429|SUPERIORITY_OR_OTHER|||||||0.0683||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0683
82665984|NCT00769314|165048430|SUPERIORITY_OR_OTHER|||||||0.0033||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0033
82665985|NCT00769314|165048431|SUPERIORITY_OR_OTHER|||||||0.0098||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0098
82665986|NCT00769314|165048432|SUPERIORITY_OR_OTHER|||||||0.8005||||||p-value \< 0.05 considered significant|Log Rank|||||||0.8005
82665987|NCT00769314|165048433|SUPERIORITY_OR_OTHER|||||||0.015||||||p-value \< 0.05 considered significant|Log Rank|||||||0.015
82665988|NCT00769314|165048434|SUPERIORITY_OR_OTHER|||||||0.0412||||||p-value \< 0.05 considered significant|Log Rank|||||||0.0412
82665989|NCT00769314|165048435|SUPERIORITY_OR_OTHER|||||||0.0271||||||p-value \< 0.05 considered significant|Chi-squared|||||||0.0271
82665990|NCT00769314|165048436|SUPERIORITY_OR_OTHER|||||||0.5695||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at Day 1 timepoint.||||0.5695
82665991|NCT00769314|165048436|SUPERIORITY_OR_OTHER|||||||0.1824||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at Day 3 timepoint||||0.1824
82665992|NCT00769314|165048436|SUPERIORITY_OR_OTHER|||||||0.0078||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 5 timepoint||||0.0078
82665993|NCT00769314|165048436|SUPERIORITY_OR_OTHER|||||||0.3303||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 7 timepoint||||0.3303
82665994|NCT00769314|165048436|SUPERIORITY_OR_OTHER|||||||0.6045||||||p-value \< 0.05 considered significant|Wilcoxon (Mann-Whitney)|||Analysis conducted between treatment groups at the Day 14 timepoint||||0.6045
82665995|NCT00769314|165048437|SUPERIORITY_OR_OTHER|||||||0.0022||||||p-value \< 0.05 considered significant|Chi-squared|||||||0.0022
82665996|NCT01390415|165048475|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0374||95.0|||||t-test, 2 sided|||Between-group comparison of Change from Baseline at Month 6||||0.0374
82665997|NCT01390415|165048476|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0566||95.0|||||t-test, 2 sided|||Between-group comparison of Change from Baseline at Month 6||||0.0566
82665998|NCT02435433|165048477|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0199|TWO_SIDED|95.0|0.531|0.949|||Log Rank||Stratified analysis|||0.949|0.531|0.0199
82665999|NCT02435433|165048478|SUPERIORITY||Hazard Ratio (HR)|0.452|||<|0.0001|TWO_SIDED|95.0|0.339|0.603|||Log Rank||Stratified analysis|||0.603|0.339|<0.0001
82666000|NCT02435433|165048479|SUPERIORITY||Hazard Ratio (HR)|0.427|||<|0.0001|TWO_SIDED|95.0|0.313|0.582|||Log Rank||Stratified analysis|||0.582|0.313|<0.0001
82666001|NCT02435433|165048480|SUPERIORITY||Odds Ratio (OR)|4.6||||0.1697|TWO_SIDED|95.0|0.6|37.3|||Cochran-Mantel-Haenszel||Stratified analysis|||37.3|0.6|0.1697
82666002|NCT02435433|165048484|SUPERIORITY||Hazard Ratio (HR)|0.799||||0.2382|TWO_SIDED|95.0|0.545|1.171|||Log Rank||Stratified analysis|||1.171|0.545|0.2382
82666003|NCT01243151|165048501|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|-54.68|STANDARD_ERROR_OF_MEAN|8.323|<|0.0001|TWO_SIDED|95.0|-71.37|-37.99|||ANCOVA|||Day 8: Analysis was performed using the analysis of covariance (ANCOVA) treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.99|-71.37|<0.0001
82666004|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.18|STANDARD_ERROR_OF_MEAN|8.53|<|0.0001|TWO_SIDED|95.0|-61.28|-27.08|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.08|-61.28|<0.0001
82666005|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.44|STANDARD_ERROR_OF_MEAN|8.433|<|0.0001|TWO_SIDED|95.0|-81.35|-47.53|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.53|-81.35|<0.0001
82666006|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-61.75|STANDARD_ERROR_OF_MEAN|8.282|<|0.0001|TWO_SIDED|95.0|-78.36|-45.15|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.15|-78.36|<0.0001
82666007|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-72.16|STANDARD_ERROR_OF_MEAN|10.097|<|0.0001|TWO_SIDED|95.0|-92.4|-51.92|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-51.92|-92.40|<0.0001
82666008|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-63.89|STANDARD_ERROR_OF_MEAN|10.328|<|0.0001|TWO_SIDED|95.0|-84.59|-43.19|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.19|-84.59|<0.0001
82666009|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-88.69|STANDARD_ERROR_OF_MEAN|10.327|<|0.0001|TWO_SIDED|95.0|-109.39|-68.0|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-68.00|-109.39|<0.0001
82666010|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.65|STANDARD_ERROR_OF_MEAN|10.028|<|0.0001|TWO_SIDED|95.0|-104.76|-64.54|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-64.54|-104.76|<0.0001
82666011|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.47|STANDARD_ERROR_OF_MEAN|8.854|<|0.0001|TWO_SIDED|95.0|-96.22|-60.71|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-60.71|-96.22|<0.0001
82666012|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-84.45|STANDARD_ERROR_OF_MEAN|8.998|<|0.0001|TWO_SIDED|95.0|-102.51|-66.4|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.40|-102.51|<0.0001
82666013|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-96.08|STANDARD_ERROR_OF_MEAN|8.994|<|0.0001|TWO_SIDED|95.0|-114.12|-78.03|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-78.03|-114.12|<0.0001
82666014|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-92.33|STANDARD_ERROR_OF_MEAN|8.703|<|0.0001|TWO_SIDED|95.0|-109.8|-74.86|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.86|-109.80|<0.0001
82666015|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.41|STANDARD_ERROR_OF_MEAN|9.534|<|0.0001|TWO_SIDED|95.0|-90.51|-52.3|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.30|-90.51|<0.0001
82666016|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-76.01|STANDARD_ERROR_OF_MEAN|9.659|<|0.0001|TWO_SIDED|95.0|-95.37|-56.65|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-56.65|-95.37|<0.0001
82666017|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-93.78|STANDARD_ERROR_OF_MEAN|9.678|<|0.0001|TWO_SIDED|95.0|-113.18|-74.38|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.38|-113.18|<0.0001
82666018|NCT01243151|165048501|SUPERIORITY_OR_OTHER||LS Mean Difference|-89.58|STANDARD_ERROR_OF_MEAN|9.362|<|0.0001|TWO_SIDED|95.0|-108.35|-70.81|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-70.81|-108.35|<0.0001
82666019|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.82|STANDARD_ERROR_OF_MEAN|5.077|<|0.0001|TWO_SIDED|95.0|-43.99|-23.65|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.65|-43.99|<0.0001
82666020|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.93|STANDARD_ERROR_OF_MEAN|5.202|<|0.0001|TWO_SIDED|95.0|-38.35|-17.51|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-17.51|-38.35|<0.0001
82666021|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.59|STANDARD_ERROR_OF_MEAN|5.143|<|0.0001|TWO_SIDED|95.0|-49.89|-29.28|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.28|-49.89|<0.0001
82666022|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.63|STANDARD_ERROR_OF_MEAN|5.051|<|0.0001|TWO_SIDED|95.0|-47.75|-27.51|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.51|-47.75|<0.0001
82666023|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.99|STANDARD_ERROR_OF_MEAN|6.384|<|0.0001|TWO_SIDED|95.0|-58.78|-33.2|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-33.20|-58.78|<0.0001
82499466|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.287|STANDARD_ERROR_OF_MEAN|1.091||||90.0|-5.088|-1.485|||ANCOVA|||Extension Month 33; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-1.485|-5.088|
82666024|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.82|STANDARD_ERROR_OF_MEAN|6.527|<|0.0001|TWO_SIDED|95.0|-54.9|-28.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-28.74|-54.90|<0.0001
82666025|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.35|STANDARD_ERROR_OF_MEAN|6.531|<|0.0001|TWO_SIDED|95.0|-69.43|-43.27|||ANCOVA|||Day 15: Analysis was performed using ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.27|-69.43|<0.0001
82666026|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.45|STANDARD_ERROR_OF_MEAN|6.344|<|0.0001|TWO_SIDED|95.0|-66.17|-40.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-40.74|-66.17|<0.0001
82666027|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.67|STANDARD_ERROR_OF_MEAN|5.498|<|0.0001|TWO_SIDED|95.0|-60.7|-38.64|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.64|-60.70|<0.0001
82666028|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-53.92|STANDARD_ERROR_OF_MEAN|5.592|<|0.0001|TWO_SIDED|95.0|-65.14|-42.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-42.70|-65.14|<0.0001
82666029|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.6|STANDARD_ERROR_OF_MEAN|5.59|<|0.0001|TWO_SIDED|95.0|-71.81|-49.38|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.38|-71.81|<0.0001
82666030|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.67|STANDARD_ERROR_OF_MEAN|5.413|<|0.0001|TWO_SIDED|95.0|-68.53|-46.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-46.80|-68.53|<0.0001
82666031|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.18|STANDARD_ERROR_OF_MEAN|5.8|<|0.0001|TWO_SIDED|95.0|-55.8|-32.57|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.57|-55.80|<0.0001
82621519|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.06||0.0009|TWO_SIDED|95.0|-0.31|-0.08|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.31|0.0009
82621520|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.05||0.168|TWO_SIDED|95.0|-0.18|0.03|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.18|0.1680
82666032|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.28|STANDARD_ERROR_OF_MEAN|5.881|<|0.0001|TWO_SIDED|95.0|-59.06|-35.5|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-35.50|-59.06|<0.0001
82666033|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.73|STANDARD_ERROR_OF_MEAN|5.891|<|0.0001|TWO_SIDED|95.0|-69.53|-45.94|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.94|-69.53|<0.0001
82666034|NCT01243151|165048502|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.96|STANDARD_ERROR_OF_MEAN|5.701|<|0.0001|TWO_SIDED|95.0|-66.38|-43.54|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.54|-66.38|<0.0001
82666035|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|24.972||||0.0472|TWO_SIDED|95.0|1.04|599.65|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||599.65|1.04|0.0472
82666036|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|11.815||||0.1368|TWO_SIDED|95.0|0.46|305.54|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||305.54|0.46|0.1368
82666037|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.527||||0.019|TWO_SIDED|95.0|1.89|1198.29|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1198.29|1.89|0.0190
82666038|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|45.328||||0.0192|TWO_SIDED|95.0|1.86|1103.73|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1103.73|1.86|0.0192
82666039|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|74.273||||0.0105|TWO_SIDED|95.0|2.74|2014.67|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2014.67|2.74|0.0105
82666040|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|86.088||||0.0086|TWO_SIDED|95.0|3.1|2389.27|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2389.27|3.10|0.0086
82666041|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|87.733||||0.0084|TWO_SIDED|95.0|3.14|2449.11|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2449.11|3.14|0.0084
82666042|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|112.272||||0.0053|TWO_SIDED|95.0|4.07|3097.22|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3097.22|4.07|0.0053
82666043|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|27.697||||0.0403|TWO_SIDED|95.0|1.16|662.2|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||662.20|1.16|0.0403
82666044|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|30.247||||0.0361|TWO_SIDED|95.0|1.25|733.32|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||733.32|1.25|0.0361
82666045|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|89.341||||0.0069|TWO_SIDED|95.0|3.43|2326.44|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||2326.44|3.43|0.0069
82666046|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|76.034||||0.0081|TWO_SIDED|95.0|3.08|1875.15|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1875.15|3.08|0.0081
82666047|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.018||||0.9931|TWO_SIDED|95.0|0.02|64.41|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||64.41|0.02|0.9931
82666048|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|38.943||||0.0259|TWO_SIDED|95.0|1.55|975.84|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||975.84|1.55|0.0259
82666049|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|57.766||||0.0142|TWO_SIDED|95.0|2.26|1477.88|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1477.88|2.26|0.0142
82666050|NCT01243151|165048503|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|48.734||||0.0179|TWO_SIDED|95.0|1.95|1216.9|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1216.90|1.95|0.0179
82666051|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|353.058||||0.0013|TWO_SIDED|95.0|9.95|12528.19|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||12528.19|9.95|0.0013
82666052|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|129.984||||0.0047|TWO_SIDED|95.0|4.44|3808.21|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3808.21|4.44|0.0047
82666053|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|300.099||||0.0018|TWO_SIDED|95.0|8.35|10787.45|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||10787.45|8.35|0.0018
82666054|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|190.835||||0.0025|TWO_SIDED|95.0|6.34|5743.12|||Regression, Logistic|||Day 15: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||5743.12|6.34|0.0025
82666055|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|255.421||||0.0018|TWO_SIDED|95.0|7.87|8290.22|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||8290.22|7.87|0.0018
82666056|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|150.547||||0.0034|TWO_SIDED|95.0|5.28|4291.89|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||4291.89|5.28|0.0034
82666057|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|745.542||||0.0018|TWO_SIDED|95.0|11.6|47929.45|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||47929.45|11.60|0.0018
82666058|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|146.296||||0.0031|TWO_SIDED|95.0|5.4|3963.01|||Regression, Logistic|||Day 22: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3963.01|5.40|0.0031
82666059|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|213.512||||0.002|TWO_SIDED|95.0|7.13|6396.64|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||6396.64|7.13|0.0020
82666060|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|124.439||||0.0038|TWO_SIDED|95.0|4.73|3277.13|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||3277.13|4.73|0.0038
82666061|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|622.309||||0.002|TWO_SIDED|95.0|10.51|36846.03|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||36846.03|10.51|0.0020
82666062|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|224.427||||0.0017|TWO_SIDED|95.0|7.63|6598.0|||Regression, Logistic|||Day 29: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||6598.00|7.63|0.0017
82666063|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.158||||0.2751|TWO_SIDED|95.0|0.24|161.08|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||161.08|0.24|0.2751
82666064|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|152.977||||0.0038|TWO_SIDED|95.0|5.05|4633.92|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||4633.92|5.05|0.0038
82666065|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|756.203||||0.002|TWO_SIDED|95.0|11.18|51133.53|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||51133.53|11.18|0.0020
82666066|NCT01243151|165048504|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|258.938||||0.0021|TWO_SIDED|95.0|7.53|8902.61|||Regression, Logistic|||Day 36: Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||8902.61|7.53|0.0021
82666067|NCT01243151|165048505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.896||||0.958|TWO_SIDED|95.0|0.02|52.79|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||52.79|0.02|0.9580
82666068|NCT01243151|165048505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|17.375||||0.0732|TWO_SIDED|95.0|0.76|394.65|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||394.65|0.76|0.0732
82666069|NCT01243151|165048505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|47.86||||0.0159|TWO_SIDED|95.0|2.07|1109.11|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||1109.11|2.07|0.0159
82666070|NCT01243151|165048505|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|33.246||||0.0264|TWO_SIDED|95.0|1.51|733.62|||Regression, Logistic|||Logistic regression model with treatment and baseline LDL-C stratum as factors was used for the analysis.||733.62|1.51|0.0264
82666071|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|5.5|STANDARD_ERROR_OF_MEAN|5.131||0.2883|TWO_SIDED|95.0|-4.77|15.77|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.77|-4.77|0.2883
82666072|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|6.05|STANDARD_ERROR_OF_MEAN|5.277||0.2563|TWO_SIDED|95.0|-4.51|16.61|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.61|-4.51|0.2563
82666073|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|1.92|STANDARD_ERROR_OF_MEAN|5.225||0.7149|TWO_SIDED|95.0|-8.54|12.37|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.37|-8.54|0.7149
82666074|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|3.95|STANDARD_ERROR_OF_MEAN|5.174||0.448|TWO_SIDED|95.0|-6.4|14.3|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.30|-6.40|0.4480
82666075|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|14.5|STANDARD_ERROR_OF_MEAN|6.214||0.0231|TWO_SIDED|95.0|2.06|26.94|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.94|2.06|0.0231
82666076|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|11.13|STANDARD_ERROR_OF_MEAN|6.369||0.0858|TWO_SIDED|95.0|-1.62|23.87|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.87|-1.62|0.0858
82666077|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|7.57|STANDARD_ERROR_OF_MEAN|6.431||0.244|TWO_SIDED|95.0|-5.3|20.44|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.44|-5.30|0.2440
82666078|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|11.52|STANDARD_ERROR_OF_MEAN|6.249||0.0702|TWO_SIDED|95.0|-0.98|24.03|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||24.03|-0.98|0.0702
82666079|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|9.64|STANDARD_ERROR_OF_MEAN|4.878||0.0531|TWO_SIDED|95.0|-0.13|19.41|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.41|-0.13|0.0531
82666080|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|8.93|STANDARD_ERROR_OF_MEAN|4.94||0.0758|TWO_SIDED|95.0|-0.96|18.83|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.83|-0.96|0.0758
82666081|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|1.95|STANDARD_ERROR_OF_MEAN|4.975||0.6965|TWO_SIDED|95.0|-8.01|11.92|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||11.92|-8.01|0.6965
82666082|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|13.52|STANDARD_ERROR_OF_MEAN|4.842||0.0071|TWO_SIDED|95.0|3.83|23.22|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.22|3.83|0.0071
82666083|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|11.2|STANDARD_ERROR_OF_MEAN|5.155||0.0339|TWO_SIDED|95.0|0.88|21.52|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||21.52|0.88|0.0339
82666084|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|8.56|STANDARD_ERROR_OF_MEAN|5.235||0.1075|TWO_SIDED|95.0|-1.92|19.03|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.03|-1.92|0.1075
82666085|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|5.98|STANDARD_ERROR_OF_MEAN|5.258||0.2601|TWO_SIDED|95.0|-4.54|16.5|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.50|-4.54|0.2601
82492821|NCT00934089|164678459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|34.51||||0.3068|TWO_SIDED|90.0|-21.89|90.91|||ANCOVA|||Change at Day 13 8 AM fellow eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||90.91|-21.89|0.3068
82666086|NCT01243151|165048506|SUPERIORITY_OR_OTHER||LS Mean Difference|9.96|STANDARD_ERROR_OF_MEAN|5.132||0.057|TWO_SIDED|95.0|-0.31|20.24|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.24|-0.31|0.0570
82666087|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.88|STANDARD_ERROR_OF_MEAN|5.008|<|0.0001|TWO_SIDED|95.0|-42.93|-22.84|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.84|-42.93|<0.0001
82666088|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.8|STANDARD_ERROR_OF_MEAN|5.26|<|0.0001|TWO_SIDED|95.0|-41.34|-20.26|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-20.26|-41.34|<0.0001
82666089|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-39.98|STANDARD_ERROR_OF_MEAN|5.088|<|0.0001|TWO_SIDED|95.0|-50.18|-29.77|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.77|-50.18|<0.0001
82666090|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.37|STANDARD_ERROR_OF_MEAN|5.07|<|0.0001|TWO_SIDED|95.0|-48.54|-28.2|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-28.20|-48.54|<0.0001
82666091|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.18|STANDARD_ERROR_OF_MEAN|6.271|<|0.0001|TWO_SIDED|95.0|-54.73|-29.63|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.63|-54.73|<0.0001
82666092|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.69|STANDARD_ERROR_OF_MEAN|6.512|<|0.0001|TWO_SIDED|95.0|-55.72|-29.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.67|-55.72|<0.0001
82666093|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.56|STANDARD_ERROR_OF_MEAN|6.445|<|0.0001|TWO_SIDED|95.0|-67.45|-41.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-41.67|-67.45|<0.0001
82666094|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.89|STANDARD_ERROR_OF_MEAN|6.321|<|0.0001|TWO_SIDED|95.0|-64.54|-39.25|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.25|-64.54|<0.0001
82666095|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.35|STANDARD_ERROR_OF_MEAN|5.359||95|TWO_SIDED|95.0|-58.1|-36.59|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.59|-58.10|95
82666096|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.08|STANDARD_ERROR_OF_MEAN|5.566|<|0.0001|TWO_SIDED|95.0|-62.24|-39.91|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.91|-62.24|<0.0001
82666097|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-59.89|STANDARD_ERROR_OF_MEAN|5.482|<|0.0001|TWO_SIDED|95.0|-70.89|-48.89|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-48.89|-70.89|<0.0001
82666098|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-57.03|STANDARD_ERROR_OF_MEAN|5.377|<|0.0001|TWO_SIDED|95.0|-67.83|-46.24|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-46.24|-67.83|<0.0001
82666099|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.06|STANDARD_ERROR_OF_MEAN|5.767|<|0.0001|TWO_SIDED|95.0|-60.61|-37.51|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.51|-60.61|<0.0001
82666100|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.52|STANDARD_ERROR_OF_MEAN|5.974|<|0.0001|TWO_SIDED|95.0|-63.48|-39.56|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.56|-63.48|<0.0001
82666101|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-64.22|STANDARD_ERROR_OF_MEAN|5.901|<|0.0001|TWO_SIDED|95.0|-76.04|-52.4|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.40|-76.04|<0.0001
82666102|NCT01243151|165048507|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.01|STANDARD_ERROR_OF_MEAN|5.785|<|0.0001|TWO_SIDED|95.0|-71.59|-48.42|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-48.42|-71.59|<0.0001
82666103|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.91|STANDARD_ERROR_OF_MEAN|10.392|<|0.0001|TWO_SIDED|95.0|-75.54|-34.29|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.29|-75.54|<0.0001
82666104|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-44.07|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-65.21|-22.94|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.94|-65.21|<0.0001
82666105|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-67.98|STANDARD_ERROR_OF_MEAN|10.547|<|0.0001|TWO_SIDED|95.0|-88.92|-47.05|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.05|-88.92|<0.0001
82666106|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.51|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-81.11|-39.9|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.90|-81.11|<0.0001
82666107|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-68.39|STANDARD_ERROR_OF_MEAN|10.392|<|0.0001|TWO_SIDED|95.0|-89.02|-47.76|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-47.76|-89.02|<0.0001
82666108|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.41|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-81.54|-39.27|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.27|-81.54|<0.0001
82666109|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.6|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-107.74|-65.46|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-65.46|-107.74|<0.0001
82666110|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-81.13|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-101.73|-60.52|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-60.52|-101.73|<0.0001
82666111|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-80.16|STANDARD_ERROR_OF_MEAN|10.479|<|0.0001|TWO_SIDED|95.0|-100.96|-59.37|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-59.37|-100.96|<0.0001
82666112|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.0|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-104.14|-61.87|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-61.87|-104.14|<0.0001
82666113|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-104.77|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-125.91|-83.62|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-83.62|-125.91|<0.0001
82666114|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-90.23|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-110.84|-69.63|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.63|-110.84|<0.0001
82666115|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.54|STANDARD_ERROR_OF_MEAN|10.479|<|0.0001|TWO_SIDED|95.0|-92.34|-50.75|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-50.75|-92.34|<0.0001
82666116|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-74.46|STANDARD_ERROR_OF_MEAN|10.646|<|0.0001|TWO_SIDED|95.0|-95.59|-53.32|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-53.32|-95.59|<0.0001
82666117|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-102.35|STANDARD_ERROR_OF_MEAN|10.656|<|0.0001|TWO_SIDED|95.0|-123.49|-81.21|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-81.21|-123.49|<0.0001
82666118|NCT01243151|165048508|SUPERIORITY_OR_OTHER||LS Mean Difference|-87.15|STANDARD_ERROR_OF_MEAN|10.381|<|0.0001|TWO_SIDED|95.0|-107.76|-66.55|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.55|-107.76|<0.0001
82666119|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|2.01|STANDARD_ERROR_OF_MEAN|1.945||0.3064|TWO_SIDED|95.0|-1.89|5.9|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||5.90|-1.89|0.3064
82666120|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|2.67|STANDARD_ERROR_OF_MEAN|2.025||0.1922|TWO_SIDED|95.0|-1.38|6.73|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.73|-1.38|0.1922
82666121|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|0.82|STANDARD_ERROR_OF_MEAN|1.984||0.6827|TWO_SIDED|95.0|-3.16|4.79|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||4.79|-3.16|0.6827
82621521|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.05||0.2968|TWO_SIDED|95.0|-0.16|0.05|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.16|0.2968
82621522|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.05||0.0219|TWO_SIDED|95.0|-0.23|-0.02|||ANCOVA|||Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.23|0.0219
82621523|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.12|STANDARD_ERROR_OF_MEAN|0.07||0.0717|TWO_SIDED|95.0|-0.25|0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.25|0.0717
82621524|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.07||0.0207|TWO_SIDED|95.0|-0.29|-0.02|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.29|0.0207
82621525|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.06||0.8399|TWO_SIDED|95.0|-0.11|0.13|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.11|0.8399
82621526|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.0299|TWO_SIDED|95.0|-0.25|-0.01|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.25|0.0299
82621527|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.06||0.006|TWO_SIDED|95.0|-0.29|-0.05|||ANCOVA|||Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.29|0.0060
82621528|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.07||0.1974|TWO_SIDED|95.0|-0.24|0.05|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.24|0.1974
82621529|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.07||0.278|TWO_SIDED|95.0|-0.22|0.06|||ANCOVA|||Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline RMDQ, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.22|0.2780
82621530|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.06|STANDARD_ERROR_OF_MEAN|0.07||0.433|TWO_SIDED|95.0|-0.21|0.09|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.21|0.4330
82621531|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.07||0.4946|TWO_SIDED|95.0|-0.2|0.09|||ANCOVA|||Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.20|0.4946
82621532|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.1884|TWO_SIDED|95.0|-0.25|0.05|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.25|0.1884
82621533|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.521|TWO_SIDED|95.0|-0.2|0.1|||ANCOVA|||Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.20|0.5210
82621534|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.08||0.3329|TWO_SIDED|95.0|-0.23|0.08|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.08|-0.23|0.3329
82621535|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.05|STANDARD_ERROR_OF_MEAN|0.08||0.5173|TWO_SIDED|95.0|-0.21|0.1|||ANCOVA|||Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.21|0.5173
82621536|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.08||0.2346|TWO_SIDED|95.0|-0.25|0.06|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.25|0.2346
82621537|NCT02528253|164960248|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.08||0.3634|TWO_SIDED|95.0|-0.23|0.09|||ANCOVA|||Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline PGA, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.23|0.3634
82666122|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|2.45|STANDARD_ERROR_OF_MEAN|1.981||0.2211|TWO_SIDED|95.0|-1.52|6.42|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.42|-1.52|0.2211
82666123|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|6.64|STANDARD_ERROR_OF_MEAN|2.158||0.0033|TWO_SIDED|95.0|2.31|10.97|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.97|2.31|0.0033
82666124|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|5.09|STANDARD_ERROR_OF_MEAN|2.237||0.0269|TWO_SIDED|95.0|0.6|9.57|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.57|0.60|0.0269
82666125|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|3.87|STANDARD_ERROR_OF_MEAN|2.232||0.089|TWO_SIDED|95.0|-0.61|8.34|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.34|-0.61|0.0890
82666126|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|5.08|STANDARD_ERROR_OF_MEAN|2.19||0.0242|TWO_SIDED|95.0|0.69|9.47|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.47|0.69|0.0242
82666127|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|3.25|STANDARD_ERROR_OF_MEAN|2.101||0.127|TWO_SIDED|95.0|-0.95|7.46|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.46|-0.95|0.1270
82666128|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|3.4|STANDARD_ERROR_OF_MEAN|2.151||0.1199|TWO_SIDED|95.0|-0.91|7.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.70|-0.91|0.1199
82666129|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|0.51|STANDARD_ERROR_OF_MEAN|2.15||0.8123|TWO_SIDED|95.0|-3.79|4.82|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||4.82|-3.79|0.8123
82666130|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|5.65|STANDARD_ERROR_OF_MEAN|2.106||0.0095|TWO_SIDED|95.0|1.44|9.87|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||9.87|1.44|0.0095
82666131|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|4.0|STANDARD_ERROR_OF_MEAN|2.492||0.1141|TWO_SIDED|95.0|-0.99|8.99|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.99|-0.99|0.1141
82666132|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|3.65|STANDARD_ERROR_OF_MEAN|2.536||0.1552|TWO_SIDED|95.0|-1.42|8.73|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.73|-1.42|0.1552
82666133|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|1.57|STANDARD_ERROR_OF_MEAN|2.547||0.5407|TWO_SIDED|95.0|-3.53|6.67|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||6.67|-3.53|0.5407
82666134|NCT01243151|165048509|SUPERIORITY_OR_OTHER||LS Mean Difference|6.56|STANDARD_ERROR_OF_MEAN|2.485||0.0107|TWO_SIDED|95.0|1.58|11.53|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||11.53|1.58|0.0107
82666135|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-60.35|STANDARD_ERROR_OF_MEAN|8.152|<|0.0001|TWO_SIDED|95.0|-76.74|-43.97|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.97|-76.74|<0.0001
82666136|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.53|STANDARD_ERROR_OF_MEAN|8.422|<|0.0001|TWO_SIDED|95.0|-69.45|-35.61|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-35.61|-69.45|<0.0001
82666137|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-69.46|STANDARD_ERROR_OF_MEAN|8.26|<|0.0001|TWO_SIDED|95.0|-86.06|-52.86|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-52.86|-86.06|<0.0001
82666138|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-66.25|STANDARD_ERROR_OF_MEAN|8.112|<|0.0001|TWO_SIDED|95.0|-82.55|-49.94|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.94|-82.55|<0.0001
82666139|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-78.46|STANDARD_ERROR_OF_MEAN|10.766|<|0.0001|TWO_SIDED|95.0|-100.05|-56.87|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-56.87|-100.05|<0.0001
82621538|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0007|TWO_SIDED|95.0|1.26|2.39|||Regression, Logistic|||Week 2, \>=30%: Odds ratio (OR) and 95% Confidence interval (CI) estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.26|0.0007
82621539|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0004|TWO_SIDED|95.0|1.29|2.44|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.44|1.29|0.0004
82621540|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3456|TWO_SIDED|95.0|0.87|1.5|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.50|0.87|0.3456
82621541|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2771|TWO_SIDED|95.0|0.89|1.53|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.89|0.2771
82621542|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.54||||0.0594|TWO_SIDED|95.0|0.98|2.41|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.41|0.98|0.0594
82621543|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.77||||0.0105|TWO_SIDED|95.0|1.14|2.75|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.75|1.14|0.0105
82621544|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.29||||0.236|TWO_SIDED|95.0|0.85|1.98|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.98|0.85|0.2360
82621545|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.3746|TWO_SIDED|95.0|0.81|1.75|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.75|0.81|0.3746
82621546|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.37||||0.0974|TWO_SIDED|95.0|0.94|1.99|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|0.94|0.0974
82621547|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.94||||0.0806|TWO_SIDED|95.0|0.92|4.08|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.08|0.92|0.0806
82621548|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.15||||0.0407|TWO_SIDED|95.0|1.03|4.47|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.47|1.03|0.0407
82621549|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.22||||0.5966|TWO_SIDED|95.0|0.58|2.58|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.58|0.58|0.5966
82621550|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.59||||0.1492|TWO_SIDED|95.0|0.85|2.96|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.96|0.85|0.1492
82621551|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.76||||0.072|TWO_SIDED|95.0|0.95|3.24|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.24|0.95|0.0720
82621552|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9926|TWO_SIDED|95.0|0.25|4.0|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.00|0.25|0.9926
82621553|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.75||||0.3726|TWO_SIDED|95.0|0.51|6.04|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||6.04|0.51|0.3726
82621554|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.83||||0.7874|TWO_SIDED|95.0|0.22|3.12|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.12|0.22|0.7874
82621555|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.795|TWO_SIDED|95.0|0.32|4.46|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.46|0.32|0.7950
82621556|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.1||||0.2065|TWO_SIDED|95.0|0.66|6.68|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||6.68|0.66|0.2065
82621557|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0006|TWO_SIDED|95.0|1.23|2.17|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.17|1.23|0.0006
82621558|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.05|||<|0.0001|TWO_SIDED|95.0|1.55|2.72|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.72|1.55|<.0001
82621559|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0387|TWO_SIDED|95.0|1.01|1.71|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|1.01|0.0387
82621560|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.24||||0.0903|TWO_SIDED|95.0|0.97|1.6|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.60|0.97|0.0903
82621561|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0006|TWO_SIDED|95.0|1.21|2.01|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.01|1.21|0.0006
82621562|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0166|TWO_SIDED|95.0|1.08|2.09|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.09|1.08|0.0166
82666140|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-71.28|STANDARD_ERROR_OF_MEAN|11.051|<|0.0001|TWO_SIDED|95.0|-93.43|-49.13|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-49.13|-93.43|<0.0001
82666141|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-91.83|STANDARD_ERROR_OF_MEAN|11.018|<|0.0001|TWO_SIDED|95.0|-113.92|-69.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.74|-113.92|<0.0001
82666142|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-89.5|STANDARD_ERROR_OF_MEAN|10.736|<|0.0001|TWO_SIDED|95.0|-111.03|-67.97|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-67.97|-111.03|<0.0001
82666143|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-86.73|STANDARD_ERROR_OF_MEAN|8.452|<|0.0001|TWO_SIDED|95.0|-103.73|-69.72|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-69.72|-103.73|<0.0001
82666144|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-92.18|STANDARD_ERROR_OF_MEAN|8.643|<|0.0001|TWO_SIDED|95.0|-109.57|-74.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-74.80|-109.57|<0.0001
82666145|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-106.06|STANDARD_ERROR_OF_MEAN|8.585|<|0.0001|TWO_SIDED|95.0|-123.34|-88.78|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-88.78|-123.34|<0.0001
82666146|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-99.18|STANDARD_ERROR_OF_MEAN|8.334|<|0.0001|TWO_SIDED|95.0|-115.95|-82.4|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-82.40|-115.95|<0.0001
82666147|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-79.07|STANDARD_ERROR_OF_MEAN|8.557|<|0.0001|TWO_SIDED|95.0|-96.22|-61.93|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-61.93|-96.22|<0.0001
82666148|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-83.89|STANDARD_ERROR_OF_MEAN|8.736|<|0.0001|TWO_SIDED|95.0|-101.4|-66.39|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-66.39|-101.40|<0.0001
82666149|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-104.74|STANDARD_ERROR_OF_MEAN|8.679|<|0.0001|TWO_SIDED|95.0|-122.13|-87.35|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-87.35|-122.13|<0.0001
82666150|NCT01243151|165048510|SUPERIORITY_OR_OTHER||LS Mean Difference|-97.0|STANDARD_ERROR_OF_MEAN|8.426|<|0.0001|TWO_SIDED|95.0|-113.89|-80.11|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-80.11|-113.89|<0.0001
82492822|NCT00934089|164678459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|40.99||||0.2632|TWO_SIDED|90.0|-19.69|101.67|||ANCOVA|||Change at Day 35 8 AM study eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||101.67|-19.69|0.2632
82666151|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.3|STANDARD_ERROR_OF_MEAN|29.336||0.448|TWO_SIDED|95.0|-80.08|35.49|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.49|-80.08|0.4480
82666152|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-32.52|STANDARD_ERROR_OF_MEAN|30.091||0.2809|TWO_SIDED|95.0|-91.8|26.76|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.76|-91.80|0.2809
82666153|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.92|STANDARD_ERROR_OF_MEAN|29.942||0.2875|TWO_SIDED|95.0|-90.9|27.07|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.07|-90.90|0.2875
82666154|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.52|STANDARD_ERROR_OF_MEAN|29.37||0.5743|TWO_SIDED|95.0|-74.38|41.33|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||41.33|-74.38|0.5743
82666155|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.83|STANDARD_ERROR_OF_MEAN|29.336||0.4997|TWO_SIDED|95.0|-77.62|37.96|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||37.96|-77.62|0.4997
82666156|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.5|STANDARD_ERROR_OF_MEAN|30.091||0.4756|TWO_SIDED|95.0|-80.78|37.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||37.78|-80.78|0.4756
82666157|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.73|STANDARD_ERROR_OF_MEAN|30.458||0.561|TWO_SIDED|95.0|-77.73|42.26|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||42.26|-77.73|0.5610
82666158|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-21.41|STANDARD_ERROR_OF_MEAN|29.37||0.4667|TWO_SIDED|95.0|-79.27|36.44|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||36.44|-79.27|0.4667
82666159|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.7|STANDARD_ERROR_OF_MEAN|29.828||0.3045|TWO_SIDED|95.0|-89.45|28.06|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||28.06|-89.45|0.3045
82666160|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.78|STANDARD_ERROR_OF_MEAN|30.091||0.4301|TWO_SIDED|95.0|-83.06|35.5|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.50|-83.06|0.4301
82666161|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.15|STANDARD_ERROR_OF_MEAN|30.458||0.0881|TWO_SIDED|95.0|-112.15|7.85|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.85|-112.15|0.0881
82666162|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.51|STANDARD_ERROR_OF_MEAN|29.37||0.2844|TWO_SIDED|95.0|-89.36|26.35|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.35|-89.36|0.2844
82666163|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.56|STANDARD_ERROR_OF_MEAN|29.828||0.3741|TWO_SIDED|95.0|-85.32|32.19|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||32.19|-85.32|0.3741
82666164|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-23.88|STANDARD_ERROR_OF_MEAN|30.091||0.4283|TWO_SIDED|95.0|-83.16|35.4|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||35.40|-83.16|0.4283
82666165|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-56.32|STANDARD_ERROR_OF_MEAN|30.458||0.0657|TWO_SIDED|95.0|-116.31|3.68|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||3.68|-116.31|0.0657
82666166|NCT01243151|165048511|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.26|STANDARD_ERROR_OF_MEAN|29.37||0.2586|TWO_SIDED|95.0|-91.11|24.6|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||24.60|-91.11|0.2586
82666167|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|3.33|STANDARD_ERROR_OF_MEAN|3.404||0.3326|TWO_SIDED|95.0|-3.49|10.14|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.14|-3.49|0.3326
82666168|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|3.69|STANDARD_ERROR_OF_MEAN|3.502||0.2967|TWO_SIDED|95.0|-3.32|10.7|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.70|-3.32|0.2967
82666169|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|0.52|STANDARD_ERROR_OF_MEAN|3.466||0.8812|TWO_SIDED|95.0|-6.42|7.46|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||7.46|-6.42|0.8812
82666170|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|3.42|STANDARD_ERROR_OF_MEAN|3.433||0.3227|TWO_SIDED|95.0|-3.45|10.3|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.30|-3.45|0.3227
82666171|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|10.01|STANDARD_ERROR_OF_MEAN|4.221||0.021|TWO_SIDED|95.0|1.56|18.46|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.46|1.56|0.0210
82666172|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|6.84|STANDARD_ERROR_OF_MEAN|4.326||0.1192|TWO_SIDED|95.0|-1.82|15.49|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.49|-1.82|0.1192
82666173|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|5.04|STANDARD_ERROR_OF_MEAN|4.367||0.2529|TWO_SIDED|95.0|-3.69|13.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.78|-3.69|0.2529
82666174|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|7.76|STANDARD_ERROR_OF_MEAN|4.244||0.0725|TWO_SIDED|95.0|-0.73|16.25|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.25|-0.73|0.0725
82492823|NCT00934089|164678459|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.6||||0.8373|TWO_SIDED|90.0|-60.84|47.64|||ANCOVA|||Change at Day 35 8 AM fellow eye: Analysis was based on ANCOVA using SAS mixed procedure with covariates of baseline IOP, sequence, study period and treatment as fixed effects and participant within sequence as random effect.||47.64|-60.84|0.8373
82621563|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.89||||0.0001|TWO_SIDED|95.0|1.36|2.62|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.62|1.36|0.0001
82621564|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.27||||0.1389|TWO_SIDED|95.0|0.93|1.73|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.73|0.93|0.1389
82621565|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2504|TWO_SIDED|95.0|0.89|1.59|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.89|0.2504
82621566|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0057|TWO_SIDED|95.0|1.12|1.98|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.98|1.12|0.0057
82621567|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.83||||0.0126|TWO_SIDED|95.0|1.14|2.93|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.93|1.14|0.0126
82621568|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.69|||<|0.0001|TWO_SIDED|95.0|1.71|4.22|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||4.22|1.71|<.0001
82621569|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3485|TWO_SIDED|95.0|0.79|1.99|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|0.79|0.3485
82621570|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.46||||0.0642|TWO_SIDED|95.0|0.98|2.19|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.19|0.98|0.0642
82621571|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.16|||<|0.0001|TWO_SIDED|95.0|1.48|3.14|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.14|1.48|<.0001
82621572|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9819|TWO_SIDED|95.0|0.42|2.31|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.31|0.42|0.9819
82621573|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.37||||0.4333|TWO_SIDED|95.0|0.62|3.02|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.02|0.62|0.4333
82621574|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.91||||0.814|TWO_SIDED|95.0|0.41|2.0|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.41|0.8140
82621575|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.09||||0.8331|TWO_SIDED|95.0|0.49|2.4|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.40|0.49|0.8331
82621576|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.51||||0.2682|TWO_SIDED|95.0|0.73|3.12|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.12|0.73|0.2682
82621577|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0001|TWO_SIDED|95.0|1.31|2.29|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.29|1.31|0.0001
82621578|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.97|||<|0.0001|TWO_SIDED|95.0|1.49|2.61|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.61|1.49|<.0001
82621579|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0071|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.10|0.0071
82621580|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1187|TWO_SIDED|95.0|0.95|1.57|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.57|0.95|0.1187
82621581|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.39||||0.011|TWO_SIDED|95.0|1.08|1.79|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.79|1.08|0.0110
82621582|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0003|TWO_SIDED|95.0|1.3|2.39|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.30|0.0003
82621583|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.12|||<|0.0001|TWO_SIDED|95.0|1.57|2.87|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.87|1.57|<.0001
82621584|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0069|TWO_SIDED|95.0|1.11|1.97|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.97|1.11|0.0069
82621585|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2076|TWO_SIDED|95.0|0.91|1.55|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.91|0.2076
82621586|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0072|TWO_SIDED|95.0|1.1|1.86|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.86|1.10|0.0072
82666175|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|6.74|STANDARD_ERROR_OF_MEAN|3.214||0.0405|TWO_SIDED|95.0|0.3|13.18|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.18|0.30|0.0405
82666176|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|6.27|STANDARD_ERROR_OF_MEAN|3.258||0.0593|TWO_SIDED|95.0|-0.25|12.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.80|-0.25|0.0593
82666177|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|1.76|STANDARD_ERROR_OF_MEAN|3.279||0.5936|TWO_SIDED|95.0|-4.81|8.33|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.33|-4.81|0.5936
82666178|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|9.78|STANDARD_ERROR_OF_MEAN|3.192||0.0034|TWO_SIDED|95.0|3.38|16.17|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.17|3.38|0.0034
82666179|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|3.428||0.0305|TWO_SIDED|95.0|0.74|14.46|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.46|0.74|0.0305
82666180|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|5.41|STANDARD_ERROR_OF_MEAN|3.479||0.1252|TWO_SIDED|95.0|-1.55|12.37|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.37|-1.55|0.1252
82666181|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|3.71|STANDARD_ERROR_OF_MEAN|3.495||0.2923|TWO_SIDED|95.0|-3.28|10.71|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.71|-3.28|0.2923
82666182|NCT01243151|165048512|SUPERIORITY_OR_OTHER||LS Mean Difference|7.6|STANDARD_ERROR_OF_MEAN|3.411||0.0297|TWO_SIDED|95.0|0.78|14.43|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||14.43|0.78|0.0297
82666183|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.35|STANDARD_ERROR_OF_MEAN|4.117|<|0.0001|TWO_SIDED|95.0|-34.59|-18.1|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-18.10|-34.59|<0.0001
82666184|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.29|STANDARD_ERROR_OF_MEAN|4.325|<|0.0001|TWO_SIDED|95.0|-32.95|-15.63|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-15.63|-32.95|<0.0001
82666185|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.2|STANDARD_ERROR_OF_MEAN|4.182|<|0.0001|TWO_SIDED|95.0|-39.58|-22.83|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.83|-39.58|<0.0001
82666186|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.43|STANDARD_ERROR_OF_MEAN|4.169|<|0.0001|TWO_SIDED|95.0|-38.78|-22.08|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.08|-38.78|<0.0001
82666187|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.3|STANDARD_ERROR_OF_MEAN|5.055|<|0.0001|TWO_SIDED|95.0|-43.42|-23.19|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.19|-43.42|<0.0001
82666188|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.14|STANDARD_ERROR_OF_MEAN|5.255|<|0.0001|TWO_SIDED|95.0|-44.65|-23.63|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-23.63|-44.65|<0.0001
82666189|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-42.57|STANDARD_ERROR_OF_MEAN|5.194|<|0.0001|TWO_SIDED|95.0|-52.96|-32.18|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.18|-52.96|<0.0001
82666190|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.87|STANDARD_ERROR_OF_MEAN|5.097|<|0.0001|TWO_SIDED|95.0|-52.07|-31.67|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.67|-52.07|<0.0001
82666191|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-37.75|STANDARD_ERROR_OF_MEAN|4.343|<|0.0001|TWO_SIDED|95.0|-46.46|-29.05|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.05|-46.46|<0.0001
82666192|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.98|STANDARD_ERROR_OF_MEAN|4.519|<|0.0001|TWO_SIDED|95.0|-50.04|-31.93|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.93|-50.04|<0.0001
82621587|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0694|TWO_SIDED|95.0|0.97|2.22|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.22|0.97|0.0694
82621588|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.53|3.36|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||3.36|1.53|<.0001
82621589|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.36||||0.121|TWO_SIDED|95.0|0.92|2.0|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.92|0.1210
82621590|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.08||||0.6706|TWO_SIDED|95.0|0.76|1.54|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.54|0.76|0.6706
82621591|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.67||||0.0022|TWO_SIDED|95.0|1.2|2.32|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.32|1.20|0.0022
82621592|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.12||||0.7546|TWO_SIDED|95.0|0.56|2.22|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.22|0.56|0.7546
82621593|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.13||||0.7347|TWO_SIDED|95.0|0.57|2.24|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.24|0.57|0.7347
82621594|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.96||||0.9029|TWO_SIDED|95.0|0.5|1.84|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.84|0.50|0.9029
82621595|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.16||||0.6402|TWO_SIDED|95.0|0.62|2.18|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.18|0.62|0.6402
82621596|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.17||||0.6199|TWO_SIDED|95.0|0.62|2.2|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.20|0.62|0.6199
82621597|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0229|TWO_SIDED|95.0|1.05|1.83|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.05|0.0229
82621598|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.73||||0.0002|TWO_SIDED|95.0|1.3|2.3|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.30|1.30|0.0002
82621599|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.14||||0.315|TWO_SIDED|95.0|0.88|1.47|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.47|0.88|0.3150
82621600|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.21||||0.137|TWO_SIDED|95.0|0.94|1.57|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.57|0.94|0.1370
82621601|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0018|TWO_SIDED|95.0|1.17|1.97|||Regression, Logistic|||Week 12, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.97|1.17|0.0018
82621602|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0342|TWO_SIDED|95.0|1.02|1.81|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.81|1.02|0.0342
82621603|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.69||||0.0003|TWO_SIDED|95.0|1.27|2.24|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.24|1.27|0.0003
82621604|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2561|TWO_SIDED|95.0|0.9|1.51|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.90|0.2561
82621605|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2358|TWO_SIDED|95.0|0.9|1.51|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.90|0.2358
82621606|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.45||||0.004|TWO_SIDED|95.0|1.13|1.87|||Regression, Logistic|||Week 12, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.87|1.13|0.0040
82621607|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0723|TWO_SIDED|95.0|0.97|2.02|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.02|0.97|0.0723
82621608|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|2.06|||<|0.0001|TWO_SIDED|95.0|1.45|2.92|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.92|1.45|<.0001
82621609|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0653|TWO_SIDED|95.0|0.98|1.94|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.94|0.98|0.0653
82621610|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9177|TWO_SIDED|95.0|0.74|1.4|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.40|0.74|0.9177
82621611|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0088|TWO_SIDED|95.0|1.11|2.01|||Regression, Logistic|||Week 12, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.01|1.11|0.0088
82666193|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.98|STANDARD_ERROR_OF_MEAN|4.441|<|0.0001|TWO_SIDED|95.0|-55.88|-38.08|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.08|-55.88|<0.0001
82621612|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.58||||0.1197|TWO_SIDED|95.0|0.89|2.83|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.83|0.89|0.1197
82621613|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0913|TWO_SIDED|95.0|0.92|2.92|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.92|0.92|0.0913
82621614|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.25||||0.4317|TWO_SIDED|95.0|0.72|2.19|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.19|0.72|0.4317
82621615|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.27||||0.3498|TWO_SIDED|95.0|0.77|2.08|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.08|0.77|0.3498
82621616|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.31||||0.2768|TWO_SIDED|95.0|0.8|2.15|||Regression, Logistic|||Week 12, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.15|0.80|0.2768
82621617|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0101|TWO_SIDED|95.0|1.09|1.92|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.92|1.09|0.0101
82621618|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.5||||0.0054|TWO_SIDED|95.0|1.13|1.99|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.99|1.13|0.0054
82621619|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5493|TWO_SIDED|95.0|0.84|1.39|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.39|0.84|0.5493
82621620|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0269|TWO_SIDED|95.0|1.03|1.74|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.74|1.03|0.0269
82621621|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0144|TWO_SIDED|95.0|1.07|1.8|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.80|1.07|0.0144
82621622|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0846|TWO_SIDED|95.0|0.97|1.7|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|0.97|0.0846
82621623|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0101|TWO_SIDED|95.0|1.09|1.91|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.91|1.09|0.0101
82621624|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0848|TWO_SIDED|95.0|0.97|1.62|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.97|0.0848
82621625|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.02||||0.8732|TWO_SIDED|95.0|0.79|1.32|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.32|0.79|0.8732
82621626|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2734|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.89|0.2734
82621627|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2839|TWO_SIDED|95.0|0.86|1.7|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|0.86|0.2839
82621628|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0238|TWO_SIDED|95.0|1.05|2.07|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.07|1.05|0.0238
82621629|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5212|TWO_SIDED|95.0|0.81|1.53|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.81|0.5212
82621630|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5954|TWO_SIDED|95.0|0.8|1.48|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.80|0.5954
82621631|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0638|TWO_SIDED|95.0|0.98|1.79|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.79|0.98|0.0638
82621632|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.38||||0.2661|TWO_SIDED|95.0|0.78|2.44|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.44|0.78|0.2661
82621633|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.24||||0.4717|TWO_SIDED|95.0|0.69|2.21|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.21|0.69|0.4717
82621634|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.17||||0.5798|TWO_SIDED|95.0|0.68|2.0|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.00|0.68|0.5798
82666194|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.77|STANDARD_ERROR_OF_MEAN|4.363|<|0.0001|TWO_SIDED|95.0|-54.52|-37.03|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-37.03|-54.52|<0.0001
82666195|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.61|STANDARD_ERROR_OF_MEAN|4.616|<|0.0001|TWO_SIDED|95.0|-47.85|-29.37|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.37|-47.85|<0.0001
82666196|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.19|STANDARD_ERROR_OF_MEAN|4.795|<|0.0001|TWO_SIDED|95.0|-50.78|-31.6|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-31.60|-50.78|<0.0001
82666197|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.75|STANDARD_ERROR_OF_MEAN|4.722|<|0.0001|TWO_SIDED|95.0|-59.2|-40.3|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-40.30|-59.20|<0.0001
82666198|NCT01243151|165048513|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.04|STANDARD_ERROR_OF_MEAN|4.639|<|0.0001|TWO_SIDED|95.0|-57.33|-38.76|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-38.76|-57.33|<0.0001
82666199|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-22.7|STANDARD_ERROR_OF_MEAN|4.211|<|0.0001|TWO_SIDED|95.0|-31.06|-14.34|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-14.34|-31.06|<0.0001
82666200|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-18.6|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-27.17|-10.03|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-10.03|-27.17|<0.0001
82666201|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-27.97|STANDARD_ERROR_OF_MEAN|4.274|<|0.0001|TWO_SIDED|95.0|-36.46|-19.49|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-19.49|-36.46|<0.0001
82666202|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-24.89|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-33.24|-16.54|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-16.54|-33.24|<0.0001
82666203|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-28.89|STANDARD_ERROR_OF_MEAN|4.211|<|0.0001|TWO_SIDED|95.0|-37.25|-20.53|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-20.53|-37.25|<0.0001
82666204|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.35|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-34.92|-17.79|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-17.79|-34.92|<0.0001
82666205|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.89|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-44.46|-27.33|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.33|-44.46|<0.0001
82666206|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-34.23|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-42.58|-25.88|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.88|-42.58|<0.0001
82666207|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.96|STANDARD_ERROR_OF_MEAN|4.246|<|0.0001|TWO_SIDED|95.0|-42.39|-25.53|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.53|-42.39|<0.0001
82666208|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.41|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-43.98|-26.85|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-26.85|-43.98|<0.0001
82666209|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.28|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-51.85|-34.71|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.71|-51.85|<0.0001
82666210|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.0|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-46.35|-29.65|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-29.65|-46.35|<0.0001
82666211|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-29.77|STANDARD_ERROR_OF_MEAN|4.246|<|0.0001|TWO_SIDED|95.0|-38.19|-21.34|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-21.34|-38.19|<0.0001
82666212|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-31.22|STANDARD_ERROR_OF_MEAN|4.315|<|0.0001|TWO_SIDED|95.0|-39.79|-22.65|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.65|-39.79|<0.0001
82666213|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.34|STANDARD_ERROR_OF_MEAN|4.318|<|0.0001|TWO_SIDED|95.0|-49.91|-32.78|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.78|-49.91|<0.0001
82666214|NCT01243151|165048514|SUPERIORITY_OR_OTHER||LS Mean Difference|-36.04|STANDARD_ERROR_OF_MEAN|4.207|<|0.0001|TWO_SIDED|95.0|-44.39|-27.69|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.69|-44.39|<0.0001
82666215|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|4.44|STANDARD_ERROR_OF_MEAN|3.975||0.269|TWO_SIDED|95.0|-3.53|12.41|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||12.41|-3.53|0.2690
82666216|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|5.22|STANDARD_ERROR_OF_MEAN|4.133||0.2122|TWO_SIDED|95.0|-3.07|13.5|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.50|-3.07|0.2122
82666217|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|0.54|STANDARD_ERROR_OF_MEAN|4.054||0.8953|TWO_SIDED|95.0|-7.59|8.67|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||8.67|-7.59|0.8953
82666218|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|5.59|STANDARD_ERROR_OF_MEAN|4.045||0.1723|TWO_SIDED|95.0|-2.51|13.7|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.70|-2.51|0.1723
82666219|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|14.95|STANDARD_ERROR_OF_MEAN|4.293||0.001|TWO_SIDED|95.0|6.34|23.56|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.56|6.34|0.0010
82666220|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|10.86|STANDARD_ERROR_OF_MEAN|4.451||0.0179|TWO_SIDED|95.0|1.95|19.78|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.78|1.95|0.0179
82666221|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|9.06|STANDARD_ERROR_OF_MEAN|4.44||0.0462|TWO_SIDED|95.0|0.16|17.96|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||17.96|0.16|0.0462
82666222|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|11.78|STANDARD_ERROR_OF_MEAN|4.358||0.0091|TWO_SIDED|95.0|3.05|20.52|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.52|3.05|0.0091
82666223|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|7.31|STANDARD_ERROR_OF_MEAN|4.064||0.0774|TWO_SIDED|95.0|-0.83|15.45|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.45|-0.83|0.0774
82666224|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16|STANDARD_ERROR_OF_MEAN|4.165||0.0909|TWO_SIDED|95.0|-1.18|15.5|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||15.50|-1.18|0.0909
82666225|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|2.13|STANDARD_ERROR_OF_MEAN|4.157||0.6107|TWO_SIDED|95.0|-6.2|10.45|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||10.45|-6.20|0.6107
82666226|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|11.59|STANDARD_ERROR_OF_MEAN|4.076||0.0062|TWO_SIDED|95.0|3.42|19.75|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||19.75|3.42|0.0062
82666227|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|8.69|STANDARD_ERROR_OF_MEAN|4.712||0.0702|TWO_SIDED|95.0|-0.74|18.13|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||18.13|-0.74|0.0702
82666228|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|6.69|STANDARD_ERROR_OF_MEAN|4.807||0.1692|TWO_SIDED|95.0|-2.93|16.32|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||16.32|-2.93|0.1692
82492824|NCT01945281|164678465|OTHER|Miettinen \& Nurminen method stratified by stratum (Weight category based on weight at study entry) with Cochran Mantel-Haenszel's weights.|Difference in Percentage|-0.9|||||TWO_SIDED|95.0|-24.3|27.7|||||Caspofungin minus Amphotericin|||27.7|-24.3|
82666229|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|4.31|STANDARD_ERROR_OF_MEAN|4.819||0.3751|TWO_SIDED|95.0|-5.34|13.96|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||13.96|-5.34|0.3751
82666230|NCT01243151|165048515|SUPERIORITY_OR_OTHER||LS Mean Difference|13.65|STANDARD_ERROR_OF_MEAN|4.709||0.0053|TWO_SIDED|95.0|4.23|23.08|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||23.08|4.23|0.0053
82666231|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-30.64|STANDARD_ERROR_OF_MEAN|3.951|<|0.0001|TWO_SIDED|95.0|-38.56|-22.72|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-22.72|-38.56|<0.0001
82666232|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-26.62|STANDARD_ERROR_OF_MEAN|4.084|<|0.0001|TWO_SIDED|95.0|-34.8|-18.44|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-18.44|-34.80|<0.0001
82666233|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-35.27|STANDARD_ERROR_OF_MEAN|4.003|<|0.0001|TWO_SIDED|95.0|-43.29|-27.24|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-27.24|-43.29|<0.0001
82666234|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-33.42|STANDARD_ERROR_OF_MEAN|3.931|<|0.0001|TWO_SIDED|95.0|-41.3|-25.54|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-25.54|-41.30|<0.0001
82666235|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-41.38|STANDARD_ERROR_OF_MEAN|5.467|<|0.0001|TWO_SIDED|95.0|-52.34|-30.42|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-30.42|-52.34|<0.0001
82666236|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-38.12|STANDARD_ERROR_OF_MEAN|5.61|<|0.0001|TWO_SIDED|95.0|-49.36|-26.88|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-26.88|-49.36|<0.0001
82666237|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-47.42|STANDARD_ERROR_OF_MEAN|5.599|<|0.0001|TWO_SIDED|95.0|-58.64|-36.2|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.20|-58.64|<0.0001
82666238|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-46.93|STANDARD_ERROR_OF_MEAN|5.453|<|0.0001|TWO_SIDED|95.0|-57.87|-36.0|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.00|-57.87|<0.0001
82666239|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-45.37|STANDARD_ERROR_OF_MEAN|4.275|<|0.0001|TWO_SIDED|95.0|-53.96|-36.77|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-36.77|-53.96|<0.0001
82666240|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-48.78|STANDARD_ERROR_OF_MEAN|4.374|<|0.0001|TWO_SIDED|95.0|-57.58|-39.99|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-39.99|-57.58|<0.0001
82666241|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-54.49|STANDARD_ERROR_OF_MEAN|4.346|<|0.0001|TWO_SIDED|95.0|-63.23|-45.75|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-45.75|-63.23|<0.0001
82666242|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-51.75|STANDARD_ERROR_OF_MEAN|4.222|<|0.0001|TWO_SIDED|95.0|-60.25|-43.26|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.26|-60.25|<0.0001
82666243|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.82|STANDARD_ERROR_OF_MEAN|4.373|<|0.0001|TWO_SIDED|95.0|-49.58|-32.07|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-32.07|-49.58|<0.0001
82666244|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-43.75|STANDARD_ERROR_OF_MEAN|4.464|<|0.0001|TWO_SIDED|95.0|-52.68|-34.81|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-34.81|-52.68|<0.0001
82666245|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-52.36|STANDARD_ERROR_OF_MEAN|4.437|<|0.0001|TWO_SIDED|95.0|-61.25|-43.48|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-43.48|-61.25|<0.0001
82666246|NCT01243151|165048516|SUPERIORITY_OR_OTHER||LS Mean Difference|-49.94|STANDARD_ERROR_OF_MEAN|4.312|<|0.0001|TWO_SIDED|95.0|-58.58|-41.31|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||-41.31|-58.58|<0.0001
82666247|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|19.581||0.9789|TWO_SIDED|95.0|-39.08|38.04|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||38.04|-39.08|0.9789
82666248|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.94|STANDARD_ERROR_OF_MEAN|20.069||0.5525|TWO_SIDED|95.0|-51.46|27.59|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.59|-51.46|0.5525
82666249|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-13.39|STANDARD_ERROR_OF_MEAN|19.979||0.5035|TWO_SIDED|95.0|-52.73|25.96|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||25.96|-52.73|0.5035
82666250|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.21|STANDARD_ERROR_OF_MEAN|19.601||0.8302|TWO_SIDED|95.0|-42.81|34.39|||ANCOVA|||Day 8: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||34.39|-42.81|0.8302
82666251|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.45|STANDARD_ERROR_OF_MEAN|19.581||0.559|TWO_SIDED|95.0|-50.01|27.1|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.10|-50.01|0.5590
82666252|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.84|STANDARD_ERROR_OF_MEAN|20.069||0.5558|TWO_SIDED|95.0|-51.36|27.69|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.69|-51.36|0.5558
82666253|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-8.3|STANDARD_ERROR_OF_MEAN|20.332||0.6835|TWO_SIDED|95.0|-48.34|31.74|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||31.74|-48.34|0.6835
82666254|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.15|STANDARD_ERROR_OF_MEAN|19.601||0.5699|TWO_SIDED|95.0|-49.75|27.45|||ANCOVA|||Day 15: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.45|-49.75|0.5699
82666255|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.42|STANDARD_ERROR_OF_MEAN|19.918||0.3826|TWO_SIDED|95.0|-56.64|21.8|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||21.80|-56.64|0.3826
82666256|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.83|STANDARD_ERROR_OF_MEAN|20.069||0.5233|TWO_SIDED|95.0|-52.35|26.7|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.70|-52.35|0.5233
82666257|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-19.47|STANDARD_ERROR_OF_MEAN|20.332||0.3391|TWO_SIDED|95.0|-59.51|20.57|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.57|-59.51|0.3391
82492825|NCT01945281|164678466|OTHER|Miettinen \& Nurminen method stratified by stratum (Weight category based on weight at study entry) with Cochran Mantel-Haenszel's weights.|Difference in Percentage|-6.3|||||TWO_SIDED|95.0|-30.2|22.6|||||Caspofungin minus Amphotericin|||22.6|-30.2|
82492826|NCT00926328|164678492|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82666258|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-17.95|STANDARD_ERROR_OF_MEAN|19.601||0.3606|TWO_SIDED|95.0|-56.55|20.65|||ANCOVA|||Day 22: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||20.65|-56.55|0.3606
82666259|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-12.33|STANDARD_ERROR_OF_MEAN|19.918||0.5364|TWO_SIDED|95.0|-51.55|26.89|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||26.89|-51.55|0.5364
82666260|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-11.56|STANDARD_ERROR_OF_MEAN|20.069||0.5651|TWO_SIDED|95.0|-51.08|27.96|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||27.96|-51.08|0.5651
82666261|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-14.65|STANDARD_ERROR_OF_MEAN|20.332||0.4719|TWO_SIDED|95.0|-54.69|25.39|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||25.39|-54.69|0.4719
82666262|NCT01243151|165048517|SUPERIORITY_OR_OTHER||LS Mean Difference|-16.53|STANDARD_ERROR_OF_MEAN|19.601||0.3999|TWO_SIDED|95.0|-55.13|22.07|||ANCOVA|||Day 29: Analysis was performed using the ANCOVA treatment, screening LDL-C stratum, study day, treatment-by-LDL-C stratum, and study day by treatment interaction as fixed effects, baseline as a covariate and participant as a random effect.||22.07|-55.13|0.3999
82666263|NCT05004649|165048639|OTHER|||||||0.024356||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.024356
82666264|NCT05004649|165048639|OTHER|||||||0.040382||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.040382
82666265|NCT05004649|165048639|OTHER|||||||0.90161||||||When Bonferroni corrected for multiple comparisons the significance level across conditions is p \< 0.0167. This is the Bonferonni corrected level for three tests applied to a baseline significance value of 0.05.|t-test, 2 sided|||||||.90161
82666266|NCT00270634|165048660|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|-3.2|||||ONE_SIDED|95.0||1.3|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|The 6-month BPAR rate was used to calculate an estimate of the difference in rates between each VCS group and TAC, combining across pooled investigative center strata, weighted by the number of patients in each of the pooled center strata. The overall standard error was estimated for the linear combination of proportions. Using this statistic and its standard error, the upper bound one-sided 95% C.I. was constructed for the difference in BPAR rates between groups (VCS - TAC).||1.3||
82666267|NCT00270634|165048660|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|4.6|||||ONE_SIDED|95.0||10.8|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|||10.8||
82666268|NCT00270634|165048660|NON_INFERIORITY_OR_EQUIVALENCE|The sample size was determined holding the probability of a type-I error at a = 0.05, and the power at 0.76. The rate of BPAR at 6 months posttransplant was assumed to be 0.20 in the control arm, and the noninferiority margin was chosen to be -0.15. A sample size for this phase-2b trial is determined to be 76 subjects in each dose group or a total of 304 patients. Assuming a 10% dropout rate during the study, ∼332 subjects were to be proportionally randomized in this study.|Weighted Average Difference|4.9|||||ONE_SIDED|95.0||11.4|||t-test, 1 sided||The upper bound of the confidence interval was a measure of non-inferiority of VCS to TAC. VCS was considered non-inferior to TAC if the upper one-sided 95% confidence bound was less than 15%.|||11.4||
82666269|NCT03405363|165048667|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.2|||||TWO_SIDED|95.0|0.98|1.47|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|||1.47|0.98|
82666270|NCT03405363|165048668|OTHER||Adjusted Incidence Rate Ratio|1.83|||||TWO_SIDED|95.0|0.9|3.74|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||3.74|0.90|
82666271|NCT03405363|165048669|OTHER||Adjusted Incidence Rate Ratio|1.3|||||TWO_SIDED|95.0|0.71|2.36|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||2.36|0.71|
82666272|NCT03405363|165048670|OTHER||Adjusted Incidence Rate Ratio|1.22|||||TWO_SIDED|95.0|0.79|1.87|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||1.87|0.79|
82666273|NCT03405363|165048671|OTHER||Adjusted Incidence Rate Ratio|1.0|||||TWO_SIDED|95.0|0.64|1.56|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|No formal hypotheses were tested.||1.56|0.64|
82666274|NCT03405363|165048672|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.63|||||TWO_SIDED|95.0|1.44|1.84|||Poisson regression model|Including exposure, natural logarithm of person-years at risk as offset, propensity score quintiles, and LAMA use at the index date as a covariate.|Olodaterol compared to 'other LABA' as reference|Analysis was based on Propensity score-trimmed population of patients with Chronic Obstructive Pulmonary Disease (COPD) derived from the Danish Patient Registry.||1.84|1.44|
82666275|NCT03405363|165048672|OTHER|No formal hypotheses were tested.|Adjusted Incidence Rate Ratio|1.48|||||TWO_SIDED|95.0|1.23|1.78|||Poisson regression model||Olodaterol compared to 'other LABA' as reference|"Analysis based on post-hoc population 1.~Adjustments: propensity score decile, previous use of: LAMA, oxygen, inhaled glucocorticoid, respiratory medications, fixed-dose combinations of Short-Acting Beta2- Agonist and Short-Acting Muscarinic Antagonist and systemic antibacterials. COPD severity, number of: all-cause hospitalisations 365 and 180 days, COPD exacerbations 180 and 90 days, COPD hospitalisations 180 and 90 days, and COPD exacerbations 90 days before index date."||1.78|1.23|
82666276|NCT03405363|165048672|OTHER|No formal hypotheses were tested.|Adjusted Incidende Rate Ratio|1.26|||||TWO_SIDED|95.0|0.97|1.64|||Poisson regression model||Olodaterol compared to 'other LABA' as reference|Analysis based on post-hoc population 2. Adjustments: propensity score decile, previous use of: LAMA, oxygen, inhaled glucocorticoid, respiratory medications. COPD severity, number of all-cause hospitalisations 180 days, COPD exacerbations 180 days before cohort entry.||1.64|0.97|
82666277|NCT01993940|165048684|SUPERIORITY_OR_OTHER||Difference|18.9|STANDARD_ERROR_OF_MEAN|4.12|<|0.0001|TWO_SIDED|95.0|10.8|27.0||To control the overall type I error rate to be ≤ 0.05 for the primary and secondary efficacy endpoints, a fixed-sequence (hierarchical) testing approach was applied.|Cochran-Mantel-Haenszel|P-value was calculated by Cochran-Mantel-Haenszel test adjusted by the opioid dose strata.||||27.0|10.8|<0.0001
82666278|NCT01993940|165048685|SUPERIORITY_OR_OTHER||LS Mean Difference|1.4|STANDARD_ERROR_OF_MEAN|0.243|<|0.0001|TWO_SIDED|95.0|0.92|1.88|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.88|0.92|<0.0001
82621635|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.18||||0.5027|TWO_SIDED|95.0|0.72|1.95|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.95|0.72|0.5027
82621636|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8165|TWO_SIDED|95.0|0.64|1.77|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.77|0.64|0.8165
82621637|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.18||||0.1996|TWO_SIDED|95.0|0.92|1.52|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.52|0.92|0.1996
82621638|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0074|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.83|1.10|0.0074
82621639|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3557|TWO_SIDED|95.0|0.87|1.45|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.45|0.87|0.3557
82621640|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.36||||0.017|TWO_SIDED|95.0|1.06|1.75|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.75|1.06|0.0170
82621641|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8641|TWO_SIDED|95.0|0.76|1.38|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.38|0.76|0.8641
82621642|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1768|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.91|0.1768
82621643|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7696|TWO_SIDED|95.0|0.55|1.55|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.55|0.7696
82621644|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.09||||0.7433|TWO_SIDED|95.0|0.66|1.78|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.78|0.66|0.7433
82621645|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0562|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.65|0.99|0.0562
82621646|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0274|TWO_SIDED|95.0|1.03|1.71|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|1.03|0.0274
82621647|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1206|TWO_SIDED|95.0|0.95|1.58|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.95|0.1206
82621648|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0365|TWO_SIDED|95.0|1.02|1.69|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.69|1.02|0.0365
82621649|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0964|TWO_SIDED|95.0|0.96|1.71|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|0.96|0.0964
82621650|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.2515|TWO_SIDED|95.0|0.89|1.59|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.89|0.2515
82621651|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.06||||0.8122|TWO_SIDED|95.0|0.66|1.71|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.71|0.66|0.8122
82621652|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.36||||0.1848|TWO_SIDED|95.0|0.86|2.13|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.13|0.86|0.1848
82621653|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2622|TWO_SIDED|95.0|0.9|1.49|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.90|0.2622
82621654|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1579|TWO_SIDED|95.0|0.93|1.54|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.54|0.93|0.1579
82621655|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2773|TWO_SIDED|95.0|0.89|1.49|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.89|0.2773
82621656|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1032|TWO_SIDED|95.0|0.96|1.59|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.59|0.96|0.1032
82621657|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.12||||0.4418|TWO_SIDED|95.0|0.84|1.5|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.50|0.84|0.4418
82621658|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1608|TWO_SIDED|95.0|0.92|1.63|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.63|0.92|0.1608
82666279|NCT01993940|165048686|SUPERIORITY_OR_OTHER||LS Mean Difference|2.17|STANDARD_ERROR_OF_MEAN|0.277|<|0.0001|TWO_SIDED|95.0|1.63|2.71|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||2.71|1.63|<0.0001
82666280|NCT01993940|165048687|SUPERIORITY_OR_OTHER||LS Mean Difference|1.15|STANDARD_ERROR_OF_MEAN|0.232|<|0.0001|TWO_SIDED|95.0|0.7|1.61|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.61|0.70|<0.0001
82666281|NCT01993940|165048688|SUPERIORITY_OR_OTHER||LS Mean Difference|0.75|STANDARD_ERROR_OF_MEAN|0.227||0.0011|TWO_SIDED|95.0|0.3|1.19|||ANCOVA|The ANCOVA model has the terms for treatment group as a fixed effect and the opioid dose strata as a covariate.||||1.19|0.30|0.0011
82666282|NCT01567527|165048691|SUPERIORITY||Hazard Ratio (HR)|0.451|||<|0.0001|TWO_SIDED|95.0|0.299|0.678|||Log Rank||"Using the Cox proportional hazards model with term for treatment group.~HR is estimated for Aripiprazole IM depot relative to Placebo."|Significance level 0.05.||0.678|0.299|< 0.0001
82666283|NCT01567527|165048691|SUPERIORITY|Using the Cox proportional hazards model with term for treatment group.|Hazard Ratio (HR)|2.22|||||TWO_SIDED|95.0|1.475|3.34|||||HR is estimated for Placebo relative to Aripiprazole IM depot.|||3.34|1.475|
82666284|NCT01567527|165048692|SUPERIORITY|Using a hierarchical procedure to preserve the overall Type I error rate at 0.05, after testing the primary outcome.|Percentage Difference (Final Values)|-24.6|||<|0.0001|TWO_SIDED|95.0|-36.7|-12.5|||Fisher Exact|||Statistical analysis for any mood episode||-12.5|-36.7|< 0.0001
82666285|NCT01567527|165048693|SUPERIORITY|Using mixed model repeated measures (MMRM) analysis with a restricted maximum likelihood (REML) approach. Analyses included the categorically fixed effects of treatment, region, trial week, and treatment-by-week interaction, as well as the continuously fixed covariates of baseline-score-by-week interaction. An unstructured covariance structure was used to model the within-subject errors and Kenward-Rodger degree of freedom was used to test the fixed effects.|Mean Difference (Final Values)|-0.43|||=|0.0011|TWO_SIDED|95.0|-0.69|-0.17|||Mixed model repeated measure analysis|||||-0.17|-0.69|= 0.0011
82666286|NCT01567527|165048694|SUPERIORITY||Hazard Ratio (HR)|0.137|||=|0.0002|TWO_SIDED|95.0|0.04|0.465|||Log Rank||"Using the Cox proportional hazards model with term for treatment group.~HR is estimated for Aripiprazole IM depot relative to Placebo."|||0.465|0.04|= 0.0002
82666287|NCT01567527|165048694|SUPERIORITY|Using the Cox proportional hazards model with term for treatment group.|Hazard Ratio (HR)|7.313|||||TWO_SIDED|95.0|2.151|24.865|||||HR is estimated for Placebo relative to Aripiprazole IM depot.|||24.865|2.151|
82666288|NCT00556673|165048775|SUPERIORITY_OR_OTHER||LS Mean Difference|0.39|||<|0.0001|TWO_SIDED|90.0|0.28|0.51||"Linear mixed effect model fitting treatment, sequence and period as fixed factors, patient within sequence as a random factor and pre-dose FEV1 as covariate.~A significance level of 5% was used to determine statistical significance."|1-sided|||The primary hypothesis tested was that the change from period baseline of trough FEV1 for placebo and indacaterol/mometasone was equal. The one-sided alternative was that the increase from period baseline of trough FEV1 for indacaterol/mometasone was higher than for placebo.||0.51|0.28|< 0.0001
82666289|NCT00494013|165048795|NON_INFERIORITY_OR_EQUIVALENCE|The noninferiority margin was 0.4%.|Mean Difference (Net)|-0.21||||0.026||95.0|-0.39|-0.03|||ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|Hypothesis: Basal analog insulin lispro protamine suspension, injected once or twice daily is noninferior to basal analog insulin determir, injected once or twice daily, with regard to glycemic control as measured by change in HbA1c from baseline to endpoint (last observation carried forward).||-0.03|-0.39|0.026
82666290|NCT00494013|165048796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.213||95.0|-0.28|0.06||P-value for 12 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||0.06|-0.28|0.213
82666291|NCT00494013|165048796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.11||||0.213||95.0|-0.28|0.06||P-value for 12 Week HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||0.06|-0.28|0.213
82666292|NCT00494013|165048796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.038||95.0|-0.38|-0.01||P-value for 24 Week Change from Baseline.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sides 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||-0.01|-0.38|0.038
82666293|NCT00494013|165048796|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.2||||0.038||95.0|-0.38|-0.01||P-value for Week 24 HbA1c.|ANCOVA|ANCOVA Model: Variable = Treatment + Baseline + Country + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Detemir).|||-0.01|-0.38|0.038
82666294|NCT00494013|165048797|SUPERIORITY_OR_OTHER|||||||0.463||95.0||||P-value for HbA1c \<7.0%.|Fisher Exact|||||||0.463
82666295|NCT00494013|165048797|SUPERIORITY_OR_OTHER|||||||0.135||95.0||||P-value for HbA1c ≤6.5%.|Fisher Exact|||||||0.135
82666296|NCT00494013|165048798|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 0.8 millimoles per Liter (mmol/L).|Mean Difference (Net)|0.1||||0.107||95.0|-0.02|0.23|||ANOVA|ANOVA model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|The first gatekeeping hypothesis was that Insulin Lispro Protamine Suspension was noninferior to determir.||0.23|-0.02|0.107
82666297|NCT00494013|165048799|SUPERIORITY_OR_OTHER|||||||0.952||95.0||||P-value for Average 7-Point SMBG.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.952
82666298|NCT00494013|165048799|SUPERIORITY_OR_OTHER|||||||0.856||95.0||||P-value for Average Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.856
82666299|NCT00494013|165048799|SUPERIORITY_OR_OTHER|||||||0.79||95.0||||P-value for Average Post-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.790
82666300|NCT00494013|165048799|SUPERIORITY_OR_OTHER|||||||0.632||95.0||||P-value for Average Morning+Evening Pre-Meal.|ANOVA|ANOVA Model: Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.632
82492827|NCT00926328|164678493|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANCOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82621659|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.29||||0.2628|TWO_SIDED|95.0|0.83|2.02|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.02|0.83|0.2628
82621660|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.55||||0.0447|TWO_SIDED|95.0|1.01|2.39|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.39|1.01|0.0447
82621661|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.16||||0.256|TWO_SIDED|95.0|0.9|1.49|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.49|0.90|0.2560
82621662|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1741|TWO_SIDED|95.0|0.93|1.53|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.53|0.93|0.1741
82621663|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1647|TWO_SIDED|95.0|0.93|1.55|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.55|0.93|0.1647
82621664|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0619|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.65|0.99|0.0619
82621665|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2025|TWO_SIDED|95.0|0.9|1.61|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.61|0.90|0.2025
82621666|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2601|TWO_SIDED|95.0|0.88|1.58|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.88|0.2601
82621667|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.14||||0.5635|TWO_SIDED|95.0|0.73|1.77|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.77|0.73|0.5635
82621668|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.38||||0.1338|TWO_SIDED|95.0|0.91|2.11|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||2.11|0.91|0.1338
82621669|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2137|TWO_SIDED|95.0|0.91|1.51|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.51|0.91|0.2137
82621670|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0256|TWO_SIDED|95.0|1.04|1.72|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.72|1.04|0.0256
82621671|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3531|TWO_SIDED|95.0|0.87|1.46|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.46|0.87|0.3531
82621672|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.31||||0.0358|TWO_SIDED|95.0|1.02|1.7|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.70|1.02|0.0358
82621673|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.22||||0.184|TWO_SIDED|95.0|0.91|1.62|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.62|0.91|0.1840
82621674|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.25||||0.125|TWO_SIDED|95.0|0.94|1.67|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.67|0.94|0.1250
82621675|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|0.95||||0.8266|TWO_SIDED|95.0|0.61|1.48|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.48|0.61|0.8266
82621676|NCT02528253|164960251|SUPERIORITY||Odds Ratio (OR)|1.13||||0.5673|TWO_SIDED|95.0|0.74|1.72|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.72|0.74|0.5673
82621677|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0076|TWO_SIDED|95.0|1.12|2.08|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.08|1.12|0.0076
82621678|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.98|||<|0.0001|TWO_SIDED|95.0|1.46|2.69|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.69|1.46|<.0001
82621679|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.31||||0.07|TWO_SIDED|95.0|0.98|1.74|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.74|0.98|0.0700
82621680|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.17||||0.2655|TWO_SIDED|95.0|0.89|1.54|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.54|0.89|0.2655
82621681|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0022|TWO_SIDED|95.0|1.16|1.98|||Regression, Logistic|||Week 2, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.98|1.16|0.0022
82666301|NCT00494013|165048800|SUPERIORITY_OR_OTHER|||||||0.472||95.0||||P-value for All Hypoglycemic Events.|Fisher Exact|||||||0.472
82666302|NCT00494013|165048800|SUPERIORITY_OR_OTHER|||||||0.005||95.0||||P-value for Nocturnal Hypoglycemic Events.|Fisher Exact|||||||0.005
82666303|NCT00494013|165048800|SUPERIORITY_OR_OTHER|||||||0.45||95.0||||P-value for Severe Hypoglycemic Events.|Fisher Exact|||||||0.450
82666304|NCT00494013|165048801|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.001
82666305|NCT00494013|165048801|SUPERIORITY_OR_OTHER|||||||0.001||95.0||||P-value for Nocturnal Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.001
82666306|NCT00494013|165048801|SUPERIORITY_OR_OTHER|||||||0.226||95.0||||P-value for Severe Hypoglycemic Rate.|ANOVA|Nonparametric ANOVA Model: Rank of Variable = Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group.||||||0.226
82666307|NCT00494013|165048803|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority margin of 1.5 kilograms (kg).|Mean Difference (Net)|1.5|||<|0.001||95.0|0.93|2.06||P-value for Change from Baseline.|ANCOVA|ANCOVA Model: Variable=Treatment + Baseline + Country + Baseline HbA1c + Baseline Sulfonylurea Group.|The two-sided 95% confidence interval is for the Least Squares Mean difference between the two treatments (Insulin Lispro Protamine Suspension minus Determir).|The second gatekeeping hypothesis was that Insulin Lispro Protamine Suspension was noninferior to detemir with regard to change in absolute body weight from baseline to endpoint (last observation carried forward).||2.06|0.93|<0.001
82666308|NCT00494013|165048804|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.074
82666309|NCT00494013|165048805|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||ANCOVA|ANCOVA Model: Variable=Treatment + Country + Baseline HbA1c + Baseline Sulfonylurea Group + Change in HbA1c from Baseline.||||||0.039
82666310|NCT00494013|165048806|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Fisher Exact|||||||0.026
82666311|NCT02286466|165048831|SUPERIORITY||Mean Difference (Final Values)|1.14|STANDARD_ERROR_OF_MEAN|1.38||0.412|TWO_SIDED|95.0|-1.6|3.87||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcomes and psychotropic medication use||Analysis comparing the change in anxiety symptoms (HAM-A) from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||3.87|-1.60|0.412
82666312|NCT02286466|165048832|SUPERIORITY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|2.51||0.997|TWO_SIDED|95.0|-4.99|4.96||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in quality of life (FACT-G) from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use||4.96|-4.99|0.997
82666313|NCT02286466|165048833|SUPERIORITY||Mean Difference (Final Values)|0.78|STANDARD_ERROR_OF_MEAN|0.63||0.215|TWO_SIDED|95.0|-0.46|2.02||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in self-report anxiety symptoms on the HADS-Anxiety Subscale from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||2.02|-0.46|0.215
82666314|NCT02286466|165048833|SUPERIORITY||Mean Difference (Final Values)|0.48|STANDARD_ERROR_OF_MEAN|0.55||0.379|TWO_SIDED|95.0|-0.6|1.57||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in self-report depression symptoms on the HADS-Depression Subscale from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||1.57|-0.60|0.379
82666315|NCT02286466|165048834|SUPERIORITY||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.81||0.852|TWO_SIDED|95.0|-1.45|1.75||a priori threshold p\<0.05|ANCOVA|Adjusted for baseline values of criterion outcome and psychotropic medication use||Analysis comparing the change in depression symptoms on the PHQ-9 from baseline to post-assessment between groups adjusting for baseline values of criterion outcome and psychotropic medication use.||1.75|-1.45|0.852
82666316|NCT00835081|165048835|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.0||||||90.0|95.9|110.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||110|95.9|
82666317|NCT00835081|165048836|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|100.0||||||90.0|97.5|103.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||103|97.5|
82666318|NCT00835081|165048837|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model containing factors for sequence of products, subjects within sequence, periods, and products was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|99.8||||||90.0|97.4|102.0|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%|||102|97.4|
82666319|NCT00421304|165048838|SUPERIORITY|||||||0.218|||||||Wilcoxon's rank-sum test|||||||0.218
82666320|NCT00421304|165048838|SUPERIORITY|||||||0.643|||||||Wilcoxon's rank-sum test|||||||0.643
82666321|NCT00421304|165048838|SUPERIORITY|||||||0.677|||||||Wilcoxon's rank-sum test|||||||0.677
82666322|NCT00421304|165048839|SUPERIORITY|||||||0.257|||||||Wilcoxon's rank-sum test|||||||0.257
82666323|NCT00421304|165048839|SUPERIORITY|||||||0.726|||||||Wilcoxon's rank-sum test|||||||0.726
82666324|NCT00421304|165048839|SUPERIORITY|||||||0.551|||||||Wilcoxon's rank-sum test|||||||0.551
82666325|NCT00421304|165048840|SUPERIORITY|||||||0.591|||||||Wilcoxon's rank-sum test|||||||0.591
82666326|NCT00421304|165048840|SUPERIORITY|||||||0.393|||||||Wilcoxon's rank-sum test|||||||0.393
82666327|NCT00421304|165048840|SUPERIORITY|||||||0.586|||||||Wilcoxon's rank-sum test|||||||0.586
82666328|NCT00421304|165048841|SUPERIORITY|||||||0.894|||||||Wilcoxon's rank-sum test|||||||0.894
82666329|NCT00421304|165048841|SUPERIORITY|||||||0.674|||||||Wilcoxon's rank-sum test|||||||0.674
82666330|NCT00421304|165048841|SUPERIORITY|||||||0.636|||||||Wilcoxon's rank-sum test|||||||0.636
82666331|NCT00421304|165048842|SUPERIORITY|||||||0.397|||||||Wilcoxon's rank-sum test|||||||0.397
82666332|NCT00421304|165048842|SUPERIORITY|||||||0.238|||||||Wilcoxon's rank-sum test|||||||0.238
82666333|NCT00421304|165048842|SUPERIORITY|||||||0.461|||||||Wilcoxon's rank-sum test|||||||0.461
82666334|NCT00421304|165048843|SUPERIORITY|||||||0.322|||||||Wilcoxon's rank-sum test|||||||0.322
82666335|NCT00421304|165048843|SUPERIORITY|||||||0.747|||||||Wilcoxon's rank-sum test|||||||0.747
82666336|NCT00421304|165048843|SUPERIORITY|||||||0.717|||||||Wilcoxon's rank-sum test|||||||0.717
82666337|NCT00421304|165048844|SUPERIORITY|||||||0.847|||||||Wilcoxon's rank-sum test|||||||0.847
82666338|NCT00421304|165048844|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
82666339|NCT00421304|165048844|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
82666340|NCT00421304|165048845|SUPERIORITY|||||||0.653|||||||Wilcoxon's rank-sum test|||||||0.653
82666341|NCT00421304|165048845|SUPERIORITY|||||||0.283|||||||Wilcoxon's rank-sum test|||||||0.283
82666342|NCT00421304|165048845|SUPERIORITY|||||||0.411|||||||Wilcoxon's rank-sum test|||||||0.411
82666343|NCT00421304|165048846|SUPERIORITY|||||||0.988|||||||Wilcoxon's rank-sum test|||||||0.988
82666344|NCT00421304|165048846|SUPERIORITY|||||||0.832|||||||Wilcoxon's rank-sum test|||||||0.832
82666345|NCT00421304|165048846|SUPERIORITY|||||||0.748|||||||Wilcoxon's rank-sum test|||||||0.748
82666346|NCT00421304|165048847|SUPERIORITY|||||||0.28|||||||Wilcoxon's rank-sum test|||||||0.280
82492828|NCT01803204|164678534|SUPERIORITY_OR_OTHER||GEE|1.0||||1|TWO_SIDED|99.0|||||GEE|||||||1.00
82492829|NCT01803204|164678535|SUPERIORITY_OR_OTHER||||||<|0.01|TWO_SIDED|99.0|||||Mist Effects Model|||||||<0.01
82666347|NCT00421304|165048847|SUPERIORITY|||||||0.108|||||||Wilcoxon's rank-sum test|||||||0.108
82666348|NCT00421304|165048847|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
82666349|NCT00421304|165048848|SUPERIORITY|||||||0.742|||||||Wilcoxon's rank-sum test|||||||0.742
82666350|NCT00421304|165048848|SUPERIORITY|||||||0.486|||||||Wilcoxon's rank-sum test|||||||0.486
82666351|NCT00421304|165048848|SUPERIORITY|||||||0.49|||||||Wilcoxon's rank-sum test|||||||0.490
82666352|NCT00421304|165048849|SUPERIORITY|||||||1|||||||Wilcoxon's rank-sum test|||||||1.000
82666353|NCT00421304|165048850|SUPERIORITY|||||||0.05|||||||Wilcoxon's rank-sum test|||||||0.050
82666354|NCT00421304|165048851|SUPERIORITY|||||||0.008|||||||Wilcoxon's rank-sum test|||||||0.008
82666355|NCT00421304|165048852|SUPERIORITY|||||||0.012|||||||Wilcoxon's rank-sum test|||||||0.012
82666356|NCT00421304|165048853|SUPERIORITY||||||<|0.001|||||||Wilcoxon's rank-sum test|||||||<0.001
82666357|NCT02614196|165048878|SUPERIORITY||LSMean Difference|-2.02|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.55|-1.48|||Mixed Models Analysis|||||-1.48|-2.55|<.001
82666358|NCT02614196|165048878|SUPERIORITY||LSMean Difference|-1.9|STANDARD_ERROR_OF_MEAN|0.27|<|0.001|TWO_SIDED|95.0|-2.44|-1.36|||Mixed Models Analysis|||||-1.36|-2.44|<.001
82666359|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.6|||||TWO_SIDED|95.0|2.03|3.32||||||Reduction from Baseline ≥50%||3.32|2.03|
82666360|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.31|||||TWO_SIDED|95.0|1.81|2.96||||||Reduction from Baseline ≥50%||2.96|1.81|
82666361|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.34|||||TWO_SIDED|95.0|1.78|3.06||||||Reduction from Baseline ≥75%||3.06|1.78|
82666362|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.42|||||TWO_SIDED|95.0|1.84|3.17||||||Reduction from Baseline ≥75%||3.17|1.84|
82666363|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.16|||||TWO_SIDED|95.0|1.5|3.12||||||Reduction from Baseline ≥100%||3.12|1.50|
82666364|NCT02614196|165048879|SUPERIORITY||Odds Ratio (OR)|2.67|||||TWO_SIDED|95.0|1.87|3.81||||||Reduction from Baseline ≥100%||3.81|1.87|
82666365|NCT02614196|165048880|SUPERIORITY||LSMean Difference|8.82|STANDARD_ERROR_OF_MEAN|1.27|<|0.001|TWO_SIDED|95.0|6.33|11.31|||Mixed Models Analysis|||||11.31|6.33|<.001
82666366|NCT02614196|165048880|SUPERIORITY||LSMean Difference|7.39|STANDARD_ERROR_OF_MEAN|1.28|<|0.001|TWO_SIDED|95.0|4.88|9.9|||Mixed Models Analysis|||||9.90|4.88|<.001
82666367|NCT02614196|165048881|SUPERIORITY||LSMean Difference|-1.82|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.29|-1.36|||Mixed Models Analysis|||||-1.36|-2.29|<.001
82666368|NCT02614196|165048881|SUPERIORITY||LSMean Difference|-1.78|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|-2.25|-1.31|||Mixed Models Analysis|||||-1.31|-2.25|<.001
82666369|NCT02614196|165048882|SUPERIORITY||LSMean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.09||0.002|TWO_SIDED|95.0|-0.47|-0.11|||Mixed Models Analysis|||||-0.11|-0.47|.002
82666370|NCT02614196|165048882|SUPERIORITY||LSMean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.09||0.012|TWO_SIDED|95.0|-0.41|-0.05|||Mixed Models Analysis|||||-0.05|-0.41|.012
82666371|NCT02614196|165048883|SUPERIORITY||LSMean Difference|-15.19|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-20.27|-10.11|||Mixed Models Analysis|||||-10.11|-20.27|<.001
82666372|NCT02614196|165048883|SUPERIORITY||LSMean Difference|-13.56|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-18.67|-8.44|||Mixed Models Analysis|||||-8.44|-18.67|<.001
82666373|NCT02614196|165048884|SUPERIORITY||LSMean Difference|-9.15|STANDARD_ERROR_OF_MEAN|1.76|<|0.001|TWO_SIDED|95.0|-12.61|-5.69|||Mixed Models Analysis|||||-5.69|-12.61|<.001
82666374|NCT02614196|165048884|SUPERIORITY||LSMean Difference|-8.22|STANDARD_ERROR_OF_MEAN|1.78|<|0.001|TWO_SIDED|95.0|-11.71|-4.72|||Mixed Models Analysis|||||-4.72|-11.71|<.001
82666375|NCT02614196|165048885|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||TE ADA Positive.||||<.001
82666376|NCT02614196|165048885|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||TE ADA Positive||||<.001
82666377|NCT00919711|165048888|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.6|||<|0.0001|TWO_SIDED|95.0|1.2|2.0|||ANCOVA||Denosumab - Risedronate|||2.0|1.2|<0.0001
82666378|NCT00919711|165048889|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82666379|NCT00919711|165048890|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|1.4|||<|0.0001|TWO_SIDED|95.0|0.9|1.8|||ANCOVA||Denosumab - Risedronate|||1.8|0.9|<0.0001
82666380|NCT00919711|165048891|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|2.3|||<|0.0001|TWO_SIDED|95.0|1.8|2.8|||ANCOVA||Denosumab - Risedronate|||2.8|1.8|<0.0001
82666381|NCT04388787|165048896|SUPERIORITY|||||||0.03|||||||ANCOVA|||||||0.03
82666382|NCT04388787|165048897|SUPERIORITY|||||||0.0008|||||||ANCOVA|||||||0.0008
82666383|NCT00840840|165048917|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|101.45||||||90.0|97.71|105.33|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||105.33|97.71|
82666384|NCT00840840|165048918|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|103.05||||||90.0|101.25|104.88|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.88|101.25|
82666385|NCT00840840|165048919|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|102.94||||||90.0|101.08|104.83|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||104.83|101.08|
82666386|NCT00840840|165048920|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|99.68||||||90.0|92.41|107.52|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||107.52|92.41|
82666387|NCT00840840|165048921|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|101.48||||||90.0|94.73|108.71|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||108.71|94.73|
82666388|NCT00840840|165048922|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|ANOVA|Test/Reference Ratio of the mean x 100|100.17||||||90.0|91.95|109.13|||||Bioequivalence is established when 90% Confidence Interval falls within 80 - 125|||109.13|91.95|
82666389|NCT05194202|165048967|OTHER|||||||0.622|||||||one-sample test of proportions|Hypothesis was evaluated using a one-tailed, one-proportion z-test.||Our null hypothesis for the acceptability was P0 great than or equal to 85% vs. the alternative P0 less than 85%. Acceptability responses were dichotomized to include neutral with strongly disagree/disagree.||||.622
82666390|NCT05194202|165048968|OTHER|||||||0.038|||||||one sample test of proportions|Hypothesis was evaluated using a one-tailed, one-proportion z-test||Our null hypothesis for the acceptabnility of the ED-Heart was P0 great than or equal to 85% vs. the alternative P0 less than 85%. Acceptability responses were dichotomized to include neutral with strongly disagree/disagree.||||.038
82666391|NCT02005562|165048979|SUPERIORITY_OR_OTHER|||||||0.479|||||||Chi-squared|||||||0.479
82666392|NCT02005562|165048980|SUPERIORITY_OR_OTHER|||||||0.6736|||||||ANOVA|||||||0.6736
82666393|NCT02005562|165048981|SUPERIORITY_OR_OTHER|||||||0.2172|||||||ANOVA|||||||0.2172
82666394|NCT02005562|165048982|SUPERIORITY_OR_OTHER|||||||0.477|||||||ANOVA|||||||0.4770
82666395|NCT02005562|165048984|SUPERIORITY_OR_OTHER|||||||0.0764|||||||Log Rank|||||||0.0764
82666396|NCT02005562|165048985|SUPERIORITY_OR_OTHER|||||||0.418|||||||Fisher Exact|||Week 12||||0.418
82666397|NCT02005562|165048985|SUPERIORITY_OR_OTHER|||||||0.841|||||||Fisher Exact|||Week 52||||0.841
82666398|NCT02005562|165048986|SUPERIORITY_OR_OTHER|||||||0.245|||||||Fisher Exact|||Week 12||||0.245
82666399|NCT02005562|165048986|SUPERIORITY_OR_OTHER|||||||0.637|||||||Fisher Exact|||Week 52||||0.637
82666400|NCT02005562|165048987|SUPERIORITY_OR_OTHER|||||||0.512||||||Mycophenolate Mofetil, Adapted Dose vs. Mycophenolate Mofetil, Fixed Dose at protocol biopsy at Week 12.|Fisher Exact|||||||0.512
82492830|NCT01803204|164678536|SUPERIORITY_OR_OTHER|||||||0.81|TWO_SIDED|99.0|||||Mist Effect Model|||||||0.81
82492831|NCT01867424|164678556|OTHER||Median of Differences|0.43||||0.0008|TWO_SIDED|||||Median of difference in CER: All cases.|Wilcoxon Test||The relative difference between groups is based on the change from baseline values to the values collected at each of the three time points.|Null Hypothesis: There is no significant difference in contrast enhancement ratio (CER) in prostate cancers upon injection of Eovist. Subgroup analysis of CER in (i) Advanced Disease and (ii) Localized Disease||||0.0008
82666401|NCT02005562|165048987|SUPERIORITY_OR_OTHER|||||||0.718||||||Mycophenolate Mofetil, Adapted Dose vs. Mycophenolate Mofetil, Fixed Dose at protocol biopsy at Week 52.|Fisher Exact|||||||0.718
82666402|NCT02005562|165048989|SUPERIORITY_OR_OTHER|||||||0.86|||||||Log Rank|||||||0.860
82666403|NCT04729101|165048991|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|38.98|||||TWO_SIDED|95.0|31.94|46.02||||||Vonoprazan versus lansoprazole on Day 1 of each treatment period.||46.02|31.94|
82666404|NCT04729101|165048991|OTHER|Additional statistics were descriptive in nature|Least-squares mean difference|44.62|||||TWO_SIDED|95.0|37.55|51.69||||||Vonoprazan versus lansoprazole on Day 7 of each treatment period.||51.69|37.55|
82666405|NCT04729101|165048992|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|1.72|||||TWO_SIDED|95.0|1.4|2.04||||||Vonoprazan versus lansoprazole on Day 1 of each treatment period.||2.04|1.40|
82666406|NCT04729101|165048992|OTHER|Additional statistics were descriptive in nature.|Least-squares mean difference|2.09|||||TWO_SIDED|95.0|1.74|2.44||||||Vonoprazan versus lansoprazole on Day 7 of each treatment period.||2.44|1.74|
82666407|NCT02940522|165049000|OTHER|Comparison of bioavailability|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666408|NCT02940522|165049001|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666409|NCT02940522|165049002|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666410|NCT02940522|165049003|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666411|NCT02940522|165049004|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666412|NCT02940522|165049005|OTHER|Comparison of bioavailability data|||||||||||||||||The PK parameters were compared between treatments using an analysis of variance statistical model with treatment as the fixed effect, using the natural logarithms of the data. As the objective was to assess whether comparable exposure could be obtained using the higher SQ dose, the data were not normalized for dose before the statistical analysis.|||
82666413|NCT00274625|165049006|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||Fisher Exact|||||||0.60
82666414|NCT00762411|165049011|SUPERIORITY_OR_OTHER|||||||0.56||95.0|||||Mixed Models Analysis|||||||0.560
82666415|NCT00762411|165049012|SUPERIORITY_OR_OTHER|||||||0.959||95.0|||||Mixed Models Analysis|||||||0.959
82666416|NCT00762411|165049013|SUPERIORITY_OR_OTHER|||||||0.567||95.0|||||Mixed Models Analysis|||||||0.567
82621682|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0125|TWO_SIDED|95.0|1.11|2.35|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.35|1.11|0.0125
82621683|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.75||||0.0032|TWO_SIDED|95.0|1.21|2.54|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.54|1.21|0.0032
82621684|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.3||||0.1528|TWO_SIDED|95.0|0.91|1.85|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.85|0.91|0.1528
82621685|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.24||||0.1863|TWO_SIDED|95.0|0.9|1.72|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.72|0.90|0.1863
82621686|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0667|TWO_SIDED|95.0|0.98|1.86|||Regression, Logistic|||Week 2, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|0.98|0.0667
82621687|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.0||||0.0101|TWO_SIDED|95.0|1.18|3.39|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.39|1.18|0.0101
82621688|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.91||||0.0162|TWO_SIDED|95.0|1.13|3.25|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.25|1.13|0.0162
82621689|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.17||||0.5599|TWO_SIDED|95.0|0.69|1.99|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.99|0.69|0.5599
82621690|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.71||||0.0202|TWO_SIDED|95.0|1.09|2.68|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.68|1.09|0.0202
82621691|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0335|TWO_SIDED|95.0|1.04|2.57|||Regression, Logistic|||Week 2, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.57|1.04|0.0335
82621692|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.53||||0.0416|TWO_SIDED|95.0|1.04|6.17|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||6.17|1.04|0.0416
82621693|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|3.24||||0.0075|TWO_SIDED|95.0|1.37|7.69|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||7.69|1.37|0.0075
82621694|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.33||||0.5374|TWO_SIDED|95.0|0.53|3.34|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.34|0.53|0.5374
82621695|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.89||||0.082|TWO_SIDED|95.0|0.92|3.89|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.89|0.92|0.0820
82621696|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.43||||0.0108|TWO_SIDED|95.0|1.23|4.81|||Regression, Logistic|||Week 2, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.81|1.23|0.0108
82621697|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.65||||0.0006|TWO_SIDED|95.0|1.24|2.2|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.24|0.0006
82621698|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.47|2.59|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.59|1.47|<.0001
82621699|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.25||||0.0963|TWO_SIDED|95.0|0.96|1.63|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.63|0.96|0.0963
82666417|NCT00762411|165049014|SUPERIORITY_OR_OTHER|||||||0.199||95.0|||||Mixed Models Analysis|||||||0.199
82666418|NCT00762411|165049015|SUPERIORITY_OR_OTHER|||||||0.294||95.0|||||Mixed Models Analysis|||||||0.294
82666419|NCT00762411|165049016|SUPERIORITY_OR_OTHER|||||||0.477||95.0|||||Mixed Models Analysis|||||||0.477
82666420|NCT00762411|165049017|SUPERIORITY_OR_OTHER|||||||0.673||95.0|||||ANCOVA|||||||0.673
82666421|NCT00762411|165049018|SUPERIORITY_OR_OTHER|||||||0.622||95.0|||||Mixed Models Analysis|||||||0.622
82666422|NCT00762411|165049019|SUPERIORITY_OR_OTHER|||||||0.178||95.0|||||Mixed Models Analysis|||||||0.178
82666423|NCT00762411|165049020|SUPERIORITY_OR_OTHER|||||||0.632||95.0|||||Mixed Models Analysis|||||||0.632
82666424|NCT00762411|165049021|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANCOVA|||||||0.009
82666425|NCT00762411|165049022|SUPERIORITY_OR_OTHER|||||||0.426||95.0|||||ANCOVA|||||||0.426
82666426|NCT00762411|165049023|SUPERIORITY_OR_OTHER|||||||0.101||95.0||||This is the p-value for the Right Hippocampal Volume.|ANCOVA|||||||0.101
82666427|NCT00762411|165049023|SUPERIORITY_OR_OTHER|||||||0.772||95.0||||This is the p-value for the Left Hippocampal Volume.|ANCOVA|||||||0.772
82666428|NCT00762411|165049024|SUPERIORITY_OR_OTHER|||||||0.326||95.0|||||ANCOVA|||||||0.326
82666429|NCT00762411|165049025|SUPERIORITY_OR_OTHER|||||||0.117||95.0|||||ANCOVA|||||||0.117
82666430|NCT00762411|165049034|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Mixed Models Analysis|||||||0.929
82666431|NCT00762411|165049035|SUPERIORITY_OR_OTHER|||||||0.437||95.0|||||Mixed Models Analysis|||||||0.437
82666432|NCT00762411|165049036|SUPERIORITY_OR_OTHER|||||||0.318||95.0|||||ANCOVA|||||||0.318
82666433|NCT00762411|165049037|SUPERIORITY_OR_OTHER|||||||0.417||95.0|||||ANCOVA|||||||0.417
82666434|NCT00762411|165049038|SUPERIORITY_OR_OTHER|||||||0.805||95.0|||||Mixed Models Analysis|||||||0.805
82666435|NCT00762411|165049039|SUPERIORITY_OR_OTHER|||||||0.893||95.0|||||Mixed Models Analysis|||||||0.893
82666436|NCT02959840|165049040|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.|||||<|1e-05|||||||Chi-squared|||||||< 0.00001
82666437|NCT02959840|165049040|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||5e-05|||||||Chi-squared|||||||0.00005
82666438|NCT02959840|165049040|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
82666439|NCT02959840|165049041|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.001|||||||Chi-squared|||||||0.001
82666440|NCT02959840|165049041|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.0002|||||||Chi-squared|||||||0.0002
82666441|NCT02959840|165049041|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.8|||||||Chi-squared|||||||0.8
82666442|NCT02959840|165049042|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||4e-05|||||||Chi-squared|||||||0.00004
82666443|NCT02959840|165049042|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.0004|||||||Chi-squared|||||||0.0004
82666444|NCT02959840|165049042|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.09|||||||Chi-squared|||||||0.09
82666445|NCT02959840|165049043|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
82666446|NCT02959840|165049043|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.07|||||||Chi-squared|||||||0.07
82666447|NCT02959840|165049043|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
82666448|NCT02959840|165049044|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
82666449|NCT02959840|165049044|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
82666450|NCT02959840|165049044|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
82666451|NCT02959840|165049045|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||1|||||||Chi-squared|||||||1
82666452|NCT02959840|165049045|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
82666453|NCT02959840|165049045|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced nausea in the above 2 groups.||||||0.1|||||||Chi-squared|||||||0.1
82666454|NCT02959840|165049046|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.001|||||||Chi-squared|||||||0.001
82666455|NCT02959840|165049046|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.0004|||||||Chi-squared|||||||0.0004
82666456|NCT02959840|165049046|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||1|||||||Chi-squared|||||||1
82666457|NCT02959840|165049047|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.008|||||||Chi-squared|||||||0.008
82666458|NCT02959840|165049047|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.07|||||||Chi-squared|||||||0.07
82666459|NCT02959840|165049047|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.6|||||||Chi-squared|||||||0.6
82666460|NCT02959840|165049048|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.2|||||||Chi-squared|||||||0.2
82666461|NCT02959840|165049048|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
82666462|NCT02959840|165049048|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.7|||||||Chi-squared|||||||0.7
82666463|NCT02959840|165049049|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
82666464|NCT02959840|165049049|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||1|||||||Chi-squared|||||||1
82666465|NCT02959840|165049049|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the number of people who experienced vomiting in the above 2 groups.||||||0.5|||||||Chi-squared|||||||0.5
82666466|NCT02959840|165049050|SUPERIORITY|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.02|||||||Fisher Exact|||||||0.02
82666467|NCT02959840|165049050|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.2|||||||Fisher Exact|||||||0.2
82666468|NCT02959840|165049050|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.3|||||||Fisher Exact|||||||0.3
82666469|NCT02959840|165049051|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.2|||||||Fisher Exact|||||||0.2
82666470|NCT02959840|165049051|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.5|||||||Fisher Exact|||||||0.5
82666471|NCT02959840|165049051|EQUIVALENCE|Our null hypothesis is that there is no statistically significant difference between the mean satisfaction level in the above 2 groups.||||||0.7|||||||Fisher Exact|||||||0.7
82666472|NCT04556734|165049086|OTHER|F-test|LS Mean Difference|-14.14||||0.2579|TWO_SIDED|95.0|-38.933|10.648|||Mixed Models Analysis|||Mixed model for repeated measurements (MMRM) was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||10.648|-38.933|0.2579
82666473|NCT04556734|165049086|OTHER|F-test|LS Mean Difference|-21.79||||0.0592|TWO_SIDED|95.0|-44.446|0.871|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||0.871|-44.446|0.0592
82666474|NCT04556734|165049087|OTHER|F-test|Least square (LS) Mean Difference|-9.23||||0.1283|TWO_SIDED|95.0|-21.217|2.748|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||2.748|-21.217|0.1283
82666475|NCT04556734|165049087|OTHER|F-test|LS Mean Difference|-8.99||||0.1057|TWO_SIDED|95.0|-19.936|1.962|||Mixed Models Analysis|||MMRM was used for evaluation. The model included the treatment group, visit and treatment-by-visit interaction as fixed effects, disease duration and baseline SALT I score as covariates.||1.962|-19.936|0.1057
82666476|NCT04556734|165049088|OTHER||Response rate difference|11.5||||0.4067|TWO_SIDED|95.0|-14.22|37.31||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 30% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||37.31|-14.22|0.4067
82666477|NCT04556734|165049088|OTHER||Response rate difference|17.5||||0.2171|TWO_SIDED|95.0|-8.23|43.19||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 30% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo||43.19|-8.23|0.2171
82666478|NCT04556734|165049088|OTHER||Response rate difference|-0.8||||0.9425|TWO_SIDED|95.0|-23.18|21.48||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 50% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||21.48|-23.18|0.9425
82666479|NCT04556734|165049088|OTHER||Response rate difference|8.9||||0.4959|TWO_SIDED|95.0|-15.19|32.94||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 50% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo||32.94|-15.19|0.4959
82666480|NCT04556734|165049088|OTHER||Response rate difference|5.6||||0.3576|TWO_SIDED|95.0|-5.39|16.59||P-values are based on the comparison of Etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 75% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 2 mg and DB Treatment period: Placebo||16.59|-5.39|0.3576
82666481|NCT04556734|165049088|OTHER||Response rate difference|8.3||||0.2904|TWO_SIDED|95.0|-3.43|20.12||P-values were based on the comparison of etrasimod versus placebo.|Cochran-Mantel-Haenszel||Clopper-Pearson method|\>= 75% Improvement: Response rate difference was difference in response rates between DB Treatment period: Etrasimod 3 mg and DB Treatment period: Placebo.||20.12|-3.43|0.2904
82492832|NCT01867424|164678556|OTHER||Median of Differences|0.42||||0.0039|TWO_SIDED|||||Median of difference in CER: Advanced Disease Cases.|Wilcoxon Test|||||||0.0039
82621700|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0332|TWO_SIDED|95.0|1.02|1.71|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.71|1.02|0.0332
82621701|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0007|TWO_SIDED|95.0|1.21|2.01|||Regression, Logistic|||Week 4, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.01|1.21|0.0007
82621702|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.9||||0.0001|TWO_SIDED|95.0|1.37|2.64|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.64|1.37|0.0001
82666482|NCT01680016|165049109|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was achieved if the lower limit of the two-sided 95% CI around the observed ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.5|Ratio of GMCs between two groups(Day 15)|0.84|||||TWO_SIDED|95.0|0.69|1.02|||ANOVA|||To demonstrate noninferiority in immune response of the Zagreb post-exposure schedule of Rabipur to that of the conventional Essen post-exposure schedule at day 15 in children aged ≥6 to ≤17 years||1.02|0.69|
82666483|NCT01680016|165049110|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was achieved if the lower limit of the two-sided 95% CI around the observed ratio of GMCs between the groups (GMCGroup Zagreb / GMCGroup Essen) was greater than 0.5|Ratio of GMCs between two groups(Day 15)|1.09|||||TWO_SIDED|95.0|0.87|1.35|||ANOVA|||To demonstrate noninferiority in immune response of the Zagreb post-exposure schedule of Rabipur to that of the conventional Essen post-exposure schedule at day 15 in older adults aged ≥51 years||1.35|0.87|
82666484|NCT00377572|165049121|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Maximum Symptom Day Comparison||||<0.001
82666485|NCT00377572|165049122|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||||||0.04
82666486|NCT00377572|165049123|SUPERIORITY_OR_OTHER|||||||0.1111||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept (to account for within-subject correlation) and visit and group as fixed effects.||||||0.1111
82666487|NCT00377572|165049124|SUPERIORITY_OR_OTHER|||||||0.007||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Childhood Asthma Control Test comparison||||0.007
82666488|NCT00377572|165049125|SUPERIORITY_OR_OTHER|||||||0.54||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Asthma Control Test comparison||||0.54
82666489|NCT00377572|165049126|SUPERIORITY_OR_OTHER|||||||0.3||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||FEV1 % of predicted value comparison||||0.30
82666490|NCT00377572|165049127|SUPERIORITY_OR_OTHER|||||||0.81||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||FEV1:FVC ×100 comparison||||0.81
82666491|NCT00377572|165049128|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||||||<0.0001
82666492|NCT00377572|165049129|SUPERIORITY_OR_OTHER|||||||0.12||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Percent Adherence Comparison||||0.12
82666493|NCT00377572|165049130|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Step level 1- 2 (mild asthma) Percent Comparison||||0.001
82666494|NCT00377572|165049131|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Step level 4 - 6 (severe asthma)percent comparison||||<0.001
82666495|NCT00377572|165049132|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Inhaled glucocorticoids prescribed - mcg per day comparison||||<0.001
82666496|NCT00377572|165049133|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||Mixed Models Analysis|Linear mixed-effects models w/ random intercept and slope (to account for within-subject correlation over time) and visit and group as fixed effects.||Comparison percent prescribed long-acting beta 2 agonists||||0.003
82666497|NCT00377572|165049134|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Regression, Logistic|Hospitalizations were summed over the course of the double-blind \& analyzed with logistic regression (LR) of 'any' vs. 'none'. The LR was unadjusted.||||||0.02
82666498|NCT00377572|165049135|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Regression, Logistic|Exacerbations were summed over the course of the double-blind and analyzed with an LR of 'any' versus 'none'. LR adjusted for study site and dosing.||||||<0.001
82666499|NCT00377572|165049136|SUPERIORITY_OR_OTHER|||||||0.84||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.84
82666500|NCT00377572|165049137|SUPERIORITY_OR_OTHER|||||||0.58||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.58
82666501|NCT02846883|165049148|SUPERIORITY|These power estimates are based on linear regression of regulatory T-cell counts at each time point. These data will be summarized with the mean, median, standard deviation, standard error, minimum and maximum.|Mean Difference (Final Values)|81.0|||<|0.05|TWO_SIDED|95.0||||P value is adjusted for multiple comparisons|Regression, Cox|See above|Estimates for the differences in the secondary endpoints will be used to perform a power estimation using a Monte Carlo simulation method.|The primary statistical evaluation for Aim 1 will focus on the chronologically increasing counts of T-regulatory cells over time following MSC administration in both delivery groups. Using the pattern of increased counts with time and the standard deviation reported by Ito and colleagues in healthy subjects, 36 subjects provides 81.0% power to detect such a change.A p value of \<0.05 will be considered significant.||||<0.05
82666502|NCT02655224|165049238|SUPERIORITY|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|42.071|||<|0.0001|TWO_SIDED|95.0|5.113|346.181|||Fisher's Exact Test||Relugolix 40 mg/Placebo|||346.181|5.113|<0.0001
82666503|NCT02655224|165049239|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|29.176|||||TWO_SIDED|95.0|3.555|239.478|||||Relugolix 40 mg/Placebo|||239.478|3.555|
82666504|NCT02655224|165049240|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Final Values)|-0.49|||||TWO_SIDED|95.0|-1.05|0.069|||||Relugolix 40 mg-Placebo|||0.069|-1.050|
82666505|NCT02655224|165049241|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Final Values)|11.96|||||TWO_SIDED|95.0|-3.201|27.112|||||Relugolix 40 mg-Placebo|||27.112|-3.201|
82666506|NCT02655224|165049242|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|5.625|||||TWO_SIDED|95.0|1.605|19.709|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 29 to 56||19.709|1.605|
82666507|NCT02655224|165049242|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|9.865|||||TWO_SIDED|95.0|2.784|34.955|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 57 to 84||34.955|2.784|
82666508|NCT02655224|165049243|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|5.438|||||TWO_SIDED|95.0|1.071|27.609|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 29 to 56||27.609|1.071|
82666509|NCT02655224|165049243|OTHER|The point estimate and 2-sided 95% confidence interval of odds ratio were calculated between relugolix 40 mg group and placebo group.|Odds Ratio (OR)|12.794|||||TWO_SIDED|95.0|2.603|62.88|||||Relugolix 40 mg/Placebo. Statistical analysis for Day 29 to 56 and Day 57 to 84, the odds ratio was calculated. For Day 1 to 28, its ratio was not calculated due to zero cell.|Day 57 to 84||62.880|2.603|
82666510|NCT02655224|165049244|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|0.09|||||TWO_SIDED|95.0|-0.574|0.745|||||Relugolix 40 mg-Placebo|Day 1 to 28||0.745|-0.574|
82666511|NCT02655224|165049244|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|-0.57|||||TWO_SIDED|95.0|-1.19|0.049|||||Relugolix 40 mg-Placebo|Day 29 to 56||0.049|-1.190|
82666512|NCT02655224|165049244|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|-0.54|||||TWO_SIDED|95.0|-1.074|-0.012|||||Relugolix 40 mg-Placebo|Day 57 to 84||-0.012|-1.074|
82666513|NCT02655224|165049245|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|4.17|||||TWO_SIDED|95.0|-11.507|19.839|||||Relugolix 40 mg-Placebo|Day 1 to 28||19.839|-11.507|
82666514|NCT02655224|165049245|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|12.7|||||TWO_SIDED|95.0|-3.098|28.494|||||Relugolix 40 mg-Placebo|Day 29 to 56||28.494|-3.098|
82666515|NCT02655224|165049245|OTHER|The mean differences between relugolix 40 mg group and placebo group and the two-sided 95% confidence intervals were calculated.|Mean Difference (Each Period)|11.6|||||TWO_SIDED|95.0|-3.554|26.745|||||Relugolix 40 mg-Placebo|Day 57 to 84||26.745|-3.554|
82666516|NCT02627963|165049281|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0165|TWO_SIDED|95.0|0.56|0.94||A one-sided, log-rank test stratified for IMDC risk category and prior therapy (two VEGFR TKIs vs. a checkpoint inhibitor plus a VEGFR TKI vs. a VEGFR TKI plus any other systemic agent) at a significance level of α = 0.025 was used.|Log Rank|||||0.94|0.56|0.0165
82666517|NCT02627963|165049282|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.8174|TWO_SIDED|95.0|0.75|1.25|||Log Rank|||||1.25|0.75|0.8174
82666518|NCT05053360|165049306|SUPERIORITY||Odds Ratio (OR)|2.87||||0.019|TWO_SIDED|95.0|1.19|6.93|||Regression, Logistic|||HIGH PAIN = score over 6 on a 0-10 pain scale (higher number indicating higher pain)||6.93|1.19|.019
82666519|NCT05053360|165049307|SUPERIORITY||Mean Difference (Final Values)|-2.28||||0.0002|TWO_SIDED|95.0|-3.47|-1.09|||ANCOVA|||||-1.09|-3.47|.0002
82666520|NCT00354159|165049345|SUPERIORITY_OR_OTHER||6-month survival rate|90.5|||<|0.001|ONE_SIDED|97.5|87.7|||The survival estimate at 6-months post-implant was compared to 80%. The comparison was made using the cumulative hazard \[e.g. log survival estimate\] for the variance.|Survival estimate at 6-months|The survival estimate at 6-months post-implant was compared to 80%.||"Null hypothesis: Freedom from Chronicle system-related complications at 6-months post-implant is less than or equal to 80%.~Alternative hypothesis: Freedom from Chronicle system-related complications at 6-months is greater than 80%."|||87.7|<0.001
82666521|NCT00354159|165049347|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99||||0.978|TWO_SIDED|95.0|0.61|1.61||The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Andersen-Gill||Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"The study was originally powered at 80% to detect a 25% risk reduction between the treatment arm and control arm with a type I error rate of 0.05. Under these assumptions 648 HF-related events from approximately 1300 subjects were required. The study stopped after 400 were randomized.~Null Hypothesis: The HF-related event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The HF-related event rate between the treatment arm and control arm is different."||1.61|0.61|0.978
82666522|NCT00354159|165049348|SUPERIORITY_OR_OTHER|||||||0.574||95.0|||||Wilcoxon (Mann-Whitney)|||"Null Hypothesis: mu(Treatment) = mu(Control) Alternative Hypothesis: mu(Treatment) ne mu(Control)~where mu is the percentage of hospitalized days for heart failure."||||0.574
82666523|NCT00354159|165049349|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.527|TWO_SIDED|95.0|0.62|1.28||The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Andersen-Gill Model||Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"Null Hypothesis: The CV-related event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The CV-related event rate between the treatment arm and control arm is different."||1.28|0.62|0.527
82666524|NCT00354159|165049350|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.505|TWO_SIDED|95.0|0.57|1.32|||Regression, Cox|The treatment and control hazard ratio and 95% confidence interval was estimated using a univariate cox Regression Model.|Hazard Ratio is for the Treatment Arm relative to the Control Arm|"Null Hypothesis: Freedom from death or HF-related hospitalization is the same between the treatment arm and the control arm.~Alternative Hypothesis: Freedom from death or HF-related hospitalization is different between the treatment arm and the control arm."||1.32|0.57|0.505
82666525|NCT00354159|165049351|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.76||||0.088|TWO_SIDED|95.0|0.56|1.04|||Andersen-Gill Model|The P-value is from the Andersen-Gill model, an extension of the Cox proportional hazards model for multiple events.|Hazard Ratio is for the Treatment Arm relative to the Control Arm.|"Null Hypothesis: The all cause event rate is the same between the treatment arm and control arm.~Alternative Hypothesis: The all cause event rate between the treatment arm and control arm is different."||1.04|0.56|0.088
82666526|NCT00354159|165049352|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.06||||0.758|TWO_SIDED|95.0|0.73|1.54||P-value is from a proportional odds model comparing the distribution of composite endpoint response between the treatment arm and control arm.|Proportional odds model||Odds ratio represents the odds of improved score in the treatment group relative to the control group.|"Null Hypothesis: Distribution of composite response endpoint is the same between the treatment arm and the control arm.~Alternative Hypothesis: Distribution of composite response endpoint is different between the treatment arm and the control arm."||1.54|0.73|0.758
82666527|NCT00354159|165049355|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77||||0.599|TWO_SIDED|95.0|0.29|2.06|||Regression, Cox|The treatment to control hazard ratio and 95% confidence interval was estimated using a univariate Cox Regression Model|Hazard ratio estimates the hazard of death in the treatment group relative to the control group.|"Null hypothesis: Survival during the 12-month randomized follow-up period is the same between the treatment and control groups.~Alternative hypothesis: Survival during the 12-month randomized period is different between the treatment and control groups."||2.06|0.29|0.599
82666528|NCT00354159|165049356|SUPERIORITY_OR_OTHER|||||||0.145||95.0|||||Negative-Binomial Regression|||The null hypothesis is that the rate of cardiovascular medication changes is the same between the Treatment Arm and Control Arm.||||0.145
82666529|NCT00354159|165049357|SUPERIORITY_OR_OTHER|||||||0.033||95.0|||||t-test, 2 sided|||"Null hypothesis: Average daily median ePAD is the same between the Treatment and Control arms.~Alternative hypothesis: Average daily median ePAD is the different between the Treatment and Control arms."||||0.033
82666530|NCT00354159|165049358|SUPERIORITY_OR_OTHER|||||||0.002||95.0|||||t-test, 2 sided|||"Null Hypothesis: The average daily median ePAD is not different among Control Arm subjects that have and that do not have a heart failure related event during the 12-month follow-up period.~Alternative Hypothesis: The average daily median ePAD is different among Control Arm subjects that have and that do not have a heart failure related event during the 12-month follow-up period."||||0.002
82666531|NCT00354159|165049359|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.27||||0.292|TWO_SIDED|95.0|0.82|1.96|||Proportional odds regression model||Direction for odds ratio is the odds of improvement in the Treatment arm versus the odds of improvement in the Control arm.|"Null Hypothesis: There is no difference in the change in NYHA functional class between the Treatment and Control Arms.~Alternative Hypothesis: There is a difference in the change in NYHA functional class between the Treatment and Control Arms."||1.96|0.82|0.292
82666532|NCT00354159|165049360|SUPERIORITY_OR_OTHER|||||||0.996||95.0|||||Mixed Models Analysis|||"Null Hypothesis: The change in 6-minute hall walk distance is not different between the Treatment and Control Arms.~Alternative Hypothesis: The change in 6-minute hall walk distance is different between the Treatment and Control Arms."||||0.996
82666533|NCT00354159|165049361|SUPERIORITY_OR_OTHER|||||||0.154||95.0|||||Mixed Models Analysis|||"Null Hypothesis: The change from baseline to the 12-month follow-up visit in eGFR values is the same between the Treatment arm and Control arm.~Alternative Hypothesis: The change from baseline to the 12-month follow-up visit in eGFR values is different between the Treatment arm and Control arm."||||0.154
82666534|NCT00354159|165049364|SUPERIORITY_OR_OTHER|||||||0.583||95.0|||||Mixed Models Analysis|Response was change in MNLWHF score from baseline. Model adjusted for baseline MNLWHF score. Negative changes mean an improvement in MNLWHF score.||"Null Hypothesis: There is no difference in the change in MNLWHF score from baseline to 12-months between the Treatment Arm and Control Arm.~Alternative Hypothesis: There is a difference in the change in MNLWHF score from baseline to 12-months between the Treatment Arm and Control Arm."||||0.583
82666535|NCT00354159|165049365|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.48||||0.368|TWO_SIDED|95.0|0.63|3.5||The P-value is from the Andersen-Gill model which adjusts for multiple VT/VF episodes per subject.|Andersen-Gill Model|Andersen-Gill model included a term for Treatment Arm. This model adjusts for multiple events per subject.||"Null Hypothesis: Rate of VT/VF episodes during the 12-month randomized period is the same between the Treatment Arm and the Control Arm.~Alternative Hypothesis: Rate of VT/VF episodes during the 12-month randomized period is different between the Treatment Arm and the Control Arm."||3.5|0.63|0.368
82666536|NCT02533466|165049389|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Median Difference (Final Values)|-0.08||||0.2673|TWO_SIDED|95.0|-1.0|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-1.0|0.2673
82666537|NCT02533466|165049390|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-0.92||||0.069|TWO_SIDED|95.0|-1.8|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum Test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-1.8|0.0690
82666538|NCT02533466|165049391|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-1.5||||0.068|TWO_SIDED|95.0|-2.7|0.0||P-value was calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product."|||0.0|-2.7|0.0680
82666539|NCT02533466|165049392|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Median Difference (Final Values)|-1.83||||0.0654|TWO_SIDED|95.0|-3.0|0.0||P-value is calculated from Wilcoxon Rank Sum test.|Wilcoxon Rank Sum test.||"Median difference and 95% CI intervals were calculated from the Hodges Lehnmann estimate.~Difference was calculated as reference product minus test product"|||0.0|-3.0|0.0654
82666540|NCT02533466|165049393|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|-1.4||||0.6061|TWO_SIDED|95.0|-6.8|4.1||P value obtained from the ANCOVA analysis|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||4.1|-6.8|0.6061
82666541|NCT02533466|165049394|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|-2.3||||0.408|TWO_SIDED|95.0|-7.9|3.3||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product|||3.3|-7.9|0.4080
82666542|NCT02533466|165049395|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Median Difference (Final Values)|0.21||||0.4611|TWO_SIDED|95.0|-0.4|0.8||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||0.8|-0.4|0.4611
82666543|NCT02533466|165049396|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Net)|0.09||||0.3939|TWO_SIDED|95.0|-0.1|0.3||P value obtained from the ANCOVA analysis.|ANCOVA|||||0.3|-0.1|0.3939
82666544|NCT02533466|165049397|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods.|Mean Difference (Final Values)|0.34||||0.7829|TWO_SIDED|95.0|-2.2|2.8||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||2.8|-2.2|0.7829
82666545|NCT02533466|165049398|NON_INFERIORITY_OR_EQUIVALENCE|Equivalent analyses was executed using scale transformation or non-parametric methods|Mean Difference (Final Values)|-0.08||||0.9121|TWO_SIDED|95.0|-1.6|1.4||P value obtained from the ANCOVA analysis.|ANCOVA||Difference and 95 % CI obtained from the ANCOVA analysis. Difference was calculated as reference product minus test product.|||1.4|-1.6|0.9121
82666546|NCT01328782|165049399|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.4||||0.074||95.0|1.4|2.94|||ANOVA|||||2.94|1.40|0.074
82666547|NCT01328782|165049399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.556||||0.556||95.0|-1.12|2.08|||ANOVA|||||2.08|-1.12|0.556
82666548|NCT01328782|165049399|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.93||||0.244||95.0|-0.64|2.49|||ANOVA|||||2.49|-0.64|0.244
82666549|NCT01328782|165049400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.81||||0.014|TWO_SIDED|95.0|0.38|3.25|||ANOVA|||||3.25|0.38|0.014
82666550|NCT01328782|165049400|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.16||||0.832||95.0|-1.3|1.61|||ANOVA|||||1.61|-1.30|0.832
82666551|NCT01328782|165049400|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.66||||0.027||95.0|0.2|3.12|||ANOVA|||||3.12|0.20|0.027
82666552|NCT01328782|165049401|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||Log Rank|||||||0.005
82666553|NCT01328782|165049401|SUPERIORITY_OR_OTHER|||||||0.3767||95.0|||||Log Rank|||||||0.3767
82666554|NCT01328782|165049401|SUPERIORITY_OR_OTHER|||||||0.039||95.0|||||Log Rank|||||||0.039
82666555|NCT01328782|165049402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.042||||0.008||95.0|0.008|0.076|||ANOVA|||||0.076|0.008|0.008
82666556|NCT01328782|165049402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.031||||0.078||95.0|-0.004|0.066|||ANOVA|||||0.066|-0.004|0.078
82666557|NCT01328782|165049402|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.011||||0.5321||95.0|-0.024|0.045|||ANOVA|||||0.045|-0.024|0.5321
82666558|NCT01328782|165049403|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
82666559|NCT01328782|165049403|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||Chi-squared|||||||0.004
82666560|NCT01328782|165049403|SUPERIORITY_OR_OTHER|||||||0.499||95.0|||||Chi-squared|||||||0.499
82666561|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.28|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.252|0.309|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.309|0.252|<0.0001
82666562|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.115|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.087|0.143|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.143|0.087|<0.0001
82666563|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.082|0.139|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.139|0.082|<0.0001
82492833|NCT01867424|164678556|OTHER||Median of Differences|0.475||||0.084|TWO_SIDED|||||Median of difference in CER: Local Disease Cases.|Wilcoxon Test|||||||0.084
82666564|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.277|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.249|0.306|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to placebo is calculated.|||0.306|0.249|<0.0001
82666565|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.083|0.14|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.140|0.083|<0.0001
82666566|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.096|0.152|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.152|0.096|<0.0001
82666567|NCT01559116|165049406|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.107|STANDARD_ERROR_OF_MEAN|0.014|<|0.0001|TWO_SIDED|95.0|0.079|0.136|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.136|0.079|<0.0001
82666568|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.319|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001||95.0|0.289|0.349|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.349|0.289|<0.0001
82666569|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.126|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.096|0.156|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.156|0.096|<0.0001
82666570|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.119|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.089|0.149|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.149|0.089|<0.0001
82666571|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.323|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.293|0.354|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.354|0.293|<0.0001
82666572|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.101|0.161|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.161|0.101|<0.0001
82666573|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.109|0.169|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.169|0.109|<0.0001
82666574|NCT01559116|165049407|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.124|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.093|0.154|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.154|0.093|<0.0001
82666575|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.243|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.212|0.273|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.273|0.212|<0.0001
82666576|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.103|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.074|0.133|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.133|0.074|<0.0001
82666577|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.102|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.072|0.132|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.132|0.072|<0.0001
82666578|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.232|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.201|0.262|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.262|0.201|<0.0001
82666579|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.093|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.063|0.123|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.123|0.063|<0.0001
82666580|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.11|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.08|0.14|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.140|0.080|<0.0001
82666581|NCT01559116|165049408|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.091|STANDARD_ERROR_OF_MEAN|0.015|<|0.0001|TWO_SIDED|95.0|0.061|0.121|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.121|0.061|<0.0001
82666582|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.207|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.173|0.241|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.241|0.173|<0.0001
82666583|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.092|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.059|0.126|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.126|0.059|<0.0001
82666584|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.079|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.045|0.113|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.113|0.045|<0.0001
82666585|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.201|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.167|0.235|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.235|0.167|<0.0001
82492834|NCT01867424|164678556|OTHER||Median Difference CER|0.17||||0.25|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection.||||0.25
82666586|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.086|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.052|0.12|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.120|0.052|<0.0001
82666587|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.101|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.067|0.135|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.135|0.067|<0.0001
82666588|NCT01559116|165049409|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.073|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.039|0.107|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.107|0.039|<0.0001
82666589|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.338|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.305|0.371|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.371|0.305|<0.0001
82666590|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.12|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.087|0.153|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.153|0.087|<0.0001
82666591|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.111|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.078|0.143|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.143|0.078|<0.0001
82666592|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.35|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.317|0.383|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.383|0.317|<0.0001
82666593|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.131|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.098|0.164|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.164|0.098|<0.0001
82666594|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.132|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.099|0.165|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.165|0.099|<0.0001
82666595|NCT01559116|165049410|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.122|STANDARD_ERROR_OF_MEAN|0.017|<|0.0001|TWO_SIDED|95.0|0.089|0.155|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.155|0.089|<0.0001
82666596|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.433|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.389|0.477|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.477|0.389|<0.0001
82666597|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.21|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.166|0.253|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.253|0.166|<0.0001
82666598|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.177|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.133|0.221|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.221|0.133|<0.0001
82666599|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.396|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.352|0.441|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.441|0.352|<0.0001
82666600|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.173|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.129|0.217|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.217|0.129|<0.0001
82666601|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.115|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated. is calculated.|||0.203|0.115|<0.0001
82666602|NCT01559116|165049411|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.14|STANDARD_ERROR_OF_MEAN|0.022|<|0.0001|TWO_SIDED|95.0|0.096|0.184|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.184|0.096|<0.0001
82666603|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.463|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.417|0.509|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to placebo is calculated.|||0.509|0.417|<0.0001
82666604|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.154|0.246|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.246|0.154|<0.0001
82666605|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.179|STANDARD_ERROR_OF_MEAN|0.023|<|0.0001|TWO_SIDED|95.0|0.133|0.225|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.225|0.133|<0.0001
82666606|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.443|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.396|0.49|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.490|0.396|<0.0001
82666607|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.181|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.134|0.227|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.227|0.134|<0.0001
82666608|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.171|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.125|0.218|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.218|0.125|<0.0001
82666609|NCT01559116|165049412|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.024|<|0.0001|TWO_SIDED|95.0|0.113|0.206|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.206|0.113|<0.0001
82666610|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.404|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.355|0.453|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.453|0.355|<0.0001
82666611|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.219|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.17|0.267|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.267|0.170|<0.0001
82666612|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.174|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.126|0.223|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.223|0.126|<0.0001
82666613|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.351|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.301|0.4|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.400|0.301|<0.0001
82666614|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.117|0.214|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.214|0.117|<0.0001
82666615|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.148|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.099|0.197|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.197|0.099|<0.0001
82666616|NCT01559116|165049413|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.025|<|0.0001|TWO_SIDED|95.0|0.072|0.17|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.170|0.072|<0.0001
82666617|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.329|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.274|0.385|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.385|0.274|<0.0001
82666618|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.17|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.115|0.225|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.225|0.115|<0.0001
82666619|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.121|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.066|0.176|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.176|0.066|<0.0001
82666620|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.307|STANDARD_ERROR_OF_MEAN|0.029|<|0.0001|TWO_SIDED|95.0|0.251|0.363|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.363|0.251|<0.0001
82666621|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.147|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.092|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.203|0.092|<0.0001
82666622|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.111|0.222|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.222|0.111|<0.0001
82666623|NCT01559116|165049414|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.099|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.043|0.154|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.154|0.043|<0.0001
82666624|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.462|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.408|0.516|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.516|0.408|<0.0001
82666625|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.159|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.105|0.212|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.212|0.105|<0.0001
82666626|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.151|STANDARD_ERROR_OF_MEAN|0.027|<|0.0001|TWO_SIDED|95.0|0.098|0.205|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.205|0.098|<0.0001
82666627|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.452|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.398|0.507|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Placebo is calculated.|||0.507|0.398|<0.0001
82666628|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.149|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.095|0.203|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Olodaterol (5 µg) is calculated.|||0.203|0.095|<0.0001
82666629|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.161|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.107|0.216|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium low dose (2.5 µg) is calculated.|||0.216|0.107|<0.0001
82666630|NCT01559116|165049415|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.142|STANDARD_ERROR_OF_MEAN|0.028|<|0.0001|TWO_SIDED|95.0|0.087|0.196|||Mixed Models Analysis|Mixed effect model repeated measures (MMRM) with fixed effects for treatment,period and random effect for patient.|Adjusted mean difference to Tiotropium high dose (5 µg) is calculated.|||0.196|0.087|<0.0001
82666631|NCT04610580|165049416|OTHER||Geometric Least Square Mean Ratio (%)|95.0|||||TWO_SIDED|90.0|82.1|110.0||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using analysis of variance (ANOVA) statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||110.0|82.1|
82666632|NCT04610580|165049417|OTHER||Geometric Least Square Mean Ratio (%)|96.243|||||TWO_SIDED|90.0|86.384|107.227||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||107.227|86.384|
82666633|NCT04610580|165049418|OTHER||Geometric Least Square Mean Ratio (%)|94.9|||||TWO_SIDED|90.0|81.6|110.5||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||110.5|81.6|
82666634|NCT04610580|165049419|OTHER||Geometric Least Square Mean Ratio (%)|101.2|||||TWO_SIDED|90.0|70.6|145.1||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||145.1|70.6|
82666635|NCT04610580|165049420|OTHER||Geometric Least Square Mean Ratio (%)|99.1|||||TWO_SIDED|90.0|89.3|109.9||||||The formulation impact (12 × 1.25 mg EC mini-tablet versus 1 × 15 mg EC tablet) on plasma total Mo PK parameters was assessed using ANOVA statistical model with dosing period, treatment, and treatment sequence as the fixed effects and the participant (sequence) as a random effect, using the natural logarithms of the data.||109.9|89.3|
82666636|NCT03480022|165049442|SUPERIORITY||||||<|0.002|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.002
82666637|NCT03480022|165049443|SUPERIORITY||||||<|0.006|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.006
82666638|NCT03480022|165049444|SUPERIORITY||||||<|0.001|||||||ANOVA|Repeated measures nested design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.001
82666639|NCT03480022|165049445|SUPERIORITY||||||<|0.002|||||||ANOVA|one-way ANOVA||||||<0.002
82666640|NCT03480022|165049446|SUPERIORITY||||||<|0.007|||||||Wilcoxon (Mann-Whitney)|||||||<0.007
82666641|NCT03480022|165049447|SUPERIORITY||||||<|0.049|||||||Wilcoxon (Mann-Whitney)|||||||<0.049
82666642|NCT03480022|165049448|SUPERIORITY||||||<|0.011|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.011
82666643|NCT03480022|165049449|SUPERIORITY||||||<|0.038|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.038
82666644|NCT03480022|165049450|SUPERIORITY||||||<|0.048|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.048
82666645|NCT03480022|165049451|SUPERIORITY||||||<|0.018|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.018
82666646|NCT03480022|165049452|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
82666647|NCT03480022|165049453|SUPERIORITY||||||<|0.034|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.034
82666648|NCT03480022|165049454|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.035
82666649|NCT03480022|165049455|SUPERIORITY||||||<|0.0001|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.0001
82666650|NCT03480022|165049456|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82666651|NCT03480022|165049457|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82492835|NCT01867424|164678556|OTHER||Median Difference CER|0.27||||0.1602|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection.||||0.1602
82666652|NCT03480022|165049458|SUPERIORITY||||||<|0.021|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.021
82666653|NCT03480022|165049459|SUPERIORITY||||||<|0.009|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.009
82666654|NCT03480022|165049460|SUPERIORITY||||||<|0.035|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.035
82666655|NCT03480022|165049461|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
82666656|NCT03480022|165049462|SUPERIORITY||||||<|0.042|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.042
82666657|NCT03480022|165049463|SUPERIORITY||||||<|0.033|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.033
82666658|NCT03480022|165049464|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82666659|NCT03480022|165049465|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82666660|NCT03480022|165049466|SUPERIORITY||||||<|0.016|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.016
82666661|NCT03480022|165049467|SUPERIORITY||||||<|0.028|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.028
82666662|NCT03480022|165049468|SUPERIORITY||||||<|0.01|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||<0.01
82666663|NCT03480022|165049469|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82666664|NCT03480022|165049470|SUPERIORITY||||||>|0.05|||||||ANOVA|Nested repeated measures design||Repeated measures general linear model (SS/drug treatments by visits) where arm of drug therapy as between subjects effect and visit (baseline and 32 weeks of treatment) as within subject effect||||>0.05
82666665|NCT01949532|165049494|SUPERIORITY_OR_OTHER||Ratio of geometric means|132.75|||||TWO_SIDED|90.0|70.6|249.63|||||The point estimates of the geometric mean ratios for the PK parameters were calculated by exponentiation of the differences in the least-squares means between the renal impairment group (test) and participants with normal renal function (reference).|||249.63|70.60|
82666666|NCT01949532|165049495|SUPERIORITY_OR_OTHER||Ratio of geometric means|133.62|||||TWO_SIDED|90.0|70.93|251.73||||||||251.73|70.93|
82621703|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.6|3.05|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.05|1.60|<.0001
82621704|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0235|TWO_SIDED|95.0|1.05|1.95|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.95|1.05|0.0235
82621705|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0459|TWO_SIDED|95.0|1.01|1.76|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.76|1.01|0.0459
82621706|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.54||||0.002|TWO_SIDED|95.0|1.17|2.04|||Regression, Logistic|||Week 4, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.04|1.17|0.0020
82621707|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.93||||0.0019|TWO_SIDED|95.0|1.27|2.91|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.91|1.27|0.0019
82621708|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.42|||<|0.0001|TWO_SIDED|95.0|1.62|3.62|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.62|1.62|<.0001
82621709|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6765|TWO_SIDED|95.0|0.72|1.65|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.65|0.72|0.6765
82621710|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.76||||0.0022|TWO_SIDED|95.0|1.23|2.54|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.54|1.23|0.0022
82621711|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.56|3.15|||Regression, Logistic|||Week 4, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.15|1.56|<.0001
82621712|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.98||||0.027|TWO_SIDED|95.0|1.08|3.63|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.63|1.08|0.0270
82621713|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.43||||0.003|TWO_SIDED|95.0|1.35|4.38|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.38|1.35|0.0030
82621714|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|0.74||||0.377|TWO_SIDED|95.0|0.38|1.44|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.44|0.38|0.3770
82621715|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.68||||0.0009|TWO_SIDED|95.0|1.49|4.79|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.79|1.49|0.0009
82621716|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|3.29|||<|0.0001|TWO_SIDED|95.0|1.87|5.78|||Regression, Logistic|||Week 4, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||5.78|1.87|<.0001
82621717|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0011|TWO_SIDED|95.0|1.2|2.1|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.10|1.20|0.0011
82621718|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.87|||<|0.0001|TWO_SIDED|95.0|1.41|2.47|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.47|1.41|<.0001
82621719|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.33||||0.0273|TWO_SIDED|95.0|1.03|1.72|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.72|1.03|0.0273
82621720|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1736|TWO_SIDED|95.0|0.93|1.54|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.54|0.93|0.1736
82621721|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.4||||0.0092|TWO_SIDED|95.0|1.09|1.81|||Regression, Logistic|||Week 8, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.81|1.09|0.0092
82621722|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0015|TWO_SIDED|95.0|1.2|2.2|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.20|0.0015
82621723|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.95|||<|0.0001|TWO_SIDED|95.0|1.45|2.63|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.63|1.45|<.0001
82621724|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0164|TWO_SIDED|95.0|1.06|1.86|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|1.06|0.0164
82621725|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2857|TWO_SIDED|95.0|0.89|1.51|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.51|0.89|0.2857
82621726|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0149|TWO_SIDED|95.0|1.07|1.8|||Regression, Logistic|||Week 8, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.80|1.07|0.0149
82621727|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.08||||0.0001|TWO_SIDED|95.0|1.43|3.02|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.02|1.43|0.0001
82621728|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.27|||<|0.0001|TWO_SIDED|95.0|1.57|3.28|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.28|1.57|<.0001
82621729|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.34||||0.118|TWO_SIDED|95.0|0.93|1.92|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.92|0.93|0.1180
82621730|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0062|TWO_SIDED|95.0|1.13|2.14|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.14|1.13|0.0062
82621731|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0009|TWO_SIDED|95.0|1.24|2.32|||Regression, Logistic|||Week 8, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|1.24|0.0009
82621732|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.69||||0.0003|TWO_SIDED|95.0|1.56|4.61|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||4.61|1.56|0.0003
82621733|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|3.1|||<|0.0001|TWO_SIDED|95.0|1.82|5.28|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||5.28|1.82|<.0001
82621734|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.33||||0.312|TWO_SIDED|95.0|0.76|2.32|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|0.76|0.3120
82666667|NCT03980522|165049554|OTHER||Inter-subject variance|19.1908|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and standard deviation (SD) from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666668|NCT03980522|165049554|OTHER||Inter-subject variance|0.0018|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666669|NCT03980522|165049554|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666670|NCT03980522|165049554|OTHER||Intra-subject variance|12.6852|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666671|NCT03980522|165049554|OTHER||Intra-subject variance|0.1842|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666672|NCT03980522|165049554|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666673|NCT03980522|165049555|OTHER||Inter-subject variance|34.1446|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666674|NCT03980522|165049555|OTHER||Inter-subject variance|0.1326|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666675|NCT03980522|165049555|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666676|NCT03980522|165049555|OTHER||Intra-subject variance|0.0548|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666677|NCT03980522|165049555|OTHER||Intra-subject variance|0.0134|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666678|NCT03980522|165049555|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of CRP levels for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in CRP level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666679|NCT03980522|165049556|OTHER||Inter-subject variance|2.8139|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666680|NCT03980522|165049556|OTHER||Inter-subject variance|6.9999|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666681|NCT03980522|165049556|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666682|NCT03980522|165049556|OTHER||Intra-subject variance|0.9693|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666683|NCT03980522|165049556|OTHER||Intra-subject variance|0.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666684|NCT03980522|165049556|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled pre-baseline visits was used."||||
82666685|NCT03980522|165049557|OTHER||Inter-subject variance|1.9968|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666686|NCT03980522|165049557|OTHER||Inter-subject variance|0.9047|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666687|NCT03980522|165049557|OTHER||Inter-subject variance|0.0|||||TWO_SIDED|||||||||"Inter-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of inter-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666688|NCT03980522|165049557|OTHER||Intra-subject variance|1.7598|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666689|NCT03980522|165049557|OTHER||Intra-subject variance|2.849|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666690|NCT03980522|165049557|OTHER||Intra-subject variance|1.0|||||TWO_SIDED|||||||||"Intra-subject variability of NRS Scores for Part 1, 2, and 4 participants was a designated primary endpoint.~Estimates of intra-subject variance and SD from a mixed model for repeated measures with change from baseline in NRS level as the outcome, repeated effect of visit and random effect of subject. Variance Components covariance structure was assumed. The data from all scheduled post-baseline visits was used."||||
82666691|NCT01874535|165049560|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.009|||<|0.05|TWO_SIDED||||||Chi-squared|||||||<0.05
82666692|NCT02616380|165049571|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
82666693|NCT02616380|165049572|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 12||||<0.0001
82666694|NCT02616380|165049572|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Physical Component Score at Week 24||||<0.0001
82666695|NCT02616380|165049572|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 12||||<0.0001
82666696|NCT02616380|165049572|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Mental Component Score at Week 24||||<0.0001
82666697|NCT02616380|165049573|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 12 weeks||||<0.0001
82666698|NCT02616380|165049573|OTHER||||||<|0.0001|||||||Paired t-test|||Change from Baseline in EQ-5D-3L at 24 weeks||||<0.0001
82666699|NCT02616380|165049574|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 12||||<0.0001
82666700|NCT02616380|165049574|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Overall Work Impairment at Week 24||||<0.0001
82666701|NCT02616380|165049574|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 12||||<0.0001
82666702|NCT02616380|165049574|OTHER||||||<|0.0001|||||||Paired t-test|||Change From Baseline in Activity Impairment at Week 24||||<0.0001
82666703|NCT02616380|165049575|OTHER||||||<|0.0001|||||||Paired t-test|The mean change was tested with a paired t-test without adjusting for baseline disease severity.||||||<0.0001
82666704|NCT02413008|165049581|OTHER|The primary endpoint, the variation of FSH between week 12 and baseline and also comparing by arm will be analyzed using a non-parametric test (Mann-Whitney-Wilcoxon test).||||||0.1|||||||Wilcoxon (Mann-Whitney)|||"The variations of the levels of FSH after treatment was studied in each women at baseline, week 3 and week12 weeks, the variation of levels between two arms were analysed using a non-parametric test Mann-Whitney-Wilcoxon.~The intra individual variation (differences between the pre study determinations screening and baseline) was compared to the variation between baseline and the values obtained at every study visit."||||0.10
82666705|NCT02413008|165049581|OTHER|The primary endpoint, the variation of FSH between week 12 and baseline and also comparing by arm will be analyzed using a non-parametric test (Mann-Whitney-Wilcoxon test).||||||0.413|||||||Wilcoxon (Mann-Whitney)|||The variations in the intensities for each one of the symptoms and signs of the vaginal atrophy, after 3 and 12 weeks, in each treatment arm, will be compared using the non-parametric test Mann-Whitney-Wilcoxon.||||0.413
82666706|NCT02413008|165049581|OTHER|||||||0.15|||||||Wilcoxon (Mann-Whitney)|||||||0.15
82666707|NCT02413008|165049582|OTHER||||||<|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 1||||<0.05
82666708|NCT02413008|165049582|OTHER||||||<|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 3||||<0.05
82666709|NCT02413008|165049582|OTHER||||||>|0.05|||||||Dunn Test|||Variation in serum levels of FSH at week 8||||>0.05
82666710|NCT02413008|165049583|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 1||||>0.05
82666711|NCT02413008|165049583|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 3||||>0.05
82666712|NCT02413008|165049583|OTHER||||||>|0.05|||||||Dunn Test|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 8||||>0.05
82666713|NCT02413008|165049583|OTHER|||||||0.135|||||||Wilcoxon (Mann-Whitney)|||Change in serum levels of Luteinizing hormone (LH) from baseline to week 12||||0.135
82666714|NCT02413008|165049584|OTHER|||||||0.043|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 1 in plasma levels of estriol||||0.043
82666715|NCT02413008|165049584|OTHER|||||||0.649|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3 in plasma levels of estriol||||0.649
82666716|NCT02413008|165049584|OTHER|||||||0.588|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 8 in plasma levels of estriol||||0.588
82666717|NCT02413008|165049584|OTHER|||||||0.67|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12 in plasma levels of estriol||||0.67
82666718|NCT02413008|165049585|OTHER|||||||0.342|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 1 in plasma levels of estradiol.||||0.342
82666719|NCT02413008|165049585|OTHER|||||||0.523|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3 in plasma levels of estradiol.||||0.523
82666720|NCT02413008|165049585|OTHER|||||||0.523|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estradiol from baseline to week 8||||0.523
82666721|NCT02413008|165049585|OTHER|||||||0.163|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estradiol from baseline to week 12||||0.163
82666722|NCT02413008|165049586|OTHER|||||||0.418|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 1||||0.418
82666723|NCT02413008|165049586|OTHER|||||||0.642|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 3||||0.642
82666724|NCT02413008|165049586|OTHER|||||||0.175|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 8||||0.175
82666725|NCT02413008|165049586|OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||Change in plasma levels of estrona from baseline to week 12||||0.084
82666726|NCT02413008|165049587|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Change in pH between baseline and week 3||||<0.01
82666727|NCT02413008|165049587|OTHER|||||||0.057|||||||Wilcoxon (Mann-Whitney)|||Change in pH between baseline and week 12||||0.057
82666728|NCT02413008|165049588|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Changes in dyspareunia from baseline to week 3||||0.14
82666729|NCT02413008|165049588|OTHER|||||||0.25|||||||Wilcoxon (Mann-Whitney)|||Changes in dyspareunia from baseline to week 12||||0.25
82666730|NCT02413008|165049589|OTHER|||||||0.28|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3||||0.28
82666731|NCT02413008|165049589|OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12||||0.34
82666732|NCT02413008|165049590|OTHER|||||||0.14|||||||Wilcoxon (Mann-Whitney)|||Changes in vaginal dryness from baseline to week 3||||0.14
82666733|NCT02413008|165049590|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in vaginal dryness from baseline to week 12||||<0.01
82666734|NCT02413008|165049591|OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||Changes in total score of symptoms of vaginal atrophy from baseline to week 3||||0.03
82666735|NCT02413008|165049591|OTHER|||||||0.04|||||||Wilcoxon (Mann-Whitney)|||Changes in total score of symptoms of vaginal atrophy from baseline to week 12||||0.04
82666736|NCT02413008|165049592|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 3||||<0.001
82666737|NCT02413008|165049592|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa betweeen baseline and week 12||||<0.01
82666738|NCT02413008|165049593|OTHER|||||||0.13|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 3||||0.13
82666739|NCT02413008|165049593|OTHER||||||<|0.01|||||||Wilcoxon (Mann-Whitney)|||Changes in dryness of the mucosa between baseline and week 12||||<0.01
82666740|NCT02413008|165049594|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 3||||<0.001
82666741|NCT02413008|165049594|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change from baseline to week 12||||<0.001
82666742|NCT02413008|165049595|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in total score of signs between week 3 and baseline||||<0.001
82666743|NCT02413008|165049595|OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||Change in total score of signs between week 12 and baseline||||<0.001
82666744|NCT02413008|165049596|OTHER||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||Change in maturation value from baseline to week 3||||<0.0001
82666745|NCT02413008|165049596|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Change in maturation value from baseline to week 12||||0.006
82666746|NCT04387617|165049597|SUPERIORITY||Mean Difference (Final Values)|0.4|STANDARD_DEVIATION|2.6||0.5|TWO_SIDED|95.0|-0.8|1.6|||t-test, 2 sided|||||1.6|-0.8|0.5
82666747|NCT01863186|165049614|SUPERIORITY|||||||0.0166|||||||Pattern Mixture Model|||Due to the amount of missing data a pattern mixture model (or Jump to Reference) was utilized. The SOWS-Gossop total scores were log transformed. Each subjects available data Days 1-7 were included. The datasets created by the pattern mixture model were analyzed using a Mixed Model Repeated Measures model that included fixed effects for treatment group, baseline, sex, study day (1-7), and treatment group-by-day interaction. The overall estimate for each treatment group were compared.||||0.0166
82666748|NCT01863186|165049614|SUPERIORITY|||||||0.0033|||||||Pattern Mixture Model|||Due to the amount of missing data a pattern mixture model (or Jump to Reference) was utilized. The SOWS-Gossop total scores were log transformed. Each subjects available data Days 1-7 were included. The datasets created by the pattern mixture model were analyzed using a Mixed Model Repeated Measures model that included fixed effects for treatment group, baseline, sex, study day (1-7), and treatment group-by-day interaction. The overall estimate for each treatment group were compared.||||0.0033
82666749|NCT00603564|165049616|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||t-test, 2 sided|||endpoint was analyzed in terms of time by comparison of mean +- SD||||<0.001
82666750|NCT00603564|165049617|SUPERIORITY_OR_OTHER|||||||7e-06||95.0|||||Chi-squared|||||||0.000007
82666751|NCT01453153|165049646|SUPERIORITY||percentage of participants|0.0|||||TWO_SIDED|95.0|0.0|60.0||||||||60|0|
82666752|NCT01453153|165049646|SUPERIORITY||percentage of participants|50.0|||||TWO_SIDED|95.0|7.0|93.0||||||||93|7|
82666753|NCT01453153|165049646|SUPERIORITY||percentage of participants|40.0|||||TWO_SIDED|95.0|19.0|64.0||||||||64|19|
82666754|NCT01453153|165049647|SUPERIORITY||percentage of participants|25.0|||||TWO_SIDED|95.0|1.0|81.0||||||||81|1|
82621735|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.02||||0.0019|TWO_SIDED|95.0|1.3|3.14|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.14|1.30|0.0019
82621736|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.33||||0.0001|TWO_SIDED|95.0|1.52|3.59|||Regression, Logistic|||Week 8, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.59|1.52|0.0001
82621737|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0064|TWO_SIDED|95.0|1.12|1.95|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.95|1.12|0.0064
82621738|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0001|TWO_SIDED|95.0|1.32|2.31|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.31|1.32|0.0001
82621739|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2757|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.48|0.89|0.2757
82621740|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0575|TWO_SIDED|95.0|0.99|1.65|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.65|0.99|0.0575
82621741|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.52||||0.0015|TWO_SIDED|95.0|1.17|1.96|||Regression, Logistic|||Week 16, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.96|1.17|0.0015
82621742|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0007|TWO_SIDED|95.0|1.23|2.16|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.16|1.23|0.0007
82621743|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0001|TWO_SIDED|95.0|1.31|2.31|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.31|1.31|0.0001
82621744|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0124|TWO_SIDED|95.0|1.07|1.79|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.79|1.07|0.0124
82621745|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.48||||0.0025|TWO_SIDED|95.0|1.15|1.91|||Regression, Logistic|||Week 16, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.91|1.15|0.0025
82621746|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.82||||0.0002|TWO_SIDED|95.0|1.33|2.51|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.51|1.33|0.0002
82621747|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.0001|TWO_SIDED|95.0|1.48|2.79|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.79|1.48|<.0001
82621748|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5701|TWO_SIDED|95.0|0.8|1.49|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.49|0.80|0.5701
82621749|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.67||||0.0004|TWO_SIDED|95.0|1.26|2.22|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.22|1.26|0.0004
82621750|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.86|||<|0.0001|TWO_SIDED|95.0|1.4|2.46|||Regression, Logistic|||Week 16, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.46|1.40|<.0001
82621751|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.07||||0.0008|TWO_SIDED|95.0|1.35|3.17|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.17|1.35|0.0008
82621752|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.84||||0.0059|TWO_SIDED|95.0|1.19|2.83|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.83|1.19|0.0059
82621753|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|0.94||||0.7741|TWO_SIDED|95.0|0.6|1.46|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.46|0.60|0.7741
82621754|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.5|3.25|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.25|1.50|<.0001
82621755|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.96||||0.0008|TWO_SIDED|95.0|1.32|2.9|||Regression, Logistic|||Week 16, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.90|1.32|0.0008
82621756|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.25||||0.089|TWO_SIDED|95.0|0.97|1.6|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.97|0.0890
82621757|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0067|TWO_SIDED|95.0|1.1|1.83|||Regression, Logistic|||Week 24, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.83|1.10|0.0067
82621758|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0072|TWO_SIDED|95.0|1.1|1.85|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.85|1.10|0.0072
82666755|NCT01453153|165049647|SUPERIORITY||percentage of participants|100.0|||||TWO_SIDED|95.0|40.0|100.0||||||||100|40|
82666756|NCT01453153|165049647|SUPERIORITY||percentage of participants|70.0|||||TWO_SIDED|95.0|46.0|88.0||||||||88|46|
82621759|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0004|TWO_SIDED|95.0|1.23|2.06|||Regression, Logistic|||Week 24, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.06|1.23|0.0004
82621760|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0013|TWO_SIDED|95.0|1.2|2.15|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.15|1.20|0.0013
82621761|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.79|||<|0.0001|TWO_SIDED|95.0|1.34|2.39|||Regression, Logistic|||Week 24, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.39|1.34|<.0001
82621762|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.23|||<|0.0001|TWO_SIDED|95.0|1.51|3.3|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.30|1.51|<.0001
82621763|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|2.53|||<|0.0001|TWO_SIDED|95.0|1.72|3.71|||Regression, Logistic|||Week 24, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||3.71|1.72|<.0001
82621764|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.26||||0.0732|TWO_SIDED|95.0|0.98|1.62|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.62|0.98|0.0732
82621765|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.3||||0.0399|TWO_SIDED|95.0|1.01|1.68|||Regression, Logistic|||Week 32, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.68|1.01|0.0399
82621766|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.29||||0.0536|TWO_SIDED|95.0|1.0|1.67|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.67|1.00|0.0536
82621767|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0043|TWO_SIDED|95.0|1.12|1.88|||Regression, Logistic|||Week 32, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.88|1.12|0.0043
82621768|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.43||||0.0143|TWO_SIDED|95.0|1.07|1.91|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.91|1.07|0.0143
82621769|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.63||||0.0007|TWO_SIDED|95.0|1.23|2.16|||Regression, Logistic|||Week 32, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.16|1.23|0.0007
82621770|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.67||||0.005|TWO_SIDED|95.0|1.17|2.38|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.38|1.17|0.0050
82621771|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0043|TWO_SIDED|95.0|1.18|2.4|||Regression, Logistic|||Week 32, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.40|1.18|0.0043
82621772|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.15||||0.2777|TWO_SIDED|95.0|0.89|1.48|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.48|0.89|0.2777
82621773|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0326|TWO_SIDED|95.0|1.02|1.7|||Regression, Logistic|||Week 40, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.70|1.02|0.0326
82621774|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.19||||0.1823|TWO_SIDED|95.0|0.92|1.55|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.55|0.92|0.1823
82621775|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.32||||0.035|TWO_SIDED|95.0|1.02|1.71|||Regression, Logistic|||Week 40, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.71|1.02|0.0350
82621776|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0164|TWO_SIDED|95.0|1.07|1.88|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.88|1.07|0.0164
82621777|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0257|TWO_SIDED|95.0|1.04|1.84|||Regression, Logistic|||Week 40, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.84|1.04|0.0257
82621778|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.64||||0.007|TWO_SIDED|95.0|1.14|2.35|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.35|1.14|0.0070
82621779|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.62||||0.0085|TWO_SIDED|95.0|1.13|2.32|||Regression, Logistic|||Week 40, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.32|1.13|0.0085
82621780|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.09||||0.4925|TWO_SIDED|95.0|0.85|1.41|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.41|0.85|0.4925
82621781|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1534|TWO_SIDED|95.0|0.93|1.55|||Regression, Logistic|||Week 48, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.55|0.93|0.1534
82666757|NCT03239496|165049654|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 1 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666758|NCT03239496|165049655|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666759|NCT03239496|165049656|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666760|NCT03239496|165049657|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.0001
82666761|NCT03239496|165049658|SUPERIORITY|||||||0.0001|||||||Fisher Exact|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.0001
82666762|NCT03239496|165049659|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666763|NCT03239496|165049660|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666764|NCT03239496|165049661|NON_INFERIORITY|All non-inferiority comparisons of seroconversion rates will be made utilizing the lower bound of two-sided score-based confidence intervals (α = 0.05) with non-inferiority margin 10%.||||||0.05|||||||t-test, 2 sided|||The group sizes are chosen to provide ≥ 80% power for each of the primary objectives, for the individual statistical tests of each serotype, as well as across both serotypes simultaneously. Power of ≥80% is also available for all secondary objectives, except for the comparison of the f-IPV regimen administered at weeks 14 and 36 to the 3-dose IPV regimen, which has power of 62% for individual serotypes, and 39% for the combined serotypes.||||0.05
82666765|NCT00452348|165049709|SUPERIORITY_OR_OTHER||Least Squares Mean|0.04||||0.09||95.0|-0.01|0.09|||ANCOVA|||||0.09|-0.01|0.090
82666766|NCT02898740|165049731|OTHER||Mean Difference (Net)|-3.4|STANDARD_ERROR_OF_MEAN|1.7|<|0.05|TWO_SIDED|95.0|-6.8|0.0|||Mixed Models Analysis|models were adjusted for age|treatment difference = Exercise - Health Education|||-0.0|-6.8|<0.05
82666767|NCT02153723|165049753|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|21.6||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
82666768|NCT02153723|165049754|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|-2.0||||0.03|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.03
82666769|NCT02153723|165049755|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|-0.1||||0.004|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.004
82666770|NCT02153723|165049756|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|15.9||||0.08|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.08
82666771|NCT02153723|165049757|OTHER|Wilcoxon signed rank sum test|Mean Difference (Final Values)|0.8||||0.86|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.86
82666772|NCT02153723|165049758|OTHER|Wilcoxon signed rank sum test|Median Difference (Final Values)|0.0||||0.44|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.44
82666773|NCT02274558|165049759|OTHER||Mean Difference (Final Values)|-3.1|STANDARD_ERROR_OF_MEAN|0.6|<|0.0001|TWO_SIDED|95.0|-4.2|-2.0|||Mixed-effect Model Repeated Measures|||"Control for multiplicity was accomplished through the a fixed-sequence testing procedure for Week 6 outcomes:~* AIMS dyskinesia total score mean change from baseline (CFB): valbenazine 80 mg vs. placebo.~* CGI-TD mean score: VBZ 80 mg vs. PBO.~* AIMS: VBZ 40 mg vs. PBO.~* CGI-TD: VBZ 40 mg vs. PBO.~For a test result in the above list to be considered statistically significant, all of the test results higher in the list must have been significant at the 0.05 level of significance."||-2.0|-4.2|<0.0001
82666774|NCT02274558|165049759|OTHER||Mean Difference (Final Values)|-1.8|STANDARD_ERROR_OF_MEAN|0.6||0.0021|TWO_SIDED|95.0|-3.0|-0.7||Nominal P-value, not adjusted for multiplicity. See comments in above statistical analysis overview regarding the fixed-sequence testing procedure to control for multiplicity.|Mixed-effect Model Repeated Measures|||||-0.7|-3.0|0.0021
82666775|NCT02274558|165049760|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.0742|TWO_SIDED|95.0|-0.5|0.0|||Mixed-effect Model Repeated Measures|||||0.0|-0.5|0.0742
82666776|NCT02274558|165049760|OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.056|TWO_SIDED|95.0|-0.5|0.0|||Mixed-effect Model Repeated Measures|||||0.0|-0.5|0.0560
82666777|NCT02274558|165049761|OTHER|||||||0.02|||||||Cochran-Mantel-Haenszel|||||||0.0200
82666778|NCT02274558|165049761|OTHER||||||<|0.0001|||||||Cochran-Mantel-Haenszel|||||||<0.0001
82666779|NCT02733627|165049792|OTHER||Slope|3.8266|STANDARD_ERROR_OF_MEAN|0.2967|||TWO_SIDED|95.0|3.2155|4.4376||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.4376|3.2155|
82666780|NCT02733627|165049793|OTHER||Slope|4.181|STANDARD_ERROR_OF_MEAN|0.3247|||TWO_SIDED|95.0|3.5094|4.8527||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.8527|3.5094|
82666781|NCT02733627|165049794|OTHER||Slope|1.8868|STANDARD_ERROR_OF_MEAN|0.3069|||TWO_SIDED|95.0|1.2503|2.5234||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|2.5234|1.2503|
82666782|NCT02733627|165049795|OTHER||Slope|3.0677|STANDARD_ERROR_OF_MEAN|0.4844|||TWO_SIDED|95.0|2.0631|4.0723||||||The basic model for the investigation of dose proportionality was a power model. The model consisted of a regression model applied to log-transformed data. The corresponding ANCOVA model included the logarithm of the dose as a covariate. The assumption of a linear relationship between the log-transformed pharmacokinetic endpoint and the log-transformed dose was checked.|Standard Error of the mean is actually Standard Error of the slope. Based on the estimate for slope parameter (β), a 2-sided 95% CI for the slope was computed. Perfect dose proportionality would correspond to a slope of 1.|4.0723|2.0631|
82666783|NCT00059332|165049796|SUPERIORITY_OR_OTHER|||||||0.28|ONE_SIDED||||||Cochran-Mantel-Haenszel|||For the primary efficacy analysis, data were analyzed to test the null hypothesis that the distribution of scores over all 7 levels of the modified Rankin Scale at Day 90 was identical in the magnesium sulfate and placebo groups, vs. the one-sided alternative that the distribution of scores is shifted lower in the active magnesium sulfate therapy group. The statistic used to test the primary hypothesis was the Cochran-Mantel-Haenszel test statistic stratified by transport vehicle.||||0.28
82666784|NCT00059332|165049797|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.87|TWO_SIDED|95.0|0.81|1.2|||Chi-squared|||||1.20|0.81|0.87
82666785|NCT00059332|165049798|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.87|TWO_SIDED|95.0|0.81|1.19|||Chi-squared|||||1.19|0.81|0.87
82666786|NCT00059332|165049799|SUPERIORITY_OR_OTHER|||||||0.276|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.2760
82666787|NCT00059332|165049800|SUPERIORITY_OR_OTHER|||||||0.3912|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3912
82666788|NCT00059332|165049801|SUPERIORITY_OR_OTHER|||||||0.323|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.3230
82666789|NCT00059332|165049802|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.05||||0.95|TWO_SIDED|95.0|0.87|1.27|||Chi-squared|||||1.27|0.87|0.95
82666790|NCT00059332|165049803|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.62||||0.12|TWO_SIDED|95.0|0.34|1.14|||Chi-squared|||||1.14|0.34|0.12
82666791|NCT00059332|165049804|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.95|TWO_SIDED|95.0|0.76|1.29|||Chi-squared|||||1.29|0.76|0.95
82666792|NCT02754492|165049806|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 5.0 × 10\^6 for the single platelet product group. The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|0.989|STANDARD_ERROR_OF_MEAN|0.0107|||ONE_SIDED|95.0|0.95|||||||Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.950|
82666793|NCT02754492|165049806|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 8.0 × 10\^6 for the double platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
82666794|NCT02754492|165049806|OTHER|A procedure is a success if the subject's platelet product has a residual WBC count of \< 12.0 × 10\^6 for the triple platelet product group, or \< 5.0 × 10\^6 for each transfusable unit . The FDA requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 95%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy adult subjects will be enrolled in this study to ensure 93 evaluable single platelet product collections, 93 evaluable double platelet product collections, and 93 evaluable triple platelet product collections. This number was chosen to meet the FDA requirements of at least 95% of platelet units with an acceptable residual WBC level with 95% confidence. With 93 platelet products, this allowed for at most 1 failure.|||0.968|
82666795|NCT02754492|165049807|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 3.0 × 10\^11 for the single platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|0.989|STANDARD_ERROR_OF_MEAN|0.0107|||ONE_SIDED|95.0|0.95|||||||Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.950|
82666796|NCT02754492|165049807|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 6.2 × 10\^11 for the double platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
82666797|NCT02754492|165049807|OTHER|A procedure is a success if the subject's platelet product has a platelet yield of ≥ 9.3 × 10\^11 for the triple platelet product group. The requirements are met if the lower one-sided 95% confidence interval for the procedure success rate is at least 75%.|Simple Sample Proportion|1.0|STANDARD_ERROR_OF_MEAN|0.0|||ONE_SIDED|95.0|0.968||||||When estimated proportion is 100%, standard error of the mean is estimated as 0.|Up to 350 healthy subjects were enrolled to ensure 93 evaluable single, double, and triple platelet product collections. With 93 platelet products being collected, 16 failures or less was required to show that the proportion of units with an acceptable platelet yield is at least 75% with 95% confidence.|||0.968|
82666798|NCT00487695|165049808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED|95.0|||||Wilcoxon signed rank|||Our hypothesis was that the yield for neoplasia would be higher using confocal laser endomicroscopy compared to standard endoscopy. The null hypothesis would be that there is no difference in yield for neoplasia when CLE is used compared to standard endoscopy. We estimated that the yield for neoplasia would increase from 10% to 40% using CLE and the calculated sample size was 37. We planned to enroll 48 patients to allow for possible dropouts.||||0.01
82666799|NCT00487695|165049809|SUPERIORITY_OR_OTHER_LEGACY|||||||0.89||95.0|||||Wilcoxon signed-rank|||The number of biopsies showing neoplasia was determined for each procedure (confocal laser endomicroscopy, standard EGD). These were compared.||||0.89
82666800|NCT00487695|165049810|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002||95.0|||||wilcoxon signed rank test|||The null hypothesis would be that CLE does not decrease the number of biopsies needed to make a diagnosis compared to standard endoscopy||||0.002
82666801|NCT00487695|165049812|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank|||The number of biopsies showing neoplasia was determined for each procedure (confocal laser endomicroscopy, standard EGD). These were compared. This analysis looks at the patients referred for Barrett's surveillance EGD (no suspected neoplasia).||||1.0
82666802|NCT00487695|165049813|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001||95.0|||||Wilcoxon signed-rank|||The null hypothesis would be that CLE does not decrease the number of biopsies needed to make a diagnosis compared to standard endoscopy||||<0.0001
82666803|NCT04281472|165049821|SUPERIORITY||Hazard Ratio (HR)|0.394|||||TWO_SIDED|95.0|0.253|0.614||||||||0.614|0.253|
82666804|NCT05109104|165049869|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|25.0|||||TWO_SIDED|||||||||||||
82666805|NCT05109104|165049869|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|25.0|||||TWO_SIDED|||||||||||||
82666806|NCT05109104|165049869|OTHER|The t value from the '2-sided' Student-t distribution table corresponding to the upper 5% point with n-1 degrees of freedom was obtained and the labeled SPF value was determined as the largest whole number less than the following calculation: Labeled SPF = Mean SPF - (t\*SE).|Labeled SPF|27.0|||||TWO_SIDED|||||||||||||
82666807|NCT00323258|165049870|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in proportion of participants adherent to triple therapy in the treatment arm compared to those who receive usual care."||||||0.5|||||||Chi-squared|||Sample size of 286 patients(143 patients per group).Based on an estimated absolute improvement in medication adherence of 15% in the intervention group (eg, 85% in the intervention group, 70% in the control group), a 2-sided test with α level of .05, a 15% dropout rate, and power of 0.80.||||.50
82666808|NCT00323258|165049871|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to combined beta-blocker and statin therapy in the treatment arm compared to those who receive usual care."|||||=|0.11|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||=0.11
82666809|NCT00323258|165049872|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to beta-blockers in the treatment arm compared to those who receive usual care."||||||0.03|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||0.03
82666810|NCT00323258|165049873|NON_INFERIORITY_OR_EQUIVALENCE|"Equivalence analysis. Null hypothesis: The will be no difference in the proportion of participants who are \>/= 75% adherent to statins in the treatment arm compared to those who receive usual care."||||||0.34|||||||Chi-squared|||Sample Size calculated as 286 total or 143 patient per treatment group. Based on a baseline adherence rate of 70%, an estimated absolute improvement in medication adherence of 15.0% in the intervention group, we would require 122 patients per group assuming a 2-sided test with alpha-level of .05 and power of .80. To sustain a 15% dropout/ loss to follow-up rate, about 143 patients per group (286 patients total) would need to be consented.||||0.34
82666811|NCT01717313|165049879|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.39|||<|0.001|TWO_SIDED|95.0|-0.59|-0.19|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior antihyperglycemic agent (AHA) therapy status, interaction of time by treatment, and time by prior AHA therapy status||||-0.19|-0.59|<0.001
82666812|NCT01717313|165049880|SUPERIORITY_OR_OTHER||Differences in percentages vs. placebo|-8.2|||||TWO_SIDED|95.0|-18.8|2.6||||||||2.6|-18.8|
82666813|NCT01717313|165049881|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|0.6|||||TWO_SIDED|95.0|-3.1|4.5||||||||4.5|-3.1|
82666814|NCT01717313|165049882|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|-5.8|||||TWO_SIDED|95.0|-16.4|4.9||||||||4.9|-16.4|
82666815|NCT01717313|165049883|SUPERIORITY_OR_OTHER||Difference in percentages vs. placebo|0.6|||||TWO_SIDED|95.0|-3.5|4.8||||||||4.8|-3.5|
82666816|NCT01717313|165049884|SUPERIORITY_OR_OTHER||Between-group rate difference|20.3|||<|0.001|TWO_SIDED|95.0|10.5|29.8|||Miettinen & Nurminen method|||||29.8|10.5|<0.001
82666817|NCT01717313|165049885|SUPERIORITY_OR_OTHER||Between-group rate difference|11.4||||0.001|TWO_SIDED|95.0|4.8|18.6|||Miettinen & Nurminen method|||||18.6|4.8|0.001
82666818|NCT01717313|165049886|SUPERIORITY_OR_OTHER||Difference in the least squares means|-10.3||||0.036|TWO_SIDED|95.0|-19.9|-0.7|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-0.7|-19.9|0.036
82666819|NCT01717313|165049887|SUPERIORITY_OR_OTHER||Difference in the least squares means|-11.6||||0.177|TWO_SIDED|95.0|-28.6|5.3|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||5.3|-28.6|0.177
82666820|NCT01717313|165049892|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.53|||<|0.001|TWO_SIDED|95.0|-0.75|-0.32|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-0.32|-0.75|<0.001
82666821|NCT01717313|165049893|SUPERIORITY_OR_OTHER||Difference in the least squares means|-13.2||||0.014|TWO_SIDED|95.0|-23.7|-2.7|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-2.7|-23.7|0.014
82666822|NCT01717313|165049894|SUPERIORITY_OR_OTHER||Difference in the least squares means|-20.5||||0.031|TWO_SIDED|95.0|-39.0|-1.9|||Constrained Longitudinal Data Analysis|Terms for treatment, time, prior AHA therapy status, the interaction of time by treatment, and time by prior AHA therapy status||||-1.9|-39.0|0.031
82666823|NCT01097694|165049913|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|||"Our null hypothesis was that the mean of this ratio will be 0 after log2-transformed.~The target enrollment was 60 assuming 10% drop-out for 54 completions which gave us 80% power to detect a doubling-dose change in PC20."||||<0.05
82666824|NCT01097694|165049914|SUPERIORITY||||||<|0.05|||||||Regression, Linear|Adjusted for baseline.||||||<0.05
82666825|NCT01097694|165049915|SUPERIORITY|||||||0.12|||||||Regression, Linear|Adjusted for baseline.||||||0.12
82666826|NCT01097694|165049916|SUPERIORITY|||||||0.1|||||||Regression, Linear|Adjusted for baseline.||||||0.10
82666827|NCT01097694|165049917|SUPERIORITY|||||||0.36|||||||Poisson regression model|||||||0.36
82666828|NCT01097694|165049918|SUPERIORITY||||||<|0.05|||||||Mixed Models Analysis|adjusted for baseline values||For FEV1 we used a linear mixed-effects model to assess the between-group difference in the change from baseline over weeks 8-24.||||<0.05
82666829|NCT01097694|165049919|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|Adjusted for baseline.||For FEV1% we used a linear mixed-effects model to assess the between-group difference in the change from baseline over weeks 8-24.||||0.06
82666830|NCT01097694|165049920|SUPERIORITY|||||||0.38|||||||Mixed Models Analysis|Adjusted for baseline||||||0.38
82666831|NCT01097694|165049921|SUPERIORITY|||||||0.31|||||||Mixed Models Analysis|Adjusted for baseline.||||||0.31
82666832|NCT01097694|165049922|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline||||||0.11
82666833|NCT01097694|165049923|SUPERIORITY|||||||0.31|||||||Regression, Linear|Adjusted for baseline.||||||0.31
82666834|NCT01097694|165049924|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline||||||0.11
82666835|NCT01097694|165049925|SUPERIORITY|||||||0.62|||||||Regression, Linear|Adjusted for baseline.||||||0.62
82666836|NCT01097694|165049926|SUPERIORITY|||||||0.57|||||||Regression, Linear|Adjusted for baseline.||||||0.57
82666837|NCT01097694|165049927|SUPERIORITY|||||||0.15|||||||Regression, Linear|Adjusted for baseline||||||0.15
82666838|NCT01097694|165049928|SUPERIORITY|||||||0.33|||||||Regression, Linear|Adjusted for baseline.||||||0.33
82666839|NCT01097694|165049929|SUPERIORITY|||||||0.11|||||||Regression, Linear|Adjusted for baseline.||||||0.11
82666840|NCT01097694|165049930|SUPERIORITY|||||||0.07|||||||Regression, Linear|Adjusted for baseline.||||||0.07
82666841|NCT01097694|165049931|SUPERIORITY|||||||0.94|||||||Regression, Linear|Adjusted for baseline.||||||0.94
82666842|NCT01097694|165049932|SUPERIORITY|||||||0.13|||||||Regression, Linear|Adjusted for baseline||||||0.13
82666843|NCT01097694|165049933|SUPERIORITY|||||||0.25|||||||Regression, Linear|Adjusted for baseline||||||0.25
82666844|NCT01097694|165049934|SUPERIORITY|||||||0.54|||||||Regression, Linear|Adjusted for baseline.||||||0.54
82666845|NCT01097694|165049935|SUPERIORITY|||||||0.18|||||||Regression, Linear|Adjusted for baseline.||||||0.18
82666846|NCT01097694|165049936|SUPERIORITY|||||||0.56|||||||Regression, Linear|Adjusted for baseline.||||||0.56
82666847|NCT01097694|165049937|SUPERIORITY|||||||0.47|||||||Regression, Linear|Adjusted for baseline.||||||0.47
82666848|NCT03922750|165049941|OTHER||Estimated mean treatment difference|1.01||||0.7542|TWO_SIDED|95.0|-5.33|7.35|||ANCOVA|||The response and change from baseline in response during last two weeks of treatment (week 15 and 16) were analysed using an analysis of covariance (ANCOVA) model with treatment, pre-trial insulin treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values were imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset was analysed separately and estimates were combined using Rubin's rules.||7.35|-5.33|0.7542
82666849|NCT03922750|165049941|OTHER||Estimated mean treatment difference|7.88||||0.0107|TWO_SIDED|95.0|1.83|13.93|||ANCOVA|||The response and change from baseline in response during last two weeks of treatment (week 15 and 16) were analysed using an analysis of covariance (ANCOVA) model with treatment, pre-trial insulin treatment and SGLT2i use as fixed factors, and baseline response as covariate. Missing endpoint values were imputed using multiple imputation based on own treatment arm with baseline response as a covariate. Each imputed dataset was analysed separately and estimates were combined using Rubin's rules.||13.93|1.83|0.0107
82666850|NCT05068661|165049971|SUPERIORITY||Risk Ratio (RR)|0.75||||0.486|TWO_SIDED|95.0|0.4|1.39|||Chi-squared|||||1.39|0.40|0.486
82666851|NCT05068661|165049972|SUPERIORITY||Risk Ratio (RR)|0.85||||0.148|TWO_SIDED|95.0|0.69|1.06||This is adjusted P value for hypotension|Chi-squared|||||1.06|0.69|0.148
82666852|NCT05068661|165049973|SUPERIORITY||Risk Ratio (RR)|1.04|||>|0.999|TWO_SIDED|95.0|0.98|1.1||This is adjusted P value|Chi-squared|||||1.10|0.98|>0.999
82666853|NCT05068661|165049974|SUPERIORITY||Mean Ratio|1.9||||0.128|TWO_SIDED|95.0|1.14|3.18||Adjusted P value|Regression, Linear|||||3.18|1.14|0.128
82666854|NCT05068661|165049975|SUPERIORITY||Mean Ratio|1.04|||>|0.999|TWO_SIDED|95.0|0.8|1.35||Adjusted P value|Regression, Linear|||||1.35|0.80|>0.999
82666855|NCT05068661|165049976|SUPERIORITY||Mean Ratio|0.97|||>|0.999|TWO_SIDED|95.0|0.93|1.3||Adjusted P value|Regression, Linear|||||1.30|0.93|>0.999
82666856|NCT05068661|165049977|SUPERIORITY||Risk Ratio (RR)|0.81|||>|0.999|TWO_SIDED|95.0|0.52|1.25||Adjusted P value|Chi-squared|||||1.25|0.52|>0.999
82666857|NCT05068661|165049978|SUPERIORITY||Risk Ratio (RR)|0.85|||>|0.999|TWO_SIDED|95.0|0.58|1.24||Adjusted P value|Chi-squared|||||1.24|0.58|>0.999
82666858|NCT05068661|165049979|SUPERIORITY||Mean Ratio|1.03|||>|0.999|TWO_SIDED|95.0|0.86|1.22||Adjusted P value|Regression, Linear|||||1.22|0.86|>0.999
82492836|NCT01867424|164678556|OTHER||Median Difference CER|0.29||||0.0078|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection.||||0.0078
82492837|NCT01867424|164678556|OTHER||Median Difference CER|0.34||||0.0039|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection.||||0.0039
82666859|NCT01091363|165050006|SUPERIORITY||Odds Ratio (OR)|4.67|||<|0.01|TWO_SIDED|95.0|1.67|12.99|||Regression, Logistic|||||12.99|1.67|<0.01
82666860|NCT01091363|165050007|SUPERIORITY_OR_OTHER|Hayes' PROCESS computation tool for a serial multiple mediator model predicting a binary logistic outcome.|Mean Difference (Net)|1.92||||0.02|TWO_SIDED|95.0|0.34|6.32|||Mediation Analysis|||Mediation analyses were performed to examine the effect of the intervention on abstinence via the three theoretic variables (attitudes, perceived family norms, and self-efficacy), using the Hayes' PROCESS computation tool for a serial multiple mediator model with a binary outcome variable (quitting vs. smoking).||6.32|0.34|0.02
82666861|NCT00021541|165050011|SUPERIORITY|||||||0.012|||||||Repeated measures ANOVA|||||||0.012
82666862|NCT00021541|165050011|OTHER|||||||0.015|||||||Repeated measures ANOVA|||Post hoc test: tipifarnib group F=7.40||||0.015
82666863|NCT00021541|165050011|OTHER|||||||0.66|||||||Repeated measures ANOVA|||Post hoc test: placebo group F=0.19||||0.66
82666864|NCT00936351|165050017|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.21||||0.04|TWO_SIDED||||||t-test, 2 sided|||||||.04
82666865|NCT01898598|165050027|SUPERIORITY_OR_OTHER||Difference in Clinical Response Rates|-21.8|||||TWO_SIDED|95.0|-71.6|32.1||||||The 95 % confidence interval (CI) for the difference in response rates was computed using the exact unconditional confidence limits method.||32.1|-71.6|
82666866|NCT01898598|165050028|SUPERIORITY_OR_OTHER||Percentage Difference|-40.0|||||TWO_SIDED|95.0|-85.3|14.2||||||||14.2|-85.3|
82666867|NCT02707276|165050036|SUPERIORITY||Mean Difference (Final Values)|-0.625|STANDARD_DEVIATION|12.0|<|0.76|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|mean raw change active-sham; pooled standard deviation|Repeated measures ANCOVA with baseline MADRS scores as covariate for treatment and order effects of difference in MADRS scores.||||<0.76
82666868|NCT02707276|165050036|SUPERIORITY||Mean Difference (Final Values)|-5.17|STANDARD_DEVIATION|4.96|<|0.33|TWO_SIDED||||||ANCOVA|Baseline covariate|Pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.33
82666869|NCT02707276|165050037|SUPERIORITY||Mean Difference (Net)|2.0|STANDARD_DEVIATION|9.1|<|0.61|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|raw change active-sham mean; pooled standard deviation|Repeated measures ANCOVA with baseline HARS scores as covariate for treatment and order effects of difference in HARS scores.||||<0.61
82666870|NCT02707276|165050037|SUPERIORITY||Mean Difference (Final Values)|-4.33|STANDARD_DEVIATION|4.0|<|0.32|TWO_SIDED||||||ANCOVA|baseline as covariate|pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.32
82666871|NCT02707276|165050038|SUPERIORITY||Mean Difference (Final Values)|-1.625|STANDARD_DEVIATION|10.2|<|0.78|TWO_SIDED||||||ANCOVA|repeated measures ANCOVA|raw active-sham mean; pooled standard deviation|Repeated measures ANCOVA with baseline PANAS (Positive sub scale) scores as covariate for treatment and order effects of difference in PANAS (Positive sub scale) scores.||||<0.78
82666872|NCT02707276|165050038|SUPERIORITY||Mean Difference (Final Values)|-0.33|STANDARD_DEVIATION|2.42|<|0.99|TWO_SIDED||||||ANCOVA|baseline as covariate|pooled deviation|ANCOVA: Analysis of group differences in change scores with baseline as a covariate||||<0.99
82666873|NCT00950300|165050042|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the 90% confidence interval (CI) was greater than or equal to (≥) 0.8 for the geometric mean ratio.|Geometric mean ratio|1.33|||||TWO_SIDED|90.0|1.24|1.44|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|PK sample size calculations based on percentage of coefficient of variation (CV%) for Ctrough of trastuzumab from previous metastatic breast cancer (MBC) and early breast cancer (EBC) studies. Because pre-surgery situation was comparable to MBC setting, interpatient CV% of 60 percent (%) was assumed and 130 participants per arm (260 participants total) were needed to demonstrate Ctrough comparability with 80% power if the true means of the two formulations did not differ by greater than (\>) 5%.||1.44|1.24|
82666874|NCT00950300|165050043|NON_INFERIORITY|Non-inferiority was concluded if the lower limit of the one-sided 97.5% CI was above -12.5% for the difference in response (pCR) rates.|Difference in response rates|4.7|||||ONE_SIDED|97.5|-4.0||||||The one-sided 97.5% CI for the difference in response (pCR) rates was calculated using the Anderson-Hauck continuity correction.|Assuming pCR rates of at least 40% in both arms, 552 participants were necessary to conclude non-inferiority in pCR rate with a power of 80% using a one-sided 97.5% CI for the difference of the response rates and a non-inferiority margin of 12.5%.|||-4.0|
82492838|NCT01867424|164678556|OTHER||Median Difference CER|0.27||||0.0046|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 40 minutes after Eovist injection; Total cases.||||0.0046
82621782|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1202|TWO_SIDED|95.0|0.95|1.6|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.95|0.1202
82621783|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1222|TWO_SIDED|95.0|0.95|1.6|||Regression, Logistic|||Week 48, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.60|0.95|0.1222
82621784|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0179|TWO_SIDED|95.0|1.06|1.9|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.90|1.06|0.0179
82621785|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.49||||0.0065|TWO_SIDED|95.0|1.12|1.99|||Regression, Logistic|||Week 48, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.99|1.12|0.0065
82621786|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0223|TWO_SIDED|95.0|1.06|2.2|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.20|1.06|0.0223
82621787|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0045|TWO_SIDED|95.0|1.17|2.4|||Regression, Logistic|||Week 48, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.40|1.17|0.0045
82621788|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9385|TWO_SIDED|95.0|0.77|1.28|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.28|0.77|0.9385
82621789|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.23||||0.1093|TWO_SIDED|95.0|0.95|1.59|||Regression, Logistic|||Week 56, \>=30%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.59|0.95|0.1093
82621790|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.21||||0.1631|TWO_SIDED|95.0|0.93|1.57|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.57|0.93|0.1631
82621791|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.34||||0.0285|TWO_SIDED|95.0|1.03|1.74|||Regression, Logistic|||Week 56, \>=50%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.74|1.03|0.0285
82621792|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.36||||0.0389|TWO_SIDED|95.0|1.02|1.81|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.81|1.02|0.0389
82621793|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.39||||0.024|TWO_SIDED|95.0|1.04|1.86|||Regression, Logistic|||Week 56, \>=70%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||1.86|1.04|0.0240
82621794|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.64||||0.0063|TWO_SIDED|95.0|1.15|2.34|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.34|1.15|0.0063
82621795|NCT02528253|164960252|SUPERIORITY||Odds Ratio (OR)|1.74||||0.0021|TWO_SIDED|95.0|1.22|2.47|||Regression, Logistic|||Week 56, \>=90%: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline RMDQ, baseline average LBPI and treatment.||2.47|1.22|0.0021
82621796|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.13||0.0003|TWO_SIDED|95.0|-0.75|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.75|0.0003
82621797|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.85|-0.33|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.33|-0.85|<.0001
82621798|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.12||0.0615|TWO_SIDED|95.0|-0.47|0.01|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.47|0.0615
82666875|NCT00950300|165050044|OTHER||Geometric mean ratio|1.51|||||TWO_SIDED|90.0|1.4|1.63|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.63|1.40|
82666876|NCT00950300|165050045|OTHER||Geometric mean ratio|1.55|||||TWO_SIDED|90.0|1.46|1.64|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.64|1.46|
82666877|NCT00950300|165050046|OTHER||Geometric mean ratio|1.55|||||TWO_SIDED|90.0|1.45|1.64|||||Ratio of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|Additional supportive analysis.||1.64|1.45|
82666878|NCT00950300|165050055|OTHER||Difference in response rates|5.01|||||TWO_SIDED|95.0|-3.5|13.5|||||The 95% CI for the difference in response (tpCR) rates was calculated using the Anderson-Hauck continuity correction.|||13.5|-3.5|
82666879|NCT00950300|165050056|OTHER||Difference in response rates|-1.64|||||TWO_SIDED|95.0|-7.4|4.2|||||The 95% CI for the difference in response (CR+PR) rates was calculated using the Anderson-Hauck continuity correction.|||4.2|-7.4|
82666880|NCT00950300|165050056|OTHER||Odds Ratio (OR)|0.86|||||TWO_SIDED|95.0|0.5|1.46|||||OR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.46|0.50|
82666881|NCT00950300|165050059|OTHER||Hazard Ratio (HR)|0.98||||0.8651|TWO_SIDED|95.0|0.74|1.29|||Log Rank||HR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.29|0.74|0.8651
82666882|NCT00950300|165050061|OTHER||Hazard Ratio (HR)|0.94||||0.7767|TWO_SIDED|95.0|0.61|1.45|||Log Rank||HR of test treatment group (Herceptin SC + Chemotherapy) to reference treatment group (Herceptin IV + Chemotherapy).|||1.45|0.61|0.7767
82666883|NCT00122447|165050076|SUPERIORITY_OR_OTHER||Slope|-0.941|STANDARD_ERROR_OF_MEAN|1.229||0.449|TWO_SIDED|95.0|-3.435|1.552||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||1.552|-3.435|0.449
82666884|NCT00122447|165050076|SUPERIORITY_OR_OTHER||Slope|-2.677|STANDARD_ERROR_OF_MEAN|1.211||0.034|TWO_SIDED|95.0|-5.133|-0.221||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||-0.221|-5.133|0.034
82666885|NCT00122447|165050076|SUPERIORITY_OR_OTHER||Slope|0.088|STANDARD_ERROR_OF_MEAN|1.21||0.943|TWO_SIDED|95.0|-2.367|2.542||Association between treatment arm, compared to placebo, on change in hsCRP from baseline to 12 months of intervention, adjusted for age, sex, and race.|Regression, Linear|||||2.542|-2.367|0.943
82666886|NCT00122447|165050077|SUPERIORITY_OR_OTHER||Slope|-0.001|STANDARD_ERROR_OF_MEAN|0.012||0.943|TWO_SIDED|95.0|-0.025|0.023||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||Null hypothesis: no difference between active treatment group compared to placebo.||0.023|-0.025|0.943
82666887|NCT00122447|165050077|SUPERIORITY_OR_OTHER||Slope|0.014|STANDARD_ERROR_OF_MEAN|0.013||0.28|TWO_SIDED|95.0|-0.012|0.039||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||||0.039|-0.012|0.280
82666888|NCT00122447|165050077|SUPERIORITY_OR_OTHER||Slope|0.012|STANDARD_ERROR_OF_MEAN|0.012||0.313|TWO_SIDED|95.0|-0.012|0.037||Association between treatment arm, compared to placebo, on change in FMD from baseline to 12 months of intervention, adjusted for age, sex, race, and LDL-cholesterol.|Regression, Linear|||||0.037|-0.012|0.313
82666889|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.97|1.49|||||"The Odds Ratio compares having open encounter as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having an open encounter alert in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the trial and adjusting for provider-level clustering.||1.49|0.97|
82666890|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.59|||||"The OR compares between having boostering as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having boostering in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.59|0.83|
82666891|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|0.84|||||TWO_SIDED|95.0|0.61|1.16|||||"The OR compares between having cold-state priming as an intervention factor in the arm the patient's primary care providers were assigned to vs. all others not having cold-state priming in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.16|0.61|
82666892|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|1.2|||||TWO_SIDED|95.0|0.88|1.64|||||"The OR compares between having simplification as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having simplification in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.64|0.88|
82666893|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|0.71|||||TWO_SIDED|95.0|0.52|0.98|||||"The OR compares between having sign-off approval as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having sign-off approval in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||0.98|0.52|
82666894|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|1.21|||||TWO_SIDED|95.0|0.89|1.64|||||"The OR compares between having pre-commitment as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having pre-commitment in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.64|0.89|
82666895|NCT04284553|165050080|SUPERIORITY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.55|1.19|||||"The OR compares patients having risk framing as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having risk framing in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with a logit link and binary errors, evaluating the association between the intervention factors (i.e., behavioral components) and the primary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across the intervention factors across the study arms, rather than between the study arms.||1.19|0.55|
82666896|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|1.78|||||TWO_SIDED|95.0|-17.6|21.2|||||"The estimate compares having open encounter as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having open encounter in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||21.2|-17.6|
82666897|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|-12.1|||||TWO_SIDED|95.0|-41.8|17.5|||||"The estimate compares having boostering as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having boostering in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||17.5|-41.8|
82666898|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|39.5|||||TWO_SIDED|95.0|11.6|67.4|||||"The estimate compares having cold-state priming as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having cold-state priming in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||67.4|11.6|
82666899|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|-1.74|||||TWO_SIDED|95.0|-30.4|26.9|||||"The estimate compares having simplification as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having simplification in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||26.9|-30.4|
82666900|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|-10.1|||||TWO_SIDED|95.0|-37.6|17.4|||||"The estimate compares having sign-off approval as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having sign-off approval in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||17.4|-37.6|
82666901|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|4.2|||||TWO_SIDED|95.0|-24.1|32.5|||||"The estimate compares having pre-commitment as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having pre-commitment in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||32.5|-24.1|
82666902|NCT04284553|165050082|SUPERIORITY||Mean Difference (Final Values)|-12.0|||||TWO_SIDED|95.0|-45.5|21.5|||||"The estimate compares having risk framing as an intervention factor in the arm the patients' primary care providers were assigned to vs. all others not having risk framing in the arm they were assigned to."|Outcomes were evaluated using generalized linear mixed models with an identity link and normally-distributed errors, evaluating the association between the intervention factors (i.e., behavioral components) and secondary outcome, pooling across both stages of the 2-stage Atrius adaptive trial and adjusting for provider-level clustering. As noted in our Study Protocol and pre-specified, the analyses are conducted across intervention factors across study arms, rather than between the study arms.||21.5|-45.5|
82666903|NCT00578968|165050085|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||||||0.01
82666904|NCT00578968|165050086|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82666905|NCT00578968|165050087|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82666906|NCT00578968|165050088|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82666907|NCT00578968|165050089|SUPERIORITY_OR_OTHER|||||||0.13||95.0|||||ANOVA|||Comparison between the two groups at baseline resting.||||0.13
82666908|NCT00578968|165050089|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANOVA|||Comparison was made between the two groups at baseline peak exercise||||<0.01
82666909|NCT00578968|165050090|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANOVA|||||||<0.001
82666910|NCT00578968|165050091|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82666911|NCT00578968|165050092|SUPERIORITY_OR_OTHER|||||||0.15||95.0|||||ANOVA|||||||0.15
82666912|NCT00578968|165050093|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||ANOVA|||||||0.01
82666913|NCT00578968|165050094|SUPERIORITY_OR_OTHER|||||||0.85||95.0|||||ANOVA|||||||0.85
82666914|NCT00578968|165050095|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANOVA|||||||0.03
82666915|NCT00578968|165050096|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||ANOVA|||||||0.009
82666916|NCT00578968|165050097|SUPERIORITY_OR_OTHER|||||||0.005||95.0|||||ANOVA|||||||0.005
82666917|NCT00578968|165050098|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||||||0.06
82666918|NCT00578968|165050099|SUPERIORITY_OR_OTHER|||||||0.003||95.0|||||ANOVA|||||||0.003
82666919|NCT00578968|165050100|SUPERIORITY_OR_OTHER|||||||0.6||95.0|||||ANOVA|||||||0.60
82666920|NCT00578968|165050101|SUPERIORITY_OR_OTHER|||||||0.35||95.0|||||ANOVA|||||||0.35
82666921|NCT00578968|165050102|SUPERIORITY_OR_OTHER|||||||0.65||95.0|||||ANOVA|||||||0.65
82666922|NCT00578968|165050103|SUPERIORITY_OR_OTHER|||||||0.43||95.0|||||ANOVA|||||||0.43
82666923|NCT00578968|165050104|SUPERIORITY_OR_OTHER|||||||0.73||95.0|||||ANOVA|||Comparison was made between groups at pretreatment resting time period.||||0.73
82666924|NCT00578968|165050104|SUPERIORITY_OR_OTHER|||||||0.11||95.0|||||ANOVA|||Comparison was made between groups at pretreatment peak exercise time period.||||0.11
82666925|NCT00578968|165050105|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||ANOVA|||||||0.22
82666926|NCT00578968|165050106|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||ANOVA|||||||0.06
82666927|NCT00578968|165050107|SUPERIORITY_OR_OTHER|||||||0.09||95.0|||||ANOVA|||||||0.09
82666928|NCT00578968|165050108|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
82666929|NCT00578968|165050109|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
82666930|NCT00578968|165050110|SUPERIORITY_OR_OTHER|||||||0.19||95.0|||||ANOVA|||||||0.19
82666931|NCT00578968|165050111|SUPERIORITY_OR_OTHER|||||||0.16||95.0|||||ANOVA|||||||0.16
82666932|NCT00578968|165050112|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||ANOVA|||||||0.04
82666933|NCT01350934|165050115|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|1.95|STANDARD_ERROR_OF_MEAN|0.56|<|0.001|TWO_SIDED|95.0|0.8|3.1|||Longitudinal data analysis|||||3.1|0.8|<0.001
82666934|NCT01350934|165050116|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|2.92|STANDARD_ERROR_OF_MEAN|0.59|<|0.001|TWO_SIDED|95.0|1.8|4.1|||Longitudinal data analysis|||||4.1|1.8|<0.001
82666935|NCT01350934|165050117|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-42.37|||<|0.001|TWO_SIDED|95.0|-48.16|-36.67|||Constrained longitudinal data analysis|||||-36.67|-48.16|<0.001
82666936|NCT01350934|165050118|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-52.03|||<|0.001|TWO_SIDED|95.0|-59.04|-45.3|||Constrained longitudinal data analysis|||||-45.30|-59.04|<0.001
82666937|NCT01350934|165050119|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-51.07|||<|0.001|TWO_SIDED|95.0|-57.29|-44.99|||Constrained longitudinal data analysis|||||-44.99|-57.29|<0.001
82666938|NCT01350934|165050120|SUPERIORITY_OR_OTHER_LEGACY||LS mean difference|-51.96|||<|0.001|TWO_SIDED|95.0|-58.77|-45.39|||Constrained longitudinal data analysis|||||-45.39|-58.77|<0.001
82666939|NCT01350934|165050121|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.0279|||<|0.001|TWO_SIDED|95.0|0.0074|0.1048|||Cochran-Mantel-Haenszel|||Odds Ratio comparison of percentage of participants with \<20 ng/mL of serum 25-hydroxyvitamin (OH) D between Fosamax Plus group and Calcitriol group.||0.1048|0.0074|<0.001
82666940|NCT01196117|165050123|SUPERIORITY|||||||0.0009|||||||Wilcoxon (Mann-Whitney)|||||||0.0009
82666941|NCT01196117|165050124|SUPERIORITY|||||||0.8938|||||||Wilcoxon (Mann-Whitney)|||||||0.8938
82666942|NCT01196117|165050125|SUPERIORITY||||||<|0.014|||||||Wilcoxon (Mann-Whitney)|||||||<0.014
82666943|NCT01196117|165050126|SUPERIORITY||||||<|0.02|||||||Wilcoxon (Mann-Whitney)|||||||<0.0200
82666944|NCT01196117|165050127|SUPERIORITY|||||||0.1321|||||||Wilcoxon (Mann-Whitney)|||||||0.1321
82666945|NCT01196117|165050128|SUPERIORITY||||||<|0.249|||||||Wilcoxon (Mann-Whitney)|||||||<0.2490
82666946|NCT01196117|165050129|SUPERIORITY|||||||0.5139|||||||Wilcoxon (Mann-Whitney)|||||||0.5139
82666947|NCT01196117|165050130|SUPERIORITY|||||||0.0597|||||||Wilcoxon (Mann-Whitney)|||||||0.0597
82666948|NCT01196117|165050131|SUPERIORITY|||||||0.2134|||||||Wilcoxon (Mann-Whitney)|||||||0.2134
82666949|NCT00117806|165050142|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||Chi-squared|||||||0.008
82666950|NCT01765751|165050144|SUPERIORITY||Mean Difference (Final Values)|2.7|||||TWO_SIDED|95.0|-0.1|5.6|||||High vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||5.6|-0.1|
82666951|NCT01765751|165050144|SUPERIORITY||Mean Difference (Final Values)|3.0|||||TWO_SIDED|95.0|0.1|5.9|||||Medium vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||5.9|0.1|
82666952|NCT01765751|165050144|SUPERIORITY||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-3.2|2.7|||||High vs Medium group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||2.7|-3.2|
82666953|NCT01765751|165050145|SUPERIORITY||Mean Difference (Final Values)|15.6|||||TWO_SIDED|95.0|1.6|29.7|||||High vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||29.7|1.6|
82666954|NCT01765751|165050145|SUPERIORITY||Mean Difference (Final Values)|9.8|||||TWO_SIDED|95.0|-3.7|23.3|||||Medium vs Low group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||23.3|-3.7|
82666955|NCT01765751|165050145|SUPERIORITY||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-8.6|20.3|||||High vs Medium group, mean difference adjusted for the baseline value of the respective variable centered at its mean. NDI also adjusted for traction-force feedback method.|||20.3|-8.6|
82666956|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-3.9|||||TWO_SIDED|95.0|-8.1|0.4|||||Pain Interference - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||0.4|-8.1|
82666957|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|1.5|||||TWO_SIDED|95.0|-2.6|5.6|||||Pain Interference - Medium vs Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||5.6|-2.6|
82666958|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-5.4|||||TWO_SIDED|95.0|-9.8|1.0|||||Pain Interference - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Pain Interference||1.0|-9.8|
82666959|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|0.8|||||TWO_SIDED|95.0|-2.2|3.8|||||Physical Function - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Physical Function||3.8|-2.2|
82666960|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|0.1|||||TWO_SIDED|95.0|-2.9|3.2|||||Physical Function - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Physical Funtion||3.2|-2.9|
82666961|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|0.7|||||TWO_SIDED|95.0|-2.4|3.7|||||Physical Function- High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population|Physical Function||3.7|-2.4|
82666962|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|5.8|||||TWO_SIDED|95.0|1.1|10.5|||||Fatigue - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||10.5|1.1|
82666963|NCT01765751|165050146|SUPERIORITY||Median Difference (Net)|3.3|||||TWO_SIDED|95.0|-1.5|8.2|||||Fatigue - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||8.2|-1.5|
82666964|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|2.5|||||TWO_SIDED|95.0|-2.3|7.3|||||Fatigue - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Fatigue||7.3|-2.3|
82666965|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|1.3|||||TWO_SIDED|95.0|-0.9|3.5|||||Sleep Disturbance - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||3.5|-0.9|
82666966|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-3.6|0.9|||||Sleep Disturbance - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||0.9|-3.6|
82666967|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|2.7|||||TWO_SIDED|95.0|0.4|5.0|||||Sleep Disturbance - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Sleep Disturbance||5.0|0.4|
82666968|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-0.3|||||TWO_SIDED|95.0|-4.5|3.9|||||Anxiety - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||3.9|-4.5|
82666969|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|1.1|||||TWO_SIDED|95.0|-2.9|5.1|||||Anxiety - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||5.1|-2.9|
82666970|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-1.4|||||TWO_SIDED|95.0|-5.7|2.9|||||Anxiety - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Anxiety||2.9|-5.7|
82666971|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-2.8|||||TWO_SIDED|95.0|-6.7|0.6|||||Depression - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||0.6|-6.7|
82666972|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-0.8|||||TWO_SIDED|95.0|-4.1|2.6|||||Depression - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||2.6|-4.1|
82666973|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-2.0|||||TWO_SIDED|95.0|-5.4|1.4|||||Depression - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Depression||1.4|-5.4|
82666974|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|0.2|||||TWO_SIDED|95.0|-4.5|4.9|||||Satisfaction with Social Role - High vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||4.9|-4.5|
82666975|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|3.0|||||TWO_SIDED|95.0|-1.8|7.7|||||Satisfaction with Social Role - Medium vs. Low Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||7.7|-1.8|
82666976|NCT01765751|165050146|SUPERIORITY||Mean Difference (Net)|-2.8|||||TWO_SIDED|95.0|-7.6|2.0|||||Satisfaction with Social Role - High vs. Medium Group - The scale for the PROMIS measures uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population.|Satisfaction with Social Role||2.0|-7.6|
82666977|NCT02951195|165050210|SUPERIORITY||LS Mean Difference|6.4||||0.0207|TWO_SIDED|95.0|0.3|12.6|||Mixed-effects Model for Repeated Measure|||||12.6|0.3|0.0207
82666978|NCT02951195|165050210|SUPERIORITY||LS Mean Difference|10.5||||0.0002|TWO_SIDED|95.0|5.0|15.9|||Mixed-effects Model for Repeated Measure|||||15.9|5.0|0.0002
82492839|NCT01867424|164678556|OTHER||Median Difference CER|0.33||||0.0017|TWO_SIDED||||||Wilcoxon Test|||Analysis of CER from baseline to 60 minutes after Eovist injection; Total cases.||||0.0017
82666979|NCT02951195|165050210|SUPERIORITY||LS Mean Difference|8.8||||0.0019|TWO_SIDED|95.0|3.0|14.5|||Mixed-effects Model for Repeated Measure|||||14.5|3.0|0.0019
82666980|NCT02951195|165050210|SUPERIORITY||LS Mean Difference|8.3||||0.054|TWO_SIDED|95.0|-2.1|18.7|||Mixed-effects Model for Repeated Measure|||||18.7|-2.1|0.0540
82666981|NCT02951195|165050211|SUPERIORITY||LS Mean Difference|8.7||||0.0007|TWO_SIDED|95.0|3.7|13.8|||Mixed-effects Model for Repeated Measure|||||13.8|3.7|0.0007
82666982|NCT02951195|165050212|SUPERIORITY||Least Squares (LS) Mean Difference|-19.5||||0.0018|TWO_SIDED|95.0|-32.2|-6.8|||Mixed-effects Model for Repeated Measure|||||-6.8|-32.2|0.0018
82666983|NCT02951195|165050212|SUPERIORITY||LS Mean Difference|-13.6||||0.0106|TWO_SIDED|95.0|-25.0|-2.1|||Mixed-effects Model for Repeated Measure|||||-2.1|-25.0|0.0106
82666984|NCT02951195|165050212|SUPERIORITY||LS Mean Difference|-27.5|||<|0.0001|TWO_SIDED|95.0|-38.6|-16.3|||Mixed-effects Model for Repeated Measure|||||-16.3|-38.6|<0.0001
82666985|NCT02951195|165050212|SUPERIORITY||LS Mean Difference|-24.8||||0.0017|TWO_SIDED|95.0|-40.0|-9.7|||Mixed-effects Model for Repeated Measure|||||-9.7|-40.0|0.0017
82666986|NCT02951195|165050213|SUPERIORITY||LS Mean Difference|-23.9|||<|0.0001|TWO_SIDED|95.0|-33.7|-14.1|||Mixed-effects Model for Repeated Measure|||||-14.1|-33.7|<0.0001
82666987|NCT02951195|165050214|SUPERIORITY||LS Mean Difference|12.5||||0.0166|TWO_SIDED|95.0|1.1|24.0|||Mixed-effects Model for Repeated Measure|||||24.0|1.1|0.0166
82666988|NCT02951195|165050214|SUPERIORITY||LS Mean Difference|21.3|||<|0.0001|TWO_SIDED|95.0|11.2|31.4|||Mixed-effects Model for Repeated Measure|||||31.4|11.2|<0.0001
82666989|NCT02951195|165050214|SUPERIORITY||LS Mean Difference|17.1||||0.0013|TWO_SIDED|95.0|6.3|27.8|||Mixed-effects Model for Repeated Measure|||||27.8|6.3|0.0013
82666990|NCT02951195|165050214|SUPERIORITY||LS Mean Difference|14.5||||0.0563|TWO_SIDED|95.0|-3.8|32.9|||Mixed-effects Model for Repeated Measure|||||32.9|-3.8|0.0563
82666991|NCT02951195|165050215|SUPERIORITY||LS Mean Difference|13.6||||0.0012|TWO_SIDED|95.0|5.3|21.9|||Mixed-effects Model for Repeated Measure|||||21.9|5.3|0.0012
82666992|NCT02951195|165050216|SUPERIORITY||LS Mean Difference|14.1||||0.0476|TWO_SIDED|95.0|-2.6|30.9|||ANCOVA|||||30.9|-2.6|0.0476
82666993|NCT02951195|165050216|SUPERIORITY||LS Mean Difference|29.4||||0.0001|TWO_SIDED|95.0|14.8|44.0|||ANCOVA|||||44.0|14.8|0.0001
82666994|NCT02951195|165050216|SUPERIORITY||LS Mean Difference|26.2||||0.0006|TWO_SIDED|95.0|11.3|41.1|||ANCOVA|||||41.1|11.3|0.0006
82666995|NCT02951195|165050216|SUPERIORITY||LS Mean Difference|4.8||||0.2714|TWO_SIDED|95.0|-11.6|21.2|||Mixed-effects Model for Repeated Measure|||||21.2|-11.6|0.2714
82666996|NCT02951195|165050217|SUPERIORITY||LS Mean Difference|11.3||||0.0138|TWO_SIDED|95.0|1.3|21.2|||Mixed-effects Model for Repeated Measure|||||21.2|1.3|0.0138
82666997|NCT04633642|165050267|SUPERIORITY||Mean Difference (Final Values)|1.05|STANDARD_DEVIATION|0.74|<|0.01|TWO_SIDED|||||The threshold for statistical significances was p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
82492840|NCT01867424|164678558|OTHER||Spearman r|-0.137||||0.5761|TWO_SIDED|95.0|-0.5665|0.3511|||Nonparametric Spearman correlation|The calculation of Spearman correlation is between baseline PSA and CER at 20 minutes post Eovist injection.||Null Hypothesis: There is no significant difference in contrast enhancement ratio (CER) with Eovist injection based on baseline Prostate-specific antigen (PSA) levels at 20-minute timepoint.||0.3511|-0.5665|0.5761
82666998|NCT04633642|165050268|SUPERIORITY||Mean Difference (Final Values)|1.61|STANDARD_DEVIATION|0.17|<|0.01|TWO_SIDED|||||The threshold for statistical significance was p\<0.05|Wilcoxon (Mann-Whitney)|||||||<0.01
82666999|NCT04633642|165050269|SUPERIORITY||Mean Difference (Final Values)|0.56|STANDARD_DEVIATION|0.79|<|0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.01
82667000|NCT04633642|165050270|SUPERIORITY||Mean Difference (Final Values)|-2.28|STANDARD_DEVIATION|0.44||0.01|TWO_SIDED|||||The threshold for statistical significance was p\<0.05|t-test, 2 sided|||We analyzed 51 patients (24 in surgical group and 27 in UAW group) with a statistical power of 0.80 and an alpha of 0.05, with a power of the clinical di↵erence of 37% to detect a statistically significant between groups.||||0.01
82667001|NCT04633642|165050271|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.93|TWO_SIDED|||||The threshold for statistics significance was p\<0.05|t-test, 2 sided|||||||0.93
82667002|NCT04633642|165050272|SUPERIORITY||Mean Difference (Final Values)|0.02|STANDARD_DEVIATION|0.18||0.711|TWO_SIDED||||||t-test, 2 sided|||We analyzed 51 patients (24 in surgical group and 27 in UAW group) with a statistical power of 0.80 and an alpha of 0.05, with a power of the clinical difference of 37% to detect a statistically significant between groups.||||0.711
82667003|NCT01207752|165050295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55|TWO_SIDED||||||t-test, 2 sided|||||||0.550
82667004|NCT01586039|165050297|SUPERIORITY|||||||0.73||||||Contrasting LED vs. CFL at 90 lux intensity|t-test, 2 sided|Paired t-test.||Contrasting LED vs. CFL at 90 lux intensity. Melatonin suppression is measured as the percentage of melatonin AUC relative to the AUC measured in dim light on the previous day. Higher values indicate more light-induced melatonin suppression.||||0.73
82667005|NCT01586039|165050297|SUPERIORITY|||||||0.001||||||Contrasting LED vs. CFL at 50 lux intensity|t-test, 2 sided|Paired t-test||Contrasting LED vs. CFL at 50 lux intensity||||0.001
82667006|NCT01586039|165050298|SUPERIORITY|||||||0.19|||||||t-test, 2 sided|Paired t-test||||||0.19
82667007|NCT01586039|165050300|SUPERIORITY|||||||0.17|||||||t-test, 2 sided|Paired t-test.||||||0.17
82667008|NCT01586039|165050300|SUPERIORITY|||||||1|||||||t-test, 2 sided|Paired test.||||||1.0
82667009|NCT01943435|165050308|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|0.3||||0.73|TWO_SIDED|95.0|-1.5|2.2|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||2.2|-1.5|0.73
82667010|NCT01943435|165050308|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|-2.1||||0.02|TWO_SIDED|95.0|-3.9|-0.3|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||-0.3|-3.9|0.02
82667011|NCT01943435|165050308|SUPERIORITY|For this superiority study, sample size estimation was based upon hypothesized changes in our primary outcome measure, the Swiss Spinal Stenosis (SSS) questionnaire. We calculated that a total sample size of 180 subjects (n=60 per group) would give us 80% power to detect a difference as small as 3.6 points on the Swiss Spinal Stenosis questionnaire score. Sample size was increased at the request of the funding agency without any interim analysis performed.|Mean Difference (Final Values)|2.4||||0.01|TWO_SIDED|95.0|0.6|4.3|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||The primary analysis was a between-groups comparison of means using linear mixed models with SSS total score as the dependent variable, while adjusting for randomization stratification factors.||4.3|0.6|0.01
82667012|NCT01943435|165050309|SUPERIORITY||Mean Difference (Final Values)|87.0||||0.29|TWO_SIDED|95.0|-75.2|249.2|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||249.2|-75.2|0.29
82667013|NCT01943435|165050309|SUPERIORITY||Mean Difference (Final Values)|129.7||||0.1|TWO_SIDED|95.0|-27.2|286.6|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||286.6|-27.2|0.10
82667014|NCT01943435|165050309|SUPERIORITY||Mean Difference (Final Values)|-42.7||||0.61|TWO_SIDED|95.0|-205.4|120.0|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This analysis consisted of a between-groups comparison of means using linear mixed models with SPWT as the dependent variable, while adjusting for randomization stratification factors.||120.0|-205.4|0.61
82667015|NCT01943435|165050310|SUPERIORITY||Mean Difference (Final Values)|30.5||||0.03|TWO_SIDED|95.0|3.1|57.9|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||57.9|3.1|0.03
82667016|NCT01943435|165050310|SUPERIORITY||Mean Difference (Final Values)|18.7||||0.16|TWO_SIDED|95.0|-7.6|45.0|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||45.0|-7.6|0.16
82667017|NCT01943435|165050310|SUPERIORITY||Mean Difference (Final Values)|11.8||||0.4|TWO_SIDED|95.0|-15.6|39.1|||Regression, Linear|Linear mixed models were adjusted for randomization stratification factors.||This secondary analysis consisted of a between-groups comparison of means using linear regression with physical activity as the dependent variable (average number of minutes spent daily in activities \>1.5 METs), while adjusting for randomization stratification factors.||39.1|-15.6|0.40
82667018|NCT01728636|165050315|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||.05
82667019|NCT04535986|165050340|SUPERIORITY||LS mean difference|0.0868|STANDARD_ERROR_OF_MEAN|0.0162|<|0.0001|TWO_SIDED|95.0|0.0551|0.1185||The analysis of covariance (ANCOVA) model was used to model the change from baseline FEV1 to average FEV1 AUC0-12h with treatment, region, background medication strata and smoking strata as fixed effects and baseline FEV1 as covariate.|ANCOVA|||||0.1185|0.0551|<0.0001
82667020|NCT01196390|165050350|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.85|TWO_SIDED|95.0|0.69|1.36|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation arm|Assuming a median DFS time of 15 months (Arm 2), hypothesized increase in DFS corresponding to median DFS time of 25 months (Arm 1). Assuming an exponential distribution and constant hazards, 183 HER2-positive participants accrued over 5 years and followed for 3 years would result in 162 disease-free survival events and provide 90% statistical power to detect this difference with a 2-sided α of 0.05 and 2 interim analyses. See Limitations and Caveats section.||1.36|0.69|0.85
82667021|NCT01196390|165050351|SUPERIORITY|||||||0.71|||||||Chi-squared|Two-sided significance level = 0.05||||||0.71
82492841|NCT01867424|164678558|OTHER||Spearman r|-0.257||||0.3033|TWO_SIDED|95.0|-0.6549|0.2526|||nonparametric Spearman correlation|||Analyses include calculation of Spearman correlation between baseline Prostate-specific antigen (PSA) and CER at 40 minutes post Eovist injection.||0.2526|-0.6549|0.3033
82667022|NCT01196390|165050352|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.95|TWO_SIDED|95.0|0.69|1.47|||Log Rank|Two-sided significance level = 0.05|Reference level = Chemoradiation arm|||1.47|0.69|0.95
82667023|NCT01196390|165050354|SUPERIORITY|||||||0.39||||||One-side significance level = 0.05|Chi-squared|||6-8 weeks||||0.39
82667024|NCT01196390|165050354|SUPERIORITY|||||||0.78||||||One-side significance level = 0.05|Chi-squared|||1 year||||0.78
82667025|NCT01196390|165050354|SUPERIORITY|||||||0.28||||||One-side significance level = 0.05|Chi-squared|||2 years||||0.28
82667026|NCT01196390|165050357|SUPERIORITY||Odds Ratio (OR)|2.35||||0.021|TWO_SIDED|95.0|1.13|4.86|||Regression, Logistic|||Logistic regression was used to model the association of treatment arm (Arm 1 vs. 2 \[reference level(RL)\]), T stage (T3 vs.T1,T2 \[RL\]), Zubrod (1,2 vs. 0 \[RL\]), gender (male vs. female \[RL\]), presence of adenopathy (yes vs. no \[RL\]), and age (≥ 60 vs. \<60 \[RL\]) with the occurrence of any cardiac AE, using backwards step-wise model selection requiring p≤0.05 for a covariate to remain in the model. Final model covariates are reported. Age is reported here. No other covariates reported.||4.86|1.13|0.021
82667027|NCT01632215|165050359|SUPERIORITY||Mean Difference (Net)|0.3|||<|0.05|TWO_SIDED||||||t-test, 1 sided|||||||<0.05
82667028|NCT04561115|165050371|EQUIVALENCE|The relative alpha level for statistical significance was 0.1 (alpha=0.05 for one-sided test), or a 90% CI was used for the bioequivalence test.|Geometric Least Square Mean Ratio|0.948|||||TWO_SIDED|90.0|0.926|0.972||||||||0.972|0.926|
82667029|NCT04561115|165050372|EQUIVALENCE|The relative alpha level for statistical significance was 0.1 (alpha=0.05 for one-sided test), or a 90% CI was used for the bioequivalence test.|Geometric Least Square Mean Ratio|0.978|||||TWO_SIDED|90.0|0.937|1.021||||||||1.021|0.937|
82667030|NCT03174158|165050391|SUPERIORITY|||||||0.07||||||a priori p value threshold \< 0.05|Chi-squared|||||||0.07
82667031|NCT03174158|165050391|SUPERIORITY|||||||0.18|||||||Chi-squared|a priori threshold p\<0.05||||||0.18
82667032|NCT03174158|165050391|SUPERIORITY|||||||0.21||||||a priori threshold p\<0.05|Chi-squared|||||||0.21
82667033|NCT00283842|165050400|SUPERIORITY_OR_OTHER|||||||0.084|||||||Hochberg|||Statistical analysis provided for 50mg.||||0.084
82667034|NCT00283842|165050400|SUPERIORITY_OR_OTHER|||||||0.084|||||||Hochberg|||Statistical analysis provided for 100mg.||||0.084
82667035|NCT00283842|165050400|SUPERIORITY_OR_OTHER|||||||0.001|||||||Hochberg|||Statistical analysis provided for 200mg.||||0.001
82667036|NCT00283842|165050400|SUPERIORITY_OR_OTHER|||||||0.027|||||||Hochberg|||Statistical analysis provided for 400mg.||||0.027
82667037|NCT00283842|165050401|SUPERIORITY_OR_OTHER|||||||0.375|||||||Hochberg|||Statistical analysis provided for 50mg.||||0.375
82667038|NCT00283842|165050401|SUPERIORITY_OR_OTHER|||||||0.342|||||||Hochberg|||Statistical analysis provided for 100mg.||||0.342
82667039|NCT00283842|165050401|SUPERIORITY_OR_OTHER|||||||0.342|||||||Hochberg|||Statistical analysis provided for 200mg.||||0.342
82667040|NCT00283842|165050401|SUPERIORITY_OR_OTHER|||||||0.375|||||||Hochberg|||Statistical analysis provided for 400mg.||||0.375
82667041|NCT02004691|165050403|SUPERIORITY||Least Squares Mean Difference|19.008|STANDARD_ERROR_OF_MEAN|4.7576|=|0.0004|TWO_SIDED|95.0|9.319|28.696||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% Confidence Interval (CI) and p-values were based on mixed model for repeated measures approach with Baseline Derived % Predicted DLco adjusted for Hb and pressure, age, treatment group, visit, and study visit by treatment group as covariates.|||28.696|9.319|=0.0004
82667042|NCT02004691|165050405|SUPERIORITY||Least Squares Mean Difference|-39.927|STANDARD_ERROR_OF_MEAN|3.4957|<|0.0001|TWO_SIDED|95.0|-47.051|-32.803||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values were based on a mixed model for repeated measures approach with Baseline Spleen Volume (MN), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|||-32.803|-47.051|<.0001
82667043|NCT02004691|165050407|SUPERIORITY||Least Squares Mean Difference|1.618|STANDARD_ERROR_OF_MEAN|3.3877|=|0.6364|TWO_SIDED|95.0|-5.302|8.538||Threshold for significance was 0.15.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Splenomegaly Related Score, Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|||8.538|-5.302|=0.6364
82492842|NCT01867424|164678558|OTHER||Spearman r|-0.2861||||0.2351|TWO_SIDED|95.0|-0.6634|0.2071|||nonparametric Spearman correlation|||Analyses include calculation of Spearman correlation between baseline Prostate-specific antigen (PSA) and CER at 60 minutes post Eovist injection.||0.2071|-0.6634|0.2351
82667044|NCT02004691|165050412|SUPERIORITY||Least Squares Mean Difference|-26.596|STANDARD_ERROR_OF_MEAN|3.5862|<|0.0001|TWO_SIDED|95.0|-33.911|-19.281||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Liver Volume (MN), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||-19.281|-33.911|<.0001
82667045|NCT02004691|165050413|SUPERIORITY||Least Squares Mean Difference|14.332|STANDARD_ERROR_OF_MEAN|5.7822|=|0.0185|TWO_SIDED|95.0|2.564|26.099||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline Platelets, Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||26.099|2.564|=0.0185
82667046|NCT02004691|165050414|SUPERIORITY||Least Squares Mean Difference|-0.056|STANDARD_ERROR_OF_MEAN|0.7384|=|0.94|TWO_SIDED|95.0|-1.566|1.454||Threshold for significance was 0.05.|Mixed model for repeated measures||The 95% CI and p-values are based on a mixed model for repeated measures approach with Baseline BFI item 3 (Worst Fatigue), Baseline age, treatment group, study visit, and study visit by treatment group interaction as covariates.|A hierarchical testing procedure was used to control the overall type I error. Testing was then performed sequentially in an order the outcome measure were reported and continued when previous endpoint was statistically significant at two-sided 0.05.||1.454|-1.566|=0.9400
82667047|NCT01277510|165050467|SUPERIORITY_OR_OTHER_LEGACY||Difference (Cinacalcet - Placebo)|35.5||||0.017|TWO_SIDED|95.0|8.76|62.24|||Cochran-Mantel-Haenszel|Cochran- Mantel-Haenszel (CMH) test stratified by baseline age group (6 -\<12 years old or 12 - \<18 years old).||A hierarchical testing procedure was used to test the primary and biochemical secondary endpoints (Outcome Measures 1-5). The primary endpoint was tested at a significance level of 0.05. The four biochemical secondary endpoints were to be tested using Holm's method at 0.05 should the primary endpoint achieve a significant result.||62.24|8.76|0.017
82667048|NCT01277510|165050468|SUPERIORITY_OR_OTHER_LEGACY||Difference (Cinacalcet - Placebo)|3.46||||0.826|TWO_SIDED|95.0|-22.58|29.51|||Cochran-Mantel-Haenszel|Cochran- Mantel-Haenszel (CMH) test stratified by baseline age group (6 -\<12 years old or 12 - \<18 years old).||The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||29.51|-22.58|0.826
82667049|NCT01277510|165050469|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-3.7||||0.147|TWO_SIDED|95.0|-8.6|1.3|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||1.3|-8.6|0.147
82667050|NCT01277510|165050470|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-5.3||||0.454|TWO_SIDED|95.0|-19.4|8.9|||ANCOVA|Baseline age group was used as covariate|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||8.9|-19.4|0.454
82667051|NCT01277510|165050471|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-10.0||||0.117|TWO_SIDED|95.0|-22.5|2.6|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|The secondary endpoint with the smallest p-value was first compared at a significance level of 0.0125. If the p-value was \> 0.0125, all 4 secondary endpoints were non-significant; if ≤ 0.0125, the null hypothesis for that endpoint was rejected. Next, the 2nd smallest p-value was compared at a level of 0.0167; if \> 0.0167, the remaining 3 endpoints were not significant, or, the null hypothesis of that endpoint was rejected. The other 2 endpoints were analyzed similarly, at 0.025 and 0.05.||2.6|-22.5|0.117
82667052|NCT01277510|165050472|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.2||||0.896|TWO_SIDED|95.0|-3.1|3.6||No adjustments for multiplicity were made.|ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|||3.6|-3.1|0.896
82667053|NCT01277510|165050474|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.8||||0.854|TWO_SIDED|95.0|-9.4|7.9|||ANCOVA|Baseline age group was used as covariate.|Cinacalcet-Placebo|||7.9|-9.4|0.854
82667054|NCT01320722|165050510|SUPERIORITY|||||||0.72|||||||Repeated Measures Analysis|||Week 8||||0.72
82667055|NCT01320722|165050511|SUPERIORITY|||||||0.77||||||Statistical significance was set for P\>0.05.|t-test, 2 sided|||Week 8||||0.77
82667056|NCT01320722|165050512|SUPERIORITY|||||||0.57||||||Statistical significance was set for P\>0.05.|t-test, 2 sided|||Week 8||||0.57
82667057|NCT01320722|165050513|SUPERIORITY|||||||0.8|||||||Repeated Measures Analysis|||||||0.8
82667058|NCT01320722|165050513|SUPERIORITY|||||||0.6|||||||Repeated Measures Analysis|||||||0.6
82667059|NCT01320722|165050514|SUPERIORITY|||||||0.6|||||||Repeated Measures Analysis|||||||0.6
82667060|NCT01320722|165050514|SUPERIORITY|||||||0.7|||||||Repeated Measures Analysis|||||||0.7
82667061|NCT01320722|165050515|SUPERIORITY|||||||0.3|||||||Repeated Measures Analysis|||||||0.3
82667062|NCT01320722|165050515|SUPERIORITY|||||||0.1|||||||Repeated Measures Analysis|||||||0.1
82667063|NCT01320722|165050516|SUPERIORITY_OR_OTHER|||||||0.35|||||||t-test, 2 sided|Statistical significance was set for a 2-tailed P \<0.05.||Week 8||||0.35
82667064|NCT01320722|165050516|SUPERIORITY|||||||0.7||||||Statistical significance was set for a 2-tailed P \<0.05.|t-test, 2 sided|||Week 8||||0.7
82667065|NCT01320722|165050516|SUPERIORITY|||||||0.06||||||Statistical significance was set for a 2-tailed P \<0.05.|t-test, 2 sided|||Week 8||||0.06
82667066|NCT01320722|165050517|SUPERIORITY|||||||0.92||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Overall SBP||||0.92
82667067|NCT01320722|165050517|SUPERIORITY|||||||0.64||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Overall DBP||||0.64
82667068|NCT01320722|165050517|SUPERIORITY|||||||0.8||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Awake SBP||||0.80
82667069|NCT01320722|165050517|SUPERIORITY|||||||0.97||||||Statistical significance was set for P\>0.05.|Repeated Measures Analysis|||Asleep SBP at Week 8||||0.97
82667070|NCT01320722|165050517|SUPERIORITY|||||||0.34|||||||Repeated Measures Analysis|||Overall SBP||||0.34
82667071|NCT01320722|165050517|SUPERIORITY|||||||0.59|||||||Repeated Measures Analysi|||Overall DBP||||0.59
82667072|NCT01320722|165050517|SUPERIORITY|||||||0.57|||||||Repeated Measures Analysis|||Awake SBF||||0.57
82667073|NCT01320722|165050517|SUPERIORITY|||||||0.08|||||||Repeated Measures Analysis|||Asleep SBP||||0.08
82667074|NCT01320722|165050517|SUPERIORITY|||||||0.59|||||||Repeated Measures Analysis|||Overall SBP||||0.59
82667075|NCT01320722|165050517|SUPERIORITY|||||||0.53|||||||Repeated Measures Analysis|||||||0.53
82667076|NCT01320722|165050517|SUPERIORITY|||||||0.55|||||||Repeated Measures Analysis|||Awake SBP||||0.55
82667077|NCT01320722|165050517|SUPERIORITY|||||||0.8|||||||Repeated Measures Analysis|||Asleep SBP||||0.80
82667078|NCT01320722|165050518|SUPERIORITY|||||||0.98|||||||Repeated Measures Analysis|||||||0.98
82667079|NCT01320722|165050518|SUPERIORITY|||||||0.07|||||||Repeated Measures Analysis|||||||0.07
82667080|NCT01320722|165050518|SUPERIORITY|||||||0.97|||||||Repeated Measures Analysis|||||||0.97
82667081|NCT00784095|165050519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.9||||0.047|TWO_SIDED|95.0|0.04|5.7|||Mixed Models Analysis|||Intervention (Preparation and Completion) versus True Control at 8 weeks||5.7|.04|.047
82667082|NCT00784095|165050519|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.8|||||TWO_SIDED|95.0|-1.1|4.7||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||4.7|-1.1|
82667083|NCT00784095|165050520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-3.2|5.6||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||5.6|-3.2|
82667084|NCT00784095|165050520|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-5.6|3.3||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||3.3|-5.6|
82667085|NCT00784095|165050521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.6|||||TWO_SIDED|95.0|-6.2|2.9||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||2.9|-6.2|
82667086|NCT00784095|165050521|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|||||TWO_SIDED|95.0|-8.2|1.0||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks||1.0|-8.2|
82667087|NCT00784095|165050522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-4.5|3.4||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||3.4|-4.5|
82667088|NCT00784095|165050522|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1|||||TWO_SIDED|95.0|-5.1|3.0||||||Intervention versus Attention Control at 8 weeks.||3.0|-5.1|
82667089|NCT00784095|165050523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-4.8|3.7||||||Intervention (Preparation and Completion) versus True Control at 8 weeks||3.7|-4.8|
82667090|NCT00784095|165050523|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-1.9|6.7||||||Intervention (Preparation and Completion) versus Attention Control at 8 weeks.||6.7|-1.9|
82667091|NCT01540045|165050524|SUPERIORITY_OR_OTHER_LEGACY|||||||0.013|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.013
82667092|NCT01540045|165050525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.671|TWO_SIDED||||||t-test, 2 sided|||we evaluated body fat before and after 2 cycles of cisplatin/paclitaxel based chemotheprapy||||0.671
82667093|NCT01540045|165050525|SUPERIORITY_OR_OTHER_LEGACY|||||||0.694|TWO_SIDED||||||t-test, 2 sided|||we evaluated lean body mass before and after 2 cycles of cisplatin/paclitaxel based chemotheprapy||||0.694
82667094|NCT01540045|165050526|SUPERIORITY_OR_OTHER_LEGACY|||||||0.118|TWO_SIDED||||||t-test, 2 sided|||||||0.118
82667095|NCT01540045|165050527|SUPERIORITY_OR_OTHER_LEGACY|||||||0.607|TWO_SIDED||||||McNemar|||Subjective global assessment (PG-SGA) was used to assess and classify patients as having severe or moderate malnourishment (B or C) or as being well nourished (A).||||0.607
82667096|NCT01540045|165050528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||protein consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds compared to \< Sweet perception thresholds after chemotherapy||||0.015
82667097|NCT01540045|165050528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.01|TWO_SIDED||||||t-test, 2 sided|||animal protein consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds vs \< Sweet perception thresholds after chemotherapy||||0.010
82667098|NCT01540045|165050528|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||FAT consumption was estimated by questionnaire SNUT difference between ≥ Sweet perception thresholds vs \< Sweet perception thresholds after chemotherapy||||0.004
82667099|NCT01540045|165050530|SUPERIORITY_OR_OTHER_LEGACY|||||||0.28|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.28
82667100|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.889|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in status global of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.889
82667101|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.293|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in functional role of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.293
82667102|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in emotional functioning of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.009
82667103|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.213|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in fatigue scale of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.213
82667104|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.595|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in appetite loss of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.595
82667105|NCT01540045|165050531|SUPERIORITY_OR_OTHER_LEGACY|||||||0.068|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in constipation scale of quality of life between ≤ compared to \> umami recognition threshold after chemotherapy by EORT questionnaire||||0.068
82667106|NCT01540045|165050532|SUPERIORITY_OR_OTHER_LEGACY|||||||0.05|TWO_SIDED||||||t-test, 2 sided|||||||0.05
82667107|NCT01540045|165050533|SUPERIORITY_OR_OTHER_LEGACY|||||||0.24|TWO_SIDED|||||clinically significant|Wilcoxon (Mann-Whitney)|||change in peripheral neuropathy scale of quality of life between \> ó = compared to \< umami recognition threshold after chemotherapy by EORT questionnaire||||0.240
82667108|NCT01540045|165050534|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||change in status global of quality of life between \> ó = compared to \< umami recognition threshold after chemotherapy by EORT questionnaire||||0.036
82667109|NCT01540045|165050535|SUPERIORITY_OR_OTHER_LEGACY|||||||0.312|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.312
82667110|NCT01540045|165050536|SUPERIORITY_OR_OTHER_LEGACY|||||||0.608|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.608
82667111|NCT01540045|165050537|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.035
82667112|NCT01540045|165050538|SUPERIORITY_OR_OTHER_LEGACY|||||||0.402|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||For the paired analysis of taste acuity we used Wilcoxon for difference between baseline and 6 weeks later.||||0.402
82667113|NCT01540045|165050539|SUPERIORITY_OR_OTHER_LEGACY|||||||0.109|TWO_SIDED||||||McNemar|||for the paired analysis of taste acuity, we used Mc Nemar test for dividing into high and low sensibility to umami, bitter and sweet tastes.||||0.109
82667114|NCT01540045|165050540|SUPERIORITY_OR_OTHER_LEGACY|||||||0.092|TWO_SIDED||||||McNemar|||for the paired analysis of taste acuity, we used Mc Nemar test for dividing into high and low sensibility to umami, bitter and sweet tastes.||||0.092
82667115|NCT01540045|165050541|SUPERIORITY_OR_OTHER_LEGACY|||||||0.022|TWO_SIDED||||||McNemar|||We divide dilutions in two groups and dichotomized the patients into high and low sensibility to bitter taste. (PERCEPTION)||||0.022
82667116|NCT03407729|165050547|OTHER|Using seed-based analysis with a 1) Left Thalamus seed and 2) Left Middle Temporal Gyrus seed, cluster size was set at 50 voxels and p-value was thresholded at p\<0.05. This was used to compare the differences between the two study groups in terms of number of activated voxels during during cognitive testing using the N-back.|||||<|0.05||||||The a priori threshold for statistical significance was p\<0.05 and statistical power was set at a minimum of 0.80.|t-test, 2 sided|||||||<0.05
82667117|NCT03950674|165050549|OTHER||Hazard Ratio (HR)|0.62||||0.12511|TWO_SIDED|95.0|0.27|1.42||One-sided p-value based on unstratified log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||1.42|0.27|0.12511
82667118|NCT03950674|165050550|OTHER||Hazard Ratio (HR)|0.29||||0.03127|TWO_SIDED|95.0|0.07|1.15||One-sided p-value based on unstratified log-rank test|Log Rank||Based on Cox regression model with treatment as a covariate stratified by PD-L1 status (≥1% vs. \<1%), platinum chemotherapy (cisplatin vs. carboplatin) \& smoking status (never vs. former/current). Pembrolizumab=numerator; Control=denominator.|||1.15|0.07|0.03127
82667119|NCT00360490|165050585|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the absolute change from Baseline MBL to End of Study MBL is equal in the LNG IUS group and the MPA group.||||<0.001
82667120|NCT00360490|165050586|SUPERIORITY_OR_OTHER||Risk Difference (RD)|62.59|||<|0.001||95.0|50.56|74.61|||Chi-squared|||The null hypothesis: the proportion of subjects with successful treatment is equal in the LNG IUS group and the MPA group.||74.61|50.56|<0.001
82667121|NCT00360490|165050587|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-49.2|||<|0.001||95.0|-70.2|-28.3|||t-test, 2 sided|||The null hypothesis: the percent change from Baseline MBL to End of Study MBL is equal in the LNG IUS group and the MPA group.||-28.3|-70.2|<0.001
82667122|NCT00360490|165050588|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||The null hypothesis: the absolute change from Baseline MBL to Mid-study MBL is equal in the LNG IUS group and the MPA group.||||<0.001
82667123|NCT00360490|165050589|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.6|||<|0.001||95.0|-63.8|-37.4|||t-test, 2 sided|||The null hypothesis: the percent change from Baseline MBL to Mid-study MBL is equal in the LNG IUS group and the MPA group.||-37.4|-63.8|<0.001
82667124|NCT00360490|165050599|SUPERIORITY_OR_OTHER||Risk Difference (RD)|26.06||||||95.0|14.75|37.36||||||A two-sided 95% confidence interval for the improvement rate will be provided for cycle 6||37.36|14.75|
82667125|NCT00633022|165050601|SUPERIORITY||Mean Difference (Final Values)|-0.04||||0.4519|TWO_SIDED|95.0|-0.14|0.06|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.ANCOVA model, fitting fixed effect treatment term,|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg twice daily and Placebo.|Losmapimod 7.5 mg BID versus Placebo||0.06|-0.14|0.4519
82667126|NCT00633022|165050601|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.5789|TWO_SIDED|95.0|-0.11|0.06|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg once daily and Placebo.|Losmapimod 7.5 mg once daily versus Placebo||0.06|-0.11|0.5789
82667127|NCT00633022|165050602|SUPERIORITY||Mean Difference (Final Values)|-0.02||||0.6986|TWO_SIDED|95.0|-0.15|0.1|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg twice daily and Placebo.|Losmapimod 7.5 mg twice daily versus placebo||0.10|-0.15|0.6986
82667128|NCT00633022|165050602|SUPERIORITY||Mean Difference (Final Values)|0.0||||0.9486|TWO_SIDED|95.0|-0.13|0.12|||ANCOVA|ANCOVA model, fitting fixed effect treatment term, and including baseline TBR value as a covariate.|The point estimate was calculated as least square mean difference (final values) of Losmapimod 7.5 mg once daily and Placebo.|Losmapimod 7.5 mg once daily versus Placebo||0.12|-0.13|0.9486
82667129|NCT01958060|165050629|SUPERIORITY_OR_OTHER||Slope|1.0604|STANDARD_ERROR_OF_MEAN|0.0337|||TWO_SIDED|95.0|0.9901|1.1308|||||Dose proportionality was explored using linear regression model (ANOVA).The perfect dose proportionality would correspond to a slope β of 1.PK endpoints on the log-transformed scale.Standard error (SE) of the mean is actually the SE of the slope.|This was non confirmatory testing (Single dose). Dose proportionality of BI 1034020 following iv administration of single rising doses of 5 mg, 10 mg, 20 mg and 50 mg for Cmax was analysed.||1.1308|0.9901|
82667130|NCT01958060|165050631|SUPERIORITY_OR_OTHER||Slope|1.5629|STANDARD_ERROR_OF_MEAN|0.1056|||TWO_SIDED|95.0|1.3426|1.7833|||||Dose proportionality was explored using the linear regression model.The perfect dose proportionality would correspond to a slope β of 1. PK endpoints on the log-transformed scale.Standard error of the mean is actually the standard error of the slope.|This was non confirmatory testing (Single dose). Dose proportionality of BI 1034020 following iv administration of single rising doses of 5 mg, 10 mg, 20 mg and 50 mg for AUClast was analysed.||1.7833|1.3426|
82667131|NCT01705717|165050635|SUPERIORITY_OR_OTHER|||||||0.034|TWO_SIDED||||||Chi-squared|||||||0.034
82667132|NCT01705717|165050636|SUPERIORITY_OR_OTHER|||||||0.007|TWO_SIDED||||||Chi-squared|||||||0.007
82667133|NCT00706719|165050648|SUPERIORITY_OR_OTHER|||||||0.118|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.118
82667134|NCT00706719|165050648|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.006
82667135|NCT00706719|165050648|SUPERIORITY_OR_OTHER|||||||0.009|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.009
82667136|NCT00706719|165050648|SUPERIORITY_OR_OTHER|||||||0.0024|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.0024
82667137|NCT00706719|165050649|SUPERIORITY_OR_OTHER|||||||0.15|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Baseline.||||0.15
82667138|NCT00706719|165050649|SUPERIORITY_OR_OTHER|||||||0.0067|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Month 3.||||0.0067
82667139|NCT00706719|165050649|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Comparison of Group A and B observed values at Month 6.||||0.10
82667140|NCT00706719|165050649|SUPERIORITY_OR_OTHER|||||||0.26|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.26
82667141|NCT00706719|165050650|SUPERIORITY_OR_OTHER|||||||0.88|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.880
82667142|NCT00706719|165050650|SUPERIORITY_OR_OTHER|||||||0.612|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.612
82667143|NCT00706719|165050650|SUPERIORITY_OR_OTHER|||||||0.488|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.488
82667144|NCT00706719|165050650|SUPERIORITY_OR_OTHER|||||||0.054|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.054
82667145|NCT00706719|165050651|SUPERIORITY_OR_OTHER|||||||0.705|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.705
82667146|NCT00706719|165050651|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.013
82667147|NCT00706719|165050651|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.004
82667148|NCT00706719|165050651|SUPERIORITY_OR_OTHER|||||||0.808|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.808
82667149|NCT00706719|165050652|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Baseline.||||0.008
82667150|NCT00706719|165050652|SUPERIORITY_OR_OTHER|||||||0.015|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 3.||||0.015
82667151|NCT00706719|165050652|SUPERIORITY_OR_OTHER|||||||0.003|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Month 6.||||0.003
82667152|NCT00706719|165050652|SUPERIORITY_OR_OTHER|||||||0.109|TWO_SIDED||||||t-test, 2 sided|||Comparison of Group A and B observed values at Follow-up (Month 7).||||0.109
82667153|NCT00500318|165050653|SUPERIORITY_OR_OTHER||Least Square Mean|116.44|STANDARD_ERROR_OF_MEAN|40.113||0.0042|TWO_SIDED|95.0|37.28|195.61|||ANCOVA|||||195.610|37.280|0.0042
82667154|NCT00799708|165050658|SUPERIORITY_OR_OTHER|||||||0.345||95.0|||||ANOVA|||||||0.345
82667155|NCT00799708|165050658|SUPERIORITY_OR_OTHER|||||||0.166||95.0|||||ANOVA|||||||0.166
82667156|NCT00799708|165050659|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.38||||0.12|TWO_SIDED|90.0|-0.16|0.92|||ANCOVA|||||0.92|-0.16|0.120
82667157|NCT00880334|165050660|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.02||||0.939|TWO_SIDED|95.0|0.69|1.49|||Log Rank|||The study was designed with 80% power to detect 60% improvement in median PFS from 18 to 28.8 weeks (Vandetanib+docetaxel/Placebo+docetaxel hazard ratio of 0.625) with the addition of Vandetanib while maintaining an overall significance level of 5% in a one-sided test. This assumed exponential distribution of events, accrual of 1.75 patients per week (7-8 patients per month) for 78 weeks with 34 weeks of additional follow-up (112 weeks total). Full information was 118 PFS events.||1.49|0.69|0.939
82667158|NCT00880334|165050662|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||0.873|TWO_SIDED|95.0|0.81|1.79|||Log Rank|||||1.79|0.81|.873
82667159|NCT00880334|165050663|SUPERIORITY_OR_OTHER|||||||0.56|||||||Fisher Exact|||||||0.56
82667160|NCT00880334|165050664|SUPERIORITY_OR_OTHER|||||||0.31|||||||Fisher Exact|||||||0.31
82667161|NCT01157234|165050681|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|28.73|||||TWO_SIDED|95.0|1.93|55.53||||||||55.53|1.93|
82667162|NCT01157234|165050682|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|8.27|||||TWO_SIDED|95.0|-12.58|29.12||||||||29.12|-12.58|
82667163|NCT01157234|165050683|SUPERIORITY_OR_OTHER_LEGACY||Least squares mean difference|1.23|STANDARD_ERROR_OF_MEAN|3.87|||TWO_SIDED|95.0|-6.74|9.2||||||||9.20|-6.74|
82667164|NCT01157234|165050687|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|11.94|||||TWO_SIDED|95.0|0.48|23.4||||||||23.40|0.48|
82667165|NCT01157234|165050688|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|69.54|STANDARD_ERROR_OF_MEAN|19.83|||TWO_SIDED|99.7|12.71|126.37||||||||126.37|12.71|
82667166|NCT01157234|165050689|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|68.19|STANDARD_ERROR_OF_MEAN|19.24|||TWO_SIDED|99.17|13.02|123.36||||||||123.36|13.02|
82667167|NCT01157234|165050690|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|1.39|STANDARD_ERROR_OF_MEAN|17.32|||TWO_SIDED|99.17|-48.25|51.03||||||||51.03|-48.25|
82667168|NCT01157234|165050691|SUPERIORITY_OR_OTHER_LEGACY||Least Squares Mean Difference|2.74|STANDARD_ERROR_OF_MEAN|17.96|||TWO_SIDED|99.17|-48.74|54.22||||||||54.22|-48.74|
82667169|NCT01884844|165050761|SUPERIORITY|||||||0.89|||||||Fisher Exact|||||||0.89
82667170|NCT02104817|165050787|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.837|TWO_SIDED|95.0|0.9|1.09||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.09|0.90|0.837
82667171|NCT02104817|165050788|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.269|TWO_SIDED|95.0|0.84|1.05||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.05|0.84|0.269
82667172|NCT02104817|165050789|SUPERIORITY||Hazard Ratio (HR)|1.05||||0.402|TWO_SIDED|95.0|0.93|1.19||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.19|0.93|0.402
82667173|NCT02104817|165050790|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.94|TWO_SIDED|95.0|0.87|1.16||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.16|0.87|0.940
82667174|NCT02104817|165050791|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.092|TWO_SIDED|95.0|0.81|1.02||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.02|0.81|0.092
82667175|NCT02104817|165050792|SUPERIORITY||Hazard Ratio (HR)|0.85||||0.016|TWO_SIDED|95.0|0.75|0.97||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||0.97|0.75|0.016
82667176|NCT02104817|165050793|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.372|TWO_SIDED|95.0|0.9|1.31||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing|Regression, Cox|||||1.31|0.90|0.372
82667177|NCT02104817|165050794|SUPERIORITY||Hazard Ratio (HR)|1.12||||0.336|TWO_SIDED|95.0|0.89|1.41||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.41|0.89|0.336
82667178|NCT02104817|165050795|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.112|TWO_SIDED|95.0|0.97|1.31||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.31|0.97|0.112
82667179|NCT02104817|165050796|SUPERIORITY||Hazard Ratio (HR)|1.18||||0.091|TWO_SIDED|95.0|0.97|1.42||The hypothesis is tested at the 5% level. A hierarchical test sequence is used to address the issue of multiple testing.|Regression, Cox|||||1.42|0.97|0.091
82667180|NCT02104817|165050797|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.408|TWO_SIDED|95.0|0.83|1.08||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.08|0.83|0.408
82667181|NCT02104817|165050798|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.233|TWO_SIDED|95.0|0.63|1.12||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.12|0.63|0.233
82667182|NCT02104817|165050799|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.81|1.17||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.17|0.81|0.770
82667183|NCT02104817|165050800|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.278|TWO_SIDED|95.0|0.9|1.45||This endpoint was not in the testing sequence and therefore not under type I error control.|Regression, Cox|||||1.45|0.90|0.278
82667184|NCT01653405|165050821|SUPERIORITY||||||<|0.001|||||||Difference in differences|||||||<0.001
82667185|NCT01653405|165050822|SUPERIORITY|||||||0.43|||||||test of differences|||||||0.43
82667186|NCT01653405|165050823|SUPERIORITY||||||<|0.001|||||||difference in differences|||||||<0.001
82667187|NCT01653405|165050824|SUPERIORITY||||||<|0.001|||||||Difference in differences|||||||<0.001
82667188|NCT01653405|165050825|SUPERIORITY|||||||0.002|||||||difference in differences|||||||0.002
82667189|NCT04892147|165050861|OTHER|"Mean value of Enjoyment (8-item summed scale) tested against the value of a Neutral Likert response (Neutral value = 3)."|||||<|0.001||||||The threshold for statistical significance was p = 0.05. The reported value is a calculated -p-value.|t-test, 2 sided|||||||<0.001
82667190|NCT04892147|165050862|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.259||||||The threshold for statistical significance was p = 0.05|Regression, Linear|||||||0.259
82667191|NCT04892147|165050863|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.711||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.711
82667192|NCT04892147|165050864|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.214||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.214
82667193|NCT04892147|165050865|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.317||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.317
82667194|NCT04892147|165050866|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.056||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.056
82667195|NCT04892147|165050867|EQUIVALENCE|Analyses were conducted using general linear models, controlling for baseline levels only with treatment group as the predictor of interest.||||||0.562||||||The threshold for statistical significance was p = 0.05.|Regression, Linear|||||||0.562
82667196|NCT03828539|165050876|OTHER||Odds Ratio (OR)|0.19|||<|0.001|TWO_SIDED|95.0|0.13|0.27|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||0.27|0.13|<.001
82667197|NCT03828539|165050877|OTHER||Odds Ratio (OR)|2.76|||<|0.001|TWO_SIDED|95.0|2.06|3.71|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||3.71|2.06|<.001
82667198|NCT03828539|165050878|OTHER||Odds Ratio (OR)|2.3|||<|0.001|TWO_SIDED|95.0|1.7|3.12|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||||3.12|1.70|<.001
82667199|NCT03828539|165050879|OTHER||Odds Ratio (OR)|1.75|||<|0.001|TWO_SIDED|95.0|1.26|2.43|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||Physical Component Summary (PCS)||2.43|1.26|<0.001
82667200|NCT03828539|165050879|OTHER||Odds Ratio (OR)|1.79||||0.005|TWO_SIDED|95.0|1.29|2.69|||Regression, Logistic|Odds ratio is obtained from a logistic regression model that includes treatment group and stratification factor (MMD at baseline)||Mental Component Summary (MCS)||2.69|1.29|0.005
82667201|NCT02760433|165050880|SUPERIORITY||Risk Difference (RD)|0.19||||0.004|TWO_SIDED|97.5|0.03|0.337|||Chi-squared|2x2 chi-square test||The ACR20 response rate at Week 12 for the placebo group is estimated to be 20% in this study population. The OKZ ACR20 response rate for 64 mg q4w treatment group at Week 12 are expected to be at least 45%, resulting in an expected difference in ACR20 response rates of 25 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.337|0.030|0.004
82667202|NCT02760433|165050880|SUPERIORITY||Risk Difference (RD)|0.203||||0.0029|TWO_SIDED|97.5|0.038|0.353|||Chi-squared|2x2 chi-square test||The ACR20 response rate at Week 12 for the placebo group is estimated to be 20% in this study population .The OKZ ACR20 response rate for 64 mg q2w treatment group at Week 12 is expected to be at least 50%, resulting in an expected difference in ACR20 response rates of 30 percentage points between the respective OKZ treatment group and placebo. Sample size yield 100% disjunctive power for testing the primary hypothesis||0.353|0.038|0.0029
82667203|NCT02760433|165050881|SUPERIORITY||Risk Difference (RD)|0.176||||0.0021|TWO_SIDED|97.5|0.041|0.281|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 5% in the placebo group and 18% and 21% in 64 mg q4w and q2w OKZ groups, respectively, resulting in an expected difference of 13 and 16 percentage points between respective OKZ groups and placebo.||0.281|0.041|0.0021
82667204|NCT02760433|165050881|SUPERIORITY||Risk Difference (RD)|0.283|||<|0.0001|TWO_SIDED|97.5|0.139|0.396|||Chi-squared|2x2 chi-square test||The DAS28 low disease activity (based on DAS28 \[CRP\] \<3.2) response rate at Week 12 was estimated to be 5% in the placebo group and 18% and 21% in 64 mg q4w and q2w OKZ groups, respectively, resulting in an expected difference of 13 and 16 percentage points between respective OKZ groups and placebo.||0.396|0.139|<0.0001
82667205|NCT02760433|165050882|SUPERIORITY||Least Squares Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.081|=|0.1814|TWO_SIDED|97.5|-0.26|0.11||p-value was greater than the threshold p-value of 0.0125|ANCOVA|||||0.11|-0.26|=0.1814
82667206|NCT02760433|165050882|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.083|=|0.0227|TWO_SIDED|97.5|-0.35|0.02||p-value was greater than the threshold p-value of 0.0125|ANCOVA|||||0.02|-0.35|=0.0227
82667207|NCT02760433|165050883|SUPERIORITY||Risk Difference (RD)|0.164|||||TWO_SIDED|97.5|0.02|0.278||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made||||||0.278|0.020|
82667208|NCT02760433|165050883|SUPERIORITY||Risk Difference (RD)|0.174|||||TWO_SIDED|97.5|0.027|0.294||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made||||||0.294|0.027|
82667209|NCT02760433|165050884|SUPERIORITY||Risk Difference (RD)|0.031|||||TWO_SIDED|97.5|-0.052|0.083||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made|||means continuity correction applied because expected cell counts \< 5|||0.083|-0.052|
82667210|NCT02760433|165050884|SUPERIORITY||Risk Difference (RD)|0.065|||||TWO_SIDED|97.5|-0.023|0.134||Due to the hierarchical nature of pre-planned statistical testing (gate-keeping strategy) a formal statement could not be made|||means continuity correction applied because expected cell counts \< 5|||0.134|-0.023|
82667211|NCT00766493|165050886|SUPERIORITY_OR_OTHER||Proportion|0.043|STANDARD_ERROR_OF_MEAN|0.013||0.0001|TWO_SIDED|95.0|0.021|0.077||Reject H0 if z\<-1.96, or 1-sided p\<0.025.|One Sample Binomial|Significance test was based on a one-sample normal approximation to the binomial test.|The 2-sided 95% CI is reported for descriptive purposes; the statistical hypothesis test is 1-sided.|"This study is designed to test the primary null hypothesis that the composite MAE outcome of all death, stroke, and/or MI when using the GORE Embolic Filter is equal to or higher than a Performance Goal (PG) of 6.4% established from published carotid stenting studies utilizing distal embolic protection, versus the alternative hypothesis that the composite MAE outcome is less than the performance goal.~The sample size was calculated based on 80% power and a 1-sided Type I error rate of 0.025."||0.077|0.021|0.0001
82667212|NCT01849458|165050896|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.6|STANDARD_DEVIATION|26.0||0.0001|TWO_SIDED|95.0|25.2|40.0|||2-sided, paired t-test|||Difference from baseline (6M-Baseline)||40|25.2|0.0001
82667213|NCT01849458|165050897|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.7|STANDARD_DEVIATION|23.6||0.0001|TWO_SIDED|95.0|28.7|42.7|||2-sided, paired t-test|||Difference from baseline (12M-Baseline)||42.7|28.7|0.0001
82667214|NCT01849458|165050898|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|43.8|STANDARD_DEVIATION|22.2||0.0001|TWO_SIDED|95.0|37.4|50.1|||2-sided, paired t-test|||Difference from baseline (6M-Baseline)||50.1|37.4|0.0001
82667215|NCT01849458|165050899|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|49.2|STANDARD_DEVIATION|20.2||0.0001|TWO_SIDED|95.0|43.2|55.2|||2-sided, paired t-test|||Difference from baseline (12M-Baseline)||55.2|43.2|0.0001
82667216|NCT02224053|165050911|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|106.66|||||TWO_SIDED|90.0|100.26|113.46|||||AZD9291+omeprazole / AZD9291 alone|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 80% to 125% was 90% (95% for each parameter). Within subject CV assumed to be 23%. 5% change in exposure also assumed.||113.46|100.26|
82667217|NCT02224053|165050912|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|101.65|||||TWO_SIDED|90.0|94.65|109.16|||||AZD9291+omeprazole / AZD9291 alone|Study sized so experiment-wise power for the 90% CIs of geometric mean ratios for both AUC and Cmax of AZD9291 being within 80% to 125% was 90% (95% for each parameter). Within subject CV assumed to be 23%. 5% change in exposure also assumed.||109.16|94.65|
82667218|NCT02224053|165050921|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|94.79|||||TWO_SIDED|90.0|88.77|101.21||||||AZ5104||101.21|88.77|
82667219|NCT02224053|165050921|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geomteric mean ratio|89.7|||||TWO_SIDED|90.0|83.89|95.91||||||AZ7550||95.91|83.89|
82667220|NCT02224053|165050922|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|102.32|||||TWO_SIDED|90.0|96.87|108.07|||||AZD9291+omeprazole / AZD9291 alone|AZ5104||108.07|96.87|
82667221|NCT02224053|165050922|NON_INFERIORITY_OR_EQUIVALENCE|90% CIs of geometric mean ratios being within 80% to 125%|Geometric mean ratio|94.03|||||TWO_SIDED|90.0|89.92|98.33||||||AZ7550||98.33|89.92|
82667222|NCT02786927|165050937|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82667223|NCT02786927|165050938|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82667224|NCT02786927|165050939|OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82667225|NCT01801917|165050940|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.586||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. For this table the value is the posterior probability of achieving an increase in MMT24 and a decrease in CK in 2mg group vs. placebo||||
82667226|NCT01801917|165050940|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.022||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. . For this table the value is the PP of achieving an increase of 15 points in MMT24 and a decrease of 30% in CK in 2mg group vs. placebo||||
82667227|NCT01801917|165050940|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.963||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. For this table the value is the posterior probability of achieving an increase in MMT24 and a decrease in CK in 10mg group vs. placebo||||
82667228|NCT01801917|165050940|SUPERIORITY_OR_OTHER_LEGACY||Bayesian|0.837||||||||||||||It was a Bayesian analysis with non-informative prior for co-primary endpoints, MMT-24 and CK, with dual criteria for statistical significance: ≥ 90% posterior probability (PP) of achieving an increase from baseline in MMT24 and decrease in CK and clinical relevance: ≥ 50% PP achieving an increase of 15 points in MMT24 and a decrease of 30% in CK vs. placebo. . For this table the value is the PP of achieving an increase of 15 points in MMT24 and a decrease of 30% in CK in 10mg group vs. placebo||||
82667229|NCT03919695|165050945|SUPERIORITY||Odds Ratio (OR)|0.29||||0.002|TWO_SIDED|95.0|0.11|0.73|||GEE model specifying a logistic distribu||time x arm effect for the comparison at 6-month follow-up|Generalized Estimating Equations (GEE) model specifying a logistic distribution examining the time x arm interaction||.73|.11|.002
82492843|NCT01867424|164678558|OTHER||Median Difference (actual)|-0.47||||0.111|TWO_SIDED||||||Mann Whitney|||Analyses include analysis of CER at 20 minutes after Eovist injection based on baseline Prostate-specific antigen (PSA) stratifying by PSA \< or \>/= 20ng/ml.||||0.111
82667230|NCT02416934|165050957|SUPERIORITY||Mean Difference (Final Values)|-1.5392|STANDARD_ERROR_OF_MEAN|0.7176||0.036|TWO_SIDED|95.0|-2.9761|-0.1022|||t-test, 2 sided|||Comparing DSQ between Dexamethasone and Saline at Day 1 post-op||-.1022|-2.9761|0.036
82667231|NCT02416934|165050957|SUPERIORITY||Mean Difference (Final Values)|-0.604|STANDARD_ERROR_OF_MEAN|0.2543|<|0.05|TWO_SIDED|95.0|-1.1151|-0.093|||t-test, 2 sided|||Comparing Bazaz between Dexamethasone and Saline at 6 months post-op||-.0930|-1.1151|<.05
82667232|NCT02416934|165050958|SUPERIORITY||Mean Difference (Final Values)|1.7874|STANDARD_ERROR_OF_MEAN|3.1273|<|0.05|TWO_SIDED|95.0|-4.5153|8.0902|||t-test, 2 sided|||Comparing the changes in VNDI between Dexamethasone and Saline from baseline to last visit||8.0902|-4.5153|<.05
82667233|NCT02416934|165050959|SUPERIORITY|||||||0.375||||||Fisher's Exact Test|Fisher Exact|||||||.375
82667234|NCT02627001|165050975|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Wilcoxon Signed Ranks|||||||<0.001
82667235|NCT03201003|165051004|SUPERIORITY||Risk Difference (RD)|56.0|||<|0.0001|TWO_SIDED|95.0|44.1|65.2|||Fisher Exact|||Treatment difference at 1000 mg||65.2|44.1|<0.0001
82667236|NCT03201003|165051005|SUPERIORITY||Risk Difference (RD)|58.9|||<|0.0001|TWO_SIDED|95.0|44.2|69.3|||Fisher Exact|||Treatment difference at 600 mg||69.3|44.2|<0.0001
82667237|NCT03201003|165051006|SUPERIORITY||Risk Difference (RD)|57.2|||<|0.0001|TWO_SIDED|95.0|41.2|69.1|||Fisher Exact|||Treatment difference at 300 mg||69.1|41.2|<0.0001
82492844|NCT01867424|164678558|OTHER||Median Difference (actual)|-0.775||||0.7738|TWO_SIDED||||||Mann Whitney|||Analyses include analysis of CER at 20 minutes after Eovist injection based on baseline Prostate-specific antigen (PSA) stratifying by PSA \< or \>/= 20ng/ml.||||0.7738
82492845|NCT04613375|164678560|OTHER||Adjusted VE|16.91||||0.3685|TWO_SIDED|95.0|-24.43|44.52|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with respiratory syncytial virus (RSV) infection.|||44.52|-24.43|0.3685
82667238|NCT03201003|165051007|SUPERIORITY||||||<|0.0001|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel statistic (with equally spaced scores) stratified by country||Treatment difference in Maximum Severity||||<0.0001
82667239|NCT00834613|165051008|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|103.45||||||90.0|99.87|107.15|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||107.15|99.87|
82667240|NCT00834613|165051009|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.63||||||90.0|95.21|100.11|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.11|95.21|
82667241|NCT00834613|165051010|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The ANOVA model was utilized in comparing the effects between the test and reference products. Differences were declared statistically significant at the 5% level (p\<0.05).|Ratio of the T/R geometric mean x 100|97.63||||||90.0|95.22|100.1|||||Bioequivalence is established if the 90% confidence interval for the ln-transformed geometric mean between the reference and test product fall within the interval of 80-125%.|||100.1|95.22|
82667242|NCT01994980|165051011|SUPERIORITY||||||<|0.01||||||This is a calculated p value.|Wilcoxon (Mann-Whitney)|||||||<0.01
82667243|NCT00697619|165051024|SUPERIORITY_OR_OTHER|||||||0.37||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.370
82667244|NCT00697619|165051024|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.001
82667245|NCT00697619|165051024|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||Wilcoxon (Mann-Whitney)|||||||<0.01
82492846|NCT04613375|164678561|OTHER||Adjusted VE|49.27||||0.0817|TWO_SIDED|95.0|-8.9|76.37|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\<2 years||76.37|-8.9|0.0817
82492847|NCT04613375|164678561|OTHER||Adjusted VE|4.72||||0.8367|TWO_SIDED|95.0|-50.96|39.87|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|2 years to \<5 years||39.87|-50.96|0.8367
82492848|NCT04613375|164678561|OTHER||Adjusted VE|12.02||||0.7469|TWO_SIDED|95.0|-91.53|59.59|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\>=5 years||59.59|-91.53|0.7469
82492849|NCT04613375|164678567|OTHER||Adjusted VE|25.96||||0.1827|TWO_SIDED|95.0|-15.21|52.42|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|||52.42|-15.21|0.1827
82492850|NCT04613375|164678568|OTHER||Adjusted VE|68.86||||0.028|TWO_SIDED|95.0|11.86|89.0|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\<2 years||89|11.86|0.028
82492851|NCT04613375|164678568|OTHER||Adjusted VE|7.97||||0.738|TWO_SIDED|95.0|-49.73|43.43|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|2 years to \<5 years||43.43|-49.73|0.738
82667246|NCT03460990|165051049|SUPERIORITY||Least Squares (LS) Mean Difference|10.0|||<|0.0001|TWO_SIDED|95.0|7.4|12.5|||Mixed-effects model for repeated measure|||||12.5|7.4|< 0.0001
82667247|NCT03460990|165051050|SUPERIORITY||LS Mean Difference|-48.7|||<|0.0001|TWO_SIDED|95.0|-53.9|-43.5|||Mixed-effects model for repeated measure|||||-43.5|-53.9|<0.0001
82667248|NCT03460990|165051051|SUPERIORITY||LS Mean Difference|13.5|||<|0.0001|TWO_SIDED|95.0|8.8|18.3|||Mixed-effects model for repeated measure|||||18.3|8.8|<0.0001
82667249|NCT04980456|165051070|NON_INFERIORITY|Noninferiority in distance VA was declared if the least squares means difference upper confidence limit was less than 0.05.|Least Squares Mean Difference|0.01|STANDARD_ERROR_OF_MEAN|0.003|||ONE_SIDED|95.0||0.01||Since a noninferiority hypothesis is being tested, a p-value is not applicable. Confidence limit is being reported and compared to the noninferiority margin.|||LSM results based on mixed effects repeated measures model with both fixed (lens, visit, lens by visit interaction, period, and sequence) and random (subject) effects. Difference = TOTAL30 minus Biofinity|||0.01||
82667250|NCT04832971|165051071|SUPERIORITY||Difference vs. Placebo at Week 24|-51.22|||<|0.0001|TWO_SIDED|95.0|-61.73|-40.7||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures (MMRM)||ARO-ANG3 - Placebo|||-40.70|-61.73|<.0001
82667251|NCT04832971|165051071|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
82667252|NCT04832971|165051071|SUPERIORITY||Difference vs Placebo at Week 24|-56.56|||<|0.0001|TWO_SIDED|95.0|-67.09|-46.04||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures (MMRM)||ARO-ANG3 - Placebo|||-46.04|-67.09|<.0001
82667253|NCT04832971|165051071|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
82667254|NCT04832971|165051071|SUPERIORITY||Difference vs. Placebo at Week 24|-63.11|||<|0.0001|TWO_SIDED|95.0|-73.56|-52.66||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Model with Repeated Measures|||||-52.66|-73.56|<.0001
82667255|NCT04832971|165051071|SUPERIORITY||||||<|0.0001||||||The adjusted p-value is calculated using the Holm method for multiplicity adjustment.|Holm method|||||||<.0001
82667256|NCT04832971|165051073|SUPERIORITY||Difference vs. Placebo at Week 24|-29.2|||<|0.0001|TWO_SIDED|95.0|-38.5|-20.0||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-20.0|-38.5|<.0001
82667257|NCT04832971|165051073|SUPERIORITY||Difference vs. Placebo at Week 24|-28.7|||<|0.0001|TWO_SIDED|95.0|-37.9|-19.5||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-19.5|-37.9|<.0001
82667258|NCT04832971|165051073|SUPERIORITY||Difference vs. Placebo at Week 24|-36.4|||<|0.0001|TWO_SIDED|95.0|-45.5|-27.2||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-27.2|-45.5|<.0001
82667259|NCT04832971|165051075|SUPERIORITY||Difference vs. Placebo at Week 24|-18.66|||<|0.0001|TWO_SIDED|95.0|-26.53|-10.8||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-10.80|-26.53|<.0001
82667260|NCT04832971|165051075|SUPERIORITY||Difference vs. Placebo at Week 24|-15.18||||0.0002|TWO_SIDED|95.0|-23.0|-7.36||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-7.36|-23.00|0.0002
82667261|NCT04832971|165051075|SUPERIORITY||Difference vs. Placebo at Week 24|-21.9|||<|0.0001|TWO_SIDED|95.0|-29.69|-14.12||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-14.12|-29.69|<.0001
82667262|NCT04832971|165051077|SUPERIORITY||Difference vs. Placebo at Week 24|-16.0||||0.0138|TWO_SIDED|95.0|-28.7|-3.3||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-3.3|-28.7|0.0138
82667263|NCT04832971|165051077|SUPERIORITY||Difference vs Placebo at Week 24|-9.3||||0.148|TWO_SIDED|95.0|-22.0|3.3||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repated Measures|||||3.3|-22.0|0.1480
82667264|NCT04832971|165051077|SUPERIORITY||Difference vs Placebo at Week 24|-20.2||||0.0019|TWO_SIDED|95.0|-32.8|-7.5||Model includes treatment arm, study visit, and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mxed Models Repeated Measures|||||-7.5|-32.8|0.0019
82667265|NCT04832971|165051079|SUPERIORITY||Difference vs Placebo|-54.26|||<|0.0001|TWO_SIDED|95.0|-62.11|-46.4||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|mixed Models Repeated Measures|||||-46.40|-62.11|<.0001
82667266|NCT04832971|165051079|SUPERIORITY||Difference vs Placebo at Week 24|-69.76|||<|0.0001|TWO_SIDED|95.0|-77.58|-61.95||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-61.95|-77.58|<.0001
82667267|NCT04832971|165051079|SUPERIORITY||Difference vs Placebo at Week 24|-73.69|||<|0.0001|TWO_SIDED|95.0|-81.44|-65.93||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-65.93|-81.44|<.0001
82667268|NCT04832971|165051081|SUPERIORITY||Difference vs Placebo at Week 24|-12.0||||0.0039|TWO_SIDED|95.0|-20.2|-3.9||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-3.9|-20.2|0.0039
82492852|NCT04613375|164678568|OTHER||Adjusted VE|30.06||||0.4327|TWO_SIDED|95.0|-70.86|71.37|||Wald Test||Adjusted for the covariates age group, weekly exposure to children less than 5 years, calendar time, and CAP with RSV infection.|\>=5 years||71.37|-70.86|0.4327
82667269|NCT04832971|165051081|SUPERIORITY||Difference vs Placebo at Week 24|-21.6|||<|0.0001|TWO_SIDED|95.0|-29.8|-13.4||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-13.4|-29.8|<.0001
82667270|NCT04832971|165051081|SUPERIORITY||Differeence vs Placebo at week 24|-24.5|||<|0.0001|TWO_SIDED|95.0|-32.6|-16.5||Model includes treatment arm, study visit, randomization stratification factor (LDL-C at Screening \[≥100 mg/dL vs \<100 mg/dL\]),and baseline value as model terms. Model also includes treatment by visit and treatment by baseline as interaction terms.|Mixed Models Repeated Measures|||||-16.5|-32.6|<.0001
82667271|NCT02293460|165051087|SUPERIORITY|The response rate was tested against the historical response rate of 33.3%.|Responder rate|76.2|||<|0.0001|TWO_SIDED|95.0|60.5|87.9||One-sided test at nominal level of significance alpha = 2.5 %|exact binomial Clopper-Pearson|||"For this single-arm study, the response rate was tested against the historical response rate of 33.3% with a 1-sided Clopper-Pearson exact test at the nominal level of significance of 2.5% on the Full Analysis Set. The null and alternative hypotheses were as follows:~H0: pI10E \<= 33.3% H1: pI10E \> 33.3%"||87.9|60.5|<0.0001
82667272|NCT01074008|165051109|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
82667273|NCT01074008|165051109|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
82667274|NCT01074008|165051109|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-450/r group and 11 participants in the placebo group would provide \> 95% power to detect a 1.0 log10 difference with a common standard deviation of 0.5 log10 IU/mL using a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
82667275|NCT01074008|165051109|SUPERIORITY_OR_OTHER|||||||0.009||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.009
82667276|NCT01074008|165051109|SUPERIORITY_OR_OTHER|||||||0.012||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.012
82667277|NCT01074008|165051109|SUPERIORITY_OR_OTHER||||||<|0.001||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-072 and 11 participants in the placebo group would provide 92% power to detect a 1.0 log10 difference with a standard deviation of 0.6 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||<0.001
82667278|NCT01074008|165051109|SUPERIORITY_OR_OTHER|||||||0.032||||||There was no adjustment for multiple comparisons and the pre-specified, 2-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight subjects per ABT-333 group and 11 subjects in the placebo group would provide 82% power to detect a 1.0 log10 IU/mL difference with a standard deviation of 0.7 log10 IU/mL and a 2-sided 2-sample t-test with a significance level of 0.05.||||0.032
82667279|NCT01074008|165051109|SUPERIORITY_OR_OTHER|||||||0.053||||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|ANCOVA|Treatment was the factor and baseline log10 HCV RNA level was the covariate.||Eight participants per ABT-333 group and 11 participants in the placebo group would provide 82% power to detect a 1.0 log10 IU/mL difference with a standard deviation of 0.7 log10 IU/mL and a two-sided, two-sample t-test with a significance level of 0.05.||||0.053
82667280|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.001
82667281|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.006
82667282|NCT01074008|165051110|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||<0.001
82667283|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.262|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.262
82667284|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||1|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||1.000
82667285|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.245|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.245
82667286|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.111
82667287|NCT01074008|165051110|SUPERIORITY_OR_OTHER|||||||0.111|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.111
82667288|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667289|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.059
82667290|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667291|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667292|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.37|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.370
82667293|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667294|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667295|NCT01074008|165051111|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667296|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
82667297|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
82667298|NCT01074008|165051124|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||<0.001
82667299|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.024|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.024
82667300|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.319|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.319
82667301|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.013|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.013
82667302|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.005|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.005
82667303|NCT01074008|165051124|SUPERIORITY_OR_OTHER|||||||0.074|TWO_SIDED|||||There was no adjustment for multiple comparisons and the pre-specified, two-sided significance level was ≤ 0.05.|Fisher Exact|||||||0.074
82667304|NCT01435824|165051146|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|106.1|||||TWO_SIDED|90.0|97.5|115.4||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||115.4|97.5|
82667305|NCT01435824|165051147|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|106.2|||||TWO_SIDED|90.0|97.5|115.7||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||115.7|97.5|
82667306|NCT01435824|165051148|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|101.3|||||TWO_SIDED|90.0|89.4|114.9||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||114.9|89.4|
82667307|NCT01435824|165051149|EQUIVALENCE|Bioequivalence is assessed by means of ratios of AUC, Cmax and Tmax between the comparison group and the reference group. According to a common regulatory definition, the comparison preparation (human milk-dissolved amoxicillin in this project) is considered bioequivalent to a standard preparation (water dissolved) if 90% CIs of these ratios between the two preparations for Cmax, Tmax, AUClast and AUC∞ are within a range between 0.80 and 1.25.|mean %ratio and 90% confidence interval|107.9|||||TWO_SIDED|90.0|84.5|137.8||||||A 2x2 crossover design was chosen to examine bioequivalence of milk-based amoxicillin preparation, based on the FDA-recommended design for bioavailability studies. The recommendation suggests that 12 subjects is the minimum number of subjects acceptable for this type of design. We have decided to enrol 16 subjects to account for problems or attrition.||137.8|84.5|
82667308|NCT02339415|165051153|SUPERIORITY||Mean Difference (Net)|0.08|STANDARD_ERROR_OF_MEAN|0.07||0.26|TWO_SIDED|95.0|-0.06|0.21|||Mixed Models Analysis|included predictors: treatment, assigned treatment sequence and pre-treatment biomarker level.|because biomarkers were analyzed on natural log scale, the estimated parameter is the log-transformed mean percent difference in treatment effect on Edoxaban vs. Placebo.|||0.21|-0.06|0.26
82667309|NCT02339415|165051154|SUPERIORITY||Mean Difference (Net)|-0.54|STANDARD_ERROR_OF_MEAN|0.17||0.002|TWO_SIDED|95.0|-0.88|-0.2|||Mixed Models Analysis|included predictors: treatment, assigned treatment sequence and pre-treatment biomarker level.|because biomarkers were analyzed on natural log scale, the estimated parameter is the log-transformed mean percent difference in treatment effect on Edoxaban vs. Placebo.|||-0.20|-0.88|0.002
82667310|NCT00377156|165051164|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-28.2|||<|0.001|TWO_SIDED|90.0|-41.9|-14.4|||Fisher Exact||Cognitive deterioration, the primary end point in evaluable patients at 3 months, was less frequent after Arm I than Arm II (40/63 \[63.5%\] vs 44/48 \[91.7%\],\> respectively. The percent difference was -28.2%; 90% CI, -41.9% to -14.4%; P \< .001).|||-14.4|-41.9|<0.001
82667311|NCT00377156|165051165|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage|-18.4|||<|0.001|TWO_SIDED|95.0|-29.0|-7.8|||Fisher Exact|||||-7.8|-29.0|<0.001
82667312|NCT00377156|165051166|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.9||||0.001|TWO_SIDED|95.0|4.8|19.0|||t-test, 2 sided|||||19.0|4.8|0.001
82667313|NCT00377156|165051167|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-34.4||||0.04|TWO_SIDED|95.0|-74.4|5.5|||Fisher Exact||The incidence of cognitive deterioration was less in Arm I than Arm II at 12 months (6/10 \[60%\] vs 17/18 \[94.4%\]. The percent difference was -34.4% (95% CI: -74.4% to 5.5%; P = .04)|||5.5|-74.4|0.04
82667314|NCT00377156|165051168|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.02||||0.92|TWO_SIDED|95.0|0.75|1.38|||Regression, Cox|||||1.38|0.75|0.92
82667315|NCT00288704|165051169|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
82667316|NCT00288704|165051170|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||"Subjects received rilonacept 160 mg for 9 weeks (weeks 6-15), and then were re-randomized 1:1 into either Placebo or rilonacept 160 mg. The endpoint for the period was 9 weeks later (week 24).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.001
82667317|NCT00288704|165051171|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison of p-value was a parametric ANCOVA main effects model with part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
82667318|NCT00288704|165051172|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison P-Value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
82667319|NCT00288704|165051173|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison p-value is a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<.0001
82667320|NCT00288704|165051174|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||ANCOVA|Comparison p-value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||"Please note that the changes are medians (not means).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.0001
82667321|NCT00288704|165051175|SUPERIORITY_OR_OTHER||||||<|0.01||95.0|||||ANCOVA|Comparison p-value was a parametric ANCOVA main effects model with Part A Baseline variable as covariate and treatment.||"Please note that the changes are medians (not means).~The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used."||||<0.01
82667322|NCT00288704|165051176|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
82667323|NCT00288704|165051177|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
82667324|NCT00288704|165051178|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Fisher Exact|||The sample size calculations at the time suggested 50 subjects would be enrolled at baseline. The Full Analysis Set (FAS) was used. The FAS included subjects who received at least one dose of rilonacept. Last observation carried forward was used.||||<0.0001
82667325|NCT01579006|165051199|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667326|NCT01579006|165051200|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667327|NCT01579006|165051201|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667328|NCT01579006|165051203|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667329|NCT01579006|165051204|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82499467|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.486|STANDARD_ERROR_OF_MEAN|0.857||||90.0|-2.901|-0.071|||ANCOVA|||Extension Month 36; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.071|-2.901|
82667330|NCT01579006|165051210|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667331|NCT01579006|165051211|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667332|NCT01579006|165051212|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667333|NCT01579006|165051213|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667334|NCT01579006|165051214|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667335|NCT01579006|165051216|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Wilcoxon Signed Rank Test|||||||<0.0001
82667336|NCT01957150|165051249|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95 % confidence interval (CI) for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.46|||||TWO_SIDED|95.0|-0.97|0.06|||||Treatment comparison for overall weeks|||0.06|-0.97|
82667337|NCT01957150|165051250|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95% CI for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.47|||||TWO_SIDED|95.0|-1.17|0.24|||||Overall Weeks for Male|||0.24|-1.17|
82667338|NCT01957150|165051251|NON_INFERIORITY|Non-inferiority was demonstrated if the lower limit of 95% CI for the overall treatment difference change from Baseline between FF/VI and VI was greater than -1 % year|Percentage Change from Baseline|-0.4|||||TWO_SIDED|95.0|-1.16|0.36|||||Overall Weeks for female|||0.36|-1.16|
82667339|NCT01957150|165051252|OTHER||Percentage Change from Baseline|-1.02|||||TWO_SIDED|95.0|-1.9|-0.13|||||Overall Weeks for Male|||-0.13|-1.90|
82667340|NCT01957150|165051253|OTHER||Percentage Change from Baseline|-0.05|||||TWO_SIDED|95.0|-0.87|0.78|||||Overall Weeks for female|||0.78|-0.87|
82667341|NCT01957150|165051254|OTHER||Percentage Change from Baseline|-0.51|||||TWO_SIDED|95.0|-1.11|0.1|||||Overall week|||0.10|-1.11|
82667342|NCT03223909|165051255|NON_INFERIORITY|"it was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis of groups in the baseline visit versus final visit"||||||0.08|||||||ANOVA|||||||0.080
82667343|NCT03223909|165051255|NON_INFERIORITY|"it was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis between groups in the final visit"||||||0.848|||||||ANOVA|||||||0.848
82667344|NCT03223909|165051256|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.468|||||||Chi-squared, Corrected|||||||0.468
82667345|NCT03223909|165051257|NON_INFERIORITY|population analysis was per protocol||||||0.0001|||||||ANOVA|||||||0.0001
82499468|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.131|STANDARD_ERROR_OF_MEAN|1.356||||90.0|-5.382|-0.88|||ANCOVA|||Extension Month 39; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.880|-5.382|
82667346|NCT03223909|165051257|NON_INFERIORITY|population analysis was per protocol||||||0.65|||||||Wilcoxon (Mann-Whitney)|||||||0.650
82667347|NCT03223909|165051258|NON_INFERIORITY|"It was considered as not inferior when the treatments did not present differences greater than 20%~Statistical analysis of Humylub® Ofteno (PRO-087) versus Systane® Ultra PF at the final visit."||||||0.003|||||||ANOVA|||||||0.003
82667348|NCT03223909|165051258|NON_INFERIORITY|It was considered as not inferior when the treatments did not present differences greater than 20% Statistical analysis of Humylub® Ofteno (PRO-087) versus Systane® Ultra PF at the final visit.||||||0.003|||||||ANOVA|||||||0.003
82667349|NCT03223909|165051259|NON_INFERIORITY|"the statistical analysis was carried out by intention to treat~It was considered as not inferior when the treatments did not present differences greater than 20%"||||||0.93|||||||Chi-squared|||||||0.930
82667350|NCT03223909|165051260|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.548|||||||ANOVA|||||||0.548
82667351|NCT03223909|165051261|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.17|||||||ANOVA|||||||0.170
82667352|NCT03223909|165051262|NON_INFERIORITY|it was considered as not inferior when the treatments did not present differences greater than 20%||||||0.085|||||||Chi-squared, Corrected|||||||0.085
82667353|NCT01841073|165051293|SUPERIORITY|||||||0.005||||||p-value was calculated, and is not attempting to indicate the threshold for statistical significance|ANCOVA|||||||0.005
82667354|NCT01841073|165051294|SUPERIORITY|||||||0.027|||||||ANCOVA|||||||0.027
82667355|NCT01841073|165051295|SUPERIORITY|||||||0.13|||||||ANCOVA|||||||0.13
82667356|NCT04404907|165051300|OTHER|ANOVA||||||0.02|||||||ANOVA|||feel more attractive||||0.02
82667357|NCT04404907|165051300|OTHER|ANOVA||||||0.001|||||||ANOVA|||tanning helps relax||||0.001
82667358|NCT04404907|165051300|OTHER|||||||0.34|||||||ANOVA|||confident with a tan||||0.34
82667359|NCT04404907|165051300|OTHER|||||||0.0004|||||||ANOVA|||Social activity||||0.0004
82667360|NCT04404907|165051300|OTHER|||||||0.66|||||||ANOVA|||Important to protect skin from the sun||||0.66
82667361|NCT04404907|165051300|OTHER|||||||0.16|||||||ANOVA|||Concern about develop skin cancer||||0.16
82667362|NCT04404907|165051300|OTHER|||||||0.29|||||||ANOVA|||Chances of getting skin cancer are high||||0.29
82667363|NCT00550147|165051301|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.125|STANDARD_ERROR_OF_MEAN|0.1933|<|0.05|TWO_SIDED|95.0|-1.52|-0.72|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-0.72|-1.52|<0.05
82667364|NCT00550147|165051302|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.33|STANDARD_ERROR_OF_MEAN|0.2056|<|0.05||95.0|-1.75|-0.91|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-0.91|-1.75|<0.05
82667365|NCT00550147|165051303|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-47.3|STANDARD_ERROR_OF_MEAN|13.06|<|0.05||95.0|-74.3|-20.2|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-20.2|-74.3|<0.05
82667366|NCT00550147|165051304|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.17|STANDARD_ERROR_OF_MEAN|1.39|<|0.05|TWO_SIDED|95.0|-7.04|-1.29|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-1.29|-7.04|<0.05
82667367|NCT00550147|165051305|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-13.29|STANDARD_ERROR_OF_MEAN|2.16|<|0.05||95.0|-17.76|-8.82|||t-test, 2 sided|Paired t-test (comparing augmentation period start score with end score), 23 df. Value is Visit 10 score minus Visit 5 score (null hypothesis=0).|This was a comparison of pre-post change in a single group, with treatment administered open-label.|This was a repeated-measures analysis, using a single group of subjects who were administered quetiapine in addition to OROS mph. Results reported here are for the augmentation period (Visit 5-10). See Kronenberger et al. (2007, Journal of Child and Adolescent Psychopharmacology) for additional information.||-8.82|-17.76|<0.05
82667368|NCT01321177|165051331|SUPERIORITY|||||||0.0145|||||||Regression, Linear|||||||0.0145
82667369|NCT00715676|165051346|SUPERIORITY_OR_OTHER|||||||0.641||||||The Hochberg method was used to compare dose groups to placebo and control the Type 1 error rate.|ANOVA|||A sample size of 49 per treatment group was calculated to have at least 90% power to detect a 2% or greater increase over placebo assuming the following: (1) a standard deviation of the percent change of 2.75% (2) a dropout rate of 30%, and (3) one-sided 0.05 level of significance||||0.641
82667370|NCT00715676|165051346|SUPERIORITY_OR_OTHER|||||||0.243||95.0||||The Hochberg method was used to compare dose groups to placebo and control the Type 1 error rate.|ANOVA|||A sample size of 49 per treatment group was calculated to have at least 90% power to detect a 2% or greater increase over placebo assuming the following: (1) a standard deviation of the percent change of 2.75% (2) a dropout rate of 30%, and (3) one-sided 0.05 level of significance||||0.243
82667371|NCT00715676|165051347|SUPERIORITY_OR_OTHER|||||||0.778||95.0|||||ANOVA|||||||0.778
82667372|NCT00715676|165051347|SUPERIORITY_OR_OTHER|||||||0.173||95.0|||||ANOVA|||||||0.173
82667373|NCT00715676|165051348|SUPERIORITY_OR_OTHER|||||||0.395||95.0|||||ANOVA|||||||0.395
82667374|NCT00715676|165051348|SUPERIORITY_OR_OTHER|||||||0.523||95.0|||||ANOVA|||||||0.523
82667375|NCT00715676|165051349|SUPERIORITY_OR_OTHER|||||||0.928||95.0|||||ANOVA|||||||0.928
82667376|NCT00715676|165051349|SUPERIORITY_OR_OTHER|||||||0.124||95.0|||||ANOVA|||||||0.124
82667377|NCT00715676|165051350|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.173||||||90.0|0.164|0.181||||||||0.181|0.164|
82667378|NCT00715676|165051350|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.582||||||90.0|0.573|0.591||||||||0.591|0.573|
82499469|NCT00137046|164689615|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.487|STANDARD_ERROR_OF_MEAN|0.866||||90.0|-2.918|-0.055|||ANCOVA|||Extension Follow Up Month 3; Treatment-Difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted model includes terms of Treatment, Baseline Body Weight, and Center.||-0.055|-2.918|
82667379|NCT01067521|165051355|SUPERIORITY||Risk Ratio (RR)|0.656|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.539|0.799||The overall significance level for this study is 5%|Negative Binomial Regression||GA 40 mg vs. placebo|"Relapses were estimated by a baseline-adjusted, Negative Binomial Regression with an offset based on the log of subject's exposure to treatment. The model included the following covariates: - Baseline EDSS score. - Log of the prior 2-year number of relapses. - Volume of T2 lesions at baseliner. - Status of Gd-enhancing T1 activity at baseline (=0 no Gd-enhancing T1 at baseline; =1 at least one Gd-enhancing T1 at baseline). - CGR."||0.799|0.539|<0.0001
82667380|NCT01067521|165051356|SUPERIORITY||Risk Ratio (RR)|0.653|STANDARD_ERROR_OF_MEAN|0.059|<|0.0001|TWO_SIDED|95.0|0.546|0.78||The overall significance level for this study is 5%|Negative binomial regression||GA 40 mg vs. placebo|Negative binomial regression||0.780|0.546|<.0001
82667381|NCT01067521|165051357|SUPERIORITY||Risk Ratio (RR)|0.552|STANDARD_ERROR_OF_MEAN|0.066|<|0.0001|TWO_SIDED|95.0|0.436|0.699||The overall significance level for this study is 5%|Negative Binomial Regression||GA 40 mg vs. placebo|||0.699|0.436|<0.0001
82667382|NCT01067521|165051358|SUPERIORITY||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.048||0.2058|TWO_SIDED|95.0|-0.154|0.033||The overall significance level for this study is 5%|ANCOVA||GA 40 mg vs Placebo|||0.033|-0.154|0.2058
82667383|NCT01067521|165051359|SUPERIORITY||Risk Ratio (RR)|0.8332|STANDARD_ERROR_OF_MEAN|0.0744||0.0409|TWO_SIDED|95.0|0.6995|0.9925||not adjusted for multiplicity|Negative Binomial Regression||Early Start vs Delayed Start|Entire Study The Negative Binomial Regression model covariates: • treatment group • PCBL (Placebo-Controlled Baseline) Kurtzke's Expanded Disability Status Scale (EDSS) score as 1 degree of freedom variable • Log of the # of relapses in the 2 years prior to PCBL • Volume of T2 lesions at PCBL • Status of Gd-enhancing T1 lesion activity at PCBL (=0 if no Gd-enhancing T1 lesions at PCBL; =1 if at least one Gd-enhancing T1 lesion at PCBL) • Country or Geographical Region (CGR)||0.9925|0.6995|0.0409
82667384|NCT01067521|165051360|SUPERIORITY||Risk Ratio (RR)|0.736|STANDARD_ERROR_OF_MEAN|0.081||0.0056|TWO_SIDED|95.0|0.592|0.914||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 6 Negative binomial regression||0.914|0.592|0.0056
82667385|NCT01067521|165051360|SUPERIORITY||Risk Ratio (RR)|0.633|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|0.524|0.765||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 12 Negative binomial regression||0.765|0.524|<0.0001
82667386|NCT01067521|165051360|SUPERIORITY||Risk Ratio (RR)|0.666|STANDARD_ERROR_OF_MEAN|0.061|<|0.0001|TWO_SIDED|95.0|0.557|0.797||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 36 Negative binomial regression||0.797|0.557|<0.0001
82667387|NCT01067521|165051361|SUPERIORITY||Risk Ratio (RR)|0.556|STANDARD_ERROR_OF_MEAN|0.093||0.0005|TWO_SIDED|95.0|0.4|0.773||not adjusted for multiplicity|Negative Binomial Regression||Early Start vs Delayed Start|Month 6||0.773|0.4|0.0005
82667388|NCT01067521|165051361|SUPERIORITY||Risk Ratio (RR)|0.514|STANDARD_ERROR_OF_MEAN|0.073|<|0.0001|TWO_SIDED|95.0|0.388|0.679||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 12||0.679|0.388|<0.0001
82667389|NCT01067521|165051361|SUPERIORITY||Risk Ratio (RR)|0.663|STANDARD_ERROR_OF_MEAN|0.086||0.0015|TWO_SIDED|95.0|0.514|0.854||not adjusted for multiplicity|Negative binomial regression||Early Start vs Delayed Start|Month 36||0.854|0.514|0.0015
82667390|NCT01067521|165051362|SUPERIORITY||Mean Difference (Final Values)|-0.084|STANDARD_ERROR_OF_MEAN|0.041||0.0425|TWO_SIDED|95.0|-0.166|-0.003||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 6||-0.003|-0.166|0.0425
82667391|NCT01067521|165051362|SUPERIORITY||Mean Difference (Final Values)|-0.086|STANDARD_ERROR_OF_MEAN|0.05||0.0844|TWO_SIDED|95.0|-0.184|0.012||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 12||0.012|-0.184|0.0844
82667392|NCT01067521|165051362|SUPERIORITY||Mean Difference (Final Values)|0.017|STANDARD_ERROR_OF_MEAN|0.106||0.8701|TWO_SIDED|95.0|-0.91|0.225||not adjusted for multiplicity|Mixed model for repeated measures (MMRM)||Early Start vs Delayed Start|Month 36||0.225|-0.91|0.8701
82667393|NCT02151149|165051365|SUPERIORITY||Risk Ratio (RR)|1.01||||0.9258|TWO_SIDED|95.0|0.84|1.21|||Cochran-Mantel-Haenszel|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||1.21|0.84|0.9258
82667394|NCT02151149|165051372|SUPERIORITY||Hazard Ratio (HR)|0.52||||0.0036|TWO_SIDED|95.0|0.33|0.81|||Stratified Log Rank|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||0.81|0.33|0.0036
82667395|NCT02151149|165051373|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.3537|TWO_SIDED|95.0|0.54|1.25|||Stratified log-rank test|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma).||||1.25|0.54|0.3537
82667396|NCT02151149|165051374|SUPERIORITY||Risk Ratio (RR)|1.56||||0.0597|TWO_SIDED|95.0|0.971|2.511|||Cochran-Mantel-Haenszel|Based on stratification factors of ECOG PS at screening (0 vs. 1) and histology (squamous cell carcinoma vs. non-squamous cell carcinoma)..||||2.511|0.971|0.0597
82667397|NCT00830167|165051391|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.17||0.0046|TWO_SIDED|95.0|-0.78|-0.11||The analysis was conducted using 1-sided test with the significance level of 0.025. Actual significance level was calculated based on O'Brien-Fleming type alpha spending function of Lan and DeMets (1983).|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.11|-0.78|0.0046
82667398|NCT00830167|165051392|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0078|TWO_SIDED|||||The analysis was conducted using 2-sided test with the significance level of 0.05.|Chi-squared|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that there was a difference between the pregabalin and the placebo groups.||||0.0078
82667399|NCT00830167|165051393|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.48|STANDARD_ERROR_OF_MEAN|1.85|<|0.0001|TWO_SIDED|95.0|-13.12|-5.85||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-5.85|-13.12|<0.0001
82667400|NCT00830167|165051394|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.98|STANDARD_ERROR_OF_MEAN|1.88||0.9958|TWO_SIDED|95.0|1.29|8.68||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||8.68|1.29|0.9958
82667401|NCT00830167|165051395|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-4.99|STANDARD_ERROR_OF_MEAN|1.92||0.0049|TWO_SIDED|95.0|-8.77|-1.21||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-1.21|-8.77|0.0049
82667402|NCT00830167|165051396|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.29|STANDARD_ERROR_OF_MEAN|0.09||0.0007|TWO_SIDED|95.0|0.11|0.47||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.47|0.11|0.0007
82667403|NCT00830167|165051397|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|7.48|STANDARD_ERROR_OF_MEAN|1.99|<|0.0001|TWO_SIDED|95.0|3.58|11.38||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||11.38|3.58|<0.0001
82667404|NCT00830167|165051398|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|11.31|STANDARD_ERROR_OF_MEAN|1.82||1|TWO_SIDED|95.0|7.74|14.87||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||14.87|7.74|1.0000
82667405|NCT00830167|165051399|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.99|STANDARD_ERROR_OF_MEAN|1.35||0.0137|TWO_SIDED|95.0|-5.65|-0.33||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.33|-5.65|0.0137
82667406|NCT00830167|165051400|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.45||||0.0687|TWO_SIDED|95.0|0.9|2.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|Regression, Logistic|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||2.35|0.90|0.0687
82667407|NCT00830167|165051401|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.73|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.06|-0.4||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.40|-1.06|<0.0001
82667408|NCT00830167|165051402|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.33|STANDARD_ERROR_OF_MEAN|1.52||0.0144|TWO_SIDED|95.0|-6.31|-0.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.35|-6.31|0.0144
82667409|NCT00830167|165051403|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.16||0.0376|TWO_SIDED|95.0|-0.59|0.03||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.03|-0.59|0.0376
82667410|NCT00830167|165051404|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.63|STANDARD_ERROR_OF_MEAN|0.25||0.0052|TWO_SIDED|95.0|-1.12|-0.15||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.15|-1.12|0.0052
82667411|NCT00830167|165051405|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.01|STANDARD_ERROR_OF_MEAN|0.21||0.4768|TWO_SIDED|95.0|-0.42|0.4||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.40|-0.42|0.4768
82667412|NCT00830167|165051406|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.31|STANDARD_ERROR_OF_MEAN|0.21||0.0729|TWO_SIDED|95.0|-0.74|0.11||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.11|-0.74|0.0729
82667413|NCT00830167|165051407|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.41|STANDARD_ERROR_OF_MEAN|0.21||0.0238|TWO_SIDED|95.0|-0.81|0.0||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.00|-0.81|0.0238
82667414|NCT00830167|165051408|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0075|TWO_SIDED|95.0|-0.89|-0.1||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.10|-0.89|0.0075
82667415|NCT00830167|165051409|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.21||0.0023|TWO_SIDED|95.0|-1.01|-0.18||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-0.18|-1.01|0.0023
82667416|NCT00830167|165051410|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.2568|TWO_SIDED|95.0|-0.57|0.29||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.29|-0.57|0.2568
82667417|NCT00830167|165051411|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.22||0.1011|TWO_SIDED|95.0|-0.72|0.15||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.15|-0.72|0.1011
82667418|NCT00830167|165051412|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.2||0.4165|TWO_SIDED|95.0|-0.44|0.35||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.35|-0.44|0.4165
82667419|NCT00830167|165051413|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.29|STANDARD_ERROR_OF_MEAN|1.32||0.0006|TWO_SIDED|95.0|1.7|6.88||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||6.88|1.70|0.0006
82667420|NCT00830167|165051414|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.68|STANDARD_ERROR_OF_MEAN|1.84||0.1805|TWO_SIDED|95.0|-1.93|5.29||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.29|-1.93|0.1805
82667421|NCT00830167|165051415|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.15|STANDARD_ERROR_OF_MEAN|1.5||0.077|TWO_SIDED|95.0|-0.81|5.1||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.10|-0.81|0.0770
82667422|NCT00830167|165051416|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.83|STANDARD_ERROR_OF_MEAN|1.2||0.0648|TWO_SIDED|95.0|-0.54|4.19||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||4.19|-0.54|0.0648
82667423|NCT00830167|165051417|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|1.59|STANDARD_ERROR_OF_MEAN|1.94||0.2068|TWO_SIDED|95.0|-2.23|5.41||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.41|-2.23|0.2068
82667424|NCT00830167|165051418|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.23|STANDARD_ERROR_OF_MEAN|1.92||0.548|TWO_SIDED|95.0|-4.0|3.54||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||3.54|-4.00|0.5480
82667425|NCT00830167|165051419|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|4.42|STANDARD_ERROR_OF_MEAN|1.72||0.0052|TWO_SIDED|95.0|1.04|7.8||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||7.80|1.04|0.0052
82667426|NCT00830167|165051420|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.64|STANDARD_ERROR_OF_MEAN|1.39||0.0287|TWO_SIDED|95.0|-0.08|5.37||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||5.37|-0.08|0.0287
82667427|NCT00830167|165051421|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.48|STANDARD_ERROR_OF_MEAN|0.25||0.0262|TWO_SIDED|95.0|-0.97|0.01||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.01|-0.97|0.0262
82667428|NCT00830167|165051422|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.28|STANDARD_ERROR_OF_MEAN|0.28||0.1561|TWO_SIDED|95.0|-0.83|0.27||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||0.27|-0.83|0.1561
82667429|NCT00830167|165051423|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-6.19|STANDARD_ERROR_OF_MEAN|2.04||0.0013|TWO_SIDED|95.0|-10.2|-2.18||The analysis was conducted using 1-sided test with the significance level of 0.025.|ANCOVA|||The null hypothesis was to assume that there was no difference between the pregabalin and placebo groups. The alternative was that the pregabalin group was superior to the placebo group.||-2.18|-10.20|0.0013
82667430|NCT01499160|165051432|OTHER|Not done due to low accrual||||||||||||Not done due to low accrual|Not done due to low accrual|Not done due to low accrual||Not done due to low accrual|Not done due to low accrual|||
82667431|NCT04979858|165051485|OTHER|The statistical analysis involved the use of a single-factor ANOVA test to assess the importance of the various factors associated with the design of the Focal Mask (the Treatment) that would impact its performance in reducing the spread of COVID-19, which is caused by the SARS-CoV-2 virus. The Bonferroni t-test was conducted post hoc to assess the statistical significance of the various factors.|||||<|0.01|||||||ANOVA|||||||<0.01
82667432|NCT00860262|165051501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|1.18|<|0.0001|TWO_SIDED|95.0|-12.9|-8.3|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus Telmisartan 80 mg|||-8.3|-12.9|<0.0001
82667433|NCT00860262|165051501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.4|STANDARD_ERROR_OF_MEAN|1.18||0.0002|TWO_SIDED|95.0|-6.7|-2.1|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.1|-6.7|0.0002
82667434|NCT00860262|165051502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.6|STANDARD_ERROR_OF_MEAN|1.25|<|0.0001|TWO_SIDED|95.0|-13.1|-8.2|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-8.2|-13.1|<0.0001
82667435|NCT00860262|165051502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.24||0.0001|TWO_SIDED|95.0|-7.3|-2.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.4|-7.3|0.0001
82667436|NCT00860262|165051503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.2|STANDARD_ERROR_OF_MEAN|1.24|<|0.0001|TWO_SIDED|95.0|-12.6|-7.7|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-7.7|-12.6|<0.0001
82667437|NCT00860262|165051503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.8|STANDARD_ERROR_OF_MEAN|1.24||0.0001|TWO_SIDED|95.0|-7.2|-2.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.4|-7.2|0.0001
82667438|NCT00860262|165051504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.8|STANDARD_ERROR_OF_MEAN|1.2|<|0.0001|TWO_SIDED|95.0|-10.2|-5.4|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-5.4|-10.2|<0.0001
82667439|NCT00860262|165051504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.6|STANDARD_ERROR_OF_MEAN|1.21||0.0001|TWO_SIDED|95.0|-7.0|-2.3|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-2.3|-7.0|0.0001
82667440|NCT00860262|165051505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.4|STANDARD_ERROR_OF_MEAN|1.23|<|0.0001|TWO_SIDED|95.0|-8.8|-4.0|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus telmisartan 80 mg|||-4.0|-8.8|<0.0001
82667441|NCT00860262|165051505|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|1.23||0.0077|TWO_SIDED|95.0|-5.7|-0.9|||Repeated measures ANCOVA||Difference calculated as T80+A10 minus amlodipine 10 mg|||-0.9|-5.7|0.0077
82667442|NCT00608634|165051540|SUPERIORITY_OR_OTHER|||||||0.1|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.10
82667443|NCT00608634|165051540|SUPERIORITY_OR_OTHER|||||||0.41|||||||Wilcoxon (Mann-Whitney)|||||||0.41
82667444|NCT00608634|165051541|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||||||>0.05
82667445|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|1.01|||||TWO_SIDED|95.0|0.39|2.61|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||2.61|0.39|
82667446|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|0.46|3.27|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||3.27|0.46|
82667447|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|1.75|||||TWO_SIDED|95.0|0.73|4.15|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||4.15|0.73|
82667448|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|2.04|||||TWO_SIDED|95.0|0.83|5.01|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||5.01|0.83|
82667449|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|1.13|||||TWO_SIDED|95.0|0.35|3.66|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Unadjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment. The confidence intervals was determined using the Wald method to determine the variance.||3.66|0.35|
82667450|NCT04640194|165051544|OTHER||Hazard Ratio (HR)|1.19|||||TWO_SIDED|95.0|0.33|4.22|||||A hazard ratio \> 1 favours the alteplase dose group over standard of care alone.|Adjusted Hazard Ratio: Cox proportional hazard model containing fixed effect for treatment,ventilation status at baseline and age. The confidence intervals was determined using the Wald method to determine the variance.||4.22|0.33|
82667451|NCT04640194|165051545|OTHER||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-10.892|24.8734|||||Chan and Zhang exact confidence interval.|||24.8734|-10.892|
82667452|NCT04640194|165051545|OTHER||Risk Difference (RD)|20.0|||||TWO_SIDED|95.0|2.3075|43.6615|||||Chan and Zhang exact confidence interval.|||43.6615|2.3075|
82667453|NCT04640194|165051545|OTHER||Risk Difference (RD)|11.76|||||TWO_SIDED|95.0|-24.127|36.9012|||||Chan and Zhang exact confidence interval.|||36.9012|-24.127|
82667454|NCT04640194|165051546|OTHER||Risk Difference (RD)|-16.6|||||TWO_SIDED|95.0|-38.6|5.5|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||5.5|-38.6|
82667455|NCT04640194|165051546|OTHER||Risk Difference (RD)|-11.8|||||TWO_SIDED|95.0|-35.1|11.6|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||11.6|-35.1|
82667456|NCT04640194|165051546|OTHER||Risk Difference (RD)|-19.1||||0.2419|TWO_SIDED|95.0|-51.1|12.9|||The delta method and average marginal.||Calculated as alteplase dose group - standard of care alone.|Unadjusted risk difference and 95% CI is based upon average marginal effect Delta method, adjusting for treatment.||12.9|-51.1|0.2419
82667457|NCT04640194|165051547|OTHER||Risk Difference (RD)|-9.0|||||TWO_SIDED|95.0|-37.1|19.1|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.1|-37.1|
82667458|NCT04640194|165051547|OTHER||Risk Difference (RD)|-9.1|||||TWO_SIDED|95.0|-37.2|19.0|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.0|-37.2|
82667459|NCT04640194|165051547|OTHER||Risk Difference (RD)|14.5||||0.2523|TWO_SIDED|95.0|-10.3|39.3|||The delta method and average marginal.||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% CI is based upon average marginal effect Delta method, adjusting for baseline D-dimer status, age, days of NIV support and treatment.||39.3|-10.3|0.2523
82667460|NCT04640194|165051548|OTHER||Mean Difference (Final Values)|3.1|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-4.4|10.6|||||Calculated as alteplase dose group - standard of care alone.|Parameters included in model: treatment,ventilation status at baseline, and age.||10.6|-4.4|
82667461|NCT04640194|165051548|OTHER||Median Difference (Final Values)|4.3|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|-3.2|11.8|||||Calculated as alteplase dose group - standard of care alone.|Parameters included in model: treatment,ventilation status at baseline, and age.||11.8|-3.2|
82667462|NCT04640194|165051549|OTHER||Risk Difference (RD)|-4.9|||||TWO_SIDED|95.0|-29.0|19.2|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||19.2|-29.0|
82667463|NCT04640194|165051549|OTHER||Risk Difference (RD)|-15.2|||||TWO_SIDED|95.0|-36.8|6.3|||||Calculated as alteplase dose group - standard of care alone.|Adjusted risk difference and 95% confidence interval is based upon average marginal effect Delta method, adjusting for baseline ventilation status, age and treatment.||6.3|-36.8|
82667464|NCT04640194|165051550|OTHER||Median Difference (Net)|17.193|||||TWO_SIDED|95.0|-28.45|52.33|||||Calculated as alteplase dose group - standard of care alone.|Based upon Hedges-Lehmann estimator handling deaths as failure and Wilcoxon rank sum test methodology.||52.33|-28.45|
82667465|NCT04640194|165051550|OTHER||Median Difference (Final Values)|54.436|||||TWO_SIDED|95.0|0.49|110.36|||||Calculated as alteplase dose group - standard of care alone.|Based upon Hedges-Lehmann estimator handling deaths as failure and Wilcoxon rank sum test methodology.||110.36|0.49|
82667466|NCT04640194|165051552|OTHER||Median Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|3.6||0.9856|TWO_SIDED|95.0|-7.5|7.6|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Unadjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment.||7.6|-7.5|0.9856
82667467|NCT04640194|165051552|OTHER||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|3.8||0.8729|TWO_SIDED|95.0|-8.5|7.3|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Adjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment, the number of days under NIV support, baseline D-Dimer level and age.||7.3|-8.5|0.8729
82667468|NCT04640194|165051553|OTHER||Mean Difference (Net)|70.9|STANDARD_ERROR_OF_MEAN|35.8||0.0603|TWO_SIDED|95.0|-3.3|145.1|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Unadjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment.||145.1|-3.3|0.0603
82667469|NCT04640194|165051553|OTHER||Mean Difference (Final Values)|87.2|STANDARD_ERROR_OF_MEAN|38.5||0.0362|TWO_SIDED|95.0|6.3|168.0|||ANCOVA||Calculated as alteplase dose group - standard of care alone.|Adjusted mean difference: A restricted maximum likelihood (REML) based Analysis of Covariance (ANCOVA) was used. Adjustment was made for treatment, the number of days under NIV support, baseline D-Dimer level, baseline PaO2/FiO2 ratio and age.||168.0|6.3|0.0362
82667470|NCT00096460|165051576|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Survival Probability|62.7|||||TWO_SIDED|95.0|43.8|89.6||||||||89.6|43.8|
82667471|NCT00096460|165051576|SUPERIORITY_OR_OTHER_LEGACY||Kaplan-Meier Survival Probability|85.7||||||95.0|63.3|100.0||||||||100|63.3|
82667472|NCT03759379|165051578|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|-17.0|STANDARD_ERROR_OF_MEAN|2.44|<|1e-07|TWO_SIDED|95.0|-21.78|-12.22||P=3.542E-12|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset) and continuous covariate (baseline value).||-12.22|-21.78|<0.0000001
82667473|NCT03759379|165051579|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|-16.2|STANDARD_ERROR_OF_MEAN|2.8|<|1e-07|TWO_SIDED|95.0|-21.7|-10.8||P=5.426E-09|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset baseline NIS) and continuous covariate (baseline value).||-10.8|-21.7|<0.0000001
82667474|NCT03759379|165051580|EQUIVALENCE|H0: No difference between vutrisiran and external placebo comparator (APOLLO): difference (vutrisiran - placebo) = 0|LS Mean Difference|0.131|STANDARD_ERROR_OF_MEAN|0.031|<|1e-07|TWO_SIDED|95.0|0.07|0.193||P=3.103E-05|ANCOVA with Multiple Imputation|||Multiple imputation estimates and p-value derived per combining least squares (LS) estimates per Rubin's rules based on 100 datasets where missing Month 9 values were imputed using a regression procedure including select baseline variables. LS estimates derived from analysis of covariance model, controlling for categorical factors (treatment, genotype, age of disease onset, baseline NIS) and continuous covariate (baseline value).||0.193|0.070|<0.0000001
82667475|NCT02325414|165051587|SUPERIORITY||Median Difference (Final Values)|10.61||||0.05|TWO_SIDED||||||Mixed Models Analysis||||One-year data analysis were carried out using linear mixed-effects models. Covariate adjustments for baseline value of the corresponding outcome and ambulatory status (measured by WISCI) were performed by fitting these variables as fixed factors. The repeated measures were addressed using participant identification as random intercepts in the model.|||0.05
82667476|NCT04817189|165051602|SUPERIORITY||Odds Ratio (OR)|1.67|||<|0.05|TWO_SIDED|95.0|1.12|2.49|||generalized linear model||||"The model-based statistics were used to calculate the difference in the probability to experience a per cycle complete response between the treatment arms."|2.49|1.12|<0.05
82667477|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|0.89||||0.412|TWO_SIDED|95.0|0.68|1.17|||generalized linear model||Reference category is set to Sleep ≥ 7 h, compared to Sleep \< 7 h.|"The hypothesis states that the potential risk factor of \< 7 h of sleep the night before chemotherapy increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.17|0.68|0.412
82667478|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|1.14||||0.592|TWO_SIDED|95.0|0.71|1.8|||generalized linear model||Reference category is set to Without history, compared to With history.|"The hypothesis states that the potential risk factor of History of any nausea and vomiting such as motion sickness, vestibular dysfunction, … increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.80|0.71|0.592
82667479|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|1.15||||0.458|TWO_SIDED|95.0|0.8|1.65|||generalized linear model||Reference category is set to No anticipatory, compared to Anticipatory.|"The hypothesis states that the potential risk factor of Anticipatory nausea and/or vomiting increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.65|0.80|0.458
82667480|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|1.08||||0.663|TWO_SIDED|95.0|0.75|1.56|||generalized linear model||Reference category is set to No anxiety, compared to Anxiety.|"The hypothesis states that the potential risk factor of Anxiety over the past 24hrs increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.56|0.75|0.663
82667481|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|0.88||||0.691|TWO_SIDED|95.0|0.46|1.68|||generalized linear model||Reference category is set to \< 10 units per week, compared to \>= 10 units per week.|"The hypothesis states that the potential risk factor of Alcohol intake (\>= 10 units per week vs \< 10 units per week) increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratio."||1.68|0.46|0.691
82667482|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|1.48||||0.037|TWO_SIDED|95.0|1.02|2.14|||generalized linear model||Reference category is set to Male, compared to Female.|"The hypothesis states that the potential risk factor of Gender increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||2.14|1.02|0.037
82667483|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|1.09||||0.514|TWO_SIDED|95.0|0.84|1.42|||generalized linear model||Reference category is set to No fatigue experience, compared to Fatigue experience.|"The hypothesis states that the potential risk factor of Fatigue experience (symptom) increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.42|0.84|0.514
82667484|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|0.75||||0.127|TWO_SIDED|95.0|0.52|1.08|||generalized linear model||Reference category is set to Non smoker, compared to Former smoker or smoker.|"The hypothesis states that the potential risk factor of Smoking status increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||1.08|0.52|0.127
82667485|NCT04817189|165051604|SUPERIORITY||Odds Ratio (OR)|0.87||||0.014|TWO_SIDED|95.0|0.77|0.97|||generalized linear model||The OR was calculated as the change in weight per 10 kg.|"The hypothesis states that the potential risk factor of Weight increases the risk of CINV, defined as any occurrence of nausea or a vomiting episode.~This potential risk factor was included in the generalized linear model as covariate, and its effect was evaluated using odds ratios."||0.97|0.77|0.014
82667486|NCT04817189|165051611|SUPERIORITY||Mean Difference (Net)|3.5|||<|0.05|TWO_SIDED|95.0|0.05|6.96|||generalized linear model||||"The model-based statistics were used to calculate the difference in the score per cycle between the treatment arms."|6.96|0.05|<0.05
82667487|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.06|||<|0.05|TWO_SIDED|95.0|-0.13|0.01|||generalized linear model||Number of vomiting episodes - acute phase|||0.01|-0.13|<0.05
82667488|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.31|||<|0.05|TWO_SIDED|95.0|-0.5|-0.12|||generalized linear model||Number of vomiting episodes - delayed phase|||-0.12|-0.50|<0.05
82667489|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.12|||<|0.05|TWO_SIDED|95.0|-0.21|-0.02|||generalized linear model||||Number of vomiting episodes - Day 2|-0.02|-0.21|<0.05
82667490|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.07|||<|0.05|TWO_SIDED|95.0|-0.17|0.04|||generalized linear model||Number of vomiting episodes - Day 3|||0.04|-0.17|<0.05
82667491|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.05|||<|0.05|TWO_SIDED|95.0|-0.16|0.05|||generalized linear model||Number of vomiting episodes - Day 4|||0.05|-0.16|<0.05
82667492|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.04|||<|0.05|TWO_SIDED|95.0|-0.13|0.05|||generalized linear model||Number of vomiting episodes - Day 5|||0.05|-0.13|<0.05
82667493|NCT04817189|165051622|SUPERIORITY||Mean Difference (Net)|-0.37|||<|0.05|TWO_SIDED|95.0|-0.6|-0.14|||generalized linear model||Number of vomiting episodes - overall phase|||-0.14|-0.60|<0.05
82667494|NCT02555254|165051633|SUPERIORITY|||||||0.55|||||||Wilcoxon's rank test|||||||0.55
82667495|NCT04736199|165051634|SUPERIORITY||Hazard Ratio (HR)|0.541|||<|0.0001|TWO_SIDED|95.0|0.413|0.707||One-sided|Log Rank|||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.707|0.413|<0.0001
82667496|NCT04736199|165051635|SUPERIORITY||Hazard Ratio (HR)|0.813||||0.1007|TWO_SIDED|95.0|0.591|1.118||One-sided|Log Rank||significance level of 0.0185 (one-sided)|Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||1.118|0.591|0.1007
82667497|NCT04736199|165051636|OTHER||Hazard Ratio (HR)|0.404|||||TWO_SIDED|95.0|0.321|0.508||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.508|0.321|
82667498|NCT04736199|165051637|OTHER||Hazard Ratio (HR)|0.401|||||TWO_SIDED|95.0|0.288|0.558||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.558|0.288|
82667499|NCT04736199|165051638|OTHER||Hazard Ratio (HR)|0.306|||||TWO_SIDED|95.0|0.231|0.405||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.405|0.231|
82667500|NCT04736199|165051639|OTHER||Rate difference|44.3|||||TWO_SIDED|95.0|37.4|51.2||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||51.2|37.4|
82667501|NCT04736199|165051640|OTHER||Hazard Ratio (HR)|0.721|||||TWO_SIDED|95.0|0.544|0.957||||||Analyzed with log-rank test and Cox regression proportional hazard model, stratified by the same factor as used for randomization visceral disease (present versus absent), prior local therapy (Yes versus No).||0.957|0.544|
82667502|NCT02775851|165051642|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial|||We assumed a null pCR rate of 5% and powered the study assuming an alternative hypothesis of 25%. This single stage design had an alpha of 3.4% (i.e. probability of declaring the regimen warrants further study when the true CR is 5%) and a power of 90% (probability of declaring the regimen warrants further study when the true pCR is 25%) with 25 eligible participants.||||<0.001
82667503|NCT02775851|165051643|SUPERIORITY||||||<|0.001|||||||One-sided Exact Binomial|||We assumed a null CR rate of 5% and powered the study assuming an alternative hypothesis of 20%. This single stage design had an alpha of 8.5% (i.e. probability of declaring the regimen warrants further study when the true CR is 5%) and a power of 82% (probability of declaring the regimen warrants further study when the true CR is 20%) with 21 eligible participants.||||<0.001
82667504|NCT05186415|165051719|OTHER||Intraclass coefficient|0.84|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-diastolic volumes were compared between two groups using an intraclass coefficient||||
82667505|NCT05186415|165051719|OTHER||Intraclass coefficient|0.77|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-diastolic volumes were compared between two groups using an intraclass coefficient||||
82667506|NCT05186415|165051719|OTHER||Intraclass coefficient|0.71|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-systolic volumes were compared between two groups using an intraclass coefficient||||
82667507|NCT05186415|165051719|OTHER||Intraclass coefficient|0.685|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular end-systolic volumes were compared between two groups using an intraclass coefficient||||
82667508|NCT05186415|165051720|OTHER||Intraclass Coefficient|0.44|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular ejection fraction were compared between non-contrast echocardiogram and cardiac MRI using an intraclass coefficient||||
82667509|NCT05186415|165051720|OTHER||Intraclass coefficient|0.13|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|Measurements of right ventricular ejection fraction were compared between contrast echocardiogram and cardiac MRI using an intraclass coefficient||||
82667510|NCT05186415|165051722|OTHER|Intraclass coefficient used to assess agreement between non-contrast echocardiographic values and cardiac MRI global longitudinal strain|Intraclass coefficient|0.419|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|||||
82667511|NCT05186415|165051722|OTHER|Intraclass coefficient used to assess agreement between contrast echocardiographic values and cardiac MRI global longitudinal strain|Intraclass coefficient|0.0|||||TWO_SIDED||||||||Intraclass coefficient using a two-way mixed effects model|||||
82667512|NCT03403439|165051747|OTHER||Geometric Mean (T/R) ratio (%)|222.13|||||TWO_SIDED|90.0|203.47|242.49|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 14.2.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||242.49|203.47|
82667513|NCT03403439|165051748|OTHER||Geometric Mean (T/R) ratio (%)|127.96|||||TWO_SIDED|90.0|117.65|139.17|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 13.6.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||139.17|117.65|
82667514|NCT03403439|165051749|OTHER||Geometric Mean (T/R) ratio (%)|229.26|||||TWO_SIDED|90.0|207.82|252.93|||||To get, gMean ratio (T/R) and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 15.9.|The analysis of variance (ANOVA) model included effects accounting for the following sources of variation: 'subject' and 'treatment'. The effect 'subject' was considered as random, whereas the effect 'treatment' was considered as fixed. No hypothesis was tested and no acceptance range was specified.||252.93|207.82|
82667515|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.62||||0.055|TWO_SIDED|90.0|0.44|0.88||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.44|0.055
82667516|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.64|||<|0.001|TWO_SIDED|90.0|0.55|0.73||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.73|0.55|<0.001
82667517|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.68||||0.22|TWO_SIDED|90.0|0.44|1.04||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.04|0.44|0.22
82667518|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.6|||<|0.001|TWO_SIDED|90.0|0.49|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.72|0.49|<0.001
82667519|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.76|||<|0.05|TWO_SIDED|90.0|0.64|0.89||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.64|<0.05
82667520|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.71|||<|0.05|TWO_SIDED|90.0|0.57|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.57|<0.05
82667521|NCT00042289|165051750|SUPERIORITY||Geometric mean ratio|0.98||||0.78|TWO_SIDED|90.0|0.71|1.35||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.35|0.71|0.78
82667522|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.51|||<|0.05|TWO_SIDED|90.0|0.42|0.63||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.63|0.42|<0.05
82667523|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.73|||<|0.05|TWO_SIDED|90.0|0.63|0.84||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.84|0.63|<0.05
82667524|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.58||||0.03|TWO_SIDED|90.0|0.34|0.98||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.98|0.34|0.03
82667525|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.67||||0.001|TWO_SIDED|90.0|0.51|0.89||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.51|0.001
82667526|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|1.34||||0.0684|TWO_SIDED|||||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||||0.0684
82667527|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.58|||<|0.05|TWO_SIDED|90.0|0.49|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.49|<0.05
82667528|NCT00042289|165051751|SUPERIORITY||Geometric mean ratio|0.6|||<|0.05|TWO_SIDED|90.0|0.53|0.68||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.53|<0.05
82667529|NCT00042289|165051752|SUPERIORITY||Geometric mean ratio|0.72||||0.008|TWO_SIDED|90.0|0.6|0.88||3rd Trimester vs. Postpartum|t-test, 2 sided|Paired sample t-test on natural log-transformed PK parameter||||0.88|0.60|0.008
82667530|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.63||||0.002|TWO_SIDED|90.0|0.52|0.75||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.75|0.52|0.002
82667531|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.71||||0.0003|TWO_SIDED|90.0|0.63|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.81|0.63|0.0003
82667532|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.57||||0.09|TWO_SIDED|90.0|0.34|0.98||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.98|0.34|0.09
82667533|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.67||||0.004|TWO_SIDED|90.0|0.54|0.82||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.82|0.54|0.004
82667534|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.79||||0.27|TWO_SIDED|90.0|0.5|1.27||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.27|0.50|0.27
82667535|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.86||||0.7|TWO_SIDED|90.0|0.66|1.12||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.12|0.66|0.70
82667536|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.62||||0.46|TWO_SIDED|90.0|0.29|1.34||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.34|0.29|0.46
82667537|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.94||||0.5|TWO_SIDED|90.0|0.63|1.39||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.39|0.63|0.50
82667538|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.76|||<|0.1|TWO_SIDED|90.0|0.57|1.0||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.0|0.57|<0.10
82667539|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.56|||<|0.1|TWO_SIDED|90.0|0.42|0.73||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.73|0.42|<0.10
82667540|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.47|||<|0.1|TWO_SIDED|90.0|0.33|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.33|<0.10
82667541|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.44|||<|0.1|TWO_SIDED|90.0|0.36|0.54||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.54|0.36|<0.10
82667542|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.74||||0.1875|TWO_SIDED|90.0|0.53|1.04||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.04|0.53|0.1875
82667543|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.46||||0.1563|TWO_SIDED|90.0|0.19|1.11||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.11|0.19|0.1563
82667544|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.94||||0.241|TWO_SIDED|90.0|0.85|1.03||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.03|0.85|0.241
82667545|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|1.09||||0.837|TWO_SIDED|90.0|0.9|1.32||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.32|0.90|0.837
82667546|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.7|||<|0.05|TWO_SIDED|90.0|0.55|0.88||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.88|0.55|<0.05
82667547|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.8||||0.0046|TWO_SIDED|90.0|0.72|0.89||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.89|0.72|0.0046
82667548|NCT00042289|165051753|SUPERIORITY||Geometric mean ratio|0.66|||<|0.05|TWO_SIDED|90.0|0.52|0.85||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.85|0.52|<0.05
82667549|NCT00042289|165051753|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667550|NCT00042289|165051753|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667551|NCT00042289|165051753|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667552|NCT00042289|165051753|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667553|NCT00042289|165051753|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667554|NCT00042289|165051753|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667555|NCT00042289|165051754|SUPERIORITY||Geometric mean ratio|0.97||||0.07|TWO_SIDED|90.0|0.83|1.13||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.13|0.83|0.07
82667556|NCT00042289|165051754|SUPERIORITY||Geometric mean ratio|0.77|||<|0.05|TWO_SIDED|90.0|0.61|0.96||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.96|0.61|<0.05
82667557|NCT00042289|165051754|SUPERIORITY||Geometric mean ratio|0.8|||<|0.05|TWO_SIDED|90.0|0.62|1.03||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.03|0.62|<0.05
82667558|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.81||||0.148|TWO_SIDED|90.0|0.64|1.01||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.01|0.64|0.148
82667559|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.71|||<|0.001|TWO_SIDED|90.0|0.62|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.81|0.62|<0.001
82667560|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.74||||0.0098|TWO_SIDED|90.0|0.61|0.89||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.89|0.61|0.0098
82667561|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.75||||0.0025|TWO_SIDED|90.0|0.64|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.88|0.64|0.0025
82667562|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.54|||<|0.0001|TWO_SIDED|90.0|0.46|0.64||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.64|0.46|<0.0001
82667563|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.56||||0.0024|TWO_SIDED|90.0|0.41|0.76||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.76|0.41|0.0024
82667564|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.795||||0.438|TWO_SIDED|90.0|0.499|1.269||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.269|0.499|0.438
82667565|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.531||||0.219|TWO_SIDED|90.0|0.186|1.512||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.512|0.186|0.219
82667566|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|1.05||||0.296|TWO_SIDED|90.0|0.94|1.18||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.18|0.94|0.296
82667567|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|1.26||||0.007|TWO_SIDED|90.0|1.01|1.56||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.56|1.01|0.007
82667568|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.83||||0.16|TWO_SIDED|90.0|0.56|1.22||2nd Trimester vs Postpartum|Wilcoxon signed rank test|||FPV was analyzed as the form of amprenavir (APV). FPV is the prodrug of APV.||1.22|0.56|0.16
82667569|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.74||||0.03|TWO_SIDED|90.0|0.58|0.93|||Wilcoxson signed rank test|||FPV was analyzed in the form of amprenavir (APV). FPV is the prodrug of APV.||0.93|0.58|0.03
82667570|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.86|||>|0.05|TWO_SIDED|90.0|0.68|1.08||3rd Trimester vs. Postpartum (No comparison was done for 2nd Trimester vs. Postpartum since the sample size for 2nd trimester was 1)|Wilcoxon signed rank test|||This analysis was for ATV.||1.08|0.68|>0.05
82667571|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.89||||0.1636|TWO_SIDED|90.0|0.79|1.01||Third Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 4 participants had Second Trimester data)|Wilcoxon signed rank test|||||1.01|0.79|0.1636
82667572|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.69|||<|0.05|TWO_SIDED|90.0|0.53|0.91||3rd Trimester vs Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 4 participants had Second Trimester data)|Wilcoxon signed rank test|||This analysis was for ATV.||0.91|0.53|<0.05
82667573|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|1.11||||0.16|TWO_SIDED|90.0|0.99|1.24||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since there was no Second Trimester data available)|Wilcoxon signed rank test|||||1.24|0.99|0.16
82667574|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667575|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667576|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667577|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667578|NCT00042289|165051755|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667579|NCT00042289|165051755|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667580|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667581|NCT00042289|165051755|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667582|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|1.06||||0.67|TWO_SIDED|90.0|0.85|1.34||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 2 participants had Second Trimester data)|Wilcoxon signed-rank test|||||1.34|0.85|0.67
82667583|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.73||||0.08|TWO_SIDED|90.0|0.59|0.91||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.91|0.59|0.08
82667584|NCT00042289|165051755|SUPERIORITY||Geometric mean of ratio|0.63|||<|0.01|TWO_SIDED|90.0|0.55|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.72|0.55|<0.01
82667585|NCT00042289|165051756|SUPERIORITY||Geometric mean of ratio|0.57|||<|0.05|TWO_SIDED|90.0|0.48|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.68|0.48|<0.05
82667586|NCT00042289|165051756|SUPERIORITY||Geometric mean of ratio|0.73|||<|0.05|TWO_SIDED|90.0|0.62|0.85||3rd Trimester vs.Postpartum|Wilcoxon signed rank test|||||0.85|0.62|<0.05
82667587|NCT00042289|165051756|SUPERIORITY|||||||0.09||||||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||||0.09
82667588|NCT00042289|165051756|SUPERIORITY|||||||0.003||||||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||||0.003
82667589|NCT00042289|165051756|SUPERIORITY||Geometric mean of ratio|1.34||||0.036|TWO_SIDED|||||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since only 5 participants had Second Trimester data)|Wilcoxon signed rank test|||||||0.036
82667590|NCT00042289|165051756|SUPERIORITY||Geometric mean of ratio|0.84|||>|0.05|TWO_SIDED|90.0|0.69|1.02||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.02|0.69|>0.05
82667591|NCT00042289|165051756|SUPERIORITY||Geometric mean of ratio|0.83|||>|0.05|TWO_SIDED|90.0|0.68|1.01||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.01|0.68|>0.05
82667592|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.61||||0.14|TWO_SIDED|90.0|0.34|1.09||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.09|0.34|0.14
82667593|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.64||||0.002|TWO_SIDED|90.0|0.5|0.81||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.81|0.50|0.002
82667594|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.77||||0.24|TWO_SIDED|90.0|0.49|1.23||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.23|0.49|0.24
82667595|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.84||||0.53|TWO_SIDED|90.0|0.6|1.17||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.17|0.60|0.53
82667596|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.58||||0.2|TWO_SIDED|90.0|0.3|1.11||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.11|0.30|0.2
82667597|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.95||||0.12|TWO_SIDED|90.0|0.58|1.55||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.55|0.58|0.12
82667598|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.92||||0.358|TWO_SIDED|90.0|0.71|1.2||2nd Trimester vs. Postpartum|Wilcoxon signed rank test|||||1.2|0.71|0.358
82667599|NCT00042289|165051757|SUPERIORITY||Geometric mean of ratio|0.72||||0.0156|TWO_SIDED|90.0|0.55|0.93||3rd Trimester vs. Postpartum|Wilcoxon signed rank test|||||0.93|0.55|0.0156
82667600|NCT00042289|165051758|SUPERIORITY||Geometric mean of ratio|0.7||||0.007|TWO_SIDED|90.0|0.58|0.85||3rd Trimester vs. Postpartum (No comparison was done for Second Trimester vs. Postpartum since no Second Trimester data was available)|Wilcoxon signed rank test|||||0.85|0.58|0.007
82667601|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.66||||0.109|TWO_SIDED|90.0|0.39|1.12||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.12|0.39|0.109
82667602|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.58|||<|0.001|TWO_SIDED|90.0|0.49|0.69||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.69|0.49|<0.001
82667603|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.48||||0.44|TWO_SIDED|90.0|0.14|1.65||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.65|0.14|0.44
82667604|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.56|||<|0.001|TWO_SIDED|90.0|0.43|0.72||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.72|0.43|<0.001
82667605|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.83||||0.43|TWO_SIDED|90.0|0.63|1.1||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.10|0.63|0.43
82667606|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|1.0||||0.31|TWO_SIDED|90.0|0.69|1.44||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.44|0.69|0.31
82667607|NCT00042289|165051759|SUPERIORITY||Geometric mean ratio|0.9||||0.49|TWO_SIDED|90.0|0.71|1.16||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.16|0.71|0.49
82667608|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.45|||<|0.05|TWO_SIDED|90.0|0.32|0.63||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.63|0.32|<0.05
82667609|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.72|||<|0.05|TWO_SIDED|90.0|0.58|0.88||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.88|0.58|<0.05
82667610|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.42||||0.02|TWO_SIDED|90.0|0.23|0.78||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.78|0.23|0.02
82667611|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.78||||0.3|TWO_SIDED|90.0|0.56|1.08||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.08|0.56|0.3
82667612|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|1.41||||0.036|TWO_SIDED|||||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||||0.036
82667613|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.41|||<|0.05|TWO_SIDED|90.0|0.32|0.52||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.52|0.32|<0.05
82667614|NCT00042289|165051760|SUPERIORITY||Geometric mean ratio|0.48|||<|0.05|TWO_SIDED|90.0|0.41|0.57||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.57|0.41|<0.05
82667615|NCT00042289|165051761|SUPERIORITY||Geometric mean ratio|0.85||||0.1|TWO_SIDED|90.0|0.72|1.01||3rd Trimester vs. Postpartum|t-test, 2 sided|Paired sample t-test on natural log-transformed PK parameter||||1.01|0.72|0.10
82667616|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.49||||0.0039|TWO_SIDED|90.0|0.35|0.68||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.68|0.35|0.0039
82667617|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.66||||0.0062|TWO_SIDED|90.0|0.52|0.84||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.84|0.52|0.0062
82667618|NCT00042289|165051762|SUPERIORITY||||||<|0.1||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.10
82667619|NCT00042289|165051762|SUPERIORITY||||||<|0.1||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.10
82667620|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.15|||<|0.1|TWO_SIDED|90.0|0.08|0.3||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.30|0.08|<0.10
82667621|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.21|||<|0.1|TWO_SIDED|90.0|0.12|0.36||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.36|0.12|<0.10
82667622|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.32|||<|0.1|TWO_SIDED|90.0|0.2|0.51||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.51|0.20|<0.10
82667623|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.32|||>|0.1|TWO_SIDED|90.0|0.11|0.94||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.94|0.11|>0.10
82667624|NCT00042289|165051762|OTHER||Geometric mean ratio|0.87||||0.079|TWO_SIDED|90.0|0.78|0.97||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.97|0.78|0.079
82667625|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.92||||0.01|TWO_SIDED|90.0|0.77|1.09||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.09|0.77|0.01
82667626|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.51|||<|0.05|TWO_SIDED|90.0|0.37|0.72||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.72|0.37|<0.05
82667627|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.82||||0.0325|TWO_SIDED|90.0|0.71|0.96||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.96|0.71|0.0325
82667628|NCT00042289|165051762|SUPERIORITY||Geometric mean ratio|0.65|||<|0.05|TWO_SIDED|90.0|0.54|0.77||3rd Trimester vs. Postpartum \[Note: Comparison of 2nd Trimester vs. Postpartum was not done due to low sample size.\]|Wilcoxon signed-rank test|||||0.77|0.54|<0.05
82667629|NCT00042289|165051762|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667630|NCT00042289|165051762|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667631|NCT00042289|165051762|SUPERIORITY||||||>|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667632|NCT00042289|165051762|SUPERIORITY||||||>|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||>0.05
82667633|NCT00042289|165051762|SUPERIORITY||||||<|0.05||||||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667634|NCT00042289|165051762|SUPERIORITY||||||<|0.05||||||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||||<0.05
82667635|NCT00042289|165051763|SUPERIORITY||Geometric mean ratio|0.88|||<|0.05|TWO_SIDED|90.0|0.73|1.06||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.06|0.73|<0.05
82667636|NCT00042289|165051763|SUPERIORITY||Geometric mean ratio|0.7|||<|0.05|TWO_SIDED|90.0|0.55|0.9||2nd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||0.90|0.55|<0.05
82667637|NCT00042289|165051763|SUPERIORITY||Geometric mean ratio|0.84|||<|0.05|TWO_SIDED|90.0|0.57|1.23||3rd Trimester vs. Postpartum|Wilcoxon signed-rank test|||||1.23|0.57|<0.05
82667638|NCT00042289|165051767|SUPERIORITY||Geometric mean of ratio|1.24||||0.114|TWO_SIDED|90.0|0.97|1.59||Before ENG initiation vs. after ENG initiation|Wilcoxon signed rank test|||The statistical analysis is for LPV PK.||1.59|0.97|0.114
82667639|NCT00042289|165051768|SUPERIORITY||Geometric mean of ratio|1.1||||0.367|TWO_SIDED|90.0|0.84|1.44||Before ENG initiation vs. after ENG initiation|Wilcoxon signed rank test|||The statistical test is for ATV PK.||1.44|0.84|0.367
82667640|NCT00042289|165051768|SUPERIORITY||Geometric mean of ratio|1.02||||0.561|TWO_SIDED|90.0|0.92|1.13|||Wilcoxon signed rank test|Before ENG initiation vs. after ENG initiation||The statistical test is for EFV PK.||1.13|0.92|0.561
82667641|NCT04662710|165051826|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0244|TWO_SIDED|95.0|0.71|1.0||One-sided p-value based on log-rank test stratified by region, ECOG performance status, and chemotherapy type|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type|||1.00|0.71|.0244
82667642|NCT04662710|165051827|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.033|TWO_SIDED|95.0|0.75|1.01||One-sided p-value based on log-rank test stratified by region, ECOG performance status and chemotherapy type.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy|||1.01|0.75|0.0330
82667643|NCT04662710|165051828|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.0012|TWO_SIDED|95.0|0.62|0.9||One-sided p-value based on log-rank test stratified by region, performance status, and chemotherapy type|Log Rank||HR Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type.|||0.90|0.62|.0012
82667644|NCT04662710|165051829|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0019|TWO_SIDED|95.0|0.66|0.92||One-sided p-value based on log-rank test stratified by region, ECOG performance status, and chemotherapy type.|Log Rank||HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by region, ECOG performance status, and chemotherapy type.|||0.92|0.66|0.0019
82667645|NCT04662710|165051830|SUPERIORITY||Difference in Percentage|14.3|||<|0.0001|TWO_SIDED|95.0|6.9|21.5|||t-test, 1 sided|||ORR comparison between groups is based on Miettinen \& Nurminen method stratified by region, ECOG performance status, and type of chemotherapy||21.5|6.9|<0.0001
82667646|NCT04662710|165051831|SUPERIORITY||Difference in Percentage|14.2|||<|0.0001|TWO_SIDED|95.0|7.7|20.6|||t-test, 1 sided|||ORR comparison between groups is based on Miettinen \& Nurminen method stratified by region, ECOG performance status, and type of chemotherapy||20.6|7.7|<0.0001
82667647|NCT04390750|165051836|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 1 and Control at 3 months.|Interaction coefficient|0.0||||0.939|TWO_SIDED|95.0|-0.11|0.11|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the primary endpoint of 3 months.||0.11|-0.11|0.939
82667648|NCT04390750|165051836|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 2 and Control at 3 months.|Interaction coefficient|-0.09||||0.103|TWO_SIDED|95.0|-0.21|0.02|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the primary endpoint of 3 months.||0.02|-0.21|0.103
82667649|NCT04390750|165051837|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 1 and Control at 3 months.|Interaction coefficient|0.0||||0.995||95.0|-0.16|0.16|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the primary endpoint of 3 months.||0.16|-0.16|0.995
82667650|NCT04390750|165051837|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 2 and Control at 3 months.|Interaction coefficient|-0.12||||0.132||95.0|-0.28|0.04|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the primary endpoint of 3 months.||0.04|-0.28|0.132
82667651|NCT04390750|165051838|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 1 and Control at 6 months.|Interaction coefficient|-0.05||||0.402|TWO_SIDED|95.0|-0.16|0.06|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the secondary endpoint of 6 months.||0.06|-0.16|0.402
82667652|NCT04390750|165051838|OTHER|The effect estimate reflects the adjusted difference in change from baseline on plaque levels between Treatment Group 2 and Control at 6 months.|Interaction coefficient|-0.1||||0.072|TWO_SIDED|95.0|-0.21|0.01|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in plaque levels at the secondary endpoint of 6 months.||0.01|-0.21|0.072
82667653|NCT04390750|165051839|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 1 and Control at 6 months.|Interaction coefficient|-0.2||||0.014|TWO_SIDED|95.0|-0.36|-0.04|||Linear mixed effects model|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the secondary endpoint of 6 months.||-0.04|-0.36|0.014
82621799|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.12||0.0356|TWO_SIDED|95.0|-0.5|-0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.50|0.0356
82667654|NCT04390750|165051839|OTHER|The effect estimate reflects the adjusted difference in change from baseline on gingival inflammation between Treatment Group 2 and Control at 6 months.|Interaction coefficient|-0.23||||0.005|TWO_SIDED|95.0|-0.39|-0.07|||Linear mixed effects model.|Linear mixed effects model with arm-by-time interaction.||A linear mixed effects model including an arm-by-time interaction was used to estimate between-arm differences in change in gingival inflammation at the secondary endpoint of 6 months.||-0.07|-0.39|0.005
82667655|NCT01841736|165051852|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.0005|TWO_SIDED|80.0|0.42|0.69|||Log Rank|Stratified log rank||||0.69|0.42|0.0005
82667656|NCT01841736|165051854|SUPERIORITY||Hazard Ratio (HR)|1.13||||0.7|TWO_SIDED|80.0|0.84|1.51|||Log Rank|Stratified Log-Rank||||1.51|0.84|0.7
82667657|NCT04953338|165051861|SUPERIORITY||Hazard Ratio (HR)|1.11|||||TWO_SIDED|95.0|0.92|1.32|||||Calculated as the relative risk of a person diagnosed with vitiligo having a depression episode versus people not diagnosed with vitiligo|||1.32|0.92|
82667658|NCT04953338|165051864|SUPERIORITY||Hazard Ratio (HR)|1.23|||||TWO_SIDED|95.0|1.01|1.51|||||Calculated as the relative risk of a person diagnosed with vitiligo having with anxiety disorder versus people not diagnosed with vitiligo|||1.51|1.01|
82492853|NCT01081678|164678594|OTHER|||||||0.1983|||||||F-test|The p-value is based on F-test of multi-linear contrasts at Week 6 through Week 20.||The primary analysis was based on a test for linear trend in dose response at weeks 6, 12, 16, and 20. To account for multiple comparisons over time points, the primary analysis used a size α = 0.05 F-test with 4 degrees of freedom for the contrasts at Weeks 6, 12, 16, and 20.||||0.1983
82621800|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.12||0.0032|TWO_SIDED|95.0|-0.6|-0.12|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.60|0.0032
82667659|NCT04953338|165051865|SUPERIORITY||Hazard Ratio (HR)|1.25|||||TWO_SIDED|95.0|1.01|1.56|||||Calculated as the relative risk of a person diagnosed with vitiligo having with recurrent depressive disorder versus people not diagnosed with vitiligo|||1.56|1.01|
82667660|NCT05550636|165051866|OTHER||adjusted gMean Ratio (%)|92.3|||||TWO_SIDED|90.0|79.3|107.4|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 23.9%|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||107.4|79.3|
82621801|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.16||0.0003|TWO_SIDED|95.0|-0.88|-0.27|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.27|-0.88|0.0003
82621802|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.77|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.08|-0.46|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.46|-1.08|<.0001
82621803|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.15||0.0844|TWO_SIDED|95.0|-0.54|0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.54|0.0844
82492854|NCT01619423|164678602|SUPERIORITY||Odds Ratio (OR)|0.78||||0.31|ONE_SIDED|10.0||1.5|||Cochran-Mantel-Haenszel|||||1.5||0.31
82621804|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.14||0.0258|TWO_SIDED|95.0|-0.6|-0.04|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.60|0.0258
82621805|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.15||0.0004|TWO_SIDED|95.0|-0.8|-0.23|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.23|-0.80|0.0004
82621806|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.17||0.0079|TWO_SIDED|95.0|-0.78|-0.12|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.78|0.0079
82621807|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.75|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.08|-0.41|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.41|-1.08|<.0001
82621808|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.0977|TWO_SIDED|95.0|-0.57|0.05|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.57|0.0977
82621809|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.15||0.215|TWO_SIDED|95.0|-0.5|0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.50|0.2150
82621810|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.15||0.0016|TWO_SIDED|95.0|-0.79|-0.18|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.79|0.0016
82621811|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.0058|TWO_SIDED|95.0|-0.88|-0.15|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.88|0.0058
82621812|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.19||0.0038|TWO_SIDED|95.0|-0.91|-0.18|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.91|0.0038
82621813|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.17||0.1707|TWO_SIDED|95.0|-0.58|0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.58|0.1707
82621814|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.17||0.1083|TWO_SIDED|95.0|-0.62|0.06|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.62|0.1083
82621815|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.17||0.0734|TWO_SIDED|95.0|-0.64|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.64|0.0734
82667661|NCT05550636|165051867|OTHER||adjusted gmean Ratio (%)|78.0|||||TWO_SIDED|90.0|68.9|88.2|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 19.4%|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||88.2|68.9|
82667662|NCT05550636|165051868|OTHER||adjusted gmean Ratio (%)|89.8|||||TWO_SIDED|90.0|76.9|104.9|||||Adjusted gMean ratio of test/reference (T/R). Intra-individual geometric coefficient of variation (gCV) = 24.4|The statistical model used was an analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoint was logtransformed (natural logarithm) prior to fitting the ANOVA model. This model includes effects accounting for the sources of variation: treatment. The effect 'subjects' is considered as random, whereas the treatment effect is considered as fixed. Quantities were then back-transformed to the original scale to provide the point estimate and 90% confidence interval.||104.9|76.9|
82667663|NCT03391466|165051875|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted International Prognostic Index (IPI) as data collected on case report forms.|Hazard Ratio (HR)|0.398|||<|0.0001|TWO_SIDED|95.0|0.308|0.514||Stratified (randomization factors) log-rank p-value.|Log Rank|Stratified (randomization stratification factors) log-rank test.|Hazard ratio (95% confidence interval (CI)), stratified using randomization stratification factors.|||0.514|0.308|<0.0001
82667664|NCT03391466|165051876|SUPERIORITY|One-sided p-value based on Cochran-Mantel-Haenszel (CMH) test, one-sided tailed test, stratified by response to first-line therapy and second-line age-adjusted International Prognostic Index (IPI) as data collected on case report forms.|Difference in ORR|33.1|||<|0.0001|TWO_SIDED|95.0|23.2|42.1||Stratified (randomization factor) CMH test p-value.|Cochran-Mantel-Haenszel|Stratified (randomization factor) CMH test.|95% CI for the difference in ORR was from Wilson's score method with continuity correction.|||42.1|23.2|<0.0001
82667665|NCT03391466|165051877|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Hazard Ratio (HR)|0.73||||0.027|TWO_SIDED|95.0|0.53|1.007||Stratified log-rank (randomization factor) p-value.|Log Rank|Stratified (randomization factor) log-rank test.|Stratified Cox regression models were used to estimate hazard ratio and 2-sided CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.||The Rho family spending function with parameter (Rho = 6) was used to allocate alpha between the interim and primary OS analysis. Given that fewer than the anticipated 210 events were observed at the data cutoff date for the primary OS analysis (25 January 2023), the efficacy boundary for the primary OS analysis was recalculated using the Rho family spending function based on the actual observed event numbers (177 deaths) resulting in an efficacy boundary at 1-sided significance level of 0.0249.|1.007|0.530|0.027
82667666|NCT03391466|165051878|SUPERIORITY|One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Hazard Ratio (HR)|0.736||||0.0695|TWO_SIDED|95.0|0.488|1.108||Stratified (randomization stratification factors) log-rank test.|Log Rank||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care.|||1.108|0.488|0.0695
82667667|NCT03391466|165051879|SUPERIORITY||Hazard Ratio (HR)|0.376|||<|0.0001|TWO_SIDED|95.0|0.29|0.487||One-sided p-value based on log-rank test stratified by response to first-line therapy and second-line age-adjusted IPI as data collected on case report forms.|Log Rank|Stratified (randomization stratification factors) log-rank test.|Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.487|0.290|<0.0001
82667668|NCT03391466|165051880|SUPERIORITY||Hazard Ratio (HR)|0.422|||||TWO_SIDED|95.0|0.327|0.545|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.545|0.327|
82667669|NCT03391466|165051881|SUPERIORITY||Hazard Ratio (HR)|0.506|||||TWO_SIDED|95.0|0.383|0.669|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.669|0.383|
82667670|NCT03391466|165051882|SUPERIORITY||Hazard Ratio (HR)|0.412|||||TWO_SIDED|95.0|0.318|0.532|||||Stratified Cox regression models were used to estimate hazard ratio and 2-sided 95% CIs for axicabtagene ciloleucel relative to standard of care therapy. The Breslow method was used to handle the ties for the Cox regression models.|||0.532|0.318|
82667671|NCT03391466|165051883|SUPERIORITY||Mixed Model with Repeated Measures|18.1|||<|0.0001|TWO_SIDED|95.0|12.3|23.9||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||23.9|12.3|<0.0001
82667672|NCT03391466|165051883|SUPERIORITY||Mixed Model with Repeated Measures|9.8||||0.0124|TWO_SIDED|95.0|2.6|17.0||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||17.0|2.6|0.0124
82667673|NCT03391466|165051883|SUPERIORITY||Mixed Model with Repeated Measures|4.4||||0.2655|TWO_SIDED|95.0|-3.3|12.0||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Month 9.||12.0|-3.3|0.2655
82667674|NCT03391466|165051884|SUPERIORITY||Mixed Model with Repeated Measures|13.1|||<|0.0001|TWO_SIDED|95.0|8.0|18.2||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||18.2|8.0|<0.0001
82492855|NCT01619423|164678602|SUPERIORITY||Odds Ratio (OR)|0.55||||0.15|ONE_SIDED|10.0||1.16|||Cochran-Mantel-Haenszel|||||1.16||0.15
82492856|NCT01619423|164678602|SUPERIORITY||Odds Ratio (OR)|0.62||||0.16|ONE_SIDED|10.0||1.14|||Cochran-Mantel-Haenszel|||||1.14||0.16
82667675|NCT03391466|165051884|SUPERIORITY||Mixed Model with Repeated Measures|5.1||||0.1253|TWO_SIDED|95.0|-0.9|11.0||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||11.0|-0.9|0.1253
82667676|NCT03391466|165051885|SUPERIORITY||Mixed Model with Repeated Measures|0.081||||0.0112|TWO_SIDED|95.0|0.024|0.138||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 100.||0.138|0.024|0.0112
82667677|NCT03391466|165051885|SUPERIORITY||Mixed Model with Repeated Measures|0.028||||0.3703|TWO_SIDED|95.0|-0.034|0.091||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||0.091|-0.034|0.3703
82667678|NCT03391466|165051886|SUPERIORITY||Mixed Model with Repeated Measures|13.7|||<|0.0001|TWO_SIDED|95.0|8.5|18.8||False Discovery Rate Methodology|Mixed Model with Repeated Measures|Mixed Model with Repeated Measures Differences in Change from Baseline.||Difference in mean change of scores from Baseline at Day 100.||18.8|8.5|<0.0001
82667679|NCT03391466|165051886|SUPERIORITY||Mixed Model with Repeated Measures|11.3||||0.0004|TWO_SIDED|95.0|5.4|17.1||False Discovery Rate Methodology|Mixed Model with Repeated Measures|||Difference in mean change of scores from Baseline at Day 150.||17.1|5.4|0.0004
82667680|NCT03391466|165051886|SUPERIORITY||Mixed Model with Repeated Measures|3.8||||0.2549|TWO_SIDED|95.0|-2.3|10.0||False Discovery Rate Methodology.|Mixed Model with Repeated Measures|Mixed Model with Repeated Measures Differences in Change from Baseline.||Difference in mean change of scores from Baseline at Month 9.||10.0|-2.3|0.2549
82667681|NCT03055013|165051893|SUPERIORITY||Cox Proportional Hazard|0.95||||0.34|TWO_SIDED|95.0|0.74|1.22|||Log Rank|stratified logrank test (one-sided)|hazard ratio : arm A vs. arm B|||1.22|0.74|0.34
82667682|NCT02502266|165051905|SUPERIORITY||Hazard Ratio (HR)|0.649|||||TWO_SIDED|95.0|0.424|0.995|||||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||0.995|0.424|
82667683|NCT02502266|165051905|SUPERIORITY||Hazard Ratio (HR)|0.832|||||TWO_SIDED|95.0|0.539|1.284|||||The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||1.284|0.539|
82667684|NCT02502266|165051905|SUPERIORITY||Hazard Ratio (HR)|1.149|||||TWO_SIDED|95.0|0.745|1.773|||||The hazard ratio estimate compares Olaparib to chemotherapy. If Olaparib is superior, the hazard ratio is \<1.0.|Experimental regimens with at least a 17% reduction in the estimated PFS event rate (compared to standard chemotherapy) (HR estimate \< 0.83) were recommended for further evaluation in the phase III trial.||1.773|0.745|
82667685|NCT02502266|165051906|SUPERIORITY||Hazard Ratio (HR)|0.796||||0.145|TWO_SIDED|98.0|0.597|1.06||The log rank test was stratified by the factors provided at randomization|Log Rank||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.060|0.597|0.145
82667686|NCT02502266|165051906|SUPERIORITY||Hazard Ratio (HR)|0.972||||1|TWO_SIDED|98.0|0.726|1.0|||Log Rank|The log rank test was stratified by the factors provided at randomization.|The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.00|0.726|1.0
82667687|NCT02502266|165051907|SUPERIORITY||Hazard Ratio (HR)|1.027|||||TWO_SIDED|98.0|0.771|1.368||No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|||The hazard ratio estimate compares Cediranib and Olaparib to chemotherapy. If Cediranib and Olaparib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.368|0.771|
82667688|NCT02502266|165051907|OTHER|No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|Hazard Ratio (HR)|1.06|||||TWO_SIDED|98.0|0.795|1.413||No p-values are provided because testing each of these null hypotheses was conditioned on first rejecting hypothesis concerning PFS.|||The hazard ratio estimate compares Cediranib to chemotherapy. If Cediranib is superior, the hazard ratio is \<1.0.|Arm IV was suspended for futility at the end of Phase 2 analysis, so was not analyzed at the final analysis.||1.413|0.795|
82667689|NCT04254198|165051916|SUPERIORITY||Slope|0.231|STANDARD_ERROR_OF_MEAN|0.116||0.0473|TWO_SIDED|98.3|-0.0474|0.509||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Model is adjusted for cohort, site, marital status, and overall health status.|The beta coefficient (0.231) is for the treatment x time interaction effect on log-transformed CES-D scores. Delta method used for calculating confidence intervals for the Least Squares (LS) Mean changes over time per arm with cov=compound symmetry.|||0.509|-0.0474|0.0473
82667690|NCT04254198|165051917|SUPERIORITY||Slope|0.383|STANDARD_ERROR_OF_MEAN|0.14||0.0067|TWO_SIDED|98.3|0.0464|0.72||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Model is adjusted for cohort, site, overall health status and the interaction between cohort and site.|The beta coefficient (0.383) is for the treatment x time interaction effect on log-transformed CD-RISC scores. Delta method used for calculating confidence intervals for the LS Mean changes over time per arm with cov=compound symmetry.|||0.720|0.0464|0.0067
82667691|NCT04254198|165051918|SUPERIORITY||Slope|-0.747|STANDARD_ERROR_OF_MEAN|0.194||0.0002|TWO_SIDED|98.3|-1.215|-0.28||To adjust for multiplicity due to three primary outcomes, the p-value should be compared to a Bonferroni-corrected type-I error level of 0.05/3 = 0.017.|Mixed Models Analysis|Generalized linear mixed model with beta distribution, adjusted for cohort, site, overall health status and interaction between arm and cohort.|The beta coefficient (-0.747) is for the treatment x time interaction effect on MOS-SS scores on a logit scale. The CIs for the LS Mean changes over time per arm were estimated via the delta method and are reported on the original MOS-SS scale.|||-0.280|-1.215|0.0002
82667692|NCT04254198|165051919|SUPERIORITY||Slope|-0.913|STANDARD_ERROR_OF_MEAN|1.21||0.451|TWO_SIDED|95.0|-3.82|2.0||P-value not adjusted for multiple comparisons|Mixed Models Analysis|Model is adjusted for cohort and site.|The beta coefficient (-0.913) is for the treatment x time interaction effect on non-transformed PSS scores.|||2.00|-3.82|0.4510
82667693|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.44||||||95.0|0.06|3.43|||ANOVA||The Unadjusted Geometric Mean Ratio (GMR) is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 29||3.43|0.06|
82667694|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.66||||||95.0|0.25|1.7|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 29||1.70|0.25|
82667695|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.43||||||95.0|0.06|2.94|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 57||2.94|0.06|
82667696|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.51||||||95.0|0.19|1.37|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 57||1.37|0.19|
82667697|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.59||||||95.0|0.13|2.65|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 85||2.65|0.13|
82667698|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.66||||||95.0|0.3|1.43|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 85||1.43|0.30|
82667699|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.96||||||95.0|0.18|5.12|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 169||5.12|0.18|
82667700|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.76||||||95.0|0.36|1.6|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 169||1.60|0.36|
82667701|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.16||||||95.0|0.23|5.79|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 197||5.79|0.23|
82667702|NCT05480800|165051922|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.9||||||95.0|0.44|1.84|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG, Day 197||1.84|0.44|
82667703|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|2.92||||||95.0|0.48|17.8|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 29||17.80|0.48|
82667704|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.95||||||95.0|0.41|2.19|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 29||2.19|0.41|
82667705|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|3.03||||||95.0|0.43|21.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 57||21.45|0.43|
82667706|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.89||||||95.0|0.33|2.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 57||2.45|0.33|
82667707|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.69||||||95.0|0.26|10.96|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 85||10.96|0.26|
82667708|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.76||||||95.0|0.29|2.0|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 85||2.00|0.29|
82667709|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|2.49||||||95.0|0.24|26.3|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 169||26.30|0.24|
82621816|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.21||0.4603|TWO_SIDED|95.0|-0.56|0.25|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.25|-0.56|0.4603
82621817|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.0799|TWO_SIDED|95.0|-0.74|0.04|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.74|0.0799
82621818|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.21||0.2339|TWO_SIDED|95.0|-0.66|0.16|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.66|0.2339
82621819|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.21||0.1199|TWO_SIDED|95.0|-0.73|0.08|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.08|-0.73|0.1199
82621820|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.21||0.384|TWO_SIDED|95.0|-0.6|0.23|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.60|0.3840
82621821|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.21||0.2|TWO_SIDED|95.0|-0.68|0.14|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.14|-0.68|0.2000
82621822|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.2997|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.2997
82621823|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.21||0.1778|TWO_SIDED|95.0|-0.71|0.13|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.71|0.1778
82621824|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.22||0.3438|TWO_SIDED|95.0|-0.65|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.65|0.3438
82621825|NCT02528253|164960254|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.22||0.1876|TWO_SIDED|95.0|-0.71|0.14|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.14|-0.71|0.1876
82621826|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.47|STANDARD_ERROR_OF_MEAN|0.13||0.0002|TWO_SIDED|95.0|-0.72|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.72|0.0002
82621827|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.54|STANDARD_ERROR_OF_MEAN|0.13|<|0.0001|TWO_SIDED|95.0|-0.79|-0.29|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-0.79|<.0001
82621828|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0193|TWO_SIDED|95.0|-0.5|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.50|0.0193
82621829|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.12||0.0845|TWO_SIDED|95.0|-0.42|0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.42|0.0845
82621830|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.12||0.0212|TWO_SIDED|95.0|-0.49|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.49|0.0212
82667710|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.74||||||95.0|0.26|2.11|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 169||2.11|0.26|
82667711|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.53||||||95.0|0.19|12.41|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 197||12.41|0.19|
82667712|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.85||||||95.0|0.34|2.15|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Typhimurium OAg IgG Day 197||2.15|0.34|
82667713|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.43||||||95.0|0.61|48.17|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||48.17|0.61|
82667714|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.19||||||95.0|0.43|3.26|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||3.26|0.43|
82667715|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.88||||||95.0|0.58|59.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||59.45|0.58|
82667716|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.35||||||95.0|0.41|4.45|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||4.45|0.41|
82667717|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|4.22||||||95.0|0.48|37.19|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||37.19|0.48|
82667718|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.13||||||95.0|0.37|3.48|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||3.48|0.37|
82667719|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|13.24||||||95.0|1.02|172.55|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||172.55|1.02|
82667720|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.24||||||95.0|0.4|3.88|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||3.88|0.40|
82667721|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|5.56||||||95.0|0.53|58.61|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||58.61|0.53|
82667722|NCT05480800|165051923|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.37||||||95.0|0.48|3.86|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||3.86|0.48|
82667723|NCT05480800|165051927|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.92||||||95.0|0.54|1.58|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 29||1.58|0.54|
82667724|NCT05480800|165051927|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.93||||||95.0|0.54|1.59|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 57||1.59|0.54|
82667725|NCT05480800|165051927|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.95||||||95.0|0.61|1.49|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 85||1.49|0.61|
82667726|NCT05480800|165051927|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.78||||||95.0|0.45|1.34|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 169||1.34|0.45|
82667727|NCT05480800|165051927|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.94||||||95.0|0.63|1.4|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-Vi Ag IgG Day 197||1.40|0.63|
82667728|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|0.95||||||95.0|0.69|1.32|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 29|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.32|0.69|
82667729|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.01||||||95.0|0.74|1.37|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 57|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.37|0.74|
82667730|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.04||||||95.0|0.77|1.41|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 85|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.41|0.77|
82667731|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|1.2||||||95.0|0.81|1.77|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 169|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.77|0.81|
82667732|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Adjusted GMR|0.97||||||95.0|0.65|1.44|||Mixed Models Analysis||Results based on a linear mixed model with fixed effects; denominator degrees of freedom adjusted using Satterthwaite's method.|Anti-S.Typhimurium OAg IgG Day 197|Heterogeneity was observed at baseline for S. Typhimurium in Africa between iNTS - GMMA + TCV Full dose and iNTS-TCV Ful dose, which influenced other timepoints. Hence, adjusted GMRs are presented.|1.44|0.65|
82667733|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.82||||||95.0|0.49|1.37|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 29||1.37|0.49|
82667734|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.97||||||95.0|0.59|1.59|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 57||1.59|0.59|
82667735|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|1.03||||||95.0|0.64|1.67|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 85||1.67|0.64|
82667736|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.93||||||95.0|0.56|1.54|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 169||1.54|0.56|
82667737|NCT05480800|165051928|OTHER|The statistical analyses performed for the study objectives were descriptive. No success criteria were defined for the statistical analyses conducted in this study.|Unadjusted GMR|0.82||||||95.0|0.51|1.33|||ANOVA||The Unadjusted GMR is the ratio of the geometric means of two groups being compared. Results were based on a linear model for a visit with fixed effect for treatment.|Anti-S.Enteritidis OAg IgG Day 197||1.33|0.51|
82667738|NCT03978598|165051973|NON_INFERIORITY|We used a 15% difference in our primary outcome for the non-inferiority margin as this is the upper end of the estimated prevalence of lactation failure in the literature and is consistent with previous studies (Neifert 2001, Gurtcheff 2011, Turok 2017).|Risk Difference (RD)|3.7|||||ONE_SIDED|95.0|-16.7|||||||To achieve 80% power with a 1-sided type 1 error of 5% utilizing the Z-test (unpooled), 62 participants would be required in each group, for a total of 124 participants. Accounting for expected loss to follow-up of 20%, we aimed to recruit 149 participants and rounded up to final recruitment goal of 150.|The risk-difference between immediate and standard placement in the modified intention-to-treat analysis (mITT) was -0.6% with a -12.8% lower limit of the 95% confidence interval. In the mITT analysis, 78.3% (54/69) and 78.9% (45/57) of participants were breastfeeding at 8 weeks in the immediate and delayed groups, respectively.||-16.7|
82667739|NCT03978598|165051975|OTHER|||||||0.221|||||||Wilcoxon (Mann-Whitney)|||Baby had trouble sucking or latching||||0.221
82667740|NCT03978598|165051975|OTHER|||||||0.786|||||||Wilcoxon (Mann-Whitney)|||Baby got sick||||0.786
82667741|NCT03978598|165051975|OTHER|||||||0.064|||||||Wilcoxon (Mann-Whitney)|||I was sick||||0.064
82667742|NCT03978598|165051975|OTHER|||||||0.044|||||||Wilcoxon (Mann-Whitney)|||Provider said baby was underweight||||0.044
82667743|NCT03978598|165051975|OTHER|||||||0.666|||||||Wilcoxon (Mann-Whitney)|||Insufficient milk||||0.666
82667744|NCT03978598|165051975|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||I had trouble; breast issues||||0.006
82667745|NCT03978598|165051975|OTHER|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||I quit breastfeeding; life issues||||0.476
82667746|NCT03978598|165051976|OTHER|||||||0.717|||||||Wilcoxon (Mann-Whitney)|||Respecting me as a person||||0.717
82667747|NCT03978598|165051976|OTHER|||||||0.808|||||||Wilcoxon (Mann-Whitney)|||Letting me say what mattered to me about my birth control method||||0.808
82667748|NCT03978598|165051976|OTHER|||||||0.967|||||||Wilcoxon (Mann-Whitney)|||Taking my preferences about my birth control seriously||||0.967
82667749|NCT03978598|165051976|OTHER|||||||0.826|||||||Wilcoxon (Mann-Whitney)|||Giving me enough information to make the best decision about my birth control method||||0.826
82667750|NCT03978598|165051977|OTHER|||||||0.264|||||||Wilcoxon (Mann-Whitney)|||2 weeks postpartum||||0.264
82667751|NCT03978598|165051977|OTHER|||||||0.414|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.414
82667752|NCT03978598|165051977|OTHER|||||||0.482|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.482
82667753|NCT03978598|165051978|OTHER|||||||0.583|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.583
82667754|NCT03978598|165051978|OTHER|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.062
82667755|NCT03978598|165051978|OTHER|||||||0.705|||||||Wilcoxon (Mann-Whitney)|||12 weeks postpartum||||0.705
82667756|NCT03978598|165051979|OTHER|||||||0.6|||||||Wilcoxon (Mann-Whitney)|||2 weeks postpartum||||0.60
82667757|NCT03978598|165051979|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||4 weeks postpartum||||0.07
82667758|NCT03978598|165051979|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||8 weeks postpartum||||0.36
82667759|NCT03978598|165051980|OTHER|||||||0.0376|||||||Wilcoxon (Mann-Whitney)|||||||0.0376
82667760|NCT05707403|165052009|OTHER||Ratio (T/R) [%]|73.15|||||TWO_SIDED|90.0|67.32|79.48|||||Ratio \[%\] is calculated as Test / Reference Intra-individual geometric Coefficient of Variation (gCV) = 8.8 %.|Analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model and then then back-transformed to the original scale to provide the point estimate and 90% confidence interval. The model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas the 'formulation' effect was considered as fixed.||79.48|67.32|
82667761|NCT05707403|165052010|OTHER||Ratio (T/R) [%]|33.58|||||TWO_SIDED|90.0|29.4|38.36|||||Ratio \[%\] is calculated as Test / Reference Intra-individual geometric Coefficient of Variation (gCV) = 14.1 %|Analysis of variance (ANOVA) model on the logarithmic scale. That is, the PK endpoints were logtransformed (natural logarithm) prior to fitting the ANOVA model and then then back-transformed to the original scale to provide the point estimate and 90% confidence interval. The model included effects accounting for the following sources of variation: 'subjects' and 'formulation'. The effect 'subjects' was considered as random, whereas the 'formulation' effect was considered as fixed.||38.36|29.40|
82667762|NCT06408870|165052016|OTHER||Ratio of adjusted geometric means [%]|103.88|||||TWO_SIDED|90.0|101.08|106.75|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 9.0."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||106.75|101.08|
82667763|NCT06408870|165052017|OTHER||Ratio of adjusted geometric means [%]|105.32|||||TWO_SIDED|90.0|100.83|110.01|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 14.5."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||110.01|100.83|
82667764|NCT06408870|165052018|OTHER||Ratio of adjusted geometric means [%]|103.76|||||TWO_SIDED|90.0|100.95|106.65|||||"Ratio of adjusted geometric means \[%\] calculated as: test/reference\*100.~Intra-individual pair geometric coefficient of variation (gCV) \[%\] = 9.1."|The statistical model applied was an analysis of variance (ANOVA), with 'subjects within sequence' as a random effect and 'sequence,' 'period,' and 'treatment' as fixed effects.||106.65|100.95|
82667765|NCT04649359|165052038|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 30%.||||<0.0001
82667766|NCT04649359|165052038|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort B was 15%.||||<0.0001
82667767|NCT04649359|165052039|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 12%.||||<0.0001
82667768|NCT04649359|165052040|OTHER||||||<|0.0001|||||||Exact binominal|||Null hypothesis of ORR by BICR for cohort A was 38%.||||<0.0001
82667769|NCT02152982|165052070|SUPERIORITY|||||||0.1673|||||||Log Rank|||||||0.1673
82667770|NCT02152982|165052071|OTHER|Interaction test|Cox Proportional Hazard|0.89||||0.6659|TWO_SIDED|95.0|0.53|1.5|||Type 3 likelihood-ratio p-value|||||1.50|0.53|0.6659
82667771|NCT02152982|165052072|SUPERIORITY||Stratified Cox Proportional Hazard|1.05||||0.3164|TWO_SIDED|95.0|0.86|1.29|||Stratified Log Rank|||||1.29|0.86|0.3164
82667772|NCT02152982|165052073|SUPERIORITY|||||||0.7018|||||||Chi-squared|||||||0.7018
82667773|NCT02152982|165052074|SUPERIORITY|||||||0.0003|||||||Chi-squared|||||||0.0003
82667774|NCT05661344|165052101|OTHER||Ratio of adjusted geometric means [%]|104.56|||||TWO_SIDED|90.0|91.89|118.98|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 13.7"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||118.98|91.89|
82667775|NCT05661344|165052101|OTHER||Ratio of adjusted geometric means [%]|130.89|||||TWO_SIDED|90.0|89.34|191.75|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 42.0"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||191.75|89.34|
82667776|NCT05661344|165052102|OTHER||Ratio of adjusted geometric means [%]|83.29|||||TWO_SIDED|90.0|60.47|114.71|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 34.8"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||114.71|60.47|
82667777|NCT05661344|165052102|OTHER||Ratio of adjusted geometric means [%]|68.65|||||TWO_SIDED|90.0|46.48|101.41|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.0"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||101.41|46.48|
82667778|NCT05661344|165052103|OTHER||Ratio of adjusted geometric means [%]|105.44|||||TWO_SIDED|90.0|92.36|120.38|||||"Ratio \[%\] = (adjusted geometric mean of mild hepatic impairment / adjusted geometric mean of normal hepatic function matched to mild hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 14.1"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||120.38|92.36|
82667779|NCT05661344|165052103|OTHER||Ratio of adjusted geometric means [%]|131.1|||||TWO_SIDED|90.0|89.96|191.05|||||"Ratio \[%\] = (adjusted geometric mean of moderate hepatic impairment / adjusted geometric mean of normal hepatic function matched to moderate hepatic impairment)\*100.~Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 41.4"|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included the effect 'degree of hepatic impairment' as a fixed effect and 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||191.05|89.96|
82667780|NCT05911841|165052111|SUPERIORITY||Mean Difference (Final Values)|-12.0|||||TWO_SIDED|95.0|-30.6|6.6||||||||6.6|-30.6|
82667781|NCT05911841|165052111|SUPERIORITY||Mean Difference (Final Values)|-0.1|||||TWO_SIDED|95.0|-19.4|19.2||||||||19.2|-19.4|
82667782|NCT05911841|165052111|SUPERIORITY||Mean Difference (Final Values)|-14.9|||||TWO_SIDED|95.0|-31.6|1.7||||||||1.7|-31.6|
82667783|NCT05911841|165052112|SUPERIORITY||Mean Difference (Final Values)|-4.4|||||TWO_SIDED|95.0|-17.6|8.7||||||||8.7|-17.6|
82667784|NCT05911841|165052112|SUPERIORITY||Mean Difference (Final Values)|1.4|||||TWO_SIDED|95.0|-12.3|15.1||||||||15.1|-12.3|
82667785|NCT05911841|165052112|SUPERIORITY||Mean Difference (Final Values)|-9.9|||||TWO_SIDED|95.0|-21.8|1.9||||||||1.9|-21.8|
82667786|NCT05212948|165052129|OTHER|Vaccine Efficacy|Efficacy|34.2||||0.2409|TWO_SIDED|95.0|21.9|44.6||One-sided P-value was calculated to test the null hypothesis, vaccine efficacy ≤30%.|Poisson Regression Model|Robust Error Variance||Vaccine efficacy was calculated with its 95% confidence interval and defined as 1 minus the relative risk (S-268019-b versus placebo), which included the intervention group, baseline age (continuous) as factors as well as the log of the follow-up time as an offset.||44.6|21.9|0.2409
82667787|NCT00534469|165052147|OTHER|Two-sided test.||||||0.43||||||Log-rank test (Mantel-Haenszel test). This p-value is not adjusted for multiple comparisons. The a priori threshold for statistical significance is 0.05.|Log Rank|||Null hypothesis: All four groups are drawn from the same distribution. Alternative hypothesis: At least one of the groups has measurably different survival from the others.||||0.43
82667788|NCT04530552|165052149|OTHER||See above|0.895|||||TWO_SIDED|||||||||Posterior probability of observing a response rate ≥ 50%||||
82667789|NCT04530552|165052149|OTHER||See above|0.943|||||TWO_SIDED|||||||||Posterior probability of observing a response rate ≥ 25%||||
82667790|NCT04530552|165052150|OTHER|Two-sided paired t-test at 2.5% significance level (Bonferroni correction)||||||0.034||||||Two-sided paired t-test at 2.5% significance level (Bonferroni correction)|paired t-test|||||||0.034
82667791|NCT04530552|165052150|OTHER|||||||0.252||||||Two-sided paired t-test at 2.5% significance level (Bonferroni correction)|paired t-test|||||||0.252
82667792|NCT04530552|165052151|OTHER|||||||1||||||Significance level of 2.5% (Bonferroni correction)|Pearson correlation|||Correlation with % change PSA at end-of-intervention||||1.0
82667793|NCT04530552|165052151|OTHER|||||||1||||||Significance level of 2.5% (Bonferroni correction)|Pearson correlation|||Correlation with % change PSA at end-of-intervention||||1.0
82667794|NCT04530552|165052152|OTHER|||||||0.658||||||two-sided paired t-test (no Bonferroni adjustment)|paired t-test|||||||0.658
82667795|NCT04530552|165052152|OTHER|||||||0.167||||||Two-sided paired t-test (no Bonferroni adjustment)|paired t-test|||||||0.167
82667796|NCT05347693|165052177|EQUIVALENCE|"Prespecified estimates for sample size calculation~* Equivalence margin: 0.29~* Sample size estimate parameters:~  * Two-group χ² test~ * Significance level (α): 5% (two-sided)~ * Power: 80%~* Assumed proportions with NK (K+ between 3.5 and 5.0 mmol/L, inclusive) at 180 days post-discharge:~  * Arm A: 0.88~ * Arm B: 0.59~Note: Assumed proportions for statistical planning; not actual results."|Odds Ratio (OR)|0.81||||0.558|TWO_SIDED|95.0|0.39|1.66|||Regression, Logistic|Model included response as the dependent variable, and randomised treatment and participant recruitment country as independent factors.|OR \>1 indicated increased odds of K+ between 3.5 and 5.0 mmol/L on SZC compared to SoC.|||1.66|0.39|0.558
82667797|NCT05347693|165052178|EQUIVALENCE|"Prespecified estimates for sample size calculation~* Equivalence margin: 0.262~* Sample size estimate parameters:~  * Log-Rank Test for Equality of Survival Curves~ * α: 5%~ * Power: 80%~* HR (SZC/SoC): 0.329~* Assumed proportions without the main secondary composite outcome (event-free) at 180 days post-discharge~  * Arm A: 83% (17% with the outcome/event of interest)~ * Arm B: 56.8% (43.2% with the outcome/event of interest)~Note: Assumed proportions for statistical planning; not actual results"|Hazard Ratio (HR)|0.92||||0.743|TWO_SIDED|95.0|0.56|1.51|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.51|0.56|0.743
82667798|NCT05347693|165052179|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|1.02||||0.951|TWO_SIDED|95.0|0.58|1.79|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.79|0.58|0.951
82667799|NCT05347693|165052180|EQUIVALENCE|This outcome is unpowered.|Incidence rate ratio|1.48|STANDARD_ERROR_OF_MEAN|0.4||0.152|TWO_SIDED|95.0|0.86|2.53|||Negative binomial regression model|Model included the randomised treatment group as the independent variable and duration of time in study as an offset.|A rate ratio \<1 favours SZC compared to SoC.|||2.53|0.86|0.152
82667800|NCT05347693|165052181|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|1.42||||0.515|TWO_SIDED|95.0|0.5|4.35|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||4.35|0.50|0.515
82667801|NCT05347693|165052182|EQUIVALENCE|This outcome is unpowered.|Hazard Ratio (HR)|0.41||||0.258|TWO_SIDED|95.0|0.07|1.83|||Regression, Cox|Randomised treatment group and participant recruitment country were used as the independent variables. SoC group used as reference level in Cox model.|An HR \<1 favoured SZC to be associated with a longer time to first component of composite endpoint than SoC.|||1.83|0.07|0.258
82667802|NCT05347693|165052183|EQUIVALENCE|This outcome is unpowered.|Incidence risk ratio|0.42|STANDARD_ERROR_OF_MEAN|0.31||0.239|TWO_SIDED|95.0|0.1|1.81|||Negative binomial regression model|Model included the randomised treatment group as the independent variable and duration of time in study as an offset.|A rate ratio \<1 favours SZC compared to SoC.|||1.81|0.10|0.239
82667803|NCT02048813|165052184|SUPERIORITY||Hazard Ratio (HR)|0.35|||<|0.001|TWO_SIDED|95.0|0.22|0.56|||Log Rank|||||0.56|0.22|<.001
82667804|NCT02048813|165052185|SUPERIORITY||Hazard Ratio (HR)|0.17|||<|0.001|TWO_SIDED|95.0|0.05|0.54|||Log Rank|||||0.54|0.05|<.001
82667805|NCT01708954|165052196|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.37|||||TWO_SIDED|80.0|0.25|0.53|||||Hazard ratio of Arm C/Arm A|||0.53|0.25|
82667806|NCT01708954|165052196|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.39|||||TWO_SIDED|80.0|0.27|0.55|||||Hazard ratio of Arm B/Arm A|||0.55|0.27|
82667807|NCT01192776|165052201|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.76|1.98||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.98|0.76|
82667808|NCT01192776|165052201|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.21|||||TWO_SIDED|95.0|0.78|1.87||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.87|0.78|
82667809|NCT01192776|165052201|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.85|||||TWO_SIDED|95.0|0.53|1.35||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.35|0.53|
82667810|NCT01192776|165052202|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|2.16|||||TWO_SIDED|95.0|0.55|8.49||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||8.49|0.55|
82667811|NCT01192776|165052202|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|2.52|||||TWO_SIDED|95.0|1.06|5.95||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||5.95|1.06|
82667812|NCT01192776|165052202|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.85|||||TWO_SIDED|95.0|0.79|4.31||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||4.31|0.79|
82667813|NCT01192776|165052207|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.23|||||TWO_SIDED|95.0|0.64|2.38||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.38|0.64|
82667814|NCT01192776|165052207|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.82|||||TWO_SIDED|95.0|0.36|1.9||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.90|0.36|
82667815|NCT01192776|165052207|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.26|1.57||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.57|0.26|
82667816|NCT01192776|165052209|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.33|||||TWO_SIDED|95.0|0.63|2.77||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.77|0.63|
82667817|NCT01192776|165052209|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.42|||||TWO_SIDED|95.0|0.09|2.04||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.04|0.09|
82667818|NCT01192776|165052209|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.78|||||TWO_SIDED|95.0|0.2|2.99||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.99|0.20|
82667819|NCT01192776|165052210|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.65|||||TWO_SIDED|95.0|0.14|3.01||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||3.01|0.14|
82667820|NCT01192776|165052210|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|1.31|||||TWO_SIDED|95.0|0.44|3.91||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||3.91|0.44|
82667821|NCT01192776|165052210|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.28|||||TWO_SIDED|95.0|0.03|2.89||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.89|0.03|
82667822|NCT01192776|165052211|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.87|||||TWO_SIDED|95.0|0.37|2.07||||||32.0°C for 72 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||2.07|0.37|
82667823|NCT01192776|165052211|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.64|||||TWO_SIDED|95.0|0.3|1.35||||||33.5°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.35|0.30|
82667824|NCT01192776|165052211|SUPERIORITY|Generalized Estimating Equations models with log link, adjusted for level of encephalopathy and intra-center correlations|Risk Ratio (RR)|0.47|||||TWO_SIDED|95.0|0.13|1.64||||||32.0°C for 120 hours vs. 33.5°C for 72 hours (33.5°C for 72 hours is the comparison group)||1.64|0.13|
82667825|NCT01225055|165052217|SUPERIORITY|||||||0.84||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.84
82667826|NCT01225055|165052217|SUPERIORITY|||||||0.64||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.64
82667827|NCT01225055|165052217|SUPERIORITY|||||||0.26||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.26
82667828|NCT01225055|165052218|SUPERIORITY|||||||0.64||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.64
82667829|NCT01225055|165052218|SUPERIORITY|||||||0||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.00
82667830|NCT01225055|165052218|SUPERIORITY|||||||0.09||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.09
82667831|NCT01225055|165052219|SUPERIORITY|||||||0.72||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.72
82667832|NCT01225055|165052219|SUPERIORITY|||||||0.58||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.58
82667833|NCT01225055|165052219|SUPERIORITY|||||||0.44||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.44
82667834|NCT01225055|165052220|SUPERIORITY|||||||0.02||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.02
82667835|NCT01225055|165052220|SUPERIORITY|||||||0.1||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.10
82667836|NCT01225055|165052220|SUPERIORITY|||||||0.04||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.04
82667837|NCT01225055|165052221|SUPERIORITY|||||||0.01||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.01
82667838|NCT01225055|165052221|SUPERIORITY|||||||0.34||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.34
82667839|NCT01225055|165052221|SUPERIORITY|||||||0.2||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.20
82667840|NCT01225055|165052222|SUPERIORITY|||||||0||||||calculated p-value indicating the effect of different treatment groups|ANOVA|Repeated measures ANOVA||||||0.00
82667841|NCT01225055|165052222|SUPERIORITY|||||||0.01||||||calculated p-value indicating the effect of different time points|ANOVA|Repeated measures ANOVA||||||0.01
82667842|NCT01225055|165052222|SUPERIORITY|||||||0.04||||||calculated p-value indicating the effect of different treatment groups and time points|ANOVA|Repeated measures ANOVA||||||0.04
82667843|NCT01358877|165052230|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.043|TWO_SIDED|95.0|0.68|0.99||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.99|0.68|0.0430
82667844|NCT01358877|165052233|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0327|TWO_SIDED|95.0|0.67|0.98||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.98|0.67|0.0327
82667845|NCT01358877|165052236|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.4673|TWO_SIDED|95.0|0.66|1.21||The O'Brien-Fleming stopping boundary of the Lan-DeMets alpha-spending function for the first interim OS analysis was HR\<0.52; p\<0.00001.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.21|0.66|0.4673
82667846|NCT01358877|165052237|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0441|TWO_SIDED|95.0|0.69|1.0||The p-value threshold according to the alpha-spending function at this final analysis was 0.0496.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.00|0.69|0.0441
82667847|NCT01358877|165052240|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.043|TWO_SIDED|95.0|0.63|0.99|||Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||0.99|0.63|0.0430
82667848|NCT01358877|165052243|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.1007|TWO_SIDED|95.0|0.64|1.04|||Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.04|0.64|0.1007
82667849|NCT01358877|165052246|SUPERIORITY||Treatment Difference|0.4|||||TWO_SIDED|95.0|0.0|0.8|||||The difference in percentage of participants with a primary cardiac event between the pertuzumab and placebo arms. The 95% confidence interval (CI) was estimated using Hauck-Anderson correction.|||0.8|0.0|
82667850|NCT01358877|165052247|SUPERIORITY||Treatment Difference|0.4|||||TWO_SIDED|95.0|-0.1|0.9|||||The difference in percentage of participants with a primary cardiac event between the pertuzumab and placebo arms. The 95% confidence interval (CI) was estimated using Hauck-Anderson correction.|||0.9|-0.1|
82667851|NCT01358877|165052248|SUPERIORITY||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-1.0|0.9|||||95% CI was estimated using Hauck-Anderson correction.|||0.9|-1.0|
82667852|NCT01358877|165052249|SUPERIORITY||Treatment Difference|-0.1|||||TWO_SIDED|95.0|-1.1|0.9|||||95% CI was estimated using Hauck-Anderson correction.|||0.9|-1.1|
82667853|NCT01358877|165052250|SUPERIORITY||Treatment Difference|0.1|||||TWO_SIDED|95.0|-0.3|0.5|||||95% CI was estimated using Hauck-Anderson correction.|||0.5|-0.3|
82667854|NCT01358877|165052251|SUPERIORITY||Treatment Difference|0.0|||||TWO_SIDED|95.0|-0.4|0.4|||||95% CI was estimated using Hauck-Anderson correction.|||0.4|-0.4|
82667855|NCT01358877|165052267|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0446|TWO_SIDED|95.0|0.66|1.0||Statistical significance was controlled at a two-sided alpha level of 0.05.|Log Rank||Hazard ratio was estimated by Cox regression.|Analysis was performed using stratified log-rank test, which included nodal status, protocol version, central hormone receptor status, and adjuvant chemotherapy regimen as stratification factors in the randomization.||1.00|0.66|0.0446
82667856|NCT02567435|165052269|SUPERIORITY||3-Year EFS|65.8||||0.44|TWO_SIDED||||||Log Rank|||||||0.44
82667857|NCT02567435|165052270|SUPERIORITY||3-Year OS|78.2||||0.56|TWO_SIDED||||||Log Rank|||||||0.56
82667858|NCT02166463|165052275|SUPERIORITY|||||||0.0001|||||||Log Rank|Used a one-sided log-rank test between 2 arms||Assuming a 3-year EFS of 82% (5-year EFS of 78.4%, long term EFS of 76%) for standard arm, the study will have approximately 86% power for detecting an 8% improvement in 3-year EFS in the Bv-AVEPC arm (3-year EFS of 90%, 5-year EFS of 88.0%, long term EFS of 86.7%) in log rank test.||||0.0001
82667859|NCT02326064|165052283|SUPERIORITY||||||<|0.001|||||||Mac-Nemar paired Chi-2 test|||||||<0.001
82667860|NCT02326064|165052284|SUPERIORITY||||||<|0.001|||||||Mac-Nemar paired Chi-2 test|||||||<0.001
82667861|NCT05552261|165052293|OTHER||Mean Difference (Final Values)|-2.8||||0.5158|TWO_SIDED|95.0|-6.7|1.2|||Wilcoxon signed-rank|||||1.2|-6.7|0.5158
82667862|NCT05552261|165052293|OTHER||Mean Difference (Final Values)|-4.9||||0.067|TWO_SIDED|95.0|-9.2|-0.6|||Wilcoxon signed-rank|||||-0.6|-9.2|0.0670
82667863|NCT05552261|165052293|OTHER||Mean Difference (Final Values)|-0.8||||0.6307|TWO_SIDED|95.0|-4.4|2.8|||Wilcoxon signed-rank|||||2.8|-4.4|0.6307
82667864|NCT05552261|165052293|OTHER||Mean Difference (Final Values)|-3.1||||0.0357|TWO_SIDED|95.0|-5.6|-0.6|||Wilcoxon signed-rank|||||-0.6|-5.6|0.0357
82667865|NCT05552261|165052294|OTHER||Mean Difference (Final Values)|0.695||||0.2836|TWO_SIDED|95.0|-0.353|1.743|||Wilcoxon signed-rank|||||1.743|-0.353|0.2836
82667866|NCT05552261|165052294|OTHER||Mean Difference (Final Values)|0.539||||0.5153|TWO_SIDED|95.0|-0.55|1.628|||Wilcoxon signed-rank|||||1.628|-0.550|0.5153
82667867|NCT05552261|165052294|OTHER||Mean Difference (Final Values)|-0.384||||0.253|TWO_SIDED|95.0|-1.295|0.527|||Wilcoxon signed-rank|||||0.527|-1.295|0.2530
82667868|NCT05552261|165052294|OTHER||Mean Difference (Final Values)|-0.561||||0.3828|TWO_SIDED|95.0|-1.574|0.451|||Wilcoxon signed-rank|||||0.451|-1.574|0.3828
82667869|NCT05552261|165052296|OTHER||Mean Difference (Final Values)|-0.023||||0.745|TWO_SIDED|95.0|-0.11|0.064|||Wilcoxon signed-rank|||||0.064|-0.110|0.7450
82667870|NCT05552261|165052296|OTHER||Mean Difference (Final Values)|0.124|||<|0.0001|TWO_SIDED|95.0|0.071|0.177|||Wilcoxon signed-rank|||||0.177|0.071|<0.0001
82667871|NCT05552261|165052296|OTHER||Mean Difference (Final Values)|-0.056||||0.1619|TWO_SIDED|95.0|-0.134|0.021|||Wilcoxon signed-rank|||||0.021|-0.134|0.1619
82667872|NCT05552261|165052296|OTHER||Mean Difference (Final Values)|0.087||||0.01|TWO_SIDED|95.0|0.02|0.154|||Wilcoxon signed-rank|||||0.154|0.020|0.0100
82667873|NCT02003222|165052301|SUPERIORITY||Hazard Ratio (HR)|0.44||||0.003|TWO_SIDED|95.0|0.25|0.76|||Log Rank||hazard ratio: blinatumomab + chemotherapy vs. chemotherapy alone|||0.76|0.25|0.003
82667874|NCT02003222|165052302|SUPERIORITY||Hazard Ratio (HR)|0.53||||0.015|TWO_SIDED|95.0|0.31|0.89|||Log Rank||hazard ratio: Blinatumomab + Chemotherapy vs. Chemotherapy alone|||0.89|0.31|0.015
82667875|NCT02003222|165052303|SUPERIORITY||Hazard Ratio (HR)|0.77||||0.67|TWO_SIDED|95.0|0.22|2.65|||Log Rank|||||2.65|0.22|0.67
82667876|NCT02003222|165052304|SUPERIORITY||Hazard Ratio (HR)|1.0||||1|TWO_SIDED|95.0|0.28|3.63|||Log Rank|||||3.63|0.28|1.00
82667877|NCT02003222|165052305|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.41|TWO_SIDED|95.0|0.17|2.11|||Log Rank||hazard ratio: blinatumomab + chemotherapy vs. chemotherapy alone|||2.11|0.17|0.41
82667878|NCT03302078|165052364|OTHER||Geometric Mean (T/R) ratio (%)|102.63|||||TWO_SIDED|90.0|98.31|107.15|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 5.5|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||107.15|98.31|
82667879|NCT03302078|165052365|OTHER||Geometric Mean (T/R) ratio (%)|79.08|||||TWO_SIDED|90.0|69.96|89.4|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 16.0|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||89.40|69.96|
82667880|NCT03302078|165052366|OTHER||Geometric Mean (T/R) ratio (%)|102.44|||||TWO_SIDED|90.0|97.8|107.3|||||To get geometric mean ratio and confidence interval, least square estimates of log-transformed PK endpoint for T and R were back transformed to original scale. Intra-individual geometric coefficient of variance (%) = 5.9|The analysis of variance (ANOVA) model on a logarithmic scale included effects accounting for the following sources of variation: 'sequence', 'subjects within sequence', 'period', and 'treatment'. The effect 'subjects within sequences' was considered as random, whereas the other effects were considered as fixed. No hypothesis was tested and no acceptance range was specified. This was an intra-individual assessment and actually only 12 subjects were analyzed.||107.30|97.80|
82667881|NCT05030584|165052372|SUPERIORITY||Difference in LS-means|-1.55|||<|0.0001|TWO_SIDED|95.0|-2.04|-1.05||The type I error rate was controlled at a one-sided α=0.025 level.|Mixed model repeated measures (MMRM)|||"For category Change from baseline."||-1.05|-2.04|<0.0001
82667882|NCT01886872|165052375|SUPERIORITY||Hazard Ratio (HR)|0.39|||<|0.001|TWO_SIDED|95.0|0.26|0.58||(1-sided)|Log Rank|||Arm B (Ibrutinib) versus Arm A (Rituximab, Bendamustine Hydrochloride)||0.58|0.26|<0.001
82667883|NCT01886872|165052375|SUPERIORITY||Hazard Ratio (HR)|0.38|||<|0.001|TWO_SIDED|95.0|0.25|0.59||(1-sided)|Log Rank|||Arm C (Ibrutinib, Rituximab) versus Arm A (Rituximab, Bendamustine Hydrochloride)||0.59|0.25|<0.001
82667884|NCT01886872|165052375|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.49|TWO_SIDED|95.0|0.62|1.62||(1-sided)|Log Rank|||Arm C (Ibrutinib, Rituximab) versus Arm B (Ibrutinib)||1.62|0.62|0.49
82667885|NCT05063448|165052407|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±2.47. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-1.47|3.47|||||Five cases fell outside of the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||3.47|-1.47|
82667886|NCT05063448|165052407|SUPERIORITY|||||||0.022||||||This is not adjusted for multiple comparisons. A priori alpha is set at 95% with two tails.|t-test, 2 sided|t = 2.547, df = 16. N at time 3 = 18.||Paired samples t-test was used to compare group average pretest (time 1) and posttest (time 3) scores of self-perceptions of the parental role, a measure of parenting confidence.||||0.022
82667887|NCT05063448|165052408|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±1.84. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-0.84|2.84|||||Three cases fell outside of the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||2.84|-0.84|
82667888|NCT05063448|165052409|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±5.97. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-4.97|6.97||||Two cases demonstrated reliable and one case demonstrated a reliable increase in work-family role conflict at posttest.|Two cases fell outside of the upper confidence interval and one case fell outside of the lower confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||6.97|-4.97|
82667889|NCT05063448|165052410|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±4.78.|Slope|1.0|||||TWO_SIDED|95.0|-3.78|5.78|||||Three cases fell below the confidence interval and two cases fell above the confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score..||5.78|-3.78|
82667890|NCT05063448|165052411|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±3.37. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-2.27|4.37|||||Three cases fell below the lower confidence interval and two cases fell above the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||4.37|-2.27|
82667891|NCT05063448|165052412|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±2.80. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-1.8|3.8|||||Two cases fell below the lower confidence interval and two cases fell above the upper confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||3.80|-1.80|
82667892|NCT05063448|165052414|OTHER|Reliable change is calculated by multiplying the standard deviation of the measure by Cronbach's alpha reliability to determine the standard error of the measure. The standard error of the measure is multiplied by 1.96 to calculate a confidence interval around the line of no change, when the slope of pre-test to post-test = 1. Using time 3 parameters, the reliable change index for this scale was ±4.03. Cases that fall outside of the confidence interval are considered to show reliable change.|Slope|1.0|||||TWO_SIDED|95.0|-3.03|5.03|||||One case fell outside of the upper confidence interval, while 5 participants fell below the lower confidence interval.|Reliable change indices compare participants to themselves from Time 1 (baseline) and Time 3 (post-intervention). Reliable change indices measure whether the score change of individual participants is more than would be expected based on measurement error alone. Reliable change results are presented as number of participants who fell outside of the reliable change confidence interval in each direction indicating reliable increases or decreases in score.||5.03|-3.03|
82667893|NCT05469438|165052423|OTHER|We assessed prediction accuracy of our system using the R\^2 from leave-one-out cross-validation of predicted Fugl-Meyer scores, which were obtained from models predicting recovery based on baseline data.|||||||||||||||||We assessed prediction accuracy of our system using the R\^2 from leave-one-out cross-validation of predicted Fugl-Meyer scores, which were obtained from models predicting recovery based on baseline data.|||
82667894|NCT01856192|165052467|SUPERIORITY|||||||0.03|||||||Log Rank|Stratified log rank test||||||0.03
82667895|NCT04777331|165052473|SUPERIORITY||Hazard Ratio (HR)|0.84||||0.0657|TWO_SIDED|95.0|0.69|1.01|||Log Rank|||Stratified Analysis||1.01|0.69|0.0657
82667896|NCT04777331|165052474|SUPERIORITY||Hazard Ratio (HR)|0.82||||0.0914|TWO_SIDED|95.0|0.66|1.03|||Cox-regression adjusted|||||1.03|0.66|0.0914
82667897|NCT04777331|165052475|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1574|TWO_SIDED|95.0|0.73|1.05|||Cox-regression adjusted|||||1.05|0.73|0.1574
82667898|NCT04777331|165052476|SUPERIORITY||Hazard Ratio (HR)|0.83||||0.0622|TWO_SIDED|95.0|0.69|1.01|||Cox-regression adjusted|||||1.01|0.69|0.0622
82667899|NCT04777331|165052477|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.5515|TWO_SIDED|95.0|0.75|1.17|||Cox-regression adjusted|||||1.17|0.75|0.5515
82667900|NCT04777331|165052478|SUPERIORITY||Difference in Adjusted Means|-0.39||||0.5944|TWO_SIDED|95.0|-1.84|1.05|||Mixed-model for Repeated Measures (MMRM)|||||1.05|-1.84|0.5944
82667901|NCT04777331|165052479|SUPERIORITY||Difference in Adjusted Means|0.08||||0.8955|TWO_SIDED|95.0|-1.08|1.24|||MMRM|||||1.24|-1.08|0.8955
82667902|NCT04108468|165052505|SUPERIORITY||Mean Difference (Final Values)|-0.55||||0.064|TWO_SIDED|95.0|-1.12|0.03|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.03|-1.12|0.064
82667903|NCT04108468|165052506|SUPERIORITY||Mean Difference (Final Values)|-0.86||||0.007|TWO_SIDED|95.0|-1.48|-0.24|||Regression, Linear|"Adjusted for baseline BASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.24|-1.48|0.007
82667904|NCT04108468|165052507|SUPERIORITY||Mean Difference (Final Values)|-0.58||||0.096|TWO_SIDED|95.0|-1.26|0.11|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.11|-1.26|0.096
82667905|NCT04108468|165052508|SUPERIORITY||Mean Difference (Final Values)|-0.07||||0.844|TWO_SIDED|95.0|-0.72|0.59|||Regression, Linear|"Adjusted for baseline PASDAS and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.59|-0.72|0.844
82667906|NCT04108468|165052509|SUPERIORITY||Mean Difference (Final Values)|-0.96||||0.041|TWO_SIDED|95.0|-1.88|-0.04|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.04|-1.88|0.041
82667907|NCT04108468|165052510|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.375|TWO_SIDED|95.0|-1.41|0.54|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.54|-1.41|0.375
82667908|NCT04108468|165052511|SUPERIORITY||Mean Difference (Final Values)|-0.44||||0.392|TWO_SIDED|95.0|-1.46|0.58|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.58|-1.46|0.392
82667909|NCT04108468|165052512|SUPERIORITY||Mean Difference (Final Values)|-0.32||||0.541|TWO_SIDED|95.0|-1.34|0.71|||Regression, Linear|"Adjusted for baseline CPDAI and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.71|-1.34|0.541
82667910|NCT04108468|165052513|SUPERIORITY||Mean Difference (Final Values)|-2.35||||0.633|TWO_SIDED|95.0|-12.14|7.43|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||7.43|-12.14|0.633
82667911|NCT04108468|165052514|SUPERIORITY||Mean Difference (Final Values)|1.24||||0.826|TWO_SIDED|95.0|-9.95|12.43|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||12.43|-9.95|0.826
82667912|NCT04108468|165052515|SUPERIORITY||Mean Difference (Final Values)|2.24||||0.268|TWO_SIDED|95.0|-1.76|6.25|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||6.25|-1.76|0.268
82667913|NCT04108468|165052516|SUPERIORITY||Mean Difference (Final Values)|1.21||||0.605|TWO_SIDED|95.0|-3.42|5.83|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||5.83|-3.42|0.605
82667914|NCT04108468|165052517|SUPERIORITY||Mean Difference (Final Values)|-0.85||||0.62|TWO_SIDED|95.0|-4.23|2.54|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||2.54|-4.23|0.620
82667915|NCT04108468|165052518|SUPERIORITY||Mean Difference (Final Values)|-1.39||||0.449|TWO_SIDED|95.0|-5.02|2.24|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||2.24|-5.02|0.449
82667916|NCT04108468|165052519|SUPERIORITY||Mean Difference (Final Values)|1.72||||0.364|TWO_SIDED|95.0|-2.04|5.48|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||5.48|-2.04|0.364
82667917|NCT04108468|165052520|SUPERIORITY||Mean Difference (Final Values)|0.51||||0.806|TWO_SIDED|95.0|-3.6|4.61|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||4.61|-3.60|0.806
82667918|NCT04108468|165052521|SUPERIORITY||Mean Difference (Final Values)|1.05||||0.588|TWO_SIDED|95.0|-2.79|4.89|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||4.89|-2.79|0.588
82667919|NCT04108468|165052522|SUPERIORITY||Mean Difference (Final Values)|-0.76||||0.372|TWO_SIDED|95.0|-2.45|0.93|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.93|-2.45|0.372
82667920|NCT04108468|165052523|SUPERIORITY||Mean Difference (Final Values)|-0.25||||0.781|TWO_SIDED|95.0|-2.05|1.55|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||1.55|-2.05|0.781
82667921|NCT04108468|165052524|SUPERIORITY||Mean Difference (Final Values)|-2.26||||0.037|TWO_SIDED|95.0|-4.39|-0.14|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||-0.14|-4.39|0.037
82667922|NCT04108468|165052525|SUPERIORITY||Mean Difference (Final Values)|-0.95||||0.058|TWO_SIDED|95.0|-1.93|0.03|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.03|-1.93|0.058
82667923|NCT04108468|165052526|SUPERIORITY||Mean Difference (Final Values)|-0.6||||0.213|TWO_SIDED|95.0|-1.54|0.35|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||0.35|-1.54|0.213
82667924|NCT04108468|165052527|SUPERIORITY||Mean Difference (Final Values)|0.31||||0.606|TWO_SIDED|95.0|-0.88|1.5|||Regression, Linear|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The mean difference was adjusted pre-specified covariates, and calculated following multiple imputation. The individual group means reported were unadjusted, available case estimates. The placebo/methotrexate arm was the reference category.|||1.50|-0.88|0.606
82667925|NCT04108468|165052528|SUPERIORITY||Incidence-rate ratio|1.01||||0.971|TWO_SIDED|95.0|0.48|2.14|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate arm was the reference category.|||2.14|0.48|0.971
82667926|NCT04108468|165052529|SUPERIORITY||Incidence-rate ratio|1.1||||0.817|TWO_SIDED|95.0|0.49|2.46|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.46|0.49|0.817
82667927|NCT04108468|165052530|SUPERIORITY||Incidence-rate ratio|1.35||||0.441|TWO_SIDED|95.0|0.63|2.93|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.93|0.63|0.441
82667928|NCT04108468|165052531|SUPERIORITY||Incidence-rate ratio|1.29||||0.563|TWO_SIDED|95.0|0.55|3.03|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||3.03|0.55|0.563
82667929|NCT04108468|165052532|SUPERIORITY||Incidence-rate ratio|0.17||||0.083|TWO_SIDED|95.0|0.02|1.26|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.26|0.02|0.083
82667930|NCT04108468|165052533|SUPERIORITY||Incidence-rate ratio|0.26||||0.432|TWO_SIDED|95.0|0.01|7.64|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||7.64|0.01|0.432
82667931|NCT04108468|165052534|SUPERIORITY||Incidence-rate ratio|0.11||||0.071|TWO_SIDED|95.0|0.01|1.21|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.21|0.01|0.071
82667932|NCT04108468|165052535|SUPERIORITY||Incidence-rate ratio|0.06||||0.037|TWO_SIDED|95.0|0.0|0.84|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.84|0.00|0.037
82667933|NCT04108468|165052536|SUPERIORITY||Incidence-rate ratio|0.68||||0.296|TWO_SIDED|95.0|0.32|1.41|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.41|0.32|0.296
82667934|NCT04108468|165052537|SUPERIORITY||Incidence-rate ratio|0.51||||0.081|TWO_SIDED|95.0|0.23|1.09|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.09|0.23|0.081
82667935|NCT04108468|165052538|SUPERIORITY||Incidence-rate ratio|0.75||||0.458|TWO_SIDED|95.0|0.36|1.59|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.59|0.36|0.458
82667936|NCT04108468|165052539|SUPERIORITY||Incidence-rate ratio|1.12||||0.798|TWO_SIDED|95.0|0.46|2.72|||Negative binomial regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||2.72|0.46|0.798
82667937|NCT04108468|165052540|SUPERIORITY||Median Difference (Final Values)|-0.38||||0.512|TWO_SIDED|95.0|-1.53|0.77|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.77|-1.53|0.512
82667938|NCT04108468|165052541|SUPERIORITY||Median Difference (Final Values)|-0.44||||0.32|TWO_SIDED|95.0|-1.33|0.44|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.44|-1.33|0.320
82667939|NCT04108468|165052542|SUPERIORITY||Median Difference (Final Values)|-0.47||||0.22|TWO_SIDED|95.0|-1.22|0.28|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.28|-1.22|0.220
82667940|NCT04108468|165052543|SUPERIORITY||Median Difference (Final Values)|0.05||||0.912|TWO_SIDED|95.0|-0.85|0.95|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.95|-0.85|0.912
82667941|NCT04108468|165052544|SUPERIORITY||Median Difference (Final Values)|-0.5||||0.281|TWO_SIDED|95.0|-1.42|0.42|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||0.42|-1.42|0.281
82667942|NCT04108468|165052545|SUPERIORITY||Median Difference (Final Values)|0.01||||0.985|TWO_SIDED|95.0|-1.44|1.47|||Quantile (median) regression|"Adjusted for baseline score and poly/oligoarthritis status (the stratification variable).~Multiple imputation addressed missing data."|The placebo/methotrexate group was the reference category.|||1.47|-1.44|0.985
82667943|NCT04108468|165052546|SUPERIORITY||Odds Ratio (OR)|1.08||||0.869|TWO_SIDED|95.0|0.45|2.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.60|0.45|0.869
82667944|NCT04108468|165052547|SUPERIORITY||Odds Ratio (OR)|0.9||||0.802|TWO_SIDED|95.0|0.38|2.13|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.13|0.38|0.802
82667945|NCT04108468|165052548|SUPERIORITY||Odds Ratio (OR)|1.14||||0.767|TWO_SIDED|95.0|0.48|2.72|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.72|0.48|0.767
82667946|NCT04108468|165052549|SUPERIORITY||Odds Ratio (OR)|0.63||||0.315|TWO_SIDED|95.0|0.26|1.55|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||1.55|0.26|0.315
82667947|NCT04108468|165052550|SUPERIORITY||Odds Ratio (OR)|1.34||||0.516|TWO_SIDED|95.0|0.55|3.27|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.27|0.55|0.516
82667948|NCT04108468|165052551|SUPERIORITY||Odds Ratio (OR)|0.97||||0.939|TWO_SIDED|95.0|0.39|2.38|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.38|0.39|0.939
82667949|NCT04108468|165052552|SUPERIORITY||Odds Ratio (OR)|1.19||||0.701|TWO_SIDED|95.0|0.48|2.94|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.94|0.48|0.701
82667950|NCT04108468|165052553|SUPERIORITY||Odds Ratio (OR)|0.48||||0.124|TWO_SIDED|95.0|0.19|1.22|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||1.22|0.19|0.124
82667951|NCT04108468|165052554|SUPERIORITY||Odds Ratio (OR)|1.89||||0.161|TWO_SIDED|95.0|0.78|4.63|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.63|0.78|0.161
82667952|NCT04108468|165052555|SUPERIORITY||Odds Ratio (OR)|1.67||||0.251|TWO_SIDED|95.0|0.7|4.02|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.02|0.70|0.251
82667953|NCT04108468|165052556|SUPERIORITY||Odds Ratio (OR)|1.5||||0.363|TWO_SIDED|95.0|0.63|3.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.60|0.63|0.363
82667954|NCT04108468|165052557|SUPERIORITY||Odds Ratio (OR)|0.99||||0.991|TWO_SIDED|95.0|0.4|2.46|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.46|0.40|0.991
82667955|NCT04108468|165052558|SUPERIORITY||Odds Ratio (OR)|3.12||||0.037|TWO_SIDED|95.0|1.07|9.1|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||9.10|1.07|0.037
82667956|NCT04108468|165052559|SUPERIORITY||Odds Ratio (OR)|2.5||||0.056|TWO_SIDED|95.0|0.98|6.4|||Regression, Logistic||The placebo/methotrexate group was the reference category.|||6.40|0.98|0.056
82667957|NCT04108468|165052560|SUPERIORITY||Odds Ratio (OR)|1.72||||0.277|TWO_SIDED|95.0|0.65|4.57|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.57|0.65|0.277
82667958|NCT04108468|165052561|SUPERIORITY||Odds Ratio (OR)|1.38||||0.548|TWO_SIDED|95.0|0.48|3.92|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||3.92|0.48|0.548
82667959|NCT04108468|165052562|SUPERIORITY||Odds Ratio (OR)|3.7||||0.018|TWO_SIDED|95.0|1.25|10.97|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||10.97|1.25|0.018
82667960|NCT04108468|165052563|SUPERIORITY||Odds Ratio (OR)|1.06||||0.926|TWO_SIDED|95.0|0.28|4.02|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.02|0.28|0.926
82667961|NCT04108468|165052564|SUPERIORITY||Odds Ratio (OR)|1.73||||0.385|TWO_SIDED|95.0|0.5|5.94|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||5.94|0.50|0.385
82667962|NCT04108468|165052565|SUPERIORITY||Odds Ratio (OR)|0.82||||0.684|TWO_SIDED|95.0|0.32|2.12|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||2.12|0.32|0.684
82667963|NCT04108468|165052566|SUPERIORITY||Odds Ratio (OR)|16.72||||0.063|TWO_SIDED|95.0|0.86|326.19|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||326.19|0.86|0.063
82667964|NCT04108468|165052567|SUPERIORITY||Odds Ratio (OR)|8.9||||0.041|TWO_SIDED|95.0|1.09|72.42|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||72.42|1.09|0.041
82667965|NCT04108468|165052568|SUPERIORITY||Odds Ratio (OR)|6.71||||0.069|TWO_SIDED|95.0|0.86|52.14|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||52.14|0.86|0.069
82667966|NCT04108468|165052569|SUPERIORITY||Odds Ratio (OR)|2.34||||0.397|TWO_SIDED|95.0|0.33|16.66|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||16.66|0.33|0.397
82667967|NCT04108468|165052570|SUPERIORITY||Odds Ratio (OR)|0.33||||0.309|TWO_SIDED|95.0|0.04|2.83|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate arm was the reference category.|||2.83|0.04|0.309
82667968|NCT04108468|165052571|SUPERIORITY||Odds Ratio (OR)|0.87||||0.871|TWO_SIDED|95.0|0.17|4.6|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||4.60|0.17|0.871
82667969|NCT04108468|165052572|SUPERIORITY||Odds Ratio (OR)|0.48||||0.555|TWO_SIDED|95.0|0.04|5.52|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||5.52|0.04|0.555
82667970|NCT04108468|165052573|SUPERIORITY||Odds Ratio (OR)|0.28||||0.009|TWO_SIDED|95.0|0.11|0.72|||Regression, Logistic|Adjusted for poly/oligoarthritis status (the stratification variable). Multiple imputation addressed missing data.|The placebo/methotrexate group was the reference category.|||0.72|0.11|0.009
82667971|NCT03260023|165052583|OTHER|Enough participants will be treated to obtain 22 evaluable as a first stage. If at least 3/22 participants are considered responders, the enrolment will be continued, otherwise it will be stopped. For the second stage of the trial, enough participants will be treated to obtain a total of 40 evaluable participants and consider the study positive if at least 8/40 of them are considered responders.||||||||||||||||A Simon's two-stage design will be used. The null hypothesis for response rate H0 is set at 10% corresponding to the response rate observed in second line participants, the alternate hypothesis of efficacy is set at HA=25%, the type I error α is set at 5% one sided, the type II error β is set at 20% (power=80%).|With a hierarchical strategy on the final analysis, a subgroup analysis performed in oropharyngeal SCCHN patients and with a null hypothesis for response rate (H0) set at 10% and the alternative hypothesis of efficacy set at HA = 35%, 18 oropharyngeal SCCHN patients would have been needed to reach a power of 81% and actual alpha at 2.8%. This analysis would have been considered positive with at least 5 responders among the 18 SCCHN patients. The second stage of the Simon's design has not been done following the decision to exclude oropharyngeal SCCHN and to change to a randomized controlled two-arms study (phase II part 2).|||
82667972|NCT03260023|165052584|SUPERIORITY|Statistical analysis is performed using a one-sided log-rank unstratified test to compare Progression-Free Survival of TG4001 in combination with avelumab vs avelumab alone in participants with recurrent or metastatic (R/M) HPV-16 positive advanced malignancies and without liver metastases at baseline. PFS will be evaluated based on RECIST1.1.|Hazard Ratio (HR)|0.87||||0.281|TWO_SIDED|90.0|0.59|1.29|||Log Rank|Unstratified with one-sided p-value||Efficacy will be evaluated by comparing the PFS between TG4001 arm versus TG4001 \& avelumab arm with an adaptive approach. With one-sided type I error α at 5%, 76 events are needed to reach a power of 95%, corresponding to around 80 participants enrolled. To stick with initial timelines for final analyses and limiting the loss of statistical power, PFS analysis will be performed based on at least 69 events.||1.29|0.59|0.2810
82667973|NCT03260023|165052586|OTHER|||||||0.832||||||At level 0.05 without adjustments for multiplicity testing, pvalue is calculated using Cochran-Mantel-Haenszel Chi-Square test.|Cochran-Mantel-Haenszel|||In Phase II part 2 cohort A, statistical Test stratified by indication to compare the Overall Response Rate between TG4001+Avelumab versus Avelumab alone.||||0.832
82667974|NCT04220021|165052595|SUPERIORITY|For the sign and binomial test our two outcomes are decreased (success) percentage change in RAN protein levels and increased (failure) percentage change in RAN protein levels.||||||0.0245||||||A priori test for significance is p less than or equal to 0.05|Sign test|One-tailed sign and binomial test||Sign and binomial test with one-tail analysis where the null hypothesis predicts a 50/50 split (p=0.5) for two outcomes.||||0.0245
82667975|NCT00098475|165052597|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The low-dose response would be considered unacceptable if the difference in response rates was 15% or greater (the upper confidence limit exceeds the 15% acceptable difference) regardless of a decrease in toxicity rate.|Difference in response rate between arms|0.107|||||TWO_SIDED|80.0|0.052|0.162||||||The study was designed to determine if a reduced dose of dexamethasone in combination with CC-5013 reduced toxicity rate without reducing response rate. The standard-dose response was expected to be 70%. The low dose would be deemed unacceptable if the difference in response rate between arms was \>=15%. The null hypothesis was that response rates were equal and the alternative was that the low-dose response was no worse than 55%. The design had a 1-sided 0.10 type I error rate and 95% power.||0.162|0.052|
82492857|NCT03948581|164678610|EQUIVALENCE|Geometric least-squares means (LSMs) were calculated by exponentiating the LSMs derived from analysis of variance (ANCOVA) with group, treatment, and injection site as fixed effects and weight as a continuous covariate. Confidence intervals (CIs) were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9807|||||TWO_SIDED|90.0|0.9011|1.0675||||||||1.0675|0.9011|
82667976|NCT05816070|165052628|NON_INFERIORITY|The non-inferiority margin is -10% based on the general standard of antibacterial drug. Non-inferiority is established when P\<0.05.||||||0.0137|||||||Chi-squared|||||||0.0137
82667977|NCT02115282|165052642|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.3|TWO_SIDED|95.0|0.67|1.13||The p value was based on stratified log rank test, the threshold for significance was two-sided p value of 0.2%.|Log Rank|||||1.13|0.67|0.30
82667978|NCT02115282|165052643|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.94|TWO_SIDED|95.0|0.82|1.21||The p value was based on stratified log rank test, stratified on the four randomization factors. The threshold for statistical significance was two-sided p value of 3.7% after taking into account the five interim analyses of OS into account.|Log Rank|||||1.21|0.82|0.94
82667979|NCT06494761|165052651|OTHER||Ratios of adjusted geometric means [%]|110.98|||||TWO_SIDED|90.0|96.9|127.1|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.1|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.10|96.90|
82667980|NCT06494761|165052651|OTHER||Ratios of adjusted geometric means [%]|130.1|||||TWO_SIDED|90.0|110.35|153.39|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 25.2|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||153.39|110.35|
82667981|NCT06494761|165052652|OTHER||Ratios of adjusted geometric means [%]|107.8|||||TWO_SIDED|90.0|98.57|117.9|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||117.90|98.57|
82667982|NCT06494761|165052652|OTHER||Ratios of adjusted geometric means [%]|105.62|||||TWO_SIDED|90.0|95.41|116.93|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.4|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||116.93|95.41|
82667983|NCT06494761|165052653|OTHER||Ratios of adjusted geometric means [%]|96.55|||||TWO_SIDED|90.0|75.96|122.72|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 24.5|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||122.72|75.96|
82667984|NCT06494761|165052653|OTHER||Ratios of adjusted geometric means [%]|89.75|||||TWO_SIDED|90.0|61.86|130.2|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 39.6|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||130.20|61.86|
82667985|NCT06494761|165052654|OTHER||Ratios of adjusted geometric means [%]|117.07|||||TWO_SIDED|90.0|105.56|129.84|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 16.8|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||129.84|105.56|
82667986|NCT06494761|165052654|OTHER||Ratios of adjusted geometric means [%]|144.36|||||TWO_SIDED|90.0|123.53|168.71|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 23.9|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||168.71|123.53|
82667987|NCT06494761|165052655|OTHER||Ratios of adjusted geometric means [%]|110.74|||||TWO_SIDED|90.0|100.92|121.52|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 14.1|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||121.52|100.92|
82499470|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.744|STANDARD_ERROR_OF_MEAN|0.144||||90.0|-0.981|-0.506|||ANCOVA|||Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.506|-0.981|
82667988|NCT06494761|165052655|OTHER||Ratios of adjusted geometric means [%]|117.19|||||TWO_SIDED|90.0|108.3|126.81|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 11.9|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||126.81|108.30|
82667989|NCT06494761|165052656|OTHER||Ratios of adjusted geometric means [%]|79.39|||||TWO_SIDED|90.0|49.9|126.3|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 77.6|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||126.30|49.90|
82667990|NCT06494761|165052656|OTHER||Ratios of adjusted geometric means [%]|62.07|||||TWO_SIDED|90.0|44.69|86.2|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 49.1|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||86.20|44.69|
82667991|NCT06494761|165052657|OTHER||Ratios of adjusted geometric means [%]|110.86|||||TWO_SIDED|90.0|96.58|127.24|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 22.5|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered with a single dose of zongertinib (Test Treatment 1) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.24|96.58|
82667992|NCT06494761|165052657|OTHER||Ratios of adjusted geometric means [%]|129.8|||||TWO_SIDED|90.0|109.7|153.59|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 25.8|The relative bioavailability of Repaglinide was assessed by comparing Repaglinide administered after multiple doses of zongertinib (Test Treatment 3) to Repaglinide administered alone (Reference Treatment 1). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||153.59|109.70|
82667993|NCT06494761|165052658|OTHER||Ratios of adjusted geometric means [%]|108.61|||||TWO_SIDED|90.0|98.79|119.41|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 14.3|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||119.41|98.79|
82667994|NCT06494761|165052658|OTHER||Ratios of adjusted geometric means [%]|106.03|||||TWO_SIDED|90.0|95.49|117.73|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 15.9|The relative bioavailability of midazolam was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||117.73|95.49|
82667995|NCT06494761|165052659|OTHER||Ratios of adjusted geometric means [%]|108.13|||||TWO_SIDED|90.0|79.9|146.35|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 44.9|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole with a single dose of zongertinib (Test Treatment 2) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||146.35|79.90|
82667996|NCT06494761|165052659|OTHER||Ratios of adjusted geometric means [%]|97.81|||||TWO_SIDED|90.0|75.01|127.53|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 38.5|The relative bioavailability of omeprazole was assessed by comparing Midazolam + Omeprazole after multiple doses of zongertinib (Test Treatment 4) to Midazolam + Omeprazole (Reference Treatment 2). The ratio of geometric means (Test/Reference) with 90% two-sided confidence intervals (CIs) was calculated. The log-transformed difference (log\[T\]-log\[R\]) was estimated using least squares means from ANOVA and then back-transformed to the original scale.||127.53|75.01|
82667997|NCT06393127|165052669|OTHER||Ratio of adjusted geometric means [%]|105.03|||||TWO_SIDED|90.0|99.07|111.36|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.8|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||111.36|99.07|
82667998|NCT06393127|165052670|OTHER||Ratio of adjusted geometric means [%]|113.32|||||TWO_SIDED|90.0|102.7|125.05|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 32.8|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||125.05|102.70|
82667999|NCT06393127|165052671|OTHER||Ratio of adjusted geometric means [%]|104.95|||||TWO_SIDED|90.0|99.1|111.14|||||Ratio \[%\] = (adjusted geometric mean of T / adjusted geometric mean R)\*100. Intra-individual geometric coefficient of variation (gCV) \[%\] = 18.5|"Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. PK endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model, which included effects accounting for the following sources of variation: subjects within sequences as random effect, sequence, period and treatment as fixed effects. These quantities were then back-transformed to the original scale."||111.14|99.10|
82668000|NCT02446600|165052672|SUPERIORITY||Hazard Ratio (HR)|0.856||||0.077|TWO_SIDED|95.0|0.663|1.105||The p-value is one-sided. Per the protocol, the statistical significance threshold was \<0.025. Type 1 error was controlled using hierarchical testing strategy.|Log Rank|The log rank test was stratified by the minimization factors provided at randomization|The hazard ratio estimate compares olaparib+cedirinib to chemotherapy. If olaparib+cedirinib is superior, the hazard ratio is \<1.0.|Arm II was suspended for futility at the interim analysis so was not analyzed at the final analysis.||1.105|0.663|0.077
82668001|NCT04865289|165052678|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.51|1.41||||||||1.41|0.51|
82668002|NCT04865289|165052679|OTHER|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate.|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.48|1.21||||||||1.21|0.48|
82668003|NCT04865289|165052680|NON_INFERIORITY|The null hypothesis for the non-inferiority test was that the hazard ratio was equal to 1.1.|Hazard Ratio (HR)|1.17||||0.5831415|TWO_SIDED|95.0|0.64|2.15|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||2.15|0.64|0.5831415
82668004|NCT04865289|165052680|SUPERIORITY||Hazard Ratio (HR)|1.17||||0.6980186|TWO_SIDED|95.0|0.64|2.15|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||2.15|0.64|0.6980186
82668005|NCT04865289|165052681|SUPERIORITY||Hazard Ratio (HR)|1.01||||0.52046|TWO_SIDED|95.0|0.57|1.8|||Log Rank|One-sided p-value based on log-rank test.|Based on Cox regression model with Efron's method for tie handling with treatment as a covariate.|||1.80|0.57|0.52046
82668006|NCT04865289|165052682|OTHER||Difference in Percentage|-10.5||||0.8497|TWO_SIDED|95.0|-29.2|9.3|||Miettinen & Nurminen|One sided p value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.||||9.3|-29.2|0.8497
82668007|NCT04865289|165052683|OTHER||Difference in Percentage|-9.1||||0.8522|TWO_SIDED|95.0|-25.5|8.0|||Miettinen & Nurminen|One sided p value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.||||8.0|-25.5|0.8522
82668008|NCT04865289|165052684|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction.|Difference in Least Square Means|-2.14||||0.6138|TWO_SIDED|95.0|-10.54|6.27|||cLDA model|||||6.27|-10.54|0.6138
82668009|NCT04865289|165052685|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction.|Difference in Least Square Means|-0.73||||0.8398|TWO_SIDED|95.0|-7.93|6.46|||cLDA model|||||6.46|-7.93|0.8398
82668010|NCT06415045|165052827|OTHER||Ratios of adjusted geometric means [%]|115.21|||||TWO_SIDED|90.0|106.55|124.58|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||124.58|106.55|
82668011|NCT06415045|165052828|OTHER||Ratios of adjusted geometric means [%]|85.82|||||TWO_SIDED|90.0|68.8|107.06|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 39.4|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||107.06|68.80|
82668012|NCT06415045|165052829|OTHER||Ratios of adjusted geometric means [%]|115.07|||||TWO_SIDED|90.0|106.38|124.46|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 13.5|Relative bioavailability of Nerandomilast administered in fed state (Test) compared with Nerandomilast administered in fasted state (Reference) was estimated by the ratios of the gMeans (Test/Reference). Their corresponding 2-sided 90% confidence intervals (CIs) were provided. This method corresponds to 2 one-sided t-test procedures, each at the 5% significance level.||124.46|106.38|
82668013|NCT04935879|165052831|SUPERIORITY||Rate ratio|0.95||||0.6967|TWO_SIDED|95.0|0.71|1.25|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline hydroxyurea (HU) use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.25|0.71|0.6967
82668014|NCT04935879|165052832|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.4298|TWO_SIDED|95.0|0.63|1.22|||Log Rank|||Analysis was stratified by baseline HU use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.22|0.63|0.4298
82668015|NCT04935879|165052834|SUPERIORITY||Difference in Percentage|10.3||||0.0912|TWO_SIDED|95.0|-1.6|22.2|||Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test stratified by baseline HU use (yes, no), number of VOCs in the 12 months prior to study entry (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||22.2|-1.6|0.0912
82668016|NCT04935879|165052835|SUPERIORITY||Rate Ratio|1.02||||0.9246|TWO_SIDED|95.0|0.71|1.47|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline HU use (yes, no), number of VOCs in the 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of the world).||1.47|0.71|0.9246
82668017|NCT04935879|165052836|SUPERIORITY||Rate ratio|0.92|||=|0.8263|TWO_SIDED|95.0|0.46|1.87|||Negative binomial regression model||Rate ratio = Ratio of rate of VOC for inclacumab group to placebo group.|Adjusted rates are based on estimate from a negative binomial model with the independent variable of treatment group (inclacumab, placebo) and adjusted for baseline HU use (yes, no), number of VOCs in 12 months prior to screening visit (2-4, 5-10), and geographic region (North America, sub-Saharan Africa, Europe/rest of world).||1.87|0.46|=0.8263
82668018|NCT03566238|165052838|SUPERIORITY||percentage difference|0.435||||0.0015|TWO_SIDED|95.0|0.2195|0.6551|||Cochran-Mantel-Haenszel|||"Analysis was based on the Cochran Mantel Haenszel test adjusting PFIC type. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."||0.6551|0.2195|0.0015
82668019|NCT03566238|165052838|SUPERIORITY||percentage difference|0.211||||0.0174|TWO_SIDED|95.0|0.021|0.4557|||Cochran-Mantel-Haenszel|||"Analysis was based on the Cochran Mantel Haenszel test adjusting PFIC type. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."||0.4557|0.021|0.0174
82668020|NCT03566238|165052839|SUPERIORITY|"Analysis of Covariance (ANCOVA) model including treatment, baseline pruritus score at AM and PM, PFIC type, and age category was used for treatment comparisons. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."|Least Square (LS) mean difference|28.23|STANDARD_ERROR_OF_MEAN|9.182||0.0019|TWO_SIDED|95.0|9.83|46.64|||ANCOVA|||Analysis of the Proportion of Positive Pruritus Assessments at Participant Level over the 24-Week Treatment Period - Albireo ObsRO Instrument (AM and PM Scores).||46.64|9.83|0.0019
82668021|NCT03566238|165052839|SUPERIORITY|"An ANCOVA model including treatment, baseline pruritus score at AM and PM, PFIC type, and age category was used for treatment comparisons. A pooled analysis for the closed testing procedure was applied to control multiplicity. The 1-sided adjusted p-value for an individual dose was calculated as the maximum value of the unadjusted p-value for the pooled analysis and the unadjusted p-value for the individual doses.~1-sided adjusted p-value was reported."|LS mean difference|21.71|STANDARD_ERROR_OF_MEAN|9.892||0.0163|TWO_SIDED|95.0|1.87|41.54|||ANCOVA|||Analysis of the Proportion of Positive Pruritus Assessments at Participant Level over the 24-Week Treatment Period - Albireo ObsRO Instrument (AM and PM Scores).||41.54|1.87|0.0163
82668022|NCT02112916|165052862|SUPERIORITY||Hazard Ratio (HR)|0.782||||0.074|TWO_SIDED|95.0|0.561|1.091|||Log Rank||Hazard ratio = hazard rate for Arm B/hazard rate for Arm A|To compare the EFS of the randomized patients (T-ALL+T-LLy) on Arm A vs Arm B. Study was designed to accrue 1200 eligible, evaluable randomized patients (to provide 90.5% power to detect an improvement in 4-year EFS from 85% to 90% with an alpha of 0.05 (one-sided log-rank test) (Hazard Ratio (HR)=0.6483). Study was closed to accrual early due to results from AALL0434 for nelarabine.||1.091|0.561|0.074
82668023|NCT06070610|165052871|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.97|||||TWO_SIDED|90.0|93.59|111.1|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 12.3|||111.10|93.59|
82668024|NCT06070610|165052872|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.31|||||TWO_SIDED|90.0|93.6|109.65|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 11.4|||109.65|93.60|
82668025|NCT06070610|165052873|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|101.11|||||TWO_SIDED|90.0|87.36|117.02|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 21.4|||117.02|87.36|
82668026|NCT06070610|165052874|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|108.37|||||TWO_SIDED|90.0|102.58|114.49|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 7.5|||114.49|102.58|
82668027|NCT06070610|165052875|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|108.82|||||TWO_SIDED|90.0|102.54|115.49|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 7.7|||115.49|102.54|
82668028|NCT06070610|165052876|OTHER|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model.|Adjusted geometric mean ratio (%)|87.24|||||TWO_SIDED|90.0|75.27|101.11|||||Ratio calculated as test/reference\*100. Intra-individual Geometric coefficient of variation \[%\] = 20.5|||101.11|75.27|
82668029|NCT02485860|165052882|SUPERIORITY|||||||0.094|||||||t-test, 2 sided|||||||0.094
82668030|NCT02890355|165052959|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.28|TWO_SIDED|95.0|0.85|1.78||a priori threshold for statistical significance, one sided p=0.02|Log Rank|||||1.78|0.85|0.28
82668031|NCT02890355|165052961|SUPERIORITY||Hazard Ratio (HR)|1.39||||0.09|TWO_SIDED|95.0|0.96|2.02|||Log Rank|||||2.02|0.96|0.09
82668032|NCT05938920|165052998|OTHER||Least Squares Mean|-0.6098|STANDARD_ERROR_OF_MEAN|1.78193|||TWO_SIDED|95.0|-4.1026|2.8831||||||||2.8831|-4.1026|
82668033|NCT05938920|165052998|OTHER||Least Squares Mean|0.6721|STANDARD_ERROR_OF_MEAN|1.91075|||TWO_SIDED|95.0|-3.0738|4.4179||||||||4.4179|-3.0738|
82668034|NCT05938920|165052998|OTHER||Least Squares Mean|2.8232|STANDARD_ERROR_OF_MEAN|2.30479|||TWO_SIDED|95.0|-1.697|7.3433||||||||7.3433|-1.6970|
82668035|NCT05938920|165052998|OTHER||Least Squares Mean|-0.2933|STANDARD_ERROR_OF_MEAN|2.15954|||TWO_SIDED|95.0|-4.5273|3.9408||||||||3.9408|-4.5273|
82668036|NCT05938920|165052999|OTHER||Least Squares Mean|-0.0242|STANDARD_ERROR_OF_MEAN|0.04121|||TWO_SIDED|95.0|-0.105|0.0566||||||||0.0566|-0.1050|
82668037|NCT05938920|165052999|OTHER||Least Squares Mean|0.0194|STANDARD_ERROR_OF_MEAN|0.04492|||TWO_SIDED|95.0|-0.0687|0.1074||||||||0.1074|-0.0687|
82668038|NCT05938920|165052999|OTHER||Least Squares Mean|0.0892|STANDARD_ERROR_OF_MEAN|0.04994|||TWO_SIDED|95.0|-0.0087|0.1872||||||||0.1872|-0.0087|
82668039|NCT05938920|165052999|OTHER||Least Squares Mean|-0.0082|STANDARD_ERROR_OF_MEAN|0.04585|||TWO_SIDED|95.0|-0.0981|0.0817||||||||0.0817|-0.0981|
82668040|NCT05938920|165053000|OTHER||Least Squares Mean|-0.6043|STANDARD_ERROR_OF_MEAN|1.19916|||TWO_SIDED|95.0|-2.9549|1.7462||||||||1.7462|-2.9549|
82668041|NCT05938920|165053000|OTHER||Least Squares Mean|0.651|STANDARD_ERROR_OF_MEAN|1.33193|||TWO_SIDED|95.0|-1.9603|3.2624||||||||3.2624|-1.9603|
82668042|NCT05938920|165053000|OTHER||Least Squares Mean|2.4975|STANDARD_ERROR_OF_MEAN|1.43617|||TWO_SIDED|95.0|-0.3187|5.3136||||||||5.3136|-0.3187|
82668043|NCT05938920|165053000|OTHER||Least Squares Mean|-0.0209|STANDARD_ERROR_OF_MEAN|1.4247|||TWO_SIDED|95.0|-2.8142|2.7724||||||||2.7724|-2.8142|
82668044|NCT05938920|165053001|OTHER||Least Squares Mean|-0.5762|STANDARD_ERROR_OF_MEAN|1.74854|||TWO_SIDED|95.0|-4.0035|2.8511||||||||2.8511|-4.0035|
82668045|NCT05938920|165053001|OTHER||Least Squares Mean|0.5884|STANDARD_ERROR_OF_MEAN|1.90433|||TWO_SIDED|95.0|-3.1449|4.3216||||||||4.3216|-3.1449|
82668046|NCT05938920|165053001|OTHER||Least Squares Mean|2.6554|STANDARD_ERROR_OF_MEAN|2.2965|||TWO_SIDED|95.0|-1.8486|7.1593||||||||7.1593|-1.8486|
82621831|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.15||0.0003|TWO_SIDED|95.0|-0.81|-0.24|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.81|0.0003
82621832|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.15|<|0.0001|TWO_SIDED|95.0|-0.99|-0.41|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.41|-0.99|<.0001
82621833|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.14||0.079|TWO_SIDED|95.0|-0.5|0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf worst pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.50|0.0790
82621834|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.14||0.0336|TWO_SIDED|95.0|-0.55|-0.02|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.55|0.0336
82668047|NCT05938920|165053001|OTHER||Least Squares Mean|-0.0625|STANDARD_ERROR_OF_MEAN|2.17274|||TWO_SIDED|95.0|-4.3227|4.1977||||||||4.1977|-4.3227|
82621835|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.14||0.0008|TWO_SIDED|95.0|-0.73|-0.19|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.19|-0.73|0.0008
82621836|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.16||0.0034|TWO_SIDED|95.0|-0.77|-0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.77|0.0034
82621837|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.01|-0.39|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.39|-1.01|<.0001
82668048|NCT05718648|165053024|OTHER||Ratio of adjusted geometric means [%]|129.24|||||TWO_SIDED|90.0|91.62|182.31|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 37.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||182.31|91.62|
82668049|NCT05718648|165053024|OTHER||Ratio of adjusted geometric means [%]|137.44|||||TWO_SIDED|90.0|89.06|212.12|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 52.4|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||212.12|89.06|
82668050|NCT05718648|165053025|OTHER||Ratio of adjusted geometric means [%]|131.83|||||TWO_SIDED|90.0|93.32|186.22|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 37.7|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||186.22|93.32|
82621838|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.15||0.0361|TWO_SIDED|95.0|-0.59|-0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.59|0.0361
82621839|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.15||0.2786|TWO_SIDED|95.0|-0.44|0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.44|0.2786
82621840|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.14||0.0058|TWO_SIDED|95.0|-0.68|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.68|0.0058
82621841|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.18||0.0365|TWO_SIDED|95.0|-0.71|-0.02|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.71|0.0365
82621842|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0092|TWO_SIDED|95.0|-0.8|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.80|0.0092
82621843|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.2923|TWO_SIDED|95.0|-0.49|0.15|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.49|0.2923
82621844|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.16||0.2231|TWO_SIDED|95.0|-0.51|0.12|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.51|0.2231
82621845|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.16||0.0724|TWO_SIDED|95.0|-0.6|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.60|0.0724
82621846|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.19||0.4776|TWO_SIDED|95.0|-0.5|0.23|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.50|0.4776
82668051|NCT05718648|165053025|OTHER||Ratio of adjusted geometric means [%]|127.43|||||TWO_SIDED|90.0|85.92|188.99|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||188.99|85.92|
82668052|NCT05718648|165053026|OTHER||Ratio of adjusted geometric means [%]|86.06|||||TWO_SIDED|90.0|64.88|114.15|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 30.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||114.15|64.88|
82621847|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.19||0.1482|TWO_SIDED|95.0|-0.64|0.1|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.64|0.1482
82621848|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.19||0.3249|TWO_SIDED|95.0|-0.56|0.18|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.56|0.3249
82621849|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.19||0.1997|TWO_SIDED|95.0|-0.62|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.62|0.1997
82621850|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.2||0.4823|TWO_SIDED|95.0|-0.53|0.25|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.25|-0.53|0.4823
82621851|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.2||0.2754|TWO_SIDED|95.0|-0.6|0.17|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.60|0.2754
82621852|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5861|TWO_SIDED|95.0|-0.5|0.29|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.29|-0.50|0.5861
82621853|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.2||0.4346|TWO_SIDED|95.0|-0.54|0.23|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.54|0.4346
82621854|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.2||0.8752|TWO_SIDED|95.0|-0.42|0.36|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.36|-0.42|0.8752
82621855|NCT02528253|164960256|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.2||0.2663|TWO_SIDED|95.0|-0.6|0.17|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf average pain, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.60|0.2663
82668053|NCT05718648|165053026|OTHER||Ratio of adjusted geometric means [%]|96.57|||||TWO_SIDED|90.0|56.8|164.16|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 66.2|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||164.16|56.80|
82621856|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0013|TWO_SIDED|95.0|-0.77|-0.19|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.19|-0.77|0.0013
82621857|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.15||0.0001|TWO_SIDED|95.0|-0.87|-0.28|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-0.87|0.0001
82621858|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.14||0.2272|TWO_SIDED|95.0|-0.43|-0.1|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.43|0.2272
82621859|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.0209|TWO_SIDED|95.0|-0.58|-0.05|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.58|0.0209
82621860|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.14||0.0029|TWO_SIDED|95.0|-0.67|-0.14|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.14|-0.67|0.0029
82621861|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.92|-0.28|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-0.92|0.0002
82621862|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-1.1|-0.46|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.46|-1.10|<.0001
82621863|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1198|TWO_SIDED|95.0|-0.53|0.06|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.53|0.1198
82621864|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.37|STANDARD_ERROR_OF_MEAN|0.15||0.016|TWO_SIDED|95.0|-0.66|-0.07|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.07|-0.66|0.0160
82621865|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.55|STANDARD_ERROR_OF_MEAN|0.15||0.0003|TWO_SIDED|95.0|-0.85|-0.25|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-0.85|0.0003
82621866|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.17||0.0091|TWO_SIDED|95.0|-0.77|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.77|0.0091
82621867|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.17||0.0007|TWO_SIDED|95.0|-0.9|-0.24|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.90|0.0007
82621868|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2264|TWO_SIDED|95.0|-0.48|0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.48|0.2264
82621869|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.0961|TWO_SIDED|95.0|-0.56|0.05|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.56|0.0961
82668054|NCT05718648|165053027|OTHER||Ratio of adjusted geometric means [%]|83.15|||||TWO_SIDED|90.0|60.91|113.51|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 33.8|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||113.51|60.91|
82621870|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.15||0.0121|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.69|0.0121
82621871|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.41|STANDARD_ERROR_OF_MEAN|0.18||0.027|TWO_SIDED|95.0|-0.77|-0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.77|0.0270
82621872|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.58|STANDARD_ERROR_OF_MEAN|0.18||0.0019|TWO_SIDED|95.0|-0.94|-0.21|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.21|-0.94|0.0019
82621873|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.3906|TWO_SIDED|95.0|-0.48|0.19|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.48|0.3906
82621874|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.17||0.1209|TWO_SIDED|95.0|-0.59|0.07|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.59|0.1209
82621875|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.17||0.0107|TWO_SIDED|95.0|-0.76|-0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.76|0.0107
82621876|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.19||0.2396|TWO_SIDED|95.0|-0.61|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.61|0.2396
82621877|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.19||0.1088|TWO_SIDED|95.0|-0.69|0.07|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.69|0.1088
82621878|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1673|TWO_SIDED|95.0|-0.65|0.11|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.65|0.1673
82621879|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1751|TWO_SIDED|95.0|-0.66|0.12|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.66|0.1751
82621880|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.3164|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.59|0.3164
82621881|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.2253|TWO_SIDED|95.0|-0.62|0.15|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.62|0.2253
82621882|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.3408|TWO_SIDED|95.0|-0.58|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.58|0.3408
82668055|NCT05718648|165053027|OTHER||Ratio of adjusted geometric means [%]|90.49|||||TWO_SIDED|90.0|52.4|156.26|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 68.5|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||156.26|52.40|
82621883|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.2||0.3391|TWO_SIDED|95.0|-0.58|0.2|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.58|0.3391
82621884|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.11|STANDARD_ERROR_OF_MEAN|0.2||0.5818|TWO_SIDED|95.0|-0.5|0.28|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.50|0.5818
82621885|NCT02528253|164960258|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.2||0.2562|TWO_SIDED|95.0|-0.62|0.16|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference index, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.62|0.2562
82621886|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.16||0.0137|TWO_SIDED|95.0|-0.69|-0.08|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.69|0.0137
82621887|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0044|TWO_SIDED|95.0|-0.76|-0.14|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.14|-0.76|0.0044
82621888|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.14||0.6194|TWO_SIDED|95.0|-0.35|0.21|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.35|0.6194
82621889|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.14||0.0271|TWO_SIDED|95.0|-0.59|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.59|0.0271
82621890|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.14||0.0085|TWO_SIDED|95.0|-0.66|-0.1|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.66|0.0085
82621891|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.18||0.0027|TWO_SIDED|95.0|-0.87|-0.18|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.87|0.0027
82621892|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.78|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.13|-0.44|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.44|-1.13|<.0001
82621893|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1859|TWO_SIDED|95.0|-0.54|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.54|0.1859
82621894|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.16||0.0573|TWO_SIDED|95.0|-0.63|0.01|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.01|-0.63|0.0573
82621895|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0005|TWO_SIDED|95.0|-0.88|-0.25|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-0.88|0.0005
82621896|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.18||0.0841|TWO_SIDED|95.0|-0.66|0.04|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.66|0.0841
82621897|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.18||0.0074|TWO_SIDED|95.0|-0.85|-0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.85|0.0074
82621898|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.16||0.316|TWO_SIDED|95.0|-0.49|0.16|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.16|-0.49|0.3160
82621899|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.17||0.3763|TWO_SIDED|95.0|-0.47|0.18|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.47|0.3763
82621900|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0505|TWO_SIDED|95.0|-0.65|0.0|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.00|-0.65|0.0505
82621901|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.49|STANDARD_ERROR_OF_MEAN|0.2||0.0118|TWO_SIDED|95.0|-0.88|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.88|0.0118
82621902|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.2||0.0012|TWO_SIDED|95.0|-1.03|-0.25|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.25|-1.03|0.0012
82621903|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.18||0.2966|TWO_SIDED|95.0|-0.54|0.17|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.54|0.2966
82621904|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.18||0.0956|TWO_SIDED|95.0|-0.66|0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.66|0.0956
82621905|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.18||0.0117|TWO_SIDED|95.0|-0.81|-0.1|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||-0.10|-0.81|0.0117
82621906|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.2||0.3732|TWO_SIDED|95.0|-0.57|0.21|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.57|0.3732
82621907|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.2||0.1922|TWO_SIDED|95.0|-0.66|0.13|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.66|0.1922
82621908|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.21||0.2986|TWO_SIDED|95.0|-0.63|0.19|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.63|0.2986
82621909|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.21||0.2584|TWO_SIDED|95.0|-0.65|0.17|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.65|0.2584
82621910|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5195|TWO_SIDED|95.0|-0.57|0.29|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.29|-0.57|0.5195
82621911|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.19|STANDARD_ERROR_OF_MEAN|0.21||0.3752|TWO_SIDED|95.0|-0.6|0.22|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.22|-0.60|0.3752
82621912|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5157|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5157
82621913|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.21||0.5065|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5065
82621914|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.04|STANDARD_ERROR_OF_MEAN|0.21||0.8373|TWO_SIDED|95.0|-0.47|0.38|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.38|-0.47|0.8373
82621915|NCT02528253|164960260|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.22||0.5146|TWO_SIDED|95.0|-0.56|0.28|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with general activity, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.56|0.5146
82621916|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.16||0.0059|TWO_SIDED|95.0|-0.76|-0.13|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.76|0.0059
82621917|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.61|STANDARD_ERROR_OF_MEAN|0.16||0.0002|TWO_SIDED|95.0|-0.93|-0.29|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-0.93|0.0002
82621918|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|0.15||0.0756|TWO_SIDED|95.0|-0.56|0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.56|0.0756
82621919|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.15||0.2197|TWO_SIDED|95.0|-0.47|0.11|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.47|0.2197
82621920|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.34|STANDARD_ERROR_OF_MEAN|0.15||0.0208|TWO_SIDED|95.0|-0.63|-0.05|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.63|0.0208
82621921|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.17||0.0013|TWO_SIDED|95.0|-0.91|-0.22|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.91|0.0013
82621922|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.74|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.08|-0.39|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.39|-1.08|<.0001
82621923|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.16||0.1873|TWO_SIDED|95.0|-0.53|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.53|0.1873
82621924|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0305|TWO_SIDED|95.0|-0.66|-0.03|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.66|0.0305
82621925|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.16||0.0013|TWO_SIDED|95.0|-0.84|-0.2|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.20|-0.84|0.0013
82621926|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.18||0.0158|TWO_SIDED|95.0|-0.78|-0.08|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.08|-0.78|0.0158
82621927|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.18||0.0015|TWO_SIDED|95.0|-0.91|-0.21|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.21|-0.91|0.0015
82621928|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.16||0.4173|TWO_SIDED|95.0|-0.45|0.19|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.45|0.4173
82621929|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0659|TWO_SIDED|95.0|-0.62|0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.62|0.0659
82621930|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.16||0.0078|TWO_SIDED|95.0|-0.74|-0.11|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.74|0.0078
82621931|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.19||0.0737|TWO_SIDED|95.0|-0.72|0.03|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.03|-0.72|0.0737
82621932|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.59|STANDARD_ERROR_OF_MEAN|0.19||0.0021|TWO_SIDED|95.0|-0.97|-0.22|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.97|0.0021
82621933|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.18||0.4535|TWO_SIDED|95.0|-0.48|0.21|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.48|0.4535
82621934|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.18||0.2271|TWO_SIDED|95.0|-0.56|0.13|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.56|0.2271
82668056|NCT05718648|165053028|OTHER||Ratio of adjusted geometric means [%]|128.55|||||TWO_SIDED|90.0|87.42|189.02|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 39.8|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||189.02|87.42|
82621935|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0086|TWO_SIDED|95.0|-0.81|-0.12|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.12|-0.81|0.0086
82621936|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.2||0.2243|TWO_SIDED|95.0|-0.63|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.63|0.2243
82621937|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.42|STANDARD_ERROR_OF_MEAN|0.2||0.0331|TWO_SIDED|95.0|-0.81|-0.03|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.81|0.0331
82621938|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.2||0.1838|TWO_SIDED|95.0|-0.66|0.13|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.66|0.1838
82621939|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.2||0.0795|TWO_SIDED|95.0|-0.75|0.04|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.75|0.0795
82621940|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.21||0.2847|TWO_SIDED|95.0|-0.63|0.18|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.18|-0.63|0.2847
82621941|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.2||0.0745|TWO_SIDED|95.0|-0.76|0.04|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.76|0.0745
82621942|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.311|TWO_SIDED|95.0|-0.59|0.19|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.59|0.3110
82621943|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.2||0.1375|TWO_SIDED|95.0|-0.7|0.1|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.70|0.1375
82621944|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.21||0.4036|TWO_SIDED|95.0|-0.58|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.58|0.4036
82621945|NCT02528253|164960262|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.21||0.0641|TWO_SIDED|95.0|-0.79|0.02|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with walking ability, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.79|0.0641
82621946|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.18||0.0037|TWO_SIDED|95.0|-0.85|-0.17|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.17|-0.85|0.0037
82621947|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.57|STANDARD_ERROR_OF_MEAN|0.18||0.0013|TWO_SIDED|95.0|-0.91|-0.22|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.22|-0.91|0.0013
82668057|NCT05718648|165053028|OTHER||Ratio of adjusted geometric means [%]|136.16|||||TWO_SIDED|90.0|88.41|209.69|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 52.1|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||209.69|88.41|
82621948|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.16||0.1712|TWO_SIDED|95.0|-0.53|0.09|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.53|0.1712
82621949|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.29|STANDARD_ERROR_OF_MEAN|0.16||0.0686|TWO_SIDED|95.0|-0.6|0.02|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.60|0.0686
82621950|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.16||0.0289|TWO_SIDED|95.0|-0.66|-0.04|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.04|-0.66|0.0289
82621951|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.66|STANDARD_ERROR_OF_MEAN|0.18||0.0003|TWO_SIDED|95.0|-1.02|-0.3|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.30|-1.02|0.0003
82621952|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.86|STANDARD_ERROR_OF_MEAN|0.19|<|0.0001|TWO_SIDED|95.0|-1.22|-0.49|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.49|-1.22|<.0001
82621953|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.2056|TWO_SIDED|95.0|-0.55|0.12|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.12|-0.55|0.2056
82621954|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.45|STANDARD_ERROR_OF_MEAN|0.17||0.0084|TWO_SIDED|95.0|-0.78|-0.11|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.78|0.0084
82621955|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.17||0.0002|TWO_SIDED|95.0|-0.98|-0.31|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.31|-0.98|0.0002
82621956|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.19||0.0063|TWO_SIDED|95.0|-0.9|-0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.15|-0.90|0.0063
82621957|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.19||0.0002|TWO_SIDED|95.0|-1.09|-0.34|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.34|-1.09|0.0002
82621958|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1155|TWO_SIDED|95.0|-0.63|0.07|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.63|0.1155
82621959|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.18||0.1652|TWO_SIDED|95.0|-0.59|0.1|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.59|0.1652
82621960|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.44|STANDARD_ERROR_OF_MEAN|0.18||0.0129|TWO_SIDED|95.0|-0.78|-0.09|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.78|0.0129
82621961|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.21||0.0236|TWO_SIDED|95.0|-0.87|-0.06|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.06|-0.87|0.0236
82621962|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.21||0.0136|TWO_SIDED|95.0|-0.93|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.93|0.0136
82499471|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.797|STANDARD_ERROR_OF_MEAN|0.167||||90.0|-1.073|-0.522|||ANCOVA|||Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.522|-1.073|
82621963|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.2||0.6624|TWO_SIDED|95.0|-0.47|0.3|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.30|-0.47|0.6624
82621964|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.19||0.0468|TWO_SIDED|95.0|-0.75|-0.01|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.01|-0.75|0.0468
82621965|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.43|STANDARD_ERROR_OF_MEAN|0.19||0.025|TWO_SIDED|95.0|-0.81|-0.05|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.05|-0.81|0.0250
82621966|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.21||0.1539|TWO_SIDED|95.0|-0.72|0.11|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.11|-0.72|0.1539
82621967|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.21||0.0169|TWO_SIDED|95.0|-0.91|-0.09|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.91|0.0169
82621968|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.35|STANDARD_ERROR_OF_MEAN|0.21||0.1049|TWO_SIDED|95.0|-0.77|0.07|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.77|0.1049
82621969|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.21||0.0599|TWO_SIDED|95.0|-0.82|0.02|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.82|0.0599
82621970|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.3041|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.3041
82621971|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.22||0.0737|TWO_SIDED|95.0|-0.83|0.04|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.83|0.0737
82621972|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.27|STANDARD_ERROR_OF_MEAN|0.23||0.2293|TWO_SIDED|95.0|-0.71|0.17|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.17|-0.71|0.2293
82621973|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.39|STANDARD_ERROR_OF_MEAN|0.22||0.0806|TWO_SIDED|95.0|-0.82|0.05|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.05|-0.82|0.0806
82621974|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.22||0.368|TWO_SIDED|95.0|-0.62|0.23|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.23|-0.62|0.3680
82621975|NCT02528253|164960264|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.21||0.0893|TWO_SIDED|95.0|-0.79|0.06|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with sleep, and baseline average LBPI as covariates, and study site as a random effect.||0.06|-0.79|0.0893
82621976|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.56|STANDARD_ERROR_OF_MEAN|0.16||0.0007|TWO_SIDED|95.0|-0.88|-0.24|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.24|-0.88|0.0007
82621977|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.71|STANDARD_ERROR_OF_MEAN|0.17|<|0.0001|TWO_SIDED|95.0|-1.03|-0.38|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.38|-1.03|<.0001
82621978|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.15||0.1291|TWO_SIDED|95.0|-0.53|0.07|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.07|-0.53|0.1291
82621979|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.33|STANDARD_ERROR_OF_MEAN|0.15||0.029|TWO_SIDED|95.0|-0.63|-0.03|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.03|-0.63|0.0290
82621980|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.15||0.0015|TWO_SIDED|95.0|-0.77|-0.18|||ANCOVA|||Change at Week 2: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.18|-0.77|0.0015
82621981|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.52|STANDARD_ERROR_OF_MEAN|0.18||0.0041|TWO_SIDED|95.0|-0.87|-0.17|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.17|-0.87|0.0041
82621982|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.89|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001|TWO_SIDED|95.0|-1.25|-0.54|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.54|-1.25|<.0001
82621983|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.17||0.1799|TWO_SIDED|95.0|-0.55|0.1|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.10|-0.55|0.1799
82621984|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.0696|TWO_SIDED|95.0|-0.62|0.02|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.02|-0.62|0.0696
82621985|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.67|STANDARD_ERROR_OF_MEAN|0.16|<|0.0001|TWO_SIDED|95.0|-0.99|-0.35|||ANCOVA|||Change at Week 4: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.35|-0.99|<.0001
82621986|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.38|STANDARD_ERROR_OF_MEAN|0.18||0.0387|TWO_SIDED|95.0|-0.74|-0.02|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.02|-0.74|0.0387
82621987|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.18||0.0005|TWO_SIDED|95.0|-1.0|-0.28|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.28|-1.00|0.0005
82621988|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.17||0.2768|TWO_SIDED|95.0|-0.51|0.15|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.51|0.2768
82621989|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.2408|TWO_SIDED|95.0|-0.53|0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.53|0.2408
82621990|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.17||0.0064|TWO_SIDED|95.0|-0.78|-0.13|||ANCOVA|||Change at Week 8: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.13|-0.78|0.0064
82621991|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.51|STANDARD_ERROR_OF_MEAN|0.2||0.0115|TWO_SIDED|95.0|-0.9|-0.11|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.11|-0.90|0.0115
82621992|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.69|STANDARD_ERROR_OF_MEAN|0.2||0.0006|TWO_SIDED|95.0|-1.08|-0.29|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.29|-1.08|0.0006
82621993|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.18||0.2028|TWO_SIDED|95.0|-0.59|0.13|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.13|-0.59|0.2028
82621994|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.18||0.1351|TWO_SIDED|95.0|-0.64|0.09|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.09|-0.64|0.1351
82621995|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.46|STANDARD_ERROR_OF_MEAN|0.18||0.0133|TWO_SIDED|95.0|-0.82|-0.09|||ANCOVA|||Change at Week 16: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||-0.09|-0.82|0.0133
82621996|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.25|STANDARD_ERROR_OF_MEAN|0.2||0.2157|TWO_SIDED|95.0|-0.65|0.15|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.15|-0.65|0.2157
82621997|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.36|STANDARD_ERROR_OF_MEAN|0.2||0.0781|TWO_SIDED|95.0|-0.76|0.04|||ANCOVA|||Change at Week 24: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.04|-0.76|0.0781
82621998|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.3527|TWO_SIDED|95.0|-0.62|0.22|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.22|-0.62|0.3527
82621999|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|0.22||0.2994|TWO_SIDED|95.0|-0.65|0.2|||ANCOVA|||Change at Week 32: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.20|-0.65|0.2994
82622000|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.21|STANDARD_ERROR_OF_MEAN|0.22||0.3326|TWO_SIDED|95.0|-0.63|0.21|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.21|-0.63|0.3326
82622001|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.21||0.2822|TWO_SIDED|95.0|-0.65|0.19|||ANCOVA|||Change at Week 40: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.65|0.2822
82622002|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.15|STANDARD_ERROR_OF_MEAN|0.22||0.4932|TWO_SIDED|95.0|-0.57|0.28|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.28|-0.57|0.4932
82622003|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.16|STANDARD_ERROR_OF_MEAN|0.22||0.4571|TWO_SIDED|95.0|-0.58|0.26|||ANCOVA|||Change at Week 48: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.26|-0.58|0.4571
82622004|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.13|STANDARD_ERROR_OF_MEAN|0.22||0.5586|TWO_SIDED|95.0|-0.56|0.3|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.30|-0.56|0.5586
82622005|NCT02528253|164960266|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.22||0.2664|TWO_SIDED|95.0|-0.67|0.19|||ANCOVA|||Change at Week 56: Multiple imputation method was applied for missing data, with imputation dependent on reason for missing data. ANCOVA model for imputed datasets included treatment as fixed effects, baseline BPI-sf pain interference with normal work, and baseline average LBPI as covariates, and study site as a random effect.||0.19|-0.67|0.2664
82622006|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|2.14||||0.001|TWO_SIDED|95.0|1.36|3.36|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.36|1.36|0.0010
82622007|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|2.68|||<|0.0001|TWO_SIDED|95.0|1.73|4.16|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||4.16|1.73|<.0001
82622008|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.62||||0.03|TWO_SIDED|95.0|1.05|2.51|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.51|1.05|0.0300
82622009|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|2.03|||<|0.0001|TWO_SIDED|95.0|1.44|2.86|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.86|1.44|<.0001
82622010|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|2.37|||<|0.0001|TWO_SIDED|95.0|1.69|3.32|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.32|1.69|<.0001
82622011|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.44||||0.029|TWO_SIDED|95.0|1.04|1.99|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.99|1.04|0.0290
82622012|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.8||||0.0003|TWO_SIDED|95.0|1.31|2.47|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.47|1.31|0.0003
82622013|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|2.21|||<|0.0001|TWO_SIDED|95.0|1.62|3.03|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||3.03|1.62|<.0001
82622014|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0033|TWO_SIDED|95.0|1.16|2.1|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.10|1.16|0.0033
82622015|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.41||||0.0179|TWO_SIDED|95.0|1.06|1.88|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.88|1.06|0.0179
82622016|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.56||||0.0021|TWO_SIDED|95.0|1.18|2.08|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||2.08|1.18|0.0021
82622017|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.06||||0.6629|TWO_SIDED|95.0|0.81|1.38|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.38|0.81|0.6629
82622018|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.35||||0.0251|TWO_SIDED|95.0|1.04|1.75|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.75|1.04|0.0251
82622019|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.22||||0.1278|TWO_SIDED|95.0|0.94|1.59|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.59|0.94|0.1278
82622020|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.27||||0.0749|TWO_SIDED|95.0|0.98|1.65|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.65|0.98|0.0749
82622021|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0633|TWO_SIDED|95.0|0.99|1.66|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.66|0.99|0.0633
82622022|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.28||||0.0626|TWO_SIDED|95.0|0.99|1.67|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.67|0.99|0.0626
82622023|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.16||||0.2727|TWO_SIDED|95.0|0.89|1.51|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.51|0.89|0.2727
82622024|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.2||||0.1749|TWO_SIDED|95.0|0.92|1.57|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.57|0.92|0.1749
82622025|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.09||||0.5239|TWO_SIDED|95.0|0.84|1.42|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.42|0.84|0.5239
82622026|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.14||||0.3336|TWO_SIDED|95.0|0.87|1.49|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.49|0.87|0.3336
82622027|NCT02528253|164960268|SUPERIORITY||Odds Ratio (OR)|1.18||||0.2163|TWO_SIDED|95.0|0.91|1.54|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included treatment as fixed effect and baseline average LBPI, baseline PGA, and baseline RMDQ as covariates.||1.54|0.91|0.2163
82622028|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.28||||0.326|TWO_SIDED|95.0|0.78|2.08|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.08|0.78|0.3260
82622029|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.61||||0.0445|TWO_SIDED|95.0|1.01|2.56|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.56|1.01|0.0445
82622030|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.02||||0.9263|TWO_SIDED|95.0|0.65|1.61|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.61|0.65|0.9263
82622031|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.25||||0.3194|TWO_SIDED|95.0|0.81|1.94|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.94|0.81|0.3194
82622032|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.58||||0.0308|TWO_SIDED|95.0|1.04|2.38|||Regression, Logistic|||Week 2: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.38|1.04|0.0308
82622033|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.79||||0.0048|TWO_SIDED|95.0|1.2|2.69|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.69|1.20|0.0048
82622034|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.68||||0.0114|TWO_SIDED|95.0|1.12|2.51|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.51|1.12|0.0114
82622035|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.06||||0.7857|TWO_SIDED|95.0|0.71|1.56|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.56|0.71|0.7857
82622036|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.7||||0.0041|TWO_SIDED|95.0|1.18|2.44|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.44|1.18|0.0041
82622037|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.59||||0.0109|TWO_SIDED|95.0|1.11|2.28|||Regression, Logistic|||Week 4: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.28|1.11|0.0109
82622038|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.53||||0.0363|TWO_SIDED|95.0|1.03|2.27|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.27|1.03|0.0363
82622039|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.76||||0.004|TWO_SIDED|95.0|1.2|2.59|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.59|1.20|0.0040
82622040|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.27||||0.1992|TWO_SIDED|95.0|0.88|1.84|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.84|0.88|0.1992
82622041|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.2||||0.3084|TWO_SIDED|95.0|0.85|1.7|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.70|0.85|0.3084
82622042|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.38||||0.0586|TWO_SIDED|95.0|0.99|1.94|||Regression, Logistic|||Week 8: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.94|0.99|0.0586
82622043|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.39||||0.063|TWO_SIDED|95.0|0.98|1.97|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.97|0.98|0.0630
82622044|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0347|TWO_SIDED|95.0|1.03|2.04|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.04|1.03|0.0347
82622045|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|0.96||||0.79|TWO_SIDED|95.0|0.69|1.33|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.33|0.69|0.7900
82622046|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.45||||0.0207|TWO_SIDED|95.0|1.06|2.0|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.00|1.06|0.0207
82622047|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.51||||0.0093|TWO_SIDED|95.0|1.11|2.07|||Regression, Logistic|||Week 16: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.07|1.11|0.0093
82622048|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.39||||0.04|TWO_SIDED|95.0|1.02|1.91|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.91|1.02|0.0400
82622049|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.21||||0.2478|TWO_SIDED|95.0|0.88|1.65|||Regression, Logistic|||Week 24: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.65|0.88|0.2478
82622050|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.42||||0.0304|TWO_SIDED|95.0|1.03|1.96|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.96|1.03|0.0304
82622051|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.12||||0.4763|TWO_SIDED|95.0|0.81|1.56|||Regression, Logistic|||Week 32: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.56|0.81|0.4763
82622052|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.47||||0.0178|TWO_SIDED|95.0|1.07|2.01|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||2.01|1.07|0.0178
82622053|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.11||||0.5223|TWO_SIDED|95.0|0.8|1.53|||Regression, Logistic|||Week 40: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.53|0.80|0.5223
82622054|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.25||||0.1708|TWO_SIDED|95.0|0.91|1.72|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.72|0.91|0.1708
82622055|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.09||||0.6022|TWO_SIDED|95.0|0.79|1.5|||Regression, Logistic|||Week 48: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.50|0.79|0.6022
82622056|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.32||||0.0846|TWO_SIDED|95.0|0.96|1.81|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.81|0.96|0.0846
82622057|NCT02528253|164960269|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9626|TWO_SIDED|95.0|0.73|1.39|||Regression, Logistic|||Week 56: OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline PGA of low back pain, baseline average LBPI, and treatment.||1.39|0.73|0.9626
82622058|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|0.74|STANDARD_ERROR_OF_MEAN|1.64||0.6508|TWO_SIDED|95.0|-2.49|3.98|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.98|-2.49|0.6508
82622059|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.08|STANDARD_ERROR_OF_MEAN|1.66||0.9629|TWO_SIDED|95.0|-3.33|3.18|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.18|-3.33|0.9629
82622060|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.57||0.7007|TWO_SIDED|95.0|-2.48|3.69|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.69|-2.48|0.7007
82622061|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.22|STANDARD_ERROR_OF_MEAN|1.58||0.8902|TWO_SIDED|95.0|-3.32|2.88|||ANCOVA|||Change at Week 16: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.88|-3.32|0.8902
82622062|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|1.53||0.5698|TWO_SIDED|95.0|-3.89|2.15|||ANCOVA|||Change at Week 56: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.15|-3.89|0.5698
82622063|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.53||0.8464|TWO_SIDED|95.0|-3.32|2.72|||ANCOVA|||Change at Week 56: Percent Work Time Missed: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.72|-3.32|0.8464
82622064|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-4.03|STANDARD_ERROR_OF_MEAN|2.39||0.0919|TWO_SIDED|95.0|-8.72|0.66|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.66|-8.72|0.0919
82622065|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-4.76|STANDARD_ERROR_OF_MEAN|2.4||0.0477|TWO_SIDED|95.0|-9.47|-0.05|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.05|-9.47|0.0477
82622066|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.65|STANDARD_ERROR_OF_MEAN|2.3||0.4735|TWO_SIDED|95.0|-6.17|2.87|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.87|-6.17|0.4735
82622067|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-2.38|STANDARD_ERROR_OF_MEAN|2.26||0.2935|TWO_SIDED|95.0|-6.82|2.06|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.06|-6.82|0.2935
82622068|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-3.11|STANDARD_ERROR_OF_MEAN|2.27||0.1714|TWO_SIDED|95.0|-7.56|1.35|||ANCOVA|||Change at Week 16: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.35|-7.56|0.1714
82622069|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.87|STANDARD_ERROR_OF_MEAN|2.75||0.7521|TWO_SIDED|95.0|-6.3|4.56|||ANCOVA|||Change at Week 56: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||4.56|-6.30|0.7521
82622070|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-2.81|STANDARD_ERROR_OF_MEAN|2.75||0.3078|TWO_SIDED|95.0|-8.24|2.61|||ANCOVA|||Change at Week 56: Percent Impairment While Working: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.61|-8.24|0.3078
82622071|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-3.95|STANDARD_ERROR_OF_MEAN|2.46||0.109|TWO_SIDED|95.0|-8.78|0.88|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.88|-8.78|0.1090
82622072|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-5.41|STANDARD_ERROR_OF_MEAN|2.47||0.0289|TWO_SIDED|95.0|-10.27|-0.56|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.56|-10.27|0.0289
82622073|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.75|STANDARD_ERROR_OF_MEAN|2.37||0.4613|TWO_SIDED|95.0|-6.41|2.91|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.91|-6.41|0.4613
82622074|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-2.2|STANDARD_ERROR_OF_MEAN|2.33||0.346|TWO_SIDED|95.0|-6.78|2.38|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.38|-6.78|0.3460
82622075|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-3.66|STANDARD_ERROR_OF_MEAN|2.34||0.1179|TWO_SIDED|95.0|-8.26|0.93|||ANCOVA|||Change at Week 16: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.93|-8.26|0.1179
82622076|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.93|STANDARD_ERROR_OF_MEAN|2.97||0.5151|TWO_SIDED|95.0|-7.78|3.92|||ANCOVA|||Change at Week 56: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.92|-7.78|0.5151
82622077|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-3.38|STANDARD_ERROR_OF_MEAN|2.96||0.255|TWO_SIDED|95.0|-9.22|2.46|||ANCOVA|||Change at Week 56: Percent Overall Work Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.46|-9.22|0.2550
82622078|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-4.18|STANDARD_ERROR_OF_MEAN|1.73||0.0157|TWO_SIDED|95.0|-7.57|-0.79|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.79|-7.57|0.0157
82622079|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-4.18|STANDARD_ERROR_OF_MEAN|1.73||0.0159|TWO_SIDED|95.0|-7.57|-0.78|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||-0.78|-7.57|0.0159
82622080|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-2.75|STANDARD_ERROR_OF_MEAN|1.62||0.0896|TWO_SIDED|95.0|-5.94|0.43|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||0.43|-5.94|0.0896
82622081|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|1.6||0.3749|TWO_SIDED|95.0|-4.57|1.72|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.72|-4.57|0.3749
82622082|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.42|STANDARD_ERROR_OF_MEAN|1.59||0.3733|TWO_SIDED|95.0|-4.55|1.71|||ANCOVA|||Change at Week 16: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||1.71|-4.55|0.3733
82622083|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|2.17||0.8056|TWO_SIDED|95.0|-4.8|3.73|||ANCOVA|||Change at Week 56: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||3.73|-4.80|0.8056
82622084|NCT02528253|164960273|SUPERIORITY||LS Mean Difference|-1.16|STANDARD_ERROR_OF_MEAN|2.08||0.5764|TWO_SIDED|95.0|-5.25|2.93|||ANCOVA|||Change at Week 56: Percent Activity Impairment: ANCOVA model included treatment as fixed effects, baseline WPAI score and baseline diary average pain as covariates, and study site as a random effect.||2.93|-5.25|0.5764
82622085|NCT02528253|164960274|SUPERIORITY||Odds Ratio (OR)|0.93||||0.7366|TWO_SIDED|95.0|0.62|1.41|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.41|0.62|0.7366
82622086|NCT02528253|164960274|SUPERIORITY||Odds Ratio (OR)|1.06||||0.771|TWO_SIDED|95.0|0.71|1.58|||Regression, Logistic|||OR and 95% CI estimated from logistic regression model. Logistic regression model included baseline average LBPI and treatment.||1.58|0.71|0.7710
82622087|NCT02528253|164960275|SUPERIORITY|||||||0.4724|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.4724
82622088|NCT02528253|164960275|SUPERIORITY|||||||0.7142|||||||Log Rank|||Missing data for the selected percentile(s) was due to the Kaplan-Meier estimate not reaching the level for discontinuation due to lack of efficacy.||||0.7142
82622089|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.12||||0.396|TWO_SIDED|95.0|0.87|1.44|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.44|0.87|0.3960
82622090|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.93||||0.5932|TWO_SIDED|95.0|0.73|1.2|||Regression, Logistic|||Week 2: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.20|0.73|0.5932
82622091|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.13||||0.3326|TWO_SIDED|95.0|0.88|1.46|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.46|0.88|0.3326
82622092|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.84||||0.1765|TWO_SIDED|95.0|0.65|1.08|||Regression, Logistic|||Week 4: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.08|0.65|0.1765
82622093|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5619|TWO_SIDED|95.0|0.84|1.39|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.39|0.84|0.5619
82622094|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.89||||0.3909|TWO_SIDED|95.0|0.69|1.16|||Regression, Logistic|||Week 8: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.16|0.69|0.3909
82622095|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7562|TWO_SIDED|95.0|0.8|1.35|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7562
82622096|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.01||||0.9476|TWO_SIDED|95.0|0.78|1.31|||Regression, Logistic|||Week 12: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.31|0.78|0.9476
82622097|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7746|TWO_SIDED|95.0|0.79|1.36|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.36|0.79|0.7746
82622098|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.94||||0.6377|TWO_SIDED|95.0|0.71|1.23|||Regression, Logistic|||Week 16: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.23|0.71|0.6377
82622099|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8532|TWO_SIDED|95.0|0.79|1.33|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.33|0.79|0.8532
82622100|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.08||||0.5644|TWO_SIDED|95.0|0.83|1.4|||Regression, Logistic|||Week 24: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.40|0.83|0.5644
82622101|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.04||||0.769|TWO_SIDED|0.769|0.8|1.35|||Regression, Logistic|||Week 32: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7690
82622102|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.11||||0.4321|TWO_SIDED|95.0|0.85|1.44|||Regression, Logistic|||Week 32: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.44|0.85|0.4321
82622103|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.04||||0.7714|TWO_SIDED|95.0|0.8|1.35|||Regression, Logistic|||Week 40: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.35|0.80|0.7714
82622104|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.03||||0.8389|TWO_SIDED|95.0|0.79|1.34|||Regression, Logistic|||Week 40: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.34|0.79|0.8389
82622105|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.99||||0.9383|TWO_SIDED|95.0|0.76|1.29|||Regression, Logistic|||Week 48: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.29|0.76|0.9383
82622106|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|1.02||||0.88|TWO_SIDED|95.0|0.78|1.33|||Regression, Logistic|||Week 48: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.33|0.78|0.8800
82622107|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.97||||0.7946|TWO_SIDED|95.0|0.74|1.26|||Regression, Logistic|||Week 56: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.26|0.74|0.7946
82622108|NCT02528253|164960276|SUPERIORITY||Odds Ratio (OR)|0.96||||0.7803|TWO_SIDED|95.0|0.74|1.25|||Regression, Logistic|||Week 56: Odds ratio and 95% CI estimated from logistic regression model. Logistic regression model included baseline LBPI and treatment.||1.25|0.74|0.7803
82622109|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.16|STANDARD_ERROR_OF_MEAN|0.11||0.1272|TWO_SIDED|95.0|0.96|1.41|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.41|0.96|0.1272
82622110|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.1||0.6322|TWO_SIDED|95.0|0.86|1.27|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.27|0.86|0.6322
82622111|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.1|STANDARD_ERROR_OF_MEAN|0.12||0.3559|TWO_SIDED|95.0|0.89|1.36|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.36|0.89|0.3559
82622112|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.96||||0.6798|TWO_SIDED|95.0|0.77|1.18|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.18|0.77|0.6798
82622113|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.14||||0.267|TWO_SIDED|95.0|0.9|1.44|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.44|0.90|0.2670
82622114|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.94||||0.5865|TWO_SIDED|95.0|0.74|1.19|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.19|0.74|0.5865
82622115|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.13||||0.3378|TWO_SIDED|95.0|0.88|1.47|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.47|0.88|0.3378
82622116|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.92||||0.551|TWO_SIDED|95.0|0.71|1.2|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.71|0.5510
82622117|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.2|STANDARD_ERROR_OF_MEAN|0.18||0.2088|TWO_SIDED|95.0|0.9|1.6|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.90|0.2088
82622118|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8692|TWO_SIDED|95.0|0.73|1.3|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.30|0.73|0.8692
82622119|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.03|STANDARD_ERROR_OF_MEAN|0.14||0.8444|TWO_SIDED|95.0|0.78|1.35|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.35|0.78|0.8444
82622120|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.14||0.8936|TWO_SIDED|95.0|0.78|1.34|||Negative binomial model|||Week 24: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.34|0.78|0.8936
82622121|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8716|TWO_SIDED|95.0|0.75|1.28|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.28|0.75|0.8716
82622122|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.14||0.8827|TWO_SIDED|95.0|0.75|1.29|||Negative binomial model|||Week 32: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.29|0.75|0.8827
82622123|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.14||0.8996|TWO_SIDED|95.0|0.77|1.34|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.34|0.77|0.8996
82622124|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.13||0.488|TWO_SIDED|95.0|0.69|1.2|||Negative binomial model|||Week 40: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.69|0.4880
82622125|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.14||0.7938|TWO_SIDED|95.0|0.73|1.27|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.27|0.73|0.7938
82622126|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.91|STANDARD_ERROR_OF_MEAN|0.13||0.5092|TWO_SIDED|95.0|0.69|1.2|||Negative binomial model|||Week 48: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.20|0.69|0.5092
82622127|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.93|STANDARD_ERROR_OF_MEAN|0.13||0.6148|TWO_SIDED|95.0|0.71|1.22|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.22|0.71|0.6148
82622128|NCT02528253|164960278|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.12||0.2844|TWO_SIDED|95.0|0.66|1.13|||Negative binomial model|||Week 56: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.13|0.66|0.2844
82622129|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.1|STANDARD_ERROR_OF_MEAN|0.25||0.6764|TWO_SIDED|95.0|0.7|1.73|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.73|0.70|0.6764
82622130|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.23||0.9351|TWO_SIDED|95.0|0.65|1.6|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.65|0.9351
82622131|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.97|STANDARD_ERROR_OF_MEAN|0.2||0.8731|TWO_SIDED|95.0|0.64|1.46|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.64|0.8731
82622132|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.14|STANDARD_ERROR_OF_MEAN|0.24||0.537|TWO_SIDED|95.0|0.75|1.72|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.72|0.75|0.5370
82622133|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.22||0.8031|TWO_SIDED|95.0|0.7|1.59|||Negative binomial model|||Week 2: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.59|0.70|0.8031
82622134|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.24||0.8192|TWO_SIDED|95.0|0.57|1.55|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.55|0.57|0.8192
82622135|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.22||0.6345|TWO_SIDED|95.0|0.54|1.46|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.54|0.6345
82622136|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.89|STANDARD_ERROR_OF_MEAN|0.21||0.6103|TWO_SIDED|95.0|0.56|1.4|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.40|0.56|0.6103
82622137|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.06|STANDARD_ERROR_OF_MEAN|0.25||0.7949|TWO_SIDED|95.0|0.67|1.67|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.67|0.67|0.7949
82622138|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.0|STANDARD_ERROR_OF_MEAN|0.23||0.992|TWO_SIDED|95.0|0.63|1.57|||Negative binomial model|||Week 4: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.57|0.63|0.9920
82622139|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.96|STANDARD_ERROR_OF_MEAN|0.27||0.8772|TWO_SIDED|95.0|0.55|1.67|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.67|0.55|0.8772
82622140|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.7614|TWO_SIDED|95.0|0.53|1.6|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.60|0.53|0.7614
82622141|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.22||0.5629|TWO_SIDED|95.0|0.52|1.43|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.43|0.52|0.5629
82622142|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.29||0.6821|TWO_SIDED|95.0|0.67|1.85|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.85|0.67|0.6821
82622143|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.07|STANDARD_ERROR_OF_MEAN|0.28||0.8049|TWO_SIDED|95.0|0.64|1.77|||Negative binomial model|||Week 8: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.77|0.64|0.8049
82622144|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.87|STANDARD_ERROR_OF_MEAN|0.27||0.6673|TWO_SIDED|95.0|0.47|1.62|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.62|0.47|0.6673
82622145|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.79|STANDARD_ERROR_OF_MEAN|0.25||0.4475|TWO_SIDED|95.0|0.43|1.46|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.46|0.43|0.4475
82622146|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.86|STANDARD_ERROR_OF_MEAN|0.25||0.5925|TWO_SIDED|95.0|0.49|1.5|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.50|0.49|0.5925
82622147|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.02|STANDARD_ERROR_OF_MEAN|0.29||0.9486|TWO_SIDED|95.0|0.58|1.79|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.79|0.58|0.9486
82622148|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.92|STANDARD_ERROR_OF_MEAN|0.26||0.7673|TWO_SIDED|95.0|0.52|1.61|||Negative binomial model|||Week 12: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.61|0.52|0.7673
82622149|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.11|STANDARD_ERROR_OF_MEAN|0.39||0.7635|TWO_SIDED|95.0|0.56|2.2|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||2.20|0.56|0.7635
82622150|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.98|STANDARD_ERROR_OF_MEAN|0.34||0.9564|TWO_SIDED|95.0|0.5|1.94|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.94|0.50|0.9564
82622151|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|0.94|STANDARD_ERROR_OF_MEAN|0.3||0.8359|TWO_SIDED|95.0|0.5|1.75|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.75|0.50|0.8359
82622152|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.19|STANDARD_ERROR_OF_MEAN|0.38||0.5914|TWO_SIDED|95.0|0.64|2.21|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||2.21|0.64|0.5914
82622153|NCT02528253|164960280|SUPERIORITY||LS Mean Ratio|1.05|STANDARD_ERROR_OF_MEAN|0.33||0.8826|TWO_SIDED|95.0|0.56|1.95|||Negative binomial model|||Week 16: Analysis was performed using negative binomial model with model terms of Baseline average LBPI and treatment group.||1.95|0.56|0.8826
82622154|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|7.02|STANDARD_ERROR_OF_MEAN|2.01||0.0005|TWO_SIDED|95.0|3.07|10.97|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||10.97|3.07|0.0005
82622155|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|6.21|STANDARD_ERROR_OF_MEAN|2.01||0.0021|TWO_SIDED|95.0|2.26|10.15|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||10.15|2.26|0.0021
82622156|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|4.72|STANDARD_ERROR_OF_MEAN|1.89||0.0125|TWO_SIDED|95.0|1.02|8.42|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.42|1.02|0.0125
82622157|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|2.31|STANDARD_ERROR_OF_MEAN|1.87||0.2176|TWO_SIDED|95.0|-1.36|5.97|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.97|-1.36|0.2176
82622158|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.49|STANDARD_ERROR_OF_MEAN|1.86||0.4235|TWO_SIDED|95.0|-2.16|5.14|||ANCOVA|||TSQM Effectiveness; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.14|-2.16|0.4235
82622159|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|12.3|STANDARD_ERROR_OF_MEAN|4.96||0.0143|TWO_SIDED|95.0|2.5|22.11|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||22.11|2.50|0.0143
82622160|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|12.55|STANDARD_ERROR_OF_MEAN|4.96||0.0124|TWO_SIDED|95.0|2.76|22.35|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||22.35|2.76|0.0124
82622161|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.88|STANDARD_ERROR_OF_MEAN|4.29||0.3675|TWO_SIDED|95.0|-4.6|12.36|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||12.36|-4.60|0.3675
82622162|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|8.42|STANDARD_ERROR_OF_MEAN|3.89||0.0319|TWO_SIDED|95.0|0.74|16.11|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.11|0.74|0.0319
82622163|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|8.67|STANDARD_ERROR_OF_MEAN|3.9||0.0276|TWO_SIDED|95.0|0.97|16.38|||ANCOVA|||TSQM Side Effects; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.38|0.97|0.0276
82622164|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|2.57|STANDARD_ERROR_OF_MEAN|1.38||0.0627|TWO_SIDED|95.0|-0.14|5.27|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.27|-0.14|0.0627
82622165|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.26|STANDARD_ERROR_OF_MEAN|1.38||0.0187|TWO_SIDED|95.0|0.54|5.97|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.97|0.54|0.0187
82622166|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.52|STANDARD_ERROR_OF_MEAN|1.3||0.2419|TWO_SIDED|95.0|-1.03|4.06|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.06|-1.03|0.2419
82622167|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.05|STANDARD_ERROR_OF_MEAN|1.28||0.4124|TWO_SIDED|95.0|-1.46|3.56|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||3.56|-1.46|0.4124
82622168|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.74|STANDARD_ERROR_OF_MEAN|1.27||0.173|TWO_SIDED|95.0|-0.76|4.24|||ANCOVA|||TSQM Convenience; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.24|-0.76|0.1730
82622169|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|5.42|STANDARD_ERROR_OF_MEAN|1.86||0.0037|TWO_SIDED|95.0|1.77|9.08|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||9.08|1.77|0.0037
82622170|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.74|STANDARD_ERROR_OF_MEAN|1.86||0.0449|TWO_SIDED|95.0|0.09|7.39|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||7.39|0.09|0.0449
82622171|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|2.22|STANDARD_ERROR_OF_MEAN|1.75||0.2038|TWO_SIDED|95.0|-1.21|5.65|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.65|-1.21|0.2038
82622172|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.2|STANDARD_ERROR_OF_MEAN|1.73||0.0644|TWO_SIDED|95.0|-0.19|6.59|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.59|-0.19|0.0644
82622173|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.52|STANDARD_ERROR_OF_MEAN|1.72||0.3775|TWO_SIDED|95.0|-1.86|4.9|||ANCOVA|||TSQM Global Satisfaction; Week 16: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.90|-1.86|0.3775
82622174|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.45|STANDARD_ERROR_OF_MEAN|2.62||0.5806|TWO_SIDED|95.0|-3.7|6.6|||ANCOVA|||TSQM Effectiveness; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.60|-3.70|0.5806
82622175|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|1.3|STANDARD_ERROR_OF_MEAN|2.53||0.6084|TWO_SIDED|95.0|-3.68|6.27|||ANCOVA|||TSQM Effectiveness; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||6.27|-3.68|0.6084
82622176|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|2.71|STANDARD_ERROR_OF_MEAN|6.95||0.6991|TWO_SIDED|95.0|-11.56|16.99|||ANCOVA|||TSQM Side Effects; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||16.99|-11.56|0.6991
82622177|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|13.17|STANDARD_ERROR_OF_MEAN|5.6||0.0265|TWO_SIDED|95.0|1.66|24.68|||ANCOVA|||TSQM Side Effects; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||24.68|1.66|0.0265
82622178|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.99||0.8795|TWO_SIDED|95.0|-3.61|4.21|||ANCOVA|||TSQM Convenience; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||4.21|-3.61|0.8795
82622179|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.92||0.2758|TWO_SIDED|95.0|-1.68|5.87|||ANCOVA|||TSQM Convenience; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||5.87|-1.68|0.2758
82622180|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.54|STANDARD_ERROR_OF_MEAN|2.27||0.1197|TWO_SIDED|95.0|-0.92|8.0|||ANCOVA|||TSQM Global Satisfaction; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.00|-0.92|0.1197
82622181|NCT02528253|164960289|SUPERIORITY||LS Mean Difference|3.93|STANDARD_ERROR_OF_MEAN|2.19||0.0743|TWO_SIDED|95.0|-0.39|8.24|||ANCOVA|||TSQM Global Satisfaction; Week 56: p-value was computed using ANCOVA with covariates of baseline average LBPI score, treatment, and study site as a random effect.||8.24|-0.39|0.0743
82622182|NCT01357980|164960307|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.54||||0.11|TWO_SIDED|95.0|-3.47|0.39||No multiplicity adjustment applied: each test conducted at a 5% significance level.|ANCOVA|||Comparison of the average Daily IEF change from baseline to DAY 84 using ANCOVA with the baseline average daily IEF value as covariate.||0.39|-3.47|0.11
82622183|NCT01357980|164960307|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.61||||0.07|TWO_SIDED|95.0|-1.27|0.05||No multiplicity adjustment applied: each test conducted at a 5% significance level.|ANCOVA|||Comparison of the average Daily IEF change from baseline to DAY 84 using ANCOVA with the baseline average daily IEF value as covariate.||0.05|-1.27|0.07
82622184|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|219.5|||<|0.01|TWO_SIDED|95.0|69.6|369.5|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 14 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||369.5|69.6|<0.01
82622185|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|224.1|||<|0.01|TWO_SIDED|95.0|140.9|307.4|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 14 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||307.4|140.9|<0.01
82622186|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|117.0||||0.09||95.0|-20.0|254.0|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 42 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||254.0|-20.0|0.09
82622187|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|223.7|||<|0.01|TWO_SIDED|95.0|94.3|353.1|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 42 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||353.1|94.3|<0.01
82622188|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|138.5||||0.01|TWO_SIDED|95.0|34.7|242.2|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 84 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||242.2|34.7|0.01
82622189|NCT01357980|164960308|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|186.3|||<|0.01|TWO_SIDED|95.0|53.2|319.4|||ANCOVA|||Comparison of the maximum Cystometric Capacity change from baseline to DAY 84 using ANCOVA with the baseline maximum Cystometric Capacity as covariate.||319.4|53.2|<0.01
82622190|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-23.8||||0.25|TWO_SIDED|95.0|-66.6|18.9|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 14 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||18.9|-66.6|0.25
82622191|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-67.1|||<|0.01|TWO_SIDED|95.0|-112.9|-21.2|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 14 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-21.2|-112.9|<0.01
82622192|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-35.1||||0.03|TWO_SIDED|95.0|-65.6|-4.6|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 42 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-4.6|-65.6|0.03
82622193|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-51.0||||0.01|TWO_SIDED|95.0|-89.5|-12.4|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 42 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-12.4|-89.5|0.01
82622194|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-32.3|||<|0.01|TWO_SIDED|95.0|-53.7|-11.0|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 84 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-11.0|-53.7|<0.01
82622195|NCT01357980|164960309|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-45.3|||<|0.01|TWO_SIDED|95.0|-76.6|-14.1|||ANCOVA|||Comparison of the maximum Detrusor Pressure change from baseline to DAY 84 using ANCOVA with the baseline Maximum Detrusor Pressure as covariate.||-14.1|-76.6|<0.01
82622196|NCT01357980|164960310|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.7||||0.05||95.0|||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 14 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.05
82622197|NCT01357980|164960310|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.3|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 14 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
82622198|NCT01357980|164960311|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.3||||0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 42 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.01
82622199|NCT01357980|164960311|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.8|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 42 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
82622200|NCT01357980|164960312|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|1.9||||0.05|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 84 using a two sided Satterthwaite-Welch's t-test for independent samples.||||0.05
82622201|NCT01357980|164960312|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|2.1|||<|0.01|||||||Satterthwaite-Welch's t-test|||Comparison of the Physician's Global Assessment score at DAY 84 using a two sided Satterthwaite-Welch's t-test for independent samples.||||<0.01
82622202|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.13|||<|0.01|TWO_SIDED|95.0|-1.91|-0.35|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 14 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||-0.35|-1.91|<0.01
82622203|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.18||||0.7|TWO_SIDED|95.0|-1.26|0.9|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 14 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.90|-1.26|0.7
82622204|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.52||||0.3|TWO_SIDED|95.0|-1.56|0.52|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 42 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.52|-1.56|0.3
82622205|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.48||||0.3|TWO_SIDED|95.0|-1.47|0.52|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 42 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.52|-1.47|0.3
82622206|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-1.38|||<|0.01|TWO_SIDED|95.0|-2.02|-0.73|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 84 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||-0.73|-2.02|<0.01
82622207|NCT01357980|164960313|SUPERIORITY_OR_OTHER_LEGACY||Mean Treatment Difference|-0.4||||0.4|TWO_SIDED|95.0|-1.35|0.55|||ANCOVA|||Comparison of the Quality of Life Total Summary score change from baseline to DAY 84 using ANCOVA with the baseline Quality of Life Total Summary score as covariate.||0.55|-1.35|0.4
82622208|NCT00225147|164960373|SUPERIORITY_OR_OTHER|||||||0.001|||||||Log Rank|||||||0.001
82622209|NCT00225147|164960373|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
82622210|NCT00225147|164960374|SUPERIORITY_OR_OTHER|||||||0.04||95.0|||||Log Rank|||||||0.040
82622211|NCT00225147|164960374|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Log Rank|||||||<0.001
82622212|NCT02034552|164960409|SUPERIORITY|||||||0.0109||||||\[80% CI\]: \[10.1%- 39.6%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||0.0109
82622213|NCT02034552|164960409|SUPERIORITY||||||<|0.0001||||||\[80% CI\]: \[40.8% - 73.7%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||<0.0001
82622214|NCT02034552|164960409|SUPERIORITY||||||<|0.0001||||||\[80% CI\]: \[31.8% - 68.2%\]|Clopper and Pearson|Patient bone scan response rate at Week 24 will be estimated with exact binomial 80% CI using the method of Clopper and Pearson.||H0: Patient bone scan response rate at Week 24 ≤5%. The Type I error rate for the test in each treatment group, is one-sided 0.10. A one-sided p-value will be reported for this test.||||<0.0001
82622215|NCT01878097|164960451|SUPERIORITY||F-stat|7.12||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
82622216|NCT01878097|164960452|SUPERIORITY||F-stat|7.18||||0.0003|TWO_SIDED||||||Mixed Models Analysis|||||||0.0003
82622217|NCT04547998|164960455|SUPERIORITY|The difference in the proportion of responders (RECELL-Control) was tested for superiority of RECELL treatment (with a 10% superiority margin). For the null hypothesis to be rejected and super-superiority of RECELL to Control to be established, the lower limit of the 2-sided 95% CI of the difference in the proportion of responders (RECELL-Control) had to be greater than 10%.||||||0.012|||||||continuity-corrected method|Liu et al 2002||||||0.012
82622218|NCT04547998|164960456|SUPERIORITY||||||<|0.001||||||P-value based on Wilcoxon signed rank test at 2-sided 0.05 significance level. The Wilcoxon signed rank test was based on the following repigmentation categories: 0% to 25%, 26% to 50%, 51% to 79%, and 80% to 100%.|Wilcoxon (Mann-Whitney)|||||||<0.001
82622219|NCT04547998|164960457|SUPERIORITY|||||||1||||||2-sided (0.05 significance level), based on 19 participants with assessable color matching outcomes for both treatments|Wilcoxon (Mann-Whitney)|||||||1.000
82622220|NCT00400712|164960460|SUPERIORITY_OR_OTHER|||||||0.44|TWO_SIDED||||||ANCOVA|Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05||||||0.44
82622221|NCT00400712|164960461|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.83
82622222|NCT00400712|164960462|SUPERIORITY_OR_OTHER|||||||0.45|TWO_SIDED||||||ANCOVA|||ANCOVA - comparing absolute measures and including baseline as co-variate||||0.45
82622223|NCT00400712|164960463|SUPERIORITY_OR_OTHER|||||||0.72|TWO_SIDED||||||ANCOVA|adjusted for baseline values||||||0.72
82622224|NCT00400712|164960464|SUPERIORITY_OR_OTHER|||||||0.6|TWO_SIDED||||||ANCOVA|controlled for baseline values||||||0.60
82622225|NCT00400712|164960465|SUPERIORITY_OR_OTHER|||||||0.66|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.66
82622226|NCT00400712|164960466|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|||||Examined whether there were differences between groups at 1 year with baseline measures serving as the covariate with a two-sided alpha of 0.05|ANCOVA|||||||0.78
82622227|NCT01802554|164960467|SUPERIORITY_OR_OTHER|||||||0.039|||||||Mixed Models Analysis|||||||.039
82622228|NCT01802554|164960468|SUPERIORITY_OR_OTHER|||||||0.701|||||||Mixed Models Analysis|||||||.701
82622229|NCT01802554|164960469|SUPERIORITY_OR_OTHER|||||||0.04|||||||Mixed Models Analysis|||||||.04
82622230|NCT01802554|164960470|SUPERIORITY_OR_OTHER|||||||0.268|||||||Mixed Models Analysis|||||||.268
82622231|NCT01802554|164960471|SUPERIORITY_OR_OTHER|||||||0.021|||||||Mixed Models Analysis|||||||.021
82622232|NCT01632735|164960472|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||<|0.05|TWO_SIDED|95.0|0.57|0.99|||GEE|Generalized Estimating Equations regression examined primary relapse (measured by urinalysis) over time by condition, controlling for age and gender.||||0.99|0.57|<0.05
82622233|NCT01632735|164960473|SUPERIORITY_OR_OTHER||Beta (timexcondition)|0.239|||<|0.001|TWO_SIDED|95.0|0.219|0.248|||Mixed Models Analysis|Analyses controlled for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the primary outcome measures of recovery behaviors mean days over time (baseline, discharge, 3, 6, and 9-month follow-ups).||0.248|0.219|<0.001
82622234|NCT01632735|164960474|SUPERIORITY_OR_OTHER||Beta (time x condition)|0.115|||<|0.001|TWO_SIDED|95.0|0.106|0.123|||Mixed Models Analysis|A repeated-measures model tested for effects of treatment vs. control on recovery self-confidence over time controlling for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the outcome measure of recovery confidence mean score over time.||0.123|0.106|<0.001
82622235|NCT01632735|164960475|SUPERIORITY_OR_OTHER||Beta effect (timexcondition)|0.217|||<|0.001|TWO_SIDED|95.0|0.2|0.233|||Mixed Models Analysis|Analyses controlled for age and gender.||Mixed modeling using a repeated-measures random-effects model was conducted to test for the effects of treatment (dummy coded with 1 = mobile intervention, 0 = control) and time as well as the treatment x time interaction on the outcome measure of self-help utilization (mean days in past month) over the study period (baseline, discharge, and 3-, 6-, and 9-month follow-ups).||0.233|0.2|<0.001
82622236|NCT04111107|164960519|OTHER|||||||0.966|||||||Wilcoxon signed rank (2 sided)|||H0: Progression-free ratio = 1||||0.966
82622237|NCT04111107|164960522|OTHER|Single proportion was estimated.|proportion|4.2|||||TWO_SIDED|95.0|0.1|21.1|||||exact binomial confidence interval|The proportion with a complete or partial response was estimated and an exact binomial confidence interval was calculated||21.1|0.1|
82622238|NCT00594204|164960523|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.78|||<|0.0001||95.0|2.97|7.68||p-values are obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds Ratios obtained from a logistic regression model including the main effects of treatment and country|||7.68|2.97|<0.0001
82622239|NCT00594204|164960524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.0|||<|0.0001||95.0|3.3|7.5||p-values obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds ratios obtained from a logistic regression model including the main effects of treatment and country|Week 12||7.5|3.3|<0.0001
82622240|NCT00594204|164960524|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.3|||<|0.0001||95.0|2.8|6.5||p-values obtained from a logistic regression model including the main effects of treatment and country|Regression, Logistic||Odds ratios obtained from a logistic regression model including the main effects of treatment and country|Week 24||6.5|2.8|<0.0001
82622241|NCT00594204|164960525|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.76|||<|0.0001||95.0|3.74|8.88|||Regression, Logistic|p-value are obtained from a logistic regression model including the main effects of treatment and country|Odds Ratios obtained from a logistic regression model including the main effects of treatment and country|||8.88|3.74|<0.0001
82622242|NCT01529385|164960528|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622243|NCT01529385|164960529|SUPERIORITY_OR_OTHER||||||<|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||<0.05
82622244|NCT01529385|164960530|SUPERIORITY_OR_OTHER||||||<|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||<.05
82622245|NCT01529385|164960531|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622246|NCT01529385|164960532|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622247|NCT01529385|164960533|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622248|NCT01529385|164960535|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622249|NCT01529385|164960536|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622250|NCT01529385|164960537|SUPERIORITY_OR_OTHER||||||>|0.05||||||0.05 set as a priori threshold for statistical significance; Sidak correction for multiple comparisons used|ANOVA|||||||>0.05
82622251|NCT01401465|164960538|SUPERIORITY_OR_OTHER||Slope|88.235|||<|0.0001||||||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Two-sided Signed Rank Test||Hodges-Lehman estimate of the CI not available due to ties.|The null hypothesis is that the median of the standardized Total Preference Score = 50. Values \> 50 indicate preference for ciclesonide, while values \< 50 indicate preference for mometasone. For the primary endpoint of the Total Preference Score, assuming an SD of 40, a sample size of 155 will have 80% power to detect a difference of 0.25 SD units (10 raw score units) from the neutrality preference population value of 50, using a single group t-test with a 0.025 two-sided significance level.||||<0.0001
82622252|NCT01401465|164960539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|13.9|||<|0.0001|TWO_SIDED|95.0|11.22|16.58||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Linear Mixed Model|Linear Mixed Model with effects for Period, Treatment, Sex, Race, Study Center, and covariates of Age and Baseline.||The null hypothesis is that the mean change from baseline (CfBL) for CIC is equal to the mean CfBL for MOM. In Study 060-301, a correlation between BL periods 1 and 2 of 0.7 and a change score SD of 15 was seen for the RACS. A sample size of 41 in each sequence group (82 total ) gives a 2 x 2 crossover design 80% power to detect the difference in the CfBL of 0.35 SD units (5.25 raw score units) using a two group t-test with a 0.025 two-sided significance level and a SD of 15 for the difference.||16.58|11.22|<0.0001
82622253|NCT01401465|164960539|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.88|||<|0.0001|TWO_SIDED|95.0|2.2|7.56||The significance level was set at 0.025 to adjust for the fact that two co-primary endpoints were being tested.|Linear Mixed Model|Linear Mixed Model with effects for Period, Treatment, Sex, Race, Study Center, and covariates of Age and Baseline||The null hypothesis is that the mean change from baseline (CfBL) for CIC is equal to the mean CfBL for MOM. In Study 060-301, a correlation between BL periods 1 and 2 of 0.7 and a change score SD of 15 was seen for the RACS. A sample size of 41 in each sequence group (82 total ) gives a 2 x 2 crossover design 80% power to detect the difference in the CfBL of 0.35 SD units (5.25 raw score units) using a two group t-test with a 0.025 two-sided significance level and a SD of 15 for the difference.||7.56|2.20|<0.0001
82622254|NCT01401465|164960540|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|88.889|||<|0.0001||||||If both primary endpoints are significant, the evaluation of this key secondary endpoint will be conducted at a significance level of 0.05.|Two-sided signed-rank test||Hodges-Lehman estimate of the CI not available due to ties.|The null hypothesis is that the median of the standardized Treatment Process Composite Preference Score = 50. Values \> 50 indicate preference for ciclesonide, while values \< 50 indicate preference for mometasone. Assuming an SD of 40, as observed in Study 060-301, a sample size of 128 will have 80% power to detect a difference of 0.25 SD units (10 raw score units) from the neutrality preference population value of 50, using a single group t-test with a 0.05 two-sided significant level||||<0.0001
82622255|NCT01401465|164960541|NON_INFERIORITY_OR_EQUIVALENCE|The 95% CI of the LS mean difference of ciclesonide nasal aerosol minus mometasone aqueous nasal spray was calculated from the ANCOVA model, and the upper bound of the CI was compared to the non-inferiority margin of 0.5. Non-inferiority was declared if the upper bound of the 95% CI of this difference was \< 0.5.|Difference in LS Means|-0.1|||||TWO_SIDED|95.0|-0.3|0.1||f both primary endpoints are significant, the evaluation of this key secondary endpoint will be conducted at a significance level of 0.05.|ANCOVA|Site, treatment, period, treatment sequence as fixed effects, subject nested within sequence as a random effect, and baseline rTNSS as a covariate.|Ciclesonide 74 mcg minus Mometasone 200 mcg|The null hypothesis is that the change from baseline in rTNSS for ciclesonide 74 mcg nasal aerosol minus the change from baseline in rTNSS for mometasone AQ 200 mcg is greater than 0.5.||0.1|-0.3|
82622256|NCT01115738|164960569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|22.24||||0.188|TWO_SIDED|95.0|-10.98|55.47||P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||55.47|-10.98|0.188
82622257|NCT01115738|164960569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.93||||0.809|TWO_SIDED|95.0|-28.2|36.07||P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||36.07|-28.20|0.809
82622258|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.93||||0.37|TWO_SIDED|95.0|-20.26|54.12||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||54.12|-20.26|0.370
82622259|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|35.89||||0.052|TWO_SIDED|95.0|-0.29|72.06||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||72.06|-0.29|0.052
82622260|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|9.45||||0.703|TWO_SIDED|95.0|-39.55|58.45||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||58.45|-39.55|0.703
82622261|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.45||||0.823|TWO_SIDED|95.0|-42.53|53.44||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||53.44|-42.53|0.823
82622262|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|28.69||||0.054|TWO_SIDED|95.0|-0.47|57.84||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||57.84|-0.47|0.054
82622263|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.3||||0.436|TWO_SIDED|95.0|-17.29|39.9||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||39.90|-17.29|0.436
82622264|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.87||||0.463|TWO_SIDED|95.0|-14.96|32.71||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||32.71|-14.96|0.463
82622265|NCT01115738|164960570|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.34||||0.777|TWO_SIDED|95.0|-26.62|19.94||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||19.94|-26.62|0.777
82622266|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.31||||0.505|TWO_SIDED|95.0|-13.1|6.48||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||6.48|-13.10|0.505
82622267|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.23||||0.278|TWO_SIDED|95.0|-14.74|4.27||P-value is for Baseline. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||4.27|-14.74|0.278
82622268|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.71||||0.749|TWO_SIDED|95.0|-19.44|14.02||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||14.02|-19.44|0.749
82622269|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.15||||0.89|TWO_SIDED|95.0|-15.24|17.53||P-value is for 2 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||17.53|-15.24|0.890
82622270|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.89||||0.223|TWO_SIDED|95.0|-18.02|4.24||P-value is for 6 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||4.24|-18.02|0.223
82622271|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.33||||0.808|TWO_SIDED|95.0|-9.44|12.1||P-value is for 6 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||12.10|-9.44|0.808
82622272|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-10.07||||0.049|TWO_SIDED|95.0|-20.11|-0.04||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||-0.04|-20.11|0.049
82622273|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.99||||0.842|TWO_SIDED|95.0|-10.85|8.86||P-value is for 24 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||8.86|-10.85|0.842
82622274|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.03||||0.247|TWO_SIDED|95.0|-13.58|3.52||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||3.52|-13.58|0.247
82622275|NCT01115738|164960573|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.31||||0.942|TWO_SIDED|95.0|-8.09|8.71||P-value is for 72 hours after prasugrel LD. P-values were not adjusted for multiplicity. P-values \<0.05 were considered statistically significant.|Mixed Model Repeated Measures Analysis|Fixed effects were Treatment, Visit, Country, Treatment-by-Visit. Participants and Error were Random Effects. Covariance structure was Unstructured.||||8.71|-8.09|0.942
82622276|NCT01115738|164960576|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.449||||0.8711|TWO_SIDED|95.0|-38.81|45.71|||ANOVA|||A linear ANOVA model with PRU values at baseline for clopidogrel treated participants as response and CYP2C19 metabolizer status as covariate of main interest.||45.71|-38.81|0.8711
82622277|NCT01115738|164960577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.714||||0.7875|TWO_SIDED|95.0|-72.78|55.36|||ANOVA|||A linear ANOVA model with PRU values of 6 hours post Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||55.36|-72.78|0.7875
82622278|NCT01115738|164960577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.435||||0.8913|TWO_SIDED|95.0|-53.23|46.37|||ANOVA|||A linear ANOVA model with PRU values of 6 hours Post-Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||46.37|-53.23|0.8913
82622279|NCT01115738|164960577|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|11.7||||0.6229|TWO_SIDED|95.0|-35.43|58.83|||ANOVA|||A linear ANOVA model with PRU values of 6 hours Post-Prasugrel LD as response and treatment, CYP2C19 metabolizer status, interaction of treatment-by-CYP2C19 metabolizer status as fixed effects.||58.83|-35.43|0.6229
82622280|NCT04009213|164960584|NON_INFERIORITY|H0: δT - δC ≥ 0.9 Ha: δT - δC \< 0.9|||||<|0.025|ONE_SIDED|95.0|||||ANCOVA|||||||< 0.025
82622281|NCT04009213|164960585|NON_INFERIORITY|H0: qT - qC ≥ 10% H1: qT - qC \< 10%|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||< 0.025
82622282|NCT04009213|164960586|NON_INFERIORITY|H0: pC - pT ≥ 10% H1: pC - pT \< 10%,|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||<0.025
82622283|NCT04009213|164960587|NON_INFERIORITY|H0: πC - πT ≥ 15% H1: πC - πT \< 15%,|||||<|0.025|ONE_SIDED|95.0|||||Farrington-Manning|||||||< 0.025
82622284|NCT00643604|164960602|SUPERIORITY_OR_OTHER_LEGACY|||||||0.69||0.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.69
82622285|NCT00643604|164960603|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82622286|NCT00643604|164960604|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.13
82622287|NCT00643604|164960605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0||||p value for Symptom Score|Wilcoxon signed rank test|||Changes in mean CAMPHOR scores between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
82622288|NCT00643604|164960605|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0||||p value for Activity Score.|Wilcoxon signed rank test|||Activity Score N=5; Baseline component score could not be calculated for one subject. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82668058|NCT05718648|165053029|OTHER||Ratio of adjusted geometric means [%]|125.06|||||TWO_SIDED|90.0|85.27|183.4|||||Ratio \[%\] = (adjusted geometric mean of severe renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 39.6|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||183.40|85.27|
82668059|NCT05718648|165053029|OTHER||Ratio of adjusted geometric means [%]|126.61|||||TWO_SIDED|90.0|85.3|187.92|||||Ratio \[%\] = (adjusted geometric mean of moderate renal impairment / adjusted geometric mean matching control)\*100. Intra-matched pair geometric coefficient of variation (gCV) \[%\] = 43.6|Ratio of adjusted geometric means was calculated using an analysis of variance (ANOVA) model on the logarithmic scale. The pharmacokinetic (PK) endpoints were log-transformed (natural logarithm) prior to fitting the ANOVA model. This model included effects accounting for the following sources of variation: 'degree of renal impairment' as fixed effect as well as 'matched pair' as random effect. These quantities were then back-transformed to the original scale.||187.92|85.30|
82622289|NCT00643604|164960605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.31||95.0|||||Wilcoxon signed-rank test|||Quality of Life Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.31
82622290|NCT00643604|164960605|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||"Total Score N=5; Baseline Activity component score could not be calculated for one subject. Total Score could not be calculated for this subject.~Wilcoxon signed rank test was used to compare the values at Baseline to values at Week 8. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values."||||0.13
82622291|NCT00643604|164960606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||95.0|||||Wilcoxon signed-rank test|||Effectiveness Score Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.19
82622292|NCT00643604|164960606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.19||95.0|||||Wilcoxon signed-rank test|||Side-Effects Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.19
82622293|NCT00643604|164960606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.03||95.0|||||Wilcoxon signed-rank test|||Convenience Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.03
82622294|NCT00643604|164960606|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Wilcoxon signed-rank test|||Global Satisfaction Score. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.88
82622295|NCT00643604|164960607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Wilcoxon signed-rank test|||Gather/Set-up. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.25
82622296|NCT00643604|164960607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.06||95.0|||||Wilcoxon signed-rank test|||Prepare Drug. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.06
82622297|NCT00643604|164960607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.63||95.0|||||Wilcoxon signed-rank test|||Connect Drug. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.63
82622298|NCT00643604|164960607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.88||95.0|||||Wilcoxon signed-rank test|||Change Dressing. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.88
82622299|NCT00643604|164960607|SUPERIORITY_OR_OTHER_LEGACY|||||||0.13||95.0|||||Wilcoxon signed-rank test|||Total Time. Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.13
82622300|NCT00643604|164960608|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.5
82492858|NCT03948581|164678611|EQUIVALENCE|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with group, treatment, and injection site as fixed effects and weight as a continuous covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|0.9981|||||TWO_SIDED|90.0|0.9223|1.0801||||||||1.0801|0.9223|
82622301|NCT00643604|164960609|SUPERIORITY_OR_OTHER_LEGACY|||||||0.25||95.0|||||Wilcoxon sign-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.25
82622302|NCT00643604|164960610|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82622303|NCT00643604|164960611|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||0.50
82622304|NCT00643604|164960612|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82622305|NCT00643604|164960613|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82622306|NCT00643604|164960614|SUPERIORITY_OR_OTHER_LEGACY|||||||1||95.0|||||Wilcoxon signed-rank test|||Changes between Baseline and Week 8 were assessed using the Wilcoxon signed rank test. A two-sided p value of \< 0.05 was considered statistically significant. No imputation was used for missing values.||||1.00
82622307|NCT02921763|164960628|SUPERIORITY||||||=|0.0533|||||||Sign test|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst, the values before treatment initiation and at last observation were compared, frequency of increase and decrease was summarized and the sign test was performed separately in the efficacy analysis set and study completers."||||=0.0533
82622308|NCT02921763|164960630|SUPERIORITY||||||=|0.7328|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.7328
82622309|NCT02921763|164960630|SUPERIORITY||||||=|0.1193|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.1193
82622310|NCT02921763|164960631|SUPERIORITY|||||||0.7221|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||0.7221
82622311|NCT02921763|164960631|SUPERIORITY|||||||0.0861|||||||Wilcoxon (Mann-Whitney)|||"For the volume calculated from the major and minor axes of ovarian chocolate cyst (a total volume if there were two or more cysts), the value, difference from the value before treatment and change rate were calculated using the summary statistics at each measurement point and last observation in each analysis set, namely efficacy analysis set and study completers, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||0.0861
82622312|NCT02921763|164960635|SUPERIORITY||||||=|0.002|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||=0.0020
82622313|NCT02921763|164960635|SUPERIORITY||||||=|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||=0.0001
82499472|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.667|STANDARD_ERROR_OF_MEAN|0.171||||90.0|-0.949|-0.384|||ANCOVA|||Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.384|-0.949|
82622314|NCT02921763|164960635|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
82622315|NCT02921763|164960635|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
82622316|NCT02921763|164960635|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The score value and difference from the value before treatment were calculated at the same points using the summary statistics, and the Wilcoxon signed-rank test was performed.||||<0.0001
82622317|NCT02921763|164960636|SUPERIORITY||||||=|0.0024|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0024
82622318|NCT02921763|164960636|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622319|NCT02921763|164960636|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622320|NCT02921763|164960636|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622321|NCT02921763|164960636|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622322|NCT02921763|164960637|SUPERIORITY||||||=|0.0037|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0037
82622323|NCT02921763|164960637|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622324|NCT02921763|164960637|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622325|NCT02921763|164960637|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||<0.0001
82622326|NCT02921763|164960637|SUPERIORITY||||||=|0.0003|||||||Wilcoxon (Mann-Whitney)|||The difference from the value before treatment and change rate were calculated using the summary statistics at each observation point and last observation, and the Wilcoxon signed-rank test was performed for the difference and change rate.||||=0.0003
82622327|NCT02921763|164960638|SUPERIORITY||||||=|0.8035|||||||Wilcoxon (Mann-Whitney)|||"Separately in the efficacy analysis set and study completers, the values before treatment initiation and at last observation were compared, the value, difference from the value before treatment and change rate were calculated using the summary statistics, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.8035
82622328|NCT02921763|164960639|SUPERIORITY||||||=|0.8185|||||||Wilcoxon (Mann-Whitney)|||"Separately in the efficacy analysis set and study completers, the values before treatment initiation and at last observation were compared, the value, difference from the value before treatment and change rate were calculated using the summary statistics, and the Wilcoxon signed-rank test was performed for the difference and change rate."||||=0.8185
82622329|NCT01709981|164960645|EQUIVALENCE|Mann-Whitney||||||0.31|||||||Wilcoxon (Mann-Whitney)|2-sided||||||0.31
82622330|NCT01369212|164960650|SUPERIORITY|||||||0.72|||||||Wald test|Proportion with HBsAg loss at week 240 in each group is estimated by Kaplan-Meier and then equality of proportion is tested using Wald test.||||||0.72
82622331|NCT01369212|164960651|SUPERIORITY|||||||0.09||||||The cumulative percentages with HBsAg loss at week 192 were estimated using Kaplan-Meier method and then the equality is tested using Wald test.|Wald Test|||||||0.09
82622332|NCT01369212|164960652|SUPERIORITY|||||||0.46|||||||Fisher Exact|||||||0.46
82622333|NCT01369212|164960653|SUPERIORITY|||||||0.12|||||||Fisher Exact|||||||0.12
82622334|NCT01369212|164960654|SUPERIORITY|||||||0.002|||||||Fisher Exact|||||||0.002
82622335|NCT01369212|164960655|SUPERIORITY|||||||0.039|||||||Fisher Exact|||||||0.039
82622336|NCT01369212|164960656|SUPERIORITY|||||||0.2|||||||Fisher Exact|||||||0.20
82622337|NCT01369212|164960657|SUPERIORITY|||||||0.44|||||||Fisher Exact|||||||0.44
82622338|NCT01369212|164960658|SUPERIORITY|||||||0.06|||||||Fisher Exact|||||||0.06
82622339|NCT01369212|164960659|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
82622340|NCT01369212|164960660|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
82622341|NCT01369212|164960661|SUPERIORITY|||||||0.55|||||||Fisher Exact|||||||0.55
82622342|NCT01369212|164960662|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||||||>0.99
82622343|NCT01369212|164960663|SUPERIORITY|||||||0.87|||||||Fisher Exact|||||||0.87
82622344|NCT01369212|164960664|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
82622345|NCT01369212|164960665|SUPERIORITY|||||||0.66|||||||Fisher Exact|||||||0.66
82622346|NCT01369212|164960667|SUPERIORITY|||||||0.66|||||||Log Rank|||||||0.66
82622347|NCT01369212|164960668|SUPERIORITY|||||||0.01|||||||Fisher Exact|||||||0.01
82622348|NCT00862121|164960669|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.212||||0.231|TWO_SIDED|95.0|0.017|2.683|||Regression, Logistic|||The odds ratio (OR) for Baseline CDAI measures the effect of an increase of one unit on the outcome. The OR \[95% CI\] and p-value (likelihood-based) are for Pentasa versus placebo estimated in a logistic regression analysis including TREATMENT and CDAI at baseline as covariates. Power to demonstrate superiority of PENTASA Sachet 6 g/day over placebo in the primary efficacy analysis was 90% for a planned sample size of 255 participants per treatment arm (assuming 10% nonassessable participants).||2.683|0.017|0.231
82622349|NCT02007954|164960688|OTHER|||||||0.01||||||P-values \< 0.05 considered statistically significant.|t-test, 2 sided|||Shapiro-Wilk test was run for normality. Baseline and follow-up AFP compared using two-tailed Student's t-test.||||.01
82622350|NCT02659605|164960692|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.572|||||||Student's t-test|||||||0.572
82622351|NCT02659605|164960693|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.849|||||||Student's t-test|||||||0.849
82622352|NCT02659605|164960694|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.886|||||||Student's t-test|||||||0.886
82622353|NCT02659605|164960695|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.612|||||||Student's t-test|||||||0.612
82622354|NCT02659605|164960696|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.728|||||||Student's t-test|||||||0.728
82622355|NCT02659605|164960697|EQUIVALENCE|The sample size was based on a previous study by Rabe et al. (Obstet Gynecol. 2011;117(2 Pt 1):205-11), who were also evaluating neonatal hematocrit after delayed cord clamping with the intention of detecting a 10% difference with a p-value of 0.05 and a power of 80% for a two-sided t-test. That study determined that 26 patients in each group were needed for a total of 52 subjects.||||||0.584|||||||Student's t-test|||||||0.584
82622356|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.42|STANDARD_ERROR_OF_MEAN|3.11|<|0.001|TWO_SIDED|95.0|-77.55|-65.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.29|-77.55|<0.001
82622357|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.16|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-65.94|-52.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-52.38|-65.94|<0.001
82622358|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.6|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-45.81|-33.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-33.40|-45.81|<0.001
82622359|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.1|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-47.83|-34.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-34.37|-47.83|<0.001
82622360|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-76.29|STANDARD_ERROR_OF_MEAN|5.36|<|0.001|TWO_SIDED|95.0|-86.87|-65.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.72|-86.87|<0.001
82622361|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.51|STANDARD_ERROR_OF_MEAN|4.72|<|0.001|TWO_SIDED|95.0|-79.81|-61.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.20|-79.81|<0.001
82622362|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.2|STANDARD_ERROR_OF_MEAN|5.24|<|0.001|TWO_SIDED|95.0|-57.54|-36.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-36.86|-57.54|<0.001
82622363|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.88|STANDARD_ERROR_OF_MEAN|4.73|<|0.001|TWO_SIDED|95.0|-48.21|-29.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-29.56|-48.21|<0.001
82622364|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.21|STANDARD_ERROR_OF_MEAN|3.3|<|0.001|TWO_SIDED|95.0|-74.72|-61.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.70|-74.72|<0.001
82622365|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-64.49|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-70.84|-58.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-58.14|-70.84|<0.001
82622366|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.31|STANDARD_ERROR_OF_MEAN|4.42|<|0.001|TWO_SIDED|95.0|-77.04|-59.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-59.57|-77.04|<0.001
82622367|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.98|STANDARD_ERROR_OF_MEAN|5.23|<|0.001|TWO_SIDED|95.0|-65.31|-44.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-44.65|-65.31|<0.001
82622368|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-70.56|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-76.72|-64.41||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.41|-76.72|<0.001
82622369|NCT01763866|164960716|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.41|STANDARD_ERROR_OF_MEAN|4.41|<|0.001|TWO_SIDED|95.0|-69.11|-51.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||The null hypothesis was that there was no difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.72|-69.11|<0.001
82622370|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.95|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-75.38|-64.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.51|-75.38|<0.001
82622371|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.82|STANDARD_ERROR_OF_MEAN|3.17|<|0.001|TWO_SIDED|95.0|-69.06|-56.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-56.57|-69.06|<0.001
82622372|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.53|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-43.03|-32.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-32.03|-43.03|<0.001
82622373|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.49|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-49.7|-37.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-37.28|-49.70|<0.001
82622374|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-74.92|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-84.49|-65.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-65.35|-84.49|<0.001
82622375|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-74.81|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-83.0|-66.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-66.62|-83.00|<0.001
82622376|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.95|STANDARD_ERROR_OF_MEAN|4.75|<|0.001|TWO_SIDED|95.0|-54.32|-35.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.57|-54.32|<0.001
82622377|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.81|STANDARD_ERROR_OF_MEAN|4.19|<|0.001|TWO_SIDED|95.0|-52.06|-35.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and ezetimibe, and the alternative hypothesis was that a mean difference did exist.||-35.55|-52.06|<0.001
82622378|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.88|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-72.67|-61.08||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-61.08|-72.67|<0.001
82622379|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.58|STANDARD_ERROR_OF_MEAN|3.05|<|0.001|TWO_SIDED|95.0|-72.6|-60.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.56|-72.60|<0.001
82622380|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.66|STANDARD_ERROR_OF_MEAN|3.81|<|0.001|TWO_SIDED|95.0|-73.19|-58.12||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-58.12|-73.19|<0.001
82622381|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.91|STANDARD_ERROR_OF_MEAN|4.27|<|0.001|TWO_SIDED|95.0|-71.37|-54.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-54.46|-71.37|<0.001
82622382|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.43|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|-74.86|-64.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-64.01|-74.86|<0.001
82622383|NCT01763866|164960717|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-68.45|STANDARD_ERROR_OF_MEAN|4.17|<|0.001|TWO_SIDED|95.0|-76.68|-60.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||The null hypothesis was that there was no difference in the percent change from Baseline in the average value of LDL-C at Weeks 10 and 12 between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-60.22|-76.68|<0.001
82622384|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-83.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-92.6|-74.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-74.6|-92.6|<0.001
82622385|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.7|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-90.2|-69.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-69.2|-90.2|<0.001
82622386|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.4|STANDARD_ERROR_OF_MEAN|4.4|<|0.001|TWO_SIDED|95.0|-53.4|-35.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.3|-53.4|<0.001
82622387|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.0|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-65.4|-44.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.6|-65.4|<0.001
82622388|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-69.9|STANDARD_ERROR_OF_MEAN|6.1|<|0.001|TWO_SIDED|95.0|-81.9|-57.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.8|-81.9|<0.001
82622389|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.6|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-74.5|-56.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.7|-74.5|<0.001
82622390|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.8|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-57.7|-33.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.9|-57.7|<0.001
82622391|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.8|STANDARD_ERROR_OF_MEAN|4.5|<|0.001|TWO_SIDED|95.0|-47.8|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.9|-47.8|<0.001
82622392|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.4|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-83.9|-67.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.0|-83.9|<0.001
82622393|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.9|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-88.0|-67.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.8|-88.0|<0.001
82622394|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.8|STANDARD_ERROR_OF_MEAN|3.7|<|0.001|TWO_SIDED|95.0|-63.1|-48.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.4|-63.1|<0.001
82622395|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.6|STANDARD_ERROR_OF_MEAN|5.1|<|0.001|TWO_SIDED|95.0|-60.6|-40.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.6|-60.6|<0.001
82622396|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-78.1|STANDARD_ERROR_OF_MEAN|4.1|<|0.001|TWO_SIDED|95.0|-86.2|-70.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-70.0|-86.2|<0.001
82622397|NCT01763866|164960718|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-80.1|STANDARD_ERROR_OF_MEAN|5.8|<|0.001|TWO_SIDED|95.0|-91.7|-68.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-68.6|-91.7|<0.001
82622398|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-85.5|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-95.2|-75.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-75.9|-95.2|<0.001
82622399|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|5.5|<|0.001|TWO_SIDED|95.0|-86.8|-64.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-64.9|-86.8|<0.001
82622400|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.8|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-56.6|-37.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.1|-56.6|<0.001
82622401|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-51.7|STANDARD_ERROR_OF_MEAN|5.5|<|0.001|TWO_SIDED|95.0|-62.6|-40.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.9|-62.6|<0.001
82622402|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.7|STANDARD_ERROR_OF_MEAN|6.4|<|0.001|TWO_SIDED|95.0|-84.4|-59.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-59.0|-84.4|<0.001
82622403|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.8|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-71.6|-52.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.0|-71.6|<0.001
82622404|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.0|STANDARD_ERROR_OF_MEAN|6.3|<|0.001|TWO_SIDED|95.0|-61.5|-36.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.6|-61.5|<0.001
82622405|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.3|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-45.2|-25.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.5|-45.2|<0.001
82622406|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-77.1|STANDARD_ERROR_OF_MEAN|4.6|<|0.001|TWO_SIDED|95.0|-86.2|-67.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-67.9|-86.2|<0.001
82622407|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-75.8|STANDARD_ERROR_OF_MEAN|5.3|<|0.001|TWO_SIDED|95.0|-86.3|-65.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-65.3|-86.3|<0.001
82622408|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.2|STANDARD_ERROR_OF_MEAN|4.0|<|0.001|TWO_SIDED|95.0|-65.1|-49.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.4|-65.1|<0.001
82622409|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.6|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|-55.9|-33.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.4|-55.9|<0.001
82622410|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-79.0|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-87.5|-70.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-70.4|-87.5|<0.001
82622411|NCT01763866|164960719|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-71.9|STANDARD_ERROR_OF_MEAN|6.0|<|0.001|TWO_SIDED|95.0|-83.8|-60.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-60.0|-83.8|<0.001
82622412|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.28|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-65.29|-55.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.27|-65.29|<0.001
82622413|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.37|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-63.23|-51.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.51|-63.23|<0.001
82622414|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.77|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-37.84|-27.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-27.70|-37.84|<0.001
82622415|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.53|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|-45.34|-33.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-33.71|-45.34|<0.001
82622416|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-65.17|STANDARD_ERROR_OF_MEAN|4.37|<|0.001|TWO_SIDED|95.0|-73.78|-56.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.56|-73.78|<0.001
82622417|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-64.76|STANDARD_ERROR_OF_MEAN|3.84|<|0.001|TWO_SIDED|95.0|-72.32|-57.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.19|-72.32|<0.001
82622418|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.25|STANDARD_ERROR_OF_MEAN|4.28|<|0.001|TWO_SIDED|95.0|-46.68|-29.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.81|-46.68|<0.001
82622419|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.52|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-45.15|-29.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.90|-45.15|<0.001
82622420|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.61|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|-64.73|-54.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.48|-64.73|<0.001
82622421|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.2|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-64.8|-53.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.60|-64.80|<0.001
82622422|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.27|STANDARD_ERROR_OF_MEAN|3.2|<|0.001|TWO_SIDED|95.0|-64.6|-51.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.94|-64.60|<0.001
82622423|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.31|STANDARD_ERROR_OF_MEAN|3.53|<|0.001|TWO_SIDED|95.0|-64.29|-50.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.32|-64.29|<0.001
82622424|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.06|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|-65.18|-54.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.94|-65.18|<0.001
82622425|NCT01763866|164960720|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-62.82|STANDARD_ERROR_OF_MEAN|3.75|<|0.001|TWO_SIDED|95.0|-70.22|-55.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-55.42|-70.22|<0.001
82622426|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.64|STANDARD_ERROR_OF_MEAN|2.84|<|0.001|TWO_SIDED|95.0|-67.25|-56.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-56.03|-67.25|<0.001
82622427|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.93|STANDARD_ERROR_OF_MEAN|3.28|<|0.001|TWO_SIDED|95.0|-61.4|-48.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.46|-61.40|<0.001
82622428|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.11|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-40.79|-29.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.44|-40.79|<0.001
82622429|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.72|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-44.15|-31.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.30|-44.15|<0.001
82622430|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-66.64|STANDARD_ERROR_OF_MEAN|4.69|<|0.001|TWO_SIDED|95.0|-75.88|-57.39||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-57.39|-75.88|<0.001
82622431|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.01|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-68.49|-51.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.52|-68.49|<0.001
82622432|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.51|STANDARD_ERROR_OF_MEAN|4.59|<|0.001|TWO_SIDED|95.0|-49.55|-31.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.47|-49.55|<0.001
82622433|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.79|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-41.3|-24.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.28|-41.30|<0.001
82622434|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.96|STANDARD_ERROR_OF_MEAN|2.95|<|0.001|TWO_SIDED|95.0|-65.78|-54.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.13|-65.78|<0.001
82622435|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.42|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-63.27|-51.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.57|-63.27|<0.001
82622436|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.58|STANDARD_ERROR_OF_MEAN|3.73|<|0.001|TWO_SIDED|95.0|-66.95|-52.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.21|-66.95|<0.001
82622437|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.76|STANDARD_ERROR_OF_MEAN|4.3|<|0.001|TWO_SIDED|95.0|-58.26|-41.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.27|-58.26|<0.001
82622438|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.91|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-66.57|-55.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.24|-66.57|<0.001
82622439|NCT01763866|164960721|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.63|STANDARD_ERROR_OF_MEAN|4.06|<|0.001|TWO_SIDED|95.0|-64.63|-48.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-48.62|-64.63|<0.001
82622440|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.49|STANDARD_ERROR_OF_MEAN|2.34|<|0.001|TWO_SIDED|95.0|-63.1|-53.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.89|-63.10|<0.001
82622441|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.25|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-57.49|-47.01||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-47.01|-57.49|<0.001
82622442|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.66|STANDARD_ERROR_OF_MEAN|2.37|<|0.001|TWO_SIDED|95.0|-38.33|-28.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.98|-38.33|<0.001
82622443|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.01|STANDARD_ERROR_OF_MEAN|2.67|<|0.001|TWO_SIDED|95.0|-45.27|-34.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.74|-45.27|<0.001
82622444|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.34|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-66.61|-52.07||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.07|-66.61|<0.001
82622445|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.74|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-65.56|-51.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.93|-65.56|<0.001
82622446|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.92|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-42.09|-27.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-27.75|-42.09|<0.001
82622447|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.64|STANDARD_ERROR_OF_MEAN|3.52|<|0.001|TWO_SIDED|95.0|-46.57|-32.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.71|-46.57|<0.001
82622448|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.86|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-59.66|-50.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.05|-59.66|<0.001
82622449|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.14|STANDARD_ERROR_OF_MEAN|2.29|<|0.001|TWO_SIDED|95.0|-60.66|-51.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.61|-60.66|<0.001
82622450|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.78|STANDARD_ERROR_OF_MEAN|3.01|<|0.001|TWO_SIDED|95.0|-56.72|-44.83||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.83|-56.72|<0.001
82622451|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.94|STANDARD_ERROR_OF_MEAN|3.12|<|0.001|TWO_SIDED|95.0|-61.11|-48.76||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.76|-61.11|<0.001
82622452|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.34|STANDARD_ERROR_OF_MEAN|2.33|<|0.001|TWO_SIDED|95.0|-59.94|-50.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.74|-59.94|<0.001
82622453|NCT01763866|164960722|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.87|STANDARD_ERROR_OF_MEAN|3.24|<|0.001|TWO_SIDED|95.0|-63.27|-50.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-50.46|-63.27|<0.001
82622454|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-58.79|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|-64.03|-53.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.55|-64.03|<0.001
82622455|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.36|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-53.2|-41.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.52|-53.20|<0.001
82622456|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.92|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|-40.23|-29.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.60|-40.23|<0.001
82622457|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.21|STANDARD_ERROR_OF_MEAN|2.97|<|0.001|TWO_SIDED|95.0|-42.06|-30.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.35|-42.06|<0.001
82492859|NCT03948581|164678612|EQUIVALENCE|Geometric LSMs were calculated by exponentiating the LSMs derived from ANCOVA with group, treatment, and injection site as fixed effects and weight as a continuous covariate. CIs were calculated using treatment standard errors from the ANCOVA model and t-statistic for error degrees of freedom.|Ratio of Geometric LSMs|1.0038|||||TWO_SIDED|90.0|0.9401|1.0719||||||||1.0719|0.9401|
82622458|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.4|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-69.27|-53.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-53.54|-69.27|<0.001
82622459|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.01|STANDARD_ERROR_OF_MEAN|3.93|<|0.001|TWO_SIDED|95.0|-60.77|-45.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-45.25|-60.77|<0.001
82622460|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.45|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-45.17|-29.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.74|-45.17|<0.001
82622461|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.31|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-42.15|-26.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.47|-42.15|<0.001
82622462|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.5|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|-61.6|-51.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.40|-61.60|<0.001
82622463|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-53.21|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-58.29|-48.13||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.13|-58.29|<0.001
82622464|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.52|STANDARD_ERROR_OF_MEAN|3.31|<|0.001|TWO_SIDED|95.0|-57.06|-43.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-43.99|-57.06|<0.001
82492860|NCT03068455|164678613|SUPERIORITY||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.78|1.04|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab|||1.04|0.78|
82622465|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.95|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-54.43|-39.47||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.47|-54.43|<0.001
82622466|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.3|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|-61.47|-51.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-51.14|-61.47|<0.001
82622467|NCT01763866|164960723|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.73|STANDARD_ERROR_OF_MEAN|3.38|<|0.001|TWO_SIDED|95.0|-59.4|-46.06||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-46.06|-59.40|<0.001
82622468|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.41|STANDARD_ERROR_OF_MEAN|2.16|<|0.001|TWO_SIDED|95.0|-50.66|-42.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.15|-50.66|<0.001
82622469|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.69|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-49.75|-39.63||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.63|-49.75|<0.001
82622470|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.06|STANDARD_ERROR_OF_MEAN|2.19|<|0.001|TWO_SIDED|95.0|-30.36|-21.75||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.75|-30.36|<0.001
82622471|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.59|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|-36.61|-26.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.57|-36.61|<0.001
82622472|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.48|STANDARD_ERROR_OF_MEAN|3.15|<|0.001|TWO_SIDED|95.0|-50.69|-38.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-38.27|-50.69|<0.001
82622473|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.85|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-52.48|-41.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.21|-52.48|<0.001
82622474|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.3|STANDARD_ERROR_OF_MEAN|3.09|<|0.001|TWO_SIDED|95.0|-34.39|-22.21||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-22.21|-34.39|<0.001
82622475|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.18|STANDARD_ERROR_OF_MEAN|2.88|<|0.001|TWO_SIDED|95.0|-33.86|-22.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-22.50|-33.86|<0.001
82622476|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.73|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-49.5|-39.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.97|-49.50|<0.001
82622477|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.01|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-52.46|-41.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.57|-52.46|<0.001
82622478|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.59|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-45.38|-35.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.79|-45.38|<0.001
82622479|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-40.33|STANDARD_ERROR_OF_MEAN|2.87|<|0.001|TWO_SIDED|95.0|-46.0|-34.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.66|-46.00|<0.001
82622480|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.05|STANDARD_ERROR_OF_MEAN|2.38|<|0.001|TWO_SIDED|95.0|-51.76|-42.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.35|-51.76|<0.001
82622481|NCT01763866|164960724|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.62|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-54.27|-42.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-42.98|-54.27|<0.001
82622482|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-46.83|STANDARD_ERROR_OF_MEAN|2.48|<|0.001|TWO_SIDED|95.0|-51.73|-41.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-41.94|-51.73|<0.001
82622483|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.86|STANDARD_ERROR_OF_MEAN|2.82|<|0.001|TWO_SIDED|95.0|-48.43|-37.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.30|-48.43|<0.001
82622484|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.6|STANDARD_ERROR_OF_MEAN|2.51|<|0.001|TWO_SIDED|95.0|-33.56|-23.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.65|-33.56|<0.001
82622485|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.22|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-35.74|-24.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.70|-35.74|<0.001
82622486|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.1|STANDARD_ERROR_OF_MEAN|3.33|<|0.001|TWO_SIDED|95.0|-51.66|-38.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-38.54|-51.66|<0.001
82622487|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-42.43|STANDARD_ERROR_OF_MEAN|3.34|<|0.001|TWO_SIDED|95.0|-49.01|-35.85||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.85|-49.01|<0.001
82622488|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-30.26|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED|95.0|-36.68|-23.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.84|-36.68|<0.001
82622489|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.19|STANDARD_ERROR_OF_MEAN|3.35|<|0.001|TWO_SIDED|95.0|-31.79|-18.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-18.59|-31.79|<0.001
82622490|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.25|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-48.77|-37.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-37.74|-48.77|<0.001
82622491|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-45.33|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-51.04|-39.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-39.61|-51.04|<0.001
82622492|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.13|STANDARD_ERROR_OF_MEAN|2.79|<|0.001|TWO_SIDED|95.0|-46.65|-35.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-35.61|-46.65|<0.001
82622493|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.99|STANDARD_ERROR_OF_MEAN|3.41|<|0.001|TWO_SIDED|95.0|-41.72|-28.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.25|-41.72|<0.001
82622494|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-47.04|STANDARD_ERROR_OF_MEAN|2.43|<|0.001|TWO_SIDED|95.0|-51.83|-42.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.25|-51.83|<0.001
82622495|NCT01763866|164960725|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-44.6|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|-50.67|-38.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-38.54|-50.67|<0.001
82492861|NCT03068455|164678614|SUPERIORITY||Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.75|1.14|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab|||1.14|0.75|
82492862|NCT03068455|164678615|SUPERIORITY||Hazard Ratio (HR)|1.03|||||TWO_SIDED|95.0|0.8|1.32|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.32|0.80|
82492863|NCT03068455|164678616|SUPERIORITY||Hazard Ratio (HR)|1.22|||||TWO_SIDED|95.0|0.85|1.73|||||Stratified Cox proportional hazard model. Hazard Ratio is Nivolumab + Ipilimumab over Nivolumab.|||1.73|0.85|
82492864|NCT03068455|164678617|SUPERIORITY|\< 1% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.91|||||TWO_SIDED|95.0|0.73|1.14|||||Unstratisfied HR, Nivolumab over Ipilimumab|||1.14|0.73|
82492865|NCT03068455|164678617|SUPERIORITY|\>= 1% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.95|||||TWO_SIDED|95.0|0.76|1.18|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.18|0.76|
82492866|NCT03068455|164678617|SUPERIORITY|\>= 5% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.98|||||TWO_SIDED|95.0|0.71|1.34|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.34|0.71|
82492867|NCT03068455|164678617|SUPERIORITY|\< 5% Tumor PD-L1 Expression|Hazard Ratio (HR)|0.92|||||TWO_SIDED|95.0|0.77|1.1|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.10|0.77|
82492868|NCT03068455|164678617|SUPERIORITY|Non-quantifiable Tumor PD-L1 Expression|Hazard Ratio (HR)|0.76|||||TWO_SIDED|95.0|0.38|1.51|||||Unstratisfied HR, Nivolumab over ipilimumab|||1.51|0.38|
82492869|NCT02498132|164678624|OTHER|A generalized estimating equation (GEE) model assuming a normal distribution, identity link function, and exchangeable correlation matrix was used to examine the interaction between time and treatment condition on BDI-II depressive symptoms adjusting for the main effects of baseline depressive symptoms, time, and treatment condition.|||||<|0.05|||||||Chi-squared|||||||<.05
82499473|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.826|STANDARD_ERROR_OF_MEAN|0.181||||90.0|-1.123|-0.528|||ANCOVA|||Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.528|-1.123|
82499474|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.61|STANDARD_ERROR_OF_MEAN|0.19||||90.0|-0.923|-0.296|||ANCOVA|||Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.296|-0.923|
82499475|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.577|STANDARD_ERROR_OF_MEAN|0.202||||90.0|-0.91|-0.245|||ANCOVA|||Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.245|-0.910|
82499476|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.613|STANDARD_ERROR_OF_MEAN|0.212||||90.0|-0.962|-0.263|||ANCOVA|||Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.263|-0.962|
82622496|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.97|STANDARD_ERROR_OF_MEAN|2.51|<|0.001|TWO_SIDED|95.0|-64.91|-55.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.03|-64.91|<0.001
82622497|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.11|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-59.57|-48.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.64|-59.57|<0.001
82622498|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.79|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|-42.8|-32.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.77|-42.80|<0.001
82622499|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-41.86|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-47.34|-36.67||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.67|-47.34|<0.001
82622500|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.9|STANDARD_ERROR_OF_MEAN|3.71|<|0.001|TWO_SIDED|95.0|-64.22|-49.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.59|-64.22|<0.001
82622501|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-61.99|STANDARD_ERROR_OF_MEAN|3.39|<|0.001|TWO_SIDED|95.0|-68.68|-55.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-55.29|-68.68|<0.001
82622502|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.26|STANDARD_ERROR_OF_MEAN|3.66|<|0.001|TWO_SIDED|95.0|-44.48|-30.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.04|-44.48|<0.001
82622503|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-43.29|STANDARD_ERROR_OF_MEAN|3.44|<|0.001|TWO_SIDED|95.0|-50.07|-36.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-36.51|-50.07|<0.001
82622504|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-55.29|STANDARD_ERROR_OF_MEAN|2.78|<|0.001|TWO_SIDED|95.0|-60.79|-49.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.79|-60.79|<0.001
82622505|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-59.24|STANDARD_ERROR_OF_MEAN|2.49|<|0.001|TWO_SIDED|95.0|-64.16|-54.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.32|-64.16|<0.001
82622506|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-50.63|STANDARD_ERROR_OF_MEAN|3.13|<|0.001|TWO_SIDED|95.0|-56.82|-44.45||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-44.45|-56.82|<0.001
82622507|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.78|STANDARD_ERROR_OF_MEAN|3.61|<|0.001|TWO_SIDED|95.0|-63.91|-49.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.64|-63.91|<0.001
82622508|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.75|STANDARD_ERROR_OF_MEAN|2.41|<|0.001|TWO_SIDED|95.0|-62.51|-52.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.99|-62.51|<0.001
82622509|NCT01763866|164960726|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.06|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-61.85|-50.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-50.27|-61.85|<0.001
82622510|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-60.29|STANDARD_ERROR_OF_MEAN|2.71|<|0.001|TWO_SIDED|95.0|-65.65|-54.94||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-54.94|-65.65|<0.001
82622511|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.44|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-54.23|-42.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.65|-54.23|<0.001
82622512|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.66|STANDARD_ERROR_OF_MEAN|2.75|<|0.001|TWO_SIDED|95.0|-45.09|-34.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-34.23|-45.09|<0.001
82622513|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.32|STANDARD_ERROR_OF_MEAN|2.94|<|0.001|TWO_SIDED|95.0|-43.12|-31.52||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-31.52|-43.12|<0.001
82622514|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.77|STANDARD_ERROR_OF_MEAN|3.95|<|0.001|TWO_SIDED|95.0|-65.55|-49.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.99|-65.55|<0.001
82622515|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.26|STANDARD_ERROR_OF_MEAN|3.88|<|0.001|TWO_SIDED|95.0|-64.91|-49.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-49.60|-64.91|<0.001
82622516|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-39.9|STANDARD_ERROR_OF_MEAN|3.87|<|0.001|TWO_SIDED|95.0|-47.53|-32.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-32.26|-47.53|<0.001
82622517|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-38.57|STANDARD_ERROR_OF_MEAN|3.9|<|0.001|TWO_SIDED|95.0|-46.26|-30.88||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-30.88|-46.26|<0.001
82622518|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-54.41|STANDARD_ERROR_OF_MEAN|2.83|<|0.001|TWO_SIDED|95.0|-59.99|-48.82||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-48.82|-59.99|<0.001
82622519|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-56.13|STANDARD_ERROR_OF_MEAN|2.76|<|0.001|TWO_SIDED|95.0|-61.58|-50.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-50.68|-61.58|<0.001
82622520|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-49.17|STANDARD_ERROR_OF_MEAN|3.36|<|0.001|TWO_SIDED|95.0|-55.8|-42.53||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-42.53|-55.80|<0.001
82622521|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-48.81|STANDARD_ERROR_OF_MEAN|4.25|<|0.001|TWO_SIDED|95.0|-57.21|-40.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-40.40|-57.21|<0.001
82622522|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-57.73|STANDARD_ERROR_OF_MEAN|2.57|<|0.001|TWO_SIDED|95.0|-62.82|-52.65||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-52.65|-62.82|<0.001
82622523|NCT01763866|164960727|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-52.04|STANDARD_ERROR_OF_MEAN|3.07|<|0.001|TWO_SIDED|95.0|-58.1|-45.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-45.98|-58.10|<0.001
82622524|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|82.4|||<|0.001|TWO_SIDED|95.0|70.2|88.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||88.5|70.2|<0.001
82622525|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.3|||<|0.001|TWO_SIDED|95.0|67.9|86.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||86.8|67.9|<0.001
82622526|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|68.1|||<|0.001|TWO_SIDED|95.0|53.1|78.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||78.1|53.1|<0.001
82622527|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|69.2|||<|0.001|TWO_SIDED|95.0|54.8|78.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||78.5|54.8|<0.001
82622528|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.7|||<|0.001|TWO_SIDED|95.0|67.3|88.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||88.3|67.3|<0.001
82622529|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|83.3|||<|0.001|TWO_SIDED|95.0|70.7|89.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||89.6|70.7|<0.001
82622530|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|43.5|||<|0.001|TWO_SIDED|95.0|29.5|56.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||56.7|29.5|<0.001
82622531|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|30.3|||<|0.001|TWO_SIDED|95.0|16.7|44.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||44.2|16.7|<0.001
82622532|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.7|||<|0.001|TWO_SIDED|95.0|69.5|88.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||88.0|69.5|<0.001
82622533|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|84.6|||<|0.001|TWO_SIDED|95.0|73.1|90.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||90.2|73.1|<0.001
82622534|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|54.6|||<|0.001|TWO_SIDED|95.0|39.8|66.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||66.9|39.8|<0.001
82622535|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|65.7|||<|0.001|TWO_SIDED|95.0|51.0|76.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||76.6|51.0|<0.001
82622536|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|91.7|||<|0.001|TWO_SIDED|95.0|81.6|95.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||95.3|81.6|<0.001
82622537|NCT01763866|164960728|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|84.6|||<|0.001|TWO_SIDED|95.0|72.8|90.0||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||90.0|72.8|<0.001
82622538|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|83.5|||<|0.001|TWO_SIDED|95.0|71.9|89.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||89.2|71.9|<0.001
82622539|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|78.3|||<|0.001|TWO_SIDED|95.0|65.2|85.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||85.3|65.2|<0.001
82622540|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|63.0|||<|0.001|TWO_SIDED|95.0|47.3|73.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||73.9|47.3|<0.001
82622541|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.9|||<|0.001|TWO_SIDED|95.0|49.8|75.2||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||75.2|49.8|<0.001
82622542|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|80.1|||<|0.001|TWO_SIDED|95.0|65.8|87.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||87.9|65.8|<0.001
82622543|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.2|||<|0.001|TWO_SIDED|95.0|67.9|88.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage)||||88.1|67.9|<0.001
82622544|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|41.1|||<|0.001|TWO_SIDED|95.0|26.4|55.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||55.1|26.4|<0.001
82622545|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|35.2|||<|0.001|TWO_SIDED|95.0|20.7|49.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||49.3|20.7|<0.001
82622546|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|77.3|||<|0.001|TWO_SIDED|95.0|63.9|84.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||84.7|63.9|<0.001
82622547|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|81.1|||<|0.001|TWO_SIDED|95.0|68.8|87.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||87.5|68.8|<0.001
82622548|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|52.7|||<|0.001|TWO_SIDED|95.0|37.6|65.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||65.3|37.6|<0.001
82622549|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|64.3|||<|0.001|TWO_SIDED|95.0|49.1|75.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||75.5|49.1|<0.001
82622550|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|92.5|||<|0.001|TWO_SIDED|95.0|82.3|95.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||95.9|82.3|<0.001
82622551|NCT01763866|164960729|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|78.4|||<|0.001|TWO_SIDED|95.0|64.9|85.4||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Cochran-Mantel-Haenszel|Based on Cochran-Mantel Haenszel test stratified by the stratification factors (entry statin therapy and simvastatin contraindicated therapy usage).||||85.4|64.9|<0.001
82622552|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.08|STANDARD_ERROR_OF_MEAN|3.54|<|0.001|TWO_SIDED|95.0|-39.06|-25.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.11|-39.06|<0.001
82622553|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.86|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-29.7|-14.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.03|-29.70|<0.001
82622554|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.45|STANDARD_ERROR_OF_MEAN|3.59|<|0.001|TWO_SIDED|95.0|-34.53|-20.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-20.38|-34.53|<0.001
82622555|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.49|STANDARD_ERROR_OF_MEAN|3.99|<|0.001|TWO_SIDED|95.0|-37.36|-21.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.62|-37.36|<0.001
82622556|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.52|STANDARD_ERROR_OF_MEAN|3.65|<|0.001|TWO_SIDED|95.0|-27.71|-13.33||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.33|-27.71|<0.001
82498988|NCT02289417|164688936|SUPERIORITY||Stratified Difference|16.6||||0.0758|TWO_SIDED|95.0|-1.5|33.3|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||33.3|-1.5|0.0758
82622557|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.96|STANDARD_ERROR_OF_MEAN|4.08|<|0.001|TWO_SIDED|95.0|-37.01|-20.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-20.92|-37.01|<0.001
82622558|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.02|STANDARD_ERROR_OF_MEAN|3.6|<|0.001|TWO_SIDED|95.0|-39.11|-24.93||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.93|-39.11|<0.001
82622559|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-37.42|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-45.61|-29.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.23|-45.61|<0.001
82622560|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-35.66|STANDARD_ERROR_OF_MEAN|3.69|<|0.001|TWO_SIDED|95.0|-42.94|-28.38||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.38|-42.94|<0.001
82622561|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.81|STANDARD_ERROR_OF_MEAN|4.33|<|0.001|TWO_SIDED|95.0|-35.36|-18.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-18.27|-35.36|<0.001
82622562|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.56|STANDARD_ERROR_OF_MEAN|3.64|<|0.001|TWO_SIDED|95.0|-40.74|-26.37||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.37|-40.74|<0.001
82622563|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.19|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-40.8|-23.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-23.58|-40.80|<0.001
82622564|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.07|STANDARD_ERROR_OF_MEAN|3.46|<|0.001|TWO_SIDED|95.0|-34.91|-21.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.23|-34.91|<0.001
82622565|NCT01763866|164960730|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.16|STANDARD_ERROR_OF_MEAN|3.76|<|0.001|TWO_SIDED|95.0|-34.59|-19.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-19.73|-34.59|<0.001
82622566|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-33.2|STANDARD_ERROR_OF_MEAN|3.86|<|0.001|TWO_SIDED|95.0|-40.81|-25.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-25.60|-40.81|<0.001
82622567|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.82|STANDARD_ERROR_OF_MEAN|4.11|<|0.001|TWO_SIDED|95.0|-27.92|-11.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.72|-27.92|<0.001
82622568|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.16|STANDARD_ERROR_OF_MEAN|3.91|<|0.001|TWO_SIDED|95.0|-36.87|-21.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.44|-36.87|<0.001
82622569|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.44|STANDARD_ERROR_OF_MEAN|4.12|<|0.001|TWO_SIDED|95.0|-35.56|-19.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-19.32|-35.56|<0.001
82622570|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.38|STANDARD_ERROR_OF_MEAN|4.07|<|0.001|TWO_SIDED|95.0|-30.39|-14.36||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.36|-30.39|<0.001
82622571|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.1|STANDARD_ERROR_OF_MEAN|4.32|<|0.001|TWO_SIDED|95.0|-36.62|-19.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-19.58|-36.62|<0.001
82622572|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.62|STANDARD_ERROR_OF_MEAN|3.98|<|0.001|TWO_SIDED|95.0|-40.46|-24.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.78|-40.46|<0.001
82622573|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-34.88|STANDARD_ERROR_OF_MEAN|4.38|<|0.001|TWO_SIDED|95.0|-43.52|-26.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-26.25|-43.52|<0.001
82622574|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.5|STANDARD_ERROR_OF_MEAN|4.15|<|0.001|TWO_SIDED|95.0|-44.69|-28.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-28.30|-44.69|<0.001
82622575|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.34|STANDARD_ERROR_OF_MEAN|4.48|<|0.001|TWO_SIDED|95.0|-34.19|-16.49||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-16.49|-34.19|<0.001
82622576|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.48|STANDARD_ERROR_OF_MEAN|3.78|<|0.001|TWO_SIDED|95.0|-43.95|-29.02||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-29.02|-43.95|<0.001
82622577|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.17|STANDARD_ERROR_OF_MEAN|5.28|<|0.001|TWO_SIDED|95.0|-42.61|-21.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-21.74|-42.61|<0.001
82622578|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.25|STANDARD_ERROR_OF_MEAN|3.62|<|0.001|TWO_SIDED|95.0|-38.4|-24.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-24.10|-38.40|<0.001
82622579|NCT01763866|164960731|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-28.17|STANDARD_ERROR_OF_MEAN|4.36|<|0.001|TWO_SIDED|95.0|-36.79|-19.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-19.55|-36.79|<0.001
82622580|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-12.1|STANDARD_ERROR_OF_MEAN|4.83||0.2|TWO_SIDED|95.0|-21.63|-2.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-2.58|-21.63|0.20
82622581|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.55|STANDARD_ERROR_OF_MEAN|5.36||0.003|TWO_SIDED|95.0|-33.13|-11.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.97|-33.13|0.003
82622582|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.45|STANDARD_ERROR_OF_MEAN|4.89||1|TWO_SIDED|95.0|-12.09|7.19||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.19|-12.09|1.00
82622583|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.95|STANDARD_ERROR_OF_MEAN|5.33||0.053|TWO_SIDED|95.0|-25.46|-4.44||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.44|-25.46|0.053
82622584|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.43|STANDARD_ERROR_OF_MEAN|4.89||0.073|TWO_SIDED|95.0|-25.06|-5.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.79|-25.06|0.073
82622585|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.41|STANDARD_ERROR_OF_MEAN|5.32||0.027|TWO_SIDED|95.0|-24.9|-3.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-3.92|-24.90|0.027
82622586|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.17|STANDARD_ERROR_OF_MEAN|4.8||1|TWO_SIDED|95.0|-10.63|8.3||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.30|-10.63|1.00
82622587|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.51|STANDARD_ERROR_OF_MEAN|5.38||0.63|TWO_SIDED|95.0|-12.12|9.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.11|-12.12|0.63
82622588|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.72|STANDARD_ERROR_OF_MEAN|5.15|<|0.001|TWO_SIDED|95.0|-32.9|-12.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-12.54|-32.90|<0.001
82622589|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.52|STANDARD_ERROR_OF_MEAN|5.69||0.007|TWO_SIDED|95.0|-30.76|-8.28||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.28|-30.76|0.007
82499477|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.385|STANDARD_ERROR_OF_MEAN|0.213||||90.0|-0.736|-0.034|||ANCOVA|||Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.034|-0.736|
82498989|NCT02289417|164688936|SUPERIORITY||Stratified Difference|32.5||||0.0004|TWO_SIDED|95.0|14.9|47.5|||Cochran-Mantel-Haenszel|Stratification was based on baseline use of PO corticosteroids and previously used immunosuppressants (yes/no).|Stratified difference in percentages is the weighted average of the treatment differences across the strata with the CMH weights, with 2-sided 95% CI based on the stratified Newcombe method.|||47.5|14.9|0.0004
82498990|NCT02725710|164688941|OTHER|||||||0.56|||||||Regression, Linear|||||||0.56
82622590|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-17.59|STANDARD_ERROR_OF_MEAN|4.62||0.002|TWO_SIDED|95.0|-26.71|-8.46||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.46|-26.71|0.002
82622591|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.18|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-35.76|-16.59||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-16.59|-35.76|<0.001
82622592|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.97|STANDARD_ERROR_OF_MEAN|5.78|<|0.001|TWO_SIDED|95.0|-32.38|-9.55||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.55|-32.38|<0.001
82622593|NCT01763866|164960732|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-29.71|STANDARD_ERROR_OF_MEAN|5.64|<|0.001|TWO_SIDED|95.0|-40.84|-18.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-18.57|-40.84|<0.001
82622594|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-12.06|STANDARD_ERROR_OF_MEAN|6.41||0.2|TWO_SIDED|95.0|-24.69|0.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||0.57|-24.69|0.20
82622595|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-27.6|STANDARD_ERROR_OF_MEAN|7.23||0.003|TWO_SIDED|95.0|-41.86|-13.35||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.35|-41.86|0.003
82622596|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-3.37|STANDARD_ERROR_OF_MEAN|6.49||1|TWO_SIDED|95.0|-16.16|9.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.43|-16.16|1.00
82622597|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.13|STANDARD_ERROR_OF_MEAN|7.18||0.053|TWO_SIDED|95.0|-32.28|-3.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-3.99|-32.28|0.053
82622598|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.72|STANDARD_ERROR_OF_MEAN|5.39||0.073|TWO_SIDED|95.0|-27.34|-6.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-6.10|-27.34|0.073
82622599|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-9.31|STANDARD_ERROR_OF_MEAN|6.39||0.027|TWO_SIDED|95.0|-21.92|3.29||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||3.29|-21.92|0.027
82622600|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-2.67|STANDARD_ERROR_OF_MEAN|5.27||1|TWO_SIDED|95.0|-13.05|7.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.72|-13.05|1.00
82622601|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|2.02|STANDARD_ERROR_OF_MEAN|6.43||0.63|TWO_SIDED|95.0|-10.66|14.69||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||14.69|-10.66|0.63
82622602|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.03|STANDARD_ERROR_OF_MEAN|7.08|<|0.001|TWO_SIDED|95.0|-32.03|-4.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.04|-32.03|<0.001
82622603|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.83|STANDARD_ERROR_OF_MEAN|6.52||0.007|TWO_SIDED|95.0|-32.71|-6.96||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-6.96|-32.71|0.007
82622604|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.55|STANDARD_ERROR_OF_MEAN|5.71||0.002|TWO_SIDED|95.0|-27.84|-5.26||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.26|-27.84|0.002
82622605|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-20.51|STANDARD_ERROR_OF_MEAN|5.33|<|0.001|TWO_SIDED|95.0|-31.04|-9.98||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.98|-31.04|<0.001
82622606|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.78|STANDARD_ERROR_OF_MEAN|5.62|<|0.001|TWO_SIDED|95.0|-32.88|-10.68||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-10.68|-32.88|<0.001
82622607|NCT01763866|164960733|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-31.36|STANDARD_ERROR_OF_MEAN|6.45|<|0.001|TWO_SIDED|95.0|-44.1|-18.62||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-18.62|-44.10|<0.001
82622608|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-13.36|STANDARD_ERROR_OF_MEAN|4.38||0.088|TWO_SIDED|95.0|-21.99|-4.74||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.74|-21.99|0.088
82622609|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.31|STANDARD_ERROR_OF_MEAN|5.41||0.005|TWO_SIDED|95.0|-31.98|-10.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-10.64|-31.98|0.005
82622610|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.5|STANDARD_ERROR_OF_MEAN|4.45||1|TWO_SIDED|95.0|-10.27|7.27||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.27|-10.27|1.00
82622611|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-13.54|STANDARD_ERROR_OF_MEAN|5.39||0.056|TWO_SIDED|95.0|-24.17|-2.91||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-2.91|-24.17|0.056
82622612|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.21|STANDARD_ERROR_OF_MEAN|4.91||0.073|TWO_SIDED|95.0|-24.88|-5.54||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.54|-24.88|0.073
82622613|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.69|STANDARD_ERROR_OF_MEAN|5.21||0.027|TWO_SIDED|95.0|-24.97|-4.42||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.42|-24.97|0.027
82622614|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.44|STANDARD_ERROR_OF_MEAN|4.82||1|TWO_SIDED|95.0|-9.94|9.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.05|-9.94|1.00
82622615|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-0.25|STANDARD_ERROR_OF_MEAN|5.28||0.62|TWO_SIDED|95.0|-10.66|10.16||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.16|-10.66|0.62
82622616|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-25.07|STANDARD_ERROR_OF_MEAN|4.85|<|0.001|TWO_SIDED|95.0|-34.64|-15.5||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-15.50|-34.64|<0.001
82622617|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-19.79|STANDARD_ERROR_OF_MEAN|5.58||0.007|TWO_SIDED|95.0|-30.81|-8.77||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.77|-30.81|0.007
82622618|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.15|STANDARD_ERROR_OF_MEAN|4.61||0.005|TWO_SIDED|95.0|-25.27|-7.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-7.03|-25.27|0.005
82622619|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.18|STANDARD_ERROR_OF_MEAN|4.52|<|0.001|TWO_SIDED|95.0|-32.11|-14.25||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-14.25|-32.11|<0.001
82622620|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-23.21|STANDARD_ERROR_OF_MEAN|4.95|<|0.001|TWO_SIDED|95.0|-33.0|-13.43||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-13.43|-33.00|<0.001
82622621|NCT01763866|164960734|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-32.87|STANDARD_ERROR_OF_MEAN|5.43|<|0.001|TWO_SIDED|95.0|-43.6|-22.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-22.14|-43.60|<0.001
82498991|NCT04786990|164688955|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82498992|NCT04786990|164688955|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82622622|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-14.47|STANDARD_ERROR_OF_MEAN|4.92||0.088|TWO_SIDED|95.0|-24.16|-4.78||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.78|-24.16|0.088
82622623|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-26.47|STANDARD_ERROR_OF_MEAN|7.22||0.005|TWO_SIDED|95.0|-40.71|-12.24||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-12.24|-40.71|0.005
82622624|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.54|STANDARD_ERROR_OF_MEAN|5.0||1|TWO_SIDED|95.0|-11.41|8.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.32|-11.41|1.00
82622625|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-15.19|STANDARD_ERROR_OF_MEAN|7.21||0.056|TWO_SIDED|95.0|-29.4|-0.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-0.97|-29.40|0.056
82622626|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.42|STANDARD_ERROR_OF_MEAN|5.39||0.073|TWO_SIDED|95.0|-27.05|-5.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.80|-27.05|0.073
82622627|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-9.6|STANDARD_ERROR_OF_MEAN|6.13||0.027|TWO_SIDED|95.0|-21.68|2.48||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||2.48|-21.68|0.027
82622628|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-1.78|STANDARD_ERROR_OF_MEAN|5.27||1|TWO_SIDED|95.0|-12.16|8.61||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.61|-12.16|1.00
82622629|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.94|STANDARD_ERROR_OF_MEAN|6.18||0.62|TWO_SIDED|95.0|-7.25|17.14||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||17.14|-7.25|0.62
82622630|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-21.98|STANDARD_ERROR_OF_MEAN|6.2|<|0.001|TWO_SIDED|95.0|-34.24|-9.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-9.73|-34.24|<0.001
82622631|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.75|STANDARD_ERROR_OF_MEAN|6.5||0.007|TWO_SIDED|95.0|-31.6|-5.9||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-5.90|-31.60|0.007
82622632|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-16.19|STANDARD_ERROR_OF_MEAN|5.7||0.005|TWO_SIDED|95.0|-27.46|-4.92||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-4.92|-27.46|0.005
82622633|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-18.54|STANDARD_ERROR_OF_MEAN|5.31|<|0.001|TWO_SIDED|95.0|-29.04|-8.05||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-8.05|-29.04|<0.001
82622634|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-22.45|STANDARD_ERROR_OF_MEAN|5.39|<|0.001|TWO_SIDED|95.0|-33.09|-11.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||-11.81|-33.09|<0.001
82622635|NCT01763866|164960735|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|-36.83|STANDARD_ERROR_OF_MEAN|6.14|<|0.001|TWO_SIDED|95.0|-48.96|-24.7||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||-24.70|-48.96|<0.001
82622636|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.53|STANDARD_ERROR_OF_MEAN|1.84||0.034|TWO_SIDED|95.0|2.91|10.15||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.15|2.91|0.034
82622637|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.11|STANDARD_ERROR_OF_MEAN|2.37||0.017|TWO_SIDED|95.0|3.43|12.79||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.79|3.43|0.017
82622638|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.67|STANDARD_ERROR_OF_MEAN|1.86||0.001|TWO_SIDED|95.0|3.0|10.34||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.34|3.00|0.001
82622639|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.57|STANDARD_ERROR_OF_MEAN|2.36||0.006|TWO_SIDED|95.0|3.93|13.22||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.22|3.93|0.006
82622640|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.95|STANDARD_ERROR_OF_MEAN|2.1||0.85|TWO_SIDED|95.0|-0.19|8.09||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.09|-0.19|0.85
82622641|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.13|STANDARD_ERROR_OF_MEAN|2.26|<|0.001|TWO_SIDED|95.0|4.68|13.58||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.58|4.68|<0.001
82622642|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.57|STANDARD_ERROR_OF_MEAN|2.06||0.003|TWO_SIDED|95.0|3.51|11.64||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.64|3.51|0.003
82622643|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.35|STANDARD_ERROR_OF_MEAN|2.28||0.003|TWO_SIDED|95.0|3.86|12.84||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.84|3.86|0.003
82622644|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.36|STANDARD_ERROR_OF_MEAN|1.87|<|0.001|TWO_SIDED|95.0|1.68|9.04||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.04|1.68|<0.001
82622645|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.66|STANDARD_ERROR_OF_MEAN|3.11||0.01|TWO_SIDED|95.0|2.51|14.8||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||14.80|2.51|0.010
82622646|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.46|STANDARD_ERROR_OF_MEAN|1.91||0.013|TWO_SIDED|95.0|1.69|9.23||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.23|1.69|0.013
82622647|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.75|STANDARD_ERROR_OF_MEAN|2.2||0.002|TWO_SIDED|95.0|2.4|11.1||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.10|2.40|0.002
82622648|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|10.23|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|5.13|15.32||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||15.32|5.13|<0.001
82622649|NCT01763866|164960736|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.85|STANDARD_ERROR_OF_MEAN|2.09|<|0.001|TWO_SIDED|95.0|4.73|12.97||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||12.97|4.73|<0.001
82622650|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|6.83|STANDARD_ERROR_OF_MEAN|2.11||0.034|TWO_SIDED|95.0|2.66|10.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||10.99|2.66|0.034
82622651|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.87|STANDARD_ERROR_OF_MEAN|2.46||0.017|TWO_SIDED|95.0|3.01|12.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.73|3.01|0.017
82622652|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.81|STANDARD_ERROR_OF_MEAN|2.14||0.001|TWO_SIDED|95.0|4.58|13.03||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.03|4.58|0.001
82622653|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.28|STANDARD_ERROR_OF_MEAN|2.45||0.006|TWO_SIDED|95.0|3.46|13.11||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.11|3.46|0.006
82498993|NCT04786990|164688956|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82498994|NCT04786990|164688956|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82498995|NCT04786990|164688958|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82622654|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.07|STANDARD_ERROR_OF_MEAN|2.28||0.85|TWO_SIDED|95.0|-0.42|8.57||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||8.57|-0.42|0.85
82622655|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.05|STANDARD_ERROR_OF_MEAN|2.45|<|0.001|TWO_SIDED|95.0|2.22|11.89||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.89|2.22|<0.001
82622656|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|8.47|STANDARD_ERROR_OF_MEAN|2.23||0.003|TWO_SIDED|95.0|4.07|12.87||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||12.87|4.07|0.003
82622657|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.14|STANDARD_ERROR_OF_MEAN|2.46||0.003|TWO_SIDED|95.0|2.29|11.99||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||11.99|2.29|0.003
82622658|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|3.2|STANDARD_ERROR_OF_MEAN|2.3|<|0.001|TWO_SIDED|95.0|-1.33|7.73||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||7.73|-1.33|<0.001
82622659|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|7.35|STANDARD_ERROR_OF_MEAN|3.23||0.01|TWO_SIDED|95.0|0.97|13.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||13.72|0.97|0.010
82622660|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|5.04|STANDARD_ERROR_OF_MEAN|2.29||0.013|TWO_SIDED|95.0|0.52|9.56||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.56|0.52|0.013
82622661|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|4.84|STANDARD_ERROR_OF_MEAN|2.41||0.002|TWO_SIDED|95.0|0.07|9.6||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||9.60|0.07|0.002
82622662|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.78|STANDARD_ERROR_OF_MEAN|2.9|<|0.001|TWO_SIDED|95.0|4.05|15.51||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit.||||15.51|4.05|<0.001
82622663|NCT01763866|164960737|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Treatment Difference|9.06|STANDARD_ERROR_OF_MEAN|2.36|<|0.001|TWO_SIDED|95.0|4.4|13.72||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|Repeated measures linear effects model|The model included treatment group, stratification factors, scheduled visit and the interaction of treatment with scheduled visit||||13.72|4.40|<0.001
82622664|NCT02678312|164960812|SUPERIORITY||Cox Proportional Hazard|1.0655||||0.7958|TWO_SIDED|95.0|0.6589|1.7232||The adjusted hazard ratio and the p-values are based on a Cox proportional hazard model, stratified by modified age group with treatment and NYHA/ROSS class group included as factor.|Cox Proportional Hazard|||||1.7232|0.6589|0.7958
82622665|NCT00640146|164960832|OTHER|||||||0.0213|||||||Fisher Exact|||Analysis was performed using Fisher exact test comparing the percentage of participants with a laxation response within 2 hours of the first dose of study drug, testing MNTX against placebo.||||0.0213
82622666|NCT00640146|164960833|OTHER|||||||0.0463|||||||Fisher Exact|||Analysis was performed using Fisher exact test comparing the percentage of participants with a laxation response within 4 hours of the first dose of study drug, testing MNTX against placebo.||||0.0463
82622667|NCT00698035|164960850|SUPERIORITY_OR_OTHER||||||>|0.05||||||Significant at p\<0.05|t-test, 2 sided|||Comparison of baseline estradiol between LC/MS and RIA||||>0.05
82622668|NCT00698035|164960850|SUPERIORITY_OR_OTHER||||||>|0.05||||||singificant at p\<0.05|t-test, 2 sided|||Comparison of week 4 estradiol between LC/MS and RIA||||>0.05
82622669|NCT00698035|164960853|SUPERIORITY_OR_OTHER|||||||0.021||||||Significant at p\<0.05|t-test, 2 sided|||Change in SI from BL to W12||||0.021
82622670|NCT00698035|164960853|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Change in SD from BL to W12||||<0.001
82622671|NCT00698035|164960853|SUPERIORITY_OR_OTHER|||||||0.0228||||||Significant at p\<0.05|t-test, 2 sided|||Change in SI from BL to W12||||0.0228
82622672|NCT00698035|164960853|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Change in SD from BL to W12||||<0.001
82622673|NCT00698035|164960854|SUPERIORITY_OR_OTHER|||||||0.004||||||Significant at p\<0.05|t-test, 2 sided|||Change in SS from Baseline to Week 12||||0.004
82622674|NCT00698035|164960854|SUPERIORITY_OR_OTHER|||||||0.139||||||Significant at p\<0.05|t-test, 2 sided|||Change in SS from Baseline to Week 12||||0.139
82622675|NCT00698035|164960855|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Differences in rugae, pallor, petechiae, mucosal thinning and dryness between baseline and week 12||||<0.001
82622676|NCT00698035|164960855|SUPERIORITY_OR_OTHER||||||<|0.001||||||Significant at p\<0.05|t-test, 2 sided|||Differences in rugae, pallor, mucosal thinning, and dryness from baseline to 12 weeks||||<0.001
82622677|NCT00698035|164960855|SUPERIORITY_OR_OTHER|||||||0.0061||||||Significant at p\<0.05|t-test, 2 sided|||Difference in petechiae between baseline and week 12||||0.0061
82498996|NCT04786990|164688958|OTHER|||||||0.0002||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0002
82498997|NCT04786990|164688959|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82498998|NCT04786990|164688959|OTHER||||||<|0.0001||||||The p-value generated for the comparison between time points for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed. There is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82498999|NCT04786990|164688960|OTHER|||||||0.0685||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0685
82622678|NCT04295356|164960859|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of Cmax was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|102.6|||||TWO_SIDED|90.0|94.08|111.9|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in Cmax between CT-P17 AI and CT-P17 PFS||111.90|94.08|
82499000|NCT04786990|164688960|OTHER|||||||0.2575||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 8||||0.2575
82622679|NCT04295356|164960860|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of AUC0-inf was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|103.64|||||TWO_SIDED|90.0|93.98|114.29|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in AUC0-inf between CT-P17 AI and CT-P17 PFS||114.29|93.98|
82622680|NCT04295356|164960861|EQUIVALENCE|The 90% confidence interval of the ratio of geometric least squares means of AUC0-last was estimated to assess the PK similarity between CT-P17 AI and CT-P17 PFS (bioequivalence margin of 80% to 125%).|Ratio of geometric least squares means|105.36|||||TWO_SIDED|90.0|91.09|121.86|||ANCOVA|The stratification factors (gender \[male or female\], study center, and body weight as measured on Day -1) were included in ANCOVA model as covariates.||Equivalence test in AUC0-last between CT-P17 AI and CT-P17 PFS||121.86|91.09|
82622681|NCT03807245|164960872|OTHER||||||<|0.0001|||||||ANOVA|||Adjusted geometric mean fold increase from Day 1 to Day 85: adjusted geometric mean ratio GBS-NN/NN2 25mcg/placebo||||<0.0001
82622682|NCT03807245|164960872|OTHER||||||<|0.0001|||||||ANOVA|||Adjusted geometric mean fold increase from Day 1 to Day 85: adjusted geometric mean ratio GBS-NN/NN2 50mcg/placebo||||<0.0001
82622683|NCT04904614|164960896|SUPERIORITY|||||||0.02|||||||Fisher Exact|||||||0.02
82622684|NCT04904614|164960897|SUPERIORITY|||||||0.13|||||||Chi-squared|||||||0.13
82622685|NCT04904614|164960898|SUPERIORITY|||||||0.6|||||||Fisher Exact|||||||0.6
82622686|NCT04904614|164960900|SUPERIORITY|||||||0.97|||||||Chi-squared|||||||0.97
82622687|NCT03783442|164960902|SUPERIORITY||Stratified Hazard Ratio|0.66|||<|0.0001|TWO_SIDED|95.0|0.54|0.8|||Stratified Log-rank Test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.80|0.54|<0.0001
82622688|NCT03783442|164960903|SUPERIORITY||Stratified Hazard Ratio|0.62|||<|0.0001|TWO_SIDED|95.0|0.52|0.75|||Stratified Log-rank test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice.|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.75|0.52|<0.0001
82622689|NCT03783442|164960904|SUPERIORITY||Odds Ratio (OR)|2.38|||<|0.0001|TWO_SIDED|95.0|1.73|3.27|||Cochran-Mantel-Haenszel|Two-sided Cochran-Mantel-Haenszel test was stratified by pooled geographic region, prior definitive therapy, and Investigator choice of chemotherapy.|Odds ratio was calculated using the Cochran-Mantel-Haenszel method, stratified by pooled geographic region, prior definitive therapy, and Investigator choice of chemotherapy.|||3.27|1.73|<0.0001
82622690|NCT03783442|164960905|SUPERIORITY||Stratified Hazard Ratio|0.62||||0.0029|TWO_SIDED|95.0|0.44|0.87|||Stratified Log-rank test|One-sided p-value estimated from log rank test stratified by pooled geographic region, prior definitive therapy and Investigator chemotherapy choice.|Stratified Hazard ratio was based on Cox regression model including treatment arm as a covariate and stratified by pooled geographic region (Asia vs. Rest of World), prior definitive therapy and Investigator choice of chemotherapy as strata.|||0.87|0.44|0.0029
82622691|NCT03783442|164960907|SUPERIORITY||Least Squares (LS) Mean Difference|4.4||||0.1372|TWO_SIDED|95.0|-1.4|10.3|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Dysphagia Score at Cycle 6||10.3|-1.4|0.1372
82622692|NCT03783442|164960907|SUPERIORITY||LS Mean Difference|0.6||||0.713|TWO_SIDED|95.0|-2.5|3.7|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Eating Score at Cycle 6||3.7|-2.5|0.7130
82622693|NCT03783442|164960907|SUPERIORITY||LS Mean Difference|-1.4||||0.3001|TWO_SIDED|95.0|-4.1|1.3|||Mixed Models Analysis|Two-sided p-value estimated from a mixed effect model|Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Reflux Score at Cycle 6||1.3|-4.1|0.3001
82622694|NCT03783442|164960907|OTHER||LS Mean Difference|-1.9|||||TWO_SIDED|95.0|-3.9|0.2|||||Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Pain Score at Cycle 6||0.2|-3.9|
82622695|NCT03783442|164960907|OTHER||LS Mean Difference|-0.4|||||TWO_SIDED|95.0|-2.1|1.4|||||Based on a mixed effect model analysis with QLQ-OES18 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in EORTC QLQ-OES18 Index Score at Cycle 6||1.4|-2.1|
82492870|NCT00578383|164678642|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.11|STANDARD_ERROR_OF_MEAN|1.17||0.009|TWO_SIDED|95.0|0.5|5.8||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the 17-item Hamilton Depression Rating Scale.||5.8|0.5|0.009
82492871|NCT00578383|164678643|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.06|STANDARD_ERROR_OF_MEAN|0.38||0.006|TWO_SIDED|95.0|0.2|1.9||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by a visual analog scale.||1.9|0.2|0.006
82492872|NCT00578383|164678644|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.1|STANDARD_ERROR_OF_MEAN|1.24||0.001|TWO_SIDED|95.0|1.3|6.9||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the PANAS (POSITIVE SCALE).||6.9|1.3|0.001
82492873|NCT00578383|164678645|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.0|STANDARD_ERROR_OF_MEAN|1.39||0.15|TWO_SIDED|95.0|-1.1|5.1||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.025 for significance (correction factor 2).|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression and those with major depressive disorder as assessed by the PANAS (negative scale)||5.1|-1.1|0.15
82499001|NCT04786990|164688961|OTHER|||||||0.0832||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0832
82499002|NCT04786990|164688961|OTHER|||||||0.3715||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.3715
82622696|NCT03783442|164960908|OTHER||LS Mean Difference|3.3|||||TWO_SIDED|95.0|0.4|6.2|||||Based on a mixed effect model analysis, with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in Global Health Status/QoL at Cycle 6||6.2|0.4|
82622697|NCT03783442|164960908|OTHER||LS Mean Difference|2.6|||||TWO_SIDED|95.0|0.0|5.1|||||Based on a mixed effect model analysis, with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|Analysis of Change from Baseline in Physical Functioning at Cycle 6||5.1|0.0|
82622698|NCT03783442|164960909|OTHER||LS Mean Difference|-1.4|||||TWO_SIDED|95.0|-4.7|1.9|||||Based on a mixed effect model analysis with QLQ-C30 scores until cycle 18 as the response variable, and treatment by study visit interaction, Baseline mean score, and randomization stratification factors as covariates.|||1.9|-4.7|
82622699|NCT02505542|164960916|SUPERIORITY||Odds Ratio (OR)|18.822|||<|0.001|TWO_SIDED|95.0|9.605|38.864||A fixed sequence testing procedure was used whereby the second test (CZP 200 mg Q4W vs PBO) was interpreted as statistically significant only if the first test (CZP 200 mg Q2W vs PBO) was significant at the 0.05 level as well.|Regression, Logistic|||Odds ratio (and corresponding p-value) resulted from a logistic regression model with factors for treatment, geographic region, and modified New York (mNY) classification for study participants who did not experience a flare. An odds ratio \> 1 indicates a study participant on CZP was more likely not to experience a flare than a study participant on placebo. Penalized maximum likelihood approach was used for logistic regression.||38.864|9.605|<0.001
82622700|NCT02505542|164960916|SUPERIORITY||Odds Ratio (OR)|14.069|||<|0.001|TWO_SIDED|95.0|7.395|27.955||A fixed sequence testing procedure was used whereby the second test (CZP 200 mg Q4W vs PBO) was interpreted as statistically significant only if the first test (CZP 200 mg Q2W vs PBO) was significant at the 0.05 level as well.|Regression, Logistic|||Odds ratio (and corresponding p-value) resulted from a logistic regression model with factors for treatment, geographic region, and modified New York (mNY) classification for study participants who did not experience a flare. An odds ratio \> 1 indicates a study participant on CZP was more likely not to experience a flare than a study participant on placebo. Penalized maximum likelihood approach was used for logistic regression.||27.955|7.395|<0.001
82622701|NCT02505542|164960920|OTHER||||||<|0.001|||||||Log Rank|||P-values were from stratified log-rank test comparing the Certolizumab pegol 200 mg Q2W Double-Blind (RS) group with the Placebo Double-Blind (RS) group (Geographic region and modified New York (mNY) classification were used as stratification factors).||||<0.001
82622702|NCT02505542|164960920|OTHER||||||<|0.001|||||||Log Rank|||P-values were from stratified log-rank test comparing the Certolizumab pegol 200 mg Q4W Double-Blind (RS) group with the Placebo Double-Blind (RS) group (Geographic region and modified New York (mNY) classification were used as stratification factors).||||<0.001
82622703|NCT02505542|164960922|SUPERIORITY||Odds Ratio (OR)|17.94|||<|0.001|TWO_SIDED|95.0|8.95|35.961|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||35.961|8.950|<0.001
82622704|NCT02505542|164960922|SUPERIORITY||Odds Ratio (OR)|11.385|||<|0.001|TWO_SIDED|95.0|5.952|21.778|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||21.778|5.952|<0.001
82622705|NCT02505542|164960922|SUPERIORITY||Odds Ratio (OR)|17.653|||<|0.001|TWO_SIDED|95.0|8.333|37.399|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||37.399|8.333|<0.001
82622706|NCT02505542|164960922|SUPERIORITY||Odds Ratio (OR)|11.863|||<|0.001|TWO_SIDED|95.0|5.67|24.822|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and modified New York (mNY) classification.||24.822|5.670|<0.001
82622707|NCT02505542|164960923|SUPERIORITY||Odds Ratio (OR)|20.205|||<|0.001|TWO_SIDED|95.0|9.851|41.439|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||41.439|9.851|<0.001
82622708|NCT02505542|164960923|SUPERIORITY||Odds Ratio (OR)|12.07|||<|0.001|TWO_SIDED|95.0|6.275|23.218|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||23.218|6.275|<0.001
82622709|NCT02505542|164960924|SUPERIORITY||Odds Ratio (OR)|20.891|||<|0.001|TWO_SIDED|95.0|10.21|42.744|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||42.744|10.210|<0.001
82622710|NCT02505542|164960924|SUPERIORITY||Odds Ratio (OR)|10.377|||<|0.001|TWO_SIDED|95.0|5.456|19.738|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||19.738|5.456|<0.001
82622711|NCT02505542|164960925|SUPERIORITY||Odds Ratio (OR)|16.9|||<|0.001|TWO_SIDED|95.0|8.211|34.785|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||34.785|8.211|<0.001
82622712|NCT02505542|164960925|SUPERIORITY||Odds Ratio (OR)|12.072|||<|0.001|TWO_SIDED|95.0|5.954|24.476|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||24.476|5.954|<0.001
82622713|NCT02505542|164960926|SUPERIORITY||Odds Ratio (OR)|17.082|||<|0.001|TWO_SIDED|95.0|8.561|34.085|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||34.085|8.561|<0.001
82622714|NCT02505542|164960926|SUPERIORITY||Odds Ratio (OR)|11.503|||<|0.001|TWO_SIDED|95.0|5.939|22.278|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||22.278|5.939|<0.001
82622715|NCT02505542|164960927|OTHER||LS Mean Difference vs Placebo|-1.42|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.66|-1.17|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.17|-1.66|<0.001
82622716|NCT02505542|164960927|OTHER||LS Mean Difference vs Placebo|-1.21|STANDARD_ERROR_OF_MEAN|0.126|<|0.001|TWO_SIDED|95.0|-1.45|-0.96|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.96|-1.45|<0.001
82622717|NCT02505542|164960928|OTHER||LS Mean Difference vs Placebo|-2.46|STANDARD_ERROR_OF_MEAN|0.268|<|0.001|TWO_SIDED|95.0|-2.99|-1.94|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.94|-2.99|<0.001
82622718|NCT02505542|164960928|OTHER||LS Mean Difference vs Placebo|-2.24|STANDARD_ERROR_OF_MEAN|0.267|<|0.001|TWO_SIDED|95.0|-2.77|-1.72|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.72|-2.77|<0.001
82622719|NCT02505542|164960929|OTHER||LS Mean Difference vs Placebo|-1.57|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-2.04|-1.11|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-1.11|-2.04|<0.001
82622720|NCT02505542|164960929|OTHER||LS Mean Difference vs Placebo|-1.43|STANDARD_ERROR_OF_MEAN|0.238|<|0.001|TWO_SIDED|95.0|-1.9|-0.96|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.96|-1.90|<0.001
82622721|NCT02505542|164960930|OTHER||LS Mean Difference vs Placebo|-0.2|STANDARD_ERROR_OF_MEAN|0.112|=|0.074|TWO_SIDED|95.0|-0.42|0.02|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||0.02|-0.42|=0.074
82622722|NCT02505542|164960930|OTHER||LS Mean Difference vs Placebo|-0.24|STANDARD_ERROR_OF_MEAN|0.113|=|0.036|TWO_SIDED|95.0|-0.46|-0.02|||Mixed Models Analysis|||An mixed model with repeated measures (MMRM) analysis on all observed post-baseline data with the following fixed-effect covariates was used: treatment, geographical region, mNY classification, Part B Baseline value, and visit as fixed-effect factors, as well as treatment group by visit interaction and Part B Baseline value by visit interaction.||-0.02|-0.46|=0.036
82622723|NCT02505542|164960931|SUPERIORITY||Odds Ratio (OR)|18.308|||<|0.001|TWO_SIDED|95.0|9.084|36.898|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||36.898|9.084|<0.001
82622724|NCT02505542|164960931|SUPERIORITY||Odds Ratio (OR)|12.02|||<|0.001|TWO_SIDED|95.0|6.255|23.098|||Regression, Logistic|||Odds ratios (and corresponding p-values) were from a logistic regression model with factors for treatment group, geographical region, and mNY classification.||23.098|6.255|<0.001
82622725|NCT02505542|164960932|OTHER||LS Mean Difference vs Placebo|-1.0|STANDARD_ERROR_OF_MEAN|0.76|=|0.195|TWO_SIDED|95.0|-2.5|0.51|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.51|-2.50|=0.195
82622726|NCT02505542|164960932|OTHER||LS Mean Difference vs Placebo|-0.6|STANDARD_ERROR_OF_MEAN|0.76|=|0.432|TWO_SIDED|95.0|-2.11|0.91|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.91|-2.11|=0.432
82622727|NCT02505542|164960933|OTHER||LS Mean Difference vs Placebo|-0.4|STANDARD_ERROR_OF_MEAN|0.19|=|0.04|TWO_SIDED|95.0|-0.78|-0.02|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||-0.02|-0.78|=0.040
82622728|NCT02505542|164960933|OTHER||LS Mean Difference vs Placebo|-0.3|STANDARD_ERROR_OF_MEAN|0.19|=|0.074|TWO_SIDED|95.0|-0.73|0.03|||ANCOVA|||"Only MRIs performed ± 2 weeks around the Week 96 or Early Withdrawal Visit were assigned to Week 96 or Early Withdrawal.~Only results of the double-read assessments of the central MRI review were included. The analysis used the average of the scores from the 2 independent reviewers. Whenever an adjudication was present, the average score across all 3 reviewers was used.~ANCOVA model with treatment, geographical region, mNY classification, and Part B Baseline as covariates."||0.03|-0.73|=0.074
82622729|NCT00168064|164960952|NON_INFERIORITY_OR_EQUIVALENCE|The PG formulation was determined to be non-inferior to the AP formulation if the lower limit of the 95% confidence interval around the ratio of the response rates (PG/AP) was \> = 0.75.|ratio of proportions|1.226|||||TWO_SIDED|95.0|0.974|1.552|||ANCOVA||ratio is response rate of PG formulation divided by response rate of AP formulation|||1.552|0.974|
82622730|NCT03373110|164960955|OTHER|||||||0.973||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models fit via maximum likelihood to examine the effect of the interventions on daily steps. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction. We used separate models to assess the intervention effects across the 8-week intervention period as well as the complete 16-week follow-up period.|The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.973
82622731|NCT03373110|164960955|OTHER|||||||0.005||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 8 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||.005
82622732|NCT03373110|164960955|OTHER|||||||0.004||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 8 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||.004
82622733|NCT03373110|164960955|OTHER|||||||0.627||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.627
82622734|NCT03373110|164960955|OTHER|||||||0.359||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.359
82622735|NCT03373110|164960955|OTHER|||||||0.597||||||A two-sided significance level of 0.05 was used for all analyses.|Mixed Models Analysis|||We used linear mixed effects models to examine the effect of the interventions on average daily steps at 16 weeks into the study. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to adjust for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|We used linear mixed effects models to examine the effect of the interventions on daily steps. These models account for the covariance of repeated measurements within subjects, and we used maximum likelihood estimation to account for missing daily step counts. The models include a random intercept and fixed effects for intervention, time, and an intervention by time interaction.|||0.597
82622736|NCT01181102|164960986|NON_INFERIORITY_OR_EQUIVALENCE|"(non-inferiority) When analyzed using the Z test at a one-sided 0.025 significance level, with the addition of a non-inferiority margin of 5% to the incidence in the enoxaparin group.~(superiority) The incidence of thromboembolic events for the FAS was compared using the χ2 test (two-sided significance level: 0.05)"|Cox Proportional Hazard|-6.5|||<|0.001|TWO_SIDED|95.0|-11.5|-1.6||non-inferiority:P \< 0.001 superiority:P = 0.010|non-inferiority:Z test. superiority:χ2 t|||The incidence proportion of thromboembolic events in the DU-176b group (P˅DU) = The incidence proportion of thromboembolic events in the enoxaparin group (P˅E) + Δ (5%). Alternative hypothesis H˅11: P˅DU \< P˅E + Δ (level of significance, 0.025; one-sided). If the null hypothesis H˅01 was rejected, the following analysis had to be sequentially performed using the χ2 test statistic. Null hypothesis H˅02: P˅DU = P˅E Alternative hypothesis H˅12: P˅DU ≠ P˅E (level of significance, 0.05; two-sided).||-1.6|-11.5|<0.001
82622737|NCT01181102|164960987|SUPERIORITY_OR_OTHER||χ2 test|2.5|||||TWO_SIDED|95.0|-0.8|5.9||||||||5.9|-0.8|
82622738|NCT01309841|164960991|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.38||||0.015|TWO_SIDED|95.0|1.062|1.795|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.795|1.062|0.015
82622739|NCT01309841|164960991|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.509||||0.001|TWO_SIDED|95.0|1.168|1.949|||Cochran-Mantel-Haenszel|||Analysis via Cochran Mantel-Haenszel test stratified by response to laxatives at baseline (LIR, LAR, LUR).||1.949|1.168|0.001
82622740|NCT01309841|164960992|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.479||||0.028|TWO_SIDED|95.0|1.038|2.107||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.107|1.038|0.028
82622741|NCT01309841|164960992|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.691||||0.002|TWO_SIDED|95.0|1.205|2.373||Response rate over Weeks 1 to 12 in the LIR subgroup is a key secondary endpoint included in the multiple testing procedure.|Cochran-Mantel-Haenszel|||||2.373|1.205|0.002
82622742|NCT01309841|164960994|SUPERIORITY_OR_OTHER||LS mean difference|0.55|||<|0.001|TWO_SIDED|95.0|0.24|0.86|||Mixed Models Analysis|||Analysis via Mixed Model Repeated Measures (MMRM) with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.86|0.24|<0.001
82622743|NCT01309841|164960994|SUPERIORITY_OR_OTHER||Ls mean difference|0.82|||<|0.001|TWO_SIDED|95.0|0.51|1.13|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||1.13|0.51|<0.001
82622744|NCT01309841|164960995|SUPERIORITY_OR_OTHER||LS mean difference|-0.09||||0.176|TWO_SIDED|95.0|-0.23|0.04|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.04|-0.23|0.176
82622745|NCT01309841|164960995|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.008|TWO_SIDED|95.0|-0.32|-0.05|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.05|-0.32|0.008
82622746|NCT01309841|164960996|SUPERIORITY_OR_OTHER||LS mean difference|0.05||||0.564|TWO_SIDED|95.0|-0.12|0.23|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.23|-0.12|0.564
82622747|NCT01309841|164960996|SUPERIORITY_OR_OTHER||LS mean difference|0.18||||0.042|TWO_SIDED|95.0|0.01|0.36|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.36|0.01|0.042
82622748|NCT01309841|164960997|SUPERIORITY_OR_OTHER||LS mean difference|3.87||||0.094|TWO_SIDED|95.0|-0.66|8.39|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||8.39|-0.66|0.094
82622749|NCT01309841|164960997|SUPERIORITY_OR_OTHER||LS mean difference|8.59|||<|0.001|TWO_SIDED|95.0|4.04|13.14|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||13.14|4.04|<0.001
82622750|NCT01309841|164960998|SUPERIORITY_OR_OTHER||LS mean difference|0.54||||0.011|TWO_SIDED|95.0|0.12|0.96|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||0.96|0.12|0.011
82622751|NCT01309841|164960998|SUPERIORITY_OR_OTHER||LS mean difference|0.99|||<|0.001|TWO_SIDED|95.0|0.57|1.41|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response (LIR, non-LIR), treatment and treatment time interaction. Study pooled center is included as a random effect.||1.41|0.57|<0.001
82622752|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.08||||0.273|TWO_SIDED|95.0|-0.21|0.06||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.06|-0.21|0.273
82622753|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.12||||0.089|TWO_SIDED|95.0|-0.26|0.02||Analysis for change in PAC-SYM total score from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.02|-0.26|0.089
82622754|NCT01309841|164961000|SUPERIORITY_OR_OTHER||Slope|0.02||||0.849|TWO_SIDED|95.0|-0.14|0.17||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.17|-0.14|0.849
82622755|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.03||||0.749|TWO_SIDED|95.0|-0.18|0.13||Analysis for change in PAC-SYM abdominal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.13|-0.18|0.749
82622756|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.13||||0.062|TWO_SIDED|95.0|-0.26|0.01||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.26|0.062
82622757|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.21||||0.003|TWO_SIDED|95.0|-0.35|-0.07||Analysis for change in PAC-SYM rectal symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||-0.07|-0.35|0.003
82622758|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.11||||0.202|TWO_SIDED|95.0|-0.29|0.06||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.06|-0.29|0.202
82622759|NCT01309841|164961000|SUPERIORITY_OR_OTHER||LS mean difference|-0.16||||0.072|TWO_SIDED|95.0|-0.34|0.01||Analysis for change in PAC-SYM stool symptoms subscore from baseline (Week 1) to end of treatment (Week 12)|Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Study pooled center is included as a random effect.||0.01|-0.34|0.072
82622760|NCT01309841|164961001|SUPERIORITY_OR_OTHER||LS mean difference|-0.02||||0.831|TWO_SIDED|95.0|-0.25|0.2|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Due to convergence issues, study pooled center is also included as a fixed, rather than random effect.||0.20|-0.25|0.831
82622761|NCT01309841|164961001|SUPERIORITY_OR_OTHER||LS mean difference|-0.18||||0.141|TWO_SIDED|95.0|-0.41|0.06|||Mixed Models Analysis|||Analysis via MMRM with fixed effects for baseline, baseline laxative response, treatment and treatment time interaction. Due to convergence issues, study pooled center is also included as a fixed, rather than random effect.||0.06|-0.41|0.141
82622762|NCT05127421|164961003|SUPERIORITY||Odds Ratio (OR)|2.81||||0.091|TWO_SIDED|95.0|0.83|9.47|||Cochran-Mantel-Haenszel|stratified by the stratification factor (face and/or neck Investigator's Global Assessment \[IGA\] score of 2 or 3 at screening).||||9.47|0.83|0.091
82622763|NCT05127421|164961003|SUPERIORITY||response rate difference|19.5|STANDARD_ERROR_OF_MEAN|10.23|||TWO_SIDED|95.0|-0.5|39.6|||||The 95% confidence interval was computed based on a large-sample normal approximation with continuity correction.|||39.6|-0.5|
82622764|NCT01906866|164961017|SUPERIORITY||Mean Difference (Final Values)|32.32|STANDARD_ERROR_OF_MEAN|15.1|=|0.035|TWO_SIDED|95.0|2.38|62.26|||Mixed Models Analysis|||||62.26|2.38|=0.035
82622765|NCT01906866|164961018|SUPERIORITY||Mean Difference (Final Values)|-25.2|STANDARD_ERROR_OF_MEAN|9.787|=|0.011|TWO_SIDED|95.0|-44.61|-5.8|||Mixed Models Analysis|||||-5.8|-44.61|=0.011
82622766|NCT01906866|164961021|SUPERIORITY|||||||0.053|||||||MMRM|||Mixed Models for Repeated Measures (MMRM) analysis||||0.053
82622767|NCT01906866|164961021|SUPERIORITY|||||||0.039|||||||MI analysis|||||||0.039
82622768|NCT01906866|164961023|SUPERIORITY|||||||0.077|||||||MMRM|||||||0.077
82622769|NCT01906866|164961024|SUPERIORITY|||||||0.04|||||||Chi-squared|||||||0.04
82622770|NCT03956225|164961051|NON_INFERIORITY|Noninferiority in change from baseline in MGS was declared if the lower confidence limit (LCL) was greater than -5.|Least Squares Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|1.07|||ONE_SIDED|95.0|-2.2||||Mixed effects repeated measures||Standard Error of the Least Squares Mean is presented. Least squares mean difference (iLux minus LipiFlow). Lower Confidence Limit is presented.||||-2.2|
82622771|NCT00321269|164961053|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||Mixed Models Analysis|||Mixed effects regression analysis- Treatment Arm X Time F (2, 116)=0.09, P\>F=0.90.||||0.90
82622772|NCT00321269|164961054|SUPERIORITY_OR_OTHER|||||||0.13|TWO_SIDED||||||Mixed Models Analysis|F(2,110)=2.08; P=0.13||||||0.13
82622773|NCT01583452|164961055|SUPERIORITY_OR_OTHER|||||||0.665|TWO_SIDED||||||Kaplan-Meier survival analysis|||With a confidence interval of 95%, an alpha risk of 5% and a desired power of 80%; expecting a 24hrs difference between the intervention and the control group, we estimated 20 patients for each one of them.||||0.665
82622774|NCT01583452|164961056|SUPERIORITY_OR_OTHER|||||||0.094|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.094
82622775|NCT01583452|164961057|SUPERIORITY_OR_OTHER|||||||0.059|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.059
82622776|NCT01583452|164961058|SUPERIORITY_OR_OTHER|||||||0.83|TWO_SIDED||||||Kaplan-Meier survival analysis|||||||0.830
82622777|NCT02157506|164961060|SUPERIORITY||||||=|0.0059|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||=0.0059
82622778|NCT02157506|164961060|SUPERIORITY||||||=|0.0001|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0001
82622779|NCT02157506|164961060|SUPERIORITY||||||=|0.0062|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0062
82622780|NCT02157506|164961060|SUPERIORITY||||||=|0.0086|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0086
82622781|NCT02157506|164961061|SUPERIORITY||||||=|0.0076|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0076
82622782|NCT02157506|164961061|SUPERIORITY||||||=|0.0052|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0052
82622783|NCT02157506|164961061|SUPERIORITY||||||=|0.1064|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1064
82622784|NCT02157506|164961061|SUPERIORITY||||||=|0.1151|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1151
82622785|NCT02157506|164961062|SUPERIORITY||||||=|0.4241|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4241
82622786|NCT02157506|164961062|SUPERIORITY||||||=|0.4035|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4035
82622787|NCT02157506|164961062|SUPERIORITY||||||=|0.8308|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8308
82622788|NCT02157506|164961062|SUPERIORITY||||||=|0.118|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1180
82622789|NCT02157506|164961063|SUPERIORITY||||||=|0.0048|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0048
82622790|NCT02157506|164961063|SUPERIORITY||||||=|0.0022|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0022
82622791|NCT02157506|164961063|SUPERIORITY||||||=|0.0045|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0045
82622792|NCT02157506|164961063|SUPERIORITY||||||=|0.0294|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0294
82622793|NCT02157506|164961064|SUPERIORITY||||||=|0.2022|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2022
82499003|NCT04786990|164688962|OTHER|||||||0.0042||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 4||||0.0042
82499004|NCT04786990|164688962|OTHER|||||||0.0019||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0019
82622794|NCT02157506|164961064|SUPERIORITY||||||=|0.0658|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0658
82622795|NCT02157506|164961064|SUPERIORITY||||||=|0.0741|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0741
82622796|NCT02157506|164961064|SUPERIORITY||||||=|0.0497|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.0497
82622797|NCT02157506|164961065|SUPERIORITY||||||=|0.1842|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1842
82622798|NCT02157506|164961065|SUPERIORITY||||||=|0.3328|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.3328
82622799|NCT02157506|164961065|SUPERIORITY||||||=|0.1465|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1465
82622800|NCT02157506|164961065|SUPERIORITY||||||=|0.2799|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2799
82622801|NCT02157506|164961066|SUPERIORITY||||||=|0.2499|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2499
82622802|NCT02157506|164961066|SUPERIORITY||||||=|0.8281|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8281
82622803|NCT02157506|164961066|SUPERIORITY||||||=|0.4121|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4121
82622804|NCT02157506|164961066|SUPERIORITY||||||=|0.8592|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.8592
82622805|NCT02157506|164961067|SUPERIORITY||||||=|0.1391|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1391
82622806|NCT02157506|164961067|SUPERIORITY||||||=|0.1724|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1724
82622807|NCT02157506|164961067|SUPERIORITY||||||=|0.1245|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1245
82622808|NCT02157506|164961067|SUPERIORITY||||||=|0.169|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.1690
82622809|NCT02157506|164961068|SUPERIORITY||||||=|0.4936|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.4936
82622810|NCT02157506|164961068|SUPERIORITY||||||=|0.992|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.9920
82622811|NCT02157506|164961068|SUPERIORITY||||||=|0.2789|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.2789
82622812|NCT02157506|164961068|SUPERIORITY||||||=|0.91|||||||Mixed Models Analysis|Statistical significance was defined by a P-value \< 0.05. No adjustments were made for multiplicity.||||||= 0.9100
82622813|NCT02702011|164961069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|65.1|STANDARD_ERROR_OF_MEAN|10.81|<|0.0001|TWO_SIDED|95.0|43.29|86.9|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 2.5 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||86.90|43.29|<0.0001
82622814|NCT02702011|164961069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|81.19|STANDARD_ERROR_OF_MEAN|11.1|<|0.0001|TWO_SIDED|95.0|58.8|103.58|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 10 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||103.58|58.80|<0.0001
82622815|NCT02702011|164961069|SUPERIORITY_OR_OTHER||Mean Difference (Net)|98.11|STANDARD_ERROR_OF_MEAN|11.01|<|0.0001|TWO_SIDED|95.0|75.91|120.31|||ANCOVA||Mean Difference was calculated as: (mean change from baseline in 24 hour UGE at Day 7 in Empagliflozin 25 mg group) - (mean change from baseline in 24 hour UGE at Day 7 in Placebo group)|An analysis of covariance (ANCOVA) model with treatment as a fixed effect and baseline as a linear covariate was fitted to the change from baseline of 24 hour UGE (g/24h) on Day 7, where baseline refers to the last observation prior to the first intake of any randomised trial medication.||120.31|75.91|<0.0001
82622816|NCT01669811|164961092|SUPERIORITY_OR_OTHER||Difference in proportions|23.8|||<|0.0001|TWO_SIDED|95.0|14.9|32.6||p-value is obtained using chi square method.|Chi-squared|95% CI is obtained using Newcombe-Wilson score method without continuity correction.||To evaluate the efficacy of D20 bid on healing of refractory RE in comparison with D20 qd||32.6|14.9|<0.0001
82622817|NCT01669811|164961093|SUPERIORITY_OR_OTHER||Difference in proportions|32.8|||<|0.0001|TWO_SIDED|95.0|21.9|42.6||p-value is obtained using chi square method.|Chi-squared|95% CI is obtained using Newcombe-Wilson score method without continuity correction.||To evaluate the efficacy of D20 bid on healing of refractory RE in comparison with D20 qd||42.6|21.9|<0.0001
82622818|NCT01669811|164961094|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.29||||0.1452|TWO_SIDED|95.0|0.91|1.83|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||1.83|0.91|0.1452
82622819|NCT01669811|164961095|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.46||||0.0837|TWO_SIDED|95.0|0.97|2.18|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.18|0.97|0.0837
82622820|NCT01669811|164961096|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.34||||0.2678|TWO_SIDED|95.0|0.8|2.26|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.26|0.80|0.2678
82622821|NCT01669811|164961097|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.15||||0.6389|TWO_SIDED|95.0|0.62|2.12|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.12|0.62|0.6389
82622822|NCT01669811|164961098|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.38||||0.4485|TWO_SIDED|95.0|0.8|2.38|||Log Rank|95% CI of the hazard ratio is obtained using Cox proportional hazards model including a factor of treatment group.||To evaluate the efficacy of D20 bid on gastroesophageal reflux disease (GERD) symptoms in comparison with D20 qd||2.38|0.80|0.4485
82622823|NCT01998269|164961100|SUPERIORITY_OR_OTHER||correlation coefficient|0.6|||<|0.001|TWO_SIDED||||||Correlation||r= 0.60, p-value\<0.001. P values below 0.05 are considered statistically significant in this study.|We examined correlations between patient scores on the Measure of Medication Self-Management (MeDS) and the 8-item Morisky Medication Adherence questionnaire.||||<.001
82622824|NCT02559206|164961101|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.569||||0.0839|TWO_SIDED|95.0|-1.214|0.076|||mixed model repeated measures (MMRM)|||||0.076|-1.214|0.0839
82622825|NCT02559206|164961101|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.297||||0.3661|TWO_SIDED|95.0|-0.942|0.348|||MMRM|||||0.348|-0.942|0.3661
82622826|NCT02559206|164961101|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.286||||0.3869|TWO_SIDED|95.0|-0.936|0.363|||MMRM|||||0.363|-0.936|0.3869
82622827|NCT02559206|164961101|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.771||||0.0199|TWO_SIDED|95.0|-1.419|-0.123|||MMRM|||||-0.123|-1.419|0.0199
82622828|NCT02559206|164961101|SUPERIORITY|||||||0.0276||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.0276
82622829|NCT02559206|164961102|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.569||||0.0839|TWO_SIDED|95.0|-1.214|0.076|||MMRM|||||0.076|-1.214|0.0839
82622830|NCT02559206|164961102|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.455||||0.1669|TWO_SIDED|95.0|-1.102|0.191|||MMRM|||||0.191|-1.102|0.1669
82622831|NCT02559206|164961102|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.299||||0.3637|TWO_SIDED|95.0|-0.947|0.348|||MMRM|||||0.348|-0.947|0.3637
82622832|NCT02559206|164961102|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.258||||0.4333|TWO_SIDED|95.0|-0.905|0.389|||MMRM|||||0.389|-0.905|0.4333
82622833|NCT02559206|164961102|SUPERIORITY|||||||0.5528||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.5528
82622834|NCT02559206|164961103|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.992||||0.011|TWO_SIDED|95.0|0.228|1.756|||MMRM|||||1.756|0.228|0.0110
82622835|NCT02559206|164961103|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.048||||0.9013|TWO_SIDED|95.0|-0.716|0.812|||MMRM|||||0.812|-0.716|0.9013
82622836|NCT02559206|164961103|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.299||||0.4447|TWO_SIDED|95.0|-0.469|1.067|||MMRM|||||1.067|-0.469|0.4447
82622837|NCT02559206|164961103|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.662||||0.0904|TWO_SIDED|95.0|-0.104|1.428|||MMRM|||||1.428|-0.104|0.0904
82622838|NCT02559206|164961103|SUPERIORITY|||||||0.07||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.0700
82622839|NCT02559206|164961104|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.992||||0.011|TWO_SIDED|95.0|0.228|1.756|||MMRM|||||1.756|0.228|0.0110
82622840|NCT02559206|164961104|SUPERIORITY||LS Mean Difference (Lin-Placebo)|0.161||||0.6801|TWO_SIDED|95.0|-0.604|0.925|||MMRM|||||0.925|-0.604|0.6801
82622841|NCT02559206|164961104|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.095||||0.8069|TWO_SIDED|95.0|-0.861|0.67|||MMRM|||||0.670|-0.861|0.8069
82622842|NCT02559206|164961104|SUPERIORITY||LS Mean Difference (Lin-Placebo)|-0.246||||0.5275|TWO_SIDED|95.0|-1.011|0.519|||MMRM|||||0.519|-1.011|0.5275
82622843|NCT02559206|164961104|SUPERIORITY|||||||0.4201||||||Trend test performed using linear contrast statement for each DR formulation with placebo.|Trend Test|||||||0.4201
82622844|NCT02559206|164961105|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1663|TWO_SIDED|95.0|0.79|3.7|||Cochran-Mantel-Haenszel|||||3.70|0.79|0.1663
82622845|NCT02559206|164961105|SUPERIORITY||Odds Ratio (OR)|1.39||||0.4399|TWO_SIDED|95.0|0.61|3.17|||Cochran-Mantel-Haenszel|||||3.17|0.61|0.4399
82622846|NCT02559206|164961105|SUPERIORITY||Odds Ratio (OR)|1.27||||0.554|TWO_SIDED|95.0|0.57|2.85|||Cochran-Mantel-Haenszel|||||2.85|0.57|0.5540
82622847|NCT02559206|164961105|SUPERIORITY||Odds Ratio (OR)|2.39||||0.0262|TWO_SIDED|95.0|1.1|5.19|||Cochran-Mantel-Haenszel|||||5.19|1.10|0.0262
82622848|NCT02559206|164961105|SUPERIORITY|||||||0.0249||||||For each DR formulation, the Correlation Test p-values are obtained from the correlation statistic controlling for geographic region.|Correlation test|||||||0.0249
82622849|NCT02559206|164961106|SUPERIORITY||Odds Ratio (OR)|1.71||||0.1663|TWO_SIDED|95.0|0.79|3.7|||Cochran-Mantel-Haenszel|||||3.70|0.79|0.1663
82622850|NCT02559206|164961106|SUPERIORITY||Odds Ratio (OR)|1.13||||0.771|TWO_SIDED|95.0|0.49|2.58|||Cochran-Mantel-Haenszel|||||2.58|0.49|0.7710
82622851|NCT02559206|164961106|SUPERIORITY||Odds Ratio (OR)|1.11||||0.8021|TWO_SIDED|95.0|0.48|2.58|||Cochran-Mantel-Haenszel|||||2.58|0.48|0.8021
82622852|NCT02559206|164961106|SUPERIORITY||Odds Ratio (OR)|0.89||||0.8011|TWO_SIDED|95.0|0.37|2.14|||Cochran-Mantel-Haenszel|||||2.14|0.37|0.8011
82622853|NCT02559206|164961106|SUPERIORITY|||||||0.8578||||||For each DR formulation, the Correlation Test p-values are obtained from the correlation statistic controlling for geographic region.|Correlation test|||||||0.8578
82622854|NCT05263921|164961154|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|107.35|||||TWO_SIDED|90.0|99.66|115.64||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||115.64|99.66|
82499005|NCT04786990|164688963|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 4||||<0.0001
82622855|NCT05263921|164961154|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|120.73|||||TWO_SIDED|90.0|112.09|130.03||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||130.03|112.09|
82622856|NCT05263921|164961154|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|125.04|||||TWO_SIDED|90.0|116.08|134.69||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||134.69|116.08|
82622857|NCT05263921|164961155|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|108.8|||||TWO_SIDED|90.0|101.06|117.14||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||117.14|101.06|
82622858|NCT05263921|164961155|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|120.95|||||TWO_SIDED|90.0|112.36|130.2||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||130.20|112.36|
82622859|NCT05263921|164961155|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|127.39|||||TWO_SIDED|90.0|118.32|137.15||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||137.15|118.32|
82622860|NCT05263921|164961156|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|115.1|||||TWO_SIDED|90.0|104.03|127.34||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||127.34|104.03|
82622861|NCT05263921|164961156|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|145.6|||||TWO_SIDED|90.0|131.68|160.99||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||160.99|131.68|
82622862|NCT05263921|164961156|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|161.48|||||TWO_SIDED|90.0|145.95|178.66||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||178.66|145.95|
82622863|NCT05263921|164961157|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|110.85|||||TWO_SIDED|90.0|95.38|128.82||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||128.82|95.38|
82622864|NCT05263921|164961157|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|106.55|||||TWO_SIDED|90.0|91.76|123.73||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||123.73|91.76|
82622865|NCT05263921|164961157|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.74|||||TWO_SIDED|90.0|92.7|125.21||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||125.21|92.70|
82622866|NCT05263921|164961158|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|110.19|||||TWO_SIDED|90.0|94.51|128.47||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||128.47|94.51|
82622867|NCT05263921|164961158|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.17|||||TWO_SIDED|90.0|92.0|124.86||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||124.86|92.00|
82622868|NCT05263921|164961158|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|107.83|||||TWO_SIDED|90.0|92.48|125.72||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||125.72|92.48|
82622869|NCT05263921|164961159|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric means|108.72|||||TWO_SIDED|90.0|89.32|132.32||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets; Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with water||132.32|89.32|
82622870|NCT05263921|164961159|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|109.44|||||TWO_SIDED|90.0|90.05|133.0||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with applesauce||133.00|90.05|
82622871|NCT05263921|164961159|OTHER|The ratio and 90% CI were expressed as percentages.|Ratio (%) of Adjusted Geometric Means|117.3|||||TWO_SIDED|90.0|96.37|142.77||||||Reference: Nirmatrelvir/ritonavir 300/100 mg commercial tablets Test: Nirmatrelvir/ritonavir 300/100 mg oral powder mixed with vanilla pudding||142.77|96.37|
82622872|NCT03127852|164961173|SUPERIORITY|||||||0.48|||||||t-test, 2 sided|||Poststudy between-group comparison of SF-36 physical component summary score.||||.48
82622873|NCT03127852|164961173|SUPERIORITY|||||||0.73|||||||t-test, 2 sided|||Poststudy between-group comparison of SF-36 mental component summary score.||||.73
82622874|NCT03127852|164961174|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of hospital visits.||||.02
82622875|NCT03127852|164961174|SUPERIORITY|||||||0.12|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported emergency department visits.||||.12
82622876|NCT03127852|164961174|SUPERIORITY|||||||0.39|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of clinic visits.||||.39
82622877|NCT03127852|164961174|SUPERIORITY|||||||0.28|||||||t-test, 2 sided|||Poststudy between-group comparison of self-reported number of family physician visits.||||.28
82622878|NCT03127852|164961175|SUPERIORITY|||||||0.74|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI maintenance sub-scale.||||.74
82622879|NCT03127852|164961175|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI management sub-scale.||||.67
82622880|NCT03127852|164961175|SUPERIORITY|||||||0.92|||||||t-test, 2 sided|||Poststudy between-group comparison of SCHFI confidence sub-scale.||||.92
82622881|NCT03127852|164961176|SUPERIORITY|||||||0.67|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ total score.||||.67
82622882|NCT03127852|164961176|SUPERIORITY|||||||0.43|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ physical domain score.||||.43
82622883|NCT03127852|164961176|SUPERIORITY|||||||0.64|||||||t-test, 2 sided|||Poststudy between-group comparison of MLHFQ emotional domain score.||||.64
82622884|NCT03127852|164961177|SUPERIORITY|||||||0.06|||||||t-test, 2 sided|||Poststudy between-group comparison of HADS anxiety sub-scale.||||.06
82622885|NCT03127852|164961177|SUPERIORITY|||||||0.77|||||||t-test, 2 sided|||Poststudy between-group comparison of HADS depression sub-scale.||||.77
82622886|NCT03127852|164961178|SUPERIORITY|||||||0.13|||||||t-test, 2 sided|||Poststudy between-group comparison of SEMCD6.||||.13
82622887|NCT01016678|164961209|SUPERIORITY_OR_OTHER||Difference in percentages|18.0||||0.0038|TWO_SIDED||||||Chi-squared|||Comparison of percentage of participants pain free at 2 hours post-dose (active) to percentage of participants pain free at 2 hours post-dose (placebo)||||0.0038
82622888|NCT01016678|164961210|SUPERIORITY_OR_OTHER||difference in percentages|8.0||||0.1294|TWO_SIDED||||||Chi-squared|||||||0.1294
82622889|NCT00132314|164961213|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87||||0.39|TWO_SIDED|95.0|0.63|1.2|||Log Rank|||Time-to-event analysis; The primary outcome hypothesis is tested using a two-sided log-rank test to compare the hazard rate for the IM treatment group to that for the oral treatment group.||1.20|0.63|0.39
82622890|NCT00132314|164961214|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.63|1.2||95% Confidence Interval: 0.63 to 1.20|Regression, Cox|||||1.20|0.63|
82622891|NCT00223652|164961245|SUPERIORITY_OR_OTHER||||||=|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||=.001
82622892|NCT00223652|164961245|SUPERIORITY_OR_OTHER|||||||0.07|TWO_SIDED||||||Mixed Models Analysis|||||||0.07
82622893|NCT00223652|164961245|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||Mixed Models Analysis|||||||0.95
82622894|NCT00223652|164961246|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Mixed Models Analysis|||||||>0.37
82622895|NCT00223652|164961247|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Mixed Models Analysis|||||||<.0001
82622896|NCT00223652|164961247|SUPERIORITY_OR_OTHER|||||||0.61|TWO_SIDED||||||Mixed Models Analysis|||||||0.61
82622897|NCT00223652|164961247|SUPERIORITY_OR_OTHER|||||||0.2|TWO_SIDED||||||Mixed Models Analysis|||||||0.20
82622898|NCT00223652|164961248|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED||||||Generalized estimating equations models|||||||<0.0001
82622899|NCT00223652|164961248|SUPERIORITY_OR_OTHER|||||||0.12|TWO_SIDED||||||Generalized estimating equations models|||||||0.12
82622900|NCT00223652|164961248|SUPERIORITY_OR_OTHER|||||||0.86|TWO_SIDED||||||Generalized estimating equations models|||||||0.86
82622901|NCT00223652|164961249|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Mixed Models Analysis|||||||>0.37
82622902|NCT00223652|164961250|SUPERIORITY_OR_OTHER||||||>|0.37|TWO_SIDED||||||Generalized estimating equations models|||||||>0.37
82622903|NCT00873288|164961257|SUPERIORITY_OR_OTHER_LEGACY||||||>|0.05|||||||t-test, 2 sided|||||||> 0.05
82622904|NCT00873288|164961259|SUPERIORITY|||||||0.207|||||||Chi-squared|The Pearson Chi-squared value = 1.590||||||0.207
82622905|NCT00873288|164961260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.66|||||||t-test, 2 sided|||||||0.66
82622906|NCT00093470|164961273|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.76||||0.026|TWO_SIDED|95.0|0.538|1.072||one-sided p-value; threshold for statistical significance \<0.025|Log Rank|stratified log rank test|Hazard ratio of DFS for Arm A to Arm B|||1.072|0.538|0.026
82622907|NCT00093470|164961274|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.809||||0.056|TWO_SIDED|95.0|0.567|1.155||one-sided p-value; threshold for statistical significance \< 0.025|Log Rank|stratified log rank test|Hazard ratio of OS for Arm A to Arm B|||1.155|0.567|0.056
82622908|NCT02514772|164961275|OTHER||Difference (%)|-1.9|||||TWO_SIDED|95.0|-20.6|16.9||||||||16.9|-20.6|
82622909|NCT02514772|164961276|OTHER||Difference (%)|-1.7|||||TWO_SIDED|95.0|-20.6|16.9||||||||16.9|-20.6|
82622910|NCT02514772|164961277|OTHER||Difference (%)|-1.9|||||TWO_SIDED|95.0|-21.2|17.6||||||||17.6|-21.2|
82622911|NCT02514772|164961278|OTHER||Mean Difference (Final Values)|-5.4|||||TWO_SIDED|95.0|-24.2|13.3||||||Incidence difference of infusion-related reactions, occurred on day of or on day after first infusion (i.e. on study day 1 or on study day 2).||13.3|-24.2|
82622912|NCT02514772|164961278|OTHER||Mean Difference (Final Values)|-5.3|||||TWO_SIDED|95.0|-24.5|13.6||||||Incidence difference of infusion-related reactions, occurred on day of or on day after second infusion (i.e. on study day 14 or on study day 15).||13.6|-24.5|
82622913|NCT02514772|164961278|OTHER||Mean Difference (Final Values)|-7.2|||||TWO_SIDED|95.0|-26.0|11.4||||||Incidence difference of infusion-related reactions overall on day(s) of or day(s) after either infusion (i.e. on day 1 or 2 and on day 14 or day 15).||11.4|-26.0|
82622914|NCT00877006|164961289|SUPERIORITY_OR_OTHER|||||||0.0005||||||P-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment group, region, preassigned standard treatment, and lymphoma type as factors and baseline value as the covariate.|ANCOVA|||The hypothesis of interest is superiority of BR over standard treatment.||||0.0005
82622915|NCT00877006|164961290|SUPERIORITY||Hazard Ratio (HR)|0.99||||0.9677|TWO_SIDED|95.0|0.58|1.68|||Log Rank|Stratified log-rank test by preassigned standard treatment and lymphoma type.|BR/RCHOP-RCVP|||1.68|0.58|0.9677
82622916|NCT03004976|164961343|OTHER||Wilcoxon Mann-Whitney Odds|0.9|STANDARD_ERROR_OF_MEAN|0.248||0.71|TWO_SIDED|95.0|0.53|1.55||Wilcoxon Two Sample Test|Wilcoxon (Mann-Whitney)|||Primary efficacy analysis (mRS shift from baseline to 90 days)||1.55|0.53|0.71
82622917|NCT03004976|164961343|OTHER||Odds Ratio (OR)|0.9|STANDARD_ERROR_OF_MEAN|0.223||0.87|TWO_SIDED|95.0|0.4|2.3|||Cumulative Logit Proportional Odds Model|||Additional analysis of the primary endpoint (mRS score at 90 days), adjusted for baseline mRS, baseline NIHSS, and institution.||2.3|0.4|0.87
82622918|NCT01106391|164961369|SUPERIORITY_OR_OTHER_LEGACY||Rate of technical success (%)|90.0|||||TWO_SIDED|95.0|79.5|96.2|||||The 95% confidence interval was based on the exact confidence interval (Collett, 1991)|Since this was a feasibility study without comparisons, sample size was not determined based on statistical consideration. No formal hypothesis testing was performed either.||96.2|79.5|
82622919|NCT01106391|164961370|SUPERIORITY_OR_OTHER_LEGACY||Rate of achieved primary safety(%)|97.0|||||TWO_SIDED|95.0|88.1|99.6|||||The 95% confidence interval was based on the exact confidence interval (Collett, 1991)|Since this was a feasibility study without comparisons, sample size was not determined based on statistical consideration. No formal hypothesis testing was performed either.||99.6|88.1|
82622920|NCT00150345|164961379|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.493||||0.258|TWO_SIDED|95.0|0.129|1.755|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event IFI=yes is modeled.|Hypothesis: H0: rv - rp = 0 vs H1: rv - rp does not equal 0, where ri is rate of IFI (i=v for voriconazole group, i=p for deferred voriconazole group). Logit model (including important covariates) used. The adjusted odds ratio and 95 percent (%) confidence interval (CI) for adjusted odds ratio calculated. If 95% CI around odds ratio does not contain a value of 1, then the null hypothesis of equal rates of IFI between immediate voriconazole and deferred voriconazole to be rejected.||1.755|0.129|0.258
82499006|NCT04786990|164688963|OTHER|||||||0.0025||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data|t-test, 2 sided|||Week 8||||0.0025
82499007|NCT04786990|164688964|OTHER|||||||0.0161||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0161
82499008|NCT04786990|164688964|OTHER|||||||0.0122||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||0.0122
82622921|NCT00150345|164961380|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.822||||0.596|TWO_SIDED|95.0|0.398|1.696|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event defervescence=yes is modeled.|||1.696|0.398|0.596
82499009|NCT04786990|164688965|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82622922|NCT00150345|164961381|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.936||||0.864|TWO_SIDED|95.0|0.441|1.988|||Regression, Logistic||Odds ratio computed from the logistic regression (logit model) including terms for treatment arm, concomitant fluconazole, and positive PCR before randomization. Event defervescence=yes is modeled.|||1.988|0.441|0.864
82622923|NCT00150345|164961382|SUPERIORITY_OR_OTHER|||||||0.955|TWO_SIDED||||||Log Rank|||||||0.955
82622924|NCT00150345|164961384|SUPERIORITY_OR_OTHER||Difference in % participants that died|5.85|||||TWO_SIDED|95.0|-5.08|16.78|||||Approximate 2-sided confidence interval (CI).|Difference in proportions expressed as a percent: immediate voriconazole versus (vs) deferred voriconazole treatment||16.78|-5.08|
82622925|NCT00150345|164961385|SUPERIORITY_OR_OTHER|||||||0.19|TWO_SIDED||||||Log Rank|||||||0.190
82622926|NCT00150345|164961386|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-22.031|STANDARD_ERROR_OF_MEAN|10.888||0.049|TWO_SIDED|95.0|-44.004|-0.059||SAS PROC REG with SELECTION=STEPWISE option of SLENTRY=0.05 and SLSTAY=0.10 utilized. Stepwise option combined forward stepping (with a 0.05 level to enter) with elimination of variables already in model that do not stay significant at 0.10 level.|Regression, Linear|Variables: association with age, c-reactive protein, and time to continuous defervescence not significant at 0.05 level; not included in final model||Continuous defervescence achieved=Yes||-0.059|-44.004|0.049
82622927|NCT00150345|164961406|SUPERIORITY_OR_OTHER||Difference in percentages|2.51|||||TWO_SIDED|95.0|-14.96|19.97||||||Difference in proportions expressed as a percent: immediate voriconazole vs deferred voriconazole treatment||19.97|-14.96|
82622928|NCT02016898|164961442|OTHER||Risk Ratio (RR)|0.93||||0.7|TWO_SIDED|95.0|0.67|1.29|||Chi-squared|||||1.29|0.67|0.7
82622929|NCT02016898|164961443|OTHER||Median Difference (Final Values)|0.2|STANDARD_DEVIATION|2.01||0.539|TWO_SIDED||||||t-test, 1 sided|||||||0.539
82622930|NCT04015440|164961446|OTHER|Linear Regression|||||<|0.001|||||||Regression, Linear|||||||<.001
82622931|NCT04015440|164961447|OTHER|Regression||||||0.027|||||||Regression, Linear|||||||.027
82622932|NCT04015440|164961448|OTHER|Logistic Regression||||||0.004|||||||Regression, Logistic|||||||.004
82622933|NCT02666508|164961464|OTHER|Test conducted was a test of difference between plaque identifying toothpaste and non-plaque identifying toothpaste for change in DPIA from pre to post.|Mean Difference (Net)|-1.02||||0.001|TWO_SIDED|95.0|-1.6|-0.44|||Repeated Measures ANOVA|||||-0.44|-1.60|0.001
82622934|NCT02666508|164961465|OTHER|Test conducted was a test of the difference between plaque identifying toothpaste and non-plaque identifying toothpaste for change in hsCRP|Mean Difference (Net)|-0.18||||0.459|TWO_SIDED|95.0|-0.69|0.32|||Repeated Measures ANOVA|||||0.32|-0.69|0.459
82622935|NCT00835003|164961469|NON_INFERIORITY_OR_EQUIVALENCE|Power calculations estimated a sample size of 1272 women with an estimated proportion of 8% in the 39 weeks Group and 14% in the 38 weeks group|Risk Ratio (RR)|0.86||||0.31|TWO_SIDED|95.0|0.65|1.15|||Chi-squared|||||1.15|0.65|0.31
82622936|NCT01804036|164961478|SUPERIORITY_OR_OTHER|||||||0.84|||||||ANCOVA|||||||0.84
82622937|NCT01804036|164961479|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANCOVA|||||||0.11
82622938|NCT01804036|164961480|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
82622939|NCT01804036|164961481|SUPERIORITY_OR_OTHER|||||||0.08|||||||ANCOVA|||||||0.08
82622940|NCT01804036|164961482|SUPERIORITY_OR_OTHER|||||||0.2|||||||ANCOVA|||||||0.20
82622941|NCT01804036|164961483|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
82622942|NCT01804036|164961484|SUPERIORITY_OR_OTHER|||||||0.52|||||||ANCOVA|||||||0.52
82622943|NCT01804036|164961485|SUPERIORITY_OR_OTHER|||||||0.54|||||||ANCOVA|||||||0.54
82622944|NCT01804036|164961486|SUPERIORITY_OR_OTHER|||||||0.94|||||||ANCOVA|||||||0.94
82622945|NCT01804036|164961487|SUPERIORITY_OR_OTHER|||||||0.95|||||||ANCOVA|||||||0.95
82622946|NCT01804036|164961488|SUPERIORITY_OR_OTHER|||||||0.49|||||||ANCOVA|||||||0.49
82622947|NCT01804036|164961489|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82622948|NCT01804036|164961490|SUPERIORITY_OR_OTHER||||||<|0.01|||||||ANCOVA|||||||<0.01
82622949|NCT01804036|164961491|SUPERIORITY_OR_OTHER|||||||0.13|||||||ANCOVA|||||||0.13
82622950|NCT00830960|164961502|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference in PRU|-183.0|||<|0.0001|TWO_SIDED|95.0|-229.0|-137.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate denominator degrees of freedom for fixed effects. Invalid measurements excluded.||||-137|-229|<0.0001
82622951|NCT00830960|164961502|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-139.0|||<|0.0001|TWO_SIDED|95.0|-177.0|-102.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate denominator degrees of freedom for fixed effects. Invalid measurements excluded.||||-102|-177|<0.0001
82622952|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-57.0||||0.0058|TWO_SIDED|95.0|-97.0|-17.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-17|-97|0.0058
82622953|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-35.0||||0.0365|TWO_SIDED|95.0|-68.0|-2.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel"|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-2|-68|0.0365
82622954|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-68.0||||0.0004|TWO_SIDED|95.0|-104.0|-32.0||"P-value for 30 minutes post-LD Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-32|-104|0.0004
82622955|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-160.0|||<|0.0001|TWO_SIDED|95.0|-211.0|-110.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-110|-211|<0.0001
82622956|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-115.0|||<|0.0001|TWO_SIDED|95.0|-156.0|-73.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-156|<0.0001
82622957|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-171.0|||<|0.0001|TWO_SIDED|95.0|-216.0|-125.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-125|-216|<0.0001
82622958|NCT00830960|164961503|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-212.0|||<|0.0001|TWO_SIDED|95.0|-259.0|-167.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-167|-259|<0.0001
82622959|NCT00830960|164961504|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-119.0|||<|0.0001|TWO_SIDED|95.0|-166.0|-73.0||"P-value for 30 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|LS Mean Difference in PRU|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-166|<0.0001
82622960|NCT00830960|164961504|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-113.0|||<|0.0001|TWO_SIDED|95.0|-154.0|-73.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-73|-154|<0.0001
82622961|NCT00830960|164961504|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-85.0|||<|0.0001|TWO_SIDED|95.0|-121.0|-48.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-48|-121|<0.0001
82622962|NCT00830960|164961504|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-35.0||||0.0647|TWO_SIDED|95.0|-72.0|2.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||2|-72|0.0647
82622963|NCT00830960|164961504|SUPERIORITY_OR_OTHER||LS Mean Difference in PRU|-100.0|||<|0.0001|TWO_SIDED|95.0|-143.0|-57.0||"P-value for 90 days. A linear mixed effects model including treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect~Difference in PRU was prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-57|-143|<0.0001
82622964|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|15.0||||0.0072|TWO_SIDED|95.0|4.0|27.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||27|4|0.0072
82622965|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|9.0||||0.0647|TWO_SIDED|95.0|-1.0|18.0||"P-value for 30 minutes post-LD Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||18|-1|0.0647
82622966|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|11.0||||0.0054|TWO_SIDED|95.0|3.0|19.0||"P-value for 30 minutes post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||19|3|0.0054
82499010|NCT04786990|164688965|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82499011|NCT04786990|164688966|OTHER|||||||0.0002||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||0.0002
82492874|NCT00578383|164678646|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.5|STANDARD_ERROR_OF_MEAN|1.47||0.09|TWO_SIDED|95.0|-1.2|6.2||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the 17-item Hamilton Depression Rating Scale.||6.2|-1.2|0.09
82499012|NCT04786990|164688966|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82622967|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|51.0|||<|0.0001|TWO_SIDED|95.0|36.0|66.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||66|36|<0.0001
82499013|NCT04786990|164688967|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82499014|NCT04786990|164688967|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82622968|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|36.0|||<|0.0001|TWO_SIDED|95.0|23.0|48.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||48|23|<0.0001
82622969|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|49.0|||<|0.0001|TWO_SIDED|95.0|36.0|61.0||"P-value for 2 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||61|36|<0.0001
82622970|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|62.0|||<|0.0001|TWO_SIDED|95.0|47.0|76.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||76|47|<0.0001
82622971|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|48.0|||<|0.0001|TWO_SIDED|95.0|36.0|59.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||59|36|<0.0001
82622972|NCT00830960|164961505|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|56.0|||<|0.0001|TWO_SIDED|95.0|44.0|68.0||"P-value for 4 hours post-LD~Linear mixed effects model: treatment, visit (0.5 hours to 4 hours), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||68|44|<0.0001
82622973|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|38.0|||<|0.0001|TWO_SIDED|95.0|27.0|50.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||50|27|<0.0001
82622974|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|32.0|||<|0.0001|TWO_SIDED|95.0|21.0|42.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||42|21|<0.0001
82622975|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|17.0||||0.0026|TWO_SIDED|95.0|6.0|28.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||28|6|0.0026
82622976|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|37.0|||<|0.0001|TWO_SIDED|95.0|24.0|50.0||"P-value for 30 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||50|24|<0.0001
82499015|NCT04786990|164688968|OTHER|||||||0.0005||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0005
82499016|NCT04786990|164688969|OTHER|||||||0.0005||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0005
82499017|NCT04786990|164688970|OTHER|||||||0.0016||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0016
82499018|NCT04786990|164688971|OTHER|||||||0.89||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.8900
82499019|NCT04786990|164688972|OTHER|||||||0.3269||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.3269
82622977|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|35.0||||0.0001|TWO_SIDED|95.0|18.0|52.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||52|18|0.0001
82622978|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|28.0||||0.0005|TWO_SIDED|95.0|13.0|44.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||44|13|0.0005
82622979|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|11.0||||0.1898|TWO_SIDED|95.0|-5.0|27.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||27|-5|0.1898
82622980|NCT00830960|164961506|SUPERIORITY_OR_OTHER||LS Mean Difference in Percent Inhibition|32.0|||<|0.0001|TWO_SIDED|95.0|18.0|45.0||"P-value for 90 days post-LD~Linear mixed effects model: treatment, visit (30, 90 days during MD), treatment-by-visit interaction, gender, country as fixed effects, participant as random effect~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||45|18|<0.0001
82622981|NCT00830960|164961508|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-110.0|||<|0.0001|TWO_SIDED|95.0|-143.0|-76.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-76|-143|<0.0001
82622982|NCT00830960|164961508|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-92.0|||<|0.0001|TWO_SIDED|95.0|-123.0|-60.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-60|-123|<0.0001
82622983|NCT00830960|164961508|SUPERIORITY_OR_OTHER||LS mean difference in PRU|-51.0||||0.002|TWO_SIDED|95.0|-83.0|-19.0||"Linear mixed effects model: treatment, visit, treatment-by-visit interaction, gender, country as fixed effects, baseline PRU as covariate, participant as random effect was used.~Difference in PRU = prasugrel - clopidogrel."|Mixed Models Analysis|Kenward-Roger method was used to estimate the denominator degrees of freedom for fixed effects. Invalid measurements were excluded.||||-19|-83|0.0020
82622984|NCT00830960|164961515|SUPERIORITY_OR_OTHER|||||||0.255||95.0|||||Fisher Exact|||||||0.255
82622985|NCT00830960|164961515|SUPERIORITY_OR_OTHER|||||||0.427||95.0|||||Fisher Exact|||||||0.427
82622986|NCT00830960|164961515|SUPERIORITY_OR_OTHER|||||||0.683||95.0|||||Fisher Exact|||||||0.683
82622987|NCT00830960|164961515|SUPERIORITY_OR_OTHER|||||||0.034||95.0|||||Fisher Exact|||||||0.034
82622988|NCT03859960|164961521|OTHER|||||||0.006|||||||Pearson correlation test|||||||0.006
82622989|NCT03859960|164961521|OTHER|||||||0.23||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.23
82622990|NCT03859960|164961522|OTHER|||||||0.001||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.001
82622991|NCT03859960|164961522|OTHER|||||||0.731|||||||Pearson correlation test|||||||0.731
82622992|NCT03859960|164961523|OTHER|||||||0.214|||||||Pearson correlation test|||||||0.214
82622993|NCT03859960|164961523|OTHER|||||||0.993||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.993
82622994|NCT03859960|164961524|OTHER|||||||0.41|||||||Pearson correlation test|||||||0.41
82622995|NCT03859960|164961524|OTHER|||||||0.676|||||||Pearson correlation test|||||||0.676
82622996|NCT03859960|164961525|OTHER|||||||0.511||||||p\<0.05 was considered statisticaly significant.|Pearson correlation test|||||||0.511
82622997|NCT03859960|164961525|OTHER|||||||0.248|||||||Pearson correlation test|||||||0.248
82622998|NCT03859960|164961526|OTHER|||||||0.654|||||||Pearson correlation test|||||||0.654
82622999|NCT03859960|164961526|OTHER|||||||0.025|||||||Pearson correlation test|||||||0.025
82623000|NCT02855450|164961529|SUPERIORITY||Least square means difference|4.7||||0.04|TWO_SIDED|95.0|0.2|9.2|||ANCOVA|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.||These statistics refer to Day 7 and primary eye||9.2|0.2|0.040
82623001|NCT02855450|164961529|SUPERIORITY||least square mean difference|2.4||||0.457|TWO_SIDED|95.0|-4.1|9.0||Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|ANCOVA|||These statistics refer to Day 28 and primary eye||9.0|-4.1|0.457
82623002|NCT02855450|164961529|SUPERIORITY||least square mean difference|4.0||||0.283|TWO_SIDED|95.0|-3.5|11.5||Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|ANCOVA|||These statistics refer to Day 56 and primary eye||11.5|-3.5|0.283
82623003|NCT02855450|164961529|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|Least square means difference|3.5||||0.147|TWO_SIDED|95.0|-1.3|8.3|||ANCOVA|||These statistics refer to Day 7 and secondary eye||8.3|-1.3|0.147
82623004|NCT02855450|164961529|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|least square mean difference|3.0||||0.421|TWO_SIDED|95.0|-4.4|10.4|||ANCOVA|||These statistics refer to Day 28 and secondary eye||10.4|-4.4|0.421
82623005|NCT02855450|164961529|SUPERIORITY|Analysis results are obtained from an ANCOVA with treatment as factor and baseline value as covariate.|least square mean difference|4.3||||0.327|TWO_SIDED|95.0|-4.4|13.0|||ANCOVA|||These statistics refer to Day 56 and secondary eye||13.0|-4.4|0.327
82623006|NCT02219087|164961547|SUPERIORITY_OR_OTHER|||||||0.137|||||||t-test, 2 sided|||||||0.137
82623007|NCT02219087|164961548|SUPERIORITY_OR_OTHER|||||||0.343|||||||t-test, 2 sided|||||||0.343
82623008|NCT02219087|164961549|SUPERIORITY_OR_OTHER|||||||0.208|||||||t-test, 2 sided|||||||0.208
82623009|NCT02219087|164961550|SUPERIORITY_OR_OTHER|||||||0.385|||||||t-test, 2 sided|||||||0.385
82623010|NCT02219087|164961551|SUPERIORITY_OR_OTHER|||||||0.843|||||||Chi-squared|||||||0.843
82623011|NCT02219087|164961552|SUPERIORITY_OR_OTHER|||||||0.438|||||||Wilcoxon (Mann-Whitney)|||||||0.438
82623012|NCT02431468|164961590|SUPERIORITY||Mean Difference (Net)|6.5|||<|0.1|TWO_SIDED|80.0||||LSM and two-sided 80% CI were provided for treatment group differences and estimated endpoint values. A true mean difference in change from baseline in the SIB (one-sided at α=0.10) of at least 6.5 points in favor of bryostatin groups was assumed.|t-test, 1 sided|||The primary statistical objective for efficacy was to estimate the effect of bryostatin on the mean change in the Severe Impairment Battery (SIB) after 12 weeks of treatment. A linear model was used for both estimation and significance testing. Primary analysis populations were defined as the Full Analysis Set (FAS) and the Completer Analysis Set (CAS)||||<0.1
82623013|NCT02431468|164961590|SUPERIORITY||Mean Difference (Net)|6.5|||<|0.1|TWO_SIDED|80.0|||||t-test, 1 sided|||Change from baseline in SIB in the Completer Analysis Set (CAS)||||<0.1
82623014|NCT01056341|164961593|SUPERIORITY_OR_OTHER||||||<|0.0001||||||"P-value not adjusted for multiplicity. An Independent Committee conducted this analysis to determine the most efficacious of all arms with a good safety profile.~P-value linked to the 3 mg/kg/day 6 months selected arm ."|One-sided Z-tests|One-sided Z-tests for proportions (contrasts tests on placebo) with pooled variance||The interim analysis was carried out after the first 188 patients have completed their W24 visit or been withdrawn prematurely from study therapy. For each propranolol arm, individual hypotheses H0,i: θi≤0||||< 0.0001
82623015|NCT01056341|164961594|SUPERIORITY_OR_OTHER||||||<|0.0001||||||The methodology used guaranteed that the familywise type I error rate was below the nominal one-sided significance level of 0.005.|combination tests|Superiority was tested using the closed testing procedure and combination tests for all intersection hypotheses using Simes' adjustment.||"The objective is to test the superiority of the selected arm using the approach of Posch et al.~The primary analysis was performed on the intent-to-treat population: all treated patients in Stage 1 and all treated patients in stage 2 randomized to placebo or the selected arm."||||< 0.0001
82623016|NCT01432457|164961631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.57||||0.006|TWO_SIDED|95.0|0.44|2.69||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|Mixed Models Analysis|||A mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline HAM-D17 score as a covariate was used to compare DVS SR dose to placebo. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.69|0.44|0.006
82623017|NCT01432457|164961631|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.96|||<|0.001|TWO_SIDED|95.0|0.84|3.08||A Hochberg step-up procedure was used to control for the multiplicity associated with multiple active dose arms.|Mixed Models Analysis|||A mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline HAM-D17 score as a covariate was used to compare DVS SR dose to placebo. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||3.08|0.84|< 0.001
82623018|NCT01432457|164961632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.36||||0.014|TWO_SIDED|95.0|0.28|2.45|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.45|0.28|0.014
82623019|NCT01432457|164961632|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.67||||0.002|TWO_SIDED|95.0|0.59|2.74|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.74|0.59|0.002
82623020|NCT01432457|164961633|SUPERIORITY_OR_OTHER|||||||0.029|TWO_SIDED|||||"p-value was obtained from the separate pair-wise Cochran-Mantel-Haenszel test versus placebo for the alternative hypothesis of Row Mean Scores Differences controlling for site."|Cochran-Mantel-Haenszel|||CGI-I was analyzed with the Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores. Each DVS SR arm was separately compared to placebo controlling for site. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||||0.029
82623021|NCT01432457|164961633|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||"p-value was obtained from the separate pair-wise Cochran-Mantel-Haenszel test versus placebo for the alternative hypothesis of Row Mean Scores Differences controlling for site."|Cochran-Mantel-Haenszel|||CGI-I was analyzed with the Cochran-Mantel-Haenszel row-mean-score-difference test using ridit scores. Each DVS SR arm was separately compared to placebo controlling for site. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||||< 0.001
82623022|NCT01432457|164961634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.2||||0.009|TWO_SIDED|95.0|0.05|0.34|||Mixed Models Analysis|||CGI-S was analyzed using the mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline CGI-S score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.34|0.05|0.009
82623023|NCT01432457|164961634|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.28|||<|0.001|TWO_SIDED|95.0|0.13|0.43|||Mixed Models Analysis|||CGI-S was analyzed using the mixed effects model for repeated measures (MMRM) with treatment, visit, treatment by visit interaction, and site as fixed effects, and the baseline CGI-S score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.43|0.13|< 0.001
82623024|NCT01432457|164961635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.17||||0.062|TWO_SIDED|95.0|-0.01|0.34|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.34|-0.01|0.062
82623025|NCT01432457|164961635|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.22||||0.014|TWO_SIDED|95.0|0.04|0.39|||ANCOVA|||To assess the sensitivity of the results to the missing data assumptions, an analysis of covariance (ANCOVA) model based on the last observation carried forward (LOCF) was used. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.39|0.04|0.014
82623026|NCT01432457|164961636|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.242||||0.198|TWO_SIDED|95.0|0.893|1.726|||Regression, Logistic|||Response in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.726|0.893|0.198
82623027|NCT01432457|164961636|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.378||||0.054|TWO_SIDED|95.0|0.995|1.91|||Regression, Logistic|||Response in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.910|0.995|0.054
82499020|NCT04786990|164688973|OTHER|||||||0.5085||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.5085
82623028|NCT01432457|164961637|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.105||||0.615|TWO_SIDED|95.0|0.749|1.631|||Regression, Logistic|||Remission in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||1.631|0.749|0.615
82623029|NCT01432457|164961637|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.412||||0.072|TWO_SIDED|95.0|0.969|2.057|||Regression, Logistic|||Remission in HAM-D17 was analyzed based on a logistic regression model with treatment and site as fixed factors and the baseline HAM-D17 total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||2.057|0.969|0.072
82623030|NCT01432457|164961638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.09||||0.837|TWO_SIDED|95.0|-0.98|0.8||p-value was obtained from the ANCOVA model as change from baseline = Treatment + Site + Gender + Baseline|ANCOVA|||The treatment by gender interaction was first tested using an analysis of covariance (ANCOVA) model with treatment, site, gender, and treatment by gender as factors and the baseline total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.80|-0.98|0.837
82623031|NCT01432457|164961638|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.32||||0.471|TWO_SIDED|95.0|-1.19|0.55||p-value was obtained from the ANCOVA model as change from baseline = Treatment + Site + Gender + Baseline|ANCOVA|||The treatment by gender interaction was first tested using an analysis of covariance (ANCOVA) model with treatment, site, gender, and treatment by gender as factors and the baseline total score as a covariate. The test of the null hypothesis was used study-wise with alpha = 0.05 (2-sided).||0.55|-1.19|0.471
82623032|NCT04131933|164961686|SUPERIORITY|It was hypothesized that there would be a 50% reduction in Oncotype DX assay requests following the intervention.||||||0.37|||||||Fisher Exact|Fisher's exact test to compare number of patients with Oncotype DX ordered at 0-6 months (pre-intervention) vs 7-12 months (post-intervention)||Pre-Intervention (Period 1 and Period 2) vs Post-Intervention (Period 3 and Period 4)||||0.37
82623033|NCT05034614|164961705|SUPERIORITY|||||||0.75|||||||Chi-squared|||||||.75
82623034|NCT01807949|164961728|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean Difference|2.62||||0.0004|TWO_SIDED|95.0|1.18|4.06|||MMRM|||Analysis was performed using mixed-effects model for repeated measures (MMRM) model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (less than \[\<\] 18 versus greater than equal to \[\>=\]18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.06|1.18|0.0004
82623035|NCT01807949|164961728|SUPERIORITY_OR_OTHER||LS Mean Difference|3.0|||<|0.0001|TWO_SIDED|95.0|1.56|4.44|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||4.44|1.56|<0.0001
82623036|NCT01807949|164961729|SUPERIORITY_OR_OTHER||LS Mean Difference|4.42||||0.0007|TWO_SIDED|95.0|1.86|6.98|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||6.98|1.86|0.0007
82623037|NCT01807949|164961729|SUPERIORITY_OR_OTHER||LS Mean Difference|5.25|||<|0.0001|TWO_SIDED|95.0|2.69|7.81|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||7.81|2.69|<0.0001
82623038|NCT01807949|164961730|SUPERIORITY_OR_OTHER||LS Mean Difference|0.41|||<|0.0001|TWO_SIDED|95.0|0.23|0.59|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI.||0.59|0.23|<0.0001
82623039|NCT01807949|164961730|SUPERIORITY_OR_OTHER||LS Mean Difference|0.36||||0.0001|TWO_SIDED|95.0|0.17|0.54|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||0.54|0.17|0.0001
82623040|NCT01807949|164961731|SUPERIORITY_OR_OTHER||LS Mean Difference|2.21||||0.1651|TWO_SIDED|95.0|-0.91|5.33|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline CFQ-R respiratory domain score.||5.33|-0.91|0.1651
82623041|NCT01807949|164961731|SUPERIORITY_OR_OTHER||LS Mean Difference|2.85||||0.0736|TWO_SIDED|95.0|-0.27|5.98|||MMRM|||Analysis was performed using MMRM model, as described in Statistical Analysis 1.||5.98|-0.27|0.0736
82623042|NCT01807949|164961732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.9568|||<|0.0001|TWO_SIDED|95.0|1.8829|4.6431||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Odds Ratio (OR) and 95% confidence intervals (Cis) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||4.6431|1.8829|<0.0001
82623043|NCT01807949|164961732|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.3834||||0.0001|TWO_SIDED|95.0|1.5234|3.7286||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||3.7286|1.5234|0.0001
82623044|NCT01807949|164961733|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.6912||||0.0116|TWO_SIDED|95.0|0.5187|0.9209||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed using regression analysis for a negative binomial distribution with sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70) as covariates with the logarithm of time on study as the offset.||0.9209|0.5187|0.0116
82623045|NCT01807949|164961733|SUPERIORITY_OR_OTHER||Event Rate Ratio|0.5659||||0.0002|TWO_SIDED|95.0|0.4191|0.7641||This test is considered nominally significant because a hierarchical procedure was used and was broken prior to this test.|Negative Binomial Regression|||Analysis was performed as described in Statistical Analysis 1.||0.7641|0.4191|0.0002
82623046|NCT01807949|164961734|SUPERIORITY_OR_OTHER||LS Mean Difference|1.13|||<|0.0001|TWO_SIDED|95.0|0.62|1.64|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline weight.||1.64|0.62|<0.0001
82623047|NCT01807949|164961734|SUPERIORITY_OR_OTHER||LS Mean Difference|0.95||||0.0003|TWO_SIDED|95.0|0.43|1.46|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||1.46|0.43|0.0003
82623048|NCT01807949|164961735|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2313||||0.0005|TWO_SIDED|95.0|0.1037|0.3589|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline BMI z-score.||0.3589|0.1037|0.0005
82623049|NCT01807949|164961735|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2217||||0.0006|TWO_SIDED|95.0|0.0961|0.3473|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.3473|0.0961|0.0006
82623050|NCT01807949|164961736|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.716||||0.0384|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed using Cox proportional hazard regression, time is the time-to-first event or censoring, with adjustment for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||||0.0384
82623051|NCT01807949|164961736|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.533||||0.0003|TWO_SIDED||||||Cox Proportional Hazard Regression|||Analysis was performed as described in Statistical Analysis 1.||||0.0003
82623052|NCT01807949|164961737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6373||||0.0393|TWO_SIDED|95.0|0.416|0.9764|||Cochran-Mantel-Haenszel|||OR and 95% confidence intervals (CIs) are Mantel-Haenszel estimates. P values are from a Cochran-Mantel-Haenszel test stratified by sex (male versus female), age group at baseline (\<18 versus \>=18 years old), and percent predicted FEV1 severity at Screening (\<70 versus \>=70).||0.9764|0.4160|0.0393
82499021|NCT04786990|164688974|OTHER|||||||0.3484||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.3484
82623053|NCT01807949|164961737|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.4429||||0.0002|TWO_SIDED|95.0|0.2863|0.6851|||Cochran-Mantel-Haenszel|||Analysis was performed as described in Statistical Analysis 1.||0.6851|0.2863|0.0002
82623054|NCT01807949|164961738|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0028||||0.7679|TWO_SIDED|95.0|-0.0211|0.0156|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L index score.||0.0156|-0.0211|0.7679
82623055|NCT01807949|164961738|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.0009||||0.9214|TWO_SIDED|95.0|-0.0192|0.0174|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||0.0174|-0.0192|0.9214
82623056|NCT01807949|164961739|SUPERIORITY_OR_OTHER||LS Mean Difference|2.4||||0.1034|TWO_SIDED|95.0|-0.5|5.3|||MMRM|||Analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline EQ-5D-3L VAS score.||5.3|-0.5|0.1034
82623057|NCT01807949|164961739|SUPERIORITY_OR_OTHER||LS Mean Difference|3.3||||0.0262|TWO_SIDED|95.0|0.4|6.2|||MMRM|||Analysis was performed as described in Statistical Analysis 1.||6.2|0.4|0.0262
82499022|NCT04786990|164688975|OTHER|||||||0.4385||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.4385
82623058|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|8.64||||0.0005|TWO_SIDED|95.0|3.77|13.51|||MMRM|||Effectiveness: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM effectiveness score.||13.51|3.77|0.0005
82623059|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|11.61|||<|0.0001|TWO_SIDED|95.0|6.75|16.48|||MMRM|||Effectiveness: analysis was performed as described in Statistical Analysis 1.||16.48|6.75|<0.0001
82623060|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.18||||0.0403|TWO_SIDED|95.0|-6.21|-0.14|||MMRM|||Side Effects: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM side effects score.||-0.14|-6.21|0.0403
82623061|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|-4.29||||0.0054|TWO_SIDED|95.0|-7.31|-1.28|||MMRM|||Side Effects: analysis was performed as described in Statistical Analysis 1.||-1.28|-7.31|0.0054
82623062|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0||||1|TWO_SIDED|95.0|-4.07|4.07|||MMRM|||Convenience: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM convenience score.||4.07|-4.07|1.0000
82623063|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|0.32||||0.8777|TWO_SIDED|95.0|-3.74|4.37|||MMRM|||Convenience: analysis was performed as described in Statistical Analysis 1.||4.37|-3.74|0.8777
82623064|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|4.64||||0.0668|TWO_SIDED|95.0|-0.32|9.61|||MMRM|||Global Satisfaction: analysis was performed using MMRM model including treatment, visit, and treatment-by-visit interaction as fixed effects with adjustments for sex (male versus female), age group at baseline (\<18 versus \>=18 years old), percent predicted FEV1 severity at Screening (\<70 versus \>=70), and baseline TSQM global satisfaction score.||9.61|-0.32|0.0668
82623065|NCT01807949|164961740|SUPERIORITY_OR_OTHER||LS Mean Difference|7.16||||0.0045|TWO_SIDED|95.0|2.23|12.08|||MMRM|||Global Satisfaction: analysis was performed as described in Statistical Analysis 1.||12.08|2.23|0.0045
82623066|NCT04190186|164961743|SUPERIORITY||Mean Difference (Final Values)|0.49||||0.594|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.594
82623067|NCT05053126|164961758|SUPERIORITY||Mean Difference (Final Values)|36.83|STANDARD_ERROR_OF_MEAN|3.132|<|0.0001|ONE_SIDED|95.0|31.65||||Mixed Models Analysis|||"The sensitivity and integrity of the study was validated by comparing the mean responses of oxycodone HCl, the positive control (C), to the placebo (P):~H0: μC - μP ≤ δ1 versus Ha: μC - μP \> δ1 where δ1 =15"|||31.65|<0.0001
82623068|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-2.4|STANDARD_ERROR_OF_MEAN|3.49||0.2469|ONE_SIDED|95.0||3.4|||Mixed Models Analysis|||"The primary analysis evaluated whether pregabalin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||3.4||0.2469
82623069|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 0|Mean Difference (Final Values)|-3.3|STANDARD_ERROR_OF_MEAN|3.48||0.1756|ONE_SIDED|95.0||2.5|||Mixed Models Analysis|||"The primary analysis evaluated whether pregabalin plus oxycodone HCl (T) produced mean responses that showed abuse potential that was no higher than oxycodone HCl (C). The margin for showing no significant difference was defined as 20% of the difference between oxycodone HCl (C) and Placebo (P):~H0: μT - μC ≥ 0.2(μC - μP) versus Ha: μT - μC \<0.2(μC - μP)."||2.5||0.1756
82623070|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|-0.4|STANDARD_ERROR_OF_MEAN|2.84||0.0001|ONE_SIDED|95.0||4.3|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μL ≤ 0.2 (μC - 50) versus Ha: μC - μL \> 0.2 (μC - 50)"||4.3||0.0001
82623071|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 10|Mean Difference (Final Values)|3.3|STANDARD_ERROR_OF_MEAN|2.84||0.0099|ONE_SIDED|95.0||8.0|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show less abuse potential than oxycodone HCl (C) were:~H0: μC - μL ≤ 0.2 (μC - 50) versus Ha: μC - μL \> 0.2 (μC - 50)"||8.0||0.0099
82623072|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|18.2|STANDARD_ERROR_OF_MEAN|3.13||0.9888|ONE_SIDED|95.0||23.4|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μL - μp ≥ δ2 versus Ha: μL - μp \< δ2 where δ2 = 11"||23.4||0.9888
82623073|NCT05053126|164961758|NON_INFERIORITY|Non-inferiority margin = 11|Mean Difference (Final Values)|22.0|STANDARD_ERROR_OF_MEAN|3.13||0.9997|ONE_SIDED|95.0||27.1|||Mixed Models Analysis|||"The null and alternative hypotheses for evaluating whether pregabalin (L) produced mean responses that show abuse potential similar to placebo(P) were:~H0: μL - μp ≥ δ2 versus Ha: μL - μp \< δ2 where δ2 = 11"||27.1||0.9997
82623074|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|75.6|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|65.79|85.42|||Mixed Models Analysis|||||85.42|65.79|<0.0001
82623075|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|44.84|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|35.03|54.65|||Mixed Models Analysis|||||54.65|35.03|<0.0001
82623076|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|49.93|STANDARD_ERROR_OF_MEAN|5.945|<|0.0001|TWO_SIDED|90.0|40.12|59.75|||Mixed Models Analysis|||||59.75|40.12|<0.0001
82623077|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|80.8|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|70.99|90.61|||Mixed Models Analysis|||||90.61|70.99|<0.0001
82623078|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|81.91|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|72.09|91.73|||Mixed Models Analysis|||||91.73|72.09|<0.0001
82623079|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|-30.8|STANDARD_ERROR_OF_MEAN|5.948|<|0.0001|TWO_SIDED|90.0|-40.6|-20.9|||Mixed Models Analysis|||||-20.9|-40.6|<0.0001
82623080|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|-25.7|STANDARD_ERROR_OF_MEAN|5.942|<|0.0001|TWO_SIDED|90.0|-35.5|-15.9|||Mixed Models Analysis|||||-15.9|-35.5|<0.0001
82499023|NCT04786990|164688976|OTHER|||||||0.5073||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.5073
82623081|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|5.2|STANDARD_ERROR_OF_MEAN|5.945||0.3829|TWO_SIDED|90.0|-4.62|15.01|||Mixed Models Analysis|||||15.01|-4.62|0.3829
82623082|NCT05053126|164961759|OTHER||Mean Difference (Final Values)|6.31|STANDARD_ERROR_OF_MEAN|5.942||0.2896|TWO_SIDED|90.0|-3.5|16.11|||Mixed Models Analysis|||||16.11|-3.50|0.2896
82623083|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|23.47|STANDARD_ERROR_OF_MEAN|2.247|<|0.0001|TWO_SIDED|90.0|19.77|27.17|||Mixed Models Analysis|||||27.17|19.77|<0.0001
82623084|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|10.4|STANDARD_ERROR_OF_MEAN|2.239|<|0.0001|TWO_SIDED|90.0|6.71|14.09|||Mixed Models Analysis|||||14.09|6.71|<0.0001
82623085|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|11.29|STANDARD_ERROR_OF_MEAN|2.248|<|0.0001|TWO_SIDED|90.0|7.59|14.99|||Mixed Models Analysis|||||14.99|7.59|<0.0001
82623086|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|24.33|STANDARD_ERROR_OF_MEAN|2.251|<|0.0001|TWO_SIDED|90.0|20.62|28.03|||Mixed Models Analysis|||||28.03|20.62|<0.0001
82623087|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|22.34|STANDARD_ERROR_OF_MEAN|2.245|<|0.0001|TWO_SIDED|90.0|18.65|26.04|||Mixed Models Analysis|||||26.04|18.65|<0.0001
82623088|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|-13.1|STANDARD_ERROR_OF_MEAN|2.245|<|0.0001|TWO_SIDED|90.0|-16.8|-9.38|||Mixed Models Analysis|||||-9.38|-16.8|<0.0001
82623089|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|2.252|<|0.0001|TWO_SIDED|90.0|-15.9|-8.47|||Mixed Models Analysis|||||-8.47|-15.9|<0.0001
82623090|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|0.86|STANDARD_ERROR_OF_MEAN|2.258||0.7051|TWO_SIDED|90.0|-2.86|4.57|||Mixed Models Analysis|||||4.57|-2.86|0.7051
82623091|NCT05053126|164961760|OTHER||Mean Difference (Final Values)|-1.13|STANDARD_ERROR_OF_MEAN|2.246||0.616|TWO_SIDED|90.0|-4.82|2.57|||Mixed Models Analysis|||||2.57|-4.82|0.6160
82623092|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|21.99|STANDARD_ERROR_OF_MEAN|2.235|<|0.0001|TWO_SIDED|90.0|18.31|25.67|||Mixed Models Analysis|||||25.67|18.31|<0.0001
82623093|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|6.4|STANDARD_ERROR_OF_MEAN|2.227||0.0042|TWO_SIDED|90.0|2.73|10.07|||Mixed Models Analysis|||||10.07|2.73|0.0042
82623094|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|9.8|STANDARD_ERROR_OF_MEAN|2.236|<|0.0001|TWO_SIDED|90.0|6.12|13.48|||Mixed Models Analysis|||||13.48|6.12|<0.0001
82623095|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|21.12|STANDARD_ERROR_OF_MEAN|2.239|<|0.0001|TWO_SIDED|90.0|17.44|24.81|||Mixed Models Analysis|||||24.81|17.44|<0.0001
82623096|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|21.27|STANDARD_ERROR_OF_MEAN|2.233|<|0.0001|TWO_SIDED|90.0|17.59|24.95|||Mixed Models Analysis|||||24.95|17.59|<0.0001
82623097|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|-15.6|STANDARD_ERROR_OF_MEAN|2.233|<|0.0001|TWO_SIDED|90.0|-19.3|-11.9|||Mixed Models Analysis|||||-11.9|-19.3|<0.0001
82623098|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|-12.2|STANDARD_ERROR_OF_MEAN|2.24|<|0.0001|TWO_SIDED|90.0|-15.9|-8.5|||Mixed Models Analysis|||||-8.50|-15.9|<0.0001
82623099|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|-0.87|STANDARD_ERROR_OF_MEAN|2.246||0.7001|TWO_SIDED|90.0|-4.56|2.83|||Mixed Models Analysis|||||2.83|-4.56|0.7001
82623100|NCT05053126|164961761|OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|2.233||0.7479|TWO_SIDED|90.0|-4.4|2.96|||Mixed Models Analysis|||||2.96|-4.40|0.7479
82623101|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|27.82|STANDARD_ERROR_OF_MEAN|1.439|<|0.0001|TWO_SIDED|90.0|25.45|30.19|||Mixed Models Analysis|||||30.19|25.45|<0.0001
82623102|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|14.53|STANDARD_ERROR_OF_MEAN|1.435|<|0.0001|TWO_SIDED|90.0|12.17|16.89|||Mixed Models Analysis|||||16.89|12.17|<0.0001
82623103|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|17.85|STANDARD_ERROR_OF_MEAN|1.437|<|0.0001|TWO_SIDED|90.0|15.49|20.22|||Mixed Models Analysis|||||20.22|15.49|<0.0001
82623104|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|34.4|STANDARD_ERROR_OF_MEAN|1.438|<|0.0001|TWO_SIDED|90.0|34.4|36.77|||Mixed Models Analysis|||||36.77|34.40|<0.0001
82623105|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|38.84|STANDARD_ERROR_OF_MEAN|1.44|<|0.0001|TWO_SIDED|90.0|36.47|41.21|||Mixed Models Analysis|||||41.21|36.47|<0.0001
82623106|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|-13.3|STANDARD_ERROR_OF_MEAN|1.434|<|0.0001|TWO_SIDED|90.0|-15.6|-10.9|||Mixed Models Analysis|||||-10.9|-15.6|<0.0001
82623107|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|-9.97|STANDARD_ERROR_OF_MEAN|1.435|<|0.0001|TWO_SIDED|90.0|-12.3|-7.61|||Mixed Models Analysis|||||-7.61|-12.3|<0.0001
82623108|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|6.58|STANDARD_ERROR_OF_MEAN|1.436|<|0.0001|TWO_SIDED|90.0|4.22|8.94|||Mixed Models Analysis|||||8.94|4.22|<0.0001
82623109|NCT05053126|164961762|OTHER||Mean Difference (Final Values)|11.02|STANDARD_ERROR_OF_MEAN|1.436|<|0.0001|TWO_SIDED|90.0|8.65|13.38|||Mixed Models Analysis|||||13.38|8.65|<0.0001
82623110|NCT01376245|164961778|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.14|||<|0.001|TWO_SIDED|95.0|0.089|0.191|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.191|0.089|<0.001
82623111|NCT01376245|164961778|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.179|||<|0.001|TWO_SIDED|95.0|0.129|0.23|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.230|0.129|<0.001
82623112|NCT01376245|164961778|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.194|||<|0.001|TWO_SIDED|95.0|0.143|0.245|||Mixed Models Analysis|Restricted Maximum Likelihood (REML)-based repeated measures approach (MMRM)||||0.245|0.143|<0.001
82623113|NCT01357889|164961808|NON_INFERIORITY_OR_EQUIVALENCE|To establish BE, the 90% CI for the ratio of Process 3 (P3) to Process 2 (P2) geometric least squares means (LSMs) for AUC (0-inf) must have fallen within the BE limit of 0.8 and 1.25.|Ratio of Geometric LSMs (P3:P2)|0.937|||||TWO_SIDED|90.0|0.842|1.042|||ANOVA|||||1.042|0.842|
82623114|NCT01357889|164961809|NON_INFERIORITY_OR_EQUIVALENCE|To establish BE, the 90% CI for the ratio of Process 3:Process 2 geometric least squares means for Cmax must have fallen within the BE limit of 0.8 and 1.25.|Ratio of Geometric LSMs (P3:P2)|0.927|||||TWO_SIDED|90.0|0.813|1.056|||ANOVA|||||1.056|0.813|
82623115|NCT01170221|164961810|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI for the observed difference in the primary outcome measure (early clinical response at the 48-72 Hour Visit) between the tedizolid group and the linezolid group was calculated using the ITT analysis set. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10%.|Risk Difference (RD)|0.1||||||95.0|-6.1|6.2|||||Risk difference corresponds to tedizolid clinical response rate minus linezolid clinical response rate. The confidence interval was calculated using the Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.|The primary objective is to determine the noninferiority in the early clinical response rate of oral tedizolid phosphate compared with that of oral linezolid treatment at the 48-72 Hour Visit in the ITT Analysis Set in patients with ABSSSI.||6.2|-6.1|
82623116|NCT01170221|164961811|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI will be calculated for the observed differences in the clinical response rate based on the sustained response at EOT using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-2.6|||||TWO_SIDED|95.0|-9.6|4.2||Hierarchical testing procedure of Westfall and Krishen used to control for inflation of the overall type I error rate. If NI is declared for the primary, NI will be tested for the secondary outcomes in this order: Secondary Outcomes Measures 2 to 5.|||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||4.2|-9.6|
82623117|NCT01170221|164961812|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the sustained response at EOT using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.9|||||TWO_SIDED|95.0|-7.7|5.4|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|||5.4|-7.7|
82623118|NCT01170221|164961813|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.5|||||TWO_SIDED|95.0|-5.8|4.9|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||4.9|-5.8|
82623119|NCT01170221|164961814|NON_INFERIORITY_OR_EQUIVALENCE|A two-sided 95% CI was calculated for the observed differences in the clinical success rate based on the Investigator's assessment of clinical response at the PTE visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline. Noninferiority was concluded if the lower limit of the 95% CI was greater than -10% and the conditions of the hierarchical testing procedure were met.|Risk Difference (RD)|-0.8|||||TWO_SIDED|95.0|-4.6|3.0|||||Risk difference corresponds to the tedizolid clinical success rate minus the linezolid clinical success rate.|||3.0|-4.6|
82623120|NCT01170221|164961815|SUPERIORITY_OR_OTHER||Risk Difference (RD)|3.5|||||TWO_SIDED|95.0|-1.4|8.5|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the 48-72 Hour Visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.||8.5|-1.4|
82623121|NCT01170221|164961816|SUPERIORITY_OR_OTHER||Risk Difference (RD)|1.7|||||TWO_SIDED|95.0|-2.8|6.4|||||Risk difference corresponds to the tedizolid clinical response rate minus the linezolid clinical response rate.|A two-sided 95% CI was calculated for the observed differences in the clinical response rate based on the Investigator's assessment of clinical response at the Day 7 Visit using the method of Miettinen and Nurminen with stratification for the presence or absence of fever at baseline.||6.4|-2.8|
82623122|NCT02940626|164961837|OTHER|||||||0.547|||||||Wald Test on equality of proportions|||Subjects were analyzed for efficacy in the group to which they randomized. Sponsor defined outcomes were based on review of microbiology results from samples tested at the central lab. If sample was not sent to the central lab., determination was based on results from the local microbiology lab. In cases where both local \& central lab results were available, concordance was confirmed for S. aureus. Therefore, the analysis used local microbiology data in order to utilize a more complete dataset.||||.5470
82623123|NCT03488914|164961852|SUPERIORITY||Slope|-1.09||||0.19|TWO_SIDED|95.0|-2.78|0.56|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 3-months||||.56|-2.78|.19
82623124|NCT03488914|164961852|SUPERIORITY||negative binomial regression|-1.66||||0.12|TWO_SIDED|95.0|-3.78|0.48|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 6-months||||.48|-3.78|.12
82623125|NCT03488914|164961852|SUPERIORITY||Slope|0.01||||0.99|TWO_SIDED|95.0|-2.05|2.07|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 9-months||||2.07|-2.05|.99
82623126|NCT03488914|164961852|SUPERIORITY||Slope|-0.78||||0.42|TWO_SIDED|95.0|-2.67|1.11|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 12-months||||1.11|-2.67|.42
82623127|NCT03488914|164961852|SUPERIORITY||Slope|-1.09||||0.18|TWO_SIDED|95.0|-2.69|0.51|||negative binomial regression|Model testing whether condition predicted illicit drug use days at 15-months||||.51|-2.69|.18
82623128|NCT03488914|164961853|SUPERIORITY||Slope|0.03||||0.96|TWO_SIDED|95.0|-0.86|0.99|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 3-months||||.99|-.86|.96
82623129|NCT03488914|164961853|SUPERIORITY||Slope|-1.19||||0.03|TWO_SIDED|95.0|-2.25|-0.14|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 6-months||||-.14|-2.25|.03
82623130|NCT03488914|164961853|SUPERIORITY||Slope|0.13||||0.79|TWO_SIDED|95.0|-0.83|1.1|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 9-months||||1.10|-.83|.79
82623131|NCT03488914|164961853|SUPERIORITY||Slope|0.06||||0.91|TWO_SIDED|95.0|-0.99|1.11|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 12-months||||1.11|-.99|.91
82623132|NCT03488914|164961853|SUPERIORITY||Slope|-0.42||||0.44|TWO_SIDED|95.0|-1.5|0.65|||negative binomial regression|Model testing whether condition predicted condomless anal sex acts at 15-months||||.65|-1.50|.44
82623133|NCT03488914|164961854|SUPERIORITY||Slope|-0.26||||0.54|TWO_SIDED|95.0|-1.09|0.58|||negative binomial regression|Model testing whether condition predicted marijuana use days at 3-months||||.58|-1.09|.54
82623134|NCT03488914|164961854|SUPERIORITY||Slope|0.38||||0.49|TWO_SIDED|95.0|-0.7|1.46|||negative binomial regression|Model testing whether condition predicted marijuana use days at 6-months||||1.46|-.70|.49
82623135|NCT03488914|164961854|SUPERIORITY||Slope|-0.26||||0.59|TWO_SIDED|95.0|-1.18|0.66|||negative binomial regression|Model testing whether condition predicted marijuana use days at 9-months||||.66|-1.18|.59
82623136|NCT03488914|164961854|SUPERIORITY||Slope|0.26||||0.65|TWO_SIDED|95.0|-0.86|1.37|||negative binomial regression|Model testing whether condition predicted marijuana use days at 12-months||||1.37|-.86|.65
82623137|NCT03488914|164961854|SUPERIORITY||Slope|-0.36||||0.49|TWO_SIDED|95.0|-1.4|0.67|||negative binomial regression|Model testing whether condition predicted marijuana use days at 15-months||||.67|-1.40|.49
82623138|NCT03488914|164961855|SUPERIORITY||Slope|-0.36||||0.31|TWO_SIDED|995.0|-1.07|0.34|||negative binomial regression|Model testing whether condition predicted alcohol use days at 3-months||||.34|-1.07|.31
82623139|NCT03488914|164961855|SUPERIORITY||Slope|-0.71||||0.1|TWO_SIDED|95.0|-1.57|0.15|||negative binomial regression|Model testing whether condition predicted alcohol use days at 6-months||||.15|-1.57|.10
82623140|NCT03488914|164961855|SUPERIORITY||Slope|-0.53||||0.2|TWO_SIDED|95.0|-1.34|0.28|||negative binomial regression|Model testing whether condition predicted alcohol use days at 9-months||||.28|-1.34|.20
82623141|NCT03488914|164961855|SUPERIORITY||Slope|-0.25||||0.58|TWO_SIDED|95.0|-1.14|0.64|||negative binomial regression|Model testing whether condition predicted alcohol use days at 12-months||||.64|-1.14|.58
82623142|NCT03488914|164961855|SUPERIORITY||Slope|-0.45||||0.34|TWO_SIDED|95.0|-1.37|0.47|||negative binomial regression|Model testing whether condition predicted alcohol use days at 15-months||||.47|-1.37|.34
82623143|NCT00138424|164961870|SUPERIORITY_OR_OTHER||Spearman Correlation|0.24||||0.57|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK Cmax parameter||||0.57
82623144|NCT00138424|164961870|SUPERIORITY_OR_OTHER||Spearman Correlation|0.26||||0.53|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK Cmax parameter||||0.53
82623145|NCT00138424|164961870|SUPERIORITY_OR_OTHER||Spearman Correlation|-0.3||||0.62|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK Cmax parameter||||0.62
82623146|NCT00138424|164961870|SUPERIORITY_OR_OTHER||Spearman Correlation|0.8||||0.1|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK Cmax parameter||||0.10
82623147|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.07||||0.87|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC4 parameter||||0.87
82623148|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.31||||0.46|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC4 parameter||||0.46
82623149|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|-0.41||||0.49|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC4 parameter||||0.49
82623150|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.87||||0.05|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC4 parameter||||0.05
82623151|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.12||||0.78|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC12 parameter||||0.78
82623152|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.52||||0.18|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC12 parameter||||0.18
82623153|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.2||||0.75|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in plasma vs the PK AUC12 parameter||||0.75
82623154|NCT00138424|164961871|SUPERIORITY_OR_OTHER||Spearman Correlation|0.2||||0.75|||||||Spearman Correlation|||Spearman correlation co-efficient utilized to determine viral load changes in urine vs the PK AUC12 parameter||||0.75
82623155|NCT03589885|164961903|SUPERIORITY||Odds Ratio (OR)|1014.07|||<|0.0001|TWO_SIDED|95.0|68.83|14940.62|||Regression, Logistic|||PASI 75||14940.62|68.83|<0.0001
82623156|NCT03589885|164961903|SUPERIORITY||Odds Ratio (OR)|96.23|||<|0.0001|TWO_SIDED|95.0|17.22|537.78|||Regression, Logistic|||PASI 75||537.78|17.22|<0.0001
82623157|NCT03589885|164961904|SUPERIORITY||Odds Ratio (OR)|51.46|||<|0.0001|TWO_SIDED|95.0|11.95|221.64|||Regression, Logistic|||||221.64|11.95|<0.0001
82623158|NCT03589885|164961904|SUPERIORITY||Odds Ratio (OR)|29.7|||<|0.0001||95.0|7.38|119.57|||Regression, Logistic|||||119.57|7.38|<0.0001
82623159|NCT03589885|164961905|SUPERIORITY||Odds Ratio (OR)|88.46|||<|0.0001|TWO_SIDED|95.0|16.15|484.52|||Regression, Logistic|||||484.52|16.15|<0.0001
82623160|NCT03589885|164961905|SUPERIORITY||Odds Ratio (OR)|37.9|||<|0.0001|TWO_SIDED|95.0|7.6|189.01|||Regression, Logistic|||||189.01|7.60|<0.0001
82623161|NCT03103906|164961914|OTHER||Difference in proportion|2.56||||0.3334|TWO_SIDED|95.0|-19.99|25.07|||Chi-squared|||||25.07|-19.99|0.3334
82623162|NCT00764478|164961922|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-3.5|STANDARD_ERROR_OF_MEAN|1.41||0.0136|TWO_SIDED|95.0|-6.3|-0.7||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-0.7|-6.3|0.0136
82623163|NCT00764478|164961922|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.0|STANDARD_ERROR_OF_MEAN|1.43||0.01|TWO_SIDED|95.0|-6.9|-1.2||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary hypotheses|MMRM||Asenapine 10 mg BID minus Placebo BID|||-1.2|-6.9|0.0100
82499024|NCT04786990|164688977|OTHER|||||||0.9119||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.9119
82623164|NCT00764478|164961923|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.01|TWO_SIDED|95.0|-0.8|-0.2||Adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-0.2|-0.8|0.0100
82623165|NCT00764478|164961923|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.0052|TWO_SIDED|95.0|-0.9|-0.2||Adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|MMRM||Asenapine 10 mg BID minus Placebo BID|||-0.2|-0.9|0.0052
82499025|NCT04786990|164688978|OTHER|||||||0.014||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0140
82623166|NCT00764478|164961924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5352||||||Overall adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|Cochran-Mantel-Haenszel|||||||0.5352
82499026|NCT04786990|164688979|OTHER|||||||0.1542||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.1542
82623167|NCT00764478|164961924|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4274||||||Overall adjusted p-value from Hochberg's method for testing two secondary efficacy hypotheses|Cochran-Mantel-Haenszel|||||||0.4274
82623168|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-2.7|STANDARD_ERROR_OF_MEAN|0.78||0.0007|TWO_SIDED|95.0|-4.2|-1.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 2||-1.1|-4.2|0.0007
82623169|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.9|STANDARD_ERROR_OF_MEAN|0.79||0.0003|TWO_SIDED|95.0|-4.4|-1.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 2||-1.3|-4.4|0.0003
82623170|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.6|STANDARD_ERROR_OF_MEAN|0.91|<|0.0001|TWO_SIDED|95.0|-5.4|-1.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||-1.8|-5.4|<0.0001
82623171|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.7|STANDARD_ERROR_OF_MEAN|0.92|<|0.0001|TWO_SIDED|95.0|-5.5|-1.9|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 4||-1.9|-5.5|<0.0001
82623172|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.5|STANDARD_ERROR_OF_MEAN|1.12||0.0021|TWO_SIDED|95.0|-5.7|-1.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-1.3|-5.7|0.0021
82623173|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.2|STANDARD_ERROR_OF_MEAN|1.13||0.0002|TWO_SIDED|95.0|-6.4|-2.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-2.0|-6.4|0.0002
82623174|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|1.35||0.1907|TWO_SIDED|95.0|-4.4|0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-4.4|0.1907
82623175|NCT00764478|164961925|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.1|STANDARD_ERROR_OF_MEAN|1.37||0.0238|TWO_SIDED|95.0|-5.8|-0.4|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.4|-5.8|0.0238
82623176|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2922|||||||Cochran-Mantel-Haenszel|||Day 2||||0.2922
82623177|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1001|||||||Cochran-Mantel-Haenszel|||Day 2||||0.1001
82623178|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0011
82623179|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0011|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0011
82623180|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0194|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0194
82623181|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0841|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0841
82623182|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4858|||||||Cochran-Mantel-Haenszel|||Day 14||||0.4858
82623183|NCT00764478|164961926|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2496|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2496
82623184|NCT00764478|164961927|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2912|||||||Cochran-Mantel-Haenszel|||||||0.2912
82623185|NCT00764478|164961927|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1151|||||||Cochran-Mantel-Haenszel|||||||0.1151
82623186|NCT00764478|164961929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0019|||||||ANCOVA|||Day 7||||0.0019
82623187|NCT00764478|164961929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0045|||||||ANCOVA|||Day 7||||0.0045
82623188|NCT00764478|164961929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0112|||||||ANCOVA|||Day 21||||0.0112
82623189|NCT00764478|164961929|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|||||||ANCOVA|||Day 21||||0.0021
82623190|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.07|<|0.0001|TWO_SIDED|95.0|-0.4|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 2||-0.1|-0.4|<0.0001
82623191|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.07||0.0076|TWO_SIDED|95.0|-0.3|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 2||-0.1|-0.3|0.0076
82623192|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.1||0.0004|TWO_SIDED|95.0|-0.6|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||-0.2|-0.6|0.0004
82623193|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.1||0.004|TWO_SIDED|95.0|-0.5|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 4||-0.1|-0.5|0.0040
82623194|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.12||0.0061|TWO_SIDED|95.0|-0.6|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.1|-0.6|0.0061
82623195|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.13||0.0031|TWO_SIDED|95.0|-0.6|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.1|-0.6|0.0031
82623196|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1086|TWO_SIDED|95.0|-0.5|0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.1|-0.5|0.1086
82623197|NCT00764478|164961930|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.15||0.0376|TWO_SIDED|95.0|-0.6|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.0|-0.6|0.0376
82623198|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|||||||ANCOVA|||Day 2||||0.0005
82623199|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0026|||||||ANCOVA|||Day 2||||0.0026
82623200|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0007|||||||ANCOVA|||Day 4||||0.0007
82623201|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0002|||||||ANCOVA|||Day 4||||0.0002
82623202|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0387|||||||ANCOVA|||Day 7||||0.0387
82623203|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0059|||||||ANCOVA|||Day 7||||0.0059
82623204|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.311|||||||ANCOVA|||Day 14||||0.3110
82623205|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0613|||||||ANCOVA|||Day 14||||0.0613
82623206|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.064|||||||ANCOVA|||Day 21||||0.0640
82623207|NCT00764478|164961931|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0139|||||||ANCOVA|||Day 21||||0.0139
82623208|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9708|||||||ANCOVA|||Day 2||||0.9708
82623209|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7891|||||||ANCOVA|||Day 2||||0.7891
82623210|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5222|||||||ANCOVA|||Day 4||||0.5222
82623211|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8686|||||||ANCOVA|||Day 4||||0.8686
82623212|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0696|||||||ANCOVA|||Day 7||||0.0696
82623213|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0049|||||||ANCOVA|||Day 7||||0.0049
82623214|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0196|||||||ANCOVA|||Day 14||||0.0196
82623215|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0032|||||||ANCOVA|||Day 14||||0.0032
82623216|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0061|||||||ANCOVA|||Day 21||||0.0061
82623217|NCT00764478|164961932|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0012|||||||ANCOVA|||Day 21||||0.0012
82623218|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0147|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0147
82623219|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.072|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0720
82623220|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1213|||||||Cochran-Mantel-Haenszel|||Day 4||||0.1213
82623221|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0588|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0588
82623222|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.02|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0200
82623223|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0017|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0017
82623224|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2401|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2401
82623225|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0009|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0009
82623226|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0525|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0525
82623227|NCT00764478|164961933|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0025|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0025
82623228|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0377|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0377
82623229|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0771|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0771
82623230|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1264|||||||Cochran-Mantel-Haenszel|||Day 4||||0.1264
82623231|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.028|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0280
82623232|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0583|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0583
82623233|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0021|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0021
82623234|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0866|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0866
82623235|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0048|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0048
82623236|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0147|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0147
82623237|NCT00764478|164961934|SUPERIORITY_OR_OTHER_LEGACY|||||||0.003|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0030
82623238|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0104|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0104
82623239|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0005|||||||Cochran-Mantel-Haenszel|||Day 2||||0.0005
82623240|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0692
82623241|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0128|||||||Cochran-Mantel-Haenszel|||Day 4||||0.0128
82623242|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0809|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0809
82623243|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.026|||||||Cochran-Mantel-Haenszel|||Day 7||||0.0260
82623244|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2576|||||||Cochran-Mantel-Haenszel|||Day 14||||0.2576
82623245|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0077|||||||Cochran-Mantel-Haenszel|||Day 14||||0.0077
82623246|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.396|||||||Cochran-Mantel-Haenszel|||Day 21||||0.3960
82623247|NCT00764478|164961935|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0141|||||||Cochran-Mantel-Haenszel|||Day 21||||0.0141
82623248|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-3.0|STANDARD_ERROR_OF_MEAN|1.06||0.0056|TWO_SIDED|95.0|-5.1|-0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.9|-5.1|0.0056
82623249|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.9|STANDARD_ERROR_OF_MEAN|1.08||0.0068|TWO_SIDED|95.0|-5.0|-0.8|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.8|-5.0|0.0068
82623250|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.33||0.0743|TWO_SIDED|95.0|-5.0|0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.2|-5.0|0.0743
82623251|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.2|STANDARD_ERROR_OF_MEAN|1.35||0.0177|TWO_SIDED|95.0|-5.9|-0.6|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.6|-5.9|0.0177
82623252|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.8|STANDARD_ERROR_OF_MEAN|1.41||0.0081|TWO_SIDED|95.0|-6.6|-1.0|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-1.0|-6.6|0.0081
82623253|NCT00764478|164961936|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.2|STANDARD_ERROR_OF_MEAN|1.43||0.0247|TWO_SIDED|95.0|-6.1|-0.4|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.4|-6.1|0.0247
82623254|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.9808|TWO_SIDED|95.0|-0.6|0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.6|-0.6|0.9808
82623255|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.283|TWO_SIDED|95.0|-0.9|0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.3|-0.9|0.2830
82623256|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.32||0.9751|TWO_SIDED|95.0|-0.6|0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.6|-0.6|0.9751
82623257|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.33||0.7879|TWO_SIDED|95.0|-0.6|0.7|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.7|-0.6|0.7879
82623258|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.9654|TWO_SIDED|95.0|-0.8|0.7|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.7|-0.8|0.9654
82623259|NCT00764478|164961937|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.39||0.3917|TWO_SIDED|95.0|-0.4|1.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||1.1|-0.4|0.3917
82623260|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.41||0.012|TWO_SIDED|95.0|-1.8|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.2|-1.8|0.0120
82623261|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.42||0.0011|TWO_SIDED|95.0|-2.2|-0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.5|-2.2|0.0011
82623262|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6885|TWO_SIDED|95.0|-1.2|0.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.8|-1.2|0.6885
82623263|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.52||0.0398|TWO_SIDED|95.0|-2.1|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.1|-2.1|0.0398
82623264|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.51||0.0258|TWO_SIDED|95.0|-2.1|-0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.1|-2.1|0.0258
82623265|NCT00764478|164961938|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.5|STANDARD_ERROR_OF_MEAN|0.51||0.0031|TWO_SIDED|95.0|-2.5|-0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.5|-2.5|0.0031
82623266|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.9|STANDARD_ERROR_OF_MEAN|0.64||0.0033|TWO_SIDED|95.0|-3.2|-0.6|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.6|-3.2|0.0033
82623267|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.65||0.0622|TWO_SIDED|95.0|-2.5|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.1|-2.5|0.0622
82623268|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.1|STANDARD_ERROR_OF_MEAN|0.79||0.0083|TWO_SIDED|95.0|-3.6|-0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||-0.5|-3.6|0.0083
82623269|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|0.8||0.0064|TWO_SIDED|95.0|-3.8|-0.6|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.6|-3.8|0.0064
82623270|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.6|STANDARD_ERROR_OF_MEAN|0.84||0.0022|TWO_SIDED|95.0|-4.3|-0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.9|-4.3|0.0022
82623271|NCT00764478|164961939|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|0.85||0.0196|TWO_SIDED|95.0|-3.7|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-3.7|0.0196
82623272|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.1883|TWO_SIDED|95.0|-1.3|0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.3|-1.3|0.1883
82623273|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.4||0.1684|TWO_SIDED|95.0|-1.3|0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.2|-1.3|0.1684
82623274|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.46||0.9522|TWO_SIDED|95.0|-0.9|0.9|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-0.9|0.9522
82623275|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.47||0.0514|TWO_SIDED|95.0|-1.8|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.0|-1.8|0.0514
82623276|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.47||0.0531|TWO_SIDED|95.0|-1.8|0.0|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.0|-1.8|0.0531
82623277|NCT00764478|164961940|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.3|STANDARD_ERROR_OF_MEAN|0.48||0.0078|TWO_SIDED|95.0|-2.2|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-2.2|0.0078
82623278|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.32||0.7746|TWO_SIDED|95.0|-0.7|0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.5|-0.7|0.7746
82623279|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2754|TWO_SIDED|95.0|-1.0|0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.3|-1.0|0.2754
82623280|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.34||0.9109|TWO_SIDED|95.0|-0.6|0.7|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.7|-0.6|0.9109
82623281|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.7295|TWO_SIDED|95.0|-0.6|0.8|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.8|-0.6|0.7295
82623282|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.38||0.98|TWO_SIDED|95.0|-0.7|0.8|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.8|-0.7|0.9800
82623283|NCT00764478|164961941|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.38||0.5122|TWO_SIDED|95.0|-0.5|1.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||1.0|-0.5|0.5122
82623284|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.29||0.2191|TWO_SIDED|95.0|-0.9|0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-0.9|0.2191
82623285|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.29||0.0589|TWO_SIDED|95.0|-1.1|0.0|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.0|-1.1|0.0589
82623286|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.36||0.3683|TWO_SIDED|95.0|-1.0|0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.0|0.3683
82623287|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.37||0.0982|TWO_SIDED|95.0|-1.3|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||0.1|-1.3|0.0982
82623288|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.38||0.1969|TWO_SIDED|95.0|-1.3|0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.3|-1.3|0.1969
82623289|NCT00764478|164961942|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.39||0.5615|TWO_SIDED|95.0|-1.0|0.5|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||0.5|-1.0|0.5615
82623290|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.33||0.0101|TWO_SIDED|95.0|-1.5|-0.2|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.2|-1.5|0.0101
82623291|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.34||0.0146|TWO_SIDED|95.0|-1.5|-0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||-0.2|-1.5|0.0146
82623292|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.39||0.0861|TWO_SIDED|95.0|-1.4|0.1|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.1|-1.4|0.0861
82623293|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.39||0.0342|TWO_SIDED|95.0|-1.6|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.1|-1.6|0.0342
82623294|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.4||0.0037|TWO_SIDED|95.0|-2.0|-0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.4|-2.0|0.0037
82623295|NCT00764478|164961943|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.0096|TWO_SIDED|95.0|-1.9|-0.3|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.3|-1.9|0.0096
82623296|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||Least Square (LS) means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.32||0.0019|TWO_SIDED|95.0|-1.7|-0.4|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||-0.4|-1.7|0.0019
82623297|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.33||0.0791|TWO_SIDED|95.0|-1.2|0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 7||0.1|-1.2|0.0791
82623298|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.36||0.0006|TWO_SIDED|95.0|-2.0|-0.5|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||-0.5|-2.0|0.0006
82623299|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.37||0.0123|TWO_SIDED|95.0|-1.6|-0.2|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 14||-0.2|-1.6|0.0123
82623300|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.41||0.0054|TWO_SIDED|95.0|-2.0|-0.3|||MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||-0.3|-2.0|0.0054
82623301|NCT00764478|164961944|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.41||0.035|TWO_SIDED|95.0|-1.7|-0.1|||MMRM||Asenapine 10 mg BID minus Placebo BID|Day 21||-0.1|-1.7|0.0350
82623302|NCT03571256|164961945|OTHER||LS mean difference|-0.8||||0.6|TWO_SIDED|95.0|-3.9|2.3||Threshold for significance at 0.05 level.|Mixed Models Analysis|||||2.3|-3.9|0.600
82623303|NCT00868452|164961955|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6|STANDARD_ERROR_OF_MEAN|1.25||0.005|||||||Mixed Models Analysis|||||||0.005
82623304|NCT00868452|164961956|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.44|STANDARD_ERROR_OF_MEAN|0.15||0.003|||||||Mixed Models Analysis|||||||0.003
82623305|NCT00868452|164961957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.6|STANDARD_ERROR_OF_MEAN|1.01||0.012|||||||ANCOVA|||||||0.012
82623306|NCT01714817|164961980|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.08||||0.7264|TWO_SIDED|95.0|0.7077|1.6421|||Stratified logistic regression||Abatacept IV:Placebo IV 95%CI for Odds Ratio|||1.6421|0.7077|0.7264
82623307|NCT01714817|164961981|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.81|||||TWO_SIDED|95.0|0.4148|1.5956|||||Abatacept IV:Placebo IV|||1.5956|0.4148|
82623308|NCT01714817|164961982|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.17||||0.571|TWO_SIDED|95.0|-0.76|0.42|||Mixed Models Analysis||Adjusted mean difference from placebo|||0.42|-0.76|0.571
82499027|NCT04786990|164688980|OTHER|||||||0.0086||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4 versus Week 8||||0.0086
82623309|NCT01714817|164961983|SUPERIORITY_OR_OTHER_LEGACY||Adjusted mean difference|-0.09||||0.561|TWO_SIDED|95.0|-0.41|0.22|||Mixed Models Analysis||Adjusted mean difference from placebo|||0.22|-0.41|0.561
82623310|NCT01714817|164961986|SUPERIORITY||Estimate of Difference|1.651|||||TWO_SIDED|95.0|-7.595828|10.897784||||||CR - Day 365||10.897784|-7.595828|
82623311|NCT01714817|164961986|SUPERIORITY||Estimate of Difference|-0.8828|||||TWO_SIDED|95.0|-8.848056|7.082461||||||PR - Day 365||7.082461|-8.848056|
82623312|NCT01714817|164961986|SUPERIORITY||Estimate of Difference|-0.7682|||||TWO_SIDED|95.0|-10.446714|8.910353||||||NR - Day 365||8.910353|-10.446714|
82623313|NCT01714817|164961995|SUPERIORITY|Day 365|Hazard Ratio (HR)|1.43|||||TWO_SIDED|95.0|0.3251|6.2849||||||||6.2849|0.3251|
82623314|NCT01714817|164961995|SUPERIORITY|Day 729|Estimate of Difference vs Drug|3.4|||||TWO_SIDED|95.0|-8.4|15.1||||||||15.1|-8.4|
82623315|NCT01714817|164962015|SUPERIORITY||Estimate of Difference|-0.9682|||||TWO_SIDED|95.0|-4.760178|2.823876||||||Lupus treatment failure - Day 365||2.823876|-4.760178|
82623316|NCT01714817|164962015|SUPERIORITY||Estimate of Difference|-0.4707|||||TWO_SIDED|95.0|-4.588691|3.647365||||||Overall treatment failure - Day 365||3.647365|-4.588691|
82623317|NCT01714817|164962015|SUPERIORITY|Lupus treatment failure - Day 729|Estimate of Difference|0.8|||||TWO_SIDED|95.0|-4.5|6.1||||||||6.1|-4.5|
82623318|NCT01714817|164962015|SUPERIORITY|Overall treatment failure - Day 729|Estimate of Difference|2.7|||||TWO_SIDED|95.0|-3.3|8.8||||||||8.8|-3.3|
82623319|NCT02555657|164962058|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.0574|TWO_SIDED|95.0|0.57|1.06|||Regression, Cox|||||1.06|0.57|0.0574
82623320|NCT02555657|164962059|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.0728|TWO_SIDED|95.0|0.69|1.06|||Regression, Cox|||||1.06|0.69|0.0728
82623321|NCT02555657|164962060|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.3802|TWO_SIDED|95.0|0.82|1.15|||Regression, Cox|||||1.15|0.82|0.3802
82623322|NCT02555657|164962061|SUPERIORITY||Difference in percentages|8.3||||0.0457|TWO_SIDED|95.0|-1.4|18.4|||Miettinen & Nurminen method|||||18.4|-1.4|0.0457
82623323|NCT02555657|164962062|SUPERIORITY||Difference in percentages|2.9||||0.1752|TWO_SIDED|95.0|-3.3|9.2|||Miettinen & Nurminen method|||||9.2|-3.3|0.1752
82623324|NCT02555657|164962063|SUPERIORITY||Difference in percentages|-1.0||||0.6629|TWO_SIDED|95.0|-5.9|3.8|||Miettinen & Nurminen method|||||3.8|-5.9|0.6629
82623325|NCT02555657|164962064|SUPERIORITY||Hazard Ratio (HR)|1.14||||0.7936|TWO_SIDED|95.0|0.82|1.59|||Regression, Cox|||||1.59|0.82|0.7936
82623326|NCT02555657|164962065|SUPERIORITY||Hazard Ratio (HR)|1.35||||0.9964|TWO_SIDED|95.0|1.08|1.68|||Regression, Cox|||||1.68|1.08|0.9964
82623327|NCT02555657|164962066|SUPERIORITY||Hazard Ratio (HR)|1.6||||1|TWO_SIDED|95.0|1.33|1.92|||Regression, Cox|||||1.92|1.33|1.0000
82623328|NCT02555657|164962070|SUPERIORITY||Difference in percentages|2.3||||0.3388|TWO_SIDED|95.0|-8.7|13.5|||Miettinen & Nurminen method|||||13.5|-8.7|0.3388
82623329|NCT02555657|164962071|SUPERIORITY||Difference in percentages|-1.6||||0.6701|TWO_SIDED|95.0|-8.6|5.5|||Miettinen & Nurminen method|||||5.5|-8.6|0.6701
82623330|NCT02555657|164962072|SUPERIORITY||Difference in percentages|-6.5||||0.9877|TWO_SIDED|95.0|-12.2|-0.8|||Miettinen & Nurminen method|||||-0.8|-12.2|0.9877
82623331|NCT01948141|164962079|SUPERIORITY_OR_OTHER|||||||0.59|||||||Log Rank|||||||0.59
82623332|NCT01948141|164962082|SUPERIORITY_OR_OTHER|||||||0.36|||||||Log Rank|||||||0.36
82623333|NCT00599027|164962106|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0||||Endpoint after 28 days of treatment|ANCOVA|Overall treatment effect tested using F-test(alpha=0.05;two-sided). Diff between least square means of the 2 groups calculated with two-sided 95% C.I||||||0.001
82623334|NCT00475540|164962107|SUPERIORITY|Statistical analysis was performed using SAS 9.1 software. One patient did not receive the assigned mesh treatment because the surgeon felt there was inadequate vaginal caliber, so non mesh repair was performed. This subject was analyzed in the non mesh group for the 3-month and 1-year outcomes rather than intent-to-treat approach. This subject was lost to follow-up after 12 months and not included in the 3-year analysis.|||||<|0.05|||||||t-test, 2 sided|t-tests, Wilcoxon signed rank, Wilcoxon rank-sum tests continuous variables; X2 for categorical variables. Combined cure outcomes Fisher's exact test||Sample size primary outcome 1 year: 45 participants per arm, 20% difference success (70% no mesh and 90% mesh), alpha of .05 and 80% power, 15% loss to follow-up.||||<0.05
82623335|NCT00676793|164962127|SUPERIORITY_OR_OTHER||||||=|0.078||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no change, i.e. median change=0.0.||||=0.078
82623336|NCT00676793|164962128|SUPERIORITY_OR_OTHER||||||=|0.094||95.0|||||Wilcoxon (Mann-Whitney)|||The null hypothesis is that there is no change, i.e. median change=0.0.||||=0.094
82623337|NCT01617187|164962190|SUPERIORITY_OR_OTHER_LEGACY||Least Squares (LS) means difference|-1.3|STANDARD_ERROR_OF_MEAN|2.46||0.6043|TWO_SIDED|95.0|-6.1|3.6||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary efficacy hypotheses|Mixed Model Repeated Measures (MMRM)||Asenapine 2.5 mg BID minus Placebo BID|||3.6|-6.1|0.6043
82623338|NCT01617187|164962190|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-5.5|STANDARD_ERROR_OF_MEAN|2.32||0.0356|TWO_SIDED|95.0|-10.1|-1.0||Adjusted p-value from graphical approach to control Type 1 error rate among primary and secondary efficacy hypotheses|MMRM||Asenapine 5 mg BID minus Placebo BID|||-1.0|-10.1|0.0356
82623339|NCT01617187|164962190|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-5.4|STANDARD_ERROR_OF_MEAN|2.86||0.0587|TWO_SIDED|95.0|-11.1|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||0.2|-11.1|0.0587
82623340|NCT01617187|164962191|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.15||0.9083|TWO_SIDED|95.0|-0.3|0.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||0.3|-0.3|0.9083
82499028|NCT04786990|164688981|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82499029|NCT04786990|164688981|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82499030|NCT04786990|164688982|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 4||||<0.0001
82499031|NCT04786990|164688982|OTHER||||||<|0.0001||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||Week 8||||<0.0001
82499909|NCT00555321|164690566|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-20.7|||||TWO_SIDED|95.0|-35.5|-4.1|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||-4.1|-35.5|
82499910|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|||||TWO_SIDED|95.0|-14.5|15.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||15.3|-14.5|
82499032|NCT04786990|164688983|OTHER|||||||0.5582||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||"Week 4; Morning PR-ADHD-RS-5 Total score versus Evening PR-ADHD-RS-5 Total score"||||0.5582
82499033|NCT04786990|164688984|OTHER|||||||0.5061||||||The p-value generated from the statistical test for this efficacy measure is considered nominal. An adjustment for multiplicity was not performed, and as a result, there is no control of Type 1 error in the statistical analysis of these data.|t-test, 2 sided|||"Week 8; Morning PR-ADHD-RS-5 Total score versus Evening PR-ADHD-RS-5 Total score"||||0.5061
82499034|NCT01782222|164688985|SUPERIORITY_OR_OTHER||Least Square Mean|0.04|STANDARD_ERROR_OF_MEAN|1.24||0.977|TWO_SIDED|95.0|-2.42|2.5|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.50|-2.42|0.977
82499035|NCT01782222|164688985|SUPERIORITY_OR_OTHER||Least Square Mean|-0.22|STANDARD_ERROR_OF_MEAN|1.21||0.859|TWO_SIDED|95.0|-2.61|2.18|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.18|-2.61|0.859
82499911|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.9|||||TWO_SIDED|95.0|-25.7|8.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||8.8|-25.7|
82499036|NCT01782222|164688986|SUPERIORITY_OR_OTHER||Least Square Mean|-7.29|STANDARD_ERROR_OF_MEAN|2.53||0.005|TWO_SIDED|95.0|-12.3|-2.28|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-2.28|-12.30|0.005
82499037|NCT01782222|164688986|SUPERIORITY_OR_OTHER||Least Square Mean|-6.06|STANDARD_ERROR_OF_MEAN|2.45||0.015|TWO_SIDED|95.0|-10.9|-1.21|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.21|-10.90|0.015
82499038|NCT01782222|164688987|SUPERIORITY_OR_OTHER||Least Square Mean|-3.2|STANDARD_ERROR_OF_MEAN|2.46||0.2|TWO_SIDED|95.0|-8.17|1.76|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||1.76|-8.17|0.200
82499912|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-13.2|17.5|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||17.5|-13.2|
82499913|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-18.1|13.1|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||13.1|-18.1|
82623341|NCT01617187|164962191|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.14||0.0601|TWO_SIDED|95.0|-0.6|0.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||0.0|-0.6|0.0601
82623342|NCT01617187|164962191|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.18||0.3898|TWO_SIDED|95.0|-0.5|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||0.2|-0.5|0.3898
82499039|NCT01782222|164688987|SUPERIORITY_OR_OTHER||Least Square Mean|-3.04|STANDARD_ERROR_OF_MEAN|2.55||0.239|TWO_SIDED|95.0|-8.19|2.1|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.10|-8.19|0.239
82499040|NCT01782222|164688988|SUPERIORITY_OR_OTHER||Least Square Mean|-2.09|STANDARD_ERROR_OF_MEAN|3.23||0.519|TWO_SIDED|95.0|-8.48|4.31|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||4.31|-8.48|0.519
82499914|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.0|||||TWO_SIDED|95.0|-29.4|6.2|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||6.2|-29.4|
82623343|NCT01617187|164962192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.37||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||||0.3700
82623344|NCT01617187|164962192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1708||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Confirmative testing of asenapine versus placebo for this measure was to be performed only if both asenapine doses were statistically superior to placebo in reduction from baseline in PANSS Total Score (Primary outcome measure)||||0.1708
82623345|NCT01617187|164962192|SUPERIORITY_OR_OTHER_LEGACY|||||||0.262||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||||||0.2620
82623346|NCT01617187|164962193|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.6||0.0491|TWO_SIDED|95.0|-2.4|0.0||p-value adjusted for multiple comparisons using Hochberg's method|MMRM||Asenapine 2.5 mg BID minus Olanzapine 15 mg QD|||-0.0|-2.4|0.0491
82623347|NCT01617187|164962193|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.57||0.0491|TWO_SIDED|95.0|-2.3|0.0||p-value adjusted for multiple comparisons using Hochberg's method|MMRM||Asenapine 5 mg BID minus Olanzapine 15 mg QD|||-0.0|-2.3|0.0491
82623348|NCT01617187|164962193|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.51||0.0567|TWO_SIDED|95.0|0.0|2.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|||2.0|-0.0|0.0567
82623349|NCT01617187|164962193|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.48||0.0391|TWO_SIDED|95.0|0.0|1.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|||1.9|0.0|0.0391
82623350|NCT01617187|164962193|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|2.2|STANDARD_ERROR_OF_MEAN|0.58||0.0003|TWO_SIDED|95.0|1.0|3.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|||3.3|1.0|0.0003
82623351|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.8|STANDARD_ERROR_OF_MEAN|1.09||0.4849|TWO_SIDED|95.0|-1.4|2.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||2.9|-1.4|0.4849
82623352|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|1.06||0.8902|TWO_SIDED|95.0|-2.2|1.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.9|-2.2|0.8902
82623353|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.36||0.5826|TWO_SIDED|95.0|-3.4|1.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.9|-3.4|0.5826
82623354|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|1.61||0.9271|TWO_SIDED|95.0|-3.3|3.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||3.0|-3.3|0.9271
82623355|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|1.56||0.1902|TWO_SIDED|95.0|-5.1|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||1.0|-5.1|0.1902
82623356|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|2.0||0.271|TWO_SIDED|95.0|-6.2|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.7|-6.2|0.2710
82623357|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|1.79||0.6773|TWO_SIDED|95.0|-2.8|4.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||4.3|-2.8|0.6773
82623358|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|1.72||0.2895|TWO_SIDED|95.0|-5.2|1.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.6|-5.2|0.2895
82623359|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.7|STANDARD_ERROR_OF_MEAN|2.18||0.4261|TWO_SIDED|95.0|-6.0|2.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||2.6|-6.0|0.4261
82623360|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.3|STANDARD_ERROR_OF_MEAN|2.13||0.5505|TWO_SIDED|95.0|-2.9|5.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||5.5|-2.9|0.5505
82623361|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.03||0.4286|TWO_SIDED|95.0|-5.6|2.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||2.4|-5.6|0.4286
82623362|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|2.56||0.4423|TWO_SIDED|95.0|-7.0|3.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||3.1|-7.0|0.4423
82623363|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|3.2|STANDARD_ERROR_OF_MEAN|2.3||0.1691|TWO_SIDED|95.0|-1.4|7.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||7.7|-1.4|0.1691
82623364|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.17||0.4682|TWO_SIDED|95.0|-5.8|2.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||2.7|-5.8|0.4682
82623365|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|2.71||0.4961|TWO_SIDED|95.0|-7.2|3.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||3.5|-7.2|0.4961
82623366|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|2.26||0.4697|TWO_SIDED|95.0|-6.1|2.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||2.8|-6.1|0.4697
82623367|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-3.6|STANDARD_ERROR_OF_MEAN|2.14||0.0947|TWO_SIDED|95.0|-7.8|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.6|-7.8|0.0947
82623368|NCT01617187|164962194|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-4.9|STANDARD_ERROR_OF_MEAN|2.68||0.0675|TWO_SIDED|95.0|-10.2|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.4|-10.2|0.0675
82623369|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1736||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.1736
82623370|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1736||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.1736
82623371|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.285||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.2850
82499041|NCT01782222|164688988|SUPERIORITY_OR_OTHER||Least Square Mean|-5.06|STANDARD_ERROR_OF_MEAN|3.15||0.111|TWO_SIDED|95.0|-11.29|1.17|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||1.17|-11.29|0.111
82499915|NCT00555321|164690567|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-16.9|15.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||15.3|-16.9|
82623372|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.329||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.3290
82623373|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6938||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.6938
82623374|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1105||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.1105
82623375|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6804||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.6804
82623376|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9704||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.9704
82623377|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6604||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.6604
82623378|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2447||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.2447
82623379|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4834||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.4834
82623380|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9189||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.9189
82623381|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.437||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.4370
82623382|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2894||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.2894
82623383|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6953||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.6953
82623384|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4892||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.4892
82623385|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1954||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.1954
82623386|NCT01617187|164962195|SUPERIORITY_OR_OTHER_LEGACY|||||||0.799||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.7990
82623387|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.07||0.4255|TWO_SIDED|95.0|-0.1|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.2|-0.1|0.4255
82623388|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.06||0.9564|TWO_SIDED|95.0|-0.1|0.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.1|-0.1|0.9564
82623389|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.08||0.6363|TWO_SIDED|95.0|-0.2|0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.1|-0.2|0.6363
82623390|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.1||0.8759|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.8759
82623391|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.09||0.9598|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.9598
82623392|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.12||0.9789|TWO_SIDED|95.0|-0.2|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.2|-0.2|0.9789
82623393|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.4671|TWO_SIDED|95.0|-0.3|0.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||0.1|-0.3|0.4671
82623394|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.11||0.6359|TWO_SIDED|95.0|-0.3|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.2|-0.3|0.6359
82623395|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.14||0.5454|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.2|-0.4|0.5454
82623396|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.4188|TWO_SIDED|95.0|-0.2|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||0.4|-0.2|0.4188
82623397|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.5318|TWO_SIDED|95.0|-0.3|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.2|-0.3|0.5318
82623398|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.16||0.5683|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.2|-0.4|0.5683
82623399|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.14||0.2972|TWO_SIDED|95.0|-0.1|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||0.4|-0.1|0.2972
82623400|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.482|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.2|-0.4|0.4820
82623401|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.17||0.9901|TWO_SIDED|95.0|-0.3|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.3|-0.3|0.9901
82623402|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.15||0.6682|TWO_SIDED|95.0|-0.4|0.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.2|-0.4|0.6682
82623403|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.14||0.1111|TWO_SIDED|95.0|-0.5|0.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.1|-0.5|0.1111
82623404|NCT01617187|164962196|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.17||0.24|TWO_SIDED|95.0|-0.5|0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.1|-0.5|0.2400
82623405|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6205||||||P-value from Cochran Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.6205
82623406|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4829||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.4829
82623407|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3945||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 4||||0.3945
82623408|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4076||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.4076
82623409|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.969||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.9690
82623410|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.117||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 7||||0.1170
82623411|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5088||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.5088
82623412|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3426||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.3426
82623413|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0762||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 14||||0.0762
82623414|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5531||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.5531
82623415|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4875||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.4875
82623416|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0692||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 21||||0.0692
82623417|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7482||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.7482
82623418|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8037||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.8037
82623419|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0859||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 28||||0.0859
82623420|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.585||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.5850
82499042|NCT01782222|164688989|SUPERIORITY_OR_OTHER||Least Square Mean|-3.62|STANDARD_ERROR_OF_MEAN|1.9||0.06|TWO_SIDED|95.0|-7.39|0.15|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||0.15|-7.39|0.060
82499043|NCT01782222|164688989|SUPERIORITY_OR_OTHER||Least Square Mean|-3.88|STANDARD_ERROR_OF_MEAN|1.8||0.034|TWO_SIDED|95.0|-7.46|-0.3|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||-0.30|-7.46|0.034
82623421|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9698||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.9698
82623422|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0132||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 35||||0.0132
82623423|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7129||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.7129
82623424|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5074||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.5074
82623425|NCT01617187|164962197|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||P-value from Cochran-Mantel-Haenszel test with an adjustment for pooled center|Cochran-Mantel-Haenszel|||Day 42||||0.0040
82623426|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.4||0.8829|TWO_SIDED|95.0|-0.7|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.8|-0.7|0.8829
82623427|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.39||0.5488|TWO_SIDED|95.0|-0.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-0.5|0.5488
82623428|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.783|TWO_SIDED|95.0|-1.1|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.8|-1.1|0.7830
82623429|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.45||0.807|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.8|-1.0|0.8070
82623430|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.44||0.528|TWO_SIDED|95.0|-1.1|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.6|-1.1|0.5280
82623431|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.57||0.4025|TWO_SIDED|95.0|-1.6|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.6|-1.6|0.4025
82623432|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6471|TWO_SIDED|95.0|-0.8|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.2|-0.8|0.6471
82623433|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.2504|TWO_SIDED|95.0|-1.5|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.5|0.2504
82623434|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.9223|TWO_SIDED|95.0|-1.2|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-1.2|0.9223
82623435|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.8839|TWO_SIDED|95.0|-1.0|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.2|-1.0|0.8839
82623436|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.54||0.8077|TWO_SIDED|95.0|-1.2|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-1.2|0.8077
82623437|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.68||0.6216|TWO_SIDED|95.0|-1.0|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.7|-1.0|0.6216
82623438|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.61||0.4248|TWO_SIDED|95.0|-0.7|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.7|-0.7|0.4248
82623439|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.7667|TWO_SIDED|95.0|-1.3|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.0|-1.3|0.7667
82623440|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.72||0.6282|TWO_SIDED|95.0|-1.1|1.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.8|-1.1|0.6282
82623441|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.65||0.315|TWO_SIDED|95.0|-1.9|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.6|-1.9|0.3150
82623442|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.61||0.1908|TWO_SIDED|95.0|-2.0|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.4|-2.0|0.1908
82623443|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.77||0.3128|TWO_SIDED|95.0|-2.3|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.7|-2.3|0.3128
82623444|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.8812|TWO_SIDED|95.0|-1.5|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.3|-1.5|0.8812
82623445|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.69||0.1143|TWO_SIDED|95.0|-2.4|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-2.4|0.1143
82623446|NCT01617187|164962198|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.84||0.4418|TWO_SIDED|95.0|-2.3|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.0|-2.3|0.4418
82623447|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.4||0.216|TWO_SIDED|95.0|-0.3|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.3|-0.3|0.2160
82623448|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.39||0.9494|TWO_SIDED|95.0|-0.7|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.8|-0.7|0.9494
82623449|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.5||0.1834|TWO_SIDED|95.0|-1.6|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.3|-1.6|0.1834
82499044|NCT01782222|164688990|SUPERIORITY_OR_OTHER||Least Square Mean|-0.38|STANDARD_ERROR_OF_MEAN|0.39||0.334|TWO_SIDED|95.0|-1.16|0.4|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||0.40|-1.16|0.334
82623450|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.6347|TWO_SIDED|95.0|-0.8|1.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.3|-0.8|0.6347
82623451|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.51||0.6917|TWO_SIDED|95.0|-1.2|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.8|-1.2|0.6917
82623452|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.66||0.1431|TWO_SIDED|95.0|-2.3|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.3|-2.3|0.1431
82623453|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.61||0.6267|TWO_SIDED|95.0|-0.9|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.5|-0.9|0.6267
82623454|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.58||0.726|TWO_SIDED|95.0|-1.3|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-1.3|0.7260
82623455|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.74||0.3326|TWO_SIDED|95.0|-2.2|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.7|-2.2|0.3326
82623456|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.5|STANDARD_ERROR_OF_MEAN|0.72||0.4575|TWO_SIDED|95.0|-0.9|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.9|-0.9|0.4575
82623457|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.68||0.493|TWO_SIDED|95.0|-1.8|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-1.8|0.4930
82623458|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.86||0.1886|TWO_SIDED|95.0|-2.8|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.6|-2.8|0.1886
82623459|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.9|STANDARD_ERROR_OF_MEAN|0.8||0.2643|TWO_SIDED|95.0|-0.7|2.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.5|-0.7|0.2643
82623460|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.76||0.3516|TWO_SIDED|95.0|-2.2|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.8|-2.2|0.3516
82623461|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|0.94||0.2068|TWO_SIDED|95.0|-3.1|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.7|-3.1|0.2068
82623462|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.82||0.7284|TWO_SIDED|95.0|-1.3|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.9|-1.3|0.7284
82623463|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.77||0.2698|TWO_SIDED|95.0|-2.4|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.7|-2.4|0.2698
82623464|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.96||0.151|TWO_SIDED|95.0|-3.3|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.5|-3.3|0.1510
82623465|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.88||0.8039|TWO_SIDED|95.0|-2.0|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.5|-2.0|0.8039
82623466|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.8|STANDARD_ERROR_OF_MEAN|0.83||0.0306|TWO_SIDED|95.0|-3.5|-0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||-0.2|-3.5|0.0306
82623467|NCT01617187|164962199|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.1|STANDARD_ERROR_OF_MEAN|1.03||0.0406|TWO_SIDED|95.0|-4.1|-0.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||-0.1|-4.1|0.0406
82623468|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.66||0.7819|TWO_SIDED|95.0|-1.1|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.5|-1.1|0.7819
82623469|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.65||0.703|TWO_SIDED|95.0|-1.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-1.5|0.7030
82623470|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.83||0.952|TWO_SIDED|95.0|-1.7|1.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.6|-1.7|0.9520
82623471|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.95||0.7907|TWO_SIDED|95.0|-2.1|1.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.6|-2.1|0.7907
82623472|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.91||0.1391|TWO_SIDED|95.0|-3.1|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.4|-3.1|0.1391
82623473|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.18||0.4901|TWO_SIDED|95.0|-3.1|1.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.5|-3.1|0.4901
82623474|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|1.0||0.8079|TWO_SIDED|95.0|-1.7|2.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||2.2|-1.7|0.8079
82623475|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.95||0.3889|TWO_SIDED|95.0|-2.7|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.1|-2.7|0.3889
82623476|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.21||0.3907|TWO_SIDED|95.0|-3.4|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-3.4|0.3907
82623477|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|1.15||0.5363|TWO_SIDED|95.0|-1.5|3.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||3.0|-1.5|0.5363
82623478|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|1.09||0.5075|TWO_SIDED|95.0|-2.9|1.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.4|-2.9|0.5075
82623479|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.38||0.4526|TWO_SIDED|95.0|-3.7|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.7|-3.7|0.4526
82623480|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.8|STANDARD_ERROR_OF_MEAN|1.26||0.1548|TWO_SIDED|95.0|-0.7|4.3||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||4.3|-0.7|0.1548
82623481|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|1.19||0.6589|TWO_SIDED|95.0|-2.9|1.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.8|-2.9|0.6589
82623482|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|1.48||0.5171|TWO_SIDED|95.0|-3.9|2.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||2.0|-3.9|0.5171
82623483|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.2|STANDARD_ERROR_OF_MEAN|1.2||0.3133|TWO_SIDED|95.0|-3.6|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.2|-3.6|0.3133
82623484|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|1.13||0.1723|TWO_SIDED|95.0|-3.8|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.7|-3.8|0.1723
82623485|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.6|STANDARD_ERROR_OF_MEAN|1.42||0.0663|TWO_SIDED|95.0|-5.4|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.2|-5.4|0.0663
82623486|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|1.32||0.5128|TWO_SIDED|95.0|-3.5|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.7|-3.5|0.5128
82623487|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.2|STANDARD_ERROR_OF_MEAN|1.24||0.0842|TWO_SIDED|95.0|-4.6|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-4.6|0.0842
82623488|NCT01617187|164962200|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.4|STANDARD_ERROR_OF_MEAN|1.52||0.1217|TWO_SIDED|95.0|-5.4|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.6|-5.4|0.1217
82623489|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.7|STANDARD_ERROR_OF_MEAN|0.39||0.0584|TWO_SIDED|95.0|0.0|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.5|-0.0|0.0584
82623490|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.38||0.5197|TWO_SIDED|95.0|-0.5|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||1.0|-0.5|0.5197
82623491|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.49||0.9693|TWO_SIDED|95.0|-0.9|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||1.0|-0.9|0.9693
82623492|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.56||0.6161|TWO_SIDED|95.0|-0.8|1.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.4|-0.8|0.6161
82623493|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.54||0.788|TWO_SIDED|95.0|-1.2|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.9|-1.2|0.7880
82623494|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.7||0.5526|TWO_SIDED|95.0|-1.8|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||1.0|-1.8|0.5526
82623495|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.67||0.7647|TWO_SIDED|95.0|-1.1|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.5|-1.1|0.7647
82623496|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.64||0.89|TWO_SIDED|95.0|-1.2|1.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||1.3|-1.2|0.8900
82623497|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.81||0.7097|TWO_SIDED|95.0|-1.9|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.3|-1.9|0.7097
82623498|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.76||0.4601|TWO_SIDED|95.0|-0.9|2.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||2.1|-0.9|0.4601
82623499|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.72||0.6288|TWO_SIDED|95.0|-1.8|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.1|-1.8|0.6288
82623500|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.91||0.6099|TWO_SIDED|95.0|-2.3|1.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.3|-2.3|0.6099
82623501|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.9|STANDARD_ERROR_OF_MEAN|0.82||0.279|TWO_SIDED|95.0|-0.7|2.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.5|-0.7|0.2790
82623502|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.77||0.4253|TWO_SIDED|95.0|-2.1|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.9|-2.1|0.4253
82623503|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.0|STANDARD_ERROR_OF_MEAN|0.96||0.3014|TWO_SIDED|95.0|-2.9|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.9|-2.9|0.3014
82623504|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.87||0.972|TWO_SIDED|95.0|-1.7|1.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.7|-1.7|0.9720
82623505|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.82||0.4758|TWO_SIDED|95.0|-2.2|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||1.0|-2.2|0.4758
82623506|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|1.03||0.4419|TWO_SIDED|95.0|-2.8|1.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||1.2|-2.8|0.4419
82623507|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.91||0.4762|TWO_SIDED|95.0|-2.4|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-2.4|0.4762
82623508|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.4|STANDARD_ERROR_OF_MEAN|0.86||0.1046|TWO_SIDED|95.0|-3.1|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-3.1|0.1046
82623509|NCT01617187|164962201|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|1.06||0.1411|TWO_SIDED|95.0|-3.7|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.5|-3.7|0.1411
82623510|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.2754|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.4|-1.2|0.2754
82623511|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.39||0.85|TWO_SIDED|95.0|-0.8|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.7|-0.8|0.8500
82623512|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.8439|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.9|-1.1|0.8439
82623513|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.51||0.4741|TWO_SIDED|95.0|-1.4|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.6|-1.4|0.4741
82623514|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.49||0.2158|TWO_SIDED|95.0|-1.6|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.4|-1.6|0.2158
82623515|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.63||0.506|TWO_SIDED|95.0|-1.7|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.8|-1.7|0.5060
82623516|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.56||0.9956|TWO_SIDED|95.0|-1.1|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.1|-1.1|0.9956
82623517|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.53||0.1624|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.3|-1.8|0.1624
82623518|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.68||0.7662|TWO_SIDED|95.0|-1.5|1.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||1.1|-1.5|0.7662
82623519|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.61||0.8363|TWO_SIDED|95.0|-1.3|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.1|-1.3|0.8363
82623520|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.2388|TWO_SIDED|95.0|-1.8|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.5|-1.8|0.2388
82623521|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.73||0.9435|TWO_SIDED|95.0|-1.5|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.4|-1.5|0.9435
82623522|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.7||0.4267|TWO_SIDED|95.0|-0.8|1.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.9|-0.8|0.4267
82623523|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.681|TWO_SIDED|95.0|-1.6|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.0|-1.6|0.6810
82623524|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.82||0.7673|TWO_SIDED|95.0|-1.4|1.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.9|-1.4|0.7673
82623525|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.7||0.483|TWO_SIDED|95.0|-1.9|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.9|-1.9|0.4830
82623526|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.66||0.2128|TWO_SIDED|95.0|-2.1|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.5|-2.1|0.2128
82623527|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.83||0.1756|TWO_SIDED|95.0|-2.8|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.5|-2.8|0.1756
82623528|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.72||0.4246|TWO_SIDED|95.0|-0.8|2.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||2.0|-0.8|0.4246
82623529|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.68||0.2873|TWO_SIDED|95.0|-2.1|0.6||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.6|-2.1|0.2873
82623530|NCT01617187|164962202|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.83||0.7308|TWO_SIDED|95.0|-1.9|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.4|-1.9|0.7308
82623531|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.32||0.2116|TWO_SIDED|95.0|-0.2|1.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||1.0|-0.2|0.2116
82623532|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.31||0.9039|TWO_SIDED|95.0|-0.6|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.7|-0.6|0.9039
82623533|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.2959|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.4|-1.2|0.2959
82623534|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.44||0.5909|TWO_SIDED|95.0|-1.1|0.6||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.6|-1.1|0.5909
82623535|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1489|TWO_SIDED|95.0|-1.4|0.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.2|-1.4|0.1489
82623536|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.9|STANDARD_ERROR_OF_MEAN|0.54||0.1|TWO_SIDED|95.0|-2.0|0.2||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.2|-2.0|0.1000
82623537|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.49||0.783|TWO_SIDED|95.0|-0.8|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.1|-0.8|0.7830
82623538|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.47||0.2679|TWO_SIDED|95.0|-1.4|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.4|0.2679
82499045|NCT01782222|164688990|SUPERIORITY_OR_OTHER||Least Square Mean|0.02|STANDARD_ERROR_OF_MEAN|0.38||0.968|TWO_SIDED|95.0|-0.74|0.77|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||0.77|-0.74|0.968
82499046|NCT01782222|164688991|SUPERIORITY_OR_OTHER||Least Square Mean|0.16|STANDARD_ERROR_OF_MEAN|1.26||0.899|TWO_SIDED|95.0|-2.34|2.66|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||2.66|-2.34|0.899
82623539|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.2321|TWO_SIDED|95.0|-1.9|0.5||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.5|-1.9|0.2321
82623540|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.56||0.7368|TWO_SIDED|95.0|-1.3|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||0.9|-1.3|0.7368
82623541|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.53||0.4606|TWO_SIDED|95.0|-1.4|0.7||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.7|-1.4|0.4606
82623542|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.66||0.3241|TWO_SIDED|95.0|-2.0|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.7|-2.0|0.3241
82623543|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.57||0.986|TWO_SIDED|95.0|-1.1|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.1|-1.1|0.9860
82623544|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.53||0.189|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||0.3|-1.8|0.1890
82623545|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.67||0.303|TWO_SIDED|95.0|-2.0|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.6|-2.0|0.3030
82623546|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.055|TWO_SIDED|95.0|-2.3|0.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||0.0|-2.3|0.0550
82623547|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.55||0.0415|TWO_SIDED|95.0|-2.2|0.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||-0.0|-2.2|0.0415
82623548|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.9|STANDARD_ERROR_OF_MEAN|0.69||0.0058|TWO_SIDED|95.0|-3.3|-0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||-0.6|-3.3|0.0058
82499047|NCT01782222|164688991|SUPERIORITY_OR_OTHER||Least Square Mean|-0.33|STANDARD_ERROR_OF_MEAN|1.19||0.785|TWO_SIDED|95.0|-2.68|2.03|||ANCOVA|ANCOVA model for the change from Baseline to End of Treatment containing treatment and disease stage as factors, and Baseline value as covariate.||||2.03|-2.68|0.785
82623549|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.1|STANDARD_ERROR_OF_MEAN|0.62||0.0691|TWO_SIDED|95.0|-2.3|0.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||0.1|-2.3|0.0691
82499048|NCT01782222|164688992|SUPERIORITY_OR_OTHER||Least Square Mean|-4.96|STANDARD_ERROR_OF_MEAN|1.99||0.014|TWO_SIDED|95.0|-8.91|-1.01|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.01|-8.91|0.014
82623550|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-1.6|STANDARD_ERROR_OF_MEAN|0.58||0.0063|TWO_SIDED|95.0|-2.7|-0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||-0.5|-2.7|0.0063
82623551|NCT01617187|164962203|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-2.0|STANDARD_ERROR_OF_MEAN|0.71||0.0056|TWO_SIDED|95.0|-3.4|-0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||-0.6|-3.4|0.0056
82623552|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.7847|TWO_SIDED|95.0|-0.6|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.8|-0.6|0.7847
82623553|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.33||0.5859|TWO_SIDED|95.0|-0.5|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.8|-0.5|0.5859
82623554|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.43||0.6413|TWO_SIDED|95.0|-1.0|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.6|-1.0|0.6413
82623555|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.38||0.7307|TWO_SIDED|95.0|-0.6|0.9||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||0.9|-0.6|0.7307
82623556|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.37||0.7176|TWO_SIDED|95.0|-0.6|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.9|-0.6|0.7176
82623557|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.48||0.486|TWO_SIDED|95.0|-1.3|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.6|-1.3|0.4860
82623558|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.41||0.9321|TWO_SIDED|95.0|-0.8|0.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||0.8|-0.8|0.9321
82623559|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.39||0.7691|TWO_SIDED|95.0|-0.7|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.9|-0.7|0.7691
82623560|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.3|STANDARD_ERROR_OF_MEAN|0.5||0.5694|TWO_SIDED|95.0|-1.3|0.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.7|-1.3|0.5694
82623561|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.45||0.5583|TWO_SIDED|95.0|-0.6|1.2||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.2|-0.6|0.5583
82623562|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.43||0.7307|TWO_SIDED|95.0|-0.7|1.0||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||1.0|-0.7|0.7307
82623563|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.54||0.1715|TWO_SIDED|95.0|-1.8|0.3||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||0.3|-1.8|0.1715
82623564|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.4219|TWO_SIDED|95.0|-0.6|1.5||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||1.5|-0.6|0.4219
82623565|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.52||0.7437|TWO_SIDED|95.0|-0.9|1.2||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.2|-0.9|0.7437
82623566|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.65||0.311|TWO_SIDED|95.0|-1.9|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||0.6|-1.9|0.3110
82623567|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.9805|TWO_SIDED|95.0|-1.0|1.0||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.0|-1.0|0.9805
82623568|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.47||0.8741|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.8|-1.0|0.8741
82623569|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.6|STANDARD_ERROR_OF_MEAN|0.58||0.3288|TWO_SIDED|95.0|-1.7|0.6||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||0.6|-1.7|0.3288
82623570|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.56||0.9336|TWO_SIDED|95.0|-1.0|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-1.0|0.9336
82623571|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.7|STANDARD_ERROR_OF_MEAN|0.52||0.1722|TWO_SIDED|95.0|-1.7|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.3|-1.7|0.1722
82623572|NCT01617187|164962204|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.8|STANDARD_ERROR_OF_MEAN|0.64||0.1909|TWO_SIDED|95.0|-2.1|0.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||0.4|-2.1|0.1909
82623573|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.37||0.9851|TWO_SIDED|95.0|-0.7|0.7||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 4||0.7|-0.7|0.9851
82623574|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.2|STANDARD_ERROR_OF_MEAN|0.36||0.4912|TWO_SIDED|95.0|-0.9|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 4||0.5|-0.9|0.4912
82623575|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8559|TWO_SIDED|95.0|-1.0|0.8||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 4||0.8|-1.0|0.8559
82623576|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.41||0.5635|TWO_SIDED|95.0|-0.6|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 7||1.1|-0.6|0.5635
82623577|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.4||0.2321|TWO_SIDED|95.0|-1.3|0.3||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 7||0.3|-1.3|0.2321
82623578|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.52||0.8867|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 7||0.9|-1.1|0.8867
82623579|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.42||0.1499|TWO_SIDED|95.0|-0.2|1.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 14||1.4|-0.2|0.1499
82623580|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.4|STANDARD_ERROR_OF_MEAN|0.4||0.286|TWO_SIDED|95.0|-1.2|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 14||0.4|-1.2|0.2860
82623581|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.51||0.8978|TWO_SIDED|95.0|-1.1|0.9||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 14||0.9|-1.1|0.8978
82623582|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.0|STANDARD_ERROR_OF_MEAN|0.44||0.0283|TWO_SIDED|95.0|0.1|1.8||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 21||1.8|0.1|0.0283
82623583|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.41||0.8667|TWO_SIDED|95.0|-0.7|0.9||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 21||0.9|-0.7|0.8667
82623584|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.3|STANDARD_ERROR_OF_MEAN|0.52||0.5044|TWO_SIDED|95.0|-0.7|1.4||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 21||1.4|-0.7|0.5044
82623585|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|1.4|STANDARD_ERROR_OF_MEAN|0.49||0.004|TWO_SIDED|95.0|0.5|2.4||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 28||2.4|0.5|0.0040
82623586|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.46||0.633|TWO_SIDED|95.0|-0.7|1.1||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 28||1.1|-0.7|0.6330
82623587|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.6|STANDARD_ERROR_OF_MEAN|0.57||0.2981|TWO_SIDED|95.0|-0.5|1.7||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 28||1.7|-0.5|0.2981
82623588|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.2|STANDARD_ERROR_OF_MEAN|0.45||0.6556|TWO_SIDED|95.0|-0.7|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 35||1.1|-0.7|0.6556
82623589|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.43||0.2889|TWO_SIDED|95.0|-1.3|0.4||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 35||0.4|-1.3|0.2889
82623590|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.0|STANDARD_ERROR_OF_MEAN|0.53||0.9399|TWO_SIDED|95.0|-1.1|1.0||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 35||1.0|-1.1|0.9399
82623591|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|0.1|STANDARD_ERROR_OF_MEAN|0.54||0.8955|TWO_SIDED|95.0|-1.0|1.1||Unadjusted p-value|MMRM||Asenapine 2.5 mg BID minus Placebo BID|Day 42||1.1|-1.0|0.8955
82623592|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.5|STANDARD_ERROR_OF_MEAN|0.51||0.3681|TWO_SIDED|95.0|-1.5|0.5||Unadjusted p-value|MMRM||Asenapine 5 mg BID minus Placebo BID|Day 42||0.5|-1.5|0.3681
82623593|NCT01617187|164962205|SUPERIORITY_OR_OTHER_LEGACY||LS means difference|-0.1|STANDARD_ERROR_OF_MEAN|0.62||0.8215|TWO_SIDED|95.0|-1.4|1.1||Unadjusted p-value|MMRM||Olanzapine 15 mg BID minus Placebo BID|Day 42||1.1|-1.4|0.8215
82623594|NCT02554253|164962213|SUPERIORITY|Pilot study||||||0.23|||||||Fisher Exact|||Raw scores converted to z-scores using published references. Percentage of patients experiencing a decline of \> 1 standard deviation was compared between groups using Fisher's exact test. The outcome of postoperative cognitive dysfunction (POCD) was defined a-priori as a decline of decline of \>1 standard deviation (i.e. z-score decline of \> 1) on at least 2 neurocognitive tests and was compared between groups using Fisher's exact test.||||0.23
82623595|NCT02554253|164962214|SUPERIORITY|||||||0.08|||||||Fisher Exact|||||||0.08
82623596|NCT02554253|164962215|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82623597|NCT01316939|164962242|SUPERIORITY_OR_OTHER||Percent difference of participants|-4.0|||||TWO_SIDED|95.0|-12.9|4.8||||||Placebo Vs GSK1605786A 500 mg once daily at Week 28 and 52||4.8|-12.9|
82623598|NCT01316939|164962242|SUPERIORITY_OR_OTHER||Percent difference of participants|-6.6|||||TWO_SIDED|95.0|-14.8|1.6||||||Placebo Vs GSK1605786A 500 mg BID at Week 28 and 52||1.6|-14.8|
82623599|NCT01316939|164962243|SUPERIORITY_OR_OTHER||Percent difference of participants|-4.0|||||TWO_SIDED|95.0|-12.2|4.2||||||Placebo Vs GSK1605786A 500 mg once daily at Week 28 and 52||4.2|-12.2|
82623600|NCT01316939|164962243|SUPERIORITY_OR_OTHER||Percent difference of participants|-5.3|||||TWO_SIDED|95.0|-13.1|2.6||||||||2.6|-13.1|
82623601|NCT01779648|164962270|SUPERIORITY_OR_OTHER|||||||0.785||95.0|||||Chi-squared|||||||0.785
82623602|NCT01779648|164962271|SUPERIORITY_OR_OTHER|||||||0.195||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.195
82623603|NCT01779648|164962272|SUPERIORITY_OR_OTHER|||||||0.722||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.722
82623604|NCT01779648|164962273|SUPERIORITY_OR_OTHER|||||||0.158||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.158
82623605|NCT01779648|164962274|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||t-test, 2 sided|||Mean of right and left leg values were compared between the two device groups.||||0.301
82623606|NCT01779648|164962275|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline TVF (total volume flow) are controlled as fixed-effects parameters.||||||<0.001
82623607|NCT01779648|164962276|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline PVF (peak volume flow) are controlled as fixed-effects parameters.||||||<0.001
82623608|NCT01779648|164962277|SUPERIORITY_OR_OTHER|||||||0.929||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline PV (peak velocity)are controlled as fixed-effects parameters.||||||0.929
82623609|NCT01779648|164962279|SUPERIORITY_OR_OTHER|||||||0.008||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline peak volume flow are controlled as fixed-effects parameters.||||||0.008
82623610|NCT01779648|164962280|SUPERIORITY_OR_OTHER|||||||0.132||95.0|||||Mixed Models Analysis|Age, sex, body mass index, and baseline total volume flow are controlled as fixed-effects parameters.||||||0.132
82623611|NCT02119026|164962291|SUPERIORITY|||||||0.967|||||||Mantel Haenszel|||||||0.967
82623612|NCT02119026|164962292|SUPERIORITY|||||||0.474|||||||Mantel Haenszel|||||||0.474
82623613|NCT02119026|164962293|SUPERIORITY|||||||0.464|||||||Mantel Haenszel|||||||0.464
82623614|NCT02119026|164962294|SUPERIORITY|||||||0.854|||||||Fisher Exact|||||||0.854
82623615|NCT02119026|164962295|SUPERIORITY|||||||0.728|||||||Mantel Haenszel|||||||0.728
82623616|NCT02119026|164962296|SUPERIORITY|||||||0.668|||||||Mantel Haenszel|||||||0.668
82623617|NCT02119026|164962297|SUPERIORITY|||||||0.618|||||||Mantel Haenszel|||||||0.618
82623618|NCT02119026|164962298|SUPERIORITY|||||||0.792||||||The rate of overall response was measured as the response rate from randomization until the day of documented complete response (CR) or partial response (PR) (whichever status is recorded first). Analysis corresponds to numbers of CR and PR.|Wilcoxon (Mann-Whitney)|||||||0.792
82623619|NCT02119026|164962299|SUPERIORITY|||||||0.371||||||The rate of overall response was measured as the response rate from randomization until the day of documented complete response (CR) or partial response (PR) (whichever status is recorded first). Analysis corresponds to numbers of CR and PR.|Wilcoxon (Mann-Whitney)|||||||0.371
82623620|NCT00291499|164962310|SUPERIORITY||Mean Difference (Final Values)|-8.7||||0.016|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.016
82623621|NCT00291499|164962311|SUPERIORITY||Mean Difference (Final Values)|-2.14||||0.008|TWO_SIDED||||||t-test, 2 sided|||||||0.008
82623622|NCT00291499|164962312|SUPERIORITY|||||||0.043||||||Threshold p \<0.05|Cochran-Mantel-Haenszel|||||||0.043
82623623|NCT00291499|164962313|SUPERIORITY|||||||0.132||||||Threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.132
82623624|NCT00291499|164962314|SUPERIORITY|||||||0.031||||||Threshold p\<0.05|Wilcoxon (Mann-Whitney)|||||||0.031
82623625|NCT00291499|164962315|SUPERIORITY||Mean Difference (Final Values)|0.363|||<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.05
82623626|NCT04426890|164962336|EQUIVALENCE|Therapeutic equivalence was declared if the two-sided 90% confidence interval (CI) for the treatment difference was entirely within an equivalence margin of \[-2.5, 2.0\].|Mean Difference (Net)|0.7|||||TWO_SIDED|90.0|-0.22|1.63||||||The statistical analysis of mean change from baseline in ISS7 at Week 12 between CT-P39 300 mg treatment arm (Arm 1) and Xolair 300 mg treatment arm (Arm 2), using ANCOVA with multiple imputation based on the MAR assumption was performed for the mITT Set.||1.63|-0.22|
82623627|NCT03892707|164962365|SUPERIORITY|The between-group comparison on primary endpoint - change from baseline in pain intensity as measured on 0-10 points NRS scale at 10 days after the start of treatment was performed using analysis of covariance (ANCOVA). The difference between pain intensity at 10 days after the start of treatment and baseline (V3-V1) as response variable, treatment group as fixed factor and baseline pain intensity as a covariate was included into the model.|||||<|0.001|||||||ANCOVA|||"Since the superiority of one treatment over the other is investigated and taking into consideration that smaller negative values of the primary variable correspond to the greater reduction of pain, the statistical hypotheses are:~Null hypothesis (H0):~H0: μ2 - μ1 ≥ 0~Alternative hypothesis (HA):~HA: μ2 - μ1 \< 0, where μ1 и μ2 are the mean changes from baseline in pain intensity for (1) modern NSAIDs therapy and for (2) modern NSAIDs + Milgamma\\ Milgamma compositum therapy, correspondingly."||||<0.001
82623628|NCT03892707|164962366|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Changes from baseline in pain intensity measured on 0-10 points NRS scale at 5, 24 and 38 days after were compared between groups using ANCOVA models similar to those used for the analysis of the primary variable.||||<0.001
82623629|NCT03892707|164962367|SUPERIORITY||||||<|0.001|||||||ANCOVA|||||||<0.001
82623630|NCT03892707|164962368|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.|||||<|0.001|||||||Regression, Logistic|||For Visit 2 (5 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 2)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||<0.001
82623631|NCT03892707|164962368|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.|||||<|0.001|||||||Regression, Logistic|||For Visit 3 (10 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 3)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||<0.001
82623632|NCT03892707|164962368|SUPERIORITY|Between-group comparison was carried out using logistic regression with treatment group as fixed factor and baseline pain intensity as a covariate. Treatment effect was tested using the corresponding p-value.||||||0.061|||||||Regression, Logistic|||For Visit 4 (24 days after the start of treatment) relief in pain intensity was defined as 100%\*(pain intensity at baseline - pain intensity at Visit 4)/ pain intensity at baseline. The denominator for the proportion of patients was the number of patients with available pain intensity measurements after imputation using Last observation carried forward (LOCF) method.||||0.061
82623633|NCT03892707|164962369|SUPERIORITY||||||<|0.001|||||||ANCOVA|||Change from baseline in pain-related disability as measured by Roland Morris disability questionnaire at 10 days after the start of treatment was compared between groups using analysis of covariance (ANCOVA) model with treatment group as fixed factor and baseline value disability score as a covariate.||||<0.001
82623634|NCT03892707|164962370|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||Episode of pain flare-up was defined as presence of at least 1 day with pain following a period without pain lasting at least 4 weeks . The denominator for the proportion was the number of FAS patients who had at least one pain-free period with approximately 4 weeks duration registered during the study.||||<0.001
82623635|NCT03892707|164962371|SUPERIORITY||Difference in proportion|28.6|||||TWO_SIDED|95.0|-3.6|60.7||||||Difference in proportion of patients with at least one pain flare-up resulting in consultancy with physician||60.7|-3.6|
82623636|NCT03892707|164962371|SUPERIORITY||Difference in proportion|-17.1|||||TWO_SIDED|95.0|-51.6|17.4||||||Difference in proportion of patients with at least one pain flare-up resulting in disruption of daily activity||17.4|-51.6|
82623637|NCT03892707|164962371|SUPERIORITY||Difference in proportion|25.7|||||TWO_SIDED|95.0|-4.1|55.5||||||Difference in proportion of patients with at least one pain flare-up resulting in NSAIDs intake||55.5|-4.1|
82499049|NCT01782222|164688992|SUPERIORITY_OR_OTHER||Least Square Mean|-4.83|STANDARD_ERROR_OF_MEAN|1.92||0.013|TWO_SIDED|95.0|-8.63|-1.03|||ANCOVA|ANCOVA model for the change from Baseline to End of Maintenance containing treatment and disease stage as factors, and Baseline value as covariate.||||-1.03|-8.63|0.013
82499050|NCT03791489|164688997|SUPERIORITY||||||<|0.0001|||||||Wilcoxon (Mann-Whitney)|||||||<0.0001
82499051|NCT03791489|164688998|SUPERIORITY||||||<|0.03||||||Threshold for statistical significance = p\<0.05.|t-test, 2 sided|||||||<0.03
82499916|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|33.1|||||TWO_SIDED|95.0|15.8|50.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||50.6|15.8|
82499917|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|29.0|||||TWO_SIDED|95.0|11.4|46.3|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||46.3|11.4|
82623638|NCT03892707|164962372|SUPERIORITY|||||||0.986|||||||Wilcoxon (Mann-Whitney)|||NSAIDs intake during the study was analyzed. In order to calculate the total number of treatment days with NSAIDs, first, intersecting or adjacent records were collapsed, irrespective of the specific drug used; the duration of each of the resulting intake periods was determined as (End date - Start date + 1) and, finally, all individual duration values were summed up. In case medication intake was ongoing at the end of study, end date was imputed by the date of study completion.||||0.986
82623639|NCT03892707|164962375|SUPERIORITY|||||||0.921|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 5 days since the start of study treatment.||||0.921
82623640|NCT03892707|164962375|SUPERIORITY|||||||0.051|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 10 days since the start of study treatment||||0.051
82623641|NCT03892707|164962375|SUPERIORITY|||||||0.651|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 38 days since the start of study treatment||||0.651
82623642|NCT03892707|164962375|SUPERIORITY|||||||0.106|||||||Wilcoxon (Mann-Whitney)|||Comparison of patient satisfaction with treatment between treatment groups after 3 months since the start of study treatment||||0.106
82623643|NCT02151682|164962379|NON_INFERIORITY|A logistic regression model was fitted to the response using baseline pain, age group, treatment, and underlying pain condition as explanatory variables, followed by a Farrington-Manning test for non-inferiority, based on Full Analysis Set.|Risk Difference (RD)|-0.06||||0.079|TWO_SIDED|80.0|-0.19|0.06||The p-value is based on Farrington-Manning variance estimator using a pre-specified non-inferiority margin of -0.2. A 1-sided alpha of 0.1 was used. A p-value \<0.1 represents non-inferiority.|Farrington-Manning test|Non-inferiority of tapentadol prolonged-release versus morphine prolonged-release has been demonstrated.|A confidence interval for the risk difference (RD) completely above the pre-specified non-inferiority margin of -0.2 represents non-inferiority of tapentadol prolonged-release versus morphine prolonged-release.|||0.06|-0.19|0.0790
82623644|NCT01522443|164962398|SUPERIORITY_OR_OTHER|||||||0.773|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) was stratified by the Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||||0.773
82623645|NCT01522443|164962399|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|The Cochran-Mantel-Haenszel (CMH) Test was stratified by baslined Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||||<0.001
82623646|NCT01522443|164962400|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.7||||0.121|TWO_SIDED|95.0|0.44|1.1|||Log Rank|The Log-Rank Test was stratified by baseline Eastern Cooperative Oncology Group performance status and prior cabazitaxel use.||||1.10|0.44|0.121
82623647|NCT00318565|164962422|SUPERIORITY_OR_OTHER||Binomial distribution|93.3||||0.05|ONE_SIDED|95.0|90.1||||Exact binomial distribution|||An acute success rate of 88% is anticipated and the one-sided 95% lower confidence bound will be compared to 80%. The statistical hypothesis for the primary efficacy endpoint is evaluated as a one-tailed hypothesis at a = 0.05.|||90.1|.05
82623648|NCT00318565|164962423|SUPERIORITY_OR_OTHER||Binomial Distribution|1.5||||0.05|ONE_SIDED|95.0||7.0|||Exact Binomial Distribution|||The anticipated rate of the CSAE is 2.7% and the one-sided 95% upper confidence bound will be compared to 7%||7||.05
82623649|NCT05067452|164962456|SUPERIORITY||Slope|-0.092|STANDARD_ERROR_OF_MEAN|0.721||0.9|TWO_SIDED|95.0|-1.59|1.4|||ANCOVA|||||1.40|-1.59|0.900
82623650|NCT05067452|164962457|SUPERIORITY||Slope|1.37|STANDARD_ERROR_OF_MEAN|0.945||0.146|TWO_SIDED|95.0|-0.478|3.23|||Mixed Models Analysis|||||3.23|-0.478|0.146
82623651|NCT05067452|164962458|SUPERIORITY||Risk Difference (RD)|0.235|STANDARD_ERROR_OF_MEAN|0.212||0.281|TWO_SIDED|95.0|-0.207|0.677|||ANCOVA|Linear regression used with the binary outcome (linear probability model)||||0.677|-0.207|0.281
82623652|NCT05067452|164962459|SUPERIORITY||Risk Difference (RD)|0.354|STANDARD_ERROR_OF_MEAN|0.211||0.094|TWO_SIDED|95.0|-0.06|0.768|||Mixed Models Analysis|Linear regression used with the binary outcome (linear probability model)||||0.768|-0.060|0.094
82623653|NCT05067452|164962460|SUPERIORITY||Slope|2.18|STANDARD_ERROR_OF_MEAN|5.11||0.669|TWO_SIDED|95.0|-7.83|12.2|||Mixed Models Analysis|||||12.2|-7.83|0.669
82623654|NCT05067452|164962461|SUPERIORITY||Slope|-0.024|STANDARD_ERROR_OF_MEAN|0.367||0.949|TWO_SIDED|95.0|-0.695|0.743|||Mixed Models Analysis|||||0.743|-0.695|0.949
82623655|NCT05067452|164962462|SUPERIORITY||Slope|-0.54|STANDARD_ERROR_OF_MEAN|0.53||0.308|TWO_SIDED|95.0|-1.58|0.679|||Mixed Models Analysis|||||0.679|-1.58|0.308
82623656|NCT05067452|164962463|SUPERIORITY||Slope|-1.02|STANDARD_ERROR_OF_MEAN|1.91||0.593|TWO_SIDED|95.0|-4.77|0.499|||Mixed Models Analysis|||||0.499|-4.77|0.593
82623657|NCT05067452|164962464|SUPERIORITY||Slope|-2.63|STANDARD_ERROR_OF_MEAN|1.65||0.112|TWO_SIDED|95.0|-5.86|0.611|||Mixed Models Analysis|||||0.611|-5.86|0.112
82623658|NCT05067452|164962467|SUPERIORITY||Slope|-2.66|STANDARD_ERROR_OF_MEAN|2.85||0.349|TWO_SIDED|95.0|-8.25|2.92|||Mixed Models Analysis|||||2.92|-8.25|0.349
82623659|NCT00067470|164962468|SUPERIORITY_OR_OTHER||Mean Difference (Net)|92.0|STANDARD_ERROR_OF_MEAN|40.0||0.025||95.0|11.0|172.0|||Regression, Linear|||||172|11|0.025
82623660|NCT00067470|164962469|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.7|STANDARD_ERROR_OF_MEAN|2.9||0.053||95.0|-0.1|11.5|||Regression, Linear|The raw data were adjusted for the observed differences in baseline between the groups and fitted to a longitudinal repeated measures linear model.||||11.5|-0.1|0.053
82623661|NCT01135017|164962471|SUPERIORITY_OR_OTHER||Least Squares (LS) Mean difference|-59.13|STANDARD_ERROR_OF_MEAN|0.275||0.0015|TWO_SIDED|95.0|-76.322|-29.457||No adjustment for multiplicity was made. The priori threshold for statistical significance was ≤0.05.|ANCOVA|ANCOVA model on log-transformed AF burden data with treatment arm as a fixed effect term and baseline log-transformed AF burden as a covariate|"Percent change in AF burden with dronedarone relative to placebo~LS Mean difference from the ANCOVA model on log-transformed AF burden data was exponentiated to convert back to percent change."|"The planned sample size of 286 participants was estimated to have 70% power to detect a reduction in mean AF burden of 30% relative to the placebo group.~Due to the smaller-than-planned sample size, the power to detect this difference was estimated to be only 44%, based on the original assumption. However, the power to detect larger treatment effects (\>40% reduction) remained high and the posthoc power to detect a 60% reduction in AF burden was 99%."||-29.457|-76.322|0.0015
82623662|NCT01148693|164962477|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Fisher Exact|||Null hypothesis: Adding gentamicin to contrast medium during ERCP has no relation with postERCP cholangitis Power calculation: 80%||||<0.05
82499918|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|34.2|||||TWO_SIDED|95.0|16.9|51.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||51.5|16.9|
82623663|NCT02703987|164962486|SUPERIORITY||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.17||0.0801|TWO_SIDED|95.0|-0.04|0.67|||Mixed Models Analysis|||||0.67|-0.04|0.0801
82623664|NCT02703987|164962487|SUPERIORITY||Mean Difference (Net)|0.34|STANDARD_ERROR_OF_MEAN|0.18||0.0714|TWO_SIDED|95.0|-0.03|0.71|||Mixed Models Analysis|||||0.71|-0.03|0.0714
82623665|NCT02703987|164962488|SUPERIORITY||Mean Difference (Net)|9.56|STANDARD_ERROR_OF_MEAN|4.85||0.0609|TWO_SIDED|95.0|-0.48|19.6|||Mixed Models Analysis|||||19.6|-0.48|0.0609
82623666|NCT01167582|164962534|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 1 Post Randomization||||<0.001
82623667|NCT01167582|164962534|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 2 Post Randomization||||<0.001
82623668|NCT01167582|164962534|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||Day 3 Post Randomization||||<0.001
82623669|NCT01167582|164962535|SUPERIORITY_OR_OTHER||||||<|0.001|||||||t-test, 2 sided|||||||<0.001
82623670|NCT01167582|164962536|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|2.38|||||TWO_SIDED|95.0|0.99|5.73|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|||5.73|0.99|
82623671|NCT01167582|164962537|SUPERIORITY_OR_OTHER||Risk Difference (RD)|9.7||||||95.0|-5.3|24.7|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|||24.7|-5.3|
82623672|NCT01167582|164962538|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|7.13|||||TWO_SIDED|95.0|0.91|56.02|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|Mortality||56.02|0.91|
82623673|NCT01167582|164962538|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.43|||||TWO_SIDED|95.0|0.48|4.22|||||Restrictive Arm (numerator) compared to Liberal Arm (denominator)|Myocardial Infarction||4.22|0.48|
82623674|NCT00039741|164962569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-0.15|STANDARD_ERROR_OF_MEAN|0.13||0.26|TWO_SIDED|95.0|-0.41|0.11|||Interval regression|Adjusted for baseline HIV-1 RNA, age (\<3 years vs 3 years), origin (PACTG vs PENTA sites), and perinatal ART exposure versus no exposure.||||0.11|-0.41|0.26
82623675|NCT00039741|164962569|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.06|STANDARD_ERROR_OF_MEAN|0.13||0.56|TWO_SIDED|95.0|-0.2|0.32|||Interval regression|Adjusted for baseline HIV-1 RNA, age (\<3 years vs 3 years), origin (PACTG vs PENTA sites), and perinatal ART exposure versus no exposure.||||0.32|-0.20|0.56
82623676|NCT00507416|164962624|SUPERIORITY_OR_OTHER|||||||0.458||||||The global difference among arms was based on the Wald test.|Wald test|||||||0.458
82623677|NCT01021813|164962640|SUPERIORITY_OR_OTHER||Difference in Percentage|0.4|||||TWO_SIDED|95.0|-1.1|1.4|||Miettinen & Nurminen Method.|||The method of Miettinen and Nurminen was used to construct the confidence interval for the difference in the percentage of participants with any sleep paralysis AEs between the Suvorexant group and Placebo group .||1.4|-1.1|
82623678|NCT01021813|164962641|SUPERIORITY_OR_OTHER||Difference in Percentage|0.2||||0.482|TWO_SIDED|95.0|-1.3|1.1|||Miettinen & Nurminen Method.|||The method of Miettinen and Nurminen was used to construct the confidence interval for the difference in the percentage of participants with any complex sleep-related behaviors AEs between the Suvorexant group and Placebo group.||1.1|-1.3|0.482
82623679|NCT01021813|164962642|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.8||||0.508|TWO_SIDED|95.0|-3.9|1.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any falls AEs between the Suvorexant group and Placebo group.||1.5|-3.9|0.508
82623680|NCT01021813|164962643|SUPERIORITY_OR_OTHER||Difference in Percentage of AEs|0.8||||0.159|TWO_SIDED|95.0|-0.7|2.0|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any suicidal ideation/behavior AEs considered an ECI between the Suvorexant group and Placebo group.||2.0|-0.7|0.159
82623681|NCT01021813|164962644|SUPERIORITY_OR_OTHER||Difference in Percentage|0.8||||0.159|TWO_SIDED|95.0|-0.7|2.0|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any Hypnagogic/hypnopompic hallucinations AEs between the Suvorexant group and Placebo group.||2.0|-0.7|0.159
82623682|NCT01021813|164962645|SUPERIORITY_OR_OTHER||Difference in Percentage|-0.4||||0.767|TWO_SIDED|95.0|-3.8|2.2|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and construct the confidence interval for the difference in the percentage of participants with any selected AEs associated with potential abuse between the Suvorexant group and Placebo group.||2.2|-3.8|0.767
82623683|NCT01021813|164962646|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|-0.81||||0.567|TWO_SIDED|95.0|-5.1|3.1|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||3.1|-5.1|0.567
82623684|NCT01021813|164962646|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|-2.4||||0.185|TWO_SIDED|95.0|-7.3|1.6|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||1.6|-7.3|0.185
82623685|NCT01021813|164962646|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|-0.78||||0.68|TWO_SIDED|95.0|-5.6|3.9|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||3.9|-5.6|0.680
82623686|NCT01021813|164962646|SUPERIORITY_OR_OTHER||Difference in Percentage: Across Nights|0.0||||1|TWO_SIDED|95.0|-6.4|6.4|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with withdrawal symptoms across Nights 1, 2, and 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Suvorexant (DB Treatment)/Placebo (DB Discontinuation) group.||6.4|-6.4|1.000
82499478|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.15|STANDARD_ERROR_OF_MEAN|0.211||||90.0|-0.197|0.497|||ANCOVA|||Follow-up Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.497|-0.197|
82623687|NCT01021813|164962647|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|5.03||||0.365|TWO_SIDED|95.0|-5.8|15.8|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.8|-5.8|0.365
82499479|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.166|STANDARD_ERROR_OF_MEAN|0.198||||90.0|-0.16|0.492|||ANCOVA|||Follow-up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.492|-0.160|
82499480|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.069|STANDARD_ERROR_OF_MEAN|0.208||||90.0|-0.274|0.411|||ANCOVA|||Follow-up Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.411|-0.274|
82499919|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|12.0|||||TWO_SIDED|95.0|-7.1|31.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||31.6|-7.1|
82499481|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.252||||90.0|-0.876|-0.043|||ANCOVA|||Extension Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.043|-0.876|
82499920|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|7.9|||||TWO_SIDED|95.0|-11.5|27.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||27.2|-11.5|
82623688|NCT01021813|164962647|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|8.72||||0.109|TWO_SIDED|95.0|-2.0|19.2|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||19.2|-2.0|0.109
82623689|NCT01021813|164962647|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|6.02||||0.287|TWO_SIDED|95.0|-5.1|16.9|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||16.9|-5.1|0.287
82623690|NCT01021813|164962647|SUPERIORITY_OR_OTHER||Difference in Percentage:Night 1, 2 or 3|10.82||||0.057|TWO_SIDED|95.0|-0.3|21.7|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTST rebound effects during Nights 1, 2, or 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||21.7|-0.3|0.057
82623691|NCT01021813|164962648|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 1|4.46||||0.386|TWO_SIDED|95.0|-5.7|14.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 1 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||14.5|-5.7|0.386
82623692|NCT01021813|164962648|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 2|5.31||||0.311|TWO_SIDED|95.0|-5.0|15.5|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 2 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.5|-5.0|0.311
82623693|NCT01021813|164962648|SUPERIORITY_OR_OTHER||Difference in Percentage: Night 3|4.96||||0.351|TWO_SIDED|95.0|-5.5|15.3|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Night 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.3|-5.5|0.351
82623694|NCT01021813|164962648|SUPERIORITY_OR_OTHER||Difference in Percentage:Night 1, 2 or 3|4.58||||0.409|TWO_SIDED|95.0|-6.3|15.3|||Miettinen & Nurminen Method|||The method of Miettinen and Nurminen was used to calculate the p-value and compute the confidence interval for the point difference in a pairwise comparison of the percentage of participants with sTSO rebound effects during Nights 1, 2, or 3 in the Suvorexant (DB Treatment)/Suvorexant (DB Discontinuation) group vs. the Placebo (DB Treatment)/Placebo (DB Discontinuation) group.||15.3|-6.3|0.409
82623695|NCT01021813|164962649|SUPERIORITY_OR_OTHER||Difference in LS Means: Month 1|22.7|||<|0.0001|TWO_SIDED|95.0|16.4|29.0||To account for multiplicity, Hochberg's procedure was used to control the overall Type I error rate at the 5% level.|Longitudinal Data Analysis|||A Longitudinal Data Analysis Model was used to test the difference in LS mean change from baseline in sTSTm for Month 1 (Average of Weeks 1, 2, 3, 4) in the Suvorexant group vs. the Placebo group.||29.0|16.4|<0.0001
82623696|NCT01021813|164962650|SUPERIORITY_OR_OTHER||Difference in LS Means: Month 1|-9.5||||0.0002|TWO_SIDED|95.0|-14.6|-4.5||To account for multiplicity, Hochberg's procedure was used to control the overall Type I error rate at the 5% level.|Longitudinal Data Analysis|||A Longitudinal Data Analysis Model was used to test the difference in LS mean change from baseline in sTSOm for Month 1 (Average of Weeks 1, 2, 3, 4) in the Suvorexant group vs. the Placebo group.||-4.5|-14.6|0.0002
82623697|NCT00476996|164962661|SUPERIORITY||Weighted Difference|20.4|||<|0.0001|TWO_SIDED|95.0|12.8|27.9|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||27.9|12.8|< 0.0001
82623698|NCT00476996|164962661|SUPERIORITY||Weighted Difference|25.2|||<|0.0001|TWO_SIDED|95.0|17.7|32.7|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||32.7|17.7|< 0.0001
82623699|NCT00476996|164962661|SUPERIORITY||Weighted Difference|29.1|||<|0.0001|TWO_SIDED|95.0|21.6|36.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||36.6|21.6|< 0.0001
82623700|NCT00476996|164962661|SUPERIORITY||Weighted Difference|30.3|||<|0.0001|TWO_SIDED|95.0|22.8|37.7|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||37.7|22.8|< 0.0001
82623701|NCT00476996|164962662|SUPERIORITY||Weighted Difference|2.1||||0.1885|TWO_SIDED|95.0|-1.0|5.2|||Cochran-Mantel-Haenszel|||Analysis was stratified by region and baseline DMARD therapy||5.2|-1.0|0.1885
82623702|NCT00476996|164962662|SUPERIORITY||Weighted Difference|3.6||||0.033|TWO_SIDED|95.0|0.3|6.8|||Cochran-Mantel-Haenszel|||Analysis was stratified by region and baseline DMARD therapy||6.8|0.3|0.0330
82623703|NCT00476996|164962663|SUPERIORITY||Weighted Difference|4.2||||0.0175|TWO_SIDED|95.0|0.7|7.6|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||7.6|0.7|0.0175
82623704|NCT00476996|164962663|SUPERIORITY||Weighted Difference|4.3||||0.0134|TWO_SIDED|95.0|0.9|7.8|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||7.8|0.9|0.0134
82623705|NCT00476996|164962663|SUPERIORITY||Weighted Difference|10.5|||<|0.0001|TWO_SIDED|95.0|6.2|14.8|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||14.8|6.2|< 0.0001
82623706|NCT00476996|164962663|SUPERIORITY||Weighted Difference|10.5|||<|0.0001|TWO_SIDED|95.0|6.2|14.7|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||14.7|6.2|< 0.0001
82623707|NCT00476996|164962664|SUPERIORITY||Adjusted Mean Difference|-0.6|||<|0.0001|TWO_SIDED|95.0|-0.8|-0.3|||Analysis of Variance|||Week 24 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.3|-0.8|< 0.0001
82623708|NCT00476996|164962664|SUPERIORITY||Adjusted Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.1|-0.6|||Analysis of Variance|||Week 24 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.6|-1.1|< 0.0001
82623709|NCT00476996|164962664|SUPERIORITY||Adjusted Mean Difference|-0.9|||<|0.0001|TWO_SIDED|95.0|-1.2|-0.7|||Analysis of Variance|||Week 48 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.7|-1.2|< 0.0001
82623710|NCT00476996|164962664|SUPERIORITY||Adjusted Mean Difference|-1.2|||<|0.0001|TWO_SIDED|95.0|-1.5|-0.9|||Analysis of Variance|||Week 48 analysis using adjusted mean difference. Model contains region, baseline DMARD therapy, baseline DAS28 score and treatment||-0.9|-1.5|< 0.0001
82623711|NCT00476996|164962665|SUPERIORITY||Odds Ratio (OR)|2.6|||<|0.0001|TWO_SIDED|95.0|1.85|3.66|||Proportional Odds Analysis|||At Week 24, analysis was stratified by region and baseline DMARD therapy||3.66|1.85|< 0.0001
82623712|NCT00476996|164962665|SUPERIORITY||Odds Ratio (OR)|3.49|||<|0.0001|TWO_SIDED|95.0|2.49|4.91|||Proportional Odds Analysis|||At Week 24, analysis was stratified by region and baseline DMARD therapy||4.91|2.49|< 0.0001
82623713|NCT00476996|164962665|SUPERIORITY||Odds Ratio (OR)|4.18|||<|0.0001|TWO_SIDED|95.0|2.93|5.96|||Proportional Odds Analysis|||At Week 48, analysis was stratified by region and baseline DMARD therapy||5.96|2.93|< 0.0001
82623714|NCT00476996|164962665|SUPERIORITY||Odds Ratio (OR)|5.04|||<|0.0001|TWO_SIDED|95.0|3.54|7.18|||Proportional Odds Analysis|||At Week 48, analysis was stratified by region and baseline DMARD therapy||7.18|3.54|< 0.0001
82623715|NCT00476996|164962666|SUPERIORITY||Weighted Difference|13.2|||<|0.0001|TWO_SIDED|95.0|7.4|19.1|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||19.1|7.4|< 0.0001
82623716|NCT00476996|164962666|SUPERIORITY||Weighted Difference|16.2|||<|0.0001|TWO_SIDED|95.0|10.2|22.1|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||22.1|10.2|< 0.0001
82623717|NCT00476996|164962666|SUPERIORITY||Weighted Difference|19.3|||<|0.0001|TWO_SIDED|95.0|12.9|25.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||25.6|12.9|< 0.0001
82623718|NCT00476996|164962666|SUPERIORITY||Weighted Difference|20.8|||<|0.0001|TWO_SIDED|95.0|14.5|27.1|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||27.1|14.5|< 0.0001
82623719|NCT00476996|164962667|SUPERIORITY||Weighted Difference|4.6||||0.0203|TWO_SIDED|95.0|0.7|8.5|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||8.5|0.7|0.0203
82623720|NCT00476996|164962667|SUPERIORITY||Weighted Difference|6.7||||0.0014|TWO_SIDED|95.0|2.6|10.8|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||10.8|2.6|0.0014
82623721|NCT00476996|164962667|SUPERIORITY||Weighted Difference|6.6||||0.0042|TWO_SIDED|95.0|2.1|11.2|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||11.2|2.1|0.0042
82623722|NCT00476996|164962667|SUPERIORITY||Weighted Difference|13.4|||<|0.0001|TWO_SIDED|95.0|8.2|18.6|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||18.6|8.2|< 0.0001
82623723|NCT00476996|164962668|SUPERIORITY||Weighted Difference|19.4|||<|0.0001|TWO_SIDED|95.0|11.3|27.5|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||27.5|11.3|< 0.0001
82623724|NCT00476996|164962668|SUPERIORITY||Weighted Difference|24.7|||<|0.0001|TWO_SIDED|95.0|16.8|32.7|||Cochran-Mantel-Haenszel|||At Week 24, analysis was stratified by region and baseline DMARD therapy||32.7|16.8|< 0.0001
82623725|NCT00476996|164962668|SUPERIORITY||Weighted Difference|27.2|||<|0.0001|TWO_SIDED|95.0|19.5|34.9|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||34.9|19.5|< 0.0001
82623726|NCT00476996|164962668|SUPERIORITY||Weighted Difference|27.6|||<|0.0001|TWO_SIDED|95.0|20.0|35.3|||Cochran-Mantel-Haenszel|||At Week 48, analysis was stratified by region and baseline DMARD therapy||35.3|20.0|< 0.0001
82623727|NCT01769469|164962677|OTHER|||||||0.2085|||||||Wilcoxon (Mann-Whitney)|||Test of difference at Week 48 from baseline||||0.2085
82623728|NCT01769469|164962681|SUPERIORITY|||||||0.2452|||||||Wilcoxon Signed Rank Test|||||||0.2452
82623729|NCT01769469|164962689|SUPERIORITY|||||||0.0806|||||||Wilcoxon Signed Rank Test|||||||.0806
82623730|NCT01769469|164962700|OTHER|||||||0.6545|||||||Wilcoxon Signed Rank Test|||||||0.6545
82623731|NCT01769469|164962704|OTHER|||||||0.8739|||||||Wilcoxon Signed Rank Test|||||||0.8739
82623732|NCT01769469|164962712|OTHER|||||||0.5014|||||||Wilcoxon Signed Rank Test|||||||0.5014
82623733|NCT01769469|164962713|OTHER|||||||0.2431|||||||Wilcoxon Signed Rank Test|||||||0.2431
82623734|NCT01769469|164962714|OTHER|||||||0.7209|||||||Wilcoxon Signed Rank Test|||||||0.7209
82623735|NCT01769469|164962715|OTHER|||||||0.5379|||||||Wilcoxon Signed Rank Test|||||||0.5379
82623736|NCT01769469|164962716|OTHER|||||||0.7986|||||||Wilcoxon Signed Rank Test|||||||0.7986
82623737|NCT01769469|164962736|OTHER|||||||0.8507|||||||Wilcoxon Signed Rank Test|||||||0.8507
82623738|NCT01769469|164962737|OTHER|||||||0.3483|||||||Wilcoxon Signed Rank Test|||||||0.3483
82623739|NCT01769469|164962744|OTHER|||||||0.4043|||||||Wilcoxon (Mann-Whitney)|||||||0.4043
82623740|NCT01769469|164962745|OTHER|||||||0.2927|||||||Wilcoxon (Mann-Whitney)|||||||0.2927
82623741|NCT01769469|164962746|OTHER|||||||0.1134|||||||Wilcoxon (Mann-Whitney)|||||||0.1134
82623742|NCT01769469|164962747|OTHER|||||||0.5782|||||||Wilcoxon (Mann-Whitney)|||||||0.5782
82623743|NCT01769469|164962748|OTHER|||||||0.8658|||||||Wilcoxon (Mann-Whitney)|||||||0.8658
82623744|NCT01769469|164962749|OTHER|||||||0.5491|||||||Wilcoxon (Mann-Whitney)|||||||0.5491
82623745|NCT01769469|164962750|OTHER|||||||0.0238|||||||Wilcoxon (Mann-Whitney)|||||||0.0238
82623746|NCT01769469|164962751|OTHER|||||||0.1172|||||||Wilcoxon (Mann-Whitney)|||||||0.1172
82623747|NCT01769469|164962752|OTHER|||||||0.122|||||||Wilcoxon (Mann-Whitney)|||||||0.1220
82623748|NCT01769469|164962753|OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82623749|NCT01769469|164962755|OTHER|||||||0.7785|||||||Wilcoxon (Mann-Whitney)|||||||0.7785
82623750|NCT01769469|164962756|OTHER|||||||0.4933|||||||Wilcoxon (Mann-Whitney)|||||||0.4933
82623751|NCT01769469|164962757|OTHER|||||||0.5491|||||||Wilcoxon (Mann-Whitney)|||||||0.5491
82623752|NCT01769469|164962758|OTHER|||||||0.5161|||||||Wilcoxon (Mann-Whitney)|||||||0.5161
82499482|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.579|STANDARD_ERROR_OF_MEAN|0.247||||90.0|-0.986|-0.172|||ANCOVA|||Extension Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.172|-0.986|
82623753|NCT01769469|164962759|OTHER|||||||0.599|||||||Wilcoxon (Mann-Whitney)|||||||0.5990
82623754|NCT01769469|164962760|OTHER|||||||0.8579|||||||Wilcoxon (Mann-Whitney)|||||||0.8579
82623755|NCT01769469|164962761|OTHER|||||||0.0719|||||||Wilcoxon (Mann-Whitney)|||||||0.0719
82623756|NCT01769469|164962762|OTHER|||||||0.3148|||||||Wilcoxon (Mann-Whitney)|||||||0.3148
82623757|NCT01769469|164962763|OTHER|||||||0.139|||||||Wilcoxon (Mann-Whitney)|||||||0.1390
82623758|NCT01769469|164962764|OTHER|||||||0.2726|||||||Wilcoxon (Mann-Whitney)|||||||0.2726
82623759|NCT01769469|164962765|OTHER|||||||0.537|||||||Wilcoxon (Mann-Whitney)|||||||0.5370
82623760|NCT01769469|164962766|OTHER|||||||0.2926|||||||Wilcoxon (Mann-Whitney)|||||||0.2926
82623761|NCT01769469|164962767|OTHER|||||||0.1906|||||||Wilcoxon (Mann-Whitney)|||||||0.1906
82623762|NCT01769469|164962768|OTHER|||||||0.2255|||||||Wilcoxon (Mann-Whitney)|||||||0.2255
82623763|NCT01769469|164962769|OTHER|||||||0.6285|||||||Wilcoxon (Mann-Whitney)|||||||0.6285
82623764|NCT01769469|164962770|OTHER|||||||0.0148|||||||Wilcoxon (Mann-Whitney)|||||||0.0148
82623765|NCT01769469|164962771|OTHER|||||||0.0166|||||||Wilcoxon (Mann-Whitney)|||||||0.0166
82623766|NCT01769469|164962772|OTHER|||||||0.0277|||||||Wilcoxon (Mann-Whitney)|||||||0.0277
82623767|NCT01769469|164962773|OTHER|||||||0.261|||||||Wilcoxon (Mann-Whitney)|||||||0.2610
82623768|NCT01769469|164962774|OTHER|||||||0.4154|||||||Wilcoxon (Mann-Whitney)|||||||0.4154
82623769|NCT01769469|164962775|OTHER|||||||0.7125|||||||Wilcoxon (Mann-Whitney)|||||||0.7125
82623770|NCT01181778|164962835|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Daily Pill|-0.4||||0.705|TWO_SIDED|95.0|-2.6|1.8|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Daily Pill before physician counseling and after physician counseling.||1.8|-2.6|0.705
82623771|NCT01181778|164962835|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Weekly Patch|3.8|||<|0.0001|TWO_SIDED|95.0|2.6|5.0|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Weekly Patch before physician counseling and after physician counseling.||5.0|2.6|<0.0001
82623772|NCT01181778|164962835|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Monthy Ring|16.0|||<|0.0001|TWO_SIDED|95.0|14.3|17.8|||Chi-squared|||Analysis of the difference in the percentage of participants who chose the Monthly Ring before physician counseling and after physician counseling.||17.8|14.3|<0.0001
82623773|NCT01181778|164962835|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Other Method|-3.6|||<|0.0001|TWO_SIDED|95.0|-5.0|-2.2|||Chi-squared|||Analysis of the difference in the percentage of participants who chose Other Method before physician counseling and after physician counseling.||-2.2|-5.0|<0.0001
82623774|NCT01181778|164962835|SUPERIORITY_OR_OTHER_LEGACY||Difference in Percentage: Undecided|-15.8|||<|0.0001|TWO_SIDED|95.0|-17.6|-14.1|||Chi-squared|||Analysis of the difference in the percentage of participants who chose Undecided before physician counseling and after physician counseling.||-14.1|-17.6|<0.0001
82499483|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.46|STANDARD_ERROR_OF_MEAN|0.255||||90.0|-0.88|-0.04|||ANCOVA|||Extension Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.040|-0.880|
82499484|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.385|STANDARD_ERROR_OF_MEAN|0.265||||90.0|-0.822|0.053|||ANCOVA|||Extension Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.053|-0.822|
82499485|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.93|STANDARD_ERROR_OF_MEAN|0.268||||90.0|-1.372|-0.487|||ANCOVA|||Extension Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.487|-1.372|
82499921|NCT00555321|164690568|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.1|||||TWO_SIDED|95.0|-5.9|32.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||32.6|-5.9|
82499486|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.823|STANDARD_ERROR_OF_MEAN|0.286||||90.0|-1.296|-0.351|||ANCOVA|||Extension Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.351|-1.296|
82499487|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.525|STANDARD_ERROR_OF_MEAN|0.267||||90.0|-0.965|-0.084|||ANCOVA|||Extension Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.084|-0.965|
82499922|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|15.6|||||TWO_SIDED|95.0|-5.8|36.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||36.8|-5.8|
82499488|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.647|STANDARD_ERROR_OF_MEAN|0.276||||90.0|-1.104|-0.191|||ANCOVA|||Extension Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.191|-1.104|
82499489|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.853|STANDARD_ERROR_OF_MEAN|0.295||||90.0|-1.34|-0.367|||ANCOVA|||Extension Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.367|-1.340|
82499923|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|16.0|||||TWO_SIDED|95.0|-6.0|38.0|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||38.0|-6.0|
82499924|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.9|||||TWO_SIDED|95.0|-16.6|26.8|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||26.8|-16.6|
82499925|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.6|||||TWO_SIDED|95.0|-10.8|36.1|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||36.1|-10.8|
82499926|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.0|||||TWO_SIDED|95.0|-10.9|37.3|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||37.3|-10.9|
82499927|NCT00555321|164690569|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.9|||||TWO_SIDED|95.0|-21.8|26.0|||||For 95% CI of difference, normal approximation was used if N\>=5 in both arms. Otherwise exact method was used.|||26.0|-21.8|
82499928|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|19.1|||||TWO_SIDED|95.0|-6.7|43.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||43.3|-6.7|
82499490|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.39|STANDARD_ERROR_OF_MEAN|0.303||||90.0|-0.89|0.111|||ANCOVA|||Extension Month 27; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.111|-0.890|
82499491|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.636|STANDARD_ERROR_OF_MEAN|0.293||||90.0|-1.119|-0.153|||ANCOVA|||Extension Month 30; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.153|-1.119|
82499492|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.522|STANDARD_ERROR_OF_MEAN|0.29||||90.0|-1.0|-0.043|||ANCOVA|||Extension Month 33; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.043|-1.000|
82499493|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.744|STANDARD_ERROR_OF_MEAN|0.346||||90.0|-1.315|-0.173|||ANCOVA|||Extension Month 36; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.173|-1.315|
82499929|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.7|||||TWO_SIDED|95.0|-21.6|25.5|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||25.5|-21.6|
82499494|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.378|STANDARD_ERROR_OF_MEAN|0.628||||90.0|-2.42|-0.335|||ANCOVA|||Extension Month 39; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.335|-2.420|
82499495|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.72|STANDARD_ERROR_OF_MEAN|0.28||||90.0|-1.183|-0.258|||ANCOVA|||Extension Month 39 (LOCF); Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.258|-1.183|
82499930|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.8|||||TWO_SIDED|95.0|-20.1|28.7|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||28.7|-20.1|
82499496|NCT00137046|164689624|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.061|STANDARD_ERROR_OF_MEAN|0.323||||90.0|-0.594|0.472|||ANCOVA|||Extension Follow Up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.472|-0.594|
82499497|NCT03334448|164689653|SUPERIORITY||Ratio of Geometric Least Square Means|0.83|||||TWO_SIDED|90.0|0.818|0.957||||||||0.957|0.818|
82499498|NCT03334448|164689654|SUPERIORITY||Ration of Lease Square Means|0.97|||||TWO_SIDED|90.0|0.83|1.09||||||||1.09|0.83|
82499524|NCT03010254|164689773|NON_INFERIORITY|Non-inferiority margin was -0.15 log unit|Least Squares Mean Difference|-0.181|STANDARD_ERROR_OF_MEAN|0.0541|||ONE_SIDED|97.5|-0.287||||||Least squares mean difference (DFT015 - SN60WF). The 1-sided 97.5 Lower Limit Confidence Interval is presented.|With glare|||-0.287|
82499525|NCT03010254|164689774|SUPERIORITY||Difference in percentage|20.2|||||TWO_SIDED|95.0|8.77|31.04|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||31.04|8.77|
82499526|NCT03010254|164689775|SUPERIORITY||Percent difference|21.7|||||TWO_SIDED|95.0|7.92|35.06|||||95% CI for the difference (DFT015 - SN60WF) is estimated using Miettinen-Nurminen method (1985).|||35.06|7.92|
82499527|NCT01404325|164689776|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|||||||<0.0001
82499528|NCT01075204|164689809|SUPERIORITY_OR_OTHER|||||||0.334||95.0|||||Chi-squared|9 degrees of freedom.||Logistic regression: Omnibus Test of Model Coefficients (all the nine variables are considered together).||||0.334
82492875|NCT00578383|164678647|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|2.11||0.19|TWO_SIDED|95.0|-3.3|9.6||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the 17-item Hamilton Depression Rating Scale.||9.6|-3.3|0.19
82492876|NCT00578383|164678648|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|0.51||0.15|TWO_SIDED|95.0|-0.6|2.1||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by a visual analog scale.||2.1|-0.6|0.15
82492877|NCT00578383|164678649|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.58|STANDARD_ERROR_OF_MEAN|0.67||0.04|TWO_SIDED|95.0|-0.4|3.6||We used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by a visual analog scale.||3.6|-0.4|0.04
82492878|NCT00578383|164678650|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.0|STANDARD_ERROR_OF_MEAN|1.67||0.004|TWO_SIDED|95.0|0.8|9.2||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the PANAS (positive scale)||9.2|0.8|0.004
82492879|NCT00578383|164678651|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.7|STANDARD_ERROR_OF_MEAN|1.58||0.3|TWO_SIDED|95.0|1.3|5.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the PANAS (positive scale)||5.8|1.3|0.30
82492880|NCT00578383|164678652|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.3|STANDARD_ERROR_OF_MEAN|2.01||0.52|TWO_SIDED|95.0|-4.1|6.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with bipolar depression as assessed by the PANAS (negative scale)||6.8|-4.1|0.52
82499529|NCT01986855|164689826|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.03||||0.807|TWO_SIDED|95.0|-0.23|0.18||The cLDA model included fixed effects for treatment, time, eGFR stratum (\<45 or ≥45 mL/min/1.73m\^2), baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.18|-0.23|0.807
82492881|NCT00578383|164678653|SUPERIORITY_OR_OTHER||Mean Difference (Net)|2.2|STANDARD_ERROR_OF_MEAN|1.43||0.1||95.0|-1.3|5.8||we used type HC3 robust standard errors (SEs)in place of OLS regression SEs to guard against biased estimation of SEs due to heteroscedasticity. This is an uncorrected p-value with a required threshold of 0.0125 for significance (correction factor 4)|Regression, Linear|Bonferroni multiple testing corrections were applied separately to results for our primary and secondary outcomes.||Active LFMS treatment would reduce depression immediately after treatment in subjects with major depressive disorder as assessed by the PANAS (negative scale)||5.8|-1.3|0.10
82499530|NCT01986855|164689826|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.15||||0.155|TWO_SIDED|95.0|-0.35|0.06||The cLDA model included fixed effects for treatment, time, eGFR stratum (\<45 or ≥45 mL/min/1.73m\^2), baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.06|-0.35|0.155
82499531|NCT01986855|164689827|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|3.6|||||TWO_SIDED|95.0|-4.8|12.1|||||Miettinen \& Nurminen Method|||12.1|-4.8|
82499532|NCT01986855|164689827|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-7.0|||||TWO_SIDED|95.0|-16.3|2.3|||||Miettinen \& Nurminen Method|||2.3|-16.3|
82499533|NCT01986855|164689828|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|3.0|||||TWO_SIDED|95.0|-2.7|9.0|||||Miettinen \& Nurminen Method|||9.0|-2.7|
82499534|NCT01986855|164689828|SUPERIORITY_OR_OTHER||Difference in Percentages vs. Placebo|-1.3|||||TWO_SIDED|95.0|-6.5|3.7|||||Miettinen \& Nurminen Method|||3.7|-6.5|
82499535|NCT01986855|164689829|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.03||||0.828|TWO_SIDED|95.0|-0.28|0.23||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.23|-0.28|0.828
82492882|NCT00005044|164678654|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.45|TWO_SIDED|95.0|0.48|1.39|||Log Rank||Reference level = TAS x 8 weeks|Assuming 40% of deaths in the 8-wk arm from prostate cancer (PC) and that 8-yr DSS would be 79%, 270 PC deaths were required to detect a 33% hazard reduction in the 28-wk arm with 90% power using the log-rank test with a 2-sided significance level of 0.05. Under assumed failure rates, 1,540 patients accrued over 4 years and observed for an additional 6 years were expected to provide the requisite events. This sample accounted for a 10% ineligible/lack-of-data rate and 3 interim analyses.||1.39|0.48|0.45
82492883|NCT00005044|164678655|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.62|TWO_SIDED|95.0|0.79|1.15|||Log Rank|2-sided significance level of 0.05|Reference level = TAS x 8 weeks|With 1540 patients accrued over 4 years and observed for an additional 6 years, determined for the primary endpoint, there would be 90% power to detect a 22% reduction in the hazard of all cause deaths in the 28-week arm, with 2-sided significance level of 0.05. This sample accounted for a 10% ineligible/lack-of-data rate.||1.15|0.79|0.62
82492884|NCT00005044|164678656|SUPERIORITY||Hazard Ratio (HR)|0.96||||0.47|TWO_SIDED|95.0|0.85|1.08|||Log Rank|Significance level = 0.05|Reference level = TAS x 8 weeks|||1.08|0.85|0.47
82492885|NCT00005044|164678657|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.07|TWO_SIDED|95.0|0.4|1.05|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Locoregional progression||1.05|0.40|0.07
82492886|NCT00005044|164678657|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.8|TWO_SIDED|95.0|0.68|1.66|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Distant metastasis||1.66|0.68|0.80
82492887|NCT00005044|164678658|SUPERIORITY||Hazard Ratio (HR)|1.02||||0.74|TWO_SIDED|95.0|0.89|1.17|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Protocol definition||1.17|0.89|0.74
82492888|NCT00005044|164678658|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.77|TWO_SIDED|95.0|0.79|1.19|||Gray's test|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|Phoenix definition||1.19|0.79|0.77
82492889|NCT00005044|164678659|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.62|TWO_SIDED|95.0|0.64|1.3|||Log Rank|2-sided significance level = 0.05|Reference level = TAS x 8 weeks|||1.30|0.64|0.62
82492890|NCT00181155|164678663|SUPERIORITY_OR_OTHER||||||<|0.007||95.0||||vs. baseline|Two-sided paired t tests|||||||<0.007
82492891|NCT00181155|164678664|SUPERIORITY_OR_OTHER||||||<|0.02||95.0||||vs. baseline|Two-sided paired t tests|||||||<0.02
82499536|NCT01986855|164689829|SUPERIORITY_OR_OTHER||Difference in the least squares means|-0.09||||0.496|TWO_SIDED|95.0|-0.35|0.17||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.17|-0.35|0.496
82492892|NCT02572401|164678665|SUPERIORITY||Risk Ratio (RR)|0.84|||<|0.05|TWO_SIDED|95.0|0.59|1.21|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.21|.59|<.05
82492893|NCT02572401|164678665|SUPERIORITY||Risk Ratio (RR)|0.99|||<|0.05|TWO_SIDED|95.0|0.69|1.42|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.42|0.69|<.05
82499931|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.8|||||TWO_SIDED|95.0|-21.2|32.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||32.1|-21.2|
82499537|NCT01986855|164689830|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.77|||<|0.001|TWO_SIDED|95.0|-2.57|-0.96||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-0.96|-2.57|<0.001
82499538|NCT01986855|164689830|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.84|||<|0.001|TWO_SIDED|95.0|-2.66|-1.02||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-1.02|-2.66|<0.001
82499539|NCT01986855|164689831|SUPERIORITY_OR_OTHER||Difference in the least squares means|-1.42||||0.451|TWO_SIDED|95.0|-5.13|2.29||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||2.29|-5.13|0.451
82499540|NCT01986855|164689831|SUPERIORITY_OR_OTHER||Difference in the least squares means|-3.46||||0.072|TWO_SIDED|95.0|-7.24|0.31||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||0.31|-7.24|0.072
82499541|NCT01986855|164689832|SUPERIORITY_OR_OTHER||Difference in the least squares means|-6.81||||0.291|TWO_SIDED|96.0|-19.47|5.85||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable.|Constrained longitudinal data analysis|||||5.85|-19.47|0.291
82492894|NCT02572401|164678665|SUPERIORITY||Risk Ratio (RR)|0.72|||<|0.05|TWO_SIDED|95.0|0.35|1.49|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.49|.35|<.05
82492895|NCT02572401|164678666|SUPERIORITY||Risk Ratio (RR)|1.04|||<|0.05|TWO_SIDED|95.0|0.92|1.18|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.18|0.92|<.05
82492896|NCT02572401|164678666|SUPERIORITY||Risk Ratio (RR)|1.02|||<|0.05|TWO_SIDED|95.0|0.9|1.16|||Poisson regression|Adjusted for baseline of the criterion.|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.16|0.90|<.05
82492897|NCT02572401|164678666|SUPERIORITY||Risk Ratio (RR)|1.1|||<|0.05|TWO_SIDED|95.0|0.86|1.42|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.42|0.86|<.05
82492898|NCT02572401|164678667|SUPERIORITY||Risk Ratio (RR)|1.05|||<|0.05|TWO_SIDED|95.0|0.89|1.24|||Poisson regression|Adjusted for baseline of the criterion.|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.24|0.89|<.05
82492899|NCT02572401|164678667|SUPERIORITY||Risk Ratio (RR)|1.1|||<|0.05|TWO_SIDED|95.0|0.94|1.3|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.|The numerator is the treatment.|1.30|0.94|<.05
82492900|NCT02572401|164678667|SUPERIORITY||Risk Ratio (RR)|1.05|||<|0.05|TWO_SIDED|95.0|0.76|1.47|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||1.47|0.76|<.05
82492901|NCT02572401|164678668|SUPERIORITY||Risk Ratio (RR)|1.04|||<|0.05|TWO_SIDED|95.0|0.73|1.48|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||1.48|0.73|<.05
82492902|NCT02572401|164678668|SUPERIORITY||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED|95.0|0.71|1.45|||Poisson regression|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).|The numerator is the treatment.|This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||1.45|0.71|<.05
82492903|NCT02572401|164678668|SUPERIORITY||Risk Ratio (RR)|1.02|||<|0.05|TWO_SIDED|95.0|0.5|2.08|||Poisson regression|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.|The numerator is the treatment.|The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||2.08|.50|<.05
82492904|NCT02572401|164678669|SUPERIORITY||Mean Difference (Final Values)|0.001|||<|0.05|TWO_SIDED|95.0|-0.078|0.08|||Regression, Linear|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||The primary analysis tested the efficacy of the HIV risk reduction intervention by comparing the HIV Risk Reduction Only and HIV Risk Reduction and Text Messaging Arms to the Text Messaging Only and No-Intervention No Text Message Control Arms. This is a test of the main effect of the HIV risk reduction intervention.||0.080|-0.078|<.05
82492905|NCT02572401|164678669|SUPERIORITY||Mean Difference (Final Values)|-0.003|||<|0.05|TWO_SIDED|95.0|-0.082|0.076|||Regression, Linear|Adjusted for baseline of the criterion and time of follow-up assessment (6 vs. 12 months).||This analysis tested the efficacy of the text messaging intervention by comparing the HIV Risk Reduction and Text Messaging and Text Messaging Only Arms to the HIV Risk Reduction Only and No-Intervention No Text Message Control Arms. This is a test of the text messaging main effect.||0.076|-0.082|<.05
82492906|NCT02572401|164678669|SUPERIORITY||Mean Difference (Final Values)|-0.009|||<|0.05|TWO_SIDED|95.0|-0.167|0.149|||Regression, Linear|Adjusted for baseline of the criterion, time of follow-up assessment (6 vs. 12 months), and the HIV x Time and Text Messaging x Time interactions.||The analysis tested whether text messaging enhanced the effects of the HIV risk reduction intervention by comparing the HIV Risk Reduction and Text Messaging and No-Intervention No Text Message Arms to the Text Messaging Only and HIV Risk Reduction Only Arms. This is a test of the interaction between the two types of interventions.||0.149|-0.167|<.05
82492907|NCT02762578|164678679|NON_INFERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 1: Primary analysis: Non-inferiority with respect to change from baseline in HbA1c (%) to week 26 for IDegAsp vs. BIAsp 30.~Non-inferiority was considered confirmed if the upper bound of the two-sided 95% confidence interval was below or equal to 0.4%."|Treatment contrast|-0.08||||0.243|TWO_SIDED|95.0|-0.2|0.05||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in HbA1c after 26 weeks of treatments was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline HbA1c as covariates.||0.05|-0.20|0.2430
82492908|NCT02762578|164678679|SUPERIORITY|"If non-inferiority was confirmed, the superiority of the IDegAsp group over the BIAsp 30 group was to be investigated.~Superiority was considered confirmed if the upper bound of the two-sided 95% confidence interval, which was calculated using the FAS, was below 0%."|Treatment contrast|-0.08||||0.243|TWO_SIDED|95.0|-0.2|0.05||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in HbA1c after 26 weeks of treatments was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline HbA1c as covariates.||0.05|-0.20|0.2430
82492909|NCT02762578|164678680|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 2: Superiority with respect to change from baseline in FPG to week 26 for IDegAsp vs. BIAsp 30 (Provided that non-inferiority was confirmed for the primary endpoint)~Superiority was considered confirmed if the 95% CI for the treatment difference (IDegAsp group-BIAsp 30 group) was entirely below zero."|Treatment Contrast|-1.42|||<|0.0001|TWO_SIDED|95.0|-1.74|-1.1||Two-sided p-value for testing difference|ANCOVA|||Change from baseline in FPG after 26 weeks of treatment was analysed using an ANCOVA method with treatment, anti-diabetic therapy at screening and sex as fixed factors, and age and baseline FPG as covariates.||-1.10|-1.74|<0.0001
82492910|NCT02762578|164678681|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 3: Superiority with respect to nocturnal confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 (provided that superiority with respect to change from baseline in FPG to week 26 was confirmed for IDegAsp vs. BIAsp 30).~Superiority was considered confirmed if the 95% CI for the rate ratio (IDegAsp group/BIAsp 30 group) was entirely below one."|Treatment Ratio|0.53||||0.0112|TWO_SIDED|95.0|0.33|0.87|||Negative binomial regression model|||The number of events was analysed using a Negative Binomial Model with a log-link function and the logarithm of the exposure time (100 years) for which a hypoglycaemic episode is considered treatment emergent as offset. The model included treatment, anti-diabetic therapy at screening and sex as fixed factors, and age as covariate.||0.87|0.33|0.0112
82492911|NCT02762578|164678682|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 4: Superiority with respect to confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 (provided that superiority with respect to nocturnal confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 was confirmed).~Superiority was considered confirmed if the 95% CI for the rate ratio (IDegAsp group/BIAsp 30 group) was entirely below one."|Treatment Ratio|0.57||||0.0002|TWO_SIDED|95.0|0.42|0.77|||Negative binomial regression model|||The number of events was analysed using a Negative Binomial Model with a log-link function and the logarithm of the exposure time (100 years) for which a hypoglycaemic episode is considered treatment emergent as offset. The model included treatment, anti-diabetic therapy at screening and sex as fixed factors, and age as covariate||0.77|0.42|0.0002
82492912|NCT02762578|164678683|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 5: Superiority with respect to change from baseline in body weight for IDegAsp vs. BIAsp 30 (provided that Superiority with respect to confirmed hypoglycaemic episodes for IDegAsp vs. BIAsp 30 was confirmed).~Superiority was considered confirmed if the 95% CI for the treatment difference (IDegAsp group-BIAsp 30 group) was entirely below zero"|Treatment contrast|0.61||||0.0092|TWO_SIDED|95.0|0.15|1.08|||ANCOVA|Two-sided p-value for testing difference||The response and change from baseline in response after 26 weeks were analysed using an ANCOVA model with treatment, anti-diabetic therapy at screening and sex as fixed factors, age and baseline response as covariate.||1.08|0.15|0.0092
82492913|NCT02762578|164678684|SUPERIORITY|"Stepwise hierarchical testing procedure was applied for confirmatory endpoints:~Step 6: Superiority with respect to subjects achieving HbA1c \< 7% at end of trial without confirmed hypoglycaemia for IDegAsp vs. BIAsp 30 (provided that superiority with respect to change from baseline in body weight was confirmed).~Superiority was considered confirmed if the 95% CI for the odds ratio (IDegAsp group/BIAsp 30 group) was entirely above one."|Treatment Ratio|2.22||||0.0002|TWO_SIDED|95.0|1.47|3.35||Two-sided p-value for testing difference|Regression, Logistic|||The endpoint was analysed in a logistic regression model using a logit link, including treatment, sex and anti-diabetic treatment at screening as fixed effects, and age and HbA1c as covariates.||3.35|1.47|0.0002
82492914|NCT01768286|164678736|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
82492915|NCT01768286|164678736|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
82492916|NCT01768286|164678736|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
82492917|NCT01768286|164678736|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||A 2-sided 1-sample binomial test was used to compare over the historical SVR12 rate of 25%. To control the family-wise type I error rate at 0.05, the Hochberg procedure was applied, from which the adjusted p-values were obtained.|Binomial test|||||||<0.001
82492918|NCT02015754|164678800|OTHER|||||||0.004||||||Differences of p-value \< 0.05 considered statistically significant.|Regression, Cox|||Multivariate Cox-regression analysis to identify independent prognostic factors for overall survival from baseline characteristics. Relative risk with 95% confidence intervals calculated as measure of association.||||0.004
82492919|NCT02015754|164678807|OTHER|VEGF immediately post treatment||||||0.6257|||||||one-sample Wilcoxon signed rank test|||||||0.6257
82492920|NCT02015754|164678807|OTHER|VEGF at 24 hours post treatment.||||||0.4143|||||||one-sample Wilcoxon signed rank test|||||||0.4143
82492921|NCT02015754|164678807|OTHER|VEGFR1 immediately post treatment.||||||0.583|||||||one-sample Wilcoxon signed rank test|||||||0.583
82492922|NCT02015754|164678807|OTHER|VEGFR1 at 24 hours post treatment.||||||0.0012|||||||one-sample Wilcoxon signed rank test|||||||.0012
82492923|NCT02015754|164678807|OTHER|VEGFR2 immediately post treatment.||||||0.1353|||||||one-sample Wilcoxon signed rank test|||||||0.1353
82492924|NCT02015754|164678807|OTHER|VEGFR2 at 24 hours post treatment.||||||0.2163|||||||one-sample Wilcoxon signed rank test|||||||0.2163
82492925|NCT05248867|164678834|SUPERIORITY||Rate Difference|59.3|||<|0.0001|TWO_SIDED|95.0|54.7|63.9||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||63.9|54.7|<0.0001
82492926|NCT05248867|164678835|SUPERIORITY||Rate Difference|60.2|||<|0.0001|TWO_SIDED|95.0|54.9|65.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||65.4|54.9|<0.0001
82492927|NCT05248867|164678836|SUPERIORITY||Rate Difference|71.4|||<|0.0001|TWO_SIDED|95.0|66.5|76.2||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||76.2|66.5|<0.0001
82492928|NCT05248867|164678841|SUPERIORITY||Rate Difference|72.5|||<|0.0001|TWO_SIDED|95.0|67.4|77.6||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||77.6|67.4|<0.0001
82492929|NCT05248867|164678842|SUPERIORITY||Rate Difference|41.9|||<|0.0001|TWO_SIDED|95.0|34.5|49.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||49.3|34.5|<0.0001
82492930|NCT05248867|164678843|SUPERIORITY||Rate Difference|69.5|||<|0.0001|TWO_SIDED|95.0|63.7|75.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||75.3|63.7|<0.0001
82492931|NCT05248867|164678844|SUPERIORITY||Rate Difference|58.2|||<|0.0001|TWO_SIDED|95.0|51.3|65.0||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||65.0|51.3|<0.0001
82492932|NCT05248867|164678845|SUPERIORITY||Rate Difference|30.1|||<|0.0001|TWO_SIDED|95.0|25.2|35.1||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||35.1|25.2|<0.0001
82492933|NCT05248867|164678846|SUPERIORITY||Rate Difference|35.7|||<|0.0001|TWO_SIDED|95.0|30.5|40.9||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||40.9|30.5|<0.0001
82492934|NCT05248867|164678847|SUPERIORITY||Rate Difference|52.6|||<|0.0001|TWO_SIDED|95.0|45.2|60.0||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||60.0|45.2|<0.0001
82492935|NCT05248867|164678848|SUPERIORITY||Rate Difference|58.6|||<|0.0001|TWO_SIDED|95.0|51.1|66.1||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||66.1|51.1|<0.0001
82492936|NCT05248867|164678849|SUPERIORITY||Rate Difference|42.5|||<|0.0001|TWO_SIDED|95.0|34.4|50.6||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||50.6|34.4|<0.0001
82492937|NCT05248867|164678850|SUPERIORITY||Rate Difference|70.0|||<|0.0001|TWO_SIDED|95.0|63.7|76.3||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||76.3|63.7|<0.0001
82499932|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-11.6|||||TWO_SIDED|95.0|-36.0|14.2|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||14.2|-36.0|
82492938|NCT05248867|164678858|SUPERIORITY||Rate Difference|48.8|||<|0.0001|TWO_SIDED|95.0|42.2|55.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||55.4|42.2|<0.0001
82492939|NCT05248867|164678859|SUPERIORITY||Rate Difference|44.2|||<|0.0001|TWO_SIDED|95.0|38.0|50.4||P-value was based on Cochran-Mantel-Haenszel (CMH) test stratified by investigator site, toxin use history (for aesthetic purposes), and baseline Facial Wrinkle Scale score at maximum frown after using multiple imputation for missing data.|Cochran-Mantel-Haenszel||Difference: AGN-151586 - Placebo|AGN-151586 vs Placebo||50.4|38.0|<0.0001
82492940|NCT01064310|164678861|SUPERIORITY_OR_OTHER||Percentage of participants|49.26|||<|0.001|TWO_SIDED|90.0|37.0|61.5||The p value indicates the difference in preference for pazopanib versus sunitinib treatment|Prescotts test||The estimated value indicates the difference in the percentage of participants who preferred pazopanib versus sunitinib. This difference is adjusted for sequence.|||61.5|37.0|<0.001
82492941|NCT03128411|164678890|SUPERIORITY||||||<|0.0001|||||||z-test, 1-sided|||With a sample size of 60 participants, study was powered at \>82% to test null hypothesis: true MMR rate at 12 months (48 weeks) is 25% versus alternative hypothesis: true MMR rate is 40% with one-sided alpha of 5%.||||<0.0001
82492942|NCT01218113|164678927|NON_INFERIORITY|Crierion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (3D\_HIV Group - Control Group) is below 0.|Geometric Mean Ratio|0.801|||||TWO_SIDED|97.5|0.553|1.162|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL at week 48 between persons who received 3 doses of the HIV vaccine 732462 and persons who received placebo alone.||1.162|0.553|
82492943|NCT01218113|164678927|NON_INFERIORITY|Crierion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (2D\_HIV Group - Control Group) is below 0.|Geometric Mean Ratio|1.184|||||TWO_SIDED|97.5|0.816|1.717|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL at week 48 between persons who received 2 doses of the HIV Vaccine 732462 and persons who received placebo alone.||1.717|0.816|
82492944|NCT01218113|164678928|NON_INFERIORITY|Criterion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (3D\_HIV Group - Control Group) is below 0.|Mean Difference|-0.096|||||TWO_SIDED|97.5|-0.257|0.065|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL (log10-transformed values) at week 48 between persons who received 3 doses of the HIV Vaccine 732462 and persons who received placebo alone.||0.065|-0.257|
82492945|NCT01218113|164678928|NON_INFERIORITY|Criterion for non-inferiority evaluation: The upper limit (UL) of the two-sided 97.5% confidence interval (CI) for the difference in change between the two arms (2D\_HIV Group - Control Group) is below 0.|Mean Difference|0.073|||||TWO_SIDED|97.5|-0.088|0.235|||Repeated-measures mixed model|||To show the difference in change from baseline of HIV-1 VL (log10-transformed values) at week 48 between persons who received 2 doses of the HIV Vaccine 732462 and persons who received placebo alone.||0.235|-0.088|
82492946|NCT00967668|164678979|SUPERIORITY_OR_OTHER||||||<|0.05|||||||Regression, Linear|Linear mixed-effects model with baseline, 3- and 12-month outcome values modeled as dependent variables||All participants were included in outcomes analyses using intention-to-treat principles. A linear mixed-effects model with baseline, 3- and 12-month outcome values modeled as dependent variables was used.This statistical approach allows the use of data from all participants as long as the dependent variable is available for at least one time point. Each subject was included as a random intercept to adjust for within-person correlations.||||<0.05
82492947|NCT01258582|164679043|SUPERIORITY_OR_OTHER||difference in the acceptance rates|-0.022||||0.34|TWO_SIDED|95.0|-0.067|0.023|||Chi-squared|The difference in the acceptance rates was estimated along with 95% confidence intervals and tested using the chi-square test.||Sample size was chosen to detect a 10% difference in acceptance rates between two testing modality arms (90% power, 0.05 level of significance).||0.023|-0.067|0.34
82492948|NCT01673867|164679044|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.0015|TWO_SIDED|95.92|0.59|0.89|||Log Rank||HR = Nivolumab over docetaxel|||0.89|0.59|0.0015
82492949|NCT01227434|164679053|SUPERIORITY_OR_OTHER||Exact binomial distribution|0.1||||0.1|TWO_SIDED||||||Exact binomial distribution|||Compared to historical estimates of PFS-6 months. With 30 patients, there would be 90% power to detect an improvement in the PFS-6 months rate from 10% (historical estimate) to 30% based on a one-sided exact test with alpha=0.1.||||0.10
82492950|NCT03486223|164679058|SUPERIORITY|||||||0.71||||||Wilcoxon signed-rank test was used for the within-subject comparison of GSK2256294 versus placebo.|Wilcoxon (Mann-Whitney)|||A sample size of 16 per group was estimated to have 86% power to detect a within-subject difference of 3.76 (80% of the above difference) or larger (with an SD for the within-subject difference of 4.6) in insulin sensitivity.||||0.71
82492951|NCT01513343|164679071|SUPERIORITY||||||<|0.05|||||||Regression, Logistic|Multinomial logistic regression examined program effects on child BMI categories, controlling for child sex, age (months), \& BMI z-score at pretest.||||||<0.05
82492952|NCT01513343|164679072|SUPERIORITY||||||<|0.05||||||To control for type I errors, the critical P values for each assessment were determined with the unweighted Bonferroni method, dividing the critical value of P \< 0.05 by the number of comparisons conducted for a given assessment.|Mixed Models Analysis|||||||<0.05
82492953|NCT02417831|164679077|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|105.76|STANDARD_DEVIATION|14.18|||TWO_SIDED|90.0|99.81|112.08|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||112.08|99.81|
82492954|NCT02417831|164679078|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|101.4|STANDARD_DEVIATION|9.05|||TWO_SIDED|90.0|97.71|105.23|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||105.23|97.71|
82492955|NCT02417831|164679079|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Bioequivalence range of 80% to 125%.|Ratio|101.42|STANDARD_DEVIATION|8.85|||TWO_SIDED|90.0|97.81|105.17|||||The standard deviation in the statistical analysis is actually the intra-individual coefficient of variation. Ratio calculated as test divided by reference.|||105.17|97.81|
82492956|NCT03416946|164679086|SUPERIORITY|||||||0.79||||||Post-op HKA angle|t-test, 2 sided|||||||0.790
82492957|NCT00724932|164679098|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|3.4|||<|0.0001|TWO_SIDED|95.0|2.8|4.1||Testing was performed using a two-sided test at the 0.05 significance level. There was only one primary comparison, therefore no adjustment for multiplicity was required.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.9 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.9 was calculated using a two-way analysis of variance (ANOVA) model adjusted for treatment group and trial site.||4.1|2.8|<0.0001
82492958|NCT00724932|164679099|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|2.5|||<|0.0001|TWO_SIDED|95.0|2.1|2.8||The p-value is not adjusted for multiplicity.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.7 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.7 was calculated using a two-way ANOVA model adjusted for treatment group and trial site.||2.8|2.1|<0.0001
82492959|NCT00724932|164679107|SUPERIORITY_OR_OTHER||Geometric Mean Ratio (Final Values)|2.9|||<|0.0001|TWO_SIDED|95.0|2.5|3.4||The p-value is not adjusted for multiplicity.|ANOVA||Sugammadex is the numerator and neostigmine the denominator. The estimated value for the geometric mean ratio presents how many times the geometric mean time to recovery of the T4/T1 ratio to 0.8 was faster with sugammadex compared to neostigmine.|To evaluate the efficacy of sugammadex compared to neostigmine, the ratio of the geometric means of time to recovery of the T4/T1 ratio to 0.8 was calculated using a two-way ANOVA model adjusted for treatment group and trial site.||3.4|2.5|<0.0001
82492960|NCT03758066|164679137|OTHER|||||||0.03||||||P-value reported for quality of life measured between baseline and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||A two-tailed non-parametric one-sample paired sign test was used to determine whether to reject or fail to reject the null hypothesis that the mean difference of scores between any of the 2 of 3 timepoints is 0 (Baseline v. 6-month, 6-month v. 12-month, and Baseline v. 12-month).||||.03
82492961|NCT03758066|164679138|SUPERIORITY|||||||0.02||||||P-value reported for self-reported self-efficacy in chronic disease management between baseline and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||A two-tailed non-parametric one-sample paired sign test was used to determine whether to reject or fail to reject the null hypothesis that the mean difference of scores between any of the 2 of 3 timepoints is 0 (Baseline v. 6-month, 6-month v. 12-month, and Baseline v. 12-month).||||.02
82492962|NCT03758066|164679138|OTHER|||||||0.02||||||P-value reported for self-reported self-efficacy in chronic disease management between 6- and 12-month follow-up with a statistical significance threshold of .05.|Sign test|||||||.02
82492963|NCT03733470|164679148|OTHER||||||<|0.05|||||||t-test, 2 sided|||||||<0.05
82492964|NCT01517711|164679149|SUPERIORITY_OR_OTHER_LEGACY|||||||0.286||||||P value is for overall post-randomization CAPS score|ANOVA|||Women were excluded from analysis because of the small sample size and unequal distribution across groups.||||0.286
82492965|NCT01517711|164679150|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.1|||||||ANOVA|||||||<0.10
82492966|NCT01517711|164679151|SUPERIORITY_OR_OTHER_LEGACY||||||=|0.03|||||||ANOVA|||Analysis is for sleep only (men)||||=0.03
82492967|NCT04203498|164679161|SUPERIORITY||Difference in least squares means|-0.73|STANDARD_ERROR_OF_MEAN|0.914|=|0.4263|TWO_SIDED|95.0|-2.54|1.08|||Linear mixed model repeated measures|||Week 9 to 12 (primary outcome statistics)||1.08|-2.54|=0.4263
82492968|NCT01090492|164679185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.11||||0.6513|TWO_SIDED|80.0|-0.21|0.44|||ANCOVA|||PRP: Adjusted mean difference analysis was based on Analysis of Covariance (ANCOVA) model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.44|-0.21|0.6513
82492969|NCT01090492|164679185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.69||||0.0057|TWO_SIDED|80.0|-0.99|-0.38|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.38|-0.99|0.0057
82492970|NCT01090492|164679185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44||||0.1157|TWO_SIDED|80.0|-0.8|-0.08|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.08|-0.80|0.1157
82492971|NCT01090492|164679185|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.15||||0.6286|TWO_SIDED|80.0|-0.56|0.25|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.25|-0.56|0.6286
82492972|NCT01090492|164679186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.12||||0.9504|TWO_SIDED|80.0|-2.43|2.68|||ANCOVA|||At Week 4 - PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||2.68|-2.43|0.9504
82492973|NCT01090492|164679186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.35||||0.4651|TWO_SIDED|80.0|-3.74|1.03|||ANCOVA|||At Week 4 - PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.03|-3.74|0.4651
82492974|NCT01090492|164679186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.59||||0.7423|TWO_SIDED|80.0|-2.92|1.73|||ANCOVA|||At Week 4 - SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.73|-2.92|0.7423
82492975|NCT01090492|164679186|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.91||||0.3524|TWO_SIDED|80.0|-4.55|0.73|||ANCOVA|||At Week 4 - SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.73|-4.55|0.3524
82492976|NCT01090492|164679187|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|1.21||||0.79|TWO_SIDED|80.0|-4.61|7.03|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||7.03|-4.61|0.7900
82492977|NCT01090492|164679187|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-6.17||||0.1463|TWO_SIDED|80.0|-11.61|-0.73|||ANCOVA|||PRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.73|-11.61|0.1463
82492978|NCT01090492|164679187|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-2.37||||0.1446|TWO_SIDED|80.0|-4.44|-0.29|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.29|-4.44|0.1446
82492979|NCT01090492|164679187|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-1.09||||0.5497|TWO_SIDED|80.0|-3.45|1.26|||ANCOVA|||SRP: Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||1.26|-3.45|0.5497
82492980|NCT01090492|164679188|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|0.15||||0.5909|TWO_SIDED|80.0|-0.21|0.52|||ANCOVA|||Week 4 (PRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.52|-0.21|0.5909
82492981|NCT01090492|164679188|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.77||||0.0053|TWO_SIDED|80.0|-1.12|-0.43|||ANCOVA|||Week 4 (PRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.43|-1.12|0.0053
82492982|NCT01090492|164679188|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.28||||0.3462|TWO_SIDED|80.0|-0.67|0.1|||ANCOVA|||Week 4 (SRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||0.10|-0.67|0.3462
82492983|NCT01090492|164679188|SUPERIORITY_OR_OTHER||Adjusted Mean Difference|-0.44||||0.194|TWO_SIDED|80.0|-0.88|-0.01|||ANCOVA|||Week 4 (SRP): Adjusted mean difference analysis was based on ANCOVA model with sequence, period and treatment as fixed effects and participant within sequence as a random effect, utilizing the baseline scores as covariate.||-0.01|-0.88|0.1940
82492984|NCT02935842|164679213|OTHER|||||||||||||||||First Reliable Change (RC), Reliable Change Index (RCI) were calculated on every individual score. Further, ANOVAs and t-tests were administered in order to verify differences between groups or interventions. Significance levels were set at p \< .05.|Reliable Change / Reliable Change Index according to Jacobson \& Truax (1991). There, on the basis of every individual score, the change in performance (i.e. BL-4Weeks/ BL-6Months) has been calculated and is reported with level of significance as well as effect size.|||
82492985|NCT02935842|164679213|OTHER|||||||0.05|||||||ANOVA|||||||.05
82492986|NCT02935842|164679217|OTHER|||||||0.05|||||||ANOVA|||||||.05
82492987|NCT02935842|164679219|OTHER|||||||0.05|||||||ANOVA|||||||.05
82492988|NCT03344796|164679225|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82492989|NCT03344796|164679226|SUPERIORITY||||||<|0.001|||||||Chi-squared, Corrected|||||||<0.001
82492990|NCT03344796|164679227|SUPERIORITY||||||<|0.01|||||||Chi-squared|||||||<0.01
82492991|NCT03344796|164679228|SUPERIORITY||||||<|0.1|||||||Chi-squared|||Knowledge of sun protection score at baseline compared with score after completion of the arm. The hypothesis is that the focus group, usability test and structured interviews arms will not have significant change in knowledge. It is expected that cohort studies 1 and 2 will have significant change in knowledge of sun protection.||||< 0.1
82492992|NCT00758836|164679231|SUPERIORITY_OR_OTHER||Proportion difference|24.5|||<|0.001|TWO_SIDED|90.0|16.7|32.2|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomial distribution stratified by baseline severity.||||32.2|16.7|<0.001
82492993|NCT00758836|164679231|SUPERIORITY_OR_OTHER||Proportion difference|27.7|||<|0.001|TWO_SIDED|90.0|19.6|35.8|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||35.8|19.6|<0.001
82492994|NCT00758836|164679231|SUPERIORITY_OR_OTHER||Proportion difference|20.4|||<|0.001|TWO_SIDED|90.0|12.6|28.2|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||28.2|12.6|<0.001
82492995|NCT00758836|164679231|SUPERIORITY_OR_OTHER||Proportion differenece|4.2||||0.449|TWO_SIDED|90.0|-5.0|13.3|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||13.3|-5.0|0.449
82492996|NCT00758836|164679231|SUPERIORITY_OR_OTHER||Proportion difference|7.7||||0.182|TWO_SIDED|90.0|-1.8|17.1|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||17.1|-1.8|0.182
82492997|NCT00758836|164679232|SUPERIORITY_OR_OTHER||Proportion difference|40.8|||<|0.001|TWO_SIDED|90.0|31.9|49.0|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||49.0|31.9|<0.001
82492998|NCT00758836|164679232|SUPERIORITY_OR_OTHER||Proportion difference|39.9|||<|0.001|TWO_SIDED|90.0|30.5|48.5|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||48.5|30.5|<0.001
82492999|NCT00758836|164679232|SUPERIORITY_OR_OTHER||Proportion difference|6.1||||0.265|TWO_SIDED|90.0|-2.9|14.9|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||14.9|-2.9|0.265
82493000|NCT00758836|164679232|SUPERIORITY_OR_OTHER||Proportion difference|5.2||||0.362|TWO_SIDED|90.0|-4.2|14.5|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||14.5|-4.2|0.362
82493001|NCT00758836|164679232|SUPERIORITY_OR_OTHER||Proportion difference|34.7|||<|0.001|TWO_SIDED|90.0|25.3|43.4|||Miettinen and Nurminen|Miettinen and Nurminen method for independent binomal distribution stratified by baseline severity.||||43.4|25.3|<0.001
82493002|NCT05544734|164679248|SUPERIORITY||Median Difference (Final Values)|-0.3||||0.69|TWO_SIDED|95.0|-1.85|1.25|||t-test, 2 sided||Direction = Hydrocodone group mean change (i.e., change = baseline to postoperative day 2) minus Non-Hydrocodone group mean change (i.e., change = baseline to postoperative day 2).|||1.25|-1.85|0.69
82493003|NCT05544734|164679249|SUPERIORITY||Median Difference (Final Values)|2.3||||0.62|TWO_SIDED|95.0|-7.25|11.85|||t-test, 2 sided||Direction = Hydrocodone group mean change (i.e., change = postoperative day 3 to postoperative day 6) minus Non-Hydrocodone group mean change (i.e., change = postoperative day 3 to postoperative day 6).|||11.85|-7.25|0.62
82493004|NCT04560998|164679343|SUPERIORITY||The Hodges-Lehmann estimate|1.13||||0.0004|TWO_SIDED|95.0|1.056|1.211|||Wilcoxon (Mann-Whitney)|||||1.211|1.056|0.0004
82493005|NCT04560998|164679344|SUPERIORITY||The Hodges-Lehmann estimate|1.08||||0.038|TWO_SIDED|95.0|1.004|1.156|||Wilcoxon (Mann-Whitney)|||||1.156|1.004|0.0380
82493006|NCT04560998|164679345|SUPERIORITY||The Hodges-Lehmann estimate|1.0||||0.0108|TWO_SIDED|95.0|0.478|1.518|||Wilcoxon (Mann-Whitney)|||||1.518|0.478|0.0108
82493007|NCT04560998|164679346|SUPERIORITY||The Hodges-Lehmann Estimate|1.11||||0.0046|TWO_SIDED|95.0|1.033|1.197|||Wilcoxon (Mann-Whitney)|||||1.197|1.033|0.0046
82493008|NCT00745823|164679374|NON_INFERIORITY_OR_EQUIVALENCE|The 800 mg q.d. dosage was considered non-inferior to 400 mg b.i.d. if the lower bound of the 2-sided exact 95% CI for difference in response rate remained above -10%.|Mean Difference (Final Values)|-5.7||||0.044|TWO_SIDED|95.0|-10.7|-0.83|||Miettinen and Nurminen|||||-0.83|-10.7|0.044
82493009|NCT00745823|164679375|NON_INFERIORITY_OR_EQUIVALENCE|The 800 mg q.d. dosage was considered non-inferior to 400 mg b.i.d. if the lower bound of the 2-sided exact 95% CI for difference in response rate remained above -10%.|Mean Difference (Final Values)|-5.1||||0.011|TWO_SIDED|95.0|-9.29|-1.06|||Miettinen and Nurminen|||||-1.06|-9.29|0.011
82493010|NCT00745823|164679376|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-5.0|4.6|||Miettinen and Nurminen|||||4.6|-5.0|
82493011|NCT00745823|164679377|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|-1.3|2.0||||||||2.0|-1.3|
82493012|NCT00745823|164679378|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.56|||||TWO_SIDED|95.0|-7.29|34.4|||t-test, 2 sided|||||34.40|-7.29|
82493013|NCT01633853|164679391|SUPERIORITY_OR_OTHER|||||||0.117|TWO_SIDED||||||t-test, 2 sided|||The blood levels of calcium at the 24th month of following up were compared to the levels of the baseline both in group Vitamin D2.||||0.117
82493014|NCT01633853|164679391|SUPERIORITY_OR_OTHER|||||||0.309|TWO_SIDED||||||t-test, 2 sided|||The blood levels of calcium at the 24th month of following up were compared to the levels of the baseline in group 1,25(OH)2 Vitamin D3.||||0.309
82493015|NCT01633853|164679391|SUPERIORITY_OR_OTHER|||||||0.554|TWO_SIDED|||||t=-0.593|t-test, 2 sided|||The levels of blood calcium at the 24th month of following up were compared between two groups.||||0.554
82493016|NCT01633853|164679392|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood 25(OH)Vitamin D were compared between the 24th month and the baseline in group Vitamin D2.||||<0.001
82493017|NCT01633853|164679392|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood 25(OH)Vitamin D were compared between the 24th month and the baseline in group 1,25(OH)2 Vitamin D3.||||<0.001
82493018|NCT01633853|164679392|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||P\<0.001, t=-14.982.|t-test, 2 sided|||The levels of blood 25(OH) Vitamin D at the 24th month of following up were compared between two groups.||||<0.001
82493019|NCT01633853|164679393|SUPERIORITY_OR_OTHER|||||||0.753|TWO_SIDED|||||Chi-square value=0.099|Chi-squared|||||||0.753
82493020|NCT01633853|164679394|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood phosphorus were compared between the 24th month of following up and the baseline in group Vitamin D2.||||<0.001
82493021|NCT01633853|164679394|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||t-test, 2 sided|||The levels of blood phosphorus were compared between the 24th month of following up and the baseline in group 1,25(OH)2 Vitamin D3, respectively.||||<0.001
82493022|NCT01633853|164679394|SUPERIORITY_OR_OTHER|||||||0.694|TWO_SIDED|||||t=0.394|t-test, 2 sided|||The levels of blood phosphorus at the 24th month of following up were compared between two groups.||||0.694
82493023|NCT01633853|164679395|SUPERIORITY_OR_OTHER|||||||0.179|TWO_SIDED||||||t-test, 2 sided|||The levels of blood iPTH were compared between the 24th month and the baseline in group Vitamin D2.||||0.179
82493024|NCT01633853|164679395|SUPERIORITY_OR_OTHER|||||||0.106|TWO_SIDED||||||t-test, 2 sided|||The levels of blood iPTH were compared between the 24th month and the baseline group 1,25(OH)2 Vitamin D3, respectively.||||0.106
82493025|NCT01633853|164679395|SUPERIORITY_OR_OTHER|||||||0.463|TWO_SIDED|||||t=-0.736|t-test, 2 sided|||The levels of blood iPTH at the 24th month of following up were compared between two groups.||||0.463
82493026|NCT00590720|164679442|SUPERIORITY_OR_OTHER|||||||0.4|||||||Two-sample t-test|||||||0.40
82493027|NCT00590720|164679443|SUPERIORITY_OR_OTHER||||||<|0.01|||||||Two-sample t-test|||||||<0.01
82493028|NCT00590720|164679444|SUPERIORITY_OR_OTHER|||||||0.53|||||||Two-sample t-test|||||||0.53
82493029|NCT00590720|164679445|SUPERIORITY_OR_OTHER|||||||0.22|||||||Two-sample t-test|||||||0.22
82493030|NCT00590720|164679446|SUPERIORITY_OR_OTHER|||||||0.16|||||||Two-sample t-test|||||||0.16
82493031|NCT00590720|164679447|SUPERIORITY_OR_OTHER|||||||0.52|||||||Two-sample t-test|||||||0.52
82493032|NCT01001377|164679459|SUPERIORITY_OR_OTHER_LEGACY||Stratified Cox proportional hazard ratio|0.966|||||TWO_SIDED|95.0|0.839|1.113|||||Hazard ratio is presented as panitumumab : cetuximab. A value \< 1.0 indicates a lower average event rate and longer time to event for panitumumab relative to cetuximab.|Cox proportional hazards model stratified by geographic region (North America, western Europe and Australia vs rest of world) and ECOG performance status (0 or 1 vs 2).||1.113|0.839|
82493033|NCT01001377|164679459|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|The overall survival non-inferiority hypothesis based on an asymptotic normal score was tested at a 1-sided 2.5% significance level. A value \< -1.96 indicates non-inferiority at a significance level of 1-sided 0.025.|Normal score|-3.19||||0.0007||||||A synthesis approach with an asymptotic standard normal test statistic|Asymptotic standard normal test|||A synthesis approach with an asymptotic standard normal test statistic based on the logarithm of the hazard ratio was used to test the hypothesis that panitumumab is non-inferior to cetuximab for overall survival (ie, that panitumumab retains at least 50% of the overall survival benefit of cetuximab relative to best supportive care).||||0.0007
82493034|NCT01001377|164679461|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.15|||||TWO_SIDED|95.0|0.83|1.58|||||Common treatment odds ratio stratified by geographic region (North America, western Europe and Australia vs rest of world) and ECOG performance status (0 or 1 vs 2).|||1.58|0.83|
82493035|NCT01001377|164679465|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.0126|||||TWO_SIDED|95.0|-0.0353|0.0605|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||0.0605|-0.0353|
82493036|NCT01001377|164679466|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-1.6745|||||TWO_SIDED|95.0|-4.9331|1.5841|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||1.5841|-4.9331|
82493037|NCT01001377|164679467|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|1.0372|||||TWO_SIDED|95.0|-2.3267|4.401|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||4.4010|-2.3267|
82493038|NCT01001377|164679468|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|0.5836|||||TWO_SIDED|95.0|-3.0269|4.1941|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||4.1941|-3.0269|
82493039|NCT01001377|164679469|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.1998|||||TWO_SIDED|95.0|-6.0093|5.6098|||||A positive difference between the treatment groups favors the panitumumab group.|Repeated measures mixed model includes treatment, geographic region, ECOG score, assessment week, and treatment by assessment week interaction as fixed effects, and subjects a random effect. An unstructured covariance matrix is used in the mixed model.||5.6098|-6.0093|
82493040|NCT00964860|164679492|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.24|STANDARD_ERROR_OF_MEAN|0.05||0.001|ONE_SIDED|95.0||||a priori threshold for statistical significance = 0.05|ANCOVA||All treatment comparisons were 1-sided with the significance level set at 5%. Units on the MGI Scale.|||||0.001
82493041|NCT00964860|164679493|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.05||0.004|ONE_SIDED|95.0||||a priori threshold for statistical significance = 0.05|ANCOVA||All treatment comparisons were 1-sided with the significance level set at 5%|||||0.004
82493042|NCT01056653|164679500|SUPERIORITY_OR_OTHER||||||=|0.03|||||||ANCOVA|F(2,107)=3.48, partial n2=0.061, observed power=0.639||ANCOVA - Group Comparison of Parent Total Score on PCITS at 8 months, controlling for scores at baseline (4 months). Group entered as as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||=0.03
82493043|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.03||||||Bonferroni adjustments for multiple comparisons used|ANOVA|||Pairwise Group Comparison based on estimated marginal means - Parent Total Scores||||0.03
82493044|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.534||||||Bonferroni adjustment for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Parent Total Scores||||0.534
82493045|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.047|||||||ANCOVA|F(2,107)=3.145, partial n2=0.056, observed power=0.593.||ANCOVA - Group Comparison of Cognitive Growth Fostering Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.047
82493046|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.056||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Cognitive Growth Fostering Subscale||||0.056
82493047|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.267||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Cognitive Growth Fostering Subscale||||0.267
82493048|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.036|||||||ANCOVA|F(2,107)=3.440, partial n2=0.060, observed power=0.634||ANCOVA - Group Comparison of Socio-Emotional Growth Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.036
82493049|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.036||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Socio-Emotional Growth Fostering Subscale||||0.036
82493050|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||1||||||Bonferroni adjustments for multiple comparisons used|ANCOVA|||Pairwise Group Comparison based on estimated marginal means - Socio-Emotional Growth Fostering Subscale||||1.00
82493051|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.665|||||||ANCOVA|F(2,107)=0.409||ANCOVA - Group Comparison of Sensitivity to Cues Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.665
82493052|NCT01056653|164679500|SUPERIORITY_OR_OTHER|||||||0.732|||||||ANCOVA|F(2,107)=0.313||ANCOVA - Group Comparison of Response to Distress Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.732
82493053|NCT01056653|164679501|SUPERIORITY_OR_OTHER|||||||0.61|||||||ANCOVA|F(2,107)=0.49||ANCOVA - Group Comparison of Parent Domain scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.61
82493054|NCT01056653|164679501|SUPERIORITY_OR_OTHER|||||||0.38|||||||ANCOVA|F(2,107)=0.96||ANCOVA - Group Comparison of Child Domain scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.38
82493055|NCT01056653|164679502|SUPERIORITY_OR_OTHER|||||||0.11|||||||ANCOVA|F(2,106)=2.24.||ANCOVA - Group Comparison of WPL-R scores - Evaluation Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.11
82493056|NCT01056653|164679502|SUPERIORITY_OR_OTHER|||||||0.686|||||||ANCOVA|F(2,106)=0.379||ANCOVA - Group Comparison of WPL-R scores - Centrality Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.686
82493057|NCT01056653|164679502|SUPERIORITY_OR_OTHER|||||||0.121|||||||ANCOVA|F(2,106)=2.158||ANCOVA - Group Comparison of WPL-R scores - Life Change Subscale scores at 8 months, controlling for scores at baseline (4 months). Group entered as fixed factor, outcome scores as dependent variable, and baseline scores as covariate.||||0.121
82493058|NCT03727230|164679510|OTHER||||||<|0.001|||||||Chi-squared|||In this study, a single-arm clinical trial was conducted. The summarized alloanti-D rate (203/720, 28.2%; 95% CI, 19%-32%) in truly RhD-negative patients with similar mixed diseases after RhD+ RBC transfusion reported in the meta-analysis (Ji YL, et al. Vox Sang 2022; 117: 633-40) was used as the control for comparison with alloanti-D rate identified in Asian-type DEL patients after RhD+ RBC transfusion in the clinical trial.||||< 0.001
82493059|NCT04377620|164679519|SUPERIORITY||Odds Ratio (OR)|0.46||||0.0292|TWO_SIDED|95.0|0.201|1.028|||Mixed Models Analysis|logistic regression mixed model includes treatment group and ARDS severity as fixed covariates and investigational site as a random effect.||||1.028|0.201|0.0292
82493060|NCT04377620|164679519|SUPERIORITY||Odds Ratio (OR)|0.42||||0.028|TWO_SIDED|95.0|0.171|1.023|||Mixed Models Analysis|logistic regression mixed model includes treatment group and ARDS severity as fixed covariates and investigational site as a random effect.||||1.023|0.171|0.0280
82493061|NCT01606007|164679536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.59|STANDARD_ERROR_OF_MEAN|0.1112|<|0.0001|TWO_SIDED|95.0|-0.81|-0.37||Primary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|Mixed Models Analysis|||||-0.37|-0.81|<0.0001
82493062|NCT01606007|164679536|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.27|STANDARD_ERROR_OF_MEAN|0.1108||0.0166|TWO_SIDED|95.0|-0.48|-0.05||Primary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|Mixed Models Analysis|||||-0.05|-0.48|0.0166
82493063|NCT01606007|164679537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-44.0|STANDARD_ERROR_OF_MEAN|4.914|<|0.0001|TWO_SIDED|95.0|-53.7|-34.3||Each secondary endpoint was tested at alpha=0.05; significance was claimed only if Saxagliptin+Dapagliflozin+Metformin was superior to both Saxagliptin+Metformin and Dapagliflozin+Metformin.|ANCOVA|||LOCF||-34.3|-53.7|<0.0001
82493064|NCT01606007|164679537|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.1|STANDARD_ERROR_OF_MEAN|4.923||0.0639|TWO_SIDED|95.0|-18.8|0.5||Each secondary endpoint was tested at alpha=0.05; significance testing stops at the endpoint where p-value\>0.05.|ANCOVA|||LOCF||0.5|-18.8|0.0639
82493065|NCT01606007|164679538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.8|STANDARD_ERROR_OF_MEAN|3.988|||TWO_SIDED|95.0|-31.6|-15.9|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||-15.9|-31.6|
82493066|NCT01606007|164679538|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-6.1|STANDARD_ERROR_OF_MEAN|3.957|||TWO_SIDED|95.0|-13.8|1.7|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||1.7|-13.8|
82493067|NCT01606007|164679539|SUPERIORITY_OR_OTHER||Mean difference in percentages|23.1|STANDARD_ERROR_OF_MEAN|4.282|||TWO_SIDED|95.0|14.7|31.5|||||Modified Logistic Regression was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||31.5|14.7|
82493068|NCT01606007|164679539|SUPERIORITY_OR_OTHER||Mean difference in percentages|19.1|STANDARD_ERROR_OF_MEAN|4.587|||TWO_SIDED|95.0|10.1|28.1|||||Modified Logistic Regression was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||28.1|10.1|
82493069|NCT01606007|164679540|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.05|STANDARD_ERROR_OF_MEAN|0.3451|||TWO_SIDED|95.0|-2.73|-1.37|||||ANCOVA was applied for comparison, but p-value was not reported because at least one prior test in the hierarchical testing procedure yielded p-value\>0.05.|||-1.37|-2.73|
82493070|NCT05673889|164679541|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|192.2|||||TWO_SIDED|90.0|166.56|221.79|||||The ratios (and 90% CIs) are expressed as percentages.|Dabigatran etexilate administered alone as Reference, ARV-471 coadministered with dabigatran etexilate as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||221.79|166.56|
82493071|NCT05673889|164679542|OTHER|Mixed Model|Ratio (%) of Adjusted Geometric Means|197.81|||||TWO_SIDED|90.0|177.32|220.66|||||The ratios (and 90% CIs) are expressed as percentages.|Dabigatran etexilate administered alone as Reference, ARV-471 coadministered with dabigatran etexilate as Test. Natural log transformed Cmax was analyzed using a mixed effect model with treatment as fixed effects and participant as a random effect. Estimates of the adjusted mean differences (Test-Reference) and corresponding 90% CIs were obtained from the model and were exponentiated to provide estimates of the ratio of adjusted geometric means (Test/Reference) and 90% CIs for the ratios.||220.66|177.32|
82493072|NCT01235689|164679561|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel (CMH) test stratified by Screening smoking status (yes or no) and weight (\< 70 kg or ≥ 70 kg).||||||0.010
82493073|NCT01235689|164679562|SUPERIORITY|||||||0.014|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.014
82493074|NCT01235689|164679563|SUPERIORITY|||||||0.006|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.006
82493075|NCT01235689|164679564|SUPERIORITY|||||||0.01|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.010
82493076|NCT01235689|164679565|SUPERIORITY|||||||0.299|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.299
82493077|NCT01235689|164679566|SUPERIORITY|||||||0.728|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.728
82493078|NCT01235689|164679567|SUPERIORITY|||||||0.067|||||||Cochran-Mantel-Haenszel|CMH test stratified by screening smoking status (yes or no) and weight (\< 70 kg, ≥ 70 kg).||||||0.067
82493079|NCT01235689|164679568|SUPERIORITY||LS Mean Difference|-1.4||||0.116|TWO_SIDED|95.0|-3.2|0.4|||ANCOVA|Model included factors for treatment group, screening smoking status (yes or no), and weight (\< 70 kg, ≥ 70 kg), and Baseline values as covariate.||||0.4|-3.2|0.116
82493080|NCT01235689|164679570|SUPERIORITY||Cox Proportional Hazard|0.442||||0.012|TWO_SIDED|95.0|0.2|0.8|||Regression, Cox|||||0.8|0.2|0.012
82493081|NCT01235689|164679571|SUPERIORITY||Cox Proportional Hazard|1.45||||0.008|TWO_SIDED|95.0|1.1|1.9|||Regression, Cox|||||1.9|1.1|0.008
82493082|NCT01235689|164679572|SUPERIORITY||Cox Proportional Hazard|1.337||||0.052|TWO_SIDED|95.0|1.0|1.8|||Regression, Cox|||||1.8|1.0|0.052
82493083|NCT01235689|164679575|SUPERIORITY||Cox Proportional Hazard|0.823||||0.501|TWO_SIDED|95.0|0.5|1.5|||Regression, Cox|||||1.5|0.5|0.501
82493084|NCT01235689|164679576|SUPERIORITY||Cox Proportional Hazard|0.785||||0.459|TWO_SIDED|95.0|0.4|1.5|||Regression, Cox|||||1.5|0.4|0.459
82493085|NCT01235689|164679583|SUPERIORITY||Cox Proportional Hazard|0.423||||0.212|TWO_SIDED|95.0|0.1|1.6|||Regression, Cox|||||1.6|0.1|0.212
82493086|NCT00389597|164679596|NON_INFERIORITY_OR_EQUIVALENCE|The 95% one-sided confidence bound for testing non-inferiority using two proportion test with 10% non-inferiority margin.||||||0.0021|||||||Farrington Manning|||1 Level: Ho: pm-pc \<=-0.1 (inferiority) Alternative hypothesis: Ha: pm - pc \> -0.1 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group.||||0.0021
82493087|NCT00389597|164679596|NON_INFERIORITY_OR_EQUIVALENCE|The 95% one-sided confidence bound for testing non-inferiority using two proportioned test with a 10% non-inferiority margin.|||||<|0.0001|||||||Farrington-Manning|||"2 Level: Ho: pm-pc \<=-0.1 (inferiority) Alternative hypothesis: Ha: pm - pc \> -0.1 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group.~2 Level: Ho: pm-pc \<= 0 (not superior) Alternative hypothesis: Ha: pm-pc \>0 Where pm = the proportion of success in the Mobi-C group and the Pc = the proportion of success in the ACDF group."||||<0.0001
82493088|NCT01323959|164679613|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|96.8|||||TWO_SIDED|95.0|89.0|99.6|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|"The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, 1 month after the booster dose, in at least 80% of the subjects against diphtheria.~Samples were analysed both with ELISA (enzyme-linked immunosorbent assay), and VERO-cell (African green monkey kidney cell) neutralisation testing."||99.6|89|
82493089|NCT01323959|164679613|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|95.7|||||TWO_SIDED|95.0|87.8|99.1|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||99.1|87.8|
82493090|NCT01323959|164679613|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|100.0|||||TWO_SIDED|95.0|94.8|100.0|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||100|94.8|
82493091|NCT01323959|164679615|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|92.1|||||TWO_SIDED|95.0|82.4|97.4|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to dose in study NCT01277705. Samples were analysed both with ELISA (enzyme-linked immunosorbent assay), and VERO-cell (African green monkey kidney cell) neutralisation testing.||97.4|82.4|
82493092|NCT01323959|164679615|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|79.4|||||TWO_SIDED|95.0|67.9|88.3|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||88.3|67.9|
82493093|NCT01323959|164679615|SUPERIORITY_OR_OTHER||Percentage of subjects seroprotected|84.1|||||TWO_SIDED|95.0|73.3|91.8|||||The pre-specified lower limit (LL) of the 95% confidence interval (CI) for the percentage of seroprotected (Anti-D concentrations ≥ 0.1 IU/mL by ELISA or ≥ 0.01 IU/mL by VERO-cell when subjects with ELISA result \<0.1 IU/mL) subjects was above 80%.|The objective of the analysis was to demonstrate that a booster dose of Boostrix™ Polio vaccine, administered to adults 10 years after a dose of Boostrix™ Polio vaccine or co-administered Boostrix™ + Poliorix™ vaccines, elicited seroprotective antibody concentrations, one month after the booster dose, in at least 80% of the subjects against diphtheria.||91.8|73.3|
82493094|NCT00282984|164679630|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|6.05|||<|0.0001||95.0|4.13|8.86||To preserve type I family-wise error rate of 0.05, used step-down procedure to analyze primary \& 2 key secondary endpoints. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 thru 12, 2) CA at Week 52, 3) the Long Term Quit Rate (LTQR) thru Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of trtmt group and center as independent var.||Estimates for expected \& clinically meaningful var \& pbo 4-week CQR for Week 9 - 12 of trtmt based on response rates \& corresponding 95% OR confidence interval (CI) from A30510285 \& A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpoint (endpt) between (b/w) var \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (OR of at least 3.04), and 84% power for 2 key secondary endpts.||8.86|4.13|<0.0001
82493095|NCT00282984|164679631|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.19|||<|0.0001||95.0|1.97|5.18||To preserve type I family-wise error rate of 0.05, a step-down procedure was used for the analysis of primary \& 2 key secondary endpts. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 through 12, 2) CA at Week 52, 3) LTQR through Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of treatment group \& center as independent var.||Estimates for expected and clinically meaningful var \& pbo 4-week CQR for Weeks 9 - 12 of trtmt were based on response rates \& corresponding 95% odds ratio CI from A30510285 and A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpt b/w var \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (odds ratio of at least 3.04) \& a power of 84% for the 2 key secondary endpts.||5.18|1.97|<0.0001
82493096|NCT00282984|164679632|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.82|||<|0.0001||95.0|1.82|4.38||To preserve type I family-wise error rate of 0.05, a step-down procedure was used for the analysis of primary \& 2 key secondary endpoints. Hierarchy of comparisons: 1) 4-week CQR for Weeks 9 through 12, 2) CA at Week 52, 3) the LTQR through Week 52.|Regression, Logistic|Logistic regression model fitted to primary endpoint \& key secondary endpoints; included main effects of trtmt group and center as independent var.||Estimates for expected and clinically meaningful varenicline (var) \& pbo 4-week CQR for Weeks 9 - 12 of treatment were based on response rates \& corresponding 95% odds ratio CI from A30510285 and A30510366 study results. Total n=700 randomized var or pbo 1:1 should have provided at least 99% power to detect difference in primary endpt b/w varenicline \& pbo, assuming true 4-week CQR of 0.18 for pbo \& 0.40 for var (odds ratio of at least 3.04), and a power of 84% for the 2 key secondary endpts.||4.38|1.82|<0.0001
82493097|NCT00282984|164679633|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.97|||<|0.0001||95.0|4.17|8.56|||Regression, Logistic|||Week 12 analysis||8.56|4.17|<0.0001
82493098|NCT00282984|164679634|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.93|||<|0.0001||95.0|2.03|4.23|||Regression, Logistic|||24 Week analysis||4.23|2.03|<0.0001
82493099|NCT00282984|164679635|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.93||||0.0003||95.0|1.34|2.77|||Regression, Logistic|||52 Week analysis||2.77|1.34|0.0003
82493100|NCT00282984|164679636|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.05||||0.0001||95.0|1.41|2.97|||Regression, Logistic|||||2.97|1.41|0.0001
82493101|NCT00282984|164679637|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.86|||<|0.0001||95.0|2.51|5.93|||Regression, Logistic|||||5.93|2.51|<0.0001
82493102|NCT00282984|164679639|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.85|||<|0.0001||95.0|2.58|5.75|||Regression, Logistic|||||5.75|2.58|<0.0001
82493103|NCT02774954|164679646|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
82493104|NCT02774954|164679647|SUPERIORITY|||||||0.35|||||||ANOVA|||||||0.35
82493105|NCT00453063|164679718|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001||95.0|||||ANCOVA|||||||0.001
82493106|NCT00453063|164679719|SUPERIORITY_OR_OTHER_LEGACY|||||||0.304||95.0|||||ANCOVA|||||||0.304
82493107|NCT00453063|164679720|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||95.0|||||ANCOVA|||||||0.004
82493108|NCT00453063|164679721|SUPERIORITY_OR_OTHER_LEGACY|||||||0.063||95.0|||||ANCOVA|||||||0.063
82493109|NCT00453063|164679722|SUPERIORITY_OR_OTHER_LEGACY|||||||0.356||95.0|||||ANCOVA|||||||0.356
82493110|NCT00365508|164679723|SUPERIORITY_OR_OTHER|||||||0.05||95.0||||a priori threshold for statistical significance|Chi-squared|||Chi-square was used to examine the relationship between treatment arm and 24-hour point prevalence abstinence at 6-months.||||.05
82499542|NCT01986855|164689832|SUPERIORITY_OR_OTHER||Difference in the least squares means|-15.51||||0.019|TWO_SIDED|95.0|-28.5|-2.53||The cLDA model included fixed effects for treatment, time, baseline treatment with insulin stratum (yes/no), and the interaction of time by treatment. Time was treated as a categorical variable. P-value is nominal.|Constrained longitudinal data analysis|||||-2.53|-28.50|0.019
82493111|NCT01558271|164679752|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.57|||<|0.001|TWO_SIDED|95.0|-1.79|-1.35|||Mixed Models Analysis|||Approximately 490 participants were to be randomized in a 4:1:2 ratio to LY2189265, placebo, or Liraglutide, respectively. This sample size would provide greater than 99% power to demonstrate superiority of LY2189265 to placebo. This computation assumed a true mean difference in HbA1c change from baseline between LY2189265 and placebo being 0.8%, a common standard deviation of 1.1%, a 1-sided significance level of 0.025, and a 9% drop-out rate between randomization and Week 26.||-1.35|-1.79|<0.001
82493112|NCT01558271|164679752|NON_INFERIORITY_OR_EQUIVALENCE|If the upper limit of the 95% Confidence Interval (CI) was \<0.4%, then LY2189265 was declared non-inferior to Liraglutide. If the upper limit of the 95% CI was \<0.0%, then LY2189265 was declared superior to liraglutide.|LS Mean Difference|-0.1||||0.248|TWO_SIDED|95.0|-0.27|0.07|||Mixed Models Analysis|||Approximately 490 participants were to be randomized in a 4:1:2 ratio to LY2189265, placebo, or Liraglutide, respectively. This sample size would provide \>90% power to confirm non-inferiority of LY2189265 to liraglutide by a margin of 0.4%. This computation assumed a true mean difference in HbA1c change from baseline between LY2189265 and Liraglutide being 0%, a common standard deviation of 1.1%, a 1-sided significance level of 0.025, and a 9% drop-out rate between randomization and Week 26.||0.07|-0.27|0.248
82493113|NCT01558271|164679753|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2||||0.04|TWO_SIDED|95.0|-0.39|-0.01|||Mixed Models Analysis|||||-0.01|-0.39|0.040
82493114|NCT01558271|164679754|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 26 weeks between LY2189265 and placebo.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||<0.001
82493115|NCT01558271|164679754|SUPERIORITY_OR_OTHER|||||||0.608|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 26 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.608
82493116|NCT01558271|164679754|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 26 weeks between LY2189265 and placebo.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||<0.001
82493117|NCT01558271|164679754|SUPERIORITY_OR_OTHER|||||||0.844|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 26 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.844
82493118|NCT01558271|164679754|SUPERIORITY_OR_OTHER|||||||0.112|TWO_SIDED|||||Treatment comparison for HbA1c \<7% at 52 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.112
82493119|NCT01558271|164679754|SUPERIORITY_OR_OTHER|||||||0.103|TWO_SIDED|||||Treatment comparison for HbA1c \<=6.5% at 52 weeks between LY2189265 and Liraglutide.|Cochran-Mantel-Haenszel|Pairwise comparison was adjusted for prestudy therapy (OAM yes/no), baseline BMI group (\<25 / \>=25 kg/m\^2), and baseline HbA1c group.||||||0.103
82493120|NCT01558271|164679755|SUPERIORITY_OR_OTHER||LS Mean Difference|-40.21|||<|0.001|TWO_SIDED|95.0|-47.31|-33.11||Treatment comparison for FBG at 26 weeks between LY2189265 and placebo.|Mixed Models Analysis|||||-33.11|-47.31|<0.001
82493121|NCT01558271|164679755|SUPERIORITY_OR_OTHER||LS Mean Difference|0.57||||0.835|TWO_SIDED|95.0|-4.82|5.96|||Mixed Models Analysis|Treatment comparison for FBG at 26 weeks between LY2189265 and Liraglutide.||||5.96|-4.82|0.835
82493122|NCT01558271|164679755|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.77||||0.553|TWO_SIDED|95.0|-7.65|4.1||Treatment comparison for FBG at 52 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||4.10|-7.65|0.553
82493123|NCT01558271|164679757|SUPERIORITY_OR_OTHER||LS Mean Difference|0.61||||0.057|TWO_SIDED|95.0|-0.02|1.23|||Mixed Models Analysis|Treatment comparison for body weight at 26 weeks between LY2189265 and placebo.||||1.23|-0.02|0.057
82493124|NCT01558271|164679757|SUPERIORITY_OR_OTHER||LS Mean Difference|0.34||||0.168|TWO_SIDED|95.0|-0.14|0.82||Treatment comparison for body weight at 26 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||0.82|-0.14|0.168
82493125|NCT01558271|164679757|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.03||||0.911|TWO_SIDED|95.0|-0.64|0.57||Treatment comparison for body weight at 52 weeks between LY2189265 and Liraglutide.|Mixed Models Analysis|||||0.57|-0.64|0.911
82493126|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.86||||0.723|TWO_SIDED|95.0|-12.2|8.48||Treatment comparison for HOMA2-%S based on fasting insulin at 26 weeks between LY2189265 and placebo.|ANCOVA|||||8.48|-12.20|0.723
82493127|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.01||||0.998|TWO_SIDED|95.0|-7.92|7.91||Treatment comparison for HOMA2-%S based on fasting insulin at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||7.91|-7.92|0.998
82493128|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|0.83||||0.848|TWO_SIDED|95.0|-7.72|9.38||Treatment comparison for HOMA2-%S based on fasting C-peptide at 26 weeks between LY2189265 and placebo.|ANCOVA|||||9.38|-7.72|0.848
82493129|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.03||||0.357|TWO_SIDED|95.0|-9.48|3.42||Treatment comparison for HOMA2-%S based on fasting C-peptide at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||3.42|-9.48|0.357
82493130|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.49||||0.533|TWO_SIDED|95.0|-10.35|5.36||Treatment comparison for HOMA2-%S based on fasting insulin at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.36|-10.35|0.533
82493131|NCT01558271|164679758|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.03||||0.747|TWO_SIDED|95.0|-7.32|5.25||Treatment comparison for HOMA2-%S based on fasting C-peptide at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.25|-7.32|0.747
82493132|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|28.35|||<|0.001|TWO_SIDED|95.0|21.63|35.07||Treatment comparison for HOMA2-%B based on fasting insulin at 26 weeks between LY2189265 and placebo.|ANCOVA|||||35.07|21.63|<0.001
82493133|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|3.08||||0.242|TWO_SIDED|95.0|-2.09|8.24||Treatment comparison for HOMA2-%B based on fasting insulin at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||8.24|-2.09|0.242
82493134|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|24.82|||<|0.001|TWO_SIDED|95.0|19.25|30.4||Treatment comparison for HOMA2-%B based on fasting C-peptide at 26 weeks between LY2189265 and placebo.|ANCOVA|||||30.40|19.25|<0.001
82493135|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91||||0.376|TWO_SIDED|95.0|-2.32|6.13||Treatment comparison for HOMA2-%B based on fasting C-peptide at 26 weeks between LY2189265 and Liraglutide.|ANCOVA|||||6.13|-2.32|0.376
82493136|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|1.91||||0.417|TWO_SIDED|95.0|-2.72|6.54||Treatment comparison for HOMA2-%B based on fasting insulin at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||6.54|-2.72|0.417
82493137|NCT01558271|164679759|SUPERIORITY_OR_OTHER||LS Mean Difference|0.73||||0.753|TWO_SIDED|95.0|-3.83|5.29||Treatment comparison for HOMA2-%B based on fasting C-peptide at 52 weeks between LY2189265 and Liraglutide.|ANCOVA|||||5.29|-3.83|0.753
82493138|NCT01558271|164679760|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 26 weeks between LY2189265 and placebo.|Fisher Exact|||||||>0.999
82493139|NCT01558271|164679760|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 26 weeks between LY2189265 and Liraglutide.|Fisher Exact|||||||>0.999
82493140|NCT01558271|164679760|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||Treatment comparison at 52 weeks between LY2189265 and Liraglutide.|Fisher Exact|||||||>0.999
82493141|NCT00873912|164679788|NON_INFERIORITY_OR_EQUIVALENCE|Based on similar fever rate with 300 evaluable subjects (240 vaccine and 60 placebo recipients), the study would provide at least 98% power to rule out a rate increase of 5 percentage points assuming the true difference between the treatment groups is zero and the true fever rate is ≤ 1.0%. Power would be lower if the true difference was different from zero.|rate difference|-1.3|||||TWO_SIDED|95.0|-7.9|1.3|||score statistic|||The percentage of subjects with fever was compared between the two treatment groups based on the upper limit of the two-sided 95% CIs for rate difference (monovalent vaccine minus placebo). The upper limit of the two-sided 95% CI was evaluated against the pre-specified equivalence criterion of 5 percentage points which corresponded to the following hypotheses: - H0 (null): rate difference ≥ 5 percentage points, - HA (alternative): rate difference \< 5 percentage points.||1.3|-7.9|
82493142|NCT01980940|164679802|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|5.09|||||TWO_SIDED|90.0|4.03|6.42|||ANOVA|||The geometric least squares mean ratio (GLSMR) and 90% confidence interval was calculated for Cmax after log transformation for the formulation comparison (ETOR 75 DMSO/ETOR 75 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||6.42|4.03|
82493143|NCT01980940|164679802|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|7.3|||||TWO_SIDED|90.0|6.05|8.81|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the formulation comparison (ETOR 150 DMSO/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||8.81|6.05|
82493144|NCT01980940|164679802|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.45|||||TWO_SIDED|90.0|0.38|0.55|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the dose comparison (ETOR 75 DMSO/ETOR 150 DMSO) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.55|0.38|
82493145|NCT01980940|164679802|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.65|||||TWO_SIDED|90.0|0.51|0.83|||ANOVA|||The GLSMR and 90% confidence interval was calculated for Cmax after log transformation for the dose comparison (ETOR 75 PG/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. Cmax with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.83|0.51|
82493146|NCT01980940|164679804|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|9.32|||||TWO_SIDED|90.0|4.77|18.18|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the formulation comparison (ETOR 75 DMSO/ETOR 75 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||18.18|4.77|
82493147|NCT01980940|164679804|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|8.12|||||TWO_SIDED|90.0|6.39|10.32|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the formulation comparison (ETOR 150 DMSO/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||10.32|6.39|
82493148|NCT01980940|164679804|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.47|||||TWO_SIDED|90.0|0.39|0.57|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the dose comparison (ETOR 75 DMSO/ETOR 150 DMSO) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.57|0.39|
82493149|NCT01980940|164679804|SUPERIORITY_OR_OTHER_LEGACY||Treatment ratio|0.41|||||TWO_SIDED|90.0|0.21|0.79|||ANOVA|||The GLSMR and 90% confidence interval was calculated for AUC0-last after log transformation for the dose comparison (ETOR 75 PG/ETOR 150 PG) using a linear mixed effect model with fixed effects terms for treatment and period and random effect for participants. AUC with value 0 included in calculation of GLSMs with a value of 0.5\*LLOQ (=0.5 h\*ng/ml).||0.79|0.21|
82499543|NCT01986855|164689833|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.16||||0.713|TWO_SIDED|95.0|0.53|2.56||Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment, baseline treatment with insulin stratum (yes/no), and a covariate for baseline A1C.|Logistic regression model|||||2.56|0.53|0.713
82493150|NCT01980940|164679805|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-27.3|STANDARD_ERROR_OF_MEAN|21.57||0.2113|TWO_SIDED|90.0|-63.6|8.9|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||8.9|-63.6|0.2113
82493151|NCT01980940|164679805|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-22.7|STANDARD_ERROR_OF_MEAN|19.66||0.2548|TWO_SIDED|90.0|-55.7|10.3|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||10.3|-55.7|0.2548
82493152|NCT01980940|164679805|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-21.4|STANDARD_ERROR_OF_MEAN|19.94||0.288|TWO_SIDED|90.0|-54.9|12.0|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||12.0|-54.9|0.2880
82493153|NCT01980940|164679805|SUPERIORITY_OR_OTHER_LEGACY||Median Difference (Final Values)|-17.6|STANDARD_ERROR_OF_MEAN|19.52||0.3709|TWO_SIDED|90.0|-50.4|15.1|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||15.1|-50.4|0.3709
82493154|NCT01980940|164679805|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-17.3|STANDARD_ERROR_OF_MEAN|19.81||0.3883|TWO_SIDED|90.0|-50.5|16.0|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 pain subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||16.0|-50.5|0.3883
82493155|NCT01980940|164679806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-14.1|STANDARD_ERROR_OF_MEAN|9.32||0.1383|TWO_SIDED|90.0|-29.7|1.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||1.6|-29.7|0.1383
82493156|NCT01980940|164679806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-10.4|STANDARD_ERROR_OF_MEAN|8.66||0.238|TWO_SIDED|90.0|-24.9|4.2|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||4.2|-24.9|0.2380
82493157|NCT01980940|164679806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-9.5|STANDARD_ERROR_OF_MEAN|8.53||0.2691|TWO_SIDED|90.0|-23.9|4.8|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||4.8|-23.9|0.2691
82493158|NCT01980940|164679806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-8.1|STANDARD_ERROR_OF_MEAN|8.15||0.3246|TWO_SIDED|90.0|-21.8|5.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||5.6|-21.8|0.3246
82493159|NCT01980940|164679806|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-7.1|STANDARD_ERROR_OF_MEAN|8.19||0.3881|TWO_SIDED|90.0|-20.9|6.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 stiffness subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||6.6|-20.9|0.3881
82493160|NCT01980940|164679807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-52.3|STANDARD_ERROR_OF_MEAN|68.25||0.4477|TWO_SIDED|90.0|-166.8|62.3|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 2 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 2 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||62.3|-166.8|0.4477
82493161|NCT01980940|164679807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-33.7|STANDARD_ERROR_OF_MEAN|65.42||0.6084|TWO_SIDED|90.0|-143.6|76.1|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 4 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 4 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||76.1|-143.6|0.6084
82499933|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.5|||||TWO_SIDED|95.0|-34.6|17.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 6||17.3|-34.6|
82493162|NCT01980940|164679807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-35.2|STANDARD_ERROR_OF_MEAN|65.25||0.5926|TWO_SIDED|90.0|-144.7|74.4|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 7 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 7 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||74.4|-144.7|0.5926
82493163|NCT01980940|164679807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.3|STANDARD_ERROR_OF_MEAN|62.49||0.5022|TWO_SIDED|90.0|-147.2|62.6|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 11 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 11 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||62.6|-147.2|0.5022
82493164|NCT01980940|164679807|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-42.0|STANDARD_ERROR_OF_MEAN|63.7||0.5125|TWO_SIDED|90.0|-149.0|64.9|||constrained longitudinal data analysis|||Treatment difference in mean time-weighted average change from baseline to Day 14 in the WOMAC VA 3.1 physical function subscale score (ETOR 50 DMSO - Placebo \[Pt 2\]) was evaluated using a constrained longitudinal data analysis model that included baseline measurements and time-weighted average at Day 14 in the response variable. The model included terms of visit, visit-by-treatment, and treatment.||64.9|-149.0|0.5125
82493165|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2632|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 2 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.2632
82493166|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4703|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 4 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.4703
82493167|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.5507|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 7 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.5507
82493168|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.3992|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 11 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.3992
82493169|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6626|||||||Jonckheere-Terpstra test|||Treatment comparison of Day 14 PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.6626
82493170|NCT01980940|164679808|SUPERIORITY_OR_OTHER_LEGACY|||||||0.315|||||||Jonckheere-Terpstra test|||Treatment comparison of post-trial PGART frequencies (ETOR 50 DMSO vs Placebo \[Pt 2\]) was performed using a two-sided Jonckheere-Terpstra test.||||0.3150
82493171|NCT00709761|164679863|SUPERIORITY_OR_OTHER||percentage of participants|53.0||||||95.0|40.7|66.0|||||The estimation parameter represents the percentage of participants experiencing either a CR or a PR.|||66.0|40.7|
82493172|NCT01206660|164679871|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82493173|NCT01206660|164679872|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82493174|NCT01206660|164679873|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82493175|NCT02955602|164679874|OTHER||||||=|0.2242|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 2 mg and 5 mg treatment groups after 8 weeks of treatment.||||= 0.2242
82493176|NCT02955602|164679874|OTHER||||||=|0.0021|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 2 mg and 10 mg treatment groups after 8 weeks of treatment||||= 0.0021
82493177|NCT02955602|164679874|OTHER||||||=|0.0024|||||||ANCOVA|||The analyses will assess the change from baseline in each treatment group and will assess the hypothesis that there are no differences in the percent change in ALP serum level between seladelpar 5 mg and 10 mg treatment groups after 8 weeks of treatment||||= 0.0024
82493178|NCT01581931|164679897|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|97.69|STANDARD_DEVIATION|9.7|||TWO_SIDED|95.0|93.63|101.94|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||101.94|93.63|
82493179|NCT01581931|164679900|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|97.76|STANDARD_DEVIATION|9.8|||TWO_SIDED|90.0|93.64|102.07|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||102.07|93.64|
82493180|NCT01581931|164679901|NON_INFERIORITY_OR_EQUIVALENCE|Equivalence margin: the 90% confidence intervall has to be within the intervall (80%, 125%)|Adjusted geometric mean ratio|98.79|STANDARD_DEVIATION|10.0|||TWO_SIDED|90.0|94.55|103.21|||ANOVA||Numerator: FDC tablet; denominator: single tablets of linagliptin and metformin; The dispersion parameter is actually the geometric coefficient of variation.|||103.21|94.55|
82493181|NCT01144286|164679922|SUPERIORITY_OR_OTHER||response rate (%)|80.0||||0.063|TWO_SIDED|95.0||||Significance level was set to α of 0.05 if the primary endpoint was significant, hierarchical testing was to be performed on the primary endpoint (each active dose X placebo). No other adjustment was made for testing multiple secondary outcomes.|Regression, Logistic|||"Primary analysis is the dose response at TOC based on the global therapeutic cure. Dose response will be tested using a logistic regression using linear coefficient for the treatment effect(Wald chi-square).~Assuming that the response rate is 80% for 600 mg, 75% for the 300 mg, 65% for 150 mg and 50% for the placebo group, a sample size of 45 subjects in each group will have 90% power to detect a linear dose response using a 0.05 two-sided test of trend based on the logistic model."||||0.0630
82493182|NCT02585960|164679932|SUPERIORITY||Gaussian Statistic estimate|1.96||||0.0545|TWO_SIDED|95.0|-0.038|3.958|||Chi-squared||Approximately Gaussian Statistic is obtained by taking the square root of the Chi-squared test with continuity adjustment.|The proportion of participants with an ABR of 0 during the second 6-month period on BAX 855 prophylaxis, was compared between the 2 prophylaxis arms using a chi-square test with continuity correction at a 2-sided 5% level of significance.||3.958|-0.038|0.0545
82493183|NCT02849678|164679964|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.148|||||||t-test, 1 sided|||||||0.148
82493184|NCT02849678|164679966|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.636|||||||t-test, 1 sided|||||||.636
82493185|NCT02849678|164679968|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.193||||||Hydromorphone consumption (mg) in Post-Anesthesia Care Unit (PACU)|t-test, 2 sided|||||||0.193
82493186|NCT02849678|164679968|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.635||||||Hydromorphone consumption (mg) in PACU versus at 24 hours versus 48 hours|ANOVA|||||||0.635
82493187|NCT02849678|164679969|NON_INFERIORITY|A total sample size of 64 subjects (32 patients in each arm) is required to detect a difference of 0.5 SD, using an alpha error of 0.05 and a power of 0.8. After enrollment of 47 patients, we decided to complete the present interim analysis, and the study was then interrupted due to equivalence in results between the two groups.||||||0.063|||||||ANOVA|Local Anesthetic Consumption through para-vertebral catheters in PACU vs. at 24 hours vs. 48 hours||||||0.063
82493188|NCT02499783|164679982|SUPERIORITY||Adjusted Risk Difference|30.4|||<|0.001|TWO_SIDED|95.0|19.2|41.7|||Cochran-Mantel-Haenszel|Stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Risk difference = (adalimumab 160/80 mg - placebo). Stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|||41.7|19.2|<0.001
82493189|NCT02499783|164679983|SUPERIORITY||Risk Difference Compared to 30%|34.6|||<|0.001|TWO_SIDED|95.0|26.2|42.4|||One Sample Exact Test|The one sample Exact test was performed by comparing it to the clinically meaningful remission rate of 30%.||||42.4|26.2|< 0.001
82493190|NCT02499783|164679984|SUPERIORITY||Adjusted Risk Difference|33.4|||<|0.001|TWO_SIDED|95.0|23.2|43.6||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||43.6|23.2|< 0.001
82493191|NCT02499783|164679988|SUPERIORITY||Adjusted Risk Difference|40.4|||<|0.001|TWO_SIDED|95.0|26.7|54.2||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||54.2|26.7|< 0.001
82493192|NCT02499783|164679989|SUPERIORITY||Adjusted Risk Difference|50.2|||<|0.001|TWO_SIDED|95.0|36.9|63.5||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||63.5|36.9|< 0.001
82493193|NCT02499783|164679990|SUPERIORITY||Adjusted Risk Difference|27.6|||<|0.001|TWO_SIDED|95.0|18.2|37.0||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||37.0|18.2|< 0.001
82493194|NCT02499783|164679992|SUPERIORITY||Adjusted Risk Difference|19.6||||0.002|TWO_SIDED|95.0|7.1|32.1||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||32.1|7.1|0.002
82493195|NCT02499783|164679994|SUPERIORITY||Least Squares Mean Difference|-385.2|||<|0.001|TWO_SIDED|95.0|-598.81|-171.5||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||||-171.50|-598.81|< 0.001
82493196|NCT02499783|164679995|SUPERIORITY||Adjusted Risk Difference|9.8||||0.001|TWO_SIDED|95.0|3.9|15.8||Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by be stratified by Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline.|||15.8|3.9|0.001
82499544|NCT01986855|164689833|SUPERIORITY_OR_OTHER||Adjusted Odds Ratio|1.06||||0.89|TWO_SIDED|95.0|0.44|2.55||Adjusted Odds Ratio based on a logistic regression model fitted with fixed effects for treatment, baseline treatment with insulin stratum (yes/no), and a covariate for baseline A1C.|Logistic regression model|||||2.55|0.44|0.890
82493197|NCT02499783|164679997|SUPERIORITY||Adjusted Risk Difference|18.4|||<|0.001|TWO_SIDED|95.0|8.2|28.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission at Week 2||28.6|8.2|< 0.001
82493198|NCT02499783|164679997|SUPERIORITY||Adjusted Risk Difference|30.4|||<|0.001|TWO_SIDED|95.0|19.2|41.7||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission at Week 4||41.7|19.2|< 0.001
82493199|NCT02499783|164679999|SUPERIORITY||Adjusted Risk Difference|21.4|||<|0.001|TWO_SIDED|95.0|12.6|30.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission (CDAI \< 150) Plus A Reduction in HS-CRP of at Least 50% From Baseline at Week 2||30.2|12.6|< 0.001
82493200|NCT02499783|164679999|SUPERIORITY||Adjusted Risk Difference|33.4|||<|0.001|TWO_SIDED|95.0|23.2|43.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Remission (CDAI \< 150) Plus A Reduction in HS-CRP of at Least 50% From Baseline at Week 4||43.6|23.2|< 0.001
82493201|NCT02499783|164680001|SUPERIORITY||Adjusted Risk Difference|21.7||||0.001|TWO_SIDED|95.0|8.7|34.6||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Response (Decrease in CDAI ≥ 70 Points From Baseline) at Week 2||34.6|8.7|0.001
82493202|NCT02499783|164680001|SUPERIORITY||Adjusted Risk Difference|40.4|||<|0.001|TWO_SIDED|95.0|26.7|54.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Clinical Response (Decrease in CDAI ≥ 70 Points From Baseline) at Week 4||54.2|26.7|< 0.001
82493203|NCT02499783|164680003|SUPERIORITY||Adjusted Risk Difference|31.4|||<|0.001|TWO_SIDED|95.0|19.6|43.2||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Decrease in CDAI ≥ 70 Points From Baseline Plus a Reduction in Hs-CRP of at Least 30% From Baseline at Week 2||43.2|19.6|< 0.001
82493204|NCT02499783|164680003|SUPERIORITY||Adjusted Risk Difference|50.2|||<|0.001|TWO_SIDED|95.0|36.9|63.5||Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Cochran-Mantel-Haenszel||Risk difference = (adalimumab 160/80 mg - placebo). Based on Cochran-Mantel-Haenszel test stratified by Crohn's disease severity (CDAI \<= 300 and CDAI \>300) at baseline and corticosteroid use at baseline.|Decrease in CDAI ≥ 70 Points From Baseline Plus a Reduction in Hs-CRP of at Least 30% From Baseline at Week 4||63.5|36.9|< 0.001
82493205|NCT02499783|164680005|SUPERIORITY||Least Squares Mean Difference|-43.34|||<|0.001|TWO_SIDED|95.0|-59.39|-27.3||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in CDAI at Week 2||-27.30|-59.39|< 0.001
82493206|NCT02499783|164680005|SUPERIORITY||Least Squares Mean Difference|-66.63|||<|0.001|TWO_SIDED|95.0|-84.2|-49.06||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in CDAI at Week 4||-49.06|-84.20|< 0.001
82493207|NCT02499783|164680007|SUPERIORITY||Least Squares Mean Difference|-13.921|||<|0.001|TWO_SIDED|95.0|-19.183|-8.659||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in hs-CRP Level at Week 2||-8.659|-19.183|< 0.001
82493208|NCT02499783|164680007|SUPERIORITY||Least Squares Mean Difference|-16.844|||<|0.001|TWO_SIDED|95.0|-21.206|-12.483||P-value for test of difference between adalimumab and placebo for mean change from Baseline using ANCOVA with Treatment, Crohn's disease severity (CDAI \<= 300, \> 300) at Baseline and corticosteroid use at Baseline, and Baseline value as covariate.|ANCOVA|||Change From Baseline in hs-CRP Level at Week 4||-12.483|-21.206|< 0.001
82493209|NCT02228460|164680010|OTHER|||||||0.3173||||||Threshold for significance at 0.05 level.|McNemar Test|||A McNemar test was used to test the treatment effect based on paired pre-treatment and post-treatment (Week 26) frequencies of skin GL-3 score grouped into the categories (0 to \<2; 2 to 3).||||0.3173
82493210|NCT02228460|164680011|OTHER|||||||0.625||||||Threshold for significance at 0.05 level.|Wilcoxon signed rank test|||Wilcoxon signed rank test was used to assess the mean change from Baseline to Week 26 in skin GL-3 score.||||0.625
82499545|NCT02064868|164689837|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.0172|TWO_SIDED|95.0|0.51|0.98||One-sided p-value|Gehan's generalized Wilcoxon test|||||0.98|0.51|0.0172
82499546|NCT02064868|164689838|SUPERIORITY||Hazard Ratio (HR)|0.79||||0.0634|TWO_SIDED|95.0|0.61|1.02||Two-sided p-value|Gehan's generalized Wilcoxon test|||||1.02|0.61|0.0634
82499547|NCT02064868|164689839|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82493211|NCT00329238|164680033|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment and baseline stratification factor in the model.|Hazard Ratio (HR)|1.44||||0.0137||95.0|0.78|2.64||p-value for non-inferiority. The non-inferiority margin for the hazard ratio was chosen to be 2.85.|Regression, Cox|HR within cohort estimated by Cox regr. with treatment and baseline stratific. factor. Overall HR calc. by pooling with inverse variance weighting.|HR for time to first recurrent VTE or VTE death.|||2.64|0.78|0.0137
82493212|NCT00329238|164680033|SUPERIORITY_OR_OTHER|||||||0.2424||||||p-value for superiority. If non-inferiority could be established for HR and for the risk difference, the upper bound of the 95% CI for the hazard ratio was then compared with 1 to evaluate the superiority claim of dabigatran over warfarin.|Regression, Cox|||||||0.2424
82493213|NCT00329238|164680034|NON_INFERIORITY_OR_EQUIVALENCE|Comparisons between treatment groups were performed using a Cox regression analysis with treatment and baseline stratification factor in the model.|Risk Difference (RD)|0.38|||<|0.0001||95.0|-0.5|1.25||p-value for non-inferiority. The non-inferiority margin for the risk difference was chosen to be 2.80.|Regression, Cox|Risk difference for time to first recurrent VTE/VTE death is calculated based on weighted KM estimates across the cohorts via meta-analysis approach.||||1.25|-0.50|<0.0001
82493214|NCT00329238|164680034|SUPERIORITY_OR_OTHER|||||||0.4013||||||p-value for superiority. If non-inferiority could be established for HR and for the risk difference, the upper bound of the 95% CI for the risk difference was then compared with 0 to evaluate the superiority claim of dabigatran over warfarin.|Kaplan-Meier|||||||0.4013
82493215|NCT00329238|164680035|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.18||||0.4732||95.0|0.75|1.84|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|HR for time to first centrally adjudicated recurrent VTE or all cause death.|||1.84|0.75|0.4732
82493216|NCT00329238|164680036|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.09||||0.8876||95.0|-1.11|1.28|||Kaplan-Meier|Risk difference for the time to first centrally adjudicated recurrent VTE or all cause death at month 18.||Dabigatran versus Warfarin||1.28|-1.11|0.8876
82493217|NCT00329238|164680037|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.32||||0.4548||95.0|0.64|2.71|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|HR for time to first centrally adjudicated recurrent symptomatic DVT|Dabigatran versus Warfarin||2.71|0.64|0.4548
82493218|NCT00329238|164680038|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.19||||0.6563||95.0|-0.63|1.0|||Kaplan-Meier|Risk difference for the time to first centrally adjudicated recurrent symptomatic DVT at Month 18.||Dabigatran versus Warfarin||1.00|-0.63|0.6563
82493219|NCT00329238|164680039|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|2.04||||0.1925||95.0|0.7|5.98|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to first centrally adjudicated recurrent symptomatic PE.|Dabigatran versus Warfarin||5.98|0.70|0.1925
82493220|NCT00329238|164680040|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.26||||0.3723||95.0|-0.32|0.84|||Kaplan-Meier||Risk difference for the time to first centrally adjudicated recurrent symptomatic PE at Month 18|Dabigatran versus Warfarin||0.84|-0.32|0.3723
82493221|NCT00329238|164680041|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.01||||0.9921||95.0|0.06|16.22|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to deaths related to VTE.|Dabigatran versus Warfarin||16.22|0.06|0.9921
82493222|NCT00329238|164680042|SUPERIORITY_OR_OTHER||Risk Difference (RD)|0.01||||0.9204||95.0|-0.2|0.23|||Kaplan-Meier|Risk difference for the time to deaths related to VTE at Month 18.||Dabigatran versus Warfarin||0.23|-0.20|0.9204
82493223|NCT00329238|164680043|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||0.7405||95.0|0.47|1.72|||Regression, Cox|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors and their interaction.|Hazard ratio for time to all deaths|Dabigatran versus Warfarin||1.72|0.47|0.7405
82493224|NCT00329238|164680044|SUPERIORITY_OR_OTHER||Risk Difference (RD)|-0.02||||0.9622||95.0|-0.89|0.84|||Kaplan-Meier|Risk difference for the time to all deaths at Month 18.||Dabigatran versus Warfarin||0.84|-0.89|0.9622
82493225|NCT00329238|164680045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.52||||0.0577||95.0|0.27|1.02|||Regression, Cox||This is the analysis of the time to the first MBE.|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors (including active cancer at baseline and symptomatic PE as qualifying event) and their interaction.||1.02|0.27|0.0577
82493226|NCT00329238|164680045|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.61|0.83|||Regression, Cox||This is the analysis of the time to the first occurrence of any bleeding event.|Hazard ratio estimated using the Cox regression with treatment, cohort, baseline stratification factors (including active cancer at baseline and symptomatic PE as qualifying event) and their interaction.||0.83|0.61|<0.0001
82493227|NCT00801632|164680048|SUPERIORITY_OR_OTHER||Percentage of Participants|60.0|||||TWO_SIDED|95.0|14.7|94.7|||||Clopper-Pearson used to derive confidence interval|||94.7|14.7|
82493228|NCT00801632|164680050|SUPERIORITY_OR_OTHER|||||||0.215|TWO_SIDED|||||P-value based on a paired t-test comparing baseline creatinine level with the level at study completion/participant termination.|t-test, 2 sided|The test describes whether the average of the difference is different from zero.||||||0.215
82493229|NCT00730405|164680075|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493230|NCT00730405|164680075|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493231|NCT00730405|164680075|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493232|NCT00730405|164680075|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493233|NCT00730405|164680076|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493234|NCT00730405|164680076|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493235|NCT00730405|164680076|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493236|NCT00730405|164680076|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493237|NCT00730405|164680077|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493238|NCT00730405|164680077|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493239|NCT00730405|164680077|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493240|NCT00730405|164680077|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493241|NCT00730405|164680078|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493242|NCT00730405|164680078|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493243|NCT00730405|164680078|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493244|NCT00730405|164680078|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493245|NCT00730405|164680079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
82493246|NCT00730405|164680079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.71|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
82493247|NCT00730405|164680079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.44|STANDARD_ERROR_OF_MEAN|0.57|<|0.001|||||||ANOVA|||||||<0.001
82493248|NCT00730405|164680079|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.22|STANDARD_ERROR_OF_MEAN|0.58|<|0.001|||||||ANOVA|||||||<0.001
82493249|NCT00730405|164680080|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493250|NCT00730405|164680080|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493251|NCT00730405|164680080|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493252|NCT00730405|164680080|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82493253|NCT00959764|164680090|NON_INFERIORITY_OR_EQUIVALENCE|"Assumed placebo-adjusted effect for both active treatment groups (% increase in BMD)was 1.56% and that the placebo adjusted effect for the rsCT tablets must be at least 0.5 times the placebo adjusted effect for the calcitonin nasal spray (active control treatment group). The null hypothesis to be tested was:~\[Mean(oral) - Mean(placebo)\] - 0.5 x \[Mean(nasal) - Mean(placebo)\] \< 0. Reference Pigeot, et al. 2003"|Mean Difference (Net)|0.77|STANDARD_DEVIATION|2.5||0.002|TWO_SIDED|95.0|0.08|1.45||The P-value was not adjusted for multiple comparisons. The a priori threshold for statistical significance was \<0.05|ANCOVA|||The overall analysis across groups was an Analysis of Covariance where the study was powered to 80% with an assumption of a standard deviation of 2.5% and a two-sided 5% level of significance. For each treatment group, the BMD at 48 weeks was compared with the BMD at baseline and a % increase was calculated (baseline = 0%). This difference was subjected to the t-test. Two-sided P-value is less than or equal to 0.05 and was not adjusted as multiple comparisons were not done.||1.45|0.08|0.002
82493254|NCT00959764|164680091|NON_INFERIORITY_OR_EQUIVALENCE|Same as for Primary Outcome|Mean Difference (Net)|-21.84|STANDARD_DEVIATION|41.99||0.0006||||||P-value not adjusted for multiple comparisons; a priori threshold for significance was 0.05|ANCOVA|95% confidence interval not calculated||Same as for Primary Outcome||||0.0006
82493255|NCT00959764|164680092|NON_INFERIORITY_OR_EQUIVALENCE|Same as Primary Outcome|Mean Difference (Net)|-18.09|STANDARD_DEVIATION|47.53||0.0012||||||p-value not adjusted for multiple comparisons; a priori threshold for statistical significance was set at 0.05.|ANCOVA||oral calcitonin vs placebo|Same as Primary Outcome||||0.0012
82493256|NCT00692341|164680093|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|88.61|||||TWO_SIDED|90.0|49.2|159.56||||||For mild hepatic impairment, analysis of variance (ANOVA) was used to compare natural log transformed Cmax of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and confidence intervals (CIs) on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||159.56|49.20|
82493257|NCT00692341|164680093|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|127.67|||||TWO_SIDED|90.0|70.9|229.91||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Cmax of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||229.91|70.90|
82493258|NCT00692341|164680094|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|78.34|||||TWO_SIDED|90.0|39.92|153.75||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞) of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||153.75|39.92|
82493259|NCT00692341|164680094|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|195.25|||||TWO_SIDED|90.0|99.49|383.18||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞) of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||383.18|99.49|
82499548|NCT02064868|164689840|SUPERIORITY|||||||0.0002|||||||Chi-squared|||||||0.0002
82499549|NCT02064868|164689841|SUPERIORITY|||||||0.1392|||||||Wilcoxon (Mann-Whitney)|||||||0.1392
82499550|NCT02064868|164689843|SUPERIORITY|||||||0.3115|||||||Mixed Models Analysis|||Day 5||||0.3115
82493260|NCT00692341|164680095|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|78.14|||||TWO_SIDED|90.0|38.68|157.82||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUClast of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||157.82|38.68|
82493261|NCT00692341|164680095|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|198.9|||||TWO_SIDED|90.0|98.47|401.74||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUClast of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||401.74|98.47|
82493262|NCT00692341|164680100|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|73.78|||||TWO_SIDED|90.0|37.4|145.56||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed fu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||145.56|37.40|
82493263|NCT00692341|164680100|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.86|||||TWO_SIDED|90.0|55.58|183.02||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed fu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||183.02|55.58|
82493264|NCT00692341|164680101|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|91.43|||||TWO_SIDED|90.0|44.75|186.79||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed CLu/F of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||186.79|44.75|
82493265|NCT00692341|164680101|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|50.78|||||TWO_SIDED|90.0|27.14|95.03||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed CLu/F of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||95.03|27.14|
82493266|NCT00692341|164680102|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|103.09|||||TWO_SIDED|90.0|51.53|206.22||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed Vzu/F of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||206.22|51.53|
82493267|NCT00692341|164680102|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|76.06|||||TWO_SIDED|90.0|41.41|139.73||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Vzu/F of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||139.73|41.41|
82493268|NCT00692341|164680103|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|109.38|||||TWO_SIDED|90.0|53.54|223.47||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞)u of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||223.47|53.54|
82493269|NCT00692341|164680103|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|196.92|||||TWO_SIDED|90.0|105.23|368.49||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUC (0 - ∞)u of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||368.49|105.23|
82493270|NCT00692341|164680104|SUPERIORITY_OR_OTHER||Adjusted ratio of geometric means|111.65|||||TWO_SIDED|90.0|54.35|229.37||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed AUClastu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||229.37|54.35|
82493271|NCT00692341|164680104|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|200.6|||||TWO_SIDED|90.0|106.68|377.2||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed AUClastu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||377.20|106.68|
82493272|NCT00692341|164680105|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|106.82|||||TWO_SIDED|90.0|58.22|195.99||||||For mild hepatic impairment, ANOVA was used to compare natural log transformed Cmaxu of axitinib (AG-013736) between the control group (normal hepatic function) and mild hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (mild hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||195.99|58.22|
82499551|NCT02064868|164689843|SUPERIORITY|||||||0.1236|||||||Mixed Models Analysis|||Day 14||||0.1236
82499552|NCT02670083|164689844|SUPERIORITY||Least Squares Mean Difference|-0.17|STANDARD_ERROR_OF_MEAN|0.354|||TWO_SIDED|95.0|-0.86|0.53||||||||0.53|-0.86|
82493273|NCT00692341|164680105|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|128.76|||||TWO_SIDED|90.0|75.62|219.25||||||For moderate hepatic impairment, ANOVA was used to compare natural log transformed Cmaxu of axitinib (AG-013736) between the control group (normal hepatic function) and moderate hepatic impairment. The point estimates and CIs on the log-scale were back transformed to provide estimates of the ratio of adjusted geometric means (moderate hepatic impairment/normal hepatic function) and 90% CIs for the ratios.||219.25|75.62|
82493274|NCT02021773|164680111|SUPERIORITY||Mean Difference (Final Values)|-22.74|STANDARD_ERROR_OF_MEAN|10.937||0.0386|TWO_SIDED|95.0|-44.28|-1.21||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-1.21|-44.28|0.0386
82493275|NCT02021773|164680111|SUPERIORITY||Mean Difference (Final Values)|-30.41|STANDARD_ERROR_OF_MEAN|10.9||0.0057|TWO_SIDED|95.0|-51.88|-8.95||The threshold for statistical significance was p = .05.|Mixed Models Analysis|||||-8.95|-51.88|0.0057
82493276|NCT02168361|164680121|SUPERIORITY_OR_OTHER|||||||0.02|TWO_SIDED||||||Chi-squared|||Null hypothesis is no difference between two regimens in SVR-12.||||.02
82493277|NCT02516046|164680136|OTHER||Fleiss' kappa|0.8|||||TWO_SIDED|95.0|0.74|0.86||||||Inter-reader agreement analysis using Fleiss' kappa. The hypothesis tested was that the observed kappa values were ≥0.64 and the lower bound of the 2-sided 95% CIs were ≥0.55 for the inter-reader agreement among readers.||0.86|0.74|
82493278|NCT03137537|164680157|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82493279|NCT03137537|164680158|SUPERIORITY|||||||0.63|||||||Wilcoxon (Mann-Whitney)|||||||0.63
82493280|NCT04665856|164680172|SUPERIORITY||Hazard Ratio (HR)|0.65||||0.0348|TWO_SIDED|95.0|0.43|0.97||This study is a bridging study without formal testing, the p value here is descriptive.|Log Rank|||||0.97|0.43|0.0348
82493281|NCT04665856|164680173|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.6105|TWO_SIDED|95.0|0.56|1.4||This study is a bridging study without formal testing, the p value here is descriptive.|Log Rank|||||1.40|0.56|0.6105
82493282|NCT04665856|164680174|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.1044|TWO_SIDED|95.0|0.49|1.07|||Log Rank|||||1.07|0.49|0.1044
82493283|NCT04665856|164680175|SUPERIORITY||Hazard Ratio (HR)|0.98||||0.9363|TWO_SIDED|95.0|0.64|1.52|||Log Rank|||||1.52|0.64|0.9363
82493284|NCT04665856|164680176|SUPERIORITY||Difference in Overall Response Rates|22.55||||0.0136|TWO_SIDED|95.0|4.12|39.03|||Chi-square with Schouten Correction|||||39.03|4.12|0.0136
82493285|NCT04665856|164680177|SUPERIORITY||Difference in Overall Response Rates|17.37||||0.0493|TWO_SIDED|95.0|-0.22|33.6|||Chi-square with Schouten Correction|||||33.60|-0.22|0.0493
82493286|NCT04665856|164680180|SUPERIORITY||Difference in EFR at Month 6|8.09||||0.3968|TWO_SIDED|95.0|-10.62|26.81|||Z-test|||6 Months||26.81|-10.62|0.3968
82493287|NCT04665856|164680180|SUPERIORITY||Difference in EFR at Month 12|17.45||||0.0205|TWO_SIDED|95.0|2.69|32.21|||Z-test|||12 Months||32.21|2.69|0.0205
82493288|NCT04665856|164680181|SUPERIORITY||Difference in EFR at Month 6|8.18||||0.3633|TWO_SIDED|95.0|-9.46|25.82|||Z-test|||6 Months||25.82|-9.46|0.3633
82493289|NCT04665856|164680181|SUPERIORITY||Difference in EFR at Month12|13.36||||0.0642|TWO_SIDED|95.0|-0.79|27.51|||Z-test|||12 Months||27.51|-0.79|0.0642
82493290|NCT04665856|164680182|SUPERIORITY||Difference in EFR|20.47||||0.0261|TWO_SIDED|95.0|2.43|38.5|||Z-test|||12 Months||38.50|2.43|0.0261
82493291|NCT04665856|164680182|SUPERIORITY||Difference in EFR|-0.5||||0.9572|TWO_SIDED|95.0|-18.79|17.79|||Z-test|||24 Months||17.79|-18.79|0.9572
82493292|NCT04665856|164680183|SUPERIORITY||Difference in EFR|13.88||||0.1145|TWO_SIDED|95.0|-3.36|31.12|||Z-test|||12 Months||31.12|-3.36|0.1145
82493293|NCT04665856|164680183|SUPERIORITY||Difference in EFR|-2.54||||0.7734|TWO_SIDED|95.0|-19.83|14.75|||Z-test|||24 Months||14.75|-19.83|0.7734
82493294|NCT01552694|164680192|SUPERIORITY_OR_OTHER|||||||0.006|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted p-value compares the change (week 8 - baseline) for plasma hsCRP between the 2 groups.|t-test, 2 sided|||||||0.006
82493295|NCT01552694|164680193|SUPERIORITY_OR_OTHER|||||||0.24|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted analysis.|t-test, 2 sided|||||||0.24
82493296|NCT01552694|164680194|SUPERIORITY_OR_OTHER|||||||0.78|TWO_SIDED|||||A priori threshold for statistical significance was p\<0.05. Unadjusted analysis|t-test, 2 sided|||||||0.78
82493297|NCT00191139|164680197|SUPERIORITY_OR_OTHER||survival rate|40.6||||||95.0|23.8|56.8|||normal approximation|Count the number of surviving participants at each time interval to get survival rates.||||56.8|23.8|
82493298|NCT00191139|164680197|SUPERIORITY_OR_OTHER||survival rate|55.7||||||95.0|36.8|70.9|||normal approximation|Count the number of surviving participants at each time interval to get survival rates.||||70.9|36.8|
82493299|NCT00191139|164680198|SUPERIORITY_OR_OTHER||Response Rate|75.0||||||95.0|56.6|88.5|||normal approximation|||||88.5|56.6|
82493300|NCT00191139|164680198|SUPERIORITY_OR_OTHER||Response rate|84.4||||||95.0|67.2|94.7|||Normal approximation|||||94.7|67.2|
82493301|NCT00191139|164680199|SUPERIORITY_OR_OTHER|||||||0.08||95.0|||||Log Rank|||||||0.08
82493302|NCT00191139|164680200|SUPERIORITY_OR_OTHER|||||||0.38||95.0|||||Log Rank|||||||0.38
82493303|NCT03386448|164680207|SUPERIORITY|Student test was performed|Mean Difference (Final Values)|9.0||||0.03|TWO_SIDED||||||t-test, 2 sided|||||||0.03
82493304|NCT03338010|164680208|NON_INFERIORITY|0.40% noninferiority margin was used.|LS Mean Difference|-0.05||||0.545|TWO_SIDED|95.0|-0.19|0.1|||Mixed Models Analysis|||||0.10|-0.19|0.545
82493305|NCT03338010|164680209|NON_INFERIORITY|0.40% noninferiority margin was used.|LS Mean Difference|-0.05||||0.545|TWO_SIDED|95.0|-0.19|0.1|||Mixed Models Analysis|||||0.10|-0.19|0.545
82493306|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|1.0||||0.602|TWO_SIDED|95.0|-2.8|4.8|||Mixed Models Analysis|||Before Morning Meal Glucose||4.8|-2.8|0.602
82493307|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|-3.7||||0.373|TWO_SIDED|95.0|-11.8|4.4|||Mixed Models Analysis|||2 Hours After Morning Meal Glucose||4.4|-11.8|0.373
82493308|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|-3.3||||0.351|TWO_SIDED|95.0|-10.3|3.7|||Mixed Models Analysis|||Before Mid-Day Meal Glucose||3.7|-10.3|0.351
82493309|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|4.9||||0.23|TWO_SIDED|95.0|-3.1|12.8|||Mixed Models Analysis|||2 Hours After Mid-Day Meal Glucose||12.8|-3.1|0.230
82493310|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|0.9||||0.819|TWO_SIDED|95.0|-6.7|8.5|||Mixed Models Analysis|||Before Evening Meal Glucose||8.5|-6.7|0.819
82493311|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|2.3||||0.588|TWO_SIDED|95.0|-6.2|10.9|||Mixed Models Analysis|||2 Hours After Evening Meal Glucose||10.9|-6.2|0.588
82493312|NCT03338010|164680210|SUPERIORITY||LS Mean Difference|1.4||||0.732|TWO_SIDED|95.0|-6.7|9.5|||Mixed Models Analysis|||Bedtime Glucose||9.5|-6.7|0.732
82493313|NCT03338010|164680211|SUPERIORITY|||||||0.846|||||||Fisher Exact|||||||0.846
82493314|NCT03338010|164680212|SUPERIORITY|||||||0.098|||||||Fisher Exact|||||||0.098
82493315|NCT03338010|164680213|SUPERIORITY||LS Mean Difference|0.32||||0.767|TWO_SIDED|95.0|-1.78|2.42|||Mixed Models Analysis|||Morning Pre-meal Standard Deviation||2.42|-1.78|0.767
82493316|NCT03338010|164680213|SUPERIORITY||LS Mean Difference|0.4||||0.781|TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||Daily Mean Standard Deviation||3.3|-2.5|0.781
82493317|NCT03338010|164680214|SUPERIORITY||LS Mean Difference|0.2||||0.75|TWO_SIDED|95.0|-1.2|1.7|||Mixed Models Analysis|||||1.7|-1.2|0.750
82493318|NCT03338010|164680215|SUPERIORITY||LS Mean Difference|0.2||||0.75|TWO_SIDED|95.0|-1.2|1.7|||Mixed Models Analysis|||||1.7|-1.2|0.750
82493319|NCT03338010|164680216|SUPERIORITY||LS Mean Difference|-0.1|||<|0.001|TWO_SIDED|95.0|-0.6|0.3|||Mixed Models Analysis|||||0.3|-0.6|<0.001
82493320|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-0.95||||0.5|TWO_SIDED|95.0|-3.72|1.82|||Mixed Models Analysis|||Inconvenience of Regimen Transformed Score||1.82|-3.72|0.500
82493321|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-3.99||||0.031|TWO_SIDED|95.0|-7.62|-0.36|||Mixed Models Analysis|||Lifestyle Flexibility Transformed Score||-0.36|-7.62|0.031
82493322|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-1.79||||0.2|TWO_SIDED|95.0|-4.53|0.95|||Mixed Models Analysis|||Hypoglycemic Control Transformed Score||0.95|-4.53|0.200
82493323|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-0.02||||0.988|TWO_SIDED|95.0|-2.92|2.88|||Mixed Models Analysis|||Glycemic Control Transformed Score||2.88|-2.92|0.988
82493324|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-1.45||||0.337|TWO_SIDED|95.0|-4.41|1.51|||Mixed Models Analysis|||Insulin Delivery Device Satisfaction Transformed Score||1.51|-4.41|0.337
82493325|NCT03338010|164680217|SUPERIORITY||LS Mean Difference|-1.67||||0.205|TWO_SIDED|95.0|-4.26|0.92|||Mixed Models Analysis|||ITSQ Overall Total||0.92|-4.26|0.205
82493326|NCT03338010|164680218|SUPERIORITY|||||||0.639|||||||Fisher Exact|||||||0.639
82493327|NCT03338010|164680219|SUPERIORITY||Relative Ratio|1.19||||0.143|TWO_SIDED|95.0|0.74|1.92|||Wilcoxon (Mann-Whitney)|||||1.92|0.74|0.143
82493328|NCT03338010|164680219|SUPERIORITY||Relative Ratio|1.22||||0.945|TWO_SIDED|95.0|0.67|2.23|||Wilcoxon (Mann-Whitney)|||||2.23|0.67|0.945
82493329|NCT01211730|164680220|SUPERIORITY_OR_OTHER|||||||0.709|||||||Chi-squared, Corrected|||||||0.709
82493330|NCT01211730|164680221|SUPERIORITY_OR_OTHER|||||||0.003|||||||Chi-squared, Corrected|||||||0.003
82493331|NCT01211730|164680222|SUPERIORITY_OR_OTHER|||||||0.0046|||||||Chi-squared, Corrected|||||||0.0046
82493332|NCT01211730|164680223|SUPERIORITY_OR_OTHER|||||||0.75|||||||Chi-squared, Corrected|||||||0.75
82493333|NCT01211730|164680224|SUPERIORITY_OR_OTHER|||||||0.56|||||||Chi-squared, Corrected|||||||0.56
82493334|NCT01211730|164680225|SUPERIORITY_OR_OTHER|||||||0.77|||||||Chi-squared, Corrected|||||||0.77
82493335|NCT02465515|164680226|NON_INFERIORITY|Non-inferiority was determined by testing the hypothesis that the observed hazard ratio is significantly different from the null margin of 1.3 (a one-sided p \<0.025 for such a test with result in appropriate direction being equivalent to the upper 95% confidence limit for the hazard ratio being less than 1.3)|Hazard Ratio (HR)|0.78|||<|0.0001|TWO_SIDED|95.0|0.68|0.9||One-sided p-value based on Wald test of hazard ratio (HR) \>=1.3 versus HR \<1.3.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate|||0.90|0.68|<0.0001
82493336|NCT02465515|164680226|SUPERIORITY||||||<|0.001||||||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1|Wald test|||||||<0.001
82493337|NCT02465515|164680227|OTHER||Hazard Ratio (HR)|0.78|||<|0.001|TWO_SIDED|95.0|0.69|0.9||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.90|0.69|<0.001
82493338|NCT02465515|164680228|OTHER||Hazard Ratio (HR)|0.93||||0.578|TWO_SIDED|95.0|0.73|1.19||Two-sided p-value based on the Wald statistic|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate|||1.19|0.73|0.578
82493339|NCT02465515|164680229|OTHER||Hazard Ratio (HR)|0.75||||0.003|TWO_SIDED|95.0|0.61|0.9||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.90|0.61|0.003
82493340|NCT02465515|164680230|OTHER||Hazard Ratio (HR)|0.86||||0.3|TWO_SIDED|95.0|0.66|1.14||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.14|0.66|0.300
82493341|NCT02465515|164680231|OTHER||Hazard Ratio (HR)|0.85||||0.113|TWO_SIDED|95.0|0.7|1.04||Two-sided p-value based on the Wald statistic.|Wald statistic||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.04|0.70|0.113
82493342|NCT02465515|164680232|SUPERIORITY||Hazard Ratio (HR)|0.42|||<|0.001|TWO_SIDED|95.0|0.33|0.53||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.53|0.33|<0.001
82493343|NCT02465515|164680233|SUPERIORITY||Hazard Ratio (HR)|0.71||||0.043|TWO_SIDED|95.0|0.51|0.99||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||0.99|0.51|0.043
82493344|NCT02465515|164680234|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 8||||||<0.001
82493345|NCT02465515|164680234|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 16||||||<0.001
82493346|NCT02465515|164680234|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Month 24||||||<0.001
82493347|NCT02465515|164680234|OTHER||||||<|0.001||||||P-value based on the covariate-adjusted extended Mantel-Haenszel test. Covariates include Baseline HbA1c (\<8.0% versus \>= 8.0%) and Baseline diabetes therapy (diet and exercise alone versus all other therapies).|Mantel Haenszel|Final assessment||||||<0.001
82493348|NCT02465515|164680235|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.055|TWO_SIDED|95.0|0.43|1.01||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.01|0.43|0.055
82493349|NCT02465515|164680236|OTHER||Mean Difference (Net)|-0.63|||<|0.001|TWO_SIDED|95.0|-0.69|-0.58||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline HbA1c+Treatment+Visit+Treatment-by-Visit Interaction+Baseline HbA1c-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||-0.58|-0.69|<0.001
82493350|NCT02465515|164680236|OTHER||Mean Difference (Net)|-0.52|||<|0.001|TWO_SIDED|95.0|-0.58|-0.45||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline HbA1c+Treatment+Visit+Treatment-by-Visit Interaction+Baseline HbA1c-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||-0.45|-0.58|<0.001
82493351|NCT02465515|164680237|OTHER||Mean Difference (Net)|-0.66|||<|0.001|TWO_SIDED|95.0|-0.83|-0.49||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Body Weight+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Body Weight-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||-0.49|-0.83|<0.001
82493352|NCT02465515|164680237|OTHER||Mean Difference (Net)|-0.83|||<|0.001|TWO_SIDED|95.0|-1.06|-0.6||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Body Weight+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Body weight-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||-0.60|-1.06|<0.001
82493353|NCT02465515|164680238|OTHER||Mean Difference (Net)|2.39|||<|0.001|TWO_SIDED|95.0|1.85|2.93||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline Total Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Total Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8|||2.93|1.85|<0.001
82493354|NCT02465515|164680238|OTHER||Mean Difference (Net)|2.33|||<|0.001|TWO_SIDED|95.0|1.66|3.01||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Total Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Total Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16|||3.01|1.66|<0.001
82493355|NCT02465515|164680239|OTHER||Mean Difference (Net)|1.47|||<|0.001|TWO_SIDED|95.0|0.87|2.07||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Score-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8.|||2.07|0.87|<0.001
82493356|NCT02465515|164680239|OTHER||Mean Difference (Net)|0.52||||0.192|TWO_SIDED|95.0|-0.26|1.31||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide - Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline Score+Treatment+Visit+Treatment-by-Visit Interaction+Baseline Score-by-Visit Interaction. Difference of least squares means (Albiglutide - Placebo) is from MMRM model for Month 16|||1.31|-0.26|0.192
82493357|NCT02465515|164680240|OTHER||Hazard Ratio (HR)|0.95||||0.644|TWO_SIDED|95.0|0.79|1.16||Two-sided p-value based on Wald test of HR=1 versus HR not equal to 1.|Wald test||Hazard ratio is estimated using a Cox proportional hazard regression model with treatment as the only covariate.|||1.16|0.79|0.644
82493358|NCT02465515|164680244|OTHER||Mean Difference (Net)|-1.11||||0.003|TWO_SIDED|95.0|-1.84|-0.39||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero.|t-test, 2 sided||Based on MMRM model: Change=Baseline eGFR+Treatment+Visit+Treatment-by-Visit Interaction+Baseline eGFR-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 8.|||-0.39|-1.84|0.003
82493359|NCT02465515|164680244|OTHER||Mean Difference (Net)|-0.43||||0.315|TWO_SIDED|95.0|-1.26|0.41||P-value from a two-sided t-test to test whether the difference of least square means (Albiglutide-Placebo) is equal to zero|t-test, 2 sided||Based on MMRM model: Change=Baseline eGFR+Treatment+Visit+Treatment-by-Visit Interaction+Baseline eGFR-by-Visit Interaction. Difference of least squares means (Albiglutide-Placebo) is from MMRM model for Month 16.|||0.41|-1.26|0.315
82493360|NCT00293033|164680252|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|9.74|STANDARD_ERROR_OF_MEAN|3.28||0.004|TWO_SIDED|95.0|3.31|16.18|||Mixed Models Analysis|The SPID was analyzed using a mixed model of repeated measures with fixed effects for treatment, pooled site, and a random effect for subjects.|Onsolis minus placebo|||16.18|3.31|0.004
82493361|NCT00293033|164680253|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.33||0.44|TWO_SIDED|95.0|-0.4|0.91|||Wilcoxon (Mann-Whitney)|||||0.91|-0.40|0.440
82493362|NCT00293033|164680254|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.94|STANDARD_ERROR_OF_MEAN|0.7||0.179|TWO_SIDED|95.0|-0.44|2.33|||Mixed Models Analysis|||||2.33|-0.44|0.179
82493363|NCT00293033|164680255|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|2.32|STANDARD_ERROR_OF_MEAN|1.16||0.047|TWO_SIDED|95.0|0.04|4.61|||Mixed Models Analysis|||||4.61|0.04|0.047
82499553|NCT02670083|164689845|SUPERIORITY||Least Squares Mean Difference|-0.26|STANDARD_ERROR_OF_MEAN|1.083|||TWO_SIDED|95.0|-2.39|1.87||||||||1.87|-2.39|
82493364|NCT00293033|164680256|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.68|STANDARD_ERROR_OF_MEAN|5.7|<|0.001|TWO_SIDED|95.0|8.5|30.86|||Mixed Models Analysis|||||30.86|8.50|<0.001
82493365|NCT00293033|164680257|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|31.98|STANDARD_ERROR_OF_MEAN|8.23|<|0.001|TWO_SIDED|95.0|15.85|48.12|||Mixed Models Analysis|||||48.12|15.85|<0.001
82493366|NCT00293033|164680258|SUPERIORITY_OR_OTHER_LEGACY|||||||0.517|||||||Wilcoxon (Mann-Whitney)|||||||0.517
82493367|NCT00293033|164680259|SUPERIORITY_OR_OTHER_LEGACY|||||||0.458|||||||Wilcoxon (Mann-Whitney)|||||||0.458
82493368|NCT00293033|164680260|SUPERIORITY_OR_OTHER_LEGACY|||||||0.223|||||||Wilcoxon (Mann-Whitney)|||||||0.223
82493369|NCT00293033|164680261|SUPERIORITY_OR_OTHER_LEGACY|||||||0.015|||||||Wilcoxon (Mann-Whitney)|||||||0.015
82493370|NCT00293033|164680262|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82493371|NCT00293033|164680263|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82493372|NCT00293033|164680264|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|||||||Wilcoxon (Mann-Whitney)|||||||0.193
82493373|NCT00293033|164680265|SUPERIORITY_OR_OTHER_LEGACY|||||||0.113|||||||Wilcoxon (Mann-Whitney)|||||||0.113
82493374|NCT00293033|164680266|SUPERIORITY_OR_OTHER_LEGACY|||||||0.192|||||||Wilcoxon (Mann-Whitney)|||||||0.192
82493375|NCT00293033|164680267|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82493376|NCT00293033|164680268|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82493377|NCT00293033|164680269|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82493378|NCT00293033|164680270|SUPERIORITY_OR_OTHER_LEGACY|||||||0.157|||||||Wilcoxon (Mann-Whitney)|||||||0.157
82493379|NCT00293033|164680271|SUPERIORITY_OR_OTHER_LEGACY|||||||0.278|||||||Wilcoxon (Mann-Whitney)|||||||0.278
82493380|NCT00293033|164680272|SUPERIORITY_OR_OTHER_LEGACY|||||||0.062|||||||Wilcoxon (Mann-Whitney)|||||||0.062
82493381|NCT00293033|164680273|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82493382|NCT00293033|164680274|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82493383|NCT00293033|164680275|SUPERIORITY_OR_OTHER_LEGACY|||||||0.001|||||||Wilcoxon (Mann-Whitney)|||||||0.001
82493384|NCT00293033|164680276|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82493385|NCT00293033|164680277|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82493386|NCT00293033|164680278|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82493387|NCT00293033|164680279|SUPERIORITY_OR_OTHER_LEGACY|||||||0.563|||||||Wilcoxon (Mann-Whitney)|||||||0.563
82493388|NCT00293033|164680280|SUPERIORITY_OR_OTHER_LEGACY|||||||0.498|||||||Wilcoxon (Mann-Whitney)|||||||0.498
82493389|NCT00293033|164680281|SUPERIORITY_OR_OTHER_LEGACY|||||||0.077|||||||Wilcoxon (Mann-Whitney)|||||||0.077
82493390|NCT00293033|164680282|SUPERIORITY_OR_OTHER_LEGACY|||||||0.031|||||||Wilcoxon (Mann-Whitney)|||||||0.031
82493391|NCT00293033|164680283|SUPERIORITY_OR_OTHER_LEGACY|||||||0.963|||||||Wilcoxon (Mann-Whitney)|||||||0.963
82493392|NCT00293033|164680284|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82493393|NCT00293033|164680285|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82493394|NCT00293033|164680286|SUPERIORITY_OR_OTHER_LEGACY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82493395|NCT00293033|164680287|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|||||||0.100
82493396|NCT00293033|164680288|SUPERIORITY_OR_OTHER_LEGACY|||||||0.009|||||||Wilcoxon (Mann-Whitney)|||||||0.009
82493397|NCT00293033|164680289|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82493398|NCT00293033|164680290|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82493399|NCT00293033|164680291|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82493400|NCT00293033|164680292|SUPERIORITY_OR_OTHER_LEGACY|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82493401|NCT00293033|164680293|SUPERIORITY_OR_OTHER_LEGACY|||||||0.75|||||||Wilcoxon (Mann-Whitney)|||||||0.750
82493402|NCT00293033|164680294|SUPERIORITY_OR_OTHER_LEGACY|||||||0.032|||||||Wilcoxon (Mann-Whitney)|||||||0.032
82493403|NCT00293033|164680295|SUPERIORITY_OR_OTHER_LEGACY|||||||0.131|||||||Wilcoxon (Mann-Whitney)|||||||0.131
82493404|NCT00293033|164680296|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Wilcoxon (Mann-Whitney)|||||||0.007
82493405|NCT00293033|164680297|SUPERIORITY_OR_OTHER_LEGACY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82493406|NCT00293033|164680298|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|5.96|STANDARD_ERROR_OF_MEAN|2.57||0.023|TWO_SIDED|95.0|0.92|11.01|||Mixed Models Analysis|||||11.01|0.92|0.023
82493407|NCT00293033|164680299|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|19.84|STANDARD_ERROR_OF_MEAN|7.25||0.009|TWO_SIDED|95.0|5.63|34.04|||Mixed Models Analysis|||||34.04|5.63|0.009
82493408|NCT00293033|164680300|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|33.26|STANDARD_ERROR_OF_MEAN|12.72||0.012|TWO_SIDED|95.0|8.32|58.2|||Mixed Models Analysis|||||58.20|8.32|0.012
82493409|NCT00293033|164680301|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|46.88|STANDARD_ERROR_OF_MEAN|18.46||0.015|TWO_SIDED|95.0|10.69|83.08|||Mixed Models Analysis|||||83.08|10.69|0.015
82493410|NCT03583697|164680303|SUPERIORITY||Least Square Mean Difference (Net)|0.25|||||TWO_SIDED|95.0|-0.02|0.53||||||"Z-Scores were derived using age-sex specific reference data (means and SDs) for average stature children per the Centers for Disease Control and Prevention.~Participants aged \< 24 months, body length takes precedence over standing height. Participants aged \< 24 months at baseline and \>= 24 months at Week 52, body length takes precedence.~Difference in least squares (LS) means were obtained from an analysis of covariance model."||0.53|-0.02|
82493411|NCT03583697|164680303|SUPERIORITY||Least Square Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|0.07|0.54||||||"Z-Scores were derived using age-sex specific reference data (means and SDs) for average stature children per the Centers for Disease Control and Prevention.~Participants aged \< 24 months, body length takes precedence over standing height. Participants aged \< 24 months at baseline and \>= 24 months at Week 52, body length takes precedence.~Difference in LS means were obtained from an analysis of covariance model."||0.54|0.07|
82493412|NCT03583697|164680304|SUPERIORITY||Least Square Mean Difference (Net)|0.77|||||TWO_SIDED|95.0|-0.02|1.56||||||Difference in LS means were obtained from an analysis of covariance model.||1.56|-0.02|
82493413|NCT03583697|164680304|SUPERIORITY||Least Square Mean Difference (Net)|0.96|||||TWO_SIDED|95.0|0.26|1.66||||||Difference in LS means were obtained from an analysis of covariance model.||1.66|0.26|
82493414|NCT03583697|164680305|SUPERIORITY||Least Square Mean Difference (Net)|0.78|||||TWO_SIDED|95.0|0.02|1.54||||||||1.54|0.02|
82493415|NCT03583697|164680305|SUPERIORITY||Least Square Mean Difference (Net)|0.92|||||TWO_SIDED|95.0|0.24|1.59||||||Difference in LS means were obtained from an analysis of covariance model.||1.59|0.24|
82493416|NCT03583697|164680306|SUPERIORITY||Least Square Mean Difference (Net)|-0.07|||||TWO_SIDED|95.0|-0.17|0.04||||||Difference in LS means were obtained from an analysis of covariance model.||0.04|-0.17|
82493417|NCT03583697|164680306|SUPERIORITY||Least Square Mean Difference (Net)|-0.06|||||TWO_SIDED|95.0|-0.15|0.03||||||Difference in LS means were obtained from an analysis of covariance model.||0.03|-0.15|
82493418|NCT00114530|164680357|SUPERIORITY|||||||0.013||||||A Data and Safety Monitoring Board reviewed 4 pre-specified futility analyses that included an ability to stop for efficacy with p\<0.0001, leaving alpha equal to 0.0496 for the primary ITT analysis of the GRCS at 54 months post-randomization.|Wilcoxon (Mann-Whitney)|||||||0.013
82493419|NCT00114530|164680358|SUPERIORITY|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82493420|NCT00114530|164680359|SUPERIORITY|||||||0.008|||||||Wilcoxon (Mann-Whitney)|||||||0.008
82493421|NCT00114530|164680360|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|||||||0.003
82493422|NCT00114530|164680361|SUPERIORITY|||||||0.059|||||||Fisher Exact|||Treatment arm comparisons of EFS at Month 54.||||0.059
82493423|NCT00114530|164680361|SUPERIORITY|||||||0.06|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for EFS through Month 72||||0.06
82493424|NCT00114530|164680362|SUPERIORITY|||||||0.021|||||||Fisher Exact|||Treatment arm comparisons of EFS at Month 54.||||0.021
82493425|NCT00114530|164680362|SUPERIORITY|||||||0.03|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for EFS through Month 72||||0.03
82493426|NCT00114530|164680363|SUPERIORITY|||||||0.059|||||||Fisher Exact|||||||0.059
82493427|NCT00114530|164680364|SUPERIORITY|||||||0.021|||||||Fisher Exact|||||||0.021
82493428|NCT00114530|164680365|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
82493429|NCT00114530|164680366|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82493430|NCT00114530|164680367|SUPERIORITY|||||||0.48|||||||Fisher Exact|||||||0.48
82493431|NCT00114530|164680368|SUPERIORITY|||||||0.49|||||||Fisher Exact|||||||0.49
82493432|NCT00114530|164680369|SUPERIORITY|||||||0.28|||||||Fisher Exact|||Treatment arm comparisons of overall survival at Month 54.||||0.28
82493433|NCT00114530|164680369|SUPERIORITY|||||||0.05|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for overall survival through Month 72.||||0.05
82493434|NCT00114530|164680370|SUPERIORITY|||||||0.19|||||||Fisher Exact|||Treatment arm comparisons of overall survival at Month 54.||||0.19
82493435|NCT00114530|164680370|SUPERIORITY|||||||0.02|||||||Log Rank|||Treatment arm comparisons of Kaplan-Meier curves for overall survival through Month 72.||||0.02
82493436|NCT00114530|164680371|SUPERIORITY|||||||0.28|||||||Fisher Exact|||||||0.28
82493437|NCT00114530|164680372|SUPERIORITY|||||||0.19|||||||Fisher Exact|||||||0.19
82493438|NCT00114530|164680373|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
82493439|NCT00114530|164680373|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.01
82493440|NCT00114530|164680374|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
82493441|NCT00114530|164680374|SUPERIORITY|||||||0.002|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.002
82493442|NCT00114530|164680375|SUPERIORITY|||||||0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Physical Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.001
82493443|NCT00114530|164680375|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Physical Component Score. This analysis is stratified by EFS status.||||0.02
82493444|NCT00114530|164680375|SUPERIORITY|||||||0.05|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Mental Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.05
82493445|NCT00114530|164680375|SUPERIORITY|||||||0.1|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Mental Component Score. This analysis is stratified by EFS status.||||0.1
82493446|NCT00114530|164680376|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Physical Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
82499554|NCT02670083|164689846|SUPERIORITY||Least Squares Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.006|||TWO_SIDED|95.0|-2.08|1.88||||||||1.88|-2.08|
82493447|NCT00114530|164680376|SUPERIORITY|||||||0.003|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Physical Component Score. This analysis is stratified by EFS status.||||0.003
82493448|NCT00114530|164680376|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||Mental Component Score. This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.02
82493449|NCT00114530|164680376|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||Mental Component Score. This analysis is stratified by EFS status.||||0.07
82493450|NCT00114530|164680377|SUPERIORITY|||||||0.08|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.08
82493451|NCT00114530|164680377|SUPERIORITY|||||||0.9|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.9
82493452|NCT00114530|164680378|SUPERIORITY|||||||0.1|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.1
82493453|NCT00114530|164680378|SUPERIORITY|||||||0.6|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.6
82493454|NCT00114530|164680379|SUPERIORITY|||||||0.02|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.02
82493455|NCT00114530|164680379|SUPERIORITY|||||||0.3|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.3
82493456|NCT00114530|164680380|SUPERIORITY|||||||0.03|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.03
82493457|NCT00114530|164680380|SUPERIORITY|||||||0.5|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.5
82493458|NCT00114530|164680381|SUPERIORITY|||||||0.002|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||0.002
82493459|NCT00114530|164680381|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.05
82493460|NCT00114530|164680382|SUPERIORITY||||||<|0.001|||||||Kruskal-Wallis|Computed as Mantel Haenszel Chi Square using modified ridit scores.||This analysis is not stratified. EFS survivors and failures are pooled within each treatment arm.||||<0.001
82493461|NCT00114530|164680382|SUPERIORITY|||||||0.01|||||||Wilcoxon (Mann-Whitney)|Van Elteren extension of the Wilcoxon Rank Sum||This analysis is stratified by EFS status.||||0.01
82493462|NCT00114530|164680383|SUPERIORITY|||||||0.42|||||||Chi-squared|||Development of new or worsening arrhythmias||||0.42
82493463|NCT00114530|164680383|SUPERIORITY|||||||0.048|||||||Chi-squared|||CHF requiring clinical treatment||||0.048
82493464|NCT00114530|164680383|SUPERIORITY|||||||0.51|||||||Chi-squared|||Clinically significant pericardial effusion||||0.51
82493465|NCT00114530|164680384|SUPERIORITY|||||||0.46|||||||Chi-squared|||Development of new or worsening arrhythmias||||0.46
82493466|NCT00114530|164680384|SUPERIORITY|||||||0.042|||||||Chi-squared|||CHF requiring clinical treatment||||0.042
82493467|NCT00114530|164680384|SUPERIORITY|||||||0.15|||||||Chi-squared|||Clinically significant pericardial effusion||||0.15
82493468|NCT00114530|164680385|SUPERIORITY|||||||0.026|||||||Chi-squared|||||||0.026
82493469|NCT00114530|164680386|SUPERIORITY|||||||0.022|||||||Chi-squared|||||||0.022
82493470|NCT00114530|164680387|SUPERIORITY|||||||0.71|||||||Chi-squared|||||||0.71
82493471|NCT00114530|164680388|SUPERIORITY|||||||0.32|||||||Chi-squared|||||||0.32
82493472|NCT00114530|164680389|SUPERIORITY|||||||0.3|||||||Chi-squared|||||||0.30
82493473|NCT00114530|164680390|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82493474|NCT00114530|164680391|SUPERIORITY|||||||0.002|||||||Chi-squared|||||||0.002
82493475|NCT00114530|164680392|SUPERIORITY|||||||0.001|||||||Chi-squared|||||||0.001
82493476|NCT00114530|164680393|SUPERIORITY||||||<|0.001|||||||Regression, Linear|P-value comes from a Poisson regression comparing the person-year adjusted event rates between the two treatment groups.||||||<0.001
82493477|NCT00114530|164680393|SUPERIORITY||Person-Time (Years)|174.4|||||TWO_SIDED||||||||The Person-Time (P-T) rates (events/P-T) are as follows: Possibly related = 0.61, Probably related = 0.57, Definitely related = 0.52|||||
82493478|NCT00114530|164680393|SUPERIORITY||Person-Time (Years)|141.3|||||TWO_SIDED||||||||The Person-Time (P-T) rates (events/P-T) are as follows: Possibly related = 0.17, Probably related = 0.09, Definitely related = 0.04|||||
82493479|NCT00114530|164680395|SUPERIORITY|||||||0.7|||||||Regression, Linear|P-value comes from a Poisson regression comparing the person-year adjusted event rates between the two treatment groups.||||||0.7
82493480|NCT00114530|164680395|SUPERIORITY||Person-Time (Years)|174.4|||||TWO_SIDED||||||||The Person-Time (P-T) rate (events/P-T) is 0.76|||||
82493481|NCT00114530|164680395|SUPERIORITY||Person-Time (Years)|141.3|||||TWO_SIDED||||||||The Person-Time (P-T) rate (events/P-T) is 0.80|||||
82493482|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|32.51|||<|0.001|TWO_SIDED|95.0|11.12|95.05||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||95.05|11.12|< 0.001
82493483|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493484|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|16.66|||<|0.001|TWO_SIDED|95.0|6.72|41.3||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||41.3|6.72|< 0.001
82493485|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493486|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|11.13|||<|0.001|TWO_SIDED|95.0|4.79|25.84||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||25.84|4.79|< 0.001
82493487|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493488|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|19.62|||<|0.001|TWO_SIDED|95.0|7.81|49.27||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||49.27|7.81|< 0.001
82493489|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493490|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|6.02|||<|0.001|TWO_SIDED|95.0|2.95|12.3||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||12.3|2.95|< 0.001
82493491|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493492|NCT01817530|164680410|SUPERIORITY||Odds Ratio (OR)|10.34|||<|0.001|TWO_SIDED|95.0|4.79|22.34||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||22.34|4.79|< 0.001
82493493|NCT01817530|164680410|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493494|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|156.17|||<|0.001|TWO_SIDED|95.0|38.04|641.22||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||641.22|38.04|< 0.001
82493495|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493496|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|66.07|||<|0.001|TWO_SIDED|95.0|21.1|206.88||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||206.88|21.1|< 0.001
82493497|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493498|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|52.15|||<|0.001|TWO_SIDED|95.0|17.42|156.09||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||156.09|17.42|< 0.001
82493499|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493500|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|25.45|||<|0.001|TWO_SIDED|95.0|10.45|61.96||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||61.96|10.45|< 0.001
82493501|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493502|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|9.65|||<|0.001|TWO_SIDED|95.0|4.38|21.25||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||21.25|4.38|< 0.001
82493503|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493504|NCT01817530|164680411|SUPERIORITY||Odds Ratio (OR)|16.17|||<|0.001|TWO_SIDED|95.0|7.13|36.67||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||36.67|7.13|< 0.001
82493505|NCT01817530|164680411|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493506|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|123.14|||<|0.001|TWO_SIDED|95.0|25.93|584.85||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||584.85|25.93|< 0.001
82493507|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493508|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|40.56|||<|0.001|TWO_SIDED|95.0|13.59|121.03||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||121.03|13.59|< 0.001
82493509|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493510|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|19.01|||<|0.001|TWO_SIDED|95.0|7.44|48.58||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||48.58|7.44|< 0.001
82493511|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493512|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|22.77|||<|0.001|TWO_SIDED|95.0|9.29|55.77||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||55.77|9.29|< 0.001
82493513|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493514|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|10.89|||<|0.001|TWO_SIDED|95.0|4.88|24.27||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||24.27|4.88|< 0.001
82493515|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493516|NCT01817530|164680412|SUPERIORITY||Odds Ratio (OR)|9.72|||<|0.001|TWO_SIDED|95.0|4.46|21.22||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline as a covariate.|Regression, Logistic|||||21.22|4.46|< 0.001
82493517|NCT01817530|164680412|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493518|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|24.73|||<|0.001|TWO_SIDED|95.0|8.57|71.32||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||71.32|8.57|< 0.001
82493519|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493520|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|17.21|||<|0.001|TWO_SIDED|95.0|6.57|45.05||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||45.05|6.57|< 0.001
82493521|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493522|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|8.69|||<|0.001|TWO_SIDED|95.0|3.79|19.92||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||19.92|3.79|< 0.001
82493523|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493524|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|18.67|||<|0.001|TWO_SIDED|95.0|7.11|49.02||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||49.02|7.11|< 0.001
82493525|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493526|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|4.94|||<|0.001|TWO_SIDED|95.0|2.43|10.04||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||10.04|2.43|< 0.001
82493527|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493528|NCT01817530|164680413|SUPERIORITY||Odds Ratio (OR)|11.76|||<|0.001|TWO_SIDED|95.0|5.17|26.79|||Regression, Logistic|P value is from a logistic regression model including treatment as the main effect and baseline value as a covariate.||||26.79|5.17|< 0.001
82493529|NCT01817530|164680413|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493530|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|31.48|||<|0.001|TWO_SIDED|95.0|10.02|98.83||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||98.83|10.02|< 0.001
82493531|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493532|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|14.39|||<|0.001|TWO_SIDED|95.0|5.77|35.91||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||35.91|5.77|< 0.001
82493533|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493534|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|9.82|||<|0.001|TWO_SIDED|95.0|4.23|22.8||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||22.8|4.23|< 0.001
82493535|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493536|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|16.58|||<|0.001|TWO_SIDED|95.0|6.66|41.26||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||41.26|6.66|< 0.001
82493537|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493538|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|7.02|||<|0.001|TWO_SIDED|95.0|3.36|14.68||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||14.68|3.36|< 0.001
82493539|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493540|NCT01817530|164680414|SUPERIORITY||Odds Ratio (OR)|10.73|||<|0.001|TWO_SIDED|95.0|4.85|23.76||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||||23.76|4.85|< 0.001
82493541|NCT01817530|164680414|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a chi-square test.|Chi-squared|||||||< 0.001
82493542|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493543|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493544|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493545|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493546|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493547|NCT01817530|164680415|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493548|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493549|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493550|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493551|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493552|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493553|NCT01817530|164680416|SUPERIORITY||||||<|0.001|||||||Fisher Exact|||||||< 0.001
82493554|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|-3.7|STANDARD_ERROR_OF_MEAN|1.32||0.007|TWO_SIDED|95.0|-6.28|-1.03||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-1.03|-6.28|0.007
82493555|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|-1.5|STANDARD_ERROR_OF_MEAN|0.98||0.132|TWO_SIDED|95.0|-3.44|0.46||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.46|-3.44|0.132
82493556|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.94||0.876|TWO_SIDED|95.0|-1.71|2.0||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||2.00|-1.71|0.876
82493557|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|-1.9|STANDARD_ERROR_OF_MEAN|1.0||0.055|TWO_SIDED|95.0|-3.92|0.04||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.04|-3.92|0.055
82493558|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.82||0.898|TWO_SIDED|95.0|-1.52|1.74||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.74|-1.52|0.898
82493559|NCT01817530|164680417|SUPERIORITY||difference in LS mean change|-0.4|STANDARD_ERROR_OF_MEAN|0.81||0.59|TWO_SIDED|95.0|-2.05|1.17||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.17|-2.05|0.59
82493560|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.31||0.001|TWO_SIDED|95.0|-1.64|-0.42||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.42|-1.64|0.001
82493561|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.42|-0.48||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.48|-1.42|< 0.001
82493562|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-0.7|STANDARD_ERROR_OF_MEAN|0.22||0.002|TWO_SIDED|95.0|-1.12|-0.25||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.25|-1.12|0.002
82493563|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-0.5|STANDARD_ERROR_OF_MEAN|0.29||0.118|TWO_SIDED|95.0|-1.04|0.12||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||0.12|-1.04|0.118
82493564|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-0.7|STANDARD_ERROR_OF_MEAN|0.24||0.004|TWO_SIDED|95.0|-1.16|-0.22||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.22|-1.16|0.004
82493565|NCT01817530|164680418|SUPERIORITY||difference in LS mean change|-1.0|STANDARD_ERROR_OF_MEAN|0.23|<|0.001|TWO_SIDED|95.0|-1.51|-0.59||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||-0.59|-1.51|< 0.001
82499555|NCT02670083|164689847|SUPERIORITY||Least Squares Mean Difference|0.05|STANDARD_ERROR_OF_MEAN|0.076|||TWO_SIDED|95.0|-0.1|0.2||||||||0.20|-0.10|
82493566|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|-0.5|STANDARD_ERROR_OF_MEAN|0.16||0.004|TWO_SIDED|95.0|-0.79|-0.15||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||-0.15|-0.79|0.004
82493567|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.314|TWO_SIDED|95.0|-0.4|0.13||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.13|-0.4|0.314
82493568|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.307|TWO_SIDED|95.0|-0.12|0.39||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.39|-0.12|0.307
82493569|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|-0.3|STANDARD_ERROR_OF_MEAN|0.16||0.106|TWO_SIDED|95.0|-0.58|0.06||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.06|-0.58|0.106
82493570|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|-0.1|STANDARD_ERROR_OF_MEAN|0.13||0.424|TWO_SIDED|95.0|-0.36|0.15||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.15|-0.36|0.424
82493571|NCT01817530|164680419|SUPERIORITY||difference in LS mean change|0.1|STANDARD_ERROR_OF_MEAN|0.13||0.528|TWO_SIDED|95.0|-0.18|0.35||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from an ANCOVA model with treatment as the main effect and baseline as a covariate.|ANCOVA|||||0.35|-0.18|0.528
82493572|NCT01817530|164680420|SUPERIORITY||difference in LS means|1.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.8|1.74||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.74|0.80|< 0.001
82493573|NCT01817530|164680420|SUPERIORITY||difference in LS means|1.3|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.78|1.72||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.72|0.78|< 0.001
82493574|NCT01817530|164680420|SUPERIORITY||difference in LS means|0.8|STANDARD_ERROR_OF_MEAN|0.24|<|0.001|TWO_SIDED|95.0|0.33|1.27||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.27|0.33|< 0.001
82493575|NCT01817530|164680420|SUPERIORITY||difference in LS means|1.1|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.65|1.52||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.52|0.65|< 0.001
82493576|NCT01817530|164680420|SUPERIORITY||difference in LS means|0.7|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.29|1.16||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.16|0.29|< 0.001
82493577|NCT01817530|164680420|SUPERIORITY||difference in LS means|0.8|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED|95.0|0.4|1.26||P value for test of difference between each elagolix dose group and placebo at each postbaseline time point is from an ANCOVA model with treatment as the main effect and baseline value as a covariate.|ANCOVA|||||1.26|0.4|< 0.001
82493578|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493579|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493580|NCT01817530|164680421|SUPERIORITY|||||||0.018||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.018
82493581|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493582|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493583|NCT01817530|164680421|SUPERIORITY|||||||0.021||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.021
82493584|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493585|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493586|NCT01817530|164680421|SUPERIORITY|||||||0.032||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.032
82493587|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493588|NCT01817530|164680421|SUPERIORITY|||||||0.007||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.007
82493589|NCT01817530|164680421|SUPERIORITY|||||||0.495||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.495
82493590|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493591|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493592|NCT01817530|164680421|SUPERIORITY|||||||0.015||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.015
82493593|NCT01817530|164680421|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493594|NCT01817530|164680421|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.002
82493595|NCT01817530|164680421|SUPERIORITY|||||||0.329||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.329
82493596|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493597|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493598|NCT01817530|164680422|SUPERIORITY|||||||0.036||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||0.036
82493599|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493600|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493601|NCT01817530|164680422|SUPERIORITY|||||||0.04||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||||||0.040
82493602|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493603|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||||||< 0.001
82493604|NCT01817530|164680422|SUPERIORITY|||||||0.098||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.098
82493605|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493606|NCT01817530|164680422|SUPERIORITY|||||||0.014||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.014
82493607|NCT01817530|164680422|SUPERIORITY|||||||0.409||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||0.409
82493608|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493609|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493610|NCT01817530|164680422|SUPERIORITY|||||||0.094||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.094
82493611|NCT01817530|164680422|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493612|NCT01817530|164680422|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.002
82493613|NCT01817530|164680422|SUPERIORITY|||||||0.393||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||0.393
82493614|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493615|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493616|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493617|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493618|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 3||||< 0.001
82493619|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493620|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493621|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493622|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493623|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493624|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Month 6||||< 0.001
82493625|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493626|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493627|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493628|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493629|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493630|NCT01817530|164680423|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from Kruskal-Wallis analysis with treatment as the main effect.|Kruskal-Wallis|||Final Visit||||< 0.001
82493631|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493632|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493633|NCT01817530|164680424|SUPERIORITY|||||||0.02||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.020
82493634|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493635|NCT01817530|164680424|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.002
82493636|NCT01817530|164680424|SUPERIORITY|||||||0.061||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.061
82493637|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493638|NCT01817530|164680424|SUPERIORITY|||||||0.004||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.004
82493639|NCT01817530|164680424|SUPERIORITY|||||||0.085||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.085
82493640|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493641|NCT01817530|164680424|SUPERIORITY|||||||0.012||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.012
82493642|NCT01817530|164680424|SUPERIORITY|||||||0.049||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.049
82493643|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493644|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493645|NCT01817530|164680424|SUPERIORITY|||||||0.056||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.056
82493646|NCT01817530|164680424|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493647|NCT01817530|164680424|SUPERIORITY|||||||0.005||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.005
82493648|NCT01817530|164680424|SUPERIORITY|||||||0.088||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.088
82493649|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493650|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493651|NCT01817530|164680425|SUPERIORITY|||||||0.188||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.188
82493652|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493653|NCT01817530|164680425|SUPERIORITY|||||||0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.001
82493654|NCT01817530|164680425|SUPERIORITY|||||||0.104||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.104
82493655|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493656|NCT01817530|164680425|SUPERIORITY|||||||0.021||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.021
82493657|NCT01817530|164680425|SUPERIORITY|||||||0.859||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.859
82493658|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493659|NCT01817530|164680425|SUPERIORITY|||||||0.006||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.006
82493660|NCT01817530|164680425|SUPERIORITY|||||||0.015||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.015
82493661|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493662|NCT01817530|164680425|SUPERIORITY|||||||0.007||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.007
82493663|NCT01817530|164680425|SUPERIORITY|||||||0.722||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.722
82493664|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493665|NCT01817530|164680425|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493666|NCT01817530|164680425|SUPERIORITY|||||||0.032||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.032
82493667|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493668|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493669|NCT01817530|164680426|SUPERIORITY|||||||0.041||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.041
82493670|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493671|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||< 0.001
82493672|NCT01817530|164680426|SUPERIORITY|||||||0.008||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 3||||0.008
82493673|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493674|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493675|NCT01817530|164680426|SUPERIORITY|||||||0.003||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.003
82493676|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493677|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||< 0.001
82493678|NCT01817530|164680426|SUPERIORITY|||||||0.003||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Month 6||||0.003
82493679|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493680|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493681|NCT01817530|164680426|SUPERIORITY|||||||0.004||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.004
82493682|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493683|NCT01817530|164680426|SUPERIORITY||||||<|0.001||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||< 0.001
82493684|NCT01817530|164680426|SUPERIORITY|||||||0.002||||||P value for test of difference between each elagolix dose group and placebo is from a logistic regression model including treatment as the main effect and baseline value as a covariate.|Regression, Logistic|||Final Visit||||0.002
82493685|NCT01817530|164680427|SUPERIORITY||difference in LS means|-1.5|STANDARD_ERROR_OF_MEAN|2.58||0.556|TWO_SIDED|95.0|-6.65|3.59||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||3.59|-6.65|0.556
82493686|NCT01817530|164680427|SUPERIORITY||difference in LS means|-1.1|STANDARD_ERROR_OF_MEAN|2.63||0.672|TWO_SIDED|95.0|-6.33|4.09||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||4.09|-6.33|0.672
82493687|NCT01817530|164680427|SUPERIORITY||difference in LS means|3.0|STANDARD_ERROR_OF_MEAN|2.71||0.274|TWO_SIDED|95.0|-2.39|8.36||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||8.36|-2.39|0.274
82493688|NCT01817530|164680427|SUPERIORITY||difference in LS means|-2.0|STANDARD_ERROR_OF_MEAN|1.65||0.223|TWO_SIDED|95.0|-5.26|1.23||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.23|-5.26|0.223
82493689|NCT01817530|164680427|SUPERIORITY||difference in LS means|-2.1|STANDARD_ERROR_OF_MEAN|1.68||0.215|TWO_SIDED|95.0|-5.38|1.22||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.22|-5.38|0.215
82493690|NCT01817530|164680427|SUPERIORITY||difference in LS means|-1.4|STANDARD_ERROR_OF_MEAN|1.68||0.392|TWO_SIDED|95.0|-4.75|1.87||P value for test of difference between each elagolix dose group and placebo at each post-baseline time point is from ANCOVA model with treatment as the main effect and baseline as covariate.|ANCOVA|||Final Month||1.87|-4.75|0.392
82493691|NCT03846804|164680431|OTHER|||||||0.36|||||||Wilcoxon (Mann-Whitney)|||||||0.36
82499556|NCT02670083|164689848|SUPERIORITY||Least Squares Mean Difference|0.33|STANDARD_ERROR_OF_MEAN|0.486|||TWO_SIDED|95.0|-0.62|1.29||||||||1.29|-0.62|
82493692|NCT00679432|164680439|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.8||||0.1393|TWO_SIDED|95.0|-1.8|13.4|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|All p-values were based on the Chi-square test; comparisons of budesonide MMX and placebo were conducted at the α = 0.025 level of significance and the comparison of Asacol and placebo were conducted at the α = 0.05 level of significance. The study was not powered to show statistical significance for Asacol versus budesonide MMX.||13.4|-1.8|0.1393
82493693|NCT00679432|164680439|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|10.4||||0.0143|TWO_SIDED|95.0|2.2|18.7|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||18.7|2.2|0.0143
82493694|NCT00679432|164680439|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|4.7||||0.22|TWO_SIDED|95.0|-2.7|12.1|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||12.1|-2.7|0.2200
82493695|NCT00679432|164680440|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|5.8||||0.3146|TWO_SIDED|95.0|-5.5|17.0|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|Clinical improvement and endoscopic improvement were analyzed hierarchically. If at least one primary endpoint comparison was statistically significant, clinical improvement was to be compared between each budesonide MMX group and placebo at the α = 0.025 level of significance. If at least one comparison of clinical improvement was statistically significant, endoscopic improvement was to be compared between each budesonide MMX dose group and placebo at the α = 0.025 level of significance.||17.0|-5.5|0.3146
82493696|NCT00679432|164680440|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|8.5||||0.142|TWO_SIDED|95.0|-2.8|19.9|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||19.9|-2.8|0.1420
82493697|NCT00679432|164680440|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|9.1||||0.1189|TWO_SIDED|95.0|-2.3|20.4|||Chi-squared||See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).|See comments from the budesonide 6 mg versus placebo comparison (statistical analysis 1).||20.4|-2.3|0.1189
82493698|NCT00679432|164680441|SUPERIORITY_OR_OTHER_LEGACY||Difference in proportions|0.0||||0.9991|TWO_SIDED|95.0|-11.8|11.8|||Chi-squared||The difference in proportions was determined by subtracting the proportion of patients who reached the endpoint in the placebo group from that proportion in the active group (active minus placebo).|As per the hierarchical testing procedure for secondary endpoints, because clinical improvement was not statistically significant in the ITT population, formal statistical comparisons for endoscopic improvement between the 2 budesonide MMX groups and placebo were not conducted. The statistical comparison between the Asacol and placebo groups is shown here.||11.8|-11.8|0.9991
82493699|NCT00824720|164680442|SUPERIORITY_OR_OTHER||least square mean difference|-0.22|STANDARD_DEVIATION|2.3||0.9737|||||||ANCOVA||Mean difference was calculated as high dose minus placebo.|The alternative hypothesis was that the high dose was different from the placebo.||||0.9737
82493700|NCT00824720|164680442|SUPERIORITY_OR_OTHER||least square mean difference|-1.11|STANDARD_DEVIATION|3.5||0.4711|||||||ANCOVA||The mean difference was calculated as low dose minus placebo.|The alternative hypothesis is that the low dose was different from placebo.||||0.4711
82493701|NCT00743483|164680446|SUPERIORITY_OR_OTHER|||||||0.2179|TWO_SIDED||||||t-test, 2 sided|||||||0.2179
82493702|NCT01466153|164680489|SUPERIORITY_OR_OTHER|||||||0.4475|||||||Cochran-Mantel-Haenszel|||||||0.4475
82493703|NCT01466153|164680493|SUPERIORITY_OR_OTHER|||||||0.3206|||||||Cochran-Mantel-Haenszel|||||||0.3206
82493704|NCT01466153|164680494|SUPERIORITY_OR_OTHER|||||||0.313|||||||Cochran-Mantel-Haenszel|||||||0.3130
82493705|NCT01466153|164680496|SUPERIORITY_OR_OTHER|||||||0.9527|||||||Log Rank|||||||0.9527
82493706|NCT01703039|164680534|SUPERIORITY|||||||0.06|||||||ANOVA|||||||0.06
82493707|NCT01703039|164680535|SUPERIORITY|||||||0.31|||||||Chi-squared|||||||0.31
82493708|NCT01703039|164680536|SUPERIORITY|||||||0.34|||||||Chi-squared|||||||0.34
82493709|NCT01703039|164680537|SUPERIORITY|||||||0.27|||||||ANOVA|||||||0.27
82493710|NCT01703039|164680538|SUPERIORITY|||||||0.04|||||||ANOVA|||||||0.04
82493711|NCT04997304|164680547|OTHER|Test of paired differences||||||0.0019|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.0019
82493712|NCT04997304|164680547|OTHER|Test of paired differences||||||0.002|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0020
82493713|NCT04997304|164680548|OTHER|Test of paired differences||||||0.0008|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.0008
82493714|NCT04997304|164680548|OTHER|Test of paired differences||||||0.0003|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0003
82493715|NCT04997304|164680549|OTHER|Test of paired differences||||||0.04|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for AirDuo||||0.04
82493716|NCT04997304|164680549|OTHER|Test of paired differences||||||0.0965|||||||t-test, 2 sided|Paired t-test||This analysis applies only to comparison of baseline and exacerbation for ProAir||||0.0965
82493717|NCT03000439|164680563|OTHER||Hazard Ratio (HR)|0.633|||=|0.1171|TWO_SIDED|95.0|0.296|1.354||1-sided p-value is provided.|Unstratified log-rank test||Hazard ratio and 95% CI was based on Cox proportional hazards model with treatment group as covariate. Hazard ratio \< 1 indicates a reduction in hazard ratio in favor of Tofacitinib 5 mg BID to Placebo.|||1.354|0.296|= 0.1171
82493718|NCT03000439|164680564|OTHER||Difference in percentage|0.7|||||TWO_SIDED|95.0|-12.2|13.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 4||13.6|-12.2|
82493719|NCT03000439|164680564|OTHER||Difference in percentage|-8.3|||||TWO_SIDED|95.0|-27.9|11.3|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 8||11.3|-27.9|
82493720|NCT03000439|164680564|OTHER||Difference in percentage|-10.8|||||TWO_SIDED|95.0|-33.2|11.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 12||11.6|-33.2|
82493721|NCT03000439|164680564|OTHER||Difference in percentage|-13.7|||||TWO_SIDED|95.0|-37.2|9.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 16||9.8|-37.2|
82493722|NCT03000439|164680564|OTHER||Difference in percentage|-13.2|||||TWO_SIDED|95.0|-37.9|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 20||11.5|-37.9|
82493723|NCT03000439|164680564|OTHER||Difference in percentage|-13.2|||||TWO_SIDED|95.0|-37.9|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 24||11.5|-37.9|
82493724|NCT03000439|164680564|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-34.5|15.6|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 28||15.6|-34.5|
82493725|NCT03000439|164680564|OTHER||Difference in percentage|-14.0|||||TWO_SIDED|95.0|-39.5|11.5|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 32||11.5|-39.5|
82493726|NCT03000439|164680564|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-35.5|16.7|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 36||16.7|-35.5|
82493727|NCT03000439|164680564|OTHER||Difference in percentage|-9.4|||||TWO_SIDED|95.0|-35.5|16.7|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 40||16.7|-35.5|
82493728|NCT03000439|164680564|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 44||11.8|-41.8|
82493729|NCT03000439|164680564|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 48||11.8|-41.8|
82493730|NCT03000439|164680564|OTHER||Difference in percentage|-15.0|||||TWO_SIDED|95.0|-41.8|11.8|||||The 95% CIs for the differences between the treatment groups were generated using Greenwood's formula.|DB Week 52||11.8|-41.8|
82493731|NCT03000439|164680567|OTHER||Difference in percentage|-11.41|||||TWO_SIDED|95.0|-28.02|5.21|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 4||5.21|-28.02|
82493732|NCT03000439|164680567|OTHER||Difference in percentage|1.5|||||TWO_SIDED|95.0|-18.37|21.36|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 8||21.36|-18.37|
82493733|NCT03000439|164680567|OTHER||Difference in percentage|0.46|||||TWO_SIDED|95.0|-22.68|23.6|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 12||23.60|-22.68|
82493734|NCT03000439|164680567|OTHER||Difference in percentage|10.14|||||TWO_SIDED|95.0|-13.82|34.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 16||34.10|-13.82|
82493735|NCT03000439|164680567|OTHER||Difference in percentage|16.24|||||TWO_SIDED|95.0|-8.43|40.92|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 20||40.92|-8.43|
82493736|NCT03000439|164680567|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 24||34.39|-15.49|
82493737|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 28||34.33|-16.13|
82493738|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 32||34.33|-16.13|
82493739|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 36||34.33|-16.13|
82493740|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 40||34.33|-16.13|
82493741|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 44||34.33|-16.13|
82493742|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 48||37.56|-12.91|
82493743|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR30 at DB Week 52||37.56|-12.91|
82493744|NCT03000439|164680567|OTHER||Difference in percentage|-11.41|||||TWO_SIDED|95.0|-28.02|5.21|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 4||5.21|-28.02|
82493745|NCT03000439|164680567|OTHER||Difference in percentage|4.72|||||TWO_SIDED|95.0|-15.72|25.17|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 8||25.17|-15.72|
82493746|NCT03000439|164680567|OTHER||Difference in percentage|0.46|||||TWO_SIDED|95.0|-22.68|23.6|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 12||23.60|-22.68|
82493747|NCT03000439|164680567|OTHER||Difference in percentage|13.36|||||TWO_SIDED|95.0|-10.76|37.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 16||37.48|-10.76|
82493748|NCT03000439|164680567|OTHER||Difference in percentage|19.47|||||TWO_SIDED|95.0|-5.2|44.14|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 20||44.14|-5.20|
82493749|NCT03000439|164680567|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 24||34.39|-15.49|
82493750|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 28||34.33|-16.13|
82493751|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 32||34.33|-16.13|
82493752|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 36||34.33|-16.13|
82493753|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 40||34.33|-16.13|
82493754|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 44||37.56|-12.91|
82493755|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 48||37.56|-12.91|
82493756|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR50 at DB Week 52||37.56|-12.91|
82493757|NCT03000439|164680567|OTHER||Difference in percentage|-13.82|||||TWO_SIDED|95.0|-38.14|10.49|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 4||10.49|-38.14|
82493758|NCT03000439|164680567|OTHER||Difference in percentage|-9.56|||||TWO_SIDED|95.0|-32.28|13.15|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 8||13.15|-32.28|
82493759|NCT03000439|164680567|OTHER||Difference in percentage|-0.23|||||TWO_SIDED|95.0|-24.7|24.24|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 12||24.24|-24.70|
82493760|NCT03000439|164680567|OTHER||Difference in percentage|5.88|||||TWO_SIDED|95.0|-19.31|31.06|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 16||31.06|-19.31|
82493761|NCT03000439|164680567|OTHER||Difference in percentage|19.12|||||TWO_SIDED|95.0|-5.81|44.06|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 20||44.06|-5.81|
82493762|NCT03000439|164680567|OTHER||Difference in percentage|1.96|||||TWO_SIDED|95.0|-23.55|27.47|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 24||27.47|-23.55|
82493763|NCT03000439|164680567|OTHER|The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|Difference in percentage|15.21|||||TWO_SIDED|95.0|-10.05|40.46|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 28||40.46|-10.05|
82493764|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 32||37.56|-12.91|
82493765|NCT03000439|164680567|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 36||34.33|-16.13|
82493766|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 40||37.56|-12.91|
82493767|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 44||37.56|-12.91|
82493768|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 48||37.56|-12.91|
82493769|NCT03000439|164680567|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR70 at DB Week 52||37.56|-12.91|
82493770|NCT03000439|164680567|OTHER||Difference in percentage|-19.82|||||TWO_SIDED|95.0|-44.09|4.46|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 4||4.46|-44.09|
82493771|NCT03000439|164680567|OTHER||Difference in percentage|-17.28|||||TWO_SIDED|95.0|-40.19|5.63|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 8||5.63|-40.19|
82493772|NCT03000439|164680567|OTHER||Difference in percentage|-7.6|||||TWO_SIDED|95.0|-29.66|14.45|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 20||14.45|-29.66|
82493773|NCT03000439|164680567|OTHER||Difference in percentage|-13.71|||||TWO_SIDED|95.0|-37.19|9.77|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 12||9.77|-37.19|
82493774|NCT03000439|164680567|OTHER||Difference in percentage|-4.03|||||TWO_SIDED|95.0|-26.67|18.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 16||18.61|-26.67|
82493775|NCT03000439|164680567|OTHER||Difference in percentage|-14.75|||||TWO_SIDED|95.0|-35.32|5.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 32||5.83|-35.32|
82493776|NCT03000439|164680567|OTHER||Difference in percentage|-4.38|||||TWO_SIDED|95.0|-26.02|17.26|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 24||17.26|-26.02|
82493777|NCT03000439|164680567|OTHER||Difference in percentage|-7.95|||||TWO_SIDED|95.0|-28.89|12.99|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 28||12.99|-28.89|
82493778|NCT03000439|164680567|OTHER||Difference in percentage|-6.91|||||TWO_SIDED|95.0|-30.65|16.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 36||16.83|-30.65|
82493779|NCT03000439|164680567|OTHER||Difference in percentage|-3.69|||||TWO_SIDED|95.0|-27.16|19.78|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 40||19.78|-27.16|
82493780|NCT03000439|164680567|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 44||22.68|-23.60|
82493781|NCT03000439|164680567|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 48||22.68|-23.60|
82493782|NCT03000439|164680567|OTHER||Difference in percentage|-0.46|||||TWO_SIDED|95.0|-23.6|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR90 at DB Week 52||22.68|-23.60|
82493783|NCT03000439|164680567|OTHER||Difference in percentage|-21.2|||||TWO_SIDED|95.0|-42.45|0.05|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 4||0.05|-42.45|
82493784|NCT03000439|164680567|OTHER||Difference in percentage|-18.32|||||TWO_SIDED|95.0|-37.98|1.34|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 8||1.34|-37.98|
82493785|NCT03000439|164680567|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 12||8.61|-31.65|
82493786|NCT03000439|164680567|OTHER||Difference in percentage|-7.95|||||TWO_SIDED|95.0|-28.89|12.99|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 16||12.99|-28.89|
82493787|NCT03000439|164680567|OTHER||Difference in percentage|1.38|||||TWO_SIDED|95.0|-16.15|18.91|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 20||18.91|-16.15|
82493788|NCT03000439|164680567|OTHER||Difference in percentage|-1.5|||||TWO_SIDED|95.0|-21.36|18.37|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 24||18.37|-21.36|
82493789|NCT03000439|164680567|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 28||11.32|-27.91|
82493790|NCT03000439|164680567|OTHER||Difference in percentage|-15.09|||||TWO_SIDED|95.0|-34.29|4.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 32||4.10|-34.29|
82493791|NCT03000439|164680567|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 36||8.61|-31.65|
82493792|NCT03000439|164680567|OTHER||Difference in percentage|-7.6|||||TWO_SIDED|95.0|-29.66|14.45|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 40||14.45|-29.66|
82493793|NCT03000439|164680567|OTHER||Difference in percentage|-4.38|||||TWO_SIDED|95.0|-26.02|17.26|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 44||17.26|-26.02|
82493794|NCT03000439|164680567|OTHER||Difference in percentage|-0.81|||||TWO_SIDED|95.0|-23.04|21.43|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 48||21.43|-23.04|
82493795|NCT03000439|164680567|OTHER||Difference in percentage|-0.81|||||TWO_SIDED|95.0|-23.04|21.43|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|ACR100 at DB Week 52||21.43|-23.04|
82493796|NCT03000439|164680575|OTHER||Difference in percentage|-7.83|||||TWO_SIDED|95.0|-23.42|7.75|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||7.75|-23.42|
82493797|NCT03000439|164680575|OTHER||Difference in percentage|5.07|||||TWO_SIDED|95.0|-13.94|24.08|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||24.08|-13.94|
82493798|NCT03000439|164680575|OTHER||Difference in percentage|0.81|||||TWO_SIDED|95.0|-21.43|23.04|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||23.04|-21.43|
82493799|NCT03000439|164680575|OTHER||Difference in percentage|10.14|||||TWO_SIDED|95.0|-13.82|34.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||34.10|-13.82|
82493800|NCT03000439|164680575|OTHER||Difference in percentage|16.24|||||TWO_SIDED|95.0|-8.43|40.92|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||40.92|-8.43|
82493801|NCT03000439|164680575|OTHER||Difference in percentage|9.45|||||TWO_SIDED|95.0|-15.49|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||34.39|-15.49|
82493802|NCT03000439|164680575|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||34.33|-16.13|
82493803|NCT03000439|164680575|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||34.33|-16.13|
82493804|NCT03000439|164680575|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||34.33|-16.13|
82493805|NCT03000439|164680575|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||34.33|-16.13|
82493806|NCT03000439|164680575|OTHER||Difference in percentage|9.1|||||TWO_SIDED|95.0|-16.13|34.33|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||34.33|-16.13|
82493807|NCT03000439|164680575|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||37.56|-12.91|
82493808|NCT03000439|164680575|OTHER||Difference in percentage|12.33|||||TWO_SIDED|95.0|-12.91|37.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||37.56|-12.91|
82493809|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-2.4|2.38||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.38|-2.40|
82493810|NCT03000439|164680581|OTHER||Difference in LS Mean|0.94|||||TWO_SIDED|95.0|-2.25|4.12||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.12|-2.25|
82493811|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.24|||||TWO_SIDED|95.0|-4.54|4.06||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.06|-4.54|
82493812|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.86|||||TWO_SIDED|95.0|-3.99|2.28||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.28|-3.99|
82493813|NCT03000439|164680581|OTHER||Difference in LS Mean|-1.09|||||TWO_SIDED|95.0|-3.12|0.94||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.94|-3.12|
82493814|NCT03000439|164680581|OTHER||Difference in LS Mean|0.3|||||TWO_SIDED|95.0|-1.46|2.06||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.06|-1.46|
82493815|NCT03000439|164680581|OTHER||Difference in LS Mean|-1.28|||||TWO_SIDED|95.0|-7.85|5.29||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.29|-7.85|
82493816|NCT03000439|164680581|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-1.98|2.93||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.93|-1.98|
82493817|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.26|||||TWO_SIDED|95.0|-1.86|1.35||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.35|-1.86|
82493818|NCT03000439|164680581|OTHER||Difference in LS Mean|0.73|||||TWO_SIDED|95.0|-2.18|3.63||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.63|-2.18|
82493819|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.83|||||TWO_SIDED|95.0|-3.22|1.56||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.56|-3.22|
82493820|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.23|||||TWO_SIDED|95.0|-1.76|1.3||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-1.76|
82493821|NCT03000439|164680581|OTHER||Difference in LS Mean|-0.75|||||TWO_SIDED|95.0|-3.43|1.93||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.93|-3.43|
82493822|NCT03000439|164680582|OTHER||Difference in LS Mean|0.9|||||TWO_SIDED|95.0|-1.8|3.61||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.61|-1.80|
82493823|NCT03000439|164680582|OTHER||Difference in LS Mean|2.11|||||TWO_SIDED|95.0|-0.64|4.86||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.86|-0.64|
82493824|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-4.25|4.21||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.21|-4.25|
82499557|NCT02670083|164689849|SUPERIORITY||Least Squares Mean Difference|1.88|STANDARD_ERROR_OF_MEAN|1.679|||TWO_SIDED|95.0|-1.43|5.18||||||||5.18|-1.43|
82493825|NCT03000439|164680582|OTHER||Difference in LS Mean|-1.12|||||TWO_SIDED|95.0|-4.32|2.09||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.09|-4.32|
82493826|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.53|||||TWO_SIDED|95.0|-3.04|1.98||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.98|-3.04|
82493827|NCT03000439|164680582|OTHER||Difference in LS Mean|1.84|||||TWO_SIDED|95.0|-1.29|4.97||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.97|-1.29|
82493828|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-5.89|5.72||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.72|-5.89|
82493829|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.69|||||TWO_SIDED|95.0|-3.79|2.41||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.41|-3.79|
82493830|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.35|||||TWO_SIDED|95.0|-1.89|1.19||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.19|-1.89|
82493831|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-3.63|3.58||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.58|-3.63|
82493832|NCT03000439|164680582|OTHER||Difference in LS Mean|-2.59|||||TWO_SIDED|95.0|-5.67|0.49||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.49|-5.67|
82493833|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.82|||||TWO_SIDED|95.0|-2.82|1.19||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.19|-2.82|
82493834|NCT03000439|164680582|OTHER||Difference in LS Mean|-0.46|||||TWO_SIDED|95.0|-3.27|2.36||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.36|-3.27|
82493835|NCT03000439|164680595|OTHER||Difference in LS Mean|0.86|||||TWO_SIDED|95.0|-0.08|1.79||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.79|-0.08|
82493836|NCT03000439|164680595|OTHER||Difference in LS Mean|1.32|||||TWO_SIDED|95.0|0.25|2.4||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.40|0.25|
82493837|NCT03000439|164680595|OTHER||Difference in LS Mean|1.43|||||TWO_SIDED|95.0|-0.79|3.66||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||3.66|-0.79|
82493838|NCT03000439|164680595|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-0.7|0.74||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.74|-0.70|
82493839|NCT03000439|164680595|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.43|0.64||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.64|-0.43|
82493840|NCT03000439|164680595|OTHER||Difference in LS Mean|0.44|||||TWO_SIDED|95.0|0.06|0.81||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.81|0.06|
82493841|NCT03000439|164680595|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-1.64|2.06||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.06|-1.64|
82493842|NCT03000439|164680595|OTHER||Difference in LS Mean|0.49|||||TWO_SIDED|95.0|-0.04|1.03||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.03|-0.04|
82493843|NCT03000439|164680595|OTHER||Difference in LS Mean|0.35|||||TWO_SIDED|95.0|-0.09|0.79||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.79|-0.09|
82493844|NCT03000439|164680595|OTHER||Difference in LS Mean|0.52|||||TWO_SIDED|95.0|-0.23|1.28||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.28|-0.23|
82493845|NCT03000439|164680595|OTHER||Difference in LS Mean|-0.19|||||TWO_SIDED|95.0|-1.2|0.83||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.83|-1.20|
82493846|NCT03000439|164680595|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.49|0.91||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.91|-0.49|
82499558|NCT02670083|164689850|SUPERIORITY||Least Squares Mean Difference|1.22|STANDARD_ERROR_OF_MEAN|1.306|||TWO_SIDED|95.0|-1.35|3.79||||||||3.79|-1.35|
82493847|NCT03000439|164680595|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.8|0.92||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.92|-0.80|
82493848|NCT03000439|164680596|OTHER||Difference in LS Mean|0.29|||||TWO_SIDED|95.0|-0.43|1.0||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.00|-0.43|
82493849|NCT03000439|164680596|OTHER||Difference in LS Mean|1.01|||||TWO_SIDED|95.0|-0.06|2.08||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.08|-0.06|
82493850|NCT03000439|164680596|OTHER||Difference in LS Mean|1.25|||||TWO_SIDED|95.0|-1.13|3.64||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.64|-1.13|
82493851|NCT03000439|164680596|OTHER||Difference in LS Mean|0.1|||||TWO_SIDED|95.0|-0.68|0.88||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.88|-0.68|
82493852|NCT03000439|164680596|OTHER||Difference in LS Mean|-0.13|||||TWO_SIDED|95.0|-0.58|0.33||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.33|-0.58|
82493853|NCT03000439|164680596|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.03|0.68||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.68|-0.03|
82493854|NCT03000439|164680596|OTHER||Difference in LS Mean|-0.17|||||TWO_SIDED|95.0|-2.42|2.08||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.08|-2.42|
82493855|NCT03000439|164680596|OTHER||Difference in LS Mean|0.42|||||TWO_SIDED|95.0|-0.14|0.97||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.97|-0.14|
82493856|NCT03000439|164680596|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.15|0.79||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.79|-0.15|
82493857|NCT03000439|164680596|OTHER||Difference in LS Mean|0.68|||||TWO_SIDED|95.0|-0.14|1.49||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.49|-0.14|
82493858|NCT03000439|164680596|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-1.28|0.96||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.96|-1.28|
82493859|NCT03000439|164680596|OTHER||Difference in LS Mean|0.37|||||TWO_SIDED|95.0|-0.43|1.16||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.16|-0.43|
82493860|NCT03000439|164680596|OTHER||Difference in LS Mean|0.24|||||TWO_SIDED|95.0|-0.82|1.3||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-0.82|
82493861|NCT03000439|164680597|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.07|0.5||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.50|-0.07|
82493862|NCT03000439|164680597|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.15|0.32||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.32|-0.15|
82493863|NCT03000439|164680597|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-0.17|0.28||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.28|-0.17|
82493864|NCT03000439|164680597|OTHER||Difference in LS Mean|0.1|||||TWO_SIDED|95.0|-0.16|0.36||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.36|-0.16|
82493865|NCT03000439|164680597|OTHER||Difference in LS Mean|0.19|||||TWO_SIDED|95.0|-0.01|0.38||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.01|
82493866|NCT03000439|164680597|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-0.12|0.35||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.35|-0.12|
82493867|NCT03000439|164680597|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.18|0.31||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.31|-0.18|
82493868|NCT03000439|164680597|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.06|0.37||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.37|-0.06|
82493869|NCT03000439|164680597|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.14|0.36||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.36|-0.14|
82499559|NCT02670083|164689852|SUPERIORITY||Least Squares Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.723|||TWO_SIDED|95.0|-1.95|0.9||||||||0.90|-1.95|
82493870|NCT03000439|164680597|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.06|0.38||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.06|
82493871|NCT03000439|164680597|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.22|0.3||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.30|-0.22|
82493872|NCT03000439|164680597|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.2|0.38||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.38|-0.20|
82493873|NCT03000439|164680597|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.24|0.42||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, open-label baseline value, and open-label baseline value by visit interaction.||0.42|-0.24|
82493874|NCT03000439|164680598|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.1|0.24||||||DB Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.24|-0.10|
82493875|NCT03000439|164680598|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-0.19|0.15||||||DB Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.15|-0.19|
82493876|NCT03000439|164680598|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-0.19|0.16||||||DB Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.16|-0.19|
82493877|NCT03000439|164680598|OTHER||Difference in LS Mean|0.01|||||TWO_SIDED|95.0|-0.2|0.23||||||DB Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.23|-0.20|
82493878|NCT03000439|164680598|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.02|0.32||||||DB Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.32|-0.02|
82493879|NCT03000439|164680598|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.09|0.4||||||DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.40|-0.09|
82493880|NCT03000439|164680598|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.16|0.34||||||DB Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.34|-0.16|
82493881|NCT03000439|164680598|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.05|0.36||||||DB Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.36|-0.05|
82493882|NCT03000439|164680598|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.1|0.43||||||DB Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.43|-0.10|
82493883|NCT03000439|164680598|OTHER||Difference in LS Mean|0.17|||||TWO_SIDED|95.0|-0.06|0.39||||||DB Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.39|-0.06|
82493884|NCT03000439|164680598|OTHER||Difference in LS Mean|0.04|||||TWO_SIDED|95.0|-0.22|0.3||||||DB Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.30|-0.22|
82493885|NCT03000439|164680598|OTHER||Difference in LS Mean|0.15|||||TWO_SIDED|95.0|-0.18|0.49||||||DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.49|-0.18|
82493886|NCT03000439|164680598|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.23|0.55||||||DB Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.55|-0.23|
82493887|NCT03000439|164680599|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-0.97|1.4||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.40|-0.97|
82493888|NCT03000439|164680599|OTHER||Difference in LS Mean|0.58|||||TWO_SIDED|95.0|-0.68|1.84||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.84|-0.68|
82493889|NCT03000439|164680599|OTHER||Difference in LS Mean|1.2|||||TWO_SIDED|95.0|-0.77|3.16||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||3.16|-0.77|
82493890|NCT03000439|164680599|OTHER||Difference in LS Mean|-0.06|||||TWO_SIDED|95.0|-1.3|1.18||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.18|-1.30|
82493891|NCT03000439|164680599|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.29|0.82||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.82|-0.29|
82493892|NCT03000439|164680599|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-0.46|0.64||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.64|-0.46|
82493893|NCT03000439|164680599|OTHER||Difference in LS Mean|-0.46|||||TWO_SIDED|95.0|-2.05|1.13||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.13|-2.05|
82493894|NCT03000439|164680599|OTHER||Difference in LS Mean|0.35|||||TWO_SIDED|95.0|-0.18|0.88||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.18|
82493895|NCT03000439|164680599|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.26|0.88||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.26|
82493896|NCT03000439|164680599|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.43|0.99||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||0.99|-0.43|
82493897|NCT03000439|164680599|OTHER||Difference in LS Mean|0.29|||||TWO_SIDED|95.0|-0.45|1.03||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.03|-0.45|
82493898|NCT03000439|164680599|OTHER||Difference in LS Mean|0.22|||||TWO_SIDED|95.0|-0.63|1.08||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.08|-0.63|
82493899|NCT03000439|164680599|OTHER||Difference in LS Mean|0.45|||||TWO_SIDED|95.0|-0.66|1.57||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||1.57|-0.66|
82493900|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.13|||||TWO_SIDED|95.0|-0.73|0.47||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.47|-0.73|
82493901|NCT03000439|164680600|OTHER||Difference in LS Mean|0.39|||||TWO_SIDED|95.0|-0.81|1.59||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.59|-0.81|
82493902|NCT03000439|164680600|OTHER||Difference in LS Mean|0.7|||||TWO_SIDED|95.0|-0.54|1.95||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.95|-0.54|
82493903|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.4|||||TWO_SIDED|95.0|-0.9|0.1||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.10|-0.90|
82493904|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.46|0.13||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.13|-0.46|
82493905|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.32|||||TWO_SIDED|95.0|-0.63|-0.01||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.01|-0.63|
82493906|NCT03000439|164680600|OTHER||Difference in LS Mean|-1.09|||||TWO_SIDED|95.0|-2.34|0.15||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.15|-2.34|
82493907|NCT03000439|164680600|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.26|0.4||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.40|-0.26|
82493908|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.02|||||TWO_SIDED|95.0|-0.3|0.26||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.26|-0.30|
82493909|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.53|0.43||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.43|-0.53|
82493910|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.56|0.46||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.46|-0.56|
82493911|NCT03000439|164680600|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-0.74|0.69||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.74|
82493912|NCT03000439|164680600|OTHER||Difference in LS Mean|0.2|||||TWO_SIDED|95.0|-0.91|1.32||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.32|-0.91|
82493913|NCT03000439|164680601|OTHER||Difference in LS Mean|1.01|||||TWO_SIDED|95.0|0.09|1.92||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.92|0.09|
82493914|NCT03000439|164680601|OTHER||Difference in LS Mean|1.31|||||TWO_SIDED|95.0|0.4|2.22||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||2.22|0.40|
82493915|NCT03000439|164680601|OTHER||Difference in LS Mean|0.53|||||TWO_SIDED|95.0|-0.47|1.53||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.53|-0.47|
82493916|NCT03000439|164680601|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.63|1.16||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.16|-0.63|
82499560|NCT02670083|164689853|SUPERIORITY||Least Squares Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.609|||TWO_SIDED|95.0|-0.81|1.6||||||||1.60|-0.81|
82493917|NCT03000439|164680601|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.33|0.97||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.97|-0.33|
82493918|NCT03000439|164680601|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.1|1.2||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.20|-0.10|
82493919|NCT03000439|164680601|OTHER||Difference in LS Mean|0.2|||||TWO_SIDED|95.0|-0.93|1.33||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.33|-0.93|
82493920|NCT03000439|164680601|OTHER||Difference in LS Mean|0.62|||||TWO_SIDED|95.0|-0.17|1.42||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.42|-0.17|
82493921|NCT03000439|164680601|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.02|0.98||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.98|-0.02|
82493922|NCT03000439|164680601|OTHER||Difference in LS Mean|0.64|||||TWO_SIDED|95.0|-0.3|1.58||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.58|-0.30|
82493923|NCT03000439|164680601|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.4|0.85||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.85|-0.40|
82493924|NCT03000439|164680601|OTHER||Difference in LS Mean|0.26|||||TWO_SIDED|95.0|-0.36|0.88||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||0.88|-0.36|
82493925|NCT03000439|164680601|OTHER||Difference in LS Mean|0.11|||||TWO_SIDED|95.0|-0.87|1.09||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-label baseline value, and Open-label baseline value by visit interaction.||1.09|-0.87|
82493926|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.05|||||TWO_SIDED|95.0|-0.77|0.67||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.67|-0.77|
82493927|NCT03000439|164680602|OTHER||Difference in LS Mean|0.58|||||TWO_SIDED|95.0|-0.37|1.53||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.53|-0.37|
82493928|NCT03000439|164680602|OTHER||Difference in LS Mean|0.12|||||TWO_SIDED|95.0|-1.06|1.3||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-1.06|
82493929|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.26|||||TWO_SIDED|95.0|-1.27|0.74||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.74|-1.27|
82493930|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.83|0.52||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.52|-0.83|
82493931|NCT03000439|164680602|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-0.61|0.71||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.71|-0.61|
82493932|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.1|||||TWO_SIDED|95.0|-1.45|1.25||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.25|-1.45|
82493933|NCT03000439|164680602|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.61|1.23||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.23|-0.61|
82493934|NCT03000439|164680602|OTHER||Difference in LS Mean|0.18|||||TWO_SIDED|95.0|-0.34|0.71||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.71|-0.34|
82493935|NCT03000439|164680602|OTHER||Difference in LS Mean|0.36|||||TWO_SIDED|95.0|-0.74|1.46||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.46|-0.74|
82493936|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.09|||||TWO_SIDED|95.0|-0.75|0.56||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.56|-0.75|
82493937|NCT03000439|164680602|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.68|0.81||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.81|-0.68|
82493938|NCT03000439|164680602|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.1|0.94||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.94|-1.10|
82493939|NCT03000439|164680603|OTHER||Difference in LS Mean|-1.46|||||TWO_SIDED|95.0|-14.59|11.66||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||11.66|-14.59|
82493940|NCT03000439|164680603|OTHER||Difference in LS Mean|-7.22|||||TWO_SIDED|95.0|-19.62|5.17||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||5.17|-19.62|
82493941|NCT03000439|164680603|OTHER||Difference in LS Mean|-6.61|||||TWO_SIDED|95.0|-19.36|6.14||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||6.14|-19.36|
82493942|NCT03000439|164680603|OTHER||Difference in LS Mean|-8.5|||||TWO_SIDED|95.0|-20.28|3.27||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||3.27|-20.28|
82493943|NCT03000439|164680603|OTHER||Difference in LS Mean|-3.95|||||TWO_SIDED|95.0|-10.53|2.62||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.62|-10.53|
82493944|NCT03000439|164680603|OTHER||Difference in LS Mean|-1.44|||||TWO_SIDED|95.0|-8.09|5.21||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||5.21|-8.09|
82493945|NCT03000439|164680603|OTHER||Difference in LS Mean|-4.32|||||TWO_SIDED|95.0|-16.67|8.03||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.03|-16.67|
82493946|NCT03000439|164680603|OTHER||Difference in LS Mean|-2.86|||||TWO_SIDED|95.0|-13.97|8.25||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.25|-13.97|
82493947|NCT03000439|164680603|OTHER||Difference in LS Mean|-10.95|||||TWO_SIDED|95.0|-24.63|2.73||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.73|-24.63|
82493948|NCT03000439|164680603|OTHER||Difference in LS Mean|-4.28|||||TWO_SIDED|95.0|-16.74|8.18||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||8.18|-16.74|
82493949|NCT03000439|164680603|OTHER||Difference in LS Mean|-8.32|||||TWO_SIDED|95.0|-15.2|-1.43||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||-1.43|-15.20|
82493950|NCT03000439|164680603|OTHER||Difference in LS Mean|-4.84|||||TWO_SIDED|95.0|-12.6|2.92||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.92|-12.60|
82493951|NCT03000439|164680603|OTHER||Difference in LS Mean|-1.34|||||TWO_SIDED|95.0|-5.16|2.48||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open label baseline value, and Open-label baseline value by visit interaction.||2.48|-5.16|
82493952|NCT03000439|164680604|OTHER||Difference in LS Mean|-6.05|||||TWO_SIDED|95.0|-16.3|4.19||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.19|-16.30|
82493953|NCT03000439|164680604|OTHER||Difference in LS Mean|-10.46|||||TWO_SIDED|95.0|-21.68|0.77||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.77|-21.68|
82493954|NCT03000439|164680604|OTHER||Difference in LS Mean|-10.86|||||TWO_SIDED|95.0|-23.75|2.03||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.03|-23.75|
82493955|NCT03000439|164680604|OTHER||Difference in LS Mean|-13.15|||||TWO_SIDED|95.0|-25.83|-0.46||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.46|-25.83|
82493956|NCT03000439|164680604|OTHER||Difference in LS Mean|-7.02|||||TWO_SIDED|95.0|-13.56|-0.47||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.47|-13.56|
82493957|NCT03000439|164680604|OTHER||Difference in LS Mean|-4.53|||||TWO_SIDED|95.0|-11.0|1.95||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.95|-11.00|
82493958|NCT03000439|164680604|OTHER||Difference in LS Mean|-9.35|||||TWO_SIDED|95.0|-22.24|3.54||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.54|-22.24|
82493959|NCT03000439|164680604|OTHER||Difference in LS Mean|-6.75|||||TWO_SIDED|95.0|-18.34|4.83||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.83|-18.34|
82493960|NCT03000439|164680604|OTHER||Difference in LS Mean|-15.49|||||TWO_SIDED|95.0|-30.36|-0.63||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-0.63|-30.36|
82499561|NCT02670083|164689854|SUPERIORITY||Least Squares Mean Difference|-1.39|STANDARD_ERROR_OF_MEAN|6.214|||TWO_SIDED|95.0|-13.64|10.86||||||||10.86|-13.64|
82493961|NCT03000439|164680604|OTHER||Difference in LS Mean|-7.99|||||TWO_SIDED|95.0|-21.0|5.03||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.03|-21.00|
82493962|NCT03000439|164680604|OTHER||Difference in LS Mean|-10.49|||||TWO_SIDED|95.0|-17.67|-3.31||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||-3.31|-17.67|
82493963|NCT03000439|164680604|OTHER||Difference in LS Mean|-5.93|||||TWO_SIDED|95.0|-13.53|1.67||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.67|-13.53|
82493964|NCT03000439|164680604|OTHER||Difference in LS Mean|-2.57|||||TWO_SIDED|95.0|-6.37|1.24||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.24|-6.37|
82493965|NCT03000439|164680605|OTHER||Difference in LS Mean|0.51|||||TWO_SIDED|95.0|0.2|2.22||||||DB week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||2.22|0.20|
82493966|NCT03000439|164680605|OTHER||Difference in LS Mean|0.82|||||TWO_SIDED|95.0|-0.2|1.85||||||DB week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.85|-0.20|
82493967|NCT03000439|164680605|OTHER||Difference in LS Mean|0.31|||||TWO_SIDED|95.0|-0.65|1.27||||||DB week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.27|-0.65|
82493968|NCT03000439|164680605|OTHER||Difference in LS Mean|0.57|||||TWO_SIDED|95.0|-0.26|1.41||||||DB week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.41|-0.26|
82493969|NCT03000439|164680605|OTHER||Difference in LS Mean|0.16|||||TWO_SIDED|95.0|-0.78|1.1||||||DB week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.10|-0.78|
82493970|NCT03000439|164680605|OTHER||Difference in LS Mean|0.66|||||TWO_SIDED|95.0|-0.18|1.49||||||DB week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.49|-0.18|
82493971|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.43|1.27||||||DB week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.27|-1.43|
82493972|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.07|||||TWO_SIDED|95.0|-0.65|0.5||||||DB week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.50|-0.65|
82493973|NCT03000439|164680605|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.51|0.63||||||DB week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.63|-0.51|
82493974|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.04|||||TWO_SIDED|95.0|-0.55|0.47||||||DB week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.47|-0.55|
82493975|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.16|||||TWO_SIDED|95.0|-0.82|0.5||||||DB week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.50|-0.82|
82493976|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.14|||||TWO_SIDED|95.0|-1.51|1.22||||||DB week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||1.22|-1.51|
82493977|NCT03000439|164680605|OTHER||Difference in LS Mean|-0.08|||||TWO_SIDED|95.0|-1.05|0.88||||||DB week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Open-Label baseline value, and Open-Label baseline value by visit interaction.||0.88|-1.05|
82493978|NCT03000439|164680606|OTHER||Difference in LS Mean|0.49|||||TWO_SIDED|95.0|-0.32|1.3||||||DB at Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.30|-0.32|
82493979|NCT03000439|164680606|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.64|1.61||||||DB at Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.61|-0.64|
82493980|NCT03000439|164680606|OTHER||Difference in LS Mean|0.03|||||TWO_SIDED|95.0|-1.02|1.07||||||DB at Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.07|-1.02|
82493981|NCT03000439|164680606|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.69|1.14||||||DB at Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.14|-0.69|
82493982|NCT03000439|164680606|OTHER||Difference in LS Mean|0.09|||||TWO_SIDED|95.0|-1.05|1.22||||||DB at Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.22|-1.05|
82493983|NCT03000439|164680606|OTHER||Difference in LS Mean|0.28|||||TWO_SIDED|95.0|-0.6|1.16||||||DB at Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.16|-0.60|
82499562|NCT02670083|164689855|SUPERIORITY||Least Squares Mean Difference|1.82|STANDARD_ERROR_OF_MEAN|2.26|||TWO_SIDED|95.0|-2.64|6.27||||||||6.27|-2.64|
82493984|NCT03000439|164680606|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-1.6|1.64||||||DB at Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.64|-1.60|
82493985|NCT03000439|164680606|OTHER||Difference in LS Mean|0.02|||||TWO_SIDED|95.0|-1.6|1.64||||||DB at Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.64|-1.60|
82493986|NCT03000439|164680606|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.58|0.73||||||DB at Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.73|-0.58|
82493987|NCT03000439|164680606|OTHER||Difference in LS Mean|0.06|||||TWO_SIDED|95.0|-0.53|0.65||||||DB at Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.65|-0.53|
82493988|NCT03000439|164680606|OTHER||Difference in LS Mean|-0.12|||||TWO_SIDED|95.0|-0.87|0.64||||||DB at Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.64|-0.87|
82493989|NCT03000439|164680606|OTHER||Difference in LS Mean|0.21|||||TWO_SIDED|95.0|-1.13|1.54||||||DB at Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.54|-1.13|
82493990|NCT03000439|164680606|OTHER||Difference in LS Mean|0.05|||||TWO_SIDED|95.0|-1.0|1.11||||||DB at Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.11|-1.00|
82493991|NCT03000439|164680609|OTHER||Difference in LS Mean|6.0|||||TWO_SIDED|95.0|-8.35|20.36||||||CHQ01-Global Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||20.36|-8.35|
82493992|NCT03000439|164680609|OTHER||Difference in LS Mean|2.85|||||TWO_SIDED|95.0|-12.43|18.14||||||CHQ01-Global Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.14|-12.43|
82493993|NCT03000439|164680609|OTHER||Difference in LS Mean|-4.19|||||TWO_SIDED|95.0|-15.78|7.4||||||CHQ01-Physical Functioning Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||7.40|-15.78|
82493994|NCT03000439|164680609|OTHER||Difference in LS Mean|2.31|||||TWO_SIDED|95.0|-37.06|41.68||||||CHQ01-Physical Functioning Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||41.68|-37.06|
82493995|NCT03000439|164680609|OTHER||Difference in LS Mean|-5.47|||||TWO_SIDED|95.0|-17.37|6.43||||||CHQ01-Social Limitations: Emotional Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.43|-17.37|
82493996|NCT03000439|164680609|OTHER||Difference in LS Mean|6.82|||||TWO_SIDED|95.0|-20.92|34.57||||||CHQ01-Social Limitations: Emotional Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||34.57|-20.92|
82493997|NCT03000439|164680609|OTHER||Difference in LS Mean|-6.22|||||TWO_SIDED|95.0|-18.95|6.5||||||CHQ01-Social Limitations: Physical Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.50|-18.95|
82493998|NCT03000439|164680609|OTHER||Difference in LS Mean|11.09|||||TWO_SIDED|95.0|-46.24|68.42||||||CHQ01-Social Limitations: Physical Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||68.42|-46.24|
82493999|NCT03000439|164680609|OTHER||Difference in LS Mean|-1.45|||||TWO_SIDED|95.0|-13.97|11.06||||||CHQ01-Bodily Pain Subscale Standardized Score: DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||11.06|-13.97|
82494000|NCT03000439|164680609|OTHER||Difference in LS Mean|17.2|||||TWO_SIDED|95.0|-28.01|62.41||||||CHQ01-Bodily Pain Subscale Standardized Score: DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||62.41|-28.01|
82494001|NCT03000439|164680609|OTHER||Difference in LS Mean|-5.15|||||TWO_SIDED|95.0|-13.24|2.93||||||CHQ01-Behavior Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||2.93|-13.24|
82494002|NCT03000439|164680609|OTHER||Difference in LS Mean|-15.03|||||TWO_SIDED|95.0|-33.12|3.06||||||CHQ01-Behavior Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||3.06|-33.12|
82494003|NCT03000439|164680609|OTHER||Difference in LS Mean|-5.32|||||TWO_SIDED|95.0|-16.92|6.29||||||CHQ01-Global Behavior Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||6.29|-16.92|
82499563|NCT02670083|164689856|SUPERIORITY||Least Squares Mean Difference|0.94|STANDARD_ERROR_OF_MEAN|2.222|||TWO_SIDED|95.0|-3.45|5.32||||||||5.32|-3.45|
82494004|NCT03000439|164680609|OTHER||Difference in LS Mean|-7.24|||||TWO_SIDED|95.0|-20.35|5.87||||||CHQ01-Global Behavior Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||5.87|-20.35|
82494005|NCT03000439|164680609|OTHER||Difference in LS Mean|4.44|||||TWO_SIDED|95.0|-6.18|15.07||||||CHQ01-Mental Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||15.07|-6.18|
82494006|NCT03000439|164680609|OTHER||Difference in LS Mean|-7.46|||||TWO_SIDED|95.0|-24.37|9.45||||||CHQ01-Mental Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||9.45|-24.37|
82494007|NCT03000439|164680609|OTHER||Difference in LS Mean|-0.01|||||TWO_SIDED|95.0|-9.14|9.13||||||CHQ01-Self Esteem Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||9.13|-9.14|
82494008|NCT03000439|164680609|OTHER||Difference in LS Mean|-7.59|||||TWO_SIDED|95.0|-33.87|18.7||||||CHQ01-Self Esteem Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.70|-33.87|
82494009|NCT03000439|164680609|OTHER||Difference in LS Mean|4.98|||||TWO_SIDED|95.0|-4.81|14.77||||||CHQ01-General Health Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||14.77|-4.81|
82494010|NCT03000439|164680609|OTHER||Difference in LS Mean|-1.02|||||TWO_SIDED|95.0|-20.31|18.28||||||CHQ01-General Health Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||18.28|-20.31|
82494011|NCT03000439|164680609|OTHER||Difference in LS Mean|-0.03|||||TWO_SIDED|95.0|-0.4|0.33||||||CHQ01-Change in Health Subscale Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.33|-0.40|
82494012|NCT03000439|164680609|OTHER||Difference in LS Mean|0.48|||||TWO_SIDED|95.0|-0.68|1.65||||||CHQ01-Change in Health Subscale Score; DB Week48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.65|-0.68|
82494013|NCT03000439|164680609|OTHER||Difference in LS Mean|2.25|||||TWO_SIDED|95.0|-10.59|15.1||||||CHQ01-Emotional Impact on Parent Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||15.10|-10.59|
82494014|NCT03000439|164680609|OTHER||Difference in LS Mean|-25.07|||||TWO_SIDED|95.0|-60.96|10.82||||||CHQ01-Emotional Impact on Parent Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||10.82|-60.96|
82494015|NCT03000439|164680609|OTHER||Difference in LS Mean|1.87|||||TWO_SIDED|95.0|-13.55|17.29||||||CHQ01-Time Impact on Parent Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||17.29|-13.55|
82494016|NCT03000439|164680609|OTHER||Difference in LS Mean|-9.19|||||TWO_SIDED|95.0|-48.91|30.53||||||CHQ01-Time Impact on Parent Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||30.53|-48.91|
82494017|NCT03000439|164680609|OTHER||Difference in LS Mean|-3.97|||||TWO_SIDED|95.0|-12.84|4.9||||||CHQ01-Family Activities Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||4.90|-12.84|
82494018|NCT03000439|164680609|OTHER||Difference in LS Mean|-9.3|||||TWO_SIDED|95.0|-32.35|13.75||||||CHQ01-Family Activities Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||13.75|-32.35|
82494019|NCT03000439|164680609|OTHER||Difference in LS Mean|-3.52|||||TWO_SIDED|95.0|-14.84|7.81||||||CHQ01-Family Cohesion Subscale Standardized Score; DB Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||7.81|-14.84|
82494020|NCT03000439|164680609|OTHER||Difference in LS Mean|-20.42|||||TWO_SIDED|95.0|-79.03|38.18||||||CHQ01-Family Cohesion Subscale Standardized Score; DB Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||38.18|-79.03|
82494021|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.24|||||TWO_SIDED|95.0|-1.02|0.54||||||CHAQ-Discomfort Index at Week 4: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.54|-1.02|
82494022|NCT03000439|164680612|OTHER||Difference in LS Mean|0.54|||||TWO_SIDED|95.0|-0.49|1.57||||||CHAQ-Discomfort Index at Week 8: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.57|-0.49|
82499564|NCT02670083|164689862|SUPERIORITY||Least Squares Mean Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.116|||TWO_SIDED|95.0|-0.24|0.22||||||||0.22|-0.24|
82494023|NCT03000439|164680612|OTHER||Difference in LS Mean|0.47|||||TWO_SIDED|95.0|-1.01|0.9||||||CHAQ-Discomfort Index at Week 12: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.90|-1.01|
82494024|NCT03000439|164680612|OTHER||Difference in LS Mean|0.55|||||TWO_SIDED|95.0|-0.49|1.58||||||CHAQ-Discomfort Index at Week 16: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.58|-0.49|
82494025|NCT03000439|164680612|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-0.98|1.45||||||CHAQ-Discomfort Index at Week 20: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.45|-0.98|
82494026|NCT03000439|164680612|OTHER||Difference in LS Mean|0.32|||||TWO_SIDED|95.0|-0.51|1.14||||||CHAQ-Discomfort Index at Week 24: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.14|-0.51|
82494027|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.42|||||TWO_SIDED|95.0|-1.87|1.03||||||CHAQ-Discomfort Index at Week 28: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.03|-1.87|
82494028|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.33|||||TWO_SIDED|95.0|-1.53|0.88||||||CHAQ-Discomfort Index at Week 32: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.88|-1.53|
82494029|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.31|||||TWO_SIDED|95.0|-1.36|0.74||||||CHAQ-Discomfort Index at Week 36: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.74|-1.36|
82494030|NCT03000439|164680612|OTHER||Difference in LS Mean|0.07|||||TWO_SIDED|95.0|-0.55|0.69||||||CHAQ-Discomfort Index at Week 40: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.55|
82494031|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.31|||||TWO_SIDED|95.0|-1.01|0.39||||||CHAQ-Discomfort Index at Week 44: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.39|-1.01|
82494032|NCT03000439|164680612|OTHER||Difference in LS Mean|0.23|||||TWO_SIDED|95.0|-1.45|1.92||||||CHAQ-Discomfort Index at Week 48: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||1.92|-1.45|
82494033|NCT03000439|164680612|OTHER||Difference in LS Mean|-0.09|||||TWO_SIDED|95.0|-0.87|0.69||||||CHAQ-Discomfort Index at Week 52: Analysis performed using MMRM which included the fixed effect of treatment, visit, treatment by visit interaction, Double-Blind baseline value, and Double-Blind baseline value by visit interaction.||0.69|-0.87|
82494034|NCT03000439|164680621|OTHER||Difference in percentage|-30.18|||||TWO_SIDED|95.0|-53.43|-6.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||-6.94|-53.43|
82494035|NCT03000439|164680621|OTHER||Difference in percentage|-23.39|||||TWO_SIDED|95.0|-47.19|0.42|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||0.42|-47.19|
82494036|NCT03000439|164680621|OTHER||Difference in percentage|-0.12|||||TWO_SIDED|95.0|-23.99|23.76|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||23.76|-23.99|
82494037|NCT03000439|164680621|OTHER||Difference in percentage|6.68|||||TWO_SIDED|95.0|-17.2|30.56|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||30.56|-17.20|
82494038|NCT03000439|164680621|OTHER||Difference in percentage|13.13|||||TWO_SIDED|95.0|-9.92|36.19|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||36.19|-9.92|
82494039|NCT03000439|164680621|OTHER||Difference in percentage|0.23|||||TWO_SIDED|95.0|-24.24|24.7|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||24.70|-24.24|
82494040|NCT03000439|164680621|OTHER||Difference in percentage|3.46|||||TWO_SIDED|95.0|-20.75|27.66|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||27.66|-20.75|
82494041|NCT03000439|164680621|OTHER||Difference in percentage|5.99|||||TWO_SIDED|95.0|-16.29|28.28|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||28.28|-16.29|
82494042|NCT03000439|164680621|OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-20.92|28.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||28.52|-20.92|
82494043|NCT03000439|164680621|OTHER||Difference in percentage|10.25|||||TWO_SIDED|95.0|-13.88|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||34.39|-13.88|
82494044|NCT03000439|164680621|OTHER||Difference in percentage|20.62|||||TWO_SIDED|95.0|-3.43|44.67|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||44.67|-3.43|
82494045|NCT03000439|164680621|OTHER||Difference in percentage|20.62|||||TWO_SIDED|95.0|-3.43|44.67|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||44.67|-3.43|
82494046|NCT03000439|164680621|OTHER||Difference in percentage|17.4|||||TWO_SIDED|95.0|-7.03|41.82|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||41.82|-7.03|
82494047|NCT03000439|164680622|OTHER||Difference in percentage|-26.61|||||TWO_SIDED|95.0|-50.42|-2.81|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||-2.81|-50.42|
82494048|NCT03000439|164680622|OTHER||Difference in percentage|-20.16|||||TWO_SIDED|95.0|-43.91|3.59|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||3.59|-43.91|
82494049|NCT03000439|164680622|OTHER||Difference in percentage|-9.79|||||TWO_SIDED|95.0|-34.31|14.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||14.72|-34.31|
82494050|NCT03000439|164680622|OTHER||Difference in percentage|0.23|||||TWO_SIDED|95.0|-24.24|24.7|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||24.70|-24.24|
82494051|NCT03000439|164680622|OTHER||Difference in percentage|10.25|||||TWO_SIDED|95.0|-13.88|34.39|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||34.39|-13.88|
82494052|NCT03000439|164680622|OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-27.67|21.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||21.68|-27.67|
82494053|NCT03000439|164680622|OTHER||Difference in percentage|-3.0|||||TWO_SIDED|95.0|-27.67|21.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||21.68|-27.67|
82494054|NCT03000439|164680622|OTHER||Difference in percentage|-6.91|||||TWO_SIDED|95.0|-30.65|16.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||16.83|-30.65|
82494055|NCT03000439|164680622|OTHER||Difference in percentage|3.8|||||TWO_SIDED|95.0|-20.92|28.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||28.52|-20.92|
82494056|NCT03000439|164680622|OTHER||Difference in percentage|7.03|||||TWO_SIDED|95.0|-17.43|31.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||31.48|-17.43|
82494057|NCT03000439|164680622|OTHER||Difference in percentage|17.74|||||TWO_SIDED|95.0|-7.03|42.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||42.52|-7.03|
82494058|NCT03000439|164680622|OTHER||Difference in percentage|14.52|||||TWO_SIDED|95.0|-10.52|39.55|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||39.55|-10.52|
82494059|NCT03000439|164680622|OTHER||Difference in percentage|17.74|||||TWO_SIDED|95.0|-7.03|42.52|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||42.52|-7.03|
82494060|NCT03000439|164680623|OTHER||Difference in percentage|-15.09|||||TWO_SIDED|95.0|-34.29|4.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||4.10|-34.29|
82494061|NCT03000439|164680623|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||4.65|-29.08|
82494062|NCT03000439|164680623|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||7.10|-25.07|
82494063|NCT03000439|164680623|OTHER||Difference in percentage|4.61|||||TWO_SIDED|95.0|-12.01|21.23|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||21.23|-12.01|
82494064|NCT03000439|164680623|OTHER||Difference in percentage|4.61|||||TWO_SIDED|95.0|-12.01|21.23|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||21.23|-12.01|
82494065|NCT03000439|164680623|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||7.10|-25.07|
82494066|NCT03000439|164680623|OTHER||Difference in percentage|-11.87|||||TWO_SIDED|95.0|-30.52|6.79|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||6.79|-30.52|
82494067|NCT03000439|164680623|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||13.94|-24.08|
82494068|NCT03000439|164680623|OTHER||Difference in percentage|-5.41|||||TWO_SIDED|95.0|-22.7|11.87|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||11.87|-22.70|
82494069|NCT03000439|164680623|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||8.61|-31.65|
82494070|NCT03000439|164680623|OTHER||Difference in percentage|-1.84|||||TWO_SIDED|95.0|-20.16|16.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||16.48|-20.16|
82494071|NCT03000439|164680623|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||9.38|-26.66|
82494072|NCT03000439|164680623|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||13.94|-24.08|
82494073|NCT03000439|164680624|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||4.65|-29.08|
82494074|NCT03000439|164680624|OTHER||Difference in percentage|-14.75|||||TWO_SIDED|95.0|-35.32|5.83|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||5.83|-35.32|
82494075|NCT03000439|164680624|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||11.32|-27.91|
82494076|NCT03000439|164680624|OTHER||Difference in percentage|1.73|||||TWO_SIDED|95.0|-17.48|20.93|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||20.93|-17.48|
82494077|NCT03000439|164680624|OTHER||Difference in percentage|1.38|||||TWO_SIDED|95.0|-16.15|18.91|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||18.91|-16.15|
82494078|NCT03000439|164680624|OTHER||Difference in percentage|-5.41|||||TWO_SIDED|95.0|-22.7|11.87|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||11.87|-22.70|
82494079|NCT03000439|164680624|OTHER||Difference in percentage|-11.87|||||TWO_SIDED|95.0|-30.52|6.79|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||6.79|-30.52|
82494080|NCT03000439|164680624|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||13.94|-24.08|
82494081|NCT03000439|164680624|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||9.38|-26.66|
82494082|NCT03000439|164680624|OTHER||Difference in percentage|-11.52|||||TWO_SIDED|95.0|-31.65|8.61|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||8.61|-31.65|
82494083|NCT03000439|164680624|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||11.32|-27.91|
82494084|NCT03000439|164680624|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||11.32|-27.91|
82494085|NCT03000439|164680624|OTHER||Difference in percentage|-5.07|||||TWO_SIDED|95.0|-24.08|13.94|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||13.94|-24.08|
82494086|NCT03000439|164680627|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 4||7.10|-25.07|
82494087|NCT03000439|164680627|OTHER||Difference in percentage|-19.01|||||TWO_SIDED|95.0|-35.25|-2.76|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 8||-2.76|-35.25|
82494088|NCT03000439|164680627|OTHER||Difference in percentage|-15.44|||||TWO_SIDED|95.0|-32.98|2.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 12||2.10|-32.98|
82494089|NCT03000439|164680627|OTHER||Difference in percentage|-12.56|||||TWO_SIDED|95.0|-27.22|2.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 16||2.10|-27.22|
82494090|NCT03000439|164680627|OTHER||Difference in percentage|-8.99|||||TWO_SIDED|95.0|-25.07|7.1|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 20||7.10|-25.07|
82494091|NCT03000439|164680627|OTHER||Difference in percentage|-12.21|||||TWO_SIDED|95.0|-29.08|4.65|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 24||4.65|-29.08|
82494092|NCT03000439|164680627|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 28||9.38|-26.66|
82494093|NCT03000439|164680627|OTHER||Difference in percentage|-8.64|||||TWO_SIDED|95.0|-26.66|9.38|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 32||9.38|-26.66|
82494094|NCT03000439|164680627|OTHER||Difference in percentage|-1.84|||||TWO_SIDED|95.0|-20.16|16.48|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 36||16.48|-20.16|
82494095|NCT03000439|164680627|OTHER||Difference in percentage|-4.72|||||TWO_SIDED|95.0|-25.17|15.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 40||15.72|-25.17|
82494096|NCT03000439|164680627|OTHER||Difference in percentage|-8.29|||||TWO_SIDED|95.0|-27.91|11.32|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 44||11.32|-27.91|
82494097|NCT03000439|164680627|OTHER||Difference in percentage|-4.72|||||TWO_SIDED|95.0|-25.17|15.72|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 48||15.72|-25.17|
82494098|NCT03000439|164680627|OTHER||Difference in percentage|2.07|||||TWO_SIDED|95.0|-18.53|22.68|||||The normal approximation to the difference in binomial proportions was used to generate 95% CI for the difference in percentage.|DB Week 52||22.68|-18.53|
82494099|NCT02370160|164680635|OTHER||||||||||||||||||In Phase I: There were 9 subjects treated on dose level 1 (60 µg/kg/dose). There were 6 subjects treated on Dose level 2 (80 µg/kg/dose). There were four DLT events happened in Phase I. One was treated on dose level 1 and the other three were treated on dose level 2. Therefore the MTD was dose level 1.|||
82494100|NCT05275400|164680660|NON_INFERIORITY|Noninferiority margin (NIM) was 0.4%|LS Mean Difference|-0.089|||||TWO_SIDED|95.0|-0.191|0.013||||||||0.013|-0.191|
82494101|NCT05275400|164680661|SUPERIORITY||LS Mean Difference|-0.089||||0.088|TWO_SIDED|95.0|-0.191|0.013|||ANCOVA|||||0.013|-0.191|0.088
82494102|NCT05275400|164680662|SUPERIORITY||Relative rate|1.03||||0.897|TWO_SIDED|95.0|0.62|1.74|||Negative binomial model|||||1.74|0.62|0.897
82494103|NCT05275400|164680663|SUPERIORITY||LS Mean Difference|0.42||||0.722|TWO_SIDED|95.0|-1.88|2.72|||ANCOVA|||||2.72|-1.88|0.722
82494104|NCT05275400|164680664|SUPERIORITY||LS Mean Difference|-0.84||||0.605|TWO_SIDED|95.0|-4.01|2.33|||ANCOVA|||||2.33|-4.01|0.605
82494105|NCT05275400|164680665|SUPERIORITY||LS Mean Difference|-30.0||||0.003|TWO_SIDED|95.0|-50.1|-9.97|||Mixed Models Analysis|||||-9.97|-50.10|0.003
82494106|NCT05275400|164680666|SUPERIORITY||Relative rate|1.14||||0.43|TWO_SIDED|95.0|0.83|1.56|||Negative binomial model|||||1.56|0.83|0.430
82494107|NCT05275400|164680667|SUPERIORITY||LS Mean Difference|0.071||||0.756|TWO_SIDED|95.0|-0.38|0.52|||Mixed Models Analysis|||||0.52|-0.38|0.756
82494108|NCT05275400|164680668|SUPERIORITY||LS Mean Difference|0.14||||0.021|TWO_SIDED|95.0|0.02|0.27|||ANCOVA|||||0.27|0.02|0.021
82494109|NCT05275400|164680669|SUPERIORITY||LS Mean Difference|-0.99||||0.417|TWO_SIDED|95.0|-3.37|1.4|||ANCOVA|||||1.40|-3.37|0.417
82494110|NCT05275400|164680670|SUPERIORITY||LS Mean Difference|3.15|||<|0.001|TWO_SIDED|95.0|1.71|4.59|||Mixed Models Analysis|||Week 26||4.59|1.71|<0.001
82494111|NCT05275400|164680670|SUPERIORITY||LS Mean Difference|3.56|||<|0.001|TWO_SIDED|95.0|2.05|5.07|||Mixed Models Analysis|||Week 52||5.07|2.05|<0.001
82494112|NCT05275400|164680670|SUPERIORITY||LS Mean Difference|3.35|||<|0.001|TWO_SIDED|95.0|1.75|4.94|||Mixed Models Analysis|||Week 78||4.94|1.75|<0.001
82494113|NCT05587296|164680687|SUPERIORITY||Diffrence in Least Squares (LS) means|-3.48|STANDARD_ERROR_OF_MEAN|0.44|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|Mixed model repeated measures (MMRM)|||||||<0.0001
82494114|NCT05587296|164680688|SUPERIORITY||Difference in Least Squares Means|-3.38|STANDARD_ERROR_OF_MEAN|0.43|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
82494115|NCT05587296|164680693|SUPERIORITY||Difference in Least Squares Means|-6.12|STANDARD_ERROR_OF_MEAN|0.7|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
82494116|NCT05587296|164680694|SUPERIORITY||Difference in Last Squares Means|-0.68|STANDARD_ERROR_OF_MEAN|0.1|<|0.0001|ONE_SIDED|||||One-sided. A multiplicity adjustment strategy was defined using the hierarchical testing strategy, controlling the overall type I error rate at a one-sided alpha level of 0.025 for confirmatory statistical superiority testing.|MMRM|||||||<0.0001
82494117|NCT00044083|164680722|OTHER||||||<|0.0001||||||Diagnosis effect on placebo|ANOVA|||||||<0.0001
82494118|NCT00044083|164680722|OTHER|||||||0.0034||||||Drug Effect on Patients|ANOVA|||||||0.0034
82494119|NCT00044083|164680723|OTHER||||||<|0.0001||||||Diagnosis Effect on Placebo in right DLPFC|ANOVA|||||||<0.0001
82494120|NCT00044083|164680723|OTHER|||||||0.014||||||Diagnosis Effect of Placebo in left DLPFC|ANOVA|||||||0.014
82494121|NCT00044083|164680724|OTHER|||||||0.05||||||Drug Effect across both groups in left DLPFC|ANOVA|||||||0.05
82494122|NCT00044083|164680724|OTHER|||||||0.32||||||Drug Effect across both groups in right DLPFC|ANOVA|||||||0.32
82494123|NCT00044083|164680725|OTHER|||||||0.05||||||The Effect of Drug on Patients with Schizophrenia in right DLPFC|t-test, 1 sided|||||||0.05
82494124|NCT00044083|164680725|OTHER|||||||0.078||||||Effect of Drug on Patients with Schizophrenia in left DLPFC|t-test, 1 sided|||||||0.078
82494125|NCT00044083|164680726|OTHER|||||||0.05||||||Drug Effect on Healthy Volunteers in left DLPFC|t-test, 1 sided|||||||0.05
82494126|NCT00044083|164680726|OTHER|||||||0.73||||||Drug Effect on Healthy Volunteers in right DLPFC|t-test, 1 sided|||||||0.73
82494127|NCT00044083|164680727|OTHER||||||<|0.0001|||||||ANOVA|Main Effect of Genotype across both Placebo and Tolcapone in right DLPFC||||||<0.0001
82494128|NCT00044083|164680727|OTHER|||||||0.167|||||||ANOVA|Main Effect of Genotype across both Placebo and Tolcapone in left DLPFC||||||0.167
82494129|NCT00044083|164680728|OTHER|||||||0.189||||||Drug by Genotype Effect in left DLPFC|ANOVA|||||||0.189
82494130|NCT00044083|164680728|OTHER|||||||0.041||||||Drug Effect on Val/Val Genotype in left DLPFC|t-test, 1 sided|||||||0.041
82494131|NCT00044083|164680728|OTHER|||||||0.718||||||Drug Effect on Val/Met Genotype in left DLPFC|t-test, 1 sided|||||||0.718
82494132|NCT00044083|164680728|OTHER|||||||0.469||||||Drug Effect of Met/Met Genotype in left DLPFC|t-test, 1 sided|||||||0.469
82494133|NCT00044083|164680729|OTHER|||||||0.7||||||Drug Effect on Positive Syndrome for Patients|t-test, 1 sided|||||||0.7
82494134|NCT00044083|164680729|OTHER|||||||0.4||||||Drug Effect on Negative Syndrome for Patients|t-test, 1 sided|||||||0.4
82494135|NCT00044083|164680729|OTHER|||||||0.12||||||Drug Effect on General Pathology for Patients|t-test, 1 sided|||||||0.12
82499052|NCT03978520|164689008|SUPERIORITY||Response Rate Difference|12.8|||=|0.081|TWO_SIDED|95.0|-1.6|27.1|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||27.1|-1.6|=0.081
82499565|NCT02670083|164689863|SUPERIORITY||Least Squares Mean Difference|-1.28|STANDARD_ERROR_OF_MEAN|1.245|||TWO_SIDED|95.0|-3.72|1.17||||||||1.17|-3.72|
82499566|NCT02670083|164689864|SUPERIORITY||Least Squares Mean Difference|0.39|STANDARD_ERROR_OF_MEAN|0.253|||TWO_SIDED|95.0|-0.1|0.89||||||||0.89|-0.10|
82494136|NCT00289991|164680735|NON_INFERIORITY_OR_EQUIVALENCE|Assuming a true success rate of 50% in voriconazole (Vori) treatment (Tx) group and 45% in itraconazole (Itra) Tx group, sample size of 232 subjects per group=90% power to demonstrate non-inferiority of Vori to Itra using pre-specified non-inferiority margin of -10%. Sample has at least 80% power to demonstrate superiority of Vori over Itra if true success rates for Vori and Itra are 57% and 44% respectively. Based on this, up to 500 subjects were to be enrolled to obtain 464 eligible subjects.|percent difference adjusted proportions|16.4|||||TWO_SIDED|95.0|7.7|25.1|||Difference in adjusted responder rates|Difference in adjusted responder rates using Fleiss method|Overall treatment difference in adjusted proportions (expressed as percentages) calculated using Fleiss method.|"Non-inferiority inferred if lower limit of the 2-sided 95 percent (%) confidence interval (CI) for the difference between the voriconazole and itraconazole treatment groups in the adjusted proportion of subjects classified as Success at Day 180 after transplant is above -10%. Superiority achieved if 2-sided 95% CI for difference between these treatment groups in the adjusted proportion of subjects classified as Success at Day 180 after transplant does not include zero and is positive."||25.1|7.7|
82494137|NCT00289991|164680736|NON_INFERIORITY_OR_EQUIVALENCE|"Non-inferiority inferred if lower limit of the 2-sided 95% confidence interval (CI) for the difference between the voriconazole and itraconazole treatment groups in the adjusted proportion of subjects classified as Success at Day 100 after transplant is above -10%. Superiority achieved if 2-sided 95% CI for difference between these treatment groups in the adjusted proportion of subjects classified as Success at Day 100 after transplant does not include zero and is positive."|percent difference adjusted proportions|15.4|||||TWO_SIDED|95.0|6.6|24.2|||Difference in adjusted responder rates|Difference in adjusted responder rates using the Fleiss method.|Overall treatment difference in adjusted proportions (expressed as percentages) calculated using Fleiss method.|||24.2|6.6|
82494138|NCT00289991|164680738|SUPERIORITY_OR_OTHER||difference in proportions: percent|-0.4||||0.7114|TWO_SIDED|95.0|-2.2|1.5|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95 percent (%) confidence interval for the difference in proportions.|Day 100; difference in proportions (expressed as percentages), voriconazole relative to itraconazole.||1.5|-2.2|0.7114
82494139|NCT00289991|164680738|SUPERIORITY_OR_OTHER||difference in proportion: percent|-0.3||||0.7759|TWO_SIDED|95.0|-2.5|1.9|||Difference in proportions|Difference in proportions (approximate result).|Approximate 2-sided 95 percent (%) confidence interval for the difference in proportions.|Day 180; difference in proportions (expressed as percentages), voriconazole relative to itraconazole.||1.9|-2.5|0.7759
82494140|NCT00289991|164680739|SUPERIORITY_OR_OTHER||difference in proportions: percent|0.3|||||TWO_SIDED|95.0|-6.3|6.9|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95% confidence interval for the difference in proportions.|Day 180; difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||6.9|-6.3|
82494141|NCT00289991|164680740|SUPERIORITY_OR_OTHER|||||||0.0026||95.0|||||Wilcoxon (Mann-Whitney)|2-sided Wilcoxon (Mann-Whitney)||Mann-Whitney test used to investigate the null hypothesis that the times to discontinuation of study medication in each treatment group come from the same distribution.||||0.0026
82494142|NCT00289991|164680741|SUPERIORITY_OR_OTHER||difference in proportions: percent|-4.8||||0.2487|TWO_SIDED|95.0|-13.0|3.4|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95 percent % confidence interval for the difference in proportions.|Day 365; difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||3.4|-13.0|0.2487
82494143|NCT00289991|164680743|SUPERIORITY_OR_OTHER||difference in proportions: percent|-8.8||||0.057|TWO_SIDED|95.0|-17.8|0.3|||Difference in proportions|Difference in proportions (approximate result)|Approximate 2-sided 95% confidence interval for the difference in proportions.|Difference in proportions (expressed as a percentage), voriconazole relative to itraconazole.||0.3|-17.8|0.0570
82494144|NCT00332163|164680778|SUPERIORITY_OR_OTHER||Difference|-33.0|||||TWO_SIDED|95.0|-51.0|-14.0|||||Difference = Pre-emptive - Reactive|||-14|-51|
82494145|NCT00332163|164680779|SUPERIORITY_OR_OTHER||Difference|-22.0|||||TWO_SIDED|95.0|-42.0|-3.0|||||Difference = Pre-emptive - Reactive|||-3|-42|
82494146|NCT00332163|164680780|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (pre-emptive vs. reactive), stratified by chemotherapy stratum (Q2W vs Q3W).|||0.7|0.2|
82494147|NCT00332163|164680782|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.4|||||TWO_SIDED|95.0|0.2|0.7|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||0.7|0.2|
82494148|NCT00332163|164680783|SUPERIORITY_OR_OTHER||Difference|-4.0|||||TWO_SIDED|95.0|-16.0|7.0|||||Difference = Pre-emptive - Reactive|||7|-16|
82494149|NCT00332163|164680784|SUPERIORITY_OR_OTHER||Difference|0.0|||||TWO_SIDED|95.0|-10.0|10.0|||||Difference = Pre-emptive - Reactive|||10|-10|
82494150|NCT00332163|164680785|SUPERIORITY_OR_OTHER||Difference|4.0|||||TWO_SIDED|95.0|-9.0|17.0|||||Rate difference = Pre-emptive - Reactive|||17|-9|
82494151|NCT00332163|164680786|SUPERIORITY_OR_OTHER||Difference|-1.0|||||TWO_SIDED|95.0|-21.0|18.0|||||Rate difference = Pre-emptive - Reactive|||18|-21|
82494152|NCT00332163|164680787|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3|||||TWO_SIDED|95.0|0.9|2.0|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||2.0|0.9|
82494153|NCT00332163|164680788|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9|||||TWO_SIDED|95.0|0.6|1.5|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||1.5|0.6|
82494154|NCT00332163|164680789|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2|||||TWO_SIDED|95.0|0.7|2.1|||||Hazard ratio estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||2.1|0.7|
82494155|NCT00332163|164680790|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0|||||TWO_SIDED|95.0|0.6|1.6|||||Hazard ratio is estimated from a Cox Proportional Hazards regression model with an indicator for treatment (Pre-emptive vs. Reactive) stratified by chemotherapy stratum (Q2W vs Q3W).|||1.6|0.6|
82494156|NCT02621060|164680792|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|0.05|STANDARD_DEVIATION|2.0||0.004|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.004
82494157|NCT02621060|164680793|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
82494158|NCT02621060|164680794|SUPERIORITY_OR_OTHER|||||||0.755|||||||Wilcoxon (Mann-Whitney)|||||||0.755
82494159|NCT02621060|164680795|SUPERIORITY_OR_OTHER|||||||0.03|||||||Wilcoxon (Mann-Whitney)|||||||0.03
82494160|NCT02621060|164680796|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
82494161|NCT02621060|164680797|SUPERIORITY_OR_OTHER|||||||0.004|||||||Wilcoxon (Mann-Whitney)|||||||0.004
82494162|NCT02621060|164680799|SUPERIORITY_OR_OTHER|||||||0.074|||||||Wilcoxon (Mann-Whitney)|||||||0.074
82494163|NCT02621060|164680800|SUPERIORITY_OR_OTHER|||||||0.022|||||||Wilcoxon (Mann-Whitney)|||||||0.022
82494164|NCT02621060|164680801|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.022|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||||||0.022
82494165|NCT02621060|164680802|SUPERIORITY||Mean Difference (Final Values)|0.05||||0.022|TWO_SIDED|5.0|||||Wilcoxon (Mann-Whitney)|||||||0.022
82494166|NCT02621060|164680803|SUPERIORITY_OR_OTHER|||||||0.594|||||||Wilcoxon (Mann-Whitney)|||||||0.594
82494167|NCT02621060|164680804|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||0.42
82494168|NCT02621060|164680805|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82494169|NCT02621060|164680806|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82494170|NCT02621060|164680807|SUPERIORITY_OR_OTHER|||||||0.059|||||||Wilcoxon (Mann-Whitney)|||||||0.059
82494171|NCT02621060|164680808|SUPERIORITY_OR_OTHER|||||||0.049|||||||Wilcoxon (Mann-Whitney)|||||||0.049
82494172|NCT02621060|164680809|SUPERIORITY_OR_OTHER|||||||0.002|||||||Wilcoxon (Mann-Whitney)|||||||0.002
82494173|NCT02621060|164680810|SUPERIORITY_OR_OTHER|||||||0.376|||||||Wilcoxon (Mann-Whitney)|||||||0.376
82494174|NCT02621060|164680811|SUPERIORITY_OR_OTHER|||||||0.472|||||||Wilcoxon (Mann-Whitney)|||||||0.472
82494175|NCT02621060|164680812|SUPERIORITY_OR_OTHER|||||||0.774|||||||Wilcoxon (Mann-Whitney)|||||||0.774
82494176|NCT02621060|164680813|SUPERIORITY_OR_OTHER|||||||0.637|||||||Wilcoxon (Mann-Whitney)|||||||0.637
82494177|NCT02340975|164680821|OTHER|Comparison|Mean Difference (Net)|11.1||||0.2376|TWO_SIDED|95.0|-0.7|23.0|||Fisher Exact|||||23.0|-0.7|0.2376
82494178|NCT02340975|164680821|OTHER|Comparison|Median Difference (Net)|2.8||||1|TWO_SIDED|95.0|-16.8|22.4|||Fisher Exact|||||22.4|-16.8|1.0000
82494179|NCT03066804|164680868|SUPERIORITY||Geometric Mean Ratio|0.8362|||<|0.0001|TWO_SIDED|95.0|0.7987|0.8754|||Mixed Models Analysis|||Week 12||0.8754|0.7987|<0.0001
82494180|NCT03066804|164680869|SUPERIORITY||Mean Difference (Net)|-2.4985||||0.4164|TWO_SIDED|95.0|-8.5267|3.52297|||Mixed Models Analysis|||||3.52297|-8.5267|0.4164
82494181|NCT03066804|164680870|SUPERIORITY||Mean Difference (Net)|0.5231||||0.4791|TWO_SIDED|95.0|-0.9258|1.972|||Mixed Models Analysis|||||1.9720|-0.9258|0.4791
82494182|NCT03066804|164680871|SUPERIORITY||Odds Ratio (OR)|0.8993||||0.5294|TWO_SIDED|95.0|0.6461|1.2518|||longitudinal binary logistic regression|||||1.2518|0.6461|0.5294
82494183|NCT03066804|164680872|SUPERIORITY||Odds Ratio (OR)|1.106||||0.4938|TWO_SIDED|95.0|0.8287|1.476|||longitudinal binary logistic regression|||||1.4760|0.8287|0.4938
82494184|NCT03066804|164680873|SUPERIORITY||Odds Ratio (OR)|0.9798||||0.8314|TWO_SIDED|95.0|0.8122|1.182|||Proportional cumulative odds model|||||1.1820|0.8122|0.8314
82494185|NCT03066804|164680874|SUPERIORITY||Mean Difference (Net)|-0.157||||0.637||95.0|-0.8093|0.4953|||Mixed Models Analysis|||||0.4953|-0.8093|0.6370
82494186|NCT00555971|164680879|EQUIVALENCE|This was a statistical analysis to address the null hypothesis that there was no difference between treatment and placebo groups.||||||0.036|||||||Fisher Exact|||||||0.036
82494187|NCT03982368|164680881|SUPERIORITY||least square mean difference|0.93||||0.078|TWO_SIDED|95.0|-1.47|3.32|||ANOVA|||The primary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||3.32|-1.47|0.078
82494188|NCT03982368|164680881|SUPERIORITY||least square mean difference|2.31||||0.066|TWO_SIDED|95.0|-0.08|4.7|||ANOVA|||The primary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||4.70|-0.08|0.066
82494189|NCT03982368|164680882|SUPERIORITY||Least square mean difference|1.71||||0.032|TWO_SIDED|95.0|-0.7|4.12|||ANOVA|||||4.12|-0.70|0.032
82494190|NCT03982368|164680882|SUPERIORITY||Least square mean difference|2.44||||0.029|TWO_SIDED|95.0|0.02|4.86|||ANOVA|||||4.86|0.02|0.029
82494191|NCT03982368|164680883|SUPERIORITY|||||||0.534|||||||t-test, 2 sided|||||||0.534
82494192|NCT03982368|164680883|SUPERIORITY|||||||0.611|||||||t-test, 2 sided|||||||0.611
82494193|NCT03982368|164680884|SUPERIORITY|||||||0.486|||||||t-test, 2 sided|||||||0.486
82494194|NCT03982368|164680884|SUPERIORITY|||||||0.564|||||||t-test, 2 sided|||||||0.564
82494195|NCT03982368|164680886|SUPERIORITY|||||||0.81|||||||t-test, 2 sided|||||||0.810
82494196|NCT03982368|164680886|SUPERIORITY|||||||0.733|||||||t-test, 2 sided|||||||0.733
82494197|NCT03982368|164680887|SUPERIORITY||Least square mean difference|1.97||||0.025|TWO_SIDED|95.0|-0.19|4.13|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||4.13|-0.19|0.025
82494198|NCT03982368|164680887|SUPERIORITY||Least square mean difference|0.68||||0.243|TWO_SIDED|95.0|-1.48|2.83|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||2.83|-1.48|0.243
82494199|NCT03982368|164680888|SUPERIORITY||Least square mean difference|2.41||||0.007|TWO_SIDED|95.0|0.28|4.54|||ANOVA|||||4.54|0.28|0.007
82494200|NCT03982368|164680888|SUPERIORITY||Least square mean difference|0.71||||0.23|TWO_SIDED|95.0|-1.43|2.85|||ANOVA|||||2.85|-1.43|0.230
82494201|NCT03982368|164680889|SUPERIORITY||Least square mean difference|-1.16||||0.799|TWO_SIDED|95.0|-3.11|0.8|||ANOVA|Last Observation Carried Forward (LOCF) was used for imputing missing data in the Full analysis set at Week 4.||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||0.80|-3.11|0.799
82494202|NCT03982368|164680889|SUPERIORITY||Least square mean difference|-0.36||||0.715|TWO_SIDED|95.0|-2.3|1.59|||ANOVA|||The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.||1.59|-2.30|0.715
82494203|NCT03982368|164680890|SUPERIORITY||Least square mean difference|-1.54||||0.831|TWO_SIDED|95.0|-3.4|0.31|||ANOVA|||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||0.31|-3.40|0.831
82494204|NCT03982368|164680890|SUPERIORITY||Least square mean difference|-0.21||||0.75|TWO_SIDED|95.0|-2.07|1.66|||ANOVA|||"The secondary endpoint was analyzed using analysis of variance (ANOVA) including only treatment as the main factor, followed by preplanned comparisons from vehicle and rhNGF dosages according to Williams' procedure.~p value for total corneal ancd conjunctival score is reported."||1.66|-2.07|0.750
82494205|NCT03982368|164680891|SUPERIORITY||Least square mean difference|0.96||||0.004|TWO_SIDED|95.0|0.17|1.75|||ANOVA|||||1.75|0.17|0.004
82494206|NCT03982368|164680891|SUPERIORITY||Least square mean difference|0.28||||0.217|TWO_SIDED|95.0|-0.51|1.07|||ANOVA|||||1.07|-0.51|0.217
82494207|NCT03982368|164680892|SUPERIORITY||Least square mean difference|0.92||||0.007|TWO_SIDED|95.0|0.1|1.74|||ANOVA|||||1.74|0.10|0.007
82494208|NCT03982368|164680892|SUPERIORITY||Least square mean difference|0.28||||0.225|TWO_SIDED|95.0|-0.54|1.1|||ANOVA|||||1.10|-0.54|0.225
82494209|NCT03982368|164680893|SUPERIORITY|||||||0.68|||||||t-test, 2 sided|||||||0.680
82494210|NCT03982368|164680893|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||0.066
82494211|NCT03982368|164680894|SUPERIORITY|||||||0.097|||||||Chi-squared|||||||0.097
82494212|NCT03982368|164680894|SUPERIORITY|||||||0.076|||||||Chi-squared|||||||0.076
82494213|NCT03982368|164680895|SUPERIORITY||Least square mean difference|16.4||||0.289|TWO_SIDED|95.0|12.0|20.8|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||20.8|12.0|0.289
82494214|NCT03982368|164680895|SUPERIORITY||Least square mean difference|19.7||||0.032|TWO_SIDED|95.0|15.4|24.0|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||24.0|15.4|0.032
82494215|NCT03982368|164680895|SUPERIORITY||Least square mean difference|16.4||||0.095|TWO_SIDED|95.0|11.9|20.8|||ANOVA|||Daily Activity Limitations - change to baseline to week 8||20.8|11.9|0.095
82494216|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.5||||0.282|TWO_SIDED|95.0|10.1|18.8|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||18.8|10.1|0.282
82494217|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.0||||0.169|TWO_SIDED|95.0|10.6|19.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||19.4|10.6|0.169
82494218|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.4||||0.129|TWO_SIDED|95.0|11.1|19.7|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||19.7|11.1|0.129
82494219|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.0||||0.111|TWO_SIDED|95.0|9.7|18.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.4|9.7|0.111
82494220|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.0||||0.107|TWO_SIDED|95.0|9.7|18.3|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.3|9.7|0.107
82494221|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.3||||0.827|TWO_SIDED|95.0|9.7|18.9|||ANOVA|||Emotional Well-Being - change from baseline to week 4||18.9|9.7|0.827
82494222|NCT03982368|164680895|SUPERIORITY||Least square mean difference|16.3||||0.688|TWO_SIDED|95.0|11.8|20.8|||ANOVA|||Emotional Well-Being - change from baseline to week 4||20.8|11.8|0.688
82494223|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.7||||0.324|TWO_SIDED|95.0|11.4|20.0|||ANOVA|||Emotional Well-Being - change from baseline to week 8||20.0|11.4|0.324
82494224|NCT03982368|164680895|SUPERIORITY||Least square mean difference|12.9||||0.949|TWO_SIDED|95.0|8.7|17.1|||ANOVA|||Emotional Well-Being - change from baseline to week 8||17.1|8.7|0.949
82494225|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.7||||0.927|TWO_SIDED|95.0|11.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 12||20.1|11.4|0.927
82494226|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.8||||0.776|TWO_SIDED|95.0|10.8|18.8|||ANOVA|||Emotional Well-Being - change from baseline to week 12||18.8|10.8|0.776
82494227|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.7||||0.418|TWO_SIDED|95.0|11.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 16||20.1|11.4|0.418
82494228|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.8||||0.613|TWO_SIDED|95.0|10.6|19.0|||ANOVA|||Emotional Well-Being - change from baseline to week 16||19.0|10.6|0.613
82494229|NCT03982368|164680895|SUPERIORITY||Least square mean difference|15.8||||0.721|TWO_SIDED|95.0|8.3|23.2|||ANOVA|||Work Limitations - change from baseline to week 4||23.2|8.3|0.721
82494230|NCT03982368|164680895|SUPERIORITY||Least square mean difference|20.6||||0.558|TWO_SIDED|95.0|13.1|28.0|||ANOVA|||Work Limitations - change from baseline to week 4||28.0|13.1|0.558
82494231|NCT03982368|164680895|SUPERIORITY||Least square mean difference|18.4||||0.809|TWO_SIDED|95.0|11.5|25.3|||ANOVA|||Work Limitations - change from baseline to week 8||25.3|11.5|0.809
82494232|NCT03982368|164680895|SUPERIORITY||Least square mean difference|19.4||||0.651|TWO_SIDED|95.0|12.4|26.4|||ANOVA|||Work Limitations - change from baseline to week 8||26.4|12.4|0.651
82494233|NCT03982368|164680895|SUPERIORITY||Least square mean difference|16.4||||0.769|TWO_SIDED|95.0|9.5|23.3|||ANOVA|||Work Limitations - change from baseline to week 12||23.3|9.5|0.769
82494234|NCT03982368|164680895|SUPERIORITY||Least square mean difference|21.3||||0.454|TWO_SIDED|95.0|14.3|28.3|||ANOVA|||Work Limitations - change from baseline to week 12||28.3|14.3|0.454
82494235|NCT03982368|164680895|SUPERIORITY||Least square mean difference|18.3||||0.564|TWO_SIDED|95.0|11.6|25.0|||ANOVA|||Work Limitations - change from baseline to week 16||25.0|11.6|0.564
82494236|NCT03982368|164680895|SUPERIORITY||Least square mean difference|21.0||||0.25|TWO_SIDED|95.0|14.1|27.8|||ANOVA|||Work Limitations - change from baseline to week 16||27.8|14.1|0.250
82494237|NCT03982368|164680895|SUPERIORITY||Least square mean difference|23.9||||0.853|TWO_SIDED|95.0|15.6|32.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||32.2|15.6|0.853
82494238|NCT03982368|164680895|SUPERIORITY||Least square mean difference|20.0||||0.393|TWO_SIDED|95.0|11.9|28.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||28.0|11.9|0.393
82494239|NCT03982368|164680895|SUPERIORITY||Least square mean difference|27.9||||0.01|TWO_SIDED|95.0|20.2|35.6|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||35.6|20.2|0.010
82494240|NCT03982368|164680895|SUPERIORITY||Least square mean difference|18.3||||0.395|TWO_SIDED|95.0|11.1|25.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||25.4|11.1|0.395
82494241|NCT03982368|164680895|SUPERIORITY||Least square mean difference|24.8||||0.068|TWO_SIDED|95.0|17.1|32.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||32.4|17.1|0.068
82494242|NCT03982368|164680895|SUPERIORITY||Least square mean difference|19.3||||0.4|TWO_SIDED|95.0|12.2|26.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||26.4|12.2|0.400
82494243|NCT03982368|164680895|SUPERIORITY||Least square mean difference|25.5||||0.021|TWO_SIDED|95.0|18.1|33.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||33.0|18.1|0.021
82494244|NCT03982368|164680895|SUPERIORITY||Least square mean difference|23.1||||0.056|TWO_SIDED|95.0|16.1|30.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||30.0|16.1|0.056
82494245|NCT03982368|164680895|SUPERIORITY||Least square mean difference|14.2||||0.981|TWO_SIDED|95.0|7.6|20.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||20.7|7.6|0.981
82494246|NCT03982368|164680895|SUPERIORITY||Least square mean difference|17.0||||0.525|TWO_SIDED|95.0|11.1|22.9|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||22.9|11.1|0.525
82494247|NCT03982368|164680895|SUPERIORITY||Least square mean difference|9.5||||0.356|TWO_SIDED|95.0|2.9|16.0|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||16.0|2.9|0.356
82494248|NCT03982368|164680895|SUPERIORITY||Least square mean difference|6.5||||0.771|TWO_SIDED|95.0|0.7|12.4|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||12.4|0.7|0.771
82494249|NCT03982368|164680895|SUPERIORITY||Least square mean difference|8.7||||0.926|TWO_SIDED|95.0|2.0|15.5|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||15.5|2.0|0.926
82494250|NCT03982368|164680895|SUPERIORITY||Least square mean difference|7.9||||0.778|TWO_SIDED|95.0|1.9|13.9|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||13.9|1.9|0.778
82494251|NCT03982368|164680895|SUPERIORITY||Least square mean difference|10.0||||0.984|TWO_SIDED||||||ANOVA|||Treatment-Related Bother - change from baseline to week 16||||0.984
82494252|NCT03982368|164680895|SUPERIORITY||Least square mean difference|7.4||||0.514|TWO_SIDED|95.0|1.6|13.1|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||13.1|1.6|0.514
82494253|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-16.6||||0.985|TWO_SIDED|95.0|-20.4|-12.8|||ANOVA|||Symptom Bother - change from baseline to week 4||-12.8|-20.4|0.985
82494254|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-17.8||||0.646|TWO_SIDED|95.0|-21.5|-14.0|||ANOVA|||Symptom Bother - change from baseline to week 4||-14.0|-21.5|0.646
82494255|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-20.7||||0.007|TWO_SIDED|95.0|-24.5|-16.9|||ANOVA|||Symptom Bother - change from baseline to week 8||-16.9|-24.5|0.007
82494256|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-16.2||||0.305|TWO_SIDED|95.0|-19.9|-12.5|||ANOVA|||Symptom Bother - change from baseline to week 8||-12.5|-19.9|0.305
82494257|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-19.0||||0.015|TWO_SIDED|95.0|-22.7|-15.4|||ANOVA|||Symptom Bother - change from baseline to week 12||-15.4|-22.7|0.015
82494258|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-18.0||||0.039|TWO_SIDED|95.0|-21.5|-14.4|||ANOVA|||Symptom Bother - change from baseline to week 12||-14.4|-21.5|0.039
82494259|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-19.7||||0.001|TWO_SIDED|95.0|-23.3|-16.0|||ANOVA|||||-16.0|-23.3|0.001
82494260|NCT03982368|164680895|SUPERIORITY||Least square mean difference|-18.9||||0.002|TWO_SIDED|95.0|-22.4|-15.3|||ANOVA|||Symptom Bother - change from baseline to week 16||-15.3|-22.4|0.002
82494261|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.8||||0.241|TWO_SIDED|95.0|12.2|21.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||21.4|12.2|0.241
82494262|NCT03982368|164680896|SUPERIORITY||Least square mean difference|19.7||||0.04|TWO_SIDED|95.0|15.1|24.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 4||24.4|15.1|0.040
82494263|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.8||||0.097|TWO_SIDED|95.0|12.3|21.4|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||21.4|12.3|0.097
82494264|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.3||||0.238|TWO_SIDED|95.0|10.7|19.9|||ANOVA|||Daily Activity Limitations - change from baseline to week 8||19.9|10.7|0.238
82494265|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.5||||0.07|TWO_SIDED|95.0|12.0|20.9|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||20.9|12.0|0.070
82494266|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.7||||0.058|TWO_SIDED|95.0|12.3|21.1|||ANOVA|||Daily Activity Limitations - change from baseline to week 12||21.1|12.3|0.058
82494267|NCT03982368|164680896|SUPERIORITY||Least square mean difference|13.7||||0.128|TWO_SIDED|95.0|9.3|18.1|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||18.1|9.3|0.128
82494268|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.0||||0.024|TWO_SIDED|95.0|11.6|20.3|||ANOVA|||Daily Activity Limitations - change from baseline to week 16||20.3|11.6|0.024
82494269|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.2||||0.865|TWO_SIDED|95.0|10.4|20.1|||ANOVA|||Emotional Well-Being - change from baseline to week 4||20.1|10.4|0.865
82494270|NCT03982368|164680896|SUPERIORITY||Least square mean difference|17.3||||0.662|TWO_SIDED|95.0|12.4|22.2|||ANOVA|||Emotional Well-Being - change from baseline to week 4||22.2|12.4|0.662
82494271|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.7||||0.266|TWO_SIDED|95.0|12.2|21.1|||ANOVA|||Emotional Well-Being - change from baseline to week 8||21.1|12.2|0.266
82494272|NCT03982368|164680896|SUPERIORITY||Least square mean difference|13.9||||0.824|TWO_SIDED|95.0|9.4|18.3|||ANOVA|||Emotional Well-Being - change from baseline to week 8||18.3|9.4|0.824
82494273|NCT03982368|164680896|SUPERIORITY||Least square mean difference|14.8||||0.883|TWO_SIDED|95.0|10.6|19.0|||ANOVA|||Emotional Well-Being - change from baseline to week 12||19.0|10.6|0.883
82494274|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.3||||0.516|TWO_SIDED|95.0|12.1|20.4|||ANOVA|||Emotional Well-Being - change from baseline to week 12||20.4|12.1|0.516
82494275|NCT03982368|164680896|SUPERIORITY|Emotional Well-Being - change from baseline to week 16|Least square mean difference|16.5||||0.407|TWO_SIDED|95.0|12.1|21.0|||ANOVA|||Emotional Well-Being - change from baseline to week 16||21.0|12.1|0.407
82494276|NCT03982368|164680896|SUPERIORITY||Least square mean difference|16.4||||0.422|TWO_SIDED|95.0|12.0|20.9|||ANOVA|||Emotional Well-Being - change from baseline to week 16||20.9|12.0|0.422
82494277|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.9||||0.615|TWO_SIDED|95.0|8.1|23.8|||ANOVA|||Work Limitations - change from baseline to week 4||23.8|8.1|0.615
82494278|NCT03982368|164680896|SUPERIORITY||Least square mean difference|21.3||||0.626|TWO_SIDED|95.0|13.3|29.2|||ANOVA|||Work Limitations - change from baseline to week 4||29.2|13.3|0.626
82494279|NCT03982368|164680896|SUPERIORITY||Least square mean difference|18.3||||0.968|TWO_SIDED|95.0|11.1|25.6|||ANOVA|||Work Limitations - change from baseline to week 8||25.6|11.1|0.968
82494280|NCT03982368|164680896|SUPERIORITY||Least square mean difference|20.1||||0.689|TWO_SIDED|95.0|12.8|27.4|||ANOVA|||||27.4|12.8|0.689
82494281|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.6||||0.528|TWO_SIDED|95.0|8.5|22.7|||ANOVA|||Work Limitations - change from baseline to week 12||22.7|8.5|0.528
82494282|NCT03982368|164680896|SUPERIORITY||Least square mean difference|23.0||||0.368|TWO_SIDED|95.0|15.8|30.1|||ANOVA|||Work Limitations - change from baseline to week 12||30.1|15.8|0.368
82494283|NCT03982368|164680896|SUPERIORITY||Least square mean difference|17.7||||0.764|TWO_SIDED|95.0|10.7|24.7|||ANOVA|||Work Limitations - change from baseline to week 16||24.7|10.7|0.764
82494284|NCT03982368|164680896|SUPERIORITY||Least square mean difference|22.6||||0.184|TWO_SIDED|95.0|15.5|29.6|||ANOVA|||Work Limitations - change from baseline to week 16||29.6|15.5|0.184
82494285|NCT03982368|164680896|SUPERIORITY||Least square mean difference|25.4||||0.909|TWO_SIDED|95.0|16.5|34.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||34.2|16.5|0.909
82494286|NCT03982368|164680896|SUPERIORITY||Least square mean difference|21.1||||0.428|TWO_SIDED|95.0|12.2|30.0|||ANOVA|||Treatment Satisfaction - change from baseline to week 4||30.0|12.2|0.428
82494287|NCT03982368|164680896|SUPERIORITY||Least square mean difference|29.8||||0.008|TWO_SIDED|95.0|21.6|37.9|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||37.9|21.6|0.008
82494288|NCT03982368|164680896|SUPERIORITY||Least square mean difference|21.3||||0.222|TWO_SIDED|95.0|13.5|29.2|||ANOVA|||Treatment Satisfaction - change from baseline to week 8||29.2|13.5|0.222
82494289|NCT03982368|164680896|SUPERIORITY||Least square mean difference|25.3||||0.082|TWO_SIDED|95.0|17.2|33.4|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||33.4|17.2|0.082
82494290|NCT03982368|164680896|SUPERIORITY||Least square mean difference|23.3||||0.154|TWO_SIDED|95.0|15.6|31.1|||ANOVA|||Treatment Satisfaction - change from baseline to week 12||31.1|15.6|0.154
82494291|NCT03982368|164680896|SUPERIORITY||Least square mean difference|25.8||||0.03|TWO_SIDED|95.0|18.0|33.6|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||33.6|18.0|0.030
82494292|NCT03982368|164680896|SUPERIORITY||Least square mean difference|24.6||||0.046|TWO_SIDED|95.0|17.1|32.1|||ANOVA|||Treatment Satisfaction - change from baseline to week 16||32.1|17.1|0.046
82494293|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.4||||0.861|TWO_SIDED|95.0|8.6|22.2|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||22.2|8.6|0.861
82494294|NCT03982368|164680896|SUPERIORITY||Least square mean difference|15.3||||0.865|TWO_SIDED|95.0|9.0|21.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 4||21.7|9.0|0.865
82494295|NCT03982368|164680896|SUPERIORITY||Least square mean difference|10.5||||0.278|TWO_SIDED|95.0|3.6|17.3|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||17.3|3.6|0.278
82494296|NCT03982368|164680896|SUPERIORITY||Least square mean difference|7.2||||0.689|TWO_SIDED|95.0|0.9|13.5|||ANOVA|||Treatment-Related Bother - change from baseline to week 8||13.5|0.9|0.689
82494297|NCT03982368|164680896|SUPERIORITY||Least square mean difference|9.1||||0.993|TWO_SIDED|95.0|2.1|16.2|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||16.2|2.1|0.993
82494298|NCT03982368|164680896|SUPERIORITY||Least square mean difference|9.2||||0.989|TWO_SIDED|95.0|2.8|15.7|||ANOVA|||Treatment-Related Bother - change from baseline to week 12||15.7|2.8|0.989
82494299|NCT03982368|164680896|SUPERIORITY||Least square mean difference|10.4||||0.976|TWO_SIDED|95.0|3.7|17.0|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||17.0|3.7|0.976
82494300|NCT03982368|164680896|SUPERIORITY||Least square mean difference|9.0||||0.778|TWO_SIDED|95.0|2.9|15.1|||ANOVA|||Treatment-Related Bother - change from baseline to week 16||15.1|2.9|0.778
82494301|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-17.3||||0.964|TWO_SIDED|95.0|-21.2|-13.3|||ANOVA|||Symptom Bother - change from baseline to week 4||-13.3|-21.2|0.964
82494302|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-18.7||||0.581|TWO_SIDED|95.0|-22.7|-14.7|||ANOVA|||Symptom Bother - change from baseline to week 4||-14.7|-22.7|0.581
82494303|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-21.4||||0.006|TWO_SIDED|95.0|-25.2|-17.5|||ANOVA|||Symptom Bother - change from baseline to week 8||-17.5|-25.2|0.006
82494304|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-17.6||||0.175|TWO_SIDED|95.0|-21.4|-13.7|||ANOVA|||Symptom Bother - change from baseline to week 8||-13.7|-21.4|0.175
82494305|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-19.4||||0.016|TWO_SIDED|95.0|-23.1|-15.6|||ANOVA|||Symptom Bother - change from baseline to week 12||-15.6|-23.1|0.016
82494306|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-19.8||||0.01|TWO_SIDED|95.0|-23.5|-16.1|||ANOVA|||Symptom Bother - change from baseline to week 12||-16.1|-23.5|0.010
82494307|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-20.5||||0|TWO_SIDED|95.0|-24.3|-16.8|||ANOVA|||Symptom Bother - change from baseline to week 16||-16.8|-24.3|0.000
82494308|NCT03982368|164680896|SUPERIORITY||Least square mean difference|-20.8||||0|TWO_SIDED|95.0|-24.6|-17.1|||ANOVA|||Symptom Bother - change from baseline to week 16||-17.1|-24.6|0.000
82494309|NCT03982368|164680897|SUPERIORITY|||||||0.302|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.302
82494310|NCT03982368|164680897|SUPERIORITY|||||||0.224|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.224
82494311|NCT03982368|164680897|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.000
82494312|NCT03982368|164680897|SUPERIORITY|||||||0.885|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.885
82494313|NCT03982368|164680897|SUPERIORITY|||||||0.035|||||||Wilcoxon (Mann-Whitney)|||At week 12 (FUP)||||0.035
82494314|NCT03982368|164680897|SUPERIORITY|||||||0.698|||||||Wilcoxon (Mann-Whitney)|||At week 12 (FUP)||||0.698
82494315|NCT03982368|164680897|SUPERIORITY|||||||0.016|||||||Wilcoxon (Mann-Whitney)|||At week 16 (FUP)||||0.016
82494316|NCT03982368|164680897|SUPERIORITY|||||||0.706|||||||Wilcoxon (Mann-Whitney)|||At week 16 (FUP)||||0.706
82494317|NCT03982368|164680898|SUPERIORITY|||||||0.21|||||||Wilcoxon (Mann-Whitney)|||at week 4||||0.210
82494318|NCT03982368|164680898|SUPERIORITY|||||||0.26|||||||Wilcoxon (Mann-Whitney)|||at weeek 4||||0.260
82494319|NCT03982368|164680898|SUPERIORITY|||||||0|||||||Wilcoxon (Mann-Whitney)|||At week 8 (FUP)||||0.000
82494320|NCT03982368|164680898|SUPERIORITY|||||||0.734|||||||Wilcoxon (Mann-Whitney)|||at week 8 (FUP)||||0.734
82494321|NCT03982368|164680898|SUPERIORITY|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||at week 12 (FUP)||||0.050
82494322|NCT03982368|164680898|SUPERIORITY|||||||0.985|||||||Wilcoxon (Mann-Whitney)|||at week 12 (FUP)||||0.985
82494323|NCT03982368|164680898|SUPERIORITY|||||||0.018|||||||Wilcoxon (Mann-Whitney)|||at week 16 (FUP)||||0.018
82494324|NCT03982368|164680898|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||at week 16 (FUP)||||0.580
82494325|NCT03982368|164680899|SUPERIORITY||Least square mean difference|1.2||||0.282|TWO_SIDED|95.0|-1.0|3.3|||ANOVA|||statistical analysis at week 4||3.3|-1.0|0.282
82494326|NCT03982368|164680899|SUPERIORITY||Least square mean difference|3.9||||0.497|TWO_SIDED|95.0|1.7|6.0|||ANOVA|||statistical analysis at week 4||6.0|1.7|0.497
82494327|NCT03982368|164680899|SUPERIORITY||Least square mean difference|2.6||||0.734|TWO_SIDED|95.0|0.5|4.8|||ANOVA|||statistical analysis at week 8||4.8|0.5|0.734
82494328|NCT03982368|164680899|SUPERIORITY||Least square mean difference|2.2||||0.963|TWO_SIDED|95.0|0.1|4.3|||ANOVA|||statistical analysis at week 8||4.3|0.1|0.963
82494329|NCT03982368|164680899|SUPERIORITY||Least square mean difference|2.7||||0.854|TWO_SIDED|95.0|0.7|4.8|||ANOVA|||statistical analysis at week 12||4.8|0.7|0.854
82494330|NCT03982368|164680899|SUPERIORITY||Least square mean difference|2.8||||0.881|TWO_SIDED|95.0|0.8|4.8|||ANOVA|||statistical analysis at week 12||4.8|0.8|0.881
82494331|NCT03982368|164680899|SUPERIORITY||Least square mean difference|3.0||||0.632|TWO_SIDED|95.0|0.3|5.7|||ANOVA|||statistical analysis at week 16||5.7|0.3|0.632
82494332|NCT03982368|164680899|SUPERIORITY||Least square mean difference|4.4||||0.22|TWO_SIDED|95.0|1.7|7.0|||ANOVA|||statistical analysis at week 16||7.0|1.7|0.220
82494333|NCT03982368|164680900|SUPERIORITY||Least square mean difference|1.2||||0.296|TWO_SIDED|95.0|-0.9|3.3|||ANOVA|||statistical analysis at week 4||3.3|-0.9|0.296
82494334|NCT03982368|164680900|SUPERIORITY||Least square mean difference|3.6||||0.57|TWO_SIDED|95.0|1.5|5.7|||ANOVA|||statistical analysis at week 4||5.7|1.5|0.570
82494335|NCT03982368|164680900|SUPERIORITY||Least square mean difference|2.7||||0.754|TWO_SIDED|95.0|0.5|4.9|||ANOVA|||statistical analysis at week 8||4.9|0.5|0.754
82494336|NCT03982368|164680900|SUPERIORITY||Least square mean difference|2.3||||0.972|TWO_SIDED|95.0|0.0|4.5|||ANOVA|||statistical analysis at week 8||4.5|0.0|0.972
82494337|NCT03982368|164680900|SUPERIORITY||Least square mean difference|3.4||||0.793|TWO_SIDED|95.0|1.4|5.3|||ANOVA|||statistical analysis at week 12||5.3|1.4|0.793
82494338|NCT03982368|164680900|SUPERIORITY||Least square mean difference|3.4||||0.766|TWO_SIDED|95.0|1.5|5.3|||ANOVA|||statistical analysis at week 12||5.3|1.5|0.766
82494339|NCT03982368|164680900|SUPERIORITY||Least square mean difference|3.3||||0.458|TWO_SIDED|95.0|0.6|6.0|||ANOVA|||statistical analysis at week 16||6.0|0.6|0.458
82494340|NCT03982368|164680900|SUPERIORITY||Least square mean difference|4.6||||0.147|TWO_SIDED|95.0|2.0|7.3|||ANOVA|||statistical analysis at week 16||7.3|2.0|0.147
82494341|NCT03768414|164680913|SUPERIORITY||Hazard Ratio (HR)|0.91||||0.41|TWO_SIDED|95.0|0.72|1.14|||Log Rank|||||1.14|0.72|0.41
82494342|NCT02571777|164680939|SUPERIORITY||LS Mean|0.065|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.031|0.099|||Mixed Model for Repeated Measures (MMRM)|||||0.099|0.031|<0.001
82494343|NCT02571777|164680939|SUPERIORITY||LS Mean|0.076|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.041|0.111|||MMRM|||||0.111|0.041|<0.001
82494344|NCT02571777|164680940|SUPERIORITY||LS Mean|0.014|STANDARD_ERROR_OF_MEAN|0.0406||0.729|TWO_SIDED|95.0|-0.066|0.094|||MMRM|||Week 26||0.094|-0.066|0.729
82494345|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.086|STANDARD_ERROR_OF_MEAN|0.0404||0.034|TWO_SIDED|95.0|-0.165|-0.006|||MMRM|||Week 26||-0.006|-0.165|0.034
82494346|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.071|STANDARD_ERROR_OF_MEAN|0.0409||0.085|TWO_SIDED|95.0|-0.151|0.01|||MMRM|||Week 26||0.010|-0.151|0.085
82494347|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.084|STANDARD_ERROR_OF_MEAN|0.0406||0.038|TWO_SIDED|95.0|-0.164|-0.005|||MMRM|||Week 26||-0.005|-0.164|0.038
82494348|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.059|STANDARD_ERROR_OF_MEAN|0.0415||0.157|TWO_SIDED|95.0|-0.14|0.023|||MMRM|||Week 52||0.023|-0.140|0.157
82494349|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.121|STANDARD_ERROR_OF_MEAN|0.0414||0.003|TWO_SIDED|95.0|-0.202|-0.04|||MMRM|||Week 52||-0.040|-0.202|0.003
82494350|NCT02571777|164680940|SUPERIORITY||LS Mean|-0.01|STANDARD_ERROR_OF_MEAN|0.042||0.814|TWO_SIDED|95.0|-0.092|0.072|||MMRM|||Week 52||0.072|-0.092|0.814
82494351|NCT02571777|164680940|SUPERIORITY||LS Mean|0.008|STANDARD_ERROR_OF_MEAN|0.0416||0.845|TWO_SIDED|95.0|-0.073|0.09|||MMRM|||Week 52||0.090|-0.073|0.845
82494352|NCT02571777|164680941|SUPERIORITY||LS Mean|0.119|STANDARD_ERROR_OF_MEAN|0.0177|<|0.001|TWO_SIDED|95.0|0.085|0.154|||MMRM|||||0.154|0.085|<0.001
82494353|NCT02571777|164680941|SUPERIORITY||LS Mean|0.099|STANDARD_ERROR_OF_MEAN|0.0177|<|0.001|TWO_SIDED|95.0|0.064|0.133|||MMRM|||||0.133|0.064|<0.001
82494354|NCT02571777|164680942|SUPERIORITY||LS Mean|0.086|STANDARD_ERROR_OF_MEAN|0.0176|<|0.001|TWO_SIDED|95.0|0.051|0.12|||MMRM|||||0.120|0.051|<0.001
82494355|NCT02571777|164680942|SUPERIORITY||LS Mean|0.145|STANDARD_ERROR_OF_MEAN|0.0178|<|0.001|TWO_SIDED|95.0|0.111|0.18|||MMRM|||||0.180|0.111|<0.001
82494356|NCT02571777|164680942|SUPERIORITY||LS Mean|0.062|STANDARD_ERROR_OF_MEAN|0.0178|<|0.001|TWO_SIDED|95.0|0.027|0.096|||MMRM|||||0.096|0.027|<0.001
82494357|NCT02571777|164680942|SUPERIORITY||LS Mean|0.087|STANDARD_ERROR_OF_MEAN|0.0179|<|0.001|TWO_SIDED|95.0|0.052|0.122|||MMRM|||||0.122|0.052|<0.001
82494358|NCT02571777|164680943|SUPERIORITY||LS Mean|0.073|STANDARD_ERROR_OF_MEAN|0.0218|<|0.001|TWO_SIDED|95.0|0.03|0.116|||MMRM|||Week 4||0.116|0.030|<0.001
82494359|NCT02571777|164680943|SUPERIORITY||LS Mean|0.139|STANDARD_ERROR_OF_MEAN|0.0217|<|0.001|TWO_SIDED|95.0|0.096|0.181|||MMRM|||Week 4||0.181|0.096|<0.001
82494360|NCT02571777|164680943|SUPERIORITY||LS Mean|0.039|STANDARD_ERROR_OF_MEAN|0.022||0.074|TWO_SIDED|95.0|-0.004|0.082|||MMRM|||Week 4||0.082|-0.004|0.074
82494361|NCT02571777|164680943|SUPERIORITY||LS Mean|0.108|STANDARD_ERROR_OF_MEAN|0.0219|<|0.001|TWO_SIDED|95.0|0.065|0.15|||MMRM|||Week 4||0.150|0.065|<0.001
82494362|NCT02571777|164680943|SUPERIORITY||LS Mean|0.056|STANDARD_ERROR_OF_MEAN|0.0219||0.01|TWO_SIDED|95.0|0.014|0.099|||MMRM|||Week 12||0.099|0.014|0.010
82494363|NCT02571777|164680943|SUPERIORITY||LS Mean|0.102|STANDARD_ERROR_OF_MEAN|0.0218|<|0.001|TWO_SIDED|95.0|0.059|0.145|||MMRM|||Week 12||0.145|0.059|<0.001
82494364|NCT02571777|164680943|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0221||0.022|TWO_SIDED|95.0|0.007|0.094|||MMRM|||Week 12||0.094|0.007|0.022
82494365|NCT02571777|164680943|SUPERIORITY||LS Mean|0.099|STANDARD_ERROR_OF_MEAN|0.022|<|0.001|TWO_SIDED|95.0|0.056|0.142|||MMRM|||Week 12||0.142|0.056|<0.001
82494366|NCT02571777|164680944|SUPERIORITY||LS Mean|0.095|STANDARD_ERROR_OF_MEAN|0.0254|<|0.001|TWO_SIDED|95.0|0.045|0.145|||MMRM|||||0.145|0.045|<0.001
82494367|NCT02571777|164680944|SUPERIORITY||LS Mean|0.147|STANDARD_ERROR_OF_MEAN|0.0256|<|0.001|TWO_SIDED|95.0|0.097|0.198|||MMRM|||||0.198|0.097|<0.001
82494368|NCT02571777|164680944|SUPERIORITY||LS Mean|0.049|STANDARD_ERROR_OF_MEAN|0.0256||0.057|TWO_SIDED|95.0|-0.001|0.099|||MMRM|||||0.099|-0.001|0.057
82494369|NCT02571777|164680944|SUPERIORITY||LS Mean|0.056|STANDARD_ERROR_OF_MEAN|0.0258||0.029|TWO_SIDED|95.0|0.006|0.107|||MMRM|||||0.107|0.006|0.029
82494370|NCT02571777|164680945|SUPERIORITY||LS Mean|18.2|STANDARD_ERROR_OF_MEAN|2.59|<|0.001|TWO_SIDED|95.0|13.2|23.3|||Linear Mixed Model (LMM)|||Week 26 - Mean morning PEF||23.3|13.2|<0.001
82494371|NCT02571777|164680945|SUPERIORITY||LS Mean|35.3|STANDARD_ERROR_OF_MEAN|2.58|<|0.001|TWO_SIDED|95.0|30.2|40.3|||LMM|||Week 26 - Mean morning PEF||40.3|30.2|<0.001
82494372|NCT02571777|164680945|SUPERIORITY||LS Mean|14.9|STANDARD_ERROR_OF_MEAN|2.61|<|0.001|TWO_SIDED|95.0|9.8|20.0|||LMM|||Week 26 - Mean morning PEF||20.0|9.8|<0.001
82494373|NCT02571777|164680945|SUPERIORITY||LS Mean|28.0|STANDARD_ERROR_OF_MEAN|2.6|<|0.001|TWO_SIDED|95.0|22.9|33.1|||LMM|||Week 26 - Mean morning PEF||33.1|22.9|<0.001
82494374|NCT02571777|164680945|SUPERIORITY||LS Mean|16.8|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|11.8|21.7|||LMM|||Week 26 - Mean evening PEF||21.7|11.8|<0.001
82494375|NCT02571777|164680945|SUPERIORITY||LS Mean|29.1|STANDARD_ERROR_OF_MEAN|2.53|<|0.001|TWO_SIDED|95.0|24.2|34.1|||LMM|||Week 26 - Mean evening PEF||34.1|24.2|<0.001
82494376|NCT02571777|164680945|SUPERIORITY||LS Mean|14.1|STANDARD_ERROR_OF_MEAN|2.55|<|0.001|TWO_SIDED|95.0|9.1|19.1|||LMM|||Week 26 - Mean evening PEF||19.1|9.1|<0.001
82494377|NCT02571777|164680945|SUPERIORITY||LS Mean|24.3|STANDARD_ERROR_OF_MEAN|2.54|<|0.001|TWO_SIDED|95.0|19.3|29.3|||LMM|||Week 26 - Mean evening PEF||29.3|19.3|<0.001
82494378|NCT02571777|164680945|SUPERIORITY||LS Mean|18.7|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|13.4|24.1|||LMM|||Week 52 - Mean morning PEF||24.1|13.4|<0.001
82494379|NCT02571777|164680945|SUPERIORITY||LS Mean|34.8|STANDARD_ERROR_OF_MEAN|2.7|<|0.001|TWO_SIDED|95.0|29.5|40.1|||LMM|||Week 52 - Mean morning PEF||40.1|29.5|<0.001
82494380|NCT02571777|164680945|SUPERIORITY||LS Mean|15.6|STANDARD_ERROR_OF_MEAN|2.74|<|0.001|TWO_SIDED|95.0|10.2|20.9|||LMM|||Week 52 - Mean morning PEF||20.9|10.2|<0.001
82494381|NCT02571777|164680945|SUPERIORITY||LS Mean|28.5|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|23.2|33.8|||LMM|||Week 52 - Mean morning PEF||33.8|23.2|<0.001
82494382|NCT02571777|164680945|SUPERIORITY||LS Mean|17.5|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|12.3|22.8|||LMM|||Week 52 - Mean evening PEF||22.8|12.3|<0.001
82494383|NCT02571777|164680945|SUPERIORITY||LS Mean|29.5|STANDARD_ERROR_OF_MEAN|2.66|<|0.001|TWO_SIDED|95.0|24.2|34.7|||LMM|||Week 52 - Mean evening PEF||34.7|24.2|<0.001
82494384|NCT02571777|164680945|SUPERIORITY||LS Mean|15.0|STANDARD_ERROR_OF_MEAN|2.69|<|0.001|TWO_SIDED|95.0|9.7|20.2|||LMM|||Week 52 - Mean evening PEF||20.2|9.7|<0.001
82494385|NCT02571777|164680945|SUPERIORITY||LS Mean|25.8|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|20.5|31.0|||LMM|||Week 52 - Mean evening PEF||31.0|20.5|<0.001
82494386|NCT02571777|164680946|SUPERIORITY||LS Mean|0.2|STANDARD_ERROR_OF_MEAN|1.81||0.907|TWO_SIDED|95.0|-3.3|3.8|||LMM|||||3.8|-3.3|0.907
82494387|NCT02571777|164680946|SUPERIORITY||LS Mean|3.5|STANDARD_ERROR_OF_MEAN|1.81||0.055|TWO_SIDED|95.0|-0.1|7.0|||LMM|||||7.0|-0.1|0.055
82494388|NCT02571777|164680946|SUPERIORITY||LS Mean|0.0|STANDARD_ERROR_OF_MEAN|1.83||0.997|TWO_SIDED|95.0|-3.6|3.6|||LMM|||||3.6|-3.6|0.997
82494389|NCT02571777|164680946|SUPERIORITY||LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|1.82||0.606|TWO_SIDED|95.0|-4.5|2.6|||LMM|||||2.6|-4.5|0.606
82494390|NCT02571777|164680947|SUPERIORITY||LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.78||0.712|TWO_SIDED|95.0|-2.8|4.2|||LMM|||||4.2|-2.8|0.712
82494391|NCT02571777|164680947|SUPERIORITY||LS Mean|3.7|STANDARD_ERROR_OF_MEAN|1.78||0.038|TWO_SIDED|95.0|0.2|7.2|||LMM|||||7.2|0.2|0.038
82494392|NCT02571777|164680947|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.8||0.943|TWO_SIDED|95.0|-3.7|3.4|||LMM|||||3.4|-3.7|0.943
82494393|NCT02571777|164680947|SUPERIORITY||LS Mean|-0.9|STANDARD_ERROR_OF_MEAN|1.79||0.612|TWO_SIDED|95.0|-4.4|2.6|||LMM|||||2.6|-4.4|0.612
82494394|NCT02571777|164680948|SUPERIORITY||LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.51||0.809|TWO_SIDED|95.0|-3.3|2.6|||LMM|||||2.6|-3.3|0.809
82494395|NCT02571777|164680948|SUPERIORITY||LS Mean|1.1|STANDARD_ERROR_OF_MEAN|1.5||0.467|TWO_SIDED|95.0|-1.9|4.0|||LMM|||||4.0|-1.9|0.467
82494396|NCT02571777|164680948|SUPERIORITY||LS Mean|1.5|STANDARD_ERROR_OF_MEAN|1.52||0.318|TWO_SIDED|95.0|-1.5|4.5|||LMM|||||4.5|-1.5|0.318
82494397|NCT02571777|164680948|SUPERIORITY||LS Mean|0.7|STANDARD_ERROR_OF_MEAN|1.51||0.64|TWO_SIDED|95.0|-2.3|3.7|||LMM|||||3.7|-2.3|0.640
82494398|NCT02571777|164680949|SUPERIORITY||LS Mean|-0.4|STANDARD_ERROR_OF_MEAN|1.83||0.814|TWO_SIDED|95.0|-4.0|3.2|||LMM|||||3.2|-4.0|0.814
82494399|NCT02571777|164680949|SUPERIORITY||LS Mean|3.8|STANDARD_ERROR_OF_MEAN|1.83||0.036|TWO_SIDED|95.0|0.2|7.4|||LMM|||||7.4|0.2|0.036
82494400|NCT02571777|164680949|SUPERIORITY||LS Mean|3.1|STANDARD_ERROR_OF_MEAN|1.84||0.098|TWO_SIDED|95.0|-0.6|6.7|||LMM|||||6.7|-0.6|0.098
82494401|NCT02571777|164680949|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.84||0.118|TWO_SIDED|95.0|-0.7|6.5|||LMM|||||6.5|-0.7|0.118
82494402|NCT02571777|164680950|SUPERIORITY||LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.74||0.645|TWO_SIDED|95.0|-4.2|2.6|||LMM|||Week 26||2.6|-4.2|0.645
82494403|NCT02571777|164680950|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.095|TWO_SIDED|95.0|-0.5|6.3|||LMM|||Week 26||6.3|-0.5|0.095
82494404|NCT02571777|164680950|SUPERIORITY||LS Mean|1.3|STANDARD_ERROR_OF_MEAN|1.75||0.46|TWO_SIDED|95.0|-2.1|4.7|||LMM|||Week 26||4.7|-2.1|0.460
82494405|NCT02571777|164680950|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.75||0.971|TWO_SIDED|95.0|-3.5|3.4|||LMM|||Week 26||3.4|-3.5|0.971
82494406|NCT02571777|164680950|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.963|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.963
82494407|NCT02571777|164680950|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|1.77||0.075|TWO_SIDED|95.0|-0.3|6.6|||LMM|||Week 52||6.6|-0.3|0.075
82494408|NCT02571777|164680950|SUPERIORITY||LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.79||0.517|TWO_SIDED|95.0|-2.3|4.7|||LMM|||Week 52||4.7|-2.3|0.517
82494409|NCT02571777|164680950|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.956|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.956
82494410|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|0.92||||0.535|TWO_SIDED|95.0|0.7|1.2|||Logistic regression model|||Week 26||1.20|0.70|0.535
82494411|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.21||||0.151|TWO_SIDED|95.0|0.93|1.57|||Logistic regression model|||Week 26||1.57|0.93|0.151
82494412|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.13||||0.38|TWO_SIDED|95.0|0.86|1.48|||Logistic regression model|||Week 26||1.48|0.86|0.380
82494413|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.2||||0.172|TWO_SIDED|95.0|0.92|1.57|||Logistic regression model|||Week 26||1.57|0.92|0.172
82494414|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.1||||0.51|TWO_SIDED|95.0|0.83|1.47|||Logistic regression model|||Week 52||1.47|0.83|0.510
82494415|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.41||||0.017|TWO_SIDED|95.0|1.06|1.86|||Logistic regression model|||Week 52||1.86|1.06|0.017
82494416|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|1.05||||0.744|TWO_SIDED|95.0|0.79|1.38|||Logistic regression model|||Week 52||1.38|0.79|0.744
82494417|NCT02571777|164680951|SUPERIORITY||Odds Ratio (OR)|0.99||||0.922|TWO_SIDED|95.0|0.75|1.29|||Logistic regression model|||Week 52||1.29|0.75|0.922
82494418|NCT02571777|164680952|SUPERIORITY||Hazard Ratio (HR)|0.66||||0.371|TWO_SIDED|95.0|0.27|1.63|||Regression, Cox|||||1.63|0.27|0.371
82494419|NCT02571777|164680952|SUPERIORITY||Hazard Ratio (HR)|1.0||||0.996|TWO_SIDED|95.0|0.37|2.66|||Regression, Cox|||||2.66|0.37|0.996
82494420|NCT02571777|164680952|SUPERIORITY||Hazard Ratio (HR)|1.89||||0.145|TWO_SIDED|95.0|0.8|4.47|||Regression, Cox|||||4.47|0.80|0.145
82494421|NCT02571777|164680952|SUPERIORITY||Hazard Ratio (HR)|1.88||||0.15|TWO_SIDED|95.0|0.8|4.43|||Regression, Cox|||||4.43|0.80|0.150
82494422|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.523|TWO_SIDED|95.0|0.77|1.15|||Regression, Cox|||Moderate or severe asthma exacerbation||1.15|0.77|0.523
82494423|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.7|||<|0.001|TWO_SIDED|95.0|0.58|0.84|||Regression, Cox|||Moderate or severe asthma exacerbation||0.84|0.58|<0.001
82494424|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.164|TWO_SIDED|95.0|0.72|1.06|||Regression, Cox|||Moderate or severe asthma exacerbation||1.06|0.72|0.164
82494425|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.005|TWO_SIDED|95.0|0.63|0.92|||Regression, Cox|||Moderate or severe asthma exacerbation||0.92|0.63|0.005
82494426|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.476|TWO_SIDED|95.0|0.72|1.16|||Regression, Cox|||Severe asthma exacerbation||1.16|0.72|0.476
82494427|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.68|||<|0.001|TWO_SIDED|95.0|0.54|0.85|||Regression, Cox|||Severe asthma exacerbation||0.85|0.54|<0.001
82494428|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.243|TWO_SIDED|95.0|0.7|1.09|||Regression, Cox|||Severe asthma exacerbation||1.09|0.70|0.243
82494429|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.027|TWO_SIDED|95.0|0.63|0.97|||Regression, Cox|||Severe asthma exacerbation||0.97|0.63|0.027
82494430|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.94||||0.497|TWO_SIDED|95.0|0.79|1.12|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||1.12|0.79|0.497
82494431|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.71|||<|0.001|TWO_SIDED|95.0|0.6|0.84|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||0.84|0.60|<0.001
82494432|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.126|TWO_SIDED|95.0|0.73|1.04|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||1.04|0.73|0.126
82494433|NCT02571777|164680953|SUPERIORITY||Hazard Ratio (HR)|0.72|||<|0.001|TWO_SIDED|95.0|0.61|0.85|||Regression, Cox|||All (mild, moderate, severe) asthma exacerbation||0.85|0.61|<0.001
82494434|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.85||||0.12|TWO_SIDED|95.0|0.68|1.04|||Generalized linear model|||Moderate or severe asthma exacerbation||1.04|0.68|0.120
82494435|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.64|||<|0.001|TWO_SIDED|95.0|0.52|0.78|||Generalized linear model|||Moderate or severe asthma exacerbation||0.78|0.52|<0.001
82494436|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.87||||0.17|TWO_SIDED|95.0|0.71|1.06|||Generalized linear modeñ|||Moderate or severe asthma exacerbation||1.06|0.71|0.170
82494437|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.81||||0.041|TWO_SIDED|95.0|0.66|0.99|||Generalized linear model|||Moderate or severe asthma exacerbation||0.99|0.66|0.041
82494438|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.78||||0.05|TWO_SIDED|95.0|0.61|1.0|||Generalized linear model|||Severe asthma exacerbation||1.00|0.61|0.050
82494439|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.58|||<|0.001|TWO_SIDED|95.0|0.45|0.73|||Generalized linear model|||Severe asthma exacerbation||0.73|0.45|<0.001
82494440|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.93||||0.531|TWO_SIDED|95.0|0.74|1.17|||Generalized linear model|||Severe asthma exacerbation||1.17|0.74|0.531
82494441|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.84||||0.117|TWO_SIDED|95.0|0.67|1.05|||Linear generalized model|||Severe asthma exacerbation||1.05|0.67|0.117
82494442|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.79||||0.016|TWO_SIDED|95.0|0.66|0.96|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.96|0.66|0.016
82494443|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.6|||<|0.001|TWO_SIDED|95.0|0.5|0.72|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.72|0.50|<0.001
82494444|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.87||||0.161|TWO_SIDED|95.0|0.72|1.06|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||1.06|0.72|0.161
82494445|NCT02571777|164680954|SUPERIORITY||Rate ratio|0.7|||<|0.001|TWO_SIDED|95.0|0.58|0.84|||Generalized linear model|||All (mild, moderate, severe) asthma exacerbation||0.84|0.58|<0.001
82494446|NCT02571777|164680955|SUPERIORITY|||||||0.183|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.183
82494447|NCT02571777|164680955|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Moderate or severe asthma exacerbation||||<0.001
82494448|NCT02571777|164680955|SUPERIORITY|||||||0.155|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.155
82494449|NCT02571777|164680955|SUPERIORITY|||||||0.007|||||||van Elteren test|||Moderate or severe asthma exacerbation||||0.007
82494450|NCT02571777|164680955|SUPERIORITY|||||||0.172|||||||van Elteren test|||Severe asthma exacerbation||||0.172
82494451|NCT02571777|164680955|SUPERIORITY||||||<|0.001|||||||van Elteren test|||Severe asthma exacerbation||||<0.001
82494452|NCT02571777|164680955|SUPERIORITY|||||||0.241|||||||van Elteren test|||Severe asthma exacerbation||||0.241
82494453|NCT02571777|164680955|SUPERIORITY|||||||0.033|||||||van Elteren test|||Severe asthma exacerbation||||0.033
82494454|NCT02571777|164680955|SUPERIORITY|||||||0.095|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.095
82494455|NCT02571777|164680955|SUPERIORITY||||||<|0.001|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||<0.001
82494456|NCT02571777|164680955|SUPERIORITY|||||||0.09|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||0.090
82494457|NCT02571777|164680955|SUPERIORITY||||||<|0.001|||||||van Elteren test|||All (mild, moderate, severe) asthma exacerbation||||<0.001
82494458|NCT02571777|164680957|SUPERIORITY||Hazard Ratio (HR)|0.49||||0.314|TWO_SIDED|95.0|0.12|1.96|||Regression, Cox|||||1.96|0.12|0.314
82494459|NCT02571777|164680957|SUPERIORITY||Hazard Ratio (HR)|0.28||||0.055|TWO_SIDED|95.0|0.08|1.03|||Regression, Cox|||||1.03|0.08|0.055
82494460|NCT02571777|164680957|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.306|TWO_SIDED|95.0|0.25|1.54|||Regression, Cox|||||1.54|0.25|0.306
82494461|NCT02571777|164680957|SUPERIORITY||Hazard Ratio (HR)|0.76||||0.566|TWO_SIDED|95.0|0.3|1.94|||Regression, Cox|||||1.94|0.30|0.566
82494462|NCT02571777|164680959|SUPERIORITY||LS Mean|-0.8|STANDARD_ERROR_OF_MEAN|1.74||0.645|TWO_SIDED|95.0|-4.2|2.6|||LMM|||Week 26||2.6|-4.2|0.645
82494463|NCT02571777|164680959|SUPERIORITY||LS Mean|2.9|STANDARD_ERROR_OF_MEAN|1.73||0.095|TWO_SIDED|95.0|-0.5|6.3|||LMM|||Week 26||6.3|-0.5|0.095
82494464|NCT02571777|164680959|SUPERIORITY||LMM|1.3|STANDARD_ERROR_OF_MEAN|1.75||0.46|TWO_SIDED|95.0|-2.1|4.7|||LMM|||Week 26||4.7|-2.1|0.460
82494465|NCT02571777|164680959|SUPERIORITY||LS Mean|-0.1|STANDARD_ERROR_OF_MEAN|1.75||0.971|TWO_SIDED|95.0|-3.5|3.4|||LMM|||Week 26||3.4|-3.5|0.971
82494466|NCT02571777|164680959|SUPERIORITY||LMM|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.963|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.963
82494467|NCT02571777|164680959|SUPERIORITY||LS Mean|3.2|STANDARD_ERROR_OF_MEAN|1.77||0.075|TWO_SIDED|95.0|-0.3|6.6|||LMM|||Week 52||6.6|-0.3|0.075
82494468|NCT02571777|164680959|SUPERIORITY||LS Mean|1.2|STANDARD_ERROR_OF_MEAN|1.79||0.517|TWO_SIDED|95.0|-2.3|4.7|||LMM|||Week 52||4.7|-2.3|0.517
82494469|NCT02571777|164680959|SUPERIORITY||LS Mean|0.1|STANDARD_ERROR_OF_MEAN|1.78||0.956|TWO_SIDED|95.0|-3.4|3.6|||LMM|||Week 52||3.6|-3.4|0.956
82494470|NCT02571777|164680960|SUPERIORITY||LS Mean|0.02|STANDARD_ERROR_OF_MEAN|0.0502||0.69|TWO_SIDED|95.0|-0.078|0.118|||MMRM|||||0.118|-0.078|0.690
82494471|NCT02571777|164680960|SUPERIORITY||LS Mean|0.06|STANDARD_ERROR_OF_MEAN|0.0502||0.232|TWO_SIDED|95.0|-0.038|0.159|||MMRM|||||0.159|-0.038|0.232
82494472|NCT02571777|164680960|SUPERIORITY||LS Mean|-0.054|STANDARD_ERROR_OF_MEAN|0.0506||0.285|TWO_SIDED|95.0|-0.153|0.045|||MMRM|||||0.045|-0.153|0.285
82494473|NCT02571777|164680960|SUPERIORITY||LS Mean|-0.05|STANDARD_ERROR_OF_MEAN|0.0505||0.319|TWO_SIDED|95.0|-0.15|0.049|||MMRM|||||0.049|-0.150|0.319
82494474|NCT02571777|164680961|SUPERIORITY||LS Mean|0.068|STANDARD_ERROR_OF_MEAN|0.0166|<|0.001|TWO_SIDED|95.0|0.036|0.101|||MMRM|||Week 4||0.101|0.036|<0.001
82494475|NCT02571777|164680961|SUPERIORITY||LS Mean|0.145|STANDARD_ERROR_OF_MEAN|0.0165|<|0.001|TWO_SIDED|95.0|0.113|0.177|||MMRM|||Week 4||0.177|0.113|<0.001
82494476|NCT02571777|164680961|SUPERIORITY||LS Mean|0.033|STANDARD_ERROR_OF_MEAN|0.0167||0.049|TWO_SIDED|95.0|0.0|0.066|||MMRM|||Week 4||0.066|0.000|0.049
82494477|NCT02571777|164680961|SUPERIORITY||LS Mean|0.096|STANDARD_ERROR_OF_MEAN|0.0166|<|0.001|TWO_SIDED|95.0|0.064|0.129|||MMRM|||Week 4||0.129|0.064|<0.001
82494478|NCT02571777|164680961|SUPERIORITY||LS Mean|0.058|STANDARD_ERROR_OF_MEAN|0.0184||0.002|TWO_SIDED|95.0|0.022|0.094|||MMRM|||Week 12||0.094|0.022|0.002
82494479|NCT02571777|164680961|SUPERIORITY||LS Mean|0.117|STANDARD_ERROR_OF_MEAN|0.0183|<|0.001|TWO_SIDED|95.0|0.081|0.153|||MMRM|||Week 12||0.153|0.081|<0.001
82494480|NCT02571777|164680961|SUPERIORITY||LS Mean|0.05|STANDARD_ERROR_OF_MEAN|0.0185||0.007|TWO_SIDED|95.0|0.013|0.086|||MMRM|||Week 12||0.086|0.013|0.007
82494481|NCT02571777|164680961|SUPERIORITY||MMRM|0.087|STANDARD_ERROR_OF_MEAN|0.0184|<|0.001|TWO_SIDED|95.0|0.051|0.123|||MMRM|||Week 12||0.123|0.051|<0.001
82494482|NCT03706079|164680963|SUPERIORITY||Rate Ratio|0.42|||||TWO_SIDED|95.0|0.35|0.51||||||||0.51|0.35|
82494483|NCT03706079|164680963|SUPERIORITY||Rate Ratio|0.61|||||TWO_SIDED|95.0|0.38|0.96||||||||0.96|0.38|
82494484|NCT00963937|164680967|SUPERIORITY_OR_OTHER||Percent Difference|-7.49||||0.345|TWO_SIDED|95.0|-23.02|8.04||Multiplicity was not considered because the primary analysis included a single statistical comparison.|Chi-squared||Percent difference = sumatriptan pooled group minus the placebo group|||8.04|-23.02|0.345
82494485|NCT03385564|164680983|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|-5.68||||0.7957|TWO_SIDED|80.0|-34.192|22.825|||Regression, Logistic||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||22.825|-34.192|0.7957
82494486|NCT03385564|164680983|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|-9.37||||0.5811|TWO_SIDED|80.0|-31.178|12.44|||Regression, Logistic||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||12.440|-31.178|0.5811
82494487|NCT03385564|164680983|OTHER|Percentage of patients with CRR at Week 52 without renal flare were analysed using a logistic regression model. Factors in the model included treatment and the covariates: race (Asian versus (vs.) non-Asian) and proteinuria \<3 gram (g)/day vs. ≥3 g/day (or Urine protein (UP)/ Urine creatinine (UC) \<3 vs. UP/UC ≥3) at screening.|Difference|1.97||||0.8972|TWO_SIDED|80.0|-17.534|21.48|||Regression, Logistic||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the delta method.|||21.480|-17.534|0.8972
82494488|NCT03385564|164680984|OTHER||Difference|-9.14||||0.825|TWO_SIDED|80.0|-32.83|17.02|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||17.02|-32.83|0.8250
82494489|NCT03385564|164680984|OTHER||Difference|-21.23||||0.2562|TWO_SIDED|80.0|-39.44|0.51|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||0.51|-39.44|0.2562
82494490|NCT03385564|164680984|OTHER||Difference|-2.0||||0.9632|TWO_SIDED|80.0|-20.45|16.62|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||16.62|-20.45|0.9632
82494491|NCT03385564|164680985|OTHER||Difference|-2.86||||0.9275|TWO_SIDED|80.0|-28.58|21.1|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||21.10|-28.58|0.9275
82494492|NCT03385564|164680985|OTHER||Difference|-10.0||||0.6064|TWO_SIDED|80.0|-29.9|10.64|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||10.64|-29.90|0.6064
82494493|NCT03385564|164680985|OTHER||Difference|0.0|||||TWO_SIDED|80.0|-18.37|18.07|||||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||18.07|-18.37|
82494494|NCT03385564|164680986|OTHER||Difference|3.73||||0.9119|TWO_SIDED|80.0|-20.53|29.6|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||29.60|-20.53|0.9119
82494495|NCT03385564|164680986|OTHER||Difference|3.73||||0.851|TWO_SIDED|80.0|-16.58|24.31|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||24.31|-16.58|0.8510
82494496|NCT03385564|164680986|OTHER||Difference|16.43||||0.3498|TWO_SIDED|80.0|-3.53|34.73|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||34.73|-3.53|0.3498
82494497|NCT03385564|164680987|OTHER||Difference|5.43||||0.7921|TWO_SIDED|80.0|-10.19|23.57|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||23.57|-10.19|0.7921
82494498|NCT03385564|164680989|OTHER||Difference|32.0||||0.1016|TWO_SIDED|80.0|10.28|44.74|||Barnard test||The difference was calculated as value from BI 120 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||44.74|10.28|0.1016
82494499|NCT03385564|164680989|OTHER||Difference|-3.71||||0.8323|TWO_SIDED|80.0|-23.79|15.29|||Barnard test||The difference was calculated as value from BI 180 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||15.29|-23.79|0.8323
82494500|NCT03385564|164680989|OTHER||Difference|7.0||||0.6247|TWO_SIDED|80.0|-10.5|23.31|||Barnard test||The difference was calculated as value from BI 240 milligrams group minus value from Placebo group. Confidence intervals calculated using the Newcombe method.|||23.31|-10.50|0.6247
82494501|NCT03087643|164681006|OTHER|||||||0.0492|||||||Mixed Models Analysis|||||||0.0492
82494502|NCT03087643|164681007|OTHER|||||||0.0283|||||||Mixed Models Analysis|||||||0.0283
82494503|NCT03087643|164681008|OTHER|||||||0.0321|||||||Mixed Models Analysis|||||||0.0321
82494504|NCT03087643|164681009|OTHER|||||||0.0451|||||||Mixed Models Analysis|||||||0.0451
82494505|NCT03087643|164681010|OTHER|||||||0.0476|||||||Mixed Models Analysis|||||||0.0476
82494506|NCT00113022|164681012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.22|STANDARD_ERROR_OF_MEAN|18.867||0.919|TWO_SIDED|95.0|-46.565|51.006||The test reported here examines the main effect for placebo versus drug.|Mixed Models Analysis||A positive value indicates greater depression in the active treatment group compared to placebo.|Per protocol, a linear mixed model with a first order autoregressive covariance structure was used. Baseline was included as a covariate. Drug and visit were main effects with an interaction between them included.||51.006|-46.565|.919
82494507|NCT00622284|164681070|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis of non-inferiority is rejected if the upper bound of the two-sided 97.5% confidence interval is less than 0.35%. Superiority testing was not part of the pre-specified Week 52 confirmatory analysis.|Least Squares Mean Difference|0.22|STANDARD_ERROR_OF_MEAN|0.04||0.0005||97.5|0.13|0.31||Due to multiple testing of the primary endpoints at weeks 52 and 104 a Bonferroni correction was applied and 97.5% confidence intervals produced. This 1-sided p-value for non-inferiority should be compared to the 1-sided threshold of 0.0125.|ANCOVA|||Linagliptin versus Glimepiride||0.31|0.13|0.0005
82494508|NCT00622284|164681071|NON_INFERIORITY_OR_EQUIVALENCE|The null hypothesis of non-inferiority is rejected if the upper bound of the two-sided 97.5% confidence interval is less than 0.35%. However, superiority testing is only applicable if the Linagliptin decrease is greater than that in Glimepiride.|Least Squares Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.05||0.0004||97.5|0.09|0.3||This 1-sided p-value should be compared to the 1-sided threshold of 0.0125 for non-inferiority. Due to the pre-specified hierarchial approach, further confirmatory analysis on the Week24 endpoints is only applicable if superiority is already met.|ANCOVA|||Linagliptin versus Glimepiride||0.30|0.09|0.0004
82494509|NCT00622284|164681072|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.5|STANDARD_ERROR_OF_MEAN|0.18|<|0.0001||97.5|-2.91|-2.09||This Week52 key secondary endpoint was only to be tested (2-sided threshold of 0.025 to allow for multiple testing within a visit) if the Week52 primary hypothesis was rejected.|ANCOVA|||Linagliptin versus Glimepiride||-2.09|-2.91|<0.0001
82494510|NCT00622284|164681073|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-2.68|STANDARD_ERROR_OF_MEAN|0.22|<|0.0001||97.5|-3.17|-2.19||Due to testing of multiple endpoints within a visit a sequential testing strategy (at 2-sided threshold of 0.025) was applied to the key secondary endpoints.|ANCOVA|||Linagliptin versus Glimepiride||-2.19|-3.17|<0.0001
82494511|NCT00622284|164681074|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This key secondary endpoint was only to be tested (comparing to a 2-sided threshold of 0.025) if the Week52 body weight change from baseline was confirmatory.|Cochran-Mantel-Haenszel|||Linagliptin versus Glimepiride||||<0.0001
82494512|NCT00622284|164681075|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Due to testing of multiple endpoints within a visit a sequential testing strategy (at 2-sided threshold of 0.025) was applied to the key secondary endpoints.|Cochran-Mantel-Haenszel|||Linagliptin versus Glimepiride||||<0.0001
82494513|NCT00622284|164681076|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.84|STANDARD_ERROR_OF_MEAN|1.7|<|0.0001||95.0|3.51|10.16|||ANCOVA|||Linagliptin versus Glimepiride||10.16|3.51|<0.0001
82494514|NCT00622284|164681077|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|6.38|STANDARD_ERROR_OF_MEAN|1.97||0.0012||95.0|2.51|10.25|||ANCOVA|||Linagliptin versus Glimepiride||10.25|2.51|0.0012
82494515|NCT00622284|164681078|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.625||||0.0004||95.0|0.482|0.811|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.811|0.482|0.0004
82494516|NCT00622284|164681079|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.654||||0.003||95.0|0.494|0.866|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.866|0.494|0.0030
82494517|NCT00622284|164681080|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.648||||0.0025||95.0|0.489|0.859|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.859|0.489|0.0025
82494518|NCT00622284|164681081|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.689||||0.024||95.0|0.498|0.952|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.952|0.498|0.0240
82494519|NCT00622284|164681082|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.7||||0.0018||95.0|0.56|0.875|||Regression, Logistic|The odds ratio is treatment adjusted for baseline HbA1c and the number of previous anti-diabetic medications.||Linagliptin versus Glimepiride||0.875|0.560|0.0018
82494520|NCT00622284|164681083|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-9.47|STANDARD_ERROR_OF_MEAN|5.77||0.0918||95.0|-21.07|1.59|||ANCOVA|||Linagliptin versus Glimepiride||1.59|-21.07|0.0918
82494521|NCT00457301|164681099|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.28|STANDARD_ERROR_OF_MEAN|0.1||0.05||95.0|||||ANCOVA|||Sample size was calculated based on the EQ-5D index score. To compare two independent means for a parallel trial design, 100 patients in each group were needed to detect a clinically important difference (CID) in EQ-5D index score (CID = 0.10, SD = 0.25) with a 5% probability of Type I error and 80% power.||||0.05
82494522|NCT00457301|164681100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.34||95.0|||||ANCOVA|||ANCOVA adjuusting for baseline HADS anxiety scores||||0.34
82494523|NCT00457301|164681100|SUPERIORITY_OR_OTHER_LEGACY|||||||0.55||95.0|||||ANCOVA|||ANCOVA adjusting for baseline HADS depression scores.||||0.55
82494524|NCT00457301|164681101|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.79|STANDARD_ERROR_OF_MEAN|0.23||0.001||95.0|||||ANCOVA|||||||0.001
82494525|NCT00457301|164681102|SUPERIORITY_OR_OTHER_LEGACY||Slope|0.01|STANDARD_ERROR_OF_MEAN|0.02||0.46||95.0|||||ANCOVA|||Sample size was calculated based on the EQ-5D index score. To compare two independent means for a parallel trial design, 100 patients in each group were needed to detect a clinically important difference (CID) in EQ-5D index score (CID = 0.10, SD = 0.25) with a 5% probability of Type I error and 80% power.||||0.46
82494526|NCT02610725|164681185|SUPERIORITY||Mean Difference (Final Values)|-2.1|STANDARD_DEVIATION|0.81||0.013|TWO_SIDED|95.0|-3.73|-0.46|||t-test, 2 sided|51 degrees of freedom.|Means were analyzed in (pre-post) format. A negative mean here indicates an increase in positive affect.|Paired-samples t-tests were used to analyze change in affect after participating in the yoga class. Analyses were conducted to measure changes in both positive affect and negative affect. This entry describes positive affect analysis.||-0.46|-3.73|0.013
82499934|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-18.8|35.1|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||35.1|-18.8|
82494527|NCT02610725|164681185|SUPERIORITY||Mean Difference (Final Values)|6.06|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED|95.0|4.1|8.02|||t-test, 2 sided|51 degrees of freedom|Means were analyzed in a (pre-post) format. A positive mean indicates a decrease in negative affect.|Paired-samples t-tests were used to analyze change in affect after participating in the yoga class. Analyses were conducted to measure changes in both positive affect and negative affect. This entry describes negative affect analysis.||8.02|4.10|<0.001
82494528|NCT00147446|164681192|SUPERIORITY_OR_OTHER||Wilcoxon two smaple test statistics|2.09||||0.04||95.0|||||Wilcoxon (Mann-Whitney)|||It was hypothesized that treatment with stress management produced a significant reduction in cumulative Gd+ lesions compared to the control condition during the treatment period||||0.04
82494529|NCT00147446|164681192|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.77||||0.02|TWO_SIDED|95.0|1.17|6.55|||Logistic Regression|||It was hypothesized that significantly greater numbers of participants receiving stress management remained free of Gd+ lesions during the treatment, compared to those receiving the control condition.||6.55|1.17|0.02
82494530|NCT00147446|164681193|SUPERIORITY_OR_OTHER||Wilcoxon two sample test statistics|2.84||||0.005||95.0|||||Wilcoxon (Mann-Whitney)|||It was hypothesized that participants receiving SMT-MS showed a significant reduction in cumulative new T2 lesions, compared to those receiving the control condition during the treatment period.||||0.005
82494531|NCT00147446|164681193|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|3.07||||0.006|TWO_SIDED|95.0|1.38|6.81|||Logistic Regression|||It was hypothesized that significantly greater numbers of participants receiving SMT-MS remained free of new T2 lesions during the treatment, compared to control condition participants.||6.81|1.38|0.006
82494532|NCT02302807|164681194|SUPERIORITY||Hazard Ratio (HR)|0.87||||0.4134|TWO_SIDED|95.0|0.63|1.21|||Log Rank|||||1.21|0.63|0.4134
82494533|NCT02302807|164681194|SUPERIORITY||Hazard Ratio (HR)|0.87|||||TWO_SIDED|95.0|0.71|1.05||||||||1.05|0.71|
82494534|NCT02302807|164681194|SUPERIORITY||Hazard Ratio (HR)|0.85|||||TWO_SIDED|95.0|0.73|0.99||||||||0.99|0.73|
82494535|NCT02761252|164681205|SUPERIORITY||Mean Difference (Final Values)|-0.194|STANDARD_ERROR_OF_MEAN|0.3429||0.5721|TWO_SIDED|95.0|-0.8693|0.4813|||ANCOVA|||||0.4813|-0.8693|0.5721
82494536|NCT02761252|164681206|SUPERIORITY||Mean Difference (Final Values)|-1.1552|STANDARD_ERROR_OF_MEAN|0.4489||0.0105|TWO_SIDED|95.0|-2.0379|-0.2725|||ANCOVA|||||-0.2725|-2.0379|0.0105
82494537|NCT02761252|164681207|SUPERIORITY||Mean Difference (Final Values)|-0.1393|STANDARD_ERROR_OF_MEAN|0.2009||0.4885|TWO_SIDED|95.0|-0.5342|0.2557|||ANCOVA|||||0.2557|-0.5342|0.4885
82494538|NCT02761252|164681208|SUPERIORITY||Mean Difference (Final Values)|-0.03615|STANDARD_ERROR_OF_MEAN|0.1504||0.81032|TWO_SIDED|95.0|-0.3319|0.2596|||ANCOVA|||||0.2596|-0.3319|0.81032
82494539|NCT02761252|164681209|OTHER||Mean Difference (Final Values)|0.8359|STANDARD_ERROR_OF_MEAN|0.9322||0.3704|TWO_SIDED|95.0|-0.9969|2.6688|||ANOVA|||||2.6688|-0.9969|0.3704
82494540|NCT02761252|164681210|SUPERIORITY||Median Difference (Final Values)|-0.837|STANDARD_ERROR_OF_MEAN|2.5735||0.7452|TWO_SIDED|95.0|-5.8968|4.2228|||ANOVA|||||4.2228|-5.8968|0.7452
82494541|NCT03187197|164681250|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline convenience with that of Visit 2.||||0.0001
82494542|NCT03187197|164681250|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline convenience with that of Visit 3.||||0.0001
82494543|NCT03187197|164681250|OTHER|||||||0.0031|||||||Paired t-test|||Within group comparison of Baseline satisfaction with that of Visit 2.||||0.0031
82494544|NCT03187197|164681250|OTHER|||||||0.0001|||||||Paired t-test|||Within group comparison of Baseline satisfaction with that of Visit 3.||||0.0001
82494545|NCT03187197|164681251|OTHER|||||||0.7879|||||||t-test, 2 sided|||Between group comparison of Visit 2 treatment convenience before PSM.||||0.7879
82494546|NCT03187197|164681251|OTHER|||||||0.611|||||||t-test, 2 sided|||Between group comparison of Visit 3 treatment convenience before PSM.||||0.6110
82494547|NCT03187197|164681251|OTHER|||||||0.0832|||||||t-test, 2 sided|||Between group comparison of Visit 2 treatment satisfaction before PSM.||||0.0832
82494548|NCT03187197|164681251|OTHER|||||||0.6488|||||||t-test, 2 sided|||Between group comparison of Visit 3 treatment satisfaction before PSM.||||0.6488
82494549|NCT03187197|164681251|OTHER|||||||0.1301|||||||Two sample T test|||Between group comparison of Visit 2 treatment convenience after PSM.||||0.1301
82494550|NCT03187197|164681251|OTHER|||||||0.1257|||||||Two sample T test|||Between group comparison of Visit 2 treatment satisfaction after PSM.||||0.1257
82494551|NCT01637935|164681255|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1||||||95.0|0.92|1.31||||||Fully adjusted refers to inclusion of all potential confounders in the statistical model from the 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder cancer, renal insufficiency, HbA1c and the interaction with new diagnosis of diabetes, duration of diabetes, and year of cohort entry.||1.31|0.92|
82494552|NCT01637935|164681255|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.06||||||95.0|0.89|1.26||||||Fully adjusted adding the proteinuria testing variable.||1.26|0.89|
82494553|NCT01637935|164681256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||||95.0|0.71|1.12||||||Time since starting pioglitazone \<4.5 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.12|0.71|
82494554|NCT01637935|164681256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.21||||||95.0|0.93|1.59||||||Time since starting pioglitazone 4.5-8 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.59|0.93|
82494555|NCT01637935|164681256|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.2||||||95.0|0.83|1.75||||||Time since starting pioglitazone \>8 years vs unexposed group. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.75|0.83|
82494556|NCT01637935|164681257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.88||||||95.0|0.68|1.16||||||Duration of therapy \<1.5 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.16|0.68|
82494557|NCT01637935|164681257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||||95.0|0.8|1.33||||||Duration of therapy 1.5-4 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.33|0.80|
82494558|NCT01637935|164681257|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.16||||||95.0|0.87|1.54||||||Duration of therapy \>4 years. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.54|0.87|
82494559|NCT01637935|164681258|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.69|1.16||||||Cumulative dose 1-14000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.16|0.69|
82494560|NCT01637935|164681258|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.1||||||95.0|0.85|1.42||||||Cumulative dose 14001-40000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.42|0.85|
82494561|NCT01637935|164681258|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.07||||||95.0|0.79|1.44||||||Cumulative dose \>40000 mg. Fully adjusted including all potential confounders in statistical model from 5-year interim report plus year of cohort entry: age, sex, race/ethnicity, other diabetes medications, smoking, other bladder conditions, median household income, congestive heart failure, cancer other than bladder, renal insufficiency, HbA1c and interaction with new diagnosis of diabetes, duration of diabetes, year of cohort entry and proteinuria.||1.44|0.79|
82494562|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior Pediatric Eye Disease Investigator Group (PEDIG) studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.31|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). The upper limit of a 1-sided 95% confidence interval (CI) was computed on the treatment group difference, using an analysis of covariance (ANCOVA) model, adjusted for baseline age and VA, including only participants completing the 16-week outcome in a modified intent-to-treat analysis. There was no imputation for missing data.||0.53||
82494563|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.3|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16 weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, the primary analysis repeated but excluded data from participants (n=35) who completed the 16-week visit outside of the pre-defined protocol window (16 +/- 1 week).||0.53||
82494564|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.31|||||ONE_SIDED|95.0||0.54|||||A 1-sided 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye from baseline to 16 weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, multiple imputation was used to impute 16-week visual acuity scores for participants who missed the exam (n=15) or completed the 16-week exam outside of the pre-specified analysis window (n=7).||0.54||
82494565|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.33|||||ONE_SIDED|95.0||0.56|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16 weeks, adjusting for baseline covariates for age and visual acuity. For this post hoc sensitivity analysis, all participants with 16-week exams were included in the analysis regardless of whether or not the exam was completed within the pre-specified analysis window (14 to \<20 weeks after randomization).||0.56||
82494566|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.3|||||ONE_SIDED|95.0||0.53|||||A 1-sided upper 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye VA from baseline to 16-weeks, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, we excluded 16-week outcomes from enrolled participants who were subsequently found to be ineligible for the study (n=7).||0.53||
82494567|NCT02200211|164681260|NON_INFERIORITY|Our sample size was computed to have 90% power with a type I error of 5% for a non-inferiority limit of 0.05 logMAR (0.5 lines), assuming a standard deviation of change of 0.15 logMAR (1.5 lines) based on prior PEDIG studies, and no more than 10% loss to follow-up.|Mean Difference (Final Values)|0.33|||||ONE_SIDED|95.0||0.55|||||A 1-sided 95% confidence interval was computed on the adjusted group difference (patching - binocular treatment) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive values favor the patching group.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye visual acuity from baseline to 16 week, adjusting for baseline covariates of age and visual acuity. For this sensitivity analysis, we excluded 16-week outcomes from participants who received alternative treatment for at least 1 week during study follow-up (n=4).||0.55||
82494568|NCT02200211|164681260|SUPERIORITY||Mean Difference (Final Values)|0.31|||||TWO_SIDED|95.0|0.04|0.58|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit. Positive estimate values favor the patching treatment group.|Analysis of covariance included baseline age and visual acuity as adjustment covariates. The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). For this post hoc analysis, a 2-sided 95% confidence interval (CI) was computed on the treatment group difference, using an analysis of covariance (ANCOVA) model, adjusted for baseline age and VA, including only participants completing the 16-week outcome in a modified intent-to-treat analysis.||0.58|0.04|
82494569|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-2.7||||0.082|TWO_SIDED|95.0|-5.7|0.3||a priori threshold for statistical significance: 2-sided type I error rate of 5%|ANCOVA|Adjusted for baseline amblyopic-eye visual acuity.|A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the effectiveness of two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. The primary outcome measure was change in amblyopic-eye VA from baseline to 16 weeks (14 to \<20 week window). A 2-sided 95% confidence interval (CI) was computed on the adjusted treatment group difference at 16 weeks. There was no imputation for missing data.||0.3|-5.7|0.082
82494570|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-5.9|0.5|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but excluded data from participants who completed the 16-week visit outside of the pre-specified 16 +/- 1 week protocol window (n=10 participants).||0.5|-5.9|
82494571|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-2.8|||||TWO_SIDED|95.0|-5.9|0.3|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|A modified intent-to-treat analysis was performed using an ANCOVA model to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but excluded data from participants later found to be ineligible for the study (n=2).||0.3|-5.9|
82494572|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-1.9|||||TWO_SIDED|95.0|-5.0|1.2|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|The primary analysis was repeated for the treatment group comparison of change in amblyopic-eye from baseline to 16 weeks, adjusting for baseline visual acuity. For this sensitivity analysis, multiple imputation was used to impute 16-week visual acuity scores for participants who missed the exam (n=3) or completed the 16-week exam outside of the pre-specified analysis window (n=2).||1.2|-5.0|
82494573|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-2.5|||||TWO_SIDED|95.0|-5.5|0.5|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|An ANCOVA model was fit to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this post hoc sensitivity analyses, the primary analysis was repeated but included data from participants who completed the 16-week visit outside the analysis window (n=2, range:14 to 28 weeks post randomization).||0.5|-5.5|
82494574|NCT02200211|164681262|SUPERIORITY||Mean Difference (Final Values)|-2.6|||||TWO_SIDED|95.0|-5.7|0.4|||||A 2-sided 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) evaluating change in amblyopic-eye visual acuity from baseline to the 16-week visit.|An ANCOVA model was fit to compare the change in amblyopic-eye visual acuity from baseline to 16 weeks (14 to \<20 week window) for two treatments (2-sided hypothesis test), adjusting for baseline visual acuity. For this sensitivity analyses, the primary analysis was repeated but included prior amblyopia treatment as an adjustment covariate (in addition to baseline visual acuity) in the model.||0.4|-5.7|
82494575|NCT02200211|164681266|SUPERIORITY||Risk Difference (RD)|5.0|||||TWO_SIDED|95.0|-4.0|13.0|||||Binomial regression was used to compare the group proportions (patching - binocular treatment) of participants classified as improving 2 or more logMAR lines from baseline at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline age group (5 to \<7, 7 to \<13 years) and baseline visual acuity (treated as a continuous covariate).||13|-4|
82494576|NCT02200211|164681266|SUPERIORITY||Risk Difference (RD)|-15.0|||||TWO_SIDED|95.0|-31.0|2.0|||||Binomial regression was used to compare the group proportions (binocular treatment - patching) of participants classified as improving 2 or more logMAR lines (≥ 10 letters) from baseline at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline visual acuity.||2|-31|
82494577|NCT02200211|164681267|SUPERIORITY||Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-1.0|5.0|||||Binomial regression was used to compare the group proportions (patching - binocular treatment) of participants classified as having amblyopia resolution at the 16-week visit.|Binomial regression was used for the treatment group comparison of the proportion of participants classified as improving 2 or more logMAR lines (10 or more letters if E-ETDRS) from baseline at the 16-week visit, adjusting for baseline age group (5 to \<7, 7 to \<13 years) and baseline visual acuity (20/40, 20/50 or worse).||5|-1|
82494578|NCT02200211|164681268|SUPERIORITY|||||||0.83||||||For testing the interaction term, the a priori threshold for statistical significance was 0.05.|ANCOVA|Previously described above in the Statistical Analysis Overview section.||A linear mixed model was used to compare the rate of amblyopic-eye visual acuity improvement between the treatment groups. The ANCOVA model included an interaction term with treatment group and time to compare the change in visual acuity over follow-up by treatment group, adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity. If the interaction term was not statistically significant (p\>0.05), no further comparisons would be performed.||||0.83
82494579|NCT02200211|164681269|SUPERIORITY|||||||0.83||||||The a priori threshold for statistical significance of the interaction term (gender and treatment group) was 0.05.|ANCOVA|Previously described in the Statistical Analysis Overview.||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and gender, adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.83
82494580|NCT02200211|164681269|SUPERIORITY|||||||0.54||||||The a priori threshold for statistical significance of the interaction term (race/ethnicity status and treatment group) was 0.05.|ANCOVA|Four participants (1 binocular treatment group, 3 patching group) were excluded from the analysis due to unknown/not reported race/ethnicity status.||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and race/ethnicity status (White/non-Hispanic, Non-White or Hispanic), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.54
82494581|NCT02200211|164681269|SUPERIORITY|||||||0.8||||||The a priori threshold for statistical significance of the interaction term (age and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and age at baseline (treated as a continuous factor in the model), adjusting for the main effects of the interaction term and baseline visual acuity.||||0.80
82494582|NCT02200211|164681269|SUPERIORITY|||||||0.99||||||The a priori threshold for statistical significance of the interaction term (baseline amblyopic-eye visual acuity and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and baseline amblyopic-eye visual acuity (treated as a continuous factor in the model), adjusting for the main effects of the interaction term and baseline age.||||0.99
82494583|NCT02200211|164681269|SUPERIORITY|||||||0.87||||||The a priori threshold for statistical significance of the interaction term (prior amblyopia treatment and treatment group) was 0.05|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and prior amblyopia treatment (Yes/No), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.87
82494584|NCT02200211|164681269|SUPERIORITY|||||||0.33||||||The a priori threshold for statistical significance of the interaction term (baseline stereoacuity and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and baseline stereoacuity (nil, better than nil), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.33
82494585|NCT02200211|164681269|SUPERIORITY|||||||0.23||||||The a priori threshold for statistical significance of the interaction term (presence of a near heterotropia at baseline and treatment group) was 0.05.|ANCOVA|||Exploratory subgroup analyses were conducted to assess the treatment effect according to subgroups of baseline factors. An analysis of covariance was used to test the interaction between treatment group and presence of a near heterotropia (measured by SPCT) at baseline (Yes/No), adjusting for the main effects of the interaction term and baseline covariates of age and visual acuity.||||0.23
82494586|NCT02200211|164681274|SUPERIORITY|||||||0.66||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.66
82494587|NCT02200211|164681274|SUPERIORITY|||||||0.83||||||A priori threshold for statistical significance was 0.05|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.83
82494588|NCT02200211|164681275|SUPERIORITY|||||||0.19||||||The a priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.19
82494589|NCT02200211|164681275|SUPERIORITY|||||||0.69||||||A priori threshold for statistical significance was 0.05.|Wilcoxon (Mann-Whitney)|||The Wilcoxon rank-sum test was used to compare the distribution of change in stereoacuity levels from baseline to 16 weeks by treatment group.||||0.69
82494590|NCT02200211|164681281|SUPERIORITY||Mean Difference (Final Values)|0.16|||||TWO_SIDED|95.0|0.02|0.3|||||A 95% confidence interval was computed on the adjusted treatment group difference (binocular treatment - patching) in mean change in fellow-eye visual acuity from baseline to 16 weeks. Positive values favor the binocular treatment group.|The treatment group difference in the change in fellow-eye visual acuity from baseline to 16 weeks (logMAR lines) was evaluated in an analysis of covariance model, adjusted for baseline fellow-eye visual acuity.||0.30|0.02|
82494591|NCT02200211|164681282|SUPERIORITY||Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-1.1|1.3|||||A 95% confidence interval was computed on the treatment group difference (binocular treatment - patching) of the adjusted mean change in fellow-eye visual acuity from baseline to 16 weeks.|An analysis of covariance (ANCOVA) model was used to compute the treatment group difference in the mean change in fellow-eye visual acuity (letters) from baseline to 16 weeks, adjusting for baseline visual acuity. A 2-sided 95% confidence interval was computed on the adjusted treatment group difference.||1.3|-1.1|
82494592|NCT02200211|164681283|SUPERIORITY|||||||0.32|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 16-week visit.||||0.32
82494593|NCT02200211|164681283|SUPERIORITY|||||||0.68|||||||Fisher Exact|||Fisher's exact test was used to perform the treatment group comparison of the proportion of participants who developed a new ocular deviation and/or worsening of a pre-existing ocular deviation by 10 prism diopters at the 16-week visit.||||0.68
82494594|NCT02200211|164681284|SUPERIORITY|||||||0.17|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of parents who reported that their child had experienced diplopia (yes/no) at the 16-week visit by treatment group.||||0.17
82494595|NCT02200211|164681284|SUPERIORITY|||||||0.48|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.48
82494596|NCT02200211|164681284|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of parents who reported that their child had experienced diplopia (yes/no) at the 16-week visit by treatment group.||||>0.99
82494597|NCT02200211|164681284|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
82494598|NCT02200211|164681285|SUPERIORITY|||||||0.05|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of participants who reported diplopia (yes/no) at the 16-week visit by treatment group.||||0.05
82494599|NCT02200211|164681285|SUPERIORITY|||||||0.02|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||0.02
82494600|NCT02200211|164681285|SUPERIORITY||||||>|0.99|||||||Fisher Exact|||The Fisher exact test was used to compare the percentage of participants who reported diplopia (yes/no) at the 16-week visit by treatment group.||||>0.99
82494601|NCT02200211|164681285|SUPERIORITY||||||>|0.99|||||||Cochran-Armitage trend test|||The frequency of diplopia, across categories of diplopia, was compared between the treatment groups using the Cochran-Armitage trend test.||||>0.99
82494602|NCT00381485|164681288|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82494603|NCT00381485|164681288|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||95.0|||||ANCOVA|||||||<0.001
82494604|NCT01918774|164681293|OTHER|Pre-post analysis comparing weeks worked in the 6 months preceding baseline and the 6 month study follow-up.|||||<|0.001||||||A priori threshold of significance was p\<.05|within groups t-test|||||||<.001
82494731|NCT01135420|164681349|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.4|||<|0.05|TWO_SIDED||||||ANCOVA|||||||<.05
82494732|NCT00717197|164681356|SUPERIORITY_OR_OTHER||Percentage|21.7|STANDARD_ERROR_OF_MEAN|7.27|||TWO_SIDED|95.0|7.46|43.7||||||||43.7|7.46|
82494733|NCT04249583|164681429|SUPERIORITY|||||||0.05|||||||Cochran-Mantel-Haenszel|||||||0.05
82494734|NCT03311724|164681431|SUPERIORITY||Mean Difference (Final Values)|-1.9|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Mixed Models Analysis|||||-1.4|-2.5|<0.001
82494735|NCT03311724|164681431|SUPERIORITY||Mean Difference (Final Values)|-2.2|||<|0.001|TWO_SIDED|95.0|-2.8|-1.7|||Mixed Models Analysis|||||-1.7|-2.8|<0.001
82494736|NCT03311724|164681431|SUPERIORITY||Mean Difference (Final Values)|-2.0|||<|0.001|TWO_SIDED|95.0|-2.5|-1.4|||Mixed Models Analysis|||||-1.4|-2.5|<0.001
82494737|NCT03311724|164681432|SUPERIORITY||Odds Ratio (OR)|56.54|||<|0.001|TWO_SIDED|95.0|9.43|338.97|||Regression, Logistic|||||338.97|9.43|<0.001
82494738|NCT03311724|164681432|SUPERIORITY||Odds Ratio (OR)|183.48|||<|0.001|TWO_SIDED|95.0|22.0|999.0|||Regression, Logistic||"Maximum confidential interval is \>999"|||999|22.0|<0.001
82494739|NCT03311724|164681432|SUPERIORITY||Odds Ratio (OR)|157.54|||<|0.001|TWO_SIDED|95.0|21.63|999.0|||Regression, Logistic||"Maximum confidential interval is \>999"|||999|21.63|<0.001
82494740|NCT03311724|164681433|SUPERIORITY||Mean Difference (Final Values)|-48.5|||<|0.001|TWO_SIDED|95.0|-70.6|-26.3|||Mixed Models Analysis|||||-26.3|-70.6|<0.001
82494741|NCT03311724|164681433|SUPERIORITY||Mean Difference (Final Values)|-58.0|||<|0.001|TWO_SIDED|95.0|-80.7|-35.2|||Mixed Models Analysis|||||-35.2|-80.7|<0.001
82494742|NCT03311724|164681433|SUPERIORITY||Mean Difference (Final Values)|-61.9|||<|0.001|TWO_SIDED|95.0|-84.6|-39.2|||Mixed Models Analysis|||||-39.2|-84.6|<0.001
82494743|NCT03311724|164681434|SUPERIORITY||Mean Difference (Final Values)|-4.8|||<|0.001|TWO_SIDED|95.0|-7.1|-2.6|||Mixed Models Analysis|||||-2.6|-7.1|<0.001
82494744|NCT03311724|164681434|SUPERIORITY||Mean Difference (Final Values)|-5.0|||<|0.001|TWO_SIDED|95.0|-7.2|-2.7|||Mixed Models Analysis|||||-2.7|-7.2|<0.001
82494745|NCT03311724|164681434|SUPERIORITY||Mean Difference (Final Values)|-5.2|||<|0.001|TWO_SIDED|95.0|-7.5|-2.9|||Mixed Models Analysis|||||-2.9|-7.5|<0.001
82494746|NCT03311724|164681435|SUPERIORITY||Mean Difference (Final Values)|-2.2||||0.075|TWO_SIDED|95.0|-4.7|0.2|||Mixed Models Analysis|||||0.2|-4.7|0.075
82494747|NCT03311724|164681435|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.065|TWO_SIDED|95.0|-4.9|0.1|||Mixed Models Analysis|||||0.1|-4.9|0.065
82494748|NCT03311724|164681435|SUPERIORITY||Mean Difference (Final Values)|-2.4||||0.065|TWO_SIDED|95.0|-4.9|0.2|||Mixed Models Analysis|||||0.2|-4.9|0.065
82494749|NCT00980057|164681575|NON_INFERIORITY|The non-inferiority margin was 12%.||||||0.0002|||||||Farrington-Manning test of two ind. prop|||||||0.0002
82494750|NCT00980057|164681576|SUPERIORITY|The pre-specified minimum objective performance criteria was 0.82|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82494751|NCT00980057|164681578|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|||||||<0.0001
82494752|NCT00980057|164681579|NON_INFERIORITY|The non-inferiority margin is 15|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82494753|NCT00980057|164681580|NON_INFERIORITY|The non-inferiority margin is 2.5||||||0.0009|||||||t-test, 1 sided|||||||0.0009
82494754|NCT00980057|164681581|NON_INFERIORITY|The non-inferiority margin is 0.3|||||<|0.0001|||||||t-test, 1 sided|||||||<0.0001
82494755|NCT00980057|164681582|NON_INFERIORITY|The non-inferiority margin is 30||||||0.0002|||||||t-test, 1 sided|||||||0.0002
82494756|NCT00980057|164681583|NON_INFERIORITY|The non-inferiority margin is 5.1||||||0.002|||||||t-test, 1 sided|||||||0.002
82494757|NCT02139228|164681603|SUPERIORITY_OR_OTHER||Vaccine Group Ratios|0.53|||||TWO_SIDED|95.0|0.36|0.76|||ANOVA|||||0.76|0.36|
82494758|NCT02139228|164681604|SUPERIORITY_OR_OTHER||Vaccine Group Differences|-11.0|||||TWO_SIDED|95.0|-18.6|-4.2|||Clopper-Pearson|||||-4.2|-18.6|
82494759|NCT00706823|164681605|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||t-test, 2 sided|||||||0.02
82494760|NCT00706823|164681606|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||Fisher Exact|||||||0.22
82494761|NCT00706823|164681608|SUPERIORITY_OR_OTHER|||||||0.22||95.0|||||t-test, 2 sided|||||||0.22
82494762|NCT00706823|164681610|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.11||||0.03|TWO_SIDED|95.0|1.1|58.6|||Regression, Logistic|||||58.6|1.1|0.03
82494763|NCT00592384|164681611|SUPERIORITY_OR_OTHER||||||<|0.025||||||Bonferroni corrected for two primary comparisons|Mixed Models Analysis|see above||Primary analyses included observations at baseline, 1, 3, 6, 8, 10, and 12 weeks. Random effects were included for participants' intercepts. Fixed effects were time (linear), treatment (VFN vs. PBO), interaction of time with treatment, stratification factors and potential confounders and variables to improve sensitivity. The primary indicator of treatment effect was the interaction of time by treatment.||||<.025
82494764|NCT00592384|164681624|SUPERIORITY_OR_OTHER||||||<|0.025||||||Bonferroni corrected for two primary outcomes|Mixed Models Analysis|||Primary analyses included observations at baseline, 1, 3, 6, 8, 10, and 12 weeks. Random effects were included for participants' intercepts. Fixed effects were time (linear), treatment (VFN vs. PBO), interaction of time with treatment, stratification factors and potential confounders and variables to improve sensitivity. The primary indicator of treatment effect was the interaction of time by treatment.||||<.025
82494765|NCT03600818|164681625|SUPERIORITY||Difference in percentage|18.0|||=|0.0193|TWO_SIDED|95.0|4.15|31.82||Threshold for significance at 0.05 level.|Fisher Exact|||||31.82|4.15|=0.0193
82494766|NCT03600818|164681626|SUPERIORITY||||||<|0.0001||||||Threshold for significance at 0.05 level.|Wilcoxon rank-sum test|||A hierarchical testing procedure was used to control the overall type I error. If the primary endpoint reaches statistical significance then the secondary endpoint for total cumulative CS dose was tested next.||||<0.0001
82494767|NCT01112865|164681654|SUPERIORITY_OR_OTHER|||||||0.6858|TWO_SIDED|||||Binomial test against the null hypothesis|binomial test|||Null hypothesis: percentage of participants preferring Genotropin Mark VII injection pen = 50%||||0.6858
82494768|NCT01010061|164681669|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.21|||<|0.0001|TWO_SIDED|95.0|0.16|0.28||Type I error controlled through closed test procedure.|Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.28|0.16|<0.0001
82494769|NCT01010061|164681671|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.14|0.27|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.27|0.14|<0.0001
82494770|NCT01010061|164681674|SUPERIORITY||Difference in Response Rates|45.1|||<|0.0001|TWO_SIDED|95.0|34.7|55.5|||Chi-squared|||Includes subjects with best overall response: CR, CRi, PR or nPR.||55.5|34.7|< 0.0001
82494771|NCT01010061|164681675|SUPERIORITY||Hazard Ratio (HR)|0.19|||<|0.0001|TWO_SIDED|95.0|0.15|0.26|||Log Rank, Stratified||Stratified by Binet stage at Baseline.|||0.26|0.15|<0.0001
82494772|NCT01010061|164681676|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68||||0.0196|TWO_SIDED|95.0|0.49|0.94|||Log Rank, Stratified|||||0.94|0.49|0.0196
82494773|NCT01010061|164681677|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.19|||<|0.0001|TWO_SIDED|95.0|0.13|0.28|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.28|0.13|<0.0001
82494774|NCT01010061|164681679|SUPERIORITY_OR_OTHER||Hazard Ratio (stratified)|0.25|||<|0.0001|TWO_SIDED|95.0|0.19|0.35|||Log Rank, Stratified|Stratified by Binet stage at Baseline.||||0.35|0.19|<0.0001
82494775|NCT00740831|164681683|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority analysis based on the use of one-sided confidence intervals, using 2.5% level of statistical significance.|Difference in proportions|1.2|||||ONE_SIDED|97.5|-9.3||||||Newcombe-Wilson method for CI. Percentage in A minus percentage in C needed to be greater than non-inferiority margin of -20%.|As comparison involved two doses of PGL4001 vs GnRH-agonist, Bonferroni correction used to adjust confidence intervals.|||-9.3|
82494776|NCT00740831|164681683|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority analysis based on the use of one-sided confidence intervals, using 2.5% level of statistical significance.|Difference in proportions|8.8|||||ONE_SIDED|97.5|0.4||||||Newcombe-Wilson method for CI. Percentage in B minus percentage in C needed to be greater than non-inferiority margin of -20%.|As comparison involved two doses of PGL4001 vs GnRH-agonist, Bonferroni correction used to adjust confidence intervals.|||0.4|
82494777|NCT00740831|164681684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|0.089|||||TWO_SIDED|95.0|-0.003|0.181||No p-values generated|ANCOVA|Analysis of covariance after log transformation of the data|As comparison of 2 doses of PGL4001 vs GnRH-agonist, Bonneferroni correction used to adjust confidence intervals|||0.181|-0.003|
82494778|NCT00740831|164681684|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority|Mean Difference (Final Values)|0.049|||||TWO_SIDED|95.0|-0.043|0.14||No p-values generated|ANCOVA|Analysis of covariance after log transformation of the data|As comparison of 2 doses of PGL4001 vs GnRH-agonist, Bonneferroni correction used to adjust confidence intervals|||0.14|-0.043|
82494779|NCT00740831|164681685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.3|||<|0.001|TWO_SIDED|95.0|-40.6|-14.6||Since comparisons of 2 doses of ulipristal acetate vs GnRH-agonist, Bonferroni correction was used, p values were doubled (p-value threshold was 0.05) and CI adjusted|Cochran-Mantel-Haenszel|Analysed via Cochran-Mantel-Haenszel test, controlling for strata||||-14.6|-40.6|<0.001
82494780|NCT00740831|164681685|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.9|||<|0.001|TWO_SIDED|95.0|-42.0|-16.6||Since comparisons of 2 doses of ulipristal acetate vs GnRH-agonist, Bonferroni correction was used, p values were doubled (p-value threshold was 0.05) and CI adjusted|Cochran-Mantel-Haenszel|Analysed via Cochran-Mantel-Haenszel test, controlling for strata||||-16.6|-42.0|<0.001
82494781|NCT00740831|164681686|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.3|||<|0.001|TWO_SIDED|95.0|-40.6|-14.6||Since planned analyses involved comparisons of 2 doses of PGL4001 vs GnRH-agonist, a Bonferroni correction was used and p values were doubled (p-value threshold was 0.05) and confidence intervals were similarly adjusted|Cochran-Mantel-Haenszel|Analysed via a Cochran-Mantel-Haenszel test, controlling for strata||||-14.6|-40.6|<0.001
82494782|NCT00740831|164681686|SUPERIORITY_OR_OTHER||Median Difference (Net)|-29.9|||<|0.001|TWO_SIDED|95.0|-42.0|-16.6||Since planned analyses involved comparisons of 2 doses of PGL4001 vs GnRH-agonist, a Bonferroni correction was used and p values were doubled (p-value threshold was 0.05) and confidence intervals were similarly adjusted|Cochran-Mantel-Haenszel|Analysed via a Cochran-Mantel-Haenszel test, controlling for strata||||-16.6|-42.0|<0.001
82494783|NCT03470441|164681687|OTHER||||||||||||||descriptive||||As little data exists on the incidence of arrhythmias that occur over an extended period of time following AMI, descriptive analysis of the primary endpoints (Arrhythmias of Interest at 48 hours and 14 days for overall and anterior infarcts) was appropriate in this study due to the absence of an externally validated benchmark which would normally serve as the basis for hypothesis testing of FDY-5301's effect on arrhythmias.|||
82494784|NCT03470441|164681692|SUPERIORITY||Median Difference (Final Values)|-3.2||||0.32|TWO_SIDED|95.15|-10.8|3.1|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||3.1|-10.8|0.32
82494785|NCT03470441|164681694|SUPERIORITY||Median Difference (Final Values)|-4.4||||0.46|TWO_SIDED|95.16|-20.2|12.1|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test Comparing placebo to anterior infarcts FDY-5301 treated subjects (low, intermediate, and high) combined into one group.||12.10|-20.2|0.46
82494786|NCT03470441|164681700|SUPERIORITY||Median Difference (Final Values)|3.7||||0.25|TWO_SIDED|95.11|-3.6|10.6|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||10.6|-3.6|0.25
82494787|NCT03470441|164681702|SUPERIORITY||Median Difference (Final Values)|4.9||||0.31|TWO_SIDED|95.16|-7.0|16.9|||Wilcoxon (Mann-Whitney)|||Wilcoxon Mann-Whitney Test comparing placebo to anterior infarcts FDY-5301 treated subjects (combined low dose, intermediate dose, and high dose).||16.9|-7|0.31
82494788|NCT03652012|164681707|SUPERIORITY||Mean Difference (Final Values)|54.2||||0.044|TWO_SIDED|95.0|1.54|106.85||As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.|ANOVA||Mean difference (Healthy Controls - MCI).|"We conducted a two-way factorial ANOVA (Group x Condition). Group has two levels: MCI and Healthy controls. Condition has two levels: active muscle contraction and rest.~As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure."||106.85|1.54|0.044
82494789|NCT03652012|164681707|SUPERIORITY||Mean Difference (Final Values)|2.8||||0.912|TWO_SIDED|95.0|-51.87|57.47||As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.|ANOVA||Mean difference in slope of the stimulus-response curve by muscle contraction condition (Active - Rest).|"We conducted a two-way factorial ANOVA (Group x Condition). Group has two levels: MCI and Healthy controls. Condition has two levels: active muscle contraction and rest.~As multiple parameters were assessed from the stimulus-response curve, a Bonferroni-adjusted alpha threshold of α = 0.0125 was applied to account for multiple comparisons when assessing this outcome measure.~The results presented here reflect the main effect of Condition on the slope of the stimulus-response curve."||57.47|-51.87|0.912
82494790|NCT03652012|164681708|SUPERIORITY||Mean Difference (Final Values)|20.6||||0.1021|TWO_SIDED|95.0|-4.33|45.54|||t-test, 2 sided|No adjustment for multiple comparisons.|Mean cortical silent period (CSP; units = milliseconds) in the CN group minus mean CSP in the MCI group. Positive values indicate a longer cortical silent period in the control group.|||45.54|-4.33|0.1021
82494791|NCT03652012|164681709|SUPERIORITY||Mean Difference (Final Values)|0.208||||0.19|TWO_SIDED|95.0|-0.113|0.529|||t-test, 2 sided|||||0.529|-0.113|0.19
82494792|NCT03652012|164681710|SUPERIORITY||Mean Difference (Net)|0.0078||||0.97|TWO_SIDED|95.0|-0.51|0.5|||t-test, 2 sided|||||0.50|-0.51|0.97
82494793|NCT01203098|164681711|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|-1.3|||||TWO_SIDED|95.0|-7.2|4.6||||||Primary analyses were performed on proportion of subjects who experienced thromboembolic events defined as primary efficacy endpoint (incidence of thromboembolic events); incidence of thromboembolic events and its 95% confidence interval (CI) were calculated by treatment group, and difference between DU-176b 15 mg and 30 mg groups and its 95% CI were also calculated. For reference, difference between enoxaparin group and each DU-176b group and its 95% CI of each were calculated.||4.6|-7.2|
82494794|NCT01203098|164681711|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|1.1|||||TWO_SIDED|95.0|-4.6|6.8||||||Primary analyses were performed on proportion of subjects who experienced thromboembolic events defined as primary efficacy endpoint (incidence of thromboembolic events); incidence of thromboembolic events and its 95% confidence interval (CI) were calculated by treatment group, and difference between DU-176b 15 mg and 30 mg groups and its 95% CI were also calculated. For reference, difference between enoxaparin group and each DU-176b group and its 95% CI of each were calculated.||6.8|-4.6|
82494795|NCT03851705|164681717|SUPERIORITY||Mean Difference (Final Values)|-1.68||||0.9047|TWO_SIDED|95.0|-29.19|25.83||The a priori threshold for statistical significance was \<0.05 (two-sided)|ANCOVA|||||25.83|-29.19|0.9047
82494796|NCT03851705|164681718|SUPERIORITY||Mean Difference (Final Values)|6.47||||0.8685|TWO_SIDED|95.0|-70.11|83.05||The a priori threshold for statistical significance was \<0.05 (two-sided)|ANCOVA|||||83.05|-70.11|0.8685
82494797|NCT03851705|164681719|SUPERIORITY||Mean Difference (Final Values)|-12.1||||0.2347|TWO_SIDED|95.0|-32.2|8.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.1|-32.2|0.2347
82494798|NCT03851705|164681719|SUPERIORITY||Mean Difference (Final Values)|4.6||||0.7058|TWO_SIDED|95.0|-19.9|29.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||29.2|-19.9|0.7058
82494799|NCT03851705|164681719|SUPERIORITY||Mean Difference (Final Values)|-5.7||||0.5653|TWO_SIDED|95.0|-25.5|14.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||14.1|-25.5|0.5653
82494800|NCT03851705|164681721|SUPERIORITY||Mean Difference (Final Values)|-19.9||||0.4589|TWO_SIDED|95.0|-73.3|33.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||33.6|-73.3|0.4589
82494801|NCT03851705|164681721|SUPERIORITY||Mean Difference (Final Values)|17.7||||0.5956|TWO_SIDED|95.0|-48.8|84.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||84.3|-48.8|0.5956
82494802|NCT03851705|164681721|SUPERIORITY||Mean Difference (Final Values)|-7.5||||0.7861|TWO_SIDED|95.0|-62.7|47.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||47.7|-62.7|0.7861
82494803|NCT03851705|164681723|SUPERIORITY||Mean Difference (Final Values)|-62.6|||<|0.0001|TWO_SIDED|95.0|-80.1|-45.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||-45.1|-80.1|<.0001
82494804|NCT03851705|164681723|SUPERIORITY||Mean Difference (Final Values)|-60.6|||<|0.0001|TWO_SIDED|95.0|-83.5|-37.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-37.8|-83.5|<.0001
82494805|NCT03851705|164681723|SUPERIORITY||Mean Difference (Final Values)|-92.3|||<|0.0001|TWO_SIDED|95.0|-120.4|-64.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-64.2|-120.4|<.0001
82494806|NCT03851705|164681725|SUPERIORITY||Mean Difference (Final Values)|-316.6|||<|0.0001|TWO_SIDED|95.0|-420.7|-212.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||-212.6|-420.7|<.0001
82494807|NCT03851705|164681725|SUPERIORITY||Mean Difference (Final Values)|-304.4|||<|0.0001|TWO_SIDED|95.0|-408.0|-200.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||-200.8|-408.0|<.0001
82494808|NCT03851705|164681725|SUPERIORITY||Mean Difference (Final Values)|-390.4|||<|0.0001|TWO_SIDED|95.0|-504.5|-276.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||-276.3|-504.5|<.0001
82494809|NCT03851705|164681727|SUPERIORITY||Mean Difference (Final Values)|-7.9||||0.3299|TWO_SIDED|95.0|-23.9|8.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.2|-23.9|0.3299
82494810|NCT03851705|164681727|SUPERIORITY||Mean Difference (Final Values)|2.7||||0.7778|TWO_SIDED|95.0|-16.7|22.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||22.2|-16.7|0.7778
82494811|NCT03851705|164681727|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.6613|TWO_SIDED|95.0|-19.2|12.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||12.3|-19.2|0.6613
82494812|NCT03851705|164681728|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.4911|TWO_SIDED|95.0|-74.0|36.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||36.0|-74.0|0.4911
82494813|NCT03851705|164681728|SUPERIORITY||Mean Difference (Final Values)|11.1||||0.7461|TWO_SIDED|95.0|-57.2|79.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||79.4|-57.2|0.7461
82494814|NCT03851705|164681728|SUPERIORITY||Mean Difference (Final Values)|-5.9||||0.837|TWO_SIDED|95.0|-62.8|51.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||51.1|-62.8|0.8370
82494815|NCT03851705|164681731|SUPERIORITY||Mean Difference (Final Values)|-12.7||||0.1371|TWO_SIDED|95.0|-29.5|4.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.2|-29.5|0.1371
82494816|NCT03851705|164681731|SUPERIORITY||Mean Difference (Final Values)|-3.5||||0.71|TWO_SIDED|95.0|-22.6|15.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||15.5|-22.6|0.7100
82494817|NCT03851705|164681731|SUPERIORITY||Mean Difference (Final Values)|-10.3||||0.2278|TWO_SIDED|95.0|-27.2|6.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||6.6|-27.2|0.2278
82494818|NCT03851705|164681733|SUPERIORITY||Mean Difference (Final Values)|-19.4||||0.2044|TWO_SIDED|95.0|-49.7|10.9||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||10.9|-49.7|0.2044
82494819|NCT03851705|164681733|SUPERIORITY||Mean Difference (Final Values)|-4.8||||0.7875|TWO_SIDED|95.0|-39.9|30.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||30.4|-39.9|0.7875
82494820|NCT03851705|164681733|SUPERIORITY||Mean Difference (Final Values)|-15.8||||0.3193|TWO_SIDED|95.0|-47.3|15.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||15.7|-47.3|0.3193
82494821|NCT03851705|164681735|SUPERIORITY||Mean Difference (Final Values)|-10.1||||0.2877|TWO_SIDED|95.0|-29.0|8.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||8.8|-29.0|0.2877
82494822|NCT03851705|164681735|SUPERIORITY||Mean Difference (Final Values)|3.0||||0.7944|TWO_SIDED|95.0|-19.7|25.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||25.7|-19.7|0.7944
82494823|NCT03851705|164681735|SUPERIORITY||Mean Difference (Final Values)|-5.1||||0.5803|TWO_SIDED|95.0|-23.4|13.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||13.3|-23.4|0.5803
82494824|NCT03851705|164681737|SUPERIORITY||Mean Difference (Final Values)|-19.1||||0.4848|TWO_SIDED|95.0|-73.6|35.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||35.3|-73.6|0.4848
82494825|NCT03851705|164681737|SUPERIORITY||Mean Difference (Final Values)|12.2||||0.722|TWO_SIDED|95.0|-56.0|80.3||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||80.3|-56.0|0.7220
82494826|NCT03851705|164681737|SUPERIORITY||Mean Difference (Final Values)|-7.0||||0.8036|TWO_SIDED|95.0|-63.6|49.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||49.5|-63.6|0.8036
82494827|NCT03851705|164681745|SUPERIORITY||Mean Difference (Final Values)|2.4||||0.6028|TWO_SIDED|95.0|-6.8|11.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||11.7|-6.8|0.6028
82494828|NCT03851705|164681745|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.8428|TWO_SIDED|95.0|-11.5|14.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||14.0|-11.5|0.8428
82494829|NCT03851705|164681745|SUPERIORITY||Mean Difference (Final Values)|3.4||||0.4946|TWO_SIDED|95.0|-6.6|13.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||13.4|-6.6|0.4946
82494830|NCT03851705|164681747|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.9237|TWO_SIDED|95.0|-4.0|4.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.4|-4.0|0.9237
82494831|NCT03851705|164681747|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.7177|TWO_SIDED|95.0|-6.5|4.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||4.5|-6.5|0.7177
82494832|NCT03851705|164681747|SUPERIORITY||Mean Difference (Final Values)|1.3||||0.5416|TWO_SIDED|95.0|-2.9|5.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.4|-2.9|0.5416
82494833|NCT03851705|164681749|SUPERIORITY||Mean Difference (Final Values)|1.0||||0.6497|TWO_SIDED|95.0|-3.2|5.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||5.2|-3.2|0.6497
82494834|NCT03851705|164681749|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.3209|TWO_SIDED|95.0|-7.9|2.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||2.6|-7.9|0.3209
82494835|NCT03851705|164681749|SUPERIORITY||Mean Difference (Final Values)|-0.3||||0.9294|TWO_SIDED|95.0|-6.3|5.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.7|-6.3|0.9294
82494836|NCT03851705|164681751|SUPERIORITY||Mean Difference (Final Values)|11.3||||0.3105|TWO_SIDED|95.0|-10.8|33.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||33.4|-10.8|0.3105
82494837|NCT03851705|164681751|SUPERIORITY||Mean Difference (Final Values)|-11.4||||0.3018|TWO_SIDED|95.0|-33.3|10.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||10.5|-33.3|0.3018
82494838|NCT03851705|164681751|SUPERIORITY||Mean Difference (Final Values)|2.3||||0.8755|TWO_SIDED|95.0|-27.0|31.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||31.6|-27.0|0.8755
82494839|NCT03851705|164681753|SUPERIORITY||Mean Difference (Final Values)|-1.9||||0.6848|TWO_SIDED|95.0|-11.5|7.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||7.6|-11.5|0.6848
82494840|NCT03851705|164681753|SUPERIORITY||Mean Difference (Final Values)|-5.4||||0.4075|TWO_SIDED|95.0|-18.5|7.6||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||7.6|-18.5|0.4075
82494841|NCT03851705|164681753|SUPERIORITY||Mean Difference (Final Values)|-2.8||||0.5998|TWO_SIDED|95.0|-13.4|7.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||7.8|-13.4|0.5998
82494842|NCT03851705|164681755|SUPERIORITY||Mean Difference (Final Values)|-1.0||||0.7958|TWO_SIDED|95.0|-8.4|6.5||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||6.5|-8.4|0.7958
82494843|NCT03851705|164681755|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.6003|TWO_SIDED|95.0|-12.7|7.4||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||7.4|-12.7|0.6003
82494844|NCT03851705|164681755|SUPERIORITY||Mean Difference (Final Values)|-2.6||||0.5352|TWO_SIDED|95.0|-11.0|5.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||5.8|-11.0|0.5352
82494845|NCT03851705|164681757|SUPERIORITY||Mean Difference (Final Values)|-8.9||||0.1716|TWO_SIDED|95.0|-21.8|4.0||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||4.0|-21.8|0.1716
82494846|NCT03851705|164681757|SUPERIORITY||Mean Difference (Final Values)|-19.0||||0.1671|TWO_SIDED|95.0|-46.2|8.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||8.2|-46.2|0.1671
82494847|NCT03851705|164681757|SUPERIORITY||Mean Difference (Final Values)|-9.7||||0.1808|TWO_SIDED|95.0|-24.2|4.7||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||4.7|-24.2|0.1808
82494848|NCT03851705|164681759|SUPERIORITY||Mean Difference (Final Values)|-9.6||||0.3077|TWO_SIDED|95.0|-28.3|9.1||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 90||9.1|-28.3|0.3077
82494849|NCT03851705|164681759|SUPERIORITY||Mean Difference (Final Values)|-9.4||||0.3628|TWO_SIDED|95.0|-30.1|11.2||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 150||11.2|-30.1|0.3628
82494850|NCT03851705|164681759|SUPERIORITY||Mean Difference (Final Values)|-6.2||||0.4669|TWO_SIDED|95.0|-23.2|10.8||The a priori threshold for statistical significance was \<0.05 (two-sided)|Mixed Model Repeated Measures|||Day 180||10.8|-23.2|0.4669
82494851|NCT03851705|164681765|SUPERIORITY||Mean Difference (Final Values)|-4.31||||0.6814|TWO_SIDED|95.0|-24.88|16.27|||ANCOVA|||||16.27|-24.88|0.6814
82494852|NCT03851705|164681766|SUPERIORITY||Mean Difference (Final Values)|-2.1||||0.8725|TWO_SIDED|95.0|-27.7|23.51|||ANCOVA|||||23.51|-27.70|0.8725
82494853|NCT03851705|164681767|SUPERIORITY||Mean Difference (Final Values)|-0.79||||0.9425|TWO_SIDED|95.0|-22.3|20.72|||ANCOVA|||||20.72|-22.30|0.9425
82494854|NCT03851705|164681768|SUPERIORITY||Odds Ratio (OR)|1.1|||||TWO_SIDED|95.0|0.2|5.2|||Regression, Logistic|||||5.2|0.2|
82494855|NCT00621582|164681772|SUPERIORITY_OR_OTHER|||||||0.01||95.0|||||Chi-squared|||comparing results of post-treatment global assessment by patient with that of pre-treatment||||0.01
82494856|NCT00864383|164681790|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was defined as a between-group difference of less than 6 percentage points in the upper boundary of the two-sided 97.5% Wald confidence interval for the difference in proportion of patients with an unfavorable outcome.|Adjusted difference in proportions|6.1|||||TWO_SIDED|97.5|1.7|10.5|||||Adjusted difference from control in proportion of unfavorable outcome - percentage points|||10.5|1.7|
82494857|NCT00864383|164681790|NON_INFERIORITY_OR_EQUIVALENCE|Noninferiority was defined as a between-group difference of less than 6 percentage points in the upper boundary of the two-sided 97.5% Wald confidence interval for the proportion of patients with an unfavorable outcome.|Adjusted difference from control|11.4|||||TWO_SIDED|97.5|6.7|16.1|||||Adjusted difference from control in rate of unfavorable outcome- percentage points|||16.1|6.7|
82494858|NCT04545385|164681827|OTHER||Odds Ratio (OR)|1.49||||0.7817|TWO_SIDED|95.0|0.545|4.071|||Regression, Logistic|||Analysis was performed using logistic regression with fixed effects for treatment, baseline FEV1, weight, age group, and gender.||4.071|0.545|0.7817
82494859|NCT00668707|164681864|SUPERIORITY||Risk Ratio (RR)|1.01||||0.94|TWO_SIDED|95.0|0.83|1.22|||Regression, Logistic|||Analysis conducted was an adjusted logistic regression (adjuvant chemotherapy, adjuvant radiation, smoking history). Results were presented as a relative risk. Based on an estimated 30% outcome rate of recurrence or mortality in the control arm, 294 participants per arm provided 80% power to detect a relative risk of one third at an alpha of 0.05. We inflated this sample size to 346 per arm to account for 15% lost to follow-up.||1.22|0.83|0.94
82494860|NCT00668707|164681865|SUPERIORITY||Mean Difference (Net)|1.2||||0.36|TWO_SIDED|95.0|-1.3|3.7|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Analysis for the LC-13 scale.||3.7|-1.3|0.36
82494861|NCT00668707|164681865|SUPERIORITY||Mean Difference (Net)|0.4||||0.8|TWO_SIDED|95.0|-2.5|3.3||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Symptom Scale.||3.3|-2.5|0.80
82494862|NCT00668707|164681865|SUPERIORITY||Mean Difference (Net)|-0.7||||0.69|TWO_SIDED|95.0|-4.1|2.7||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Functional Scale.||2.7|-4.1|0.69
82494863|NCT00668707|164681865|SUPERIORITY||Mean Difference (Net)|-3.8||||0.11|TWO_SIDED|95.0|-8.5|0.9||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.|Mixed Models Analysis|||Analysis for Global Scale.||0.9|-8.5|0.11
82494864|NCT00668707|164681866|SUPERIORITY||Mean Difference (Net)|-3.1||||0.13|TWO_SIDED|95.0|-7.2|0.9|||Mixed Models Analysis|||Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||0.9|-7.2|0.13
82494865|NCT00668707|164681867|SUPERIORITY||Mean Difference (Net)|-4.1||||0.18|TWO_SIDED|95.0|-10.0|1.9|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Sleep Adequacy Analysis.||1.9|-10.0|0.18
82494866|NCT00668707|164681867|SUPERIORITY||Mean Difference (Net)|1.4||||0.41|TWO_SIDED|95.0|-2.0|4.8|||Mixed Models Analysis|Between-arm least squares mean difference in change from randomization to 24 months post-surgery represented the effect of the intervention.||Sleep problems index II analysis.||4.8|-2.0|0.41
82494867|NCT00668707|164681871|SUPERIORITY|||||||0.62|||||||Chi-squared|||||||0.62
82494868|NCT00668707|164681872|SUPERIORITY||Hazard Ratio (HR)|0.95||||0.41|TWO_SIDED|95.0|0.85|1.07|||Log Rank|||DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||1.07|0.85|0.41
82494869|NCT00668707|164681872|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.66|TWO_SIDED|95.0|0.85|1.11|||Log Rank|||This analysis included only those with stage I or II cancer (pathologic stage). DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||1.11|0.85|0.66
82494870|NCT00668707|164681872|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.004|TWO_SIDED|95.0|0.61|0.92|||Log Rank|||This analysis included only those participants who had stage III or IV cancer (pathologic stage). DFS up to five years post-surgery was compared using Kaplan-Meier curves and the log rank test, followed by a hazard ratio calculated using the Cox proportional hazard model adjusting for adjuvant chemotherapy, adjuvant radiation, and smoking history.||0.92|0.61|0.004
82494871|NCT00668707|164681873|SUPERIORITY||Mean Difference (Final Values)|-0.67||||0.95|TWO_SIDED|95.0|-3.21|4.56|||Wilcoxon (Mann-Whitney)|||Analysis of melatonin changes||4.56|-3.21|0.95
82494872|NCT00668707|164681873|SUPERIORITY||Mean Difference (Final Values)|3.63||||0.02|TWO_SIDED|95.0|-0.15|7.42|||Wilcoxon (Mann-Whitney)|||Analysis of placebo changes||7.42|-0.15|0.02
82494873|NCT00668707|164681874|SUPERIORITY|||||||0.37|||||||Chi-squared|||||||0.37
82494874|NCT00668707|164681875|SUPERIORITY|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||This analysis compares the mean ratios of 6 month cytotoxicity and baseline cytotoxicity between arms.||||0.34
82494875|NCT00826943|164681876|SUPERIORITY_OR_OTHER|||||||0.03||95.0||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.03
82494876|NCT00826943|164681876|SUPERIORITY_OR_OTHER|||||||0.11||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.11
82494877|NCT00826943|164681876|SUPERIORITY_OR_OTHER|||||||0.45|||||||Wilcoxon (Mann-Whitney)|||||||.45
82494878|NCT00826943|164681877|SUPERIORITY_OR_OTHER|||||||0.27||95.0||||The threshold for significance was p \< .05.|Wilcoxon (Mann-Whitney)|||||||.27
82494879|NCT00826943|164681877|SUPERIORITY_OR_OTHER|||||||0.8||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.8
82494880|NCT00826943|164681877|SUPERIORITY_OR_OTHER|||||||0.52||||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.52
82494881|NCT00826943|164681878|SUPERIORITY_OR_OTHER|||||||0.14||95.0||||The threshold for significance was p \< 0.05.|Wilcoxon (Mann-Whitney)|||||||.14
82494882|NCT00826943|164681878|SUPERIORITY_OR_OTHER|||||||0.54|||||||Wilcoxon (Mann-Whitney)|||||||.54
82494883|NCT00826943|164681878|SUPERIORITY_OR_OTHER|||||||0.42|||||||Wilcoxon (Mann-Whitney)|||||||.42
82494884|NCT02342327|164681908|OTHER||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.55|1.22||||||Hazard ratio for time to lapse to smoking in the group switched to non-menthol cigarettes relative to the group continuing to smoke menthol cigarettes||1.22|0.55|
82494885|NCT02342327|164681909|OTHER||Hazard Ratio (HR)|0.67|||||TWO_SIDED|95.0|0.42|1.06||||||Hazard ratio for time to relapse to smoking in the group switched to non-menthol cigarettes relative to the group continuing to smoke menthol cigarettes||1.06|0.42|
82494886|NCT03003390|164681941|SUPERIORITY||Posterior probabilities|0.09|||||TWO_SIDED||||||||||Using informative priors of B(1, 1) on the enoxaparin arm and B(18, 82) on the usual care arm, the risks of CADVT were 0.32 (95% CrI: 0.16, 0.51) in the enoxaparin arm and 0.25 (95% CrI: 0.18, 0.33) in the usual care arm. The posterior probability that the absolute difference in the risk of CADVT was lower by 0.06 in the enoxaparin arm was 9.1%. Using minimally informative priors, the risk ratio of CADVT with enoxaparin was 0.55 (95% CrI: 0.24, 1.11).|||
82494887|NCT03003390|164681942|SUPERIORITY|||||||0.22|||||||Linear mixed effects model|||||||0.22
82494888|NCT03003390|164681943|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82494889|NCT03003390|164681944|SUPERIORITY|||||||0.31|||||||Wilcoxon (Mann-Whitney)|||||||0.31
82494890|NCT03003390|164681945|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
82494891|NCT03003390|164681946|SUPERIORITY|||||||1|||||||Fisher Exact|||||||1.00
82494892|NCT03003390|164681948|SUPERIORITY|||||||0.43|||||||Fisher Exact|||||||0.43
82494893|NCT03156543|164681956|SUPERIORITY|||||||0.004|||||||Fisher Exact|||Analysis was based on the participants who were positive for C. acnes.||||0.004
82499053|NCT03978520|164689008|SUPERIORITY||Response Rate Difference|16.9|||=|0.028|TWO_SIDED|95.0|1.8|31.9|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||31.9|1.8|=0.028
82494894|NCT02957305|164681958|NON_INFERIORITY|400µg of misoprostol yields a 96% cervical dilation \> 8 mm. We considered 86% of the 200 µg misoprostol group as the minimal acceptable percentage. The non-inferiority margin was determined by 24.46.|treatment difference|25.0||||0.025|ONE_SIDED|95.0||97.5||The null hypothesis: percentage of dilation with 400µg ≥ percentage of dilation with 200µg + 25% Alternative hypothesis: percentage of dilation with 400µg - 25% \< percentage of dilation with 200µg|difference between proportions|difference between percentages and 95% confidence interval||If there is a true difference in favour of the standard treatment of 10% (96% vs 86%), then 184 patients are required to be 95% sure that the upper limit of a one-sided 97.5% confidence interval (or equivalently a 95% two-sided confidence interval) will exclude a difference in favour of the standard group of more than 25%||97.5||0.025
82494895|NCT02957305|164681958|NON_INFERIORITY|The non-inferiority margin was determined by ⅓ of the difference between the 400µg effect (96.7%), compared to the 200 µg dose (23.3%), i.e. 73.4 / 3 = 24.46%|Difference between proportions|0.1146||||0.004|TWO_SIDED|95.0|0.037|0.192|||Chi-squared||The difference between both groups was 11.5% (95%CI = 3.7% to 19.2%)|||0.192|0.037|0.004
82494896|NCT02957305|164681960|SUPERIORITY||Median Difference (Final Values)|0.0||||0.9|TWO_SIDED|95.0|0.0|0.0|||Wilcoxon (Mann-Whitney)|||||0|0|0.9
82494897|NCT00674700|164681961|SUPERIORITY_OR_OTHER|||||||0.0066||||||main effects = treatment and pools of study centers, Covariates = age, gender, asthma status, sensitization status and baseline ARTSS|ANCOVA|||||||0.0066
82494898|NCT00674700|164681961|SUPERIORITY_OR_OTHER|||||||0.015||||||main effects= treatment and pools of study centers, Covariates = age, gender, asthma status, sensitization status and baseline ARTSS|ANCOVA|||||||0.015
82494899|NCT00674700|164681962|SUPERIORITY_OR_OTHER|||||||0.0086|||||||ANCOVA|||||||0.0086
82494900|NCT00674700|164681962|SUPERIORITY_OR_OTHER|||||||0.0095|||||||ANCOVA|||||||0.0095
82494901|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-95.74|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494902|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-130.5|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494903|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-129.86|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494904|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-165.91|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494905|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-167.94|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494906|NCT01758432|164681978|SUPERIORITY||Least Squares Means (Difference)|-135.91|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494907|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|85559.49||||0.0004|TWO_SIDED|95.0|||||ANCOVA|||||||0.0004
82494908|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|105508.3|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494909|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|182753.2|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494910|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|193684.5|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494911|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|178055.0|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494912|NCT01758432|164681979|SUPERIORITY||Least Squares Means (Difference)|169709.9|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494913|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-4.58|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494914|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-4.29|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494915|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-6.15|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494916|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-6.79|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494917|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-7.49|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494918|NCT01758432|164681980|SUPERIORITY||Least Squares Means (Difference)|-6.71|||<|0.0001|TWO_SIDED|95.0|||||ANCOVA|||||||<0.0001
82494919|NCT01397084|164682012|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Wilocoxon signed-rank test|||Wilcoxon signed-rank test was used to check whether the change in the frequency of heartburn during the 7-day period prior to the 8 week visit (Visit 3) compared to the frequency of heartburn during the 7-day period prior to baseline (Visit 1) was statistically significant or not.||||<0.001
82494920|NCT01976338|164682035|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Cochran-Mantel-Haenszel|||||||<0.001
82494921|NCT03766581|164682048|SUPERIORITY||Relative Risk (RR)|0.99|||||TWO_SIDED|95.0|0.87|1.1|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 25 mg QD over Placebo||1.10|0.87|
82494922|NCT03766581|164682048|SUPERIORITY||Relative Risk (RR)|0.99|||||TWO_SIDED|95.0|0.83|1.15|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 25 mg BID over Placebo||1.15|0.83|
82494923|NCT03766581|164682048|SUPERIORITY||Relative Risk (RR)|0.93|||||TWO_SIDED|95.0|0.76|1.16|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 50 mg BID over Placebo||1.16|0.76|
82494924|NCT03766581|164682048|SUPERIORITY||Relative Risk (RR)|0.92|||||TWO_SIDED|95.0|0.73|1.18|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 100 mg BID over Placebo||1.18|0.73|
82494925|NCT03766581|164682048|SUPERIORITY||Relative Risk (RR)|0.91|||||TWO_SIDED|95.0|0.69|1.31|||MCP-MOD|Multiple Comparison Procedures, MODel|95% confidence interval (CI) for composite event based on bootstrap (10000 samples)|Milvexian 200 mg BID over Placebo||1.31|0.69|
82494926|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|0.83|||||TWO_SIDED|95.0|0.46|1.49|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 25 mg QD over Placebo||1.49|0.46|
82494927|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|0.69|||||TWO_SIDED|95.0|0.36|1.3|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 25 mg BID over Placebo||1.30|0.36|
82494928|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|0.72|||||TWO_SIDED|95.0|0.39|1.33|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 50 mg BID over Placebo||1.33|0.39|
82494929|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|0.65|||||TWO_SIDED|95.0|0.33|1.25|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 100 mg BID over Placebo||1.25|0.33|
82494930|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|1.4|||||TWO_SIDED|95.0|0.87|2.25|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 200 mg BID||2.25|0.87|
82494931|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|2.48|||||TWO_SIDED|95.0|0.83|7.42|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 50 mg QD over Placebo||7.42|0.83|
82494932|NCT03766581|164682070|SUPERIORITY||Relative Risk (RR)|1.01|||||TWO_SIDED|95.0|0.15|6.96|||Wald Confidence Limits|95% CIs for RR are constructed using Wald Confidence Limits||Milvexian 100 mg QD over Placebo||6.96|0.15|
82494933|NCT03716024|164682071|SUPERIORITY||Mean Difference (Final Values)|13.6|||||TWO_SIDED|95.0|1.3|26.0|||||omadacycline minus linezolid|||26.0|1.3|
82494934|NCT03716024|164682072|SUPERIORITY||Mean Difference (Final Values)|4.8|||||TWO_SIDED|95.0|-1.7|11.4|||||omadacycline minus linezolid|||11.4|-1.7|
82494935|NCT03716024|164682073|SUPERIORITY||Mean Difference (Final Values)|13.8|||||TWO_SIDED|95.0|0.9|26.7|||||omadacycline minus linezolid|||26.7|0.9|
82494936|NCT03716024|164682074|SUPERIORITY||Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-5.3|14.0||||||||14.0|-5.3|
82494937|NCT04182763|164682096|SUPERIORITY|||||||0.5|||||||Wald test after neg binomial regression|Chi-squared with 3 d.f.||Mean counts of events per person were calculated from a negative binomial regression model with categorical coefficients for active dose levels, controlling for the baseline number of prescriptions. A joint test of the null hypothesis that the three regression parameters representing active treatment = 0 was done.||||0.50
82494938|NCT04182763|164682101|SUPERIORITY|||||||0.105||||||Two-sided threshold of p\<.10|Linear contrast / test for trend|Contrast after mixed-effects GLM with log link, random subject intercept, treatment, PKAN type, and time (1 mo vs 3d).||Test that high \> med \> low \> placebo vs the null that all groups are equal at 1 month + 3 days after first dose. Adjusted for PKAN type (classical or atypical), because randomization was stratified on type, and time point.||||0.105
82494939|NCT04182763|164682101|SUPERIORITY|||||||0.55||||||Two-sided threshold of p\<.10|Linear contrast / test for trend|Contrast after GLM with log link, treatment, and PKAN type.||Test that high \> med \> low \> placebo vs the null that all groups are equal at 6 months after first dose. PKAN type (classical or atypical) was included because randomization was stratified on type. The study hypothesis was that expression levels would not vary significantly at this time point.||||0.55
82494940|NCT03984994|164682130|SUPERIORITY||Mean Difference (Final Values)|0.2||||0.27|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.27
82494941|NCT03984994|164682131|SUPERIORITY||Mean Difference (Final Values)|1.8||||0.22|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.22
82494942|NCT03984994|164682132|SUPERIORITY||Mean Difference (Final Values)|251.0||||0.21|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.21
82494943|NCT03984994|164682133|SUPERIORITY||Mean Difference (Final Values)|10.7||||0.28|TWO_SIDED||||||t-test, 2 sided|||"Per the aims of the study, the responses to RT were compared between 2 arms/groups. The change in the outcome (post-RT minus pre-RT) in each arm/group was compared using a t-test. Responses to AEX training itself are not assessed as this was not an aim or hypothesis of the study.~The hypothesis was that the Aerobic exercise training followed by resistance training arm would have greater changes/improvements in study outcomes than the Resistance training followed by aerobic training group."||||0.28
82494944|NCT02535312|164682163|OTHER|||||||0.08|||||||Log Rank|||||||0.08
82494945|NCT02535312|164682164|OTHER|||||||0.15|||||||Log Rank|||||||0.15
82494946|NCT01288235|164682181|OTHER||3-Year Cumulative incidence|14.5|||||TWO_SIDED|95.0|8.3|22.3||||||||22.3|8.3|
82494947|NCT01288235|164682181|OTHER||5-Year Cumulative incidence|20.2|||||TWO_SIDED|95.0|12.7|28.9||||||||28.9|12.7|
82494948|NCT01288235|164682182|OTHER||Mean Difference (Net)|1.1||||0.543|TWO_SIDED|95.0|-2.6|4.9|||t-test, 2 sided|Paired t test||||4.9|-2.6|0.543
82494949|NCT01288235|164682183|OTHER||3-Year Local Disease Control Probability|89.9|||||TWO_SIDED|95.0|83.1|94.9||||||||94.9|83.1|
82494950|NCT01288235|164682183|OTHER||5-Year Local Disease Control Probability|85.9|||||TWO_SIDED|95.0|78.2|91.9||||||||91.9|78.2|
82494951|NCT01288235|164682183|OTHER||3-Year Distant Disease Control|97.0|||||TWO_SIDED|95.0|92.1|99.2||||||||99.2|92.1|
82494952|NCT01288235|164682183|OTHER||5-Year Distant Disease Control|95.0|||||TWO_SIDED|95.0|89.4|98.1||||||||98.1|89.4|
82494953|NCT01288235|164682184|OTHER||3-Year Cumulative incidence of grade 3+|12.2|||||TWO_SIDED|95.0|6.6|19.5||||||||19.5|6.6|
82494954|NCT01288235|164682184|OTHER||5-Year Cumulative incidence of grade 3+|16.3|||||TWO_SIDED|95.0|9.8|24.3||||||||24.3|9.8|
82494955|NCT01288235|164682185|OTHER||3-Year Cumulative inc. of hearing loss|12.5|||||TWO_SIDED|95.0|2.9|29.5||||||||29.5|2.9|
82494956|NCT01288235|164682185|OTHER||5-Year Cumulative inc. of hearing loss|12.5|||||TWO_SIDED|95.0|2.9|29.5||||||||29.5|2.9|
82494957|NCT02002091|164682197|OTHER|||||||0.706|||||||Chi-squared|||||||0.706
82494958|NCT02002091|164682198|OTHER|||||||0.346|||||||Chi-squared|||||||0.346
82494959|NCT02002091|164682199|OTHER|||||||0.123|||||||Mantel Haenszel|||||||0.123
82494960|NCT02002091|164682200|OTHER|||||||0.968|||||||Chi-squared, Corrected|||||||0.968
82494961|NCT02002091|164682201|SUPERIORITY_OR_OTHER_LEGACY|||||||0.004||||||The threshold for statistical significance for P-Value is \<0.05|Fisher Exact|||||||0.004
82494962|NCT02002091|164682202|SUPERIORITY_OR_OTHER_LEGACY|||||||0.988|||||||Fisher Exact|||||||0.988
82494963|NCT02002091|164682203|SUPERIORITY_OR_OTHER_LEGACY|||||||0.038|||||||Fisher Exact|||||||0.038
82494964|NCT02002091|164682205|SUPERIORITY_OR_OTHER_LEGACY|||||||0.917|||||||Chi-squared, Corrected|||||||0.917
82494965|NCT02002091|164682206|SUPERIORITY_OR_OTHER_LEGACY|||||||0.816|||||||Chi-squared, Corrected|||||||0.816
82494966|NCT02002091|164682207|SUPERIORITY_OR_OTHER_LEGACY|||||||0.008||||||Statistical significance : p\< 0.05|Fisher Exact|||||||0.008
82494967|NCT02002091|164682209|OTHER|||||||0.025||||||The threshold of statistical difference is P-value \< 0.05|Chi-squared, Corrected|||||||0.025
82494968|NCT02002091|164682212|OTHER|||||||0.059||||||the threshold for statistical significance used is P-value \<0.05|Fisher Exact|||||||0.059
82494969|NCT01146834|164682232|SUPERIORITY||Risk Difference (RD)|-0.02||||0.9|TWO_SIDED|95.0|-0.32|0.28|||Chi-squared|||Arm B was initially closed due to low accrual, and Arms D and E were also closed due to no accrual. Arms A and C also had very low accrual. Therefore, the comparison of the primary outcome between Arms A and C is for exploratory purposes only.||0.28|-0.32|0.90
82494970|NCT01146834|164682234|SUPERIORITY||Risk Difference (RD)|-0.25||||0.25|TWO_SIDED|95.0|-0.68|0.18|||Fisher Exact|||||0.18|-0.68|0.25
82494971|NCT02083783|164682235|SUPERIORITY||Mean Difference (Final Values)|-14.68|||<|0.0001|TWO_SIDED|95.0|-17.9|11.6|||ANCOVA|||Treatment difference in SKAMP-C scores from baseline to 4 hours postdose.||11.6|-17.9|<0.0001
82494972|NCT02083783|164682236|SUPERIORITY||Mean Difference (Final Values)|38.9|||<|0.0001|TWO_SIDED|95.0|27.3|50.6|||ANCOVA|||p-value for comparison between change from baseline in placebo vs active treatment||50.6|27.3|<0.0001
82494973|NCT04967443|164682237|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|102.1|||||TWO_SIDED|90.0|96.14|108.43|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||108.43|96.14|
82494974|NCT04967443|164682237|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.87|||||TWO_SIDED|90.0|98.68|111.44|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||111.44|98.68|
82494975|NCT04967443|164682237|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.45|||||TWO_SIDED|90.0|99.58|109.55|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||109.55|99.58|
82494976|NCT04967443|164682238|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|113.96|||||TWO_SIDED|90.0|102.79|126.34|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||126.34|102.79|
82494977|NCT04967443|164682238|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|126.83|||||TWO_SIDED|90.0|114.32|140.7|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||140.70|114.32|
82494978|NCT04967443|164682238|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|118.07|||||TWO_SIDED|90.0|106.46|130.94|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||130.94|106.46|
82494979|NCT04967443|164682239|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|100.91|||||TWO_SIDED|90.0|94.92|107.27|||Mixed Models Analysis|||Test: Prazosin HCL 1x2 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||107.27|94.92|
82494980|NCT04967443|164682239|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|102.08|||||TWO_SIDED|90.0|95.97|108.57|||Mixed Models Analysis|||Test: Prazosin HCL 2x1 mg (Ascoli); Reference: Prazosin HCL 1x2 mg (Barceloneta)||108.57|95.97|
82494981|NCT04967443|164682239|EQUIVALENCE|Bioequivalence will be demonstrated if the estimated 90% confidence interval for the ratios (Test/Reference) of adjusted geometric means for AUClast and Cmax fall entirely within (80%, 125%).|Ratio of adjusted geometric means|104.04|||||TWO_SIDED|90.0|99.09|109.23|||Mixed Models Analysis|||Test: Prazosin HCL 1x5 mg (Ascoli); Reference: Prazosin HCL 1x5 mg (Barceloneta)||109.23|99.09|
82494982|NCT00418457|164682270|SUPERIORITY||Hazard Ratio (HR)|0.97||||0.84|TWO_SIDED|95.0|0.74|1.28|||Regression, Cox|||||1.28|0.74|0.84
82494983|NCT00418457|164682271|SUPERIORITY||Odds Ratio (OR)|1.0||||0.7|TWO_SIDED|95.0|0.85|1.17|||GEE|||||1.17|0.85|0.70
82494984|NCT00418457|164682272|SUPERIORITY||Odds Ratio (OR)|0.98||||0.81|TWO_SIDED|95.0|0.75|1.28|||GEE|||||1.28|0.75|0.81
82494985|NCT00418457|164682273|SUPERIORITY||Mean Difference (Final Values)|-0.014||||0.96|TWO_SIDED|95.0|-0.63|0.6|||Mixed Models Analysis|||||0.60|-0.63|0.96
82494986|NCT00418457|164682274|SUPERIORITY||Mean Difference (Final Values)|0.75||||0.043|TWO_SIDED|95.0|0.02|1.48|||Mixed Models Analysis|||||1.48|0.02|0.043
82494987|NCT03329573|164682345|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-infinity) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.059|||||TWO_SIDED|90.0|1.006|1.115||||||||1.115|1.006|
82494988|NCT03329573|164682346|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-infinity) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|0.996|||||TWO_SIDED|90.0|0.947|1.047||||||||1.047|0.947|
82494989|NCT03329573|164682347|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-t) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.064|||||TWO_SIDED|90.0|1.01|1.12||||||||1.120|1.010|
82494990|NCT03329573|164682348|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of AUC(0-t) for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|0.996|||||TWO_SIDED|90.0|0.949|1.044||||||||1.044|0.949|
82494991|NCT03329573|164682349|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of Cmax for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.024|||||TWO_SIDED|90.0|0.952|1.101||||||||1.101|0.952|
82494992|NCT03329573|164682350|EQUIVALENCE|The two formulations were considered to be bioequivalent if the 90% confidence interval of Cmax for difference between both treatments fall in the range of 0.80-1.25.|Ratio of Geometrical Mean|1.02|||||TWO_SIDED|90.0|0.968|1.074||||||||1.074|0.968|
82494993|NCT00650260|164682375|SUPERIORITY_OR_OTHER|||||||0.027||95.0|||||Fisher Exact|||||||0.027
82494994|NCT00650260|164682376|SUPERIORITY_OR_OTHER|||||||0.078||95.0|||||t-test, 1 sided|||||||0.078
82494995|NCT00650260|164682379|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.0
82494996|NCT03307967|164682423|OTHER|||||||0.07|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Rank Sum||||||.07
82494997|NCT03307967|164682424|OTHER|||||||0.98|||||||Wilcoxon (Mann-Whitney)|Wilcoxon Signed Rank Sum Test||||||.98
82494998|NCT02065375|164682439|SUPERIORITY||Difference in proportion of patients|-1.2||||0.4543|TWO_SIDED|95.0|-21.3|18.9|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 1.0% and placebo were one sided.||||18.9|-21.3|0.4543
82494999|NCT02065375|164682439|SUPERIORITY||Difference in proportion of patients|8.2||||0.2297|TWO_SIDED|95.0|-13.5|29.8|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 0.5% and placebo were one sided.||||29.8|-13.5|0.2297
82495000|NCT02065375|164682440|SUPERIORITY||Difference in proportion of patients|-21.6||||0.028|TWO_SIDED|95.0|-43.1|0.0|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 1.0% and placebo were one sided.||||0.00|-43.1|.0280
82495001|NCT02065375|164682440|SUPERIORITY||Difference in proportion of patients|-24.0||||0.0192|TWO_SIDED|95.0|-45.8|-2.2|||Chi-squared|p values from Pearson chi-squared statistical test between the Omaveloxolone Ophthalmic suspension 0.5% and placebo were one sided.||||-2.2|-45.8|0.0192
82495002|NCT03268954|164682459|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.557|TWO_SIDED|95.0|0.757|1.238|||Log Rank|P-value comparing EFS between treatment groups was based on the 1-sided Cui-Hung-Wang weighted unstratified log-rank test.|HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|IPSS-R indicates the Revised International Prognostic Scoring System.||1.238|0.757|=0.557
82495003|NCT03268954|164682460|SUPERIORITY||Hazard Ratio (HR)|0.888|||=|0.152|TWO_SIDED|95.0|0.709|1.113||P-value comparing OS between treatment groups was based on the 1-sided Cui-Hung-Wang weighted unstratified log-rank test.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification(low-blast AML,IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1: longer survival time in combination arm than azacitidine arm.|Overall Survival (OS)||1.113|0.709|=0.152
82495004|NCT03268954|164682465|SUPERIORITY||Hazard Ratio (HR)|1.037|||=|0.562|TWO_SIDED|95.0|0.66|1.63||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR MDS.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR MDS Participants||1.630|0.660|=0.562
82495005|NCT03268954|164682465|SUPERIORITY||Hazard Ratio (HR)|1.512|||=|0.603|TWO_SIDED|95.0|0.068|33.773||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR CMML.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR CMML Participants||33.773|0.068|=0.603
82495006|NCT03268954|164682465|SUPERIORITY||Hazard Ratio (HR)|1.034|||=|0.558|TWO_SIDED|95.0|0.663|1.61||P-value comparing time to AML Transformation between treatment groups was based on 1-sided stratified log-rank test stratified by IPSS-R risk groups of very high, high, or intermediate for HR CMML/MDS.|Log Rank||HR:unadjusted stratified Cox proportional HazardRegression with stratification(IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of AML transformation in combination arm than azacitidine arm.|Time to AML Transformation in HR MDS/CMML Participants||1.610|0.663|=0.558
82495007|NCT03268954|164682466|SUPERIORITY||Absolute Rate Difference|-4.18|||=|0.374|TWO_SIDED|95.0|-13.18|4.83||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants With Complete Remission (CR) and CR+Complete Remission with Incomplete Blood Count Recovery (CRi)||4.83|-13.18|=0.374
82499935|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-21.6|||||TWO_SIDED|95.0|-46.3|6.3|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||6.3|-46.3|
82495008|NCT03268954|164682471|SUPERIORITY||Absolute Rate Difference|-4.67|||=|0.329|TWO_SIDED|95.0|-13.72|4.39||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, Revised International Prognostic Scoring System (IPSS-R) risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants with OR||4.39|-13.72|=0.329
82495009|NCT03268954|164682472|SUPERIORITY||Absolute Rate Difference|-0.44|||=|0.891|TWO_SIDED|95.0|-10.03|9.15||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Number of Participants with OR2||9.15|-10.03|=0.891
82495010|NCT03268954|164682473|SUPERIORITY||Hazard Ratio (HR)|0.679|||=|0.072|TWO_SIDED|95.0|0.402|1.146|||Log Rank|P-value was based on 1-sided log-rank test stratified by low-blast AML,IPSS-R risk groups of very high,high,or intermediate for HR MDS/CMML.|Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of CR||1.146|0.402|=0.072
82495011|NCT03268954|164682474|SUPERIORITY||Hazard Ratio (HR)|0.846|||=|0.373|TWO_SIDED|95.0|0.306|2.339||P-value comparing duration of CR+CRi between treatment groups was based on 1-sided unstratified log-rank.|Log Rank||Hazard ratio was based on an unadjusted unstratified Cox proportional hazard regression model with treatment as a factor in the model.|Duration of Complete Remission + Complete Remission with Incomplete Blood Count Recovery (CRi)||2.339|0.306|=0.373
82495012|NCT03268954|164682475|SUPERIORITY||Hazard Ratio (HR)|0.889|||=|0.32|TWO_SIDED|95.0|0.542|1.458||P-value comparing duration of PR or better response between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of Overall Response (OR)||1.458|0.542|=0.320
82495013|NCT03268954|164682476|SUPERIORITY||Hazard Ratio (HR)|0.796|||=|0.151|TWO_SIDED|95.0|0.514|1.231||P-value comparing duration of overall response 2 between treatment groups was based on 1-sided log-rank test stratified by low blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Duration of Overall Response 2 (OR2)||1.231|0.514|=0.151
82495014|NCT03268954|164682477|SUPERIORITY||Absolute Rate Difference|3.27|||=|0.573|TWO_SIDED|95.0|-9.02|15.55||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With RBC-transfusion Independence||15.55|-9.02|=0.573
82495015|NCT03268954|164682477|SUPERIORITY||Absolute Rate Difference|-3.43|||=|0.477|TWO_SIDED|95.0|-25.84|18.97||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Percentage of Participants With Platelet-transfusion Independence||18.97|-25.84|=0.477
82495016|NCT03268954|164682478|SUPERIORITY||Hazard Ratio (HR)|1.231|||=|0.774|TWO_SIDED|95.0|0.715|2.119||P-value comparing duration of RBC or platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of RBC Transfusion Independence||2.119|0.715|=0.774
82495017|NCT03268954|164682478|SUPERIORITY||Hazard Ratio (HR)|1.533|||=|0.801|TWO_SIDED|95.0|0.567|4.147||P-value comparing duration of platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of Platelet Transfusion Independence||4.147|0.567|=0.801
82495018|NCT03268954|164682478|SUPERIORITY||Hazard Ratio (HR)|0.968|||=|0.45|TWO_SIDED|95.0|0.58|1.614||P-value comparing duration of RBC or platelet transfusion between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted Cox Proportional Hazard regression;stratification(low-blast AML,IPSS-R risk groups=very high,high,intermediate for HRMDS/CMML),treatment as factor.HR\<1:longer duration of transfusion independence in combination arm than azacitidine arm.|Duration of Transfusion Independence||1.614|0.580|=0.450
82495019|NCT03268954|164682479|SUPERIORITY||Hazard Ratio (HR)|0.88|||=|0.228|TWO_SIDED|95.0|0.628|1.234||P-value comparing time to first CR or PR or CRi (low-blast AML) between treatment groups was based on 1-sided stratified log-rank test stratified by low-blast AML,IPSS-R risk groups of very high,high,or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on an unadjusted stratified Cox proportional hazard regression model with stratification factors (low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML) and treatment as a factor in the model.|Time to First Complete Remission (CR) or Partial Remission (PR) or Complete Remission with Incomplete Blood Count Recovery (CRi)||1.234|0.628|=0.228
82495020|NCT03268954|164682480|SUPERIORITY||Absolute Rate Difference|-5.46|||=|0.32|TWO_SIDED|95.0|-16.36|5.44||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Number of Participants With HI||5.44|-16.36|=0.320
82495021|NCT03268954|164682481|SUPERIORITY||Rate Difference|2.64|||||TWO_SIDED|95.0|-0.3|5.58||||||Number of Participants With at Least 1 Inpatient Hospital Admissions Related to HR MDS, CMML or Low-blast AML||5.58|-0.30|
82495022|NCT03268954|164682482|SUPERIORITY||Hazard Ratio (HR)|0.858|||=|0.084|TWO_SIDED|95.0|0.689|1.067||P-value was obtained from a stratified 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||Hazard ratio was based on a stratified Cox proportional hazard regression model stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML, with treatment as a factor in the model.|Time to Progressive Disease (PD), Relapse after CR (Low-blast AML), Relapse After CR or PR (HR MDS/CMML), or Death||1.067|0.689|=0.084
82495023|NCT03268954|164682484|SUPERIORITY||Absolute Rate Difference|-2.85|||=|0.683|TWO_SIDED|95.0|-19.44|13.75||P-value for HR MDS/CMML was obtained from a stratified Cochran-Mantel-Haenszel chi-square test|Cochran-Mantel-Haenszel|||OR: HR MDS/CMML Participants||13.75|-19.44|=0.683
82495024|NCT03268954|164682484|SUPERIORITY||Absolute Rate Difference|2.36|||=|0.84|TWO_SIDED|95.0|-20.39|25.12||P-value for Low-blast AML was obtained from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||ORR: Low-blast AML Participants||25.12|-20.39|=0.840
82495025|NCT03268954|164682485|SUPERIORITY||Hazard Ratio (HR)|0.877|||=|0.24|TWO_SIDED|95.0|0.608|1.263||P-value comparing EFS between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification factors (IPSS-R risk groups=very high,high,or intermediate for HRMDS/CMML),treatment as factor.HR\<1:better prevention of EFS in combination arm than azacitidine arm.|Event-Free Survival in Participants who have TP53 Mutations, 17p Deletions, and/or are Determined to be in an Adverse Cytogenetic Risk Group||1.263|0.608|=0.240
82495026|NCT03268954|164682486|SUPERIORITY||Hazard Ratio (HR)|0.826|||=|0.145|TWO_SIDED|95.0|0.58|1.178||P-value comparing OS between treatment groups was based on 1-sided log-rank test stratified by low-blast AML, IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Log Rank||HR:unadjusted stratified Cox proportional hazard regression with stratification factors(IPSS-R risk groups of very high,high,intermediate) and treatment as factor in model.HR\<1: longer survival time in combination arm than azacitidine arm.|Overall Survival in Participants who have TP53 Mutations, 17p Deletions, and/or are Determined to be in an Adverse Cytogenetic Risk Group||1.178|0.580|=0.145
82495027|NCT03268954|164682487|SUPERIORITY||Absolute Rate Difference|-5.14|||=|0.261|TWO_SIDED|95.0|-13.95|3.68||P-value was obtained from a stratified Cochran-Mantel-Haenszel chi-square test stratified by IPSS-R risk groups of very high, high, or intermediate for HR MDS/CMML.|Cochran-Mantel-Haenszel|||Overall Response for HR MDS/CMML||3.68|-13.95|=0.261
82495028|NCT03268954|164682487|SUPERIORITY||Absolute Rate Difference|22.36|||=|0.026|TWO_SIDED|95.0|3.22|41.49||P-value was obtained from an unstratified Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||Overall Response for Low-blast AML||41.49|3.22|=0.026
82495029|NCT05438888|164682491|OTHER||Hazard Ratio (HR)|0.753|||<|0.001|TWO_SIDED|95.0|0.711|0.798|||Log Rank|||||0.798|0.711|<0.001
82495030|NCT05438888|164682492|OTHER||Hazard Ratio (HR)|0.687|||<|0.001|TWO_SIDED|95.0|0.622|0.76|||Log Rank|||||0.760|0.622|<0.001
82495031|NCT05438888|164682493|OTHER||Hazard Ratio (HR)|0.638|||<|0.001|TWO_SIDED|95.0|0.57|0.714|||Log Rank|||||0.714|0.570|<0.001
82495032|NCT05438888|164682494|OTHER||Hazard Ratio (HR)|0.854|||<|0.001|TWO_SIDED|95.0|0.791|0.922|||Log Rank|||||0.922|0.791|<0.001
82495033|NCT05438888|164682495|OTHER||Hazard Ratio (HR)|0.638|||<|0.001|TWO_SIDED|95.0|0.57|0.715|||Log Rank|||||0.715|0.570|<0.001
82495034|NCT05438888|164682496|OTHER||Hazard Ratio (HR)|0.868|||<|0.001|TWO_SIDED|95.0|0.807|0.934|||Log Rank|||||0.934|0.807|<0.001
82495035|NCT05438888|164682497|OTHER||Hazard Ratio (HR)|0.646|||<|0.001|TWO_SIDED|95.0|0.503|0.83|||Log Rank|||||0.830|0.503|<0.001
82495036|NCT03820986|164682517|SUPERIORITY|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by BRAF mutation positive (Yes vs. No).|Hazard Ratio (HR)|0.81||||0.0176|TWO_SIDED|95.0|0.67|0.98|||Log Rank|One-sided p-value based on log-rank test and stratified by BRAF mutation positive (Yes vs. No).|HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||0.98|0.67|0.0176
82495037|NCT03820986|164682518|SUPERIORITY|HR based on Cox regression model with Efron's method of tie handling with treatment as a covariate and stratified by BRAF mutation positive (Yes vs. No).|Hazard Ratio (HR)|1.2||||0.9521|TWO_SIDED|95.0|0.97|1.48|||Log Rank|One-sided p-value based on log-rank test and stratified by BRAF mutation positive (Yes vs. No).|HR=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|||1.48|0.97|0.9521
82495038|NCT03820986|164682523|OTHER||Difference in LS means|-3.69||||0.0345|TWO_SIDED|95.0|-7.1|-0.27||No formal hypothesis testing was conducted. P-value is nominal.|cLDA model||Difference in LS means=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|Based on a constrained longitudinal data analysis (cLDA) model with GHS/QoL as the response variable, with covariates for treatment by time interaction, stratification factor BRAF mutation status as covariate. No formal hypothesis testing was conducted. P-value is nominal.||-0.27|-7.10|0.0345
82495039|NCT03820986|164682524|OTHER||Difference in LS means|-5.49||||0.0004|TWO_SIDED|95.0|-8.53|-2.45|||cLDA model|No formal hypothesis testing was conducted. P-value is nominal.|Difference in LS means=Pembrolizumab + Lenvatinib vs. Pembrolizumab + Placebo|Based on a cLDA model with PF as the response variable, with covariates for treatment by time interaction, stratification factor BRAF mutation status as covariate. No formal hypothesis testing was conducted. P-value is nominal.||-2.45|-8.53|0.0004
82495040|NCT03820986|164682525|OTHER||Hazard Ratio (HR)|1.58||||0.0001|TWO_SIDED|95.0|1.25|2.0|||Log Rank|No formal hypothesis testing was conducted. P-value is nominal.|HR=Lenvatinib + Pembrolizumab vs. Placebo + Pembrolizumab|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by BRAF mutation status (positive vs wild type or unknown) No formal hypothesis testing was conducted. P-value is nominal.||2.00|1.25|0.0001
82495041|NCT03820986|164682526|OTHER||Hazard Ratio (HR)|1.95||||0.0001|TWO_SIDED|95.0|1.52|2.5|||Log Rank|No formal hypothesis testing was conducted. P-value is nominal.|HR=Lenvatinib + Pembrolizumab vs. Placebo + Pembrolizumab|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by BRAF mutation status (positive vs wild type or unknown). No formal hypothesis testing was conducted. P-value is nominal.||2.50|1.52|.0001
82495042|NCT02513394|164682537|OTHER||Hazard Ratio (HR)|0.96||||0.65|TWO_SIDED|95.0|0.81|1.14|||Log Rank||This two sided p value was stratified by (neo)adjuvant chemotherapy (yes vs no) and age (\<=50 vs \>50).|||1.14|0.81|0.65
82495043|NCT02513394|164682538|OTHER||Hazard Ratio (HR)|0.99|||||TWO_SIDED|95.0|0.82|1.19||||||||1.19|0.82|
82495044|NCT02513394|164682539|OTHER||Hazard Ratio (HR)|1.05|||||TWO_SIDED|95.0|0.87|1.28||||||||1.28|0.87|
82495045|NCT02513394|164682540|OTHER||Hazard Ratio (HR)|1.32|||||TWO_SIDED|95.0|0.98|1.78||||||||1.78|0.98|
82495046|NCT02513394|164682541|OTHER||Hazard Ratio (HR)|0.84|||||TWO_SIDED|95.0|0.57|1.23||||||||1.23|0.57|
82495065|NCT04666051|164682603|SUPERIORITY|Data from both groups has been collected compared to verify significant statistical difference||||||0.022|||||||Chi-squared|||||||0.022
82499936|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-23.4|||||TWO_SIDED|95.0|-48.2|5.2|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||5.2|-48.2|
82495066|NCT01749137|164682670|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-1.1|STANDARD_ERROR_OF_MEAN|0.58||0.059|TWO_SIDED|95.0|-2.27|0.04|||Mixed Model Repeated Measures (MMRM)|||||0.04|-2.27|0.059
82495067|NCT01749137|164682671|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.66||0.079|TWO_SIDED|95.0|-2.48|0.14|||MMRM|||||0.14|-2.48|0.079
82495068|NCT01749137|164682672|SUPERIORITY|||||||0.513||||||P-values from a Cochran-Mantel-Haenszel (CMH) test, controlling for site and the stratification factor severely obese (yes/no).|Cochran-Mantel-Haenszel|||||||0.513
82495069|NCT01749137|164682680|SUPERIORITY|P-value from a mixed-effects analysis of covariance model with treatment, visit and visit-by-treatment interaction as factors, baseline weight as a covariate, and participant as the random effect.|Treatment Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.87||0.387|TWO_SIDED|95.0|-2.5|0.98|||MMRM|||||0.98|-2.50|0.387
82495070|NCT01749137|164682681|SUPERIORITY|||||||1||||||P-values from a Cochran-Mantel-Haenszel (CMH) test, controlling for site.|Cochran-Mantel-Haenszel|||||||1.000
82495071|NCT01509950|164682689|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||||||0.60
82495072|NCT04115839|164682700|SUPERIORITY||Difference in response rates|26.9||||0.022|TWO_SIDED|95.0|4.3|49.6||The stratification factors (Geographic Region, Concurrent Use of conventional synthetic (cs) DMARD(s) and/or Apremilast at Randomization, Prior Use of biologic (bio)DMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||49.6|4.3|0.022
82495073|NCT04115839|164682700|SUPERIORITY||Difference in response rates|2.2||||0.89|TWO_SIDED|95.0|-20.5|25.0||The stratification factors (Geographic Region, Concurrent Use of csDMARD(s) and/or Apremilast at Randomization, Prior Use of bioDMARD(s)) and treatment groups were included in the imputation model as covariates.|Multiple imputation method|||||25.0|-20.5|0.89
82495074|NCT04115839|164682703|SUPERIORITY||Difference in response rates|-5.9||||0.39|TWO_SIDED|95.0|-21.6|9.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||9.9|-21.6|0.39
82495075|NCT04115839|164682703|SUPERIORITY||Difference in response rates|-2.6||||0.65|TWO_SIDED|95.0|-19.7|14.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||14.5|-19.7|0.65
82495076|NCT04115839|164682703|SUPERIORITY||Difference in response rates|0.9||||0.86|TWO_SIDED|-19.4|-19.4|21.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||21.3|-19.4|0.86
82495077|NCT04115839|164682703|SUPERIORITY||Difference in response rates|-2.9||||0.7|TWO_SIDED|95.0|-22.0|16.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||16.1|-22.0|0.70
82495078|NCT04115839|164682703|SUPERIORITY||Difference in response rates|12.4||||0.15|TWO_SIDED|95.0|-7.5|32.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||32.3|-7.5|0.15
82495079|NCT04115839|164682703|SUPERIORITY||Difference in response rates|8.8||||0.3|TWO_SIDED|95.0|-10.1|27.7||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||27.7|-10.1|0.30
82495080|NCT04115839|164682703|SUPERIORITY||Difference in response rates|22.3||||0.035|TWO_SIDED|95.0|-0.7|45.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||45.2|-0.7|0.035
82495081|NCT04115839|164682703|SUPERIORITY||Difference in response rates|12.1||||0.22|TWO_SIDED|95.0|-9.3|33.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic Region, concurrent Use of csDMARD(s) and/or Apremilast at Randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% confidence interval (CI) for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.5|-9.3|0.22
82495082|NCT04115839|164682705|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.8|2.8|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.8|-2.8|
82495083|NCT04115839|164682705|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
82495084|NCT04115839|164682705|SUPERIORITY||Difference in response rates|3.1|||||TWO_SIDED|95.0|-5.9|12.2|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 8||12.2|-5.9|
82495085|NCT04115839|164682705|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 8||2.9|-2.9|
82495086|NCT04115839|164682705|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-5.8|11.9|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 12||11.9|-5.8|
82495087|NCT04115839|164682705|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-5.0|16.7|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 12||16.7|-5.0|
82495088|NCT04115839|164682705|SUPERIORITY||Difference in response rates|0.1|||||TWO_SIDED|95.0|-11.4|11.6|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 16||11.6|-11.4|
82495089|NCT04115839|164682705|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-10.0|16.1|||||95% CI for response rate and difference in response rates were based on normal approximation method with a continuity correction.|Week 16||16.1|-10.0|
82495090|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.4||0.24|TWO_SIDED|95.0|-1.0|0.0||P-value was provided from mixed-effects model for repeated measures (MMRM) having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0|-1|0.24
82495091|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.4||0.22|TWO_SIDED|95.0|-1.0|0.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0|-1|0.22
82495092|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.43|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||1|-1|0.43
82495093|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.7|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||1|-1|0.70
82495094|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.5||0.1|TWO_SIDED|95.0|-2.0|0.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||0|-2|0.10
82495095|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.9|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||1|-1|0.90
82495096|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.88|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||1|-1|0.88
82495097|NCT04115839|164682713|SUPERIORITY||LS Mean Treatment Difference|0.0|STANDARD_ERROR_OF_MEAN|0.5||0.89|TWO_SIDED|95.0|-1.0|1.0||P-value was provided from MMRM having treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||1|-1|0.89
82495098|NCT04115839|164682717|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-15.9|16.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||16.5|-15.9|
82495099|NCT04115839|164682717|SUPERIORITY||Difference in response rates|12.6|||||TWO_SIDED|95.0|-7.1|32.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||32.3|-7.1|
82495100|NCT04115839|164682717|SUPERIORITY||Difference in response rates|26.6|||||TWO_SIDED|95.0|3.0|50.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||50.2|3.0|
82495101|NCT04115839|164682717|SUPERIORITY||Difference in response rates|18.2|||||TWO_SIDED|95.0|-4.1|40.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||40.4|-4.1|
82495102|NCT04115839|164682719|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-5.6|11.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||11.5|-5.6|
82495103|NCT04115839|164682719|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
82495104|NCT04115839|164682719|SUPERIORITY||Difference in response rates|12.9|||||TWO_SIDED|95.0|-2.0|27.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.8|-2.0|
82495105|NCT04115839|164682719|SUPERIORITY||Difference in response rates|9.1|||||TWO_SIDED|95.0|-3.7|21.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.9|-3.7|
82495106|NCT04115839|164682721|SUPERIORITY||Difference in response rates|15.4||||0.098|TWO_SIDED|95.0|-5.5|36.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||36.3|-5.5|0.098
82495107|NCT04115839|164682721|SUPERIORITY||Difference in response rates|-5.1||||0.4|TWO_SIDED|95.0|-21.1|11.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||11.0|-21.1|0.40
82499937|NCT00555321|164690593|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|23.4|||||TWO_SIDED|95.0|-5.2|48.4|||||For 95% CI of difference, normal approximation was used if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|Analysis at Month 12||48.4|-5.2|
82495108|NCT04115839|164682721|SUPERIORITY||Difference in response rates|10.8||||0.26|TWO_SIDED|95.0|-12.6|34.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||34.3|-12.6|0.26
82495109|NCT04115839|164682721|SUPERIORITY||Difference in response rates|8.8||||0.39|TWO_SIDED|95.0|-14.6|32.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||32.2|-14.6|0.39
82495110|NCT04115839|164682721|SUPERIORITY||Difference in response rates|20.0||||0.088|TWO_SIDED|95.0|-6.9|46.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.9|-6.9|0.088
82495111|NCT04115839|164682721|SUPERIORITY||Difference in response rates|-7.0||||0.49|TWO_SIDED|95.0|-32.9|18.9||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||18.9|-32.9|0.49
82495112|NCT04115839|164682721|SUPERIORITY||Difference in response rates|28.3||||0.019|TWO_SIDED|95.0|2.4|54.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||54.2|2.4|0.019
82495113|NCT04115839|164682721|SUPERIORITY||Difference in response rates|2.9||||0.85|TWO_SIDED|95.0|-22.5|28.4||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||28.4|-22.5|0.85
82495114|NCT04115839|164682721|SUPERIORITY||Difference in response rates|25.9||||0.036|TWO_SIDED|95.0|-0.4|52.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||52.3|-0.4|0.036
82495115|NCT04115839|164682721|SUPERIORITY||Difference in response rates|6.1||||0.6|TWO_SIDED|95.0|-19.7|31.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||31.8|-19.7|0.60
82495116|NCT04115839|164682723|SUPERIORITY||Difference in response rates|6.0||||0.31|TWO_SIDED|95.0|-7.8|19.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||19.8|-7.8|0.31
82495117|NCT04115839|164682723|SUPERIORITY||Difference in response rates|-2.8||||0.48|TWO_SIDED|95.0|-11.1|5.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||5.5|-11.1|0.48
82495118|NCT04115839|164682723|SUPERIORITY||Difference in response rates|2.5||||0.7|TWO_SIDED|95.0|-14.1|19.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||19.2|-14.1|0.70
82495119|NCT04115839|164682723|SUPERIORITY||Difference in response rates|-8.6||||0.17|TWO_SIDED|95.0|-20.7|3.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||3.6|-20.7|0.17
82495120|NCT04115839|164682723|SUPERIORITY||Difference in response rates|6.5||||0.34|TWO_SIDED|95.0|-12.5|25.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||25.6|-12.5|0.34
82499567|NCT00711711|164689865|SUPERIORITY_OR_OTHER|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||All outcomes and control variables were compared between the treatment and the control group at each time point using the Wilcoxon rank-sum test or the chi-square test, as appropriate. The change in swelling from second day to seventh day, that is, during the treatment period, was compared using the Wilcoxon signed-rank test. The significance level was set at P\<.05.||||0.51
82495121|NCT04115839|164682723|SUPERIORITY||Difference in response rates|-0.3||||0.98|TWO_SIDED|95.0|-16.9|16.4||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||16.4|-16.9|0.98
82495122|NCT04115839|164682723|SUPERIORITY||Difference in response rates|18.7||||0.071|TWO_SIDED|95.0|-5.1|42.5||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||42.5|-5.1|0.071
82495123|NCT04115839|164682723|SUPERIORITY||Difference in response rates|-8.8||||0.27|TWO_SIDED|95.0|-27.7|10.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||10.1|-27.7|0.27
82495124|NCT04115839|164682723|SUPERIORITY||Difference in response rates|40.7||||0.002|TWO_SIDED|95.0|19.5|62.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||62.0|19.5|0.002
82495125|NCT04115839|164682723|SUPERIORITY||Difference in response rates|15.2||||0.082|TWO_SIDED|95.0|-2.3|32.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||32.6|-2.3|0.082
82495126|NCT04115839|164682725|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-5.6|11.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||11.5|-5.6|
82495127|NCT04115839|164682725|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||2.9|-2.9|
82495128|NCT04115839|164682725|SUPERIORITY||Difference in response rates|2.8|||||TWO_SIDED|95.0|-5.4|11.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||11.0|-5.4|
82495129|NCT04115839|164682725|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-2.9|2.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||2.9|-2.9|
82495130|NCT04115839|164682725|SUPERIORITY||Difference in response rates|12.7|||||TWO_SIDED|95.0|-4.2|29.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||29.5|-4.2|
82495131|NCT04115839|164682725|SUPERIORITY||Difference in response rates|-2.9|||||TWO_SIDED|95.0|-11.6|5.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||5.7|-11.6|
82495132|NCT04115839|164682725|SUPERIORITY||Difference in response rates|18.3|||||TWO_SIDED|95.0|0.2|36.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||36.3|0.2|
82495133|NCT04115839|164682725|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-9.7|15.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||15.6|-9.7|
82495134|NCT04115839|164682725|SUPERIORITY||Difference in response rates|12.5|||||TWO_SIDED|95.0|-2.0|27.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||27.0|-2.0|
82495135|NCT04115839|164682725|SUPERIORITY||Difference in response rates|9.1|||||TWO_SIDED|95.0|-3.7|21.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||21.9|-3.7|
82495136|NCT04115839|164682741|SUPERIORITY||Difference in response rates|9.5|||||TWO_SIDED|95.0|-10.4|29.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||29.4|-10.4|
82495137|NCT04115839|164682741|SUPERIORITY||Difference in response rates|7.1|||||TWO_SIDED|95.0|-12.5|26.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||26.7|-12.5|
82495138|NCT04115839|164682741|SUPERIORITY||Difference in response rates|20.0|||||TWO_SIDED|95.0|-3.8|43.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||43.8|-3.8|
82495139|NCT04115839|164682741|SUPERIORITY||Difference in response rates|6.5|||||TWO_SIDED|95.0|-16.3|29.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||29.3|-16.3|
82495140|NCT04115839|164682741|SUPERIORITY||Difference in response rates|17.8|||||TWO_SIDED|95.0|-8.8|44.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||44.5|-8.8|
82495141|NCT04115839|164682741|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-22.9|28.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||28.8|-22.9|
82495142|NCT04115839|164682741|SUPERIORITY||Difference in response rates|25.0|||||TWO_SIDED|95.0|-0.5|50.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||50.6|-0.5|
82495143|NCT04115839|164682741|SUPERIORITY||Difference in response rates|14.7|||||TWO_SIDED|95.0|-10.5|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||39.9|-10.5|
82495144|NCT04115839|164682741|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-8.7|45.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||45.6|-8.7|
82495145|NCT04115839|164682741|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-20.5|32.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||32.6|-20.5|
82495146|NCT04115839|164682743|SUPERIORITY||Difference in response rates|9.0|||||TWO_SIDED|95.0|-6.0|23.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||23.9|-6.0|
82495147|NCT04115839|164682743|SUPERIORITY||Difference in response rates|3.3|||||TWO_SIDED|95.0|-9.4|15.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||15.9|-9.4|
82495148|NCT04115839|164682743|SUPERIORITY||Difference in response rates|5.7|||||TWO_SIDED|95.0|-14.7|26.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||26.2|-14.7|
82495149|NCT04115839|164682743|SUPERIORITY||Difference in response rates|-5.5|||||TWO_SIDED|95.0|-23.4|12.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||12.4|-23.4|
82495150|NCT04115839|164682743|SUPERIORITY||Difference in response rates|1.3|||||TWO_SIDED|95.0|-21.5|24.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||24.1|-21.5|
82495151|NCT04115839|164682743|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-22.2|22.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||22.2|-22.2|
82495152|NCT04115839|164682743|SUPERIORITY||Difference in response rates|21.6|||||TWO_SIDED|95.0|-0.8|43.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||43.9|-0.8|
82495153|NCT04115839|164682743|SUPERIORITY||Difference in response rates|20.6|||||TWO_SIDED|95.0|-1.4|42.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||42.6|-1.4|
82495154|NCT04115839|164682743|SUPERIORITY||Difference in response rates|17.5|||||TWO_SIDED|95.0|-7.7|42.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||42.7|-7.7|
82495155|NCT04115839|164682743|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-20.2|26.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||26.3|-20.2|
82495156|NCT04115839|164682746|SUPERIORITY||Difference in response rates|9.3|||||TWO_SIDED|95.0|-9.2|27.8||||||Week 2||27.8|-9.2|
82495157|NCT04115839|164682746|SUPERIORITY||Difference in response rates|3.8|||||TWO_SIDED|95.0|-13.5|21.0||||||Week 2||21.0|-13.5|
82495158|NCT04115839|164682746|SUPERIORITY||Difference in response rates|5.7|||||TWO_SIDED|95.0|-16.8|28.2||||||Week 4||28.2|-16.8|
82495159|NCT04115839|164682746|SUPERIORITY||Difference in response rates|-2.4|||||TWO_SIDED|95.0|-23.7|19.0||||||Week 4||19.0|-23.7|
82495160|NCT04115839|164682746|SUPERIORITY||Difference in response rates|5.3|||||TWO_SIDED|95.0|-21.1|31.8||||||Week 8||31.8|-21.1|
82495161|NCT04115839|164682746|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-31.0|19.3||||||Week 8||19.3|-31.0|
82495162|NCT04115839|164682746|SUPERIORITY||Difference in response rates|19.2|||||TWO_SIDED|95.0|-7.0|45.3||||||Week 12||45.3|-7.0|
82495163|NCT04115839|164682746|SUPERIORITY||Difference in response rates|8.8|||||TWO_SIDED|95.0|-16.9|34.6||||||Week 12||34.6|-16.9|
82495164|NCT04115839|164682746|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-8.7|45.6||||||Week 16||45.6|-8.7|
82495165|NCT04115839|164682746|SUPERIORITY||Difference in response rates|3.0|||||TWO_SIDED|95.0|-23.4|29.5||||||Week 16||29.5|-23.4|
82495166|NCT04115839|164682748|SUPERIORITY||Difference in response rates|-2.8|||||TWO_SIDED|95.0|-11.0|5.4||||||Week 2||5.4|-11.0|
82495167|NCT04115839|164682748|SUPERIORITY||Difference in response rates|0.3|||||TWO_SIDED|95.0|-10.6|11.1||||||Week 2||11.1|-10.6|
82495168|NCT04115839|164682748|SUPERIORITY||Difference in response rates|-2.9|||||TWO_SIDED|95.0|-15.2|9.5||||||Week 4||9.5|-15.2|
82495169|NCT04115839|164682748|SUPERIORITY||Difference in response rates|-5.7|||||TWO_SIDED|95.0|-16.3|4.9||||||Week 4||4.9|-16.3|
82495170|NCT04115839|164682748|SUPERIORITY||Difference in response rates|0.6|||||TWO_SIDED|95.0|-16.4|17.5||||||Week 8||17.5|-16.4|
82495171|NCT04115839|164682748|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-19.9|8.2||||||Week 8||8.2|-19.9|
82495172|NCT04115839|164682748|SUPERIORITY||Difference in response rates|12.2|||||TWO_SIDED|95.0|-4.3|28.7||||||Week 12||28.7|-4.3|
82495173|NCT04115839|164682748|SUPERIORITY||Difference in response rates|2.9|||||TWO_SIDED|95.0|-9.7|15.6||||||Week 12||15.6|-9.7|
82495174|NCT04115839|164682748|SUPERIORITY||Difference in response rates|13.1|||||TWO_SIDED|95.0|-4.2|30.4||||||Week 16||30.4|-4.2|
82495175|NCT04115839|164682748|SUPERIORITY||Difference in response rates|12.1|||||TWO_SIDED|95.0|-4.5|28.7||||||Week 16||28.7|-4.5|
82495176|NCT04115839|164682751|SUPERIORITY||Difference in response rates|18.5|||||TWO_SIDED|95.0|-3.8|40.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||40.7|-3.8|
82495177|NCT04115839|164682751|SUPERIORITY||Difference in response rates|7.3|||||TWO_SIDED|95.0|-13.5|28.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 2||28.2|-13.5|
82495178|NCT04115839|164682751|SUPERIORITY||Difference in response rates|16.0|||||TWO_SIDED|95.0|-8.5|40.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||40.4|-8.5|
82495179|NCT04115839|164682751|SUPERIORITY||Difference in response rates|15.5|||||TWO_SIDED|95.0|-9.4|40.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||40.3|-9.4|
82495180|NCT04115839|164682751|SUPERIORITY||Difference in response rates|18.8|||||TWO_SIDED|95.0|-7.5|45.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||45.0|-7.5|
82495181|NCT04115839|164682751|SUPERIORITY||Difference in response rates|-5.9|||||TWO_SIDED|95.0|-32.5|20.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||20.7|-32.5|
82495182|NCT04115839|164682751|SUPERIORITY||Difference in response rates|40.5|||||TWO_SIDED|95.0|15.8|65.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||65.2|15.8|
82495183|NCT04115839|164682751|SUPERIORITY||Difference in response rates|23.5|||||TWO_SIDED|95.0|-2.5|49.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||49.5|-2.5|
82495184|NCT04115839|164682751|SUPERIORITY||Difference in response rates|20.1|||||TWO_SIDED|95.0|-6.8|46.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||46.9|-6.8|
82495185|NCT04115839|164682751|SUPERIORITY||Difference in response rates|6.1|||||TWO_SIDED|95.0|-21.0|33.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||33.1|-21.0|
82495186|NCT04115839|164682755|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-31.0|31.0|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||31.0|-31.0|
82495187|NCT04115839|164682755|SUPERIORITY||Difference in response rates|22.0|||||TWO_SIDED|95.0|-12.8|56.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||56.7|-12.8|
82495188|NCT04115839|164682755|SUPERIORITY||Difference in response rates|4.3|||||TWO_SIDED|95.0|-37.9|46.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.5|-37.9|
82495189|NCT04115839|164682755|SUPERIORITY||Difference in response rates|5.5|||||TWO_SIDED|95.0|-35.4|46.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||46.3|-35.4|
82495190|NCT04115839|164682755|SUPERIORITY||Difference in response rates|17.1|||||TWO_SIDED|95.0|-25.6|59.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||59.9|-25.6|
82495191|NCT04115839|164682755|SUPERIORITY||Difference in response rates|-13.4|||||TWO_SIDED|95.0|-53.7|26.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||26.8|-53.7|
82495192|NCT04115839|164682755|SUPERIORITY||Difference in response rates|28.6|||||TWO_SIDED|95.0|-14.1|71.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||71.2|-14.1|
82495193|NCT04115839|164682755|SUPERIORITY||Difference in response rates|-0.4|||||TWO_SIDED|95.0|-40.8|39.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||39.9|-40.8|
82495194|NCT04115839|164682757|SUPERIORITY||Difference in response rates|6.7||||0.55|TWO_SIDED|95.0|-21.3|34.7||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||34.7|-21.3|0.55
82495195|NCT04115839|164682757|SUPERIORITY||Difference in response rates|11.0||||0.24|TWO_SIDED|95.0|-17.4|39.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||39.3|-17.4|0.24
82495196|NCT04115839|164682757|SUPERIORITY||Difference in response rates|6.2||||0.47|TWO_SIDED|95.0|-22.6|35.0||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||35.0|-22.6|0.47
82495197|NCT04115839|164682757|SUPERIORITY||Difference in response rates|10.5||||0.25|TWO_SIDED|95.0|-18.6|39.6||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||39.6|-18.6|0.25
82495198|NCT04115839|164682757|SUPERIORITY||Difference in response rates|18.6||||0.44|TWO_SIDED|95.0|-21.1|58.3||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||58.3|-21.1|0.44
82495199|NCT04115839|164682757|SUPERIORITY||Difference in response rates|-3.8||||0.68|TWO_SIDED|95.0|-38.4|30.8||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||30.8|-38.4|0.68
82495200|NCT04115839|164682757|SUPERIORITY||Difference in response rates|21.4||||0.33|TWO_SIDED|95.0|-19.4|62.2||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||62.2|-19.4|0.33
82495201|NCT04115839|164682757|SUPERIORITY||Difference in response rates|2.1||||0.98|TWO_SIDED|95.0|-33.9|38.1||P-value was calculated from the logistic regression with treatment groups and stratification factors (geographic region, concurrent use of csDMARD(s) and/or apremilast at randomization, prior use of bioDMARD(s)) in the model.|Regression, Logistic||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||38.1|-33.9|0.98
82495202|NCT04115839|164682759|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-24.5|24.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||24.5|-24.5|
82495203|NCT04115839|164682759|SUPERIORITY||Difference in response rates|-0.8|||||TWO_SIDED|95.0|-23.9|22.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||22.4|-23.9|
82495204|NCT04115839|164682759|SUPERIORITY||Difference in response rates|13.3|||||TWO_SIDED|95.0|-10.8|37.4|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||37.4|-10.8|
82495205|NCT04115839|164682759|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||23.6|-11.8|
82495206|NCT04115839|164682759|SUPERIORITY||Difference in response rates|-14.8|||||TWO_SIDED|95.0|-46.6|17.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||17.1|-46.6|
82495207|NCT04115839|164682759|SUPERIORITY||Difference in response rates|-15.5|||||TWO_SIDED|95.0|-46.3|15.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||15.2|-46.3|
82495208|NCT04115839|164682759|SUPERIORITY||Difference in response rates|21.4|||||TWO_SIDED|95.0|-13.0|55.8|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||55.8|-13.0|
82495209|NCT04115839|164682759|SUPERIORITY||Difference in response rates|4.6|||||TWO_SIDED|95.0|-22.3|31.5|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||31.5|-22.3|
82495210|NCT04115839|164682761|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-6.7|6.7|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||6.7|-6.7|
82495211|NCT04115839|164682761|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.6|23.3|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 4||23.3|-11.6|
82495212|NCT04115839|164682761|SUPERIORITY||Difference in response rates|6.7|||||TWO_SIDED|95.0|-12.9|26.2|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||26.2|-12.9|
82495213|NCT04115839|164682761|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 8||23.6|-11.8|
82495214|NCT04115839|164682761|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-6.9|6.9|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||6.9|-6.9|
82495215|NCT04115839|164682761|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 12||23.6|-11.8|
82495216|NCT04115839|164682761|SUPERIORITY||Difference in response rates|0.0|||||TWO_SIDED|95.0|-7.1|7.1|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||7.1|-7.1|
82495217|NCT04115839|164682761|SUPERIORITY||Difference in response rates|5.9|||||TWO_SIDED|95.0|-11.8|23.6|||||95% CI for difference in response rates were based on normal approximation method with a continuity correction.|Week 16||23.6|-11.8|
82495218|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.066||0.19|TWO_SIDED|95.0|-0.22|0.04||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 2||0.04|-0.22|0.19
82495219|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.01|STANDARD_ERROR_OF_MEAN|0.067||0.84|TWO_SIDED|95.0|-0.15|0.12||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 2||0.12|-0.15|0.84
82495220|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.08|STANDARD_ERROR_OF_MEAN|0.073||0.3|TWO_SIDED|95.0|-0.22|0.07||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0.07|-0.22|0.30
82495221|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|0.01|STANDARD_ERROR_OF_MEAN|0.074||0.89|TWO_SIDED|95.0|-0.14|0.16||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||0.16|-0.14|0.89
82495222|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.18|STANDARD_ERROR_OF_MEAN|0.096||0.064|TWO_SIDED|95.0|-0.37|0.01||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||0.01|-0.37|0.064
82495223|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|0.01|STANDARD_ERROR_OF_MEAN|0.096||0.88|TWO_SIDED|95.0|-0.17|0.2||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 8||0.20|-0.17|0.88
82495224|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.23|STANDARD_ERROR_OF_MEAN|0.099||0.023|TWO_SIDED|95.0|-0.43|-0.03||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||-0.03|-0.43|0.023
82495225|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.03|STANDARD_ERROR_OF_MEAN|0.099||0.75|TWO_SIDED|95.0|-0.23|0.17||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 12||0.17|-0.23|0.75
82495226|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.31|STANDARD_ERROR_OF_MEAN|0.106||0.005|TWO_SIDED|95.0|-0.51|-0.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||-0.10|-0.51|0.005
82495227|NCT04115839|164682769|SUPERIORITY||LS Mean Treatment Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.105||0.54|TWO_SIDED|95.0|-0.27|0.14||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||0.14|-0.27|0.54
82495228|NCT04115839|164682771|SUPERIORITY||LS Mean Treatment Difference|1.3|STANDARD_ERROR_OF_MEAN|1.64||0.43|TWO_SIDED|95.0|-1.9|4.5||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||4.5|-1.9|0.43
82495229|NCT04115839|164682771|SUPERIORITY||LS Mean Treatment Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.64||0.81|TWO_SIDED|95.0|-3.6|2.9||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||2.9|-3.6|0.81
82495230|NCT04115839|164682771|SUPERIORITY||LS Mean Treatment Difference|5.1|STANDARD_ERROR_OF_MEAN|2.43||0.04|TWO_SIDED|95.0|0.2|9.9||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||9.9|0.2|0.040
82495231|NCT04115839|164682771|SUPERIORITY||LS Mean Treatment Difference|1.4|STANDARD_ERROR_OF_MEAN|2.41||0.58|TWO_SIDED|95.0|-3.4|6.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||6.1|-3.4|0.58
82495232|NCT04115839|164682775|SUPERIORITY||LS Mean Treatment Difference|0.9|STANDARD_ERROR_OF_MEAN|1.09||0.4|TWO_SIDED|95.0|-1.2|3.1||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||3.1|-1.2|0.40
82495233|NCT04115839|164682775|SUPERIORITY||LS Mean Treatment Difference|1.2|STANDARD_ERROR_OF_MEAN|1.1||0.28|TWO_SIDED|95.0|-1.0|3.4||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 4||3.4|-1.0|0.28
82495234|NCT04115839|164682775|SUPERIORITY||LS Mean Treatment Difference|3.8|STANDARD_ERROR_OF_MEAN|1.46||0.011|TWO_SIDED|95.0|0.9|6.7||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||6.7|0.9|0.011
82495235|NCT04115839|164682775|SUPERIORITY||LS Mean Treatment Difference|2.1|STANDARD_ERROR_OF_MEAN|1.45||0.14|TWO_SIDED|95.0|-0.7|5.0||P-value was provided from MMRM including treatment, visit (categorical), treatment by visit, stratification factors, baseline value as fixed effects, participants being the random effect.|MMRM|||Week 16||5.0|-0.7|0.14
82495236|NCT00621985|164682777|SUPERIORITY_OR_OTHER||Percent Difference|-19.0||||0.09||95.0|||||t-test, 2 sided|||"A t-test was performed comparing the mean long transformed area under the curve of 17-hydroxyprogesterone between the dexamethasone and hydrocortisone arms. The percent difference in mean log AUC was calculated as:~(Mean log AUC on dexamethasone - Mean log AUC on hydrocortisone)/Mean log AUC on hydrocortisone"||||0.09
82495237|NCT00618072|164682799|SUPERIORITY_OR_OTHER|||||||0.181|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.181
82495238|NCT00618072|164682799|SUPERIORITY_OR_OTHER|||||||0.026|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.026
82495239|NCT00618072|164682799|SUPERIORITY_OR_OTHER|||||||0.063|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.063
82495240|NCT00618072|164682800|SUPERIORITY_OR_OTHER|||||||0.049|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.049
82495241|NCT00618072|164682800|SUPERIORITY_OR_OTHER|||||||0.002|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.002
82495242|NCT00618072|164682800|SUPERIORITY_OR_OTHER|||||||0.032|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.032
82495243|NCT00618072|164682801|SUPERIORITY_OR_OTHER|||||||0.142|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.142
82495244|NCT00618072|164682801|SUPERIORITY_OR_OTHER|||||||0.054|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.054
82495245|NCT00618072|164682801|SUPERIORITY_OR_OTHER|||||||0.013|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.013
82495246|NCT00618072|164682802|SUPERIORITY_OR_OTHER|||||||0.052|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.052
82495247|NCT00618072|164682802|SUPERIORITY_OR_OTHER|||||||0.143|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.143
82495248|NCT00618072|164682802|SUPERIORITY_OR_OTHER|||||||0.005|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.005
82495249|NCT00618072|164682803|SUPERIORITY_OR_OTHER|||||||0.265|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.265
82495250|NCT00618072|164682803|SUPERIORITY_OR_OTHER|||||||0.001|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.001
82495251|NCT00618072|164682803|SUPERIORITY_OR_OTHER|||||||0.389|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.389
82495252|NCT00618072|164682804|SUPERIORITY_OR_OTHER|||||||0.025|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.025
82495253|NCT00618072|164682804|SUPERIORITY_OR_OTHER|||||||0.162|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.162
82495254|NCT00618072|164682804|SUPERIORITY_OR_OTHER|||||||0.562|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.562
82495255|NCT00618072|164682805|SUPERIORITY_OR_OTHER|||||||0.016|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.016
82495256|NCT00618072|164682805|SUPERIORITY_OR_OTHER|||||||0.03|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.03
82495257|NCT00618072|164682805|SUPERIORITY_OR_OTHER|||||||0.15|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.150
82495258|NCT00618072|164682806|SUPERIORITY_OR_OTHER|||||||0.648|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.648
82495259|NCT00618072|164682806|SUPERIORITY_OR_OTHER|||||||0.094|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.094
82495260|NCT00618072|164682806|SUPERIORITY_OR_OTHER|||||||0.054|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.054
82495261|NCT00618072|164682807|SUPERIORITY_OR_OTHER|||||||0.092|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.092
82495262|NCT00618072|164682807|SUPERIORITY_OR_OTHER|||||||0.73|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||0.730
82495263|NCT00618072|164682807|SUPERIORITY_OR_OTHER||||||<|0.001|||||||Paired t-test|||Paired t-tests were used to compare within-group mean differences at baseline and at 6 months following randomization for each of the 3 comparator groups.||||<0.001
82495264|NCT03130257|164682835|EQUIVALENCE|The study planned for a sample size of 510 and 80% protocol completion, resulting in sample size 136 per group. With this sample size, the least detectable difference (LDD) is 4.1 mmHg systolic BP (SBP) and 2.8 mmHg diastolic BP (DBP) between any two groups (assuming Standard Deviation 12.1 and 8.3 for SBP and DBP respectively). Actual sample sizes completing protocol were 142, 149, and 111 for Clinic, Home, and Kiosk groups respectively, resulting in LDD of at least 4.3 for SBP and 3.0 for DBP.|||||<|0.05|||||||Regression, Linear|||We used linear regression models to estimate the mean difference in BP between diagnostic measurement and daytime average 24-hr BP for each randomization group. Models were estimated using generalized estimating equations with robust standard errors, and adjusted for age, sex, BMI, education, and baseline systolic and diastolic BP. Separate models estimated mean differences (diagnostic protocol - 24-hr BP) between groups for systolic and diastolic BP.||||<0.05
82495265|NCT05526716|164682844|NON_INFERIORITY|Serotype 3|Geometric Mean Titers Ratio (GMT Ratio)|0.84|||||TWO_SIDED|95.0|0.72|0.97||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.97|0.72|
82495266|NCT05526716|164682844|NON_INFERIORITY|Serotype 6A|GMT Ratio|0.79|||||TWO_SIDED|95.0|0.66|0.94||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.94|0.66|
82495267|NCT05526716|164682844|NON_INFERIORITY|Serotype 7F|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.63|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.63|
82495268|NCT05526716|164682844|NON_INFERIORITY|Serotype 8|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.61|0.82||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.82|0.61|
82495269|NCT05526716|164682844|NON_INFERIORITY|Serotype 9N|GMT Ratio|0.67|||||TWO_SIDED|95.0|0.57|0.79||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.79|0.57|
82495270|NCT05526716|164682844|NON_INFERIORITY|Serotype 10A|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.65|0.91||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.91|0.65|
82495271|NCT05526716|164682844|NON_INFERIORITY|Serotype 11A|GMT Ratio|0.64|||||TWO_SIDED|95.0|0.54|0.75||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.75|0.54|
82495272|NCT05526716|164682844|NON_INFERIORITY|Serotype 12F|GMT Ratio|0.76|||||TWO_SIDED|95.0|0.62|0.94||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.94|0.62|
82495273|NCT05526716|164682844|NON_INFERIORITY|Serotype 15A|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.6|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.60|
82495274|NCT05526716|164682844|NON_INFERIORITY|Serotype 15C|GMT Ratio|0.71|||||TWO_SIDED|95.0|0.58|0.87||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.87|0.58|
82495275|NCT05526716|164682844|NON_INFERIORITY|Serotype 16F|GMT Ratio|0.69|||||TWO_SIDED|95.0|0.59|0.81||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.81|0.59|
82495276|NCT05526716|164682844|NON_INFERIORITY|Serotype 17F|GMT Ratio|0.73|||||TWO_SIDED|95.0|0.62|0.86||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.86|0.62|
82495277|NCT05526716|164682844|NON_INFERIORITY|Serotype 19A|GMT Ratio|0.75|||||TWO_SIDED|95.0|0.65|0.85||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.85|0.65|
82495278|NCT05526716|164682844|NON_INFERIORITY|Serotype 20A|GMT Ratio|0.74|||||TWO_SIDED|95.0|0.63|0.87||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.87|0.63|
82495279|NCT05526716|164682844|NON_INFERIORITY|Serotype 22F|GMT Ratio|0.77|||||TWO_SIDED|95.0|0.65|0.91||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.91|0.65|
82495280|NCT05526716|164682844|NON_INFERIORITY|Serotype 23A|GMT Ratio|0.78|||||TWO_SIDED|95.0|0.63|0.96||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.96|0.63|
82495281|NCT05526716|164682844|NON_INFERIORITY|Serotype 23B|GMT Ratio|0.56|||||TWO_SIDED|95.0|0.44|0.72||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.72|0.44|
82495282|NCT05526716|164682844|NON_INFERIORITY|Serotype 24F|GMT Ratio|0.72|||||TWO_SIDED|95.0|0.61|0.86||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.86|0.61|
82495283|NCT05526716|164682844|NON_INFERIORITY|Serotype 31|GMT Ratio|0.68|||||TWO_SIDED|95.0|0.56|0.83||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||0.83|0.56|
82495284|NCT05526716|164682844|NON_INFERIORITY|Serotype 33F|GMT Ratio|0.84|||||TWO_SIDED|95.0|0.7|1.01||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of the serotypes is \>0.50.||1.01|0.70|
82495285|NCT05526716|164682844|NON_INFERIORITY|Serotype 35B|GMT Ratio|0.77|||||TWO_SIDED|95.0|0.67|0.89||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the OPA GMT ratio (GMTcon/GMTseq) for each of serotypes is \>0.50.||0.89|0.67|
82495286|NCT05526716|164682845|NON_INFERIORITY|A/H1N1|GMT Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.97||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.97|0.70|
82495287|NCT05526716|164682845|NON_INFERIORITY|A/H3N2|GMT Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.93||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.93|0.67|
82495288|NCT05526716|164682845|NON_INFERIORITY|B/Victoria|GMT Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.95||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||0.95|0.70|
82495289|NCT05526716|164682845|NON_INFERIORITY|B/Yamagata|GMT Ratio|0.89|||||TWO_SIDED|95.0|0.78|1.0||||||The concomitant group will be considered noninferior to the sequential group if the lower bound of the 2-sided 95% CI of the HAI GMT ratio (GMTcon/GMTseq) for each of the strains is \>0.67.||1.00|0.78|
82495290|NCT05526716|164682846|OTHER|Serotype 3|GMC Ratio|0.9|||||TWO_SIDED|95.0|0.8|1.02||||||||1.02|0.80|
82495291|NCT05526716|164682846|OTHER|Serotype 6A|GMC Ratio|0.93|||||TWO_SIDED|95.0|0.79|1.11||||||||1.11|0.79|
82495292|NCT05526716|164682846|OTHER|Serotype 7F|GMC Ratio|0.78|||||TWO_SIDED|95.0|0.67|0.9||||||||0.90|0.67|
82495293|NCT05526716|164682846|OTHER|Serotype 8|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.95||||||||0.95|0.70|
82495294|NCT05526716|164682846|OTHER|Serotype 9N|GMC Ratio|0.88|||||TWO_SIDED|95.0|0.75|1.05||||||||1.05|0.75|
82495295|NCT05526716|164682846|OTHER|Serotype 10A|GMC Ratio|0.79|||||TWO_SIDED|95.0|0.67|0.94||||||||0.94|0.67|
82495296|NCT05526716|164682846|OTHER|Serotype 11A|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.72|0.96||||||||0.96|0.72|
82495297|NCT05526716|164682846|OTHER|Serotype 12F|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.69|1.01||||||||1.01|0.69|
82495298|NCT05526716|164682846|OTHER|Serotype 15A|GMC Ratio|0.75|||||TWO_SIDED|95.0|0.63|0.9||||||||0.90|0.63|
82495299|NCT05526716|164682846|OTHER|Serotype 15C|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.71|1.02||||||||1.02|0.71|
82495300|NCT05526716|164682846|OTHER|Serotype 16F|GMC Ratio|0.83|||||TWO_SIDED|95.0|0.7|0.99||||||||0.99|0.70|
82495301|NCT05526716|164682846|OTHER|Serotype 17F|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
82495302|NCT05526716|164682846|OTHER|Serotype 19A|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.71|0.93||||||||0.93|0.71|
82495303|NCT05526716|164682846|OTHER|Serotype 20A|GMC Ratio|0.82|||||TWO_SIDED|95.0|0.7|0.97||||||||0.97|0.70|
82495304|NCT05526716|164682846|OTHER|Serotype 22F|GMC Ratio|0.94|||||TWO_SIDED|95.0|0.8|1.1||||||||1.10|0.80|
82495305|NCT05526716|164682846|OTHER|Serotype 23A|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.7|1.03||||||||1.03|0.70|
82495306|NCT05526716|164682846|OTHER|Serotype 23B|GMC Ratio|0.86|||||TWO_SIDED|95.0|0.72|1.02||||||||1.02|0.72|
82495307|NCT05526716|164682846|OTHER|Serotype 24F|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.69|1.05||||||||1.05|0.69|
82495308|NCT05526716|164682846|OTHER|Serotype 31|GMC Ratio|0.84|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
82495309|NCT05526716|164682846|OTHER|Serotype 33F|GMC Ratio|0.81|||||TWO_SIDED|95.0|0.69|0.94||||||||0.94|0.69|
82495310|NCT05526716|164682846|OTHER|Serotype 35B|GMC Ratio|0.85|||||TWO_SIDED|95.0|0.72|0.99||||||||0.99|0.72|
82495311|NCT01751867|164682851|SUPERIORITY_OR_OTHER||ORR %|29.4||||0.003|TWO_SIDED|95.0|15.1|47.5|||Exact binomial proportion test||ORR % = Number of participants who achieved response divided by total ITT participants|Null Hypothesis: threshold for statistical significance = 10%||47.5|15.1|0.003
82495312|NCT01751867|164682851|SUPERIORITY_OR_OTHER||ORR %|25.5|||<|0.001|TWO_SIDED|95.0|17.2|35.3|||Exact binomial proportion test|||Null Hypothesis: threshold for statistical significance = 10%||35.3|17.2|<0.001
82495313|NCT02064894|164682883|SUPERIORITY_OR_OTHER|||||||0.81|||||||Cochran-Mantel-Haenszel|||||||0.81
82495314|NCT02577510|164682914|OTHER|||||||0.05|||||||t-test, 1 sided|||Statistical analysis was performed using SPSS Version 21 statistical software (IBM, Armonk, New York). For continuous data, normality was fi rst assessed with the Lilliefors test and then analyzed using a paired t test. Data that did not have a normal distribution, as well as ordinal data, was analyzed using Wilcoxon's signed ranks or McNemar's test. All P values presented were 2-sided and values inferior to 0.05 were considered signifi cant||||0.05
82495315|NCT03095066|164682918|SUPERIORITY||Difference in LS Mean|-1.7||||0.405|TWO_SIDED|95.0|-5.8|2.4||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Treatment differences in each stage were estimated by the Mixed Model Repeated Measures (MMRM).||2.4|-5.8|0.405
82495316|NCT03095066|164682919|SUPERIORITY||Difference in LS Mean|-0.7||||0.921|TWO_SIDED|95.0|-15.3|13.9||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Treatment differences in each stage were estimated by the MMRM.||13.9|-15.3|0.921
82495317|NCT03095066|164682920|SUPERIORITY||Difference in LS Mean|-0.7||||0.15|TWO_SIDED|95.0|-1.7|0.3||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||0.3|-1.7|0.150
82495318|NCT03095066|164682920|SUPERIORITY||Difference in LS Mean|0.2||||0.921|TWO_SIDED|95.0|-4.3|4.7||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||4.7|-4.3|0.921
82495319|NCT03095066|164682921|SUPERIORITY||Difference in LS Mean|0.3||||0.702|TWO_SIDED|95.0|-1.3|1.9||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.9|-1.3|0.702
82495320|NCT03095066|164682921|SUPERIORITY||Difference in LS Mean|2.0||||0.469|TWO_SIDED|95.0|-3.6|7.6||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||7.6|-3.6|0.469
82495321|NCT03095066|164682922|SUPERIORITY||Difference in LS Mean|-1.3||||0.267|TWO_SIDED|95.0|-3.5|1.0||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.0|-3.5|0.267
82495322|NCT03095066|164682922|SUPERIORITY||Difference in LS Mean|-1.6||||0.609|TWO_SIDED|95.0|-8.0|4.8||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||4.8|-8.0|0.609
82495323|NCT03095066|164682923|SUPERIORITY||Difference in LS Mean|-0.3||||0.743|TWO_SIDED|95.0|-2.4|1.7||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Baseline to Week 6: Treatment differences in each stage were estimated by the MMRM.||1.7|-2.4|0.743
82495324|NCT03095066|164682923|SUPERIORITY||Difference in LS Mean|1.2||||0.575|TWO_SIDED|95.0|-3.8|6.1||MMRM included fixed effects of treatment, site, visit, treatment-by-visit interaction, baseline NPI-C-3 value and baseline-by-visit interaction.|MMRM|||Week 7 to Week 12: Treatment differences in each stage were estimated by the MMRM.||6.1|-3.8|0.575
82495325|NCT03095066|164682924|SUPERIORITY||Difference in LS Mean|-0.1||||0.664|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Baseline to Week 6||0.3|-0.5|0.664
82495326|NCT03095066|164682924|SUPERIORITY||Difference in LS Mean|-0.6||||0.273|TWO_SIDED|95.0|-1.9|0.6|||ANCOVA|||Week 7 to Week 12||0.6|-1.9|0.273
82495327|NCT03095066|164682925|SUPERIORITY||Difference in LS Mean|-0.4||||0.159|TWO_SIDED|95.0|-0.9|0.1|||ANCOVA|||Baseline to Week 6||0.1|-0.9|0.159
82495328|NCT03095066|164682925|SUPERIORITY||Difference in LS Mean|-0.2||||0.745|TWO_SIDED|95.0|-1.5|1.1|||ANCOVA|||Week 7 to Week 12||1.1|-1.5|0.745
82495329|NCT03095066|164682926|SUPERIORITY||Difference in LS Mean|-0.2||||0.268|TWO_SIDED|95.0|-0.5|0.2|||ANCOVA|||Baseline to Week 6||0.2|-0.5|0.268
82495330|NCT03095066|164682926|SUPERIORITY||Difference in LS Mean|-0.5||||0.147|TWO_SIDED|95.0|-1.2|0.2|||ANCOVA|||Week 7 to Week 12||0.2|-1.2|0.147
82495331|NCT03095066|164682927|SUPERIORITY||Difference in LS Mean|-0.1||||0.655|TWO_SIDED|95.0|-0.5|0.3|||ANCOVA|||Baseline to Week 6||0.3|-0.5|0.655
82495332|NCT03095066|164682927|SUPERIORITY||Difference in LS Mean|-0.2||||0.734|TWO_SIDED|95.0|-1.2|0.9|||ANCOVA|||Week 7 to Week 12||0.9|-1.2|0.734
82495333|NCT04592874|164682928|SUPERIORITY||Mean Difference (Final Values)|-0.17||||0.7975|TWO_SIDED|95.0|-1.49|1.15|||Mixed Models Analysis|||This is using the Week 96 timepoint||1.15|-1.49|0.7975
82495334|NCT04592874|164682928|SUPERIORITY||Mean Difference (Final Values)|-0.31||||0.6341|TWO_SIDED|95.0|-1.61|0.98|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.98|-1.61|0.6341
82495335|NCT04592874|164682928|SUPERIORITY||Mean Difference (Final Values)|0.13||||0.8489|TWO_SIDED|95.0|-1.18|1.43|||Mixed Models Analysis|||This is using the Week 96 timepoint||1.43|-1.18|0.8489
82495336|NCT04592874|164682929|SUPERIORITY||Mean Difference (Final Values)|-0.4||||0.7417|TWO_SIDED|95.0|-2.81|2.01|||Mixed Models Analysis|||This is using the Week 96 timepoint||2.01|-2.81|0.7417
82495337|NCT04592874|164682929|SUPERIORITY||Mean Difference (Final Values)|-1.74||||0.1559|TWO_SIDED|95.0|-4.16|0.67|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.67|-4.16|0.1559
82495338|NCT04592874|164682929|SUPERIORITY||Mean Difference (Final Values)|-0.34||||0.785|TWO_SIDED|95.0|-2.78|2.11|||Mixed Models Analysis|||This is using the Week 96 timepoint||2.11|-2.78|0.7850
82495339|NCT04592874|164682930|SUPERIORITY||Mean Difference (Final Values)|-0.65||||0.7934|TWO_SIDED|95.0|-5.58|4.28|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.28|-5.58|0.7934
82495340|NCT04592874|164682930|SUPERIORITY||Mean Difference (Final Values)|0.24||||0.9259|TWO_SIDED|95.0|-4.84|5.32|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.32|-4.84|0.9259
82495341|NCT04592874|164682930|SUPERIORITY||Mean Difference (Final Values)|0.91||||0.7147|TWO_SIDED|95.0|-4.04|5.87|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.87|-4.04|0.7147
82495342|NCT04592874|164682931|SUPERIORITY||Mean Difference (Final Values)|0.97||||0.6403|TWO_SIDED|95.0|-3.14|5.09|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.09|-3.14|0.6403
82495343|NCT04592874|164682931|SUPERIORITY||Mean Difference (Final Values)|1.4||||0.5016|TWO_SIDED|95.0|-2.71|5.51|||Mixed Models Analysis|||This is using the Week 96 timepoint||5.51|-2.71|0.5016
82495344|NCT04592874|164682931|SUPERIORITY||Mean Difference (Final Values)|2.94||||0.1631|TWO_SIDED|95.0|-1.21|7.08|||Mixed Models Analysis|||This is using the Week 96 timepoint||7.08|-1.21|0.1631
82495345|NCT04592874|164682932|SUPERIORITY||Mean Difference (Final Values)|-0.53||||0.7945|TWO_SIDED|95.0|-4.57|3.51|||Mixed Models Analysis|||This is using the Week 96 timepoint||3.51|-4.57|0.7945
82495346|NCT04592874|164682932|SUPERIORITY||Mean Difference (Final Values)|0.16||||0.9371|TWO_SIDED|95.0|-3.92|4.25|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.25|-3.92|0.9371
82495347|NCT04592874|164682932|SUPERIORITY||Mean Difference (Final Values)|0.53||||0.7991|TWO_SIDED|95.0|-3.58|4.64|||Mixed Models Analysis|||This is using the Week 96 timepoint||4.64|-3.58|0.7991
82495348|NCT04592874|164682933|SUPERIORITY||Mean Difference (Final Values)|-0.03||||0.6458|TWO_SIDED|95.0|-0.17|0.11|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.11|-0.17|0.6458
82495349|NCT04592874|164682933|SUPERIORITY||Mean Difference (Final Values)|0.08||||0.2779|TWO_SIDED|95.0|-0.06|0.21|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.21|-0.06|0.2779
82495350|NCT04592874|164682933|SUPERIORITY||Mean Difference (Final Values)|0.04||||0.5355|TWO_SIDED|95.0|-0.1|0.18|||Mixed Models Analysis|||This is using the Week 96 timepoint||0.18|-0.10|0.5355
82495351|NCT00777608|164682940|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07||||0.231|TWO_SIDED|90.0|-0.2|0.08|||ANOVA|||||0.08|-0.2|0.231
82495352|NCT00777608|164682941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.2|STANDARD_ERROR_OF_MEAN|0.09||0.041|TWO_SIDED|90.0|-0.3|-0.008|||ANOVA||Statistical analysis for Week 2|||-0.008|-0.3|0.041
82495353|NCT00777608|164682941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1|STANDARD_ERROR_OF_MEAN|0.09||0.143|TWO_SIDED|90.0|-0.3|0.06|||ANOVA||Statistical analysis for Week 8|||0.06|-0.3|0.143
82495354|NCT00777608|164682941|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.07|STANDARD_ERROR_OF_MEAN|0.1||0.226|TWO_SIDED|90.0|-0.2|0.09|||ANOVA||Statistical analysis for Week 12|||0.09|-0.2|0.226
82495355|NCT00777608|164682942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.5|STANDARD_ERROR_OF_MEAN|1.0||0.324|TWO_SIDED|90.0|-1.2|2.2|||ANOVA||Statistical analysis for Week 4|||2.2|-1.2|0.324
82495356|NCT00777608|164682942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|1.4||0.285|TWO_SIDED|90.0|-1.5|3.1|||ANOVA|||||3.1|-1.5|0.285
82495357|NCT00777608|164682942|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.3|STANDARD_ERROR_OF_MEAN|1.3||0.401|TWO_SIDED|90.0|-2.6|1.9|||ANOVA||Statistical analysis for Week 12|||1.9|-2.6|0.401
82495358|NCT03897465|164682975|NON_INFERIORITY|Pre-specified non-inferiority margin was 10%|Risk Difference (RD)|1.4|||||TWO_SIDED|95.0|-10.0||Upper Limit= +Infinity|||||Descriptive analysis of the primary endpoint was provided on per protocol population. The overall difference LomatuellPro (LP) - UrgoTul (UT) of the % of patients meeting main efficacy criterion was calculated with 95% bilateral confidence interval (CI). If lower limit of the 95% CI did not exceed the -10% value of pre-specified non-inferiority margin, non-inferiority had to be accepted. As a sensitivity analysis, the same analysis was performed on mITT (modified Intention-to-treat) population.|||-10|
82495359|NCT02197247|164682993|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No effect on the PK of AZD9291 after co-administration of rifampicin was concluded if the lower bound of the 90% confidence intervals (CIs) for the ratios (Period 2 versus Period 1) of AZD9291 AUCtau and Css,max were both above 50%. The experiment-wide power for the ratios being above 50% was 90% (95% power for each parameter).|Geometric least-squares (LS) mean ratio|27.16|||||TWO_SIDED|90.0|24.36|30.29|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1).|Natural log-transformed Css,max values were compared between periods using a mixed effects analysis of variance (ANOVA) with period as fixed effect and patient as random effect. It was assumed the within-patient coefficient of variation for AZD9291 in both area under the plasma concentration-time curve during the dosing interval (AUCtau) and Cmax was 34%. A 33% decrease in exposure for AZD9291 when given with rifampicin was also assumed.||30.29|24.36|
82495360|NCT02197247|164682994|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|No effect on the PK of AZD9291 after co-administration of rifampicin was concluded if the lower bound of the 90% CIs for the ratios (Period 2 versus Period 1) of AZD9291 AUCtau and Css,max were both above 50%. The experiment-wide power for the ratios being above 50% was 90% (95% power for each parameter).|Geometric LS Mean Ratio|21.55|||||TWO_SIDED|90.0|19.5|23.83|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1).|Natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as fixed effect and patient as random effect. It was assumed the within-patient coefficient of variation for AZD9291 in both AUCtau and Cmax was 34%. A 33% decrease in exposure for AZD9291 when given with rifampicin was also assumed.||23.83|19.50|
82495361|NCT02197247|164682995|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|95.53|||||TWO_SIDED|90.0|85.27|107.03|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for AZD9291 alone in separate periods, but analysed for consistency with AZD9291+rifampicin / AZD9291 alone analysis (primary outcome measure).|Natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||107.03|85.27|
82495362|NCT02197247|164682996|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|21.72|||||TWO_SIDED|90.0|19.08|24.72|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||24.72|19.08|
82495363|NCT02197247|164682996|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|88.31|||||TWO_SIDED|90.0|77.17|101.07|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||101.07|77.17|
82495364|NCT02197247|164682997|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|139.32|||||TWO_SIDED|90.0|127.74|151.96|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||151.96|127.74|
82495365|NCT02197247|164682997|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|100.75|||||TWO_SIDED|90.0|92.04|110.29|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed Css,max values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||110.29|92.04|
82495366|NCT02197247|164682999|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|95.89|||||TWO_SIDED|90.0|86.37|106.45|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for AZD9291 alone in separate periods, but analysed for consistency with AZD9291+rifampicin / AZD9291 alone analysis (primary outcome measure).|Natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||106.45|86.37|
82495367|NCT02197247|164683000|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|18.76|||||TWO_SIDED|90.0|16.61|21.19|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||21.19|16.61|
82495368|NCT02197247|164683000|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|90.08|||||TWO_SIDED|90.0|79.34|102.27|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ5104 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||102.27|79.34|
82495369|NCT02197247|164683001|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|129.81|||||TWO_SIDED|90.0|119.14|141.44|||||AZD9291+rifampicin / AZD9291 alone (Period 2 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||141.44|119.14|
82495370|NCT02197247|164683001|SUPERIORITY_OR_OTHER_LEGACY||Geometric LS Mean Ratio|100.76|||||TWO_SIDED|90.0|92.15|110.19|||||AZD9291 alone / AZD9291 alone (Period 3 versus Period 1). No pre-specified margins for equivalence test for metabolites, but analysed for consistency with AZD9291 analysis.|For AZ7550 (metabolite), natural log-transformed AUCtau values were compared between periods using a mixed effects ANOVA with period as a fixed effect and patient as a random effect.||110.19|92.15|
82495371|NCT05973981|164683011|OTHER||Slope|0.19|||||TWO_SIDED|95.0|-0.25|0.63|||||Adjusted for age, sex, and race|||0.63|-0.25|
82495372|NCT05973981|164683011|OTHER||Slope|0.03|||||TWO_SIDED|95.0|-0.41|0.46|||||adjusted for age, sex, and race|||0.46|-0.41|
82495373|NCT00601458|164683012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-50.7||||0.005||97.8|-73.6|-8.0||1-sided alpha = 0.045 Hochberg closed testing procedure|ANOVA||The natural log scale treatment difference (pregabalin - placebo) and 97.8% CI for the treatment difference were exponentiated and reported as a percentage reduction in 24-h cumulative hydromorphone consumption.|||-8.0|-73.6|0.005
82495374|NCT00601458|164683012|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-65.4||||0.0001||97.8|-81.7|-34.6||1-sided alpha = 0.045 Hochberg closed testing procedure|ANOVA||The natural log scale treatment difference (naproxen - placebo) and 97.8% CI for the treatment difference were exponentiated and reported as a percentage reduction in 24-h cumulative hydromorphone consumption.|||-34.6|-81.7|0.0001
82495375|NCT00601458|164683013|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|1.46||||0.004||95.0|0.183|2.95||1-sided alpha = 0.045 Hochberg closed testing procedure|Log Rank||Hodges-Lehmann procedure was used to obtain an estimate of the difference in medians and an exact CI for the difference in medians|||2.95|0.183|0.004
82495376|NCT00601458|164683013|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|3.7|||<|0.001||95.0|1.77|6.72||1-sided alpha = 0.045 Hochberg closed testing procedure|Log Rank||Hodges-Lehmann procedure was used to obtain an estimate of the difference in medians and an exact CI for the difference in medians|||6.72|1.77|<0.001
82495377|NCT00370032|164683014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-8.1||||0.131||95.0|-18.4|2.157|||paired t-test Hommel-Simes|||||2.157|-18.4|0.131
82495378|NCT00370032|164683014|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-9.11||||0.131||95.0|-21.2|2.997|||paired t-test Hommel-Simes|||||2.997|-21.2|0.131
82495379|NCT00602797|164683040|OTHER|An interim analysis was conducted after 10 patients were accrued. Since response rate seen at the first interim analysis was superior to that seen with standard of care, a new monitoring rule was approved. Toxicity monitoring would occur after 19 patients. If 6/19 patients had ≥grade 4 non-hematological toxicity, accrual will be terminated. This will provide 84% power to detect 40% toxicity.|Proportion|6.0|||||TWO_SIDED||||||||If 6/19 patients had ≥grade 4 non-hematological toxicity, accrual will be terminated.|Adverse events will be graded using the NCI Common Toxicity Criteria (version 3.0).||||
82499054|NCT03978520|164689008|SUPERIORITY||Response Rate Difference|-4.7|||=|0.566|TWO_SIDED|95.0|-20.8|11.4|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||11.4|-20.8|=0.566
82495380|NCT04502693|164683069|OTHER|Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for Vaccine Effectiveness (VE) against the selected strain panel between the MenB\_0\_2\_6 and the ACWY groups is above 65%. VE is defined as 1- Risk Ratio (RR) = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE (Vaccine Effectiveness)|83.2|||||TWO_SIDED|97.5|81.9|84.4||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 3-dose (0,2,6-months) schedule in MenB\_0\_2\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||84.4|81.9|
82495381|NCT04502693|164683069|OTHER|"Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for VE against the selected strain panel between the MenB\_0\_ 6 and the ACWY groups is above 65%.~VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage."|VE|81.8|||||TWO_SIDED|97.5|80.4|83.1||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 2-dose (0,6-M) schedule in MenB\_0\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||83.1|80.4|
82495382|NCT04502693|164683070|OTHER|Effectiveness of rMenB+OMV NZ vaccine is demonstrated if the LL of the 2-sided 97.5% CI for VE against the selected strain panel between the MenB\_0\_2\_6 and the ACWY groups is above 65%. VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in MenB group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE|78.7|||||TWO_SIDED|97.5|77.2|80.1||||||To demonstrate the effectiveness of the rMenB+OMV NZ vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by bactericidal activity using enc-hSBA at 1 month after the 2-dose (0,2-M) schedule in MenB\_0\_2\_6 group when compared to 1 month after the MenACWY dose in the ACWY group.||80.1|77.2|
82495383|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.96|||||TWO_SIDED|95.0|0.84|1.1||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||1.10|0.84|
82495384|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.86|||||TWO_SIDED|95.0|0.75|0.98||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||0.98|0.75|
82495385|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.9|||||TWO_SIDED|95.0|0.78|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup A at 1 month after last vaccination (Day 211).||1.02|0.78|
82495386|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.92|||||TWO_SIDED|95.0|0.76|1.11||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.11|0.76|
82495387|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|1.17|||||TWO_SIDED|95.0|0.97|1.41||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.41|0.97|
82495388|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|1.27|||||TWO_SIDED|95.0|1.05|1.54||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup C at 1 month after last vaccination (Day 211).||1.54|1.05|
82495389|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.89|||||TWO_SIDED|95.0|0.77|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.02|0.77|
82495390|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.88|||||TWO_SIDED|95.0|0.77|1.02||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.02|0.77|
82495391|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.99|||||TWO_SIDED|95.0|0.86|1.14||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup W at 1 month after last vaccination (Day 211).||1.14|0.86|
82495392|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y are within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.86|||||TWO_SIDED|95.0|0.73|1.01||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-2 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||1.01|0.73|
82495393|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.83|||||TWO_SIDED|95.0|0.71|0.98||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-1 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||0.98|0.71|
82495394|NCT04502693|164683073|EQUIVALENCE|Lot-to-lot consistency is claimed if the 2-sided 95% CIs for the ratio of hSBA GMTs of antibodies against each of the serogroups A, C, W and Y is within the \[0.5;2.0\] equivalence interval for each pair of lots.|GMT ratio|0.97|||||TWO_SIDED|95.0|0.82|1.14||||||To demonstrate lot-to-lot consistency of the immune responses of ABCWY-2 and ABCWY-3 lots of the MenACWY component of the MenABCWY vaccine, as measured by hSBA GMTs directed against serogroup Y at 1 month after last vaccination (Day 211).||1.14|0.82|
82495395|NCT04502693|164683074|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|11.29|||||TWO_SIDED|95.0|5.88|19.01|||Difference in percentage of participants|||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup A at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||19.01|5.88|
82495396|NCT04502693|164683074|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|47.22|||||TWO_SIDED|95.0|38.14|56.3||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup C at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||56.30|38.14|
82495397|NCT04502693|164683074|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|35.31|||||TWO_SIDED|95.0|26.88|44.49||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup W at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||44.49|26.88|
82495398|NCT04502693|164683074|NON_INFERIORITY|Non-inferiority of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for the difference in percentage of participants with 4-fold rise between the 2 groups is above -10%.|Difference in percentage of participants|26.99|||||TWO_SIDED|95.0|19.38|35.81||||||To demonstrate the immunological non-inferiority of the MenABCWY vaccine compared to the MenACWY vaccine in participants without a previous MenACWY vaccination (unprimed) as measured by the percentages of participants, achieving a 4-fold rise in hSBA titers against N. meningitidis serogroup Y at 1 month after the last MenABCWY vaccination (Day 211) and 1 month after the MenACWY vaccination.||35.81|19.38|
82495399|NCT04502693|164683075|OTHER|Effectiveness of MenABCWY vaccine is demonstrated if the LL of the 2-sided 95% CI for VE against the selected strain panel between the ABCWY and the ACWY groups is above 65%. VE is defined as 1- RR = (1- percentage of samples without bactericidal serum activity at 1:4 dilution in ABCWY\_Pooled group / percentage of samples without bactericidal serum activity at 1:4 dilution in the ACWY group) x100 percentage.|VE|77.9|||||TWO_SIDED|95.0|76.6|79.2||||||To demonstrate the effectiveness of the MenABCWY vaccine against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains as measured by enc-hSBA at 1 month after the last MenABCWY vaccination (Day 211) when compared to 1 month after the MenACWY vaccination.||79.2|76.6|
82495400|NCT04502693|164683076|NON_INFERIORITY|Non-inferiority of MenABCWY to rMenB+OMV NZ is demonstrated if LL of the 2-sided 95% CI for the difference in percentages of samples with bactericidal serum activity at 1:4 dilution is above -5%.|Difference in percentage of participants|-0.61|||||TWO_SIDED|95.0|-1.25|0.03||||||To demonstrate the non-inferiority of the effectiveness of the MenABCWY vaccine (0,6-months schedule) compared to the rMenB+OMV NZ vaccine (0,2-months) in terms of percentage of samples with bactericidal serum activity using enc-hSBA against a randomly selected panel of endemic US N. meningitidis serogroup B invasive disease strains.||0.03|-1.25|
82495401|NCT03736447|164683107|SUPERIORITY||Risk Difference (RD)|67.2|||<|0.0001|TWO_SIDED|95.0|50.0|84.5|||Farrington-Manning test|||||84.5|50.0|<0.0001
82495402|NCT03736447|164683108|SUPERIORITY||Risk Difference (RD)|64.2|||<|0.0001|TWO_SIDED|95.0|47.0|81.4|||Farrington-Manning test|||||81.4|47.0|<0.0001
82495403|NCT03736447|164683109|SUPERIORITY||Risk Difference (RD)|56.7|||<|0.0001|TWO_SIDED|95.0|39.8|73.5|||Farrington-Manning test|||||73.5|39.8|<0.0001
82495404|NCT03338998|164683139|SUPERIORITY||Geo-mean ratio|1.05||||0.585|TWO_SIDED|90.0|0.717|1.535|||ANCOVA|||||1.535|0.717|0.585
82495405|NCT04526665|164683143|OTHER||Odds Ratio (OR)|37.562|||<|0.0001|TWO_SIDED|95.0|7.641|302.247|||Exact Cochran-Mantel-Haenszel test|Exact Cochran-Mantel-Haenszel test stratified by the randomization factors (ALP \>3xULN or TB\>ULN:Yes/No, and Baseline PBC Worst Itch NRS ≥ 4: Yes/No)||||302.247|7.641|<0.0001
82495406|NCT04526665|164683145|OTHER||Least square mean difference|-0.784||||0.197|TWO_SIDED|95.0|-1.986|0.418|||mixed model for repeated measures (MMRM)|||||0.418|-1.986|0.1970
82495407|NCT04526665|164683146|OTHER||Least square mean difference|-0.343||||0.5522|TWO_SIDED|95.0|-1.489|0.803|||MMRM|MMRM with treatment, 4-week period and treatment by 4-week period interaction as fixed factors and adjusting for baseline and stratification factors.||||0.803|-1.489|0.5522
82495408|NCT00844831|164683216|SUPERIORITY|||||||0.75|||||||t-test, 2 sided|||||||0.75
82495409|NCT00844831|164683218|OTHER|||||||0.9|||||||Wilcoxon (Mann-Whitney)|||||||.9
82495410|NCT00540514|164683230|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.313||||0.005|TWO_SIDED|95.1|1.082|1.593||Statistical significance defined as P-value \< 0.049.|Chi-squared||Response rate ratio = PA/PT. A response rate ratio \> 1 favors the albumin-bound paclitaxel/carboplatin arm of the study.|The null hypothesis is that the albumin-bound paclitaxel/carboplatin regimen response rate (PA) is equal to that of the paclitaxel (Taxol)/carboplatin regimen (PT). Superiority of albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin will be established if the lower bound of the 95.1% CI of the response rate ratio is \> 1.0.||1.593|1.082|0.005
82495411|NCT00540514|164683231|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.902||||0.214|TWO_SIDED|95.1|0.767|1.06||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (squamous cell carcinoma, adenocarcinoma, or other carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.060|0.767|0.214
82495412|NCT00540514|164683232|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.922||||0.271|TWO_SIDED|95.1|0.797|1.066||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (Squamous cell carcinoma, adenocarcinoma, or other carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.066|0.797|0.271
82495413|NCT00540514|164683233|SUPERIORITY_OR_OTHER_LEGACY||Response Rate Ratio|1.074||||0.239|TWO_SIDED|95.0|0.953|1.21|||Chi-squared|||||1.210|0.953|0.239
82495414|NCT00540514|164683234|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.901||||0.551|TWO_SIDED|95.0|0.652|1.244||P-value is based on a stratified log rank test stratified by geographic region (North America/Australia, Eastern Europe, or Asia/Pacific) and histology of primary diagnosis (Squamous cell carcinoma or Non squamous cell carcinoma).|Log Rank||Hazard ratio (albumin-bound paclitaxel/carboplatin to paclitaxel/carboplatin) \<1 favors the albumin-bound paclitaxel/carboplatin group.|||1.244|0.652|0.551
82495415|NCT00540514|164683237|SUPERIORITY_OR_OTHER_LEGACY|||||||0.302||95.0|||||Univariate Cox regression|||SPARC correlation with overall survival for the overall SPARC population.||||0.302
82495416|NCT00540514|164683238|SUPERIORITY_OR_OTHER_LEGACY|||||||0.036||95.0||||A nonsignificant interaction P-value (ie, p-value ≥ 0.100) indicates the treatment regimen effect was consistent within a prognostic factor.|Regression, Logistic|Logistic regression model with effects for treatment regimen, prognostic factor (histology), and treatment regimen by prognostic factor interaction.||||||0.036
82495417|NCT04487730|164683243|SUPERIORITY||Mean Difference (Final Values)|0.4727||||0.6249|TWO_SIDED||||||Mixed Models Analysis|||Functional connectivity within the orbital prefrontal cortex (OFC; specifically between lateral and medial OFC), significantly changed over time.||||0.6249
82495418|NCT04487730|164683244|SUPERIORITY||Mean Difference (Final Values)|3.8176||||0.525|TWO_SIDED||||||Mixed Models Analysis|||"Mixed effects model with a fixed effect for treatment and time, as well as time by treatment interaction, and a random effect for subject level.~F value for time by treatment interaction."||||.525
82495419|NCT04487730|164683245|SUPERIORITY||Mean Difference (Final Values)|0.6503||||0.844|TWO_SIDED||||||Mixed Models Analysis|||"Mixed effects model with a fixed effect for treatment and time, as well as time by treatment interaction, and a random effect for subject level.~F value for time by treatment interaction."||||.844
82495420|NCT02891850|164683255|EQUIVALENCE|The hypothesis was that there was no difference in the satisfactory clinical response rates in terms of odds ratio (OR) when treated with riociguat compared with participants who remained on their previous therapy.|Odds Ratio (OR)|2.78||||0.0007|TWO_SIDED|95.0|1.526|5.06|||Mantel Haenszel|Stratified by PAH category at baseline||||5.060|1.526|0.0007
82495421|NCT02891850|164683256|EQUIVALENCE|The hypothesis was that there was no difference in the change of 6MWD in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|22.56||||0.0542|TWO_SIDED|95.0|5.03|40.1|||t-test, 2 sided|Stratified by PAH category at baseline||||40.10|5.03|0.0542
82495422|NCT02891850|164683257|EQUIVALENCE|The hypothesis was that there was no difference in the change of NT-proBNP in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|-169.65||||0.1067|TWO_SIDED|95.0|-426.18|86.88|||t-test, 2 sided|Stratified by PAH category at baseline||||86.88|-426.18|0.1067
82495423|NCT02891850|164683258|EQUIVALENCE|The hypothesis was that there was no difference in the change from baseline in WHO FC in terms of mean difference when treated with riociguat compared with participants who remained on their previous therapy.|Mean Difference (Final Values)|-0.26||||0.0007|TWO_SIDED|95.0|-0.42|-0.11|||t-test, 2 sided|Stratified by PAH category at baseline||||-0.11|-0.42|0.0007
82495424|NCT02891850|164683259|EQUIVALENCE|The hypothesis was that there was no difference in the clinical worsening rates in terms of odds ratio (OR) when treated with riociguat compared with participants who remained on their previous therapy.|Odds Ratio (OR)|0.1||||0.0047|TWO_SIDED|95.0|0.013|0.725|||Mantel Haenszel|Stratified by PAH category at baseline||||0.725|0.013|0.0047
82495425|NCT00790023|164683260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.94|||<|0.0001|TWO_SIDED|95.0|0.57|1.32||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.32|0.57|<0.0001
82499892|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.9|||||TWO_SIDED|95.0|16.1|49.8|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||49.8|16.1|
82495426|NCT00790023|164683260|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.08|||<|0.0001|TWO_SIDED|95.0|0.7|1.45||The p-value from primary outcome was adjusted at alpha=0.025.|ANCOVA|||The null hypothesis is that there is no difference in primary outcome when compare active to placebo group. The alternative hypothesis is that there is a difference in primary outcome when compare active to placebo group. It was estimated that 200 subjects per group will provide at least 85% power to detect a difference between treatment groups of 0.7 in the change from baseline in rTNSS with a two-sided alpha level of 0.025.||1.45|0.70|<0.0001
82495427|NCT00790023|164683261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.87|||<|0.0001|TWO_SIDED|95.0|0.5|1.25|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||1.25|0.50|<0.0001
82495428|NCT00790023|164683261|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.0|||<|0.0001|TWO_SIDED|95.0|0.63|1.37|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||1.37|0.63|<0.0001
82495429|NCT00790023|164683262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.61||||0.0004|TWO_SIDED|95.0|0.28|0.95|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.95|0.28|0.0004
82495430|NCT00790023|164683262|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.6||||0.0005|TWO_SIDED|95.0|0.27|0.94|||ANCOVA|||Dmitrienko's tree-structured gatekeeping method was used for multiple comparisons||0.94|0.27|0.0005
82495431|NCT03633695|164683303|SUPERIORITY||Mean Difference (Final Values)|-0.177|||<|0.0001|TWO_SIDED|95.0|-0.214|-0.14||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 Group was greater (i.e. worse) than or equal to that for the Control Group. The alternative hypothesis was that the mean for the IC-8 Group less (i.e., better) than that for the Control Group.||-0.140|-0.214|<.0001
82495432|NCT03633695|164683304|SUPERIORITY||Mean Difference (Final Values)|-0.191|||<|0.0001|TWO_SIDED|95.0|-0.223|-0.158||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 Group was greater (i.e. worse) than or equal to that for the Control Group. The alternative hypothesis was that the mean for the IC-8 Group less (i.e., better) than that for the Control Group.||-0.158|-0.223|<.0001
82495433|NCT03633695|164683305|NON_INFERIORITY|Non-inferiority margin was 0.1 logMAR.|Mean Difference (Final Values)|-0.012|||<|0.0001|ONE_SIDED|95.0||0.007||The threshold for statistical significance was p=0.05.|t-test, 1 sided||Acuity Difference = IC-8 IOL Group - Control Group|The null hypothesis was that the mean acuity for the IC-8 IOL Group is inferior to the Control Group by 0.1 logMAR or more. The alternative hypothesis was that the mean acuity for the IC-8 IOL group is inferior to the Control Group by less than 0.1 logMAR.||0.007||<.0001
82495434|NCT03633695|164683306|SUPERIORITY||Mean Difference (Final Values)|-0.18|||<|0.0001|TWO_SIDED|95.0|-0.198|-0.163||The threshold for statistical significance was p=0.05.|t-test, 2 sided||Acuity Difference = IC-8 IOL Eye (IC-8 IOL Group) - Fellow Eye (IC-8 IOL Group)|The null hypothesis was that the mean acuity for the IC-8 IOL eyes is greater (i.e., worse) than or equal to that for the fellow eyes. The alternative hypothesis was that the mean for the IC-8 IOL eyes is less (i.e., better) than that for the fellow eyes.||-0.163|-0.198|<.0001
82495435|NCT03633695|164683307|OTHER||Difference in depth of focus|0.91|||||TWO_SIDED||||||||Difference in depth of focus \[IC-8™ IOL Eyes (IC-8™ IOL Group) - Fellow Eyes (IC-8™ IOL Group)\]|||||
82495436|NCT03633695|164683308|NON_INFERIORITY|The non-inferiority margin was 0.1 logMAR.|Mean Difference (Final Values)|0.068|||<|0.0001|ONE_SIDED|95.0||0.082||The threshold for statistical significance was p=0.05.|t-test, 1 sided||Acuity Difference = IC-8 IOL Eyes (IC-8 Group) - Fellow Eyes (IC-8 Group)|The null hypothesis was that the mean acuity for the IC-8 IOL eyes was inferior to the fellow eyes by 0.1 logMAR or more. The alternative hypothesis was that the mean acuity for the IC-8 eyes was inferior to the fellow eyes by less than 0.1 logMAR.||0.082||<.0001
82495437|NCT03633695|164683316|NON_INFERIORITY|Non-inferiority margin was 0.12 logMAR.|Mean Difference (Final Values)|0.023|||<|0.0001|TWO_SIDED|95.0||||The threshold for statistical significance was p=0.05.|t-test, 1 sided|||The null hypothesis was that the mean acuity in Astigmatism Group 2 was inferior to the Astigmatism Group 1 by 0.12 logMAR or more. The alternative hypothesis was that the mean acuity in Astigmatism Group 2 was inferior to Astigmatism Group 1 by less than 0.12 logMAR.||||<.0001
82495438|NCT02728050|164683327|SUPERIORITY|||||||0.48|||||||Fisher Exact|||"Participants on study receiving CLAGM-S were compared to a historical cohort of newly diagnosed AML/high-risk MDS patients treated with CLAG-M alone, matched for mitoxantrone dose, age, and TRM score.~Number of participants in historical cohort = 71. Number of participants in historical cohort who achieved MRD-negative CR = 55 (77.46%)"||||0.48
82495439|NCT01438957|164683336|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
82495440|NCT01438957|164683336|SUPERIORITY|||||||0.003|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.003
82495441|NCT01438957|164683336|SUPERIORITY|||||||0.086|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.086
82495442|NCT01438957|164683336|SUPERIORITY||||||<|0.001|||||||Mantel-extension test|Stratified by the anesthesia type||Dose-response relationship is assessed using Mantel-extension test. In this analysis, dose of placebo group is hypothesized as 0 microg/kg. Dose-response relationship among Dexmedetomidine 4 dose groups excluding placebo group is also assessed using Mantel-extension test.||||<0.001
82495443|NCT01438957|164683337|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
82495444|NCT01438957|164683337|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||<0.001
82495445|NCT01438957|164683337|SUPERIORITY|||||||0.006|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.006
82495446|NCT01438957|164683337|SUPERIORITY|||||||0.329|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.329
82495447|NCT01438957|164683338|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
82495448|NCT01438957|164683338|SUPERIORITY||||||<|0.001|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||<0.001
82495449|NCT01438957|164683338|SUPERIORITY|||||||0.006|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.006
82495450|NCT01438957|164683338|SUPERIORITY|||||||0.371|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||||||0.371
82495451|NCT01438957|164683339|SUPERIORITY||||||<|0.001|||||||Log Rank|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
82495452|NCT01438957|164683339|SUPERIORITY|||||||0.001|||||||Log Rank|Stratified by the anesthesia type||||||0.001
82495453|NCT01438957|164683339|SUPERIORITY|||||||0.212|||||||Log Rank|Stratified by the anesthesia type||||||0.212
82495454|NCT01438957|164683340|SUPERIORITY|||||||0.869|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.869
82495455|NCT01438957|164683341|SUPERIORITY|||||||0.897|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.897
82495456|NCT01438957|164683342|SUPERIORITY|||||||0.897|TWO_SIDED|5.0|||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.897
82495457|NCT01438957|164683343|SUPERIORITY||||||<|0.001|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||<0.001
82495458|NCT01438957|164683343|SUPERIORITY|||||||0.002|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.002
82495459|NCT01438957|164683343|SUPERIORITY|||||||0.116|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.116
82495460|NCT01438957|164683344|SUPERIORITY|||||||0.088|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.088
82495461|NCT01438957|164683345|SUPERIORITY|||||||0.085|||||||Log Rank|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.085
82495462|NCT01438957|164683346|SUPERIORITY|||||||0.005|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.005
82495463|NCT01438957|164683346|SUPERIORITY|||||||0.014|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.014
82495464|NCT01438957|164683346|SUPERIORITY|||||||0.055|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.055
82495465|NCT01438957|164683347|SUPERIORITY|||||||0.737|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.737
82495466|NCT01438957|164683348|SUPERIORITY|||||||0.11|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.11
82495467|NCT01438957|164683349|SUPERIORITY|||||||0.567|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.567
82495468|NCT01438957|164683350|SUPERIORITY|||||||0.044|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.044
82495469|NCT01438957|164683350|SUPERIORITY|||||||0.234|||||||Mantel Haenszel|Stratified by the anesthesia type||||||0.234
82495470|NCT01438957|164683351|SUPERIORITY|||||||0.729|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.729
82495471|NCT01438957|164683352|SUPERIORITY|||||||0.082|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.082
82495472|NCT01438957|164683353|SUPERIORITY|||||||0.451|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.451
82495473|NCT01438957|164683354|SUPERIORITY|||||||0.873|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.873
82495474|NCT01438957|164683355|SUPERIORITY|||||||0.374|||||||Mantel Haenszel|Stratified by the anesthesia type||The closed testing procedure is used taking multiplicity into consideration, in which Dexmedetomidine 1.0 mcg/kg group, 0.5 mcg/kg group, 0.25 mcg/kg group, 0.067 mcg/kg group and the placebo group are tested in this order||||0.374
82495475|NCT00407797|164683356|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Percent change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
82495476|NCT00407797|164683357|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||||||<.0001
82495477|NCT00407797|164683358|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Percent change evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
82495478|NCT00407797|164683359|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Participants with \<= 6 seizures during Baseline period.||||<.0001
82495479|NCT00407797|164683359|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Participants with \> 6 seizures during Baseline Period.||||<.0001
82495480|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0552|TWO_SIDED|95.0|||||t-test, 2 sided|||Week 21: Sleep Disturbance. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0552
82495481|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.035|TWO_SIDED|95.0|||||t-test, 2 sided|||LOCF: Sleep Disturbance. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0350
82495482|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.6743|TWO_SIDED||||||t-test, 2 sided|||Week 21: Snoring. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.6743
82495483|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.4736|TWO_SIDED||||||t-test, 2 sided|||LOCF: Snoring. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.4736
82495484|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8173|TWO_SIDED||||||t-test, 2 sided|||Week 21: Awaken Short of Breath. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.8173
82495485|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.9092|TWO_SIDED||||||t-test, 2 sided|||LOCF: Awaken Short of Breath. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.9092
82495486|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1091|TWO_SIDED||||||t-test, 2 sided|||Week 21: Sleep Adequacy. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1091
82495487|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0944|TWO_SIDED||||||t-test, 2 sided|||LOCF: Sleep Adequacy. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0944
82495488|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.8928|TWO_SIDED||||||t-test, 2 sided|||Week 21: Somnolence. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.8928
82495489|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.7669|TWO_SIDED||||||t-test, 2 sided|||LOCF: Somnolence. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.7669
82495490|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1698|TWO_SIDED||||||t-test, 2 sided|||Week 21: 9-Item Overall Sleep Problems Index. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1698
82495491|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0898|TWO_SIDED||||||t-test, 2 sided|||LOCF: 9-Item Overall Sleep Problem Index. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0898
82495492|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0465|TWO_SIDED||||||t-test, 2 sided|||Week 21: Quantity of Sleep. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0465
82495493|NCT00407797|164683365|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0316|TWO_SIDED||||||t-test, 2 sided|||LOCF: Quantity of Sleep. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0316
82495494|NCT00407797|164683366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.2187|TWO_SIDED|95.0|||||t-test, 2 sided|||Week 21; change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.2187
82495495|NCT00407797|164683366|SUPERIORITY_OR_OTHER_LEGACY|||||||0.1905|TWO_SIDED|95.0|||||t-test, 2 sided|||LOCF; change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.1905
82495496|NCT00407797|164683367|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Anxiety: Week 21. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
82495497|NCT00407797|164683367|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.0001|TWO_SIDED|95.0|||||t-test, 2 sided|||Anxiety: LOCF. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||<.0001
82495498|NCT00407797|164683367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0799|TWO_SIDED||||||t-test, 2 sided|||Depression: Week 21. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0799
82495499|NCT00407797|164683367|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0846|TWO_SIDED||||||t-test, 2 sided|||Depression: LOCF. Change from baseline evaluated by a one-sample two-sided t-test comparing the difference to zero.||||0.0846
82495500|NCT03250845|164683370|SUPERIORITY||||||<|0.0001|||||||t-test, 1 sided|||H0: No difference between Multigam 5% and Multigam 10% infusion time Ha: Multigam 10% infusion time is significantly shorter than Multigam 5%||||<0.0001
82495501|NCT03250845|164683371|SUPERIORITY||||||<|0.0005|||||||t-test, 1 sided|||H0: No difference in hospitalisation time between Multigam 5% and Multigam 10% infusion Ha: Hospitalisation time with Multigam 10% infusion is significantly shorter than with Multigam 5%||||<0.0005
82495502|NCT03250845|164683373|SUPERIORITY|||||||0.03|||||||t-test, 1 sided|||H0: No difference in number of nursing actions per patient between Multigam 5% and Multigam 10% infusion Ha: Number of nursing actions per patient is smaller with Multigam 10% infusion||||0.03
82495503|NCT00518986|164683376|SUPERIORITY_OR_OTHER|||||||0.3043||95.0|||||ANCOVA|Study drug was fixed factor and corresponding baseline value was a covariate.||Since there were two primary outcome measures the Hochberg procedure was used to control overall Type 1 error rate at the 0.05 level. If both p-values for the primary variables were \<= 0.05 the treatment was claimed to be significant for both variables. If 1 p-value was \> 0.05and the other was \<=0.025, the variable with a p-value \<= 0.025 was claimed as significant.||||0.3043
82495504|NCT00518986|164683377|SUPERIORITY_OR_OTHER|||||||0.012|||||||Chi-squared|P-value for comparison is from a Pearson's chi-square test||Since there were two primary outcome measures the Hochberg procedure was used to control overall Type 1 error rate at the 0.05 level. If both p-values for the primary variables were \<= 0.05 the treatment was claimed to be significant for both variables. If 1 p-value was \> 0.05and the other was \<=0.025, the variable with a p-value \<= 0.025 was claimed as significant.||||0.0120
82495505|NCT00518986|164683378|SUPERIORITY_OR_OTHER|||||||0.0027||||||Nominal p-value is presented, but statistical significance cannot be claimed. As a key secondary variable significance could be claimed only if treatment effect was significant for both primary efficacy variables.|ANCOVA|||Least squares (LS) mean and standard error of the LS mean for each treatment group, and p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline as covariate.||||0.0027
82495506|NCT00518986|164683379|SUPERIORITY_OR_OTHER|||||||0.0019|||||||ANCOVA|||||||0.0019
82495507|NCT00518986|164683380|SUPERIORITY_OR_OTHER|||||||0.3145|||||||ANCOVA|||||||0.3145
82495508|NCT00518986|164683381|SUPERIORITY_OR_OTHER|||||||0.2196|||||||ANCOVA|||||||0.2196
82495509|NCT00518986|164683382|SUPERIORITY_OR_OTHER|||||||0.2017||||||P-value is from Pearson's chi-square test|Chi-squared|||||||0.2017
82495510|NCT00518986|164683383|SUPERIORITY_OR_OTHER|||||||0.0032||||||P-value from Pearson's chi-square test|Chi-squared|||||||0.0032
82495511|NCT00518986|164683384|SUPERIORITY_OR_OTHER|||||||0.0207||||||P-value from Pearson's chi-square test|Chi-squared|||||||0.0207
82495512|NCT00518986|164683385|SUPERIORITY_OR_OTHER|||||||0.0529||||||P-value was generated from a Cochran-Mantel-Haenszel chi-square test.|Cochran-Mantel-Haenszel|||||||0.0529
82495513|NCT00518986|164683386|SUPERIORITY_OR_OTHER|||||||0.0011|||||||Cochran-Mantel-Haenszel|||||||0.0011
82495514|NCT00518986|164683387|SUPERIORITY_OR_OTHER|||||||0.0064||95.0|||||Cochran-Mantel-Haenszel|||||||0.0064
82495515|NCT00518986|164683388|SUPERIORITY_OR_OTHER|||||||0.1072|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1072
82495516|NCT00518986|164683389|SUPERIORITY_OR_OTHER|||||||0.0355|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0355
82495517|NCT00518986|164683390|SUPERIORITY_OR_OTHER|||||||0.0591|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0591
82495518|NCT00518986|164683391|SUPERIORITY_OR_OTHER|||||||0.0025|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0025
82495519|NCT00518986|164683392|SUPERIORITY_OR_OTHER|||||||0.0794||||||P-value for treatment comparison is from Pearson's chi-square test|Chi-squared|||||||0.0794
82495520|NCT00518986|164683393|SUPERIORITY_OR_OTHER|||||||0.0888||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||||||0.0888
82495521|NCT00518986|164683394|SUPERIORITY_OR_OTHER|||||||0.0433||||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||||||0.0433
82495522|NCT00518986|164683395|SUPERIORITY_OR_OTHER|||||||0.0105||||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||||||0.0105
82495523|NCT00518986|164683396|SUPERIORITY_OR_OTHER|||||||0.0523|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0523
82495524|NCT00518986|164683397|SUPERIORITY_OR_OTHER|||||||0.0289|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0289
82495525|NCT00518986|164683398|SUPERIORITY_OR_OTHER|||||||0.1272|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1272
82495526|NCT00518986|164683399|SUPERIORITY_OR_OTHER|||||||0.0349|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0349
82495527|NCT00518986|164683400|SUPERIORITY_OR_OTHER|||||||0.0094|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0094
82495528|NCT00518986|164683401|SUPERIORITY_OR_OTHER|||||||0.0754|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0754
82495529|NCT00518986|164683402|SUPERIORITY_OR_OTHER|||||||0.0105|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0105
82495530|NCT00518986|164683403|SUPERIORITY_OR_OTHER|||||||0.2888|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2888
82495531|NCT00518986|164683404|SUPERIORITY_OR_OTHER|||||||0.013|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0130
82495532|NCT00518986|164683405|SUPERIORITY_OR_OTHER|||||||0.0354|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0354
82495533|NCT00518986|164683406|SUPERIORITY_OR_OTHER|||||||0.3854||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are subjects with worst fatigue score \< 7 after baseline||||0.3854
82495534|NCT00518986|164683407|SUPERIORITY_OR_OTHER|||||||0.0145||||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders were defined as subjects with worst fatigue score \< 7||||0.0145
82495535|NCT00518986|164683408|SUPERIORITY_OR_OTHER|||||||0.6475||||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders were patients with worst fatigue scores \< 7||||0.6475
82495536|NCT00518986|164683409|SUPERIORITY_OR_OTHER|||||||0.0118||||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders are subjects with worst fatigue score \< 7||||0.0118
82495537|NCT00518986|164683410|SUPERIORITY_OR_OTHER|||||||0.3483||||||P-value for the treatment comparison is from the Pearson's chi-square test.|Chi-squared|||Responders are subjects with a worst fatigue score of \< 7||||0.3483
82495538|NCT00518986|164683411|SUPERIORITY_OR_OTHER|||||||0.0879|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0879
82495539|NCT00518986|164683412|SUPERIORITY_OR_OTHER|||||||0.0277|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0277
82495540|NCT00518986|164683413|SUPERIORITY_OR_OTHER|||||||0.1245|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1245
82495541|NCT00518986|164683414|SUPERIORITY_OR_OTHER|||||||0.0305|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0305
82495542|NCT00518986|164683415|SUPERIORITY_OR_OTHER|||||||0.0129|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0129
82495543|NCT00518986|164683416|SUPERIORITY_OR_OTHER|||||||0.0308||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0308
82495544|NCT00518986|164683417|SUPERIORITY_OR_OTHER|||||||0.0679|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0679
82495545|NCT00518986|164683418|SUPERIORITY_OR_OTHER|||||||0.0153|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0153
82495546|NCT00518986|164683419|SUPERIORITY_OR_OTHER|||||||0.0296|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0296
82495547|NCT00518986|164683420|SUPERIORITY_OR_OTHER|||||||0.0107|||||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0107
82495548|NCT00518986|164683421|SUPERIORITY_OR_OTHER|||||||0.01||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as patients with a total score on FOSQ \> 17.9||||0.0100
82495549|NCT00518986|164683422|SUPERIORITY_OR_OTHER|||||||0.0854||95.0||||P-value for treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with a total score of \> 17.9||||0.0854
82495550|NCT00518986|164683423|SUPERIORITY_OR_OTHER|||||||0.0027||95.0||||P-value for the treatment comparison is from Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with a total score \> 17.9||||0.0027
82495551|NCT00518986|164683424|SUPERIORITY_OR_OTHER|||||||0.0189||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test.|Chi-squared|||Responders are defined as subjects who had a total score of \> 17.9||||0.0189
82495552|NCT00518986|164683425|SUPERIORITY_OR_OTHER|||||||0.024||95.0||||P-value for the treatment comparison is from a Pearson's chi-square test|Chi-squared|||Responders are defined as subjects with total score \> 17.9||||0.0240
82495553|NCT00518986|164683426|SUPERIORITY_OR_OTHER|||||||0.332||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.3320
82495554|NCT00518986|164683427|SUPERIORITY_OR_OTHER|||||||0.893||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.8930
82495555|NCT00518986|164683428|SUPERIORITY_OR_OTHER|||||||0.1774||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1774
82495556|NCT00518986|164683429|SUPERIORITY_OR_OTHER|||||||0.1||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1000
82495557|NCT00518986|164683430|SUPERIORITY_OR_OTHER|||||||0.2428||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.2428
82495558|NCT00518986|164683431|SUPERIORITY_OR_OTHER|||||||0.1816||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1816
82495559|NCT00518986|164683432|SUPERIORITY_OR_OTHER|||||||0.1627||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.1627
82495560|NCT00518986|164683433|SUPERIORITY_OR_OTHER|||||||0.0018||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0018
82495561|NCT00518986|164683434|SUPERIORITY_OR_OTHER|||||||0.0096||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0096
82495562|NCT00518986|164683435|SUPERIORITY_OR_OTHER|||||||0.0126||95.0|||||ANCOVA|||Least square (LS) mean and standard error of the LS mean for each treatment group, and the p-value for the treatment comparison is from an analysis of covariance (ANCOVA) with treatment as a factor and the baseline value as a covariate.||||0.0126
82495564|NCT03617185|164683466|SUPERIORITY||Mean Difference (Net)|-1.98||||0.15|TWO_SIDED|95.0|-4.63|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.74|-4.63|0.15
82495565|NCT03617185|164683466|SUPERIORITY||Mean Difference (Net)|-2.33||||0.08|TWO_SIDED|95.0|-4.98|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-4.98|0.08
82495566|NCT03617185|164683466|SUPERIORITY||Mean Difference (Net)|-1.84||||0.15|TWO_SIDED|95.0|-4.43|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.74|-4.43|0.15
82495567|NCT03617185|164683466|SUPERIORITY||Interaction term for difference in slope|0.07||||0.67|TWO_SIDED|95.0|-0.02|0.16||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.16|-0.02|0.67
82495568|NCT03617185|164683466|SUPERIORITY||Interaction term for difference in slope|0.09||||0.77|TWO_SIDED|95.0|0.002|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.19|0.002|0.77
82495569|NCT03617185|164683466|SUPERIORITY||Interaction term for difference in slope|0.07||||0.69|TWO_SIDED|95.0|-0.02|0.16||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.16|-0.02|0.69
82495570|NCT03617185|164683467|SUPERIORITY||Mean Difference (Net)|-0.98||||0.27|TWO_SIDED|95.0|-2.77|0.79||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.79|-2.77|0.27
82495571|NCT03617185|164683467|SUPERIORITY||Mean Difference (Net)|-1.09||||0.18|TWO_SIDED|95.0|-2.71|0.53||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.53|-2.71|0.18
82495572|NCT03617185|164683467|SUPERIORITY||Mean Difference (Net)|1.32||||0.21|TWO_SIDED|95.0|-0.82|3.48||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.48|-0.82|0.21
82495573|NCT03617185|164683467|SUPERIORITY||Interaction term for difference in slope|0.02||||0.66|TWO_SIDED|95.0|-0.05|0.09||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.09|-0.05|0.66
82495574|NCT03617185|164683467|SUPERIORITY||Interaction term for difference in slope|0.05||||0.25|TWO_SIDED|95.0|-0.02|0.11||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.11|-0.02|0.25
82495575|NCT03617185|164683467|SUPERIORITY||Interaction term for difference in slope|-0.06||||0.09|TWO_SIDED|95.0|-0.13|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.13|0.09
82495576|NCT03617185|164683468|SUPERIORITY||Mean Difference (Net)|0.06||||0.97|TWO_SIDED|95.0|-3.72|3.85||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.85|-3.72|0.97
82495577|NCT03617185|164683468|SUPERIORITY||Mean Difference (Net)|-3.82||||0.03|TWO_SIDED|95.0|-7.32|-0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||-0.31|-7.32|0.03
82495578|NCT03617185|164683468|SUPERIORITY||Mean Difference (Net)|-1.56||||0.38|TWO_SIDED|95.0|-5.18|2.05||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.05|-5.18|0.38
82495579|NCT03617185|164683469|SUPERIORITY|||||||0.62||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.62
82495580|NCT03617185|164683469|SUPERIORITY|||||||0.95||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.95
82495581|NCT03617185|164683469|SUPERIORITY|||||||0.59||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.59
82495582|NCT03617185|164683470|SUPERIORITY||Mean Difference (Net)|0.3||||0.89|TWO_SIDED|95.0|-4.26|4.86||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||4.86|-4.26|0.89
82495583|NCT03617185|164683470|SUPERIORITY||Mean Difference (Net)|-0.43||||0.83|TWO_SIDED|95.0|-4.64|3.76||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.76|-4.64|0.83
82495584|NCT03617185|164683470|SUPERIORITY||Mean Difference (Net)|0.51||||0.82|TWO_SIDED|95.0|-4.27|5.3||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||5.3|-4.27|0.82
82495585|NCT03617185|164683470|SUPERIORITY||Interaction term for difference in slope|0.05||||0.51|TWO_SIDED|95.0|-0.11|0.21||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.21|-0.11|0.51
82495586|NCT03617185|164683470|SUPERIORITY||Interaction term for difference in slope|0.04||||0.6|TWO_SIDED|95.0|-0.11|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.19|-0.11|0.60
82495587|NCT03617185|164683470|SUPERIORITY||Mean Difference (Net)|0.002||||0.99|TWO_SIDED|95.0|-0.17|0.17||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.17|-0.17|0.99
82495588|NCT03617185|164683471|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.82
82495589|NCT03617185|164683471|SUPERIORITY|||||||0.21||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.21
82495590|NCT03617185|164683471|SUPERIORITY|||||||0.33||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.33
82495591|NCT03617185|164683472|SUPERIORITY||Mean Difference (Net)|0.02||||0.98|TWO_SIDED|95.0|-2.12|2.17||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.17|-2.12|0.98
82495592|NCT03617185|164683472|SUPERIORITY||Mean Difference (Net)|-0.35||||0.71|TWO_SIDED|95.0|-2.26|1.56||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||1.56|-2.26|0.71
82495593|NCT03617185|164683472|SUPERIORITY||Mean Difference (Net)|0.1||||0.92|TWO_SIDED|95.0|-2.1|2.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.31|-2.10|0.92
82495594|NCT03617185|164683472|SUPERIORITY||Interaction term for difference of slope|0.001||||0.98|TWO_SIDED|95.0|-0.08|0.08||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.08|-0.08|0.98
82495595|NCT03617185|164683472|SUPERIORITY||Interaction term for difference in slope|0.02||||0.66|TWO_SIDED|95.0|-0.06|0.1||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.10|-0.06|0.66
82495596|NCT03617185|164683472|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.66|TWO_SIDED|95.0|-0.1|0.06||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.06|-0.10|0.66
82495597|NCT03617185|164683473|SUPERIORITY|||||||0.26||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.26
82495598|NCT03617185|164683473|SUPERIORITY|||||||0.58||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.58
82495599|NCT03617185|164683473|SUPERIORITY|||||||0.97||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.97
82495600|NCT03617185|164683474|SUPERIORITY|||||||0.25||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.25
82495601|NCT03617185|164683474|SUPERIORITY|||||||0.98||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.98
82495602|NCT03617185|164683474|SUPERIORITY|||||||0.88||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.88
82495603|NCT03617185|164683475|SUPERIORITY|||||||1|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||1
82495604|NCT03617185|164683475|SUPERIORITY|||||||1|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||1
82495605|NCT03617185|164683475|SUPERIORITY|||||||0.44|TWO_SIDED|||||The P-value tests whether the change in participant count (as either having retinopathy or not having retinopathy) from baseline to 2 years differs between the treatment and no-treatment groups.|Fisher Exact|||||||0.44
82495606|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|0.05||||0.83|TWO_SIDED|95.0|-0.4|0.5||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal distal motor latency (ms)||0.50|-0.40|0.83
82495607|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|-0.2||||0.33|TWO_SIDED|95.0|-0.62|0.21||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Peroneal distal motor latency (ms)||0.21|-0.62|0.33
82495608|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|0.06||||0.75|TWO_SIDED|95.0|-0.36|0.49||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Peroneal distal motor latency (ms)||0.49|-0.36|0.75
82495609|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|-0.13||||0.45|TWO_SIDED|95.0|-0.49|0.23||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural peak latency (ms)||0.23|-0.49|0.45
82495610|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|-0.24||||0.13|TWO_SIDED|95.0|-0.57|0.08||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Sural peak latency (ms)||0.08|-0.57|0.13
82495611|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|-0.41||||0.03|TWO_SIDED|95.0|-0.79|-0.03||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure -Sural peak latency (ms)||-0.03|-0.79|0.03
82495612|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|0.5||||0.05|TWO_SIDED|95.0|-0.002|1.01||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||1.01|-0.002|0.05
82495613|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|0.48||||0.08|TWO_SIDED|95.0|-0.07|1.03||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||1.03|-0.07|0.08
82495614|NCT03617185|164683476|SUPERIORITY||Mean Difference (Net)|0.21||||0.38|TWO_SIDED|95.0|-0.27|0.7||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial distal motor latency (ms)||0.70|-0.27|0.38
82495615|NCT03617185|164683477|SUPERIORITY|||||||0.48||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.48
82495616|NCT03617185|164683477|SUPERIORITY|||||||0.31||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.31
82495617|NCT03617185|164683477|SUPERIORITY|||||||0.23||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal amplitude (mV)||||0.23
82495618|NCT03617185|164683477|SUPERIORITY|||||||0.65||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.65
82495619|NCT03617185|164683477|SUPERIORITY|||||||0.69||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.69
82495620|NCT03617185|164683477|SUPERIORITY|||||||0.69||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial amplitude (mV)||||0.69
82495621|NCT03617185|164683478|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.82
82495622|NCT03617185|164683478|SUPERIORITY|||||||0.26||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.26
82495623|NCT03617185|164683478|SUPERIORITY|||||||0.62||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Sural amplitude (µV)||||0.62
82495624|NCT03617185|164683479|SUPERIORITY|||||||0.82||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.82
82495625|NCT03617185|164683479|SUPERIORITY|||||||0.27||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.27
82495626|NCT03617185|164683479|SUPERIORITY|||||||0.52||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal CV (m/s)||||0.52
82495627|NCT03617185|164683480|SUPERIORITY|||||||0.32||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.32
82495628|NCT03617185|164683480|SUPERIORITY|||||||0.43||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.43
82495629|NCT03617185|164683480|SUPERIORITY|||||||0.48||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Peroneal F wave index (ms)||||0.48
82495630|NCT03617185|164683480|SUPERIORITY|||||||0.75||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.75
82495631|NCT03617185|164683480|SUPERIORITY|||||||0.09||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.09
82495632|NCT03617185|164683480|SUPERIORITY|||||||0.03||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Measure - Tibial F wave index (ms)||||0.03
82495633|NCT03617185|164683481|SUPERIORITY||Mean Difference (Net)|-0.02||||0.79|TWO_SIDED|95.0|-0.16|0.129||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.129|-0.16|0.79
82495634|NCT03617185|164683481|SUPERIORITY||Mean Difference (Net)|-0.05||||0.46|TWO_SIDED|95.0|-0.2|0.01||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.01|-0.2|0.46
82495635|NCT03617185|164683481|SUPERIORITY||Mean Difference (Net)|-0.01||||0.24|TWO_SIDED|95.0|-0.26|0.07||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.07|-0.26|0.24
82495636|NCT03617185|164683481|SUPERIORITY||Interaction term for difference in slope|0.001||||0.98|TWO_SIDED|95.0|-0.01|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.01|0.98
82495637|NCT03617185|164683481|SUPERIORITY||Interaction term for difference in slope|0.002||||0.49|TWO_SIDED|95.0|-0.004|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.004|0.49
82495638|NCT03617185|164683481|SUPERIORITY||Interaction term for difference in slope|0.004||||0.17|TWO_SIDED|95.0|-0.002|0.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.01|-0.002|0.17
82495639|NCT03617185|164683482|SUPERIORITY||Mean Difference (Net)|0.15||||0.07|TWO_SIDED|95.0|-0.01|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-0.01|0.07
82495640|NCT03617185|164683482|SUPERIORITY||Mean Difference (Net)|0.024||||0.72|TWO_SIDED|95.0|-0.11|0.16||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.16|-0.11|0.72
82495641|NCT03617185|164683482|SUPERIORITY||Mean Difference (Net)|0.06||||0.33|TWO_SIDED|95.0|-0.06|0.19||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.19|-0.06|0.33
82495642|NCT03617185|164683483|SUPERIORITY||Mean Difference (Net)|0.064||||0.46|TWO_SIDED|95.0|-0.11|0.24||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.24|-0.11|0.46
82495643|NCT03617185|164683483|SUPERIORITY||Mean Difference (Net)|0.13||||0.15|TWO_SIDED|95.0|-0.04|0.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.31|-0.04|0.15
82495644|NCT03617185|164683483|SUPERIORITY||Mean Difference (Net)|0.11||||0.2|TWO_SIDED|95.0|-0.06|0.3||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||0.30|-0.06|0.20
82495645|NCT03617185|164683484|SUPERIORITY||Wilcoxon test statistic|10.0||||0.07|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.07
82495646|NCT03617185|164683484|SUPERIORITY||Wilcoxon test statistic|3.0||||0.34|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.34
82495647|NCT03617185|164683484|SUPERIORITY||Wilcoxon test statistic|2.5||||0.42|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.42
82495648|NCT03617185|164683484|SUPERIORITY||Wilcoxon test statistic|9.0||||0.77|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Wilcoxon signed rank test was used to compare within-participant change between baseline and 2 year for each treatment group||||0.77
82495649|NCT03617185|164683485|SUPERIORITY||Mean Difference (Net)|-0.61||||0.21|TWO_SIDED|95.0|-1.5|0.35||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||0.35|-1.5|0.21
82495650|NCT03617185|164683485|SUPERIORITY||Mean Difference (Net)|-0.09||||0.85|TWO_SIDED|95.0|-0.98|0.8||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||0.80|-0.98|0.85
82495651|NCT03617185|164683485|SUPERIORITY||Mean Difference (Net)|0.46||||0.37|TWO_SIDED|95.0|-0.58|1.5||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Questionnaire||1.50|-0.58|0.37
82495652|NCT03617185|164683485|SUPERIORITY||Interaction term for difference in slope|1.0||||0.78|TWO_SIDED|95.0|0.99|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.02|0.99|0.78
82495653|NCT03617185|164683485|SUPERIORITY||Interaction term for difference in slope|0.99||||0.53|TWO_SIDED|95.0|0.98|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.01|0.98|0.53
82495654|NCT03617185|164683485|SUPERIORITY||Interaction term for difference in slope|0.98||||0.08|TWO_SIDED|95.0|0.96|1.0||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Questionnaire||1.00|0.96|0.08
82495655|NCT03617185|164683486|SUPERIORITY|||||||0.01||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.01
82495656|NCT03617185|164683486|SUPERIORITY|||||||0.04||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.04
82495657|NCT03617185|164683486|SUPERIORITY|||||||0.47||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.47
82495658|NCT03617185|164683486|SUPERIORITY||Interaction term for difference in slope|0.98||||0.18|TWO_SIDED|95.0|0.96|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.01|0.96|0.18
82495659|NCT03617185|164683486|SUPERIORITY||Interaction term for difference in slope|0.99||||0.52|TWO_SIDED|95.0|0.96|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.96|0.52
82495660|NCT03617185|164683486|SUPERIORITY||Interaction term for difference in slope|1.0||||0.87|TWO_SIDED|95.0|0.97|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.97|0.87
82495661|NCT03617185|164683487|SUPERIORITY|||||||0.2||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.20
82495662|NCT03617185|164683487|SUPERIORITY|||||||0.57||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.57
82495663|NCT03617185|164683487|SUPERIORITY|||||||0.61||||||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||||0.61
82495664|NCT03617185|164683488|SUPERIORITY||Mean Difference (Net)|0.73||||0.44|TWO_SIDED|-1.2|-1.2|2.67||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.67|-1.2|0.44
82495665|NCT03617185|164683488|SUPERIORITY||Mean Difference (Net)|-0.03||||0.97|TWO_SIDED|95.0|-2.16|2.1||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.10|-2.16|0.97
82495666|NCT03617185|164683488|SUPERIORITY||Mean Difference (Net)|0.4||||0.71|TWO_SIDED|95.0|-1.78|2.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Total Score||2.58|-1.78|0.71
82495667|NCT03617185|164683488|SUPERIORITY||Interaction term for difference in slope|1.0||||0.99|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.02|0.98|0.99
82495668|NCT03617185|164683488|SUPERIORITY||Interaction term for difference in slope|1.0||||0.88|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.02|0.98|0.88
82495669|NCT03617185|164683488|SUPERIORITY||Interaction term for difference in slope|0.99||||0.09|TWO_SIDED|95.0|0.97|1.0||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Total Score||1.00|0.97|0.09
82495670|NCT03617185|164683489|SUPERIORITY||Mean Difference (Net)|0.52||||0.78|TWO_SIDED|95.0|-3.41|4.45||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||4.45|-3.41|0.78
82495671|NCT03617185|164683489|SUPERIORITY||Mean Difference (Net)|-0.59||||0.63|TWO_SIDED|95.0|-3.14|1.95||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||1.95|-3.14|0.63
82495672|NCT03617185|164683489|SUPERIORITY||Mean Difference (Net)|1.01||||0.43|TWO_SIDED|95.0|-1.55|3.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.58|-1.55|0.43
82495673|NCT03617185|164683489|SUPERIORITY||Interaction term for difference in slope|0.99||||0.43|TWO_SIDED|95.0|0.98|1.01||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.01|0.98|0.43
82495674|NCT03617185|164683489|SUPERIORITY||Interaction term for difference in slope|1.0||||0.83|TWO_SIDED|95.0|0.98|1.02||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||1.02|0.98|0.83
82495675|NCT03617185|164683489|SUPERIORITY||Interaction term for difference in slope|0.97|||<|0.01|TWO_SIDED|95.0|0.94|0.99||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.99|0.94|<0.01
82495676|NCT03617185|164683490|SUPERIORITY||Mean Difference (Net)|-0.54||||0.84|TWO_SIDED|95.0|-6.68|5.59||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||5.59|-6.68|0.84
82495677|NCT03617185|164683490|SUPERIORITY||Mean Difference (Net)|2.7||||0.48|TWO_SIDED|95.0|-7.57|12.97||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||12.97|-7.57|0.48
82495678|NCT03617185|164683490|SUPERIORITY||Mean Difference (Net)|-0.87||||0.64|TWO_SIDED|95.0|-4.94|3.18||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||3.18|-4.94|0.64
82495679|NCT03617185|164683491|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.3||0.69|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.69
82495680|NCT03617185|164683491|SUPERIORITY||Median Difference (Net)|-0.3|STANDARD_DEVIATION|0.9||0.24|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.24
82495681|NCT03617185|164683491|SUPERIORITY||Mean Difference (Net)|-0.2|STANDARD_DEVIATION|1.1||0.45|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.45
82495682|NCT03617185|164683491|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.5||0.84|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.84
82495683|NCT03617185|164683492|SUPERIORITY||Mean Difference (Net)|-2.6||||0.09|TWO_SIDED|95.0|-5.66|0.44||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||0.44|-5.66|0.09
82495684|NCT03617185|164683492|SUPERIORITY||Mean Difference (Net)|-0.97||||0.56|TWO_SIDED|95.0|-4.36|2.41||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||2.41|-4.36|0.56
82495685|NCT03617185|164683492|SUPERIORITY||Mean Difference (Net)|-1.72||||0.21|TWO_SIDED|95.0|-4.5|1.05||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||Mcgill Total Score||1.05|-4.5|0.21
82495686|NCT03617185|164683493|SUPERIORITY|||||||0.62||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.62
82495687|NCT03617185|164683493|SUPERIORITY|||||||0.92||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.92
82495688|NCT03617185|164683493|SUPERIORITY|||||||0.9||||||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|t-test, 2 sided|||||||0.90
82495689|NCT03617185|164683493|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.46|TWO_SIDED|95.0|-0.06|0.03||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.03|-0.06|0.46
82495690|NCT03617185|164683493|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.47|TWO_SIDED|95.0|-0.06|0.03||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.03|-0.06|0.47
82495691|NCT03617185|164683493|SUPERIORITY||Interaction term for difference in slope|0.003||||0.91|TWO_SIDED|95.0|-0.04|0.05||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||||0.05|-0.04|0.91
82495692|NCT03617185|164683494|SUPERIORITY||Mean Difference (Net)|0.06||||0.83|TWO_SIDED|95.0|-0.53|0.65||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.65|-0.53|0.83
82495693|NCT03617185|164683494|SUPERIORITY||Mean Difference (Net)|0.01||||0.97|TWO_SIDED|95.0|-0.76|0.78||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.78|-0.76|0.97
82495694|NCT03617185|164683494|SUPERIORITY||Mean Difference (Net)|-0.09||||0.76|TWO_SIDED|95.0|-0.73|0.54||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||NeuroQOL- overall QOL||0.54|-0.73|0.76
82495695|NCT03617185|164683495|SUPERIORITY||Mean Difference (Net)|0.5|STANDARD_DEVIATION|2.6||0.58|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.58
82495696|NCT03617185|164683495|SUPERIORITY||Mean Difference (Net)|-0.1|STANDARD_DEVIATION|1.0||0.8|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.80
82495697|NCT03617185|164683495|SUPERIORITY||Mean Difference (Net)|0.1|STANDARD_DEVIATION|1.4||0.86|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.86
82495698|NCT03617185|164683495|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_DEVIATION|1.4||0.46|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.46
82495699|NCT03617185|164683496|SUPERIORITY||Mean Difference (Net)|-0.58|STANDARD_DEVIATION|2.7||0.38|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.38
82495700|NCT03617185|164683496|SUPERIORITY||Mean Difference (Net)|0.11|STANDARD_DEVIATION|1.15||0.72|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.72
82495701|NCT03617185|164683496|SUPERIORITY||Mean Difference (Net)|-0.31|STANDARD_DEVIATION|2.07||0.55|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.55
82495702|NCT03617185|164683496|SUPERIORITY||Mean Difference (Net)|0.57|STANDARD_DEVIATION|2.7||0.28|TWO_SIDED|||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.28
82495703|NCT03617185|164683497|SUPERIORITY|||||||0.54||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.54
82495704|NCT03617185|164683497|SUPERIORITY|||||||1||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||1.00
82495705|NCT03617185|164683497|SUPERIORITY|||||||0.77||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.77
82495706|NCT03617185|164683497|SUPERIORITY|||||||0.24||||||The P-value tests whether the within-participant change in the group from baseline to 2 years is significant|t-test, 2 sided|||||||0.24
82495707|NCT03617185|164683498|SUPERIORITY||Mean Difference (Net)|-2.0||||0.36|TWO_SIDED|95.0|-6.37|2.36||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||2.36|-6.37|0.36
82495708|NCT03617185|164683498|SUPERIORITY||Mean Difference (Net)|4.5|||<|0.01|TWO_SIDED|95.0|1.31|7.71||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||7.71|1.31|<0.01
82495709|NCT03617185|164683498|SUPERIORITY||Mean Difference (Net)|5.62||||0.3|TWO_SIDED|95.0|-5.37|16.63||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||||16.63|-5.37|0.30
82495710|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|3.14||||0.16|TWO_SIDED|95.0|-1.3|7.58||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||7.58|-1.30|0.16
82495711|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|1.91||||0.33|TWO_SIDED|95.0|-2.05|5.88||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||5.88|-2.05|0.33
82495712|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|1.43||||0.49|TWO_SIDED|95.0|-2.72|5.59||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Inhibitory Control and Attention Test||5.59|-2.72|0.49
82495713|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|2.97||||0.35|TWO_SIDED|95.0|-3.48|9.44||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.44|-3.48|0.35
82495714|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|5.6||||0.1|TWO_SIDED|95.0|-3.48|9.44||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.44|-3.48|0.10
82495715|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|3.24||||0.32|TWO_SIDED|95.0|-3.34|9.82||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Dimensional Change Card Sort Test||9.82|-3.34|0.32
82495716|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|2.4||||0.49|TWO_SIDED|95.0|-4.57|9.37||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||9.37|-4.57|0.49
82495717|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|3.2||||0.3|TWO_SIDED|95.0|-3.03|9.56||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||9.56|-3.03|0.30
82495718|NCT03617185|164683499|SUPERIORITY||Median Difference (Net)|0.49||||0.86|TWO_SIDED|95.0|-5.4|6.38||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Picture Sequence Memory Test||6.38|-5.40|0.86
82495719|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|0.42||||0.88|TWO_SIDED|95.0|-5.39|6.24||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||6.24|-5.39|0.88
82495720|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|0.6||||0.83|TWO_SIDED|95.0|-5.14|6.31||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||6.31|-5.14|0.83
82495721|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|-0.62||||0.81|TWO_SIDED|95.0|-6.02|4.76||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||List Sorting Working Memory Test||4.76|-6.02|0.81
82495722|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|-5.29||||0.12|TWO_SIDED|95.0|-12.1|1.57||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||1.57|-12.1|0.12
82495723|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|-1.84||||0.63|TWO_SIDED|95.0|-9.53|5.84||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||5.84|-9.53|0.63
82495724|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|-2.87||||0.4|TWO_SIDED|95.0|-9.8|4.05||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Pattern Comparison Processing Speed Test||4.05|-9.80|0.40
82495725|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|1.04||||0.65|TWO_SIDED|95.0|-3.63|5.73||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||5.73|-3.63|0.65
82495726|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|2.68||||0.27|TWO_SIDED|95.0|-2.17|7.54||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||7.54|-2.17|0.27
82495727|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|0.27||||0.9|TWO_SIDED|95.0|-4.1|4.65||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Cognition Fluid Composite||4.65|-4.10|0.90
82495728|NCT03617185|164683499|SUPERIORITY||Interaction term for difference in slope|-0.02||||0.85|TWO_SIDED|95.0|-0.21|0.17||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.17|-0.21|0.85
82495729|NCT03617185|164683499|SUPERIORITY||Interaction term for difference in slope|-0.1||||0.28|TWO_SIDED|95.0|-0.29|0.09||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.09|-0.29|0.28
82495730|NCT03617185|164683499|SUPERIORITY||Mean Difference (Net)|0.001||||0.99|TWO_SIDED|95.0|-0.18|0.19||The P-value tests for association between the outcome and treatment at each visit, compared to the no-treatment group|Mixed Models Analysis|||Cognition Fluid Composite||0.19|-0.18|0.99
82495731|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|-0.19||||0.57|TWO_SIDED|95.0|-0.87|0.49||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.49|-0.87|0.57
82495732|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|-0.26||||0.33|TWO_SIDED|95.0|-0.81|0.28||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.28|-0.81|0.33
82495733|NCT03617185|164683500|SUPERIORITY||Median Difference (Net)|-0.38||||0.22|TWO_SIDED|95.0|-1.0|0.23||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Auditory Learning||0.23|-1.00|0.22
82495734|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|0.29||||0.27|TWO_SIDED|95.0|-0.23|0.81||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.81|-0.23|0.27
82495735|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|-0.16||||0.54|TWO_SIDED|95.0|-0.69|0.37||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.37|-0.69|0.54
82495736|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|-0.02||||0.93|TWO_SIDED|95.0|-0.57|0.53||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Delayed Recall||0.53|-0.57|0.93
82495737|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|0.14||||0.64|TWO_SIDED|95.0|-0.46|0.74||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.74|-0.46|0.64
82495738|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|-0.21||||0.37|TWO_SIDED|95.0|-0.7|0.27||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.27|-0.70|0.37
82495739|NCT03617185|164683500|SUPERIORITY||Mean Difference (Net)|0.04||||0.88|TWO_SIDED|95.0|-0.59|0.69||The P-value tests whether the within-participant change in the outcome from baseline to 2 years differs between the treatment and no-treatment groups.|t-test, 2 sided|||Recognition||0.69|-0.59|0.88
82495740|NCT01964430|164683501|SUPERIORITY||Hazard Ratio (HR)|0.88||||0.1824|TWO_SIDED|95.0|0.729|1.063|||Log Rank|Stratified by resection status (R0 versus R1) and nodal status (LN+ versus LN).|Estimated using stratified Cox proportional hazards model adjusting for strata of resection status (R0 versus R1) and nodal status (LN+ versus LN-).|||1.063|0.729|0.1824
82495741|NCT01964430|164683502|SUPERIORITY||Hazard Ratio (HR)|0.81||||0.0128|TWO_SIDED|95.0|0.691|0.957|||Log Rank|Stratified by resection status (R0 versus. R1) and nodal status (LN+ versus. LN-)|Estimated using stratified Cox proportional hazards model adjusting for strata of resection status (R0 versus R1) and nodal status (LN+ versus|||0.957|0.691|0.0128
82495742|NCT02446483|164683509|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence was established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|101.32|||||TWO_SIDED|90.0|95.81|107.15||||||||107.15|95.81|
82495743|NCT02446483|164683510|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|98.71|||||TWO_SIDED|90.0|92.54|105.28||||||Comparison of T- rabeprazole 20 mg and R- rabeprazole 20 mg for AUC0-t.||105.28|92.54|
82495744|NCT02446483|164683510|NON_INFERIORITY_OR_EQUIVALENCE|Bioequivalence is established when 90% Confidence Interval falls within 80-125%.|Point Estimate Percent|98.05|||||TWO_SIDED|90.0|91.81|104.71||||||Comparison of Treatment A- rabeprazole 20 mg and Treatment B- rabeprazole 20 mg for AUC0-infinity.||104.71|91.81|
82495745|NCT02446483|164683511|SUPERIORITY_OR_OTHER|||||||0.0029||95.0|||||Wilcoxon's Signed-Rank Test|||||||0.0029
82495746|NCT02899793|164683513|SUPERIORITY|||||||0.024|||||||Fisher Exact|||Subgroup difference in ORRs||||0.024
82495747|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-65.5||||0.0275|TWO_SIDED|95.0|-78.0|-58.0|||2-sided Wilcoxon Rank Sum|||||-58.00|-78.00|0.0275
82495748|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-61.0||||0.025|TWO_SIDED|95.0|-65.0|-44.0|||2-sided Wilcoxon Rank Sum|||||-44.00|-65.00|0.025
82495749|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-32.5||||0.0136|TWO_SIDED|95.0|-47.0|-9.0|||2-sided Wilcoxon Rank Sum|||||-9.00|-47.00|0.0136
82495750|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-36.5||||0.0136|TWO_SIDED|95.0|-62.0|-9.0|||2-sided Wilcoxon Rank Sum|||||-9.00|-62.00|0.0136
82495751|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-59.0||||0.025|TWO_SIDED|95.0|-70.0|-38.0|||2-sided Wilcoxon Rank Sum|||||-38.00|-70.00|0.025
82495752|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-66.0||||0.0119|TWO_SIDED|95.0|-68.0|-61.0|||2-sided Wilcoxon Rank Sum|||||-61.00|-68.00|0.0119
82495753|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-15.5||||0.2667|TWO_SIDED|95.0|-38.0|17.0|||2-sided Wilcoxon Rank Sum|||||17.00|-38.00|0.2667
82495754|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-68.0||||0.0238|TWO_SIDED|95.0|-74.0|-59.0|||2-sided Wilcoxon Rank Sum|||||-59.00|-74.00|0.0238
82495755|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-56.5||||0.0007|TWO_SIDED|95.0|-65.0|-39.0|||2-sided Wilcoxon Rank Sum|||||-39.00|-65.00|0.0007
82495756|NCT03310021|164683521|SUPERIORITY||Hodges lehman Location shift|-35.0||||0.0121|TWO_SIDED|95.0|-53.0|-24.0|||2-sided Wilcoxon Rank Sum|||||-24.00|-53.00|0.0121
82495757|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-80.0||||0.0256|TWO_SIDED|95.0|-83.0|-77.0|||2-sided Wilcoxon Rank Sum|||||-77.00|-83.00|0.0256
82495758|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-79.5||||0.025|TWO_SIDED|95.0|-97.0|-67.0|||2-sided Wilcoxon Rank Sum|||||-67.00|-97.00|0.025
82495759|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-37.0||||0.074|TWO_SIDED|95.0|-66.0|5.0|||2-sided Wilcoxon Rank Sum|||||5.00|-66.00|0.074
82495760|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-10.5||||0.1066|TWO_SIDED|95.0|-59.0|10.0|||2-sided Wilcoxon Rank Sum|||||10.00|-59.00|0.1066
82495761|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-84.0||||0.0219|TWO_SIDED|95.0|-87.0|-71.0|||2-sided Wilcoxon Rank Sum|||||-71.00|-87.00|0.0219
82495762|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-78.0||||0.0262|TWO_SIDED|95.0|-83.0|-74.0|||2-sided Wilcoxon Rank Sum|||||-74.0|-83.00|0.0262
82495763|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-50.0||||0.0412|TWO_SIDED|95.0|-65.0|0.0|||2-sided Wilcoxon Rank Sum|||||0.00|-65.00|0.0412
82495764|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-89.5||||0.0269|TWO_SIDED|95.0|-93.0|-77.0|||2-sided Wilcoxon Rank Sum|||||-77.00|-93.00|0.0269
82495765|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-84.0||||0.0026|TWO_SIDED|95.0|-86.0|-69.0|||2-sided Wilcoxon Rank Sum|||||-69.00|-86.00|0.0026
82495766|NCT03310021|164683522|SUPERIORITY||Hodges lehman Location shift|-65.0||||0.0181|TWO_SIDED|95.0|-76.0|-57.0|||2-sided Wilcoxon Rank Sum|||||-57.00|-76.00|0.0181
82495767|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-81.06||||0.0282|TWO_SIDED|95.0|-92.99|-71.96|||2-sided Wilcoxon Rank Sum|||||-71.96|-92.99|0.0282
82495768|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-69.15||||0.0282|TWO_SIDED|95.0|-96.91|-48.64|||2-sided Wilcoxon Rank Sum|||||-48.64|-96.91|0.0282
82495769|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-57.39||||0.0085|TWO_SIDED|95.0|-72.07|-40.03|||2-sided Wilcoxon Rank Sum|||||-40.03|-72.07|0.0085
82495770|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-54.96||||0.0085|TWO_SIDED|95.0|-80.42|-25.5|||2-sided Wilcoxon Rank Sum|||||-25.50|-80.42|0.0085
82495771|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-100.25||||0.0282|TWO_SIDED|95.0|-133.08|-84.48|||2-sided Wilcoxon Rank Sum|||||-84.48|-133.08|0.0282
82495772|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-79.87||||0.0282|TWO_SIDED|95.0|-86.36|-65.74|||2-sided Wilcoxon Rank Sum|||||-65.74|-86.36|0.0282
82495773|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-65.02||||0.0085|TWO_SIDED|95.0|-89.54|-39.17|||2-sided Wilcoxon Rank Sum|||||-39.17|-89.54|0.0085
82495774|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-91.29||||0.0282|TWO_SIDED|95.0|-128.88|-60.83|||2-sided Wilcoxon Rank Sum|||||-60.83|-128.88|0.0282
82495775|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-81.49||||0.0034|TWO_SIDED|95.0|-91.05|-65.96|||2-sided Wilcoxon Rank Sum|||||-65.96|-91.05|0.0034
82495776|NCT03310021|164683523|SUPERIORITY||Hodges lehman Location shift|-58.47||||0.0189|TWO_SIDED|95.0|-110.86|-46.12|||2-sided Wilcoxon Rank Sum|||||-46.12|-110.86|0.0189
82495777|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-59.39||||0.0282|TWO_SIDED|95.0|-66.48|-52.62|||2-sided Wilcoxon Rank Sum|||||-52.62|-66.48|0.0282
82495778|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-59.26||||0.0282|TWO_SIDED|95.0|-70.34|-26.94|||2-sided Wilcoxon Rank Sum|||||-26.94|-70.34|0.0282
82495779|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-36.76||||0.0085|TWO_SIDED|95.0|-46.14|-29.76|||2-sided Wilcoxon Rank Sum|||||-29.76|-46.14|0.0085
82495780|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-36.82||||0.0085|TWO_SIDED|95.0|-55.81|-20.46|||2-sided Wilcoxon Rank Sum|||||-20.46|-55.81|0.0085
82495781|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-61.67||||0.0282|TWO_SIDED|95.0|-75.82|-43.78|||2-sided Wilcoxon Rank Sum|||||-43.78|-75.82|0.0282
82495782|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-67.63||||0.0282|TWO_SIDED|95.0|-77.4|-61.99|||2-sided Wilcoxon Rank Sum|||||-61.99|-77.40|0.0282
82495783|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-40.33||||0.0085|TWO_SIDED|95.0|-59.77|-11.17|||2-sided Wilcoxon Rank Sum|||||-11.17|-59.77|0.0085
82495784|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-59.18||||0.0282|TWO_SIDED|95.0|-101.02|-48.14|||2-sided Wilcoxon Rank Sum|||||-48.14|-101.02|0.0282
82495785|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-54.63||||0.0027|TWO_SIDED|95.0|-59.14|-41.19|||2-sided Wilcoxon Rank Sum|||||-41.19|-59.14|0.0027
82495786|NCT03310021|164683524|SUPERIORITY||Hodges lehman Location shift|-38.14||||0.0189|TWO_SIDED|95.0|-65.78|-15.37|||2-sided Wilcoxon Rank Sum|||||-15.37|-65.78|0.0189
82495787|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|965.09||||0.0282|TWO_SIDED|95.0|474.48|1377.35|||2-sided Wilcoxon Rank Sum|||||1377.35|474.48|0.0282
82495788|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|1127.29||||0.0282|TWO_SIDED|95.0|769.46|1575.02|||2-sided Wilcoxon Rank Sum|||||1575.02|769.46|0.0282
82495789|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|574.89||||0.0085|TWO_SIDED|95.0|307.65|1175.28|||2-sided Wilcoxon Rank Sum|||||1175.28|307.65|0.0085
82495790|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|715.34||||0.0085|TWO_SIDED|95.0|535.38|836.4|||2-sided Wilcoxon Rank Sum|||||836.40|535.38|0.0085
82495791|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|1141.17||||0.0282|TWO_SIDED|95.0|964.03|1736.78|||2-sided Wilcoxon Rank Sum|||||1736.78|964.03|0.0282
82495792|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|1198.83||||0.0282|TWO_SIDED|95.0|988.82|1670.3|||2-sided Wilcoxon Rank Sum|||||1670.30|988.82|0.0282
82495793|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|721.21||||0.0085|TWO_SIDED|95.0|585.92|1108.92|||2-sided Wilcoxon Rank Sum|||||1108.92|585.92|0.0085
82495794|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|1204.62||||0.0282|TWO_SIDED|95.0|1001.72|1471.45|||2-sided Wilcoxon Rank Sum|||||1471.45|1001.72|0.0282
82495795|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|1180.5||||0.0027|TWO_SIDED|95.0|857.21|1296.02|||2-sided Wilcoxon Rank Sum|||||1296.02|857.21|0.0027
82495796|NCT03310021|164683525|SUPERIORITY||Hodges lehman Location shift|976.59||||0.0189|TWO_SIDED|95.0|585.99|1498.37|||2-sided Wilcoxon Rank Sum|||||1498.37|585.99|0.0189
82495797|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|826.9||||0.0282|TWO_SIDED|95.0|505.4|1362.11|||2-sided Wilcoxon Rank Sum|||||1362.11|505.40|0.0282
82495798|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|1125.7||||0.0282|TWO_SIDED|95.0|873.87|1552.77|||2-sided Wilcoxon Rank Sum|||||1552.77|873.87|0.0282
82495799|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|538.84||||0.0085|TWO_SIDED|95.0|291.2|1077.46|||2-sided Wilcoxon Rank Sum|||||1077.46|291.20|0.0085
82495800|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|687.57||||0.0085|TWO_SIDED|95.0|500.92|902.73|||2-sided Wilcoxon Rank Sum|||||902.73|500.92|0.0085
82495801|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|1012.45||||0.0282|TWO_SIDED|95.0|859.08|1352.05|||2-sided Wilcoxon Rank Sum|||||1352.05|859.08|0.0282
82495802|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|1057.27||||0.0282|TWO_SIDED|95.0|818.96|1634.3|||2-sided Wilcoxon Rank Sum|||||1634.30|818.96|0.0282
82495803|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|630.81||||0.0085|TWO_SIDED|95.0|421.78|1124.28|||2-sided Wilcoxon Rank Sum|||||1124.28|421.78|0.0085
82495804|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|925.84||||0.0282|TWO_SIDED|95.0|663.74|1216.28|||2-sided Wilcoxon Rank Sum|||||1216.28|663.74|0.0282
82495805|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|871.11||||0.0027|TWO_SIDED|95.0|631.67|1051.06|||2-sided Wilcoxon Rank Sum|||||1051.06|631.67|0.0027
82495806|NCT03310021|164683526|SUPERIORITY||Hodges lehman Location shift|874.44||||0.0189|TWO_SIDED|95.0|637.25|1412.21|||2-sided Wilcoxon Rank Sum|||||1412.21|637.25|0.0189
82495807|NCT02557555|164683633|OTHER|P-values corresponding to a test of equal proportions (yes/no- 50%/50%)|||||<|0.0001||||||Researched options for labor pain|Test of equal proportion (50/50)|||||||<0.0001
82495808|NCT02557555|164683633|OTHER|P-values corresponding to a test of equal proportions (yes/no- 50%/50%)|||||<|0.0001||||||Pamphlet better explained options for pain|Test of equal proportion (50/50)|||||||<0.0001
82495809|NCT02557555|164683633|OTHER||||||<|0.0001||||||Pamphlet should be given before onset labor pain|Test of equal proportion (50/50)|||||||<0.0001
82495810|NCT02557555|164683633|OTHER||||||<|0.0001||||||Pamphlet information helped to reduce anxiety|Test of equal proportion (50/50)|||||||<0.0001
82495811|NCT02557555|164683633|OTHER|||||||0.0002||||||Information corrected any misconception|Test of equal proportion (50/50)|||||||0.0002
82495812|NCT02557555|164683633|OTHER||||||<|0.0001||||||Written information should always be available|Test of equal proportion (50/50)|||||||<0.0001
82495813|NCT01600638|164683641|OTHER||Mean Difference (Net)|-1.3|STANDARD_ERROR_OF_MEAN|0.27|||TWO_SIDED|||||||||||||
82495814|NCT01600638|164683642|OTHER||sucess proportion|0.7823|||||TWO_SIDED|95.0|0.614|0.951||||||||0.951|0.614|
82495815|NCT02657915|164683658|SUPERIORITY||Mean Difference (Final Values)|-6.0|||=|0.165|TWO_SIDED|95.0|-14.56|2.57|||ANCOVA|||||2.57|-14.56|=0.165
82495816|NCT02166905|164683700|OTHER||Hazard Ratio (HR)|0.4||||0.177|TWO_SIDED|90.0|0.1|1.2|||Log Rank||Reference=arm 1|||1.2|0.1|0.177
82495817|NCT02617628|164683706|EQUIVALENCE|The odds ratio for relapse versus non-relapse for the AR group relative to the BR group was analyzed, as well as the corresponding odds ratio for unknown relative to non-relapse.|Odds Ratio (OR)|1.56||||0.38|TWO_SIDED|95.0|0.57|4.27|||Regression, Logistic||Threshold for significance was set at p\<.05|Based on Lee et al. we estimated a 23-33% group difference in relapse by month 3. Power estimates calculated this estimate with a 2-sided alpha of .05 and a baseline sample size of 100 per group resulted in 80% power to detect a difference of approximately 20% (OR = 2.4) between groups assuming a rate of 50% in the control condition and 10% and 20% attrition by 3- and 6-month follow-ups. For the 86 participants randomized and released, with 80% power; and odds ratio of 3.5.||4.27|0.57|0.38
82495818|NCT02617628|164683707|SUPERIORITY||Cox Proportional Hazard|-0.74486||||0.01|TWO_SIDED|95.0|||||Regression, Cox|||We used Cox proportional hazards regression model to compare the groups on time to reincarceration.||||0.01
82495819|NCT05405309|164683739|OTHER||||||||||||||||||"The primary analysis was of safety and included all patients who received at least one dose of the investigational regimen. The rate of adverse events was estimated after the first 5 patients were treated at Original DL1 (camonsertib 40mg daily and olaparib 100mg BID dosing 2 days per week, at 28 day cycles)~After the first 5 patients were treated, it was determined that this dosing strategy may not be appropriate for R/R CLL patients and reduced dosing frequency may be necessary to increase the safety of the combination therapy. The protocol and DLs were amended, and sought to enroll an additional 18 patients.~Before the enrollment of 18 additional participants and MTD determination, the study was terminated due to sponsor de-activation of all programs associated with camonsertib."|||
82495820|NCT04518306|164683750|SUPERIORITY||LS Means Difference|-7.33|STANDARD_ERROR_OF_MEAN|1.451|<|0.0001|TWO_SIDED|95.0|-10.176|-4.486||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MIANALYZE procedure|||The analysis was performed using a mixed model for repeated measures (MMRM) for estimating the difference between Triple ¼ GMRx2 and placebo at Week 4||-4.486|-10.176|<0.0001
82495821|NCT04518306|164683750|SUPERIORITY||LS Means Difference|-8.23|STANDARD_ERROR_OF_MEAN|1.57|<|0.0001|TWO_SIDED|95.0|-11.305|-5.151||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MIANALYZE procedure|||The analysis was performed using a mixed model for repeated measures (MMRM) for estimating the difference between Triple ½ GMRx2 and placebo at Week 4||-5.151|-11.305|<0.0001
82495822|NCT04518306|164683751|SUPERIORITY||LS Means Difference|-7.98|STANDARD_ERROR_OF_MEAN|1.649|<|0.0001|TWO_SIDED|95.0|-11.281|-4.681||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-4.681|-11.281|<0.0001
82495823|NCT04518306|164683751|SUPERIORITY||LS Means Difference|-9.52|STANDARD_ERROR_OF_MEAN|2.034|<|0.0001|TWO_SIDED|95.0|-13.588|5.449||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||5.449|-13.588|<0.0001
82495824|NCT04518306|164683752|SUPERIORITY||LS Means Difference|-4.0|STANDARD_ERROR_OF_MEAN|1.204||0.0015|TWO_SIDED|95.0|-6.413|-1.597||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-1.597|-6.413|0.0015
82495825|NCT04518306|164683752|SUPERIORITY||LS Means Difference|-4.86|STANDARD_ERROR_OF_MEAN|1.133|<|0.0001|TWO_SIDED|95.0|-7.13|-2.595||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-2.595|-7.130|<0.0001
82495826|NCT04518306|164683753|SUPERIORITY||Risk Difference (RD)|28.09||||0.0002|TWO_SIDED|95.0|11.811|42.45|||Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||42.450|11.811|0.0002
82495827|NCT04518306|164683753|SUPERIORITY||Risk Difference (RD)|33.24|||<|0.0001|TWO_SIDED|95.0|17.199|47.186|||Wald test||95% confidence intervals for risk difference utilize Newcombe estimation method|||47.186|17.199|<0.0001
82495828|NCT04518306|164683754|SUPERIORITY||Risk Difference (RD)|17.18|||<|0.0001|TWO_SIDED|95.0|6.07|26.385||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo.|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method.|Percentages were calculated from the total number of participants within the randomized set.||26.385|6.070|<0.0001
82495829|NCT04518306|164683754|SUPERIORITY||Risk Difference (RD)|27.08|||<|0.0001|TWO_SIDED|95.0|15.237|36.646||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|Percentages were calculated from the total number of participants within the randomized set||36.646|15.237|<0.0001
82495830|NCT04518306|164683755|SUPERIORITY||LS Means Difference|-4.0|STANDARD_ERROR_OF_MEAN|0.991||0.0002|TWO_SIDED|95.0|-5.978|-2.013||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-2.013|-5.978|0.0002
82495831|NCT04518306|164683755|SUPERIORITY||LS Means Difference|-5.51|STANDARD_ERROR_OF_MEAN|0.908|<|0.0001|TWO_SIDED|95.0|-7.328|-3.694||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||||-3.694|-7.328|<0.0001
82495832|NCT04518306|164683756|SUPERIORITY||LS Means Difference|-6.79|STANDARD_ERROR_OF_MEAN|1.752||0.0003|TWO_SIDED|95.0|-10.3|-3.287||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ¼ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-3.287|-10.300|0.0003
82495833|NCT04518306|164683756|SUPERIORITY||LS Means Difference|-8.74|STANDARD_ERROR_OF_MEAN|1.829|<|0.0001|TWO_SIDED|95.0|-12.403|-5.082||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ½ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-5.082|-12.403|<0.0001
82495834|NCT04518306|164683757|SUPERIORITY||LS Means Difference|-3.86|STANDARD_ERROR_OF_MEAN|1.004||0.0003|TWO_SIDED|95.0|-5.865|-1.847||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ¼ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-1.847|-5.865|0.0003
82495835|NCT04518306|164683757|SUPERIORITY||LS Means Difference|-5.42|STANDARD_ERROR_OF_MEAN|1.245|<|0.0001|TWO_SIDED|95.0|-7.915|-2.932||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|MMRM procedure|||The difference between Triple ½ GMRx2 Dose and placebo at Week 4 was estimated using MMRM||-2.932|-7.915|<0.0001
82495836|NCT04518306|164683758|SUPERIORITY||Risk Difference (RD)|35.48|||<|0.0001|TWO_SIDED|95.0|19.541|48.549||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||48.549|19.541|<0.0001
82495837|NCT04518306|164683758|SUPERIORITY||Risk Difference (RD)|29.97|||<|0.0001|TWO_SIDED|95.0|14.218|43.093||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||43.093|14.218|<0.0001
82495838|NCT04518306|164683759|SUPERIORITY||Risk Difference (RD)|17.21||||0.003|TWO_SIDED|95.0|3.637|28.424||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||28.424|3.637|0.0030
82495839|NCT04518306|164683759|SUPERIORITY||Risk Difference (RD)|22.5|||<|0.0001|TWO_SIDED|95.0|8.72|33.665||No adjustment for multiplicity was made and the 0.05 level of significance was used to claim efficacy compared with placebo|Wald test||95% confidence intervals for risk difference utilized Newcombe estimation method|||33.665|8.720|<0.0001
82495840|NCT04518306|164683760|SUPERIORITY||Risk Difference (RD)|-1.61|||||TWO_SIDED|95.0|-9.83|2.76|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||2.760|-9.830|
82495841|NCT04518306|164683760|SUPERIORITY||Risk Difference (RD)|3.47|||||TWO_SIDED|95.0|-5.276|9.774|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.774|-5.276|
82495842|NCT04518306|164683761|SUPERIORITY||Risk Difference (RD)|-3.23|||||TWO_SIDED|95.0|-12.171|1.662|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||1.662|-12.171|
82495843|NCT04518306|164683761|SUPERIORITY||Risk Difference (RD)|-1.53|||||TWO_SIDED|95.0|-10.585|4.049||||||||4.049|-10.585|
82495844|NCT04518306|164683762|SUPERIORITY||Risk Difference (RD)|3.54|||||TWO_SIDED|95.0|-4.115|9.352|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||9.352|-4.115|
82495845|NCT04518306|164683762|SUPERIORITY||Risk Difference (RD)|5.08|||||TWO_SIDED|95.0|-2.779|11.2||||||||11.200|-2.779|
82495846|NCT04518306|164683763|SUPERIORITY||Risk Difference (RD)|3.54|||||TWO_SIDED|95.0|-4.012|9.35|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.350|-4.012|
82495847|NCT04518306|164683763|SUPERIORITY||Risk Difference (RD)|0.84|||||TWO_SIDED|95.0|-6.364|5.278|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||5.278|-6.364|
82495848|NCT04518306|164683764|SUPERIORITY||Risk Difference (RD)|-1.22|||||TWO_SIDED|95.0|-10.928|5.573|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||5.573|-10.928|
82495849|NCT04518306|164683764|SUPERIORITY||Risk Difference (RD)|4.27|||||TWO_SIDED|95.0|1.38|9.53|||||95% confidence intervals for risk difference utilize Newcombe estimation method|||9.53|1.38|
82495850|NCT04518306|164683765|SUPERIORITY||Risk Difference (RD)|1.95|||||TWO_SIDED|95.0|-6.492|7.954|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||7.954|-6.492|
82495851|NCT04518306|164683765|SUPERIORITY||Risk Difference (RD)|3.45|||||TWO_SIDED|95.0|-5.171|9.704|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||9.704|-5.171|
82495852|NCT04518306|164683766|SUPERIORITY||Risk Difference (RD)|0.88|||||TWO_SIDED|95.0|-6.324|5.548|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||5.548|-6.324|
82495853|NCT04518306|164683766|SUPERIORITY||number of participants at 95% CI|0.0|||||TWO_SIDED|95.0|0.0|3.05|||||For this particular parameter we have used number of participants at 95% CI computed from Clopper-Pearson method as no risk difference was found between the Triple ½ (GMRx2) vs placebo|||3.05|0.00|
82495854|NCT04518306|164683767|SUPERIORITY||Risk Difference (RD)|-1.59|||||TWO_SIDED|95.0|-9.684|2.778|||||95% confidence intervals for risk difference utilized Newcombe estimation method|||2.778|-9.684|
82495855|NCT04518306|164683767|SUPERIORITY||Risk Difference (RD)|-1.59|||||TWO_SIDED|95.0|-9.684|2.59|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||2.590|-9.684|
82495856|NCT04518306|164683768|SUPERIORITY||Risk Difference (RD)|4.27|||||TWO_SIDED|95.0|-6.722|12.959|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||12.959|-6.722|
82495857|NCT04518306|164683768|SUPERIORITY||Risk Difference (RD)|3.73|||||TWO_SIDED|95.0|-7.158|12.133|||||95% confidence intervals for risk difference utilized Newcombe estimation method.|||12.133|-7.158|
82495858|NCT04518306|164683769|SUPERIORITY||Risk Difference (RD)|1.43|||||TWO_SIDED|95.0|-8.585|8.916||||||||8.916|-8.585|
82495859|NCT04518306|164683769|SUPERIORITY||Risk Difference (RD)|-1.4|||||TWO_SIDED|95.0|-11.077|5.161||||||||5.161|-11.077|
82495860|NCT04518306|164683770|SUPERIORITY||Risk Difference (RD)|-3.82|||<|0.0001|TWO_SIDED|95.0|-17.664|8.366|||GEE procedure|||||8.366|-17.664|<0.0001
82495861|NCT04518306|164683770|SUPERIORITY||LS Means|5.42|||<|0.0001|TWO_SIDED|95.0|-9.04|17.981|||GEE procedure|||||17.981|-9.040|<0.0001
82495862|NCT02801331|164683771|EQUIVALENCE|A test of equivalence was conducted for unadjusted comparisons. A chi squared test of proportions was used for unadjusted comparisons.||||||0.6||||||Unadjusted|Chi-squared|||||||.60
82495863|NCT02801331|164683772|EQUIVALENCE|A statistical test comparing cumulative morphine dose was performed for the cohort that was treated with morphine (n=60)||||||0.62|||||||t-test, 2 sided|degrees of freedom =58 for cohort analyzed that received morphine treatment.||||||.62
82495864|NCT02801331|164683773|EQUIVALENCE|A statistical test comparing day of life discharged among untreated infants who completed hospitalization at study site (n=181).||||||0.29|||||||t-test, 2 sided|df = 179 based on number of infants who completed hospitalization at study site.||||||0.29
82495865|NCT02801331|164683774|EQUIVALENCE|A statistical test comparing day of life discharged among untreated infants (n=121)||||||0.55|||||||t-test, 2 sided|df = 119 based on number of infants who did not receive morphine treatment.||||||0.55
82495866|NCT02801331|164683775|EQUIVALENCE|A statistical test comparing day of life discharged among treated infants, n=60||||||0.36|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.36
82495867|NCT02801331|164683776|EQUIVALENCE|A test of equivalence was conducted for unadjusted comparisons. A t test of means was used for unadjusted comparisons.||||||0.56|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.56
82495868|NCT02801331|164683777|EQUIVALENCE|A statistical test comparing day of life infant started treatment as performed for the cohort that was treated with morphine (n=60)||||||0.25|||||||t-test, 2 sided|df = 58 based on number of infants who received morphine treatment.||||||0.25
82495869|NCT02443987|164683781|SUPERIORITY|||||||0.4|||||||Wilcoxon (Mann-Whitney)|||||||0.40
82495870|NCT02443987|164683782|SUPERIORITY|||||||0.18|||||||Wilcoxon (Mann-Whitney)|||||||0.18
82495871|NCT02443987|164683783|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||||||0.02
82495872|NCT02443987|164683784|SUPERIORITY|||||||0.51|||||||Wilcoxon (Mann-Whitney)|||||||0.51
82495873|NCT01638546|164683800|OTHER||||||||||||||||||The study will be performed as a double-blind, placebo controlled, randomized Phase II in patients with relapsed sensitive or refractory SCLC. Eligible patients will be randomized 1:1 to one of two treatment arms: ABT-888 and temozolomide as the investigational arm, versus placebo and temozolomide as the control arm. The randomization will be stratified by center and by type or relapse (sensitive vs. refractory). The primary objective is to compare the two treatment regimens with respect to efficacy, expressed as Progression Free Survival (PFS) at 4 months post-randomization. PFS will be calculated as proportion of patients alive and without evidence of disease at 4 months after randomization.|||
82495874|NCT03291808|164683819|OTHER|||||||0.35|||||||Kruskal-Wallis|||||||.35
82495875|NCT02674529|164683820|OTHER|This was a mechanistic trial and non-inferiority or equivalence analysis were not performed.|regression coefficient|-1.29864|STANDARD_ERROR_OF_MEAN|2.3||0.58|TWO_SIDED|95.0|||||Regression, Linear|Drug (antidepressant vs. placebo) prediction of changes in mood as measured by the MADRS scores.||||||0.58
82495876|NCT02674529|164683820|OTHER||r|0.02||||0.05|TWO_SIDED||||||Correlation|Change in MADRS after 8 weeks correlation with brain responses during the baseline fMRI task.||||||0.05
82495877|NCT02674529|164683821|OTHER|This is a mechanistic trial, we did not perform non-inferiority or equivalence analysis.|regression coefficient|-1.4328918|STANDARD_DEVIATION|1.4||0.8|TWO_SIDED|95.0|||||Regression, Linear|||||||0.8
82495878|NCT02674529|164683822|OTHER||||||<|0.05||||||The resulting voxel-wise parametric maps are thresholded with height and extent values generated by Monte Carlo simulations with 3dClustSim to protect against overall type I error at p \< 0.05.|t-test, 2 sided|||At the group-level, a random-effects analysis determines the main effects of the regressors of interest (e.g., high vs. low expectancy) resulting in statistical parametric maps (t or F statistics). To control for potential confounders, sex and depression severity will be entered as covariates in statistical models.||||<0.05
82495879|NCT01651195|164683823|SUPERIORITY|We estimated that, with a power of 85% and at a significance level of 0.05 (Power 0.85, ß=0.14990 and α=0.05), we needed 467 conscripts per group to show a 17% difference between the groups. Each conscript was randomly allocated to the probiotic or the control group according to a computer generated, 8-blocked randomization list.|||||<|0.05|||||||Fisher Exact||||"Result variables were analyzed according to intention to treat (ITT) principle. Missing data was handled by statistic modeling. Data on symptom diaries were calculated as follows: the incidence and duration of individual infection symptoms and respiratory episodes were analyzed between the intervention groups using time to event analysis (cox model for hazard) and duration analysis (gamma regression model). The results are expressed as a hazard ratio (incidence rate ratio) of symptoms and the mean duration of symptoms (days) with 95% confidence intervals or standard deviations. The sums of respiratory and gastrointestinal symptoms were calculated with gamma regression analysis."|||< 0.05
82495880|NCT01651195|164683824|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
82495881|NCT01651195|164683825|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
82495882|NCT01651195|164683826|SUPERIORITY||||||<|0.05|||||||Fisher Exact|||||||< 0.05
82495883|NCT02155608|164683855|SUPERIORITY|||||||0.54||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .38, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.54
82495884|NCT02155608|164683855|SUPERIORITY||||||<|0.0001||||||p \< .05 for statistical significance|Mixed Models Analysis|Time: F=39.97, df = 1/228||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||<.0001
82499893|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|26.6|||||TWO_SIDED|95.0|9.6|43.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||43.5|9.6|
82495885|NCT02155608|164683855|SUPERIORITY|||||||0.005||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 8.12, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.005
82495886|NCT02155608|164683855|SUPERIORITY||||||<|0.0001||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time2: F = 28.96, df = 1/228.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||<.0001
82495887|NCT02155608|164683855|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 6.23, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.02
82495888|NCT02155608|164683855|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 4.18, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
82495889|NCT02155608|164683855|SUPERIORITY|||||||0.73||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .12, df = 1/57.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.73
82495890|NCT02155608|164683856|SUPERIORITY|||||||0.003||||||p \< .05 for statistical significance|Chi-squared|Group: F = 8.75, df = 1/168.||Phase 1a: Assessed effects of group and time on categorical measure CGI-I from Baseline through Visit 4.||||.003
82495891|NCT02155608|164683856|SUPERIORITY|||||||0.17||||||p \< .05 for statistical significance.|Chi-squared|Time: F = 1.69, df = 3/168.||Phase 1a: Assessed effects of group and time on categorical measure CGI-I from Baseline through Visit 4.||||.17
82495892|NCT02155608|164683856|SUPERIORITY|||||||0.46|||||||Chi-squared|Group: Chi-square = .53, df = 1.||Phase 1b: Assessed effects of group on categorical measure CGI-I from at Visit 5 compared to baseline.||||.46
82495893|NCT02155608|164683857|SUPERIORITY|||||||0.91|||||||Mixed Models Analysis|Group: F=.01; df =1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.91
82495894|NCT02155608|164683857|SUPERIORITY|||||||0.0004|||||||Mixed Models Analysis|Time: F=13.03; df = 1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.0004
82495895|NCT02155608|164683857|SUPERIORITY|||||||0.37|||||||Mixed Models Analysis|Group \* time: F = .83; df = 1/209.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.37
82495896|NCT02155608|164683857|SUPERIORITY|||||||0.007||||||Time2: F = 7.45, df = 1/209.|Mixed Models Analysis|||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parameterized in the model as a standard linear variable, time (ranging from baseline to 4 weeks) and a second variable, time2, defined as 0 at baseline and time past week 1 for subsequent weeks. The time2 coefficient represents the change in slope after the initial week.||||.007
82495897|NCT02155608|164683857|SUPERIORITY|||||||0.67||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .19, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.67
82495898|NCT02155608|164683857|SUPERIORITY|||||||0.68||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .17, df = 1/50.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.68
82495899|NCT02155608|164683857|SUPERIORITY|||||||0.16||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 2.05, df = 1/50.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.16
82495900|NCT02155608|164683858|SUPERIORITY|||||||0.91||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/56.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.91
82495901|NCT02155608|164683858|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.12, df = .15||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.15
82495902|NCT02155608|164683858|SUPERIORITY|||||||0.64||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .21, df = 1/56.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.64
82495903|NCT02155608|164683858|SUPERIORITY|||||||0.66||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .20, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.66
82495904|NCT02155608|164683858|SUPERIORITY|||||||0.48||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .50, df = 1/47.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.48
82495905|NCT02155608|164683858|SUPERIORITY|||||||0.81||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .06, df = 1/47.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.81
82495906|NCT02155608|164683859|SUPERIORITY|||||||0.89||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .02, df = 1/55.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.89
82495907|NCT02155608|164683859|SUPERIORITY|||||||0.14||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.28, df = 1/55.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.14
82495908|NCT02155608|164683859|SUPERIORITY|||||||0.8||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .06, df = .81.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.80
82495909|NCT02155608|164683859|SUPERIORITY|||||||0.93||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/58.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.93
82495910|NCT02155608|164683859|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.22, df = 1/35.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.15
82495911|NCT02155608|164683859|SUPERIORITY|||||||0.28||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.23, df = 1/35.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.28
82495912|NCT02155608|164683860|SUPERIORITY|||||||0.91||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01; df = 1/46.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.91
82495913|NCT02155608|164683860|SUPERIORITY|||||||0.11||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 2.62, df = 1/46.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.11
82495914|NCT02155608|164683860|SUPERIORITY|||||||0.4||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .71; df = .40.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.40
82495915|NCT02155608|164683860|SUPERIORITY|||||||0.49||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .48. df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.49
82495916|NCT02155608|164683860|SUPERIORITY|||||||0.18||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.87, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.18
82495917|NCT02155608|164683860|SUPERIORITY|||||||0.72||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .13, df = 1/38.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.72
82495918|NCT02155608|164683861|SUPERIORITY|||||||0.62|||||||Mixed Models Analysis|Group: F =.25, df = 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.62
82495919|NCT02155608|164683861|SUPERIORITY|||||||0.06|||||||Mixed Models Analysis|Time: F = 3.58, df = 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.06
82495920|NCT02155608|164683861|SUPERIORITY|||||||0.09||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 2.90, df 1/53.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.09
82495921|NCT02155608|164683861|SUPERIORITY|||||||0.06||||||p \< .05 for statistical significance|Mixed Models Analysis|Group: F = 3.36, df = 1/58.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.06
82495922|NCT02155608|164683861|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 4.20, df = 1/31.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
82495923|NCT02155608|164683861|SUPERIORITY|||||||0.42||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .66, df = 1/31.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.42
82495924|NCT02155608|164683862|SUPERIORITY|||||||0.29||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 0.29, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.29
82495925|NCT02155608|164683862|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 5.83, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.02
82495926|NCT02155608|164683862|SUPERIORITY|||||||0.31||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.03, df = 1/129.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.31
82495927|NCT02155608|164683862|SUPERIORITY|||||||0.69||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .16, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.69
82495928|NCT02155608|164683862|SUPERIORITY|||||||0.33||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .98, df = 1/54.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.33
82495929|NCT02155608|164683862|SUPERIORITY|||||||0.35||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .88, df = 1/54.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.35
82495930|NCT02155608|164683863|SUPERIORITY|||||||0.21||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 1.62, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.21
82495931|NCT02155608|164683863|SUPERIORITY|||||||0.02||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 5.18, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.02
82495932|NCT02155608|164683863|SUPERIORITY|||||||0.01||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 6.89, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.01
82495933|NCT02155608|164683863|SUPERIORITY|||||||0.15||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F= 2.16, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.15
82495934|NCT02155608|164683863|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 4.15, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
82495935|NCT02155608|164683863|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .07, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.79
82495936|NCT02155608|164683864|SUPERIORITY|||||||0.94||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .01, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.94
82495937|NCT02155608|164683864|SUPERIORITY|||||||0.76||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .09, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.76
82495938|NCT02155608|164683864|SUPERIORITY|||||||0.39||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .75, df =1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.39
82495939|NCT02155608|164683864|SUPERIORITY|||||||0.09||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 3.06, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.09
82495940|NCT02155608|164683864|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .07, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.79
82495941|NCT02155608|164683864|SUPERIORITY|||||||0.22||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.55, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.22
82495942|NCT02155608|164683865|SUPERIORITY|||||||0.64||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .22, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.64
82495943|NCT02155608|164683865|SUPERIORITY|||||||0.19||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.49, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.19
82495944|NCT02155608|164683865|SUPERIORITY|||||||0.22||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 1.49, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.22
82495945|NCT02155608|164683865|SUPERIORITY|||||||0.05||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 3.95, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.05
82495946|NCT02155608|164683865|SUPERIORITY|||||||0.96||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 0.00, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.96
82495947|NCT02155608|164683865|SUPERIORITY|||||||0.92||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = .01, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.92
82495948|NCT02155608|164683866|SUPERIORITY|||||||0.79||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = .07, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.79
82495949|NCT02155608|164683866|SUPERIORITY|||||||0.3||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = 1.10, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.30
82495950|NCT02155608|164683866|SUPERIORITY|||||||0.03||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 4.61, df = 1/128.||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.03
82495951|NCT02155608|164683866|SUPERIORITY|||||||0.14||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group: F = 2.24, df = 1/59.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.14
82495952|NCT02155608|164683866|SUPERIORITY|||||||0.82||||||p \< .05 for statistical significance.|Mixed Models Analysis|Time: F = .05, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.82
82495953|NCT02155608|164683866|SUPERIORITY|||||||0.07||||||p \< .05 for statistical significance.|Mixed Models Analysis|Group \* time: F = 3.35, df = 1/55.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.07
82495954|NCT02155608|164683867|SUPERIORITY|||||||0.55|||||||Mixed Models Analysis|Group: F = .36, df = 1/52||Phase 1a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects.||||.55
82495955|NCT02155608|164683867|SUPERIORITY|||||||0.34|||||||Mixed Models Analysis|Time: F = .09, df = 1/52||Phase 1a: Outcomes were fitted via a mixed model with group, time, and group-by-time interactions to test for treatment effects.||||.34
82495956|NCT02155608|164683867|SUPERIORITY|||||||0.81|||||||Mixed Models Analysis|Group \* time: F = .06, df = 1/52||Phase 1 a: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interaction to test for treatment effects.||||.81
82495957|NCT02155608|164683867|SUPERIORITY|||||||0.83|||||||Mixed Models Analysis|Group: F = .05, df = 1/59||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.83
82495958|NCT02155608|164683867|SUPERIORITY|||||||0.04|||||||Mixed Models Analysis|Time: F = 4.52, df = 1/43||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.04
82495959|NCT02155608|164683867|SUPERIORITY|||||||0.73|||||||Mixed Models Analysis|Group \* time: F = .12, df = 1/43||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.73
82495960|NCT02155608|164683868|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Group: F = 1.62, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.21
82495961|NCT02155608|164683868|SUPERIORITY|||||||0.39|||||||Mixed Models Analysis|Time: F = .74, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.39
82495962|NCT02155608|164683868|SUPERIORITY|||||||0.18|||||||Mixed Models Analysis|Time2: F = 1.88, df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.18
82495963|NCT02155608|164683868|SUPERIORITY|||||||0.22|||||||Mixed Models Analysis|Group \* time: F = 1.56; df = 1/58.||Phase 1a: Outcomes were fitted via a mixed effects model with group-by-time interactions to test for treatment effects using a piecewise linear time trend. This was parametrized in the model as a standard linear viable, time (ranging from baseline to 4 weeks) and a second variable, time2. defined as 0 at baseline and time past week 1 for subsequent weeks. The time 2 coefficient represents the change in slope after the initial week.||||.22
82495964|NCT02155608|164683868|SUPERIORITY|||||||0.21|||||||Mixed Models Analysis|Group: F = 1.72, df = 1/12.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||.21
82495965|NCT02155608|164683868|SUPERIORITY|||||||1||||||Test not valid due to insufficient data.|Mixed Models Analysis|Time: F = 0.00, df = 1/0.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||1
82495966|NCT02155608|164683868|SUPERIORITY|||||||1||||||Test not valid due to insufficient data.|Mixed Models Analysis|Group \* time: F = .87, df = 1/0.||Phase 1b: Outcomes were fitted via a mixed effects model with group, time, and group-by-time interactions to test for treatment effects between visits 4 and 5.||||1
82495967|NCT00869349|164683877|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.6||||0.04|TWO_SIDED|95.0|-1.1|0.0||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||0.0|-1.1|0.04
82495968|NCT00869349|164683878|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.2||||0.01|TWO_SIDED|95.0|-5.6|-0.8||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||-0.8|-5.6|0.01
82495969|NCT00869349|164683879|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.8||||0.01|TWO_SIDED|95.0|0.5|3.1||a priori threshold for statistical significance was \<0.05.|t-test, 2 sided|||Treatment effects are reported as mean between-group differences from baseline to 21 months using t-tests to determine the differential effect of the intervention versus the education group.||3.1|0.5|0.01
82495970|NCT05426902|164683886|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||<0.0001
82495971|NCT05426902|164683887|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||Baseline (month 1) vs. intervention period (month 2)||||0.6
82495972|NCT05426902|164683888|SUPERIORITY|||||||0.2|||||||t-test, 2 sided|||Baseline (month 1) vs. intervention period (month 2)||||0.2
82495973|NCT05426902|164683889|SUPERIORITY||||||<|0.0001|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||<0.0001
82495974|NCT05426902|164683890|SUPERIORITY|||||||0.4|||||||Fisher Exact|||Baseline (month 1) vs. intervention period (month 2)||||0.4
82495975|NCT05426902|164683895|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"I feel good about my medical visit at baseline (month 1) vs. intervention period (month 2)."||||0.7
82495976|NCT05426902|164683895|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||"My rheumatologist gave me his/her full attention at baseline (month 1) vs. intervention period (month 2)."||||0.8
82495977|NCT05426902|164683895|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"I was able to say everything I wanted to say to my rheumatologist at baseline (month 1) vs. intervention period (month 2)."||||1.0
82495978|NCT05426902|164683897|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"My rheumatologist and I agreed on how active my lupus was today at baseline (month 1) vs. intervention period (month 2)."||||0.7
82495979|NCT05426902|164683897|SUPERIORITY|||||||0.8|||||||t-test, 2 sided|||"I understand the care recommendations that my doctor or provider gave me today at baseline (month 1) vs. intervention period (month 2)."||||0.8
82495980|NCT05426902|164683898|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||Baseline vs. Follow-Up||||0.02
82495981|NCT05426902|164683899|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke meets my approval at baseline (month 1) vs. intervention period (month 2)."||||0.7
82495982|NCT05426902|164683899|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke is appealing to me at baseline (month 1) vs. intervention period (month 2)."||||1.0
82495983|NCT05426902|164683899|SUPERIORITY|||||||0.5|||||||t-test, 2 sided|||"I like SLE@Duke at baseline (month 1) vs. intervention period (month 2)."||||0.5
82495984|NCT05426902|164683899|SUPERIORITY|||||||0.6|||||||t-test, 2 sided|||"I welcome SLE@Duke at baseline (month 1) vs. intervention period (month 2)."||||0.6
82495985|NCT05426902|164683900|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke seems fitting at baseline (month 1) vs. intervention period (month 2)."||||0.7
82495986|NCT05426902|164683900|SUPERIORITY|||||||0.7|||||||t-test, 2 sided|||"SLE@Duke seems suitable at baseline (month 1) vs. intervention period (month 2)."||||0.7
82495987|NCT05426902|164683900|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke seems applicable at baseline (month 1) vs. intervention period (month 2)."||||1.0
82495988|NCT05426902|164683900|SUPERIORITY|||||||1|||||||t-test, 2 sided|||"SLE@Duke seems like a good match at baseline (month 1) vs. intervention period (month 2)."||||1.0
82495989|NCT05426902|164683901|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems implementable at baseline (month 1) vs. intervention period (month 2)."||||0.3
82495990|NCT05426902|164683901|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems possible at baseline (month 1) vs. intervention period (month 2)."||||0.3
82495991|NCT05426902|164683901|SUPERIORITY|||||||0.4|||||||t-test, 2 sided|||"SLE@Duke seems doable at baseline (month 1) vs. intervention period (month 2)."||||0.4
82495992|NCT05426902|164683901|SUPERIORITY|||||||0.3|||||||t-test, 2 sided|||"SLE@Duke seems easy to use at baseline (month 1) vs. intervention period (month 2)."||||0.3
82495993|NCT03808493|164683911|EQUIVALENCE|For log-transformed (natural log) AUClast, the two-sided 90% CI of the difference in the least square means (LS-Means) between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0211|||||TWO_SIDED|90.0|-0.0752|0.0329||||||||0.0329|-0.0752|
82495994|NCT03808493|164683911|EQUIVALENCE|For log-transformed (natural log) AUClast, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0019|||||TWO_SIDED|90.0|-0.0778|0.0815||||||||0.0815|-0.0778|
82495995|NCT03808493|164683912|EQUIVALENCE|For log-transformed (natural log) Cmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0698|||||TWO_SIDED|90.0|-0.1404|0.0008||||||||0.0008|-0.1404|
82495996|NCT03808493|164683912|EQUIVALENCE|For log-transformed (natural log) Cmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0811|||||TWO_SIDED|90.0|-0.1658|0.0036||||||||0.0036|-0.1658|
82495997|NCT03808493|164683913|EQUIVALENCE|For log-transformed (natural log) AUC∞, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0199|||||TWO_SIDED|90.0|-0.0731|0.0333||||||||0.0333|-0.0731|
82495998|NCT03808493|164683913|EQUIVALENCE|For log-transformed (natural log) AUC∞, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0035|||||TWO_SIDED|90.0|-0.076|0.083||||||||0.0830|-0.0760|
82495999|NCT03808493|164683914|EQUIVALENCE|For log-transformed (natural log) Tmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.1902|||||TWO_SIDED|90.0|0.0199|0.3605||||||||0.3605|0.0199|
82496000|NCT03808493|164683914|EQUIVALENCE|For log-transformed (natural log) Tmax, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.2142|||||TWO_SIDED|90.0|0.0558|0.3725||||||||0.3725|0.0558|
82496001|NCT03808493|164683915|EQUIVALENCE|For log-transformed (natural log) MRT∞,ev, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0311|||||TWO_SIDED|90.0|0.0022|0.0599||||||||0.0599|0.0022|
82496002|NCT03808493|164683915|EQUIVALENCE|For log-transformed (natural log) MRT∞,ev, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0306|||||TWO_SIDED|90.0|-0.0003|0.0616||||||||0.0616|-0.0003|
82496003|NCT03808493|164683916|EQUIVALENCE|For log-transformed (natural log) λz, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|0.0209|||||TWO_SIDED|90.0|-0.0112|0.053||||||||0.0530|-0.0112|
82496004|NCT03808493|164683916|EQUIVALENCE|For log-transformed (natural log) λz, the two-sided 90% CI of the difference in the LS-Means between the formulations (TAK-438 OD tablet-TAK-438 tablet) was provided using the ANOVA model.|LS-Means Difference|-0.0135|||||TWO_SIDED|90.0|-0.0508|0.0238||||||||0.0238|-0.0508|
82496005|NCT01806545|164683965|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.11||||0.1197|TWO_SIDED|95.0|-0.242|0.025||P-value was based on Cochran-Mantel-Haenszel test stratified by diabetic status at surgery comparing the 2 treatment groups.|Cochran-Mantel-Haenszel|||||0.025|-0.242|0.1197
82496006|NCT01806545|164683966|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.08||||0.1962|TWO_SIDED|95.0|-0.204|0.045||P-value was based on Cochran-Mantel-Haenszel test stratified by diabetic status at surgery comparing the 2 treatment groups.|Cochran-Mantel-Haenszel|||||0.045|-0.204|0.1962
82496007|NCT01806545|164683967|SUPERIORITY_OR_OTHER_LEGACY|||||||0.09|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||||||0.090
82496008|NCT01806545|164683968|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193|TWO_SIDED||||||Log Rank|P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.||Analysis of time to loss of patency||||0.193
82496009|NCT01806545|164683969|SUPERIORITY_OR_OTHER_LEGACY|||||||0.231|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.231
82496010|NCT01806545|164683970|SUPERIORITY_OR_OTHER_LEGACY|||||||0.158|TWO_SIDED|||||P-value based on log-rank test stratified by diabetic status at surgery comparing the 2 treatment groups.|Log Rank|||Analysis of time to loss of patency||||0.158
82496011|NCT01806545|164683971|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.895|||||TWO_SIDED|95.0|-2.213|0.423||||||Treatment difference at week 12||0.423|-2.213|
82496012|NCT01806545|164683971|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|-0.232|||||TWO_SIDED|95.0|-1.791|1.327||||||Treatment difference at week 26||1.327|-1.791|
82496013|NCT01806545|164683972|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|-0.04|||||TWO_SIDED|95.0|-0.273|0.2||||||Analysis of week 12||0.200|-0.273|
82496014|NCT01806545|164683972|SUPERIORITY_OR_OTHER_LEGACY||Proportion treatment difference|0.08|||||TWO_SIDED|95.0|-0.165|0.318||||||Analysis of week 26||0.318|-0.165|
82496015|NCT01806545|164683973|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.154|||||TWO_SIDED|95.0|-0.096|0.404||||||Analysis of week 12||0.404|-0.096|
82496016|NCT01806545|164683973|SUPERIORITY_OR_OTHER_LEGACY||Mean treatment difference|0.565|||||TWO_SIDED|95.0|-0.023|1.152||||||Analysis of week 26||1.152|-0.023|
82496017|NCT00429273|164683974|OTHER|Test for differences in treatment outcomes between three different tx|F-Value for variance component|18.9|||<|0.01|TWO_SIDED||||||Mixed Models Analysis|||Analyses are based on a generalized linear mixed model (GLMM) modelling the effects of the medication when calibrated to optimal dosage and controlling for time effects and within-subject effects. The design is a combined within-between subject design, where each participant is exposed to, and provides information about multiple tx modalities.||||<.01
82496018|NCT04950998|164684009|SUPERIORITY||Mean Difference (Final Values)|604.07|STANDARD_DEVIATION|2560.36||0.376|TWO_SIDED|95.0|-813.815|2021.95|||t-test, 2 sided|||||2021.95|-813.815|0.376
82496019|NCT04950998|164684010|SUPERIORITY||Mean Difference (Final Values)|-35.019|STANDARD_DEVIATION|172.168||0.444|TWO_SIDED|95.0|-130.36|60.324|||t-test, 2 sided|||||60.324|-130.36|.444
82496020|NCT00730132|164684047|SUPERIORITY_OR_OTHER_LEGACY|||||||0.007|||||||Pearson Chi-Square|||Significance of the differences in the number of patients per group who achieved goal TC levels on Visit 2.||||0.007
82496021|NCT00730132|164684048|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001||||||Chi square, continuity corrected. Asymptotic significance.|McNemar|||Significance of paired changes in the number of patients who achieved LDL-C target levels on Visit 2, for each treatment group comparison||||<0.001
82496022|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|25.757|STANDARD_DEVIATION|12.30606||||95.0||||||||Descriptive statistics of relative (%) change in TC levels from Baseline at Visit 2||||
82496023|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|20.0|STANDARD_DEVIATION|15.662||||95.0||||||||Descriptive statistics of relative (%) change in TC from baseline at Visit 2||||
82496024|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|22.8181|STANDARD_DEVIATION|14.03545||||95.0||||||||Descriptive statistics of relative (%) change in TC from baseline at Visit 2||||
82496025|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.80928|STANDARD_ERROR_OF_MEAN|1.48621||0.143|TWO_SIDED|95.0|-6.307|0.6884|||Games-Howell|||Statin Dose Titration compared to New Statin||.6884|-6.3070|.143
82496026|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.74811|STANDARD_ERROR_OF_MEAN|1.56351||0.001|TWO_SIDED|95.0|-9.4298|-2.0664|||Games-Howell|||Statin Dose Titration compared to Ezetimbe||-2.0664|-9.4298|.001
82496027|NCT00730132|164684049|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-2.93883|STANDARD_ERROR_OF_MEAN|1.38286||0.086|TWO_SIDED|95.0|-6.1948|0.3171|||Games-Howell|||New Statin compared to Ezetimibe||.3171|-6.1948|.086
82496028|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|26.8174|STANDARD_DEVIATION|19.85205||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
82496029|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|28.2488|STANDARD_DEVIATION|20.78727||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
82496030|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|32.0665|STANDARD_DEVIATION|15.5901||||95.0||||||||Descriptive statistics of relative (%) change in LDL-C levels by the end of the study (Visit 2) compared to Baseline (Visit 1)||||
82496031|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-1.43138|STANDARD_ERROR_OF_MEAN|2.01009||0.756|TWO_SIDED|95.0|-6.1604|3.2977|||Games-Howell|||Statin Dose Titration compared to New Statin||3.2977|-6.1604|.756
82496032|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-5.24911|STANDARD_ERROR_OF_MEAN|1.97821||0.023|TWO_SIDED|95.0|-9.9072|-0.591|||Games-Howell|||Statin Dose Titration compared to Ezetimibe||-.5910|-9.9072|.023
82496033|NCT00730132|164684050|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|-3.81773|STANDARD_ERROR_OF_MEAN|1.88425||0.107|TWO_SIDED|95.0|-8.2523|0.6169|||Games-Howell|||New Statin compared to Ezetimibe||.6169|-8.2523|.107
82496034|NCT02296320|164684059|SUPERIORITY||Relative risk reduction|31.9||||0.166|TWO_SIDED|90.0|-7.5|56.8|||Poisson regression with robust variance|||The key efficacy analyses were based on 5000 mg MEDI4893 and placebo. Participants who received 2000 mg MEDI4893 were summarized descriptively.||56.8|-7.5|0.166
82496035|NCT01930123|164684103|OTHER||Mean Difference (Final Values)|6.26|STANDARD_DEVIATION|9.98||0.01|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||0.01
82496036|NCT01930123|164684104|OTHER|||||||0.006|||||||Wilcoxon (Mann-Whitney)|||Mild fibrosis vs. advanced fibrosis||||0.006
82496037|NCT01930123|164684105|OTHER||Median Difference (Final Values)|56.7|STANDARD_DEVIATION|2.6||0.09|TWO_SIDED||||||t-test, 1 sided|||||||0.09
82496038|NCT03334539|164684112|SUPERIORITY||Least Squares (LS) Mean Difference|0.11||||0.3378|TWO_SIDED|95.0|-0.12|0.34||P-value was calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.34|-0.12|0.3378
82496039|NCT03334539|164684112|SUPERIORITY||LS Mean Difference|0.12||||0.2883|TWO_SIDED|95.0|-0.1|0.35||P-value was calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.35|-0.10|0.2883
82496040|NCT03334539|164684112|OTHER||LS Mean Difference|0.01||||0.9293|TWO_SIDED|95.0|-0.22|0.24||P-value calculated using a model with treatment, baseline score, and site as covariates|ANCOVA|||||0.24|-0.22|0.9293
82496041|NCT03334539|164684113|SUPERIORITY||LS Mean Difference|-0.3||||0.1473|TWO_SIDED|95.0|-0.7|0.1||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.1|-0.7|0.1473
82496042|NCT03334539|164684113|SUPERIORITY||LS Mean Difference|-0.3||||0.2321|TWO_SIDED|95.0|-0.7|0.2||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.2|-0.7|0.2321
82496043|NCT03334539|164684113|OTHER||LS Mean Difference|0.0||||0.8217|TWO_SIDED|95.0|-0.4|0.5||P-value calculated using a model with treatment, baseline score, and site as covariates.|ANCOVA|||||0.5|-0.4|0.8217
82496044|NCT03547583|164684162|OTHER||Difference of LS-means|-0.52|||=|0.8008|TWO_SIDED|97.5|-5.17|4.13|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline PLS values as covariates.||4.13|-5.17|= 0.8008
82496045|NCT03547583|164684162|OTHER||Difference of LS-means|-1.46|||=|0.4722|TWO_SIDED|97.5|-6.02|3.1|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline PLS values as covariates.||3.10|-6.02|= 0.4722
82496046|NCT03547583|164684163|OTHER||Difference of LS-means|-1.81|||=|0.8054|TWO_SIDED|97.5|-18.3|14.67|||Mixed model repeated-measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline 6MWT values as covariates.||14.67|-18.30|= 0.8054
82496047|NCT03547583|164684163|OTHER||Difference of LS-means|-5.49|||=|0.4502|TWO_SIDED|97.5|-21.77|10.8|||mixed model repeated measures|||The analysis of each imputed dataset will be performed using mixed-effects model for repeated measures (MMRM), including treatment, region, heart rhythm, study visit as fixed effects, interaction between study visit and treatment group, and adjustment for the baseline 6MWT values as covariates.||10.80|-21.77|= 0.4502
82496048|NCT03396367|164684182|SUPERIORITY||Slope|0.372||||0.433|TWO_SIDED|95.0|-0.558|1.302||Condition (referent = education control).|Latent Growth Curve||Variable:|||1.302|-.558|.433
82496049|NCT03396367|164684182|SUPERIORITY||Slope|-0.017||||0.749|TWO_SIDED|95.0|-0.121|0.087|||Latent Growth Curve||Variable: Communication Compentence|||.087|-.121|.749
82496050|NCT03396367|164684182|SUPERIORITY||Slope|0.073||||0.302|TWO_SIDED|95.0|-0.121|0.087|||Latent Growth Curve||Moderating Variable: Communication Competence by Condition|||.087|-.121|.302
82496051|NCT03396367|164684182|SUPERIORITY||Slope|0.027||||0.799|TWO_SIDED|95.0|-0.182|0.236|||Latent Growth Curve||Variable: Relationship Satisfaction|||.236|-.182|.799
82496052|NCT03396367|164684182|SUPERIORITY||Slope|-0.211||||0.173|TWO_SIDED|95.0|-0.514|0.092|||Latent Growth Curve||Moderating Variable: Relationship Satisfaction by Condition|||.092|-.514|.173
82496053|NCT03396367|164684183|SUPERIORITY||Slope|0.427||||0.172|TWO_SIDED|95.0|-0.186|1.04||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.04|-.186|.172
82496054|NCT03396367|164684183|SUPERIORITY||Slope|-0.281||||0.054|TWO_SIDED|95.0|-0.623|0.061||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||.061|-.623|.054
82496055|NCT03396367|164684183|SUPERIORITY||Slope|0.125||||0.036|TWO_SIDED|95.0|-0.011|0.26||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||.260|-.011|.036
82496056|NCT03396367|164684184|SUPERIORITY||Slope|0.245||||0.679|TWO_SIDED|95.0|-0.913|1.403||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.403|-.913|.679
82496057|NCT03396367|164684184|SUPERIORITY||Slope|-0.301||||0.359|TWO_SIDED|95.0|-1.938|1.336||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||1.336|-1.938|.359
82496058|NCT03396367|164684184|SUPERIORITY||Slope|0.048||||0.431|TWO_SIDED|95.0|-0.496|0.593||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||.593|-.496|.431
82496059|NCT03396367|164684185|SUPERIORITY||Slope|-1.251||||0.326|TWO_SIDED|95.0|-3.814|1.311||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at baseline.|Latent Growth Curve|||||1.311|-3.814|.326
82496060|NCT03396367|164684185|SUPERIORITY||Slope|0.246||||0.384|TWO_SIDED|95.0|-1.383|1.875||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention at the 3-month follow-up.|Latent Growth Curve|||||1.875|-1.383|.384
82496061|NCT03396367|164684185|SUPERIORITY||Slope|0.856||||0.019|TWO_SIDED|95.0|0.052|1.659||A latent growth curve (LGC) with an intercept and linear slope was specified. The intercept quoted here represents the difference between the Partner intervention and the Education intervention across the 3-,6-,9-, and 12- month follow-ups.|Latent Growth Curve|||||1.659|.052|.019
82496062|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.12|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||<0.05
82496063|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.23|||<|0.001|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.001
82496064|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.05|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||<0.05
82496065|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.15|||<|0.01|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.01
82496066|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.03||||0.13|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between mid-treatment TLF from baseline TLF.||||0.13
82496067|NCT02881554|164684188|OTHER|Non-parametric|Median Difference (Final Values)|0.09|||<|0.05|TWO_SIDED|||||Statistically significant p-value is \<0.05|Wilcoxon (Mann-Whitney)|||Null hypothesis = no difference in TLF between mid-treatment and baseline. Wilcoxon (Mann-Whitney) tests were performed assessing the longitudinal difference between post-treatment TLF from baseline TLF.||||<0.05
82496068|NCT02881554|164684188|OTHER|Non-parametric|Spearman's correlation coefficient|-0.61||||0.002|TWO_SIDED|||||Statistically significant p-value is \<0.05|Spearman rank correlation|||Null hypothesis = no monotonic association between the baseline TLF and Child-Pugh scores. Spearman rank correlation was performed to assess association between baseline TLF and Child-Pugh scores.||||0.002
82499055|NCT03978520|164689009|SUPERIORITY||Response Rate Difference|18.3|||=|0.013|TWO_SIDED|95.0|3.9|32.6|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||32.6|3.9|=0.013
82499056|NCT03978520|164689009|SUPERIORITY||Response Rate Difference|18.1|||=|0.018|TWO_SIDED|95.0|3.0|33.2|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||33.2|3.0|=0.018
82499057|NCT03978520|164689009|SUPERIORITY||Response Rate Difference|-1.2|||=|0.882|TWO_SIDED|95.0|-17.6|15.2|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||15.2|-17.6|=0.882
82499058|NCT03978520|164689010|SUPERIORITY||Response Rate Difference|14.7|||=|0.049|TWO_SIDED|95.0|0.0|29.4|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||29.4|0.0|=0.049
82499059|NCT03978520|164689010|SUPERIORITY||Response Rate Difference|13.9|||=|0.091|TWO_SIDED|95.0|-2.2|30.1|||Cochran-Mantel-Haenszel|||"Elsubrutinib placebo/upadacitinib 30 mg vs elsubrutinib placebo/upadacitinib placebo~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||30.1|-2.2|=0.091
82499060|NCT03978520|164689010|SUPERIORITY||Response Rate Difference|-6.3|||=|0.447|TWO_SIDED|95.0|-22.5|9.9|||Cochran-Mantel-Haenszel|||"ABBV-599 High Dose (Elsubrutinib 60 mg/upadacitinib 30 mg) vs Elsubrutinib placebo/upadacitinib 30 mg~The difference between the groups was assessed using the Cochran-Mantel-Haenszel (CMH) test, stratified by baseline corticosteroid dose above 10 mg prednisone-equivalent (≤10 mg or \> 10 mg), screening SLEDAI-2K (\< 10 or ≥10), baseline interferon score (high or low or NA), baseline immunosuppressant (azathioprine, tacrolimus, cyclosporine, methotrexate \[MTX\], mycophenolate) (yes or no)."||9.9|-22.5|=0.447
82496069|NCT05231954|164684193|SUPERIORITY||Odds Ratio (OR)|1.29||||0.006|TWO_SIDED|95.0|1.08|1.55||P-value is adjusted for multiple comparisons, and a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.55|1.08|0.006
82496070|NCT05231954|164684193|SUPERIORITY||Odds Ratio (OR)|0.82||||0.081|TWO_SIDED|95.0|0.65|1.03||The p-value is adjusted for multiple comparisons, and a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.03|0.65|0.081
82496071|NCT05231954|164684194|SUPERIORITY||Odds Ratio (OR)|1.44||||0.044|TWO_SIDED|95.0|1.01|2.05||The p-value is adjusted for multiple comparisons, and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||2.05|1.01|0.044
82496072|NCT05231954|164684194|SUPERIORITY||Odds Ratio (OR)|1.02||||0.919|TWO_SIDED|95.0|0.69|1.5||The p-value is adjusted for multiple comparisons and the a priori threshold for statistical significance is 0.05|Mixed Models Analysis|||||1.50|0.69|0.919
82496073|NCT01315678|164684214|SUPERIORITY||Cox Proportional Hazard|1.51||||0.0286|TWO_SIDED|95.0|1.07|2.13|||Regression, Cox|||Stratified Cox proportional hazards model||2.13|1.07|0.0286
82496074|NCT01315678|164684215|SUPERIORITY||Cox Proportional Hazard|1.12||||0.6031|TWO_SIDED|95.0|0.76|1.66|||Regression, Cox|||||1.66|0.76|0.6031
82496075|NCT01315678|164684216|SUPERIORITY||Cox Proportional Hazard|0.84||||0.4861|TWO_SIDED|95.0|0.49|1.44|||Regression, Cox|||||1.44|0.49|0.4861
82496076|NCT03292588|164684222|SUPERIORITY|Negative binomial model for the rate of exacerbations in the first year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.73||||0.027|TWO_SIDED|95.0|0.56|0.96|||Regression, Negative Binomial|Adjusted relative rate of exacerbations in the first year.||||0.96|0.56|0.027
82496077|NCT03292588|164684223|SUPERIORITY||Least Square Mean Difference|-0.28||||0.29|TWO_SIDED|95.0|-0.81|0.24|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 12.||Week 12||0.24|-0.81|0.290
82496078|NCT03292588|164684223|SUPERIORITY||Least Square Mean Difference|-0.07||||0.82|TWO_SIDED|95.0|-0.69|0.55|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 24.||Week 24||0.55|-0.69|0.820
82496079|NCT03292588|164684223|SUPERIORITY||Least Square Mean Difference|-0.51||||0.096|TWO_SIDED|95.0|-1.11|0.09|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 36.||Week 36||0.09|-1.11|0.096
82496080|NCT03292588|164684223|SUPERIORITY||Least Square Mean Difference|-0.06||||0.831|TWO_SIDED|95.0|-0.65|0.52|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 48.||Week 48||0.52|-0.65|0.831
82496081|NCT03292588|164684223|SUPERIORITY||Least Square Mean Difference|0.02||||0.947|TWO_SIDED|95.0|-0.6|0.64|||Mixed Models Analysis|The difference in least square mean of CASI scores for week 52.||Week 52||0.64|-0.60|0.947
82496082|NCT03292588|164684224|SUPERIORITY|A generalized logit model was used to analyze Physician Global Assessment Tool at Visit 14. The model included treatment arm as fixed effect as primary exposure but was also adjusted for study site, # of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils ((\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age) \& total serum IgE (\< or ≥540 kUA/L). No imputation of missing data was used for participants who weren't assessed for quality of life measurements at Visit 14.|Odds Ratio (OR)|1.01||||0.974|TWO_SIDED|95.0|0.62|1.64|||Regression, Logistic|||Physician Global Assessment Tool||1.64|0.62|0.974
82496083|NCT03292588|164684225|SUPERIORITY|A generalized logit model was used to analyze the Patient Global Assessment Tool at Visit 14. The model included treatment arm as fixed effect as the primary exposure but was adjusted for study site, # of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils ((\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age) \& total serum IgE (\< or ≥540 kUA/L). No imputation of missing data was used for participants who weren't assessed for quality of life measurements at Visit 14.|Odds Ratio (OR)|0.72||||0.238|TWO_SIDED|95.0|0.42|1.24|||Regression, Logistic|||Patient Global Assessment Tool||1.24|0.42|0.238
82496084|NCT03292588|164684226|SUPERIORITY|A generalized mixed model as described in section 8.3.1 was used to analyze each spirometry and impulse oscillometry parameter, separately, at each visit where the lung function was collected.|Least Square Mean Difference|-0.005||||0.591|TWO_SIDED|95.0|-0.023|0.013|||Mixed Models Analysis|||FEV1/FVC Week 12||0.013|-0.023|0.591
82496085|NCT03292588|164684226|SUPERIORITY||Least Square Mean Difference|-0.011||||0.265|TWO_SIDED|95.0|-0.031|0.008|||Mixed Models Analysis|||FEV1/FVC Week 24||0.008|-0.031|0.265
82496086|NCT03292588|164684226|SUPERIORITY||Least Square Mean Difference|0.011||||0.345|TWO_SIDED|95.0|-0.012|0.033|||Mixed Models Analysis|||FEV1/FVC Week 36||0.033|-0.012|0.345
82496087|NCT03292588|164684226|SUPERIORITY||Least Square Mean Difference|0.013||||0.248|TWO_SIDED|95.0|-0.009|0.036|||Mixed Models Analysis|||FEV1/FVC Week 48||0.036|-0.009|0.248
82496088|NCT03292588|164684226|SUPERIORITY||Least Square Mean Difference|-0.002||||0.864|TWO_SIDED|95.0|-0.023|0.02|||Mixed Models Analysis|||FEV1/FVC Week 52||0.020|-0.023|0.864
82496089|NCT03292588|164684227|SUPERIORITY||Least Square Mean Difference|-0.4||||0.816|TWO_SIDED|95.0|-3.8|3.0|||Mixed Models Analysis|||FEV1PP Week 12||3.0|-3.8|0.816
82496090|NCT03292588|164684227|SUPERIORITY||Least Square Mean Difference|-3.4||||0.095|TWO_SIDED|95.0|-7.4|0.6|||Mixed Models Analysis|||FEV1PP Week 24||0.6|-7.4|0.095
82499120|NCT00482612|164689257|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
82496091|NCT03292588|164684227|SUPERIORITY||Least Square Mean Difference|1.5||||0.444|TWO_SIDED|95.0|-2.4|5.5|||Mixed Models Analysis|||FEV1PP Week 36||5.5|-2.4|0.444
82496092|NCT03292588|164684227|SUPERIORITY||Least Square Mean Difference|0.6||||0.751|TWO_SIDED|95.0|-3.3|4.6|||Mixed Models Analysis|||FEV1PP Week 48||4.6|-3.3|0.751
82496093|NCT03292588|164684227|SUPERIORITY||Least Square Mean Difference|-2.6||||0.184|TWO_SIDED|95.0|-6.5|1.3|||Mixed Models Analysis|||FEV1PP Week 52||1.3|-6.5|0.184
82496094|NCT03292588|164684228|SUPERIORITY|Negative binomial model for the rate of exacerbations (per year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.85||||0.458|TWO_SIDED|95.0|0.55|1.31|||Mixed Models Analysis|||Did not meet FDA-approved dosing||1.31|0.55|0.458
82496095|NCT03292588|164684229|SUPERIORITY|Negative binomial model for the rate of exacerbations (per year. The model included an offset term to account for differential follow-up among participants. To account for adaptive randomization, the model was also adjusted for study site, number of exacerbations in year prior to study (2 or 3+), peripheral blood eosinophils (\< or ≥400 cells/μl), BMI (\< or ≥95th percentile for age), total serum IgE (\< or ≥540 kUA/L) and treatment dose (40 mg or 100 mg).|Risk Ratio (RR)|0.67||||0.025|TWO_SIDED|95.0|0.47|0.95|||Regression, Negative Binomial|||Fit FDA-approved dosing||0.95|0.47|0.025
82496096|NCT03292588|164684230|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.3587|TWO_SIDED|95.0|0.63|1.18|||Regression, Cox|||||1.18|0.63|0.3587
82496097|NCT00004978|164684244|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.55|TWO_SIDED|95.0|0.75|1.16||P-value is 2-sided using an alpha of .05.|Regression, Cox|Hazard ratio is from unadjusted proportional hazards regression model.|HR is for rIL-2 vs control.|||1.16|0.75|.55
82496098|NCT00004978|164684245|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.62|TWO_SIDED|95.0|0.74|1.2|||Regression, Cox|||||1.20|0.74|.62
82496099|NCT00004978|164684246|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.9||||0.42|TWO_SIDED|95.0|0.69|1.17|||Regression, Cox|||||1.17|0.69|.42
82496100|NCT00004978|164684247|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.91||||0.41|TWO_SIDED|95.0|0.73|1.14|||Regression, Cox|||||1.14|0.73|.41
82496101|NCT00004978|164684248|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|159.0|||||TWO_SIDED|95.0|145.0|174.0|||||treatment difference (rIL2 - no rIL2) estimated from a longitudinal model that considers CD4+ measured at followup visits|||174|145|
82496102|NCT00004978|164684250|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.94||||0.07|TWO_SIDED|95.0|0.88|1.0|||Regression, Cox|Hazard ratio (rIL-2 vs. no rIL-2) for first change in antiretroviral treatment.||||1.00|0.88|.07
82496103|NCT00004978|164684251|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|1.23||||0.003|TWO_SIDED|95.0|1.07|1.41|||Regression, Cox||HR (IL-2 vs control) for first grade 4 event, ITT analysis.|||1.41|1.07|.003
82496104|NCT00004978|164684252|SUPERIORITY_OR_OTHER_LEGACY|||||||0.97||95.0|||||Chi-squared|||||||.97
82496105|NCT00004978|164684253|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.96||||0.74|TWO_SIDED|95.0|0.76|1.22|||Regression, Cox|||||1.22|0.76|.74
82496106|NCT01652703|164684254|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-68.61|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-74.51|-62.71||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-62.71|-74.51|<0.001
82496107|NCT01652703|164684254|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.85|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-58.84|-46.86||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-46.86|-58.84|<0.001
82496108|NCT01652703|164684254|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-63.94|STANDARD_ERROR_OF_MEAN|3.18|<|0.001|TWO_SIDED|95.0|-70.23|-57.66||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-57.66|-70.23|<0.001
82496109|NCT01652703|164684254|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-58.16|STANDARD_ERROR_OF_MEAN|3.21|<|0.001|TWO_SIDED|95.0|-64.51|-51.81||Multiplicity adjusted p-value is significant if less than the familywise error rate of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|The null hypothesis was that there was no mean difference in the percent change from Baseline at Week 12 in LDL-C between evolocumab and placebo, and the alternative hypothesis was that a mean difference did exist.||-51.81|-64.51|<0.001
82496110|NCT01652703|164684255|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-96.3|STANDARD_ERROR_OF_MEAN|4.9|<|0.001|TWO_SIDED|95.0|-106.0|-86.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-86.5|-106.0|<0.001
82499121|NCT00482612|164689257|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
82499122|NCT00482612|164689258|SUPERIORITY_OR_OTHER|||||||0.0014|||||||ANCOVA|Baseline SL was used as a covariate.||||||0.0014
82496111|NCT01652703|164684255|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-75.5|STANDARD_ERROR_OF_MEAN|5.0|<|0.001|TWO_SIDED|95.0|-85.4|-65.5||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-65.5|-85.4|<0.001
82496112|NCT01652703|164684255|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-88.2|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|-97.4|-79.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-79.0|-97.4|<0.001
82496113|NCT01652703|164684255|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-80.7|STANDARD_ERROR_OF_MEAN|4.7|<|0.001|TWO_SIDED|95.0|-90.0|-71.4||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-71.4|-90.0|<0.001
82496114|NCT01652703|164684256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1945.68|||<|0.001|TWO_SIDED|95.0|89.64|42232.63||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q2W and stratification factor of screening LDL-C level.|Placebo is the reference|||42232.63|89.64|<0.001
82496115|NCT01652703|164684256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|281.13|||<|0.001|TWO_SIDED|95.0|14.74|5360.92||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q2W and stratification factor of screening LDL-C level.|Placebo is the reference|||5360.92|14.74|<0.001
82496116|NCT01652703|164684256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|536.45|||<|0.001|TWO_SIDED|95.0|28.37|10143.4||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q4W and stratification factor of screening LDL-C level.|Placebo is the reference|||10143.40|28.37|<0.001
82496117|NCT01652703|164684256|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|595.59|||<|0.001|TWO_SIDED|95.0|31.11|11402.67||Testing based on a significance level of 0.05.|Regression, Logistic|Logistic Regression model includes treatment arms in dose frequency of Q4W and stratification factor of screening LDL-C level.|Placebo is the reference|||11402.67|31.11|<0.001
82496118|NCT01652703|164684257|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-62.56|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-67.85|-57.27||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-57.27|-67.85|<0.001
82496119|NCT01652703|164684257|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-49.46|STANDARD_ERROR_OF_MEAN|2.72|<|0.001|TWO_SIDED|95.0|-54.83|-44.08||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-44.08|-54.83|<0.001
82496120|NCT01652703|164684257|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-58.08|STANDARD_ERROR_OF_MEAN|2.96|<|0.001|TWO_SIDED|95.0|-63.93|-52.22||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-52.22|-63.93|<0.001
82496121|NCT01652703|164684257|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.54|STANDARD_ERROR_OF_MEAN|2.99|<|0.001|TWO_SIDED|95.0|-59.46|-47.63||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-47.63|-59.46|<0.001
82496122|NCT01652703|164684258|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-60.69|STANDARD_ERROR_OF_MEAN|2.52|<|0.001|TWO_SIDED|95.0|-65.67|-55.72||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-55.72|-65.67|<0.001
82496123|NCT01652703|164684258|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.75|STANDARD_ERROR_OF_MEAN|2.56|<|0.001|TWO_SIDED|95.0|-51.8|-41.7||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.70|-51.80|<0.001
82496124|NCT01652703|164684258|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-53.44|STANDARD_ERROR_OF_MEAN|2.77|<|0.001|TWO_SIDED|95.0|-58.91|-47.97||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-47.97|-58.91|<0.001
82496125|NCT01652703|164684258|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-47.37|STANDARD_ERROR_OF_MEAN|2.8|<|0.001|TWO_SIDED|95.0|-52.9|-41.85||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.85|-52.90|<0.001
82496126|NCT01652703|164684259|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-34.49|STANDARD_ERROR_OF_MEAN|11.75||0.004|TWO_SIDED|95.0|-57.71|-11.26||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-11.26|-57.71|0.004
82496127|NCT01652703|164684259|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-24.25|STANDARD_ERROR_OF_MEAN|11.93||0.044|TWO_SIDED|95.0|-47.83|-0.68||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-0.68|-47.83|0.044
82496128|NCT01652703|164684259|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-29.82|STANDARD_ERROR_OF_MEAN|9.36||0.002|TWO_SIDED|95.0|-48.32|-11.32||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-11.32|-48.32|0.002
82496129|NCT01652703|164684259|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-20.82|STANDARD_ERROR_OF_MEAN|9.41||0.028|TWO_SIDED|95.0|-39.41|-2.22||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-2.22|-39.41|0.028
82496130|NCT01652703|164684260|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.98|STANDARD_ERROR_OF_MEAN|2.64|<|0.001|TWO_SIDED|95.0|-52.21|-41.76||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.76|-52.21|<0.001
82496131|NCT01652703|164684260|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-37.22|STANDARD_ERROR_OF_MEAN|2.68|<|0.001|TWO_SIDED|95.0|-42.52|-31.91||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-31.91|-42.52|<0.001
82496132|NCT01652703|164684260|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-46.66|STANDARD_ERROR_OF_MEAN|2.86|<|0.001|TWO_SIDED|95.0|-52.32|-41.0||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.00|-52.32|<0.001
82496133|NCT01652703|164684260|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-45.3|STANDARD_ERROR_OF_MEAN|2.89|<|0.001|TWO_SIDED|95.0|-51.02|-39.58||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-39.58|-51.02|<0.001
82496134|NCT01652703|164684261|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-61.35|STANDARD_ERROR_OF_MEAN|2.93|<|0.001|TWO_SIDED|95.0|-67.14|-55.56||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-55.56|-67.14|<0.001
82496135|NCT01652703|164684261|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-47.53|STANDARD_ERROR_OF_MEAN|2.98|<|0.001|TWO_SIDED|95.0|-53.41|-41.65||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-41.65|-53.41|<0.001
82496136|NCT01652703|164684261|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-57.75|STANDARD_ERROR_OF_MEAN|3.03|<|0.001|TWO_SIDED|95.0|-63.73|-51.77||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-51.77|-63.73|<0.001
82496137|NCT01652703|164684261|SUPERIORITY_OR_OTHER||LS Mean Treatment Difference|-52.22|STANDARD_ERROR_OF_MEAN|3.06|<|0.001|TWO_SIDED|95.0|-58.27|-46.18||Testing based on a significance level of 0.05.|ANCOVA|The ANCOVA model included treatment group and stratification factor of screening LDL-C level.|Placebo is the reference|||-46.18|-58.27|<0.001
82496138|NCT00133952|164684278|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.63||||0.724|TWO_SIDED|95.0|0.15|2.67|||Fisher Exact|||||2.67|0.15|0.724
82496139|NCT00133952|164684279|SUPERIORITY_OR_OTHER||LS Mean difference|-3.3||||0.616|TWO_SIDED|95.0|-16.5|9.8|||Mixed models repeated measures|||||9.8|-16.5|0.616
82496140|NCT00133952|164684280|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.99||||0.971|TWO_SIDED|95.0|0.68|1.44|||Cochran-Mantel-Haenszel|||||1.44|0.68|0.971
82496141|NCT00133952|164684282|SUPERIORITY_OR_OTHER||LS Mean difference|0.5||||0.344|TWO_SIDED|95.0|-0.6|1.6|||Mixed models repeated measures|||||1.6|-0.6|0.344
82496142|NCT00133952|164684283|SUPERIORITY_OR_OTHER|||||||0.663||95.0|||||ANCOVA|||||||0.663
82496143|NCT00133952|164684284|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.68||||0.203|TWO_SIDED|95.0|0.37|1.23|||Cochran-Mantel-Haenszel|||||1.23|0.37|0.203
82496144|NCT00133952|164684286|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.16||||0.749|TWO_SIDED|95.0|0.46|2.92|||Cochran-Mantel-Haenszel|||||2.92|0.46|0.749
82496145|NCT01246401|164684309|SUPERIORITY|||||||0.431|||||||Welch's T Test|||||||0.431
82496146|NCT01246401|164684310|SUPERIORITY|||||||0.087|||||||Welch's T Test|||||||0.087
82496147|NCT01246401|164684312|SUPERIORITY|||||||0.03||||||Wilcoxon one sided|Wilcoxon (Mann-Whitney)|||||||0.03
82496148|NCT01246401|164684317|SUPERIORITY|||||||0.03962|||||||Chi-squared|||||||0.03962
82496149|NCT03462082|164684319|SUPERIORITY|||||||0.163||||||"Holm-adjusted P-Value: 0.326~\*Gait Velocity for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.163
82496150|NCT03462082|164684319|SUPERIORITY|||||||0.749||||||"Holm-adjusted P-Value: 0.749~\*Gait Velocity for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.749
82496151|NCT03462082|164684320|SUPERIORITY|||||||0.031||||||"Holm-adjusted P-Value: 0.155~\*MDS-UPDRS (total) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to report the changes associated with the 2 asymmetric conditions.||||0.031
82496152|NCT03462082|164684320|SUPERIORITY|||||||0.778||||||"Holm-adjusted P-Value: 0.902~\*MDS-UPDRS total for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to report the changes associated with the 2 asymmetric conditions.||||0.778
82496153|NCT03462082|164684320|SUPERIORITY|||||||0.039||||||"Holm-adjusted P-Value: 0.157~\*MDS-UPDRS (motor) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.039
82496154|NCT03462082|164684320|SUPERIORITY|||||||0.451||||||"Holm-adjusted P-Value: 0.902~\*MDS-UPDRS (motor) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.451
82496155|NCT03462082|164684320|SUPERIORITY|||||||0.111||||||"Holm-adjusted P-Value: 0.333~\*MDS-UPDRS (axial motor) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.111
82496156|NCT03462082|164684320|SUPERIORITY|||||||0.005||||||"Holm-adjusted P-Value: 0.030~\*MDS-UPDRS (axial motor) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.005
82496157|NCT03462082|164684321|SUPERIORITY|||||||0.984||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.984
82496158|NCT03462082|164684321|SUPERIORITY|||||||0.067||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.067
82496159|NCT03462082|164684322|SUPERIORITY|||||||0.44||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.440
82496160|NCT03462082|164684322|SUPERIORITY|||||||0.051||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.051
82496161|NCT03462082|164684323|SUPERIORITY|||||||0.945||||||Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.945
82496162|NCT03462082|164684323|SUPERIORITY|||||||0.024||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.024
82496163|NCT03462082|164684324|SUPERIORITY|||||||0.097||||||"Holm-adjusted P-Value: 1.00~\*Gait velocity for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.097
82496164|NCT03462082|164684324|SUPERIORITY|||||||0.75||||||"Holm-adjusted P-Value: 1.00~\*Gait velocity for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.750
82496165|NCT03462082|164684325|SUPERIORITY|||||||0.128||||||"Holm-adjusted P-Value: 1.00~\*Step length (mean) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.128
82496166|NCT03462082|164684325|SUPERIORITY|||||||0.117||||||"Holm-adjusted P-Value: 1.00~\*Step length (mean) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.117
82496167|NCT03462082|164684325|SUPERIORITY|||||||0.145||||||"Holm-adjusted P-Value: 1.00~\*Step length (right) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.145
82496168|NCT03462082|164684325|SUPERIORITY|||||||0.056||||||"Holm-adjusted P-Value: 1.00~\*Step length (right) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.056
82496169|NCT03462082|164684325|SUPERIORITY|||||||0.151||||||"Holm-adjusted P-Value: 1.00~\*Step length (left) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.151
82496170|NCT03462082|164684325|SUPERIORITY|||||||0.129||||||"Holm-adjusted P-Value: 1.00~\*Step length (left) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.129
82496171|NCT03462082|164684325|SUPERIORITY|||||||0.698||||||"Holm-adjusted P-Value: 1.00~\*Step length difference for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.698
82496172|NCT03462082|164684325|SUPERIORITY|||||||0.779||||||"Holm-adjusted P-Value: 1.00~\*Step length difference for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.779
82496173|NCT03462082|164684326|SUPERIORITY|||||||0.874||||||"Holm-adjusted P-Value: 1.00~\*Step length ratio for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.874
82496174|NCT03462082|164684326|SUPERIORITY|||||||0.976||||||"Holm-adjusted P-Value: 1.00~\*Step length ratio for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.976
82496175|NCT03462082|164684326|SUPERIORITY|||||||0.859||||||"Holm-adjusted P-Value: 1.00~\*Step length symmetry for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.859
82496176|NCT03462082|164684326|SUPERIORITY|||||||0.86||||||"Holm-adjusted P-Value: 1.00~\*Step length symmetry for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.860
82496177|NCT03462082|164684327|SUPERIORITY|||||||0.04||||||"Holm-adjusted P-Value: 0.480~\*Pitch (minimum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.040
82496178|NCT03462082|164684327|SUPERIORITY|||||||0.883||||||"Holm-adjusted P-Value: 1.00~\*Pitch (minimum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.883
82496179|NCT03462082|164684327|SUPERIORITY|||||||0.071||||||"Holm-adjusted P-Value: 0.781~\*Pitch (maximum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.071
82496180|NCT03462082|164684327|SUPERIORITY|||||||0.327||||||"Holm-adjusted P-Value: 1.00~\*Pitch (maximum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.327
82496181|NCT03462082|164684328|SUPERIORITY|||||||0.487||||||"Holm-adjusted P-Value: 1.00~\*Loudness (minimum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.487
82496182|NCT03462082|164684328|SUPERIORITY|||||||0.861||||||"Holm-adjusted P-Value: 1.00~\*Loudness (minimum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.861
82496183|NCT03462082|164684328|SUPERIORITY|||||||0.411||||||"Holm-adjusted P-Value: 1.00~\*Loudness (maximum) for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.411
82496184|NCT03462082|164684328|SUPERIORITY|||||||0.997||||||"Holm-adjusted P-Value: 1.00~\*Loudness (maximum) for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.997
82496185|NCT03462082|164684329|SUPERIORITY|||||||0.388||||||"Holm-adjusted P-Value: 1.00~\*Jitter for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.388
82496186|NCT03462082|164684329|SUPERIORITY|||||||0.684||||||"Holm-adjusted P-Value: 1.00~\*Jitter for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.684
82499123|NCT00482612|164689258|SUPERIORITY_OR_OTHER|||||||0.0135|||||||ANCOVA|Baseline SL was used as a covariate.||||||0.0135
82496187|NCT03462082|164684330|SUPERIORITY|||||||0.85||||||"Holm-adjusted P-Value: 1.00~\*Shimmer for Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.850
82496188|NCT03462082|164684330|SUPERIORITY|||||||0.712||||||"Holm-adjusted P-Value: 1.00~\*Shimmer for Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS"|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.712
82496189|NCT03462082|164684331|SUPERIORITY|||||||0.501|||||||Mixed Models Analysis|Asymmetric STN-DBS 1 (right STN-DBS reduced) vs. Bilateral STN-DBS||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.501
82496190|NCT03462082|164684331|SUPERIORITY|||||||0.216||||||Asymmetric STN-DBS 2 (left STN-DBS reduced) vs. Bilateral STN-DBS|Mixed Models Analysis|||Bilateral (baseline) values are the average of the outcome measure data obtained during the 2 bilateral (baseline) conditions: 1) at enrollment before randomization and 2) after randomization. These average values are used to compare the changes associated with the 2 asymmetric conditions.||||0.216
82496191|NCT03462082|164684332|SUPERIORITY||||||>|0.05||||||Non-adjusted P-Values were \>0.05 and Holm-adjusted P-Values were 1.00 for all comparisons, except for the Hopkins Verbal Learning Test-Revised: Delayed Recall. For this test, the non-adjusted P-Value was 0.04 and the Holm-adjusted P-Value was 0.44.|Friedman test|Using ranks for repeated measures (3 conditions)||||||>0.05
82496192|NCT00919724|164684333|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.99|STANDARD_ERROR_OF_MEAN|0.6||0.1||||||Comparison between HIV-infected and HIV-uninfected groups. Comparison adjusted for age, gender, race, height, and brachial artery baseline diameter.|Regression, Linear|||||||0.10
82496193|NCT00166114|164684334|SUPERIORITY_OR_OTHER|||||||0.918|||||||Chi-squared|||Chi Square test was performed comparing actual vs. expected non- and partial response or response to either escitalopram or desipramine treatment.||||.918
82496194|NCT02548650|164684363|NON_INFERIORITY|Under the null hypothesis that the mean aggregation between dual and triple therapy is not equal to 0 and a common standard deviation of 13%, a sample size of 28 patients per group with a valid primary end point time point allowed for the 95% confidence interval (CI) to stay within ± 10% with a 80% power and a two-sided alpha=0.05.|Mean Difference (Net)|12.0|||>|0.05|TWO_SIDED|95.0|3.0|21.0|||ANOVA|||The primary end point of our study was the comparison of CAT-induced MPA measured by LTA between triple (vorapaxar plus DAPT) and dual (vorapaxar plus clopidogrel) therapy. We hypothesized that dual therapy would be non-inferior to triple therapy after 30±5 days of treatment||21|3|>0.05
82496195|NCT02128113|164684374|SUPERIORITY||LS Mean difference (Net)|26.95||||0.4529|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension (pooled) - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension pooled (0.5% and 1.0%) versus Vehicle Ophthalmic Solution||||0.4529
82496196|NCT02128113|164684374|SUPERIORITY||LS Mean difference (Net)|64.31||||0.1276|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||||0.1276
82496197|NCT02128113|164684374|SUPERIORITY||LS Mean difference (Net)|-11.08||||0.7996|TWO_SIDED||||||ANCOVA|Missing data were imputed.|Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||||0.7996
82496198|NCT02128113|164684375|SUPERIORITY||Difference in proportion of patients|-13.55||||0.0647|TWO_SIDED|95.0|-26.75|-0.36|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||-0.36|-26.75|0.0647
82496199|NCT02128113|164684375|SUPERIORITY||Difference in proportion of patients|-15.15||||0.0517|TWO_SIDED|95.0|-28.34|-1.96|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||-1.96|-28.34|0.0517
82496200|NCT02128113|164684376|SUPERIORITY||Difference in proportion of patients|-0.11||||0.9258|TWO_SIDED|95.0|-8.91|8.68|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||8.68|-8.91|0.9258
82496201|NCT02128113|164684376|SUPERIORITY||Difference in proportion of patients|-3.03||||0.6547|TWO_SIDED|95.0|-12.27|6.21|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||6.21|-12.27|0.6547
82496202|NCT02128113|164684377|SUPERIORITY||Difference in proportion of patients|-13.56||||0.0657|TWO_SIDED|95.0|-26.84|-0.28|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||-0.28|-26.84|0.0657
82496203|NCT02128113|164684377|SUPERIORITY|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution|Difference in proportion of patients|-15.15||||0.0526|TWO_SIDED|95.0|-28.42|-1.88|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|||-1.88|-28.42|0.0526
82496204|NCT02128113|164684378|SUPERIORITY||Difference in proportion of patients|0.0||||0.8771|TWO_SIDED|95.0|-10.87|10.87|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 0.5% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||10.87|-10.87|0.8771
82496205|NCT02128113|164684378|SUPERIORITY||Difference in proportion of patients|1.35||||0.8248|TWO_SIDED|95.0|-9.32|12.02|||Cochran-Mantel-Haenszel||Difference is Omaveloxolone Ophthalmic Suspension 1.0% - Vehicle Ophthalmic Solution|Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||12.02|-9.32|0.8248
82496206|NCT02128113|164684379|SUPERIORITY||LS Mean difference (Net)|27.21||||0.4686|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension pooled (0.5% and 1.0%) versus Vehicle Ophthalmic Solution||||0.4686
82496207|NCT02128113|164684379|SUPERIORITY||LS Mean difference (Net)|49.99||||0.2636|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension 0.5% versus Vehicle Ophthalmic Solution||||0.2636
82496208|NCT02128113|164684379|SUPERIORITY||LS Mean difference (Net)|-1.74||||0.9691|TWO_SIDED||||||ANCOVA|Missing data were imputed.||Comparison of Omaveloxolone Ophthalmic Suspension 1.0% versus Vehicle Ophthalmic Solution||||0.9691
82496209|NCT00299104|164684380|SUPERIORITY_OR_OTHER|||||||0.0016||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Kruskal-Wallis|||Comparing all three treatment groups||||0.0016
82496210|NCT00299104|164684380|SUPERIORITY_OR_OTHER|||||||0.1824||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline rheumatoid factor (RF) status||||0.1824
82496211|NCT00299104|164684380|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||The Closure Principle was used to adjust for multiple comparisons.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.0004
82496212|NCT00299104|164684381|SUPERIORITY_OR_OTHER|||||||0.0004||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Kruskal-Wallis|||Comparing all three treatment groups||||0.0004
82496213|NCT00299104|164684381|SUPERIORITY_OR_OTHER|||||||0.1194||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.1194
82496214|NCT00299104|164684381|SUPERIORITY_OR_OTHER|||||||0.0001||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.0001
82496215|NCT00299104|164684382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.04||||0.3803||95.0|-0.05|0.13||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||0.13|-0.05|0.3803
82496216|NCT00299104|164684382|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1||||0.0309||95.0|0.01|0.18||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||0.18|0.01|0.0309
82496217|NCT00299104|164684383|SUPERIORITY_OR_OTHER|||||||0.3752||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||0.3752
82496218|NCT00299104|164684383|SUPERIORITY_OR_OTHER|||||||0.0081||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab (1.0 g x 2) + Methotrexate verus Placebo + Methotrexate, stratified for region and Baseline RF status.||||0.0081
82496219|NCT00299104|164684384|SUPERIORITY_OR_OTHER|||||||0.5939||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Kruskal-Wallis|||Comparing all three treatment groups.||||0.5939
82496220|NCT00299104|164684384|SUPERIORITY_OR_OTHER|||||||0.5478||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.5478
82496221|NCT00299104|164684384|SUPERIORITY_OR_OTHER|||||||0.3096||95.0||||The Closure Principle was used to adjust for multiple comparisons. This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||0.3096
82496222|NCT00299104|164684389|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||<0.0001
82496223|NCT00299104|164684389|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Cochran-Mantel-Haenszel|||Rituximab 2 x 1.0 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline RF status||||<0.0001
82496224|NCT00299104|164684399|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate stratified for region and RF status.||||<0.0001
82496225|NCT00299104|164684399|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (1.0 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
82496226|NCT00299104|164684405|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||This was a secondary endpoint in a hierarchical testing structure.|Van-Elteren|||Week 104: Rituximab 2 x 0.5 g + Methotrexate arm versus Placebo + Methotrexate, stratified for region and baseline rheumatoid factor (RF) status.||||<0.0001
82496227|NCT00299104|164684409|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (0.5 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
82496228|NCT00299104|164684409|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0||||Secondary endpoint in hierarchical testing structure.|ANOVA|||Rituximab (1.0 g x 2) + Methotrexate versus Placebo + Methotrexate, stratified for region and baseline RF status.||||<0.0001
82496229|NCT01539538|164684422|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin of - 15% for lower boundary of 95% confidence interval|difference in proportion|12.9|||<|0.001|TWO_SIDED|95.0|3.69|22.11|||one-sided, z-test|||||22.11|3.69|<0.001
82496230|NCT01539538|164684422|SUPERIORITY_OR_OTHER||Difference in proportion|12.9||||0.007|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.007
82496231|NCT02864498|164684484|SUPERIORITY|||||||0.557|||||||General Linear Model|||||||0.5570
82496232|NCT02864498|164684484|SUPERIORITY|||||||0.8774|||||||General Linear Model|||||||0.8774
82496233|NCT00378378|164684504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.258||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from basline||||0.258
82496234|NCT00378378|164684504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.735||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from baseline.||||0.735
82499124|NCT00482612|164689258|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline SL was used as a covariate.||||||<0.0001
82496235|NCT00378378|164684504|SUPERIORITY_OR_OTHER_LEGACY|||||||0.194||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for the change from baseline.||||0.194
82496236|NCT00378378|164684505|SUPERIORITY_OR_OTHER_LEGACY|||||||0.361||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint||||0.361
82496237|NCT00378378|164684505|SUPERIORITY_OR_OTHER_LEGACY|||||||0.603||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint.||||0.603
82496238|NCT00378378|164684505|SUPERIORITY_OR_OTHER_LEGACY|||||||0.193||95.0|||||ANOVA|||Pairwise comparison p-values were based on a two-way ANOVA for baseline to endpoint.||||0.193
82496239|NCT01049308|164684555|SUPERIORITY_OR_OTHER||percentage|57.6|||||TWO_SIDED|||||||||Descriptive data to describe prevalence of cognitive impairment in outpatient veterans with chronic heart failure||||
82496240|NCT03845985|164684557|SUPERIORITY|||||||0.838||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.838
82496241|NCT03845985|164684558|SUPERIORITY|||||||0.62||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.620
82496242|NCT03845985|164684559|SUPERIORITY|||||||0.713||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.713
82496243|NCT03845985|164684560|SUPERIORITY|||||||0.509||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.509
82496244|NCT03845985|164684561|SUPERIORITY|||||||0.491||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.491
82496245|NCT03845985|164684562|SUPERIORITY|||||||0.715||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.715
82496246|NCT03845985|164684563|SUPERIORITY|||||||0.665||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.665
82496247|NCT03845985|164684564|SUPERIORITY|||||||0.875||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.875
82496248|NCT03845985|164684565|SUPERIORITY|||||||0.61||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Risk and Aggression/Liquid Courage/Sociability Subscale||||.610
82496249|NCT03845985|164684565|SUPERIORITY|||||||0.658||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Self-Perception/Cognitive and Behavioral Impairment Subscale||||.658
82496250|NCT03845985|164684565|SUPERIORITY|||||||1||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Sexuality Subscale||||1.000
82496251|NCT03845985|164684565|SUPERIORITY|||||||0.007||||||Analysis was significantly underpowered.|t-test, 2 sided|||Comparison of the Tension Reduction Subscale||||.007
82496252|NCT03845985|164684566|SUPERIORITY|||||||0.407||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.407
82496253|NCT03845985|164684567|SUPERIORITY|||||||0.893||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.893
82496254|NCT03845985|164684568|SUPERIORITY|||||||0.709||||||Analysis was significantly underpowered.|t-test, 2 sided|||||||.709
82496255|NCT04974697|164684582|SUPERIORITY|The superiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 40 points for myope.|Least-square Mean|58.1|STANDARD_ERROR_OF_MEAN|3.37|||TWO_SIDED|95.0|50.9|65.4|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated using a 2-sided one sample means t-test with a family wise type I error rate of 5% and at least 80% statistical power, that 22 subjects were required to test superiority for myope.||65.4|50.9|
82496256|NCT04974697|164684582|SUPERIORITY|The superiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold 32 points for hyperope.|Least-square Mean|55.0|STANDARD_ERROR_OF_MEAN|3.7|||TWO_SIDED|95.0|47.2|62.8|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated using a 2-sided one sample means t-test with a family wise type I error rate of 5% and at least 80% statistical power, that 18 subjects were required to test superiority for hyperope.||62.8|47.2|
82496257|NCT04974697|164684583|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold 0.00 logMAR for Distance.|Least-square Mean|-0.129|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.167|-0.091|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 42 subjects were required to test superiority for distance (4m).||-0.091|-0.167|
82496258|NCT04974697|164684583|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Intermediate.|Least-square Mean|-0.046|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|-0.084|-0.008|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 7 subjects were required to test superiority for intermediate (64 cm).||-0.008|-0.084|
82496259|NCT04974697|164684583|SUPERIORITY|The superiority of the Test lens was concluded if the upper credible limit of the mean was below the pre-defined threshold +0.17 logMAR for Near.|Least-square Mean|0.067|STANDARD_ERROR_OF_MEAN|0.0166|||TWO_SIDED|95.0|0.029|0.105|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||It was calculated by using a 2-sided one sample mean t-test with a family wise type I error rate of 5% and at least 80% statistical power , 36 subjects were required to test superiority for near (40 cm).||0.105|0.029|
82496260|NCT04974697|164684584|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|8.4|STANDARD_ERROR_OF_MEAN|2.66|||TWO_SIDED|95.0|3.1|13.7|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||13.7|3.1|
82496261|NCT04974697|164684584|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|5.0|STANDARD_ERROR_OF_MEAN|3.12|||TWO_SIDED|95.0|-1.2|11.2|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||11.2|-1.2|
82496262|NCT04974697|164684585|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|6.9|STANDARD_ERROR_OF_MEAN|3.44|||TWO_SIDED|95.0|0.0|13.7|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||13.7|0.0|
82496263|NCT04974697|164684585|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|3.3|STANDARD_ERROR_OF_MEAN|4.03|||TWO_SIDED|95.0|-4.7|11.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||11.3|-4.7|
82496264|NCT04974697|164684586|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for myope.|Least-square Mean|11.2|STANDARD_ERROR_OF_MEAN|3.11|||TWO_SIDED|95.0|5.0|17.4|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||17.4|5.0|
82496265|NCT04974697|164684586|NON_INFERIORITY|The non-inferiority of the test lens was concluded if the lower credible limit of the mean was above the pre-defined threshold -5 points for hyperope.|Least-square Mean|10.0|STANDARD_ERROR_OF_MEAN|3.64|||TWO_SIDED|95.0|2.8|17.3|||Mixed Models Analysis|Linear mixed model using the Kenward and Roger method for the denominator degrees of freedom.||The study was only powered for the primary endpoint.||17.3|2.8|
82496266|NCT03302234|164684612|OTHER||Hazard Ratio (HR)|1.08||||0.74156|TWO_SIDED|95.0|0.85|1.37||One-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|Log Rank||Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|||1.37|0.85|0.74156
82496267|NCT03302234|164684613|OTHER||Hazard Ratio (HR)|1.06||||0.7172|TWO_SIDED|95.0|0.86|1.3|||Log Rank|One-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor history.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site and predominant tumor history.|||1.30|0.86|0.71720
82496268|NCT03302234|164684614|OTHER||Difference in percentage|-0.1||||0.50644|TWO_SIDED|95.0|-8.2|8.1|||Miettinen & Nurminen method|One-sided p-value for testing|Based on Miettinen \& Nurminen method stratified by ECOG, geographic region of the enrolling site and predominant tumor history.|||8.1|-8.2|0.50644
82496269|NCT03302234|164684616|OTHER||Hazard Ratio (HR)|0.9815||||0.9112|TWO_SIDED|95.0|0.7386|1.3042|||Log Rank|Two-sided p-value based on log-rank test stratified by ECOG, geographic region of the enrolling site, and predominant tumor histology.|Based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by ECOG, geographic region of the enrolling site, and predominant tumor histology.|||1.3042|0.7386|0.9112
82496270|NCT03302234|164684619|OTHER||Difference in LS Means|-0.42||||0.8151|TWO_SIDED|95.0|-3.96|3.12|||cLDA Model|Constrained longitudinal data analysis (cLDA) Model|Based on a cLDA model with PRO scores as response variable, with covariates for treatment by time interaction, and stratification factors (ECOG, geographic region of the enrolling site, \& predominant tumor histology) as covariates.|||3.12|-3.96|0.8151
82496271|NCT02795832|164684622|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|12.441||0.5016|TWO_SIDED|90.0|-21.24|21.34||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Observed case||21.34|-21.24|0.5016
82496272|NCT02795832|164684622|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-3.01|STANDARD_ERROR_OF_MEAN|12.964||0.4082|TWO_SIDED|90.0|-24.39|18.36||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Multiple imputations||18.36|-24.39|0.4082
82496273|NCT02795832|164684622|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-18.27|STANDARD_ERROR_OF_MEAN|13.138||0.0878|TWO_SIDED|90.0|-40.65|4.11||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Last observation carried forward||4.11|-40.65|0.0878
82496274|NCT02795832|164684622|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-37.6|STANDARD_ERROR_OF_MEAN|18.748||0.0275|TWO_SIDED|90.0|-69.53|-5.66||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Worst case imputation||-5.66|-69.53|0.0275
82496275|NCT02795832|164684623|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-11.72||||0.1284|TWO_SIDED|90.0|-28.85|5.51||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 5||5.51|-28.85|0.1284
82496276|NCT02795832|164684623|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-5.95||||0.2765|TWO_SIDED|90.0|-22.85|10.95||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 8||10.95|-22.85|0.2765
82496277|NCT02795832|164684623|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|-6.01||||0.2765|TWO_SIDED|90.0|-23.08|11.06||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< the placebo LS mean.|ANCOVA|||Day 10||11.06|-23.08|0.2765
82496278|NCT02795832|164684623|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Mean Difference (Net)|0.05||||0.5016|TWO_SIDED|90.0|-21.24|21.34|||ANCOVA|||Day 15||21.34|-21.24|0.5016
82496279|NCT02795832|164684624|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Odds Ratio (OR)|1.55||||0.4789|TWO_SIDED|90.0|0.28|10.75||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|ANCOVA|||EASI 50||10.75|0.28|0.4789
82496280|NCT02795832|164684624|SUPERIORITY|ANCOVA model was fitted with percent change from baseline to Week 2 in EASI score as the dependent variable. Explanatory variables fitted were: treatment group (ZPL-5212372, placebo) and baseline EASI score as a continuous variable.|Odds Ratio (OR)|2.0||||0.3|TWO_SIDED|90.0|0.24|999.0||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|ANCOVA|||EASI-75||999|0.24|0.3000
82496281|NCT02795832|164684625|SUPERIORITY||Odds Ratio (OR)|0.45||||0.5|TWO_SIDED|95.0|0.01|19.2||Results for the ZPL-5212372 and placebo groups are estimated adjusted LS means from the fitted model.|Shapiro-Wilkes test|The p-value tests if the residuals are normally distributed.||||19.20|0.01|0.500
82496282|NCT02795832|164684626|SUPERIORITY||Mean Difference (Net)|0.07|STANDARD_DEVIATION|1.22||0.5233|TWO_SIDED|90.0|-2.02|2.16|||Shapiro-Wilkes test|||||2.16|-2.02|0.5233
82496283|NCT02795832|164684627|SUPERIORITY||Odds Ratio (OR)|2.43||||0.2455|TWO_SIDED|95.0|0.45|13.26|||t-test, 1 sided|||||13.26|0.45|0.2455
82496284|NCT02795832|164684628|SUPERIORITY||Mean Difference (Net)|-2.66|STANDARD_ERROR_OF_MEAN|4.521||0.2812|TWO_SIDED|90.0|-10.4|5.09||The 1-sided p-value tests if the ZPL-5212372 LS mean is \< placebo LS mean.|Shapiro-Wilkes test|||||5.09|-10.40|0.2812
82496285|NCT01411774|164684700|SUPERIORITY|||||||0.95||||||p \< .05 was the threshold of significance.|Mixed Models Analysis|Analysis for the outcomes used linear mixed-effects models, with treatment group as the between-participant factor and time as the within group factor||||||.95
82496286|NCT00056316|164684703|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.93||||0.05||95.0|||||t-test, 2 sided||Mean difference is equal to Behavioral Skills Intervention minus Basic Education Control|||||.05
82496287|NCT00056316|164684704|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|2.07||||0.05||95.0|||||t-test, 2 sided||Mean difference is equal to Behavioral Skills Intervention minus Basic Education Control|||||.05
82496288|NCT02820753|164684705|SUPERIORITY||Mean Difference (Net)|0.26||||0.04|TWO_SIDED|95.0|0.01|0.51||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||Treatment difference = (Text or Portal) - Enhanced Usual Care|||0.51|0.01|0.04
82496289|NCT02820753|164684706|SUPERIORITY||Mean Difference (Net)|0.04||||0.53|TWO_SIDED|95.0|-0.08|0.15||The threshold for statistical significance was p \< 0.05.|Mixed Models Analysis||Treatment Difference = (Text or Portal - Enhanced Usual Care|||0.15|-0.08|0.53
82496290|NCT02820753|164684707|SUPERIORITY||Mean Difference (Net)|-0.34||||0.41|TWO_SIDED|95.0|-1.16|0.48||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment Difference = (Text or Portal) - Enhanced Usual Care|||0.48|-1.16|0.41
82496291|NCT02820753|164684708|SUPERIORITY||Mean Difference (Net)|1.83||||0.27|TWO_SIDED|95.0|-1.39|5.06||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment difference = (Text or Portal ) - Enhanced Usual Care|||5.06|-1.39|0.27
82496292|NCT02820753|164684709|SUPERIORITY||Mean Difference (Net)|-0.23||||0.33|TWO_SIDED|95.0|-0.68|0.23||The threshold for significance is p \< 0.05|Mixed Models Analysis||Treatment Difference = (Text or Portal) - Enhanced Usual Care|||0.23|-0.68|0.33
82496293|NCT04617509|164684710|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on Cmax ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric means|1.4514|||||TWO_SIDED|90.0|1.111|1.4514||||||Relative bioavailability (A versus B)||1.4514|1.1110|
82496294|NCT04617509|164684710|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on Cmax ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.5497|||||TWO_SIDED|90.0|0.3977|0.7597||||||Relative bioavailability (A FED versus A FASTED)||0.7597|0.3977|
82496295|NCT04617509|164684711|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on AUC0-inf ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|1.3441|||||TWO_SIDED|90.0|1.0953|1.6495||||||Relative bioavailability (A versus B)||1.6495|1.0953|
82496296|NCT04617509|164684711|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on AUC0-inf ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.7327|||||TWO_SIDED|90.0|0.591|0.9083||||||Relative bioavailability (A FED versus A FASTED)||0.9083|0.5910|
82496297|NCT04617509|164684712|SUPERIORITY|Relative bioavailability for Formulation A (FASTED) versus Formulation B (FASTED). The calculated relative bioavailability is based on AUC0-24h ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|1.371|||||TWO_SIDED|90.0|1.112|1.6904||||||Relative bioavailability (A versus B)||1.6904|1.1120|
82496298|NCT04617509|164684712|SUPERIORITY|Relative bioavailability for Formulation A (FED) versus Formulation A (FASTED). The calculated relative bioavailability is based on AUC0-24h ratio (ratio of geometric means) and is presented with 90% CI.|Ratio of geometric mean|0.7083|||||TWO_SIDED|90.0|0.5728|0.8759||||||Relative bioavailability (A FED versus A FASTED)||0.8759|0.5728|
82496299|NCT05048784|164684728|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for Cmax.|Ratio of geometric least squares means|1.009|||||TWO_SIDED|90.0|0.98|1.04|||||The geometric least squares mean ratios and confidence intervals (Cls) were obtained by taking the exponential of the corresponding differences and Cls on the natural-log (In) scale.|||1.040|0.980|
82496300|NCT05048784|164684729|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for AUClast.|Ratio of geometric least squares means|1.01|||||TWO_SIDED|90.0|0.967|1.055|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.055|0.967|
82496301|NCT05048784|164684730|OTHER|Statistical analysis was conducted to investigate the bioequivalence of treatment A (test 1) to treatment B (reference) for AUCinf.|Ratio of geometric least squares means|1.02|||||TWO_SIDED|90.0|0.977|1.065|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.065|0.977|
82496302|NCT05048784|164684732|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for Cmax.|Ratio of geometric least squares means|1.001|||||TWO_SIDED|90.0|0.836|1.199|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.199|0.836|
82496303|NCT05048784|164684733|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for AUClast.|Ratio of geometric least squares means|1.447|||||TWO_SIDED|90.0|1.2|1.745|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.745|1.200|
82496304|NCT05048784|164684734|OTHER|Statistical analysis was conducted to investigate the food effect of treatment C (test 2) to treatment A (test 1) for AUCinf.|Ratio of geometric least squares means|1.484|||||TWO_SIDED|90.0|1.236|1.783|||||The geometric least squares mean ratios and Cls were obtained by taking the exponential of the corresponding differences and Cls on the In scale.|||1.783|1.236|
82496305|NCT01603056|164684735|SUPERIORITY_OR_OTHER|||||||0.743|TWO_SIDED||||||t-test, 2 sided|||||||0.743
82496306|NCT01603056|164684736|SUPERIORITY_OR_OTHER|||||||0.627|TWO_SIDED||||||t-test, 2 sided|||||||0.627
82496307|NCT01603056|164684737|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED||||||t-test, 2 sided|||||||0.74
82496308|NCT01603056|164684738|SUPERIORITY_OR_OTHER|||||||0.641|TWO_SIDED||||||t-test, 2 sided|||||||0.641
82496309|NCT01603056|164684739|SUPERIORITY_OR_OTHER|||||||0.818|TWO_SIDED||||||t-test, 2 sided|||||||0.818
82496310|NCT01603056|164684740|SUPERIORITY_OR_OTHER|||||||0.391|TWO_SIDED||||||t-test, 2 sided|||||||0.391
82496311|NCT01603056|164684741|SUPERIORITY_OR_OTHER|||||||0.497|TWO_SIDED||||||t-test, 2 sided|||||||0.497
82496312|NCT01603056|164684742|SUPERIORITY_OR_OTHER|||||||0.222|TWO_SIDED||||||t-test, 2 sided|||||||0.222
82496313|NCT01603056|164684743|SUPERIORITY_OR_OTHER|||||||0.438|TWO_SIDED||||||Fisher Exact|||||||0.438
82496314|NCT01603056|164684744|SUPERIORITY_OR_OTHER|||||||0.465|TWO_SIDED||||||t-test, 2 sided|||||||0.465
82496315|NCT01603056|164684745|SUPERIORITY_OR_OTHER|||||||0.123|TWO_SIDED||||||t-test, 2 sided|||||||0.123
82496316|NCT01603056|164684746|SUPERIORITY_OR_OTHER|||||||0.719|TWO_SIDED||||||t-test, 2 sided|||||||0.719
82496317|NCT02270957|164684804|SUPERIORITY||||||>|0.999|||||||Chi-squared|||||||>0.999
82496318|NCT02270957|164684805|SUPERIORITY|||||||0.587|||||||Chi-squared|||||||0.587
82496319|NCT02270957|164684806|SUPERIORITY|||||||0.587|TWO_SIDED|95.0||||None of the endpoints were met in any pre-specified unbiased Full Analysis Set analysis|Chi-squared|||||||0.587
82496320|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.473|||||TWO_SIDED|95.0|-15.7096|26.6553|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 100 mg vs Placebo: Apolipoprotein A1||26.6553|-15.7096|
82496321|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.598|||||TWO_SIDED|95.0|-21.784|20.5888|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 300 mg vs Placebo: Apolipoprotein A1||20.5888|-21.7840|
82496322|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.906|||||TWO_SIDED|95.0|-9.3489|33.1602|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein A1||33.1602|-9.3489|
82496323|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.671|||||TWO_SIDED|95.0|-16.9957|24.3384|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + Ezetimibe 10 mg vs Placebo: Apolipoprotein A1||24.3384|-16.9957|
82496324|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.618|||||TWO_SIDED|95.0|-28.2069|37.4425|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 80 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein A1||37.4425|-28.2069|
82496325|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|7.713|||||TWO_SIDED|95.0|-17.0405|39.8527|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 100 mg vs Placebo: Apolipoprotein A1||39.8527|-17.0405|
82496326|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.934|||||TWO_SIDED|95.0|-21.0153|31.5504|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 300 mg vs Placebo: Apolipoprotein A1||31.5504|-21.0153|
82496327|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.466|||||TWO_SIDED|95.0|-23.7517|24.7608|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 800 mg vs Placebo: Apolipoprotein A1||24.7608|-23.7517|
82496328|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|13.743|||||TWO_SIDED|95.0|-3.246|33.7161|||||Statistical analysis was performed using LS mean value of Atorvastatin|Atorvastatin 10 mg + GSK1292263 100 mg vs Placebo: Apolipoprotein B100||33.7161|-3.2460|
82496329|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.428|||||TWO_SIDED|95.0|-21.3243|8.9224|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + GSK1292263 300 mg vs Placebo: Apolipoprotein B100||8.9224|-21.3243|
82496330|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.96|||||TWO_SIDED|95.0|-26.8137|1.1513|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein B100||1.1513|-26.8137|
82496331|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-2.903|||||TWO_SIDED|95.0|-16.6557|13.1191|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 10 mg + Ezetimibe 10 mg vs Placebo: Apolipoprotein B100||13.1191|-16.6557|
82496332|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.231|||||TWO_SIDED|95.0|-45.1045|-11.3579|||||Statistical analysis was performed using LS mean value Atorvastatin|Atorvastatin 80 mg + GSK1292263 800 mg vs Placebo: Apolipoprotein B100||-11.3579|-45.1045|
82496333|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.1|||||TWO_SIDED|95.0|-23.5021|11.3014|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 100 mg vs Placebo: Apolipoprotein B100||11.3014|-23.5021|
82496334|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.49|||||TWO_SIDED|95.0|-25.2721|8.2918|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 300 mg vs Placebo: Apolipoprotein B100||8.2918|-25.2721|
82496335|NCT01218204|164684855|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.687|||||TWO_SIDED|95.0|-26.0247|6.6498|||||Statistical analysis was performed using LS mean value of GSK1292263|GSK1292263 800 mg vs Placebo: Apolipoprotein B100||6.6498|-26.0247|
82496336|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-19.471|||||TWO_SIDED|95.0|-47.9323|3.202|||||Statistical analysis was performed using LS mean value Atorvastatin|||3.2020|-47.9323|
82496337|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-5.91|||||TWO_SIDED|95.0|-38.1027|25.3126|||||Statistical analysis was performed using LS mean value Atorvastatin|||25.3126|-38.1027|
82496338|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.985|||||TWO_SIDED|95.0|-45.5492|1.8605|||||Statistical analysis was performed using LS mean value Atorvastatin|||1.8605|-45.5492|
82496339|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.697|||||TWO_SIDED|95.0|-45.0846|13.3024|||||Statistical analysis was performed using LS mean value Atorvastatin|||13.3024|-45.0846|
82496340|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.036|||||TWO_SIDED|95.0|-27.2281|15.1569|||||Statistical analysis was performed using LS mean value of Atorvastatin|||15.1569|-27.2281|
82496341|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.198|||||TWO_SIDED|95.0|-24.2901|32.6057|||||Statistical analysis was performed using LS mean value of GSK1292263|||32.6057|-24.2901|
82496342|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.117|||||TWO_SIDED|95.0|-40.4767|1.906|||||Statistical analysis was performed using LS mean value of GSK1292263|||1.9060|-40.4767|
82496343|NCT01218204|164684856|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-32.798|||||TWO_SIDED|95.0|-48.3842|-12.5064|||||Statistical analysis was performed using LS mean value of GSK1292263|||-12.5064|-48.3842|
82496344|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|5.101|||||TWO_SIDED|95.0|-4.5469|14.7495|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||14.7495|-4.5469|
82496345|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|12.273|||||TWO_SIDED|95.0|2.5937|21.9532|||||Statistical analysis was performed using LS mean value of Atorvastatin|Fo HDLc||21.9532|2.5937|
82496346|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|28.833|||||TWO_SIDED|95.0|18.955|38.7102|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||38.7102|18.9550|
82496347|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.701|||||TWO_SIDED|95.0|-5.5562|12.9578|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||12.9578|-5.5562|
82496348|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.946|||||TWO_SIDED|95.0|8.612|33.281|||||Statistical analysis was performed using LS mean value of Atorvastatin|For HDLc||33.2810|8.6120|
82496349|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Median Difference (Net)|10.561|||||TWO_SIDED|95.0|-0.9675|22.0898|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||22.0898|-0.9675|
82496350|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|11.122|||||TWO_SIDED|95.0|-0.2902|22.5351|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||22.5351|-0.2902|
82496351|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|20.689|||||TWO_SIDED|95.0|9.7527|31.6262|||||Statistical analysis was performed using LS mean value of GSK1292263|For HDLc||31.6262|9.7527|
82496352|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-4.549|||||TWO_SIDED|95.0|-18.775|9.6768|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||9.6768|-18.7750|
82496353|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.337|||||TWO_SIDED|95.0|-24.4549|3.7803|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||3.7803|-24.4549|
82496354|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.317|||||TWO_SIDED|95.0|-36.0144|-6.619|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-6.6190|-36.0144|
82496355|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.173|||||TWO_SIDED|95.0|-34.271|-6.0755|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-6.0755|-34.2710|
82496356|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-25.472|||||TWO_SIDED|95.0|-49.3385|-8.1558|||||Statistical analysis was performed using LS mean value of Atorvastatin|For LDLc||-8.1558|-49.3385|
82496357|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.128|||||TWO_SIDED|95.0|-23.3049|-0.9514|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-0.9514|-23.3049|
82496358|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.798|||||TWO_SIDED|95.0|-27.1364|-4.4589|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-4.4589|-27.1364|
82496359|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.789|||||TWO_SIDED|95.0|-32.3413|-11.2372|||||Statistical analysis was performed using LS mean value of GSK1292263|For LDLc||-11.2372|-32.3413|
82496360|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.498|||||TWO_SIDED|95.0|-38.446|-2.4169|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-2.4169|-38.4460|
82496361|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-23.781|||||TWO_SIDED|95.0|-39.1603|-4.513|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-4.5130|-39.1603|
82496362|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-39.923|||||TWO_SIDED|95.0|-52.3394|-24.2717|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-24.2717|-52.3394|
82496363|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-17.444|||||TWO_SIDED|95.0|-33.502|2.491|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||2.4910|-33.5020|
82496364|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.781|||||TWO_SIDED|95.0|-40.296|-3.2667|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Triglycerides||-3.2667|-40.2960|
82496365|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.421|||||TWO_SIDED|95.0|-38.3519|-4.4911|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-4.4911|-38.3519|
82496366|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-46.361|||||TWO_SIDED|95.0|-63.465|-29.2561|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-29.2561|-63.4650|
82496367|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.843|||||TWO_SIDED|95.0|-70.7854|-38.9007|||||Statistical analysis was performed using LS mean value of GSK1292263|For Triglycerides||-38.9007|-70.7854|
82496368|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-9.756|||||TWO_SIDED|95.0|-21.7561|2.2448|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||2.2448|-21.7561|
82496369|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-14.014|||||TWO_SIDED|95.0|-25.7497|-2.2787|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-2.2787|-25.7497|
82496370|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-27.675|||||TWO_SIDED|95.0|-39.8454|-15.5045|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-15.5045|-39.8454|
82496371|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.937|||||TWO_SIDED|95.0|-32.6057|-9.269|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-9.2690|-32.6057|
82496372|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.702|||||TWO_SIDED|95.0|-29.0346|-14.3696|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Non-HDLc||-14.3696|-29.0346|
82496373|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-13.18|||||TWO_SIDED|95.0|-23.0636|-3.2961|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-3.2961|-23.0636|
82496374|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-22.151|||||TWO_SIDED|95.0|-31.942|-12.3605|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-12.3605|-31.9420|
82496375|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-26.948|||||TWO_SIDED|95.0|-36.2874|-17.6092|||||Statistical analysis was performed using LS mean value of GSK1292263|For Non-HDLc||-17.6092|-36.2874|
82496376|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-3.904|||||TWO_SIDED|95.0|-11.8484|4.04|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||4.0400|-11.8484|
82496377|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-6.437|||||TWO_SIDED|95.0|-14.346|1.4722|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||1.4722|-14.3460|
82496378|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-10.294|||||TWO_SIDED|95.0|-18.3923|-2.196|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-2.1960|-18.3923|
82496379|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.065|||||TWO_SIDED|95.0|-19.7688|-4.3609|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-4.3609|-19.7688|
82496380|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-7.941|||||TWO_SIDED|95.0|-13.9778|-1.9039|||||Statistical analysis was performed using LS mean value of Atorvastatin|For Cholesterol||-1.9039|-13.9778|
82496381|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-8.384|||||TWO_SIDED|95.0|-15.9023|-0.866|||||Statistical analysis was performed using LS mean value of GSK1292263|For Cholesterol||-0.8660|-15.9023|
82496382|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-15.7|||||TWO_SIDED|95.0|-23.1404|-8.2592|||||Statistical analysis was performed using LS mean value of GSK1292263|For Cholesterol||-8.2592|-23.1404|
82496383|NCT01218204|164684857|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-16.728|||||TWO_SIDED|95.0|-23.8395|-9.6161||||||For Cholesterol||-9.6161|-23.8395|
82496384|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-12.123|||||TWO_SIDED|95.0|-26.6276|2.3814|||||Statistical analysis was performed using LS mean value of Atorvastatin|||2.3814|-26.6276|
82496385|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.63|||||TWO_SIDED|95.0|-35.9419|-7.3181|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-7.3181|-35.9419|
82496386|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-41.506|||||TWO_SIDED|95.0|-56.3924|-26.6205|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-26.6205|-56.3924|
82496387|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-28.041|||||TWO_SIDED|95.0|-42.2554|-13.8263|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-13.8263|-42.2554|
82496388|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-29.293|||||TWO_SIDED|95.0|-51.5654|-12.4042|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-12.4042|-51.5654|
82496389|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-20.042|||||TWO_SIDED|95.0|-34.8358|-5.2472|||||Statistical analysis was performed using LS mean value of GSK1292263|||-5.2472|-34.8358|
82496390|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-21.903|||||TWO_SIDED|95.0|-36.6155|-7.1913|||||Statistical analysis was performed using LS mean value of GSK1292263|||-7.1913|-36.6155|
82496391|NCT01218204|164684858|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-35.735|||||TWO_SIDED|95.0|-49.722|-21.7485|||||Statistical analysis was performed using LS mean value of GSK1292263|||-21.7485|-49.7220|
82496392|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.409|||||TWO_SIDED|95.0|-1.0123|0.1942|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.1942|-1.0123|
82496393|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.296|||||TWO_SIDED|95.0|-0.9063|0.3141|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.3141|-0.9063|
82496394|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.811|||||TWO_SIDED|95.0|-1.4125|-0.2098|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-0.2098|-1.4125|
82496395|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.422|||||TWO_SIDED|95.0|-0.9831|0.1394|||||Statistical analysis was performed using LS mean value of Atorvastatin|||0.1394|-0.9831|
82496396|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.384|||||TWO_SIDED|95.0|-0.6009|-0.1669|||||Statistical analysis was performed using LS mean value of Atorvastatin|||-0.1669|-0.6009|
82496397|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.648|||||TWO_SIDED|95.0|-1.1657|-0.1302|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.1302|-1.1657|
82496398|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.782|||||TWO_SIDED|95.0|-1.2804|-0.2844|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.2844|-1.2804|
82496399|NCT01218204|164684859|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.884|||||TWO_SIDED|95.0|-1.3652|-0.4026|||||Statistical analysis was performed using LS mean value of GSK1292263|||-0.4026|-1.3652|
82496400|NCT02321800|164684868|NON_INFERIORITY|The margin of noninferiority was 20%. Noninferiority was concluded if the lower bound of a 2-sided 95% CI for the difference in response rates between the 2 treatment groups was greater than -20%. If the noninferiority inference based on the 20% margin was concluded successfully, noninferiority inference based on the 15% margin was performed.|Treatment Difference|18.58|||||TWO_SIDED|95.0|8.23|28.92||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||28.92|8.23|
82496401|NCT02321800|164684869|OTHER||Treatment Difference|0.66|||||TWO_SIDED|95.0|-6.48|7.79||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||7.79|-6.48|
82496402|NCT02321800|164684870|OTHER||Treatment Difference|0.72|||||TWO_SIDED|95.0|-3.48|4.92||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||4.92|-3.48|
82496403|NCT02321800|164684871|OTHER||Treatment Difference|15.31|||||TWO_SIDED|95.0|4.69|25.92||||||||25.92|4.69|
82496404|NCT02321800|164684872|OTHER||Treatment Difference|17.25|||||TWO_SIDED|95.0|6.92|27.58||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||27.58|6.92|
82496405|NCT02321800|164684873|OTHER||Treatment Difference|1.28|||||TWO_SIDED|95.0|-4.83|7.39||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||7.39|-4.83|
82496406|NCT02321800|164684874|OTHER||Treatment Difference|1.1|||||TWO_SIDED|95.0|-3.04|5.25||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||5.25|-3.04|
82496407|NCT02321800|164684875|OTHER||Treatment Difference|13.92|||||TWO_SIDED|95.0|3.21|24.63||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||24.63|3.21|
82496408|NCT02321800|164684880|OTHER||Treatment Difference|2.39|||||TWO_SIDED|95.0|-4.66|9.44||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||9.44|-4.66|
82496409|NCT02321800|164684881|OTHER||Treatment Difference|-0.26|||||TWO_SIDED|95.0|-6.57|6.05||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||6.05|-6.57|
82496410|NCT02321800|164684882|OTHER||Treatment Difference|-1.07|||||TWO_SIDED|95.0|-3.42|1.29||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||1.29|-3.42|
82496411|NCT02321800|164684883|OTHER||Treatment Difference|9.02|||||TWO_SIDED|95.0|-0.37|18.41||||||Adjusted estimates of the difference between the two treatment groups are based on a stratified analysis using Cochran-Mantel-Haenszel weights, with clinical diagnosis (complicated urinary tract infection with or without pyelonephritis vs acute uncomplicated pyelonephritis) as the stratification factor.||18.41|-0.37|
82496412|NCT01697566|164684964|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||Body Weight||||0.006
82496413|NCT01697566|164684964|SUPERIORITY||||||<|0.001|||||||t-test, 2 sided|||Fat Mass||||<0.001
82496414|NCT01697566|164684966|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||0.019
82496415|NCT00036270|164684974|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.118|TWO_SIDED|95.0|0.77|1.03|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|"Analysis at 2.75 years post-randomization. Null hypothesis: no difference in DFS between the two treatments for the first 2.75 years.~To maintain overall alpha of 0.05, 2 adjustments made: first, a nominal alpha of 0.0302 was used for the primary endpoint. Second, level of significant was 0.0012 for interim analysis."||1.03|0.77|0.118
82496416|NCT00036270|164684975|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.97||||0.604|TWO_SIDED|95.0|0.88|1.08|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|"Analysis at 5 years post-randomization. Null hypothesis: no difference in DFS between the two treatments for the first 5 years.~To maintain overall alpha of 0.05, a nominal alpha of 0.0302 was used."||1.08|0.88|0.604
82496417|NCT00036270|164684976|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.0||||0.951|TWO_SIDED|95.0|0.89|1.14|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|Analysis at 5 years post-randomization. Null hypothesis: no difference in OS between the two treatments for the first 5 years. Overall alpha of 0.05 was maintained.||1.14|0.89|0.951
82496418|NCT00036270|164684978|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.94||||0.293|TWO_SIDED|95.0|0.83|1.06|||Log Rank|Log rank (Mantel-Cox). Adjusted for overall stratification factor; 1 degree of freedom.|A hazard ratio less than 1 favors the test treatment (exemestane only arm).|Analysis at 5 years post-randomization. Null hypothesis: no difference in time to relapse between the two treatments for the first 5 years. Overall alpha of 0.05 was maintained.||1.06|0.83|0.293
82496419|NCT01370356|164684981|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.74|||<|0.0001|TWO_SIDED|95.0|6.09|12.53||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Assuming true CA rate of 6.9% for placebo and 17.2% for varenicline (odds ratio ≥ 2.8), a study randomizing 1404 participants (1:1 ratio) has ≥90% power to detect a difference between the two groups. Analysis was done using a logistic regression model; treatment effect as explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model including treatment-by-center interaction.||12.53|6.09|<0.0001
82496420|NCT01370356|164684982|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|5.66|||<|0.0001|TWO_SIDED|95.0|4.21|7.61||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||7.61|4.21|<0.0001
82496421|NCT01370356|164684983|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.02|||<|0.0001|TWO_SIDED|95.0|2.94|5.5||Statistical test was 2-sided and a 0.05 level of significance was used. A fixed-sequence procedure was used to adjust for multiplicity. Hierarchy of comparisons: 1) 10-week CA for Weeks 15 - 24, 2) CA for Weeks 21 - 24, 3) CA for Weeks 21 - 52.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||5.50|2.94|<0.0001
82496422|NCT01370356|164684984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|8.69|||<|0.0001|TWO_SIDED|95.0|6.03|12.51||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 12. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||12.51|6.03|<0.0001
82496423|NCT01370356|164684984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|4.58|||<|0.0001|TWO_SIDED|95.0|3.51|5.98||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 24. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||5.98|3.51|<0.0001
82496424|NCT01370356|164684984|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.66|||<|0.0001|TWO_SIDED|95.0|2.05|3.44||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Statistical analysis presented above is for Week 52. Analysis was done using logistic regression model with treatment effect as the explanatory variable and investigative center as covariate. The interaction effect was tested using an expanded logistic regression model with treatment-by-center interaction. The inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of treatment by center interaction.||3.44|2.05|<0.0001
82496425|NCT01370356|164684985|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|2.67|||<|0.0001|TWO_SIDED|95.0|2.05|3.47||Statistical test was 2-sided and a 0.05 level of significance was used.|Regression, Logistic|||Analysis was done using a logistic regression model including treatment effect as the explanatory variable and investigative center as covariate. In addition, the interaction effect was tested using an expanded logistic regression model including the treatment-by-center interaction. However, the inferences reported were based on the logistic regression model including only the main effects of treatment and center, regardless of the significance of the treatment by center interaction.||3.47|2.05|<0.0001
82496426|NCT01233258|164685027|SUPERIORITY_OR_OTHER|||||||0.0001||||||No multiplicity adjustment as only 1 primary endpoint.|ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation: Assumption 5 bleeds per year on prophylactic treatment, 15 on on-demand treatment; 2-sided alpha 5% and 90% power.||||0.0001
82496427|NCT01233258|164685028|SUPERIORITY_OR_OTHER|||||||0.0001||||||No multiplicity adjustment as this is not primary endpoint.|ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation not done for this comparison as not primary comparison.||||0.0001
82496428|NCT01233258|164685029|SUPERIORITY_OR_OTHER|||||||0.0001|||||||ANOVA|No adjustment, no transformation of data seemed to be necessary.||Null hypothesis: bleeding rates are equal, alternative hypothesis rates are unequal. Power calculation not done for this comparison as not primary comparison.||||0.0001
82496429|NCT01233258|164685030|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority margin 10%|Median Difference (Net)|-0.0001||||0.0001|ONE_SIDED|95.0|-0.049|||No multiplicity adjustment as not primary endpoint.|Exact Permutation Test for paired sample||Confidence interval calculated with exact Hodges- Lehmann estimates for CS/EP minus CS/ADJ|Null hypothesis: the proportion of bleeds controlled by no more than 2 infusions in the CS/EP group plus 10% is less than the proportion of bleeds controlled by no more than 2 infusions in the CS/ADJ group. Alternative hypothesis: the proportion of bleeds controlled by no more than 2 infusions in the CS/EP group plus 10% is greater than or equal to the proportion of bleeds controlled by no more than 2 infusions in the CS/ADJ group. No power calculation since this is not the primary comparison.|||-0.0490|0.0001
82496430|NCT02010775|164685062|OTHER||Least Squares Mean (LS) Mean Difference|-3.88|||<|0.001|TWO_SIDED|95.0|-5.58|-2.19|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-2.19|-5.58|< 0.001
82496431|NCT02010775|164685062|OTHER||LS Mean Difference|-6.32|||<|0.001|TWO_SIDED|95.0|-8.02|-4.62|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-4.62|-8.02|<0.001
82496432|NCT02010775|164685062|OTHER||LS Mean Difference|-6.89|||<|0.001|TWO_SIDED|95.0|-8.56|-5.22|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-5.22|-8.56|<0.001
82496433|NCT02010775|164685062|OTHER||LS Mean Difference|-7.68|||<|0.001|TWO_SIDED|95.0|-9.35|-6.0|||ANOVA|ANOVA model with treatment, and baseline MMPS grade as factors.||||-6.00|-9.35|<0.001
82496434|NCT02010775|164685063|OTHER||Percentage Difference|31.5||||0.008|TWO_SIDED|95.0|9.8|53.3|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using Cochran-Mantel-Haenszel (CMH) tests stratified by baseline MMPS.||||53.3|9.8|0.008
82496435|NCT02010775|164685063|OTHER||Percentage Difference|48.2|||<|0.001|TWO_SIDED|95.0|28.6|67.8|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||67.8|28.6|< 0.001
82496436|NCT02010775|164685063|OTHER||Percentage Difference|54.3|||<|0.001|TWO_SIDED|95.0|36.1|72.6|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||72.6|36.1|< 0.001
82496437|NCT02010775|164685063|OTHER||Percentage Difference|54.3|||<|0.001|TWO_SIDED|95.0|36.1|72.6|||Cochran-Mantel-Haenszel|P-values for between-treatment comparisons were determined using CMH tests stratified by baseline MMPS.||||72.6|36.1|<0.001
82496438|NCT00256750|164685064|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.7|||||TWO_SIDED|97.3|-1.1|9.0||||||||9.0|-1.1|
82496439|NCT00256750|164685064|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|2.7|||||TWO_SIDED|97.3|-2.5|8.1|||||If the lower bound of the CI (belatacept-CsA) was \> -10%, then the corresponding belatacept regimen was considered non-inferior to CsA.|||8.1|-2.5|
82496440|NCT00256750|164685065|SUPERIORITY_OR_OTHER||Difference in Percent|-23.7|||<|0.0001|TWO_SIDED|97.3|-33.3|-13.7|||Chi-squared, Corrected|A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine||||-13.7|-33.3|<.0001
82496441|NCT00256750|164685065|SUPERIORITY_OR_OTHER||Difference in Percent|-22.9|||<|0.0001|TWO_SIDED|97.3|-32.6|-12.9|||Chi-squared, Corrected|A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine||||-12.9|-32.6|<.0001
82496442|NCT00256750|164685066|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|10.0|||||TWO_SIDED|97.3|3.3|17.1|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||17.1|3.3|
82496443|NCT00256750|164685066|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens. The 20% non-inferiority margin was not met in the belatacept MI group.|Difference in Percent|14.7|||||TWO_SIDED|97.3|7.5|22.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||22.2|7.5|
82499125|NCT02057406|164689274|SUPERIORITY|The EPA/DHA arm versus placebo at Week 12.||||||0.74|||||||ANCOVA|||The model used post-treatment HAMD values as the dependent variable and included age, race, sex, treatment site, and the baseline HAMD value as covariates. This analysis was conducted under intention-to-treat (ITT) in which the missing HAMD endpoint values were imputed using 50 imputations.||||0.74
82496444|NCT00256750|164685067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|13.0|||<|0.0001|TWO_SIDED|97.3|7.3|18.7||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 12 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 12||18.7|7.3|<0.0001
82496445|NCT00256750|164685067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.6|||<|0.0001|TWO_SIDED|97.3|8.9|20.4||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 12 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 12||20.4|8.9|<0.0001
82496446|NCT00256750|164685067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|17.4|||<|0.0001|TWO_SIDED|97.3|11.5|23.4||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 24 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 24||23.4|11.5|<0.0001
82496447|NCT00256750|164685067|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|14.5|||<|0.0001|TWO_SIDED|97.3|8.5|20.5||To account for missing measured GFR due to graft loss or death, an ANOVA model on the ranks of measured GFR (with imputed missing values) at Months 24 with factor for randomization group was applied. Measured GFR missing were assigned the worst rank.|Kruskal-Wallis|Tests comparing a belatacept to CsA were based on the Kruskal-Wallis test (using a chi-square approximation of the distribution of the test statistic)|Test were conducted at a level of 0.027 (2-sided).|Time Frame = Day 1 to Month 24||20.5|8.5|<0.0001
82496448|NCT00256750|164685068|NON_INFERIORITY_OR_EQUIVALENCE|Test of superiority using DerSimonian-Laird statistic at 0.027 level of significance.|Difference in Percent|-8.5||||0.0581|TWO_SIDED|97.3|-17.9|0.9|||Chi-squared, Corrected|A continuity corrected chi-square test at a significance level of 0.027 was performed.||||0.9|-17.9|0.0581
82496449|NCT00256750|164685068|NON_INFERIORITY_OR_EQUIVALENCE|Test of superiority using DerSimonian-Laird statistic at 0.027 level of significance.|Difference in Percent|-14.2||||0.001|TWO_SIDED|97.3|-23.2|-5.0|||Chi-squared, Corrected|A continuity corrected chi-square test at a significance level of 0.027 was performed.||||-5.0|-23.2|0.0010
82496450|NCT00256750|164685073|SUPERIORITY_OR_OTHER||Difference in Percent|-8.5|||||TWO_SIDED|97.3|-14.6|-3.3|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Percent treatment difference measured as Belatacept - LI minus Cyclosporine||-3.3|-14.6|
82496451|NCT00256750|164685073|SUPERIORITY_OR_OTHER||Difference in Percent|-10.3|||||TWO_SIDED|97.3|-16.1|-5.1|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Percent treatment difference measured as Belatacept - LI minus Cyclosporine||-5.1|-16.1|
82496452|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|15.3|||||TWO_SIDED|97.3|10.3|20.3|||||ANOVA model: GFR = treatment|Month 12||20.3|10.3|
82496453|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|15.1|||||TWO_SIDED|97.3|10.1|20.1|||||ANOVA model: GFR = treatment|Month 12||20.1|10.1|
82496454|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|17.5|||||TWO_SIDED|97.3|12.0|23.1|||||ANOVA model: GFR = treatment|Month 24||23.1|12.0|
82496455|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|17.6|||||TWO_SIDED|97.3|12.0|23.3|||||ANOVA model: GFR = treatment|Month 24||23.3|12.0|
82496456|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|21.4|||||TWO_SIDED|97.3|15.4|27.4|||||ANOVA model: GFR = treatment|Month 36||27.4|15.4|
82496457|NCT00256750|164685077|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|20.8|||||TWO_SIDED|97.3|14.8|26.9|||||ANOVA model: GFR = treatment|Month 36||26.9|14.8|
82496458|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-5.7||||0.0687|TWO_SIDED|97.3|-12.6|0.5||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 12||0.5|-12.6|0.0687
82496459|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-2.8||||0.4825|TWO_SIDED|97.3|-10.2|4.4||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 12||4.4|-10.2|0.4825
82496460|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-5.1||||0.1267|TWO_SIDED|97.3|-12.3|1.5||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 24||1.5|-12.3|0.1267
82496461|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-2.2||||0.6405|TWO_SIDED|97.3|-9.8|5.4||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 24||5.4|-9.8|0.6405
82496462|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-4.6||||0.2043|TWO_SIDED|97.3|-12.0|2.5|||Chi-squared|Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.||Month 36||2.5|-12.0|0.2043
82496463|NCT00256750|164685079|SUPERIORITY_OR_OTHER||Difference in Percent|-0.9||||0.9481|TWO_SIDED|97.3|-8.8|7.1||Normal approximation is used if N\>=5 in both arms. Otherwise, exact method is used.|Chi-squared|||Month 36||7.1|-8.8|0.9481
82496464|NCT00256750|164685080|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.5||||0.0002|TWO_SIDED|97.3|0.31|0.74|||Chi-squared||Odds ratio is estimated by a cumulative logit model.|||0.74|0.31|0.0002
82496465|NCT00256750|164685080|SUPERIORITY_OR_OTHER||Odds Ratio, log|0.6||||0.0092|TWO_SIDED|97.3|0.38|0.92|||Chi-squared||Odds ratio is estimated by a cumulative logit model.|||0.92|0.38|0.0092
82496466|NCT00256750|164685081|SUPERIORITY_OR_OTHER||Difference in Percent|-21.2|||||TWO_SIDED|97.3|-67.6|43.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||43.2|-67.6|
82496467|NCT00256750|164685081|SUPERIORITY_OR_OTHER||Difference in Percent|-17.9|||||TWO_SIDED|97.3|-72.3|52.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||52.2|-72.3|
82496468|NCT00256750|164685082|SUPERIORITY_OR_OTHER||Difference in Percent|-1.13|||||TWO_SIDED|97.3|-7.51|5.23|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||5.23|-7.51|
82496469|NCT00256750|164685082|SUPERIORITY_OR_OTHER||Difference in Percent|-2.37|||||TWO_SIDED|97.3|-9.01|4.15|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 12||4.15|-9.01|
82496470|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-7.3|||||TWO_SIDED|97.3|-11.4|-3.3||||||Systolic, Month 12||-3.3|-11.4|
82496471|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-6.0|||||TWO_SIDED|97.3|-10.1|-2.0||||||Systolic, Month 12||-2.0|-10.1|
82496472|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-3.2|||||TWO_SIDED|97.3|-5.8|-0.7||||||Diastolic, Month 12||-0.7|-5.8|
82496473|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.6|||||TWO_SIDED|97.3|-5.1|0.0||||||Diastolic, Month 12||0.0|-5.1|
82496474|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-4.9|||||TWO_SIDED|97.3|-9.2|-0.6||||||Systolic, Month 24||-0.6|-9.2|
82496475|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-5.5|||||TWO_SIDED|97.3|-9.9|-1.1||||||Systolic, Month 24||-1.1|-9.9|
82496476|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-1.9|||||TWO_SIDED|97.3|-4.4|0.5||||||Diastolic, Month 24||0.5|-4.4|
82496477|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.4|||||TWO_SIDED|97.3|-5.0|0.1||||||Diastolic, Month 24||0.1|-5.0|
82496478|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-5.8|||||TWO_SIDED|97.3|-10.0|-1.6||||||Systolic, Month 36||-1.6|-10.0|
82496479|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-7.5|||||TWO_SIDED|97.3|-11.7|-3.3||||||Systolic, Month 36||-3.3|-11.7|
82496480|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-2.9|||||TWO_SIDED|97.3|-5.4|-0.4||||||Diastolic, Month 36||-0.4|-5.4|
82496481|NCT00256750|164685083|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-3.4|||||TWO_SIDED|97.3|-6.0|-0.9||||||Diastolic, Month 36||-0.9|-6.0|
82496482|NCT00256750|164685084|SUPERIORITY_OR_OTHER||Difference in Percent|7.1|||||TWO_SIDED|97.3|-2.9|17.1|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|At Month 12||17.1|-2.9|
82496483|NCT00256750|164685084|SUPERIORITY_OR_OTHER||Difference in Percent|3.2|||||TWO_SIDED|97.3|-6.6|12.9|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|At Month 12||12.9|-6.6|
82496484|NCT00256750|164685085|SUPERIORITY_OR_OTHER||Difference in Percent|7.01|||||TWO_SIDED|97.3|-2.79|16.71|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|||16.71|-2.79|
82496485|NCT00256750|164685085|SUPERIORITY_OR_OTHER||Difference in Percent|3.77|||||TWO_SIDED|97.3|-5.86|13.35|||||A continuity-corrected Chi-square test at significance level 0.027 was performed for the difference between the belatacept regimen and cyclosporine|||13.35|-5.86|
82496486|NCT00256750|164685090|SUPERIORITY_OR_OTHER||Difference in Percent|-10.4|||||TWO_SIDED|97.3|-21.4|1.0||||||||1.0|-21.4|
82496487|NCT00256750|164685090|SUPERIORITY_OR_OTHER||Difference in Percent|-8.7|||||TWO_SIDED|97.3|-19.9|2.7||||||||2.7|-19.9|
82496488|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|11.4|||||TWO_SIDED|97.3|5.0|18.2|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 6||18.2|5.0|
82496489|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens|Difference in Percent|16.5|||||TWO_SIDED|97.3|9.6|23.8|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 6||23.8|9.6|
82496490|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|8.2|||||TWO_SIDED|97.3|1.2|15.4|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used|Month 24||15.4|1.2|
82496491|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|15.2|||||TWO_SIDED|97.3|7.5|23.0|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 24||23.0|7.5|
82496492|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|7.8|||||TWO_SIDED|97.3|0.6|15.0|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 36||15.0|0.6|
82496493|NCT00256750|164685092|NON_INFERIORITY_OR_EQUIVALENCE|A 20% margin for non-inferiority was used and provides 99% power to ascertain that the upper bound of the 97.3% 2-sided confidence intervals for the absolute difference between each belatacept regimen and cyclosporine, assuming the true acute rejection rate by 12 months is 15% for all three regimens.|Difference in Percent|14.7|||||TWO_SIDED|97.3|7.0|22.6|||||For 97.3% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|Month 36||22.6|7.0|
82496494|NCT00256750|164685094|SUPERIORITY_OR_OTHER||Difference in Percent|-3.2|||||TWO_SIDED|95.0|-6.6|-0.6|||||For 95% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||-0.6|-6.6|
82496495|NCT00256750|164685094|SUPERIORITY_OR_OTHER||Difference in Percent|-3.2|||||TWO_SIDED|95.0|-6.6|-0.6|||||For 95% CI of difference, normal approximation is used if N\>=5 in both arms. Otherwise exact method is used.|||-0.6|-6.6|
82496496|NCT00256750|164685098|SUPERIORITY_OR_OTHER||Difference in Percent|-0.5|||||TWO_SIDED|97.3|-6.5|5.3||||||Month 12||5.3|-6.5|
82496497|NCT00256750|164685098|SUPERIORITY_OR_OTHER||Difference in Percent|-0.9|||||TWO_SIDED|97.3|-6.9|4.8||||||||4.8|-6.9|
82496498|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6573|TWO_SIDED|95.0|-1.6|2.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||2.6|-1.6|0.6573
82496499|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.1198|TWO_SIDED|95.0|-0.4|3.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||3.9|-0.4|0.1198
82496500|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.0672|TWO_SIDED|95.0|-0.1|3.2||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.2|-0.1|0.0672
82496501|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0257|TWO_SIDED|95.0|0.2|3.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.6|0.2|0.0257
82496502|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4146|TWO_SIDED|95.0|-1.2|2.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.9|-1.2|0.4146
82496503|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.7327|TWO_SIDED|95.0|-1.7|2.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.4|-1.7|0.7327
82496504|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0144|TWO_SIDED|95.0|0.4|3.8||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.8|0.4|0.0144
82496505|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.8||||0.0015|TWO_SIDED|95.0|1.1|4.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||4.5|1.1|0.0015
82496506|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.234|TWO_SIDED|95.0|-0.8|3.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||3.4|-0.8|0.2340
82496507|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6635|TWO_SIDED|95.0|-1.7|2.6||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||2.6|-1.7|0.6635
82496508|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.8||||0.0417|TWO_SIDED|95.0|0.1|3.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.5|0.1|0.0417
82496509|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.7||||0.0026|TWO_SIDED|95.0|0.9|4.4||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||4.4|0.9|0.0026
82496510|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0953|TWO_SIDED|95.0|-0.3|4.1||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.1|-0.3|0.0953
82496511|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1961|TWO_SIDED|95.0|-0.8|3.7||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||3.7|-0.8|0.1961
82496512|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0191|TWO_SIDED|95.0|0.3|3.9||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.9|0.3|0.0191
82496513|NCT00256750|164685100|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0684|TWO_SIDED|95.0|-0.1|3.5||Baseline observations were not used for imputations at subsequent time points.|ANOVA|ANOVA model: Component Score = treatment. Missing values were imputed using last observation carried forward (LOCF) method.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.5|-0.1|0.0684
82496514|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0714|TWO_SIDED|95.0|-0.2|3.9|||ANOVA|Domain Score = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 6||3.9|-0.2|0.0714
82496515|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0536|TWO_SIDED|95.0|0.0|4.1|||ANOVA|Domain score = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 6||4.1|-0.0|0.0536
82496516|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.3||||0.7543|TWO_SIDED|95.0|-1.6|2.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 6||2.2|-1.6|0.7543
82496517|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.1||||0.2499|TWO_SIDED|95.0|-0.8|3.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 6||3.0|-0.8|0.2499
82496518|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.2||||0.8332|TWO_SIDED|95.0|-1.9|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 6||2.3|-1.9|0.8332
82496519|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2523|TWO_SIDED|95.0|-0.9|3.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 6||3.4|-0.9|0.2523
82496520|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.9||||0.3018|TWO_SIDED|95.0|-0.8|2.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 6||2.7|-0.8|0.3018
82496521|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.6||||0.5437|TWO_SIDED|95.0|-1.2|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 6||2.3|-1.2|0.5437
82496522|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.237|TWO_SIDED|95.0|-0.9|3.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 6||3.6|-0.9|0.2370
82496523|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0588|TWO_SIDED|95.0|-0.1|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 6||4.5|-0.1|0.0588
82496524|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0502|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Physical, Month 6||4.0|-0.0|0.0502
82496525|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|3.6||||0.0007|TWO_SIDED|95.0|1.5|5.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 6||5.6|1.5|0.0007
82496526|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.3||||0.7637|TWO_SIDED|95.0|-1.8|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 6||2.4|-1.8|0.7637
82496527|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.7006|TWO_SIDED|95.0|-1.7|2.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 6||2.5|-1.7|0.7006
82496528|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1222|TWO_SIDED|95.0|-0.4|3.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 6||3.4|-0.4|0.1222
82496529|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0289|TWO_SIDED|95.0|0.2|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 6||4.1|0.2|0.0289
82496530|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0571|TWO_SIDED|95.0|-0.1|3.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 12||3.8|-0.1|0.0571
82496531|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.9||||0.0042|TWO_SIDED|95.0|0.9|4.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 12||4.9|0.9|0.0042
82496532|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0423|TWO_SIDED|95.0|0.1|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 12||3.7|0.1|0.0423
82496533|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0174|TWO_SIDED|95.0|0.4|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 12||4.1|0.4|0.0174
82496534|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.363|TWO_SIDED|95.0|-1.1|3.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 12||3.0|-1.1|0.3630
82496535|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6319|TWO_SIDED|95.0|-1.6|2.6|||ANOVA|Missing data were imputed by LOCF|Missing data were imputed by LOCF|Mental Health, Month 12||2.6|-1.6|0.6319
82496536|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.8||||0.0503|TWO_SIDED|95.0|0.0|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 12||3.7|-0.0|0.0503
82496537|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.9||||0.3291|TWO_SIDED|95.0|-0.9|2.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 12||2.8|-0.9|0.3291
82496538|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.386|TWO_SIDED|95.0|-1.2|3.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 12||3.1|-1.2|0.3860
82496539|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.0||||0.9672|TWO_SIDED|95.0|-2.2|2.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 12||2.3|-2.2|0.9672
82496540|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0392|TWO_SIDED|95.0|0.1|4.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 12||4.1|0.1|0.0392
82496541|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0151|TWO_SIDED|95.0|0.5|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 12||4.5|0.5|0.0151
82496542|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.3978|TWO_SIDED|95.0|-1.1|2.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 12||2.7|-1.1|0.3978
82496543|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1263|TWO_SIDED|95.0|-0.4|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 12||3.5|-0.4|0.1263
82496544|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.016|TWO_SIDED|95.0|0.4|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 12||4.2|0.4|0.0160
82496545|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.6||||0.0075|TWO_SIDED|95.0|0.7|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 12||4.5|0.7|0.0075
82496546|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.699|TWO_SIDED|95.0|-1.6|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 24||2.4|-1.6|0.6990
82496547|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1608|TWO_SIDED|95.0|-0.6|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 24||3.5|-0.6|0.1608
82496548|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0214|TWO_SIDED|95.0|0.3|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 24||4.0|0.3|0.0214
82496549|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.00886|TWO_SIDED|95.0|0.6|4.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 24||4.4|0.6|0.00886
82496550|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.2||||0.2555|TWO_SIDED|95.0|-0.9|3.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 24||3.3|-0.9|0.2555
82496551|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4804|TWO_SIDED|95.0|-1.4|2.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 24||2.9|-1.4|0.4804
82496552|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0276|TWO_SIDED|95.0|0.2|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 24||4.2|0.2|0.0276
82496553|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1285|TWO_SIDED|95.0|-0.4|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 24||3.5|-0.4|0.1285
82496554|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.1352|TWO_SIDED|95.0|-0.5|3.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 24||3.9|-0.5|0.1352
82496555|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2663|TWO_SIDED|95.0|-1.0|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 24||3.5|-1.0|0.2663
82496556|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0164|TWO_SIDED|95.0|0.5|4.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 24||4.5|0.5|0.0164
82496557|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|3.9||||0.0002|TWO_SIDED|95.0|1.9|5.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 24||5.9|1.9|0.0002
82496558|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1914|TWO_SIDED|95.0|-0.7|3.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 24||3.3|-0.7|0.1914
82496559|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.4||||0.6882|TWO_SIDED|95.0|-1.6|2.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 24||2.4|-1.6|0.6882
82496560|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.0547|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 24||4.0|-0.0|0.0547
82496561|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0992|TWO_SIDED|95.0|-0.3|3.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 24||3.8|-0.3|0.0992
82496562|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0339|TWO_SIDED|95.0|0.2|4.4|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 36||4.4|0.2|0.0339
82496563|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.3572|TWO_SIDED|95.0|-1.1|3.1|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Bodily Pain, Month 36||3.1|-1.1|0.3572
82496564|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.3||||0.0211|TWO_SIDED|95.0|0.3|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 36||4.2|0.3|0.0211
82496565|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.0||||0.045|TWO_SIDED|95.0|0.0|4.0|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|General Health, Month 36||4.0|0.0|0.0450
82496566|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.171|TWO_SIDED|95.0|-0.7|3.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 36||3.7|-0.7|0.1710
82496567|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.2484|TWO_SIDED|95.0|-0.9|3.6|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Mental Health, Month 36||3.6|-0.9|0.2484
82496568|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1836|TWO_SIDED|95.0|-0.6|3.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 36||3.2|-0.6|0.1836
82496569|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.0||||0.3303|TWO_SIDED|95.0|-1.0|2.9|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Physical Functioning, Month 36||2.9|-1.0|0.3303
82496570|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0299|TWO_SIDED|95.0|0.2|4.8|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 36||4.8|0.2|0.0299
82496571|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.1141|TWO_SIDED|95.0|-0.4|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role Emotional, Month 36||4.2|-0.4|0.1141
82496572|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.7||||0.0087|TWO_SIDED|95.0|0.7|4.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 36||4.7|0.7|0.0087
82496573|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.6||||0.0128|TWO_SIDED|95.0|0.6|4.7|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Role-Physical, Month 36||4.7|0.6|0.0128
82496574|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.5||||0.1369|TWO_SIDED|95.0|-0.5|3.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 36||3.5|-0.5|0.1369
82496575|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.5||||0.6331|TWO_SIDED|95.0|-1.5|2.5|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Social Functioning, Month 36||2.5|-1.5|0.6331
82496576|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0361|TWO_SIDED|95.0|0.1|4.3|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 36||4.3|0.1|0.0361
82496577|NCT00256750|164685101|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.1||||0.0525|TWO_SIDED|95.0|0.0|4.2|||ANOVA|Missing data = treatment|Missing data were imputed by LOCF|Vitality, Month 36||4.2|-0.0|0.0525
82496578|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.024|||<|0.0001|TWO_SIDED|95.0|-0.032|-0.015||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 6. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.015|-0.032|<0.0001
82496579|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.019|||<|0.0001|TWO_SIDED|95.0|-0.028|-0.011||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 6. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.011|-0.028|<0.0001
82496580|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.023|||<|0.0001|TWO_SIDED|95.0|-0.031|-0.014||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 6.||-0.014|-0.031|<0.0001
82496581|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.026|||<|0.0001|TWO_SIDED|95.0|-0.035|-0.017||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 6.||-0.017|-0.035|<0.0001
82496582|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.024|||<|0.0001|TWO_SIDED|95.0|-0.032|-0.016||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 12. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.016|-0.032|<0.0001
82496583|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.02|||<|0.0001|TWO_SIDED|95.0|-0.029|-0.012||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 12. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.012|-0.029|<0.0001
82496584|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.026|||<|0.0001|TWO_SIDED|95.0|-0.034|-0.017||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 12.||-0.017|-0.034|<0.0001
82496585|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.025|||<|0.0001|TWO_SIDED|95.0|-0.034|-0.016||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 12.||-0.016|-0.034|<0.0001
82496586|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.021|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.013||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 24. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.013|-0.030|<0.0001
82496587|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.015|||<|0.0001|TWO_SIDED|95.0|-0.024|-0.007||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Distress, Month 24. For calculation of symptom distress, those symptoms that never occurred will be converted to missing values, in order to avoid anticipatory symptom distress.||-0.007|-0.024|<0.0001
82496588|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.023|||<|0.0001|TWO_SIDED|95.0|-0.031|-0.015||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 24||-0.015|-0.031|<0.0001
82496589|NCT00256750|164685102|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|-0.021|||<|0.0001|TWO_SIDED|95.0|-0.03|-0.013||Missing data were imputed by LOCF. The ridit of the reference group is by definition 0.5.|z-test|The obtained ridits between treatment groups will be compared using z-test at 0.05 significance level for each year.||Symptom Occurrence, Month 24||-0.013|-0.030|<0.0001
82496590|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4498|TWO_SIDED|95.0|-1.2|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||2.7|-1.2|0.4498
82496591|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0584|TWO_SIDED|95.0|-0.1|3.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 6||3.9|-0.1|0.0584
82496592|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.1||||0.1595|TWO_SIDED|95.0|-0.5|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||2.7|-0.5|0.1595
82496593|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.7||||0.0457|TWO_SIDED|95.0|0.0|3.3|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 6||3.3|0.0|0.0457
82496594|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.3||||0.1729|TWO_SIDED|95.0|-0.6|3.2|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||3.2|-0.6|0.1729
82496595|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4209|TWO_SIDED|95.0|-1.1|2.7|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 12||2.7|-1.1|0.4209
82496596|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.6||||0.0526|TWO_SIDED|95.0|0.0|3.2|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.2|-0.0|0.0526
82496597|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0077|TWO_SIDED|95.0|0.6|3.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 12||3.9|0.6|0.0077
82496598|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.4||||0.1849|TWO_SIDED|95.0|-0.6|3.4|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||3.4|-0.6|0.1849
82496599|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|0.8||||0.4633|TWO_SIDED|95.0|-1.3|2.8|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 24||2.8|-1.3|0.4633
82496600|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.4||||0.0971|TWO_SIDED|95.0|-0.3|3.0|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.0|-0.3|0.0971
82496601|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.2||||0.0102|TWO_SIDED|95.0|0.5|3.8|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 24||3.8|0.5|0.0102
82496602|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|2.5||||0.0186|TWO_SIDED|95.0|0.4|4.5|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.5|0.4|0.0186
82496603|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.9||||0.0775|TWO_SIDED|95.0|-0.2|4.0|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Mental Component Score; Month 36||4.0|-0.2|0.0775
82496604|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.6||||0.0768|TWO_SIDED|95.0|-0.2|3.3|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||3.3|-0.2|0.0768
82496605|NCT00256750|164685103|SUPERIORITY_OR_OTHER||Mean Difference (Final Value)|1.2||||0.1876|TWO_SIDED|95.0|-0.6|2.9|||ANCOVA|Adjusted mean based on an ANCOVA model with treatment as factor, and baseline value as covariate.|Statistical tests comparing each belatacept regimen to the CsA regimen were conducted at a significance level of 0.05. Subjects with only baseline observations were excluded from these summaries.|Physical Component Score; Month 36||2.9|-0.6|0.1876
82496606|NCT00256750|164685105|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|4.2|||||TWO_SIDED|97.3|-1.3|10.1||||||Month 24||10.1|-1.3|
82496607|NCT00256750|164685105|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.6|||||TWO_SIDED|97.3|-2.2|9.6||||||Month 24||9.6|-2.2|
82496608|NCT00256750|164685105|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.3|||||TWO_SIDED|97.3|-2.9|9.8||||||Month 36||9.8|-2.9|
82496609|NCT00256750|164685105|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 10% for the co-primary endpoint of participant and graft survival was used. Determination of a margin for non-inferiority based on 'preservation of benefit' is not feasible, given the low rate of patient death and/or graft loss in the first year post-transplantation, and the absence of published, adequately sized, parallel-group trials with which to assess the effect of CsA on patient death and/or graft loss in the setting of MMF/steroids/basiliximab.|Difference in Percent|3.5|||||TWO_SIDED|97.3|-2.8|10.0||||||||10.0|-2.8|
82496610|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|5.9|||||TWO_SIDED|95.0|-1.0|12.8||||||Month 12||12.8|-1.0|
82496611|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|11.5|||||TWO_SIDED|95.0|4.2|18.9||||||Month 12||18.9|4.2|
82496612|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|1.8|||||TWO_SIDED|95.0|-5.5|9.1||||||Month 24||9.1|-5.5|
82496613|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|9.8|||||TWO_SIDED|95.0|1.9|17.6||||||Month 24||17.6|1.9|
82496614|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|0.9|||||TWO_SIDED|95.0|-6.6|8.4||||||Month 36||8.4|-6.6|
82496615|NCT00256750|164685106|SUPERIORITY_OR_OTHER||Difference in Percent|8.4|||||TWO_SIDED|95.0|0.4|16.4||||||Month 36||16.4|0.4|
82496616|NCT04659161|164685107|SUPERIORITY||LS mean difference|-9.6|||<|0.0001|TWO_SIDED|95.0|-13.9|-5.2|||Mixed Model for Repeated Measures||||Statistics are from a mixed model for repeated measures (MMRM). The model includes the treatment group (KarXT or placebo), visit, and the interaction between the treatment group and visit as fixed factors, and baseline PANSS total score, site, age, and gender as covariates. An unstructured covariance matrix is used to model the correlation among repeated measurements and the denominator degrees of freedom are computed using the Kenward-Roger method.|-5.2|-13.9|<0.0001
82496617|NCT04659161|164685108|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
82496618|NCT04659161|164685109|SUPERIORITY|||||||0.0055|||||||Mixed Model Repeated Measures|||||||0.0055
82496619|NCT04659161|164685110|SUPERIORITY|||||||0.0022|||||||Mixed Model for Repeated Measures|||||||0.0022
82496620|NCT04659161|164685111|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
82496621|NCT04659161|164685112|SUPERIORITY||||||<|0.0001|||||||Mixed Model for Repeated Measures|||||||<0.0001
82496622|NCT02197130|164685116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.192||0.2033|TWO_SIDED|90.0|-0.45|3.49|||MMRM|MMRM: A linear mixed-effect repeated measures model||||3.49|-0.45|0.2033
82496623|NCT02197130|164685116|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.35|STANDARD_ERROR_OF_MEAN|1.118||0.7549|TWO_SIDED|90.0|-2.2|1.5|||MMRM|||||1.50|-2.20|0.7549
82496624|NCT02197130|164685128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.54|STANDARD_ERROR_OF_MEAN|0.515||0.003|TWO_SIDED|90.0|0.69|2.39|||MMRM|||Week 13||2.39|0.69|0.0030
82496625|NCT02197130|164685128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.36|STANDARD_ERROR_OF_MEAN|0.491||0.4656|TWO_SIDED|90.0|-0.45|1.17|||MMRM|||Week 13||1.17|-0.45|0.4656
82496626|NCT02197130|164685128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|1.21|STANDARD_ERROR_OF_MEAN|0.492||0.0149|TWO_SIDED|90.0|0.39|2.02|||MMRM|||Week 26||2.02|0.39|0.0149
82496627|NCT02197130|164685128|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.8233|TWO_SIDED|90.0|-0.66|0.86|||MMRM|||Week 26||0.86|-0.66|0.8233
82496628|NCT02197130|164685130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.35|STANDARD_ERROR_OF_MEAN|0.148||0.0181|TWO_SIDED|90.0|0.11|0.6|||MMRM|||Week 13||0.60|0.11|0.0181
82496629|NCT02197130|164685130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.14||0.7133|TWO_SIDED|90.0|-0.18|0.28|||MMRM|||Week 13||0.28|-0.18|0.7133
82496630|NCT02197130|164685130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.12|STANDARD_ERROR_OF_MEAN|0.163||0.4657|TWO_SIDED|90.0|-0.15|0.39|||MMRM|||Week 26||0.39|-0.15|0.4657
82496631|NCT02197130|164685130|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.03|STANDARD_ERROR_OF_MEAN|0.15||0.8339|TWO_SIDED|90.0|-0.22|0.28|||MMRM|||Week 26||0.28|-0.22|0.8339
82496632|NCT02615145|164685137|SUPERIORITY|||||||0.111||||||Between group change comparison: overall. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||||0.1110
82496633|NCT02615145|164685137|SUPERIORITY||difference in LS means|1.64||||0.2704|TWO_SIDED|95.0|-1.28|4.56||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||4.56|-1.28|0.2704
82496634|NCT02615145|164685137|SUPERIORITY||difference in LS means|-0.09||||0.9516|TWO_SIDED|95.0|-3.17|2.98||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||2.98|-3.17|0.9516
82496635|NCT02615145|164685137|SUPERIORITY||difference in LS means|-1.73||||0.0489|TWO_SIDED|95.0|-3.46|-0.01||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 12||-0.01|-3.46|0.0489
82496636|NCT02615145|164685137|SUPERIORITY|||||||0.9785||||||Between group change comparison: overall. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||||0.9785
82496637|NCT02615145|164685137|SUPERIORITY||difference in LS means|-0.13||||0.9379|TWO_SIDED|95.0|-3.37|3.11||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||3.11|-3.37|0.9379
82496638|NCT02615145|164685137|SUPERIORITY||difference in LS means|0.07||||0.9678|TWO_SIDED|95.0|-3.33|3.47||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||3.47|-3.33|0.9678
82496639|NCT02615145|164685137|SUPERIORITY||difference in LS means|0.2||||0.8373|TWO_SIDED|95.0|-1.7|2.1||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable is the change of PRISM from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||Week 48||2.10|-1.70|0.8373
82496640|NCT02615145|164685137|SUPERIORITY||Mean Difference (Final Values)|6.37|||<|0.0001|TWO_SIDED|95.0|5.417|7.32|||paired t-test|paired t-test of whether difference in means is 0||Week 12 vs Baseline across all participants||7.320|5.417|< 0.0001
82496641|NCT02615145|164685137|SUPERIORITY||Mean Difference (Final Values)|10.15|||<|0.0001|TWO_SIDED|95.0|8.936|11.362|||paired t-test|paired t-test of whether difference in means is 0||Week 48 vs Baseline across all participants||11.362|8.936|< 0.0001
82496642|NCT02615145|164685142|SUPERIORITY|||||||0.5751||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EOT||||0.5751
82496643|NCT02615145|164685142|SUPERIORITY||difference in LS means|2.29||||0.5176|TWO_SIDED|95.0|-4.66|9.23||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||9.23|-4.66|0.5176
82496644|NCT02615145|164685142|SUPERIORITY||difference in LS means|0.324||||0.9308|TWO_SIDED|95.0|-7.0|7.64||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||7.64|-7.00|0.9308
82496645|NCT02615145|164685142|SUPERIORITY||difference in LS means|-1.96||||0.3462|TWO_SIDED|95.0|-6.06|2.13||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||EoT||2.13|-6.06|0.3462
82496646|NCT02615145|164685142|SUPERIORITY|||||||0.7016||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 Weeks after EoT||||0.7016
82496647|NCT02615145|164685142|SUPERIORITY||difference in LS means|-2.61||||0.4002|TWO_SIDED|95.0|-8.71|3.49||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||3.49|-8.71|0.4002
82496648|NCT02615145|164685142|SUPERIORITY||difference in LS means|-2.33||||0.475|TWO_SIDED|95.0|-8.74|4.08||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||4.08|-8.74|0.4750
82496649|NCT02615145|164685142|SUPERIORITY||difference in LS means|0.282||||0.874|TWO_SIDED|95.0|-3.21|3.77||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||12 weeks after EoT||3.77|-3.21|0.8740
82496650|NCT02615145|164685142|SUPERIORITY|||||||0.7211||||||Between group change comparison: overall. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||||0.7211
82496651|NCT02615145|164685142|SUPERIORITY||difference in LS means|-3.67||||0.4256|TWO_SIDED|95.0|-12.7|5.39||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||5.39|-12.7|0.4256
82496652|NCT02615145|164685142|SUPERIORITY||difference in LS means|-3.01||||0.5347|TWO_SIDED|95.0|-12.6|6.54||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||6.54|-12.6|0.5347
82496653|NCT02615145|164685142|SUPERIORITY||difference in LS means|0.654||||0.792|TWO_SIDED|95.0|-4.23|5.54||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of FACIT-F \[0-100\] from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||48 weeks after EoT||5.54|-4.23|0.7920
82496654|NCT02615145|164685142|SUPERIORITY||Mean Difference (Final Values)|5.64|||<|0.0001|TWO_SIDED|95.0|3.355|7.935|||paired t-test|paired t-test of mean difference from 0||Baseline to EOT across all participants||7.935|3.355|< 0.0001
82496655|NCT02615145|164685142|SUPERIORITY||Mean Difference (Final Values)|10.21|||<|0.0001|TWO_SIDED|95.0|8.113|12.299|||paired t-test|paired t-test of mean difference versus 0||Baseline vs 12 weeks after EOT across all participants||12.299|8.113|< 0.0001
82496656|NCT02615145|164685142|SUPERIORITY||Mean Difference (Final Values)|10.13|||<|0.0001|TWO_SIDED|95.0|7.259|12.992|||paired t-test|paired t-test of mean difference versus 0||baseline vs 48 weeks after EOT across all participants||12.992|7.259|< 0.0001
82496657|NCT02615145|164685143|SUPERIORITY|||||||0.3869||||||Between group change comparison: overall. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||||0.3869
82496658|NCT02615145|164685143|SUPERIORITY||difference in LS means|-1.89||||0.3125|TWO_SIDED|95.0|-5.57|1.79||Between group change comparison: 3DAA - 2DAA+RBV. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.79|-5.57|0.3125
82496659|NCT02615145|164685143|SUPERIORITY||difference in LS means|-2.65||||0.1741|TWO_SIDED|95.0|-6.48|1.18||Between group change comparison: 3DAA+RBV - 2DAA+RBV. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.18|-6.48|0.1741
82496660|NCT02615145|164685143|SUPERIORITY||difference in LS means|-0.76||||0.4941|TWO_SIDED|95.0|-2.94|1.42||Between group change comparison: 3DAA+RBV - 3DAA. The dependent variable in the change of PAM-13 from Baseline (Visit-Baseline). The analysis is adjusted for Baseline.|ANCOVA|||||1.42|-2.94|0.4941
82496661|NCT02615145|164685143|SUPERIORITY||Mean Difference (Final Values)|-0.09||||0.8842|TWO_SIDED|95.0|-1.271|1.096|||paired t-test|paired t-test of mean difference vs 0||Change from Baseline to Final visit across all participants||1.096|-1.271|0.8842
82496662|NCT02320669|164685147|SUPERIORITY||Cox Proportional Hazard|1.083|||<|0.05|TWO_SIDED|95.0|0.82|1.432|||Regression, Cox|||||1.432|.82|<.05
82496663|NCT01269463|164685157|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
82496664|NCT01269463|164685158|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.01|TWO_SIDED||||||ANCOVA|||||||<0.01
82496665|NCT04404361|164685170|SUPERIORITY||Risk Difference (RD)|1.51||||0.8516|TWO_SIDED|95.0|-10.55|13.53|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5).||||13.53|-10.55|0.8516
82496666|NCT04404361|164685171|SUPERIORITY|||||||0.7494|||||||Wilcoxon (Mann-Whitney)|||||||0.7494
82496667|NCT04404361|164685172|SUPERIORITY||Odds Ratio (OR)|1.29||||0.6323|TWO_SIDED|95.0|0.46|3.58|||Cochran-Mantel-Haenszel||OR from a CMH test stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS|||3.58|0.46|0.6323
82496668|NCT04404361|164685173|SUPERIORITY||Odds Ratio (OR)|1.25||||0.7541|TWO_SIDED|95.0|0.31|4.96|||Cochran-Mantel-Haenszel||OR from a CMH test Stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS|||4.96|0.31|0.7541
82496669|NCT04404361|164685174|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.5666|TWO_SIDED|95.0|0.79|1.53||"log-rank test stratified by randomization stratification factors age (\<60 years versus~≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5) as entered in the IXRS"|Log Rank|"stratified by randomization stratification factors age (\<60 years versus~≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5)"|estimated using a stratified Cox proportional hazards model stratified by randomization stratification factors age (\<60 years versus ≥60 years) and 7-point clinical status scale (baseline 3 or 4 versus 5)|||1.53|0.79|0.5666
82496670|NCT04404361|164685176|SUPERIORITY||Odds Ratio (OR)|2.46||||0.2722|TWO_SIDED|95.0|0.47|12.93|||Chi-squared|||||12.93|0.47|0.2722
82496671|NCT01125605|164685179|SUPERIORITY_OR_OTHER|||||||0.0033||95.0|||||ANCOVA|ANCOVA with GLM (Generalized Linear Model) of SAS® (with type III sums of squares); including the baseline value of the sum score as a covariate||decrease of the sum score between baseline (visit 1) and last observation was exploratively analysed||||0.0033
82496672|NCT01125605|164685179|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||ANCOVA|ANCOVA with GLM (Generalized Linear Model) of SAS® (with type III sums of squares); including the baseline value of the sum score as a covariate||decrease of the sum score between baseline (visit1) and last observation by duration of treatment||||0.0002
82496673|NCT01125605|164685180|SUPERIORITY_OR_OTHER|||||||0.0014||95.0|||||Fisher Exact|||||||0.0014
82496674|NCT01125605|164685181|SUPERIORITY_OR_OTHER|||||||0.0125||95.0|||||Fisher Exact|||||||0.0125
82496675|NCT01125605|164685182|SUPERIORITY_OR_OTHER|||||||0.0006||95.0|||||Fisher Exact|||||||0.0006
82496676|NCT01125605|164685183|SUPERIORITY_OR_OTHER|||||||0.0016||95.0|||||Fisher Exact|||||||0.0016
82496677|NCT01125605|164685184|SUPERIORITY_OR_OTHER|||||||0.0504||95.0|||||Fisher Exact|||||||0.0504
82496678|NCT01125605|164685186|SUPERIORITY_OR_OTHER|||||||0.0002||95.0|||||Fisher Exact|||||||0.0002
82496679|NCT00583778|164685225|SUPERIORITY||Median Difference (Final Values)|12.0|STANDARD_DEVIATION|25.0|<|0.05|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||Data were analyzed using STATA 10 SE.Categorical variables were described using frequencies and relative frequencies. Distribution of continuous variables were evaluated for normality using the Shapiro-Walk test and graphically using histograms and box plots. Because most data were non-parametric, they were described using the median and 25th and 75th percentiles (interquartile range) and then compared using Wilcoxon rank sum test.|This study was designed to detect an absolute difference of 12 % in change of FEV-1percent predicted, with a standard deviation of 25% based on data provided to us from previous studies conducted by Sepracor. Based on this assumption, we sought to enter 76 patients in each group to have an 80% power to detect a 12 % absolute difference in charge of FEV-1 percent predicted over time at an alpha of 0.05. This accounted for a potential 10% dropout rate after randomization.|||< 0.05
82496680|NCT03761277|164685230|NON_INFERIORITY|This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit is non-inferior to VAS at Baseline, i.e., the change in pain intensity is not greater than 0 by more than 10 points from Baseline to the 6-Month Visit, with change calculated as 6-Month - Baseline.|Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|25.0|<|0.001|ONE_SIDED|97.5||-7.1|||Wilcoxon Signed Rank test|||This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit is non-inferior to VAS at Baseline, i.e., the change in pain intensity is not greater than 0 by more than 10 points from Baseline to the 6-Month Visit.|Due to non-normality, the non-inferiority test was conducted using a Wilcoxon Signed Rank test, rather than a one-sample t-test. Mean reduction in VAS and the upper 97.5% confidence limit are presented, but the change from baseline was evaluated using non-parametric analysis methods.|-7.1||< 0.001
82496681|NCT03761277|164685230|SUPERIORITY|This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit are less than VAS at Baseline, i.e., the reduction in pain intensity is less than 0 from Baseline to the 6-Month Visit, with change calculated as 6-Month - Baseline.|Mean Difference (Final Values)|-15.0|STANDARD_DEVIATION|25.0|<|0.001|TWO_SIDED|95.0|-22.7|-7.1|||Wilcoxon Signed Rank test|||This analysis was to demonstrate pain intensity scores (VAS) at the 6-Month Visit are less than VAS at Baseline, i.e., the reduction in pain intensity is less than 0 from Baseline to the 6-Month Visit.|Due to non-normality, the superiority test was conducted using a Wilcoxon Signed Rank test, rather than a one-sample t-test. Mean reduction in VAS and 95% confidence interval are presented, but the change from baseline was evaluated using non-parametric analysis methods.|-7.1|-22.7|< 0.001
82496682|NCT00543140|164685245|SUPERIORITY_OR_OTHER|||||||0.6919|TWO_SIDED|||||No adjustments for multiple comparisons were performed as only one hypothesis was tested in this study. The level of significance was set at 0.05.|Exact Binomial method|||The primary analysis used a one-sided binomial exact test method by Clopper and Pearson to determine if the rate of reoperations observed in Years 4 and 5 (combined) of the study was significantly less than 8%. The null hypothesis was that the reoperation rate was greater than or equal to 8%.||||0.6919
82496683|NCT02483520|164685275|SUPERIORITY||LSM Estimate|0.03||||0.977|TWO_SIDED|95.0|-2.02|2.08|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||2.08|-2.02|.977
82496684|NCT02483520|164685276|SUPERIORITY||LSM Estimate|-0.22||||0.812|TWO_SIDED|95.0|-2.09|1.64|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.64|-2.09|.812
82496685|NCT02483520|164685279|SUPERIORITY||LSM Estimate|-1.5||||0.343|TWO_SIDED|95.0|-4.64|1.64|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.64|-4.64|.343
82496686|NCT02483520|164685280|SUPERIORITY||LSM Estimate|-4.79||||0.012|TWO_SIDED|95.0|-8.51|-1.08|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||-1.08|-8.51|.012
82496687|NCT02483520|164685281|SUPERIORITY||LSM Estimate|0.77||||0.033|TWO_SIDED|95.0|0.07|1.47|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||1.47|0.07|.033
82496688|NCT02483520|164685284|SUPERIORITY|||||||0.211|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.211
82496689|NCT02483520|164685284|SUPERIORITY||||||<|0.001|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||<.001
82496690|NCT02483520|164685285|SUPERIORITY|||||||0.476|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.476
82496691|NCT02483520|164685285|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||.005
82496692|NCT02483520|164685286|SUPERIORITY|||||||0.677|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for differences between mean group changes using Wilcoxon rank-sum test at 3 months||||.677
82496693|NCT02483520|164685286|SUPERIORITY|||||||0.02|||||||Wilcoxon (Mann-Whitney)|||p-values were calculated for within- group changes using Wilcoxon signed-rank test between baseline and 3 months||||.020
82496694|NCT02483520|164685287|SUPERIORITY||LSM Estimate|-0.62||||0.432|TWO_SIDED|95.0|-2.18|0.94|||Mixed Models Analysis|||Linear mixed models were fitted to changes in outcomes with SAS Procedure Mixed. Efficacy of the FamTechCare intervention versus attention control was expressed as the model-estimated difference between the groups on mean change from baseline to 3 months. Burden, Depression, Sleep disturbance, Competence, Desire to institutionalize, Reaction to memory symptoms, Reaction to depression symptoms, Reaction to disruptive symptoms were included in the model.||0.94|-2.18|.432
82496695|NCT02483520|164685288|SUPERIORITY|||||||0.255|||||||Wilcoxon (Mann-Whitney)|||||||.255
82496696|NCT01104493|164685291|NON_INFERIORITY_OR_EQUIVALENCE|H0 (null): Rate difference ≥ 5 percentage points This corresponded to a null hypothesis of: HA (alternative): rate difference \< 5 percentage points.|rate difference|0.4|||||TWO_SIDED|95.0|-5.2|2.6|||score statistic|||Comparison of the rate of fever between the 2 treatment groups was based on the upper limit of the two-sided 95% exact confidence intervals (CIs) for the rate increase (Monovalent vaccine minus Placebo) evaluated against the prespecified equivalence criterion of 5 percentage points.||2.6|-5.2|
82496697|NCT03143894|164685302|SUPERIORITY||Mean Difference (Final Values)|0.47||||0.47|TWO_SIDED||||||t-test, 2 sided|||||||0.47
82496698|NCT03143894|164685303|SUPERIORITY||Mean Difference (Net)|0.69||||0.69|TWO_SIDED||||||t-test, 2 sided|||||||0.69
82496699|NCT03143894|164685304|SUPERIORITY||Mean Difference (Final Values)|0.36||||0.36|TWO_SIDED||||||t-test, 2 sided|||||||0.36
82496700|NCT02442869|164685313|SUPERIORITY||Net difference in proportion|1.73||||0.19|TWO_SIDED|95.0|-2.41|15.35|||Chi-squared|Df (1)|NNT = 5.59|Due to the large number of zeroes in the Suicidal Ideation (SI)-Current Subscale of the SSI at post (over a third of the participants reported no SI at the end of treatment), a zero-altered model was utilized which divided the outcome into (1) the probability of any SI and (2) the intensity of SI when non-zero, as done in other studies. This analysis tested the difference between the CAMS and TAU arms based on number of participants reporting no SI post Stage 1 treatment.||15.35|-2.41|0.19
82496701|NCT02442869|164685314|SUPERIORITY||Net difference in proportion|1.3||||0.25|TWO_SIDED||||||Regression, Logistic|||||||0.25
82496702|NCT02442869|164685315|SUPERIORITY|Power analyses. We determined that with a sample size of 62 clients, the outcome analyses had at least 80% power to detect an effect size of 0.80 (Ahn etal., 2001)|Mean Difference (Net)|0.55||||0.035|TWO_SIDED|95.0|0.04|1.05|||t-test, 2 sided|t(60) = 2.15||||1.05|0.04|0.035
82496703|NCT00489541|164685316|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.42|||<|0.0001|TWO_SIDED|95.0|-0.54|-0.3|||t-test, 2 sided|||A superiority test of TAXUX Element vs bare metal (BMS) Express historical control. The null hypothesis that the true difference in means (TAXUS Element - BMS Express) is equal to zero was tested against the two-sided alternative that the true difference in means is different from zero. A sample size of 224 patients in the TAXUS Element group (190 after 15% attrition due to angiographic follow-up) provided 85% power.||-0.30|-0.54|<0.0001
82496704|NCT00489541|164685317|SUPERIORITY_OR_OTHER||12-month TLR rate|7.34|||<|0.0001|ONE_SIDED|95.0||10.8|||Chi-squared|||One-sided, single-sample binomial test to compare the observed TLF rate in PERSEUS SV to the pre-specified performance goal (19.5%). The normal approximation of the test statistic was used. The null hypothesis that the true TAXUS Element TLF rate is greater than or equal to the performance goal was tested against the one-sided alternative that the true rate is less than the performance goal. A sample size of 224 patients (accounting for 5% attrition to follow-up) provided 80% power.||10.8||<0.0001
82496705|NCT02042183|164685326|OTHER|||||||0.1609||||||Cochran-Mantel-Haenszel (CMH) test stratified by baseline spontaneous bowel movement (SBM) frequency (\<1.5 or ≥1.5)|Cochran-Mantel-Haenszel|||||||0.1609
82496706|NCT01192516|164685334|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age, gender, pain level, and body mass index at baseline.||||||.85
82496707|NCT01192516|164685337|SUPERIORITY_OR_OTHER|||||||0.06|TWO_SIDED||||||Mixed Models Analysis|Adjusted for age, gender, and body mass index.||||||.06
82496708|NCT01192516|164685340|SUPERIORITY_OR_OTHER|||||||0.36|TWO_SIDED|||||Adjusted for age, gender, body mass index, and pain at baseline.|Mixed Models Analysis|||||||.36
82496709|NCT03366337|164685434|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|9.31|STANDARD_ERROR_OF_MEAN|1.3743|<|0.0001|TWO_SIDED|95.0|6.5|12.13|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||12.13|6.5|<0.0001
82496710|NCT03366337|164685434|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|8.0|STANDARD_ERROR_OF_MEAN|1.57|<|0.0001|TWO_SIDED|95.0|4.75|11.25|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||11.25|4.75|<0.0001
82496711|NCT03366337|164685434|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|5.46|STANDARD_ERROR_OF_MEAN|2.2792||0.0247|TWO_SIDED|95.0|0.76|10.16|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||10.16|0.76|0.0247
82496712|NCT03366337|164685434|SUPERIORITY|A formal test of mean change from baseline in eGFR ≠ 0 was conducted at Week 12.|LS Mean change from baseline|7.83|STANDARD_ERROR_OF_MEAN|2.216||0.003|TWO_SIDED|95.0|3.11|12.55|||Mixed Models Analysis|Available data from analysis visits Week 1 to Week 12 were included. Missing data were not imputed.||||12.55|3.11|0.0030
82496713|NCT00769392|164685439|OTHER|||||||0.28|||||||single factor analysis of variance|||A comparison of injection discomfort using mean pain scores for all 4 anesthesia intervention agents used in this study.||||0.28
82496714|NCT00769392|164685440|OTHER|||||||0.17|||||||single factor analysis of variance|||A comparison of discomfort of all 4 anesthesia intervention agents used in this study using mean pain scores.||||0.17
82496715|NCT01025752|164685459|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|0.07||||0.007|TWO_SIDED|95.0|-0.67|0.8||Non-inferiority margin of 1|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.80) fell below the non-inferiority margin of 1.|post-treatment (12 weeks) time point||0.80|-0.67|0.007
82496716|NCT01025752|164685459|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|-0.23|||<|0.0001|TWO_SIDED|95.0|-0.94|0.49||Non-inferiority margin of 1|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.49) fell below the non-inferiority margin of 1.|3 month post-baseline time point||0.49|-0.94|<0.0001
82496717|NCT01025752|164685459|NON_INFERIORITY|A 20% (1.4) reduction in NRS for pain intensity from baseline was considered minimally clinically important the non-inferiority margin was set at one NRS unit. The required sample size was 230 participants. Because enrollment was slower than expected and the standard deviation in the primary outcome was less than the initial power calculation (1.6 vs. 2.45) we conducted a sample size recalculation, based on observed data to determine that we would need 42 completers per arm for 80% power.|Mean Difference (Final Values)|-0.08||||0.004|TWO_SIDED|95.0|-0.86|0.71||The non-inferiority margin is 1.|Mixed Models Analysis|The models includes treatment arm, time, treatment-by-time interaction, baseline NRS, stratification variables (distance from VA \& back pain cause)|The upper limit (0.71) fell below the non-inferiority margin of 1.|6 month post- baseline time point.||0.71|-0.86|0.004
82496718|NCT01025752|164685460|OTHER||Mean Difference (Final Values)|-0.33||||0.12|TWO_SIDED|95.0|-0.74|0.09|||Mixed Models Analysis|||Post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||0.09|-0.74|0.12
82496719|NCT01025752|164685460|OTHER||Mean Difference (Final Values)|-0.34||||0.2|TWO_SIDED|95.0|-0.87|0.18|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||0.18|-0.87|0.20
82496720|NCT01025752|164685460|OTHER||Mean Difference (Final Values)|-0.02||||0.93|TWO_SIDED|95.0|-0.57|0.52|||Mixed Models Analysis|||6 months post baseline time point. (Mean difference of IVR CBT- F2F CBT)||0.52|-0.57|0.93
82496721|NCT01025752|164685461|OTHER||Mean Difference (Final Values)|-0.5||||0.58|TWO_SIDED|95.0|-2.29|1.29|||Mixed Models Analysis|||post-treatment (12 weeks) time point||1.29|-2.29|0.58
82496722|NCT01025752|164685461|OTHER||Mean Difference (Final Values)|-1.53||||0.12|TWO_SIDED|95.0|-3.46|0.41|||Mixed Models Analysis|||3 months post-baseline time point||0.41|-3.46|0.12
82496723|NCT01025752|164685461|OTHER||Mean Difference (Final Values)|-0.61||||0.51|TWO_SIDED|95.0|-2.42|1.2|||Mixed Models Analysis|||6 months post-baseline time point||1.20|-2.42|0.51
82496724|NCT01025752|164685462|OTHER||Mean Difference (Final Values)|0.29||||0.83|TWO_SIDED|95.0|-2.3|2.87|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||2.87|-2.30|0.83
82496725|NCT01025752|164685462|OTHER||Mean Difference (Final Values)|1.15||||0.42|TWO_SIDED|95.0|-1.68|3.98|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||3.98|-1.68|0.42
82496726|NCT01025752|164685462|OTHER||Mean Difference (Final Values)|-0.58||||0.68|TWO_SIDED|95.0|-3.4|2.24|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||2.24|-3.40|0.68
82496727|NCT01025752|164685463|OTHER||Mean Difference (Final Values)|1.25||||0.4|TWO_SIDED|95.0|-1.66|4.16|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||4.16|-1.66|0.40
82496728|NCT01025752|164685463|OTHER||Mean Difference (Final Values)|0.38||||0.81|TWO_SIDED|95.0|-2.82|3.58|||Mixed Models Analysis|||3 months post-baseline. (Mean difference of IVR CBT- F2F CBT)||3.58|-2.82|0.81
82496729|NCT01025752|164685463|OTHER||Mean Difference (Final Values)|2.43||||0.16|TWO_SIDED|95.0|-0.96|5.82|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||5.82|-0.96|0.16
82496730|NCT01025752|164685464|OTHER||Mean Difference (Final Values)|0.24||||0.85|TWO_SIDED|95.0|-2.32|2.8|||Mixed Models Analysis|||post-treatment (12 weeks time point). (Mean difference of IVR CBT- F2F CBT)||2.80|-2.32|0.85
82496731|NCT01025752|164685464|OTHER||Mean Difference (Final Values)|-1.27||||0.4|TWO_SIDED|95.0|-4.27|1.73|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.73|-4.27|0.40
82496732|NCT01025752|164685464|OTHER||Mean Difference (Final Values)|-0.74||||0.68|TWO_SIDED|95.0|-4.3|2.83|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||2.83|-4.30|0.68
82496733|NCT01025752|164685465|OTHER||Mean Difference (Final Values)|-0.94||||0.17|TWO_SIDED|95.0|-2.28|0.4|||Mixed Models Analysis|||post-treatment (12 weeks) time point. (Mean difference of IVR CBT- F2F CBT)||0.40|-2.28|0.17
82496734|NCT01025752|164685465|OTHER||Mean Difference (Final Values)|-0.12||||0.86|TWO_SIDED|95.0|-1.39|1.16|||Mixed Models Analysis|||3 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.16|-1.39|0.86
82496735|NCT01025752|164685465|OTHER||Mean Difference (Final Values)|0.37||||0.64|TWO_SIDED|95.0|-1.22|1.97|||Mixed Models Analysis|||6 months post-baseline time point. (Mean difference of IVR CBT- F2F CBT)||1.97|-1.22|0.64
82499126|NCT02057406|164689274|SUPERIORITY|High EPA group versus placebo group at Week 12.||||||0.45|||||||ANCOVA|||The model used post-treatment HAMD values as the dependent variable and included age, race, sex, treatment site, and the baseline HAMD value as covariates. This analysis was conducted under intention-to-treat (ITT) in which the missing HAMD endpoint values were imputed using 50 imputations.||||0.45
82496736|NCT01537393|164685469|NON_INFERIORITY|The two treatment groups will be declared equivalent if the one-sided 95% confidence interval for the difference in proportions excludes the pre-defined non-inferiority limit of 4%.|Risk Difference (RD)|3.2|||||ONE_SIDED|95.0||5.4|||||||The bootstrap re-sampling technique were used to account for potentially correlated data from donors who donated both corneas in this study and potentially correlated data from 2 study eyes of the same study participant. The technique will sample with replacement from the observed dataset. Confidence intervals will be calculated using the bias-corrected and accelerated method. The number of bootstraps will be 100,000.|5.4||
82496737|NCT01537393|164685469|OTHER|Confounding and treatment interactions were assessed in Cox proportional hazards regression models|Hazard Ratio (HR)|1.71||||0.02|TWO_SIDED|95.0|1.09|2.71|||Regression, Cox|Unadjusted Hazard Ratio||||2.71|1.09|0.02
82496738|NCT01537393|164685470|OTHER|The primary analysis to assess the effect of PT on 3 year ECD was conducted with a mixed linear model adjusting for baseline ECD, corneal diagnosis, and potential confounders, including storage solution, preparation by eye bank vs surgeon, and accounting for correlated data from participants with 2 study eyes or 2 corneas from the same donor.|Mean Difference (Final Values)|73.0||||0.03|TWO_SIDED|95.0|8.0|138.0|||Mixed Models Analysis|Adjusted for baseline ECD, diagnosis, storage solution, preparation by eye bank/surgeon, participants with 2 study eyes/ 2 corneas from the same donor||||138|8|0.03
82496739|NCT01447433|164685472|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.439|STANDARD_ERROR_OF_MEAN|0.56||0.441|TWO_SIDED|95.0|-0.7|1.58|||t-test, 2 sided|||||1.58|-0.70|0.441
82496740|NCT01447433|164685473|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.88|STANDARD_ERROR_OF_MEAN|0.41||0.038|TWO_SIDED|95.0|0.05|1.7|||t-test, 2 sided|||Body Fat Mass||1.70|0.05|0.038
82496741|NCT01447433|164685473|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.28||0.082|TWO_SIDED|95.0|-1.06|0.07|||t-test, 2 sided|||Body Lean Mass||0.07|-1.06|0.082
82496742|NCT01447433|164685473|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.18|STANDARD_ERROR_OF_MEAN|0.07||0.018|TWO_SIDED|95.0|0.03|0.32|||t-test, 2 sided|||Visceral Fat Mass||0.32|0.03|0.018
82496743|NCT01447433|164685474|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.1|STANDARD_ERROR_OF_MEAN|0.49||0.031|TWO_SIDED|95.0|0.1|2.09|||t-test, 2 sided|||||2.09|0.10|0.031
82496744|NCT01447433|164685475|SUPERIORITY_OR_OTHER||Median Difference (Net)|5.72|STANDARD_ERROR_OF_MEAN|2.25||0.016|TWO_SIDED|95.0|1.15|10.29|||t-test, 2 sided|||||10.29|1.15|0.016
82496745|NCT01447433|164685476|SUPERIORITY_OR_OTHER||Median Difference (Net)|1.14|STANDARD_ERROR_OF_MEAN|1.7||0.508|TWO_SIDED|95.0|-2.31|4.58|||t-test, 2 sided|||Waist Circumference||4.58|-2.31|0.508
82496746|NCT01447433|164685476|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.22|STANDARD_ERROR_OF_MEAN|2.07||0.56|TWO_SIDED|95.0|-5.42|2.98|||t-test, 2 sided|||Abdominal Circumference||2.98|-5.42|0.560
82496747|NCT01447433|164685476|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.98|STANDARD_ERROR_OF_MEAN|0.85||0.255|TWO_SIDED|95.0|-0.74|2.7|||t-test, 2 sided|||Hip Circumference||2.70|-0.74|0.255
82496748|NCT01447433|164685477|SUPERIORITY_OR_OTHER||Median Difference (Net)|-3.8|STANDARD_ERROR_OF_MEAN|4.5||0.404|TWO_SIDED|95.0|-12.9|5.3|||t-test, 2 sided|||Systolic Blood Pressure||5.3|-12.9|0.404
82496749|NCT01447433|164685477|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.94|STANDARD_ERROR_OF_MEAN|3.18||0.768|TWO_SIDED|95.0|-5.52|7.41|||t-test, 2 sided|||Diastolic Blood Pressure||7.41|-5.52|0.768
82496750|NCT01447433|164685478|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.08|STANDARD_ERROR_OF_MEAN|0.14||0.565|TWO_SIDED|95.0|-0.36|0.2|||t-test, 2 sided|||TC||0.20|-0.36|0.565
82496751|NCT01447433|164685478|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.07|STANDARD_ERROR_OF_MEAN|0.15||0.636|TWO_SIDED|95.0|-0.24|0.39|||t-test, 2 sided|||TG||0.39|-0.24|0.636
82496752|NCT01447433|164685478|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.26|STANDARD_ERROR_OF_MEAN|0.16||0.112|TWO_SIDED|95.0|-0.58|0.06|||t-test, 2 sided|||HDL||0.06|-0.58|0.112
82496753|NCT01447433|164685478|SUPERIORITY_OR_OTHER||Median Difference (Net)|-0.02|STANDARD_ERROR_OF_MEAN|0.15||0.647|TWO_SIDED|95.0|-0.11|0.05|||t-test, 2 sided|||LDL||0.05|-0.11|0.647
82496754|NCT01447433|164685479|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.13|STANDARD_ERROR_OF_MEAN|0.11||0.26|TWO_SIDED|95.0|-0.1|0.35|||t-test, 2 sided|||||0.35|-0.10|0.260
82496755|NCT01447433|164685480|SUPERIORITY_OR_OTHER||Median Difference (Net)|0.87|STANDARD_ERROR_OF_MEAN|1.63||0.598|TWO_SIDED|95.0|-2.44|4.17|||t-test, 2 sided|||||4.17|-2.44|0.598
82496756|NCT01447433|164685481|SUPERIORITY_OR_OTHER||Mean Difference (Net)|98.5|STANDARD_ERROR_OF_MEAN|89.0||0.275|TWO_SIDED|95.0|-81.6|278.7|||t-test, 2 sided|||||278.7|-81.6|0.275
82496757|NCT04518293|164685484|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using a mixed model for repeated measures (MMRM).|LS Means Difference|-5.44|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-6.774|-4.107|||MIANALYZE procedure|||The LS means (LSM) difference (95% CI) in home seated SBP reduction was calculated between GMRx2 and dual-TA arms.||-4.107|-6.774|<.0001
82496758|NCT04518293|164685484|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using a MMRM.|LS Means Difference|-2.49|STANDARD_ERROR_OF_MEAN|0.63|<|0.0001|TWO_SIDED|95.0|-3.723|-1.251|||MIANALYZE procedure|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.251|-3.723|<.0001
82496759|NCT04518293|164685484|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using a MMRM.|LS Means Difference|-4.42|STANDARD_ERROR_OF_MEAN|0.68|<|0.0001|TWO_SIDED|95.0|-5.758|-3.091|||MIANALYZE procedure|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.091|-5.758|<.0001
82496760|NCT04518293|164685485|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using a MMRM.|LS Means Difference|-5.6|STANDARD_ERROR_OF_MEAN|0.863|<|0.0001|TWO_SIDED|95.0|-7.307|-3.902|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 between dual-TA arms.||-3.902|-7.307|<.0001
82496761|NCT04518293|164685485|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using a MMRM.|LS Means Difference|-4.33|STANDARD_ERROR_OF_MEAN|1.212||0.0005|TWO_SIDED|95.0|-6.718|-1.933|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.933|-6.718|0.0005
82496762|NCT04518293|164685485|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using a MMRM.|LS Means Difference|-6.33|STANDARD_ERROR_OF_MEAN|0.837|<|0.0001|TWO_SIDED|95.0|-7.984|-4.68|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-AI arms.||-4.680|-7.984|<.0001
82496763|NCT04518293|164685486|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-5.01|STANDARD_ERROR_OF_MEAN|0.858|<|0.0001|TWO_SIDED|95.0|-6.703|-3.317|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TA arms.||-3.317|-6.703|<.0001
82496764|NCT04518293|164685486|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-3.5|STANDARD_ERROR_OF_MEAN|0.91||0.0002|TWO_SIDED|95.0|-5.293|-1.7|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.700|-5.293|0.0002
82496765|NCT04518293|164685486|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-5.35|STANDARD_ERROR_OF_MEAN|0.965|<|0.0001|TWO_SIDED|95.0|-7.251|-3.444|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.444|-7.251|<.0001
82496766|NCT04518293|164685487|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-3.72|STANDARD_ERROR_OF_MEAN|0.49|<|0.0001|TWO_SIDED|95.0|-4.692|-2.757|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.757|-4.692|<.0001
82496767|NCT04518293|164685487|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-3.51|STANDARD_ERROR_OF_MEAN|0.702|<|0.0001|TWO_SIDED|95.0|-4.897|-2.128|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TI arms.||-2.128|-4.897|<.0001
82496768|NCT04518293|164685487|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-4.5|STANDARD_ERROR_OF_MEAN|0.665|<|0.0001|TWO_SIDED|95.0|-5.812|-3.189|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-AI arms.||-3.189|-5.812|<.0001
82496769|NCT04518293|164685488|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-2.43|STANDARD_ERROR_OF_MEAN|0.487|<|0.0001|TWO_SIDED|95.0|-3.392|-1.469|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TA arms.||-1.469|-3.392|<.0001
82496770|NCT04518293|164685488|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.29|STANDARD_ERROR_OF_MEAN|0.55|<|0.0001|TWO_SIDED|95.0|-3.371|-1.201|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.201|-3.371|<.0001
82496771|NCT04518293|164685488|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-3.77|STANDARD_ERROR_OF_MEAN|0.562|<|0.0001|TWO_SIDED|95.0|-4.882|-2.664|||Mixed Models Analysis|||The LSM difference (95% CI) in clinic DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.664|-4.882|<.0001
82496772|NCT04518293|164685489|OTHER||Risk Difference (RD)|12.52||||0.0003|TWO_SIDED|95.0|5.63|19.487|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||19.487|5.630|0.0003
82496773|NCT04518293|164685489|OTHER||Risk Difference (RD)|13.36||||0.0001|TWO_SIDED|95.0|6.392|20.394|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||20.394|6.392|0.0001
82496774|NCT04518293|164685489|OTHER||Risk Difference (RD)|20.97|||<|0.0001|TWO_SIDED|95.0|13.812|28.013|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||28.013|13.812|<.0001
82496775|NCT04518293|164685490|OTHER||Risk Difference (RD)|10.31||||0.0044|TWO_SIDED|95.0|3.044|17.535|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||17.535|3.044|0.0044
82496776|NCT04518293|164685490|OTHER||Risk Difference (RD)|8.08||||0.0262|TWO_SIDED|95.0|0.804|15.373|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||15.373|0.804|0.0262
82496777|NCT04518293|164685490|OTHER||Risk Difference (RD)|18.59|||<|0.0001|TWO_SIDED|95.0|11.201|25.746|||Wald test|||The difference between GMRx2 and AI at Week 6 was estimated using Generalized Estimating Equation.||25.746|11.201|<.0001
82496778|NCT04518293|164685491|OTHER||Risk Difference (RD)|16.51|||<|0.0001|TWO_SIDED|95.0|9.707|22.837|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||22.837|9.707|<.0001
82496779|NCT04518293|164685491|OTHER||Risk Difference (RD)|12.03||||0.0004|TWO_SIDED|95.0|4.982|18.658|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||18.658|4.982|0.0004
82496780|NCT04518293|164685491|OTHER||Risk Difference (RD)|18.19|||<|0.0001|TWO_SIDED|95.0|11.412|24.432|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||24.432|11.412|<.0001
82496781|NCT04518293|164685492|OTHER||Risk Difference (RD)|10.45||||0.0007|TWO_SIDED|95.0|3.993|16.433|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||16.433|3.993|0.0007
82496782|NCT04518293|164685492|OTHER||Risk Difference (RD)|8.93||||0.0046|TWO_SIDED|95.0|2.337|15.058|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||15.058|2.337|0.0046
82496783|NCT04518293|164685492|OTHER||Risk Difference (RD)|12.19|||<|0.0001|TWO_SIDED|95.0|5.792|18.073|||Wald test|||||18.073|5.792|<.0001
82496784|NCT04518293|164685493|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-6.11|STANDARD_ERROR_OF_MEAN|0.495|<|0.0001|TWO_SIDED|95.0|-7.086|-5.144|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TA arms.||-5.144|-7.086|<.0001
82496785|NCT04518293|164685493|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-3.0|STANDARD_ERROR_OF_MEAN|0.543|<|0.0001|TWO_SIDED|95.0|-4.06|-1.932|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.932|-4.060|<.0001
82496786|NCT04518293|164685493|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-5.09|STANDARD_ERROR_OF_MEAN|0.603|<|0.0001|TWO_SIDED|95.0|-6.274|-3.912|||Mixed Models Analysis|||The LSM difference (95% CI) in home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.912|-6.274|<.0001
82496787|NCT04518293|164685494|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-3.35|STANDARD_ERROR_OF_MEAN|0.364|<|0.0001|TWO_SIDED|95.0|-4.069|-2.632|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.632|-4.069|<.0001
82496788|NCT04518293|164685494|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.456|<|0.0001|TWO_SIDED|95.0|-2.998|-1.2|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.200|-2.998|<.0001
82496789|NCT04518293|164685494|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-3.63|STANDARD_ERROR_OF_MEAN|0.499|<|0.0001|TWO_SIDED|95.0|-4.617|-2.649|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.649|-4.617|<.0001
82496790|NCT04518293|164685495|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-3.52|STANDARD_ERROR_OF_MEAN|0.311|<|0.0001|TWO_SIDED|95.0|-4.137|-2.908|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TA arms.||-2.908|-4.137|<.0001
82496791|NCT04518293|164685495|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.09|STANDARD_ERROR_OF_MEAN|0.361|<|0.0001|TWO_SIDED|95.0|-2.803|-1.376|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-TI arms.||-1.376|-2.803|<.0001
82496792|NCT04518293|164685495|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-3.58|STANDARD_ERROR_OF_MEAN|0.439|<|0.0001|TWO_SIDED|95.0|-4.446|-2.713|||Mixed Models Analysis|||The LSM difference (95% CI) in home DBP reduction was calculated between GMRx2 and dual-AI arms.||-2.713|-4.446|<.0001
82496793|NCT04518293|164685496|OTHER|The difference between GMRx2 and dual-TA at Week 12 was estimated using MMRM.|LS Means Difference|-5.58|STANDARD_ERROR_OF_MEAN|0.713|<|0.0001|TWO_SIDED|95.0|-6.983|-4.169|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TA arms.||-4.169|-6.983|<.0001
82496794|NCT04518293|164685496|OTHER|The difference between GMRx2 and dual-TI at Week 12 was estimated using MMRM.|LS Means Difference|-1.91|STANDARD_ERROR_OF_MEAN|0.662||0.0043|TWO_SIDED|95.0|-3.218|-0.607|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TI arms.||-0.607|-3.218|0.0043
82496795|NCT04518293|164685496|OTHER|The difference between GMRx2 and dual-AI at Week 12 was estimated using MMRM.|LS Means Difference|-3.74|STANDARD_ERROR_OF_MEAN|0.745|<|0.0001|TWO_SIDED|95.0|-5.214|-2.274|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-AI arms.||-2.274|-5.214|<.0001
82496796|NCT04518293|164685497|OTHER|The difference between GMRx2 and dual-TA at Week 6 was estimated using MMRM.|LS Means Difference|-6.25|STANDARD_ERROR_OF_MEAN|0.546|<|0.0001|TWO_SIDED|95.0|-7.324|-5.168|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TA arms.||-5.168|-7.324|<.0001
82496797|NCT04518293|164685497|OTHER|The difference between GMRx2 and dual-TI at Week 6 was estimated using MMRM.|LS Means Difference|-2.72|STANDARD_ERROR_OF_MEAN|0.616|<|0.0001|TWO_SIDED|95.0|-3.941|-1.507|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-TI arms.||-1.507|-3.941|<.0001
82496798|NCT04518293|164685497|OTHER|The difference between GMRx2 and dual-AI at Week 6 was estimated using MMRM.|LS Means Difference|-4.43|STANDARD_ERROR_OF_MEAN|0.537|<|0.0001|TWO_SIDED|95.0|-5.489|-3.368|||Mixed Models Analysis|||The LSM difference (95% CI) in trough (i.e. before morning dose) home SBP reduction was calculated between GMRx2 and dual-AI arms.||-3.368|-5.489|<.0001
82496799|NCT04518293|164685498|OTHER||Risk Difference (RD)|14.79|||<|0.0001|TWO_SIDED|95.0|7.749|21.824|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||21.824|7.749|<.0001
82496800|NCT04518293|164685498|OTHER||Risk Difference (RD)|8.46||||0.0146|TWO_SIDED|95.0|1.58|15.501|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||15.501|1.580|0.0146
82496801|NCT04518293|164685498|OTHER||Risk Difference (RD)|16.07|||<|0.0001|TWO_SIDED|95.0|8.953|23.171|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||23.171|8.953|<.0001
82496802|NCT04518293|164685499|OTHER||Risk Difference (RD)|18.11|||<|0.0001|TWO_SIDED|95.0|10.778|25.226|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||25.226|10.778|<.0001
82496803|NCT04518293|164685499|OTHER||Risk Difference (RD)|6.64||||0.0674|TWO_SIDED|95.0|-0.613|13.926|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||13.926|-0.613|0.0674
82496804|NCT04518293|164685499|OTHER||Risk Difference (RD)|18.23|||<|0.0001|TWO_SIDED|95.0|10.839|25.392|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||25.392|10.839|<.0001
82496805|NCT04518293|164685500|OTHER||Risk Difference (RD)|17.25|||<|0.0001|TWO_SIDED|95.0|9.902|24.286|||Wald test|||The difference between GMRx2 and TA at Week 12 was estimated using Generalized Estimating Equation.||24.286|9.902|<.0001
82496806|NCT04518293|164685500|OTHER||Risk Difference (RD)|12.06||||0.001|TWO_SIDED|95.0|4.632|19.293|||Wald test|||The difference between GMRx2 and TI at Week 12 was estimated using Generalized Estimating Equation.||19.293|4.632|0.0010
82496807|NCT04518293|164685500|OTHER||Risk Difference (RD)|22.93|||<|0.0001|TWO_SIDED|95.0|15.622|29.796|||Wald test|||The difference between GMRx2 and AI at Week 12 was estimated using Generalized Estimating Equation.||29.796|15.622|<.0001
82496808|NCT04518293|164685501|OTHER||Risk Difference (RD)|18.59|||<|0.0001|TWO_SIDED|95.0|11.579|25.124|||Wald test|||The difference between GMRx2 and TA at Week 6 was estimated using Generalized Estimating Equation.||25.124|11.579|<.0001
82496809|NCT04518293|164685501|OTHER||Risk Difference (RD)|12.22||||0.0005|TWO_SIDED|95.0|4.963|19.123|||Wald test|||The difference between GMRx2 and TI at Week 6 was estimated using Generalized Estimating Equation.||19.123|4.963|0.0005
82496810|NCT04518293|164685501|OTHER||Risk Difference (RD)|16.2|||<|0.0001|TWO_SIDED|95.0|9.06|22.914|||Wald test|||The difference between GMRx2 and AI at Week 6 was estimated using Generalized Estimating Equation.||22.914|9.060|<.0001
82496811|NCT04518293|164685502|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.93|||||TWO_SIDED|95.0|-1.529|2.768||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-TA arms.||2.768|-1.529|
82496812|NCT04518293|164685502|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-2.098|2.475||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-TI arms.||2.475|-2.098|
82496813|NCT04518293|164685502|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-2.098|2.475||||||The Risk difference (95% CI) in percentage of participants discontinuing trial medication due to AE/SAE at Week 12 was calculated between GMRx2 and dual-AI arms.||2.475|-2.098|
82496814|NCT04518293|164685508|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|4.07|||||TWO_SIDED|95.0|0.494|7.116||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||7.116|0.494|
82496815|NCT04518293|164685508|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.38|||||TWO_SIDED|95.0|-3.927|4.02||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||4.020|-3.927|
82496816|NCT04518293|164685508|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.64|||||TWO_SIDED|95.0|-0.07|6.764||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||6.764|-0.070|
82496817|NCT04518293|164685509|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|2.59|||||TWO_SIDED|95.0|-0.5|5.136||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||5.136|-0.500|
82496818|NCT04518293|164685509|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.82|||||TWO_SIDED|95.0|-1.513|4.517||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.517|-1.513|
82496819|NCT04518293|164685509|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.73|||||TWO_SIDED|95.0|-2.855|3.633||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration below 135 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||3.633|-2.855|
82496820|NCT04518293|164685510|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.06|||||TWO_SIDED|95.0|-3.911|3.129||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||3.129|-3.911|
82496821|NCT04518293|164685510|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.53|||||TWO_SIDED|95.0|-4.519|2.744||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||2.744|-4.519|
82496822|NCT04518293|164685510|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-3.228|3.647||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||3.647|-3.228|
82496823|NCT04518293|164685511|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-3.993|2.816||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||2.816|-3.993|
82496824|NCT04518293|164685511|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.82|||||TWO_SIDED|95.0|-1.513|4.517||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.517|-1.513|
82496825|NCT04518293|164685511|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.72|||||TWO_SIDED|95.0|-4.596|2.44||||||The Risk difference (95% CI) in percentage of participants with serum sodium concentration above 145 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||2.440|-4.596|
82496826|NCT04518293|164685512|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|6.72|||||TWO_SIDED|95.0|4.196|9.222||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||9.222|4.196|
82496827|NCT04518293|164685512|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|2.0|||||TWO_SIDED|95.0|-1.883|5.257||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||5.257|-1.883|
82496828|NCT04518293|164685512|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-5.97|||||TWO_SIDED|95.0|-10.979|-1.6||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||-1.600|-10.979|
82496829|NCT04518293|164685513|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.13|||||TWO_SIDED|95.0|0.123|5.632||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||5.632|0.123|
82496830|NCT04518293|164685513|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.28|||||TWO_SIDED|95.0|-2.245|4.134||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||4.134|-2.245|
82496831|NCT04518293|164685513|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.71|||||TWO_SIDED|95.0|-6.968|0.819||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration below 3.5 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||0.819|-6.968|
82496832|NCT04518293|164685514|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.91|||||TWO_SIDED|95.0|-0.863|2.231||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TA arms.||2.231|-0.863|
82496833|NCT04518293|164685514|OTHER||Risk Difference (RD)|0.91|||||TWO_SIDED|95.0|-0.897|2.231||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-TI arms.||2.231|-0.897|
82496834|NCT04518293|164685514|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.55|||||TWO_SIDED|95.0|-1.494|1.913||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 12 was calculated between GMRx2 and dual-AI arms.||1.913|-1.494|
82496835|NCT04518293|164685515|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.01|||||TWO_SIDED|95.0|-1.931|1.149||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TA arms.||1.149|-1.931|
82496836|NCT04518293|164685515|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.0|||||TWO_SIDED|95.0|-1.979|1.143||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-TI arms.||1.143|-1.979|
82496837|NCT04518293|164685515|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.36|||||TWO_SIDED|95.0|-1.374|1.453||||||The Risk difference (95% CI) in percentage of participants with serum potassium concentration above 5.5 mmol/l at Week 6 was calculated between GMRx2 and dual-AI arms.||1.453|-1.374|
82496838|NCT04518293|164685516|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.39|||||TWO_SIDED|95.0|-2.014|2.087||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-TA arms.||2.087|-2.014|
82496839|NCT04518293|164685516|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-1.015|2.633||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-TI arms.||2.633|-1.015|
82496840|NCT04518293|164685516|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|1.09|||||TWO_SIDED|95.0|-1.015|2.633||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 12 was calculated between GMRx2 and dual-AI arms.||2.633|-1.015|
82496841|NCT04518293|164685517|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.16|||||TWO_SIDED|95.0|-2.501|1.385||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-TA arms.||1.385|-2.501|
82496842|NCT04518293|164685517|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.54|||||TWO_SIDED|95.0|-3.078|1.108||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-TI arms.||1.108|-3.078|
82496843|NCT04518293|164685517|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.18|||||TWO_SIDED|95.0|-2.571|1.37||||||The Risk difference (95% CI) in percentage of participants with eGFR drop of over 30% at Week 6 was calculated between GMRx2 and dual-AI arms.||1.370|-2.571|
82496844|NCT04518293|164685518|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|10.55|||||TWO_SIDED|95.0|5.422|15.138||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-TA arms.||15.138|5.422|
82496845|NCT04518293|164685518|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|3.11|||||TWO_SIDED|95.0|-2.776|8.49||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-TI arms.||8.490|-2.776|
82496846|NCT04518293|164685518|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-7.807|4.174||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 12 was calculated between GMRx2 and dual-AI arms.||4.174|-7.807|
82496847|NCT04518293|164685519|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|5.47|||||TWO_SIDED|95.0|0.531|9.867||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-TA arms.||9.867|0.531|
82496848|NCT04518293|164685519|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|4.92|||||TWO_SIDED|95.0|-0.136|9.397||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-TI arms.||9.397|-0.136|
82496849|NCT04518293|164685519|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-1.6|||||TWO_SIDED|95.0|-7.299|3.567||||||The Risk difference (95% CI) in percentage of participants with serum sodium \<135mmol/L or \>145 mmol/L, and/or serum potassium \<3.5 mmol/L or \>5.5mmol/L at Week 6 was calculated between GMRx2 and dual-AI arms.||3.567|-7.299|
82496850|NCT04518293|164685520|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.06||||0.9677|TWO_SIDED|95.0|-3.825|3.019|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-TA arms.||3.019|-3.825|0.9677
82496851|NCT04518293|164685520|OTHER||Risk Difference (RD)|-2.35||||0.1952|TWO_SIDED|95.0|-6.55|1.125|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-TI arms.||1.125|-6.550|0.1952
82496852|NCT04518293|164685520|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.53||||0.7453|TWO_SIDED|95.0|-4.428|2.642|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 6 was calculated between GMRx2 and dual-AI arms.||2.642|-4.428|0.7453
82496853|NCT04518293|164685521|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.12||||0.9415|TWO_SIDED|95.0|-3.657|3.222|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-TA arms.||3.222|-3.657|0.9415
82496854|NCT04518293|164685521|OTHER||Risk Difference (RD)|-2.53||||0.1719|TWO_SIDED|95.0|-6.799|1.019|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-TI arms.||1.019|-6.799|0.1719
82496855|NCT04518293|164685521|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.16||||0.2342|TWO_SIDED|95.0|-6.38|1.326|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypotension at Week 12 was calculated between GMRx2 and dual-AI arms.||1.326|-6.380|0.2342
82496856|NCT04518293|164685522|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.87||||0.3548|TWO_SIDED|95.0|-9.316|3.215|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-TA arms.||3.215|-9.316|0.3548
82496857|NCT04518293|164685522|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.94||||0.7529|TWO_SIDED|95.0|-5.356|6.8|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-TI arms.||6.800|-5.356|0.7529
82496858|NCT04518293|164685522|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-2.32||||0.4563|TWO_SIDED|95.0|-8.791|3.772|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 6 was calculated between GMRx2 and dual-AI arms.||3.772|-8.791|0.4563
82496859|NCT04518293|164685523|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|0.11||||0.9691|TWO_SIDED|95.0|-6.063|5.859|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-TA arms.||5.859|-6.063|0.9691
82496860|NCT04518293|164685523|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-3.59||||0.2454|TWO_SIDED|95.0|-10.018|2.462|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-TI arms.||2.462|-10.018|0.2454
82496861|NCT04518293|164685523|OTHER|95% CI for risk difference utilized Newcombe estimation method.|Risk Difference (RD)|-0.33||||0.913|TWO_SIDED|95.0|-6.583|5.488|||Wald test|||The Risk difference (95% CI) in percentage of participants with orthostatic hypertension at Week 12 was calculated between GMRx2 and dual-AI arms.||5.488|-6.583|0.9130
82496862|NCT01217801|164685524|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|93.77||||0.05|TWO_SIDED|90.0|89.15|98.63|||Regression, Linear|||Linear mixed effect model, log transformed AUC, LSMeans for treatment Film and Tablet, the difference between the LSMeans and 90%CI calculated and transformed to geometric means, ratio estimates and 90%CI||98.63|89.15|0.05
82496863|NCT00545662|164685530|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.98||||0.76|TWO_SIDED|95.0|0.83|1.14||a priori threshold for statistical significance is 0.05|Regression, Logistic|Logistic regression estimated global OR. GEE accounted for correlations of the scales. Models adjusted for site \& injury severity.|The odds in the citicoline group were compared to the odds in the placebo group.|"Null hypothesis: The placebo and citicoline groups do not differ at 90-days on the Core Battery~Power:~1. Two sided type I error of 0.05~2. 85% power~3. Expected OR=1.40 for the global statistic~4. Response rate in the control group~5. Correlations among the nine measures were accounted for. Response rates for the whole sample were a weighted average of the rates provided by TBI severity.~1240 participants were required to detect an OR \>= 1.4 for the global statistic."||1.14|0.83|0.76
82496864|NCT01146418|164685531|SUPERIORITY_OR_OTHER_LEGACY||Estimated Difference|-1.8|||||TWO_SIDED|95.0|-6.5|3.0|||Clopper-Pearson method|Difference calculated using generalized linear model including covariates for treatment group and age class as stratified (≤38 yrs vs \>38 yrs)||||3.0|-6.5|
82496865|NCT01146418|164685532|SUPERIORITY_OR_OTHER_LEGACY||Estimated difference|-1.2|||||TWO_SIDED|95.0|-5.7|3.4|||Clopper-Pearson method|Difference calculated using generalized linear model including covariates for treatment group and age class as stratified (≤38 yrs vs \>38 yrs)||||3.4|-5.7|
82496866|NCT03926169|164685533|SUPERIORITY||Adjusted Response Rate Difference (%)|6.0||||0.422|TWO_SIDED|97.5|-10.8|22.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||22.8|-10.8|0.422
82496867|NCT03926169|164685533|SUPERIORITY||Adjusted Response Rate Difference (%)|1.3||||0.858|TWO_SIDED|97.5|-15.4|18.1||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||18.1|-15.4|0.858
82496868|NCT03926169|164685534|SUPERIORITY||Adjusted Response Rate Difference (%)|-3.0||||0.725|TWO_SIDED|97.5|-21.8|15.9||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||15.9|-21.8|0.725
82496869|NCT03926169|164685534|SUPERIORITY||Adjusted Response Rate Difference (%)|8.8||||0.301|TWO_SIDED|97.5|-10.3|27.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||27.8|-10.3|0.301
82496870|NCT03926169|164685535|SUPERIORITY||Adjusted Response Rate Difference (%)|3.7||||0.65|TWO_SIDED|97.5|-14.5|21.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||21.8|-14.5|0.650
82496871|NCT03926169|164685535|SUPERIORITY||Adjusted Response Rate Difference (%)|12.3||||0.147|TWO_SIDED|97.5|-6.7|31.3||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||31.3|-6.7|0.147
82496872|NCT03926169|164685536|SUPERIORITY||Adjusted Response Rate Difference (%)|-6.5||||0.342|TWO_SIDED|97.5|-21.8|8.8||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||8.8|-21.8|0.342
82496873|NCT03926169|164685536|SUPERIORITY||Adjusted Response Rate Difference (%)|-10.6||||0.108|TWO_SIDED|97.5|-25.3|4.2||Across the strata, 97.5% confidence interval for adjusted difference and P-value were calculated according to the Cochran-Mantel-Haenszel test adjusted for the actual values stratification factors under a two-sided alpha level 0.025 for each dose.|Cochran-Mantel-Haenszel|||||4.2|-25.3|0.108
82496874|NCT03926169|164685537|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|0.97||0.179|TWO_SIDED|97.5|-3.5|0.9||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.9|-3.5|0.179
82496875|NCT03926169|164685537|SUPERIORITY||LS Mean Difference|-1.6|STANDARD_ERROR_OF_MEAN|0.98||0.105|TWO_SIDED|97.5|-3.8|0.6||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.6|-3.8|0.105
82496876|NCT03926169|164685538|SUPERIORITY||LS Mean Difference|0.118|STANDARD_ERROR_OF_MEAN|0.3385||0.727|TWO_SIDED|97.5|-0.646|0.883||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.883|-0.646|0.727
82496877|NCT03926169|164685538|SUPERIORITY||LS Mean Difference|-0.015|STANDARD_ERROR_OF_MEAN|0.3273||0.963|TWO_SIDED|97.5|-0.755|0.724||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.724|-0.755|0.963
82496878|NCT03926169|164685539|SUPERIORITY||LS Mean Difference|0.042|STANDARD_ERROR_OF_MEAN|0.2941||0.886|TWO_SIDED|97.5|-0.622|0.706||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.706|-0.622|0.886
82496879|NCT03926169|164685539|SUPERIORITY||LS Mean Difference|0.236|STANDARD_ERROR_OF_MEAN|0.2851||0.409|TWO_SIDED|97.5|-0.408|0.879||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.879|-0.408|0.409
82496880|NCT03926169|164685540|SUPERIORITY||LS Mean Difference|-0.252|STANDARD_ERROR_OF_MEAN|0.3212||0.434|TWO_SIDED|97.5|-0.977|0.473||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.473|-0.977|0.434
82496881|NCT03926169|164685540|SUPERIORITY||LS Mean Difference|-0.074|STANDARD_ERROR_OF_MEAN|0.3123||0.813|TWO_SIDED|97.5|-0.779|0.631||Mixed-effect model repeat measures analysis with treatment, visit, treatment by visit interaction, stratification factor and baseline measurement in the model. An unstructured variance covariance matrix is used.|mixed-effect model repeat measures|||||0.631|-0.779|0.813
82496882|NCT03789474|164685541|SUPERIORITY|||||||0.443|||||||t-test, 2 sided|||||||.443
82496883|NCT03789474|164685542|SUPERIORITY|||||||0.063|||||||t-test, 2 sided|||||||.063
82496884|NCT03789474|164685543|SUPERIORITY|||||||0.057|||||||t-test, 2 sided|||||||.057
82496885|NCT03789474|164685544|SUPERIORITY|||||||0.038|||||||t-test, 2 sided|||||||.038
82496886|NCT03789474|164685545|SUPERIORITY|||||||0.072|||||||t-test, 2 sided|||||||.072
82496887|NCT03789474|164685546|SUPERIORITY|||||||0.189|||||||t-test, 2 sided|||||||.189
82496888|NCT03789474|164685547|SUPERIORITY|||||||0.358|||||||t-test, 2 sided|||||||.358
82496889|NCT03789474|164685548|SUPERIORITY|||||||0.406|||||||t-test, 2 sided|||||||.406
82496890|NCT03789474|164685549|SUPERIORITY|||||||0.256|||||||t-test, 2 sided|||||||.256
82496891|NCT03789474|164685550|SUPERIORITY|||||||0.066|||||||t-test, 2 sided|||||||.066
82496892|NCT03789474|164685551|SUPERIORITY|||||||0.316|||||||t-test, 2 sided|||||||.316
82496893|NCT03789474|164685552|SUPERIORITY|||||||0.971|||||||t-test, 2 sided|||||||.971
82496894|NCT03789474|164685553|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.030
82496895|NCT03789474|164685554|SUPERIORITY|||||||0.009|||||||t-test, 2 sided|||||||.009
82496896|NCT03789474|164685555|SUPERIORITY|||||||0.704|||||||t-test, 2 sided|||||||.704
82496897|NCT03789474|164685556|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.350
82496898|NCT03789474|164685557|SUPERIORITY|||||||0.708|||||||t-test, 2 sided|||||||.708
82496899|NCT03789474|164685558|SUPERIORITY|||||||0.711|||||||t-test, 2 sided|||||||.711
82496900|NCT03789474|164685559|SUPERIORITY|||||||0.956|||||||t-test, 2 sided|||||||.956
82496901|NCT03789474|164685560|SUPERIORITY|||||||0.139|||||||t-test, 2 sided|||||||.139
82496902|NCT03789474|164685561|SUPERIORITY|||||||0.035|||||||t-test, 2 sided|||||||.035
82496903|NCT03789474|164685562|SUPERIORITY|||||||0.502|||||||t-test, 2 sided|||||||.502
82496904|NCT03789474|164685563|SUPERIORITY|||||||0.35|||||||t-test, 2 sided|||||||.350
82496905|NCT03789474|164685564|SUPERIORITY|||||||0.38|||||||t-test, 2 sided|||||||.380
82496906|NCT03789474|164685565|SUPERIORITY|||||||0.914|||||||t-test, 2 sided|||||||.914
82496907|NCT03789474|164685566|SUPERIORITY|||||||0.915|||||||t-test, 2 sided|||||||.915
82496908|NCT03789474|164685567|SUPERIORITY|||||||0.087|||||||t-test, 2 sided|||||||.087
82496909|NCT03789474|164685568|SUPERIORITY|||||||0.011|||||||t-test, 2 sided|||||||.011
82496910|NCT03789474|164685569|SUPERIORITY|||||||0.207|||||||t-test, 2 sided|||||||.207
82496911|NCT03789474|164685570|SUPERIORITY|||||||0.142|||||||t-test, 2 sided|||||||.142
82496912|NCT03789474|164685571|SUPERIORITY|||||||0.021|||||||t-test, 2 sided|||||||.021
82496913|NCT03789474|164685572|SUPERIORITY|||||||0.0001|||||||t-test, 2 sided|||||||0.0001
82496914|NCT03789474|164685573|SUPERIORITY|||||||0.03|||||||t-test, 2 sided|||||||.030
82496915|NCT03789474|164685574|SUPERIORITY|||||||0.048|||||||t-test, 2 sided|||||||.048
82496916|NCT03789474|164685575|SUPERIORITY|||||||0.047|||||||t-test, 2 sided|||||||.047
82496917|NCT03789474|164685576|SUPERIORITY|||||||0.019|||||||t-test, 2 sided|||||||.019
82496918|NCT03789474|164685577|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
82496919|NCT03789474|164685578|SUPERIORITY|||||||0.004|||||||t-test, 2 sided|||||||.004
82496920|NCT03789474|164685579|SUPERIORITY|||||||0.02|||||||t-test, 2 sided|||||||.020
82496921|NCT03789474|164685580|SUPERIORITY|||||||0|||||||t-test, 2 sided|||||||.000
82496922|NCT03789474|164685581|SUPERIORITY|||||||0.053|||||||t-test, 2 sided|||||||.053
82496923|NCT03789474|164685582|SUPERIORITY|||||||0.746|||||||t-test, 2 sided|||||||.746
82496924|NCT03789474|164685583|SUPERIORITY|||||||0.006|||||||t-test, 2 sided|||||||.006
82496925|NCT03789474|164685584|SUPERIORITY|||||||0.003|||||||t-test, 2 sided|||||||.003
82496926|NCT03789474|164685585|SUPERIORITY|||||||0.043|TWO_SIDED|95.0|||||t-test, 2 sided|||||||0.043
82496927|NCT03789474|164685586|SUPERIORITY|||||||0.16|||||||t-test, 2 sided|||||||.160
82496928|NCT04523220|164685609|OTHER||Cox Proportional Hazard|0.59|||=|0.222|TWO_SIDED|90.0|0.28|1.21||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.21|0.28|= 0.222
82496929|NCT04523220|164685609|OTHER||Cox Proportional Hazard|0.72|||=|0.427|TWO_SIDED|90.0|0.36|1.42||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.42|0.36|= 0.427
82496930|NCT04523220|164685610|OTHER||Cox Proportional Hazard|1.27|||=|0.128|TWO_SIDED|90.0|0.98|1.64||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.64|0.98|= 0.128
82496931|NCT04523220|164685610|OTHER||Cox Proportional Hazard|1.24|||=|0.166|TWO_SIDED|90.0|0.96|1.61||Due to the explorative nature of these analyses, no multiplicity adjustment was done.|Log Rank|||Two-sided log-rank tests and Cox proportional hazards model were used in the analyses.||1.61|0.96|= 0.166
82496932|NCT00843024|164685619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.003|TWO_SIDED|95.0|0.09|0.3||Adjusted for multiplicity according to the fixed sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 10 mg/Naproxen 60 mg minus placebo|||0.30|0.09|0.003
82496933|NCT00843024|164685619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.16||||0.003|TWO_SIDED|95.0|0.07|0.26||Adjusted for multiplicity according to the fixed-sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 30 mg/Naproxen180 mg minus placebo|||0.26|0.07|0.003
82496934|NCT00843024|164685619|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.13||||0.003|TWO_SIDED|95.0|0.05|0.22||Adjusted for multiplicity according to the fixed-sequence testing strategy|Cochran-Mantel-Haenszel||Sumatriptan 85 mg/Naproxen 500 mg minus placebo|||0.22|0.05|0.003
82496935|NCT03727347|164685677|SUPERIORITY||||||<|0.0001|||||||t-test, 2 sided|Hypothesis was that the improvement (decrease) in rTNSS mean score, from baseline to 12 weeks, would exceed 1 point||||||<0.0001
82496936|NCT00006237|164685683|SUPERIORITY_OR_OTHER|||||||0.49||95.0|||||Log Rank|||||||0.49
82496937|NCT00006237|164685684|SUPERIORITY_OR_OTHER|||||||0.02||95.0|||||Log Rank|||||||0.02
82496938|NCT01372462|164685713|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Newman-Keuls multiple comparisons test||The primary endpoint was difference in endurance between nasal cannula oxygen and NIOV+O2. Assuming 153 sec clinically important difference, 183 sec SD, and α=0.05, a sample size of 15 yielded 85% power.||||<0.05
82496939|NCT01372462|164685713|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496940|NCT01372462|164685713|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496941|NCT01372462|164685714|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|Newman-Keuls multiple comparisons test||One-way, repeated-measures ANOVA and Newman-Keuls multiple comparisons test||||< 0.05
82496942|NCT01372462|164685714|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496943|NCT01372462|164685714|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496944|NCT01372462|164685715|SUPERIORITY_OR_OTHER||||||<|0.05||||||One-way, repeated-measures ANOVA and Newman-Keuls multiple comparisons tests|ANOVA|Newman-Keuls multiple comparisons tests||Per protocol||||<0.05
82496945|NCT01372462|164685715|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496946|NCT01372462|164685715|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||||||<0.05
82496947|NCT00279305|164685742|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Final Values)|0.139|STANDARD_ERROR_OF_MEAN|0.104||0.05|TWO_SIDED|95.0|-0.0699|0.348|||ANCOVA|||"The calculation for the concentration of c-peptide is a weighted average of the 6 timed measurements of c-peptide in nano-moles/Liter. We try to distinguish this calculation from the AUC by referring to it as the AUC mean and may be expressed algebraically as the AUC/(120 min.); thus, the units are the same as the y-axis."||0.348|-0.0699|0.05
82496948|NCT02324569|164685808|SUPERIORITY||Least square (LS) mean difference|-0.63|STANDARD_ERROR_OF_MEAN|0.097|<|0.0001|TWO_SIDED|95.0|-0.826|-0.443|||ANCOVA|||||-0.443|-0.826|<0.0001
82496949|NCT00903695|164685871|SUPERIORITY_OR_OTHER|||||||0.8133||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA calculation: F-ratio = 0.06, t-test = -0.25."||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.8133
82496950|NCT00903695|164685872|SUPERIORITY_OR_OTHER|||||||0.31||||||a priori threshold for statistical sginficance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA calculation: F-ratio=1.22, t-test=1.1"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.31
82496951|NCT00903695|164685873|SUPERIORITY_OR_OTHER|||||||0.27||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.5, t-test = -1.23"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.27
82496952|NCT00903695|164685874|SUPERIORITY_OR_OTHER|||||||0.24||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.7, t-test = 1.3"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.24
82499894|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|31.8|||||TWO_SIDED|95.0|14.8|48.5|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||48.5|14.8|
82496953|NCT00903695|164685875|SUPERIORITY_OR_OTHER|||||||0.71||95.0||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 0.15, t-test = 0.39"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.71
82496954|NCT00903695|164685876|SUPERIORITY_OR_OTHER|||||||0.18||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 2.25, ttest = -1.5"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.18
82496955|NCT00903695|164685877|SUPERIORITY_OR_OTHER|||||||0.34||||||a priori threshold for statistical significance = 0.01 (multiple comparisons)|ANOVA|"DF = 6~ANOVA: F-ratio = 1.06, t-test = -1.03"||ANOVA used to detect significant difference in test scores between baseline and end assessments, by study arm (nutriceutical vs placebo).||||0.34
82496956|NCT00208091|164685909|SUPERIORITY_OR_OTHER||||||=|0.06||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.06
82496957|NCT00208091|164685910|SUPERIORITY_OR_OTHER||||||=|0.23||95.0|||||Wilcoxon (Mann-Whitney)|||||||=0.23
82496958|NCT02495168|164685934|EQUIVALENCE|To show the clinical equivalence, an analysis of covariance (ANCOVA) model was fit on the participants from the generic budesonide/formoterol fumarate and Symbicort groups only, with the endpoint as outcome and treatment, study site and treatment by site interaction as fixed effects and FEV1 baseline value as covariate. If the treatment-by-site interaction factor was not significant at the 0.05 level, the model was to be rerun without the interaction term.|Test/Referece LS Mean Ratio|101.9|||||TWO_SIDED|90.0|92.7|111.9|||||Fieller's formula was applied to calculate the 90% confidence interval (CI) for the generic budesonide/formoterol fumarate and Symbicort LS mean ratio; covariance between treatment means was assumed to be 0.|||111.9|92.7|
82496959|NCT02495168|164685935|SUPERIORITY||LS Mean Difference|2.334|||<|0.0001|TWO_SIDED|95.0|1.673|2.996||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on generic budesonide/formoterol fumarate dihydrate and Placebo participants only.||2.996|1.673|<0.0001
82496960|NCT02495168|164685935|SUPERIORITY||LS Mean Difference|2.606|||<|0.0001|TWO_SIDED|95.0|1.939|3.273||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on Symbicort and Placebo participants only.||3.273|1.939|<0.0001
82496961|NCT02495168|164685936|EQUIVALENCE|To show the clinical equivalence, an ANCOVA model was fit on the participants from the generic budesonide/formoterol fumarate and Symbicort groups only, with the endpoint as outcome and treatment, study site and treatment-by site interaction as fixed effects and FEV1 baseline value as covariate. If the treatment-by-site interaction factor was not significant at the 0.05 level, the model was to be rerun without the interaction term.|Test/Reference LS Mean Ratio|99.8|||||TWO_SIDED|90.0|87.0|114.5|||||Fieller's formula was applied to calculate the 90% CI for the generic budesonide/formoterol fumarate and Symbicort LS mean ratio; covariance between treatment means was assumed to be 0.|||114.5|87.0|
82496962|NCT02495168|164685937|SUPERIORITY||LS Mean Difference|0.159|||<|0.0001|TWO_SIDED|95.0|0.093|0.226||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on generic budesonide/formoterol fumarate dihydrate and Placebo participants only.||0.226|0.093|<0.0001
82496963|NCT02495168|164685937|SUPERIORITY||LS Mean Difference|0.164|||<|0.0001|TWO_SIDED|95.0|0.099|0.229||Threshold for significance at 0.05 level.|ANCOVA|||LS means difference and p-value from ANCOVA model with treatment and site as fixed effects, baseline FEV1 as covariate and endpoint as outcome on Symbicort and Placebo participants only.||0.229|0.099|<0.0001
82496964|NCT03521934|164685938|SUPERIORITY||Hazard Ratio (HR)|0.67|||<|0.001|TWO_SIDED|95.0|0.52|0.85|||Cox proportional hazards model|||The estimates of the hazard ratio (HR) and corresponding 2-sided 95% confidence interval (CI) was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-cardiovascular (non-CV) death treated as a competing event.||0.85|0.52|< 0.001
82496965|NCT03521934|164685939|SUPERIORITY||Hazard Ratio (HR)|0.64|||<|0.001|TWO_SIDED|95.0|0.49|0.83|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.83|0.49|< 0.001
82496966|NCT03521934|164685940|SUPERIORITY||Hazard Ratio (HR)|0.84|||=|0.36|TWO_SIDED|95.0|0.58|1.22|||Cox proportional hazards model|||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||1.22|0.58|= 0.36
82496967|NCT03521934|164685941|SUPERIORITY||Hazard Ratio (HR)|0.72|||||TWO_SIDED|95.0|0.56|0.92||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.92|0.56|
82496968|NCT03521934|164685942|SUPERIORITY||Hazard Ratio (HR)|0.68|||||TWO_SIDED|95.0|0.54|0.86||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction, with non-CV death treated as a competing event.||0.86|0.54|
82496969|NCT03521934|164685943|SUPERIORITY||Hazard Ratio (HR)|0.82|||||TWO_SIDED|95.0|0.59|1.14||||||The estimates of the HR and corresponding 2-sided 95% CI was to be provided by a marginal Cox proportional hazard model stratified by region and ejection fraction.||1.14|0.59|
82496970|NCT03521934|164685944|SUPERIORITY||Hazard Ratio (HR)|4.1|||||TWO_SIDED|95.0|1.3|7.0||||||The change from baseline to Month 4 was analyzed using an ANCOVA model with treatment groups as factor and baseline KCCQ-12 score and randomization stratification factors as covariates.||7|1.3|
82496971|NCT03521934|164685945|SUPERIORITY||Difference in Least Squares Means|-0.16|||||TWO_SIDED|95.0|-1.3|0.98||||||Rate of decline in eGFR observed over time was analyzed by MMRM with absolute change in eGFR from baseline as the outcome, a random effect for intercept, and fixed effects for treatment, baseline value, and time.||0.98|-1.3|
82496972|NCT01391559|164685957|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|32.0||||0.17||95.0|||||t-test, 2 sided|||||||0.17
82496973|NCT03454997|164685973|SUPERIORITY||Mean Difference (Net)|5.5|||||TWO_SIDED|95.0|3.9|7.1||||||comparison of baseline and 6 months across both groups||7.1|3.9|
82496974|NCT03454997|164685973|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-2.3|1.1||||||between groups differences of change between baseline and 6 months||1.1|-2.3|
82496975|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.4|0.4||||||leading behavioral weight loss group baseline to 6 months comparison||0.4|-1.4|
82496976|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-0.05|||||TWO_SIDED|95.0|-2.0|1.0||||||leading behavioral weight loss group between group comparison of change||1.0|-2.0|
82496977|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-1.4|0.2||||||completing weight ins baseline to 6 month comparison||0.2|-1.4|
82496978|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-1.0|||||TWO_SIDED|95.0|-2.5|0.5||||||completing weigh ins between groups comparison of change||0.5|-2.5|
82496979|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-1.2|0.3||||||managing a group session baseline to 6 months comparison||0.3|-1.2|
82496980|NCT03454997|164685974|SUPERIORITY||Mean Difference (Net)|-0.5|||||TWO_SIDED|95.0|-2.0|1.1||||||managing a group session between groups comparison of change||1.1|-2.0|
82496981|NCT03454997|164685975|SUPERIORITY||Mean Difference (Net)|0.5|||||TWO_SIDED|95.0|-2.0|2.9||||||comparison between baseline and 6 months across groups||2.9|-2.0|
82496982|NCT03454997|164685975|SUPERIORITY||Mean Difference (Net)|-4.1|||||TWO_SIDED|95.0|-9.1|0.8||||||between groups comparison of change post training to 6 months||0.8|-9.1|
82496983|NCT03454997|164685976|SUPERIORITY||Mean Difference (Net)|-3.3|||||TWO_SIDED|95.0|-6.9|0.3||||||comparison of baseline to 6 months across both groups||0.3|-6.9|
82496984|NCT03454997|164685976|SUPERIORITY||Mean Difference (Net)|-4.8|||||TWO_SIDED|95.0|-11.4|1.8||||||comparison of between group differences baseline to 6 months||1.8|-11.4|
82496985|NCT03454997|164685977|SUPERIORITY||Mean Difference (Net)|0.3|||||TWO_SIDED|95.0|-0.4|1.1||||||Comparison of Baseline \& 6 Months across both groups||1.1|-0.4|
82496986|NCT03454997|164685977|SUPERIORITY||Mean Difference (Net)|-0.9|||||TWO_SIDED|95.0|-2.0|0.2||||||Between Groups Differences of Change between Baseline \& 6 Months||0.2|-2.0|
82496987|NCT03454997|164685978|SUPERIORITY||Mean Difference (Net)|-0.6|||||TWO_SIDED|95.0|-4.5|3.3||||||comparison of between group differences baseline to 6 months||3.3|-4.5|
82496988|NCT03454997|164685978|SUPERIORITY||Mean Difference (Net)|-1.6|||||TWO_SIDED|95.0|-3.1|0.2||||||comparison of baseline to 6 months across groups||0.2|-3.1|
82496989|NCT03454997|164685979|SUPERIORITY||Mean Difference (Net)|-3.8|||||TWO_SIDED|95.0|-6.1|-1.6||||||comparison of baseline and 6 months across groups||-1.6|-6.1|
82496990|NCT03454997|164685979|SUPERIORITY||Mean Difference (Net)|-6.6|||||TWO_SIDED|95.0|-20.2|6.9||||||between groups differences of change between baseline to 6 months||6.9|-20.2|
82496991|NCT01191801|164686020|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.87||||0.0305|ONE_SIDED|95.0||||Unstratified one sided P-Value|Unstratified Log Rank|Since the sample size was increased, the primary analysis used the weighted statistic proposed by Cui, Hung, and Wang (Cui 1999).||||||0.0305
82496992|NCT01191801|164686021|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Two sided P-Value|Chi-squared|||||||<0.0001
82496993|NCT01191801|164686024|SUPERIORITY_OR_OTHER||||||<|0.0001|TWO_SIDED|||||Two sided P-Value|Chi-squared|||||||<0.0001
82496994|NCT01191801|164686025|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.67|||<|0.0001|ONE_SIDED|95.0||||Unstratified one-sided P-Value|Log Rank|||||||<0.0001
82496995|NCT01191801|164686026|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.89||||0.3134|TWO_SIDED|95.0||||One sided P-Value|Log Rank|||||||0.3134
82496996|NCT01774604|164686090|SUPERIORITY_OR_OTHER|||||||0.33|||||||Fisher Exact|||||||0.33
82496997|NCT01774604|164686091|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82496998|NCT01774604|164686092|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||||||1.00
82496999|NCT01774604|164686093|SUPERIORITY_OR_OTHER|||||||0.15|||||||Fisher Exact|||||||0.15
82497000|NCT01774604|164686094|SUPERIORITY_OR_OTHER|||||||0.75|||||||Fisher Exact|||||||0.75
82497001|NCT01774604|164686095|SUPERIORITY_OR_OTHER|||||||0.25|||||||Fisher Exact|||||||0.25
82497002|NCT01774604|164686096|SUPERIORITY_OR_OTHER|||||||0.1|||||||Fisher Exact|||||||0.10
82497003|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.08|||<|0.001|TWO_SIDED|95.0|1.05|1.11||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons. Age was treated as a continuous variable in years.|Regression, Cox||The hazard ratio represented the effect of a one year increase in age on a patient's risk of developing AF. Descriptive statistics (mean±standard deviation) for age were 75.7±7.9 years among patients with AF, and 69.4±10.0 among patients without AF|The null hypothesis was that age did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.11|1.05|< 0.001
82497004|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.04||||0.02|TWO_SIDED|95.0|1.01|1.08||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons. BMI was treated as a continuous variable.|Regression, Cox||The hazard ratio represented the effect of a one unit increase in BMI on a patient's risk of developing AF. Descriptive statistics (mean ± standard deviation) for BMI were 31.0 ± 6.6 among patients with AF, and 31.2 ± 6.4 among patients without AF|The null hypothesis was that body mass index (BMI) did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.08|1.01|0.02
82497005|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.11||||0.56|TWO_SIDED|95.0|0.77|1.61||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of being male on a patient's risk of developing AF.|The null hypothesis was that gender did not influence a patient's risk of experiencing AF (it's coefficient for being male in a Cox proportional hazards model was 0).||1.61|0.77|0.56
82497006|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.09||||0.66|TWO_SIDED|95.0|0.74|1.59||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having diabetes on a patient's risk of developing AF.|The null hypothesis was that diabetes did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.59|0.74|0.66
82499127|NCT02057406|164689275|SUPERIORITY|Active supplements (2:1 EPA/DHA and High EPA combined) versus placebo at Week 12.|||||<|0.0001|||||||ANCOVA|||The model used post-treatment EPA values as the dependent variable and included age, race, sex, treatment site, and the baseline EPA value as covariates. This analyses was conducted under intention-to-treat (ITT) in which the missing EPA endpoint values were imputed using 50 imputations.||||<0.0001
82497007|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.08||||0.73|TWO_SIDED|95.0|0.69|1.69||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having heart failure on a patient's risk of developing AF.|The null hypothesis was that heart failure did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.69|0.69|0.73
82497008|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.23||||0.58|TWO_SIDED|95.0|0.58|2.6||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having hypertension on a patient's risk of developing AF.|The null hypothesis was that hypertension did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||2.60|0.58|0.58
82497009|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.92||||0.65|TWO_SIDED|95.0|0.64|1.32||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having renal impairment on a patient's risk of developing AF.|The null hypothesis was that renal impairment did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.32|0.64|0.65
82497010|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.73||||0.22|TWO_SIDED|95.0|0.45|1.2||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having COPD on a patient's risk of developing AF.|The null hypothesis was that Chronic obstructive pulmonary disease (COPD) did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.20|0.45|0.22
82497011|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.86||||0.53|TWO_SIDED|95.0|0.54|1.38||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having a prior stroke (more than one year pre-device implant) on a patient's risk of developing AF.|The null hypothesis was that prior stroke more than one year pre-device implant did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.38|0.54|0.53
82497012|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.78||||0.21|TWO_SIDED|95.0|0.53|1.15||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having coronary artery disease on a patient's risk of developing AF.|The null hypothesis was that coronary artery disease did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.15|0.53|0.21
82497013|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.72||||0.19|TWO_SIDED|95.0|0.45|1.17||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having sleep apnea on a patient's risk of developing AF.|The null hypothesis was that sleep apnea did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.17|0.45|0.19
82497014|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|1.97||||0.16|TWO_SIDED|95.0|0.76|5.14||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having a family history of AF on a patient's risk of developing AF.|The null hypothesis was that family history of AF did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||5.14|0.76|0.16
82497015|NCT01727297|164686098|SUPERIORITY||Hazard Ratio (HR)|0.89||||0.63|TWO_SIDED|95.0|0.56|1.43||All predictors were tested in a multivariable Cox proportional hazards regression model; the results were not adjusted for multiple comparisons.|Regression, Cox||The hazard ratio represented the effect of having vascular disease on a patient's risk of developing AF.|The null hypothesis was that vascular disease did not influence a patient's risk of experiencing AF (it's coefficient in a Cox proportional hazards model was 0).||1.43|0.56|0.63
82497016|NCT01115101|164686150|NON_INFERIORITY_OR_EQUIVALENCE|VAS score at 24h were defined as primary endpoint because of the expectation of the maximal effect at this time. Testing for differences of continuous variables between the study groups at baseline was accomplished by the 2-sample t test for independent samples or the Mann-Whitney U test, as appropriate.|Mean Difference (Net)|0.05|STANDARD_ERROR_OF_MEAN|0.05|<|0.05||95.0|||||Chi-squared|Test selection was based on evaluating the variables for normal distribution employing the Kolmogorov-Smirnov test.||"The sample size of n=120 was computed to detect a difference in VAS score at 24h of 1.2 (30% reduction) at a power of 80%, a two-sided significance level of 0.05.~Because measurements were made several times on the same patients within in two independent groups, GLM Repeated Measurement procedure was applied to test null hypotheses about the effects of both the between-subject factor (study group) and the within-subject factor (time)."||||<0.05
82497017|NCT02454296|164686155|SUPERIORITY_OR_OTHER|||||||0.01|||||||Wilcoxon (Mann-Whitney)|||||||0.01
82497018|NCT02454296|164686156|SUPERIORITY_OR_OTHER|||||||0.05|||||||Wilcoxon (Mann-Whitney)|||||||0.05
82497019|NCT02454296|164686157|SUPERIORITY_OR_OTHER|||||||0.34|||||||Wilcoxon (Mann-Whitney)|||||||0.34
82497020|NCT02837783|164686195|SUPERIORITY|||||||0.283|||||||Wilcoxon rank sum test|||||||0.283
82497021|NCT01362205|164686207|OTHER|||||||0.2454|||||||Wilcoxon (Mann-Whitney)|||||||0.2454
82497022|NCT02207244|164686218|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
82497023|NCT02207244|164686219|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
82497024|NCT02207244|164686220|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
82497025|NCT02207244|164686221|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
82497026|NCT02207244|164686222|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||||||< 0.001
82497027|NCT02207244|164686223|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Log Rank|||p value is based on the log-rank test stratified by investigator site (pooled).||||< 0.001
82497028|NCT02207244|164686224|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on analysis of variance (ANOVA) model stratified by investigator site (pooled).||||< 0.001
82497029|NCT02207244|164686225|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10.0%|Difference in Percentage|16.4|||<|0.001|TWO_SIDED|95.0|10.0|23.2|||MH Z-test|||p value is based on 1-sided Mantel Haenszel (MH) Z-test adjusted for investigator site (pooled).||23.2|10.0|< 0.001
82497030|NCT02207244|164686225|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82497031|NCT02207244|164686226|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10.0%|Difference in Percentage|23.3|||<|0.001|TWO_SIDED|95.0|16.0|30.4|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||30.4|16.0|< 0.001
82497032|NCT02207244|164686226|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82497033|NCT02207244|164686227|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|non-inferiority margin= -10%|Difference in percentage|17.7|||<|0.001|TWO_SIDED|95.0|11.4|24.4|||MH Z-test|||p value is based on 1-sided MH Z-test adjusted for investigator site (pooled).||24.4|11.4|< 0.001
82497034|NCT02207244|164686227|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82497035|NCT02207244|164686228|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82497036|NCT02207244|164686229|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||ANOVA|||p value is based on ANOVA model stratified by investigator site (pooled).||||< 0.001
82497037|NCT02207244|164686230|SUPERIORITY_OR_OTHER_LEGACY||||||<|0.001|||||||Cochran-Mantel-Haenszel chi-square test|||p value is based on the Cochran-Mantel-Haenszel chi-square test stratified by investigator site (pooled).||||< 0.001
82497038|NCT02846779|164686260|SUPERIORITY||Risk Ratio (RR)|0.88|||||TWO_SIDED|95.0|0.75|1.03||||||||1.03|0.75|
82497039|NCT02846779|164686260|SUPERIORITY||Risk Ratio (RR)|0.91|||||TWO_SIDED|95.0|0.77|1.06||||||||1.06|0.77|
82497040|NCT02846779|164686261|SUPERIORITY||Risk Difference (RD)|-0.15|||||TWO_SIDED|95.0|-0.34|0.05||||||||0.05|-0.34|
82497041|NCT02846779|164686261|SUPERIORITY||Risk Difference (RD)|-0.25|||||TWO_SIDED|95.0|-0.43|-0.06||||||||-0.06|-0.43|
82497042|NCT02846779|164686262|SUPERIORITY||Risk Ratio (RR)|1.03|||||TWO_SIDED|95.0|0.95|1.11||||||||1.11|0.95|
82497043|NCT02846779|164686262|SUPERIORITY||Risk Ratio (RR)|0.99|||||TWO_SIDED|95.0|0.92|1.06||||||||1.06|0.92|
82497044|NCT02846779|164686263|SUPERIORITY||Risk Ratio (RR)|1.0|||||TWO_SIDED|95.0|0.97|1.02||||||||1.02|0.97|
82497045|NCT02846779|164686263|SUPERIORITY||Risk Ratio (RR)|0.98|||||TWO_SIDED|95.0|0.96|1.0||||||||1.00|0.96|
82497046|NCT02846779|164686264|SUPERIORITY||Risk Ratio (RR)|1.38|||||TWO_SIDED|95.0|1.24|1.53||||||||1.53|1.24|
82497047|NCT02846779|164686264|SUPERIORITY||Risk Ratio (RR)|0.96|||||TWO_SIDED|95.0|0.85|1.07||||||||1.07|0.85|
82497048|NCT02846779|164686265|SUPERIORITY||Risk Ratio (RR)|1.22|||||TWO_SIDED|95.0|1.06|1.41||||||||1.41|1.06|
82497049|NCT02846779|164686265|SUPERIORITY||Risk Ratio (RR)|1.14|||||TWO_SIDED|95.0|0.99|1.32||||||||1.32|0.99|
82497050|NCT00887978|164686270|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L)|10.0||||0.089|TWO_SIDED|95.0|-2.0|22.0|||non-parametric ANCOVA|||Using an allocation ratio of 1:1 between UT-15C SR and placebo, a fixed sample size of approximately 266 subjects would provide at least 90% power at a significance level of 0.05 (two-sided hypothesis) to detect a 30 meter between-treatment difference in the change from Baseline in distance traversed during the 6-Minute Walk, assuming a standard deviation of 75 meters. A total sample size of approximately 300 subjects was determined to account for discontinuations during the enrollment period.||22.0|-2.0|0.089
82497051|NCT00887978|164686271|SUPERIORITY_OR_OTHER|||||||1||95.0|||||Fisher Exact|||||||1.00
82497052|NCT00887978|164686272|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) Estimate|0.0||||0.22|TWO_SIDED|95.0|-1.0|0.0|||Wilcoxon rank sum test|||||0.0|-1.0|0.22
82497053|NCT00887978|164686273|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) estimate|0.0||||0.43|TWO_SIDED|95.0|0.0|0.0||Imputation strategies were implemented for the 26 UT-15C subjects and 17 placebo subjects without values reported at Week 16.|Wilcoxon rank sum test|||||0.0|0.0|0.43
82497054|NCT00887978|164686275|SUPERIORITY_OR_OTHER||Hodges-Lehmann (H-L) estimate|0.0||||0.3|TWO_SIDED|95.0|0.0|1.0|||Wilcoxon rank sum test|||||1.0|0.0|0.30
82497055|NCT00887978|164686278|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|14.0||||0.058|TWO_SIDED|95.0|0.0|28.0|||ANCOVA|||||28.0|0.0|0.058
82497056|NCT00887978|164686279|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|15.0||||0.054|TWO_SIDED|95.0|-1.0|29.0|||ANCOVA|||||29.0|-1.0|0.054
82497057|NCT00887978|164686281|SUPERIORITY_OR_OTHER||Hodges-Lehman Estimate|4.0||||0.674|TWO_SIDED|95.0|-16.0|24.0|||ANCOVA|||||24.0|-16.0|0.674
82497058|NCT00887978|164686282|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|28.0||||0.059|TWO_SIDED|95.0|1.0|59.0|||ANCOVA|||||59.0|1.0|0.059
82497059|NCT00887978|164686283|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|10.0||||0.22|TWO_SIDED|95.0|-10.0|31.0|||ANCOVA|||||31.0|-10.0|0.22
82497060|NCT00887978|164686284|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|3.0||||0.99|TWO_SIDED|95.0|-23.0|28.0|||ANCOVA|||||28.0|-23.0|0.99
82497061|NCT00887978|164686285|SUPERIORITY_OR_OTHER||Hodges-Lehmann Estimate|-2.0||||0.84||95.0|-25.0|22.0|||ANCOVA|||||22.0|-25.0|0.84
82497062|NCT00040937|164686292|SUPERIORITY_OR_OTHER||4-yr survival (%)|64.0|||||TWO_SIDED|95.0|55.0|74.0|||Kaplan and Meier|||The study was designed to have 82% power for detecting a 50% improvement in survival from a median of 4 years, as observed in SWOG S9321.||74|55|
82497063|NCT02016560|164686301|OTHER||Cox Proportional Hazard|1.581||||0.067|TWO_SIDED|95.0|0.968|2.581||A p-value of \<0.05 was the a priori threshold for statistical significance.|Cox proportional hazards|The Cox proportional hazard model was adjusted for baseline age, American National Adult Reading Test (ANART) score, and baseline CDR-SB score.||The specific hypothesis tested was that the hazard of progressing to the clinically meaningful event (defined as CDR-SB value change of at least 1 within 18 months) will be significantly greater for subjects with flortaucipir scans rated by majority interpretation as predicted to progress (Advanced AD scan pattern), as compared to subjects with scans rated as not predicted to progress (Moderate or Not AD scan pattern).||2.581|0.968|0.067
82497064|NCT02016560|164686302|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between AD and Older Cognitively Healthy within amyloid positive group.||||<0.0001
82497065|NCT02016560|164686302|OTHER|||||||0.0622||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between MCI and Older Cognitively Healthy within the amyloid positive group.||||0.0622
82497066|NCT02016560|164686302|OTHER||||||<|0.0001||||||No adjustment for multiple comparisons. No a priori threshold was set.|ANCOVA|Adjusted for age||ANCOVA model comparing the mean SUVr between AD and MCI within the amyloid positive group.||||<0.0001
82497067|NCT02016560|164686303|EQUIVALENCE|Test of whether the least squares mean change is significantly different than zero|||||<|0.0001|||||||Mixed Models Analysis|||SUVr change from baseline as dependent variable, baseline SUVr, age, and visit as independent variables, using an unstructured covariance structure for amyloid positive subjects only.||||<0.0001
82497068|NCT02016560|164686303|EQUIVALENCE|Test of whether the least squares mean change is significantly different than zero||||||0.7851|||||||Mixed Models Analysis|||SUVr change from baseline as dependent variable, baseline SUVr, age, and visit as independent variables, using an unstructured covariance structure for amyloid negative subjects only.||||0.7851
82497069|NCT02016560|164686304|OTHER||||||||||||||||||The hypothesis tested was that, of the 5 independent imaging physicians, at least 3 will have the lower bounds of 2-sided 95% confidence intervals ≥50%, for both sensitivity and specificity.|||
82497070|NCT02016560|164686305|OTHER||Pearson's correlation coefficient|-0.0925||||0.4361|TWO_SIDED||||||Pearson|||Pearson's correlation coefficient||||0.4361
82497071|NCT00911820|164686307|SUPERIORITY|||||||0.714|||||||Log Rank|||||||0.714
82497072|NCT00911820|164686309|SUPERIORITY|||||||0.605|||||||Fisher Exact|||||||0.605
82497073|NCT00911820|164686310|SUPERIORITY|||||||0.721|||||||Log Rank|||||||0.721
82497074|NCT00759031|164686322|SUPERIORITY_OR_OTHER|||||||0.05||95.0|||||ANOVA|||The null hypothesis states that there is no difference between groups.||||0.05
82497075|NCT00309387|164686337|SUPERIORITY_OR_OTHER||Cox Proportional Hazard|0.82||||0.03|TWO_SIDED|95.0|0.68|0.98|||Regression, Cox|||||0.98|0.68|0.03
82497076|NCT01599234|164686348|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.23||||0.22||95.0|-0.59|0.14|||ANCOVA|||The initial model used for the analysis of the end of study value was an analysis of covariance (ANCOVA) with baseline as a covariate and treatment group, centre group, ambulatory status at baseline and previous use of cannabis as main effects. Interactions between the main effects were investigated, and if they had little influence then they were dropped from the model. These tests were performed at the 10% significance level as a possible indicator of an interactive effect.||0.14|-0.59|0.220
82497077|NCT01599234|164686349|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.341||||0.231|TWO_SIDED|95.0|0.83|2.167|||ANCOVA|||The numbers of responders was analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio. The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||2.167|0.830|0.231
82497078|NCT01599234|164686350|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.16||||0.857|TWO_SIDED|95.0|-1.94|1.61|||ANCOVA|||The change at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.61|-1.94|0.857
82497079|NCT01599234|164686351|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.07||||0.734|TWO_SIDED|95.0|-0.55|0.4|||ANCOVA|||The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||0.40|-0.55|0.734
82497080|NCT01599234|164686353|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|0.0||||0.624|TWO_SIDED|95.0|-2.0|1.0|||ANCOVA|||The change at end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.0|-2.0|0.624
82497081|NCT01599234|164686354|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.248||||0.27|TWO_SIDED|95.0|0.842|1.849|||Regression, Logistic|||The two treatment groups were to be compared using ordinal logistic regression and the proportional odds model. The model was to incorporate ambulatory status at baseline and centre group.||1.849|0.842|0.270
82497082|NCT01599234|164686355|SUPERIORITY_OR_OTHER_LEGACY||Estimated mean treatment difference|-0.15||||0.867|TWO_SIDED|95.0|-1.95|1.64|||ANCOVA|||The change at the end of treatment was compared between treatment groups using ANCOVA. The model included treatment, centre group and ambulatory status at baseline as factors and baseline score as a covariate.||1.64|-1.95|0.867
82497083|NCT01599234|164686356|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.215||||0.569|TWO_SIDED|95.0|0.622|2.373|||ANCOVA|||The numbers of responders was analysed using the difference in proportions and the odds ratio comparing the treatment groups with the provision of 95% CIs for the difference and odds ratio. The two groups were compared using ANCOVA with baseline severity as a covariate and study centre and treatment group as factors.||2.373|0.622|0.569
82497084|NCT02033694|164686357|OTHER||Cox Proportional Hazard|1.21||||0.0004|TWO_SIDED|95.0|1.09|1.35|||Regression, Cox|||Hypothesis 1 (Vulnerable Patient Hypothesis) first fit a univariate proportional hazards regression model in which maxLCBI4mm is the only independent variable and NC-MACE during 2 years is the outcome. The null hypothesis tested by the Wald test that the regression coefficient in a proportional hazards regression model is significantly different from 0. This analysis determined whether maxLCBI4mmI is a risk factor for NC-MACE.||1.35|1.09|0.0004
82497085|NCT02033694|164686357|OTHER||Cox Proportional Hazard|1.45|||<|0.0001|TWO_SIDED|95.0|1.3|1.6|||Regression, Cox|||Hypothesis 2 (Vulnerable Plaque Hypothesis) first fit a univariate proportional hazards regression model in which maxLCBI4mm in the coronary artery segment is the measure of exposure and NC-MACE during 2 years caused by a new culprit lesion in that segment is the outcome. This analysis was performed with adjustment for the potential clustering effect within patient utilizing the Wei, Lin and Weissfeld (WLW) methodology. This analysis determined whether maxLCBI4mm is a risk factor NC-MACE.||1.60|1.30|<0.0001
82497086|NCT02033694|164686358|OTHER||Cox Proportional Hazard|2.18|||<|0.0001|TWO_SIDED|95.0|1.48|3.22|||Regression, Cox|||Secondary Hypothesis 1 (Vulnerable Patient)- Cox proportional hazards regression model to assess a threshold of maxLCBI4mm \> 400 as the independent variable and NC-MACE during 2 years as the outcome.||3.22|1.48|<0.0001
82497087|NCT02033694|164686358|OTHER||Cox Proportional Hazard|4.22|||<|0.0001|TWO_SIDED|95.0|2.39|7.45|||Regression, Cox|||Secondary Hypothesis 2 (Vulnerable Plaque)- Cox proportional hazards regression model to assess a threshold of maxLCBI4mm \> 400 in the coronary artery segment as the independent variable and NC-MACE during 2 years caused by a new culprit lesion in that segment is the outcome.||7.45|2.39|<0.0001
82497088|NCT04492618|164686362|SUPERIORITY|||||||0.005|||||||Wilcoxon (Mann-Whitney)|||||||0.005
82497089|NCT02111772|164686372|SUPERIORITY|||||||0.049|||||||Negative binomial regression|||||||0.049
82497090|NCT02111772|164686373|SUPERIORITY||||||<|0.001|||||||Negative binomial regression|||||||<0.001
82497091|NCT00869206|164686381|NON_INFERIORITY_OR_EQUIVALENCE|Based on the published data on the effect of a standard of dosing schedule of \> zoledronic acid compared to placebo, we choose ∆= 7%, πT= 42%, and πS= 35%. With a total of 1230 eligible patients (615 per arm), the probability of rejecting the null hypothesis using a one-sided test is at most 0.05 (Type I error α) when θ≥ 7% and the probability of rejecting the null hypothesis (the power) is at least 82% when θ≤0|||||<=|0.05|||||||Cochran-Mantel-Haenszel|||||||<=.05
82497092|NCT00869206|164686382|SUPERIORITY_OR_OTHER||Slope|-0.00394|STANDARD_ERROR_OF_MEAN|0.00962||0.68|TWO_SIDED||||||Mixed Models Analysis|Model is adjusted for tumor type, baseline creatinine, prior SREs, prior bisphosphonates, age, gender, race, BSA, and baseline performance status||||||0.68
82497093|NCT00869206|164686383|SUPERIORITY_OR_OTHER||Slope|0.0016|STANDARD_ERROR_OF_MEAN|0.0034||0.64|TWO_SIDED||||||Mixed Models Analysis|Adjusted for tumor type, baseline creatinine, prior SRE, prior bisphosphonates, age, gender, BSA, race, and baseline performance status||||||0.64
82497094|NCT00869206|164686385|SUPERIORITY||Mean Difference (Final Values)|0.7||||0.1|TWO_SIDED|95.0|-0.3|1.7|||Cochran-Mantel-Haenszel|||||1.7|-0.3|0.10
82497095|NCT04677374|164686400|OTHER|||||||0.044|||||||Test of proportions|||||||0.044
82497096|NCT04677374|164686400|OTHER|||||||0.259|||||||Test of proportions|||||||0.259
82497097|NCT04677374|164686400|OTHER|||||||0.044|||||||Test of proportions|||||||0.044
82497098|NCT04677374|164686401|OTHER||Hazard Ratio (HR)|2.23|||||TWO_SIDED|95.0|1.01|4.93||||||||4.93|1.01|
82497099|NCT04677374|164686401|OTHER||Hazard Ratio (HR)|1.66|||||TWO_SIDED|95.0|0.69|4.0||||||||4.00|0.69|
82497100|NCT04677374|164686401|OTHER||Hazard Ratio (HR)|2.31|||||TWO_SIDED|95.0|1.0|5.36||||||||5.36|1.00|
82497101|NCT01425281|164686428|SUPERIORITY|||||||0.49|||||||t-test, 2 sided|"Null and alternative hypotheses for superiority testing.~H0: EndpointABSORB BVS = EndpointXIENCE H1: EndpointABSORB BVS ≠ EndpointXIENCE"||Angiographic vasomotion reactivity following nitrate administration, the test was analyzable for 388 paired lesions (Absorb arm \[258 lesions\] vs Xience arm \[130 lesions\]).||||0.49
82497102|NCT01425281|164686429|NON_INFERIORITY|Using t-test with non-inferiority margin of 0.140mm||||||0.78|||||||t-test, 2 sided|"Null and alternative hypotheses for superiority testing.~H0: EndpointABSORB BVS = EndpointXIENCE H1: EndpointABSORB BVS ≠ EndpointXIENCE"||Follow-up angiographic analysis was available for 298 lesions in the Absorb arm and 151 lesions in the Xience arm.||||0.78
82497103|NCT03266107|164686536|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82497104|NCT03266107|164686537|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82497105|NCT03266107|164686540|SUPERIORITY||||||<|0.001|||||||t-test, 1 sided|||||||<0.001
82497106|NCT00320411|164686566|SUPERIORITY_OR_OTHER||percentage of participants|17.2||||||95.0|8.6|29.4||||||||29.4|8.6|
82497107|NCT00320411|164686568|SUPERIORITY_OR_OTHER||percentage of participants|32.3||||||95.0|20.0|44.7||||||||44.7|20.0|
82497108|NCT00320411|164686569|SUPERIORITY_OR_OTHER||percentage of participants|22.8||||||95.0|11.6|34.0||||||||34.0|11.6|
82497109|NCT01218243|164686611|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.51|STANDARD_ERROR_OF_MEAN|0.93|<|0.01|TWO_SIDED|95.0|2.67|6.36|||ANCOVA|||||6.36|2.67|< 0.01
82497110|NCT01218243|164686612|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.34|STANDARD_ERROR_OF_MEAN|6.6|>|0.05|TWO_SIDED|95.0|-9.76|16.44|||Wilcoxon (Mann-Whitney)|||||16.44|-9.76|>0.05
82497111|NCT01218243|164686613|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.184|STANDARD_ERROR_OF_MEAN|0.8|>|0.05|TWO_SIDED|95.0|-1.41|1.78|||ANCOVA|||||1.78|-1.41|> 0.05
82497112|NCT01218243|164686614|SUPERIORITY_OR_OTHER||Mean Difference (Net)|3.2|STANDARD_ERROR_OF_MEAN|0.93|<|0.01|TWO_SIDED|95.0|1.36|5.05|||ANCOVA|||||5.05|1.36|< 0.01
82497113|NCT01218243|164686615|SUPERIORITY_OR_OTHER||Mean Difference (Net)|4.12|STANDARD_ERROR_OF_MEAN|1.03|<|0.01|TWO_SIDED|95.0|2.07|6.18|||ANCOVA|||||6.18|2.07|<0.01
82497114|NCT03129100|164686626|SUPERIORITY||Odds Ratio (OR)|4.35|||<|0.001|TWO_SIDED|95.0|2.03|9.35|||Regression, Logistic|||||9.35|2.03|<0.001
82497115|NCT03129100|164686627|SUPERIORITY||Odds Ratio (OR)|4.28||||0.003|TWO_SIDED|95.0|1.66|11.03|||Regression, Logistic|||||11.03|1.66|0.003
82497116|NCT03129100|164686627|SUPERIORITY||Odds Ratio (OR)|4.42||||0.001|TWO_SIDED|95.0|1.77|11.02|||Regression, Logistic|||||11.02|1.77|0.001
82497117|NCT03129100|164686629|SUPERIORITY||Odds Ratio (OR)|4.51||||0.001|TWO_SIDED|95.0|1.78|11.41|||Regression, Logistic|||||11.41|1.78|0.001
82497118|NCT03129100|164686629|SUPERIORITY||Odds Ratio (OR)|4.61|||<|0.001|TWO_SIDED|95.0|1.88|11.31|||Regression, Logistic|||||11.31|1.88|<0.001
82497119|NCT03129100|164686630|SUPERIORITY||Odds Ratio (OR)|5.17|||<|0.001|TWO_SIDED|95.0|2.11|12.69|||Regression, Logistic|||||12.69|2.11|<0.001
82497120|NCT03129100|164686630|SUPERIORITY||Odds Ratio (OR)|5.23|||<|0.001|TWO_SIDED|95.0|2.2|12.47|||Regression, Logistic|||||12.47|2.20|<0.001
82497121|NCT03129100|164686631|SUPERIORITY||Odds Ratio (OR)|4.6|||<|0.001|TWO_SIDED|95.0|1.9|11.17|||Regression, Logistic|||||11.17|1.90|<0.001
82497122|NCT03129100|164686631|SUPERIORITY||Odds Ratio (OR)|3.55||||0.003|TWO_SIDED|95.0|1.56|8.09|||Regression, Logistic|||||8.09|1.56|0.003
82497123|NCT03129100|164686632|SUPERIORITY||Odds Ratio (OR)|4.92|||<|0.001|TWO_SIDED|95.0|2.07|11.72|||Regression, Logistic|||||11.72|2.07|<0.001
82497124|NCT03129100|164686632|SUPERIORITY||Odds Ratio (OR)|3.61||||0.003|TWO_SIDED|95.0|1.57|8.32|||Regression, Logistic|||||8.32|1.57|0.003
82497125|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-3.1|-1.1|||ANCOVA|||Patient Global||-1.1|-3.1|<0.001
82497126|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-2.9|-1.0|||ANCOVA|||Patient Global||-1.0|-2.9|<0.001
82497127|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|0.51|<|0.001|TWO_SIDED|95.0|-3.1|-1.0|||ANCOVA|||Spinal Pain||-1.0|-3.1|<0.001
82497128|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.49|<|0.001|TWO_SIDED|95.0|-2.8|-0.8|||ANCOVA|||Spinal Pain||-0.8|-2.8|<0.001
82497129|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-1.55|STANDARD_ERROR_OF_MEAN|0.421|<|0.001|TWO_SIDED|95.0|-2.39|-0.72|||ANCOVA|||BASFI||-0.72|-2.39|<0.001
82497130|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|0.409|<|0.001|TWO_SIDED|95.0|-2.2|-0.59|||ANCOVA|||BASFI||-0.59|-2.20|<0.001
82497131|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-2.17|STANDARD_ERROR_OF_MEAN|0.448|<|0.001|TWO_SIDED|95.0|-3.05|-1.28|||ANCOVA|||Inflammation||-1.28|-3.05|<0.001
82497132|NCT03129100|164686633|SUPERIORITY||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.433|<|0.001|TWO_SIDED|95.0|-2.66|-0.95|||ANCOVA|||Inflammation||-0.95|-2.66|<0.001
82497133|NCT03129100|164686634|SUPERIORITY||Odds Ratio (OR)|5.34|||<|0.001|TWO_SIDED|95.0|2.13|13.35|||Regression, Logistic|||||13.35|2.13|<0.001
82497134|NCT03129100|164686634|SUPERIORITY||Odds Ratio (OR)|4.07||||0.001|TWO_SIDED|95.0|1.75|9.45|||Regression, Logistic|||||9.45|1.75|0.001
82497135|NCT03129100|164686635|SUPERIORITY||LS Mean Difference|-7.858|STANDARD_ERROR_OF_MEAN|1.9586|<|0.001|TWO_SIDED|95.0|-11.729|-3.987|||ANCOVA|||||-3.987|-11.729|<0.001
82497136|NCT03129100|164686635|SUPERIORITY||LS Mean Difference|-5.979|STANDARD_ERROR_OF_MEAN|1.86||0.002|TWO_SIDED|95.0|-9.655|-2.304|||ANCOVA|||||-2.304|-9.655|0.002
82497137|NCT03129100|164686636|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.104||0.062|TWO_SIDED|95.0|-0.4|0.01|||ANCOVA|||||0.01|-0.40|0.062
82497138|NCT03129100|164686636|SUPERIORITY||LS Mean Difference|-0.24|STANDARD_ERROR_OF_MEAN|0.099||0.018|TWO_SIDED|95.0|-0.43|-0.04|||ANCOVA|||||-0.04|-0.43|0.018
82497139|NCT03129100|164686637|SUPERIORITY||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.335||0.757|TWO_SIDED|95.0|-0.56|0.77|||ANCOVA|||||0.77|-0.56|0.757
82497140|NCT03129100|164686637|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.322||0.67|TWO_SIDED|95.0|-0.77|0.5|||ANCOVA|||||0.50|-0.77|0.670
82497141|NCT03129100|164686638|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.338||0.236|TWO_SIDED|95.0|-1.07|0.27|||ANCOVA|||||0.27|-1.07|0.236
82497142|NCT03129100|164686638|SUPERIORITY||LS Mean Difference|-0.28|STANDARD_ERROR_OF_MEAN|0.319||0.373|TWO_SIDED|95.0|-0.92|0.35|||ANCOVA|||||0.35|-0.92|0.373
82497143|NCT03129100|164686639|SUPERIORITY||LS Mean Difference|-0.07|STANDARD_ERROR_OF_MEAN|0.459||0.885|TWO_SIDED|95.0|-0.98|0.85|||ANCOVA|||||0.85|-0.98|0.885
82497144|NCT03129100|164686639|SUPERIORITY||LS Mean Difference|-0.14|STANDARD_ERROR_OF_MEAN|0.41||0.735|TWO_SIDED|95.0|-0.95|0.68|||ANCOVA|||||0.68|-0.95|0.735
82497145|NCT03129100|164686640|SUPERIORITY||LS Mean Difference|-0.53|STANDARD_ERROR_OF_MEAN|0.501||0.294|TWO_SIDED|95.0|-1.53|0.47|||ANCOVA|||||0.47|-1.53|0.294
82497146|NCT03129100|164686640|SUPERIORITY||LS Mean Difference|-0.64|STANDARD_ERROR_OF_MEAN|0.453||0.164|TWO_SIDED|95.0|-1.54|0.27|||ANCOVA|||||0.27|-1.54|0.164
82497147|NCT03129100|164686641|SUPERIORITY||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|1.1||0.063|TWO_SIDED|95.0|-4.3|0.1|||ANCOVA|||||0.1|-4.3|0.063
82497148|NCT03129100|164686641|SUPERIORITY||LS Mean Difference|-1.3|STANDARD_ERROR_OF_MEAN|1.02||0.211|TWO_SIDED|95.0|-3.3|0.7|||ANCOVA|||||0.7|-3.3|0.211
82497149|NCT03129100|164686642|SUPERIORITY||LS Mean Difference|-0.9|STANDARD_ERROR_OF_MEAN|0.9||0.334|TWO_SIDED|95.0|-2.7|0.9|||ANCOVA|||||0.9|-2.7|0.334
82497150|NCT03129100|164686642|SUPERIORITY||LS Mean Difference|-1.2|STANDARD_ERROR_OF_MEAN|0.88||0.168|TWO_SIDED|95.0|-3.0|0.5|||ANCOVA|||||0.5|-3.0|0.168
82497151|NCT03129100|164686644|SUPERIORITY||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.4||0.1|TWO_SIDED|95.0|-1.5|0.1|||ANCOVA|||||0.1|-1.5|0.100
82497152|NCT03129100|164686644|SUPERIORITY||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.38||0.047|TWO_SIDED|95.0|-1.5|0.0|||ANCOVA|||||-0.0|-1.5|0.047
82497153|NCT03129100|164686645|SUPERIORITY||LS Mean Difference|-0.88|STANDARD_ERROR_OF_MEAN|0.479||0.068|TWO_SIDED|95.0|-1.83|0.06|||ANCOVA|||||0.06|-1.83|0.068
82497154|NCT03129100|164686645|SUPERIORITY||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.465||0.307|TWO_SIDED|95.0|-1.4|0.44|||ANCOVA|||||0.44|-1.40|0.307
82497155|NCT03129100|164686646|SUPERIORITY||LS Mean Difference|2.6021|STANDARD_ERROR_OF_MEAN|1.4684||0.079|TWO_SIDED|95.0|-0.3011|5.5053|||ANCOVA|||||5.5053|-0.3011|0.079
82497156|NCT03129100|164686646|SUPERIORITY||LS Mean Difference|2.4096|STANDARD_ERROR_OF_MEAN|1.3978||0.087|TWO_SIDED|95.0|-0.3541|5.1734|||ANCOVA|||||5.1734|-0.3541|0.087
82497157|NCT03129100|164686647|SUPERIORITY||LS Mean Difference|0.837|STANDARD_ERROR_OF_MEAN|1.1752||0.477|TWO_SIDED|95.0|-1.4864|3.1605|||ANCOVA|||||3.1605|-1.4864|0.477
82497158|NCT03129100|164686647|SUPERIORITY||LS Mean Difference|2.3009|STANDARD_ERROR_OF_MEAN|1.1192||0.042|TWO_SIDED|95.0|0.088|4.5138|||ANCOVA|||||4.5138|0.0880|0.042
82497159|NCT03129100|164686648|SUPERIORITY||LS Mean Difference|-0.99|STANDARD_ERROR_OF_MEAN|0.52||0.058|TWO_SIDED|95.0|-2.02|0.04|||ANCOVA|||||0.04|-2.02|0.058
82497160|NCT03129100|164686648|SUPERIORITY||LS Mean Difference|-0.72|STANDARD_ERROR_OF_MEAN|0.497||0.147|TWO_SIDED|95.0|-1.71|0.26|||ANCOVA|||||0.26|-1.71|0.147
82497161|NCT03129100|164686649|SUPERIORITY||LS Mean Difference|0.0418|STANDARD_ERROR_OF_MEAN|0.0334||0.213|TWO_SIDED|95.0|-0.0329|0.1164|||ANCOVA|||||0.1164|-0.0329|0.213
82497162|NCT03129100|164686649|SUPERIORITY||LS Mean Difference|0.0388|STANDARD_ERROR_OF_MEAN|0.0319||0.225|TWO_SIDED|95.0|-0.0324|0.1101|||ANCOVA|||||0.1101|-0.0324|0.225
82497163|NCT03129100|164686650|SUPERIORITY||LS Mean Difference|-10.62|STANDARD_ERROR_OF_MEAN|4.383||0.017|TWO_SIDED|95.0|-19.28|-1.95|||ANCOVA|||Percentage of Activity Impairment||-1.95|-19.28|0.017
82497164|NCT03129100|164686650|SUPERIORITY||LS Mean Difference|-7.14|STANDARD_ERROR_OF_MEAN|4.199||0.091|TWO_SIDED|95.0|-15.44|1.16|||ANCOVA|||Percentage of Activity Impairment||1.16|-15.44|0.091
82497165|NCT03129100|164686651|SUPERIORITY||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|0.66||0.531|TWO_SIDED|95.0|-1.7|0.9|||ANCOVA|||||0.9|-1.7|0.531
82497166|NCT03129100|164686651|SUPERIORITY||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.62||0.743|TWO_SIDED|95.0|-1.4|1.0|||ANCOVA|||||1.0|-1.4|0.743
82497167|NCT01197560|164686656|SUPERIORITY|||||||0.079|||||||Fisher Exact|||Pertains to all participants; row 1||||0.079
82497168|NCT01197560|164686656|SUPERIORITY|||||||0.279|||||||Fisher Exact|||Pertains to GCB Subtype; row 2||||0.279
82497169|NCT01197560|164686656|SUPERIORITY|||||||0.179|||||||Fisher Exact|||Pertains to non-GCB Sub-type; row 3||||0.179
82497170|NCT01197560|164686657|SUPERIORITY|||||||0.091|||||||Fisher Exact|||Pertains to all participants||||0.091
82497171|NCT01197560|164686658|SUPERIORITY|||||||0.109|||||||Fisher Exact|||||||0.109
82497172|NCT01197560|164686659|SUPERIORITY|||||||0.16|||||||Fisher Exact|||Pertains to all participants; row 1||||0.160
82497173|NCT01197560|164686660|SUPERIORITY|||||||0.529|||||||Log Rank|||||||0.529
82497174|NCT01197560|164686661|SUPERIORITY|||||||0.972|||||||Log Rank|||||||0.972
82497175|NCT01197560|164686662|SUPERIORITY|||||||0.02|||||||Log Rank|||||||0.020
82497176|NCT01197560|164686663|SUPERIORITY|||||||0.211|||||||Log Rank|||||||0.211
82497177|NCT02216591|164686697|SUPERIORITY|||||||0.013|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was significant, F(1,16) = 7.76, p = 0.013.||||||.013
82497178|NCT02216591|164686698|SUPERIORITY|||||||0.274|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was not significant, F(1,16) = 1.29, p = 0.274||||||.274
82497179|NCT02216591|164686699|SUPERIORITY|||||||0.41|||||||ANCOVA|Mixed-model general linear model with age and education included as covariates. Time x arm interaction was not significant, F(1,16) = .72, p = 0.410||||||.410
82497180|NCT02854631|164686710|SUPERIORITY|||||||1|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||1.00
82497181|NCT02854631|164686711|SUPERIORITY|||||||0.061|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||0.061
82497182|NCT02854631|164686712|SUPERIORITY|||||||0.06|||||||Fisher Exact|P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.||||||0.060
82497183|NCT02854631|164686713|SUPERIORITY|||||||0.22||||||P-value from 2-sided Fisher's exact test was used to explore differences between treatment groups in the percentage of participants with an event.|Fisher Exact|||||||0.22
82497184|NCT02854631|164686729|SUPERIORITY|||||||0.3|||||||Fisher Exact|Fisher's exact test (2-sided) was used to explore differences between groups in the percentage of participants with response/non-response.||||||0.30
82497185|NCT01753856|164686796|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||ANCOVA|Analysis of covariance (ANCOVA) model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497186|NCT01753856|164686797|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and SL, in CC.|Fisher Exact|||||||<0.001
82497187|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||SL Only, in CC.|Fisher Exact|||||||0.002
82497188|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.494|TWO_SIDED|||||No Label, in CC.|Fisher Exact|||||||0.494
82497189|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||DL and SL, in EC.|Fisher Exact|||||||0.001
82497190|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.027|TWO_SIDED|||||SL Only, in EC.|Fisher Exact|||||||0.027
82497191|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.118|TWO_SIDED|||||No Label, in EC.|Fisher Exact|||||||0.118
82497192|NCT01753856|164686797|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and SL, in IC.|Fisher Exact|||||||<0.001
82497193|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.001|TWO_SIDED|||||SL Only, in IC.|Fisher Exact|||||||0.001
82497194|NCT01753856|164686797|SUPERIORITY_OR_OTHER||||||>|0.999|TWO_SIDED|||||No Label, in IC.|Fisher Exact|||||||>0.999
82497195|NCT01753856|164686797|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||DL and SL, in PC.|Fisher Exact|||||||0.002
82497196|NCT01753856|164686797|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||SL Only, in PC.|Fisher Exact|||||||<0.001
82497197|NCT01753856|164686797|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||No Label, in PC.|Fisher Exact|||||||<0.001
82497198|NCT01753856|164686798|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497199|NCT01753856|164686798|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497200|NCT01753856|164686798|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497201|NCT01753856|164686799|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497202|NCT01753856|164686799|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497203|NCT01753856|164686799|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497204|NCT01753856|164686799|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||PC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497205|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||Remodeling-Based Bone Formation in the CC.|Wilcoxon (Mann-Whitney)|||||||0.740
82497206|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||Modeling-Based Bone Formation in the CC.|Wilcoxon (Mann-Whitney)|||||||0.740
82497207|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Remodeling-Based Bone Formation in the EC.|Wilcoxon (Mann-Whitney)|||||||0.008
82497208|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.008|TWO_SIDED|||||Modeling-Based Bone Formation in the EC.|Wilcoxon (Mann-Whitney)|||||||0.008
82497209|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED|||||Remodeling-Based Bone Formation in the PC.|Wilcoxon (Mann-Whitney)|||||||0.661
82497210|NCT01753856|164686800|SUPERIORITY_OR_OTHER|||||||0.661|TWO_SIDED|||||Modeling-Based Bone Formation in the PC.|Wilcoxon (Mann-Whitney)|||||||0.661
82497211|NCT01753856|164686802|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497212|NCT01753856|164686802|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497213|NCT01753856|164686802|SUPERIORITY_OR_OTHER|||||||0.74|TWO_SIDED|||||PC.|Wilcoxon (Mann-Whitney)|||||||0.740
82497214|NCT01753856|164686803|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497215|NCT01753856|164686803|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.004
82497216|NCT01753856|164686803|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497217|NCT01753856|164686803|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|||||PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.850
82497218|NCT01753856|164686804|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||DL Only, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.004
82497219|NCT01753856|164686804|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in the CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497220|NCT01753856|164686804|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497221|NCT01753856|164686804|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497222|NCT01753856|164686804|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497223|NCT01753856|164686804|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497224|NCT01753856|164686804|SUPERIORITY_OR_OTHER|||||||0.931|TWO_SIDED|||||DL Only, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.931
82497225|NCT01753856|164686804|SUPERIORITY_OR_OTHER|||||||0.549|TWO_SIDED|||||DL and Imputed SL, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.549
82497226|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497227|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497228|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497229|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497230|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497231|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497232|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497233|NCT01753856|164686805|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497234|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497235|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in CC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497236|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497237|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in EC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497238|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497239|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||dLS/BS, in IC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497240|NCT01753856|164686806|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||sLS/BS, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||<0.001
82497241|NCT01753856|164686806|SUPERIORITY_OR_OTHER|||||||0.028|TWO_SIDED|||||dLS/BS, in PC.|ANCOVA|ANCOVA model with treatment group as the main effect and baseline as a covariate.||||||0.028
82497242|NCT01753856|164686807|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497243|NCT01753856|164686807|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497244|NCT01753856|164686807|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497245|NCT01753856|164686808|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497246|NCT01753856|164686808|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497247|NCT01753856|164686808|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497248|NCT01753856|164686809|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497249|NCT01753856|164686809|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497250|NCT01753856|164686809|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497251|NCT01753856|164686810|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||1 month.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497252|NCT01753856|164686810|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||3 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497253|NCT01753856|164686810|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||6 months.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497254|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497255|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497256|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497257|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497258|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497259|NCT01753856|164686811|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497260|NCT01753856|164686812|SUPERIORITY_OR_OTHER|||||||0.002|TWO_SIDED|||||DL Only, in CC.|Wilcoxon (Mann-Whitney)|||||||0.002
82497261|NCT01753856|164686812|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497262|NCT01753856|164686812|SUPERIORITY_OR_OTHER|||||||0.214|TWO_SIDED|||||DL Only, in EC.|Wilcoxon (Mann-Whitney)|||||||0.214
82497263|NCT01753856|164686812|SUPERIORITY_OR_OTHER|||||||0.031|TWO_SIDED|||||DL and Imputed SL, in EC.|Wilcoxon (Mann-Whitney)|||||||0.031
82497264|NCT01753856|164686812|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL Only, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497265|NCT01753856|164686812|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||DL and Imputed SL, in IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497266|NCT01753856|164686813|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED||||||Wilcoxon (Mann-Whitney)|||||||<0.001
82497267|NCT01753856|164686814|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497268|NCT01753856|164686814|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497269|NCT01753856|164686814|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497270|NCT01753856|164686815|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497271|NCT01753856|164686815|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497272|NCT01753856|164686815|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497273|NCT01753856|164686816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Average length of DLs in the CC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497274|NCT01753856|164686816|SUPERIORITY_OR_OTHER|||||||0.004|TWO_SIDED|||||Average length of double labels in EC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||0.004
82497275|NCT01753856|164686816|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||Average length of double labels in IC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||<0.001
82497276|NCT01753856|164686816|SUPERIORITY_OR_OTHER|||||||0.85|TWO_SIDED|||||Average length of double labels in the PC|ANCOVA|ANCOVA model with treatment group as the main effect and baseline MS/BS as a covariate.||||||0.850
82497277|NCT01753856|164686817|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC.|Wilcoxon (Mann-Whitney)|||||||<0.001
82497278|NCT01753856|164686817|SUPERIORITY_OR_OTHER|||||||0.042|TWO_SIDED|||||EC.|Wilcoxon (Mann-Whitney)|||||||0.042
82497279|NCT01753856|164686817|SUPERIORITY_OR_OTHER|||||||0.678|TWO_SIDED|||||IC.|Wilcoxon (Mann-Whitney)|||||||0.678
82497280|NCT01753856|164686818|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||CC|Wilcoxon (Mann-Whitney)|||||||<0.001
82497281|NCT01753856|164686818|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||EC|Wilcoxon (Mann-Whitney)|||||||<0.001
82497282|NCT01753856|164686818|SUPERIORITY_OR_OTHER||||||<|0.001|TWO_SIDED|||||IC|Wilcoxon (Mann-Whitney)|||||||<0.001
82497283|NCT01852110|164686839|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.18||||0.7623|TWO_SIDED|95.0|-1.0|1.37|||Constrained Longitudinal Data Analysis|||||1.37|-1.00|0.7623
82497284|NCT01852110|164686843|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.06||||0.9604|TWO_SIDED|95.0|-2.42|2.54|||Constrained Longitudinal Data Analysis|||||2.54|-2.42|0.9604
82497285|NCT01852110|164686844|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.0829|TWO_SIDED|95.0|-0.01|0.22|||Constrained Longitudinal Data Analysis|||||0.22|-0.01|0.0829
82497286|NCT00875212|164686853|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.5|STANDARD_DEVIATION|0.25||0.001||95.0|||||ANOVA|repeated measure anova|The median value of each parameter (pH baseline, minimal pH) was obtained and these values were compared between each group|The study was based on the use of dentifrices for daily oral hygiene in a crossover design. The null hyphothesis was no difference between pH values of the groups. The statistical analysis was by repeated measurements ANOVA.||||0.001
82497287|NCT00875212|164686853|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|5.5|STANDARD_DEVIATION|0.1||0.001||95.0|||||ANOVA|repeated-measurements ANOVA||The comparison was based on mean and median values of plaque pH in different moments of cariogenic challenge. The null hypothesis was that no diference between the groups wil be found. The test hypothesis was that the experimental dentifrice of CaGP-F would provide a better control of plaque pH after 14 days of use.||||0.001
82497288|NCT00875212|164686854|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|5.5|STANDARD_DEVIATION|0.25||0.01||95.0|||||ANOVA|repeated measurements ANOVA|The difference of pH values between groups was above 1.0 unit.|The groups were compared by repeated measurements anova. There was no power calculation, but a pilot study to check the minimal number necessary of subjects in order to find a signifcant difference between interventions.||||0.01
82497289|NCT01752907|164686855|SUPERIORITY_OR_OTHER_LEGACY||Treatment Difference|0.3|STANDARD_ERROR_OF_MEAN|0.4||0.3479|TWO_SIDED|95.0|-0.4|1.0|||t-test, 2 sided||Treatment difference = bone pain DVD - general education DVD|There was no statistical hypothesis testing for this study. The clinical hypothesis was that a difference in mean maximum pain of 0.5 (scale 0 to 10) in favor of bone pain education would be a clinically relevant difference.||1.0|-0.4|0.3479
82497290|NCT00279591|164686888|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||Fisher Exact|||||||0.03
82497291|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.158||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 2. All null hypotheses were defined as no treatment difference.||||0.158
82497292|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.025||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 3. All null hypotheses were defined as no treatment difference.||||0.025
82497293|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.007||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 4. All null hypotheses were defined as no treatment difference.||||0.007
82497294|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.061||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 5. All null hypotheses were defined as no treatment difference.||||0.061
82497295|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.107||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 6. All null hypotheses were defined as no treatment difference.||||0.107
82497296|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.237||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 7. All null hypotheses were defined as no treatment difference.||||0.237
82497297|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.497||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 8. All null hypotheses were defined as no treatment difference.||||0.497
82497298|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.704||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 9. All null hypotheses were defined as no treatment difference.||||0.704
82497299|NCT02989194|164686895|SUPERIORITY|Descriptive statistics. All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.585||||||All p-values are presented for informational purposes only, there were no adjustments for multiple comparisons.|Wilcoxon (Mann-Whitney)|||Percent Change from Baseline to Day 10. All null hypotheses were defined as no treatment difference.||||0.585
82497300|NCT02989194|164686906|SUPERIORITY|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.083|||||||t-test, 2 sided|||A t-test was used to assess the difference between the VIS410 total and placebo treatment groups from nasopharyngeal swabs based on the TCID50.||||0.083
82497301|NCT02989194|164686907|SUPERIORITY|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level.||||||0.169||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|t-test, 2 sided|||The null hypothesis was defined as no treatment difference.||||0.169
82497302|NCT02989194|164686908|SUPERIORITY|Descriptive Statistics. Statistical comparisons were performed using log rank test.||||||0.028||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|Log Rank|||Kaplan-Meier methods were used to calculate the median time. All null hypotheses were defined as no treatment difference.|All statistical comparisons were performed using 2-sided tests at the 0.05 significance level, unless specifically stated otherwise. All null hypotheses were defined as no treatment difference. All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|||0.028
82497303|NCT02989194|164686910|EQUIVALENCE|Descriptive Statistics. All statistical comparisons were performed at the 0.05 significance level.||||||0.173||||||All p-values are presented for informational purposes only; there were no adjustments for multiple comparisons.|Log Rank|Kaplan-Meier methods were used to calculate the median time, 25th percentile and 75th percentile.||All null hypotheses were defined as no treatment difference.||||0.173
82497304|NCT00411645|164686973|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.902||||0.789|TWO_SIDED|95.0|0.424|1.92||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|||1.920|0.424|0.789
82497305|NCT00411645|164686974|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.721||||0.056|TWO_SIDED|95.0|0.515|1.008||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay||1.008|0.515|0.056
82497306|NCT00411645|164686974|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.979||||0.904|TWO_SIDED|95.0|0.697|1.375||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of CMV DNA PCR assay||1.375|0.697|0.904
82497307|NCT00411645|164686974|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.838||||0.289|TWO_SIDED|95.0|0.606|1.161||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia or CMV DNA PCR assay||1.161|0.606|0.289
82497308|NCT00411645|164686974|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.891||||0.493|TWO_SIDED|95.0|0.64|1.239||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of initiation of anti-CMV therapy||1.239|0.640|0.493
82497309|NCT00411645|164686975|SUPERIORITY_OR_OTHER_LEGACY|||||||0.129|TWO_SIDED||||||Log Rank|||||||0.129
82497310|NCT00411645|164686975|SUPERIORITY_OR_OTHER_LEGACY||Adjusted hazard ratio|0.83||||0.13|TWO_SIDED|95.0|0.65|1.06||The p-value from Wald Chi-Square test for treatment effect.|Wald Chi-squared||Maribavir versus placebo; based on Cox's proportional hazards regression model: time = recipient CMV serostatus (R+ or R-) + transplant type (myeloablative or non-myeloablative/reduced intensity) + treatment.|||1.06|0.65|0.130
82497311|NCT00411645|164686976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.542|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 100 days post-transplant||||0.542
82497312|NCT00411645|164686976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.637|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 6 months post-transplant||||0.637
82497313|NCT00411645|164686976|SUPERIORITY_OR_OTHER_LEGACY|||||||0.825|TWO_SIDED|||||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel|||Analysis of 12 months post-transplant||||0.825
82497314|NCT00411645|164686977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.669||||0.022|TWO_SIDED|95.0|0.474|0.946||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay||0.946|0.474|0.022
82497315|NCT00411645|164686977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.878||||0.468|TWO_SIDED|95.0|0.617|1.247||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of CMV DNA PCR assay||1.247|0.617|0.468
82497316|NCT00411645|164686977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.772||||0.125|TWO_SIDED|95.0|0.555|1.075||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of pp65 antigenemia assay or CMV DNA PCR assay||1.075|0.555|0.125
82497317|NCT00411645|164686977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.731||||0.069|TWO_SIDED|95.0|0.521|1.026||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of initiation of anti-CMV therapy||1.026|0.521|0.069
82497318|NCT00411645|164686977|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.913||||0.86|TWO_SIDED|95.0|0.332|2.508||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of EC-confirmed disease||2.508|0.332|0.860
82497319|NCT00411645|164686978|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.835||||0.617|TWO_SIDED|95.0|0.411|1.693||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R-) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 12 months post-transplant||1.693|0.411|0.617
82497320|NCT00411645|164686979|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.048||||0.7808|TWO_SIDED|95.0|0.754|1.457||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 100 days post-transplant||1.457|0.754|0.7808
82497321|NCT00411645|164686979|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.068||||0.6946|TWO_SIDED|95.0|0.771|1.479||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 6 months post-transplant||1.479|0.771|0.6946
82497322|NCT00411645|164686980|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.186||||0.6304|TWO_SIDED|95.0|0.592|2.375||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 100 days post-transplant||2.375|0.592|0.6304
82497323|NCT00411645|164686980|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.726||||0.1019|TWO_SIDED|95.0|0.495|1.066||The p-value is from the Cochran-Mantel-Haenszel test, adjusting for recipient CMV serostatus (R+ or R -) and transplant type (myeloablative or non-myeloablative/reduced intensity).|Cochran-Mantel-Haenszel||Mantel-Haenszel odds ratio for maribavir versus placebo|Analysis of 6 months post-transplant||1.066|0.495|0.1019
82497324|NCT01111149|164687019|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Serum Cotinine at Week 12||||>0.05
82497325|NCT01111149|164687019|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Serum Nicotine at Week 12||||>0.05
82497326|NCT01111149|164687019|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Urine Cotinine at Week 12||||>0.05
82497327|NCT01111149|164687019|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for Urine Nicotine at Week 12||||>0.05
82497328|NCT01111149|164687020|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical analysis for 50% Reduction in Number of Cigarettes Smoked (Week 12)||||>0.05
82497329|NCT01111149|164687020|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Carbon Monoxide (Week 12)||||>0.05
82497330|NCT01111149|164687020|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Serum Cotinine (Week 12)||||>0.05
82497331|NCT01111149|164687020|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Chi-squared|||Statistical Analysis for 30% Reduction in Urine Cotinine (Week 12)||||>0.05
82497332|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Total Composite (Week 12)||||>0.05
82497333|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Total Global (Week 12)||||>0.05
82497334|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Affective Flattening (Week 12)||||>0.05
82497335|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Alogia (Week 12)||||>0.05
82497336|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Avolition (Week 12)||||>0.05
82497337|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Anhedonia (Week 12)||||>0.05
82497338|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SANS Attention (Week 12)||||>0.05
82497339|NCT01111149|164687021|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis of Inappropriate Affect at Week 12||||>0.05
82497340|NCT01111149|164687022|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for CPT % Omissions (Week 12)||||>0.05
82497341|NCT01111149|164687022|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for CPT% commissions (Week 12)||||>0.05
82497342|NCT01111149|164687022|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for perseveration % (week 12)||||>0.05
82497343|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Anxiety at week 12||||>0.05
82497344|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Dizziness at week 12||||>0.05
82497345|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Mania at week 12||||>0.05
82497346|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for abnormal dreams at week 12||||>0.05
82497347|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Abdominal Pain at week 12||||>0.05
82497348|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Headache at week 12||||>0.05
82497349|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Insomnia at week 12||||>0.05
82497350|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Nausea at week 12||||>0.05
82497351|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Psychosis at week 12||||>0.05
82497352|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Dry Mouth at week 12||||>0.05
82497353|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Chest Pain at Week 12||||>0.05
82497354|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Irregular Heart Beat at week 12||||>0.05
82497355|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Weakness/Fainting at week 12||||>0.05
82497356|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Diarrhea at week 12||||>0.05
82497357|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Vomiting at week 12||||>0.05
82497358|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Constipation at week 12||||>0.05
82497359|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Confusion at week 12||||>0.05
82497360|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Irritability at week 12||||>0.05
82497361|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for drooling at week 12||||>0.05
82497362|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Cold Sweats at week 12||||>0.05
82497363|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Blurred Vision at week 12||||>0.05
82497364|NCT01111149|164687023|SUPERIORITY_OR_OTHER||||||>|0.05|||||||Fisher Exact|||Statistical analysis for Leg Pain/Cramps||||>0.05
82497365|NCT01111149|164687024|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for FTND (Week 12)||||>0.05
82497366|NCT01111149|164687024|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS 24 Hour Total (Week 12)||||>0.05
82497367|NCT01111149|164687024|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS 7 day total (Week 12)||||>0.05
82497368|NCT01111149|164687024|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS Resistance (Week 12)||||>0.05
82497369|NCT01111149|164687025|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis of Beck Depression Inventory (Week 12)||||>0.05
82497370|NCT01111149|164687026|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAS (Week 12)||||>0.05
82497371|NCT01111149|164687026|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BAS items 1-3 (week 12)||||>0.05
82497372|NCT01111149|164687026|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BAS item 4 (Week 12)||||>0.05
82497373|NCT01111149|164687027|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for systolic blood pressure (Week 12)||||>0.05
82497374|NCT01111149|164687027|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for diastolic blood pressure (Week 12)||||>0.05
82497375|NCT01111149|164687028|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Vital Signs - Weight (Week 12)||||>0.05
82497376|NCT01111149|164687029|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Smoking Abstinence - Number of Cigarettes Smoked (Week 12)||||>0.05
82497377|NCT01111149|164687030|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Smoking Abstinence - Exhaled Carbon Monoxide (Week 12)||||>0.05
82497378|NCT01111149|164687031|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Vital Signs - Pulse (Week 12)||||>0.05
82497379|NCT01111149|164687032|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Lifetime Suicidal Ideation (Week 12)||||>0.05
82497380|NCT01111149|164687032|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Lifetime Suicide Attempts (Week 12)||||>0.05
82497381|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Total Composite Score - Week 12||||>0.05
82497382|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Total Global - Week 12||||>0.05
82497383|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Hallucinations - Week 12||||>0.05
82497384|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Delusions - Week 12||||>0.05
82497385|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for SAPS Bizarre Behavior - Week 12||||>0.05
82497386|NCT01111149|164687033|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for SAPS Thought Disorder - Week 12||||>0.05
82497387|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Total - Week 12||||>0.05
82497388|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Positive Subscale - Week 12||||>0.05
82497389|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Negative Subscale - Week 12||||>0.05
82497390|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Mania Subscale - Week 12||||>0.05
82497391|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Disorientation Subscale - Week 12||||>0.05
82497392|NCT01111149|164687034|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for BPRS Depression Subscale - Week 12||||>0.05
82497393|NCT01111149|164687035|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Hit Reaction Time - CPT (Week 12)||||>0.05
82497394|NCT01111149|164687036|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Variability of Standard Error - CPT (Week 12)||||>0.05
82497395|NCT01111149|164687037|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Detectibility (d') of Continuous Performance Test (Week 12)||||>0.05
82497396|NCT01111149|164687038|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for Response Style Indicator (Beta) for CPT (week 12)||||>0.05
82497397|NCT01111149|164687039|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for WISDM Total (Week 12)||||>0.05
82497398|NCT01111149|164687039|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for WISDM Cognition (Week 12)||||>0.05
82497399|NCT01111149|164687039|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for WISDM Craving (Week 12)||||>0.05
82497400|NCT01111149|164687040|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS % Urge to Smoke (Week 12)||||>0.05
82497401|NCT01111149|164687040|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for MNWS % Strong Urge (Week 12)||||>0.05
82497402|NCT01111149|164687041|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for AIMS Total (Week 12)||||>0.05
82497403|NCT01111149|164687041|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical analysis for AIMS Severity Index (Week 12)||||>0.05
82497404|NCT01111149|164687041|SUPERIORITY_OR_OTHER||||||>|0.05|||||||ANOVA|||Statistical Analysis for AIMS Global Score (Week 12)||||>0.05
82497405|NCT02221947|164687045|OTHER||mean Tmax(h)|0.92|||||TWO_SIDED||||||||SD=0.206|Bryostatin plasma concentration: mean Tmax (h)||||
82497406|NCT02221947|164687045|OTHER||mean (h*ng/mL)|1.05|||||TWO_SIDED||||||||SD=0.330|Bryostatin plasma concentration AUC0-last (h\*ng/mL)||||
82497407|NCT03765918|164687049|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|9.3|||<|1e-05|TWO_SIDED|95.0|6.7|12.8||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||12.8|6.7|<0.00001
82497408|NCT03765918|164687050|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|13.7|||<|1e-05|TWO_SIDED|95.0|9.7|18.7||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||18.7|9.7|<0.00001
82497409|NCT03765918|164687051|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|9.8|||<|1e-05|TWO_SIDED|95.0|7.0|13.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||13.3|7.0|<0.00001
82497410|NCT03765918|164687052|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|3.0||||0.0006|TWO_SIDED|95.0|1.5|5.3||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||5.3|1.5|0.0006
82497411|NCT03765918|164687053|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|4.2||||0.0011|TWO_SIDED|95.0|2.1|7.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||7.6|2.1|0.0011
82497412|NCT03765918|164687054|OTHER|Difference in percentage (calculated as % Pembrolizumab + SOC arm - % SOC arm) and 95% CI were based on Miettinen \& Nurminen method stratified by primary tumor site and tumor stage.|Difference in Percentage|3.1||||0.0006|TWO_SIDED|95.0|1.6|5.6||One-sided p-value for testing. H0: difference in % = 0 versus H1: difference in % \> 0.|Stratified Miettinen and Nurminen|||||5.6|1.6|0.0006
82497413|NCT03765918|164687061|OTHER|Based on a constrained longitudinal data analysis (cLDA) model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.29||||0.4671|TWO_SIDED|95.0|-4.78|2.2||Two-sided p-value based on cLDA model.|cLDA model|||||2.20|-4.78|0.4671
82497414|NCT03765918|164687062|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.03||||0.1606|TWO_SIDED|95.0|-7.27|1.21||Two-sided p-value based on cLDA model.|cLDA model|||||1.21|-7.27|0.1606
82497415|NCT03765918|164687063|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.41||||0.4374|TWO_SIDED|95.0|-4.96|2.15||Two-sided p-value based on cLDA model.|cLDA model|||||2.15|-4.96|0.4374
82497416|NCT03765918|164687064|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.39||||0.8379|TWO_SIDED|95.0|-3.35|4.13||Two-sided p-value based on cLDA model.|cLDA model|||||4.13|-3.35|0.8379
82497417|NCT03765918|164687065|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.39||||0.8643|TWO_SIDED|95.0|-4.84|4.07||Two-sided p-value based on cLDA model.|cLDA model|||||4.07|-4.84|0.8643
82499895|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|10.0|||||TWO_SIDED|95.0|-8.7|29.6|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||29.6|-8.7|
82497418|NCT03765918|164687066|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.29||||0.8813|TWO_SIDED|95.0|-4.12|3.54||Two-sided p-value based on cLDA model.|cLDA model|||||3.54|-4.12|0.8813
82497419|NCT03765918|164687073|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.34||||0.8287|TWO_SIDED|95.0|-2.76|3.45||Two-sided p-value based on cLDA model.|cLDA model|||||3.45|-2.76|0.8287
82497420|NCT03765918|164687074|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.53||||0.7761|TWO_SIDED|95.0|-3.12|4.18||Two-sided p-value based on cLDA model.|cLDA model|||||4.18|-3.12|0.7761
82497421|NCT03765918|164687075|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.65||||0.688|TWO_SIDED|95.0|-2.54|3.84||Two-sided p-value based on cLDA model.|cLDA model|||||3.84|-2.54|0.6880
82497422|NCT03765918|164687076|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.45||||0.3858|TWO_SIDED|95.0|-4.73|1.83||Two-sided p-value based on cLDA model.|cLDA model|||||1.83|-4.73|0.3858
82497423|NCT03765918|164687077|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.45||||0.237|TWO_SIDED|95.0|-6.53|1.62||Two-sided p-value based on cLDA model.|cLDA model|||||1.62|-6.53|0.2370
82497424|NCT03765918|164687078|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.76||||0.3138|TWO_SIDED|95.0|-5.2|1.67||Two-sided p-value based on cLDA model.|cLDA model|||||1.67|-5.20|0.3138
82497425|NCT03765918|164687085|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.28||||0.1763|TWO_SIDED|95.0|-8.05|1.48||Two-sided p-value based on cLDA model.|cLDA model|||||1.48|-8.05|0.1763
82497426|NCT03765918|164687086|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-1.18||||0.6882|TWO_SIDED|95.0|-6.95|4.59||Two-sided p-value based on cLDA model.|cLDA model|||||4.59|-6.95|0.6882
82497427|NCT03765918|164687087|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.52||||0.3103|TWO_SIDED|95.0|-7.39|2.35||Two-sided p-value based on cLDA model.|cLDA model|||||2.35|-7.39|0.3103
82497428|NCT03765918|164687088|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.48||||0.8475|TWO_SIDED|95.0|-5.41|4.45||Two-sided p-value based on cLDA model.|cLDA model|||||4.45|-5.41|0.8475
82497429|NCT03765918|164687089|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.42||||0.8881|TWO_SIDED|95.0|-6.36|5.51||Two-sided p-value based on cLDA model.|cLDA model|||||5.51|-6.36|0.8881
82497430|NCT03765918|164687090|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.22||||0.9307|TWO_SIDED|95.0|-5.22|4.78||Two-sided p-value based on cLDA model.|cLDA model|||||4.78|-5.22|0.9307
82497431|NCT03765918|164687097|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|1.3||||0.5752|TWO_SIDED|95.0|-3.25|5.85||Two-sided p-value based on cLDA model.|cLDA model|||||5.85|-3.25|0.5752
82497432|NCT03765918|164687098|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.98||||0.7196|TWO_SIDED|95.0|-4.38|6.34||Two-sided p-value based on cLDA model.|cLDA model|||||6.34|-4.38|0.7196
82497433|NCT03765918|164687099|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.74||||0.7522|TWO_SIDED|95.0|-3.88|5.37||Two-sided p-value based on cLDA model.|cLDA model|||||5.37|-3.88|0.7522
82497434|NCT03765918|164687100|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-0.24||||0.9255|TWO_SIDED|95.0|-5.3|4.82||Two-sided p-value based on cLDA model.|cLDA model|||||4.82|-5.30|0.9255
82497435|NCT03765918|164687101|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|2.22||||0.4926|TWO_SIDED|95.0|-4.15|8.6||Two-sided p-value based on cLDA model.|cLDA model|||||8.60|-4.15|0.4926
82497436|NCT03765918|164687102|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.99||||0.7087|TWO_SIDED|95.0|-4.23|6.21||Two-sided p-value based on cLDA model.|cLDA model|||||6.21|-4.23|0.7087
82497437|NCT03765918|164687109|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.75||||0.1654|TWO_SIDED|95.0|-6.65|1.14||Two-sided p-value based on cLDA model.|cLDA model|||||1.14|-6.65|0.1654
82497438|NCT03765918|164687110|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|0.26||||0.9117|TWO_SIDED|95.0|-4.29|4.8||Two-sided p-value based on cLDA model.|cLDA model|||||4.80|-4.29|0.9117
82497439|NCT03765918|164687111|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.22||||0.2808|TWO_SIDED|95.0|-6.25|1.82||Two-sided p-value based on cLDA model.|cLDA model|||||1.82|-6.25|0.2808
82497440|NCT03765918|164687112|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.77||||0.1577|TWO_SIDED|95.0|-6.62|1.08||Two-sided p-value based on cLDA model.|cLDA model|||||1.08|-6.62|0.1577
82497441|NCT03765918|164687113|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-2.81||||0.2485|TWO_SIDED|95.0|-7.59|1.97||Two-sided p-value based on cLDA model.|cLDA model|||||1.97|-7.59|0.2485
82497442|NCT03765918|164687114|OTHER|Based on a cLDA model with the PRO scores as the response variable with covariates for treatment by study visit interaction, and stratification factors by primary tumor site, tumor stage, and PD-L1 status.|Difference in Least Square Means|-3.03||||0.1364|TWO_SIDED|95.0|-7.03|0.96||Two-sided p-value based on cLDA model.|cLDA model|||||0.96|-7.03|0.1364
82497443|NCT03765918|164687120|SUPERIORITY|Hazard ratio (HR) and associated 95% confidence interval (CI) were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.73||||0.00411|TWO_SIDED|95.0|0.58|0.92|||Stratified Log Rank|One-sided p-value was based on log-rank test stratified by primary tumor site and tumor stage.||||0.92|0.58|0.00411
82497444|NCT03765918|164687121|SUPERIORITY|HR and associated 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.66||||0.00217|TWO_SIDED|95.0|0.49|0.88|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by primary tumor site and tumor stage.||||0.88|0.49|0.00217
82497445|NCT03765918|164687122|SUPERIORITY|HR and associated 95% CI were based on Cox regression model with Efron's method of tie handling with treatment as a covariate stratified by primary tumor site and tumor stage.|Hazard Ratio (HR)|0.7||||0.0014|TWO_SIDED|95.0|0.55|0.89|||Stratified Log Rank|One-sided p-value based on log-rank test stratified by primary tumor site and tumor stage.||||0.89|0.55|0.00140
82497446|NCT00299975|164687170|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis.||||||<0.05
82497447|NCT00299975|164687171|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis.||||||<0.05
82497448|NCT00299975|164687172|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497449|NCT00299975|164687173|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497450|NCT00299975|164687174|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Chi-squared|Chi-squared test from Crosstabs analysis was implemented between three treatment groups in each time frame.||||||<0.05
82497451|NCT00299975|164687175|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497452|NCT00299975|164687176|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497453|NCT00299975|164687177|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497454|NCT00299975|164687178|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497455|NCT00299975|164687179|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497456|NCT00299975|164687180|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||ANOVA|||||||<0.05
82497457|NCT00299975|164687182|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82497458|NCT00299975|164687183|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82497459|NCT00299975|164687184|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82497460|NCT00299975|164687185|SUPERIORITY_OR_OTHER||||||<|0.05||95.0|||||Paired-Samples T Test|Paired-Samples T Test was implemented between pre-treatment (Wk2) and post-treatment (Wk10) of each treatment group.||||||<0.05
82497461|NCT04380116|164687192|SUPERIORITY|||||||0.366|||||||ANOVA|||||||.366
82497462|NCT03167411|164687222|EQUIVALENCE|The ratio of the least squares (LS) geometric means of Cmax when bexagliflozin is dosed in combination with exenatide versus when dosed alone, with 80-125% defined as the lack of interaction boundaries. 90% confidence intervals was constructed.|Point Estimate (%)|125.27|||||TWO_SIDED|90.0|104.45|150.24|||||Estimated ratio (%) of exponentiated mean difference of log-transformed PK parameter from ANOVA (linear mixed-effects model), with treatment, period, and sequence as fixed effects, and subject as a random effect.|||150.24|104.45|
82497463|NCT03167411|164687225|EQUIVALENCE|The ratio of the least squares (LS) geometric means of AUC0-inf when bexagliflozin is dosed in combination with exenatide versus when dosed alone, with 80-125% defined as the lack of interaction boundaries. 90% confidence intervals was constructed.|Point Estimate (%)|137.56|||||TWO_SIDED|90.0|122.28|154.75|||||Estimated ratio (%) of exponentiated mean difference of log-transformed PK parameter from ANOVA (linear mixed-effects model), with treatment, period, and sequence as fixed effects, and subject as a random effect.|||154.75|122.28|
82497464|NCT00420927|164687253|SUPERIORITY_OR_OTHER|||||||0.023||95.0|||||Chi-squared|P value is from Pearson's chi-square test.||||||0.023
82497465|NCT00420927|164687254|SUPERIORITY_OR_OTHER|||||||0.082||95.0|||||Regression, Logistic|||||||0.082
82497466|NCT00420927|164687255|SUPERIORITY_OR_OTHER|||||||0.28||95.0|||||Regression, Logistic|||||||0.280
82497467|NCT00420927|164687255|SUPERIORITY_OR_OTHER|||||||0.287||95.0|||||Regression, Logistic|||||||0.287
82497468|NCT00420927|164687256|SUPERIORITY_OR_OTHER|||||||0.026||95.0|||||Regression, Logistic|||||||0.026
82497469|NCT00420927|164687256|SUPERIORITY_OR_OTHER|||||||0.009||95.0|||||Regression, Logistic|||||||0.009
82497470|NCT00420927|164687257|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Regression, Logistic|||||||0.060
82497471|NCT00420927|164687257|SUPERIORITY_OR_OTHER|||||||0.063||95.0|||||Regression, Logistic|||||||0.063
82497472|NCT00420927|164687258|SUPERIORITY_OR_OTHER|||||||0.395||95.0|||||Regression, Logistic|||||||0.395
82497473|NCT00420927|164687258|SUPERIORITY_OR_OTHER|||||||0.64||95.0|||||Regression, Logistic|||||||0.640
82497474|NCT00420927|164687259|SUPERIORITY_OR_OTHER|||||||0.159||95.0|||||Regression, Logistic|||||||0.159
82497475|NCT00420927|164687259|SUPERIORITY_OR_OTHER|||||||0.217||95.0|||||Regression, Logistic|||||||0.217
82497476|NCT00420927|164687260|SUPERIORITY_OR_OTHER|||||||0.06||95.0|||||Regression, Logistic|||||||0.060
82497477|NCT00420927|164687260|SUPERIORITY_OR_OTHER|||||||0.043||95.0|||||Regression, Logistic|||||||0.043
82497478|NCT00420927|164687261|SUPERIORITY_OR_OTHER|||||||0.004||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.004
82497479|NCT00420927|164687261|SUPERIORITY_OR_OTHER|||||||0.049||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.049
82497480|NCT00420927|164687262|SUPERIORITY_OR_OTHER|||||||0.24||95.0|||||Regression, Logistic|||||||0.240
82497481|NCT00420927|164687262|SUPERIORITY_OR_OTHER|||||||0.271||95.0|||||Regression, Logistic|||||||0.271
82497482|NCT00420927|164687263|SUPERIORITY_OR_OTHER|||||||0.23||95.0|||||Regression, Logistic|||||||0.230
82497483|NCT00420927|164687263|SUPERIORITY_OR_OTHER|||||||0.55||95.0|||||Regression, Logistic|||||||0.550
82497484|NCT00420927|164687264|SUPERIORITY_OR_OTHER|||||||0.301||95.0|||||Regression, Logistic|||||||0.301
82497485|NCT00420927|164687264|SUPERIORITY_OR_OTHER|||||||0.188||95.0|||||Regression, Logistic|||||||0.188
82497486|NCT00420927|164687265|SUPERIORITY_OR_OTHER|||||||0.314||95.0|||||Regression, Logistic|||||||0.314
82497487|NCT00420927|164687265|SUPERIORITY_OR_OTHER|||||||0.235||95.0|||||Regression, Logistic|||||||0.235
82497488|NCT00420927|164687266|SUPERIORITY_OR_OTHER|||||||0.03||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.030
82497489|NCT00420927|164687266|SUPERIORITY_OR_OTHER|||||||0.403||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.403
82497490|NCT00420927|164687267|SUPERIORITY_OR_OTHER|||||||0.036||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.036
82497491|NCT00420927|164687267|SUPERIORITY_OR_OTHER|||||||0.349||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.349
82497492|NCT00420927|164687268|SUPERIORITY_OR_OTHER|||||||0.037||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||0.037
82497493|NCT00420927|164687268|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||ANCOVA|Analysis of covariance adjusting for baseline||||||<0.001
82497494|NCT00420927|164687269|SUPERIORITY_OR_OTHER|||||||0.192||95.0|||||Regression, Logistic|||||||0.192
82497495|NCT00420927|164687269|SUPERIORITY_OR_OTHER|||||||0.241||95.0|||||Regression, Logistic|||||||0.241
82497496|NCT00420927|164687270|SUPERIORITY_OR_OTHER|||||||0.028||95.0|||||Regression, Logistic|||||||0.028
82497497|NCT00420927|164687270|SUPERIORITY_OR_OTHER|||||||0.014||95.0|||||Regression, Logistic|||||||0.014
82497498|NCT00420927|164687271|SUPERIORITY_OR_OTHER|||||||0.074||95.0|||||Regression, Logistic|||||||0.074
82497499|NCT00420927|164687271|SUPERIORITY_OR_OTHER|||||||0.077||95.0|||||Regression, Logistic|||||||0.077
82497500|NCT00729651|164687363|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.02|||<|0.0001||95.0|0.0|0.08|||Cochran-Mantel-Haenszel|Primary efficacy endpoint was analyzed by a Cochran-Mantel-Haenszel test with baseline vitamin D level as covariate.|Mantel-Haenszel estimator of the common odds ratio was calculated by using Cochran-Mantel-Haenszel test for subjects' proportions with vitamin D deficiency changes at 16 weeks (visit 4) from baseline (visit 1) between treatment groups.|||0.08|0.00|<0.0001
82497501|NCT00729651|164687364|SUPERIORITY_OR_OTHER_LEGACY|||||||0.0091||95.0|||||ANCOVA|Least squares mean is mean of serum PTH percentage changes adjusted serum PTH level at baseline.||||||0.0091
82497502|NCT00729651|164687365|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.02|||<|0.0001||95.0|0.01|0.04|||Cochran-Mantel-Haenszel|It was analyzed by a Cochran-Mantel-Haenszel test with baseline vitamin D level as covariate.|Mantel-Haenszel estimator of the common odds ratio was calculated by using Cochran-Mantel-Haenszel test for subjects' proportions with vitamin D deficiency changes at 16 weeks (visit 4) from baseline (visit 1) between treatment groups.|||0.04|0.01|<0.0001
82497503|NCT00291577|164687368|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|98.89||||||90.0|80.34|121.73|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU011248 C1D2 vs C2D3. Due to the exploratory nature of the study, no statistical hypothesis testing was done since the primary purpose was to assess the tolerability of the combination of SU011248 with docetaxel.||121.73|80.34|
82497504|NCT00291577|164687368|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|81.96||||||90.0|59.76|112.41|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU012662 C1D2 vs C2D3||112.41|59.76|
82497505|NCT00291577|164687368|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|97.81||||||90.0|80.44|118.94|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|Total drug C1D2 vs C2D3||118.94|80.44|
82497506|NCT00291577|164687369|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|101.23||||||90.0|82.75|123.83|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU011248 C1D2 vs C2D3||123.83|82.75|
82497507|NCT00291577|164687369|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|81.72||||||90.0|62.4|107.04|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|SU012662 C1D2 vs C2D3||107.04|62.40|
82497508|NCT00291577|164687369|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|100.0||||||90.0|82.95|120.56|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|Total drug C1D2 vs C2D3||120.56|82.95|
82497509|NCT00291577|164687373|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|99.18||||||90.0|78.73|124.95|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||124.95|78.73|
82497510|NCT00291577|164687374|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|94.98||||||90.0|78.73|114.58|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.58|78.73|
82497511|NCT00291577|164687376|SUPERIORITY_OR_OTHER||rate (percent)|73.7||||||95.0|48.8|90.9|||||Two-sided Confidence Interval (CI) (%) from exact method based on F distribution.|Overall confirmed objective response rate (CR + PR)||90.9|48.8|
82497512|NCT00291577|164687377|SUPERIORITY_OR_OTHER||rate (percent)|89.5||||||95.0|66.9|98.7|||||Two-sided CI (%) from exact method based on F distribution.|Clinical Benefit Rate (CR + PR + SD \> = 24 weeks)||98.7|66.9|
82497513|NCT00291577|164687379|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.57||||||90.0|79.9|114.32|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.32|79.90|
82497514|NCT00291577|164687380|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|112.39||||||90.0|81.05|155.85|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||155.85|81.05|
82497515|NCT00291577|164687381|SUPERIORITY_OR_OTHER||Ratio of adjusted geometric means|95.79||||||90.0|79.82|114.96|||||Ratio percent (%) (Test/Reference) of adjusted geometric means; values have been back-transformed from the log scale.|C1D1 vs C2D1||114.96|79.82|
82497516|NCT03473977|164687383|OTHER|||||||0.0001|||||||Fisher Exact|||||||0.0001
82497517|NCT03473977|164687384|OTHER|||||||0.75|||||||Kruskal-Wallis|||||||0.75
82497518|NCT03473977|164687385|OTHER|||||||0.006|||||||Kruskal-Wallis|||||||0.006
82497519|NCT03473977|164687386|OTHER|||||||0.004|||||||Kruskal-Wallis|||||||0.004
82497520|NCT03473977|164687387|OTHER|||||||0.0058|||||||t-test, 2 sided|||||||0.0058
82497521|NCT03473977|164687388|OTHER|||||||0.014|||||||Kruskal-Wallis|||||||0.014
82497522|NCT03473977|164687389|OTHER|||||||0.78|||||||Kruskal-Wallis|||Pain Score Comparison||||0.78
82497523|NCT03473977|164687389|OTHER|||||||0.34|||||||Kruskal-Wallis|||Non-pain score comparison||||0.34
82497524|NCT03473977|164687389|OTHER|||||||0.66|||||||Kruskal-Wallis|||Satisfaction score comparison||||0.66
82497525|NCT03200860|164687444|SUPERIORITY|||||||0.18|||||||t-test, 2 sided|||||||0.18
82497526|NCT03200860|164687445|SUPERIORITY|||||||0.37|||||||t-test, 2 sided|||||||0.37
82497527|NCT03200860|164687446|SUPERIORITY|||||||0.58|||||||Wilcoxon (Mann-Whitney)|||||||0.58
82497528|NCT03200860|164687447|SUPERIORITY|||||||0.63|||||||t-test, 2 sided|||||||0.63
82497529|NCT03200860|164687448|SUPERIORITY|||||||0.31|||||||Regression, Logistic|||||||0.31
82497530|NCT03200860|164687449|SUPERIORITY|||||||0.014|||||||Regression, Logistic|||||||0.014
82497531|NCT04774328|164687461|OTHER|Analysis of Variance (ANOVA)|Median Difference (Final Values)|-39.28|STANDARD_ERROR_OF_MEAN|54.818||0.4812|TWO_SIDED|95.0|-152.97|74.4|||ANOVA|||||74.40|-152.97|0.4812
82497532|NCT04774328|164687462|OTHER|ANOVA|Mean Difference (Final Values)|-158.08|STANDARD_ERROR_OF_MEAN|64.232||0.0222|TWO_SIDED|95.0|-291.29|-24.87|||ANOVA|||"Applies to evoked measure of after coughing."||-24.87|-291.29|0.0222
82497533|NCT04774328|164687462|OTHER|ANOVA|Mean Difference (Final Values)|-55.04|STANDARD_ERROR_OF_MEAN|43.19||0.2158|TWO_SIDED|95.0|-144.61|34.53|||ANOVA|||"Applies to evoked measure for after sitting up."||34.53|-144.61|0.2158
82497534|NCT04774328|164687462|OTHER|ANOVA|Mean Difference (Final Values)|-78.73|STANDARD_ERROR_OF_MEAN|42.532||0.0777|TWO_SIDED|95.0|-166.93|9.48|||ANOVA|||"Applies to evoked measure of after ambulation."||9.48|-166.93|0.0777
82497535|NCT04774328|164687463|OTHER|ANOVA|Mean Difference (Final Values)|-9.375|STANDARD_ERROR_OF_MEAN|12.7245||0.469|TWO_SIDED|95.0|-35.764|17.014|||ANOVA|||Entry applies to OC 0-96 hours.||17.014|-35.764|0.4690
82497536|NCT04774328|164687463|OTHER|ANOVA|Mean Difference (Final Values)|-8.125|STANDARD_ERROR_OF_MEAN|14.5059||0.5811|TWO_SIDED|95.0|-38.208|21.958|||ANOVA|||Applies to OC 0 - Day 8.||21.958|-38.208|0.5811
82497537|NCT02634320|164687494|OTHER|Statistical test is to confirm the change from baseline is statistically different from 0.||||||0.078||||||Change from baseline at last on-treatment visit|t-test, 2 sided|||||||0.078
82497538|NCT01179568|164687500|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||<|0.05|TWO_SIDED|95.0|0.82|1.81|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT vs PLA at week 12 (aim 1), based on the intention-to-treat principle including all randomized participants. With 10% of 440 target enrollment lost to follow-up we had a power of 76-83% to detect predicted between-group difference in response (CGT with PLA, 40%; CGT with CIT, 60%; CIT 40%; and PLA 20%)||1.81|0.82|<0.05
82497539|NCT01179568|164687500|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.01|||<|0.05|TWO_SIDED|95.0|0.88|1.17|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT with CGT vs PLA with CGT at week 20 (aim 2) based on the intention-to-treat principle including all randomized participants.||1.17|0.88|<0.05
82497540|NCT01179568|164687500|SUPERIORITY_OR_OTHER||Risk Ratio (RR)|1.21|||<|0.05|TWO_SIDED|95.0|1.0|1.46|||Regression, Logistic|Logistic regression with inverse probability weighting controlled for randomization stratification variables (site and baseline MDD) \& race/ethnicity||Our prespecified primary analysis was cross-sectional, comparing treatment response rates for CIT with CGT vs CIT at week 20 (aim 3) based on the intention-to-treat principle including all randomized participants.||1.46|1|<0.05
82497541|NCT01179568|164687501|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.67|STANDARD_ERROR_OF_MEAN|2.04||0.74|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||0.74
82497542|NCT01179568|164687502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.26|STANDARD_ERROR_OF_MEAN|1.98||0.53|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||.53
82497543|NCT01179568|164687502|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.37|STANDARD_ERROR_OF_MEAN|2.08|<|0.001|TWO_SIDED|||||Pre-specified secondary analyses compared changes in ICG scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||<.001
82497544|NCT01179568|164687503|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.84|STANDARD_ERROR_OF_MEAN|1.57||0.59|TWO_SIDED|||||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.|Regression, Linear|||||||.59
82497545|NCT01179568|164687504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|1.2|STANDARD_ERROR_OF_MEAN|1.44||0.4|TWO_SIDED||||||Regression, Linear|||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.||||.40
82497546|NCT01179568|164687504|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-4.13|STANDARD_ERROR_OF_MEAN|1.46||0.005|TWO_SIDED||||||Regression, Linear|||Pre-specified secondary analyses compared changes in WSAS scores using a weighted linear regression, controlling for site, baseline MDD, \& race/ethnicity, and with inverse probability weighting to adjust for missing assessments.||||.005
82497547|NCT00357968|164687513|SUPERIORITY_OR_OTHER||Mean Difference (Net)|43.21|||<|0.0001|TWO_SIDED|95.0|38.04|48.38|||ANCOVA|||||48.38|38.04|<0.0001
82497548|NCT00357968|164687514|SUPERIORITY_OR_OTHER||LS Mean difference|14.93|||<|0.0001|TWO_SIDED|95.0|10.6|19.26|||Mixed Models Analysis|||||19.26|10.6|<0.0001
82497549|NCT00357968|164687515|SUPERIORITY_OR_OTHER||Mean Difference (Net)|44.75|||<|0.0001|TWO_SIDED|95.0|38.35|51.15|||ANCOVA|||||51.15|38.35|<0.0001
82497550|NCT00357968|164687520|SUPERIORITY_OR_OTHER||||||<|0.0001||95.0|||||Chi-squared|||||||<0.0001
82497551|NCT00357968|164687521|SUPERIORITY_OR_OTHER|||||||0.0629||95.0|||||Fisher Exact|||||||0.0629
82497552|NCT00357968|164687522|SUPERIORITY_OR_OTHER|||||||0.1827||95.0|||||Fisher Exact|||||||0.1827
82497553|NCT00357968|164687523|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-54.3|||<|0.0001|TWO_SIDED|95.0|-61.2|-47.4|||ANCOVA|||||-47.4|-61.2|<0.0001
82497554|NCT00357968|164687524|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-60.5|||<|0.0001|TWO_SIDED|95.0|-67.1|-54.0|||ANCOVA|||||-54.0|-67.1|<0.0001
82497555|NCT00357968|164687525|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-56.2|||<|0.0001|TWO_SIDED|95.0|-63.2|-49.2|||ANCOVA|||||-49.2|-63.2|<0.0001
82497556|NCT00357968|164687526|SUPERIORITY_OR_OTHER||LS Mean difference|-20.1|||<|0.0001|TWO_SIDED|95.0|-25.7|-14.5|||Mixed Models Analysis|||||-14.5|-25.7|<0.0001
82497557|NCT00357968|164687527|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.47||||0.7058|TWO_SIDED|95.0|-2.95|2.0|||ANCOVA|||||2.00|-2.95|0.7058
82497558|NCT00357968|164687528|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-1.33||||0.4029|TWO_SIDED|95.0|-4.48|1.82|||ANCOVA|||||1.82|-4.48|0.4029
82497559|NCT00357968|164687529|SUPERIORITY_OR_OTHER||Mean Difference (Net)|0.01||||0.7893|TWO_SIDED|95.0|-0.06|0.08|||ANCOVA|||||0.08|-0.06|0.7893
82497560|NCT00357968|164687530|SUPERIORITY_OR_OTHER||Mean Difference (Net)|-0.04||||0.4528|TWO_SIDED|95.0|-0.25|0.07|||ANCOVA|||||0.07|-0.25|0.4528
82497561|NCT01414010|164687531|SUPERIORITY_OR_OTHER||||||<|0.05|||||||ANOVA|||"Statistical analysis was performed using a variety of computer packages including XLstat, NCSS 2007, R and NCSS 2010"||||<0.05
82497562|NCT03919799|164687532|SUPERIORITY|The LOCF imputation was followed by logistic regression analysis. Comparison analysis between belumosudil dose regimen and placebo was performed using a logistic regression analysis with treatment in the model.|Odds Ratio (OR)|1.06||||0.9472|TWO_SIDED|95.0|0.19|5.82||Threshold for significance at 0.05 level.|Regression, Logistic|||Belumosudil 200 mg QD versus Placebo||5.82|0.19|0.9472
82497563|NCT03919799|164687532|SUPERIORITY|The LOCF imputation was followed by logistic regression analysis. Comparison analysis between belumosudil dose regimen and placebo was performed using a logistic regression analysis with treatment in the model.|Odds Ratio (OR)|0.39||||0.3078|TWO_SIDED|95.0|0.07|2.35||Threshold for significance at 0.05 level.|Regression, Logistic|||Belumosudil 200 mg BID versus Placebo||2.35|0.07|0.3078
82497564|NCT03919799|164687533|SUPERIORITY|MMRM analysis used rank-transformed data, with CRISS score as a dependent variable and treatment, visit, and visit x treatment interaction as fixed effects. Visit was a repeated factor, and analyses were done through week 24.|Least square mean difference|-0.04||||0.9889|TWO_SIDED|95.0|-6.51|6.42||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||6.42|-6.51|0.9889
82497565|NCT03919799|164687533|SUPERIORITY|MMRM analysis using rank-transformed data, with CRISS score as a dependent variable and treatment, visit, and visit x treatment interaction as fixed effects. Visit was a repeated factor, and analyses were done through week 24.|Least square mean difference|-4.18||||0.1916|TWO_SIDED|95.0|-10.59|2.23||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||2.23|-10.59|0.1916
82497566|NCT03919799|164687535|SUPERIORITY||Least square mean difference|-0.6||||0.771|TWO_SIDED|95.0|-4.7|3.6||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||3.6|-4.7|0.7710
82497567|NCT03919799|164687535|SUPERIORITY||Least square mean difference|4.6||||0.0308|TWO_SIDED|95.0|0.5|8.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||8.8|0.5|0.0308
82497568|NCT03919799|164687536|SUPERIORITY||Least square mean difference|1.4||||0.6533|TWO_SIDED|95.0|-4.9|7.7||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||7.7|-4.9|0.6533
82497569|NCT03919799|164687536|SUPERIORITY||Least square mean difference|-1.5||||0.6338|TWO_SIDED|95.0|-8.1|5.0||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||5.0|-8.1|0.6338
82497570|NCT03919799|164687537|SUPERIORITY||Least square mean difference|14.6||||0.0916|TWO_SIDED|95.0|-2.5|31.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||31.8|-2.5|0.0916
82497571|NCT03919799|164687537|SUPERIORITY||Least square mean difference|-8.6||||0.3146|TWO_SIDED|95.0|-25.7|8.6|||MMRM|||Belumosudil 200 mg BID versus Placebo||8.6|-25.7|0.3146
82497572|NCT03919799|164687538|SUPERIORITY||Least square mean difference|-10.0||||0.3753|TWO_SIDED|95.0|-32.8|12.8||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||12.8|-32.8|0.3753
82497573|NCT03919799|164687538|SUPERIORITY||Least square mean difference|-0.7||||0.9481|TWO_SIDED|95.0|-23.5|22.1||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||22.1|-23.5|0.9481
82497574|NCT03919799|164687539|SUPERIORITY||Least square mean difference|-0.036||||0.8387|TWO_SIDED|95.0|-0.392|0.32||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||0.320|-0.392|0.8387
82497575|NCT03919799|164687539|SUPERIORITY||Least square mean difference|0.039||||0.8234|TWO_SIDED|95.0|-0.317|0.395||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||0.395|-0.317|0.8234
82497576|NCT03919799|164687540|SUPERIORITY||Least square mean difference|-3.009||||0.7535|TWO_SIDED|95.0|-22.413|16.395||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||16.395|-22.413|0.7535
82497577|NCT03919799|164687540|SUPERIORITY||Least square mean difference|-21.015||||0.0348|TWO_SIDED|95.0|-40.419|-1.611||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||-1.611|-40.419|0.0348
82497578|NCT03919799|164687541|SUPERIORITY||Least square mean difference|45.566||||0.0343|TWO_SIDED|95.0|3.621|87.512||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||87.512|3.621|0.0343
82497579|NCT03919799|164687541|SUPERIORITY||Least square mean difference|-21.984||||0.2922|TWO_SIDED|95.0|-63.93|19.962||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||19.962|-63.930|0.2922
82497580|NCT03919799|164687542|SUPERIORITY||Least square mean difference|-16.757||||0.532|TWO_SIDED|95.0|-70.933|37.419||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||37.419|-70.933|0.5320
82497581|NCT03919799|164687542|SUPERIORITY||Least square mean difference|4.02||||0.8804|TWO_SIDED|95.0|-50.156|58.196||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg BID versus Placebo||58.196|-50.156|0.8804
82497582|NCT03919799|164687543|SUPERIORITY||Least square mean difference|7.522||||0.8628|TWO_SIDED|95.0|-80.837|95.88||Threshold for significance at 0.05 level.|MMRM|||Belumosudil 200 mg QD versus Placebo||95.880|-80.837|0.8628
82497583|NCT03919799|164687543|SUPERIORITY||Least square mean difference|-42.442||||0.3196|TWO_SIDED|95.0|-128.242|43.359|||MMRM|||Belumosudil 200 mg BID versus Placebo||43.359|-128.242|0.3196
82497584|NCT02970422|164687603|OTHER|||||||0.91|||||||Chi-squared|Chi-squared value= .57||Relief of breathlessness||||.91
82497585|NCT02970422|164687603|OTHER|||||||0.31|||||||Chi-squared|Chi-squared value= 3.56||Improve your ability to perform activities in and out of your home||||.31
82497586|NCT02970422|164687603|OTHER|||||||0.96|||||||Chi-squared|Chi-squared value=.32||Prevent lung flare-ups||||.96
82497587|NCT02970422|164687603|OTHER|||||||0.04|||||||Chi-squared|Chi-squared value= 8.09||Discuss COPD and its progression||||.04
82497588|NCT02970422|164687603|OTHER|||||||0.7|||||||Chi-squared|Chi-squared value: 1.41||Improve your physical well-being||||.70
82497589|NCT02970422|164687603|OTHER|||||||0.01|||||||Chi-squared|Chi-squared value= 10.81||Relief of breathlessness||||.01
82497590|NCT02970422|164687603|OTHER|||||||0.49|||||||Chi-squared|Chi-squared value= 2.41||Improve your ability to perform activities in and out of your home||||.49
82497591|NCT02970422|164687603|OTHER|||||||0.93|||||||Chi-squared|Chi-squared value= .44||Prevent lung flare-ups||||.93
82497592|NCT02970422|164687603|OTHER|||||||0.6|||||||Chi-squared|Chi-squared value= 1.87||Discuss COPD and its progression||||.60
82497593|NCT02970422|164687603|OTHER|||||||0.31|||||||Chi-squared|Chi-squared value= 3.61||Improve your physical well-being||||.31
82497594|NCT02970422|164687604|OTHER|||||||0.73|||||||Chi-squared|Chi-squared value: 1.31||To relieve breathlessness in adults living with COPD||||.73
82497595|NCT02970422|164687604|OTHER|||||||0.23|||||||Chi-squared|Chi-squared value= 4.28||To prevent the development of COPD||||.23
82497596|NCT02970422|164687604|OTHER|||||||0.14|||||||Chi-squared|Chi-squared value= 5.51||To prevent lung flare-ups in adults living with COPD||||.14
82497597|NCT02970422|164687604|OTHER|||||||0.52|||||||Chi-squared|Chi-squared value= 2.28||To increase the ability of adults living with COPD to exercise||||.52
82497598|NCT02970422|164687604|OTHER|||||||0.11|||||||Chi-squared|Chi-squared value= 5.88||To improve the maximal amount of exercise of adults living with COPD in and out of the home||||.11
82497599|NCT02970422|164687604|OTHER|||||||0.14|||||||Chi-squared|Chi-squared value= 5.57||To relieve breathlessness in adults living with COPD||||.14
82497600|NCT02970422|164687604|OTHER|||||||0.73|||||||Chi-squared|Chi-squared value= 1.29||To prevent the development of COPD||||.73
82497601|NCT02970422|164687604|OTHER|||||||0.2|||||||Chi-squared|Chi-squared value= 4.64||To prevent lung flare-ups in adults living with COPD||||.20
82497602|NCT02970422|164687604|OTHER|||||||0.17|||||||Chi-squared|Chi-squared value= 5.02||To increase the ability of adults living with COPD to exercise||||.17
82497603|NCT02970422|164687604|OTHER|||||||0.02|||||||Chi-squared|Chi-square value= 9.97||To improve the maximal amount of exercise of adults living with COPD in and out of the home||||.02
82497604|NCT02970422|164687605|OTHER|||||||0.05|||||||Chi-squared|Chi squared value= 17.20||Activity 1: Walking from one place to another outside of your home on a flat surface||||.05
82497605|NCT02970422|164687605|OTHER|||||||0.87|||||||Chi-squared|Chi-squared value= 4.56||Activity 2: Moving from one place to another using motorized transportation||||.87
82497606|NCT02970422|164687605|OTHER|||||||0.65|||||||Chi-squared|Chi-squared value= 6.85||Activity 3: Climbing two or more flights of stairs||||.65
82497607|NCT02970422|164687605|OTHER|||||||0.35|||||||Chi-squared|Chi-squared value= 10.00||Activity 4: Walking up a hill||||.35
82497608|NCT02970422|164687605|OTHER|||||||0.03|||||||Chi-squared|Chi-squared value= 18.75||Activity 5: Participating in regular exercise requiring physical effort, to maintain or improve health or fitness||||.03
82497609|NCT02970422|164687605|OTHER|||||||0|||||||Chi-squared|Chi-squared value= 35.52||Activity 1: Walking from one place to another outside of your home on a flat surface||||.00
82497610|NCT02970422|164687605|OTHER|||||||0.33|||||||Chi-squared|Chi-squared value= 10.23||Activity 2: Moving from one place to another using motorized transportation||||.33
82497611|NCT02970422|164687605|OTHER|||||||0|||||||Chi-squared|Chi-squared value= 23.94||Activity 3: Climbing two or more flights of stairs||||.00
82497612|NCT02970422|164687605|OTHER|||||||0.01|||||||Chi-squared|Chi-squared value= 22.80||Activity 4: Walking up a hill||||.01
82497613|NCT02970422|164687605|OTHER|||||||0.02|||||||Chi-squared|Chi-squared value= 20.43||Activity 5: Participating in regular exercise requiring physical effort, to maintain or improve health or fitness||||.02
82497614|NCT02970422|164687606|OTHER|||||||0|||||||Kruskal-Wallis|Non-parametric led to equal variance (levene's test) which couldn't be assumed, independent samples were taken (Kruskal-Wallis)|||F(3,144)=137.82|||.00
82497615|NCT02970422|164687607|OTHER|||||||0|||||||ANOVA|Factorial ANOVA used because variance could be assumed|||F(3,144)=55.89 Partial ETA squared (effect size)=0.54|||.000
82497616|NCT02970422|164687608|OTHER|||||||0|||||||ANOVA|One-way ANOVA|||F(3,142)=7.61|||.00
82497617|NCT02970422|164687609|OTHER|||||||0.31|||||||ANOVA|One-way ANOVA|||F(3,142)=1.21|||.31
82497618|NCT02970422|164687610|OTHER|||||||0.04|||||||Kruskal-Wallis|Non-parametric independent sample Kruskal-Wallis test (failed variance assumed|||F(3,139)=8.09|||.04
82497619|NCT02970422|164687611|OTHER|||||||0|||||||ANOVA|One-way ANOVA|||F(3,143)=8.01|||.00
82497620|NCT02142959|164687613|SUPERIORITY||LS Mean Difference Final Values|-0.1||||0.237|TWO_SIDED|65.0|-0.2|0.0||Omaveloxolone treatment arms were compared with Vehicle Lotion using a hierarchical testing strategy to control the overall type I error.|Mixed Models Analysis|Fixed factors: treatment grp \& wk of visit; covariates of site, smoking status \& surgery. Missing data imputed using each patient's worst-observation.||Comparison of omaveloxolone lotion pooled (0.5% and 3%) versus vehicle lotion||0.0|-0.2|0.237
82497621|NCT02142959|164687613|SUPERIORITY||LS Mean Difference Final Values|-0.1|||>|0.05|TWO_SIDED|95.0|-0.2|0.0||Omaveloxolone treatment arms were compared with Vehicle Lotion using a hierarchical testing strategy to control the overall type I error.|Mixed Models Analysis|Fixed factor: treatment grp \& visit wk; Covariates: site, smoking status \& breast surgery. Missing data imputed using each patient's worst-observation||Comparison of Omaveloxolone Lotion 0.5% versus Vehicle Lotion||0.0|-0.2|>0.05
82497622|NCT02142959|164687613|SUPERIORITY||LS Mean Difference Final Values|0.0|||>|0.05|TWO_SIDED|95.0|-0.1|0.1|||Mixed Models Analysis|Fixed factor: treatment grp \& visit wk; Covariates: site, smoking status \& breast surgery. Missing data imputed using each patient's worst-observation||Comparison of Omaveloxolone Lotion 3% versus Vehicle Lotion||0.1|-0.1|>0.05
82497623|NCT05425745|164687624|SUPERIORITY||Least Squares (LS) Means|-36.31|STANDARD_ERROR_OF_MEAN|3.019|<|0.0001|TWO_SIDED|95.0|-42.22|-30.39|||ANCOVA|||||-30.39|-42.22|<.0001
82497624|NCT05425745|164687625|SUPERIORITY||Least Squares (LS) Means|-37.78|STANDARD_ERROR_OF_MEAN|3.572|<|0.0001|TWO_SIDED|95.0|-44.79|-30.78|||ANCOVA|||||-30.78|-44.79|<.0001
82497625|NCT05425745|164687626|SUPERIORITY||Least Squares (LS) Means|-41.45|STANDARD_ERROR_OF_MEAN|4.938|<|0.0001|TWO_SIDED|95.0|-51.14|-31.76||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-31.76|-51.14|<.0001
82497626|NCT05425745|164687627|SUPERIORITY||Least Squares (LS) Means|-24.39|STANDARD_ERROR_OF_MEAN|2.136|<|0.0001|TWO_SIDED|95.0|-28.58|-20.2||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-20.20|-28.58|<.0001
82497627|NCT05425745|164687628|SUPERIORITY||Least Squares (LS) Means|-24.32|STANDARD_ERROR_OF_MEAN|2.583|<|0.0001|TWO_SIDED|95.0|-29.38|-19.25||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.25|-29.38|<.0001
82497628|NCT05425745|164687629|SUPERIORITY||Least Squares (LS) Means|-25.77|STANDARD_ERROR_OF_MEAN|3.114|<|0.0001|TWO_SIDED|95.0|-31.88|-19.67||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-19.67|-31.88|<.0001
82497629|NCT05425745|164687630|SUPERIORITY||Least Squares (LS) Means|-34.45|STANDARD_ERROR_OF_MEAN|2.661|<|0.0001|TWO_SIDED|95.0|-39.67|-29.24||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-29.24|-39.67|<.0001
82497630|NCT05425745|164687631|SUPERIORITY||Least Squares (LS) Means|-33.0|STANDARD_ERROR_OF_MEAN|3.241|<|0.0001|TWO_SIDED|95.0|-39.36|-26.65||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.65|-39.36|<.0001
82497631|NCT05425745|164687632|SUPERIORITY||Least Squares (LS) Means|-37.48|STANDARD_ERROR_OF_MEAN|4.535|<|0.0001|TWO_SIDED|95.0|-46.38|-28.58||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||-28.58|-46.38|<.0001
82497632|NCT05425745|164687633|SUPERIORITY||Least Squares (LS) Means|138.66|STANDARD_ERROR_OF_MEAN|6.244|<|0.0001|TWO_SIDED|95.0|126.42|150.9||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||150.90|126.42|<.0001
82497633|NCT05425745|164687634|SUPERIORITY||Least Squares (LS) Means|131.2|STANDARD_ERROR_OF_MEAN|6.595|<|0.0001|TWO_SIDED|95.0|118.27|144.13||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||144.13|118.27|<.0001
82497634|NCT05425745|164687635|SUPERIORITY||Least Squares (LS) Means|121.39|STANDARD_ERROR_OF_MEAN|7.333|<|0.0001|TWO_SIDED|95.0|107.02|135.76||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value \<0.05|ANCOVA|||||135.76|107.02|<.0001
82497635|NCT05425745|164687636|SUPERIORITY||Least Squares (LS) Means|-45.94|STANDARD_ERROR_OF_MEAN|10.14|<|0.0001|TWO_SIDED|95.0|-65.88|-26.0||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05|ANCOVA|||||-26.00|-65.88|<.0001
82497636|NCT05425745|164687637|SUPERIORITY||Least Squares (LS) Means|-54.3|STANDARD_ERROR_OF_MEAN|38.924||0.1648|TWO_SIDED|95.0|-131.13|22.53||The hierarchical testing procedure would only be conducted if the previous secondary efficacy endpoint reached a statistically significant treatment effect at p-value\<0.05; therefore hierarchical testing was stopped for subsequent secondary endpoints|ANCOVA|||||22.53|-131.13|0.1648
82497637|NCT02700815|164687644|SUPERIORITY||Mean Difference (Net)|-0.6|STANDARD_ERROR_OF_MEAN|0.277||0.0303|TWO_SIDED|95.0|-1.15|-0.06|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.06|-1.15|0.0303
82497638|NCT02700815|164687644|SUPERIORITY||Mean Difference (Net)|0.21|STANDARD_ERROR_OF_MEAN|0.197||0.2886|TWO_SIDED|95.0|-0.18|0.6|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||0.60|-0.18|0.2886
82497639|NCT02700815|164687644|SUPERIORITY||Mean Difference (Net)|-0.72|STANDARD_ERROR_OF_MEAN|0.197||0.0003|TWO_SIDED|95.0|-1.1|-0.33|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.33|-1.10|0.0003
82497640|NCT02700815|164687645|SUPERIORITY||Mean Difference (Net)|-0.37|STANDARD_ERROR_OF_MEAN|0.221||0.0956|TWO_SIDED|95.0|-0.8|0.07|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between placebo and combination therapy diclofenac + capsaicin||0.07|-0.80|0.0956
82497641|NCT02700815|164687645|SUPERIORITY||Mean Difference (Net)|0.3|STANDARD_ERROR_OF_MEAN|0.157||0.0564|TWO_SIDED|95.0|-0.01|0.61|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between capsaicin and combination therapy diclofenac + capsaicin||0.61|-0.01|0.0564
82497642|NCT02700815|164687645|SUPERIORITY||Mean Difference (Net)|-0.56|STANDARD_ERROR_OF_MEAN|0.157||0.0004|TWO_SIDED|95.0|-0.87|-0.25|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-72 h) between diclofenac and combination therapy diclofenac + capsaicin||-0.25|-0.87|0.0004
82497643|NCT02700815|164687646|SUPERIORITY||Mean Difference (Net)|-0.5|STANDARD_ERROR_OF_MEAN|0.238||0.0347|TWO_SIDED|95.0|-0.97|-0.04|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between placebo and combination therapy diclofenac + capsaicin||-0.04|-0.97|0.0347
82497644|NCT02700815|164687646|SUPERIORITY||Mean Difference (Net)|0.32|STANDARD_ERROR_OF_MEAN|0.169||0.0622|TWO_SIDED|95.0|-0.02|0.65|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between capsaicin and combination therapy diclofenac + capsaicin||0.65|-0.02|0.0622
82497645|NCT02700815|164687646|SUPERIORITY||Mean Difference (Net)|-0.68|STANDARD_ERROR_OF_MEAN|0.169|<|0.0001|TWO_SIDED|95.0|-1.01|-0.35|||ANCOVA|ANCOVA includes treatment, country, and application site (back/neck) as fixed effects, and baseline POMwp as a continuous covariate.|The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|An analysis of covariance (ANCOVA) was used to compare POMwp AUC(0-120 h) between diclofenac and combination therapy diclofenac + capsaicin||-0.35|-1.01|<0.0001
82497646|NCT02700815|164687647|SUPERIORITY||Odds Ratio (OR)|1.882||||0.0202|TWO_SIDED|95.0|1.1|3.21|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between placebo and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.21|1.10|0.0202
82497647|NCT02700815|164687647|SUPERIORITY||Odds Ratio (OR)|0.732||||0.1206|TWO_SIDED|95.0|0.49|1.09|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between capsaicin and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||1.09|0.49|0.1206
82497648|NCT02700815|164687647|SUPERIORITY||Odds Ratio (OR)|1.629||||0.0122|TWO_SIDED|95.0|1.11|2.39|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 30% from baseline between diclofenac and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||2.39|1.11|0.0122
82497649|NCT02700815|164687648|SUPERIORITY||Odds Ratio (OR)|1.729||||0.0643|TWO_SIDED|95.0|0.97|3.09|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between placebo and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.09|0.97|0.0643
82497650|NCT02700815|164687648|SUPERIORITY||Odds Ratio (OR)|0.833||||0.3479|TWO_SIDED|95.0|0.57|1.22|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between capsaicin and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||1.22|0.57|0.3479
82497651|NCT02700815|164687648|SUPERIORITY||Odds Ratio (OR)|2.125||||0.0004|TWO_SIDED|95.0|1.4|3.22|||Regression, Logistic|Logistic regression model include country and application site as covariates. Odds ratio was calculated as combination treatment/individual treatment.||A logistic regression was used to compare change in number of patients with a decrease in POMwp of at least 50% from baseline between diclofenac and combination therapy diclofenac + capsaicin. The likelihood-ratio test was used to test for differences between treatments.||3.22|1.40|0.0004
82497652|NCT02700815|164687649|SUPERIORITY||Mean Difference (Net)|-1.05|STANDARD_ERROR_OF_MEAN|0.313||0.0008|TWO_SIDED|95.0|-1.67|-0.44|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.44|-1.67|0.0008
82497653|NCT02700815|164687649|SUPERIORITY||Mean Difference (Net)|0.2|STANDARD_ERROR_OF_MEAN|0.223||0.3726|TWO_SIDED|95.0|-0.24|0.64|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||0.64|-0.24|0.3726
82497654|NCT02700815|164687649|SUPERIORITY||Mean Difference (Net)|-1.12|STANDARD_ERROR_OF_MEAN|0.223|<|0.0001|TWO_SIDED|95.0|-1.56|-0.68|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in POMwp from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline POMwp and baseline POMwp by time interaction.||-0.68|-1.56|<0.0001
82497655|NCT02700815|164687650|SUPERIORITY||Mean Difference (Net)|-0.13|STANDARD_ERROR_OF_MEAN|0.844||0.881|TWO_SIDED|95.0|-1.78|1.53|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.53|-1.78|0.8810
82497656|NCT02700815|164687650|SUPERIORITY||Mean Difference (Net)|0.31|STANDARD_ERROR_OF_MEAN|0.601||0.6094|TWO_SIDED|95.0|-0.87|1.49|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.49|-0.87|0.6094
82497657|NCT02700815|164687650|SUPERIORITY||Mean Difference (Net)|0.76|STANDARD_ERROR_OF_MEAN|0.602||0.2047|TWO_SIDED|95.0|-0.42|1.95|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||1.95|-0.42|0.2047
82497658|NCT02700815|164687651|SUPERIORITY||Mean Difference (Net)|1.65|STANDARD_ERROR_OF_MEAN|1.339||0.2193|TWO_SIDED|95.0|-0.98|4.27|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between placebo and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||4.27|-0.98|0.2193
82497659|NCT02700815|164687651|SUPERIORITY||Mean Difference (Net)|0.28|STANDARD_ERROR_OF_MEAN|0.949||0.7672|TWO_SIDED|95.0|-1.58|2.15|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between capsaicin and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||2.15|-1.58|0.7672
82497660|NCT02700815|164687651|SUPERIORITY||Mean Difference (Net)|2.02|STANDARD_ERROR_OF_MEAN|0.95||0.0339|TWO_SIDED|95.0|0.15|3.88|||Mixed Models Analysis||The mean difference is actually adjusted mean of difference and the dispersion value is standard error of differences.|A Mixed Model Repeat Measures (MMRM) analysis was used to compare change in PA from baseline between diclofenac and combination therapy diclofenac + capsaicin. MMRM model included fixed effects of treatment, country, application site (back/neck), time and fixed covariates of baseline PA and baseline PA by time interaction.||3.88|0.15|0.0339
82497661|NCT02990910|164687713|SUPERIORITY||||||<|0.05|||||||Chi-squared|||Chi square test was used to compare the count data,p \< 0.05 was considered statistically significant.||||<0.05
82497662|NCT00616200|164687734|SUPERIORITY_OR_OTHER|||||||0.001||95.0|||||ANOVA|||Sickness Impact Profile scores improved.||||.001
82497663|NCT02692716|164687735|NON_INFERIORITY|This hypothesis was controlled for multiplicity. Non-inferiority of oral semaglutide versus placebo was considered confirmed if the upper limit of the two-sided 95% confidence interval for the HR was strictly below 1.8.|Hazard Ratio (HR)|0.79|||<|0.0001|TWO_SIDED|95.0|0.57|1.11||Unadjusted two-sided p-value for test of no difference from the non-inferiority margin (non-inferiority).|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first event adjudication committee (EAC) confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.11|0.57|< 0.0001
82497664|NCT02692716|164687735|SUPERIORITY|This hypothesis was controlled for multiplicity.|Hazard Ratio (HR)|0.79|||=|0.1749|TWO_SIDED|95.0|0.57|1.11||Unadjusted two-sided p-value from test of no difference from 1 (superiority).|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed MACE was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.11|0.57|= 0.1749
82497665|NCT02692716|164687736|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.82|||=|0.1827|TWO_SIDED|95.0|0.61|1.1||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed expanded cardiovascular outcome was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.10|0.61|= 0.1827
82497666|NCT02692716|164687737|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.49|||=|0.0261|TWO_SIDED|95.0|0.27|0.92||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed cardiovascular death (including undetermined cause of death) was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||0.92|0.27|= 0.0261
82497667|NCT02692716|164687737|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.18|||=|0.5044|TWO_SIDED|95.0|0.73|1.9||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed non-fatal myocardial infarction was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.90|0.73|= 0.5044
82497668|NCT02692716|164687737|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.74|||=|0.435|TWO_SIDED|95.0|0.35|1.57||Unadjusted two-sided p-value for test of no difference from 1|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.57|0.35|= 0.4350
82497669|NCT02692716|164687737|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.56|||=|0.3605|TWO_SIDED|95.0|0.6|4.01||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed unstable angina pectoris requiring hospitalisation was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||4.01|0.60|= 0.3605
82497670|NCT02692716|164687737|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.86|||=|0.6227|TWO_SIDED|95.0|0.48|1.55||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed hospitalisation for heart failure was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.55|0.48|= 0.6227
82497671|NCT02692716|164687738|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.77|||=|0.0952|TWO_SIDED|95.0|0.56|1.05||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed all-cause death, non-fatal myocardial infarction or non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.05|0.56|= 0.0952
82497672|NCT02692716|164687739|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.04||||0.8583|TWO_SIDED|95.0|0.66|1.66||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the on-treatment observation period. Time from first dose of trial product to first EAC-confirmed fatal or non-fatal myocardial infarction was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their on-treatment observation period.||1.66|0.66|0.8583
82497673|NCT02692716|164687740|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.76||||0.4485|TWO_SIDED|95.0|0.37|1.56||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed fatal or non-fatal stroke was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||1.56|0.37|0.4485
82497674|NCT02692716|164687741|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|0.51||||0.0078|TWO_SIDED|95.0|0.31|0.84||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from the in-trial observation period. Time from randomisation to first EAC-confirmed all-cause death was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the end of their in-trial observation period.||0.84|0.31|0.0078
82497675|NCT02692716|164687742|OTHER|This hypothesis was not controlled for multiplicity.|Hazard Ratio (HR)|1.81|||<|0.0001|TWO_SIDED|95.0|1.42|2.3||Unadjusted two-sided p-value for test of no difference from 1.|Regression, Cox|||Data from date of first dose of trial product to date of end of treatment visit. Time from first dose to first AE leading to permanent trial product discontinuation was analysed using a Cox proportional hazards model with treatment as categorical fixed factor and stratified by evidence of cardiovascular disease at screening. Participants were censored at the date of their end of treatment visit or at their end of study date, whichever came first.||2.30|1.42|<0.0001
82497676|NCT00856284|164687757|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.03|||||ONE_SIDED|98.75||0.059||||||The null hypotheses were tested in a fixed order at the 1-sided 0.0125 significance level at Weeks 52 and 104, independently: H01: Alogliptin 25 mg was inferior in HbA1c change from Baseline vs glipizide. H02: Alogliptin 12.5 mg was inferior vs glipizide. H03: Alogliptin 25 mg was not superior vs glipizide. H04: Alogliptin 12.5 mg was not superior vs glipizide. Each subsequent null hypothesis was tested only if all previously tested null hypotheses were rejected with respect to Weeks 52 and 104.||0.059||
82497677|NCT00856284|164687757|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.09|||||ONE_SIDED|98.75||0.003||||||||0.003||
82497678|NCT00856284|164687763|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.13|||||ONE_SIDED|98.75||-0.006||||||The null hypotheses were tested in a fixed order at the 1-sided 0.0125 significance level at Weeks 52 and 104, independently: H01: Alogliptin 25 mg was inferior in HbA1c change from Baseline vs glipizide. H02: Alogliptin 12.5 mg was inferior vs glipizide. H03: Alogliptin 25 mg was not superior vs glipizide. H04: Alogliptin 12.5 mg was not superior vs glipizide. Each subsequent null hypothesis was tested only if all previously tested null hypotheses were rejected with respect to Weeks 52 and 104.||-0.006||
82497679|NCT00856284|164687763|NON_INFERIORITY_OR_EQUIVALENCE|Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 25 mg and glipizide in HbA1c change from Baseline was less than 0.3%. If the null hypothesis H01 was rejected, then H02 was tested to show noninferiority of alogliptin 12.5 mg versus glipizide with a margin of 0.3%. Non-inferiority was met if the upper limit of the 1-sided 98.75% CI for the difference between alogliptin 12.5 mg and glipizide in HbA1c change from Baseline was less than 0.3%.|LS Mean Difference|-0.09|||||ONE_SIDED|98.75||0.035||||||||0.035||
82497680|NCT03232801|164687764|SUPERIORITY||chi-squared|4.86||||0.027|TWO_SIDED||||||Chi-squared|||||||0.027
82497681|NCT03232801|164687765|SUPERIORITY||chi-squared|0.45||||0.503|TWO_SIDED||||||Chi-squared|||||||0.503
82497682|NCT01750242|164687867|SUPERIORITY_OR_OTHER_LEGACY||% of leads|86.5|||||ONE_SIDED|95.0|73.7|||||||A 95% lower confidence bound was calculated on the percentage of leads where an overlap existed. A subject may have 1 or 2 leads included in the analysis.|||73.7|
82497683|NCT01750242|164687868|SUPERIORITY_OR_OTHER_LEGACY||Mean Difference (Net)|-22.5|STANDARD_DEVIATION|8.7|||TWO_SIDED|95.0|-26.5|-18.4||||||Summary statistics on the UPDRS III score. A higher score is more motor dysfunction.||-18.4|-26.5|
82497684|NCT02397785|164687902|SUPERIORITY|||||||0.8979|||||||t-test, 2 sided|||It was calculated that 52 participants (26 in each arm) was sufficient to detect a 30% reduction in the VAS score (⍺ = 0.05, β = 0.80) from baseline to 12 weeks using paired t-tests, assuming average pain of 80-90 on the VAS and 10% drop-out. Because stratified randomization was performed on the basis of levator ani muscle spasm, there was an imbalance between the size of the sham and active groups, and 58 subjects were ultimately recruited with approval from the Institutional Review Board.||||0.8979
82497685|NCT02397785|164687903|SUPERIORITY|||||||0.9338|||||||Sign test|||||||0.9338
82497686|NCT02397785|164687904|SUPERIORITY|||||||0.1568|||||||Sign test|||||||0.1568
82497687|NCT02397785|164687905|SUPERIORITY|||||||0.3817|||||||Sign test|||||||0.3817
82497688|NCT02397785|164687906|SUPERIORITY|||||||0.286|||||||Sign test|||||||0.2860
82497689|NCT02397785|164687907|SUPERIORITY|||||||0.2884|||||||Sign test|||||||0.2884
82497690|NCT02397785|164687908|SUPERIORITY|||||||0.0855|||||||Sign test|||||||0.0855
82497691|NCT02397785|164687909|SUPERIORITY|||||||0.0287|||||||Sign test|||||||0.0287
82497692|NCT02397785|164687910|SUPERIORITY|||||||0.2887|||||||Sign test|||||||0.2887
82497693|NCT02397785|164687911|SUPERIORITY|||||||0.9954|||||||Sign test|||||||0.9954
82497694|NCT02397785|164687912|SUPERIORITY|||||||0.0574|||||||Sign test|||||||0.0574
82497695|NCT02397785|164687913|SUPERIORITY|||||||0.7827|||||||Sign test|||||||0.7827
82497696|NCT02397785|164687914|SUPERIORITY|||||||0.2114|||||||Sign test|||||||0.2114
82497697|NCT02397785|164687915|SUPERIORITY|||||||0.4986|||||||Sign test|||||||0.4986
82497698|NCT02397785|164687916|SUPERIORITY|||||||0.461|||||||Sign test|||||||0.4610
82497699|NCT02397785|164687917|SUPERIORITY|||||||0.2556|||||||Sign test|||||||0.2556
82497700|NCT02397785|164687918|SUPERIORITY|||||||0.0723|||||||t-test, 2 sided|||||||0.0723
82497701|NCT02397785|164687919|SUPERIORITY|||||||0.7456|||||||t-test, 2 sided|||||||0.7456
82497702|NCT02397785|164687920|SUPERIORITY|||||||0.138|||||||t-test, 2 sided|||||||0.1380
82497703|NCT02397785|164687921|SUPERIORITY|||||||0.3155|||||||t-test, 2 sided|||||||0.3155
82497704|NCT02557646|164687922|SUPERIORITY_OR_OTHER|||||||0.0437|TWO_SIDED||||||Chi-squared|||Cumulative dose of ribavirin \>90%: the relationship between cumulative dose and SVR response in participants in whom the cumulative dose of ribavirin exceeded 90% was analyzed using Chi-square test.||||0.0437
82497705|NCT02557646|164687924|SUPERIORITY_OR_OTHER|||||||0.6859|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose ribavirin and virological response was analyzed using Chi-square test.||||0.6859
82497706|NCT02557646|164687925|SUPERIORITY_OR_OTHER|||||||0.374|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose ribavirin and sustained virological response (SVR) was analyzed using Chi-square test.||||0.3740
82497707|NCT02557646|164687926|SUPERIORITY_OR_OTHER|||||||0.0263|TWO_SIDED||||||Chi-squared, Corrected|||The relationship between the body weight-normalized dose of ribavirin and virological response was analyzed using Chi-square test.||||0.0263
82497708|NCT02557646|164687927|SUPERIORITY_OR_OTHER|||||||0.0475|TWO_SIDED||||||Chi-squared|||The relationship between the body weight-normalized dose of ribavirin and sustained virological (SVR) response was analyzed using Chi-square test.||||0.0475
82497709|NCT02557646|164687933|SUPERIORITY_OR_OTHER|||||||0.1499|TWO_SIDED||||||Chi-squared|||The relationship between the cumulative dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.1499
82497710|NCT02557646|164687934|SUPERIORITY_OR_OTHER|||||||0.5885|TWO_SIDED||||||Chi-squared|||The relationship between the starting dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.5885
82497711|NCT02557646|164687935|SUPERIORITY_OR_OTHER|||||||0.0062|TWO_SIDED||||||Chi-squared|||The relationship between the body weight-normalized dose of ribavirin and relapse rate was analyzed using Chi-square test.||||0.0062
82497712|NCT02984709|164687973|SUPERIORITY||Estimated Mean Difference|-0.17||||0.593|TWO_SIDED|95.0|-0.81|0.47||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||0.47|-0.81|0.593
82497713|NCT02984709|164687974|SUPERIORITY||Estimated Mean Difference|-1.137||||0.581|TWO_SIDED|95.0|-5.27|2.99||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||2.99|-5.27|0.581
82497714|NCT02984709|164687975|SUPERIORITY||Estimated Mean Difference|-0.587||||0.206|TWO_SIDED|95.0|-1.52|0.34||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||0.34|-1.52|0.206
82497715|NCT02984709|164687976|SUPERIORITY||Estimated Mean Difference|-2.494||||0.511|TWO_SIDED|95.0|-10.11|5.13||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||Child-reported family conflict||5.13|-10.11|0.511
82497716|NCT02984709|164687976|SUPERIORITY||Estimated Mean Difference|-3.354||||0.19|TWO_SIDED|95.0|-8.44|1.73||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||Parent-reported family conflict||1.73|-8.44|0.190
82497717|NCT02984709|164687977|SUPERIORITY||Estimated Mean Difference|0.396||||0.873|TWO_SIDED|95.0|-4.57|5.36||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||5.36|-4.57|0.873
82497718|NCT02984709|164687978|SUPERIORITY||Estimated Mean Difference|2.996||||0.603|TWO_SIDED|95.0|-8.57|14.56||The following a priori selected covariates were adjusted in each analysis: age, sex, race/ethnicity, income, baseline depressive symptoms, pump use, and baseline measurement for each outcome.|Multiple linear regression|||||14.56|-8.57|0.603
82497719|NCT01482884|164687990|SUPERIORITY_OR_OTHER||Risk Difference (RD)|4.8||||0.4062|TWO_SIDED|95.0|-13.0|22.5||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||The null hypothesis is that the proportion of participants responding on tralokinumab is less than or equal to the proportion of participants responding on placebo.||22.5|-13.0|0.4062
82497720|NCT01482884|164687991|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.49|STANDARD_ERROR_OF_MEAN|0.57||0.3937|TWO_SIDED|95.0|-1.63|0.65|||ANCOVA|Mayo score at baseline as a covariate, and treatment and glucocorticosteroid-refractory status as factors in the model.||||0.65|-1.63|0.3937
82497721|NCT01482884|164687992|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.1||||0.1043|TWO_SIDED|95.0|-4.0|28.3||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||||28.3|-4.0|0.1043
82497722|NCT01482884|164687993|SUPERIORITY_OR_OTHER||Risk Difference (RD)|12.4||||0.0326|TWO_SIDED|95.0|0.7|24.1||Glucocorticosteroid-refractory status as stratification factor|Cochran-Mantel-Haenszel|||||24.1|0.7|0.0326
82497723|NCT01482884|164687995|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.25|STANDARD_ERROR_OF_MEAN|0.33||0.449|TWO_SIDED|95.0|-0.41|0.91|||ANCOVA|Modified Riley score at baseline as a covariate, and treatment as factors in the model.||||0.91|-0.41|0.4490
82497724|NCT01774968|164688011|NON_INFERIORITY_OR_EQUIVALENCE|A non-inferiority margin of 0.4% was used.|LS Mean Difference|-0.1||||0.3709|TWO_SIDED|95.0|-0.33|0.12|||Mixed Models Analysis|||Approximately 325 participants were to be randomized (in a 1:1 ratio of U-500R insulin TID:BID) and 260 were to complete the study (with a 20% dropout rate). The 260 completers would provide a 66.4% chance to show equivalence of TID and BID algorithms, 14.4% chance to show noninferiority of TID, 2.5% chance to superiority of TID, 14.4% chance to show noninferiority of BID, and 2.5% chance to show superiority of BID, assuming a difference in HbA1c change of 0% and a standard deviation of 1.1%.||0.12|-0.33|0.3709
82497725|NCT02044393|164688026|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|74.07|STANDARD_ERROR_OF_MEAN|32.1|||TWO_SIDED|90.0|62.371|87.959|||||"ratio of IT+BI 691751 to BI 691751 treatment. Estimated value and its confidence interval (CI) are in percentage unit.~The standard error of the mean actually is the geometric coefficient of variance."|gMean ratio of IT+BI 691751 to BI 69175 treatment (in plasma)||87.959|62.371|
82499128|NCT02057406|164689275|SUPERIORITY|2:1 EPA/DHA versus High EPA at Week 12.||||||0.12|||||||ANCOVA|||The model used post-treatment EPA values as the dependent variable and included age, race, sex, treatment site, and the baseline EPA value as covariates. This analyses was conducted under intention-to-treat (ITT) in which the missing EPA endpoint values were imputed using 50 imputations.||||0.12
82499129|NCT03654651|164689278|SUPERIORITY||Mean Difference (Final Values)|-0.6|||||TWO_SIDED|95.0|-2.7|1.6|||Mixed Models Analysis|||||1.6|-2.7|
82497726|NCT02044393|164688026|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|86.35|STANDARD_ERROR_OF_MEAN|18.6|||TWO_SIDED|90.0|78.04|95.56|||||"ratio of IT+BI 691751 to BI 691751 treatment. Estimated value and its confidence interval (CI) are in percentage unit.~The standard error of the mean actually is the geometric coefficient of variance."|gMean ratio of IT+BI 691751 to BI 691751 treatment (in whole blood)||95.56|78.04|
82497727|NCT02044393|164688027|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|95.59|STANDARD_ERROR_OF_MEAN|23.5|||TWO_SIDED|90.0|84.195|108.537|||||ratio of test to reference treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of test to reference treatment (in plasma)||108.537|84.195|
82497728|NCT02044393|164688027|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|93.54|STANDARD_ERROR_OF_MEAN|15.1|||TWO_SIDED|90.0|86.142|101.57|||||ratio of test to reference treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of test to reference treatment (in whole blood)||101.570|86.142|
82497729|NCT02044393|164688028|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|74.86|STANDARD_ERROR_OF_MEAN|32.4|||TWO_SIDED|90.0|62.946|89.035|||||ratio of IT+BI 691751 to BI 691751 treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of IT+BI 691751 to BI 691751 treatment (in plasma)||89.035|62.946|
82497730|NCT02044393|164688028|NON_INFERIORITY_OR_EQUIVALENCE|"90% confidence interval for gMean ratio of IT+BI 691751 to BI 69175 treatment was provided.~The ANOVA model included the fixed effects 'sequence', 'period' and 'treatment' and as a random effect 'subject within sequence' as source of variation."|gMean ratio|88.19|STANDARD_ERROR_OF_MEAN|20.7|||TWO_SIDED|90.0|78.6|98.95|||||ratio of IT+BI 691751 to BI 691751 treatment. The standard error of the mean actually is the geometric coefficient of variance.|gMean ratio of IT+BI 691751 to BI 691751 treatment (in whole blood)||98.95|78.60|
82497731|NCT04600921|164688029|SUPERIORITY|The parameters required to calculate sample size were the expected rate of VT/VF episodes/year in the placebo group, the minimal VT/VF rate ratio to be detected in the ertugliflozin group compared with the placebo group, the average follow-up of treatment duration, the negative binomial dispersion parameter, type 1 error probability, and the desired power.|Rate Ratio|0.16|||<|0.001|TWO_SIDED|95.0|0.04|0.61||The yearly rate ratio was adjusted for baseline number of sVT/VF episodes.|Negative binomial regression model|A prespecified sensitivity analysis was done to mitigate the effect of outliers by using the robust estimation approaches for negative binomial model.|Ertugliflozin is the numerator and the placebo is the denominator.|We compared the rate of sVT/VF episodes between experimental arms after 52 weeks.The initial sample calculation was based on the mathematical formula provided by Zhu and Lakkis for comparing event rates of two negative binomial distributiuons. To detect a 30% reduction in VT/VF episode rates in the ertugliflozin group compared to placebo group, with 80% power and an alpha level of 0.05, accounting for 5% drop out in each group, a total sample size of 402 was estimated to be required.||0.61|0.04|<0.001
82497732|NCT04600921|164688030|SUPERIORITY||Rate Ratio|0.34|||||TWO_SIDED|95.0|0.12|0.97||||||The number of incident nsVT episodes were analyzed using a beta binomial model.||0.97|0.12|
82497733|NCT04600921|164688031|SUPERIORITY||Rate Ratio|0.47|||||TWO_SIDED|95.0|0.13|1.81||||||The number of appropriate ICD therapies were analyzed by using beta binomial model.||1.81|0.13|
82497734|NCT04600921|164688032|SUPERIORITY||Difference in mean change|0.17|||>|0.05|TWO_SIDED|95.0|-0.35|0.69|||Regression, Linear|||The change in NTproBNP levels was analyzed by using a multiple linear regression model.||0.69|-0.35|>0.05
82497735|NCT04600921|164688033|SUPERIORITY||Mean Difference (Final Values)|0.72|||||TWO_SIDED|95.0|-1.69|3.13||||||The change in HbA1c levels from baseline to week 52 was analyzed by multiple linear regression model.||3.13|-1.69|
82497736|NCT04600921|164688034|SUPERIORITY||Rate Ratio|0.6|||||TWO_SIDED|95.0|0.2|1.7||||||||1.7|0.2|
82497737|NCT04847557|164688039|SUPERIORITY||Median Difference (Net)|6.9|||<|0.001|TWO_SIDED|95.0|3.3|10.6|||Stratified Wilcoxon|Stratified Wilcoxon test used to control for stratification factors of HF decompensation within 12 months of screening,diagnosed T2DM \& baseline BMI|The Hodges-Lehmann estimate for the median difference and 95% CIs was reported.|||10.6|3.3|<0.001
82497738|NCT04847557|164688040|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.026|TWO_SIDED|95.0|0.41|0.95|||Regression, Cox|||Heart Failure Outcomes||0.95|0.41|0.026
82497739|NCT04847557|164688041|SUPERIORITY||Median Difference (Net)|18.3|||<|0.001|TWO_SIDED|95.0|9.9|26.7|||Stratified Wilcoxon|Stratified Wilcoxon test used to control for stratification factors of HF decompensation within 12 months of screening,diagnosed T2DM \& baseline BMI|The Hodges-Lehmann estimate for the median difference and 95% CIs was reported.|||26.7|9.9|<0.001
82497740|NCT04847557|164688042|SUPERIORITY||LS Mean Difference|-11.62|||<|0.001|TWO_SIDED|95.0|-12.85|-10.38|||ANCOVA|||||-10.38|-12.85|<0.001
82497741|NCT04847557|164688043|SUPERIORITY||LS Mean Difference|-34.91|||<|0.001|TWO_SIDED|95.0|-45.6|-22.17|||ANCOVA|||||-22.17|-45.60|<0.001
82497742|NCT04847557|164688044|SUPERIORITY||Win Ratio|1.63|||||TWO_SIDED|95.0|1.17|2.28|||||The win ratio was reported as the measure of treatment effect based on the principle that each participant is compared with every other participant within each stratum in a pair-wise manner that proceeds in a hierarchical fashion.|||2.28|1.17|
82497743|NCT04847557|164688045|SUPERIORITY||Odds Ratio (OR)|2.28|||||TWO_SIDED|95.0|1.53|3.4||||||||3.40|1.53|
82497744|NCT04847557|164688046|SUPERIORITY||Hazard Ratio (HR)|1.245|||||TWO_SIDED|95.0|0.633|2.452||||||||2.452|0.633|
82497745|NCT04847557|164688047|SUPERIORITY||Hazard Ratio (HR)|0.539|||||TWO_SIDED|95.0|0.342|0.85||||||||0.850|0.342|
82497746|NCT04847557|164688048|SUPERIORITY||Rate Ratio|0.72|||||TWO_SIDED|95.0|0.46|1.14||||||||1.14|0.46|
82497747|NCT04847557|164688049|SUPERIORITY||Rate Ratio|0.62|||||TWO_SIDED|95.0|0.37|1.05||||||||1.05|0.37|
82497748|NCT03758274|164688076|SUPERIORITY|||||||0.746|||||||Based on simple path model in Mplus.|||||||0.746
82497749|NCT03758274|164688077|SUPERIORITY|||||||0.247|||||||Based on simple path model in Mplus.|||||||0.247
82497750|NCT03758274|164688078|SUPERIORITY|||||||0.689|||||||Chi-squared|||||||0.689
82497751|NCT00842712|164688101|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.718||||0.0845|TWO_SIDED|95.0|0.492|1.048|||Log Rank|||PFS Time: Independent read||1.048|0.492|0.0845
82497752|NCT00842712|164688102|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.909||||0.5912|TWO_SIDED|95.0|0.642|1.286|||Log Rank|||||1.286|0.642|0.5912
82497753|NCT00842712|164688103|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.813||||0.2648|TWO_SIDED|95.0|0.564|1.171|||Log Rank|||||1.171|0.564|0.2648
82497754|NCT00410046|164688111|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Admissions to hospital||||1.0
82497755|NCT00410046|164688111|SUPERIORITY_OR_OTHER|||||||0.23|||||||Fisher Exact|||Therapeutic warm bath sessions||||0.23
82497756|NCT00410046|164688111|SUPERIORITY_OR_OTHER|||||||0.567|||||||Fisher Exact|||Physiotherapist visits||||0.567
82497757|NCT00410046|164688111|SUPERIORITY_OR_OTHER|||||||0.475|||||||Fisher Exact|||Out-patient physician visit||||0.475
82497758|NCT00410046|164688112|SUPERIORITY_OR_OTHER|||||||0.628|||||||ANCOVA|One-way ANCOVA, baseline was a covariate.||Inpatient hospitalization days per patient||||0.628
82497759|NCT00410046|164688112|SUPERIORITY_OR_OTHER|||||||0.045|||||||ANCOVA|||Therapeutic warm bath sessions per patient||||0.045
82497760|NCT00410046|164688112|SUPERIORITY_OR_OTHER|||||||0.361|||||||ANCOVA|||Physiotherapist visits per patient||||0.361
82497761|NCT00410046|164688112|SUPERIORITY_OR_OTHER|||||||0.816|||||||ANCOVA|||Out-patient physician visit per patient||||0.816
82497762|NCT00410046|164688113|SUPERIORITY_OR_OTHER|||||||1|||||||Fisher Exact|||Analysis completed for patients with sick leave during the past 12 months||||1.00
82497763|NCT00410046|164688114|SUPERIORITY_OR_OTHER|||||||0.906|||||||ANCOVA|||||||0.906
82497764|NCT00410046|164688119|SUPERIORITY_OR_OTHER|||||||0.743||||||Comparison of Hospitalization 48 weeks before treatment Vs. Hospitalization during 48 treatment weeks|Fisher Exact|||||||0.743
82497765|NCT00410046|164688119|SUPERIORITY_OR_OTHER|||||||0.362||||||Comparison of Therapeutic warm bath 48 weeks before treatment Vs. Therapeutic warm bath during 48 treatment weeks|Fisher Exact|||Comparison of percentages||||0.362
82497766|NCT00410046|164688119|SUPERIORITY_OR_OTHER|||||||0.005||||||Comparison of Visit to physiotherapist 48 weeks before treatment Vs. Visit to physiotherapist during 48 treatment weeks|Fisher Exact|||||||0.005
82497767|NCT00410046|164688119|SUPERIORITY_OR_OTHER|||||||0.091||||||Comparison of Out-patient physician 48 weeks before treatment Vs. Out-patient physician during 48 treatment weeks|Fisher Exact|||||||0.091
82497768|NCT00410046|164688120|SUPERIORITY_OR_OTHER|||||||0.576||||||Comparison of Sick leave 48 weeks before treatment Vs. Sick leave during 48 weeks of treatment|Fisher Exact|||||||0.576
82497769|NCT02715076|164688125|OTHER||||||<|0.05|||||||mixed-effects model|||||||<0.05
82497770|NCT02785354|164688132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.58|||<|0.0001|TWO_SIDED|95.0|0.51|0.66|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95% Confidence Interval (CI ) (and death as a competing risk).||0.66|0.51|<0.0001
82497771|NCT02785354|164688132|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.83||||0.0006|TWO_SIDED|95.0|0.75|0.92|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||0.92|0.75|0.0006
82497772|NCT02785354|164688133|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.55|||<|0.0001|TWO_SIDED|95.0|0.46|0.66|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.66|0.46|<0.0001
82497773|NCT02785354|164688133|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.68|||<|0.0001|TWO_SIDED|95.0|0.58|0.79|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||0.79|0.58|<0.0001
82497774|NCT02785354|164688134|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.75||||0.0007|TWO_SIDED|95.0|0.63|0.88|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.88|0.63|0.0007
82497775|NCT02785354|164688134|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.98||||0.8341|TWO_SIDED|95.0|0.85|1.14|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||1.14|0.85|0.8341
82497776|NCT02785354|164688135|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.79||||0.0147|TWO_SIDED|95.0|0.65|0.95|||Fine and Gray model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for dabigatran versus VKA, with hazard ratio (HR) and 95%CI (and death as a competing risk).||0.95|0.65|0.0147
82497777|NCT02785354|164688135|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84||||0.0501|TWO_SIDED|95.0|0.71|1.0|||Fine and Gray model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Cumulative function to estimate the incidence (with death as a competing risk), 2) Fine and Gray model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI (and death as a competing risk).||1.00|0.71|0.0501
82497778|NCT02785354|164688136|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.74|||<|0.0001|TWO_SIDED|95.0|0.67|0.82|||Cox proportional hazard risk model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for dabigatran versus VKA, with HR and 95%CI.||0.82|0.67|<0.0001
82499130|NCT03654651|164689278|OTHER|change from baseline|Mean Difference (Final Values)|-0.9|||||TWO_SIDED|95.0|-2.7|0.9|||Mixed Models Analysis|||||0.9|-2.7|
82497779|NCT02785354|164688136|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.77|||<|0.0001|TWO_SIDED|95.0|0.71|0.84|||Cox proportional hazard risk model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI.||0.84|0.71|<0.0001
82497780|NCT02785354|164688137|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.71|||<|0.0001|TWO_SIDED|95.0|0.66|0.76|||Cox proportional hazard risk model|||Outcome was analyzed during dabigatran or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for dabigatran versus VKA, with HR and 95%CI.||0.76|0.66|<0.0001
82497781|NCT02785354|164688137|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.84|||<|0.0001|TWO_SIDED|95.0|0.79|0.89|||Cox proportional hazard risk model|||Outcome was analyzed during rivaroxaban or VKA exposure period (on treatment) using: 1) Kaplan-Meier to estimate the cumulative incidence, 2) Cox proportional hazard risk model to compare the 1-year risk for rivaroxaban versus VKA, with HR and 95%CI.||0.89|0.79|<0.0001
82497782|NCT02310568|164688141|SUPERIORITY_OR_OTHER||Least Square (LS) Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|2.01||0.784|TWO_SIDED|90.0|-2.8|3.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.9|-2.8|0.784
82497783|NCT02310568|164688141|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.94||0.184|TWO_SIDED|90.0|-0.6|5.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||5.8|-0.6|0.184
82497784|NCT02310568|164688141|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|2.22||0.36|TWO_SIDED|90.0|-5.7|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||1.6|-5.7|0.360
82497785|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|2.36||0.708|TWO_SIDED|90.0|-3.2|5.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||5.0|-3.2|0.708
82497786|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|2.36||0.646|TWO_SIDED|90.0|-5.2|3.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||3.0|-5.2|0.646
82497787|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|2.0|STANDARD_ERROR_OF_MEAN|2.09||0.352|TWO_SIDED|90.0|-1.6|5.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||5.6|-1.6|0.352
82497788|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|2.99||0.495|TWO_SIDED|90.0|-3.1|7.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.3|-3.1|0.495
82497789|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.99||0.422|TWO_SIDED|90.0|-2.7|7.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.6|-2.7|0.422
82497790|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|2.65||0.889|TWO_SIDED|90.0|-5.0|4.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||4.2|-5.0|0.889
82497791|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|2.7|STANDARD_ERROR_OF_MEAN|2.71||0.324||90.0|-2.0|7.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.4|-2.0|0.324
82497792|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|2.69||0.939|TWO_SIDED|90.0|-4.5|4.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||4.9|-4.5|0.939
82497793|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|2.5|STANDARD_ERROR_OF_MEAN|2.42||0.308|TWO_SIDED|90.0|-1.7|6.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||6.7|-1.7|0.308
82497794|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|3.92||0.846|TWO_SIDED|90.0|-6.0|7.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||7.6|-6.0|0.846
82497795|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|-3.0|STANDARD_ERROR_OF_MEAN|3.89||0.449|TWO_SIDED|90.0|-9.8|3.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||3.7|-9.8|0.449
82499131|NCT03654651|164689278|OTHER|Change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.2|1.4|||Mixed Models Analysis|||||1.4|-2.2|
82497796|NCT02310568|164688143|SUPERIORITY_OR_OTHER||LS Mean Difference|3.8|STANDARD_ERROR_OF_MEAN|3.51||0.295|TWO_SIDED|90.0|-2.3|9.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 2 was Week 4 (Day 28).||9.9|-2.3|0.295
82497797|NCT02310568|164688145|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.72||0.514|TWO_SIDED|90.0|-4.0|1.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-4.0|0.514
82497798|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.65||0.302|TWO_SIDED|90.0|-4.5|1.0|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.0|-4.5|0.302
82497799|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.94||0.736|TWO_SIDED|90.0|-2.6|3.8|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.8|-2.6|0.736
82497800|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|3.85||0.775|TWO_SIDED|90.0|-5.6|7.8|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||7.8|-5.6|0.775
82497801|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.4|STANDARD_ERROR_OF_MEAN|4.0||0.553|TWO_SIDED|90.0|-9.4|4.5|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||4.5|-9.4|0.553
82497802|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|3.5|STANDARD_ERROR_OF_MEAN|3.3||0.299|TWO_SIDED|90.0|-2.2|9.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score ( Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||9.3|-2.2|0.299
82497803|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.65||0.994|TWO_SIDED|90.0|-1.1|1.1|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-1.1|0.994
82497804|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.62||0.87|TWO_SIDED|90.0|-0.9|1.1|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-0.9|0.870
82497805|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.74||0.885|TWO_SIDED|90.0|-1.3|1.1|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-1.3|0.885
82497806|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.78||0.834|TWO_SIDED|90.0|-3.5|2.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.7|-3.5|0.834
82497807|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.0|STANDARD_ERROR_OF_MEAN|1.8||0.281|TWO_SIDED|90.0|-5.1|1.1|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.1|-5.1|0.281
82497808|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.43||0.272|TWO_SIDED|90.0|-0.9|4.1|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||4.1|-0.9|0.272
82497809|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.73||0.249|TWO_SIDED|90.0|-2.1|0.4|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.4|-2.1|0.249
82497810|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|0.7||0.016|TWO_SIDED|90.0|-2.9|-0.6|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||-0.6|-2.9|0.016
82497811|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.82||0.285|TWO_SIDED|0.285|-0.5|2.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.3|-0.5|0.285
82497812|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.38||0.635|TWO_SIDED|90.0|-3.1|1.8|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score ( Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.8|-3.1|0.635
82497813|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.9|STANDARD_ERROR_OF_MEAN|1.43||0.217|TWO_SIDED|90.0|-4.4|0.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.7|-4.4|0.217
82497814|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.36||0.399|TWO_SIDED|90.0|-1.2|3.6|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.6|-1.2|0.399
82497815|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.62||0.429|TWO_SIDED|90.0|-1.5|0.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.5|-1.5|0.429
82497816|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.6||0.26|TWO_SIDED|90.0|-1.7|0.3|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.3|-1.7|0.260
82497817|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.7||0.799|TWO_SIDED|90.0|-1.0|1.3|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Week 4): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.3|-1.0|0.799
82497818|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.22||0.738|TWO_SIDED|90.0|-1.7|2.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.5|-1.7|0.738
82499132|NCT03654651|164689279|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-4.8|3.4|||Mixed Models Analysis|||||3.4|-4.8|
82499133|NCT03654651|164689279|OTHER|change from baseline|Mean Difference (Final Values)|-4.0|||||TWO_SIDED|95.0|-5.1|5.4|||Mixed Models Analysis|||||5.4|-5.1|
82499134|NCT03654651|164689279|OTHER|change from baseline|Mean Difference (Final Values)|-3.8|||||TWO_SIDED|95.0|-5.1|5.4|||Mixed Models Analysis|||||5.4|-5.1|
82497819|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|1.26|STANDARD_ERROR_OF_MEAN|-0.5||0.691|TWO_SIDED|90.0|-2.7|1.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-2.7|0.691
82497820|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.11||0.417|TWO_SIDED|90.0|-1.0|2.9|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Week 8): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.9|-1.0|0.417
82497821|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|2.11||0.998|TWO_SIDED|90.0|-3.7|3.7|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||3.7|-3.7|0.998
82497822|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-2.1|STANDARD_ERROR_OF_MEAN|2.16||0.353|TWO_SIDED|90.0|-5.8|1.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-5.8|0.353
82497823|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|2.1|STANDARD_ERROR_OF_MEAN|1.92||0.296|TWO_SIDED|90.0|-1.3|5.4|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Total Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||5.4|-1.3|0.296
82497824|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.95||0.841|TWO_SIDED|90.0|-1.8|1.5|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.5|-1.8|0.841
82497825|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|0.95||0.332|TWO_SIDED|90.0|-2.6|0.7|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.7|-2.6|0.332
82497826|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.8|STANDARD_ERROR_OF_MEAN|0.81||0.359|TWO_SIDED|90.0|-0.6|2.2|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Social Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.2|-0.6|0.359
82497827|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|0.78||0.347|TWO_SIDED|90.0|-2.1|0.6|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.6|-2.1|0.347
82497828|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|0.8||0.041|TWO_SIDED|90.0|-3.2|-0.4|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||-0.4|-3.2|0.041
82497829|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|0.79||0.212|TWO_SIDED|90.0|-0.4|2.4|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Work Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||2.4|-0.4|0.212
82499135|NCT03654651|164689280|SUPERIORITY||Mean Difference (Final Values)|0.45|||||TWO_SIDED|95.0|-1.2|2.1|||Mixed Models Analysis|||||2.1|-1.2|
82499136|NCT03654651|164689280|OTHER|change from baseline|Mean Difference (Final Values)|-0.2|||||TWO_SIDED|95.0|-1.5|1.0|||Mixed Models Analysis|||||1.0|-1.5|
82499137|NCT03654651|164689280|OTHER|change from baseline|Mean Difference (Final Values)|-0.8|||||TWO_SIDED|95.0|-2.1|0.5|||Mixed Models Analysis|||||0.5|-2.1|
82497830|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.69||0.954|TWO_SIDED|90.0|-1.2|1.2|||ANCOVA|||(PF-06372865 7.5 mg - Placebo). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.2|-1.2|0.954
82497831|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|0.7||0.407|TWO_SIDED|90.0|-1.8|0.6|||ANCOVA|||(PF-06372865 2.5 mg - Placebo). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||0.6|-1.8|0.407
82497832|NCT02310568|164688145|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.66||0.412|TWO_SIDED|90.0|-0.6|1.7|||ANCOVA|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Family Sub-Scale Score (Combined Stage 1 and Stage 2): The ANCOVA model included change from baseline as dependent variable, and treatment and baseline in the model. Baseline for Stage 1 is Day 1 and baseline for Stage 2 is Week 4 (Day 28). The estimates from Stage 1 and the Stage 2 were combined together using a weighted mean (weight=0.5) and assuming the covariance between the two treatment effect estimates is zero.||1.7|-0.6|0.412
82497833|NCT02310568|164688146|SUPERIORITY_OR_OTHER||Least Squares Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.45||0.856|TWO_SIDED|90.0|-2.2|2.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.7|-2.2|0.856
82497834|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.38||0.647|TWO_SIDED|90.0|-1.7|2.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.9|-1.7|0.647
82497835|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.6||0.817|TWO_SIDED|90.0|-3.0|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.3|-3.0|0.817
82497836|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.81||0.67|TWO_SIDED|90.0|-3.8|2.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.2|-3.8|0.670
82497837|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|1.74||0.736|TWO_SIDED|90.0|-2.3|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.5|-2.3|0.736
82497838|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.4|STANDARD_ERROR_OF_MEAN|1.99||0.496|TWO_SIDED|90.0|-4.7|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.0|-4.7|0.496
82497839|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.72||0.575|TWO_SIDED|90.0|-1.9|3.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||3.8|-1.9|0.575
82497840|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.67||0.362|TWO_SIDED|90.0|-1.2|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||4.3|-1.2|0.362
82497841|NCT02310568|164688146|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.6|STANDARD_ERROR_OF_MEAN|1.9||0.771|TWO_SIDED|90.0|-3.7|2.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1.||2.6|-3.7|0.771
82499138|NCT03654651|164689281|SUPERIORITY||Mean Difference (Final Values)|0.7|||||TWO_SIDED|95.0|-3.1|4.6|||Mixed Models Analysis|||peripheral systolic BP||4.6|-3.1|
82497842|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.75|||||TWO_SIDED|90.0|0.45|1.26|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||1.26|0.45|
82499139|NCT03654651|164689281|SUPERIORITY||Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.1|2.9|||Mixed Models Analysis|||peripheral diastolic BP||2.9|-2.1|
82499140|NCT03654651|164689281|OTHER|change from baseline|Mean Difference (Final Values)|0.4|||||TWO_SIDED|95.0|-2.5|3.3|||Mixed Models Analysis|||peripheral systolic BP change from baseline||3.3|-2.5|
82499141|NCT03654651|164689281|OTHER|change from baseline|Mean Difference (Final Values)|-0.3|||||TWO_SIDED|95.0|-3.1|2.6|||Mixed Models Analysis|||peripheral systolic BP change from baseline||2.6|-3.1|
82499142|NCT03654651|164689281|OTHER|change from baseline|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.5|||Mixed Models Analysis|||peripheral diastolic BP change from baseline||2.5|-1.5|
82499143|NCT03654651|164689281|OTHER|change from baseline|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.0|2.0|||Mixed Models Analysis|||peripheral diastolic BP change from baseline||2|-2|
82497843|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.6|||||TWO_SIDED|90.0|0.23|1.54|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||1.54|0.23|
82499144|NCT03654651|164689282|SUPERIORITY||Mean Difference (Final Values)|1.0|||||TWO_SIDED|95.0|-2.4|4.4|||Mixed Models Analysis|||central systolic BP||4.4|-2.4|
82497844|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.26|||||TWO_SIDED|90.0|0.69|2.32|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Stage 1: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||2.32|0.69|
82499145|NCT03654651|164689282|SUPERIORITY||Mean Difference (Final Values)|0.8|||||TWO_SIDED|95.0|-1.7|3.3|||Mixed Models Analysis|||central diastolic BP||3.3|-1.7|
82499146|NCT03654651|164689282|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.9|3.1|||Mixed Models Analysis|||central systolic BP change from baseline||3.1|-1.9|
82497845|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.24|||||TWO_SIDED|90.0|0.27|5.78|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||5.78|0.27|
82499147|NCT03654651|164689282|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.9|2.1|||Mixed Models Analysis|||central systolic BP change from baseline||2.1|-2.9|
82497846|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio, log|2.13|||||TWO_SIDED|90.0|0.19|24.51|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||24.51|0.19|
82499148|NCT03654651|164689282|OTHER|change from baseline|Mean Difference (Final Values)|0.5|||||TWO_SIDED|95.0|-1.5|2.6|||Mixed Models Analysis|||central diastolic BP change from baseline||2.6|-1.5|
82497847|NCT02310568|164688147|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|90.0|0.16|2.09|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Stage 2: Logistic regression model included treatment as fixed effect, and the baseline as covariate. Baseline for Stage 1 is Day 1 and for Stage 2 is Day 28.||2.09|0.16|
82499149|NCT03654651|164689282|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-2.4|1.6|||Mixed Models Analysis|||central diastolic BP change from baseline||1.6|-2.4|
82499150|NCT03654651|164689283|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.1|0.5|||Mixed Models Analysis|||||0.5|-0.1|
82499151|NCT03654651|164689283|OTHER|change from baseline|Mean Difference (Final Values)|0.3|||||TWO_SIDED|95.0|0.1|0.6|||Mixed Models Analysis|||||0.6|0.1|
82499152|NCT03654651|164689283|OTHER|change from baseline|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-0.1|0.3|||Mixed Models Analysis|||||0.3|-0.1|
82499153|NCT03654651|164689284|SUPERIORITY||Mean Difference (Final Values)|-1.4|||||TWO_SIDED|95.0|-5.9|3.3|||Mixed Models Analysis|||||3.3|-5.9|
82497848|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.21||0.801|TWO_SIDED|90.0|-0.4|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.4|0.801
82499154|NCT03654651|164689284|OTHER|change from baseline|Mean Difference (Final Values)|-0.4|||||TWO_SIDED|95.0|-3.7|2.9|||Mixed Models Analysis|||||2.9|-3.7|
82497849|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.2||0.416|TWO_SIDED|90.0|-0.5|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.5|0.416
82499155|NCT03654651|164689284|OTHER|change from baseline|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-4.0|4.3|||Mixed Models Analysis|||||4.3|-4.0|
82497850|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.23||0.634|TWO_SIDED|90.0|-0.3|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.3|0.634
82499156|NCT03654651|164689285|SUPERIORITY||Mean Difference (Final Values)|4.3|||||TWO_SIDED|95.0|-1.4|9.8|||Mixed Models Analysis|||||9.8|-1.4|
82499157|NCT03654651|164689285|OTHER|change from baseline|Mean Difference (Final Values)|2.4|||||TWO_SIDED|95.0|-2.1|6.9|||Mixed Models Analysis|||||6.9|-2.1|
82499158|NCT03654651|164689285|OTHER|change from baseline|Mean Difference (Final Values)|-2.3|||||TWO_SIDED|95.0|-6.8|2.2|||Mixed Models Analysis|||||2.2|-6.8|
82499159|NCT03654651|164689286|SUPERIORITY||Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-2.3|2.3|||Mixed Models Analysis|||||2.3|-2.3|
82497851|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.47|TWO_SIDED|90.0|-0.6|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.6|0.470
82499160|NCT03654651|164689286|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-0.6|1.8|||Mixed Models Analysis|||||1.8|-0.6|
82497852|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.24||0.683|TWO_SIDED|90.0|-0.5|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.5|0.683
82499161|NCT03654651|164689286|OTHER|change from baseline|Mean Difference (Final Values)|0.6|||||TWO_SIDED|95.0|-1.6|2.3|||Mixed Models Analysis|||||2.3|-1.6|
82499162|NCT03654651|164689287|SUPERIORITY||Mean Difference (Final Values)|2.2|||||TWO_SIDED|95.0|-3.8|8.2|||Mixed Models Analysis|||||8.2|-3.8|
82497853|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.27||0.775|TWO_SIDED|90.0|-0.5|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.5|0.775
82497854|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.848|TWO_SIDED|90.0|-0.4|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.4|0.848
82499163|NCT03654651|164689287|OTHER|change from baseline|Mean Difference (Final Values)|0.1|||||TWO_SIDED|95.0|-4.9|5.1|||Mixed Models Analysis|||||5.1|-4.9|
82499164|NCT03654651|164689287|OTHER|change from baseline|Mean Difference (Final Values)|-2.7|||||TWO_SIDED|95.0|-7.8|2.3|||Mixed Models Analysis|||||2.3|-7.8|
82499165|NCT03654651|164689288|SUPERIORITY||Mean Difference (Final Values)|-7.7|||||TWO_SIDED|95.0|-18.3|2.8|||Mixed Models Analysis|||||2.8|-18.3|
82497855|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.23||0.49|TWO_SIDED|90.0|-0.2|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-0.2|0.490
82499166|NCT03654651|164689288|OTHER|change from baseline|Mean Difference (Final Values)|-17.0|||||TWO_SIDED|95.0|-29.1|-4.8|||Mixed Models Analysis|||||-4.8|-29.1|
82497856|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.433|TWO_SIDED|90.0|-0.7|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.7|0.433
82499167|NCT03654651|164689288|OTHER|change from baseline|Mean Difference (Final Values)|-5.7|||||TWO_SIDED|95.0|-17.1|5.7|||Mixed Models Analysis|||||5.7|-17.1|
82499168|NCT03654651|164689289|SUPERIORITY||Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.3|0.7|||Mixed Models Analysis|||||0.7|-0.3|
82499169|NCT03654651|164689289|OTHER|change from baseline|Mean Difference (Final Values)|0.2|||||TWO_SIDED|95.0|-0.1|1.5|||Mixed Models Analysis|||||1.5|-0.1|
82499170|NCT03654651|164689289|OTHER|change from baseline|Mean Difference (Final Values)|0.0|||||TWO_SIDED|95.0|-0.5|0.5|||Mixed Models Analysis|||||0.5|-0.5|
82497857|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.796|TWO_SIDED|90.0|-0.4|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.4|0.796
82497858|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.25||0.624|TWO_SIDED|90.0|-0.3|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.3|0.624
82497859|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.28||0.844|TWO_SIDED|90.0|-0.5|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.5|0.844
82497860|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.5||0.743|TWO_SIDED|90.0|-0.7|1.0|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.7|0.743
82497861|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.48||0.356|TWO_SIDED|90.0|-1.3|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-1.3|0.356
82497862|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.45||0.18|TWO_SIDED|90.0|-0.2|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-0.2|0.180
82377536|NCT00486525|164462476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.075|STANDARD_ERROR_OF_MEAN|0.058||0.2|TWO_SIDED|95.0|-0.19|0.039|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control immediately post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||0.039|-0.19|0.20
82377537|NCT00486525|164462476|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.13|STANDARD_ERROR_OF_MEAN|0.06||0.027|TWO_SIDED|95.0|-0.25|-0.015|||Mixed Models Analysis|The Kenward-Roger adjustment to the degrees of freedom was used to control Type I error rates.|Yoga minus Control 3 months post-treatment|Mixed effect models were used to test the intervention's effect on primary outcomes. Fixed effects included visit, intervention group, their interaction, and baseline outcome levels. Random effects included a subject-specific random intercept, accounting for within-subject correlation, and a random effect for yoga-group, accounting for the partially-nested data arising from small groups being present in the intervention arm but not in the control arm.||-0.015|-0.25|0.027
82499171|NCT02557698|164689334|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.9||||0.002|TWO_SIDED|95.0|-3.1|-0.8|||t-test, 2 sided|||H0=Intervention and control groups do not differ with respect to the TEWL forearm at visit 3 H1=The TEWL on the forearm at visit 3 differs between the groups||-0.8|-3.1|0.002
82497863|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.53||0.589|TWO_SIDED|90.0|-0.6|1.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.2|-0.6|0.589
82499172|NCT02557698|164689335|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-2.3|||<|0.001|TWO_SIDED|95.0|-3.5|-1.2|||t-test, 2 sided|||||-1.2|-3.5|<0.001
82499173|NCT02557698|164689336|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.024|TWO_SIDED|95.0|-3.2|-0.2|||t-test, 2 sided|||||-0.2|-3.2|0.024
82499174|NCT02557698|164689337|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.017|TWO_SIDED|95.0|-3.1|-0.3|||t-test, 2 sided|||||-0.3|-3.1|0.017
82499175|NCT02557698|164689338|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.964|TWO_SIDED|95.0|-3.9|3.7|||t-test, 2 sided|||||3.7|-3.9|0.964
82499176|NCT02557698|164689339|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.4||||0.025|TWO_SIDED|95.0|0.5|8.2|||t-test, 2 sided|||||8.2|0.5|0.025
82499177|NCT02557698|164689340|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.7||||0.458|TWO_SIDED|95.0|-2.5|1.1|||t-test, 2 sided|||||1.1|-2.5|0.458
82499178|NCT02557698|164689341|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.7||||0.066|TWO_SIDED|95.0|-3.5|0.1|||t-test, 2 sided|||||0.1|-3.5|0.066
82499179|NCT02557698|164689342|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-5.6||||0.171|TWO_SIDED|95.0|-13.7|2.5|||t-test, 2 sided|||||2.5|-13.7|0.171
82499180|NCT02557698|164689343|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-7.5||||0.059|TWO_SIDED|95.0|-15.3|0.3|||t-test, 2 sided|||||0.3|-15.3|0.059
82499181|NCT02557698|164689344|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2||||0.4|TWO_SIDED|95.0|-0.2|0.5|||t-test, 2 sided|||||0.5|-0.2|0.400
82499182|NCT02557698|164689345|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.1||||0.1|TWO_SIDED|95.0|-0.1|0.4|||t-test, 2 sided|||||0.4|-0.1|0.100
82499183|NCT02557698|164689346|SUPERIORITY_OR_OTHER|||||||1|||||||Wilcoxon (Mann-Whitney)|||||||1.000
82499184|NCT02557698|164689347|SUPERIORITY_OR_OTHER|||||||0.914|||||||Wilcoxon (Mann-Whitney)|||||||0.914
82499185|NCT02557698|164689348|SUPERIORITY_OR_OTHER|||||||0.822|||||||Wilcoxon (Mann-Whitney)|||||||0.822
82499186|NCT02557698|164689349|SUPERIORITY_OR_OTHER|||||||0.585|||||||Wilcoxon (Mann-Whitney)|||||||0.585
82499187|NCT02557698|164689350|SUPERIORITY_OR_OTHER|||||||0.259|||||||Wilcoxon (Mann-Whitney)|||||||0.259
82499188|NCT02557698|164689351|SUPERIORITY_OR_OTHER|||||||0.581|||||||Wilcoxon (Mann-Whitney)|||||||0.581
82499189|NCT02557698|164689352|SUPERIORITY_OR_OTHER|||||||0.182|||||||Wilcoxon (Mann-Whitney)|||||||0.182
82499190|NCT02557698|164689353|SUPERIORITY_OR_OTHER|||||||0.759|||||||Wilcoxon (Mann-Whitney)|||||||0.759
82499191|NCT02557698|164689354|SUPERIORITY_OR_OTHER|||||||0.831|||||||Wilcoxon (Mann-Whitney)|||||||0.831
82499192|NCT02557698|164689355|SUPERIORITY_OR_OTHER|||||||0.084|||||||Wilcoxon (Mann-Whitney)|||||||0.084
82499193|NCT02557698|164689356|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.6||||0.07|TWO_SIDED|95.0|-0.3|7.4|||t-test, 2 sided|||||7.4|-0.3|0.07
82499194|NCT02557698|164689357|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|4.1||||0.029|TWO_SIDED|95.0|0.4|7.7|||t-test, 2 sided|||||7.7|0.4|0.029
82499195|NCT02557698|164689358|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.6||||0.325|TWO_SIDED|95.0|-1.8|0.6|||t-test, 2 sided|||||0.6|-1.8|0.325
82499196|NCT02557698|164689359|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.9||||0.365|TWO_SIDED|95.0|-2.6|0.9|||t-test, 2 sided|||||0.9|-2.6|0.365
82499197|NCT02557698|164689360|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-3.6||||0.143|TWO_SIDED|95.0|-8.5|1.3|||t-test, 2 sided|||||1.3|-8.5|0.143
82499198|NCT02557698|164689361|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-1.1||||0.662|TWO_SIDED|95.0|-6.5|4.2|||t-test, 2 sided|||||4.2|-6.5|0.662
82499199|NCT02557698|164689362|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.326|TWO_SIDED|95.0|-0.4|0.1|||t-test, 2 sided|||||0.1|-0.4|0.326
82499200|NCT02557698|164689363|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.1||||0.687|TWO_SIDED|95.0|-0.2|0.4|||t-test, 2 sided|||||0.4|-0.2|0.687
82499201|NCT05620563|164689376|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.28|0.87|||||Posterior mean difference with 95% credible interval is reported.|||0.87|-0.28|
82499202|NCT05620563|164689377|SUPERIORITY||Posterior Mean Difference|-0.15|||||TWO_SIDED|95.0|-1.13|0.82|||||Posterior mean difference with 95% credible interval is reported.|||0.82|-1.13|
82499203|NCT05620563|164689378|SUPERIORITY||Posterior Mean Difference|-0.47|||||TWO_SIDED|95.0|-0.99|0.05|||||Posterior mean difference with 95% credible interval is reported.|||0.05|-0.99|
82499204|NCT05620563|164689379|SUPERIORITY||Posterior Mean Difference|-0.55|||||TWO_SIDED|95.0|-3.82|2.69|||||Posterior mean difference with 95% credible interval is reported.|||2.69|-3.82|
82499205|NCT05620563|164689380|SUPERIORITY||Posterior Mean Difference|0.09|||||TWO_SIDED|95.0|-0.33|0.51|||||Posterior mean difference with 95% credible interval is reported.|||0.51|-0.33|
82499206|NCT05620563|164689381|SUPERIORITY||Posterior Mean Difference|0.3|||||TWO_SIDED|95.0|-0.35|0.95|||||Posterior mean difference with 95% credible interval is reported.|||0.95|-0.35|
82497864|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.51||0.873|TWO_SIDED|90.0|-0.8|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.8|0.873
82497865|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.48||0.667|TWO_SIDED|90.0|-0.6|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-0.6|0.667
82497866|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.47||0.548|TWO_SIDED|90.0|-0.5|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-0.5|0.548
82497867|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.45||0.567|TWO_SIDED|90.0|-1.0|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-1.0|0.567
82497868|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.42||0.208|TWO_SIDED|90.0|-0.2|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.2|0.208
82497869|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.6||0.858|TWO_SIDED|90.0|-1.2|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-1.2|0.858
82497870|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.58||0.329|TWO_SIDED|90.0|-1.7|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-1.7|0.329
82497871|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.54||0.272|TWO_SIDED|90.0|-0.4|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.4|0.272
82497872|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.33||0.946|TWO_SIDED|90.0|-0.6|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.5|-0.6|0.946
82497873|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.31||0.407|TWO_SIDED|90.0|-0.8|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.3|-0.8|0.407
82497874|NCT02310568|164688148|SUPERIORITY_OR_OTHER||LS Mean Difference|0.2|STANDARD_ERROR_OF_MEAN|0.31||0.436|TWO_SIDED|90.0|-0.3|0.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.8|-0.3|0.436
82497875|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.21||0.325|TWO_SIDED|90.0|-0.6|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.1|-0.6|0.325
82497876|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.2||0.996|TWO_SIDED|90.0|-0.3|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.3|0.996
82497877|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.24||0.377|TWO_SIDED|90.0|-0.6|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.6|0.377
82497878|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.24||0.291|TWO_SIDED|90.0|-0.7|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.1|-0.7|0.291
82497879|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.24||0.925|TWO_SIDED|90.0|-0.4|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-0.4|0.925
82499207|NCT05620563|164689382|SUPERIORITY||Posterior Mean Difference|2.2|||||TWO_SIDED|95.0|-5.7|9.99|||||Posterior mean difference with 95% credible interval is reported.|||9.99|-5.70|
82497880|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.27||0.39|TWO_SIDED|90.0|-0.7|0.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.2|-0.7|0.390
82497881|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.29||0.502|TWO_SIDED|90.0|-0.7|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.7|0.502
82497882|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.29||0.348|TWO_SIDED|90.0|-0.2|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-0.2|0.348
82497883|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.33||0.16|TWO_SIDED|90.0|-1.0|0.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.1|-1.0|0.160
82497884|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.3||0.965|TWO_SIDED|90.0|-0.5|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.5|-0.5|0.965
82497885|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|0.3||0.389|TWO_SIDED|90.0|-0.2|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-0.2|0.389
82497886|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.34||0.433|TWO_SIDED|90.0|-0.8|0.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.3|-0.8|0.433
82497887|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.5||0.94|TWO_SIDED|90.0|-0.9|0.8|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.8|-0.9|0.940
82497888|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.49||0.757|TWO_SIDED|90.0|-1.0|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.7|-1.0|0.757
82497889|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.46||0.836|TWO_SIDED|90.0|-0.7|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-0.7|0.836
82497890|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.56||0.827|TWO_SIDED|90.0|-0.9|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-0.9|0.827
82497891|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.55||0.507|TWO_SIDED|90.0|-0.6|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.6|0.507
82497892|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.51||0.632|TWO_SIDED|90.0|-1.1|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-1.1|0.632
82497893|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|0.51||0.442|TWO_SIDED|90.0|-0.5|1.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.3|-0.5|0.442
82497894|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.5||0.643|TWO_SIDED|90.0|-1.1|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-1.1|0.643
82499208|NCT05620563|164689383|SUPERIORITY||Posterior Mean Difference|-0.07|||||TWO_SIDED|95.0|-0.39|0.24|||||Posterior mean difference with 95% credible interval is reported.|||0.24|-0.39|
82497895|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.47||0.188|TWO_SIDED|90.0|-0.2|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.2|0.188
82497896|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.65||0.701|TWO_SIDED|90.0|-1.4|0.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.9|-1.4|0.701
82497897|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|0.63||0.271|TWO_SIDED|90.0|-1.8|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.4|-1.8|0.271
82497898|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.6||0.445|TWO_SIDED|90.0|-0.6|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-0.6|0.445
82497899|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.36||0.714|TWO_SIDED|90.0|-0.8|0.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.5|-0.8|0.714
82497900|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|0.35||0.515|TWO_SIDED|90.0|-0.8|0.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.4|-0.8|0.515
82497901|NCT02310568|164688149|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.34||0.778|TWO_SIDED|90.0|-0.5|0.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 (Week 4) and Stage 2 (Week 8): Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||0.7|-0.5|0.778
82497902|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.93||0.562|TWO_SIDED|90.0|-2.1|1.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.0|-2.1|0.562
82497903|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.3|STANDARD_ERROR_OF_MEAN|0.92||0.708|TWO_SIDED|90.0|-1.9|1.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.2|-1.9|0.708
82497904|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.05||0.852|TWO_SIDED|90.0|-1.9|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-1.9|0.852
82497905|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.1|STANDARD_ERROR_OF_MEAN|1.14||0.347|TWO_SIDED|90.0|-3.0|0.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.8|-3.0|0.347
82497906|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.14||0.759|TWO_SIDED|90.0|-2.2|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-2.2|0.759
82497907|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.28||0.574|TWO_SIDED|90.0|-2.9|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-2.9|0.574
82497908|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.09||0.831|TWO_SIDED|90.0|-2.1|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-2.1|0.831
82497909|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.1||0.705|TWO_SIDED|90.0|-1.4|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-1.4|0.705
82499209|NCT05620563|164689384|SUPERIORITY||Posterior Mean Difference|24.16|||||TWO_SIDED|95.0|-115.48|166.06|||||Posterior mean difference with 95% credible interval is reported.|||166.06|-115.48|
82499210|NCT05620563|164689385|SUPERIORITY||Posterior Mean Difference|-0.01|||||TWO_SIDED|95.0|-0.09|0.08|||||Posterior mean difference with 95% credible interval is reported.|||0.08|-0.09|
82497910|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.24||0.6|TWO_SIDED|90.0|-2.7|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-2.7|0.600
82497911|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.2|STANDARD_ERROR_OF_MEAN|1.23||0.848|TWO_SIDED|90.0|-2.3|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.8|-2.3|0.848
82497912|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.24||0.237|TWO_SIDED|90.0|-0.6|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.5|-0.6|0.237
82497913|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.7|STANDARD_ERROR_OF_MEAN|1.4||0.224|TWO_SIDED|90.0|-4.0|0.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||0.6|-4.0|0.224
82497914|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.38||0.747|TWO_SIDED|90.0|-1.9|2.8|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.8|-1.9|0.747
82497915|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.37||0.764|TWO_SIDED|90.0|-2.8|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28). Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-2.8|0.764
82497916|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.22||0.487|TWO_SIDED|90.0|-1.3|3.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.0|-1.3|0.487
82497917|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.53||0.744|TWO_SIDED|90.0|-2.1|3.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.2|-2.1|0.744
82497918|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|1.5|STANDARD_ERROR_OF_MEAN|1.52||0.34|TWO_SIDED|90.0|-1.1|4.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.1|-1.1|0.340
82497919|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.0|STANDARD_ERROR_OF_MEAN|1.36||0.477|TWO_SIDED|90.0|-3.3|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-3.3|0.477
82497920|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.51||0.482|TWO_SIDED|90.0|-1.5|3.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.7|-1.5|0.482
82497921|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|1.49||0.719|TWO_SIDED|90.0|-3.1|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-3.1|0.719
82497922|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.36||0.245|TWO_SIDED|90.0|-0.7|4.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.0|-0.7|0.245
82497923|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.93||0.586|TWO_SIDED|90.0|-2.3|4.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.4|-2.3|0.586
82497924|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.5|STANDARD_ERROR_OF_MEAN|1.9||0.44|TWO_SIDED|90.0|-4.8|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.8|-4.8|0.440
82497925|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|2.6|STANDARD_ERROR_OF_MEAN|1.75||0.159|TWO_SIDED|90.0|-0.5|5.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||5.6|-0.5|0.159
82497926|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.15||0.72|TWO_SIDED|90.0|-1.6|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.4|-1.6|0.720
82497927|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|1.13||0.991|TWO_SIDED|90.0|-2.0|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.9|-2.0|0.991
82497928|NCT02310568|164688152|SUPERIORITY_OR_OTHER||LS Mean Difference|0.4|STANDARD_ERROR_OF_MEAN|1.12||0.704|TWO_SIDED|90.0|-1.5|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.4|-1.5|0.704
82497929|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|0.82||0.539|TWO_SIDED|90.0|-0.9|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.9|-0.9|0.539
82497930|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.78||0.439|TWO_SIDED|90.0|-0.7|1.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.9|-0.7|0.439
82497931|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|0.92||0.914|TWO_SIDED|90.0|-1.6|1.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 1: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.4|-1.6|0.914
82497932|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|0.86||0.892|TWO_SIDED|90.0|-1.3|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-1.3|0.892
82497933|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.6|STANDARD_ERROR_OF_MEAN|0.82||0.463|TWO_SIDED|90.0|-0.8|2.0|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.0|-0.8|0.463
82497934|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.5|STANDARD_ERROR_OF_MEAN|0.95||0.611|TWO_SIDED|90.0|-2.1|1.1|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.1|-2.1|0.611
82497935|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.88||0.321|TWO_SIDED|90.0|-0.6|2.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.4|-0.6|0.321
82497936|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|0.85||0.294|TWO_SIDED|90.0|-0.5|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-0.5|0.294
82497937|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.0|STANDARD_ERROR_OF_MEAN|0.99||0.987|TWO_SIDED|90.0|-1.7|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 3: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-1.7|0.987
82497938|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.5|STANDARD_ERROR_OF_MEAN|1.04||0.599|TWO_SIDED|90.0|-1.2|2.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.3|-1.2|0.599
82497939|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.0||0.322|TWO_SIDED|90.0|-0.7|2.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.6|-0.7|0.322
82497940|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.17||0.704|TWO_SIDED|90.0|-2.4|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 4: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.5|-2.4|0.704
82497941|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.38||0.804|TWO_SIDED|90.0|-2.0|2.7|||LS Mean Difference|||(PF-06372865 7.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.7|-2.0|0.804
82497942|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.8|STANDARD_ERROR_OF_MEAN|1.38||0.559|TWO_SIDED|90.0|-3.2|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-3.2|0.559
82497943|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|1.2|STANDARD_ERROR_OF_MEAN|1.27||0.369|TWO_SIDED|90.0|-1.0|3.4|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 5: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.4|-1.0|0.369
82497944|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|1.6|STANDARD_ERROR_OF_MEAN|1.56||0.313|TWO_SIDED|90.0|-1.1|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.3|-1.1|0.313
82497945|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.56||0.56|TWO_SIDED|90.0|-1.8|3.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.6|-1.8|0.560
82497946|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.7|STANDARD_ERROR_OF_MEAN|1.43||0.635|TWO_SIDED|90.0|-1.8|3.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 6: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.2|-1.8|0.635
82497947|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|1.0|STANDARD_ERROR_OF_MEAN|1.62||0.538|TWO_SIDED|90.0|-1.8|3.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.8|-1.8|0.538
82497948|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.1|STANDARD_ERROR_OF_MEAN|1.6||0.942|TWO_SIDED|90.0|-2.7|2.9|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.9|-2.7|0.942
82497949|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.9|STANDARD_ERROR_OF_MEAN|1.5||0.555|TWO_SIDED|90.0|-1.7|3.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 7: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||3.5|-1.7|0.555
82497950|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.7|STANDARD_ERROR_OF_MEAN|1.96||0.728|TWO_SIDED|90.0|-4.1|2.7|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||2.7|-4.1|0.728
82497951|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-1.8|STANDARD_ERROR_OF_MEAN|1.95||0.362|TWO_SIDED|90.0|-5.2|1.6|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||1.6|-5.2|0.362
82497952|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|1.1|STANDARD_ERROR_OF_MEAN|1.81||0.538|TWO_SIDED|90.0|-2.0|4.3|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Week 8: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect. Baseline for Stage 1 was Day 1 and baseline for Stage 2 was Week 4 (Day 28).||4.3|-2.0|0.538
82497953|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.1|STANDARD_ERROR_OF_MEAN|1.11||0.949|TWO_SIDED|90.0|-2.0|1.8|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.8|-2.0|0.949
82497954|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|-0.4|STANDARD_ERROR_OF_MEAN|1.09||0.708|TWO_SIDED|90.0|-2.3|1.5|||Mixed-Effects Model Repeated Measure|||(PF-06372865 2.5 mg - Placebo). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||1.5|-2.3|0.708
82497955|NCT02310568|164688153|SUPERIORITY_OR_OTHER||LS Mean Difference|0.3|STANDARD_ERROR_OF_MEAN|1.07||0.752|TWO_SIDED|90.0|-1.5|2.2|||Mixed-Effects Model Repeated Measure|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Combined Stage 1 and Stage 2: Repeated measures model included week\*treatment and baseline\*week interaction as fixed effects, week repeated in each participant as repeated effect.||2.2|-1.5|0.752
82497956|NCT02310568|164688154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.95|||||TWO_SIDED|90.0|0.37|2.45|||Regression, Logistic|||(PF-06372865 7.5 mg - Placebo). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||2.45|0.37|
82497957|NCT02310568|164688154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|1.64|||||TWO_SIDED|90.0|0.39|6.88|||Regression, Logistic|||(PF-06372865 2.5 mg - Placebo). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||6.88|0.39|
82497958|NCT02310568|164688154|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.58|||||TWO_SIDED|90.0|0.23|1.49|||Regression, Logistic|||(PF-06372865 7.5 mg - PF-06372865 2.5 mg). Logistic regression model includes treatment as fixed effect, and baseline as covariate. Baseline for Stage 1 is Day 1 and Stage 2 is Week 4 (Day 28).||1.49|0.23|
82497959|NCT01549860|164688161|SUPERIORITY_OR_OTHER||||||<|0.024|TWO_SIDED||||||t-test, 2 sided|||||||<0.024
82497960|NCT01549860|164688163|SUPERIORITY_OR_OTHER||||||<|0.0126|TWO_SIDED|||||The MIST+SOC subjects decreased in their reported mean pain scores and reduced from a median of 3.0 to 0.6 cm after four weeks of study treatment.|ANCOVA|||||||<0.0126
82497961|NCT04180488|164688189|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.23||||0.0005|TWO_SIDED|95.0|-6.63|-1.84||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an analysis of covariance (ANCOVA) model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-1.84|-6.63|0.0005
82497962|NCT04180488|164688189|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.87||||0.0449|TWO_SIDED|95.0|-5.68|-0.07||Threshold for significance at 2-sided 0.043 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.07|-5.68|0.0449
82497963|NCT04180488|164688189|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.54||||0.0184|TWO_SIDED|95.0|-4.65|-0.43||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.43|-4.65|0.0184
82497964|NCT04180488|164688190|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-8.53||||0.0003|TWO_SIDED|95.0|-13.16|-3.9||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-3.90|-13.16|0.0003
82497965|NCT04180488|164688190|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.65||||0.0226|TWO_SIDED|95.0|-8.65|-0.65||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.65|-8.65|0.0226
82497966|NCT04180488|164688191|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-4.38||||0.0003|TWO_SIDED|95.0|-6.78|-1.98||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-1.98|-6.78|0.0003
82497967|NCT04180488|164688191|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.17||||0.0316|TWO_SIDED|95.0|-4.15|-0.19||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.19|-4.15|0.0316
82497968|NCT04180488|164688192|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|3.413||||0.0014|TWO_SIDED|95.0|1.596|7.299||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||Cochran-Mantel-Haenszel (CMH) test was performed on association between responder status and intervention group, adjusted by baseline disease severity (UAS7\<28,\>=28), presence of angioedema at baseline and region.||7.299|1.596|0.0014
82497969|NCT04180488|164688192|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.507||||0.0109|TWO_SIDED|95.0|1.231|5.107||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||5.107|1.231|0.0109
82497970|NCT04180488|164688193|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.848||||0.0075|TWO_SIDED|95.0|1.301|6.234||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.234|1.301|0.0075
82497971|NCT04180488|164688193|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|3.137||||0.0045|TWO_SIDED|95.0|1.371|7.176||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||7.176|1.371|0.0045
82497972|NCT04180488|164688194|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.908||||0.0199|TWO_SIDED|95.0|1.173|7.209||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||7.209|1.173|0.0199
82497973|NCT04180488|164688194|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.677||||0.0187|TWO_SIDED|95.0|1.127|6.359||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.359|1.127|0.0187
82497974|NCT04180488|164688195|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|0.93||||0.194|TWO_SIDED|95.0|-0.48|2.34||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||2.34|-0.48|0.1940
82497975|NCT04180488|164688196|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-2.37||||0.0377|TWO_SIDED|95.0|-4.6|-0.13||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.13|-4.60|0.0377
82497976|NCT04180488|164688197|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|LS Mean Difference|-5.02||||0.0223|TWO_SIDED|95.0|-9.32|-0.72||Threshold for significance at 2-sided 0.05 level.|ANCOVA|||Analyzed by fitting an ANCOVA model with the corresponding baseline value, intervention group, presence of angioedema at baseline, and regions as covariates.||-0.72|-9.32|0.0223
82497977|NCT04180488|164688198|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|2.645||||0.0215|TWO_SIDED|95.0|1.154|6.061||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||6.061|1.154|0.0215
82497978|NCT04180488|164688199|SUPERIORITY|A hierarchical testing procedure was used to control the overall type I error.|Odds Ratio (OR)|1.872||||0.0971|TWO_SIDED|95.0|0.893|3.923||Threshold for significance at 2-sided 0.05 level.|Cochran-Mantel-Haenszel|||CMH test was performed on the association between the responder status and intervention group, adjusted by baseline disease severity (UAS7 \<28, \>=28), presence of angioedema at baseline, and region.||3.923|0.893|0.0971
82497979|NCT02899988|164688216|SUPERIORITY||Risk Difference (RD)|29.4||||0.009|TWO_SIDED|95.0|16.9|41.9|||Regression, Logistic|||||41.9|16.9|0.009
82497980|NCT02899988|164688216|SUPERIORITY||Risk Difference (RD)|58.8|||<|0.001|TWO_SIDED|95.0|45.3|72.3|||Regression, Logistic|||||72.3|45.3|<0.001
82497981|NCT02899988|164688216|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|53.7|79.6|||Regression, Logistic|||||79.6|53.7|<0.001
82497982|NCT02899988|164688217|SUPERIORITY||Risk Difference (RD)|15.7||||0.039|TWO_SIDED|95.0|5.7|25.7|||Regression, Logistic|||||25.7|5.7|0.039
82497983|NCT02899988|164688217|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||||44.1|18.6|0.007
82497984|NCT02899988|164688217|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||||44.1|18.6|0.007
82497985|NCT02899988|164688218|SUPERIORITY||Risk Difference (RD)|22.49|||<|0.001|TWO_SIDED|95.0|5.62|89.97|||Regression, Logistic|||||89.97|5.62|<0.001
82497986|NCT02899988|164688218|SUPERIORITY||Risk Difference (RD)|74.6|||<|0.001|TWO_SIDED|95.0|62.1|87.0|||Regression, Logistic|||||87.0|62.1|<0.001
82497987|NCT02899988|164688218|SUPERIORITY||Risk Difference (RD)|70.7|||<|0.001|TWO_SIDED|95.0|57.6|83.7|||Regression, Logistic|||||83.7|57.6|<0.001
82497988|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|15.7||||0.041|TWO_SIDED|95.0|5.7|25.7|||Regression, Logistic|||sPGA (0)||25.7|5.7|0.041
82497989|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|31.4||||0.007|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||sPGA (0)||44.1|18.6|0.007
82497990|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|31.4||||0.008|TWO_SIDED|95.0|18.6|44.1|||Regression, Logistic|||sPGA (0)||44.1|18.6|0.008
82497991|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|35.3|||<|0.001|TWO_SIDED|95.0|21.5|49.1|||Regression, Logistic|||sPGA (0/1)||49.1|21.5|<0.001
82497992|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|68.7|||<|0.001|TWO_SIDED|95.0|55.6|81.7|||Regression, Logistic|||sPGA (0/1)||81.7|55.6|<0.001
82497993|NCT02899988|164688219|SUPERIORITY||Risk Difference (RD)|66.7|||<|0.001|TWO_SIDED|95.0|53.4|80.0|||Regression, Logistic|||sPGA (0/1)||80.0|53.4|<0.001
82497994|NCT02899988|164688220|SUPERIORITY||Mean Difference (Net)|-26.84|STANDARD_ERROR_OF_MEAN|3.26|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82497995|NCT02899988|164688220|SUPERIORITY||Mean Difference (Net)|-37.99|STANDARD_ERROR_OF_MEAN|3.29|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82497996|NCT02899988|164688220|SUPERIORITY||Mean Difference (Net)|-29.32|STANDARD_ERROR_OF_MEAN|3.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82497997|NCT02899988|164688221|SUPERIORITY||Mean Difference (Net)|1.9|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82497998|NCT02899988|164688221|SUPERIORITY||Mean Difference (Net)|2.56|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82497999|NCT02899988|164688221|SUPERIORITY||Mean Difference (Net)|2.47|STANDARD_ERROR_OF_MEAN|0.22|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82498000|NCT02899988|164688222|SUPERIORITY||Mean Difference (Net)|-8.12|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82498001|NCT02899988|164688222|SUPERIORITY||Mean Difference (Net)|-9.11|STANDARD_ERROR_OF_MEAN|0.97|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82498002|NCT02899988|164688222|SUPERIORITY||Mean Difference (Net)|-8.57|STANDARD_ERROR_OF_MEAN|0.98|<|0.001|TWO_SIDED||||||Mixed Models Analysis|||||||<0.001
82498003|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|2.11|STANDARD_ERROR_OF_MEAN|1.24||0.009|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.009
82498004|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|2.74|STANDARD_ERROR_OF_MEAN|1.22||0.002|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.002
82498005|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|1.52|STANDARD_ERROR_OF_MEAN|1.24||0.087|TWO_SIDED||||||ANCOVA|||Mental Component Summary (MCS)||||0.087
82498006|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|3.35|STANDARD_ERROR_OF_MEAN|1.2|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
82498007|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|3.16|STANDARD_ERROR_OF_MEAN|1.18|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
82498008|NCT02899988|164688223|SUPERIORITY||Mean Difference (Net)|3.86|STANDARD_ERROR_OF_MEAN|1.19|<|0.001|TWO_SIDED||||||ANCOVA|||Physical Component Summary||||<0.001
82498009|NCT01635101|164688225|OTHER||LS Mean Difference|-11.8||||0.736|TWO_SIDED|97.5|-91.0|67.3|||ANOVA|||Difference in Least Squares (LS) Means||67.3|-91.0|0.736
82498010|NCT01635101|164688225|OTHER||LS Mean Difference|1.4||||0.967|TWO_SIDED|97.5|-75.9|78.7|||ANOVA|||LS Mean Difference||78.7|-75.9|0.967
82498011|NCT01327885|164688231|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.768|||=|0.0169|TWO_SIDED|95.0|0.618|0.954||The P-value was calculated by 2-sided log-rank test as stratified by histology, geographic region, and number of prior regimens for advanced STS.|Log Rank||The Hazard Ratio is based on a stratified Cox regression model including treatment as covariate, and histology, geographic region, and number of prior regimens for advanced STS as strata.|Statistical analysis was designed to detect superiority of Arm A (eribulin) over Arm B (dacarbazine). OS was compared between the two treatment arms using a two-sided stratified log-rank test at a nominal significance level of 0.0455 (adjusted for the interim analysis). This was the primary analysis that was performed when the target number of events (\~353 deaths) was observed.||0.954|0.618|=0.0169
82498012|NCT01327885|164688232|SUPERIORITY_OR_OTHER_LEGACY||Hazard Ratio (HR)|0.877|||=|0.2287|TWO_SIDED|95.0|0.71|1.085||P-value was calculated by 2-sided log-rank test, as stratified by histology, geographic region, and number of prior regimens for advanced STS.|Log Rank||The Hazard Ratio is based on a stratified Cox regression model including treatment as covariate, and histology, geographic region, and number of prior regimens for advanced STS as strata.|The PFS and PFS rate at 3, 6, and 12 months (95% confidence interval (CI)) was calculated using Kaplan-Meier (K-M) product-limit method and Greenwood Formula. PFS was compared between the treatment arms using two-sided stratified log-rank test, stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.085|0.710|=0.2287
82498013|NCT01327885|164688233|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|1.3||||0.253|TWO_SIDED|95.0|0.8|1.9||The P-value was calculated using the stratified CMH method, the stratified factors included histology, geographic region, and number of prior regimens for advanced STS.|Cochran-Mantel-Haenszel||The odds ratio between eribulin and dacarbazine was calculated by stratified CMH method. The stratified factors were as described above. The 2-sided 95% CI of the odds ratio is based on asymptotic normal approximation.|The PFR12wks was compared between the treatment arms using stratified Cochran-Mantel-Haenszel (CMH) chi-square test stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.9|0.8|0.253
82498014|NCT01327885|164688234|SUPERIORITY_OR_OTHER_LEGACY||Odds Ratio (OR)|0.9|||=|0.741|TWO_SIDED|95.0|0.7|1.4||The P-value was calculated using the CMH method. The stratified factors were histology, geographic region, and number of prior regimens for advanced STS.|Cochran-Mantel-Haenszel||The Odds Ratio between eribulin and dacarbazine was calculated by stratified CMH method. The stratified factors were as described above. The 2-sided 95% CI of Odds Ratio is based on asymptotic normal approximation.|The PFR12wks was compared between the treatment arms using stratified CMH chi-square test stratified by histology, geographic region, and number of prior regimens for advanced STS.||1.4|0.7|=0.741
82498015|NCT03975790|164688237|SUPERIORITY|||||||0.4695|||||||Chi-squared|||||||0.4695
82498016|NCT03975790|164688237|SUPERIORITY|||||||0.7644|||||||Chi-squared|||||||0.7644
82498017|NCT03975790|164688237|SUPERIORITY|||||||0.8316|||||||Chi-squared|||||||0.8316
82498018|NCT03975790|164688238|SUPERIORITY|||||||0.9829|||||||Chi-squared|||||||0.9829
82498019|NCT03975790|164688238|SUPERIORITY|||||||0.8021|||||||Chi-squared|||||||0.8021
82498020|NCT03975790|164688238|SUPERIORITY|||||||0.8376|||||||Chi-squared|||||||0.8376
82498021|NCT03975790|164688239|SUPERIORITY|||||||0.2864|||||||t-test|||||||0.2864
82498022|NCT03975790|164688239|SUPERIORITY|||||||0.1583|||||||t-test|||||||0.1583
82498023|NCT03975790|164688239|SUPERIORITY|||||||0.4546|||||||t-test|||||||0.4546
82498024|NCT03975790|164688240|SUPERIORITY|||||||0.028|||||||t-test|||||||0.0280
82498025|NCT03975790|164688240|SUPERIORITY|||||||0.0106|||||||t-test|||||||0.0106
82498026|NCT03975790|164688240|SUPERIORITY|||||||0.7293|||||||t-test|||||||0.7293
82498027|NCT03975790|164688241|SUPERIORITY|||||||0.9215|||||||Chi-squared|||||||0.9215
82498028|NCT03975790|164688241|SUPERIORITY|||||||0.6078|||||||Chi-squared|||||||0.6078
82498029|NCT03975790|164688241|SUPERIORITY|||||||0.6258|||||||Chi-squared|||||||0.6258
82498030|NCT03975790|164688242|SUPERIORITY|||||||0.3586|||||||Chi-squared|||||||0.3586
82498031|NCT03975790|164688242|SUPERIORITY|||||||0.5117|||||||Chi-squared|||||||0.5117
82498032|NCT03975790|164688243|SUPERIORITY|||||||0.5372|||||||t-test|||||||0.5372
82498033|NCT03975790|164688243|SUPERIORITY|||||||0.6155|||||||t-test|||||||0.6155
82498034|NCT03975790|164688243|SUPERIORITY|||||||0.9696|||||||t-test|||||||0.9696
82498035|NCT03975790|164688244|SUPERIORITY|||||||0.2514|||||||t-test|||||||0.2514
82498036|NCT03975790|164688244|SUPERIORITY|||||||0.9851|||||||t-test|||||||0.9851
82498037|NCT03975790|164688244|SUPERIORITY|||||||0.4309|||||||t-test|||||||0.4309
82498038|NCT03975790|164688245|SUPERIORITY|||||||0.6033|||||||t-test|||||||0.6033
82498039|NCT03975790|164688245|SUPERIORITY|||||||0.348|||||||t-test|||||||0.3480
82498040|NCT03975790|164688245|SUPERIORITY|||||||0.5375|||||||t-test|||||||0.5375
82498041|NCT03975790|164688246|SUPERIORITY|||||||0.0345|||||||Chi-squared|||Other aftercare||||0.0345
82498042|NCT03975790|164688246|SUPERIORITY|||||||0.2316|||||||Chi-squared|||Other aftercare||||0.2316
82498043|NCT03975790|164688246|SUPERIORITY|||||||0.7349|||||||Chi-squared|||Other aftercare||||0.7349
82498044|NCT03975790|164688246|SUPERIORITY|||||||0.0774|||||||Chi-squared|||Other connective tissue disease||||0.0774
82498045|NCT03975790|164688246|SUPERIORITY|||||||0.4228|||||||Chi-squared|||Other connective tissue disease||||0.4228
82498046|NCT03975790|164688246|SUPERIORITY|||||||0.0583|||||||Chi-squared|||Other connective tissue disease||||0.0583
82498047|NCT03975790|164688246|SUPERIORITY|||||||0.9683|||||||Chi-squared|||Other non-traumatic joint disorders||||0.9683
82498048|NCT03975790|164688246|SUPERIORITY|||||||0.8877|||||||Chi-squared|||Other non-traumatic joint disorders||||0.8877
82498049|NCT03975790|164688246|SUPERIORITY|||||||0.9228|||||||Chi-squared|||Other non-traumatic joint disorders||||0.9228
82498050|NCT03975790|164688246|SUPERIORITY|||||||0.7661|||||||Chi-squared|||Medical examination/evaluation||||0.7661
82498051|NCT03975790|164688246|SUPERIORITY|||||||0.3034|||||||Chi-squared|||Medical examination/evaluation||||0.3034
82498052|NCT03975790|164688246|SUPERIORITY|||||||0.2765|||||||Chi-squared|||Medical examination/evaluation||||0.2765
82498053|NCT03975790|164688246|SUPERIORITY|||||||0.8652|||||||Chi-squared|||Other suspected conditions||||0.8652
82498054|NCT03975790|164688246|SUPERIORITY|||||||0.2243|||||||Chi-squared|||Other suspected conditions||||0.2243
82498055|NCT03975790|164688246|SUPERIORITY|||||||0.3449|||||||Chi-squared|||Other suspected conditions||||0.3449
82498056|NCT03975790|164688246|SUPERIORITY|||||||0.3529|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.3529
82498057|NCT03975790|164688246|SUPERIORITY|||||||0.1012|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.1012
82498058|NCT03975790|164688246|SUPERIORITY|||||||0.4123|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.4123
82498059|NCT03975790|164688246|SUPERIORITY|||||||0.2742|||||||Chi-squared|||Osteoarthritis||||0.2742
82498060|NCT03975790|164688246|SUPERIORITY|||||||0.1009|||||||Chi-squared|||Osteoarthritis||||0.1009
82498061|NCT03975790|164688246|SUPERIORITY|||||||0.0318|||||||Chi-squared|||Osteoarthritis||||0.0318
82498062|NCT03975790|164688246|SUPERIORITY|||||||0.4808|||||||Chi-squared|||Essential hypertension||||0.4808
82498063|NCT03975790|164688246|SUPERIORITY|||||||0.0778|||||||Chi-squared|||Essential hypertension||||0.0778
82498064|NCT03975790|164688246|SUPERIORITY|||||||0.2871|||||||Chi-squared|||Essential hypertension||||0.2871
82498065|NCT03975790|164688246|SUPERIORITY|||||||0.7356|||||||Chi-squared|||Residual codes; unclassified||||0.7356
82498066|NCT03975790|164688246|SUPERIORITY|||||||0.4975|||||||Chi-squared|||Residual codes; unclassified||||0.4975
82498067|NCT03975790|164688246|SUPERIORITY|||||||0.7143|||||||Chi-squared|||Residual codes; unclassified||||0.7143
82498068|NCT03975790|164688246|SUPERIORITY|||||||0.3559|||||||Chi-squared|||Disorders of lipid metabolism||||0.3559
82498069|NCT03975790|164688246|SUPERIORITY|||||||0.7725|||||||Chi-squared|||Disorders of lipid metabolism||||0.7725
82498070|NCT03975790|164688246|SUPERIORITY|||||||0.3875|||||||Chi-squared|||Disorders of lipid metabolism||||0.3875
82498071|NCT03975790|164688246|SUPERIORITY|||||||0.0225|||||||Chi-squared|||Back problems||||0.0225
82498072|NCT03975790|164688246|SUPERIORITY|||||||0.4427|||||||Chi-squared|||Back problems||||0.4427
82498073|NCT03975790|164688246|SUPERIORITY|||||||0.4094|||||||Chi-squared|||Back problems||||0.4094
82498074|NCT03975790|164688246|SUPERIORITY|||||||0.8775|||||||Chi-squared|||Other upper respiratory infections||||0.8775
82498075|NCT03975790|164688246|SUPERIORITY|||||||0.3525|||||||Chi-squared|||Other upper respiratory infections||||0.3525
82498076|NCT03975790|164688246|SUPERIORITY|||||||0.4724|||||||Chi-squared|||Other upper respiratory infections||||0.4724
82498077|NCT03975790|164688246|SUPERIORITY|||||||0.717|||||||Chi-squared|||Other lower respiratory disease||||0.7170
82498078|NCT03975790|164688246|SUPERIORITY|||||||0.2909|||||||Chi-squared|||Other lower respiratory disease||||0.2909
82498079|NCT03975790|164688246|SUPERIORITY|||||||0.5057|||||||Chi-squared|||Other lower respiratory disease||||0.5057
82498080|NCT03975790|164688246|SUPERIORITY|||||||0.2613|||||||Chi-squared|||Other nervous system disorders||||0.2613
82498081|NCT03975790|164688246|SUPERIORITY|||||||0.9901|||||||Chi-squared|||Other nervous system disorders||||0.9901
82498082|NCT03975790|164688246|SUPERIORITY|||||||0.4768|||||||Chi-squared|||Other nervous system disorders||||0.4768
82498083|NCT03975790|164688246|SUPERIORITY|||||||0.0219|||||||Chi-squared|||Other skin disorders||||0.0219
82498084|NCT03975790|164688246|SUPERIORITY|||||||0.5172|||||||Chi-squared|||Other skin disorders||||0.5172
82498085|NCT03975790|164688246|SUPERIORITY|||||||0.0278|||||||Chi-squared|||Other skin disorders||||0.0278
82498086|NCT03975790|164688246|SUPERIORITY|||||||0.6103|||||||Chi-squared|||Thyroid disorders||||0.6103
82498087|NCT03975790|164688246|SUPERIORITY|||||||0.1682|||||||Chi-squared|||Thyroid disorders||||0.1682
82498088|NCT03975790|164688246|SUPERIORITY|||||||0.3654|||||||Chi-squared|||Thyroid disorders||||0.3654
82498089|NCT03975790|164688246|SUPERIORITY|||||||0.7637|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.7637
82498090|NCT03975790|164688246|SUPERIORITY|||||||0.8693|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.8693
82498091|NCT03975790|164688246|SUPERIORITY|||||||0.7349|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.7349
82498092|NCT03975790|164688246|SUPERIORITY|||||||0.7324|||||||Chi-squared|||Malaise/fatigue||||0.7324
82498093|NCT03975790|164688246|SUPERIORITY|||||||0.4182|||||||Chi-squared|||Malaise/fatigue||||0.4182
82498094|NCT03975790|164688246|SUPERIORITY|||||||0.62|||||||Chi-squared|||Malaise/fatigue||||0.6200
82498095|NCT03975790|164688246|SUPERIORITY|||||||0.6064|||||||Chi-squared|||Esophageal disorders||||0.6064
82498096|NCT03975790|164688246|SUPERIORITY|||||||0.636|||||||Chi-squared|||Esophageal disorders||||0.6360
82498097|NCT03975790|164688246|SUPERIORITY|||||||0.9445|||||||Chi-squared|||Esophageal disorders||||0.9445
82498098|NCT03975790|164688246|SUPERIORITY|||||||0.8135|||||||Chi-squared|||Nutritional deficiencies||||0.8135
82498099|NCT03975790|164688246|SUPERIORITY|||||||0.6705|||||||Chi-squared|||Nutritional deficiencies||||0.6705
82498100|NCT03975790|164688246|SUPERIORITY|||||||0.8331|||||||Chi-squared|||Nutritional deficiencies||||0.8331
82498101|NCT03975790|164688246|SUPERIORITY|||||||0.4158|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.4158
82498102|NCT03975790|164688246|SUPERIORITY|||||||0.636|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.6360
82498103|NCT03975790|164688246|SUPERIORITY|||||||0.3336|||||||Chi-squared|||Other nutritional; endocrine; and metabolic disorders||||0.3336
82498104|NCT03975790|164688246|SUPERIORITY|||||||0.6402|||||||Chi-squared|||Diabetes mellitus without complication||||0.6402
82498105|NCT03975790|164688246|SUPERIORITY|||||||0.8068|||||||Chi-squared|||Diabetes mellitus without complication||||0.8068
82498106|NCT03975790|164688246|SUPERIORITY|||||||0.5983|||||||Chi-squared|||Diabetes mellitus without complication||||0.5983
82498107|NCT03975790|164688246|SUPERIORITY|||||||0.9759|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.9759
82498108|NCT03975790|164688246|SUPERIORITY|||||||0.136|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.1360
82498109|NCT03975790|164688246|SUPERIORITY|||||||0.1815|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.1815
82498110|NCT03975790|164688246|SUPERIORITY|||||||0.2731|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.2731
82498111|NCT03975790|164688246|SUPERIORITY|||||||0.8327|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.8327
82498112|NCT03975790|164688246|SUPERIORITY|||||||0.342|||||||Chi-squared|||Genitourinary symptoms/ill-defined conditions||||0.3420
82498113|NCT03975790|164688247|SUPERIORITY|||||||0.059|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.0590
82498114|NCT03975790|164688247|SUPERIORITY|||||||0.7055|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.7055
82498115|NCT03975790|164688247|SUPERIORITY|||||||0.3088|||||||Chi-squared|||Rheumatoid arthritis/related disease||||0.3088
82498116|NCT03975790|164688247|SUPERIORITY|||||||0.0036|||||||Chi-squared|||Other aftercare||||0.0036
82498117|NCT03975790|164688247|SUPERIORITY|||||||0.3772|||||||Chi-squared|||Other aftercare||||0.3772
82498118|NCT03975790|164688247|SUPERIORITY|||||||0.3|||||||Chi-squared|||Other aftercare||||0.3000
82498119|NCT03975790|164688247|SUPERIORITY|||||||0.7354|||||||Chi-squared|||Other connective tissue disease||||0.7354
82498120|NCT03975790|164688247|SUPERIORITY|||||||0.1435|||||||Chi-squared|||Other connective tissue disease||||0.1435
82498121|NCT03975790|164688247|SUPERIORITY|||||||0.2876|||||||Chi-squared|||Other connective tissue disease||||0.2876
82498122|NCT03975790|164688247|SUPERIORITY|||||||0.2848|||||||Chi-squared|||Other non-traumatic joint disorders||||0.2848
82498123|NCT03975790|164688247|SUPERIORITY|||||||0.183|||||||Chi-squared|||Other non-traumatic joint disorders||||0.1830
82498124|NCT03975790|164688247|SUPERIORITY|||||||0.6453|||||||Chi-squared|||Other non-traumatic joint disorders||||0.6453
82498125|NCT03975790|164688247|SUPERIORITY|||||||0.8717|||||||Chi-squared|||Medical examination/evaluation||||0.8717
82498126|NCT03975790|164688247|SUPERIORITY|||||||0.8717|||||||Chi-squared|||Medical examination/evaluation||||0.8717
82498127|NCT03975790|164688247|SUPERIORITY|||||||0.3422|||||||Chi-squared|||Medical examination/evaluation||||0.3422
82498128|NCT03975790|164688247|SUPERIORITY|||||||0.3465|||||||Chi-squared|||Other suspected conditions||||0.3465
82498129|NCT03975790|164688247|SUPERIORITY|||||||0.4953|||||||Chi-squared|||Other suspected conditions||||0.4953
82498130|NCT03975790|164688247|SUPERIORITY|||||||0.9796|||||||Chi-squared|||Other suspected conditions||||0.9796
82498131|NCT03975790|164688247|SUPERIORITY|||||||0.4187|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.4187
82498132|NCT03975790|164688247|SUPERIORITY|||||||0.151|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.1510
82498133|NCT03975790|164688247|SUPERIORITY|||||||0.0751|||||||Chi-squared|||Immunizations/screening for infectious disease||||0.0751
82498134|NCT03975790|164688247|SUPERIORITY|||||||0.7577|||||||Chi-squared|||Osteoarthritis||||0.7577
82498135|NCT03975790|164688247|SUPERIORITY|||||||0.802|||||||Chi-squared|||Osteoarthritis||||0.8020
82498136|NCT03975790|164688247|SUPERIORITY|||||||0.9879|||||||Chi-squared|||Osteoarthritis||||0.9879
82498137|NCT03975790|164688247|SUPERIORITY|||||||0.1717|||||||Chi-squared|||Essential hypertension||||0.1717
82498138|NCT03975790|164688247|SUPERIORITY|||||||0.3065|||||||Chi-squared|||Essential hypertension||||0.3065
82498139|NCT03975790|164688247|SUPERIORITY|||||||0.992|||||||Chi-squared|||Essential hypertension||||0.9920
82498140|NCT03975790|164688247|SUPERIORITY|||||||0.4626|||||||Chi-squared|||Residual codes; unclassified||||0.4626
82498141|NCT03975790|164688247|SUPERIORITY|||||||0.8922|||||||Chi-squared|||Residual codes; unclassified||||0.8922
82498142|NCT03975790|164688247|SUPERIORITY|||||||0.7143|||||||Chi-squared|||Residual codes; unclassified||||0.7143
82498143|NCT03975790|164688247|SUPERIORITY|||||||0.8212|||||||Chi-squared|||Disorders of lipid metabolism||||0.8212
82498144|NCT03975790|164688247|SUPERIORITY|||||||0.5732|||||||Chi-squared|||Disorders of lipid metabolism||||0.5732
82498145|NCT03975790|164688247|SUPERIORITY|||||||0.7319|||||||Chi-squared|||Disorders of lipid metabolism||||0.7319
82498146|NCT03975790|164688247|SUPERIORITY|||||||0.9272|||||||Chi-squared|||Back problems||||0.9272
82498147|NCT03975790|164688247|SUPERIORITY|||||||0.1441|||||||Chi-squared|||Back problems||||0.1441
82498148|NCT03975790|164688247|SUPERIORITY|||||||0.1859|||||||Chi-squared|||Back problems||||0.1859
82498149|NCT03975790|164688247|SUPERIORITY|||||||0.3109|||||||Chi-squared|||Other upper respiratory infections||||0.3109
82498150|NCT03975790|164688247|SUPERIORITY|||||||0.3313|||||||Chi-squared|||Other upper respiratory infections||||0.3313
82498151|NCT03975790|164688247|SUPERIORITY|||||||0.1279|||||||Chi-squared|||Other upper respiratory infections||||0.1279
82498152|NCT03975790|164688247|SUPERIORITY|||||||0.7575|||||||Chi-squared|||Other lower respiratory disease||||0.7575
82498153|NCT03975790|164688247|SUPERIORITY|||||||0.1583|||||||Chi-squared|||Other lower respiratory disease||||0.1583
82498154|NCT03975790|164688247|SUPERIORITY|||||||0.1569|||||||Chi-squared|||Other lower respiratory disease||||0.1569
82498155|NCT03975790|164688247|SUPERIORITY|||||||0.0745|||||||Chi-squared|||Other nervous system disorders||||0.0745
82498156|NCT03975790|164688247|SUPERIORITY|||||||0.0933|||||||Chi-squared|||Other nervous system disorders||||0.0933
82498157|NCT03975790|164688247|SUPERIORITY|||||||0.791|||||||Chi-squared|||Other nervous system disorders||||0.7910
82498158|NCT03975790|164688247|SUPERIORITY|||||||0.6755|||||||Chi-squared|||Other skin disorders||||0.6755
82498159|NCT03975790|164688247|SUPERIORITY|||||||0.4183|||||||Chi-squared|||Other skin disorders||||0.4183
82498160|NCT03975790|164688247|SUPERIORITY|||||||0.6749|||||||Chi-squared|||Other skin disorders||||0.6749
82498161|NCT03975790|164688247|SUPERIORITY|||||||0.6626|||||||Chi-squared|||Thyroid disorders||||0.6626
82498162|NCT03975790|164688247|SUPERIORITY|||||||0.5766|||||||Chi-squared|||Thyroid disorders||||0.5766
82498163|NCT03975790|164688247|SUPERIORITY|||||||0.8376|||||||Chi-squared|||Thyroid disorders||||0.8376
82498164|NCT03975790|164688247|SUPERIORITY|||||||0.2857|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.2857
82498165|NCT03975790|164688247|SUPERIORITY|||||||0.956|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.9560
82498166|NCT03975790|164688247|SUPERIORITY|||||||0.4384|||||||Chi-squared|||Other bone disease/musculoskeletal deformities||||0.4384
82498167|NCT03975790|164688247|SUPERIORITY|||||||0.6082|||||||Chi-squared|||Malaise/fatigue||||0.6082
82498168|NCT03975790|164688247|SUPERIORITY|||||||0.3374|||||||Chi-squared|||Malaise/fatigue||||0.3374
82498169|NCT03975790|164688247|SUPERIORITY|||||||0.5984|||||||Chi-squared|||Malaise/fatigue||||0.5984
82498170|NCT03975790|164688247|SUPERIORITY|||||||0.8568|||||||Chi-squared|||Esophageal disorders||||0.8568
82498171|NCT03975790|164688247|SUPERIORITY|||||||0.7698|||||||Chi-squared|||Esophageal disorders||||0.7698
82498172|NCT03975790|164688247|SUPERIORITY|||||||0.7089|||||||Chi-squared|||Esophageal disorders||||0.7089
82498173|NCT03975790|164688247|SUPERIORITY|||||||0.3446|||||||Chi-squared|||Nutritional deficiencies||||0.3446
82498174|NCT03975790|164688247|SUPERIORITY|||||||0.0815|||||||Chi-squared|||Nutritional deficiencies||||0.0815
82498175|NCT03975790|164688247|SUPERIORITY|||||||0.402|||||||Chi-squared|||Nutritional deficiencies||||0.4020
82498176|NCT03975790|164688247|SUPERIORITY|||||||0.4246|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.4246
82498177|NCT03975790|164688247|SUPERIORITY|||||||0.8118|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.8118
82498178|NCT03975790|164688247|SUPERIORITY|||||||0.7454|||||||Chi-squared|||Other nutritional: endocrine/metabolic disorders||||0.7454
82498179|NCT03975790|164688247|SUPERIORITY|||||||0.3559|||||||Chi-squared|||Diabetes mellitus without complication||||0.3559
82498180|NCT03975790|164688247|SUPERIORITY|||||||0.7698|||||||Chi-squared|||Diabetes mellitus without complication||||0.7698
82498181|NCT03975790|164688247|SUPERIORITY|||||||0.7323|||||||Chi-squared|||Diabetes mellitus without complication||||0.7323
82498182|NCT03975790|164688247|SUPERIORITY|||||||0.5935|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.5935
82498183|NCT03975790|164688247|SUPERIORITY|||||||0.3928|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.3928
82498184|NCT03975790|164688247|SUPERIORITY|||||||0.7089|||||||Chi-squared|||Other/unspecified benign neoplasm||||0.7089
82498185|NCT03975790|164688247|SUPERIORITY|||||||0.8746|||||||Chi-squared|||Other upper respiratory disease||||0.8746
82498186|NCT03975790|164688247|SUPERIORITY|||||||0.3835|||||||Chi-squared|||Other upper respiratory disease||||0.3835
82498187|NCT03975790|164688247|SUPERIORITY|||||||0.4992|||||||Chi-squared|||Other upper respiratory disease||||0.4992
82498188|NCT03975790|164688248|SUPERIORITY|||||||0.2336|||||||t-test|||||||0.2336
82498189|NCT03975790|164688248|SUPERIORITY|||||||0.2109|||||||t-test|||||||0.2109
82498190|NCT03975790|164688248|SUPERIORITY|||||||0.0691|||||||t-test|||||||0.0691
82498191|NCT03975790|164688249|SUPERIORITY|||||||0.9758|||||||Chi-squared|||MTX Sodium||||0.9758
82498192|NCT03975790|164688249|SUPERIORITY|||||||0.9978|||||||Chi-squared|||MTX Sodium||||0.9978
82498193|NCT03975790|164688249|SUPERIORITY|||||||0.9861|||||||Chi-squared|||MTX Sodium||||0.9861
82498194|NCT03975790|164688249|SUPERIORITY|||||||0.5744|||||||Chi-squared|||Folic Acid||||0.5744
82498195|NCT03975790|164688249|SUPERIORITY|||||||0.8542|||||||Chi-squared|||Folic Acid||||0.8542
82498196|NCT03975790|164688249|SUPERIORITY|||||||0.8363|||||||Chi-squared|||Folic Acid||||0.8363
82498197|NCT03975790|164688249|SUPERIORITY|||||||0.0473|||||||Chi-squared|||Prednisone||||0.0473
82498198|NCT03975790|164688249|SUPERIORITY|||||||0.0327|||||||Chi-squared|||Prednisone||||0.0327
82498199|NCT03975790|164688249|SUPERIORITY|||||||0.5348|||||||Chi-squared|||Prednisone||||0.5348
82498200|NCT03975790|164688249|SUPERIORITY|||||||0.6934|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.6934
82498201|NCT03975790|164688249|SUPERIORITY|||||||0.6017|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.6017
82498202|NCT03975790|164688249|SUPERIORITY|||||||0.4768|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.4768
82498203|NCT03975790|164688249|SUPERIORITY|||||||0.2315|||||||Chi-squared|||Azithromycin||||0.2315
82498204|NCT03975790|164688249|SUPERIORITY|||||||0.2588|||||||Chi-squared|||Azithromycin||||0.2588
82498205|NCT03975790|164688249|SUPERIORITY|||||||0.8576|||||||Chi-squared|||Azithromycin||||0.8576
82498206|NCT03975790|164688249|SUPERIORITY|||||||0.5909|||||||Chi-squared|||Adalimumab||||0.5909
82498207|NCT03975790|164688249|SUPERIORITY|||||||0.057|||||||Chi-squared|||Adalimumab||||0.0570
82498208|NCT03975790|164688249|SUPERIORITY|||||||0.0408|||||||Chi-squared|||Adalimumab||||0.0408
82498209|NCT03975790|164688249|SUPERIORITY|||||||0.6465|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.6465
82498210|NCT03975790|164688249|SUPERIORITY|||||||0.5654|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.5654
82498211|NCT03975790|164688249|SUPERIORITY|||||||0.8371|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.8371
82498212|NCT03975790|164688249|SUPERIORITY|||||||0.9654|||||||Chi-squared|||Etanercept||||0.9654
82498213|NCT03975790|164688249|SUPERIORITY|||||||0.1013|||||||Chi-squared|||Etanercept||||0.1013
82498214|NCT03975790|164688249|SUPERIORITY|||||||0.158|||||||Chi-squared|||Etanercept||||0.1580
82498215|NCT03975790|164688249|SUPERIORITY|||||||0.1663|||||||Chi-squared|||Levothyroxine Sodium||||0.1663
82498216|NCT03975790|164688249|SUPERIORITY|||||||0.6563|||||||Chi-squared|||Levothyroxine Sodium||||0.6563
82498217|NCT03975790|164688249|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Levothyroxine Sodium||||0.5785
82498218|NCT03975790|164688249|SUPERIORITY|||||||0.4166|||||||Chi-squared|||Methylprednisolone||||0.4166
82498219|NCT03975790|164688249|SUPERIORITY|||||||0.0636|||||||Chi-squared|||Methylprednisolone||||0.0636
82498220|NCT03975790|164688249|SUPERIORITY|||||||0.3137|||||||Chi-squared|||Methylprednisolone||||0.3137
82498221|NCT03975790|164688249|SUPERIORITY|||||||0.4568|||||||Chi-squared|||Omeprazole||||0.4568
82498222|NCT03975790|164688249|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Omeprazole||||0.5785
82498223|NCT03975790|164688249|SUPERIORITY|||||||0.9541|||||||Chi-squared|||Omeprazole||||0.9541
82498224|NCT03975790|164688249|SUPERIORITY|||||||0.1956|||||||Chi-squared|||Tramadol Hydrochloride||||0.1956
82498225|NCT03975790|164688249|SUPERIORITY|||||||0.3633|||||||Chi-squared|||Tramadol Hydrochloride||||0.3633
82498226|NCT03975790|164688249|SUPERIORITY|||||||0.9481|||||||Chi-squared|||Tramadol Hydrochloride||||0.9481
82498227|NCT03975790|164688249|SUPERIORITY|||||||0.3653|||||||Chi-squared|||Meloxicam||||0.3653
82498228|NCT03975790|164688249|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Meloxicam||||0.9255
82498229|NCT03975790|164688249|SUPERIORITY|||||||0.5137|||||||Chi-squared|||Meloxicam||||0.5137
82498230|NCT03975790|164688249|SUPERIORITY|||||||0.6338|||||||Chi-squared|||Amoxicillin||||0.6338
82498231|NCT03975790|164688249|SUPERIORITY|||||||0.6329|||||||Chi-squared|||Amoxicillin||||0.6329
82498232|NCT03975790|164688249|SUPERIORITY|||||||0.9228|||||||Chi-squared|||Amoxicillin||||0.9228
82498233|NCT03975790|164688249|SUPERIORITY|||||||0.8433|||||||Chi-squared|||Albuterol Sulfate||||0.8433
82498234|NCT03975790|164688249|SUPERIORITY|||||||0.1175|||||||Chi-squared|||Albuterol Sulfate||||0.1175
82498235|NCT03975790|164688249|SUPERIORITY|||||||0.1215|||||||Chi-squared|||Albuterol Sulfate||||0.1215
82498236|NCT03975790|164688249|SUPERIORITY|||||||0.9007|||||||Chi-squared|||Gabapentin||||0.9007
82498237|NCT03975790|164688249|SUPERIORITY|||||||0.8789|||||||Chi-squared|||Gabapentin||||0.8789
82498238|NCT03975790|164688249|SUPERIORITY|||||||0.8305|||||||Chi-squared|||Gabapentin||||0.8305
82498239|NCT03975790|164688249|SUPERIORITY|||||||0.0694|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.0694
82498240|NCT03975790|164688249|SUPERIORITY|||||||0.8606|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.8606
82498241|NCT03975790|164688249|SUPERIORITY|||||||0.3363|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.3363
82498242|NCT03975790|164688249|SUPERIORITY|||||||0.3319|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.3319
82498243|NCT03975790|164688249|SUPERIORITY|||||||0.5615|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.5615
82498244|NCT03975790|164688249|SUPERIORITY|||||||0.8898|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.8898
82498245|NCT03975790|164688249|SUPERIORITY|||||||0.367|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.3670
82498246|NCT03975790|164688249|SUPERIORITY|||||||0.8155|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.8155
82498247|NCT03975790|164688249|SUPERIORITY|||||||0.7091|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.7091
82498248|NCT03975790|164688249|SUPERIORITY|||||||0.9769|||||||Chi-squared|||Fluticasone Propionate||||0.9769
82498249|NCT03975790|164688249|SUPERIORITY|||||||0.5032|||||||Chi-squared|||Fluticasone Propionate||||0.5032
82498250|NCT03975790|164688249|SUPERIORITY|||||||0.5631|||||||Chi-squared|||Fluticasone Propionate||||0.5631
82498251|NCT03975790|164688249|SUPERIORITY|||||||0.4426|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.4426
82498252|NCT03975790|164688249|SUPERIORITY|||||||0.5734|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.5734
82498253|NCT03975790|164688249|SUPERIORITY|||||||0.3071|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.3071
82498254|NCT03975790|164688249|SUPERIORITY|||||||0.1608|||||||Chi-squared|||Duloxetine Hydrochloride||||0.1608
82498255|NCT03975790|164688249|SUPERIORITY|||||||0.4092|||||||Chi-squared|||Duloxetine Hydrochloride||||0.4092
82498256|NCT03975790|164688249|SUPERIORITY|||||||0.1215|||||||Chi-squared|||Duloxetine Hydrochloride||||0.1215
82498257|NCT03975790|164688249|SUPERIORITY|||||||0.7279|||||||Chi-squared|||Atorvastatin Calcium||||0.7279
82498258|NCT03975790|164688249|SUPERIORITY|||||||0.7703|||||||Chi-squared|||Atorvastatin Calcium||||0.7703
82498259|NCT03975790|164688249|SUPERIORITY|||||||0.6254|||||||Chi-squared|||Atorvastatin Calcium||||0.6254
82498260|NCT03975790|164688249|SUPERIORITY|||||||0.1615|||||||Chi-squared|||Diclofenac Sodium||||0.1615
82498261|NCT03975790|164688249|SUPERIORITY|||||||0.505|||||||Chi-squared|||Diclofenac Sodium||||0.5050
82498262|NCT03975790|164688249|SUPERIORITY|||||||0.1592|||||||Chi-squared|||Diclofenac Sodium||||0.1592
82498263|NCT03975790|164688249|SUPERIORITY|||||||0.6088|||||||Chi-squared|||Levofloxacin||||0.6088
82498264|NCT03975790|164688249|SUPERIORITY|||||||0.4713|||||||Chi-squared|||Levofloxacin||||0.4713
82498265|NCT03975790|164688249|SUPERIORITY|||||||0.3399|||||||Chi-squared|||Levofloxacin||||0.3399
82498266|NCT03975790|164688250|SUPERIORITY|||||||0.2349|||||||Chi-squared|||MTX Sodium||||0.2349
82498267|NCT03975790|164688250|SUPERIORITY|||||||0.3956|||||||Chi-squared|||MTX Sodium||||0.3956
82498268|NCT03975790|164688250|SUPERIORITY|||||||0.55|||||||Chi-squared|||Folic Acid||||0.5500
82498269|NCT03975790|164688250|SUPERIORITY|||||||0.7131|||||||Chi-squared|||Folic Acid||||0.7131
82498270|NCT03975790|164688250|SUPERIORITY|||||||0.942|||||||Chi-squared|||Folic Acid||||0.9420
82498271|NCT03975790|164688250|SUPERIORITY|||||||0.0571|||||||Chi-squared|||Prednisone||||0.0571
82498272|NCT03975790|164688250|SUPERIORITY|||||||0.049|||||||Chi-squared|||Prednisone||||0.0490
82498273|NCT03975790|164688250|SUPERIORITY|||||||0.5631|||||||Chi-squared|||Prednisone||||0.5631
82498274|NCT03975790|164688250|SUPERIORITY|||||||0.2198|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.2198
82498275|NCT03975790|164688250|SUPERIORITY|||||||0.385|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.3850
82498276|NCT03975790|164688250|SUPERIORITY|||||||0.1165|||||||Chi-squared|||Acetaminophen/Hydrocodone Bitartrate||||0.1165
82498277|NCT03975790|164688250|SUPERIORITY|||||||0.4291|||||||Chi-squared|||Azithromycin||||0.4291
82498278|NCT03975790|164688250|SUPERIORITY|||||||0.385|||||||Chi-squared|||Azithromycin||||0.3850
82498279|NCT03975790|164688250|SUPERIORITY|||||||0.8143|||||||Chi-squared|||Azithromycin||||0.8143
82498280|NCT03975790|164688250|SUPERIORITY|||||||0.7272|||||||Chi-squared|||Adalimumab||||0.7272
82498281|NCT03975790|164688250|SUPERIORITY|||||||0.0501|||||||Chi-squared|||Adalimumab||||0.0501
82498282|NCT03975790|164688250|SUPERIORITY|||||||0.05|||||||Chi-squared|||Adalimumab||||0.0500
82498283|NCT03975790|164688250|SUPERIORITY|||||||0.3116|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.3116
82498284|NCT03975790|164688250|SUPERIORITY|||||||0.4882|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.4882
82498285|NCT03975790|164688250|SUPERIORITY|||||||0.9505|||||||Chi-squared|||Hydroxychloroquine Sulfate||||0.9505
82498286|NCT03975790|164688250|SUPERIORITY|||||||0.408|||||||Chi-squared|||Etanercept||||0.4080
82498287|NCT03975790|164688250|SUPERIORITY|||||||0.7644|||||||Chi-squared|||Etanercept||||0.7644
82498288|NCT03975790|164688250|SUPERIORITY|||||||0.4146|||||||Chi-squared|||Etanercept||||0.4146
82498289|NCT03975790|164688250|SUPERIORITY|||||||0.1348|||||||Chi-squared|||Levothyroxine Sodium||||0.1348
82498290|NCT03975790|164688250|SUPERIORITY|||||||0.5948|||||||Chi-squared|||Levothyroxine Sodium||||0.5948
82498291|NCT03975790|164688250|SUPERIORITY|||||||0.5785|||||||Chi-squared|||Levothyroxine Sodium||||0.5785
82498292|NCT03975790|164688250|SUPERIORITY|||||||0.1033|||||||Chi-squared|||Methylprednisolone||||0.1033
82498293|NCT03975790|164688250|SUPERIORITY|||||||0.2117|||||||Chi-squared|||Methylprednisolone||||0.2117
82498294|NCT03975790|164688250|SUPERIORITY|||||||0.992|||||||Chi-squared|||Methylprednisolone||||0.9920
82498295|NCT03975790|164688250|SUPERIORITY|||||||0.9212|||||||Chi-squared|||Omeprazole||||0.9212
82498296|NCT03975790|164688250|SUPERIORITY|||||||0.9212|||||||Chi-squared|||Omeprazole||||0.9212
82498297|NCT03975790|164688250|SUPERIORITY|||||||0.4384|||||||Chi-squared|||Omeprazole||||0.4384
82498298|NCT03975790|164688250|SUPERIORITY|||||||0.0162|||||||Chi-squared|||Tramadol Hydrochloride||||0.0162
82498299|NCT03975790|164688250|SUPERIORITY|||||||0.3239|||||||Chi-squared|||Tramadol Hydrochloride||||0.3239
82498300|NCT03975790|164688250|SUPERIORITY|||||||0.4837|||||||Chi-squared|||Tramadol Hydrochloride||||0.4837
82498301|NCT03975790|164688250|SUPERIORITY|||||||0.7183|||||||Chi-squared|||Meloxicam||||0.7183
82498302|NCT03975790|164688250|SUPERIORITY|||||||0.2667|||||||Chi-squared|||Meloxicam||||0.2667
82498303|NCT03975790|164688250|SUPERIORITY|||||||0.451|||||||Chi-squared|||Meloxicam||||0.4510
82498304|NCT03975790|164688250|SUPERIORITY|||||||0.7993|||||||Chi-squared|||Amoxicillin||||0.7993
82498305|NCT03975790|164688250|SUPERIORITY|||||||0.9896|||||||Chi-squared|||Amoxicillin||||0.9896
82498306|NCT03975790|164688250|SUPERIORITY|||||||0.8576|||||||Chi-squared|||Amoxicillin||||0.8576
82498307|NCT03975790|164688250|SUPERIORITY|||||||0.9373|||||||Chi-squared|||Albuterol Sulfate||||0.9373
82498308|NCT03975790|164688250|SUPERIORITY|||||||0.1253|||||||Chi-squared|||Albuterol Sulfate||||0.1253
82498309|NCT03975790|164688250|SUPERIORITY|||||||0.1851|||||||Chi-squared|||Albuterol Sulfate||||0.1851
82498310|NCT03975790|164688250|SUPERIORITY|||||||0.8697|||||||Chi-squared|||Gabapentin||||0.8697
82498311|NCT03975790|164688250|SUPERIORITY|||||||0.9719|||||||Chi-squared|||Gabapentin||||0.9719
82498312|NCT03975790|164688250|SUPERIORITY|||||||0.938|||||||Chi-squared|||Gabapentin||||0.9380
82498313|NCT03975790|164688250|SUPERIORITY|||||||0.1079|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.1079
82498314|NCT03975790|164688250|SUPERIORITY|||||||0.2588|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.2588
82498315|NCT03975790|164688250|SUPERIORITY|||||||0.9358|||||||Chi-squared|||Acetaminophen/Oxycodone Hydrochloride||||0.9358
82498316|NCT03975790|164688250|SUPERIORITY|||||||0.1984|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.1984
82498317|NCT03975790|164688250|SUPERIORITY|||||||0.8542|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.8542
82498318|NCT03975790|164688250|SUPERIORITY|||||||0.2973|||||||Chi-squared|||Amoxicillin/Clavulanate Potassium||||0.2973
82498319|NCT03975790|164688250|SUPERIORITY|||||||0.1046|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.1046
82498320|NCT03975790|164688250|SUPERIORITY|||||||0.7961|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.7961
82498321|NCT03975790|164688250|SUPERIORITY|||||||0.214|||||||Chi-squared|||Cyclobenzaprine Hydrochloride||||0.2140
82498322|NCT03975790|164688250|SUPERIORITY|||||||0.8578|||||||Chi-squared|||Fluticasone Propionate||||0.8578
82498323|NCT03975790|164688250|SUPERIORITY|||||||0.7131|||||||Chi-squared|||Fluticasone Propionate||||0.7131
82498324|NCT03975790|164688250|SUPERIORITY|||||||0.8421|||||||Chi-squared|||Fluticasone Propionate||||0.8421
82498325|NCT03975790|164688250|SUPERIORITY|||||||0.7637|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.7637
82498326|NCT03975790|164688250|SUPERIORITY|||||||0.6355|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.6355
82498327|NCT03975790|164688250|SUPERIORITY|||||||0.5425|||||||Chi-squared|||Ciprofloxacin Hydrochloride||||0.5425
82498328|NCT03975790|164688250|SUPERIORITY|||||||0.041|||||||Chi-squared|||Duloxetine Hydrochloride||||0.0410
82498329|NCT03975790|164688250|SUPERIORITY|||||||0.8251|||||||Chi-squared|||Duloxetine Hydrochloride||||0.8251
82498330|NCT03975790|164688250|SUPERIORITY|||||||0.2871|||||||Chi-squared|||Duloxetine Hydrochloride||||0.2871
82498331|NCT03975790|164688250|SUPERIORITY|||||||0.1174|||||||Chi-squared|||Diclofenac Sodium||||0.1174
82498332|NCT03975790|164688250|SUPERIORITY|||||||0.9702|||||||Chi-squared|||Diclofenac Sodium||||0.9702
82498333|NCT03975790|164688250|SUPERIORITY|||||||0.3109|||||||Chi-squared|||Diclofenac Sodium||||0.3109
82498334|NCT03975790|164688250|SUPERIORITY|||||||0.6744|||||||Chi-squared|||Levofloxacin||||0.6744
82498335|NCT03975790|164688250|SUPERIORITY|||||||0.8121|||||||Chi-squared|||Levofloxacin||||0.8121
82498336|NCT03975790|164688250|SUPERIORITY|||||||0.9451|||||||Chi-squared|||Levofloxacin||||0.9451
82498337|NCT03975790|164688250|SUPERIORITY|||||||0.166|||||||Chi-squared|||Cephalexin||||0.1660
82498338|NCT03975790|164688250|SUPERIORITY|||||||0.9549|||||||Chi-squared|||Cephalexin||||0.9549
82498339|NCT03975790|164688250|SUPERIORITY|||||||0.3104|||||||Chi-squared|||Cephalexin||||0.3104
82498340|NCT03975790|164688250|SUPERIORITY|||||||0.0489|||||||Chi-squared|||Ibuprofen||||0.0489
82498341|NCT03975790|164688250|SUPERIORITY|||||||0.1515|||||||Chi-squared|||Ibuprofen||||0.1515
82498342|NCT03975790|164688250|SUPERIORITY|||||||0.9481|||||||Chi-squared|||Ibuprofen||||0.9481
82498343|NCT03975790|164688251|SUPERIORITY|||||||0.2178|||||||Chi-squared|||||||0.2178
82498344|NCT03975790|164688251|SUPERIORITY|||||||0.5237|||||||Chi-squared|||||||0.5237
82498345|NCT03975790|164688251|SUPERIORITY|||||||0.7964|||||||Chi-squared|||||||0.7964
82498346|NCT03975790|164688252|SUPERIORITY|||||||0.9085|||||||Chi-squared|||||||0.9085
82498347|NCT03975790|164688252|SUPERIORITY|||||||0.6283|||||||Chi-squared|||||||0.6283
82498348|NCT03975790|164688252|SUPERIORITY|||||||0.7293|||||||Chi-squared|||||||0.7293
82498349|NCT03975790|164688253|SUPERIORITY|||||||0.9392|||||||Chi-squared|||||||0.9392
82498350|NCT03975790|164688253|SUPERIORITY|||||||0.3063|||||||Chi-squared|||||||0.3063
82498351|NCT03975790|164688253|SUPERIORITY|||||||0.3467|||||||Chi-squared|||||||0.3467
82498352|NCT03975790|164688254|SUPERIORITY|||||||0.7977|||||||Chi-squared|||||||0.7977
82498353|NCT03975790|164688254|SUPERIORITY|||||||0.5241|||||||Chi-squared|||||||0.5241
82498354|NCT03975790|164688254|SUPERIORITY|||||||0.4702|||||||Chi-squared|||||||0.4702
82498355|NCT03975790|164688255|SUPERIORITY|||||||0.1461|||||||t-test|||||||0.1461
82498356|NCT03975790|164688255|SUPERIORITY|||||||0.1411|||||||t-test|||||||0.1411
82498357|NCT03975790|164688255|SUPERIORITY|||||||0.4201|||||||t-test|||||||0.4201
82498358|NCT03975790|164688256|SUPERIORITY|||||||0.3955|||||||t-test|||||||0.3955
82498359|NCT03975790|164688256|SUPERIORITY|||||||0.6356|||||||t-test|||||||0.6356
82498360|NCT03975790|164688256|SUPERIORITY|||||||0.3833|||||||t-test|||||||0.3833
82498361|NCT03975790|164688257|SUPERIORITY|||||||0.3292|||||||t-test|||||||0.3292
82498362|NCT03975790|164688257|SUPERIORITY|||||||0.2959|||||||t-test|||||||0.2959
82498363|NCT03975790|164688257|SUPERIORITY|||||||0.6962|||||||t-test|||||||0.6962
82498364|NCT03975790|164688258|SUPERIORITY|||||||0.8138|||||||t-test|||||||0.8138
82498365|NCT03975790|164688258|SUPERIORITY|||||||0.007|||||||t-test|||||||0.0070
82498366|NCT03975790|164688258|SUPERIORITY|||||||0.0358|||||||t-test|||||||0.0358
82498367|NCT03975790|164688259|SUPERIORITY|||||||0.8453|||||||t-test|||||||0.8453
82498368|NCT03975790|164688259|SUPERIORITY|||||||0.4806|||||||t-test|||||||0.4806
82498369|NCT03975790|164688259|SUPERIORITY|||||||0.4809|||||||t-test|||||||0.4809
82498370|NCT03975790|164688260|SUPERIORITY|||||||0.3076|||||||t-test|||||||0.3076
82498371|NCT03975790|164688260|SUPERIORITY|||||||0.2509|||||||t-test|||||||0.2509
82498372|NCT03975790|164688260|SUPERIORITY|||||||0.7827|||||||t-test|||||||0.7827
82498373|NCT03975790|164688261|SUPERIORITY|||||||0.4261|||||||Chi-squared|||During Persistency||||0.4261
82498374|NCT03975790|164688261|SUPERIORITY|||||||0.5247|||||||Chi-squared|||During Persistency||||0.5247
82498375|NCT03975790|164688261|SUPERIORITY|||||||0.2809|||||||Chi-squared|||During Persistency||||0.2809
82498376|NCT03975790|164688261|SUPERIORITY|||||||0.1153|||||||Chi-squared|||Post Persistency||||0.1153
82498377|NCT03975790|164688261|SUPERIORITY|||||||0.1344|||||||Chi-squared|||Post Persistency||||0.1344
82498378|NCT03975790|164688261|SUPERIORITY|||||||0.8229|||||||Chi-squared|||Post Persistency||||0.8229
82498379|NCT03975790|164688262|SUPERIORITY|||||||0.7816|||||||Chi-squared|||During Persistency||||0.7816
82498380|NCT03975790|164688262|SUPERIORITY|||||||0.7124|||||||Chi-squared|||During Persistency||||0.7124
82498381|NCT03975790|164688262|SUPERIORITY|||||||0.6148|||||||Chi-squared|||During Persistency||||0.6148
82498382|NCT03975790|164688262|SUPERIORITY|||||||0.4876|||||||Chi-squared|||Post Persistency||||0.4876
82498383|NCT03975790|164688262|SUPERIORITY|||||||0.7826|||||||Chi-squared|||Post Persistency||||0.7826
82498384|NCT03975790|164688262|SUPERIORITY|||||||0.8337|||||||Chi-squared|||Post Persistency||||0.8337
82498385|NCT03975790|164688263|SUPERIORITY|||||||0.1344|||||||Chi-squared|||||||0.1344
82498386|NCT03975790|164688263|SUPERIORITY|||||||0.0095|||||||Chi-squared|||||||0.0095
82498387|NCT03975790|164688263|SUPERIORITY|||||||0.1406|||||||Chi-squared|||||||0.1406
82498388|NCT03975790|164688264|SUPERIORITY|||||||0.9379|||||||Chi-squared|||||||0.9379
82498389|NCT03975790|164688264|SUPERIORITY|||||||0.3025|||||||Chi-squared|||||||0.3025
82498390|NCT03975790|164688264|SUPERIORITY|||||||0.3388|||||||Chi-squared|||||||0.3388
82498391|NCT03975790|164688265|SUPERIORITY|||||||0.8205|||||||t-test|||||||0.8205
82498392|NCT03975790|164688265|SUPERIORITY|||||||0.0467|||||||t-test|||||||0.0467
82498393|NCT03975790|164688265|SUPERIORITY|||||||0.1083|||||||t-test|||||||0.1083
82498394|NCT03975790|164688266|SUPERIORITY|||||||0.8899|||||||t-test|||||||0.8899
82498395|NCT03975790|164688266|SUPERIORITY|||||||0.6183|||||||t-test|||||||0.6183
82498396|NCT03975790|164688266|SUPERIORITY|||||||0.6496|||||||t-test|||||||0.6496
82498397|NCT03975790|164688267|SUPERIORITY|||||||0.5027|||||||t-test|||||||0.5027
82498398|NCT03975790|164688267|SUPERIORITY|||||||0.2375|||||||t-test|||||||0.2375
82498399|NCT03975790|164688267|SUPERIORITY|||||||0.5577|||||||t-test|||||||0.5577
82498400|NCT03975790|164688268|SUPERIORITY|||||||0.6908|||||||t-test|||||||0.6908
82498401|NCT03975790|164688268|SUPERIORITY|||||||0.0859|||||||t-test|||||||0.0859
82498402|NCT03975790|164688268|SUPERIORITY|||||||0.2764|||||||t-test|||||||0.2764
82498403|NCT03975790|164688269|SUPERIORITY|||||||0.1906|||||||t-test|||||||0.1906
82498404|NCT03975790|164688269|SUPERIORITY|||||||0.8744|||||||t-test|||||||0.8744
82498405|NCT03975790|164688269|SUPERIORITY|||||||0.3295|||||||t-test|||||||0.3295
82498406|NCT03975790|164688270|SUPERIORITY|||||||0.0056|||||||t-test|||All cause||||0.0056
82498407|NCT03975790|164688270|SUPERIORITY|||||||0.4222|||||||t-test|||All cause||||0.4222
82498408|NCT03975790|164688270|SUPERIORITY|||||||0.0041|||||||t-test|||All cause||||0.0041
82498409|NCT03975790|164688270|SUPERIORITY|||||||0.2277|||||||t-test|||RA related||||0.2277
82498410|NCT03975790|164688270|SUPERIORITY|||||||0.2812|||||||t-test|||RA related||||0.2812
82498411|NCT03975790|164688270|SUPERIORITY|||||||0.0772|||||||t-test|||RA related||||0.0772
82498412|NCT03975790|164688271|SUPERIORITY|||||||0.293|||||||t-test|||All cause||||0.2930
82498413|NCT03975790|164688271|SUPERIORITY|||||||0.439|||||||t-test|||All cause||||0.4390
82498414|NCT03975790|164688271|SUPERIORITY|||||||0.153|||||||t-test|||All cause||||0.1530
82498415|NCT03975790|164688271|SUPERIORITY|||||||0.9439|||||||t-test|||RA related||||0.9439
82498416|NCT03975790|164688271|SUPERIORITY|||||||0.4477|||||||t-test|||RA related||||0.4477
82498417|NCT03975790|164688271|SUPERIORITY|||||||0.4519|||||||t-test|||RA related||||0.4519
82498418|NCT03975790|164688272|SUPERIORITY|||||||0.9829|||||||Chi-squared|||Cardiovascular Disease||||0.9829
82498419|NCT03975790|164688272|SUPERIORITY|||||||0.8021|||||||Chi-squared|||Cardiovascular Disease||||0.8021
82498420|NCT03975790|164688272|SUPERIORITY|||||||0.8376|||||||Chi-squared|||Cardiovascular Disease||||0.8376
82498421|NCT03975790|164688272|SUPERIORITY|||||||0.5927|||||||Chi-squared|||COPD||||0.5927
82498422|NCT03975790|164688272|SUPERIORITY|||||||0.5202|||||||Chi-squared|||COPD||||0.5202
82498423|NCT03975790|164688272|SUPERIORITY|||||||0.8517|||||||Chi-squared|||COPD||||0.8517
82498424|NCT03975790|164688272|SUPERIORITY|||||||8.33|||||||Chi-squared|||Asthma||||8.33
82498425|NCT03975790|164688272|SUPERIORITY|||||||0.7483|||||||Chi-squared|||Asthma||||0.7483
82498426|NCT03975790|164688272|SUPERIORITY|||||||0.9713|||||||Chi-squared|||Asthma||||0.9713
82498427|NCT03975790|164688272|SUPERIORITY|||||||0.9148|||||||Chi-squared|||Kidney disease||||0.9148
82498428|NCT03975790|164688272|SUPERIORITY|||||||0.7248|||||||Chi-squared|||Kidney disease||||0.7248
82498429|NCT03975790|164688272|SUPERIORITY|||||||0.82|||||||Chi-squared|||Kidney disease||||0.8200
82498430|NCT03975790|164688272|SUPERIORITY|||||||0.9657|||||||Chi-squared|||Diabetes||||0.9657
82498431|NCT03975790|164688272|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Diabetes||||0.9255
82498432|NCT03975790|164688272|SUPERIORITY|||||||0.9575|||||||Chi-squared|||Diabetes||||0.9575
82498433|NCT03975790|164688272|SUPERIORITY|||||||0.941|||||||Chi-squared|||Depression||||0.9410
82498434|NCT03975790|164688272|SUPERIORITY|||||||0.9146|||||||Chi-squared|||Depression||||0.9146
82498435|NCT03975790|164688272|SUPERIORITY|||||||0.9641|||||||Chi-squared|||Depression||||0.9641
82498436|NCT03975790|164688272|SUPERIORITY|||||||0.2596|||||||Chi-squared|||Anxiety||||0.2596
82498437|NCT03975790|164688272|SUPERIORITY|||||||0.2228|||||||Chi-squared|||Anxiety||||0.2228
82498438|NCT03975790|164688272|SUPERIORITY|||||||0.7824|||||||Chi-squared|||Anxiety||||0.7824
82498439|NCT03975790|164688272|SUPERIORITY|||||||0.4184|||||||Chi-squared|||Liver disease||||0.4184
82498440|NCT03975790|164688272|SUPERIORITY|||||||0.4371|||||||Chi-squared|||Liver disease||||0.4371
82498441|NCT03975790|164688272|SUPERIORITY|||||||0.2074|||||||Chi-squared|||Liver disease||||0.2074
82498442|NCT03975790|164688272|SUPERIORITY|||||||0.785|||||||Chi-squared|||Sleep disorders||||0.7850
82498443|NCT03975790|164688272|SUPERIORITY|||||||0.1288|||||||Chi-squared|||Sleep disorders||||0.1288
82498444|NCT03975790|164688272|SUPERIORITY|||||||0.2839|||||||Chi-squared|||Sleep disorders||||0.2839
82498445|NCT03975790|164688273|SUPERIORITY|||||||0.2242|||||||Chi-squared|||||||0.2242
82498446|NCT03975790|164688273|SUPERIORITY|||||||0.0014|||||||Chi-squared|||||||0.0014
82498447|NCT03975790|164688273|SUPERIORITY|||||||0.0557|||||||Chi-squared|||||||0.0557
82498448|NCT03975790|164688274|SUPERIORITY|||||||0.5944|||||||Chi-squared|||Switch immediately||||0.5944
82498449|NCT03975790|164688274|SUPERIORITY|||||||0.9255|||||||Chi-squared|||Switch immediately||||0.9255
82498450|NCT03975790|164688274|SUPERIORITY|||||||0.7824|||||||Chi-squared|||Switch immediately||||0.7824
82498451|NCT03975790|164688274|SUPERIORITY|||||||0.3975|||||||Chi-squared|||Discontinue then switch||||0.3975
82498452|NCT03975790|164688274|SUPERIORITY|||||||0.0552|||||||Chi-squared|||Discontinue then switch||||0.0552
82498453|NCT03975790|164688274|SUPERIORITY|||||||0.3914|||||||Chi-squared|||Discontinue then switch||||0.3914
82498454|NCT03975790|164688274|SUPERIORITY|||||||0.2036|||||||Chi-squared|||Discontinue then restart||||0.2036
82498455|NCT03975790|164688274|SUPERIORITY|||||||0.1336|||||||Chi-squared|||Discontinue then restart||||0.1336
82498456|NCT03975790|164688274|SUPERIORITY|||||||0.7095|||||||Chi-squared|||Discontinue then restart||||0.7095
82498457|NCT03975790|164688274|SUPERIORITY|||||||0.2241|||||||Chi-squared|||Discontinue without switch or restart||||0.2241
82498458|NCT03975790|164688274|SUPERIORITY|||||||0.0024|||||||Chi-squared|||Discontinue without switch or restart||||0.0024
82498459|NCT03975790|164688274|SUPERIORITY|||||||0.1204|||||||Chi-squared|||Discontinue without switch or restart||||0.1204
82498460|NCT03975790|164688275|SUPERIORITY|||||||0.8424|||||||Chi-squared|||||||0.8424
82498461|NCT03975790|164688275|SUPERIORITY|||||||0.3278|||||||Chi-squared|||||||0.3278
82498462|NCT03975790|164688275|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
82498463|NCT03975790|164688276|SUPERIORITY|||||||0.2036|||||||Chi-squared|||||||0.2036
82498464|NCT03975790|164688276|SUPERIORITY|||||||0.1336|||||||Chi-squared|||||||0.1336
82498465|NCT03975790|164688276|SUPERIORITY|||||||0.7095|||||||Chi-squared|||||||0.7095
82498466|NCT03975790|164688278|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<0.0001
82498467|NCT03975790|164688278|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<.0001
82498468|NCT03975790|164688278|SUPERIORITY||||||<|0.0001|||||||t-test|||||||<.0001
82498469|NCT03975790|164688279|SUPERIORITY|||||||0.0309|||||||Chi-squared|||Leflunomide||||0.0309
82498470|NCT03975790|164688279|SUPERIORITY|||||||0.9978|||||||Chi-squared|||Leflunomide||||0.9978
82498471|NCT03975790|164688279|SUPERIORITY|||||||0.2629|||||||Chi-squared|||Leflunomide||||0.2629
82498472|NCT03975790|164688279|SUPERIORITY|||||||0.0225|||||||Chi-squared|||Sulfasalazine||||0.0225
82498473|NCT03975790|164688279|SUPERIORITY|||||||0.4456|||||||Chi-squared|||Sulfasalazine||||0.4456
82498474|NCT03975790|164688279|SUPERIORITY|||||||0.5065|||||||Chi-squared|||Sulfasalazine||||0.5065
82498475|NCT03975790|164688279|SUPERIORITY|||||||0.6617|||||||Chi-squared|||Hydroxychloroquine||||0.6617
82498476|NCT03975790|164688279|SUPERIORITY|||||||0.7309|||||||Chi-squared|||Hydroxychloroquine||||0.7309
82498477|NCT03975790|164688279|SUPERIORITY|||||||0.9861|||||||Chi-squared|||Hydroxychloroquine||||0.9861
82498478|NCT03975790|164688280|SUPERIORITY|||||||0.088|||||||Chi-squared|||||||0.0880
82498479|NCT03975790|164688280|SUPERIORITY||||||<|0.0001|||||||Chi-squared|||||||<0.0001
82498480|NCT03975790|164688280|SUPERIORITY|||||||0.0065|||||||Chi-squared|||||||0.0065
82498481|NCT03975790|164688281|SUPERIORITY|||||||0.5157|||||||Chi-squared|||||||0.5157
82498482|NCT03975790|164688281|SUPERIORITY|||||||0.1231|||||||Chi-squared|||||||0.1231
82498483|NCT03975790|164688281|SUPERIORITY|||||||0.2109|||||||Chi-squared|||||||0.2109
82498484|NCT03975790|164688282|SUPERIORITY|||||||0.8424|||||||Chi-squared|||||||0.8424
82498485|NCT03975790|164688282|SUPERIORITY|||||||0.3278|||||||Chi-squared|||||||0.3278
82498486|NCT03975790|164688282|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
82498487|NCT03975790|164688283|SUPERIORITY|||||||0.0654|||||||Chi-squared|||||||0.0654
82498488|NCT03975790|164688283|SUPERIORITY|||||||0.7315|||||||Chi-squared|||||||0.7315
82498489|NCT03975790|164688283|SUPERIORITY|||||||0.1897|||||||Chi-squared|||||||0.1897
82498490|NCT03975790|164688284|SUPERIORITY|||||||0.5146|||||||Chi-squared|||||||0.5146
82498491|NCT03975790|164688284|SUPERIORITY|||||||0.7121|||||||Chi-squared|||||||0.7121
82498492|NCT03975790|164688284|SUPERIORITY|||||||0.4434|||||||Chi-squared|||||||0.4434
82498493|NCT03975790|164688285|SUPERIORITY|||||||0.8966|||||||Chi-squared|||||||0.8966
82498494|NCT03975790|164688285|SUPERIORITY|||||||0.2105|||||||Chi-squared|||||||0.2105
82498495|NCT03975790|164688285|SUPERIORITY|||||||0.3336|||||||Chi-squared|||||||0.3336
82498496|NCT03975790|164688287|SUPERIORITY|||||||0.361|||||||Chi-squared|||||||0.3610
82498497|NCT03975790|164688287|SUPERIORITY|||||||0.4519|||||||Chi-squared|||||||0.4519
82498498|NCT03975790|164688287|SUPERIORITY|||||||0.9612|||||||Chi-squared|||||||0.9612
82498499|NCT03975790|164688288|SUPERIORITY|||||||0.8135|||||||Chi-squared|||||||0.8135
82498500|NCT03975790|164688288|SUPERIORITY|||||||0.591|||||||Chi-squared|||||||0.5910
82498501|NCT03975790|164688288|SUPERIORITY|||||||0.7635|||||||Chi-squared|||||||0.7635
82498502|NCT03975790|164688289|SUPERIORITY|||||||0.597|||||||Chi-squared|||||||0.5970
82498503|NCT03975790|164688289|SUPERIORITY|||||||0.7055|||||||Chi-squared|||||||0.7055
82498504|NCT03975790|164688290|SUPERIORITY|||||||0.5435|||||||Chi-squared|||||||0.5435
82498505|NCT03975790|164688290|SUPERIORITY|||||||0.679|||||||Chi-squared|||||||0.6790
82498506|NCT03975790|164688290|SUPERIORITY|||||||0.9676|||||||Chi-squared|||||||0.9676
82498507|NCT03975790|164688291|SUPERIORITY|||||||0.8035|||||||Chi-squared|||||||0.8035
82498508|NCT03975790|164688291|SUPERIORITY|||||||0.4184|||||||Chi-squared|||||||0.4184
82498509|NCT03975790|164688291|SUPERIORITY|||||||0.395|||||||Chi-squared|||||||0.3950
82498510|NCT03975790|164688293|SUPERIORITY|||||||0.7871|||||||Chi-squared|||||||0.7871
82498511|NCT03975790|164688293|SUPERIORITY|||||||0.0722|||||||Chi-squared|||||||0.0722
82498512|NCT03975790|164688293|SUPERIORITY|||||||0.181|||||||Chi-squared|||||||0.1810
82498513|NCT03975790|164688294|SUPERIORITY|||||||0.1984|||||||Chi-squared|||||||0.1984
82498514|NCT03975790|164688294|SUPERIORITY|||||||0.2043|||||||Chi-squared|||||||0.2043
82498515|NCT03975790|164688294|SUPERIORITY|||||||0.0439|||||||Chi-squared|||||||0.0439
82498516|NCT03975790|164688295|SUPERIORITY|||||||0.1702|||||||Chi-squared|||||||0.1702
82498517|NCT03975790|164688295|SUPERIORITY|||||||0.5926|||||||Chi-squared|||||||0.5926
82498518|NCT03975790|164688295|SUPERIORITY|||||||0.3088|||||||Chi-squared|||||||0.3088
82498519|NCT03975790|164688296|SUPERIORITY|||||||0.9141|||||||Chi-squared|||||||0.9141
82498520|NCT03975790|164688296|SUPERIORITY|||||||0.7623|||||||Chi-squared|||||||0.7623
82498521|NCT03975790|164688296|SUPERIORITY|||||||0.8517|||||||Chi-squared|||||||0.8517
82498522|NCT03975790|164688297|SUPERIORITY|||||||0.1208|||||||Chi-squared|||||||0.1208
82498523|NCT03975790|164688297|SUPERIORITY|||||||0.0425|||||||Chi-squared|||||||0.0425
82498524|NCT03975790|164688297|SUPERIORITY|||||||0.0046|||||||Chi-squared|||||||0.0046
82498525|NCT03975790|164688298|SUPERIORITY|||||||0.8698|||||||t-test|||||||0.8698
82498526|NCT03975790|164688298|SUPERIORITY|||||||0.7391|||||||t-test|||||||0.7391
82498527|NCT03975790|164688298|SUPERIORITY|||||||0.7043|||||||t-test|||||||0.7043
82498528|NCT03975790|164688299|SUPERIORITY|||||||0.0536|||||||t-test|||||||0.0536
82498529|NCT03975790|164688299|SUPERIORITY|||||||0.9313|||||||t-test|||||||0.9313
82498530|NCT03975790|164688299|SUPERIORITY|||||||0.374|||||||t-test|||||||0.3740
82498531|NCT03975790|164688300|SUPERIORITY|||||||0.6963|||||||t-test|||||||0.6963
82498532|NCT03975790|164688300|SUPERIORITY|||||||0.9816|||||||t-test|||||||0.9816
82498533|NCT03975790|164688300|SUPERIORITY|||||||0.8349|||||||t-test|||||||0.8349
82498534|NCT03975790|164688301|SUPERIORITY|||||||0.0003|||||||t-test|||||||0.0003
82498535|NCT03975790|164688301|SUPERIORITY|||||||0.9431|||||||t-test|||||||0.9431
82498536|NCT03975790|164688301|SUPERIORITY|||||||0.2964|||||||t-test|||||||0.2964
82498537|NCT03975790|164688302|SUPERIORITY|||||||0.2614|||||||t-test|||||||0.2614
82498538|NCT03975790|164688302|SUPERIORITY|||||||0.0014|||||||t-test|||||||0.0014
82498539|NCT03975790|164688302|SUPERIORITY|||||||0.0535|||||||t-test|||||||0.0535
82498540|NCT03975790|164688303|SUPERIORITY|||||||0.0051|||||||t-test|||1 months before index date||||0.0051
82498541|NCT03975790|164688303|SUPERIORITY|||||||0.3041|||||||t-test|||1 months before index date||||0.3041
82498542|NCT03975790|164688303|SUPERIORITY|||||||0.4432|||||||t-test|||1 months before index date||||0.4432
82498543|NCT03975790|164688303|SUPERIORITY|||||||0.8641|||||||t-test|||2 months before index date||||0.8641
82498544|NCT03975790|164688303|SUPERIORITY|||||||0.0435|||||||t-test|||2 months before index date||||0.0435
82498545|NCT03975790|164688303|SUPERIORITY|||||||0.153|||||||t-test|||2 months before index date||||0.1530
82498546|NCT03975790|164688303|SUPERIORITY|||||||0.1188|||||||t-test|||3 months before index date||||0.1188
82498547|NCT03975790|164688303|SUPERIORITY|||||||0.6807|||||||t-test|||3 months before index date||||0.6807
82498548|NCT03975790|164688303|SUPERIORITY|||||||0.1772|||||||t-test|||3 months before index date||||0.1772
82498549|NCT03975790|164688303|SUPERIORITY|||||||0.6104|||||||t-test|||4 months before index date||||0.6104
82498550|NCT03975790|164688303|SUPERIORITY|||||||0.9564|||||||t-test|||4 months before index date||||0.9564
82498551|NCT03975790|164688303|SUPERIORITY|||||||0.7688|||||||t-test|||4 months before index date||||0.7688
82498552|NCT03975790|164688303|SUPERIORITY|||||||0.5685|||||||t-test|||5 months before index date||||0.5685
82498553|NCT03975790|164688303|SUPERIORITY|||||||0.5122|||||||t-test|||5 months before index date||||0.5122
82498554|NCT03975790|164688303|SUPERIORITY|||||||0.4321|||||||t-test|||5 months before index date||||0.4321
82498555|NCT03975790|164688303|SUPERIORITY|||||||0.7892|||||||t-test|||6 months before index date||||0.7892
82498556|NCT03975790|164688303|SUPERIORITY|||||||0.2874|||||||t-test|||6 months before index date||||0.2874
82498557|NCT03975790|164688303|SUPERIORITY|||||||0.2662|||||||t-test|||6 months before index date||||0.2662
82498558|NCT03975790|164688303|SUPERIORITY|||||||0.3091|||||||t-test|||7 months before index date||||0.3091
82498559|NCT03975790|164688303|SUPERIORITY|||||||0.5783|||||||t-test|||7 months before index date||||0.5783
82498560|NCT03975790|164688303|SUPERIORITY|||||||0.4021|||||||t-test|||7 months before index date||||0.4021
82498561|NCT03975790|164688303|SUPERIORITY|||||||0.767|||||||t-test|||8 months before index date||||0.7670
82498562|NCT03975790|164688303|SUPERIORITY|||||||0.6978|||||||t-test|||8 months before index date||||0.6978
82498563|NCT03975790|164688303|SUPERIORITY|||||||0.6328|||||||t-test|||8 months before index date||||0.6328
82498564|NCT03975790|164688303|SUPERIORITY|||||||0.0541|||||||t-test|||9 months before index date||||0.0541
82498565|NCT03975790|164688303|SUPERIORITY|||||||0.6999|||||||t-test|||9 months before index date||||0.6999
82498566|NCT03975790|164688303|SUPERIORITY|||||||0.359|||||||t-test|||9 months before index date||||0.3590
82498567|NCT03975790|164688303|SUPERIORITY|||||||0.936|||||||t-test|||10 months before index date||||0.9360
82498568|NCT03975790|164688303|SUPERIORITY|||||||0.626|||||||t-test|||10 months before index date||||0.6260
82498569|NCT03975790|164688303|SUPERIORITY|||||||0.7797|||||||t-test|||10 months before index date||||0.7797
82498570|NCT03975790|164688303|SUPERIORITY|||||||0.0934|||||||t-test|||11 months before index date||||0.0934
82498571|NCT03975790|164688303|SUPERIORITY|||||||0.396|||||||t-test|||11 months before index date||||0.3960
82498572|NCT03975790|164688303|SUPERIORITY|||||||0.4292|||||||t-test|||11 months before index date||||0.4292
82498573|NCT03975790|164688303|SUPERIORITY|||||||0.854|||||||t-test|||12 months before index date||||0.8540
82498574|NCT03975790|164688303|SUPERIORITY|||||||0.96|||||||t-test|||12 months before index date||||0.9600
82498575|NCT03975790|164688303|SUPERIORITY|||||||0.9374|||||||t-test|||12 months before index date||||0.9374
82498576|NCT03975790|164688303|SUPERIORITY|||||||0.6674|||||||t-test|||1 month after index date||||0.6674
82498577|NCT03975790|164688303|SUPERIORITY|||||||0.0776|||||||t-test|||1 month after index date||||0.0776
82498578|NCT03975790|164688303|SUPERIORITY|||||||0.335|||||||t-test|||1 month after index date||||0.3350
82498579|NCT03975790|164688303|SUPERIORITY|||||||0.8461|||||||t-test|||2 month after index date||||0.8461
82498580|NCT03975790|164688303|SUPERIORITY|||||||0.8111|||||||t-test|||2 month after index date||||0.8111
82498581|NCT03975790|164688303|SUPERIORITY|||||||0.7267|||||||t-test|||2 month after index date||||0.7267
82498582|NCT03975790|164688303|SUPERIORITY|||||||0.2453|||||||t-test|||3 month after index date||||0.2453
82498583|NCT03975790|164688303|SUPERIORITY|||||||0.5889|||||||t-test|||3 month after index date||||0.5889
82498584|NCT03975790|164688303|SUPERIORITY|||||||0.4162|||||||t-test|||3 month after index date||||0.4162
82498585|NCT03975790|164688303|SUPERIORITY|||||||0.0307|||||||t-test|||4 month after index date||||0.0307
82498586|NCT03975790|164688303|SUPERIORITY|||||||0.1147|||||||t-test|||4 month after index date||||0.1147
82498587|NCT03975790|164688303|SUPERIORITY|||||||0.9481|||||||t-test|||4 month after index date||||0.9481
82498588|NCT03975790|164688303|SUPERIORITY|||||||0.4455|||||||t-test|||5 month after index date||||0.4455
82498589|NCT03975790|164688303|SUPERIORITY|||||||0.9445|||||||t-test|||5 month after index date||||0.9445
82498590|NCT03975790|164688303|SUPERIORITY|||||||0.6191|||||||t-test|||5 month after index date||||0.6191
82498591|NCT03975790|164688303|SUPERIORITY|||||||0.0805|||||||t-test|||6 month after index date||||0.0805
82498592|NCT03975790|164688303|SUPERIORITY|||||||0.7037|||||||t-test|||6 month after index date||||0.7037
82498593|NCT03975790|164688303|SUPERIORITY|||||||0.4288|||||||t-test|||6 month after index date||||0.4288
82498594|NCT03975790|164688303|SUPERIORITY|||||||0.3731|||||||t-test|||7 month after index date||||0.3731
82498595|NCT03975790|164688303|SUPERIORITY|||||||0.4803|||||||t-test|||7 month after index date||||0.4803
82498596|NCT03975790|164688303|SUPERIORITY|||||||0.5831|||||||t-test|||7 month after index date||||0.5831
82498597|NCT03975790|164688303|SUPERIORITY|||||||0.0944|||||||t-test|||8 month after index date||||0.0944
82498598|NCT03975790|164688303|SUPERIORITY|||||||0.88|||||||t-test|||8 month after index date||||0.8800
82498599|NCT03975790|164688303|SUPERIORITY|||||||0.4949|||||||t-test|||8 month after index date||||0.4949
82498600|NCT03975790|164688303|SUPERIORITY|||||||0.6373|||||||t-test|||9 month after index date||||0.6373
82498601|NCT03975790|164688303|SUPERIORITY|||||||0.0497|||||||t-test|||9 month after index date||||0.0497
82498602|NCT03975790|164688303|SUPERIORITY|||||||0.1695|||||||t-test|||9 month after index date||||0.1695
82498603|NCT03975790|164688303|SUPERIORITY|||||||0.6373|||||||t-test|||10 month after index date||||0.6373
82498604|NCT03975790|164688303|SUPERIORITY|||||||0.7866|||||||t-test|||10 month after index date||||0.7866
82498605|NCT03975790|164688303|SUPERIORITY|||||||0.7643|||||||t-test|||10 months after index date||||0.7643
82498606|NCT03975790|164688303|SUPERIORITY|||||||0.2307|||||||t-test|||11 month after index date||||0.2307
82498607|NCT03975790|164688303|SUPERIORITY|||||||0.6712|||||||t-test|||11 month after index date||||0.6712
82498608|NCT03975790|164688303|SUPERIORITY|||||||0.6953|||||||t-test|||11 months after index date||||0.6953
82498609|NCT03975790|164688303|SUPERIORITY|||||||0.3675|||||||t-test|||12 month after index date||||0.3675
82498610|NCT03975790|164688303|SUPERIORITY|||||||0.8027|||||||t-test|||12 month after index date||||0.8027
82498611|NCT03975790|164688303|SUPERIORITY|||||||0.4817|||||||t-test|||12 month after index date||||0.4817
82498612|NCT03975790|164688304|SUPERIORITY|||||||0.0063|||||||t-test|||1 month before index date||||0.0063
82498613|NCT03975790|164688304|SUPERIORITY|||||||0.0162|||||||t-test|||1 month before index date||||0.0162
82498614|NCT03975790|164688304|SUPERIORITY|||||||0.8715|||||||t-test|||1 month before index date||||0.8715
82498615|NCT03975790|164688304|SUPERIORITY|||||||0.2799|||||||t-test|||2 months before index date||||0.2799
82498616|NCT03975790|164688304|SUPERIORITY|||||||0.0126|||||||t-test|||2 months before index date||||0.0126
82498617|NCT03975790|164688304|SUPERIORITY|||||||0.2126|||||||t-test|||2 months before index date||||0.2126
82498618|NCT03975790|164688304|SUPERIORITY|||||||0.7004|||||||t-test|||3 months before index date||||0.7004
82498619|NCT03975790|164688304|SUPERIORITY|||||||0.1476|||||||t-test|||3 months before index date||||0.1476
82498620|NCT03975790|164688304|SUPERIORITY|||||||0.2057|||||||t-test|||3 months before index date||||0.2057
82498621|NCT03975790|164688304|SUPERIORITY|||||||0.2905|||||||t-test|||4 months before index date||||0.2905
82498622|NCT03975790|164688304|SUPERIORITY|||||||0.8273|||||||t-test|||4 months before index date||||0.8273
82498623|NCT03975790|164688304|SUPERIORITY|||||||0.627|||||||t-test|||4 months before index date||||0.6270
82498624|NCT03975790|164688304|SUPERIORITY|||||||0.3256|||||||t-test|||5 months before index date||||0.3256
82498625|NCT03975790|164688304|SUPERIORITY|||||||0.5631|||||||t-test|||5 months before index date||||0.5631
82498626|NCT03975790|164688304|SUPERIORITY|||||||0.4491|||||||t-test|||5 months before index date||||0.4491
82498627|NCT03975790|164688304|SUPERIORITY|||||||0.2009|||||||t-test|||6 months before index date||||0.2009
82498628|NCT03975790|164688304|SUPERIORITY|||||||0.3011|||||||t-test|||6 months before index date||||0.3011
82498629|NCT03975790|164688304|SUPERIORITY|||||||0.2065|||||||t-test|||6 months before index date||||0.2065
82498630|NCT03975790|164688304|SUPERIORITY|||||||0.6098|||||||t-test|||7 months before index date||||0.6098
82498631|NCT03975790|164688304|SUPERIORITY|||||||0.2586|||||||t-test|||7 months before index date||||0.2586
82498632|NCT03975790|164688304|SUPERIORITY|||||||0.4074|||||||t-test|||7 months before index date||||0.4074
82498633|NCT03975790|164688304|SUPERIORITY|||||||0.0345|||||||t-test|||8 months before index date||||0.0345
82498634|NCT03975790|164688304|SUPERIORITY|||||||0.4377|||||||t-test|||8 months before index date||||0.4377
82498635|NCT03975790|164688304|SUPERIORITY|||||||0.7191|||||||t-test|||8 months before index date||||0.7191
82498636|NCT03975790|164688304|SUPERIORITY|||||||0.0199|||||||t-test|||9 months before index date||||0.0199
82498637|NCT03975790|164688304|SUPERIORITY|||||||0.1032|||||||t-test|||9 months before index date||||0.1032
82498638|NCT03975790|164688304|SUPERIORITY|||||||0.904|||||||t-test|||9 months before index date||||0.9040
82498639|NCT03975790|164688304|SUPERIORITY|||||||0.0316|||||||t-test|||10 months before index date||||0.0316
82498640|NCT03975790|164688304|SUPERIORITY|||||||0.6748|||||||t-test|||10 months before index date||||0.6748
82498641|NCT03975790|164688304|SUPERIORITY|||||||0.2679|||||||t-test|||10 months before index date||||0.2679
82498642|NCT03975790|164688304|SUPERIORITY|||||||0.501|||||||t-test|||11 months before index date||||0.5010
82498643|NCT03975790|164688304|SUPERIORITY|||||||0.3228|||||||t-test|||11 months before index date||||0.3228
82498644|NCT03975790|164688304|SUPERIORITY|||||||0.7881|||||||t-test|||11 months before index date||||0.7881
82498645|NCT03975790|164688304|SUPERIORITY|||||||0.0876|||||||t-test|||12 months before index date||||0.0876
82498646|NCT03975790|164688304|SUPERIORITY|||||||0.1226|||||||t-test|||12 months before index date||||0.1226
82498647|NCT03975790|164688304|SUPERIORITY|||||||0.9753|||||||t-test|||12 months before index date||||0.9753
82498648|NCT03975790|164688304|SUPERIORITY|||||||0.0336|||||||t-test|||1 month after index date||||0.0336
82498649|NCT03975790|164688304|SUPERIORITY|||||||0.2551|||||||t-test|||1 month after index date||||0.2551
82498650|NCT03975790|164688304|SUPERIORITY|||||||0.6189|||||||t-test|||1 month after index date||||0.6189
82498651|NCT03975790|164688304|SUPERIORITY|||||||0.7051|||||||t-test|||2 months after index date||||0.7051
82498652|NCT03975790|164688304|SUPERIORITY|||||||0.9775|||||||t-test|||2 months after index date||||0.9775
82498653|NCT03975790|164688304|SUPERIORITY|||||||0.7643|||||||t-test|||2 months after index date||||0.7643
82498654|NCT03975790|164688304|SUPERIORITY|||||||0.2953|||||||t-test|||3 months after index date||||0.2953
82498655|NCT03975790|164688304|SUPERIORITY|||||||0.6257|||||||t-test|||3 months after index date||||0.6257
82498656|NCT03975790|164688304|SUPERIORITY|||||||0.4753|||||||t-test|||3 months after index date||||0.4753
82498657|NCT03975790|164688304|SUPERIORITY|||||||0.0926|||||||t-test|||4 months after index date||||0.0926
82498658|NCT03975790|164688304|SUPERIORITY|||||||0.0013|||||||t-test|||4 months after index date||||0.0013
82498659|NCT03975790|164688304|SUPERIORITY|||||||0.0065|||||||t-test|||4 months after index date||||0.0065
82498660|NCT03975790|164688304|SUPERIORITY|||||||0.2212|||||||t-test|||5 months after index date||||0.2212
82498661|NCT03975790|164688304|SUPERIORITY|||||||0.9688|||||||t-test|||5 months after index date||||0.9688
82498662|NCT03975790|164688304|SUPERIORITY|||||||0.5647|||||||t-test|||5 months after index date||||0.5647
82498663|NCT03975790|164688304|SUPERIORITY|||||||0.0023|||||||t-test|||6 months after index date||||0.0023
82498664|NCT03975790|164688304|SUPERIORITY|||||||0.1142|||||||t-test|||6 months after index date||||0.1142
82498665|NCT03975790|164688304|SUPERIORITY|||||||0.3842|||||||t-test|||6 months after index date||||0.3842
82498666|NCT03975790|164688304|SUPERIORITY|||||||0.9097|||||||t-test|||7 months after index date||||0.9097
82498667|NCT03975790|164688304|SUPERIORITY|||||||0.3885|||||||t-test|||7 months after index date||||0.3885
82498668|NCT03975790|164688304|SUPERIORITY|||||||0.3834|||||||t-test|||7 months after index date||||0.3834
82498669|NCT03975790|164688304|SUPERIORITY|||||||0.3075|||||||t-test|||8 months after index date||||0.3075
82498670|NCT03975790|164688304|SUPERIORITY|||||||0.9075|||||||t-test|||8 months after index date||||0.9075
82498671|NCT03975790|164688304|SUPERIORITY|||||||0.5993|||||||t-test|||8 months after index date||||0.5993
82498672|NCT03975790|164688304|SUPERIORITY|||||||0.0775|||||||t-test|||9 months after index date||||0.0775
82498673|NCT03975790|164688304|SUPERIORITY|||||||0.1536|||||||t-test|||9 months after index date||||0.1536
82498674|NCT03975790|164688304|SUPERIORITY|||||||0.8553|||||||t-test|||9 months after index date||||0.8553
82498675|NCT03975790|164688304|SUPERIORITY|||||||0.6295|||||||t-test|||10 months after index date||||0.6295
82498676|NCT03975790|164688304|SUPERIORITY|||||||0.0551|||||||t-test|||10 months after index date||||0.0551
82498677|NCT03975790|164688304|SUPERIORITY|||||||0.2215|||||||t-test|||10 months after index date||||0.2215
82498678|NCT03975790|164688304|SUPERIORITY|||||||0.1948|||||||t-test|||11 months after index date||||0.1948
82498679|NCT03975790|164688304|SUPERIORITY|||||||0.6621|||||||t-test|||11 months after index date||||0.6621
82498680|NCT03975790|164688304|SUPERIORITY|||||||0.6629|||||||t-test|||11 months after index date||||0.6629
82498681|NCT03975790|164688304|SUPERIORITY|||||||0.5699|||||||t-test|||12 months after index date||||0.5699
82498682|NCT03975790|164688304|SUPERIORITY|||||||0.7105|||||||t-test|||12 months after index date||||0.7105
82498683|NCT03975790|164688304|SUPERIORITY|||||||0.5965|||||||t-test|||12 months after index date||||0.5965
82498684|NCT01577329|164688311|SUPERIORITY_OR_OTHER|||||||0.05||||||This is a calculated P value and was not adjusted for multiple comparisons.|ANOVA|||This is a calculated P value comparing two groups at baseline and follow-up||||0.05
82498685|NCT01059825|164688319|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.45||||0.002|TWO_SIDED|80.0|-0.65|-0.25||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.25|-0.65|0.002
82498686|NCT01059825|164688319|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.69||||0|TWO_SIDED|80.0|-0.89|-0.49||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.49|-0.89|0.000
82498687|NCT01059825|164688319|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.62||||0|TWO_SIDED|80.0|-0.82|-0.42||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.42|-0.82|0.000
82498688|NCT01059825|164688319|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.72||||0|TWO_SIDED|80.0|-0.93|-0.52||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||The null hypothesis is that there is no difference between ertugliflozin and placebo on the primary endpoint.||-0.52|-0.93|0.000
82498689|NCT01059825|164688319|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0|TWO_SIDED|80.0|-0.97|-0.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.56|-0.97|0.000
82498690|NCT01059825|164688320|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.13||||0.049|TWO_SIDED|80.0|-0.24|-0.03||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.03|-0.24|0.049
82498691|NCT01059825|164688320|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.29||||0|TWO_SIDED|80.0|-0.39|-0.18||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.18|-0.39|0.000
82498692|NCT01059825|164688320|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.22||||0.004|TWO_SIDED|80.0|-0.32|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-0.32|0.004
82498693|NCT01059825|164688320|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.17||||0.02|TWO_SIDED|80.0|-0.27|-0.06||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.06|-0.27|0.020
82498694|NCT01059825|164688320|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.25||||0.001|TWO_SIDED|80.0|-0.36|-0.15||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.15|-0.36|0.001
82498695|NCT01059825|164688321|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0|TWO_SIDED|80.0|-0.5|-0.23||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.23|-0.50|0.000
82498696|NCT01059825|164688321|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.45||||0|TWO_SIDED|80.0|-0.59|-0.32||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.32|-0.59|0.000
82498697|NCT01059825|164688321|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.44||||0|TWO_SIDED|80.0|-0.57|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.57|0.000
82498698|NCT01059825|164688321|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.36||||0|TWO_SIDED|80.0|-0.49|-0.22||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.22|-0.49|0.000
82498699|NCT01059825|164688321|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.44||||0|TWO_SIDED|80.0|-0.57|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.57|0.000
82498700|NCT01059825|164688322|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.47||||0|TWO_SIDED|80.0|-0.64|-0.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-0.64|0.000
82498701|NCT01059825|164688322|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.66||||0|TWO_SIDED|80.0|-0.83|-0.49||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.49|-0.83|0.000
82498702|NCT01059825|164688322|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.63||||0|TWO_SIDED|80.0|-0.8|-0.45||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.45|-0.80|0.000
82498703|NCT01059825|164688322|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.65||||0|TWO_SIDED|80.0|-0.82|-0.47||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.47|-0.82|0.000
82498704|NCT01059825|164688322|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.67||||0|TWO_SIDED|80.0|-0.84|-0.5||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.50|-0.84|0.000
82498705|NCT01059825|164688324|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.15||||0.007|TWO_SIDED|80.0|-1.75|-0.55||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.55|-1.75|0.007
82498706|NCT01059825|164688324|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.75||||0|TWO_SIDED|80.0|-2.35|-1.14||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.14|-2.35|0.000
82498707|NCT01059825|164688324|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.15||||0|TWO_SIDED|80.0|-2.76|-1.54||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.54|-2.76|0.000
82498708|NCT01059825|164688324|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.91||||0|TWO_SIDED|80.0|-2.52|-1.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.30|-2.52|0.000
82498709|NCT01059825|164688324|SUPERIORITY_OR_OTHER||Difference in least squares means|0.45||||0.833|TWO_SIDED|80.0|-0.15|1.06||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.06|-0.15|0.833
82498710|NCT01059825|164688325|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.42||||0.043|TWO_SIDED|80.0|-0.73|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-0.73|0.043
82498711|NCT01059825|164688325|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.13||||0|TWO_SIDED|80.0|-1.44|-0.81||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.81|-1.44|0.000
82498712|NCT01059825|164688325|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.9||||0|TWO_SIDED|80.0|-1.22|-0.59||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.59|-1.22|0.000
82498713|NCT01059825|164688325|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.87||||0|TWO_SIDED|80.0|-1.18|-0.55||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.55|-1.18|0.000
82498714|NCT01059825|164688325|SUPERIORITY_OR_OTHER||Difference in least squares means|0.45||||0.967|TWO_SIDED|80.0|0.14|0.76||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.76|0.14|0.967
82498715|NCT01059825|164688326|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0.008|TWO_SIDED|80.0|-1.17|-0.36||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.36|-1.17|0.008
82498716|NCT01059825|164688326|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.32||||0|TWO_SIDED|80.0|-1.73|-0.91||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.91|-1.73|0.000
82498717|NCT01059825|164688326|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.24||||0|TWO_SIDED|80.0|-1.65|-0.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.83|-1.65|0.000
82498718|NCT01059825|164688326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|-1.08||||0|TWO_SIDED|80.0|-1.49|-0.67||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward..||||-0.67|-1.49|0.000
82498719|NCT01059825|164688326|SUPERIORITY_OR_OTHER||Odds Ratio (OR)|0.45||||0.922|TWO_SIDED|80.0|0.04|0.86||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.86|0.04|0.922
82498720|NCT01059825|164688327|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.03||||0.003|TWO_SIDED|80.0|-1.51|-0.56||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.56|-1.51|0.003
82498721|NCT01059825|164688327|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.57||||0|TWO_SIDED|80.0|-2.04|-1.09||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.09|-2.04|0.000
82498722|NCT01059825|164688327|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.68||||0|TWO_SIDED|80.0|-2.16|-1.21||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.21|-2.16|0.000
82498723|NCT01059825|164688327|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.78||||0|TWO_SIDED|80.0|-2.26|-1.3||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.30|-2.26|0.000
82498724|NCT01059825|164688327|SUPERIORITY_OR_OTHER||Difference in least squares means|0.24||||0.741|TWO_SIDED|80.0|-0.24|0.71||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.71|-0.24|0.741
82498725|NCT01059825|164688329|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.13||||0.163|TWO_SIDED|80.0|-4.92|0.65||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.65|-4.92|0.163
82498726|NCT01059825|164688329|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.48||||0.056|TWO_SIDED|80.0|-6.28|-0.68||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.68|-6.28|0.056
82498727|NCT01059825|164688329|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.88||||0.096|TWO_SIDED|80.0|-5.7|-0.05||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.05|-5.70|0.096
82498728|NCT01059825|164688329|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.37||||0.064|TWO_SIDED|80.0|-6.21|-0.53||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.53|-6.21|0.064
82498729|NCT01059825|164688329|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.54||||0.403|TWO_SIDED|80.0|-3.33|2.26||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.26|-3.33|0.403
82498730|NCT01059825|164688330|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.37||||0.425|TWO_SIDED|80.0|-2.91|2.17||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.17|-2.91|0.425
82498731|NCT01059825|164688330|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.81||||0.082|TWO_SIDED|80.0|-5.38|-0.23||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.23|-5.38|0.082
82498732|NCT01059825|164688330|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.35||||0.43|TWO_SIDED|80.0|-2.92|2.21||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.21|-2.92|0.430
82498733|NCT01059825|164688330|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.47||||0.043|TWO_SIDED|80.0|-6.05|-0.89||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.89|-6.05|0.043
82498734|NCT01059825|164688330|SUPERIORITY_OR_OTHER||Difference in least squares means|1.01||||0.694|TWO_SIDED|80.0|-1.55|3.58||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||3.58|-1.55|0.694
82498735|NCT01059825|164688331|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.38||||0.234|TWO_SIDED|80.0|-3.81|1.05||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.05|-3.81|0.234
82498736|NCT01059825|164688331|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.59||||0.087|TWO_SIDED|80.0|-5.03|-0.14||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.14|-5.03|0.087
82498737|NCT01059825|164688331|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.86||||0.068|TWO_SIDED|80.0|-5.33|-0.4||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.40|-5.33|0.068
82498738|NCT01059825|164688331|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.77||||0.346|TWO_SIDED|80.0|-3.25|1.71||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.71|-3.25|0.346
82498739|NCT01059825|164688331|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.76||||0.346|TWO_SIDED|80.0|-3.21|1.7||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.70|-3.21|0.346
82498740|NCT01059825|164688332|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.1||||0.306|TWO_SIDED|80.0|-3.87|1.67||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.67|-3.87|0.306
82498741|NCT01059825|164688332|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.41||||0.133|TWO_SIDED|80.0|-5.19|0.37||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.37|-5.19|0.133
82498742|NCT01059825|164688332|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.61||||0.117|TWO_SIDED|80.0|-5.42|0.2||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.20|-5.42|0.117
82498743|NCT01059825|164688332|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.87||||0.097|TWO_SIDED|80.0|-5.69|-0.04||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.04|-5.69|0.097
82498744|NCT01059825|164688332|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.0||||0.179|TWO_SIDED|80.0|-4.78|0.79||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.79|-4.78|0.179
82498745|NCT01059825|164688334|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.93||||0.072|TWO_SIDED|80.0|-3.62|-0.24||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.24|-3.62|0.072
82498746|NCT01059825|164688334|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.81||||0.086|TWO_SIDED|80.0|-3.51|-0.11||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.11|-3.51|0.086
82498747|NCT01059825|164688334|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.99||||0.002|TWO_SIDED|80.0|-5.71|-2.27||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-2.27|-5.71|0.002
82498748|NCT01059825|164688334|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.64||||0.025|TWO_SIDED|80.0|-4.37|-0.92||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.92|-4.37|0.025
82498749|NCT01059825|164688334|SUPERIORITY_OR_OTHER||Difference in least squares means|0.88||||0.746|TWO_SIDED|80.0|-0.82|2.58||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||2.58|-0.82|0.746
82498750|NCT01059825|164688335|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.69||||0.289|TWO_SIDED|80.0|-2.27|0.9||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.90|-2.27|0.289
82498751|NCT01059825|164688335|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.7||||0.288|TWO_SIDED|80.0|-2.31|0.91||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.91|-2.31|0.288
82498752|NCT01059825|164688335|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.41||||0.13|TWO_SIDED|80.0|-3.01|0.19||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.19|-3.01|0.130
82498753|NCT01059825|164688335|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.44||||0.026|TWO_SIDED|80.0|-4.05|-0.84||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.84|-4.05|0.026
82498754|NCT01059825|164688335|SUPERIORITY_OR_OTHER||Difference in least squares means|1.49||||0.883|TWO_SIDED|80.0|-0.11|3.08||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||3.08|-0.11|0.883
82498755|NCT01059825|164688336|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.67||||0.063|TWO_SIDED|80.0|-3.07|-0.27||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.27|-3.07|0.063
82498756|NCT01059825|164688336|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.29||||0.019|TWO_SIDED|80.0|-3.69|-0.88||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.88|-3.69|0.019
82498757|NCT01059825|164688336|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.01||||0.035|TWO_SIDED|80.0|-3.43|-0.59||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.59|-3.43|0.035
82498758|NCT01059825|164688336|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.3||||0.121|TWO_SIDED|80.0|-2.73|0.12||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.12|-2.73|0.121
82498759|NCT01059825|164688336|SUPERIORITY_OR_OTHER||Difference in least squares means|0.29||||0.602|TWO_SIDED|80.0|-1.13|1.7||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.70|-1.13|0.602
82498760|NCT01059825|164688337|SUPERIORITY_OR_OTHER||Difference in least squares means|-2.2||||0.045|TWO_SIDED|80.0|-3.86|-0.54||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.54|-3.86|0.045
82498761|NCT01059825|164688337|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.49||||0.126|TWO_SIDED|80.0|-3.16|0.18||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||0.18|-3.16|0.126
82498762|NCT01059825|164688337|SUPERIORITY_OR_OTHER||Difference in least squares means|-3.03||||0.011|TWO_SIDED|80.0|-4.72|-1.34||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-1.34|-4.72|0.011
82498763|NCT01059825|164688337|SUPERIORITY_OR_OTHER||Difference in least squares means|-1.99||||0.066|TWO_SIDED|80.0|-3.69|-0.3||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-0.30|-3.69|0.066
82498764|NCT01059825|164688337|SUPERIORITY_OR_OTHER||Difference in least squares means|-0.48||||0.357|TWO_SIDED|80.0|-2.15|1.19||P-value is one-sided.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||1.19|-2.15|0.357
82498765|NCT01059825|164688339|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.99||||0|TWO_SIDED|80.0|-28.29|-13.69||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.69|-28.29|0.000
82498766|NCT01059825|164688339|SUPERIORITY_OR_OTHER||Difference in least squares means|-25.82||||0|TWO_SIDED|80.0|-33.17|-18.47||P-value is one-sided.P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-18.47|-33.17|0.000
82498767|NCT01059825|164688339|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.23||||0|TWO_SIDED|80.0|-41.64|-26.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-26.83|-41.64|0.000
82498768|NCT01059825|164688339|SUPERIORITY_OR_OTHER||Difference in least squares means|-32.02||||0|TWO_SIDED|80.0|-39.49|-24.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.56|-39.49|0.000
82498769|NCT01059825|164688339|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.05||||0|TWO_SIDED|80.0|-27.39|-12.72||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-12.72|-27.39|0.000
82498770|NCT01059825|164688340|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.96||||0|TWO_SIDED|80.0|-28.58|-13.34||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.34|-28.58|0.000
82498771|NCT01059825|164688340|SUPERIORITY_OR_OTHER||Difference in least squares means|-21.57||||0|TWO_SIDED|80.0|-29.27|-13.86||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-13.86|-29.27|0.000
82498772|NCT01059825|164688340|SUPERIORITY_OR_OTHER||Difference in least squares means|-32.54||||0|TWO_SIDED|80.0|-40.2|-24.88||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.88|-40.20|0.000
82498773|NCT01059825|164688340|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.33||||0|TWO_SIDED|80.0|-30.05|-14.61||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-14.61|-30.05|0.000
82498774|NCT01059825|164688340|SUPERIORITY_OR_OTHER||Difference in least squares means|-20.57||||0|TWO_SIDED|80.0|-28.19|-12.96||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-12.96|-28.19|0.000
82498775|NCT01059825|164688341|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.09||||0|TWO_SIDED|80.0|-29.16|-15.01||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.01|-29.16|0.000
82499896|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|3.7|||||TWO_SIDED|95.0|-15.3|23.2|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||23.2|-15.3|
82498776|NCT01059825|164688341|SUPERIORITY_OR_OTHER||Difference in least squares means|-27.94||||0|TWO_SIDED|80.0|-35.06|-20.83||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-20.83|-35.06|0.000
82498777|NCT01059825|164688341|SUPERIORITY_OR_OTHER||Difference in least squares means|-33.12||||0|TWO_SIDED|80.0|-40.29|-25.95||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-25.95|-40.29|0.000
82498778|NCT01059825|164688341|SUPERIORITY_OR_OTHER||Difference in least squares means|-31.79||||0|TWO_SIDED|80.0|-39.02|-24.56||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-24.56|-39.02|0.000
82498779|NCT01059825|164688341|SUPERIORITY_OR_OTHER||Difference in least squares means|-23.17||||0|TWO_SIDED|80.0|-30.28|-16.07||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-16.07|-30.28|0.000
82498780|NCT01059825|164688342|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.07||||0|TWO_SIDED|80.0|-28.87|-15.27||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.27|-28.87|0.000
82498781|NCT01059825|164688342|SUPERIORITY_OR_OTHER||Difference in least squares means|-28.51||||0|TWO_SIDED|80.0|-35.35|-21.67||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-21.67|-35.35|0.000
82498782|NCT01059825|164688342|SUPERIORITY_OR_OTHER||Difference in least squares means|-35.4||||0|TWO_SIDED|80.0|-42.3|-28.51||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-28.51|-42.30|0.000
82498783|NCT01059825|164688342|SUPERIORITY_OR_OTHER||Difference in least squares means|-34.81||||0|TWO_SIDED|80.0|-41.76|-27.86||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-27.86|-41.76|0.000
82498784|NCT01059825|164688342|SUPERIORITY_OR_OTHER||Difference in least squares means|-22.75||||0|TWO_SIDED|80.0|-29.58|-15.92||P-value is one-sided. P-value is rounded to 3 decimals; therefore, p \<0.0005 is reported as 0.000.|ANCOVA|ANCOVA model with treatment as fixed effect and baseline as covariate with last observation carried forward.||||-15.92|-29.58|0.000
82498785|NCT00106392|164688349|SUPERIORITY_OR_OTHER|||||||0.111||95.0||||P-Values were not adjusted.|Wilcoxon (Mann-Whitney)|||A group sequential design using the O'Brien and Fleming stopping rule will require 58 evaluable patients per group to detect a 5-point difference in the Erectile Function domain of the IIEF with a power of 80% and an overall significance level of 5%.||||0.111
82498786|NCT00106392|164688350|SUPERIORITY_OR_OTHER|||||||0.453||95.0|||||Fisher Exact|||||||0.453
82498787|NCT00106392|164688351|SUPERIORITY_OR_OTHER|||||||0.79||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.790
82498788|NCT00106392|164688352|SUPERIORITY_OR_OTHER|||||||0.099||95.0|||||Fisher Exact|||||||0.099
82498789|NCT00106392|164688353|SUPERIORITY_OR_OTHER|||||||0.575||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.575
82498790|NCT00106392|164688354|SUPERIORITY_OR_OTHER|||||||0.879||95.0|||||Wilcoxon (Mann-Whitney)|||||||0.879
82498791|NCT02509156|164688398|SUPERIORITY||Mean Difference (Final Values)|0.8|STANDARD_ERROR_OF_MEAN|2.57||0.746|TWO_SIDED|95.0|-4.52|6.11|||ANCOVA|The change in LVEF was compared using ANCOVA analyses adjusting for baseline values.|Confidence intervals based on t-test|||6.11|-4.52|0.746
82498792|NCT02509156|164688399|SUPERIORITY||slope of time|1.53|STANDARD_ERROR_OF_MEAN|0.63||0.024|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate of the slope of time."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.024
82498793|NCT02509156|164688400|SUPERIORITY||Mean Difference (Final Values)|-0.71|STANDARD_ERROR_OF_MEAN|0.94||0.328|TWO_SIDED|95.0|-2.68|1.26|||ANCOVA||Confidence intervals based on t-test|The change in global strain was compared using ANCOVA analyses adjusting for baseline values.||1.26|-2.68|0.328
82498794|NCT02509156|164688401|SUPERIORITY||slope of time|-0.26|STANDARD_ERROR_OF_MEAN|0.23||0.261|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.261
82498795|NCT02509156|164688402|SUPERIORITY||Mean Difference (Final Values)|-1.58|STANDARD_ERROR_OF_MEAN|1.41||0.071|TWO_SIDED|95.0|-4.51|1.35|||ANCOVA||Confidence intervals based on t-test|The change in regional strain was compared using ANCOVA analyses adjusting for baseline values.||1.35|-4.51|0.071
82498796|NCT02509156|164688403|SUPERIORITY||slope of time|-0.14|STANDARD_ERROR_OF_MEAN|0.35||0.689|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.689
82498797|NCT02509156|164688404|SUPERIORITY||Mean Difference (Final Values)|1.06|STANDARD_ERROR_OF_MEAN|6.46||0.935|TWO_SIDED|95.0|-12.33|14.45|||ANCOVA||Confidence intervals based on t-test|The change in LVEDVI was compared using ANCOVA analyses adjusting for baseline values.||14.45|-12.33|0.935
82499381|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.076|-0.013|||ANCOVA|||Extension Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.013|-0.076|
82498798|NCT02509156|164688405|SUPERIORITY||slope of time|-1.56|STANDARD_ERROR_OF_MEAN|1.55||0.325|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.325
82498799|NCT02509156|164688406|SUPERIORITY||Mean Difference (Final Values)|0.66|STANDARD_ERROR_OF_MEAN|5.99||0.919|TWO_SIDED|95.0|-11.75|13.08|||ANCOVA||Confidence intervals based on t-test|The change in LVESVI was compared using ANCOVA analyses adjusting for baseline values.||13.08|-11.75|0.919
82498800|NCT02509156|164688407|SUPERIORITY||slope of time|-1.99|STANDARD_ERROR_OF_MEAN|1.45||0.183|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.183
82498801|NCT02509156|164688408|SUPERIORITY||Mean Difference (Final Values)|0.077|STANDARD_ERROR_OF_MEAN|0.035||0.124|TWO_SIDED|95.0|0.003|0.15|||ANCOVA||Confidence intervals based on t-test|The change in LV sphericity index was compared using ANCOVA analyses adjusting for baseline values.||0.15|0.003|0.124
82498802|NCT02509156|164688409|SUPERIORITY|||||||||||||||||Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. A time by treatment interaction was assessed.|There was a significant treatment and time interaction (p=0.024), so we report a slope for each treatment arm.|||
82498803|NCT02509156|164688410|SUPERIORITY||Mean Difference (Final Values)|-0.66|STANDARD_ERROR_OF_MEAN|1.14||0.993|TWO_SIDED|95.0|-3.05|1.74|||ANCOVA||Confidence intervals based on t-test|The change in scar percent was compared using ANCOVA analyses adjusting for baseline values.||1.74|-3.05|0.993
82498804|NCT02509156|164688411|SUPERIORITY||slope of time|-0.44|STANDARD_ERROR_OF_MEAN|0.29||0.151|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.151
82498805|NCT02509156|164688412|SUPERIORITY||Mean Difference (Final Values)|38.03|STANDARD_ERROR_OF_MEAN|20.96||0.056|TWO_SIDED|95.0|-5.84|81.89|||ANCOVA||Confidence intervals based on t-test|The change in distance walked was compared using ANCOVA analyses adjusting for baseline values.||81.89|-5.84|0.056
82498806|NCT02509156|164688413|SUPERIORITY||slope of time|2.82|STANDARD_ERROR_OF_MEAN|5.06||0.583|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.583
82498807|NCT02509156|164688414|SUPERIORITY||Mean Difference (Final Values)|-12.82|STANDARD_ERROR_OF_MEAN|8.37||0.048|TWO_SIDED|95.0|-30.49|4.84|||ANCOVA||Confidence intervals based on t-test|The change in MLHFQ summary score was compared using ANCOVA analyses adjusting for baseline values.||4.84|-30.49|0.048
82498808|NCT02509156|164688415|SUPERIORITY||slope of time|-8.07|STANDARD_ERROR_OF_MEAN|1.86||0.0002|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope."|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported.||||0.0002
82498809|NCT02509156|164688416|SUPERIORITY||Mean Difference (Final Values)|-315.8|STANDARD_ERROR_OF_MEAN|295.0||0.199|TWO_SIDED|95.0|-947.5|315.8|||ANCOVA||Confidence intervals based on t-test|The change in NT-proBNP was compared using ANCOVA analyses adjusting for baseline values. Data log transformed. p-values were obtained from transformed data.||315.80|-947.50|0.199
82498810|NCT02509156|164688417|SUPERIORITY||slope of time|-23.391|STANDARD_ERROR_OF_MEAN|202.08||0.229|TWO_SIDED|||||No adjustments for multiplicity were made in this Phase I trial.|Repeated Measures Linear Regression||"Standard error of the mean is the standard error of the estimate over time of the slope"|Repeated-measures linear regression models were used to address trajectories (upward or downward trends) over time within each of the treatment groups. If there was no significant interaction, only one trajectory (slope) was reported. Log transformation used for the regression. p-values were obtained from transformed data.||||0.229
82498811|NCT02602496|164688431|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9942||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9942
82498812|NCT02602496|164688431|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0062|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0062
82498813|NCT02602496|164688431|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.6843|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.6843
82498814|NCT02602496|164688432|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.5096||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.5096
82498815|NCT02602496|164688432|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.2276|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.2276
82498816|NCT02602496|164688432|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0006|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0006
82498817|NCT02602496|164688433|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9708||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9708
82498818|NCT02602496|164688433|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.1642|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.1642
82498819|NCT02602496|164688433|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.6043|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.6043
82498820|NCT02602496|164688434|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0868||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.0868
82498821|NCT02602496|164688434|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0083|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0083
82498822|NCT02602496|164688434|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0151|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0151
82498823|NCT02602496|164688435|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.9255||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.9255
82498824|NCT02602496|164688435|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.0454|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.0454
82498825|NCT02602496|164688435|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.292|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.2920
82498826|NCT02602496|164688436|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.2252||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.2252
82498827|NCT02602496|164688436|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.4715|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.4715
82498828|NCT02602496|164688436|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.7157|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.7157
82498829|NCT02602496|164688437|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.8323||||||Corrected for baseline concentrations, age, gender, and body mass index|ANOVA|||||||0.8323
82498830|NCT02602496|164688437|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.8927|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.8927
82498831|NCT02602496|164688437|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.3173|||||||ANOVA|Corrected for baseline concentrations, age, gender, and body mass index||||||0.3173
82498832|NCT02602496|164688438|EQUIVALENCE|Value at week 8 minus value at week 0||||||0.27||||||Corrected for baseline concentrations, age and gender|ANOVA|||||||0.27
82498833|NCT05025241|164688454|OTHER||||||<|0.0001|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||<0.0001
82498834|NCT05025241|164688455|OTHER|||||||0.0003|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0003
82498835|NCT05025241|164688456|OTHER|Change from baseline||||||0.0156|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0156
82498836|NCT05025241|164688457|OTHER|Change from baseline||||||0.0005|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0005
82498837|NCT05025241|164688458|OTHER|||||||0.0647|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants.||||0.0647
82498838|NCT05025241|164688459|OTHER|Change from baseline||||||0.0984|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0984
82498839|NCT05025241|164688460|OTHER|Change from baseline||||||0.0013|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0013
82498840|NCT05025241|164688461|OTHER|Change from baseline||||||0.0191|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0191
82498841|NCT05025241|164688462|OTHER|change from baseline||||||0.0013|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0013
82498842|NCT05025241|164688463|OTHER|change from baseline||||||0.171|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.1710
82498843|NCT05025241|164688464|OTHER|change from baseline||||||0.0066|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0066
82498844|NCT05025241|164688465|OTHER|change form baseline||||||0.1094|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.1094
82498845|NCT05025241|164688466|OTHER|change from baseline||||||0.0156|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0156
82498846|NCT05025241|164688467|OTHER|change from baseline||||||0.0326|||||||Wilcoxon Signed rank|||Efficacy endpoints were analyzed using a Wilcoxon signed rank test on the paired participant data from baseline to EOT (Visit 16), when applicable. Baseline values were based on the average non-missing values of visits 1, 2, and 3 for assessments collected at more than one visit during the Screening/Baseline period. Descriptive statistics were used to summarize the data. For total scores, waterfall plots, and histograms were created at the EOT visit with plots for all participants||||0.0326
82498847|NCT04294472|164688470|SUPERIORITY|Cohort 1 vs Placebo||||||0.1866|||||||Log Rank|||||||0.1866
82498848|NCT04294472|164688470|SUPERIORITY|Cohort 2 vs Placebo||||||0.2627|||||||Log Rank|||||||0.2627
82498849|NCT04294472|164688471|SUPERIORITY|Cohort 1 vs Placebo||||||0.0639|||||||Log Rank|||||||0.0639
82498850|NCT04294472|164688471|SUPERIORITY|Cohort 2 vs Placebo||||||0.0508|||||||Log Rank|||||||0.0508
82498851|NCT02268084|164688472|SUPERIORITY|||||||0.007|||||||ANOVA|||Null hypothesis is that the active treatment group does not differ from the sham group in changes in the PCL-M total scores.||||.007
82498852|NCT02268084|164688473|SUPERIORITY|||||||0.326|||||||t-test, 2 sided|||||||.326
82498853|NCT03552198|164688549|OTHER|||||||0.964|||||||ANCOVA|ANCOVA, adjusted for baseline measures, tested for differences between intervention and control groups in preventative behaviours at 4 weeks||We predicted that the groups receiving the alternative format of air quality notifications would report greater frequency of behaviour change at 4 weeks compared to the groups receiving the usual format.||||.964
82498854|NCT03552198|164688550|OTHER|||||||0.043|||||||Chi-squared|χ2(1)=4.11, V=0.229||We predicted that more respondents in the intervention groups (i.e. receiving alternative health advice) would consider making permanent changes to their daily travel route, exercise location or exercise time compared to the control groups||||0.043
82498855|NCT03552198|164688551|OTHER||||||>|0.05|||||||Fisher Exact|||We predicted that the alternative health advice would lead to greater actual behaviour change compared to the usual format||||>0.05
82498856|NCT03552198|164688552|OTHER||||||>|0.05|||||||ANCOVA|ANCOVA, adjusted for baseline intentions, tested for differences between groups in intentions in relation to an high-air-pollution scenario at 4 weeks||We predicted that the alternative format would lead to stronger intentions to adhere to recommendations associated with an hypothetical high air pollution episode compared to the usual format.||||>0.05
82498857|NCT00923247|164688580|SUPERIORITY_OR_OTHER|||||||0.019|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1, day 1 vs. cycle 3, day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib Cmax (normalized to dose).||||0.019
82498858|NCT00923247|164688581|SUPERIORITY_OR_OTHER|||||||0.052|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib AUCinf (normalized to dose).||||0.052
82498859|NCT00923247|164688582|SUPERIORITY_OR_OTHER|||||||0.44|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib half-life.||||0.440
82498860|NCT00923247|164688583|SUPERIORITY_OR_OTHER|||||||0.016|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase 1 portion. To assess whether presence of vandetanib significantly altered bortezomib clearance.||||0.016
82498861|NCT00923247|164688584|SUPERIORITY_OR_OTHER|||||||0.01|||||||Mann-Whitney|(nonparametric unpaired t-test; assumed homoscedasticity)||Patients given bortezomib on cycle 1 day 1 vs. cycle 3 day 1. A paired analysis among same 14 patients on Phase I portion. To assess whether presence of vandetanib significantly altered bortezomib volume of distribution.||||0.010
82498862|NCT01691781|164688616|SUPERIORITY|||||||0.049||||||This p-value reflects the difference in PTH means among participants with primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in PTH, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.049
82498863|NCT01691781|164688616|SUPERIORITY|||||||0.8||||||This p-value reflects the difference in PTH means among normal control participants without primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in PTH, before and after ACE inhibitor therapy, among normal control participants (without primary hyperparathyroidism).||||0.80
82498864|NCT01691781|164688617|SUPERIORITY|||||||0.22||||||This p-value reflects the comparison of means among the primary hyperparathyroidism group only.|t-test, 2 sided|||The statistical analysis compared the change in urinary aldosterone excretion rate, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.22
82498865|NCT01691781|164688617|SUPERIORITY|||||||0.86||||||This p-value reflects the mean difference in 24h aldosterone excretion rate among normal control participants without primary hyperparathyroidism|t-test, 2 sided|||The statistical analysis compared the change in urinary aldosterone excretion rate, before and after ACE inhibitor therapy, among normal control participants without primary hyperparathyroidism.||||0.86
82498866|NCT01691781|164688618|SUPERIORITY|||||||0.48||||||This p-value reflects the statistic for the comparison of mean calcium levels for the primary hyperparathyroidism group.|t-test, 2 sided|||The statistical analysis compared the change in serum calcium, before and after ACE inhibitor therapy, among participants with primary hyperparathyroidism.||||0.48
82498867|NCT01691781|164688618|SUPERIORITY|||||||0.8||||||This p-value reflects the statistic for the comparison of mean calcium levels for the normal control participants without primary hyperparathyroidism.|t-test, 2 sided|||The statistical analysis compared the change in serum calcium, before and after ACE inhibitor therapy, among normal control participants without primary hyperparathyroidism.||||0.80
82498868|NCT00646776|164688662|SUPERIORITY_OR_OTHER||Point Estimate|1.477|||||TWO_SIDED|90.0|1.188|1.835|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||1.835|1.188|
82498869|NCT00646776|164688663|SUPERIORITY_OR_OTHER||Point Estimate|2.489|||||TWO_SIDED|90.0|2.025|3.06|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||3.060|2.025|
82498870|NCT00646776|164688664|SUPERIORITY_OR_OTHER||Point Estimate|1.402|||||TWO_SIDED|90.0|1.052|1.867|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||1.867|1.052|
82498871|NCT00646776|164688665|SUPERIORITY_OR_OTHER||Point Estimate|0.947|||||TWO_SIDED|90.0|0.817|1.098|||ANOVA|||||1.098|0.817|
82498872|NCT00646776|164688666|SUPERIORITY_OR_OTHER||Point Estimate|0.745||||0.0963|TWO_SIDED|90.0|0.5569|0.9967|||ANOVA|||||0.9967|0.5569|0.0963
82498873|NCT00646776|164688667|SUPERIORITY_OR_OTHER||Point Estimate|0.857|||||TWO_SIDED|90.0|0.723|1.015|||ANOVA|||||1.015|0.723|
82498874|NCT00646776|164688670|SUPERIORITY_OR_OTHER||Point Estimate|0.66|||||TWO_SIDED|90.0|0.538|0.809|||ANOVA|||||0.809|0.538|
82498875|NCT00646776|164688671|SUPERIORITY_OR_OTHER||Point Estimate|0.651|||||TWO_SIDED|90.0|0.43|0.986|||ANOVA|||||0.986|0.430|
82498876|NCT00646776|164688672|SUPERIORITY_OR_OTHER||Point Estimate|0.696|||||TWO_SIDED|90.0|0.563|0.862|||ANOVA|||||0.862|0.563|
82498877|NCT00646776|164688678|SUPERIORITY_OR_OTHER||Point Estimate|10.902|||||TWO_SIDED|90.0|8.135|14.61|||ANOVA|||||14.610|8.135|
82498878|NCT00646776|164688679|SUPERIORITY_OR_OTHER||Point Estimate|7.766|||||TWO_SIDED|90.0|6.133|9.833|||ANCOVA|||||9.833|6.133|
82498879|NCT00646776|164688680|SUPERIORITY_OR_OTHER||Point Estimate|11.451|||||TWO_SIDED|90.0|8.147|16.095|||ANOVA|||||16.095|8.147|
82498880|NCT00646776|164688681|SUPERIORITY_OR_OTHER||Point Estimate|2.19|||||TWO_SIDED|90.0|1.783|2.691|||ANOVA||Point estimates and 90% confidence intervals of treatment differences on the log scale were exponentiated to obtain estimates on the original scale.|||2.691|1.783|
82498881|NCT01325584|164688740|SUPERIORITY|||||||0.07|||||||Wilcoxon (Mann-Whitney)|||||||.07
82498882|NCT01325584|164688742|SUPERIORITY|||||||0.53|||||||Wilcoxon (Mann-Whitney)|||||||.53
82498883|NCT01325584|164688743|SUPERIORITY|||||||0.48|||||||Wilcoxon (Mann-Whitney)|||||||.48
82498884|NCT00524368|164688744|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of the 95% two-sided confidence interval of the difference between DRV/rtv once daily and DRV/rtv twice daily exceeds -12%, non-inferiority of the DRV/rtv q.d. versus the DRV/rtv b.i.d. therapy was concluded.|Difference in proportion of response|0.0019|STANDARD_ERROR_OF_MEAN|0.037|<|0.001|TWO_SIDED|95.0|-0.054|0.092|||Regression, Logistic|The model includes treatment as factor and baseline viral load (log10) as covariate.|Difference in proportion of response DRV/rtv once daily minus DRV/rtv twice daily estimated from the logistic regression model.|Assuming a response rate of 70% at 48 weeks for both treatment groups, 306 participants were required per treatment arm to establish noninferiority of darunavir (DRV)/ritonavir (rtv) once daily versus DRV/rtv twice daily with a maximum allowable difference of 12%, with a 1-sided significance level of 0.025 and 90% power.||0.092|-0.054|<0.001
82498885|NCT00524368|164688745|NON_INFERIORITY_OR_EQUIVALENCE|If at Week 48, the lower limit of this 95% 2-sided CI of the difference between DRV/rtv q.d. and DRV/rtv b.i.d. exceeded -12%, noninferiority of DRV/rtv q.d. and DRV/rtv b.i.d. could be concluded.|Difference in proportion of response|0.007|STANDARD_ERROR_OF_MEAN|0.034|<|0.001|TWO_SIDED|95.0|-0.06|0.075|||Regression, Logistic|A logistic regression model includes treatment as fixed factor and baseline plasma viral load as a covariate.|Difference in proportion of response between 2 treatment groups (DRV/rtv q.d. minus DRV/rtv b.i.d)|||0.075|-0.060|<0.001
82498886|NCT00524368|164688746|SUPERIORITY_OR_OTHER||Difference between least square means|-0.003|STANDARD_ERROR_OF_MEAN|0.094||0.977|TWO_SIDED|95.0|-0.188|0.182|||ANCOVA|Including 1 factor for treatment, and including the covariate baseline log10 plasma viral load|Difference between least square means between the DRV/rtv q.d. and DRV/rtv b.i.d. treatment groups at Week 48.|||0.182|-0.188|0.977
82498887|NCT00524368|164688747|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.99|STANDARD_ERROR_OF_MEAN|0.094||0.917|TWO_SIDED|95.0|0.824|1.191|||Cox proportional hazards|Including treatment as fixed factor and baseline plasma viral load as a covariate||||1.191|0.824|0.917
82498888|NCT00524368|164688748|SUPERIORITY_OR_OTHER||Hazard Ratio, log|0.945|STANDARD_ERROR_OF_MEAN|0.154||0.716|TWO_SIDED|95.0|0.699|1.279|||Regression, Cox|Including baseline log10 viral load as covariate||||1.279|0.699|0.716
82498889|NCT00524368|164688749|SUPERIORITY_OR_OTHER||Difference in least square means|-0.03|STANDARD_ERROR_OF_MEAN|0.072||0.711|TWO_SIDED|95.0|-0.169|0.115|||ANCOVA|Including 1 factor for treatment, and including the covariate baseline log10 plasma viral load|Difference in least square means between the 2 treatment groups (DRV/rtv q.d. and DRV/rtv b.i.d)|||0.115|-0.169|0.711
82498890|NCT00524368|164688750|SUPERIORITY_OR_OTHER||Difference in least square means|-5.95|STANDARD_ERROR_OF_MEAN|10.26||0.562|TWO_SIDED|95.0|-26.09|14.2|||ANCOVA|The model includes treatment as factor and baseline CD4 count and baseline viral load (log10) as covariates.|Difference in least square means DRV/rtv once daily minus DRV/rtv twice daily estimated from the ANCOVA model.|||14.20|-26.09|0.562
82499897|NCT00555321|164690565|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|8.9|||||TWO_SIDED|95.0|-9.8|28.4|||||For 95% CI of difference, adjustment was made for randomization strata (HCV-Infection status at baseline) if N \>= 5 in each treatment arm. Otherwise exact method ignoring stratification was used.|||28.4|-9.8|
82499382|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.04|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.071|-0.008|||ANCOVA|||Extension Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.008|-0.071|
82498891|NCT00524368|164688751|SUPERIORITY_OR_OTHER||Difference in least square means|0.55|STANDARD_ERROR_OF_MEAN|1.79||0.761|TWO_SIDED|95.0|-2.97|4.06|||ANCOVA|Including factors for treatment, and baseline log10 plasma viral load and baseline FAHI score as covariates|Difference in least square means DRV/rtv once daily minus DRV/rtv twice daily estimated from the ANCOVA model.|||4.06|-2.97|0.761
82498892|NCT02289690|164688775|OTHER||RP2D for veliparib in mg BID for 14 days|240.0|||||TWO_SIDED||||||||The RP2D for veliparib was determined to be 240 mg BID for 14 days with carboplatin (AUC 5 mg/mL\*min) on Day 1 and etoposide (100 mg/m²) on Days 1 to 3 during 21-day cycles for 4 cycles.|A primary objective of Phase 1 was to establish the recommended phase 2 dose (RP2D) for veliparib combined with carboplatin and etoposide. The RP2D was determined by the rate of DLTs and overall tolerability of veliparib plus carboplatin and etoposide.||||
82498893|NCT02289690|164688791|SUPERIORITY||Hazard Ratio (HR)|0.665||||0.059|TWO_SIDED|80.0|0.503|0.88|||Log Rank|Two-sided log-rank test stratified by lactate dehydrogenase (LDH) level|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio \< 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"The primary efficacy analysis in the Phase 2 portion of the study was the comparison of PFS among participants who received veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A) vs. placebo in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm C).~Statistical significance was determined by a two-sided p-value ≤ 0.2"||0.880|0.503|0.059
82498894|NCT02289690|164688791|SUPERIORITY||Hazard Ratio (HR)|0.979||||0.924|TWO_SIDED|80.0|0.744|1.288|||Log Rank|Two-sided log-rank test stratified by lactate dehydrogenase (LDH) level|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.288|0.744|0.924
82498895|NCT02289690|164688792|SUPERIORITY||Hazard Ratio (HR)|1.432||||0.088|TWO_SIDED|80.0|1.092|1.879|||Log Rank|Two-sided log rank test stratified by LDH level.|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.879|1.092|0.088
82498896|NCT02289690|164688792|SUPERIORITY||Hazard Ratio (HR)|1.46||||0.083|TWO_SIDED|80.0|1.104|1.931|||Log Rank|Two-sided log rank test stratified by LDH level.|Hazard ratio estimate was obtained from a Cox proportional hazards model stratified by LDH level. A hazard ratio of \< 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.931|1.104|0.083
82498897|NCT02289690|164688793|SUPERIORITY||Odds Ratio (OR)|1.9||||0.115|TWO_SIDED|80.0|1.1|3.2|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by LDH level.|Odds ratio was from a Cochran-Mantel-Haenszel test stratified by LDH level. An odds ratio of \> 1 favors veliparib in combination with carboplatin and etoposide followed by veliparib maintenance monotherapy (Arm A).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||3.2|1.1|0.115
82498898|NCT02289690|164688793|SUPERIORITY||Odds Ratio (OR)|0.8||||0.604|TWO_SIDED|80.0|0.5|1.3|||Cochran-Mantel-Haenszel|Cochran-Mantel-Haenszel test stratified by LDH level.|Odds ratio was from a Cochran-Mantel-Haenszel test stratified by LDH level. An odds ratio of \> 1 favors veliparib in combination with carboplatin and etoposide followed by placebo maintenance monotherapy (Arm B).|"If the primary analysis of PFS (Arm A vs Arm C) was statistically significant a fixed sequence testing procedure was to be performed with a 2-sided significance level of 0.2 for the following key secondary endpoints:~1. OS (Arm A vs Arm C)~2. PFS (Arms B vs Arm C)~3. OS (Arm B vs Arm C)~4. ORR (Arm A vs Arm C)~5. ORR (Arm B vs Arm C)~If significance versus Arm C was not demonstrated, all endpoints later in the testing hierarchy were to be considered exploratory."||1.3|0.5|0.604
82498899|NCT01170754|164688795|NON_INFERIORITY|Inferiority between the two groups was defined as a difference of 10% in the overall BBPS score||||||0.45|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.45
82498900|NCT01170754|164688796|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.13|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.13
82498901|NCT01170754|164688797|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.31|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.31
82498902|NCT01170754|164688798|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.87|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.87
82498903|NCT01170754|164688799|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.25|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.25
82498904|NCT01170754|164688800|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.47|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.47
82498905|NCT01170754|164688801|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.34|TWO_SIDED|95.0|||||t-test, 2 sided|||||||.34
82498906|NCT01170754|164688802|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.18|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.18
82498907|NCT01170754|164688803|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.75|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.75
82498908|NCT01170754|164688804|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.92|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.92
82498909|NCT01170754|164688805|EQUIVALENCE|Equivalence between the two groups was defined as a p-value = or \>.05.||||||0.6|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance|t-test, 2 sided|||||||.60
82498910|NCT01170754|164688806|NON_INFERIORITY|Inferiority between groups was defined as a difference of 10% in the overall BBPS score.||||||0.98|TWO_SIDED|95.0||||p\<.05 was defined as the a priori threshold for statistical significance.|t-test, 2 sided|||||||.98
82498911|NCT04626297|164688820|OTHER||Risk Difference (RD)|0.3|||||TWO_SIDED|90.0|-10.2|11.2||||||||11.2|-10.2|
82498912|NCT04626297|164688821|OTHER||Risk Difference (RD)|12.2|||||TWO_SIDED|90.0|2.5|22.0||||||||22.0|2.5|
82498913|NCT04626297|164688822|OTHER||Risk Difference (RD)|21.7|||<|0.001|TWO_SIDED|95.0|10.3|33.2|||Cochran-Mantel-Haenszel|||||33.2|10.3|<0.001
82498914|NCT04626297|164688823|OTHER||Risk Difference (RD)|25.3|||<|0.001|TWO_SIDED|95.0|12.6|38.0|||Cochran-Mantel-Haenszel|||||38|12.6|<0.001
82498915|NCT04626297|164688824|OTHER||Risk Difference (RD)|20.3|||<|0.001|TWO_SIDED|95.0|9.0|31.6|||Cochran-Mantel-Haenszel|||||31.6|9.0|<0.001
82498916|NCT04626297|164688825|OTHER||Risk Difference (RD)|11.9||||0.138|TWO_SIDED|95.0|-3.8|27.5|||Cochran-Mantel-Haenszel|||||27.5|-3.8|0.138
82499383|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.041|STANDARD_ERROR_OF_MEAN|0.02||||90.0|-0.074|-0.008|||ANCOVA|||Extension Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.008|-0.074|
82499384|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.056|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.088|-0.025|||ANCOVA|||Extension Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.025|-0.088|
82499385|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.039|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.071|-0.007|||ANCOVA|||Extension Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.007|-0.071|
82377675|NCT06360081|164462953|EQUIVALENCE|The assessment of bioequivalence was based on two-sided 90% CIs for the ratios of the geometric means (gMean) (T/R) using an acceptance range of 80.0 to 125.0%.|Ratio of adjusted geometric means (T/R)|100.83|||<|0.0001|TWO_SIDED|90.0|96.43|105.44||p-value was calculated for ratios outside the 80.0 to 125.0% interval.|ANOVA||Ratio as percentage \[%\] Intra-individual geometric coefficient of variation (gCV) = 14.2%.|PK endpoints were back transformed to the original scale to provide the point estimate and 90% confidence intervals (CIs) for each endpoint. The model included effects accounting for variation in sequence, subjects within sequences, period, and treatment. The effect 'subjects within sequences' was considered as random, whereas the others were considered as fixed. Confidence intervals were calculated based on the residual error from the ANOVA.||105.44|96.43|<0.0001
82498917|NCT04626297|164688826|OTHER||LS Mean Difference|-8.21|STANDARD_ERROR_OF_MEAN|2.447|<|0.001|TWO_SIDED|95.0|-13.04|-3.39|||Mixed Models Analysis||The mixed model repeated measures (MMRM) included treatment, baseline value, visit, the interaction of the baseline value-by-visit, the interaction of treatment by-visit, geographic region, age group, baseline IGA score as fixed factors.|||-3.39|-13.04|<0.001
82498918|NCT04626297|164688827|OTHER||LS Mean Difference|-0.48|STANDARD_ERROR_OF_MEAN|0.152||0.001658|TWO_SIDED|95.0|-0.8|-0.2|||ANCOVA|||||-0.2|-0.8|0.001658
82498919|NCT02254486|164688832|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior, the primary endpoint must show a difference in success rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in success rate|0.14||||0.528|ONE_SIDED|97.5|-8.15|||P-value adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, the primary endpoint must demonstrate non-inferiority with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 to Trisulfate Solution (TS) (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 success rate - TS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-8.15|0.528
82498920|NCT02254486|164688833|NON_INFERIORITY_OR_EQUIVALENCE|The confidence limits were adjusted for multiple comparisons (two alternative primary endpoints): To be declared non-inferior the primary endpoint must show a difference in success rates of no greater than 10% in favour of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in excellent plus good rate|6.58||||0.059|ONE_SIDED|97.5|-1.69|||P-value was adjusted for multiple comparisons (two alternative primary endpoints): To be declared superior, primary endpoint must demonstrate non-inferiority and with 1-sided p-value \<0.025; the threshold for statistical significance.|Fisher Exact|||The hypothesis was to demonstrate NI of NER1006 to Trisulfate Solution (TS) (10% margin). Success rate was number of patients with successful overall bowel cleansing as proportion of number of patients in each group. Treatment effect was NER1006 success rate - TS success rate. A Hochberg procedure was used to control Type I error since there were 2 alternative primary endpoints. An alpha level of 1.25% 1-sided was used. A closed testing procedure used to evaluate superiority if NI was met.|||-1.69|0.059
82498921|NCT02254486|164688834|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.|Difference in ADR|-3.01||||0.863|TWO_SIDED|95.0|-11.36|5.28||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - TS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||5.28|-11.36|0.863
82498922|NCT02254486|164688835|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.||||||0.66||||||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in ADR was calculated as NER1006 rate - TS rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||||0.660
82498923|NCT02254486|164688836|NON_INFERIORITY_OR_EQUIVALENCE|To be declared non-inferior, the key secondary endpoint must show a difference in rates of no greater than 10% in favor of Trisulfate Solution using lower 1-sided 97.5% confidence limits. Calculated using exact Clopper-Pearson confidence limits.||||||0.953||||||To be declared superior, the key secondary endpoint must demonstrate non-inferiority and show a significant advantage for NER1006 relative to Trisulfate Solution with 1-sided p-value \<0.025, the threshold for statistical significance.|Fisher Exact|||If at least one of the alternative primary endpoints was met, then key secondary endpoints for the same colon region as met by the primary endpoint were evaluated hierarchically in a pre-specified order. The difference in PDR was calculated as NER1006 rate - Trisulfate Solution rate using 1-sided 97.5% confidence limits. Formal testing was to proceed in the hierarchy if preceding key secondary endpoint met non-inferiority. This procedure ensured overall Type I error control at 2.5% 1-sided.||||0.953
82499386|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.044|STANDARD_ERROR_OF_MEAN|0.021||||90.0|-0.079|-0.01|||ANCOVA|||Extension Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.010|-0.079|
82499108|NCT05355805|164689215|SUPERIORITY|Predictors in the regression model for missing values at Week 16 are Baseline Hurley stage, baseline abscess count, baseline inflammatory nodule count, baseline draining fistula count, sex, race, age, BMI and Prior Biologic/JAK inhibitor use for HS plus counts of abscess, inflammatory nodule, and draining fistula at prior scheduled assessment. Missing flare values in both the placebo and izokibep groups are imputed using observed data from the placebo group only.|Risk Difference (RD)|-7.4|STANDARD_ERROR_OF_MEAN|7.661||0.3329|TWO_SIDED|||||The estimated risk difference divided by the standard error will be used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Missing data of abscess and inflammatory nodules counts at scheduled visits are imputed assuming monotone missingness pattern."||||0.3329
82499109|NCT05355805|164689215|SUPERIORITY|Predictors in the regression model for missing values at Week 16 are Baseline Hurley stage, baseline abscess count, baseline inflammatory nodule count, baseline draining fistula count, sex, race, age, BMI and Prior Biologic/JAK inhibitor use for HS plus counts of abscess, inflammatory nodule, and draining fistula at prior scheduled assessment. Missing flare values in both the placebo and izokibep groups are imputed using observed data from the placebo group only.|Risk Difference (RD)|4.06|STANDARD_ERROR_OF_MEAN|7.574||0.5882|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||"The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.~Missing data of abscess and inflammatory nodules counts at scheduled visits are imputed assuming monotone missingness pattern."||||0.5882
82499110|NCT05355805|164689216|SUPERIORITY||Risk Difference (RD)|7.31|STANDARD_ERROR_OF_MEAN|11.995||0.5422|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.5422
82499111|NCT05355805|164689216|SUPERIORITY||Risk Difference (RD)|-5.23|STANDARD_ERROR_OF_MEAN|11.77||0.6569|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.6569
82499112|NCT05355805|164689217|SUPERIORITY||Risk Difference (RD)|7.48|STANDARD_ERROR_OF_MEAN|8.951||0.4031|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg QW arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.4031
82499113|NCT05355805|164689217|SUPERIORITY||Risk Difference (RD)|21.27|STANDARD_ERROR_OF_MEAN|9.959||0.0327|TWO_SIDED|||||The estimated risk difference divided by the standard error was used as the test statistic and a p-value calculated assuming that the test statistic follows a standard normal distribution under the null hypothesis.|Cochran-Mantel-Haenszel|||The common risk difference between placebo QW/Q2W and the izokibep 160 mg Q2W arm among the four strata, prior biologic/JAK inhibitor use for HS (Yes/No) and Hurley Stage (II or III), used for randomization and associated standard error will be estimated by combining the observed risk differences using Cochran-Mantel-Haenszel weighting.||||0.0327
82499114|NCT05353985|164689221|SUPERIORITY||LS Mean Difference|0.017|||=|0.847|TWO_SIDED|95.0|-0.162|0.197||P-value was based on a MMRM analysis with treatment group, week, treatment-by-week interaction, \& the randomization stratification factors as fixed effects \& baseline CDSD GI symptom severity scores as covariates, and participant as a random effect.|MMRM|||||0.197|-0.162|=0.847
82499115|NCT05353985|164689222|SUPERIORITY||LS Mean Difference|-0.331|||<|0.001|TWO_SIDED|95.0|-0.481|-0.181||P-value was based on a ANCOVA model with treatment group and randomization stratification factors as fixed effects and baseline Vh:Cd as covariates.|ANCOVA|||||-0.181|-0.481|<0.001
82499116|NCT00534430|164689227|EQUIVALENCE|Given the small sample-size of the disease sub-groups, this was a hypothesis generating study.|Median Difference (Net)|0.0|||>|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance was 0.05.|Log Rank|No adjustments.||Log-rank test. (Mantel-Haenszel test). Null hypothesis is all four groups are statistically from the same population. Alternative hypothesis is that at least one of the groups is from a population different from the remaining groups. Anticipated sample-sizes comparing Active ALL (anticipated N= 12) with the combined AML patients (anticipated N=38) was deemed to be too small for formal hypothesis testing.||||>0.05
82499117|NCT00534430|164689228|EQUIVALENCE|Given the small sample-size of the disease sub-groups, this was a hypothesis generating study.|Median Difference (Net)|0.0|||>|0.05|TWO_SIDED|||||Not adjusted for multiple comparisons. A-priori threshold for statistical significance was 0.05.|Gray's Test|No adjustments.||Gray's estimate. (Fine and Gray). Null hypothesis is all four groups are statistically from the same population. Alternative hypothesis is that at least one of the groups is from a population different from the remaining groups. Anticipated sample-sizes comparing Active ALL (anticipated N= 12) with the combined AML patients (anticipated N=38) was deemed to be too small for formal hypothesis testing||||>0.05
82499118|NCT02144233|164689235|SUPERIORITY|||||||0.54|||||||Mixed Models Analysis|||||||0.54
82499119|NCT00482612|164689257|SUPERIORITY_OR_OTHER||||||<|0.0001|||||||ANCOVA|Baseline TST was used as a covariate.||||||<0.0001
82499363|NCT02648178|164689577|OTHER|We used a linear mixed model to estimate associations between cigarette smoking and that of e-cigarette smoking, by week and their interactions. We also used the same model to estimate association between biomarkers such as NNAL (4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol), Nicotine, Cotinine, Hydro and Creatinine and CO (Carbon Monoxide) level,by week and their interactions.||||||||||||We tested whether there were significant associations between cigarette smoking and e-cigarette smoking, as well as whether there were significant associations between biomarkers mentioned above with CO level.||We provided estimated values of coefficients from model and their 95% confidence intervals.|||We used a linear mixed model to estimate associations between cigarette smoking and that of e-cigarette smoking, week and their interactions. We also used the same model to estimate association between biomarkers such as NNAL, Nicotine, Cotinine, Hydro and Creatinine and CO level, week and their interactions.|||
82499364|NCT02205814|164689579|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Fourhundred evaluable patients were supposed to provide approximately 80% power in rejecting the null hypothesis of equality between any dose of fasitibant and placebo based on previous results and an overall significance level of 5% (two-sided).|mixed linear model for repeated measures|||||||<0.05
82499365|NCT02205814|164689580|SUPERIORITY_OR_OTHER||||||<|0.05|TWO_SIDED|||||Fourhundred evaluable patients were supposed to provide approximately 80% power in rejecting the null hypothesis of equality between any dose of fasitibant and placebo based on previous results and an overall significance level of 5% (two-sided).|mixed linear model for repeated measures|||All secondary efficacy variables were analysed on the ITT population only. Multiplicity was adjusted using the Hochberg procedure. The continuous secondary efficacy variables were analysed over time and were treated in the same way as the primary efficacy variable with respective output.||||<0.05
82499366|NCT00143403|164689595|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|0.9||||||95.0|0.67|1.2|||||HR: Irinotecan+5-FU/FA / 5-FU/FA|||1.20|0.67|
82499367|NCT00143403|164689595|SUPERIORITY_OR_OTHER|||||||0.468||95.0|||||Log Rank|||||||0.468
82499368|NCT01574326|164689597|SUPERIORITY_OR_OTHER||Least square (LS) mean difference|-0.9||||0.001|TWO_SIDED|95.0|-1.44|-0.37|||ANCOVA|Threshold for significance ≤ 0.05.||Primary efficacy endpoint, change from baseline to Week 2 in serum phosphorus, was compared between treatment groups using analysis of covariance (ANCOVA) with baseline phosphorus and screening BSA as covariates and fixed effect for treatment. No center effect was included in the model. The estimate of the treatment difference (Sevelamer Carbonate - Placebo) and its 95% CI were presented. Significance was to be declared if the p-value was ≤0.05.||-0.37|-1.44|0.001
82499369|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.024|STANDARD_ERROR_OF_MEAN|0.01||||90.0|-0.041|-0.007|||ANCOVA|||Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.007|-0.041|
82499370|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.022|STANDARD_ERROR_OF_MEAN|0.011||||90.0|-0.04|-0.003|||ANCOVA|||Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.003|-0.040|
82499371|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.019|STANDARD_ERROR_OF_MEAN|0.012||||90.0|-0.038|0.001|||ANCOVA|||Month 9; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.001|-0.038|
82499372|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.038|STANDARD_ERROR_OF_MEAN|0.012||||90.0|-0.058|-0.019|||ANCOVA|||Month 12; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.019|-0.058|
82499373|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.042|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.065|-0.02|||ANCOVA|||Month 15; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.020|-0.065|
82499374|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.02|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.043|0.002|||ANCOVA|||Month 18; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.002|-0.043|
82499375|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.043|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.066|-0.02|||ANCOVA|||Month 21; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.020|-0.066|
82499376|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.033|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.058|-0.009|||ANCOVA|||Month 24; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.009|-0.058|
82499377|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.015|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.039|0.009|||ANCOVA|||Follow-up Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.009|-0.039|
82499378|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.005|STANDARD_ERROR_OF_MEAN|0.014||||90.0|-0.027|0.017|||ANCOVA|||Follow-up Month 3; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.017|-0.027|
82499379|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.013|STANDARD_ERROR_OF_MEAN|0.015||||90.0|-0.037|0.012|||ANCOVA|||Follow-up Month 6; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||0.012|-0.037|
82499380|NCT00137046|164689609|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|-0.045|STANDARD_ERROR_OF_MEAN|0.019||||90.0|-0.076|-0.014|||ANCOVA|||Extension Month 1; Treatment difference: Inhaled Insulin - Subcutaneous Insulin. Adjusted (Primary Analysis Model) includes terms of Treatment, Baseline Pulmonary Function Test (PFT), Center, Age, Sex, and Height.||-0.014|-0.076|
82499500|NCT02850965|164689664|OTHER|Missing PASI 75 at Week 24 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in PASI 75 Response Rate|2.9|||||TWO_SIDED|95.0|-8.5|12.6|||Regression, Logistic||Difference in PASI 75 Response Rate = (BI 695501 - US-licensed Humira, %).|The week 24 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 24)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI. The random error was assumed to be binomially distributed.|12.6|-8.5|
82499501|NCT02850965|164689665|OTHER||Difference of Least Squares Means|1.7|||||TWO_SIDED|95.0|-2.7|6.0|||ANCOVA|Analysis of covariance (ANCOVA)|Difference of Least Squares Means (LSM)= LSM of (BI 695501 - Humira)|Analysis of covariance (ANCOVA) was performed based on the following model: PASI percentage improvement from baseline at Week 16= Treatment + Baseline PASI +Prior exposure to a biologic agent + random error.||6.0|-2.7|
82499502|NCT02850965|164689666|OTHER|Missing sPGA at Week 16 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in sPGA <= 1 Response Rate|7.5|||||TWO_SIDED|95.0|-4.8|19.1|||Regression, Logistic||Difference in sPGA \<= 1 Response Rate = (BI 695501 - US-licensed Humira, %)|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI.|19.1|-4.8|
82499503|NCT02850965|164689667|OTHER|Missing DLQI at Week 16 data were imputed using a combination of non-responder imputation (NRI) and last observed carried forward (LOCF).|Difference in DLQI Response Rate|0.4|||||TWO_SIDED|95.0|-11.7|11.3|||Regression, Logistic||Difference in DLQI (0, 1) Response Rate = (BI 695501 - US-licensed Humira, %)|The week 16 confidence interval for the estimated difference in percentage are produced using the cumulative distribution function method of Reeve.|The statistical model: Logit (response to treatment at Week 16)=Treatment+Baseline PASI+Prior exposure to a biologic agent+random error. Model included fixed, categorical effects of treatment (BI 695501 vs US-licensed Humira) and prior exposure to a biologic agent (yes/no), continuous effect of baseline PASI.|11.3|-11.7|
82499504|NCT01767155|164689669|OTHER||Kaplan-Meier|69.8|||||TWO_SIDED|95.0|63.6|75.1||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||75.1|63.6|
82499505|NCT01767155|164689669|OTHER||Kaplan-Meier|45.8|||||TWO_SIDED|95.0|39.5|52.0||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||52.0|39.5|
82499506|NCT01767155|164689669|OTHER||Kaplan-Meier|72.1|||||TWO_SIDED|95.0|66.0|77.3||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||77.3|66.0|
82499507|NCT01767155|164689669|OTHER||Kaplan-Meier|44.6|||||TWO_SIDED|95.0|38.2|50.7||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||50.7|38.2|
82499508|NCT01767155|164689669|OTHER||Hazard Ratio (HR)|1.06||||0.5441|TWO_SIDED|95.0|0.87|1.3|||Log Rank|2-sided||A Cox model with treatment effects was used to estimate the hazard ratio and perform hypothesis testing. The estimated hazard ratio and the 95% CI of the hazard ratio were presented.||1.30|0.87|0.5441
82499509|NCT01767155|164689670|OTHER||Odds Ratio (OR)|0.87||||0.5907|TWO_SIDED|95.0|0.52|1.45|||Mantel Haenszel|2-sided test||Hypothesis testing between the two treatment arms was performed using a Mantel Haenszel test. The odds ratio and 95% CI of the odds ratio were presented.||1.45|0.52|0.5907
82499510|NCT01767155|164689671|OTHER||Kaplan-Meier|46.7|||||TWO_SIDED|95.0|39.5|53.6||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months.||53.6|39.5|
82499511|NCT01767155|164689671|OTHER||Kaplan-Meier|20.6|||||TWO_SIDED|95.0|14.6|27.4||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||27.4|14.6|
82499512|NCT01767155|164689671|OTHER||Kaplan-Meier|47.5|||||TWO_SIDED|95.0|40.0|54.7||||||Kaplan-Meier log-log transformed estimates: survivors at 6 months||54.7|40.0|
82499513|NCT01767155|164689671|OTHER||Kaplan-Meier|12.3|||||TWO_SIDED|95.0|6.9|19.3||||||Kaplan-Meier log-log transformed estimates: survivors at 12 months||19.3|6.9|
82499514|NCT01767155|164689671|OTHER||Hazard Ratio (HR)|0.89||||0.3089|TWO_SIDED|95.0|0.71|1.11|||Log Rank|2-sided||Hypothesis testing between the two treatment arms was performed using a log rank test.||1.11|0.71|0.3089
82499515|NCT01767155|164689672|OTHER||Odds Ratio (OR)|1.07||||0.6924|TWO_SIDED|95.0|0.76|1.52|||Mantel Haenszel|2-sided||Hypothesis testing between the two treatment arms was performed using a Mantel Haenszel test.||1.52|0.76|0.6924
82499516|NCT00371137|164689686|SUPERIORITY_OR_OTHER||||||>|0.001||95.0|||||Chi-squared|||Overall Comparison||||>0.001
82499517|NCT00371137|164689686|SUPERIORITY_OR_OTHER||||||<|0.001||95.0|||||Chi-squared|||Pairwise comparison of placebo and Xyrem 4.5g||||<0.001
82499518|NCT00371137|164689686|SUPERIORITY_OR_OTHER|||||||0.015||95.0|||||Chi-squared|||Pairwise comparison of placebo and Xyrem 6.0g||||0.015
82499519|NCT03010254|164689768|SUPERIORITY||Least Squares Mean Difference|-0.138|STANDARD_ERROR_OF_MEAN|0.021|<|0.001|TWO_SIDED|95.0|-0.18|-0.097||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.097|-0.180|<0.001
82499520|NCT03010254|164689770|NON_INFERIORITY|Non-inferiority margin was 0.1 logMAR.|Least Squares Mean Difference|0.037|STANDARD_ERROR_OF_MEAN|0.0115|||ONE_SIDED|97.5||0.059|||||Least squares mean difference (DFT015 - SN60WF).The 1-sided 97.5% Upper Confidence Limit is presented.|||0.059||
82499521|NCT03010254|164689771|SUPERIORITY||Least Squares Mean Difference|-0.09|STANDARD_ERROR_OF_MEAN|0.0216|<|0.001|TWO_SIDED|95.0|-0.133|-0.048||2-sided p-value reported. A hypothesis test was based on a two sample t-test, with a type I error rate of 0.025, 1-sided.|t-test, 2 sided||Least squares mean difference (DFT015 - SN60WF)|||-0.048|-0.133|<0.001
82499522|NCT03010254|164689772|OTHER||Mean difference in depth of focus|0.52|||||TWO_SIDED|||||Hypothesis testing was not pre-specified.|||Mean difference in depth of focus (DFT015 - SN60WF)|||||
82499523|NCT03010254|164689773|NON_INFERIORITY|Non-inferiority margin was -0.15 log unit|Least Squares Mean Difference|-0.179|STANDARD_ERROR_OF_MEAN|0.0551|||ONE_SIDED|97.5|-0.287||||||Least squares mean difference (DFT015 - SN60WF). The 1-sided 97.5 Lower Limit Confidence Interval is presented.|Without glare|||-0.287|
82499869|NCT03315208|164690411|SUPERIORITY||Slope|-1.96||||0.45|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term. BSI scores were binarized (0 and \>=1) for this analysis due to the non-normal distribution of this outcome.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.45
82499870|NCT03315208|164690413|SUPERIORITY||Slope|-0.19||||0.76|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||0.76
82499871|NCT03315208|164690414|SUPERIORITY||Slope|-1.07||||0.21|TWO_SIDED|||||p-value is for the model parameter of the condition-by-time interaction term.|Mixed Models Analysis||The treatment condition effect was determined by the model parameter of the condition-by-time interaction term. Due to the non-normal distribution of the Craving Scale, scores on this measure were binarized (\< 15 and \>= 15) for this analysis.|Linear mixed effects models with random intercepts (as best practice likelihood ratio tests dropping random slopes and intercepts indicated that only random intercepts should be retained) were used, with restricted maximum likelihood estimation (REML) for missing data. Analyses were intent-to-treat so included all randomized participants (n=29 in the UP+TAU group and n=18 in the TAU alone group), regardless of whether or not they completed the mid- or post-treatment assessments.||||.21
82499872|NCT03315208|164690415|SUPERIORITY||t statistic|0.29||||0.77|TWO_SIDED||||||t-test, 2 sided|||Due to the non-normal distribution of the PDA variable, this variable was treated as binary (\<50% and \>=50%) for mixed models; however, due to the small numbers of participants (\< 5) in certain cells of treatment condition (UP versus TAU) by time point, we ran into issues with convergence of linear mixed models. Thus, here we report the results from an independent samples t-test of means (percentage of past 30 days abstinent) at post-treatment (UP versus TAU).||||0.77
82499873|NCT01156311|164690457|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.92|||<|0.0001|TWO_SIDED|95.0|-1.17|-0.33|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -8, -4, and 0 to average of Weeks 16, 20, 24 MRI scans.||-0.33|-1.17|<0.0001
82499874|NCT01156311|164690457|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-1.17||||0.0124|TWO_SIDED|95.0|-1.83|-0.33|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -8, -4, and 0 to average of Weeks 16, 20, 24 MRI scans.||-0.33|-1.83|0.0124
82499875|NCT01156311|164690458|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.001|TWO_SIDED|95.0|-1.5|-0.25|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -4, and 0 to average of Weeks 20, 24 MRI scans.||-0.25|-1.50|0.0010
82499876|NCT01156311|164690458|SUPERIORITY_OR_OTHER||Median Difference (Final Values)|-0.5||||0.0339|TWO_SIDED|95.0|-1.25|0.0|||Wilcoxon signed rank test||based on Hodges-Lehmann estimate|Change from average of Weeks -4, and 0 to average of Weeks 20, 24 MRI scans.||0.00|-1.25|0.0339
82499877|NCT00982592|164690460|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.03||||0.874|TWO_SIDED|95.0|0.7|1.54|||Log Rank|||||1.54|0.70|0.874
82499878|NCT00982592|164690462|SUPERIORITY_OR_OTHER||Hazard Ratio (HR)|1.3||||0.253|TWO_SIDED|95.0|0.83|2.05|||Log Rank|||||2.05|0.83|0.253
82499879|NCT01741701|164690465|SUPERIORITY_OR_OTHER|||||||0.5|TWO_SIDED||||||t-test, 2 sided|||||||0.50
82499880|NCT01741701|164690466|SUPERIORITY_OR_OTHER|||||||0.51|TWO_SIDED||||||t-test, 2 sided|||Comparison of change between groups from baseline to 4 months||||0.51
82499881|NCT01741701|164690467|SUPERIORITY_OR_OTHER|||||||0.97|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in the change from baseline to 4 months||||0.97
82499882|NCT01741701|164690468|SUPERIORITY_OR_OTHER|||||||0.77|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in the change from baseline to 4 months||||.77
82499883|NCT01741701|164690469|SUPERIORITY_OR_OTHER|||||||0.9|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in change from baseline to 4 months||||.90
82499884|NCT01741701|164690470|SUPERIORITY_OR_OTHER|||||||0.95|TWO_SIDED||||||t-test, 2 sided|||Comparison between groups in change from baseline to 4 months||||.95
82499885|NCT00673465|164690515|SUPERIORITY_OR_OTHER||Difference in least squares mean|-4.4||||0.5269|TWO_SIDED|95.0|-18.5|9.7|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||9.7|-18.5|0.5269
82499886|NCT00673465|164690515|SUPERIORITY_OR_OTHER||Difference in least squares mean|-53.9|||<|0.0001|TWO_SIDED|95.0|-68.1|-39.8|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-39.8|-68.1|<0.0001
82499887|NCT00673465|164690519|SUPERIORITY_OR_OTHER||Difference in least squares mean|-2.81||||0.741|TWO_SIDED|95.0|-20.1|14.5|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||14.5|-20.1|0.7410
82499888|NCT00673465|164690519|SUPERIORITY_OR_OTHER||Difference in least squares mean|-63.6|||<|0.0001|TWO_SIDED|95.0|-80.9|-46.2|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-46.2|-80.9|<0.0001
82499889|NCT00673465|164690521|SUPERIORITY_OR_OTHER||Difference in least squares mean|-3.59||||0.3146|TWO_SIDED|95.0|-10.8|3.6|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||3.6|-10.8|0.3146
82499890|NCT00673465|164690521|SUPERIORITY_OR_OTHER||Difference in least squares mean|-26.6|||<|0.0001|TWO_SIDED|95.0|-33.8|-19.4|||ANOVA|ANOVA model extracting the effect due to treatment, period, sequence and participant.||||-19.4|-33.8|<0.0001
82499891|NCT01860651|164690559|OTHER||mean difference over time|-0.002||||0.22|TWO_SIDED|95.0|-0.005|0.001|||Mixed Effect Model|||"Statistical analysis of Medical adherence in study Medication adm. at home were analysed using a Mixed Effect Model (MEM). The MEM model included a random patient effect and a fixed effect interaction between group and time, to evaluate difference between the groups over time."||0.001|-0.005|0.22
82500147|NCT01897402|164690892|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|-6.0|||||TWO_SIDED|95.0|-14.6|2.6|||||Serogroup C|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||2.6|-14.6|
82500148|NCT01897402|164690892|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|-1.0|||||TWO_SIDED|95.0|-9.9|7.9|||||Serogroup Y|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||7.9|-9.9|
82500149|NCT01897402|164690892|NON_INFERIORITY_OR_EQUIVALENCE|The assumptions for the sample size calculations were: 1) Seroconversion for the control vaccine (Menactra) is 40-80% and 2) the true treatments are theoretically equal and 3) the power of detecting non-inferiority is 90%.|Percentage Difference|0.3|||||TWO_SIDED|95.0|-8.5|9.1|||||Serogroup W-135|The hypothesis was that the test vaccine is comparable to the licensed active control vaccine. Differences between treatment groups were described using exact two-sided 95% confidence intervals on differences in % seroconversion between the two treatment groups (test vaccine minus reference vaccine) for each serogroup. If the lower bound of the difference is ≥ -15%, then the test vaccine meets the preliminary criterion for non-inferiority.||9.1|-8.5|
82500150|NCT01209260|164690895|SUPERIORITY_OR_OTHER|||||||0.005||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05|t-test, 2 sided|||Sample size of 72 was targeted to achieve 80% power to detect a 5-minute reduction in transseptal access procedure time (assuming a standard deviation of 7.5 minutes), using a 2-sided alpha of 0.05, with the primary analysis done on an intention-to-treat basis.||||0.005
82500151|NCT01209260|164690897|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05|Chi-squared|||||||<0.001
82500152|NCT01209260|164690898|SUPERIORITY_OR_OTHER||||||<|0.001||||||Statistical tests were 2-sided and considered significant if they yielded a p\<0.05.|Chi-squared|||||||<0.001
82500153|NCT01648205|164690899|SUPERIORITY||Mean Difference (Final Values)|-1.6|STANDARD_DEVIATION|26.8||0.7958|TWO_SIDED|95.0|-14.1|11.0|||t-test, 2 sided|Paired t-test was used||||11.0|-14.1|0.7958
82500154|NCT01648205|164690900|SUPERIORITY||Median Difference (Final Values)|8.4|STANDARD_DEVIATION|35.9||0.3369|TWO_SIDED|95.0|-9.5|26.2|||t-test, 2 sided|Paired t-test was used||||26.2|-9.5|0.3369
82500155|NCT01804075|164690967|SUPERIORITY|||||||0.6|||||||Chi-squared|||||||0.6
82500156|NCT01702454|164691034|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|8.97|||||TWO_SIDED|95.0|6.21|12.96|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for A/Christchurch strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||12.96|6.21|
82500157|NCT01702454|164691034|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|2.7|||||TWO_SIDED|95.0|1.81|4.02|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval|The adjusted GMT of HI antibodies for A/Victoria strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||4.02|1.81|
82500158|NCT01702454|164691034|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|3.94|||||TWO_SIDED|95.0|2.89|5.37|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for B/Brisbane strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||5.37|2.89|
82500159|NCT01702454|164691034|NON_INFERIORITY_OR_EQUIVALENCE|Criterion: The lower limit (LL) of the two-sided 95% Confidence Interval (CI) for the GMT ratio is above 1|Adjusted GMT ratio|6.71|||||TWO_SIDED|95.0|5.21|8.63|||||The GMTs were used to calculate the Adjusted GMTs, which in turn were used to calculate the Adjusted GMT ratio with 95% confidence interval.|The adjusted GMT of HI antibodies for B/Hub-Wuj strain at post-vaccination dose 1, the GMT ratio of Fluarix Quadrivalent Primed Group/Fluarix Quadrivalent Unprimed Group and the 2-sided 95% CI on each GMT ratio were computed after fitting an ANCOVA model on the logarithm10 transformation of the titers, including the vaccine group as fixed effect and the pre-vaccination log-10 titer and age as regressors.||8.63|5.21|
82500160|NCT01702454|164691036|NON_INFERIORITY_OR_EQUIVALENCE|SCR difference was calculated using standardized asymptotic 95% CI for the group difference in proportion.|Difference in percentages|44.74|||||TWO_SIDED|95.0|35.87|52.84||||||To assess the immune response in terms of SCR difference at Day 7 after one dose of Fluarix Quadrivalent vaccine (2012-2013 formulation) in vaccine-primed and vaccine-unprimed subjects, for all the strains.||52.84|35.87|
82500180|NCT03510884|164691084|SUPERIORITY|Hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints were reported and independently for each dosing regimen. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Statistical significance of the primary endpoint was required before testing the first secondary endpoint for each dosing regimen independently.|LS mean difference|-45.5|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001|TWO_SIDED|97.5|-56.3|-34.7||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-34.7|-56.3|<0.0001
82500181|NCT03510884|164691084|SUPERIORITY|A hierarchical testing method was used to control type I error and handle multiple secondary endpoint analyses. Testing was then performed sequentially in the order the endpoints are reported and independently for each dosing regimen. The hierarchical testing sequence continued only when previous endpoint was statistically significant at 0.025 level. Statistical significance of the primary endpoint was required before testing the first secondary endpoint for each dosing regimen independently.|LS mean difference|-41.5|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|97.5|-52.7|-30.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline LDL-C value and Baseline value by time-point interaction. Comparison was performed using an appropriate contrast.||-30.2|-52.7|<0.0001
82500182|NCT03510884|164691085|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-37.8|STANDARD_ERROR_OF_MEAN|4.2|<|0.0001|TWO_SIDED|97.5|-47.5|-28.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-28.2|-47.5|<0.0001
82500183|NCT03510884|164691085|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-30.7|STANDARD_ERROR_OF_MEAN|4.9|<|0.0001|TWO_SIDED|97.5|-42.0|-19.4||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-19.4|-42.0|<0.0001
82500184|NCT03510884|164691086|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-40.7|STANDARD_ERROR_OF_MEAN|5.0|<|0.0001|TWO_SIDED|97.5|-52.2|-29.1||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-29.1|-52.2|<0.0001
82500185|NCT03510884|164691086|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-31.9|STANDARD_ERROR_OF_MEAN|5.3|<|0.0001|TWO_SIDED|97.5|-44.1|-19.7||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-19.7|-44.1|<0.0001
82500186|NCT03510884|164691087|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-30.8|STANDARD_ERROR_OF_MEAN|3.9|<|0.0001|TWO_SIDED|97.5|-39.8|-21.9||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-21.9|-39.8|<0.0001
82500187|NCT03510884|164691087|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-23.3|STANDARD_ERROR_OF_MEAN|4.4|<|0.0001|TWO_SIDED|97.5|-33.5|-13.1||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-13.1|-33.5|<0.0001
82500188|NCT03510884|164691088|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-38.9|STANDARD_ERROR_OF_MEAN|4.0|<|0.0001|TWO_SIDED|97.5|-48.2|-29.6||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-29.6|-48.2|<0.0001
82500189|NCT03510884|164691088|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-32.8|STANDARD_ERROR_OF_MEAN|4.3|<|0.0001|TWO_SIDED|97.5|-42.8|-22.7|||MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Apo B value and Baseline Apo B value by time-point interaction. Comparison was performed using an appropriate contrast.||-22.7|-42.8|<0.0001
82500190|NCT03510884|164691089|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-42.8|STANDARD_ERROR_OF_MEAN|4.7|<|0.0001|TWO_SIDED|97.5|-53.8|-31.8||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Non-HDL-C value and Baseline Non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-31.8|-53.8|<0.0001
82500191|NCT03510884|164691089|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-37.5|STANDARD_ERROR_OF_MEAN|4.5|<|0.0001|TWO_SIDED|97.5|-47.9|-27.0||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline non-HDL-C value and Baseline non-HDL-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-27.0|-47.9|<0.0001
82500192|NCT03510884|164691090|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-32.7|STANDARD_ERROR_OF_MEAN|3.7|<|0.0001|TWO_SIDED|97.5|-41.3|-24.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q2W versus Placebo Q2W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-24.2|-41.3|<0.0001
82500193|NCT03510884|164691090|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|LS mean difference|-27.9|STANDARD_ERROR_OF_MEAN|3.4|<|0.0001|TWO_SIDED|97.5|-35.6|-20.2||Threshold for significance at 0.025 level.|MMRM||Alirocumab Q4W versus Placebo Q4W|The MMRM model included the fixed categorical effects of treatment group (alirocumab, placebo), randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS, time point, treatment-by-time point interaction, and BW strata-by-time point interaction, as well as the continuous fixed covariates of Baseline Total-C value and Baseline Total-C value by time-point interaction. Comparison was performed using an appropriate contrast.||-20.2|-35.6|<0.0001
82500194|NCT03510884|164691091|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|77.6|||=|0.0001|TWO_SIDED|97.5|6.3|960.0||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. Logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||960.0|6.3|=0.0001
82500195|NCT03510884|164691091|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|14.9|||<|0.0001|TWO_SIDED|97.5|3.2|69.8||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. Logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||69.8|3.2|<0.0001
82500204|NCT03510884|164691096|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-5.6|STANDARD_ERROR_OF_MEAN|7.1|=|0.4288|TWO_SIDED|97.5|-21.7|10.4||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q2W versus Placebo Q2W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||10.4|-21.7|=0.4288
82500196|NCT03510884|164691092|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|26.5|||<|0.0001|TWO_SIDED|97.5|4.0|174.8||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||174.8|4.0|<0.0001
82500197|NCT03510884|164691092|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|40.9|||<|0.0001|TWO_SIDED|97.5|5.7|290.9||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||290.9|5.7|<0.0001
82500198|NCT03510884|164691093|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|52.7|||=|0.0011|TWO_SIDED|97.5|3.5|804.3||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q2W versus Placebo Q2W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||804.3|3.5|=0.0011
82500199|NCT03510884|164691093|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|43.1|||=|0.0006|TWO_SIDED|97.5|3.7|498.6||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||498.6|3.7|=0.0006
82500200|NCT03510884|164691094|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|41.3|||<|0.0001|TWO_SIDED|97.5|6.6||The percentage of participants reaching LDL-C level lower than 110 mg/dL was 0% in the placebo arm, as a result it was possible to derive the estimated odds-ratio, but the estimated confidence interval (CI) was very wide, with the upper limit estimated to Infinity, therefore upper limit of 97.5% CI was not available to report.|Threshold for significance at 0.025 level.|Exact conditional logistic regression||Alirocumab Q2W versus Placebo Q2W: Odds ratios and confidence intervals estimated from exact conditional logistic regression model.|The LOCF approach followed by exact conditional logistic regression model. The exact conditional logistic regression model stratified by randomization factors (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the quartiles of the Baseline LDL-C value.|||6.6|<0.0001
82500201|NCT03510884|164691094|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Odds Ratio (OR)|104.8|||=|0.0005|TWO_SIDED|97.5|5.2|2095.9||Threshold for significance at 0.025 level.|Regression, Logistic||Alirocumab Q4W versus Placebo Q4W: Combined estimate for odds ratio was obtained by combining the logarithm of odds ratio from logistic regression model analyses of the different imputed data sets, using Rubin's formulae.|Multiple imputation approach followed by logistic regression model. The logistic regression model stratified by randomization factors (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS included the fixed categorical effect of treatment group and the continuous fixed covariate of Baseline LDL-C value.||2095.9|5.2|=0.0005
82500202|NCT03510884|164691095|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-15.2|STANDARD_ERROR_OF_MEAN|6.7|=|0.0237|TWO_SIDED|97.5|-30.3|-0.1||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q2W versus Placebo Q2W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (previous participation \[yes or no\] to DFI14223 study, Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||-0.1|-30.3|=0.0237
82500203|NCT03510884|164691095|SUPERIORITY|Testing according to the hierarchical testing procedure (only performed if the previous endpoint was statistically significant for the considered dosing regimen).|Adjusted mean difference|-24.9|STANDARD_ERROR_OF_MEAN|8.7|=|0.0043|TWO_SIDED|97.5|-44.4|-5.4||Threshold for significance at 0.025 level.|Robust regression model||Alirocumab Q4W versus Placebo Q4W|Multiple imputation approach followed by robust regression model. The robust regression model included the fixed categorical effect of treatment group and randomization strata (Baseline BW \[\<50 or \>=50 kg\]) as per IVRS and the continuous fixed covariate of Baseline lipoprotein (a) value.||-5.4|-44.4|=0.0043
82500233|NCT02564042|164691135|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 12 has been presented|||73.2|22.2|
82500234|NCT02564042|164691135|OTHER||Proportion difference|30.4|||||TWO_SIDED|95.0|1.0|56.1|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 12 has been presented|||56.1|1.0|
82500235|NCT02564042|164691135|OTHER||Proportion difference|41.4|||||TWO_SIDED|95.0|12.7|65.0|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 12 has been presented|||65.0|12.7|
82500206|NCT00589914|164691126|NON_INFERIORITY_OR_EQUIVALENCE|The non-inferiority margin was 5 points in the change in PANSS total score i.e., lower limit of the 95% CI for difference between groups (RISPERDAL CONSTA minus paliperidone palmitate) had to be greater than -5 to demonstrate non-inferiority.|Mean Difference (Final Values)|0.4|STANDARD_ERROR_OF_MEAN|1.02|||TWO_SIDED|95.0|-1.62|2.38||No p-value to report.|ANCOVA|ANCOVA model with factors treatment, country and baseline score. Weighted approach used to account for interim analysis for sample size re-estimation.||Null hypothesis: Difference between groups (RISPERDAL CONSTA minus paliperidone palmitate) for the mean change from baseline to endpoint in PANSS total score (LOCF) was less than or equal to -5 (prespecified non-inferiority margin). Sample size: SD of 20 for the change in PANSS total score, a true difference between treatment groups of 0.1 in favor of RISPERDAL CONSTA, 2-sided significance level of 5%, and 80% power. A sample size reestimation was performed when 60% of the data was available.||2.38|-1.62|
82500207|NCT00589914|164691127|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.0|STANDARD_ERROR_OF_MEAN|0.06|||TWO_SIDED|95.0|-0.07|0.17||No P-values reported.|ANCOVA|||The change from baseline was analyzed using an ANCOVA model with factors for treatment and country and baseline score as a covariate.||0.17|-0.07|
82500208|NCT00589914|164691128|SUPERIORITY_OR_OTHER||Mean Difference (Final Values)|0.2|STANDARD_ERROR_OF_MEAN|0.74|||TWO_SIDED|95.0|-1.22|1.69||No P-values reported.|ANCOVA|||The change from baseline was analyzed using an ANCOVA model with factors for treatment and country and baseline score as a covariate.||1.69|-1.22|
82500209|NCT01737944|164691131|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A - SC injection with the Vibex MTX device and Treatment B - SC injection without the device was established if the 90% CI for the geometric LS Mean ratios of AUC(0-inf)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.24|||||TWO_SIDED|90.0|92.33|100.31||||||||100.31|92.33|
82500210|NCT01737944|164691131|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-inf)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|101.28|||||TWO_SIDED|90.0|97.17|105.56||||||||105.56|97.17|
82500211|NCT01737944|164691132|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment B-SC injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-24)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.22|||||TWO_SIDED|90.0|92.32|100.28||||||||100.28|92.32|
82500212|NCT01737944|164691132|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of AUC(0-24)/Dose were within the range of 80% to 125%.|Test / Reference Ratio|101.14|||||TWO_SIDED|90.0|97.06|105.4||||||||105.40|97.06|
82500213|NCT01737944|164691133|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment B-SC injection without the device was established if the 90% CI for the geometric LS Mean ratios of Cmax/Dose were within the range of 80% to 125%.|Test / Reference Ratio|96.76|||||TWO_SIDED|90.0|87.93|106.47||||||||106.47|87.93|
82500214|NCT01737944|164691133|NON_INFERIORITY_OR_EQUIVALENCE|The bioequivalence of Methotrexate following Treatment A-SC injection with the Vibex MTX device and Treatment C-IM injection was established if the 90% CI for the geometric LS Mean ratios of Cmax/Dose were within the range of 80% to 125%.|Test / Reference Ratio|89.79|||||TWO_SIDED|90.0|81.61|98.78||||||||98.78|81.61|
82500215|NCT02564042|164691134|OTHER||Proportion difference|54.7|||||TWO_SIDED|95.0|25.9|76.6|||||Difference between GSK2894512 1% BID and Vehicle BID has been presented|||76.6|25.9|
82500216|NCT02564042|164691134|OTHER||Proportion difference|51.0|||||TWO_SIDED|95.0|22.2|73.2|||||Difference between GSK2894512 1% QD and Vehicle QD has been presented|||73.2|22.2|
82500217|NCT02564042|164691134|OTHER||Proportion difference|35.6|||||TWO_SIDED|95.0|6.3|60.5|||||Difference between GSK2894512 0.5% BID and Vehicle BID has been presented|||60.5|6.3|
82500218|NCT02564042|164691134|OTHER||Proportion difference|30.7|||||TWO_SIDED|95.0|1.6|55.9|||||Difference between GSK2894512 0.5% QD and Vehicle QD has been presented|||55.9|1.6|
82500219|NCT02564042|164691135|OTHER||Proportion difference|2.9|||||TWO_SIDED|95.0|-21.0|26.6|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 1 has been presented|||26.6|-21.0|
82500220|NCT02564042|164691135|OTHER||Proportion difference|6.3||||||95.0|-20.5|32.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 2 has been presented|||32.4|-20.5|
82500221|NCT02564042|164691135|OTHER||Proportion difference|15.2|||||TWO_SIDED|95.0|-9.6|39.1|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 2 has been presented|||39.1|-9.6|
82500222|NCT02564042|164691135|OTHER||Proportion difference|3.3|||||TWO_SIDED|95.0|-23.6|29.9|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 2 has been presented|||29.9|-23.6|
82500223|NCT02564042|164691135|OTHER||Proportion difference|3.1|||||TWO_SIDED|95.0|-22.2|28.1|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 2 has been presented|||28.1|-22.2|
82500224|NCT02564042|164691135|OTHER||Proportion difference|27.6|||||TWO_SIDED|95.0|-0.5|52.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 4 has been presented|||52.4|-0.5|
82500225|NCT02564042|164691135|OTHER||Proportion difference|25.8|||||TWO_SIDED|95.0|-0.4|49.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 4 has been presented|||49.3|-0.4|
82500226|NCT02564042|164691135|OTHER||Proportion difference|9.2|||||TWO_SIDED|95.0|-18.4|35.7|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 4 has been presented|||35.7|-18.4|
82500227|NCT02564042|164691135|OTHER||Proportion difference|6.3|||||TWO_SIDED|95.0|-19.7|31.7|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 4 has been presented|||31.7|-19.7|
82500228|NCT02564042|164691135|OTHER||Proportion difference|45.0|||||TWO_SIDED|95.0|16.6|68.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 8 has been presented|||68.4|16.6|
82500229|NCT02564042|164691135|OTHER||Proportion difference|37.0|||||TWO_SIDED|95.0|8.7|61.3|||||Difference between GSK2894512 1% QD and Vehicle QD at Week 8 has been presented|||61.3|8.7|
82500230|NCT02564042|164691135|OTHER||Proportion difference|32.0|||||TWO_SIDED|95.0|3.5|57.2|||||Difference between GSK2894512 0.5% BID and Vehicle BID at Week 8 has been presented|||57.2|3.5|
82500231|NCT02564042|164691135|OTHER||Proportion difference|34.4|||||TWO_SIDED|95.0|6.3|58.7|||||Difference between GSK2894512 0.5% QD and Vehicle QD at Week 8 has been presented|||58.7|6.3|
82500232|NCT02564042|164691135|OTHER||Proportion difference|49.4|||||TWO_SIDED|95.0|20.1|72.4|||||Difference between GSK2894512 1% BID and Vehicle BID at Week 12 has been presented|||72.4|20.1|
82500425|NCT02392247|164691614|SUPERIORITY_OR_OTHER||Slope|3.1|||<|0.001|TWO_SIDED|95.0|2.9|3.4||This study was not designed to determine which method is 'superior'. Statistical significance refers to deviation of slope for perfect agreement (=1) between paired measurements to quantify strength of association .|Deming regression|Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|Slope measured deviation from 1:1 concordance between SEER and TEG with TEG as denominator. Confidence intervals were obtained by bootstrapping 1000 times on the parameters estimates for the slopes, intervals and correlation coefficients|A cohort of 50 patients was estimated to capture at least 7 'bleeding' patients with a likelihood of 95%, assuming a 25% incidence of bleeding, and standard deviation of 20%, to determine maximum clot stiffness within +/- 10% of the mean. This was a descriptive and method-comparison study. Method comparisons were performed according to Clinical Laboratory Science Institute (CLSI) guidelines (Deming regression on paired measurements )||3.4|2.9|<0.001
82500426|NCT01991067|164691618|OTHER|Furthermore, a multivariable logistic regression model was applied accounting for group as well as age, body mass index, and gender as possible influence factors.|||||<|0.001||||||The threshold for statistical significance was a p-value of \<0.05.|Fisher Exact|||The calculation of the sample size was performed using nQuery 6.1. The primary endpoint was the outcome of the NT 4 weeks after the second vaccination. A Fisher exact tes was calculated to analyze the primary hypothesis on the difference in NT-titer response between patients and controls||||<0.001
82500427|NCT01991067|164691619|OTHER|||||||0.02|||||||Fisher Exact|||A Fisher exact test was calculated to analyze antibody response by ELISA between patients and controls. To measure the Agreement between the NT and ELISA response, Cohens Kappa and the corresponding 95% confidence interval were calculated||||0.02
82500428|NCT01991067|164691620|OTHER||||||<|0.01|TWO_SIDED|95.0|||||Wilcoxon (Mann-Whitney)|||"For titer values the geometric mean was calculated and the corresponding two-sided 95% confidence intervals were constructed by back-transfomration of the CI for the mean of the logarithmically transformed results.~To investigate the difference in absolute titer values and geometric mean fold changes between time point and Groups, Wilcoxon tests were performed."||||<0.01
82500429|NCT02068443|164691636|SUPERIORITY_OR_OTHER_LEGACY||LS Mean Difference|-0.65|STANDARD_ERROR_OF_MEAN|0.087|||TWO_SIDED|95.0|-0.821|-0.48|||||Estimated Value was for the difference between Alogliptin + Metformin Hydrochloride QD and Alogliptin alone (Metformin QD - Alogliptin alone).|||-0.480|-0.821|
82500430|NCT02068443|164691636|NON_INFERIORITY_OR_EQUIVALENCE_LEGACY|Non-inferiority of Alogliptin + Metformin Hydrochloride QD to Alogliptin + Metformin Hydrochloride BID.|LS Mean Difference|0.11|STANDARD_ERROR_OF_MEAN|0.069|||TWO_SIDED|95.0|-0.026|0.247|||||Estimated Value was for the difference between Alogliptin + Metformin Hydrochloride QD and Alogliptin + Metformin Hydrochloride BID (Metformin QD - Metformin BID).|||0.247|-0.026|
82500431|NCT02771990|164691654|OTHER|Pilot study|z-score|3.11||||0.002|TWO_SIDED||||||Regression, Linear|||||||0.002
82500432|NCT02771990|164691655|OTHER|Pilot study||||||0.67|||||||Regression, Linear|||||||0.67
82500433|NCT02014597|164691657|OTHER|||||||0.0583||||||Scotopic logCS|Kruskal-Wallis|||||||0.0583
82500434|NCT02014597|164691657|OTHER|||||||0.1762||||||Photopic logCS|Kruskal-Wallis|||||||0.1762
82500435|NCT02014597|164691658|OTHER|||||||0.183||||||Scotopic|Pearson correlation|||Correlation between logCS and MD.||||0.183
82500436|NCT02014597|164691658|OTHER|||||||0.771||||||Photopic|Pearson correlation|||Correlation between logCS and MD.||||0.771
82500437|NCT02014597|164691658|OTHER|||||||0.492||||||Scotopic|Pearson correlation|||Correlation between logCS and PSD.||||0.492
82500438|NCT02014597|164691658|OTHER|||||||0.83||||||Photopic|Pearson correlation|||Correlation between logCS and PSD.||||0.830
82500439|NCT02282020|164691684|SUPERIORITY||Odds Ratio (OR)|2.53||||0.002|TWO_SIDED|95.0|1.4|4.58|||Regression, Logistic|Model includes a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months)|An odds ratio \>1 favours the olaparib arm|||4.58|1.40|0.002
82500440|NCT02282020|164691685|SUPERIORITY||Hazard Ratio (HR)|0.62||||0.013|TWO_SIDED|95.0|0.43|0.91||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.91|0.43|0.013
82500441|NCT02282020|164691686|SUPERIORITY||Hazard Ratio (HR)|0.8||||0.229|TWO_SIDED|95.0|0.56|1.15||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.15|0.56|0.229
82500442|NCT02282020|164691687|SUPERIORITY||Hazard Ratio (HR)|1.07||||0.714|TWO_SIDED|95.0|0.76|1.49||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.49|0.76|0.714
82500443|NCT02282020|164691688|SUPERIORITY||Hazard Ratio (HR)|0.59||||0.005|TWO_SIDED|95.0|0.41|0.85||Determined using a log-rank test with a factor for time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \<1 favours the olaparib arm|||0.85|0.41|0.005
82500444|NCT02282020|164691689|SUPERIORITY||Hazard Ratio (HR)|0.49|||<|0.001|TWO_SIDED|95.0|0.35|0.69||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.69|0.35|<0.001
82500445|NCT02282020|164691690|SUPERIORITY||Hazard Ratio (HR)|0.75||||0.089|TWO_SIDED|95.0|0.53|1.05||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||1.05|0.53|0.089
82500446|NCT02282020|164691691|SUPERIORITY||Hazard Ratio (HR)|0.2|||<|0.001|TWO_SIDED|95.0|0.14|0.29||Model included factors for number of prior chemotherapy regimens received for ovarian cancer (2 or 3 prior lines vs 4 or more lines) and time to disease progression after the end of last platinum based chemotherapy (6-12 months vs \> 12 months).|Log Rank||A hazard ratio \< 1 favours the olaparib arm|||0.29|0.14|<0.001
82500447|NCT02282020|164691694|SUPERIORITY||Mean Difference (Final Values)|2.5||||0.108|TWO_SIDED|95.0|-0.5|5.5|||Mixed Models Analysis|Model includes factors for patient, treatment, visit, treatment by visit interaction, baseline TOI score and baseline TOI score by visit interaction.||||5.5|-0.5|0.108
